Gene ID	Length(bp)	Gene name	COG	Product	Nucleotide seq	Protein seq	PGPT:Locus Tag	PGPT:Effect	PGPT:L1	PGPT:L2	PGPT:L3	PGPT:L4	PGPT:L5	PGPT:L6
BMS010_00001	1215			hypothetical protein	ATGCTGACCCCCTACGCAGAAATCCAGGTCGCCGACATCATCCGCGACCACGCAACCCGAAAAGCCGCGCTGAAAATCATCGGCGGCAACACCCGCTCCGGTTTCGGCAATGCTGTCGTAGCAGATGAAGCACTCTCTTCCCGCGCGATGAACGGCATCGTCTCCTACCTGCCCGCCGAAATGGTCATGACCGTCAAGGCCGGAACCCCGCTCGCAACCGTCAAAGCCGCCCTTGCAGAAAACCGCCAGATGATGGCCTTCGAGCCGATGGATCACCGCCCGATCATGGGCACCGAAGGTGAACCGACCATCGGCGGCGTCTTCGCCGCCAATGTTTCCGGCCCCCGCCGTTATGTGGCCGGTGCGGCCCGCGACAGCCTGCTCGGCATCCGTTTCGTCAACGGCAGCGGTGAGGTCATCAAGGCCGGGGGCCGGGTGATGAAGAATGTCACCGGGCTCGATCTGTCGAAATTCCTCGCCGGGTCTTTCGGCACGCTCGGTTTCCTCACCGAAGTCACCTTCCGCGTGCTGCCGAAACCGCCTGCGGAAAAAACCGTGGTCGTTTCCGGGCTCGACGATGAAGCGGCGACGCGCATCATGGCGGCGGCGATGGCGATGAGCGTCGAGGTTTCCGGCGCGGCGCATCTGCCGGAAAGCGTTCGTTCCCGTTTCATCGATGGCGGATTGCCGGACGGCCCGGCGACTATCCTGCGGCTGGAAGGGCTCTCCGCCTCGGTGGAGGCGCGCACGGCCAAACTCCTTTCCGTCATGGACCGGGTCGGGCCGTGGGCGCTGCTGGAGGGCGAGGAGAGCAGGCTTTTGTGGCGTCAGGTGCGCGATGTCGCGCCCTATGTCGGACAGGCGGCAAAGCCCTTGTGGAAAGTATCGGTCGCGCCTTCGGTTGGTCATCAGCTTGTCGCGGCGCTGCGCATGGAAGCGGGCATCGACGCCTTTTACGACTGGCAGGGCGGCCTTGTCTGGATGCAGATGGAGGCGGACCCCGAGGCGGATTTGCTGCGCGGCGCGATCCGGGCGCTCGGCGGCGGCCACGCGACGTTGGTGAGGGCGAGCGATGCGGTGCGCGCCACGGTCGCTGCCTTCGAACCGCGCCTGGCGGCGGAAGCGCTGCTTTCTGCGCGTATCAGGGAGAAGCTCGATCCGGCGGGCATCTTCAATCCCGGCAAGGTGGCCGTGACGATGGAAAGGGCCGTCTGA	MLTPYAEIQVADIIRDHATRKAALKIIGGNTRSGFGNAVVADEALSSRAMNGIVSYLPAEMVMTVKAGTPLATVKAALAENRQMMAFEPMDHRPIMGTEGEPTIGGVFAANVSGPRRYVAGAARDSLLGIRFVNGSGEVIKAGGRVMKNVTGLDLSKFLAGSFGTLGFLTEVTFRVLPKPPAEKTVVVSGLDDEAATRIMAAAMAMSVEVSGAAHLPESVRSRFIDGGLPDGPATILRLEGLSASVEARTAKLLSVMDRVGPWALLEGEESRLLWRQVRDVAPYVGQAAKPLWKVSVAPSVGHQLVAALRMEAGIDAFYDWQGGLVWMQMEADPEADLLRGAIRALGGGHATLVRASDAVRATVAAFEPRLAAEALLSARIREKLDPAGIFNPGKVAVTMERAV				NA	NA	NA	NA	NA
BMS010_00002	1302	lutA_1		Lactate utilization protein A	ATGCAAACATCCTTCACGCCCGAACAACTGGCCGATCCGCATGTGGCGGAATCCGAAAAAATCCTGCGCAAATGTGTGCATTGCGGCTTCTGCACCGCCACCTGTCCCACCTATGTCACACTCGGCAACGAACTGGACAGCCCGCGCGGCCGCATCTACCTCATCAAGGACATGCTGGAAAACAGCCGCCCGGCAGACCGCGAGGTCGTCACCCATATCGACCGCTGTCTTTCCTGCCTTGCCTGCACCACCACCTGTCCCTCCGGCGTGGATTACATGCATCTGGTCGATCATGCCCGCGCCCATATCGAACAGACCTACAAGCGCCCTTTCATGGATCGGCTGACCCGCAATCTTCTGGTTGCCGTCCTACCCCATCCCGCCCGTTTCCGGCTGGCCCTGCATCTGGCCCGGCTGGCGCGGCCTTTCTCCGGTCTGCTTGCCAAAGTTCCGGCGCTGAAGCCGCTGCAATCCATGCTCGCTCTCGCCCCCGCCGCCGTGCCTGCGGCCTCCGCGTCAACCCGTCCGGGAGAGCGGCCGGCCGAGGGCGAGAAGCGTGGACGCGTTGCGATCCTCACCGGTTGCGCCCAGCCGGTGCTCGATCCCGGTATCAACGAGGCGACGTTGCGCCTGCTTGCGCGGCTCGGCATCGAGGTCGTGGTGCCGAAGGGGGAGGGCTGTTGCGGTTCGCTGGTGCATCATATGGGCCGCGAGGAAGAGGCGCTCGCCTCGGCAAGGCGCAATGTCGATGTCTGGACGCGTGAGATGGAAAGCGGCGGTCTCGACGCCATCATCATCACCGCTTCCGGCTGCGGCACCACCATCAAGGATTACGGTCACATGCTGCGGCTCGATCCAGCCTATGCCGAAAAAGCCGCGCGGGTCTCGGCGCTCGCAAAGGACATCACTGAATATCTCGCCACCCTCGATCTGCCGCAAGGGCAAAGCCAGGGTCTCACGGTCGCCTATCATTCTGCCTGCTCCATGCAGCATGGCCAGAAGATCACGCTTGCGCCGAAACAACTCCTGAAGGCGGCGGGTTTTACCGTGCGCGATCCGGCGGAAGGGCATCTCTGCTGCGGCTCGGCCGGAACCTACAACATCCTGCAGCCGGAGATTTCCGCCAGGCTCAAGGCGCGCAAGGTGAAGAATATCGAGGCCACCCAGGCGGATGTCATCGCCACCGGCAATATCGGCTGCATCACGCAGATCGGAACCGGCACGGATATGCCTATCCTGCACACGGTGGAGCTGCTGGACTGGGCCTATGGCGGGCCGAAACCGGCGAGGCTTTTGGTTTAG	MQTSFTPEQLADPHVAESEKILRKCVHCGFCTATCPTYVTLGNELDSPRGRIYLIKDMLENSRPADREVVTHIDRCLSCLACTTTCPSGVDYMHLVDHARAHIEQTYKRPFMDRLTRNLLVAVLPHPARFRLALHLARLARPFSGLLAKVPALKPLQSMLALAPAAVPAASASTRPGERPAEGEKRGRVAILTGCAQPVLDPGINEATLRLLARLGIEVVVPKGEGCCGSLVHHMGREEEALASARRNVDVWTREMESGGLDAIIITASGCGTTIKDYGHMLRLDPAYAEKAARVSALAKDITEYLATLDLPQGQSQGLTVAYHSACSMQHGQKITLAPKQLLKAAGFTVRDPAEGHLCCGSAGTYNILQPEISARLKARKVKNIEATQADVIATGNIGCITQIGTGTDMPILHTVELLDWAYGGPKPARLLV				NA	NA	NA	NA	NA
BMS010_00003	660			hypothetical protein	ATGCCGCGCCATAGTTTATTTGTTTGCGCCCTGCTGTTCAGCGGCGTTTCCTTCTCTGCCGCAATCGCGGGCGAATTTGAAATCTCCGGTTATGGCGGCTGGCAAAGCGCGCCGCACAGCGATGTGAAGGTTTCCGACGGGCCGGATTTCCGGGCCGGATGGGAAGGCAAGTCGTTTTCCAACCCGCCCTATTGGGGCGTGCGCGGCACCTACTGGTTCGATGAGGGCCAGCTGCGGAATTTCGGTATTTCGCTCGATTTTACCCATGACAAGGTCTATGCCGACGACCAGACGCTTGCCCGCTCCGGCTGGTCGCATTTCGAATTCACCGACGGCCTGAACCTTCTGACGCTCAACGCGCTCTATCGTTTTCCGCTGGAATCGCTGCCGATCACCCCTTACGTGGGCGCCGGCGTCGGCATCAACGTGCCGCATGTGGAAGTATATCGCCCGTCAGGCAAGACCTTCGAATACCAGTTCGGCGGCGCAACCCTGCAGGCGCAGGCCGGCCTCAGCTACCGCATCACCGACAATTGGTCGACCTTCGTGGAATATAAGGGCACCTATTCCTTCGTCGACGTCGATATCGACAATGGCGGCTCGTTGAAGACCGATATCATCACCAATGCGGTGAATTTCGGCGTGGCGTATAAGTTCTAA	MPRHSLFVCALLFSGVSFSAAIAGEFEISGYGGWQSAPHSDVKVSDGPDFRAGWEGKSFSNPPYWGVRGTYWFDEGQLRNFGISLDFTHDKVYADDQTLARSGWSHFEFTDGLNLLTLNALYRFPLESLPITPYVGAGVGINVPHVEVYRPSGKTFEYQFGGATLQAQAGLSYRITDNWSTFVEYKGTYSFVDVDIDNGGSLKTDIITNAVNFGVAYKF	PGPT0022400_55	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022400-lpxQ-K12980	NA	NA
BMS010_00004	777			hypothetical protein	ATGACGATGAAGTCCGTTTTTCTGGCGCTGAGCCTCGTTTCCACCTTTGCCGCCACGGCCGCCATGGCCAATGAGCGTTATCGCGAGCGCCCGCCCGTAGTCGTCAGCCCGGATCTTTCCGCCCCCTGGGTCACTCAGCTCGGCGGTCGCGGCAATGTGCGCCCCGTGGTTTATCCGCGCGCACCTGCCGCACGCCAGCCGTTCTTCCAGCAGCGCCAGGCCGCCATGCCGCAGCGCCCCAGCTCCGGCGTCACATCGCAGCGCCCGGCACGGGTGCAGAATGCCGCCGTCCGCCCCAATGCGCCGGTGCGCACCCAGATCGCGCCGCAATTCCTGCCGCAGATCGTCACCTACCCGACCAATGAAAAACCCGGCACCATCGTCATCGATACGCCGAACCGTTTCCTCTATCTCGTGCTCGCCGATGGCAAGGCCCGGCGGTACGGCGTTGGCGTCGGAAAGCCCGGTTTCGAATGGGCCGGCACCCACAAGGTAACCCGCAAGGCGGAATGGCCGAGCTGGACCCCGCCGAAGGAAATGATCAGCCGCGAGGCGAGGAAGGGACACTATCTGCCGGCCTTCATGGAAGGCGGCCCGGCGAACCCGATGGGCGCGCGCGCCATGTATCTCGGCTCGACGCTTTATCGCATCCACGGCACCAACCAGCCGTGGACGATCGGCAGCAACAATTCCTCCGGCTGCATCCGCATGCGCAACGAGGATGTCACCGATCTTTACGAGCGCGTCAACGTCGGAACCAAGGTCATTGTGATATGA	MTMKSVFLALSLVSTFAATAAMANERYRERPPVVVSPDLSAPWVTQLGGRGNVRPVVYPRAPAARQPFFQQRQAAMPQRPSSGVTSQRPARVQNAAVRPNAPVRTQIAPQFLPQIVTYPTNEKPGTIVIDTPNRFLYLVLADGKARRYGVGVGKPGFEWAGTHKVTRKAEWPSWTPPKEMISREARKGHYLPAFMEGGPANPMGARAMYLGSTLYRIHGTNQPWTIGSNNSSGCIRMRNEDVTDLYERVNVGTKVIVI				NA	NA	NA	NA	NA
BMS010_00005	630	tag_1	COG2818	DNA-3-methyladenine glycosylase 1	ATGAATGAAGCGGGACTTGAAACGGGCGCGGATGGCCTTGTGCGGTGTTTCTGGCAGCAGGGGCTTGCGGATTACAGCCGTTACCACGACGAGGAATGGGGTTATCCCGTCACCGACGATCGCCGCCTTTTCGAGAAGATCTGTCTGGAAGGTTTCCAGTCCGGCCTTTCCTGGCTGACGGTTCTGCGCAAGCGCGAGGCGTTCCGTCTCGCCTTCGCCAACTTCGAATTCGAAAAAGTGGCGGAATTCGGTGAGGCCGATATCGAGCGATGCCTTGCCGACAAGGGCATCATCCGCCATCGCGGCAAGATCGTGTCGACCATCAACAATGCCCGCCGCGCCATGGAGTTGCGCGATGAATTCGGTTCGCTCGCCCGTTATTTCTGGGGTTTCGAACCGGCCGCCGCAGAAAGGCCGCAAAGGCTGGACTATGCGACGTTAAGGGCCAACCCCACCAGCGACGCCTCCATTCGCCTTTCGAAGGACCTGAAGAAGCGGGGCTGGAGTTTCGTCGGCCCGACGACCGTCTATGCATTCATGCAGGCCATGGGTATGGTCAACGACCATATCGAAGGCTGTCATTGCCGCCAGCCGATAGAGGCCATGCGGCGGGAGTTTGTACGTCCATGA	MNEAGLETGADGLVRCFWQQGLADYSRYHDEEWGYPVTDDRRLFEKICLEGFQSGLSWLTVLRKREAFRLAFANFEFEKVAEFGEADIERCLADKGIIRHRGKIVSTINNARRAMELRDEFGSLARYFWGFEPAAAERPQRLDYATLRANPTSDASIRLSKDLKKRGWSFVGPTTVYAFMQAMGMVNDHIEGCHCRQPIEAMRREFVRP				NA	NA	NA	NA	NA
BMS010_00006	444			hypothetical protein	ATGAAGGTAACCTCCCTTTTTCTGGCTCTCACCATGGCCGTGGCCGCCGTGCCGCATGCTTCCTTCGCGGAAGGCCGCAATGTCGACGGTATCTGGCTCGATGACGGCGAAAGGCTGAAGCAGGTGGCGCTGCCGCCGGCCGGGCCGCTGAAGCTTGACGGCTGGACGCGGCGCGGGCGCGGCGATGTCTATCGCCTGAAGGTGAAGGCCGGGCAGACGGTGAAGATCGAGCTTGCCGCTTCCAGCGAATTCGTGCTGATGGCGGTCTTCGACTTTTCGACGCCGGATGACGACGCGATCTTCTTCAGCGATTCCGAAGGCAAGATCGCAACCCTGACGCCGAAGGCGGATACGGAGTGGCTGATCCGCCCGACGCTCATCCTGGGATCGCCACGCCGCGGTCTCGGCGCGCACTACACGCTGACGGTCAGCACCGGGAAATAA	MKVTSLFLALTMAVAAVPHASFAEGRNVDGIWLDDGERLKQVALPPAGPLKLDGWTRRGRGDVYRLKVKAGQTVKIELAASSEFVLMAVFDFSTPDDDAIFFSDSEGKIATLTPKADTEWLIRPTLILGSPRRGLGAHYTLTVSTGK				NA	NA	NA	NA	NA
BMS010_00007	1044			hypothetical protein	ATGGCACAACATCGCACCCTCGCTCATCCCTTTCAGTTTTCGCTTCGCTGGCTCACCCCGCTTCTGCCGGGCATTCTCATCTGCGCGGCGGTCAGCTGCGCCGCCATTCTGGCGGAGCGCTTTCAGGTGCGGCTTGCAGGCCATGCATGGCTCGGCGATCTGGTGCTCGCCATTCTGATCGGCACGCTGCTGCGTTCGCTGGTGTCTCTGCCCGCGGTTGCCTCGGCCGGCATCAAATTCAGCGCCAAGACGCTGCTTGAAATCGCGGTGGCGCTTCTCGGCGCATCCTTGAGCCTCTCCATCCTCAAAGGTGCCGGCGGTTTGCTGATCGGCGGCATTGCGCTGATCGTGGCGCTGTCGCTGATCGTCAGCTATGCCGCCGGGCGGATGCTCGGTCTGCCGCCCAAGCTTGCGACGCTGATCGCCTGCGGCAACTCCATCTGCGGCAATTCCGCGATTGCCGCCGCCGCACCCGCCATCGGCGCCAAGCCGGAAGATGTCGCCGCCTCGATTGCCTTCACGGCCGTTCTCGGCGTCGCCGCCGTGCTGCTGATGCCGTTCCTGCCGCAGCTTCTGGGTCTCGACGCCACCCAATATGGCATCTTTGCCGGCCTGACGGTCTATGCCGTGCCGCAGGTTCTGGCCGCTACAGCCCCGCTTGGCGCAATCGCCGTGCAGACCGGCACCATCGTCAAGCTCATCCGCGTGCTGATGCTGGGGCCTGTGATCGCCGCCCTCTCCGTCATCCATGGCCAGTCCGGCGCGGAACGCCTGAGATTGCAGCAGATGGTTCCGTGGTTCATCATCGCCTTCGTGCTGATGATCATGGCCCGGTCCTTCGGCATCATTCCCGAGGCTCTGATCGGCCCTGTCGCCTCGCTTTCCAACATTCTCACCATCATGTCGATGGCGGCACTGGGCCTTTCGGTCGATATTCGCAGCCTTCGCCATGCAGGCGGCAAGGTTATCATCGCCGCCAGCCTTTCGCTCGTGCTGCTTGGTGTCTTGAGTTTCGGCCTGATCGTGCTGACCCAGGCGGCCTAG	MAQHRTLAHPFQFSLRWLTPLLPGILICAAVSCAAILAERFQVRLAGHAWLGDLVLAILIGTLLRSLVSLPAVASAGIKFSAKTLLEIAVALLGASLSLSILKGAGGLLIGGIALIVALSLIVSYAAGRMLGLPPKLATLIACGNSICGNSAIAAAAPAIGAKPEDVAASIAFTAVLGVAAVLLMPFLPQLLGLDATQYGIFAGLTVYAVPQVLAATAPLGAIAVQTGTIVKLIRVLMLGPVIAALSVIHGQSGAERLRLQQMVPWFIIAFVLMIMARSFGIIPEALIGPVASLSNILTIMSMAALGLSVDIRSLRHAGGKVIIAASLSLVLLGVLSFGLIVLTQAA				NA	NA	NA	NA	NA
BMS010_00008	918	cysL_1	COG0583	HTH-type transcriptional regulator CysL	ATGACCTTCGAACAACTCCGCATCTTCATCGCCGTTGCCGAACGCGAGCACCTTACAAGGGCCGCCGAAGCCATCGGTTTGACCGCCTCCGCCGTCAGCTCCGCCATCAAGAATCTCGAGGCCTTTTATAATGTCGAGCTGTTCCATCGCGTCGGCCGCAACATCGAACTGACGGAAAGCGGCCGGGCGTTTCTGGGCGAAGCGAAGGCGACGCTGGCGCGTGTGCGCAATGCGGAATTGATTCTCTCTGAAATGGGTGGGCTGACGCGCGGCGAAATCACCGTCTGCGCCAGCCAGACGATTGCAAGCTACTGGCTGCCGCCGATCCTGATGCAGTTCAAGAAGCTTTATCCGGGCGTGACCGTGCGGCTCGATATCGGCAATACCAAGACGGTTACACAGGCCGTGCTTGACGGTCTGGCAGAGGTCGGTTTCATCGAAGGCAGGATCGATGAGCCGGCTTTGATGGTGCAGCCCGTCGTGTCCGACAAGCTGCTGGTGGTCACCGGTTCGGCCCACCCTTTCGCGGATGGCCGTTATCTCACCGCGCTCGATATGCTCTACGGCACCTCATGGGTTCTGCGCGAACAGGGCTCTGGCACCCGCTCCGCCTTCGAGGCGGCGGTGCGGCAGATGGGGGTGGACCCCGCTGAACTGTCCGTCATGCTGGAACTGCCGTCCAATGAGGCGGTGGTGATGGCGGCACGCTCCGGCGGCGCGGCCACGGCAGTTTCCGCCTCCGTCGCCTCGCTGTTTCTACGGCAGGGGCTGCTGGTCCGAGCCGGCATCGATTTGCCTGCCCGCAACTTTGCTTTGCTGCGCCACAAGGAACGCCATACCAGCCGGGCGGCCATGGAGCTGGAGCGCCTCAGCCGTGCGGCCTCGGAGGACTACAAGGCCGGTCTCGCGGGGTTGTAA	MTFEQLRIFIAVAEREHLTRAAEAIGLTASAVSSAIKNLEAFYNVELFHRVGRNIELTESGRAFLGEAKATLARVRNAELILSEMGGLTRGEITVCASQTIASYWLPPILMQFKKLYPGVTVRLDIGNTKTVTQAVLDGLAEVGFIEGRIDEPALMVQPVVSDKLLVVTGSAHPFADGRYLTALDMLYGTSWVLREQGSGTRSAFEAAVRQMGVDPAELSVMLELPSNEAVVMAARSGGAATAVSASVASLFLRQGLLVRAGIDLPARNFALLRHKERHTSRAAMELERLSRAASEDYKAGLAGL				NA	NA	NA	NA	NA
BMS010_00009	375			hypothetical protein	ATGTCTATCAAGACCATTACGCTCGCCGCCGCTTTTGCGGCCTCTCTCGCCATGCCCGTTCTCGCACAGGAAGCGGGCGGACATGCCGGACATGACATGTCAAAAGGCAGTATGAGCGACAGCGCTTCCACCAAGGCCTTCATGGAAGCCAGCAAGAAGATGCATGGCGATATGGCCATCGATTATAGCGGCGATTCCGATGTCGATTTCGTGCGCGGCATGATCCCGCACCATCAGGGCGCAATCGACATGGCCAAGGTCCAGCTCGAATACGGCAAGGACCCGGAAATCCGCAAGCTGGCCGAAGAGGTCATCAAGGCGCAGGAAGGCGAGATCGCCATGATGAAGGCCTGGCTGAAGTCCAAGGGCAAGTGA	MSIKTITLAAAFAASLAMPVLAQEAGGHAGHDMSKGSMSDSASTKAFMEASKKMHGDMAIDYSGDSDVDFVRGMIPHHQGAIDMAKVQLEYGKDPEIRKLAEEVIKAQEGEIAMMKAWLKSKGK				NA	NA	NA	NA	NA
BMS010_00010	105			hypothetical protein	ATGCCCGAGGCCATCGGCATGCTCATCGCCATCTGCGCCGGCATTGCGCCGTATAGCAGGCAGGCAAGGAACATCAATGTGCGGACCACCTGGGACATGGCGTGA	MPEAIGMLIAICAGIAPYSRQARNINVRTTWDMA				NA	NA	NA	NA	NA
BMS010_00011	765			hypothetical protein	ATGATCCTCGAAGCCCTGCAATATGCCGCCACGCGCGCGGTCACGCCGAAAGAATTCCGGCCGCATATCCGCTATTCTGTCAACCTGTGGGCGCGCGCCAACCGCTGCGCCAAAGCCTGGGCGGAGCATGAAAACAACAGCCGGCAATTCGTGCTGCAATCGGCCAGAAAGCTGAAGCAGCGGCGAACGGCCGTCGTGCTGGGGTCTGGCCTGTTACGCGATGTGCCCTATGATGCGCTGGTGGCGATGTTCGATACGGTCGTGCTGGTCGATCTGGTGCATCTCGCCAGCGTGCAGGCGAAGCTGCGCCTCAATGCGAAAAAGAATGTCCGCATCGCCAATCGCGATCTTTCCGGTTTTGACGACGCTATCGACGGCCGGCCGGCGGAACCGCTCGATTTCCTGCGGCGGGTGCCCTATCTCGATCTCGTGGTATCGGCCAATCTCCTGTCACAGATCGGCACCGGCGCACGCCACCGGCTGGAGCGGGAAAAGATCGCAAATGCCCCGGACGATCTTCTGCCGAAGCTCATTCACACCCATCTGGAAGCGCTGGCTGGCCTGCCCTGCAAGGCCTGCCTGATAACGGACACCTCCTTCGACGTGATCGGCAAAGACGGCAACCTGCACCAGCATGAAGACCTGCTGCATGGCATAGAGCTTCCCGCCCCCGCCGCCGCATGGGAATGGCCGCTTGCCCCGTTTGGCGAGGAAAGCAGGGATTATCGCATCGTGCATCACGTCATCGCGCGTGAACTGACCTGA	MILEALQYAATRAVTPKEFRPHIRYSVNLWARANRCAKAWAEHENNSRQFVLQSARKLKQRRTAVVLGSGLLRDVPYDALVAMFDTVVLVDLVHLASVQAKLRLNAKKNVRIANRDLSGFDDAIDGRPAEPLDFLRRVPYLDLVVSANLLSQIGTGARHRLEREKIANAPDDLLPKLIHTHLEALAGLPCKACLITDTSFDVIGKDGNLHQHEDLLHGIELPAPAAAWEWPLAPFGEESRDYRIVHHVIARELT				NA	NA	NA	NA	NA
BMS010_00012	258			hypothetical protein	GTGATCTGGACAATTGAATATCACACGCTTGTCCAGAAAGAGATGCGCAAGATAAATCCGGAAACGCGCCGGCGAATCCGGAGTTTTCTGCATGAACGATTGGCAGCACTGGATGATCCACGCCAGACCGGCGCCGCCCTGCAAGGCTCCGAACTCGGAAATTTCTGGCGCTACCGGGTGGGCGATTACCGCATCATCTGCGATATACAGGATCACAAGCTCGTCGTGCTGGTGGTCGAAATCGGCCATCGCCGTTAA	MIWTIEYHTLVQKEMRKINPETRRRIRSFLHERLAALDDPRQTGAALQGSELGNFWRYRVGDYRIICDIQDHKLVVLVVEIGHRR	PGPT0027425_1267	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-RelE|StbE-RelB|StbD_TOXIN-ANTITOXIN_SYSTEM,PGPT0027425-toxin_relE_2|stbE|pasB-K06218	NA	NA
BMS010_00013	228			hypothetical protein	ATGAGCAAACAGACGGCCATACGCCTGCCGGACGAGACCTATGAGCGGCTGAAAGCGCTTTCCGAGCGCACCGGCCGCACATCCGCCTATTACATCCGCGAGGCGATCGAGAAACATATCGAGGATATGGAAGATCTCTATCTTGCGGAGGAGGCGACGCGGCGCATCCAGCGTGGAGAATCGAAGGTTGTAAGCGCCGAGGAGTTCTGGCGTGATCTGGACAATTGA	MSKQTAIRLPDETYERLKALSERTGRTSAYYIREAIEKHIEDMEDLYLAEEATRRIQRGESKVVSAEEFWRDLDN	PGPT0027435_374	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-RelE|StbE-RelB|StbD_TOXIN-ANTITOXIN_SYSTEM,PGPT0027435-antitoxin_relB|pasA-K18918	NA	NA
BMS010_00014	1524	hisS_1	COG0124	Histidine--tRNA ligase	ATGAGCGAAAAAGCAAAAAAGCCTCAGAAACTGAAAGCCCGCCTGCCGCGCGGCTTCGTGGATCGCTCGGTTGCCGATATTCATGCCACCAACGAGATGATCGAGAAGATCCGCAGGGTCTATGAGCTTTATGGCTTCGATCCGGTGGAAACCCCGCTGTTTGAATACACCGATGCGCTCGGCAAGTTCCTGCCGGATAGCGATCGCCCGAACGAAGGCGTGTTTTCGCTGCAGGACGATGACGACCAGTGGATGAGCCTGCGCTACGATCTGACCGCGCCGCTCGCCCGTCATGTTGCGGAAAATTTCAACGAAATCCAGCTGCCCTACCGCACCTATCGCGCCGGTTATGTCTTCCGCAATGAAAAGCCCGGCCCCGGCCGCTTCCGGCAGTTCATGCAGTTCGATGCCGATACGGTGGGCGCTGCCGGAGTGCAGGCCGATGCCGAAATGTGCATGATGATGGCCGATACGCTGGAAGCGCTCGGAATTCAGCGCGGCGACTATGTCATTCGCGTCAACAACCGCAAGGTGCTGGACGGCGTCATGGAAGCCATCGGTCTCGGCGGTGAGGACAATGCCGGTCGTCGGCTGAACGTGCTGCGCGCCATCGACAAGCTCGACAAGTTCGGTCCTGAAGGCGTGAAGCTGCTGCTCGGCCCCGGCCGCAAGGATGAATCTGGTGATTTCACCAAGGGCGCTGGTCTTGGCGAGGAACAGATCGAAAAAGTGCTGTTTTTCGTCGGTATCAAGGATTATGCGGCAAGCGCCGATGATCTGGCGAAACTGGTTGCGGGCACCTCGAAAGGCGAGGAAGGCGTTGAGGAGCTGAACATCATCGGCGCTCTGGTCACCAGTGCCGGTTACGATGCGACGCGCATCAAGATCGACCCCTCGGTCGTTCGCGGCCTCGAATATTACACGGGCCCCGTCTATGAGGCCGAACTGACATTCGACGTCACCAATGAAAAGGGTGAAAAGGTCGTGTTCGGCTCCGTCGGCGGCGGCGGCCGTTATGACGGCCTCGTTTCGCGCTTCATGGGCCAGCCGGTTCCGGCCACGGGCTTCTCCATCGGCGTTTCGCGCCTGATGACGGCGCTGAAGAACCTCGGCAAGCTTGGTCAGGTCAAGCCGCTCGCACCGGTTCTCATCACCGTCATGGATGGCGATGTGGAAAGCATGGGCCGTTATCAACGCTTCACGCAGGCGCTGCGCGCCGAGGGCATCCGCGCCGAAATGTATCAGGGCAACTGGAAGAAATTCGGCAACCAGCTGAAATATGCCGACCGTCTCGGCTCGCCCATCGCCATCATCCAGGGCGGTGACGAGCGCGCCGAAGGTGTGGTGCAGATCAAGGATTTGATCGAAGGCAAGCGCCTGTCCGGCGAGATCGAGGACAATGCCAGCTGGCGCGAGGCGCGTGTGGCTCAGGTCAGCGTGCCGGAAGCCGAGCTGGTGGCGAAGGTCCGCGAGATTCTGGAGCATCAGGCAGAGGACGTTCGCCGCGCTGCCGAAGGGCGTTAA	MSEKAKKPQKLKARLPRGFVDRSVADIHATNEMIEKIRRVYELYGFDPVETPLFEYTDALGKFLPDSDRPNEGVFSLQDDDDQWMSLRYDLTAPLARHVAENFNEIQLPYRTYRAGYVFRNEKPGPGRFRQFMQFDADTVGAAGVQADAEMCMMMADTLEALGIQRGDYVIRVNNRKVLDGVMEAIGLGGEDNAGRRLNVLRAIDKLDKFGPEGVKLLLGPGRKDESGDFTKGAGLGEEQIEKVLFFVGIKDYAASADDLAKLVAGTSKGEEGVEELNIIGALVTSAGYDATRIKIDPSVVRGLEYYTGPVYEAELTFDVTNEKGEKVVFGSVGGGGRYDGLVSRFMGQPVPATGFSIGVSRLMTALKNLGKLGQVKPLAPVLITVMDGDVESMGRYQRFTQALRAEGIRAEMYQGNWKKFGNQLKYADRLGSPIAIIQGGDERAEGVVQIKDLIEGKRLSGEIEDNASWREARVAQVSVPEAELVAKVREILEHQAEDVRRAAEGR				NA	NA	NA	NA	NA
BMS010_00015	369			hypothetical protein	ATGGCGATCCTCGCGCTCGACCATGTTCAACTGGCGATGCCGGCGGGCCGTGAGGATGAGGCGCGCGCTTTTTATGGCGGCCTGCTCGGCTTTGCGGAGCAGGCAAAGCCTGCCAATCTGGCCGCACGCGGCGGATGCTGGTTCAGCCGGGGTTCGATAAAACTGCATCTCGGCGTCGAGCAGGATTTCCGCCCGGCGAAGAAAGCCCATCCGGCCTTTCTGGTCGATGATATGGCAACCTTGCGAAAAACACTTGAAACAGCAGGCTGCCATGTGGTTGAGGATGAGCCGCTTGAAGGGTATCACCGCTTTTATGTCCATGATCCCTTCGGAAACCGCATCGAAATGATGCAGCCGCTCGAACCGTGA	MAILALDHVQLAMPAGREDEARAFYGGLLGFAEQAKPANLAARGGCWFSRGSIKLHLGVEQDFRPAKKAHPAFLVDDMATLRKTLETAGCHVVEDEPLEGYHRFYVHDPFGNRIEMMQPLEP	PGPT0009300_46	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0009300-cbiZ-K08260	NA	NA
BMS010_00016	1128	hisZ_1		ATP phosphoribosyltransferase regulatory subunit	ATGCCCCTGATCGACATGCCGGAATTTTCCGGAGAGCTACTGGAAGAATTCGCCACGCGCCGCACGAGCCGTGTGAACACGCCCGTCATCCAGCCCGCCGAACCGTTTCTGGATATGGCCGGCGAGGATTTGCGCCGCCGTATCTTCATGACGGAGAGCGAAACGGGTGAGAGCCTGTGCCTGCGCCCGGAATTCACCATCCCGGTCTGCCTGCGCCATATCGAAACGGCGACCGGCACGCCGAAGCGTTATTCCTATCTCGGCGAAGTCTTCCGCCAGCGCCGGGAAGGTGCCAACGAGTTTTATCAGGCGGGCATCGAGGATCTCGGCGATACCGATATCGCCGCCGCCGATGCCCGCGCTGTGATTGACGCCACCGGCATTCTGCAGCGCCTGCTGCCAGGCCGGGCGCTTGCCGTCACGCTGGGCGACCAGCAGGTGTTCGAAGCGGTGGTTGCCGCCCTTGGCCTGCCGCTCGGCTGGCAGAAGCGGCTGGTGCAGGCATTCGGCGACATGGCGCAGCTGGAAGCGCTGCTGGAAAGCCTTGTACATCCTAAGCCCATGACCGGGCTGGACGCGCGGGTTGCCGGCCTTCTGGCAACGGGCGACGAGACGGTGCTGGTCGATTATCTCGATACGGTGATGCAGGAGACCGGCTATTCCACCAATGCCAGCCGCTCGCCGCAGGAAATCGCCCGCCGCCTGCGGGAAAAACTGGCGCTTGCCGCCACGCGCCTGCCGGATGAAAGCTTCGCGCTGCTCAAACAGTTCCTGGCCCTGAAGGCGCCTCTGCCGCAAGCCTCGCAGGTTCTGGCGGATTTTGCCGCAAAGGCGAAGCTGAAACTGGATGGCGCGCTGTCCGCTTTCGACAAACGCGTCGCAGCGCTTGCCAATGCCGGTGTCGATCTCGAAACCGTCACCTATGGCGCGGCCTTCGGCCGTCCGCTCGATTATTATACAGGCCTCGTTTTCGAAGTGGTGGAAGCGGGTGGAGACAGCGTTCTGGCCGGCGGCGGCCGTTTCGACCGGCTGCTGACCCTGCTCGGCGCACAGGAAAAAATCCCGGCCGTGGGCTTTTCGCTCTGGCTGGATCGCATCGAAACGGTGCGCGGGAGCGACAAGCCATGA	MPLIDMPEFSGELLEEFATRRTSRVNTPVIQPAEPFLDMAGEDLRRRIFMTESETGESLCLRPEFTIPVCLRHIETATGTPKRYSYLGEVFRQRREGANEFYQAGIEDLGDTDIAAADARAVIDATGILQRLLPGRALAVTLGDQQVFEAVVAALGLPLGWQKRLVQAFGDMAQLEALLESLVHPKPMTGLDARVAGLLATGDETVLVDYLDTVMQETGYSTNASRSPQEIARRLREKLALAATRLPDESFALLKQFLALKAPLPQASQVLADFAAKAKLKLDGALSAFDKRVAALANAGVDLETVTYGAAFGRPLDYYTGLVFEVVEAGGDSVLAGGGRFDRLLTLLGAQEKIPAVGFSLWLDRIETVRGSDKP				NA	NA	NA	NA	NA
BMS010_00017	693	hisG_1	COG0040	ATP phosphoribosyltransferase	ATGATTACCATCGCATTGCCCTCCAAGGGCCGGATGAAGGAAGACGCCTCCGCCGTTCTGGAACGCGCCGGGCTGAAAGTCGCGGCTGTCGGCAATGACCGCTCCTATCGCGGCCGCATCGAAGGCCGCGACGATATCGAGATCGCTTATCTCTCGGCTTCCGAGATCGCCCGCGAGATCGGTGCCGGCACTGTGGATTTCGGCGTGACGGGAGAGGACCTCGTACGCGAGGGGCTGACCAATGCCGATGCGCAGGTGGAGTTCTGCGCACGCCTCGGTTTCGGCCATGCGGATGTCGTGGTCGCCGTGCCGGAAATCTGGCTGGATGTGGACAGCATGGCCGATCTCGGCGATGTCGCTTCGGAATTCCGCGCCCGTCATGGCCGCAGGCTTGCCATCGCCACCAAATATTGGCGGCTGACGCAGCAGTTCTTTTCGCGCCAGCACGGCATTCAGCTTTATCGCATCGTTGAAAGCCTTGGCGCGACCGAAGGTGCACCGGCCGCAGGGCAGGCGGATATCATTGTCGATATCACCTCGACCGGCTCGACGCTGAAGGCCAACCACCTGAAAATTCTCTCCGACGGCATCATCGTCCGTTCGGAAGCCTGCTTCGTGCGCGCCCGCAAGCCGGAACATGACGGCGATGCGGCGGTTCAGGAGATAGCCTCGCGCATCAGGGCTGCGGTCTGA	MITIALPSKGRMKEDASAVLERAGLKVAAVGNDRSYRGRIEGRDDIEIAYLSASEIAREIGAGTVDFGVTGEDLVREGLTNADAQVEFCARLGFGHADVVVAVPEIWLDVDSMADLGDVASEFRARHGRRLAIATKYWRLTQQFFSRQHGIQLYRIVESLGATEGAPAAGQADIIVDITSTGSTLKANHLKILSDGIIVRSEACFVRARKPEHDGDAAVQEIASRIRAAV	PGPT0017400_2826	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_RIBOSE_METABOLISM|DEGRADATION,PGPT0017400-hisG-K00765	NA	NA
BMS010_00018	447	yqjF	COG2259	Inner membrane protein YqjF	ATGTCCAGCAGCCAGAACGTTCTCGTTCTCATCGCCCGTATTCTGCTTTCCTTCATCTTCATCACCTCGGGCTTCAGCAAGCTCGTCGATCCGGCCGGTACGGCCGGCATGATCACTGGTGCCGGCCTACCCGCTGCAACCGCGCTTGCCTATATTGCAGGCCTGTTCGAACTCGTTGCCGGTCTTGCCATTCTCGCTGGTTTCCAGACCAAAATCGCTGCCTGGGCGCTTGCCGTCTTCTGCGTCTTCACCGGTCTGGTGTTCCACAGCGGCACCGTTGCCGTACCCGGCTGGCCTGAGCCGGCTCTTGGCTGGATCAACACGCTGAACGGCATCATGATGGTGAAGAACATCACCCTCGCTGGCGCTTACATTCTGCTTGCCGCCTTCGGCCCCGGCGCCTACTCCGTCGACGCCAAGCGCGGCGCGGCTCTGGCCCACGCATAA	MSSSQNVLVLIARILLSFIFITSGFSKLVDPAGTAGMITGAGLPAATALAYIAGLFELVAGLAILAGFQTKIAAWALAVFCVFTGLVFHSGTVAVPGWPEPALGWINTLNGIMMVKNITLAGAYILLAAFGPGAYSVDAKRGAALAHA	PGPT0028505_2734	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROQUINONE-DERIVATE_RESISTANCE,PGPT0028505-catD-K15977	NA	NA
BMS010_00019	441			hypothetical protein	GTGTTCATGCGGGGGCGCGATTTGTTTGAAATATCAAGACGCAACGATGCTCTGCCTGCGGCGGTAACAGCCACGCCCGATCCCCGGACCCTGTCGCATTTCTTCATGTCGGAGGAGTGGAGCAGCGATCTTTCCAGTGGCGTCATCCGCCTCGGCGAACACGCATCATTCATGCACGGCCTGCCGCCAGGCGAGTGCGGATTGCTCAGCCTTGTCCGCTGTTACGACCGCGCTGACCACGCCCGCGTTCTGGAACTTTTCGAGCAGGTTTCCACCGCACCTTCACGTTTCTGTTTTTCATCCGGCCTCTCCATCTTGCCGGCGATGCGGCAGCCGGTCATCTGCATGGGAGAATCTTCCGGCTTCGAAGACGGCCAGCAAGGGCGCATATCAGGGCTTTTCCTGTTTCCGCGCTTTGAGGATATTCGCTTCGCCGCCTGA	MFMRGRDLFEISRRNDALPAAVTATPDPRTLSHFFMSEEWSSDLSSGVIRLGEHASFMHGLPPGECGLLSLVRCYDRADHARVLELFEQVSTAPSRFCFSSGLSILPAMRQPVICMGESSGFEDGQQGRISGLFLFPRFEDIRFAA				NA	NA	NA	NA	NA
BMS010_00020	1635	groL1	COG0459	60 kDa chaperonin 1	ATGGCAGCCAAAGAAGTAAAATTCGGCCGCACAGCACGCGAAAAGATGCTCAAGGGCGTCGACGTTCTTGCTGATGCAGTGAAGGTAACCCTCGGCCCGAAGGGTCGTAACGTCGTTATCGACAAGTCCTTCGGCGCTCCGCGCATCACCAAGGACGGCGTTTCCGTCGCCAAGGAAATCGAACTGGAAGACAAGTTCGAGAACATGGGCGCACAGCTCGTTCGCGAAGTTGCCTCCAAGACCAACGACATCGCCGGTGACGGCACCACCACCGCGACCGTTCTGGCCCAGGCCATCGTTCGCGAAGGTTCCAAGGCAGTTGCTGCCGGCATGAACCCGATGGACCTGAAGCGTGGTATCGATCTGGCCGTTGCTGAAGTCGTCAAGGACCTTCAGGCCAAGGCAAAGAAGATCAACACGTCTGAAGAAGTTGCGCAGGTTGGCACGATCTCTGCAAACGGCGAGCGTCAGATCGGTCTCGACATTGCTGAAGCAATGCAGAAGGTCGGCAACGAAGGCGTCATCACCGTTGAAGAAGCCAAGACCGCTGAAACCGAACTCGAAGTCGTCGAAGGCATGCAGTTCGACCGCGGCTACCTGTCGCCCTACTTCGTGACCAACCCGGAAAAGATGGTTGCGGACCTCGAAGACGCATACATCCTCCTGCACGAAAAGAAGCTCTCGAACCTTCAGGCCATGCTGCCGGTTCTCGAAGCTGTCGTTCAGACCGGCAAGCCGCTCGTCATCATCGCTGAAGACGTCGAAGGCGAAGCTCTTGCAACGCTCGTCGTCAACAAGCTGCGTGGCGGCCTCAAGATCGCTGCTGTCAAGGCTCCTGGTTTCGGCGACCGCCGCAAGGCCATGCTGGAAGACATCGCCATCCTGACCGGTGGTACCGTCATTTCCGAAGACCTCGGCATCAAGCTCGAAAACGTTACCCTCGACATGCTCGGCAAGTCGAAGAAGGTTTCGATCTCCAAGGAAAACACCACGATCGTTGACGGCGCCGGCCAGAAGTCCGACATCGAAGGTCGTGTTGCCCAGATCAAGGCCCAGATCGAAGAAACCACCTCCGACTACGACCGCGAAAAGCTGCAGGAACGTCTTGCCAAGCTCGCTGGCGGCGTTGCCGTTATCCGCGTTGGCGGTTCGACGGAAGTTGAAGTGAAGGAAAAGAAGGACCGCATCGACGACGCTCTCAACGCGACGCGCGCTGCTGTTCAGGAAGGCATCGTACCGGGCGGCGGCGTTGCCCTGCTGCGTTCGTCCACGAAGATCACCGCAAAGGGTGAAAACGACGACCAGGAAGCCGGTATCAACATCATCCGCCGCGCCCTGCAGGCTCTGGTTCGCCAGATTGCAGACAACGCAGGTGACGAAGCTTCCATCGTTGTCGGCAAGATCCTCGAGAAGAACGAAGACAACTACGGCTACAACGCCCAGACCGGTGAATATGGCGACCTGATCCAGCTCGGCATCGTCGACCCGGTCAAGGTTGTTCGTACGGCTCTGCAGAACGCAGCTTCGGTTGCTTCGCTGCTGATCACCACCGAAGCCATGATCGCCGAGCTTCCGAAGAAGGACGCTCCGATGCCGGCAATGCCGGGCGGCGGCATGGGCGGCATGGACTTCTAA	MAAKEVKFGRTAREKMLKGVDVLADAVKVTLGPKGRNVVIDKSFGAPRITKDGVSVAKEIELEDKFENMGAQLVREVASKTNDIAGDGTTTATVLAQAIVREGSKAVAAGMNPMDLKRGIDLAVAEVVKDLQAKAKKINTSEEVAQVGTISANGERQIGLDIAEAMQKVGNEGVITVEEAKTAETELEVVEGMQFDRGYLSPYFVTNPEKMVADLEDAYILLHEKKLSNLQAMLPVLEAVVQTGKPLVIIAEDVEGEALATLVVNKLRGGLKIAAVKAPGFGDRRKAMLEDIAILTGGTVISEDLGIKLENVTLDMLGKSKKVSISKENTTIVDGAGQKSDIEGRVAQIKAQIEETTSDYDREKLQERLAKLAGGVAVIRVGGSTEVEVKEKKDRIDDALNATRAAVQEGIVPGGGVALLRSSTKITAKGENDDQEAGINIIRRALQALVRQIADNAGDEASIVVGKILEKNEDNYGYNAQTGEYGDLIQLGIVDPVKVVRTALQNAASVASLLITTEAMIAELPKKDAPMPAMPGGGMGGMDF	PGPT0014570_4445	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0014570-groEL|mopA-K04077	NA	NA
BMS010_00021	297	groS1	COG0234	10 kDa chaperonin 1	ATGACAAGCACCAATTTCCGCCCGCTTCACGATCGCGTCGTCGTTCGTCGCGTTGAGTCCGAAGAAAAGACCAAGGGCGGCATCATCATTCCCGACACCGCCAAGGAAAAGCCGCAGGAAGGCGAAATCGTCGCCGTCGGTTCCGGCGCACGTGACGAGGCCGGCAAGGTCGTCGCTCTCGACGTCAAGGTTGGCGATCGCGTTCTGTTCGGCAAGTGGTCGGGCACCGAAGTCAAGCTCAACGGCGAAGACCTTCTGATCATGAAGGAAGCCGACATCATGGGCATCATCGGCTGA	MTSTNFRPLHDRVVVRRVESEEKTKGGIIIPDTAKEKPQEGEIVAVGSGARDEAGKVVALDVKVGDRVLFGKWSGTEVKLNGEDLLIMKEADIMGIIG	PGPT0014565_2148	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014565-groES|mopB-K04078	NA	NA
BMS010_00022	849			hypothetical protein	ATGGCCCATCGCATTCTCACTCTCGGCGAAATTACGGCTGGGTTCGACGTTATTCTTTCGGATGTCTGGGGCGTGCTGCACAATGGCGTCAGCGCTTTTCCGGATGCGGCGGTTGCGCTGCGGGAAGCGCGCGAGGCCGGCAAGACGGTGGTGCTCATCACCAATTCACCGCGCCCCGCTCCCGGCGTCATCGCCCAGCTTCGCGTTCTCGGCGTGCCGGATGAGGCCTATGACCGCATCATCACCTCCGGTGACGTCACCCGCGGCCTGATCGCGGAAGGCCCGAAAAAAGTATTCCTGCTCGGCCCGGAACGCGATCTGCCGCTGCTGGACGGTCTCGATGTCGAGCGCGTCGGCGAGGCGGAAGCGCAGTCCGTGGTCTGCACCGGCTTTTTCGATGACGAGACGGAAACGCCCGAGGACTATACCGAAATGCTCAAGGGCTTCATTGCCCGCAACGTGCCGATGATCTGCGCCAATCCCGATCTGGTGGTGGAGCGCGGCGAGCGCATCATTCCCTGCGCCGGCGCCATGGCCGCATACTATGAACAGCTCGGCGGCGAGGTCCGCATTGCCGGCAAGCCGCATGCGCCGATCTATGAGGCCTGCCTTGCGGCGGCCAAAGAAGTGCGCGGCGCCTTCGCCAAGGATCGCGTGCTCGCCATCGGCGACGGCATGCCAACGGATGTGAAGGGCGCGATTGCGAGCGGTCTCAACCTTCTTTATATCAGCGGCGGCATTCACGCCGCCGAATATACGCTGAACGGCCAGACGGACGAGGCGCTTCTCAACGCCTATCTCAAGGGGCAGGGTGCTGCTCCCGGCTGGTGGATGCCCCGTCTCGCCTGA	MAHRILTLGEITAGFDVILSDVWGVLHNGVSAFPDAAVALREAREAGKTVVLITNSPRPAPGVIAQLRVLGVPDEAYDRIITSGDVTRGLIAEGPKKVFLLGPERDLPLLDGLDVERVGEAEAQSVVCTGFFDDETETPEDYTEMLKGFIARNVPMICANPDLVVERGERIIPCAGAMAAYYEQLGGEVRIAGKPHAPIYEACLAAAKEVRGAFAKDRVLAIGDGMPTDVKGAIASGLNLLYISGGIHAAEYTLNGQTDEALLNAYLKGQGAAPGWWMPRLA				NA	NA	NA	NA	NA
BMS010_00023	981	ribF_1	COG0196	Bifunctional riboflavin kinase/FMN adenylyltransferase	ATGACCGTTTTTCACCGCAATGAAAAAAAGGAACCGCTGCCGGAAGCTCTTCGCGGCGGCGTCATCGCCATCGGCAATTTCGACGGCGTGCATCGCGGCCACCGGGCTGTGCTGGATCGTGCCCTGGAGCTGGCGGACGCCCGTGGCGTTCCCGCGCTGGTGCTGACCTTCGAGCCGCATCCCCGTTCCGTCTTCCGTCCCGATACGCCGGTTTTTCGCCTCACGCCCGCGCCACTCAAGGCGCGCATCCTTGAGGCCATCGGTTTCCGCTCCGTCATCGAATATCCCTTCGACCGGGAATTTTCGCAGCGCTCGGCGGAGGAATTCGTCCAGTCCATTCTGGTCGACTGGCTTCATGCCAGCGCTGTCGTCACCGGCTTCGATTTCCATTTCGGCAAGGGCCGCGAAGGCGGCCCGGCGTTCCTGATGGAGGCCGGCAAACGCCATGGCTTCGACGTGACGCTGGTGGATGCCTTCCGCGACGAGGGCGCGGATGTCGTCTCCTCCAGCCGGATTCGCTCGCTTCTATGCGAAGGCGATGTGGCGGGCGCCGCAGGCCTGCTCGGTTATCGCTTCACGGTGGAAAGCGAAGTCATCGGCGGCCAGAAGCTCGGCCGCACGCTGGGTTATCCCACCGCCAACATGGCGCTGGCGCCGGAAACGGAACTGAAAGCGGGCATCTATGCCGTGCGGTTCCGCCGCCCGGACGGGTCGATCCGCGATGGGGTGGCAAGCTTCGGTTACCGCCCGACCGTCACCGAAAACGGTGCGGCGCTGCTTGAAACATTCGTCTTCGATTTTTCCGGCGATCTCTATGGCGAGGTCTGTTCGGTCTCGTTCTTCGGGCACCTGCGCGACGAGCTGAAATTCGACGGTCTCGATCCGCTCGTCGCCCAGATCAGGCGCGATGAAGAAGAGGCGAGGGCGATGTTATCGGGCGTGCGTCCGCTCAGCGAACTGGACGCCAGGATCGCGTTCTGA	MTVFHRNEKKEPLPEALRGGVIAIGNFDGVHRGHRAVLDRALELADARGVPALVLTFEPHPRSVFRPDTPVFRLTPAPLKARILEAIGFRSVIEYPFDREFSQRSAEEFVQSILVDWLHASAVVTGFDFHFGKGREGGPAFLMEAGKRHGFDVTLVDAFRDEGADVVSSSRIRSLLCEGDVAGAAGLLGYRFTVESEVIGGQKLGRTLGYPTANMALAPETELKAGIYAVRFRRPDGSIRDGVASFGYRPTVTENGAALLETFVFDFSGDLYGEVCSVSFFGHLRDELKFDGLDPLVAQIRRDEEEARAMLSGVRPLSELDARIAF	PGPT0008625_946	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008625-ribF-K11753	NA	NA
BMS010_00024	2904	ileS_1	COG0060	Isoleucine--tRNA ligase	ATGAGCGACACCGCAGAAAAACTGGATTACTCCTCTACCCTCTATCTGCCGCAGACGGATTTTCCGATGCGTGCCGGCCTGCCGCAGAAGGAACCGGAAACGGTCAAGCGCTGGCAGGAAATGGGCCTCTACAAACGCCTGCGCGCCTCCGCCGCCGGCCGCGAAAAATTCGTGCTGCATGATGGCCCGCCCTACGCCAACGGCAATATCCACATCGGCCATGCGCTGAACAAGATCCTGAAAGACGTCATCACCCGCTCGTTCCAGATGCGCGGCTACGACGCCAATTACGTTCCGGGCTGGGATTGCCATGGCCTGCCGATCGAATGGAAGATCGAGGAAGCCTATCGCGCCAGGGGCAAGAACAAGGACGAGGTTCCGGTCAACGAATTCCGTAAGGAGTGCCGTGACTTCGCCGCCGGCTGGATCAAGGTTCAGTCGGAAGAGTTCAAGCGCCTCGGCATCGAGGGCGATTTTGAAAACCCCTATACGACGATGAACTTCCACGCCGAAGCCCGCATCGCCGGCGAACTTTTGAAGATCGCCAAGAGCGGCCAGCTATACCGCGGTTCCAAGCCGATCATGTGGTCGGTTGTCGAGCGCACGGCGCTGGCGGAAGCGGAAGTCGAATATCATGACGTCGAGAGCGACACGATCTGGGTGAAGTTCCCGGTCGTTGAAGGTTCTGCGGAGCTCAATGGCGCTTCCATCGTCATCTGGACGACCACGCCGTGGACGATCCCCGGCAACCGCGCCGTCTCGTTTTCGTCACGCATCGCCTATGGCCTTTATGAGGTCACGGCGGCTGCGAATGATTTCGGGCCGCAGCCGGGTGAAAAACTCGTCTTCGCAGACAAGCTGGCAGCGGAATGCTTTGCCAAGGCAAAGCTCGAATTTACACGCCTGCGCGACGTGAAGGCGGAAGAGCTCGCGGCTGTCAGCTGCGCCCACCCGCTGGCATCGCTGGGTTACACCTTCCCTGTTCCGGTGCTCGATGGCGATCACGTCACCGACGATGCCGGTACCGGCTTTGTGCACACGGCCCCTGGCCATGGCCGCGAGGACTTTGATGCGTGGATGGCGCAGGCGCGCGATCTGGAAGCGCGCGGCATCTCCTCCAAGATCCCCTTCACGGTCGGCGACGACGGTTTCTACACCGAAGACGCCCCCGGTTTCGGCCCGTCCGCTGAAGGCGGCGCTGCCCGCGTCATGGACGATAACGGCAAGAAGGGTGACGCCAACGAGCGCGTCATCAAGGCGCTGATCGCGGAAAACAACCTGTTTGCTCGTGGCCGTCTGAAGCACAGCTATCCGCATAGCTGGCGCTCCAAGAAGCCTGTCATCTTCCGCAATACACCGCAATGGTTCGTGTATATGGACAAGGAACTGGGCGACGGCACGACGCTGCGCTCCCGTTCGCTTTCCGCCATCGACCAGACCCGCTTTGTGCCGGCTTCCGGCCAGAACCGTCTGCGCGCCATGATCGAAGGCCGCCCGGACTGGGTCTTGTCGCGCCAGCGCAGCTGGGGCGTGCCGATCGCCGTCTTCGCGGATGAGAAGGGTGAAGTCCTGATTGATGAGGCCGTCAACGCCCGCATCCTCGAGGCCTTCGAAGCCGAAGGTGCTGACGCCTGGTTCGCCGAAGGCGCCAAGGAACGCTTCCTCGGCAATGACCACGACCACGCCAAGTGGCAGCAGGTCATGGACATTCTCGACGTCTGGTTTGACAGCGGCTGCACCCACACCTTCACGCTGGAAGACCGACCGGACTTGAAGTGGCCGGCGGATGTCTATCTCGAAGGCTCCGACCAACATCGCGGCTGGTTCCATTCGTCGCTGCTTGAAAGCTGCGCGACGCGTGGTCGTGCGCCTTACAATGCCGTTGTCACCCACGGTTTCACCATGGACGAGCAGGGCCGCAAGCAGTCGAAGTCGCTCGGCAACGTGGTCGCCCCTCAGGAAGTCATGAGCCAGTCGGGTGCCGACATCCTGCGCCTGTGGGTGATGACCACGGATTACTGGGAAGACCAGCGCCTCGGCAAGGCCATCATCCAGACCAATGTCGATGCCTATCGCAAGCTGCGCAACACCATCCGCTGGATGCTCGGCACGCTCGCCCATTACAAGGGCGAGGAGATCGCCTATGACGATCTGCCGGAGCTCGAAAAGCTGGTGCTGCACCGCCTGTCCGAACTCGATGGCGTGGTTCGCGAGGGTTATGACGGCTTCGAGTTCAAGAAGATCACCCGCGCGCTGATCGACTTTGCCAATGTCGAACTTTCCGCCTTCTATTTCGACGTCCGCAAGGACACGCTTTATTGCGACGCGCCGTCGTCGCTAAAGCGCCGCGCGGCCCTGTCGGTCATCGCCAAGCTGTTCGATTGCCTGGTGACGTGGCTTGCCCCCATGCTGCCCTTCACCACGGAAGAAGCGTGGCTGTCGCGTTACCCGGATGCGGAGTCGGTGCATCTCGCCCAGTTCCCGGAAATCCCGGCAAACTGGAAGAACGATGCGCTGGAAGCGAAGTGGGAGAAAATCCGCAAGGTCCGTACCGTCGTGACGGGCGCGCTTGAAGTCGAGCGCCGTGAAAAGCGCATCGGCTCCTCGCTGGAGGCAGCACCTGTCGTCCACATTGCCGACGCCGATCTTTTGGCCGCGCTGAAGGATCAGGACTTCGCCGAAATCTGCATCACCTCGGCCATCACGGTTGTGGGTGACGAAGGCCCGGCCGATGGCTTCCGCCTGCCGGAAGTGCCGAAGGTCGTGGTCGAGCAGAAGCTCGCGGAAGGTGAAAAATGCGCGCGTTCGTGGCGCATCACCACCGATGTCGGGTCCGATCCGGATTATCCTGACGTTTCTGCCCGCGATGCAGCGGCCCTGCGTGAGCTTGCCGCACTCTCGTAA	MSDTAEKLDYSSTLYLPQTDFPMRAGLPQKEPETVKRWQEMGLYKRLRASAAGREKFVLHDGPPYANGNIHIGHALNKILKDVITRSFQMRGYDANYVPGWDCHGLPIEWKIEEAYRARGKNKDEVPVNEFRKECRDFAAGWIKVQSEEFKRLGIEGDFENPYTTMNFHAEARIAGELLKIAKSGQLYRGSKPIMWSVVERTALAEAEVEYHDVESDTIWVKFPVVEGSAELNGASIVIWTTTPWTIPGNRAVSFSSRIAYGLYEVTAAANDFGPQPGEKLVFADKLAAECFAKAKLEFTRLRDVKAEELAAVSCAHPLASLGYTFPVPVLDGDHVTDDAGTGFVHTAPGHGREDFDAWMAQARDLEARGISSKIPFTVGDDGFYTEDAPGFGPSAEGGAARVMDDNGKKGDANERVIKALIAENNLFARGRLKHSYPHSWRSKKPVIFRNTPQWFVYMDKELGDGTTLRSRSLSAIDQTRFVPASGQNRLRAMIEGRPDWVLSRQRSWGVPIAVFADEKGEVLIDEAVNARILEAFEAEGADAWFAEGAKERFLGNDHDHAKWQQVMDILDVWFDSGCTHTFTLEDRPDLKWPADVYLEGSDQHRGWFHSSLLESCATRGRAPYNAVVTHGFTMDEQGRKQSKSLGNVVAPQEVMSQSGADILRLWVMTTDYWEDQRLGKAIIQTNVDAYRKLRNTIRWMLGTLAHYKGEEIAYDDLPELEKLVLHRLSELDGVVREGYDGFEFKKITRALIDFANVELSAFYFDVRKDTLYCDAPSSLKRRAALSVIAKLFDCLVTWLAPMLPFTTEEAWLSRYPDAESVHLAQFPEIPANWKNDALEAKWEKIRKVRTVVTGALEVERREKRIGSSLEAAPVVHIADADLLAALKDQDFAEICITSAITVVGDEGPADGFRLPEVPKVVVEQKLAEGEKCARSWRITTDVGSDPDYPDVSARDAAALRELAALS				NA	NA	NA	NA	NA
BMS010_00025	645			hypothetical protein	ATGAAGACGATGCAGGGTAATGCGCAGGGTTTGGGCATGTTTCGCACGGTTATTGGCATCACGACGATAGGCGTGTTGCTTGGCGCGTGCACGAGCCCGACCTACGGCACGGGCAAGACGGCGGCGGAACAGCTTGTCGACGATCTTGGCAACGCGACCTCGATCACCGGCAATGACCAGGAAAAGCGCAACCTGAAATACAGCCCCCGCCCGGGCCTCGTCGTTCCTGCTCAGGCCCGTGCCGAACAGTTGGCCACGCCGCAGCAGAATATGGCAAGCCGCGAAAACAATCCGCAATGGGTCGAATCGCCGGAAGAAACCCGCGAACGCCTGCGCGAAGAGGCGGATGCGAACAAGAACAACCCGCATTATCGCTCGCCGCTGCTTGCAGGCAACGGCACCGCCGGCCAGATGACCGAAACCCAGAAATGGGAAGCCTTCCGCAAGGCCAAGGCCGAAGCCCAGGGCGGCTCCGTCGTCAACGCCCAGCGCAGGTTCCTCACCGATCCGCCGGCTGAATACCGCAGCGTTCCGCAGGATCAGCTGACCGATCTCGGCGAACCGGAGCTGAAGAAGGAAAAGCGCCGCAAGAAAGAAGCGGCCGTTGCAAATACCGGCAAGAGCTGGTGGAACCCCTTCCAGTAA	MKTMQGNAQGLGMFRTVIGITTIGVLLGACTSPTYGTGKTAAEQLVDDLGNATSITGNDQEKRNLKYSPRPGLVVPAQARAEQLATPQQNMASRENNPQWVESPEETRERLREEADANKNNPHYRSPLLAGNGTAGQMTETQKWEAFRKAKAEAQGGSVVNAQRRFLTDPPAEYRSVPQDQLTDLGEPELKKEKRRKKEAAVANTGKSWWNPFQ				NA	NA	NA	NA	NA
BMS010_00026	438	tadA_1	COG0590	tRNA-specific adenosine deaminase	ATGGAGCTGGCGCTTTCGGAAGCCCGTGCCGCGGCTAAGCGGCAGGAGGTTCCGATCGGCGCGGTACTGGTTATGGACGGCCGCGTCATCGCCAGTTCCGGCAATCGCACCCGTGAATTGAACGATGTGACGGCTCACGCCGAAATCGCCGTGATCCGCATGGCATGCGAGGCGCTGGAACAGGAACGCCTGCCTGGCGCCGATCTCTACGTGACACTGGAGCCCTGCACCATGTGCGCGGCGGCAATTTCATTTGCCCGTATCCGCCGGCTCTATTACGGCGCGCGAGACCCGAAGGGCGGCGCAGTGGAGAGTGGCGTGCGTTTCTTCAGCCAGCCGACATGCCACCATGCGCCGGATGTCTATTCGGGACTGGCGGAAAGCGAAAGTGCGGAAATCCTGCGGCAATTTTTTCGCGAGAAACGCCTCGACGATTGA	MELALSEARAAAKRQEVPIGAVLVMDGRVIASSGNRTRELNDVTAHAEIAVIRMACEALEQERLPGADLYVTLEPCTMCAAAISFARIRRLYYGARDPKGGAVESGVRFFSQPTCHHAPDVYSGLAESESAEILRQFFREKRLDD	PGPT0006855_37	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROPROPENE_DEGRADATION,PGPT0006855-dhaA-K01563	NA	NA
BMS010_00027	1941			hypothetical protein	ATGACTTTTAAAGACAAGCCGAAGCGTGACGGCGGCAAGACATTTAGCCGCGACAGGAAGCCGAAAGGCCCCGGCAAGCCCGCCGCAGAGCGCGAAAAGAAACCGACCGAGGCAAAGGCCGCCCCGGTGCCGGAAACCGTTGGCGCTTCCAAGCCCGAGCGCATTTCCAAGATCATGGCGCGCGCCGGTGTGGCCTCGCGCCGCGATGTCGAGCGCATGATCATGGAAGGCCGCGTGTCGCTGAACGGCGTCAAGCTGGATACGCCGGTGGTGAACGCCACGCTCTCCGACAAGATCGAAGTCGACGGCATGCCGATTCGCGGCGCCGAGCGCACGCGCCTGTGGCTTTACCACAAGCCCGCCGGTCTGGTGACGACCAATTCCGACCCGGAAGGCCGTCCGACCGTTTTCGACAATCTGCCCGGTGAACTGCCGCGCGTTCTGTCCATCGGCCGTCTCGATATCAATACCGAAGGCCTGCTGCTGCTCACCAACGATGGCGGACTTTCCCGCGTGCTGGAACTGCCGACCACCGGCTGGCTGCGCCGCTACCGCGTGCGCGCCCATGGCGAGGTCGATCAGGCCGCACTCGACAAGCTGAAGGAAGGCATTGCCGTCGATGGCGTGCTCTACGGCGCAATCGACGCCACGCTCGACCGCACCCAGGGCCACAATGTCTGGATCAGCATGGGCCTGCGTGAAGGCAAGAACCGCGAAATCAAGAACGTGCTCGGCGCGCTCGGTCTCGAGGTCAACCGGCTGATCCGCGTTTCCTATGGTCCGTTCCAGCTCGGCGATCTCGCTGAAGGCAAGGTGCTGGAAGTGCGCGGCCGCATGCTGCGCGACCAGCTCGGCCCGCGTCTGATCGAACAGGCCGGCGCGAATTTCGATGCGCCGATCTACAATGCGCCCGTTGAGGATGAAGAAGACGACGCGCCGAAGCGGCCCGTGAAATCCGAATGGGCAAAGAGCGATGCGCCGGAAAGCAAGCCGCGCTTCGAAAAGAGCGGCAAGTCCGAGGATCGTCGTGAAAAGGCGCTCGGCCGTCTTGACACCAAGCGCGGCGACAAGCCGGCCGGCAAGTTCGGCTCCAAGCCCGCCGGGAAATTTGGCGCAAAGGGCCGCAGCGAGGATGAAGGCGACGACCGCCGCCCACGCCAGGCCGCCGGCACCAGCCGCACGGCCAATGTCTGGATGGCGCCCGGTGCAAGGCCCACCCGTGACGGCAAGGAGCGCAAGTCTTCCGCCCGCGCGGAAGCCGAAAACCTCTTCAAGAAGCCTTCCGCCCAGGATGAAGCGCGACGTAACGTCGTGCGGCATGCGGATGCCGAGGGCGAGTGGATCCGCTCAGATTCCCCCCGCGAAGAAGAAGGTGGTCGCGGACGTGGCGACCGTCCGCGTGGCGAAAAGAGCTTCGGTGATCGTGGTGGGCGCGGCGGAAAGCCGTTCGGCGACCGGCCATTCCGCGACAGGCCGCGTGAAGATGGCGACCGTCCGCGCGGTGAAAAGAGCTTCGGTGACCGCCCGGCACGCGGCGGCAAACCTTTCGGCGACCGGCCGTTCCGTGACAAGCCTCGCGAAGAGGGTGACCGCCCGCGCAGCGACCGCCCACGTGGCGAGAAGAGTTTTGGTGATCGCACCGCTCGCGGTGAAAAACCTTTCGGTGACCGTCCGTTCCGCGACAGACCCCGTGAAGACGGTGACCGCCCACGCGGCGAGCGCCCGGCGGGCGAAAAGCCCCGTGGCGGCAAGCCGGCCGGTAAATCCGGATTCGGCAAGCCATCTTTCGGAAAGTCGGGCGAGCGTGGCGAACGTTCGGGTTTCTCAGGCAAGAGCAAAGGCCCCGGTGGTCCCGGCGGCGGCAAGCCGGGCGGCAAAGGCCCGGGTGGCAAACCTTCTGGAGGCAGGGGAATGACACGTAATGCGGATCGTAGGCGGTGA	MTFKDKPKRDGGKTFSRDRKPKGPGKPAAEREKKPTEAKAAPVPETVGASKPERISKIMARAGVASRRDVERMIMEGRVSLNGVKLDTPVVNATLSDKIEVDGMPIRGAERTRLWLYHKPAGLVTTNSDPEGRPTVFDNLPGELPRVLSIGRLDINTEGLLLLTNDGGLSRVLELPTTGWLRRYRVRAHGEVDQAALDKLKEGIAVDGVLYGAIDATLDRTQGHNVWISMGLREGKNREIKNVLGALGLEVNRLIRVSYGPFQLGDLAEGKVLEVRGRMLRDQLGPRLIEQAGANFDAPIYNAPVEDEEDDAPKRPVKSEWAKSDAPESKPRFEKSGKSEDRREKALGRLDTKRGDKPAGKFGSKPAGKFGAKGRSEDEGDDRRPRQAAGTSRTANVWMAPGARPTRDGKERKSSARAEAENLFKKPSAQDEARRNVVRHADAEGEWIRSDSPREEEGGRGRGDRPRGEKSFGDRGGRGGKPFGDRPFRDRPREDGDRPRGEKSFGDRPARGGKPFGDRPFRDKPREEGDRPRSDRPRGEKSFGDRTARGEKPFGDRPFRDRPREDGDRPRGERPAGEKPRGGKPAGKSGFGKPSFGKSGERGERSGFSGKSKGPGGPGGGKPGGKGPGGKPSGGRGMTRNADRRR				NA	NA	NA	NA	NA
BMS010_00028	558	rsmD_1	COG0742	Ribosomal RNA small subunit methyltransferase D	ATGCGGATCGTAGGCGGTGAGTTCCGCGGCCGGACACTGGCCGCGCCGAAATCGAATTCCATTCGTCCGACCATCGACAGGACGCGGGAAAGCCTCTTCAATATTCTGAGCCATGCCTATCCGGAAAGTCTGGATGGCACGCGCGTTCTGGATGTTTTTGCCGGAACCGGTGCGGTCGGTCTGGAGGCGCTTTCGCGCGGCTGTCGCGTGGCGCTCTTCGTCGAAAACGGCGTCGAGGGCAGGGGGCTGCTCTGGGAAAATATCGATGCGCTGGGTCTGCATGGCCGCGCCCGTATCCTGCGGCGTGACGCCACCAAGCTCGGCGGCGTCAACAATATCGAACCCTTCGATCTTCTCTTCGCCGATCCGCCCTATGGCTATGGCCATGGCGAGAAGGCTTTCGCGGCCGCCCATGGCGGCGGCTGGCTGAACCCCGGCGCCCTCGCCATTCTCGAAGAGCGCGGCGATGTGACGGTCAAGGTCGATCCGGTTTTCAAGCCGCTCGAAAGCCGCATCTTCGGCGATACGAAAATGCATTTCTACCGTTACGAGCCTTAA	MRIVGGEFRGRTLAAPKSNSIRPTIDRTRESLFNILSHAYPESLDGTRVLDVFAGTGAVGLEALSRGCRVALFVENGVEGRGLLWENIDALGLHGRARILRRDATKLGGVNNIEPFDLLFADPPYGYGHGEKAFAAAHGGGWLNPGALAILEERGDVTVKVDPVFKPLESRIFGDTKMHFYRYEP				NA	NA	NA	NA	NA
BMS010_00029	927		COG1752	putative NTE family protein	ATGGAGCAGGGTGTAAACGAGAGCATAACGATTGTCCGCGCCGGGGAAGAGGTTCTCGAAGGCGACGGCTCGAGTGGCCAAGAGCCGACTTTCGGACTGGCGCTCGGCGGCGGCGGCGCACGCGGCATCTGCCACATCAATGTCATCGAGGCGCTGGACGAACTCGGCATCCGGCCCGTTGCGATTTCCGGTTCCTCCATCGGCTCCATCATCGGCGCAGGCATGGCGGTCGGCATGACCGGCCGGGAAATCCGCGAATACACGCTTGAACTGATGGGACGAAAGGGCTCCGTCGCCAACCGGCTCTGGAGCCTCGGCCCGGCATCGATGCGCCATGCGGTGGACGGTTTTCGCCTCGGGCAGTTCAACCTCGAACTCATCCTGCACGCCCTGATGCCGCAGGCTCTGCCGAAGGATTTTTCCGAGCTTGCCATTCCGCTTAAAGTGATAGCCACGGATTATTACGCCCAGACCGAAGTGGTGGTGGAACGCGGCGAGATCATCCAGGCGCTGGCCGCATCCGCCGCCATTCCCGCATTGTTCATGCCCGTGCGTATCGATGGCCGCATCATGATCGACGGCGGCATTTTTAATCCGGTGCCCTATGAGCATCTGCTCGATCACGCCGATATCGTCATCGGCGTTGATGTCGTCGGTGGCCCGGAAGGTGATGGAACCACCATGCCGAACCGGCTGGACAGCCTGTTCGGCGCCAGCCAGCTGATGATGCAGGCGGCGATTGCCCTGAAACTGAGGCTACGCCCGCCGCATATTTTCCTGCGCCCGCCCGTGCACCGTTTCGGTGTGCTGGATTTCCTGAAGTCCGAAGAGGTGCTGAACGCATCGGCCGGCATCAAGGACGATCTGAAGCGGCAGATCGACATGCAGGTGGAACTGTTTCACCGCGGGCAGGGTGTGGAGGCGTGA	MEQGVNESITIVRAGEEVLEGDGSSGQEPTFGLALGGGGARGICHINVIEALDELGIRPVAISGSSIGSIIGAGMAVGMTGREIREYTLELMGRKGSVANRLWSLGPASMRHAVDGFRLGQFNLELILHALMPQALPKDFSELAIPLKVIATDYYAQTEVVVERGEIIQALAASAAIPALFMPVRIDGRIMIDGGIFNPVPYEHLLDHADIVIGVDVVGGPEGDGTTMPNRLDSLFGASQLMMQAAIALKLRLRPPHIFLRPPVHRFGVLDFLKSEEVLNASAGIKDDLKRQIDMQVELFHRGQGVEA				NA	NA	NA	NA	NA
BMS010_00030	1830	kefC_1	COG0475	Glutathione-regulated potassium-efflux system protein KefC	ATGACCGAGCACGACGCTCTTTTTTCCGAACCCCTGCTGCTTCTGGCCGGCGCGGTCATCGCGGCCTCGGTTTTCCGCAAGCTTGGCCTTGGCACCGTGCTCGGTTATCTGGTGGCCGGCATCATCATCGGGCCGTTCCTGCATCTGGTCACGGATGCGAAGGACATCTTCAACGTCTCGGAACTTGGCGTCGTTTTCCTGCTCTTCATCATCGGTCTCGAACTGAAGCCGTCGCGCATCTGGCAGATGCGGCGCGATATCTTAGGGCTTGGGATGGCGCAGGTGCTGGTGACGGGCAGCGTGCTGGCGGCCATTGCCTGGTGGGCAGGGCTGATCGACTGGCGCGGCAGCCTCGTCGCCGGTTTCGGCCTTGCGCTTTCCTCCACCGCCTTTGCGCTGCAAATCCTTGCCGATGACGGCGACATGAATACGCGGCACGGCAACCGCTCCTTTTCGATCCTGCTGTTTCAGGACCTCGCCATCGTGCCGCTTCTTGCCCTCGTCACCATTCTTTCCAACCGGCCGGATGTGCCGACGGATTCCATGGTATCCGATCTCATCGCCTCCGTCGTCGCGGTGGCCGGCATGGTGCTGGCCGGGCGGTATCTGCTGACGCCGATGTTCCAGATCATCGCCCGCACCGGCGCGCGGGAGGTGATGATCGCCGCCGCCCTCTTCGTCGTCATCGGCGCCGCCGCCATCATGGAAGCGGTGGGTTTGTCGATGGGCATGGGCGCGCTGCTGGCGGGGCTGATGCTGTCTGAATCCTCTTACCGGCACGAACTGGAGGCCGATATCGAGCCGTTTCGCGGCCTGTTTCTGGCGCTGTTCTTCATGGCTGTCGGCATGTCGCTGCATATCCATATCGTCTATGAGCATATTCTGCTCATCCTGATCGCCGTGCCGGCGATGATGGCGGTGAAGGCGGCGCTGATCTATGGCCTTTGCCGCATCGCCGGCTCGTCGCGTTATGCATCGAGCCGCATCGCGCTGCTTCTGGCGCAGGGCGGCGAATTCGGCTTCGTGCTCTTCACCACCGCTGCCGCCTCCGGCCTGTTTCCGCAGGCAACGGCCTCGATCCTCGTTGCCGTCGTCACGCTTTCCATGGCGCTGACGCCGCTTCTGGCGGTGATTTCACGCCGGCTGACGGCGGAGGATGCGGACGAGGACAAGCTGGAAGAGGATTTCGACGGGGCGGGCGCGGATGTGCTGATGATCGGTTTTTCCCGCTTCGGCCAGATCGCCTCGCAGATCCTGCTCGCCGGCGGGCGCGACGTGACTGTCATCGACAGCTCGGCCGACCGTGTGCGCCAGGCCGCCCGTTTCGGCTTCCGCATCTTTTTCGGCGATGGTACCCGCAAGGACGTGCTGATCGCCGCCGGCATCGAGCGGGCCGATCTCGTTGCGGTCTGCACCCACAAGAAGGAGGTGACCGACCGTATCATCGACATGATCCAGTCGGAATTTCCGAGCGTGCGCATCTATGCCCGCTCCTATGACCGCGTGCATTCCCTCGACCTCAGAAAAAAGGGCGTGGAATATGAAATCCGCGAGACGCTGGAATCGGGTCTGCTGTTCGGCAGGCGCATTCTGGAGGGGCTGGATATGGATGGCGAAAGGGCGCTGGCGATTGCCGACGACATTCGCGAACGGGACGAGGAGCGATTGCAGCTACAGGCCGTGGAAGGCCTCGCCGCCGGCCGGCAGATGCTGCACAACAAGCCGGTGCGCGAGGTGAAGCCCGAACCGCTGATGAAGCCGAAGACCAAGGCGGAAAAGTGGGAAGAAGAAGAGGATGCGGAGGACAGCGAGACGGAAGTTTCGCTGTGA	MTEHDALFSEPLLLLAGAVIAASVFRKLGLGTVLGYLVAGIIIGPFLHLVTDAKDIFNVSELGVVFLLFIIGLELKPSRIWQMRRDILGLGMAQVLVTGSVLAAIAWWAGLIDWRGSLVAGFGLALSSTAFALQILADDGDMNTRHGNRSFSILLFQDLAIVPLLALVTILSNRPDVPTDSMVSDLIASVVAVAGMVLAGRYLLTPMFQIIARTGAREVMIAAALFVVIGAAAIMEAVGLSMGMGALLAGLMLSESSYRHELEADIEPFRGLFLALFFMAVGMSLHIHIVYEHILLILIAVPAMMAVKAALIYGLCRIAGSSRYASSRIALLLAQGGEFGFVLFTTAAASGLFPQATASILVAVVTLSMALTPLLAVISRRLTAEDADEDKLEEDFDGAGADVLMIGFSRFGQIASQILLAGGRDVTVIDSSADRVRQAARFGFRIFFGDGTRKDVLIAAGIERADLVAVCTHKKEVTDRIIDMIQSEFPSVRIYARSYDRVHSLDLRKKGVEYEIRETLESGLLFGRRILEGLDMDGERALAIADDIRERDEERLQLQAVEGLAAGRQMLHNKPVREVKPEPLMKPKTKAEKWEEEEDAEDSETEVSL	PGPT0014395_1583	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0014395-ybaL|TC_KEF-K03455	NA	NA
BMS010_00031	1347	pmbA_1	COG0312	Metalloprotease PmbA	ATGTCCTCAGAAATAGATTCTTCCAAACTTCTCGATCGCGCCAGCCAGCTTGTCGATCTTGCCCGCGCCGCCGGTGCGGATGAGGCGGATGCCGTTGTCGTCCGCTCCCGCTCGCAATCGGTCGGCGTGCGGCTCGGCAAGGTGGAAAGTACCGAATCCTCCGAAAGCGACGATTTTTCCCTGCGCGTCTTCGTTGGCCGCCGGGTGGCAAGCGTTTCGGCCAATCCGGGCTTCGACCTGAAAACCTTGGCGGAGCGGGCAGTCGCGATGGCGAAGGTTTCGCCGGAAGACCCCTTTGCCTGCCTTGCGGACAAGGAACGGCTGGCAACGTCCTATGACGATCTTCAGCTTTTCGATGCGACGGAAGTGTCGGCCGATCAGCTGCGTGAGGCGGCCCTTGCTTCGGAAGAGGCAGCACTTGCGGTCAAGGGTGTCAGCAATTCCTCCGGCGCCGGCGCATCGAGCGGCATGGGCGGCCTCGTGCTTGCCACCTCGCACGGTTTTTCCGGCAGCTATATGGGCAGCCGCTTCAGCCGCTCCGTCAGCGTCATCGCCGGCGAAGGCACGAAGATGGAGCGCGACTACGATTTCGACAGCCGCCTTTATTATGCCGATCTCGATGCCGCCGAAGAAATCGGCCGTCGCGCCGGTGAAAAAGTCGTGCGCCGTGTCGGCCCGCGCCAGGTCGATACCGGCAGCAACATCACCGTGGTTTTCGATCCGCGCATCGCCCGCGGTTTTGTCGGTGCGATTGCTGGCGCCATCAACGGCGCGTCGGTTGCCCGCAAGACCAGCTTCCTGCGCGATAAGATGGGTCAGCAGGTTCTGAAAAAGGGCCTTTATCTCACCGACGATCCACAGATCGTGCGCGGCCCGTCCTCGCGTCCCTTCGATGGCGAGGGCGTGCGCGGCGAGAAGATGACGATGATTGAGGACGGTGTTCTCAAGCACTGGTTCCTGTCCACCTCGGCGGCGCGGGAACTCGGCCTTGAAACCAACGGTCGCGGCGTGCGCGGCGGCACGACGGTTTCGCCGGCCTCCACCAATCTGGCGCTGGAGCCAGGCGATCTCTCGCCGGATGATCTGCTGCGACAGGTCGGAACCGGCTTTTACGTCACCGAGCTGATCGGCCACGGCGCCAATATGATCACGGGTGAATATAGCTGCGGGGCGAGCGGCTTCTGGATCGAGAACGGCGAAAAGACCTTTGCGGTTTCCGAGGTCACCATCGCCTCGAACCTGAAGGACATGTTCATGCGGGTCACGCCGGCTAACGATATCGACCGTAAATACGGCGTCGCCGCCCCGACGCTCGCCATCGAAGGCATGACGATCGCGGGCAAGTGA	MSSEIDSSKLLDRASQLVDLARAAGADEADAVVVRSRSQSVGVRLGKVESTESSESDDFSLRVFVGRRVASVSANPGFDLKTLAERAVAMAKVSPEDPFACLADKERLATSYDDLQLFDATEVSADQLREAALASEEAALAVKGVSNSSGAGASSGMGGLVLATSHGFSGSYMGSRFSRSVSVIAGEGTKMERDYDFDSRLYYADLDAAEEIGRRAGEKVVRRVGPRQVDTGSNITVVFDPRIARGFVGAIAGAINGASVARKTSFLRDKMGQQVLKKGLYLTDDPQIVRGPSSRPFDGEGVRGEKMTMIEDGVLKHWFLSTSAARELGLETNGRGVRGGTTVSPASTNLALEPGDLSPDDLLRQVGTGFYVTELIGHGANMITGEYSCGASGFWIENGEKTFAVSEVTIASNLKDMFMRVTPANDIDRKYGVAAPTLAIEGMTIAGK				NA	NA	NA	NA	NA
BMS010_00032	807	cysQ_1	COG1218	3'-phosphoadenosine 5'-phosphate phosphatase	ATGAACGATATGGCTGAGGCCCGCTGGGCCTCCGATCTGAGGCTGGTCCTAGAAGCCGCCCGCAAGGCGGGCGAGACGGCCCTCGGTTTCTTCCGCAAGGATCCCGAGGTCTGGTGGAAGAATGGCGGGCTTTCGCCGGTCAGTGCGGCCGACTACGCCGCCAATGAAATCCTCGAAACCATCCTGCGCTCCGCCCGGCCGGAATACGGCTGGCTCTCCGAAGAGACGGATGACGATACGGACAGGCTTTCCCGCTCCACCGTCTTCGTCGTCGATCCCATCGATGGCACCCGTGCCTTCATCGGCGGTCGGGATACCTGGTGCGTCAGCGTCGCGGTGGTGCATGAGGGCCGGCCGGTGGTAGCGGCCCTTGTCGCCCCGGCGCTTGCCGAGGAATTCACCGCATTGGAAGGCGGCGAAGCGCTGAAAAACGGAGCGCCCGTTTTTGCCGCGCGTGAAAATGCCGGCATCTTCCATCTGGCGGCGCCAGAAGACGTAATCACGCATCTGCCGGAAGAGGTGCGGGGTGGCGTCAAGCGCATTCCGCACGTACCCTCGCTCGCCTACCGGCTGGCCATGGTGGCGGATGGCCGCATCGACGGAACGCTGGTCAAGGCCAACTCGCACGAGTGGGATCTCGCCGCTGCCGACCTCATTCTGGAGAAGGCTGGCGGCCGGCTGGTCGGGCTCGATGGAAAACCTCTGATGTATAATCGCCGGCAGGTGAACCACCCCGCATTGTGCGCTGCAGCAGATTATGCGCTGCCTGCACTTTTGAAAGCGTTTTCACATCTGTCTGACAGTTGA	MNDMAEARWASDLRLVLEAARKAGETALGFFRKDPEVWWKNGGLSPVSAADYAANEILETILRSARPEYGWLSEETDDDTDRLSRSTVFVVDPIDGTRAFIGGRDTWCVSVAVVHEGRPVVAALVAPALAEEFTALEGGEALKNGAPVFAARENAGIFHLAAPEDVITHLPEEVRGGVKRIPHVPSLAYRLAMVADGRIDGTLVKANSHEWDLAAADLILEKAGGRLVGLDGKPLMYNRRQVNHPALCAAADYALPALLKAFSHLSDS	PGPT0018535_3896	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018535-suhB-K01092	NA	NA
BMS010_00033	240			hypothetical protein	ATGACGGAATCTGGCAAACAGAAACAGCTGCTGCACCTCGTATTCGGCGGCGAACTGGAAAACCTTCAGGATGTTCAGTTCCGGGATTTGAACGCGCTCGATATCGTCGGTATCTTTCCGGACTATGCTTCCGCGCTCACCGCATGGAAGTCCAAGGCGCAGATGACCGTCGATAACGCCCATATGCGTTATTTTATCGTGCATATGCACCGTCTTCTCAATCCGGACGACAAAATTTGA	MTESGKQKQLLHLVFGGELENLQDVQFRDLNALDIVGIFPDYASALTAWKSKAQMTVDNAHMRYFIVHMHRLLNPDDKI	PGPT0018535_155	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018535-suhB-K01092	NA	NA
BMS010_00034	1323	waaA_1	COG1519	3-deoxy-D-manno-octulosonic acid transferase	ATGAGCAGCCGTATCGCACGTTTCGCTCTTTCCGGTTACCGCATTGCCGGTATCGCCGCTTACCCGTTCGCGAAGCCCTATCTTTCCTATCGGGCGGCGAAGGGCAAGGAAGACAAGCGCCGTCGGCTTGAGCGTTTCGGTTATGCGAGCGCCGAGCGCCCGCGCGGGCCGCTGGTCTGGTTCCATGCCGCAAGCGTGGGTGAAACGCTGGCGCTTATTCCGCTGATCCGCGAAATCCGCAAGCGCGATATCTTCGTGCTTTTGACCACCGGAACCGTCACATCGGCCGAACTGACCCGCACGCGGCTGGGCGACGATGTGATCCATCAATATGTGCCGCTCGATATTAAGATCGCGGTCAACCGTTTCCTGACCTATTGGGCACCGGATGCAGCCATCACTGCGGAATCGGAAATCTGGCCGGTGACGATGATGGAACTGGAGCGCCGGCACATTCCGCAGATCCGGGTCAATGCGCGCCTCTCCGACCGTTCCTTCGACCGCTGGAAAGCCCGGCATGACATTGCTGAATCGCTGTTTTCCAAGCTGGCGCTGGTGGTTGCGCAGTCCGATCTCGATGCCGAACGTTTCCGCGATCTCGGCTCCTGGCCGGTGGTGATTTCTGGCAACCTGAAGGGCGACACCGACCCGCCGCCATGCGACGAGGCGCTGCTGGAGAGCTATCGCAAGCAGGTCGGCAATCGCAAGACATGGGCCGCCATCTCCACTTTCGACGGCGAGGAGAAGGCTGCCGCCACCGTGCATGCGGCGATCAAGTCGCGCAATGGGCAACTGACCATCATCGTGCCGCGCCATCCCGAGCGTGGCGACGATGTCGAGGCGATGCTGAAGGGCATGAATCTTTCGGTCGCCCGCCGCAGCCGCAATGACGTGATTACCCCGGAAACCGATATTTTCCTCGGCGATTCCATCGGCGAAATGGGGCTTTATCTGCGCCTGACCGAGCTTGCCTTCGTCGGCCGCTCCTTGACTGCCGAGGGCGGGCAGAACCCGCTGGAACCGGCCATGCTCGGCTGCGCCGTTCTGTCTGGCGCGCATGTGCAGAATTTCCGCGAGGCCTATCAGAAACTGATCCGCGCCGGCGGCGGTCGTATCATCCGCGATGTGGAGATGCTGGCCAAGGCGGTGCATTATCTGCTGGTCAACGACAATGAGCGTTACAAAATGATCGATGCCGGCAACCGGGTCATTCAGGATATGCGCGGCGCGCTGTCCTCCACCGTCAAGGCGCTGGAACCCTATATCAATCCGCTCACCGTTTCCGCCAAGCTGCAACCGCGGAGCGCCATCGGTTCATGGTAG	MSSRIARFALSGYRIAGIAAYPFAKPYLSYRAAKGKEDKRRRLERFGYASAERPRGPLVWFHAASVGETLALIPLIREIRKRDIFVLLTTGTVTSAELTRTRLGDDVIHQYVPLDIKIAVNRFLTYWAPDAAITAESEIWPVTMMELERRHIPQIRVNARLSDRSFDRWKARHDIAESLFSKLALVVAQSDLDAERFRDLGSWPVVISGNLKGDTDPPPCDEALLESYRKQVGNRKTWAAISTFDGEEKAAATVHAAIKSRNGQLTIIVPRHPERGDDVEAMLKGMNLSVARRSRNDVITPETDIFLGDSIGEMGLYLRLTELAFVGRSLTAEGGQNPLEPAMLGCAVLSGAHVQNFREAYQKLIRAGGGRIIRDVEMLAKAVHYLLVNDNERYKMIDAGNRVIQDMRGALSSTVKALEPYINPLTVSAKLQPRSAIGSW	PGPT0022485_547	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_CORE_OLIGOSACCHARIDE_METABOLISM,PGPT0022485-waaA|kdtA-K02527	NA	NA
BMS010_00035	738	gph_1		Phosphoglycolate phosphatase	ATGGTAGCGGATATCGAACTCAACGCGGCGCAATCGATCGCCGCAGTCCTTTTCGACAAGGACGGAACGCTTCTCGGCTATGACGCCAGCTGGGGTCCGGTGAACCGCGAGCTTGCGGCGATTGCCGCCAAGGGCGATCCCGCTCTTGCCGACCGGCTTCTTTCCGCCTGCGGCATGGACCCCGTTACCGGTCATGTGGTGCCGGACAGCCTTCTTGCCGCCGGCAACACCGCGGAAATCGCCGCCGGTCTGGTTGCCGCCGGCTCGCCCTGCGATGTTGGGGAGCTGACGGCGCGCCTCGACCGGTTGTTCACCGAGGCTGCGGATAAATCCGTGCCGGTGACCGATCTCAAGGCGTTTTTCGCAAGGCTGAAGGCCCGCGGCTACAAGCTCGGCATCGCCTCCAGCGACAATGAAAACTCCATCCGCCAGACGGCCATCCGCTTCGGTTTCGAAAACGACGTCGATTTTGTCGCGGGATATGACAGCGGTTACGGCACCAAGCCGCAGCCCGGCATGGTTCTCGGTTTCTGCGAGGCGATAGGCTTCCCGCCGGAGCGTGTGGCGGTGGTCGGCGACAATAATCACGATCTGCATATGGCGAAGAACGCCGGTGCCGGTTTGCGTATCGCCGTTTTGACCGGAACAGGCTCACGCGAAAGCCTTGGCGCAGATGCCGATTTTTGTTTCGATGACATCACGGCGCTTGAAGCGCTTTTGCCGGAACGGGCTCTCTGA	MVADIELNAAQSIAAVLFDKDGTLLGYDASWGPVNRELAAIAAKGDPALADRLLSACGMDPVTGHVVPDSLLAAGNTAEIAAGLVAAGSPCDVGELTARLDRLFTEAADKSVPVTDLKAFFARLKARGYKLGIASSDNENSIRQTAIRFGFENDVDFVAGYDSGYGTKPQPGMVLGFCEAIGFPPERVAVVGDNNHDLHMAKNAGAGLRIAVLTGTGSRESLGADADFCFDDITALEALLPERAL	PGPT0001730_722	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0001730-gph-K01091	NA	NA
BMS010_00036	1047	lpxK_1	COG1663	Tetraacyldisaccharide 4'-kinase	ATGGTTTCTGAAGCGCCGCCGTTCTGGTGGCAGAAAGCGGGCTGGCAGGCGTGGCTCCTGTCTCCTTTCTCGCTTCTTTACGGCAAGATCGCCGGCCGGCGGATGCGAACGGCGAAGAGGGCAAGCGTTGCCGTTCCGGTCATCTGCATCGGCAACTTCACCGTGGGTGGCGCCGGCAAGACACCGACGGCGATGGCAATTGCGAGAGCCGCCGTCGCAAAGGGCCTGAAACCCGGATTTCTCAGCCGCGGTTACGGCGGCACGCTCGACGTCACCACCCTTGTCGATCCCGGACAGCACCGCTCGGCCGATGTCGGCGATGAGCCGCTGCTCCTGGCGCGAGAGGCGGTCACGGTCATTTCCCGCCAGCGCGTGGAAGGCGCACACCGGCTGGTGAAGGAAGGCGTTGATCTCATCATCATGGATGACGGCTTCCAGAGCGCACGCCTGACGCTGGATTATGCGCTCGTCGTCATCGATACGATGCGCGGCATCGGCAATGGCCATCTCGTGCCGGGCGGCCCGGTGAGGGCGCCGCTATCCGAGCAGATGCGGCACATGACCGGGCTCCTGAAGGTCGGCAATGGCCATGCGGCCGATGCCCTGGTCCGGCAGGCGGCAAAGGCCGCCAAACCCGTCTTCGTGGCGGCGATCACGCCGCAGGAGCCGCAGGATTTCAGGGGAAGACGCGTGCTGGCCTATGCGGGCATCGCCGACCCGGCCAAGTTTTATCGAACCGTCGAGGCGCTCGGCGGCGACATCGTGCTGCAGCGCTCTTTCCCGGATCATCACCATTTCAGCGACGACGAGATCGCCGATCTTCTGCAGGACGCCGATAAAGAGAACCTGCAACTGGTGACGACGGCCAAGGACGCGGTGCGGCTTAACGGGCACCACGGCCGGGCGGAAGAATTGCTGTGGAACAGCCTGGTGATCGAAATCGACATGGTGTTCGACGACCCCAACGCGGCCGCGACGATCATCGATACGGCGGTGAGGAACTGCCGTGCGCGTCTCCTGCGGGACAATGCGCGGACGTCGGTTTAG	MVSEAPPFWWQKAGWQAWLLSPFSLLYGKIAGRRMRTAKRASVAVPVICIGNFTVGGAGKTPTAMAIARAAVAKGLKPGFLSRGYGGTLDVTTLVDPGQHRSADVGDEPLLLAREAVTVISRQRVEGAHRLVKEGVDLIIMDDGFQSARLTLDYALVVIDTMRGIGNGHLVPGGPVRAPLSEQMRHMTGLLKVGNGHAADALVRQAAKAAKPVFVAAITPQEPQDFRGRRVLAYAGIADPAKFYRTVEALGGDIVLQRSFPDHHHFSDDEIADLLQDADKENLQLVTTAKDAVRLNGHHGRAEELLWNSLVIEIDMVFDDPNAAATIIDTAVRNCRARLLRDNARTSV	PGPT0022380_727	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022380-lpxK-K00912	NA	NA
BMS010_00037	222			hypothetical protein	ATGAACAGATTTGAAGGAGGCGGCAACCGCCTCGCCGTCATCGAATATCTCGACGGTGACTTCCGCATCGTCCAGACCGGCTCGCACGTCATCTGCGCCGTGACAGGCAAGGCAATCCCCGTAGATGAGTTGCGCTACTGGAGCGTGGCGCGGCAGGAAGCCTATGTGGATGCGGCGGCTTCGCTGGAAGCCGAAAAGAAGGCTGGCAATTTGCCGGCGTGA	MNRFEGGGNRLAVIEYLDGDFRIVQTGSHVICAVTGKAIPVDELRYWSVARQEAYVDAAASLEAEKKAGNLPA				NA	NA	NA	NA	NA
BMS010_00038	1842	mutL_1		DNA mismatch repair protein MutL	ATGACGATCATGGCCATCAAGCAGCTTTCAGAAACCCTCATCAACCAGATCGCCGCCGGCGAGGTCATCGAAAGACCCTCCAGCGCCACGAAGGAACTGGTGGAAAACGCCATCGACGCCGGCGCGACCCGGATCGAGATCGCCACGGCGGGCGGCGGCAAGGGGCTGGTGCGGATCACCGACAACGGCTGCGGCATGTCGCCCGCCGATCTGGAGCTTGCGGTCAGGCGTCACTGCACCTCGAAGATTTCCGATACGCTTGATGATATCCGCACGCTCGGGTTTCGCGGCGAGGCGCTGCCCTCCATCGGCTCGGTCGCCAAGCTGACGATTACCAGCCGCCAACAGGGCGCGGAACAGGGTTCGGTGATTTCCGTCACCGGCGGCAAGGTGTCCGATGTGCGGCCCGCCGCCTCGAATGCCGGCACCATCGTCGAGGTGCGCGACCTGTTCTTCGCCACGCCGGCGCGGTTAAAATTCCTGAAAACGGAACGGGCGGAGGCGGCGGCCATCACCGAGGTCGTCAAACGGATGGCAATCGCCTTTCCGCATATCCGTTTCGTACTTTCCGGCACCGACCGCTCGACGCTCGAAATCCCTTCGACCGGTGACGACCATCTTGCCCGCATGGCGCAAATCCTCGGTGCCGAGTTCAAGGACAACGCCATCGAGATCGATGCCGGGCGCGAGGATGTGACGCTCACCGGTTTTGCCGGTGTGCCGACCTTCAATCGCGGTAACTCGGCGCATCAATATGTCTTCGTCAATGGCCGCCCGGTGCAGGACAAGCTGCTTTTATCCGCCATTCGCGGCGCCTATGCCGAAACCGTGCCGCATGGGCGATATCCGGTCGCGGTGCTGTCCATCACGCTCGACCCCGCCTTTGTGGACGTGAACGTGCACCCGGCAAAATCCGATGTGCGTTTTCGCGATCCAGGCCTCATTCGCGGGCTTATCGTCGGCGCGATCCGGCAGGCGCTGACCCGCGACGGCGACAGGGCCGCAACGACGGGTGCGAACCAGATGATGAACGCCTTCCGCCCCGGCTACAGCCCGTCCGGCCTCCGGCCGTCGCCTTCCATGGCTGCCCCCGCGCCATGGTCCGCGGCCACGTCCCCGTCACGGCCGCTCGCCGTTTCCGGAAACATGCAATTTGCCGAAGCGGTGCAATCGCGCTTTTCCGATATCACCATGCCGACGGCGCGGGCCGAACCGCGCGAGGCTTACGAGGCCTCCCCTGACTCTTCACCAGAGCCGGTAGTGTATCCGCTTGGAGCGGCACGGGCGCAGCTGCACGAGAACTACATCATCGCGCAGACGGAAAACGGCCTCGTCATCGTCGACCAGCATGCTGCGCATGAGCGGCTGGTGTTCGAACAGATGCGCAATGCGCTGCATTCCAGGCGGCCGCCGTCGCAGGTGCTGCTCATTCCTGAAATCATCGACCTGCCGGAAGAGGATTGCGACCGGCTGATGGATCATGCCGCCGGTTTCGATGCGCTGGGGCTCGTCATCGAGCGTTTCGGGCCGGGCGCGGTTGCCGTTCGCGAAACGCCCGCCATGCTGGGCGAGGTCAATGTGCAGGGGCTGGTGCGCCAGCTTGCCGACGAGATCGCCGAATGGGACGCCGCCTCCACGCTTGCCAACAAGCTGGAATATGTCGCAGCCACCATGGCCTGCCACGGCTCGGTGCGGTCCGGCCGGCGCATGCGGCCGGAGGAGATGAACGCGCTTCTGCGGCAGATGGAAAACACGCCGGGTTCCGGCCAGTGCAATCACGGCCGTCCGACCTATATCGAACTGAAACTTTCCGATATAGAACGGCTCTTCGGCCGTAGCTGA	MTIMAIKQLSETLINQIAAGEVIERPSSATKELVENAIDAGATRIEIATAGGGKGLVRITDNGCGMSPADLELAVRRHCTSKISDTLDDIRTLGFRGEALPSIGSVAKLTITSRQQGAEQGSVISVTGGKVSDVRPAASNAGTIVEVRDLFFATPARLKFLKTERAEAAAITEVVKRMAIAFPHIRFVLSGTDRSTLEIPSTGDDHLARMAQILGAEFKDNAIEIDAGREDVTLTGFAGVPTFNRGNSAHQYVFVNGRPVQDKLLLSAIRGAYAETVPHGRYPVAVLSITLDPAFVDVNVHPAKSDVRFRDPGLIRGLIVGAIRQALTRDGDRAATTGANQMMNAFRPGYSPSGLRPSPSMAAPAPWSAATSPSRPLAVSGNMQFAEAVQSRFSDITMPTARAEPREAYEASPDSSPEPVVYPLGAARAQLHENYIIAQTENGLVIVDQHAAHERLVFEQMRNALHSRRPPSQVLLIPEIIDLPEEDCDRLMDHAAGFDALGLVIERFGPGAVAVRETPAMLGEVNVQGLVRQLADEIAEWDAASTLANKLEYVAATMACHGSVRSGRRMRPEEMNALLRQMENTPGSGQCNHGRPTYIELKLSDIERLFGRS				NA	NA	NA	NA	NA
BMS010_00039	1662	rcsC_1		Sensor histidine kinase RcsC	TTGAGTGATTTGGCGTCCTCTGGCGCGGGCGTTCATACGGTGATGCTTGATGCCCTTTGCGACGCGCTTGGCGCGGCGATCGTCGTTTACGACCGGAACGATCACATTATTTTCGCAAGCCGGAAACTCTTGAGCTTTTTTCCGCTGGAAGAGGCCGTCGTTGGCCCGGGCGCACGGCTGCGCGACTATCTGAGCGCGCTTTACGATTGTTATCTGCTCGAGGCGGAAAGCCTCTCCGCCAATGCTCGCCCGCTCGGCCGGGAGGAATGGATCGGCGAGCGGCTGGCCCTGCACTGGAAGGAAAGATCGGAAAAAACCGAGCGGCTGAAGGGAGAACGCTTCCTGCGCTTCGTCATGAACCGCCTGCCGTCGGGCCTCGGCATCAGCGTGGTGGCGGATATTTCCGAACAGAAGAAGCGCGAAGAGCAATGGCGCATCGACCTCGAGCGCGTGCAGCTCATCGAGGATATTCTCGACAATCTGCCGTTTCCCGTCTTCGTCAAGGACCGGAACATGGCCTATGCCGCCGTCAACAAATCCGCCTGCGCTTTGGTCGAAACCAGCCCCGAGAGCATTCTCGGCCGCACCGTTTTCGATCTCCACTCGCGCAAGGTCGCCGGACGGATCGATATTGCCGATCGCATGGTGCTGGATAGCGGCACGCCGAGCGTCATCCCCGAAAGGGTGCGGCGGCTGAATGGCGAAGAGGTGCTGACCATCACCCGCAAACAGCGTGTGGGCAGGCCCGGGCGATATTTCCTGGTGACGACGATGGAGGACGTGACCGCTCTCGCCACCATCGATGCCAACGGCATGCCCGTCATCCCCTCGCTCGAACATGTCCCTTTCGTCGCCTCCACTTACGGCAGGGATGAGGAAACGGACAAGCGCGGCGGCGTTTTAAAGAGCAAGGCGGTGCTGATCGTCTCTGAAAACGGACGCTTTGCGGAAGCCGCCGGTCGCCGGCTGACGGCTGGCGGCATGGACCATGCGGCGGTGACGAGCGAGGACGAGCAGCGCGCCTTCATCGATGTCGCGACCTCCGTCGGTGTGAGCATCGATGTGGTCGTTGTCGACGCCCAGATGAGCGTCGCCTGCCTCGATATTGCCGCCGCGCATGATCTGCCCGTCGTCACCATCGAGGAAGAGGAGATTGACGCTTCGCTGCTGCATTATCTTGCGGCCGGGCTACAATCGTCCCCGAAGGAGAAAACCGCTGACGAGGACTGGGAGATCATGACGGAGGACCTGCCTGAAATCCTCAAGACCGGCGGTGTCTGCGATATACTTCTCGTCGAGGATAACAGGGTCAACCAGATCGTCTTTTCGCAGATACTCGAGGGTCTCGGGCTTTCCTGGCGGCTTGCCACTTCGGGCGAGGAAGCCCTGCGTCTCTTTGCCGAACAGCCGCCTTCCGCCGTCCTGCTCGACACGACGCTGGGCGATATCGACGGCTTCGAGGTCGCGCGCCGCATGCGCAGCCTTTGCGGCGAAAAGCACATTCCCATCGTCGGTGTCATCACCCACGCTTTCGAGGGCGATCTCGATAAATGCCGGGCGTCCGGCATGGACGACATGCTGCTGAAGCCCGTCAGCCCGGATATGGTCGAGGCGGTTTTCCTGCGGCTTTTCGGCAAGGATGTCCTGCGGCTGCAGGCATGA	MSDLASSGAGVHTVMLDALCDALGAAIVVYDRNDHIIFASRKLLSFFPLEEAVVGPGARLRDYLSALYDCYLLEAESLSANARPLGREEWIGERLALHWKERSEKTERLKGERFLRFVMNRLPSGLGISVVADISEQKKREEQWRIDLERVQLIEDILDNLPFPVFVKDRNMAYAAVNKSACALVETSPESILGRTVFDLHSRKVAGRIDIADRMVLDSGTPSVIPERVRRLNGEEVLTITRKQRVGRPGRYFLVTTMEDVTALATIDANGMPVIPSLEHVPFVASTYGRDEETDKRGGVLKSKAVLIVSENGRFAEAAGRRLTAGGMDHAAVTSEDEQRAFIDVATSVGVSIDVVVVDAQMSVACLDIAAAHDLPVVTIEEEEIDASLLHYLAAGLQSSPKEKTADEDWEIMTEDLPEILKTGGVCDILLVEDNRVNQIVFSQILEGLGLSWRLATSGEEALRLFAEQPPSAVLLDTTLGDIDGFEVARRMRSLCGEKHIPIVGVITHAFEGDLDKCRASGMDDMLLKPVSPDMVEAVFLRLFGKDVLRLQA				NA	NA	NA	NA	NA
BMS010_00040	1353		COG2199	putative signaling protein	ATGAAACGGGCAGAGCCGCAAACGTTGCAGGTCAGCCAGAACGAGCTGCAGGCGATGGCCTACAGTGACCCGCTGACGGGGCTCGGCAACCGCTACCGTCTGCGGGACAAGATTCGCATGCTTGCCAGCGAGCGCTCCAGCGATCCCGCGCCTTTCACGGTCGGCATCGCCAATATAGACGGCTTCAAACCCATCAACGATCTGTTCGGTGTGCAGGCGGGTGATGAAATCCTGTGTCAGGTCGCGCACCGGCTGAAGGCCTGCATTCCCGATGGCGCGGTCGTGACGCGCCATGACGGCGACGAATTCGCCTTCGTGCTGCCGCTGGTGTTCGAGCGCACGGGCGCCGAGCGCATCGGCAACATGATCAAGGACGTGCTTTCTGCCCCTTACGATCTCGGCGACCGCAATGTCCGCCTGTCCTCCTCCTTCGGTTTTGCCATCTATCCCTTCGCCGGCGATGAATTCGAGGATTTGCTGAAAAGCGCCGAGACGGCGCTCTATCGCTCCAAGAGACGTGGCCGCGGCCAGATCACGGTCTATTCGCGCGAAATCGCGCAGGAAATGAAGCGGGCGACGCAACTGGAACAGGCGCTCAGAAACGCCATCATCACCGATGCCATCGATGTGCATTTCCAGCCCATCGTCAGGCTGGAAGAGGCGAAGGTCATCGGTTTCGAGGCGTTGGCCCGCTGGAACGATCCGGACCTCGGTTTCGTATCGCCCGCTGTTTTCGTGCCGCTTGCGGAAGAGCGCGGTTTCATCGATGCGCTGTCGGAAGCTTTGCTCCGAAAGGCGGCAGAGGCGGCCCTGTTCTGGCCGCGTGAACTCTTCCTGTCCTTCAACCTCTCTTCCGCGCAATTGATGGACCCCAGCACGGCGGACAATATTCTCTCCATCCTCTCGCGTGTCGGTCTCGACCCGCACCGGCTGGAGCTTGAAATCACCGAAACGGCTGTCATGACTTCCGCCGATACCGCCCAGCGCATTATCAGCGAATTGCAGAGCGCCGGCGTTCGCATTTCGCTGGATGATTTCGGCACCGGCCAGTCGAGCCTCGGCCGCCTGCGCGATTTCACCTTCGACAAGGTGAAGATCGATCGCGCCTTCGTTTCTCGTATCAGCAGCGACCGCCCCTCGGAACATATCATCAAGGCCATCGTCGCCATGTGCGAAGGGCTCGATCTCGAGGTCGTGGCCGAAGGGATCGAAGAACGGGCGGAAGAGGAAAAGCTGCGCGCACTCGGCTGCGCCATGGGGCAGGGCTATTTCTACGGCCGCCCCGCCGATGCCGCCGCGACCCAGCGGTATCTGCACGAGAATTACCGCGAGATATTGTCGGATATTTCCTGA	MKRAEPQTLQVSQNELQAMAYSDPLTGLGNRYRLRDKIRMLASERSSDPAPFTVGIANIDGFKPINDLFGVQAGDEILCQVAHRLKACIPDGAVVTRHDGDEFAFVLPLVFERTGAERIGNMIKDVLSAPYDLGDRNVRLSSSFGFAIYPFAGDEFEDLLKSAETALYRSKRRGRGQITVYSREIAQEMKRATQLEQALRNAIITDAIDVHFQPIVRLEEAKVIGFEALARWNDPDLGFVSPAVFVPLAEERGFIDALSEALLRKAAEAALFWPRELFLSFNLSSAQLMDPSTADNILSILSRVGLDPHRLELEITETAVMTSADTAQRIISELQSAGVRISLDDFGTGQSSLGRLRDFTFDKVKIDRAFVSRISSDRPSEHIIKAIVAMCEGLDLEVVAEGIEERAEEEKLRALGCAMGQGYFYGRPADAAATQRYLHENYREILSDIS				NA	NA	NA	NA	NA
BMS010_00041	840			6-deoxy-6-sulfogluconolactonase	ATGCTGCTCGGCGAAGGCCCGACCTTCGACCCTGCGACCGGCACCGCCTGGTGGTTCAATATTCTCGAGCGGGAACTGCATGAGCTGCATCTCGCCTCCGGCCGCAAGACCGTGCACGCTTTGCCCTTCATGGGCAGTGCGCTCGCCAAGGTCAGCGACAGCAAGCAGCTGATCGCCTCCGATGACGGGCTTTTCCTGCGCGACACGGCAACCGGCGTGCTGACGCTGCATGCGGAGCTGGAGAAGGATTTGCCCGGCAACCGCTCCAATGACGGGCGCATGCACCCCTCCGGCGCGCTGTGGATCGGCACCATGGGCCGCAAGGCGGAGACCGGCGCGGGTAGCATCTATCATGTCGCGAAGGGCACCGTGACCAAGCTGTTTGCCGAGATCAGCATTCCGAATTCGATCTGCTTTTCTCCCGATGGCGCGACGGGATATTACGTCGATACCAAGGTGAACAAGCTGATGCGGGTGCCGCTCGATGCCGAGACCGGCCTTCCCGCAGGCAAGGCTGAAGTCTTCATCGATTCCACCGGTATCAAAGGCGGCATCGACGGGTCGGTCTGCGATGCCGAAGGGCATATCTGGAACGCCCGCTGGGGCGTGGGCGCTGTGGATCGTTACGATGCGGACGGCAATCACATTGCCCGATATGAGGTGCCCGGCGGACAGACGACCTGCCCGGCCTTCATCGGACCCGACGCATCGCGCCTTCTCGTCACCTCGGCGCGCGAACATCTCGACGACGACGCCATTGCCGCCAATCCGCAGCATGGGTTGACGTTCGAGCTGGGGGTTGAGGTGAAGGGCCGGTTCGAGCCGCTTTATCGGTTGTGA	MLLGEGPTFDPATGTAWWFNILERELHELHLASGRKTVHALPFMGSALAKVSDSKQLIASDDGLFLRDTATGVLTLHAELEKDLPGNRSNDGRMHPSGALWIGTMGRKAETGAGSIYHVAKGTVTKLFAEISIPNSICFSPDGATGYYVDTKVNKLMRVPLDAETGLPAGKAEVFIDSTGIKGGIDGSVCDAEGHIWNARWGVGAVDRYDADGNHIARYEVPGGQTTCPAFIGPDASRLLVTSAREHLDDDAIAANPQHGLTFELGVEVKGRFEPLYRL	PGPT0017460_314	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017460-araB|L_arabinonolactonase-K13874	NA	NA
BMS010_00042	630	dgoA_1	COG0800	2-dehydro-3-deoxy-6-phosphogalactonate aldolase	ATGCGTATTCCCTTCCCTTCCATCAAATATCCGCTGATCGCCATCCTGCGCGGTCTGAAACCCGAGGAAACCGAAGGCGTCGTCGGCGCGCTGATCGAAACCGGCTTCCGCGCCATTGAAATTCCGCTCAATTCGCCCGATCCGTTCCGCTCCATCGAGATCGCCGCGAAGATGGCGCCCGCCGATTGCCTGATCGGCGCTGGCACCGTGCTCAGCGTGGAAGACGTGGCCTCGCTGGATGCGGCCGGCGGCAAGCTGATGGTGAGCCCCAATGCCGACGCCGATGTGATCGTCGCCGCGCGCGTCAAGGGCATGGTGACGATGCCGGGTGTTCTCACCCCCACCGAGGCGCTGGTGGCCGCGAAGGCCGGTGCGACGGGGCTGAAGTTCTTTCCCGCCAGCATCATCGGCCCCGCCGGCATCAATGCGATCCGGACGATCCTGCCGAAGGATCTGGTCATCGCCGCCGTCGGCGGCGTCTCGGACAAGAATTTCGCTGAATATACCTCGGCCGGTATCGTGGCTTTCGGGCTTGGCACCAGCCTTTACAAGCCGGGCATGACGGCGGCGGAGGTGCGCGAACGCGCCACTGTCACACTTTCAGCCTATGATGCAGCCATCGGAGGATAA	MRIPFPSIKYPLIAILRGLKPEETEGVVGALIETGFRAIEIPLNSPDPFRSIEIAAKMAPADCLIGAGTVLSVEDVASLDAAGGKLMVSPNADADVIVAARVKGMVTMPGVLTPTEALVAAKAGATGLKFFPASIIGPAGINAIRTILPKDLVIAAVGGVSDKNFAEYTSAGIVAFGLGTSLYKPGMTAAEVRERATVTLSAYDAAIGG	PGPT0018075_437	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTONATE_DEGRADATION,PGPT0018075-dgoA-K01631	NA	NA
BMS010_00043	915	dgoK1_1	COG3734	putative 2-dehydro-3-deoxygalactonokinase DgoK1	ATGTCTGAACCCGCTTTCATCGCCGTCGACTGGGGTACGACCAGTTTCCGGCTCTGGCTCATGAGCCGATCGGGCGCGGTGCTGGCGGAGCGCAGAAGCACGGAAGGCATGACCACCGCCATGCGGACCGGTTTTGCCGATGTGCTGCAATCGCACCTCGACGCCATCGGCGCGCCGGAAGGTTTGCCGGTTCTCGTCTGCGGCATGGCAGGCGCGCGGCAGGGCTGGGTCGAGGCGGGTTATATCGATGTGCCGACATCGCTTTCGGCGGTTCTCGACGGCGCGGTTCGCGTGCCGGGCCAAGCGCGGGACGTGCGGATTCTGCCGGGGCTGGCGCAGCGGGATGAAAACGCGCCCGACGTGATGCGCGGCGAGGAAACGCAATTGCTTGGCGCTCTCGCCTCCTCGGACGCCGGTGAGAAACTTGTCTGCATGCCCGGCACCCATTCCAAATGGGTGACCGTGAAGGATGGCGGCGTGACGGGGTTCGCCACGTTCATGACCGGCGAACTCTTCGAAGTCGTCTCGAAACAGACCATCCTTTCCCATGCGGTGGCCGAGGCCGAAGCCTTTACCGGCGAGCATGCGGCTTTCACGGCGGCGGTGCGCGACATCTATGCCAATCCGCAGCTTGCGACCAATCGCTTTTTCACCCTTCGATCCGGCCAGTTGCTGCACGGCCTTACCGCCACCGACGCCAAGGCCAAGCTCTCCGGCATCATGATCGGGCTGGAAATCGCCGGCGCGCATTCGACAGCCCGGCGCGAGACGCCGGTGGTGCTGATCGGTTCCGGTGCGCTCGGCGCGCTTTACGAAGGCGCCTTCACCGCCCTTGATATCCACTATACGGTCATCGATGCAGACGAGGCCGTGCGGCGCGGATTGCTGGCCGCTGCAAATGCCATCTGGCCATAA	MSEPAFIAVDWGTTSFRLWLMSRSGAVLAERRSTEGMTTAMRTGFADVLQSHLDAIGAPEGLPVLVCGMAGARQGWVEAGYIDVPTSLSAVLDGAVRVPGQARDVRILPGLAQRDENAPDVMRGEETQLLGALASSDAGEKLVCMPGTHSKWVTVKDGGVTGFATFMTGELFEVVSKQTILSHAVAEAEAFTGEHAAFTAAVRDIYANPQLATNRFFTLRSGQLLHGLTATDAKAKLSGIMIGLEIAGAHSTARRETPVVLIGSGALGALYEGAFTALDIHYTVIDADEAVRRGLLAAANAIWP	PGPT0018080_570	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTONATE_DEGRADATION,PGPT0018080-dgoK-K00883	NA	NA
BMS010_00044	783	xylB_1		D-xylose 1-dehydrogenase	ATGGACGAGATGACGCCGATGACGCAAGCCCAATTTCCGGACCTCAAGGATGCGGGCGTGCTCGTCACCGGCGGCGGTTCCGGCATCGGGGCATCGCTGGTGGAAGCCTTTGCGATGCAGGGCGCGAAGGTTTCGTTCATCGATATCGCCGAAGAGCCGAGCCTTGCGCTCGTCAAGCGGCTTGCAACGACGGCGCCGCATCCGGTCCACTTCTTCAAGACCGACCTTCGCGATATTGCGGCGATCGGAAAGACGGTGGAGGCCGCGGCCTCCGCCACCGGCGGCATCAAGGTGCTTGTCAACAACGCCGCCTGGGACGACCGCCACGACATAGACACGGTGACGGAAGCCTATTGGGACGCCAATCAAGCAGTCAATCTCAAGCAGATGTTCTTCACGGTTCAGGCAGCCCTGCCCTATCTGCGGCAGTCGAAGGACGCCTCCATCGTCAATTTCTCGTCCATCTCGTTTCTGCTCAACATGGGCGAGTTGCCCTCCTATGCGGCGGCCAAGGCCGGCATTATCGGGCTGACGAAAAGCCTCGCCGGCCGGCTGGGCCCGGAAAACATCCGCGTCAACACGCTGCTGCCCGGCATGATCGTGACGGAGCGGCAGAAGGAACTATGGCTGACGGATGAGGGCATTGCCGCCACCACCGCGCGGCAATGTCTGAAACGCACGCTCGTCGCCGCCGATCTGGCGGACCCGTGCCTGTTCCTCGCATCATCGGCATCGAGCGCCATCACGGCGCAATCCATAATCGTAGACGGAGGCCTCCTATAA	MDEMTPMTQAQFPDLKDAGVLVTGGGSGIGASLVEAFAMQGAKVSFIDIAEEPSLALVKRLATTAPHPVHFFKTDLRDIAAIGKTVEAAASATGGIKVLVNNAAWDDRHDIDTVTEAYWDANQAVNLKQMFFTVQAALPYLRQSKDASIVNFSSISFLLNMGELPSYAAAKAGIIGLTKSLAGRLGPENIRVNTLLPGMIVTERQKELWLTDEGIAATTARQCLKRTLVAADLADPCLFLASSASSAITAQSIIVDGGLL	PGPT0002210_13	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GALACTONIC_ACID_BIOSYNTHESIS,PGPT0002210-galD-K22215	NA	NA
BMS010_00045	855			hypothetical protein	ATGGTGGATGTTGCCATGCCCGATAATAAAAAGCCCAATAGGCAAAAGCCTGATGCGGTTCCGGTGACGCAACGGAAAGCCGGAGTTGACACGGGCACGCTCGGCAAGGCCGTCTCGCTGCTGGAGCTGATCGCCTTTGCTGAAAAACCGATGCGCTTTACCGATGTGGTCGAAGCCTGCGGCCAGCCGCGCGGCACGGTTCATCGCCAGCTCGCCCATCTTGTAGCCGAAGGCCTTGTCGATCACGCTGCCGATCAGACCTATGCCGTGGGGCTGAGGTTGCTGCAACTGGCCGCGAAGGCCTGGAGCGGCAACGACCTGCGCAGCGTCGCGGCCCCCCATCTGGCGGCCTTGCAGGAGGTGACGCAGGAGTCAGTGCATCTCGCCGTGCTGAACGGCAGGCAGGTCACCTATCTCGACAAGATGGAGGGGCAGCATACATTGCGCATGCATTCGCAGGTCGGCAAAACCTCGCCAGCCTATTGCACCGGGGTGGGCAAGGCGGCGCTGTCGCTGCTCTCCGCCGACGATCTGGCGCAGCTGGCCACGGCGCTGGATTTTCATCGCTTCACGGAAAGCACGCTCACGACGCCGGAAGCGCTGATGGCGGAGGTGGCGACCATTCGCGACAACGGCTACGGGTTCGACCTTCAGGAGCACGAGATCGGAATTCACTGCGTCGCAGCACCCGTCCGGGCGCCCGGCCGCAATTTTCGCGCGGCGATTTCCGTCACCGGTCCGGCCTATCGCGTGGATGTGGAGCAGCTTCGCAAATGGGCCCCCCTGGTGCGCGAGACCGCCGACAGGATTTCCGACGATCTAGCCTGCAGATTATCCCCGGTTGCGGATGGTTGA	MVDVAMPDNKKPNRQKPDAVPVTQRKAGVDTGTLGKAVSLLELIAFAEKPMRFTDVVEACGQPRGTVHRQLAHLVAEGLVDHAADQTYAVGLRLLQLAAKAWSGNDLRSVAAPHLAALQEVTQESVHLAVLNGRQVTYLDKMEGQHTLRMHSQVGKTSPAYCTGVGKAALSLLSADDLAQLATALDFHRFTESTLTTPEALMAEVATIRDNGYGFDLQEHEIGIHCVAAPVRAPGRNFRAAISVTGPAYRVDVEQLRKWAPLVRETADRISDDLACRLSPVADG	PGPT0018213_310	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_HEXONATE|HEXURONATE|HEXURONIDE_UTILIZATION,PGPT0018213-kdgR-K19333	NA	NA
BMS010_00046	741	rpaR_1	COG2771	HTH-type quorum sensing-dependent transcriptional regulator RpaR	ATGCAGAAAAAAGAGACGGCCGCCGTTCAGTCGATTGGTGTTGATTGCGTTCGCGAGATCGCCGATCTCAACACGCAATTCGATATATTCCGGTTTCTGAAACGGCTTACGGAGGCTTGGGAATTCAAGGCTTTCATGGTGCTCGACCTATCTTCGGAAGTAGCGAGCGAATTGTCGCAATATACGATCATCACCAGCTGGCCGGCCGAGCTTCTGCAGCGTTACGATGAAGAGGGCATGCTCCAGACCAGCCGCGTGATGGCGCAGTTGAAAAAATCGACCGTCCCTTTCTCCGTCTCCATGGATTTTCTGGTCAGAGGCGACGGAGAAATCGCCAGGAAAACCGTAATCAACCTTTTCGAACGGTTCGAAATGATCAATTCGGTCTGGTTCCCCGTCCACGACATCACCATGCGACGGGGCGCGGTATCCTTTTCCGGCAACAAGACGGCTGTGCCCGCCAGCCGGCTTGCGGAGCTTTTTTACATTTCCAGCCATGTCTTTGCCCGGCTGTCTGAAATCCGCCGCCTCGATCTCAGGGTTCCCGAAACCTTGAGCGAGCGGGAGATTGACTGCCTGAACTGGACCGCCGCCGGCAAGACCAGCGCCGAAATCGCTGAAATCATGATGCTGTCGGAACATACCATCAATCATTACCTGAACCGTGCGACGAAAAAACTCGACACGGTCAACCGCACCCAGGCCGTCGCAAAAGCGCTGCGGGTCGGCCTGATAAAATAG	MQKKETAAVQSIGVDCVREIADLNTQFDIFRFLKRLTEAWEFKAFMVLDLSSEVASELSQYTIITSWPAELLQRYDEEGMLQTSRVMAQLKKSTVPFSVSMDFLVRGDGEIARKTVINLFERFEMINSVWFPVHDITMRRGAVSFSGNKTAVPASRLAELFYISSHVFARLSEIRRLDLRVPETLSEREIDCLNWTAAGKTSAEIAEIMMLSEHTINHYLNRATKKLDTVNRTQAVAKALRVGLIK	PGPT0022020_64	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI-1_RpaI|RhiI_PERCIPITATION|SIGNALLING|AHL|NAHL,PGPT0022020-bjaR1|rpaR|rhiR-K18098	NA	NA
BMS010_00047	1224	nrtA_1	COG0715	Nitrate/nitrite binding protein NrtA	TTGCCGGAACGGCATAAGGTAAAAGCAGGATTTTCTCCGACTATCGATTGCGCCGTGCTGATAGCCGCTGCCGAAAAAGGCTTTGCTGCCGATGAAGGCATAGAACTCGAACTTTTCCGAAAACAGTCCGCTCGCGCCGTGCTTGCGGCGCTTGGCGAGGATGGCGTTCACGTCGCGCATCTGCCCGCTCCGGTTCCCGTCGGCTCCGCTGTCGGCCTCGATGACCTGCCGGCCGATATTGTCGGCGTTTTCACGCTTTCGCTCGGTGGATCCGCAACGACCGTTTCCCACGGATTTTATGACGAGCTCTACCGCGAAGGGCTGAAGCTGCCGGACCCGGCGACTTTTGGACGCGCCATGGCCCGTGTCTGCGCCGCGCGCCGGGCGGCGGGGAAAAATCCGCCGGTCTTTGCGGTCGAGGATATCGTCTCCACGCCGTTTTATGCGCTGCGTTACCTGCTCGGAAGCTGCGGCGTGCTGCTCGGCCGGGATATGGAAATCGTCGAGGCCCTGCCGAAGGCGATGCCGGCGCTCCTGGAAAGCGGCAAGGTCGATGCGCTCTGTACCGCCGAACCCGCGGGCAGCGCCGTGGTGCTCGGCGGCGCGGGCCGGATCGTCACCACCGGGGCGTTGATCTGGCATAATGCGCCGGAAAAGATACTGGCTGCGAAGAAGCGCTGGGTGGAGGACAATCCCGCCCTTCTGGAAGGGCTGCTGCGTGCCCTTTACCGTGCCGGCGAATGGTGCGCCAATGCCGCCAATATCGAGGAACTGGCCGGCATCCTCGCCGCCCCTCAATATATGGATGAGAACGGCGAATTCCTGCTGCCGGCGCTGACGGGCTATATTTCCACCTCGCAGCGGGACATGCAGCGTTTTCAGGAGTTTTTCGTGACCAGCGCCAAGGCCGCCAATTTTCCATGGCAGAGCCAGGCCCTGTGGTTCTTCAGCCAGATGCTGCGCTGGGGCGAGGTTTCCGCCGATTACCGGTTCGATCCCGCCGTGGTGGAGGCGGCCCGCAACGCCTACCGGCCGGATATTTTCCGCAAGGCGATGAAGCCGCTTTTCGTGCCGGTGCCGGGTGCTAATCTGAAGCTCGAGGGCACGCTGCGCGAGCCTGTTCATGTCGGCGCATCGCGAACGGGTCTGGTGCTCGGCCCCGACTGTTTTTTCGACGGCCATGTTTTCGATCCGGAGACGCTGGCGATGGACGACGAAATCTGA	MPERHKVKAGFSPTIDCAVLIAAAEKGFAADEGIELELFRKQSARAVLAALGEDGVHVAHLPAPVPVGSAVGLDDLPADIVGVFTLSLGGSATTVSHGFYDELYREGLKLPDPATFGRAMARVCAARRAAGKNPPVFAVEDIVSTPFYALRYLLGSCGVLLGRDMEIVEALPKAMPALLESGKVDALCTAEPAGSAVVLGGAGRIVTTGALIWHNAPEKILAAKKRWVEDNPALLEGLLRALYRAGEWCANAANIEELAGILAAPQYMDENGEFLLPALTGYISTSQRDMQRFQEFFVTSAKAANFPWQSQALWFFSQMLRWGEVSADYRFDPAVVEAARNAYRPDIFRKAMKPLFVPVPGANLKLEGTLREPVHVGASRTGLVLGPDCFFDGHVFDPETLAMDDEI	PGPT0000405_141	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000405-nasS-K22067	NA	NA
BMS010_00048	1131	apbC_1	COG0489	Iron-sulfur cluster carrier protein	ATGGCAGAGGTCAGCAGGAGCCAGGTGGAAAAGGCGCTGGAAGCGGTAATTTATCCCGGTAGCGGCAAGAGCATCGTCGCACTCGGCATGGTCTCGGAAATCTTCATCGCCGATGCGAAGGCCTATTTCTCGATCACTGTCCCGGCCGACAAGGCTGCGGAGATGGAGCCGTTGCGGCTTGCCGCCGAACAGGCGGCCAAAAGCGTGGAAGGTATCGTCGGCGCGGTCGTGGCGCTGACGGCCGACCGCAAGCCCGGCCAGCAGCAACCCGCAGCCGCGCGCCCCGCCGCCGCAACCGGCCGGCCGGCCCAACAGCCCGGCTCCTCGAAGGTGGGCGTACCGGGTGTGCGGGCCATCATCGCCGTCGCCTCGGGCAAGGGCGGGGTGGGCAAGTCGACGACCGCGGTCAATCTGGCGCTCGGTCTTCAGGCCCTCGGCCTCAAGGTCGGTATGCTCGATGCCGATATTTACGGCCCTTCGCTGCCGCGACTGCTGAAAATTTCCGGCCGCCCGCAGCAGCAGGAAGACCGCATCATTCTTCCCATGGAAAATTACGGGCTGAAGGTCATGTCCATGGGCTTTCTGGTGGATGAGGAAGCCGCGATGATCTGGCGCGGGCCGATGGTGCAGTCCGCCCTGATGCAGATGCTGCGCGAAGTGGCCTGGGGCGAACTGGATGTGCTGGTGCTGGACATGCCGCCCGGCACCGGCGATGCGCAGTTGACCATCGCGCAGCAGGTGCCGCTCGCCGGCGCCGTCATCGTTTCCACGCCGCAGGATCTGGCGCTGATCGACGCACGCAAGGGCATCACCATGTTCCGCAAGGTGGAGGTTCCGCTCCTCGGCGTCATCGAGAATATGAGCTATTTCATCGCGCCCGATACCGGAGCGCGCTACGATATTTTCGGCCATGGCGGCGCGAAGGCGGAGGCTGAAAGGATCGGCGTACCCTTCCTCGGCGAAGTGCCGCTCACCATCTCCATCCGCGAAATGTCGGATGCCGGAACGCCGGTCGTCGCCGCCGAGCCCAATGGCCCGCAGGCCGCGATCTATCGCGATATTGCCGAAAAAGTCTGGGCGCGCATCGGTGCGGGCGAGAGAAAAGCGGCGCCGAAGATCGTTTTCGAATAA	MAEVSRSQVEKALEAVIYPGSGKSIVALGMVSEIFIADAKAYFSITVPADKAAEMEPLRLAAEQAAKSVEGIVGAVVALTADRKPGQQQPAAARPAAATGRPAQQPGSSKVGVPGVRAIIAVASGKGGVGKSTTAVNLALGLQALGLKVGMLDADIYGPSLPRLLKISGRPQQQEDRIILPMENYGLKVMSMGFLVDEEAAMIWRGPMVQSALMQMLREVAWGELDVLVLDMPPGTGDAQLTIAQQVPLAGAVIVSTPQDLALIDARKGITMFRKVEVPLLGVIENMSYFIAPDTGARYDIFGHGGAKAEAERIGVPFLGEVPLTISIREMSDAGTPVVAAEPNGPQAAIYRDIAEKVWARIGAGERKAAPKIVFE				NA	NA	NA	NA	NA
BMS010_00049	1029	corA_1	COG0598	Magnesium transport protein CorA	ATGTTAAGCAGCATTGCGGCTGAAGCCTGCAATGTGGAGCGGAGAAACGGATTGATAAAAGCCTATCGCGCCAATTGCGAGGCGATCAGCCTGTCGTCTAACGACGGCTCCGGACAGATTCCCGACGACATCGTCTGGATCGATCTCGTCAATCCGGACAGGGCGGAAGAGCAGCATGTGGAAAAGCTGCTGGGCGTGGAACTGCCGACGCGCGAAGACCTGAAGGATATCGAGCCTTCCAGTCGTCTCTATATGGAAGACGCCAATGTCTTCATGACCGCGTCTCTGGTATGGAAGGCGGATTCGGATGATCCCCGTCTCACCGACGTCGCCTTCGTTCTGGTTGGCAAGCGTCTGGTGACAATCCGTTATGCCGAGCCGAAATCGTTCCACCTTTTCATTGCCGCCATTACCCGCGCGCCGCACGAAATGCGCAGCGGCACGGCGCTGCTTTTGAAGCTGCTGGAAACCATCGTCGACCGCACGGCTGAAATTCTCGAAAACTCTGTCGCCGGCATCGACAATCTCGCCGCCGACATTCTCGGCAGCCAGGCTCGTTCCAAACGCAAGGCGCCGCGCTATCTCGAAGACCGCCTCGGCAACATCGCCGCCTATCACCGGCTGATATCGAAGGTCCGCGTGAGCCTCGCATCTCTGGCGCGCCTGCAGACCTTTCTGTCCACCAGCGATCAGCTGCGCGAAGACAAGGGCGCGCGGGAGCAGGGCAAGTCGATCGGCCGCGATATTCAGTCGCTGAACGAACATGCCTCCTTCGTTTCCGGCAATCTGACCTTCCTGCTGGATGCCTCGCTTGGTATCATCAACATCGAGCAGAACAGCATCATCAAGATTTTCTCCATCGCTTCGGTGGTGTTCCTGCCGCCGACGCTGGTGGCATCTGTTTATGGAATGAACTTTCAGCTCATGCCGGAGTTGAACTGGACATTCGGTTACCCACTCGCGCTCATCGTCATGCTGATGTCCGCCATCATCCCGTTTCTCTTTTTTCGTTGGAAGGGCTGGCTCTGA	MLSSIAAEACNVERRNGLIKAYRANCEAISLSSNDGSGQIPDDIVWIDLVNPDRAEEQHVEKLLGVELPTREDLKDIEPSSRLYMEDANVFMTASLVWKADSDDPRLTDVAFVLVGKRLVTIRYAEPKSFHLFIAAITRAPHEMRSGTALLLKLLETIVDRTAEILENSVAGIDNLAADILGSQARSKRKAPRYLEDRLGNIAAYHRLISKVRVSLASLARLQTFLSTSDQLREDKGAREQGKSIGRDIQSLNEHASFVSGNLTFLLDASLGIINIEQNSIIKIFSIASVVFLPPTLVASVYGMNFQLMPELNWTFGYPLALIVMLMSAIIPFLFFRWKGWL	PGPT0014010_1608	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014010-corA|yfjQ-K03284	NA	NA
BMS010_00050	1920	kup		Low affinity potassium transport system protein kup	ATGTCCCAGATCGCTGACAAGGATGTTGCCGAGAAACCGGATGCGGATGACGAGCACAAGAACAAGGGGCTTTATGCCGCGATCCTTGGTTCCATCGGCGTCGTCTATGGCGATATCGGCACCAGCCCGCTCTACGCCTTCCGCGAGGCGCTGCGGCCCATCGCCTATGACGGCGTGACGCAGGAAGAAGTCATCGGCCTCACATCGCTGATGATCTGGTCTTTGACCATCATCGTCACCTTCAAGTACATTACCCTGCTGCTGCGCGCCGACAATGACGGCGAGGGTGGCACGCTGTCGCTGCTGGCGCTGCTGATGAAAACGGCGGGCACCCATCGCGGCGTTCTCATCGTGCTCGGCCTCATCGGCGCGGCGCTGTTTCTGGGCGACGCCATGATTACGCCGGCACTATCGGTGCTTTCGGCGGTGGAGGGCCTGAAGCTCGTCACGCCGGAAATGGACGCCTTCATCATCCCGATCTCAGTCGGCATTCTCATCGGCCTTTTTGCCATCCAGTCCCACGGCACGGGCACGGTGGCGAAATTCTTCGGACCGATCACTGCCGTCTGGTTCATCGTCATGGGTCTGGCCGGTCTCCTTCATATTGCCGATGATTTCAGCATCCTCTTCGCCTTCAACCCGTGGCATGCGGTGGAGTTTCTGGCCAGTGAAGGCTTCTACGGCATCGTTGTGCTTGGCGCGGTTTTCCTGACGATTACCGGGGCGGAAGCGCTTTACGCCGATCTCGGCCATTTCGGCCGCCGTCCCATCCAGTGGGCGTGGTTCTGTCTGGTTTTCCCGGCATTGACGCTGAATTATCTCGGGCAGGGCGCGCTGGTGCTGAAAGACCCGGCGGCGATGTCCAATCCCTTCTACCTGATGTTCCCGCAATGGGCGATCCTGCCGGCCGTCATTCTGGCGACTGCCGCCACCATCATCGCCAGCCAGGCGGTCATAACAGGTGCGTTTTCGCTCGTGCGCCAGGCGATCCATCTCGGCTACCTGCCGCGCATGGAAATCCTCTTCACCTCGGAAACCAATACCGGGCAGATTTACCTGCCGGCCGTCAACACCATCCTGCTGTTCGGCGTTGTGGCGCTGGTGCTCACCTTCAAGAGTTCGGATGCGCTGGCCACCGCTTATGGTATTTCCGTCACCGGCGCGATGGTCGTCACCAGCCTGATGTTCTTCGAATTCGTGCGCAAGCGCTGGCAATGGTCGGTCTGGCTGGCCATTGCCGTGCTGGCTCCGCTTCTGGCGCTGGAGCTGATCTTCCTCGGCGCGAACCTCTTGAAGATTCACGACGGCGGTTATGTGCCGGTGCTGCTGGCAATCGCCTTCACGGTCATCATGACCACCTGGCAGCGTGGTTCTAGAATCCTCTTCGCCAAGACCCGCCGCACCGATGTGCCGCTGAAGGCCTTCGTCGCCTCTGTGGAAAAGGAAAGCCCGCATGCGCCGGTGCGCGTGCCAGGCACCGCCATCTTCCTCACCGGCGATCCCGAGACAGCGCCGGCCGCACTGTTGCACAATCTCAAGCATAACCACGTGCTGCACGACAAGAACGTCATCCTGACGATCCGCACTGAAGACCAGCCCCGCGTTCATCCTGCCGAACGATATACGCTGACAAAACTGAGCGACCGTTTCGCCGTGGTCGAACTGCATTTCGGCTTCATGGAAACCCAGAACGTCACCCAGGCGCTGGGGTATCTCCGGCGCACGGGCTACAAGTTCGACATCATGTCCACCTCGTTTTATCTCGGCCGCCGCAAGCTGGTGCCGGATCCGAAATCGGGCATGCCGGGCTGGCAGAACCGCCTGTTCATCGCGCTCGCCGAAACCGCCGCCGATCCGTCCGATTATTTCCGTCTGCCGGCCAACCGCGTGGTAGAACTGGGCTCGCACGTCGTCGTCTGA	MSQIADKDVAEKPDADDEHKNKGLYAAILGSIGVVYGDIGTSPLYAFREALRPIAYDGVTQEEVIGLTSLMIWSLTIIVTFKYITLLLRADNDGEGGTLSLLALLMKTAGTHRGVLIVLGLIGAALFLGDAMITPALSVLSAVEGLKLVTPEMDAFIIPISVGILIGLFAIQSHGTGTVAKFFGPITAVWFIVMGLAGLLHIADDFSILFAFNPWHAVEFLASEGFYGIVVLGAVFLTITGAEALYADLGHFGRRPIQWAWFCLVFPALTLNYLGQGALVLKDPAAMSNPFYLMFPQWAILPAVILATAATIIASQAVITGAFSLVRQAIHLGYLPRMEILFTSETNTGQIYLPAVNTILLFGVVALVLTFKSSDALATAYGISVTGAMVVTSLMFFEFVRKRWQWSVWLAIAVLAPLLALELIFLGANLLKIHDGGYVPVLLAIAFTVIMTTWQRGSRILFAKTRRTDVPLKAFVASVEKESPHAPVRVPGTAIFLTGDPETAPAALLHNLKHNHVLHDKNVILTIRTEDQPRVHPAERYTLTKLSDRFAVVELHFGFMETQNVTQALGYLRRTGYKFDIMSTSFYLGRRKLVPDPKSGMPGWQNRLFIALAETAADPSDYFRLPANRVVELGSHVVV	PGPT0002720_2762	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002720-trkD|kup-K03549	NA	NA
BMS010_00051	1164			hypothetical protein	ATGCGTCGTCGGTCCCCCGTGTCCCTTCAGGGGTGGGCGTCAAAATGGACCTCGCCCGTCGTCTTCGGCCTTGCCGCCTGGCTCGTTTTTCCCTCCCTCGCTGCGCGCGCGGATCTGGCCTCGCTTCTGGCTGGTCTGGACAAGGGCGGCGAGCAATGGCGCATGGTGCTGACGGCCTCTCCGGCGGGCTCGGTGCACAATGCCTCGCTCACCTTTAACGATGCGGCAGGGGAGGCGGCGCTGCACGGCGGCGGCATGACCCTGCCCAATGGCAGCAAGGTCGCCTTCGTCACCAACAAGAAGGGCGAGGCAACGACGCCCGACAGCGAGCGCGTCAACCGCGCCGCCAAGAAGGGCCGCATCGTCGCCACAGAAATCATGCAGCCGCCCAAGGCCTTCACCGCCGGTTCCGTCCTGCAGCGCACCAGCATGCTGGATATCGAGCCGCTGAAGCGCAAGGACCGCACCGCTTTCGTCAAGCCGAAGCGCGGCAAGGACGTGGAACTCGCCTCCTTCTATTTCCGCCGCGAGGAAAAAAAGGCGGACAGAAGCGTCTCGCCAATGCTGGCGGAGCTCATCACCAATCGCACGCCGGATATTCTCGCCACGGCCTATGCGCCGGCCGAACCGGATTTTGCCCGCGAGTCGCCCTTCGACGCCATTCTCAAAAAGCCCGAGGCTGGCCGTTTCGTGCCGCAGATCGCAGAGGATGACCACGCCTGGGCAGCCACCCCGCTGCCCGCCACCGTGTTTTCCGCAGCCGAACAGCAATGCCTTGCCTCCGGCATTTATTTCGAGGCGCGCGGAGAATCGGTGAAGGGGCAGGCGGCTGTGGCGCAGGTCATTCTTAACCGCGTGCGCAATCCCGCCTATCCGAAAACCATCTGCGGCGTCGTCTATCAGAACAAGGACTGGCGTAACCGCTGCCAGTTTTCCTTCGCCTGCGACAATATCAAGGACCGCGTGAATTCCGAACGCCACTGGAAAATGGCGCGCGAAGTGGCCATGGCCACCACCGCCGGCAAAATCTGGATGAAGGAAGTGGGTTCGGCAACCCATTATCACGCCGTTTATGTGCGTCCCGCTTGGGGCCGCACGATGAAGAAGGTCGGCAGAATCGGATTGCACGTCTTTTACCGTACCTATGGTGGCGGCTGGAGCTGA	MRRRSPVSLQGWASKWTSPVVFGLAAWLVFPSLAARADLASLLAGLDKGGEQWRMVLTASPAGSVHNASLTFNDAAGEAALHGGGMTLPNGSKVAFVTNKKGEATTPDSERVNRAAKKGRIVATEIMQPPKAFTAGSVLQRTSMLDIEPLKRKDRTAFVKPKRGKDVELASFYFRREEKKADRSVSPMLAELITNRTPDILATAYAPAEPDFARESPFDAILKKPEAGRFVPQIAEDDHAWAATPLPATVFSAAEQQCLASGIYFEARGESVKGQAAVAQVILNRVRNPAYPKTICGVVYQNKDWRNRCQFSFACDNIKDRVNSERHWKMAREVAMATTAGKIWMKEVGSATHYHAVYVRPAWGRTMKKVGRIGLHVFYRTYGGGWS				NA	NA	NA	NA	NA
BMS010_00052	366			hypothetical protein	ATGACTGGCAACCGTGACGATAGTCTGGACGAGCGCCGCAAGCGCCTTGCTGACGAGTTGGCCAAGGTGAAGGCGGAGGATGAGGCGGAAGTGAGGGCGGAGACCAACGCTGCGGAAAGCCGGAAGGGCTTTGCGATGGCGGTTAAGCTCTCATCGGAGTTCATTTCGGCCATCGTGGTCGGCGCTATGCTGGGTTATCTTCTGGACTATTTTGCCGGCACGACGCCGTGGGGGATGATCGTTCTTCTTCTTCTCGGTTTCTGCGCAGGCGTATTGAATGTGTTGCGCTCGACGGGCGCGGTGGCCAAGCCGCCGCTGCTGGAGAAGGCGGACAGGCGAGACGAGGGTGGAAAAGGCGGCGTTTAA	MTGNRDDSLDERRKRLADELAKVKAEDEAEVRAETNAAESRKGFAMAVKLSSEFISAIVVGAMLGYLLDYFAGTTPWGMIVLLLLGFCAGVLNVLRSTGAVAKPPLLEKADRRDEGGKGGV	PGPT0030480_1909	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-ATP_SYNTHASE_ACITIVTY,PGPT0030480-atpI-K02116
BMS010_00053	750	atpB_1	COG0356	ATP synthase subunit a	GTGGCAAACGATCCGACCCATCAGTTCTTGGTGCAGCCGATCATTCCGATCGAAATTGGCGGCGTCGATTTTTCCTTCACCAATGCGTCGCTCTTCATGGTCGCGACCGTGGCTGCGGCTTCCGGTTTCCTTTATTTCGCAACGTCGAACCGCGGTCTGATCCCGACCCGCATGCAGTCCGTTGCTGAAATGTCCTATGAATTCATCGCCTCCATGCTGCGCGAAGGCGCCGGCAAGAAGGGCATGGTGTTCTTCCCGTTCGTCTTCTCGCTGTTCATGTTCGTGCTGACCGCCAACCTTCTCGGCATGTTCCCGTATTTCTTCACGGTCACCAGCCAGATCATCGTCACCTTTGCGCTCGCCTGCCTCGTCATCGGCACGGTTCTGGTTTACGGTTTCTGGAAGCATGGCCTGCATTTCTTCGGCATCTTCGCCCCCTCGGGCGTGCCCAAGGCGCTTCTGCCGCTTGTGGCGTCGATTGAAATGATCTCGTTCCTGTCGCGCCCGATCAGCCTTTCGGTTCGTCTTTTTGCGAACATGCTGGCCGGCCACATCACGCTCAAGGTTTTCGCAGGCTTCGTCGCCTCCATGAGCGCGCTCGGCGCGCTCGGTGTCGGCGGTGCAGTCCTGCCTCTCATCATGACGGTCGCCATGACCGCTCTCGAATTTCTCGTTGCCTTCCTGCAGGCTTATGTCTTCGCGGTACTGACTTGCATGTACCTGAACGACGCCGTGCATGGTGGTCACTGA	MANDPTHQFLVQPIIPIEIGGVDFSFTNASLFMVATVAAASGFLYFATSNRGLIPTRMQSVAEMSYEFIASMLREGAGKKGMVFFPFVFSLFMFVLTANLLGMFPYFFTVTSQIIVTFALACLVIGTVLVYGFWKHGLHFFGIFAPSGVPKALLPLVASIEMISFLSRPISLSVRLFANMLAGHITLKVFAGFVASMSALGALGVGGAVLPLIMTVAMTALEFLVAFLQAYVFAVLTCMYLNDAVHGGH	PGPT0014303_3221	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014303-atpB-K02108	NA	NA
BMS010_00054	228	atpE		ATP synthase subunit c	ATGGAAGCGGAAGCAGCAAAGTACATCGGCGCAGGTCTCGCATGCCTCGGCATGGCTGGTACGTCCCTCGCACTCGGCCGTATCTTCGGTGATTACCTGTCCGGCGCACTGCGCAACCCCTCTGCTGCCGACAGCCAGTTCGGCCGTCTGGTATTCGGCTTCGCCGTTACGGAAGCTCTGGGCATCTTCTCGCTGCTCGTTGCTCTCCTTCTCCTGTTCGCTGTCTAA	MEAEAAKYIGAGLACLGMAGTSLALGRIFGDYLSGALRNPSAADSQFGRLVFGFAVTEALGIFSLLVALLLLFAV	PGPT0014302_2294	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014302-atpE-K02110	NA	NA
BMS010_00055	642	atpF_1		ATP synthase subunit b	ATGTTCGTGACCGAGGCTTATGCCCAGTCAGCACCGACCGTAGGTGAAACGCATACGGAAACTCCGGCTGTCGGCCAGCCGCAACCGGAAGCCACGCACACGGAAACCGGTGTGGCGCACGGCGCCGAACACGGCGCTTCCGGCGTATTCCCGCCGTTCGACCAGTCTACTTATGCATCGCAGGTTCTCTGGCTGGCGATCACGTTCGGCCTTTTCTACCTGCTCATGCAGAAGGTCATCGTTCCGCGCGTCGGCGGCATTCTCGAAAACCGCCATGGACGCATCGCACAGGATCTCGATGAAGCGGCACGGCTGAAAAGCGAAGCCGACGCTGCCGTCGAAACCTATGAAAAAGAACTCGCGGCAGCCCGCGCCAAGGCAGGCTCCATCGGCGCTGCGGCCCGTGACGCCGCAAAGGCGAAGGCCGATGCCGACCGCGCCGCTATCGAAGCCGGTCTTGCCGAAAAGCTTGCCGCCGCCGAAAAGCGCATTGCCGGCATCAAGGAACAGGCATTCGCCGATGTCGGCGCCATTGCCGAAGAAACCGCGACCGCGATCGTCGACCAGCTGGTCGGCGCCAAGGTCAAGGACACGGACGTGAAGGCAGCGATTGCCGCCGCTTCGAACGTGAAGGGAGCCTGA	MFVTEAYAQSAPTVGETHTETPAVGQPQPEATHTETGVAHGAEHGASGVFPPFDQSTYASQVLWLAITFGLFYLLMQKVIVPRVGGILENRHGRIAQDLDEAARLKSEADAAVETYEKELAAARAKAGSIGAAARDAAKAKADADRAAIEAGLAEKLAAAEKRIAGIKEQAFADVGAIAEETATAIVDQLVGAKVKDTDVKAAIAAASNVKGA	PGPT0014301_561	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014301-atpF-K02109	NA	NA
BMS010_00056	486	atpF_2	COG0711	ATP synthase subunit b	ATGGCATTTGATGCATCATTTTTCGCTCTCGTCGGTCTCGTCCTCTTCTTCGTTCTGGTCGCCTATCTCAAGGTTCCCGGCATGCTCGCCAAGTCTCTGGACGAGCGCGCCCAGAACATTCAGGACGAGTTGGCCGAAGCCAAGCGCCTGCGCGAAGAGGCCCAGCACCTGCTGGCCGAATATCAGCGCAAGCGTAAGGAAGCAGAAGCCGAAGCCGCAGGTATCGTTGCCGCCGCCGAGCGTGAGGCCGCAGCCCTGACGGAAGAAGCCAAGCAGAAGACGGAAGAATTCGTCGCCCGCCGCACGGCCCTTTCGGAACAGAAGATCAAGCAGGCCGAAGACGACGCCATCGGCGCCGTCCGCGCCGCCGCCGTGGATATCGCCATTGCCGCTTCCGAGAAGCTCATTGCCGAAAAGACCACCGCTGCTGCAAAGGCCAAGCTTTTCACCGCCACGATCGGCGAAGTGAAGTCGAAGCTGAACTGA	MAFDASFFALVGLVLFFVLVAYLKVPGMLAKSLDERAQNIQDELAEAKRLREEAQHLLAEYQRKRKEAEAEAAGIVAAAEREAAALTEEAKQKTEEFVARRTALSEQKIKQAEDDAIGAVRAAAVDIAIAASEKLIAEKTTAAAKAKLFTATIGEVKSKLN	PGPT0014301_4143	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014301-atpF-K02109	NA	NA
BMS010_00057	1176			hypothetical protein	ATGTCCCTGACGCAAGACCTCGAGAAAATTCTGGAAACTGTCCTGCCAACCGATCCCAGTTTTCGGCGGATCGAGCAGGCGACGATAGACAACTGCATTTGTGACACTCGACGATACGCTTTGGAGGGCTCCAAAGAGGCCTTTCTGTTCTCCGCGATGCGCCTGCTCGCACTTCCCGACAACGGACACACACGGCTGATCCCGAACGATTCCATCGCGGTGCTCCCGCTGAGATTTGTGAGCGTCGGGACGGTGGTGCAGTTAACTGACACGGCACTGGAAACGACTGCGCCAAGAGGAGAGCTGATAGCAGTCAACGGCAGACCTTTGGGCCATATTGAAGCCGCCGCAGAGAAATTTCTGGCGGGAACGCGCCAGAGGAAGCGGGTCATCGGACCGATTCTTCTGGCATGGCCGTATGCGTTGGCCCATCTCGGTTTTTCTTCAAAAGAGAATACGACCGAATATCGCGTGAAAGACGAGAATGGGCGAATAACCGATTTGAAAGTGGAGAACGGGCATACGGTTCCTGCATCGATGCTCTACCCGAGAAACGAGCATGGCAAGGCTGATCCGGCCTGGAAGCCCGAGAGATTTGTGGAGATCAAGGACTGGCAGGGGCTTGGGCTTTCAATATCATTGCCAAGTTTCTTCGATCCAGGCGAAACTGCGCTGCCGAAGGCCATCTCTGGTGCAGCGGAGCATGTAAGCACCTGCCCGAACAAAAAACTCTTGATTGACGTTCGCGGAAACACGGGTGGCGACTTCCTTCAAACGATGCCCTTGATCGACGCCATCTCTGAAAACGCAGGCGGGCAGGTTGCTGTGCTTGTCGACAAATTCACGTTTTCCGCAGCGATAGTGTTCGTAGCCATCCTCAAACATCGTTTGGGACGTAGGCTCAAACTTATCGGGGAAGAAATGGGCGACGGGTTGAGGTTTTTTGCCGAGGGAGGGTTGCTGGATTTGCCGATCAGCGGAGCGGTCGTTCGATACTCATCGGCCTTTCACGACTGGGAGAACGGAACCAGCGACGAGACCACACCGGTTGAGATCGCGCAGCAACTGGTCCCGCTAGGAAAACTGAATTTGGATTGGGAATGGATCGTAAGGTCTACTGCTGAGAATGCACAAGGCGCGTTCTATCAACAAGTTCTAAAGAGTCTGAACGATTAG	MSLTQDLEKILETVLPTDPSFRRIEQATIDNCICDTRRYALEGSKEAFLFSAMRLLALPDNGHTRLIPNDSIAVLPLRFVSVGTVVQLTDTALETTAPRGELIAVNGRPLGHIEAAAEKFLAGTRQRKRVIGPILLAWPYALAHLGFSSKENTTEYRVKDENGRITDLKVENGHTVPASMLYPRNEHGKADPAWKPERFVEIKDWQGLGLSISLPSFFDPGETALPKAISGAAEHVSTCPNKKLLIDVRGNTGGDFLQTMPLIDAISENAGGQVAVLVDKFTFSAAIVFVAILKHRLGRRLKLIGEEMGDGLRFFAEGGLLDLPISGAVVRYSSAFHDWENGTSDETTPVEIAQQLVPLGKLNLDWEWIVRSTAENAQGAFYQQVLKSLND				NA	NA	NA	NA	NA
BMS010_00058	672	rnhB_1	COG0164	Ribonuclease HII	GTGTGCCAGTTTCGCCGCATGAAACGCACGGCCACACCCGATTCTCCTGCTCTTTTTGATATTGCCGATACCGGTCCGGATTTTTCCTTCGAACTGGAAGCGAAAAAGAAGGGCCTTTGGCCCGTGGCCGGCACGGATGAGGCAGGACGGGGACCTCTGGCCGGACCGGTGGTTGCGGCAGCCGTCATTCTCGATCCGGACAATATTCCCGAGGGGATGGACGATTCCAAGAAGCTGACGAAGCAGAAGCGGGAAAGCCTGTTCGTGCAGATCATGGAAACCTCGATCGTATCCGTCGCCTCTTCCGGCCCCGGCCTGATCGACAATATGAATATCCTGCGCGCCAGCCTCGACGCCATGCGCCGCGCCGTGCTCGGTCTCGAAATCTCCCCTGCCCTCGTTTTGGCCGACGGCCGCGACCGCCCGCCCGGCATCGCCTGCGAGGCCAAAGCCGTCATCAAGGGCGATTCCCGCTCCCTCTCCATCGCCGCCGCCTCGATCATCGCCAAGGTGACCCGCGACCGGATGATGGAACGCGCGGGTGTGGTGCACACGTCCTACGGTTTTGAAGGCCATGCCGGTTACGGCACTCCAGCCCATCTGCGCGCCATTGAAAGCCACGGGCCCTGCGCGCTGCATCGAATGAGCTTCAGGCCGCTGAAGCGGGATTGA	MCQFRRMKRTATPDSPALFDIADTGPDFSFELEAKKKGLWPVAGTDEAGRGPLAGPVVAAAVILDPDNIPEGMDDSKKLTKQKRESLFVQIMETSIVSVASSGPGLIDNMNILRASLDAMRRAVLGLEISPALVLADGRDRPPGIACEAKAVIKGDSRSLSIAAASIIAKVTRDRMMERAGVVHTSYGFEGHAGYGTPAHLRAIESHGPCALHRMSFRPLKRD				NA	NA	NA	NA	NA
BMS010_00059	1158			hypothetical protein	ATGAGAAACCATACGCTTTCGGGGCAGGCTGCCTTCCAGCCGAGCCATATGCCGGATATTGCCAATGCGCTGGCCGATGCATCCGGCCTGCGCATCGAGATCGACCGTCGTCGCGGCCGTGGCGCCGGGCTGAATCCGGATGGACGCTTCGAGACCCTGCAGCACGAGGTTTTCGACGATGGCTGGCAGACACTCGAGGACATGCCGGAATTCCGCACCGAGGTGCAGGTGGAAAAGCCGCGCAGCATCATCACCCGCAATGAATCGCCCGACATCCCCTTCGACCGCTCCATCAATCCCTATCGCGGCTGCGAACATGGCTGCATCTATTGCTTTGCCCGTCCCACGCACAGCTATATGGGGCTTTCAGCCGGGCTGGATTTCGAAGCCAAGCTCTTCGCCAAGCCGGATGCGGCGAAGCTGCTGGAACGGGAACTGGCGAAGCCGGGCTACAAGCCCCGGGTGATCGCCATCGGCACCAATACCGACCCCTATCAGCCGATCGAGCGCGAATGGCGCATCATGCGGCAGATACTGGAAGTGCTGGCCAAGGCCGATCACCCCGTCGCCATCGTCACCAAATCGGCGCTGATCAAGCGGGATATAGACATTCTGGCGCCCATGGCCAAAAAGGGGCTCGCCAAGGTCGGTATTTCCGTCACCACGCTGGACCGGAAGCTCGCGCGCAACATGGAACCGCGCGCCGCCACACCGGAGAAGCGGCTGGAAGCCGTCAAGGCGCTGACCGAGGCCGGCATTCCCGTGGCCGTGATGATGGCGCCTGTCATCCCGGCGCTCAACGATCATGAGATCGAGCGTATTCTCGAGGCCGGCAAGGCCGCCGGCGCCACCGAAGCGTCTTATGTGCTTTTGCGCCTGCCGCTGGAGGTGAGCCCGCTGTTCCGCGACTGGCTGCTGCGCAACTATCCGGACCGCTATCGTCGTGTCATGTCGCTGGTGCGCTCCATGCGCGACGGCAAGGATTACGATGCGGAATTCGGAAAACGCATGAAGGGCGCCGGCCCCTATGCCTGGCAGATCGGCAGGCGTTTCGAGATGGCGACAAAAAGGCTCGGCCTCATCCGCCGCGGCATCCATCTGCGCGACGATCTCTTCGTGCCGCCGGGCGGTGCAGGCGTGCAATTGTCGCTGCTTTGA	MRNHTLSGQAAFQPSHMPDIANALADASGLRIEIDRRRGRGAGLNPDGRFETLQHEVFDDGWQTLEDMPEFRTEVQVEKPRSIITRNESPDIPFDRSINPYRGCEHGCIYCFARPTHSYMGLSAGLDFEAKLFAKPDAAKLLERELAKPGYKPRVIAIGTNTDPYQPIEREWRIMRQILEVLAKADHPVAIVTKSALIKRDIDILAPMAKKGLAKVGISVTTLDRKLARNMEPRAATPEKRLEAVKALTEAGIPVAVMMAPVIPALNDHEIERILEAGKAAGATEASYVLLRLPLEVSPLFRDWLLRNYPDRYRRVMSLVRSMRDGKDYDAEFGKRMKGAGPYAWQIGRRFEMATKRLGLIRRGIHLRDDLFVPPGGAGVQLSLL				NA	NA	NA	NA	NA
BMS010_00060	519			hypothetical protein	ATGTTGACAGTCATAATGGAATGCCGGGATCACGAGCCGGAACTGGCGCACACATTGTCTGCGCTTGTAACCGGGGCCGTGGAAGGGCTTGTAAGCGATGTTGTGATTCTCGATCACGGCTCGCGCGATGGATCGTCGCGCGTCGCCGATGCCGCCGGCTGCCGTTTTTATGGGCAGTGGGACATCGAAGACGTGGTGAAGTCCGCACGCGGCGGCTGGCTGCTTTTGATCGAGCCGGGCGCGCGCCCGCAGGCGGGCTGGATCGACGAGATTCTCGAATATGTGGCGATCTGCGCGCAGCCTGCGCGTTTCTCGCCCTCGCGCTATCACCGGCGCAATGTCTTCAGCCGTATGCTGCGGCGTATTCCGCCACTGGAACATGGATATCTTCTGCCGAAGAAGCATGCGGTGTCGATTGCGAAATCGGGCATGAGCCTGACGCAATTTGTTGGCGCGCAGAAACCGCGCCGGCTGAATGCGGAAATGGTGCCCGCCTGGGCGCTGCGGGCCTCGGCCTAA	MLTVIMECRDHEPELAHTLSALVTGAVEGLVSDVVILDHGSRDGSSRVADAAGCRFYGQWDIEDVVKSARGGWLLLIEPGARPQAGWIDEILEYVAICAQPARFSPSRYHRRNVFSRMLRRIPPLEHGYLLPKKHAVSIAKSGMSLTQFVGAQKPRRLNAEMVPAWALRASA				NA	NA	NA	NA	NA
BMS010_00061	1434		COG0277	putative FAD-linked oxidoreductase	ATGACGACCACCGCCATCCCCTCCTCCGACATCCTCGACCGCTTCACCGCCATTGTCGGCGAAAAAAACGCGGTCCGCGACCCGGCGGAAATGGCGCCGCGTCTGGTGGAAAATCGCGGGCTTTATCGCGGCGCCTCGCCGCTGCTCATCAAGCCCGGTTCGGTTGAAGAAGTTGCCGCCATCCTGAAGCTCGCCAGCGAGACCGGCACCGCCATCGTGCCGCAGACCGGCAATACCGGCCTCGTGGGCGGCCAGACGCCACGCGCCGAAGGAACGGACATCATCCTGTCGCTGGAGCGCATGAACCGCGTTCGCGATATCGATCCCGTTGCCAATATCATCGTCGCCGATGCCGGCTGCATTCTCGATGACATCCACAAGGCTGCTGATTCCGTGGAGCGCATGTTCCCGCTGTCGCTCGGCTCTCAAGGCTCCTGCCGCATCGGCGGCAATCTCGCCACCAATGCCGGCGGCACGGCGGTGCTCGCCTATGGCAACATGCGCCAGCTCTGCCTCGGGCTGGAAGTGGTGCTGCCGACCGGCGAAATCTGGAACGGGCTGCGCCGGCTGAAAAAGGACAATACGGGTTACGATCTGCGCGATCTCTTCATCGGTTCCGAAGGCACGCTTGGCATCATCACCGGCGCGGTGCTGAAACTCTTCCCGAAACCGCTCGGCCATCAGGTAGCCTTTGCCGGTCTCAGCTCCACCGAAGATGCGCTGAAGCTGTTCGAGATGGCCTCTAACCTCTGCGGCACGGCGCTGACCGGTTTCGAACTCATGCCGCGAATCGGCGTCGAATTCACCGCGCGGCATATTCCCGGCGTGCGCGATCCCCTGGAACAGCCGCATGACTGGTACGCGCTCATCGATATTTCCACCTCCGACTCGGCCGAAACGGCAGATAGCATGATGCAATCGCTGCTGGAGCGCGGTTTTGAGGCCGGGCTGGTTCAGGATGCGGTGATCGCCGCGTCCGAAGCGCAGCGGCAGGCGCTCTGGCACATGCGCGAAAGCATGTCGGAGGCGCAGAAACCCGAAGGCGGCTCGATCAAGCACGATGTTTCCGTTCCGGTGTCGAAAATACCGGAATTCATGGCGACGGCGGAAAAGGCGGTTCTTACCGCCATACCTGGCGCCCGCGTCTGCGCCTTCGGACATCTGGGCGACGGCAATATTCACTACAATATTTCCCAGCCGGTGGGTGCCGACAAGGCCGAATTCATCGGCCGCTGGCGGGACATGAACGAGATCGTGCATGGCATCGTGCTGTCGCTGGGCGGTTCCATTTCGGCCGAACACGGCATCGGGCAATTGAAGCGCGACGAACTGGCCGCCATCCGCCCCGGCATCGAAATGGAACTGATGCGGCGCATCAAGCACGCTTTCGATCCCGCCGGCATCATGAACCCCGGCAAGGTTCTGGCCGGGTAA	MTTTAIPSSDILDRFTAIVGEKNAVRDPAEMAPRLVENRGLYRGASPLLIKPGSVEEVAAILKLASETGTAIVPQTGNTGLVGGQTPRAEGTDIILSLERMNRVRDIDPVANIIVADAGCILDDIHKAADSVERMFPLSLGSQGSCRIGGNLATNAGGTAVLAYGNMRQLCLGLEVVLPTGEIWNGLRRLKKDNTGYDLRDLFIGSEGTLGIITGAVLKLFPKPLGHQVAFAGLSSTEDALKLFEMASNLCGTALTGFELMPRIGVEFTARHIPGVRDPLEQPHDWYALIDISTSDSAETADSMMQSLLERGFEAGLVQDAVIAASEAQRQALWHMRESMSEAQKPEGGSIKHDVSVPVSKIPEFMATAEKAVLTAIPGARVCAFGHLGDGNIHYNISQPVGADKAEFIGRWRDMNEIVHGIVLSLGGSISAEHGIGQLKRDELAAIRPGIEMELMRRIKHAFDPAGIMNPGKVLAG	PGPT0001890_698	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001890-dld-K00102	NA	NA
BMS010_00062	978	ywlC	COG0009	Threonylcarbamoyl-AMP synthase	ATGGCGCGTCATATCGATATAGAGAAAGAGCGGGAAACGGCCCTGCAGGCATCCGTGGCGGAGCTCGCCGCCGGCCAGCCCATCGCCCTGCCGACGGAAACCGTCTACGGCCTTGCCGCCGACGCCACCAATCCGGCGGCGATTACCCGCATTTACGAGACAAAAGGCCGGCCGCAGTTCAACCCCCTGATCTGCCACATGGCCGATATCGCCATGGCCGAACGTTACGCCGTCTTCGACCCCATATCGCTGAAGCTGGCAGAAGCCTTCTGGCCCGGCCCGCTGACGCTGGTGCTGCCGCTGAAACCGGCGAGCGACATTCATTCGCTGGCGACAGCTGGCCTCGATACGGTCGGCATTCGTGTGCCGCAGGGTTTTGCCAGCGATCTGATCCGCCGTTTCGACAGGCCTCTCGCCGCCCCCAGCGCCAATAGTTCCGGCAAGATCAGCCCGACAAGTGCCTCCCATGTGGAGGCGGATCTCGGCCAGAAGATCAATCTCATTCTCGATGGGGGCGCGGCCGCTGTCGGCGTCGAATCCACCATCGTCAAGGTGGAAGAGGATGGCCGGGTGCGGCTGCTTCGTCCCGGCGGCATCGTTACCGCGGACATAGAGCGCATTGCCGGCAAACGGCTTGAACGGCCGAAAAAAGCAGCCGCCGCCATTGAAGCGCCGGGAATGCTGGCCTCGCATTACGCGCCGGGTGCGGCCGTGCGCCTTCACGCCACATCCGTTCTGCCGGGCGAAGCGCTGATCCGCTTCGGCGGCATCACCGTTGCCGGCGAAGAGACGGCGCGCACCGTGCTCGATCTCAGCCCTTCCGGCGATCTTTCCGAGGCCGCCGCCAATCTGTTCGATTATCTGAAAGCCGCCGATGCAAGCGGCGCAGACATGATCGCCATCACCGCCATTCCCACCCATGGTCTTGGAGAGGCGATCAACGACCGCCTTTCCCGCGCCGCCGCGCCGCGAGGCTGA	MARHIDIEKERETALQASVAELAAGQPIALPTETVYGLAADATNPAAITRIYETKGRPQFNPLICHMADIAMAERYAVFDPISLKLAEAFWPGPLTLVLPLKPASDIHSLATAGLDTVGIRVPQGFASDLIRRFDRPLAAPSANSSGKISPTSASHVEADLGQKINLILDGGAAAVGVESTIVKVEEDGRVRLLRPGGIVTADIERIAGKRLERPKKAAAAIEAPGMLASHYAPGAAVRLHATSVLPGEALIRFGGITVAGEETARTVLDLSPSGDLSEAAANLFDYLKAADASGADMIAITAIPTHGLGEAINDRLSRAAAPRG				NA	NA	NA	NA	NA
BMS010_00063	609			hypothetical protein	GTGGAGAAGGCGACACGCATACGCTATTTCGATGCGAGCAGGCATTCGGTCACACCGATACGCTCGAAGACCGCGCATTCCGATTTTCTGCGCACAGGGCGTATCAGCCGTTATGAAGAACGATGGCTGCCGAAAGAACGCGTCTATTACAGCCATGACGAAGTGGCTGCGCTGACCGGGCGAAAGCTGGAAGCTGCCGCCGATGCCACCCACAGCCGGCTGAACGGCTTTCACCAGTCCATCCGTTTTCCCAAGATGGTTTTTCACCATCTGCTCAATGACCGGCCGCACCTTGGCTATTGTCACGTCACGGCGGCGAAAACCAGCTTCGATGCCGAGCGCCATGTGCTCTGGTCCTTCTATTTCGCGAATTTCTTCGCCGAGCTGAGCGGGGCCGAAAACTTCTTCGAAAATATCGATGCGCGCTATTCGAGGATGTATTTCGCCGTCGCCATCAACGCGCTTCCCGATCAGGAACTCGCCGTCGATACCTCCGTGCATCGCGGCGGCCTGCTGTTCCAGACCCACGATCCGCGGGTGGCGCTGAAAAACGTGCTCATGCTCGGCGCGCGGTCCGAGGAGATGCGCAGGATCATCAAGGCGATATAA	MEKATRIRYFDASRHSVTPIRSKTAHSDFLRTGRISRYEERWLPKERVYYSHDEVAALTGRKLEAAADATHSRLNGFHQSIRFPKMVFHHLLNDRPHLGYCHVTAAKTSFDAERHVLWSFYFANFFAELSGAENFFENIDARYSRMYFAVAINALPDQELAVDTSVHRGGLLFQTHDPRVALKNVLMLGARSEEMRRIIKAI				NA	NA	NA	NA	NA
BMS010_00064	1245			Carnitine monooxygenase oxygenase subunit	ATGGAATTGCGTGATACCGTATTGCGCCAGCTGAAAAACCGCCGCGAAGGCTTCAGCCTGGAACAGCCCTTCTACACGGACCCGGATTATTTCAAGCTGGATATGGAAACGATCTGGTATCGAGACTGGCTGTTTGTCGGCCATGATTGCGAAGTGCAGAAGTCCGGCAGCTATTTCACCGTGCAGGTCGGCGCCTATTCGGTGGTCATCGTTCGCGGCCGTGACGGGCAGATCCGCGCCTTCCACAATTCCTGCCGCCATCGCGGCTCGCGCGTCTGCACCACACAGAAGGGCCAGTCGGCCCGCCTCGTCTGTCCCTATCACCAGTGGACCTACGATCTTGACGGCAAGCTGCTGTTTGCACGTCACATGGGCGAAGAGTTCGACAAGGGCGATTTCGGCCTGAAGCCGGTCGCCTGCGAAACCGTCGCCGGATACGTCTTCATCTGCCTTGCCGATCAGCCGGCCGATTTCGAGCCCATGCGCAAGGAAGTCGAGAGCTACATGGCGCCGCACCGCATCTGGGAGGCGAAGGTCGCGCATGAGAGCACGATCATCGAAAAGGGCAACTGGAAGCTCGTCTGGGAAAATAACCGCGAGTGCTACCATTGCGCCGCCAACCACCCGGAACTCTGCCGCACCTATCCCGAAAACCCGAGCGTGACGGGAACGGACGGCGGGGCGAGCGATCCAGAGATCGGCGGCCACTGGGCACGCTGCGAGGCCGCCGGCCTGCCGAGCCGTTTCAAGATCGACCCCAAGGGCCAGTTCCGCGTCGCCCGCATGCCGCTGATCGGCGAGGCGGAAAGCTACACCATGTCCGGCAAGCGCGCCGTGCGCCGGCCGCTGTCTGACGATGTCAGCATCAGCCATATCGGCGCGCTGCTCCTGTTCCATTATCCGACGACCTGGAACCACTTCCTCGGCGACCACACCATTTCCTTCCGGGTGCTGCCGCTCAGCGCCACGGAAACCATGGTCACCACCAAATGGCTGGTGCACAAGGATGCCGTCGAAGGCGTGGACTACGATCTCGAGGACCTCACCCATGTCTGGAACGAGACCAACGATCAGGACCGCCGCATCGTCGAGGAAAATGCCTTCGGTATTCGTTCCCCTGCCTATGAGCCGGGCCCCTATTCCATGGAGGACGAGGGCGGCGTGATGCAGTTCGTCAACTGGTACTCCGATTTCATGGTCGACCGGCTCTCCGGCGATAAGGCCCGGCTTTCGGCTGTAGCGTGA	MELRDTVLRQLKNRREGFSLEQPFYTDPDYFKLDMETIWYRDWLFVGHDCEVQKSGSYFTVQVGAYSVVIVRGRDGQIRAFHNSCRHRGSRVCTTQKGQSARLVCPYHQWTYDLDGKLLFARHMGEEFDKGDFGLKPVACETVAGYVFICLADQPADFEPMRKEVESYMAPHRIWEAKVAHESTIIEKGNWKLVWENNRECYHCAANHPELCRTYPENPSVTGTDGGASDPEIGGHWARCEAAGLPSRFKIDPKGQFRVARMPLIGEAESYTMSGKRAVRRPLSDDVSISHIGALLLFHYPTTWNHFLGDHTISFRVLPLSATETMVTTKWLVHKDAVEGVDYDLEDLTHVWNETNDQDRRIVEENAFGIRSPAYEPGPYSMEDEGGVMQFVNWYSDFMVDRLSGDKARLSAVA	PGPT0013680_437	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013680-gbcA-K00479	NA	NA
BMS010_00065	1083	hcr_1	COG1018	NADH oxidoreductase HCR	ATGAATATGGTTGTGACCTATAAGCATATTGACGAGATGAAGCCATGGAGCGACAAGCTCCAGCTTCTGGAGTGCATCTCGGTGACGCCCGAGACGCCTGATGTGATGACGTTCCTGTTCCGCTCGGAGGATCAGAACTGGTTCCGTTATTTGCCGGGGCAGTTCGTCACCTTGGAATTGCCGGTGGGCAAGGAGCCGCTTTACCGCACCTACACATTGTCCTCCAGCCCGTCGCGACCCTATGCGCTGTCGGTGACGGTCAAGGCGCAGGCCAATAGCATCGGCACACGCTGGATGTTCGACAATCTGAAGCCCGGCATGAAAATCCGGGCGCTCGGGCCGCTCGGCGACTTTTCCTACGTCAAGCATCCCGGCGACAAATATCTCTTCATCTCGGCAGGCTCCGGCGTTACGCCGATGATGTCGATGGTGCGCGATATGAGCGACCGCGCCCCGCAGAGCGATATTGCCTTCATCAATTGTTCGCGCACACCCGGCGATATCGTCTTCCGTCACGAGCTGGAATATCTCGCCCGCTTCATGCCGAACCTGTCTCTCGGCTTCATTGTCGAGAAATGCGGCCGCACCGATCTGTGGTCCGGCCTGAAGGGCATGGTCGACAAGGCCAAGATTGCGCTGCTCGCGCATGATTTCATGGAGCGCACCGTCTTCTGCTGCGGGCCGGAGCCGTTCATGGCCGCCGTCCGCTCGATGCTCGATGCCTCCGGCTTCGACATGAGCCGCTATCATCAGGAGAGCTTCGCGCCGGCCGCGCCGGTCACCGTTGGTGAAACAGTTCTCACCGGTGTGGATGGCGAAGCGCTGTCGATGGTGGGTTTCACCCTTTCCGGCAAAGAAATGCCCTGCCAGCCCGGCCAGACGGTTCTGATGACGGCGCGCGCCGCCGGGGTCCGTATCGGGGCGGCCTGCGAATCGGGGATTTGCGGCACCTGCCGGGTGCTGAAGCTTTCCGGTGAGGTGGAGATGAACCACAATGGCGGCATTCTCGATGAGGAAATCGAGGAGGGCTATATTCTCGCCTGCTGCTCACGCCCGTTGACCGACGTAAAGGTGGAAGCGTGA	MNMVVTYKHIDEMKPWSDKLQLLECISVTPETPDVMTFLFRSEDQNWFRYLPGQFVTLELPVGKEPLYRTYTLSSSPSRPYALSVTVKAQANSIGTRWMFDNLKPGMKIRALGPLGDFSYVKHPGDKYLFISAGSGVTPMMSMVRDMSDRAPQSDIAFINCSRTPGDIVFRHELEYLARFMPNLSLGFIVEKCGRTDLWSGLKGMVDKAKIALLAHDFMERTVFCCGPEPFMAAVRSMLDASGFDMSRYHQESFAPAAPVTVGETVLTGVDGEALSMVGFTLSGKEMPCQPGQTVLMTARAAGVRIGAACESGICGTCRVLKLSGEVEMNHNGGILDEEIEEGYILACCSRPLTDVKVEA	PGPT0013685_522	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013685-gbcB-K21832	NA	NA
BMS010_00066	462			Lectin-like protein BA14k	ATGCTGAATTTCCGGACAACGAGCGTCGCTACAGCGATTGTCGTGTTCTTCACCAGCTTCACGCCATCGCAGGCGTTTCAGGTGCCGGTGCCAATCTCCAAGCCGGCGGTAGCGACCGAAAACGTTGTGCCCGTACAGTACCGTGAGTGGGATCGCCGCCGCCATTGGGACGGTCGTCATATGCGTCGTCCGCCCCCGCATCGCGACGGGTTTTACAATGGTCACCGCGGCTACCGTGACCGTCGTCCGGGCTACCGTTATCACAACGGTTACTGGTTCCCGCTCGCTGCTTTCGCCACCGGCGCTATCATCGGCGGCGCAATGCAGCAGCCCCGTCCGGCGTATGGCGGCAGCCATGTCTCCTGGTGTCAGAACCGCTGGCGTTCGTATCGCGCCTACGACAACACCTATCAGCCCAACAGCGGCCCGCGTCGCATCTGCGTCTCGCCATACAGCCGTTAA	MLNFRTTSVATAIVVFFTSFTPSQAFQVPVPISKPAVATENVVPVQYREWDRRRHWDGRHMRRPPPHRDGFYNGHRGYRDRRPGYRYHNGYWFPLAAFATGAIIGGAMQQPRPAYGGSHVSWCQNRWRSYRAYDNTYQPNSGPRRICVSPYSR				NA	NA	NA	NA	NA
BMS010_00067	516			Lectin-like protein BA14k	ATGAAAAGCTATGTGAAGAATATCCTGGCTGTCGGTCTTTCTGCAATCGTGGTTGCAGGCGCGATCGTTCCGGCCGAAGCCGCCATGCCGGTGCCCGTCGCGCCGAAGAGCGTTGAATCCACCGGCAACGACGCCAGCAAGAACATCGTCAACGTCCAATACTGGCGTGATCGCGATGGCTGGGGCGATCGCCGCGGCTGGTATCGCGGCCACCGTGGTTATCGCGATTACCGTCCGGGCTATCGTCACCATGACGGTTACTGGTTCCCGCTCGCAGCCTTTGCGACGGGCGCGATCATCGGCGGCGCACTCTCGCAGCCGCGTGAAGTGTACCGCCCGGTACCGGAATATCGTCCGCGCCCGGTCTATCGCGAATATCGCCCGGTCCGCCGCGGCGGGCTGAGCCAGGCGCATGTGAACTGGTGCTATGGCCGCTATCGTTCCTACGATGCCTATAGCAACACGTTCCAGCCTTACCATGGTCCGCGCCAGCCCTGCTATTCGCCTTACAGCTGA	MKSYVKNILAVGLSAIVVAGAIVPAEAAMPVPVAPKSVESTGNDASKNIVNVQYWRDRDGWGDRRGWYRGHRGYRDYRPGYRHHDGYWFPLAAFATGAIIGGALSQPREVYRPVPEYRPRPVYREYRPVRRGGLSQAHVNWCYGRYRSYDAYSNTFQPYHGPRQPCYSPYS				NA	NA	NA	NA	NA
BMS010_00068	996	zntB_1	COG0598	Zinc transport protein ZntB	ATGGATCTCGTAACGCCCGTTATTCCCGGCCTTGTCTGGGCCTATCAGTTTCATCCCGGCACAGCCCCCTGCCGGCGGCTCGCGCCCGATGCCGGCTTTCACGAAATGGCCGAGTGCGAAGGGTTCTTCTGGCTGCATCTCAACCTCGCCGATCAGCGTGTGGCAGGTTTTCTCGAGACCATCGACGGTCTCGATCCGGCGGCACGGGCAAGCCTTACGACCCATGAGACGCATCCATCCATCGTGGTCGATGAAAAATCGCTTTACGGCACGCTTGTCGATTTCCAGCGGGAATTCGACAAGGAAACGCGCGATTTCGGCTGGCTGCATTTTGCGGTAAGCGACCGTTTCATCATCACCACCCGACTGCAGCCGCTGCATTCGGTGGACCGGCTGAAAGCGGCGGTCGACAAGAATTCCAACCGTTACCTCACGCCATCACATGTGTTCGAGGGGCTGGTGGCGGAATTCCAGCGCTCGCTCATCAATCTGGTGATGGAGACGACGGAAGAACTGAACGCCATCGAAGATATGGTCTATGACAGCGAGAACCGTGACGAACGGCGGCGTCTTGCCCCGCTGCGCCGCACGGTGGTTCGCCTGCACCGGCATCTGCGCACCGTCCTGACCCTGATGCGGCGGGCTTCGGCCGCCGATGATGACGAGATGCCGAATGGTTTCGAGGATGTCGCCTCACGCCTGATGGGCCGTCTGGAGGCTGTCGACCACGACGTCTACGCCCTGCAGGAGCGGGCAAGGCTGCTGCATGAAGAAATCGATTCCAAACTCTCGTCCGAAACCAACCGGCACCTTTATATCCTGTCGCTGATGACGGCATTCCTGCTGCCGCCCTCGCTGGTCACCGGTTTCTTCGGCATGAATACGGATGAGCTGCCGTTTACCGTCGGCACGGGCGGCACATTGTCGGCCAGCATCTTCATCGCGATTTCGGTTGCTCTCGCCTGGTTCGTGCTGAAACGCGCGCGAATCCTGTAA	MDLVTPVIPGLVWAYQFHPGTAPCRRLAPDAGFHEMAECEGFFWLHLNLADQRVAGFLETIDGLDPAARASLTTHETHPSIVVDEKSLYGTLVDFQREFDKETRDFGWLHFAVSDRFIITTRLQPLHSVDRLKAAVDKNSNRYLTPSHVFEGLVAEFQRSLINLVMETTEELNAIEDMVYDSENRDERRRLAPLRRTVVRLHRHLRTVLTLMRRASAADDDEMPNGFEDVASRLMGRLEAVDHDVYALQERARLLHEEIDSKLSSETNRHLYILSLMTAFLLPPSLVTGFFGMNTDELPFTVGTGGTLSASIFIAISVALAWFVLKRARIL	PGPT0004205_462	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZNT_TRANSPORT_SYSTEM,PGPT0004205-zntB-K16074	NA	NA
BMS010_00069	1785	caiA_1		Crotonobetainyl-CoA reductase	ATGTATAGCGCGCCGGTGGACGATATCGCCTTTACACTCAAACATGTAGCGGATCTTGAAGACGCGCTGTCTGCGGGTGCGCTGGGAGACCTTGGGGAAGATCTGGTCGATGCCATTCTGCACGAAGCCGGCCGTTTCGCCACCGCAGAGGTCGCGCCGCTCGCCGAGATCGGCGACCGCCAGGGCGCAAAGCTTGCCGACGGCAAGGTGACGACACCGGATGGCTGGGCCGATCTTTACCGCCGCTGGGCGGAAGCGGGCTGGAACAGCCTGACGGCGCCGGAAGAATTCGGCGGCCAGAACCTGCCGCATATGCTGAATGTCGCCGCACTCGAAATGTGGAATTCCGGTTCCATGGCCTTTGCGCTGGCCCCGACGCTGACCATGGGCGCGGTGGAAGCCCTTGTCGCCCACGGCAGCGATCACCTCAAGCGCACCTATCTGCCGAAACTCGTCTCCGGCGAATGGACCGGCACCATGAACCTCACCGAGCCGCATGCGGGTTCGGATCTCGGCGTCCTGAAGACCCGGGCGGAGCGCAATAGTGATGGCACCTACCGCATTTTCGGCCAGAAGATTTTCATCACCTGGGGCGAACACGACGCGGCGGACAATATCATCCACCTCGTTCTCGCCCGCCTGCCGGATGCGCCGGCCGGCACGCGCGGCATCTCGCTTTTCCTCGTGCCGAAATTCCTGCCTGATGAAAACGGTGCGCCGGGCAGCCGCAACGATCTGTTCTGCCATTCGCTCGAACACAAGCTCGGCATTCACGGCTCGCCCACCTGCACGATGATCTTCGGCGATGGCAAATTCGGCGAAGAGAAGGGCGCTCTTGGCTGGCTGGTCGGTGAAGAGAACAAGGGTCTCGCCTGCATGTTCACCATGATGAACAACGCCCGCCTTGCCGTCGGCATGCAGGGCGTGGCGATCTGCGAAGCGGCGACCCAGAAGGCCATCGAATATGCCAGGGAGCGCACGCAGGGCAAGGCGCCCGGCTGGCAGGGTTCCGGCATGAGCCCGATCATCGAACACCCGGATATCGCCAGAACGCTTCTGACGATGAAGGCGCTGACGCAAGGATCGCGGGCAATTTCCTTCAGCTGCGCGCACGCCATTGACATGGCGCACGCGAGCGAAGACGCCCGGCAGCGCGCTCACTGGCAGGAGCGCGCTGCCCTTTTGACACCCATCGCCAAATCCTTCTCCACCGATGCCGGCGTCGATGTCGCCTCCATGGGCATTCAGGTGCATGGCGGCATGGGCTTTATCGAGGAGACCGGTGCTGCGCGTTATCTGCGCGATGCCCGCATCGCGCCGATTTATGAAGGCACCAATGGCATTCAGGCCATCGATCTGGTGCTGCGCAAGCTGCCGCTCTCCGAAGGCGCGCAGGTGCGCGGTTTCATCGCCGAATTGCGTGAGGTCGCCGCCCGCACAGCCGCTTCGAACCGCGACGATCTCGGCGAGACAGGCCGTTATCTCGAAGCAAGCCTTGCCGATCTGGAAACGGCGACCGACTGGCTGCTGGACCGCATCAAGGCAGGCGAAACCGAAACTGCGCTCGCCGGCGCGACACCCTATCAGCGCCTTTTCGGCCTGGCGCTCACCGGCGCCTATCTCGCCAAGGGCGCTTTGGCCGCCGTCGATGATGGCAGGAGCGGGCATCGCGCAGCCCTTTGCCGTTTCGCGGCGGAAAATCTGCTGGCGGAAACGGCAGCGCTGAAGGACCGCGTTATCGCCGGCGCGGCAAGCCTTGCCGCCGCCCGCACCGTATTGGCTTGA	MYSAPVDDIAFTLKHVADLEDALSAGALGDLGEDLVDAILHEAGRFATAEVAPLAEIGDRQGAKLADGKVTTPDGWADLYRRWAEAGWNSLTAPEEFGGQNLPHMLNVAALEMWNSGSMAFALAPTLTMGAVEALVAHGSDHLKRTYLPKLVSGEWTGTMNLTEPHAGSDLGVLKTRAERNSDGTYRIFGQKIFITWGEHDAADNIIHLVLARLPDAPAGTRGISLFLVPKFLPDENGAPGSRNDLFCHSLEHKLGIHGSPTCTMIFGDGKFGEEKGALGWLVGEENKGLACMFTMMNNARLAVGMQGVAICEAATQKAIEYARERTQGKAPGWQGSGMSPIIEHPDIARTLLTMKALTQGSRAISFSCAHAIDMAHASEDARQRAHWQERAALLTPIAKSFSTDAGVDVASMGIQVHGGMGFIEETGAARYLRDARIAPIYEGTNGIQAIDLVLRKLPLSEGAQVRGFIAELREVAARTAASNRDDLGETGRYLEASLADLETATDWLLDRIKAGETETALAGATPYQRLFGLALTGAYLAKGALAAVDDGRSGHRAALCRFAAENLLAETAALKDRVIAGAASLAAARTVLA	PGPT0008385_337	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008385-acd-K00249	NA	NA
BMS010_00070	759	fcbB1		4-chlorobenzoyl coenzyme A dehalogenase-1	ATGTCGGACGAACACATTCTCGTCGAGCGCGTCGGCCATGCGCCGGAAGTTTTGACCATCCGCTTCAACCGGCCGGACAAGAAAAACGCCATCACCGATGCCATGTATCTGCGCATGGCAGACGCCCTGCATGCCGCCAATGCGGACCCGGAAATCCGCGTCGTCGCCTTTCTCGGCACGGAAGGCTGCTTCTCCGCCGGTAACGACATGGCCGATTTTCTGGCCTTCGCCATGTCGGGCGGAAAGGGCAAGCTTGCCGCGCTCGAGCTTCTGAAAGCGCTCGTCGCTTTCGACAAGCCAATGGTATCCGGCGTCGACGGGCTCGCCATCGGCATCGGCACGACGCTGAACCTGCATTGCGACCTGACGGTCGCCTCCAGCCGCAGCCTGTTCAAGACCCCATTCGTGGATCTCGCTCTGGTCCCGGAAGCCGCCTCCAGCCTGCTCGTGCCGAAGCTCATGGGACACCAGCGCGCCTTTGCGCTGCTTGCCATGGGCGAAGGTTTTACTGCTGAACAGGCGTTGCAGGCCGGGATGATCTGGAAAGTCGTCGCCCCTGAACATGTGGAGAGCGAAACGCTGGCGCTTGCCACCCGGCTCGCGGCCAAACCGCAGCAGGCGCTGAAGATCGCCCGCGATCTGGTTCGCGGCAACCCGGACGATCTTCTCGCCCGCATCGAAGAGGAAGGCCGTCATTTCATCGCGCAGCTGCAAAGCGCCGAAGCGCGCGCCGCCTTCGAGGCATTCATGCGCCGTTAA	MSDEHILVERVGHAPEVLTIRFNRPDKKNAITDAMYLRMADALHAANADPEIRVVAFLGTEGCFSAGNDMADFLAFAMSGGKGKLAALELLKALVAFDKPMVSGVDGLAIGIGTTLNLHCDLTVASSRSLFKTPFVDLALVPEAASSLLVPKLMGHQRAFALLAMGEGFTAEQALQAGMIWKVVAPEHVESETLALATRLAAKPQQALKIARDLVRGNPDDLLARIEEEGRHFIAQLQSAEARAAFEAFMRR				NA	NA	NA	NA	NA
BMS010_00071	354			hypothetical protein	ATGCAACGTCATCGCCCGAAAGCCACCCGCATGCGTCACGTCGTGTTCGCCCTGTCCGTCTTCCTCTGCGCCGCCACTGTCACCGAAGCGGCGGCGATAACGCGCCCTCCGGCGGCTTCCGCCGGCAATATCATTCTGGCGCAATCCGTCATTACCGAAGATGATGGCTCGGATTATTATTCCGGCCGCAATCGCGACCGCCAGCGCCGCGCCCGTTTCGTCTGCGTCATCACCCCGCCGGAGAGCGCCAATCGCCGCCGGCCCTATGTCTGCCCCATCGAGCGGGGCCGCGTGGGCGGCGCCTGCCGCTGCTCGGGCGTGGTCGGTAACGGCACGGTCGATACGGCCTGGTGA	MQRHRPKATRMRHVVFALSVFLCAATVTEAAAITRPPAASAGNIILAQSVITEDDGSDYYSGRNRDRQRRARFVCVITPPESANRRRPYVCPIERGRVGGACRCSGVVGNGTVDTAW				NA	NA	NA	NA	NA
BMS010_00072	1251	rlmD_1	COG2265	23S rRNA (uracil(1939)-C(5))-methyltransferase RlmD	ATGAGCACACAGACCGTCACCATCAAGAGCCTCGGCGCGCAGGGCGACGGCATCGCGCACTGTCCCGACGGCCCGGTCTATGTGCCCTTCGCGCTGCCCGGCGAAACGGTCGCGATTGCGAAGGTGAAAGATCACGGCACCGTCATGTCGATAACGGAGGCCTCGGCGGAGCGCCGTGAACCGGCCTGCCGCCATTTCGGCCCCGATGGCAAGAACGGCACCTGCGGCGGCTGTTCGCTGCAGCACCTCGCCGACCAGCCTTACCATGTCTACAAGCGGGAGCTGGTGGTTTCGGCACTGAAATCAAAGGGCCTGACGCCGCCGGTGGACGATCTCGTCATCTGTCGCCCCGGCGAGCGCCGCCGCGCGGTGTTCGCCGCCCGCAAGACGGAAAAGGGTCTGCTGCTCGGTTTCAGCCAGGCGAACAGCCATCACATCGTCGCTATCGAGGAATGTCCCGTCACCTCGCCCGGCATCGTTTCGCGGCTGGATGCCATCCGCGCCATCGGGCTTTCCATGGTGGCGAATGCCGAACCGTTTCGCATCACCGTTCTCGAAACGCTCTCCGGTCTCGATATTTCGGTCGAAGGCATCAAGTCGGTCAGCGACAAGCAGCGGCGCACCCTCACGGAAACGGTGCTCGCCATGCGCGGCATTGCCCGTGTTTCGCTCTCAGGTGAAATCCTGATCGAACCGCAAAAGCCGATCATCGAATTCGGCGGCGTTGCGGTTTCACCCCCGGCCGGCAGTTTCACGCAGGCGACGAAGCAGGCGGAAGACGCCATGGCCGAGCTGGTGCTTGCCCATATCGGCAAATCGAAGCGCATTGCCGATCTCTTCTGCGGTTCCGGCACCTTCGCGCTGAGGCTCGCACGCATCGGCAAGGTGCATGCGGTGGAAGCGGAAGACAAGCCGCTGAAGGCCCTGGACTTCGCCGCCCGCAACACGCAGGGCCTGAAGCCGGTGAGCGTCGAGAAACGCGATCTCTTCCGCCGGCCGCTGATGACAAGCGAACTGAAGAATTACGATGCTGTCGTGTTCGATCCGCCGCGCGCCGGTGCGGAATTCCAGTGCAAGGAACTGGCCCGCAGCACGGTAAAGAAGATCGTTGCGGTGAGCTGCAATCCGCTGACGCTTGCGCGCGATCTTACCATCCTCACGGAAGGCGGCTATCGCATCACCCGCGTCACGCCGGTCGACCAGTTCCTGTGGTCGCCGCATGTGGAAGCGGTGGCGACGCTGGAGAAATAA	MSTQTVTIKSLGAQGDGIAHCPDGPVYVPFALPGETVAIAKVKDHGTVMSITEASAERREPACRHFGPDGKNGTCGGCSLQHLADQPYHVYKRELVVSALKSKGLTPPVDDLVICRPGERRRAVFAARKTEKGLLLGFSQANSHHIVAIEECPVTSPGIVSRLDAIRAIGLSMVANAEPFRITVLETLSGLDISVEGIKSVSDKQRRTLTETVLAMRGIARVSLSGEILIEPQKPIIEFGGVAVSPPAGSFTQATKQAEDAMAELVLAHIGKSKRIADLFCGSGTFALRLARIGKVHAVEAEDKPLKALDFAARNTQGLKPVSVEKRDLFRRPLMTSELKNYDAVVFDPPRAGAEFQCKELARSTVKKIVAVSCNPLTLARDLTILTEGGYRITRVTPVDQFLWSPHVEAVATLEK				NA	NA	NA	NA	NA
BMS010_00073	753	tlyA	COG1189	16S/23S rRNA (cytidine-2'-O)-methyltransferase TlyA	ATGTCCAAAACATCTGAAAATGAACGGCTTGACCAGCTTCTCGTGTCGCTCGGCCACTTCGCCAGCCGCTCGCGTGCGCGCGACGCGGTTGCACGCGGCACCGTGAGCGTCAACGGTAAAATCGTCACCAAACCGAGCCAGACCGTCGCTGGCGATGCCGAAATCGCCATCAGCGATCCGGCGCAGGCCTATGTTTCGCGCGCAGCGCTGAAGCTCGTAGCCGCGCTCGATCATTTCCGGCTCGATCCGAAGGGCCATGACTGTCTCGATGTCGGCGCTTCGACCGGCGGTTTCACCGAGGTGTTGCTGGAGCGCGGCGCCAAACACGTCACCGCCATCGATGTCGGCCACGGGCAGATGCATGCCAGAATCGAGAACGATCCGCGCGTGACCAATCTGGAAGGGCTGAATGCGCGCTTCCTGACGGCGGAAGATATCGATGACCGGCCCATCGGCTTCATCGTCTCCGACGTGTCCTTTATTTCGCTGAAGCTTGCGCTTGCGCCGGCACTCGAGCTTGCGGAGCCGGGTGCTCTCGCGGTTCTGCTGGTGAAGCCGCAATTCGAGGCGGGGCGCGACGCCATCAGCAAGGCCGGGCTGTTGAAAGAACCGGAAACGGCGCCTGCCGTGGCTGCCGAACTGGAACGCTGGCTGACCGAGGACATGGGCTGGAAAAGCCTCGGCCTCATTCCCTCGCCGATTTCCGGCGGCGACGGCAACATCGAATTTCTTCTCGGAGGCGAAAAGCCATGA	MSKTSENERLDQLLVSLGHFASRSRARDAVARGTVSVNGKIVTKPSQTVAGDAEIAISDPAQAYVSRAALKLVAALDHFRLDPKGHDCLDVGASTGGFTEVLLERGAKHVTAIDVGHGQMHARIENDPRVTNLEGLNARFLTAEDIDDRPIGFIVSDVSFISLKLALAPALELAEPGALAVLLVKPQFEAGRDAISKAGLLKEPETAPAVAAELERWLTEDMGWKSLGLIPSPISGGDGNIEFLLGGEKP				NA	NA	NA	NA	NA
BMS010_00074	2022			hypothetical protein	ATGTCGCTTAAAAACCTCCCCATCAATCTGAAGCTCATAGCCACCTTCTGTGCCTTGATGAGCGTGTGCCTGCTCGCTTCCGCGGTCGTATTCTGGCAGACGCTGGGGAGCGAGCGTGTCACGATCGAAAACAACCGTACCAAGGATATCATCCAGGCCGTGGATGGCGCGACGGCAGCCATGCTGGAACAGGCCGTCAATCAGCGTGGCTTCCTGCTGTTTCGCAGCGACAGCACCTATAACGATGTATTCGCCCAGCGCGATCTGATGCTGAAGAAGCTGGACGAAGCCCGCGCGCTGGCTGTCGGCCGGCCGGACATTCTGACATCCATCGACGACATGCAGAAATCCGCCACCGTGTTCTTCAAGGAACTGGCGGAACCGCAGATCGCCGCACGCAAGACGACCGAAGCGCCGATTTCCGAAATCATCGAAATCGGCCGCAATCAGGCCAAGGGCCAGCTCGATGGCTTCCGCGCCTCCGCCGCCAAGATCAAGGAGCAGTTGAACGGCCTGTCCGCCGCTTACGCGGCAGAACAGCAGGCAGCCGCACTGAACCTGAAATATGCGCTTCTGGGTGGCGGCGCTGTCGCCGGTCTTCTGGCCGTTGCCCTCATCTGGGCGTTGTCGCGCTCCATCGTCACGCCCATCGTTGGCATGACGGCGGCGATGAGCAGGCTCGCCGATGGCGATCTGACGACGGAAGTTCCCGCCACGGATCGTGGCGACGAAGTCGGCAAGATGGCGAAGGCCGTTCTGGTCTTCAAGGAAGCCGGGCTGGAAAAATCCCGCCTTGCCGGCGAGACCGATCGCATGCGCTCCGCGACGGAGGCTGAACGCCGCCGCAACGAGGAAGAAAAGGCCAAGGACGAGGCCGCCAGCGCTTTTGCCAGCGCCGAGCTTGGCAAGGGCCTTGCTGCTCTCGCGGATGGCGATCTTTCCTATCGCATCGAGACGCCTTTTGCGCCTGCCATCGATCCGGTTCGCGTGAATTTCAACAGCGCCGTCGAAAAACTCCAGCAGGCGTTGCGCACGGTCGGTGAGAACGCAGCCGCGATCAATGCCGGCGCTTCGGAAATGCTCTCCGCCGCCGACGACCTGTCGCGCCGCACCGAGCAGCAGGCGGCTTCCATTGAGGAAACCGCCGCAGCGCTGGAAGAAGTCACCACCACGGTGCGCGATAGCGCCCGCGGCGCGGAAGATGCCGGCAATCTGGTCCAGCGCGCTCGCGCCGGTGCGGAAAAGTCCGGTGTCGTGGTCCGCAAGGCGGTCGCCGCCATGCGTGAAATCGAGAAGTCTTCCGGCGAAATCGGCAACATCATCGGTGTCATCGACGATATTGCCTTCCAGACTAACCTGCTGGCGCTGAACGCCGGCGTCGAAGCCGCCCGCGCCGGTGATGCCGGCAAGGGCTTTGCGGTGGTTGCGCAGGAAGTCCGCGAACTCGCCCAGCGTTCCGCCAATGCCGCCAAGGAAATCAAGACGCTGATCGGCGCTTCCAGCCAGCAGGTGGAAAACGGCGTCAATCTGGTCGACGAGACCGGCAAGGCTCTGGAACTCATCGTGGCGGAAGTCGAGGAGATCAATGCCCATGTCAGCGCCATCGTTGTCGCTGCCCGCGAACAGGCGACCGGCCTGCAGGAGATCAATACAGCCGTAAACACCATGGACCAGGGCACGCAGCAGAATGCCGCCATGGTGGAGCAGCAGACCGCCGCCAGCCATTCGCTGGCCCGCGAAGCGGAAGCGCTGAACAGCCTGCTCGGCCAGTTCAGAATGGATGGCGCACGCGCTGCCGTTGCCAGTGCCGGCGGCTATTCCGCGCCGCGCCAGTCTTCCGCCAGGCCCGCCTTCCAGCCCGCGCCGGCCGCACCGGCCCGCAAGGCTCCGGTAAAATCGGCCTCCGCAACCGCAAGGCCTGTCGCCTCGCCGGCCCGTGCGCTTGGCCAGAGCCTCGCCCGCGCCTTCGGCGGTGCGGCCGAAGCACCGGCTGCCAAGGATCAGGACTGGACGGAGTTCTGA	MSLKNLPINLKLIATFCALMSVCLLASAVVFWQTLGSERVTIENNRTKDIIQAVDGATAAMLEQAVNQRGFLLFRSDSTYNDVFAQRDLMLKKLDEARALAVGRPDILTSIDDMQKSATVFFKELAEPQIAARKTTEAPISEIIEIGRNQAKGQLDGFRASAAKIKEQLNGLSAAYAAEQQAAALNLKYALLGGGAVAGLLAVALIWALSRSIVTPIVGMTAAMSRLADGDLTTEVPATDRGDEVGKMAKAVLVFKEAGLEKSRLAGETDRMRSATEAERRRNEEEKAKDEAASAFASAELGKGLAALADGDLSYRIETPFAPAIDPVRVNFNSAVEKLQQALRTVGENAAAINAGASEMLSAADDLSRRTEQQAASIEETAAALEEVTTTVRDSARGAEDAGNLVQRARAGAEKSGVVVRKAVAAMREIEKSSGEIGNIIGVIDDIAFQTNLLALNAGVEAARAGDAGKGFAVVAQEVRELAQRSANAAKEIKTLIGASSQQVENGVNLVDETGKALELIVAEVEEINAHVSAIVVAAREQATGLQEINTAVNTMDQGTQQNAAMVEQQTAASHSLAREAEALNSLLGQFRMDGARAAVASAGGYSAPRQSSARPAFQPAPAAPARKAPVKSASATARPVASPARALGQSLARAFGGAAEAPAAKDQDWTEF	PGPT0015710_5852	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_00075	603			hypothetical protein	ATGATCGTCACCACGGCGCTGCGCGTCGGCGGCGGATTGCTCTATGCCTTCATGCTGCATTACGTTCTGGAGGCGATGGGATGGCTGTCAGGCCCGGTAAACCCCACCTGGATTGCGATGAGCGCCACGCCTGAATGGACCGCCTATTTCCTCGGTCTCGGGGAAACCATGGTCTGGATGCTCGTCATCCTGCTTGCACTTTCCCTTTGCCTTGAAATCCTCAGGCTGACCGGCCTTCTGGCGCTAATGATGAAAGCGCTCTCGCCCCTGCTGCGTCTTGCGGGCATTCGCGGCGAGGCTGAACATCTTACCGCGATCGGCTTGTTTCTCGGCATTTCCTACGGCGCCGGCTTCCTGATCCGCGAGGCGCAATCGGGGACGATCTCGCCGCGGCAGGCGTTTCTGTCCTGCGTGTTCATGGGTTTTGCCCATAGCGTGATCGAGGACACGCTCGTGGTGATGTCGCTTGGCGCGGATGTTTATGGCGTTCTCGCCGGGCGGCTTGTTTTCGCCATTGCCGCGACCGCCGGTATTGCCGCCCTGCTTCACCGCCTGTCGGACGAGCTGTTCTTTGCGCGGATGTTCCGGCTACAGGGCACATAG	MIVTTALRVGGGLLYAFMLHYVLEAMGWLSGPVNPTWIAMSATPEWTAYFLGLGETMVWMLVILLALSLCLEILRLTGLLALMMKALSPLLRLAGIRGEAEHLTAIGLFLGISYGAGFLIREAQSGTISPRQAFLSCVFMGFAHSVIEDTLVVMSLGADVYGVLAGRLVFAIAATAGIAALLHRLSDELFFARMFRLQGT				NA	NA	NA	NA	NA
BMS010_00076	363			hypothetical protein	ATGTCACTTTTCCTGCCCGTCTGGCAAAAAACGCGGGAAACGCTTGCAATCTACTGGGTGCTTGTGCGGATCACGGTTCCCATCGCCATTCTGACCGAGCTGTTGTCGAGGATGGGCGCAATCGAGGCGGTGGCGCCTGCCTTTACGCCGGTCATGAACCTCATCGGGCTGCCGCCGGAGCTTGGTCTTGCCTGGCTGACAGCAATGCTGGTCGGCATATGGGGTGCGGTGCCGCTCATCTTCACGCTTGTGCCCGCATCGTCACTCACCGTTGCGGATATCACCGTTTTTTCGGCACTGATCCTGTTCCCCATGGCCTGCCCATCGAACAGAAGATCATTGAAAAGGCGGGACCGGGCATGA	MSLFLPVWQKTRETLAIYWVLVRITVPIAILTELLSRMGAIEAVAPAFTPVMNLIGLPPELGLAWLTAMLVGIWGAVPLIFTLVPASSLTVADITVFSALILFPMACPSNRRSLKRRDRA				NA	NA	NA	NA	NA
BMS010_00077	453	decR_1	COG1522	DNA-binding transcriptional activator DecR	ATGGATCGGATCGACCGGAAACTTCTGAACCTTTTGCAGAACGATGCGTCGCGCACCAATGTGGATATGGCCGATGAAGTCGGGCTGTCTCCATCCAGTTGCCTGCGCCGCCTGCAGCGGCTGCGCAAGTCTGGCGTGATCGACCGCATCGTGGCGATCCTCAACCCCGCAAAGGCGGGACGGGTGATCAAGGCTCTGGTGACGGTGGAGCTGAAATTGCACGGCGAGCAGCATATGCGCCGCTTTCTGGATATTGTGAGCGACGAAGAGGCCGTGTCGCAGGCCTATGCCGTTACCGGCGCAACCGATGTCGTACTGATGCTGTGCCTGCGGGATATGGAAGAATTCGACGCCCTGTGCGACCGGCTCTTCCGCGACCAGCACAATGTTGCGCGCTTTGTCACCATGGTCGTCATCAAGACGGCGAAAGAGGAAACGGCCATAAGGCTTTAA	MDRIDRKLLNLLQNDASRTNVDMADEVGLSPSSCLRRLQRLRKSGVIDRIVAILNPAKAGRVIKALVTVELKLHGEQHMRRFLDIVSDEEAVSQAYAVTGATDVVLMLCLRDMEEFDALCDRLFRDQHNVARFVTMVVIKTAKEETAIRL				NA	NA	NA	NA	NA
BMS010_00078	384			hypothetical protein	ATGGCGCCTCGCGTTAAGCTACACATTCTGGACGGTTCATATGGGATAGCCCGGCTTCATGCGTCCGAAGCCATTCCGGCATGGGCCGATGGCGGTGGATTTGTCAGTATCACCCGGACCGATGACGAGCTTTCCATCGTCTGCCGGGCAGAGCGCATACCGCTTGATGTGCGGGTCGATGCGGGTTGGTCGTGTTTCAAGTTTCAAGGCCCGTTTGCCTTTGATGAGACCGGTATCGTTTTGTCGGTCATCGCGCCGTTGTCCACCAATGGGATAGGAATATTCGTGGTTTCGACTTTCGACGGCGACCACCTGCTGGTTAAGTCGAACGATCTGGAGAAAGCGCTCGACCTGCTGGCAAATGCAGGACATTCGCTCGTCTAG	MAPRVKLHILDGSYGIARLHASEAIPAWADGGGFVSITRTDDELSIVCRAERIPLDVRVDAGWSCFKFQGPFAFDETGIVLSVIAPLSTNGIGIFVVSTFDGDHLLVKSNDLEKALDLLANAGHSLV	PGPT0000835_32	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRP-DEPENDENT_PATHWAY_3,PGPT0000835-nitA|nitB|nitR|nit1-K01501	NA	NA
BMS010_00079	372			hypothetical protein	TTGAATAGTGAAATCGAACTGCCGGTGCAAAAGCAGCTTGAGGCCTACAATGCCCGTGACATCGATGCCTTCATGCTCTGGTGGGCGGATGATTGTCAGTATTACGCTTTCCCGGCGACGCTTCTGGCAGGAAGCGCGGCAGAGATTCGGGAACGTCACATCGAGCGCTTCAACGAACCGGATCTCTATGGGAAACTGCTGACGCGCATTGTCGTTGACAATGTCGTCATCGACCACGAAACGGTTACCCGCAACTTTCCGGAAGGAAAGGGAGAGGTCGACGTTGCCTGTATCTATGAAGTTGAGAACGGCAGGATCGCCAAGGCCTGGTTCAAAATCGGCGAACCGCGGATATTGTCGCGAAAATCCTAG	MNSEIELPVQKQLEAYNARDIDAFMLWWADDCQYYAFPATLLAGSAAEIRERHIERFNEPDLYGKLLTRIVVDNVVIDHETVTRNFPEGKGEVDVACIYEVENGRIAKAWFKIGEPRILSRKS				NA	NA	NA	NA	NA
BMS010_00080	309			hypothetical protein	GTGCACACCACCTATCTCATCGGCTTTCAGGTCCGTCCCGGCCAGCGCGAGCGCTTTCTCGAATTGCTGAATGCACTGCTCGACGCCATGCGGCACGAAAAGACCTTCGTGAACGCAACTCTGCACCGGGACGGTGAAAACGTGAACCGCTTCCTGCTGCATGAGACCTGGAGCGACCATCAGGACGTCATCGACGTTCAGATTCACCGGCCCTATCGGCAGGCATGGCACGACGCCCTGCCCGAGCTTCTGGACGCCCCGCGCGATATTTCCGTCTGGCACCCCATGCGGGCGGATTACGCCGCATAG	MHTTYLIGFQVRPGQRERFLELLNALLDAMRHEKTFVNATLHRDGENVNRFLLHETWSDHQDVIDVQIHRPYRQAWHDALPELLDAPRDISVWHPMRADYAA	PGPT0025515_18	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI-2_PERCIPITATION|SIGNALLING,PGPT0025515-lsrG-K11530	NA	NA
BMS010_00081	795			hypothetical protein	ATGACACATCATCGAGAACATGTCGGCCAGGTGCTGAAGGAATGGCGTGCGCGCCGCAGGTTGAGCCAGCTCGATCTGGCGATGGAGGCGGACATATCCGCGCGCCATCTGAGCTTCGTGGAAAGCGGGCGATCATCTCCCAGCCGAGAGATGCTCGTGAAACTGGCGGAGCAGCTTTCCATGCCCGCCCGCGCCGCCAACCGGCTGATGCTGGCGGCGGGTTATGCGCCTGTTCATTCCGAACGGCCGATGGATGCGCCCGATATGGCGGCGGCCCGGCAGGCGGTCGAAACCGTGGTGCACGGACATATGCCCTTCCCCGCCCTTGCCGTTGACCGGCACTGGAACGTCGTTCTCGCCAATGGCGCGATCACGTCGCTTCTGGCCGGCGTTTCAGAAGAGCTGCTTCTCCCGCCGCTCAACGCCTTGAGGCTGAGCCTGCATCCGCAGGGCCTGAGTTCGCGCATCGTCAATCTTGCCGAATGGCGTCATCACCTGCTGGAACGCCTGCGCCGTCAGGTCGAAGAGACGGGAGACGAGGTGCTTTCCCGGCTGCATGCGGAGCTTGCGGCCTATCCCGCACCAAAGGCCTCGCCCCATGCGGCCGGGGCCGACCCTCTGGCCATACCGCTCCAGCTTCGCGATCCGTCTTCGGGCGGCATATTGAGCTTCATTTCAACCACCACGGTTTTCGGAACGGCCACAGACGTCACGCTGTCCGAACTGGTGCTGGAGTGTTTTTATCCCGCCGACGCGGCAACCCGCGAAGCACTGATGCAAGGCACCAAGGAGTAA	MTHHREHVGQVLKEWRARRRLSQLDLAMEADISARHLSFVESGRSSPSREMLVKLAEQLSMPARAANRLMLAAGYAPVHSERPMDAPDMAAARQAVETVVHGHMPFPALAVDRHWNVVLANGAITSLLAGVSEELLLPPLNALRLSLHPQGLSSRIVNLAEWRHHLLERLRRQVEETGDEVLSRLHAELAAYPAPKASPHAAGADPLAIPLQLRDPSSGGILSFISTTTVFGTATDVTLSELVLECFYPADAATREALMQGTKE				NA	NA	NA	NA	NA
BMS010_00082	363			hypothetical protein	ATGACGCAGCATCTCGCAATCGCCGAAACCTATCTCGCAGCCTGGAACGAGGAGGACAATGAACGCCGCAGGCATCTCGTCGGTCAGGCATGGGCAGAAAATACGCGCTACGTCGATCCGCTGATGCAGGGCGAAGGCCAGCAGGGGATTGCCGCGATGATCGAGGCGGCGCGGCAGAAGTTTCCGGGATATCGTTTCGTGCTCACAGGCATCCCGGATGGCCACGGCAATTTCACCCGTTTCTCATGGCGTCTGATTTCGCCTGAGGGGGACGATGTTGCGGGTGGTACGGACGTCGTCAGCCTGAATGCCGAGGGGCGGATCGAAAATGTCGTCGGTTTTCTCGACGGCGCTGCATCCTGA	MTQHLAIAETYLAAWNEEDNERRRHLVGQAWAENTRYVDPLMQGEGQQGIAAMIEAARQKFPGYRFVLTGIPDGHGNFTRFSWRLISPEGDDVAGGTDVVSLNAEGRIENVVGFLDGAAS				NA	NA	NA	NA	NA
BMS010_00083	1911	dxs_1	COG1154	1-deoxy-D-xylulose-5-phosphate synthase	ATGCCCCAGACCCCACTGCTCGACCGGGTGAATTTCCCCTCCGATCTCAAGGAGATCGACGATCGCGACCTGCCGGAACTGGCACGGGAACTGCGCGACGAGATGATTGACGCGGTGTCGAAGACCGGTGGCCATCTGGGAGCCGGGCTTGGCGTGGTGGAATTGACGATTGCCATTCACAAGGTCTTCAACACGCCCGAAGACCGGCTGATCTTCGATGTCGGCCACCAATGTTATCCGCATAAAATCCTCACCGGCCGTCGCGACCGCATTCGCACGCTGCGGCAGGAAGGCGGGCTTTCCGGCTTCACCCGGCGGGCCGAAAGCGACTATGACGATTTCGGCGCCGGCCATTCCTCCACCTCCATTTCCGCCGGTCTCGGCATGGCGGTGGCGGCGGGTCTGGATCAGAGCGACCGCAAGGTGATCGCCGTCATCGGCGACGGCTCGATGTCGGCGGGCATGGCGTTCGAAGCGCTGAACAATGCCGGCGCGCTCGATGCGCGGCTGATCGTCATCCTCAACGATAACGACATGTCGATTGCGCCGCCGACGGGCGCGATGAGCGCCTATCTGGCGCGCCTCGCCTCCGGCCGCACCTATATGGGCTTCCGCGATTTCGGCAAGAAACTGACGGCCTATCTCGGCAAGACCATCGACCGCGCCATCACCCGCGCCGTGACCCATGCGCGCGGTTACGTGACCGGCGGCACGCTGTTCGAGGAGCTGGGCTTCTATCACATCGGCCCGATCGACGGTCATTCCTTCGATCATCTGCTGCCGGTGCTGCGCAATGTGCGCGACAACCAGAAAGGCCCTGTTCTCATCCATGTGGTGACGCAGAAGGGCAAGGGTTACGCGCCGGCGGAAGCCGCAGCCGATAAGTATCACGGTGTCAACAAGTTCGATGTCATCACCGGCGCGCAGGCGAAAGCCAAGCCGAATGCGCCGAGCTATACCAGCGTCTTTGCCGAAGCCCTGATTCAGGAAGCCACCCTCGACGACAAGATCATCGGCGTCACCGCCGCCATGCCGAACGGCACCGGCCTCGACAAGATGGCCGAGCTTTTCCCGGCCCGCACGTTCGATGTCGGCATTGCCGAGCAGCACGCCGTCACCTTTGCGGCCGGACTTGCGGCGGACGGTTACAAGCCGTTCTGCGCGCTTTATTCCACCTTCCTGCAACGCGGTTACGACCAGCTGGTGCATGATGTGGCGATCCAGAGCCTGCCGGTGCGTTTCCCCATCGACCGCGCCGGTTTCGTCGGTGCGGATGGGCCGACCCATGCCGGCTCCTTCGACACGACGTTCCTCGCCACCCTGCCCGGCATGGTGGTGATGGCGGCGGCCGACGAGGCCGAGCTGAAACATATGGTGCGCACGGCGGCGGCCTATGACGAAGGCCCGATTTCCTTCCGTTACCCGCGCGGCGAAGGTGTGGGCGTCGAGATGCCCGCGCGCGGTGAGATTCTTGAGATCGGCAAGGGCCGCATCATCAAGGAAGGCACCAAGGTCGCGCTGCTCTCCTTCGGCACCCGGCTTGCGGAATGCCTTGCAGCCGCCGAAGATCTCGATGCGGCCGGCCTTTCCACGACGGTCGCCGATGCGCGCTTCGCCAAGCCGCTCGATCTCGATCTCATCCGCCAGTTGGCCGCCCATCACGAGGTGCTGGTGACGATCGAAGAAGGCTCCGTCGGCGGTTTCGGCGCGCATGTGCTGCATTTCATGGCGAGCGCCGGCCTGCTCGACCATGGCCCGAAAGTCCGGACGCTGACCCTGCCCGACCAGTGGGTGGAGCAGGCCAAGCCCGAGACCATGTATGCCAATGCCGGCCTCGACCGGGCCGGCATCGTTTCCACCGTGTTTAATGCGCTCGGCCAGCGTCAGGCCGGCGTCGGTTTCGCTGGCTGA	MPQTPLLDRVNFPSDLKEIDDRDLPELARELRDEMIDAVSKTGGHLGAGLGVVELTIAIHKVFNTPEDRLIFDVGHQCYPHKILTGRRDRIRTLRQEGGLSGFTRRAESDYDDFGAGHSSTSISAGLGMAVAAGLDQSDRKVIAVIGDGSMSAGMAFEALNNAGALDARLIVILNDNDMSIAPPTGAMSAYLARLASGRTYMGFRDFGKKLTAYLGKTIDRAITRAVTHARGYVTGGTLFEELGFYHIGPIDGHSFDHLLPVLRNVRDNQKGPVLIHVVTQKGKGYAPAEAAADKYHGVNKFDVITGAQAKAKPNAPSYTSVFAEALIQEATLDDKIIGVTAAMPNGTGLDKMAELFPARTFDVGIAEQHAVTFAAGLAADGYKPFCALYSTFLQRGYDQLVHDVAIQSLPVRFPIDRAGFVGADGPTHAGSFDTTFLATLPGMVVMAAADEAELKHMVRTAAAYDEGPISFRYPRGEGVGVEMPARGEILEIGKGRIIKEGTKVALLSFGTRLAECLAAAEDLDAAGLSTTVADARFAKPLDLDLIRQLAAHHEVLVTIEEGSVGGFGAHVLHFMASAGLLDHGPKVRTLTLPDQWVEQAKPETMYANAGLDRAGIVSTVFNALGQRQAGVGFAG	PGPT0008960_1753	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0008960-dxs-K01662	NA	NA
BMS010_00084	924			hypothetical protein	ATGTCCTTCTTTCCCGGTAACGATCCCGTCGCGGGTGATGCCTTTGCCTGCGACGCCATCGAAAACCTCATCATTCCGCGCACCAGCGACATTGGGGGCTTTGCCGTGCGTCGTGCGCTGCCGACCCGGCAGCGGCGTCTCGTCGGCCCCTTCATCTTTTTCGATCGCATGGGCCCGGCGATCCTGAAGGCCGGAGAGGCACTCGACGTCAAACCGCATCCGCATATCGGGCTTTCCACCGTCACCTATCTGTTCGACGGCGAAATCAAGCATCGCGACAGTCTCGGCACCGAACTCGTCATCCGCCCCGGCGACATCAACCTGATGACTGCCGGGCGCGGCATCGTGCATTCGGAACGCACGCCGGAAAACCTGCGCGGCCATCCGCTTTCCATGTCCGGCCTGCAGACATGGCTTGCCCTGCCGGACCATATGGAAGAAATCGACCCGGCCTTTGCTCATACGGCCAGGGAAGACATGCCGCTGATCGATATCAAGGGCGCTACCGGCCGGGTGGTGATCGGCGAATTCGAAGGCCTCACCTCCGCCGTTTCGGCCTTTACCGATACGCTTTATGTCGACCTGACGCTGGAGCCGGGTGTGAAATTTCCCTTCTCAGCCGATCATGAGGAGCGGGCGATCTATATTCTGTCCGGTTCTCTCGATGTGGCGGGCGATATCTTCGCCGCCGATCAGCTCCTCGTCTTCCGGCCGGGTGACGACATCACGCTTCAGGCCGGCAGCAATGGCTGTCACATCATGATCTTCGGCGGGGCGGCGCTCAATCAGCGCCGCTACATCTGGTGGAACTTCGTTTCGTCATCAAAAGAACGCATAGAGCAGGCCAAACAGGAGTGGAGAACCGGACGCTTCGATATCGTTCCCGGCGACGAAGAAGAGTTTGTCCCTTTGCCGGAAGGTTGA	MSFFPGNDPVAGDAFACDAIENLIIPRTSDIGGFAVRRALPTRQRRLVGPFIFFDRMGPAILKAGEALDVKPHPHIGLSTVTYLFDGEIKHRDSLGTELVIRPGDINLMTAGRGIVHSERTPENLRGHPLSMSGLQTWLALPDHMEEIDPAFAHTAREDMPLIDIKGATGRVVIGEFEGLTSAVSAFTDTLYVDLTLEPGVKFPFSADHEERAIYILSGSLDVAGDIFAADQLLVFRPGDDITLQAGSNGCHIMIFGGAALNQRRYIWWNFVSSSKERIEQAKQEWRTGRFDIVPGDEEEFVPLPEG				NA	NA	NA	NA	NA
BMS010_00085	255	xseB_1		Exodeoxyribonuclease 7 small subunit	ATGACGGAAAATGCCAACACAGCCGATGTCAGCGGTTATTCTTTCGAAAAAGCCGTCGCCGAGCTGGAAAGCATTGTCGCTCGCCTGGAACGCGGAGACGTGGCGCTGGACGAATCCATCGCCATCTATGAGCGCGGCGAAGCCCTGAAGAAGCATTGCGAAACACTGTTGAACGCTGCCGAAAAGCGAATCGAGAAGATTCGCCTCGACCGGGCCGGCAAGCCGCAGGGTGTAGAGCCGCTGGACGGGGAGTGA	MTENANTADVSGYSFEKAVAELESIVARLERGDVALDESIAIYERGEALKKHCETLLNAAEKRIEKIRLDRAGKPQGVEPLDGE				NA	NA	NA	NA	NA
BMS010_00086	936		COG0123	Histone deacetylase-like amidohydrolase	ATGGCGACGCGTTTATACGAACATCCGATCTTCCTGGAGCATATTACGCCTCCCGGCCACCCCGAGCGGCCGGACCGCCTGCGGTCGCTGAACATCGCGCTCGAACACCCGAATTTCGAGCGGCTGCAACGGAAAGAAGCGCCGCAGGCGAATGAGGATGCGGTGCTGCTGGCGCATCCGGAGGAGCATCTGCTTGCCATCATGCGGCAGATCCCCGAAGAGGATGGCGAGATCAACCGCGTCGAGGCCGACACTTACGTTTCGCAAAAAAGCCTGCAGGCGGCGCTGACCGGCATCGGTGCGGCCATGGCGGCGGTGGACGACGTGTTTACCGGCGCTGCCGACAATGTCTTCGTCGCCGCCCGCCCGCCCGGCCATCATGCGGAAACCGCAAAGGCCATGGGTTTCTGTCTTTTCAACAATGTGGCGATTGCCGCCCGCCATGCGCAGAAGGCGCACGGCGCGGAGCGCGTCGCCATCATCGACTGGGACGTGCATCACGGCAACGGCACGCAGGATATCTTCTGGAACGACACCTCGGTGCTGTTCTGTTCCACCCACCAGATGCCACTTTATCCGTGGAGCGGCGACAAAAACGAAACCGGCGTGAAGAACAATATCGTCAACGCCCCGCTTTCGCCCAACACCGGCAGCGAATATTTCCGCGAGGCCTTCAAATCCCGCGTGTTGCCGGCGATTGCCGATTTCTCGCCCGATCTCATCCTCATCTCCGCCGGTTTCGACGCGCATCACCGCGATCCCTTGGCGCAGATCAATCTGGTGGGTGAGGATTTCGACTGGGCAACGGGCCGGCTTCTGGAAATGGCCGATAAATACACATCGAACCGGGTCGTCAGCCTGCTGGAAGGCGGTTATGATCTGGAAGGGCTGGCGGAATCGGCAGCCATGCATATTTTGAGAATGATGAAGGGTTGA	MATRLYEHPIFLEHITPPGHPERPDRLRSLNIALEHPNFERLQRKEAPQANEDAVLLAHPEEHLLAIMRQIPEEDGEINRVEADTYVSQKSLQAALTGIGAAMAAVDDVFTGAADNVFVAARPPGHHAETAKAMGFCLFNNVAIAARHAQKAHGAERVAIIDWDVHHGNGTQDIFWNDTSVLFCSTHQMPLYPWSGDKNETGVKNNIVNAPLSPNTGSEYFREAFKSRVLPAIADFSPDLILISAGFDAHHRDPLAQINLVGEDFDWATGRLLEMADKYTSNRVVSLLEGGYDLEGLAESAAMHILRMMKG				NA	NA	NA	NA	NA
BMS010_00087	564	bioY	COG1268	Biotin transporter BioY	ATGACGACCCGCGACCTTGTGCTGATTTCGCTGTTTTCCGCCATCATCATCGCACTCGGGCTTCTGCCGCCGATCACGCTCGGTTTCATTCCCGTGCCGATCACCGCGCAGTCGCTCGGCGTCATGCTGGCCGGTGTCGTTCTGGGCGCAAAGCGCGGTACGCTGGCGGTTCTCCTGACGATCCTGATTGCCGCCATCGGCCTGCCGGTGCTTTCGGGCGGACGCGGCGGCCTTTCCATCTTCACCACGCCGACCACGGGCTTCCTGATCGGCTGGATCGCGGCGGTTTTCGTCACCGGCACGCTCTCGGAAAAACTCGTCAATCGCAGCCAGTCCGCTCTCACGCAGGGCATCGGTTTTTTCGTCGCCAGCCTGATCGGCGGCGTGGTCGTGCTTTATGCTTTCGGCATCAGCTATCTGGCGCTGGTCGTCGGGCTCGGTTTCGAAAAGGCCTTCATGGGCTCGCTCGCCTTCATTCCGGGCGATGCGCTGAAGGCCGTGCTCGCGGCCCTTGCCGGCCGCGCCGTGATGGCCGGTTATCCGCTTCTGCCGCAGCGCGCCTGA	MTTRDLVLISLFSAIIIALGLLPPITLGFIPVPITAQSLGVMLAGVVLGAKRGTLAVLLTILIAAIGLPVLSGGRGGLSIFTTPTTGFLIGWIAAVFVTGTLSEKLVNRSQSALTQGIGFFVASLIGGVVVLYAFGISYLALVVGLGFEKAFMGSLAFIPGDALKAVLAALAGRAVMAGYPLLPQRA	PGPT0022050_1649	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_TRANSPORT,PGPT0022050-bioY-K03523	NA	NA
BMS010_00088	606	bioN	COG0619	Energy-coupling factor transporter transmembrane protein BioN	ATGAAATCGCTGCATGTGGAAGGCACTGGCTGGCTCTACCGCGTCTCGCCGCGCCTCAAACTGCTGACGCTCATGGGTTTCAGCATCGCATTGTTCCTCACCCGCGATCTGCTGGTTCTCGCAGGCGCGACGGTTCTGGCCGCCCTTATTCTGGGCGCTACGCGGCTGCCTTTCAAGGATATCGGCCTGCGGCTGCGGCCGGTGATGCTGACAATCTTCCTCGTCGCCGCCTTCAGCTACCTCCTGCTTCCGGCCCATGATGCCAGTGTCAATCTTTTGCGGCTGACGGCGCTGGCGTTGCTTGCCACCGCCGTCACCATCACCGTCAGCATCTCGCAATTCATGGACGAGATCGCGCTTGCCGCCGCCCCGCTGGAAAGGCTGGGGCTGGTGAAGGCCGCCGATATCGGGCTTTCGGTCGGGCTCGTCGTGCGGTTCGTGCCTGAAATCGTCAACCGTTACCATGCGGTGCGCGATGCGCATCGGGCGCGCGGCCTGCCTGTGCGGATGGCCACCATCATCGTGCCGCTGGTGATTATGACGTTGAAGGATGCCGATGCCATTGCCGACGCCATTGACGCGCGCGGTTTCAGAGGCCAAAGCTGA	MKSLHVEGTGWLYRVSPRLKLLTLMGFSIALFLTRDLLVLAGATVLAALILGATRLPFKDIGLRLRPVMLTIFLVAAFSYLLLPAHDASVNLLRLTALALLATAVTITVSISQFMDEIALAAAPLERLGLVKAADIGLSVGLVVRFVPEIVNRYHAVRDAHRARGLPVRMATIIVPLVIMTLKDADAIADAIDARGFRGQS				NA	NA	NA	NA	NA
BMS010_00089	681	bioM	COG1122	Biotin transport ATP-binding protein BioM	TTGGAAATCCGTTTTACCGCCGCCGGCGTCGCTTTCGAGGGCCGGCAAGCCCTGCAGCCGCTGTCTGTGACATTGACGGAACGGCGCATCGGCGTGATCGGCCTCAATGGTTCCGGCAAGACCACCTTTGCCCGGCTGATCAACGGGCTGAACAAACCGAGCGAAGGCAGGGTTTCGGTGAACGGCTTCGACACCGTGAGCGACGCCAAGGCGGTCTTGCAGGCGGTCGGCTTCATCTTCCAGAATCCGCAGAACCAGATCATCCTGCCAATCGTGCGTGACGATGTCGCCTTCGGGCTGAAGCGGCTCAGCCACGGCAAGGCCGAAACCGAAGCCCGGGTGAAAGCCGTTCTCGCCCGGCTCGGCATCCCTCACCTCGAAGAACGGCGCGCGCATGAGCTTTCCGGCGGAGAGCTGCAGCTGGCGGCGCTGGCGGCGCTTCTGGTCACCGAACCGCAGCTCCTCATTCTCGATGAGCCGACCAACCAGCTCGATCTCAAAAACCGAGCCACCGTGGAAAAGACCATGGCGGCGCTGTCGCAGGCGCTGATCGTCATCACCCACGATCTGCCGCTGGTTGCGGGTTTCGACCGGGTGCTGGTTTTCCATGAAGGCGCGCTGGTTGCCGACGCAGCCCCCGAAGAAGCGGTGGCGCGCTATCTGGAGGTGGCATCGCGATGA	MEIRFTAAGVAFEGRQALQPLSVTLTERRIGVIGLNGSGKTTFARLINGLNKPSEGRVSVNGFDTVSDAKAVLQAVGFIFQNPQNQIILPIVRDDVAFGLKRLSHGKAETEARVKAVLARLGIPHLEERRAHELSGGELQLAALAALLVTEPQLLILDEPTNQLDLKNRATVEKTMAALSQALIVITHDLPLVAGFDRVLVFHEGALVADAAPEEAVARYLEVASR	PGPT0022045_517	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_TRANSPORT,PGPT0022045-bioM-K16784	NA	NA
BMS010_00090	1197			hypothetical protein	ATGGCGATCAAGGTTTCGAACGAAGCGGCAAGGCGGATTTTTCTGGCGCGGCAGGGGCTTTCCTCTCCGCCCGGCAAGGCGCTTTCCAAGGATGGCCTGTTGCAGCTCATCACCGATATCGGTTTTGTGCAGGTGGACAGCATCGGCACGGTGGAGCGCGCCCACCACCAGATTATTTTCTCCCGCAACCAGACCTACAGGCGCGGCCATCTGACCACGCTTTTGGAAAAGGACCGGGCGCTTTTCGAGCACTGGACGCATGACGCCTCCATCCTGCCGACGGAATTTTATCCCTATTGGAAACATCGTTTCCGCCGCCGCGAGCCGATCATTCAGGAGCGCTGGCGCAAATGGCACGGCGAGGGTTTCGATGCTGCTTTCGGGGAAACGCTGGAGCGCATCGCCGCCACCGGCCCGGTTCTGGCACGGGAGCTGAAGGAGGAGGGGCACCAGTCCGGCGGCTGGTGGAACTGGCATCCCTCCAAGACCGCACTTGAATATCTCTGGCACACCGGCAAGCTCGCGATTGCCGGCCGCGTCAATTTCCAGAAGGTCTATGATCTCGCCGAACGGGTCATTCCCGGCGAGCATCACGAAACCGAGGTGGAGCACGCCGAATTCGTTGACTGGGCCTGCCGTCAGGCGCTGAAGCGGCTGGGTTTCGCCACCCATGGCGAAATCGCCGCGTTTTTCGATCTCGTCACCCCGCAGGAGGCGAGGGACTGGGTCAAGAACCATCGCGATGAACTCTGCGAGGTCTCGCTTCTTTCCAGCGACGGGGACAATGCCCGCGCGTCTTTTGCCTTTGCCGATTTCACCGCCGACCTGACAGACGTGCCGGAACCTTCCGCCCGCGTCCGCGTCCTCAGCCCCTTCGACCCGCTGCTGCGCGACCGAAATCGCACGGAGCGGCTGTTCGGCTTCTATTACCGCATCGAGGTCTTCGTGCCCGAGCCGAAAAGGCAATATGGCTATTATGTCTTCCCGCTTCTGGAGGGTGACAGGCTGATCGGCCGCATCGATATGAAGGCGGATCGCAAGCGCGGCACGCTGGATGTGCGCCGCCTGTGGCTGGAGCCCGGTGTGCGTGCTTCGGCCGGTCGGCTGGAGAAGCTCGACGCGGAACTGGTGAGGCTGGCGAAGTTTACCGGGGTGGAGAGTGTGAACTATCTGGAGGGCTGGCGGGAGGAAAACTGA	MAIKVSNEAARRIFLARQGLSSPPGKALSKDGLLQLITDIGFVQVDSIGTVERAHHQIIFSRNQTYRRGHLTTLLEKDRALFEHWTHDASILPTEFYPYWKHRFRRREPIIQERWRKWHGEGFDAAFGETLERIAATGPVLARELKEEGHQSGGWWNWHPSKTALEYLWHTGKLAIAGRVNFQKVYDLAERVIPGEHHETEVEHAEFVDWACRQALKRLGFATHGEIAAFFDLVTPQEARDWVKNHRDELCEVSLLSSDGDNARASFAFADFTADLTDVPEPSARVRVLSPFDPLLRDRNRTERLFGFYYRIEVFVPEPKRQYGYYVFPLLEGDRLIGRIDMKADRKRGTLDVRRLWLEPGVRASAGRLEKLDAELVRLAKFTGVESVNYLEGWREEN				NA	NA	NA	NA	NA
BMS010_00091	1101	ribBA_1	COG0108	Riboflavin biosynthesis protein RibBA	ATGGCCTATGACCAGAAACGCGTCGTGGACGCCATCCGCGCTTTCGAAGCCGGTGAAATCGTTGTCGTGACCGATGATGACGACCGTGAGAACGAAGGCGATCTGATCATTTCGGCGGTTCACTGCACGCCGGAGAAGATGGCGCTGATCGTGCGCCACACCTCCGGTATCGTCTGTGCGCCCATGCCGCGCGAGGAAGCCAAGCGGCTGAACCTCAACGCCATGGTGGCGGAAAATGACAGCGCGCATACCACGGCCTTCACCGTCAGCGTCGATTTCAAGCACGGCACCACGACAGGCATTTCCGCCGATGACCGCACGCTCACGGTGCGCAACCTTGCCAATCCCAATGTTGGTGCCTCCGATTTCACCCGGCCGGGCCACATCTTCCCGCTGATTTCCCGCGAGGGCGGCGTGTTGATGCGCTCCGGCCATACCGAAGCGGCGGTCGATCTCTGCCGGCTCGCCGGCCTGCCGCCCATCGGCGTCATCAGCGAGCTGGTGAATGACGACGGCACGGTGATGCGCGGCCCGCAGGTGCTGGATTTCGCCGAAAAACACGGCATGAAGCACGTTTCGGTCGCCGATCTCATCGCCTATCGCCAGCGCAAGGAAACGCTGGTGGAGATGGAGTCCTCCTTCACCATCGAAACGCCCTTTGGTCCCGCCAAGGCGCAGACCTATTCCCTGCCCTGGGACCCGATGCAGCATATGGCGGTGATTTTCGGCGATATCCGCGACGGCATCGACATTCCCGTGCGCCTGCACCCAGAAAATGTCGCCGACGACGTGTTCGGCGACCGCCAGCCGGTGCGGCATTATATGCAGAAGATCGCCGAGGAAGGCCGCGGCGTCATCGTCTATCTGCGCGAAGGCTCCGTCGGCGTCGGCCAGGTGGCTGGACGTCGCAAGGCCCGTGATCCGGATGAGGCGCATGCGCAGGCCCGTTCGCGCGAAAACGAATGGCTGGAAATCGGCCTCGGCGCGCAGATTTTGAAGGACCTCGGCATCAGCTCCATCAAGCTGATGACCACGCGGGAGCGGCATTATGTCGGCCTTGAAGGGTTCGGCATCAAGATTTCGGCGACGGATATCGGGTGA	MAYDQKRVVDAIRAFEAGEIVVVTDDDDRENEGDLIISAVHCTPEKMALIVRHTSGIVCAPMPREEAKRLNLNAMVAENDSAHTTAFTVSVDFKHGTTTGISADDRTLTVRNLANPNVGASDFTRPGHIFPLISREGGVLMRSGHTEAAVDLCRLAGLPPIGVISELVNDDGTVMRGPQVLDFAEKHGMKHVSVADLIAYRQRKETLVEMESSFTIETPFGPAKAQTYSLPWDPMQHMAVIFGDIRDGIDIPVRLHPENVADDVFGDRQPVRHYMQKIAEEGRGVIVYLREGSVGVGQVAGRRKARDPDEAHAQARSRENEWLEIGLGAQILKDLGISSIKLMTTRERHYVGLEGFGIKISATDIG	PGPT0007990_3905	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0007990-ribBA-K14652	NA	NA
BMS010_00092	1098	aroC_1	COG0082	Chorismate synthase	ATGTCGCATAACAGTTTCGGTCATCTTTTCCGCGTTACCACCTGGGGAGAAAGCCACGGGCCTGCACTCGGCTGCGTGGTGGATGGCTGCCCGCCCGGCATTCGCTTCACCCTTGCCGAGGTGCAGCACTGGATGGACAAACGCAAACCGGGCCAAAGCCGTTTCGTGACGCAGCGCCGCGAGGATGACATCGTCAAGGTTCTCTCCGGCGTGATGCTGGATGAGGACGGCGAGACGATGATAACCACCGGCACGCCGATTTCGATGCTGATCGAAAATACCGACCAGCGCTCCAAGGATTACGGCGAGATCGCCAAGCGCTTCCGCCCCGGCCATGCGGATTTCACCTATGACCTGAAATACGGCATTCGCGACTATCGCGGCGGCGGACGTTCTTCCGCGCGCGAGACGGCGGCGCGTGTCGCCGCCGGTGCGATTGCCCGCAAGGTAGTGCCGAGCCTCAATGTGCGCGGCGCGCTGGTGCAGATCGGCAAGCACAAAATCAACCGCGACAACTGGGATTGGGATCAGGTTGACCAGAACCCGTTCTTCTGCCCGGATGCCGCCATGGTGCCGGTCTGGGAAGAGTATCTCGACGGCATCCGCAAGGCCGGCTCCTCCATCGGGGCCGTCGTCGAAGTTGTGGCGGAAGGGGTTCCGGCCGGCATCGGCGCGCCGATCTATGCCAAGCTCGATCAGGATATCGCCTCCAGCCTGATGTCGATCAACGCCGTCAAGGGCGTGGAGATCGGCGAAGGTTTCGCCTCCGCCGAGCTTTCCGGCGAGGAAAATGCCGATGAGATGCGCATGGGCAATGACGGCAAGCCGATCTTCCTCTCCAACCATGCCGGCGGCATTCTGGGCGGCATTGCGACCGGCGAGCCTGTCATCGCCCGCTTCGCCATCAAGCCCACCTCCTCCATTCTGACGGAGCGTCTTTCCATCGATACCGACGGCAATAATGTGGATGTGCGCACCAAGGGCCGCCACGACCCCTGCGTCGGCATCCGCGCCGTGCCTATCGGCGAAGCGATGATCGCCTGCACCGTTGCCGACCATTATCTGAGGGATCGCGGCCAGACCGGCCGTTTGAAGTGA	MSHNSFGHLFRVTTWGESHGPALGCVVDGCPPGIRFTLAEVQHWMDKRKPGQSRFVTQRREDDIVKVLSGVMLDEDGETMITTGTPISMLIENTDQRSKDYGEIAKRFRPGHADFTYDLKYGIRDYRGGGRSSARETAARVAAGAIARKVVPSLNVRGALVQIGKHKINRDNWDWDQVDQNPFFCPDAAMVPVWEEYLDGIRKAGSSIGAVVEVVAEGVPAGIGAPIYAKLDQDIASSLMSINAVKGVEIGEGFASAELSGEENADEMRMGNDGKPIFLSNHAGGILGGIATGEPVIARFAIKPTSSILTERLSIDTDGNNVDVRTKGRHDPCVGIRAVPIGEAMIACTVADHYLRDRGQTGRLK	PGPT0012875_3113	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012875-aroB-K01736	NA	NA
BMS010_00093	303			hypothetical protein	ATGCATGTAAGGTTTTCACGCAAATCCACGAAAGCTAGATCGATGCGTATGATGATTGCCGCCCTTCTGGCCACCGCCAACCTCCTGATGCCCATCAACGGCTACGCCCAGAGCGTCGACGTGGAAGGCACGATCAGCAAGATCGATGCCAATGGGCTGAGCATTACGCTCAACGACGGCAAGACCTATCGCGTGCCGGAAGAGTTCAATTTCGAAGGTCTGAAAGCGGGCGTGAAGGTCGTTGTTTTCTACACGGAAGTGGACGGGAAACGCGTGGTCGACGATCTTCAGGTCGTGCAGTAA	MHVRFSRKSTKARSMRMMIAALLATANLLMPINGYAQSVDVEGTISKIDANGLSITLNDGKTYRVPEEFNFEGLKAGVKVVVFYTEVDGKRVVDDLQVVQ				NA	NA	NA	NA	NA
BMS010_00094	582	gpmA_1		2,3-bisphosphoglycerate-dependent phosphoglycerate mutase	GTGATCCGGCACGGACAAACGGACTGGAATGCGATACGCCGGCTTCAGGGCCAGAAAGACATTCCGCTCAACGATTTCGGCCGCCAGCAGGCGGTCGGTAACGGCAAACTGCTTGCGCAGCTGCTGGGAGAACAGGCCACGGATTTCGACTATGTGGCAAGCCCGCTCGGGCGCACGCGCGAGACCATGGAACTGATGCGCGGCGCGATGGGCCTCGATCCCAAGGCCTATCGTACCGACAATCGCCTGATCGAAGTTTCCTTCGGCGACTGGGAAGGGCAAACCCTGCCGGAGCTGAAAAAAGAGTTCCCGGACCGGGTGAAGGCCCGCAAGGCCAACAAGTGGGATTTCATTCCCCCCGGCCAGGATGCCGAAAGCTATGAAATCCTCTCCTGGCGCATCGGCGCATGGCTTTCCTCCGTCGAGGTTCCGACGATATGCGTCTGCCATGGCGGCGTCATCCGCTCGATCTTCCGGCTGGTTTCCGGCATGGACAAGGACGAGGCGTCAAGGACGCAAATTCCGCAGGACCGGATTTTGAAGGTCGAGATCGACAGGAATAGTGCGGAGTGGATTTGGTGA	MIRHGQTDWNAIRRLQGQKDIPLNDFGRQQAVGNGKLLAQLLGEQATDFDYVASPLGRTRETMELMRGAMGLDPKAYRTDNRLIEVSFGDWEGQTLPELKKEFPDRVKARKANKWDFIPPGQDAESYEILSWRIGAWLSSVEVPTICVCHGGVIRSIFRLVSGMDKDEASRTQIPQDRILKVEIDRNSAEWIW				NA	NA	NA	NA	NA
BMS010_00095	819	fabI_1	COG0623	Enoyl-[acyl-carrier-protein] reductase [NADH] FabI	ATGGCTCAGGCATCCGGCCTCATGGCTGGCAAACGCGGCCTCATCATGGGTGTCGCCAATAATCGTTCCATCGCTTGGGGCATCGCCAAGGCCTGTGCCGACGCGGGCGCGGAAGTTGCGCTGACCTGGCAGGGCGACGCGCTGAAGAAGCGTGTCGAGCCGCTGGCGCAGGAACTGGGCGCCTTCATGGCCGGTCACTGCGATGTGACCGATCTCGAGACGATCGATGCGGTTTTTGCCGGGCTGGAAAAGCACTGGGGCAAGATCGACTTCGTCGTGCACGCCATCGCCTTTTCCGACAAGGATGAGCTGACCGGCCGTTACCTCGATACCAGCCGCGACAATTTCAACCGCACCATGGACATTTCCGTCTTCTCGCTGGCCGCCGTTGCCAAGCGCGCCGAGCCGGTCATGAATGACGGCGGCTCGATCATCACGCTGACCTATTACGGCGCCGAAAAGGTCATGCCGAACTATAACGTCATGGGCGTGGCCAAAGCTGCTCTTGAGGCCAGCGTGCGTTATCTCGCCGTCGACCTCGGCAATCGCGGCATCCGCGTCAACGCCGTTTCCGCCGGCCCGATCAAGACGCTTGCAGCTTCCGGCATCGGCGACTTCCGCTACATTCTGAAATGGAACGAATATAATGCGCCGCTGAAGCGCACCGTTTCCATCGAGGAAGTCGGCAAGTCGGCGCTTTACCTGCTGTCCGACCTTTCGACCGGCGTGACCGGCGAAATCCACCATGTCGATTCCGGTTACCACACCATCGGCATGAAGGCGGTGGATGCGCCTGACATTTCGGTGGTGAAGGACTAA	MAQASGLMAGKRGLIMGVANNRSIAWGIAKACADAGAEVALTWQGDALKKRVEPLAQELGAFMAGHCDVTDLETIDAVFAGLEKHWGKIDFVVHAIAFSDKDELTGRYLDTSRDNFNRTMDISVFSLAAVAKRAEPVMNDGGSIITLTYYGAEKVMPNYNVMGVAKAALEASVRYLAVDLGNRGIRVNAVSAGPIKTLAASGIGDFRYILKWNEYNAPLKRTVSIEEVGKSALYLLSDLSTGVTGEIHHVDSGYHTIGMKAVDAPDISVVKD	PGPT0008370_993	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008370-fabI-K00208	NA	NA
BMS010_00096	1116	dnaJ_1	COG0484	Chaperone protein DnaJ	ATGCGCGATCCATATTCTATCCTCGGCGTAAAACGTGACGCCCGCCACGAGGAAATCAAGGCCGCCTGGCGCACGAAGGCGAAGACCGTCCATCCGGACGCCAATCGCGACGATCCCGACGCCTCGGCGCGATTCGCCGAGATCGGGCAGGCCTATGATCTTCTCAAAGACCCGAAAAAGCGCGATCTCTACGATCAGGCCCGCAGGGCGGCCGAAAAGAAACAGCGCGGCGAAACCATCATGCAGCAGCGGGAAGCCGCGCGCGAGGCTGCCGAGCGCGCCAAGGCCGCCGAAAAGCTGATGGAGGAACTGGCCCGTGCGGACGCCCGCAACAGGGCGCAGACCGGCCAGAAAACCGACGCCAAGGCGGAAACCGCCGAAGATATCGTCGAACGGATTTTTGGCGCGGAAGCACAGAACGATCCCAAGGTGCAGCAGGCGGCGGAAGCGGCAAAGGCTGCTGCAGGCCCCGCAAAAAGCGATATGCCGGGTGCCGGCGAGACCGCGCAGCCCGGCGCCGCCGATGACAGGACAGCGCCCGCATCGCTCGCCGCCAATCTTTTCAGCGCTCTGGTGCGCCGTTTCCGCACGCAGCAGCCGGCTCCTGAAAAAGCGCCGGACATCACTGCGGAGGCCACCGTCACGGTCGCCGATCTGCTGGAACACAAGTGGATTACCGTGTCGCTTGCCGACGAACGCGAGGTTCGTTTCCAGCTCGAAGCCGGCATGACCGACGGACACGTGGTGCGGCTGAAGGGACAGGGGCTGAAGCTTCCCAACATGGCGCGCGGCGACCTTGCCGTGACATTGCTGACCGCCCGTGACGACGCGTTTTCCCTTCGTGGCTTCGATATTCACACGACGCTGCCGATCTCGCTCAGCGATGCGGTTCTGGGGTGTGAAACGAAAGTCGCGACACCGCTCGGCGAGGAAAACATCACCATTCCGGCCTGGTCCGGCTCGGACCGTGTGCTGAGGCTTACCGGCAAGGGGCTCGCCGACGGCAAGGGCGGACAGGGCGATCTCGTCATCGAATTGCGCATCGTTCTCTTGGAAAAGCCGGACGAAAAGGTGACCGACCTGATGCGGCACATGCGCGAAGGCCTTTATTTGTGA	MRDPYSILGVKRDARHEEIKAAWRTKAKTVHPDANRDDPDASARFAEIGQAYDLLKDPKKRDLYDQARRAAEKKQRGETIMQQREAAREAAERAKAAEKLMEELARADARNRAQTGQKTDAKAETAEDIVERIFGAEAQNDPKVQQAAEAAKAAAGPAKSDMPGAGETAQPGAADDRTAPASLAANLFSALVRRFRTQQPAPEKAPDITAEATVTVADLLEHKWITVSLADEREVRFQLEAGMTDGHVVRLKGQGLKLPNMARGDLAVTLLTARDDAFSLRGFDIHTTLPISLSDAVLGCETKVATPLGEENITIPAWSGSDRVLRLTGKGLADGKGGQGDLVIELRIVLLEKPDEKVTDLMRHMREGLYL				NA	NA	NA	NA	NA
BMS010_00097	369			hypothetical protein	ATGCTTGTGGTGCTGAGCGGCTGCGTCAGCCTCGACCTGTTCGGCGGCGACAAGGTCGACCGCTCGCTTTCCACGGCCTCCATTCCCAACCAGCCGAACAATGCGCCGCAGACGGACGATGCGACGATCCGCAATGCGGTGACGTCGGCCGATCTCGCCAAGCTCGCCGACCAGCCGCTGCCCTGGGCCAATGCCGCCACCGGCAGCGCCGGCGTCGTCACCGCCATTCACGAAGACAAATCCAGCGGCTTCGTCTGCCGCGATTTCAGGACGACGCGACACTCCTTCGAGGGCATTGCAAGCTATGCGGGACAGGCCTGCCTGTCGGAAACCGGCGAATGGCTGCTGACCCGCTTCGAGCAGAAATAA	MLVVLSGCVSLDLFGGDKVDRSLSTASIPNQPNNAPQTDDATIRNAVTSADLAKLADQPLPWANAATGSAGVVTAIHEDKSSGFVCRDFRTTRHSFEGIASYAGQACLSETGEWLLTRFEQK				NA	NA	NA	NA	NA
BMS010_00098	621	pdxH_1	COG0259	Pyridoxine/pyridoxamine 5'-phosphate oxidase	ATGTCGGAAACGGGGTTAACATCCAGTGACTTCACGGAAGAAAATGAACCGTTCACGCTTTTTGCCGAATGGCTGAAGGATGCGACGGCTTCCGAAATCAACGATCCGAACGCGGTAGCCCTTGCCACCGTGGACGAAAATGGCCTGCCGAATGTGCGCATGGTGCTGCTGAAAGGCGTCGACGACCGAGGCTTTGTTTTCTACACGAATTTCGAAAGCCAGAAGGGTCAGGAGATTCTCGGCCAGAAAAAAGCGGCCATGTGTTTCCACTGGAAAAGCCTGCGGCGTCAGGTGCGCCTGCGCGGCGAGGTGGAGATCGTGAGCGACGAAGAGGCGGATGCCTATTACGCCTCGCGCCCGCGCGGCAGCCGCATCGGCGCCTGGGCCTCAAAGCAGTCACGTCCTCTCGAAGGCCGTTTCGCACTGGAAAAGGCCGTGGCGGAATATACCGCCAGATATGCCATCGGCGATATTCCGCGCCCGTCCTACTGGTCCGGCTTGCGCATCCGGCCGCTTAGCATCGAATTCTGGCACGACCGCAAGTTCCGCCTGCATGACCGCATCGAATTCCGCCGCGAGACACCTGACGGTGCATGGTCCAAGGTCCGCATGTATCCCTAA	MSETGLTSSDFTEENEPFTLFAEWLKDATASEINDPNAVALATVDENGLPNVRMVLLKGVDDRGFVFYTNFESQKGQEILGQKKAAMCFHWKSLRRQVRLRGEVEIVSDEEADAYYASRPRGSRIGAWASKQSRPLEGRFALEKAVAEYTARYAIGDIPRPSYWSGLRIRPLSIEFWHDRKFRLHDRIEFRRETPDGAWSKVRMYP	PGPT0009115_3095	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009115-pdxH-K00275	NA	NA
BMS010_00099	780			hypothetical protein	ATGTCCCACCTCGATTTTTTCTCGTCCCTCATCACCGCGCATAGTCCGACTCTGCTCGCCATGTTTGCGGGCGCCGCCTTTCTCGCCGGCCTTGCCCGCGGCTTTTCCGGTTTCGGTGCGGCGCTCATCTTCATCCCGCTCGCAAGCGCCATCGTCGGGCCGCGTGTCGCCTCGGCAGTGCTGCTGGTGGTGGACGCCGTGCTGACGCTCGGCATGATACCGCCCGCATGGCGCATGGCGGACCGACGCGAAGTCTTCATCATGGCGGCCGGCGCCTTTGTCGGCGTGCCGCTTGGAACCATGCTGCTTTCCAACGGCGATCCGCTGACGCTGCGCTGGATCATCTCCGCCGTGGTCGTGATGCTGCTGTTGTTTCTGCTTTCCGGCTGGCGTTACAGCGGCCGGCCGAAGACGCCGCTGACCCTCTTTACCGGGTTTCTGGCCGGGCTGTTTTCGGGGGCTGCGCAACTGGGCGGTCCGCCGGTCGTCGCCTATTGGCTCGGCGGCGCCCTCAAAGGCGCCTTCGTGCGCGCCAACGTCATCTTATATTTCGCGATCTCGACCGTGATCTCCACCGGCAGCTATTTTGTCAGCGGCCTGTTCACCGCCGATGTCTTCGTCTTTTTCCTGCTGGCCCTACCCTTTTACGGGGCCGGGCTTTATGCCGGCGCGCGACTGCACGGGCTTGCCGACGAGGCGGCGTTCCGGCGCATCTGCTATGGGCTGATCGCCATCTCCGCCGTCATCGGCCTGCCGCTGTTCGATTCGCTGCTGAAATAG	MSHLDFFSSLITAHSPTLLAMFAGAAFLAGLARGFSGFGAALIFIPLASAIVGPRVASAVLLVVDAVLTLGMIPPAWRMADRREVFIMAAGAFVGVPLGTMLLSNGDPLTLRWIISAVVVMLLLFLLSGWRYSGRPKTPLTLFTGFLAGLFSGAAQLGGPPVVAYWLGGALKGAFVRANVILYFAISTVISTGSYFVSGLFTADVFVFFLLALPFYGAGLYAGARLHGLADEAAFRRICYGLIAISAVIGLPLFDSLLK				NA	NA	NA	NA	NA
BMS010_00100	306			hypothetical protein	ATGTTTGCTGACATGATGCCTCGGTTTGAAGAGGCCTCGCAAAAATATGCCGCTGAAAACGGAATATTCCGCGACCCGGACTGGTACATGCTGAAGCTTCAGGAAGAGGTTGGCGAGGTCACACAGGCCTGGAATCGGCTGACAGGACGGGGGCGCATTAAGGGCAGGAGCAAAGAGGAGATGAAGCGGGATCTGGCCGATGAAGCCGCCGATCTGCTCGGCCATGTGCTGTTGCTGGCCCATTATAACGGTCTCGATATTGAAGGAGCGATCGAGCGTAAGTGGCGTTTCAAGCCGGGAGCCTGA	MFADMMPRFEEASQKYAAENGIFRDPDWYMLKLQEEVGEVTQAWNRLTGRGRIKGRSKEEMKRDLADEAADLLGHVLLLAHYNGLDIEGAIERKWRFKPGA				NA	NA	NA	NA	NA
BMS010_00101	378			hypothetical protein	ATGCCGCCAGTTGCCGTGTCGCTCGTAACGCTGATACTGCTGGTTCTGTGCTTATTCCAGATTGCCCTTGCAGCCGGTGCACCCCTCGGACGCCTTGCCTGGGGCGGCGCGCACCGGGTGTTGCCGGTCCGGCAAAGAATTGCCAGCGCGGCGGTTCCGCTTATTTATGCCTTTTTCGCGTCCTTTCCGCTGCAAAAGGCAGGTTATGCTCACATCTGGCCATCCGGCTGGATCGAACCCGGCCTCTGGATCATCGCCTGTTATCTGGCAGTGAGCGCTGGATTGAACGCAATGTCGAAAAGCCGCCCGGAGCGGCTGGTGATGACGCCTGTGGCTGCCGTTCTTGCGATCCTGTTCTTTATCGTCGCGTTCTCCTAG	MPPVAVSLVTLILLVLCLFQIALAAGAPLGRLAWGGAHRVLPVRQRIASAAVPLIYAFFASFPLQKAGYAHIWPSGWIEPGLWIIACYLAVSAGLNAMSKSRPERLVMTPVAAVLAILFFIVAFS				NA	NA	NA	NA	NA
BMS010_00102	666	cbbY	COG0637	Protein CbbY	ATGCTGCCTTTTCTTCCGCAGGCCGTGGTTTTCGACATGGACGGATTGCTGATCGAGAGCGAGAGGCTCTATCGCGATTCATTTCTGGCTGCCTCGGATGAAGGCGGCCATGGCATGAAGGTCGAGACCTATCAGAAGGTCTGCGGCAGCCCGTGGGACGTCATCACCGGCACCATCTTTGCCGACTATGGTGCGGATTTTCCCATCGACAGCTTCCGCGACGCCTGGCTCCGGCATCTTGGCGTGATGATGGCGGAAGGCGTGGCGCTGAAGCCGGGCGTCATCGACATTCTCGATCTGCTCGACCGGCTCGATATCCGCCGCGCCATCGCCACCTCGTCGCGGCACGATTCGGTGACGCGCCATCTCGGCCCCCACGGTCTTCTCAGACGTTTCGACACCATCGTCGCACGCGGCGACTATACCGAGCCGAAACCCGCACCCATGCCCTATCTCACCGCAGCCCGACGGCTTTCCCTCGATCCGGGCCGCTGCCTTGCGCTGGAGGATTCGTACTCAGGCGTGCGCTCCGCAACATCGGCGGGCATGATGACGATCATGGTGCCGGATGTAGCGCCGCCGACCGAGGAAATGCGGGAGAAGTGCATTGCCGTTGCAAGCGACCTGCATGCGGTGGCCGGCCTTCTGCAAAAGGCGCAGGCCTGA	MLPFLPQAVVFDMDGLLIESERLYRDSFLAASDEGGHGMKVETYQKVCGSPWDVITGTIFADYGADFPIDSFRDAWLRHLGVMMAEGVALKPGVIDILDLLDRLDIRRAIATSSRHDSVTRHLGPHGLLRRFDTIVARGDYTEPKPAPMPYLTAARRLSLDPGRCLALEDSYSGVRSATSAGMMTIMVPDVAPPTEEMREKCIAVASDLHAVAGLLQKAQA				NA	NA	NA	NA	NA
BMS010_00103	438			hypothetical protein	ATGACCATCATACGAAATGCCCTCGTTCCTGAACTCGCCGTCAGCGACTGGCAGAAAAGCCGCGCCTTTTATTGCGACCTGATCGGTTTTCATGTGGTCTATGAGCGCCCCGAGGAGGGTTTTACCTATCTGGCGCTGGGGGATGCCCAGCTGATGATCGACCAGATCGGCGCGACCCGGACATTCGTGACGGACAATGCCGCGCTCGAATTTCCGCTCGGCCGCGGCATGAACCTGCAACTTGCCGTCCCTTCCCTGCAACCCATTCTCTCCCGGCTGGAGCGATCCTCCATCGACCTCGTCATGCCGCTGGAGGAAAAATGGTACAGGCGCGGCACGGTCGAAGTGGGCAACCGGCAATTCATCGTCGCCGATCCGGACGGTTATCTGATCCGCCCGTTCGAGAGCCTTGGCGAACGCCCCTTCCGGTTCGGTTAA	MTIIRNALVPELAVSDWQKSRAFYCDLIGFHVVYERPEEGFTYLALGDAQLMIDQIGATRTFVTDNAALEFPLGRGMNLQLAVPSLQPILSRLERSSIDLVMPLEEKWYRRGTVEVGNRQFIVADPDGYLIRPFESLGERPFRFG	PGPT0013300_2407	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BLEOMYCIN_RESISTANCE,PGPT0013300-gloA|ywbC-K01759	NA	NA
BMS010_00104	1416	tldD_1	COG0312	Metalloprotease TldD	ATGACCGACGATCTTGTAAAACTCTTCGATTGCGACGAAACGCAATTGCGCAAGCTCGTCGGCGAGGCGCTTGCCGGCGCTGACGATGGCGAGCTTTTCATCGAACATGCCCAGGCCGAATCGCTTACTTTCGATAATGGCCGGCTGAAGGGCGGTTCTTTCAACACCGATCAGGGTTTCGGCCTGCGCGCCGTCGCAGGCGAGACGGTTGGCTATGCCCATGCGGGCGAGCTGTCGCAAAGTGCGCTGAAACGTGCTTCCGATGCAGTGGGCGCGGTGACCAAGGGTTATTCCGGCTCTTATGCCGCCGCACCGCAGCGCACCAACAAGAAGCTTTATGGCGACGAGAACCCCATCGGCAGCCCGAGCTTCGAGGAAAAGGTGAAGCTCCTCACCGATATCGACGCCTATCTGCGTGACAAGGACGACAAGGTCCGGCAGGTGACGGCGACCATTTCGGCAAGCTGGCAGGTGGTGGACATCCTGCGGGCCGACGGCCATCGCGTCAGCGATATCCGGCCGATGACCCGCATCAATGTTTCCGTCGTGGCCGGCGAAGGCGACCGGCAGGAAAGCGGCTCCTACGGCATTGGCGGCCGCGTCGGCTTCAGCGATTTCATCACCACGGAAAACTGGCAGCGCGGTGCGGATGAAGCGCTGCGCCAGGCGCTCGTCAACCTCACCGCCATCGATGCGCCGGCCGGCACCATGGATGTGGTGCTCGGTTCCGGCTGGCCGGGCGTCATGCTGCACGAGGCGGTGGGCCACGGTCTGGAAGGCGATTTCAACCGCAAGAAAACCTCGGCCTTCGCCGGCCTGATGGGCGAAATGGTTGCCGCCCCCGGCGTGACCGTGGTGGATGACGGCACCATCGACAGCCGCCGCGGCTCGCTGACGATCGACGATGAAGGTACGCCTTCCGGCTATAATGTGCTGATCGAGAACGGCAGGCTGGTCGGTTACATGCAGGACCGGCAGAACGCCCGGCTGATGGGCGCCAGGCCCACCGGCAACGGCCGCCGGCAGGGCTACGCCTATGTGCCGATGCCGCGCATGACCAATACCTACATGCTGTCGGGCGACAAGACGCCGGAAGAGATCATCGCCTCCGTGAAGAAGGGCATCTATGCCGTTTCCTTCGGCGGGGGCCAGGTGGATATCACCTCCGGCAAATTCGTGTTCGGCTGCACCGAGGCCTACCTCATCGAAAACGGCAGGATCGGCGCGCCGGTAAAGGGCGCGATGCTGATCGGCAACGGGCCGGATGCGATGAAGCGCGTCTCGATGATCGGCAACGATTCCAAGCTCGATACCGGCATCGGCAATTGCGGCAAGGCCGGACAATGGGTGCCGGTCGGCGTCGGCCAGCCGCATCTGCGCATGGACCAGATCACCGTCGGCGGTACGAAGGCTTAG	MTDDLVKLFDCDETQLRKLVGEALAGADDGELFIEHAQAESLTFDNGRLKGGSFNTDQGFGLRAVAGETVGYAHAGELSQSALKRASDAVGAVTKGYSGSYAAAPQRTNKKLYGDENPIGSPSFEEKVKLLTDIDAYLRDKDDKVRQVTATISASWQVVDILRADGHRVSDIRPMTRINVSVVAGEGDRQESGSYGIGGRVGFSDFITTENWQRGADEALRQALVNLTAIDAPAGTMDVVLGSGWPGVMLHEAVGHGLEGDFNRKKTSAFAGLMGEMVAAPGVTVVDDGTIDSRRGSLTIDDEGTPSGYNVLIENGRLVGYMQDRQNARLMGARPTGNGRRQGYAYVPMPRMTNTYMLSGDKTPEEIIASVKKGIYAVSFGGGQVDITSGKFVFGCTEAYLIENGRIGAPVKGAMLIGNGPDAMKRVSMIGNDSKLDTGIGNCGKAGQWVPVGVGQPHLRMDQITVGGTKA				NA	NA	NA	NA	NA
BMS010_00105	525			hypothetical protein	ATGCGTCTTTCCCCGCTCGCGCGCACTTTTCTTGCCGCCGCCGGTCTTGCCATCATCGCTCCTGCCGCTGCGGCGCTGGCGCAACAGCAGCCGCCCGGCACGCCGAAGTCGACGCACGGAGCATGGTCTGTCATCTGCGACAAGCCGGCGGGCGCGTCCGAAGAACAATGCGCGCTGATGCAGAACGTGATCGCCGATGACCGCCCGGAAGTTGGGCTTTCGGTGGTGGTGCTGAAGACGGCCGACCGCAAGTCGCGCATCCTGCGCATCCTCGCACCGCTTGGCGTGCTTTTGAAGGATGGCATGGAGCTTTATATCGACAATAATAATATCGGCCGCGCCTATTTCACCCGATGCTTCTCCGAAGGCTGCTATGTGGAAGTGGATATCGACGACGAGTTGCTGAAGGTTCTGCGCGCTGGCAAGAATGCCGTTTTCGCACTGCGCGAAGCCGTGGATCAGGATCGCGTGGGTATTCCGATCGAGCTTTCCGGCTTTGCCGAGGGATATGACGCGCTTCCTTAA	MRLSPLARTFLAAAGLAIIAPAAAALAQQQPPGTPKSTHGAWSVICDKPAGASEEQCALMQNVIADDRPEVGLSVVVLKTADRKSRILRILAPLGVLLKDGMELYIDNNNIGRAYFTRCFSEGCYVEVDIDDELLKVLRAGKNAVFALREAVDQDRVGIPIELSGFAEGYDALP				NA	NA	NA	NA	NA
BMS010_00106	1032			hypothetical protein	ATGGCAAAATTGGGGCGCATCCGTGTCCCGACGCATATTGCGGCAGAGGACAAACTGTGGTTTGAAGTTAGTACCATAAGCATGGATTCTGCGTCTGTGATTGATCTAGATCAGACGCGTGAGGGAGAGGGTACCGTGACGAATAGGATTTACGCAGCACTGGCGGGGATGACCTGTCTGCTCACGGCTGTCGGCGCCCACGCCGATCAGCCGGTGCATTGGCAAATGGGCATGCAGGAGGCCGCCACGCCGATCATGCACGAAATACGCTGGTTTGAACAATATACGCTCTGGTTCATTGTTCCGGTTACGCTTTTCGTTCTTGCGCTGCTCATCGTCGTCGCCCTGAAATTCCGCGCCGCGAAAAATCCGGTGGCTTCCAAGACCAGCCATAACACGGCGATCGAGGTGGTCTGGACGCTGGCGCCGGTTCTCATTCTTCTGTTCCTTGCTTTCCCGTCGTTCAATCTCTTGAACGCGCAGCTCACGCAGCCGGAAAACCCCGACGTGACGCTGAAGGCGACCGCCACGCAATGGCTGTGGAGCTATGAATATACGGCCGCCGAAGGCGCCGAGCCGGTTTCCTTCGACAGCTACATGCTGAAGGACCAGGATCGCGCCGCCGCAGGCAAGGAAGACAGGGCCCGCTATCCGCGTCTTCTGGCGGTAGACAATGAAATGGTCGTTCCGGTCGGCAAGACCGTTCGCCTGCTCGTCACCGCCGCGCCGACGGATGTGATCCATTCCTTCGCCATGCCGGCTTTCGGCGTCAAGATCGACGCCGTTCCCGGCCGCCTGAACGAAACCTGGTTCAAGGCGGAAAAAGAGGGCCTTTATTACGGTCAGTGTTCCGAGCTTTGCGGCAAGGACCATGCCTTCATGCCAATCGCCATTCGGGTGGTTTCCGAACAGCAGTACAACACCTGGCTCACCGCCGCCGCCTCTGACCTGAGCGGCGCGAACCGGGCGCTGATGGCCTCTGTCGATGGCGCTCCGCGCACCGTCGACGTTGCCGCCAACGAAACCAACTGA	MAKLGRIRVPTHIAAEDKLWFEVSTISMDSASVIDLDQTREGEGTVTNRIYAALAGMTCLLTAVGAHADQPVHWQMGMQEAATPIMHEIRWFEQYTLWFIVPVTLFVLALLIVVALKFRAAKNPVASKTSHNTAIEVVWTLAPVLILLFLAFPSFNLLNAQLTQPENPDVTLKATATQWLWSYEYTAAEGAEPVSFDSYMLKDQDRAAAGKEDRARYPRLLAVDNEMVVPVGKTVRLLVTAAPTDVIHSFAMPAFGVKIDAVPGRLNETWFKAEKEGLYYGQCSELCGKDHAFMPIAIRVVSEQQYNTWLTAAASDLSGANRALMASVDGAPRTVDVAANETN	PGPT0004030_1704	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004030-foxB|coxB|ctaC-K02275	NA	NA
BMS010_00107	1701	ctaD_1	COG0843	Cytochrome c oxidase subunit 1	ATGGCTGGACCTTCCGCACACGACGATCATCACTCGCATGGTCATTCCGCACATGACGATCATTCGCATGATGCGCATCATTCCCATACGCCGGGCTTCTTCGCCCGCTGGTTCCTGTCGACCAACCACAAGGACATCGGCACTCTCTATCTGATCTTCGCGATCATCGCCGGCATCGTCGGCGGCGGGCTTTCCGTCGTCATGCGCATGGAGCTGCAGGAGCCGGGCATCCAGATTTTCCACGGTCTGGCGTCCATGGTTTACGGCTTCGAGGGTGACGCCGCCATCGATGGCGGCAAGCACATGTTCAACGTGTTCACCACCGCGCACGCGCTGATCATGATCTTCTTCATGGTCATGCCGGCGCTGATCGGCGGTTTCGCCAACTGGATGATCCCGATCATGATCGGCGCTCCGGACATGGCTTTCCCGCGCCTGAACAACATTTCCTTCTGGCTGATCGTTCCGGCTTTCATCCTTCTCATTCTCTCGCTCTTCGTCGAGGGCCCTGCGGGCGCCTACGGTGTCGGTGGCGGCTGGACCATGTATCCGCCTCTATCGACCAGCGGCATGCCGGGACCGGCGGTGGATCTGGCGATCTTCGCGCTGCACGTTTCGGGCGCGTCGTCGATCCTCGGTGCGATCAACTTCATCACCACCATCCTCAACATGCGCGCCCCGGGCATGACGCTGCACAAGATGCCGCTCTTCGCCTGGTCGGTCCTCGTCACCGCGTTCCTGCTGCTGCTTTCGCTGCCGGTTCTGGCAGGCGGCATCACCATGCTTCTGACCGACCGCAACTTCGGCACGGCATTCTTCTCGCCGGAAGGCGGCGGTGACCCGATCCTTTACCAGCACCTGTTCTGGTTCTTCGGCCATCCGGAAGTCTACATCCTGATCCTGCCGGGCTTCGGCATCATCAGCCACATCGTCTCCACCTTCTCCAAGAAGCCGGTCTTCGGTTACCTCGGCATGGCCTACGCCATGGTCGCCATCGGCGCCGTCGGCTTCATCGTCTGGGCCCACCACATGTACACGGTCGGCCTGTCGCTCGAAGCGCAGCGTTATTTCGTCTTCGCCACCATGGTCATCGCGGTGCCGACGGGTATCAAGATCTTCTCGTGGATCGCGACCATGTGGGGCGGTTCGCTGACCTTCTCGACCCCGATGGTCTGGGCGATCGGCTTCATCTTCCTGTTCACGGTCGGCGGCGTCACCGGCGTCCAGCTCGCCAATGCCGGTCTCGACCGTTCGCTGCACGATACCTATTACGTGGTGGCGCACTTCCACTACGTTCTGTCGCTCGGCGCGGTCTTCGCGATCTTTGCCGGCTGGTATTACTGGTTCCCGAAGATCACCGGATACATGTACAGCGAGTTCCTCGGCAAGCTGCATTTCTGGGTCATGTTCGTGGGCGTGAACCTCGTGTTCTTCCCGCAGCACTTCCTCGGTCTTGCGGGCATGCCACGCCGCTACATCGATTATCCCGATGCCTATGCCGGCTGGAACATGGTATCCTCCTACGGTTCCTACATCTCGGCCGTCGGCGTGCTGATCTTCCTCTTCTGCGTCTGGGAAGCCTTCGCAAAGAAGCGGATCGCCGGCAACAACCCCTGGGGTGAAGGTGCGACGACGCTTGAATGGCAGCTGTCTTCGCCGCCGCCCTACCACCAGTGGGAACAGCTGCCGCGCATTCGCTGA	MAGPSAHDDHHSHGHSAHDDHSHDAHHSHTPGFFARWFLSTNHKDIGTLYLIFAIIAGIVGGGLSVVMRMELQEPGIQIFHGLASMVYGFEGDAAIDGGKHMFNVFTTAHALIMIFFMVMPALIGGFANWMIPIMIGAPDMAFPRLNNISFWLIVPAFILLILSLFVEGPAGAYGVGGGWTMYPPLSTSGMPGPAVDLAIFALHVSGASSILGAINFITTILNMRAPGMTLHKMPLFAWSVLVTAFLLLLSLPVLAGGITMLLTDRNFGTAFFSPEGGGDPILYQHLFWFFGHPEVYILILPGFGIISHIVSTFSKKPVFGYLGMAYAMVAIGAVGFIVWAHHMYTVGLSLEAQRYFVFATMVIAVPTGIKIFSWIATMWGGSLTFSTPMVWAIGFIFLFTVGGVTGVQLANAGLDRSLHDTYYVVAHFHYVLSLGAVFAIFAGWYYWFPKITGYMYSEFLGKLHFWVMFVGVNLVFFPQHFLGLAGMPRRYIDYPDAYAGWNMVSSYGSYISAVGVLIFLFCVWEAFAKKRIAGNNPWGEGATTLEWQLSSPPPYHQWEQLPRIR	PGPT0004025_1685	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004025-foxA|coxA|ctaD-K02274	NA	NA
BMS010_00108	954	ctaB_1	COG0109	Protoheme IX farnesyltransferase	ATGAGCATTATCGACAATCGCGACATGCTGGGCGTGAGGGGCTCCGAACTTTCGGAAGCCGGCGCGCGCGATTATTTCGAATTGCTGAAGCCGCGCGTCATGTCGCTCGTCGTCTTCACGGCCTTTGCGGGTCTCGTGCTGGCGCCGGGTGAAATCAACCCGGTGCTCGGCATCATCGCCATTCTCTGCATCGCCGTCGGCGCGGGCGCATCCGGTGCCCTCAACATGTGGTACGATGCCGATATCGACGCTGTGATGAGCCGCACCGCCCGGCGGCCGATCCCGTCCGGCCGCATCGCGCCGCGCGAGGCGCTAGCCTTCGGGCTGACGCTGTCGGCCTTTTCGGTGGTCATTCTCGGCCTTGCGGTCAACTGGTTCTCCGCCGGCCTGCTCGCCTTCACCATCTTCTTTTACGCCGTCATCTATACGATGTGGCTGAAACGCTCGACACCGCAGAACATCGTCATCGGCGGCGCGGCCGGCGCTTTCCCGCCCATGCTCGGCTGGGCCTGCGTCACCGGCGGCGTTTCGCTGGACAGCATCATCCTGTTCCTCATCATCTTCCTGTGGACACCGGCGCATTTCTGGGCGCTGGCGCTGTTCAAGATGCGCGATTACGGCGCCGTCGGCATTCCGATGATGCCGAACGTGGTCGGCGAACGCTCCACCAAGAACCAGATGATCGTTTATGCGGTGCTGACCGCGGCCGCGGCCGTCGCGCCTTATTTCACCGGCCTTGCGAGCGCCGGTTACGGCATTTTCGCCGCCGTTCTGAGCGCGATCTTCGTCTACTGTTCGCTCGATGTCCGGCGCATGCCTGAGGGCGACGAGAAGATGCTGCCGGCCAAGAAGATGTTCGCCTATTCGGTGCTTTACCTTTTTGCGATTTTCTCCGGCCTTCTGGCCGATCATTTCGCGCCGGCCCTGAAGGCCGTCATGTCGGGAGTCCTGTGA	MSIIDNRDMLGVRGSELSEAGARDYFELLKPRVMSLVVFTAFAGLVLAPGEINPVLGIIAILCIAVGAGASGALNMWYDADIDAVMSRTARRPIPSGRIAPREALAFGLTLSAFSVVILGLAVNWFSAGLLAFTIFFYAVIYTMWLKRSTPQNIVIGGAAGAFPPMLGWACVTGGVSLDSIILFLIIFLWTPAHFWALALFKMRDYGAVGIPMMPNVVGERSTKNQMIVYAVLTAAAAVAPYFTGLASAGYGIFAAVLSAIFVYCSLDVRRMPEGDEKMLPAKKMFAYSVLYLFAIFSGLLADHFAPALKAVMSGVL	PGPT0008520_1101	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008520-ctaB|cyoE-K02257	NA	NA
BMS010_00109	132			hypothetical protein	ATGGAAACGGTGGAACTGAGCGCGGCGCAGAAAAAATCGAGACGTGGGCGCAACATCGCGCTCGGCGTCCTGCTCGCCGGCCTGGTGGTGCTGTTCTACATCATCACCATCATCAAGATCGGCTCGCACTGA	METVELSAAQKKSRRGRNIALGVLLAGLVVLFYIITIIKIGSH				NA	NA	NA	NA	NA
BMS010_00110	618	ctaG_1	COG3175	Cytochrome c oxidase assembly protein CtaG	ATGGCGAATATGGAAGCGCAGACGGCAGGGACCGGCAGGCAGCGGGTGAGCAATCGCTCCATCCTCGTGCTTTGTCTGGTGTTTTTCTGCGCCATGATCGGCATGGCCTATGCCGCCGTACCGCTTTATACGCTGTTCTGCCGTGTCACCGGCTATAACGGCACCACCCAGCGCGTCGAGCAATATTCCGACGTCATCCTCGACAAGACCATCAACGTCACCTTCGACGCCAATACGTCGAACGGCCTCAACTGGGATTTCCAGCCGGTCGACAAAAAGGTCATGCCGAAGATCGGCGAAACGGTGCAGGTGACGTTCAAGGCGACGAACCGCTCACCCGTGGCGACCACGGGCACGGCGGTCTTCAACGTCACACCGATGGAAGCCGGCGCCTATTTCAACAAGGTGGAGTGCTTCTGCTTTACCGAAACGACGCTGCAGCCGGGTGAAACGCTGGAGATGCCGGTGGTGTTCTTCGTCGATCCTGACATCGCCACGGCGCGCGAGACCAAGAGCATTCATACTTTAACGCTGTCCTATACGTTTTATCCGGCCAAAACCGAAAAACCGGTTGCGTCCTTGCCGGTAAAGACTTCATCTGGCGAAAGCAAATTGTGA	MANMEAQTAGTGRQRVSNRSILVLCLVFFCAMIGMAYAAVPLYTLFCRVTGYNGTTQRVEQYSDVILDKTINVTFDANTSNGLNWDFQPVDKKVMPKIGETVQVTFKATNRSPVATTGTAVFNVTPMEAGAYFNKVECFCFTETTLQPGETLEMPVVFFVDPDIATARETKSIHTLTLSYTFYPAKTEKPVASLPVKTSSGESKL	PGPT0004035_1	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004035-coxC|ctaE-K02276	NA	NA
BMS010_00111	876	ctaE_1	COG1845	Cytochrome c oxidase subunit 3	ATGGCAGATACGCATCAGAAGAACCACGACTACCACATTATCGATCCAAGCCCCTGGCCGCTTCTGGCCTCGATCGGCGCCTTCATCCTGACCTTCGGTGGCGTCTGTTACATGCGTTACCTGTCGGGCGGCTCCTTCAAGCTGTTCGGCGCGGAACTGGCCAATCCCTGGCTGTTCTATATCGGCCTCGTCATCGTGCTTTACACCATGTACGCATGGTGGTCCGACACGATCAAGGAAGCCCATGAGGGCAACCACACCCGCGTCGTCTCGCTTCACCTGCGTTACGGCATGATCATGTTCATCGCCTCGGAGGTGATGTTCTTCGTGGCGTGGTTCTGGGCCTATTTCGATGCCAGCCTCTTCCCGCACGAGGCAATTCAGGCGTCGCGCCTCGAATATACCGGCGGGCAATGGCCGCCCAAGGGCATCGAGGTGATCGATCCCTGGCACCTGCCGCTCTATAACACCGTCATCCTGCTTTTGTCGGGCACCTGCGTCACCTGGGCGCACCATGCCCTGCTGCACAATGACCGCAAGGGCCTGATCACCGGTCTGTTGCTCACCGTCGCGCTCGGCGTCCTGTTCTCCACCGTGCAGGTTTACGAATACATGCACGCGCCGTTCGACTTCAAGAATTCGATCTACGGCGCGACTTTCTTCATGGCCACCGGTTTCCACGGTTTCCACGTCTTCGTCGGCACGGTCTTCCTGCTGGTCTGCCTGTTCCGCGCCGTTGGCGGCGGTTTCACGCCCAAGCAGCATTTCGGTTTCGAGGCGGCTGCCTGGTACTGGCACTTCGTGGACGTCGTCTGGCTGTTCCTGTTCTTCGCCATCTATATCTGGGGTGGCTGGGGCGCGCCGCTGCACGGCTGA	MADTHQKNHDYHIIDPSPWPLLASIGAFILTFGGVCYMRYLSGGSFKLFGAELANPWLFYIGLVIVLYTMYAWWSDTIKEAHEGNHTRVVSLHLRYGMIMFIASEVMFFVAWFWAYFDASLFPHEAIQASRLEYTGGQWPPKGIEVIDPWHLPLYNTVILLLSGTCVTWAHHALLHNDRKGLITGLLLTVALGVLFSTVQVYEYMHAPFDFKNSIYGATFFMATGFHGFHVFVGTVFLLVCLFRAVGGGFTPKQHFGFEAAAWYWHFVDVVWLFLFFAIYIWGGWGAPLHG	PGPT0004035_692	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004035-coxC|ctaE-K02276	NA	NA
BMS010_00112	387			hypothetical protein	ATGTCTGAACCATCAAACGGCAATTTCGCGCCGGTCGATCCCATCAAGGTGGGCTTGAAAGGCTGCTGCCCGCGTTGCGGCAACGGACGGCTGTTCGACGGCTTTCTGACCATAAAACCCGCCTGCAGCGCCTGCGGACTGGATTACGGTTTTGCCGATGCGGGCGATGGCCCGGCGGTTTTCGTCATGCTGATCGTCGGTTTTCTGGTCGTCGGGCTGGCGCTGTGGTTCGATCAGCGTTTTGCGCCGCCGGTCTGGGTGCATGTCATGCTGTGGTTGCCGTTTACGGTGATTGTCTCCCTTGTGCTGCTGCGCAAGCTGAAAGGGATCATGATTGCGCTGCAATACCGCAACAATGCAAGCGAAGGCAGGCTTGATCGTGAATGA	MSEPSNGNFAPVDPIKVGLKGCCPRCGNGRLFDGFLTIKPACSACGLDYGFADAGDGPAVFVMLIVGFLVVGLALWFDQRFAPPVWVHVMLWLPFTVIVSLVLLRKLKGIMIALQYRNNASEGRLDRE	PGPT0004035_6	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004035-coxC|ctaE-K02276	NA	NA
BMS010_00113	759			hypothetical protein	TTGATCGTGAATGACGTTTCCCACATGAAGGCGGCGGAAAGGCGGGTTTGGTTCGCCGCGCCGCTGGTGCTGCTGGCGCTTGCCATTCTTCTCGGGCTCGGCACCTGGCAGGTGAAGCGTCTATACTGGAAAGAGGCGCTGATTGCCGATATCGAGGAGCGGCGGAGCGCGAGCCCGGTGCCCCTCTCCGACATAGAGGCAATCGCGAAAAGCGGCGGCGATATTGAATACCGAACGGTCAGCCTTTCCGGCACCTTCGATCATGCCCGCGAGCGGCATTTCTTCGCCACCCATCAGGGGCAAACCGGTTATTATATCTATACGCCGCTGACACTTGCCGATGGCCGCATTCTCTTCGTCAATCGCGGCTTCGTGCCTTTCGAGATGAAGGAACCGGCCAAACGGCCTAACGGGCAGGTTGCCGGGGAGGTGACGATCACCGGGCTTTCGCGCGCGCCGCTGGTTGCAAAACCGTCCTCGCTGCTGCCTGATAACGATATCGCCAAGAACATCTTCTACTGGAAGGATCTGGCGGCCATGGCCTCCAGCGCCGATATCCCGCCCGACCGGCTGGTCCACCTCTTCGTGGATGCTGACACCGCGCCTAACCCGGGCGGTTGGCCGCAGGGTGGCGTGACGCTGATAGATTTGCCCAACAATCACCTGCAATATGCGATAACGTGGTATGGGTTGGCGGCGGCCCTTGTCATCGTCGCCGGTTTTGCCTATTTCCGGAACGGTAAGGCGCAGGGTGAATAA	MIVNDVSHMKAAERRVWFAAPLVLLALAILLGLGTWQVKRLYWKEALIADIEERRSASPVPLSDIEAIAKSGGDIEYRTVSLSGTFDHARERHFFATHQGQTGYYIYTPLTLADGRILFVNRGFVPFEMKEPAKRPNGQVAGEVTITGLSRAPLVAKPSSLLPDNDIAKNIFYWKDLAAMASSADIPPDRLVHLFVDADTAPNPGGWPQGGVTLIDLPNNHLQYAITWYGLAAALVIVAGFAYFRNGKAQGE				NA	NA	NA	NA	NA
BMS010_00114	1047	ispH_1	COG0761	4-hydroxy-3-methylbut-2-enyl diphosphate reductase	ATGAACATCGCCGTTTCCAAACCCCCTTTGACGATAAGGCTGTGCGGACCGCGCGGCTTTTGCGCGGGCGTGGACCGGGCGATCCAGATCGTCGTGCTGGCGCTGAAGGCCTATGGCGCACCCGTCTATGTCCGCCACGAAATCGTGCATAACCGTTATGTGGTGGAAGGGCTGGAAGCCAAGGGCGCGGTTTTCGTCGAGGAACTGCATGAAATTCCGGCCGAGCACCGCGAGCAGCCGGTGGTCTTCTCGGCCCACGGCGTGCCGAAATCCGTGCCGGAGGATGCGCAGGCGCGTAATCTGTTTTATCTCGATGCCACTTGCCCGCTGGTCTCCAAGGTCCACAAGCAGGCCATGCGCCACCAGCGCCTTGGCCGCCATGTGGTGCTGATCGGCCATGCCGGCCACCCCGAGGTTATCGGCACCATGGGCCAGCTTCCGGAAGGAACGGTCTCGCTGATCGAGACGGTGGAAGACGCCGGCCGTTACGAACCGGCGGACCGGGAAAATCTTGGCTTCGTCACCCAGACGACACTTTCGGTCGATGACACGGCCGGCGTCATCGCCAGGCTGCAGGAACGTTTCCCGGCCATCCAGGCGCCCGCCGCCGACAGCATCTGTTACGCAACCACCAACCGTCAGGATGCGGTGAAGCAGGCGGCCCCCGGCTGCGACCTCTTCATCGTCGTTGGCGCCCCCAATTCCTCCAATTCCAAGCGGCTTGTGGAAGTGGCTCTGCGGGCCGGTGCACAGCGCTCCGTGCTGGTGCAGCGGGCCTCGGAAATCGACTGGAATGAAATCGGCGATATTCGCACCGTCGGCCTTTCGGCCGGCGCATCCGCGCCGGAGGTCATCGTCGATGAGATCATCGAGGCCTTCAAGGCGCGTTTCGATACGACGCTCGATCTCGCCGTGACGGTCGAGGAAACGGAACATTTCCTCGTCAATCGCGAGCTACGCAGCATCGAGCTGACGACGGACGACATGGCTTTCGTGAACGGCAATGCCAATGATGCGCTGCCGCCGAAAACCGCCGCCGGCATCTGA	MNIAVSKPPLTIRLCGPRGFCAGVDRAIQIVVLALKAYGAPVYVRHEIVHNRYVVEGLEAKGAVFVEELHEIPAEHREQPVVFSAHGVPKSVPEDAQARNLFYLDATCPLVSKVHKQAMRHQRLGRHVVLIGHAGHPEVIGTMGQLPEGTVSLIETVEDAGRYEPADRENLGFVTQTTLSVDDTAGVIARLQERFPAIQAPAADSICYATTNRQDAVKQAAPGCDLFIVVGAPNSSNSKRLVEVALRAGAQRSVLVQRASEIDWNEIGDIRTVGLSAGASAPEVIVDEIIEAFKARFDTTLDLAVTVEETEHFLVNRELRSIELTTDDMAFVNGNANDALPPKTAAGI	PGPT0007615_366	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007615-ispH|lytB-K03527	NA	NA
BMS010_00115	969	thrB_1	COG2334	Homoserine kinase	TTGGCAGTTTATACGGACATCACCGAAGATGATCTGAGGAATTTCCTCACGCAATATGACGTCGGCAGCCTCACCTCCTACAAGGGCATTGCCGAAGGCGTCGAAAACTCCAATTTCCTGCTGCATACCACCAAGGACCCGCTGATTCTCACGCTTTATGAAAAGCGCGTGGAGAAATCCGATCTGCCCTTCTTCCTCGGCCTCATGCAGCATCTGGCCGCCAAGGGCCTGTCCTGCCCCCTGCCGCTGCCGCGCAAGGATGGCGAGTTGCTGGGAGAGCTATCGGGCCGGCCGGCGGCGCTCATTTCCTTTCTCGAAGGCATGTGGCTGAGAAAGCCGGAAGCGAAACATTGCCGCGAAGTCGGCAAGGCGCTGGCCGCCATGCATCTGGCCGGCGAGGGGTTCGAGATCAAGCGGCCGAACGCGCTTTCCGTCGAAGGCTGGAAGGTACTTTGGGACAAGTCCGAAGCGCGCGCCGACGAGGTGGAGAGGGGCTTGAAAGACGAGATTCGCCCGGAAATCGATTATCTCGCCGCCCATTGGCCGAAAGATCTGCCGGCCGGCGTCATCCATGCGGATCTGTTCCAGGACAATGTGTTCTTCCTTGGCGATGAACTGTCCGGCCTGATCGATTTTTATTTCGCCTGCAACGACCTGCTGGCTTATGACGTGTCGATCTGCCTCAATGCCTGGTGCTTCGAAAAGGATGGCGCTTACAACGTCACCAAGGGCAAGGCGCTGCTGGAAGGTTACCAGTCGGTGCGCCCGCTGAGTGCAGCGGAGCTCGAGGCGCTGCCGCTTCTGGCGCGCGGTTCGGCGCTGCGTTTCTTCCTCACCCGCCTTTATGACTGGCTGACGACGCCGGAAGGGGCGCTGGTGGTCAAGAAGGACCCGCTGGAATATCTGCGCAAGCTGCGGTTCCATCGTTCCATCGCCACTGTTGCCGAATATGGGCTGGCGGGCGAATGA	MAVYTDITEDDLRNFLTQYDVGSLTSYKGIAEGVENSNFLLHTTKDPLILTLYEKRVEKSDLPFFLGLMQHLAAKGLSCPLPLPRKDGELLGELSGRPAALISFLEGMWLRKPEAKHCREVGKALAAMHLAGEGFEIKRPNALSVEGWKVLWDKSEARADEVERGLKDEIRPEIDYLAAHWPKDLPAGVIHADLFQDNVFFLGDELSGLIDFYFACNDLLAYDVSICLNAWCFEKDGAYNVTKGKALLEGYQSVRPLSAAELEALPLLARGSALRFFLTRLYDWLTTPEGALVVKKDPLEYLRKLRFHRSIATVAEYGLAGE	PGPT0020285_518	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020285-thrB2-K02204	NA	NA
BMS010_00116	441	rnhA_1	COG0328	Ribonuclease HI	ATGAAACATGTCGATATTTTCACCGATGGCGCCTGCTCCGGCAATCCCGGTCCCGGCGGCTGGGGCGCCGTGCTGCGTTACGGTGAGGTGGAGAAGGAACTCTTGGGCGGCGAGGCCGAGACCACCAATAACCGCATGGAATTGATGGCGGCGATTTCGGCGCTCAATGCGCTGAAAAGCCCCTGCGAGGTCGATCTTTATACCGACAGCGCCTATGTGAAGGACGGCATCACCAAGTGGATTTTCGGCTGGAAAAAGAAGGGCTGGAAAACCGCCGATAACAAGCCGGTCAAGAATGTTGAACTATGGCAGGCGCTGGAAGCGGCGCAACAACGCCATAAGGTTACCTTGCACTGGGTCAAGGGCCATGCCGGCCACCCGGAAAACGAACGCGCCGACGAATTGGCGCGAAAGGGCATGGAGCCCTTCAAACGGCGGTAA	MKHVDIFTDGACSGNPGPGGWGAVLRYGEVEKELLGGEAETTNNRMELMAAISALNALKSPCEVDLYTDSAYVKDGITKWIFGWKKKGWKTADNKPVKNVELWQALEAAQQRHKVTLHWVKGHAGHPENERADELARKGMEPFKRR	PGPT0017445_20	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_RIBOSE_METABOLISM|DEGRADATION,PGPT0017445-deoC-K01619	NA	NA
BMS010_00117	309			hypothetical protein	ATGATCCTGCATTGTGTATTTCTACGCTTCAAGGCTGCAACGGCCGCTTCTGAAAAACACGCAATATTCGAGGCGATTGCCGCCCTGAAGGATGTGATACCCGGCATCATCGATGTGAAATACGGCCAGAATGTCTCACCCGAGGGGCTGAATGGCGGTTTTGTCGACGGTTTCATCGTGACGCTGGAGAGCCCCGAGGCCCGCGACGACTATCTCGCCCATCCCAAGCACATGGAAGTGGGGGAACGTCTCGTGTCGCTCACCGATGGCGGTCTCGCCGGGCTTCTGGTGTTCGATATGAATGTTTGA	MILHCVFLRFKAATAASEKHAIFEAIAALKDVIPGIIDVKYGQNVSPEGLNGGFVDGFIVTLESPEARDDYLAHPKHMEVGERLVSLTDGGLAGLLVFDMNV				NA	NA	NA	NA	NA
BMS010_00118	486	PGdx	COG0678	Hybrid peroxiredoxin hyPrx5	ATGACCATCAAGATCGGCGAAAAACTGCCTTCCGCAACTTTCAAGGAAAAGACGGCCAACGGCCCGGTGGAAACCACCACGGACGCGCTTTTCGGCGGCAAGAAGGTGGTTCTCTTCGCCGTCCCCGGCGCTTTCACCCCCACCTGCTCACTGAACCATCTGCCGGGTTATCTCGAAAACCGCGACGCCATTCTTTCCAAGGGCGTTGACGATATCGCCGTCGTCGCCGTCAATGACTGGCACGTGATGGGCGCATGGGCGCAATCCTCCGGCGGTCAGGGCAAAATCCACTTCCTCGCCGACTGGGACGCGGCTTTCACCAAGGCGCTCGGCCTCGATGCCGATCTTTCCGCCGGCGGCCTCGGCGTGCGCTCCAAGCGTTATTCGATGCTGGTGGAAGACGGTGTGGTGAAGTCGCTCAACGTGGAAGAGAACCCCGGCCAGGCGACGGTCTCTGCCGCTGCGGCGATGATCGAGCAGCTTTGA	MTIKIGEKLPSATFKEKTANGPVETTTDALFGGKKVVLFAVPGAFTPTCSLNHLPGYLENRDAILSKGVDDIAVVAVNDWHVMGAWAQSSGGQGKIHFLADWDAAFTKALGLDADLSAGGLGVRSKRYSMLVEDGVVKSLNVEENPGQATVSAAAAMIEQL	PGPT0013100_512	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013100-prx3-K24138	NA	NA
BMS010_00119	723			hypothetical protein	ATGCGCGTGGCGAGCCTTGCCATGGATGCCGACGGCGTGGTGCGCGGCGTGCTGCAGATCGAGCCGAAGGACGGCTGGATCACCTATTGGCGCGAACCGGGCGAAGCGGGCATACCGCCGCAGATCACGCCCGATCCGGCAAGCGGCGTAACGCTCACCACCATGGCCTATCCGGTTCCGAAGCTGATCGAAAACGGCGACATCACCGATATCGGCTACGACCACGCCGTCAGCCTTCCGTTTCAGCTGAAAGCCACGAACCCGGCGGCAGGCGGGAAGATCGATCTCACCGCCTTCATCGGCGTGTGCCAGAACATCTGCATTCCCTTCGAGGCGAAGTTTTCAATCGAGCGCGGCAATGCCGGTGATGACGACCACGAGGAGCGGCGATTGCTGGAGGAGGCGCGCGAAACGCTGCCCGAGGCGGCCTCCGACGATTTCAAGGTGATCGATTTCCACATCACGCCCGACAAGACCATGCTCGGCGTACAATTGCAGCTTCCGGAAAACGCGCCGAAGGAGACCGAAATCTTCATCGCCGGTCCATCGGGCTTTGCCTATTACGAGCCGCAGAACCTGGTGCGCGACAAGCGCAAGCTCTCCTTCTACATGAACATCAAGGGCCTGCCGAAAACCTATCAGGTGCAGGGCAATAGCTGGCCCATCCTGGTCAAATCCGGCGATCGGGCCATGGAAACGATGCTGAACTTCCCGAAACCCTGA	MRVASLAMDADGVVRGVLQIEPKDGWITYWREPGEAGIPPQITPDPASGVTLTTMAYPVPKLIENGDITDIGYDHAVSLPFQLKATNPAAGGKIDLTAFIGVCQNICIPFEAKFSIERGNAGDDDHEERRLLEEARETLPEAASDDFKVIDFHITPDKTMLGVQLQLPENAPKETEIFIAGPSGFAYYEPQNLVRDKRKLSFYMNIKGLPKTYQVQGNSWPILVKSGDRAMETMLNFPKP				NA	NA	NA	NA	NA
BMS010_00120	636			hypothetical protein	ATGACGGAATGCGGTCTGCTGGAGGCGCCGGTGAGCTTTTCAACCCTGATGGACAAACGCGAACGTGGCTTTCTCGATGGTCAGTTCCTCATCGCGATGCCGGGGTTGGACGACGGCAATTTTGCCCGTTCGGTGATCTATATCTGCGCCCATTCGGATGCCGGCGCCATGGGGTTCATCATCAACCGGCCGCAGCAGATCACCTTTACGGATATTCTGCTGCACCTGAAACTGGTGGACAGCAACGACGCCATCATGCTGCCCAACCGCACCCGCGAATTCCCGATCCAGTGCGGCGGCCCGGTGGAATCCGGCCGGGGCTTCGTGCTGCATTCGGATGATTATTTAAGCGAATCCAGCATTCCGGTCAGCGATGACATTTCGTTGACGGCAACGCTCGATATCGTCCGCGCCATTTCCAACGGCCGCGGTCCGCAAAGGGCGACCATGATGCTCGGTTATGCCGGCTGGGGTCCGGGCCAGCTGGAAAACGAGATCGCCAATAATGGCTGGCTGAATTGCCCCGCAGCGGAAGAGCTGATCTTCGACCGTGGGCTGGACAATAAATACGAGCGGGCGCTGGCGCTCATGGGCGTCGATGCGCGCATGCTTTCCACGGATGCCGGGCACGCCTGA	MTECGLLEAPVSFSTLMDKRERGFLDGQFLIAMPGLDDGNFARSVIYICAHSDAGAMGFIINRPQQITFTDILLHLKLVDSNDAIMLPNRTREFPIQCGGPVESGRGFVLHSDDYLSESSIPVSDDISLTATLDIVRAISNGRGPQRATMMLGYAGWGPGQLENEIANNGWLNCPAAEELIFDRGLDNKYERALALMGVDARMLSTDAGHA	PGPT0026120_198	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0026120-algH-K07735	NA	NA
BMS010_00121	192			hypothetical protein	ATGGGTAGCACATCTGACAAGATCGCCGGTAAAGCCAATGAAGTTGCTGGCAAGGTGAAGAAGAACGTCGGCGAAGCGACGGGCAATAACGAATTGCGCGCCAAGGGTGCTGCCCAGGAAGCCAAGGGCAAGGTACAGACCAGCGTTGGCAAGGCGAAAGACGCCGTCAAGGGCGCCGTCGACCGCATGTAA	MGSTSDKIAGKANEVAGKVKKNVGEATGNNELRAKGAAQEAKGKVQTSVGKAKDAVKGAVDRM				NA	NA	NA	NA	NA
BMS010_00122	1002		COG4307	putative protein	ATGGAGGCACTTTCGCCCGCGGGTGAGCCGAACTGGCAGATTGTCGCGGACCCGCAAAAACAGGTGCGGTTTTGTGCCAATGAAGTGAACGATATCTGCAACTGGTCAGTGCCGGCGCAAAGCGACAGCGCCTTTTGCCCTGCCTGCAGCCACAACCGTCTGGTGCCGGATATCGCAACCGAACAGGGCATCGCGCAATGGCGTCGCATCAGCCAGGCGCAGCGGCATCTGTTCTATTCGATCCTGCGGCTTGGCTTGCCGCATCCCAACCGCGATGCGGACCCTGCCGGTGGCCTCGTCTTCGACTTTCTGGTGGATGCGGTGGCGCCCGATGGTTCCGTCATTCCCGCCATGACCGGTCACGATGAGGGCCTCATCGCCATTCGCGCCGCAGAGGCTGATGATGCAACGCGCGAGCAGGTGCGCGCCAATATGAACGAGCCCTACCGCACCATGCTTGGCCATTTCCGCCATGAGGTAGGGCACTTCATCTGGAACAAGCTGGTGCGGGACGCAAACCGGCTGGAAGCCTGCCGCGCCGTCTTCGGCGATGAGCGCGAGGATTACGGCGCTGCCCTGCAACGCAATTACGATGGCGGACCACGCCCCGACTGGCAGGAAAGTTTCATCAGCTCCTATGCCTCGGTCCACCCCTGGGAGGATTTCGCCGAATGTTTCGCTCACTACCTGCATATCGTCGATACGCTGGAGACGGCGCGCGCTTTCGGTGTGGCGATCGATCCTGATGGGCACGAGGAAATGGCGGCGGAGGTGACTTTTGATCCCTATAAGGCGCGCAGCGCCGCGCAGCTGGTCAAGGCGTGGATTCCGCTCAGTGTCGCCATCAATTCCATCCAGCGCAGCATGGGGGAGGCTGACCTCTATCCCTTCGTGCTGACACCGCCGGTGGTGGTGAAGATGGAATTCATTCATGACCTGCTGCATGGGAGGGTGACGGCGGATGAGTCGCCGATGGCCGTGCAGAATGCGGTAGTGCAGTAA	MEALSPAGEPNWQIVADPQKQVRFCANEVNDICNWSVPAQSDSAFCPACSHNRLVPDIATEQGIAQWRRISQAQRHLFYSILRLGLPHPNRDADPAGGLVFDFLVDAVAPDGSVIPAMTGHDEGLIAIRAAEADDATREQVRANMNEPYRTMLGHFRHEVGHFIWNKLVRDANRLEACRAVFGDEREDYGAALQRNYDGGPRPDWQESFISSYASVHPWEDFAECFAHYLHIVDTLETARAFGVAIDPDGHEEMAAEVTFDPYKARSAAQLVKAWIPLSVAINSIQRSMGEADLYPFVLTPPVVVKMEFIHDLLHGRVTADESPMAVQNAVVQ				NA	NA	NA	NA	NA
BMS010_00123	2916			hypothetical protein	ATGACCTACAATCACACTGCGCCTTGCCTTGCGAAACGTCTGGCGGCAATCGCGCTGGCTGCGCCGTTTTTCCTGCTTTTCCTGCTTTTCTCTTCCTATTCCTACGCCTTTGAACCGGTGAAGATTTCCCGTGACGACACGGCGCTCGATCTCACCGCCACCACCGATATCTATGCCAATCAGGGCGAGGCTTTTCAGGTCTCGACCGCGCCCGGCCCCGACGGCATTCGCCGCCGTATCGAGGTGCGCGCCAGTTCCACCGACCATCAGGGCGACTGGGCGGTTTTCGCACTCGCCAACGTCTCCGAAGAGCAGCTGGAGCGCGTGATCGTCGCGCCGCATTTCCGCCTCGTGAATTCCAAGCTGTTCTGGCCCGATCTCGGCTCGCAGCGCATCATGGCGATCACGCCGAGTGAGGGCTTTGCGCTCGACCGGCAGCCGAGCCCGGATGCCGACGTGTTCCGCATCACCCTCAATCCCGGCTCCGTCATCACCTTCGTCGCCGAGCTTTCCACGCCGCAGCTGCCGCAGCTTTATCTGTGGGAGCCGGAGGCCTACAAGGACACGATCAACGCGTTTACGCTCTATCGCGGCATCGTGCTCGGCATTGCCGGCCTGCTCGCCGTGCTTCTGACCATCCTTTTCGTGGTCAAGGGAACCTCCGTTCTGCCGGCCTCGGCCGCGCTCGCATGGGCAGTTCTAGCCTATATCTGCGTTGATTTCGGCTTCCTCGAGAAGCTCATCACCGTCACCTCAAGCGATCAGCGAATATGGAGGGCGGGCGCGGAAGTGGCGCTCGCCTCCAGCTTCGTGGTCTTCCTGTTCACCTATCTCAATCTCAACCGATGGCATGCGCATCTCGGTTATGCGACCTTTGCCTGGGTGGTGGGTCTGGCGCTGCTGTTCGGCGTCGCCATCTACGATCCCTCGGTCGCCTCCGGCATTGCGCGCGTGTCCTTCGCGCTCACCGCAACGGCCGGCATCGCGCTTATCGTCTATCTCGGTTTCAACAAATATGACCGGGCGATTTTGCTGGTGCCTTCCTGGGCGTTGATCCTCGTCTGGCTGTTCGGCAGCTGGCTGACGGTGACCGGGCAACTGGACAACGACATCGTGCAGCCGGCGCTCGGCGGCGGGCTGGTGCTGATCGTTCTGCTGATCGGCTTTACCGTCATTCAGCACGCCTTTGCCGGCAGCGCCTATCAGCAGGGTCTCTTCTCCGATCTCGAACGCCAGTCGCTGGCCTTGACAGGCAGCGGCGATACGGTGTGGGACTGGGATGTGACGCGCGACCGCATCGTCACTACGCCCGACATTTCCAACCGGCTGGGGCTGGAACCCGGCGCCATGCACGGTGCGGCACGCAACTGGCTGCCGCGCCTGCACCCTGATGACCGCGACCGGTTCAAGGCGACGCTCGACGTGCTGCTCGACCATCGCAAGGGCCGCCTCAACCACGAATTCCGTATTCGCGCCGAAGACGGTCATTTCCACTGGCTGCAAATCCGCGCGCGCCCGGTTCTCGGCTCGAACGGCGAAATCATCCGCTGCGTTGGCACCATCACCGATATTACCGAGCAGAAGAACTCCGTCGAGCGGCTGCTTCAGGATGCGATGAACGACAATCTGACCGGGCTTCCGAACCGGCAGGTCTTCCTCGACCGCCTGCAATCGATCCTCAACCTGTCTTCCGACAGCGACGGCGTGCGCCCGACCGTGATGGCCATCGATATCGACCGTTACAAGCTGGTCAACGATACGCTCGGCATTGCCGCCGGTGACAATATTCTCATTGCGCTGACCCGTCGTCTGCGCCGTCTGTTGAAACCGCAGGATACGCTGGCGCGTCTTGGCGGCGATGAGTTCGGCCTGATCCTGACCTCGGAGCGCGATCCGCAGCGTGTGGCCGATTTCGCCGATGCGGTGAACAAGGCGATCATGGTGCCGATCAATTTCGCCAATCGCGAAATCATCCTCACCGCTTCCATCGGCCTCGTTTCGTGGATCGACCAGCAGGAAAGTGCGGCAGGACTCTTGAGCGATGCGGAACTCGCCATGTATCGCGCCAAGCGCGCTGGCGGAAACCGCGTCGAGCCCTTCCGCCCTGCCTTCCGCACGTCGGGCACCGACCGGCTGCAAATGGAAAGCGACCTTCGCCGCGCCATCGAGCGTAAGGAGCTGTCGCTGGCCTACCAGCCGATCGTCAAGCTCGACGATGGCGAGCTGGCCGGTTTCGAAGCGCTGATGCGGTGGGAGCACCCCAAGCGCGGCAATATTCCGCCGAGCGAGTTCATTCCGATTGCGGAGGCCTCCGGCCTGATCGAGCCGCTCGGCATGTTCGCGCTGGAACGGGCGGCGACCGATCTGATGGACTGGCAGCACGCCATCGAGAAGATGCCCATCTTCATTTCCGTCAATATTTCCAGTGCGCAACTGCTGAACAATGAATTGTACAACGACGTGCGCGGCATGCTGACCCGCACCCGTTGCAATCCGCAGCAGCTGAAGCTGGAACTGACGGAATCCGTCGTCATGGAAAACCCGGAGCAGGCGCGGCTGGTGCTTTCAAAGCTCAAGGAAACGGGCTTAAGCCTCGCCATGGACGATTTCGGCACCGGCTATTCGTCGCTCGCCTATCTCACCCGCTTCCCCTTCGACACGATCAAGCTCGACAAGGCGCTGGTTGCCAATACCAGCGACAAGCGCAACGTGCTCCTGCGCTCCGTCATCGCCATGGCGCGGGCGCTCGACATGCAGGTCGTGGCGGAAGGCATCGAGACGCCCGAGGATGCTGCCGAACTGGCGCGCATGAACTGCCATTTCGGCCAGAGCTTCCTGTTCGGCACTCCGGTTTCGGGCGATGCGGCGCTGAAGTTGCTGAGAGAGCGTTTCCAGCCGACGAAGCGGGCTTCGTAA	MTYNHTAPCLAKRLAAIALAAPFFLLFLLFSSYSYAFEPVKISRDDTALDLTATTDIYANQGEAFQVSTAPGPDGIRRRIEVRASSTDHQGDWAVFALANVSEEQLERVIVAPHFRLVNSKLFWPDLGSQRIMAITPSEGFALDRQPSPDADVFRITLNPGSVITFVAELSTPQLPQLYLWEPEAYKDTINAFTLYRGIVLGIAGLLAVLLTILFVVKGTSVLPASAALAWAVLAYICVDFGFLEKLITVTSSDQRIWRAGAEVALASSFVVFLFTYLNLNRWHAHLGYATFAWVVGLALLFGVAIYDPSVASGIARVSFALTATAGIALIVYLGFNKYDRAILLVPSWALILVWLFGSWLTVTGQLDNDIVQPALGGGLVLIVLLIGFTVIQHAFAGSAYQQGLFSDLERQSLALTGSGDTVWDWDVTRDRIVTTPDISNRLGLEPGAMHGAARNWLPRLHPDDRDRFKATLDVLLDHRKGRLNHEFRIRAEDGHFHWLQIRARPVLGSNGEIIRCVGTITDITEQKNSVERLLQDAMNDNLTGLPNRQVFLDRLQSILNLSSDSDGVRPTVMAIDIDRYKLVNDTLGIAAGDNILIALTRRLRRLLKPQDTLARLGGDEFGLILTSERDPQRVADFADAVNKAIMVPINFANREIILTASIGLVSWIDQQESAAGLLSDAELAMYRAKRAGGNRVEPFRPAFRTSGTDRLQMESDLRRAIERKELSLAYQPIVKLDDGELAGFEALMRWEHPKRGNIPPSEFIPIAEASGLIEPLGMFALERAATDLMDWQHAIEKMPIFISVNISSAQLLNNELYNDVRGMLTRTRCNPQQLKLELTESVVMENPEQARLVLSKLKETGLSLAMDDFGTGYSSLAYLTRFPFDTIKLDKALVANTSDKRNVLLRSVIAMARALDMQVVAEGIETPEDAAELARMNCHFGQSFLFGTPVSGDAALKLLRERFQPTKRAS				NA	NA	NA	NA	NA
BMS010_00124	600	rimJ	COG1670	[Ribosomal protein S5]-alanine N-acetyltransferase	ATGCTGCGTTTTCTTTCCCGACATAGCGACACGCCCGAACTGCGCAGCGCCAATCACCTTCTCAGACTGCCGCGCTACGGCGATTTCAAGCAATGGCATGTGCTGCGCTCCGAAAGCCGGCAGTTTCTTCAGCCCTGGGAGCCGACCTGGCGGCCGGACGAGCTGACGGAAGGCGCCTTCCGCATGCGCGTGGTGCGCAACGGCCAGGAATTTTCCTCCGGCACCGCCGTTTCCTTCCTGCTGTTCGAAAAGGAGACGCTGCTGGTCGGCGGCATCACCATCGGTTACATCCGCCGGGGTGCGGCGCAAAGCTGCATGATCGGATACTGGATCGGCGAGCGGCACGCCGCCCAAGGCCATATGTCTGCCGCATTAAAATTGGTAATACCATACATCTTTAACGGACTTCAGTTGCACCGTATCGAGGCAGCCTGTATTCCGGAAAACTTCAAAAGCATCCGGCTTCTCGAAAATGCCGGGTTCCAGCGGGAAGGCCTCCTGCGGGAATATCTGAAAATCAATGGCCAATGGCGGGATCATATGATGTTTTCCCTTCTTGCCGACAAGCAAAGCTCCGGCGGAACGAAGTACGATACATGA	MLRFLSRHSDTPELRSANHLLRLPRYGDFKQWHVLRSESRQFLQPWEPTWRPDELTEGAFRMRVVRNGQEFSSGTAVSFLLFEKETLLVGGITIGYIRRGAAQSCMIGYWIGERHAAQGHMSAALKLVIPYIFNGLQLHRIEAACIPENFKSIRLLENAGFQREGLLREYLKINGQWRDHMMFSLLADKQSSGGTKYDT				NA	NA	NA	NA	NA
BMS010_00125	1299		COG0612	putative zinc protease	ATGAGAGTAAATGTGACCCGGCTTTCGTCCGGGTTGACCGTTGTGACGGAAAAAATGCCGCATCTCGAAAGCGTCGCTCTTGGGGTGTGGATCAAATCCGGTTCCCGCAACGAGACGACTGCCGAACACGGCATCGCCCATCTTCTCGAACATATGGCTTTCAAGGGCACGGCGCGCCGCACCGCCCGGCAGATCGCCGAAGAAATCGAAAATGTCGGCGGCGAAGTCAACGCCGCGACATCGACGGAAACGACCTCCTACTACGCCCGCGTTCTGAAAGACCACGTCCCCCTCGCCGTCGATATCCTCGCCGACATCCTGACGGAATCGCTGTTCGACGAAGATGAGCTGGAGCGGGAGAAAAACGTCATCCTGCAGGAAATCGGCGCGGCGACCGATACGCCCGACGACGTGATCTTCGACAATTTCTCCGGTGTCGCCTATCGCGACCAGACCATCGGCCGCCCGATCCTCGGCACGCCGGAAACCGTGCAGTCCTTCACGACAGGCCAGATCAGGCATTATCTCGCCCGCAACTACACGACGGACCGCATTTTCGTCGTCGCGGCCGGCGCTGTCGATCACGAAAGCTTCGTGAAGCAGGTGGAAGAGCGTTTCGCCTCGCTGCCGCAGCTGCCCATTGCCACACCGGTTATGGAAAAAGCGATCTATACCGGTGGCGAAATCCGCGAAACCCGCGACCTGATGGATGCGCAGGTGCTCCTCGGCTTCGAGGGCAAGGCCTATCACGCCCGCGATTTCTATTGTTCGCAGATTCTCGCCAATATACTGGGCGGCGGCATGTCCTCCCGCCTGTTCCAGGAGGTGCGCGAATATCGCGGCCTCTGCTATTCCGTCTATGCATTCCACTGGGGCTTTTCCGATACCGGTATCTTCGGCGTGCATGCGGCCACCGGCGGCAACGACCTGCCGGAACTGGTGCCCGTTATTCTGGAGGAACTTCGCAAGTCCTCGCAAACCATCCATCAGGAAGAAATCGACCGCGCCCGGGCGCAAATCCGCGCGCAATTGCTGATGGGCCAGGAAAGCCCGGCCGCCCGCGCCGGCCAGATGGCCCGGCAGATGATGCTTTACGGCCGGCCCATCCCCAATGAGGAGATGATGGAGCGGCTTGGCGACATCACCCGCGCGCGCCTGACCGATCTTGCGGGACGACTGTTTTTCGATACAGTTCCGACATTGTCCGCAATTGGCCCGCTCGAACATCTGCCGCCTCTTTCCGACATCACTGCCGCGCTTTCCGCGCAGCAGCCCGCAAGGATAAAGGCGAACGGATAA	MRVNVTRLSSGLTVVTEKMPHLESVALGVWIKSGSRNETTAEHGIAHLLEHMAFKGTARRTARQIAEEIENVGGEVNAATSTETTSYYARVLKDHVPLAVDILADILTESLFDEDELEREKNVILQEIGAATDTPDDVIFDNFSGVAYRDQTIGRPILGTPETVQSFTTGQIRHYLARNYTTDRIFVVAAGAVDHESFVKQVEERFASLPQLPIATPVMEKAIYTGGEIRETRDLMDAQVLLGFEGKAYHARDFYCSQILANILGGGMSSRLFQEVREYRGLCYSVYAFHWGFSDTGIFGVHAATGGNDLPELVPVILEELRKSSQTIHQEEIDRARAQIRAQLLMGQESPAARAGQMARQMMLYGRPIPNEEMMERLGDITRARLTDLAGRLFFDTVPTLSAIGPLEHLPPLSDITAALSAQQPARIKANG				NA	NA	NA	NA	NA
BMS010_00126	1398	thrC_1	COG0498	Threonine synthase	GTGGAATATGTATCGACCAGGGGTGCGGCCCCTTCGCTTGGTTTTTGCGACGCGCTTCTGGCGGGCCTCGGCCGTGACGGCGGGCTTTACGTTCCGCGCAAATGGCCTTCCATGTCGAAGAAGGAAATCCGCAACCTGCGCGGCAAGTCCTATCAGGATGTCGCCTTCGAGGTTCTCTACCGTTTCACCGGCGGCGAGATTCCGGCAGACAAGTTCAAGGCGATGATTGACGACGCCTATGCGACCTTCCGGCATCCTGCCGTCGTGCCGCTGACGCAGACCGGTCCGAACACCTTCGTTCTCGAGCTTTTCCACGGCACCACGCTCGCCTTCAAGGATGTGGCGATGCAGCTTCTCGCCCGCTTGATGGACTATACGCTTTCTGAACGCGGCGAGCGCGCCACCATTGTCGGCGCAACCTCGGGCGATACCGGCGGCGCAGCCATCGACGCCTTTGCCGGGCGCGAGCGTACCGATATCTTCATCCTTTTCCCGAACGGCAAGGTCTCTCCGGTGCAGCAGCGCCAGATGACGACCTCGACCGCTTCCAACGTGCATGCGCTGGCGATCAACGGCAATTTCGACGATTGCCAGACGCTGGTGAAGGAGATGTTCAACGACGTGAAGTTCCGCGATGGCGTGAAGCTTTCCGGCGTCAACTCCATCAACTGGGCGCGCATCATGGCGCAGGTGGTCTATTATTTCACCGCGTCGCTTTCGCTCGGCGGCCCCGACCGGAAGATTTCCTTCACCGTCCCAACCGGCAATTTCGGCGATATCTTCGCCGGTTACGTCGCCAAGAAGATGGGCCTGCCGATCGACAAGCTCGTCATCGCCACCAATGACAACGACATTCTGGCGCGCACGCTGAAGACCGGCCGTTACGAGATGCGCGGCGTCAAGCCGACCACGTCGCCCTCCATGGACATCCAGATTTCATCCAACTTCGAGCGCCTGCTGTTCGAAGCCTATGGCCGTGATTCCGCTGCGGTAAAGGCATCGATGGACGGCCTCAAGCAATCCGGATCCTTTGAAATTCCGCCGCACGCGCTGAAATTCATCAAACGCGATTTCCGCGCCGGCCGCGCCACCGAAAAGCAGGTGGCGGCAACGATCCGCGACACGCTTGAGAAAACCGGCTACCTGATCGACCCGCATACGGCGACCGGCGTTTTCGTGGCGGAAAAGCATGAAAAGGCGTCAAGCCCGATGGTGGTTCTGTCGACCGCTCACCCGGCTAAATTCCCGGCCGCTGTAAAATCCGCTTGCGCAATCGAGCCTGCGCTTCCAGTATGGTTAGCTGACATTATGAACCGGGAGGAGCGTTTCGACATTCTGGATGCGGAGCTCAAAGCCGTGGAAACTTTCATCGGCAAACACGCACGCGCCGGCAAATAG	MEYVSTRGAAPSLGFCDALLAGLGRDGGLYVPRKWPSMSKKEIRNLRGKSYQDVAFEVLYRFTGGEIPADKFKAMIDDAYATFRHPAVVPLTQTGPNTFVLELFHGTTLAFKDVAMQLLARLMDYTLSERGERATIVGATSGDTGGAAIDAFAGRERTDIFILFPNGKVSPVQQRQMTTSTASNVHALAINGNFDDCQTLVKEMFNDVKFRDGVKLSGVNSINWARIMAQVVYYFTASLSLGGPDRKISFTVPTGNFGDIFAGYVAKKMGLPIDKLVIATNDNDILARTLKTGRYEMRGVKPTTSPSMDIQISSNFERLLFEAYGRDSAAVKASMDGLKQSGSFEIPPHALKFIKRDFRAGRATEKQVAATIRDTLEKTGYLIDPHTATGVFVAEKHEKASSPMVVLSTAHPAKFPAAVKSACAIEPALPVWLADIMNREERFDILDAELKAVETFIGKHARAGK	PGPT0009175_2295	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0009175-thrC-K01733	NA	NA
BMS010_00127	558			hypothetical protein	TTGCGTTTGTCCGCCGCGATGTCGCTTCTCGTCGTTGTTGCAGGATGCAATTCCTCCAACCCGTCGGACTCGCTTGCCGTCAACCCGCCGGCGGCGCAGGCCGCACCGACGGCTGCCGTGGTTCAGGCCAATTGCCCGGCCGTGACGGTTCTCGATGCCAACGCCGTTCATCGCGTCTACGCCGGTGGCGCCAAGGACGATCCGCAGAAACTCGCCTATCAGGTCTCGCTGTCCGATACGACGCGTTCGTGCACCGCCAATGAATCGACGCTCACCGTAAACGTGCTGGCCCAGGGCCGCCTCGTTCCCGGCCCGATGGCCAAGCCCGGCCGCGTGACCGTGCCGATCCGCGTGACGGTGAAGGACGGCGACGGCGAGATATACGGCGAAACCACCGCCTTTGCCGTCGATGTTCCGGCAGGCGGGGCCGGCACGCAGTTCATCTTCAACAACGACCACGTCGCCATCCCCAACGGACCGGGCGGCGCACCGAAGTCGGTCAGCGTCTTCATCGGCTTCGCCGAGCAGGGCGCAAAGGCCAAGACCAAGCGCCGGTGA	MRLSAAMSLLVVVAGCNSSNPSDSLAVNPPAAQAAPTAAVVQANCPAVTVLDANAVHRVYAGGAKDDPQKLAYQVSLSDTTRSCTANESTLTVNVLAQGRLVPGPMAKPGRVTVPIRVTVKDGDGEIYGETTAFAVDVPAGGAGTQFIFNNDHVAIPNGPGGAPKSVSVFIGFAEQGAKAKTKRR				NA	NA	NA	NA	NA
BMS010_00128	690	yieH_1	COG0637	6-phosphogluconate phosphatase	ATGAGCGGCTTCGACCTCATTATTTTCGACTGTGACGGCGTTCTGGTCGATTCCGAAATCATCGCGGCGCAGGTGGAATCCCGCCTCTTGACGGAAGCCGGATATCCGATCTCCGTCGAGGAAATGGGCGAACGTTTCGCCGGCATGACCTGGAAGAACATTCTTCTGCAGGTGGAAAGCGAAGCCAGCATTCCGCTCTCCGCCTCGCTGCTCGACAAGTCGGAAAAGCTGCTGGACATGCGGCTGGAACGCGACGTGAAGATCATCGAGGGCGTGAAATTCGCCCTGTCGCGCCTGACCACGCCGCGTTGCATCTGCTCGAACTCATCGAGCCACCGCCTCGACATGATGCTGACGAAGGTGGGCCTGAAGCCCTATTTCGCGCCGCATATCTATTCCGCCAAGGACCTTGGAGCCGACCGCGTGAAGCCGAAGCCCGACATCTTCCTGCATGGCGCGGCGCAATTCGGCGTTTCCCCCGACCGCGTGGTCGTGGTCGAGGATTCCGTGCACGGCATCCATGGCGCAAGAGCCGCCGGCATGCGCGTCATCGGCTTCACCGGCGCATCCCACACCTATCCGAGCCACGCCGACCGGCTGACCGACGCGGGCGCCGAAACGGTGATCTCGCGCATGCAGGACCTGCCGGCCGTGATTGCAGCGATGGCGGAGTGGGAAGGCGCTTTTTGA	MSGFDLIIFDCDGVLVDSEIIAAQVESRLLTEAGYPISVEEMGERFAGMTWKNILLQVESEASIPLSASLLDKSEKLLDMRLERDVKIIEGVKFALSRLTTPRCICSNSSSHRLDMMLTKVGLKPYFAPHIYSAKDLGADRVKPKPDIFLHGAAQFGVSPDRVVVVEDSVHGIHGARAAGMRVIGFTGASHTYPSHADRLTDAGAETVISRMQDLPAVIAAMAEWEGAF	PGPT0001730_267	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0001730-gph-K01091	NA	NA
BMS010_00129	681	mcbR_1	COG1802	HTH-type transcriptional regulator McbR	ATGCCCAAGACAGTGAAAAACACGCCCGAAGACACCATTGCCGCGCGCATCAGCCGCACGCTTGCCGAGCGCATCGTTCGCGGTGAGCTGTCGCCGGGCGAAAGGTTGCGGCAGGATCACATCGCCGCCGAATTCGGCGCGTCGCATGTGCCGGTGCGCGAGGCATTCCGCCGGCTGGAAGCGCAGGGGCTTGCCGCCAGCATTCCGCGCCGGGGTGTCCGGGTGGCGGATTTCGGCCTTGACGATGTGCGCGAGGTGGCGGAAATGCGCGCCGCCCTTGAGGTTCTGGCGCTACGCCACGCCATTCCGAACATGACGCCCGCCATTCTCGACCAGGCGGAGGCGGCAACGCTCGAAGGCGACAGCGCCGTCGATGTGCAGCATTGGGAGGAGGCCAACCGCCGCTTCCATCGTCTCATCACCGCGCCCTGCAACATGCCGCGCCTGATGGAGGCGATCGACGGTCTTCATGCGGCGAGCGCCCGCTTCCTGTTTTCCGCCTGGCGCGCCGGCTGGGAGCGCCGCACCGATACCGATCACCGCGCGATCATCGATGCGCTGCGCGGCGGCCGCGCCGAAGAGGCGGTGCGTATCCTCGACGGACATGTGCAATGGATTGGCCGCAAGGCGATCCGCACCTCGTCCGGCTCGGTGCGCGACGCCTTCGCCATCGTTGGATAG	MPKTVKNTPEDTIAARISRTLAERIVRGELSPGERLRQDHIAAEFGASHVPVREAFRRLEAQGLAASIPRRGVRVADFGLDDVREVAEMRAALEVLALRHAIPNMTPAILDQAEAATLEGDSAVDVQHWEEANRRFHRLITAPCNMPRLMEAIDGLHAASARFLFSAWRAGWERRTDTDHRAIIDALRGGRAEEAVRILDGHVQWIGRKAIRTSSGSVRDAFAIVG				NA	NA	NA	NA	NA
BMS010_00130	498			hypothetical protein	GTGACCGTCCGCCTGCGGCCCCACCATCTTCTCTGTATGCTCACCTATGTGAGCAAGGGATATACGTCCGGCTTCGTCGAGAATTACGACCGTGTCGCCGCCCGCCTGAATGCCGGCGAGGAGGATATCGAGCTGGTGGATGGTCCGGACGATATTTGCGAAGGCCTGTTGTGTGAAAGCCATGCCCACTGTTTCAACGAAGGCGTGGTGCAGCGGGACGAGACGGCCCGCCTTTCGGTGTCAGCGCTTTTGGGCGAGACACTGACCGCCGGCAAGAAGCTGCGGGCGGCGCCTGACTTTCTCGCGAAGATGCGTCTGGCTTTCGCCGCAGGCGAGATCAGGCCGGCCTGTCGAGGCTGTCAGTGGATAAGGCTGTGCGACCGTATCGCGGCGTCAGGTTTCGCAGGCGTGAAAATCGGCGAACGTCCGGAGCTTTCGGCCGGCCGGAGGCCGAGACCTACTCCGGCACATCCGTCTCGGTTCTCTCGGCGGCCTTGA	MTVRLRPHHLLCMLTYVSKGYTSGFVENYDRVAARLNAGEEDIELVDGPDDICEGLLCESHAHCFNEGVVQRDETARLSVSALLGETLTAGKKLRAAPDFLAKMRLAFAAGEIRPACRGCQWIRLCDRIAASGFAGVKIGERPELSAGRRPRPTPAHPSRFSRRP	PGPT0022050_2	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_TRANSPORT,PGPT0022050-bioY-K03523	NA	NA
BMS010_00131	1101			hypothetical protein	ATGGGGTCCGTGATGAAAATGGCTTCTTTTTCCATGAATGTCGTCTGCGCCGCACTTTTCGCAACGGCGCTACCGGCGCCATCGCAGGCGCAGCAACCGGCCCCGCAATATAACGTCGTCACCGATGCGGTCCTGTTCGATGGCGGCCCCTCGCTCGGCAACAGCGACAGGGTGCGGTGGGATTTCTACAAGGCAGACCGTTCCGGCGGGCGGACCGACGACAATGCCGGCGGTTCCTATGACGCCACCTTCGAGGCGAAACTGCCGGCGGGCAAATATGTCGGGGTGGCGGCGCTGGGCAATGTGACCCGCGAAGTGTCGTTCGAGGTGAAGGACGGAAGCATCGCGAGGCCGAAGGTGAATTTCGACGCTGCGGAATTGACCGTCGTGCCGAAACGCAGCGCCGGCGGTGATGTGGAAACGCAGGCAAAGACAGAAATCACCAAGGACGATTTCAAGGACAGCGTCTACGGTCAGAATACCGTCTTCGTGCCGGCCGGAGACGTCGTCCTCACCGGCAGCATCGGCCCGGCGCGGGCTGAGGAGACGCTTGCCATCAAGGCGGGCGAGAAGATCAGCCACGAGCTGGTCATTCCAAGCGGCGTGATAATCGCCAAGGCCGTTTATGCGGAAGGCGGCCGGGCGGTGGAAACGGACGATATCCGCTTCGAAGCGATGTCTGCCAAGGAAACGCTGGACGGCACGCGTGAGACCATCAACGGCATTTACGGCACCGGCAAGATCATGGAAATGCCCGCTGGTGACTTCGTCATGCGCGCGCGTCTGGGCAAGGTGACGGTGGAACAACCATTTACCGTGACTGCCGGAAAACGAACCGAAATCACCCTCGATCTCGATGCGGGCGTTCTCGCCATCAAGGCGCCCGGTGCAGAACGGATCGATATCGTTGAAACCACCAGGGATCTTCAGGGCACGCAGAAGGAGATTTCCGGCCGTTACGGCACGCAGCATCAGGAAACCCTGCATCCCGGCGAATATTCGGTGAAGGTGAGCTACGACAAGAAATCCGGCCGCGAGCCGAAGGAGATCAAGGCGACGGTCAAGGCCGCCGAGAGAACCGAGACGGATGTGCCGGAGTAG	MGSVMKMASFSMNVVCAALFATALPAPSQAQQPAPQYNVVTDAVLFDGGPSLGNSDRVRWDFYKADRSGGRTDDNAGGSYDATFEAKLPAGKYVGVAALGNVTREVSFEVKDGSIARPKVNFDAAELTVVPKRSAGGDVETQAKTEITKDDFKDSVYGQNTVFVPAGDVVLTGSIGPARAEETLAIKAGEKISHELVIPSGVIIAKAVYAEGGRAVETDDIRFEAMSAKETLDGTRETINGIYGTGKIMEMPAGDFVMRARLGKVTVEQPFTVTAGKRTEITLDLDAGVLAIKAPGAERIDIVETTRDLQGTQKEISGRYGTQHQETLHPGEYSVKVSYDKKSGREPKEIKATVKAAERTETDVPE	PGPT0014015_2154	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0014015-yfbK-K07114	NA	NA
BMS010_00132	1146			hypothetical protein	ATGGCAGCAGTTTTTCCGCTGGCCGATTTTCGGCGTGCCGGTTTTGATCGTGCGGGCGAGAGCGACGCCTGGAAAGACAGCATCATCAAAGGTGATTGTGTCGCTGCCTTGGATGCCCTCCCGAGCCAGTCGGTGGATGCGATTTTCGCCGATCCACCCTATAACCTTCAGCTTGGCGGCACCCTGCACCGTCCCGATCAGTCGCTGGTCGATGCCGTCGATGACGAGTGGGACCAGTTCGCCTCCTTCGAGGCCTATGACGCCTTCACCCGCGCCTGGCTACTCGCCTGCCGCCGCGTCCTGAAGCCGAACGGCACCATCTGGGTCATCGGCTCCTACCACAATATCTTCCGCGTCGGCTCCATGCTCCAGAACCTCGATTTCTGGATTCTGAACGACATCGTCTGGCGCAAGACCAACCCCATGCCGAACTTCAAGGGCCGCCGGTTCCAGAACGCGCATGAGACGATGATCTGGGCCAGCCGCGATCCGAAAGCCAAGAACTACACCTTCAACTACGATGCGCTGAAGGCCTCCAACGACGATGTGCAGATGCGCTCCGACTGGCTGTTCCCGATCTGCGGCGGCAACGAGCGGCTGAAGGGTGACGACGGCAAGAAGGTGCATCCGACCCAGAAGCCGGAAGCGCTGCTGGCGCGCATCATCATGGCCTCCACCAAGCCGGGCGATGTCGTGCTCGACCCATTCTTCGGCTCCGGCACCACGGGTGCCGTTGCAAAACGTCTCGGCCGCCACTTCGTCGGTATCGAGCGCGAACAGGATTACATCGATGCGGCATCGGCCCGCATCGCCGCCGTCGAGCCGCTCGGCAAGGCGGAACTGACCGTGATGACCGGCAAGAAGGCCGAACCGCGTGTTGCCTTCAACACGCTGGTGGAAAGCGGCCTCGTCCGCCCGGGCCAGGTGCTGACGGATGCACGACGCCGTTATAGCGCCATTATTCGTGCCGATGGTACTCTGGCATCCGCCGGGACCGCCGGCTCCATTCACCGCCTTGGCGCGAAGGTACAGGGTCTCGACGCATGCAACGGATGGACGTTCTGGCATTTCGAAGACGGCGACACGCTGAAGCCTATCGACGATCTGAGAGCGATCATCCGCAGTGAACTGGCAAAGGCCGAATAG	MAAVFPLADFRRAGFDRAGESDAWKDSIIKGDCVAALDALPSQSVDAIFADPPYNLQLGGTLHRPDQSLVDAVDDEWDQFASFEAYDAFTRAWLLACRRVLKPNGTIWVIGSYHNIFRVGSMLQNLDFWILNDIVWRKTNPMPNFKGRRFQNAHETMIWASRDPKAKNYTFNYDALKASNDDVQMRSDWLFPICGGNERLKGDDGKKVHPTQKPEALLARIIMASTKPGDVVLDPFFGSGTTGAVAKRLGRHFVGIEREQDYIDAASARIAAVEPLGKAELTVMTGKKAEPRVAFNTLVESGLVRPGQVLTDARRRYSAIIRADGTLASAGTAGSIHRLGAKVQGLDACNGWTFWHFEDGDTLKPIDDLRAIIRSELAKAE	PGPT0027195_98	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_R-M_SYSTEM,PGPT0027195-ccrM-K13581	NA	NA
BMS010_00133	252	parD4	COG3609	Antitoxin ParD4	ATGGCGACCATGAACATATCGCTGCCTGCACCCATGAAAGAATGGGTCGAGGCCCAATCCAGGACGGGCCGTTACTCCAATGCGAGTGACTACGTGCGAGACCTGATCCGGAAGGACCAGGAACGAGGCGAAAAAATCGCGGCGATGCAGCGTTTTGTGGATGAGGGATTGCAGAGTGGCGTCGGGCATCGCTCGCAGGATGCCCTGTTCGCCGAGGCTGAAGCCCGCTCCATGAAACGCAAAATCGGTTGA	MATMNISLPAPMKEWVEAQSRTGRYSNASDYVRDLIRKDQERGEKIAAMQRFVDEGLQSGVGHRSQDALFAEAEARSMKRKIG	PGPT0027540_1210	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-ParE-ParD|paaAR_TOXIN-ANTITOXIN_SYSTEM,PGPT0027540-antitoxin_parD1_3_4-K07746	NA	NA
BMS010_00134	291	parE4	COG3668	Toxin ParE4	ATGGGCTTTCGCCTGTCTCTGCTCGCGGAAGAGGACGTCATTCGCATAGTCGAAGAAGGCATAGTCTTATTCGGGCTGGCGCAGGCGCAAAAATATCACCGGGAACTCTATGAGATATTTGAGCTGATATCTCTCAACCCACGAATGGCACGAGAGCGGCATGAGTTGTTACCGCCGGTGCGTATCCATCGGTTCAGGGCGCATCTGGTTGTTTATGCCGTGGGGACTGACGATGACGTCCTGATCGTCCGCGTCCGCCACGCACATGAAGACTGGGCCAACGAGTCGTAG	MGFRLSLLAEEDVIRIVEEGIVLFGLAQAQKYHRELYEIFELISLNPRMARERHELLPPVRIHRFRAHLVVYAVGTDDDVLIVRVRHAHEDWANES	PGPT0027550_1930	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-ParE-ParD|paaAR_TOXIN-ANTITOXIN_SYSTEM,PGPT0027550-toxin_parE1_3_4-K19092	NA	NA
BMS010_00135	612			hypothetical protein	ATGACCAAGATTGAGCATATCGTATTCGACATCGGCAAGGTGCTGATCCACTACGATCCGCATATTCCCTATAGCCGCCTCATCCCCGATGCCGACGAGCGCAAATGGTTCTTCGAGAATGTCTGCACCCATGACTGGAACCTCGAGCAGGATCGCGGCCGCCGCTGGGAGGATGCCGAAGCGCTGCTGGTGGAGCAGTTTCCGGAGCGGGAAGAGCACATCCGCTCCTTCCGCAAGTTCTGGCACGAGATGGTCTCGCATTCCTATGACGACAGCGTCGCGATCATGGTCGCCCTGATCGACAGCGGCTACGACGTGACAATGCTGACCAACTTCGCCTCCGACACCTTCCGCGAGGCGCAGAAAATGTTCCCCTTCCTCACTTTGCCGCGCGGCGTCACCGTTTCCGGCGATGTGAAGCTGTTGAAGCCCGATGTGGCGATCTACGATCTGCACGCCAGGGAATTCGGCCTCAATCCGGCCGCCAGCCTCTTCATCGACGATACGCTCGTGAATGTCGAAGGCGCGAAGGAAGCAGGCTGGCAGGCCCTGCACTTCACCGGCGCGGAAAAGCTGCGGCAGGATTTGCGGGCTTATGGGGTGGAAGCGTAA	MTKIEHIVFDIGKVLIHYDPHIPYSRLIPDADERKWFFENVCTHDWNLEQDRGRRWEDAEALLVEQFPEREEHIRSFRKFWHEMVSHSYDDSVAIMVALIDSGYDVTMLTNFASDTFREAQKMFPFLTLPRGVTVSGDVKLLKPDVAIYDLHAREFGLNPAASLFIDDTLVNVEGAKEAGWQALHFTGAEKLRQDLRAYGVEA	PGPT0006885_3187	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROETHANE_DEGRADATION,PGPT0006885-dehI-K01560	NA	NA
BMS010_00136	1104	mutY_1	COG1194	Adenine DNA glycosylase	ATGCTTCAAAAAACCGCCTCGTCGTCTTATGCGCAGATGCTGCTCGCATGGTACGACCGGCACCATCGCGAACTGCCATGGCGCACGTCTCCCGCCATGGCGGCACGGGGAAAACGCGCCGATCCCTATCACGTCTGGCTATCGGAGGTCATGTTGCAGCAGACGACGGTGCAGGCGGTTAAACCCTATTTCCTCAAGTTTCTCACGGCCTGGCCAAGCGTCAGCGATCTGGCCGCGGCGCCGGTCGAGGATGTCATGGCGGCCTGGGCAGGGCTCGGTTATTACGCACGTGCTCGCAACCTTAAAAAATGCGCCGAAGCCGTGGCGCGCGAGCATCGCGGCATCTTTCCGGACAGCGAAGAGGGTCTGAAGCAACTGCCCGGCATCGGCGATTATACCGCCGCCGCCGTGGCGGCCATCGCGTTCAACCGGCAGGCGGCGGTGATGGACGGCAATGTGGAGCGCGTCATCTCCCGCCTCTTTTCGATAGACGCTCCCCTGCCCGGCTCAAAGCCCGCCATGAAAGCGAAGGTGGCCGAACTTACCCCTTCCGACCGGCCCGGCGATTTCGCCCAGGCGATGATGGACCTCGGCGCAACGATCTGCACGCCGAAACGGCCCGCCTGCGCGCTCTGTCCGTTCAACGGCCACTGTCTTGCGCTTGCCCATGACGAGCCGGAGCGTTTTCCGGTCAAGGCCGCGAAGAAGGCAAAGCCGGTGCGGCTCGGGGCTGCCTTCGTGGCGGTGAATGAAAGCGGTGAAATCCTGCTCCGTCGGCGCATCGAAAGCGGGCTTCTCGGCGGCATGACCGAGGTGCCGACAACGGCATGGACCGCCCGCGTGGACGGCGGCACGGAGGCGAGCCATGCGCCCTTTGCCGCCGGCTGGCAGGCGGCGGGCGTTATCGTGCACGTCTTCACCCATTTCGAACTGCGGCTCACCGTCTATCGCGCGCAGGTGCCGGACGGACTTCAAGCCGGTCCGGATGACGGATGGTGGGAGCCGGTTACAAATCTTGAGGCGCAGGCGCTGCCAACGGTGATGAAAAAAGTCATCGCGCAGGCTATTCCATCCGCATTCGATGAAAGCAGGAAATTTCGATGA	MLQKTASSSYAQMLLAWYDRHHRELPWRTSPAMAARGKRADPYHVWLSEVMLQQTTVQAVKPYFLKFLTAWPSVSDLAAAPVEDVMAAWAGLGYYARARNLKKCAEAVAREHRGIFPDSEEGLKQLPGIGDYTAAAVAAIAFNRQAAVMDGNVERVISRLFSIDAPLPGSKPAMKAKVAELTPSDRPGDFAQAMMDLGATICTPKRPACALCPFNGHCLALAHDEPERFPVKAAKKAKPVRLGAAFVAVNESGEILLRRRIESGLLGGMTEVPTTAWTARVDGGTEASHAPFAAGWQAAGVIVHVFTHFELRLTVYRAQVPDGLQAGPDDGWWEPVTNLEAQALPTVMKKVIAQAIPSAFDESRKFR				NA	NA	NA	NA	NA
BMS010_00137	531			hypothetical protein	ATGCGTTATCCCCAGAGTGATGCCGGCAAGAAGAAGGGCGTCGTGCAGATCGCCGAAGTCGCCAATGGCATCATGGACCCCGTGCTGTCGAAACGGGCCGGCATCAACACGGCGCTGCTCGGCTCCTGGGACGAGATCGCCGGCGAGGACTTCGCCGATTGCACCCGGCCGGAAAAGATCACCTGGCCGCGCCGCGACGAGGGGCCGGATCGCGGCGGTTATCAGCCGGGCGTGCTGACGATTGCCTGCGAAGGCGCGCGCGCCCTGTTTCTTACCCATGCGCAGGGCGAACTGATTGCCCGCATCAACGGCTTTTTCGGCTTTCCGGCGGTGCGCCAGATCAGGATCGTGCAGAAGCCGGTCTCGCAAACCATTACCCGCAGGCGCAAACCGCAGCCCCTGCGCGGCGATGCGGCAAAACGTCTCGATGACATGATGGACGGCATTGAGAGCGAGGCGCTACGCAAGGCGGTGGAGAGGCTTGGAACGGCGGTTTTGCAGAAGAAGCCACCGCAACGAACTTTGAAATAG	MRYPQSDAGKKKGVVQIAEVANGIMDPVLSKRAGINTALLGSWDEIAGEDFADCTRPEKITWPRRDEGPDRGGYQPGVLTIACEGARALFLTHAQGELIARINGFFGFPAVRQIRIVQKPVSQTITRRRKPQPLRGDAAKRLDDMMDGIESEALRKAVERLGTAVLQKKPPQRTLK				NA	NA	NA	NA	NA
BMS010_00138	459			hypothetical protein	ATGGAAATCAAGGAAACACCAGACATGTGGGTTGTGCGTTTTGGTCAACGCCTGCGGATACCCGATGTCAGACAGGCTGCTGCCGAATATTCGGCAATCATAGACAGGCAGCTCGCCGAGCACCGCCTGGAAGCCGATGGGCCTTGGATTTTCATTTCCCACAACCTGCCAAGAGATAGCAAATCCCTGTTTGACTGGGAGATATGCCGCCCGATAAGAAAACCCGTGCAGTGGGATGAGACAATCGAGCTTCATCATCTCGAACCAATCATCGTTGCAAGCAGGGTGCATCAAGGATCACTGAGATCGTTATTCACCAAAGGATATGCCCCGCTGGTTGCGGAGATAGAAATGTCTCGCCACCATTTCTCGGGTGAGAGCCGTGAAATTTATCACGGCTGGAACGGGCACGGCTCGTCTTATCACAATATCGAAATCCAGTTTGGTCTATCGCGTTGA	MEIKETPDMWVVRFGQRLRIPDVRQAAAEYSAIIDRQLAEHRLEADGPWIFISHNLPRDSKSLFDWEICRPIRKPVQWDETIELHHLEPIIVASRVHQGSLRSLFTKGYAPLVAEIEMSRHHFSGESREIYHGWNGHGSSYHNIEIQFGLSR				NA	NA	NA	NA	NA
BMS010_00139	681			hypothetical protein	ATGCCGATTTCCGAATTGAATATTACCAGACGCAGCCTCCTCGGCGGCGTTGCTCTTGCTGCCGTTGCCACGGCCCTGCCGTTCGCCTTCACGCCCGGTATCGCCGAGGCGCAGGAACTGCCTGAATCCACCGGCGATGTGGATATGGCTGCGGTGATGAAGCCCGGCCCGTTGCCGGAAGCAGCGCTCGGCGATGCCAACGCACCCGTCAAGATCGTCGAATACATGTCGATGACCTGCCCGCACTGCGCCAACTTCCACAACAAGACCTTCGAAGAGATCAAGAAGAAGTACATCGATACCGGCAAGGTCTATTTCGTGCTGCGCGAATTCCCGTTCGATCCGCGCGCCGCTGCCGCCTTCATGCTGGCGCGCTGCGCACCGGAAGGTCAGTATTTCCCCTTCGTTTCCATGCTGTTCAAGCAGCAGCAGAGCTGGGCCGTCGCGCAGGATGCGCGCGCCGCCCTGCTGCAAATGTCGAAAATGGCCGGTTTCTCACAGGAGTCTTTCGAGGCCTGCTTGACGAACCAGAAACTTCTGGATGATGTGAACGCAACGATGCAACGCGGTGCGACGGAATTCGGCATCAACTCCACGCCGACTTTCATCATTAACGGCAAGAAATACGCAGGAGACATGTCGGTTGAAACCATGTCGGCTGTCATCGACAAGCTGCTCTGA	MPISELNITRRSLLGGVALAAVATALPFAFTPGIAEAQELPESTGDVDMAAVMKPGPLPEAALGDANAPVKIVEYMSMTCPHCANFHNKTFEEIKKKYIDTGKVYFVLREFPFDPRAAAAFMLARCAPEGQYFPFVSMLFKQQQSWAVAQDARAALLQMSKMAGFSQESFEACLTNQKLLDDVNATMQRGATEFGINSTPTFIINGKKYAGDMSVETMSAVIDKLL				NA	NA	NA	NA	NA
BMS010_00140	3468	smc_1		Chromosome partition protein Smc	ATGAAGTTCAACAAGCTCCGCCTCGTCGGTTTCAAGTCTTTCGTTGAGCCTTCCGAATTCATCATCGAGCCGGGGCTTACCGGCGTTGTCGGTCCGAACGGTTGTGGCAAGTCCAATCTGGTCGAAGCGCTGCGCTGGGTGATGGGCGAGAATTCTTACAAGAACATGCGCGCCTCCGGCATGGATGACGTCATCTTCTCCGGGTCCGGCAATCGTCCCGCCCGTAACACCGCCGAAGTCGGCCTCTATCTCGATAATTCTGACCGCACCGCGCCTGCCGCCTTCAACGATGCCGATGAAATTCAGGTAACGCGCCGCATCGAGCGCGAAAACGGCTCCGTCTACCGTATCAACGGCAAGGAAGCCCGCGCCAAGGATGTGCAGCTTCTCTTCGCGGATGCCTCCACCGGCGCGCGCTCTCCCTCCATGGTGGGGCAGGGCCGCATCGGCGAACTCATCAACGCCAAGCCGCAGGCCCGCCGCCAGCTGCTGGAAGAGGCGGCCGGCATTTCCGGCCTGCATTCCCGCCGCCACGAAGCCGAGCTTCGCCTTCGCGCTGCCGAGACCAATCTGGAGCGGCTGGAAGACGTCACCGCCCAGCTGGAAAGCCAGATCGAAAGCCTGAAACGCCAGGCGCGGCAGGCCAACCGCTTCAAGATGCTGTCAGCCGATATTCGCGCCCGCGAAGCGACCCTTTTGCACATCCGCTGGGTGGAGGCGAAGGAAGCCGAAGGCGAGGCGGAAAGTGCGCTCAATCAGGCGACCAATATCGTTGCCGAAAAGGCGCAGGCGCAGATGGAGGCGGCAAAGCAGCAGGGCATTGCCAGCCTGAAACTGCCGGAATTGCGCGAGGACGAGGCGAAAGTCGCCGCCGCCCTGCAACGCCTGCAGATTGCCCGCACCCAGCTGGATGACGAGGCCAACCGCCTGCTGCGCCGCCGCGATGAGTTGGCCCGCCGCCTGTCGCAGCTTGGCGAGGATATTATCCGCGAGGAACGGCTGGTCTCCGATAATGCCCAGATACTCGCGCGGCTCGATGAGGAAGAGGCCGAACTCCTGGAAATCCTCTCCGATTCCGGCCGCCATGCGGAAGAGATGCGCGAAGCCTTTGAAGCCGCCGCTGTCAAACTGGCGGAAAGCGAAGCCATCTTCACCGCGATTACCGCCGAGCGGGCAGAGGCGTCCGCCGCGCGCCAGCAACTGGAGCGGGCGATCCGCGATCTTTCGGACCGCAAGCTGAGGCTGGAACGGCAATCGCAGGAGGCATCCGCCGAGATCGATGCCATCGACGAAAAGCTCTCCGGTCTTCCCGATCCTTCCGAACGGCGAGAAGCGGTCGAGGCGGCGGAGATCGCGGTCGAGGATGCCCTGATCGTGGTGGAGGAAGCCGAAGCCGCCGTCGCGGAGGCGCGTTCCGCCGAAGCGCTGGCGCGCGCGCCGCTGGAAACGGCGCGGAACCGGCTGAACGCGCTGGACACGGAAGCGCGCACCATCACCAAGATCCTCACCTCCAGCGCCGCCGCCAATGGCAGCTTTACGCCGGTGGCGGAAGAAATGACGGTGGAGCGCGGTTTCGAGGCGGCATTGGGTGCCGCCCTCGGCGACGATCTCGAAAGCCCGCTCGATCCCGCAGCACCCGCCTATTGGGCCGGAAATGGCGATGGCGCGGGTGATCCCGCCTTGCCGCAGGGTGCGAAACCGCTTCTGGATTATGTGCAGGCGCCGGAAGCCCTGCGCCGCGCTTTGGCGCAGATCGGCGTCGTCGCCAACACGGCGGAAGCCCTGCGTCTGCTGCCATCGCTTAAGGCCGGCCAGCGGCTGGTGACGCGTGAAGGCGCGCTGCTGCGCTGGGACGGTCACATTGCCAGTGCCGATGCGCCGGGTGCCGCAGCACTTCGCCTGTCGCAGAAGAACCGCCTCGCTGAAATCGAGACAGAACTGGATGAGGCCCGCTCCATTCTGGACGAGGCCGAAGACCAGCTTGCCGCGAAAACCGAAGATATCCGCAGCAGCGAATTGCGGCTCTCGGAAGTGCGCGACAGAAGCCGTCTTGCGACCCGCCATCTTGCCGAGGCGCGCGAGGCGCTGACTGCGGCCGAACGGGCCTCTGGCGATCTGCTGCGTCGTCGCGATATCGTGTCCGAAGCACTGAACCAGATCGGCGCGCAGATCGATGAGATCGCCGTTCAGGAAGAAAACGCCCGTATCGAAATGGAAGACGCGCCCGATCTTTCCGTGCTGGATCTGCGACTGCGCGAAAGCCAGCTTGAAGTCGCGACCGACCGCGGCCTTCTGGCGGAAGCCCGCGCCCGCCATGAAGGCGTGAGCCGTGAGGCGGAAAGTCGCCAGCGCAGAATTCAGGCGATAGGGCAGGAGCGCTCCACCTGGCAATCGCGTGCAGCAAGTGCGGCCGATCACATCGCCACGCTGCGCGAACGCGAGGAAGAGGCGCGCGAGGAGATCGTCGAGCTGGACATAGCGCCGGAGGAATTCGACGAGAAGCGCCGCAACCTCCTCAACGAATTGCAGAAGACCGAAGACGCCCGCCGCGAGGCCGCCGACCGGCTGGCCGAGGCGGAAAACCTGCAGCGCGCCGCCGACCGGGTGGCGGCAACGGCGCTTTCGGGACTGGCCGAAGCCCGCGAAAAACGCGGCCGCGCCGAAGAACGGCTGGTCTCCGCCCGCGAAAAGCGGCAGGAAACCGAACACCGCATCCGCGAAACGCTGAATACCGAGCCGCACATGGCGTTCCGCCTGACCGGCCTCGGTCCCGACCAGCCGAAGCCGGACATTCGCGATGTCGAGCGTGATCTCGACCGGCTGAAGATCGAGCGCGAAAGGCTGGGCGCGGTCAATCTGCGCGCCGAGGAAGAGCAGGCCGAGCTTTCCGCCAAGCTCGAGGCGCTGATCAAGGAGCGCGACGACATCATCGACGCCGTGCGCAAGCTGCGTGCCGGCATCCAGAACCTCAACCGCGAAGGCCGCGAACGGCTGATCGCTGCGTTCGATGTGGTCAATTCGCAGTTCCAGCGGCTGTTCACCCATCTCTTTGGCGGCGGCACGGCGGAATTGCAGCTGATCGAATCCGACGATCCGCTGGAAGCGGGCCTGGAAATCCTCGCCCGTCCGCCGGGCAAGAAACCGCAAACCATGACGCTGCTTTCCGGCGGCGAACAGGCGCTGACGGCCATGGCGCTGATCTTCGCGGTCTTCCTCACCAATCCCGCGCCCATCTGCGTGCTGGACGAAGTGGACGCGCCGCTCGACGACCACAATGTCGAGCGTTACTGCAACCTGATGGATGAGATGGTGGCCTCCACGGAGACCCGCTTCGTCATCATCACCCACAATCCCATCACCATGGCGCGCATGAACCGCCTCTTCGGCGTCACCATGGCCGAACAGGGCGTGTCGCAACTGGTGTCTGTCGATTTGCAGACCGCCGAACAGCTGCGCGAAGCCGTCTGA	MKFNKLRLVGFKSFVEPSEFIIEPGLTGVVGPNGCGKSNLVEALRWVMGENSYKNMRASGMDDVIFSGSGNRPARNTAEVGLYLDNSDRTAPAAFNDADEIQVTRRIERENGSVYRINGKEARAKDVQLLFADASTGARSPSMVGQGRIGELINAKPQARRQLLEEAAGISGLHSRRHEAELRLRAAETNLERLEDVTAQLESQIESLKRQARQANRFKMLSADIRAREATLLHIRWVEAKEAEGEAESALNQATNIVAEKAQAQMEAAKQQGIASLKLPELREDEAKVAAALQRLQIARTQLDDEANRLLRRRDELARRLSQLGEDIIREERLVSDNAQILARLDEEEAELLEILSDSGRHAEEMREAFEAAAVKLAESEAIFTAITAERAEASAARQQLERAIRDLSDRKLRLERQSQEASAEIDAIDEKLSGLPDPSERREAVEAAEIAVEDALIVVEEAEAAVAEARSAEALARAPLETARNRLNALDTEARTITKILTSSAAANGSFTPVAEEMTVERGFEAALGAALGDDLESPLDPAAPAYWAGNGDGAGDPALPQGAKPLLDYVQAPEALRRALAQIGVVANTAEALRLLPSLKAGQRLVTREGALLRWDGHIASADAPGAAALRLSQKNRLAEIETELDEARSILDEAEDQLAAKTEDIRSSELRLSEVRDRSRLATRHLAEAREALTAAERASGDLLRRRDIVSEALNQIGAQIDEIAVQEENARIEMEDAPDLSVLDLRLRESQLEVATDRGLLAEARARHEGVSREAESRQRRIQAIGQERSTWQSRAASAADHIATLREREEEAREEIVELDIAPEEFDEKRRNLLNELQKTEDARREAADRLAEAENLQRAADRVAATALSGLAEAREKRGRAEERLVSAREKRQETEHRIRETLNTEPHMAFRLTGLGPDQPKPDIRDVERDLDRLKIERERLGAVNLRAEEEQAELSAKLEALIKERDDIIDAVRKLRAGIQNLNREGRERLIAAFDVVNSQFQRLFTHLFGGGTAELQLIESDDPLEAGLEILARPPGKKPQTMTLLSGGEQALTAMALIFAVFLTNPAPICVLDEVDAPLDDHNVERYCNLMDEMVASTETRFVIITHNPITMARMNRLFGVTMAEQGVSQLVSVDLQTAEQLREAV				NA	NA	NA	NA	NA
BMS010_00141	978	catE_1	COG2514	Catechol-2,3-dioxygenase	ATGCAATTTACCCGCCGCCATACGCTTAAATTTGCTGGAATTTCCTGTGCCGCCAGTGCGCTTGCCGGGGCGCTCAGAGCTGAAGGCGCAGTGCCCGTCGCGGGCGCCGCCTCCGCCCTTCCTTTCGCACTGACGACGCCGATGCATATCGGCCAGGCCGCGTTGCGCGTGCGCGATCTCGACCCGATGATCGAGTATTACCGTTCAGTGCTGGGCATGAACGAGGTGGAGCGCACGGCCAGAGGCGTGACGCTTGGCGTCGGCACCGTGCCGCTGCTCGATCTGGTGCACAAGCCGGCCGCGGATTTCGAAAGCCCCACCTCCGCCGGCCTGTTCCACATCGCCTACCTGATGCCCTCCCGCAAGGATCTGGCGCGCTGGCTGGTGCATGCGGCGCTGAAGCAGGTGCCGCTTTCCGGTTTTGCCGACCACAATGTCAGCGAGGCGATCTATCTCAACGATCCCGAAGGCAACGGCATCGAGGTTTACAGCGACCGGCCGAAGGATACATGGGTGTGGAGCGGCCGCGTGGTGAAAATGGGCACCGAACCGCTCGATGTCGATGATCTGGTGAAGCTGACCGATACCAAAAGAAGCGATTACGAGGCTGCCCCGCCGGGAATGCGCATCGGGCATGTTCACCTGCGGGTCGGCGAAATCGCCCGCGCCCGCGCCTTTTATGAAACGGCCATCGGCCTGCAACCGACGCAGGATGCGCGCTCCGATGCCTCGTTTCTCTCTTCCGGCGGATATCATCATCATCTGGCGGTGAATACATGGAACAGCCGTGGCGCGAAGGAACGCAACGCCATGGAAACCGGCCTCGACTGGTTTTCTCTCACCATTCGCAACCCCGCCGATCTGGAGGCGCAGAAAACGCGGCTGCGGGCCGCCGGTTATGTGCTGGTGGAGATGGAAAATAACGTCGTGGAAGCGATAGACCCCTGGGGCACGCGGCTGCGGCTGGTGCCAGGGTGA	MQFTRRHTLKFAGISCAASALAGALRAEGAVPVAGAASALPFALTTPMHIGQAALRVRDLDPMIEYYRSVLGMNEVERTARGVTLGVGTVPLLDLVHKPAADFESPTSAGLFHIAYLMPSRKDLARWLVHAALKQVPLSGFADHNVSEAIYLNDPEGNGIEVYSDRPKDTWVWSGRVVKMGTEPLDVDDLVKLTDTKRSDYEAAPPGMRIGHVHLRVGEIARARAFYETAIGLQPTQDARSDASFLSSGGYHHHLAVNTWNSRGAKERNAMETGLDWFSLTIRNPADLEAQKTRLRAAGYVLVEMENNVVEAIDPWGTRLRLVPG	PGPT0005050_25	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-CATECHOL_RESISTANCE,PGPT0005050-catE-K07104	NA	NA
BMS010_00142	2727	ppdK	COG0574	Pyruvate, phosphate dikinase	ATGAAAAAGTGGGTTTATACCTTCGGCAACGGTGCTGCCGAAGGCAGGGCAGGTGACGTTGCGATATTGGGCGGCAAGGGCGCGAACCTTGCCGAAATGGCAAGTCTCGGCCTTCCCGTTCCCCCCGGCCTCACCATCATAACCGATGCCTGCGCGCTTTATCACAAGAATGGCCGCGATCTTCCCGAAGAGCTGAAGCTGCAGGTCATGGCTGGCCTGCACGGCATGGAAACCGTGACCGGCAAGACCTTCGGCGGCAGCCACTCGCCGCTGCTCATCTCCGTCCGTTCCGGCGCGCGCGCCTCCATGCCCGGCATGATGGATACCGTGCTGAACTTGGGTCTCAACGACCGCACCGTCGAGGCGCTAGGCCACGATGCGGGCGACGCCCGTTTTGCCTGGGACAGCTACCGCCGCTTTATCCAGATGTATGCCGATGTGGTCATGGGCCTCGATCACGAATTGTTCGAGGAAATTCTCGAGGACGAGAAAGGCCGCCTCGGCCACGAATACGATACCGACATGTCGGCCGTCGAATGGCAGCATGTCGTTTCGCTTTATAAAAAGCTGATCGAGGATGAGTTGGACGAAGCCTTCCCGCAGGACTGTCATGTTCAGCTCTGGGGCGCAATCGGCGCCGTCTTCGCCAGCTGGACCAACCACCGCGCCGTGACCTACCGCCATTTACACAATATTCCGGGCGACTGGGGCACGGCGGTCAACGTTCAGGCCATGGTCTTCGGCAATCTCGGCTCGTCCTCGGCAACCGGCGTCGCCTTCACCCGCAATCCTTCGACGGGCGAGGCGGAGCTTTACGGCGAATTCCTCGTCAACGCTCAAGGGGAAGATGTGGTGGCGGGCATCCGCACGCCGCAATCCATCACCGAGGCCGCGCGTCTGGCCTCCGGCTCCGACAAGCCCTCGATGGAAAAGCTGATGCCGGAGGCGTTCAGCGAATTTCTGGCGATCTGCAAGCGGCTGGAAAACCACTATCGCGACATGCAGGATCTGGAATTCACCATCGAGCGCGGCAAGCTCTGGATGCTGCAGACCCGCTCCGGCAAGCGCACCACCCGCGCGGCCATGAAGATCGCCGTCGATATGGTGGAGGAAGGGCTGATCTCGCAGGAGGAGGCCGTCTGCCGCATCGAGCCCTCGTCGCTCGACCAGCTGCTGCACCCCACCATCGATCCCGGCACATCGCGCCCCATCATCGGCTCCGGCCTGCCGGCTTCGCCGGGGGCGGCGACGGGCGAAATCGTCTTCACTGCGGAAGAGGCGGTTGCGGCGGAAGCCGAAGGCCGCCGTGTTATTCTGGTGCGCATCGAAACCAGCCCGGAAGATATTCATGGCATGCACGCCGCCGAAGGCATTCTGACGACGCGCGGCGGCATGACCAGCCACGCCGCCGTGGTGGCGCGCGGCATGGGCATTCCCTGCGTCACCGGCGCCGGCTCCATGCGCGTCGACATGCGCAACAAGGTGCTGATCGGCGTCGGCTGTATGCTCAAGCGCGGCGATGTCATCACCATCGACGGTTCTTCCGGCCGGGTGCTGAAGGGTGAGGTGCCGATGACGCAGCCGGAACTCTCGGGCGATTTCGGCAAGCTGATGGAGTGGGCCGACAGCCTGCGCCGCATGACCGTGCGCACCAATGCCGACACACCCGCCGACGCCCGCGCTGCGCGCACATTTGGCGCGGAAGGCATCGGTCTCTGCCGTACCGAACATATGTTCTTCGAGGGCGACCGCATCCACGTCATGCGTGAGATGATCCTCGCCGAAAGCGAAAAGGGCAGGCGGGCGGCGCTGGATGAGCTTCTGCCGATGCAGCGCTCGGATTTCACCGAGCTTTTCCAGATCATGCACGGCCTGCCGGTGACGATCCGCCTGCTCGACCCGCCACTGCACGAATTCCTGCCGAAGACCGATGGCGAAATCGTCGAGGTGGCGGCCGCCATGGGCATGCCGCAGACGGTGTTCCGCCAGCGGCTGGATGCCCTGCACGAGTTCAACCCCATGCTCGGCCATCGCGGCTGCCGCCTTGCCATTTCCTATCCGGAAATCGCCGAAATGCAGGCCCGCGCCATTTTCGAAGCGGCGGTTGCCGCAGCACGTATCACCGGCGCGCCGGTCGTGCCCGAGATCATGGTGCCGCTGGTCGGTCTGCGCTCGGAACTGGATTACGTTACCGAAGTCATCGACGGCGTCGCCGCTGCGGTGGCGCAGGAAACCGGCATGGAGATCGAATATCTGACCGGCACGATGATCGAGCTGCCGCGCGCGGCCTTGCGCGCCCACGTCATTGCGGAAGCGGCGGAATTTTTCTCCTTCGGCACCAACGACCTGACGCAGACCACCTTCGGTATCTCCCGCGACGATGCGGCGCGTTTCATCAATACCTATCAGCGCAAGGGCATCATCGAGCGCGACCCGTTCATCTCCCTCGATTTCGATGGCGTGGGAGAATTGATCCGCATCGCCGCCGAACGCGGCCGCCAGACGCGGCCGGAACTGAAGCTTGGCATCTGCGGCGAACATGGCGGCGACCCGGCCTCGATCCATTTCTGTGAGGATGCCGATCTCGACTACGTGTCCTGCTCGCCCTTCCGCGTGCCCATCGCCCGGCTTGCCGCCGCGCAGGCAACGCTGGCGGCGAAGAGGGATGAGGGCAGGGTGGCGAGCAATGTCGCCTTCATTCCCGTCAGGGGTTCTGTTGGACGATGA	MKKWVYTFGNGAAEGRAGDVAILGGKGANLAEMASLGLPVPPGLTIITDACALYHKNGRDLPEELKLQVMAGLHGMETVTGKTFGGSHSPLLISVRSGARASMPGMMDTVLNLGLNDRTVEALGHDAGDARFAWDSYRRFIQMYADVVMGLDHELFEEILEDEKGRLGHEYDTDMSAVEWQHVVSLYKKLIEDELDEAFPQDCHVQLWGAIGAVFASWTNHRAVTYRHLHNIPGDWGTAVNVQAMVFGNLGSSSATGVAFTRNPSTGEAELYGEFLVNAQGEDVVAGIRTPQSITEAARLASGSDKPSMEKLMPEAFSEFLAICKRLENHYRDMQDLEFTIERGKLWMLQTRSGKRTTRAAMKIAVDMVEEGLISQEEAVCRIEPSSLDQLLHPTIDPGTSRPIIGSGLPASPGAATGEIVFTAEEAVAAEAEGRRVILVRIETSPEDIHGMHAAEGILTTRGGMTSHAAVVARGMGIPCVTGAGSMRVDMRNKVLIGVGCMLKRGDVITIDGSSGRVLKGEVPMTQPELSGDFGKLMEWADSLRRMTVRTNADTPADARAARTFGAEGIGLCRTEHMFFEGDRIHVMREMILAESEKGRRAALDELLPMQRSDFTELFQIMHGLPVTIRLLDPPLHEFLPKTDGEIVEVAAAMGMPQTVFRQRLDALHEFNPMLGHRGCRLAISYPEIAEMQARAIFEAAVAAARITGAPVVPEIMVPLVGLRSELDYVTEVIDGVAAAVAQETGMEIEYLTGTMIELPRAALRAHVIAEAAEFFSFGTNDLTQTTFGISRDDAARFINTYQRKGIIERDPFISLDFDGVGELIRIAAERGRQTRPELKLGICGEHGGDPASIHFCEDADLDYVSCSPFRVPIARLAAAQATLAAKRDEGRVASNVAFIPVRGSVGR	PGPT0002040_471	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0002040-ppdK-K01006	NA	NA
BMS010_00143	273			hypothetical protein	ATGCGTGTTTCCATCATCTTCGGTGCGCTTGCCGCCATGCTGGCGCTCACCGCCTGCCAGACGCTGACGCCGGAAGAGCGTCGGGCGCGGGATGAGGCGACTTGCCGGGGTTATGGTTTCCGCCCCGGCACGGACCCGATGGCCGGTTGCCTTCTCGATCTGGAAATGGACCGCCGCGCCGACAACCGCGCCTGGCAGGCGCAGATGAACCGCGACATGTTCTACCGCCCCGTGGTGGTGGAGCGGCGCATCATCGTCCAACAGAACCCCTGA	MRVSIIFGALAAMLALTACQTLTPEERRARDEATCRGYGFRPGTDPMAGCLLDLEMDRRADNRAWQAQMNRDMFYRPVVVERRIIVQQNP				NA	NA	NA	NA	NA
BMS010_00144	354	COQ7		5-demethoxyubiquinone hydroxylase, mitochondrial	ATGGCGTTTTGGAGCCTTGGAGGTCTCCTGCTCGGTTTTATGACGGCGCTCGGCGGACGCAACATGGTCTGGATTTGCACCGAGGCCGTTGAAAGCACCGTTCACCGCCATCTGGAAGATCAATTGGCCTTCCTGCAAACAAGAGATCCCGAGCTGCATAGGCTTATCGCTTCGATTCAGGAACAGGAATTGGCTCATCTGCACGAGGCCGAGAAAAACCAGACGACGCGCGGTTTGGGCCATATGCTTCTGCTGCCGATTATCGGCTTTCTCACCGATCTGATGATCTGGCTCTCGACATGGGGAGACTCAAGCTGGATGCGCGCTGAAATGGCGCGTTCCAGACAGTCCTGA	MAFWSLGGLLLGFMTALGGRNMVWICTEAVESTVHRHLEDQLAFLQTRDPELHRLIASIQEQELAHLHEAEKNQTTRGLGHMLLLPIIGFLTDLMIWLSTWGDSSWMRAEMARSRQS	PGPT0009541_1090	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009541-COQ7_like-K06134	NA	NA
BMS010_00145	399			hypothetical protein	ATGGCGAAACGCAACTGGATTTATGTCGGCTTGCTCGCTTTCATCTCACTCGGGCTTCTGATCGATGCGGCCGTCTGGCCTGCCGGGCCTCCAGCATCCTTTACCGCAAACGATCTGGTGCAGATGATCGGCATCATCACGCTATTTGCCTGGTGGCAGATAGAGGATGCCGAAAAGCGGGACCTCCGGCGCAGCTCCGCCGCCAAAATCACCACCGTTCTGCTCGCACCCATCGGGCTTGCGATTTACCTTTATCAAACCCGCCGGTGGACCCGAGCCACGCTCGGCCTCTTCGCCTTTATCGGCGGCATCGTCCTCATCGCCATCCTCACGGTTCTGCTCGGCGACTGGCTCATTCAACAGGGTTTGTTCCCGCCGTCTTTCCTGCGTGATTCCTGA	MAKRNWIYVGLLAFISLGLLIDAAVWPAGPPASFTANDLVQMIGIITLFAWWQIEDAEKRDLRRSSAAKITTVLLAPIGLAIYLYQTRRWTRATLGLFAFIGGIVLIAILTVLLGDWLIQQGLFPPSFLRDS				NA	NA	NA	NA	NA
BMS010_00146	1365	gltP_1	COG1301	Proton/glutamate-aspartate symporter	ATGTCACAGGCAACGACGTCCGCCGGCCCCTCCGGGCCTAAACCTTTTTATCGCAATTTCGGCTTTCAGGTTCTGATCGCCATGGTCATCGGCCTGCTGCTCGGGCTCGTTGCGCGCAACATCGGTCCCGATGCCGCCGGCAGCCCCAACTGGCTTTCGGTGACGCTGCAAACCATCGGCAGCATTTTCGTGCAGCTTTTGCGCGCGCTGGTTCCGCCGCTGATCTTCACGGCCATCGTCGCCTCCATCGCCAATCTCAAGAACCTCTCCAATGCGGCGAAGCTCGTCTGGCAGACACTTCTCTGGTTCGCCATCACCGCACTGATCGCCGTCGTCATCGGCATCGTGCTCGGCCTTGTCATTCAGCCCGGCGTCAACACGGCGATTGCAAATACGGCAGCGGCAGCGCCTTCTTCCACCGGTTCCTGGCTGGATTTCCTGAAGGGGCTGATCCCGGCCAACGTCTTCGGCCTCGAAGCGTCTACCAAGCTCAATAATGGCGCGGCCAGCACCTCGTTGAACTTCAACGTGCTGCAGCTGCTCGTGGTGTCGATTGCCTTCGGCGTCGCGGCGCTGAAAGCGGGCAAGGCGGCGGAGCCGTTCCTCGCCTTCAACCAGTCGCTGCTCGCCATCGTGCGGAAAATCCTGTGGTGGGTCATCCGCCTCACCCCCATCGGCACCATCGGCCTGCTCGGCCGCGCGGTCGATCAATATGGCTGGACGACGCTGTCGCAGCTCGGCTGGTACGCGGCAGCCGTTTATATCGGTCTCGCACTGGTGCTCTTCGTGGTCTATCCGGCGCTACTTCTCGCCCATGGCCTGAAGCCGTCACGCTTCTTTGCGGGCGCATGGCCGGCCATCCAGCTCGCCTTCGTGTCGCGTTCCTCCATCGGCACGCTTCCGGTCACCGAAACCGTGACGGAAAAGAGCCTCGGCGTGCCGCGCGAATATGCCGCCTTCTCCGTACCGCTCGGCGCCACCACCAAGATGGACGGCTGCGCCGCCATCTATCCGGCGATTTCGGCGATCTTCATCGCGCAGTTCTTCCAGGTGCCGCTCGGAATTCAGGAATATGTGCTGATCGTCTTCGTCTCGGTGCTCGGTTCCGCCGCAACGGCAGGCCTCACGGGTGCCGTGGTGATGCTGACGCTGACGCTTTCCACGCTCGGCCTGCCGCTGGAAGGTGTGGGCCTGCTGCTCGCCATCGACCCGATCCTCGACATGGGCCGCACGGCGGTCAACGTCGCCGGCCAGGCGCTGGTGCCCACCATCGTCGCCAAGCGTGAGGGCATTCTCGATGAGGCCGTCTACAACAACGCCAAGGATATCGACGCACTCGACGACCGGGAAGCAGCGCCGGCCTGA	MSQATTSAGPSGPKPFYRNFGFQVLIAMVIGLLLGLVARNIGPDAAGSPNWLSVTLQTIGSIFVQLLRALVPPLIFTAIVASIANLKNLSNAAKLVWQTLLWFAITALIAVVIGIVLGLVIQPGVNTAIANTAAAAPSSTGSWLDFLKGLIPANVFGLEASTKLNNGAASTSLNFNVLQLLVVSIAFGVAALKAGKAAEPFLAFNQSLLAIVRKILWWVIRLTPIGTIGLLGRAVDQYGWTTLSQLGWYAAAVYIGLALVLFVVYPALLLAHGLKPSRFFAGAWPAIQLAFVSRSSIGTLPVTETVTEKSLGVPREYAAFSVPLGATTKMDGCAAIYPAISAIFIAQFFQVPLGIQEYVLIVFVSVLGSAATAGLTGAVVMLTLTLSTLGLPLEGVGLLLAIDPILDMGRTAVNVAGQALVPTIVAKREGILDEAVYNNAKDIDALDDREAAPA				NA	NA	NA	NA	NA
BMS010_00147	921			hypothetical protein	ATGACTGTGCGTTTCGTCCGGCCTTTTTCGGTTGCAGCCTATCTTTCCCGCTATCTGGGTCTTGCGGCGCTTGTGCTGTTTCTCATCGCCGCCGGCATTCATCGTTTCGGGCCGCTGACGACGCCAGATCTTGTCGGTCTCCTCATTATCGCCGCTGGCATCGCTCTCGCGGCCGTACTTCTGGCGTTGATCGGGCTTGAGCGGCTGTGGACAAAGGGCGCACGCGGCGGCCTTTCGGCGCTGGCGGCGCTGCTTCTCTCGGCCCTGCCGCTCGGCGTGGTCGGTTACGGCGCTTTTCTTTATTGGCAGCAGCCGAAGATTTACGACATCTCCACCGATCTCACCGACGTGCCGGAATGGCTGGTGGCGCCCGCCGCCAACCAGCAATGGCTGGTGCGGCCCGCGACTGTCACCAAGGAAGACCGCGACGCGCAAACCGAAGCCTATGCCAGCCTCGCCGGCCGCCGTTATGAAGGCGCAATCGACCGCATCTACGCCGCCGCCAAAAAAATGGCCGCCGCCCAGAATATCCGCATTGCCCACACGAAGGGGGTGATCGGGGCGGAAGATGCGCCCTCCGTCGGCGTTCCGGAGCAGGACAGGACGCAGCCTGCGGAAGAAGGGCCGGTCGAGGATCTGCCCTCCATCGTGCCGGTGCCCATGGCCCGCCCGACGGACGCGCCTTTGCCCACCTTCTTTAACGGTAGCGGCGTGGTGCTGATGCAGGGCGAAACGCGCACGCGCATCTGGGGCCTGCGTTTCGATATCCTCATCCGCCTCAAGGAAGAGGCCGAAACCACCATCGTCGATGTCCGCGTCGCCTCCCGCTACGGCCCGCACGATCTCGGCATGGGTGCTGCGATTGCCGAAGCCTATCTCGATGCGCTGGATGCGGAGATGCAGGGGTTGAACGACAATTGA	MTVRFVRPFSVAAYLSRYLGLAALVLFLIAAGIHRFGPLTTPDLVGLLIIAAGIALAAVLLALIGLERLWTKGARGGLSALAALLLSALPLGVVGYGAFLYWQQPKIYDISTDLTDVPEWLVAPAANQQWLVRPATVTKEDRDAQTEAYASLAGRRYEGAIDRIYAAAKKMAAAQNIRIAHTKGVIGAEDAPSVGVPEQDRTQPAEEGPVEDLPSIVPVPMARPTDAPLPTFFNGSGVVLMQGETRTRIWGLRFDILIRLKEEAETTIVDVRVASRYGPHDLGMGAAIAEAYLDALDAEMQGLNDN				NA	NA	NA	NA	NA
BMS010_00148	909	gloB_1		Hydroxyacylglutathione hydrolase	ATGGCGGACCCGGCATTCGATCTCGATTTCCAGCCGGCCTATGGCGAGGCGGTTCCCGTCGCTCCGCTGATCCAGCGCATCACCGTCAACAATCCTTCCGCCTTCACCTTCCATGGCACCAACTCCTATATTGTCGGCGACCGTTCCGTCGCAGTCATCGATCCCGGTCCGGAGGATGAGGCGCATTTTCAGGCGCTGATGGCGGCGCTGACGGGCCGCGAGGTCACCCATATATTCGTCAGCCATACCCATCGCGATCACTCGCCGCTTGCCCGCCAGCTGAAGGAGGCGACCGGGGCGATAACGGTGGCCGAGGGTCCACACCGTGCCGCGCGCCCGCTGCACGCTGGCGAGACAAACCCCTTTGCCGAAAGTTCCGATACGGCTTTTGCACCCGATATCGCGCTTAGCGACGGCCAAAGCCTTTCCGGCGACGGGTGGCGGCTTACTGCGCTGCATACGCCGGGACACACCGCCAATCACGCCGCCTTCGCGCTTGATGGCAGCGGTATCGTCTTTTCCGCCGATCATGTGATGGCCTGGGCCACCACCATCGTTGCGCCGCCGGATGGGGCGATGAGCGATTACATGGCCTCGCTGGAACGGCTGCTTACCCGCGACGACCGGCTGTTCCTGCCCGGCCATGGCGGCCCGGTCACCGATCCAGCCGCCTTCATGCGGGGCTTGCGCGCCCACCGGCGCATGCGGGAAAAGGCGGTTCTGAAGCGTATCCGCGAAGGCGACCGGCTGATCGCCGACATGGTGAAGGTGATCTATGCCAGCACCGACAAGCGCCTGCATGGCGCCGCCGCACTTTCCGTGCTGGCGCATATCGAAGACCTGATCGAAAAGGGTGAAGTGCAGACGGATGGTGCGCCTTCACTGCTGGGTGAGTATTTTCCGGCATAG	MADPAFDLDFQPAYGEAVPVAPLIQRITVNNPSAFTFHGTNSYIVGDRSVAVIDPGPEDEAHFQALMAALTGREVTHIFVSHTHRDHSPLARQLKEATGAITVAEGPHRAARPLHAGETNPFAESSDTAFAPDIALSDGQSLSGDGWRLTALHTPGHTANHAAFALDGSGIVFSADHVMAWATTIVAPPDGAMSDYMASLERLLTRDDRLFLPGHGGPVTDPAAFMRGLRAHRRMREKAVLKRIREGDRLIADMVKVIYASTDKRLHGAAALSVLAHIEDLIEKGEVQTDGAPSLLGEYFPA				NA	NA	NA	NA	NA
BMS010_00150	198			hypothetical protein	GTGACCCAGACGTTAGAACCCAGCCCATCCCCCAACGAACTTCCAAAGAAGCCCGATTTCGAATGGATTTTCTGGGTGCTTCCCATCGTCGTGTTTGCTGTAATTGCATATCTCGGTGAGTTGAAATGGGCGTTTATCATCGGAGGGGGAATTGCTGCGATGCTCTTTGTCTATTTCAAGTTTATTAAGCGGAAATAG	MTQTLEPSPSPNELPKKPDFEWIFWVLPIVVFAVIAYLGELKWAFIIGGGIAAMLFVYFKFIKRK				NA	NA	NA	NA	NA
BMS010_00151	1734	mqo_1	COG0579	Malate:quinone oxidoreductase	ATGGCCGTGACTCCCATCGATCAAGACAAATCCCAGCTCACTGATCTTTCGCAGGAAACATCCCTTTCCAACGCATTTCCCATGAACCGCCGACAGGTTCTGGGCGGCGCGCTTGCCGGCATTGCCGCAGCGGCGCTGCCAGTTACACCTCTTCTCGCCAACACCGCTGCCAAGAAGGTCGATGTGCTTTTGATCGGCGGCGGCATCATGAGCGCGACGCTCGGTGTTTGGCTGCGTGAACTGGAGCCCACCTGGTCGATGCAGATGCTGGAGCGGCTGGATGGCGTGGCGCTTGAAAGCTCTAACGGCTGGAACAATGCCGGCACCGGCCATTCGGCGCTTGCCGAACTCAACTACACGCCGGAAGACGACAACGGCAACATAAAGATCACCCAGGCCGTCAACATCAACGAATCCTTCCAGATTTCCCGGCAGTTCTGGGCCTGGCAGGTGCGCAACGGCGTTTTGAAGAACCCGCGTTCCTTCATCAACCACACGCCGCATATGAGCTTCGTCTGGGGTGACGAGAACGTCGCTTATCTGGAAAAGCGCTATCAGGCGCTCAAAGCCAGCCCGCTTTTCGCCGGCATGGAATATTCCACCGATCCCGAGCAGATCAAGAAGTGGGTGCCGCTGATGATGGAAGGCCGCGATCCTTCCCAGAAGATCGGCGCGACCTGGTCGCCGCTCGGCACCGACATGGAATTCGGCGAAATCACCCGGCAATTCGTCTCCCATCTGCAGGGTGACCAGAATTTCGACCTGCAGGTCAATAGCGAGGTTTCCGACATCCAGCGCAATGCCGATGGCAGCTGGCGCGTGACCTATACCAACACCAAGACCGATGCCGAACAGGTGGTGGATGCGAAATTCGTGTTCATCGGTGCTGGCGGCGGCGCGCTGCATCTGCTGCAGATGTCCGGCATCCCGGAAGCCGATGACTATGCCGGCTTCCCGGTGGGCGGCTCATTCCTCATCAACGAAAACCCCGACGTGACGATGCAGCATCTTGCCAAGGCTTACGGCAAGGCCTCGGTCGGCTCGCCGCCCATGTCGGTGCCGCATCTCGATACCCGCGTGCTGGGCGGCAAGCGCGTTATCCTGTTCGGACCTTTCGCCACCTTCTCCACCAAGTTCCTGAAGGAAGGCTCCTATTTCGATCTCGTCTCCTCCGTCACCACCAGCAATGCCTGGCCGATGGTGCGGGTGGGGATCGATGAATATCCGCTGGTGGAATATCTCGCCGGCCAGCTGATGATGTCGGATGACGACCGTTTTGCCGCGCTGAAGGAATATTTCCCGAATGCCAAGCAGGGCGAATGGCGCCTGTGGCAGGCCGGCCAGCGCGTACAGATCATCAAGCGCGACGAAGAAAAGGGCGGCGTGCTGCGGCTCGGCACCGAAGTCGTCGCCGCCCGGGACGGCAGCATCGCCGGCCTGCTCGGCGCCTCGCCGGGTGCTTCCACCGCCGCCCCGATCATGCTCAGCGTTCTGGAAAAGGTCTTCAAGGACAAGGTGGCAACACCGGAATGGCAGGCCAAGATCCGCCAGATCGTGCCGAGCTACGGTACGAAGCTCAATGACGATCCGGAAAAGGTGCAGCAGGAATGGGCCTACACGGCCGAACACCTGCAGCTGCCCACCCCGCCGCAGATCGACCTTGAGGCGCTGAAGGGCGCCGGTGCGGCGCCTGCGGGCGCGCCGGTGAAGAAGGTGCCGGATATCGCGCTTTAA	MAVTPIDQDKSQLTDLSQETSLSNAFPMNRRQVLGGALAGIAAAALPVTPLLANTAAKKVDVLLIGGGIMSATLGVWLRELEPTWSMQMLERLDGVALESSNGWNNAGTGHSALAELNYTPEDDNGNIKITQAVNINESFQISRQFWAWQVRNGVLKNPRSFINHTPHMSFVWGDENVAYLEKRYQALKASPLFAGMEYSTDPEQIKKWVPLMMEGRDPSQKIGATWSPLGTDMEFGEITRQFVSHLQGDQNFDLQVNSEVSDIQRNADGSWRVTYTNTKTDAEQVVDAKFVFIGAGGGALHLLQMSGIPEADDYAGFPVGGSFLINENPDVTMQHLAKAYGKASVGSPPMSVPHLDTRVLGGKRVILFGPFATFSTKFLKEGSYFDLVSSVTTSNAWPMVRVGIDEYPLVEYLAGQLMMSDDDRFAALKEYFPNAKQGEWRLWQAGQRVQIIKRDEEKGGVLRLGTEVVAARDGSIAGLLGASPGASTAAPIMLSVLEKVFKDKVATPEWQAKIRQIVPSYGTKLNDDPEKVQQEWAYTAEHLQLPTPPQIDLEALKGAGAAPAGAPVKKVPDIAL	PGPT0001440_10	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001440-mqo-K00116	NA	NA
BMS010_00152	423			hypothetical protein	ATGCTATCTCGCAGCGTAACGCTTGCAGCGTTTGCCATTGCGCTCTCGGCCTGCACCACTTCCACGGGCGGCTCCACTCCCTCTTTCACCCAGAAGAGCCCCGTTGAGACCCGCTGGGTCGGCCAGTCCGCAGGCATTTTCTTCGCAAAATTCGGCCCGCCGCTCAGCGATACGGAAACCGGCAGCTCCACCGTCTATAACTGGCGCGGGGGCTACAGAAAGGCCACCATTCCGGCCAGGTTCGAAGAAGGCAAGGATGGCAAGAAGGGTCGCCAGATCTCGCCCGCCCGCACCGCTTCGCTCTCCTGCACGGTGCAGCTCGTCGTTTCCAGCGATTACAAGATTACCGCCGTGCGCACGGTTTCCGACCGCCCCGGCGTCAACGGCCCGAGCTATTGCGCGGAATTCCTCGCCGCAGACTGA	MLSRSVTLAAFAIALSACTTSTGGSTPSFTQKSPVETRWVGQSAGIFFAKFGPPLSDTETGSSTVYNWRGGYRKATIPARFEEGKDGKKGRQISPARTASLSCTVQLVVSSDYKITAVRTVSDRPGVNGPSYCAEFLAAD				NA	NA	NA	NA	NA
BMS010_00154	1482	cysN	COG2895	Sulfate adenylyltransferase subunit 1	ATGAGCACTGCCGCCGCCAACACCCCCTCTTCCGCAACCATTCTGCCGTTTGCCGAGCATTCGAAGGCGGCGCGCGACACGCGCCCGCTGCGTCTCATCACCTGCGGCAGCGTGGATGACGGCAAGTCGACCCTGATCGGCCGTCTTCTCTGGGACACCAAGGCCGTCAAGGAAGACCAGGCCGCGACGCTCCACCGCGACAGCGGCAAGCAGAACGATCTCGGCCTGCCCGATTTCGCGCTGCTGCTCGACGGTCTTCAGGCGGAGCGCGAACAGGGCATCACCATCGATGTCGCCTATCGCTATTTCGCCACCGACCGGCGCGCCTTCATCGTGGCCGACACGCCCGGCCATGAGCAGTATACCCGCAACATGGCGACTGGCGCTTCCACCGCCGATCTCGCCGTGCTGCTCGTCGATGCGCGCACCGGCATTCTGGAACAGACACGCCGTCACGCCACCATTGCGGCGCTGATGGGCATCCGGCAATTCGTGCTGGCCGTCAACAAGATCGACCTGACGCATTACGACAAAGCCGGTTTCGAGCTGATCGCCCATGAATTCCGCGATTTCGCGTCCAATCTCGGCATCAAGCAGATCACCGCCATTCCGATGTCGGCGCTGAAGGGTGAAAACGTCGTTCTCTCCGGCAAGGCCTCCATGCCCTGGTATGAAGGCCCGACGCTGGTGGAGACGCTGGAGCTTGCCACGGTGCGCTCCGCGCAATCCGGCGGCTTCCGCCTGCCGGTGCAGCGCGTGTCGCGTCCTGGCGAAAGTTTCCGCGGTTATCAGGGCACGGTTGCCGGCGGTTCGGTAAAGCCGGGCGACAGCGTCGTCGTCCTGCCTTCCGGCATGGTCGCGAATGTCAAGCAGATCGTCACCTTCGATCTGGTGCGCAACGCCGCTGTCGCGGGCGATGCGGTCACGCTCGTGCTCGACCGTCAGGTGGATGTGTCGCGCGGTGACATGATCGTCTCCATCGAGGCGCAGCCGCAGACCGGTCTTGCCTTCGACGCCCAGATCGTGGCGTTGCAGCCGGGCGGCATCGAGGCAGGCAAGCGCTACTGGCTGAAAAGCGGCAGCCGCCGCCAGCGCGTCAGCGTGCAGCCCGTCAGCCAGCTGAACCTGAAGGAAGGCGAATGGCAGGCGCATGAAACCTCGCTGCCGATGAACGCCATCGGCAAGGTGCGGCTTTCCTTCGACGAGACGGCGATCTTCGATCCCTATGAACAGAACCGCTCAACCGGGTCCTTCATTCTGATCGACCCCGACACCAACAACACGGTTGCGGGCGGCATGATCGCCGGCAAGCGCAGCGTCGGTGCGACGGAAGAAAAGGGCGACCGGGTCATTCTCTCGCTGCCCGCCGATCTCGCCGAAAAGCTGCTGGCCAGCGAACTCCTCGCCAAGCACCGCGACGAAATCGACATCCGCCGCACGGACGGCGCAACGGCCGCGCGGCTGATCGGCGATCTGGGCTGA	MSTAAANTPSSATILPFAEHSKAARDTRPLRLITCGSVDDGKSTLIGRLLWDTKAVKEDQAATLHRDSGKQNDLGLPDFALLLDGLQAEREQGITIDVAYRYFATDRRAFIVADTPGHEQYTRNMATGASTADLAVLLVDARTGILEQTRRHATIAALMGIRQFVLAVNKIDLTHYDKAGFELIAHEFRDFASNLGIKQITAIPMSALKGENVVLSGKASMPWYEGPTLVETLELATVRSAQSGGFRLPVQRVSRPGESFRGYQGTVAGGSVKPGDSVVVLPSGMVANVKQIVTFDLVRNAAVAGDAVTLVLDRQVDVSRGDMIVSIEAQPQTGLAFDAQIVALQPGGIEAGKRYWLKSGSRRQRVSVQPVSQLNLKEGEWQAHETSLPMNAIGKVRLSFDETAIFDPYEQNRSTGSFILIDPDTNNTVAGGMIAGKRSVGATEEKGDRVILSLPADLAEKLLASELLAKHRDEIDIRRTDGATAARLIGDLG	PGPT0002400_197	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002400-cysN-K00956	NA	NA
BMS010_00155	954	cysD_1	COG0175	Sulfate adenylyltransferase subunit 2	ATGTCCAACGCAGTCCACGAGACGGACAGCAAGAATACTGTCGCATCCAAGCCGCCGCTCGATCCCCATCTGAAGGCGCTTGAAAACGAAGCTATTCATATTTTCCGCGAAGTCGCCGCCGAATTCGACAAGCCCGTGATGCTCTATTCCATCGGCAAGGATTCATCCGTGCTGCTGCATCTCGCGCGCAAGGCGTTTTTCCCCGGCCGCATTCCCTTCCCGCTGCTGCACGTCAATACCGGCTGGAAATTCAAGGAAATGATCGAATTCCGCGACAATATCGTCAAGGAATACGATCTCGACCTGATTTCCTACACCAACCCGCGCGGTGCGAGCGAAAACGTAACGCCCTTCACCCACGGTTCGGCGCTTTATACCGACATCATGAAGACCGAAGCGCTGCGCCAGGCGCTGGATGCCGGCCAGTTCGACGCGGCCTTCGGCGGCGCACGCCGCGATGAGGAGGCGAGCCGCGCCAAGGAGCGCATCTATTCCTTCCGCACGCCCGACCATAAATGGGACCCGCGCAACCAGCGCCCGGAACTGTGGAACATCTACAACGGCATGGTCCGCAAGGGCGAAAGCGTGCGCGCCTTCCCGCTCTCCAACTGGACCGAAGTGGATATCTGGCGTTACATCGAGGCGGAAAACATTCCGCTGGTGCCGCTCTATTACGCCGCCGAGCGCCCATATGTCGAACGCGACGGTATGATGATCCTTGCCGAAGACGAGCGGCTGGAACTGCTGCCCGGCGAAGAGATCAAGCATGGCTCGATCCGCTTCCGCACGCTCGGCTGCTTCCCGCTGACCGGCGCCATCCGTTCCGAGGCGGCGACGCTTCAGGAAGTCATCGCGGAACTCGAAATCGCTACCGTTTCCGAACGGCAGGGCCGCGCGATTGACCGCGACCAGTCCGGCTCGATGGAGAAGAAGAAGCGCGAGGGGTATTTCTGA	MSNAVHETDSKNTVASKPPLDPHLKALENEAIHIFREVAAEFDKPVMLYSIGKDSSVLLHLARKAFFPGRIPFPLLHVNTGWKFKEMIEFRDNIVKEYDLDLISYTNPRGASENVTPFTHGSALYTDIMKTEALRQALDAGQFDAAFGGARRDEEASRAKERIYSFRTPDHKWDPRNQRPELWNIYNGMVRKGESVRAFPLSNWTEVDIWRYIEAENIPLVPLYYAAERPYVERDGMMILAEDERLELLPGEEIKHGSIRFRTLGCFPLTGAIRSEAATLQEVIAELEIATVSERQGRAIDRDQSGSMEKKKREGYF	PGPT0002405_381	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002405-cysD-K00957	NA	NA
BMS010_00156	762	cysH_1		Thioredoxin-dependent 5'-adenylylsulfate reductase	ATGACGATCAATTCAGCAAATGCCTCTGCCGATGCCGCTTCCCTCGACGCCACGCTTGCCGGGCTCGATCTGGCGGGTCGGCTTTCGTTTATCGCCGGCCTCGGCGGGCGGGCGGTCTTCACCACCAGCCTCGGCATCGAGGATCAGGTCATTACGGCCGCAATCGGTACGCATCGCCTGCCGATCGACGTCGTGACGCTCGAAACCGGCCGGCTGTTCAAGGAAACCGTCGATCTCATCGATGAGACCGAAGAGCGTTTCGGCATCGAAATCCGCCGCTTTCGTCCCGAGCAGGACGATATCGACGCCTATGCCGAAAAATACGGTCTGAACGGTTTTTACGAAAGCGTCGAAGCCCGTCACGCCTGCTGTCATGTCAGAAAGCTGATCCCGCTCGGCAAGGCGCTGGAAGGCGCTGCCTTCTGGATCACCGGCCTCAGACGCGGCCAGTCGGGCAATCGCGCCACGACACCTTTCGCCGAGTTCGATGCGGAGCGCAATCTCATCAAGATCAATCCGCTGGCTGACTGGGACATCGACCTCATCAAGGCGCATGTCGCCCAGGAGAACATTCCCGTCAATCCGTTGCATCAGCGCGGTTACCCCTCCATCGGCTGCGAGCCGTGTACGCGCGCCATCAAGCCCGGCGAGCCTGAGCGCGCCGGACGATGGTGGTGGGAAAACGACGAGAAGCGCGAATGCGGTCTTCACGTCGCCGGTGCGGAGCAGACATCCGCCGTTTCCGCCATCCCGCAACGATAA	MTINSANASADAASLDATLAGLDLAGRLSFIAGLGGRAVFTTSLGIEDQVITAAIGTHRLPIDVVTLETGRLFKETVDLIDETEERFGIEIRRFRPEQDDIDAYAEKYGLNGFYESVEARHACCHVRKLIPLGKALEGAAFWITGLRRGQSGNRATTPFAEFDAERNLIKINPLADWDIDLIKAHVAQENIPVNPLHQRGYPSIGCEPCTRAIKPGEPERAGRWWWENDEKRECGLHVAGAEQTSAVSAIPQR	PGPT0002785_1157	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002785-cysH-K00390	NA	NA
BMS010_00157	441		COG1959	Putative HTH-type transcriptional regulator	ATGATTTCGCAGAAGGCAAAATATGCGCTGAGGGCGCTCCTTTCGCTGGCCAAGGCCGACGGGGCCTGTCCTGTGCAGATTTCCGACATCGCCCGCGAACAGGCCATTCCGAAAAAGTTTCTGGAACAGATCCTTCTCGAAATGAAGAAGGAACGCCTTGTCGAAAGCCGGCGCGGCAAGCAGGGCGGTTATCTCTTGGCGCGCCCGGCCGCGGATATCACCTTCGGCGAGGTGCTGCGCCTCATCGACGGGCCGCTTGCCCCCTTGCCCTGCCTGTCGCAGACCGCCTATCGCCGCTGCGAGGATTGCGACGGCGAGAAGCAGTGCGAGATCCGCCACGTCTTTGCCCGCGTGGCCGATGCCACCCGCAACATCCTTTTCAACACCACCATCGCCGATGCCGTGGCGGGTGTCGAAGTGCCCGAGCTTTTGACGGCCTAG	MISQKAKYALRALLSLAKADGACPVQISDIAREQAIPKKFLEQILLEMKKERLVESRRGKQGGYLLARPAADITFGEVLRLIDGPLAPLPCLSQTAYRRCEDCDGEKQCEIRHVFARVADATRNILFNTTIADAVAGVEVPELLTA				NA	NA	NA	NA	NA
BMS010_00158	1026	sbp_1	COG1613	Sulfate-binding protein	ATGTCCAAGCTTCTGTCCGGTTTGAGCGTTGTTGCGCTTAGCCTCTCACTGGCACTTGGCGCAGCTGGCTCGGCCGCCGCGCAGACCAAGCTGCTCAACGTGTCCTACGATCCGACCCGTGAACTCTACAAGGACTTCAACGAAGCCTTCGCCAAGAAGTGGAAGGCCGATACCGGCGAGGACGTCACCATCCAGCAGTCGCATGGTGGCTCCGGCAAGCAGGCGCGTTCGGTCATCGACGGTCTGGAGGCGGACGTGGTGACGCTGGCGCTGCAGAGCGATATCGACGCCATCGTCCAGAATTCCGGCAAGATCAACGAGGACTGGCGCACCCGCCTGCCGCATAATTCCTCGCCTTACACCTCCACCATCGTTTTCCTGGTGCGCAAGGGTAACCCCAAGGGCATCCATAACTGGGGCGATCTGGTGAAGGGCGACGTGCAGATCGTGACGCCGAACCCCAAGACGTCGGGCGGTGCGCGCTGGAACTATCTGGCGGCCTGGGCCTGGGCCAATGAAGAATTCAAGGGCGACAAGGACAAGATCAAGGCCTATGTCGGCGAGCTCTACAAGCGCGCCCCGGTTCTCGACACCGGCGCGCGTGGCTCCACGGTCACCTTCGCCCAGCGCCAGATCGGCGACGTGCTGCTGGCCTGGGAAAACGAAGCCTATCTCGCCGGCCAGGAATTCGGCGCTGACGCCTTCGATATCGTCGTGCCGCCGATTTCGATCCTTGCCGAACCGCCGGTCGCCGTGGTTGACGCCAATGTCGACGCCAAGGGCACCCGCAAGGCGGCGGAAGCCTATCTGCAATATCTCTATTCCGACGAGGGCCAGAATATTGCGGCGAAGCACTTTTACCGCCCGTCCAACCCGGCCGTGGTCTCCAAGGATCTGCTCAAGCAGCTGCCCGACATCAAGCTCGTCACCATCGACGACCCGCAGTTTGGCGGTTGGGCAAAGGCGCAGCCCGAACATTTTGGTGACGGCGGCATCTTCGACCAGATTTACAAGCCCGCAAAGTAA	MSKLLSGLSVVALSLSLALGAAGSAAAQTKLLNVSYDPTRELYKDFNEAFAKKWKADTGEDVTIQQSHGGSGKQARSVIDGLEADVVTLALQSDIDAIVQNSGKINEDWRTRLPHNSSPYTSTIVFLVRKGNPKGIHNWGDLVKGDVQIVTPNPKTSGGARWNYLAAWAWANEEFKGDKDKIKAYVGELYKRAPVLDTGARGSTVTFAQRQIGDVLLAWENEAYLAGQEFGADAFDIVVPPISILAEPPVAVVDANVDAKGTRKAAEAYLQYLYSDEGQNIAAKHFYRPSNPAVVSKDLLKQLPDIKLVTIDDPQFGGWAKAQPEHFGDGGIFDQIYKPAK	PGPT0003015_887	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SULFATE|THIOSULFATE_TRANSPORT,PGPT0003015-sbp-K23163	NA	NA
BMS010_00159	858	cysT_1	COG0555	Sulfate transport system permease protein CysT	ATGAGCAATAATACATCCGGAAACAGGTGGAAATGGCGGCAGTCGAGCGTCATACCGGGCTTCGGCCTGACGCTTGGTTACACAGTGACCTATCTGTTTCTCATCATTCTTATTCCGCTTGGCGGCCTTGTCTGGTCCACGGCGAAACTGGGTTTTTCAGATTTCATTGCGATTGCCACGGATAGCCGCACGCTGAATGCGCTGCGTGTCAGTTTCGGAACGGCATTTCTTGCTGCGCTGGTCAACGCGGTCTTCGGTGTCATCGTCGCCTGGGTGCTGGCGCGTTACCGTTTTCCCGGCCGCCGCTTCGTCGATGCCATCGTCGATCTGCCTTTCGCCCTGCCAACGGCGGTCGCCGGTATCGCGCTGACCACGCTTTACGCCAATCGCGGCTGGGTCGGTTCGCTGTTCGAACCCTTCGGCATCAAGATCGCCTTCACGCCGACCGGCATCGTCATCGCGCTGATCTTCATCGGCCTGCCCTTTGTTGTGCGCACCGTGCAGCCGGTCATGGAAGAAATCGACCGGCAGGTGGAGGAGGTGGCCGCCACGCTTGGCGCCAATCGTTTCCAGACCATCACCCGCGTTCTGCTGCCGAGCCTCACACCCGCGATCCTCACCGGTTTTGCGCTCGCCTTCGCACGCGGTGTCGGCGAATATGGTTCGGTCATCTTCATCGCCGGCAATATTCCTTACGTCTCGGAAATCGCGCCGCTCCTCATCGTCATCCGGCTGGAAGAGTTCAATTATGCGGCCGCGACCGGCATCGCCACCATCATGCTGATCATCTCGTTCGCCATGCTGTTCCTCATCAATCTCATTCAGGCCTGGAGCCGCAAGAGGTACGGTTATGTCTGA	MSNNTSGNRWKWRQSSVIPGFGLTLGYTVTYLFLIILIPLGGLVWSTAKLGFSDFIAIATDSRTLNALRVSFGTAFLAALVNAVFGVIVAWVLARYRFPGRRFVDAIVDLPFALPTAVAGIALTTLYANRGWVGSLFEPFGIKIAFTPTGIVIALIFIGLPFVVRTVQPVMEEIDRQVEEVAATLGANRFQTITRVLLPSLTPAILTGFALAFARGVGEYGSVIFIAGNIPYVSEIAPLLIVIRLEEFNYAAATGIATIMLIISFAMLFLINLIQAWSRKRYGYV	PGPT0003000_607	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0003000-cysT|cysU-K02046	NA	NA
BMS010_00160	873	cysW_1	COG4208	Sulfate transport system permease protein CysW	ATGTCTGAGACCGCTTCCCGCACGTCCCCCCGGCCGTTCCGCGACCCCGCCAGCGAGAGCTTTCCCGCCCGGCTGGCGTTGATCGCCATCGCCTTCGTCTTCCTCGCCGCTTTTCTGGTTCTGCCGCTGGTCTCGGTCTTCTTCGAAGCCTTCCGCAAGGGCACGGAAAGCTTCTGGGAGGCGATTGTCGAGCCGGATGCACTCTCTGCTATCCGCCTGACGCTGCTCGTCGCCGCCATTTCCGTGCCGCTGAACCTCATCTTCGGGGTGATGGCCGCCTGGGCGATTGCGAAATTCGAGTTCAAGGGCAAGGCATTCCTGATTACGCTCATCGACCTGCCGTTCTCGATCTCGCCGGTCATATCGGGCCTCGTCTATGTCATCCTGTTCTCATCCCACAGCGTGTTGGGGCCATGGCTGAAGAGCTACGGCATCGAGATACTTTTCGCCGTGCCGGGCATCGTGCTTGCCACCATCTTCGTCACCTTTCCTTTCGTCGCGCGCGAACTGATCCCGCTGATGCAGGATCAGGGCAATGGCGACGAGGAGGCGGCGATTTCGCTCGGCGCTTCCGGCTGGCAGACCTTCTGGTACGTCACGCTGCCGAACATCAAATGGGGCCTGCTTTACGGGGTGCTGCTCTGCAACGCCCGCGCCATGGGTGAATTCGGCGCCGTCTCGGTGGTCTCGGGCCATATTCGCGGTGAGACCAACACCATGCCGCTGCATGTCGAGATACTCTATAATGAGTACAATATGGGCGCGGCCTTTGCGGTGGCAAAGCTGCTCGCCGGTCTGGCGCTGGTGACGCTCATTCTCAAAACCATTCTCGAAATACGCTTTGGCGCGGGCAACGCAGCCGGCAAGCATTGA	MSETASRTSPRPFRDPASESFPARLALIAIAFVFLAAFLVLPLVSVFFEAFRKGTESFWEAIVEPDALSAIRLTLLVAAISVPLNLIFGVMAAWAIAKFEFKGKAFLITLIDLPFSISPVISGLVYVILFSSHSVLGPWLKSYGIEILFAVPGIVLATIFVTFPFVARELIPLMQDQGNGDEEAAISLGASGWQTFWYVTLPNIKWGLLYGVLLCNARAMGEFGAVSVVSGHIRGETNTMPLHVEILYNEYNMGAAFAVAKLLAGLALVTLILKTILEIRFGAGNAAGKH	PGPT0003005_924	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0003005-cysW-K02047	NA	NA
BMS010_00161	1041	cysA_1	COG1118	Sulfate/thiosulfate import ATP-binding protein CysA	ATGGAAGTGAAAGTTTCCGGCATCACCAAGCAGTTCGACCGCTTTCCGGCGCTGAACGATGTGTCGCTCGACATTCGTTCCGGCGAGCTGATCGCGCTGCTCGGTCCTTCCGGTTCCGGCAAGACGACGCTGCTGCGTCTCATCGCCGGTCTCGAGCAGCCGACGCAGGGGCAAATCTTCTTCGGCAACGAGGATGCGTCCCACCGCACGGTGCAGGAGCGCAATGTCGGTTTCGTGTTCCAGCATTACGCCCTGTTCCGCCATATGACGGTGGCCGACAATATCGCTTTCGGCCTCAAGGTGCGCCCCTCCGCCAACCGCCCGCCGAAAGCCGAGATCCGCAAACGCGTATCCGAACTTCTCGACATGGTGCATCTCTCCGGCCTCGAAAAGCGCTATCCGACCCAGCTTTCCGGCGGTCAACGCCAGCGCGTGGCGCTCGCCCGCGCCGTCGCCATCGAGCCGAAGGTCCTGCTTCTCGATGAACCCTTCGGCGCGCTCGACGCCAAGGTGCGCAAGGAACTGCGCCGCTGGCTGCGCGAATTCCACGACCGCACCGGCCACACCACCGTCTTCGTCACCCACGATCAGGAAGAGGCGCTGGAACTGGCCGACCGCGTCGTCGTCATGAGCCAGGGCAAGATCGAACAGGTCGGCACGGCGGATGACGTCTACGACACGCCCAACTCCCCCTTTGTCTTCTCCTTCATCGGCGAATCTTCCAGCCTGCCGGTGACGATCCGCGACGGCCATGTGCTGTTCCAGGGCGAAAGCATCGGCATCGATGAAAGCGGTTCCGGCGAGGGCGAGCTTTTCTTCCGCCCCGAAGATGTGGTGCTGACGCAAGAGAAGGATGCGCTTTATGGCAAGGTCACCACCTGTCGCCGCCTTGCGGGCACCCGCATCGCCGAAATCGACATCGCCAATAACGGCCATGAACCCTATCACCTCGAAATCGAGGTGCCGCTCAACGCCGCCGTGGCGGTGGGCGCGGAACTGCGCTTCCGGCCGACGCGGTGGAAGGTATTCGGGAAGAAATAA	MEVKVSGITKQFDRFPALNDVSLDIRSGELIALLGPSGSGKTTLLRLIAGLEQPTQGQIFFGNEDASHRTVQERNVGFVFQHYALFRHMTVADNIAFGLKVRPSANRPPKAEIRKRVSELLDMVHLSGLEKRYPTQLSGGQRQRVALARAVAIEPKVLLLDEPFGALDAKVRKELRRWLREFHDRTGHTTVFVTHDQEEALELADRVVVMSQGKIEQVGTADDVYDTPNSPFVFSFIGESSSLPVTIRDGHVLFQGESIGIDESGSGEGELFFRPEDVVLTQEKDALYGKVTTCRRLAGTRIAEIDIANNGHEPYHLEIEVPLNAAVAVGAELRFRPTRWKVFGKK	PGPT0002990_1297	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002990-cysA-K02045	NA	NA
BMS010_00162	366			hypothetical protein	ATGACCGCACTCACCGTCCGTCTCAGCACGATCACGGATATCAAGAGCCGCTTTGTTGCCGCCGGTAATCTGGCCATGTCTGGAAAGCCGGTGGAGGCGAAACCATCTGTCGAATTTTCCAGCTATGAGGACCTGCACCGCATTCTCGCGCCGCTTCGCCTTGCCATCGTCAAGGCTCTGGCGGGACAGGGACCGCTTTCTATCCGGGAGGTTGCCCGCCGGGTCGGACGGGACGTACAGGCCGTTCATCGCGACGTGACGTCGCTCCTCCATGCGGGCATTGTCGACCGGAACGAGGCTGGCATCGAGTTTCCCTATGACAGCATCCACTTCGAATTCGACGTAAAGGCCGCAGATGCGGCATAG	MTALTVRLSTITDIKSRFVAAGNLAMSGKPVEAKPSVEFSSYEDLHRILAPLRLAIVKALAGQGPLSIREVARRVGRDVQAVHRDVTSLLHAGIVDRNEAGIEFPYDSIHFEFDVKAADAA				NA	NA	NA	NA	NA
BMS010_00163	282			hypothetical protein	ATGAAGGCCATTCTGCTCGAAAAGACGCGCAAAGTGATCGACGAGACGGCCTTCTTTGAGGTTGTCCTGTGGCATCTGCCTGAGCCTGTTCCCGGAAGTCTTCACCCGTTCAAATATCGGCTGGCGCTGGTGATCAAAGGGGAATGTGTTCTGCGTTATGACAATGAACGCGGCAAAGGCGATCATCGTCATATGGACGGGCGTGAAGACCCCATTGCCTTCACCACGCTCGAAGCCCTGTTCGATGCTTTTCAGGCGGATATGGAAAGGATTTTGTCATGA	MKAILLEKTRKVIDETAFFEVVLWHLPEPVPGSLHPFKYRLALVIKGECVLRYDNERGKGDHRHMDGREDPIAFTTLEALFDAFQADMERILS				NA	NA	NA	NA	NA
BMS010_00164	1014	qorA_1	COG0604	Quinone oxidoreductase 1	ATGCCCGACACCAAGACCCTGCCCGAAACAATGCGCTTCATCGACCTCCCTTCCCATGGCGGCCCGGAGGTGATGCGGCTTTCGCAAGCGCCTTTGCCGAAGCCCGCAAAAGGCGAGGTTCTGGTAAAGGTCGAGGCGGCGGGCGTCAACCGGCCGGATGTGGCGCAGCGACAGGGGACCTATCCGCCGCCGAAGGATGCAAGCCCGATCCTCGGCCTCGAAATCGCCGGCGAGGTGGTTGCGCTGGGTGAAGAAGTTACCGAATTCAAGCTGGGCGACAAGGTCTGCGCGCTCGCCAATGGCGGCGGTTATGCGCAATATTGCACCGTGCCGGCCGGGCAGGCCCTGCCCTTCCCCAAGGGTTACGACGCCGTCAAAGCCGCGGCTTTGCCGGAAACCTTCTTCACCGTCTGGGCCAACCTCTTCCAGATGGCGGGCCTCACCGAAGGGGAGAGCGTCCTCATCCATGGCGGCACCAGCGGCATCGGCACGACGGCCATCCAGCTTGCCAAAGCCTTTGGCGCGGAGGTCTATGCCACGGCAGGCTCAGCGGAAAAATGCGAAGCCTGCGTGAAGCTCGGCGCCAAACGGGCGATCAACTACCGCGAGGAGGATTTCGCCGAAGTCGTTAAAGCCGAAACCGGCGGCAAGGGCGTCGATGTCGTTCTCGACATGATCGGTGCGGCCTATTTCGAAAAGAACCTTTCGGCACTCGCCAAGGACGGTTGCCTGTCCATCATCGCCTTTCTGGGTGGCGCCGTGGCCGAAAAGGTCAACCTCACCCCCATCATGGTCAAACGCCTCACCGTCACTGGGTCCACCATGCGCCCCCGCACGGCCGACGAAAAACGCGCCATCCGCGACGACCTCGTCGCAGAGGTCTGGCCGCTCATCGAAAGCGGTCAGCTGGCACCTGTCATCAACCGGGTCTTCACGCTGGATGAGGTCGTGGAAGCGCACCGGCTGATGGAAAGCAGCAGCCATATCGGCAAGATCGTGATGCGGGTGTCGTGA	MPDTKTLPETMRFIDLPSHGGPEVMRLSQAPLPKPAKGEVLVKVEAAGVNRPDVAQRQGTYPPPKDASPILGLEIAGEVVALGEEVTEFKLGDKVCALANGGGYAQYCTVPAGQALPFPKGYDAVKAAALPETFFTVWANLFQMAGLTEGESVLIHGGTSGIGTTAIQLAKAFGAEVYATAGSAEKCEACVKLGAKRAINYREEDFAEVVKAETGGKGVDVVLDMIGAAYFEKNLSALAKDGCLSIIAFLGGAVAEKVNLTPIMVKRLTVTGSTMRPRTADEKRAIRDDLVAEVWPLIESGQLAPVINRVFTLDEVVEAHRLMESSSHIGKIVMRVS	PGPT0013255_1693	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
BMS010_00165	1803			hypothetical protein	ATGCAGGCCGTCACGCTGGAGAACGATGTCATAAGGCGTTTTGCCTCCGGGCACATGTTTCCCATGGCGAAACTGGTGCTCGAGACGGCGTTTCAGCCGATTGTCGAGGCGACGACAGGCACGATTTTCGGTTATGAATCGCTGATGCGCGGCCATGACCGGCTCGGTTTTTCCAATCCGCTGGCGCTTCTCGACCAGGCTGCCGCGGATGGCGAGCTGAAGGCCTTCGAGCAGATGCTGGCGAGCCGGGCGCTGGCGAAATTTTCCACCCTGCCCGATTTCTCCTCCGCCACCCTGTTCCTCAATCTGGATGTGCGGCTGATCCCGCATGGCGACGCCATTCTCGACAAGCTCGTCGGCCATCTGGCGCGGGCGGGCATTCCCGCATCCTCCATCTGCTTTGAGCTTTCCGAACGTTTCGACAATACCAGCGTGCCGGAATTCACGGCGCTGATTGCCCGCATGCGCAAGGAAGGCTTCAAGCTGGCCATCGACGATTTCGGCGCCGGTCATGGCGAGATGAAGCTGCTGTGTGATTTCCCGCTGGATTACCTGAAGATCGACCGGCATTTCATCACCGGCGTCGACCAATTGCCGCGCAAGCAGCACCTTGTGCGCAACATCGTCAACATCGCCCATGTTCTTGGTGTGCGGGTCATTGCGGAAGGCATCGAAACCGAAGCGGAGTTTCTGACCTGCCGCGAATTCGGCGTCGATCTGGTGCAGGGCTGGCTGATCGCGAGGCCCACGGTCTTCACCAGCGAGCTGCCGGAGAGCTTTCCCCACATCAACCGCATGGGCGTGGCGCGGCGCAGCAGCCAGACGCTGGATGAGATTCTCATTCGCCGCGAAATCGAGCGTCTTCCGACCGTCTTCGAGCATGACAGCGTCGACAGCGTCTTCGAACTGTTCCGCAGAAATCCGCAGCAGGCGTTTTTCCCGGTTCTCAACGCCAATGGCGAACCGCGCGGCGTCATCAACGAATATCACCTCAAGGAATATATCTACCGGCCCTTCGGCCGCGACCTGCTCAAGAACAAGATCTACGAGCGCACCATTTCCCACTTCGTCGATCCCGCGCCGATTGTCGGCCTCGATGCCGATGCCGATCAGTTGATGAACATGTTCGCCAGCATGGGCGGCAGCGCCTGTATCATCCTCACCGAAAACATGCGTTACGCCGGCATTGTTTCCGCCGCTTCGCTCATCAAGGTCATCAACGAAAAACAGCTGAAGATGGCGCAGGATCAGAACCCGCTGACGGCGCTGCCCGGCAACCGCGCGATTGGCGGTTTCATTGCCGACCGTTGCAGCGATGGCGACGAGGCGCGCTTCTTTTGTTATTGCGACTTCGATAATTTCAAACCTTTCAACGACAAATACGGCTTCAACGCCGGCGACCACGCCATCACCCTGTTTTCGGCCCTGATGCGCCGTTACTTTTTTGCCGGCGATTGTTTCCTCGGCCATATCGGCGGCGACGATTTTTTCATCGGCGTGCGTGACTGGACGGTGGAGGAGCTGACGGAAATCCTCGAGCGGCTGCTCAGCGATTTTCACGACGACGTCGCCGAACTCTATTCGGACGAGGACCGCGCCGCCGGCTGCATGAAGGGCCAGGACCGCCACGGCAATGAGCGAGACTTCGCGCTGCTGCGCTGCTCTATCGGCGTTCTGACCTTGCCGAAAGGGCTGATCATCGCCAATCCCGAGCGGATCGGCAGCGAGATCGCTGGCGTGAAGGCGGCTGCGAAGGAAAACGAAGGCGGTCTCGTCGTCCGGGTCTTCGGCGAGACAAATTGA	MQAVTLENDVIRRFASGHMFPMAKLVLETAFQPIVEATTGTIFGYESLMRGHDRLGFSNPLALLDQAAADGELKAFEQMLASRALAKFSTLPDFSSATLFLNLDVRLIPHGDAILDKLVGHLARAGIPASSICFELSERFDNTSVPEFTALIARMRKEGFKLAIDDFGAGHGEMKLLCDFPLDYLKIDRHFITGVDQLPRKQHLVRNIVNIAHVLGVRVIAEGIETEAEFLTCREFGVDLVQGWLIARPTVFTSELPESFPHINRMGVARRSSQTLDEILIRREIERLPTVFEHDSVDSVFELFRRNPQQAFFPVLNANGEPRGVINEYHLKEYIYRPFGRDLLKNKIYERTISHFVDPAPIVGLDADADQLMNMFASMGGSACIILTENMRYAGIVSAASLIKVINEKQLKMAQDQNPLTALPGNRAIGGFIADRCSDGDEARFFCYCDFDNFKPFNDKYGFNAGDHAITLFSALMRRYFFAGDCFLGHIGGDDFFIGVRDWTVEELTEILERLLSDFHDDVAELYSDEDRAAGCMKGQDRHGNERDFALLRCSIGVLTLPKGLIIANPERIGSEIAGVKAAAKENEGGLVVRVFGETN				NA	NA	NA	NA	NA
BMS010_00166	621	betI_1	COG1309	HTH-type transcriptional regulator BetI	ATGCCCAAGATCGGAATGGAGCCTCTGCGCCGGAAGGCGCTGGTGGATGCGGCGCTTCGCACCATAGGCCACCATGGTTCGCTGAATGTGACGATGTCGGATATCGCCCGGGAAGCGGGCGTGTCGGCGGCGCTCGCGCATCATTATTTCGGCAGCAAGCAGCAGCTTCTGCTGGAAACCATTCGCAGCCTGCTGCGCGATCTCAGGCGTGATGCGGTCGCGGCTTTGACCCGCGCTTCCGGCCCGCGTGAAAGGTTGAGCGCCATCGTGCATGTCTCCTTCCAGAGCGACCAGTTCACGCCCGAAACGGTGGCGGCGTGGCTGGCCTTTTATGTCGAGGCGCAGCGCTCGGAAGAAACCCGCCGCCTGCTCGTGCTCTATTCGCGCCGTCTGCGCTCCAACCTCATGGCGAGCCTCAACCGGCTTTGCCCGCCAGACGATGCCGCGCGCATCGCGGAAGGCGCGGCCGCCTTGATCGACGGGCTTTATATTCGCCACAGCCTGCGCTCGGCGCCGCTCGGCCTTGCCTCCGCACCGGCGCTTGTCGAGGATTATTTCGACATGCAGCTCAAATCTTTTCCCGATGGACAGCGCCCAAAGCCGTCCATCCGCGTTCTTTAA	MPKIGMEPLRRKALVDAALRTIGHHGSLNVTMSDIAREAGVSAALAHHYFGSKQQLLLETIRSLLRDLRRDAVAALTRASGPRERLSAIVHVSFQSDQFTPETVAAWLAFYVEAQRSEETRRLLVLYSRRLRSNLMASLNRLCPPDDAARIAEGAAALIDGLYIRHSLRSAPLGLASAPALVEDYFDMQLKSFPDGQRPKPSIRVL	PGPT0013625_317	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013625-betI-K02167	NA	NA
BMS010_00167	1482	betB_1	COG1012	NAD/NADP-dependent betaine aldehyde dehydrogenase	ATGACTATCGCGACGCCGCTGAAGGCGCAGCCGAAAGCCTCGCATTTCATCGACGGGGACTATGTCGAAGACACGACCGGCACGCCGTTCGAGAGCATCTTCCCGGCCACCGGCGAGGTGATTGCAAGGCTGCATGCGGCAACGCCTGCCATCGTCGAGCGCGCCATCGCATCGGCCAAACGGGCGCAGAAGGAATGGGCGGCGATGAGCCCGATGGCGCGCGGCCGCATCCTCAAACGCGCCGCCGATATCATGCGCGAGCGCAACGATGCGTTGTCCACGCTGGAGACGCTGGATACCGGCAAGCCGATTCAGGAAACCATCGTCGCTGACCCGACCTCCGGCGCGGATGCCTTCGAATTTTTCGGCGGCATCGCCCCTTCCGCGCTGAACGGCGATTACATCCCCCTCGGCGGCGATTTTGCCTATACCAAGCGCGTGCCGCTCGGCGTCTGCGTCGGCATCGGAGCGTGGAACTATCCGCAGCAGATCGCCTGCTGGAAGGCCGCTCCCGCGCTGGTCGCCGGCAATGCCATGGTCTTCAAACCTTCGGAAAACACCCCGCTCGGCGCCTTGAAGATCGCCGAAATCCTCATCGAAGCCGGCCTGCCAAAGGGCCTGTTCAACGTCATTCAGGGCGATCGCGATACCGGCCCGCTGCTGGTTAACCACCCGGATGTGGCCAAGGTCTCGCTTACCGGCTCAGTCCCGACCGGCCGCAAGGTAGCCGCCGCCGCTGCCGGGCATCTGAAGCACGTGACCATGGAACTCGGCGGCAAATCGCCGCTGATCGTCTTCGACGACGCCGATATCGAAAGCGCTGTCGGCGGGGCCATGCTCGGCAACTTCTATTCCTCCGGCCAGGTCTGCTCCAACGGCACCCGCGTCTTCGTGCAGAAAAAGGCGAAGGAGCGTTTCCTCGACAATCTGAAGCGCCGCACGGAGGCGATGATCCTCGGCGATCCGCTCGACTACGCCACCCATCTCGGCCCGCTGGTCTCCAAGGCCCAGCAGGAGAAGGTCCTTTCCTATATCGAAAAGGGTAAGGCAGAGGGCGCGACGCTCATCACCGGCGGCGGCATTCCCAACAACGTCTCGGGCGAGGGCGCTTATGTGCAGCCGACCGTCTTCGCCGATGTGACCGACGACATGACCATCGCCCGCGAGGAAATCTTCGGGCCCGTCATGTGCGTGCTGGATTTCGACGATGAAGACGAGGTTCTTACCCGCGCCAACGCCACCGAATTCGGCCTCGCCGGCGGCGTCTTCACCGCCGATCTCGCCCGCGCCCATCGCGTGGTGGACCAGCTGGAAGCGGGCACGCTGTGGATCAATACCTATAATCTCTGCCCGGTCGAAATCCCCTTCGGCGGTTCCAAGCAATCCGGCTTCGGGCGGGAGAATTCGGCCGCCGCGCTGGAGCATTATAGTGAGTTGAAGACGGTTTATGTGAGCACTGGGAAGGTGGACGCGCCTTATTGA	MTIATPLKAQPKASHFIDGDYVEDTTGTPFESIFPATGEVIARLHAATPAIVERAIASAKRAQKEWAAMSPMARGRILKRAADIMRERNDALSTLETLDTGKPIQETIVADPTSGADAFEFFGGIAPSALNGDYIPLGGDFAYTKRVPLGVCVGIGAWNYPQQIACWKAAPALVAGNAMVFKPSENTPLGALKIAEILIEAGLPKGLFNVIQGDRDTGPLLVNHPDVAKVSLTGSVPTGRKVAAAAAGHLKHVTMELGGKSPLIVFDDADIESAVGGAMLGNFYSSGQVCSNGTRVFVQKKAKERFLDNLKRRTEAMILGDPLDYATHLGPLVSKAQQEKVLSYIEKGKAEGATLITGGGIPNNVSGEGAYVQPTVFADVTDDMTIAREEIFGPVMCVLDFDDEDEVLTRANATEFGLAGGVFTADLARAHRVVDQLEAGTLWINTYNLCPVEIPFGGSKQSGFGRENSAAALEHYSELKTVYVSTGKVDAPY	PGPT0007165_1157	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0007165-betB_homologous-K00130	NA	NA
BMS010_00168	1650	betA_1	COG2303	Oxygen-dependent choline dehydrogenase	ATGCAAGCAGATTACGTCATCGTCGGTTCGGGTTCCGCAGGCTCCGCCATCGCCTATCGCCTGTCGGAAGACGGCCGCTATTCGGTGATCGTCATCGAGGCCGGCGGTTCGGATTTCGGCCCCTTCATCCAGATGCCGGCCGCACTCGCATGGCCGATGAGCATGAAGCGCTATAATTGGGGCTATCTCTCCGAGCCCGAGCCGAACCTCGACAATCGCCGCATCACGGCCCCGCGCGGCAAGGTTATCGGCGGTTCGTCCTCCATCAACGGCCTCGTTTACGTGCGCGGCCATGCCGAGGATTTCAACCGCTGGGAAGAGCTTGGCGCGCATGGCTGGGCCTATGCGGATGTGCTGCCTTACTTCAAGCGCATGGAACACAGCCATGGCGGCGAAGAAGGCTGGCGCGGCACGGACGGGCCGCTGCATGTGCAGCGCGGCCCGGTCAACAATCCGCTGTTCCACGCCTTCATTCAGGCGGGCGCTGAGGCCGGTTTCGAACTGACCGACGATTACAACGGCTCCAAGCAGGAGGGGTTCGGCCTGATGGAGCAGACCATCCACAATGGCCGTCGCTGGTCCGCCGCGAATGCCTATCTCAAACCGGCGCTGAAGCGCGGCAATGTCACGCTGGTCAACGGTTTCGCCCGCAAGATCGTCATCGAGAACGGCCGCGCGGTTGGTGTCGAGATCGAGCGCAAGGGCGTGGTGGAAACCATTCCGGCCAATCGCGAAGTCATCGTCTCGGCATCCTCCTTCAATTCGCCGAAACTGCTGATGCTCTCAGGCATCGGCCCCGCCGCGCACCTGAAAGACATGGGCATTGAGGTGAAGGCGGATCGCCCGGGCGTGGGCGAGAACCTTCAGGACCATATGGAGTTTTATTTCCAGCAGGTCTCCACCAAGCCGGTCTCGCTTTATTCCTGGCTGCCATGGTTCTGGCAGGGCGTGGCGGGTGCGCAATGGCTGCTGTCGAAAGGCGGGCTTGGCGCTTCCAACCAGTTCGAGGCCTGTGCTTTCCTGCGCTCAGCAGCCGGTCTGAAGCAGCCTGACATCCAGTATCATTTCCTGCCCGTTGCCATTTCCTATGATGGCAAAGCGGCGGCGAAAAGCCATGGTTTTCAGGTGCATGTAGGTTACAACCTGTCGAAATCGCGCGGGAATGTTACCTTGCGTTCCGCAGACCCACATGACGACCCGGTCATCCGCTTCAACTATATGAGCCACCCGGAAGACTGGGAAAAATTCCGCCATTGCGTGCGCCTGACGCGCGATATCTTCAGCCAGAAAGCCTTTGACGATTTTCGCGGACCGGAAATCCAGCCCGGCGAAAATGTGGAGACGGATGAGGAGATCGACGCCTTTTTGCGCGAGCATCTGGAAAGCGCCTATCACCCCTGCGGCACCTGCCGCATGGGCGACAGGGACGACCCGATGGCCGTCGTCGATCCCGAATGCCGGGTGATTGGCGTTGAGGGCTTGAGAGTGGCGGACAGCTCGATCTTCCCGCATGTGACCTATGGCAACCTCAACGGCCCGTCGATCATGACCGGCGAAAAGGCGGCGGATCATATTCTCGGCAAGACCCCGCTGCCGCGCTCCAATCAGGAACCGTGGGTAAATCCGCGCGCGGCCGTGAGCGACCGGTAA	MQADYVIVGSGSAGSAIAYRLSEDGRYSVIVIEAGGSDFGPFIQMPAALAWPMSMKRYNWGYLSEPEPNLDNRRITAPRGKVIGGSSSINGLVYVRGHAEDFNRWEELGAHGWAYADVLPYFKRMEHSHGGEEGWRGTDGPLHVQRGPVNNPLFHAFIQAGAEAGFELTDDYNGSKQEGFGLMEQTIHNGRRWSAANAYLKPALKRGNVTLVNGFARKIVIENGRAVGVEIERKGVVETIPANREVIVSASSFNSPKLLMLSGIGPAAHLKDMGIEVKADRPGVGENLQDHMEFYFQQVSTKPVSLYSWLPWFWQGVAGAQWLLSKGGLGASNQFEACAFLRSAAGLKQPDIQYHFLPVAISYDGKAAAKSHGFQVHVGYNLSKSRGNVTLRSADPHDDPVIRFNYMSHPEDWEKFRHCVRLTRDIFSQKAFDDFRGPEIQPGENVETDEEIDAFLREHLESAYHPCGTCRMGDRDDPMAVVDPECRVIGVEGLRVADSSIFPHVTYGNLNGPSIMTGEKAADHILGKTPLPRSNQEPWVNPRAAVSDR	PGPT0013615_2737	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013615-betA|CHDH-K00108	NA	NA
BMS010_00169	300			hypothetical protein	GTGACCTTCAATCTCCGGTACACGATTGCAGCCCGAGCGGACATAACCCGGCTATATGATTTTTTACTGGAAAAGGATTTTTCGACGGCGGAAAAAGCCGTGGACCGCATCATTTCGACGATTGAGGGACTGAGCGAGTTTCCTTTCGCAACGCGCAAGGCGCCTGGGGACAACGCACTCTTACGAGAACTGATCGTTCCGTTCGGATCTTCCGGTTACATCGTCCTCATTCAAATCGAAGATGCGGAAACCGTGTCCATCCTCGCGATCCGCCACCAGCGCGAGGACGATTACCATTGA	MTFNLRYTIAARADITRLYDFLLEKDFSTAEKAVDRIISTIEGLSEFPFATRKAPGDNALLRELIVPFGSSGYIVLIQIEDAETVSILAIRHQREDDYH	PGPT0027550_1432	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-ParE-ParD|paaAR_TOXIN-ANTITOXIN_SYSTEM,PGPT0027550-toxin_parE1_3_4-K19092	NA	NA
BMS010_00170	273			hypothetical protein	ATGAAAACGGCAACGATCCCTTCGCTGCGGGTGACGGCGGATTTTCGCGAGGCTGCTGAAAGCGTGCTGAAGGAAGGCGAGACGCTTTCTTCCTTCGTTGAAGAGTCCGTGCGCAGGCAGGTGGAAATCCGTAAATCCCAGGCGGAATTCATTGCGCGCGGGCTGGCGTCACTCGAGGAATCCAAACGCACGGGGATTTTTTATTCGGCCGAAGAGGTGCATGCGGAATTGCGGGCGATGCTCGCCGCCAAGAAAGCTGAGCGTGGCGAGTGA	MKTATIPSLRVTADFREAAESVLKEGETLSSFVEESVRRQVEIRKSQAEFIARGLASLEESKRTGIFYSAEEVHAELRAMLAAKKAERGE				NA	NA	NA	NA	NA
BMS010_00171	1344	clcA	COG0038	H(+)/Cl(-) exchange transporter ClcA	ATGCCCGTCGACTACAAAAAGCTGAAGATGCTCCGCCGTTCCCGTGTCGTTTGGGGTTCGTGGCGGGTGTGGAGGCCGAGGGCGGTTTTCTGGATTGGCGCGATTGCGGTCGGCCTTATCAGCGTCGGCTTTGCGTGGGCGGCGGATCGGGCCCAGCACCTTTTCTTCGCGGCAACCTCATCGGGCGAATGGGCGTTTATGCTGCCGCTCATCATCACGCCGCTCGGCTTCACGCTCTGCGCCTGGCTCGCGATCACGGTTTTCCCCAATGCCGGCGGCAGCGGCATCCCGCAGGCCATCGCCGCGCGGCACCTGCGGGAAGATGCGGACCGTTCGCGACTTCTGTCGCTGAAGCTCGCTTTCGGCAAGGTGGTGTTGACCGTTGCTGGCCTGCTCTCCGGTGCCTCCATCGGCCGTGAGGGCCCGACCGTTCAGGTTGGCGCCTCGATCATGCTGCAGGCCGCCCGCTGGGGCGGCATGGCGCAGGCGAAGGGACTTATTCTCGCTGGCTCGGCGGCGGGCATTGCGGCGGCCTTCAACACGCCGCTCGCCGGCATCGTCTTCGCTATCGAGGAAATGAGCAAGACCTATGAATCCCGCGCCAATGGCCTCGTTCTCACTGCCGTCATCCTGTCGGGCCTCGCTTCGCTGGCGCTGGTCGGCAGCTATACCTATTTCGGCACCAGTTCGGTGATGGCGAAAACGACCATGGACTGGCTGCTGGTTCTGGTCTGCGGCATTGGCGGCGGCGCGTTCGGCGCGCTGTTCAGCGCCGGTGCCCTGAGGCTCTCGGCACGTATCCGCCGTTTTGCCCAGACCATGCCGCTGAAGCGGATGCTGGCGGTCGCCGCCGCCTGCGGCCTTGCCTCCGCCGTCCTCGGCATCGCGACTGGCGGCGCGACCTTCGGCACCGGTTACGAACAGGCACGCGCGGCAATCGAGGGCGAGGCCGCGCCGGCATTCTTCTTCATCGAAAAACTGGCGGCGACGTTCCTCGCCATGATGTCGGGCATTCCGGGCGGCATTTTCGCGCCGTCGCTGTCAGTAGGCGCGGGCTTTGGCAGCACCATGGCCACCCTGCTCGGCACCAGCATCGGCCTTGGCGCCATTGTCGGCATGGCGGGTTATTTTGCCGGCGTGGTGCAGGCGCCGATGACGGCTTTTGTCATTATCCTTGAAATGACCGGCAATCATGAAGGCGTCATGCCCATCATGGCCGCATCGATGCTCGGATATCTGACGTCGCGGCTTTTCTCCCGCGAGCCGCTTTATCATGGCCTGTCGCGGGTCTTCATCGCCCAGAGCATCCGCGCCCGGCGCGCCGCTCAGGCCAGCGAAACCTAA	MPVDYKKLKMLRRSRVVWGSWRVWRPRAVFWIGAIAVGLISVGFAWAADRAQHLFFAATSSGEWAFMLPLIITPLGFTLCAWLAITVFPNAGGSGIPQAIAARHLREDADRSRLLSLKLAFGKVVLTVAGLLSGASIGREGPTVQVGASIMLQAARWGGMAQAKGLILAGSAAGIAAAFNTPLAGIVFAIEEMSKTYESRANGLVLTAVILSGLASLALVGSYTYFGTSSVMAKTTMDWLLVLVCGIGGGAFGALFSAGALRLSARIRRFAQTMPLKRMLAVAAACGLASAVLGIATGGATFGTGYEQARAAIEGEAAPAFFFIEKLAATFLAMMSGIPGGIFAPSLSVGAGFGSTMATLLGTSIGLGAIVGMAGYFAGVVQAPMTAFVIILEMTGNHEGVMPIMAASMLGYLTSRLFSREPLYHGLSRVFIAQSIRARRAAQASET				NA	NA	NA	NA	NA
BMS010_00172	798			hypothetical protein	ATGTGGTTGATACCGCAATTGATTTTTCGATGCACGGGGCTGTTCGTGAAATTTGCAAAACGTCTGCTGCTGGCGATTGCCGTTATCTATCTGCTTCCCGCGCTGGCATCGGCCGGGCTGTGGGCCATGAAAGACCATCCGCGCGGCTGGAACGCCGCAAGATGGTCGTCCTCCGGCATGCTGCCGGCGGCGTCTAGCAACGGCGAAGCCGCCGTCTACGTCTTTTCCGCCATGACCGGCGGCTTCAAGGGCTCCGTCGCCAGCCACGCCTGGGTCGTGCTGAAAAAGCCGGGTGCCGCGAGCTATGACCGTTATGACAAGGTGGGCTGGGGCACGCCGATCCGCCACAATGGTTATGCGGCGGATGCCTACTGGTATTCCAACATGCCGCGCCAGGTGGTGGCCATTCACGGTGCGGAAGCGGAAAAGCTGATCCCTAAGATCGAAAAGGCGATTGCTGACTATCCCTATGGCAAGCGGGGTGGATATCGCATCTATCCCGGCCCCAACTCCAACACCTTCGTCGCCCATGTACTGCGCAGCGTGCCGGAACTCGGCGTCGTACTGCCGCCGGATGCGGTCGGCCGCGACTATCTGCCGGATGGCGCGTTTTACCACATCGCCGATGACTGGAAGGATGCAAGCGTTTCGCTCGGCGGCCTGTTCGGCGTTTCGGCGGGTGCACGCAGCGGTTTCGAGATCAATTTTCTCGGTCTTGTCGCCGGCATCGATTTCAGCCGGCCCGGCGTAAAGATACCGGGGCTCGGTTACTTCGGCGTGGCGGGCATCCGCGCATAA	MWLIPQLIFRCTGLFVKFAKRLLLAIAVIYLLPALASAGLWAMKDHPRGWNAARWSSSGMLPAASSNGEAAVYVFSAMTGGFKGSVASHAWVVLKKPGAASYDRYDKVGWGTPIRHNGYAADAYWYSNMPRQVVAIHGAEAEKLIPKIEKAIADYPYGKRGGYRIYPGPNSNTFVAHVLRSVPELGVVLPPDAVGRDYLPDGAFYHIADDWKDASVSLGGLFGVSAGARSGFEINFLGLVAGIDFSRPGVKIPGLGYFGVAGIRA				NA	NA	NA	NA	NA
BMS010_00173	999			hypothetical protein	ATGAACAATTCCGTTACCGTCGAAGTCACCCGCGGCAACCTCGTGGAAAGCCGCCATCAGGGCCTTGCCGTGGTGGTGGATGGCGATGGCGGCGTGCTGTTTTCGGCTGGCGATATCGAGCGCGGCATCTTCCCGCGTTCCGCCTGCAAGGCCATGCAGGCGCTGCCGCTGGTGGAAAGCGGCGCTGCGGATGCCTACGGCTTCGGCAACCGCGAACTGGCGCTTGCCTGTTCCTCCCATTCCGGCGAGGACGCGCATGTGGAGCTCGCCGCTTCGATGCTGGCGAAGGCGGGCAGGGATGCCGATACGCTGGAATGCGGCGCGCACTGGTCTTCCGACCAGAAAACCATCATCCATCAGGCCCGCACGCTGGAAAAGCCGACGGCGCTTCACAATAATTGCTCCGGCAAACATTCCGGTTTCATCTGCGCCTGCTGCCACACCGGCACTGACCCCAAGGGCTATGTCGGTTACGATCACCCGCTGCAGCAGGAAATCCGCGCCACGATGGCAAGCCTGACGGGTGCTGCTCTCGGTCAGGACAATTGCGGCGTGGATGGCTGCTCCATCCCCACCTATGCCGTACCGCTCAAAGGGCTGGCGCATGGTTTCGCGAAAATGGCGACGGGCAGGGGGCTGGAACCGGGCCGTGCGAAAGCCTTGCGCCGTCTCGTGGAGGCCTGCATGGCGGAGCCCTTTTACGTGGCGGGTACCGGCCGCGCCTGCACGAAACTGATGCAGATCGCGCCGGGAAAAATCTTCGCAAAGACCGGCGCGGAGGGCGTCTTCGTCGCCGCCCTGCCGGAAAAGGGCATTGCCATGGCGGTGAAATGCGAAGACGGCACGACGCGGGCGGCGGAAGCCATGGTCTCGGCACTGCTGGCCCGCTATTTCGATGAAGGCAGCGCCGAGCAACAGGCTTTGAGCGGCATGGCGAACCGGCAGATGCGCAACTGGAACGGCATCCATGTCGGCGATGTCAGAGTCGTCGGGCTTTAA	MNNSVTVEVTRGNLVESRHQGLAVVVDGDGGVLFSAGDIERGIFPRSACKAMQALPLVESGAADAYGFGNRELALACSSHSGEDAHVELAASMLAKAGRDADTLECGAHWSSDQKTIIHQARTLEKPTALHNNCSGKHSGFICACCHTGTDPKGYVGYDHPLQQEIRATMASLTGAALGQDNCGVDGCSIPTYAVPLKGLAHGFAKMATGRGLEPGRAKALRRLVEACMAEPFYVAGTGRACTKLMQIAPGKIFAKTGAEGVFVAALPEKGIAMAVKCEDGTTRAAEAMVSALLARYFDEGSAEQQALSGMANRQMRNWNGIHVGDVRVVGL				NA	NA	NA	NA	NA
BMS010_00174	621	gstB_1	COG0625	Glutathione S-transferase GST-6.0	ATGTTCACACTGTTTTTCTCCCCCGGTTCCTGCTCCCGCGCCAGCCATATCGTGCTTGAGGAATCCGGCCTGCCTTACAAGGCCCACCGCGTCAATTTCGCGGAGGGCGAGCAACGCTCCGAGGCATTTTTAAAGATCAATCCGAAGGGTCGCGTGCCCGCATTGGCCACGGCAAGCGGCGTGCTGACGGAGACGCCCGCCATCCTCGCCTTCATCGCCCAGATGGCGCCGGAAAAGAAGCTCGCGCCGCTCGACGATCCATTCGAATTCGCGCTGATGCAGTCGTTCAACGCCTTCATTTCCTCCACCGTGCATGTCGCCCACGCGCATGGCCGGCGCGGCAGCCGCTGGGCGAATGAGGATAGTTCGCTGGCCGATATGAAGGCGAAAGTGCCGCAGACCATGGGCGAGTGCTTCGAACTGATCGAGCACGGCCTGCTGCACGGTCCCTGGGTTCTGGGCACCGCCTATTCGGTTGCCGATCCCTATCTTTTCGTCATGTCCGGCTGGCTGGAAAGCGATGGCGTGGATATTGCCCGCTTCCCGAAGGTGCACGACCACTTCCGCCGCATGAACGACCGGCCGGCGGTGCAGCGGGCGCTGGCGGGAGAGAGGGGTTGA	MFTLFFSPGSCSRASHIVLEESGLPYKAHRVNFAEGEQRSEAFLKINPKGRVPALATASGVLTETPAILAFIAQMAPEKKLAPLDDPFEFALMQSFNAFISSTVHVAHAHGRRGSRWANEDSSLADMKAKVPQTMGECFELIEHGLLHGPWVLGTAYSVADPYLFVMSGWLESDGVDIARFPKVHDHFRRMNDRPAVQRALAGERG	PGPT0013170_18335	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS010_00175	660			hypothetical protein	ATGTTGACGATTTACGGTGTCTACCGTTCCCGTGCCACGCGCACGCTGTGGCTTGCGGGTGAACTGGGCATAGAATTCAAGCATGTGCCCGTGATACAGGCCCGCCGCCTTGCCGATCCGCTGGCTGCGGATGCGCCGCTCAACACGCTGTCTCCCGCATTTCTCGCCGTCAACCCGATGGGCACCATTCCCTGCATCGAGGATGACGGCATGGTGCTTTACGAATCCATGGCCATCAATCTCTACCTTGCCCGCAAATATGGCGGACCGCTCGCCCCCATCGACCTGAAGGAAGATGCGGCGATGCTGCAATGGTCCTTCTTTGCCGCTACCGAAATCGAGACCAATTCGCTGAAGATTTCCTCCGCCATCGCCGAAGGCCTGTCGGAAAGCGATAGCGGCAAGGCCGTGATCGATGTCGCCGCCCGTCTGCTGAAACGCCCCTTCCGGGTGCTGGAGCAGCATCTTTCCAGCCATGATTATCTGGTGGGCGACCGTTTCACCGTCGCCGATCTCAACGCGGCGGAAATCGTTCGTTACGCGCAGGGCCACAAGCCGCTGTTCGACGCCCATCCGGCGCTGAAAGCCTGGCTGGATCGCTGCCAGGCCCGCACGGCGTTCAAGACCATGTGGGATACGCGTGCGGCCGAGGCGGCCTGA	MLTIYGVYRSRATRTLWLAGELGIEFKHVPVIQARRLADPLAADAPLNTLSPAFLAVNPMGTIPCIEDDGMVLYESMAINLYLARKYGGPLAPIDLKEDAAMLQWSFFAATEIETNSLKISSAIAEGLSESDSGKAVIDVAARLLKRPFRVLEQHLSSHDYLVGDRFTVADLNAAEIVRYAQGHKPLFDAHPALKAWLDRCQARTAFKTMWDTRAAEAA	PGPT0013170_11063	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS010_00176	516			hypothetical protein	GTGGCGACTGAGGAAAACTGGAACGAGGATCTGCCCGAGGACATCAAGCGGATAGGCAATACGATGACGCGCATGCGCATCATGATCGGCCGCCGCATCATCGGCCGCATGGCGCTTGCCAAGCTCGCTCCGGGTCTCGAACTTTCCCATATCGACGTTCTCGATATTCTGCGCCGGGCGGAAGGCGATGTGACCGTGGGTGCGATTGCCGAAGGCATGCGCATCGACCCTTCCCGCGGCAGCCGGGTGGTGGCGGATATGGTGGGGCGCGGCCTGCTGAAACGCGGCGTTTCCCAGAAGGACGGCCGCCGCAGCATTGTCGAGATCACGCCGCTCGGCACCAGTCTTTTGCAGGAGATGCGCCGGACCAAGATGAGCGTCATCGAGGATGTGATGGATGGATGGCCGGCGGAGGATGTGGAAACATTCGCCCGCCTGTTCGAACGCTTTATCGACCGTTTCGAATATCGTCTGTCGCCGGATACGGACTTCTTCACGGATCAGAAAAAATCATAG	MATEENWNEDLPEDIKRIGNTMTRMRIMIGRRIIGRMALAKLAPGLELSHIDVLDILRRAEGDVTVGAIAEGMRIDPSRGSRVVADMVGRGLLKRGVSQKDGRRSIVEITPLGTSLLQEMRRTKMSVIEDVMDGWPAEDVETFARLFERFIDRFEYRLSPDTDFFTDQKKS				NA	NA	NA	NA	NA
BMS010_00177	1530	mdtD		Putative multidrug resistance protein MdtD	ATGGATATGTCCACCGCCCCCGTGGCGCCGCTTGTGTCGGATCATCGGCGCAGGCTCATCGTCTTTCTGTTCCTGATGCTGGCCATGTTCATGGCGACCCTCGATAACCAGATCGTATCGACAGCACTGCCCACCATCGTCGGCGAGTTCGGCGCGCTGGAGCGTTTCGGCTGGATCGGCTCGGCCTATCTTCTGGCGACCAGCGCGGTCATGCCGGTTTATGGCAAGCTCGGCGATCTGTTCGGCCGCAAATATGTGATGATCGCGGCGGTCGTCATCTTCACGCTCGGCTCGCTCGCCTGCGGTCTGGCATGGTCGATGGATTCGCTGATTGCCGCCCGCGTGTTGCAGGGGCTTGGCGGCGGCGGCATCATGGTGTCGATCTTTTCCGTCAATGCGGACCTGTTTGAACCGCGCGAACGCGCCCGCTACCAGAGCTACTCCAGCCTCACCATCATGGCATCCGGCAGTGTCGGCCCGATCCTCGGCGGCACGATGAGTGATCTCTTCGGCTGGCGGTCGATCTTCCTCATCAACCTGCCGCTTGGCATTATCGTGATTGCAGGGCTGGCGTTGATGCTGCCGTACCGTCGTCCGGCCCGCCAGCCGAAGATCGATTATCTCGGCGCGGTGCTCTTGGCGGCCACCATTGCCAGCGTGGTCTTCTGGGCCGACAGCAGCGAATTGTTCGGCTCGCTCATCGCAGCCCCCAGCCTCGGCATCATTGCTTTCGCCGTCATCGCCGCCTTTCTCTGGGTGCAGGTGGAACGCCGCGCGCCGGAACCGGTCGTGCCGCTGCGTCTCTTCAAGGACAGCACCTTTCCGCTGTTGATGATCGTGTCGCTGACCAGCGGCGGCATCGGTATCGGCATGGTCAATTATTATGCCCTGTTCCTGCAGACCACGACCGGGCTTTCGCCCTCCCATGCCGGCCTGTTCTTCATCGCCGTCACCGGCGGCATCGTCATGGGCTCGCTTTCGGCGGGACGGCTGATTTCGATCACCGGCGTCTACAAGCCCTTCTCGGTGGCGGGTCTCTCCATCAACGTCATCGCCATGCTGCTCTTCACGCAGATGCATGCAGGAACGCCGCTTTGGGTGATTGCGGTCCTCATGTTGGCACAAGGCTTTGCTGTCGGCCTCGGCCAGCAGGCGCCAATCATAGGCGTGCAGAATTCCGCGCCCAAGGCGGATATCGGTGCGGCGAGCGGCGCGGTGACCCTGACCCGCATGGGTGGCGCTGCCATTGCCATCTCGGTCTATGGCGCCATCGTGTCATCGAGCCTGAAGGGTGTGGCGGTCGATATTCCCGGCGTCGGCAAGATCGAGGAACTGACGCCGAAAATGCTCTCCGAACTCCCGGCCGCCTCGCAGGCCGCCGTCGCCTCGCTCTATTCGGATGCGTTTACGCCGCTCTTCTTCGCGGCCGCCGCAACCGCTGCCATCGGCCTTGCGGCGGCGCTGATGCTGAAACCGGTGCGACTGCCCGCGGCGGTGCAGGCGAAGCCGGCCGAAGGGGCGGGGGAGTAG	MDMSTAPVAPLVSDHRRRLIVFLFLMLAMFMATLDNQIVSTALPTIVGEFGALERFGWIGSAYLLATSAVMPVYGKLGDLFGRKYVMIAAVVIFTLGSLACGLAWSMDSLIAARVLQGLGGGGIMVSIFSVNADLFEPRERARYQSYSSLTIMASGSVGPILGGTMSDLFGWRSIFLINLPLGIIVIAGLALMLPYRRPARQPKIDYLGAVLLAATIASVVFWADSSELFGSLIAAPSLGIIAFAVIAAFLWVQVERRAPEPVVPLRLFKDSTFPLLMIVSLTSGGIGIGMVNYYALFLQTTTGLSPSHAGLFFIAVTGGIVMGSLSAGRLISITGVYKPFSVAGLSINVIAMLLFTQMHAGTPLWVIAVLMLAQGFAVGLGQQAPIIGVQNSAPKADIGAASGAVTLTRMGGAAIAISVYGAIVSSSLKGVAVDIPGVGKIEELTPKMLSELPAASQAAVASLYSDAFTPLFFAAAATAAIGLAAALMLKPVRLPAAVQAKPAEGAGE				NA	NA	NA	NA	NA
BMS010_00178	1017			hypothetical protein	ATGAATATGAAGCCGGAACAGCTCCTGAATTCCACGCCCAAGGGCCTTTATTGCCCGGCGGGCGATTTTTATATCGATCCCGTGCGCCCGGTGGCGCGGGCGCTCATCACCCATGGCCATTCCGATCACGCCCGCGCCGGCCATGGCGCGGTGCTCGCCACGCGCCAGACGCTGGATATCATGCGTATCCGTTACGGTGAGGATTTCTGCGGCAGCGAGCAGGCGGTAGCATTCGGCGAGACGGTGGAGGTGAACGGCGTCACCGCCGGTTTCCATCCCGCCGGCCATGTGCTGGGTTCGGCGCAAATCTCGGTGGAAATGAACGGCCTGCGCATCGTCGCATCGGGCGATTACAAGCGCGGCGTCGACCCCACCTGCGCACCCTTCGAGATCGTTCCCTGCGATGTCTTCATCACCGAGGCCACCTTCGGCCTGCCGGTGTTTCACCATCCGCTGCCGCGCGTGGAAACGGCCAAGCTGCTCACCTCCATCAAACAGTTTCCCGAACGAACCCATCTTGTCGGGGCCTATTCGCTCGGCAAGGCGCAGCGCGTCATCCGGCTTTTGCGGGACAACGGTTATTCCGATCCCATTTATATTCACGGCGCGCTGGCGCGGCTTTGCGATTATTACGTCTCGCAGGGCATCGATCTCGGCGATCTGCGCCCGGCCACGCTCGAAAAAAGCGATCCTTCCGCCTTCAAGGGCGCCATCGTCGTCGGTCCACCCTCGGCTTTTCAGGAACGCTGGGCGCGACGCTTCAATGAACCGCTCATCGCTTTCGCCTCCGGCTGGATGATGGTCCGGCAGCGCGCCAAACAGGGCGGTGTGGAGCTACCGCTGGTGATATCAGACCATTGCGACTGGCCGGAACTTCTGGAGACGATCAAGGAAATCGGCCCCCAGGCCGTCTGGGTCACCCATGGCCGTGAGGAGGCGCTGGTGCGCTGGTGCGAGTTGCAGGGCATTGCCGCCAAGCCGCTGCATCTTGTCGGTTACGAGGATGAGGGGGATTGA	MNMKPEQLLNSTPKGLYCPAGDFYIDPVRPVARALITHGHSDHARAGHGAVLATRQTLDIMRIRYGEDFCGSEQAVAFGETVEVNGVTAGFHPAGHVLGSAQISVEMNGLRIVASGDYKRGVDPTCAPFEIVPCDVFITEATFGLPVFHHPLPRVETAKLLTSIKQFPERTHLVGAYSLGKAQRVIRLLRDNGYSDPIYIHGALARLCDYYVSQGIDLGDLRPATLEKSDPSAFKGAIVVGPPSAFQERWARRFNEPLIAFASGWMMVRQRAKQGGVELPLVISDHCDWPELLETIKEIGPQAVWVTHGREEALVRWCELQGIAAKPLHLVGYEDEGD				NA	NA	NA	NA	NA
BMS010_00179	1626	lig_1		DNA ligase	ATGAAAGCCTTCGCCACGCTGCTCGACCGCCTCGTTCTTACCCCCTCGCGCAACGGCAAGCTGAAGCTGCTGACTGATTATTTCCGCGATACGCCCGATCCCGACCGGGGTTACGGGCTGGCGGCGATTGCCGGCACGCTGGACCTCAAAAGCGTCAAACCGGCCCTGCTGCGCGAACTCGTGCTGGAGCGGATGGATGAGGTTCTGTTCCGCTATTCCTATGATTATGTCGGCGATCTGGCCGAGACCATTTCGCTGGTCTGGGGCAATATCGGCGGCGCGGATGATTCCGAGGCGCAGGACCCGCGCCTCGGCGACGTCGTGATACTGATGAATTCACTCGGCCGCACGGAGGTGCGCGGCGCGGTGCGCGATCTTCTCGACCGGCTCGATACATCCTCGCGTTTCGCTTTCCTCAAACTCGCCACCGGCAGCCTGCGCATCGGCGTTTCGGCGCGGCTGGCACGGCAGGCGCTGGCCGATTTCGCCGGGAAAGACATCACCGAAATCGAGACCCTCTGGCACGGGCTGACGCCGCCCTATACGCCGCTTTTCGCCTGGCTGGAGGGCAAGTCCGATCGTCCGGTACTGGCGACGCCCGCCATCTTCCACTCGGTGATGCTGGCGACGCCGGTGGCGGATGGCGACCTCGATGCGCTGGACCCGGCCGGTTACGCCGCCGAATGGAAATGGGACGGCATTCGCGTGCAGCTCTCCCGCGCAGGCGCCACGCGAAAACTCTATTCCCGCTCCGGCGACGATATTTCCGGCGCCTTTCCCGATGTTCTGGAGGCAATCGATTTCGAAGGCGTAATGGATGGTGAGTTGCTGATCGGCGGCACAGCGCGCTCCAACAATCTCACCCGCACCTTTTCCGACCTGCAGCAGCGGCTGAACCGCAAGTCGGTGACAGCGAAGATGCTGGATGATTATCCCGCCTTCATTCGCGCCTATGACCTGCTGTTCGATGGAGAGAGCGATATTCGCGCCGAAAGCTACATGGAGCGCCGCGGCCGCCTGTCGGATATTATCGAGCACGCACCGCATGACCGTTTCGACCTCTCGCCGCTGATCGGCTTTTCCAGCTGGCAGGAACTCGACACGCTGCGCGCCGCCCCTCCCGATCCGGTGATCGAGGGTGTGATGATCAAGCGCCGCGATAGCGCCTATCAGGCCGGCCGCGCCAAGGGGCCATGGTTCAAGTGGAAACGCGATCCCTATAATATCGACGCCGTCATGATGTATGCGCAGCGCGGCCACGGCAAGAGGTCGAGCTATTATTCCGATTTCACCTTCGGCGTCTGGGCGGAAGGCGAGGACGGCGAACAGCTCGTACCGGTTGGAAAGGCCTATTTCGGCTTCACCGATGCGGAGCTGGAGGTGCTGGACAAGTTCGTGCGCGACAACACGGTCGAGCGTTTCGGCCCGGTGCGGGCGGTGCGCGCCACACCGGATTTCGGTTTCGTGCTGGAGGTGGCCTTCGAGGGCATCAACCGTTCCACCCGCCACAAATCCGGCGTCGCCATGCGCTTCCCGCGCATTGCGCGGCTGCGTGCCGACAAGCTGCCGGCGGAGGCGGACAGGCTCTCGACGCTGGTGGCGATGATCGATGGCGGGGAAGTGTAG	MKAFATLLDRLVLTPSRNGKLKLLTDYFRDTPDPDRGYGLAAIAGTLDLKSVKPALLRELVLERMDEVLFRYSYDYVGDLAETISLVWGNIGGADDSEAQDPRLGDVVILMNSLGRTEVRGAVRDLLDRLDTSSRFAFLKLATGSLRIGVSARLARQALADFAGKDITEIETLWHGLTPPYTPLFAWLEGKSDRPVLATPAIFHSVMLATPVADGDLDALDPAGYAAEWKWDGIRVQLSRAGATRKLYSRSGDDISGAFPDVLEAIDFEGVMDGELLIGGTARSNNLTRTFSDLQQRLNRKSVTAKMLDDYPAFIRAYDLLFDGESDIRAESYMERRGRLSDIIEHAPHDRFDLSPLIGFSSWQELDTLRAAPPDPVIEGVMIKRRDSAYQAGRAKGPWFKWKRDPYNIDAVMMYAQRGHGKRSSYYSDFTFGVWAEGEDGEQLVPVGKAYFGFTDAELEVLDKFVRDNTVERFGPVRAVRATPDFGFVLEVAFEGINRSTRHKSGVAMRFPRIARLRADKLPAEADRLSTLVAMIDGGEV				NA	NA	NA	NA	NA
BMS010_00180	966			hypothetical protein	ATGGCAGACAAACGCTTTCTTTCCTCAGCCTTCGGACAGGAAGAGAGCGGCGCCATCTTGCCGGGCCTGACCAGGCGAAGCCTGCTGGCCGGCGCCATGGGGCTGTCAGCGGCTGCATTTTTGCCGCTGCGTGCGAAAGCGGGTGTTGCCGCGCCCGAGGTTTTGCCGCTGGAGCGGCAGGATTATGCGGAGGCGCGCAAACGGTTCCACACCCATCTTTTGCGAAAAATGGCTGCGCCGGAAAAATCCTCGGCGCTCGGCACGCCGCCCGGGGCGGAACGGGTCACCTATCCCGGCGGGCCGGATGGCTCCATCGAACTTGTCGCCTGGCTCTCCCATTACCAGCCGTCAAAAACGCTGAAGCCCGCCGTACTTTTCCTCCATGGCGGCAACGCCACCGGAGACGGCCATTGGGCGCTGATGAAGCCCTATTGGGAAGCGGGCTATGTCGTGCTTCTGCCGTCCTTCCGTGGTGAAAACGGCCAGAGCGGCAATTATTCCGGTTTCTATGACGAAACGGCGGATGCGCTGGCGGCGGCCACCTATCTGGAAAACCTTCCCGGTATCGACAGAAACCGCTTCTTCATCGCCGGCCATTCCAATGGCGGCACGCTGACGCTTCTGGCCGCCATGAGCCGCAGGTTCCGCGCCGCAGCACCCATCTCCGCCGGCGTCAATTCCTGGCGTTATTTCAACCGCTATAGCGACGAGATCTGTTTCGATGAGACCGACGAGCGCGAATTCATCATGCGCTCCTCCGTCTGTTTCGGCCACAGCCTCAAATGTCCGGCGCTGCTTCTACGCGGCACGGAGGAGCGGCCTTTCGATGCCGATCACCAGCTTTTCGTGGATCGCGCCCTGACATCCGGCTTCAAGGTTGACAGGAAGCTGTTGCCCGGCACCCATAACGGCGTGGTGCCGCATGCGGTCGAGGAAAGCATCCGCCTTTTCAACGCCTTCGTCTGA	MADKRFLSSAFGQEESGAILPGLTRRSLLAGAMGLSAAAFLPLRAKAGVAAPEVLPLERQDYAEARKRFHTHLLRKMAAPEKSSALGTPPGAERVTYPGGPDGSIELVAWLSHYQPSKTLKPAVLFLHGGNATGDGHWALMKPYWEAGYVVLLPSFRGENGQSGNYSGFYDETADALAAATYLENLPGIDRNRFFIAGHSNGGTLTLLAAMSRRFRAAAPISAGVNSWRYFNRYSDEICFDETDEREFIMRSSVCFGHSLKCPALLLRGTEERPFDADHQLFVDRALTSGFKVDRKLLPGTHNGVVPHAVEESIRLFNAFV				NA	NA	NA	NA	NA
BMS010_00181	783			hypothetical protein	TTGGCAAAGCATGGCTATAACCGCATCGCGTACCGCGCGATCAAGATCGGTGGAAACATCGCCAAGGTCATCTTTTCCATCGATTTGTTCATCCGGCCCGGCAGAAGAAAAACGCTTCCGCAATATCAGCCAGCCAGACGCAGCCCGAAATCGGAAAAGGCCATTCCCCGCATCATCTGGCAGACGAATTACTCCAACCGGGTAACGACGCCGATCTATGCGAACTTCCTGTTCAACCGTTGGCTGACGCCGGAATTCGAATATCGCTACCATGATGACGAGGCGTGCCAGACCTATATCGACCGGCATTTTCCCGGACGTTACGCCGACGCCTTCCGTCGCCTGCAGGTGGGCGCCGCCAAGGCGGATTTCTGGCGTATTCTGGTGCTTCTGCAGGAAGGCGGCATCTATCTCGATATCGATTCCAATTTTGCGGCCCGCCCCGAGGATGTGATCGACCCGCAGGAAGAGGCCGTTTTCATCGCCATGAAAAGCGGCGAGATCACGAATTACTTCATGGCCTCCAGGCCCGGCCACCCGGCGCTCAGGCTGATGGCCGACCGTATTTCCCAGAATATCGAAGATGGAACGCTCGCCAGCGTCTATGACATGACCGGCCCGACGGTGGTGCATGCCGTCGTCAAGGAACTGGGGCTTCCGGTCCGCAATTACCGCGAGATGTGCACCCAGGGTCAATTCACCAACAAGCGCGCCCAATATGCCGACAAAAAAGACGGCGCATGGTGGGCGGAGCAGGCCAAGACGTCCATCGTCAAGAACTAG	MAKHGYNRIAYRAIKIGGNIAKVIFSIDLFIRPGRRKTLPQYQPARRSPKSEKAIPRIIWQTNYSNRVTTPIYANFLFNRWLTPEFEYRYHDDEACQTYIDRHFPGRYADAFRRLQVGAAKADFWRILVLLQEGGIYLDIDSNFAARPEDVIDPQEEAVFIAMKSGEITNYFMASRPGHPALRLMADRISQNIEDGTLASVYDMTGPTVVHAVVKELGLPVRNYREMCTQGQFTNKRAQYADKKDGAWWAEQAKTSIVKN				NA	NA	NA	NA	NA
BMS010_00182	2727	kdpB_1		Potassium-transporting ATPase ATP-binding subunit	ATGAATATTTCGACAGGCATAAACATCAAGGGCAAAGACGGCGAGCAACTGACCTTCTCCGTTGGCGGCATGGATTGCGGCAGCTGCGCGGCGAAAATCGAAACCGCGCTTTCCCGCCTGCCGGGCGTTGCCGACGTGAAGGTTTCCGTTGCACGCGAAAGGCTGAACCTTTCGCTGGCCGAAAGCAAAACCTCGGTCGAAAAAATCGAAGACACGCTGCGCAAGCTCGGTTTCAAACCCGCTTTGCTGCCACAGGAAAAAGTCTCCCGCGCAAAAGTCGAAGCGGATCATCACGGCCACGGTCATGATGACCACGATCATTCGTCCTGCGGCGGCCACCATGCCGATACCGGAGCGAGCGCCGACAGCAGCAATGCGCTGACCTTTTCGGTCGGCGGCATGGATTGCGGCAGCTGCGCGGCGAAAATCGAGACCGCGCTCTCCCGCCTGCCCGGCGTTGCCGACGTCAAGGTTTCCGTTGCACGCGAAAGGCTGAACCTTTCGCTGGCCGAGAGCAAAACCCCGGTCGAAAAAATCGAGGACACGCTGCGCAAGCTCGGATTCAAGCCGGCCCTGCTGCCGCAGGAAAAGACCGCGCGAGAAAAAGCCGCAGATCACAATCACGATCATGACCACGGATCATGCGGCGGCCATCACCACGACCACGATCATTCAGATCATGACCATTCCGCGCACGATCACGCGTCCTGCGGCGGGCATGATCATGACCACTCCAAGCATGACCATTCTGGTCACGATCATTCCGGCCACGACCATGCGGGCCATTCGCATGGCTCCGCTCCGGCGGCTGCAGTGCAGAGCGCGGAAGTGGGGCACGCCCATGGCGCGGATGAAAAAGGCGCGTGGTGGCGCACTGCAAAGGCGCGCAACACCTTCACCGGCACCGTTCTGGTCGCCATCGCCTATGCGGCGGAACTGAGCTTCCCGGCATGGGGCGGTTACGCTTTCATCATCGCCACGCTGGTCACGCTGTTCCCGATCGCGAAGAACGCCTTCAACGCCGCCCGTTTCGGCGCGATCTTCACCATCGAAATGCTGATGACGATTGCCGCCATCGGCGCGATCATCATCGGCGAGGCGGAAGAGGCGGCCATCGTCGTGTTGCTCTTCTCCGTCGGCGAATTGCTGGAAGGTTTCGCGGCTGCCCGCGCCCGCTCGGGCATCAAGGCGCTCGGTTCGCTGCTGCCGAAAACGGCGCTTGTGGAAGAAAACGGCGCGCTGCGGCAGGTCGCCGCCGATCAGGTGCGCATCGGCCAGGTGGTCGTGGCGCGTCCCGGTGACCGTATCGCCGCCGATGGCGTTGTCATGGAAGGCCAGTCGAGCGTCGATGAATCGCCGATGACCGGCGAGAGCATTCCCGTCGCCAAGGAAAAAGGCGCGCGTGTCTTTGCCGGCTCGATCAACCACGACGGCTCGCTGCGCATCCGCGTCGACCGGGCGCCGGAAGACAACACCATTGCCCGCATCATCACGCTCGTCGAGGAAGCGCAGGATGCGCGTGCGCCGACCGAGCGTTTCATCCAGAGCTTCTCGCGTTATTACATGCCGCTGATCGTGGCGATCTCGGTGCTCACCATCATCGTGCCGCCGCTTGTCGGCCTCGGCGACTGGGATACGTGGATTTATCGCGGTCTCGCCCTGCTGCTGATCGGTTGCCCCTGCGCGCTGGTCATTTCGGTTCCCGCCGCCATCGCCTCCAGCCTTTCGGCAGCGGCACGCCATGGCATGCTGGTGAAGGGCGGCGCGGTCATCGAAATGCTGGCGCGCACCGAAACCGTCGCCTTCGACAAGACCGGCACGCTGACGCTCGGCGAACCTGTCGTGACCGACGTGGTGGCGCTGGACGGCAACGAGGCCGAGCTGATTGCGCAAGCCGCAACAATCGAGCACGAATCGAGCCATCCGCTCGCCCGCGCCATCGTCAATCATGCCGAAAAGCTGGGCGTGAAGCCCCTGCCCGGCTCCAACATCAAGGCGATTTCCGGTCGCGGCATGCAGGGCAATGTCGGCGGGAAAGACCTGTTCATCGGCGCACCGCGCTTTGCAACGGAAGTCGGCACCCTCTCGAAGGAACTGGCCGATCGCATTTCCGCACTGGAAAGCGAAGGCAAGACGGTGGCTGTCGTGATAGTAGGCGGGGCGGCAAGCGGCCTCTTCGCCATGCGCGATGAGCCGCGCAAGGATGCGGCGGAAGGCGTGAAAGCGCTGAAGGAGATGGGCATTTCCTCGCTGATGCTGTCGGGCGACAATGCCCGCACGGCGCGTGCCATCGGCAACAAGCTGGGCCTTGAAGCGCGCGGCGAACTCTTGCCGCAGAACAAGGTCGAGGAAATCCGCAAGCTTGCCGAAAAGAAGACCGTGGTGATGGTGGGCGATGGCATCAACGATGCGCCTGCCCTTGCGGCGGCAAGCGTCGGCGTCGCCATCGGTTCCGGAACCGATGTTGCGATGGAAGCGGCGGATGCGGCGCTGATGCGCAACAATGTCGGCGACGCCGCCCGCCTGATCGGCCTGTCGCGCGCCACCATGAGCAACATCCGCCAGAACGTGACCATCGCGCTCGGCCTGAAGGCGGTCTTCCTTGTCACCACCGTCACCGGCGTTTCGGGCCTGTGGCTCGCCGTTTTCGCCGATACCGGCGCGACGGTTCTGGTGACCGCCAATGCCATGCGGCTGCTCGGCTATTTCAACCGCAACAAGGGCTGA	MNISTGINIKGKDGEQLTFSVGGMDCGSCAAKIETALSRLPGVADVKVSVARERLNLSLAESKTSVEKIEDTLRKLGFKPALLPQEKVSRAKVEADHHGHGHDDHDHSSCGGHHADTGASADSSNALTFSVGGMDCGSCAAKIETALSRLPGVADVKVSVARERLNLSLAESKTPVEKIEDTLRKLGFKPALLPQEKTAREKAADHNHDHDHGSCGGHHHDHDHSDHDHSAHDHASCGGHDHDHSKHDHSGHDHSGHDHAGHSHGSAPAAAVQSAEVGHAHGADEKGAWWRTAKARNTFTGTVLVAIAYAAELSFPAWGGYAFIIATLVTLFPIAKNAFNAARFGAIFTIEMLMTIAAIGAIIIGEAEEAAIVVLLFSVGELLEGFAAARARSGIKALGSLLPKTALVEENGALRQVAADQVRIGQVVVARPGDRIAADGVVMEGQSSVDESPMTGESIPVAKEKGARVFAGSINHDGSLRIRVDRAPEDNTIARIITLVEEAQDARAPTERFIQSFSRYYMPLIVAISVLTIIVPPLVGLGDWDTWIYRGLALLLIGCPCALVISVPAAIASSLSAAARHGMLVKGGAVIEMLARTETVAFDKTGTLTLGEPVVTDVVALDGNEAELIAQAATIEHESSHPLARAIVNHAEKLGVKPLPGSNIKAISGRGMQGNVGGKDLFIGAPRFATEVGTLSKELADRISALESEGKTVAVVIVGGAASGLFAMRDEPRKDAAEGVKALKEMGISSLMLSGDNARTARAIGNKLGLEARGELLPQNKVEEIRKLAEKKTVVMVGDGINDAPALAAASVGVAIGSGTDVAMEAADAALMRNNVGDAARLIGLSRATMSNIRQNVTIALGLKAVFLVTTVTGVSGLWLAVFADTGATVLVTANAMRLLGYFNRNKG	PGPT0004200_194	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_LEAD_RESISTANCE	LEAD_RESISTANCE-PBR_TRANSPORT_SYSTEM,PGPT0004200-zntA|cadA-K01534	NA	NA
BMS010_00183	909			hypothetical protein	ATGATAGCACTCCTTTTGAAAAACGGTCGCCGGGCGGCCTCTCTGGCGGGGCTTGCCCTGCTGCCTCTCATGAGCGGCTGCCTTTTCGTGACGGATACGACCCGGATGGACCCGGATGTCTTCGTCCGGGAGACGGCGCCGGTATTCAATTTCAACTCCGTCAGCTCCAATCGCCAGCCGGAACTGCCGCCGCAGCCGGGCCAGCTTTCGACGCGCCCGCCGGATCTGTTCAGAACCCGCTTCCATCAGGAATACGGTCCGCCGGTGCGCGGGCAGGGGCTGCAAGCCCCGCAGGTGCAGGGTTATAACGCGCAGCAGCCGCAGGCCCAGACGATGGCCTATGGCCTGCCTGTCTCCAATCCGCTGCACCGGGTCATGTATGGCCCGATCCGCGATGAGGACCGCTCGCTGCCGGCCATTCCCTATGGCCGCATCGATCCGCGTTATCTGAGGCAGGAAGTGAGCTACCAGACGGCGGAAGCCCCCGGCACGATTATCGTCGATACCAGACAGCATTTTCTCTATCTCGTGCAGTCCGGCGGCAAGGCGATCCGTTACGGCGTTGGGCTGGGGCGCGACGGTTATGCTTGGTCGGGCCGTGGCAAGATCCAGTGGAAGGCGAAATGGCCGCGCTGGACGCCGCCCGATGAAATGGTCAAGCGCCAGCCGGAACTCGCCTCCATCTCCGCCGCCAATGGCGGCATGACGCCCGGTCTCAACAACCCGCTCGGCGCGCGTGCGCTTTATATCTTCAAGGATGGCAAGGACACGCTTTACCGCGTGCATGGCACGCCGGACTGGCAATCCGTCGGCAAGGCGACGTCCTCCGGCTGCGTGCGCATGCTCAATCAGGATGTGATCGATCTCTACGAGCGTGTGCCGCAAGGGGCGCAGATTGTGGTTATCTGA	MIALLLKNGRRAASLAGLALLPLMSGCLFVTDTTRMDPDVFVRETAPVFNFNSVSSNRQPELPPQPGQLSTRPPDLFRTRFHQEYGPPVRGQGLQAPQVQGYNAQQPQAQTMAYGLPVSNPLHRVMYGPIRDEDRSLPAIPYGRIDPRYLRQEVSYQTAEAPGTIIVDTRQHFLYLVQSGGKAIRYGVGLGRDGYAWSGRGKIQWKAKWPRWTPPDEMVKRQPELASISAANGGMTPGLNNPLGARALYIFKDGKDTLYRVHGTPDWQSVGKATSSGCVRMLNQDVIDLYERVPQGAQIVVI				NA	NA	NA	NA	NA
BMS010_00184	726			hypothetical protein	ATGACAAGCACCGACACAGATCTTTCCAGACGCACCTTCCTTTCCCTTCTCGGCATCTCCTCCGCTTCGCTTCTCGCAGGCTGCGCCTCGTCGGGCACGGGAGACGCCATTCGCCAGCAGGCGAGCGCCATCGGCAGCGATTTCCGGCAGATGTTCTCGCCGGGCGTCAGCGATGCGGAACTGGCCGTCATGTACGGCTCGGTTGAGGATGGCGGTTACGTCATTCCCGCCGTCCCCTATCAGAAAATCGACCGCCGTTATTACCGCCAGCGGGTTGTCGACCCGACCGGCGAACGCCCCGGCACCGTGGTTGTCGATACGCGCTCGCGCTTCCTTTATGTGGTGGAGCAGGGCGGCAGCGCCATGCGTTATGGCGTCGGCATCGGCCGCGAAGGTTTCGCCTGGTCGGGCGAGGGCGTCATCCAGTGGCGTCAGAAATGGCCGAAATGGACCCCCCCGGACGAAATGGTCGCCCGCCAGCCGGAACTGGTCAAATATTCCTCCAAGAACGGTGGCATGCCGCCGGGCCTGAAAAACCCGCTCGGCGCCCGCGCGCTTTATATCTTCCAGAACGGCAAGGATACGCTCTACCGTCTGCACGGCTCCCCGGAATGGAACTCCATCGGCAAGGCCGTCTCCTCCGGCTGCGTGCGCCTGATGAACCAGGATGTCATCGATCTTTACGACCGCGTGCCGCAGAAGGCGCGTGTGGTGGTCTGGCAGTAA	MTSTDTDLSRRTFLSLLGISSASLLAGCASSGTGDAIRQQASAIGSDFRQMFSPGVSDAELAVMYGSVEDGGYVIPAVPYQKIDRRYYRQRVVDPTGERPGTVVVDTRSRFLYVVEQGGSAMRYGVGIGREGFAWSGEGVIQWRQKWPKWTPPDEMVARQPELVKYSSKNGGMPPGLKNPLGARALYIFQNGKDTLYRLHGSPEWNSIGKAVSSGCVRLMNQDVIDLYDRVPQKARVVVWQ				NA	NA	NA	NA	NA
BMS010_00185	459	ohrR_1		Organic hydroperoxide resistance transcriptional regulator	ATGGACGCAGAGGGCGACGAGAAGAAGATGGAAAGCCTGTTGAGGCTGGACCAGCAGATATGTTTTGCCCTTTATGGCGCGGCACACGCCTTCACGCGCGCCTATAAGCCGCTGCTCGACCCCATCGGGCTGACCTATCCGCAATATCTCGTCATGATGGCGCTATGGGAAAAAGAGACATCCACCGTCAAGGCGCTCGGCGAAATGCTGGGCCTCGATTCGGGCACGCTGTCGCCGCTGCTGAAAAGGCTCGAACATGCGGGGCTGATCACCCGCAAGCGCGGCACGGTCGATGAGCGGCAGGTGCTGGTGGCCCTGACGCCGAAGGGCGCGAACCTCAAAAAAGAGGGCGTGAAGATCATGGCGGCAATCGGCAGCGCCACCGGCTGCGGGCTGGAAGAGCTGGTGCAGATTCGTGACCGGGTGAATGCGCTGAAGGACAATCTCAGCCGTCAGTGA	MDAEGDEKKMESLLRLDQQICFALYGAAHAFTRAYKPLLDPIGLTYPQYLVMMALWEKETSTVKALGEMLGLDSGTLSPLLKRLEHAGLITRKRGTVDERQVLVALTPKGANLKKEGVKIMAAIGSATGCGLEELVQIRDRVNALKDNLSRQ	PGPT0013155_2563	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
BMS010_00186	423	ohrB_1	COG1764	Organic hydroperoxide resistance protein OhrB	ATGCCCATTCTCTACACGACCAAAGCATCCGCCACCGGTGGCCGCGCCGGCAACGCCAAGTCTGAAGACGGCGTTCTCGACGTGACGCTGACCGTTCCGAAGGAACTGGGCGGCGATGGCGCCCGTGGCACCAATCCGGAACAGCTTTTCGCAGCCGGTTATTCCGCCTGCTTCCTGGGCGCGCTGAAATTCGTTGCCGGCAAGGAAAAGGTAAAGATTCCTGAAGACACCACTGTGACGGCAACCGTCGGCATTGGCCCGCGCGAAGACGGCGGCGGCTTCGGCATCGAAGTGTCGCTGAAGGCCAATATTCCGGGCGTTGAGCGCGAAGTCGCCGAAAAGCTGGTTGCCGCCGCTCACATCGTTTGCCCGTACAGCCACGCCATGCGCACCTCCACGGAAGTGCCGGTCTCAGTGGCCTGA	MPILYTTKASATGGRAGNAKSEDGVLDVTLTVPKELGGDGARGTNPEQLFAAGYSACFLGALKFVAGKEKVKIPEDTTVTATVGIGPREDGGGFGIEVSLKANIPGVEREVAEKLVAAAHIVCPYSHAMRTSTEVPVSVA	PGPT0013160_2763	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013160-ohrB|osmC|ohr|ykzA-K04063	NA	NA
BMS010_00187	384			hypothetical protein	ATGAATATTCACGCCAAGAGCGCCATGGATACCGCCTCGCAGGGCAGGGTCGTCACCAAGGCCGTTATCGCCGCCGCCGAGCGGCTGGGCCTGAATGCCGCGCGCACGGCTGATATTCTCGGCGTTTCCGCCCCCACCGTGTCGCGCATGAAACGGCTCGATTTCCTGCTGGAGCCGGGCGCCAAATCCTTCGAGTTGGCGGTGCTGCTGATCCGGGTTTTCCGCTCGCTGGATGCGATTGCCGGCGGCGATGAGGCCGTGGCGAAAAACTGGCTGCGCAATCACAATGTTGCGCTGAACGCCGTGCCTGCCGACAAACTGACCACCATTACCGGATTGATCGATGTCCTCTCCTATCTGGACGCCCGACGCGCTCCTGTCTGA	MNIHAKSAMDTASQGRVVTKAVIAAAERLGLNAARTADILGVSAPTVSRMKRLDFLLEPGAKSFELAVLLIRVFRSLDAIAGGDEAVAKNWLRNHNVALNAVPADKLTTITGLIDVLSYLDARRAPV				NA	NA	NA	NA	NA
BMS010_00188	762			hypothetical protein	ATGTCCTCTCCTATCTGGACGCCCGACGCGCTCCTGTCTGAAAAACGCGCCGTATCGGGAAAATACTGGCGGCTGGTGGAAGCGCAGCATCAGGTCTCCACCATGAAACTGGTGGATACGGTGGAGGAGCAATCGCTGCTGGAAGATATTCTGGAGACGAGCAAGCGGCCGTTTCCGCCGGAATGCGCCGGTTTCGATTATCTTCTCGCCACGCCCTTCCGGTATGGAGCCGCCTATCCGCATGGTTCGCGCTTCCGCCGCGCGGGCTATACCGAAGGCGTTTATTACGCCGCCCAGAAGGTGGAGACGGCGCTCGCCGAAATGGCCTTTTACCGGCTGCTGTTTTATGCCGAATCGCCGGGCACGCCGCTGCCCGCCAATCCCGCCGACTATTCCGCCTTCGCCGCCCGTATCGCTACCGATGCGGCGCTCAACCTGACGAAACCGGAACTGAGCCGGGATGCTCGCCTGTGGACCGATCTGCAGAATTACGAGCCATGCCAGGCGCTGGCCGATCAGGCGCGTCTGGCGAAGATCGAGGCTATCCTCTATCGCTCGGTACGCGACCCCGCCGGCGGCCTCAACATCGCTGTTCTGTCGCCGAAGGCTTTTGCCGCGAAGACGCCGGTGGAACGGATGAGCTGGCGTATCCACCTGTCGAAAACGGGGGTGCAGGCGCTCTGCGAATTTCCGATGCGCAGAACGGGTTTTGCGGTTTTGGATTTCGCCGGCGATCCACGCCTCGCCAGCCTTTTGGGCTGA	MSSPIWTPDALLSEKRAVSGKYWRLVEAQHQVSTMKLVDTVEEQSLLEDILETSKRPFPPECAGFDYLLATPFRYGAAYPHGSRFRRAGYTEGVYYAAQKVETALAEMAFYRLLFYAESPGTPLPANPADYSAFAARIATDAALNLTKPELSRDARLWTDLQNYEPCQALADQARLAKIEAILYRSVRDPAGGLNIAVLSPKAFAAKTPVERMSWRIHLSKTGVQALCEFPMRRTGFAVLDFAGDPRLASLLG				NA	NA	NA	NA	NA
BMS010_00189	1512	yheS_1	COG0488	putative ABC transporter ATP-binding protein YheS	ATGACCATTATCACGCTTCGAAACCTCGGAATCATTCTGGGCAAGCCGCTTTTTTCCAGTCTCAGCCTCACGGTGAATGCGGGAGACCGCATCGGCATCGTTGCCGCCAATGGCTGCGGCAAATCCACCCTTCTCCATTGCCTTTCCGGTGACATGGAGCCAACCAGCGGCGATATCACCCGGCTGCGCGGACTGACGCAGTCCATCGTCCACCAGCATCTGCCCGCCCCGTTGATGGAACGGACGATGCGGGACGCCGTGCTTTCCGCCCTGCCGGCGGATACGATCGACAGCGAGAGCTGGCGCGCCGACATTATTTTCGACGCCATGCTGGTGCCGGAGCCGTTCCGCGAGCGCCGCCTGAAAGAATTGAGCGGTGGCTGGCAGAGGCTTGCCATGCTGGCGCGGGCATGGATCACCGAGCCGGATGTGCTGCTGCTCGACGAGCCGACCAACCATCTCGACCTCGAAAAGATCAACGTGCTGGAAAACTGGCTCGGTGAATTGCCGCGCGATAGGGCTGTCATCATCGTCAGCCATGACCGCGCCTTTCTCGACAACGTCACCAGGAGCACGCTGTTCCTGCGGCCGGAAAATTCGGCGCTGTTCCGGTTGCCCTATGGCCACGCCCGGGCGGTGCTGGAAGAAGAGGATGCCGCCGATGAACGGCGTTTCCAGCGCGACATGAAAACCGCCCAGCAATTGCGCCGTCAGGCCGCCAAGCTGAACAATATCGGCATCAACTCCGGCAGCGATCTTCTGACCGTCAAGACCAAGCAATTGCGTGAGCGGGCGGAAAAGATCGAGGAAAAGGCGCGGCCCGCCCATATCGAGCGATCCGCCGGCAAGATCCAGCTCGCCAATCGCGGCACCCATGCCAGGGTTCTGGTCACTCTGGAAGATGTGCCGGTCTCGACACCGGACGGAACGGTGCTGTTTCGCACCGGCCGGCAATTTGTCCGTCAGGGGGACCGCATCGTCATTCTCGGCCGCAACGGCGTCGGCAAGACACGGCTGATGTCGCTTCTGCAGGCGGCCGTATCGGGCGCAGGCCAGATAGACGGCATCAAGGCCACGCCCTCGCTGGTGGCCGGATATGTCGACCAGTCGCTCGCCGAGATCGATGACGACAGCACGCCCGTTTCGCTGCTATCCCGCCGCTTCGATATTGGCGACCAGCGCATCCATGGCCTGCTCGCGGGCGCGGGCATCAACATGGAAATGCAGAAACGCCGCATCGCCGCGCTTTCCGGCGGGCAGAAGGCGCGGCTTGCCATGCTGGCGCTGCGGTTGGCGGAGCCGAATTTCTACCTGCTGGACGAGCCCACCAACCACCTGGATATTGAGGGGCAGGAAGCGCTGGAGGCGGAAATCATCAGCCGTGAGGCCAGCTGCGTGCTTGTCTCGCACGACAGGAGTTTCGTGCGGACGGTCGGAACCCGCTTCTGGCTGATCGAAAAGCGCAGGCTGGTGGAAGTCGATGATCCGGAAGGGTTTTTCGCCTCGGCCTGA	MTIITLRNLGIILGKPLFSSLSLTVNAGDRIGIVAANGCGKSTLLHCLSGDMEPTSGDITRLRGLTQSIVHQHLPAPLMERTMRDAVLSALPADTIDSESWRADIIFDAMLVPEPFRERRLKELSGGWQRLAMLARAWITEPDVLLLDEPTNHLDLEKINVLENWLGELPRDRAVIIVSHDRAFLDNVTRSTLFLRPENSALFRLPYGHARAVLEEEDAADERRFQRDMKTAQQLRRQAAKLNNIGINSGSDLLTVKTKQLRERAEKIEEKARPAHIERSAGKIQLANRGTHARVLVTLEDVPVSTPDGTVLFRTGRQFVRQGDRIVILGRNGVGKTRLMSLLQAAVSGAGQIDGIKATPSLVAGYVDQSLAEIDDDSTPVSLLSRRFDIGDQRIHGLLAGAGINMEMQKRRIAALSGGQKARLAMLALRLAEPNFYLLDEPTNHLDIEGQEALEAEIISREASCVLVSHDRSFVRTVGTRFWLIEKRRLVEVDDPEGFFASA				NA	NA	NA	NA	NA
BMS010_00190	423			hypothetical protein	ATGCGTGCAATCGTTTTTGTAAAAGCCACCAAAAGCAGCGAAGACGGCGTCATGCCCACGACCGAGCTGATCGAGGCGATGGGAAAATTCAACGAGGAACTGGTCAATGCCGGCATCATGCAATCCGGCGACGGCCTGCATCCCTCCTCCAAGGGCAAGAGGGTTGTGTTCGACGGCGACAGCCGCACGGTGATCGACGGCCCCTTCCCGCACACCAACGAGCTGGTCGCCGGCTTCTGGATCTGGACTGTGAAGGACATGGACGAGGCCGTGGCCTGGGTGAAACGCTGCCCGAACCCGATGCTGGAGCGCAGCGAAATCGAAATTCGCCCGATGTTCGAAATGGAAGACTTCGGCGACGCCGTAACGCCGGAAATCGCCGCGCATGTGGAAGAACTGCGCGCGCGTGTCGCGAAGCAATAA	MRAIVFVKATKSSEDGVMPTTELIEAMGKFNEELVNAGIMQSGDGLHPSSKGKRVVFDGDSRTVIDGPFPHTNELVAGFWIWTVKDMDEAVAWVKRCPNPMLERSEIEIRPMFEMEDFGDAVTPEIAAHVEELRARVAKQ	PGPT0030505_23	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030505-phnB|yjdN-K04750
BMS010_00191	447			hypothetical protein	ATGTCAAACGCCAGCGTGATTCCTTTTTCGACAACTCTTTTCGTGCGGGATGCCTGCCTGTGCCTGCATGCGCAGCGCGCCGCACGGGCATTGGCGCGGTTGTTCGACAATGCGCTGAAGCCGGTTGGGATCACCAATGGACAATTTTCGCTGCTGATGTCGCTCAACCGGCCGGAGCCGCCGCCGATGGGACCGGTCGCCAATCTTCTGGCCATGGACCGCACGACGCTGACGGCGGCGCTGAAGCCGCTGGAGCGGCGCGGGCTGGTCAGCATCGAACAGGACCCGAAGGACAAGCGCGGCAAGCGGCTGCGGCTGACGGCGGACGGCATGGCCGTGCTCGCCGCCGCCTTCCCCATCTGGGAACAGACCCATGCCGAAATCGAAGCCCGCATCGGCAGCGGCGACCCCGACCGGCTGCGCCGTGACCTTGTCGACCTCGGCTGA	MSNASVIPFSTTLFVRDACLCLHAQRAARALARLFDNALKPVGITNGQFSLLMSLNRPEPPPMGPVANLLAMDRTTLTAALKPLERRGLVSIEQDPKDKRGKRLRLTADGMAVLAAAFPIWEQTHAEIEARIGSGDPDRLRRDLVDLG				NA	NA	NA	NA	NA
BMS010_00192	729			hypothetical protein	ATGTCTCATCCCGTCGTTTCGAAAGAGGAGTGGCTTGCGGCCCGCCGCGATCTGCTGGTGAAGGAAAAGGAACTGACCCGCGCCCGTGACAGGCTGAACGAGGCCCGGCGTGCGCTGCCCTGGGAAGAGGTGACGAAGGATTATATCTTCGATGCCCCTTCCGGCCCCAAATCGCTTAAGGAACTGTTCGGCACCTGCAGCCAGCTCATCGTTTATCACTTCATGCTGGCGCCGGACTGGGAGGAGGGCTGCGTCGGTTGCTCCTTCTTTGCCGATCATGTCGATGGCGCACTGATTCACCTCAAGCATGGCGATGCGGGTTTCGTTGCGGTTTCGCGCGCGCCGCTTGAGAAGATCGAAAGCTACAGGAACCGCATGGGCTGGAAATTCCCCTGGGTTTCGGCCGAAGGCAGCGATTTCAACTACGATTATCAGGCCTCGTTCCGCGACGAGGACATGGCCAAAGGTGAAATCACCTATAATTACCGTGACATGGCGCCCTATGGCGACCTGAAGGACCTGCACGGTATCAGCGTTTTCGCCAAGGGCGACGACGGCAAGATCTACCACACCTATTCCACTTACGCCCGCGGCGCGGAACAGACGCTCGGCACGCTGATGCTGCTCGATCTGGTGCCAAAAGGCCGTAACGAAGAGGAGGTAATGGATTGGGTGCGCCGCCACGACCAGTATGAGGACGCGCCGAAGGCGGCAGCCTGCTGCCACTGA	MSHPVVSKEEWLAARRDLLVKEKELTRARDRLNEARRALPWEEVTKDYIFDAPSGPKSLKELFGTCSQLIVYHFMLAPDWEEGCVGCSFFADHVDGALIHLKHGDAGFVAVSRAPLEKIESYRNRMGWKFPWVSAEGSDFNYDYQASFRDEDMAKGEITYNYRDMAPYGDLKDLHGISVFAKGDDGKIYHTYSTYARGAEQTLGTLMLLDLVPKGRNEEEVMDWVRRHDQYEDAPKAAACCH				NA	NA	NA	NA	NA
BMS010_00193	495			hypothetical protein	ATGGAAATGGAAATCGCCAAGCCGCAGAAGGAACATGAGTTCCTCAAGAGGATCGTCGGAGACTGGGTCATGACCTCCAGTTCCGGCCATGAGGGCTACGATGCCGACGACCCGTCGCAGCAATTCACCGAGACCGTCCGCTCCGTCGGTGGCTTGTGGATCATCGGCAACGGCACCGGCAAGATGCCCGACGGCACGGATATGACGGCCGTGATCACGGTCGGTTTCGACCCGGCCAAGGGCAATTTCGTCGGCACCTGGGTAGGGTCGATGATGACCAATCTCTGGGTCTACAAGGGCTGGCTGGAAGAGGACGGCAAGACCCTGACGCTGGAAGCGGAAGGCCCCGCCTTCGACGGTTCCGGCCGCACCGATACCTATCACGACGTGCTGGTGCTGCATGACGACAATCACCGCAGCTTTTCCGGCAGCGTCAGGCAGCCGGACGGCACATTCAAGACCTTCATGACATCGGAATTCCGCCGCAAGGCCTGA	MEMEIAKPQKEHEFLKRIVGDWVMTSSSGHEGYDADDPSQQFTETVRSVGGLWIIGNGTGKMPDGTDMTAVITVGFDPAKGNFVGTWVGSMMTNLWVYKGWLEEDGKTLTLEAEGPAFDGSGRTDTYHDVLVLHDDNHRSFSGSVRQPDGTFKTFMTSEFRRKA				NA	NA	NA	NA	NA
BMS010_00194	780		COG3324	Putative glyoxylase CFP32	ATGTCCGATACACATGGAAAATTCATCTGGGTCGAGCTGATGACGCCCGACATGGAAGCGGCAGCCCGCTTTTATGGTCATGTCGTCGGCTGGCAGACCAAGGATTTCGGCTCGCCGGAAATGCCCTATCTGGTGCTGGAGGCCGATGGCAAGGGCATGGGCGGCGTCATGGAGCTGACCGACGAGCACAAGGGTCAGGGCATTCCCCCGAACTGGACCGCCTATGTCGATGTCGACGATGTGGACGCCACGGCGAAACAATTCGCCGAAAAGGGCGGCGCGGTCAGACGTCCGCCGCAGGATATTCCCGAAATCGGCCGCTTCGCCGTGGTCGCAGATCCCTTCGGTGCGGTGCTCTGCATCATGACGCCGCTGCCGATGGAAACCGGCGGTTTCCCCGAGGATATGCAGGAAAAGCAGGGCCATGTCGGCTGGCACGAGCTCTTTACCGATAATGTCGACGAGGCCATGGCCTTTTATGGCGATGTGTTCGGCTGGACCAAGGACCACGATTTCGACATGGGCGACATGGGCCCGTACCGTATCTTCGCCCATAAGGGCAAGGCTGTCGGCGGCATGATGAAACGCATGCCGCAGGTCCCCGTCTGCCATTGGGGTTATTACTTCAATGTGGACGGTATCGATGACGCCATCACCCGCGTCAGCACCGGCGGCGGCCAGGTCGTCAACGGCCCGATGGAGGTTCCCGGCGAAAGCTGGATCGTCAATTGCGTCGATCCGCAGGGCGCTTATTTCTCGCTGGTTTCGCAGAGGAAATAG	MSDTHGKFIWVELMTPDMEAAARFYGHVVGWQTKDFGSPEMPYLVLEADGKGMGGVMELTDEHKGQGIPPNWTAYVDVDDVDATAKQFAEKGGAVRRPPQDIPEIGRFAVVADPFGAVLCIMTPLPMETGGFPEDMQEKQGHVGWHELFTDNVDEAMAFYGDVFGWTKDHDFDMGDMGPYRIFAHKGKAVGGMMKRMPQVPVCHWGYYFNVDGIDDAITRVSTGGGQVVNGPMEVPGESWIVNCVDPQGAYFSLVSQRK				NA	NA	NA	NA	NA
BMS010_00195	897	pgrR_1		HTH-type transcriptional regulator PgrR	ATGAACATCGATCTCAACGCGCTTTCGACATTCTGCATGGTTGCCGAGGAGCGCAACTTCCGCGCCGTTGCAGACAGGCTCGGCGTAACCCGCTCCGCCGTCAGCCAGACCATCCGCAAGCTTGAAGAAACAATGGGAATAGCGCTGGTGCAGCGCACGACGCGCAGCGTCAGCCTGACGGAAGCGGGACAGCAGCTTTATGCGGATGTCTCGCCATCCATCGGCAATCTCGTTGAGGCTGCCAATGCCGCGTCGTCCCTGAGCGGCGCCGTGCGCGGGCAGTTGCGGCTTGCGGTTTCCTCGATAGCGGAGCGCTTTTTATCCGGACCATTGCTTGCGCGTTTTGCGGAAATACATCCCGAAGTGCAGCTCGATATCGTCGTGACGGACGAGGAATTCGATATCGTCGCCGAGCACTACGATGCCGGCGTGCGTCTTGGAGAGCTGATCGCGCAGGACATGATTGCGGTTCCGGTTTCCGCTCCACAGCGGCAGCTCGCCGTCTGCTCGCCGCGCTATCGGGACCGCTTCGGCCTGCCGGCGCAGCCCCGCGAATTGATAGGACACAGGTGTATCGGCTGGCGAGCCCGTCCGGGTGTGGCGCCATACAGGTGGGAATTTGCGGAAAACGGCCGCGAATTTGCGGTGGCGGTGGAGCCGGCCTTCACCACCAACGACATGCAGCTGATGATCAAGCTGGCCTGCGCCGGTGCGGGCATCACCTTCGGCATGGAAGAGACGTTCCGCCCCTATCTGGAAAGCGGGCAGCTCGTTTCCATGCTGGAAGACCACTCCCCGAGCTTTGCGGGATTTTATCTCTATTATCCCAGCCGCCATAATCTTGCGCCGAAGCTGCGCGCCTTCATCGATCACGTCCGCCTGTCGAGAGAGCGGTAA	MNIDLNALSTFCMVAEERNFRAVADRLGVTRSAVSQTIRKLEETMGIALVQRTTRSVSLTEAGQQLYADVSPSIGNLVEAANAASSLSGAVRGQLRLAVSSIAERFLSGPLLARFAEIHPEVQLDIVVTDEEFDIVAEHYDAGVRLGELIAQDMIAVPVSAPQRQLAVCSPRYRDRFGLPAQPRELIGHRCIGWRARPGVAPYRWEFAENGREFAVAVEPAFTTNDMQLMIKLACAGAGITFGMEETFRPYLESGQLVSMLEDHSPSFAGFYLYYPSRHNLAPKLRAFIDHVRLSRER				NA	NA	NA	NA	NA
BMS010_00196	723			putative oxidoreductase	ATGACATTGAACAAAGTCGTTCTCATCACAGGTGCATCGAGCGGGATCGGTGAGGGTATCGCAAGGGAACTGGCCGCCGCCGGGGCGAAGCTGGTGCTGGGTGCGCGCCGCATGGACCGCTTGCAGGCGCTTGCCGAAGAATTGCGCGGCAAGGGCGCCGAGGTCGTCATCCAGCCGCTGAACGTGACGGACAGACAGAGCGTCGAGGCCTTTGCGGAGGCGGGGCGCAAGGCGTTCGGGCAGGTCGACGTCATCGTCAACAATGCTGGCATCATGCCGCTGTCGCTGATGTCGTCCCTCAAGGTCGACGAATGGGACCGCATGATCGACGTCAACATCAAGGGCGTGCTTTATGGCGTCGCCGCCGTTCTGCCCGAGATGACCGCCCGCGCTTCCGGCCACATCATCAACATCGCCTCCATCGGTGCGCTCGCCGTTTCGCCAACGGCGGCCGTTTATTGCGCGACGAAATTTGCGGTGCGGGCGATTTCGGAAGGGCTGCGGCAGGAAAACCGCGACCTGCGGGTCACCTGCATTCACCCCGGCGTGGTGGAAAGCGAACTTGCCCACACCATCACCGATCCCGCCGCTGCGGAACTGATGCAGACCTATCGGGCCATCGCCCTAAAGCCCGACGCCATCGGCCGCGCGGTGCGCTACGCCATCGAGCAACCCGACGATGTGGACGTCAATGAGATCGTCGTCCGCCCCACCGCCGCTTAA	MTLNKVVLITGASSGIGEGIARELAAAGAKLVLGARRMDRLQALAEELRGKGAEVVIQPLNVTDRQSVEAFAEAGRKAFGQVDVIVNNAGIMPLSLMSSLKVDEWDRMIDVNIKGVLYGVAAVLPEMTARASGHIINIASIGALAVSPTAAVYCATKFAVRAISEGLRQENRDLRVTCIHPGVVESELAHTITDPAAAELMQTYRAIALKPDAIGRAVRYAIEQPDDVDVNEIVVRPTAA	PGPT0021285_256	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021285-ydfG-K16066	NA	NA
BMS010_00197	351			hypothetical protein	ATGAACATTGTTTCGACATCTGTTGCGCTTCTGCTCGCAACGGCTTCCACCGATACGGGCTCCAGCAAAACGAGCAACGCCATGGACGTGAATATGACCGAAACGGCTCAAACCCGGAACCACCCCTATATCGGCATGTGGGTCACCGGCGATGGCCATATTCGTCAGGAACTTCTGCCCAATGGCCGGTATGACGAGGCGCGGGGCAACCGCAAAAGCGCCTATCAGGGGCGGTATGAGGTGAAGGGAAACCATATCGACTACTGGGACGATACCGGCTTCACCGCCGACGGCGAATTCGTCGACGATGTGCTTTATCACGGCGGCATGATCTTCTATCGCCAGAAGTAA	MNIVSTSVALLLATASTDTGSSKTSNAMDVNMTETAQTRNHPYIGMWVTGDGHIRQELLPNGRYDEARGNRKSAYQGRYEVKGNHIDYWDDTGFTADGEFVDDVLYHGGMIFYRQK				NA	NA	NA	NA	NA
BMS010_00198	1572			hypothetical protein	ATGTTGCAGGACGGACAGCTCTATATCGGGACCAGCCGCAATCCGGACGACAGCCTGAACAAGGGCGAATATCTGGAGCTGAAATTCGGCAACCGCCACGGCCTCATCACCGGCGCGACGGGAACCGGCAAGACCGTGACGTTGCAGGTGCTGGCCGAAGGTTTTTCCAAGGCCGGTGTGCCGGTTTTCTGCGCCGACATCAAGGGCGACCTTTCCGGCATCGCCGCGCAGGGCGAAGCCAAGGACTGGGTGCAGAAACGCGCCGAGCAGATTGGCTTCACCGATTTTGCCTATGGCAAATCGCCGGTGATCTTCTGGGATCTCTACGGTGAAAAAGGCCATCGCGTGCGCGCCACCATCGCCGAAATGGGGCCGCTGCTGCTCGCCCGGCTGATGGATGCCTCGGAAGCGCAGGAAGGCGTGCTCAACATCGCCTTCAAGATTGCCGATCAGGGCGGGCTGCCGCTGCTCGATCTCAAGGACCTGCAATCGCTCCTGAACTATATGGGCGAAAACGCAGCCGAGCTTTCCAACCAGTTCGGCCTGATTTCCAAGGCCTCGGTCGGTTCGCTGCAGCGCGGGCTGCTGGTTCTGGAACAGCAGGGTGCGGCGAATTTCTTCGGCGAACCGGCGCTGAAGATCGCCGACATCATGCGCGTGGGCACGGATGGGCGCGGCACGATTTCTGTTCTCGCCGCCGACCGGCTGATGATGAACCCGCGCCTTTACGCCACCTTCCTGCTCTGGATGCTTTCGGAACTGTTCGAAGAGCTGCCGGAAGTGGGCGACCCGGAAAAGCCGCGTCTGGTGTTCTTCTTCGACGAGGCGCACCTGCTCTTCAACGACGCGCCGCGGGTGCTGGTGGAACGTGTGGAACAGGTGGTGCGGCTCATCCGCTCCAAGGGCGTCGGCGTCTATTTCGTGACGCAGAACCCGCTGGACGTGCCGGAAACCGTTCTCGCCCAGCTCGGCAACCGCGTGCAGCACGCGCTTCGCGCCTATACGCCGCGCGAGCAGAAGGCGGTGCGCACCGCGGCCGACACTTTCCGGCAGAACCCGGCCTTCAACACCGCCGACACCATCACCACGCTCGGCACCGGTGAGGCGCTGATTTCCACCCTGCACGACAAGGGCGCTCCCTCCATCGTCGAGCGCACGCTGGTACGTCCGCCATCCGGCCGTGTCGGGCCGCTCACGGATGCGGAACGCAAGTCCCTGATCGATGTGAGCCCCGTCGCCGGGCAATATGACAAGGATATCGACCGGGAATCGGCCTTCGAAATCCTCGCCGCCCGCGCCCAGAAGGCTGCCGATGCAGAAGCTGCCAGACGGGCGGAGGAAGAAAACGCCGCCAGCCAGTCCGAAAGCGCTTCCGGCCGCTGGCGCCTGCCCGGCTTCGGCGATGAAGAACCCGCACCGGCCTCCACCGGCTCGCGTAATGGTGGCGCACGCAAGACCGGATACCAGCGCGAAACGGTGATCGAGGCGGCTATGAAAAGTGCTGCCCGCTCGGTTGCAACCTCGGTCGGCCGCGCCATCGTGCGCGGGATTCTCGGTAGTTTGAAGCGATAA	MLQDGQLYIGTSRNPDDSLNKGEYLELKFGNRHGLITGATGTGKTVTLQVLAEGFSKAGVPVFCADIKGDLSGIAAQGEAKDWVQKRAEQIGFTDFAYGKSPVIFWDLYGEKGHRVRATIAEMGPLLLARLMDASEAQEGVLNIAFKIADQGGLPLLDLKDLQSLLNYMGENAAELSNQFGLISKASVGSLQRGLLVLEQQGAANFFGEPALKIADIMRVGTDGRGTISVLAADRLMMNPRLYATFLLWMLSELFEELPEVGDPEKPRLVFFFDEAHLLFNDAPRVLVERVEQVVRLIRSKGVGVYFVTQNPLDVPETVLAQLGNRVQHALRAYTPREQKAVRTAADTFRQNPAFNTADTITTLGTGEALISTLHDKGAPSIVERTLVRPPSGRVGPLTDAERKSLIDVSPVAGQYDKDIDRESAFEILAARAQKAADAEAARRAEEENAASQSESASGRWRLPGFGDEEPAPASTGSRNGGARKTGYQRETVIEAAMKSAARSVATSVGRAIVRGILGSLKR				NA	NA	NA	NA	NA
BMS010_00199	393			hypothetical protein	ATGAACGAAGTCGTAAGCCAGATCGCCGAGAAGGCGGGAATAAGCCCCGAACTGGCCGAAAAGGCCATTGGCATGATTCTCGGTTTTCTCCAGCGCGAGGCTGCAGACGGCCCGATCGCCCGCATGATCGAAGCCATTCCCGGCGCCAGCGAACTGGTGGCGCAGTATAATGGCGAAGGTGCCGGCGGCGGCGGTCTGCTCGGCGGCCTGATGAGCGCGATCGGCGGCGGCGGCATCATGGGGCTGGGCCAGCAGCTGATGAGCCAGGGCCTCGGCATGAGCGAGATTTCCACGCTCGCCAAGGAAACCATCTCCGTAGCCCGCCAGCATGCGGGCGATGAGGTTGTCGATCAGGTGATCGCCTCGGTTCCGGGCCTCAGCCAGTTCGCCTGA	MNEVVSQIAEKAGISPELAEKAIGMILGFLQREAADGPIARMIEAIPGASELVAQYNGEGAGGGGLLGGLMSAIGGGGIMGLGQQLMSQGLGMSEISTLAKETISVARQHAGDEVVDQVIASVPGLSQFA				NA	NA	NA	NA	NA
BMS010_00200	522			hypothetical protein	ATGAAACGGCACCCCGCCGACCCGGCCATCGAAAGCCGGCGCAAGGTTCCGCCGCCCGCGGATACCGATCCGGCAATAGAGGCGCTGGTTCAGGACATCATTGCCAAGGTGGCCGACAAATGGACGATGCTTATTCTGGAAGTGCTGGAAGAGCATGGCACGCTGCGCTTCACGCAGATCGGCAGGTTGGTCGGCAATATCAGCCAGAAGATGCTGACGAAAACGCTGCGGCAGATGGAAAGCGACGGGCTGGTGCGCCGCACCGTGCATCCCGTCATCCCGCCGCATGTGGATTACGGCCTGACGAACCTCGGCCGTACGCTGGGCAGCGCCTTTTGCGGCGTTTGGATATGGGCGGAAACGCACCATGCCGAAATAGAAGAGGCGCGGGGGGGGGGGGGGCCCCCCCCCCCCCCCCCCCCCCCCCCCGCGGGGGGAGCGGCACCCCAGAAAACAGACGCCCGCACCCNNNNNNNNNNTCCGCTGGGCCGCGCCTTTGGGGGGGTTTGTTTTTGGGCGTAA	MKRHPADPAIESRRKVPPPADTDPAIEALVQDIIAKVADKWTMLILEVLEEHGTLRFTQIGRLVGNISQKMLTKTLRQMESDGLVRRTVHPVIPPHVDYGLTNLGRTLGSAFCGVWIWAETHHAEIEEARGGGGPPPPPPPPPAGGAAPQKTDARTXXXXPLGRAFGGVCFWA				NA	NA	NA	NA	NA
BMS010_00201	759			hypothetical protein	ATGAAAATCGCTGATAACACCATTCTCATCACCGGCGGCGGTTCCGGCATCGGCCGGGCGCTGGCGGAGGCGTTTCACAAGGCCGGCAACCGGGTCATCATTTCCGGCCGCCGCAAGGCCGTGCTCGACGAGGTGACGGCCGCCAACCCCGGCATGGCCTCGATGGTGATGGACGCGACGGACGCCGCAGGCATCCGCGCGTTTGCCGAAGCTCTGGTAAAGGCCCATCCGACCCTCAACGCCGTCATCAACAATGCCGGCATCATGCGGCCGGAAGACATCGCCGCAGCACCGGATTATCTCGACACGGCCGAAGAAACCATCGCCACCAATCTTCTAGCACCCATTCGCCTGACGGCGGCGCTTTTGCCGCATTTCCTCAAGCAACCCGCAGCCACTGTGCTGACGGTTTCTTCCGGCCTCGCTTTTGTGCCCATGGTGCTGACGCCCACCTACAGCGCCACCAAATCGGCCATCCATGCCTATTCGGTCGCGCTGCGCGAGCAGCTGAAGGAAACGCCGGTGGAGGTCATCGAAATCGTGCCGCCCTATGTGCAGACGACGTTGATGGGCGAGGGGCAGGCGAGCGACGAAAGGGCCATGCCGCTCGACGCCTTCATTTCCGAGGTGATGGATATTCTTGAAAATCGCCCGGACGAGAAGGAAGTGGTGGTGGAACGCTGCAAGCCGCTGCGTTTCGCCGCGCAGAACGGCAATTTCGATCAGGTCTTCGCCATGATCAATCATATGCATCCGTAA	MKIADNTILITGGGSGIGRALAEAFHKAGNRVIISGRRKAVLDEVTAANPGMASMVMDATDAAGIRAFAEALVKAHPTLNAVINNAGIMRPEDIAAAPDYLDTAEETIATNLLAPIRLTAALLPHFLKQPAATVLTVSSGLAFVPMVLTPTYSATKSAIHAYSVALREQLKETPVEVIEIVPPYVQTTLMGEGQASDERAMPLDAFISEVMDILENRPDEKEVVVERCKPLRFAAQNGNFDQVFAMINHMHP	PGPT0013220_431	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0013220-dltE-K14189	NA	NA
BMS010_00202	840			hypothetical protein	ATGGCCCAAGGCCGGTTCCTGATGCCGAAAACCATTCTGCCCGGTGTCGTCGCCGTGGCGGCGGATAGCGACCGTTCCTTTCCGCGCCACATGCACGATCAGTTCGGCATCGGTCTTATCGAACGCGGGGCGCAGAAATCGCTCTCCGGCCGCGGCATGGTGGAAGCGAGCGCCGGCCATCTCATCACCGTCAATCCGGGCGAGGTGCATGACGGTATTCCGCTCGGGGAGGGCGGCCGCGCCTGGCGGATGCTCTATCTCGACATCGATATCGTCCGCGACGCCATTGCCGATATCGGCGAGAATGATCGCCACGCGTTCGAATTTGCCTATCCCGTGGATATCAGGCCGCTGGCGAAGCGGTTCAACGCTGTCTTCGCAGCCATGACGGCAAGGGAACGGCCGGGCGAAACCCTTCGTGGCGACGAAACCGTGCTGACGCTTCTGGCGGGCGCGATGGAGAAGGCGGCGAAGCCGGGCGATATCGCCGCACCCGAGAATATAAGGCGGGCGAAAAGCCGCATCGACGACGAGCCCTCCCGGCCGTTCCGCCTTGCCGATCTCGCCGCAGAGGCCGGCATGAGCCAGTTTCGCTTCCTGCGCGCTTTCGCCCGGGCGACCGGGCTTACGCCGCACAGCTATCTTCTCCAGCGGCGCGTCCATGCGGCACGCCATGCACTGGCCAGAGGCACGCCGCCCGCCGAGGCGGCCTTTGCCGCCGGTTTTGCCGACCAGAGCCATCTGAACCGGTTCTTCGTGCGGCAATTCGGGGTTACGCCGGCGGTTTACCGGGCGGCGACAGGTGGCGGATCGTCGCTCTCTTCCGTCATGCCGGACTAG	MAQGRFLMPKTILPGVVAVAADSDRSFPRHMHDQFGIGLIERGAQKSLSGRGMVEASAGHLITVNPGEVHDGIPLGEGGRAWRMLYLDIDIVRDAIADIGENDRHAFEFAYPVDIRPLAKRFNAVFAAMTARERPGETLRGDETVLTLLAGAMEKAAKPGDIAAPENIRRAKSRIDDEPSRPFRLADLAAEAGMSQFRFLRAFARATGLTPHSYLLQRRVHAARHALARGTPPAEAAFAAGFADQSHLNRFFVRQFGVTPAVYRAATGGGSSLSSVMPD				NA	NA	NA	NA	NA
BMS010_00203	747			hypothetical protein	GTGGTCAAGGACTTGACCACGCTGAATCCCGGCTCGGGTGACGGTGTGCGGATGTGGCGCTGCAATTTCATCCAAGACACCCGCCCCACGCACCCTCATGCTGCTGTCCTCCACCCCACAGGACGCACCCGCACCATGACACCCGAATTCCTCATCACATCCCTCATCGTCGCCGCCTCTCCCGGAACCGGCGTGGTCTACACGCTCGCCGCCGGTCTTTCGCAGGGGGCGAGGGCGAGCATCATTGCTGCCTTCGGCTGCACGCTTGGCATCGTGCCGCATCTGCTCGCCGCAATCACCGGCCTTGCCGCCATCCTGCACACCAGCGCGCTCGCCTTCGGCATCGTCAAATATCTGGGGGTCGCCTACCTCCTTTACATGGCGTGGAACACGCTGCGGGAGGACGGTGCGCTGAAGATCGACGATACGAGGGAGCCCCGGAAGGCCGCCCGCATCATCGGCGAGGCGATCCTCATCAATCTGCTGAACCCGAAACTGTCGATCTTCTTTTTCGCCTTCCTGCCGCAGTTCATCGCGCCGGATGAGGCTTTGCCGATACCGCGCATGATCGATCTAGGGCTGATCTTCATGGCCATGACGTTTCTGGTGTTTGCGCTTTATGGCTGTTTCGCCGCTTCGGTCCGGCGGCAGGTGGTGTCGCGCCCGGCGGTCCTCGCGTGGCTGCGGCGCAGCTTCGCCGCCGCTTTCGTGGTGCTGGGTGCGAAGCTGGCCCTGACCGAGCGATGA	MVKDLTTLNPGSGDGVRMWRCNFIQDTRPTHPHAAVLHPTGRTRTMTPEFLITSLIVAASPGTGVVYTLAAGLSQGARASIIAAFGCTLGIVPHLLAAITGLAAILHTSALAFGIVKYLGVAYLLYMAWNTLREDGALKIDDTREPRKAARIIGEAILINLLNPKLSIFFFAFLPQFIAPDEALPIPRMIDLGLIFMAMTFLVFALYGCFAASVRRQVVSRPAVLAWLRRSFAAAFVVLGAKLALTER				NA	NA	NA	NA	NA
BMS010_00204	828	dkgB_1	COG0656	2,5-diketo-D-gluconic acid reductase B	ATGTATGACGTCAGCGCGAATGGCGCGAATATTCCCGCCCTCGGTTTCGGCACCTTCCGCATTCCGGAAGACGATGTCAGGCGCATTCTGCCGGAGGCGCTGAAACTCGGCTTCCGCCATGTCGATACCGCCCAGATCTACAAGAACGAGGGGGCCGTGGGCGAGGTCATCGCGCAATCGGGCATTTCCCGGCACGATATCTTTCTCACCACCAAGGTCTGGGTGGATCGCTTCCGCCACGACGATTTTCTCGCTTCCGTCGATGAAAGCCTTACGAAGCTGAAGACCGACTATGTCGATCTGCTGCTGCTGCACTGGCCGAAGAGCGATGTGCCGCTTGCCGAACGCATGGGCGCGCTGAACGCGGTGCGCAAGGCCGGCAAGGCGCGCAATATCGGTATTTCCAACTTCAACGTGGCGCTGACCGAAGAGGCGGTGAAACTGTCCGACACGCCGCTTGCCACCAACCAGATCGAATATCACCCCTATCTCGACCAGACGAAGGTGATTTCGGCCGCGCGCAAACACGGAATGTCGGTGACGGCCTATTATCTGATGGCCGATGGCAAGGTGCCGAACGACCCCGTGCTGAAGGATATCGGCGCAAAACACGGCAAGACCGCCGCGCAGGTGACCCTGCGCTGGGCGGTGCAGCAGCCGGATATCGTGGCGCTTTCCAAGACGGCGACGGAAAGCCGCCTCAAGGAGAATTTCGATGTTTTCGATTTTGCGCTGACGGAAGAGGAAATGCGGGCGATCCACGCGCTGGCCAGACCGAATGGCCGCATCGTCAATCCCGGCCACCTCGCGCCCGATTGGGACGACTGA	MYDVSANGANIPALGFGTFRIPEDDVRRILPEALKLGFRHVDTAQIYKNEGAVGEVIAQSGISRHDIFLTTKVWVDRFRHDDFLASVDESLTKLKTDYVDLLLLHWPKSDVPLAERMGALNAVRKAGKARNIGISNFNVALTEEAVKLSDTPLATNQIEYHPYLDQTKVISAARKHGMSVTAYYLMADGKVPNDPVLKDIGAKHGKTAAQVTLRWAVQQPDIVALSKTATESRLKENFDVFDFALTEEEMRAIHALARPNGRIVNPGHLAPDWDD	PGPT0001325_192	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0001325-dkgB-K06222	NA	NA
BMS010_00205	708			hypothetical protein	GTGTCACGCTCACAACGGCTTCTCGATCTGTTGCAGATCCTGCGCTCCCACCGCATGCCGGTCAGCGGCGCGGCCCTTGCCGCGCAAACCGGCGTCAGCCTGCGCACGCTCTACCGCGATATAGCGACGCTTCAGGCGCAGGGCGCGGATATCGAAGGGGAGGCTGGCGTGGGTTATGTGCTGCGCCCCGGTTTCCTGTTGCCGCCCCTGATGTTTTCGCAGCAGGAAATCGAGGCGCTGGTGCTCGGCTCGCGCTGGGTGGCGGGCCGTGCCGATGCGGGATTGGCGGAGGCCGCCCGCGCCGCGCTCGTGAAGATCGGCGCCGTGCTTCCCGATGCCCTGCGCGAGGAACTCGATCATTCCACCCTGCTGGTCGGTCCGGGCCAGGGCCTTGCCGCCATCCATGTCGATCTGGCCGCCATTCGCGATACGATCCGTAAGGAAAGCAGGGTCGTCATCACCTATCGCGATGAAAAGGGAGAGGTGACGGAACGGGTGATCTGGCCCTTCGCGCTCGCCTTTTTCGATCTGGTGCGGGTGGTGCTTGGCTGGTGCGAGACACGGCAGGACTACCGCAGTTTCCGGGCCGACCGCATCGAAGATTTCCGCCCTCTCGACAGCCGTTATCCGCGCCGCCGCCAGGCCTTGTTGAAAGAATGGCGCGAAAGGGAAAAACAGCGGCGGCGGCATCATGCTGACAAAAACTGA	MSRSQRLLDLLQILRSHRMPVSGAALAAQTGVSLRTLYRDIATLQAQGADIEGEAGVGYVLRPGFLLPPLMFSQQEIEALVLGSRWVAGRADAGLAEAARAALVKIGAVLPDALREELDHSTLLVGPGQGLAAIHVDLAAIRDTIRKESRVVITYRDEKGEVTERVIWPFALAFFDLVRVVLGWCETRQDYRSFRADRIEDFRPLDSRYPRRRQALLKEWREREKQRRRHHADKN				NA	NA	NA	NA	NA
BMS010_00206	369	ehpR		Phenazine antibiotic resistance protein EhpR	ATGACCCACCCCGATTTCATCATCCTTTACGTCGACAACCCGCCGGCCAGCACCGAATTTTACAAGGAGCTGCTGGGTGCGGAGCCGGTCGAAGCCTCGCCGACATTCTCGCTCTTCGTGCTTCAGAACGGCATGAAGCTCGGCCTCTGGTCGCGGCACACCGTGGAGCCGAAAGCATCCGTTACGGGCGGCGGCGGCGAGCTTGCCTTCCGCGTTGAAAACGATGCGCGGGTGGACGAAATTTTTGCGGATTGGCAGGCGAAGGGCATCGACATGCTGCAGCAGCCGGCAGGCATGGAATTCGGCTACACCTTTACCGCCGCCGACCCCGACAATCATCGTCTCCGGGTCTATGCTTTCGCGGGCTGA	MTHPDFIILYVDNPPASTEFYKELLGAEPVEASPTFSLFVLQNGMKLGLWSRHTVEPKASVTGGGGELAFRVENDARVDEIFADWQAKGIDMLQQPAGMEFGYTFTAADPDNHRLRVYAFAG				NA	NA	NA	NA	NA
BMS010_00207	771	tam_1	COG4106	Trans-aconitate 2-methyltransferase	ATGGCATGGTCCGCCCAACAATATCTGAAATTCGAAGACGAGCGGACGCGTCCCGCGCGGGATCTTCTGGCGCAGGTACCGCTGGAGCGGGTGCTGAATGGCTATGACCTCGGCTGCGGCCCCGGCAATTCCACCGAACTTCTGACCGACCGTTACGGCGTCAATGTCATTACCGGTATAGACAGCGATGACGACATGCTGGAAAAGGCGGCGGACCGGCTGCCGACCACGCGCTTCGGCAAGGCCGATCTTTCCCAGTGGAAGCCGGCGCAGAAGGCAGACCTGCTTTACGCCAATGCCGTGTTCCAATGGGTGCCGGATCATCTCACCGTTCTTTCGCAACTGATGGACCAGCTGGAAAGCGGCGGCGTTCTGGCCGTGCAGATGCCCGACAATCTGCAGGAGCCGACGCATCGCGCCATGGAGGAGACCGGGACGAACGGTTCCTGGAAGGATAGGTTTTCAGATGGCAGGCTGCGCCGCAAACCCCTGCCCGCGCCTTCGGATTATTTCGATGCGCTGACGCCGAAATCCACGCGGGTGGATGTGTGGCACACCATCTATAATCATCCGATGAAGGACGCGGAAAGCATCGTCGAATGGGTCAAAGGCACGGGGCTGCGCCCCTATCTCACCGCCGTCGGCGAGGAAAACCGCGAAGTCTTCCTCACTGACTATACGCGGCGCATCAAGGCGGCCTATCCGCCGATGGCGGACGGCCGCCTGCTTCTGCGCTTTCCCCGCCTTTTTGTGGTGGCTGTGAAGAAGTAA	MAWSAQQYLKFEDERTRPARDLLAQVPLERVLNGYDLGCGPGNSTELLTDRYGVNVITGIDSDDDMLEKAADRLPTTRFGKADLSQWKPAQKADLLYANAVFQWVPDHLTVLSQLMDQLESGGVLAVQMPDNLQEPTHRAMEETGTNGSWKDRFSDGRLRRKPLPAPSDYFDALTPKSTRVDVWHTIYNHPMKDAESIVEWVKGTGLRPYLTAVGEENREVFLTDYTRRIKAAYPPMADGRLLLRFPRLFVVAVKK				NA	NA	NA	NA	NA
BMS010_00208	882	ilvE_1	COG0115	Branched-chain-amino-acid aminotransferase	ATGAGCGTCGATACCGCACCCCGATCAACCACCTGGACCTATGTTGACGGTCAATGGCTGCCCGGCAATCCGCCGCTCATCGGCCCGACCTCGCATGCCATGTGGCTGGCTTCCACGGTGTTCGACGGTGCGCGCTGGTTCGATGGCGTGGCGCCCGATCTCGATCTGCATTGCCAGCGCGTCAATCGCTCCGCCGTCAATATGGGCATGAAGCCGACCATGACGGCCGAAGAGATCGAGTCCCTGGCACTCGAAGGCGTCAAGAAATTCGACGGCAAGATGGCGATCTACATCAAGCCGATGTATTGGGCCGAACACGGCATGCCCGGCAGCGTCGTGGCGCCCGATGCCAGCTCCACCCGGTTTGCGCTTTGCCTTTTCGAAGCGCCGATGGATGCCGGCAAGCCGCTGACGCTCACCGTTTCGCCGCTGCGCCGCCCTTCGCCGGAAACCGCCATGACCGACGCCAAGGCCGGCAGCCTTTACCCCAATAGCGGCCGCGCCATTCTGGAAGCGCGCTCGCGCGGTTTCGACAATGCCCTGATGCGCGACATGAACGGCAATGTCGCCGAGTCCGCTTCGGCCAACATCTTCATGGTCAAGGACGGCGTTGTCCTTACCCCGGTTCCGAACCGCACCTTCCTTGCCGGCATCACCCGTTCGCGCGTGATCGGCCTTCTGCGCCAGGCCGGTTTCGACGTGCGGGAAGCGACGCTTTCGGTCGAGGATTTCCGCGAGGCCGATGAAATCTTCTGCTCCGGCAATTATTCCAAGGTTTCGCCCGTCGTGAAGCTCGACGATCGCGAATTGCAGGCAGGCCCTGTCGCCCGCAAGGCGCTCGATCTCTATATGGACTGGGCGCGTCTCGGCGCGGACGTTTAA	MSVDTAPRSTTWTYVDGQWLPGNPPLIGPTSHAMWLASTVFDGARWFDGVAPDLDLHCQRVNRSAVNMGMKPTMTAEEIESLALEGVKKFDGKMAIYIKPMYWAEHGMPGSVVAPDASSTRFALCLFEAPMDAGKPLTLTVSPLRRPSPETAMTDAKAGSLYPNSGRAILEARSRGFDNALMRDMNGNVAESASANIFMVKDGVVLTPVPNRTFLAGITRSRVIGLLRQAGFDVREATLSVEDFREADEIFCSGNYSKVSPVVKLDDRELQAGPVARKALDLYMDWARLGADV	PGPT0008860_6498	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_VALINE_DEGRADATION,PGPT0008860-ilvE-K00826	NA	NA
BMS010_00209	2376			hypothetical protein	ATGTCTTTCAGCATACGCAATATACTTGTGGGATTTTTTCTGCTCATCGGCATCGCGCTGGCGGGCTTCGTGGGCAACGGCATGTTGCAGTCCGTGCAGCGTGCCCGCAGCTTTTCGGAGGTGGCGCAGCTCGTTTCGCTGGACAGGCTGCTTTTCAACGCCTTGCTGAACTTTCGCAGTGAACGCGGCAACAGCGCCTCGGCGCTGACGGTCGACCCGGCGAAGACGGCCAACACCATCGCCAGCGTGCAGGCGTCGCGCCAGAAGGTGGACGCCGCCATGGGCGCCTTTCTCGAACAGGCCGCCGCGCTCGATCAGGGTGGCCTCAAGGCCCCGCTTGCCCGCGTGAAGGATATCTACACGCAATTCCTGGAACTGCGCAAAAAGGTTGACGCCAACGTCACCCTGCCGATCGACCGTCGTGAAAACGGGCTGGACAAGACCGTGCTGGCGCTCGGTCAGGATTTCCTGACGGCGCTCGAAGCGGGCTCGACGGCGGTGGAAGGTGAGGTTCGCTCGCTGGACCAGAGCCTGACAGGCCTCATCCAGTTGCGGTCCTATGGCTGGTCGGCGCGTGCGCTCGGCGGCAGCGCCACCGTTGTCATCAATGCGGTCGTGGCCCAGCAGCGGCCGCTGACCCCGCAGGAAACCCAGCAGCTTGGCAATTTCGATGCCGGCGCGGCCTTTGCCTGGAAAGCCACCGGCGACCTCGTCGCGCATGAATCGACGCCGCAGGCGCTGAAGGATATCTATGCGGTTGCCGACAGGACCTATTTCAAGGGTGATTTCGTCACGCAGCGCGCAAAGCTGATAGACGATCTGAACAACGGCCGCACGCCTGCCTTCACCATCGATACATGGCGCAATACGGTCACCGCGAACCTCGATACGGTCGCGAAAATCGCCTCAGAAGCGATGGATGTTCTCAACGCCAATGCCGAAAAGGCCAGACAGGACGCCTTTATCGGCGCGATGATCTATCTCGCCGCGTTCATCCTCACGCTTGGCGTCTGCATTCTCTGCCTTGCCGTCATCGTCGGCCGCGTCACCCGTCCCATCAGCCGCCTGACAAAGGCGATGATGGAATTGTCCACCGGCAACCTGACCATCGATGTGCCCGGCGCAAAACGCGGCGACGAGATCGGCGAGATGGCCCGCGCCGTGGAAATCTTCCGCGAAGCGGCCATCCGCAACCGGCAGCTTGAGGACGAAGCCGTCGGCAACCGCGAGCAGGCCGAGCGTGACCGTATCGAGCTGCAGCAGCGCGCCGAGGCCGAGGCCGAAGAGCGTCTCAATCAGGCCACGGGGTCGCTGGCTGGCGGTCTTCGCCGGCTTGCCTCCGGGGATATGGTCTGCGAGATCGCCACGCCGTTTGCGCCGCAATTCGAGACGCTGCGGCACGATTTCAACAGCTCCGTGCATCAGCTGCGCGAAGCGCTCACAAGCGTTGGCCAGTCCGTGCAGACCGTGAACGGCGGCGCCCACGAGGTATCCTCCGCATCCGACGATCTTTCCCGCCGCACCGAACAGCAGGCTGCTTCTCTTGAAGAAACCGCCGCGGCGCTGGAAGAGATCACCGCCAATGTTTCCGCCACCTCCAAACGGGCGAGCGATGCGCGCGACACGGTGCGTGAGGCAAGGACAAAGGCCGATCTTTCCGGCAAGGTGGTGCGCGATGCCGTCGCCGCCATGGAGCGCATCGAACATTCCTCGCGCCAGATCGGCCAGATCATCGGCGTCATCGACGAAATTGCCTTCCAGACCAACCTTCTGGCGCTGAACGCCGGCGTCGAGGCAGCAAGGGCGGGCGATGCGGGCAAGGGCTTCGCCGTCGTCGCACAGGAAGTGCGCGAACTGGCGCAGCGCTCCGCCAATGCCGCCAAGGAAATCAAGCAACTCATCACTGCTTCAGCCGTTGCGGTGGGTGAGGGCGTGAAGCTGGTGGCCGATACCGGCGTCGGCCTTTCCGAGATCGAGCAGCTGGTGCTTTCGGTCAACACCCATATGGACGCCATCGCCACGGCGGCGCAGGAGCAGTCGGCAGGCCTTTCCGAGGTCAATACGGCCGTCAACCACATGGATCAGGCCACGCAGCAGAATGCCGCCATGGTCGAGGAAATGAATGCGGCCGGTGCGGGTCTTGCACAGGAATGTACCAACCTTCACGCGCTGCTTGCGCAATTCCAGCTCGGCCAGCAAAGCTCGGCATTGCGGGAGACGGCACGGCATATGCAGCGCGCCGCAAGCCCGGCCCACGCGCCAGCCGCACCGGCCGCACCGGTCGCACCGGTCGCACCGGCGCGGAAGGCTCGCCCCGTTGCTGCACGCGGCAATGCGGCGCTGGCCGTGAAGGGGGATGAGTGGACGGAGTTTTGA	MSFSIRNILVGFFLLIGIALAGFVGNGMLQSVQRARSFSEVAQLVSLDRLLFNALLNFRSERGNSASALTVDPAKTANTIASVQASRQKVDAAMGAFLEQAAALDQGGLKAPLARVKDIYTQFLELRKKVDANVTLPIDRRENGLDKTVLALGQDFLTALEAGSTAVEGEVRSLDQSLTGLIQLRSYGWSARALGGSATVVINAVVAQQRPLTPQETQQLGNFDAGAAFAWKATGDLVAHESTPQALKDIYAVADRTYFKGDFVTQRAKLIDDLNNGRTPAFTIDTWRNTVTANLDTVAKIASEAMDVLNANAEKARQDAFIGAMIYLAAFILTLGVCILCLAVIVGRVTRPISRLTKAMMELSTGNLTIDVPGAKRGDEIGEMARAVEIFREAAIRNRQLEDEAVGNREQAERDRIELQQRAEAEAEERLNQATGSLAGGLRRLASGDMVCEIATPFAPQFETLRHDFNSSVHQLREALTSVGQSVQTVNGGAHEVSSASDDLSRRTEQQAASLEETAAALEEITANVSATSKRASDARDTVREARTKADLSGKVVRDAVAAMERIEHSSRQIGQIIGVIDEIAFQTNLLALNAGVEAARAGDAGKGFAVVAQEVRELAQRSANAAKEIKQLITASAVAVGEGVKLVADTGVGLSEIEQLVLSVNTHMDAIATAAQEQSAGLSEVNTAVNHMDQATQQNAAMVEEMNAAGAGLAQECTNLHALLAQFQLGQQSSALRETARHMQRAASPAHAPAAPAAPVAPVAPARKARPVAARGNAALAVKGDEWTEF	PGPT0015710_1433	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_00210	888	cmpR_1		HTH-type transcriptional activator CmpR	ATGATGGACCTCGATCTGCGGCAGCTTCGCAGCTTCATGGATGTGGCCGATCTCGGCAGTTTTTCCGCCGCCGCCGACAAGGCGGGGCTGACGCAGCCGGCCATCAGCCTGCATATAAGGCTGCTTGAAAAACAGCTTGGCGTGCGGCTGATCGAAAGGGTCGGCAGGCGCGCGCAGTCGACGGCGGCGGGGCGCGATTTTCTCATCCATACAAGGCGGATTGCGGAAGAAGTGGCGCATGCCATCGATACCGTAGCACCTCATCGCAGCGGGGTGACGGGACGCCTGCGCATCGGCACGGGCGCCACCGCCTGCATCTATCTGCTGCCGCCGGTGCTGGGCAAAATCCGGCAGGCCATGCCCGGCATCGAGATCGTCGTGCAGACCGGCAATACCCACGATATCCTCCGGCTTCTGGAGGCCAATACCATCGATGCGGCGGTGGTGGCCCTGCCCGCCAGCGGCCGCAGCCTCGATATCAGCGATATCCATCTCGACGAGCTGGTCGCGGTTTTCCCGCAAGGCTCCGTCTCTGACGCAACGGCGCTCAACGCCGAGACGCTTTCGGCGCGGCCGCTGCTGCTTTACGAGGGCGGCATTACGCGCCGGCTGGTGGATCAATGGTTTTCGGCGAGCGGCCGCACCGTGCAGCCCGCGATGGAACTGGGCAGCGTCGAGGCGATCAAGAAGCTCGCAGGTGCGGGCCTTGGCCTTGCCATCGTGCCGCGCATGGCGATGGAGCATGAAGGTGCCGCATCCGGGCTCGAATGGCGCTCGCTCGAACCGCCGCTTGAACGGCGGATCGCGCTGGCGATGCGACGCGACAAACATATGACCGCGCCGCTGCGGGCGCTTGCCGCTGCGCTGCCGGATGTGCGGAAAGGATGA	MMDLDLRQLRSFMDVADLGSFSAAADKAGLTQPAISLHIRLLEKQLGVRLIERVGRRAQSTAAGRDFLIHTRRIAEEVAHAIDTVAPHRSGVTGRLRIGTGATACIYLLPPVLGKIRQAMPGIEIVVQTGNTHDILRLLEANTIDAAVVALPASGRSLDISDIHLDELVAVFPQGSVSDATALNAETLSARPLLLYEGGITRRLVDQWFSASGRTVQPAMELGSVEAIKKLAGAGLGLAIVPRMAMEHEGAASGLEWRSLEPPLERRIALAMRRDKHMTAPLRALAAALPDVRKG				NA	NA	NA	NA	NA
BMS010_00211	582	yncA	COG1247	L-methionine sulfoximine/L-methionine sulfone acetyltransferase	ATGCACAATGACGGCGTGAATGATCCGCAGGACAAGAGAATGACCCTTTCCACCGTTTCCAGCCTTACGATCCGCCCTTGCGAAGAGGCGGATATTCCAGCCATTGCCGAAATCTACCGGGACGCCGTTCTGCACGGCCGCGCGAGCTTCGAGATCGATCCGCCAAGCGCGGAGATGATGCTCGAGCGCCGCCGCCTTCTGGTGGAGGGCAATTACCCCTATCTCGTCGCCGAATGCGATGGAAAGATAGCCGGATATGCCTATGCCGGCGCCTATCGCCCGCGCCCGGCCTATGGCGCGGCGGTGGAGAATTCCGTTTATATCGATCCGGCCATGAAGGGCATGGGTATCGGCCGCAAGCTGCTCGAGGCGTTGATCGAGGCGGCGACGGCACGCGGCTTCCGGCAGATGATCGCCGTCATCGGCGATTCGGCCAATGCCGCCTCGATCGGCGTGCACCGCGCCGCCGGTTTCGAACATGTCGGCACCTTCAAATCCATCGGCTGGAAACATGGCCAATGGCTGGATACGGTGCTGATGCAGCGTGCGCTGGGCGAGGGCGACACCACGCCGCGCTTTTGA	MHNDGVNDPQDKRMTLSTVSSLTIRPCEEADIPAIAEIYRDAVLHGRASFEIDPPSAEMMLERRRLLVEGNYPYLVAECDGKIAGYAYAGAYRPRPAYGAAVENSVYIDPAMKGMGIGRKLLEALIEAATARGFRQMIAVIGDSANAASIGVHRAAGFEHVGTFKSIGWKHGQWLDTVLMQRALGEGDTTPRF				NA	NA	NA	NA	NA
BMS010_00212	363			hypothetical protein	ATGACCCGTCCGATCCCCCGCACCATCCTCCTCCTTGCGGCCTTCTCGTCGCTTACTCTCCCCGCCGCCGCATCGTCGGATGACGCCTGGAAGGAGTTCGTGGCGGATGTGCAGACGGCCTGCCTTGCCGGCGCCAAGGACATGATCGAGGACGCGAAGGCCGTGGTCGATCCGGTCGGCAGCGAGAATTACGGCCTCGCCATTCTCACCGGCAAGGTCAAACTCACCGGGAAGAGTGGGGGCGCGGATGCGACCGTCAGCCATATCTGCGTCTACGACAAGAAAACCAAGGCCGTGGAGCTGGGCAGCGAACTTTCCGGCGATACGCTGAAGGTGGAAATCCCCGGCTCCACCAAGCCCTGA	MTRPIPRTILLLAAFSSLTLPAAASSDDAWKEFVADVQTACLAGAKDMIEDAKAVVDPVGSENYGLAILTGKVKLTGKSGGADATVSHICVYDKKTKAVELGSELSGDTLKVEIPGSTKP				NA	NA	NA	NA	NA
BMS010_00213	603	sodB_1	COG0605	Superoxide dismutase [Mn]	ATGGCCTTCGAACTTCCCGAACTCCCCTACGACTACGACGCGCTTGCACCCTACATGTCGCGCGAGACGCTCGAGTTCCATCACGACAAGCACCACAAGGCATATGTCGACAACGGCAACAAGCTGGCGGCCGAAGCAGGTCTTTCCGACCTGTCGCTCGAAGAAGTCGTGAAGAAGTCCTTTGGCACCAATGCCGGTCTCTTCAACAATGCGGCCCAGCATTACAACCACGTCCATTTCTGGAAGTGGATGAAGAAGGGCGGCGGCGGCAACAAGCTGCCGGGCAAGCTCGAGCAGGCATTCGCCTCCGATCTCGGCGGTTACGACAAGTTCAAGGCGGATTTCATCGCGGCCGGCACCACGCAGTTCGGCTCCGGCTGGGCATGGCTCTCCGTCAAGAACGGCAAGCTTGAAATCTCCAAGACCCCGAACGGCGAAAACCCGCTGGTTCATGGTGCCGATCCCATCCTCGGCGTCGATGTCTGGGAACACTCCTACTACATCGACTACCGCAACCTGCGTCCGAAGTACCTCGAAGCCTTCGTCGATAACCTCATCAACTGGGACTACGTCCTGGAGCGTTACGAAGCCGCCGCCAAGTAA	MAFELPELPYDYDALAPYMSRETLEFHHDKHHKAYVDNGNKLAAEAGLSDLSLEEVVKKSFGTNAGLFNNAAQHYNHVHFWKWMKKGGGGNKLPGKLEQAFASDLGGYDKFKADFIAAGTTQFGSGWAWLSVKNGKLEISKTPNGENPLVHGADPILGVDVWEHSYYIDYRNLRPKYLEAFVDNLINWDYVLERYEAAAK	PGPT0004190_4995	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0004190-chrC|sodB|sodA-K04564	NA	NA
BMS010_00214	846	cpdA_1		3',5'-cyclic adenosine monophosphate phosphodiesterase CpdA	ATGACTGAAAAAACCACGCCTCTCTTCTCCTTCGGCATTGTCGCCGATCCCCAATATGCCGATGCCGCTCCCCGTCCGGAAATGGGCCGTTATTACGCCGAGAGCCCGAAAAAGCTCGCAGACGCGGTCGATGCCTTCAATCGCGAGGAGCTGGCCTTCGTGGTGACGCTCGGCGATATCATCGATCGCGGCTTCGACAATTTCGATGCGATCCTTGCCGTTTACGACGGGCTTCGCCACCGCTCGGTCCTGCTGCCAGGCAATCACGATTTCGCCGTCGCCGTCGAGCATTTGCCGGCTATCCACGCCCGCCTCGGCATGTCCGCCCCCTGGCATGATTTTTCCATCGGTGACGTCCGTTTCGTCGTGCTTGATGGCAACGAGGTCAGCCTTTTCGCCCCGCCGCCCGGCGATCCGCGTCGGGCGCTTGCCGCAGACCGGCTGAAGCGCCTGGCGGATGCCGGCGCAATCAATGCACAGGACTGGAACGCCTCGCTCAGCGACGAGCAGTTCGAATGGCTGCGGGCCGTTCTGCAAAGGGCGGATGCGGCGGGCGAAAAAGTGATCGTTCTCTGCCACTATCCTGTCTATCCCGAAAACGCCCACAATATGTGGGACGCGCCTCGCATCCTTGAACTTCTCGGCTCCCACCCCTCGGTCGTCGCGTGGTTCAATGGCCATAATCACGAGGGCAATTACGGTGTGCTGGGCAATACCCACTTCGTGAACTTCAAGGGCATGGTCGATACGCCCGACCAGAACACCTTCGCGATTGCCGATGTCTTTGCCGACCGGATCGTCATTCGCGGTTTTGGGCGCGAGGAGGATCGCCTTTTACGGCTGTGA	MTEKTTPLFSFGIVADPQYADAAPRPEMGRYYAESPKKLADAVDAFNREELAFVVTLGDIIDRGFDNFDAILAVYDGLRHRSVLLPGNHDFAVAVEHLPAIHARLGMSAPWHDFSIGDVRFVVLDGNEVSLFAPPPGDPRRALAADRLKRLADAGAINAQDWNASLSDEQFEWLRAVLQRADAAGEKVIVLCHYPVYPENAHNMWDAPRILELLGSHPSVVAWFNGHNHEGNYGVLGNTHFVNFKGMVDTPDQNTFAIADVFADRIVIRGFGREEDRLLRL	PGPT0021530_308	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021530-ADPRM_like-K01517	NA	NA
BMS010_00215	711			hypothetical protein	ATGCGCAAGGCGTCGAGACTGTTCGAGATCATCCAGATCCTGCGGGTGGCGCGCAGGCCTGTCACCGCGCAGACGATTGCCGAGGCGCTGGAAGTGACGGTGCGCTCGGTTTATCGCGACATAGCAGCGCTTCAGACCATGCGCGTGCCGATCGAAGGGGAACGCGGCGTCGGTTATATCCTGCGTCCCGGCTTCAACCTGCCGCCGCTGATGTTTTCCATCGAAGAGACGGAGGCGATCGTGCTGGCGCTCGCCATGGTCGCCCGCACCGGCGATAGCGAGTTGCGGCAGGCGGCAAGGCAGGTCAGCGACAAGATTGCCGCCTCCCTGCCCGAACCACTGTCGAAAACCCTCTCCGCCAATGCCCTGCATGCCTGGGGCAGCATCGCGCCCTCCCCCGCCGGCGTCGATCTTGCGACGGTCCGGCGGGCGGTGCGCGACGAGGAGAAGCTGGAGATCACCTATCGCGATGAAGCCGGCGCGCAAACGCAGCGGCAGGTTCGGCCGATTGCGGTGATCTATTATTCGGAGACGGTGAATATCGTCGTCTGGTGCGAATTGCGGCAGGCGATTCGCAATTTCCGTTCTGACCGGGTGCTGAGCTGCGAAACGACCGGCAGCTTCTTCAAGCTGGAAGGCGAGAAGCTGCGGCAATTGTGGATGAGCGGCTGGCAGAGCAACCAGCCGCCAATCCCCTATTCACAGCCGTAA	MRKASRLFEIIQILRVARRPVTAQTIAEALEVTVRSVYRDIAALQTMRVPIEGERGVGYILRPGFNLPPLMFSIEETEAIVLALAMVARTGDSELRQAARQVSDKIAASLPEPLSKTLSANALHAWGSIAPSPAGVDLATVRRAVRDEEKLEITYRDEAGAQTQRQVRPIAVIYYSETVNIVVWCELRQAIRNFRSDRVLSCETTGSFFKLEGEKLRQLWMSGWQSNQPPIPYSQP				NA	NA	NA	NA	NA
BMS010_00216	630	rhtB_1	COG1280	Homoserine/homoserine lactone efflux protein	ATGAGTTACGCCGAAAATCTCTGGCTTTTCTTTCTGGTCCTGTTCGGCATCATCATCCTGCCGGGCATGGACATGCTGTTCGTGCTGGCAAGCGCACTGACGGGCGGCAAGAGAACCGGCCTTTCCGCTGCAAGCGGCATGAGCGCCGGCGGCATCGTGCATTCGCTGTACGGCGCCCTGGGCGTCGGCATGCTGGCCGCCTGGATGCCGTCGCTGTTCCTGCCGCTTCTGGTTTTCGGGGCGGCCTATATGATCTGGATCGGCATCGGCCTGATGCGCAGCGCGATTGTCGTGAACGGCGATGAGGCGCAGGCGAGCGCTTCGGTCAGAAAAGCCTTCTGGCGGGCGGTGCTGACCTGCCTTTCCAACCCGAAAGCCTATCTGTTCATGATGGCGACCTATCCGCAATTTCTCAAACCGGCCTATGGCCCGATCTGGATGCAGGGGCTGGTGATGGGCGCGATGGTGGCGGTCACGCAGTTCACGGTTTACGGCGCGCTGGCGCTGACGGCGGATAAAAGCCGGGCATGGCTGGTTTCTTCGCCCGCCGCCACGATCTTCATCGGCCGCGCCGCCGGTTTCATGCTGATTGCCGCAGCGCTGCTGACATTGTGGGAGGCCCTGTCTTAG	MSYAENLWLFFLVLFGIIILPGMDMLFVLASALTGGKRTGLSAASGMSAGGIVHSLYGALGVGMLAAWMPSLFLPLLVFGAAYMIWIGIGLMRSAIVVNGDEAQASASVRKAFWRAVLTCLSNPKAYLFMMATYPQFLKPAYGPIWMQGLVMGAMVAVTQFTVYGALALTADKSRAWLVSSPAATIFIGRAAGFMLIAAALLTLWEALS				NA	NA	NA	NA	NA
BMS010_00217	435			Cytochrome c-556	ATGAAACTGAAAACCATTACCGCGGCCATGCTATTCGGCTGTCTTTGCGCCGGAGCGGTCTACGCTGCCGGCGAAGTCGAAAAACGTGAAGGCATGATGAAGCAGATCGGTGGGGCGATGGGTTCGCTCGCCGCCATCTCCAAGGGCGAAAAGCCCTTCGACGCCGATACCGTCAAGACTGCCGTAACCACCATCAGCACCAACGCCAAGGCGTTCCCGGACCAGTTCCCCGCCGGCACCGAGACCGGAAGTGCCGCTGCCCCCGCCATCTGGGAAAATTTCGACGACTTCAAGGCCAAGGCCGCCAAGCTCGGCACGGATGCGGACATGGTTCTCGCCAATCTCCCCACCGATCAGGCGGGCGTCGCTACCGCCATGAAGACGCTGGGCGCCGATTGCGGCACCTGCCACCAGACCTATCGTCTGAAGAAATAA	MKLKTITAAMLFGCLCAGAVYAAGEVEKREGMMKQIGGAMGSLAAISKGEKPFDADTVKTAVTTISTNAKAFPDQFPAGTETGSAAAPAIWENFDDFKAKAAKLGTDADMVLANLPTDQAGVATAMKTLGADCGTCHQTYRLKK				NA	NA	NA	NA	NA
BMS010_00218	921	fdhC		Fructose dehydrogenase cytochrome subunit	ATGTCCTCCATCTGGACGAAACTCGTGGGCGGGGCCGTCGTCGCGGCCATTGCGGGCTACGGCATATTCGCCTGGGTCACCGCGCCTCAGCGGCAGGCGCCCAGCCACTGGGTCAGCCTGGGCGAACCGGATCTGGCCAATGGCGAAACGCTGTTCTGGGCGGGCGGCTGCGCAAGCTGCCATGCCGCACCCGATGCGAAAGGCGAGGCGCTGTTGACGCTTTCGGGCGGGCAGGCGCTGAAAAGCCCCTTCGGCACCTTCCATGTCCCCAATATTTCCTCCGATCCGCAGCATGGCATCGGCGGCTGGACGCTGGCGGAATTCGGCGATGCGATGACGCGCGGTGTGGGCAGGAACGGCGAACATCTCTACCCGTCCTTTCCCTATGCCTCCTATGCCCGCATGACGCAGAAGGACATCAACGATCTCTTCGGCTATCTGAAGGCCCTGCCGGCCAGCCAGAACGATGCGCCGGATCACGAGTTGCCGTTCCCCTTCAATCTGCGCATGGCGCTGGGCGGCTGGAAATTCCTTTATTTTGACCCCTCGGCGCGGCCCCGCGTGGAGCTTGCCAATGCCAATGCCGAATTGCTGCGCGGCCAATATCTGGTGGAAGGGCCGGGCCATTGCGGCGAATGCCACACGCCGCGCAACGCGCTTGGCGGTTTCGTGAAAGACAAGTGGCTGGCCGGCGGTCCCAACCCGGAAGGCGAAGGCCGCATTCCCGACATTACCCCCGGCTCGCAAAGCATCGGCAGCTGGGCCGAGGCCGATATTGCCAGCTATCTGGAAAACGGCTTCACCCCGGAATTCGACAGCGTCGGCGGCTCCATGGTCAAGGTACAGCAGAACATGGCGCATCTGACGCCTGAAGACCGCGATGCAATTGCCGCCTATCTGAAGGCCATACCGTCGCGGTAA	MSSIWTKLVGGAVVAAIAGYGIFAWVTAPQRQAPSHWVSLGEPDLANGETLFWAGGCASCHAAPDAKGEALLTLSGGQALKSPFGTFHVPNISSDPQHGIGGWTLAEFGDAMTRGVGRNGEHLYPSFPYASYARMTQKDINDLFGYLKALPASQNDAPDHELPFPFNLRMALGGWKFLYFDPSARPRVELANANAELLRGQYLVEGPGHCGECHTPRNALGGFVKDKWLAGGPNPEGEGRIPDITPGSQSIGSWAEADIASYLENGFTPEFDSVGGSMVKVQQNMAHLTPEDRDAIAAYLKAIPSR				NA	NA	NA	NA	NA
BMS010_00220	183			hypothetical protein	ATGTCCATCAACCAGAATACGGCCGACGCCGCCGTTTCCGCAAAAACAACCAGCTTCGCGCAATCGCTGACGGCGATCGTGCTTGGCCTGTTCGTTGTCGGTTTTGTCGGCTTTTCCCATGTGGAAGCCGTTCACAATGCCGCGCATGACACGCGTCATGCCAACGCCTTCCCCTGCCATTGA	MSINQNTADAAVSAKTTSFAQSLTAIVLGLFVVGFVGFSHVEAVHNAAHDTRHANAFPCH				NA	NA	NA	NA	NA
BMS010_00221	711			hypothetical protein	ATGTCGTCTTTTCGCAATATCGTCTTTACCGCCGTTCTCGTCGGCATTCTTGGCGGTTTCGCCGTCTCGGCCATGCAGGCTTTTGGCACGACGCCGCTCATCCTTCAGGCGGAAACCTATGAAAGCGCTGGCGAAGCGGCCCACAGCCATGATGCGCCGGCGCCCGGTGCTGCCGTTCCCGCCCATGAGCACAATGACGAGGCCTGGGCTCCGGCCGATGGCTTCGAGCGCACCGCCTACACCGTCGCCGCCAATGTCCTGACCGCCATCGGTTATGCATTGGTGCTGACCGGCCTGATTTCGCTGCGTGGCACGAATGGCGGCTGGCGCGAAGGACTTCTCTGGGGCGTTGCCGGTTTTGCCGCCGTCATGCTGGCCCCGATGATCGGCCTGCCGCCGGAACTGCCGGGCAGCCCGGCCGCCGCACTTGAGGCCCGGCAGATCTGGTGGCTTGCGACGGTTGCCGCAACCGCGGGCGGCATTGCGCTGATCGCCTTCCGCCGCGAACCCTGGGCCATCGTATTGGCGCTGGTGCTGATCGTCGCGCCGCATGTGGTCGGCGCACCCTTGCCGCCGGAAGGCGAACATGCGCTGGCGCCGCTGCCGCTGGAGCGTCAGTTCATCGTCGCCGCCACCGTGACCAGCTTCGTATTCTGGGCTTTGCTTGGAACATTGAGCGCGTTTTTCCTGAAGCGCTTCCAGCAGGCGTAA	MSSFRNIVFTAVLVGILGGFAVSAMQAFGTTPLILQAETYESAGEAAHSHDAPAPGAAVPAHEHNDEAWAPADGFERTAYTVAANVLTAIGYALVLTGLISLRGTNGGWREGLLWGVAGFAAVMLAPMIGLPPELPGSPAAALEARQIWWLATVAATAGGIALIAFRREPWAIVLALVLIVAPHVVGAPLPPEGEHALAPLPLERQFIVAATVTSFVFWALLGTLSAFFLKRFQQA				NA	NA	NA	NA	NA
BMS010_00222	315			hypothetical protein	ATGCAGGACGCAGCGGAATGGAGTGAGGAACTCGATGCGCTGCGTTTTGCGGTTCCCGGTCACGGCGCTTTCTGCGCCGTGCACCGCCTTGCTTTCAAGGCGGTTCTTGGGGCGACCCCGGATCGCGAGGCGGCTATCGCCTGTTTTCATGAGCACGAGGCCGCTTTTATCGCTGCGGCGCTCAGCAAGATAAAACGCTCGAATTCACCCGCCGGCCGCAGCCTGCATCTGAACAGCCGCGATATTCGCCGTGCGATTGCCGGGGAGAACGGCGATCATGCGGCGCGTGTTTGTCGCGTACTTGATCGGCGATAA	MQDAAEWSEELDALRFAVPGHGAFCAVHRLAFKAVLGATPDREAAIACFHEHEAAFIAAALSKIKRSNSPAGRSLHLNSRDIRRAIAGENGDHAARVCRVLDRR				NA	NA	NA	NA	NA
BMS010_00223	567	ydeA	COG0693	putative protease YdeA	ATGACACGGATTGCCATTGCGCTGGCGCAGGATTTTGCGGACTGGGAACCGGCGCTGCTTGCTGCCGCAGCCCGCAGTTATCTGGGCGTCGAGATCGTCTATGCCACCCCCGATGGCAGGCCGGTGACATCCATGGGTGGGCTGAATGTGACGCCTGACACATCCTATGACGCGCTTGATCCAGCTGGCATCGATGCGCTTGTCATTCCTGGGGGCTTGAGCTGGGAAAAGGGAACGGCTGTCGATCTTGGCGGGCTGGTGCACCGGTTTCGCGACAGGGACCGGCTAGTGGCCGGCATCTGCGCGGCGGCGAGCGCGCTTGGCGGCACGGGCGTCCTGAACGACGTCGCCCATACCGGCAATTCGCTGGCGTCCCACAAGGCTTATGCCGTCTATAGCGGCGAGTCGCTCTACCGCGACCAGCCGAAAGCGGTCAGCGATGGCGGCATCATCACCGCCGCCGGCAGCGCGCCGGTCAGTTTCGCTGTGGAAATCCTGAAACACCTCGGCCTCTTTGGTCCGGAAGCCGAGGCGGAACTTCAGGTTTTTGCGGCGGAGCATCGCTGA	MTRIAIALAQDFADWEPALLAAAARSYLGVEIVYATPDGRPVTSMGGLNVTPDTSYDALDPAGIDALVIPGGLSWEKGTAVDLGGLVHRFRDRDRLVAGICAAASALGGTGVLNDVAHTGNSLASHKAYAVYSGESLYRDQPKAVSDGGIITAAGSAPVSFAVEILKHLGLFGPEAEAELQVFAAEHR				NA	NA	NA	NA	NA
BMS010_00224	489			hypothetical protein	ATGACCGAAGATAGCTCCCTTACACTGGAAAGACCGCCCGTCGTCATCATTCGTGGCGCACGCAAGACGGATTTGCCCGAGCTCAACGAGATGATTACGCTGCTTGCCTCCTACCACGGCGATGCGGCGGCGATCACGCCGGCGAAACTGGAACGCGACCTGTTCGGCCCGCTGCCGTGGGTGCATGGCCTCGTGGCCGAAGCCGATGGCGCGCTGATCGGTTACGCCCTGCTTCTGCCGCTCTACAGGGCGCAGGAAGGCCGTCGCGGGCTGGAGCTGCATCATCTCTTCGTGCGTGACGGGCATCGGGGCCATGGCACCGGCCAGCATCTGGTTTCTCGCGCCCGCGATATCGCCAAGCGTCTCGGTTGCGACTATCTTTCCGTCAGCGCCACGACCGGCAATGTGGCGGCGCATCGCTTCTACGAAAACATGGATTTCGCGCCCCGCCCGGTCACCGGCATGCGCTACATGCAGTCCATCGCCTGA	MTEDSSLTLERPPVVIIRGARKTDLPELNEMITLLASYHGDAAAITPAKLERDLFGPLPWVHGLVAEADGALIGYALLLPLYRAQEGRRGLELHHLFVRDGHRGHGTGQHLVSRARDIAKRLGCDYLSVSATTGNVAAHRFYENMDFAPRPVTGMRYMQSIA				NA	NA	NA	NA	NA
BMS010_00225	414	hmrR_1		HTH-type transcriptional regulator HmrR	ATGCTGTCCATCGGTGAACTGTCCAAACGCACCGGCGTCAAGGTGCCGACTATTCGTTATTACGAGCAGATGGGCCTCATCCGCGAAGCCGACCGTTCGGACGGCAACCAGCGCCGCTACGAAAAGACCGACCTCGAAAGGCTGGCCTTCATCCGCCATGCGCGCGATCTCGGGCTGAACATCGACGCCATCCGCGAACTGATCGCGCTTAGCCAGCACCGGCAGATGCCCTGCGAGGGCGCGGACCGCATCGCCGCCGAACACCTCGCCCATGTGCGCGAGAAGATCGCCAGCCTGAAGAAGCTGGAGCATGAGCTGGAGCGGATCGTCTCCCATTGCCACGGCCATTCCATAGAGGATTGCTACGTCATCCGCGCGCTTTCCAATCACGGCATGTGCGAGGGCGAGCATTGA	MLSIGELSKRTGVKVPTIRYYEQMGLIREADRSDGNQRRYEKTDLERLAFIRHARDLGLNIDAIRELIALSQHRQMPCEGADRIAAEHLAHVREKIASLKKLEHELERIVSHCHGHSIEDCYVIRALSNHGMCEGEH				NA	NA	NA	NA	NA
BMS010_00226	348			hypothetical protein	ATGACGACTATCGCAGCAACCAGCAGCATCAATTTCGCCTCTCCCGTCCGCGGCATCGCGCCTGCGCATAACCGGGAGAGCCAGTCTACCACCGAGGCTTTGCAGGAGCTGACGCGGGCGGCCCATCGCGCCATTTCGGTGGCAGGCAATGTCGCCACCACCGTCGCCCCGCTGGCCGGCGCCTCCGCGAGCCTCGCTGCTGCTCTCTGGAAGATGGACAGCGGCGTTTCCGCCGCCACTGGCGCCAATGCTGAGGTGGCCGCTTCCGCCCAGCCAGATATGGCAAGCCTCGAATCGCAGATTCTGAAGGCACTGGCCCAGGCGCTTGGCGTCAACGACGCCGCTTAA	MTTIAATSSINFASPVRGIAPAHNRESQSTTEALQELTRAAHRAISVAGNVATTVAPLAGASASLAAALWKMDSGVSAATGANAEVAASAQPDMASLESQILKALAQALGVNDAA				NA	NA	NA	NA	NA
BMS010_00227	273	rcnR	COG1937	Transcriptional repressor RcnR	ATGTCCCATACGATCCGCAACAAGGAGAAGCTTCTGGCCCGCATCCGCCGTCTGAAAGGGCAGATGGAGGCGGTCGAGCGTGCACTGGATGATGCCAAGCCCTGCGGCGAGGTGCTGCAATTGCTCGCCTCGGTGCGCGGCGCGCTTTCCGGCCTGACCGGGGAGGTGATGCAGGAGCATCTGCATGAGCATGTGGTGCATGCCGAAAACGAAGACGAGCGGGCGCGGGCGGCGGAAGAGCTGGCCCAGGTGCTGAAGACCTACATACGGTAA	MSHTIRNKEKLLARIRRLKGQMEAVERALDDAKPCGEVLQLLASVRGALSGLTGEVMQEHLHEHVVHAENEDERARAAEELAQVLKTYIR	PGPT0004175_1391	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-RELATED_FUNCTIONS,PGPT0004175-csoR|ricR-K21600	NA	NA
BMS010_00228	1026	czcD_1	COG1230	Cadmium, cobalt and zinc/H(+)-K(+) antiporter	ATGACGACGACGTCCGAACACCGTGCAACAGCCGGTCACGACCATGTTTTCCTTGGCCAGAACCATGAGCGCAATGAAAGGCGTGTCTGGATGGTCATTGCGCTGACCGCGGCGATGATGGTGGCGGAAATCGTCGCCGGCCACTGGTATGGCTCCATGGCGCTGACGGCGGATGGCTGGCACATGTCCACCCATGCCGGCGCGATGCTGATTTCGGCACTCGCCTATCTTTATGCCCGCCGCGAGGCGCGCAATCCGCGCTTCACCTTCGGCACCGGCAAGTTCGGCGATCTGGCGGGTTTTGCCAGCGCCATCGTACTGGCGGTGGTGGCACTGCTGATTGCCGTCGAAAGCGCGATGCGCCTCGTCAATCCCGTTGAAATCGATTTCAACCAGGCGATCCTCGTCGCCATCATCGGCCTTGCCGTCAATCTCCTCAGCGCCGTGCTTTTGAAGGATGACCATCACCACGATCATGGACATGGACATGGACATGGACATGGTCACGGCTCGCATGCCCATCATGGCCATGGCAGCCACGCCCATCACGATCACGGCTCCCATGCCGGTCACCATGCGGACCACGGCGCAAAGGGCGGGCGGGACAACAATCTGCGCGCGGCCTATCTGCATGTGCTGGCGGATGCGCTGACTTCGGTTCTCGCCATCGTCGCGCTGCTGCTCGGCAAGTGGAACGGCTGGTCGTTCCTTGATCCGTTGATGGGTATCGTTGGCGGTCTGGTCATTGCCCGCTGGTCATGGGGCCTGATCCGCTCCACGGCGACGACACTGCTCGATGCGCTGCCGCCGGCGGAGGATCTGCCGCAGGAAATCCGTGAAAGCGTAGAGACGGAAGAGGATCGCATCACCGACCTGCATGTCTGGCAGGTAGGGCCGGGGCATCACGCCGCCATCGTGGCGATCCATTCACAGGCGCCGAAAGCGCCGGCTTTTTATAAGCAAAAACTTGCCGCCATACATGAACTCTCGCATGTGACGGTGGAAGTCAGCCCGGCAAGGGCCTGA	MTTTSEHRATAGHDHVFLGQNHERNERRVWMVIALTAAMMVAEIVAGHWYGSMALTADGWHMSTHAGAMLISALAYLYARREARNPRFTFGTGKFGDLAGFASAIVLAVVALLIAVESAMRLVNPVEIDFNQAILVAIIGLAVNLLSAVLLKDDHHHDHGHGHGHGHGHGSHAHHGHGSHAHHDHGSHAGHHADHGAKGGRDNNLRAAYLHVLADALTSVLAIVALLLGKWNGWSFLDPLMGIVGGLVIARWSWGLIRSTATTLLDALPPAEDLPQEIRESVETEEDRITDLHVWQVGPGHHAAIVAIHSQAPKAPAFYKQKLAAIHELSHVTVEVSPARA				NA	NA	NA	NA	NA
BMS010_00229	288			hypothetical protein	ATGCAGATCGAAAGCAATATTGGCGGATATAACTATCAGGGTCGCATCCGCGACATCGAAAAAGCTGGCAGCGCTCAAAGCGCGCCGGAGGAGCAGGCGGTAAAACGCGGCCCGGGCAATCCCACCGTTTCCAGCACCATTCTTTCCCAGTCGCTGGCCAATGTTCTGTGGGCCGTCGGCAATGGCAGTGCGCCCGCTTATCAGGATACGACCGCGGCTTCCCCCGAGGACAAGGCGGAAGCCGAGGTGGAATGGGTGCGCAGCGCCTATTCGGAATATACCGAATAG	MQIESNIGGYNYQGRIRDIEKAGSAQSAPEEQAVKRGPGNPTVSSTILSQSLANVLWAVGNGSAPAYQDTTAASPEDKAEAEVEWVRSAYSEYTE				NA	NA	NA	NA	NA
BMS010_00230	1107	btuD_1		Vitamin B12 import ATP-binding protein BtuD	ATGGCTAAAAGCATCGAAATCAGGAATCTTTACAAGATCTTCGGCAAGCATCCCGAGAAGTACCTCGAAGCGGTGCGATCCGGCATGGACAAAGCCGAGCTGAACGACAGGCACAACCACGTTCTCGGTCTCAACAACATCAACATCACCATGCCGGGCGGCAAGATCACCGTCGTCATGGGCCTTTCCGGCTCCGGCAAGTCGACGCTCATCCGCCACATCAACCGGCTGATCGACCCGACCGCTGGCGAAGTGCTTTACGACGGCGAGGACATCTGCGGTATGAGCACCTCAGCGCTCAGGCAATTCCGCCGCCACAAGACGGCGATGGTGTTCCAGAAATTCGGCCTTCTGCCGCATCGCACCGTGCTGGAAAACAGCGTCTACGGCCTCGACATCCAGGGCGTGCCGCGCAAGGAAAGCGAAGAAAAGGGCCGTTACTGGCTGGAGCGGGTCGGCCTTGCCGGTTACGAGGATTATTATCCGAACCAGCTTTCTGGCGGCATGCAGCAGCGCGTCGGCCTTGCCCGTGCGCTTGCCAACGATGCCGATATCCTCCTCATGGACGAGGCCTATTCGGCGCTCGATCCGCTGATCCGCGTCGACATGCAGACCATGCTGCTCGATCTGCAGCAGGAGCTGAAGAAGACCGTGGTGTTCATCACCCACGATCTGGACGAGGCTTTGCGGCTGGGTGACCATATCGCGATCCTGAAAGACGGCGAAGTGGTGCAGCAGGGCGACGGCCAGAGCATCATCCTCTCCCCGGCCGATGGTTACGTCACCGAGTTCGTGCGCGACGTCAATCGCGGCCGCGTGCTGCAGGCGACCACGGTGATGGAGCCGCTGGAAAGCCGCCCCGAGGGCATGCCCGTGCCGGAAAATGCGACGCTGGAAACAATCGCCCGCGACATGTCGGAAGCCAACGAGACCACCGCCCATGTGGTGGACGAGGACGGCAAACCGGTCGGCAGCATCGGCCTCGATACGCTGGTGGCTGCGATGGTGACGCCCGCGCCGCAGGATGTTGAGGCGGAGGCGGAAACGGCGGAGGAGCCGGAGAAGCTCCTGGAAGCGGCTATGCCTGTGGAGAAGGAAACGGCGTAA	MAKSIEIRNLYKIFGKHPEKYLEAVRSGMDKAELNDRHNHVLGLNNINITMPGGKITVVMGLSGSGKSTLIRHINRLIDPTAGEVLYDGEDICGMSTSALRQFRRHKTAMVFQKFGLLPHRTVLENSVYGLDIQGVPRKESEEKGRYWLERVGLAGYEDYYPNQLSGGMQQRVGLARALANDADILLMDEAYSALDPLIRVDMQTMLLDLQQELKKTVVFITHDLDEALRLGDHIAILKDGEVVQQGDGQSIILSPADGYVTEFVRDVNRGRVLQATTVMEPLESRPEGMPVPENATLETIARDMSEANETTAHVVDEDGKPVGSIGLDTLVAAMVTPAPQDVEAEAETAEEPEKLLEAAMPVEKETA	PGPT0013630_1747	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013630-gbuA|proV-K02000	NA	NA
BMS010_00231	909	ousW_1	COG4176	Glycine betaine/choline transport system permease protein OusW	ATGGCCCTCTGCACTTACCTGCCGGACATGCTCTGCAAGTTCCCGGCCATCGACAATTCCACGATGCGTGTGGCACGCAAGACCATCGATGATGGTTTTCGCGACATCGTGCGCAATTACGGCGATGCGATCGATGTGATCGTGCATCCGCTGCAGCTCTTCCTCAATTCCTCGGAGCGGCTGTTCATCCAGACACCGTGGATCATCACGCTCCTCATCATTCTCGCCATCGTGCATCTGGCCGGCCGCAGCTTCAGGATTACCGGCGGCACGGCGCTCGCCCTGCTGATGATCGGCGCCGTCGGCCTCTGGCGAGACGCCATGACGACGCTGTCCATCGTCGCCATCGCCACCCTGATCGCCATCGTCATCGGCCTGCCGCTCGGCATCCTGATGGGTCGTTCCGAACGCCTGCAACGCCTCATCAATCCCGTGCTCGACGTGATGCAGACCCTGCCGAGCTTCGTTTATCTCATCCCCGTGGTGGTGATTTTCGGCATCGGTAAGGTTCCGGGCCTGATCGCAGTGGTGATCTATGCCATTCCGCCCGTCATCCGCCTCACCAGCCTTGGCATTCGTCTGGTGGATCGGGAGGTGCTGGAAGCGGCAGACGCTTTCGGTTCTTCCAATCGCCAGAAGCTGTTCAATGTGCAGCTGCCGCTGGCGCTGCCCACCATCATGACCGGCATCAACCAGACCATCATGATGGCGCTCGCCATGGTCGTCGTCGCCTCCATGGTCGGTGTCGGCGGGCTCGGCAAGAACGTGCTGCAGGCCATCAACAACCAGTTCTTCACGGTGGGCTTCCTGAACGGTTTCGCTCTGGTCGCCATCGCCATCATGTTCGACCGGGCAAGCCAGGCTTTCGGCAAGCGCCTGCAGAAATACCGCGAGGTCTCCCATGGCTAA	MALCTYLPDMLCKFPAIDNSTMRVARKTIDDGFRDIVRNYGDAIDVIVHPLQLFLNSSERLFIQTPWIITLLIILAIVHLAGRSFRITGGTALALLMIGAVGLWRDAMTTLSIVAIATLIAIVIGLPLGILMGRSERLQRLINPVLDVMQTLPSFVYLIPVVVIFGIGKVPGLIAVVIYAIPPVIRLTSLGIRLVDREVLEAADAFGSSNRQKLFNVQLPLALPTIMTGINQTIMMALAMVVVASMVGVGGLGKNVLQAINNQFFTVGFLNGFALVAIAIMFDRASQAFGKRLQKYREVSHG	PGPT0013635_1231	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013635-gbuB|proW-K02001	NA	NA
BMS010_00232	1011			hypothetical protein	ATGAAGAAACTCCTCGCCTCGACCATTCTCGTAACGGGCTTTATCATCGCTGCCGGTGCAGCAAATTCCGCCAATGCCGCCGAAGAGTGCGGCAGCATCACCATCGCCGAAATGAACTGGGCATCCGCCGGTGTCGCGGCTTACGTCGACAAGTTCATCATGGAAAACGGCTATGACTGCACGGTCAATGTCGTCAGCGGCGATACCATGCCGACCTTCGCCTCCATGAACGAAAAAGGCCAGCCGGACATGGCGCCCGAATTGTGGGTGAACGCCGTGCGCGAGCCGCTCGACGCCGCCGTCAAGGACGGCCGCATGATCGAGGCATCGAAAATTCTTTCCGAAGGCGGTATCGAAGGCTGGTGGATCCCGAAATTCATCGCCGACGCCCACCCCGACATCAAGACCGTCGAGGATGCGCTGAAACATCCCGAACTTTTCCCCGCCCCGGAGGACGCCAGCAAGGGCGCCGTGCATAATTGCCCCTCCGGCTGGAACTGCCAGGTGACCACCGCCAATCTCTACAAGGCGCGCGAGGGCGACAGGAAGGGCTTCACGCTGGTGGACACCGGCTCTGCCGCCGGCCTCGACGGCTCCATCGCCAATGCCTTTGAAAAGAAGCAGGGCTGGCTCGGCTATTACTGGTCGCCCACCGCCATTCTCGGCAAATACGAGATGGTGAAGCTGGATGACGGCGTCGAACTCGACCGCGCCCATTTCGACGACTGCACGGCGAAGGTCGATTGCGCAGCGCCGAAGGTCAATGCCTATCCGGTTGCCGATGTCTATACCGTCATCACCAAGGACTTCGAAAGCAAGGCCGGCGTAACGCTGGACTACATCAAGGCCCGCAACTGGGACAACAAGACGGTCGCCGAAATCCTCGCCTGGATGGATGAGAACCAGGGCACCAACGAGGATGGTGCGGAATATTTCCTCGAGAACCACGAGGACATCTGGACGAAGTGGGTTCCGGCCGAGGTGGCGGAGAAGATCAAGGCTTCGATGTGA	MKKLLASTILVTGFIIAAGAANSANAAEECGSITIAEMNWASAGVAAYVDKFIMENGYDCTVNVVSGDTMPTFASMNEKGQPDMAPELWVNAVREPLDAAVKDGRMIEASKILSEGGIEGWWIPKFIADAHPDIKTVEDALKHPELFPAPEDASKGAVHNCPSGWNCQVTTANLYKAREGDRKGFTLVDTGSAAGLDGSIANAFEKKQGWLGYYWSPTAILGKYEMVKLDDGVELDRAHFDDCTAKVDCAAPKVNAYPVADVYTVITKDFESKAGVTLDYIKARNWDNKTVAEILAWMDENQGTNEDGAEYFLENHEDIWTKWVPAEVAEKIKASM	PGPT0013640_764	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013640-gbuC|proX-K02002	NA	NA
BMS010_00233	2100	dapb1		Dipeptidyl aminopeptidase BI	TTGCCGATTTTCAAGAACCTGCCCGCCGCCCCGACCGCCGAAAAAAGGCCCGTTCAGGACACGCATCACGGCATTACCCGCACCGACGATTATGCATGGTTCCGGGCCGATAACTGGCAGGCCATGTTCAAGGACCCGACCCTGCTCGACCCGTCGATCCGCGCCCATCTGGAAGCGGAAAACGCCTATATGGAAGCGGCCATGGGTGACACCAAGGCGCTTCAGGAAAAGCTGTTTACGGAAATGAAGGGCCGCATCAAGCAGGATGATTCCTCCGTGCCGGTCAATGACGGTCCTTATGCTTACGGGACATTGTTCGTGACCGGCGGCGAGCAGCCGCATTATTTCCGCACCCCGCGCGGCGGCGGCGAAAAACACGTGCTGCTGAACGGCGACAAGGAGGCCGAGGGCAAGGATTATTTCCGTCTCGCCGGTCTCGACCAGTCCTCGGATCACAGCCACGGCATCTGGGGTTACGACGACAAGGGCTCGGAATATTTCACCCTGCGCATCCGCAACCTCGAAACCGGCGAAGACCTTGCCGATGTCGTGGAAAACACCGGCGGCGGCGGCGCATGGGCGCCCGATGGCAAGAGCTTCTTCTATACGCTGCAGGACGAGAACCACCGTCCCTCCAAGGTCTTCCACCATATCATCGGCGAGCCGCAATCGGCCGACCGGCTGGTCTATGAGGAAAAGGATCCCGGTTTCTTCATGGGCGTCGGCGCGTCGGTTCTCGACGATTTCATCTTCATCGACATTCACGACCATGAGACCAGCGAATATCGCATTCTCTCCACCAAAGACCTGACCGCCGAGCCCGCTATCGTGGCGGAGCGCGAAGAAGGCATCGAATATTCGATGTGCGAAGGCGGCGATGTCTTCTTCATCCTCACCAATGACGGCGACGCCAAGGATTTCCGCATTGTGGAAGCGCCGGTCACCGCACCGGGCAAGGAAAACTGGAAAGAGGTGGTCCCGCATGAGCCGGGCCGCCTCATTCTCTCCGTCGATGCCTATGCCCGCCACCTGATCTGGCTGGAACGCCGCGACGGCCTGCCGCGCATCGTCATCCGCGACCGCCGCACCGGCGAGGAACATTCCATCGCCTTTGCCGAAGAGGCCTATTCGCTCGGCCTGCATGGCGCGGCGGAATATGACACCGACGTCATCCGCTTCTCCTATTCCTCGATGACGACGCCGAGCCAGCTGTTCGATTACGACATGGTGACGCGCGAGCGCACACTGCTGAAGACGCAGGAAGTACCCTCCGGCCACAATCCGGATGATTACATCACCCGTCGCATCATGGCCCCTGCGCATGATGGCGAGCTGGTGCCGGTCTCCCTGCTCTATCGCAAGGATGTGGCGCTTAACGGTTCCGCCCCCTGCCTGCTTTATGGCTATGGCGCTTACGGCATCACCATTCCCGCCTCTTTCTCCACCACCACACTGTCGCTTGCCGACCGTGGTTTCATCTATGCCATCGCCCATATTCGCGGCGGCAAGGATAAGGGTTTCGAATGGTACGAAACCGGCAAGATGGAAGCCAAGCAGAATACCTTCAAGGATTTCATCGCCGCTGCCGATCATCTGGTTCAGGAAGGCTTCACCTCCTATGGGGGCATCATCGCCGAAGGCGGCTCGGCCGGGGGTATGCTGATGGGAGCCGTTGCCAATATGGCGCCGGAGAAATTCGCCGGCATCATCGCCGCCGTTCCCTTCGTGGACGTGCTGACCACCATGCTCGATGACACTTTGCCGCTCACCCCCCCTGAATGGCCGGAATGGGGCAATCCGCTGGAATCGGCAGAGGAATATGGCTGGATTGCTGCCTACAGCCCCTATGACAATGTGGGTGCGAAACCTTACCCGCCGATTCTCGCGCTTTCCGGCCTCACCGATCCGCGCGTGACCTATTGGGAGCCGACCAAATGGGTGGCGAAGCTGCGTGAGAAGACGACGGGGGAAGCACCCATCCTGCTGAAAACCAACATGGCGGCCGGCCATGGCGGCAAATCGGGCCGTTTCCAGCGGCTGGAGGAAATTGCCTTCGAATATGCCTTTGCGCTGAAGGTGGCCGGCAAGGACGCGGCGTGA	MPIFKNLPAAPTAEKRPVQDTHHGITRTDDYAWFRADNWQAMFKDPTLLDPSIRAHLEAENAYMEAAMGDTKALQEKLFTEMKGRIKQDDSSVPVNDGPYAYGTLFVTGGEQPHYFRTPRGGGEKHVLLNGDKEAEGKDYFRLAGLDQSSDHSHGIWGYDDKGSEYFTLRIRNLETGEDLADVVENTGGGGAWAPDGKSFFYTLQDENHRPSKVFHHIIGEPQSADRLVYEEKDPGFFMGVGASVLDDFIFIDIHDHETSEYRILSTKDLTAEPAIVAEREEGIEYSMCEGGDVFFILTNDGDAKDFRIVEAPVTAPGKENWKEVVPHEPGRLILSVDAYARHLIWLERRDGLPRIVIRDRRTGEEHSIAFAEEAYSLGLHGAAEYDTDVIRFSYSSMTTPSQLFDYDMVTRERTLLKTQEVPSGHNPDDYITRRIMAPAHDGELVPVSLLYRKDVALNGSAPCLLYGYGAYGITIPASFSTTTLSLADRGFIYAIAHIRGGKDKGFEWYETGKMEAKQNTFKDFIAAADHLVQEGFTSYGGIIAEGGSAGGMLMGAVANMAPEKFAGIIAAVPFVDVLTTMLDDTLPLTPPEWPEWGNPLESAEEYGWIAAYSPYDNVGAKPYPPILALSGLTDPRVTYWEPTKWVAKLREKTTGEAPILLKTNMAAGHGGKSGRFQRLEEIAFEYAFALKVAGKDAA	PGPT0020980_1336	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020980-ptrB-K01354	NA	NA
BMS010_00234	570			hypothetical protein	ATGAAAAATACAATTATCAATTTCACGATTCTTGCCTTTTTTCTTTCCGGCTGCACTCAGACAGATAAAGAAAACGCCAAATCTCGGCTTTTAAGGACCTTTGCCAATGTCACTCTCGGTGCGGACATCGCCACGCAGGTGTGGGCAGCAGATGCTGAATACAAAGCACTCAATCTCAACAAGGCCTATATAAAGGCGACCGCGACAACCTACCCCATTTCCCACCGACCGGCCGACAAGGCATTCGGAAAACTGGGCGATTATGTTGTGGAATTGAAGAACATTGAGCAAAATCCAGATATTGGCGACATAAATCAGGCTGGATTGACCAAGCAAGTCAATATGTACCTGAATGCCAAGCGGTTTTGCCAGGGTCTACACGTTTTTGTAAAGCTATTTGATGAACCTGTTTCGCTCTACGACCCTGTAACAAAGCGGGCCGGTATATTGATAAAATGCGTGCCTTCCGGGCAGGTCAAGCCGGAGCATTGGCTGATGCCCATCGAGGTCCGAAGTTCGGAATATGGACCCAGGGTGGGCATTGGTTACATTGCGAGAGAGAAAGACTAA	MKNTIINFTILAFFLSGCTQTDKENAKSRLLRTFANVTLGADIATQVWAADAEYKALNLNKAYIKATATTYPISHRPADKAFGKLGDYVVELKNIEQNPDIGDINQAGLTKQVNMYLNAKRFCQGLHVFVKLFDEPVSLYDPVTKRAGILIKCVPSGQVKPEHWLMPIEVRSSEYGPRVGIGYIAREKD				NA	NA	NA	NA	NA
BMS010_00235	402			hypothetical protein	ATGCGAAAGCTTCTTCCCGCTGCCCTTTCTGCCTTTTTCCTTGGCTTGCAGACCTTCACCCCCGCCTTCGCGATCGACGCCAGCGTCATGCGGCAGTTGAACGCGCTTGCCCCCGAGGAGCGGCTGGAACAGCGCTGCGATATCGAGGCGATGGAAAGGATAGCGACCGAGCAGAAGGGCATGCGGCCGGACAAGGTCATCGCCTATACTTTCGGCGATCCGGAAGTGGGGAAGAACTCCATCAAGGCTCCGGGCGCAGTCTTCAGGAGCGCGGGCGAATGGTACAAGCTCAAATACAAGTGCCAGCTAAAGAGCGACAGTCTCAGCATCCAGTCCTTCGATTACCGCGTCGGCGATAAAATTCCCGAAGAGCAGTGGAAGAAGTTGTATCTTTATGACTGA	MRKLLPAALSAFFLGLQTFTPAFAIDASVMRQLNALAPEERLEQRCDIEAMERIATEQKGMRPDKVIAYTFGDPEVGKNSIKAPGAVFRSAGEWYKLKYKCQLKSDSLSIQSFDYRVGDKIPEEQWKKLYLYD				NA	NA	NA	NA	NA
BMS010_00236	909	dapA_1	COG0329	4-hydroxy-tetrahydrodipicolinate synthase	ATGGCGACACGATTCAAGGGACTTTCGGCTTTTCCGATCACGCCGGCCGACGAGGCCGGGCAGGTCGACACGCAGGCCTTTTCCGCCCTGATCGAGCGGCTTGATGCGGCCGAGGTGGATTCCGTCGGCATTCTCGGCAGCACCGGCATCTACATGTATCTCACGCGCGAGGAGAGGCGTCGCGCCATCGAGGCCGCCGCCGCCATCCTCAAGGGCAAGCGCACATTCATGGCCGGCGTCGGCGCATTGCGCACCGATGAGGCCGTGGCGCTGGCGAAGGATGCGGAGGCGGCCGGCGCCGATGCGCTGCTGCTCGCGCCCGTCTCCTATACGCCGCTGACGCAGGAAGAAGCCTATCACCATTTCGCCGCCGTGGCGGGTGCGACGGCTCTGCCGCTCGCCATCTACAATAATCCCACCACGACCCGCTTTGCCTTCAGCGACGAGCTTCTGGTGCGGCTTGCCTATATCCCCAATATCCGCGCCATCAAGATGCCGCTGCCGGCCGATTCCGATTATGCGGGCGAACTTGCGCGGCTGAGGCCGAAGCTGGGGCAAGATTTCGCCATCGGTTATAGCGGTGACTGGGGCTGCACTGAGGCCACGCTTGCCGGCGGCGACACATGGTATAGCGTCGTCGCCGGTCTGCTGCCGGTTCCGGCCCTGCAGCTGATGCGGGCGGCTCAGGCCGGCAATCAGGAAGAGACAAAGAGAATCGATGCGGCCTTCCAGCCGCTCTGGGCGCTGTTTAAGGAATTCGGCAGTATCCGCGTGGTTTATGCCGCCGCCAACATCCTGTCGCTCACGGTGAGCGAACCGCCCCGGCCGATCCTGCCGCTCACCAGCGCGGAACGCCAGCGGGTGGAAGAGGCGCTGGAGGCCCTGTCGGCACTGGAAATCGCGCCTTAA	MATRFKGLSAFPITPADEAGQVDTQAFSALIERLDAAEVDSVGILGSTGIYMYLTREERRRAIEAAAAILKGKRTFMAGVGALRTDEAVALAKDAEAAGADALLLAPVSYTPLTQEEAYHHFAAVAGATALPLAIYNNPTTTRFAFSDELLVRLAYIPNIRAIKMPLPADSDYAGELARLRPKLGQDFAIGYSGDWGCTEATLAGGDTWYSVVAGLLPVPALQLMRAAQAGNQEETKRIDAAFQPLWALFKEFGSIRVVYAAANILSLTVSEPPRPILPLTSAERQRVEEALEALSALEIAP	PGPT0002080_2990	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
BMS010_00237	726			hypothetical protein	ATGCTGCGTCGCCTCTTCACCGCCACCCTATTTTTCTGCGCCTCTTCCACCGCCTTTGCGGGGACCGGCCTTGTCGAGCCGACGCTGAAAATGTCGCCGCAGCATGACGGCAAGGTGCGGGTGGCGATGACGCTGGACGCCTGCATGGGCAAGACCGACCACCGCATTCTCGATACGCTGGTGAAGGAGCGCATTCCGGCGACGATCTTCGTCACCGCCCGCTGGCTGAAGCACAATAGCGAGGCGCTGGCCACGCTCATGGCGCATCCGGACCTCTTCGAAATCGAAAACCATGGCGAAAACCATGTGCCGGCAGTTGATAAGCCGGTTTCCATCTACGGCATCGCCGCCGCCGGCTCTGAAGCGGCGGTCGAGCAGGAGGTGGAGGGCGGCCGTCAGGCCATCGTCGCCGCCACCGGCCTCCAGCCGCAATGGTTCCGGGGTGCCACTGCCAAATACACCAAGTCCTCCATGGCCACCATCAACCGGCTCGGCATGCGGGTGGCCGGTTATTCCGTCAATGGCGATGGCGGCTCGCTGCTGGGTGCTGCCATGACGGCAAAACACATCGCTTCCGCCAGGGATGGCGATGTCATCATCTCCCACATCAACCAGCCCACCCATGAAGCGGGCGAGGGCGTGGTGAAAGGCCTTCTGGCGCTGAAGGCGCGCGGCGTGATTTTCACAAGGCTGGACGATCCGTCCTTCGCACCGCCGGGGAATTGA	MLRRLFTATLFFCASSTAFAGTGLVEPTLKMSPQHDGKVRVAMTLDACMGKTDHRILDTLVKERIPATIFVTARWLKHNSEALATLMAHPDLFEIENHGENHVPAVDKPVSIYGIAAAGSEAAVEQEVEGGRQAIVAATGLQPQWFRGATAKYTKSSMATINRLGMRVAGYSVNGDGGSLLGAAMTAKHIASARDGDVIISHINQPTHEAGEGVVKGLLALKARGVIFTRLDDPSFAPPGN	PGPT0012156_588	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-CHITINOLYTIC_ACTIVITIES,PGPT0012156-chitin_deacetylase-NA	NA	NA
BMS010_00238	1080	ada_1	COG0350	Bifunctional transcriptional activator/DNA repair enzyme Ada	ATGATGCTGTTCAAACGCTCCGACACCGAAACGCTCTATTCCGCCCTTGTGAACAAGGACCCCGCCTATGAGGGCGTGGCCTATGTGTGTGTGACGTCGACGAAGATTTTCTGCCGCTTTACCTGCACGGCGCGCAAGCCGAAGATCGAAAACTGCCGGTTCCGCGAGACCATCGCCGAATGTCTGGAAGCCGGTTTCCGCCCTTGCAAGCGCTGCAAGCCGATGCTCGCCTATGGCACGGCCGATGAGACCGTGACATCGCTGCTGACGGCGCTGGAAAACGAACCGGCGCGGCGCTGGCGCGAGGAGGATGTGGTGGCGATGGGCCATGATCCTTCCACCGTGCGCCGCACCTTCAAGCGCCGTTTTGGCATGAGCTTTCTGGAAATCGCCAGATTGCGGCGGGTAGGCGGTGCGGCGGAAAGCCTTGCTTCCGGCGAAGCGGTGATCGGCGCGCAGATCGATGCCGGTTACGAATCCGGCAGCGGTTTCCGCTCCGCCATCAACCAGTTTTTCGGCTCATCGCCCGCCGCCATGAAAGGCAAGGGGTTTTTGAAGGGCGACTGGATCGATACGCCGATTGGCCCGATGCTCGCCGTCGTCGACGATCATGCCCTGCATCTCCTCGAATTCGCCGACCGGCCGGCGCTTCCGGCCGAGCTGAGGCGGCTGAAGACGCGCACCGGCGCGGATATGGTGCTTGGCCGGACGGCTGTGACCGGCCAGATCGAAGCGGAACTCAAGGCCTATTTCGCCGGGCGTTCGGCTGCCTTCGAAACGCGTCTTGCCGGCCATGGCACGCCCTTCGAGCGCGACGTCTGGCGCAACCTGCGGGAAATACCGGCGGGTGAGATCGTCAGCTATTCCTCCCTCGCAACCGCCATGGACAGGTCATCCGCCGTGCGCGCGGTCGCGCGCGCCAATGGCGCGAACCAGATTGCGATTGTCGTTCCGTGCCACCGTGTACTGGGCGCGGATGGCAGCCTGACCGGCTATGGCGGCGGTCTGTGGCGCAAAAAATGGCTGCTCGAGCATGAGCGCCGCATGGCGAGCGCGCAGGGAATGCCGCTCGCTTCCTGA	MMLFKRSDTETLYSALVNKDPAYEGVAYVCVTSTKIFCRFTCTARKPKIENCRFRETIAECLEAGFRPCKRCKPMLAYGTADETVTSLLTALENEPARRWREEDVVAMGHDPSTVRRTFKRRFGMSFLEIARLRRVGGAAESLASGEAVIGAQIDAGYESGSGFRSAINQFFGSSPAAMKGKGFLKGDWIDTPIGPMLAVVDDHALHLLEFADRPALPAELRRLKTRTGADMVLGRTAVTGQIEAELKAYFAGRSAAFETRLAGHGTPFERDVWRNLREIPAGEIVSYSSLATAMDRSSAVRAVARANGANQIAIVVPCHRVLGADGSLTGYGGGLWRKKWLLEHERRMASAQGMPLAS				NA	NA	NA	NA	NA
BMS010_00239	1176		COG0628	Putative transport protein	ATGAATGAAAATGCCAGGCCGGACAAGACCGGCAGCTTGGTCAACACCGCGGCAACCGCTGCGGCAACGAGAGCGGACCCGCTGGAGGTGCCAGCTTCCGGCTCACGGCGTGACGATGTGCGCAGCCAGCAGCCGCTTGGCCGCGAAGCGCTGGATGTGGTCGTCGCCTGGTCGGTGATCGGCATCTTCCTCATCATGCTGATGGCGGTCATCCACGAATTGTCGCTCATCCTCATTCCGGTGGTGATGGCCATCGTGGTGGGCATGATTCTCGGCATCGCCGCCGAAAAGCTCGGTTCCTACGGCATTCCCGGCTTCGGCGTCGCGCTCATTCTATCGAGCCTCGTGGCGGCGGTGATGTTCTTCGTGGTCAATTCGCTGACCGAGCCGCTCTCGCTTCTCGCTTCGGAAGGGCCGGCGCTGGTGGAGCGCAGCATCGACCGTTTCCTGCCCTATCTGCAAAGCCTCAGATGGCTGAATATTTCGGCGGCGAGCTTCAGTCTGGGCTCGATGTCGATGGAATCTTTGATTTCGCGCAGCGGTGAAATCATCTCGCTGCTCGGCGCCAACATCACGCCCGCCGTTATTCAGGGCCTGATCTTTCTCGCCGCGCTGCTGATGTTCCTCTATAGCCGGCTGCGGCTGCGCAAGGCGATCATCATGGCCTTTCCGGCCCGCCACCAGCGGCTTCGCACCATCCGTATCATCGGTTCGGTGGAAGAGGTGCTCGGCACCTATTTCGCCACGGCGGCGCTGATCTATGCCGGGCTGGGCGTGACGATGGTGGTCATCGCCTATTTCGGCGGACTGGCCATGCCGCTTCTGTGGGGGCTCTTCGCCTTCCTCTCCAGCTTCGTGCCGTTTCTCGGCATCACCGCCATGACGATTTCGCTGACGGTGGCGGGCATCATCACCCATGACAACATCATTCTGGCGCTGCTGCCGGCGGCGATCTTCTTTACCATTCACCTGTTGATGGAAAACCTCGCCTTTCCGGCGGTAGTGGGCCGTAACATGGAGATAAACCCCTTCCTCGTCTTCGTGATGATAATCTTCTGGACGTGGATGTGGGGCGCGGCCGGGGCCATGCTGGCGCTGCCGCTGTCGCTGATCGTCATGACGGTGACGCGGGAACTCTTCCCCTCACGCCGGGTGGTGCCCAAACTGCCGGATTAA	MNENARPDKTGSLVNTAATAAATRADPLEVPASGSRRDDVRSQQPLGREALDVVVAWSVIGIFLIMLMAVIHELSLILIPVVMAIVVGMILGIAAEKLGSYGIPGFGVALILSSLVAAVMFFVVNSLTEPLSLLASEGPALVERSIDRFLPYLQSLRWLNISAASFSLGSMSMESLISRSGEIISLLGANITPAVIQGLIFLAALLMFLYSRLRLRKAIIMAFPARHQRLRTIRIIGSVEEVLGTYFATAALIYAGLGVTMVVIAYFGGLAMPLLWGLFAFLSSFVPFLGITAMTISLTVAGIITHDNIILALLPAAIFFTIHLLMENLAFPAVVGRNMEINPFLVFVMIIFWTWMWGAAGAMLALPLSLIVMTVTRELFPSRRVVPKLPD				NA	NA	NA	NA	NA
BMS010_00240	861	catE_2	COG2514	Catechol-2,3-dioxygenase	ATGAGTGAAATCAAACAATTCGCCCTGACGCGGCCGGCCTATGTCGGCCAGGCGCATCTCGTCGTTCACGATCTGCCGCGCGTTTCGGATTTCTACCAGAAGATCATCGGCCTTTCCGTTCTTGAAAAGAACCCGAGCGGTGAAGTGCTGGGTGTCGGCGGCCAACCGCTGCTCACGCTTTCCACCTCCAGCACGGCGGAACGCGCGCCGCGCAACGCCGCAGGCCTGTTCCACACCGCCTTCCTGATGCCGAGCCGGAACGATCTGGCCCATTGGCTGGCGCATGCCGCCCATAACAATGTCCAGTTTCAGGGCGCGTCCGACCATCTGGTCAGCGAGGCGATCTATCTTGCCGACCCGGAAGGCAACGGCATCGAGGTCTACCGCGACCGTTCGCCGGATGAATGGACCTACCAGCAGGACGGCACGGTGGAGATGGCCACCCTCGGCCTCAACCTTCAGGCGCTTTACGACAGCGCGCCGAAGACCGCCTTTACCGGGGCGGCGGAAGGAACAGCCATCGGCCATATCCATCTGCAGGTGGGCAATATTCCGCAGGCGGATGAATTTTATCAGGATGTGCTGGGGCTGAAGATCATGGCGCGTTATCCCGGCGCGAGCTTCTTCGGCTCCGGGGCCTATCACCACCATGTGGCCGCCAATATCTGGAACAGCCGTGGAGCCATGGCCCGCAAGGACAACATGACCGGCCTTTCCGGCTACTCGCTGACATTCAACGATCCGGCCGCGCTTGAGACGGCGATTGCCGCACTCGACCGGCTGGAAATCGCCACAGAGCGGCAAAGTGACGGCATTGCCCTCAAAGATCCGTGGGGCATCGGGCTAAAGCTTTCCGCCTAA	MSEIKQFALTRPAYVGQAHLVVHDLPRVSDFYQKIIGLSVLEKNPSGEVLGVGGQPLLTLSTSSTAERAPRNAAGLFHTAFLMPSRNDLAHWLAHAAHNNVQFQGASDHLVSEAIYLADPEGNGIEVYRDRSPDEWTYQQDGTVEMATLGLNLQALYDSAPKTAFTGAAEGTAIGHIHLQVGNIPQADEFYQDVLGLKIMARYPGASFFGSGAYHHHVAANIWNSRGAMARKDNMTGLSGYSLTFNDPAALETAIAALDRLEIATERQSDGIALKDPWGIGLKLSA	PGPT0005050_464	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-CATECHOL_RESISTANCE,PGPT0005050-catE-K07104	NA	NA
BMS010_00241	411	uspF	COG0589	Universal stress protein F	ATGTACAAGAAGATCATCGTACCGGTAGACCTCAGCGCCACCGACAAGGGGGAAAAGATTCTCGAAAAGGCCAAGGCGCTTCTGGACCCGGACGGCGAGATCGTTCTCATCAATGTTGTCGAGGAACTGCCGGGCTATATGGCGATCGACCTGCCTGTCGACCTGATCGAAAACGCCATCAAGGACGCCAAGACCAAGCTTTCGGACATCAAGACCAGAGCCGGTTTCAAAGGCAGCCAGGAAATCAGAAGCGGCGCCCCCGCGCGTGAAATCATCGCCGCCGCCGAGGAGCACAAGGCCGACCTCATCATCATCGCGTCGCACACGCCGGATTTCAGCAATTATTTCATCGGCGCCACCGCCGACCGCGTGGTGCGCCACGCCAAATGCTCGGTGCTGGTGGACCGATAA	MYKKIIVPVDLSATDKGEKILEKAKALLDPDGEIVLINVVEELPGYMAIDLPVDLIENAIKDAKTKLSDIKTRAGFKGSQEIRSGAPAREIIAAAEEHKADLIIIASHTPDFSNYFIGATADRVVRHAKCSVLVDR	PGPT0015000_416	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015000-uspF-K14061	NA	NA
BMS010_00242	321	dksA_1		RNA polymerase-binding transcription factor DksA	ATGAATGTCGAAAGTTACGAGAAAATCCTGCGTGACCGCCAGCGCGAGCTTTATCGCCGCCTGCACAAAATCGAAGCCGATTTCGAAGAGCCTCGCAATCCCGATGACGAGGATCGCGCCACCGAACGCAGCAATGACGAGGTGCTGGACGAGCTGGGGCAGGTGGGGCAGGACGAGCTGCGCGCCATCGACGCAGCCCTCGACCGTATCGCCAGCGGCACCTTCGGCACCTGTGTCAAATGCGGCAAGCGGATTTCGGAGGATCGGCTGAAGGCGGTGCCCTATACGCCGTTTTGCCAGGAATGCGCTGCGGCGTTGTGA	MNVESYEKILRDRQRELYRRLHKIEADFEEPRNPDDEDRATERSNDEVLDELGQVGQDELRAIDAALDRIASGTFGTCVKCGKRISEDRLKAVPYTPFCQECAAAL	PGPT0014560_3712	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|CRP_SIGNALLING_PATHWAY,PGPT0014560-dks-K06204	NA	NA
BMS010_00243	669			hypothetical protein	ATGAGCGATTTATGGCGGTTCGGGCGCCAGTATGATTTTCACGAGATTGTCGCCGATGGCATCGTCCATGGTGTCGGCATCGTGTTTGCGCTTATCGGCGCCACGGCGCTGATTTTCTACGCGACCGCCTGGGGGACGCTCAGCGCGATCGCCGCCGCATGGATTTACGGTCTCGGCCTCGTCGCCTGTCTCTCCGTATCCTTCACCTACAATATCTGGCCGCACTCCAGGGTGAAATGGTTCCTGCGCCGGCTGGATCATTCGGCGATCTTCATCCTCATCGCCGCCACCTATACGCCCTTTCTGATGCGCGGCATCCACGATCCGCTGATCGCCGTCATGCTGGGGCTGATCTGGCTTGCGGCGCTGTGCGGCATCCTTCTCAAATGCCTGTTTCCCGGCCGTTACGACCGGGTCGCCATCGGCCTTTATCTCGCCATGGGCTGGAGCGGCGTCATGGTGGTCGGGCCGCTGTCGTCGCATCTGGCACCCGTCACGCTCTGGCTGATCGTCGCCGGCGGCGTCATCTATTCGCTCGGCGTCATCTTCCATGTCTGGGAAAAGCTGCGCTTCCAGAATGCCATCTGGCACGCTTTCGTGGTCGCCGCCGCCGCCGTTCATTATTTCGCCGTGGTCACCTCCTTCAGCCTCGTGCCGCTGGCATCCTGA	MSDLWRFGRQYDFHEIVADGIVHGVGIVFALIGATALIFYATAWGTLSAIAAAWIYGLGLVACLSVSFTYNIWPHSRVKWFLRRLDHSAIFILIAATYTPFLMRGIHDPLIAVMLGLIWLAALCGILLKCLFPGRYDRVAIGLYLAMGWSGVMVVGPLSSHLAPVTLWLIVAGGVIYSLGVIFHVWEKLRFQNAIWHAFVVAAAAVHYFAVVTSFSLVPLAS				NA	NA	NA	NA	NA
BMS010_00244	498			L-methionine sulfoximine/L-methionine sulfone acetyltransferase	ATGAGCGTGCAACTGCGCGACGCGACCGTGGACGATCTCTCCGGCATCATGGAGATTTACAATGATGCGGTGCTGAATACGACCGCGATCTGGAACGACGTGCTGGTCGATCTGGAAAACCGCAGGGATTGGTTCGCCGCCCGCAAGTCACGCGGCTTTCCGGTCATCGTCGCAATCCTCGACGGCAAGGTCGCAGGTTATGCTTCCTATGGCGACTGGCGCGCTTTCGACGGTTATCGCCACACCCGCGAACATTCGGTCTATGTGCATAAGGATGCGCGCGGCCACGGCATCGGCAAGAAGCTGATGCAGGCGTTGATCGATCATGCCTCCGGCAACGACGTGCATGTGCTGATCGCCGCCATTGAGGCGGAAAACACCGCCTCCATCCGCCTGCATGAAAGCCTCGGCTTCAGGGTCGTCGGCCGGTTTTCGGAAGTCGGCACCAAGTTCGGCCGCTGGCTGGATTTGACGTGTATGGAACTGAAGCTGAACTAG	MSVQLRDATVDDLSGIMEIYNDAVLNTTAIWNDVLVDLENRRDWFAARKSRGFPVIVAILDGKVAGYASYGDWRAFDGYRHTREHSVYVHKDARGHGIGKKLMQALIDHASGNDVHVLIAAIEAENTASIRLHESLGFRVVGRFSEVGTKFGRWLDLTCMELKLN				NA	NA	NA	NA	NA
BMS010_00245	408	msrB_1	COG0229	Peptide methionine sulfoxide reductase MsrB	ATGAGCGATCTGACATCCCCAAAAATCAAAAAAAGCGATGCCGAATGGCGTGAACAGCTGACGCCGGAGCAATATCGCATCCTGCGCGAACACGGCACCGAGCGCGCCTTCACCGGGCCCTATTGGGATACATTCCAGAAAGGCCTCTATCGCTGTGCGGCCTGCGACGAGCCGCTGTTCCTCTCCGATACGAAATTCGATGCCGGCTGCGGATGGCCGAGCTATTTCGAGCCGGTAAAACCGGGCGCCGTGACGGAACATCGCGACGCCAGCTACGGCATGGTGCGCACGGAAATCCGCTGCGCCAATTGCGGCGGCCATCTCGGCCACGTCTTCCCCGACGGCCCGAAGCCCACCGGCCTGCGTTATTGCATCAACGGCCATTCGATGGTGTTCGAGCCGGTTTGA	MSDLTSPKIKKSDAEWREQLTPEQYRILREHGTERAFTGPYWDTFQKGLYRCAACDEPLFLSDTKFDAGCGWPSYFEPVKPGAVTEHRDASYGMVRTEIRCANCGGHLGHVFPDGPKPTGLRYCINGHSMVFEPV	PGPT0013070_4280	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013070-msrB-K07305	NA	NA
BMS010_00246	2385	mrpA_1	COG1009	Na(+)/H(+) antiporter subunit A	ATGACATCAGATGTCACGCCGTTGACATTCCTGTCGCTGTTTCTGCCGTTCCTGGCAGCGCTTGCCGCACCCGTCCTGGTTAAAAGGTTCGGTCACAATGCGGCGTGGGTCCTGGCGATTGCGCCTGCTCTCGCTTTTGCGCATTTCGCGCTGATGCTGCCCGAAATCGCGGCAGGCGGGGTGGTGACCGGCGGTTATGCCTGGGTGCCGAGCTTCAATCTCAGCTTCTCCTGGTTCATCGACGGCCTGTCGCTGACCTTTGCGCTGCTGATCACCGGCATCGGCCTGCTGATCGTGCTTTATGCGGGCGGTTATATGAAAGGCCATCCGCAGCAGGGCCGGTTCCTGTCCTTCCTGCTGCTCTTCATGGGCGCGATGCTGGGCGTCGTGGTTTCCGACAGCCTGCTGATGCTGTTCGTCTTCTGGGAACTCACCTCCATCACCTCCTTCCTGCTGATCGGCTTCGACCATGAGCGTGCCGCGTCGCGCCGCGCCGCGTTGCAGGCGCTGGTGGTGACGGGCGGCGGCGGTCTGCTGCTGCTCGCCGGGCTGATCTTCATCTGGGATATCAGCGGCGTGACGCAATTGTCGATGCTGGTGCGCGGCGGCGATGTCTTGCGCGACAGCCCGTTTTATCTGGCCGCGCTGCTTCTTGTTCTCGGCGGCGCCTTCACCAAATCGGCGCAGTTTCCGTTCCATTTCTGGCTGCCCAACGCCATGGAAGCGCCAACACCGGTCTCCGCCTATCTGCATTCGGCAACCATGGTGAAGGCCGGCGTCTATCTGCTGATGCGCCTCAACCCGGTTCTCGGCGATACTGCCGCCTGGCAGATCCTGCTGCCCTTCTTCGGCGGGCTGACCATGCTCACCGGCGTGCTGCTGGCCGTGCGCCAGACCGATCTCAAGCTGATGCTCGCCTATACGACGGTGTCGTCGCTCGGCCTGCTGGTCATGCTGACGGGTTTCGGCTCCGACCATGCCATCGAGGCGGCGGTGCTTTATCTGGTGGCGCATTCGCTGTTCAAGGGCGCGCTCTTCATGGTCGCCGGCATTATCGACCACGAGACCGGCACCCGCGACGTGACGAAGCTCGGCGGCCTGCGAAAAGCCATGCCGATCACTTTTGCGGCGGCGCTGGCGGCTGCGATTTCCATGGCGGGCCTGCCGCCTTTCTTCGGTTTTCTCGCCAAGGAAGAGATTTATTACGCGCTGGCGCATGGCAATCCGCGCGCCGTGCTGTTCACCGGCATCGCCATCCTCGGCAACGGGCTGATGTTCGCCGTCGCCTTTGCGGTGGCGCTGAAACCCTTCCTCGGCAAGCCGGTGAAGACCCCGAAACACGCGCATGAAGGCCCGCTGCTGCTCTGGCTCGGCCCGGCGCTTCTGGCGCTGAAGGGGCTGACGATTGCGCTCTTTTCCGGCATCGCGCATTTCTACATCTCCACCCCGATGGCGAGCGCCATTGCCGGTGAGGCGCGCCCGGTGGAAATCTCGCTCATTCCCCATATCGGCGTGCCGCTCGGCCTGTCGCTGCTCACCATCGCGCTCGGCATCGTCCTTTATACGCAGCTTTCCGCCGTCCGTGGACTGATCGACCGCACCTTCAAGGCGCTGGGGGCAGGGCCGGACAGGGGCTTTGACGTCTTCATCGAAATGCTGGTGAAAGTCTCGTTCCACATCACCCGGCTCATTCAGCCGGGCAGGCTGGAATTTTACGTCACCGCCACCTTCGCCGTCATCGCAGCCGTGCTTCTTGTGCCGCTGTTCCTTTATGGCGAATTGCCGTCCATGCCGTCCTGGCCGCGCGATATGCCCATCCATGAGCTGACTTTCATCGTCATTGCCGTGGCGGGGCTCATCGCAGTGCTGACGGCGTCGAGCCGGCTCACCGCCATCATCGCGCTCGGCATCCAGGGCTTTGCCGTGGCGGTCATCTTCCTGCTCTTCGGCGCGCCCGATCTGTCCTTCACGCAATTCATGGTCGAGACGCTGTCGGTGGTCATTCTGACGCTGGTGATGACGCGGCTTCGCCTGTCGCCGTCAGACCATCGCGGCCTTGGCCAAAAGCTGCTGGACAGCACCATCGCCATTGCCTGCGGAACCGGCTTTGCTTTGTTCCTGATGCGCGCGACCGAGGCGAGCTTCGACAACCGCCTGACGGATTTCTACAACACCTATTCCAAGGTCATCGCCCACGGCGCCAATGTGGTCAACGTCATCATCGTCGACTTCCGCGGCACGGATACGCTCGGTGAAATCGCGGTGGTGATGATAACGGGTCTCGCCATTCTCGCGCTGATCCGCATCCGCCCGGCTGCTGCCGTCAAGGGGCTCGCTGTCAAGGGACCGGCCAAAACCGCGAAGAAGAAAGGAGCGCGGGCATGA	MTSDVTPLTFLSLFLPFLAALAAPVLVKRFGHNAAWVLAIAPALAFAHFALMLPEIAAGGVVTGGYAWVPSFNLSFSWFIDGLSLTFALLITGIGLLIVLYAGGYMKGHPQQGRFLSFLLLFMGAMLGVVVSDSLLMLFVFWELTSITSFLLIGFDHERAASRRAALQALVVTGGGGLLLLAGLIFIWDISGVTQLSMLVRGGDVLRDSPFYLAALLLVLGGAFTKSAQFPFHFWLPNAMEAPTPVSAYLHSATMVKAGVYLLMRLNPVLGDTAAWQILLPFFGGLTMLTGVLLAVRQTDLKLMLAYTTVSSLGLLVMLTGFGSDHAIEAAVLYLVAHSLFKGALFMVAGIIDHETGTRDVTKLGGLRKAMPITFAAALAAAISMAGLPPFFGFLAKEEIYYALAHGNPRAVLFTGIAILGNGLMFAVAFAVALKPFLGKPVKTPKHAHEGPLLLWLGPALLALKGLTIALFSGIAHFYISTPMASAIAGEARPVEISLIPHIGVPLGLSLLTIALGIVLYTQLSAVRGLIDRTFKALGAGPDRGFDVFIEMLVKVSFHITRLIQPGRLEFYVTATFAVIAAVLLVPLFLYGELPSMPSWPRDMPIHELTFIVIAVAGLIAVLTASSRLTAIIALGIQGFAVAVIFLLFGAPDLSFTQFMVETLSVVILTLVMTRLRLSPSDHRGLGQKLLDSTIAIACGTGFALFLMRATEASFDNRLTDFYNTYSKVIAHGANVVNVIIVDFRGTDTLGEIAVVMITGLAILALIRIRPAAAVKGLAVKGPAKTAKKKGARA	PGPT0013895_1028	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013895-mnhA-K05565	NA	NA
BMS010_00247	420	mrpB	COG2111	Na(+)/H(+) antiporter subunit B	ATGAACACGCTCATTCTGCGGACCGTCGCCCCTGTCGTCACCAGCCTCATGGTGCTGTTTTCCATCTTCGTGCTGCTGCGCGGCCATAACGAGCCGGGCGGCGGCTTCATCGGCGGCCTGATCGCGGTCTCTGCGCTGGCGATCTATGGCATCGCTTATGGCGTTGCCGCAGTCAGGCGCGCCATCATGTTTCATCCGCTGTCGATTGCGGGGGCGGGGCTGCTGCTGTCCATGCTTTCCGGCCTCGTTTCCATCGCCGCCGGCGTGCCCTTCATGACTGGGCTGTGGGTCTATCCGAACTTGTTCGGTGTCGAAATACCGCTCTCCACCGTCATGTCCTTCGATATCGGTGTCTATCTGGTCGTGGTCGGCGCCATCACCTCCATTGCGCTGGCGCTGGAAGAAAGGGAAAGCGACTGA	MNTLILRTVAPVVTSLMVLFSIFVLLRGHNEPGGGFIGGLIAVSALAIYGIAYGVAAVRRAIMFHPLSIAGAGLLLSMLSGLVSIAAGVPFMTGLWVYPNLFGVEIPLSTVMSFDIGVYLVVVGAITSIALALEERESD	PGPT0013900_1160	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013900-mnhB-K05566	NA	NA
BMS010_00248	378	mrpC	COG1006	Na(+)/H(+) antiporter subunit C	ATGGAAGCGGTCTTCTCCATTCTCGTCGGCATCTTCTTTTCGGTGGCGATTTATCTCATGCTATCGCGCCACAGCATCCGCATGCTGCTCGGCATCGCCATTCTCGGCAATGCGGTGAACCTCTTGCTGTTCACGGCAGGAAGGCTGACGCGCGAAGTGCCGCCGATCATTCCGCCCGGCATGGATACGCTGCCCGCGGGTGCGGCCAATCCGCTGCCGCAGGCGCTCATCCTCACGGCAATCGTCATTTCCTTTTCCTTCTTCTGTTTCCTTCTGGTGCTGACCTGGCGTGCGTTTCAGGAACTACAGACCGACGATACGGACGAAATGCGCACCGCAGAACCCGCAGGCGAGCCCTTGCCGCCGCTCGGTTATTGA	MEAVFSILVGIFFSVAIYLMLSRHSIRMLLGIAILGNAVNLLLFTAGRLTREVPPIIPPGMDTLPAGAANPLPQALILTAIVISFSFFCFLLVLTWRAFQELQTDDTDEMRTAEPAGEPLPPLGY	PGPT0013905_704	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013905-mnhC-K05567	NA	NA
BMS010_00249	1578	mrpD_1	COG0651	Na(+)/H(+) antiporter subunit D	ATGGCATCCTCCACCACATCCGCAGTCACCGACCTTTCCGCAGCGCTCGTCACGACGCCCGTGCCGCTCACCGACTGGCTGATCATTCTTCCCATCGCGCTCTGTATTGGCGCAGGCGCGGTGCTGATGATGATGCGCCACGCTATCCGCCACCACGCGACCGTCGCCATCGCGGCGCTGTTCCTGCTGGTGCTGCTCAATGCCGCGCTTTTGTGGAAGGTTGCCACTCATGGCCCCTTCACCATGGTCATGGGCCGCTGGCTGCCGCCCTTCGGCATTGCCTTTACCGCCGACCTGACGGGCGCGCTGCTGTCGCTTGCCGCCGCAATCGTCGCACTGGCGGGCGCCATCCATGCCGGCGCGGATATCGACGCTAGTGGCAGGCGATACGGTTTCTATCCCTTCCTGATGCTCTTGATGGCCGGTGTCACCGGCGCTTTCCTGACCGGCGACATTTTCAACCTCTATGTCTGGTTCGAGGTGCTGCTGATCTCGTCCTTCGGCCTGATCGTGCTCGGCTCGACGCGCGAGCAGATCGATGGCGCGCTGAAATATGCCATTCTGAACCTCATCGGCACAACGCTGTTCCTGATAACGGTCGGTTATCTCTACGCCATCTTCGGCACGCTCAACATGGCCGATATCGCGCAGAAGGCGACCGGGCTGCGCGGCTCGGCACCGTTGATGACGCTTGCGAGCCTGTTCGCGCTCGCCTTCGCCATGAAGGCCGCCGCCTTCCCGGTAAATTTCTGGCTGCCCGCTTCCTATCACACGCCGCGCATCGTCGTTTCCGCCCTGTTCGGCGGCTTGCTCACCAAGGTCGGCATCTATTCGCTGCTGCGCGTCATGGTCATGCTGTTTCCGGTCGAGCGGGAAGAACTCAGCATCGTCATCGCCATTTCGGCGGCGTTGACCATGGTGCTCGGGGCCATGGGCGCGCTCGCCCAGAACGATATCCGCCGCATGCTCGGCTATATCGTCATATCGGGTATCGGCTACATGATGGCCGGCATCGCCATCGGCACGCCGTCGGGTGTCACCGGCGCCATTTTCTACGCGCTGCATTCCATGGTGCTGATGACGGCGCTTTATCTCGCCGCCGGCCATGCGGCCCGCCTCGGCGGCGGTTTCAGCCTCACCTCGCTTAGAGGCCTTTACCAGCAGGCTCCGTGGTTTTCGGCGCTGGCGCTGGCGCTGTTTTTCGCCGGTTCCGGCCTGCCGCCCTTTTCCGGCTTCTGGCCGAAGGCGGTGCTGGTCAAGTCGGCGATCGATATCGGCGCCTGGTGGCTCGCCGGCGCCATTCTCGCCTCCGGCTTCATCGCCACCATCGCTTTCGGGCGGATATTCCTTTTGTGTTTCTGGCGTCCTGTTGCGGCATCCACCGGTCAGCCTTCCGTGCCGCAGGCGTCGCCCTCGGCAGCGCCGTCTTTCGCGCCGCTGGTGGGGCTGACGTTGCTGGTGGTATTCTTCGGCCTGTTTCCGGAAAGCCTGCTCAATCTCAGCCAGCAGGCGGCCGCAGGCCTCGGTAATCCGCAGGCCTATATCCAGTCGGTCTTTACCGAAGGGGGCAAACCATGA	MASSTTSAVTDLSAALVTTPVPLTDWLIILPIALCIGAGAVLMMMRHAIRHHATVAIAALFLLVLLNAALLWKVATHGPFTMVMGRWLPPFGIAFTADLTGALLSLAAAIVALAGAIHAGADIDASGRRYGFYPFLMLLMAGVTGAFLTGDIFNLYVWFEVLLISSFGLIVLGSTREQIDGALKYAILNLIGTTLFLITVGYLYAIFGTLNMADIAQKATGLRGSAPLMTLASLFALAFAMKAAAFPVNFWLPASYHTPRIVVSALFGGLLTKVGIYSLLRVMVMLFPVEREELSIVIAISAALTMVLGAMGALAQNDIRRMLGYIVISGIGYMMAGIAIGTPSGVTGAIFYALHSMVLMTALYLAAGHAARLGGGFSLTSLRGLYQQAPWFSALALALFFAGSGLPPFSGFWPKAVLVKSAIDIGAWWLAGAILASGFIATIAFGRIFLLCFWRPVAASTGQPSVPQASPSAAPSFAPLVGLTLLVVFFGLFPESLLNLSQQAAAGLGNPQAYIQSVFTEGGKP	PGPT0013910_849	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013910-mnhD-K05568	NA	NA
BMS010_00250	480	mrpE_1	COG1863	Na(+)/H(+) antiporter subunit E	ATGAGCCTCTATCTCGTACAATTGCTTTTCGTTGCCGTATGGCTCGCCGTGACGGGCAGCGTCACGCTCGCGAACATCATTTTCGCCCTTGTCGTTTCGACGCTGGCGCTCGGCATCATCCGCCACCAGCTTCCGGGCGGGCGTAATCACTGGCTCAGGCTTGTCCGCGTGCTCTCGCTGGTGCTGCTGTTCTTCAAGGAGCTGGCGCTCTCGGCATGGAAGGTCGCCGTGCTGGTGACCCGGCCGAAGCTCGACGTGCAGCCCGGCATTTTTGCCTATCCGCTGACGGTGACGACGGATTTCGAGATCACGCTGCTCGCCAATCTCATCACGCTCACACCGGGTACGCTTTCGGTCGATGTTTCGGGGGACAGGAAAACGCTTTACGTGCACGCGATCGACTGCAGCGATATCGAGGCCACGAAAAACGACATCCGCAACGGCTTTGAAAGAAAGATCATGGAGGCGTTTCAGATATGA	MSLYLVQLLFVAVWLAVTGSVTLANIIFALVVSTLALGIIRHQLPGGRNHWLRLVRVLSLVLLFFKELALSAWKVAVLVTRPKLDVQPGIFAYPLTVTTDFEITLLANLITLTPGTLSVDVSGDRKTLYVHAIDCSDIEATKNDIRNGFERKIMEAFQI	PGPT0013915_1268	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013915-mnhE-K05569	NA	NA
BMS010_00251	387			hypothetical protein	ATGACGCCGGAACAAATAGTTTCATTTGCAACTATACTTGCATCGGTTGTTCTGTCGGCCGCCTTTTTGCTGACAGTATATCGCGTCGTCGTCGGCCCCACCTTGCCGGACCGTATCGTTGCGCTCGACATGCTGGTGGGCATCGCCATCGGCTTCATCGCGGTCATCGCCATCCGCACCGGCTTCAATCTTTACGTCGATATTGCGATTGCGCTCGGGCTTGTCGGTTTTCTGGCAACGGTTGCCTTCGCTCGCTTCGTGCTGTCGCGCGGCCCAGACGGCCGGCGCCGGCCAGCGGCGGTTCTCGATGGCGAAAGGGCATCCGAAGCCATTGAAAAAAATATGGAAAAAGGTGTCGCCAACAGAAAAGGAAAGGGTAGGCGATGA	MTPEQIVSFATILASVVLSAAFLLTVYRVVVGPTLPDRIVALDMLVGIAIGFIAVIAIRTGFNLYVDIAIALGLVGFLATVAFARFVLSRGPDGRRRPAAVLDGERASEAIEKNMEKGVANRKGKGRR	PGPT0013920_57	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013920-mnhF-K05570	NA	NA
BMS010_00252	333	mrpG_1	COG1320	Na(+)/H(+) antiporter subunit G	ATGATGGCTTGGATCGTGGCTATTCTCGTTGCGGCGCTGTTGGTCTCAGGCGCCATTTTCTCGCTGATCGCGGCAATCGGCCTCAATCGGCTGCCGGATGTCTATACCCGCATGCATGCGGCTTCCAAGGCGGGAACGGTGGGGTCCGGCCTTCTGCTTCTGGCTGTCGGCATTCATTCCATGGAAATATCGACGCTGGCGCGGGCGCTCGCCGGTTTTTTCTTCTTTGTCCTTACCGCGCCGGTCTCGGCACATCTTCTTGCCATGGCCGCTCACAAGGCAGGTTATCCGCTTGCCGTTAAATCGGTAGTTGATGACATCAAGAAAATTTGA	MMAWIVAILVAALLVSGAIFSLIAAIGLNRLPDVYTRMHAASKAGTVGSGLLLLAVGIHSMEISTLARALAGFFFFVLTAPVSAHLLAMAAHKAGYPLAVKSVVDDIKKI	PGPT0013925_1412	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013925-mnhG-K05571	NA	NA
BMS010_00253	429	ros	COG4957	Transcriptional regulatory protein ros	ATGACGGAAACTGCATACGGTAACGCCCAGGATCTGCTGGTCGAACTGACTGCGGATATTGTGGCTGCCTATGTTAGCAACCACGTCGTTCCGGTAACTGAGCTTCCCGGCCTTATTTCGGATGTTCACACGGCACTCAGCGGAACATCGGCACCGGCATCGGTGGCGGTCAATGTCGAAAAGCAGAAGCCTGCCGTCTCCGTCCGCAAGTCGGTTCAGGATGACCACATCGTCTGTTTGGAATGTGGCGGCTCTTTCAAGTCGCTCAAGCGGCATCTCACGACGCATCACAGCATGACGCCGGAAGAATATCGCGAAAAATGGGACCTGCCGGTCGACTATCCGATGGTTGCGCCCGCCTATGCCGAAGCCCGCTCGCGGCTCGCCAAGGAAATGGGTCTCGGTCAGCGCCGCAAGGCCAGCCGTTAA	MTETAYGNAQDLLVELTADIVAAYVSNHVVPVTELPGLISDVHTALSGTSAPASVAVNVEKQKPAVSVRKSVQDDHIVCLECGGSFKSLKRHLTTHHSMTPEEYREKWDLPVDYPMVAPAYAEARSRLAKEMGLGQRRKASR				NA	NA	NA	NA	NA
BMS010_00254	423			hypothetical protein	ATGCCGTCGGATACAATGTTTCTGCCTGCCGCCGCGCGGCCTTGTGCGCGGGTCGGTGATCGTCCCTTTCGTCATTGGCCGTCTGCGGCCGGGCGGGATGAGATTTCCCGTCTTTGCCGTCTGGTACGGCAGCTCACCGGCGAGATGGTGCAATTGACGGGCGACCGAACGCTGGTTCGCCGCGATAGCCGGCGCACGGAATGCCACATCCGCCAGATCGCCATGTATGTTTGCCATGTGCAGCTCGGCATTCCCATGTCGGATATCGGGCCGTGTTTCGGCCGGGACAGGACGACGGTTGGCCATGCCTGCCAGGTGGTGGAGGACCGGCGTGACGAACCGGCATTCGATGAGTTCGTCGCCGCGCTGGAGCGGCTGACCGGCAGTATCTTCAACGCGATGAAAGGCGCCCGGGATGAGTGA	MPSDTMFLPAAARPCARVGDRPFRHWPSAAGRDEISRLCRLVRQLTGEMVQLTGDRTLVRRDSRRTECHIRQIAMYVCHVQLGIPMSDIGPCFGRDRTTVGHACQVVEDRRDEPAFDEFVAALERLTGSIFNAMKGARDE				NA	NA	NA	NA	NA
BMS010_00255	828			hypothetical protein	ATGAGTGAGGAAAAAAGCACCCCCGTTGCCTCCCCGAACCCTCATCTCCTGCGCCTGCTGCGTTGCATCGCCGCGGGCGCGGCGGAGATGTCGCAGGAGGGCGGCGATATCGTCCTGCGCCGGGCGCGAGCGGGCCAGACGGCGCTGCGGTTTCCGGCCGCGACGGTGCGGTTTGCCATTTCCTCCGGGCTGGTCGAGCAGCGGGACAACACCCTTTCCGCCGCACCCCCGCTCGCCTCCTGCCTGAAACGTGCAATGGCAAAAGACCGGGACGAGGTTTTTCAGGAACAGCACCGGCATGTGCAGACGGTTATTGTGGATGTCGGCGATGCGAAGCAGCAGGCGCGGCGCAATCTCAACACCTCTCCCCTGACCAGCCTTGCAAGGCTGAAGGAACGGGACGGTGCGGCGTTTTTCCCGGCGGATGCTCTGGAGGCGGGCGAGCGCCTCGCCGCCGATTTTCATCGCGGCCATCTCAACCCGAAGGTAACGGCGACATGGGAGCCGAGAATAGCGAACCGCACGAAAGGGGAGGCGGGAGGCGCGCTCGATCTCACCGAGGCGGCAATGGCCGCAAGAACGCGGTTTTCCCGCGCAGCCGATGCGATGGGGCCTGAACTGTCGGGCGTCGCCATCGATATCTGCTGCTTCGAAAAGGGGCTGGAGACGGTGGAGCGGGAAAGGCAATGGCCGGCGCGGTCGGCAAAACTGCTGCTGCGCGCCGCACTGCTGGCGCTTGCCCGCCATTATGCGCCGCCTGCGGCCCGCGCCGGCAGGAAGGAACACCATTGGGGCGATGCGGATTATCGCCCGCCGATGACGAGGTGA	MSEEKSTPVASPNPHLLRLLRCIAAGAAEMSQEGGDIVLRRARAGQTALRFPAATVRFAISSGLVEQRDNTLSAAPPLASCLKRAMAKDRDEVFQEQHRHVQTVIVDVGDAKQQARRNLNTSPLTSLARLKERDGAAFFPADALEAGERLAADFHRGHLNPKVTATWEPRIANRTKGEAGGALDLTEAAMAARTRFSRAADAMGPELSGVAIDICCFEKGLETVERERQWPARSAKLLLRAALLALARHYAPPAARAGRKEHHWGDADYRPPMTR				NA	NA	NA	NA	NA
BMS010_00256	417	sufE_1	COG2166	Cysteine desulfuration protein SufE	ATGGCCTCTCTCGAAACGATCCTTGACGACTTTGCCTTCCTCGATGACTGGGAGGATCGCTATCGTTATGTCATCGAACTCGGCAAGGCGCTTCCCGATCTGCCGGAAGACAAGCGCACGGCCGAAAACAAGGTACATGGTTGCGCAAGCCAGGTCTGGCTCGTCAGCCATAGCGATGGTGCGGAAGACCCTCTCCTGACCTTCGAAGGCGATTCGGATGCGCATATCGTGCGCGGCCTCGTCGCCATCGTGCTCGCCGTTTATTCCGGCAAGAGAGCCTCCGAAATCGCCGGTCTCGACGCCATCGAGGTATTCGACAGGATCGGGCTGGTGGAGCATCTGTCTTCGCAGCGCGCCAACGGCCTGCGCTCCATGATCAAGCGCATCCGCGAGGAAGCCCGGCTGCTGGCCGCCTGA	MASLETILDDFAFLDDWEDRYRYVIELGKALPDLPEDKRTAENKVHGCASQVWLVSHSDGAEDPLLTFEGDSDAHIVRGLVAIVLAVYSGKRASEIAGLDAIEVFDRIGLVEHLSSQRANGLRSMIKRIREEARLLAA	PGPT0020195_269	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0020195-sufS-K11717	NA	NA
BMS010_00257	426			hypothetical protein	ATGTGGTTTCTGATCAAGGGAACATTCTGGTTTTCGCTGGTGCTGGTGGCGCTGTCCTATTTCGGCAGCAGTAACGATCCGGCCAAGGAACCTTCGGCCTTCGATATTCCCAGCGCCGTTTCGGCCGCCGGTGAAGCCTATCGTTATGTCAGTGCCATCTGCATCGAAAAGCCCGATGTCTGCGTCAAGGGCGCCGAAACCTTCCACGCGCTCGGTGAGCGGGCAAAGGAAGGCGCAAAGGTGGCCTATGAGCTGCTGGACAAGCAGCTTGCTTCCGGTGACAAGCCCGCCCCCGCCGCTGAACTCGCGGCCGAGACCGAAAAACTGGCCGAAGCCCCGGTCGTCAGCGTCGAATTTCCGAAGGATGCCGACATGCTGAAGACCGGCACCGTCATTCCCCTGCCGCAGAAGCGCCCTGCTCCCTGA	MWFLIKGTFWFSLVLVALSYFGSSNDPAKEPSAFDIPSAVSAAGEAYRYVSAICIEKPDVCVKGAETFHALGERAKEGAKVAYELLDKQLASGDKPAPAAELAAETEKLAEAPVVSVEFPKDADMLKTGTVIPLPQKRPAP				NA	NA	NA	NA	NA
BMS010_00258	1476	rcsC_2		Sensor histidine kinase RcsC	ATGGAAGAGGACGCCGAAAGGCGCGCCGGAACCGTTGCGCGCCTGCGCCGGCTTATCGCCTTCAGCGTCGTCGGACTTCTGGTCGTACCAGCCCTCTTCAGCCTCGTTTTCAGCCCCGCCATCGCGCTGCCCATCGGCGCTGCCCTGGTGCTGGCGCTGTTTCTGGCCGCCGCAGCATTGCTGATTGCCTTTTCGCGTCCCGCGCGCGGTGCGTCCTCCTTTTCCACCGCGTTTGGCGATAACGACCTGATCGCCGCTACGCAGGTGCCGGGCCTCGTGCTCATGATCGGTGATACCGGCTTCGTCGAACACGTCTCCGGCCGCGATCTTACGACCTTCCCGGCCGCTCTGCAGGCCAGCAAGGACCATTCCCTCGTTGAATATGTCTATGTCTCGGACCGTATCGAGCTGATGCAGGCCTTCGACCTGCTGCGGCAGGGCGAGGACAGGGCAACCGCCAAACTCCGCTTCGAGACCGGTGCAAAGTCGCGGCAGGCGCAGTTCATGCATGCGCGTATCGAGATGACGGCAATCCGCAGCGCCAGCGGCCGGCTACGTCGCATCGTCGCCCAGCTTTCCGATGTCACGGAGATGGAGCTTCTGCGCCGCGACGTCGCCCGCAAGGCGGCCGAGGCGGAATCGGCCAATGATGCGAAATCCCGCTTTCTCGCTGCCGTCAGCCACGAATTGCGCACGCCGCTCAATGCCGTCCTCGGTTTTTCCGATATTCTGGCGGGCGAATATTTCGGCCGGCTCGAGAACGACCGCCAGCGGGAATATGTCGGCCTGATCCGCCAGTCCGGCGCGCACCTTCTCTCTGTCGTCAACACCATGCTCGATATGAGCAAGCTGGAGGCCGGCCGTTACGAGCTGATGATGGAAAGCTTCCCGATTGCCGAAACCATCTCGTCCTGCGAGGCCATGCTCGGCCTGCAGGCGAAGGAAAAAGGCCTGACTTTGACCAGCCGCATCCAGCGCGGTATCGGCGAAATCTCGGCCGATCAGCGTGCCATCCGGCAGGTTCTGATCAATCTTGCCGGCAACGCCATAAAATTCACCGATGCCGGTGGTGTGGTGTCGATCGACGCCGCGCGTGAGGGCGCGATGCTGAAGCTGACGGTGAGCGATACCGGCATCGGCATCGCTTCCGACAAGATCGAACTCCTGGGCCAGCCTTTCATGCAGGTTCAGAATGAATATACCCGTCGCTATGAGGGCACGGGTCTGGGATTGTCCCTGGTCAAGGGGCTTGTGGCACTGCATGGCGGCGCTTTCGCCATCGCCAGCAAGCCCGGCGAGGGAACGGTCGTAACGATCACCCTGCCTGCCGACGGTTCCGGCATGGCGGGTGAGGGCCAAAGCGCCGAAGCCGAAAGCATGGTGGAATTTCCACCGCGCATCCGGCAGCTCGGCGATATGGCCGCAATGATGAAAAAGGATGGTGACGATGGCCCCGCGAAAGCGAAAATCGCCTAA	MEEDAERRAGTVARLRRLIAFSVVGLLVVPALFSLVFSPAIALPIGAALVLALFLAAAALLIAFSRPARGASSFSTAFGDNDLIAATQVPGLVLMIGDTGFVEHVSGRDLTTFPAALQASKDHSLVEYVYVSDRIELMQAFDLLRQGEDRATAKLRFETGAKSRQAQFMHARIEMTAIRSASGRLRRIVAQLSDVTEMELLRRDVARKAAEAESANDAKSRFLAAVSHELRTPLNAVLGFSDILAGEYFGRLENDRQREYVGLIRQSGAHLLSVVNTMLDMSKLEAGRYELMMESFPIAETISSCEAMLGLQAKEKGLTLTSRIQRGIGEISADQRAIRQVLINLAGNAIKFTDAGGVVSIDAAREGAMLKLTVSDTGIGIASDKIELLGQPFMQVQNEYTRRYEGTGLGLSLVKGLVALHGGAFAIASKPGEGTVVTITLPADGSGMAGEGQSAEAESMVEFPPRIRQLGDMAAMMKKDGDDGPAKAKIA				NA	NA	NA	NA	NA
BMS010_00259	900			hypothetical protein	ATGGCCCCGCGAAAGCGAAAATCGCCTAAGAAAACAACGGCCCAGATTGGCGCCGGGATTGTTTCCTTGGTGGTTTCGGCCATCGGGCGCGAAATCCTGCGCCATCCGAAACTGGTCGGCAGCTGCGGCGCCTTCGCGGTCGTCTTCGGTTTTATCGCCGCCAATGCGCTCTGGTATCAGCCGGGCGTGCACCCGTCACCTTTCCTGCGCACGCGCGATGCGGAAAACCCGAACGGCATCGCCGGTTATCGCCCGGCCGAACCGCTCGGCACGCAGGGCAATGTCACCACCTTCCGCATAGAGCGACCGGCGGAGACGCAAAATGCGCAGCAGCCGGCGGCCGAAACGCCGGCGCAGCCCGTTGCCGAAAACCAGAAGCCGCAGCAGATCGTTGCCGATATTCAGGCCGAACTGAAGAAACGCGGGCTTTACGAAGGCGAGGCGGATGGCCGCATGGGCCCACGCACCGCAGCCGCCATCATGTTCTTTGAAGAAACGCTCGGCATGGAACAGACCGGCGAACCGACGACCCGCGTGCTGGCGGCGCTCAGGATCGATGGTGCGACGGTTGCGGCGATCCCCAGGGACCGGCCTGCCGATAGCAGCGGCGGCGTCGAGATCGATCCCGTGGCTGCCGCCATCCGCAAGGCGGAAGCGCCGCGCCCGAAGGCCGAACCAGCCTCTCTCAACAGCGCGGCCAAACCGGCAAGCCGCGATCTGATCGCCAAGATCCAGCAGGGGCTGATCAATATCGCCTATGCCGACGTGAAGGTGGACGGCGTGGCCGGCCAGCAGACCCGCAACGCCATCCGCGCGTTTGAGAAACACTATCGCCTGCCGGAAACCGGTGAGCCGAGCGAGGCCGTGCTGAAGAAGCTGAAGTCGATCGGGGCGCTTTAG	MAPRKRKSPKKTTAQIGAGIVSLVVSAIGREILRHPKLVGSCGAFAVVFGFIAANALWYQPGVHPSPFLRTRDAENPNGIAGYRPAEPLGTQGNVTTFRIERPAETQNAQQPAAETPAQPVAENQKPQQIVADIQAELKKRGLYEGEADGRMGPRTAAAIMFFEETLGMEQTGEPTTRVLAALRIDGATVAAIPRDRPADSSGGVEIDPVAAAIRKAEAPRPKAEPASLNSAAKPASRDLIAKIQQGLINIAYADVKVDGVAGQQTRNAIRAFEKHYRLPETGEPSEAVLKKLKSIGAL				NA	NA	NA	NA	NA
BMS010_00260	447			hypothetical protein	ATGCCCGGCAGGGCAGAGGGGGGTAAAGCCCCAAGCACCTTCGGCCGCGCAAAATCAACAACAGCCCCCCACCGTTTCCATCGAAAGCACCCCATGCGCCTCAAATCCGAAATGTTCGTCTCAGCCCTCATCCGCCGCGTCTTCGCGGCCGGCGGATTTGCGGCTGTCGAAAAAAAGGGGGCGGAGGAGGCGGGGGCGATTTTCATTCGCCAGCGCCTGCGCGATGGCCGCGAAAATCTCTACGGACCCGCGCCGCAGAGCTTTGCCGATGACGAGGAAGTCCGCGCTGAGCGCCGTTTCGAAACGCGCCTTGCCGGTGCGGATGGCGAGGAAAGCGCCGCTCTTCTTGAGAGGGAACGACGCTTCGACAGCGACCTGTGGGTAGTGGAGATCGAAACCGATGAGATCGGGACCCTGCTGACGCTGGTGGATCAGCCCAGGGTCTAG	MPGRAEGGKAPSTFGRAKSTTAPHRFHRKHPMRLKSEMFVSALIRRVFAAGGFAAVEKKGAEEAGAIFIRQRLRDGRENLYGPAPQSFADDEEVRAERRFETRLAGADGEESAALLERERRFDSDLWVVEIETDEIGTLLTLVDQPRV				NA	NA	NA	NA	NA
BMS010_00261	960			hypothetical protein	GTGAGGAAGAAAGATGTGGTGCTGATGGCCACCGTGACGAATTTCGAGAATGTCTCCCATCCGTCAAAAACGGACCTTCGGCAGTTCGCCGAACTTTTCATGCCGCTTTTCAATGCCTCCACCGACGAAGCCAAGCGGGAGGCCATCGCCGCGCTTTCTCAGCATCCGAGCGTGCCTTCGGCTGTCGCCTTCTTCATCGCCTGTCAGCCGATTTCGCTTGCGGCGCCCTTCCTCATCTCCTCCAAATGCCTCGATGACGACACGCTGATCACCATTGCCCGCACGCAAGGAGCGGCGCATGCGCGCGCCATCGTGCGCCGCGAGGACCTCTCCCCCACCGTCATCGACGCGCTTGTCGGGCTGCGTCACGCCGAAGATCTGAAGCGGCCGGATGGAGAGACGACGGCTGCCGAACCGCAGGCGGCGGAAAGCCCTGAAGAGCCGAAAGCGGAAGAAAAGACGGACAACATCGCCGCCGCTTCCGCACTCGAAGAGGAAATGCGCCAGCGGATCAAGCAGATGGCGCATCACCTCAACCGCCCGGAAAGCGACGTGCTCGGCCTTCGCCGCCTGAGCGAGGTGCAGGAAGCGCTGCTGGTGCGTTTCGCCCGCGAGCGCAATGCCCGGCAATTCGCCGTGGCGCTGGCGGATTCTCTCTCCTCCAGCTACTGGCTGTCGGAGCGCATCATGCTCGATATATCAGGCGCACAGCTGGCAACGACGCTGACCGGCCTTGGCATGGAGTTTTCCGAGGCGGCTTTCGTGCTGCAATGTTTCTATCCGCATCTTTCCGCCGCCGAAGGCGATATGAGCCGTGCCGAAGCCCTGCTCGACCGTCTCGACATCGTGGAATGCGAAGAGCGGCTGGAAAGCTGGCGGCGGGCCGACAGCTATACGCATGGCCGCGAACGGCCGGGCCGCAGCGCACCGGCTGCGCAGAGAACCGGGACACAAGGGTAA	MRKKDVVLMATVTNFENVSHPSKTDLRQFAELFMPLFNASTDEAKREAIAALSQHPSVPSAVAFFIACQPISLAAPFLISSKCLDDDTLITIARTQGAAHARAIVRREDLSPTVIDALVGLRHAEDLKRPDGETTAAEPQAAESPEEPKAEEKTDNIAAASALEEEMRQRIKQMAHHLNRPESDVLGLRRLSEVQEALLVRFARERNARQFAVALADSLSSSYWLSERIMLDISGAQLATTLTGLGMEFSEAAFVLQCFYPHLSAAEGDMSRAEALLDRLDIVECEERLESWRRADSYTHGRERPGRSAPAAQRTGTQG				NA	NA	NA	NA	NA
BMS010_00262	189			hypothetical protein	ATGGCAGAGATTATTCCAATCGGCGACGCCCGACGAAGCCTGCGCCCCGCCGGCGCGGTGGCAACGGTGATCGGCCCGGCGAAAGTCGTGCTGTTTACCGGCGTGCGCTATGAAAAACGCGATACCGAGCCGACCGGCAAAGTCGCGCGCAAGGGCAAATCCACAGCGGAAACCGCCCTCAAATCCTGA	MAEIIPIGDARRSLRPAGAVATVIGPAKVVLFTGVRYEKRDTEPTGKVARKGKSTAETALKS				NA	NA	NA	NA	NA
BMS010_00263	549			hypothetical protein	ATGCTTAGGGTCCTGCTCGCCATCCTCACCGGTCTCGTCGGCGCAGCCGTGCTGCATGTCATCATTCTTCTGGCGATACCGCATTTCAGCAATCGCGACGCCTATACGCGCGCGGTGGCGGAAGGAAAGCCGCATCAGTTTCATCTGCTCGAAGAGACGACGGAGAAAAAGACGCTTGGCAGCGGCGATCCCTTCATGCGGGTCGCGGTCTGCACCTTCGATATCGAGGACAAGCCGGTCAGGCTCACCGCCATCGGGGCCGTGCCCTTCTGGTCGGTCGCGGTTTACGACAAGGCCTCGAATGAGGTGTTCAGCATGAATGACCGCACGTCCGCCGGCGGGGTGATGGATATTCTGGTGGCGGATGCGGTGCAGATCGCCGCCATCCGCAAGGCGCAGCCACCCGCGCTTTCGCAGGCCATTCTGGCGGAATCGGATCAGACGGAAGGATATGTGGTGTTGCGGACCATGGTGCCGCAGCCGAGTTTCGGCGAAGAGGCGGAACGGTTCCTGAACGAGGCGAAATGCCAGCCGACGGCGTGGAAATAA	MLRVLLAILTGLVGAAVLHVIILLAIPHFSNRDAYTRAVAEGKPHQFHLLEETTEKKTLGSGDPFMRVAVCTFDIEDKPVRLTAIGAVPFWSVAVYDKASNEVFSMNDRTSAGGVMDILVADAVQIAAIRKAQPPALSQAILAESDQTEGYVVLRTMVPQPSFGEEAERFLNEAKCQPTAWK				NA	NA	NA	NA	NA
BMS010_00264	588			hypothetical protein	GTGTTCCGAGTTCCATTCCTTGTCGGCATCGCCCTTCTGATCGCCTTTGGCGGCGGTATTGCCGCGACGCTGGCAGCCCTTGAGGCGACATCGGGCTTTGGATCGATCCGCATCGGCTCCTGGGATGCCTTTCCCGAAGCGCAGACGATCGAGGCCGATCCTTACGCCAAATCGCATCGCGCCGACGCCGGCAAGCTGCTTTACGGAACCGCGGAAGGGCTGGCTTTTACCGCCTCCGTCGACAGCGATGGGCAACGCCTGAGCGGCGAGTGCCGATACCGGCTGGCGGGCGCCGTGCCGCCTGCACGTTTCTGGACGATCTACACCGCCGACCAGCAGGGCAATGTGCTGGCGGAGGATGCGGGGCGGCCCTTCGCGCTGAATTCCCGCACGCTTTTGCGCAGCGCCGATGGCGGCATCGACATTACCATCGCCGCTGACGCCCAGACCTATAACTGGCTGTCGGTGCCGCAGGGCCAGACTTTCAGGCTGGTCATGACCCTTCTCGACACGCCCGTCGCGGGCAGTTCCGGCCTGATCGACATCTCCATGCCGCAAATCCGCAAGTTGGGGTGTGGCAATGCTTAG	MFRVPFLVGIALLIAFGGGIAATLAALEATSGFGSIRIGSWDAFPEAQTIEADPYAKSHRADAGKLLYGTAEGLAFTASVDSDGQRLSGECRYRLAGAVPPARFWTIYTADQQGNVLAEDAGRPFALNSRTLLRSADGGIDITIAADAQTYNWLSVPQGQTFRLVMTLLDTPVAGSSGLIDISMPQIRKLGCGNA				NA	NA	NA	NA	NA
BMS010_00265	1389	dapE_1		Succinyl-diaminopimelate desuccinylase	ATGTCGCGACAATCCGCAATCGACCGTGCCGCCGCCTGTTTCGACGATGGCAGCTTCGAGCGGGATTTGTCGCGACGCGTTTTGCGACGGACCGAAAGCCAGAATGAGGAGCAGGGCGAGGAGCTGACGCTTTATCTGGAACAGGAAATGCTCCCCGCTTTCGCCGCCATGGGTTTCTCCTGCGCCATCCTGCGTGACCCGACGGCGGATTTGCCGTTTCTGATCGCCGAGCGTTTCGAGGGCGACACGCTGCCGACCGTGCTGGGATACGGCCACGGGGATGTGGTGCGCGGTCAGGACGAGGGCTGGGCCAAGGGGCTTTCGCCCTTTGTGATGTCCGAGCGCAATGGCAGGTGGTATGGGCGCGGCACCGCCGACAACAAGGGGCAGCATTCGGTCAATATGGCGGCGCTGAAAGCCGTGCTCGAGACACGCGGCAGGCTTGGTTTCAACGCCAAATATCTGATCGAGATGGGCGAGGAGAGGGGCTCCCCCGGCCTGAGGGAGATTTGCCGGAACCATGGCGAGCGGCTGAAAGCCGATCTTCTGATCGCCTCCGACGGCCCGCGCCTGAATGCGGAACGGCCGACGGTTTTTCTCGGCGCGCGGGGCGGCATCACCTTCGATCTGGTGATCGAGGCGCGTGAGGGCGGCCATCATTCCGGCAATTGGGGCGGGGCGCTCTCCAATCCCGGCGTGCAGCTGGCCCATGCCGTCGCAAGCCTCGTCGGCCCGACCGGCCAGATCCGCGTGCCGGAACTGGTGCCGGAGGAATTGCCGAAAGCGGTGCGTGAGGCCCTTGCCGATTGTGAAATCGATGGCGGGCCGGACGGCCCGAAGATCGATCCGGACTGGGGCGAGCCCGGCCTTTCCACCGCCGAGCGGGTTTTCGGCTGGTGTGCGCTGGAAGTGCTGGCTTTCGAGACCGGCAATCCGCGTGCGCCGGTCAACGCCATTCCGCCACGGGCATGGGCGCGGCTGCAACTGCGCTTCGTCGTTGGTATCGATCCGCAAGCGGTTCTGCCCGCCGTGCGGCGTCACCTCGACCGGCAGGGTTTCGCCATGGTGGAAATCGCGCCTGCCGGCGACGAGATTTTCCGCGCCACCCGCCTCGATCCGCAGGATCCATGGGTGGATTTCACGCTGCGCTCCATTGCGCGCACAACGGGCAGAAAACCGGCGCTTCTGCCCAATCTCGGCGGTTCGCTGCCCAATGATATCTTTGCCGATATCCTCAAACTGCGCACCATCTGGGTGCCGCATTCCTATCCCGGCTGCTCGCAGCATGCGCCGAACGAACATTTGCCGAAGGAGATCGCCCGCGAGGCGCTTACCCTTATGGCCGGGCTCTATTGGGATATCGGAGAGGGGGATACGCCGCCGCTTTAG	MSRQSAIDRAAACFDDGSFERDLSRRVLRRTESQNEEQGEELTLYLEQEMLPAFAAMGFSCAILRDPTADLPFLIAERFEGDTLPTVLGYGHGDVVRGQDEGWAKGLSPFVMSERNGRWYGRGTADNKGQHSVNMAALKAVLETRGRLGFNAKYLIEMGEERGSPGLREICRNHGERLKADLLIASDGPRLNAERPTVFLGARGGITFDLVIEAREGGHHSGNWGGALSNPGVQLAHAVASLVGPTGQIRVPELVPEELPKAVREALADCEIDGGPDGPKIDPDWGEPGLSTAERVFGWCALEVLAFETGNPRAPVNAIPPRAWARLQLRFVVGIDPQAVLPAVRRHLDRQGFAMVEIAPAGDEIFRATRLDPQDPWVDFTLRSIARTTGRKPALLPNLGGSLPNDIFADILKLRTIWVPHSYPGCSQHAPNEHLPKEIAREALTLMAGLYWDIGEGDTPPL				NA	NA	NA	NA	NA
BMS010_00266	609	argO_1	COG1279	Arginine exporter protein ArgO	ATGGACATCCAGATCTTCTTCACCGGCCTGACGATGGGCCTCAGCCTCATCGTCGCCATCGGCGCGCAGAATGCCTTCGTTCTGAAGCAGGGGCTGGCGCGCTCGCATGTCTTTGCCGTCTGCGCCACCTGCGCCATTGCCGATGCGCTGTTGATTACCGTCGGCGTTTTCGGTTTTCAGCGGATCAGCGCCATCATGCCGGCGCTCGATCCCATCATGCGTTATGCGGGGGCCGCCTTCCTCATCTGGTATGGCGCCAAAAGCCTGCATTCGGCGCTGCGCTCCTCCGAGGCGCTTTCGGTGGCGGAGCGGCAGGAGGCGAGCCTGTGGCAGACGCTGGCCATCTGCCTTGCGCTGACCTTTCTCAATCCGCATGTCTATCTGGATACCGTCGTGCTGCTCGGCACCATTTCCACGCAGTTTCCCGGCTTCGAAAAAACCTTCGCGGCGGGCGCGGCCACCGGCTCGCTGGTGTTCTTCTTTTCACTGGGTTACGGCGCGCGCTGGCTGCGGCCGATCTTCGAAAAACCCTCCGCCTGGCGTATCCTTGAAGGCGTCATCGCCGTCACCATGTGGGCCATCGCCTTCAAGCTCGTCATGGGCGCCTAA	MDIQIFFTGLTMGLSLIVAIGAQNAFVLKQGLARSHVFAVCATCAIADALLITVGVFGFQRISAIMPALDPIMRYAGAAFLIWYGAKSLHSALRSSEALSVAERQEASLWQTLAICLALTFLNPHVYLDTVVLLGTISTQFPGFEKTFAAGAATGSLVFFFSLGYGARWLRPIFEKPSAWRILEGVIAVTMWAIAFKLVMGA	PGPT0020651_1885	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ARGININE_TRANSPORT,PGPT0020651-lysE|argO-K06895	NA	NA
BMS010_00267	900		COG0583	putative HTH-type transcriptional regulator	GTGCTCGACTATCCCTCCATGCGGGCCGTGGCGCTCGTGGCTCAGACCGGCAGTTTCGAAAAGGCGGCGCAGGTGCTGTGCGTCACGCCGTCGGCCGTCTCCCAGCGCATCAAGCAACTGGAGGAGCGGCTGGGCGTGGTGCTGATCGTGCGCGGCAACCCGTGCGTGGCGACGGAAAAGGGTGAATGGCTGTGCCGTCACATGGATCATGTCGGCATGCTGGAAAGCGAATTGTTCCGACAGCTTCCGGCGCTGGCGGAAGCGGGCGCAGCGCAGGAGCGCGTGACGCTCAACATCGCCACCAATGCCGACAGTCTCGGCACATGGTTTCTGGATGCGGTTTCGAAATTCACCGGCGGCAGCGATTATCTCGTCAATATTGCGGTGGACGATCAGGACCACACGGTGGAATGGCTGCGCGGCGGCAGGGTGCTTGCCGCCGTCACCGCCCATGCCAAGCCGGTGCAGGGCTGTCGGGTCCTGGCCCTCGGCGTGCTGCGCTATCACGCCACCGCTAGCCCGGATTTCATGGCCCGCCATTTCGCCGGAGGCGTCACGCCCGCCGCCCTTGCCCGCGCGCCGGGGCTCACCTTCAACCAGAAGGACAGGCTGCAGACGAGCTGGGTCAGGAAGGTGCTGGGCGAGGATATCGCCTATCCCACCCACTGGCTGCCCTCGACCGACGGTTTCGTGAAGGCGAGCCTTTCCGGCATGGGCTGGGGGCTCAACCCGGTGCAGCTTGTGGGGGATCATCTCAAGACGGGCAGGCTGGTGGAGGTCGTTCCCGGCACACCGCTCGATATTCCGCTTTACTGGCAGGTTAACCGGCTCGCGGCGGAGCGGCTGGGGGTGTTGACGTCGCATGTGGTGGAGACGGCGAGGGGGGTGTTGTTGCGCTAA	MLDYPSMRAVALVAQTGSFEKAAQVLCVTPSAVSQRIKQLEERLGVVLIVRGNPCVATEKGEWLCRHMDHVGMLESELFRQLPALAEAGAAQERVTLNIATNADSLGTWFLDAVSKFTGGSDYLVNIAVDDQDHTVEWLRGGRVLAAVTAHAKPVQGCRVLALGVLRYHATASPDFMARHFAGGVTPAALARAPGLTFNQKDRLQTSWVRKVLGEDIAYPTHWLPSTDGFVKASLSGMGWGLNPVQLVGDHLKTGRLVEVVPGTPLDIPLYWQVNRLAAERLGVLTSHVVETARGVLLR				NA	NA	NA	NA	NA
BMS010_00268	2193	mtgA_1		Biosynthetic peptidoglycan transglycosylase	GTGCAGGAAGAAAAAGACGATAAAAAAGGCCGTAAAAAACGGCACATCCTGCTCCGGATCGATAGCTTCATCGACTCCGGCCTGTGGACGGCTGCGGCAAGGCTGGTGGATTTCTGGGAAGACGTCACCATCGCGTCGCGCAAGCTGCATGTGCGCGGCTGGAAGAAGCTCCTCGTCAAACTCACCTGCGACGCGCTGACCTTCGGAACGGCTGGGTCCGTCGTGCTTCTGGCGCTCGCCATGCCGGCCTTCGAGGAAACCAAAAAGGACTGGCGCTATCGCGGCGATTTCGCCGTCACCTTCCTCGATCGTTACGGCAACACCATCGGCCATCGCGGTATCATTCATGAGGATTCCGTTCCGATCGACCAGATGCCGGATCATTTCATCAAGGCGGTGCTGGCGACCGAAGACCGGCGTTTCTTCGACCATTTCGGCATTGATTTCATCGGCCTTGCCCGCGCCATGAGCGAAAACGCCCGCGCCGGCGGCGTGGTGCAGGGCGGCTCGACGCTGACGCAGCAGCTCGCCAAGAACCTGTTCCTTACCAATGAGCGCTCGCTGGAGCGCAAGATCAAGGAAGCCTTTCTCGCGCTGTGGCTCGAGACCAACATGTCGAAGAAGGAAATCCTCAGCCTTTATCTCGACCGCGCCTATATGGGCGGCGGCACCTTCGGCGCGGCGGCGGCGGCGCAGTTTTATTTCGGCAAGAACCTGACCGATGTGACATTGGCCGAATCCGCCATTCTGGCCGGCCTGTTCAAGGCGCCGGCCAAATATGCGCCGCATGTCAACCTGCCGGCCGCGCGTGCCCGCGCCAACACCGTGCTTTCCAACCTGGTGCAGAGCGGGTTGATGACAGAGGGTCAGGTCATCGGCGCGCGGCGCAACCCGGCCACCGTCATCGACCGCGCCGATGTGAAGGCGCCGGATTATTTCCTCGACTGGGCTTTCGACGAAGTACAGCGGCTGGCCGCCGAGGGGAAGTTCAAGGACCACACCGTGGTCGTGCGCACCACCATCGATACCGGCCTGCAGCAGGCGGCCGAACAGGCGATGGAAATGGGCCTGCGCGAATTTGGCGAAGGTTACCGCGTCAAGCAGGGCGCGATGGTGATGATCGAGAACGGCGGCGGCGTGCGCGCCATGGTCGGCGGACGCGACTATGGCGAAAGCCAGTTCAACCGCGCCACGGCGGCGCTGCGCCAGCCGGGCTCCTCCTTCAAGGTCTATACCTACTCGGCCGCCATGGAAAAGGGCATGAAGCCGGAGACGCTGATCTCCGACGCGCCGGTGACCTGGCGCGGCTGGTCGCCGCAGAATTACGGCCGCTCCTATGCCGGCAAGGTGACGCTGCAGATGGCGCTCGCCAAGTCCTACAACACCGTGCCCGTGCGTCTTGCCAAGGACGTGCTCGGCACGCAGGTCATCGTCGATACCGCCAAGGCCATGGGTGTCGCCACGCCGCTGCGCAGCGACAAGACCATTCCGCTCGGCACATCTGAAGTGACGGTTCTCGATCAGGCCACCGCCTATGCCGTTTTCCCGGCCGACGGCATGCAGTCGCGCCGCCACGGCATCGAGCAGGTGCTGGATTATGAGGGCAATGTTCTCTACGATTTCAGCCACAACGAAGCGCCCGCCAAACGGGTGCTTTCCGAAGACGCCAATTCGAAGATGAACCAGATGCTGGTGACCATACCGGTCATGGGCACGGCCCGGCGCGGCGCGCTGGATAACGGCATCGTTTCCGGCGGCAAGACCGGCACCTCGCAGGCCTATCGCGATGCCTGGTATGTGGGTTTCACCGGCAATTACACCACGGCCGTCTGGTTCGGGAACGACGATTTCACGCCGATGAACAACATGACCGGCGGCGCGCTTCCGGCCATGGCCTTCAAGCGGCTGATGGACTACGCCCATCAGGGCATGGAGCTGCGCCCCATTCCCGGCATCCAGAACCCGCTGCCGACAGGCGCACGCCCGCAGCCCTCGGCGGAAGTGGCGGCCGCTGCCACCAGCACCCCCGCCTTGCCGGCGCTCACCCGCCCGCGCTCGCTCTCGGCCGAGACAACGCGTGTGATCCGCTCCATCGCCAAGAAGATGAAGGAGGCTTCGGCCTTGAGTGTGACGACGCAGAAGGTGGCGGATGCATCGTTGCGGGAAGGCGCGGAGGATGCGGCGCGGCGATGA	MQEEKDDKKGRKKRHILLRIDSFIDSGLWTAAARLVDFWEDVTIASRKLHVRGWKKLLVKLTCDALTFGTAGSVVLLALAMPAFEETKKDWRYRGDFAVTFLDRYGNTIGHRGIIHEDSVPIDQMPDHFIKAVLATEDRRFFDHFGIDFIGLARAMSENARAGGVVQGGSTLTQQLAKNLFLTNERSLERKIKEAFLALWLETNMSKKEILSLYLDRAYMGGGTFGAAAAAQFYFGKNLTDVTLAESAILAGLFKAPAKYAPHVNLPAARARANTVLSNLVQSGLMTEGQVIGARRNPATVIDRADVKAPDYFLDWAFDEVQRLAAEGKFKDHTVVVRTTIDTGLQQAAEQAMEMGLREFGEGYRVKQGAMVMIENGGGVRAMVGGRDYGESQFNRATAALRQPGSSFKVYTYSAAMEKGMKPETLISDAPVTWRGWSPQNYGRSYAGKVTLQMALAKSYNTVPVRLAKDVLGTQVIVDTAKAMGVATPLRSDKTIPLGTSEVTVLDQATAYAVFPADGMQSRRHGIEQVLDYEGNVLYDFSHNEAPAKRVLSEDANSKMNQMLVTIPVMGTARRGALDNGIVSGGKTGTSQAYRDAWYVGFTGNYTTAVWFGNDDFTPMNNMTGGALPAMAFKRLMDYAHQGMELRPIPGIQNPLPTGARPQPSAEVAAAATSTPALPALTRPRSLSAETTRVIRSIAKKMKEASALSVTTQKVADASLREGAEDAARR	PGPT0023875_4753	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023875-mrcA-K05366	NA	NA
BMS010_00269	480			hypothetical protein	ATGAATGACGCGCCGTTCTGGAAAACCAAATCACTCACGGAGATGACCGGTGAGGAATGGGAAAGCCTGTGCGACGGCTGCGGCCTGTGCTGTCTGAACAAGCTGGAGGACTGGGACACCGGCGAAGTGGTGTTCACTTCGGTTCGCTGCGTGCTGCTCGACGGCGAGAGCTGTCGATGCTCCGATTACGAAAACCGCCGCGCCACCGTGCCGGACTGCATCCAGCTCGACCTGAAGAAGGTGCATGAGATCGGCTGGCTGCCGCCCACATGCGCCTATGCGCTGGTGCGCGACGGCAAGGATCTGTACTGGTGGCACTATCTCGTTTCCGGCGATACGGAAACGGTGCATCATGCCGGCATTTCCGCCCGCGGCCGCACCGTCAGCGAGGCCGACGTGGATGTTGACGACTTCGAGGATTATGTGGTCGACTGGCCCCTGACAGTGGGTGAGAGGGCAGGCGAAAAGGAACGGATGTGA	MNDAPFWKTKSLTEMTGEEWESLCDGCGLCCLNKLEDWDTGEVVFTSVRCVLLDGESCRCSDYENRRATVPDCIQLDLKKVHEIGWLPPTCAYALVRDGKDLYWWHYLVSGDTETVHHAGISARGRTVSEADVDVDDFEDYVVDWPLTVGERAGEKERM	PGPT0009760_249	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI-1_ExpI|EsaI_PERCIPITATION|SIGNALLING|AHL|NAHL,PGPT0009760-ycgN-K09160	NA	NA
BMS010_00270	825	bla		Beta-lactamase OXA-18	ATGCGCTATCGGCTGCCCGCCATCGTTCTTTCATGCCTCGCCCTTCCGGGGCTCCTGCCGTTTTCCGCTGACGCCCAGCAACAGCCCCAGGCCTTCGAATGCACGCTGGTCACCTCCATCGAGACCGGCGCCATCATCAACCAGCAGGGCGCCTGCGATCAGCGCGTGGCGCCGGCCTCCACCTTCAAGGTGCCGCTGGCGCTGATTGGTTACGACGCCGGCATTCTTCAGGATGAAAAGACGCCCGCCTGGGACTGGAAACCCGGCACGGAGGCGCGCGCCTCCGACCGCAAGACGGTCGATCCCTCGATATGGGAGCAGGATTCTGTTCTGTGGTATTCGCGTGAAATCACCCGCCGCCTCGGCCCGGAAAAATTCGCCGCCTATGTGAAGCGCCTCGGTTACGGCAATGCCGATGTTTCCGGCGAGCCGGGCAAGAATAACGGCCTGACCCATTCCTGGCTCGGATCGTCGCTGACGGTCTCGCCGGTGGAACAGGTCGGCTTTCTCCGCCGCCTTCTGGCCGGCAATCTGCCCGTCTCGCGCGATGCGCAGGCGAAGACGAGGGCAATCGTGCCGGTCTTCGATGCGCCGGAAAGTTGGGCGGTGCACGGCAAGACCGGCACGGGCTACATGCGCGACGAAAAGGGCAATCCCGACCGCAACCGCCCCTTCGGCTGGTTCGTCGGCTGGGCAGAGCGCGAAGGCCAGCATATCGTCTTCGCAAGACTGCGCGTTTCCGACAAACCGTCCGACGAGCCGCTCGGCCCCGCCGTGCGCGATGCCTTCCTGCGCGATATTCCCCGGCTGGCCGTGCATCGGTAG	MRYRLPAIVLSCLALPGLLPFSADAQQQPQAFECTLVTSIETGAIINQQGACDQRVAPASTFKVPLALIGYDAGILQDEKTPAWDWKPGTEARASDRKTVDPSIWEQDSVLWYSREITRRLGPEKFAAYVKRLGYGNADVSGEPGKNNGLTHSWLGSSLTVSPVEQVGFLRRLLAGNLPVSRDAQAKTRAIVPVFDAPESWAVHGKTGTGYMRDEKGNPDRNRPFGWFVGWAEREGQHIVFARLRVSDKPSDEPLGPAVRDAFLRDIPRLAVHR	PGPT0028220_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028220-blaOXA_9-K19098	NA	NA
BMS010_00271	2583	actP_1		Copper-transporting P-type ATPase	ATGAACGAGACAGTCAAACACGCCCATCGACATGAACCAGTTTCCATTCCCGTGGAAGGCATGACCTGCGCTTCCTGCGTGCGCCGGGTGGAAACGGCCGCGGCCAAGGTGCCGGGTGTCATGTCGAGTTCCGTGAACTTCGCCACGAAGAAGCTCACCGTCGAGACGGCCGAGGGTTTTTCGGCCAGAACGCTTGGCGCCGCCATCAAGAAGGTCGGTTACGATATCGCGCCGGAACGTCACGAATTTGCGGTGGAAGGCTTGCGGGGCGAGGCTGAGGCCGAGCGGCTGAAGGCCGTTCTGGAAGCGGTCGCCACCACAATCGCCGTCAAGGTCGACGCTGTCTCCGGCAAGGCCTCCGTGGAAACGATTGGCGGCCGGCGCGAACGGGATGCGCTTGTGGAAACGGCAAAGCTTGCCGGGTTCGTGCTGAAGACGCCGGCGCCGCACGACCATTCCGCCCACAACGGTCACGGCCAGCACCACGAACATCATCAGGGCCACGGCCAGATGGCGGCGGGCGAGGCCGGCGGCCACGACCATATGCAGCATGCCGGCGAAGAGGGCGCGCTGAAACGCGACCTGACGATCGCCGCGATCCTGACCGCGCCGCTTTTCGTGCTGGAAATGGGTGGCCATCTTTATGAGCCGATGCATCACTGGTTGATGGGCATCATCGACACGCAGAACCTCTATTACATCTATTTCGCGCTGGCGACGGCGGTGATTTTCGGACCGGGCCTGCGTTTCCTGAAGACCGGTTTCCCGGCTCTGCTGCGCGGCGCGCCGGAAATGAACTCGCTGGTGGCGCTGGGTGTGACGGCGGCCTATCTCTATTCGGTCGTCGTCACCTTCGCGCCCGACCTGCTGCCGGAAGAGGCGCAGTTCGTCTATTATGAAGCCGCAACCGTCATCGTCACGCTGATCCTGACCGGACGGCTTCTAGAAGCCCGTGCCAGCGGCCGCACGGGAGACGCCATCCGCAAGCTGATGAGCCTGCAAGCGAAGACCGCCCGGGTGGAGCGCGACGGCGCTACCATCGATATTTCCCCCGAAGACCTCGTGGCCGGCGATATCGTCGTCATCCGTCCCGGCGAAAGGCTGGCGGTGGATGGCGAAGTCGTCGAAGGCTCCTCCTATGTCGATGAATCCATGATATCGGGCGAACCGGTCCCGGTGGAAAAGACCATTGGCGCAACGGTCGTCGGCGGCACCATCAACAAGACCGGCGCCTTCAAGTTCAAGGCGACCAAGGTCGGCGCGGATACCATGCTGTCGCAGATCATCCGCATGGTGGAGGAGGCGCAAGGGTCAAAGCTGCCGATCCAGCTGCTGGTGGACCGCGTCACCGCGCTCTTCGTACCCGTTGTCATAGCAATCGCTGTGCTGACCTTCATCGTCTGGGCGATCTTCGGCCCCGAGCCTGCCTATACTTTCGCACTGGTCAATGCCGTGGCGGTGCTCATCATTGCGTGCCCCTGCGCCATGGGTCTCGCCACGCCGACATCCATCATGGTCGGCACAGGCCGGGCGGCGGAGCTGGGTGTGCTGTTCCGCAAGGGACAGGCGCTGCAGGAACTGCGCTCGGCTGAGATCGTCGTGGTCGACAAGACGGGCACTGTCACCAAGGGCCGCCCGGAACTGACCGATCTGGTGGTTGCGGAAGGGTTTGCCGACAACGAGGTGCTGGCGCTCGTCGCCGCCGTCGAAGGCCGTTCGGAACATCCGATTGCCGAAGCCATCGTCCGGGCTGCGGAAGAAAAGAAGGTTGCGACCACTGCAGGACTCGAACCTGCGACCGTCGAAAACTTCGAAAGCGTCACGGGTTATGGCATCGCCGCCACCGTCAACGGCCGCAGGGTCGAAGTCGGCGCGGATCGGTTCATGGCGAAACTCGGCCATTCCGTGGATATCTTCGCTGAGGCCGCCGCAAGGCTGGGTGACGAGGGCAAGACGCCGCTTTATGCCGCCATCGACGGCAGGCTGGCGGCCGCGATTGCGGTTGCCGATCCGCTGAAACCCTCGAGTGTCACTGCCATCCGGGCGTTGCAGGCCATGGGCATCGAAGTAGCGATGGTAACGGGCGACAATGAACGCACGGCGAATGCAATCGCCCGGCAGGTCGGCATTTCCCGCGTGGTGGCCGAAGTGCTGCCCGAGGGCAAGGTGAAGGCGATCCACGAAATGCGCTCAGGCGGCAAGGTGCTGGCCTTCGTCGGCGATGGCATCAACGATGCGCCGGCGCTGGCCGAGGCCGATATCGGCATCGCCGTCGGCACCGGCACGGATGTCGCCATCGAAAGCGCCGATGTGGTACTGGTCGGCGGCGATCTGCTCGGTGCGGTCAACGCCATCGAGATGAGCCGGGCGACCATCCGCAACATCAAGGAAAACCTGTTCTGGGCTTTCGGTTATAATGTGGCGCTGATACCGGTTGCGGCGGGCGTGCTTTATCCGGCCTTCGGCATCACGCTATCGCCGATGATCGGCGCGGGCGCAATGGCGCTGTCTAGCGTCTTTGTTCTCGCCAATGCGCTGCGGTTGAAACGGGCGAAGGTGGCCCATCGGGAGGTGACGTCATGA	MNETVKHAHRHEPVSIPVEGMTCASCVRRVETAAAKVPGVMSSSVNFATKKLTVETAEGFSARTLGAAIKKVGYDIAPERHEFAVEGLRGEAEAERLKAVLEAVATTIAVKVDAVSGKASVETIGGRRERDALVETAKLAGFVLKTPAPHDHSAHNGHGQHHEHHQGHGQMAAGEAGGHDHMQHAGEEGALKRDLTIAAILTAPLFVLEMGGHLYEPMHHWLMGIIDTQNLYYIYFALATAVIFGPGLRFLKTGFPALLRGAPEMNSLVALGVTAAYLYSVVVTFAPDLLPEEAQFVYYEAATVIVTLILTGRLLEARASGRTGDAIRKLMSLQAKTARVERDGATIDISPEDLVAGDIVVIRPGERLAVDGEVVEGSSYVDESMISGEPVPVEKTIGATVVGGTINKTGAFKFKATKVGADTMLSQIIRMVEEAQGSKLPIQLLVDRVTALFVPVVIAIAVLTFIVWAIFGPEPAYTFALVNAVAVLIIACPCAMGLATPTSIMVGTGRAAELGVLFRKGQALQELRSAEIVVVDKTGTVTKGRPELTDLVVAEGFADNEVLALVAAVEGRSEHPIAEAIVRAAEEKKVATTAGLEPATVENFESVTGYGIAATVNGRRVEVGADRFMAKLGHSVDIFAEAAARLGDEGKTPLYAAIDGRLAAAIAVADPLKPSSVTAIRALQAMGIEVAMVTGDNERTANAIARQVGISRVVAEVLPEGKVKAIHEMRSGGKVLAFVGDGINDAPALAEADIGIAVGTGTDVAIESADVVLVGGDLLGAVNAIEMSRATIRNIKENLFWAFGYNVALIPVAAGVLYPAFGITLSPMIGAGAMALSSVFVLANALRLKRAKVAHREVTS	PGPT0004090_1944	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004090-copA|ctpA-K17686	NA	NA
BMS010_00272	423	hmrR_2		HTH-type transcriptional regulator HmrR	ATGAATATCGGCCAGGCATCGGAAGCATCGGGCGTTTCCGCCAAGATGATCCGCTATTACGAGCAGATCGGCCTCATCACGCCGGCCGCCCGCACCGGCAATAATTACCGGGTCTATGGCGAGCAGGACGTGCACAATCTGCGCTTCATCAAGCGGGCGCGCACGCTCGGTTTCTCGCTGGAAGAAACCGAGACGCTGCTGAAACTCTGGCAGGACAAGACCCGCGAAAGTTCGGCGGTCAAGGAAATCGCGCTCGTCCATATCGCCGATCTCGAACAGAAGATCGCCGAGATGAAAAGCATGGTGAAGACGCTTTCCCATCTCGCCCATTGCTGTGGCGGCGACCACCGGCCCGATTGTCCCATCCTCGACGATCTCGCGGGCGCGGATAAGACTGACGCCAGGCACGCGCGAACCCACTGA	MNIGQASEASGVSAKMIRYYEQIGLITPAARTGNNYRVYGEQDVHNLRFIKRARTLGFSLEETETLLKLWQDKTRESSAVKEIALVHIADLEQKIAEMKSMVKTLSHLAHCCGGDHRPDCPILDDLAGADKTDARHARTH	PGPT0004135_673	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexPQ-OpmE,PGPT0004135-cueR-K19591	NA	NA
BMS010_00273	201			hypothetical protein	ATGAGTGCAACCACTTTCCTCATTCCGGACATGACCTGCGGCCATTGCGAAAAGACGCTGCGCGGCGCTCTCACGGAGGCTCTTCCCGGCGCATCCGTCAGCATCGACCTCGATGCCCATAAGCTGACGGTTATGGGCGATGCCGCAACTGCGGAAGCGGCGATCCGCGAAGCCGGTTATTCGCCGGAACGGGCGGGCTGA	MSATTFLIPDMTCGHCEKTLRGALTEALPGASVSIDLDAHKLTVMGDAATAEAAIREAGYSPERAG	PGPT0004125_3095	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004125-ATOX1|ATX1|copZ|golB-K07213	NA	NA
BMS010_00274	270			hypothetical protein	GTGTCCGTCAAGGCGTCAGTTTCCATCTCCGATCAACAGGATAGCTTCGCCCGCAGGCTGGTGGAGGAAGGGCGTTATGCCAGCCTCAGTGCCGTCGTCCAGCGAGGGCTGGAACTGCTTCGGCAGGAAACGGAACTGAAGGACGCCGAACTTGCCGCGCTTCGTGATTTGCTGGTCGAGCGACGGCAGGGCGACTTCGTCTCCGTGAAAGAGGGCAAGCAAAGAACGGCAGCGATGATCGCAGCCAAGAAGGCCGGTTATGGCCTTTAA	MSVKASVSISDQQDSFARRLVEEGRYASLSAVVQRGLELLRQETELKDAELAALRDLLVERRQGDFVSVKEGKQRTAAMIAAKKAGYGL	PGPT0027540_584	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-ParE-ParD|paaAR_TOXIN-ANTITOXIN_SYSTEM,PGPT0027540-antitoxin_parD1_3_4-K07746	NA	NA
BMS010_00275	366			hypothetical protein	ATGGCCTTTAAGGTCCTGCGCTCGACACAGACGGATCAGGACCTCGGCCTCATTCTCGATCATCTCATCCAGTCCTATCTCGACCTTGGCGACGCCTTGCCGGGGGCTTTTGCGCGCGCTGCGCGACGCGTGGGGTCAATTGAAGCGGATTTGGAAGCGCTTCACAAAGCGCCTTTTCAGGGGACATTATTGCCTGAAATATTGCCCGGCCTTCGCCGGGTAACGAAAAATCAGGCTGTCTTTTATTTCGATGTCGATGAGGGTGAAAAAACCGTGCGTATTCTTGCGGTCTTTTTCGGCGGGCAGGATCATCTGCGCCATATGCTCACGCGCCTTTCGTCCCGTCGCGCGCCGAATCTTCCCTAA	MAFKVLRSTQTDQDLGLILDHLIQSYLDLGDALPGAFARAARRVGSIEADLEALHKAPFQGTLLPEILPGLRRVTKNQAVFYFDVDEGEKTVRILAVFFGGQDHLRHMLTRLSSRRAPNLP	PGPT0027550_64	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-ParE-ParD|paaAR_TOXIN-ANTITOXIN_SYSTEM,PGPT0027550-toxin_parE1_3_4-K19092	NA	NA
BMS010_00276	249			hypothetical protein	ATGGACCGCGAGAAAATCCTGCCCCGCAACGAAGACGCCATGGATGAGGACCTCCTCGATCTCGATATCGACGCCCTTCCCGCCAAGGGAGAAATTCCGCAATCCATCGAACAGGAAATCGAGGAAGAAGAGGCGGAGAGCGAGGACGATCCCTATCAGGAAAGCGACGAGGCCCTGCCCGACGATGCCGAGGAACGGGTGATCGACCGCAACCCTTCGCGGGAGGGCGGGGCTTTCGATGAGGTTTAG	MDREKILPRNEDAMDEDLLDLDIDALPAKGEIPQSIEQEIEEEEAESEDDPYQESDEALPDDAEERVIDRNPSREGGAFDEV				NA	NA	NA	NA	NA
BMS010_00277	1404			hypothetical protein	ATGACGGAGAAAAACGGCTGGAGCGAATTGCTGAGCGGGGCGAATCTCTCGCTTCTGACCGTCATTTCCTCCGGTATCGGCCTGCACGCTTTCAATCAGTTCGCGGTGGTGACGGCCTTGCCCGTGGCCGTCAACGAAATTGGCGGCGCTGCCTTTTATAGCTGGGCCTATAGTCTCTATTTCGTTGGCTCGGTCGCGGGCGGCGTCACCGCCGTCCTGTTTCGCGAGCGTTTTGGCGCACGCGTCGTTTTGCTTCTCTGCTGCCTGATTTTTTCTTTCGGTTCGGTCCTCTCGGCAATCGCCGGTGACTTTTTGTGGGTGGTCGTCGGACGTGCCCTGCAGGGACTGGCCGACGGGCTGATCGTCGCCGTGTGCTACAGCCTCATTCCCGCTGGTTTCCGTTCCGGCCTGCTACCGAAGGTCTTCGCCATCGAGGCGGCGATCTGGGCGGTCGCCTCTTTCATCGGCCCGTTGACCGGCGGTTTCGCCACCGAACACATCTCCTGGCGCGCTACTTTCCTGCTGTCGGCGCCTCTGATCCTGCTGCTTCTGGCCTATACCACCATTGCCGTGTCCGCCGAGCGGCCGGTGGCGGCGACGCGCAAACCGCTGGTGCCGCTGTTTCTGTGCCTTGTCGGCGCCCTGGCGTTCTCCGCGCCTTCCGCCTTCGAGGATGCGAGCCTGCGCGCCCTTTCGCTGCTGGTGGGCGCGGCGATGCTGTGGGCTTCGCTGCGTGCGGGCATCCGGCCTTCAATCGGTCTTTTCCCGAAGGATTCCTTTCGGCTGAAGACGGTGCTCGGCAGCGGTTTCTGGGTGCTGTTCCTGATGTCCTATGCCCATGCGCTGGGCAGCGTCTATCTCGCTTATGTCGCCATCAATCTCTGGCGGCATGAACCGACCTTTGCCGGTTTCATCGTGGTGACGATGCCGCTTGCCTGGAGCTTCGTGGCGATGCTGATCGGCAGCCTGCGTTCTGCCCGCCTTCGCGAGATTTGCCTGCATTACGGCCCTTACCAGATGGTGCCGGGCTGCGCGCTGCTGGGGCTCGGGCTTGCGACCGGCAACTGGGGAGAAATGCTCATCGGGCAAATTCTGATAGGCTCTGCCTTCGGCATGTCATGGGCCGGCATCAGCCAGGCCGCCATGGAGGCCGCGCCGGAAGAGGAACGCAAGATGACGGGGGCGCTGCTGCCGACAGTCGCGACGCTGGGCGCCGCCGCCGGTGCGGGCGCCAGCGGCACCGTCGCCGCTGCGACCGATCTGGTAGGGCAGATCGAGCGGGCGGATGTGACGATGCCGATGGTTTACCTCTATGGGCTGGGTGTGCTCGTATCGCTGCTGGCGATCATGACCGCCAGCGGGTTGCGGGGCGAACGGCGGCTCCTCCGCCGCCGTCAGGACTGA	MTEKNGWSELLSGANLSLLTVISSGIGLHAFNQFAVVTALPVAVNEIGGAAFYSWAYSLYFVGSVAGGVTAVLFRERFGARVVLLLCCLIFSFGSVLSAIAGDFLWVVVGRALQGLADGLIVAVCYSLIPAGFRSGLLPKVFAIEAAIWAVASFIGPLTGGFATEHISWRATFLLSAPLILLLLAYTTIAVSAERPVAATRKPLVPLFLCLVGALAFSAPSAFEDASLRALSLLVGAAMLWASLRAGIRPSIGLFPKDSFRLKTVLGSGFWVLFLMSYAHALGSVYLAYVAINLWRHEPTFAGFIVVTMPLAWSFVAMLIGSLRSARLREICLHYGPYQMVPGCALLGLGLATGNWGEMLIGQILIGSAFGMSWAGISQAAMEAAPEEERKMTGALLPTVATLGAAAGAGASGTVAAATDLVGQIERADVTMPMVYLYGLGVLVSLLAIMTASGLRGERRLLRRRQD				NA	NA	NA	NA	NA
BMS010_00278	174			hypothetical protein	ATGACCAAAATCCGCGACACCAGCGATCCGATCCTGTTTCCCACCGAAGCCAATGAAAACAAGGCCGAGAAAAAACGCGCCGGCAAGGGCATCGTCGTCATCATCGGCGCGATCGCGATCATGGCCTTCGTCGTTTACCTGGCGGCGATCACCATCGCCACCACTCAGTCCTGA	MTKIRDTSDPILFPTEANENKAEKKRAGKGIVVIIGAIAIMAFVVYLAAITIATTQS				NA	NA	NA	NA	NA
BMS010_00279	1716			hypothetical protein	ATGAGCGTCGTTGAAGCCGTAGCCGAGCCGGAAAGCGCCATCCGCACCATTCACACCGATCTGCCCGTCAACGCCACCTTCCATGTCTGGCTGAAAGCGAAGAAAGATGCCGAGCCGGGTGCAGTCTCCTTTTCCAATCAGAATGGAAAATTTGCTGAGGTTTCAAGCGTCAACACGGAAGAGTTCAGTTTTCGAATCTATCAGGTTTTCGGCGGCGGCCATGTGGAGCTGAGTTACGACACGGTCACGACCGCCGTTTCCGTCATCTACTGGTTCACGGCGTCGGATGTGCTGGAAACCGGCATCACCGTCGTCCATACCAAGCCGGACAATGCCGCACCGGAGCTTCCCGGCAGCTATCACTTCCGCCCGCCTTTCGGCTGGATGAACGACCCGAACGGTTTCGGTCGCTTCGAGGGGCGGCCGCATCTGTTTTATCAGCATTATTCGCACGGGCTGCGCTGGAACACCATGCATTGGGGCCATGCCGTCTCCTCGGATTATCTGCGCTGGCGGCACTTGCCGATCTTCCTTTTCCCTTCCGAGGATCTGACGACACGGCCAGACAAGCGCGGCGGCGCCTATTCCGGCTCCACCATTCCGCTGGTGGAAGGCACGGGCATCCGCGTCTTCTTCACCGAGCAGGTGCAGGATCGCATTCCCGAACAGCAGATACAGCTCACAGCCACCTCCTCCGATCTCATCATGGCCGGGCAGGCCGAAGTCATTCTTGGCACTCGTCCGGACGGACAGGGGCTGACGCCGGATTTCCGTGACCCCTATGTTTTCCGCGGCCCTGATGGTCTTTGGAAAATGGTGCTCGGCAGCCAGAGCGATGGCGGCGGCGTCATCCTGCTTTACGAGACGCTGGACCCCACCGCCGCATCGGGCTGGACCTATGTGGGCAAGCTGTGGGTGGAAACGCGTTATAAAACCACGGCCATCGAATGCCCCTGCCTGCTGCCGCTCGATGGACCTGCCAATGCCCGTTCCACCCGCTGGGTGCTGATCTATGGGCTGATGCATTCGGAAGACCCGGAAACCGGCCGCAAGAACCTGACCATGGCCGATGTCGGCTGGTTCGACGGCAAGGTCTTCACCAAGGAATCCGGGCAGGAGCTGGATTTCGGCACCGATAATTACGCCTTCCAGGCCTTTCTGGATGGCGACAGCATCATCGGCATGGGCTGGCTGGCCAATTGGGCGGATGCCAATCCGGAGATCGATTTTCCCACCTCCATGACGCTGCCGCGCCGGATTCATTATGCCAACGGCGAGCTTCTGACCCCGCCCATCGGTGCGGCGGAAAGCCTGCGCAGCCATATTCTCGACCGCACGCGGCTGGCCGCCGGCGAACGCGTTACCTTCATCAGCGGGGCGGTGGAAATATTGTTCGAGCTTGCCTCACCCGGCGCGCCCTTCGAACTGGAGCTCGATCATCCGGCGGTCAGGCTGGGCGTCGTTTCCGATGAGACGGGCCTGTGGATCCGCCACGAGGACGGGCGTGACGGCCCCTCGCCGCACTATATCGCCAAAGGAGCGAGGGCATCCCGCATCCGCATCTTTCTCGATTACGGCTCCATCGAAGTCTTCGCCAATCGCGGCCGATATGTGGGCACCAAGCGCCTCGAAGGTTTCGAACCGGTACGCTCGGCGCTGCTGAAGGCCGCCCCCGGCGCGGTGGTGCATGCCACCAGCTGGGCGCTGAAACCGTGA	MSVVEAVAEPESAIRTIHTDLPVNATFHVWLKAKKDAEPGAVSFSNQNGKFAEVSSVNTEEFSFRIYQVFGGGHVELSYDTVTTAVSVIYWFTASDVLETGITVVHTKPDNAAPELPGSYHFRPPFGWMNDPNGFGRFEGRPHLFYQHYSHGLRWNTMHWGHAVSSDYLRWRHLPIFLFPSEDLTTRPDKRGGAYSGSTIPLVEGTGIRVFFTEQVQDRIPEQQIQLTATSSDLIMAGQAEVILGTRPDGQGLTPDFRDPYVFRGPDGLWKMVLGSQSDGGGVILLYETLDPTAASGWTYVGKLWVETRYKTTAIECPCLLPLDGPANARSTRWVLIYGLMHSEDPETGRKNLTMADVGWFDGKVFTKESGQELDFGTDNYAFQAFLDGDSIIGMGWLANWADANPEIDFPTSMTLPRRIHYANGELLTPPIGAAESLRSHILDRTRLAAGERVTFISGAVEILFELASPGAPFELELDHPAVRLGVVSDETGLWIRHEDGRDGPSPHYIAKGARASRIRIFLDYGSIEVFANRGRYVGTKRLEGFEPVRSALLKAAPGAVVHATSWALKP	PGPT0018815_850	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FRUCTOFURANOSIDASE,PGPT0018815-sacA-K01193	NA	NA
BMS010_00280	1461	selO_1	COG0397	Protein adenylyltransferase SelO	ATGAAATTCGACAATTCCTATGCCCGCCTGCCGGAACGGTTCAGCGCCGCCGTGCTGCCGACGCCGGTGAAGGCGCCGCGACTCATCGCCTTCAATCGTGGGCTGGCCGATGAACTCCTTCTCGATGTGGCTGGCCTTGACGATGAAAGGCTGGCGGCGATCTTTTCCGGCAATGTCGTGCCGCAGGGGGCCGAGCCGCTGGCCATGGCCTATGCCGGCCACCAGTTCGGCGGTTTCGTGCCGCAGCTCGGCGATGGCCGCGCCATTCTGCTCGGCGAGGTGATCGACAGGAACGGCAAGCGCCGCGATATCCAGCTCAAGGGCTCGGGCCCGACGCCGTTTTCGCGCCGGGGCGACGGGCGCGCGGCTCTTGGCCCGGTGCTGCGAGAATATATCGTGTCGGAGGCGATGTTTGCGCTCGGCATTCCTGCCACGCGGGCGCTGGCGGCTGTCCTCTCCGGCGAAAGGGTGCAGCGCGAAGTCGGCCTGCCGGGCGGTGTTTTCACCCGCGTTGCGGCAAGCCATATCCGTGTCGGCACGTTCCAGTTCTTCGCGGTGCGCGAGGATGAGGAAGGGATCAAAAACCTCGCTGACTATGTGATCGACCGTCATTATCCCGAGGCGAAAGAGGCAGACAATCCCTATCTCGCCCTGCTGCAAGGCATAGCGCAACGGCAATGCGACCTCATCGCCCGCTGGATGATGGTGGGCTTCATCCATGGCGTGATGAATACCGACAATATGGCGGTCTCCGGCGAAACCATCGATTTCGGCCCCTGCGCCTTCCTCGATGAATATCACCCCAACAAGGTCTTTTCCTCCATCGATGTGCAGGGCCGTTATGCCTTCAACAACCAGCCGGGCATTGCGCAATGGAACATTGCAAGGCTGGCGGAATGCCTGTTACCGCTGCTCGATCCGCAGGTGGAAAAAGCCGCCGAACTCGCCAATGCCGTTCTCGCCGATTTCGCCGCCGCCTTTCCCAAACGCTGGCTTACCGGCATGCGCGAAAAGCTTGGCCTGACGCTGGAGGAAGAGGGCGACATCGATCTGGTGCAGGCGCTTCTGGCGCTGATGCAGGCATCGGAAGCGGATTATACGCTGACCTTCCGTCGTCTTTCCCATGCGGCCAATGGCGATGCCGAACCGTTTCGTGGCATGTTCATCGATATTGCCGGGGCGGACGAATTTCTGGCGCGCTGGCGGGAAAGAGCCGGCCGCGAGGGGATTTTCGATTCCGAACGATCAGCGGCGATGCTCTCCGTCAATCCCGCCATCATCCCGCGCAACCACCGCATCGAGGAACTGATAGAGGCAGCGGTGGAAGAGGGGGATTTCGAGCCCTTCCACGCCATGCTGAGGGCAATCGCGACGCCTTTCGAGGAGCGGCCGGACAATTTCGTCTATATGCAGCCGCCGATGAACCATGAGCGGGTGTTCAGGACCTTTTGCGGGACGTAA	MKFDNSYARLPERFSAAVLPTPVKAPRLIAFNRGLADELLLDVAGLDDERLAAIFSGNVVPQGAEPLAMAYAGHQFGGFVPQLGDGRAILLGEVIDRNGKRRDIQLKGSGPTPFSRRGDGRAALGPVLREYIVSEAMFALGIPATRALAAVLSGERVQREVGLPGGVFTRVAASHIRVGTFQFFAVREDEEGIKNLADYVIDRHYPEAKEADNPYLALLQGIAQRQCDLIARWMMVGFIHGVMNTDNMAVSGETIDFGPCAFLDEYHPNKVFSSIDVQGRYAFNNQPGIAQWNIARLAECLLPLLDPQVEKAAELANAVLADFAAAFPKRWLTGMREKLGLTLEEEGDIDLVQALLALMQASEADYTLTFRRLSHAANGDAEPFRGMFIDIAGADEFLARWRERAGREGIFDSERSAAMLSVNPAIIPRNHRIEELIEAAVEEGDFEPFHAMLRAIATPFEERPDNFVYMQPPMNHERVFRTFCGT				NA	NA	NA	NA	NA
BMS010_00281	1101	lysDH_1		Lysine 6-dehydrogenase	ATGAAAAACATTGTCGTCATCGGCGCGGGCAATATCGGTTCGGCCATCGCCTGGATGCTGGCGGCCACCGGCGATTATCGCATCACCGTCGCAGACCGTTCGGCCGATCAGCTGGCCAATGTGCCGGCGCATGAACGTGTCGATACCGAAATCGTCGACATCACCGACCGTCCCGCTCTGGAAGCACTGCTGAAAGGCAAATTCGCCGTGCTTTCCGCCGCCCCCTTTCACCTGACGGCAGGCATTGCCGAAGCGGCCGTTGCCGTCGGCACGCATTATCTCGATCTCACCGAAGACGTCGAATCCACCCGCAAGGTCAAGGCGCTGGCAGAAACGGCCGGGACGGCGCTCATTCCGCAATGCGGCCTCGCCCCCGGCTTCATCTCCATCGTCGCTGCCGATCTCGCCGCCAAGTTCGACAAGCTGGACAGCGTGAGGATGCGCGTCGGCGCTCTGCCGCAATATCCGTCCAATGCGCTCAATTACAACCTCACCTGGAGCACGGACGGGCTGATCAACGAATATATCGAGCCCTGCGAAGCGATCGTCGAAGGCCGCCTTACCGCCGTTCCGGCGCTGGAGGAACGTGAGGAATTTTCGCTCGACGGCGTTACCTACGAGGCGTTCAACACCTCGGGCGGTCTCGGCACGCTCTGCGCCACGCTGGAAGGCAAGGTGCGGACGATGAATTACCGCACCATCCGTTATCCCGGCCATGTCGCGATCATGAAGGCGCTTCTGAACGACCTCAACCTGCGCAATCGCCGCGATGTGCTGAAGGACCTGTTCGAAAACGCCCTGCCCGGCACCATGCAGGATGTGGTCATCGTCTTCGTCACCGTCTGCGGCACCCGCAATGGCCGCTTCCTGCAGGAAACCTATGCCAACAAGGTCTATGCCGGCCCGGTTTCCGGCCGGATGATGAGCGCCATCCAGATCACCACCGCCGCCGGCATCTGCACGGTTCTCGATCTGCTCGCCGAAGGCGCCCTGCCGCAGAAGGGCTTCGTGCGACAGGAGGAAGTGGCGCTGCCGAAGTTCCTCGAAAACCGGTTCGGGCACTATTATGGTTCGCATGAGCCGCTGGCGCGGGTTGGGTGA	MKNIVVIGAGNIGSAIAWMLAATGDYRITVADRSADQLANVPAHERVDTEIVDITDRPALEALLKGKFAVLSAAPFHLTAGIAEAAVAVGTHYLDLTEDVESTRKVKALAETAGTALIPQCGLAPGFISIVAADLAAKFDKLDSVRMRVGALPQYPSNALNYNLTWSTDGLINEYIEPCEAIVEGRLTAVPALEEREEFSLDGVTYEAFNTSGGLGTLCATLEGKVRTMNYRTIRYPGHVAIMKALLNDLNLRNRRDVLKDLFENALPGTMQDVVIVFVTVCGTRNGRFLQETYANKVYAGPVSGRMMSAIQITTAAGICTVLDLLAEGALPQKGFVRQEEVALPKFLENRFGHYYGSHEPLARVG	PGPT0020340_1092	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020340-lys|aasS-K00290	NA	NA
BMS010_00282	432	lrp_1	COG1522	Leucine-responsive regulatory protein	ATGACGATTGCCGACAAGGACCGGGCGCTGCTTGCCCTGCTTTCCGAAAATGCCCGCATGCCGGTGGCGGAGCTGTCGCGAAAACTCGGCCTTTCGCGCACCACGGTACAGGCCCGCATCGAGCGGCTGGAGGCGGACGGGGTGATTGCGGGGTATGGCCTCAAGCTTTCGGAAAGCTATCTTTCCGGGCTGGTGCGCGCCCATGTCCTTATTACCATCGGGCCGAAGGCGCTGCCCGGTGTCACGGCGGCCCTTGCCGCCATCAAGGAGGTGACGACGCTGCATTCGGTGAGCGGCACCTTCGATCTCATCGCCATTCTGGCCGCACCTTCGATCCTCGATCTCGACCGGTTGATCGACAGGATCGGCGCGCTAGACGGCGTGGAGCGCACGCTGTCGTCAATCATTCTGTCGACGCGGATTTCGAGGTAG	MTIADKDRALLALLSENARMPVAELSRKLGLSRTTVQARIERLEADGVIAGYGLKLSESYLSGLVRAHVLITIGPKALPGVTAALAAIKEVTTLHSVSGTFDLIAILAAPSILDLDRLIDRIGALDGVERTLSSIILSTRISR	PGPT0003875_1437	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-OTHER_IRON_BINDING_PROTEINS,PGPT0003875-fiu|bfrD-K16090	NA	NA
BMS010_00283	369	yybR_1	COG1733	putative HTH-type transcriptional regulator YybR	ATGGAACGTATCTATGACGTCTATGAAGACCGCTGCCCCACCCGCATGGTGCTGGACAGGATTGCCGACAAATGGGCGCTGCTGATCCTCGACCGGCTGCGGGTGGAAGCGGTGCGCTTCAATCTGCTGCGGCGGGAGATCAAAGGCATTTCGCAGAAAGTCCTGTCGCAGACGCTGAAGAAGCTCGAGCGTGACGGGCTGATTTCCCGCCAGGCCTTTCCGACGGTTCCTGTCACCGTCGAATATTCGCTGACGCCGCTGGGACGCACGCTGACGGACACGGTGGCGGCGCTTGCCCATTGGGCGGAGGGAAATATCGACGCGGTGATGGCGGCGCAGAGAGCTTATGATGAGAGGGCGGTGGTTTAG	MERIYDVYEDRCPTRMVLDRIADKWALLILDRLRVEAVRFNLLRREIKGISQKVLSQTLKKLERDGLISRQAFPTVPVTVEYSLTPLGRTLTDTVAALAHWAEGNIDAVMAAQRAYDERAVV				NA	NA	NA	NA	NA
BMS010_00284	840	azoB_1		NAD(P)H azoreductase	ATGACAGGCAAGATACTCGTAATCGGTTCCACTGGCACCATCGGCACGCCGCTGGTGAAAACGCTGCTTTCCAGGGGTGAAAGCGTGAAGGCCGCGTCGCGTCGCGGCAAGGCCAGGGGCGGCGTGGAAGGCGTGCGTTTCGATTATACCGACGCGTCGACTTATGCGGATGCCTTCGACGGCGTTGACCGCTTGTTTCTCATTCTGGCGGGCGGGCGTCTGGATGCCATCGACGCGCTGACGCCTGTGGTCGAGGAGGCGGCGCGGCGCAAGGTGAAGATCGTGTTCCTCAGCGTCCTCGGCGTCGATGCCGACGATTCCATTCCCTATCGCCAGATCGAGCTTAAGATCATCGCTTCGGGTACGCCTTACGTCATCCTGCGACCCAACTGGTTTGCCGATAATTTCCACAGCTACTGGAAGGCCGGCATTGACCACGGCCAGATCGCCGTGCCGGCCGGCGAGGGCAAGTCGAGCTTTATCGACGTGCGCGATATTGCCGACAGCGGCGCCGCCGCCCTGACCTCTGACGCCTTTAACGGCAAGGCTTTCAACCTGACGGGTCCGAAGGCCCTCGGTTACGGCGAAGCGGCCGCGCTGATATCGCAGGCGATCGGCAAGCCGGTGTCCTACGCTGCCGTTTCGGACGAGGTCTTCATCGGCATCCTCACCGGTGCGGGCGTGCCGCAGGACTACGCCTCCTTCCTCGCTTCGATCTTTTATCCCGTGCGTGAAGGCTGGACAGCGGTGGTGACCGGCGATGTCGAGACACTGACCGGCCATGCACCGCGCTCACTCGAGACCTATATCGCCGACAATCTGGACAGGCTGAAGGGCTGA	MTGKILVIGSTGTIGTPLVKTLLSRGESVKAASRRGKARGGVEGVRFDYTDASTYADAFDGVDRLFLILAGGRLDAIDALTPVVEEAARRKVKIVFLSVLGVDADDSIPYRQIELKIIASGTPYVILRPNWFADNFHSYWKAGIDHGQIAVPAGEGKSSFIDVRDIADSGAAALTSDAFNGKAFNLTGPKALGYGEAAALISQAIGKPVSYAAVSDEVFIGILTGAGVPQDYASFLASIFYPVREGWTAVVTGDVETLTGHAPRSLETYIADNLDRLKG				NA	NA	NA	NA	NA
BMS010_00285	1665			hypothetical protein	TTGGTGAAACAATGGGTTGAGCGGTTGTTTGCAGGTCTTTCGGCAACCGGCATCGTCTTCGGCACTATCCTGTTCTGTGCTTCGCTCACGCCCTCGCTCCTGCCGCGCACATGGCTGATGCAGGGGGTGCTGTGCGGCTTTTCCTTCGCCATCGGTTATCTGATCGGTGTCGCGTTGCACGCCATCTGGGCCTATCTGGAGCTGCCTGAACCTTCACGCCATAATGCGCGCGGCATTCGTTTTCTCATCGCGCTTGCCGCCGCCATCACGGCCATCGCGTTTTTATGGCAGGCGAAGGACTGGCAGAATTCCATCCGGGTTTTGATGGAGCTCGATCCGCTGCCGAGCGCCCACCCCACCAAGACCGGCGGCCTTGCGGTGCTGGTCGCCGCCATCCTCATCGGCGCCGGCCGGCTGTTCCAGCTTATCCGCCGGTTCTTTGCCGCGCGTAGCCGCCATTTCCTGCCGCGCCGCCTTGCCAATGTGCTCGGTATCGCGGTGGCGATCATCATCTCCTGGATGCTGCTCAATGGGCTGATCTTCGATATCGGCCTCAGATTTGCCGATTCCTCGCTGAAACAGGTGGATGCGCTGATCGAACCAGATGTGCCGCGCCCGTCAGATGCGCTCAAGACCGGCAGCAGCGCCTCGCTGATGACATGGGAATCGCTCGGCCGACGCGGGCGTGAATTCGTCGCCGAAGGCCCGGCGGCCACAGAGATATCCGCCTTCACCCATCGCCCGGCAAAGGAGCCGCTCAGGGTCTATGCGGGCCTCAACTCGGCGTCGACGCCGGAAGAAAGAGCGGCCTTGGCGCTGGAGGAGCTGAAACGGGTCGGCGGTTTCGAGCGCAAGGTGCTTCTGGTGGTCATTCCCACCGGCACCGGCTGGATCGACCCGGAAGCGCTCGATACGGTCGAATATCTGCATGACGGCGATATCGCCAGCGTCGCCGTGCAATATTCCTATCTCTCGAGCTGGATCGCGCTGCTGACGGAGCCGGATTACGGTGTCGAGACGGCGCGCGCTTTGTTCGAGGCCGTCTACGGTTACTGGACCACGCTGCCGAAGGAAACGCGGCCGAAGCTTTACCTGCATGGCCTCAGCCTCGGTTCGCTCAATTCGCAGAAATCCTCGGATCTTTACGATGTGCTCTCCGATCCGTTCCAGGGCGCGCTGTGGAGCGGACCGCCCTTTTCCAGCCCGACATGGCGCATGGCCACCAATGGCCGGGTGAAGGGCACGCCGGAATGGCTGCCCCGCTTCCGCGATTCCTCCGTCATCCGCTTCGCCAACCAATATACCACCGCCCATATGCCCGATGCGAAATGGGGACCAATGCGGATCGTCTATCTGCAATATGCCAGCGACCCGATTACCTTCTTCGAGGCCGCCTCGCTTTACCGGCGGCCGCAATGGATGGCGCATCACGGGCCTGACGTTTCCACATCCTTCCGCTGGTTCCCGGTCGTCACCCTGCTGCAGCTCGGCCTCGATGTCGCCGCCGCAACCACCGCGCCCATCGGTTATGGCCATGTCTATGCGCCGGAACATTACATCGATGCATGGACGGAAGTAACCGCGCCAGGCGGCTGGAACCCCGAGGAGATCCAGCGGCTGAAGATGTTCTTCAAGGCCCGCCGCGGCTCCACCGATCCGGCGTAA	MVKQWVERLFAGLSATGIVFGTILFCASLTPSLLPRTWLMQGVLCGFSFAIGYLIGVALHAIWAYLELPEPSRHNARGIRFLIALAAAITAIAFLWQAKDWQNSIRVLMELDPLPSAHPTKTGGLAVLVAAILIGAGRLFQLIRRFFAARSRHFLPRRLANVLGIAVAIIISWMLLNGLIFDIGLRFADSSLKQVDALIEPDVPRPSDALKTGSSASLMTWESLGRRGREFVAEGPAATEISAFTHRPAKEPLRVYAGLNSASTPEERAALALEELKRVGGFERKVLLVVIPTGTGWIDPEALDTVEYLHDGDIASVAVQYSYLSSWIALLTEPDYGVETARALFEAVYGYWTTLPKETRPKLYLHGLSLGSLNSQKSSDLYDVLSDPFQGALWSGPPFSSPTWRMATNGRVKGTPEWLPRFRDSSVIRFANQYTTAHMPDAKWGPMRIVYLQYASDPITFFEAASLYRRPQWMAHHGPDVSTSFRWFPVVTLLQLGLDVAAATTAPIGYGHVYAPEHYIDAWTEVTAPGGWNPEEIQRLKMFFKARRGSTDPA				NA	NA	NA	NA	NA
BMS010_00286	528			hypothetical protein	ATGACAATGTCCAGCAATTGCGATCCGGCGCTCTACGGCGTCTGGCCGGAAACGCCCGCCTATGCGGCTGAGGACGCGCTTGAAGCCGCACCGGAGACGAAGTCGCGGGCCGACAGGCTGGCCGCCGAAGATGCGGCGCGCAACGGCAGCCTGCGGCAATTGCTGAACGAGCTGACGGAGGAGATGCGCGAGCAGTTCTGCCTGTACCGCAATCTCCGCCAGGCGAGCGAAGCGGCCTTTCTGGCGACGGCGGAGGACGCTTCGGGCAAGCTGGCGCGCGCCGATGTGAAGGCTGCGACGGACCAGCTCTCGCTGATCGTCCGCACGCTGGAGCGGATCGACGCTTTGCAACGGGTGCTGGCGGAAGAGAGGGAAGCTTTTTCTAGCGAAGACGAAACCGAGGCCGGGGATTACGAAGCGGCGGTGGCGCATTTCCTCAACCGCATCGACGAACTGGCTGAACAGAAATGCCGCGCGAAGATGGCGGCCGATCCCGCCCGCAGCCCCTCCGCAGAAGCCGATACATGA	MTMSSNCDPALYGVWPETPAYAAEDALEAAPETKSRADRLAAEDAARNGSLRQLLNELTEEMREQFCLYRNLRQASEAAFLATAEDASGKLARADVKAATDQLSLIVRTLERIDALQRVLAEEREAFSSEDETEAGDYEAAVAHFLNRIDELAEQKCRAKMAADPARSPSAEADT				NA	NA	NA	NA	NA
BMS010_00287	1260			hypothetical protein	ATGACGGATATGCCAACCGGACCCCATCTGCCGGCGCAGGTCTTCAACCTCCTGCGTGACTGGCGTTTCATCGGCAACCTGCCGCAGCAGCCGCCGGAGGGCGACTGGCGAACATGGCTGCTGATCGGCGGGCGCGGTTCCGGCAAAACCCGCGCCGGGGCGGAATGGGTGCATCGTGTCGCCTCCGCCGGCAAGCAGTCGGATTTGCGCATCGCGCTCGTGGCCGAAACGCTGGGTGACGCCCGCGAGGTGATGATCGACGGCATTTCCGGCATCTGCCGCATCGCCCGCCGCCATCGCCCCGCCTTCGAGGTATCGCGCCGGCGGCTCCTCTGGCCGAATGGCGCGATGGCGCAGGTGTTTTCCTCGGAAGACCCGGAAAGCCTGCGTGGCCCGCAATTCCACATGGCCTGGGCGGATGAGCTGGGCAAATGGAAATATCCGCAGGAAACCTGGGACATGCTGCAATTCGGCCTGCGTCTGGGTGAGACGCCCCGGCAACTGGTGACCACAACGCCACGGCCCATTCCTTTGCTGAAGGCGCTTCTCGCCGATCCCGCGACACGGGTGGCGCGGATGCCAACGGCGATGAATGCGCGCAATCTCTCGCCCGGCTTTCTCAAAGCCATGCAGGACCGTTACGGTGGCACGCGGCTGGGGCGTCAGGAAATCGGCGGTGAATTGATCGACGAGCGCGAGGGCGCGCTGTGGAAACGCGCCGATCTGGAAGCGATTATCGAAGCGGCTCTTGAGCCGCTCACGCGGATCGTGGTGGCGGTAGACCCGCCCGTCGGCGTCGGTGAACATTCCTGCTGCGGCATCGTCGTGGCGGGGCTTGGCATGTCCGGGCGTCTTAACGTGCTGGCGGATTGTTCGGTGGAGGGCGAAACGCCGGCCGGCTGGGCCCGCGCCGTGGTCGCCGCCTTTCGCCGCTACGAGGCGGACCGGGTGGTGGCGGAGGTCAATCAGGGCGGCGAGATGGTGCGCGCCATGCTGCAGAGCATCGACGCCAACCTGCCGCTGACACTGGTGCGGGCGAGCCGCGGCAAGTTCACCCGCGCTGAGCCGGTTGCGGCACTCTACGAACAGGGCAGGGTGCGCCACGCCGCGCGGTGTGAAAAGCTGGAGGACCAGATGACGGATTTCGGGCCAGACGGCCTATCCTCCGGGCGTTCGCCGGACAGGCTGGATGCGCTCGTCTGGGCGATAACAGCGCTGACGACGATGGTGGTGAGTGAACCGAAAGTGCGGGGGATGTGA	MTDMPTGPHLPAQVFNLLRDWRFIGNLPQQPPEGDWRTWLLIGGRGSGKTRAGAEWVHRVASAGKQSDLRIALVAETLGDAREVMIDGISGICRIARRHRPAFEVSRRRLLWPNGAMAQVFSSEDPESLRGPQFHMAWADELGKWKYPQETWDMLQFGLRLGETPRQLVTTTPRPIPLLKALLADPATRVARMPTAMNARNLSPGFLKAMQDRYGGTRLGRQEIGGELIDEREGALWKRADLEAIIEAALEPLTRIVVAVDPPVGVGEHSCCGIVVAGLGMSGRLNVLADCSVEGETPAGWARAVVAAFRRYEADRVVAEVNQGGEMVRAMLQSIDANLPLTLVRASRGKFTRAEPVAALYEQGRVRHAARCEKLEDQMTDFGPDGLSSGRSPDRLDALVWAITALTTMVVSEPKVRGM				NA	NA	NA	NA	NA
BMS010_00288	108			hypothetical protein	ATGACAGCGACAATCCCCCAGACCGTTTATGACCGTCTCGAAAACGAGTGGCGCCAGATGCGTGAAACCGGCTCCCAGCCGAAACCGGCGCAATCCCCGAAGAAATAA	MTATIPQTVYDRLENEWRQMRETGSQPKPAQSPKK				NA	NA	NA	NA	NA
BMS010_00289	639			hypothetical protein	ATGGCCTATGACGAGGCGCGATTCTTCGCGTCGGCGCGGATTTCCATTTTCGGCGGTCGCCTGCGCGCGGCCCAGCTTGCCGGCACGAAAACGATGCTGGCAGGATTTGAAAAGTCGATGCCGGGCGGCGATCCGCGCTGGCTCGCCTATATGCTGGCGACGGCCTTTCACGAGACGGCGGCGACCATGCAGCCGGTGCGCGAGACATTGGCGGCGAGCGATGCCGAGGCGATGGCAAGGCTCGACCGCGCCTTTGCGGCGGGCAGGCTGCCCATGGTGCGCAAGCCCTATTGGCGGCCGGACACGGAGGGTAAGAGCTGGCTGGGGCGCGGCTTCGTGCAGCTGACGCATCGGCGCAATTACGAGGCCATGTCGGCGCTGACCGGCGTCGATCTCCTCGAACGGCCCGAGCGCGCCATGGAGGCGGAGGTGGCCACCGCGATCCTGATCCACGGCATGGCGGGCGGCGGTTTTACCGGCCGCAGGCTCTCCGATTTCTTCAGCGACAGGTGCGAAGATTGGGACGGCGCCCGCGCCATCATCAATGGCAGCGACCGGGCGCGGCTGGTGGGCGGTTACGGGCGCGCATTTCATCACGCGCTTGTCGCGGCGCGGATTGAACCCGGGCGGGCCAGATGA	MAYDEARFFASARISIFGGRLRAAQLAGTKTMLAGFEKSMPGGDPRWLAYMLATAFHETAATMQPVRETLAASDAEAMARLDRAFAAGRLPMVRKPYWRPDTEGKSWLGRGFVQLTHRRNYEAMSALTGVDLLERPERAMEAEVATAILIHGMAGGGFTGRRLSDFFSDRCEDWDGARAIINGSDRARLVGGYGRAFHHALVAARIEPGRAR	PGPT0012140_126	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-CHITINOLYTIC_ACTIVITIES,PGPT0012140-putative_chitinase-K03791	NA	NA
BMS010_00290	324			hypothetical protein	ATGACAGGTGACACCGTGATCCGCCATATCGTCTTTTTCACCGTTCCCGAGGAAAACCGCGACGCCGTGCGCCGGGGGCTTTCCGGCCTGACCGCGATACCGCATTCGCTGAAGCTGGAAATCGGCGAGAACGTGAAGAAGGACCAATGGGGCAATTCGGTCGATTTCATCGTCTATGGCGAGTTCGAAAACGAGGCGGCGCTCGCCGCTTATAAGGCCGATCCGGCTTATGACCTCTCGACCCGCACGGTAAAGCCGCTGCGCGAAACCCGCGTTGCCGCCGATTTCGACAGCGATACGGCGGTGAAAGCGCCGATCCGGTAA	MTGDTVIRHIVFFTVPEENRDAVRRGLSGLTAIPHSLKLEIGENVKKDQWGNSVDFIVYGEFENEAALAAYKADPAYDLSTRTVKPLRETRVAADFDSDTAVKAPIR				NA	NA	NA	NA	NA
BMS010_00291	1167			hypothetical protein	ATGCGATTTCCCTTTTCCCTGCCGTGGCTGCGCCCGGCGGATGGCAGAGCCGTGCCTGAAAGCCGGAAAATGGCCGATGGCTTCATGGCGGTTGCCGTGCAGGGCGGGCAGGCCTTCTGGTCGGGCCGGTCCTATGCCGCACTTGCCCGCGAGGGCTTCATGAAGAACCCGGTCGCGCACCGGGCCGCCCGCATGGTGGCGGAGACCTCGGCGTCCGTCAGCTGGCTGCTTTATGATGGCGAAGAGGAACTCGCCGATCATCCGCTCCTGGCGTTGCTCTCAAAACCGGGCGCCCATATGGGCGGGCCGGATTTCTTCGAGGCGCTTTATGGCCACCTCATGCTCGCCGGAAATGCCTATATCGAGCCGCTGATGGTGGGCGGGCGGCTGCGCGAGCTGCATCTCCTGCGGCCCGACCGGGTCAGCATCGTAGAGGGGCCGGATGGCTGGCCGGTGGCCTATGATTACCGCGCCGAGGGCCGCGCCTCCCGGCGCATCGCCGCCGAGCGCGACGGGCTGGGGCTGCTGCATCTGAAACTTTTCCATCCCTTGGATGACCGGGCGGGTTTTGCGCCGCTCGCCTCCGCAGGGGCCGCGCTCGATCTGCACAATGCCGCAAGCCAGTGGAACAAGCGCCTGCTCGACAATTCCGCCCGGCCATCCGGGGCGCTGGTCTACCAGCCGAAGGAGGGCGGCAATCTCTCCACCGAACAATATGAGCGGCTGAAGCGTGAGCTGGAGGAAGGCTATCAGGGGGCGATGAATGCCGGCCGGCCGCTGCTTCTGGAAGGCGGGCTCGACTGGAAGGCCATGGGTCTTTCGCCGCGCGACATGGATTTTCTCGAGGCCCGCAATGGGGCGGCGCGCGATATTGCTCTTTCGCTCGGCGTGCCGCCGATGCTGATCGGCATTCCCGGCGACAATACCTATGCCAATTACCAGGAGGCGAACCGCGCCTTTTATCGCCTGACCGTCCTGCCGCTCGTTTATCGCACGGCGGCGAGGCTCTGCGGCTGGCTTTCTCCGGTCTTCGGCTCTGGGCTGAGGCTCGAACCTGATCTCGACAGGATTGCCGGGCTTGCCGGCGAGCGGGATGCGCTCTGGGCACGCATCGGCGCGGCCTCGTTCCTGAGCGACGAGGAAAAGCGCGAAGCCGTCGGTTATTGA	MRFPFSLPWLRPADGRAVPESRKMADGFMAVAVQGGQAFWSGRSYAALAREGFMKNPVAHRAARMVAETSASVSWLLYDGEEELADHPLLALLSKPGAHMGGPDFFEALYGHLMLAGNAYIEPLMVGGRLRELHLLRPDRVSIVEGPDGWPVAYDYRAEGRASRRIAAERDGLGLLHLKLFHPLDDRAGFAPLASAGAALDLHNAASQWNKRLLDNSARPSGALVYQPKEGGNLSTEQYERLKRELEEGYQGAMNAGRPLLLEGGLDWKAMGLSPRDMDFLEARNGAARDIALSLGVPPMLIGIPGDNTYANYQEANRAFYRLTVLPLVYRTAARLCGWLSPVFGSGLRLEPDLDRIAGLAGERDALWARIGAASFLSDEEKREAVGY				NA	NA	NA	NA	NA
BMS010_00292	321			hypothetical protein	ATGTCTGAATTCGCCAATGAGGCCGGCATCTGGGCCGCCCGCATCACCGGCGCCGTCGCCGGCGCGGGTGTGTCGCTCGTTTATCTCCTGCCGAAAAGCAGACGCGAGGCCGCGAGCCGTTTCATCACCGGCGTTTCCTGCGGCATGATCTTCGGCGGGCCTATCGGTCTGTGGATCGTGCAGCAGCTCGATATCGCCGGTGCGCTTTCGGGCCGGGAAATGATGGTGGCGGGTTCCGCCGCCGCCAGCATGGGCGCGTGGTGGGGGCTGGGCGTGCTGGTGCGCATCGCCGACCGTTACGGTGCGCGCCCGCGCGCCTGA	MSEFANEAGIWAARITGAVAGAGVSLVYLLPKSRREAASRFITGVSCGMIFGGPIGLWIVQQLDIAGALSGREMMVAGSAAASMGAWWGLGVLVRIADRYGARPRA				NA	NA	NA	NA	NA
BMS010_00293	573			hypothetical protein	ATGCACGTTTATCGCGGGCCGCGCCCCGCCACGCGCAAATTCGCCAATCTGGAACTGCGCGGCATTGCCAGCGATGGCACCTTTTCCGGTTATGCCAGCGTCTTCGGCGAGGTCGATCTCGGTCAGGATGTCATCGAGCGCGGCGCTTTCCGCCGCTCCATCGAGGAGCGGGGAGCGGCCGGCATCCGCATGCTCTACCAGCACGATCCGGCCGAGCCCATCGGCGCCTGGCGCACCATCCGCGAGGACGAGCGCGGCCTTTATGTCGAGGGCGTTCTCGCCCCCGGCGTCGCCCGCTCCCGCGAGGTGCATTCGCTGATGAAGACCGGGGCGCTGGACGGGCTGTCCATCGGATTCCGAACGGTGCGTTCCGGCAAGGCGGCGAGCCACGGCGTCCGGCGCATCCTGGAAGCCGACCTCTGGGAAATCTCGGTCGTGACCTTCCCGATGCTGCCCTCGGCGCGCGTTTCCGACGTCAAGCATGCCCGCTTCTTCCGCGACCGCGAGACCGAGCTGGTGCGCACCATGCGCCGCGCCGCCCGCGCGCTGTTCGACACGACACCCAAATGCTGA	MHVYRGPRPATRKFANLELRGIASDGTFSGYASVFGEVDLGQDVIERGAFRRSIEERGAAGIRMLYQHDPAEPIGAWRTIREDERGLYVEGVLAPGVARSREVHSLMKTGALDGLSIGFRTVRSGKAASHGVRRILEADLWEISVVTFPMLPSARVSDVKHARFFRDRETELVRTMRRAARALFDTTPKC				NA	NA	NA	NA	NA
BMS010_00294	1269			hypothetical protein	ATGACAGACCAGATGACGAAACCGGCCCCGATGACCGTCGCGCCGCAGGTGAAGGCCGTGCCCGATACGGTGACGGCGGCCTTCGATGAGTTCATGGAGGCCTTCGAGGCCTTTCGCGAGACCAACGACCAGCGGCTTGCCGATATCGAGCGCAAGATGGGCGCGGATGTCGTGACCCGCGACAAGCTCGACCGCATCGACAGGGCGCTCGACGACAACCGCCGGATCATGGACGATCTGGCGCTCAAGAAAGCGCGTCCCGCGCTTGGCCGCAAGGATGCGCTTTCCCACGATGCCGAAGAGCACAAGGCCGCTTTCGAGGCCTATATCCGTCGCGGCGAGGAGGGCGCGTTGCGCGATCTGGAGGCCAAGGCCTTTGCCGGTTCGACCGGGGCCGATGGCGGTTTTCTGCTGCCGAACGAGACCGATGGCGAGATCGGCCGGCGCATGACGGCGATTTCGCCGATCCGCGCGCTGGCGACCGTCCGGCAGGTTTCCGCCGCCGTGCTGAAGAAACCCTTCTCGCCCGGCGGCATGACGACCGGCTGGGTTTCCGAAACGGCGGCGCGTCCGCAAACGGCAACGCCGCAGCTTGCCGAGCTTTCCTTCCCAACCATGGAGCTTTACGCCATGCCGGCGGCGACACAGGGCCTGCTGGATGATGCGGCAGTCGATATCGAAGCCTGGATCGCCTCCGAAGTGGATATCGCTTTCGCCGAACAGGAGGCCGCCGCCTTTATTGCCGGCGATGGCGCGAATAAGCCCAAGGGTTTCCTCTCCTATGCGGCCGTCGCCAATGATGGCTGGAGCTGGGGCAATATCGGTTATGTCGCGACCGGCGTTTCGGCCGCATTCGCCTCCGCCGGGCCGATGGATGTGCTGCTCGATGCCGTCTATGCGCTGAAGGCCGGCCACCGCCAGAACGGAACCTTCCTGATGAACCGCAAGACGCAAGGGGCGCTGCGCCGCTTCAAGGATACCAGCGGCGCCTATCTGTGGCATCCGCCCGCCGCTGCCGGCCAGCCGGCCTCGCTGATGGGCTTTCCGGTGACGGAGGCGGAGGACATGCCGAATGTGGCGGCCAACAGCTTCGCCATCGCTTTTGGCGATTTCCGCGCCGGCTACCTCGTCGTCGACCGTACCGGGGTGCGCATCCTGCGCGATCCCTATTCAGCCAAACCCTACGTCCTGTTCTACACCACCAAACGCGTGGGCGGCGGCGTGCAGAATTTCGAGGCGATCAAGCTGGTGAAATTCGGGGTGAATTGA	MTDQMTKPAPMTVAPQVKAVPDTVTAAFDEFMEAFEAFRETNDQRLADIERKMGADVVTRDKLDRIDRALDDNRRIMDDLALKKARPALGRKDALSHDAEEHKAAFEAYIRRGEEGALRDLEAKAFAGSTGADGGFLLPNETDGEIGRRMTAISPIRALATVRQVSAAVLKKPFSPGGMTTGWVSETAARPQTATPQLAELSFPTMELYAMPAATQGLLDDAAVDIEAWIASEVDIAFAEQEAAAFIAGDGANKPKGFLSYAAVANDGWSWGNIGYVATGVSAAFASAGPMDVLLDAVYALKAGHRQNGTFLMNRKTQGALRRFKDTSGAYLWHPPAAAGQPASLMGFPVTEAEDMPNVAANSFAIAFGDFRAGYLVVDRTGVRILRDPYSAKPYVLFYTTKRVGGGVQNFEAIKLVKFGVN				NA	NA	NA	NA	NA
BMS010_00295	570			hypothetical protein	ATGACCTATGCCCTCATTCATCCGCCGCAGGCGGAGCCGTTGACGCTTGCCGAGGTGAAGGCGCATCTGCGTCTCGACAGCGGCGATGAGGATGCGCTTCTTGCCGCGCTCATCCGCACCGCCCGCGAGCATCTGGAACGTACGACCGGACTTTGCCTCATCCGCCAGACCTGGCGGCTTTATCTCGACCGGTGGCCGCAGAACGGCGTGATTCCGATTGGCAGGACACCGGTGCAAGCCATCGAAACTATACTGGTTTTTGACGGTGAGGGTCGCTCGGTGGATATCACCGCCGTGGAAAAATTGCTCGATGGCGCGGCGCGTCCCGCAAGGCTGTGGCTGCGCGATCCGCCGGCCCCCGGACGGGCGATGAATGGCATCGAGATCGATTTCATTGCCGGCTATGGCGAAGCGGGAACGGATGTGCCCGACACGCTGAAACGCGCCATGCTGATGCATGTGGCGCAGATGTTCGCCTTTCGCGGCGCGGTCGCCCCGGAAAACCAGCCCGCCGCCATTCCCGCCGGTTACGAGCGGCTGGTGGCGCCTTTCTGCCGTCTGGGGCTTTGA	MTYALIHPPQAEPLTLAEVKAHLRLDSGDEDALLAALIRTAREHLERTTGLCLIRQTWRLYLDRWPQNGVIPIGRTPVQAIETILVFDGEGRSVDITAVEKLLDGAARPARLWLRDPPAPGRAMNGIEIDFIAGYGEAGTDVPDTLKRAMLMHVAQMFAFRGAVAPENQPAAIPAGYERLVAPFCRLGL				NA	NA	NA	NA	NA
BMS010_00296	336			hypothetical protein	ATGAACCTTGTTTTTCTCGATCCCGGCAAGTTGACGGCGCGGCTGGAACTGGACGTGCGGACCGAAACGCCGGACGGGCAGGGCGGTGCTGCCGAAAGCTGGAATTTCCTGCGGTCGCTCTGGGCTGCGATCGAACCCGTTTCGGAGGCATCGCATGAACGGGCCTCGGCCGAGGGCGTGACGATCACCCACCGCGTCTGGCTGGCTTACCGCGGCGACATCGCCGCCGGCATGCGCTTTCGCAAGGGCCGCCGCATTCTGGCGATCCGGGCGGTGATGGACCCGGATGAGACGCGTCGCTTCATCGTCTGCCGCTGCGAGGAGGAAAGCCGATGA	MNLVFLDPGKLTARLELDVRTETPDGQGGAAESWNFLRSLWAAIEPVSEASHERASAEGVTITHRVWLAYRGDIAAGMRFRKGRRILAIRAVMDPDETRRFIVCRCEEESR				NA	NA	NA	NA	NA
BMS010_00297	396			hypothetical protein	ATGAGCGCTGCCAACGCATTTCTTCAGGCGATTTTCGCAAGGCTCGGTAGCGATGCCGCGGTGACGGCGCTTATCCCCGGCGGCATCGTCGACCGGCTTCTGCCGCGCGCGCTTCTGCCGTGCATCGTTATCGACGATCTCGAAAGCCGGGACTATTCGACGGCGACGGAAAGAGCCGAGGAGCATTTCCTGTCGCTGCAGATATGGAGCGACGCCAATGGCCGAAGGGGTGCCGGCGAAATCGTCGAACGGGTGAAGATCCTGCTCGACGATGCGGCGCTGCCGATTGCCGGTGTGTCTCTTGTCAATCTGCATCTTCTTTCCAGCCGCTCGCGGCGCGAGGCGAAGACACGGAATTTCATCGCGGAAATGCGCTTCAGGGCGGTGACGGAGTAG	MSAANAFLQAIFARLGSDAAVTALIPGGIVDRLLPRALLPCIVIDDLESRDYSTATERAEEHFLSLQIWSDANGRRGAGEIVERVKILLDDAALPIAGVSLVNLHLLSSRSRREAKTRNFIAEMRFRAVTE				NA	NA	NA	NA	NA
BMS010_00298	1200			hypothetical protein	ATGTCCGACGCTGCCCCCCTGACGTCTCGCGCGCGCCTTATCGGCGTGCTTGCGGTCGGGCAGATCGTGAGCTGGGGTAGCGGTTTCGATATGCTGGCCGTCCTCGGGCCACGGATCGGTAAGGAACTGGCCATCACCAACGGCGTGGTTTTCGCCGGCCTCACGATCATGATGACCATCAGCGCCCTGTGCGGCCCGCTGCTTGGAAGAATGCTGATGCGCCACGGCGCGGCGCCGGTGCTGGCGGCCGGTTCGGTATTCTTCGCGGCCGGCTTTGCCGTGCTCGCCCTCGCGGGCGGGGCAATGAGCTATCTCTTGGGTTGGGCCGTGATGGGTTTTGCCGCCACCTGCGGCCTGACGACGGCAGCCCATGCGGCCGTGGTGGAACGTGTGGGCGCGGAAAGCGGCCGGCTTTTGACGCTGCTGATGCTGTTCACCGGGCTTTCGGCGGCGGTTTTCCTGCCGGTCACCACCATCGCCGATCAGCATCTCGGCTGGCGCGGCACGCTTGCGGCCTATGCCTGTCTGCAAATCTTCATCCTGCTGCCGCTCTATCTTTTCGTGCTTCCCGGCCGTCCGGCCCGAAAAGAGGCAAAGCCGAAAGAAGAGACGGCGATGTCGCCCTCACCGGTCGATACGCGGCGCGCCTTCGTGCTGCTGGCCGCCATGACGACGATCAGCGCGTTTACGACCTTCGGCCTGTCACCGCTTCTGCCGCTGCTTCTGGTTCAGGCCGGCGCAACGCAATCGCTTGCGGTGCAACTGGCATCGGCACGCAGCGTGCTTGCGATTACGGCGCGCGGGCTGGATTTTCTGCTCGGGAAGCACGGAAACCCCTTCCTCACCGCCATGATCGGCTTCTGTCTGCTGCTCTTTTCCCTGCTGCTGTTGCTCGCCTTTGCTCCGGCCATGCCTGCCTTCATCGGCTTCATCGTTTTCTTCGGCTTTGGCGCCGGCGTGCTCACCGTCAGCCGGGCCGTGTTGCCGCTCGCGGTATTTTCGCCGGAAGAATATGGGCTTCAGGCCGCGCGCATCTCCCTGCCGCAGAACCTCGCCATTGCCGTGGCGCCGGTCGTCTTCACCGTGGCGCTGGATCGCGGCGGCGTATCCGCCATGCTCACCATCGCCTCCGTGCTGATCGGCATTTCGTTTCTGCTGCTGATCGTTCTGTGGAAAACCGTGCGCAGGCAGGGTTCCTGA	MSDAAPLTSRARLIGVLAVGQIVSWGSGFDMLAVLGPRIGKELAITNGVVFAGLTIMMTISALCGPLLGRMLMRHGAAPVLAAGSVFFAAGFAVLALAGGAMSYLLGWAVMGFAATCGLTTAAHAAVVERVGAESGRLLTLLMLFTGLSAAVFLPVTTIADQHLGWRGTLAAYACLQIFILLPLYLFVLPGRPARKEAKPKEETAMSPSPVDTRRAFVLLAAMTTISAFTTFGLSPLLPLLLVQAGATQSLAVQLASARSVLAITARGLDFLLGKHGNPFLTAMIGFCLLLFSLLLLLAFAPAMPAFIGFIVFFGFGAGVLTVSRAVLPLAVFSPEEYGLQAARISLPQNLAIAVAPVVFTVALDRGGVSAMLTIASVLIGISFLLLIVLWKTVRRQGS				NA	NA	NA	NA	NA
BMS010_00299	408			hypothetical protein	ATGGTGGCGCAGAAGGGCAAGGACCTGCTGCTGAAGATCGACAATGCCGGTTCCTATGCAACCGTCGCTGGGCTGAGGACAAAGCGGCTGGCCTTCAATGCCCAGGCCGTCGATGTGACGGATGCCGAAAGCGCGGGGCGCTGGCGGGAGCTTCTTGCCGGCGCCGGCGTGCAACGGGCGTCGCTCACGGCCTCCGGCATCTTCAAGGATCAGGCGAGCGATGCGCTGGTGCGCGGCGCATTTTTTGCGGGCAGCATTCCCGGCTGGCAGATCGTCATTCCCGGTTTCGGCATCGTTACCGGGCCGTTCCAGATCGTGGCGCTCGAATATTCCGGCCGTCACGATGGCGAGGTGCAATTCGAGATCGCGCTGGAATCGGCCGGTCTTCTCACATTCGGAGCGCTGTGA	MVAQKGKDLLLKIDNAGSYATVAGLRTKRLAFNAQAVDVTDAESAGRWRELLAGAGVQRASLTASGIFKDQASDALVRGAFFAGSIPGWQIVIPGFGIVTGPFQIVALEYSGRHDGEVQFEIALESAGLLTFGAL				NA	NA	NA	NA	NA
BMS010_00300	360			hypothetical protein	ATGGCTGAGCGTCTGCGTTACGGGCGGGCGAACCGCCATCGCGGCGAGATCGAGGCGCTGATCGACGGCGAAAGGCGCGTTCTCTGCCTGACGCTCGGCGCTCTCGCCGAACTCGAAACCGCCTTTGCAGCCGACGACCTCACCGCGCTCGCCGAACGTTTCGCGAGCGGCCGCATGAAGGCGGTCGACATGGTAAGGGTGATCGGCGCGGGCCTGCGCGGCGCGGGCAATGTCTTTTCCGATGAGGATGTGGCCGCCGCCACGGTGGAAGGCGGCATTGCCGGCCATGCCGCCATCGTCGCCGATCTTCTGACTGCCACCTTCGGCGGCCTGAAAGGCGAGGCGCCACCGGACCCTTGA	MAERLRYGRANRHRGEIEALIDGERRVLCLTLGALAELETAFAADDLTALAERFASGRMKAVDMVRVIGAGLRGAGNVFSDEDVAAATVEGGIAGHAAIVADLLTATFGGLKGEAPPDP				NA	NA	NA	NA	NA
BMS010_00301	582			hypothetical protein	ATGGCGGGCGAAGGATCGATGGCGGAGAACCGGGAAGAGGCGGAGGCGCTGTCCGAGGTGATGGGCGATCTCGAGCGCCGGTCCGAGCGGTTCGGGGCGGCCCTGACCTCGGCCCTGCAGGCGGCGACGGCGGGCGGCAGGGGGCTGGACGATGTGTTGCGCGGGTTGGGACAGCGGCTGTCCGGCATCGCACTCTCGGCCGGTCTGAAACCGCTTGAGGGCATGATCGGCAATGCCGTCAGCGGGCTTTTGAACGGCGGCGGTTCGCTGTTCGCTTTTGCCGACGGCGGTGTGCCGGGACGCAGCATCACGCCCTTTGCCGATGGCGGCGTCGTTTCCAGCCCCGCCTTTTTTCCGATGGGCGGCGGACTTGGCCTGATGGGCGAGGCGGGGGCGGAAGCGGTCCTGCCGCTGAAGCGCGGTTCGGATGGCGCTCTCGGCGTTGCTGCACCGTCCGGCGGTGGCGGGGCGCAGATCGTCTTTAACGTGACGGCGACGGACGCTGCGAGCTTTCGGAAAAGCGAAGGCCAGATCGCGGCCATGCTGGCGCGCAGCGTCGGGCGCGGCCAGCGCGGATTGTGA	MAGEGSMAENREEAEALSEVMGDLERRSERFGAALTSALQAATAGGRGLDDVLRGLGQRLSGIALSAGLKPLEGMIGNAVSGLLNGGGSLFAFADGGVPGRSITPFADGGVVSSPAFFPMGGGLGLMGEAGAEAVLPLKRGSDGALGVAAPSGGGGAQIVFNVTATDAASFRKSEGQIAAMLARSVGRGQRGL				NA	NA	NA	NA	NA
BMS010_00302	639			hypothetical protein	ATGGCGGCATTTCATGAAGTGCGGTTTCCGCTGCGGCTCGCACTCGGGGTGAGCGGCGGGCCGGTGCGGCGGACGGACATAGTCAACCTGTCCAATGGCCGCGAAAGCCGCAATCAGCGTTGGAGGAACGCCAGACGCAGTTATGACGCCGGATCCGGTATCCGCTCCGTCGCCGATCTTTATGAGGTGCTCGCCTTTTTCGAGGCGCGACGCGGCGAACTTTACGGCTTTCGTTTTCGCGACCCGGTGGATTTCAAATCCTGCCCGCCGGGAGAGACGCCCGCCGCGACCGATCAGAGGATCGGCACCGGCGACGGCGTGACAGCGGGTTTTCAGTTGCGGAAGACCTATGCCGATGCGGGCGGCTCCTTCGTGCGGCGGATAGAAAAACCGGTCGAAGGTTCGGTCATGGTTTCGGTCGAGGGGGTGAAGGTCGAAGCGGCTGAGGTGGCGGTCGATCATGTAACCGGCATGATCGTGTTCCGTGCGGGGCGGGTGCCGCCCGCCGGCGCCGCGATCCGCGCCGGTTTCGAATTCGACGTGCCGGTCCGCTTCGGGATCGACCGTATCGACGTGAACCTGACCGCTTTCGAGGCGGGCCGTATTCCCTCCATTCCACTGATGGAAATCCTGCCATGA	MAAFHEVRFPLRLALGVSGGPVRRTDIVNLSNGRESRNQRWRNARRSYDAGSGIRSVADLYEVLAFFEARRGELYGFRFRDPVDFKSCPPGETPAATDQRIGTGDGVTAGFQLRKTYADAGGSFVRRIEKPVEGSVMVSVEGVKVEAAEVAVDHVTGMIVFRAGRVPPAGAAIRAGFEFDVPVRFGIDRIDVNLTAFEAGRIPSIPLMEILP				NA	NA	NA	NA	NA
BMS010_00303	885			hypothetical protein	ATGAAAACCATTCCCGCCGCCCTTGCCGGGCATCTCGGGCAAGATGCGACGACCACATGCCATTGCTGGAAGGTGACACTGAAGGACGGTGCGATGATCGGTTTTACCGATCATGACGAGGCGATATCGTTTGCCGGCACCTCCTACCTTGCCGCCAGCGGCTTTTCGGCCAGCGATAGCGACGGCGAAACGGGGCTGGGCGCAGGCGCCGGGGAGGTGGCCGGCGGTTTTTCGAGCGAGGCGATTGCGGAGGGCGATCTGGCCGCCGGGCGTTTCGATGGGGCGAGGGTGGAGCTTTTCCTCGTCAACTGGCAGGCGCCTGACCAGCATGTGCTGCTGAACAGGCGCGAGATTGGCGAGGTGACGCGGGCCGGCGGGGCATTTCGCGCCGAGCTGCGGAGCCTTGCCCATCGCCTCGGCCAGCCGCAGGGCAGTGTCTATGGGCGGCGCTGCGACGCCGCCCTTGGCGACAGGCGTTGCGGTGTCGATCTGGCCCGCTTCACCGGGCATGGCAGCGTGGCGGCGGTGGATGCCTCGGGCGGCCTGCTCGTTTCCGGGCTCGATGCCTTTGCCGATGGTTTTTTCAGCCGGGGGAAGCTGCGTTTTCTGACCGGCCCGCTCGCCGGCAAGGGGTTCGATCTCGACGGGCAGGAGCGGCGTGACGGCGGGGTGCTTTTGTCCTTCTGGCTGCCGCCGGAACAGCCGCCTTTGCCGGGAGATAGGTTTTCCGTCACCGCCGGCTGTGACAAGAGCTTTGCCACCTGCCGCGCGAAATTCGCCAATCATCTGAATTTTCGGGGCTTTCCGCATCTGCCGGGGGCGGATTTCGCCTATTCCTACGCGGCGGGCGGCGAGAGCCATGACGGCGGGGCGCTGTTTTCATGA	MKTIPAALAGHLGQDATTTCHCWKVTLKDGAMIGFTDHDEAISFAGTSYLAASGFSASDSDGETGLGAGAGEVAGGFSSEAIAEGDLAAGRFDGARVELFLVNWQAPDQHVLLNRREIGEVTRAGGAFRAELRSLAHRLGQPQGSVYGRRCDAALGDRRCGVDLARFTGHGSVAAVDASGGLLVSGLDAFADGFFSRGKLRFLTGPLAGKGFDLDGQERRDGGVLLSFWLPPEQPPLPGDRFSVTAGCDKSFATCRAKFANHLNFRGFPHLPGADFAYSYAAGGESHDGGALFS				NA	NA	NA	NA	NA
BMS010_00304	435			hypothetical protein	ATGAGCGACCCCGGCGAAAGAGTGCTGGCGCTCGCCGAAGGCTGGATCGGCACCCCCTATCGGCATCAGGCCTCGTTGAAGGGTGTCGGCTGCGATTGCCTCGGCCTCATTCGCGGCATCTGGCGGGACCTTTACGGCCACGAACCGGAATTGCCGCCGCCCTATGCGCCCGATTGGGCCGAACGCGGCGGCGAGGACCGGCTGATGGCGGCGGCTAAACGCCATTTTCCGGCGGTGTCGGGCCTGGAAGAGGCAAGGTCGGGAGACCTGCTGCTGTTCCGCTGGCGGGCCGATGCCGCCGCCAAGCATCTCGGCATTCTGGCCGGTTCGCAGCATTTCATCCACGCCTATGAACAGGCGGCGGTGGTGCGTTCGGCGCTGGTGCCGGGCTGGCGGCGGCGCATCGCCGGCGTTTTCCGTTTTCCCGATCCCTGA	MSDPGERVLALAEGWIGTPYRHQASLKGVGCDCLGLIRGIWRDLYGHEPELPPPYAPDWAERGGEDRLMAAAKRHFPAVSGLEEARSGDLLLFRWRADAAAKHLGILAGSQHFIHAYEQAAVVRSALVPGWRRRIAGVFRFPDP				NA	NA	NA	NA	NA
BMS010_00305	3801			hypothetical protein	ATGGCGACAATCGTTTTTCAGGCGGCGGGCGCGGCACTCGGCGGCATTTTCGGTCCTTTGGGCGCAGTAATCGGCCGGGCGGCCGGGGCGCTGGCGGGCAACGCCATCGACCGCACGCTGCTTTCGAACGGGCGGACGGTAACGGGCGCGCGGCTCTCTACCGCGCGCATTCCGGGGGCGGATGAGGGAGCGGCGATCAACCGGCTTTACGGCGCAGCACGGATCGGCGGCACGCTGATCTGGGCGACGCGCTTCGAAGAAAGCGTGGAAGTGGAGCGGCGCGGCGGCAAGGGCAATCGCGGCCCGAAGGTGGAGACCTTTCGGTATTTCGCCAGCTTTGCCATCGGCCTGTGCGAGGGCGAGGCGGAAAGGGTGCGGCGCGTCTGGGCCGATGGGCGGGAGATGGACCTGAGTGCCGTGGAGATGCGCTTTTATCCCGGCAGCGAGACGCAATTGCCCGATCCTTTGATCGAGGCGAAGCAGGGGGCGGGCAATGCGCCGGCCTTTCGCGGACTGGCCTATGTGGTGTTCGAACGCCTGCCGCTCGACGGGTTCGGCAACCGCATTCCGCTCATGCAGTTCGAAGTGGTGCGGCCGGTCGGCCGGCTGGAAAAATCCATCCGCGCCATCACTGTCATTCCGGGGGCAACGGAACATGGTTACGCCACCGCGCAGGTTTCCGAAAGAACGGGGATAGGCCAAAGCCGCATCATGAACCGCAACGGCCTGACCGCTTCGACCGACTGGGGTGCTGCGATCGACGAGTTGCTGGATCTGTGCCCCAATCTTGAAGGCGTGGCGCTGGTGGTGAGCTGGTTCGGCACGGATATGCGGGCGGGGGAATGCCGCATTCTGCCGGGTGTGGAAGTGGCCGACCGGGATGGGGAAACCATGCCATGGTCCGTCGCCGGCCTTTTGCGCGATGAGGCGCATCCTGTCAGCCATCATGGCGGCGGCCCGGCCTATGGCGGCACGCCGAACGACGAAAGCGTGTTGCAGGCGATAGCCGATCTCAGGGCGCGCGGGCTTCGGGTGTGCCTTTATCCCTTCGTGATGATGGATGTTCCCATCGGCAATGGTCTGCCCGACCCCTACGGCAAAAGTGAACAGGACGCCTATGCCTGGCGCGGGCGCATCACCTGCTTTCCCGCACCCGGCAGGGCCGGCTCTGCGGATCGCACCGCGGGCGTAAGGGCGCAGGTTTCCGCCTTCTGCAACCGCGATGAAGGCTACCGCCGTATGGTGCTGCATTATGCGGCGCTGGCGGCCCGGGCTGGCGGGGTGGATGCTTTCCTGATCGGCTCGGAGCTGCGAGGGCTGACGGCGCTGAGAGACGAGAATGATGCCTTTCCCTTTGTCGAGGAACTGGTGCGGCTGGTTGGCGATGTGCGGGCGATATTGGGGCCGGCGGTGAAGCTGACCTATGCGGCGGACTGGAGCGAATATTTCGGTCACCAGCCGGCGGACGGTTCGGGCGACGTGTTCTTCCATCTCGATCCGCTCTGGGCGAGCCCGAATATCGACGCCATCGGCATCGACAACTATATGCCGCTTTCCGACTGGCGCGACGGGGATGCCGCAAACGGCAATCCCGACGGCATGACCGGCCCGGACGATGTGAGCGCCTTCCGCCGCGCGATCACGGCGGGAGAGGGGTTCGACTGGTATTATGCCAGCGATGCGGACCGCGCCGCGCGGCGGCGCACGCCGATTACCGACGGGCTGAAGGGGAAGCCGTGGGTGTTCCGTTACAAGGACTTGCGCAACTGGTGGGGAAACCTCCACTACGACCGGGTGCGGGGTGTGGAGAAAACCGCGCCGACGGCATGGGCGCCGCGCTCGAAGCCCATCTGGTTCACCGAACTCGGCTGCCCGGCGGTGGACAAGAGCGCGACGCGCCCCAATGTCTTTCCCGATCCGAAATCGGCGGAAAACGCTTTTCCCTATTTTTCCCGCCGCAACCGCGCCGACAGCCAGCAGCGACGGTTTCTGGAGGCGCATCTCGACCATTGGGGAAAGGGCGATGCGGCGATGGTCGATGCAAGCCGGGTCTATCTGTGGACCTGGGATGCACGGCCTTTCCCTGCCTTTCCGCAGAATGGCGCGGCCTGGAGCGATGGGGCGAACTGGCGCGCCGGCCACTGGCTGAATGGGAGGCTGGGCACGGCAACGCTCGCCGATGCCATCGCCGCCATCCTCACCGATCACGGCTTTTCAGACTTCGATGTTTCCGCCGTCAGCGGCGATCTGGGAGGTTATGTGCAGGGAGACGTGACCTCTGCCCGCAACCTCTTGGAGCCGCTGATGGCGGCGTTTCAGGTGGATGTGACGGAAGATGGCGGAACCCTGCGTTTCCGCTCCCGCAATACGGTGGTCTTGCCGGTCCGGGATATTGCCGTGCTGGCCGATCTGGAAGACGAGCCGCTCTGGTCGGAAAATCGCGGCCATGACAGCGATTTCGCGGCTGAAGCCGTGCTGACCTCTTTCAACCCCACGCTGGATTACGAGCAGGCAAGTGTACGGTCCCGGCGCATCGACAATGCCGGCAGCCGGGTGATGCGGCTCGATCTTAACGCTGCCCTGCCTGCGGAAACGGCGGAGGTCGCCGTCGAGGCGTTGTTGCGCGACAACCGGCAGGCGCGGCGCAGCCTGCGCTTTGCTCTGCCGCCTTGCGATATCGCGCTTGAACCGGGTGATTGTATCCGCCTGCCGGAAGGGACCTTTCCGCAGGCGCCGGCAGGGCGGTTTCTGGTCAGCCGGATCGAGGACGGCGCGGTGCGGCAGGTGGAGGCGCGGGCCTTTTCCGCTGCCTTTCCGGTCTTTGCCGGCGGCGCGGAGGAACGGCGCAGCAGCGGCGCAAGCGGAGCCGAAGGTTTCGCGCCGGAAGTGCTGTTTCTCGATCTGCCCTACCATGACGGCACCGCGCCGGAGGATTCGGCGCGGAGTGCGGCGCTTGCAAAGCCCTGGCGGCCAATCATCATTTCCGCGTCGCCGGGCAGTGAAGGTTACCGGCAGCGCGTGCTGCTGGACCGGTCGGCGATGATCGGCGCGCTGGCAATGCCGCTGACATCAGGTCCTTCCGGCCGCTTCGACCGGAAAAACACAATCCTCATCGATCTGCCCTTCGGCGAGGTATCGTCGGCCGGGGAGCTTTCGGTGCTGAATGGCGAGAATCGTCTCGCCATCAAGGCGGCGAACGGTGTGTGGGAAATCGTCGCCTTCGCAAAAGCCGAGGAAATCGCACCCTCGCGCTGGCGGCTCTCCGCTCTTCTGCGGGGACTGGCGGGCACGGAAGACGCGCTCGCCGCGGGCGCGCCGAAAGGTGCGCCGGTGGTGGTGCTGGATGCGGCGGTGCAGCCGCTCGGTCTTGCCGCGAGCGAGCGCGGGCGACGCCTGAACTGGATCGCGGAAGCGGCCGGAATGGCGGGCGCGCCGAGCGGTCCGTTTGCCTTCGAGGGCGGCCTGCGGGCGCTGACACCGCTCGCGCCGGTGCATCTTGCCGCCGAGCGGCGCGGCGACGGCGTTTTCATCAGGTGGAAACGCCGGGGCCGGGTGGAGGCCGACGGCTGGGATGCGAGCGACATCCCGCTGGACGAGCCCTTCGAGCTTTATCGCATCGAGGTGCTGGACGGCGAGACCGTGCGGCGCATGGCGGAGGTTTCGCAACCCTTCTGGTTTTACCCTGCCGCGGACGAACTCACAGATTTCCCGGCTTTGCGGGATCACATTTCCGTGCGTGTCCGAATGCTCGGCCGCGCGGTGCCCTCGGGCGTGGTGGCGCAGGCCACCCTCCCGATCTGA	MATIVFQAAGAALGGIFGPLGAVIGRAAGALAGNAIDRTLLSNGRTVTGARLSTARIPGADEGAAINRLYGAARIGGTLIWATRFEESVEVERRGGKGNRGPKVETFRYFASFAIGLCEGEAERVRRVWADGREMDLSAVEMRFYPGSETQLPDPLIEAKQGAGNAPAFRGLAYVVFERLPLDGFGNRIPLMQFEVVRPVGRLEKSIRAITVIPGATEHGYATAQVSERTGIGQSRIMNRNGLTASTDWGAAIDELLDLCPNLEGVALVVSWFGTDMRAGECRILPGVEVADRDGETMPWSVAGLLRDEAHPVSHHGGGPAYGGTPNDESVLQAIADLRARGLRVCLYPFVMMDVPIGNGLPDPYGKSEQDAYAWRGRITCFPAPGRAGSADRTAGVRAQVSAFCNRDEGYRRMVLHYAALAARAGGVDAFLIGSELRGLTALRDENDAFPFVEELVRLVGDVRAILGPAVKLTYAADWSEYFGHQPADGSGDVFFHLDPLWASPNIDAIGIDNYMPLSDWRDGDAANGNPDGMTGPDDVSAFRRAITAGEGFDWYYASDADRAARRRTPITDGLKGKPWVFRYKDLRNWWGNLHYDRVRGVEKTAPTAWAPRSKPIWFTELGCPAVDKSATRPNVFPDPKSAENAFPYFSRRNRADSQQRRFLEAHLDHWGKGDAAMVDASRVYLWTWDARPFPAFPQNGAAWSDGANWRAGHWLNGRLGTATLADAIAAILTDHGFSDFDVSAVSGDLGGYVQGDVTSARNLLEPLMAAFQVDVTEDGGTLRFRSRNTVVLPVRDIAVLADLEDEPLWSENRGHDSDFAAEAVLTSFNPTLDYEQASVRSRRIDNAGSRVMRLDLNAALPAETAEVAVEALLRDNRQARRSLRFALPPCDIALEPGDCIRLPEGTFPQAPAGRFLVSRIEDGAVRQVEARAFSAAFPVFAGGAEERRSSGASGAEGFAPEVLFLDLPYHDGTAPEDSARSAALAKPWRPIIISASPGSEGYRQRVLLDRSAMIGALAMPLTSGPSGRFDRKNTILIDLPFGEVSSAGELSVLNGENRLAIKAANGVWEIVAFAKAEEIAPSRWRLSALLRGLAGTEDALAAGAPKGAPVVVLDAAVQPLGLAASERGRRLNWIAEAAGMAGAPSGPFAFEGGLRALTPLAPVHLAAERRGDGVFIRWKRRGRVEADGWDASDIPLDEPFELYRIEVLDGETVRRMAEVSQPFWFYPAADELTDFPALRDHISVRVRMLGRAVPSGVVAQATLPI				NA	NA	NA	NA	NA
BMS010_00306	207			hypothetical protein	ATGGACAGTACCAAAGCATGGTATCAATCGCGCACGATCTGGGGCGCTCTGGTTGCGGTTTTCGCACCGCTTTTCAGCATCGCAGGCCTTGATCTGCCCGCCGGTCTGCAAGGAGAACTGGCGGACGGGCTGGTGACGGTTGCGGGCGGAATCGGTGGTCTGGTCGCACTTTATGGCCGTCTTTCGGCGACCAGCGCCATTCGCTGA	MDSTKAWYQSRTIWGALVAVFAPLFSIAGLDLPAGLQGELADGLVTVAGGIGGLVALYGRLSATSAIR				NA	NA	NA	NA	NA
BMS010_00307	255			hypothetical protein	ATGGCATCACCTCTCATCATCGCGACGCTTGCAGCCGGGCTTTCCGGTTTCACGGCGCCCGAGGCTGATCTGCAGGGCCATTACATTCTGGCGGCGAGCGATTGCGGCGCAGCCGTCGCCCGCGTCGTGCGCGAAACCGGCGGTCAGCTGCTTTCGGTCTATCCTTCCGGTGACGGTCAGTCCTGTGTCGTCACCGTTCTCGTCCAGGGCAATGGCGAACGCCCGCGCAAGGTGACGATGCGCGTGCCGATGTAG	MASPLIIATLAAGLSGFTAPEADLQGHYILAASDCGAAVARVVRETGGQLLSVYPSGDGQSCVVTVLVQGNGERPRKVTMRVPM				NA	NA	NA	NA	NA
BMS010_00308	672	phoP		Transcriptional regulatory protein PhoP	ATGCGTATTCTCGTTGTTGAGGACGATGCCAATCTCAATCGTCAGCTGACCGATGCGCTGAAAGAAGCCGGTTATGTTGTCGATCAGGCATTCGACGGCGAGGAAGGCCATTATCTCGGCGATACCGAGCCCTATGACGCCATCGTCCTCGATATCGGCCTGCCGCAGCTCGACGGCATCACCGTCGTTGAAAAATGGCGTGCGGCCGGCAAGGCCATGCCGGTGCTCATCCTCACCGCCCGCGACCGCTGGAGCGACAAGGTCGCCGGTATCGATGCCGGTGCAGATGACTATGTGACGAAGCCTTTCCATGTGGAAGAAGTGCTTGCCCGCGTGCGCGCGCTCATCCGCCGCGCCGCCGGCCATGCTTCTTCCGAACTGGTGTGCGGCCCGGTCCGGCTCGACACTAAATCCTCCAAGGCCACCGTCAACGGCACAACGCTGAAGCTCACCTCGCACGAGTTCCGGCTCCTGTCCTATCTCATGCACCACATGGGCGAGGTCGTCTCGCGCACCGAGCTGGTCGAACACATGTACGATCAGGATTTCGACCGCGATTCCAATACCATCGAGGTGTTTGTCGGCCGTCTGCGCAAGAAGCTCGGTGTTGATCTGATCGAGACGATCCGTGGTCTCGGTTACCGGATGCAAGCGCCGGCAGATGCGAAGTAA	MRILVVEDDANLNRQLTDALKEAGYVVDQAFDGEEGHYLGDTEPYDAIVLDIGLPQLDGITVVEKWRAAGKAMPVLILTARDRWSDKVAGIDAGADDYVTKPFHVEEVLARVRALIRRAAGHASSELVCGPVRLDTKSSKATVNGTTLKLTSHEFRLLSYLMHHMGEVVSRTELVEHMYDQDFDRDSNTIEVFVGRLRKKLGVDLIETIRGLGYRMQAPADAK	PGPT0011060_157	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS|LIPID|IVA_REGULATION,PGPT0011060-phoP-K07660	NA	NA
BMS010_00309	1434	sasA_1		Adaptive-response sensory-kinase SasA	GTGGTCTCGGTTACCGGATGCAAGCGCCGGCAGATGCGAAGTAATTCCCTCACCGCCCGCGTTCTGCTGCTCGCCTCGCTCTGGTCGGTGCTGGCGCTGGTGGTGATCGCCGTCGTGATCTCGACGCTTTACCGGCAGGGGGTGGAGCGCAGCTTCACCGATCTTCTGAGGGCGCAGCTTTATAACGTCATCAATTCCGTGACGATTTCCAACGAGAACACGCTGGCGGGCAGCCCGCAGCTCGGCGATCTGCGCTTTTCGCAGCCCGATACCGGCTGGTACTGGGTTGTCGAGCCGCTCGGCAATTTCCAGACCGCGCCGCTGGTGTCGTCGTCGCTCGGCGTCTCCACCCTGCCGGTGCCGAGCATTCTCGATGCGCCCTTCGACAACCGCTATGAGCGCTTTTATGCCGTCACCGACGAGGCCGGCAATCAGGTGCGCGTGGCGGAAACGGAAGTGGTGCTGGATGGCGAGGGGCGCGCGGCGCGTTTCCGTGTCTCCGGCAATCTGAACGTCGTGGAAGACGATGTGCGTGATTTCTCCAACAGCCTTTATCTGGCGCTCGCCGTTTTCGGTGTCGGCAGTCTGGTCGTCAACGGCCTTGCCATTCTCTACAGTCTGCGACCGCTCGATCAGGCTCGCGTGGCGCTCGGCAAAATCAGGGGCGGGGAGGCGGAAAGCCTCGAAGGTGAATTCCCGCGTGAAATCCAGCCGCTTGCCAATGAGGTCAATGCGCTGATCGACAGCAATCGCCGCCTGGTGGAGCGCGCCCGCATGCAGGTCGGCAATCTCGCGCATTCGCTGAAGACGCCGATCGCCGTTCTTCTGAACGAGGCCCGCACGCTGGAGCCGCAGCATGGCGATCTGGTGCGGGCGCAGGCGGACGCCATGCAGGCGCAGGTGCAATCCTATCTTTCCCGCGCCCGCATCGCCGCCCAGCGCGGCTCCATCCTTGCCCGCGTGGAAGCGGAGCCGGCGCTGGAGCGGCTGGTGCGCGTGATGCGCCGCCTGAACCCCGACAAGCAGTTCGTGCTGAATTTCGAGCAACCCGGCGCGGTGCTCGGTATGGAGCAGCAGGATCTGGAAGAGGTCGTCGGCAATCTTCTGGAAAATGCCGCGCGTTTTGCGCAGACGCGCGTGGTCATCACGCTTGCGGCCGGCACGCACCCATCCTCCGATGCGGAAATTGCCCGTCGCTCCTGGGTGGAGCTGACGGTGGAGGACGACGGGCCGGGGCTTGAGCCGGAACAGATCAGCGAAGCGATGAAGCGCGGGCGGCGGCTGGACGAAAGCCGGCCGGGTACGGGCCTCGGATTGTCGATCGTTTCCGAGGTGGTGTCAGAGTACCATGGCCGCTTTTCGCTGTCGCGCAGCGCCATCTGCGGGCTGAAAGCCGATCTGATTTTGCCGGGCCTTTCGAAAGAGCTTGCGTGA	MVSVTGCKRRQMRSNSLTARVLLLASLWSVLALVVIAVVISTLYRQGVERSFTDLLRAQLYNVINSVTISNENTLAGSPQLGDLRFSQPDTGWYWVVEPLGNFQTAPLVSSSLGVSTLPVPSILDAPFDNRYERFYAVTDEAGNQVRVAETEVVLDGEGRAARFRVSGNLNVVEDDVRDFSNSLYLALAVFGVGSLVVNGLAILYSLRPLDQARVALGKIRGGEAESLEGEFPREIQPLANEVNALIDSNRRLVERARMQVGNLAHSLKTPIAVLLNEARTLEPQHGDLVRAQADAMQAQVQSYLSRARIAAQRGSILARVEAEPALERLVRVMRRLNPDKQFVLNFEQPGAVLGMEQQDLEEVVGNLLENAARFAQTRVVITLAAGTHPSSDAEIARRSWVELTVEDDGPGLEPEQISEAMKRGRRLDESRPGTGLGLSIVSEVVSEYHGRFSLSRSAICGLKADLILPGLSKELA				NA	NA	NA	NA	NA
BMS010_00310	465			hypothetical protein	TTGGTTGACGTGTATGATGGCTGCCGCTCCGTGACAATGCGTTCGCTGGTGTCACGCCCGGCACTTCTCTCGATCCTGTGTGTATCGATGCTGAGCGCCTGCACCACCACGGGCACCCGCCCGGCGGGCGGCGGTCTGTTCGGCCGCTCTGCGCAGCCTTCGACGCCGTTCCTTGCCAATCTGGAAGGCGGCATTGTCGGGAGAAGCGGCGTGCAGCTCGACAGGGGTGACCAGACCAAGGCGCTGGAAGCCGAATACAAGGCGCTGGAAACGGCCCCGGTCGGCACGCCTGTGTCGTGGACCGGCGAGGACGCCAAGGGGCAGGTGGTCGCCAATGCGCCCTATCAGGTCGGCAACCAGAATTGCCGGCAATATTCCCACACCCTGACGGTCGACGGACGCGAAACCAGGGCGCGCGGTGCGGCCTGCCGCAATGCCGATGGAAGCTGGTCGCCGCTGACTTAA	MVDVYDGCRSVTMRSLVSRPALLSILCVSMLSACTTTGTRPAGGGLFGRSAQPSTPFLANLEGGIVGRSGVQLDRGDQTKALEAEYKALETAPVGTPVSWTGEDAKGQVVANAPYQVGNQNCRQYSHTLTVDGRETRARGAACRNADGSWSPLT				NA	NA	NA	NA	NA
BMS010_00311	1164			hypothetical protein	ATGTTCTGGATTGTCGTTGCGATATTGACGGCGGCTGTCGCCATCGTCCTGATGTACCCGCTGATGCGGAAAACCGAGGCGCCTCAGACGCGCCGCGACGGTGAGGTCGCCGTTTATCGCGATCAGCTGGCCGAACTGGACCGCGAACGCGCCGCTGGCCTCATCGGCGACACCGAGGCGGATTATGCCCGCGCCGAAATCGGCCGTCGGCTTCTCGCCGCCGCCGAAGCGGAAGAGCAATCCGGCAAAGAAACCCGGCCGCGCCGGCACAATCTTGCCGCCAGCCTCATCACGGTTCTGCTGCCCGCGCTCGGTCTCTGTCTTTACATCTGGAACGGCAGTCCGGAGGTGCCGGACATGCCGCTCGAGGCGCGTCTTGAAAAGCCCGGCAACGACATGAACCTTCTGGTCGCCCGGGCGGAACGGCATCTCGCGCAGAACCCGGAGGACGGCGCCGGCTGGGATATCCTCGCGCCGATCTATTTCAAGACATTGCGGCTTGGCGATGCCGAGCTTGCCTATCGCAATGCGCTTCGTATTCTGGGACCGAGCCCGGAACGGCTGACGGGCCTTGGCGAAACGTTGGTGGCCGGCAATGACGGCATCGTCATCGAAGCTGCGCGTGCTGCTTTTGCTGAGGCCGAAGAGCTGAAGCCCGGCAATCCGCGCGCCCGCTTCTATCTGGCGCTGTCGCTGGAACAGGCCGGCAAGGCCGAGGAAGCACGCGCCGCCTTCACCGCACTGGCGGCGGATGCGCCCGCCGGTGCGCCGTGGCTGCCGCTGGTTCAAGAGCATATCGCCCGGACCGGCGGCGCGGCGACCCCTGCCGCACCCGGCCCGACCTCTGAGGACATGGCGGCGGCAAAAGACATGACGGCGACCGACCGGCAGGCGATGATCGAGGGCATGGTGTCGAGCCTCGACGCCAAGCTGAAGGAAAACCCCGCCGATTTTGAAGGCTGGATGCGGCTTGTCCGTGCCTATTCCGTGCTGAAGAACGAAGCCAAGGCCGGAGAGGCGTTGCGAGCGGGGCTGAAGGCCTTCCCGCCGGAGGGCGAGCAGGGCCGCCAACTGCTGGCGCTGGCCAAGGAACTGGGCGTCTCCGCCGGACCGATCCGCATGAACGGGCAGCAGGATGCCGCGCCGCAGGGAGTGACGCAATGA	MFWIVVAILTAAVAIVLMYPLMRKTEAPQTRRDGEVAVYRDQLAELDRERAAGLIGDTEADYARAEIGRRLLAAAEAEEQSGKETRPRRHNLAASLITVLLPALGLCLYIWNGSPEVPDMPLEARLEKPGNDMNLLVARAERHLAQNPEDGAGWDILAPIYFKTLRLGDAELAYRNALRILGPSPERLTGLGETLVAGNDGIVIEAARAAFAEAEELKPGNPRARFYLALSLEQAGKAEEARAAFTALAADAPAGAPWLPLVQEHIARTGGAATPAAPGPTSEDMAAAKDMTATDRQAMIEGMVSSLDAKLKENPADFEGWMRLVRAYSVLKNEAKAGEALRAGLKAFPPEGEQGRQLLALAKELGVSAGPIRMNGQQDAAPQGVTQ				NA	NA	NA	NA	NA
BMS010_00312	513	ccmE_1	COG2332	Cytochrome c-type biogenesis protein CcmE	ATGACCCGCAAACAGAAACGCCTGGCGATCATCGGCGGCGGCATGAGCTTCATCGTTGCAGCCGTGCTGCTGGTCATGTTCGCCTTCGGTCAGTCCATTGCCTATTTCTACATGCCGGCCGATCTGGAGAAAACGCCCGTCAACCCCGGCACCCGCATCCGCCTCGGCGGGCTGGTGGCGGAAGGCTCGATCAAGCGCGGCGAGGGCCGCACGGTGAGCTTCACGGTGACCGACGGTGAAGCGAACGTGCCGGTCAGCTATACCGGCATCCTGCCCGATCTTTTCCGCGAAGGGCAGGGCGTGGTGACCGAAGGCATGTTCGATGCCGCGACCCACGGCTTCGTTGCCGACAGCGTACTGGCCAAGCACGACGAGAACTACATGCCGAAGGAAGTGGCAGACCGGCTGAAGGACAAGGGCCTGTGGCAGCACGCGGGGGAAGGCGAAGAACCCGCCGCCGCAACGCCAGCGGCCAGCGCAGCTTCTTCCGACAACACCGGAGCGACCAGATGA	MTRKQKRLAIIGGGMSFIVAAVLLVMFAFGQSIAYFYMPADLEKTPVNPGTRIRLGGLVAEGSIKRGEGRTVSFTVTDGEANVPVSYTGILPDLFREGQGVVTEGMFDAATHGFVADSVLAKHDENYMPKEVADRLKDKGLWQHAGEGEEPAAATPAASAASSDNTGATR				NA	NA	NA	NA	NA
BMS010_00313	1992	ccmF_1	COG1138	Cytochrome c-type biogenesis protein CcmF	ATGATCAACGAGATCGGCCATTATGTTCTGGTTCTGGCGCTCGGTGTGGGGCTGATCGTCTCGACGCTGCCGGTCATCGGCGCGCGCCGCAACGACCGGGCGCTGATGGATGTCGCCTCGCTCGGCTCGGTCCTGATGTTCCTGCTGGTCGCCTTCTCCTTCGCGGCGCTGACGCGAGCCTATGCCGTCTCGGATTTTTCCGTGCGCAACGTCTGGGAAAACTCCCATTCGCTGATGCCGATGATCTACAAGCTCACCGGCGTTTGGGGCAACCACGAAGGCTCCATGCTGCTGTGGCTGCTGATTTTGGTGTTTTTCAGCGCGCTCGTCGCCGCCTTCGGCCGCAACCTGCCGGAAACGCTCAAAGCCAATGTGCTTGCGGTGCAGGCATGGATTTCGGTCGCCTTCCTGCTGTTCATCCTCCTCACCTCCAACCCATTCCTGCGGCTGGAGCCGGTGCCGGCCGAGGGGCAGGACCTCAATCCCATTCTTCAGGATTTCGGCCTCGCCATCCATCCGCCGCTGCTTTACCTCGGTTATGTCGGCTTTTCCGTCTGCTTCTCCTTTGCCGTTGCGGCGCTGCTGGAAGGACGCATCGACGCCGCCTGGGCGCGCTGGGTGCGGCCATGGACACTCGCCGCTTGGACCTTCCTGACCGCCGGCATCTCCATGGGCTCCTACTGGGCCTATTATGAACTCGGCTGGGGCGGCTGGTGGTTCTGGGATCCGGTGGAAAACGCTTCCTTCATGCCGTGGCTTGCCGGAACCGCGCTGCTGCATTCGGCGCTTGTCATGGAAAAGCGCGAGGCGCTGAAGATCTGGACCGTGCTTCTGGCGATCATGACCTTTTCGCTGTCGCTGCTCGGCACCTTCCTCGTCCGCTCCGGTGTGCTCACCTCGGTCCACGCTTTCGCTACTGATCCGAGCCGCGGCATCTTCATTCTCGGCATCCTGACCGTCTTCATCGGCGGCGCCTTCGCGCTCTTTGCCTGGCGCGCGCCGTCGCTCAAGGCCGGCGGCCTGTTTGCGCCGATCTCGCGCGAAGGGTCGCTTGTCCTCAACAACCTCATCCTGACGGTATCGACCGCGACCGTGCTGATCGGCACGCTTTACCCGCTCATTCTGGAAACGCTGACGGGCGAAAAAATCTCGGTCGGTGCGCCTTTCTTCAATCTTACGTTCGGCCTGCTGATGATCCCGATCCTGATCGTCACGCCTTTCGGGCCGATGCTCGCCTGGAAGCGCGGCGATCTTCTCGGAGCCTTCCAGCGACTTTATGTGGCGGCAGCGCTTGCGGCGCTTGCCGGGCTGACACTCTGGTACATCGAAAATGGCGGTCCGGTGCTGGCCGCACTCGGCATCGCCGCCGGTTTCTGGCTGATCTTCGGCGCTTTCGCCGATCTCTGGTATCGCGCCAATTTCGGCAAGCTCGCCTTCGGTATTGCGTTTCGCCGCCTGAAGGGCCTGCCGCGTTCGGCCTTCGGCACGGCGCTGGCGCATATGGGGCTTGGCATCACCGTGCTCGGCATCGTTATCGTCACCACTTTCGAGACCGAGACAGTCTTGGAAATGAAAGAGGGCATGGCGGCGGAAGCGGGCGGTTACAGCCTGACCTTCGATGGCGTCCGCCACGCCGTCGGCCCGAATTTCACCGAGGATCGTGGCCATTTCACCGTGCGCAAGGCGGGGGTGGAGGTGGCCGATGTCTGGTCGTCCAAGCGGCTCTATACCGCGCGACGCATGCCGACGACGGAAGCCGGCATCCTGACCTTCGGCCTCAGCCAGCTTTATGTCTCGCTGGGTGACCCCATGGCCGATGGCGGCATGGTGGTGCGCATCTGGTGGAAACCCTTCATCCTGTGCATCTGGGGCGGCACGCTGTTCATGATGGCGGGCGGTTTCATCTCGCTCTCGGACAGGCGTTTGCGGGTCGGAGCGCCGAATCGCAAGGCGAAGCCGGTGCGGGCTGCAATGCCGGAGGCGGCGGAATGA	MINEIGHYVLVLALGVGLIVSTLPVIGARRNDRALMDVASLGSVLMFLLVAFSFAALTRAYAVSDFSVRNVWENSHSLMPMIYKLTGVWGNHEGSMLLWLLILVFFSALVAAFGRNLPETLKANVLAVQAWISVAFLLFILLTSNPFLRLEPVPAEGQDLNPILQDFGLAIHPPLLYLGYVGFSVCFSFAVAALLEGRIDAAWARWVRPWTLAAWTFLTAGISMGSYWAYYELGWGGWWFWDPVENASFMPWLAGTALLHSALVMEKREALKIWTVLLAIMTFSLSLLGTFLVRSGVLTSVHAFATDPSRGIFILGILTVFIGGAFALFAWRAPSLKAGGLFAPISREGSLVLNNLILTVSTATVLIGTLYPLILETLTGEKISVGAPFFNLTFGLLMIPILIVTPFGPMLAWKRGDLLGAFQRLYVAAALAALAGLTLWYIENGGPVLAALGIAAGFWLIFGAFADLWYRANFGKLAFGIAFRRLKGLPRSAFGTALAHMGLGITVLGIVIVTTFETETVLEMKEGMAAEAGGYSLTFDGVRHAVGPNFTEDRGHFTVRKAGVEVADVWSSKRLYTARRMPTTEAGILTFGLSQLYVSLGDPMADGGMVVRIWWKPFILCIWGGTLFMMAGGFISLSDRRLRVGAPNRKAKPVRAAMPEAAE	PGPT0000484_36	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000484-nrfE-K04016	NA	NA
BMS010_00314	498			hypothetical protein	ATGAGTGCGGCCTTGTTCCGGGGAACAGGAATGAGGGAGAGAGTGGCAAGGCTCGCTCTTCTTCTCACCCTCATCTTCGCAGCAGCCTCTCCGGCCTTCGCGTTCAATCCGGACGAAGTGTTGAAAGACCCCGTGCTGGAGCAGCGCGCCCGCAACCTCACGTCTCAGCTCCGCTGCATGGTCTGCCAGAACCAGTCCATCGACGACAGCAATGCGGAGCTCGCGCGTGACCTGCGGGTTCTGGTGCGCGAACGGCTGGTCGAGGGCGACAGCGACAAGGCCGTCATCGATTATGTCGTGTCGCGTTATGGCGAGTTCGTGCTCCTGAAACCGCGCCTCAGCCTGCGCACCGTGCTTTTGTGGGGCGCGCCCATCGGTCTCACCCTTGCGGGAATTTTCGCCGTCTTCGTGTTTTCGCGCCGTCGCGCCACCCAGGAACAGCCGCAGAAACTGAGCGCGGACGAAGAGATGAGAATTCGCAATCTCATTGAAAAATAA	MSAALFRGTGMRERVARLALLLTLIFAAASPAFAFNPDEVLKDPVLEQRARNLTSQLRCMVCQNQSIDDSNAELARDLRVLVRERLVEGDSDKAVIDYVVSRYGEFVLLKPRLSLRTVLLWGAPIGLTLAGIFAVFVFSRRRATQEQPQKLSADEEMRIRNLIEK	PGPT0006880_1	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROETHANE_DEGRADATION,PGPT0006880-dehH-K01561	NA	NA
BMS010_00315	1569	degP_1	COG0265	Periplasmic serine endoprotease DegP	ATGTCTCATTCGCAAAACGGCAATTCCTCGCTGAAGGCGGCCTCGCTGAAGACGGCTTTGAAGGCCACGACCGTTGGCGGCCTTGCGGCGCTGATGCTTTCCACCGGCATCGCCGCACCGATCCTCCATTCGTTTGCCGCTCCCGTCGAGGTGAATGCGCCGCAGGTTCCGAGCTTCGCCAATGTGGTCGATGCGGTGTCGCCCGCCGTCGTCTCCGTTCGCGTGCAGTCCAACGTGCAGCCCGCTTCCGATGACTCCAGCAATTTCTCCTTTAATTTCGGTGGCCGTGGCCTTGACCAGCTTCCGGATGACCATCCGCTGAAGCGCTTCTTCAAGGAATTCGGCGGCCCCAACCAGGATCGCTCCGACCGTGGCCCGAACCGCCACCGTGACGGCAAGGGTCCGCTGCGCCCCGTCGCTCAGGGCTCCGGCTTCTTCATTTCCGAAGACGGTTACATCGTCACCAACAACCACGTCGTCGATGACGGCTCCGCCTATACGATCGTGATGAACGACGGTACCGAACTCGATGCCAAGCTCGTCGGCCGCGATCCGCGCACCGATCTGGCGCTGCTGAAGGTCGATGTGAACCGCAAGTTCACCTATGTCCAATTTGCCGATGACAGCAAGATCCGCGTTGGTGACTGGGTTGTCGCCGTCGGCAACCCCTTCGGTCTTGGCGGTACGGTGACATCCGGCATTATCTCGGCCCGCGGCCGCGATATCGGCTCCGGCCCCTATGACGACTACCTGCAGATCGACGCCGCCGTGAACCGTGGTAACTCGGGCGGTCCCGCCTTCAACCTCAACGGCGAAGTCGTCGGCATCAACACCGCCATCTTCTCGCCCTCCGGCGGCAATGTCGGCATCGCCTTCGCCATTCCGGCATCGGTCGCCAAGGACGTGATCGCCGACCTGCAGAAGGACGGCAAGGTTGAACGCGGCTGGCTCGGCGTGCAGATTCAGCCCGTCAGCAAGGATATCGCCGAATCGCTCGGCCTTTCCGAAGCCAGCGGCGCGCTCGTCGTTTCGCCGCAGGCCGGCTCGCCGGGCGACAAGGCCGGTATCAAGCAGGGCGACATCATCACCGCCGTCAATGGCGAGCCCGTCAAGGATGCGCGCGACCTGTCGCGCCGCATCGGCGGCATGGCTCCCAACACCAAGGTTGAAATCTCGCTGTGGCGCGGCGGCAAGTCGCAGCCTGTCACGGTAACGCTCGGCGATCTCGCCAGCGACGATGCTTCCAAGGCGACACCGAGCCAGAACGACGACAAGGGCGGCCAGTCCTCCAGCGAGAAGGTGCTCTCCAGCCTCGGCCTGACGGTTTCGCCCGCCGATGACGGCAACGGCCTTGCCATCACCGATGTCGATCCCGACAGCGATGCTGCCGCCCGTGGCCTGAAGACGGGTGAGAAGATCACCTCGGTCAACAACCAGCAGGTCGCTTCCGCCGCCGATATCGAGAAGATCCTCGAACAGGCCAAGAAAGACGGACGCTCCAAGGCGCTGTTCCAGATCCAGACGGACGATGGCAGCCGCTTCATCGCTCTGGATATCGACCAGGGTTGA	MSHSQNGNSSLKAASLKTALKATTVGGLAALMLSTGIAAPILHSFAAPVEVNAPQVPSFANVVDAVSPAVVSVRVQSNVQPASDDSSNFSFNFGGRGLDQLPDDHPLKRFFKEFGGPNQDRSDRGPNRHRDGKGPLRPVAQGSGFFISEDGYIVTNNHVVDDGSAYTIVMNDGTELDAKLVGRDPRTDLALLKVDVNRKFTYVQFADDSKIRVGDWVVAVGNPFGLGGTVTSGIISARGRDIGSGPYDDYLQIDAAVNRGNSGGPAFNLNGEVVGINTAIFSPSGGNVGIAFAIPASVAKDVIADLQKDGKVERGWLGVQIQPVSKDIAESLGLSEASGALVVSPQAGSPGDKAGIKQGDIITAVNGEPVKDARDLSRRIGGMAPNTKVEISLWRGGKSQPVTVTLGDLASDDASKATPSQNDDKGGQSSSEKVLSSLGLTVSPADDGNGLAITDVDPDSDAAARGLKTGEKITSVNNQQVASAADIEKILEQAKKDGRSKALFQIQTDDGSRFIALDIDQG	PGPT0015105_945	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0015105-degP|htrA-K04771	NA	NA
BMS010_00316	759	cusR	COG0745	Transcriptional regulatory protein CusR	ATGGAAAACAAGGTTCAGGAAATGTCTGTCGCATCTGTTTCCGGTTGTGCGGAAAAGGGCGAGGGCGCTATTGTCCCGCACATGAAGATTCTTGTCATTGAAGACGACCTCGAGGCTGCGGCCTATATGACCAAGGCGTTCCGCGAAGCCGGGATCGTCGCCGACCATGCGAGCGACGGTGAGAGCGGCCTGTTCATGGGCTGCGAGAACGCTTACGACGTGATGGTGATCGACCGCATGTTGCCGCGCCGCGACGGACTTTCCGTCATCAGCGAGCTGCGCCGCCGCGGCATCGAGACGCCGGTTCTGATCCTTTCCGCGCTGGGGCAGGTGGATGACCGCGTCACCGGCCTGCGCGCCGGGGGTGACGATTATCTGCCGAAACCCTATGCCTTTTCCGAATTGCTCGCCCGCATCGAGGTGCTGGGCCGCCGCAAGGGCAAGCCCGAGCAGGACATGATCTACCGGGTCGGCGATCTCGAACTCGACCGGCTCTCCCACGATGTCCGCCGCAACGGCAAGGAAATCCTGCTGCAGCCGCGCGAATTCCGCCTGCTCGAATATCTGATGAAGAATGCCGGTCAGGTCGTGACCCGCACCATGCTTCTCGAAAACGTCTGGGACTATCATTTCGACCCGCAGACCAATGTCATCGACGTGCATGTGTCCCGCCTGCGCTCGAAGATCGAGAAGGACTTCGAGAAGCCGCTGCTGAAGACCATTCGCGGCGCCGGTTACATGATGAAGGACGAGGGCTGA	MENKVQEMSVASVSGCAEKGEGAIVPHMKILVIEDDLEAAAYMTKAFREAGIVADHASDGESGLFMGCENAYDVMVIDRMLPRRDGLSVISELRRRGIETPVLILSALGQVDDRVTGLRAGGDDYLPKPYAFSELLARIEVLGRRKGKPEQDMIYRVGDLELDRLSHDVRRNGKEILLQPREFRLLEYLMKNAGQVVTRTMLLENVWDYHFDPQTNVIDVHVSRLRSKIEKDFEKPLLKTIRGAGYMMKDEG	PGPT0004105_1508	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0004105-cusR|copR|silR-K07665	NA	NA
BMS010_00317	1419	sasA_2		Adaptive-response sensory-kinase SasA	TTGGCGAAAATGGCCCGCCTCAGAATAGTGTTCCGGTCGACAGCGGTGCGCCTTTCGGCGCTCTATATTTTGCTGTTTGCGCTCTGCGCCGCCTTCCTGGTCTTTTATGTCACCGCCCTTTCCGAACGGCTGCTGAACCAGCAGACGCGTGACGCCGTGCTTCAGGAAGTTTCGGATGTGCAGCGCATCTATAATCGCGGCGGCATCAACCCGCTGTTGCGGATGATGGAGCGCCGCGCCCGCCAGCCGGGGGCGAGCCTTTACGTCATCGCCGGGCCGAATGGCGAAATCCTTGCCGGCAACGTCGCTTCGGTGCAGCCGGGCGTTTTCGACAAGGAAGGCTGGACCGGTTTTCCTTTCCGTTACGAGCGTTACTCCGAAAGCGGCGACAGCGTGCAGCATCTGGCCACAGCCAATGTCTTCATGCTGGACAATGGCCTGCGCATCCTGATCGGGCGCGACCTCGGCGAACCCACCAAGTTCCGGGCGCTGGTGCGCAACGCGCTGATGGTGGCGCTCGCCATCATGGGCGGCGGCGCGCTGCTCATCTGGTTCGGCATCGGCCGCAACGCGCTGAAACGCATCGACCGCATGTCAGCCGCGACCAAAAAGATCATGGCGGGCGACCTTTCGCAGCGCCTGCCGCAGGGCCGCTCCGGCGATGAATTCGACCGCCTGTCCGGCTCGCTCAACGCCATGCTCGGCCGCATCGAAAAGCTGAATGAAGGCCTGCGGCAGGTCTCCGACAATATCGCCCATGATCTGAAGACGCCGCTGACGCGACTGCGCAACAAGGCGGCCGCAGCGCTTGACGACAATGACGAGACGAAACGGCGCGCAGCGCTTGAAGGCATCATCGCCGAATCCGACCAGCTTATCCGCACCTTTAACGCACTCCTGATGATTTCCCGCGTCGAGGCCGGCTCAATTGCAGCAGAAATGACCGATGTGGACGTCTCGGCGATTGCCGCCGACAGCGCCGAACTCTACGAGCCGGTGGCCGAGGATGCCGGGCTTGTGCTGGAGGCCGAAATAGAGGCTGACCTTTCGGTAAAGGGCAACCGCGAGCTGATCGGCCAGGCACTCTCCAACCTCATCGACAACGCCATGAAATATGCCTGCGAGGGCGAAGGCGATAAAAAACTCGTTGTGCGTCTGGCAAGGGAACCGGAGGCCATCGTGCTCTCCGTCGCTGATAACGGCCCCGGCATTCCCGCCGACAAACGCGGCGAGGTGCTGAAACGCTTCGTCAGGCTGGATGAAAGCCGCTCGAAACCCGGAACCGGGCTCGGCCTGTCGCTGGTGGAAGCCGTGATGGAGCTGCATGGCGGATCGCTGATGCTATCGGACACGGATGCCACGAATGCCGCCCCCCCGGGGCTGACCGTTTCGATGGTGTTTCCCCTTCCGAAACCCTGA	MAKMARLRIVFRSTAVRLSALYILLFALCAAFLVFYVTALSERLLNQQTRDAVLQEVSDVQRIYNRGGINPLLRMMERRARQPGASLYVIAGPNGEILAGNVASVQPGVFDKEGWTGFPFRYERYSESGDSVQHLATANVFMLDNGLRILIGRDLGEPTKFRALVRNALMVALAIMGGGALLIWFGIGRNALKRIDRMSAATKKIMAGDLSQRLPQGRSGDEFDRLSGSLNAMLGRIEKLNEGLRQVSDNIAHDLKTPLTRLRNKAAAALDDNDETKRRAALEGIIAESDQLIRTFNALLMISRVEAGSIAAEMTDVDVSAIAADSAELYEPVAEDAGLVLEAEIEADLSVKGNRELIGQALSNLIDNAMKYACEGEGDKKLVVRLAREPEAIVLSVADNGPGIPADKRGEVLKRFVRLDESRSKPGTGLGLSLVEAVMELHGGSLMLSDTDATNAAPPGLTVSMVFPLPKP				NA	NA	NA	NA	NA
BMS010_00318	426			hypothetical protein	ATGGCAGGCACAATTCCCTTGGCCGTCGACCGGCATCACCCGATCATCCTCTTCGATGCCGAATGTGTGTTGTGTTCCGTGAATGCGCAATTCGTTCTGCGGCATGACAGGCGGGGATACTTCCGGCTCGCATCCATGCAGGGAGAAGCGGGGGCGGAAATCTATCGGCGTCATGGCATGGACCCGAAAAATCCGGTCAGCCTGCTGGTCGTGGATGGCGACAGGGTGCGGCAGGATAGCGACGCCGTTCTGAGCATCTATGAAGCGCTTGGCATGCCCTGGCTGCTGCTGGGCGTCCTGCGCATTGTTCCCGCATTCCTGCGCGATCCCGTCTATCGTTATGTCGCCCGCCATCGATACCGCTGGTTCGGAAAACGCGAAGAATGCTGGGTGGCGCCGCCGGAGTACCGGGAGAGAATCCTTTGA	MAGTIPLAVDRHHPIILFDAECVLCSVNAQFVLRHDRRGYFRLASMQGEAGAEIYRRHGMDPKNPVSLLVVDGDRVRQDSDAVLSIYEALGMPWLLLGVLRIVPAFLRDPVYRYVARHRYRWFGKREECWVAPPEYRERIL				NA	NA	NA	NA	NA
BMS010_00319	1722			hypothetical protein	ATGAAAATATTGATCCTCGGCGGTTATGGTGTGTTCGGCGGTCGGCTGGCGGAACTGCTTGCCGATATGTCCAGCCTTGAAATTCTCGTCTGCGGCCGCAGCGTCGCACGGGCGGAGGCCTTTTGCACAGCCTGGCGCGGACAGGCGCAATTGCGCCCGCTGATGCTCGATCGCCGCGATGTCGCGGACGCCCTGCGCATCCACAAGCCCGATCTTGTCGTCGATGCATCGGGGCCTTTCCAGACCTATGGCAGCGCATGTTACGGCGTGATAACGGCATGCATCGACGCTGGAATAGACTATCTCGATTTCGCCGATGCCGCCGATTTCGTTTTCGGCGTCAGCCAATTCGACGAGCGGGCAAAAGCCGCCGGTGTTTTCGTCCTGTCGGGCGTCAGCAGTTTTCCCGTCCTGACGGCCGCCGTTCTGCGCGAAATGGAAAGGACCATGGACATTCTCGCCGTCGAGGGCGGAATAGCGCCGTCTCCTTATGCCGGGATCGGCCTCAACGTCATGCGGGCGGTCGTGGGTTATGCCGGCGCGCCGGTAAAACTCTGGCGGCATGGCGGGCCGTCGCATGGCGTCGGCCTTGCGGAAAGCAGGCGCTTCACCGTCGCCGTGCCCGGCAGGCTGCCGTTGCGCAATATTCACTTTTCGCTGGTCGATGTGCCGGATTTGCAGGTGATTCCACCGGAACACCCGTCGATGACCGATATATGGATGGGGGCCGGTCCCGTGCCAGAGTTTTTGCACCGCATGTTGAACCTTCTGGCGAAAGCGCGGGCGCGGTTCGGCCTTCCCTCATTCGCGCCGCTATCGCCGCTGTTTCATGCCGTGCTGAACCGGATGCGCTTTGGCGAACATCGCGGCGGCATGTTCGTCCGCGCGCAGGGGCGTGCAGCGGGCAGGCCGATGGAGATGAGCTGGCATTTGCTGGCCGAAGGCGATGACGGTCCCTACATCCCTTCCATGGCGATCGAGGCTATTGTCCGCAAGATGCTGAGCGGCGAGCGCCCGCTGCCCGGCGCACGCGCTGGCACGGATGCGCTGAACCTTGCCGATTACGACCGGCTTTTCCGCAGCAAGACGATCTACACGGGGTTCCGCCGCGAGGAACGCGACGTCCCGCTGTTCCGCCAGCTTCTCGGCCCGGTTTTCGATGACTTGCCGCCGCGCCTGCGGGAACTGCACGACAGCAAGGATCCGCGGCAATGGAGCGGGGTCGCCGAGATACGCCGCGGGCAGGGCATGCTGGCCCGCATGATTTCCGCGCTCGTCGGCTTTCCGCAGGCGGGAAAGCAGATTCCCGTCAGCGTCACCTTCACGCCGGAAAAGGGCAAGGAGCGCTGGACGCGGAATTTCGGCGGGCGGCGCTTCTCGTCCACACAGTCGGCCGGCTTGGGCAAGGATCAATATCTGCTGGCGGAGCGCTTCGGCGTCGTTACCGTCGCTCTGGCGCTGGTGCTCGATGGCGGCCGGCTGGCTCTCATCCCCCGGCGATGGCATCTTCTGGGCGTACCGCTGCCCGGCTTTCTTCTGCCGAAGGGTCAGAGTTTCGAGTCAGAGGAAAACGGCCGGTTCTGCTTCGATGTGGAAATTTCTCTGCCCTTCGTCGGTCTCGTCGTCGCTTATAAGGGCACGCTGGAACCGGCCGCCCGTTCTGCGAAACATCGCGGCCTCGGTGAAACGCCTTGCGGCGCTTCACCGGGTGAGGAGGCGTGA	MKILILGGYGVFGGRLAELLADMSSLEILVCGRSVARAEAFCTAWRGQAQLRPLMLDRRDVADALRIHKPDLVVDASGPFQTYGSACYGVITACIDAGIDYLDFADAADFVFGVSQFDERAKAAGVFVLSGVSSFPVLTAAVLREMERTMDILAVEGGIAPSPYAGIGLNVMRAVVGYAGAPVKLWRHGGPSHGVGLAESRRFTVAVPGRLPLRNIHFSLVDVPDLQVIPPEHPSMTDIWMGAGPVPEFLHRMLNLLAKARARFGLPSFAPLSPLFHAVLNRMRFGEHRGGMFVRAQGRAAGRPMEMSWHLLAEGDDGPYIPSMAIEAIVRKMLSGERPLPGARAGTDALNLADYDRLFRSKTIYTGFRREERDVPLFRQLLGPVFDDLPPRLRELHDSKDPRQWSGVAEIRRGQGMLARMISALVGFPQAGKQIPVSVTFTPEKGKERWTRNFGGRRFSSTQSAGLGKDQYLLAERFGVVTVALALVLDGGRLALIPRRWHLLGVPLPGFLLPKGQSFESEENGRFCFDVEISLPFVGLVVAYKGTLEPAARSAKHRGLGETPCGASPGEEA				NA	NA	NA	NA	NA
BMS010_00320	858			hypothetical protein	ATGAAACAGATTTTTACAGTGAAATTGCAAAAGAACCTGCGCGCGATGGCCCTTTGCCTGACGGCGCTGCCCATGGCGCAGGCCGTCTGCACCCCCGCTTTTGCCGCCGACATCGGCAAATCGGACCGGGTGGCCGATCCGCAGGGCAATTTCGACAATGCCCGCTACAGCAGCTCCAGCGACTGGAAGATCACGCTCGGTGTCGGTGCCGCCTACGCCCCCAAATATGAAGGCTCTGACAAGCTGGAAGCAGGCGCCGTGCCGCTGGTTTCAATCGAATATGGAGATACACTGAGCATCGATTTCAGCGGTGTCACCGTCAACCTTTTGAACCACAACGGCTTCAGGCTGGGTGTGAAGGGCGGCTGGGAAGCCGGGCGCAAGGAAAAGGACGACAGGAAAAACCTGCGCGGAATGGGCGATATCAAGGCGGCCGGCGTGGTCGGCGGCGTCATCGCCTATGGCGTCGACCCCTTCGAAATCTACGCCAAGGTGGACAAGACCATCGACGGCAGCGAAGGCCTGACCGCGACCATCGGCGCCAGCGTCTCGCACAAGGTGGACCAGTTCATCCTGGGCGCCGACCTCTCCGCCACCTGGGCCGACGACAAGCACATGAAATCCTATTTCGGCGTCACCTCGGCCCAGTCCGCCCGCTCGGGCCTGCGCCGCTTCGACGCGAAATCAGGCTTCAAGCGCGTCGACGCCAGCGCCTCCGTCACTTACCTTATGACCGAGAACTGGTCTATCACCGGCACAGGCGGCGTCGGCTTCCTGCTGGGGGATGCCAAGGACAGCCCCCTGTCGAAGAAGGATATTCAGCCGTTTGCGATGGTGGGCGTCGCTTACACGTTCTGA	MKQIFTVKLQKNLRAMALCLTALPMAQAVCTPAFAADIGKSDRVADPQGNFDNARYSSSSDWKITLGVGAAYAPKYEGSDKLEAGAVPLVSIEYGDTLSIDFSGVTVNLLNHNGFRLGVKGGWEAGRKEKDDRKNLRGMGDIKAAGVVGGVIAYGVDPFEIYAKVDKTIDGSEGLTATIGASVSHKVDQFILGADLSATWADDKHMKSYFGVTSAQSARSGLRRFDAKSGFKRVDASASVTYLMTENWSITGTGGVGFLLGDAKDSPLSKKDIQPFAMVGVAYTF				NA	NA	NA	NA	NA
BMS010_00321	2970	glnE_1	COG1391	Bifunctional glutamine synthetase adenylyltransferase/adenylyl-removing enzyme	GTGACGAAACGGGAAACCGCTGAAAGGCGGCTGAGCGAGGTTCTGCCGGGCGTAATCCGCCCCTACACGCAGACGGAACTGAAATCCGTTCTTTCGACGCTGAAGGATATCGGCAAAAGCGAGCCGGCGGTGGCCGCGCTGCTTGCCGGGGAAAGTCCGCTGAAGGATTTTATCGCCGCGGCTTTCACGCTGTCCCCCTATCTGCGTGACATGGCGTCGGCGGATGAGGGGCTTTTGTCGCTGGCGATGTCGAAACCGCTCGAGCCGCTGCTGGCGGGTCTCGTCCATGAGGCGCGCGATTGCTGGAAGCCGGGCGAAGAAGGCGGGGTGCCGAGCGAAAACGAGGTGATGTCGCGGCTGAGGGTGGCCAAGCGGCGGCTCTCTTTCATCGCAGCACTTGCCGATCTGGCGCGCATCTTCACCGCCCGCGATACGACACGCTGGCTGAGCGACATGGCGGATGCATCGCTTTCCGCCGCCATCGATCACCTGCTGCTCGCCGCCCATGAGAGCGGCAAGCTGAAACTGAAGAATGTCGCAGCCCCCAGCGACGGGTCGGGCCTCATCGTGCTCGGCATGGGCAAGCTCGGCGCGCGCGAACTGAACTATTCCTCCGATATCGACGCCGTAGTGTTCTTCGAACCTTCAGCCGGCATCATGGACGATCCCTATGATGCGACGGAGAATTTCGGTCGGATGATGCGCCGCCTGGTCCGCATCATGCAGGAGCGCACGGCCGATGGTTACGTCTTCCGCACCGATCTGCGGCTGCGCCCCGATCCCGGCTCGACGCCGCTCGCCATCCCCGTGGAGGCGGCGCTGCTTTATTACGAGGGCAGGGGGCAGAACTGGGAACGCGCCGCCTATATCAAGGCGCGGCCGGTGGCGGGCGATATCAAGGCGGGTGAGAATTTCCTGCGCGAGTTGACGCCCTTCATCTTCCGCAAATATCTCGATTATGCGGCGATTGCCGATATTCATTCCATCAAGCGGCAGATCCACGCCCATAAGGGCCATGGCGCGATTGCGGTGAAGGGCCACAATGTCAAGCTCGGGCGCGGCGGCATCCGCGAGATCGAGTTCTTCGCGCAGACCCAGCAGCTTATCGCCGGCGGCCGCATGCCGGCGCTCAGGGTGCGCGCAACGCAGGAGGCGCTTGCGGCGCTAACCGAGGCGAAATGGATCGACGCCGAGACGCGCGACAGCCTGACGGAGGCCTATTGGTTCCTGCGTGAGGTGGAGCACCGCATCCAGATGGTGCGCGACGAGCAGACCCATGTGCTACCCGACACCGAAGCCGAACTGAAGCGCATCGCCTTCATGCTCGGTTTCGAGGACACCAAGGCCTTTTCGGAAAAGCTGGAACAGGTGCTGCGGCTGGTGGAGCGGCGTTATTCGGCGTTGTTCGAGCAGGAGGTGAAGCTGTCAGGCGAGGCCGGCAATCTGGTCTTCACCGGCCAGAAGGACGATCCCGATACGTTAAAGACGCTCTCCGCCCTCGGCTTCGAGCGGCCGGAGGATATTTCCCGCGTCATCCGCACCTGGCACAATGGCCGCTACCGGGCGACGCAATCCGTCGAGGCGCGCGAGCGGTTGACGGAGCTGACGCCTGACCTGCTCAGGGCCTTCGGTGAAAGCAAACGCGCCGATGAGGCGCTGCTGCGTTTCGACAATTTCCTCTCCGGCCTGCCGGCCGGCATCCAGCTCTTTTCGCTGCTCGGCAACAACCCGGCGCTGCTTGACCTGCTGGTGACGATCATGTCGTCCGCACCGCGCCTTGCCGAAATCATCGCCGCCCGCCCGCATGTCTTCGACGGCATGCTGGACCCGGCATTGATGAGCGACGTACCGACTCGCGATTATCTCGCCCACCGCATGGGAAGCTTTCTCTCCAACGCCCGGCATTATGAGGATATTCTCGACCGGCTTCGCATTTTCGCCGCCGAACAGCGCTTCCTGATCGGGGTTCGGCTTCTCACCGGCGCAATCCGCGGCGAGGTCGCCGCCCGCGCCTTCACCCACCTTGCCGATCTGGTAATCGAGGCGGCGCTGAATGCGGTTCTGGCGGAGATGGAAGCGGCGCATGGGCCTTATCCCGGCGGGCGCGTGGCTGTCATGGGCATGGGCAAGCTCGGCTCCTTCGAACTGACGGCAGGTTCGGATGTCGATCTCATCCTGCTTTACGATTATGACGACGACGCCCATGAATCGACCGGCGCAAAGCCGCTCGATGTCGTGCGTTACTTCACCCGCGTCACGCAAAGGCTGATTGCGGCGCTTTCCGCACCGACGGCAGAGGGTGTGCTTTACGAGGTGGACATGCGGCTTCGCCCCTCCGGCAACAAGGGGCCGGTGGCGACGCGTATCTCCGCCTTCGAGAAATACCAGCGCGAGGAGGCCTGGACCTGGGAGCACATGGCGCTCTCCCGCGCCCGCCTGATCTGCGGCGATGCCTCGCTGATGGAGGATGCGCGCCGCATCATCGCTTCCATCCTGTCGCAAAAGCGCGATGTGGCCAAGGTCTCGGCCGATGTGCTGGAGATGCGAAACCTCATCGAGCAGGAGAAGCCGCCCGAAAACAACTGGGACTTCAAGCTCATCAATGGCGGGCTGATCGACCTCGAATTCATCGCCCAATATCTGGCGCTGGTGGGGCCGGTGAAGGGGCTTGTCGCGCACGAACCGGGACGCAATACGGCCGAGGCGCTGCAGGCGCTCGCCGCCCATGTCATGGAGCCGCAGGCCTTTGATGATTGCATGGCGGCGATGGCGCTCTACACTGAAATCTCGCAGATCGTGCGGCTGTGCATCGATGGCGCCTTCAACCCGAAGGAGGCGCCGGCGGGCCTCAGCGATCTCGTCTGCCGGGCGGGGGATTGCCCTGACATTCCCACACTGGAGGGAGAGGTGAAGCGGCTGGCGAAAGCGGTGCGGAAGGCGTTTGTGGGGACGGTGAAGAATGGTGGGTGA	MTKRETAERRLSEVLPGVIRPYTQTELKSVLSTLKDIGKSEPAVAALLAGESPLKDFIAAAFTLSPYLRDMASADEGLLSLAMSKPLEPLLAGLVHEARDCWKPGEEGGVPSENEVMSRLRVAKRRLSFIAALADLARIFTARDTTRWLSDMADASLSAAIDHLLLAAHESGKLKLKNVAAPSDGSGLIVLGMGKLGARELNYSSDIDAVVFFEPSAGIMDDPYDATENFGRMMRRLVRIMQERTADGYVFRTDLRLRPDPGSTPLAIPVEAALLYYEGRGQNWERAAYIKARPVAGDIKAGENFLRELTPFIFRKYLDYAAIADIHSIKRQIHAHKGHGAIAVKGHNVKLGRGGIREIEFFAQTQQLIAGGRMPALRVRATQEALAALTEAKWIDAETRDSLTEAYWFLREVEHRIQMVRDEQTHVLPDTEAELKRIAFMLGFEDTKAFSEKLEQVLRLVERRYSALFEQEVKLSGEAGNLVFTGQKDDPDTLKTLSALGFERPEDISRVIRTWHNGRYRATQSVEARERLTELTPDLLRAFGESKRADEALLRFDNFLSGLPAGIQLFSLLGNNPALLDLLVTIMSSAPRLAEIIAARPHVFDGMLDPALMSDVPTRDYLAHRMGSFLSNARHYEDILDRLRIFAAEQRFLIGVRLLTGAIRGEVAARAFTHLADLVIEAALNAVLAEMEAAHGPYPGGRVAVMGMGKLGSFELTAGSDVDLILLYDYDDDAHESTGAKPLDVVRYFTRVTQRLIAALSAPTAEGVLYEVDMRLRPSGNKGPVATRISAFEKYQREEAWTWEHMALSRARLICGDASLMEDARRIIASILSQKRDVAKVSADVLEMRNLIEQEKPPENNWDFKLINGGLIDLEFIAQYLALVGPVKGLVAHEPGRNTAEALQALAAHVMEPQAFDDCMAAMALYTEISQIVRLCIDGAFNPKEAPAGLSDLVCRAGDCPDIPTLEGEVKRLAKAVRKAFVGTVKNGG	PGPT0000655_870	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-GLUTAMATE|GLUTAMINE_SYNTHASE|GLTS_PATHWAY,PGPT0000655-glnE-K00982	NA	NA
BMS010_00322	2337	pleC		Non-motile and phage-resistance protein	ATGACGAACGTGCGGCGGGCGACTGCGGGCGATGAGCGGCCGTATGCCAAATTTTCTGATCTTGCGGCCTGGGGCGAAAGGCTTTCCAGCGACCTGATGGGTTTGATGAATGGCTCCGACCGCCCGATGCCGCAGGTCGAGACCCTGCTGAAACGTCTCATTCCCATTCTCATCCTCGCCTTTCTCGTCGTCGTCGCGGCCTCGCGCATGCTGGGCATCGTTGCCGAATATAGCCGCATGGAAGAGGCCGCCCGCCATTCCACGGCGCTGACGGCGCTGACGGCCAAGGCGGCCCTTCTCAACAACGATACCGTTTTCACCGCGCAGGACCGTGCCCGCGCCGAAGCCAATCTGGTCGCGGCGCTGCCATCCGGCAGCCTTGCCGACGGCACCATGGTGCTTCTTTCGGGCAGCAATGGCCGCATTTTCGCCGGCGCCGGCAAGGAAGCGATGCTTTATATCGGCACGTCGCTGCCGGCTTTGCTTCCTGAAATAGCCATCGTGCAGCGTTTCCCCGGTGCGCCCGGCACCATCGAGACCAATATTGACGGCCAGCAGCACTATGCGACGATGATCCCCTTCGGCGACGACGGCGCGATGGTGATCGCGGCCCGCTCGCTACAGCCGATCCGTTCCTTCTGGCGCAGCGAAATCGCCATGAACGTGACGCTGTTTGCCGGCATCTCCTCGATCCTGCTGGTCGTGCTCTATGCCTATTACATGCAGGTGAAGCGCGCCCGCGACGCCGACGACATCTTCGCCGAATCCAACCTGCGGGTCGAAACCGCGCTGTCTCGCGGCCGCTGCGGCTTGTGGGATTTCGATCTTTCCACCCGACGCATGTTCTGGTCGGGTTCGCTCTACGAAATTCTCGGGCTGCCGCCCAAAGCAGCGCCGCTTTCCTTCTCCGACGCCGCCCGCATGATGCATTCCGAAGACGGCAATCTCTATGAGCTTGCCCGCGCCGTCGGCTGCGGCAACCTGCGCCAGATCGACCAGATCTTCCGCATGCGCCATGCCAAGGGCCATTATGTCTGGCTGCGCGCCCGCGCCCAGGTCATCCGCACCAATAACGGCCCGCGCGTCATCGGCATCGCCATGGACGTCACCGAACAGCACCGTCTTGCGCAACGCTACGCCGAGGCCGACCAGCGCCTTGCCGACGCCATCGAGTCCACCTCGGAAGCCTTCGTGCTATGGGACAAGAACGACCGTCTGGTGATGTGCAACACCCATTACCAGAAGGCCTATGGCCTGCCGGACAGCGTGCTGGTGGCCGGCACGGAAAAAAGCACCGTCTATGCCGCAGCCGCCCGCCCCGTCGTTGAACGTCGCGTTGCCGACCCCGACCAGTCCGGCCTGTCGCGCACCACCGAAGTGCAGCTTGCCGATGACCGCTGGCTGCAGATCAACGAACGCCGCACCCGCGATGGCGGTCTCGTCTCGGTCGGCACCGATATTACCCTTCTCAAGCGCCATCAGGAGCGACTGCGCGATTCCGAGCGCCGGCTGATGGCCACCATCGGCGATCTTTCCGCCTCGCAGCACAAGCTGGAGCGGCAGAAGACCGAGCTTTCCGACGCCAACGCCAATTACCTCGCCGAAAAAGAGCGCGCCCAGGCCGCCAACCGGGCGAAATCCGAATTCCTCGCCAATATGAGCCATGAGCTGCGCACGCCGCTCAACGCCATTCTCGGCTTTTCCGACATCCTGCAAAACGAAATGTTCGGACCGGTCGGTTCGCCGAAATATTCCGAATATGCCCGCGATATTCACGATAGCGGCAAACACCTGCTCAACGTCATCAACGATATTCTCGACATGTCGAAGATCGAGGCGGGCCATATGCGCATCAACCGCGAGACAATCGATCTCGCGCCACTGATCGAAGAGACGCTACGCCTCACTGCCATTCAGGCCGAGCAGAAGAACATCACCGTGCAGCAGAAGGTCTGCGCTGGGCTGACCATGCAGGGCGACCGTCGCGCCATGAAGCAGATCATGCTCAACCTGCTCTCCAACGCCGTGAAATTCACCGGCGACGGCGGCCGCATCGCGCTGCGCACCCATGTGCATCAGGCGGCGATGATCCTCACCATCGCAGACACCGGCATCGGCATTCCCGCCCAGGCGCTCAACAAGATCGGCCAGCCCTTTGAACAGGTGCAGAGCCAATATGCCAAGAGCCAGGGCGGCTCCGGCCTCGGGCTTGCGATTTCCCGCTCGCTCGTCAAGCTGCATGGCGGCACGATGAAAATCCGCTCGTGTGAGGGCCGTGGCACGGTGGTGACGATCATCATTCCGCATGCGGCGGGGTGCTGCGGGACGGTGCATTGA	MTNVRRATAGDERPYAKFSDLAAWGERLSSDLMGLMNGSDRPMPQVETLLKRLIPILILAFLVVVAASRMLGIVAEYSRMEEAARHSTALTALTAKAALLNNDTVFTAQDRARAEANLVAALPSGSLADGTMVLLSGSNGRIFAGAGKEAMLYIGTSLPALLPEIAIVQRFPGAPGTIETNIDGQQHYATMIPFGDDGAMVIAARSLQPIRSFWRSEIAMNVTLFAGISSILLVVLYAYYMQVKRARDADDIFAESNLRVETALSRGRCGLWDFDLSTRRMFWSGSLYEILGLPPKAAPLSFSDAARMMHSEDGNLYELARAVGCGNLRQIDQIFRMRHAKGHYVWLRARAQVIRTNNGPRVIGIAMDVTEQHRLAQRYAEADQRLADAIESTSEAFVLWDKNDRLVMCNTHYQKAYGLPDSVLVAGTEKSTVYAAAARPVVERRVADPDQSGLSRTTEVQLADDRWLQINERRTRDGGLVSVGTDITLLKRHQERLRDSERRLMATIGDLSASQHKLERQKTELSDANANYLAEKERAQAANRAKSEFLANMSHELRTPLNAILGFSDILQNEMFGPVGSPKYSEYARDIHDSGKHLLNVINDILDMSKIEAGHMRINRETIDLAPLIEETLRLTAIQAEQKNITVQQKVCAGLTMQGDRRAMKQIMLNLLSNAVKFTGDGGRIALRTHVHQAAMILTIADTGIGIPAQALNKIGQPFEQVQSQYAKSQGGSGLGLAISRSLVKLHGGTMKIRSCEGRGTVVTIIIPHAAGCCGTVH	PGPT0015895_118	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-CELL_FATE_CONTROL	PUTATIVE-CELL_FATE_CONTROL-1,PGPT0015895-pleC-K07716
BMS010_00323	321			hypothetical protein	ATGACGGATATGTCCAGGACCAGCGCTTCGTTTCAGCGCTTCATGACCGATGCTCCGGCCCACAAGGCGGCATGGTTTCAGGCCGTGCAGGGTCTCGGGGCGGCGTCCACGCTCGATGCGAAAACACAGAGCCTGATCTATATCGGCATTCTTGCCGCCCTGCGTCTTGAAAGCGGTCTCGCCTTTCACGTGATGGAAGCCAAGGTGCGGGGCGCAAGCCGCGACGATATCATCAGTGCGGTGCTGACCGGTCTTCCGGCGGCCGGCAATGGCGTGATCAGCGCGCTTGGCCCGGCTCTCGACGCCTTCGACGGAGCCTGA	MTDMSRTSASFQRFMTDAPAHKAAWFQAVQGLGAASTLDAKTQSLIYIGILAALRLESGLAFHVMEAKVRGASRDDIISAVLTGLPAAGNGVISALGPALDAFDGA				NA	NA	NA	NA	NA
BMS010_00324	2649	pepN_1	COG0308	Aminopeptidase N	ATGCGAACAGACACGGGCCAGATCGTTCACCTGGCAGATTACCGCCCCACCGATTTCGTTCTGGAGCGGGTGGATCTCACCTTCGAACTCGACCCCAAGAATACCAAGGTCGAAGCCCGTCTGATCTTTCACCGGCGCGAAGGCGCCGAGCGGCAGGCGCCGCTGGTTCTGGATGGCGACGAGCTGAAGCTTTCCAGCCTGCTGCTCGACCAGGTGGAACTTCCCGCCGGTCAATATGAGGCGACGCCGGAGAGCCTGACCATCCGCGACCTGCCGGCGGAGGCGCCCTTCGAAATCTGCGTCACCAATTACATCAATCCGCAGGTCAATACGCAGCTGATGGGGCTTTACCGCACCAATGGCGTCTATTGCACCCAATGCGAGGCGGAAGGTTTCCGCCGCATCACCTATTTCCCCGACCGTCCCGATGTTCTGGCGCCCTATACGGTGACGATCATCGCGGCAAAGGACGGCAATCCGCTGCTGCTCTCGAACGGCAATTTTCTCGGCGGCGGCAATTACGATGAAGGCCGTCACTTTGCGGCATGGTTCGATCCGCATCCGAAGCCCAGCTATCTTTTCGCACTCGTCGCCGGCGATCTCGGCGTGGTGGAAGATACCTTCACCACCATGTCCGGCCGCGATGTGGCGCTGAAGATTTACGTCGAGCATGGCAAGGAGCCGCGCGCGGCCTATGCCATGGACGCGCTGAAGCGTTCGATGAAATGGGACGAAGAGCGCTTCGGCCGCGAATACGACCTCGATATCTTCATGATCGTCGCCGTATCCGATTTCAACATGGGCGCCATGGAGAACAAGGGTCTCAACGTCTTCAACGACAAATTCGTGCTGGCAGACCCGGAAACCGCCTCCGATGCGGATTACGCCAATATCGAGCGCATCATTGCGCACGAATATTTCCACAACTGGACCGGCAACCGCATCACCTGCCGCGACTGGTTCCAGCTCTGCCTGAAGGAAGGCCTGACGGTCTATCGCGATCAGGAATTTTCCGCCGACATGCGCTCTCGGCCGGTCAAGCGCATCGCCGATGTGCGCCATCTGAAATCGGAGCAGTTTCCCGAGGATTCCGGCCCGCTGGCGCATCCGCCGCGCCCCGATACCTATCGCGAAATCAACAATTTCTACACGACGACCGTCTATGAAAAGGGCGCCGAAGTCACCCGCATGATCGCCACGATCCTCGGCGCGGACGACTTCAAGAAGGGCATGGACCTCTATTTCGAGCGCCATGACGGCGAAGCCGCCACCGTCGAGGATTTCGTCAGGAGCTTTGCGGATGCCAGCGGCCGTGACCTTTCGCAGTTTTCGCTGTGGTACACCGAAGCGGGCACGCCGCTCGTTTCCGTCTCCTCGGCTTATGATGCGGGCAAGTCCACATTCAAGCTCACTCTGGAACAGACGACCGCGCCGACGCCCGGCCAGCCGGTAAAACAGCCGCGTCACATTCCGCTGTCGCTGGCGCTGATCCTCGACAATGGCCAGATCGCCGAACCGCAGGCCGTCGAAGGCGGCGAATATCGCGACGGCGTGCTGCATCTGGCCGAACGCAACCAGACCTTCTCTTTCTCCGGCATTTCCTCGCGGCCGGTGCTGTCGATCAACCGGAGCTTCTCGGCGCCGATCAATCTGGATTTCGAGCAGAATGCGGCCGATCTGGTACAGATCGCCCGGCATGAGACGGATATGTTCGCGCGCTTTCAGGCGCTGACCGATCTTGCCCTGCCGGCGCTGATTGCCGCCACCAGGGCCGTGCAGAATGGCAATGACGTTCAAACGGATGCGGAGCTGACCGCAACGCTTATCGAAATCATTGGCAACGACGCACTTGAGCCCGCCTTCCGGGCGCAGGCTCTCGCCTTGCCGAGTGAAACGGATATCGCCCGTGAAATGGGCGGCGACAATGACCCGGACGCCATCCACAAGGCGCGCAACGCCACCATCAAGGCCATTGCGACAGCCGGGCTCGAAACGCTGCGGCGGCTTGCCGAAAGCACGGCTGATGGCGAGGCCTACAGCCCGGATGCGGTAAGTGCGGGACGCCGTTCGCTGCGCAACGGCGCGCTGACCTTCCTCGCCTTTGCCGAGGAAACGCCGGCCCGCGCGGCAAAGGCCTTTACTGAGGCCACCAACATGACCGATCTCGCCCATGCGCTCAGCGTGCTGACCCAGCGTTTCCCGGAAAGCACGGAGACAAAGGAAGCGCTTGCCGCCTTCGAAAAGCGCTTTGCCGACAATGCGCTGGTGCTCGACAAGTGGTTCTCGCTGCAGGCAGCCATTCCGGGCGACGGCGCGCTCGACCGGATCAAGGCGCTGATGAAATCGAAACATTTCATCGCCACCAATCCGAACCGGGTTCGCTCGCTCGTCGGCACGCTTGCCTTCGCCAACCCCACCGGCTTCCACCGCGCCGATGGCGCCGCTTACCGGTTCCTGGCGGAGCAGATCATCGCCATCGACAAGCGCAATCCGCAGCTTGCCGCCCGCATTCTCACATCCATGCGCTCCTGGCGGTCGCTGGAGGCAAGCCGTGCCGAGCACGCCAAGGCGGCGCTTTCGACGATCGCCGACGCCAAGGGCCTGTCGACGGATGTGAGCGACATCGTCGGGCGCATCCTGAAGGGCTGA	MRTDTGQIVHLADYRPTDFVLERVDLTFELDPKNTKVEARLIFHRREGAERQAPLVLDGDELKLSSLLLDQVELPAGQYEATPESLTIRDLPAEAPFEICVTNYINPQVNTQLMGLYRTNGVYCTQCEAEGFRRITYFPDRPDVLAPYTVTIIAAKDGNPLLLSNGNFLGGGNYDEGRHFAAWFDPHPKPSYLFALVAGDLGVVEDTFTTMSGRDVALKIYVEHGKEPRAAYAMDALKRSMKWDEERFGREYDLDIFMIVAVSDFNMGAMENKGLNVFNDKFVLADPETASDADYANIERIIAHEYFHNWTGNRITCRDWFQLCLKEGLTVYRDQEFSADMRSRPVKRIADVRHLKSEQFPEDSGPLAHPPRPDTYREINNFYTTTVYEKGAEVTRMIATILGADDFKKGMDLYFERHDGEAATVEDFVRSFADASGRDLSQFSLWYTEAGTPLVSVSSAYDAGKSTFKLTLEQTTAPTPGQPVKQPRHIPLSLALILDNGQIAEPQAVEGGEYRDGVLHLAERNQTFSFSGISSRPVLSINRSFSAPINLDFEQNAADLVQIARHETDMFARFQALTDLALPALIAATRAVQNGNDVQTDAELTATLIEIIGNDALEPAFRAQALALPSETDIAREMGGDNDPDAIHKARNATIKAIATAGLETLRRLAESTADGEAYSPDAVSAGRRSLRNGALTFLAFAEETPARAAKAFTEATNMTDLAHALSVLTQRFPESTETKEALAAFEKRFADNALVLDKWFSLQAAIPGDGALDRIKALMKSKHFIATNPNRVRSLVGTLAFANPTGFHRADGAAYRFLAEQIIAIDKRNPQLAARILTSMRSWRSLEASRAEHAKAALSTIADAKGLSTDVSDIVGRILKG				NA	NA	NA	NA	NA
BMS010_00325	936	cntI_1		Pseudopaline exporter CntI	ATGAACGCCGAACCGATGAATCCCTTTCGCGGGATTAGCCTGAAGCTGATTTCGGTCGGCTTTTTTCTTGTCATGCAGACCTGTATCAAGGCCGCAGGCGATGTACCGGCCGGCCAGATCACCTTCTTCCGCTCCGCTTTCGCCATTCTCCCGATTGTCGTCTATCTGGCGTGGCTGCATGCGCTGACCAGCGCGTTGCACACCAATAATCTTTTCGGCCATTTCAAGCGCGGGTTTCTGGGCATCCTGTCCATGGCCTGCGGCTTTTACGGGCTGACCATGCTGCCGCTGCCGGAATTCATCGCCATCGGTTACGCCTCGCCGCTTCTCGCGGTCGTTTTTGCCGCCGTCATCCTGCATGAAAAGGTGCGCATCTATCGCTGGAGCGCGGTCTTTGTCGGCATGACGGGCGTGCTGGTGATTCTCTGGCCGAAGATGACGCTTCTGAGGGAAGGCGGTTTTGCCGCGGGTGAGGGGCTGGGGGCCATTGCCGTATTGTGCGGTGCGGCGCTCGGCGGTCTGGCGATGATCCAGGTGCGGCAACTGGTGGAGACCGAAAAGACGCCGACCATCGTGCTTTATTTTTCGCTCACCGCCACCCTGCTGTCGCTCGTCAGCGTGCCTTTCGGCTGGAGTGCGTTGAGCATGACGCAGGCCATGCTGCTGATCACGAGCGGCATCTGCGGTGGGGTCGCGCAAATCTTCCTGACGGAGAGTTACCGGCACGCCGAAGTCTCCGTCATCGCGCCCTTCGAATACAGCTCCATCATCTTCGGCATCGCGGTCTCCTACATTCTGTTCGGAGATATTCCCACGGTGACGATGCTGATCGGCACGGCGATCGTTATCCTCGCCGGCATCTTCATCATCTTTCGCGAGCATCAGCTGGGCCTGGCAAGACGGGCGGCCCGCAAGGCCTCGACGCCGCAGGGGTGA	MNAEPMNPFRGISLKLISVGFFLVMQTCIKAAGDVPAGQITFFRSAFAILPIVVYLAWLHALTSALHTNNLFGHFKRGFLGILSMACGFYGLTMLPLPEFIAIGYASPLLAVVFAAVILHEKVRIYRWSAVFVGMTGVLVILWPKMTLLREGGFAAGEGLGAIAVLCGAALGGLAMIQVRQLVETEKTPTIVLYFSLTATLLSLVSVPFGWSALSMTQAMLLITSGICGGVAQIFLTESYRHAEVSVIAPFEYSSIIFGIAVSYILFGDIPTVTMLIGTAIVILAGIFIIFREHQLGLARRAARKASTPQG	PGPT0023680_29	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-SAM|QUEUOSINE|LIPID_METABOLISM,PGPT0023680-sam-K15270	NA	NA
BMS010_00326	192			hypothetical protein	ATGACCACTCGCTTCCGTCCGGTCCATTCCGGCTTTGAAACGCTCCGCCTGGCGGGCCTCGGCCCTCGCTCCAGTCAGGGCTACCATCGTTTCGGCGCAGCCGCAAACGAACAGATGACCGCACGCGCTGCCATGCAGCAGGTTCGCGTGACGCGTCCCTCGGCAGTCTTCGCGGATTTCCGCGAGCGCTGA	MTTRFRPVHSGFETLRLAGLGPRSSQGYHRFGAAANEQMTARAAMQQVRVTRPSAVFADFRER				NA	NA	NA	NA	NA
BMS010_00327	900			hypothetical protein	ATGATCGCCGCTCACGACCTCTCCCCGGCCGAACTCGCCGCCCTCCTGCATTTCCATGCGGATGCGGGCGTGGACTGGCTGCTGGAAGACCAGCCGGTCGATCGTTTCGCCGAATTTGCCGCCGCCCGCCCGGCCCGATCCGCGCCTACGCAGGAGGCCGCAGCAGCTTCACGCCAGATGGAAAGGCCGGCGGACCGCCGTGCCGATGCGCCTCAGCGGCAGGCGGCGACGCGCAGCGCCCCCGCGCGCGGCGCACCGGCTGCCCCCGCCATTCAGCAGAATGTCGCCATGCCGGACGAGCAGGCGGTGGCGGCGGCGCGTTTTGCGGCCGAAAGCGCGCGGTCGCTTGCCGAGCTGAAAACCGCGCTCGACGGTTTCAGTGGCTGCAACCTCAAGAACAGCGCGCGCAATACGATCTTTACCGAAGGCGACCCCGCCTCCGCCATCATGGTCATCGGCCCGATGCCGGATGCCGATGACGACCGCGAGGGCCTGCCCTTCGCCGGCAAGGCCGGGCTGTTGCTCGACCGAATGCTGGCGGCCATCGGGCTTGAGCGCAGTACCATCATGCTCGGCAATGTCGTGCCCTGGCGGCCGCCGGGCAACCGCCCGCCGACTCAGGCCGAAATGGATATCTGCCGCCCCTTCATCGAGCGTCAGATCGCCCTTGCGGAGCCGAAACACCTGTTGCTTCTCGGCAACTTTACCGCACGTTTCTTCTTTGGCGGCACCGGCACCATCCATACGCTGCGCGGACAGTGGCGTGATGTCGCAGCCGGACATCTGATTTTGCCGGCTTTGGCCAGCCTGCATCCGCAGGAACTTTTGAATGCGCCTGCCAGCAAGTCATTGGCATGGCAGGATTTATTGGCTTTTCAGGCAAAGATTGCCGAAGGCTGA	MIAAHDLSPAELAALLHFHADAGVDWLLEDQPVDRFAEFAAARPARSAPTQEAAAASRQMERPADRRADAPQRQAATRSAPARGAPAAPAIQQNVAMPDEQAVAAARFAAESARSLAELKTALDGFSGCNLKNSARNTIFTEGDPASAIMVIGPMPDADDDREGLPFAGKAGLLLDRMLAAIGLERSTIMLGNVVPWRPPGNRPPTQAEMDICRPFIERQIALAEPKHLLLLGNFTARFFFGGTGTIHTLRGQWRDVAAGHLILPALASLHPQELLNAPASKSLAWQDLLAFQAKIAEG				NA	NA	NA	NA	NA
BMS010_00328	1299	dnaK_1	COG0443	Chaperone protein DnaK	ATGACGCAAAAGCGGGCTCTCGGCCTCGATTTCGGCACGACCAACACGGTCATGGCTCTTTCCGACGCGGGCGGTGCCAGCCGTTCCATGCGCTTCACCAGCAGCGCGGGCACGGATGACAGCATGCGCACGGCGCTCTCCTTCATGAAGGATGCCGGCCTTGGTGCGGCCGCCCTGCATGTGGAAGCCGGCCATGCCGCCATCCGGCAATTCATCGACAATGCCGGCGACTGCCGTTTCCTGCAATCGATCAAGACATTTGCGGCCTCGCCGCTGTTTCAGGGCACGCTGATCTTCGCCAAGCGCCAGAGCTTCGAGGATCTGATGGACGTGTTCCTGCGCAAGCTGAAGACCTATGCGGGCGAGGAATGGCCGGGGGATGTCTCCACCGTCATCGCCGGCCGGCCGGTGCGTTTCGCCGGCAGCAATCCGGACGAAACGCTGGCGCTCGCCCGTTACAACGAGGCGCTCACCCGCGCCGGTTTCCCGGAAATCCACTATGTCTACGAGCCGGTGGCGGCCGCCTATTATTTCGCCCAGAGCCTGAAGAAGGACGCCAATGTGCTGGTGGCGGATTTCGGCGGCGGCACGACGGACTATTCGCTGATCCGTTTCGAGACCCATGCCGGCAAGCTTTCCGCCACCCCCATCGGCCATTCCGGCGTCGGCGTGGCGGGCGATCATTTCGACTTCCGCATGATCGACAATCTGGTCTCGCCGGAAATCGGCAAGGGCAGCAAGTTCAAGAGCTTCGACAAGGTGCTGGACGTGCCCTCCGGCTATTACGTGAATTTCGGCCGCTGGAACCAGCTGTCGATCTTCAAGACCTCGAAGGAGTTCACCGACCTGAAATCGCTGGTGCGCTCGGCGCTGGAGCCGGAAAAGCTCGAGCTCTTCATCGATCTGGTCGAACATGACGAGGGTTATCCGCTCTATCAGGCGATTTCCGCCACCAAGATGGCGCTCTCCGCGGCGGAAGAAGCGGAATTCAACTTCGCACCATTGGGCAAGGCCGGCCGCAAGATGGTGAAGCGCAGCGATTTCAACAACTGGATCGCCGAAGACCTCGCCAAGATAGAGGAAGCGCTCGACGAGGTTCTGGAAAAAACGAAAGTCGCGCCCGAAGCCATCGACAAGGTGTTCCTGACCGGCGGCACCTCCTTCGTGCCGGCGGTTCGGGAGCTTTTCACCCGCCGTTTCGACGCCGACCGCATCGAAAGCGGCGGCGAGTTGCTCTCGATTGCCCATGGTCTGGCCATGATCGGCGAAAGCGGCGACATTCAGCGCTGGACAGTGTGA	MTQKRALGLDFGTTNTVMALSDAGGASRSMRFTSSAGTDDSMRTALSFMKDAGLGAAALHVEAGHAAIRQFIDNAGDCRFLQSIKTFAASPLFQGTLIFAKRQSFEDLMDVFLRKLKTYAGEEWPGDVSTVIAGRPVRFAGSNPDETLALARYNEALTRAGFPEIHYVYEPVAAAYYFAQSLKKDANVLVADFGGGTTDYSLIRFETHAGKLSATPIGHSGVGVAGDHFDFRMIDNLVSPEIGKGSKFKSFDKVLDVPSGYYVNFGRWNQLSIFKTSKEFTDLKSLVRSALEPEKLELFIDLVEHDEGYPLYQAISATKMALSAAEEAEFNFAPLGKAGRKMVKRSDFNNWIAEDLAKIEEALDEVLEKTKVAPEAIDKVFLTGGTSFVPAVRELFTRRFDADRIESGGELLSIAHGLAMIGESGDIQRWTV				NA	NA	NA	NA	NA
BMS010_00329	972			hypothetical protein	ATGTCCCGAAAGCCGGCCCGTTCCACCCTCGAAGACGTGTCGCCGGCACAAAACGCCCGCGGCGATGCGGAGAGCTTCAACCGCCATCTCATGGACCTGATGGCGGCGTCCCAGCAGGGTTATGCCCTTTTCGACGGCGAAGATGAACTGCGTTTCGCCAACATGGCGTTCCGCATGGCGCTCGGCATCGGGCCGGACGAATTTCCGACATGGGCCGATCTGATGCGCATCGGTTACCGCAACTCCACCGGCACGGCCGTCGAGACCGCCGATTTCGAATTATGGCTGCGCTCGGCGGGAACGAGGCGCGGCAAGCTGCCGTATCGCACCATTGAAACCAGCCTCAATGACGGGCGCTGGATGCTGACGACCGAGACGACGCTGCCGGGCGGCTGGATGCTTTGCGTCGTCACCGATATTTCCGAACTCGGTGTTGAGCTGCGCGATCTTCGCCAGGAGCGGGACAGGGCGCTGAAATTCGCCCTGAGCGACGAGTTGACCGGCCTCGGCAACCGTCGCTACGTCATGGATATTCTCAATCACAGGCTTGGCCCCAACAAGGCCGAGGCCCTTGCCGTCATCATCATGGACATAGACCACTTCAAGTCGGTGAACGACCGATTTGGCCATGCCTGCGGCGATCTGGTTCTCAAGGACTTCGCCGCCCGACTTTCTGCTGCGGTCGCCCGCGACGATCTCGTGGGGCGGATCGGCGGTGAGGAGTTCCTGCTGATGCTCGCCGGTTCGCGCGTTTTGGGCGTTGAGGCGGTCATGCAGGAAGTGCTGTCATCACTGGCGCAGGCCTCACCGCTCGCAGACATGCCCGGTTTCCGATACAGCTGCTCGGCGGGCATTGCCTTTGCAAATCCGGGCGAGAGCGCAAGCGATGTCCTGCGCCGCGCCGATACCGCCCTCTACGAGGCCAAGAATACCGGCCGGAACCGTTACGTGATCTACGGAGCGGCTTCCTGA	MSRKPARSTLEDVSPAQNARGDAESFNRHLMDLMAASQQGYALFDGEDELRFANMAFRMALGIGPDEFPTWADLMRIGYRNSTGTAVETADFELWLRSAGTRRGKLPYRTIETSLNDGRWMLTTETTLPGGWMLCVVTDISELGVELRDLRQERDRALKFALSDELTGLGNRRYVMDILNHRLGPNKAEALAVIIMDIDHFKSVNDRFGHACGDLVLKDFAARLSAAVARDDLVGRIGGEEFLLMLAGSRVLGVEAVMQEVLSSLAQASPLADMPGFRYSCSAGIAFANPGESASDVLRRADTALYEAKNTGRNRYVIYGAAS	PGPT0025990_549	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-c-di-GMP_SIGNALLING_PATHWAY,PGPT0025990-sadC-K21019	NA	NA
BMS010_00330	789	fabG_1		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGGATCTCGGCATTTCCGGCAAACGCGCCCTCGTTCTCGCCTCCTCTCGCGGCCTTGGGCTGGGCATTGCCACCGCGCTGGCGAAAGAAGGCGCACATGTCCTTCTTGTCGGCAGAAGCGGCGAAAAGCTGGAGGCGAATTGCAAGGCGATCAATGCGCTCGGCAAAGGCAAGGCCGACTGGGTCTGGGGCGATCTGGCCGAGGACAATTTCGTCGAGGCCATGGTTCAGGCCGTCAGGGAAAAGCTCGGCGGCATCGATATTCTCGTCAACAACACCGGCGGCCCGACGCCGGGCCTTGCGCAGGAAATGACGTCCGACAAGCTGGATACCTTCTTCCAGTCGATGGTGCTGCGCGTCATCACGCTCACCAATGCGCTTTTACCGCAGATGAAGGAACAGGGTTTCGGCCGCATCCTGACCGTCGCTTCCTCCGGCGTATTCGAGCCGATCGCCAATCTGGCGCTGTCCAATACGCTGCGCGGCGCACTGGTCGGCTGGAGCAAGACGCTGTCCTCCGAAGTGGCCGGTTTCGGCATCACCTCCAACCTGCTGCTGCCCGGCCGTATCCACACCGACCGCATCGATGAACTCGATGGCGCCAACGCCAAGCGTCTGGGCAAAAGCGTCGAGGAAATTCGCGAGGCTTCCGTCAAGAGCATTCCGGCCGGTCGTCTCGGGACGGTGGAGGAATTTGCCGCCGCCGGCGCTTTCCTCTGCTCGGTGCCGGCAAGCTACATCACCGGCACGATGCTCAGGGTAGATGGCGGCGCGGCGAAGTCGAATTAA	MDLGISGKRALVLASSRGLGLGIATALAKEGAHVLLVGRSGEKLEANCKAINALGKGKADWVWGDLAEDNFVEAMVQAVREKLGGIDILVNNTGGPTPGLAQEMTSDKLDTFFQSMVLRVITLTNALLPQMKEQGFGRILTVASSGVFEPIANLALSNTLRGALVGWSKTLSSEVAGFGITSNLLLPGRIHTDRIDELDGANAKRLGKSVEEIREASVKSIPAGRLGTVEEFAAAGAFLCSVPASYITGTMLRVDGGAAKSN	PGPT0003180_4316	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0003180-ymfI|fabG|efpI-K00059	NA	NA
BMS010_00331	921			hypothetical protein	ATGACAGAACAATCCCTGCTCAAATTCTCCATTGCCGTCACGGTTCTCCTGGCGCTCTTCGGCATCGGCGCAGGCCTGTTCTCCGGCTCCTTCGCCGTGGTTTTCGATGGTGTCGATGCGCTGACGGATGCTTTCATGACGGTGCTGGCGTTGCTTGTCGCGCGGCTGATCGCCGCTTCCGCCGCGCCCAAGCCCGGCGGCCGGCTGGTGGAGCGTTTCACCATGGGCTTCTGGCATCTGGAGCCCACGGTGCTCGGGCTTAACGGCACCCTCCTGATGGGGGCGGCGATCTACGCCCTCATCAATGCCGTCGACAGCCTGATGGATGGCGGCAGATCGATCGAGTTCGATTACGCCATTGTCGTCACCTTCGTCAGCTTCGCCGTCTCGCTCGCCATGGCATGGTTCGTCAAACGGCAGAACCGCCGGCTGAAATCCGCCTTCGTGGCGCTGGACGCCAAAAGCTGGCTGATGAGCGCGCTTTTGAGCATGGCGCTCTTCGTCGCCTTCGCCGTGGGTTACGGGCTCACGGGAACGGCGCAGGCATGGCTGGCACCCTATATCGACCCGGCCGTTCTGGCGCTGGTCTGCCTCGTCATCATTCCCATGCCGCTCGGCAATGTGAAACAGGCGTTGGCGGATATTCTTCTGGTGACCCCGCTGGAATTCAAGCAGCATGTGGACCGAGTGGCCGCCGAGACGGTGGAGAAATTCGGTTTCTCCTCGCACTATTCCTATGTCGCCCGCGTCGGCCGCGGCCGTCAGATCGAACTCTTTTTCATCGTCCCGAAAAACTGGCCGCCCCGGCATCTGGAAGAATGGGACGCGATCCGCGACGAGATCGGCGATGCGCTGGGCGGCGAGGGGAGCGACCGCTGGCTGACGATCGTGTTCACGACGGATGAGGAATGGGCGGTTTGA	MTEQSLLKFSIAVTVLLALFGIGAGLFSGSFAVVFDGVDALTDAFMTVLALLVARLIAASAAPKPGGRLVERFTMGFWHLEPTVLGLNGTLLMGAAIYALINAVDSLMDGGRSIEFDYAIVVTFVSFAVSLAMAWFVKRQNRRLKSAFVALDAKSWLMSALLSMALFVAFAVGYGLTGTAQAWLAPYIDPAVLALVCLVIIPMPLGNVKQALADILLVTPLEFKQHVDRVAAETVEKFGFSSHYSYVARVGRGRQIELFFIVPKNWPPRHLEEWDAIRDEIGDALGGEGSDRWLTIVFTTDEEWAV				NA	NA	NA	NA	NA
BMS010_00332	774			hypothetical protein	TTGAAGCGATTGATTCCAGCGCTGTTGTTATTGTCGTGGTTTGGCGCGATGCCCTTGGTGGCAAAGGCCGATGTCTCTTCCGCCAATCAAAACGAATCGGCCGCAGCATTTCAGGGCCTCGACACGCTCGCGCGGGAAACGCGCGCGCAGGGGGATTTACCGCGATTGTCCAACCCCGCTCATGCGAAGGTGCTGGACCGGCTCTGGAATGTGGAGGGGACCCTTGGCAGGCAGCCATACCGGTCCGCCGATGTTCCAGCGCTCATCGCCATCGGCGCGAATGCGGGCGCCGTTCTTAAAACCTATGCACTGTTTACCCCACAGAACGGCAGCCTTCCGGACACAGCGGCAAATACGTTCAAATACCAGGACGAAATCGCACGCGCCGGAGCCTATCTATTACATGTCCACGCGGCTCAGCTGGAGGCGATTACCGATTTTGTCGCTGTGCTTCCTGCCGATCAGATGAACAAGGCGCGTCGCGATGGCCTGCGCCAGATGCGCCTTGGCATCATGGAGCAGTTTACCGGATTGACCCTTATGCTGCGCTCACCGAATCTGCGATCCGAGAACCGGCTCATTTTGCTGAACGCCCTCAATGCCAGCGCCATTCCCGTGGTCGCCGCGACCTCCCTTGCCGACCGAACCGCCATGGCCACCCAGATCGACACGATTTTGCCGGAACTGTCCGGGCTTGAACACGACAAGGCGCAGGCGCTGAAATCGCTCTTCATGAACCAGAATTGCGACGGGCTTTGCGCTATGGATCAGTAG	MKRLIPALLLLSWFGAMPLVAKADVSSANQNESAAAFQGLDTLARETRAQGDLPRLSNPAHAKVLDRLWNVEGTLGRQPYRSADVPALIAIGANAGAVLKTYALFTPQNGSLPDTAANTFKYQDEIARAGAYLLHVHAAQLEAITDFVAVLPADQMNKARRDGLRQMRLGIMEQFTGLTLMLRSPNLRSENRLILLNALNASAIPVVAATSLADRTAMATQIDTILPELSGLEHDKAQALKSLFMNQNCDGLCAMDQ				NA	NA	NA	NA	NA
BMS010_00333	714			hypothetical protein	ATGAAACTTTCTGCACCGATATTTCAGCTTAAACGCCGTGCAAAGCTGATGGCGCGAAACAATGATGTTCCGCTGAATGAAGCGCTGGATCAGATCGCGCAAGAAGAGGGCTTTGCAAGGTGGAGCATGCTGTCGTCCCGGATATCTTCCGGGCCACTTTCCGAAACGGTACTTTCCCGTCTCGATGCCGGCGACCTGTTATTGCTCGCTGGCCGACCGGGGCAGGGCAAGACCATGCTTGGTCTTCAGCTTCTGATCGATGCGGCCCGGGACGGCCGCAAGGCGTTTCTGTTTACCTTGGAATTGACCGAAAAACAGGCGAGAAAATATCTCCAATCGCTTGAAAAAGAGAATGAAGGCTTCGCCAACCAAGTTCAGATTGTCACTTCCGATGAAATTAGTGCGGACTACATCATCGATCGGATGTCGGGGTCGCGACCGGGAACAGTCGCGGTGATCGACTATCTCCAGGCGCTGGATCAACAGCGGAGCAAGCCCGTTCTTTCCGAGCAGCTACGAGCCCTCGGTGATTTTGCGCGACGGACAGGTTGCGTTCTGGGCTTCATTTCGCAAATCGACAGATCGTTCGATCCGGAAAGCAAGCGGCTTCCCGACATCCGCGATATTCGTCTTCCGAACTTCGTCGATCTCGGCCTTTTTAACAGGGCGTGCTTCCTCCACGACGGCGAAGCGCAGCTTCAGGACGTCACCTGA	MKLSAPIFQLKRRAKLMARNNDVPLNEALDQIAQEEGFARWSMLSSRISSGPLSETVLSRLDAGDLLLLAGRPGQGKTMLGLQLLIDAARDGRKAFLFTLELTEKQARKYLQSLEKENEGFANQVQIVTSDEISADYIIDRMSGSRPGTVAVIDYLQALDQQRSKPVLSEQLRALGDFARRTGCVLGFISQIDRSFDPESKRLPDIRDIRLPNFVDLGLFNRACFLHDGEAQLQDVT				NA	NA	NA	NA	NA
BMS010_00334	1665		COG0644	Electron transfer flavoprotein-ubiquinone oxidoreductase	ATGACGGAAGCGATGGAACTGCCCGAACGCGAAGCGATGGAATTCGACGTTGTGATCGTTGGCGCGGGTCCCGCGGGCCTTGCCGCCGCGATCCGGCTGAAGCAGGTGGAGCCGGAGCTTTCGGTCGTCGTTCTCGAAAAGGGCGCGGAAGTCGGTGCGCATATTCTCTCCGGTGCCGTGGTCGATCCGGTCGGCATCGACAGGCTGCTGCCGGGCTGGCGCGAGGAGGAGGGGCATCCCTTCAAGACCGAGGTGAAGGACGACCAGTTCCTGTTCTTAGGCCCGGCCGGCTCCATTCGCCTGCCGAATTTCATGATGCCGCCGCTGATGAACAATCACGGCAATTACATCGTCTCGCTTGGGCTGGTCTGTCGCTGGCTGGCGGAAAAGGCGGAAGGGCTCGGCGTCGAGATCTATCCGGGCTTTGCCGCAACCGAAGTGCTCTATAATGATGAGGGTGCGGTCATCGGTGTCGCCACCGGCGATATGGGCATCGAAAAGAACGGCGAGCCGGGCCCGAACTTCACCCGCGGCATGGAGCTGCACGGCAAATATGTGCTGATCGGCGAAGGCGTGCGCGGTTCGCTCGCCAAGCAGCTGATTTCCAAATTCGATCTGTCCAGGGATCGCGAACCGCAGAAATTCGGCATCGGCATCAAGGAACTCTGGCAGGTGAAGCCGGAAAAGCACAGACAGGGTCTCGTGCAGCATTCCTTCGGCTGGCCGCTCGGTTTCAAGACCGGCGGCGGTTCCTTCCTCTATCATCTCGAGGATAACCTCGTCGCCGTCGGCTTCGTGGTGCACCTCAACTACAAGAACCCCTATCTTTATCCCTTCGAGGAATTCCAGCGCTTCAAGACGCATCCGGCCATCCGCGAGACCTTCGAGGGCGGCAAGCGCATCTCCTATGGTGCGCGCGCCATCACCGAAGGCGGCTACCAGTCGGTACCTAAGCTGACCTTCCCCGGCGGTGCGCTGATCGGCTGTTCCGCCGGTTTCGTCAATGTGCCGCGCATCAAGGGCAGCCACAATGCGGTGCTTTCGGGCATGCTGGCAGCGGAAAAGATCGCCGCGGCGATTTCCGCCGGTCGCGCCCATGACGAGGTGGCGGAGATCGAGGCCGAATGGCGCGAAGGCGATATTGGCAAGGACCTGAAGCGGGTCAGGAACGTCAAGCCGCTGTGGTCGAAATTCGGCACGCTCATCGGCGTCGGTCTTGGCGGTCTCGACATGTGGACGAACCAGCTGTTCGGCTTCTCCTTCTTCGGCACGCTGAAGCATGGCAAGACGGATGCGCAGAGCCTTGAGCCGGCCGCAAAGCACAAGCCGATCGCCTATCCGAAACCGGATGGCGTGTTGACCTTCGACCGCCTCTCCTCGGTGTTCCTGTCCTCCACCAACCATGAGGAAGACCAGCCGGTGCATCTTCAGGTGAAGGACATGGCGCTGCAGAAATCGTCCGAGCACGACGTCTTTGCCGGCCCTTCGACGCGTTATTGTCCGGCCGGCGTTTACGAATGGGTGGAGAAGGACGGCGAAGAAGTCTACGTCATCAACGCCCAGAACTGCGTGCACTGCAAGACCTGCGACATCAAGGACCCCAACCAGAACATCAACTGGGTGCCGCCGCAGGGCGGCGAGGGGCCGGTTTACGCCAATATGTGA	MTEAMELPEREAMEFDVVIVGAGPAGLAAAIRLKQVEPELSVVVLEKGAEVGAHILSGAVVDPVGIDRLLPGWREEEGHPFKTEVKDDQFLFLGPAGSIRLPNFMMPPLMNNHGNYIVSLGLVCRWLAEKAEGLGVEIYPGFAATEVLYNDEGAVIGVATGDMGIEKNGEPGPNFTRGMELHGKYVLIGEGVRGSLAKQLISKFDLSRDREPQKFGIGIKELWQVKPEKHRQGLVQHSFGWPLGFKTGGGSFLYHLEDNLVAVGFVVHLNYKNPYLYPFEEFQRFKTHPAIRETFEGGKRISYGARAITEGGYQSVPKLTFPGGALIGCSAGFVNVPRIKGSHNAVLSGMLAAEKIAAAISAGRAHDEVAEIEAEWREGDIGKDLKRVRNVKPLWSKFGTLIGVGLGGLDMWTNQLFGFSFFGTLKHGKTDAQSLEPAAKHKPIAYPKPDGVLTFDRLSSVFLSSTNHEEDQPVHLQVKDMALQKSSEHDVFAGPSTRYCPAGVYEWVEKDGEEVYVINAQNCVHCKTCDIKDPNQNINWVPPQGGEGPVYANM				NA	NA	NA	NA	NA
BMS010_00335	741			hypothetical protein	ATGTCCGGCTTTCAAAGGCTGAATATCGTGCGGAAGACAGGATTCGTTGCCGGTGTGGCGGCGCTTGCGATGATTGCGGTTTCTTTCAGCGGCGGTCCGCTGGTGGCCGCAAGCTGCCGTACCGACGCCATGGCCGGCATCGACTGGCGCGAATGCAACAAGCGTCTGCTGATGCTGGGCGGCAGCAATCTCGATTCGGCAATGCTTTACGGCACGGATTTCACCTATACCGACCTGCGCGGTTCATCGCTGAAGGGCGCCAATCTCGAGAAGGCCAAGCTTATCCGCACGGCCCTTGGCGAGGCGAACCTGCAGGGTGCCAATTTGACCAAGGTGGAAGCCTATCGCAGCGATTTTTCCGCCGCCGACGCCACCAACGCCAAATTCGTCAATGCCGAAATGCAGCGGACCAAATTCGAAAACACCAAGCTGGACGGCACGGATTTCACCAAGGCTGAACTCGGCCGCGCCGATTTCGAGGGCGCGACACTGAACGGCTCGAAATTCTCCCTGACCAATCTGTCGCGGGCCCGTTTCGGCGGCGCCAAGCTCGGCGGCCCGGTGGATTTCACCAGCGCATTCCTGCTGCTGACGAGGATCGAAGGGCTCGATCTTTCCATGGCCACCGGCCTTGATCAGAAACAGATCGACATTGCCTGCGGCGACGCCAAGACCAAATTGCCGAACGGCCTCACCGCGCCGGCCTCCTGGCCGTGCCCGGAAGATCCGGACGACGATTGA	MSGFQRLNIVRKTGFVAGVAALAMIAVSFSGGPLVAASCRTDAMAGIDWRECNKRLLMLGGSNLDSAMLYGTDFTYTDLRGSSLKGANLEKAKLIRTALGEANLQGANLTKVEAYRSDFSAADATNAKFVNAEMQRTKFENTKLDGTDFTKAELGRADFEGATLNGSKFSLTNLSRARFGGAKLGGPVDFTSAFLLLTRIEGLDLSMATGLDQKQIDIACGDAKTKLPNGLTAPASWPCPEDPDDD				NA	NA	NA	NA	NA
BMS010_00336	1017			Zinc-type alcohol dehydrogenase-like protein	ATGCGCGCCATCGGTTACAGGACCAGCCAGCCCATCACCGCAAAAGACGCCCTCGTCGATATCGACCTGCCCCAGCCGGAAGCAAAGGGGCACGATATTCTGGTGGAAGTGAAGGCCGTTTCGGTGAACCCCGTCGATACCAAGGTGCGCCGCAACCAGTCGCCTGAAAACGGCGAACCGCGCGTGCTCGGCTTCGATGCGGCGGGCGTGGTGAAGGCCGTCGGCGACAAGGTCTCGCTGTTCAAGCCGGGCGATGAGGTGTTTTACGCCGGTGTCATCAACCGCCCCGGCTCCAACAGCGAGTTCCATCTGGTGGACGAGCGCATTGTCGGCGCAAAGCCGAAGTCCCTGAATTTCGAGGAAGCCGCCGCGCTGCCGCTGACCGCAATCACCGCTTACGAGACACTGTTCGACCGGCTGCGGGTGAAGGAGCCGGTTCCGGGCGCCGCCAACGCCATTCTGGTCATCGGCGGCGCGGGCGGCGTCGGCTCCATCGCCGTCCAGCTTCTGCGGGCGCTGACCGATCTCACCGTCATTGCCACCGCTTCACGGCCCGAGACGATTGCGTGGGTGAAGGAACTCGGCGCGCATCACGTTATCGATCACAGCAAGCCGATCGCCCCGCAGGTGGAGGCGCTCGGGCTCGGTGCGCCGGGCTTTGTCTTCTCCACCACCCATAGCGACATTCATGCCGCCGACAGCGTGGCGACCATCGCGCCGCAAGGCCGCTTCGCGCTGATCGACGATCCGGCCGGCGGTTTCGACGTCATGGCCTTCAAGCGCAAATGCGTATCGATCCATTGGGAAATGATGTTCGCCCGCGCGGTTTTTCAGACGCCTGACATGATCGAACAGCACAGGCTGCTCAACCACGTGGCGGAACTGGTCGATGCCGGCAAGATCAAGACGACGCTGACCGAGGTTTTCGGCACCATCAATGCCGCAAATCTCATCAAGGCGCATGCGCTGATCGAGAGCAACAGGGCCAAGGGCAAGATCGTGCTTTCGGGCTTCTGA	MRAIGYRTSQPITAKDALVDIDLPQPEAKGHDILVEVKAVSVNPVDTKVRRNQSPENGEPRVLGFDAAGVVKAVGDKVSLFKPGDEVFYAGVINRPGSNSEFHLVDERIVGAKPKSLNFEEAAALPLTAITAYETLFDRLRVKEPVPGAANAILVIGGAGGVGSIAVQLLRALTDLTVIATASRPETIAWVKELGAHHVIDHSKPIAPQVEALGLGAPGFVFSTTHSDIHAADSVATIAPQGRFALIDDPAGGFDVMAFKRKCVSIHWEMMFARAVFQTPDMIEQHRLLNHVAELVDAGKIKTTLTEVFGTINAANLIKAHALIESNRAKGKIVLSGF	PGPT0013255_1542	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
BMS010_00337	390			hypothetical protein	ATGTCGCGACCGCGCGCCAAGCTCACCGGCAACTTTCCCGGCTGCCCGGTGGAGTCGGCCTTAAGTTTCCTCGATGGCAAATGGAAGGGCGTGATCCTGTATCACCTCATCAATGAGGGCACGCTGCGCTTCAACGAGCTGCGCCGCCATATTCCGAGTGTCACCCAGCGCATGCTGACGAAGCAGCTGCGCGAACTGGAAGAGGCCGGCCTGATTTCCCGCACCGTCTTCCCGGTGGTGCCGCCGCGCGTGGACTATGCGCTGACACCGCTCGGCGAGACGATGATACCGGTGATTTCGGCGCTGAAAAGCTGGGGCGACGCGCATGTCGTGTGCAGGAACGGCGCGAAATATACCCGCCTTCCCGAGGCGAAGGAAAAGGCCGCCTGA	MSRPRAKLTGNFPGCPVESALSFLDGKWKGVILYHLINEGTLRFNELRRHIPSVTQRMLTKQLRELEEAGLISRTVFPVVPPRVDYALTPLGETMIPVISALKSWGDAHVVCRNGAKYTRLPEAKEKAA				NA	NA	NA	NA	NA
BMS010_00338	837	uppP_1	COG1968	Undecaprenyl-diphosphatase	ATGAGCATCGGTTGGTTGGAGGCCGCATTTCTCGGCTTTTTGCAAGGGCTTACGGAATTTCTTCCGATTTCTTCAAGCGCGCATCTGAGGATCGCCGGGGAGTTCCTGCCCTCCGGCGCGGATCCGGGAGCCGCCTTCACCGCGATTACGCAGATCGGCACCGAAGCGGCCGTGCTGGTTTATTTCTGGTCGGATATCATGCGCATTGCCATCGCCTGGCTCCGGCAGAACTTTCGCCTTGGCGAGTATAACAAGGCCGATGCCCGGCTCGGCTGGCTCATCATCATCGGTTCCGTGCCGATCGTCCTTCTTGGCCTGTTCTTCAAGGATGCCATCGAGCACTCGCTGCGTAACCTTTACATCACCGCCGTGATGCTGATCGTCTTCGGCATCGTTCTCGGCGTTGCCGATAAAATCGGTGAGAAGCGTTACAAGCTGAACCAGCTCATTTGGCGAGACGGCATCCTGTTCGGTTTCGCGCAGGCCATGGCGCTTATCCCCGGCGTTTCGCGCTCGGGCGGCACCATCAGCGCCGGCCTGCTTTTAGGCTATACCCGCGAGGCGGCCGCACGTTATTCCTTCCTGCTCGCCGTTCCCGCCGTCTTCGGTTCCGGTTTTTACCAGCTCTTCAAGAGCATCGGCGAAGACAATCCGGTAGGCTGGGGCCCGACGGGGCTCGCAACCCTGATCGCCTTCGTCGTCGGTTATGCCGTGATCGTCGTCTTCCTCAAACTGGTCTCCACCAAGAGCTACATGCCCTTCGTCTGGTACCGCGTGGTCATTGGCGTTATTCTTTTGGGGCTTTTGGGAACGGGCGTCATCAATGCCGGTGGCTGA	MSIGWLEAAFLGFLQGLTEFLPISSSAHLRIAGEFLPSGADPGAAFTAITQIGTEAAVLVYFWSDIMRIAIAWLRQNFRLGEYNKADARLGWLIIIGSVPIVLLGLFFKDAIEHSLRNLYITAVMLIVFGIVLGVADKIGEKRYKLNQLIWRDGILFGFAQAMALIPGVSRSGGTISAGLLLGYTREAAARYSFLLAVPAVFGSGFYQLFKSIGEDNPVGWGPTGLATLIAFVVGYAVIVVFLKLVSTKSYMPFVWYRVVIGVILLGLLGTGVINAGG	PGPT0024165_1538	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024165-bacA-K06153	NA	NA
BMS010_00339	1377		COG2239	Magnesium transporter MgtE	ATGAACTTCCACAACCTCTCCCAGAGGGCCAGCAAGGCCGCACGTCTTCTTCGTAGCGGAAACGCCGGTTCCTCCACCACCATTGCCGAACGCGTCGAGCACCTCAACACGCTGGATGTCGCCGAGGCCGTAACCGCCCTCCTCGCCATGCCGCAGGCAAAGGCCGTCGCCATTCTCGACCGGCCGGAACTGCATGGCGCCGCCGCCATCATCGCCCATATTCCTGTCGAACAGGCCGCCCGCCTCGTCAATCTGATGTCTGACGACCGCGTTGCCGACGTCATGGCGGAAATGGCCGAAGAGCCGCGCGCAAAGCTGTTTTCCCGGCTGGACCGCACGACGGCGCTCTCCATCCAGCACCTGATGGGTTATCCGCCGCGTACCGCCGGCTCGATCATGACCACCGAATTCGTCAGCGTGCCGGACAATTGGACGGTGGAACAGACCCTTTCGCACATCCGCGTCGTCGAGCGGTCGCGTGAAACGGTCTATGCCATCTATGTGCTGGCTGAGGACGGAACGCTTTCCACCGTCGTGACGCTGCGCCGCCTGCTGACCGGCGAAGCCGGCGCCTCCATCCTCTCCGTCGCATCGAAGGAAGGCATCGTCTGCGCGAGCCCCTTGATGTCGCAGGAGGATGTCGCCCGGCTGATCCGCAAGCACGACCTTCTGGCGCTTCCCGTCGTCGATGACCGCTCGCATATTCTCGGCATCGTCACCGTTGACGACGTGATCGACACCATGATCGCCGACACGACGGAAGACGCCCACAAGTTCGGCGGTATGGAAGCGCTCGGCAAGCCCTATATGACGATCGGCTTTCCGGACATGATCCGCAAGCGCGCCGGCTGGCTCGCAGCACTCTTCCTCGGTGAAATGCTGACGGCCAGCGCCATGCAGCATTTCGAGGGTGAGCTGGAAAAGGCCGTGGTGCTGACGCTGTTCATTCCGCTCATCATGTCGTCGGGCGGTAACTCCGGTTCGCAGGCCACCTCGCTTATCATCCGGGCGCTGGCGCTTGGCGAGCTGAAGCTTTCCGACTGGTGGCGGGTGCTGCTGCGGGAAATCCCGACGGGCCTGACGCTCGGCTGCATTCTGGGCGCCATCGGCTTCCTGCGCCTGACGATCTGGCAGCAGGCCGGTTTCTACGACTACGGCGAGCACTGGCTGCTGGTCGGCGCCACCGTTTTCGCGGCCCTCGTCGGCATCGTCACCTTCGGTTCGCTCGCCGGCTCCATGCTGCCCTTCGTGCTGCAGCGCCTGCGGCTCGATCCCGCCAGCGCCTCGGCCCCCTTCGTCGCGACGCTGGTGGATGTCAGCGGGCTCATCATCTACTTCTCGGTGGCGCTGGTGATCCTCAGCGGTACGTTGCTCTAA	MNFHNLSQRASKAARLLRSGNAGSSTTIAERVEHLNTLDVAEAVTALLAMPQAKAVAILDRPELHGAAAIIAHIPVEQAARLVNLMSDDRVADVMAEMAEEPRAKLFSRLDRTTALSIQHLMGYPPRTAGSIMTTEFVSVPDNWTVEQTLSHIRVVERSRETVYAIYVLAEDGTLSTVVTLRRLLTGEAGASILSVASKEGIVCASPLMSQEDVARLIRKHDLLALPVVDDRSHILGIVTVDDVIDTMIADTTEDAHKFGGMEALGKPYMTIGFPDMIRKRAGWLAALFLGEMLTASAMQHFEGELEKAVVLTLFIPLIMSSGGNSGSQATSLIIRALALGELKLSDWWRVLLREIPTGLTLGCILGAIGFLRLTIWQQAGFYDYGEHWLLVGATVFAALVGIVTFGSLAGSMLPFVLQRLRLDPASASAPFVATLVDVSGLIIYFSVALVILSGTLL	PGPT0013995_1629	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0013995-mgtE-K06213	NA	NA
BMS010_00340	1245	ydhP_1	COG2814	Inner membrane transport protein YdhP	ATGAGCCAGTCGAATATGTCCGAAGCCCGCCCTGGCGCGGAGAATGAAACCGTTTACACGGACGCTCCTGCCGTGGCCCTCTCCCCGCTTGCCATCGCGCTCATCGAACTTGCGCTTGCCGCCGGCGGCTTCGGCATCGGCACCGGCGAATTCGCCATCATGGGCCTGCTTCCCGACGTCGCCACCACCTATGGCGTCACCGTTCCGCAGGCGGGTTATGTCATCACGGCCTATGCGCTCGGCGTCGTCATCGGCGCGCCGATCATCGCGGTTCTCGCCGCGCGCATGACGCGCCGCACCCTGCTTCTTGGCCTGATGGGGCTTTTTGCGGCCGGTAATATCTTGAGCGCCGTCGCGCCGGATTTCCTGAGCTTCACCGTTCTGCGCTTCATCACCGGCCTGCCGCATGGGGCTTATTTCGGGGTTGCGGCGCTGGTGGCGGCCTCCATGGCGCCGATCCACAAGCGCGCCCGCGCCGTTGGCCGCGTCATGCTCGGCCTCACCATCGCCACCCTGCTCGGCACCCCGCTCGCCACCTTCTTCGGCCAGCTGCTTTCCTGGCGGGCGGCCTTCATGCTGGTCGGCGGCATCGCGCTTTTGACGGTGGCTCTGCTCTGGTTCTTCCAGCCGCGTGACAGGGTGGAGGAAGGCGCGAGCGTCTGGCGCGAACTCGGCGCTTTCCGCCGCGTGCAGGTGTGGCTGACGCTCGCCATCGCCGCTGTCGGCTTCGGCGGCATGTTCTCGGTCTTCAGCTATATCGCCAAGACCACCACCGATGTGGCGATGATGCCGGTTTCCACCGTCTCCATGGTGCTGGCGCTGTTCGGCATCGGCATGAATGTCGGCAATGTGGTCGGCTCGCGCTTGGCCGATATCTCGCTCAACGGCACGATTGGCGGCATGCTGGCCTTCAACGTGCTTGTCATGACCGTGTTCGGCATGACGGCGGAAAATCCTTTCATGCTCTGCCTCTGCGTCTTCCTGATCGGCTGCGGTTTCGCCGCCTGTCCGGCCGTGCAGACGCGGCTGATGGATGTGGCGCAGGATGCGCAGACGCTGGCCGCCGCCTCCAACCATTCCGCCTTCAACATCGCCAATGCGCTCGGCGCCTGGCTCGGCGGCCTCGTCATCGCCATGGGTTTCGGTTACGCCTCCACTGGTTATGTCGGCGCGGTTCTTTCCCTTCTCGGGCTTGGCGTTTTCCTTGTTTCCGTCACCGTCGAACGGCGCGAAAAGGCGGCCTGA	MSQSNMSEARPGAENETVYTDAPAVALSPLAIALIELALAAGGFGIGTGEFAIMGLLPDVATTYGVTVPQAGYVITAYALGVVIGAPIIAVLAARMTRRTLLLGLMGLFAAGNILSAVAPDFLSFTVLRFITGLPHGAYFGVAALVAASMAPIHKRARAVGRVMLGLTIATLLGTPLATFFGQLLSWRAAFMLVGGIALLTVALLWFFQPRDRVEEGASVWRELGAFRRVQVWLTLAIAAVGFGGMFSVFSYIAKTTTDVAMMPVSTVSMVLALFGIGMNVGNVVGSRLADISLNGTIGGMLAFNVLVMTVFGMTAENPFMLCLCVFLIGCGFAACPAVQTRLMDVAQDAQTLAAASNHSAFNIANALGAWLGGLVIAMGFGYASTGYVGAVLSLLGLGVFLVSVTVERREKAA	PGPT0028991_465	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0028991-ydhP-K19577	NA	NA
BMS010_00342	909			Putative lipid kinase	ATGAAGCTCATTGCAATTTTCAATCGTGACGGCGGCACCTTTCGCACCACCGACATGGAGGCCTATTGCGACCATGCCCGCGAGGTCTTCACCCGCGCCGGCCACGCCATCGATTGCCGTCTGGTCTCCGGAAAGGATATCGTCGAGGAAATGGAGCGTGCCGCCGATGAGCCGGGCATTGAAGGCATCATTGCCGGCGGCGGTGACGGCACGATTTCCGCAGCAGCCGCCATCGCCTGGAAACACGGCATCGCGCTCGGCATCGTTCCGGCCGGCACCATGAACCTCTTTGCCCGCTCGCTGAAGCTGCCGCTCGATATTCGGCAGGTGCTGGAGACGCTGGCGAATGGCGAGATTGCCAGTGTCGACATCGCCAGCGCCAATGGCCGCCTCTTCGTCCACCAGTTTTCCGCGGGCCTGCATTCGCGCATGGTGCGCTATCGCAACAATCTCGCTTTTGCCTCCCGCCTCGGCAAGATCAAGGCAAGCATCCGCGCCGCCATCAACGTCATCCTCAATCCGCCGGTCTTCGAAGTGGAATATACCGTCAACGGCGAAACGCAGCATCGCAAGGTCTCGGCCATTTCCGTCTCCAACAATGAATTCGGCCAGAGCTCGCTGCTGGTGGCGGATAATGTCTCGGGCGGCCATCTCGGCTTTTATCTCACCGACCCGTTGCGTCCTTCCGGTGTCGCGAAGCTCGCTTTCGACATTCTGCGCGGCAGGCTGAAAGAAAACGCCGCCGTGACCGCCATGACCGTGACGGATGTGGAACTGCATTTTCCGAAGAAACGCCATGACCTGCGCTGCGTCATCGATGGCGAATTGCTGCCGATGGAGCGGGATGTGGCGCTCGAAGTCCATGCCGGCGAATTGAAGGTGCTTGTGGGTCGGTCGTTCTTCGCATAG	MKLIAIFNRDGGTFRTTDMEAYCDHAREVFTRAGHAIDCRLVSGKDIVEEMERAADEPGIEGIIAGGGDGTISAAAAIAWKHGIALGIVPAGTMNLFARSLKLPLDIRQVLETLANGEIASVDIASANGRLFVHQFSAGLHSRMVRYRNNLAFASRLGKIKASIRAAINVILNPPVFEVEYTVNGETQHRKVSAISVSNNEFGQSSLLVADNVSGGHLGFYLTDPLRPSGVAKLAFDILRGRLKENAAVTAMTVTDVELHFPKKRHDLRCVIDGELLPMERDVALEVHAGELKVLVGRSFFA	PGPT0014657_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0014657-bmrU-NA	NA	NA
BMS010_00343	1377	spuC_1	COG0161	Putrescine--pyruvate aminotransferase	ATGAATGAAATCTCCAAGCCGATGTCCAATCTCGCCGCCATCGATGCCGCCCATCACCTCCACCCCTTTTCCGACATGGGCAAGCTCAACGCCGCCGGCACCCGCATCATCGAGCGCGCTGAAGGGGTGTTCATCTATGACAGCACCGGCAAGAAATATCTCGACGCCTTTGCCGGCCTCTGGTGCGTGAATATCGGCTACGGACGCCGCGAGATCGCCGATGTGGTGCAGCGCCAGATGAACGAACTGCCCTATTACAACGCGTTTTTCGGCACCACCACGCCGCCCGCGACACTTCTGGCGCAGAAGATCGCCTCGCGCGCCGGGCCGAAGATGAACCATGTCTTCTTCACCAATTCCGGTTCGGAAGCGACCGATACCTGGTTCCGCATGGCGCGCGTCTACTGGAAGGCGCTCGGCCATCCGACGAAGACCAGGGTAATCTCAAGACGCAACGGATATCACGGCTCGACGGTGGCGGGCGCTTCGCTCGGCGGCATGAAATGGATGCATGAGCAGGGCAACCTGCCGATCGAGGGCGTCGCCCATATCGGCCAGCCCTATTGGTATGCCGAGGGCGGCGATCTTTCACCGGCCGAATTCGGACTGAAGGTGGCGCGCGAACTGGAAGCGAAGATCGATGAACTCGGCGAGGAAAATGTCGCCGCTTTCGTGGCCGAACCCATTCAGGGTGCGGGCGGCGTCATCGTGCCGCCGGAAACCTACTGGCCGGAAATCGCCCGCATCTGCAAGGCGCGCAACATCCTGCTCGTCTCCGATGAGGTGATCTGCGGCTTCGGCCGTCTCGGCTCCTGGTTCGGTTATCAGCATTTCGGCGTGGAGCCGGATTTTGCGCCCGTCGCCAAGGGGCTGTCTTCCGGTTACCTGCCGATTGGCGGCGTCATCGTCTCGGATCATGTGGCGGAGGTGATGTTGTCTGAGGTCGGTGACTTCAACCACGGCTTCACCTATTCCGGCCATCCCGTCTGCGCCGCCGCCGCCCTGGAAAACCTCCGCATCATTGAGGAGGAGGGACTGGTGGAACGGGTATGCGACGATATCGGCCCTTATTTCTCCGAGGGCTGGAAAAGCCTGACGGATCACGAACTGGTCGGCGAGGTGGTGAACGTCGGCCTGATGGGCGGCCTGCAGATTACCGCCGACAAGGCGACGCGCCGGCGTTTCGCCAAGCCGGACGACATCGGAACCGCCGTGCGCAACCATTGCCTGGCAAACGGCCTCGTCATGCGCGCCACCGGCGACCGCATGCTGGCCTCACCGGCACTGACGATCAGCCGCTCGGAAGTGGATGAGATCATAGAAACGCTGCGCAAGGGGCTCGACCACCTGCGCGATACGCGGGAGCATTTCCAGTAA	MNEISKPMSNLAAIDAAHHLHPFSDMGKLNAAGTRIIERAEGVFIYDSTGKKYLDAFAGLWCVNIGYGRREIADVVQRQMNELPYYNAFFGTTTPPATLLAQKIASRAGPKMNHVFFTNSGSEATDTWFRMARVYWKALGHPTKTRVISRRNGYHGSTVAGASLGGMKWMHEQGNLPIEGVAHIGQPYWYAEGGDLSPAEFGLKVARELEAKIDELGEENVAAFVAEPIQGAGGVIVPPETYWPEIARICKARNILLVSDEVICGFGRLGSWFGYQHFGVEPDFAPVAKGLSSGYLPIGGVIVSDHVAEVMLSEVGDFNHGFTYSGHPVCAAAALENLRIIEEEGLVERVCDDIGPYFSEGWKSLTDHELVGEVVNVGLMGGLQITADKATRRRFAKPDDIGTAVRNHCLANGLVMRATGDRMLASPALTISRSEVDEIIETLRKGLDHLRDTREHFQ	PGPT0007865_94	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007865-spuC-K12256	NA	NA
BMS010_00344	471			hypothetical protein	ATGGCAGGACAGGAACATCATTACGCCGTTCAGGTGAAATGGACGGGCAATCGCGGCAAGGGAACGTCGGGCTATCGCGACTATGAACGCGACTACACGATTTCCACTTCGGGAAAAGCTGATATCGCCGGCTCTTCCGACCCCGCCTTCCGCGGCGATCCCTCCCGCTGGAACCCGGAAGACCTGCTGGTCGCCTCGCTCTCGGCCTGCCACAAGCTGTGGTACCTGCATTTCTGCTCGGTCAACGGCATCATCGTTGAAGACTATGTCGACAATGCCGAAGGCACGCTGGTGATGGAAAAGGATGGCGCGGGGCAATTCAGCGAAGTGGTGCTGAAGCCGGTCATCACCATTTCAAAGGGGGATGCCGCCCGGGCGGATGAGCTGCACCATGATGCGCATGACAAATGCTTCATTGCGCGCTCCGTGAATTTTCCGGTGCGGGTGGAAGGGACGGTGAAGGTGGTTTGA	MAGQEHHYAVQVKWTGNRGKGTSGYRDYERDYTISTSGKADIAGSSDPAFRGDPSRWNPEDLLVASLSACHKLWYLHFCSVNGIIVEDYVDNAEGTLVMEKDGAGQFSEVVLKPVITISKGDAARADELHHDAHDKCFIARSVNFPVRVEGTVKVV				NA	NA	NA	NA	NA
BMS010_00345	390		COG1487	Ribonuclease VapC11	ATGATCGTAGCAGATAGCTCTGCCTGGATTTCACTTATTCGAAAAGACGCGCCTACCCTCTCCGCCAAGTTTCGCGCCTTAATGGCGCAGGGCGAAATTCTGATCGGCGATATCATTCTTCTTGAGGTGCTTAGAGGCGCGCGTGACGGTCATCATGCGCGCCGACTTGAGCAGATGCTGGGCGAATTTCCCTGCGTCGCGATGATGTCGCCCCAGCTCGCCATCAAGGCCGCCGCCAATTACCGCTTCCTGCGGGAGCGCGGCTATACGATCAGAAAAAGCAACGACCTCATTATCGGTACCTACTGTATCGAGCACGGGCACAAGCTGTTGCAAAATGACCGAGACTTTCAGCCGATGGCCGATCATCTCGGTCTGCGCCTGGCGTGA	MIVADSSAWISLIRKDAPTLSAKFRALMAQGEILIGDIILLEVLRGARDGHHARRLEQMLGEFPCVAMMSPQLAIKAAANYRFLRERGYTIRKSNDLIIGTYCIEHGHKLLQNDRDFQPMADHLGLRLA				NA	NA	NA	NA	NA
BMS010_00346	231		COG5450	Antitoxin VapB11	ATGCGCACCAACATTGAACTAGATGACGCCTTGCTCGCCGAGGCGATGGAAATCACCGGTCTTTCGACAAAAAAGGCGACAGTGGAAAAGGCGTTGCGCGATCTGGTGCGCATTCATCGTCAGATGCGCGCCCTCGATGCGTTGGAGGGCATGGGCTGGGAAGGTGATCTGGACGAGATGCGGACGGATTGGGATGCTGAGACGGACTGGGATGTGAAGAACGCCAAATGA	MRTNIELDDALLAEAMEITGLSTKKATVEKALRDLVRIHRQMRALDALEGMGWEGDLDEMRTDWDAETDWDVKNAK				NA	NA	NA	NA	NA
BMS010_00347	1506	amn_1	COG0775	AMP nucleosidase	ATGACAATAGCAAAACGAACGATTCCGCCCCTCACCTTCATCAGCCCCGAGCCTTTCGCGCCGCAGTCCTTCACGGACCCGAAAGAAGCTGTGGCGGCTTTGACCGCGCTTTACGAACGCAATACGGCGTTCCTGATCAATTCCTTCACCGAGCTTGCCAAGGGCGCGCCGATTGCCGGGCGCTACCGCGCCTGCTATCCGCAGGTGAGCCTTGAGACCGCCACCTTCGGCCATGTCGATTCGCGTCTCTCCTACGGCCATGTCACCGCCCCCGGCGTTTACACGACGACCATCACCCGGCCGGAGCTTTTCCGCCATTACCTTAAGGAACAGCTGGGGCTTCTAATGAAGAACCACGGCGTTCCGGTCACGGTTTCGGAATCGGCCACGCCCATTCCGCTGCATTTCGCTTTCGGCGAAGGCGCCTATGTCGAGGCGGCGGCGGCCTCCTCGCTGTCCGACGTGCCGCTGCGCGATCTGTTCGATACGCCCGACCTCAACAATACCGACGATCTCATCGCCAATGGCGAATATGATCAGGTGCCGGGCGAACCCGCGCCGCTCGCGCCCTTTACCGCGCAGCGCATCGACTATTCTCTGGCCCGCCTCAGCCACTATACGGCGACGAGCGCCAACCATTTCCAGAACTTCGTGCTGTTCACCAACTACCAGTTCTATATCGATGAATTCGCCGCATGGGCGCGTCAGTTGATGAAGAATGGCGGCGAGGGTTACACGGCTTTCGTGGAGCCGGGCAATATCGTCACCCCCGCCGGTTGCGACAAGCCGGAAACGGATGCCGTGCTCGCGCGCCTGCCGCAGATGCCCGCCTATCACCTGAAGAAAAAGGGCCATGCCGGCATCACGCTGGTCAATATCGGCGTCGGCCCCTCCAACGCCAAGACGATCACCGACCACATCGCCGTGCTGCGCCCGCATGCCTGGCTGATGGTTGGCCACTGCGCTGGCCTGCGCAACAGCCAGCGGCTTGGCGATTATGTTCTGGCGCATGCCTATGTGCGTGAGGACCACGTTCTGGATGACGACCTGCCGGTCTGGGTGCCGATCCCGGCGCTTGCCGAAGTGCAGCTGGCGCTGGAAGGCGCCGTGGCGGAAGTTACCGGCTACGAGGGCTTCGAGCTGAAGCGCATCATGCGCACCGGCACCGTCGCCACCATCGACAACCGCAACTGGGAGCTTCGCGATCAGGCCGGTCCCGTCAAGCGCCTGTCGCAGTCCCGCGCCATAGCACTCGACATGGAATCGGCCACCATCGCCGCCAACGGCTTCCGCTTCCGCGTGCCCTACGGCACCCTGCTCTGCGTTTCCGACAAGCCGCTGCATGGCGAACTGAAACTTCCGGGCATGGCGACGGAGTTTTACCGCACCCAGGTCGCCCAGCATTTGCAGATCGGCATCCGCGCCGTGCAGAAGCTTGCCGCCATGCCGACCGAAACGCTGCATTCGCGCAAGCTTCGAAGCTTTTACGAGACGGCGTTCCAGTAA	MTIAKRTIPPLTFISPEPFAPQSFTDPKEAVAALTALYERNTAFLINSFTELAKGAPIAGRYRACYPQVSLETATFGHVDSRLSYGHVTAPGVYTTTITRPELFRHYLKEQLGLLMKNHGVPVTVSESATPIPLHFAFGEGAYVEAAAASSLSDVPLRDLFDTPDLNNTDDLIANGEYDQVPGEPAPLAPFTAQRIDYSLARLSHYTATSANHFQNFVLFTNYQFYIDEFAAWARQLMKNGGEGYTAFVEPGNIVTPAGCDKPETDAVLARLPQMPAYHLKKKGHAGITLVNIGVGPSNAKTITDHIAVLRPHAWLMVGHCAGLRNSQRLGDYVLAHAYVREDHVLDDDLPVWVPIPALAEVQLALEGAVAEVTGYEGFELKRIMRTGTVATIDNRNWELRDQAGPVKRLSQSRAIALDMESATIAANGFRFRVPYGTLLCVSDKPLHGELKLPGMATEFYRTQVAQHLQIGIRAVQKLAAMPTETLHSRKLRSFYETAFQ	PGPT0021500_159	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021500-amn-K01241	NA	NA
BMS010_00348	174			hypothetical protein	ATGACGACAAGTTTTTCCAACGGCCTGTTTTCCGCGCTGCGGCTGGTGCTGATGGCGTCGATCTTTCTCGGTCCGGTCGCCGGACTTGCGGTTTACAAGGCCGATCCCCGCCCCGCCTCCAAGGGCGCCGGCTTCGTGCTTTTGATGAGCCTGCAGCGCGGCGCGCTCGGCTGA	MTTSFSNGLFSALRLVLMASIFLGPVAGLAVYKADPRPASKGAGFVLLMSLQRGALG				NA	NA	NA	NA	NA
BMS010_00349	177			hypothetical protein	ATGGCAAAGCTGATCAGCCGACTGGCAATCTTCGCGTTTCTCATGGCGATCTTCGCCATGTCCTTCGCCTCGCTCGTCGTTAATCCGAACCGCAGTTTCCAGCGGGTGAATGCAGGCGCGGCAATCGCCTGCCAGCACAGCCCCTCGCCCGCCGCCAATTGCCCCGTCGTGTTGTGA	MAKLISRLAIFAFLMAIFAMSFASLVVNPNRSFQRVNAGAAIACQHSPSPAANCPVVL				NA	NA	NA	NA	NA
BMS010_00350	597			hypothetical protein	ATGCGCCCCACCCTTTCGACAATCCTGATTGCGGGCACCTCGCATGTCGGCAAAAGCACCCTTGCCGGCCTGCTGAGCGAAAGGCTGCGCTGCGAGGCAATATCGACCGACAGTCTCGCCCGCCATCCGGGCAGGCCATGGCCGGGCATTCCGGCACCGGTGGAAGAATATTACACACGGCTCTCGGCGGAAACGATCCACTGGTTCCTGAAGATACATCATCAGAACATTTGGCCGCTGATCCGCACGATGATCGATAGCAGGTCCGGCACCGGCACTCCCACGATCTTCGAGGGGGCGGCGCTGCGGCCGGAATTCATCTCGCCCCTGCTTGGCGGCGAGGTCGCCGGTGTCTTTCTCCACGCCGGCAATGATTTTCTTCTCGAGAGAATGCGCTCTCACGCCCGCTACGAAGATGCAGCGGCTGAGAAGCGGCGGATCATCGACGCCTTTATCGAGCGTTCGTTGCGGGAAAACACGGACATGCTGGCATCCGCGCAGGAGCACCGCGTGCCGGTTGTCGATGTGACGCAGCCTCAGGCATTCGAGACCCTGCTGACCGATCTTGCGGCACGTGCGGAAGCCGCTCTGTCCTGA	MRPTLSTILIAGTSHVGKSTLAGLLSERLRCEAISTDSLARHPGRPWPGIPAPVEEYYTRLSAETIHWFLKIHHQNIWPLIRTMIDSRSGTGTPTIFEGAALRPEFISPLLGGEVAGVFLHAGNDFLLERMRSHARYEDAAAEKRRIIDAFIERSLRENTDMLASAQEHRVPVVDVTQPQAFETLLTDLAARAEAALS				NA	NA	NA	NA	NA
BMS010_00351	204			hypothetical protein	ATGCCGCTTGCGCCCGCAGTCTCGAACGTAATCCTTGGGCAGCGCACCGTACCGTCAGGCGCGGGACCGCAGGCGGCAGGACATAAGCCCGCCCGCCGCCCTGTCGATTACAGCCGCGTCCAGGTCTGCGATTTGCACAGAACCTTCAGCACGCAGCCCTTCATGCTCAGCGAGTTGCCGGAAACGGTGCCGGAGCCGCTATAG	MPLAPAVSNVILGQRTVPSGAGPQAAGHKPARRPVDYSRVQVCDLHRTFSTQPFMLSELPETVPEPL				NA	NA	NA	NA	NA
BMS010_00352	339			hypothetical protein	ATGAAGCGTATAATGACGATTGCCGCCGCCCTCATGCTGAGCGGCAACCTTGCCTTCGCCGCCGAGGCAATCGAAGGCAACTGGAAGACCGCCAGTGGCGAAACTGCCGTGATCGGCCCCTGCGGCGGCGCCTTCTGCGTGACGCTGAAGACCGGCAAACACGCCGGAAAACAGATCGGCAAGCTTTCCGGCAAGGGAAACAGCTATTCGGGTGAAATCACCGATCCCGCCAATGACAAGACCTATAGCGGCTCCGGCACCGTTTCCGGCAACTCGCTGAGCATGAAGGGCTGCGTGCTGAAGGTTCTGTGCAAATCGCAGACCTGGACGCGGCTGTAA	MKRIMTIAAALMLSGNLAFAAEAIEGNWKTASGETAVIGPCGGAFCVTLKTGKHAGKQIGKLSGKGNSYSGEITDPANDKTYSGSGTVSGNSLSMKGCVLKVLCKSQTWTRL				NA	NA	NA	NA	NA
BMS010_00353	264			hypothetical protein	ATGGCACGCTTTGAAATTCGCGATATCGAAATGGCTGCCGGTGGCGAAACCCGCGCCGACACTCTTTGCAATCTCGGCCTGGTCTATGCGACCGGCCGGGGCTGCAAGGTGGACCTGATCGCCGCCCATAAATGGCTCAACATCGCCGCGATCCGCGGATCGGAGAGAGCCGCTTCGCTGCGCGCCGATCTCGCCCGCAACATGACCAAATCGGAACTGGCCGAAGCGCTGCGCGCCGCCCGCGACTGGATGACGATGCACTGA	MARFEIRDIEMAAGGETRADTLCNLGLVYATGRGCKVDLIAAHKWLNIAAIRGSERAASLRADLARNMTKSELAEALRAARDWMTMH	PGPT0000855_7199	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-ACIDITY|NITROGEN_RELATED_REGULATION,PGPT0000855-exoR-K07126	NA	NA
BMS010_00354	1113	hisC_1		Histidinol-phosphate aminotransferase	ATGTCAGCCTTTTCCCGCCTCACGCCGCTTGCCGCCTCGCTTCCCTCAACCGTTCCCTTCGTCGGCCCGGAGGCCATCGAGCGCAACCGCGGCCTGAAGGTTGCAGCGCGTATCGGCGCCAATGAGAGCGGCTTCGGCCCCGCCCCTTCCGTGCTTTTGGCCATGCGCGATGCGGCGGCGGAGACGTGGATGTACAGCGATCCGGAAAATTATGAACTGAAGGAAGCGCTTGCCATCCACCATGGCGTTGCACGCGGCAATATCGCCATCGGCAGCGGCGTCGATGGGCTGCTGGGTGAGATCGCGCGGCTGATCGTCGAGCCGGGCACGCCTGTCGTCACCTCTTTTGGCGGCTACCCCACCTTCAATTACCATGTGAACGGTTTTGGCGGGAAACTCGTGACCACACCCTATGTCGACGATCACGAAGACCTTGACGGGCTTCTCGATCTCGTCATCCGGGAAAATGCGCCGCTCGTTTATTTCGCCAATCCCGACAATCCGATGGGAAGCTGGTGGGAAGCGAGCGAAGTGATCGCCTTTGCCCGCGCGTTGCCGGAAACCTGCCTGCTCATTCTGGATGAGGCCTATTGCGAAACCGCGCCCGAAAGCGCCGTCCCAGCCATCGACGAGCTGATCGGCCAGCCGAACATTCTGCGCATGCGCACCTTCTCGAAAGCCTATGGGCTGGCGGGTGCGCGCGTGGGTTACGCCATCGGCACGCTCGGCAATGTCGAAGCCTTCGACAAGATCCGCAACCATTTCGGGATGGCGCGCATTTCGGTCGCCGGCGCTTTGGCGGCGCTGAAGGATCAGGTCTATCTGCATGAAGTCGTTGGTAAAATTTCTGACGCCCGTGAGCGCATTTCGGTAATCGCGCGCAATAACGGCCTTTCCCCGCTCCCCTCCGCCACCAATTTCGTCACCATCGATTGCCACCGCGACGGGGCTTATGCCCGCGCCATCGTCGATGGGCTGATGGAACATGGCGTCTTCATCCGCATGCCGGGCGTCGCACCGCTCAACCGCTGCATTCGCGTGAGTGTGGGGCCGGGTGACAAGCTCGATCTGTTCGAGCAGGCGCTGCCGAAGGTCCTCAAGGCGATCGGCTGA	MSAFSRLTPLAASLPSTVPFVGPEAIERNRGLKVAARIGANESGFGPAPSVLLAMRDAAAETWMYSDPENYELKEALAIHHGVARGNIAIGSGVDGLLGEIARLIVEPGTPVVTSFGGYPTFNYHVNGFGGKLVTTPYVDDHEDLDGLLDLVIRENAPLVYFANPDNPMGSWWEASEVIAFARALPETCLLILDEAYCETAPESAVPAIDELIGQPNILRMRTFSKAYGLAGARVGYAIGTLGNVEAFDKIRNHFGMARISVAGALAALKDQVYLHEVVGKISDARERISVIARNNGLSPLPSATNFVTIDCHRDGAYARAIVDGLMEHGVFIRMPGVAPLNRCIRVSVGPGDKLDLFEQALPKVLKAIG	PGPT0020305_2280	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817	NA	NA
BMS010_00355	348			hypothetical protein	ATGGCTTTGCATATGGATCCCCGTCAGAACGTCCCCCAAGACGAAATGTACGAGAAATTTCAGATCGACCGGCCCGGCAAGATCACCTTCATCGGGCATCATCTCAGCGCCAAGGACACCATGCGCTGCCTGGTGCGGACTATTTCCCTTTACGGCGCGGAACTGGATGTCAGTCCCGATCTGGAAATGCCGGCCAATTTCTATCTGGAAATTCTCGGTATCCGCGATGAGATCGGCTGCACGCTGATCCGCCGCGAAGAGGAAAAAGTGACGATCGGCTTCAATATGCTGATCGATGCGGAGTTCCTGCACCATGTGCGACGCCTGAGCTTCGAGACCAACGCGTGA	MALHMDPRQNVPQDEMYEKFQIDRPGKITFIGHHLSAKDTMRCLVRTISLYGAELDVSPDLEMPANFYLEILGIRDEIGCTLIRREEEKVTIGFNMLIDAEFLHHVRRLSFETNA				NA	NA	NA	NA	NA
BMS010_00356	1218	ddmA1		Dicamba O-demethylase 1, ferredoxin reductase component	GTGACGGGAAGGCTGGTAATCGTCGGGGCGGGGCAGGCCGCTTTCGCGCTGGCGTCGAAGCTTCGGGCGCTGAAGGATGAGCGCCCCATCACCATCGTCGGTTCCGAGGATGCCTATCCTTACCAGCGGCCGCCGCTCTCCAAAAAATACCTCCTCGGCGAGATGAGCTTCGACCGGCTGATGTTCCGGCCGGAGGAATGGTACGCGGAGAACAATGTCGATATCCGGCTTTCCACCTGGGTCGAGGAGATAGACCGCGCCGCCAAATTCCTGCGCATGCAGGACGGCAGCACGCTTTCCTATGACAGGCTGGTGCTGGCGACCGGGGCTGCTCCCCGCCTGCTGCCCGCCAGCATTGGCGGCGATCTGGAAGGCGTTCTGACCGTTCGTGACAAGCGTGATGCCGACCGTCTCATGGAGGAGATGAAACCCGGCCGCAGGCTGCTGGTGATCGGCGGCGGTTATATCGGTCTCGAAGCAGCGGCCGTCGCGCGCAAGCTCGGCCTCGAAGTGACCTTGATCGAAATGGCCGACCGCATTCTCCAGCGTGTGGCGGCGAAGGAAACCGCCGATATCATGCGCGGCATCCACCAGGCTCACGGCGTTTCCATTCGCGAAAAGACCGGCCTTGTGCGCCTTGTCGGCATGGACGGCCGGGTGGCCGCCGCCGAACTCTCCGACGGCTCGACGCTGGATGTGGACTTTGTGATTGTCGGCATCGGCGTGACGCCGAATGATCGCCTCGCTCGCGAATCGGGCCTTGATGTCGGCAATGGCATCGTGGTGGACGACCACACCCGCACCTCCGACAGCGCCATTCATGCGGTGGGCGACTGCGCCCTGCTGCCCTGGCGCGGCCAGCATGTGCGTCTCGAATCGGTACAGAACGCAGTCGATCAGGCCGAGGCGGCCGCTGCCGTGCTTACCGGGGCTGAAGCCGCCTATGATCCGAAGCCATGGTTCTGGTCGGATCAATATGACGCCAAGCTGCAGATTGCCGGCTTCAACCTGGGTTACGACGAGACGATGCTGAGGCAGGGCGCGCGTGAGGGCAGCTGGTCCGTCTGGTATTTCCGCGATGGACGATTCGTGGCGGTGGATGCCGTAAACGATGCCAAGGCCTATGTCGCGGGCAAGAAATTGCTCGATACCGGCGCGGAGCCGGATCGCGCCATCCTGGCGGATGCTTCCGCCGATCTGAAATTACTGCTTTCCTGA	MTGRLVIVGAGQAAFALASKLRALKDERPITIVGSEDAYPYQRPPLSKKYLLGEMSFDRLMFRPEEWYAENNVDIRLSTWVEEIDRAAKFLRMQDGSTLSYDRLVLATGAAPRLLPASIGGDLEGVLTVRDKRDADRLMEEMKPGRRLLVIGGGYIGLEAAAVARKLGLEVTLIEMADRILQRVAAKETADIMRGIHQAHGVSIREKTGLVRLVGMDGRVAAAELSDGSTLDVDFVIVGIGVTPNDRLARESGLDVGNGIVVDDHTRTSDSAIHAVGDCALLPWRGQHVRLESVQNAVDQAEAAAAVLTGAEAAYDPKPWFWSDQYDAKLQIAGFNLGYDETMLRQGAREGSWSVWYFRDGRFVAVDAVNDAKAYVAGKKLLDTGAEPDRAILADASADLKLLLS	PGPT0019730_1595	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-3-PHENYLPROPIONIC_ACID|CINNAMIC_ACID_RESISTANCE,PGPT0019730-hcaD|cndC1-K00529	NA	NA
BMS010_00357	801	hpcH_1	COG3836	4-hydroxy-2-oxo-heptane-1,7-dioate aldolase	ATGCCTGCTCCCGAAAACCGTTTTAAAACCGCCATCCATGCCGGCAAGCCGCAGATCGGCCTCTGGCTGGATATGGGCGAGGCCATCACCGCGGAAATCGCCGGTACGGCGGGGTTCGACTGGCTGGTGATCGACGGCGAGCATGGGCCGAACGATCTGCGCAGCATCATCGACCAGCTGCGCGCCCTTGCCACAGCGTCTGCCGAACCGGTGGTACGCGTGCCGGTCGGCGAAAGCTGGATGATCAAGCAGCTTCTGGATGCGGGTGCGCGCACGCTTCTGGTGCCGATGGTCGATTCGGCAACCCAGGCGAAGGATCTGGTCAGCGCCATGCATTATCCGCCGCGCGGCATTCGCGGCATGGGCGCTGCCGTTGCCCGCGCTTCCGCCTTCAACACGATAACCGACTATGCCGACAGCGCCTCGGACAGCGTCTGCCTGCTGGTGCAGGCCGAAACGCGCGCGGCGATCAACGATCTCGACAATATTCTTGCGGTGGAGGGCGTGGACGGCGTCTTTATCGGCCCGGCGGATCTGGCTGCCGATATGGGCTATCTCGGCAGGATAGATGAGCCGGAAGTGCAGGCGGTGATCGAGGCGGCCATCGTCAAGATCGTCAAGGCCGGCAAGGCCGCCGGCATTCTCACCTTCAACGAAGCCTATAATCGCCGCTATCTTGAACTCGGCGCGTCCTTCGTGGCCGTCGGCGCGGATGTGACGGAATTCGCCAGTACCCTGCGTGCGCTGTCGGCCCGTTACAAGGGCGGAGCAGCGCCTGCACCATCACGGTCTGGCTATTAA	MPAPENRFKTAIHAGKPQIGLWLDMGEAITAEIAGTAGFDWLVIDGEHGPNDLRSIIDQLRALATASAEPVVRVPVGESWMIKQLLDAGARTLLVPMVDSATQAKDLVSAMHYPPRGIRGMGAAVARASAFNTITDYADSASDSVCLLVQAETRAAINDLDNILAVEGVDGVFIGPADLAADMGYLGRIDEPEVQAVIEAAIVKIVKAGKAAGILTFNEAYNRRYLELGASFVAVGADVTEFASTLRALSARYKGGAAPAPSRSGY	PGPT0001575_733	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-SUCCINIC_ACID_ACID_BIOSYNTHESIS,PGPT0001575-hpaI|hpcH-K02510	NA	NA
BMS010_00358	177			hypothetical protein	ATGCGATTCAGCGACGATATTGAAGCGGCTCTGTCGGATTTTGCGAGGGATCACGGCGTCGACAGGGATGAGGCCATCCAGCGCATCATTCGCTCCGCGCTTATCAATACCGGTTATCTCGCCTCCGGCGAAGAAGGCATTCCGCCGGAAAAGCTGAACGCCAGCAACGACGACTGA	MRFSDDIEAALSDFARDHGVDRDEAIQRIIRSALINTGYLASGEEGIPPEKLNASNDD				NA	NA	NA	NA	NA
BMS010_00359	342			hypothetical protein	ATGGCTCAGACCAAACTGAATGTTGTCGAAGACACGATCGAAAACCAGATTGCGGAGCTGCGTTCGCAGATCTCGTCCCTCTCCAAATCCGTATCCGCCCGCGCGGAAGTTGTGAGCGAGGATGCGTCCGAATTTCTGGATGAGGCGCGCGGACGCGTTCGCAAGGCCGCGCATAATGTCCGCGCCCAGGGCCAGAATGTCGTGGAAGCCGTCAAGGAAAATCCCGGAACGGCGACCTCCCTGCTGACGATCGTTGGCGCACTCGGTTTTGCCATCGGTTATGCGGTTGGCGCGGGCACGCAGCAGAACTCGTCGAACAACAGCCTTTATCGCTGGCGCTGA	MAQTKLNVVEDTIENQIAELRSQISSLSKSVSARAEVVSEDASEFLDEARGRVRKAAHNVRAQGQNVVEAVKENPGTATSLLTIVGALGFAIGYAVGAGTQQNSSNNSLYRWR				NA	NA	NA	NA	NA
BMS010_00361	1086	ropA_1		Outer membrane protein IIIA	ATGAACATCAAGAGCCTTCTCATCGGCTCCGCTGCGGCTCTCGCAGCAGTATCCGGCGCACAGGCCGCTGACGCTATCGTCGCTGCCGAGCCCGAGCCCCTGGAATACGTTCGCGTTTGCGACGCTTTCGGCACCGGCTTCTTCTACATCCCCGGCACCGAAACCTGCCTGAAGTTCGACGGTTACATCCGTTTCCAGACCGACTTCAACCGTGGTACGGGCTTCGGCACTGGTACCAACAACCGTACGTCTGACTGGAACTCGTTTACCCGCGCCCAGTTCAACATCGACACCCGCACTGACACCGAGCTTGGCGCTCTGCGTGGCTACATCGGTCTGCGTGGCGATGCAAACAACGACTCCAGCCGCGGCGTTGTTGTCGATCAGGCTTTCATCGAGCTCGGTGGCCTGAAGGTCGGTTACTACTACAACTGGTGGGATGACGGTCTCTCTGGCGAAACCGATATCCTCTCTTCGAACGCTACGCGTCTGAACGCCATCCGTTACACCTACGACGCTGGTTCCTTCTACGTTGGTGTTGCTGTTGAAGAGCTGGATGCTGCTCGCGGTACTTCCAACCTGATCAGCCTTGCTAAGGGCGGTTCGTTCGAAGGCGCAAACAACGTTGGCGTAAGCGGTATCATCGGCGCCAAGTTCGGCGGCGTGAACGCTAACCTGCTCGGTGGCTACGACACGGACCAGGAAAACGGTGCAATTCGTGCAATTGTCACGGCTGACATCGGCCCGGGCACCCTCGGCCTCTCCGGCGTATGGGCTTCTGGCGCAAACAGCTACTACGAAGAGTCCGAGTGGGCAGTGGCCGCTGAATACGCTATCAAGGCAACCGACAAGCTGACCATCACCCCCGGTTTCCAGTATTTCGGCACGATCGACATCGCTGCTGACAACGACTTCACTGGCGACCGCGATGCATGGCGCGCTGGCGTGACCCTTGATTACAAGATCACCCAGGGTCTCTCCACGAAGATCGCTGTTAACTACCAGGACGTCGATGGCACCGAAGGTGTTGATCGCGGCGCTGGCGACCAGTGGACCGGTTTCGTTCGCCTTCAGCGTTCGTTCTAA	MNIKSLLIGSAAALAAVSGAQAADAIVAAEPEPLEYVRVCDAFGTGFFYIPGTETCLKFDGYIRFQTDFNRGTGFGTGTNNRTSDWNSFTRAQFNIDTRTDTELGALRGYIGLRGDANNDSSRGVVVDQAFIELGGLKVGYYYNWWDDGLSGETDILSSNATRLNAIRYTYDAGSFYVGVAVEELDAARGTSNLISLAKGGSFEGANNVGVSGIIGAKFGGVNANLLGGYDTDQENGAIRAIVTADIGPGTLGLSGVWASGANSYYEESEWAVAAEYAIKATDKLTITPGFQYFGTIDIAADNDFTGDRDAWRAGVTLDYKITQGLSTKIAVNYQDVDGTEGVDRGAGDQWTGFVRLQRSF				NA	NA	NA	NA	NA
BMS010_00362	1086	ropA_2		Outer membrane protein IIIA	ATGAACATCAAGAGCCTTCTCATCGGCTCCGCTGCGGCTCTCGCAGCAGTATCCGGCGCACAGGCCGCTGACGCTATCGTCGCTGCCGAGCCCGAGCCCCTGGAATACGTTCGCGTTTGCGACGCTTTCGGCACCGGCTTCTTCTACATCCCCGGCACCGAAACCTGCCTGAAGTTCGACGGTTACATCCGTTTCCAGACCGACTTTAACCGTGGTACGGGCTTTGGCGCTGGCACGAACAACCGTACTTCTGACTGGAACTCGTTCACGCGCGCCCAGTTCAACATCGACACCCGCACCGACACCGAGCTCGGCGCTCTGCGTGGCTACATCGGTCTGCGTGGCGAAGCAAACAACGACTCCAGCCGCGGCGTCAACGTTGACCAGGCTTTCATCGAGCTCGGCGGCCTGAAGGTCGGTTACATGTACACCTGGTGGGATGATGATCTCTCCGGCGAAACCGATATCCTGTCTTCGAACACCACCCGCGGCAATGCTCTGCGTTACACCTACGACGCTGGTTCGTTCTACGCTGGCATCAGCGTTGAAGAACTGGATGCCGGACGTGACATTTCGAACCTTACCAATCTTGACAAGGGCGGCTCCTTCGAAGGCAACAACAACGTTGGCGTAAGCGGTATCATCGGCGCCAAGTTCGGTGCGGTCACCGCTAACCTGCTGGGTAGCTATGACACTGACCAGGAAAATGGTGCGATCCGTGCAATTGTCACCGCTGACATCGGCCCCGGCACGTTTGGTATTTCTGGTATTTGGGCTTCCGGCGCAAACTACTACTACGAAGAGTCGGAGTGGACGGTTGCCGCTGAGTACGCCATCAAGGCAACTGATAAGCTGACCATCACCCCTGGTGCTCAGTACCTTGGTACAATCGATATTGGTGCTGACAACGACTTCACTGGCGACCGTGATGCATGGCGCGCTGGTGTGACGGTTGACTACCAGATCACGCAGGGTCTGGCTGCCAAGGTTGCTGTTAACTACCAGGATGTTGACGGCACCGAAGGTGTTGACCTTGGAGCCGGCGACAGCTGGACCGGTTTCGTTCGCCTTCAGCGTTCGTTTTAA	MNIKSLLIGSAAALAAVSGAQAADAIVAAEPEPLEYVRVCDAFGTGFFYIPGTETCLKFDGYIRFQTDFNRGTGFGAGTNNRTSDWNSFTRAQFNIDTRTDTELGALRGYIGLRGEANNDSSRGVNVDQAFIELGGLKVGYMYTWWDDDLSGETDILSSNTTRGNALRYTYDAGSFYAGISVEELDAGRDISNLTNLDKGGSFEGNNNVGVSGIIGAKFGAVTANLLGSYDTDQENGAIRAIVTADIGPGTFGISGIWASGANYYYEESEWTVAAEYAIKATDKLTITPGAQYLGTIDIGADNDFTGDRDAWRAGVTVDYQITQGLAAKVAVNYQDVDGTEGVDLGAGDSWTGFVRLQRSF				NA	NA	NA	NA	NA
BMS010_00363	2085			hypothetical protein	ATGAAGAACGGCATGAAAAAGACAGTCTGGGGATTGATGGCGGCGGGCCTTGCCGCAACCGTTTGGAACGCATTGGCCGGGCCGCTGCCGGAAGGTGCGGCGCCGCTTCCCTATGTCAAGCCGAATGCGCCGACCGTCCCGGCCTTCATGCCGGCCTCACCCGAGATCACCGGCGCCATACCGCGCCTCGACCGCCCCGACGATACAAGCCAGTTAAAGGCCGGCCTCGACGCGCTTTCCAGCCGCGATGGGGCCCGGGCGATTGCGTTGCGCAACACCATGCCGACCGGCAGCCTCGACCGCCATATCCTTACCTGGGCAATCGCCGTTTCCGGCCAGAAGGACGTCACTTCGGCCGAAATCGCCGCAGCCCAGCGCGAGCTCTCCGGCTGGCCGGGTGCTGCCACCCTGCGCGCCAATTCCGAAAAAGCGCTTTACCGCGAAGATCCGCCGGCATCGCAGGTGCTTGCCGCCTTCGGCAATAGCCGGCCGGAAACCGCGGAAGGCAGCGTGGTGCTCGCCAAGGCGCTCGCCTCCTCCGGCAAGGGTGCGGAATCGCAGCATCTCATTCGTCAGCTCTGGGTGAGCGAAGGCATGGACAAGGACATGGAAGACCGTGTGCTTGCCGAGTTTCCCACCTATCTGACGCCCGCCGACCACAAGGCGCGCATGGATTATCTGATGTATCGCAGCCGCATCAGCCAGGCGAAGCGCTTCGGCGACCTCGGCAAGGCGCAGTCGCTTTACAATGCCTGGGCGGCCGTGTTGCAGCGATCCACTACTGCGACTGCGCTGCTCGGCAAAGTCGACGCCTCCTGGCGCAGCGACCCCGCCTATCTTTTCGCGCGGGTGGAAAACCTGCGCAACCAGCAGAAATATTCCGAAGCCGCCGTGCTTTTGCGGCAGGCCCCGAAGGAAACGGCCAAGCTCGTCAATCCGGGCGAATGGTGGAACGAGCGGCGCATCATCGCGCGCGGCGTCGCCGATCTCGGCGATTTCGCCGAGGCCTATCGCATCGTCGCCAATCATTCGGCCACCTCTGCCGTCGATACCGCCGATGCGGAATTCCATGCCGGCTGGTATGCGCTGAGAGCGCTGCGCGATCCGGCCACGGCTTCGCGCCACTTCAACACGCTGCTTCAGACTTCGAACCGGCCGCTTTCGGCGTCGCGCGCCTATTATTGGCTCGGGCGAGCGGCGGAAGCCGGCGGACCGGGGGATGCCCGCGACTTTTTCACCAAAGCCGCCGCTCATCCCGGCACGTTCTATGGCCAGCTTGCCGCCGCGCGAATCGGCGCCAAGACACTGAATGTCACCTATCCAAGCCCCAGCAGCGGCGACCGCGAACGTTTCGCCGGCCGCGAAGCCGTGCGCGCCATCGACAGGCTGGAAGCGGCCGGTTACGGCTGGCGGGCCGACAGCCTTTACCGGTCGCTGGCGGAACAGCTCGACAGCCCCGGCGAGCTTGCCATTCTGGCGGCAAGGGCGGAGGGCAACGGCAATCATCAGGTTTCGCTGCAAATCGGCAAGACGGCTTTCAGCCGCGGCATCGATGCGGCCGCACTCGCCTATCCGCTCGGCGTCATTCCCGCCAGCGCTAATATTGCCGGCTCCGGCAAGGCACTTGCTTACGCGATTGCCCGGCAGGAAAGCGCCTTCAACCCGGCCGCCGTCTCCGCCGCCAATGCGCGCGGTCTGCTGCAACTGCTGCCCGGAACCGCCAAGGGTGTGGCGGGACGCCATGGCCTGCCCTATACCCAGGCGCGACTGACCACCGATGCGGGTTATAACGCCACGCTCGGCGCACATTATCTCGGTGAGCAGATCGACAGTTTCGGCGGTTCCTACATCCTCACCTTCATCGCCTACAATGCCGGGCCGAAGCGCGTGCCGGAATGGATCGCCCGCTATGGCGACCCGCGCGGCAAGCCGATCGACGAGGTGGTCGACTGGATCGAGCGCATCCCCTTCCCTGAAACCCGCAATTACGTGCAGCGGGTGATGGAGAATTATCAGGTCTACAAGACGAGGCTCGGGCAACAGGCCGATATCGTTGACGACCTGCGCCATGGGCGTGCGGGGTAA	MKNGMKKTVWGLMAAGLAATVWNALAGPLPEGAAPLPYVKPNAPTVPAFMPASPEITGAIPRLDRPDDTSQLKAGLDALSSRDGARAIALRNTMPTGSLDRHILTWAIAVSGQKDVTSAEIAAAQRELSGWPGAATLRANSEKALYREDPPASQVLAAFGNSRPETAEGSVVLAKALASSGKGAESQHLIRQLWVSEGMDKDMEDRVLAEFPTYLTPADHKARMDYLMYRSRISQAKRFGDLGKAQSLYNAWAAVLQRSTTATALLGKVDASWRSDPAYLFARVENLRNQQKYSEAAVLLRQAPKETAKLVNPGEWWNERRIIARGVADLGDFAEAYRIVANHSATSAVDTADAEFHAGWYALRALRDPATASRHFNTLLQTSNRPLSASRAYYWLGRAAEAGGPGDARDFFTKAAAHPGTFYGQLAAARIGAKTLNVTYPSPSSGDRERFAGREAVRAIDRLEAAGYGWRADSLYRSLAEQLDSPGELAILAARAEGNGNHQVSLQIGKTAFSRGIDAAALAYPLGVIPASANIAGSGKALAYAIARQESAFNPAAVSAANARGLLQLLPGTAKGVAGRHGLPYTQARLTTDAGYNATLGAHYLGEQIDSFGGSYILTFIAYNAGPKRVPEWIARYGDPRGKPIDEVVDWIERIPFPETRNYVQRVMENYQVYKTRLGQQADIVDDLRHGRAG	PGPT0024070_635	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-SOLUBLE_LYTIC_MUREIN_TRANSGLYCOSYLASE_ACTIVITY,PGPT0024070-slt-K08309	NA	NA
BMS010_00364	885	dapA_2	COG0329	4-hydroxy-tetrahydrodipicolinate synthase	ATGTTCAAGGGATCAATTCCCGCCCTCATTACCCCGTTCACGGACAATGGCGCCGTGGACGAACAGGCATTTGCCGCCCATGTGGAATGGCAGATCGCCGAAGGCAGCAACGGACTTGTGCCCGTGGGCACGACGGGGGAATCTCCAACCCTGTCCCACGACGAGCACAAACGTGTCGTCGAGCTGTGCATCGAGGTAGCGGCGAAACGGGTTCCGGTCATTGCGGGCGCTGGCTCCAACAATACCGATGAGGCGATCGAGCTTGCGCTGCACGCGCAGGAAGCCGGCGCGGATGCGCTCTTGGTTGTCACCCCATATTACAACAAGCCGACCCAGAAGGGCCTGTTCGCCCATTTCTCCGCTGTCGCCGAAGCGGTGAAGCTGCCTATCGTCATCTACAATATCCCGCCGCGCTCGGTGGTGGATATGTCGCCGGAAACCATGGGTGCACTGGTCAAGGCGCACAGGAACATCGTCGGCGTCAAGGATGCGACGGGCAAGATCGACCGCGTTTCCGAACAGCGCATTTCCTGCGGCAAGGATTTCATCCAGCTTTCGGGCGAGGATGGCACGGCGCTCGGTTTCAACGCCCATGGCGGCGTCGGCTGCATTTCCGTTACCGCTAACGTTGCGCCGCGCCTCTGTTCGGAGTTCCAGGCGGCGATGCTCGCCGGCGATTATGCCAAGGCGCTGGATTATCAGGATCGCCTGATGCCGCTGCACAAGGCGATCTTCATGGAGCCCGGTGTTTGCGGCACCAAATATGCGCTGTCGAAGACGCGCGGCGGCAATCGCCGGGTCCGCTCGCCCTTGATGAGCACGCTGGAACCGGCAACGGAGGCGGCCATCGATGCGGCGCTGAAGCACGCCGGCCTGATGAACTGA	MFKGSIPALITPFTDNGAVDEQAFAAHVEWQIAEGSNGLVPVGTTGESPTLSHDEHKRVVELCIEVAAKRVPVIAGAGSNNTDEAIELALHAQEAGADALLVVTPYYNKPTQKGLFAHFSAVAEAVKLPIVIYNIPPRSVVDMSPETMGALVKAHRNIVGVKDATGKIDRVSEQRISCGKDFIQLSGEDGTALGFNAHGGVGCISVTANVAPRLCSEFQAAMLAGDYAKALDYQDRLMPLHKAIFMEPGVCGTKYALSKTRGGNRRVRSPLMSTLEPATEAAIDAALKHAGLMN	PGPT0002080_6520	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
BMS010_00365	483	smpB_1		SsrA-binding protein	ATGGCCCCCAAAGGCAGCCAGCGCGTGGTGAACAAGATCGTTGCGGAAAACCGCAAGGCTCGCTTCAACTACGAAATCATCGACACCTATGAGGCAGGGCTCGTGCTGACTGGTACCGAGGTCAAGTCGCTGCGTGAAGGCAAGGCGAATATCGCCGAATCCTACGCATCGGACGAGGGTGATGAAATCTGGCTCATCAATTCCCACCTGCCGGAATATCTGCAGGCCAACCGCTTCAACCACGAGCCGCGCCGCCGCCGCAAGCTGCTCCTGAGCAAGCGCGAGATCAACCGTCTGCGCGCCGGCATCAACCGTGAAGGCATGACGCTGGTGCCCTTGAAGATTTATTTCAACGACAGGGGCCGCGCGAAGCTGGAACTGGCGCTCGCCAAGGGCAAGAAACTGCACGACAAGCGCGAGACGGAGAAGGAACGCGACTGGAACCGGCAGAAATCGCGGTTGCTGAAGGGTGGCAACGCCTAA	MAPKGSQRVVNKIVAENRKARFNYEIIDTYEAGLVLTGTEVKSLREGKANIAESYASDEGDEIWLINSHLPEYLQANRFNHEPRRRRKLLLSKREINRLRAGINREGMTLVPLKIYFNDRGRAKLELALAKGKKLHDKRETEKERDWNRQKSRLLKGGNA	PGPT0014355_1125	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-RatA-RatB|YfjG-YfjF|RatAB-SsrAS_SYSTEM,PGPT0014355-smpB-K03664	NA	NA
BMS010_00366	1500			hypothetical protein	ATGCATGGCCAAGCAAAAACCGACCGACAACTCGACGAAAGACTGAATTTTCTGGGGCTCGGCCACGAGCAACGGAAAAATCTCTCCGAGATGAAAGGTGTTATCACCGGCTCTCTCGATGCGTCTCTCGATCGTTTTTATACGAAGGTTCGCTCGGTGCCGGAGACGGCAAAGTTTTTCTCCAGCGAGGCCCATATCCACCACGCCAAGAGCATGCAGCTCAAACACTGGGAGAGGATCGCCTCCGGCACATTCAATGCGGATTATACCGACGCCGTAACCGCCATCGGCCGCACCCATGCGAGGCTGGGGCTGGAGCCGAGATGGTACATCGGCGGTTATGCCCTGATGCTCGACGGCATCGTCAAGGCCCTGATCGAGTCCGAATTGAAGGGCTTTTTCGTGGAAAAGAAGGCCAAAAAGGTGAAGGACGCCCTGTCGGCCACCATCAAGGCCGCTCTTCTCGACATGGATTATTCGATCTCCGTCTATCTCGACGTGCTGGCCGCCGAGCGGCAGAAGGTGGAAGCCGAACAGGCGCAGATGAAGAAGGAACAGGAGCACGTTCTCGCACTGCTCAACAGCGCCCTCGACAGGCTGGCCAATGGCGACCTCACCTCCAGCATCGGCGAAAATACCGCACCGCAATTCGAAGGGCTGGTCGCCAATTTCAACGCGGCGGTCGGCAATCTCTCCGGCGCATTTGCGCAGATCGTCGAAGAGGCGAACAAGATTTCCGGCAATACGCGCGAGCTGACATCCGCGACCGACGACATGGCCCGCCGTACGGAGCAGCAGGCCGCCGCCCTTGAGGAAACCGCCGCCGCCGTCGAGGAAATCACCACCATTTCCAAATTGTCGGCGCAGCGTTCAGAAGAAGCCAAGGCCATTGTCGAAAGCTCGGCCGTTGAAGCCGCGCGCTCACGCGATGTTGTGACGGAAGCGGTGAAAGCAATGGGAGCCATCGAGGACTCATCGCAGAAGATCACCCAGATCATCTCCGTCATCGACGAGATTTCTTTCCAAACCAACCTTCTGGCGCTGAATGCCGGTGTGGAGGCCGCGCGCGCCGGCGAGGCCGGCAAGGGTTTCGCCGTCGTCGCCCAGGAAGTGCGTGAACTCGCACAGCGCTCCGCCACCGCCGCCAAGGAAATCAAGACGCTGATCGCCAAGTCTTCGGAAGACGTGATGCAGGGTGTTTCGCTGGTCAACAAGACGGGCGAATCCTTGAATACGATCGGCAACAAGGTGGATCATATTCAGGAACATATCGCCTCGCTGACCAAGGCAGCGCAGGAACAGTCCGTCGGCATTCAGGAAATCAATGCCGCCATCAACAGCATGGACAATCTGACCCAGAAGAATGCGGCCATGGTGGAAGAGACGAATGCGGCGACGCATAATCTGAGCGATGTCAGCGCCAATCTGGCGGCGCTTGTCAGCCGGTTCAGCGTTTCGACGACGAAGGCGCATGTGGAACGGACGTACCGGGCGGCGTGA	MHGQAKTDRQLDERLNFLGLGHEQRKNLSEMKGVITGSLDASLDRFYTKVRSVPETAKFFSSEAHIHHAKSMQLKHWERIASGTFNADYTDAVTAIGRTHARLGLEPRWYIGGYALMLDGIVKALIESELKGFFVEKKAKKVKDALSATIKAALLDMDYSISVYLDVLAAERQKVEAEQAQMKKEQEHVLALLNSALDRLANGDLTSSIGENTAPQFEGLVANFNAAVGNLSGAFAQIVEEANKISGNTRELTSATDDMARRTEQQAAALEETAAAVEEITTISKLSAQRSEEAKAIVESSAVEAARSRDVVTEAVKAMGAIEDSSQKITQIISVIDEISFQTNLLALNAGVEAARAGEAGKGFAVVAQEVRELAQRSATAAKEIKTLIAKSSEDVMQGVSLVNKTGESLNTIGNKVDHIQEHIASLTKAAQEQSVGIQEINAAINSMDNLTQKNAAMVEETNAATHNLSDVSANLAALVSRFSVSTTKAHVERTYRAA	PGPT0015710_24683	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_00367	570			hypothetical protein	ATGTTCGATCCACGGGAGAAAATTGCGCTCTTCATAGACGGAGCCAATCTTTATGCAGCATCGAAAAGCCTGGGATTCGATATCGACTACCGCAAGCTCCTGAAGGCGTTTCAAAAGCGTGGATACCTGCTGCGCGCCTATTATTACACCGCGCTCATCGAGGATCAGGAATATTCCTCGATCCGCCCGCTGATCGACTGGCTGGATTATAACGGCTACAAGGTCGTGACGAAGCCGGCGAAGGAATTCACCGACGCTCTCGGCCGCCGCAAGATCAAGGGCAACATGGACATCGAACTGGCAGTCGATGCCATGGAACAGTCCGAGACGGTCGATCATCTGGTGCTCTTCTCCGGCGATGGCGATTTCACCACGCTGGTAGACGCGCTGCAGCGCAAGGGCCGCAAGGTTTCCGTGGTTTCCACCATGGCCACGCAGCCCGCCATGATCGCCGACGACCTGCGCCGCCAGGCCGATCACTTCATCGATCTGATGACGCTGAAGGCCGAGATCGGGCGCGACCCGAACGAGCGCCCTGCCCGGCACGCCGAGGGTCCTGAGACGGTCTGA	MFDPREKIALFIDGANLYAASKSLGFDIDYRKLLKAFQKRGYLLRAYYYTALIEDQEYSSIRPLIDWLDYNGYKVVTKPAKEFTDALGRRKIKGNMDIELAVDAMEQSETVDHLVLFSGDGDFTTLVDALQRKGRKVSVVSTMATQPAMIADDLRRQADHFIDLMTLKAEIGRDPNERPARHAEGPETV				NA	NA	NA	NA	NA
BMS010_00368	390	rpoZ_1		DNA-directed RNA polymerase subunit omega	ATGGCCCGCGTCACAGTTGAAGATTGCATTGATAAAGTAGACAACCGTTTCGAGCTGGTGCTTCTCGCCAGCCACCGTGCGCGCCAGATTTCTCAAGGGTCCTCCATCACGGTTGACCGCGACAACGACAAGAACCCGGTTGTGGCGCTGCGCGAAATCGCCGATGAGACGCTGTCTCCCGACGATCTGAAGGAAGACCTGATCCACTCGCTGCAGAAGCATGTGGAAGTGGACGAGCCCGAGCCCGATCCGGTCACGCTCGCCGCCGCCGCTGCCGACAGCGAAGAAGACGATCAGCCGGAAACCGTTACTTTCGACCAGATGTCGGAAGAAGAACTGCTGGCCGGTATCGAAGGCCTTGTGCCGCCGGAAAAAAATGACGACTATTGA	MARVTVEDCIDKVDNRFELVLLASHRARQISQGSSITVDRDNDKNPVVALREIADETLSPDDLKEDLIHSLQKHVEVDEPEPDPVTLAAAAADSEEDDQPETVTFDQMSEEELLAGIEGLVPPEKNDDY				NA	NA	NA	NA	NA
BMS010_00369	2235	rsh		GTP pyrophosphokinase rsh	ATGATGCGGCAATACGAACTCGTCGAGCGGGTTCAAAAATATAAACCGGATGCGAATGAGGCCCTGCTGAACAAGGCCTATGTTTACGCCATGCAGAAACACGGCCAGCAGAAGCGGGCCAATGGCGACCCCTATATTTCGCATCCGCTGGAAGTTGCCGCGATCCTCACCGAAATGCATCTCGACGAATCGACCATCGCGGTGGCGTTGCTGCACGATACGATCGAGGACACCACCGCCACCCGCGCCGAAATCGACGAGTTGTTCGGCGAAGATATCGGCCGGCTGGTGGAGGGGCTGACCAAGCTCAAGAAGCTCGACCTCGTCACCCGCAAGGCCAAGCAGGCGGAAAACCTGCGCAAGCTGCTGCTCGCCATTTCCGACGACGTGCGCGTTCTTCTGGTGAAGCTCGCAGACCGTCTGCACAATATGCGCACCATGGAATATATGCCGGCCGACAAGCGCAGCCGCATTTCCGAAGAAACCATGGAAATCTATGCGCCGCTCGCCGGCCGCATGGGCATGCAGGATATGCGCGACGAGCTGGAGGACCTGTCCTTCCGATATCTCAACCCGGAAGCCTATGGCACGGTGACGAACCGCCTGCAGGAACTGGAAACGCGCAATGAAGGGCTGATCAAAAAGATCGAGGACGAGCTGCGCGAGCTTCTCGTGGCGAATGGTCTGGTCGGCGCCAATGTCAAAGGGCGGCAGAAGAAACCCTATTCGGTGTTCCGCAAGATGCAGTCGAAGTCGCTTTCATTCGAGCAGCTTTCCGATGTCTACGGTTTCCGCATTCTGGTGGATGACATTCCATCCTGCTACCGGGCGCTGGGTGTCGTGCATACCCGCTGGCGCGTCGTGCCGGGCCGCTTCAAGGATTATATCTCGACACCCAAGCAGAACGACTATCGTTCCATCCACACCACCATCGTCGGCCCGTCGCGCCAGCGTATCGAGCTGCAGATCCGCACCAAGCGCATGCATGAGATCGCCGAATTCGGTATCGCCGCCCATGCGCTTTACAAGGATGGCGAAAACGGGGAGGGCGATCTGCTCTCGCCAGAATCGAACGCCTATTCCTGGCTGCGCCACACCATCGAATCGCTGGCCGAAGGCGACAGCCCGGAAGAATTCCTCGAGCACACCAAGCTCGAACTGTTCCAGGATCAGGTGTTCTGCTTCACGCCCAAAGGCAAGCTGATTGCCCTGCCGCGCGGCGCAACCCCCATCGATTTCGCCTATGCGGTGCACACCAATATCGGTGACACCACGGTTGGCGCGAAGATCAACGGCCGGATCATGCCGCTCGTCACCCGCCTGAACAACGGCGACGAGGTGGAGATCATCCGCTCCGGCGTGCAGGTGCCGCCTGCCGCATGGGAAGAGGTGGTGGTGACGGGCAAGGCCCGCTCGGCTATCCGCCGCGCCACCCGCATGGCCATCCGCAAGCAATATTCCGGCCTCGGTTATCGCATTCTGGAGCGCACCTTCGAGCGCGCCGGCAAGGCCTTCTCCCGTGAAGCGCTAAAGCCCGTGCTGCATCGTCTGGCGCAGAAGGACGTGGAAGATGCCATCGCCGCCGTCGGCCGTGGCGAGGTTTCTTCGCTCGATGTCCTGCGCGCGGTGTTCCCGGATTATCAGGACGAGCGTGTCACGGTGAAGATGACCGGCGACGATGGCTGGTTCAACATGCGCAGCGCCTCCGGCATGGTCTTCAAGATCCCCGGCAAGTCGCGCTCGGTGCTTGAGGACGACGGCGCGGCCGAGATGCTGGATGGACCGGACCCGCTGCCCATCCGTGGCCTTTCCGGCAATGTCGATGTGCATTTCGGTGCTGCCGGCGCCGTTCCGGGTGACCGCATCGTCGGCATCATGGAAAAAGGCAAGGGCATCACCATCTATCCGATTCAGGCGCCGGCGCTGCAACGCTTCGACGACGAGCCGGAGCGGTGGATCGATGTGCGCTGGGATCTCGATGAGGCGAACAAGTCGCGCTTCATGGCGCGGGTGATGATCAATGCGCTGAACGAGCCGGGCACGCTCGCCTCGGTGGCGCAGTCCATCGCGACGCTCGATGTCAATATTCGCGGCCTCAACATGGTCCGCATCGGCACGGATTTCTCCGAGCTGGCGCTGGACGTCGAAGTCTGGGATCTCAGGCAGCTGAACCAGCTTCTGTCGCAGCTCAAGGATCTCGATTGCGTCTCGACCGTGACGCGTGCCTTCGATTGA	MMRQYELVERVQKYKPDANEALLNKAYVYAMQKHGQQKRANGDPYISHPLEVAAILTEMHLDESTIAVALLHDTIEDTTATRAEIDELFGEDIGRLVEGLTKLKKLDLVTRKAKQAENLRKLLLAISDDVRVLLVKLADRLHNMRTMEYMPADKRSRISEETMEIYAPLAGRMGMQDMRDELEDLSFRYLNPEAYGTVTNRLQELETRNEGLIKKIEDELRELLVANGLVGANVKGRQKKPYSVFRKMQSKSLSFEQLSDVYGFRILVDDIPSCYRALGVVHTRWRVVPGRFKDYISTPKQNDYRSIHTTIVGPSRQRIELQIRTKRMHEIAEFGIAAHALYKDGENGEGDLLSPESNAYSWLRHTIESLAEGDSPEEFLEHTKLELFQDQVFCFTPKGKLIALPRGATPIDFAYAVHTNIGDTTVGAKINGRIMPLVTRLNNGDEVEIIRSGVQVPPAAWEEVVVTGKARSAIRRATRMAIRKQYSGLGYRILERTFERAGKAFSREALKPVLHRLAQKDVEDAIAAVGRGEVSSLDVLRAVFPDYQDERVTVKMTGDDGWFNMRSASGMVFKIPGKSRSVLEDDGAAEMLDGPDPLPIRGLSGNVDVHFGAAGAVPGDRIVGIMEKGKGITIYPIQAPALQRFDDEPERWIDVRWDLDEANKSRFMARVMINALNEPGTLASVAQSIATLDVNIRGLNMVRIGTDFSELALDVEVWDLRQLNQLLSQLKDLDCVSTVTRAFD	PGPT0014310_1663	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014310-spoT-K01139	NA	NA
BMS010_00370	147			hypothetical protein	ATGTTTACTCCGCTTCGCAAGATCGCCCGTGCCGTTCGTGGCAAGACCACCCAGGAACGCGAATTCGAATATCTCAGCGGCTCGGTATCGAATGTCGACCTCGAGTTCCGCCAGCGCGAAATCGACCGCGGCCTGTTCCGCCGGTAA	MFTPLRKIARAVRGKTTQEREFEYLSGSVSNVDLEFRQREIDRGLFRR				NA	NA	NA	NA	NA
BMS010_00371	579			hypothetical protein	ATGCCGTTTCGCCGCCGTGAACCCGTTGGTTTTTCAGAGAAGATTCGCGACCTCTTCTGGCCGCGTACGGGTTTTTCCCGTTCGTTGCGCTATATGAAGCTGCGCCTTCTGCGGCTTTCCGCCTCTCCGCATTCGGTTGCCGCCGGTGTCGCTCTCGGTGTCGGCGTGGCGTGGACACCGTTTCTCGGCGTTCACATCATCATCGCCATGGCGCTGGGTTTTCTAATGCGCGTCAATCTCGTGGCGGCAGCGCTCGGCACCACCTTCGCCAATCCGCTGACATTTCCCTTCATCTGGGCATCCACCTGGGAGCTGGGGCACTTCATCCTCGGTCGGCACAAGACGGAAAGCGCTGCGCATGTGGATTTCGTGGCGATGTTCAGCCATCTTGAGTTCCGGCAGATATGGACGCCGGTGCTGGAACCCATGACCATCGGCGCGCTGCTTCCTGCCGTTATCAGCGCAATCATCGCCTATATCGCCGTCTATGGTCTCATCAGCGGTTTCCAGCGCCGCAAGATGGAAAACCTCGCGCATCGCGCCGCCAACAAGAATGCTTCTCTGGAGATGCTGAAATGA	MPFRRREPVGFSEKIRDLFWPRTGFSRSLRYMKLRLLRLSASPHSVAAGVALGVGVAWTPFLGVHIIIAMALGFLMRVNLVAAALGTTFANPLTFPFIWASTWELGHFILGRHKTESAAHVDFVAMFSHLEFRQIWTPVLEPMTIGALLPAVISAIIAYIAVYGLISGFQRRKMENLAHRAANKNASLEMLK				NA	NA	NA	NA	NA
BMS010_00372	405	acpS	COG0736	Holo-[acyl-carrier-protein] synthase	ATGATCATTGGATTGGGCAGCGACCTGATCGATATTCGCCGCGTTGAAAAGTCGATCGAACGTTTCGGCGAGCGCTTCACCCATCGCTGTTTCACCGATATCGAGCGCGCCAAATCCGATGGCCGCAAGAACCGCGCCGCTTCCTATGCCAAACGTTTCGCCGCCAAGGAAGCCTGTTCCAAGGCGCTGGGAACAGGCCTTGCGAACGGCGTTTTCTGGAAGGATATGGGCGTCGTCAATCTGCCGGGCGGCAAGCCGACCATGGTGTTGACCAATGGGGCAGGGGAAAGGCTGGCGGCGCTGCTGCCCGCCGGCCACCGCGCCAATATTCACCTGACGATCACGGACGATTTTCCTTACGCTCAGGCATTTGTGATTATCGAGGCGCTTCCCTTGAACGGGTAA	MIIGLGSDLIDIRRVEKSIERFGERFTHRCFTDIERAKSDGRKNRAASYAKRFAAKEACSKALGTGLANGVFWKDMGVVNLPGGKPTMVLTNGAGERLAALLPAGHRANIHLTITDDFPYAQAFVIIEALPLNG	PGPT0008840_1065	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0008840-acpS-K00997	NA	NA
BMS010_00373	747	lepB_1	COG0681	Signal peptidase I	GTGTCGGAAAAAGCTGAAAAGAAGCAGAACGCCCTCTGGGAGAACGTCAAGGTCATTATTCAGGCGCTGCTGCTGGCCATGGTCATCCGCACCGTGCTGTTTCAGCCCTTCACGATTCCGTCCGGCTCGATGATGCCGACGCTTCTGGTTGGCGACTATCTTTTCGTCAACAAGTTCTCCTACGGCTATTCGAAATATTCGCTGCCTTTCTCGCCGAACCTGTTTTCGGGCCGCATTCTGGAATTCAGCAAGCCGAAGCGCGGCGATGTCGTGGTCTTCCGCCTGCCGCCCAATCCTGAAGTCGATTATATCAAGCGTCTCGTCGGCCTGCCGGGTGATCGCATCCAGGTGACGAACGGCGTGCTGTTTATCAACGGCCAGCCGGTGCCGAAGCAGCCCGACGGCACCTTCACATCGGATTATCGCGCCGATCCAGGCGCCAATGTACCTGTCTTCCGCGAAACGCTTGATAATGGCGTTACCTACGACACGCTCGACCAGTCGCCTGATTCGCGTGGCGACAACACGCGTGAATTCGTGGTGCCGGAAGGCCATTATTTCATGATGGGCGACAATCGCGACAATTCGCTCGACAGCCGTTTCGACGTTGGTTTCGTACCGGAAGAAAACCTGATCGGCCGCGCCAGCGTCATCTTCTTCTCGCTGGGCAATGACACGCCGTTCAGCCGCATTTGGGAATGGCCGGCCAACATGCGTTGGGACCGCCTCTTCAAGGTTGTGGAATGA	MSEKAEKKQNALWENVKVIIQALLLAMVIRTVLFQPFTIPSGSMMPTLLVGDYLFVNKFSYGYSKYSLPFSPNLFSGRILEFSKPKRGDVVVFRLPPNPEVDYIKRLVGLPGDRIQVTNGVLFINGQPVPKQPDGTFTSDYRADPGANVPVFRETLDNGVTYDTLDQSPDSRGDNTREFVVPEGHYFMMGDNRDNSLDSRFDVGFVPEENLIGRASVIFFSLGNDTPFSRIWEWPANMRWDRLFKVVE				NA	NA	NA	NA	NA
BMS010_00374	720	rnc_1	COG0571	Ribonuclease 3	ATGAGCAAGACCAAGCCGCTTTCGGCCGACGAGATTTCCCGTCTGGAAGCGTTGATCGGATATGAATTCAAGGAAAAGGCCCGGCTCGACCGGGCCTTGACCCATGCCAGTGCCCGCTCGGCGGCGGCCGGCAATTACGAGCGGCTGGAATTTCTAGGCGACCGTGTTCTCGGTCTCTGCGTTGCCGAATTGCTGTTCTCCACCTTCCGCAACGCCACCGAAGGCGAGCTTTCGGTCCGTCTGAACCAGCTCGTCAGCGCCGAATCCTGTGCCGCGATCGGTGACGAGATGGGCCTGCATAATTTCATCCGCACCGGCTCGGATGTGAAGAAACTGACCGGCAAGGCGATGCTGAACGTGCGCGCCGATGTCGTCGAAAGCCTGATCGCCACCATCTATCTGGATGGCGGGCTGGAAGCATCGCGCAAATTCGTTCTGAAATACTGGCAGGGCCGCGCAACCAGCGTGGATGCCGGGCGGCGCGACGCCAAGACCGAGTTGCAGGAATGGGCGCATGCCAGATTTGCGGTGACGCCCTCTTACCGGGTTGACGATCGCTCCGGACCGGATCACGATCCCCGCTTTACGGTGACTGTCGAAATTCCCGGCGTGAAGCCGGAAACCGGTGTCGAGCGCTCCAAGCGCGCGGCCGAGCAGGTGGCGGCAACAAGATTGCTGGAACGCGAAGGCGTCTGGCAGAAGACCTCCACCCGGAACTGA	MSKTKPLSADEISRLEALIGYEFKEKARLDRALTHASARSAAAGNYERLEFLGDRVLGLCVAELLFSTFRNATEGELSVRLNQLVSAESCAAIGDEMGLHNFIRTGSDVKKLTGKAMLNVRADVVESLIATIYLDGGLEASRKFVLKYWQGRATSVDAGRRDAKTELQEWAHARFAVTPSYRVDDRSGPDHDPRFTVTVEIPGVKPETGVERSKRAAEQVAATRLLEREGVWQKTSTRN				NA	NA	NA	NA	NA
BMS010_00375	951	era_1		GTPase Era	ATGGATATCATGACCGATCACGAAAACCCCGCCATGACTGGCGAAGATGCAGCCCTTCCGACCCGCTCCGGCTTCGTGGCCCTCATCGGCCCCACAAATGCCGGCAAGTCGACGCTGGTGAACCGTCTGGTGGGCGCCAAGGTTTCGATCGTCAGCCACAAGGTGCAGACGACGCGCGCCGTGATGCGCGGCATCGCCATTCACGACAATGCCCAGATCGTTTTCATGGACACGCCCGGCATCTTCAAGCCGCGCCGCCGGCTGGACCGCGCCATGGTCACCTCCGCCTGGGGCGGCGCGAAGGATGCCGATCTCATCCTGCTGCTGATCGACAGCGAACGTGGCCTGAAGGGCGATGCGGAAACCATCCTCGAAGGTCTGAAGGATGTCCCGCAGAAGAAGATCCTCTGCCTCAACAAGATCGACCAGGTGAAGCGCGAAGACCTTCTGAAACTCGCCGCCGCCGCCAATGAGACGGTCGCTTTCGACCGCACCTTCATGATCTCGGCGACCAACGGTTCGGGCTGCGACGACCTGATGAACTATCTGGCCGCCGAACTGCCGGAAGGCCCGTGGTATTATCCGGAAGACCAGATTTCCGATCTGCCGATGCGCCAGCTCGCAGCCGAAATCACCCGCGAAAAACTGTTCCTGCGCCTGCATCAGGAGCTTCCCTACGCCTCGCATGTCGAGACCGAAAAATGGGAAGAACGCAAGGATGGCTCCGTGCGCATCGAGCAGGTGATCTATGTCGAGCGCGACAGCCAGAAAAAGATTGCGCTCGGCAAGAACGGCGATGCGATCAAGGCCATCTCCACCGCCTCGCGCAAGGAGCTGTCGGAAATCCTAGAGCAGCCGGTGCATCTCTTCCTGTTCGTCAAGGTGCGCGAGAACTGGGGCGACGACCCCGAGCGCTTCCGTGAAATGGGACTGGAGTTCCCGCGGGGGTAA	MDIMTDHENPAMTGEDAALPTRSGFVALIGPTNAGKSTLVNRLVGAKVSIVSHKVQTTRAVMRGIAIHDNAQIVFMDTPGIFKPRRRLDRAMVTSAWGGAKDADLILLLIDSERGLKGDAETILEGLKDVPQKKILCLNKIDQVKREDLLKLAAAANETVAFDRTFMISATNGSGCDDLMNYLAAELPEGPWYYPEDQISDLPMRQLAAEITREKLFLRLHQELPYASHVETEKWEERKDGSVRIEQVIYVERDSQKKIALGKNGDAIKAISTASRKELSEILEQPVHLFLFVKVRENWGDDPERFREMGLEFPRG				NA	NA	NA	NA	NA
BMS010_00376	753	fixK_1	COG0664	Nitrogen fixation regulation protein FixK	ATGTCGCCAAAAAAACCGAACGGAATTTCCACCACCCCGTGCCAGCAATGTCCCCTGCGCGACCTGCCGCATTTCCGGGATTTTTCCTCTTCCGAACTGGATTTCGTCTCGCGTTTCAAGACGGGGGAACTTGCGGTGGAAAGCGGCTCCGTCATCCTGATGGAAGGCTCGCACAGCGCCCATCTTTACACCGTTCTGCAGGGCTGGGCTTTCCGTTACAAGACGCTTGAGGACGGTCGGCGGCAAATCCTCAACTATGTCATGCCCGGCGATCTCGTCGGTCTTCAGGGCACGGTGATGGGGGAAATGCAGCATTCGGTGGAGGCGCTGTCGCCGGTGACGCTCTGCGTCTTCGAGCGCTCCCGCCTCAACAACCTCTTCACCGATCACCCGACGCTTGCCTATGACCTCACCTGGATCGCGGCGAGCGAGGAACGCATGCTGGACAACCACCTTCTCAGCATCGGCCGCCGCACCGCGCTGGAACGCGCCGCCTATCTGATCGCGTTTCTTTATCGCAAGGCGAAAGCGGTCAACCTCATCCCCGGCGAAACACCGATCCCGGTCACCCAGCAACACGTTGCCGATACGCTTGGCCTGTCCATCGTTCACACCAACAAGACCTTGAGAAAGCTCGTCGATCGCGGTCTCATCCGCTGGACGGACAAGGGTTGTCTGGTGCTGGACGATGCCGGCTTGACCAACGTGGCGGGTTGGGAAAGCGATGAAAAGCGGCAGAGGCCCTTCATCTGA	MSPKKPNGISTTPCQQCPLRDLPHFRDFSSSELDFVSRFKTGELAVESGSVILMEGSHSAHLYTVLQGWAFRYKTLEDGRRQILNYVMPGDLVGLQGTVMGEMQHSVEALSPVTLCVFERSRLNNLFTDHPTLAYDLTWIAASEERMLDNHLLSIGRRTALERAAYLIAFLYRKAKAVNLIPGETPIPVTQQHVADTLGLSIVHTNKTLRKLVDRGLIRWTDKGCLVLDDAGLTNVAGWESDEKRQRPFI	PGPT0000515_691	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0000515-fnr-K01420	NA	NA
BMS010_00377	435			hypothetical protein	ATGTCGGAGACCGCAGCTTCGAGCCGTGCGGTCCTCTTTTTGGGAAGAAGAAAACATATGGTGCCACAACGGGTTATCATCGTTGAGGATGAATATCTGGTGGCGCTCGATGTCGAAGCGGTTCTCCAGTCCATGGGGGTGGAATCCGTCGCCATCGCCACCACGCTTGCGCAGGCGAGGCAGGCTGTCGAAGAGGACGGCGCAGATTGCGTGCTTCTCGATGTCAGCCTCACCGACGGCAAGAGCTACGATTTCGCGCGCGGGCTGCGCGACGCGGGCATTCCCTTCGGTTTCGTCAGCGGTTATGGTGACACGACGGGTTTTCCGGAAGATCTCACGCACGCGCCGTTGCTCGGCAAACCCTTCGGGGAAAACGAGATTATCGATTTCGTTCTCAACCTCGTCGGCGTGGTTGACGGTGCCGTAAAAGAATAA	MSETAASSRAVLFLGRRKHMVPQRVIIVEDEYLVALDVEAVLQSMGVESVAIATTLAQARQAVEEDGADCVLLDVSLTDGKSYDFARGLRDAGIPFGFVSGYGDTTGFPEDLTHAPLLGKPFGENEIIDFVLNLVGVVDGAVKE				NA	NA	NA	NA	NA
BMS010_00378	780	recO_1		DNA repair protein RecO	ATGCAGTGGCAGGAAGAGGCAATCATTCTCGGCGTCAAACGCCATGGCGAGACGAGTGTCATCGCCGAGGTGATGACCCCTTCGCGTGGCCGCCATCTGGGCCTGGTGCGTTCCGGCCGTTCCCGCAGCATGCAGCCTGTGCTACAGGCGGGCAACCGGGTGGATGTCATCTGGCGGGCGCGCCTCCACGATCATCTGGGTGAATTCCGCATCGAGCCGCTGCAACTGCGCGCTGCGCAGTTGATGGAAACAGCGACCGCCGTTTATGGTGTGCAGGCCATGGGCGCGTTGCTCAGGCTTCTGCCGGAGCGCGATCCGCACCCGCATCTCTATCAGGCGCTGGATATCATTCTCGACAATCTGCATGACCCCGTCGATGCCGGGGAATTGTTCGTGCGCTTCGAACTGGCGGTGCTGAACGAACTCGGTTTCGGGCTCAATCTTACCGAATGCGCGGCGACGGGGCTGCGCACCGACCTCATCTATGTATCGCCGAAAACGGGCAGGGCGGTTTGCCGCACGGCAGGTGCGCCCTATGCGGAGCGGATGCTGTCGCTTCCGGCTTTCTTGAGCGAAGGCCAGTCGAAGGCCGCCGATCCCGACAGCCTCGCGGCTGCTTTCCGCCTCACCGCTCATTTCCTCAACCGGCATGTCTATGATCCGCGTGGCCTCAACGAAAACGCCGCCCGCGACGGTTTCGTGCAGGCGGCGCTGAAGGCGCTTGAGCGTAGGGCGACGGAGGGCAGGGCGATGTCGCCCGCCCTCGATAAGGCCGTCTGA	MQWQEEAIILGVKRHGETSVIAEVMTPSRGRHLGLVRSGRSRSMQPVLQAGNRVDVIWRARLHDHLGEFRIEPLQLRAAQLMETATAVYGVQAMGALLRLLPERDPHPHLYQALDIILDNLHDPVDAGELFVRFELAVLNELGFGLNLTECAATGLRTDLIYVSPKTGRAVCRTAGAPYAERMLSLPAFLSEGQSKAADPDSLAAAFRLTAHFLNRHVYDPRGLNENAARDGFVQAALKALERRATEGRAMSPALDKAV				NA	NA	NA	NA	NA
BMS010_00379	1215			L-lactate transporter	ATGTCGCAAGCCACACGCCAGACCATGCCCTGGCTGATTATCGCCGCCGGGTCGCTGATCGCGGTCATGACCTTCGGCCCCCGTTCCGCCATGGGCTTTTTCCAGCTGCCGATGCTCGCCGATACCGGGTGGGACCGTTCCACCTTCGGTCTCGCCATGGCCCTGCAGAACCTCTTCTGGGGGCTCGGTCAGCCCTTCTTTGGCGCCATCGCCGATAAATACGGCACTGGCCGCGTGCTGGTGCTTTCCGGCCTGCTTTATGCCGCCGGCCTCATCTGCATGTCCTTCGGCACCTCGCCCTTCTGGCTGCATTTCGGCGGCGGCGTTCTCGTCGGGCTCGGCATTGCCGCCGGCTCCTTCAGCGTTATCCTTTCGGCCTTTGCGCGCCATGTCACGCCGCAGCAGCGTTCGCTCGCCTTCGGCATCGGCACCGCGGCGGGCTCAGCCGGCATGTTCCTGTTCGCGCCGATCAGCCAGGGCCTGATTTCCACCTATGGCTGGTCGGACAGCCTCGTCTGGCTTGCCGCGATGATGATGCTCGTGCCGCTGCTCGCCTTTCCGATGCGTGGCAATTCCTCTTCCGGCAGCCAGTCGCAGGCGCAGTTCCAGCAGACGGCGGGCGAAGCGCTGAAAGAAGCGCTCGGCCATAAAAGCTACCTGCTTTTGACCACGGGCTTTTTCGTCTGCGGTTTTCAGGTGGCCTTCATCACCGCGCATTTCCCGGCCTATCTCGGCGATATTGGCATCGAACCGCGCTACGCCGTAATCGCCATGGCGCTGATCGGCTTCTTCAACATCATCGGGTCGCTTGCCGCCGGCGTCATCGCCCAGCGTTATTCGAAACCCTATCTGCTGGCCTATATCTATATCGCCCGCTCGGTTGCCGTCACCGCTTTCCTGCTCCTGCCGCAATCGCCGCTTTCAGTCATCATCTTTGCGGCCGTCATGGGCATTCTCTGGCTTTCCACCGTGCCGCCGACCAATGCGCTGGTGGCGATCATGTTCGGTACGCGCCATCTCGGCATGCTCGGCGGCGTCGTGTTCCTGTCGCACCAGATCGGCTCGTTCCTCGGCGTCTGGCTCGGCGGCTTCCTTTATGACAGGCTGGGTTCTTATGATCTCGTCTGGTGGCTGGGCGTCGGCATGGGGATTTTGGCGGCCATCGTGCATTGGCCCATTCAGGAGCGACCGGCTCCGAGGCCTGCAATGGCCTAG	MSQATRQTMPWLIIAAGSLIAVMTFGPRSAMGFFQLPMLADTGWDRSTFGLAMALQNLFWGLGQPFFGAIADKYGTGRVLVLSGLLYAAGLICMSFGTSPFWLHFGGGVLVGLGIAAGSFSVILSAFARHVTPQQRSLAFGIGTAAGSAGMFLFAPISQGLISTYGWSDSLVWLAAMMMLVPLLAFPMRGNSSSGSQSQAQFQQTAGEALKEALGHKSYLLLTTGFFVCGFQVAFITAHFPAYLGDIGIEPRYAVIAMALIGFFNIIGSLAAGVIAQRYSKPYLLAYIYIARSVAVTAFLLLPQSPLSVIIFAAVMGILWLSTVPPTNALVAIMFGTRHLGMLGGVVFLSHQIGSFLGVWLGGFLYDRLGSYDLVWWLGVGMGILAAIVHWPIQERPAPRPAMA				NA	NA	NA	NA	NA
BMS010_00380	735	COQ5_1		2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial	ATGAAACAGAATATCTACGACGATCCCGGGTTTTTCGAGCGCTATAGCGCCATGCCGCGCTCTGTGGAAGGTCTGCGTCAGGCCGGCGAGTGGCATGAATTGCGCGCCATGCTGCCGGAGCTGAAAGGCACGGATTTTCTCGATCTCGGCTGTGGTTTCGGCTGGCATTGCCGTTATGCCGCAGAGCAGGGGGCGGCCCATATCGTTGGCGTCGATCTGTCGGAGAATATGCTGCGCCGTGCCGCCGAGATAAATGGCGGGCCCGGCATCGAATACCGTCGAGCCGCTATCGAAGACATCGATTTTCCGCAGGAAAGTTTCGATGTGGTGCTCAGTTCTCTCGCCCTGCATTACGTTCGTGATCTCGACATGGCATTCGAAAAGATTTTCAACGTGCTGAAATCCGGCGGCGATTTCATCTTTTCCATCGAACATCCCGTTTTCACGGCGCTGGAAAAACAGGACTGGTTTTATGGCGAGGATGGCGAAATCCTGCACTGGCCGCTCGATAACTATCAAAGCGAGGGCGTGCGCCACTCCAACTGGATGGCGGACGATGTGGTCAAATATCACCGCACGATGTCAGGCATTCTCAACAGCCTGCTTTCTGCCGGCTTTGCCCTGACGCGTCTGGCCGAGCCGAGGCCCGATCCCGCCTTGCTCGCGGAGCGACCGGAGATGAAGCACGAAGATCGCCGCCCGATCTTTCTGATCGTCAGCGCTCGCAAGCCGTGA	MKQNIYDDPGFFERYSAMPRSVEGLRQAGEWHELRAMLPELKGTDFLDLGCGFGWHCRYAAEQGAAHIVGVDLSENMLRRAAEINGGPGIEYRRAAIEDIDFPQESFDVVLSSLALHYVRDLDMAFEKIFNVLKSGGDFIFSIEHPVFTALEKQDWFYGEDGEILHWPLDNYQSEGVRHSNWMADDVVKYHRTMSGILNSLLSAGFALTRLAEPRPDPALLAERPEMKHEDRRPIFLIVSARKP	PGPT0027230_1486	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_III_R-M_SYSTEM,PGPT0027230-mod-K07316	NA	NA
BMS010_00381	843	ycbX_1	COG0633	putative protein YcbX	ATGCGTGTGACCGAGCTCAACATCTATCCGCTGAAAAGCGCGCGCGGCATTCCCCTCTCCGAAAGCACTGTTTCGGCCGAAGGCCTGCCGGGCGACCGCCGCGCCATGCTCATCGATCCCACCGGTCATTTCATCACCCAGCGCGAATTGCCGGCCATCGCTACGGTTCTGGCCCGGCATGACGATGGCGGCATGGTGCTTTCCCGGGAAGCAAATGGCGAGGTTCTCGCAAGACCTTCCGGAGAGCGCATGGATGTGGCGGTGTGGAAATCGATCGTCAGCGCCAATATCGCCGATGGTGAGACCAACGACACGCTCTCGGCATGGCTGGGGCGTGAGGTGAAGCTGGTGTTCTTCGACGACGCCTCGAAACGTATTGCAAGCCTGGAATGGACCGGCAATGAAACGCCCGTCACCTTTGCGGACGGTTACCAGATCCTCGTCACTACCACCGCCTCGCTTGCCGCGCTGAACGACAATATGCGCGCCAATGGTGAGGACGCGGTCGGCATGGAACGCTTCCGGCCCAATATCGTGCTTGATACGGACGAGCCATGGGCCGAGGACCGCTGGGCGGCCATCGAGATCGGCGGCATTCGCTTCGATCTCGTCAAACCCTGCGCCCGCTGCATCATGACCACGCAGGACCAGACGACCGGCTCCCGCGATGTGCCCTCCCCCATGAAAGCCATGGGCCGCATCCGCATGTCCGGCGACCGGCGCGTGCCCGGCCCGCTGTTCGGCTGGAACGTGACGCCGCGGGGCGAAGGCAGGCTGTCCGTCGGTGATGTGGCGAAGGTGATCGAGGAAAGGCCGGAAGGCTGGGCGATCAAGCGGCGGTAA	MRVTELNIYPLKSARGIPLSESTVSAEGLPGDRRAMLIDPTGHFITQRELPAIATVLARHDDGGMVLSREANGEVLARPSGERMDVAVWKSIVSANIADGETNDTLSAWLGREVKLVFFDDASKRIASLEWTGNETPVTFADGYQILVTTTASLAALNDNMRANGEDAVGMERFRPNIVLDTDEPWAEDRWAAIEIGGIRFDLVKPCARCIMTTQDQTTGSRDVPSPMKAMGRIRMSGDRRVPGPLFGWNVTPRGEGRLSVGDVAKVIEERPEGWAIKRR				NA	NA	NA	NA	NA
BMS010_00382	645	yedJ	COG1418	putative protein YedJ	ATGATCGCGGCCGATGCTTTCGCGCCCTATGCGGCGCTTGCGCAGGACCTGATACCGCACGCCGCCGGTACGGGCGACGGCTCGCATGATCTTGCCCATATTCACCGCGTCTTCCGCAACGCCATGCGTATCCATGCGGGCGAAGGCGGCGATGGCACCGTGCTGGCCGCCAGCGTGCTGTTGCATGATTGCGTGGCGGTGGAGAAGAACTCGCCGCTCCGCGCGCAGGCCTCACGGCTCGCGGCGGAAAAAGCCTCGGGCATTCTTGAAGCCCTTGGCTGGCGACGCAGCGATATCGACGCCGCCGCCCATGCCATCACCACCCACAGCTTTTCAGCCAATATAGAGCCGCAGACGCTGGAGGCGAAAATCCTTCAGGATGCCGACCGGCTGGACGCCATCGGCATGGTGGGAGCGGCGCGCTGCTTTTATATTGCGGGACGCATGGGCTCGGCTCTCTACGACCCGGTCGACCCGCTGGCGAAGGAGCGGCCGCTTGACGACCGCGCCTTTGCCATCGACCATTTCGAAACCAAGCTGTTCAAGCTGGCCGACGGCTTTCGCACCGAGACGGGCCGGCAGATGGCCAAGGCCCGCCATGAGCGGCTGAAACAGGTGCTGGACCTGTTTCTCGACGAGATTTGA	MIAADAFAPYAALAQDLIPHAAGTGDGSHDLAHIHRVFRNAMRIHAGEGGDGTVLAASVLLHDCVAVEKNSPLRAQASRLAAEKASGILEALGWRRSDIDAAAHAITTHSFSANIEPQTLEAKILQDADRLDAIGMVGAARCFYIAGRMGSALYDPVDPLAKERPLDDRAFAIDHFETKLFKLADGFRTETGRQMAKARHERLKQVLDLFLDEI				NA	NA	NA	NA	NA
BMS010_00383	2772			hypothetical protein	TTGGAAATCCCGCTGTTTATCCTCGCCCTCGTCGCGGCCTTCATCTACACGCTGGTCGCGAGCATCCGCAACTCAAGTCGAATCAAGTCGCTGGAACGGGAAGTTCTCAGTCTCAAGCGGCTGATGGCTGCGGGCGTGACGTCGCCTGTGGCGGCGCAGGCGGAGAACGCGGAATCCACGGCAAAACCGGATTTCGAGGCGGAAGAGAAAAGCAGGGCGCCTGCGGAAGACGCAGCCTTCCAGGCTGAATATGCATCCGAGCCCCAGGAAGCCGCCGCCATGGTGCAAGCGGAAGACGTCGTCCGAGAGGAAGCACCTTCCGCTCCTGTCAGCGAGGCGGCATCCGCTCAGGCGACGAAGGAAAGCTTCGAAAGCCTGCTCGGCGCGCGCTGGGCCGTCTGGGCCGGCGGGCTGGCGCTGGCGCTCGGCGGTATTTTCCTCGTCAAATATTCGATCGAATCGGGGCTGCTCAGCCCGGCGGTCAGGCTGTCGCTCGCCGCCATTTTCGGCCTCCTCCTCGGGCTTGCCGGCGAGGCTGTCCGCCGCAAGGCGGTGCCGGGCATCGCTGCCACCTATTCCAACGCCATGATACCGGGCGTGCTGACGGCGGCCGGCGCCTTGACGCTGTTCGGCGTGGTTTATGCGGCCTATGGCATTTATGGCTATATCGGCCCCGGCGTGGCTTTTGGCCTGCTTGGGCTCGTCGCCTTCGCCACCATCGGGCTTTCGCTGCTGCACGGGCAGGCGCTGGCCGGTCTCGGCCTTCTCGGTTCGATGTTGACGCCGGCGCTGATTTCCACCGAAACGCCGAATATCTGGGCGCTCTTCGTGTTCCTCACCATCTCCTGGCTGGCAACAGCGGCCGCGGCGCGCAGGCAGGGCTGGACCGTGGTTCCCTCTCTCGCCAATGCCGGCCTCGGCCTCTGGGCGCTCGGCTATATCGGATTTTCCGAAACGATCAGCGCCGAACCGCCAACGCTTGCCCTGCTCGTCATGCTGGCGGGAACCATATTCCTCTGGCCCGGAAAGACATTCGACACGCCGCCTGCCGAGGCCGGCGAAACCGCCGCTCCCGAGCGGCGCGCCATCCGCGCCCTGCGCCTTCTGCTGCGGCCGTCGCTTGCTCTCAATCTCACCGTGTCGATGGCTGTGATCCTGCCGGCCATGGGTTTCCTGTTTGCCGATGGCGGTATCGACACCCATCCGGCACTCATCGTTTCAGCGCTCATCGCCGCCCTTGCGGCCCTTGGCGCCGCCCGCCACTATGCGGTATGGCCCGCCATTATCGCAGCGCTCGGTGCGCAGGCTGCCGTGTCGCTGATGTCGCAGCAGGGCATCGACTTCATTGGCCTTATCAACGATACGTCCGTGTCCCTTCCGCCCGTATCGGTCGGCTACACGGCGGAAATCGCCATGGCGCTCGGCCTCGGGGCTGTCTTCGTGCTCTGCGCCTTCTCTTTCCTGAAACGCAAAGGCGCTGACGATGCGGATTTCGCCCAGCTCTGGGCCGGTCTCGCAGCACTTTTCCCCGTCTGGCTCGCCACCTCAAGCTTTGTCGAATACGGCAATCTCGGCCGTGACTGGCTGCACGCCGCCTATGGCCTCGGCCTTGGGCTGGTGTTGCTTGCGCGCGCCGAGTGGCTGCACCGGCAGAACAACGAGGCCTATCGCAAGCCGCTGAACATCCTCGTGCTCGGCTCCTTCGCCGCCTTTGCGCTTTGCCTGCACACGCTGACTGAGGGGCTTGCGACGACCGTGCTGCTCTCCGTCATCGGTTTCATTTATGTGCTCGCGACACGTCATCGCAACTGGGATGTGCTGCCCTGGGTGATGGCCGTGGCGAGCGTTGCCGTTCTCGGCCGCATCGCCTGGGAACCCACCATTGTCGGGCCGCAGAACCTCGGCACCACGCCGGTCTTCAACGCGCTTCTGCCGGGTTACGGCATTCCCGCACTGCTGGCCGTCGCCTCGGCGTGGCTGCTGCGCGACTGGCCGGGGGTCAGGGCGAAGAACTTCCTGCAGGCGATTGCCAGCGTCATGGGCCTTCTCGCCGTCGCCATCCTCATCCGCCACGCGATGAATGGCGGCACGCTGGATGACAGCGTGCCGACGCTTGGCGAACAGTCGATCTACACGCTGCTGACCATCGGCTTCTCGGGCGTGTTGATGACCCTGGACCTGAAGAGCCCCAGCCCCGTCTTCCGTTACGGCTCGATGATTGCCGGCGTGATTGCCGTCATCAACGTGCTGACGATGCATTTCTTCACGCTCAACCCCTATTTCACCGGCGAAAATACCGGCAGCATTCCGTTCCTCAACCTGCTGCTGATCGGCTACCTGTTGCCGGCGCTCGCCTATGGCGGCCTGGCCTATTATGCGCGCGGAAAACGTCCGCCGCCCTATGTCAGCATGCTGGCGGTGGCTGGCGCCGCACTCGGCTTTGCCTGGGCCACGCTTTCGGTGCGCCGTTTCTGGCAGGGCGAGAACATTGCCGACTGGAAGGGTTTCCTGCAGGGCGAGACCTATAGCTATTCGGTGGTCTGGTTGCTGATCGGCGTGTTGCTGCTCGTGCTCGGCTCGCGCTTCAATGCCCGCAGCCTGCGTCTTGCATCCGCCGCCTTCGTGCTGATCTCGGTTGCCAAGGCCTTCCTGATCGACATGAGCAATCTAGAAGGTGTGCTGAGAGCGCTGTCCTTCATCGGGCTCGGCGCGGTGCTGATCGGCATCGGCCTGTTCTACCAGAAAATCCTCACCCGGAAGCCGCAGGCATGA	MEIPLFILALVAAFIYTLVASIRNSSRIKSLEREVLSLKRLMAAGVTSPVAAQAENAESTAKPDFEAEEKSRAPAEDAAFQAEYASEPQEAAAMVQAEDVVREEAPSAPVSEAASAQATKESFESLLGARWAVWAGGLALALGGIFLVKYSIESGLLSPAVRLSLAAIFGLLLGLAGEAVRRKAVPGIAATYSNAMIPGVLTAAGALTLFGVVYAAYGIYGYIGPGVAFGLLGLVAFATIGLSLLHGQALAGLGLLGSMLTPALISTETPNIWALFVFLTISWLATAAAARRQGWTVVPSLANAGLGLWALGYIGFSETISAEPPTLALLVMLAGTIFLWPGKTFDTPPAEAGETAAPERRAIRALRLLLRPSLALNLTVSMAVILPAMGFLFADGGIDTHPALIVSALIAALAALGAARHYAVWPAIIAALGAQAAVSLMSQQGIDFIGLINDTSVSLPPVSVGYTAEIAMALGLGAVFVLCAFSFLKRKGADDADFAQLWAGLAALFPVWLATSSFVEYGNLGRDWLHAAYGLGLGLVLLARAEWLHRQNNEAYRKPLNILVLGSFAAFALCLHTLTEGLATTVLLSVIGFIYVLATRHRNWDVLPWVMAVASVAVLGRIAWEPTIVGPQNLGTTPVFNALLPGYGIPALLAVASAWLLRDWPGVRAKNFLQAIASVMGLLAVAILIRHAMNGGTLDDSVPTLGEQSIYTLLTIGFSGVLMTLDLKSPSPVFRYGSMIAGVIAVINVLTMHFFTLNPYFTGENTGSIPFLNLLLIGYLLPALAYGGLAYYARGKRPPPYVSMLAVAGAALGFAWATLSVRRFWQGENIADWKGFLQGETYSYSVVWLLIGVLLLVLGSRFNARSLRLASAAFVLISVAKAFLIDMSNLEGVLRALSFIGLGAVLIGIGLFYQKILTRKPQA				NA	NA	NA	NA	NA
BMS010_00384	1560			hypothetical protein	ATGAATTCTGCACTGGGCATACACCACATCACCATGATTACCCGCAAGGTGCAGGCGAATGTGGATTTTTACGCCGGCTTTCTGGGCCTGAGGCTGGCCAAGCGCACGGCCGGTTTCGAAGACGCCATGCAGCTGCACCTGCTTTATGGCGACGATATCGCTTCGCCCGGCTCGCTTCTGACATTTCTCGTCTGGGAAGATGGTGGTCAAGGCCGTGTCGGCTATGGCCAGACGCTGGAGATTTCCGTGGCCATTGATCCCGCCGCCATCGGCTTCTGGCTGACGCGGGCACTGAAATTCGGCATCCGGGCGGAAGGCCCCTCCGATGAGTTCGGCGCTCCGGTCATCCGGCTGAAAGATCCTGACGGCCTGATCGTCAAGCTGGTCGGCACCCACGCCTTTGCCGATGCCACGCCGCATGTGACGGACGATATTTCCGCGGAGGACGCCATTCGCCGCATCTATGGCGCAACGGTGCTGAGCGAAGTGCCGGAAGAAACCGTGGCGTTTCTGGAGAAACATTTCGGTTACCGGCAGGAAAGCCAGGCAGGCGCAATCCGCCGGCTCGTTTCCGAAAGCGGCGACATTATCGACGTGCGCGACGCCACCGGCTTCTGGTCCAGCGCGCCGGGCACCGGCACCGTCGACCATATTGCCTTCCGGGCCAAGGACATGGACGAGCTGAACGCGGTTCATACGGGGCTGAAATCGCTGAATTCCAGCACCACCAATGCCCATGACCGCAAATATTTCCACTCGCTCTATGTCCGCGAACCGGGCGGCGTGCTGATCGAAATGGCGACCGACGGGCCGGGCATGACGGTGGACGAACCGTTGGAATCGCTGGGGGAAAAACTGTTCATCCCGCCGCTCTTCATGAAGGACGAGGCGGATGTGCGTGTCGCCCTGCCACAGTTTGCAATGCCGGGCGAAGAGCGCATCGTCTATCGCGACCTGCCCTTCGTGCACCGTTTCTATACGCCCGAGGAGCCGGATGGCAGCACCATCATCCTGCTGCACGGTTCCGGCGGCAGCGAAACGAGCCTGATGCCGCTCGCGCACCGGGCAGCGCCGCGCGCAACGCTTCTCGGCGTTCGCGGCCGCAGCACGGAGGAAGACATCGCCCGCTGGTTCCGCCGCAATCCCGATTTCAGCTTCGACCAGAAGGATATCGTCTCGGAAGCGGAAGCCTTCGCCGCCTTCGTGGAGGGGGCGATACGGTCCTATGGTCTCGACCGTTCGAAACTGAAGTTTATCGGCCATTCCAATGGCGCAAATTTCTACGCGGCCTTTGCAACGCTTTATCCCGAACTTGCCGGAGACGCCCTGCTCTATCGCCCGATGCCGGTTCTGGAAACATGGCCGCAGACCGATCTTTCCGGCCGCAATGTCCTGCTTGTGGCGGGAGAACGGGACAAATATCTCGACGAGGCTCACGAATTGCAGGGCCGGCTGGCGGCGAGCGGAGCGAGAGCCGAGTTGGAAACGGTTGAGGACGGGCATGAGCTCGGGCTTGCCGATATCGAAGCGGCGCGGCGCTGGCTGGCGGATGTTTCCTGA	MNSALGIHHITMITRKVQANVDFYAGFLGLRLAKRTAGFEDAMQLHLLYGDDIASPGSLLTFLVWEDGGQGRVGYGQTLEISVAIDPAAIGFWLTRALKFGIRAEGPSDEFGAPVIRLKDPDGLIVKLVGTHAFADATPHVTDDISAEDAIRRIYGATVLSEVPEETVAFLEKHFGYRQESQAGAIRRLVSESGDIIDVRDATGFWSSAPGTGTVDHIAFRAKDMDELNAVHTGLKSLNSSTTNAHDRKYFHSLYVREPGGVLIEMATDGPGMTVDEPLESLGEKLFIPPLFMKDEADVRVALPQFAMPGEERIVYRDLPFVHRFYTPEEPDGSTIILLHGSGGSETSLMPLAHRAAPRATLLGVRGRSTEEDIARWFRRNPDFSFDQKDIVSEAEAFAAFVEGAIRSYGLDRSKLKFIGHSNGANFYAAFATLYPELAGDALLYRPMPVLETWPQTDLSGRNVLLVAGERDKYLDEAHELQGRLAASGARAELETVEDGHELGLADIEAARRWLADVS	PGPT0028515_20	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROQUINONE-DERIVATE_RESISTANCE,PGPT0028515-mhqD-K06999	NA	NA
BMS010_00385	1044	ribY	COG0715	Riboflavin-binding protein RibY	ATGATTTTAACGCGCAGGTTGTTGACCAGGGCTCTGACCATTGCCGCCATCGGTGTAACCGCTGGTTTTTCGCTGCCGGTCGTCGAGGCGCGGGCCGAAACGCCGGTGAAATTCACGCTCGACTGGAAGTTCGAAGGCCCCGCCGCCGGTTTCCTGCTGGCGCTCGATAAGGGTTACTTCAAGGCTGAAGGTCTCGATGTCACCATCGATAGCGGCAACGGCTCGGTGGAAGCCATTCCGCGCGTGGCGACCGGCGCCTACCAGATGGGCTTCGGCGACATCAACTCGGTGATGAAGTTCCTCGACGAGGATCCGAGCCAGAAGATCAAAGCCGTTTATATGGTCTATGAACGCCCGACTTTTGCCGTGGTGGGCCGCAAGTCGCTCGGTGTCACCGGCGATCCGAAGTCGCTGGAAGGCAAGAAGCTCGGCGCGCCGCCACCGGATGGCGCGTTTGCGCAATGGCCTGCCTTCAAACAGGTAGCAGGTCTCGATGACAGCAAGATCAAGATCGAATCGATCGGTTTTCCGGTGCGTGAACCGATGCTCGCCAAGGGCGATGTCGACGCCGTTTTCGGCTTTGCCTTTTCGGTGATCCTCAACCTCAAGAAACAGGGCATCGCCGATGACGATATCTCGACCATCCTGATGGCCGAGCACGGCTTGAATCTCTATGGCAATGCGGTGCTGGTAAACACTGATTTCGCAGAGAAAAACCCGGATGCCGTGAAGGGCTTCCTGAAAGCGCTGGCCAAGGGCTTCGCCGATTCCGTCAAGAACCCGGAAGAGGGCGTGGCGGCCGTGCTCAAGCGCAACGAGACGCTCGACAGCGCCATCGAGCTTGAACGCCTCAACATGGCCAACAGCATGAATATCAAGACGCCCTATGTGGTGGAAAACGGCATGGGCGGCGTCGATCCGGCCCGGCTTTCCGCCTCCATCGAGACGCTGAAAGTTTCTCTTGGCCTGAAGGGCAACGTCAAGGCGGAGCAGGTGTTCGACGCGACCTATCTGCCGGCCAAGGAAGAACGCATGCTTCCGTAA	MILTRRLLTRALTIAAIGVTAGFSLPVVEARAETPVKFTLDWKFEGPAAGFLLALDKGYFKAEGLDVTIDSGNGSVEAIPRVATGAYQMGFGDINSVMKFLDEDPSQKIKAVYMVYERPTFAVVGRKSLGVTGDPKSLEGKKLGAPPPDGAFAQWPAFKQVAGLDDSKIKIESIGFPVREPMLAKGDVDAVFGFAFSVILNLKKQGIADDDISTILMAEHGLNLYGNAVLVNTDFAEKNPDAVKGFLKALAKGFADSVKNPEEGVAAVLKRNETLDSAIELERLNMANSMNIKTPYVVENGMGGVDPARLSASIETLKVSLGLKGNVKAEQVFDATYLPAKEERMLP	PGPT0001135_2702	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051	NA	NA
BMS010_00386	789	cmpD		Bicarbonate transport ATP-binding protein CmpD	ATGTCACATCTCGTGGAAATAGACAGTGTGGACATGCGCTATGGCGGCTCCGCCGGCACGCTGGCCGTATCCGGCTTGAATCTCACGGTCGACAAGGGTGAATTCGCCGCCGTGGTCGGACCCTCCGGCTGCGGCAAGTCGACCCTGATGAAACTGGTGACAGGGCTGCACATTCCGCAGAGGGGCAATGTCATCGTTGCCGGGCGGCAGGTCACGGAGCCGGTTTCCATCGTCGGCATGGCGTTTCAGAACCCGACGATGCTGCCGTGGCGCACCACGCTTGAGAACATCCTGCTGCCGCTGGAGATCGTCGAGAAACATCGCCGGCGCCTGCGCGCCCACAAGGCAGAGTATGTCGCGAAAGCCGAGCGCCTTCTGGAAATCGTCGGCCTGAAGGGGTTCGGTTCGAAGTATCCGTGGCAGCTTTCCGGCGGCATGCAGCAGCGCGCCAATCTTTGCCGGGCCTTGATCCACGAACCGGAACTGCTGATGCTGGACGAGCCTTTCGGCGCGCTCGATGCCTTCACCCGCGAGGAATTATGGTGCGTCATCCGCGACCTGCACGCCGCGCAGCGCGTCACCATCATCCTCGTGACCCATGATCTGCGCGAGGCGACATTTCTGGCCGACAAGATTTTCGTGATGAGCGCAAGGCCGGGCCGGGTGCTGGCGGAACACCGCGTGCCGTTTGCCCGCCCGCGCCAGCTCGATATCATGTATGACAAGGGTTTCAACGACATGGTGCAGGAACTGCATGGCGAGATCGCGCAGGCGAGGGTGGCGGCATGA	MSHLVEIDSVDMRYGGSAGTLAVSGLNLTVDKGEFAAVVGPSGCGKSTLMKLVTGLHIPQRGNVIVAGRQVTEPVSIVGMAFQNPTMLPWRTTLENILLPLEIVEKHRRRLRAHKAEYVAKAERLLEIVGLKGFGSKYPWQLSGGMQQRANLCRALIHEPELLMLDEPFGALDAFTREELWCVIRDLHAAQRVTIILVTHDLREATFLADKIFVMSARPGRVLAEHRVPFARPRQLDIMYDKGFNDMVQELHGEIAQARVAA	PGPT0001140_5143	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049	NA	NA
BMS010_00387	822	ribX_1		Riboflavin transport system permease protein RibX	ATGAGCGCGATCATGGAAGGCAGCACCGTTGCGGCCGAGCCGCGCAAGCCGCTGATTGCCCGCGTCAACTGGGTGAAAGCCGCCCCTTGGCTTTATACGCTGGCGCTTTTCGTGTTGTGGGAACTGTTGGTCTACGCGCTGAAAATGCCGCCCACCATTCTGCCGTCACCGGTAAGGGTCGGGCAGGCCATCGTGCAATATTGGTCGCCGATCTGGAAGAACTCACTGCAGACGCTTTATACCACGACGCTGGGTTTCGCCATTGCGGTGGCCGCCGGCCTCGCCATCGGTCTGTTCATCGGCTGGTCCAAAACCATCTATGCCGGGCTCTATCCGCTGATGATCGGCTTCAACGCCATCCCGAAAGTGGCGCTGGTGCCAATCCTCGTCATCTGGTTCGGCATCGGCACGGTTCCCGCCGTGTTGACCGCCTTCCTGATCTCTTTCTTCCCCATCGTCGTCAACGTCGCGACCGGGCTTGCCACCATAGAGCCGGAAACGGAGGATGTGCTGCGGGCGCTTGGCGCAAAGAAGATGGACATCATGCTGAAGGTTGGCATTCCGCGCTCCATGCCCTATTTTTTCGGCTCGCTGAAAATCGCCATCACGCTCGCCTTTGTCGGCTCGGTCGTGTCGGAAACCGTCGCCTCCAATTACGGCCTCGGCAACATGATGAGTTCGGCGCAGAGCCAGTTCAATGTGCCGCTCGTCTTTGCCGGCCTGCTGATGCTCGCGGTGGAAGGCATCGTCATGTATGCGATCATGGCCTGGTTTGAAAAGCGCATGACCGGCTGGGCGCATCGCTCCACCATGGGGCAGTAA	MSAIMEGSTVAAEPRKPLIARVNWVKAAPWLYTLALFVLWELLVYALKMPPTILPSPVRVGQAIVQYWSPIWKNSLQTLYTTTLGFAIAVAAGLAIGLFIGWSKTIYAGLYPLMIGFNAIPKVALVPILVIWFGIGTVPAVLTAFLISFFPIVVNVATGLATIEPETEDVLRALGAKKMDIMLKVGIPRSMPYFFGSLKIAITLAFVGSVVSETVASNYGLGNMMSSAQSQFNVPLVFAGLLMLAVEGIVMYAIMAWFEKRMTGWAHRSTMGQ	PGPT0001145_4693	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050	NA	NA
BMS010_00388	687	zinT	COG3443	Metal-binding protein ZinT	ATGCAGAAGACACTCACCCGCGTCACCGGCGCCGTCGCACTTGGTTCCATGCTGCTGGCGGCGACCGCGGCAATGGCTGCCGGTGGCGACAAATCCGCAGCCCACAGCCACGACCATGGGCACGATCACGGCCACCAGATGACCGAGGCTGAAAAGCAGATCTACAAGGGTTATTTCGAGGATGCGCAGGTGAAGACGCGCACGCTTTCCGACTGGGAAGGCGACTGGCAGTCGGTCTATCCCTATCTGCTGAACGGCTCGCTCGATTCCGTCATGGCCGAAAAGGCGGCGCATGGCGACAAGACGGCGGCGGAGTACCGCGCCTATTACGAGATCGGCTACAAGACCGATGTGAACCGCATCGTCATCAAAAGCGACAGCGTAGCGTTTTATAAGAACGGCAAGCCCGCTGAAGGCACCTATGTCAGCGATGGCCATGAAATCCTGACCTACAAGAAGGGCAATCGCGGTGTCCGCTACATCTTCAAGAAAACCGGCGGCGACGAGGCCGCGCCGCAATTCATCCAGTTCAGCGATCACTCCATCGCCCCGGTCAAGGCGGGCCATTACCATCTCTACTGGGGCAACGACCGCAAGGCGCTGCTGGACGAAGTGACCAATTGGCCGACCTACTACCCGTTCCTGATGGATGGCGGCGATATTGTGGAAGAAATGGCGGCGCATTAA	MQKTLTRVTGAVALGSMLLAATAAMAAGGDKSAAHSHDHGHDHGHQMTEAEKQIYKGYFEDAQVKTRTLSDWEGDWQSVYPYLLNGSLDSVMAEKAAHGDKTAAEYRAYYEIGYKTDVNRIVIKSDSVAFYKNGKPAEGTYVSDGHEILTYKKGNRGVRYIFKKTGGDEAAPQFIQFSDHSIAPVKAGHYHLYWGNDRKALLDEVTNWPTYYPFLMDGGDIVEEMAAH	PGPT0004220_3454	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_FACILITATING_PROTEIN	ROOT_COLONIZATION-ZINK_TRANSPORT_LIPOPROTEIN,PGPT0004220-znuA-K09815	NA	NA
BMS010_00389	822	mscS_1	COG0668	Small-conductance mechanosensitive channel	ATGGAACAACAGGCAACGGATATCATCGTCGCATCGCAGGCGGCGTTGCAGCAGGCAAGCGCGCTTGCGGTGCAATATTCCTTCTCGGTCGTCGGTGCGCTTCTGCTGCTGATCGTCGGCTGGCTGGCCGCCACTTTCCTGCAACGCTGGGCTTTTCAGGGCCTGTCGCGCATTCGCGGTTTCGATGCGACACTCGCCGGTTTCTTCGCCGGCGCCATCCGCTATGTGGTTCTCATTCTGGTGCTGGTCATGGTGCTTGGCCAGTTCGGGGTGCAGACGGCCTCCATTCTCGCCGCCCTTGGCGCCGCCGGTCTGGCCATCGGCCTTGCGTTGCAGGGCACGCTGCAGAATATTGCCGCCGGCATCATGCTTCTGGTGCTGCGCCCCTTCCGGGTCGGCGAATATATCGAGACCAGCACGGTCAGCGGCACGGTGATCGAGATCGGGCTGTTTGCGACCGAGCTGAAGACCAGCGACGGACTTTACCGTCTCGCGCCCAACTCCACGCTCTGGAACGTGCCCATCACCAATTACAGCCGCTTTCCCTCGCGCCGTCACGAACTCAGCCTGACGGTCAAGAATGACGAGGATCTGGCGGCCGCACAGGATATGCTGATGAAAGTCGTGCGTTCGGAGAGCCGGGTTTTGCTGGACCCCGCCCCCGTTACTTTCGTCGATTCGGTCAGCGCCGACAGCGCCACCGTCAAATTGCGCTACTGGGTGCGCAGCGACACTTTTTTCGCGACGACCCGCGATGTGACGAAAGCCATGAAACTCGCCTTCGACGAGCGCAAGGCGGAAGTGAGCGCCCAGCCGGCCTGA	MEQQATDIIVASQAALQQASALAVQYSFSVVGALLLLIVGWLAATFLQRWAFQGLSRIRGFDATLAGFFAGAIRYVVLILVLVMVLGQFGVQTASILAALGAAGLAIGLALQGTLQNIAAGIMLLVLRPFRVGEYIETSTVSGTVIEIGLFATELKTSDGLYRLAPNSTLWNVPITNYSRFPSRRHELSLTVKNDEDLAAAQDMLMKVVRSESRVLLDPAPVTFVDSVSADSATVKLRYWVRSDTFFATTRDVTKAMKLAFDERKAEVSAQPA	PGPT0013773_2864	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013773-mscS|yggB-K03442	NA	NA
BMS010_00390	519			hypothetical protein	ATGACGGCCATTGTCGTATCGCCGCTGTCGCGGATCGCGGAGATGGCCGTCAAACACAAGGCCCGCGAAATGGTGACGCTGATCGCCAAAGAGCAGTCCTTTCACCGCCCCGCCGTCATTGCCGCAGACCGGCATCTGACGCTTGCCATGAACGACATCGCATTCAAGGGCACCGCCGATCTCATCGCGCCTGACGATGCACATGTGCTGAAGCTGATCGATTTCGCCCGGCAATGGGACCAGTCAGCACCACTGCTCATCCATTGCTGGATGGGCGTTTCCCGCTCACCCGCCGCCGCCGTCATCGCCGCGCTCAGCCTTTATCCGGACCAGGATGAGATCGAACTTGCGCTGCGCCTGCGCGCCGTCTCGCCCTATGCCACGCCCAATGCCCGCATCATCGCCATCGGCGACCGTCTGCTCGGGCGCGATGGCCGGCTGGTGGCGGCGATCAAAAAAATCGGCAGGGGCGCGGATACGGATGGTAACGTGCCCTTCGTGCTGCCGCTTGGCAACTGA	MTAIVVSPLSRIAEMAVKHKAREMVTLIAKEQSFHRPAVIAADRHLTLAMNDIAFKGTADLIAPDDAHVLKLIDFARQWDQSAPLLIHCWMGVSRSPAAAVIAALSLYPDQDEIELALRLRAVSPYATPNARIIAIGDRLLGRDGRLVAAIKKIGRGADTDGNVPFVLPLGN				NA	NA	NA	NA	NA
BMS010_00391	624			hypothetical protein	GTGGCGCCTGCAAAAAGCCCGCGCGCGTGGCAGCGCATGCTGTCCGGCCGGCGGCTCGATCTGCTCGATCCTTCGCCGCTCGATGTGGAAATCGCCGATATCGCCCACGGTCTTGCCCGTGTGGCCCGCTGGAACGGCCAGACGCGCGGCGACCACGCCTTTTCCGTCGCCCAGCATTGCCTCATCGTCGAGACCATCTTCTGCCGCATGTGCACAGGCGCGACGCCTGACGACATGCAGATGGCGCTTCTGCACGATGCGCCGGAATATGTCATCGGCGACATGATCTCACCCTTCAAATCCGTGGTCGGCGGCGGTTACAAGACCGTGGAAAAACGGCTTGAAGCCGCCGTGCATCTGCGTTTCGGCCTGCCGCCGCATGCATCGCGCGATTTGAAGGACCGCATCAAGAAGGCCGATACGGTCGCCGCTTTTTTCGAGGCGACGGAGCTTGCCGGTTTTTCCACCGTCGAGGCGCAGAAATTCTTCGGCCTGCCGCGCGGCATTACCCGCGACATGTTCGACATCACGCCCCTGCCCTCAACCGAAGCGCAAAAGCTGTTCATCGAACGTTTCGAGGCGATCGAGGCGCTGCGCGCAGTCAAGACGGGGAGCGCGACATGA	MAPAKSPRAWQRMLSGRRLDLLDPSPLDVEIADIAHGLARVARWNGQTRGDHAFSVAQHCLIVETIFCRMCTGATPDDMQMALLHDAPEYVIGDMISPFKSVVGGGYKTVEKRLEAAVHLRFGLPPHASRDLKDRIKKADTVAAFFEATELAGFSTVEAQKFFGLPRGITRDMFDITPLPSTEAQKLFIERFEAIEALRAVKTGSAT				NA	NA	NA	NA	NA
BMS010_00392	921	ygfZ_1		tRNA-modifying protein YgfZ	ATGAGCATTCCGGCAAAGCGCATCGGCTTTTGCCGGAGTTCACAGAGTCTCGACGAACCGAACGGTGACGCCATGCCTTCCGCCCTTCTTGCCGACCGCCGCCTGATCCGGGTTTCCGGCACCGGCGCCGAGGAATTTCTGAACAACCTCATCACCGCAGACGTTGAAAACCTGCCGGAAGGCGAAGCACGGGCCGCAGCCCTTCTTACGCCGCAGGGCAAGATCCTGTTCGATTTCCTGATCTGGCGCGATGGCGGCGATTATCTGATCGAGACGGGCGTCGCCGAACAGGACGCGCTGCTGCGCCGCCTGACCATGTACAAGCTGCGTGCACCGGTCGATCTCAAAGCCGAGACTGTCGAAGGCGTGAGTGTTTTCTGGAACGAGACTGCGCCGACGGCAGGCATTCGGGATGGTCGTTTCGGCAAGGGCGGCATCGATCTTTACCGTATGCCGGGCGCATCCGCATCCGGCGACATCGCGGCCTATGATGCGCTCCGTGTCGAGCATGGGATTGCCCAATCCGGCCGGGACTATGCGTTGCAGGATGCCTTTCCCCATGATGTGCTGATGGATGTGAATGACGGCGTTTCCTTCAAGAAGGGCTGCTTTGTCGGCCAGGAAGTCGTCTCGCGCATGAAACATCGCGGTACGGCAAGACGCCGCGTCGTCACCGTTTCGGCCGAAGGCGCGCTTCCCACCAGCGGGACGGAGATTACCGCCGATGGAAAACCGGTCGGCACGCTCGGAACCGTTTGCGGCAACAGGGCGCTTGCCATCGTTCGGATCGACCGCATTGCCGATGCGCTCGCATCCGGCACGCCGCTTCTGGCGGAGACTGTTCCCGTGACCGTGGCTCTGCCCGCCTGGAGCGGCCTTTCCTTCCCCGCGGCCGATCCGGCAGCGCGGGCGGAGGACTGA	MSIPAKRIGFCRSSQSLDEPNGDAMPSALLADRRLIRVSGTGAEEFLNNLITADVENLPEGEARAAALLTPQGKILFDFLIWRDGGDYLIETGVAEQDALLRRLTMYKLRAPVDLKAETVEGVSVFWNETAPTAGIRDGRFGKGGIDLYRMPGASASGDIAAYDALRVEHGIAQSGRDYALQDAFPHDVLMDVNDGVSFKKGCFVGQEVVSRMKHRGTARRRVVTVSAEGALPTSGTEITADGKPVGTLGTVCGNRALAIVRIDRIADALASGTPLLAETVPVTVALPAWSGLSFPAADPAARAED				NA	NA	NA	NA	NA
BMS010_00393	768			hypothetical protein	ATGTCTTGCCTGAGCAAGGGGCTTTTGCGCTCTTCCGCCCTGCTGTCCATCCTGCTTGCCCTGACCGCCGGGCCGATTGGCATGCCAGGCCGCGCCTTTGCCCTTTCCGAGCTGAAGCCGGCGCAGAACACCGAAAGCGAGCCTAAGGCTGAGAATGGCGGTGAGCCGCAGCAGGCCCAGCCCGCAGAGCCGGACGAGATCGAAGGCGATTCGGAAGGCATTCCCCTGCCCGACCCTCTGGTGGACCGTTCCGCCAACCAGTCGAACCAGCAATCCTCCAAGCCCGACAACACGCCGGAAATGTCCGTTGTGATCGAGCACGACATTTCCAAGGCGCCGGAACCCGTGCGCAAGCTGCGCCAGCAGATCATCGAAGCTGCCGCCTCGGGCGATATCGAAAAGCTGCGGCCCTTCATCGCCGCCGGCCAGAAAGAATTCCGCATCGACGGCAATGACGGCGAAGACCCGATTGCGGCGCTGAAAAGCTATTCCGGCGATCCTGACGGGCTGGAAGTGCTGGCGATCATCATCGACCTGCTGTCGACCGGATATGCCCATATCGATGCCGGCACGCCTGACGAAGCCTATGTTTTCCCCTATTTCGCCGGAAAGCCGCTGAATACGCTGACTGCGCCGGAAAAGGTGGAGCTTCTGCGCATCATCACCGCGGGCGATCTGGCGGACATGCAGGAATATGGCAATTACAGCTTCTACCGGGTCGGCATTTCGCCCGATGGCAAGTGGAAGTTCTTCACCGCCGGCGATTGA	MSCLSKGLLRSSALLSILLALTAGPIGMPGRAFALSELKPAQNTESEPKAENGGEPQQAQPAEPDEIEGDSEGIPLPDPLVDRSANQSNQQSSKPDNTPEMSVVIEHDISKAPEPVRKLRQQIIEAAASGDIEKLRPFIAAGQKEFRIDGNDGEDPIAALKSYSGDPDGLEVLAIIIDLLSTGYAHIDAGTPDEAYVFPYFAGKPLNTLTAPEKVELLRIITAGDLADMQEYGNYSFYRVGISPDGKWKFFTAGD				NA	NA	NA	NA	NA
BMS010_00394	258			hypothetical protein	ATGCAGACAAGCCGTAACGAAATCGACGATATGATCGTGCATGAAAAGATGCAGGTCGCTCTGGAACACCAGAACGAGGCATGGGCTGACGGCATGGCCGACGGCATCGAGCCGGAGATCATCGCCGATGCCGCCATCGCTCTGGCCATGCGCGAAACCATCCGTATCCATGGCGAGGCCGGCGCTGAAGCAATGCTGGAATCGCTGCGCCAGCGCATGCTTCAGGGCGAATTTTCGCCGCAGCGGGTAATACAGTAA	MQTSRNEIDDMIVHEKMQVALEHQNEAWADGMADGIEPEIIADAAIALAMRETIRIHGEAGAEAMLESLRQRMLQGEFSPQRVIQ				NA	NA	NA	NA	NA
BMS010_00395	453			hypothetical protein	GTGGGGCAGAATAGAATTTTGATACGGCCAACCATCTTCCTGTCTCTTTTTCTGACAATGCTTGCCACCGCCGGGCAGGGCATCGCTTATGCGCAGCCTTCAAAACCCGGTTCCGAGGTGCGTCCGGCGGAAGCCGCGCCGCCCAAGCCCGCTCCTTATGACGACAAGCTCGCACGGCTGTCGGAGATACTGGGCGCGGTGCAATATCTCAGAACCCTGTGCCCTTCTTCCGGACCGGAGGACTGGCGCAGATCGATGAGCGATCTTCTGGCTGCAGACACGGCCAACGAACCTGAACGACGTCAGCGCATGACGGCTGCATTCAACCGTGGATACCGCTCCTTTGCGGCCATCCACACCAGTTGCACACGCGCCGCCATCATGGCAGAAGAGAACTACCGTAACGAAGGGGCAACACTCGCGCAGGAAATCGCGTCCCGGTTCGGAAATTAG	MGQNRILIRPTIFLSLFLTMLATAGQGIAYAQPSKPGSEVRPAEAAPPKPAPYDDKLARLSEILGAVQYLRTLCPSSGPEDWRRSMSDLLAADTANEPERRQRMTAAFNRGYRSFAAIHTSCTRAAIMAEENYRNEGATLAQEIASRFGN				NA	NA	NA	NA	NA
BMS010_00396	417			Bifunctional NMN adenylyltransferase/Nudix hydrolase	ATGACCCTCCGTATCAAGCCCCGCCCCGCCTCCTCCGCCATCGTCAGGAACGGCGACCGGCTGCTTCTCGTGCGCCGCATCAACCCGCCTTCGAAGGACATGTTCGCCTTTCCGGGTGGTCGCGGCGAAGACGGCGAAACGCCGGCCGAAACGGCGCTGCGCGAATTGCACGAGGAAACCGGCATCGTGGCGCGCAAGCCGCAGCTTTTCGCGACATACGATCTTCCCTCCCGCGACGCCGAAGGGGTGCTGACGAGCCATTATTTCCTGTCGGTCTTCACCGTGGAAACCGATGCCGATCCGCTCGTGACTGTCGGTGACGATGCGGCGGATGCGGGCTGGTACACATTGGCGGAAATCCGCCTTCTGCCGGCGCCGGAAAGCGTCGTCGAATGCGCCGAGCGCCTGCTTGCATGA	MTLRIKPRPASSAIVRNGDRLLLVRRINPPSKDMFAFPGGRGEDGETPAETALRELHEETGIVARKPQLFATYDLPSRDAEGVLTSHYFLSVFTVETDADPLVTVGDDAADAGWYTLAEIRLLPAPESVVECAERLLA				NA	NA	NA	NA	NA
BMS010_00397	324			hypothetical protein	ATGAAGGTCTATCTTATCTATGTCCTGGCGGCTCTTGCCGAAATTGCCGGCTGCTTTTCCTTCTGGGCCTGGCTGAAACTCGGCAAGACCGGGTGGATATTGCTGCCCGGCATGGTGGCGCTGGCGGCTTTCGCGTGGCTTCTGACGTTGGTTCCGACAGAGGCGGCGGGCAGGGCCTATGCCGCCTATGGCGGGATTTACATTGCCGCTTCGCTCTTCTGGCTCTGGGGCGTGGAAGGGCACACGCCGGACCGGTGGGATATTGCCGGCGGCGTCGTCTGCCTTGCCGGCACCGCCATCATCCTGTTCGGGCCAAGGGGTTGA	MKVYLIYVLAALAEIAGCFSFWAWLKLGKTGWILLPGMVALAAFAWLLTLVPTEAAGRAYAAYGGIYIAASLFWLWGVEGHTPDRWDIAGGVVCLAGTAIILFGPRG	PGPT0029120_1499	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029120-TC_SMR3-K09771	NA	NA
BMS010_00398	762	yedK_1	COG2135	SOS response-associated protein YedK	ATGTGCGGACGTTTCGTGCTGAAGGCGACGCCCGAGGAGATCGCCGACTATCTCGATCTGATCGGCCTTGAGGATTTTCCCGCCCGTTTCAACATCGCGCCGACGCAGCCCATTCTGGTCGTGATGGAGGGCGAGCGACCGGAGCGCGGCAGCAACCTGCCCAATCGCCGGGCCGTGCTGGTCCGCTGGGGTTTTCTGCCGGGCTGGGTGAAGGATCCGAAGGATTTTCCGCTGCTCATCAATGCGCGGTCGGAAACCGCCATCGGCAAGGCCTCCTTCCGCGCCGCCATGCGCCATCGCCGCGTCCTCGTTCCCGCCACCGGCTTTTACGAATGGCGACGCCCGCCGAAGGAGGAGGGCGCCAAACCACAGCCCTATTTCATCCGCCCGAAAAGCGGCGGCATCGTCGCCTTCGCCGGTCTTATGGAAACCTGGTCTTCCGCCGATGGCTCGGAGGTCGATACCGGCGCGATCCTCACCACCGCCGCCAATGCCGCGATCGGCCGCATTCACGACCGCATGCCTGTTGTCATCGCGCCCGAGGATTTCAGCCGCTGGCTGGATTGCAAGACCCAGGAGCCGCGCGAGGTCGCCGATCTGATGCGGCCGGTTCAGGATGATTTTTTCGAGATGATTCCGGTATCGGACAAGGTCAACAAGGTCGCCAATGTCGGCGCGGATCTCATCGAGCCGGTGCCGGAAAGCGCGCCGCTGGCGAAGATCAAGCCGGCAAAGGACGAAGGGCAGATGTCATTGTTTTGA	MCGRFVLKATPEEIADYLDLIGLEDFPARFNIAPTQPILVVMEGERPERGSNLPNRRAVLVRWGFLPGWVKDPKDFPLLINARSETAIGKASFRAAMRHRRVLVPATGFYEWRRPPKEEGAKPQPYFIRPKSGGIVAFAGLMETWSSADGSEVDTGAILTTAANAAIGRIHDRMPVVIAPEDFSRWLDCKTQEPREVADLMRPVQDDFFEMIPVSDKVNKVANVGADLIEPVPESAPLAKIKPAKDEGQMSLF				NA	NA	NA	NA	NA
BMS010_00399	1293	cheB_1		Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGCAGGATAAAATCCTTCTGATTGAAGATTCCGTTGCTCTTTCCATGCTGCTGAAGACGCGGCTTTCGGAAGAAACGGAAGCCGAGGTCGTCCATTGCGACAGCATGGCCGCAGCCGATACCCTCATGCAGGCCCATAATTTCACGCTGGCGCTGACGGGTCTCAACCTGCCCGATGCGCCGAAGGGCGAGATTCTCGCACTTCTATCCGAGCGCAAGGTGCCGGCCATCGTTTTCACCGCCACGGTGGATGAGGAGGCGCGCAAGCGCTACGCCGAAAAGAAGATCATCGATTACATCGTCAAGGACGGTCATCGCACCGTCGATGCGGTGGTAAGAACCGTCCAGCGGATTTTGAACAACAAGCTATTCTCCGTTCTTGTGGTCGATGATGTGCGCGCGGCACGGTCCGGCCTCGTGGAAATTCTGGAGCGGCAAAATTTCAGGGTCAGCGAGGCCCACTCCGGCAAGCAGGCGCTGGAAATCCTGTCGCAGAACCCGACGATCCAGCTCGTCATCACCGATTATCATATGCCTGACATGGACGGTTATGAGTTGACGCGCCGCATCTGCGACAGCCGCTCATCCGAAGATTTGCGGGTGATCGGCATATCGTCCTCCACAGACCGGTTGCTTTCGGCAAGCTTCCTGAAGGCTGGCGCCTCGGATTTCGTCTACCGCCCCTTCGTGCCGGAAGAATTGCAGTGCCGTATCGATAACAATATCGAGACGTTGAAGCAGCTCAAACGCCTGCGCGAACTGGCCGAACGCGACCATCTCACCGGCCTGCCGAACCGCCGCTCCTTCTTCGAGCGCACGCGGGCGCTGATGGATGTCATCAATGGCAATGACGAGAGCGGCGCCATTGCCATTCTCGACATCGACCATTTCAAGAAGATCAACGACACGCTGGGCCACGATGCCGGCGACAGGGCGCTGAAAAAGCTGGCCGAACTGCTGCATGACATGTGTGACGAGCAACGCCACATTCCCGCCCGCCTGGGCGGCGAGGAGTTTGCCGTGTTCCTGCGCGGGCTGGATGCGCACGCCGCCTATCAGTTCTGCGAGGAGCTGCGCGGACAGGTGGAAAAGAACGGCCGGCAGCTGAGCGGTAGCAGCCTCGCCCTGACGATTTCGCTCGGCGTCGTGGAGATCGAAAAGGGCGAGCCCTTCGACAACCAGCTGAATGCGGCGGACCAGCTGCTCTATCTCGCCAAGGCGAATGGCCGCAACCGCGTTTATTCCGACATCATGATCCAGGAAGGCCTGCAGAAGATCGGGCGGAACGGCTGA	MQDKILLIEDSVALSMLLKTRLSEETEAEVVHCDSMAAADTLMQAHNFTLALTGLNLPDAPKGEILALLSERKVPAIVFTATVDEEARKRYAEKKIIDYIVKDGHRTVDAVVRTVQRILNNKLFSVLVVDDVRAARSGLVEILERQNFRVSEAHSGKQALEILSQNPTIQLVITDYHMPDMDGYELTRRICDSRSSEDLRVIGISSSTDRLLSASFLKAGASDFVYRPFVPEELQCRIDNNIETLKQLKRLRELAERDHLTGLPNRRSFFERTRALMDVINGNDESGAIAILDIDHFKKINDTLGHDAGDRALKKLAELLHDMCDEQRHIPARLGGEEFAVFLRGLDAHAAYQFCEELRGQVEKNGRQLSGSSLALTISLGVVEIEKGEPFDNQLNAADQLLYLAKANGRNRVYSDIMIQEGLQKIGRNG				NA	NA	NA	NA	NA
BMS010_00400	132			hypothetical protein	ATGACGAACGAGACGAAGGCGCAGCCGCAGGCGAAGCCCGACCTCAACAGCCACTACCGCCCGCTCGGACTGAAGGCCGTTGCGGCCGCAGCCCTGATGCTGAAGCGTAAACCTGCCGCCAAAACCGCCTGA	MTNETKAQPQAKPDLNSHYRPLGLKAVAAAALMLKRKPAAKTA				NA	NA	NA	NA	NA
BMS010_00401	876			hypothetical protein	ATGCGCATGGAAACGCCGATCGCCGAGCCGCAACAGAACGGCAAACCCGAGGGCCGCAGCGATAGCGGCCGTGGACCGCGGCTGAGGGAAATTCCCTTTCGCCTCGTCGTTCCCAATCTCATCACCGTTCTGGCCATCTGTGCGGGGCTGAGCGGCGTGCGTCTCGCCATCGAGGGGCGGTTCGAGCTGGCCGTCGGCATGGTGCTGCTGGCCGCCTTCCTCGACGGCATAGACGGGCGCATCGCCCGCATGATGAAAGCGACGTCCAAATTCGGCGAGCAGATGGACTCGCTGGCCGATATCGTCAATTTCGGCGTCGCGCCTGCGCTGGTGGTCTATGCCTACCTTCTCGATCAGGCACGCTCCATCGGCTGGATCGCCGCCCTCATTTACGTCATCGCCGCCGGCCTGCGTCTTGCGCGCTTCAACGTCATGATCGAGCGGCCGGTGAAGGCGCCCTGGCAGAATGAGTTCTTCGTGGGCGTTCCCGCCCCGATGGGCGCCATGCTGGTGCTGCTGCCGGTTTATCTCGGCTTCCTCGGCGTCGAGCCGGACAAGCCCTTCGCCTATGTCGCCGCCGCCTATACCGTGCTGATCGGTTACCTCCTCATCAGCCGCCTGCCGGTCTGGTCGGGCAAATCCGGCACCAGCCGCATTCGCCGCGATCTGGTGCTGCCGATGATCCTCGTCGTCGTGCTTTATGTAGCGATGCTCATGAGCTTCACCTGGGAAGTACTGGTTCTGACGGTTGCCGCCTATCTCGTCTTCATTCCCATCAGCGCCCGCCTCTGGCATCGCCGCTACGGCACGCTGACCATCGAGGAAGACGGGCATGACGATGCCAATGGCGGCAACGGCCTCGATCGCGGTATTTAA	MRMETPIAEPQQNGKPEGRSDSGRGPRLREIPFRLVVPNLITVLAICAGLSGVRLAIEGRFELAVGMVLLAAFLDGIDGRIARMMKATSKFGEQMDSLADIVNFGVAPALVVYAYLLDQARSIGWIAALIYVIAAGLRLARFNVMIERPVKAPWQNEFFVGVPAPMGAMLVLLPVYLGFLGVEPDKPFAYVAAAYTVLIGYLLISRLPVWSGKSGTSRIRRDLVLPMILVVVLYVAMLMSFTWEVLVLTVAAYLVFIPISARLWHRRYGTLTIEEDGHDDANGGNGLDRGI	PGPT0007695_459	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PSS-RELATED_EXOPOLYSACCHARIDE_METABOLISM	CE-EPS-PSS-RELATED_EXOPOLYSACCHARIDE_BIOSYNTHESIS,PGPT0007695-CHO1|pssA-K17103	NA	NA
BMS010_00402	699	psd_1	COG0688	Phosphatidylserine decarboxylase proenzyme	ATGAATCTGTTCGACACCATTCGCAACACCATCGTACCGATCCACAAGGAAGGTTATGTCTTTGTGGCGGCCTTCTTCGTCGCATCGCTGGTGCTCGGCTGGATCGCCGAACCGCTGTTCTGGGTCGGTCTGGTGCTGACGTCCTGGTGCGCCTATTTCTTCCGCGATCCCGAGCGCGTCACGCCGCAGGATGACGACCTCATCATCAGCCCGGCCGATGGCAAGGTTTCCGCCGTGCAGAGCGTCGTTCCGCCGCTGGAGCTGGAACTCGGCAAGGAGCCGCTGGTGCGCATCTCGGTGTTCATGAACGTGTTCAACTGCCATGTGAACCGTTCGCCGGTACGCGGCCGTATCGTCAATGTCGCCTACCGTCCCGGCCTCTTCCTCAATGCCGAAGTCGACAAGGCTTCCGAAGACAATGAGCGCAACGGCCTCGTTATCGAGACATCGCACGGCAAGGTCGGCGTGGTGCAGATCGCCGGCATGGTTGCACGCCGCATCGTCTGCTGGGTAAAGCCGAATGAACCAGTCGATGCCGGTGAGCGTTTCGGTCTTATCCGTTTCGGTTCGCGCCTCGATATCTTCCTTCCCGCAGGTTTCGAGCCGCGTGTATCGGTCGGCCAGACGGCGATTGCCGGTGAAACCGTGCTCGCCGAATTCGGCTCCGCCAAGGGTCCGGTCGTCAGCCGCCGCGGCTGA	MNLFDTIRNTIVPIHKEGYVFVAAFFVASLVLGWIAEPLFWVGLVLTSWCAYFFRDPERVTPQDDDLIISPADGKVSAVQSVVPPLELELGKEPLVRISVFMNVFNCHVNRSPVRGRIVNVAYRPGLFLNAEVDKASEDNERNGLVIETSHGKVGVVQIAGMVARRIVCWVKPNEPVDAGERFGLIRFGSRLDIFLPAGFEPRVSVGQTAIAGETVLAEFGSAKGPVVSRRG	PGPT0007700_3652	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DECARBOXYLASE_ACTIVITY,PGPT0007700-psd|PISD-K01613	NA	NA
BMS010_00403	1887	atm1_1	COG5265	ATM1-type heavy metal exporter	ATGGCCACGAAGAAAAAAACCATTTCGGCGGATTCCAGCAATCCCACCCAGACGCTGATCAATCTCTGGCCCTATATGTGGCCGGAAGGGCGGTGGGACCTGAAGATGCGGGTGATCTGGGCCACCGTGTACCTGGTCGTCGCCAAGCTGGTGCTGATCTCCGTTCCCTATTTCTTCAAATGGGCGACCGATGCGCTGAACGGCCGGCTGGACATGGCCGGGCTTGTTCCCGCCTTCCTGCTCGGCGCCGTCGCGCTGGTGATCGCCTATAATCTGACGCGGCTGATACAGGTGGGGCTCAACCAGCTGCGCGACTCGCTTTTCGCCAGCGTCGGCCAGCATGCGGTGCGTCAGCTCGCTTACAGGACCTTCGTGCACATGCACCGGCTTTCTTTGCGGTTCCATCTGGAGCGCAAGACCGGCGGACTGTCGCGGGTCATCGAGCGTGGCACCAAGGGCATCGAAACCATTGTCCGCTTTACCATTCTCAACACCGCGCCGACCTTTATCGAATTCCTGCTGACGGCGATCATTTTCTGGGCCTCCTACGGTTTTTCCTATGTGCTCGTCACGGTCATCACGGTCTGGGCCTATATCTGGTTCACCGTGCGGGCCAGCAACTGGCGTATCGGCATTCGCCGCGCCATGAACGACAGCGACACAGACGCCAATACCAAGGCGATCGACTCGCTTCTGAATTTCGAAACCGTCAAATATTTCGGCAATGAGGAGATGGAGGCGCGGCGTTTCGACGTCGCCATGGAGCGTTACGAAAAATCGGCGATCTCGATCTGGACCTCGCTCGGCTGGCTGAACTTCGGCCAGGGCGTGATCTTCGGCATCGGCTCCACCGTCATGATGGTAATGTCGGCGCTTGCCGTGCAGCGCGGCGAACAGACCATCGGCGATTTCGTCTTCGTCAATGCGCTGTTGTTGCAGCTTTCGGTGCCGCTCAATTTCATCGGTTTCGTCTATCGCGAAATCCGCCAGGGCCTGACCGACATCGAACAGATGTTCGATCTTCTGGAGGTGGAGGCGGAAGTCACCGACAGGCCGGATGCGAAACCGCTCGCAGCCGGACCCGGCGCGATTTCCTTCCGCGACGTGCATTTCGCCTATGACCCCGAAAGACCGATCCTGAAGGGCGTTTCCTTCGACGTGCCGGCCGGCAAGACGGTGGCCATCGTCGGCCCTTCGGGTGCGGGAAAATCGACGATCTCGCGGCTGCTTTATCGTTTCTACGATATTCAGGAAGGCTCCGTCACCGTCGACGGGCAGGATATTCGCGATGTGACGCAGAAGAGCCTGCGCTCGGTGATCGGCATGGTGCCGCAGGACACGGTGCTTTTTAACGACACGCTCGCCTACAACATCCGTTATGGCCGTCCCTCAGCCACCGACGAGGAACTGAGGGCGGCCGCGGATGCGGCGCAAATCAGCGCCTTCATCGGCAAGCTGCCGGAGGGTTACGCCACCATGGTCGGCGAACGCGGCCTGAAGCTTTCCGGCGGGGAAAAACAGCGCGTGGCGATTGCCCGCACCATCCTCAAGGCGCCGCCGATCCTCATTCTCGACGAGGCCACCTCGGCGCTCGACACGCATACGGAACAGGAAATCCAGAGCGCGCTCGACATCGTCTCGAAGAACCGCACGACGCTGGTTATCGCCCACCGCCTTTCCACCGTCATCGGCGCGGATGAGATCATCGTATTGAAGGACGGGCAGATCGCCGAACGCGGCACGCACAGCTCGCTGATGGGGCAGAACGGCCTCTACGCCTCGATGTGGAGCCGCCAGCGCGAGGCGATCCGCGCCGAGGAAATGTTGCGCCATGTGCGTGAAACCGACGATCTGGGTGTCATCGACCGCGGGGAACCCGCCCATTGA	MATKKKTISADSSNPTQTLINLWPYMWPEGRWDLKMRVIWATVYLVVAKLVLISVPYFFKWATDALNGRLDMAGLVPAFLLGAVALVIAYNLTRLIQVGLNQLRDSLFASVGQHAVRQLAYRTFVHMHRLSLRFHLERKTGGLSRVIERGTKGIETIVRFTILNTAPTFIEFLLTAIIFWASYGFSYVLVTVITVWAYIWFTVRASNWRIGIRRAMNDSDTDANTKAIDSLLNFETVKYFGNEEMEARRFDVAMERYEKSAISIWTSLGWLNFGQGVIFGIGSTVMMVMSALAVQRGEQTIGDFVFVNALLLQLSVPLNFIGFVYREIRQGLTDIEQMFDLLEVEAEVTDRPDAKPLAAGPGAISFRDVHFAYDPERPILKGVSFDVPAGKTVAIVGPSGAGKSTISRLLYRFYDIQEGSVTVDGQDIRDVTQKSLRSVIGMVPQDTVLFNDTLAYNIRYGRPSATDEELRAAADAAQISAFIGKLPEGYATMVGERGLKLSGGEKQRVAIARTILKAPPILILDEATSALDTHTEQEIQSALDIVSKNRTTLVIAHRLSTVIGADEIIVLKDGQIAERGTHSSLMGQNGLYASMWSRQREAIRAEEMLRHVRETDDLGVIDRGEPAH				NA	NA	NA	NA	NA
BMS010_00404	2007			hypothetical protein	ATGAAAAACAATAAGGCCGGTTTGCTGGCGCTGATCGTGCTGGGCGTTGCGTCCCTGCTCATGATCTTTTTCGTCCTGCCGCGGATTTCAAACGACGGCAAACCGATCGGCGACGCCATCAACGAGGCCGGCAACGCCGTGAAGAACAGCGTTGAAATGGGCGCCGACAAGGCGGGCGACATTCTCTCCGACGCCGCCGAGGAAACCGCCAATATCGCCGACAAGGTCGGGCGGCGGGCGGCTTCCGCTACCCAGTCGATCAAGGATCTGACGACGCTTTTCGCCGATAGCAAGGTTCCCTCCGACGCCGATTTCGCGGCGGCGCGCAAGAAGGTCGAGACCTCGCTCAAGGAACTGACGAATATCGAAATTCCAGAGTCGCTGGACGAAACGACGTCGCGCCTCATCACCACCGCCCGCACGGCCGCCGAACGCACCACGGCGTTCCTGCGCGGCCTGCCCGACAATGCGGCGGCGGCGGCAGCACAGGTGCGCCGTCTGGCAGGCGTTTTCGCCGGCACCGACGATGGCGCGCCCGAACCGGCAAAGCCGGCCGCAGCACCCGCCGATGCGGCACAATCGTCTGCCGCCACGCCGACTTTCGACGTGCTGCGTGTCGAGCCGGACGGTTCGGCCGTGATTGCCGGCAAGGCACAGCCCGGCGCAAAGCTCGAAATCTTGAGCAACGGCAAGGTGGTCGCCCAGACGACCATCGACGGCACCGGCGATTTCGCCGCCGTTTTCGACAATCCGCTTCCCCCGGGCGATCACGAGCTGGTGCTGCGTTCGACCGATGCCAGCGGCAAGGCGACGCAATCCGAAGAAGTAGCCACGGTTTCCGTGCCTGACGGCAAGGCGGGAGAGCTTCTGGCCATGGTTTCCAAGCCCGGCAAGGCAAGCCGCGTGCTGGCCATGCCGGAGGCGGCTCCGCCGGCGCTTCAGCCGCAAGCCGCGCCGTCGCAGCAGCCTGCGCCAACATCTGAGCCCAGCGCCAACATCGCTTCCGCACCGCTCGCCGGTACTGCGGCTCCGTCCGCTGCGGCCCCGCTGACATCGAGCGTCCAGGTCACTGCCGTCGAGTTCGAGGGATCGAAGATTTTCGTCGCGGGCTCCGCACCTGCCGGTTCAACGGTGCGCGCGCTGGTCGATGACAGGGAAATCGGCAAGAGCACCACGGAAGCCTCCGGCCATTTCGTCGTCGAAGGCGATGTCGATCTTAGCGTCGGCAGCCATATCATCACCGTCGAGGAACTGAATGCCGACGGCACCGCGAAGGTGCGTGTGCGCGTTCCCTTCGAGCGGCCGCAGACCGACCAGGCAACGGTCGCCATGCAGTCGCCGTCCGCTTCGTCGTCAGCAACCACGACTACGGCGCCTGCCGAAAACCAGAGCACGGCAAGCGACCGCGCCGCTTTCGAAAAGCTGCGCACCGATGTCGCCAAGGCCTTCGGCATTCTTTCCAATCTCTACAAGGATCAGGCTACGCCGGCGCTCGATCAGGCCATTGCCGGCCGCTCCGCCGTCGTCATCGGTCTCAAGTCGCTTTCGGAATTCCGCACCGCAGCCGCGACCGAACCCGCCTTCACCGCTTTTGCGGGCGACATCACCGCCAAGGCGCGCCAGTTGCTGACATCGGTTGAAGCATGGCCGAACGATGTGGCGGCAATCGGCAAGGGTATCGCCTCGCTGGCAAGCCGCCTTGCCGAACTCCACATCACGGCACCTGCTGCTCCCGCGCCACAGGCGCCCGCCGGCCCGCAGACCTTCGAGCAGGCGCCGCTGGCCGAGAGCCAGAACAGCGTCATCATCCGCCGTGGCGATACGCTGTGGCAGATTTCCCGTCGCGTTTATGGTCAGGGCGTGCGTTACACCACGATCTACCTCGCCAACGAAGATCAGATCAAAAACCCCGATCTGATCGAGCCCGGCCAGATTTTCGGCGTGCCGAAAGAGGCGCTGCCGAATGCGGAAGAACTTCACCGCAAGCGGCTGAAGAGCGGCTCCTGA	MKNNKAGLLALIVLGVASLLMIFFVLPRISNDGKPIGDAINEAGNAVKNSVEMGADKAGDILSDAAEETANIADKVGRRAASATQSIKDLTTLFADSKVPSDADFAAARKKVETSLKELTNIEIPESLDETTSRLITTARTAAERTTAFLRGLPDNAAAAAAQVRRLAGVFAGTDDGAPEPAKPAAAPADAAQSSAATPTFDVLRVEPDGSAVIAGKAQPGAKLEILSNGKVVAQTTIDGTGDFAAVFDNPLPPGDHELVLRSTDASGKATQSEEVATVSVPDGKAGELLAMVSKPGKASRVLAMPEAAPPALQPQAAPSQQPAPTSEPSANIASAPLAGTAAPSAAAPLTSSVQVTAVEFEGSKIFVAGSAPAGSTVRALVDDREIGKSTTEASGHFVVEGDVDLSVGSHIITVEELNADGTAKVRVRVPFERPQTDQATVAMQSPSASSSATTTTAPAENQSTASDRAAFEKLRTDVAKAFGILSNLYKDQATPALDQAIAGRSAVVIGLKSLSEFRTAAATEPAFTAFAGDITAKARQLLTSVEAWPNDVAAIGKGIASLASRLAELHITAPAAPAPQAPAGPQTFEQAPLAESQNSVIIRRGDTLWQISRRVYGQGVRYTTIYLANEDQIKNPDLIEPGQIFGVPKEALPNAEELHRKRLKSGS				NA	NA	NA	NA	NA
BMS010_00405	621		COG1611	Putative cytokinin riboside 5'-monophosphate phosphoribohydrolase	ATGACGGACAAAAATACAGCGATTCGATCCATCTGCGTTTATTGCGGCTCCCAGCCCGGACGTGATCCGGCCCATATGGAAGCGGGCCGCGCGCTTGGGAAATCCATTGCCGAAAACGGCATTCGCCTCGTCTATGGCGGCGGCACCAAGGGCATCATGGGCGCAGTTGCCAGCGGCGTTCTTTCCAATGGCGGCGAAGTGACCGGCATCATACCGGAATTTCTGGTCGATATGGAGGCGACGCGCCATTCTCTCGGACAATTGAACGAGCTTGTCATCACCAAGGACATGCATGAGCGCAAACATATGATGTTCGAGCGCTCCGATGCCTTCGTGACATTGCCCGGCGGGGTCGGCACGCTGGAGGAGATCGTCGAGATCATGACCTGGGCGCAGCTCGGCCGCCATGCCAAGCCGATGGTCTTCGCCAATATCAACGGTTTCTGGAACCCGATGCTGGAACTGGTGCAGCACATGCGCGACCAAGGTTTCATCCACCGCGCGCATCTTCTCAACCCGCTCGTCATCGACGAGGTGAAGGATATCGTGCCCGCCATCATCGACCGGGCGCTGGCGCAGCAGAAGCCGGAAGGCGATCCTTCGGTGATTTCCCGCCTCTAG	MTDKNTAIRSICVYCGSQPGRDPAHMEAGRALGKSIAENGIRLVYGGGTKGIMGAVASGVLSNGGEVTGIIPEFLVDMEATRHSLGQLNELVITKDMHERKHMMFERSDAFVTLPGGVGTLEEIVEIMTWAQLGRHAKPMVFANINGFWNPMLELVQHMRDQGFIHRAHLLNPLVIDEVKDIVPAIIDRALAQQKPEGDPSVISRL	PGPT0007225_1006	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007225-log|yvdD-K22522	NA	NA
BMS010_00406	1761	ftsI_1		putative peptidoglycan D,D-transpeptidase FtsI	ATGATTGCTTTTGTGGTGCGGCTCAAAAGCCGGGCGCATTTTATTATTCAGAGAAATTCCGCGAAGGGCAGGGAGGCGCTCCTCGGTTCCGCCGCCCGCCGCAGGGTCGATGCGCGCATGAGGCTCGGCATCGTGATCGCCGTCTTCGCTGTCATCTATGGCGTCGTCGCCGCGCGTCTCGTGCAATACGGTCTTGCCGAACCCGTGGCGACCGCATGGATCAATACTGGCGTCAACGCCGTCGCCTCCCGGCCGGATATTGTCGATCGCAACGGCACGCTTCTGGCGACCGATCTCAACATGGTCTCGCTTTATGCGGATCCGCGCCGGATCGTCGATCCGGATGAGGTGGTGGAGAAACTCGCGACCGTCATTCCCAATCTCGACTGGCGTGAAACGCACCGCCGGTTGCGCTCGGACACCGGTTTTCAGTGGCTGCGACGGCAGCTGACACCCCGGCAGCAGGCGGAGATTCTCAATCTCGGCATACCGGGCATCGGCTTCCGGCCGGAAAAGCGAAGGTTTTATCCGGGTGGCCCCACCGCTTCGCATATTATCGGCCACGTCAATGTCGACAATCAGGGGCTTGCCGGCATGGAGCGTTATCTCGACCAGCAGGGCCTGGCCGATCTGCGCGCCGTGGGTCTTGCCAGCGGCGCGCCGCTGGAGCCGGTGCGTCTCTCCATCGATCTCAGGGTACAGAACATCGTCCGCGAAGTGGTCGTGAAGGCGAAAAGCGCCTATCAGGCCGAAGCGGCAGGTTCAGTGATCCTCGATGTGGAGACGGGCGAGGTGCTGGCCATGGCCTCCGTGCCGGATTACGATCCGAACGAACCTTCCCGCACCCTTGCCGATGGCAGCATAGACAGGGAGTACGAAAAGGGCTGGTTCAACCGGATGAGCAACGCCACCTTCGAAATGGGCTCCACCTTCAAGAGTTTTACGCTCGCCATGGGGCTGGATGCCGGGGCGATCACACTGGGTTCGGTGGTGGATGCGTCGCGGCCGATCCGCATGGGCGGCTTCAACATCAAGGATTTCAAGGGCCGGAACCGGCCGCTCTCCATTCCGGAAGTGTTTCAATATTCATCGAATATCGGCACGGCGGCGGTGGCCGACAAGGTTGGCGTCGAAGGCCATCAGCAGTTCCTGACGAAGCTCGGGCTTCTCACCCGGATGGACACGGAAATGCCGGGCGTTGCGACGCCCACCCAGCCGAGAAACTGGAAGAAGATCAATTCCGTCACCATCTCCTTCGGCCACGGCGTCGCCACCACCCCGTTGCAGACGGCGGTGGCCGCTGCCGCGCTGATCAATGGCGGCAACCTGATTTCGCCGACCTTCCTGCCGCGTTCGAAAGAGGCTGCCGCATCGCTCGCGCGCACCGTCATCAACGACAGGACGAGCGCCGATATGCGTTACCTGTTCAACTGGAACGGCATCAAGGGTTCCGGCCGTGGCGCGCAGGTGGAAGGATTTCATGTGGGCGGCAAGACCGGAACCGCCGACAAGGTGATCAATGGCCGTTACGCCAAGGATATCAATTTCAACGCCTTCGTGGCCGGTTTTCCCATGCACAAGCCGAAATATGTTGTGCTGACGATGATCGACGCCCCGAGAACCGGCGTGAACGGCGGGCGCACGGCGGCCTCCACCGCAGCCCCCATGACCCGCGAAATCATCGCCCAGACGGCAGGCCTTCTCGGCGTTAAACCGCGTTTCGGCTATGATGCCAACCCGCAATTGCTGGTGGATTATTGA	MIAFVVRLKSRAHFIIQRNSAKGREALLGSAARRRVDARMRLGIVIAVFAVIYGVVAARLVQYGLAEPVATAWINTGVNAVASRPDIVDRNGTLLATDLNMVSLYADPRRIVDPDEVVEKLATVIPNLDWRETHRRLRSDTGFQWLRRQLTPRQQAEILNLGIPGIGFRPEKRRFYPGGPTASHIIGHVNVDNQGLAGMERYLDQQGLADLRAVGLASGAPLEPVRLSIDLRVQNIVREVVVKAKSAYQAEAAGSVILDVETGEVLAMASVPDYDPNEPSRTLADGSIDREYEKGWFNRMSNATFEMGSTFKSFTLAMGLDAGAITLGSVVDASRPIRMGGFNIKDFKGRNRPLSIPEVFQYSSNIGTAAVADKVGVEGHQQFLTKLGLLTRMDTEMPGVATPTQPRNWKKINSVTISFGHGVATTPLQTAVAAAALINGGNLISPTFLPRSKEAAASLARTVINDRTSADMRYLFNWNGIKGSGRGAQVEGFHVGGKTGTADKVINGRYAKDINFNAFVAGFPMHKPKYVVLTMIDAPRTGVNGGRTAASTAAPMTREIIAQTAGLLGVKPRFGYDANPQLLVDY	PGPT0023865_2624	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023865-ftsI-K03587	NA	NA
BMS010_00407	909	rarD_1	COG2962	Protein RarD	ATGGCACTCGACAAATCGCTCCCGGCCCAGGAGGGCGGCGACAGCGCGCGCGGTTTTGCTTTCGCGCTTTCCGCTTATCTGCTCTGGGGGTTTCTTCCCTTTTACATGAAGGCGGTTGCGCATATTTCGCCGATCGAGGTCATCGTCCATCGCGTCGTCTGGTCGGTGCCGATTGCGGCGGTTGTGCTGATTGCGCTCGGACGCACGGCGGAAATCAGAACCGCGCTCAGAACCCCCAAGATGCTGGCAATGGCCAGCCTGACGGCCATCCTCATCAGCATCAACTGGGGCGTCTATATCTGGGCGATCGGCGCAGGCCGCGCGCTCGATGCCGCGCTTGGCTATTTCATCAATCCGCTGTTCAGTATTTTCCTCGGTGCGGTTCTCCTCAAGGAAAAGCTCTATCCGGCGCAGATCGCCGCCATCGGCCTCGTGGCGCTGGCGGTGGCCATCCTCACCTGGCATGCGGGCAGCCTGCCCTGGGTGTCCATCGCGCTCACCGTGTCCTGGGGTTTTTACGCCTTTTTCCGCAAGACTTTGCCGATTGGCGCGACGCAGGGCTTCCTGCTGGAAGTCATGCTTCTGTCCATCCCCGCCGTGCTGGTGATGATCTGGCTTGCTTTCAACGGACAGGCGCATTTCATGGGCGGCAATTCCGCCGATACCTGGCTTCTGGCGACAAGCGGGCTCATCACGGCCGTGCCGCTCATCCTCTATGGCAATGGCGCGAAACTGCTGCGGCTGTCGACCATTGGCATCATGCAATATATCGCGCCGACGATGATCTTCCTCATCGCCATCTTCGTCTTCAAGGAGCCGTTCGACATGGTGCGCATGGCCGCCTTTGCGATGATCTGGGTGGCGCTGGCGATCTATACCGGCTCCAGCCTGCTGCGGCTCAAGCGGTAA	MALDKSLPAQEGGDSARGFAFALSAYLLWGFLPFYMKAVAHISPIEVIVHRVVWSVPIAAVVLIALGRTAEIRTALRTPKMLAMASLTAILISINWGVYIWAIGAGRALDAALGYFINPLFSIFLGAVLLKEKLYPAQIAAIGLVALAVAILTWHAGSLPWVSIALTVSWGFYAFFRKTLPIGATQGFLLEVMLLSIPAVLVMIWLAFNGQAHFMGGNSADTWLLATSGLITAVPLILYGNGAKLLRLSTIGIMQYIAPTMIFLIAIFVFKEPFDMVRMAAFAMIWVALAIYTGSSLLRLKR	PGPT0003906_1316	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0003906-rarD-K05786	NA	NA
BMS010_00408	1089			hypothetical protein	GTGAACGACATCCTCAAGACGCTCGACCTGATTTACGAAGCAGCCTTCGTGCCGGAACGGTGGCGAGAGGTGCTGGATGTCATGGCGAACGGCGCCGGTGGCCATGGCACAGCGCTCTTCAACACCGGCAAAACGGCTGCGCGGTCCCTCGCTTCGGACTCGCTTGCCGACCTCACTCAGAAAATGGTGAACGAGGGCTGGCTCGGCCGCAATTCGCGCGCTGCCAGGCTGCTGACCATCGAGCACGAGGGTTTCATCAACGAGGCGGATTATTTCACCGCCGAAGACTACAATTCCCAGCCAATCTTTACGCAGGTGATGCAGCCGCTCGGTTATGGCTTCGGAACATCCACCTTCATTACCGCCCCCAGCGGCGACCGCATGATTTTCGCGGTGGAGAAAAAAGCGGCGACAGGGCCTGTCACCACTTCCGCCATCCTCTATCTGGACAGCCTTCGGCCGCATCTCGCGCGGGCGGCGATGATGTCCAGCAGACTGGAATTCGAGCGCGTCCGGGCCGCAACCGAGGCCTTGCAGATCGCCGGTCTTCCCGCCGCCGTTCTTCGGGCCGATGGCGTGGCGCTTGCCGTCAACGACCTCCTGGAACGGATGTCACCGCGTATAGTGACAGCGGCTTTCGACCGAATTCGGTTCCAGCATGCCCCTGCCAACAGTTTTTTAGCCCGGTTGCTCGAACGAAGCCGGGTCGCTCACAGCGGTGCAAGCGGATCGCTTCCCTTGCCTAGGGTGGAGGATCATCCTGCGGCCGTCGTCCATGTCGTGCCCGTGGAAGGCGGCGCGCGCGATATTTTCACCAATGCGGCGTTGTTCATGATCATTACGCCTGTCGACCGCCAGCGCCTGCCTTCCGCCGACATCATCAGGGGCCTGTTCGATCTGACGCCAGCCGAGGCGAAGGTGGCGCGCGAACTGGCGACGGGAAGCGATGTCGCCGCCGTGGCCGACCATCTTTCCGTCGGCAGGGAAACCGTCAGATCGCATGTGAAAGCGATCCTGTCAAAAACGGGAATGTCTCGTCAGGCGGATTTCATAGCCGCTATTGCGAGCATCAGAACCATCGAACAATGA	MNDILKTLDLIYEAAFVPERWREVLDVMANGAGGHGTALFNTGKTAARSLASDSLADLTQKMVNEGWLGRNSRAARLLTIEHEGFINEADYFTAEDYNSQPIFTQVMQPLGYGFGTSTFITAPSGDRMIFAVEKKAATGPVTTSAILYLDSLRPHLARAAMMSSRLEFERVRAATEALQIAGLPAAVLRADGVALAVNDLLERMSPRIVTAAFDRIRFQHAPANSFLARLLERSRVAHSGASGSLPLPRVEDHPAAVVHVVPVEGGARDIFTNAALFMIITPVDRQRLPSADIIRGLFDLTPAEAKVARELATGSDVAAVADHLSVGRETVRSHVKAILSKTGMSRQADFIAAIASIRTIEQ				NA	NA	NA	NA	NA
BMS010_00409	957	pip_1		Proline iminopeptidase	ATGACCGAAGAATTGCGCGGCCTTTACCCCGAGATCGAACCTTTCGAGACCGGCATGCTCGATGTCGGCGACGGCCACACGATCTATTGGGAAAGGGTGGGCACGCGCGGTGGAAAACCGGCGGTTTTCCTGCATGGCGGCCCCGGCGGCGGGGTGAACCCCACGCATCGCCGCGTTTTCGATCCCGCCCTTTACGACGTCATCCTGTTCGATCAGCGCGGCTGCGGCCGCTCCACGCCGCATGCCGAACTTGAAGCCAACACCACATGGCATCTCGTTGCCGATATCGAAAGGCTGCGCGAACTCTGCGGCTTCGAAAAATGGCTGGTTTTCGGCGGTTCCTGGGGCTCGACGCTGGCGCTCGCCTATGCCGAGACCCATCCGAACCGCGTCAGCGAACTGGTTTTGCGCGGCATCTACACCGTTACCAGACCGGAACTGGACTGGTACTACCAGTTCGGCGTTTCCGAAATGTATCCGGATCGGTGGGAGAAATTCATCGCGCCCATCCCGCAAGCCGAACGCGGCGAGATGATGCAGGCCTATAACCGCTATCTCACCGGCACCGACGAGGCAAAGAAACTCGAATGCGCCAAGGCATGGAGCCAGTGGGAAGGGGCGACCATCTCGCTCGTCAGCGATCCCGACCGGGTCGAGGATTTCGGCGAGGATAAATACGCCATCGCTTTCGCCCGCATCGAAAACCACTTCTTCGTCAATGGCGGCTGGCTGGAGGAAGGGCAATTGCTGCGCGACGCCGGCAAACTGAAAGATATTCCCGGCGTCATCGTGCATGGGCGTTATGACATGCCCTGCCCGCTGAAATATGCCTGGCAGCTGGCCAAGGCCTGGCCGAAGGCGGATTTCCACATCATCGAGGCGGCCGGACACGCGATGAGCGAGCCAGGCATTCTTGACCAACTGATCCGCGCCAACGACGGCTTTGCGGAAAAATAA	MTEELRGLYPEIEPFETGMLDVGDGHTIYWERVGTRGGKPAVFLHGGPGGGVNPTHRRVFDPALYDVILFDQRGCGRSTPHAELEANTTWHLVADIERLRELCGFEKWLVFGGSWGSTLALAYAETHPNRVSELVLRGIYTVTRPELDWYYQFGVSEMYPDRWEKFIAPIPQAERGEMMQAYNRYLTGTDEAKKLECAKAWSQWEGATISLVSDPDRVEDFGEDKYAIAFARIENHFFVNGGWLEEGQLLRDAGKLKDIPGVIVHGRYDMPCPLKYAWQLAKAWPKADFHIIEAAGHAMSEPGILDQLIRANDGFAEK				NA	NA	NA	NA	NA
BMS010_00410	486			hypothetical protein	ATGAGCGGAGCCGAGGGTTTCAGCGGCGGATGCCAGTGCGGCGCAGTGCGTTATCGGATAGAAGGCGGTCTTCGTTATCCGCATCTGTGCCATTGCCGCATGTGCCAGAAGGCATCGGGCAATTATTTCATGCCGCTTGCCGCAGCTGCGCTTACGCAATTTGAAATGACCCGTGGCGAAGCAGCGTGGTTCCAGTCTTCCGATCACGTGCGTCGCGGTTTCTGCGGCCGATGCGGCACGCCGCTGTTCTATGACATGCCGGGCGCCGATTTCATCAATATCACCCTCGGTTCGCTGGACGAACCCCAGCGGGTAAGACCCGAGGCGCAATCCAATCTCGCCGGCAAAATGCACTGGTTCGGCGCACTCGATGGCTTGCCGGTCGAGCCGGAACCTGCAACGGATAGCCCTCCCCCTCGGGTGAACAATTGCCAGCACCCGGACCATGATACGGCCGAATGGCCAGCGAAGGACGATGACCCATGA	MSGAEGFSGGCQCGAVRYRIEGGLRYPHLCHCRMCQKASGNYFMPLAAAALTQFEMTRGEAAWFQSSDHVRRGFCGRCGTPLFYDMPGADFINITLGSLDEPQRVRPEAQSNLAGKMHWFGALDGLPVEPEPATDSPPPRVNNCQHPDHDTAEWPAKDDDP				NA	NA	NA	NA	NA
BMS010_00411	468			hypothetical protein	ATGATGAGCGAAGCGGGATTTTCCGGCGGTTGCCAGTGCGGCGCCGTGCGTTTCCATGCGGGCAAACTCGGCCGGGCCTCCATCTGCCATTGCCGCATGTGCCAGAAACACTTCGGCAATTTCTTCGGCGCGCTGGTCAGCGCCGATCAGGCGCATCTGACCTGGACGCGCGGCCAGCCGTCCCTCTTCCGCTCCTCGGGAAAAATCCATCGCGGTTTCTGCAACAAATGCGGCACGCCACTGACCTATCATTATCCCGGCGGCGTGGAGATCGCCATCGGCGCTTTCGATGAGCCCGAGCGGATCGAGCCGCAGGTGCAGGTCAATTTCCATAAGCGCATGCCGTGGATCGAGCAGCTGTTCGGCAAGCCGACCGTGGAACAGGGCGTGGACGAGGCGGAAATCACCTCCTATCAGCACCCGGATCACGACACGCAGGTCTGGCCGCCGGAAGACGGTCGCGCATGA	MMSEAGFSGGCQCGAVRFHAGKLGRASICHCRMCQKHFGNFFGALVSADQAHLTWTRGQPSLFRSSGKIHRGFCNKCGTPLTYHYPGGVEIAIGAFDEPERIEPQVQVNFHKRMPWIEQLFGKPTVEQGVDEAEITSYQHPDHDTQVWPPEDGRA				NA	NA	NA	NA	NA
BMS010_00412	474			hypothetical protein	ATGACGACATATACCGGCGGATGCCAGTGCGGCGCGATCCGTTTTCGCGCCTCCGGTGAACTGAAAGACAGTTCCATATGTCATTGCCGCATGTGCCAGAAGGCTTTCGGGGCCTATTACGCGCCGCTGGTTTCGGTGCGCGGCGTGGAATTCGAATGGACCCGGGGAGAGCCGAAACGCTTCCAGTCCTCCAGCGTCGTCAAGCGCGGTTTCTGCCCTGAATGCGGAACTCCGCTGACTTATGAAGCGCCTGACGGTGTGGCGGTGGCGGCCGGGGCCTTTGACGATCCCGCCGCGTTGCCGCCGACCATTCAGTGGGGCGTGGAACGCAAGATCGATTTCGTCGACACGCTTCACACGCTGCCTGCGGTTGCCACAGAGGACGACCTGACGCAGGTGGATTACCTCGCCGATCTCGTTTCCTACCAGCACCCCGACCACGACACCGAAAATTGGCCACCGGAGAACAGATGA	MTTYTGGCQCGAIRFRASGELKDSSICHCRMCQKAFGAYYAPLVSVRGVEFEWTRGEPKRFQSSSVVKRGFCPECGTPLTYEAPDGVAVAAGAFDDPAALPPTIQWGVERKIDFVDTLHTLPAVATEDDLTQVDYLADLVSYQHPDHDTENWPPENR				NA	NA	NA	NA	NA
BMS010_00413	471			hypothetical protein	ATGCCCGGCAGGGCAGAGGGGGGTAAGCCCCACGACACGCCCTTGCTTTCACCCACGCCATGCTCCAATCTCGCCGCACCCCCATCAAGCCGCGAGCATCCCGTGCCCCATGCCAAGGTCGAGCTAAAACACCGCGCGTATGCCCGGCAGATGCGGAAGACCATGACCGACGCAGAGCTGAAGTTCTGGAACGCCGTCCGCGCTCACCGCCTTGACGGCATGGCTTTCAGACGCCAGCTGCCGGTCGCCGGATATATCGTTGATTTCGCTTGCCCCTCGCATAAGATCATTGTCGAACTGGACGGGTTTCAGCACGCGGACGACGCTGCGGCAGCCTATGACCGAGAGAGAACACGCGCGTTTGAGGAACTTGGCTGGACAGTCCTCCGTTTCTGGAACGAGGATATCCTCGGGGACATCGACAATGTCTGTCTCCACATTATCCGAACGGTGAAGGAGGACCGAGCATGA	MPGRAEGGKPHDTPLLSPTPCSNLAAPPSSREHPVPHAKVELKHRAYARQMRKTMTDAELKFWNAVRAHRLDGMAFRRQLPVAGYIVDFACPSHKIIVELDGFQHADDAAAAYDRERTRAFEELGWTVLRFWNEDILGDIDNVCLHIIRTVKEDRA				NA	NA	NA	NA	NA
BMS010_00414	1386	cysS_1	COG0215	Cysteine--tRNA ligase	ATGTCCTTGCGCCTGAAACTTCACAACACGCTGACCCGCGAAAAGGCGGAATTTGCGCCCATCGATCCTGACAATGTGCGCATGTATGTCTGCGGCCCGACCGTTTATGATTTCGCCCATATCGGCAATGCGCGCCCGGTCATCGTTTTCGATGTTCTCTACCGGCTGCTGCGCCACGTCTTTGGCGAAAACCATGTGACCTATGCCCGCAACATCACCGATCTCGATGACAAGATTAATGCGCGGGCGCTGAGGGATTATCCGCATCTGCCGCTGAACGACGCCATCCATGCGGTGACGAAAAAGACCGCCGACCAGTTCCATGAGGATGTGGCCACGCTCGGCTGCCTTCCGCCGACCGTCGAACCGCGCGCCACCGACTACATCGCGGAAATGATCGACCTCATCGAGAAGCTGATCGCCCGCGGCCATGCCTATACGGCCGGCGGCGAGGTGCTGTTCGACACCCGCTCGATGGCCGATTATGGCCAGCTTTCCAAGCGGCCGCTGGACGAGCAGCAAGCCGGCGCGCGCGTGGCGGTGGAAGCCCATAAAAAGACCCCCGGCGATTTCGTGCTGTGGAAACTGTCCTCGGATAATGAGCCCGGCTGGGAAAGCCCCTGGGGGCGCGGCCGTCCGGGCTGGCATATCGAATGCTCGGCCATGGCCGGTCGCTACCTCGGCGAGGTCTTCGATATTCACGGCGGCGGGCTCGACCTCATTTTCCCGCACCATGAGAACGAAATTGCGCAATCGCGTTGCGCCAATGGCACGCATGTCATGGCCAATGTGTGGATGCATAACGGCTTCGTGCAGGTGGAAGGCCGCAAGATGTCGAAGTCCGAGGGCAACTTCGTGACGATCTACGAATTGCTGCACACGGAGAAATTCGGCGGCCGGAAATGGCCGGGCGAGGTTCTGCGCCTCGCCATGCTGATGACGCATTATCGCGAGCCGATCGATTTTTCGGTGAAGCGTCTGGAAGAAGCCGAACGCCTGCTCGCCAAGTGGCCGGCGGCGGAAGCCTCCGATGCTGCACCGGATGAAACCGTGCTCGAAGCGCTCGCCGACGATCTCAATACCGTTGCCGCCGTGCAGGCGCTGCATGCGCTGGCGCATGCTGCCAACACCGATCCATCCAGGCTGCCCGCCTTTGCGGCGAGTGCTGCCCTGCTCGGTGTCCTGCCGAAGAAGGCGGAAATGGACGAGGCCATCGTTTCGGCCGTCGATGCGCTGGTGGAATTGCGTCTGGAAATGTTGAAGGCGAAGAACTTTGCGGAAGCGGATCGTTTGCGTGATGAGCTTTCCGAGAAGGGCATTCAGTTGAAGGATGGGAAGGACAAGGAGACCGGGGAGAGGACGACGACGTGGGAGTTGAAGCGGTAA	MSLRLKLHNTLTREKAEFAPIDPDNVRMYVCGPTVYDFAHIGNARPVIVFDVLYRLLRHVFGENHVTYARNITDLDDKINARALRDYPHLPLNDAIHAVTKKTADQFHEDVATLGCLPPTVEPRATDYIAEMIDLIEKLIARGHAYTAGGEVLFDTRSMADYGQLSKRPLDEQQAGARVAVEAHKKTPGDFVLWKLSSDNEPGWESPWGRGRPGWHIECSAMAGRYLGEVFDIHGGGLDLIFPHHENEIAQSRCANGTHVMANVWMHNGFVQVEGRKMSKSEGNFVTIYELLHTEKFGGRKWPGEVLRLAMLMTHYREPIDFSVKRLEEAERLLAKWPAAEASDAAPDETVLEALADDLNTVAAVQALHALAHAANTDPSRLPAFAASAALLGVLPKKAEMDEAIVSAVDALVELRLEMLKAKNFAEADRLRDELSEKGIQLKDGKDKETGERTTTWELKR	PGPT0002985_4873	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002985-cysS-K01883	NA	NA
BMS010_00415	759	yciK_1	COG1028	putative oxidoreductase YciK	ATGACTACCGATCTGAAGGGGACTATCGATCTCAAGGGCCGCATCGCTCTCGTTACCGGCGCATCGCGCGGCATCGGCTATTTCACGGCGCTGGAGCTCGCCAGGGCCGGGGCGCATGTCATCGCCTGCGCCCGCACGGTGGGCGGCCTTGAGGAGCTGGACGACGCCATAAAGGCCGTCGGCGGCACGGCGACGCTGGTTCCCTTCGATCTCTCCGACATGAAAGCCATCGATGCGCTGGGCGCGAATATCTTCGAGCGCTGGGGCAAGCTCGATATTCTCGTCGCCAATGCCGGCGTTCTCGGCGTCATCTCGCCGGTCGGCCATATCGAGGCGAAAGTCTTCGAAAGGGTCATGAACATCAACGTCACCGCCACCTGGCGGCTGATCCGCTCGGTCGAACCGCTGCTTCTGAAGTCAGACGCCGGCCGCGCGCTGATCCTGTCTTCGGGCGCCGCCCATAGCTGTCGCCCCTTCTGGGGCGTCTATTCCACCTCCAAGGCGGCAGTCGAAGCGCTGGCCCGCACCTGGGCGGCGGAAACGCAGAAGAGCGCCCTTCGCGTCAACAGCATCAATCCCGGTGCGACACGCACGGCGATGCGTGCGCAGGCCATGCCCGGCGAAGACCCGGCCACCGTGCCGCATCCATCTGAGGTGGCCGCAGCCATTCTTCCGCTCGCCTCGCCCGATCTCAAAGAGACCGGTAAACTCTTCCTGGTCCGGGAAAACCGGTTCGTGGATTACCGTCCGCCGGAGTGA	MTTDLKGTIDLKGRIALVTGASRGIGYFTALELARAGAHVIACARTVGGLEELDDAIKAVGGTATLVPFDLSDMKAIDALGANIFERWGKLDILVANAGVLGVISPVGHIEAKVFERVMNINVTATWRLIRSVEPLLLKSDAGRALILSSGAAHSCRPFWGVYSTSKAAVEALARTWAAETQKSALRVNSINPGATRTAMRAQAMPGEDPATVPHPSEVAAAILPLASPDLKETGKLFLVRENRFVDYRPPE				NA	NA	NA	NA	NA
BMS010_00416	1509	purF_1	COG0034	Amidophosphoribosyltransferase	ATGATTGAGCCGCTTTCGCATTCCCCGTTCCCTGGGGCCACTTTCAAGGAAGAGATCGATGGCGACACGCTGCATGAAGAATGCGGCGTGTTCGGCATTCTCGGCCATGCCGACGCCTCGGCGCTGACCGCTCTCGGCCTGCATGCGCTTCAGCATCGCGGCCAGGAAGCAGCCGGCATCGTCTCCTTCGATGGCAAGCGCTTCCATCAGGAACGCCATATGGGCCTCGTCGGCGATCATTATACCGATCCCGCAACCCTTGCCCGCCTGCCCGGCTCCATCGCCATTGGCCACACCCGTTATTCCACGACGGGCGAAGTTGCGATGCGCAACGTGCAGCCGCTGTTTGCCGAACTGGAAGAAGGCGGCATCTCCATTGCCCATAACGGCAATTTCACCAACGGCCTGACGCTTCGCCGCCAGATCATCGCCACCGGCGCCATCTGTCAGTCGACCTCGGATACCGAAGTCGTCCTTCACCTCATCGCCCGCTCGCGCCACTCCTCCACAGCCGATCGTTTCATCGACGCCATCCGCCAGATGGAAGGCGGTTATTCGATGCTGGCGATGACGCGCACCAAGCTGATTGCCGCGCGTGACCCGATCGGCATCCGCCCGCTGGTCATGGGCGAGCTGGATGGCAAGCCGATCTTCTGCTCGGAAACCTGCGCTCTCGATATCATCGGTGCGAAGTTCGTTCGTGACGTGGAGAACGGCGAAGTCATCATCTGCGAAATCCAGCCTGACGGTTCGATCACCATCGATGCGCGCAAGCCTTCGAAGCCGCAGCCGGAGCGTCTCTGCCTGTTCGAATATGTCTATTTCGCCCGCCCCGATTCCGTCGTCGGCGGCCGCAACGTCTATACGACGCGCAAGAACATGGGCATGAACCTTGCCAAGGAAGCGCCGCTGGAAGCCGATGTGGTGGTCCCGGTTCCCGATGGCGGCACGCCGGCAGCACTCGGTTTTGCGCAGGAAAGCGGTATTCCTTTCGAATACGGCATCATCCGCAACCATTATGTCGGCCGTACCTTCATCGAGCCGACGCAGCAGATCCGCGCTTTCGGCGTCAAGCTCAAGCATTCCGCCAACCGGGCGATGATCGAGGGCAAGCGCGTGGTGCTGGTGGATGATTCCATCGTGCGCGGCACGACCTCGGTGAAGATCGTGCAGATGATCCGCGAGGCGGGCGCCAAGGAAGTTCATATCCGCGTTGCCAGCCCGATGATCTTCCATCCGGATTTCTACGGCATCGACACGCCGGACGCAGACAAGCTGCTCGCCAACCAATATGCCGATGTCGAGGCGATGGCGAAATATATCGGCGCCGATTCGCTGGCCTTCCTGTCCATCGACGGACTTTACCGCGCCGTTGGCGGCGAAAACCGCAACCCGGCCCGTCCGCAATTCACGGACCATTATTTCACCGGCGATTACCCGACGCGCCTTCTCGACCAGAACGGTGAGGCGATGGGAAGCAAGATTTCCATGCTGGCCAGCAACGGCTGA	MIEPLSHSPFPGATFKEEIDGDTLHEECGVFGILGHADASALTALGLHALQHRGQEAAGIVSFDGKRFHQERHMGLVGDHYTDPATLARLPGSIAIGHTRYSTTGEVAMRNVQPLFAELEEGGISIAHNGNFTNGLTLRRQIIATGAICQSTSDTEVVLHLIARSRHSSTADRFIDAIRQMEGGYSMLAMTRTKLIAARDPIGIRPLVMGELDGKPIFCSETCALDIIGAKFVRDVENGEVIICEIQPDGSITIDARKPSKPQPERLCLFEYVYFARPDSVVGGRNVYTTRKNMGMNLAKEAPLEADVVVPVPDGGTPAALGFAQESGIPFEYGIIRNHYVGRTFIEPTQQIRAFGVKLKHSANRAMIEGKRVVLVDDSIVRGTTSVKIVQMIREAGAKEVHIRVASPMIFHPDFYGIDTPDADKLLANQYADVEAMAKYIGADSLAFLSIDGLYRAVGGENRNPARPQFTDHYFTGDYPTRLLDQNGEAMGSKISMLASNG	PGPT0020225_2558	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020225-purF-K00764	NA	NA
BMS010_00417	588			hypothetical protein	ATGCCCATTACAATTTTCGACGGCATCGTCATCGCCGTTGTTCTTTTCTCCGCCCTTCTTGCAATGGTGCGCGGTTTTTCACGCGAAATTCTGTCGATTGCGAGCTGGGGCGGTTCGGTCGCCGCTGCCTATTATCTCTATCCCGTCCTGCTGCCCTATGCGCGCAACTATACCGATGACGACAAGATCGCCATTGCCGGTTCGGCGGGCGTGGTCTTCCTCGTCTCGCTGATCGTGATTTCCTTCATCACCTCGCGCATTGCCGATTTCATCATCGACAGCCGCATCGGCGCTTTGGATCGCACGCTCGGTTTCCTGTTCGGCGCGGCACGCGGCATTCTGCTGCTTGTCGTCGCAGTCGCCTTCTGGAACTGGCTGGTGGATGTGAAGACGCAGCCGGAATGGGTGACGCAGGCGAAGTCCAAGCCCTTCCTCGACGGGCTGGTGGGCAAGCTGGAGGCGGTTCTGCCTGACGATATCGAACCGCAGATCCGCGCCCGCATCCTCGGAAAACCACAGGAGCCGGCAGCCACGCAGGCGCCTGCGGAAGATGTGCCGGCAACAAATCCGCCGACAACGAATAATTGA	MPITIFDGIVIAVVLFSALLAMVRGFSREILSIASWGGSVAAAYYLYPVLLPYARNYTDDDKIAIAGSAGVVFLVSLIVISFITSRIADFIIDSRIGALDRTLGFLFGAARGILLLVVAVAFWNWLVDVKTQPEWVTQAKSKPFLDGLVGKLEAVLPDDIEPQIRARILGKPQEPAATQAPAEDVPATNPPTTNN	PGPT0011655_597	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|COLICINS,PGPT0011655-cvpA-K03558	NA	NA
BMS010_00418	1407	radA_1	COG1066	DNA repair protein RadA	ATGGCCAAAGCCAAGACCCAATTTGTGTGCCAGAACTGCGGCACGGTTCACACCCGCTGGGCGGGAAAATGCGAAGGCTGCGGCGAGTGGAACACCATCGTCGAAGAGGATCCGATGGGTGGCATCGGCTCCGGGCCGGGCAAGACACCCAAGAAGGGTCGGGCTGTCACCCTCACCTCGCTTTCCGGCGAGATCGAGGAAGCGCCGCGCATTCCGACCGGCATCAGCGAACTCGACCGGGCGACCGGCGGCGGTTTCGTGCGCGGTTCGGCGGTTCTGATCGGCGGCGATCCGGGCATCGGCAAATCGACGCTCCTCATGCAGGCCGCAGCGGCTCTTTCGCGGCGCGGACACCGCATCATCTATGTCTCGGGCGAAGAGGCGGTGGCGCAGGTGCGCCTGCGCGCGCAGCGTCTCGGGGCTGCGGAAACCGATGTGCTGCTGGCGGCGGAAACCAATGTCGAGGATATTCTGGCGACGATATCCGAAGGCAAGCGGCCCGATCTCGTCATAATCGATTCCATCCAGACGCTGTGGAGCGATACGGCCGATTCCGCCCCCGGCACGGTGACGCAGGTGCGGACCGGTGTGCAGGCGATGATCCGTTTCGCCAAGCAGACCGGCGCGACCATGGTGCTCGTCGGCCATGTCACCAAGGAAGGCCAGATTGCCGGTCCGCGCGTGGTCGAGCACATGGTCGATGCCGTGCTTTATTTCGAAGGCGACCGCGGACATCATCATCGCATCCTGCGCACCGTCAAGAATCGCTTCGGGCCGACCGATGAAATCGGTGTTTTCGAAATGTCGGATCGCGGCCTCAGGGAAGTCTCCAACCCCTCCGAACTGTTTCTCGGCGAACGCAACGAAAAGTCGCCGGGTGCTGCGGTTTTTGCCGGCATCGAGGGCACGCGGCCCGTGCTTGTCGAGGTGCAGGCACTAGTCGCTGCCACTTCGCTGGGTACGCCGCGTCGCGCCGTGGTCGGCTGGGACAGTTCACGGCTTGCCATGATTCTGGCTGTGCTGGAGGCCCATTGCGGCGTGAAGCTCGGCCAGCATGATGTCTATCTGAATGTCGCCGGCGGCTACCGCATTTCCGAACCGGCCGCCGATATGGCGATTGCCTCGGCGCTGGTTTCATCGCTTGCCGGTCTTGCCCTGCCCGCCGATTGTGTTTATTTCGGCGAAATCAGCCTGTCGGGTGCGGTTCGGCCGGTCTCGCATACGGGCCAGCGATTGAAAGAAGCTGAAAAACTCGGCTTTTCCGCCGCACTTCTGCCTTCTGCTTCGGCTGAATTGCCGAAAGGCGGCAAGGGACGCTGGACGGAAATCGAAAGCCTTCCGGACCTCGTGGCCCGCATCGCCGGCTCCGGCAACCGGTTCAAACAGGTTGAGGACGACGAATATTGA	MAKAKTQFVCQNCGTVHTRWAGKCEGCGEWNTIVEEDPMGGIGSGPGKTPKKGRAVTLTSLSGEIEEAPRIPTGISELDRATGGGFVRGSAVLIGGDPGIGKSTLLMQAAAALSRRGHRIIYVSGEEAVAQVRLRAQRLGAAETDVLLAAETNVEDILATISEGKRPDLVIIDSIQTLWSDTADSAPGTVTQVRTGVQAMIRFAKQTGATMVLVGHVTKEGQIAGPRVVEHMVDAVLYFEGDRGHHHRILRTVKNRFGPTDEIGVFEMSDRGLREVSNPSELFLGERNEKSPGAAVFAGIEGTRPVLVEVQALVAATSLGTPRRAVVGWDSSRLAMILAVLEAHCGVKLGQHDVYLNVAGGYRISEPAADMAIASALVSSLAGLALPADCVYFGEISLSGAVRPVSHTGQRLKEAEKLGFSAALLPSASAELPKGGKGRWTEIESLPDLVARIAGSGNRFKQVEDDEY	PGPT0014905_786	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014905-radA-K04485	NA	NA
BMS010_00419	312			hypothetical protein	GTGACAAAGGCCCGCACTTATTCCCTGTCATCGCGTACCATTCGTGATCTTATCCATCTCTATAAATTTCTGGAGGACAAAAATCCGGTCGCCGGCGAACAGCTCGTATCGGCCATTGAGCGGAAAATCCGGGATACAGCCCGGCTGGGTCTAACCGGAGTTTCCCGTGACTGGATCAGCAGCGGTCTTCGTGCCGTAAATCACAAAAACCGCTGCATCTATTTTCGTGTAAAAGAAAACGAATTGCGCATATTGCGCATCGTCCACGGCCATCAACACATTGGCACTGAAGACGTAGAAGAAGAAAACTGA	MTKARTYSLSSRTIRDLIHLYKFLEDKNPVAGEQLVSAIERKIRDTARLGLTGVSRDWISSGLRAVNHKNRCIYFRVKENELRILRIVHGHQHIGTEDVEEEN	PGPT0027550_890	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-ParE-ParD|paaAR_TOXIN-ANTITOXIN_SYSTEM,PGPT0027550-toxin_parE1_3_4-K19092	NA	NA
BMS010_00420	255			hypothetical protein	ATGCCCGAAATCCATTTGAGCGAGCAGGACGAGAAGTTCATCGAGGAGCAGGTGGCGGCGGGCATCTACAGCGATGCGGACGCGGTTATTCATGCGAGCCTGCAATTGTTGAGCAGTGACGAGGGACGACTCGCGGAGCTCCGGAAGATGATTCACGAAGCTGACGCAGAGTTCGAACGGGGTGACTACGTGACCTTTTCGACGGATGATGATCTGACCGCCTACATCATCGAACGCGCCAGAAACGAAAAGTGA	MPEIHLSEQDEKFIEEQVAAGIYSDADAVIHASLQLLSSDEGRLAELRKMIHEADAEFERGDYVTFSTDDDLTAYIIERARNEK	PGPT0027540_1049	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-ParE-ParD|paaAR_TOXIN-ANTITOXIN_SYSTEM,PGPT0027540-antitoxin_parD1_3_4-K07746	NA	NA
BMS010_00421	1176	alr_1	COG0787	Alanine racemase, biosynthetic	ATGACAGACGACTTCGAAGACAGCTTTCCCGAAAACGAAACCGACATTTTCGAGCACGCACCGCTGAGGCTGACCGTCGATCTCGGCGCGCTCGCCGATAATTGGCTGGACATGAAGAAGCGTTCCGGGGGGGCGCGGACGGCGGCGGTGGTCAAGGCCGATGCCTACGGTCTCGGTATCGAGGATTGCGGAGCGACGCTTTACCACGCCGGCGCGCGCGATTTCTTCGTGGCGACGGTGGCAGAGGGCGCGACCCTGCGTTCCTATGCTCCGGAAGCGCGCATCTTCGTGCTTTCCGGCATCTGGCAGGGCCAGGAGCGTCAGGTCTTCGACAACGATCTCGTGCCGGTTCTCGCCTCCGAAGAACAGCTTTCCTTCTGGATGGCGACGGTTGCCGAGCGGGGCGATCACCCCTGCGCGCTGCATGTGGATACCGGTTTCAACAGGCTCGGACTGCCGCTCGACGACGCGCTGTTTCTGGCTGATGACGTGACACGGCCGGCGAGTTTCGACCCGGTTCTGGTGCTGTCGCATCTCGCCTGCGCCGACACGCCCTCATCGCCGATGAACAGGGTCCAGCTCGAATCATTCCGAAAGGTTAGCGCCGCTTTCGAAGGCATCGAATCAAGCCTCTCGGCTTCCGCCGGTATCTTCCTCGGCTCGGAGTATCATTTCGACCTTACCCGCCCCGGCATCGCCCTTTATGGCGGCGAAGCGGTCGACGGCATGGCGAACCCGATGCGTCCCGTCGCCACAGCCGAAGCGCGGATCATTCAGATTCGCGAAGCGGGCGAAGGCCAGACCGTGAGTTATGGCGGCACCTTTCTGCTGAAGCGCGCAAGCCGCCTTGCCATCGCTTCCGTCGGTTATGCGGATGGATATCAGCGTTCGCTTTCCGGTTCCGGCATTCCGCTGCGCGAAATGGGCCATGGCGGCGCCTATGGCGTCGTCAACGGCCACAGGGTGCCGGTGGCCGGCCGCGTGACGATGGACCTCACCATTTTCGACGTGACGGATGTTCCGGCCAATGCCATCCGTGCCGGCGACTATATCGAGCTTTTCGGCCCCAACGTGCCCGTCGACGAGACCGCACGGGCGGCCGGCACCATCGGTTACGAGATGCTGACGGGGCTTGGCCTGCGTTACGAACGGCAATATCTGATGGCCGACGACTGA	MTDDFEDSFPENETDIFEHAPLRLTVDLGALADNWLDMKKRSGGARTAAVVKADAYGLGIEDCGATLYHAGARDFFVATVAEGATLRSYAPEARIFVLSGIWQGQERQVFDNDLVPVLASEEQLSFWMATVAERGDHPCALHVDTGFNRLGLPLDDALFLADDVTRPASFDPVLVLSHLACADTPSSPMNRVQLESFRKVSAAFEGIESSLSASAGIFLGSEYHFDLTRPGIALYGGEAVDGMANPMRPVATAEARIIQIREAGEGQTVSYGGTFLLKRASRLAIASVGYADGYQRSLSGSGIPLREMGHGGAYGVVNGHRVPVAGRVTMDLTIFDVTDVPANAIRAGDYIELFGPNVPVDETARAAGTIGYEMLTGLGLRYERQYLMADD	PGPT0020040_990	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020040-alr-K01775	NA	NA
BMS010_00422	858	rhaS_1		HTH-type transcriptional activator RhaS	ATGCACAATGTTTCGCAGGAACAGGCCATAGATGTCATGCCGATTGCGACGACGGAAACCACCCGTTTCTGGCGCGACAGGCGTTTTGGCGGCATGGAGTGCCTGAGCGCGACTTTTCTGACCCATGAATATTCGCCGCATGCGCATGATACCTTCTCTATCGGCGCAATCGAAAGCGGTTCGCAGATTTCCACCATTCAGGGCACCACCGAACAGACGGGGCCGGGGCATCTTTATCTCATCAATCCGGACGAGGTTCACGATGGCGCACCGGGCGGCGGCGGTTATCGTTATCGGATGATCTATCCCGATATCGTCTTGCTGCGCGATATTATCGAGGATGTGACGGGCAGGGCCTTTCATGGCACGCCCTCCTTTCCGAGATTTTTGCCCCGCGATCCGCAGATGGCGGCGGCTTTCCAGATGGCGCACCGGCGGCTGGAGGAGAAATCCGGCGCTCTGGAGGCGGATGAGGGCATGTTCTCGGTTCTCGCCGCCCTGTTCGGCAGGCACGGCAGCGCCATTATCCTGCCCGTCGAAACACGCGAGAAAACGGCGGTTTATACCGCCCGCGACTATCTTTCCGACAATTACGAGACCGATATCGGCCTAGAGGAACTGGCCTCCATCGCCGGTCTCAGCCGTGCGCATCTCATTCGCGCTTTCAGGAAAGAGTTTCACATTACCCCCCATGCCTATCTGACGGATGTGCGCATCCGCAGGGCGCGCCGGCTTCTGCGCGCCGGCGAGATGCCGGCCGAGGTGGCGGCGATGTGCGGTTTTGCCGACCAGGCGCATTTCACCCGACATTTCAAGGCCCGCACCGGTGTCACACCGGGGCAGTTTCGGGTAGCCTGA	MHNVSQEQAIDVMPIATTETTRFWRDRRFGGMECLSATFLTHEYSPHAHDTFSIGAIESGSQISTIQGTTEQTGPGHLYLINPDEVHDGAPGGGGYRYRMIYPDIVLLRDIIEDVTGRAFHGTPSFPRFLPRDPQMAAAFQMAHRRLEEKSGALEADEGMFSVLAALFGRHGSAIILPVETREKTAVYTARDYLSDNYETDIGLEELASIAGLSRAHLIRAFRKEFHITPHAYLTDVRIRRARRLLRAGEMPAEVAAMCGFADQAHFTRHFKARTGVTPGQFRVA				NA	NA	NA	NA	NA
BMS010_00423	705	ygaZ_1	COG1296	Inner membrane protein YgaZ	ATGTCGATATCGGGAAAAGGCGCGGAATTCAGTGCGGGATTGCAGGCCGCCGCGCCATTGCTGGTTGCCATGGTGCCGATTGGCGTGGTCTTCGGTGCGGTCGCCATCGGCAAGGGCCTGTCGCCGCTCGAAGCCTCGCTGATGTCGCTGCTGGTCTTTGCCGGCGGTTCGCAATTCGTGGCGATGGATCTATGGACGCATCCGGCAAGCTGGAGCGCACTCGGCTTTGCGGCGCTGCTGGTCAATCTGCGCCATGTGCTGATGAGCGCCTCCATAGCCGGCAAGCTGGATGATTTCAGGGGCTGGCGCAAATATGCCGCCATGCTGGTGCTGACTGATGAATCCTGGGCATTGTCGGAATTCCGTGTCATTGCCGGCCGGTTGACGGCGGTTTTCTTCACCGGTGCAGCGCTCTCGATCTATCTCGTTTGGAACCTTGCAACCCTTGCCGGCGCGCTGCTCGGCTCGGTGGTGGGGGACATGTCGGTCATCGGTCTGGATTTCGCGTTTCCTGCGGTCTTCATCGTGCTGCTCATGGGGTTCTGGAAGGGTAAGGAAACCGGCTTCGTGCTTCTGGCAAGCGCCGCTGCCGCCTGTCTCACTCACGCGCTGGTTCCCGGCGCCTGGTATATCGCCGCCGGCGCGCTGGCGGGTCTGGCCGTCGCCGCCTTCGGCCACGAGGAACAGGCGGAGCAGCCGGCATGA	MSISGKGAEFSAGLQAAAPLLVAMVPIGVVFGAVAIGKGLSPLEASLMSLLVFAGGSQFVAMDLWTHPASWSALGFAALLVNLRHVLMSASIAGKLDDFRGWRKYAAMLVLTDESWALSEFRVIAGRLTAVFFTGAALSIYLVWNLATLAGALLGSVVGDMSVIGLDFAFPAVFIVLLMGFWKGKETGFVLLASAAAACLTHALVPGAWYIAAGALAGLAVAAFGHEEQAEQPA				NA	NA	NA	NA	NA
BMS010_00424	303			hypothetical protein	ATGACACTCGATCCGAATACGCTGCTGACAATCCTTGCCATGATGGCGGCAACCGTCGCGACGCGCCTTGGCGGTCTGTTGCTGGTCACTCATTTTACACTGACACCACGCCTGAAAAAGGCGCTCGGCGTGGTGCCGCCCGCCGTCCTGATGGCCGTGGTGACGCCGACGGCGCTCGCCAGTGGCCCGGCTGAAACCATCGCCTGCGCGATAACCGCCATCGCGGCGCTGCGCCTCAGCCTTCTGCCGGCCGCAACGCTTGGTGTTGCAACCGTGGCGCTGCTGCGCGGAATCGGATTGTAA	MTLDPNTLLTILAMMAATVATRLGGLLLVTHFTLTPRLKKALGVVPPAVLMAVVTPTALASGPAETIACAITAIAALRLSLLPAATLGVATVALLRGIGL				NA	NA	NA	NA	NA
BMS010_00425	1497	dnaC	COG0305	Replicative DNA helicase	ATGAACGACGCTGTGAGAAAGATCACCCCCGCGCAACCGGCGGAACCGCATTACCGCGAAGCGCCGAACAACATCGAGGCCGAACAGGCGCTGCTCGGCGCCATCCTCGTCAATAACGACGCCTATTACCGCGTGTCGGACTTTCTGAAGCCCGTGCACCTTTACGAACCGCTGCACCGCAAGATTTTCGAGGTGGCGGGCGATATCATCCGCATGGGCAAGACCGCCAATCCGGTGACGATCAAGACCTTCCTGCCCGCCGACGACAAGATCGGCGATCTGACGGTGGCGCAGTACCTCGCGCGCCTTGCGGCGGAAGCCGTCTCCATCATCAACGCGGAAGATTACGGTCGTGCGATCTACGATCTGGCGCTGCGCCGCGCGCTGATCCAGATCGGCGAGGATGTCGTCAATATCGCCTATGACGCGCCGCTCGACATGCCGCCGCAGGCGCAGATCGAAGACACCGAACGCCGCCTGTTCGAACTGGCGGAAACCGGCCGTTACGATGGCGGTTTCCAGTCCTTCAACGACGCCGTGGCGCTGGCGATCGACATGGCGGGCGCCGCCTTCGAACGCGACGGCAATCTCTCCGGCATTTCCACCGGTATTCATTCGCTCGACGCCCGCATGGGCGGGTTGCAGCGTTCCGACCTTATCGTGCTTGCCGGTCGTCCGGGTATGGGCAAGACCTCGCTTGCGACCAACATCGCCTACAATATCGCCGCATCCTATGAGCAGGAAGTGCAGCCGGACGGATCGTACAAGGCCAAGAACGGCGGCGTCGTCGGCTTCTACTCGCTCGAAATGTCGTCAGAACAGCTCGCCACCCGTATCATTTCCGAGCAGACCGAAGTCTCCTCCTCGAAAATCCGCCGCGGTGACATTACCGAGGCTGACTTCGAAAAGCTCGTTGCCTGCTCCCAGATGATGCAGAAGGTGCCGCTTTACATCGACCAGACCGGTGGCATCTCGATTGCCCAGCTTTCCGCCCGCGCCCGCCGCCTGAAGCGCCAGCGCGGCCTCGATGTTCTGGTGGTCGACTACGTTCAGCTGATGACCGGCTCCGGCAAGAGCGGCGAAAACCGCGTGCAGGAAATCACCCAGATCACCACGGGTCTGAAAGCGCTCGGCAAGGAACTCAACGTTCCGATCATTGCGCTGTCACAGCTCTCCCGTGCGGTGGAAAGCCGCGAAGACAAACGCCCGCAGCTTTCCGACCTTCGTGAATCCGGCTCCATCGAGCAGGACGCCGACGTGGTGCTTTTCGTGTTCCGCGAGGAATATTACGTCAAGAACATGGAGCCGCGCGATATTTCCGATCCCAAATATGCCGAATGGGAAGCGCTGTTCGACAAGGTGAAAGGCACGGCCGACGTCATCATCGCCAAGCAGCGTCACGGACCGACCGGCACGGTGAAGCTTGCCTTCCAGTCCGAATTCACCCGCTTTACGGATCTGGCCGATCCGAGCTTCAGCCAGTACGAAGAACATTGA	MNDAVRKITPAQPAEPHYREAPNNIEAEQALLGAILVNNDAYYRVSDFLKPVHLYEPLHRKIFEVAGDIIRMGKTANPVTIKTFLPADDKIGDLTVAQYLARLAAEAVSIINAEDYGRAIYDLALRRALIQIGEDVVNIAYDAPLDMPPQAQIEDTERRLFELAETGRYDGGFQSFNDAVALAIDMAGAAFERDGNLSGISTGIHSLDARMGGLQRSDLIVLAGRPGMGKTSLATNIAYNIAASYEQEVQPDGSYKAKNGGVVGFYSLEMSSEQLATRIISEQTEVSSSKIRRGDITEADFEKLVACSQMMQKVPLYIDQTGGISIAQLSARARRLKRQRGLDVLVVDYVQLMTGSGKSGENRVQEITQITTGLKALGKELNVPIIALSQLSRAVESREDKRPQLSDLRESGSIEQDADVVLFVFREEYYVKNMEPRDISDPKYAEWEALFDKVKGTADVIIAKQRHGPTGTVKLAFQSEFTRFTDLADPSFSQYEEH				NA	NA	NA	NA	NA
BMS010_00426	456	slyA_1		Transcriptional regulator SlyA	ATGTCCCGCGAGACCGACAAGGAACAGCTTCTGAATGAAGTCTCCGCTTTTACCCGCAAACTGCGCGCGTTTTTCGATGCGCGGGTGGGGGAGAGCGGGCTGACGCTTGCACGGGCGCGAGCGCTTTTTGCACTCTCGCGTCGTGGACCGCTGACGCAGACGGAGCTTGCCGAGGAAATGGAAATCGAAACGCCGACGCTGGTGCGGGTGCTCGATGGCATGGAGAAACAGAACCTCATCGAGCGCCGTTCCGATGAGAACGACCGCCGCGCCAAACGCATCCACATGACGGCGGAAGGGGAGAAAACCTCCGAGACGGTGCAGGCGATGGCGAAGTCGCTGCGCTCCGAGATTGCCGCCGATATTTCCTCGCAGGAACTGGCCATGGCGCTCGATGTCATGCGCCGGCTTTCGGCCAATCTGCAACATCTGGCGGCGGGGAGGGCGCAATCGTGA	MSRETDKEQLLNEVSAFTRKLRAFFDARVGESGLTLARARALFALSRRGPLTQTELAEEMEIETPTLVRVLDGMEKQNLIERRSDENDRRAKRIHMTAEGEKTSETVQAMAKSLRSEIAADISSQELAMALDVMRRLSANLQHLAAGRAQS	PGPT0016255_1009	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0016255-sylA-K06075	NA	NA
BMS010_00427	1746			hypothetical protein	GTGAGTACCCCTGTGCCGCAAACCGCAGATGAGGCCGCTGCCCGAAATGCTGAGGCGGTCTCCAAACCCGCCGACCTTCCGGAAGAGGCTGTGACGCCGATGAGTGCTTCGGGCGCGGCTGAAACAGTGACAGAGCCTGCCGCCGCCGCACCTCAGCCGGCCGAGCGGCCGCTATGGCTGCGGCTGTGTTTCATCTTCGCGGGCCTGTCGTTCTTCATTACCCAGGGTCTGGGCATGAACCTCGTCATGGCCAATATCTACCAGTTGCAGGGCGAGTTTTCCGCCACGGTGGCCGAGGTCGCCTGGCTCTCCGCCGCCTATATGGCGCCCTATGCCACCTTTTCCATTGCGCTGTTCAAGGTCCGGGCGCAATATGGCCTGCGGCCTTTCGCCGAAGTTTCGATTATCGTGTTTGTCGTCGCTTCCTGTCTCAACCTGTTCGTGACAGACCTGCATTCGGCAATCGTTATCCGTTTTGTCAGTGGCATGGCCGCCGCACCGATCTCGTCGCTCGGCTTTCTCTATATTCTGGAGGCCTTTCCGCCTGCGCGGAAATTCTCGCTCGGTTTCAGCATAGCGCTGACCGGCACGTTGCTGTCGGCGCCGCTCGCGCGCATCGTCTCGCCATCCCTCTTGGAAATCGACGGCTGGAATGCGCTCTATTCCATGGAAGTGGGATTCGCGCTGATCGCTTTCGCCATGATCTATGTGCTGAAAGTCACGCCGCCGCCGCGCGCGAAAGTTATCGAGCGCATGGATATTCTGAGCTATCTTCTGTTTGCAGGTGGTCTCGGCTGTCTGGCGGTCATGCTCACGCTCGGCCGGTTCTACTGGTGGTTCGAAACCTGGTGGCTGGGCGTCCTTCTGGCAACGTCGATCACACTTCTGACCCTCATGGCTTTCATCGAATTGCCGCGCAAGAACCCGCTGCTCGACCTGCGCTGGATTTTCTCGAAAACCAACCTGCACATTATTGCGGTCCTGCTCGTCTACCGCGCGGTTTCCTCCGAGCAATCGTCAACGGCGGTCAGCTTTTACCAGCAGCTCGGCCTGTTGAACGAACAGACGACGACACTTTACGCACTTGTGCTGTTGGCGACCGTTCTCGGCGGTGCGGCCTGTGCGTGGCTGATGCTCACGAAATACGTCGATACCGCCCACGTGATTGCGCTGGCGCTGATCGCCGCCGGTTCGTTCATGGATAGCCAGTCCAACAATCTGACGAGGCCGGGTGAGATGTATCTCAGCCAGATGATGATTGCCTTTGGCGCGGCCATGTTCCTGCCGCCCGTCATGGCAAAGGGTTTTGCCGCCGCTCTGGCCCGGGGTGCGCCCTATCTGGTGAATTTCATCACCATCTTCCTGTTTACCCAGATCACCGGATCGATGCTGATGACCGGCCTGCTCGGCAGTTTCGTGACGCTGCGGGAGAAATTCCACTCCAATATTCTGGTGGAAAATATCCTGCTCACCAATCCGATGGTCGCCCAGCGCGTCTCGCAGCTTTCCGGCGCTTACAGCCATGTCATCACCGATCCGGCATTGCTGAAGGCCGAGGGGCTGTCGCTGCTTGGCCAGCAGGTCAGCAAGGAGGCCTATGTGCTTGCCTATAATGATACGTTCCTGCTGATCTCCGTCGTCTCTGCGCTGGCGCTGGCCGCGCTTTTGATCCACCTTGCATGGCTGCGCATCCGTCCTTTCCTTTTCCGGGAAGAAATCGATGCCGCACCGGCACCACAGTCTTGA	MSTPVPQTADEAAARNAEAVSKPADLPEEAVTPMSASGAAETVTEPAAAAPQPAERPLWLRLCFIFAGLSFFITQGLGMNLVMANIYQLQGEFSATVAEVAWLSAAYMAPYATFSIALFKVRAQYGLRPFAEVSIIVFVVASCLNLFVTDLHSAIVIRFVSGMAAAPISSLGFLYILEAFPPARKFSLGFSIALTGTLLSAPLARIVSPSLLEIDGWNALYSMEVGFALIAFAMIYVLKVTPPPRAKVIERMDILSYLLFAGGLGCLAVMLTLGRFYWWFETWWLGVLLATSITLLTLMAFIELPRKNPLLDLRWIFSKTNLHIIAVLLVYRAVSSEQSSTAVSFYQQLGLLNEQTTTLYALVLLATVLGGAACAWLMLTKYVDTAHVIALALIAAGSFMDSQSNNLTRPGEMYLSQMMIAFGAAMFLPPVMAKGFAAALARGAPYLVNFITIFLFTQITGSMLMTGLLGSFVTLREKFHSNILVENILLTNPMVAQRVSQLSGAYSHVITDPALLKAEGLSLLGQQVSKEAYVLAYNDTFLLISVVSALALAALLIHLAWLRIRPFLFREEIDAAPAPQS				NA	NA	NA	NA	NA
BMS010_00428	1068	emrA_1		Colistin resistance protein EmrA	ATGCTGAAGAAGTTTTTTACCCCCGTTTCCATTCTCGTGCTGCTCGGCGGTCTCGCCGGCGTGGCGCTGGTGCTTTACGCCTGGCGGCTGCCGCCGTTCCTTTCCACCGTCGAAATGACCGACAACGCCTTCGTGCGTGGTTATGTCACGACGATGAGCCCGCAGGTGAGTGGCTATGTGGTGGACGTGCCGGTGAAGGATTATCAGGAGGTCAGCCAAGGCGCGCTGCTGGCGAAGATCGACGACCGCATCTACCGCCAGAAGCAGGCGCAGGCGGAAGCAACGCTCGATACGCAGAAGGCGGCTCTCGATAATTCCCGCCAGCAGGAAAATGCGGCCAATGCCAATATTCTTTCCAGCCAGGCGGCGGTCGACAGCGCGCAGGCCTCGCTGAAACAGGCGCAGCTCGCATCCGACCGTCAGGATAACCTCATCAAGAGCGGTGCGGGAACCTCCAGCCTTCAGGAAGAGGCCCATGCCGCCCTCGAAAAGGCGCGGGCTTCGCTTTCGCAGGCCAAGGCGGCGCTTGAAGTTTCGCGGCAGGATCTGCAAACCATCATCGTCAACCGCAGCTCGCTGCAGGCGGCCGTCGCCAATGCTGAAGCGGCCGTCGAGCTTGCCCGGATCGACCTTGCCAATACCGAAATCCACGCGCCTGTGGATGGCAGGCTCGGCGAAGTCGGCGTCCGCACCGGCCAATATGTCACCGCCGGAACGCAACTGATGGCCGTCGTGCCGCATGATGTCTGGGTCATCGCCAATTTCAAGGAAACCCAGCTTGCGGGCATGCAGGTCGGCCAGCCGGTGACGATCGCCGTGGATGCGCTGCATCGCCGCAAGCTTACCGGCCATGTGGAACGGTTCTCGCCCGCCACCGGCTCAGAATTCGCCGTCATCAAGCCGGATAACGCGACGGGCAATTTCGTGAAGATCGCCCAGCGCCTCGGCGTGCGTATCGTGATCGATGCGGATCAGCCGCTGGCCGCGGATCTGTCGCCCGGCATGTCGGTGGTGGTGCATGTGGATAAGAGCAAGGCGCCTGAGGGAGCGGAGACGGCGGAGAAGTAG	MLKKFFTPVSILVLLGGLAGVALVLYAWRLPPFLSTVEMTDNAFVRGYVTTMSPQVSGYVVDVPVKDYQEVSQGALLAKIDDRIYRQKQAQAEATLDTQKAALDNSRQQENAANANILSSQAAVDSAQASLKQAQLASDRQDNLIKSGAGTSSLQEEAHAALEKARASLSQAKAALEVSRQDLQTIIVNRSSLQAAVANAEAAVELARIDLANTEIHAPVDGRLGEVGVRTGQYVTAGTQLMAVVPHDVWVIANFKETQLAGMQVGQPVTIAVDALHRRKLTGHVERFSPATGSEFAVIKPDNATGNFVKIAQRLGVRIVIDADQPLAADLSPGMSVVVHVDKSKAPEGAETAEK	PGPT0013750_2111	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0013750-emrB-K03543	NA	NA
BMS010_00429	195			hypothetical protein	ATGAAGTGGTGGCAGTGCCTCTTGCCGATCTCCCCCCTTGAGGGGGAGATGTCCGGCAGGACAGAGGGGGGTGAAGCCGCAGCCACCAAACTTTCCTACTACTTCTCCGCCGTCTCCGCTCCCTCAGGCGCCTTGCTCTTATCCACATGCACCACCACCGACATGCCGGGCGACAGATCCGCGGCCAGCGGCTGA	MKWWQCLLPISPLEGEMSGRTEGGEAAATKLSYYFSAVSAPSGALLLSTCTTTDMPGDRSAASG				NA	NA	NA	NA	NA
BMS010_00430	576	rplI_1	COG0359	50S ribosomal protein L9	ATGGACGTCATTCTTCTCGAACGCATCAACAAGCTCGGCCAGATGGGCGAAACCGTAAAGGTTCGCGACGGCTACGCCCGTAACTTCCTGCTGCCGCAGGGCAAGGCGCTGCGCGCCAACGCTGCCAACAAGGCACGTTTCGAAACCGAGCGCGCAACGCTCGAAGCCCGTAACCTCGAGCGCAAGTCGGAAGCCCAGAAGGTTGCCGAGGCCCTGGAAGGCAAGTCCTTCATCGTCGTCCGTTCGGCTGGCGAAACCGGCCAGCTCTACGGCTCTGTCGCCGCTCGCGACGTCGTTGAAATCCTCGGCGCAGAAGGCTTCAACATCGGCCGTAACCAGGTTGAACTGAACACGCCGATCAAGACCATCGGCCTGCACAACGTTACCCTTCACCTGCATGCCGAAGTCGAGCTTCAGGTTGAGCTGAACGTTGCCCGTTCGGCTGAAGAAGCAGAGCGTCAGGCCAAGGGCGAAAGCCTCACCTCCGCTGACGCCATCTACGGCGTTGACGAAGACGCGCTGCGTCCGGAAGACTTCTTCGATCCGGAAGCCGATCGCGACGGCGACGACGAATAA	MDVILLERINKLGQMGETVKVRDGYARNFLLPQGKALRANAANKARFETERATLEARNLERKSEAQKVAEALEGKSFIVVRSAGETGQLYGSVAARDVVEILGAEGFNIGRNQVELNTPIKTIGLHNVTLHLHAEVELQVELNVARSAEEAERQAKGESLTSADAIYGVDEDALRPEDFFDPEADRDGDDE				NA	NA	NA	NA	NA
BMS010_00431	975			hypothetical protein	GTGCAAAAGTTGAACCAGACAGTGCTGATCACCGGCGTTCTTGCCGGCATATGCGCCGCGTTTTTGACGCTTGGCGCAACGGCACAGTCGTCCTTTTCCTTCCTGCTCTATGCCGGTTCCGCCATGCCGATCCTGATCGCAGGCATGGGCTGGGGCAATCGCGCCGCCATCGTCGCGATCATCACCACGGCCATCATCGGCGCTCTCGTCATGTCGCCGCTGTTTGCGCTGACCATCGCGATCTTCACGCTGATCCCGGCGGGCTGGCTTTCGCATCTCGCCAATCTGGCACGCCCGGCCTCCGAACTCGGCGGCCCGGACGATCTTCTCGCCTGGTATCCGCTCTCCGGCATCGTCCTGCACCTGTGCATTCTGGTCTCCATCGCTGTCGTCATTCTCGGCTGGATGATCGGTTACGGCCCCGATCTGGTCGCCCGCATGGTCGATATCATGATGACCTCGGTGCAGAACCGCGAACCGCTGTTCGAACCCAATGCCGAGGCGCTCGCCCAGACGAAATCGCTGCTGGTGCTGATGCTGCCGATCGTGCAGGGCGGCCTGTGGGTCATCCTTCTGTTTGCGGCCTATTATTTTGCGACCCGGGTGGTCGGCTCCTTCGGCAAGGGCCTTCGCCCGCGTGAGGATATCGCTTCCGCGCTGCGCATGCACCGCAACGCCATCTTCATTTTTCTGGCCGGCATTGTCGCCATGTTCCTCGGCGGCGTCGCGGCCATGGTCGGCGCGGTCATCTGCGGCACCTTCGGCGCGGGCTTTCTGATGGCGGGTTACGCCTCGCTGCACAAGCGCGCCCGCGGCAAGGACTGGCGGCTGCCGGTTCTCATTCTCGCATATCTCTCGGCGGTCTTTGTCTTTCCGCTGTTCATCATTCTCGTGTTCGGCCTGAGCGACGTGCGCAGCACGATCTCTCTTACTCCGACGCGGAAAACCGACAATACGAACGAAACCAAACCATAG	MQKLNQTVLITGVLAGICAAFLTLGATAQSSFSFLLYAGSAMPILIAGMGWGNRAAIVAIITTAIIGALVMSPLFALTIAIFTLIPAGWLSHLANLARPASELGGPDDLLAWYPLSGIVLHLCILVSIAVVILGWMIGYGPDLVARMVDIMMTSVQNREPLFEPNAEALAQTKSLLVLMLPIVQGGLWVILLFAAYYFATRVVGSFGKGLRPREDIASALRMHRNAIFIFLAGIVAMFLGGVAAMVGAVICGTFGAGFLMAGYASLHKRARGKDWRLPVLILAYLSAVFVFPLFIILVFGLSDVRSTISLTPTRKTDNTNETKP				NA	NA	NA	NA	NA
BMS010_00432	249	rpsR_1	COG0238	30S ribosomal protein S18	ATGGCTGACGCATCCTCTTCCCAGGCACGCCGCCCGTTCCACCGCCGTCGCAAGACGTGCCCCTTCTCCGGCGCAAACGCTCCGAAGATCGACTACAAGGACGTACGTCTGCTGCAGCGCTACATTTCCGAGCGCGGCAAGATCGTTCCGTCCCGCATCACGGCCGTTTCCCAGAAGAAGCAGCGCGAACTCGCCCAGGCGATCAAGCGCGCCCGTTTCCTCGGCCTGCTGCCCTACGTCGTAGCGTAA	MADASSSQARRPFHRRRKTCPFSGANAPKIDYKDVRLLQRYISERGKIVPSRITAVSQKKQRELAQAIKRARFLGLLPYVVA				NA	NA	NA	NA	NA
BMS010_00433	462	rpsF_1	COG0360	30S ribosomal protein S6	ATGGCTCTTTACGAACACATCTTCCTTGCCCGGCAGGATATTTCTGCCCAGCAGGTCGACGCACTTGTCGAGCAGTACAAGGGCGTTATCGAATCGTTCGGCGGCAAAGTCGGACGCATCGAGAACTGGGGTCTGAAGTCCCTCACCTACCGCATCAAGAAGAACCGCAAGGCTCACTACGCTCTCATGGACATCGACGCTCCGGCGGCCGCCATCCATGAAGTCGAGCGCCAGATGCGCATCAACGAAGACGTTCTTCGCTACATGACCATCGCCGTCGAAGCCCACGAAGAAGGCCCGTCCGCGATGATGCAGAAGCGCGACCGTGACGACCGTCCGCGCCGCGATGGCGACCGTCCGGACCGTGGCCCGCGTGAAGATCGTGGCCCGCGCGCACCGCGCGAAGGTGGCTTCGGCGACCGCGAAGACCGTCCGCGCCGTCCGCGCGAAGACCGTGCATAA	MALYEHIFLARQDISAQQVDALVEQYKGVIESFGGKVGRIENWGLKSLTYRIKKNRKAHYALMDIDAPAAAIHEVERQMRINEDVLRYMTIAVEAHEEGPSAMMQKRDRDDRPRRDGDRPDRGPREDRGPRAPREGGFGDREDRPRRPREDRA	PGPT0008135_3671	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008135-metH-K00548	NA	NA
BMS010_00434	636			hypothetical protein	ATGGCGAAGACGGTCGCAGATATTCTCAAGATAGCTGGCAATGAGTGGAACCATTGGGGTAAGTCCACATGGAACCTTTCTACTGGCGCCAAGAACATCCAGCACAAGGATGACGACCCCGTATTTGCGAAACACGTCATCAAGAACTACAATGCTGTTGGCGGCGGAGCGCCGACTGAAGACGAGATCATGAATGACGAGTATTTCTGGTCTGCCGTCGGAATTTCATATGTCTTCCATGCCGCGCAGTTCAGCAAGAAAGAGTTCCCCTTCGCGCAAGCGCATTCCGTGTGGATCCGCCATTTCATAAAGGCGCGCCAGCAAAATGCGACAAACACCCTTTATCACGGGTATCGCCTTAAAGAGCCCGGCGCGACACCGGATGTGGGCGACATCGTTGGGTACACTTACGAAAAAGTGAGCTTCCAGCAGGCACAGAGCTACTATGACAAAGTCGGGACATACAAGTCGCATACCGATATTGTCGTCGCCAGACGACCGGGAGAAATCGACGTCATTGGTTTCAACGTTCTCGACTCGGTCACGAAGAAAACGATACCGCTCACCGAAAGCGGCCATATCGCCGATACCACGCATAAATGGTTCGTCGTTTTGAAGAAAAACGCGCTGCACTGA	MAKTVADILKIAGNEWNHWGKSTWNLSTGAKNIQHKDDDPVFAKHVIKNYNAVGGGAPTEDEIMNDEYFWSAVGISYVFHAAQFSKKEFPFAQAHSVWIRHFIKARQQNATNTLYHGYRLKEPGATPDVGDIVGYTYEKVSFQQAQSYYDKVGTYKSHTDIVVARRPGEIDVIGFNVLDSVTKKTIPLTESGHIADTTHKWFVVLKKNALH				NA	NA	NA	NA	NA
BMS010_00435	1044	tas_1	COG0667	Protein tas	ATGAAACAGAGACTATTGGGCCGCACGGATATTTCCGTGTCTGAAATCTGCCTCGGCACGATGACGTGGGGCACGCAGAACACTGAAGCCGAAGCGCATGCGCAGATGGATTACGCCGTCGAAAACGGTGTCAATTTCTTCGATACGGCAGAACTTTACCCCACCACCCCCGTTTCCGCCGAGACCCAGGGCCGAACGGAAGACTATATCGGCACTTGGTTTGAAAAGACCGGAAAGCGAGATCAGGTCGTGCTCGCCACCAAGGTTGCCGGTTCGGGACGCGATTATATTCGCGGCGGCCGCGATATCGACGCCGCCGCCATCCGCGAGGCGGTGGATACCAGCCTCAAGCGCCTGAAGACGGACTACATCGACCTCTACCAGATTCACTGGCCGAACCGCGGCACCTATCATTTCCGCGGCGTCTGGAGCTTCGACGCTTCAGGTCAGGAAAAGCAGCGCACGCTTGCCGAAATCACCGAAAAGCTCGAAACGCTCGGCGAACTGGTGAAGGCCGGCAAGATCCGCGCCATCGGCCTTTCCAACGAGAGCGCCTGGGGCACGCAGAAATATATCGACATCGCCGAGGCCAACGGCCTGCCGCGCGTCGCCACGATCCAGAACGAATATAACCTGCTCTACCGCAGCTTCGATCTCGACATGGCGGAAGTCGCCCATCACGAGGATGTCGGCCTGCTCGCCTATTCGCCCCTGGCAGCCGGGCTGCTGACCGGCAAATACCAGAACGGCGCGCGCCCGGCGGGATCGCGCGGCACCATCAACAGAGACCTCGGCGGCCGCCTGCAGCCGCTTCAGGAAGCGCCGGTCAAGGCCTATCTGGAGCTTGCCGCGCAGCATGGAATCGATCCGGCAAAGCTCGCCATCGCCTTCTGCCTGACACGTCCCTTCATGGCCTCGGCCATCATCGGCGCGACGACGATGGAACAGTTGAAGGTGGATATTGCGGCTGCGGATGTGACATTGTCGGACGAGGTGCTGACAGGTATTGCCGCGATCCATCGGAAATATCCGATGGCGATCTGA	MKQRLLGRTDISVSEICLGTMTWGTQNTEAEAHAQMDYAVENGVNFFDTAELYPTTPVSAETQGRTEDYIGTWFEKTGKRDQVVLATKVAGSGRDYIRGGRDIDAAAIREAVDTSLKRLKTDYIDLYQIHWPNRGTYHFRGVWSFDASGQEKQRTLAEITEKLETLGELVKAGKIRAIGLSNESAWGTQKYIDIAEANGLPRVATIQNEYNLLYRSFDLDMAEVAHHEDVGLLAYSPLAAGLLTGKYQNGARPAGSRGTINRDLGGRLQPLQEAPVKAYLELAAQHGIDPAKLAIAFCLTRPFMASAIIGATTMEQLKVDIAAADVTLSDEVLTGIAAIHRKYPMAI				NA	NA	NA	NA	NA
BMS010_00436	945	fabD_1	COG0331	Malonyl CoA-acyl carrier protein transacylase	ATGGGTATTGCATTCACATTTCCCGGACAGGGAAGCCAGGCCGTCGGCATGGGCAAGGAGCTGGCGGATACCTATCCGGAAGCGCGCGCCGTGTTTCAGGAAGTCGACGAGGCGCTCGACCAGAAGCTTTCCGATATCATGTGGAACGGCCCGGAAGAGACGCTGACGCTGACCGCCAACGCGCAGCCGGCGCTTATGGCGGTGTCCATGGCGGTCATGCGGGTTCTCGAAGCGCGCGGCTTCAAACTGTCCGATACGGTTTCTTATGTCGCGGGCCACTCGCTCGGCGAATATTCGGCGCTCTGTGCCGCAGGCACCTTCTCTGTTGCCGATACCGCCCGCCTTCTGCGCATCCGCGGCAACGCCATGCAGGCCGCCGTGCCGGTGGGCGAGGGCGCCATGGCGGCGATCATCGGGCTTGAGCATGACGCTGTTTCGGCAATTTGCGAAGAGGCGGCCATTCTCGGCATCTGCCAGATCGCCAACGACAATGGCGGCGGTCAGCTCGTCATCTCCGGCGGCAAGGCCGCCGTCGAAAAGGCTGCGGCGATCGCTTCCGAAAAGGGCGCCAAGCGCGCCATCATGCTGCCGGTTTCCGCACCCTTCCACTCTGCGCTGATGGCGCCGGCGGCGGAAGCCATGCGCGAGGCGCTGGCGGCCGTCGAAAAGCACAACCCGGTCGTGCCGGTCATCGCCAATGTGCGCGCCGCCCCCGTTTCCGATGCCAATGAGATCGCCGCGCTGCTGGTCGAGCAGGTGACGGGTCAGGTGCGCTGGCGCGAGACGGTGGAATGGTTCGCCGCCAACAATGTCACGCAGCTTTACGAGATCGGCTCCGGCAAGGTGCTGACGGGCCTTGCCCGCCGCATCGACAAGACGGTGAACGGCGTTGCCGTCAACGGTGCTGCCGATATCGACCAGCTTCTTGCCACCCTCATCGGCTGA	MGIAFTFPGQGSQAVGMGKELADTYPEARAVFQEVDEALDQKLSDIMWNGPEETLTLTANAQPALMAVSMAVMRVLEARGFKLSDTVSYVAGHSLGEYSALCAAGTFSVADTARLLRIRGNAMQAAVPVGEGAMAAIIGLEHDAVSAICEEAAILGICQIANDNGGGQLVISGGKAAVEKAAAIASEKGAKRAIMLPVSAPFHSALMAPAAEAMREALAAVEKHNPVVPVIANVRAAPVSDANEIAALLVEQVTGQVRWRETVEWFAANNVTQLYEIGSGKVLTGLARRIDKTVNGVAVNGAADIDQLLATLIG	PGPT0008350_1946	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-VOLATILE_RELATED_FATTY_ACID_METABOLISM,PGPT0008350-fabD|bmyD-K00645	NA	NA
BMS010_00437	738	fabG_2		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGTTTGATCTGACAGGCCGCAAGGCTCTCGTAACCGGCGCGACCGGCGGCATCGGCGAAGAAATCGCCCGCCTTTTGCACAGCCAGGGCGCAACCGTTGGCCTGCACGGCACCCGCGTTGAAAAGCTCGAAGCGCTGGCGGCGGAACTTGGCGAACGCGTCAAGATTTTCCCGGCCAACCTTGCCGACCGCGCCGAAGTAAAGGCGCTCGGCGAAAAGGCCGAAGCCGAGCTGGAAGGCGTCGATATCCTCGTCAACAATGCCGGTATCACCAAGGACGGCCTCTTCGTGCGCATGAGCGACGAGGACTGGGATAACGTCATCGAGGTGAACCTGACGGCGATGTTCCGCCTGACGCGCGAGCTGACGCATCCGATGATGCGCCGCCGTTTCGGCCGCATCATCAACATCACCTCCATCGTCGGCGTTACCGGCAATCCCGGTCAGGCCAACTACTGCGCCTCCAAGGCCGGCATGATCGGTTTTTCGAAGTCGTTGGCCCAGGAAATCGCCACCCGCAACGTCACCGTCAACTGCGTGGCTCCGGGCTTTATCGAAAGCGCGATGACCGGCAAGCTGAACGACAAGCAGAAAGACGCCATCATGGGCGCCATTCCCATGAAGCGCATGGGAACCGGTGCTGAGGTCGCCTCGGCCGTTCTTTACCTCGCCTCCAACGAGGCGGGCTACATGACCGGCCAGACCCTGCACGTCAACGGCGGCATGGCGATGATCTGA	MFDLTGRKALVTGATGGIGEEIARLLHSQGATVGLHGTRVEKLEALAAELGERVKIFPANLADRAEVKALGEKAEAELEGVDILVNNAGITKDGLFVRMSDEDWDNVIEVNLTAMFRLTRELTHPMMRRRFGRIINITSIVGVTGNPGQANYCASKAGMIGFSKSLAQEIATRNVTVNCVAPGFIESAMTGKLNDKQKDAIMGAIPMKRMGTGAEVASAVLYLASNEAGYMTGQTLHVNGGMAMI	PGPT0003180_17876	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0003180-ymfI|fabG|efpI-K00059	NA	NA
BMS010_00438	237	acpP_1	COG0236	Acyl carrier protein AcpP	ATGAGCGATATCGCAGAACGCGTAAAGAAAATTGTAATTGATCATCTTGGCGTTGACGCCGACAAGGTTGTCGAAGGCGCCAGCTTCATTGACGATCTGGGCGCTGATTCGCTCGACACCGTTGAACTGGTCATGGCTTTCGAAGAAGAATTCGGCGTTGAAATCCCCGACGACGCAGCTGACTCGATCCTGACCGTCGGCGACGCCGTAAAGTTCATCGAGAAGGCCCAGGCCTGA	MSDIAERVKKIVIDHLGVDADKVVEGASFIDDLGADSLDTVELVMAFEEEFGVEIPDDAADSILTVGDAVKFIEKAQA	PGPT0011375_5830	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0011375-acpP-K02078	NA	NA
BMS010_00439	1263	fabF_1	COG0304	3-oxoacyl-[acyl-carrier-protein] synthase 2	ATGAGGCGTGTCGTTATCACCGGTACCGGCATGGTATCTCCTCTTGGATGTGGGACGGAAGTAACCTGGGAGCGGCTTCTCGCCGGCCAGAATGGCGCCCGTCTCGTGACTGAATTCGAAGTCGAAGACCTTCCGGCAAAGATCGCCTGCCGTATTCCCGTGGGCGATGGTTCCAACGGCACCTTCAATGCCGACGACTGGATGGAACCCAAGGAACAGCGCAAGATCGATCCTTTCATCCTGTACGGCATGGCTGCCGCCGACATGGCGCTTGCCGACGCGGACTGGCATCCGGAAACGGACGAGGACCAGATCGCCACCGGCGTTCTGATCGGCTCCGGCATTGGCGGCCTGGAGGGCATTGTCGAGGCGGGCTATACGCTGCGCGACAAGGGCCCGCGGCGCATTTCTCCATTCTTCATTCCCGGCCGCCTGATCAACCTCGTATCCGGTCAGGTTTCCATCCGCCACAAGCTGCGCGGACCGAACCATGCCGTGGTGACGGCCTGCTCGACCGGCGCGCACGCCATTGGCGACGCCGCCCGTCTGATCGCGCTCGGCGATGCCGACGTCATGGTCGCCGGTGGCGCCGAATCGCCGGTCTGCCGCATCGCGCTTGCCGGCTTCGCCGCCTGCAAGGCGCTCTCCACCCAGCACAATGACAATCCGGAAAAGGCCTCGCGTCCCTATGATCGCGACCGCGACGGTTTCGTCATGGGTGAAGGTGCGGGCATCGTCGTTCTGGAAGAGCTGGAACATGCCAAAGCGCGCGGTGCGAAGATTTATGCGGAAGTCGTCGGTTACGGTCTTTCGGGCGACGCCTATCACATCACCGCACCGTCCGAGGACGGTGAAGGCGCCTATCGCTGCATGTCGATGGCGCTGAAGCGTGCAGGTCTCACGCCTGACGATATCGACTACATCAACGCCCATGGCACCTCGACCATGGCCGATACGATCGAGCTTGGCGCGGTCGAGCGGCTTGTCGGCGAATCGGCCTCGAAGATTTCCATGTCTTCCACCAAGTCGGCCACCGGCCATCTTCTCGGTGCGGCAGGCGCTATCGAGGCGATCTTCGCGACGCTTGCGATCCGCGATAACATCGTTCCGCCGACGCTGAACCTCGACAATCCCGATGTGGAGACGAAGATCGATCTCGTGCCGCACAAGGCGCGCAAGCGGCAGGTCGATGTGGCGCTCTCGAACTCCTTCGGCTTCGGCGGCACCAACGCCTCCCTCGTGCTGCGTCGTTACGAAGCATAA	MRRVVITGTGMVSPLGCGTEVTWERLLAGQNGARLVTEFEVEDLPAKIACRIPVGDGSNGTFNADDWMEPKEQRKIDPFILYGMAAADMALADADWHPETDEDQIATGVLIGSGIGGLEGIVEAGYTLRDKGPRRISPFFIPGRLINLVSGQVSIRHKLRGPNHAVVTACSTGAHAIGDAARLIALGDADVMVAGGAESPVCRIALAGFAACKALSTQHNDNPEKASRPYDRDRDGFVMGEGAGIVVLEELEHAKARGAKIYAEVVGYGLSGDAYHITAPSEDGEGAYRCMSMALKRAGLTPDDIDYINAHGTSTMADTIELGAVERLVGESASKISMSSTKSATGHLLGAAGAIEAIFATLAIRDNIVPPTLNLDNPDVETKIDLVPHKARKRQVDVALSNSFGFGGTNASLVLRRYEA	PGPT0008360_2734	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008360-fabF-K09458	NA	NA
BMS010_00440	1221	mltG_1		Endolytic murein transglycosylase	GTGAGCGACACGAACCAGAACAGCCAGGGACAATACGGACAAAACGGCGCGGGCGAAGGCAATCGCGGCCCGATCATTCCGAAATCCCCGACGGAAGCCCTGCGGCCGGAAAAAGTGCCGGCTCCGCCCAAGCGCTCCCGCAAGGCCCATGGCCAGCTTGTGATCTTTCTGAATTTTCTGATGACGCTCGCGGTTGCCGTCTGTGTGCTGGCCATTGCCGCTTTCTATTACATGATCGACGCGTTCCAGGAGCCCGGTCCGCTTCAGACGAACACGCATTTCACGGTGCGCAACGGCGCCGGCATCATTGAGATCGCCAATAATCTCGAGCGTAACGAGGTCATCTCCAACGCCCGTGTCTTCCGCCTGATGACCGGCAGCTACCTGCAGAAGGACCAGACGCTGAAGGCCGGCGAATATGAGATCAAGGCCGGCGCATCGATGAAGGACATCATGATGCTGCTGGAGTCCGGCAAGTCGATCCTTTATTCCGTGTCGTTGCCGGAAGGCCTGACCGTGAAGCAGATGTTCGCGCGCCTTGGAGCGGATGAAGTGCTGGACGGCGAATTGCCCTCGGCCCTGCCGCCGGAAGGCAGCCTGCGCCCCGATACCTACCGCTTCACCCGCGGCACCAAGCGCGAAGAAATCATCAACCAGATGAGTGCGGCGCAGGACAAGCTGATCAATATGATCTGGGAACGGCGCGATCCGGACCTTCCGATCAAGACCATCGAGGAATTCGTGACGCTTGCCTCGATTGTCGAGAAGGAAACCGGCAAGGATGATGAGCGCGCCCATGTCGCTTCGGTGTTCTACAACCGCCTGAAGAAGGGCATGCGCCTGCAATCCGACCCGACGATCATCTACGGCCTGTTCGGTGGCGATGGCAAACCGTCGGACCGTCCGATCTACCAGTCGGACCTGCAGAAGCAGACGCCGTTCAACACCTATGTCATCAAGGGCCTGCCGCCGTCGCCCATCGCCAATCCGGGTCGGGCGGCGCTTGAGGCCGTGGCCAATCCATGGCGCACGGATGACCTTTATTTCGTTGCCGATGGCACCGGCGGCCATGTGTTTGCGAAGACGCTTGAAGAGCATAACGCCAATGTGCGCCGCTGGCGCAAGATAGAGGCCGAAAAGGCGGCCTCCGGCGCCAATCCCGAGGTTGTCGTGGATGGCCAGCCGGGCGGGGCCGAGGCGGAAAAGCCGGCCAACAATTGA	MSDTNQNSQGQYGQNGAGEGNRGPIIPKSPTEALRPEKVPAPPKRSRKAHGQLVIFLNFLMTLAVAVCVLAIAAFYYMIDAFQEPGPLQTNTHFTVRNGAGIIEIANNLERNEVISNARVFRLMTGSYLQKDQTLKAGEYEIKAGASMKDIMMLLESGKSILYSVSLPEGLTVKQMFARLGADEVLDGELPSALPPEGSLRPDTYRFTRGTKREEIINQMSAAQDKLINMIWERRDPDLPIKTIEEFVTLASIVEKETGKDDERAHVASVFYNRLKKGMRLQSDPTIIYGLFGGDGKPSDRPIYQSDLQKQTPFNTYVIKGLPPSPIANPGRAALEAVANPWRTDDLYFVADGTGGHVFAKTLEEHNANVRRWRKIEAEKAASGANPEVVVDGQPGGAEAEKPANN				NA	NA	NA	NA	NA
BMS010_00441	888			hypothetical protein	ATGACATTGCAATCGATGACCGGCTTCGCACGCAGCGAAGGAACCTCCGGCCGTTACCGCTGGGCGTGGGAATTGCGCTCGGTGAACGGCAAGGGGCTCGATGTGCGCCTGCGTCTGCCGACCGGTCTTGAAGCGCTGGAAACGGCCCTGCGCGAAATCGCAGGCGAGCATCTTTCCCGCGGCAATATCCAGGCGGGCCTGACGCTGGCGATTGCGGAAAACCGGCTGGAGGCGGTGATCAACCGCGATGCTCTGGCGGCGGTTCTGGCGCTGAAGAAGGAGCTTGGCGACGTCGTGGAAGATAAGCCGCTGAGCTTCGACACGCTGCTTACGCTGCGCGGGCTCGTCGATTTTCGCGAGGCGGAAGATGACGCGGAGGCGCAGGCCGCACGCAACGGCGATGTTCTTGCCGGCTTCGCCGCCGCCGTCGAGAAGCTGAAGGATATGCGCGAACGGGAAGGGGCGTCGCTGTTTGCGATCCTGTCCGGTCATGTCAACCGGATCGAGCAGCTCGCGGACATCATTGAAGGCGATCCTTCCCGCCAACCGGAACAGATCGCGGCACGGCTCGCCCAGCAGATCGCCCTCATCGGCGACGGCTTGCATGGTCTCGACCGTGACCGGCTGCATGCCGAGGCGGCGCTGCTCGCCACCAAGGCGGATCTGCGCGAAGAGATCGACCGGCTGCACGCCCATGTTCAGGCGTCGCGGGAGCTTTTGGCCAATGGCGGACCGGTAGGACGCAAGCTCGATTTTCTTGCACAGGAATTTAACCGCGAGTCGAATACAATCTGTTCCAAATCGAACGCCAGTGCGGTAACCGCAGCAGGCATAGAGCTGAAAGTGGTGATCGACCAGTTCCGCGAGCAGGTCCAAAATCTGGAGTAG	MTLQSMTGFARSEGTSGRYRWAWELRSVNGKGLDVRLRLPTGLEALETALREIAGEHLSRGNIQAGLTLAIAENRLEAVINRDALAAVLALKKELGDVVEDKPLSFDTLLTLRGLVDFREAEDDAEAQAARNGDVLAGFAAAVEKLKDMREREGASLFAILSGHVNRIEQLADIIEGDPSRQPEQIAARLAQQIALIGDGLHGLDRDRLHAEAALLATKADLREEIDRLHAHVQASRELLANGGPVGRKLDFLAQEFNRESNTICSKSNASAVTAAGIELKVVIDQFREQVQNLE				NA	NA	NA	NA	NA
BMS010_00442	663	gmk_1	COG0194	Guanylate kinase	ATGGTCCCGGTGAATAATTCTCCCGTCACGATTGCCCGCAGAGGGTTGATGCTGGTGATTTCTTCGCCATCGGGCGCGGGCAAATCGACGATTGCGCGCAACCTGCTCGACAAGGACAAGAATATCGGCCTGTCCGTCAGCGTCACGACGCGCCCGCGCCGCCAGAGCGAGATTGACGGCATCCACTACCATTTCATTTCCACGCGTGAATTCGAGCGCCTGCGGGATAGCGATGCGCTGCTGGAATGGGCAGAGGTTCACGGCAATTTTTACGGCACGCCGCGTGGGCCGGTGGAAGACGCCATGGCTGCTGGCCGCGACATGCTGTTCGATATCGACTGGCAGGGCGCCGAGCAGCTTCAGGACAAGATGAAGGCGGACGTCGTTTCGATCTTCATCCTGCCGCCGACCATGACCGAACTTCAATCGCGCCTGCATCGCCGCGCCGAAGACACCGAAGAGGTCATCAAGACCCGGCTCCTCAATTCCCGTGCCGAGATCGAGCACTGGCGCGACTATGACTATGTCATCCTCAATGACGACCTGCAGGCCGCCTTCGAGGCCGTCGAAGCAATCGTGAAGGCCGAACGCGTCCGCCGCGACCGCCGCCACGGCATGTTTGATTTCGTGCGGGCGTTGCTCGAGGAAGAGCCGAAGCTCTGA	MVPVNNSPVTIARRGLMLVISSPSGAGKSTIARNLLDKDKNIGLSVSVTTRPRRQSEIDGIHYHFISTREFERLRDSDALLEWAEVHGNFYGTPRGPVEDAMAAGRDMLFDIDWQGAEQLQDKMKADVVSIFILPPTMTELQSRLHRRAEDTEEVIKTRLLNSRAEIEHWRDYDYVILNDDLQAAFEAVEAIVKAERVRRDRRHGMFDFVRALLEEEPKL	PGPT0021475_1026	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021475-gmk-K00942	NA	NA
BMS010_00443	234	vapB	COG4456	Antitoxin VapB	ATGGCTACGTCAACGGTTTTTATAAGCAATCGCAGTCAAGCTGTAAGGCTACCGAAGGCCGTGGCTTTTCCTGATGACGTGCATAAGGTCGATGTTCTGAAAATCGGTCTTGCGCGTGTTATAGTGCCGCAGGGAAAGCGCTGGGACGACCTTTTTCTGACCGGCCCTCGTGCAACGGATGATTTTCTTTCCGTTCGCGAAGAGCCTGCATTGGATGAGCGCGAGCCCTTCTGA	MATSTVFISNRSQAVRLPKAVAFPDDVHKVDVLKIGLARVIVPQGKRWDDLFLTGPRATDDFLSVREEPALDEREPF	PGPT0027600_560	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-VapC-VapB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027600-antitoxin_mvpT|vapB-K18829	NA	NA
BMS010_00444	399	vapC	COG1487	tRNA(fMet)-specific endonuclease VapC	ATGCTCACATATATGCTCGATACCAATATATGCATCTATGTGATGAAGACTTATCCTCCGGAGCTACGAGAGAAATTCAACGCCCTGGCAGATCAACTGTGTATTTCGAGCATCACACTTGGCGAGCTTTATTATGGTGCTGAAAAATCAGTCCGGCGTCAGGAAAACATCAACGCCATTGAAAATTTTACCGCGCGTTTGGACGTTCTGCCTTTCGCCGACAAAGGCGCCGCACATTACGGCCAGATCAGGGCCGAACTTGCCAAGGCTGGAACCCCGTGCGGCGTTCATGATATGCAGATTGGTGGTCATGCCCGTAGCGAGGGGCTAATCGTCGTAACCAATAATATGCGCGAGTTTGTCCGGATGCCCGGTTTGCGAGTTGAAAACTGGGTTTAG	MLTYMLDTNICIYVMKTYPPELREKFNALADQLCISSITLGELYYGAEKSVRRQENINAIENFTARLDVLPFADKGAAHYGQIRAELAKAGTPCGVHDMQIGGHARSEGLIVVTNNMREFVRMPGLRVENWV	PGPT0027595_1200	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-VapC-VapB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027595-toxin_mvpA|vapC-K18828	NA	NA
BMS010_00445	651	mhqD_1	COG0400	Putative hydrolase MhqD	GTGGAGAGTGCCGGTTTTCATTACAAGCTCGACATTCCCGCTAAAACGCCCGACTGCGCGGTTGTCTTGCTGCATGGATCGGGGCGAACGGAAGACGACCTCATTTCTTTTGGCCGTTCCGTCTTTCCTAACGGTGTCTTATACGCGCCGAGAGGCGCCGTTCCCTGGGAAAATGGCTTCGCGTTTTTCCGCCGAAAGCCCGACAGAAAGCTTGATATTGACGATCTGAAACATCGAGCGACCAGCCTCTGCCAGTTCATAGACTTTGTATTTCATGAGACCGGGCAGAGACCCCTTCTCGTTGGATATTCGAACGGCGCGATCATAGCGGCTGAAACCATATGCCTGAATCGGAATTTATCGAGGGGAGCCATTCTGCTTCGCCCGCTTTCTCCAAGACCGGATCAGGCCCTCCCAAACCTCTCAGGATACCCCCTACTTCTGCTCGCCGGCGCCTACGACGAAAGGCGTCACTCCACCGATGCGCCGCATTTGGCCAACCAACTGGCATTGGCCGGTGCGGATGTTGTTCTGCAGACAGTTGAGACCGGCCACGGCTGGGCTAAAGACGCCGCAGACGAGCGGCTATCTCGCCAATGGGCGGCAAGTGAACCTATCGCCCAGAGAACAGCAGCCTCTTCCATCGGTTAG	MESAGFHYKLDIPAKTPDCAVVLLHGSGRTEDDLISFGRSVFPNGVLYAPRGAVPWENGFAFFRRKPDRKLDIDDLKHRATSLCQFIDFVFHETGQRPLLVGYSNGAIIAAETICLNRNLSRGAILLRPLSPRPDQALPNLSGYPLLLLAGAYDERRHSTDAPHLANQLALAGADVVLQTVETGHGWAKDAADERLSRQWAASEPIAQRTAASSIG	PGPT0028515_3025	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROQUINONE-DERIVATE_RESISTANCE,PGPT0028515-mhqD-K06999	NA	NA
BMS010_00446	831	rsmA_1		Ribosomal RNA small subunit methyltransferase A	ATGGCGGCCATCGACGGACTGCCGCCGCTGCGCGATGTCATCCAGCGCCACGGGCTCGACGCGAAGAAGTCGCTCGGCCAGAACTTCCTGTTCGACCTCAACCTCACCCAGAAGATCGCAAGGACGGCGGGACCGCTGGACGGCGTGACGGTGATAGAGGTCGGCCCCGGTCCCGGCGGCCTCACCCGCGCCATTCTTTCGCTCGGGGCAAAAAAGGTCATAGCCGTCGAACGCGACAGCCGTTGCCTGCCGGCGCTGGCGGAAATCGAAGCGCATTATCCCGGACGGCTCGAAGTCATCGAAGGCGACGCCCTCAAGACCGATTTCGAGGCTCTGGTTCCCGCCGGCGCGCCGGTGCGGATCATCGCCAACCTGCCCTACAATGTCGGCACGCAATTGCTGGTCAACTGGCTGCTGCCGAAACAATGGCCGCCCTTCTGGCTCTCCATGACACTGATGTTCCAGAAGGAAGTCGGCCAGCGTATCGTGGCCGAAGAAGGCGATAACCATTATGGCCGGCTGGGCGTTCTCGCCGGCTGGCGCACGGTCGCCGAAATGGCCTTCGACGTTCCGCCACAGGCCTTCAGCCCGCCGCCGAAAGTAACCTCCACCGTTGTGCACCTACTGCCGAAGGACAAGCCGCTACCCTGCGATGTCGCCAAGCTTGAAAAGGTGACGGAAGCCGCCTTCGGCCAACGCCGCAAGATGCTGCGCCAGAGCGTGAAAAGCCTTGGCGGCGAAACGCTGCTGGAAAGAGCGGGGATCGATCCCACACGGCGAGCGGAGACGCTGTCGGTGGAGGAATTCGTCACTTTGGCGAACTGCCTGTAA	MAAIDGLPPLRDVIQRHGLDAKKSLGQNFLFDLNLTQKIARTAGPLDGVTVIEVGPGPGGLTRAILSLGAKKVIAVERDSRCLPALAEIEAHYPGRLEVIEGDALKTDFEALVPAGAPVRIIANLPYNVGTQLLVNWLLPKQWPPFWLSMTLMFQKEVGQRIVAEEGDNHYGRLGVLAGWRTVAEMAFDVPPQAFSPPPKVTSTVVHLLPKDKPLPCDVAKLEKVTEAAFGQRRKMLRQSVKSLGGETLLERAGIDPTRRAETLSVEEFVTLANCL	PGPT0009165_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009165-pdxA-K00097	NA	NA
BMS010_00447	1023	pdxA_1	COG1995	4-hydroxythreonine-4-phosphate dehydrogenase	GTGACATATGCATCCCTGCCGCTTGCCCTGACACAGGGAGATCCAGCCGGTATCGGCCCCGACATCGCCATCACCGCCTGGGCTAAGCGCCGGGAGAACGGCGTGCCGCCCTTCATCTTCATCGGCGACCCCGATGTGGTGGCGAGCCGTGCGGCGCTGATCGGCGTGCCGGTCAATATCGAGACCTGCGATGCGGAAAGTGCCGTCGGCCTGTTCGAACAGGCTTTCCCCATCCTCTCCCTTCCCGTCGGCTTCGAAGTGCAGGCGGGCCAGCCGCATGTCGGAGCGGCGCACGCGACGATCAAGGCCATCGAGACGGCCGTTTCCCTCACGGTCGAGGGCAAGGCTGCGGCCGTCGTCACCAATCCGATCGCGAAATCGGTGCTTTATGAGGCGGGTTTCGGCTTCCCCGGCCATACGGAATTTCTGGCCGATCTCGCCCTGCGCCAGACCGGCCAGCAAGTCATCCCGGTGATGATGATTGCCGGCCCCAAGGTCCGCGTCGTCCCGGTGACGATCCATATCCCTGTGAAAGACGTACCGGCCGCTCTCACCGAAGATTTGATCGTCACGACCTGCCGGATCATCGATGCCGATCTCCGGCAGAAATTCGGCATCGAGGCGCCGCGGCTGGCGGTTGCCGGCCTCAACCCGCATGCGGGTGAAGATGGCGCACTCGGCACCGAGGATCGTGATATCGTTCACCCGGCGACCATGCGGTTGCGGAAGGACGGGATCGATGCCTTCGGCCCCCTGCCCGCCGACACCATGTTCCACGATGCCGCCCGCAAGCGATATGACGTGGCGGTGTGCATGTATCACGATCAGGCGCTCATTCCGGCCAAGGCGCTCGGCTTCGACGATTCCGTCAATGTCACGCTCGGCCTGCCCTTCATCCGCACCTCGCCCGACCATGGCACCGCCTTCGGCATTGCCGGCCAGGGCATAGCCAATGAGGCGAGCCTCGTGGCGGCGCTGAAGATGGCGGCGGAGATTTCCCTCCGCAGCCGGGCCAACGCATAA	MTYASLPLALTQGDPAGIGPDIAITAWAKRRENGVPPFIFIGDPDVVASRAALIGVPVNIETCDAESAVGLFEQAFPILSLPVGFEVQAGQPHVGAAHATIKAIETAVSLTVEGKAAAVVTNPIAKSVLYEAGFGFPGHTEFLADLALRQTGQQVIPVMMIAGPKVRVVPVTIHIPVKDVPAALTEDLIVTTCRIIDADLRQKFGIEAPRLAVAGLNPHAGEDGALGTEDRDIVHPATMRLRKDGIDAFGPLPADTMFHDAARKRYDVAVCMYHDQALIPAKALGFDDSVNVTLGLPFIRTSPDHGTAFGIAGQGIANEASLVAALKMAAEISLRSRANA	PGPT0009165_669	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009165-pdxA-K00097	NA	NA
BMS010_00448	945	surA_1		Chaperone SurA	ATGAATTTCGGAAAGACGGCTTTGCGTGGCGCTGCTTTCGCCTTTGCGATATTCGCCGTTCCCATGGCCGTTGTGCCCTATGCCGGCCAGGCCTTCGCCGATAGCACCGTCAAGATCGTCGTCAACAAGACCCCCATCACCAATGACGATATTGCCAAGCGCGTCGCCTTCCTCAAGCTGCAGCGCCAGTCCGGCAATCTCAACGAAAAGGCGCGTGAGCAGCTTGTCGACGAAGCGCTGAAGCGCGAGGAAATCGGCCGCGTTAAGATGTCGGTCAGCACCGACGATGTCGATGCGGCCTTCGCACGCTTTGCCGGCAACAACAAGATGACCCCGCAGCAATTGACGAAGGTGCTTGCGCAGGCGGGCGTTGGAGCCGACCATTTCAAGGCCTTCATCGCCGTTCAGATGAGCTGGCCGCGCCTTGTCAACGCCCGTTATGGCGCACGCGGCAAGATGTCGACGCAGGATCTCGTTACCCGACTGAAGGAACGCGGCGACAAGCCCGTCACCACGGAATATTTCCTGCAGCAGGTCATCTTCGTCATCCCGGAATCGAAACGCAACGCCATTACCGGCAAGCGCAAGGCCGAGGCTGAGGCCTCGCGCAAGCGTTACCCCGGCTGCGACCAGGCCATGAGCTTCGCCGCGACCATGCGCGACGTGGCGATCAAGGACCTTGGCCGCATTCTGGCGCCGGAGCTGCCGGAAGACTGGAAGGCGCTGGTGGAGAAGACCAAGGAAGGCGGCACCACCGGTACCCGCGTCACCGAAAAGGGCGTAGAATATCTGGCCATCTGCAAGCAGCGCCAGGTTTCTGACGATTATGCGGCGGAGATGGTGTTCAAGTCCGAAGACCTGATGAAGGCCAAGGACGGCGAAAACCCGAACGAAAAGAAATATATGGATGAGCTGCGCAAGAAGGCGCAGATCGTCAACACCTGA	MNFGKTALRGAAFAFAIFAVPMAVVPYAGQAFADSTVKIVVNKTPITNDDIAKRVAFLKLQRQSGNLNEKAREQLVDEALKREEIGRVKMSVSTDDVDAAFARFAGNNKMTPQQLTKVLAQAGVGADHFKAFIAVQMSWPRLVNARYGARGKMSTQDLVTRLKERGDKPVTTEYFLQQVIFVIPESKRNAITGKRKAEAEASRKRYPGCDQAMSFAATMRDVAIKDLGRILAPELPEDWKALVEKTKEGGTTGTRVTEKGVEYLAICKQRQVSDDYAAEMVFKSEDLMKAKDGENPNEKKYMDELRKKAQIVNT	PGPT0014978_2507	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014978-surA-K03771	NA	NA
BMS010_00449	2382	lptD_1		LPS-assembly protein LptD	GTGGCGGTATATGACCGCGGGAATATCAGGCGGCTTTGGACGGCCCTTCTGACAGGTGCCGCTGTGTGCGCGTATTTGGCATCCAGCCCGGTCGCTATCGGCCAGGATGGTTTGCTTGCGTCGGCAAGCCAAGACGATTCGAAACTCCTGCTTACAGCAAATGAACTGACCTATAATCGCGATTCCCAGCGTGTGATCGCGAAGGGCGTGGTTCGCATGAAATATTCGGGCTACCGCATGGTGGCCCAGCAAGTGGAATATAACCAGCAGACCGGCCGTGTGATCGCCCATGGCAACATCGAGCTGATCGAGCCGGGCGGCAACAAAATCTATGCCGACGAGATGGACGTGACCGACGATTTCGGTCAGGGCTTCGTCAATGCGCTGCGCGTCGAGACCACGGACAATACCCGTATTGCCGGTGAAAGCGCCGAGCGTCTCGAAGGCGACCTGATGGTGCTCAACAACGGTGTCTACACCGCGTGTCTGCCCTGCGCCGAGCGGCCCGAAAAGGCGCCGCTGTGGCAGGTCAAGGCCGAGCGCGTCGTTCAGGACGGCAAGACCCATACGGTGCGCTTGGAAAAGGCCCGCCTGCAGCTTTTCGGCCATTCGATCGCCTATCTGCCGTTCCTTACGGTTCCGGACAATACGGTGAAGCGTAAATCCGGCTTCCTGTTCCCGCAGATGAGCATTACCGACAACCTCGGTTTCGGTATCGGCGTCCCCTATTTCCACGTTCTGTCCGACACCTCGGACGTGACCGTCACGCCGACCTATTACACGACGCAGGGTCTGCTGCTGCAGGCGGAACTGCGCCAGCGCTTCGAAACCGGCATGCACACGGTCACGATCGCGGGCATCAGCCAGCAGAAGTCCGAAACCTTCACGGCCGGCACCAGCGACGCCCTCAACGACAATCGCGGCATGATCGCAAGCAAGGGTGATTTCTCGATCAACCCGCGCTGGGCGTTCGGCTGGGATGCCATGGTGCAGACCGACAATAACTTTTCGCGCACCTATGGGCTGAAGGGTTATAAAAACGACGTTCAGACCAACCAGATTTATCTGAACGGTGCGAACGAGCGTAACAGCTTCGAAGCCCGCGGTTATTATTTCAACGTTCAGGATACGGACAACACCGAAGCCAAGGAACGCAAACAGGCAATCGTCCACCCGGTTGTCGACTATCGTTATTTCGTGCCGGATCCGGTTTATGGCGGCGAACTTTCGCTGACCACCAACCTGACGAGCATCACGCGCCTGCGGCAGGATGCTTACGCGCTTGGCGGTTATCCGCGTTTCAGCGGGCTTGAGGGCGACTATACGCGCCTTTCCACCGAAGCCGAGTGGAAGCGCACCTTCACGATGGACAGCGGCCTGCAGATCACGCCGATCCTTGCCGCGCGCGGCGACGCGCTCTGGACGGACATGTCTCCTGCGGCCTTCACCTCGGGCGGGACCTCCTATGCCTATGAGGGCATGATGCATGACGGCGCGGCTTTCCGCGGCATGGTCACCGGTGGTCTGGAAGTGCGTTATCCCTGGCTGTTCACGGCGCTCAACAGCAGCCACGTGATTGAGCCAATCGCACAGATTTTCGTGCGCCCGAACGAACAATATGCCGGCCGCCTTCCGAACGAGGATGCACAGGCATTCGTCTTCGACGCGACCAACCTGTTCGAACGCGACAAATTCTCCGGTTTCGACCGGATCGAGGGCGGCACGCGCGCCAATATCGGCTTCCGCTATAACGGTACGTTCGACAATGGCTACGGCGTTCGCGCCATTGCCGGCCAGTCCTTCCATCTGGCGGGCGACAATTCCTTCGCCTCCTACGATCTCGTCAATGCAGGCGCCAATTCGGGCCTCGAATCCGACCGTTCAGATTACGTCGCCATGGCCGCTTTCGATGCGCCGATCGGACTTTCGCTGTCGTCGAGCCTGCGTCTCGACAAGGACGATTTCGACATCAACCGCTCGGAAACCGGTATAAGCTATTCGGACCGTCGCCTTACGGGCAAGCTCAGCTATACGCAGGTCAAGGCGCAGCCGAAATACGGCTATAACGAAGATCGCGATATCATCCAGGCGTCCGGTTCGCTGCGCATGGACGACAACTGGTCGCTGTTCGGTTCGATCAATTACGATCTGAACGGGAAGTTTGCCGCCGAACGCCGCATCGGCATTGCCTATCAGGATGAGTGCACGATCCTGACGGTCAGCTATTCCGACGAAGGCAATATCAATTCCAGCCGTCAGGCCGCCAATGACTGGTCGATCAATGCCCGTCTGGCCTTCCGTACGCTCGGCGATATCAGCGTCGGTTCAGCCAATGAGGACTGGAACGACATGGATATTGGCTGGAAGCCAAACAACTACTGA	MAVYDRGNIRRLWTALLTGAAVCAYLASSPVAIGQDGLLASASQDDSKLLLTANELTYNRDSQRVIAKGVVRMKYSGYRMVAQQVEYNQQTGRVIAHGNIELIEPGGNKIYADEMDVTDDFGQGFVNALRVETTDNTRIAGESAERLEGDLMVLNNGVYTACLPCAERPEKAPLWQVKAERVVQDGKTHTVRLEKARLQLFGHSIAYLPFLTVPDNTVKRKSGFLFPQMSITDNLGFGIGVPYFHVLSDTSDVTVTPTYYTTQGLLLQAELRQRFETGMHTVTIAGISQQKSETFTAGTSDALNDNRGMIASKGDFSINPRWAFGWDAMVQTDNNFSRTYGLKGYKNDVQTNQIYLNGANERNSFEARGYYFNVQDTDNTEAKERKQAIVHPVVDYRYFVPDPVYGGELSLTTNLTSITRLRQDAYALGGYPRFSGLEGDYTRLSTEAEWKRTFTMDSGLQITPILAARGDALWTDMSPAAFTSGGTSYAYEGMMHDGAAFRGMVTGGLEVRYPWLFTALNSSHVIEPIAQIFVRPNEQYAGRLPNEDAQAFVFDATNLFERDKFSGFDRIEGGTRANIGFRYNGTFDNGYGVRAIAGQSFHLAGDNSFASYDLVNAGANSGLESDRSDYVAMAAFDAPIGLSLSSSLRLDKDDFDINRSETGISYSDRRLTGKLSYTQVKAQPKYGYNEDRDIIQASGSLRMDDNWSLFGSINYDLNGKFAAERRIGIAYQDECTILTVSYSDEGNINSSRQAANDWSINARLAFRTLGDISVGSANEDWNDMDIGWKPNNY	PGPT0023298_905	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023298-lptD|imp|ostA-K04744	NA	NA
BMS010_00450	1089			hypothetical protein	ATGATTTTCAACACGCTCTCCCGGTATTTCCTGAAGCGATATCTGATCACCGCCATCTGGTTCCTGCTCGGTGTATCCTCGATCATTTACCTCGCCGACTTCAGCGAAACGGCACGGCGCATGTCGGGCCTGCCCGGCTATTCCGTTCCGGCCGCCCTTGGCCTGACGGCGCTTCGCCTTCCGCTGATCCTGCAACAGACCGTGCCCTTCATCGCGCTTTTCGTCGGCATGACGACGCTGATCTCGCTCAACCGGCGTTACGAACTGGTGGTGACGCGCGCCGCCGGCATTTCCGCCTGGCAGTTCATCCTTCCCTTCGTGCTCGGCGCGGTTTTCATCGGCATCCTGTCGGTCACTATCCTCAACCCCATCGCGGCATGGGGCCAGAACAAATCGCTGGCGATGGAAGCCGGCCTGCGCAACGAAGCGGGCGGCGGCCGCCAGCAGGAGATCATTCCGTGGATGCGCCAGGCAAGCGGGGGCCAGGATACAATCATCGGCGCCAAGAGCTTCGAGGACAATGGAACGCTGCTTCTCGACGTGGTTCTGATCGACATCGACAAGGACGGAAACATCGTCTCCCGTAAGGATGCGAAGTCGGCTAAATTGGAAGATGGTTACTGGCTTCTTAACGGCGTTTCGGAAACGCGCGCCGGGCATGTGCCAGTTCGGCAAGAAAGCACGCGGATCAGTACCAATCTGAGACGGGAATTCGTCCAGGAGCGCATGACGCAGACGGAAACCGTTGCTTTCTTTGACCTTTCTCACAAGATCGAAGTTGCAAAGTCCTTTGGACTATCTTCGAAGGCGCTTGAGACGCAGTATCATTTCCTGCTATCGACGCCCCTGCTTCTGGTCGCGATGACCTTGATCGCCGCGACCGTTTCATTAAAGTTCAGCCGCTTCGCCCAATCGCGCTCCGTGATTCTGGGTGGAATCGTTTCCGGCTTCGTGCTTTATGTAGTAACCGTGCTCGTAAGGGCATTCGGGAGTGGTGGCGTTGTCCCTCCCACCGTCGCGGTCTGGGTTCCAGTCATCGTGGCGTTGGCTTTGGGGGCAACCATTCTGCTTCATCAGGAGGACGGCTAG	MIFNTLSRYFLKRYLITAIWFLLGVSSIIYLADFSETARRMSGLPGYSVPAALGLTALRLPLILQQTVPFIALFVGMTTLISLNRRYELVVTRAAGISAWQFILPFVLGAVFIGILSVTILNPIAAWGQNKSLAMEAGLRNEAGGGRQQEIIPWMRQASGGQDTIIGAKSFEDNGTLLLDVVLIDIDKDGNIVSRKDAKSAKLEDGYWLLNGVSETRAGHVPVRQESTRISTNLRREFVQERMTQTETVAFFDLSHKIEVAKSFGLSSKALETQYHFLLSTPLLLVAMTLIAATVSLKFSRFAQSRSVILGGIVSGFVLYVVTVLVRAFGSGGVVPPTVAVWVPVIVALALGATILLHQEDG	PGPT0023295_1364	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023295-lptG-K11720	NA	NA
BMS010_00451	1170			hypothetical protein	ATGAAGCTTCTCGAGAACTATATCCTGCGGCGGACAACGCAGATGTTTCTGGTCGCGCTGCTGCCGGTGCTGGCCATCATCTGGACCATCCAGGTTCTCCAGAGAATCAATCTCGTCACCGATACCGGCCAGTCGATGGGTTCCTTCATGGCGCTCGCGACGATGATCCTGCCGACGCTGATCCCGGTCGTCCTGCCTTTCGCGCTGGTGATCGGCATCACCCAGATCTTCACGACGATGAACAACGATTCCGAGCTTGCCATCATCGATGCAGCCGGATCGCCCCGTTCGATCATGTATCGCCCGGTTCTCATTCTGGCCGCCATTCTGAGCGCGCTTTCCTTCACCATCACCAATTTCATCGAGCCGCCCGCCCGCAGCTCCGCCCGGCAGATGGTGGCCGCCGCCTATGCCGACCTTCTGTCCTCGGTGATCGAAGAAAAGACTTTCCGTACCATTCAGGACGGTCTTTACGTGCAGATCGCCCAGCGGCAAGGCCGTATCCTCAAGGGCCTGTTCGTCGCCGACCGCCGCGATCCGAATTTCGACCTCATCTATTATGCCAAGGAAGGCATGATCGATGAAAGCGGCACGTCGCTGACCATGCGCGACGGCGAAGTGCAGCAGAAGACGCCGGACGGCAAGGTCTCGATCGTCAAGTTCCTGTCCTATGCCTTCGACCTTTCGACCATGTCGGAAAAGCAGGATTCCGAGCCGTCGCTCTCTCCGGGCGATGCCAGCCTCGGTTTCCTTCTCTCGCCCGACGAGAACAATGCGAGCTACAAGCGCTCACCGGAAGCCTTCCGCAGCGAGCTGCACAAGCGCCTGTCGGACTGGATGTTCGCCTTCTCCTTCGCGCTGATTTCGCTGGTCATCGCCGCCGATGCCCGTTCGCACCGCGAAGCGCGCCTGCATCCGATGGTCGCCGCACTGGTGACGGCCTTCATGCTGCGATGGCTTGGTTTTTACGTCACCAATCAGATCAAGCAGAGCGCGGCCTTCATTCCGCTGGTCTATGCCGTTCCGGGCCTTAGCGGCGGGGCCGCCGCCTTCATTCTGCTGACCGGTCGCAAGCCGAAAATGCCGAAAATCATCGCCGATGCGATGGGTCGTCTGCGCCGTCTCTTCTCCAGCCGGATGGCGAAAAGCTCTGGGAGCGGCAACGCATGA	MKLLENYILRRTTQMFLVALLPVLAIIWTIQVLQRINLVTDTGQSMGSFMALATMILPTLIPVVLPFALVIGITQIFTTMNNDSELAIIDAAGSPRSIMYRPVLILAAILSALSFTITNFIEPPARSSARQMVAAAYADLLSSVIEEKTFRTIQDGLYVQIAQRQGRILKGLFVADRRDPNFDLIYYAKEGMIDESGTSLTMRDGEVQQKTPDGKVSIVKFLSYAFDLSTMSEKQDSEPSLSPGDASLGFLLSPDENNASYKRSPEAFRSELHKRLSDWMFAFSFALISLVIAADARSHREARLHPMVAALVTAFMLRWLGFYVTNQIKQSAAFIPLVYAVPGLSGGAAAFILLTGRKPKMPKIIADAMGRLRRLFSSRMAKSSGSGNA	PGPT0023290_878	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023290-lptF-K07091	NA	NA
BMS010_00452	1533	pepA_1	COG0260	Cytosol aminopeptidase	ATGCGCATCGTGCAAGTCGTAGAAGAAGAGCAGGAAAACATGTCCGCCAAATTCGATATTTCTTTCGCCAATTCCGCCGCGCTTGAAAACGCGCTCGCCGTTGTGCTGCAGGCCTCGGGTGAGGCGCAGGCCGTCGCCGGCGCCTCCGAGGCCGATCCGGGCGGTGTGATCGAAAGGGCGGCGAAGATTTCGGGCTTTTCCGCAAAATCCATGACGACGCTCGACGTGATCGCGCCGCAGGGTTCCGCCGCCGACAGGCTGCTCGTTATCGGCCTCGGCAAGCCCTCGAAACTGGTCGCCCATGACTGGCTGCGCGCCGGCGGCACCGCCGCCGCCAGTTTCAAGAAGGCGGACAGGGTCGTCATCTATCTCGATGCGCCGGGCGTAGAGGTCGGTGCGCAGGCGGCTGCGGATTTCGCGCTTGGCCTGCTGCTGCGCGCCTATAGCTTCGATGCTTACAAGACCAAGAAAAAGTCCGACGAAGAGAAGACGCCGAAGAAGGTGGAGATCGTCATCGTCACGGCCGCCCATCAGGAAGCGGAAAAGGCTTTTGCCGTCTCCGAGGCCGTTGCGGGCGGTGTTACCCTGGCGCGCGATCTCGTCAACCTGCCGCCGAACGCTCTCGGCCCCGTCGAATTTGCCGAGAAGGTGGAGGAGCTGCGCAAGCTCGGCGTCGAGGTTGAAGTCCTCGGCGAGAAGGAGCTGAAGAAGCTCGGCATGAATGCGCTTCTCGGTGTGGCGCAGGGATCGGCGCGCCCGCCAAGACTTGCGGTCATGCAGTGGAACGGCGGCAACAAGAAGGATGAGCCGATTGCCTTCGTCGGCAAGGGTGTCGTTTTCGATACCGGCGGCATTTCGCTGAAGCCCGGCCTCAATATGGAGGATATGAAAGGCGACATGGGCGGGGCCGCCGCCGTCACCGGCCTGATGCATGCGCTGGCCGCCCGCAAGGCCAAGGCGAATGTGATCGGCGTCATCGGCCTTGTGGAAAACATGCCTGACGGCAATGCCCAGCGTCCAGGCGATATCGTCACCTCCATGTCCGGCCAGACCATCGAGATCATTAATACCGATGCCGAAGGCCGGCTGGTTCTGGCCGACGCGCTCTGGTACACCAAGGATCGCTTCAACCCGAAATTCATGGTGAACCTTGCCACGCTGACGGGCGCGATCACGGTGGCGCTCGGCAATCTTCAGGCCGGTCTATTCTCCAATGACGACGAGCTTGCAGCGCGCCTCACGCAGGCGGGCGATGTGACGGCCGAAAAACTGTGGCGCATGCCGCTCGGCAAGGATTACGACAAGATCATCGATTCCAAATTCGCCGACATGAAGAACAGCTCGGGCCGTCTGGCGGGTTCCGTCACCGCTGCGCAGTTCCTCAAGCGTTTCGTGGGCGAAACTTCCTGGGCGCATCTCGATATCGCCGGCACCGCCATGGGTTCGCCGCTGACCGAGATCAACCAGTCATGGGGATCGGGCTACGGCGTCCGGCTGCTGAACGAACTCGTTCGCGCCCATTACGAAGATTGA	MRIVQVVEEEQENMSAKFDISFANSAALENALAVVLQASGEAQAVAGASEADPGGVIERAAKISGFSAKSMTTLDVIAPQGSAADRLLVIGLGKPSKLVAHDWLRAGGTAAASFKKADRVVIYLDAPGVEVGAQAAADFALGLLLRAYSFDAYKTKKKSDEEKTPKKVEIVIVTAAHQEAEKAFAVSEAVAGGVTLARDLVNLPPNALGPVEFAEKVEELRKLGVEVEVLGEKELKKLGMNALLGVAQGSARPPRLAVMQWNGGNKKDEPIAFVGKGVVFDTGGISLKPGLNMEDMKGDMGGAAAVTGLMHALAARKAKANVIGVIGLVENMPDGNAQRPGDIVTSMSGQTIEIINTDAEGRLVLADALWYTKDRFNPKFMVNLATLTGAITVALGNLQAGLFSNDDELAARLTQAGDVTAEKLWRMPLGKDYDKIIDSKFADMKNSSGRLAGSVTAAQFLKRFVGETSWAHLDIAGTAMGSPLTEINQSWGSGYGVRLLNELVRAHYED				NA	NA	NA	NA	NA
BMS010_00453	450			hypothetical protein	ATGACTGAAATTCTGTTTTACCATCTGACGGAATCGAAGCTGGAGGATGCGTTGCCGCCCTTGCTTGAGAAATCGCTGGAACGCGGCTGGAAAGTCGCGATCCAGACGGTGGGCGAAGAGCGCCGTGATTTCCTCGATACGCATCTGTGGACCTTTCGTGACGACAGTTTCCTGCCGCACGCCACCGATACTTCGCCCGCACCGCAAAACCAGCCGATTCTCCTGACGGCGTCCGACGAGAACGCCAACGCGGCAAGTGTCCGCTTTCTCGTCGATGGCGCCGAGCCGCCGGCGGTTGAGGCCTACGAACGTATCGTGTTCATGTTCGACGGATACGATGCCTACCAGCTCGAAATGGCGCGGAATCACTGGAAAAGACTGAAAACAGAGGGACATTCCCTGACATACTGGCAGCAGTCGCCTGAAGGCCGCTGGCAGAAGAAGGCCTGA	MTEILFYHLTESKLEDALPPLLEKSLERGWKVAIQTVGEERRDFLDTHLWTFRDDSFLPHATDTSPAPQNQPILLTASDENANAASVRFLVDGAEPPAVEAYERIVFMFDGYDAYQLEMARNHWKRLKTEGHSLTYWQQSPEGRWQKKA				NA	NA	NA	NA	NA
BMS010_00454	1116			hypothetical protein	ATGGGCTTTCGCTTCGAGCGAGGCGGCTGGTTTGACCTGCTCTGCCTCGGGCGGCTTCCTGTAACGCAACAGCAGAAGGACATGAGTATGGGACAGGCGATACCGCGACCGGAGGGAGAAACCGAGCGCCTGGTCGCGGTGCGGTCGATCATGTCTTTCAAGAATGCCGAGATGCCGGAGCTGAAAGTGCTGTCGCAACTGGGGCAGGGGGTTTTTGGCGTGGCGCGTGCGGCGGTCAGTATTATCGATGAGGATTGGCTTCATATCGCCGAGCAGGCGGGAATGCAGCTGTCGGAATGCCCGCGCGATCTGTCGATCTGCGACCGCGTCATCGCCAAGCAGGATGTGGTGGTGATTCCCGATCTCACCGAGCATCCGCATTTCCGCTTCATGTCCTATGTGAAAGAGGGGCCGGAGCTGCGTTCCTATGCGGGTGCGCCGATCGAACTTGAGCCTGGTCTTGTTGTTGGCGCCTTTTGCCTGGTCGATACGGTGCCGAGAAATTTTTCCCGCATCGAAATCGACAATCTCAGACATTTCGCGTTGCTGGCGGCTGCATTGCTGCGGCTTCAGAAAGCCAATTTCACCATGAGTCTGGCCGAACGCGAATTGCGCGATGCGGCGATGACCGATCCGCTGACCGGGTTTTATAATCGCAAGGCGCTGGAGGCGATTGTCGACGGCCAGCTCGGCGCGGCCCTGCGTGCAAACGAGGCCTTCGGTGTGCTCTATCTTGATCTGGACGGTTTCAAGACCATCAACGACACGTTCGGCCATCCTGCCGGTGACCGCGTTCTGACCGCCGCCGCCGGACGTATCCGCAAGGCAATCCGCAAGGAGGATATCGTCGTGCGCATGGGCGGCGATGAATTCGCGATTTTTATACCGCGACCCCGCAGCCCAGATGTCATGAGTGGAATGGCGGACCGGCTTCTGGCCGCTTTCCGAAACCCCTTCGACGTGGACGGGCAGGAGGTGGACGCCCGTCTTAGCATCGGCGGCGCGCTTGCTCCGCAGGCGGGTGCCGACCGGGCAACGCTGCTATCCAGCGTCGACGAAGCGTTGTATCAGGCCAAAAAATCAGGGCGCGACCGTTTCGTCAGCCGCGCCCTTTGA	MGFRFERGGWFDLLCLGRLPVTQQQKDMSMGQAIPRPEGETERLVAVRSIMSFKNAEMPELKVLSQLGQGVFGVARAAVSIIDEDWLHIAEQAGMQLSECPRDLSICDRVIAKQDVVVIPDLTEHPHFRFMSYVKEGPELRSYAGAPIELEPGLVVGAFCLVDTVPRNFSRIEIDNLRHFALLAAALLRLQKANFTMSLAERELRDAAMTDPLTGFYNRKALEAIVDGQLGAALRANEAFGVLYLDLDGFKTINDTFGHPAGDRVLTAAAGRIRKAIRKEDIVVRMGGDEFAIFIPRPRSPDVMSGMADRLLAAFRNPFDVDGQEVDARLSIGGALAPQAGADRATLLSSVDEALYQAKKSGRDRFVSRAL				NA	NA	NA	NA	NA
BMS010_00455	927	araA		L-arabinose 1-dehydrogenase (NAD(P)(+))	ATGTCAGCCACCAAGCTTGCCATCGTCGGCGTCGGCAAAATCGTTCGCGACCAGCATCTTCCCGCCATTGCAGGCAATCCGGATTTTGAATTGATCTGCACCGCAAGCCGCCACGGCACCGTGGACGGCGTCGCTTCCTATGGCACCATCGAGGCCATGCTGGAGGCCGTGCCTGCTATCGACGCGGTATCGCTGTGCATGCCGCCGCAATATCGTTACGAGGCGGCTTACGCGGCACTGAATGCCGGCAAGCACGTTTTCCTCGAAAAGCCGCCGGGCGCCACCCTTTCGGAGGTGCAGGATCTCGTCCGGCTGGCGGATTCGAAGGGCCTTTCGCTCTTTGCAAGCTGGCATTCGCGTTATGCCCCGGCGGTCGAGGCTGCGAAGGCGTTTCTGGCTTCCACCAAAATCGAGAGCGTGCATGTCATCTGGAAAGAAGATGTGCGCCACTGGCACCCGAACCAGGCCTGGATCTGGCAGGCTGGCGGTCTTGGCGTGTTCGATCCCGGCATCAATGCGCTTTCGATCATCACCCATATCCTGCCGCGCGCGCTGTTCCTGACCAAGGCGACGCTTGAGTTCCCGGAAAACCGCGACGCCCCGATCGCCGCCGACCTGCATTTTTCCGATGTGGCGAAAACGCCCGTCCATGCCGAATTCGACTGGCGCCAGACCGGCAAACAGAGCTGGGATATCGTTGCCGAGACGGCAGCGGGACGGATGGTGCTTTCGGAAGGCGGCGCAAAGCTTGCCATCAATGGCGAAGAAAAACTCTCACAGCCGGAGCGGGAATATCCTGCCCTTTACGAGCGTTTCTCGGAAATCATCAAGGCTGGCCGTTCCGATGTCGATCTCGCGCCGCTGACCCACGTAGCCGACGCCTTCCTGCTCGGCCGCCACAAATTCGTGGATTCCTTCTACGACTGA	MSATKLAIVGVGKIVRDQHLPAIAGNPDFELICTASRHGTVDGVASYGTIEAMLEAVPAIDAVSLCMPPQYRYEAAYAALNAGKHVFLEKPPGATLSEVQDLVRLADSKGLSLFASWHSRYAPAVEAAKAFLASTKIESVHVIWKEDVRHWHPNQAWIWQAGGLGVFDPGINALSIITHILPRALFLTKATLEFPENRDAPIAADLHFSDVAKTPVHAEFDWRQTGKQSWDIVAETAAGRMVLSEGGAKLAINGEEKLSQPEREYPALYERFSEIIKAGRSDVDLAPLTHVADAFLLGRHKFVDSFYD	PGPT0002205_229	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GALACTONIC_ACID_BIOSYNTHESIS,PGPT0002205-gal-K00035	NA	NA
BMS010_00456	1212			hypothetical protein	GTGGTTTTGTTTAAATCTGACCGATTGTCTGGCTTCGTTCAGAAAGTCAACGAAAGCAACCACCAATTCAATACATATGGGCTGATTTTCGGCGTCGTCCTCTACAATCTCTACATATTGGTGGATCTCAGTCTGGTGCCCGAGATCATCTGGCTTGATCTGGTCGTCCGCCTGATTATTGTAACGCCGATTTTATTTCTTTATTTTCCGGTGCGATATTATGCGATCGGGCTGCGGCCGGATGCGGTCGCCCATGAGGTGCTTCACGGGCTGGGCTGCATGTTGGTCGTCGCATCGATCATGTTCATCTATGCCAATGCTCGGACGTCATCCGCGAGCGAATATTACATCGGTATCGTCACCGTCGTCATTTACATGAATACGATCCATCGCAAACCGTTTCCCCTCGCGGTCATGGGTACGGTCGGGTGCATGGTGGTATTCATTGTCGGCATGCGGTATGTCACGGTGACGAGCGAGGTCGCCAAGTTGCCCGCGATCATGTGTTCCGTTGGCATCAGCGCGGTTTCGCTGTTTGCGGCCTATCGTATCGAGCAGGTGGAGCGGCGTGATTATCTGGCGTCGCTGCGCGAAAAAATGTTGTTGCAACAAATTCAAAGCGCAAACCGGGAACTTCAGCAGCTCTCCAATACCGATCAGCTCACCGGTATCCGCAATCGCCGCAGCTTCGACGAGGCGGCGAGCGAGACTTCTGCCGGCAGCGGCAGGCCGCGGGCTCTCATCCTTCTCGATGTCGACTATTTCAAAAACTATAATGATTCCGAAGGCCATATTGCCGGCGATGACTGCCTGCGCAGGATCGCCGGACGTCTTCGCAGCGCCCTGCGCAGGGACGATGGCGACAGAAGTTTCGTCGCGCGTTACGGGGGCGAGGAATTCGTCGTCCTGCTCGACGATTGCGTCACTTCCGCTGCACTGGCGATAGGGGAAAGACTGAGATTGGCTGTGATCGACGAGGCAATACCCCATCTTAACCGCCCCGACGGGCGGGAAATCGTCACCGTCAGCCTCGGGATCGCAGTCTCCGGTGACGGCGGGGAAGTTATCTACGACATGGTCAACCGGGCCGATACCGCGCTTTACGAGGCCAAGCGCCAGGGAAGAGACCGGCTGGTGCTGGCCTCCGGCCCTACGGAAGCGATTGCCGGGCCAACAGGACCTTATGACGCCGAAGCCGCAATGTCGGCATAG	MVLFKSDRLSGFVQKVNESNHQFNTYGLIFGVVLYNLYILVDLSLVPEIIWLDLVVRLIIVTPILFLYFPVRYYAIGLRPDAVAHEVLHGLGCMLVVASIMFIYANARTSSASEYYIGIVTVVIYMNTIHRKPFPLAVMGTVGCMVVFIVGMRYVTVTSEVAKLPAIMCSVGISAVSLFAAYRIEQVERRDYLASLREKMLLQQIQSANRELQQLSNTDQLTGIRNRRSFDEAASETSAGSGRPRALILLDVDYFKNYNDSEGHIAGDDCLRRIAGRLRSALRRDDGDRSFVARYGGEEFVVLLDDCVTSAALAIGERLRLAVIDEAIPHLNRPDGREIVTVSLGIAVSGDGGEVIYDMVNRADTALYEAKRQGRDRLVLASGPTEAIAGPTGPYDAEAAMSA				NA	NA	NA	NA	NA
BMS010_00457	1941			hypothetical protein	ATGATGGAATTGATCGCCGCACAAGCGGCAGCATCCGCTGCCGAACTTCCCTTCCTCCTGCTTCAGGCGGCAGCCGTTGTCGGCATGGTGTCCGTGCTGATTCTCCTCCGGCGAAACATCGCCCTCGAGGATCCCCGCTATAAGGTCTATTATGGCATCGTGTTCGGCGTGGCGGGGTTTCTGCTCGCGATGCTGGTTTCCGAATTCATCAAACTTCCCTCCAAGCCCTATATCCGCACGGAATTGCTGTTTCTTGCCGGGGTGCTGGGCTCATGGCAGGGCGGGTTGATCACCTTGGTTTTCGTGGCGGTCGGGCGATATGTCTTTGGCGGTCCCGCGCTGTTTCTTGCGGCCTTGCAGGACATGGTCGTCATTTCGGCCTGCGGCGTCGCCATGTATGGCTGGATGCGCAACCGGCGCCTCGCCGATATCGGAAATCGGGATATTCTTATCGTCTGTGCGGCCAGATTCATGACCGCACTGCTGGCCATCACAATTTCGTTCGCGCTGGGTTTAATCGATCACGCACTGTTCGTAAGCGCACTCGGGCGCCGGACAATAGGCGCCGCCTCCATTGGTTTGCCGATGATCGTGTGCCTGTTCATCCTCTTGCGCAGCGAAGCGCGGGCCCGGGAAGAGGCAAGGAAACGAGAGGAGGCAGCAAGAACGGATTCGTTGACTGGTCTGCCCAACACGCGGGCGCTTAAGGACCATATGGAAAAAGTCATGCGGCAGGAACCGGCGGTTCCGCACGCCCTTGTTCTGATCGAGATCGTCAATATAGCCGATGTCGCCGCCTGCGAGGGAGAAGACTGGAGCGATCTTTTCTGGCCCCGGCTGGCGCGGGAGATCTGCGACGGGGACTACGGCGTCCTTTGCGACATCAATGCGCCCTGTAGCTTCATGTTCGGCGATACGACACTTGCAGTCGTCATGCAGGGGATTTCGCTTGAAAAGTCCGAAAGCACGAAACTCATAATGCGTCTGCATGAGGGTTTGAGCACGTTTTGTCGCTCGGCGGAGGCAGGGCCGGTCCCGCATCTCAAAATCGGCGCGGCAAATCTGGACAAGCTTTCGCAACGGAACGTCGCCTCCTTCCTCAGGCACCTCAGCCTGGCGCTCAAGGGCAGCGATCATCCGGTGCAGATTTTCCCCTTCTCCTTTGCCGAGAAAGCGACACTGGACGAGGCGGTGCGGCAGATGCTGGTCAACTGGATCAAATCCGGCACGCCGCCCATTTGTTATCAGCCGAAATTCGAAATGCGCAATCGCCGCATGATCGGCGCCGAAGCGCTCCTGCGCGCGGTCGACGCGCGGGGGCAGGCGCTTTCGCCTTATTATGTGCTGGAAATCGCCGAACGCCATCGGCTGCTGGTGGAATTCGAATGGTCGACGATCGAGGCCGTCGTGCGCGATCTTCGCGATCTGCACGGCCTCGAGGCGGATTTTCATCTGGCGGTGAATATTTCCGCTTCGTCCTTTGCGAGCGCGCATTTCGCAGACCGGGTCGTGGCGCTGCTGCACGAAATGGCGGTGCCGGCGTATCGCCTCTCAATCGAAGTGACGGAGATGAGCAGGATACCGACCACCGATGTCGTACAGCAGAATTTCGATACGCTGATTGCCGCAGGCGTCCGGCTGGCGCTCGATGATTTCGGCACCGGTTATGCCGCCCTCACTTTGCTGGCGCGGTTCCCGTTCGAAGAGGTCAAGATCGATCACTGGATGACATCGAGGCTCGACCAGTCGCGGTTCAGGGAGGCCATTGCGCTCGCCTTCGAGAGTGCGGAGCGTTACGGCGCAAAGCTGGTGACGGAAGGCATAGAAACCGAGGAGCAGAGCCGGCTCCTGATGCAGATGGGCATTCGCTTCGGGCAGGGTTATCTTTATTCCCCCGCCGTACCGCTCGACCGCCTGCAACCGCGCAGGGCATGCGCCTAG	MMELIAAQAAASAAELPFLLLQAAAVVGMVSVLILLRRNIALEDPRYKVYYGIVFGVAGFLLAMLVSEFIKLPSKPYIRTELLFLAGVLGSWQGGLITLVFVAVGRYVFGGPALFLAALQDMVVISACGVAMYGWMRNRRLADIGNRDILIVCAARFMTALLAITISFALGLIDHALFVSALGRRTIGAASIGLPMIVCLFILLRSEARAREEARKREEAARTDSLTGLPNTRALKDHMEKVMRQEPAVPHALVLIEIVNIADVAACEGEDWSDLFWPRLAREICDGDYGVLCDINAPCSFMFGDTTLAVVMQGISLEKSESTKLIMRLHEGLSTFCRSAEAGPVPHLKIGAANLDKLSQRNVASFLRHLSLALKGSDHPVQIFPFSFAEKATLDEAVRQMLVNWIKSGTPPICYQPKFEMRNRRMIGAEALLRAVDARGQALSPYYVLEIAERHRLLVEFEWSTIEAVVRDLRDLHGLEADFHLAVNISASSFASAHFADRVVALLHEMAVPAYRLSIEVTEMSRIPTTDVVQQNFDTLIAAGVRLALDDFGTGYAALTLLARFPFEEVKIDHWMTSRLDQSRFREAIALAFESAERYGAKLVTEGIETEEQSRLLMQMGIRFGQGYLYSPAVPLDRLQPRRACA	PGPT0026010_2018	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0026010-mucR-K21023	NA	NA
BMS010_00458	1884	yheS_2	COG0488	putative ABC transporter ATP-binding protein YheS	ATGATTACGATTACCGATCTTTCCGCCCGTATCGCCGGGCGTCTGCTTCTCGACCATGCCAGCGTGACGCTTCCCGCCGGTGTGAAGGCGGGCCTTGTTGGCCGCAATGGCGCCGGCAAATCCACCCTGTTCCGGGTCATCACCGGCGATTTCTCGGCGGAAAGCGGTTCGGTGACAATCCCGAAACAGGCGCGCATCGGCCAGGTGGCGCAGGAGGCGCCGGGTACCGAAGAATCGCTGATTTCCATCGTGCTTTCGGCCGACAAGGAGCGCAGCGCGCTTCTGGCCGAGGCGGAAACCGCAACCGATCCGCACCGTATCGCCGAAATCCAGATGCGGCTCGTCGATATCGACGCCCATTCGGCGGAAGCGCGCGCCTCCAGCATTCTTGCCGGTCTCGGTTTCGATCACGAAGCGCAGCTTCGTCCGGCCTCCTCCTTCTCCGGTGGCTGGCGCATGCGCGTGGCGCTCGCCTCCGTGCTGTTTGCCGAACCCGATCTGCTGCTGCTCGACGAGCCGACCAACTATCTCGACCTCGAAGGCACGCTCTGGCTTGAGGATTATATCCGGCGTTATCCGCACACCGTCATCATCATCAGCCACGACCGCGATCTTCTCAACAATGCCGTCAACTCCATCGTGCATCTGGACCAGAAGAAGCTGACCTTCTATCGCGGCGGCTACGATCAGTTCGAGCGCCAGAAGGCCGAAAACGACGAATTGCAGATGAAGGCGAAGGCAAAAAATGACGCCGCGCGCAAACACCTGCAAAGCTTCATCGACCGTTTCCGCGCCAAGGCCACCAAGGCGCGGCAGGCGCAGAGCCGCATCAAGGCGCTGGAGCGCATGGGCACCGTCGCCGCCGTGATTGAGGATCACGTCCAGCCGATCACCTTCCCGGAGCCGGAAAAGCAGCCCGCCTCCCCCATCGTCGCCATCAATGGCGGGGCTGTGGGTTACGAGCCGGGCAAATCGATCCTGAAGCAGCTCAATCTCAGGATCGACAATGACGACCGCATTGCGCTGCTCGGCTCCAACGGCAACGGCAAATCCACCTTCGCGAAATTCATCTCCGGCCGGCTTGCGCCGCAGGCGGGCGATCTTCGCGTCGCCCCTGGCCTGAAGATCGGTTTCTTCGCGCAGCACCAGCTCGATGACCTCGTGCCGGATGAAACGCCGGTCGAACATGTGCGCAAGCTGATGCCTCTGGCGCCAGAGGCACAGGTGCGCTCCCGCGTGGCGCAGATGGGTCTCGCAACCGAAAAGATGGCGACGGCGGCAAAGGACCTTTCCGGTGGCGAAAAGGCACGGCTTCTGATGGGACTTGCGGCCTTCCACGCGCCAAACCTGCTCATCCTCGACGAACCGACCAACCATCTCGATATCGACAGCCGCAGGGCGCTGATCGAGGCGCTGAACGATTACAGCGGCGCGGTCATCCTCATCTCGCACGACCGCCATCTCATCGAGGCGACGGTGGACCGGCTGTGGCTGGTGGCTGACGGCACGGTCAAGACCTTCGAAGGCGACATGGAGGAATATCGCGATCTCGTCGTTTCCTCCGGTAAGAAGAAGGAAGACAAGACCGACGCCGTGGCCGATCAGGCTTCCAAAGCCGATCAACGCAAGGCAAGCGCGGAAAAGCGCGCCCAGCTCGCACCGCTCAAGAAAAAGATCAACGAAATCGAATCCCTGACGGCGAAGCTTGAGAAACTGATTCAGTCGCTCGACGCCGAGCTGGCGGATCCCGTCCTATACGAAAAAGCGCCCGCCAAGGCCGCACAGAAAGTGAAGGAGCGCGGCGAGGCCGCCGCGAAGCTTTCGGATGCGGAGGAGCAATGGCTGCTGCTTTCGAGCGAATATGAAGAAGCAATGGCGGGGTGA	MITITDLSARIAGRLLLDHASVTLPAGVKAGLVGRNGAGKSTLFRVITGDFSAESGSVTIPKQARIGQVAQEAPGTEESLISIVLSADKERSALLAEAETATDPHRIAEIQMRLVDIDAHSAEARASSILAGLGFDHEAQLRPASSFSGGWRMRVALASVLFAEPDLLLLDEPTNYLDLEGTLWLEDYIRRYPHTVIIISHDRDLLNNAVNSIVHLDQKKLTFYRGGYDQFERQKAENDELQMKAKAKNDAARKHLQSFIDRFRAKATKARQAQSRIKALERMGTVAAVIEDHVQPITFPEPEKQPASPIVAINGGAVGYEPGKSILKQLNLRIDNDDRIALLGSNGNGKSTFAKFISGRLAPQAGDLRVAPGLKIGFFAQHQLDDLVPDETPVEHVRKLMPLAPEAQVRSRVAQMGLATEKMATAAKDLSGGEKARLLMGLAAFHAPNLLILDEPTNHLDIDSRRALIEALNDYSGAVILISHDRHLIEATVDRLWLVADGTVKTFEGDMEEYRDLVVSSGKKKEDKTDAVADQASKADQRKASAEKRAQLAPLKKKINEIESLTAKLEKLIQSLDAELADPVLYEKAPAKAAQKVKERGEAAAKLSDAEEQWLLLSSEYEEAMAG				NA	NA	NA	NA	NA
BMS010_00459	1047			hypothetical protein	GTGACGACATCGGCGGGCGATAAAAAACGCGGGCAGGCAAGAAGCGCTCTGGTCGTTACCAAGATCACGCAGTTCATCGCCAAGATGAACATTGCACCTTTGCCGCGCAATTATGAATTGATCTATGAAATATTGTCCGGACACAATCCGGCCATGGGCCGTGACATTCTCGCTCTTGGCAATGCGCCGCAGCAGCATGAAATCGACCTCATCGGCCAGCGGCACAATCTGCCCGGCTTTTCGCGCATCGAAGCCGAACAGATGGCAAGCGCGGCCTTCGATACACTGACGCAGATTTCCGCGCGGCTGGAGGCGAGCCTTCAGCGCACCGAAACTTTTCTGGCCAGCCTTGAGCAGCATGAGGATGGCGAGCCGCCCGCAACGGAGCGCTTCATCGATTTGCTGGGCGATATCCACGAAGAACAGACGAGCCTTCGGCATTTCATCGCCATGGGACTGGTGAAAATCCGCGAGGTTGAAAGAAACCGTGGGGAGCTTCAGGCTGCCTCGCTGCGCGATGCGCTGACGGCACTGCCAAACCGGGCGGCCTTTCTCGAAAAGCTTGGCGCTCTTTTTCCAAAGGACCGGGCCGCATCCGCCACCTCGCTGGTGCTGCTGGATATCGACCACTTCCGGGAAATCAACGGCAAATATGGCTCCGCCGCCGGCAACAAGGCATTACGGCGTCTCGCCGCCCTGTTTCGCAAAACCATCAAGAAGGACGATTTCGTCGCCCGTATCGGTGGCGATGAATTCGCCTTCCTGTTTGCCGGCGTGCCGCAGAACACGGCCGAGGCCATTGCCGAGCGGTTGCGGCAAAGCGTGGAGGCGCTGCGTTTCGTGACGCAGGAAGGAGACGGCGAACATCTGACCGTTTCGATCGGCGTCGCCGCGGTGGATGGAACCGCAACGCCCGCCGAATTTTTCAGCCATGCCGAACTCGCTCTGCTTTCGGCCCGCTGCGGCACGCGCAACTGCGTCGTCGGTTATTCGCGGGAGGTAGCGCAGCATAGCCGCAGCAGCTATCTGGCGCAGCTCGGCGATTGA	MTTSAGDKKRGQARSALVVTKITQFIAKMNIAPLPRNYELIYEILSGHNPAMGRDILALGNAPQQHEIDLIGQRHNLPGFSRIEAEQMASAAFDTLTQISARLEASLQRTETFLASLEQHEDGEPPATERFIDLLGDIHEEQTSLRHFIAMGLVKIREVERNRGELQAASLRDALTALPNRAAFLEKLGALFPKDRAASATSLVLLDIDHFREINGKYGSAAGNKALRRLAALFRKTIKKDDFVARIGGDEFAFLFAGVPQNTAEAIAERLRQSVEALRFVTQEGDGEHLTVSIGVAAVDGTATPAEFFSHAELALLSARCGTRNCVVGYSREVAQHSRSSYLAQLGD				NA	NA	NA	NA	NA
BMS010_00460	696	ligE		Beta-etherase	ATGACGACTTCCAGAACGCTCTATTCGCTATGCGGAAGCGATACTTCCCGGCCATTTTCTCCCCATTGCTGGAAAACCGTGCTTTCGCTGGCGCATAAGGGGCTGGATTTCGAGGAGCGGCCTTTACCCTTCACGGTGATCCCGACAGTAGAGGACGGCTTTTCGAAGACCGTGCCGATCCTGCGCGATGGCGACGAGCTGATAAGCGACAGTTTCGAAATCGCGCTTTACCTGGACGAGGCTTACCCGGAGCGGCCGTCGCTGTTCAACGGCGAGGGCGGCAAGGCCATGGCCCGTTTCGTCGAAAGCTGGTCGCAGACGGTGCTTCACCCGGCCATCGTGCGTATCGCCGTGCTCGATATCCACAATATGCTGGATGAGCCGGACCGCCGTTATTTCCGCGATAGCCGCACGAAAGCGCTCGGCCGTCCGCTCGAGGATGTGGTGGCGAACCGCGAGGCGGAAATCGCAGCCTTTCCGGCATTGCTTGCGCCGATCCGGCGTATGCTGAGCTTCCAGCCTTTCATCGGCGGCACATCGCCGCTCTTTGCGGATTACATCGTGTTCGGCGCGCTGCAATGGGCGCGGATCACCACCGGGGCGGATTTGTTCGCCGATAACGACCCCGTGCGGGACTGGTTCGAAGGCTGCCTCGATCTCTACGATGCGAGAGGCCGCAGTGTGACAGCGGCGTGA	MTTSRTLYSLCGSDTSRPFSPHCWKTVLSLAHKGLDFEERPLPFTVIPTVEDGFSKTVPILRDGDELISDSFEIALYLDEAYPERPSLFNGEGGKAMARFVESWSQTVLHPAIVRIAVLDIHNMLDEPDRRYFRDSRTKALGRPLEDVVANREAEIAAFPALLAPIRRMLSFQPFIGGTSPLFADYIVFGALQWARITTGADLFADNDPVRDWFEGCLDLYDARGRSVTAA				NA	NA	NA	NA	NA
BMS010_00461	423	ndk_1	COG0105	Nucleoside diphosphate kinase	ATGGCGATTGAACGCACATTTTCGATGATCAAGCCGGACGCAACCAAGCGTAACCTGACGGGCGCGATCACCAAGGTATTTGAAGACAACGGCCTGCGCGTCGTCGCCTCCAAGCGCGTCTGGATGAGCAAGCGCGAAGCCGAAGGCTTCTACGCCGTTCACAAAGAGCGTCCCTTCTTCGGCGAACTCGTTGAAGGCATGACTTCCGGCCCGACCATCGTTCAGGTTCTGGAAGGCGAAAACGCCATCCTCAAGAACCGCGAAATCATGGGCGCCACCAACCCGGCCCAGGCCGCGGAAGGCACCATCCGCAAGACCTTCGCGCTCTCCATCGGCGAAAACTCCGTTCACGGTTCCGACGCTCCGGAAACCGCCGCACAGGAAATCGCCTACTGGTTCGCCGAAACCGAAATCGTCGGCTGA	MAIERTFSMIKPDATKRNLTGAITKVFEDNGLRVVASKRVWMSKREAEGFYAVHKERPFFGELVEGMTSGPTIVQVLEGENAILKNREIMGATNPAQAAEGTIRKTFALSIGENSVHGSDAPETAAQEIAYWFAETEIVG	PGPT0021210_4017	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021210-ndk-K00940	NA	NA
BMS010_00462	513			hypothetical protein	ATGAAAAGAATTGCCCTTCCCTTGCTGGCGATTGCGGGGATGCTCGCTCTTTCCGGCTGCCAGCGGGAAGAACCGCGCGAAGTGGCGAAGGTTTCCGGCCGGATGTTCGTTTTCAACTATCGCGTCGCCATCGCCACCTATCTGGTGACGCTTCAGCGCATCGCCCCCATTCGCGATGGCAGCACGGTGGAAGCGACGTTCGAAAACCCGCGCGGCGGTCCAGACCTCACCAGCCGCGAGAAGATTTTCCCGAAAGACGAAAAGATCACCGTTCAGAGCCCACCGGTGGAATGCGTGAAGCAGGACCGGCCCTATAAGGTCACCATCCGCATCAAGGGGCCGGAAGGCGACATTCTCCAGACCATCGAAACCACGATCCGCTCCGACACCGACCAGTCGCTTCTTCCCGCCAAGCCGCTGGTGGTCGGCCCGCTTTATACGCCCAATCCGGAGGTGTTCAAACCGGATGGCACGACGGATATGCGGCCGGTTCAAGGGTGTCCGGCGTCCTAA	MKRIALPLLAIAGMLALSGCQREEPREVAKVSGRMFVFNYRVAIATYLVTLQRIAPIRDGSTVEATFENPRGGPDLTSREKIFPKDEKITVQSPPVECVKQDRPYKVTIRIKGPEGDILQTIETTIRSDTDQSLLPAKPLVVGPLYTPNPEVFKPDGTTDMRPVQGCPAS				NA	NA	NA	NA	NA
BMS010_00463	510			hypothetical protein	TTGGCGCTGGATGTCGCCAATAGCGTTATCCTGCGCTCGGATGCGGCAAAATCAGTCGACCGTTTTGCGGTGCCGGCGCACATCGCGGCCTTTGCCGAAGCGGCCACAAGGCTCGGTGCGGAACGTGGCAGGTTTCCCACGCTCATCGCGCCCGAGGCGGAAAAGCAGGCGGTTTTTCTCGATCTTCGCGAGGCCGTCGACGATTATTTCCGCGCCGCGATTTCCGGCGACGACGATGACGACAACAGGCTGGCCGGGCTTCTCTTCGCCTGCGGCACAGCGCTGCGGACGTTTCCGCTTGCCGAAAGCCTCGGCAACGCCACCGCCCATTCCGCCCTCTCGCTGCTTGCCGACGAGACACGGGAGCGGCTGCGGATCTGCGGCAATTGCGGCTGGCTTTTCATCGACCGCAGCAAGAACAGAAGCCGTATCTGGTGCGATATGGCTGTGTGCGGTAACCGGCAGAAAGCCAGCCGGCACTATCACCGGAAGAAGGACGTGCGATCATGA	MALDVANSVILRSDAAKSVDRFAVPAHIAAFAEAATRLGAERGRFPTLIAPEAEKQAVFLDLREAVDDYFRAAISGDDDDDNRLAGLLFACGTALRTFPLAESLGNATAHSALSLLADETRERLRICGNCGWLFIDRSKNRSRIWCDMAVCGNRQKASRHYHRKKDVRS				NA	NA	NA	NA	NA
BMS010_00464	897	livH_1	COG0559	High-affinity branched-chain amino acid transport system permease protein LivH	TTGGCCTATTTCCTGCAACAATTGCTGAATGCTGTGCCGGTCGCCTCGCTTTACGCGGTTCTGGCTTTTGGTTATGCCATCGCCTTTTCGGTCACCAAACGCGCCGATGTCACCTATGGCGCCATATTCGCCTTTGCCGGCCAGACCTGCCTGTTATTTGCGGATTTCGGCTGGAACCGGCTGTGGTTGGTTTTGCCGGCAACATTGGCGCTCGGGGCAGGGGCGGGCCTGTTCGGCGGGCTGTGGGCGGCGGGTTTTGTCGGCAGGGCGGTGATGCGGCCGCTGGCGAAAGCCTCTCCCAATGCCGTGACCGTCGCCTCTGTCGGCGTGCTGATTGCGCTGACCGAAAGCGCGAGGCTGGCCGCCGACACAAGGCAATTATGGCTGCCGCCGCTTCTGTCTCAGCCGGTGCGCTTCTGGGCCGATGGTGGTTTTGCCGTGACCCTGACGCCGATGCAGATGCTGAACACGGCGGCGTTCTGCCTGCTTATTCTCGCAGGGTCGTTTTATCTTGGCCGTTCCGCTTTCGGCAGGCGCTGGAAATCGGTCTCGGACGATGCTTTCGCCGCCGCATTATGCGGGGTGAATGCGGGCCGGATATTTCTCGTCTCCTATTGTGCGGCGGGCCTCGTGGCCGCCATCGCCGGCGTGCTGGCCACATTCTATTACGGCACCATGGATTTCGGCGCTGGTCTGGTCTTTGGCCTGAAGGTGGTGCTGATTTCGGCGGCGGGCGGTTATGCCAGTCCGCTCATCTGCGGCCTTGGGGCCGCCGTCGTCGGCTTTGCGGAAACTTTCTGGGTCGGTTACGGCCCTGCCGCCTGGCGCGATGCGGTGGTTCTGGCGATGCTGGTCGGCTGGCTGATTGTCATGCGCAGCAGGGTGGAAGCGCCCTGA	MAYFLQQLLNAVPVASLYAVLAFGYAIAFSVTKRADVTYGAIFAFAGQTCLLFADFGWNRLWLVLPATLALGAGAGLFGGLWAAGFVGRAVMRPLAKASPNAVTVASVGVLIALTESARLAADTRQLWLPPLLSQPVRFWADGGFAVTLTPMQMLNTAAFCLLILAGSFYLGRSAFGRRWKSVSDDAFAAALCGVNAGRIFLVSYCAAGLVAAIAGVLATFYYGTMDFGAGLVFGLKVVLISAAGGYASPLICGLGAAVVGFAETFWVGYGPAAWRDAVVLAMLVGWLIVMRSRVEAP	PGPT0020770_4712	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020770-livH-K01997	NA	NA
BMS010_00465	456	moaE_1	COG0314	Molybdopterin synthase catalytic subunit	ATGCAGCCGACGGTCCGCGTGCAGGCAGAGGATTTCGACGCTGCGGAAGAAACCCGCCGGCTGACGGAAGGTGACAGGAGCATCGGCGCGGTCGTAGCCTTCACCGGGCTCTGTCGGGATGATGGCGGCACGCTTGCGGCGCTGGAGCTTGAACACTATCCCGGCATGGCGGAGACGGAAATAACCCGCATCGCCACACTTGCCATGGAGCGCTTCGGCCTTCTCGGCCTCACCGCCATCCACCGCCACGGCAAGATCGCCACCGGCGAAAACATCGTCCTCGTCATCGCAGCTTCATCGCATCGACAGGCCGCCTTCGATGGCGCCAATTTCGTGATGGACTACTTGAAGACATCCGCCCCGTTCTGGAAAAAGGAACATGGCAAGGATGGCTCGGCGGGCGACTGGGTTGCGGCAAAAACAACCGACGACGCGGCCAAGGACAAGTGGCGATAG	MQPTVRVQAEDFDAAEETRRLTEGDRSIGAVVAFTGLCRDDGGTLAALELEHYPGMAETEITRIATLAMERFGLLGLTAIHRHGKIATGENIVLVIAASSHRQAAFDGANFVMDYLKTSAPFWKKEHGKDGSAGDWVAAKTTDDAAKDKWR	PGPT0008415_12	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008415-moaX-K21142	NA	NA
BMS010_00466	255	moaD_1	COG1977	Molybdopterin synthase sulfur carrier subunit	ATGACACGGATCGTTTATTTCGCCTGGGTTCGCGAGAAGATCGGCACGGATGAAGAAGAGCTGGACATCCCCTCCTCCGTCACCACCGCCGGCGAGCTGATCGCCTGGCTTGCGACGCGCGGCGAGAATTACGAAGCTGCTTTCGAGTTTCCCAATGTGATCCGCGTCGCCGTCAATCAGGAGCATGTCGAGCATGATGAAAGCATCGTCGGCGCGCGCGAGATCGGCATTTTCCCGCCGATGACGGGGGGATGA	MTRIVYFAWVREKIGTDEEELDIPSSVTTAGELIAWLATRGENYEAAFEFPNVIRVAVNQEHVEHDESIVGAREIGIFPPMTGG				NA	NA	NA	NA	NA
BMS010_00467	588	pgsA_1	COG0558	CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase	ATGGCTTCGCGCGCATACAGCATTCCCAACCTACTCACCTATGGCCGCATCCTCGCGGTTCCTGTCATCGTTTTGTGCTTTTACATCGAAGGGAAACTGGAAAGCTCGGATTTCGCGCGCTGGACGGCATTGTGGCTGTTCATCATCGCCTCGCTGACCGATTTCCTCGATGGTTATCTCGCGCGTATCTGGAACCAGACGTCGAATATCGGTCGCATGCTGGACCCGATCGCCGACAAGCTGCTGGTCGCCTCCGTCCTGCTTCTGATGGCGGCGGATGGCACCATTGCCGGCTGGTCGCTCTGGGCGGCCATCACCATTCTCTGCCGCGAAATTCTGGTCTCGGGCCTGCGAGAGTATCTGGCGGCGCTGAAGGTCAGCGTTCCCGTCACCCGCATCGCCAAATGGAAGACCACCATCCAGATGGTCGCCATCGCCTTCCTGCTCGCGGGTCCTGCGGGCGACAAGGTTCTGCCCTACACGACCGAAATGGGCATTACCCTGCTGTGGATCGCGGCGGCGCTGACCATGTATACCGGCTATGATTACTTCAAGGCTGGCCTGAAGCACATTGTGGACGAAGACTGA	MASRAYSIPNLLTYGRILAVPVIVLCFYIEGKLESSDFARWTALWLFIIASLTDFLDGYLARIWNQTSNIGRMLDPIADKLLVASVLLLMAADGTIAGWSLWAAITILCREILVSGLREYLAALKVSVPVTRIAKWKTTIQMVAIAFLLAGPAGDKVLPYTTEMGITLLWIAAALTMYTGYDYFKAGLKHIVDED	PGPT0007735_1560	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_CARDIOLIPIN_SYNTHASE_ACTIVITY,PGPT0007735-pgsA-K08744	NA	NA
BMS010_00468	2052	uvrC_1	COG0322	UvrABC system protein C	ATGAACGGAAAGAAGCTGCCTGATGGCGGTATTCTCTTCGATGAAACCGACGACGAAGACGACGATGCAAACCTTGCCGCGACCGATGCGGCCGAGGCATCGAGCGACGTTGCCGGCATGGACTGGAATGCGGGCTGGAAGAACGAATCCGGCCTGAAGGGCATGGATCTGATCGGCGAATTCGTCAAACACCTGCCGAATGCGCCGGGCGTCTATCGCATGTTCAACGAGGCGAACGACGTTCTTTATGTCGGCAAGGCGCGCTCGCTGAAGAAGCGTGTCGGCAATTACGCGCAGGGCCGCGTGCATTCCAACCGCATTGCCCAGATGGTGCGGCTGACCGCCCATATGGAATTCGTCACCACCCGCACAGAAACAGAGGCGCTTCTGCTGGAAGCGAATCTCATCAAGCGCTTGCGGCCGCGCTTTAATGTGCTTTTGCGCGACGACAAGTCTTTCCCCTATATCCTCATTACCTCAGACAACCGCGCGCCGGCGATTTTCAAGCACCGTGGAGCGCGGGCGCGCAAGGGCGATTATTTCGGCCCCTTTGCGTCGGCCGGCGCAGTCGGCCGCACCATCAATTCTCTGCAACGCGCCTTTTTGATCCGCACCTGCACCGACAGCGTGTTCGAAACCCGCACGCGTCCCTGTCTTCTTTACCAGATCAAGCGCTGTTCCGGCCCTTGCACGCATGAGATCAGCGATCAGGGGTATGAAGAACTCGTCAAGGAAGCCAAGGATTTCCTGTCCGGCAAGAGCCAGAGCGTCAAGACCGCGATTGCGCGGCAGATGAACGAGGCGGCCGAGGACCTCGATTTCGAGCGCGCCGCCGTCTATCGCGACCGGCTGGCCGCACTGTCGCATGTCCAGAGCCATCAGGGCATCAACCCCGCCGGCATCGAGGAGGCGGATGTCTTCGCCATCCACCATGAAGGCGGCATCTCCTGCATTCAGGTGTTCTTTTTCCGCACCGGCCAGAACTGGGGCAACCGCGCCTATTTCCCGAAGGCCGACCCTTCGCTGCCCGGCTCGGAAATCCTCAATGCATTCCTGGCGCAGTTTTATGACGACAAGCCGGTGCCTAAGCAAATCCTGCTTTCCGAAACGGTGGAGGAGCAGGAGCTGCTGGCCGCAGCACTCGGCGAAAAGGCCGGGCACAAGGTGACAATCAGCGTGCCGCAGCGTGGCGAGAAGAAGGACATCACCGACCATGTGCTTGCCAATGCCCGAGAGGCGCATGGCCGCAAGCTGGCGGAAACCTCGTCTCAGGCGCGGCTGCTGAAGGGTTTTGCGGAAACCTTCGGTCTTTCTTATGTGCCGCGCCGGATCGAGATTTACGATAACTCCCATATCATGGGCACCAATGCCGTGGGCGGCATGGTGGTGGCGGGGCCGGAAGGTTTCGTGAAGAACCAGTACCGCAAGTTCAACATCAAATCTACCGACATCACCCCCGGTGACGACTTCGGCATGATGCGCGAGGTGATGACCCGTCGCTTCTCGCGTCTGCTGAAGGAAGAAGGAAAGCCCGACCGTGGGCAGACGCAGACGCCGACGCGGGAGGAAGCCGCCGATATGCCCTTCCCCGCCTGGCCCGATGTGATCCTGATCGATGGCGGTCAGGGGCAGATGACGGCGGTACGGGCCATTCTCGATGAACTCGGCATTCGCGACTGTGTGACCGCCATCGGCGTCGCCAAGGGTGTGGACCGCGAGGCGGGCCGCGAACGCTTCTTTGCGGATGGGCGCAGCGATTTTTCGCTGCCGCCGCGCGATCCCGTGCTCTATTTCATTCAGCGCATGCGCGACGAAGCGCACCGCTTCGCCATCGGCTCGCACCGGGCGCGGCGCAAGAAGGAAATGGTGCGCAATCCGCTCGACGAAATCTCGGGAATCGGTCCGGGCCGCAAGCGCTCCCTGCTGCAGCATTTCGGCACGGCCAAGGCGGTTTCCCGCGCCGGTCTCAACGACCTGATGGCTGTCAGCGGCATTTCGGAGACGGTTGCGCGGCAAATCTACAATCACTTCCACGAGAGCGGCGGCGATTGA	MNGKKLPDGGILFDETDDEDDDANLAATDAAEASSDVAGMDWNAGWKNESGLKGMDLIGEFVKHLPNAPGVYRMFNEANDVLYVGKARSLKKRVGNYAQGRVHSNRIAQMVRLTAHMEFVTTRTETEALLLEANLIKRLRPRFNVLLRDDKSFPYILITSDNRAPAIFKHRGARARKGDYFGPFASAGAVGRTINSLQRAFLIRTCTDSVFETRTRPCLLYQIKRCSGPCTHEISDQGYEELVKEAKDFLSGKSQSVKTAIARQMNEAAEDLDFERAAVYRDRLAALSHVQSHQGINPAGIEEADVFAIHHEGGISCIQVFFFRTGQNWGNRAYFPKADPSLPGSEILNAFLAQFYDDKPVPKQILLSETVEEQELLAAALGEKAGHKVTISVPQRGEKKDITDHVLANAREAHGRKLAETSSQARLLKGFAETFGLSYVPRRIEIYDNSHIMGTNAVGGMVVAGPEGFVKNQYRKFNIKSTDITPGDDFGMMREVMTRRFSRLLKEEGKPDRGQTQTPTREEAADMPFPAWPDVILIDGGQGQMTAVRAILDELGIRDCVTAIGVAKGVDREAGRERFFADGRSDFSLPPRDPVLYFIQRMRDEAHRFAIGSHRARRKKEMVRNPLDEISGIGPGRKRSLLQHFGTAKAVSRAGLNDLMAVSGISETVARQIYNHFHESGGD	PGPT0014925_538	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014925-uvrC-K03703	NA	NA
BMS010_00469	789	budC_1		Diacetyl reductase [(S)-acetoin forming]	ATGAGCAAATGCAGGTCAGCCGTGAAAGAAAATATACAAAAGACAGTCTTGATAACGGGAGCCGCGCGCCGGCTCGGGCGGGCAATCGCCACCGATCTGGCCGCCCATGGCTTCGCCATCGCCATCCATGCCAATGCATCCATGGCCAGCGCCGAGGAATTCGCTAACGAAATAAGGCAGAAAGGTGGCAAGGCCGTAGCCGTTCAGGCGGATCTGACACAATCCGGCCCTGCCTCGGGGCTCATCGAACAGGCTGCGTCAGCACTGGGGCCTATCGGCGTCGTTATCAACAATGCGTCGGTTTTTCTCGACGACTCGGCGGACAAGCCCGATCCGGCGATCTTCGACGCACATTTCGCCGTGCATGTGCGGGCGCCCTCCCTCATCGCCGCCGCCTTTGTCGAGCAACTGCCTGCCGATAAATCCGGGCTGATCGTCAACATCATCGACCAGCGCGTGCTTGCGCTCACGCCACGGTTTTATTCCTATACGCTTTCGAAATCGGCGCTCTGGACGGCCACGCGGACGATGGCGCAGAGCTTTGCGCCGCGTGTACGGGTCAACGCCATCGGGCCGGGTCCCACCTTCAAAAGCGAAAGACAGGCGCCCGAGGACTTTCAGGCGCAGATCGACGGCCTTATATTAAAGCGTGGTCCCGCACCGGATGAGTTCGGGCGGACGATTCGCTTTCTTTTCGACACGCCGTCGGTCACCGGACAAATGATCGCGCTCGACGGCGGCCAGCATCTTGGCTGGGAAACCCCTGACGTGGCGGAGATAAATGAATGA	MSKCRSAVKENIQKTVLITGAARRLGRAIATDLAAHGFAIAIHANASMASAEEFANEIRQKGGKAVAVQADLTQSGPASGLIEQAASALGPIGVVINNASVFLDDSADKPDPAIFDAHFAVHVRAPSLIAAAFVEQLPADKSGLIVNIIDQRVLALTPRFYSYTLSKSALWTATRTMAQSFAPRVRVNAIGPGPTFKSERQAPEDFQAQIDGLILKRGPAPDEFGRTIRFLFDTPSVTGQMIALDGGQHLGWETPDVAEINE				NA	NA	NA	NA	NA
BMS010_00470	657			hypothetical protein	ATGCGTATTTTCGTAGCAACCCTTATGGCTTCGACCATGGCAGCCGCCGGCTTTTCGGCTGCTCACGCCGCTGACGCCGTAAACGAAGTGCCGCAGGCACCGGTTTCCTACGACCAGCCCGCGCCGGTCAAGGATTGGTCCGGTGCGTACCTCGGTGGTACGGTCAACTACGATTGGGGCCGTTTCAGCTCCAGCAACGACGGTCGTGACGCCAAGGGCGCTGGCGGCGGTCTCTACGGCGGTTACAACTGGCAGAACGGCCAGCTGGTTTACGGTGCGGAAGCAGACGTCAACCTCGGTGACGAGCGCGGTTCCGCCGGTACGGTCGCAGGTCGCGCCGTCGAAGGCAAGCAGGGCGTCAACGGCTCGCTGCGTGGCCGCGTCGGTTACGACATGAACCCGTTCCTGCTCTACGGTACGGCCGGTCTTGCTGTTTCCGACAACAAGGTTCGTGACGGCGTCAACAAGGACAGCGCCACGGCTCTCGGTTACACGGTTGGTGCCGGTGTTGAAGCTATGGTTACCGACAACATCACCGCTCGTCTGGAATATCGCTACAGCGACTACCAGAAGAAGGACTACACGCTCGGCAACGACGCCTTCTCGCGTGGTTATGACGACCACTCCGTCAAGGCCGGTATCGGCGTCAAGTTCTGA	MRIFVATLMASTMAAAGFSAAHAADAVNEVPQAPVSYDQPAPVKDWSGAYLGGTVNYDWGRFSSSNDGRDAKGAGGGLYGGYNWQNGQLVYGAEADVNLGDERGSAGTVAGRAVEGKQGVNGSLRGRVGYDMNPFLLYGTAGLAVSDNKVRDGVNKDSATALGYTVGAGVEAMVTDNITARLEYRYSDYQKKDYTLGNDAFSRGYDDHSVKAGIGVKF				NA	NA	NA	NA	NA
BMS010_00471	597	yibF_1	COG0625	putative GST-like protein YibF	ATGGAACTGCTCTACTCGCCCGCCTCCCCCTACTCCGCCAAGGTCCGCATGGCCGCGCGCCATCTCGGCATCGACATTACCTCCGTGCGTGTCGATACCAGTGCCGAGCCCGCAACGCTGATGGACAACAATCCGCTCGGCAAAATTCCGGTCCTGCTTCTGGATGAAGGCGGCTCGGTCTATGACAGCGTGGCGATCATGCATTATCTCGACCGTCTTTCGGGCGGCAAGCTCTACCCGGAAAAGAACGGCAAGCGCACGGATGTGGAAATTCTCGAAGCGCTGTGCGACGGCATCATGGATTGCCTGCTCGCCATCGTTTACGAGCGCCGTTTCCGCCCGGAAGAGAAGATCCACCAGCCATGGATCGACAAGCAGTGGAGCAAGGTGATCCGCGGGCTTGATTATCTCAACACCAACCTGCCGAAAACCGGCAAGAAGCTGCATGGCGGCCATTTCGCCCTTGCCGCGATGATCGGTTATCTCGACCTGCGTTTCGCCGGGGAATGGGCCGAAGGTCGCGATGCGCTGGCCGCCTGGCCGGAAACCTTCGGCAAGCGTTTCGAAGCCTATGCGGAAATGAAGGCCGCCGCCTGA	MELLYSPASPYSAKVRMAARHLGIDITSVRVDTSAEPATLMDNNPLGKIPVLLLDEGGSVYDSVAIMHYLDRLSGGKLYPEKNGKRTDVEILEALCDGIMDCLLAIVYERRFRPEEKIHQPWIDKQWSKVIRGLDYLNTNLPKTGKKLHGGHFALAAMIGYLDLRFAGEWAEGRDALAAWPETFGKRFEAYAEMKAAA	PGPT0013170_21536	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS010_00472	774			hypothetical protein	ATGAAGCGTTATGCCGGTTTCATCGCCCTGGGCCTTCTGTCGCTCGGCGCATTGTGGTTCGCGCGGGAAAATCCGGCTCCGACCAGCCCCGCCGGCAACCGGCAGACACAATCCCAATCGCAGACCGTCGGCAACTCCCGGCCGGACGCTCCAGGGCGCGACGTTTCCCGACAGGAGACGGGCAAGAACCCTGCGTCCCGCGGAAGCGGATTCGATTTTTACGTGCTGTCGCTCTCCTGGTCACCGGCATTCTGCGCCAGTTCCGAAGGCTCGGGCAACCGCCAGCAATGCGGCAGCGACAGGCGTTACGGTTTCGTGGTGCATGGGCTGTGGCCGCAGAACGAAAACGGCTATCCCGAATTCTGCCAGAGCGGCGAGCCCGACCGTGTTCCGGACGCGATCGGCCGCACCATGTTCGATATCATGCCGTCCATGGGCCTGATCGGCCACCAGTGGCGCAAGCACGGCTCCTGCTCCGGCCTGTCGCAGAGGGACTATTTCTCGGCGACACGGGCCGCCTTCGAAGCCATCCGGCTGCCGGGAAAGATCGCCTCGGGCGCCGAAGCCGCCACTCTCTCCGCCGACGCCATAGAAACCGCTTTCACCGACGCCAATCCCGGCCTGTCGAAACGCGGCATCTCCATCAGCTGCGACGGCAAGCGCCTTGAGGAAGTGCGCATCTGCCTCAACAGGGACATGACATTCCGCGACTGCCCCGAGCTTGACCGTAAGGGCTGCCGCGCCAACGCCACAGAAATCATCCCCATTCGCTAG	MKRYAGFIALGLLSLGALWFARENPAPTSPAGNRQTQSQSQTVGNSRPDAPGRDVSRQETGKNPASRGSGFDFYVLSLSWSPAFCASSEGSGNRQQCGSDRRYGFVVHGLWPQNENGYPEFCQSGEPDRVPDAIGRTMFDIMPSMGLIGHQWRKHGSCSGLSQRDYFSATRAAFEAIRLPGKIASGAEAATLSADAIETAFTDANPGLSKRGISISCDGKRLEEVRICLNRDMTFRDCPELDRKGCRANATEIIPIR				NA	NA	NA	NA	NA
BMS010_00473	948			hypothetical protein	ATGAAATTCAAGAAATATATCTGGCCCGTCGTTGGCTTCGCGACGATCGGTTTTTCCGCCTGGTTGCTCTTTCACGAATTGCGCGGCCTGTCGCTCGATGATCTCTGGGACAGTCTGAAAGCCATTCGCGTGCGGGACTGGCTGTGTTCGGGCCTTGCTACCCTGCTGGCCTATGCCGCGCTCGCCGGTTACGACCGCATCGCGTTGCAGCATCTTGGCCGCAAAGTGAACTGGTTCTTCATCACGCTCACCTCTTTCACTACCTATGCGCTGTCCCACAATGTCGGGGCCTCGGTATTCTCCGGCGCCGTGGTGCGATATAGGGCCTATACGTCCAAGGGGCTGAGTGTGGCGGAAGTGGGCGTGCTTGTCGGCCTCTGCTCCTTCACTTTCCTCATCGGCACGATCATGCTCATCGGGCTGGTGCTGCTTTACGAGCCTGACATCACCGAACGGTTTACCGGCATTCTGCCCGTCGAAGCCTCCACCACCACAGGTGTGGTGCTGCTTCTTTTCGTCGGTCTTTATATTCTTGGCAGCCTGCTAAGGCTGAAGCCCCTGAAAATCGGTTCCTTCGTGCTGCCATACCCCGCGCCGAAGCTTGTTGCGCAGCAACTCGTCATCGGCCCGATCGAGCTGATCGGCGCGGCGGGCATCATCTATTTTGCGCTGCCGGAAGCCGGAAATCCTGGTTATATGGTCATTCTCGGCATATTTCTGGTTTCCTTCTCGGCGGCGCTCATCTCGCACGCGCCGGGAGGTCTGGGGGTGCTGGAACTGGTCTTCGTCACCGGCCTGCCGGACATGAACCCGGCGGATGTCATCGCGGCGCTTCTGGTCTTCCGGCTGTTCTACCTCATCATTCCCTTCATCATGGCCCTGTTCGTGATCCTGTTCTTCGAACGGTCACAGCTGGCGCAGGCGCAGAGGCGGGAAGGGCTGAGATAG	MKFKKYIWPVVGFATIGFSAWLLFHELRGLSLDDLWDSLKAIRVRDWLCSGLATLLAYAALAGYDRIALQHLGRKVNWFFITLTSFTTYALSHNVGASVFSGAVVRYRAYTSKGLSVAEVGVLVGLCSFTFLIGTIMLIGLVLLYEPDITERFTGILPVEASTTTGVVLLLFVGLYILGSLLRLKPLKIGSFVLPYPAPKLVAQQLVIGPIELIGAAGIIYFALPEAGNPGYMVILGIFLVSFSAALISHAPGGLGVLELVFVTGLPDMNPADVIAALLVFRLFYLIIPFIMALFVILFFERSQLAQAQRREGLR				NA	NA	NA	NA	NA
BMS010_00474	864	rlmJ_1	COG2961	Ribosomal RNA large subunit methyltransferase J	ATGAACTACCGCCACATCTATCACGCCGGCAATTTCGCGGATGTCCTCAAACATGCCGTTCTCGCCCGCCTCGTGCGTTACCTGCAGAACAAGGACAAGGCCTTTCGCGTGCTGGACACCCATGCTGGCATCGGGCTTTACGATCTGACCTCGGAAGAGGCGCAGAAGACCGGCGAATGGCAGACCGGTATCGGGAAGCTGATGGAGGCCGATCTGCCCGCCCCCATCGCCGAACTGCTTGAGCCTTATCTTGATGCCGTGAAGGAACTCAATCCGGAAGGTGGCGTGAAATTCTACCCCGGCTCACCGAAACTCGCGCGCATGCTGTTTCGCCCGCAGGACCGGCTTTCGGCCATGGAACTGCACCCGGATGACAGCCGGGCGCTCGCACGCCTGTTCGAGGGTGACTATCAGGTGCGTGTCACCGAACTGGATGGCTGGCTGTCGCTCGGCGCGCACCTGCCGCCGAAGGAAAAACGCGGCCTCATCCTCGTCGATCCGCCTTTCGAGCTTGAGAATGAATATCAGCGTCTGGCCGATGGCTTGAACAAGGCCTATCGGCGTTTTTCCACCGGCACCTATTGCCTCTGGTATCCCTTGAAGAAAGGCGCTCCGATCAAGGACTTTCACGAGCGGCTGCAATCATTCGACATTCCGAAGATGCTGTGCGCGGAGCTTTCCGTCAGAAGCGACCGGCTGGATGGCCTGAGCGGCTCCGGCCTCATCATCGTCAATCCGCCCTATACGCTGAAGGACGAGTTGCATACGCTGCTGCCCTATCTGAAGACAATGCTGGCGCAGGACAGGTTCGCCTCGCAGCGCGCCTTCTGGCTGCGCGGCGAGGAAAAATCGGAAGAGATTTGA	MNYRHIYHAGNFADVLKHAVLARLVRYLQNKDKAFRVLDTHAGIGLYDLTSEEAQKTGEWQTGIGKLMEADLPAPIAELLEPYLDAVKELNPEGGVKFYPGSPKLARMLFRPQDRLSAMELHPDDSRALARLFEGDYQVRVTELDGWLSLGAHLPPKEKRGLILVDPPFELENEYQRLADGLNKAYRRFSTGTYCLWYPLKKGAPIKDFHERLQSFDIPKMLCAELSVRSDRLDGLSGSGLIIVNPPYTLKDELHTLLPYLKTMLAQDRFASQRAFWLRGEEKSEEI				NA	NA	NA	NA	NA
BMS010_00475	2223	dmsA	COG0243	Dimethyl sulfoxide reductase DmsA	ATGAATATTCTTGATGGACGTCACTTCGGCCTTTTTGCCGCATCGTTGATGCAATATACAAAAGACATGAACGTTGCGACCCCGATTTCCGCTGAAAAAGCCGCCCCGAAGTCCGAAGTCCGTATCGGACACACGGTCTGCCCGCATGACTGTCCGAGCGCCTGCGCGCTCGAGGTCGACATCAATGCCGATGGCCGCATCGGCCGCGTGCGCGGCGCGAATGCCAATACTTACACCGCCGGCGTGATCTGCGCCAAGGTGGCGCGCTACTCCGAGCGCATCTATCATCCCGGCCGTCTTCTGACCCCGAAGCGCCGCAAGGGTGCGAAGGGCGCCGGCGACTGGCAGGAAATCTCCTGGGAAGCGGCTCTGGACGAGGTGGCGGACGCGTTCGTCAAGGCCGAGGCGCGGCATGGTGCTGAGGCGATATGGCCGTATTTCTACGCCGGCACCATGGGACAGGTGCAGCGCGATTCCATTGAGCGGCTGCGCCACGCCAAAAAATATTCCGGCTTTTTCGGTTCGATCTGCACCAACATGGCCTGGACCGGTTATGTGATGGGCACCGGCGCGCTGCGTGGTCCGGACCCGCGCGAGATCGCCAAGGCCGATGTCGTCGTCATCTGGGGCACCAATGCGGTGGCCACGCAGGTCAATGTCATGACCCATGCGGTGAAAGCCCGCAAGGAACGCGGCGCGAAGATCGTCGTCGTCGATATCTACGACAATCCGACTATGAAGCAGGCGGATATGCGCCTCGTCGTCCGCCCCGGCACGGATGCCGCACTTGCCTGCGCCGTCATGCACATCGCCTTCCGCGACGGTTACGCCGACCGTGATTATATGGCGCGCTTCGCCGACGATCCGGCCGGGCTCGAGGCGCATCTGAAGACGAAGACGCCGCAATGGGCATCCGAAATCACCGGCCTTTCGGTCAATGAGATCGAGGATTTCGCAAGGCTGGTCGGCGCCACCAAGAAGACCTTCTTCCGGCTCGGATATGGTTTTGCCCGCCAGCGCAACGGCGCGGTCGCCATGCATGCGGCGCTTTCCATCGCCACGGTTCTCGGCTCCTGGCAATATGAGGGCGGCGGCGCGTTCCACAACAATGGCGATATCTTCCGGCTCAACAAGTCGGAGCTGATGGGCAGCTCTTACGCCGACCCCGCGGTGCGCCAGCTCGACCAGTCGCAGATCGGCCGTGTGCTGACGGGGGACGCGGAGGCGCTGCGCCACGGCGGCCCGGTGACGGCGCTGCTGATCCAGAACACCAATCCCGTCAATGTCGCGCCTGAACAGCGGCTGGTAAAACAGGGCTTCCTGCGCGACGATCTTTTCGTCGCCGTGCATGAGCAGTTCATGACCGAAACGGCCGATGTGGCCGATATCGTGCTGCCCGCCACCATGTTCCTCGAGCATGACGACATCTACCGCGCCGGTGGCCAGAACCACATTCTGCTGGGGCCCAAACTGGTGGAGCCGCCGGAAACGGTGCGCACCAATCTCTTCGTCATCGAGGAACTGGCAAAACGCCTAGGCGTCGACCATATGCCGGGCTTCGGCCTTTCGGCCCGCGACCATGTCGACCGTATGCTCAAAGTCAGCGGCTGGGGCGATTTCGACACGCTGGCTGAAGAAAAGTGGATCGATGCGCAGCCGTCCTTCGAGGTGGCGCATTATCTCCAAGGATTCGGTTACGGCGATGGCAAATTCCGCTTCAGCCCCGAATGGGCGACTGGACCGTCTCCGAACAAGCCGCCAAAAAATATCGGTGTGATGGGGCCTGTTGCGCAATTTCCGAAATTCCCGGATCAGGTCGACGTCATCGAGGTTGCGGATGCGGACCATCCCTTCCGGCTGGCGACATCGCCGGCGCGCAACTTCCTGAACTCCACCTTCGCGGAAACGAAGACCTCCGTGCAGAAGGAAGGCCGTCCGGAATTGATGATCTGTCCCGAGGATGCGAGCGGCAACGGCATCGCCGATGGCGACATCGTCCGCATTGGCAATGCGCGCGGCGAAGTGCGCCTCCATGCGAAAATCGTGGAGGGTGCGAGACCGGGTGTGCTGATCGCCGAAGGGCTGTGGCCAAACAGGACGCATCTCGATGGCGAAGGCATCAATGTGCTGACCGGCGCCGATGCCGTCGCCCCCTATGGCGGTGCGGCTTTTCACGACAACAAGGTGTGGCTCCGCCGCGATGACGAGGCCCGCCAGGCTTGA	MNILDGRHFGLFAASLMQYTKDMNVATPISAEKAAPKSEVRIGHTVCPHDCPSACALEVDINADGRIGRVRGANANTYTAGVICAKVARYSERIYHPGRLLTPKRRKGAKGAGDWQEISWEAALDEVADAFVKAEARHGAEAIWPYFYAGTMGQVQRDSIERLRHAKKYSGFFGSICTNMAWTGYVMGTGALRGPDPREIAKADVVVIWGTNAVATQVNVMTHAVKARKERGAKIVVVDIYDNPTMKQADMRLVVRPGTDAALACAVMHIAFRDGYADRDYMARFADDPAGLEAHLKTKTPQWASEITGLSVNEIEDFARLVGATKKTFFRLGYGFARQRNGAVAMHAALSIATVLGSWQYEGGGAFHNNGDIFRLNKSELMGSSYADPAVRQLDQSQIGRVLTGDAEALRHGGPVTALLIQNTNPVNVAPEQRLVKQGFLRDDLFVAVHEQFMTETADVADIVLPATMFLEHDDIYRAGGQNHILLGPKLVEPPETVRTNLFVIEELAKRLGVDHMPGFGLSARDHVDRMLKVSGWGDFDTLAEEKWIDAQPSFEVAHYLQGFGYGDGKFRFSPEWATGPSPNKPPKNIGVMGPVAQFPKFPDQVDVIEVADADHPFRLATSPARNFLNSTFAETKTSVQKEGRPELMICPEDASGNGIADGDIVRIGNARGEVRLHAKIVEGARPGVLIAEGLWPNRTHLDGEGINVLTGADAVAPYGGAAFHDNKVWLRRDDEARQA				NA	NA	NA	NA	NA
BMS010_00476	618	nudK_1		GDP-mannose pyrophosphatase NudK	GTGACACAGACGCAGGCGAAAAACATTCCGGCTGACACGGATGCGGGCAGAATCCGGCTGGTGGAAAAAGAAACCGTCTGGAAGGGCTTCGTGCATATGCAGAAGCTCGTTTTCGACCAGCGCATGCCGGATGGCAGAACCATCCGCATCGTCCGGGAAGTCCACGACCATGGCAGCGCCGCCGCCATTCTCCTTTATGACCCGAAGCGCGACAGCGTGGTAATGGTGCGCCAGTTCCGCCCCGCCGCCTTCGTGAACGGCGATCAAAGCTTCATGATCGAGGTGCCGGCGGGGCTTCTCGACGACGACGACGCGGCCGTCGCCATCCGACGTGAGGCGATGGAAGAATCCGGCTACGCCGTCGAAAAGGTCGAGTATCTATTCGATATGTATGCCAGCCCCGGCACGCTGACGGAAAAAGTCAGCCTCTTCGTTGCCCGCATCGATCTTGACGTACAGGCCGGCAGCGGTGGCGGACTGGAGGACGAGGGTGAGGATCTCGAGGTTCTGACCTACGGGCTGGACGAAGCCTTCGCGATGATCGCATCGGGTGAAATCACCGATTCCAAGACGATCATTCTGCTGCAATGGGCGATGTTGAATCGCACCCGGCTTTGA	MTQTQAKNIPADTDAGRIRLVEKETVWKGFVHMQKLVFDQRMPDGRTIRIVREVHDHGSAAAILLYDPKRDSVVMVRQFRPAAFVNGDQSFMIEVPAGLLDDDDAAVAIRREAMEESGYAVEKVEYLFDMYASPGTLTEKVSLFVARIDLDVQAGSGGGLEDEGEDLEVLTYGLDEAFAMIASGEITDSKTIILLQWAMLNRTRL	PGPT0021525_1462	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021525-nudF-K01515	NA	NA
BMS010_00477	936	ompP		Outer membrane protease OmpP	ATGCCATTGTCGAGATTTTCCCTGCCGCTTTCGGCTGTTCTGATGGCGGGCGCCAGCCTGCCCGTCGCGGCTGAGCAAAGTGGCATTACAGCCTCAGTTGATGCCGGCGTTCTCAATCTCCGCGCGACGGAAACCGTCCATATCGGTGGGCGCAAGCTGAGCGAACTCGAATGGGAAACCAAAAACGCCGTGGCATTGCGCGGCTCGCTCGGACTTGAACTTGCGCCCGGCTGGCGCGTCAAGGCGGAAGGCCGCGTCGGCTTCGAGGGCGACGGCTATATGACCGACTATGACTGGGTTTGGCCTTTTTCCAGAGATAGCTCCAAGGACAATTGGAGCCACCGTTCCCAGCATGACGACACGCGGCTCGACCATTATTTTTCGGGAAGCCTCGAACTCAATCGCATGTTGCTGGACGATCCGCAGCAATATCTAAGCGCCGGTGTGGGTTTTCGTTATACGGATGTTCAATGGTCGGCTTATGGCGGCAACGCCGTTTACAGCGTTTTCTCCCGCCGCGATTTCTCCGGCAAATTCAAAGATGGCCTCAAGGGGATCACCTATCGCCAGCAAATCCCGGTTTTCTACGGCAACCTGACGGGCGGCCAGAGGTTCGGCAACTGGTCGCTCAATCTGGGCCTCGAAGGCGGCGCCATGGTCTATGGCAAGGCGACCGACGATCACTGGCTGCGTGACATGCGCTTCACCGACAAATTCGACGTCGCCGGCATGTTCGGAGTGAAGGCCGGCGTCGCCTATGACCTGACCGAGAATGCCTCGATCTATCTCGACGGCGCATATGACTATACCAGCCTCGGGCGCGGAGATACACATTACAGCGGCGCAGGCGCCGGAAACCTGTCATCGGAAAAGAATGCCGGCGGCGGTGACTTGCAGTCGATTTTCGTGGGGATGGGTGTGAGAGGACGCTTCTAG	MPLSRFSLPLSAVLMAGASLPVAAEQSGITASVDAGVLNLRATETVHIGGRKLSELEWETKNAVALRGSLGLELAPGWRVKAEGRVGFEGDGYMTDYDWVWPFSRDSSKDNWSHRSQHDDTRLDHYFSGSLELNRMLLDDPQQYLSAGVGFRYTDVQWSAYGGNAVYSVFSRRDFSGKFKDGLKGITYRQQIPVFYGNLTGGQRFGNWSLNLGLEGGAMVYGKATDDHWLRDMRFTDKFDVAGMFGVKAGVAYDLTENASIYLDGAYDYTSLGRGDTHYSGAGAGNLSSEKNAGGGDLQSIFVGMGVRGRF				NA	NA	NA	NA	NA
BMS010_00478	675	purN_1	COG0299	Phosphoribosylglycinamide formyltransferase	ATGATGAGCGCCGCCTTCCCGTCCGGCCGCAAACGCGTCGTCGTTTTCATTTCCGGCAGCGGCTCCAATATGGTGTCGCTGGCCAAGGCCTGTCAGACGGCGGATTTTCCGGCGGAAATCGTCTGCGTCATCTCGGACAAGGCATCTGCGGGCGGGCTGGAAAAGGCACGGGGCATGGGCATTCCCACGCTGGTCTTCGAGCGCAAGACCTATGCCAGCAAGGCCGAGCATGAGGGCGCCATTCTGGCCGCACTTGGCGAAATCGCACCCGATATCATTTGTCTCGCCGGTTACATGCGGCTGATATCGGGGGATTTCATTGCTCCCTATGAAGGGCGCATCATCAATATCCACCCTTCCCTGCTGCCGCTTTTCCCCGGCCTCAACACCCATCAGCGCGCCATCGACAGCGGCATGAAGATTTCCGGCTGCACCGTGCATTTCGTCACCGAAGGCATGGATGAAGGCCCGACCATCGCGCAGGGTGCGGTGCCGGTCATTTCCGGCGATACGGCCGAAACTCTGGCGGCGCGGATTCTGACAGTCGAGCACCAGCTCTACCCGCTCACCCTGAAGCGGCTTGCCGAAGGCAAGGTTCGAATGGAAGACGGCAAGGCGGTCTCCACGGATGGCGAAAGTAAAGCTGAGTATTCCAACCTCATCTCCGCCTCCTGA	MMSAAFPSGRKRVVVFISGSGSNMVSLAKACQTADFPAEIVCVISDKASAGGLEKARGMGIPTLVFERKTYASKAEHEGAILAALGEIAPDIICLAGYMRLISGDFIAPYEGRIINIHPSLLPLFPGLNTHQRAIDSGMKISGCTVHFVTEGMDEGPTIAQGAVPVISGDTAETLAARILTVEHQLYPLTLKRLAEGKVRMEDGKAVSTDGESKAEYSNLISAS	PGPT0008095_503	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0008095-purN-K11175	NA	NA
BMS010_00479	1074	purM_1		Phosphoribosylformylglycinamidine cyclo-ligase	ATGAGCCAGTCGGGCAAGAACGGTCTTACCTATAGTGATGCAGGTGTGGATATCGACGCCGGCAACCTGATGGTCGAAAAGATCAAACCGGCGGTGCGCTCGACGCGGCGTCCCGGCGCGGATGGCGAAATCGGCGGCTTCGGCGGCCTGTTCGATCTGAAAGCCGCAGGCTTCACCGATCCGGTTCTGGTGGCCGCCAATGACGGCGTCGGCACCAAGCTGAAGATCGCCATCGATGCTGACTATCACGACACCGTCGGCATCGATCTCGTCGCCATGTGCGTCAACGATCTCGTCGTTCAAGGCGCAGAACCGCTGTTCTTCCTCGACTATTTCGCTACCGGCAAGCTGGACCCGGACCAGGGTGCGGCCATCGTTTCCGGCATTGCCGCCGGCTGCCGCGAATCCGGCTGTGCGCTGATCGGCGGCGAAACCGCTGAAATGCCCGGCATGTATTCCGATGGTGATTACGATCTCGCGGGCTTCGCCGTGGGTGCGGCCGAACGCGGCCAGCTTCTGCCGGCTGGCGATATTTCCGAAGGCGACGTCATTCTCGGCCTCTCCTCTTCCGGCGTTCACTCCAACGGCTTTTCGCTGGTGCGCAAGATCGTGTCGATCTCCGGTCTCGACTGGAGCGCGCCTGCCCCCTTCGCGGATGGCAAGAAGCTCGGCGAAGCGCTGCTGACGCCGACCCGCATCTATGTGAAGCCGCTTTTGAAGGCGATCCGCGAGACCGGCGCGCTGAAGGCGCTGGCGCATATTACCGGCGGCGGTTTCCCGGAGAATATTCCGCGCGTTCTGCCCAAGCATCTCGCTGCCGAAATCGATCTCGATGCGATCAAGGTTCCCGCCGTCTTCTCGTGGCTGGCGAAAACCGGCGGCGTCGAAGCGAAGGAAATGCTGCGCACCTTCAATTGCGGCGTCGGCATGATCGTCGTCGTTTCGGCCGAAAATGCCGAAAAGGTCACCGAGGTTCTGACTGCCGAAGGTGAAACCGTCTTCCCGCTCGGCCGCATGGTCGCCCGCGAAGAAGGCGCGCATGGCACCATCTACAAGGGCGCTCTCGGCCTATGA	MSQSGKNGLTYSDAGVDIDAGNLMVEKIKPAVRSTRRPGADGEIGGFGGLFDLKAAGFTDPVLVAANDGVGTKLKIAIDADYHDTVGIDLVAMCVNDLVVQGAEPLFFLDYFATGKLDPDQGAAIVSGIAAGCRESGCALIGGETAEMPGMYSDGDYDLAGFAVGAAERGQLLPAGDISEGDVILGLSSSGVHSNGFSLVRKIVSISGLDWSAPAPFADGKKLGEALLTPTRIYVKPLLKAIRETGALKALAHITGGGFPENIPRVLPKHLAAEIDLDAIKVPAVFSWLAKTGGVEAKEMLRTFNCGVGMIVVVSAENAEKVTEVLTAEGETVFPLGRMVAREEGAHGTIYKGALGL	PGPT0021570_1332	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021570-purM-K01933	NA	NA
BMS010_00480	795			hypothetical protein	ATGCAGAGCACCAGTGAAAATGGCATCGCGGAATATAATGCCGGTCTCTTCGATAATCCCGAAGTTGCCGAATGGTATGACAACCAGCAGCTTTACCCGGCCGAACGCATCATTCTCGACCAGTTCCGCCATGCCTATGCGGGCAAGCGGCTGCTTGACCTCGGTGTCGGCACCGGCCGAACGACGAAGCCGCTTCTGCCGCTGGTGGGAGACTATATCGGCATCGACCGCTCGCAGCCGATGCTGGCACTGGCGCGGCGCAATTTTCCAGCCGCCACGTTTTTCGACATGGATGTGCGGGCGATCGGCCAGTTCGGCGCGGAACGTTTCGATTGCGTGCTCGGTGCGCTCGCGATTCTAAGCGCCTTCGACCATGAGGACCGGCTTGCCATCATCCATGCCGTGCGAAGCATTCTCGCACCCGGCGGATATTTCATCTTTTCGTTTCACAATCGCCAATGGAAGCGGGCCGGCGGCATGCCGCTGCACCGCCGCTCCTGGCACCCGCGCGAGGTGGTGAATTCGCTGCATCCGCAAAGCTGGATCAACTATCTGCGACTGCAACCTTCGACACGGCGGACGCCGGAATATGCCATTCTCGCGGATCAGGCGCATCGCTGGAGCGGCCTGTTTTATTTCATCGACCTTGCCGCCCAGACCCGCCAGCTGGAAGCGGCGGGCTTTGAGATCGCCGCACGTTATGGCGAGAACGGACGGCCGATAGAGGAAAATTCCGATACGTCCAATGACGGCCTGCTCAATCTCGTCTGTCGCGCCGCGCCGCAGCCATCGTAA	MQSTSENGIAEYNAGLFDNPEVAEWYDNQQLYPAERIILDQFRHAYAGKRLLDLGVGTGRTTKPLLPLVGDYIGIDRSQPMLALARRNFPAATFFDMDVRAIGQFGAERFDCVLGALAILSAFDHEDRLAIIHAVRSILAPGGYFIFSFHNRQWKRAGGMPLHRRSWHPREVVNSLHPQSWINYLRLQPSTRRTPEYAILADQAHRWSGLFYFIDLAAQTRQLEAAGFEIAARYGENGRPIEENSDTSNDGLLNLVCRAAPQPS				NA	NA	NA	NA	NA
BMS010_00481	105			hypothetical protein	ATGCACATGGTCAAGACCGGCGCTTTCGCGCGTGGGCAGAAGGAGGCTGCCCGCACAGCGGTAAAATCCCTCATTTCCGGCCAACCCCTCGCAACGGCAGGTTGA	MHMVKTGAFARGQKEAARTAVKSLISGQPLATAG				NA	NA	NA	NA	NA
BMS010_00482	1158		COG0628	Putative transport protein	ATGCAACCCCATGTAAGCGGTACGAGCCTGCGCCGGCAGGTTTTTTTCTGGATCGGCGTGCTTGCCGTCTTTGTCCTTTTCCTGATGGTCTTCAGCTCCATTCTCCTGCCTTTCGTGGCGGGCATGGCGCTTGCCTATTTTCTCGATCCGGTTGCCGACTGGCTGGAACGGCGCGGCTTGAGCCGGTTGATGGCGACCGTCGTCATCCTCGTCTCCTTTGTGCTGCTCTTCGCGCTGTCGCTCATCATCATCATCCCGCTGATCGCCGCCCAGGCCTCGGAATTCATCACGCGCATCCCGCAATATATCTCGTCATTGCAGCAGCTGATTGCCGGCGCCGACACCAATCTCCTGCCGGATTGGGTCAGCAGCCAGATCGACGCCGTGAAGGAGAATTTTTCAAAGCTTTTGACCGAAGGCGCCGGTTTCATCGGCACGTTGCTGACGCAGATATGGAATTCCGGCAAATCGCTGGTCGATGTCATGTCGCTGCTGGTCGTTACGCCCGTGGTCGCCTTCTATCTGCTGCTCGACTGGGACCGGATGATCGACAAGGTCGATAGCTGGATACCGCGCGATTATGTCCATACCGTCCGCCAGATCGCCCGCGATATGGATAAGACCATTGCCGGTTTCGTGCGCGGGCAGGGGTCGCTCTGCATCATTCTCGGCGTTTATTACGCCGTCGGCCTGTCACTGGTTGGCTTGAATTTCGGCCTGCTGATCGGCCTTTTCTCAGGCCTCATCAGTTTCATTCCCTATATCGGCTCCATGGTCGGCCTCATCCTCGCCGTCGGCGTCGCCATCGTGCAGTTCTGGCCGGATTACATCTATGTGTTTCTGACGCTCGTTGTGTTCTTCTCCGGCCAGTTCATCGAAGGCAACATCCTGCAGCCGAAGCTCGTTGGCAAAAGCGTCGGCCTGCATCCGGTCTGGCTGATGTTCGCCCTTTTCGCCTTCGGTGCGCTTTTCGGTTTCGTCGGGCTTCTCGTCGCGGTGCCGGCTGCGGCGGCGGTCGGTGTGCTTGTCCGCTTCGCCTTGTCGCGGTATCTTGAAAGCGATCTTTACCACGGGCATGCCGCCAACCTTCCCTGGGACACAAACCCTGCCCTGGAAGAAGGGGAAGCGTCCTCCGGCAAGGTTGACTCTCAGAGCTGA	MQPHVSGTSLRRQVFFWIGVLAVFVLFLMVFSSILLPFVAGMALAYFLDPVADWLERRGLSRLMATVVILVSFVLLFALSLIIIIPLIAAQASEFITRIPQYISSLQQLIAGADTNLLPDWVSSQIDAVKENFSKLLTEGAGFIGTLLTQIWNSGKSLVDVMSLLVVTPVVAFYLLLDWDRMIDKVDSWIPRDYVHTVRQIARDMDKTIAGFVRGQGSLCIILGVYYAVGLSLVGLNFGLLIGLFSGLISFIPYIGSMVGLILAVGVAIVQFWPDYIYVFLTLVVFFSGQFIEGNILQPKLVGKSVGLHPVWLMFALFAFGALFGFVGLLVAVPAAAAVGVLVRFALSRYLESDLYHGHAANLPWDTNPALEEGEASSGKVDSQS				NA	NA	NA	NA	NA
BMS010_00483	729			hypothetical protein	ATGACTGACCAAATCAAAACCGACAACGCCCGGTCGAAGGCCGAGCAGCTGCCGCTCGCATTCTCGCACCAGTCCGCTTCCGGCAGGGATGATCTCCTCGTCTCCGCCTCGCTTGCGGCTGCCGTCAGCCTCATCGATGAATGGCCGAACTGGCGCTCGCCCGTCGTCGTGCTGGCCGGGCCGCCGGGTTCGGGAAAATCGCATCTCGCCAATATCTGGAAAAATATCAGCGACGCGCGCGACATTCACCCCGAGACGGGCTCCGATGCCGCGCGTGCGGCCGAAACGGGACCGGTTCTTTTCGAGGACGCCGACCGGCGCGGTTTTGACGAGACCGAACTCTTCCATGTCATCAACAGCGTACGCCAGCACGGCACCACGCTTTTGATGACGAGCCGGCAATGGCCGGCCGCATGGCCGGTGACGCTGCCCGATCTGCGCTCGCGCCTCAAAGCCGTAACGGTGGTGGAAACCGGCGAGCCGGACGAGGGGCTTTTGGCGCAGGTGCTGGTGAAACTCTTCGCCGACCGGCAGCTTTACATGGATGACAAACTCATAGGTTACATCGTCAATAGAATGGAGCGTTCGCTCGATACGGCCCAGACGATCGTGGACCGTATCGACCGGCTGGCGCTTTCGCGTGGAACGAGAATTACACGGCCGCTGGTGGCGGAGGTCCTCAATGCGATGGACAACGCAGCGGCGGGCAGCGGACTGGACGTCGATTGA	MTDQIKTDNARSKAEQLPLAFSHQSASGRDDLLVSASLAAAVSLIDEWPNWRSPVVVLAGPPGSGKSHLANIWKNISDARDIHPETGSDAARAAETGPVLFEDADRRGFDETELFHVINSVRQHGTTLLMTSRQWPAAWPVTLPDLRSRLKAVTVVETGEPDEGLLAQVLVKLFADRQLYMDDKLIGYIVNRMERSLDTAQTIVDRIDRLALSRGTRITRPLVAEVLNAMDNAAAGSGLDVD				NA	NA	NA	NA	NA
BMS010_00484	2247	ppk_1	COG0855	Polyphosphate kinase	ATGCAGCAGGATCACGGGACGGAAATCGGTCAGGGGATGGAACAGGGAATGGACGCTATCGCGCAGGAAGACTTCAACAAGGTTCAGCCGGTGACCGAAGGCGAGAGCCTGTGGGACAGCCCGGCGCGTTTCATCAACCGCGAATTCTCCTGGCTGCAGTTCAACCGCCGCGTTCTCGAAGAAACGCTGAACACGGATCATCCGCTGCTGGAGCGGCTGCGTTTCCTCTCCATTTCGGCCGCCAACCTCGATGAATTCTTCATGGTCCGCGTCGCCGGCCTCGAAGGGCAGGTCCGCCAGAAGATCACCGTCAAGACGCCGGACGGCAAGACGCCGGCCGAGCAGCTCGAAGATATTCTGAAGGAAATCGACAATCTGCAGATGGAGCAGCAGGCATCGCTTGCCGTTCTGCAACAATATCTCGCCAAGGAAGAAATCTTCATCGTGCGCCCCGCCGCACTTTCGGATGCGGACCGCATCTGGCTGGAAACGGAGTTCGAGGAACGTATGTTCCCCGTTCTGACGCCGCTCTCCATCGACCCGGCGCACCCGTTCCCCTTCATTCCCAATCTCGGCTTTTCCATGGGCCTGCAGCTCGATAGCGTCAACGGCCGCGAGCCGATGACGGCGCTCTTGCGCCTGCCGCCCGCGCTCGACCGTTTCGTGCGCCTGCCTGACGAAAAGAACGCCATCCGATACATCACCCTTGAAGATGTGGTCGGCCTTTTCATCCACCGGCTCTATCCCGGTTACACCGTGCGCGGTTCCGGTACGTTCCGCATCATCCGCGACAGCGATATCGAGGTTGAGGAAGAGGCGGAAGATCTGGTCCGTTTCTTCGAGAGCGCGCTGAAGCGCCGCCGCCGGGGTTCCGTTATCCGCATCGAGACTGACAGCGAAATGCCGCAGTCGCTGCGCCAGTTCGTCGTGCATGAGCTTGGCGTGCCTGATAATCGTGTTGCCGTTCTGCCCGGTCTTCTCGCGCTCAACACCATCTCCGAAATCGTCCGCGCGCCGCGCGACGACCTGAAATTCGAACCATACAACGCCCGTTTCCCCGAGCGCGTGCGCGAACATGCCGGCGATTGCCTCGCCGCCATCCGCGAAAAGGACATGGTGGTTCACCACCCCTATGAAAGCTTCGACGTGGTCGTGCAGTTCCTGCTGCAGGCCGCGCGCGATCCCGAAGTGCTCGCCATCAAGCAGACGCTTTACCGCACCTCCAATGACAGCCCGATCGTTCGCGCGCTGATCGATGCGGCCGAAGCCGGTAAATCCGTCACCGCGCTGGTCGAGCTGAAGGCGCGTTTCGACGAAGAGGCGAATATCCGCTGGGCGCGCGATCTGGAGCGCGCCGGCGTGCAGGTCGTCTTCGGCTTCATCGAACTCAAGACCCACGCCAAGATGTCGATGGTTGTGCGCCGCGAGGATGGCAAGCTCAGAACCTATTGCCATCTCGGCACCGGCAACTATCACCCGATTACCGCCAAAATCTATACAGACCTGTCCTTCTTCACCTGCAACCCGAAGATCGCCCATGACATGGCTAATATCTTCAACTTCATCACGGGCTACGGCGAACCGGAAGAGGGCATGAAGCTGGCCGTTTCGCCCTATACGCTGCGCGCCCGCATCGTGAAGCACATCAACGAAGAGATCGAACATGCCAAGCGCGGCGCGCCGGCGGCGATCTGGATGAAGATGAATTCGCTGGTCGATCCTGAAATCATCGATACGCTCTACCGCGCCAGCGCGGCGGGCGTGGAGGTCGATCTCGTCGTGCGCGGCATCTGCTGCCTGCGCCCGCAGGTGCCCGGTCTGTCGGATAATATCCGCGTCAAATCCATTGTCGGACGCTTCCTCGAACACAGCCGTATCTTCTGCTTCGGCAATGGTTTCGGTCTGCCGTCGGACAAGGCGCTGGTCTATATCGGCTCGGCCGACATGATGCCGCGCAACCTTGACCGGCGCGTGGAAACGCTGGTTCCGCTCACCAATCCCACCGTGCATGAGCAGGTTCTTTCACAGATTATGCTTGGCAATCTCATTGACAACCAGCAGAGCTACGAGATACTTGCGGACGGAACGTCGAGGCGCATCGAGGTGCGTAAAGGCGAAGAACCGTTCAACGCGCAGCACTATTTCATGACCAATCCCAGCCTTTCCGGACGTGGTGAAGCCTTGAAATCCAGTGCGCCCAAATTGATTGCCGGGTTGATTTCGTCCCGCAAGAAACAGGCTGAATGA	MQQDHGTEIGQGMEQGMDAIAQEDFNKVQPVTEGESLWDSPARFINREFSWLQFNRRVLEETLNTDHPLLERLRFLSISAANLDEFFMVRVAGLEGQVRQKITVKTPDGKTPAEQLEDILKEIDNLQMEQQASLAVLQQYLAKEEIFIVRPAALSDADRIWLETEFEERMFPVLTPLSIDPAHPFPFIPNLGFSMGLQLDSVNGREPMTALLRLPPALDRFVRLPDEKNAIRYITLEDVVGLFIHRLYPGYTVRGSGTFRIIRDSDIEVEEEAEDLVRFFESALKRRRRGSVIRIETDSEMPQSLRQFVVHELGVPDNRVAVLPGLLALNTISEIVRAPRDDLKFEPYNARFPERVREHAGDCLAAIREKDMVVHHPYESFDVVVQFLLQAARDPEVLAIKQTLYRTSNDSPIVRALIDAAEAGKSVTALVELKARFDEEANIRWARDLERAGVQVVFGFIELKTHAKMSMVVRREDGKLRTYCHLGTGNYHPITAKIYTDLSFFTCNPKIAHDMANIFNFITGYGEPEEGMKLAVSPYTLRARIVKHINEEIEHAKRGAPAAIWMKMNSLVDPEIIDTLYRASAAGVEVDLVVRGICCLRPQVPGLSDNIRVKSIVGRFLEHSRIFCFGNGFGLPSDKALVYIGSADMMPRNLDRRVETLVPLTNPTVHEQVLSQIMLGNLIDNQQSYEILADGTSRRIEVRKGEEPFNAQHYFMTNPSLSGRGEALKSSAPKLIAGLISSRKKQAE	PGPT0002685_424	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002685-ppk-K00937	NA	NA
BMS010_00485	1524	gppA_1		Guanosine-5'-triphosphate,3'-diphosphate pyrophosphatase	ATGACTCGATCAGAAGCACAGGGGCGGCTGACCGGCCTTGCCCCCGTTTCCGTCATAGATATTGGTTCGAACTCCGTTCGTCTCGTCGTATATGAAGGTCTTTCCCGCGCGCCTGCGGTGCTGTTCAATGAAAAGGTCCTGTGTGGCCTCGGCAAGGGACTGGCGCTGACGGGCCGTATGCATGAGGAAGGCGTCAGCCGGGCGCTGATGGCGCTTCGGCGTTTCCATGTCCTTTCCGAGCAGGCGCAGGCGCAGAAGCTCTATGTGCTGGCGACGGCTGCGGCGCGTGAGGCGGAAAACGGCCCGGATTTCATCCGCGAGGCAGAAGCCATTCTCGGCTGCGAGATCGAGGTACTGTCAGGCGAAAAGGAAGCGCTTTATTCCGCCTATGGCGTGATCAGCGGTTTCCATGATCCAGACGGCATCGCCGGCGATTTGGGCGGCGGTTCGCTCGAGCTCATCGACATCAAGGGCAAGAGCTGCGGCGAGGGCATCACCCTGCCGCTCGGCGGCCTGCGGCTGTCGGAGCAGTCGGACGGCTCGCTGGAAAAAGCGGCGACGATTGCCAGAAAACACGTCAAATCCTTCGCCAAGCTTCTGGCGGCGGGTGAGGGGCGCACCTTTTACGCGGTGGGCGGCACCTGGCGAAACATCGCCAAGCTGCATATGGAGATATCGGGCTATCCGCTGCATATGATGCAGGGCTATGAATTGCCGCTGGAGGAGATGTTGAATTTTCTCGAGGAGGTCATCGTCTCCCGGGATAGCAAGGACCCGGCCTGGCAGGCGGTCTCCAAGAACCGCCGCTCGCTTCTGCCCTTCGGCGCCATCGCCATGCGCGAAGTTCTGAAAATGATGAAGCCGGCCAAGATCGCCTTCTCGGCGCAGGGCGTGCGCGAAGGTTATCTCTATTCGCTGTTGACGGAAGAAGAGCGGAATTCCGATCCGCTGCTGGTTGCCGCCGATGAACTTGCCATTCTGCGCGCCCGCTCACCGGAACATGCGCGCGAACTGGCGGACTGGAGCGGCCGCACCTTCCCGGTCTTCGGCGTTGATGAGACCGAAGAGGAGAGCCGTTACCGGCAGGCGGCCTGCCTTCTCGCCGATATCAGCTGGCGCGCCCATCCCGATTATCGCGGATTGCAGGCGCTCAACATCATCGCCCATTCCTCCTTCGTGGCGATCACCCATCCCGGCCGCGCCTATATTGCACTCGCCAATTATTATCGCTTCGAAGGTCTGAACGACAACGGCACCACACAGCCGCTCGCCGCCATGGCGGGTGACCGGTTGCAGGAGCTCGGTAAATTGCTCGGCGGCCTGCTGCGCGTCGTCTATCTCTTCTCGGCCTCGATGCCGGGCGTCGTCGACCACCTCAAATTCCGCAAATCCAGCAATCCCGATCTCGATCTGGAATTCGTCGTGCCGCACGATTATTGCGATTTCGCCGGCGAGCGGCTGGACGGGCGTTTGCAGCAACTGGCGAAGCTGACGGGCAAGCGGCTGGCATTCGTGTTCGAATAA	MTRSEAQGRLTGLAPVSVIDIGSNSVRLVVYEGLSRAPAVLFNEKVLCGLGKGLALTGRMHEEGVSRALMALRRFHVLSEQAQAQKLYVLATAAAREAENGPDFIREAEAILGCEIEVLSGEKEALYSAYGVISGFHDPDGIAGDLGGGSLELIDIKGKSCGEGITLPLGGLRLSEQSDGSLEKAATIARKHVKSFAKLLAAGEGRTFYAVGGTWRNIAKLHMEISGYPLHMMQGYELPLEEMLNFLEEVIVSRDSKDPAWQAVSKNRRSLLPFGAIAMREVLKMMKPAKIAFSAQGVREGYLYSLLTEEERNSDPLLVAADELAILRARSPEHARELADWSGRTFPVFGVDETEEESRYRQAACLLADISWRAHPDYRGLQALNIIAHSSFVAITHPGRAYIALANYYRFEGLNDNGTTQPLAAMAGDRLQELGKLLGGLLRVVYLFSASMPGVVDHLKFRKSSNPDLDLEFVVPHDYCDFAGERLDGRLQQLAKLTGKRLAFVFE	PGPT0002595_1475	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002595-ppx|ppx_gppA-K01524	NA	NA
BMS010_00486	633	dapH_1		2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-acetyltransferase	ATGGATTCGACCGCACAGATCAAGCGCCCGAAAATTGCGGAGACCGTCGTCCATGCGACGGCGAGCATAAGAGATTCAAGCATCGGCGAATGCTGCGAAATTCTGGCTGACACCTCCCTGCACAATGCCGAGCTCGGCAATTACTCCTATCTTGGCCCCCGTTGCATGGTGGGCGATGCAACGATCGGAAAATTCTGCGCCATCGCCGCAGAGGTCAGGATAGGCGCTCCGAACCATCCGATGGACCGGCCATCCATGCACCGTTTCAGCTATTGCCCTGAATATTATTCTGCGGATGCCGTGCGCGATGACGCCTTTTTCGACCGGCGCAGGGAGGACCGCGCCGTCATCGGTCACGATGTCTGGATCGGTCACGGCGTTATCGTCTTGCCGGGTGTCACGGTTGGAGACGGGGCAGTGCTAGCCGCCGGCGCGGTCGTCACCAGAGACGTGCCGCCCTACACCATCGTCGGCGGCGTTCCCGCAAAAATCATTCGCGAACGATTTTCGCGGCCCATCGCGGAAAAGCTTGCATCAATCGCATGGTGGGATTGGCCATTCGAAACGATCATGGCGCGGCTTTCCGACTTTCAGTCGAGCGACATAGAAGCCTTTTGCGAGCGCTGGTCCTAG	MDSTAQIKRPKIAETVVHATASIRDSSIGECCEILADTSLHNAELGNYSYLGPRCMVGDATIGKFCAIAAEVRIGAPNHPMDRPSMHRFSYCPEYYSADAVRDDAFFDRRREDRAVIGHDVWIGHGVIVLPGVTVGDGAVLAAGAVVTRDVPPYTIVGGVPAKIIRERFSRPIAEKLASIAWWDWPFETIMARLSDFQSSDIEAFCERWS	PGPT0028000_794	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0028000-vat-K18234	NA	NA
BMS010_00487	348			hypothetical protein	ATGAGTGAAAGTTGCCCGGTCCTGACACCGGCGGAACGGCAGGTACAGGCCATATTGGAGCGCACGGGGGCAGTGATGATGGCCACCATTCACGCAGCGCTCGAACGTGCCAGCAAAGAGGTCGCTGATGCATTCCGGGCCGTCGATTCAGACATGCAGCCGCCGCCCCACGACTATTTTACCGCTGTCGCCCATCAGCAGCTCTTCCTGATGTTATGCGGGGCGGACCCGAAAACCTTCGAGGGCGGAGACCCCGAAATCGCCGGCCACATCATTCGGAATGCGCAAAACATATCCGACCACTACTGGAAGAAAACGCCTGCCGCGGCGGATGTCCCCGGCAAGTGA	MSESCPVLTPAERQVQAILERTGAVMMATIHAALERASKEVADAFRAVDSDMQPPPHDYFTAVAHQQLFLMLCGADPKTFEGGDPEIAGHIIRNAQNISDHYWKKTPAAADVPGK				NA	NA	NA	NA	NA
BMS010_00488	348			hypothetical protein	ATGCAGGACCATGCAGAAAGACTTTATTACGCCCTGAAGAAAAGGTGGTCGGGCGAGACGAGCGGCCTCTGGTCGCGCGAAAACCCCGCCAAGGGCCAAGGCAGCGTCACCGCGCTGGTGGTGCAAGATATTTTCGGCGGAGAGCTTGCCAAAACCGCTGTCAGCGGTGCCGACCATTTTTACAATATTGTCGAAGGCACCCGCTGGGATTTCACCTTCAGCCAGTTCGATATTCCGGTCGGCTATCAGGACAGGCTTGCCAGCCGCACGGAAGCCATGGCGACGATAACGCCGCTGCAATATGCCTATCTCAGCGCCTGCATCCGCAAGGCGCTCGGGCACGGCTGA	MQDHAERLYYALKKRWSGETSGLWSRENPAKGQGSVTALVVQDIFGGELAKTAVSGADHFYNIVEGTRWDFTFSQFDIPVGYQDRLASRTEAMATITPLQYAYLSACIRKALGHG				NA	NA	NA	NA	NA
BMS010_00489	1359			hypothetical protein	ATGAAGCACATTCTTTTCGCACCTTTCGCGGTTCTCGCGCTCGCCACTGCGGCGCATGCGTCGGAAAAGGAATTTCCGGCAAAGCTCGTTTCGCACGCCATTCTGCCTGCCAACACCATGATCGCCGCACCTGCCGATGCGCCGGAGCACCTCAAGACCTCCGCCAAATTCACCACGGCCGACCGCAAGCGCGCCGAGGGCCTCGGAACCGTGCCCGGCAAGGACGGCGTGCGCCTGACCGGCCTTTCCATGCCGTTCAACGGCCAGCCGATGCAGGGTTTTTCCGGCATCAGGGCGATGCCGGACGGCAGCTTCTGGAGCCTTTCCGACAACGGTTTCGGTTCCAAGCTCAATTCCAGCGACGCCATGCTGATGCTTCACCATCTGAAGTTCGACTGGGACGCCGGCAAGGTCAACGCGCTTGAAACCGTGTTCCTCTCCGATCCCGACATGAAGGCGCCCTTCCCCATCGTTCTGGAAGGCTCGAGCAAGCGTTACCTGACGGGCGCGGATTTCGACGTCGAATCCATTCAGCCGGTCGCTGACGGTTTCTGGGTCGGCGAGGAATTCGGCCCCTACATCCTGAAATTCACCCGCGACGGCAAGCTGACCGACGTGATCTCGACCAAGGCCGGCGACATCGAAGTGAAATCTCCCGACCATCCGGCTCTTGCCCTGCCCGGCAATCCCACGCAGAAAATGCCCGCTTTCAACCTGAAACGGTCAGGCGGTTATGAGGGCATGGCGCTCTCCAAGGACGGCTCGAAGCTCTACGGCCTGCTGGAAGGCCCGCTCTACATGGCCGACGGCCAGGTGGAAAAAACCGAAGACGGCGCGACCGCGCTGCGCATCATCGAACTCGACACCGCCAAGAAGGCGTGGACCGGCCGCAGTTGGCTTTATCCGCTGGCGGAAGGCGGCGAGGCAATCGGCGACTTCAACATGCTGGATGACACCACCGCCCTCGTCATCGAGCGCGACAACGGCGCCGGCACGGCCGACAAGGCCTGCGCCGACCCCAAGGCTCCGGCTGCGGATTGCTTCGCCCGCCCTGCCAAGCTGAAGCGCATCTACAAGATCGAATTCAACGACGCCAATGTCGGCAAGGCCGCCCGCAAGATCGGCTATATCGACCTGATGAAGATTTCCGACCCGGATAACAAGAAGCGTCAGGGCGGCGGCAACGGCTATTACGATATGCCTTTCGTCACCATCGAGAATGTCGACCGCGTCGATGCCACCCATATCGTCGTCGGCAACGACAACAACCTGCCCTTCTCGGCCGGCCGTGCGCTGGACAAGGCTGACGACAACGAATTCGTCCTGCTGGAGGTCAAGGACCTGCTCGAGGCGAAATAA	MKHILFAPFAVLALATAAHASEKEFPAKLVSHAILPANTMIAAPADAPEHLKTSAKFTTADRKRAEGLGTVPGKDGVRLTGLSMPFNGQPMQGFSGIRAMPDGSFWSLSDNGFGSKLNSSDAMLMLHHLKFDWDAGKVNALETVFLSDPDMKAPFPIVLEGSSKRYLTGADFDVESIQPVADGFWVGEEFGPYILKFTRDGKLTDVISTKAGDIEVKSPDHPALALPGNPTQKMPAFNLKRSGGYEGMALSKDGSKLYGLLEGPLYMADGQVEKTEDGATALRIIELDTAKKAWTGRSWLYPLAEGGEAIGDFNMLDDTTALVIERDNGAGTADKACADPKAPAADCFARPAKLKRIYKIEFNDANVGKAARKIGYIDLMKISDPDNKKRQGGGNGYYDMPFVTIENVDRVDATHIVVGNDNNLPFSAGRALDKADDNEFVLLEVKDLLEAK	PGPT0018470_41	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
BMS010_00490	1029			hypothetical protein	ATGAGAAAATTGCTGCCCATTCTGGATTACGTGGTGCTCTTCGTTGCCGTGGCCGGCAGCGGCGTGGCCTACGCCTTTCTGGAATATGGCGGCGGTGCATTGATCGGCGCGACCTATGCGCTGTTTGCCTGCGCACCCATCCTCGCCTTCGAGCGCGGTTACATCATGCCCGGCCTGTCGCGGCAGGTGAGCGCCCTGCCGACGCCGGCCTATATCGCCGTCGGCCTCGTCATCTATGCCATCCTCGTCTTTTGCGGCTTCGGGCTTGGCGGCACGATCCTGTGGTTGAGCGGGATATTTCCCGGCACCTGGAAACGCGCCGTCCATGCCGAGGTGCAGACGCTGATCTTCACCCTCATTGTCTGCGGCATCATCGTCTTCATCATGCGGGTGCGCGAGCTTCTCGGCCGCGATATCTTCATCGACCTCATCCTGGGGCGTTATCGCCGGCCGGTCAGCGAAGACCGCGTTTTCATCTTCATCGATCTCGTCGGCTCCACCTCCTTCGCCGAAACCCATGGCGACCTGAAGGCCCAGGAATTTCTCGGCGAAATTTTTGCAAGCTATGCCGCACCGGTCAGAAAACACGGCGGCGTCATCGACGACTATATCGGCGACGCCGCCATCATCACCTGGCCCTATCACATGGCGATAAGGCGAGCGGCCTGCGTGCGCTGCGTCTTCGATATTCAGGCGACCATTGAAAACACCCGCGACATGTGGCTCGCCCGCTTCGGCGAGGTGCCGCGCCTGCGCTTCGCCATCCATGGTGGGCCGGTCATCACCGCGGAAATCGGTGTCGATCACCACAAGATCACCTATTTCGGCGACACGGTGAACACGACCTCGCGGCTCGAATCGCTGAGCAAGATGCTCGGCCACCCCGTGCTGATTTCCGCCGACCTCGCCCATCAGCTGGTGCTTCCGAAGGGTGTGCGCAGCGAATATCTGGGCGAACATGCGGTAAAGGGCCGTGGCCAGACGCTCGGCGTCTGCACGCTCAGCCAATATCAGGCGCCCGCCGCATAA	MRKLLPILDYVVLFVAVAGSGVAYAFLEYGGGALIGATYALFACAPILAFERGYIMPGLSRQVSALPTPAYIAVGLVIYAILVFCGFGLGGTILWLSGIFPGTWKRAVHAEVQTLIFTLIVCGIIVFIMRVRELLGRDIFIDLILGRYRRPVSEDRVFIFIDLVGSTSFAETHGDLKAQEFLGEIFASYAAPVRKHGGVIDDYIGDAAIITWPYHMAIRRAACVRCVFDIQATIENTRDMWLARFGEVPRLRFAIHGGPVITAEIGVDHHKITYFGDTVNTTSRLESLSKMLGHPVLISADLAHQLVLPKGVRSEYLGEHAVKGRGQTLGVCTLSQYQAPAA	PGPT0021560_6273	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|VFR_SIGNALLING_PATHWAY,PGPT0021560-cyaB|gidA-K01768	NA	NA
BMS010_00491	234			hypothetical protein	ATGGGCTGCGGCTTGAGCGGCTGGAGGGAGAACACTCCCTTCGACGTTGATGGCCGCACCTGCGCCGCCATCATCTTCGCCCGCAAGGGAGAAACTCTGTTCGACCGGGCCTGGATCGACGGCAACCGGCTGCGTTTTTCCGCCTTCCCCGTCAAATGGTCGAACCGCTCGCCAAATGACCGGCCGCAATCCCCGCTTGAAACCGTCTATTACAGAACATCCTATCAGGCGTAG	MGCGLSGWRENTPFDVDGRTCAAIIFARKGETLFDRAWIDGNRLRFSAFPVKWSNRSPNDRPQSPLETVYYRTSYQA				NA	NA	NA	NA	NA
BMS010_00492	1161	rnd_1	COG0349	Ribonuclease D	ATGATTGAAACGACTGCCGCCCTCGCCGAAGCCTGCACGGAACTGGCGAAATCGGACTTCGTCACCATCGACACCGAATTTCTGCGGGAAACGACCTTCTGGCCGGAACTCTGCCTCGTGCAGATGGCAAGCCCGACGCTCGAAGTGCTGGTCGATCCGCTGGCGAAGGGTCTCGACCTGACCCCGCTTTTCGAACTGATGGCCAATCCTGCTGTCGTGAAGGTTTTCCATGCGGCGCGACAGGATATCGAGATCATCTACCATCTCGGCGGGCTTATTCCGCACCCGATCTTCGACACGCAGGTTGCCGCCATGGTCTGCGGTTTCGGCGATTCGATCTCCTACGACCAGCTGGTGCAGAAGATCAAAAACGTCCAGATCGACAAATCCTCGCGTTTCACCGACTGGAGCCGCCGTCCGCTGACCGAAAAGCAGCTGGATTACGCGCTGGCCGACGTGACCCATCTGCGGGATGTCTATCTCTCGCTGAAAGCCCAGCTCGAGCGCGAAGGCCGCTCGCTGTGGCTGACCGAAGAGATGGACATTCTCGAGTCTCGCGACACCTATGACATGCATCCCGACGATGCCTGGCTGCGGCTGAAATCGCGCCTGCGCAAACCGACGGAACTTGCGATCCTCAAATTCATCGCCGCCTGGCGCGAGCGTGAGGCGCGCTCCCGCAACGTTCCGCGCTCACGCGTGCTGAAGGACGATGCGATCTTCGAAATCGCCCAGCAGCAGCCGAAGGACGCCGAGGCGCTGTCGCGGCTTCGCACCATCCCCAAGGGCTGGGAGCGCTCCGCCTCCGGCACCGCCATCGTCGAAACGGTGAATGCGGCGCTGGCGCTGCCGAAAGAGGAAATGCCGAAGGCACCGCGTCACAGCCACGCACCGGAAGGCTCCGGCGCTGCCGTGGAACTTCTGAAAGTTCTGCTGAAGCTGACGGCGGACAAGCATGGCGTCGCCGCCAAGGTCATCGCCAATAGCGACGATCTGGACAAGATCGCCGCCGAGGGCGAAAAGGCAACCGTGGCGGCGCTGACCGGCTGGCGGCGGGAACTCTTCGGCGATGTGGCCCTGAAGCTCATCAATGGCGAAGTGGCGCTGCGTTTCGCTGGCAAGAAGGTCGAGGCGGTGGAGGTTGCGGCAGGCGAGCCGTAA	MIETTAALAEACTELAKSDFVTIDTEFLRETTFWPELCLVQMASPTLEVLVDPLAKGLDLTPLFELMANPAVVKVFHAARQDIEIIYHLGGLIPHPIFDTQVAAMVCGFGDSISYDQLVQKIKNVQIDKSSRFTDWSRRPLTEKQLDYALADVTHLRDVYLSLKAQLEREGRSLWLTEEMDILESRDTYDMHPDDAWLRLKSRLRKPTELAILKFIAAWREREARSRNVPRSRVLKDDAIFEIAQQQPKDAEALSRLRTIPKGWERSASGTAIVETVNAALALPKEEMPKAPRHSHAPEGSGAAVELLKVLLKLTADKHGVAAKVIANSDDLDKIAAEGEKATVAALTGWRRELFGDVALKLINGEVALRFAGKKVEAVEVAAGEP				NA	NA	NA	NA	NA
BMS010_00493	1272	ycaD_1		putative MFS-type transporter YcaD	ATGAGCCAGATCAGACCTCTTATCCCGCTTCTCGTCACCGCCGGTATCCTGATCGGCGGCAACGGCCTGCAGGGAACCTATATAGCACTGCGCGGTCTCTCCGAAGGGTTTTCCGCCAGCACCATCGGCCTCATCAGCGCCGCCTACAGCTTCGGTTTCGCGCTTGGCTGCATTTCGGTGACACGGCTTCTGCGCAAGATCGGCCACATCCGCACCTTCGCCACCATGGCGGCCGTCGCATCCGCCGCAGCGATCGCCATGCCGCTCCTTATCCATCCCCTGTTCTGGATGCTGATGCGCTTCGTCACCGGCATTGCCGTCGCCTGTCTTTTCGCGGCCATCGAAAGCTGGATCAACGCGCAGGTCACCAATTCCAATCGGGCGCGCACGCTCTCCATCTATCGTTTCGTCGATCTCGGCTCCGTCACGCTCGCACAATATATCATTCCCGTCGCCGGCATCGACGGACCCGTGGTGTTTTCGCTGATCGCCATGGCGCTGACGCTGTCGCTGGTGCCGATCTCGCTTGCCGACAAATCCAACCCTGCGCCGCCGAAACAGATACCCTTCAATCTCTTCGCGGTGTGGCGCATCTCGCCGCTTGCCGTCGTCGGCTGCGTGGCCGTTGGTCTCAGCATGGCGGCGTTTCGCAATATCGGCCCGATCTATGCCGAACAGATCGGCCTTTCCGTCACCGCCATCGCCACCTTCATGAGCGCCGGCATCATTGGCGGCGTGGTGCTGCAATATCCGCTCGGCGTCTATTCCGACCGTTATGACCGGCGCATCATCATTCTCGCCACCACGGCGGGCTCGGTCGTCGTCGGCCTGTTTCTCGCCTTCTTCGCCGGAACCGATGAGTGGAGCAACATCATCGGCGTCTTCATCTTCGGCGCCTTCGCCCTGCCGCTCTATTCGCTGAGTTCCGCCCATGGCAACGACCATGCCAGGGAAGGCGAACATGCGATGATGTCGGCCGGACTGCTGTTCTTCTGGTCGGTGGGCGCAACCGTCGGGCCGCTGCTCGCCTCCGTGCTGATCGACCAGTTCGGCCCGAAGGCGCTGTTCAGCTATACGGCAGCGATCCAGATCGTTTTCATCGCCTATACCATCTACCGGCTCCAGGTGCGCGAAGGTGTGCCCGTGGAGGAGCGGAACTGGCGGTTCAGCTCGCTTTTGCGCACCTCAGCCTATTTCCAGAAGCTCGCCGCGGCTCCGCCACCCAAAAAGGATGAAGCGGAGCCCCATCCGCCCGAGAAAAACGATCCTTGA	MSQIRPLIPLLVTAGILIGGNGLQGTYIALRGLSEGFSASTIGLISAAYSFGFALGCISVTRLLRKIGHIRTFATMAAVASAAAIAMPLLIHPLFWMLMRFVTGIAVACLFAAIESWINAQVTNSNRARTLSIYRFVDLGSVTLAQYIIPVAGIDGPVVFSLIAMALTLSLVPISLADKSNPAPPKQIPFNLFAVWRISPLAVVGCVAVGLSMAAFRNIGPIYAEQIGLSVTAIATFMSAGIIGGVVLQYPLGVYSDRYDRRIIILATTAGSVVVGLFLAFFAGTDEWSNIIGVFIFGAFALPLYSLSSAHGNDHAREGEHAMMSAGLLFFWSVGATVGPLLASVLIDQFGPKALFSYTAAIQIVFIAYTIYRLQVREGVPVEERNWRFSSLLRTSAYFQKLAAAPPPKKDEAEPHPPEKNDP				NA	NA	NA	NA	NA
BMS010_00494	1788	aspS_1	COG0173	Aspartate--tRNA(Asp/Asn) ligase	ATGCATCGTTACCGCAGCCACACCTGTGCCGCTCTCCGCAAGTCCGACGTCGGCGAAACCGTTCGCCTTTCCGGTTGGGTTCATCGCGTGCGAGATCATGGCGGCGTTCTCTTCATCGACCTTCGCGACCATTACGGCATCACCCAGGTGGTGGCCGATCCGGACAGCCCGGCCTTCAAGGTTGCCGAAACCGTGCGCGGCGAATGGGTCATCCGCATCGATGGCCTCGTCAAGGCGCGCTCGGAAGACACCGTCAACAAGGGCATGGCGACCGGCGAGATCGAGCTTTACGCTCAGGAAATCGAGGTTCTTGGCGTCGCCAAGGAACTGCCGCTGCCGGTCTTCGGTGAGCCTGATTATCCTGAAGACGTTCGCCTGAAGTACCGCTTCCTCGACCTGCGCCGCGAAACGCTGCACAAGAACATCGTCAAGCGCACGCAGATCATCTCCGCCATGCGCACCGGCATGGCCGATGCCGGCTTTGCCGAATATACGACGCCGATCCTCACCGCTTCCTCGCCGGAAGGCGCGCGCGACTTCCTCGTGCCGTCGCGTATCCATGAAGGCAAGTTCTTCGCGCTGCCGCAGGCGCCGCAGCAGTACAAGCAGCTTCTGATGGTGGCCGGTTTCGACCGTTATTTCCAGATCGCGCCGTGCTTCCGCGATGAAGACCCGCGCGCCGACCGCCTGCCGGGCGAATTCTACCAGCTCGACGTCGAAATGAGCTTCGTGACCCAGGAAGATGTCTGGACCACGATGGAGCCGATGATGACGGCCGTGTTCGAGAAATTCGCCGAAGGCAAGCCGGTTACCAAAGAGTGGCCGCGCATTCCCTATGACGAGGCGATCCGCAAATATGGTTCCGACAAGCCGGACCTGCGCAACCCGATCGTCATGGAAGCCGTGACCGAACATTTCGACGGTTCGGGCTTTAAGGTCTTCGCGAACATGATCGCCTCCAACCCGAAGGTGCAGGTCTGGGCCATCCCGGCCAAGACCGGCGGCTCGCGCGCTTTCTGCGACCGCATGAACGCATGGGCGCAGTCTCAGGGCCAGCCTGGCCTCGGTTACATCTTCTGGAAGGAAGAGGACGGCAAGGTCGGCGGTTCCGGTCCGCTCGCCAAGAACATCGGCGAGGAACGCACCGAGGCGCTGCGGCAGCAGCTCGGCCTTGAGGCGGGCGATGCCTGCTTCTTCGTCGCCGGCGATCCGGCCAAGTTCTACAAGTTTGCCGGTGAAGCGCGCACCCGCGCTGCCGACGAGCTGAACCTGATCGACCGCGACCGTTTCGAAATGTGCTGGATCGTCGACTTCCCCTTCTTCGAATATAACGAAGAAGAAAAAAAGATCGACTTCGCCCATAACCCCTTCTCGATGCCGCAGGGCGGTCTGGAAGCGCTGGAAGGGCAGGATCCGCTCTCCATCAAGGCGTTCCAGTATGACGCGGTCTGCAACGGCTTCGAAATCGCCTCCGGTTCGATCCGTAACCAGTCGCCCGAGCTGATGGTCAAGGCCTTCGAAAAGGTTGGCCTGTCGCAGACCGACGTTGAAGAGCGCTTCGGCGGTCTCTACCGCGCCTTCCAGTACGGCGCGCCTCCGCATGGCGGCTGCGCATTCGGTATCGACCGCGTGGTCATGCTGCTGGTTGGCGCCAAGAACCTGCGCGAAATCACGCTGTTCCCGATGAACCAGCAGGCGCAGGACCTCTTGATGAACGCGCCGTCGCCGGCAACGCCGACCCAGCTTCGTGAGCTGGCGCTGCGCGTCGTTCCATCCAAGAAGGACTGA	MHRYRSHTCAALRKSDVGETVRLSGWVHRVRDHGGVLFIDLRDHYGITQVVADPDSPAFKVAETVRGEWVIRIDGLVKARSEDTVNKGMATGEIELYAQEIEVLGVAKELPLPVFGEPDYPEDVRLKYRFLDLRRETLHKNIVKRTQIISAMRTGMADAGFAEYTTPILTASSPEGARDFLVPSRIHEGKFFALPQAPQQYKQLLMVAGFDRYFQIAPCFRDEDPRADRLPGEFYQLDVEMSFVTQEDVWTTMEPMMTAVFEKFAEGKPVTKEWPRIPYDEAIRKYGSDKPDLRNPIVMEAVTEHFDGSGFKVFANMIASNPKVQVWAIPAKTGGSRAFCDRMNAWAQSQGQPGLGYIFWKEEDGKVGGSGPLAKNIGEERTEALRQQLGLEAGDACFFVAGDPAKFYKFAGEARTRAADELNLIDRDRFEMCWIVDFPFFEYNEEEKKIDFAHNPFSMPQGGLEALEGQDPLSIKAFQYDAVCNGFEIASGSIRNQSPELMVKAFEKVGLSQTDVEERFGGLYRAFQYGAPPHGGCAFGIDRVVMLLVGAKNLREITLFPMNQQAQDLLMNAPSPATPTQLRELALRVVPSKKD				NA	NA	NA	NA	NA
BMS010_00495	183			hypothetical protein	ATGAGCCCGCAACTTCAGGAACTTATTGAAAAAGCACGAAAAATAAAGCCCAGTGTTGAGCATTTCGAGGAGCAGAGACGCAGCTTTGCTTATGGATCTGCCAAAATTGAAAATAACGATATAACGCGCGAGATGATTGACGAAGCAGCTTCTAAACTCGGTAAGGAGCGCGATGAGCGTTGA	MSPQLQELIEKARKIKPSVEHFEEQRRSFAYGSAKIENNDITREMIDEAASKLGKERDER				NA	NA	NA	NA	NA
BMS010_00496	822			hypothetical protein	ATGAGCGTTGATCGTTCAAGTGAGGCTGGCGAGCCTGTTTTAGTGAGCGATCCGAAACAGGTCGCTCACATTGAAGCTGAAAACACTCTTCGTCAGTTTGATATGGCGATGGTAGAGCTTGATAAATGGCTCAAACCAGATGATTATAAAATTAAACCATCCAAAATAATGCAGCTTAACAGAGTTGCTCTACAACGTTTAAGTAAATATGCAGGCGTTTTTCGTCCTGGTGACATAAAAATTACCGGTAGTACGCACTTGCCTCCCGACGCGGATACTGTTCCCGAGCTAATGGAGCAGCTGTGTGATTACGTTAATGAAAACTGGCGCTTGAAGAGTCCTAGCCACTTGGCCGCGTATGTCTTGTGGAAAATAAACTGGATTCACCCGTTTGTGGACGGCAATGGACGTACCGCGCGTGTCGTATCATATCTCGTTATGTGTGCAGGGCTTGGATACCGTTTACCGGGCACAAAAACAATTCCAGACCAAATCGCGGTAGATAAGGCTCCTTACTATAGGGCGCTCGAGGCTGCAGACAAAGCTTTTAGCCAGGGTCAGCTTGACTTGAGTGACCTTGAAGAACTCATAAACAGTCATCTTGCCGTGCAGTTACTTGATATCCATAACTCCGCAACGGGCAAGAATCACAAGGATCGGCAGGCGATAGCGACGATGCCTGTTTTGCCGACTGTTGGGGCAGAACGCGCAGCCGCAAAGGACAAGTTCTCGCTCATTAGGCATATCGAAACCCATCCCGTTATTTACACTTTTTTGGGCGCAGTTATCGTTGCAATAGTGACATGGATTTTGGGCCGCTGA	MSVDRSSEAGEPVLVSDPKQVAHIEAENTLRQFDMAMVELDKWLKPDDYKIKPSKIMQLNRVALQRLSKYAGVFRPGDIKITGSTHLPPDADTVPELMEQLCDYVNENWRLKSPSHLAAYVLWKINWIHPFVDGNGRTARVVSYLVMCAGLGYRLPGTKTIPDQIAVDKAPYYRALEAADKAFSQGQLDLSDLEELINSHLAVQLLDIHNSATGKNHKDRQAIATMPVLPTVGAERAAAKDKFSLIRHIETHPVIYTFLGAVIVAIVTWILGR				NA	NA	NA	NA	NA
BMS010_00498	1482	bicA	COG0659	Bicarbonate transporter BicA	ATGAACAAATTTCAGACTTACAGACGTGAGTGGTTTTCCAATATTCGCGGCGATCTCCTTTCCGGCATCGTCGTGGCACTCGCACTCATTCCCGAAGCCATCGGCTTTTCCGTCATCGCCGGGGTCGATCCGAAGGTGGGATTGTTCGCCTCCTTTGCGATTGCCTGCGTTTCCGCCTTCACCGGCGGCAGACCGGGCATGATCTCGGCGGCAACCGCCGCCACGGCCGTCCTGATGGTTACGCTCGTCAAGGAACACGGGCTGCAATATCTCTTCGCCGCCACCATCCTCATGGGCGTGCTGCAAATTCTGGCAGGCCTTGTGAAACTTGGCCGGGTGATGCGCTTCGTCTCGCGTTCGGTCATGACCGGCTTCGTCAATGCGCTGGCGATCCTGATCTTCACGGCGCAATTGCCGGAACTGATCGGCGTCCCGGTCGAAACCTATGTCATGATCGCGGCCGGCCTTGCGATCATCTATCTCTTCCCGCTGTTCACGAAGATCGTGCCGTCGCCGCTGGTCGCCATCATCGCTCTCACCTGTGTCGCCGTCTTCTCCGGCATGGATATCCGCACGGTCGGCGATCTCGGTGAGTTGCCCTCGACGCTGCCGATATTCGCGCTGCCGCAGGTACCACTGACCTTCGAGACGTTACAGATCATCTTTCCCTATTCCGTCGCACTCGCCGCCGTCGGTCTGCTGGAATCGCTGCTGACAGCGCAGATCGTCGACGACATGACGGATACGGGCAGCAACAAGAGCCGGGAATGCATCGGGCAGGGGACGAGCAACATCGCCTCCGCCCTCATCGGCGGCATGGGCGGCTGCGCCATGATCGGCCAGTCCGTCATCAATGTCAGTTCGGGCGGTCGGGGCCGCTTGTCCACTTTCGTCGCGGGCGCGTTCCTGCTCTTCCTCATACTGGTGCTGGATGATCTCGTGCGCATCATTCCCATGGCCGCGCTGGTGTCGGTGATGATCATGGTCTCCATCGGCACATTCTCGTGGCGCTCCATCCTCGATCTGCGCCGCAACCCGCCATCCTCCAGCATCGTCATGCTGGTCACGGTCGGCACGGTGCTTGCGACCCATGATCTTGCAAAGGGCGTGCTGGCCGGCGTCCTTCTCTCCGGCGTGTTTTTCGCGGGCAAGGTGTCGAAACTCTTCCATGTCCGGCCGGAGCTTTCAGCCGATGGCCGGGAGCGGATCTATCGTGTCGACGGCCAGATTTTCTTCGCCTCGACGGAAAGCTTCATTGCCGCCTTCGATTTCGCCGAGGAGGTTGAGGCGGTGACGATCGATGTCACGCAGGCGCATCTATGGGACATTTCCGCAGTCGGCGCTCTGGACAAGGTGGTGCTGAAATTCCGCAAGGCCGGCAGGCGGGTCGAGGTGATCGGTGTCAACGAGGCGAGCGCCCACATGATCGACCGCTTCGCCCTGCACGATAAACAGGATGGCGCTGCCGCGCCGCTGCACTGA	MNKFQTYRREWFSNIRGDLLSGIVVALALIPEAIGFSVIAGVDPKVGLFASFAIACVSAFTGGRPGMISAATAATAVLMVTLVKEHGLQYLFAATILMGVLQILAGLVKLGRVMRFVSRSVMTGFVNALAILIFTAQLPELIGVPVETYVMIAAGLAIIYLFPLFTKIVPSPLVAIIALTCVAVFSGMDIRTVGDLGELPSTLPIFALPQVPLTFETLQIIFPYSVALAAVGLLESLLTAQIVDDMTDTGSNKSRECIGQGTSNIASALIGGMGGCAMIGQSVINVSSGGRGRLSTFVAGAFLLFLILVLDDLVRIIPMAALVSVMIMVSIGTFSWRSILDLRRNPPSSSIVMLVTVGTVLATHDLAKGVLAGVLLSGVFFAGKVSKLFHVRPELSADGRERIYRVDGQIFFASTESFIAAFDFAEEVEAVTIDVTQAHLWDISAVGALDKVVLKFRKAGRRVEVIGVNEASAHMIDRFALHDKQDGAAAPLH	PGPT0003020_5274	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SULFATE|THIOSULFATE_TRANSPORT,PGPT0003020-TC_SULP-K03321	NA	NA
BMS010_00499	1191			hypothetical protein	ATGAGACTGAAATCCACCCGGCAGGTTCTTTTCGCGAGTGCCGCGCTTCTTACGCTTTCGGCGCCGGCTTTCGCGCTGGATGGCGGGGATGTGCTGAAGAAGATCAATGCGGCCTATGCCGCGCAGGGCGGTGAGATCGCCGCCGGTTCCGTCGCCGTCAACGGCTCGACGGTGACCCTGAACGACGTGACCTTCAACGCGGCCGCAGATCCGGCCAAGAAGATCCCGGTCGGCAATGTGACGCTCGAAGGCGTCGAGGAAAACAACGGCGGCTACAAGATCAAGAACGCCCGCTTCGACAATATCGACTACAAGCAGGAAAATGTAGAGATCAAGGCAAGCGACATTTACATGTCCGGTCTCGTCATTCCCGCAGACTCCACCACTGGCACCGTCGATGCGCTGATGTTCTACGACGAAGCACATAGCGGTCCGGTTTCCGTTTCCATCGACGGCAAGCCGGCTTTCTCGCTTGAGGAAACCAGCGCGACGATGTCGGTCAGCGATGACAAGAACTCTATCGGCTTTGAACTCGACGCTTCCGGTTTCAAGGCCGATCTCAGCGAAGTGACCGATCCTGCGACCAAGGACGCGATCGAAAAGCTGAAGCTGCAGGCGCTCTCCGGCGACATGACCATGAGCGGTAGCTGGGAAGTGGCCTCCGGTACTATCGATGTTGAAGAATATGCCATCGACCTCGATGATGTCGGCCGCCTGAATATGTCGTTCGGTTTCTCCGGCTACACGCTCGCCTTCATCAAGTCGATGCAGGAGACGGTGAAGGCGCAGGCCGCCAATCCGAACAAGGAACAGGCGGACCAGGCGGCAAGCCTTGCCATGCTCGGCCTGATGCAGCAGCTCTCCTTCATCAACGCTGAAATCAGCTTCGAAGACGCCAGCATCACCAAGCGCGCCATCGACTATGCGGCAAGCCAGCAGGGCATGACTGGCGATCAGCTTGCCCAGACCATCAAGGGCATGGCCCCGATCATGATGGCCTCGCTCAACGTGCCGGAATTGCAGAACATGGTGTCGGCAGCCGTCAACGCCTATATCGACAATCCGAAGAACTTCTCGATCACGGCGGAGCCGGAAAAGCCGGTTCCGTTCCCGATGATCATGGGCGCTGCGATGGGCGCGCCGAACACCCTGCCGAAAATGCTCGGCGTCACGGTGACGGCAAACGAATAA	MRLKSTRQVLFASAALLTLSAPAFALDGGDVLKKINAAYAAQGGEIAAGSVAVNGSTVTLNDVTFNAAADPAKKIPVGNVTLEGVEENNGGYKIKNARFDNIDYKQENVEIKASDIYMSGLVIPADSTTGTVDALMFYDEAHSGPVSVSIDGKPAFSLEETSATMSVSDDKNSIGFELDASGFKADLSEVTDPATKDAIEKLKLQALSGDMTMSGSWEVASGTIDVEEYAIDLDDVGRLNMSFGFSGYTLAFIKSMQETVKAQAANPNKEQADQAASLAMLGLMQQLSFINAEISFEDASITKRAIDYAASQQGMTGDQLAQTIKGMAPIMMASLNVPELQNMVSAAVNAYIDNPKNFSITAEPEKPVPFPMIMGAAMGAPNTLPKMLGVTVTANE				NA	NA	NA	NA	NA
BMS010_00500	2253	parC_1	COG0188	DNA topoisomerase 4 subunit A	ATGGGAAAAAATCTTGTACCTCCGTCCGGCGGAGACGATAACATTCATCCGGTCGATTTGAAGGCGGCGCTTGAAGAGCGCTACCTCGCTTATGCCTTGTCCACGATCATGCATCGTGCGCTGCCGGATGTGCGCGACGGCCTGAAGCCGGTTCACCGCCGCATCATTCACGCCATGAGCGAAATGGGCATTCGCCCCAACTCGGCCTTCAAGAAATGCGCCCGTATCGTCGGTGACGTGATCGGTAAATTCCACCCGCATGGCGACCAGTCTGTCTATGACGCGCTGGTGCGTCTCGCACAGGATTTCTCCCAGCGTTATCCCATCGTCGACGGGCAGGGCAATTTCGGCAATATCGATGGCGACGGCGCCGCCGCCTATCGTTACACCGAAGCGCGCATGACCGAGGTTGCGGCGCTGCTGCTTGAAGGCATCGGCGAGGATGCGGTGGATTTCCGCGCCACCTATAACGAGGAAGACGAGGAACCGGTCGTCCTGCCGGGCGCTTTCCCCAATCTGCTCGCCAACGGCGCCTCCGGCATCGCAGTGGGCATGGCGACGTCGATCCCGCCACATAACGCCCATGAGATTTGCGACGCGGCGCTTTACCTCATCAAGCATCCCGATGCGACGGTTGAAAAGCTGGTGGAATTCATTCCCGGCCCCGACCTGCCGACGGGCGGCGTGATCGTTGAGAGCCGCGAGAATATTCTCGATGCCTATAAGACCGGCCGCGGCGGTTTCCGTGTGCGCGCCAAGTGGGAAACGGAAGATCTCGGCCGTGGCGGTTACCAGATCGTCATCACCGAAATTCCCTTCCAGGTGCAGAAATCGCGCCTGATAGAGAAGATCGCCGAGCTGCTGATTGCCCGCAAGCTGCCGCTTCTCGAGGATATTCGCGACGAATCGGCCGAAGACGTGCGCATCGTGCTGGTGCCGAAGAGCCGTACCGTCGATGCGACGCTGCTGATGGAATCGCTGTTCCGCCTGTCGGACCTCGAAAGCCGCCTGCCGCTCAACATGAACGTGCTGTCGCTCGGCAAGGTGCCGAAGGTGATGGCGCTGAACGAGGTGCTGAGCGAGTGGCTGGCGCACCGCAAGGATGTGCTGGTCCGCCGTTCCCGCCATCGTCTGGCCGCCATCGACCGCAGGCTGGAAATCCTGGGCGGCCTGCTTGTGGCCTACCTCAATCTCGATGAGGTCATCCGCATCATCCGCGAGGAGGATGAGCCGAAACAGGTGATGATGGCCAAGTGGTCGCTCACCGACAATCAGGCCGAAGCCATCCTCAACATGCGGCTGCGCAACCTGCGCAAACTTGAGGAATTCGAAATCCGCAAGGAATTCGATGACCTCAGCAACGAGAAGGCTGAAATCGAGGGGCTGCTCGCCTCCGATGACAAACAATGGCAGACCGTCGCCTGGGAAATCGGCGAGGTCAAAAAGAAATATGCCAAGGCAACCGAGATCGGCCGCCGCCGCACGCAATTCGCGGATGCGCCGGATGCCGATATCGAGGCCATCCAGCAGGCGATGATCGAGAAAGAACCGGTCACTATCGTCATCTCGCAGAAGGGCTGGATCCGGGCGCTTAAGGGGCACATGTCCGATACCTCGTCGCTGACCTTCAAGGAAGGCGACGGACCGAAACTCGCTTTCCCGGCGCAGACGACCGACAAGCTGCTGCTGCTGACGACGGGCGGCAAGGCCTATACGCTTGGCGCCGACAAGCTGCCGGGCGGTCGCGGCCATGGCGAGCCGATCCGCATCATGGTCGATATGGAGAACGATCAGGACATCCTGACCGCCTTTGTGCACGATCCATCGCGCAAGCTGCTGCTCGTCTCCACGGCCGGCAACGGTTTCATCGTGGCCGAGAGCGAAATGGTCGCGAATACCCGCAAGGGCAAGCAGATCATGAATGTCTCGATGCCGGATGAAGCCAAGCTCGCGGTGCCGGTCACGGGCGACCATGTCGCCGTCGTCGGCGAAAACCGCAAGCTGCTCGCCTTCCCGCTGGCGCAGGTGCCGGAAATGTCGCGCGGCAAGGGCGTGCGCCTGCAACGCTACAAGGATGGCGGCGTCGTCGACGTCAAATGTTTCGCGCTTGCCGAGGGCTTGTCATGGTCCGACACGGCCGGGCGTCTATTCAACAAGGTGGGTGAAGAACTGCGCGAATGGCTGGCCGACCGCGCAACGGCGGGCCGGACTGTGCCGAAGGGCTTTCCGCGCAGCGGGAAATTTGGCGGCTGA	MGKNLVPPSGGDDNIHPVDLKAALEERYLAYALSTIMHRALPDVRDGLKPVHRRIIHAMSEMGIRPNSAFKKCARIVGDVIGKFHPHGDQSVYDALVRLAQDFSQRYPIVDGQGNFGNIDGDGAAAYRYTEARMTEVAALLLEGIGEDAVDFRATYNEEDEEPVVLPGAFPNLLANGASGIAVGMATSIPPHNAHEICDAALYLIKHPDATVEKLVEFIPGPDLPTGGVIVESRENILDAYKTGRGGFRVRAKWETEDLGRGGYQIVITEIPFQVQKSRLIEKIAELLIARKLPLLEDIRDESAEDVRIVLVPKSRTVDATLLMESLFRLSDLESRLPLNMNVLSLGKVPKVMALNEVLSEWLAHRKDVLVRRSRHRLAAIDRRLEILGGLLVAYLNLDEVIRIIREEDEPKQVMMAKWSLTDNQAEAILNMRLRNLRKLEEFEIRKEFDDLSNEKAEIEGLLASDDKQWQTVAWEIGEVKKKYAKATEIGRRRTQFADAPDADIEAIQQAMIEKEPVTIVISQKGWIRALKGHMSDTSSLTFKEGDGPKLAFPAQTTDKLLLLTTGGKAYTLGADKLPGGRGHGEPIRIMVDMENDQDILTAFVHDPSRKLLLVSTAGNGFIVAESEMVANTRKGKQIMNVSMPDEAKLAVPVTGDHVAVVGENRKLLAFPLAQVPEMSRGKGVRLQRYKDGGVVDVKCFALAEGLSWSDTAGRLFNKVGEELREWLADRATAGRTVPKGFPRSGKFGG	PGPT0027705_2572	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0027705-parC-K02621	NA	NA
BMS010_00501	246			hypothetical protein	ATGAAAGCAACCATTTGCGAGTTCGGTGAAGAGGCAGGCGTTGTAATCCCAAAGGATATGCTTGAACAGCTTGGCTGGAAGATTGGCGACGTTCTCAGTTCAAGAACTGACGGCAACGTACTTGAATTGCGAACTGCTGAGAGCCCGAACGAAGAAGCAACAGGTGACTTTGATCGTCAGCTGGAACATGCACGGCAAGTGATGCGCAAGTACCACGTTGCTTTAAAAGCGCTCGCGAAGTCATAA	MKATICEFGEEAGVVIPKDMLEQLGWKIGDVLSSRTDGNVLELRTAESPNEEATGDFDRQLEHARQVMRKYHVALKALAKS				NA	NA	NA	NA	NA
BMS010_00502	759	bpt_1	COG2935	Aspartate/glutamate leucyltransferase	ATGAACACGCAGGCGACGCCCTCTCCCCAATTCTATCTTACGGCGCCGGCCACCTGCCCCTATCTGCCGAACCAGATGGAGCGGAAGGTCTTCACCCATCTGGTCGGCCCGCGCGCTTCGGAAATGAACGATCTTCTGACCCAGGGCGGTTTCAGGCGCTCGCAGAACATCGCCTATCGCCCGGCCTGCGAAAACTGCCGCGCCTGCGTCTCCGTGCGCATCCTGACCGAACAGTTCAAGCCGACAAAATCCATGCGGCGTGTTCTTGCCGCCAACAGGGATGTCGTGGCCACCGTTCACGCCGCCGAGCCTTCCACCGAACAATTCGCCCTGTTTCGTCGCTATCTCGACCACCGCCACCAGTCGGGCGGCATGTCCGACATGTCGGCGCTGGACTATGCGATCATGGTGGAAGACACGCATGTGAACACCCGCATCATCGAATACCGTGTGCGCGAACCCGGCTCCGGCATCGATTCCAGCAAGCGCGGCGAATTGCTGGCCGTGGCGCTGAGCGACGTGATGAGCGACGGCCTGTCGATGGTCTATTCCTTCTTCAATCCCGATCTGGAAAAACGCTCGCTCGGCACCTTCATGATCATCGATCACATCACCCGCACCCGCGCGCTTGGCTTGCCGCATGTCTATCTCGGCTACTGGGTCGATGGTTCGGAAAAGATGGGCTACAAGACCCGCTACCATCCGCAGGAGCATCTGACGCCGCGCGGGTGGGAGGTTTATACGCCGGAAGAAAAGTAA	MNTQATPSPQFYLTAPATCPYLPNQMERKVFTHLVGPRASEMNDLLTQGGFRRSQNIAYRPACENCRACVSVRILTEQFKPTKSMRRVLAANRDVVATVHAAEPSTEQFALFRRYLDHRHQSGGMSDMSALDYAIMVEDTHVNTRIIEYRVREPGSGIDSSKRGELLAVALSDVMSDGLSMVYSFFNPDLEKRSLGTFMIIDHITRTRALGLPHVYLGYWVDGSEKMGYKTRYHPQEHLTPRGWEVYTPEEK				NA	NA	NA	NA	NA
BMS010_00503	459			hypothetical protein	ATGAGCCTCGAACAGAACCCCACTTATGCCGCACCGGATGACTGGCGCGCCTATAGCGGCGTCCTGAGCCGGCGGGTCTTCGCGTTCCTGATCGATTATGCGATCGTTCTCCTGCTGTGCATTCCGGCGGCTGTGATCGTGTTCTTTCTCGGTGTGATTACCCTCGGCCTTGGCTTCTTCCTCTACCCGGCGCTGTTCGTCATCGTTGCGGTGCTTTATTTCGGCATGACGCTTGGCGGCCCCTCGCAGGCCACCCCCGGCATGCGGGCGATGGGGATCGCCATGGCGCGGATGGACGGGCGGCGAATCGATTTCCTGCTGTCGACCGTTCACATCGTGCTTTTCTGGATCATCAACTCGGTTTTGACGCCGCTGATCCTGCTTGCAGGCCTGTTTACCGAGCGTTCGCGCCTCGTTCACGACTTCCTGCTCGGCACCGTCATCGTCAGAACGCGCTGA	MSLEQNPTYAAPDDWRAYSGVLSRRVFAFLIDYAIVLLLCIPAAVIVFFLGVITLGLGFFLYPALFVIVAVLYFGMTLGGPSQATPGMRAMGIAMARMDGRRIDFLLSTVHIVLFWIINSVLTPLILLAGLFTERSRLVHDFLLGTVIVRTR				NA	NA	NA	NA	NA
BMS010_00504	1014	hemB_1	COG0113	Delta-aminolevulinic acid dehydratase	ATGCAGGACAAAACGCATCTGGTCGACGAGATCACGGGCCATCGTCGCATGCGGCGCAATCGCAAGGCGGATTGGACGCGCCGTCTGGTGCAGGAAAGCCGCCTCACCGTCGACGATCTCATCTGGCCGGTCTTCATCGTGCCGGGCAGCAATATTGTCGAACCCATTCCGGCGATGCCGGGCGTCAACCGCATGAGCGTCGACAAACTGGTCGAAGCCGCAAAAGAGGCAGCCGATCTCGGCATTCCGGCAATCGCGACCTTTCCGAACATCGAAATGGAACTGCGCAACGAGACCGGCTCCAATGCGCTCGAGGCGAATAATCTCATCAATCAGGCGACTATCGCGGTCAAGAAAGCCGTTCCCAATATCGGCATGATTACCGATGTTGCGCTCGATCCCTTCACCAGCCATGGCCATGACGGCATTCTGCGCGGCGACGAGATCGTCAATGACGAGACGGTGGAACAGGTCGTCAAGGCGGCGATCCTTCAGGCGGAAGCGGGATCGGACATTATTTCTCCATCGGAAATGATGGATGGCCGTATCGGCGCCATCCGTCGCGGTCTCGATGCCGCCGGGCACCAGAATGTCGGCATCATGTCCTATGCGACGAAATTCTCTTCCGGCTATTACGGTCCCTATCGCGAGGCCATCTCCACGGCCGGACTGCTGAAGGGTGACAAGAACAGCTATTACATCAGCCCTGCCAACGGCATGGAGGCAATCCGCGACGCGGCGCTCGACGTGGAGGAAGGAGCGGATATGCTGATGGTCAAGCCCGGCCTGCCCTATCTCGACATCTGCTGGCGGCTGAAGGAAAATTTCGGCCTGCCGACCTTCGCCTATCAGGTGTCCGGCGAATATACCCAGATCAAGGCAGCCGCCATGAATGGCTGGATCGATGGCGAGCGCGTGATGATGGAAACGCTTCTCTGTTTCAAGCGTGCCGGTTGCGATGGTGTTCTCACCTATTTCGCCATCGAGGCCGCACGCAAACTGGCAAAGGGCTGA	MQDKTHLVDEITGHRRMRRNRKADWTRRLVQESRLTVDDLIWPVFIVPGSNIVEPIPAMPGVNRMSVDKLVEAAKEAADLGIPAIATFPNIEMELRNETGSNALEANNLINQATIAVKKAVPNIGMITDVALDPFTSHGHDGILRGDEIVNDETVEQVVKAAILQAEAGSDIISPSEMMDGRIGAIRRGLDAAGHQNVGIMSYATKFSSGYYGPYREAISTAGLLKGDKNSYYISPANGMEAIRDAALDVEEGADMLMVKPGLPYLDICWRLKENFGLPTFAYQVSGEYTQIKAAAMNGWIDGERVMMETLLCFKRAGCDGVLTYFAIEAARKLAKG	PGPT0003655_1212	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003655-hemB-K01698	NA	NA
BMS010_00505	438			hypothetical protein	ATGGAACCTGATTCTCAACCTCTGCCGAAACGCCCGCTTACGGAAATCCTCTTTCTGGTCTTCATGAGGCTGGTCGCGGTGTCCTGTTTCTGGTTTGGTCTGCAATATTGGGCGATGCTGACGGGATATTCGCTTGGGGGCCATGGGCGGTTCGATATGCTGAACCTGCCCTGGCGCGTGGCCGGCAGCGCGCTGGCGGTTATTTTCCCTGTCGCAGCACTCGGTCTTTGGCTCGGGGCCTCCTGGGGGGCGGTCATGTGGGTCATGGGCGCGGGTGCGCAGATCGCCATGTATAAGGTGTGGCCGCATATCTTCGGCGCCAACACGCTGGTGCCCGTCATGCACGGCCTTGTGGCAACCATTTATATACTATTCCTGGTCGCTTTCTGGCTGGATCAGCGCCAGAATGAAGAACGTGCAAGAATTGATTTACCATAA	MEPDSQPLPKRPLTEILFLVFMRLVAVSCFWFGLQYWAMLTGYSLGGHGRFDMLNLPWRVAGSALAVIFPVAALGLWLGASWGAVMWVMGAGAQIAMYKVWPHIFGANTLVPVMHGLVATIYILFLVAFWLDQRQNEERARIDLP				NA	NA	NA	NA	NA
BMS010_00506	513			hypothetical protein	ATGATCAATAGCAAAGTTAAGCCCCAGGCCGTTGTTGCCGATGCACATGAAGATACCATCCGCTCGCTCTACATGGAGTCGCTGCATCTGGTGGAACGTCTCCACCGCCGCCTCCTCGATGTCATCAAGGATGAGTTCGACCGTCAGGGTCGTGATGACGTCAACGCCGTTCAGGCCCTGCTGCTGTTCAACATCGGCAATTCCGAACTGACGGCCGGCGAGCTTCGTTCCCGCGGTTACTACCTCGGCTCGAACGTCTCCTACAACGTCAAGAAGCTGGTCGATCTCGGCCTCATCAACCACCAGCGCTCGCGTGTCGACCGCCGCTCGGTTCGCATCAGCCTGACCGAAAAGGGCCAGGAAATCGCCGAAACGGTTGCCCGCCTTTATGAACGCCACGTCGGCTCGATCGAAAAGGTCGGCGGCATCGGCACCGGCGAGTTCTCCGAAATGAACAAGCTGCTGCAGCGCCTCGATCGCTTCTGGAACGACTCGATCGCTTACCGCCTGTAA	MINSKVKPQAVVADAHEDTIRSLYMESLHLVERLHRRLLDVIKDEFDRQGRDDVNAVQALLLFNIGNSELTAGELRSRGYYLGSNVSYNVKKLVDLGLINHQRSRVDRRSVRISLTEKGQEIAETVARLYERHVGSIEKVGGIGTGEFSEMNKLLQRLDRFWNDSIAYRL				NA	NA	NA	NA	NA
BMS010_00507	1332			hypothetical protein	ATGACAAAGAAATCCGTTTCCGATTCCGTATCGCGCCGCGCGCTTCTGCGTTCGGCCGTTTCCGTTGGCGCCGCCGCGCTTGCCGCGCCGGCCTTTGCGCAGAACGCGCTCAACGATCTCATGGGCTCTTCGCGCCGCGGCAACTGGGATGACCAGTTCGATGCCAATACGTCGCGTTCGGCCGTGGGCGTCGTTTCCAACAATCCGGTTCTCGGACGCGAAGCGCCGGTCTACATGCAGCAGGCGATCATGCAATATCAGCAGATCGTGCAGAATGGCGGCTGGCCGGAAGTGCCCGCGTCCCAGCAGCGTCTCCAGATCGGCGTCTCCGATCCTTCCGTACAGGCGCTGCGCCAGCGACTGATGGTGTCCGGCGACCTGCCGCGTGAAGCAGGCATTTCCAGCGCCTTCGATAGCTACGTCGATGGCGCGCTGAAGCGTTTCCAGGCCCGTCATGGCCTTCCGGCAGATGGCGTCAGCGGCGAATACACTACGAAGGCCCTCAATGTTTCCGCGCAGATCCGTCTGGCGCAGTTGCAGACCAACCTCGTTCGCATCCAGTCCATGTCCGGCGATCTCGGCCAGCGTCACCTGATGGTGAATATCCCGGCGGCCGCCATCGAAGCCGTTGAAAATGAACGCGTTGTGCTGCGCAACACGGCCGTCGTCGGCCGCGCCAGCCGCCCGACCCATGTGATCAATTCCAAGATTTACGAAGTCATCCTCAACCCTTACTGGACCGCGCCGCGCTCGATCGTCGAAAAGGACATCGTGCCGCTGATGCAGAAGGACCCGACCTATCTGGAGCGGAACAACATCCGCCTCATCGACGGCAAGGGGCAGGAAGTTTCGCCAACCGCAGTCGACTGGTTTGCGCCGAAGGCTCCGAACCTGATGTTCCGTCAGGACCCCGGCAAGATCAACGCCATGTCGTCCACGAAGATCAACTTCCACAATCCGAACAACGAATATATGCACGACACGCCGCAGCAGGGCCTGTTCAACAAGCTGATGCGTTTCGAATCCTCCGGCTGCGTGCGCGTGCAGAACGTGCGCGACCTGACGAGCTGGCTGCTGCGCGACACGCCCGGCTGGTCGCGTCAGGAAATGGAGCGCGTCATCGCCACCCGCGTCAACACGCCGATCAAGCTGGCGCAGGAAATCCCGGTCTATTTCGTCTACATCACCGCCTGGTCGGCGAAGGACGGCGTGGTGCAGTTCCGCGACGACATCTATGAAAAGGACGGCAACGCCGAACTGGCGCTCAACACGACGAGCGGCATGGAACAGCCCGCCGGCCCGGTGGATGACGATCTGTTGCCGCGCAACTGA	MTKKSVSDSVSRRALLRSAVSVGAAALAAPAFAQNALNDLMGSSRRGNWDDQFDANTSRSAVGVVSNNPVLGREAPVYMQQAIMQYQQIVQNGGWPEVPASQQRLQIGVSDPSVQALRQRLMVSGDLPREAGISSAFDSYVDGALKRFQARHGLPADGVSGEYTTKALNVSAQIRLAQLQTNLVRIQSMSGDLGQRHLMVNIPAAAIEAVENERVVLRNTAVVGRASRPTHVINSKIYEVILNPYWTAPRSIVEKDIVPLMQKDPTYLERNNIRLIDGKGQEVSPTAVDWFAPKAPNLMFRQDPGKINAMSSTKINFHNPNNEYMHDTPQQGLFNKLMRFESSGCVRVQNVRDLTSWLLRDTPGWSRQEMERVIATRVNTPIKLAQEIPVYFVYITAWSAKDGVVQFRDDIYEKDGNAELALNTTSGMEQPAGPVDDDLLPRN	PGPT0023755_1746	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-L|D_TRANSPEPTIDASE_ACTIVITY,PGPT0023755-ycbB-K21470	NA	NA
BMS010_00508	1290	glyA2_1		Serine hydroxymethyltransferase 2	ATGTCGAACACAGATGCTTTCTTCTCCCGTCCGCTTGCCGATGTCGATCCGGAAATTTTCGGCGCGATCGAGAAGGAACTGGGTCGCCAGCGCCACGAGATCGAACTGATCGCCTCGGAAAACATCGTTTCCCGCGCCGTGCTCGAAGCGCAGGGTTCGATCATGACCAACAAATATGCGGAAGGTTACCCGGGCAAGCGTTATTACGGCGGCTGCCAGTTCGTCGACATCGCTGAAGAACTCGCCATCGAACGCGCCAAGAAGCTGTTCGGCGTCAACTTCGCCAACGTTCAGCCGAACTCCGGTTCGCAGATGAACCAGGCCGTGTTCCTCGCGCTGTTGCAGCCGGGCGATACCTTCATGGGCCTCGATCTGAACTCGGGAGGCCACCTGACCCATGGTTCGCCGGTCAACATGTCCGGCAAGTGGTTCAATGTCGTCTCCTACGGCGTGCGTGAGGGCGACAACCTGCTCGACATGGACGAGGTGGAGCGCAAGGCCAAGGAACACAAGCCGAAGCTCATTCTCGCCGGCGGCACCGCCTATTCGCGTGTATGGGACTGGAAGCGCTTTCGCGAGATCGCCGATGAAGTCGGCGCATACCTCATGGTCGACATGGCCCACATCGCCGGTCTCGTCGCCGGTGGCCAGCATCCGTCGCCGTTCCCGCACTGCCATGTCGCCACCACCACCACGCACAAATCGCTGCGCGGCCCACGCGGCGGCATGATCCTCACCAATGACGAGGATCTGGCCAAGAAGTTCAACTCGGCCGTTTTCCCCGGTCTGCAGGGCGGCCCGCTGATGCATGTCATCGCCGCCAAGGCGGTCGCCTTCGGCGAAGCGCTGAAGCCCGAGTTCAAGGACTATGCCGCTCAGGTGGTCAAGAACGCCAAGGCGCTGGCTGAAACGCTGGTCGAAGGCGGTCTGGATGTCGTCTCCGGCGGCACCGACAACCACCTGATGCTGGTCGATCTTCGCAAGAAGAACGCCACCGGCAAGCGCGCGGAAGCAGCGCTCGGCCGCGCTTACATCACCTGCAACAAGAACGGCATTCCTTTCGATCCGGAAAAGCCCTTCGTCACCTCGGGTGTGCGTCTCGGCACGCCGGCCGGCACGACGCGCGGTTTCAAGGAAGCGGAATTCCGCGAAATCGGCAAGCTGATCGTCGAGGTTCTCGATGGTCTGAAGGTTGCCAATTCGGATGAGGGCAATGCCGCCGTCGAGGCTGCGGTGCGTGAAAAGGTCGTCGGCCTGACGGACCGTTTCCCGATGTATCCGTACATGTAA	MSNTDAFFSRPLADVDPEIFGAIEKELGRQRHEIELIASENIVSRAVLEAQGSIMTNKYAEGYPGKRYYGGCQFVDIAEELAIERAKKLFGVNFANVQPNSGSQMNQAVFLALLQPGDTFMGLDLNSGGHLTHGSPVNMSGKWFNVVSYGVREGDNLLDMDEVERKAKEHKPKLILAGGTAYSRVWDWKRFREIADEVGAYLMVDMAHIAGLVAGGQHPSPFPHCHVATTTTHKSLRGPRGGMILTNDEDLAKKFNSAVFPGLQGGPLMHVIAAKAVAFGEALKPEFKDYAAQVVKNAKALAETLVEGGLDVVSGGTDNHLMLVDLRKKNATGKRAEAALGRAYITCNKNGIPFDPEKPFVTSGVRLGTPAGTTRGFKEAEFREIGKLIVEVLDGLKVANSDEGNAAVEAAVREKVVGLTDRFPMYPYM	PGPT0008090_3028	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008090-glyA-K00600	NA	NA
BMS010_00509	480	nrdR_1	COG1327	Transcriptional repressor NrdR	ATGCGCTGCCCATTCTGCGGTTCCGAAGACACACAGGTCAAGGACTCGCGTCCGGCGGAGGACAATACCTCCATCCGCCGGCGGCGCATCTGCCCCGATTGCGGCGGCCGCTTCACGACCTATGAGCGCGTGCAACTGCGTGAGCTGATGGTCATCAAGAAAAGCGGCCGCAAGCTGCCCTTCGACCGGGAAAAGCTGGTGCGGTCCTTCGAGATCGCCCTGCGCAAGCGCCCGGTCGATCGCGACCGGATCGAGCGTGCCGTCTCCGGCATCGTTCGCCGCCTGGAAAGTTCGGGCGAGACGGAAATTCCCTCGGAAGAAATCGGCCTGCAGGTTCTCGAAGCGCTGAAGAGCCTCGATGACGTGGCCTTCGTGCGTTACGCCTCGGTCTATCGCGATTTCAGCCATGCCGAGGATTTCGAAAACGTGATTGCCGAAATCAACGCCAAGATCGCCCGCGATACGGACGCCGGAGTCTAG	MRCPFCGSEDTQVKDSRPAEDNTSIRRRRICPDCGGRFTTYERVQLRELMVIKKSGRKLPFDREKLVRSFEIALRKRPVDRDRIERAVSGIVRRLESSGETEIPSEEIGLQVLEALKSLDDVAFVRYASVYRDFSHAEDFENVIAEINAKIARDTDAGV				NA	NA	NA	NA	NA
BMS010_00510	1245	tadA_2		tRNA-specific adenosine deaminase	GTGACCATCCGCGCCGATGACGAAAGGTTCATGGCCCGCGCCATCGAGGTTTCGCTTCGCCATCAGGGCCAGACGCTTACCAACCCATCGGTTGGCTGCGTTCTCGTAAAAGACGGAAAAATCATCGCCGAAGCCGTGACCGCCATTGGCGGCCGCCCGCATGCCGAACGGCAGGCGCTGGAAATCGCCGGCGAGGCGGCGCGCGGCGCGACCGCCTATGTGACGCTCGAACCCTGCTCGCACTGGGGCAAGACCCCGCCCTGCGCCAATGCCCTGGTGGAATACGGCGTCGCCCGCGTCGTGGTCGCGGTGGACGATCCGGATGAGCGCGTCTCCGGCCGTGGTTATACGATTTTACGGGATGCCGGTATTGTCGTGGAAACCGGCCTGTTGCGGGATGAGGGTAAGAGGGCGCTGGCCGGTTACCTCACGCGTCAGGTGAAAAAACGCCCGCATGTGATTCTGAAACTTGCCGTTTCCGCCGATGGCATGATCGGCAGGAAAGGCGAGGGGCAGGTGGCGATTACCGGTCCCGAGGCTCGCCATGCCGTGCATCAACTTCGGGCGCGTTGTGATTGCATTCTCGTTGGTATCAGGACCGCCATTGCGGATGATCCTGAACTGACGGTTCGAATCGCAGGTCTCGAGGATCGCTCGCCGGTGCGGATCGTGCTGGATCGGCAGTTTGAGTTGCCGCTCTCGTCGAAGTTGGTGCGAACGGCGCGTGAAGTGCCGGTAGTGATTGCGGCTTTACCCCCCTCTGCCCTGCCGGGCATCTCCCCCTCAAGGGGGGAGATCGATGGAGCGCCGTCTAGCCCTGCATCGAACGCTGTAGAAGCGGACACCGGATCGAGGTTTGCACGAGCGGCCAGCCCCTCGCCGATTTCCCCCCCTGAGGGGGAGATGCCCGGCAGGGCAGAGGGGGGTAACCGCGACCACCGACGCCAACTCCTCACCGAGGCCGGCGTCCAGATCCTCGAAGCCCCAACGCTCGAAAACCTCCTCCACATCCTCGCCGAAAGCGGCATGTCGGAACTTCTGGTCGAAGGCGGCGCCTTTGCCGCAAAATCATTCCTTGAAGCCGGGCTGGTGGACCGTATCATGCTGTTCCAAAGCCCGGTGGTGATAGGTGAGGGCGGCATTGAAACGCCGCTCAACCGTGCCGATATTCCGGGCGACTATGCTCTGGTCAGCGAAACCGCCTACGGGCCGGATCGCTGCTTCGATTATGAAAGGCCGATTTGA	MTIRADDERFMARAIEVSLRHQGQTLTNPSVGCVLVKDGKIIAEAVTAIGGRPHAERQALEIAGEAARGATAYVTLEPCSHWGKTPPCANALVEYGVARVVVAVDDPDERVSGRGYTILRDAGIVVETGLLRDEGKRALAGYLTRQVKKRPHVILKLAVSADGMIGRKGEGQVAITGPEARHAVHQLRARCDCILVGIRTAIADDPELTVRIAGLEDRSPVRIVLDRQFELPLSSKLVRTAREVPVVIAALPPSALPGISPSRGEIDGAPSSPASNAVEADTGSRFARAASPSPISPPEGEMPGRAEGGNRDHRRQLLTEAGVQILEAPTLENLLHILAESGMSELLVEGGAFAAKSFLEAGLVDRIMLFQSPVVIGEGGIETPLNRADIPGDYALVSETAYGPDRCFDYERPI	PGPT0008555_287	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008555-ribD-K11752	NA	NA
BMS010_00511	612	ribE_1		Riboflavin synthase	ATGTTTACCGGAATTGTCACCGACGTCGGAACCGTTTCCGAGCTGGAAGCCCTGGCCGAAGGCGTGCGTCTGCGGGTGGCGACCAATTACGACCCCAAGACCATCGATATGGGCGCATCGATCTCCCATGGCGGCGTTTGCCTGACGGTGACGAGACTGCCGGAAGACGGCAGCAATGAGCGCTGGTACGAGGTCGAGGCATGGGAAGAGGCGCTGCGCCTGACGACGATTGCCGGCTGGCAAAAGGGTACCCACGTCAATCTGGAGCGGGCGCTCAAGATCGGCGATGAGCTTGGCGGCCACATCGTTTCCGGCCATGTCGATGGCAGGGCGGAAATCCTTTCGGTGGAATCGGAAGGTGAGGCGGTGCGCATTCGCCTGCGCGCGCCGGAGCATCTGGCGAAATTCGTGGCGCCCAAGGGTTCCGTGGCGCTCGACGGCACTTCGCTCACCGTCAACGCCGTCGAAGGCACGGATTTTGACGTTCTGCTGATCCGCCATACGCTGACCGTCACCACCTGGGGCGAACGCCAGCCGGGCGATTTCGTGAATTTCGAAGTCGATACCATGGCGCGTTATGCCGCTAGGCTTGCGGAATTTCCCTCGGCGTAA	MFTGIVTDVGTVSELEALAEGVRLRVATNYDPKTIDMGASISHGGVCLTVTRLPEDGSNERWYEVEAWEEALRLTTIAGWQKGTHVNLERALKIGDELGGHIVSGHVDGRAEILSVESEGEAVRIRLRAPEHLAKFVAPKGSVALDGTSLTVNAVEGTDFDVLLIRHTLTVTTWGERQPGDFVNFEVDTMARYAARLAEFPSA	PGPT0008610_3505	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008610-ribE|RIB5|ribC-K00793	NA	NA
BMS010_00512	630			hypothetical protein	ATGCCGTCCTTCGAACTGCTGACAGCCTTTTTCATAACCACCGCCTTGTTCGCCTATATCCCCGGTCCGGCCATGCTTTATGCGGCGGCGCAGACCATGGCGCGCGGACGGTTTGCCGGGCTGATGGCGGTGCTTGGAATCCATGTCGGCTGCTATTTCCACATCTTTGCCTCTGCGGCAGGGCTTTCGGTGCTGTTTCAGGCCGTGCCGTGGCTTTATCTCGCCGTGAAGCTCTGCGGCGCGCTGTATCTTGTGTGGCTCGGCTTCTCGATGCTGCGCAGCAAGCTCGAAGGCGAGGCGGTCAATCTGGCCGAGCCGAAATCGGCCCGCCGCGCCTTTGTCGACAGCATCATCGTCGATGTGCTCAATCCGAAGACGGCGCTGTTCTTTCTGGCCTTCCTGCCGCAATTCGTGGACCCTGCGGCAGCCTTTCCGGTTTGGCTGCAATTGCTGATCCTCGGCATTGCCGTCAATTTCATTTTTTCCTCGGCCGATCTCGTCGGGGTGCTTCTCGCGGGCGCCATGGTTGGGCGTTTGAAGCGTTCCGGTATGGTGCAGGTGCTCGCACGGCGCGCTGCCGGGACGGTGTTGATGGGGCTCGGCGTCCATCTAGCCTTCCAGAAAACCTGA	MPSFELLTAFFITTALFAYIPGPAMLYAAAQTMARGRFAGLMAVLGIHVGCYFHIFASAAGLSVLFQAVPWLYLAVKLCGALYLVWLGFSMLRSKLEGEAVNLAEPKSARRAFVDSIIVDVLNPKTALFFLAFLPQFVDPAAAFPVWLQLLILGIAVNFIFSSADLVGVLLAGAMVGRLKRSGMVQVLARRAAGTVLMGLGVHLAFQKT				NA	NA	NA	NA	NA
BMS010_00513	447	ribH1	COG0054	6,7-dimethyl-8-ribityllumazine synthase 1	ATGTCCAAACCCCATCTTCTTATCGTGGAAGCACGTTTTTACGACGATATGGCGGATGCCCTTCTCGAAGGCGCGAAATTCGCGCTCGATGAAGCCGGCGCCACCTATGACGTCATCACCGTTCCCGGTGCGCTGGAAATCCCCGCCGCCATCGCCATGGCGCTTGACGGTGCTGACAATGACGGCACGGAATATGACGGTTTCGTTGCGCTCGGCATGGTCATTCGCGGTGAGACCTATCACTTCGATATCGTCGCCAACGAATCCTCCCGCGCGCTGATGGATCTCGCCGTCAGCGAATCGTTACCGATCGGCAACGGCATCCTCACCGTCGAGAATGACGAGCAGGCATGGGCGCGCGTGCGTCGTTCCGACAAGGACAAGGGCGGTTTCGCGGCGCGTGCGGCGCTGACGATGATCGAGCTGAAGAAAAAACTGGGTGGCTGA	MSKPHLLIVEARFYDDMADALLEGAKFALDEAGATYDVITVPGALEIPAAIAMALDGADNDGTEYDGFVALGMVIRGETYHFDIVANESSRALMDLAVSESLPIGNGILTVENDEQAWARVRRSDKDKGGFAARAALTMIELKKKLGG	PGPT0008605_4325	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008605-ribH|RIB4-K00794	NA	NA
BMS010_00514	498	nusB_1	COG0781	Transcription antitermination protein NusB	ATGTCGAATGTTGAAAATGGCGGCGAACCGCGCCAGCCTTCGGTAAAGCCCGCCAACCAGCGCGGCGCGGCCCGCCTTGCGGCCGTGCAGGCGCTTTACCAGATGGATGTCGGCGGAACCGGCGTCATGGAAGTCGTGGCCGAATACGAGGCGCACCGTCTCGGGCAGGAAGTCGACGGCGACACCTATCTGAAGGCCGACCCATCCTGGTTCCGTTCCATCGTTTCCGGCGTCGTCCGAGATCAGACGAAGATCGACCCGCTGGTGCGCTCCGCCCTTCTGGAAGACTGGCCGCTGTCGCGCCTCGATGCCACCGTGCGCGCCATCCTGCGTGCAGGCACTTTCGAGATTCTCGAGCGCAAGGATGTGCCAGTCGCCGTCATCGTCACGGAATATGTTGAAATCGCCCGTGCTTTCTTCGAGCATGACGAGCCGAAGCTGGTGAATGCGGTTCTGGACCGCATTGCCAAGCAGGTGCGCGGCGAGGCAAAACGCTAA	MSNVENGGEPRQPSVKPANQRGAARLAAVQALYQMDVGGTGVMEVVAEYEAHRLGQEVDGDTYLKADPSWFRSIVSGVVRDQTKIDPLVRSALLEDWPLSRLDATVRAILRAGTFEILERKDVPVAVIVTEYVEIARAFFEHDEPKLVNAVLDRIAKQVRGEAKR				NA	NA	NA	NA	NA
BMS010_00515	1224	rfnT_1		Riboflavin transporter RfnT	ATGAGCGCGGTTTCCGTCCCCGGACTTGAAGTTCAACTGGACGAGGCGAAGCGCAACGTCTTTCTCCTCACCATCGCGCAGGCGATCATGGGATCGGCTGCGCCCTTAAGCTTTTCGGTCGGCGCACTTGCCGGCTATCAGCTGCTCGGCGCGGATAAGTCGCTGGCGACCGCGCCTCTCACCGGATTCAATATCGGCGTTGCGCTCGGCGCGATCTGCGTGGCGGCCGCATCCCGCTTCCTTGGCCGCAAGGCAGGCTTCATGGTCGGCGCGCTGATGTGCTCCATCGGCGGCGGCATTGCCGCCGTGGCGCTCTTCCGTTCGGATTTCTGGTTGTTTGCCGTCGGCCTGCTGCTGATCGGCATTTCCGGCGGTTTTACGCAAAAAATCCGTTTCGCCGCAGCCGACGCCTCTCCATCCTTTTACAAGCCTAAGGCGATCTCCTGGATTTTGGCCGGCGGCATCATTTCCGCCATTGTCGGGCCGCAACTCGCCATCTTCGGCAAGGATCTGCTTGCGCCGGTCACCTTTGCCGGCGCTTTTCTGGCGCTCGTTCCGCTCGGCCTCGTTTCGATCGCCATTCTGGCATTTCTGAAACTGCCCGACCCCAAGGCGGCCGCCGCCCATGTCGAATCGGTAAGGCCGCTGTCAGAGATCGTCCGCACGCAGCGTTTCGTCACCGGCATGATCTGCGGCATCGGTTCCTATGCCCTGATGACCTTCATGATGACCGGCGCACCGCTTGCCATGGTGGTCGGCTGCGGTTTCCCCACCGAACTCGCCACGCTCGGCATCCAGTGGCACGTTCTCGCCATGTTCGGCCCGAGCTTCTTCACCGGCATGCTGATTTCCCGATTCGGTGCGGAAAAAATCGTGGCAGTCGGCCTGATCGTGCTGATGGCCTGCGCCATCGTTGCCCATATGGGCATAGAGCTGTGGAATTTCTGGGCGGCGCTCATCCTGCTCGGCCTCGGCTGGAATTTCGGCTTCATCGGCGCAACCGCCATCATCACCTCCAGTTACCGCCCGCATGAGGCGGACAAGGTGCAGGGTTTCCACGATATCGTGCTGTTTGGCACCGTGGCGCTGTCATCCTTCTCTTCCGGCAAGGTGTTTACGGCCTGGGGCTGGTCGGTGATGAACCTCGTCATCTGGCCGGTTGCCGGGCTTTGCCTTCTGCTTGTCCTGTCGCTCGTCCTGACAAGCCGCAAAAAAGCAGCCTGA	MSAVSVPGLEVQLDEAKRNVFLLTIAQAIMGSAAPLSFSVGALAGYQLLGADKSLATAPLTGFNIGVALGAICVAAASRFLGRKAGFMVGALMCSIGGGIAAVALFRSDFWLFAVGLLLIGISGGFTQKIRFAAADASPSFYKPKAISWILAGGIISAIVGPQLAIFGKDLLAPVTFAGAFLALVPLGLVSIAILAFLKLPDPKAAAAHVESVRPLSEIVRTQRFVTGMICGIGSYALMTFMMTGAPLAMVVGCGFPTELATLGIQWHVLAMFGPSFFTGMLISRFGAEKIVAVGLIVLMACAIVAHMGIELWNFWAALILLGLGWNFGFIGATAIITSSYRPHEADKVQGFHDIVLFGTVALSSFSSGKVFTAWGWSVMNLVIWPVAGLCLLLVLSLVLTSRKKAA				NA	NA	NA	NA	NA
BMS010_00516	2139	hppA	COG3808	K(+)-insensitive pyrophosphate-energized proton pump	ATGACCGTAATACCCATAGTAATTTTATGCGGTGTCCTGTCCGTGGTTTACGCGGTATGGGCCACCAAAAGCGTTCTCGATGCCGATCAGGGCAACGAGCGTATGCGTGAAATAGCAGGTTTTATCCGTGAAGGTGCGCAGGCTTATCTCACCCGTCAATATCTCACCATCGCCATCGTCGGACTGATAGTCGCCATTCTGGCCTGGTATCTTCTGTCATCCATGGCAGCCATCGGCTTCCTCGTCGGCGCGGTGCTTTCAGGCGTCGCCGGCTTCGTCGGCATGCATGTCTCCGTGCGCGCCAACCTGCGCACCGCGCAGGCCGCCTCGCACAGCCTTTCCGCCGGTCTCGATATCGCTTTCAAGTCGGGCGCCATCACCGGCATGCTGGTGGCGGGCCTCGCGCTGCTCGGCGTCTCCATCTATTATTTCATCCTCACCTCGGTGATGGGCCATCCGGCCGGATCGCGTGAGGTGATCGATGCGCTGGTGTCGCTGGGCTTCGGCGCATCGCTGATTTCCATCTTCGCCCGTCTCGGCGGCGGCATCTTCACCAAGGGTGCGGATGTCGGCGGCGATCTCGTGGGCAAGGTCGAGGCCGGCATTCCCGAGGACGACCCGCGCAACCCCGCAACCATTGCCGACAATGTCGGCGACAATGTCGGCGATTGCGCCGGCATGGCGGCTGACCTCTTCGAGACCTATGCCGTCTCTGTCGTCGCGACCATGGTTCTCGCCGCAATCTTCTTTGCCGGAACGCCGATACTGGAAAGCGCCATGGTCTATCCGCTGGCGATCTGCGGCGCCTGCATCCTGACCTCGATTGCCGGCACCTTCTTCGTGAAGCTCGGCACCAACAATTCCATCATGGGCGCACTCTACAAGGGCCTCATCGCCACCGGCGTCTTCTCGGTTGCGGGTCTTGCAGTCGCCACTCATGCGACGGTCGGCTGGGGAGTGATAGGCACGGTGGCCGGCATGGAAATCACCGGCACCAACCTCTTCTTCTGCGGATTGGTCGGCCTCGTCGTGACGGCGCTGATTGTCGTCATCACCGAATATTATACCGGCACCAACAAGCGGCCGGTCAACTCCATCGCCCAGGCGTCTGTCACCGGTCATGGCACCAATGTCATCCAGGGCCTTGCGGTCTCGCTGGAATCGACGGCGCTGCCAGCCATCGTCATCGTCGGCGGCATCATCGGCACCTACCAGCTCGGCGGCCTGTTCGGCACCGGCATCGCGGTCACTGCCATGCTCGGCCTTGCCGGCATGATCGTGGCGCTCGACGCCTTCGGCCCGGTCACGGACAATGCCGGCGGTATCGCCGAAATGGCCGGTCTCGATCCTGACGTTCGCAAGGCGACCGATGCGCTGGACGCCGTCGGCAACACCACCAAGGCCGTCACCAAGGGGTATGCCATCGGTTCGGCCGGTCTCGGCGCACTGGTGCTGTTCGCCGCCTATGCCAATGACCTCTCCTATTTCGCCGCCAATGGCGATACCTATCCCTACTTCAAGGACATTGGCGAGATTTCCTTCAGCCTCGCCAATCCTTACGTGGTTGCCGGCCTGCTGTTCGGCGGCCTCATCCCCTATCTCTTCGGCGGCATCGCCATGACGGCGGTGGGCAAGGCGGCAAGCTCGATTGTCGAGGAAGTGCGCCGCCAGTTCCGCGAAAAGCCCGGCATCATGGCCGGAACGGAAAAGCCTGATTATGGCAAGGCCGTGGATCTGCTGACACGGGCGGCGATCAAGGAAATGGTCATCCCGTCGCTCCTGCCGGTTCTGGCGCCGCTCGTCGTTTATTTCGGCGTGCTGGCCATTTCCGGCTCCAAGGCGTCGGCCTTCGCGGCACTTGGCGCATCGCTGCTTGGCGTCATCATCAACGGCCTCTTCGTGGCGATTTCCATGACCTCCGGTGGCGGCGCATGGGACAATGCCAAGAAGAGCTTCGAAGACGGTTTCATCGATAAGGACGGCGTGCGCCACGTCAAGGGTTCGGACGCCCACAAGGCGTCGGTGACGGGCGATACGGTCGGCGATCCCTACAAGGATACCGCCGGTCCCGCCGTCAACCCGGCGATCAAGATCACCAATATCGTCGCGCTGTTGCTGCTTGCGGTTCTTGCCCACTGA	MTVIPIVILCGVLSVVYAVWATKSVLDADQGNERMREIAGFIREGAQAYLTRQYLTIAIVGLIVAILAWYLLSSMAAIGFLVGAVLSGVAGFVGMHVSVRANLRTAQAASHSLSAGLDIAFKSGAITGMLVAGLALLGVSIYYFILTSVMGHPAGSREVIDALVSLGFGASLISIFARLGGGIFTKGADVGGDLVGKVEAGIPEDDPRNPATIADNVGDNVGDCAGMAADLFETYAVSVVATMVLAAIFFAGTPILESAMVYPLAICGACILTSIAGTFFVKLGTNNSIMGALYKGLIATGVFSVAGLAVATHATVGWGVIGTVAGMEITGTNLFFCGLVGLVVTALIVVITEYYTGTNKRPVNSIAQASVTGHGTNVIQGLAVSLESTALPAIVIVGGIIGTYQLGGLFGTGIAVTAMLGLAGMIVALDAFGPVTDNAGGIAEMAGLDPDVRKATDALDAVGNTTKAVTKGYAIGSAGLGALVLFAAYANDLSYFAANGDTYPYFKDIGEISFSLANPYVVAGLLFGGLIPYLFGGIAMTAVGKAASSIVEEVRRQFREKPGIMAGTEKPDYGKAVDLLTRAAIKEMVIPSLLPVLAPLVVYFGVLAISGSKASAFAALGASLLGVIINGLFVAISMTSGGGAWDNAKKSFEDGFIDKDGVRHVKGSDAHKASVTGDTVGDPYKDTAGPAVNPAIKITNIVALLLLAVLAH				NA	NA	NA	NA	NA
BMS010_00517	531			hypothetical protein	ATGATCGCAGTCGGGGAAAAGCAGTTGAGCAAGCAGAAATCCGCAAGTCACGGCAATGTTCTGAGCAAGACCGCCATCGCAATCGTGCTCGCATCCGGCCTGCTTTCCGCCTGCAGCAGCACGACCGATGTGTTCCATAACGGCTACGTCATGGACGAGCAGTCGCTTCAGCTGATCCCGGAAGGTTCGAGCCGCGAGCAGGTTCTGCTGACCATGGGCACGCCCTCCACCACCGCGACCTTCGGCAACGAGGTTTTCTATTACATCTCGCAGAAGCGCGTGCGCCGCGCGGCCTTCATGAAGCCGGCGCTGGTCGAGCAGAACATTCTCGCGATCTACTTCAACAAGGACGGCGTGATCGAGCGCAAGGCCAACTATACGCTGCAGGACGGCAAGGTCTTCGACACGATTTCGCGCACCACGCCGACGGGCGGCAAGGACCTCACCTTCCTGCAGCAGTTGCTCTCAGGCGGCACCTCGGGCGCCAATATCGCCAAGAGCATTCTGGGTCAGGGCAACAACACCCCCTGA	MIAVGEKQLSKQKSASHGNVLSKTAIAIVLASGLLSACSSTTDVFHNGYVMDEQSLQLIPEGSSREQVLLTMGTPSTTATFGNEVFYYISQKRVRRAAFMKPALVEQNILAIYFNKDGVIERKANYTLQDGKVFDTISRTTPTGGKDLTFLQQLLSGGTSGANIAKSILGQGNNTP				NA	NA	NA	NA	NA
BMS010_00518	540			hypothetical protein	ATGATATTCGGGCTGTTCAAGAAGAAAAACAACAATCGCGCCATTGTCGACCGGCAATATGCGACTTTGACCGCCGCTGCCCGCACGCCCGCTTTCTATCTCGATCTCGGTGTTCCCGATACGGTCATGGGCCGCTTCGAGATGCTGTCGGTCATCATGATTCTCTATTTCCGCCGCACCAAATCCTCCGATGTCAGCGGTCAGGAGATCGCCCAGGAGATCGTCGACGCCTTTTTTCAGGACCTCGATCATTCCATTCGCGAATTGGGAATCGGCGATCAGGGCGTGCCGAAGCGCATGAAGAAATTCGCTGGCATGTTTTATGGGCGGCTGGAATCCTATGCGACGGCGCTGGATGCTTCCGACCGCGTTGCCCTTGCCGCGGCGCTCCGGCGCAATATATATCCGCAGGTAGATGAGAAGGCGCCCGATATGGACGGGCTGGCAGGCTGGATGATGGACGCATCCACGCAACTTGCCGCCCAGTCCGAAGACACAATAGCAACCGGAAGCCTGACGCTGCCCTTGCCTGGACGATGA	MIFGLFKKKNNNRAIVDRQYATLTAAARTPAFYLDLGVPDTVMGRFEMLSVIMILYFRRTKSSDVSGQEIAQEIVDAFFQDLDHSIRELGIGDQGVPKRMKKFAGMFYGRLESYATALDASDRVALAAALRRNIYPQVDEKAPDMDGLAGWMMDASTQLAAQSEDTIATGSLTLPLPGR				NA	NA	NA	NA	NA
BMS010_00519	564			hypothetical protein	ATGAACGCGCGACACCCTGCAAATGACGACCTGCCTTTTTCCTATCCCGTAAAGGTAGGCCATATTTCCGCCAATCCGGTCAGGATTGGTCTCGAAGCCAGTGCCGAGGAACTGAAGGCGCTGGCGAAATTCTGGAATGTGGTTTCCGTCGAATATCTGAAGGCGGAGCTGCAGGTTTCCCGCTGGAAGAAGGATGGCGTGAAGATCAAGGGCGAAGTGCATGCGGCGGTAACGCAATCCTGCGTCGTCACGCTGGAGCCGGTCTCGAGCAAGATCGATGAGACCGTCGAGCAGATTTTCGTTCCGGAAGGTTCGAAACTGGCGCGGATGGTGACCAATGAGGAAGGCGAGATCGTGCTCGACCCCGACGGCCCGGATATTCCCGACCAGTTCACCGGCGACAGCATCGATGTCGGCGCGGTGGTTGCCGAATTTGCGGCGCTCGCGATCGATCCCTATCCGCGCAAAGCGGATGCGGAATTTGCCGAATCGGCCGAAAAAGAGCCTGAAGAAGAAAAGCGCCCGTCGCCCTTTGCCGTGCTCAAAGATTGGAAAAAAGACTGA	MNARHPANDDLPFSYPVKVGHISANPVRIGLEASAEELKALAKFWNVVSVEYLKAELQVSRWKKDGVKIKGEVHAAVTQSCVVTLEPVSSKIDETVEQIFVPEGSKLARMVTNEEGEIVLDPDGPDIPDQFTGDSIDVGAVVAEFAALAIDPYPRKADAEFAESAEKEPEEEKRPSPFAVLKDWKKD				NA	NA	NA	NA	NA
BMS010_00520	1062	plsX_1	COG0416	Phosphate acyltransferase	GTGATCAGAATTGCAATTGACGTCATGGGTGGCGATTTCGGCCCAGATGTTGCCATACCCGGTGCTGCCAAGGCGCTTGAACGGCACAACGATGTAACTTTTCTGCTCTACGGGCAGAAGAGCAAATGCGACCCCATTCTGGCACAATATCCCGCGCTTCGGGAAAAGTCGGTCTTTCACGATTGTGAAGTCTCGGTCAGCATGGACGAGAAGCCGAGCCAAGCGCTGCGCCGTGGCCGCTACGTTTCCAGCATGTGGCGCGCCATCGAGGCCGTGAAGCTCGGCGAGGCGGATGTCGCCGTTTCCGCCGGCAATACCGGCGCGCTGATGGCCATGGCGAAATTCTGTTTGCGCACCATGGCGCGGGTGGAACGCCCGGCAATCGCCGGCATCTGGCCGACGCTGAAGGGCGAAAGCATCGTGCTCGACATCGGCGCGACCATAGGCGCCGATTCCCAGCAGCTGCTGGATTTCGCTCTGATGGGCGGCGCCATGGCCCGTGCGCTTTTCGATATCGACCGTCCGACCGTCGGCCTGCTCAATGTCGGCGTCGAGGAGGTCAAGGGTCAGGAAGAGGTTCGCGAGGCCGGACGGCTGATCCGCGAGGCCGATCTCGCCACCATCGATTATCGCGGTTTCGTCGAAGGCGACGATATCGGCAAGGGCACGGTGGACGTGGTGGTGACCGAAGGTTTCACCGGCAACATCGCACTCAAGGCCGCCGAAGGCACCGCCCGCCAGATCACCACGCTGCTGCGTGAGGCGATCTCCCGCAGCTTCTTTGCGAAGATCGGTTATATTCTCGCGAAAAGCGCCTTCGATGTGCTTCGTGAAAAGATGGACCCGCGCAAGGTCAATGGCGGCGTGTTTCTGGGCCTGAACGGTATCGTCATCAAGAGCCATGGCGGCACGGATGCCATCGGTTTTGCCTCCGCCGTCGATGTCGGCTACGACATGGTCCACAACGGACTGACGGCCAAGATTGAAAATGATCTGAAGATTTACCACGCAAGACGGCTTCCGCCCCCGGCGCCCGAAGCTCTCGTGGCTGACGAGGAATAA	MIRIAIDVMGGDFGPDVAIPGAAKALERHNDVTFLLYGQKSKCDPILAQYPALREKSVFHDCEVSVSMDEKPSQALRRGRYVSSMWRAIEAVKLGEADVAVSAGNTGALMAMAKFCLRTMARVERPAIAGIWPTLKGESIVLDIGATIGADSQQLLDFALMGGAMARALFDIDRPTVGLLNVGVEEVKGQEEVREAGRLIREADLATIDYRGFVEGDDIGKGTVDVVVTEGFTGNIALKAAEGTARQITTLLREAISRSFFAKIGYILAKSAFDVLREKMDPRKVNGGVFLGLNGIVIKSHGGTDAIGFASAVDVGYDMVHNGLTAKIENDLKIYHARRLPPPAPEALVADEE	PGPT0024410_661	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024410-plsX-K03621	NA	NA
BMS010_00521	972	fabH_1	COG0332	3-oxoacyl-[acyl-carrier-protein] synthase 3	ATGATCCGCTCTATAGTTCGTGGTTTCGGGGCAGCGCTTCCGAAGCGTGTCATGACCAACAGCGAAATTGAAGGGGTCGTCGAGACTTCCGACGAATGGATCGTGCAGCGCACGGGCATCAAGCAGCGCTATATCGCCGGCGAAGGTGAAACCACCGCGTCGCTCGGCGAAGCTGCGGCGCGCGCCGCGCTCGATAATGCCGGCCTGACGCCCGACGATATCGACCTCATCATTCTGGCCACCTCGACCCCGGATAACACCTTTCCGGCAACGGCAGTGAACATCCAGAACCGTCTTGGCATGACCCATGGTTTCGCTTTCGACATGCAGGCCGTCTGCTCCGGTTTCGTTTATGCCGTATCGACCGCCGATCTCTATATTCGCGGCGGCATGGCCAAGCGCGTTCTGGTGATCGGTTCCGAAACCTTCTCGCGCATCCTCGACTGGAAGGACCGTACCACCTGCGTTCTCTTCGGCGACGGAGCCGGCGCGCTGGTTCTGGAGGCCGGCGAAGGCGAGGGCACTTCTGCCGATCGCGGCATTCTGACGGCGCAGCTTCGTTCCGACGGCTCGCACAAGGAAAAGCTCTATGTCGATGGCGGACCTTCCACCACAGGCACTGTCGGTCATCTGCGCATGGAAGGCCGGGAAGTGTTCAAGCACGCCGTCGGCATGATCACCGACGTCATCGAACAGGCCTTCGAGGCGACGGGTACGACGTCCGACGATCTCGACTGGCTGGTTCCGCATCAGGCCAACAAGCGCATCATCGACGGCTCTGCAAAGAAGCTCAACATCGACCCGGAAAAGGTCGTGATCACCGTCGATCAGCACGGCAATACCTCGGCCGCTTCCATTCCGCTGGCGCTCGCCGTTGCCGCCGGTGACGGACGCATCAAGAAGGGCGATCTGGTCATGCTGGAGGCCATGGGCGGCGGCTTCACCTGGGGCGCGGTGCTGCTGCGCTGGTAA	MIRSIVRGFGAALPKRVMTNSEIEGVVETSDEWIVQRTGIKQRYIAGEGETTASLGEAAARAALDNAGLTPDDIDLIILATSTPDNTFPATAVNIQNRLGMTHGFAFDMQAVCSGFVYAVSTADLYIRGGMAKRVLVIGSETFSRILDWKDRTTCVLFGDGAGALVLEAGEGEGTSADRGILTAQLRSDGSHKEKLYVDGGPSTTGTVGHLRMEGREVFKHAVGMITDVIEQAFEATGTTSDDLDWLVPHQANKRIIDGSAKKLNIDPEKVVITVDQHGNTSAASIPLALAVAAGDGRIKKGDLVMLEAMGGGFTWGAVLLRW	PGPT0008355_5469	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008355-fabH-K00648	NA	NA
BMS010_00522	339	ihfA_1	COG0776	Integration host factor subunit alpha	ATGGCCGGGAAGACAGTGACACGCGCAGATCTTGCAGAATCTGTGTTTCGTAAAGTCGGGCTGTCCCGCACCGAATCCGCCGAACTGGTCGAAACGATCATTGACGAAATATGCAACGCGATCACCCGTGGCGAAGTCGTCAAGCTTTCTTCCTTCGCGACATTCCAGATCCGGGAAAAGAACGAGCGTATCGGCCGCAACCCGAAGACGGGTGAGGAAGTTCCGATTTCCCCACGTCGCGTCATGACCTTCAAGGCCTCGAACGTGCTGAAGCAGCGCATCTTGAAGGCCCATACGGCCCGCAAGGCCAAGCAGAAGGGCCAGAAGGCCGGGGCGTAA	MAGKTVTRADLAESVFRKVGLSRTESAELVETIIDEICNAITRGEVVKLSSFATFQIREKNERIGRNPKTGEEVPISPRRVMTFKASNVLKQRILKAHTARKAKQKGQKAGA				NA	NA	NA	NA	NA
BMS010_00523	534			hypothetical protein	TTGGATAAAAGCCCCGACGCGTTTCGGACGATCAGTGAAGTGGCGGATGAGCTGAACCTGCCGCAGCATGTGCTGCGTTTCTGGGAAACACGCTTTCCGCAGATCAAGCCGATGAAACGGGGCGGGGGCCGCCGTTATTACCGTCCTGACGATATCGATCTCCTGAAGGGCATTCGTCACCTTCTTTATGACCATGGTTACACCATCAAGGGCGTACAGAAGCTGTTGAAAGCCAATGGCAACCGCTTCGTGGCGGCCATCGCCTCCGGTGATCTTGCGACCATGGAAGCCATCATGGCGGCGAGCGGTGAAAAGGAAGTCGCCGAACCGCGTGTCGTCGATACCGATGGGGACGAGGTCGTCGGCCGTCCGAAGGCCAAGCCAAGCGGCCGTTTTTTCGGCTTCGGCGGTGGCGGCGGCGATGCGGAAATATCGGTCGGCAAGTCGAGCATCGGCAAGGATGATCAGGCGCTTTTGCAGGAAGCCCTGTTCGATCTCCTCGAATGCAAGCGCCTTCTCGATCAGGTTCGCTGA	MDKSPDAFRTISEVADELNLPQHVLRFWETRFPQIKPMKRGGGRRYYRPDDIDLLKGIRHLLYDHGYTIKGVQKLLKANGNRFVAAIASGDLATMEAIMAASGEKEVAEPRVVDTDGDEVVGRPKAKPSGRFFGFGGGGGDAEISVGKSSIGKDDQALLQEALFDLLECKRLLDQVR				NA	NA	NA	NA	NA
BMS010_00524	729			hypothetical protein	GTGAGCAATCGAAAATCGACAGCACGACGCCGCACGGCGAAGAAATCGGGTGGCGGCAGCGTTTGGCCCTGGGTGCTGATGTTGGGCGTCGTTGCCGGCGGCATTCAGGCTTACGAACATCGCGACAGCCTTTTGCCGCAACGGCATGTTGCAAAGGCGACATCTCCGGCCACGAGTTCTCCGAAAGTCGCGACGGCGGCCAAACGCGATTCCGTCACGCCGGAAAAAGTGGCGTCCATTCGCCCCGCATCGCCGGCTCTGCCCGGCAACGGCCCGGTGCCACCGCGCCCGATCGCCATGCCATCCGCCTCGCAGCCGAGCCAGGTCGCCGCTATCCTGCCGGAAACGCGCCCTTCGGTCGAAAAAATCTCGCTCGGTGAAAAAAGCGGTACTTTTGCCTTTTGCGGTCGTTCCGGCCTCAACAATTGCGTGGCTGATGGCAACACGTTCTGGATGAAGGGTGTGAAGATGCAGATCGCCGGCATCGACGTTCCGCAAATCGACCGAGCGCGCTGTATGGAAGAACGCCAGCGTGGTTTCATTGCAAAGGTCAGGCTTCGCGATATGCTGAACGCCGGCGCCTTCGATGTGGCGTCGTCCACTGCTGCAGACGGACAAGCCACGGAACGCAAACGGCTTTCGCGTTCGGGCGTATCCTTCGCCGATCAGCTAATACGGGAGGGGCTGGCGCATCCGATCTCCGCAAAAAATCAGTCCTGGTGTGGCTAA	MSNRKSTARRRTAKKSGGGSVWPWVLMLGVVAGGIQAYEHRDSLLPQRHVAKATSPATSSPKVATAAKRDSVTPEKVASIRPASPALPGNGPVPPRPIAMPSASQPSQVAAILPETRPSVEKISLGEKSGTFAFCGRSGLNNCVADGNTFWMKGVKMQIAGIDVPQIDRARCMEERQRGFIAKVRLRDMLNAGAFDVASSTAADGQATERKRLSRSGVSFADQLIREGLAHPISAKNQSWCG				NA	NA	NA	NA	NA
BMS010_00526	531			hypothetical protein	ATGAAGAGCACCATTTTCTCGTTAGCGCTCGCGCTGGTCGCCAGCACCGCCATGGCACAGTCCGCAACGGAGTCCACGGGCGTTAATTCCGCGCTCGGGGTTGCGCCCAAAACCGAAGACTTCGTCCTGCAGGTTTCCGCAAGCGATCTCTTTGAAATCGAATCGAGCAAGCTTGCACTGACCAAAGGCGATGAGGCTATCAAGGCTTTCGCGCAGCAGATGATCACCGAACATGAAAAGACCAGCGCGGAGTTAAAGGCTCTTCTCTCCGGCGGCAAAGTAACGGGAACGCCCACGACCGCTCTGACTGACGATCACAAGGAAGAAATCGACGATCTGGCCAAACTCAACGGCGCGGAATTCAACGAGGAATACGTCGATGATCAGGTCGATGCGCACGAGGATGCGGTGGATCTTTTCAAACGATACGCTGACGGCGGCGAGAATGTCGAGCTCAAGGCATGGGCGGCAAAAACCCTGCCGGCACTGCAACACCACCTGGAAATGGCCCAAGGTCTGGATAAGAAGTAA	MKSTIFSLALALVASTAMAQSATESTGVNSALGVAPKTEDFVLQVSASDLFEIESSKLALTKGDEAIKAFAQQMITEHEKTSAELKALLSGGKVTGTPTTALTDDHKEEIDDLAKLNGAEFNEEYVDDQVDAHEDAVDLFKRYADGGENVELKAWAAKTLPALQHHLEMAQGLDKK				NA	NA	NA	NA	NA
BMS010_00527	2505	actP_2		Copper-transporting P-type ATPase	ATGTCACAAATGGAGATCCGGGCGAGTCATCAGATTGCGATCGATGGCATGACATGCGCCTCCTGTGTCGGCCGCGTTGAAAAGGCGATTGCCAAGGTCCCGGGCGTTCTGAAAGCATCGGTCAATCTGGCAACGGAACGTGCCGACATTTCCTTTTCCGGGCCGCCGGATGTGCCGGCCGTTATCGAGGCGGTGCGGCAGGCCGGTTACACCGTCGAAGAGAAAACCATCGAACTCGATATTGAGGGCATGACCTGCGCCTCCTGCGTCGGACGTGTCGAAAAGGCGTTGAAGGCCGTTTCCGGTGTTTCCGGTGCAAGCGTCAATCTGGCGACGGAACGCGCCACGGTCCGCGTCGCCGGCAATGCCGCCTCTGCGGCCAATCTGGCGGACGCCATCCAGCGGGCGGGCTATAAGGCGAACGAGGTTGTTGCCGACAAAGCCAGAGATGGAGAGCAGGACAAGCGCGAGGCGGAACTGCGCAGCCTCAAAATCAGCCTCGCCGCCGCCGTTGTTCTGACGCTACCCGTTTTCGTGCTGGAAATGGGATCGCATCTGGTGCCCGCCATCCATGATTTCGTGATGGAAACGGTCGGCATGCAGGAAAGCTGGTATCTGCAATTTGCGCTGACGACGCTGGTTCTGTTCGGGCCCGGCCTGCGCTTCTTCAAAAAGGGCATACCCGCACTTCTGCGGTTGGCGCCGGACATGAATTCGCTTGTCGTGCTGGGCACCGCCGCTGCCTGGGGATTTTCGGTTGTGGCCACCTTCATGCCCAAAATCCTGCCGAGCGGCACGGCCAATGTCTATTACGAGGCGGCGGCGGTCATCGTCACGCTCATCCTTCTCGGACGTTTTCTGGAAGCGCGCGCCAAAGGCCGCACCAGCGAGGCGATAAAGCGGCTGGTCGGCCTGCAGGCCAAGTCCGCCCGCGTGGTGCGCGATGGCGAAACCATCGATGTGCCGTTGCAGGATGTGCGCACCGGCGATGTGATCGTCGTTCGCCCCGGCGAGAAAGTGCCGGTCGACGGGCTGGTCCTCAGCGGCTCTTCCTATGTCGATGAATCGATGATCACGGGCGAACCGGTGCCGGTCACCAAGGCGGCGGGTTCCGAAGTCGTCGGCGGCACGGTCAACCGCAACGGTTCTTTCACCTTCCGCGCCACCAAGGTCGGCGCCGATACGCTGATCGCCCAGATCATCCGCATGGTCGAGGAGGCGCAGGCCGACAAGCTGCCCATTCAGGCGCTGGTGGACAAGGTGACCAACTGGTTCGTGCCAGCGGTGATGCTGGCAGCGCTCGCCACCTTCATCATCTGGTTCATGTTCGGGCCCGATCCGGCCTTGACCTTTGCGCTCGTCAATGCGGTTGCGGTGCTCATCATCGCCTGTCCCTGCGCCATGGGCCTTGCCACGCCGACCTCGATCATGGTCGGCACCGGCCGCGCCGCCGAAATGGGCGTGCTGTTCCGCCGGGGCGATGCGCTCCAGACGCTCCGGGATGCCGATGTGATCGCCGTCGACAAGACCGGCACCCTGACGCTCGGCAAACCGAAACTGGTGCATTTTACCACGACAGAGGGCTTCGATGCGGATGAGGTGTTGCGCCTCGTCGCCTCGCTGGAGAACCATTCCGAACATCCGATTGCCGAAGCGACTGTCGAGGCTGCGAAACATGGCGGCCTGACACTTGCCGATGCGGAAGGCTTCGAGGCGACCCCCGGTTTTGGTGTTGCGGCAACGGTTGACGGCCGAAGGGTGGAAGCGGGCGCGGACCGGTTCATGGCCAAGCTCGGTTACGATGTCGCGATGTTCGCAGACGATGCCGAGCGGCTGGGCAGGGAAGGGCAGTCGCCGCTTTACGCCGCCGTCGATGGCAGGCTGGCCGTGATCATTGCCGTTGCCGATCCGGTCAAGCATACGACCCCGGAGGCGATTGCGGCGCTGCATGCGCTCGGCCTCAAGGTCACGATGATCACGGGTGACAATCGCCGCACCGCTGAAGCCATCGCCCGCCGCCTCGGCATTGATGAGGTGGTGGCGGAAGTGCTGCCCGACGGCAAGGTGGAGGCCGTCAAGAGGCTTGCTGCCGGCGGGCGACGTGTTGCCTTTGTCGGCGATGGCATCAACGATGCGCCGGCGCTGGCCGCCGCCGATGTCGGCCTTGCCATCGGCACGGGCACGGATGTCGCCATTGAAAGCGCCGATGTGGTGCTGATGTCCGGTGATCTGCGCGGCGTCGCCAACGCCATCGCGCTCTCCAAGGCCACGATCCGCAATATCGGCCAGAATCTGTTCTGGGCCTTCGCTTACAATGCCGCTCTCGTTCCCGTGGCGGCCGGAATATTGTATCCTGTCAACGGCGTTCTGCTGTCGCCTGTCCTTGCCGCCGGAGCCATGGCGCTTTCCAGCGTCTTCGTATTGACGAACGCGCTGCGCCTGAAAAGCTTCCGCGCACCGCTGGTGGACAGATCGTCCGGCATGCAGCTCGCAGCGGCCGAATAG	MSQMEIRASHQIAIDGMTCASCVGRVEKAIAKVPGVLKASVNLATERADISFSGPPDVPAVIEAVRQAGYTVEEKTIELDIEGMTCASCVGRVEKALKAVSGVSGASVNLATERATVRVAGNAASAANLADAIQRAGYKANEVVADKARDGEQDKREAELRSLKISLAAAVVLTLPVFVLEMGSHLVPAIHDFVMETVGMQESWYLQFALTTLVLFGPGLRFFKKGIPALLRLAPDMNSLVVLGTAAAWGFSVVATFMPKILPSGTANVYYEAAAVIVTLILLGRFLEARAKGRTSEAIKRLVGLQAKSARVVRDGETIDVPLQDVRTGDVIVVRPGEKVPVDGLVLSGSSYVDESMITGEPVPVTKAAGSEVVGGTVNRNGSFTFRATKVGADTLIAQIIRMVEEAQADKLPIQALVDKVTNWFVPAVMLAALATFIIWFMFGPDPALTFALVNAVAVLIIACPCAMGLATPTSIMVGTGRAAEMGVLFRRGDALQTLRDADVIAVDKTGTLTLGKPKLVHFTTTEGFDADEVLRLVASLENHSEHPIAEATVEAAKHGGLTLADAEGFEATPGFGVAATVDGRRVEAGADRFMAKLGYDVAMFADDAERLGREGQSPLYAAVDGRLAVIIAVADPVKHTTPEAIAALHALGLKVTMITGDNRRTAEAIARRLGIDEVVAEVLPDGKVEAVKRLAAGGRRVAFVGDGINDAPALAAADVGLAIGTGTDVAIESADVVLMSGDLRGVANAIALSKATIRNIGQNLFWAFAYNAALVPVAAGILYPVNGVLLSPVLAAGAMALSSVFVLTNALRLKSFRAPLVDRSSGMQLAAAE	PGPT0004090_2391	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004090-copA|ctpA-K17686	NA	NA
BMS010_00528	1014	nagAa		Naphthalene 1,2-dioxygenase/salicylate 5-hydroxylase systems, ferredoxin--NAD(P)(+), reductase component	ATGATGACGCCTGGCAACACAATCTATCTGCCGCAGATCGGACGCAGCATCATGGCGGCGCAGGGTGAGACCGTGCTTCAGGCCGCACTGGCGGCAGGGGTTACTTATCCGCATGGCTGTCGCATGGGCCGCTGCGGCGCCTGCAAGTCTCATCTCATTTCCGGCGAAATCGATCTTCTCAAGCATACGCCCTTCTCCTTGACCGAAGAGGATAAAGCCGATGGCCTGACGCTCGCCTGCCGGGCCGTGCCGCTGAGCGACATGACGATCAGCTGGCTCGACGGGGCGGATGAGATCGCCGATATTCCGACCGGCCGCTTTGAGGGCGTGGTTGCGGAAGCGCTGGATGTGACGCACGATATCAAGCTCATCCGCATCCGGCTTGACGATCGCGGGCAGTTTACCTTCAAACCCGGACAATATGTGCGCCTGCTTTATCCCGACTGTTCGCCACGCGATTATTCCATTGCCAGCAGGGTGGATGAGGAACTGATTGAATTCCACATCCGGCATGTTCCCGGCGGCATGACGAGCGGCCGCATCTTCTCGCTCGCAAGCGCGGGTGACCCCGTCACGATAGTCGGGCCTTTCGGCTCTTCGTTCCTGCGGGAAAAACATTGCGGGCCGATCCTCGGCATTGCCGGCGGTTCGGGGCTCGCTCCCGTCAAGGCGGTTGTCGAGGCGGCGCTCGCAACGGGCCGCGAACGACCGGTTCATGTCTATTTCGGCGCGCGCGCCGAGCGTGATCTCTATATGCTCGACCGCTTCGGCGATCTTGCCGCCCGGCATGGCAATCTGAGCTTCGTTCCGGTTCTCTCGCATGAGGAACATGCCAATATCCGGTGCGGTTATGTCGGTGCGGCCGTGGCGGATGATTTCGACGATCTCGATGGCTGGAAAGCCTATATTGCAGGCCCGCCGGCCATGATCGAGGCGACGGTGCCGCAGCTTCTGGCGCGCGGCATACGCACCGCCGACATTCATGCAGACGTGTTTTTCACCCCGGAAAGATAG	MMTPGNTIYLPQIGRSIMAAQGETVLQAALAAGVTYPHGCRMGRCGACKSHLISGEIDLLKHTPFSLTEEDKADGLTLACRAVPLSDMTISWLDGADEIADIPTGRFEGVVAEALDVTHDIKLIRIRLDDRGQFTFKPGQYVRLLYPDCSPRDYSIASRVDEELIEFHIRHVPGGMTSGRIFSLASAGDPVTIVGPFGSSFLREKHCGPILGIAGGSGLAPVKAVVEAALATGRERPVHVYFGARAERDLYMLDRFGDLAARHGNLSFVPVLSHEEHANIRCGYVGAAVADDFDDLDGWKAYIAGPPAMIEATVPQLLARGIRTADIHADVFFTPER	PGPT0022595_621	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PARATOSE|TRYLOSE|ABEQUOSE|ASCARYLOSE_MODIFICATION,PGPT0022595-ascD|ddhD|rfbI-K00523	NA	NA
BMS010_00529	489			hypothetical protein	ATGAATATTGGCACAGCCGCCACCGCATCCGGTGTTTCTGCGAAGATGATCAGGCATTACGAGACAATCGGCCTGATCAAATCGGCAAACCGCACGGAGTCCGGATACAGGGTCTATACGGCCAATGATCTGGAAACGCTGCGTTTCATCCGGCGCGGACGCGATCTCGGTTTTTCCATCGAAAAGATCAGGCAGCTTATGACGCTCTGGCGCGATCCGGGCGGCGCCTCCTGCGATGTCAAACGCATCGTCATGGAACATGTCGTCGATCTGGAAGCGAAGATGCATACGCTTCGCGAGATGGCCGACACGCTGCGAAATCTCGCAAACTATTGCCCTGACAATGGTGAGCCGGATTGCCCGATCATCCATGATCTCGCCCATGCCGAAGATATCGATTTTACGACCGTGGCCATCGTGCCCAAGCGCACCGGAATGCTGAAGGGCACCTCCGGTCCGGTGATGGATCTACAGCGCCCGGTGAAATAA	MNIGTAATASGVSAKMIRHYETIGLIKSANRTESGYRVYTANDLETLRFIRRGRDLGFSIEKIRQLMTLWRDPGGASCDVKRIVMEHVVDLEAKMHTLREMADTLRNLANYCPDNGEPDCPIIHDLAHAEDIDFTTVAIVPKRTGMLKGTSGPVMDLQRPVK	PGPT0004135_149	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexPQ-OpmE,PGPT0004135-cueR-K19591	NA	NA
BMS010_00530	945	gsiC_1	COG0601	Glutathione transport system permease protein GsiC	ATGTGGATACAGATAATACAGCGCTTCCTTATTCTGTGCCTGATGCTGGCGATCGTGTCCGTCATCGCGTTTCTTTTGCCCTATATGGCGGGCGGCGATCCGGCCCGCACCATTCTCATGTCGCGCATGCGAGATACGGCGCTCGATCCGCATGCGGTCGAGGCGCTCAGGGTCAGCCTCGGACTGGACCGCCCGCTCTATGTGCAATATTTCGCCTGGTTGTCGGGCGCGCTGCGGGGCGATCTCGGATTTTCCTTCACCAGCAGCCAGCCGGTCGCCGCCGAGCTTTTGCGGTCGCTCTGGGTGTCGGTGACGCTGGCGCTGACGGCGCTGGCGGTCGCGGTGGCTGTCGCCCTGCCGCTCGGCACTCTGGCGGCGATGCGTCCCGGCGGTCGGCTGGACAATTTCGCGACGCTGATGATCCAGACCTTCGTTGCAACGCCCGAATACTGGTTTGCGCCGATGTCGGCGCTGGTCTTCGCGCTCTATCTCGGCTGGCTGCCCTCGGCCGGATGGGATAGCTGGCGTTCGCTGGTGCTTCCTGCGCTGACCCTGACGCTGCGGCCGCTTGCCTATTTCACCCAGGTGACGCGCGCGGCAATGGCCGAAGTTCTGCGCGCGCCCTATATCACGGCGGCCCGCAGCCGCGGTCTCGGCATGCATGGCACGGTCATGCGCCACGGCATCCGCAACGGCTCGCTGCCGGTGGTCACCTTCTTCGCCCTGTGGCTTGCCGGCCTGCTTGGCGGATCGGTGGTGGTGGAAGTCATCTTCGCCATTCCCGGCATGGGCCGGCTTCTCTACGACGCCGTGGTCAATCGCGACATTCCGATGCTGCAGGGCGGTTTCATCTGCATCGTGGCGCTCTCCATCCTGATCAATACCCTCGCCGACAGCTTTTATGTCCTGATCAATCCAGCAATGCGAGCTCACCATGACCATTAG	MWIQIIQRFLILCLMLAIVSVIAFLLPYMAGGDPARTILMSRMRDTALDPHAVEALRVSLGLDRPLYVQYFAWLSGALRGDLGFSFTSSQPVAAELLRSLWVSVTLALTALAVAVAVALPLGTLAAMRPGGRLDNFATLMIQTFVATPEYWFAPMSALVFALYLGWLPSAGWDSWRSLVLPALTLTLRPLAYFTQVTRAAMAEVLRAPYITAARSRGLGMHGTVMRHGIRNGSLPVVTFFALWLAGLLGGSVVVEVIFAIPGMGRLLYDAVVNRDIPMLQGGFICIVALSILINTLADSFYVLINPAMRAHHDH	PGPT0004445_11686	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004445-ddpB|appB-K02033	NA	NA
BMS010_00531	906	gsiD_1	COG1173	Glutathione transport system permease protein GsiD	ATGACCATTAGCCATTTCCCGAGCGCGTCTGCCGCCGCCATGCCGATGACCACGCCCCAGCGCCCTTCGAACCTCGCCCGCTTCACGGATTTCATCCGCCGCCGGCACTGGACCTTCTATGCGGGATCGGCGATTTTTCTCGTCATCATCCTGCTGCTGGTGATCGCACCGTGGATTTCGCCCTATGATCCGGCAAAGCAGAGCCTTCGGCTCAGGCTGAATGCGCCGAGCGCTGCCTATTGGCTTGGGACGGACCATCTCGGGCGCGATGTCTTGAGCCGGCTGTTGATCGGCGGCCGCTTCACGGTCACGATTGCCGCCATCACCGTCATTCTGTCGGTGGTGATCGGAACCTTCATCGGCATCATCAGCGGCCGCAGCCGCGGCATCCTCGACGAAGTGCTGATGCGCATCGTGGACCTGCTCATCGCCATACCGGACGTGGTGATCGCGATTTTTCTCGTCGCCATCTTCGGTCCGGGATATGGCACGCTGATCGCATCGCTGACCATCGTTGGCTGGACACCTTTTGCGCGGCTGGCGCGGGGGCTGACACTGTCGATCAATTCCCGCGAATATATCCGCGCGGCAGAGGTGCTCGGCTGCACACGGCGCTTCATCATCTTCCGGCATATCATTCCCAACACGATCTGGCCCATCGCGGCCGTGGCGTTCCTGCGCTTTGGCCACAAGCTGATCACGGTGGGCGGATTGTCGTTTCTGGGCCTCGGCGTACAGCCGCCTGCGGCCGACTGGGCGCTGATGCTGGCCGATGCGCAGGCTTATGCGGAACGGATGCCCGTTCTCGTCATTGCACCGGGTCTGGCGATTTTCCTGGCGGCGCTCAGCGTGACGTGGATCGGCCATGGCCTGAACCTGGAAACGAAGAAAACCGACGGTCATTGA	MTISHFPSASAAAMPMTTPQRPSNLARFTDFIRRRHWTFYAGSAIFLVIILLLVIAPWISPYDPAKQSLRLRLNAPSAAYWLGTDHLGRDVLSRLLIGGRFTVTIAAITVILSVVIGTFIGIISGRSRGILDEVLMRIVDLLIAIPDVVIAIFLVAIFGPGYGTLIASLTIVGWTPFARLARGLTLSINSREYIRAAEVLGCTRRFIIFRHIIPNTIWPIAAVAFLRFGHKLITVGGLSFLGLGVQPPAADWALMLADAQAYAERMPVLVIAPGLAIFLAALSVTWIGHGLNLETKKTDGH	PGPT0004450_7059	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004450-ddpC|appC-K02034	NA	NA
BMS010_00532	1068	oppD_1	COG0444	Oligopeptide transport ATP-binding protein OppD	ATGAATATCGAAGGACAAACGCTTGCCAATACGGCCATGTCCCCTGAATGCGCACCGCTTCTGGAGATAGAGGACCTGCACGTTTCAGTGCCGGCGCAAAATGGCCGCAAGTTTGTTATTTCGGGCCTGACGCTTTCCGTCAACGCCGGAGAAGTCGTCGCTCTCGTCGGCGAATCCGGGTCGGGCAAGAGCATGACGGCGCTGTCACTGATGCGGCTTTTGCCGCATGGCGCGGAAATCAATTCCGGCCGCATTTCCTTTGCCGGTCGCGATATTCTCGCTCTTTCATCCTCCGAACTCGATGCGCTGCGCGGCGCAGATATCAGCATGCTGTTCCAGCAGCCGCAGGCCATGCTCGACCCGACCAGCCGGGTGAGGACGCAGGTGGCCGAGCCGCTCTGGATCCACCGTAAAATGAGCCGGCACGCCGCACTTAACCGGGTCGTCGGCCTTCTGTCGGATGTCGGCATTCCCGATCCATCGGCGCGGGCGCAGTGCTTCGCGCACGAGCTTTCCGGCGGCATGGCGCAACGTGTGATGATTGCGGCCGCACTCTCCGGCAATCCGCAGCTTCTGATCGCCGACGAACCGACGACGGCGCTTGATGTCACCGTTCAGGCACAAATCCTGCGACTGCTCGACGACGAGCGCCGCAAGCGCCGGCTTGCCACGCTGCTCATCACTCATGACCTCTCGGTCGTCGCCGCCTTCGCGGACCGGATCGCGGTCATGTATGCCGGCCGCATCGTCGAGGAGGGGCCGACCCAGGCGATCCTCAAGGCGCCGCAGCACCCCTATACCAGGGCGCTCATCAGCTGTTCGCTTTTGACCACCGACAGCGAGGGGCAGCTGCTGACGATCCCCGGCTCCAGTGCGCAGGCCCATGACATGTCCTGCGGCTGCCGGTTTCATCCGCGCTGCGCGCTTGCCAATTCGGCAGGCATGAGAGGCCGCTGCATGGCCTCGGAACCGGATCTGAATGCCTTGCCCGAAGGACGCAAGGCGCGGTGCTGGGCGGTCGGCCACGACCATGCCAACCACGACCATGCCAGTCACACGGTCTGCTGA	MNIEGQTLANTAMSPECAPLLEIEDLHVSVPAQNGRKFVISGLTLSVNAGEVVALVGESGSGKSMTALSLMRLLPHGAEINSGRISFAGRDILALSSSELDALRGADISMLFQQPQAMLDPTSRVRTQVAEPLWIHRKMSRHAALNRVVGLLSDVGIPDPSARAQCFAHELSGGMAQRVMIAAALSGNPQLLIADEPTTALDVTVQAQILRLLDDERRKRRLATLLITHDLSVVAAFADRIAVMYAGRIVEEGPTQAILKAPQHPYTRALISCSLLTTDSEGQLLTIPGSSAQAHDMSCGCRFHPRCALANSAGMRGRCMASEPDLNALPEGRKARCWAVGHDHANHDHASHTVC	PGPT0004435_7191	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004435-ddpD-K02031	NA	NA
BMS010_00533	1011	btuD_2		Vitamin B12 import ATP-binding protein BtuD	ATGCTAGCGACAGCGACGACACAGACCCCGCCATCGGCGGAAAACGGCAAGCGACCCTTCGTGGTCGCGAAAAACCTTTGCAAATATTATCCCATATCGGGTCTCGGTCACCGTGTGGTGAAATCCGTCGACGATGTTTCCCTGACGATCGGCGAGGGGGAAGTGCTTGGTCTCGTCGGTGAATCCGGATGCGGCAAAAGCACGGTTGCCGGGCTGATTACGCGGCTGACCCACGCAACGAAAGGCGAGGTCAGCATTGGGCAGAACGATATGCTGCACATGCAGGGCGAGGCGCTTCGGCGTATGCGCCGGGTCGTGCAACTGGTGTTTCAGGACCCTTATTCCGCACTCGATCCACGCATGCGTATCGGCCAGAGCATGGAAGCGCCGCTTGCCCAGCATGGCATCGGCACGCGCGAGGAGCGCACGGCCCGGGTTTTCCGGATGCTGGAAGAGGTCGGCCTGGATGGCTCTTTTTACGATCGGTATCCGAGCCAGTGTTCCGGCGGCCAGTTGCAGCGCGTCGTCATCGGCCGCGCGCTGCTTCTCAATCCGAGCTTCCTTGTCTGCGACGAACCGACATCGGCGCTCGACGCCTCAATGCGCACGCAGATCCTGAACCTTCTGATGGACATGAAGCGCCGTCACGGTTTGACGGTTCTGATGATTTCTCACGATCTGCGCGTGGTGCGTTATCTCTGCGATCGCATCGCGGTCATGTACCTCGGACGTGTCGTTGAAATCGCCGACCGGGAGGAGCTTTTCCGGGCGCCGAAGCACCCCTATACCAAGGCTCTCATAGCATCGTCGATGCTGGACGAGACGGGGTTATATGCACCGGAGATGCTTCTGGACGGCGATCTGCCGAGCCCTCTCAATCCTCCGAACGGCTGCAAATTCCACACCCGCTGCAAATATGCGACCGAGATATGCGGCGAGGTGGAACCCGTTCTGGAAGGCGTTTCCGGCGAGCATTTCGCGCGCTGCCATCGCTGGCGGGAATGGGGCTGA	MLATATTQTPPSAENGKRPFVVAKNLCKYYPISGLGHRVVKSVDDVSLTIGEGEVLGLVGESGCGKSTVAGLITRLTHATKGEVSIGQNDMLHMQGEALRRMRRVVQLVFQDPYSALDPRMRIGQSMEAPLAQHGIGTREERTARVFRMLEEVGLDGSFYDRYPSQCSGGQLQRVVIGRALLLNPSFLVCDEPTSALDASMRTQILNLLMDMKRRHGLTVLMISHDLRVVRYLCDRIAVMYLGRVVEIADREELFRAPKHPYTKALIASSMLDETGLYAPEMLLDGDLPSPLNPPNGCKFHTRCKYATEICGEVEPVLEGVSGEHFARCHRWREWG	PGPT0004440_7080	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004440-ddpF-K02032	NA	NA
BMS010_00534	1494	nikA	COG0747	Nickel-binding protein NikA	ATGATGAAGCACGCACTTCTGGCGTCATGCGCCATTGTGGTTTCGTTTGGAGCGCCTGCGGCAGAGGCCGCCACGATTACCTATGACGATTATACCGGCGTCAAGACAGGCTGGCAGATGGCTTCCGACGATGCCTATCTGGGTTCGCGCGCCGGCTGTTTCGAAAGCCTGGTCCGCGTCGGTTATGACACGAAACTGGAGCCGGGGCTGGCCGAATCCTGGACGCAGACCTCACCGAAAGTTTGGGAGTTCAAGCTGCGCAAGGGCGTGAAATTCCAGAACGGCGAGCCGCTTAATGCCGCTGCCGCAGTCAATGCACTCACCAATCTTTTGAAAGCGCCCGTTCCGGCCCGGGCCTTTTCGCCGAAGCTGATCGCTGGCGTTGACGCAAGCGGTGACGATATCGTGAAGATCACCACCATCGAGCCATCGGTGCTGCTGCCGGCGCAAATGGGTAGCCCTGCGACTTCGATCCTCGCGCCGTCAGCCTATAAGGATGGCAAGGTCGATCCGATTGGAACCTGCACCGGCCCCTTCAAGATCACCAAGGTCGATCCGAACCAGTATATGGAGCTGACCGCGAACCATGACTATTGGGCCGGTATGCCGAAGCTTTCGGGTGGTCGCGTGAACTTTATTCCGGATGCCGATACGCGAGCCACCCAGATAAGAAGCGGTGAAGTGCAGATTTCGCGCGTGATCCCACCCTGGACGGTAAAGACCGTTGAAGCGGCCAAGGGCGTCAAGGTTGCGTCGATCACCGTGCCGCGGATTACTGAAATGCTGCTCAATAATTCAAAGGCGCCATTCAAGGATATCAAGGTTCGGCAGGCGATCCGGGCCGCCATCGATACCGCCGGTATTGCCGACAGCATCTATGAAGGCGTTGTAAAGCCCGCGACGATGCCCTTTGCACCGGGTGAGCCATGGGCGCCGCAAGACGTCGCACCCGCTTATGACCTGGAGAAGGCAAAGGCTCTGCTGAAAGAGGCCGGGTTTGCTCCCGGCAGCCTGAAGCTGACGCTTCTTGCCTACACGGAAAGAACCGAACTCAAGGATGTTGCCGCCGTTATCCAGGCCCAATTGCAGGAAATCGGCATCAAGGTCGATGTTCGCGTTGCCGACTACACCGCGATCGAGCCCGATCTTCTTTCCGGCAACTTCGACATGGTTCTTCTGTCGCGCGGTTATGCCACCGATGTTGCAGAACCGATCGGCTTCCTCAATGCCGATTACACCTGCACAGGCGGTTACAACATCTCGCATTATTGCAGTGAGGAGACGGACAAGCTGATCAAATCGGCCTATGCGGTTGCCGAGCCGGCCAAGCGTTACGCCATCTACGCCGAAGCGGCGAAAAGGGTTTATGATGAGGCCGTCACCGTCTACCTCATCCATGAGACCGCCTTTGATGCCTATTCGGACAAGGTTGAGAACTTCAAGCCGCATCCGATCAATTACTTTATCATGACCAAAGATTTGGCCGTGAAATAA	MMKHALLASCAIVVSFGAPAAEAATITYDDYTGVKTGWQMASDDAYLGSRAGCFESLVRVGYDTKLEPGLAESWTQTSPKVWEFKLRKGVKFQNGEPLNAAAAVNALTNLLKAPVPARAFSPKLIAGVDASGDDIVKITTIEPSVLLPAQMGSPATSILAPSAYKDGKVDPIGTCTGPFKITKVDPNQYMELTANHDYWAGMPKLSGGRVNFIPDADTRATQIRSGEVQISRVIPPWTVKTVEAAKGVKVASITVPRITEMLLNNSKAPFKDIKVRQAIRAAIDTAGIADSIYEGVVKPATMPFAPGEPWAPQDVAPAYDLEKAKALLKEAGFAPGSLKLTLLAYTERTELKDVAAVIQAQLQEIGIKVDVRVADYTAIEPDLLSGNFDMVLLSRGYATDVAEPIGFLNADYTCTGGYNISHYCSEETDKLIKSAYAVAEPAKRYAIYAEAAKRVYDEAVTVYLIHETAFDAYSDKVENFKPHPINYFIMTKDLAVK	PGPT0004430_18059	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004430-ddpA|ABC_PE_S-K02035	NA	NA
BMS010_00535	255			hypothetical protein	ATGTGCACCGCTCACCAGCATCACGCCGAAACCACCACGGCACCGGTTGATGCAGACCTTTCTTTTCACGTTGAAGACATGACCTGCGGTCACTGCGCCGGAGTGATCAAGGGCGCGATCGAAAAGACCGTTCCCGGCGCTGCCGTGCATGCCGATCCGGCAAGCCGCACGGTCGTGGTTGGCGGCGTCTCCGATGCGGCACGTATTGCCGAAATCATCACCGCTGCAGGCTATACGCCGGAAGCACGCGCCTGA	MCTAHQHHAETTTAPVDADLSFHVEDMTCGHCAGVIKGAIEKTVPGAAVHADPASRTVVVGGVSDAARIAEIITAAGYTPEARA	PGPT0004125_611	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004125-ATOX1|ATX1|copZ|golB-K07213	NA	NA
BMS010_00536	1458	trkI_1	COG0168	Trk system potassium uptake protein TrkI	TTGAACAGCAACCTTCTGCGCTCGGTGATATATGTGGCGTCCATCTTCGGGCTTTACATGGCGACGGCCATGTTTCTGCCGGCGCTCACCGATCTTTATTACGGCAATGACGACTGGATGGTGTTTGCGCTGTCGGGTTTCATGTGCGGGGGCTTTGCGCTTGCCTGCGCGCTGGCGACGCGCGGGCCGATTGCGGCCTTCAACAAACGTTTCGGCTTTCTGCTCGTCAACCTGCTCTGGCTGGTGTTTTCCATTGTCGGCGCGGTTCCGCTTTACCTGTCCGAACTCAACCTGACGCTCGGCCAGGCGCTGTTCGAATCCGTTTCCGCCATTACGACGACGGGGTCGACAGCCATTGCCGGTCTCGACAACGCGCCGCAGGGCATCCTTCTGTGGCGTTCGCTGCTGTGCTGGCTTGGCGGTATAGGTATCGTGGCGCTCGGCCTCTTCATCCTGCCGCTGCTGCGCGTCGGCGGCATGACCTTCTTCCGCATGGAATCTTCCGACACCGGCAACGACCGGCCTTTTGCGCGGCTGGCGAGCTTCACGCGGGCTTTCGTGGCCATTTACATCATCATGACGCTTGCCTGTACGATCGCTTACGATTTTGCCGGCATGTCGCATTTCGATGCGCTGAACCATGCCATGTCAACGGTCGCGACTGGCGGTTTCTCCACCCATGACGCGTCTTTCGCCTATTTCGACAACACGGCGCTCTTGTGGATCGCCACCATCTTCCTGATCTTCGGCAGCCTGCCCTTCTCGGTCATGATCCTGCTTGCGGTGCGCCGCCGACTGGAAACGCTGCGCGACCCGCAAATCGCCGTCTTCCTCGGTTATCTCTGTGCGATCTCGATTGCGGTCGGCGTCTACCATCATTTCAGGAACGGCGTGCCGCTGGATGACGCGCTCAGCCATTCCTTCTTCAATATGACCTCGATCCTTTCGACCGGCGGCTTTGTCAGCGACGACTATACGCTCTGGGGGCCTTTCGTCGTCGTCGTCGCGTTTTTCGCAACCTTCATGGGCGGCTGTTCCGGCTCGACGGCGGGCGGTATCAAGGCCTATCGTTTTCTCATCATGTTCAACGTGGTGCGCGCCGGGCTGAAGAAGCTGATCTATCCGAACGCGGTCTATTCGGTGCGTTACGGCCAGCAGGTGGTCGATCCCGATACGATCCGGACGATCTTCCTGTTCGTCAGCTGTTTCATCGCGCTGTGGATCGCCGGCAGCCTTGCCATGAGCCTGATGGGTTACGATTTCCTGACTGCCACCTCGGCCGTTGCGACCTCGCTCGCCAATGTCGGACCCGGCATCGGCCCGATCATCGGCCCGGCGGGCAATTTCTCCACCATCAGCGATCCTGCCCTTTATCTCCTCTCGGTCCTGATGCTGCTCGGACGTCTGGAAATCCTGACGGTTCTGGTGCTGCTGATGCCGATCTTCTGGCGCAGCTGA	MNSNLLRSVIYVASIFGLYMATAMFLPALTDLYYGNDDWMVFALSGFMCGGFALACALATRGPIAAFNKRFGFLLVNLLWLVFSIVGAVPLYLSELNLTLGQALFESVSAITTTGSTAIAGLDNAPQGILLWRSLLCWLGGIGIVALGLFILPLLRVGGMTFFRMESSDTGNDRPFARLASFTRAFVAIYIIMTLACTIAYDFAGMSHFDALNHAMSTVATGGFSTHDASFAYFDNTALLWIATIFLIFGSLPFSVMILLAVRRRLETLRDPQIAVFLGYLCAISIAVGVYHHFRNGVPLDDALSHSFFNMTSILSTGGFVSDDYTLWGPFVVVVAFFATFMGGCSGSTAGGIKAYRFLIMFNVVRAGLKKLIYPNAVYSVRYGQQVVDPDTIRTIFLFVSCFIALWIAGSLAMSLMGYDFLTATSAVATSLANVGPGIGPIIGPAGNFSTISDPALYLLSVLMLLGRLEILTVLVLLMPIFWRS	PGPT0002735_1498	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002735-trkG|trkH|ktrB-K03498	NA	NA
BMS010_00537	1275	ilvA_1	COG1171	L-threonine dehydratase biosynthetic IlvA	ATGAATTTCAATGGATTGACTATCGTGGACAAGCAGCTTGTGGAAGCAGCGCGGCGAGAAGTGCGGGAAATATTCCCGGAAACGCCGTTGCAGTTGAATGAACATCTCAGCCGTCGATATGGCGCGTCGATTTGGCTGAAGCGTGAGGATCTGTCCCCGGTTCGTTCCTACAAGATTAGAGGCGCATTCAACTTCCTGCGCAAGGCGGTGGCGAAGGCCGGCAAAGGCAAGGTTTTCGTCTGTGCTTCCGCCGGCAACCATGCGCAGGGCTTTGCTTTCGCCTGCCGTCATTTCGGTGTTCAAGGCGTTGTTTTCATGCCGGTGACGACACCGCAGCAGAAGATCGAAAAGACCCGCATCTTCGGCGGCGAATTCATCAGCATCCGTCTGGTGGGCGATATATTCGACCAGTGTTATGCCGCCGCCCGCAAATATGTTGAGGACAATGACGGCTACATGGTGCCGCCCTTCGACCATGAGGACATCATCGAAGGCCAGGCGACGGTCGCCGCCGAAATCATGGATCAGCTTCCGGAAGGCACGAAGCCGGATATCGTCGTCATGCCCGTTGGCGGCGGGGGTCTTTCTGCCGGTCTATCGGGCTTTCTGGCCGGCACGGTCCGCAAGGAGAACTTCGTGTTCTGCGAGCCGGAAGGGGCGCCGAGCCTGAAGAAAAGCCTTGAACGCGGCGAACCGGTGACGCTGAACAAGGTCGATAATTTCGTCGACGGCGCCGCCGTTGCCCGCATCGGCGACCTGAACTTCAAGGCTCTGAAGGATTTTCCGGCCGAGCAGGTCATGCTCATCCCGGAAAACGCCATCTGCGTGACGATCATCGAGATGCTGAATCTCGAAGGCGTGGTGCTGGAGCCGGCCGGCGCGCTGGCAATTACCGCGCTGGAAAAGCTCGGCCGCGAGAGGCTGGAAGGCAAGACGGTCATCGCCGTCGTCTCCGGCGGCAATTTCGATTTCGAGCGTCTGCCGGACGTGAAGGAACGCGCCATGCGTTATACGGGCGTGAAGAAATACTTCATTCTGCGCCTGCCGCAGCGCCCCGGCGCGTTGCGCGATTTCCTAAACCTGCTCGGCCCGGATGACGATATCGCCCGTTTCGAATATCTGAAGAAATCGGCCCGCAATTTCGGTTCGATCCTGATCGGTATCGAAACCAGCGCGAAGGAGAATTTCGCCGGCCTGCTGGAGCGCTTCGAAGCCGCCGGTCTCGGTTATGAGGACATCACCGAAAACGACATCCTGTCGAACCTGATCATCTGA	MNFNGLTIVDKQLVEAARREVREIFPETPLQLNEHLSRRYGASIWLKREDLSPVRSYKIRGAFNFLRKAVAKAGKGKVFVCASAGNHAQGFAFACRHFGVQGVVFMPVTTPQQKIEKTRIFGGEFISIRLVGDIFDQCYAAARKYVEDNDGYMVPPFDHEDIIEGQATVAAEIMDQLPEGTKPDIVVMPVGGGGLSAGLSGFLAGTVRKENFVFCEPEGAPSLKKSLERGEPVTLNKVDNFVDGAAVARIGDLNFKALKDFPAEQVMLIPENAICVTIIEMLNLEGVVLEPAGALAITALEKLGRERLEGKTVIAVVSGGNFDFERLPDVKERAMRYTGVKKYFILRLPQRPGALRDFLNLLGPDDDIARFEYLKKSARNFGSILIGIETSAKENFAGLLERFEAAGLGYEDITENDILSNLII	PGPT0001960_2504	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_THREONINE_DEGRADATION,PGPT0001960-ilvA|tdcB-K01754	NA	NA
BMS010_00538	312			hypothetical protein	ATGGCATCGTTTTTTTCCAAAATCCTCTCGGCCTTCGGCTCCGGCCAGCCGTCCTCCGACGCGCCGCAGAAGGTCGCCCAGGCGGAGCCGCATGCGCATGGCGACTATCTGATCTATGCGACGCCGATCAAGGAAGGCGGCCAGTTCCGCCTGGCGGGCCGCATCGAAAAAAAGGCCGGCGATGAAGTGCTGGTGCATGAATTCGTGCGCGCCGACGTCTTCACCAGCATGGATGATGCGGTTGAGTTCACGATCCGCAAGGCAAAGCTCATCATCGACCAGAACGGCGCTTCGCTTTTCCCAGGAAAATGA	MASFFSKILSAFGSGQPSSDAPQKVAQAEPHAHGDYLIYATPIKEGGQFRLAGRIEKKAGDEVLVHEFVRADVFTSMDDAVEFTIRKAKLIIDQNGASLFPGK				NA	NA	NA	NA	NA
BMS010_00539	1266			hypothetical protein	ATGCAATGGGCAAATCTCGCCCTCTTTCTGACGGAAGCCGTCGTCTATTTCTCGGTAATGACGGCATTCCTTCATTACCGGCATATTCTCGGCATCGGTGTTTTTCTCACCGCGCTGGGCGTCATGCATTTTCTGGAAACCTACCTGGCGGCCGTATTTTACGTGCAGCTGCCTTTCGGTGTGGCATCGCCCGGCTCCTCGATCCTTTTTGCCGGCAAGCTGATGATGATCCTCATGCTCTATATGCGGGAGGACGCGGCGGTCGTTCGACAGCCGATCTACGGCCTGTTTCTCGGCAATATAGTGACCGTCATCATGGCGCAGATCATCCGTTTCCATCAGACGGTGGCGATCGTTCCCGGGCAGTCGGTCAGCACCGCATTTCTGGATGACATGGGCGTGCTGATGGTTTGGGGAACCAGCCTGCTTTATATCGACGCCATCGCCATCATCCTGTTTTACGAAAAACTGGGGCGTTATTTGCAGCGCCATATCGTACTGCGCTTTGCGATCTGCGGTGTCGTTATCCTGAGCTTCGATCAGGCGGGTTTTTATGGGGCGCTGCGATTGTTGTTCAACGCCCCTCTCGATGTCTTTTACGATGGCTGGAAGGCGAAGATGGCGGCAGTCGGCATCTATTCGCTGCTGTTTGCCACCTATCTCTGGCTGACATCGGCCAAGGGCCGCTTTCTGACACGCCGCAGCGTTGCCGATGTCTTTAACGATCTCACCTTCAGGGAACGTTACGAGGAGCTTCTGTCCCGCTCCGGACGCGATATGTTGACGGGCGTATCGGACCGCGCCCGCATGGAGCTCGATGCGCCCTCCGTCGTCGTGGAGTGCCTGGAGAAAAAGCGGCCGGTCAGCGTGCTGATTGTCGATATCGATCATTTCAAGACCGTCAACGATACGTTCGGACACCTGCAGGGCGATGATATCTTGCGGGAATTCGCCGCCGTCCTGAAGCGCGCGGTGCAGCCGCTGGGCCATCTCTACCGCTTTGGCGGTGAGGAATTCGTTGTCCTCCTGCCGGCAATGGCGCATGAAACGGCGCTGGCATTTTCGAACAATCTTCGGGCAGCGATCCTTGCGGACCTGCAGCGGCCGGACGGTTCGCCGCTGACCGTCAGTATCGGCGTCGCCACCGCTTTCGAGGATGGACAGCTTTTCCGCGCGCTCCTATCGGAGGCCGATGCGCGGCTCTATGCGGCAAAAAATAACGGCCGGGACCAGGTCCACGGCCGTTACGGAATGTGGGTCGGCTGA	MQWANLALFLTEAVVYFSVMTAFLHYRHILGIGVFLTALGVMHFLETYLAAVFYVQLPFGVASPGSSILFAGKLMMILMLYMREDAAVVRQPIYGLFLGNIVTVIMAQIIRFHQTVAIVPGQSVSTAFLDDMGVLMVWGTSLLYIDAIAIILFYEKLGRYLQRHIVLRFAICGVVILSFDQAGFYGALRLLFNAPLDVFYDGWKAKMAAVGIYSLLFATYLWLTSAKGRFLTRRSVADVFNDLTFRERYEELLSRSGRDMLTGVSDRARMELDAPSVVVECLEKKRPVSVLIVDIDHFKTVNDTFGHLQGDDILREFAAVLKRAVQPLGHLYRFGGEEFVVLLPAMAHETALAFSNNLRAAILADLQRPDGSPLTVSIGVATAFEDGQLFRALLSEADARLYAAKNNGRDQVHGRYGMWVG				NA	NA	NA	NA	NA
BMS010_00540	618	azoR_1	COG1182	FMN-dependent NADH-azoreductase	ATGTCCAACATTCTTCTCATCACCTCCAGCCCGCGTGGCGACGAATCGGTTTCCAACAAGTTTGCCGGTGAACTCGCAAACAAGCTGAAGGCGAAGTCGGCTTCCAACACCCTTGTCCACCGCGATCTCGCTGCTGACCCGATCCCGCATCTCGACACCGTCAAGACCGCCGCCATCCGCAAGGCGCCCGACCAGCGCACCGCCGAAGAAGCGGTTGCCGCCGATTATTCCGACAAGCTGGTGACCGAGCTTCTCGCCGCCGACACCGTCGTCATCGGCACCGGCCTTATCAATTTCAACATTTATTCCGGCCTGAAGTCGTGGATCGACAATGTCGCCCGCGCCGGCCAGACCTTCAAATACACCGAAACCGGCCCGGTCGGCCTCGCCACTGGCAAGAAGGTCTACATCGTTCTGGCCGCTGCCGGCGTTTACTCCGAAGGCCCGGCGGTCTCGATGAACCATGCCGTTCCTTACCTGAAGACCGTTCTCGGCTTCATGGGCATGACCGATGTGGAAGTCATCTATGTCGAAGGCCTGGCATTCGGTCCGGAAGCCGTCGAAAAGGCTGTGGCTGCCGCTGAAGCCAAGGTTGCCGAGCTGGCGCAGGCCGCCTGA	MSNILLITSSPRGDESVSNKFAGELANKLKAKSASNTLVHRDLAADPIPHLDTVKTAAIRKAPDQRTAEEAVAADYSDKLVTELLAADTVVIGTGLINFNIYSGLKSWIDNVARAGQTFKYTETGPVGLATGKKVYIVLAAAGVYSEGPAVSMNHAVPYLKTVLGFMGMTDVEVIYVEGLAFGPEAVEKAVAAAEAKVAELAQAA	PGPT0006790_1808	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS	XENOBIOTIC_AZO_DYE_DEGRADATION,PGPT0006790-acpD|azoR-K01118	NA	NA
BMS010_00541	969	yahB		putative HTH-type transcriptional regulator YahB	ATGGACGCGAACCCGACCCTCGATCAATTGCAGGTGTTTTTGACGGTTGCCGAGACCGGCAGTTTTTCCGCCGCGTCACGGGCGCTCAATCGCGCCCAGTCGGTAGTCAGCTACACCATCGCCAATCTCGAGGCGCAGCTTGAAGTGACGCTGTTCGAGCGCAGCGGCGTGCGTCAGCCGAAGCTGACGGATGAAGGCCGCGCCATGCTGGAGGATGCAAGGCGCATCGTAGCCGGCCTGCAGGAGATGCGCGCCCGCGCCAAGGGGCTGAAGCAGGGGCTTGAGGCGGAACTCTCGGTCGCCATCAGCACCATGGTGCCGGCGGAGGCCATGGTGGCCGTGCTGCGGGATTTTCGCCAGCAATTCCCAACCGTCACCCTCAGCCTCAATGTCGGCGAGCTGGGCATGGTCATGGAGATGGTGCTTTCCCGCAAGGCCGGAATCGGCATCGGCGGGGCGGTATTGCGCCAGGATGATGAACTCGTGATGGAAAAAGTCGGCCATTCCTTCATGTTGCCGGTGGTTGCGGCAGACCATCCACTGGCGCAGATCGAGCGGCCTCTGGTTCTCGCTGACGTGCGCGAGGAGGTTCAGCTTGTTGTCACCGATGCTTCGGGCCTGACCAAGGGGCGGGATTTCAACGTGCTGTCCTACAAGACGTGGCGCGTCAGCGACATCGCCACCAAATACCAGCTCATCAAGGGCGGCCTCGGCTGGGGCGGTCTGCCCGCGTCGATCGTGCGCAATGATTTGACCAATGGCAGCCTGAAGGCGCTCGAGCTGGAGGCCTATGAGCAGGGCGAGTATCCGCTCTTTTCACTGCGAAGGGTGGATTCACCGGCGGGGCCCGCAGGCCAGTGGCTTGCCGAAGCATTTCAGGAACGCCTCTCCGCATGCCCGAACCATAAGGATTTCAACGGGATGATTGAGGCTAACAAACACAAGCCGATTGCTGTCGCCGCTGAGTGA	MDANPTLDQLQVFLTVAETGSFSAASRALNRAQSVVSYTIANLEAQLEVTLFERSGVRQPKLTDEGRAMLEDARRIVAGLQEMRARAKGLKQGLEAELSVAISTMVPAEAMVAVLRDFRQQFPTVTLSLNVGELGMVMEMVLSRKAGIGIGGAVLRQDDELVMEKVGHSFMLPVVAADHPLAQIERPLVLADVREEVQLVVTDASGLTKGRDFNVLSYKTWRVSDIATKYQLIKGGLGWGGLPASIVRNDLTNGSLKALELEAYEQGEYPLFSLRRVDSPAGPAGQWLAEAFQERLSACPNHKDFNGMIEANKHKPIAVAAE				NA	NA	NA	NA	NA
BMS010_00543	561			hypothetical protein	ATGCCACGTTCGATCCTTTCCATTGATATCGCCGACCTCTCGACTTTCGCCAAATCCGTCCGCGAACAGATCGGCAGGCTGGACCGAAAGCCAAGCCATGTGGAGATGCTCAATCTTCTGAGCCGGGCTGCCGGGTTTCGAAATTTCCAGCACTTGCGAGCCTCGCGCGAGCCATCCGATGACAGCGGACCATCCCGGCCAGATATGCTGCCGGCAGCTAATGAGGGCAGGGTGCTGAAGACCGTTCGTGTCTTCGACGCCGCCGGCCGGCTGATGCAATGGCCGGCCCGCCGCTCGCAGCAGGAACTGTGCCTCTGGTATCTATGGGCGAAAATTCCCGCCGGGCGGAGCTTTTCAGAGCGCGAATTCAGCAGCTTTCTGGATAGCCTGCACCTGTTCGGGGATGCGGCGATGCTGAGGCGCGACATGGTCGGCCTGAGGCTTATCCGCCGTAACCGGGATGGCAGCGATTATCGGCGCATCGAGCAGAAACCGCCATCGGAACTGCCGCTTCTGCTGCGAGCGCTCTGTGGGCGCGATTGGGGGGATAGCCCTCGGTAG	MPRSILSIDIADLSTFAKSVREQIGRLDRKPSHVEMLNLLSRAAGFRNFQHLRASREPSDDSGPSRPDMLPAANEGRVLKTVRVFDAAGRLMQWPARRSQQELCLWYLWAKIPAGRSFSEREFSSFLDSLHLFGDAAMLRRDMVGLRLIRRNRDGSDYRRIEQKPPSELPLLLRALCGRDWGDSPR				NA	NA	NA	NA	NA
BMS010_00544	252			hypothetical protein	ATGCTCGGGACAGGCCCACTACTGTCCGGTTTAAATTTGCGGCCATTGGAAGGCCATCTGGTTTTGGTTTCTGGGTTTGTCTGGTGGCGGATCGAGAAGCCGATCGGTGCGTCGCCGGTGCATGAGGTTTGCGCGTACCAGCCTGGCGAAGGCGAGTGGGCTTGGCACGGTCTTCTGGTCAGCCTGCGCCAATCGCAGGAGCAGGTAAGCGATCAGGGCGACAGCGATCTGGATGCGCACGGCATTTTCTGA	MLGTGPLLSGLNLRPLEGHLVLVSGFVWWRIEKPIGASPVHEVCAYQPGEGEWAWHGLLVSLRQSQEQVSDQGDSDLDAHGIF				NA	NA	NA	NA	NA
BMS010_00545	1293			hypothetical protein	ATGACCGAGACAAAAATCGCTGCCGATGTGATCGCGGCGGAAAACGACAAGCGTGCTCACGCGCTGAAGGATGATTATCAGGCGCTGGGCAACCAGCTTGCGCGCCGCAATATCGATATCGAGGCCGTTACGGCCAAGGTCGCGGAATTTTTTGTGGCCGTGCCCTCCTGGGGCGTGGGCACCGGCGGCACCCGTTTTGCCCGTTTTCCCGGCACGGGCGAGCCGCGCGGCATTTTCGACAAGCTGGATGATTGCGCCGTCATCAACCAGCTGACACGGGCGACGCCCAACGTTTCCCTGCATATTCCGTGGGACAAGGAAGACCCGAAGCGATTGAAAGCCCATGCCGATGCGCTGGGTCTCGGCTTCGACGCCATGAATTCCAACACGTTTTCGGATGCGCCCGGCCAGAGCCATTCCTACAAATACGGTTCGCTCAGCCACACGGATGCCGCCACGCGCCGGCAGGCCGTCGAGCACAACATCGAATGTATCGAAATCGGCAATGCCATCGGCTCGAAGGCGCTGACGGTGTGGGTGGGTGATGGTTCGAACTTTCCCGGCCAGAGCAATTTCACCAGAAGTTTCGAGCGTTATCTCGCCGCCATGGCCGATATCTACAAGGCGCTGCCGGATGACTGGCGCATCTTTTCCGAACACAAGATGTACGAGCCGGCCTTCTATTCGACCGTCGTGCAGGACTGGGGCACCAATTACCTCATCGCCAATACGCTCGGCGAAAAGGCCTTCTGCCTCGTCGACCTCGGCCATCATGCGCCGAACACCAATATCGAAATGATCGTCGCCCGGCTCATCCAGTTCGGCAAGCTCGGGGGTTTCCATTTCAACGACAGCAAATATGGCGATGATGATCTGGATGCCGGCTCGATCGAGCCATACCGCCTGTTCCTCGTTTTCAACGAGCTGGTGGATGCGGAATATCGCGGCGTGAAAGGTTTCCATCCGGCCCATATGATCGACCAGTCGCATAATGTGACGGACCCGATTGAAAGCCTGATCTCCAGCGCCAATGAAATCCGCCGCGCCTATGCGCAGGCATTGCTGGTGGATCGCGCGGCTCTCGACGGTTACCAGCAGGACAATGATGCGCTGATGGCTTCCGATATGCTGAAGCGGGCCTATCGCACCGATGTGGAACCGATTCTTGCGCAGGCCCGGCAATTGGCGGGCGGCGCTATCGATCCGATTGCGGCCTATCGGGCAAGCGGCTATCGCAAGCGGGTGGCGGCGCAACGGCCTGCTTCGGTTGGCGGCAGCGGCGGTATTGTGTAA	MTETKIAADVIAAENDKRAHALKDDYQALGNQLARRNIDIEAVTAKVAEFFVAVPSWGVGTGGTRFARFPGTGEPRGIFDKLDDCAVINQLTRATPNVSLHIPWDKEDPKRLKAHADALGLGFDAMNSNTFSDAPGQSHSYKYGSLSHTDAATRRQAVEHNIECIEIGNAIGSKALTVWVGDGSNFPGQSNFTRSFERYLAAMADIYKALPDDWRIFSEHKMYEPAFYSTVVQDWGTNYLIANTLGEKAFCLVDLGHHAPNTNIEMIVARLIQFGKLGGFHFNDSKYGDDDLDAGSIEPYRLFLVFNELVDAEYRGVKGFHPAHMIDQSHNVTDPIESLISSANEIRRAYAQALLVDRAALDGYQQDNDALMASDMLKRAYRTDVEPILAQARQLAGGAIDPIAAYRASGYRKRVAAQRPASVGGSGGIV	PGPT0017770_112	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_RHAMNOSE_DEGRADATION,PGPT0017770-rhaA-K01820	NA	NA
BMS010_00546	2097	hcaB_1		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGACGGGAAAATCCCGCCTTCTCGAAAGCCGTTGGGACGATGCCTATGCCAAAACGCTCGATGAGCCGGGCAAGCTGCTTTATCGCTCCAATCTGCTCGGTGCCGACAAGCGCATCACCAATTATGGCGGTGGCAACACATCCGCAAAGGTGCTCGAGACCGATCCGCTGACGGGCGAGAAGGTCCGCGTCATGTGGGTGAAGGGCTCCGGCGGCGATGTCGGCACCATCAAGCTCGATGGTTTTGCAACGCTTTATCTCGACAAGCTGGAGGCGCTGAAGGGCATTTACAAGGGCGTTGCGGATGAAGACCGCATGGTCGGTTTCCTGCCGCATTGTACCTTCAACCTCAATCCGCGCGCGGCTTCCATCGATACGCCGCTGCACGGTTTCGTGCCTTACGATCATGTCGACCATATGCATCCGGACGCGATCATTGCCATCGCCGCCTCGAAGAATTCGAAAGAGCTGACGCAGCAGATTTTCGGTGACGATATCGGCTGGCTGCCCTGGCGTCGCCCCGGTTTCCAGCTCGGTCTCGATCTGGAAGCTTTCGTCAAGGCCAACCCGAAGGCCAAGGGCGTCGTGCTGGAAAGCCATGGTCTCTTCACATGGGATAACGACGCCAAGGCGTGTTACGAACTGACGCTTGCCATCATCAACAAGGCGATCGAATGGTTTGCGGCAAAGACCGAAGGCAAAACGATTTTTGGTGGCGCGGTGGCGAAGAGCCTGCCGGTTGCCGAACGCCGCGCCATCGCCGCCCGACTGATGCCGGAAATCCGTGGCCGCATCGGCCGTGAGGAACGCAAGCTCGGCCATTTCGACGATCAGGACGCGGTTCTCGAATTCGTCAACTCGAAAGACCTGAAGCCGCTCGGCGCGCTCGGCACATCCTGCCCGGATCACTTCCTGCGCACCAAAATCCGCCCGCTGATCCTCGATCTCGATACGGCGAAGCCGGATGTGGACGCGCTGACGGCGGGTCTCGACAAGGCGCTTGAAGCTTACCGCGCCGATTATACCCGCTACTACGAGGCCTGCCGCCACGACAATTCGCCGAAGATGCGCGATCCGAATCCGGTGATTTTCCTGATCCCCGGCGTTGGCATGTTGTCCTTCGCCAAGGACAAGGCCACCGCCCGCATCGCCGGCGAATTTTACGTCAACGCCATCAACGTCATGCGCGGTGCTTCCACCGTGTCCGAATATCAGGGCCTTCCCGAACAGGAAGCCTTCGATATCGAATATTGGCTGCTGGAAGAGGCAAAACTTCAGCGCATGCCGAAGCCGAAGAGCCTTGCCGGCCGGGTGGCCTTCGTCACCGGCGGTGCTGGCGGTATCGGCCGGGCGACGGCGGAACGGCTGGCGGGCGAGGGCGCCTGCGTGGTTCTGGCTGATATTGACGAAGCGGCGCTGGAAGCCGCCAAGGGCGAATTCGTCAAGCGCTACAGCACTGACTCGGTGCGTACCGTCAAGCTTGATGTGACGAAAGAGGATGCCGTCATCGCAGCCTTCGCGGAAGCGAGCGTGGAATTCGGCGGCGTGGATATTCTCGTCTCCAATGCTGGCATAGCTTCCTCCGCGCCGGTGGAAGACACGACGCTTGCCATGTGGAACAAGAATATCGACATTCTCGCCACCGGCTATTTCCTCGTTTCGCGGGAAGCGTTCCGGCTGCTGCGGCGTCAGAATCTCGGCGGCAACGTGGTGTTCGTCGCCTCGAAAAACGGTCTCGCTTCCTCGCCCAATGCCTCCGCCTATTGCACGGCCAAGGCTGCGGAAATTCATCTGGCCCGTTGCCTCGCACTCGAAGGGGCGGAAGCGGGCATTCGCGTCAACACCGTCAATCCCGATGCCGTGCTGCGCGGTTCTAAAATCTGGAGCGGCGAGTGGCGCGAGCAGCGCGCGGCTTCCTCGAAGATCGAAGTGACCGATCTGGAGGAACATTACCGCAAGCGTTCCATGCTGAAGCTCAATGTCTTCCCGGAAGATATCGCCGAGGCGATCTACTTCCTGGCGTCCGACGCCTCCGCCAAGTCCACCGGCAACATCATCAATGTCGATGCCGGTAATGCGCAGAGTTTTACGCGGTAG	MTGKSRLLESRWDDAYAKTLDEPGKLLYRSNLLGADKRITNYGGGNTSAKVLETDPLTGEKVRVMWVKGSGGDVGTIKLDGFATLYLDKLEALKGIYKGVADEDRMVGFLPHCTFNLNPRAASIDTPLHGFVPYDHVDHMHPDAIIAIAASKNSKELTQQIFGDDIGWLPWRRPGFQLGLDLEAFVKANPKAKGVVLESHGLFTWDNDAKACYELTLAIINKAIEWFAAKTEGKTIFGGAVAKSLPVAERRAIAARLMPEIRGRIGREERKLGHFDDQDAVLEFVNSKDLKPLGALGTSCPDHFLRTKIRPLILDLDTAKPDVDALTAGLDKALEAYRADYTRYYEACRHDNSPKMRDPNPVIFLIPGVGMLSFAKDKATARIAGEFYVNAINVMRGASTVSEYQGLPEQEAFDIEYWLLEEAKLQRMPKPKSLAGRVAFVTGGAGGIGRATAERLAGEGACVVLADIDEAALEAAKGEFVKRYSTDSVRTVKLDVTKEDAVIAAFAEASVEFGGVDILVSNAGIASSAPVEDTTLAMWNKNIDILATGYFLVSREAFRLLRRQNLGGNVVFVASKNGLASSPNASAYCTAKAAEIHLARCLALEGAEAGIRVNTVNPDAVLRGSKIWSGEWREQRAASSKIEVTDLEEHYRKRSMLKLNVFPEDIAEAIYFLASDASAKSTGNIINVDAGNAQSFTR				NA	NA	NA	NA	NA
BMS010_00547	831	ulaR	COG1349	HTH-type transcriptional regulator UlaR	ATGCACGAACGCGAACGCCATCGCATCATCTTGAGCGCCACACAGGAAAAAGCTGTCGTGACGGTGCAGGATATTGCCGAACTGACGGATGCGTCGGAAGCGACGATCCGCCGGGATATCGCCTCGCTGCATGTTCAGGGCAAATTGCGCCGCGTGCGCGGCGGGGCCGAAGCGGTGCATCCGCCGCAGCTCGGCAATCTGGCCGCCCGGCCGTTCCGGGTGTCCGAATCGGTCAACATCGACAAGAAACGCGCAATTGCGCGCAAGGCGGTCGATCTGTGCCACGATGGCGATGCGATCATCCTGAATGGCGGCACGACGACATTCCAGATGGTGCACTACATGGCGGCGCGCCGCCTGCAAGTCATGACCAATTCTTTCGCCATTGCCGAGCATCTGGTCAAACATTCCAAATGCAATGTCAGCGTGCCGGGCGGCGCGATCTATCGCGACCAGAGCCTTATCCTGTCGCCTTTCGAGAATGATGCGATCCGCAATTTTTATGCGCGGCGGATTTTTCTCGGTGCGCAGGGCGTGGGCGCGCTCGGCATCATGGAATCCGACGCGCTGGTTATCCAGAGCGAGCAGAAGCTGATGCGACAGGCGGAAGAGCTGATCGTGATGGTCGATTCTTCGAAATTCAGAAAGCGTTCCAGCCTCATTTTATGCCCGCTCGAAAATGTCTCGACCATCATTACCGATGACGGGATTTCCGACGAGGCGGCGAGGATGGTGGAAGATGCCGGCGTCGAACTACTGGTCGTCGGCGCGGTGAGGGATGGCAAGACAGCCGCCCCGCCGGATGAAGAAGATTCTTCTTCGGTCGCCTGA	MHERERHRIILSATQEKAVVTVQDIAELTDASEATIRRDIASLHVQGKLRRVRGGAEAVHPPQLGNLAARPFRVSESVNIDKKRAIARKAVDLCHDGDAIILNGGTTTFQMVHYMAARRLQVMTNSFAIAEHLVKHSKCNVSVPGGAIYRDQSLILSPFENDAIRNFYARRIFLGAQGVGALGIMESDALVIQSEQKLMRQAEELIVMVDSSKFRKRSSLILCPLENVSTIITDDGISDEAARMVEDAGVELLVVGAVRDGKTAAPPDEEDSSSVA	PGPT0019585_22	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ACROBIC_ACID|VITAMIN_C_UTILIZATION	PLANT_DERIVED_VITAMIN_C_UTILIZATION,PGPT0019585-ulaR-K03477	NA	NA
BMS010_00548	1011	lsrB		Autoinducer 2-binding protein LsrB	ATGAAACTTACACGCAGAACATTGACGAGCGCACTGGTGCTTGGCGCGGCGCTCTCCGTCACAGGGCTGGGCAGCGTTGCCCAGGCCGCCGATGTGAAGATCGCACTGGTGGTCAAATCGCTCGGCAACGGCTTTTTCGAAGCCGCCAACAAGGGCGCGCAGGAGGCCGCAAAGGACCTCGGCGGCGTCGAGATCATCTATACCGGTCCGACCAGCACCACGGCGGAAGGCCAGATCGAAGTCATCAATTCGCTGATCGCGCAGGGCGTCGATGCCATCGCCATTTCCGCCAACGATCCCGACGCCGTGGTTCCGGCGCTGAAAAAGGCGGCGCAGCGCGGCATCAAGGTCATCTCCTGGGATTCCGGTGTTGCGCCGGAAGGCCGCATTCTCCAGCTCAACCCCTCGTCCAACGCGCTGATCGGCAAGATGTGCCTGCAGCTCGCCGCATCGCATCTGGAAGGCGGCAAGGGCGATTTCGCCATTCTTTCGGCCACCACCACCTCCACGAACCAGAATATCTGGATCGACGAGATGAAAAAGCAGCTGAAGGATTTCCCCGGCCTCAACCTTGTCACCACGGTTTACGGTGACGATCTGGCCGACAAGAGCTACCGCGAAGCGCAGGGCCTGCTTTCCTCGCAGCCGAATGTGAAGGTCATCGTCGCGCCGACAACGGTTGGCGTTCTCGCCGCCTCGCAGGCCGTGAAGGATGCGGGCAAGATCGGTCAGGTCTATGTGACGGGCCTTGGCCTGCCGTCTGAAATGGCCGGCGCCATCAAGTCGGGCGCCACCAAGGAATTCGCCATCTGGAACCCGATCGACCTCGGTTACTCCGCCACCCAGATCGCCTATCGCCTGGTGAAGGGCGAAACCGATGGCAAGCCGGGTTCGGAAATCGAAGCCGGCCGCATGGGCAAGATCAAGGTTGGCGAGAACAGCGAAGCGGCGATGGCCGATCCGTTTGTTTATGATGCGAAGAATATCGATCAGTTCTCGAAGATTTTCTGA	MKLTRRTLTSALVLGAALSVTGLGSVAQAADVKIALVVKSLGNGFFEAANKGAQEAAKDLGGVEIIYTGPTSTTAEGQIEVINSLIAQGVDAIAISANDPDAVVPALKKAAQRGIKVISWDSGVAPEGRILQLNPSSNALIGKMCLQLAASHLEGGKGDFAILSATTTSTNQNIWIDEMKKQLKDFPGLNLVTTVYGDDLADKSYREAQGLLSSQPNVKVIVAPTTVGVLAASQAVKDAGKIGQVYVTGLGLPSEMAGAIKSGATKEFAIWNPIDLGYSATQIAYRLVKGETDGKPGSEIEAGRMGKIKVGENSEAAMADPFVYDAKNIDQFSKIF	PGPT0016700_247	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RHAMNOSE_TRANSPORT,PGPT0016700-rhaS-K10559	NA	NA
BMS010_00549	1470	rbsA_1	COG1129	Ribose import ATP-binding protein RbsA	ATGCGCGGCATCAGCCAGATATTCCCCGGCGTCAAAGCGCTGGATGGCGTCGATATCGCGCTTTACCCCGGCAAGGTCACCGCGCTGATCGGCGAGAACGGTGCTGGTAAATCCACGCTCGTCAAAATCCTCACCGGCATTTACCGCCCCAACGAGGGCGAAATCCTTCTCGATGGTCAGCCCGTCCATTTTCACAGCGCACAGGACGCCATCGACGCCGGCGTGACCGCCATTCATCAGGAAACCGTGCTGTTCGACGAGCTTTCCGTCGGTGAAAACATCTTCCTCGGCCATGCGCCGAAGGGTCGTTTCGGTCTGATCGACTGGAAGACCATCAACACGCGCGCCAGAACCCTGCTGGAACAGCTCGAAAGCACCATTGATCCGACGATCCGGCTGAAGGACCTGTCCATCGCCCAGCGCCATCTCGTCGCCATCGCCCGCGCGCTTTCGGTCGAGGCGCGCATCGTCATCATGGACGAACCGACGGCCGCCCTTTCTCGCAAGGAAATCGATGATCTCTTTCGCATCGTCGAAAACCTCAAGCGGCAGGGCAAGGCGATCCTCTTCATCAGCCACAAGTTCGACGAGGTCTATGAGATCGCCGAGAATTATGCCGTGTTCCGGGATGGCAGGATGGTTGGAGCGGGCAATCTCGCCGCCACGCCGCAGGACGAGATCGTGCGGCTGATGGTCGGCCGTGACGTGACGAACGCCTTTCCCAAGCAGGCCGTCACCCTTGGGCCGACGGTTCTTTCGGTGCGCGATTATTCGCATCAGACGGAATTCCGCGATATTTCGCTCGAACTGCGCAAGGGCGAGATTCTCGGCCTCTACGGGCTGATCGGCGCCGGCCGCTCCGAGCTTTGCCAGTCGTTGTTCGGCATTACCCGGCCGGCTTCAGGGCAGGTATCGCTGGAAGGCCAGCCGCTTTCCATCCGCTCGCCGGAAGACGCGATCCGCGCCGGCATCGTTTATGTGCCGGAGGAGCGCGGCCGCCACGGGCTGGCGCTGGATATGCCGATCTACCAGAACATGTCGCTGCCATCGCTCACGCGCACGTCGCGCAAGGGCTTTCTGGCCGCCGCCAATGAATTCGCGCTGGCGCGCAAATATGCCTCACGGCTCGATCTGCGCGCGGCCGCCCTTTCGGTGCCGGTCGGCACGCTTTCAGGCGGCAACCAGCAGAAGGTGGTGATCGGCAAGTGGCTCGCCACCCAGCCGAAGGTCATCATTCTCGATGAACCCACCAAGGGTATCGATATCGGCTCCAAGGCCGCCGTGCACGGTTTCATCAGCGAGCTTGCGGCGGAAGGGCTTTCCATCATCATGATTTCATCCGAACTTCCCGAAATCCTCGGCATGTCCGACCGCGCCATCGTCATGCGCGAAGGCCTGATGGCGGGCCAGTTCGAACGCGCCGATTTTTCTCCGGAAAAGCTGGTGCGCGCCGCCACCGGCAATGCCTGA	MRGISQIFPGVKALDGVDIALYPGKVTALIGENGAGKSTLVKILTGIYRPNEGEILLDGQPVHFHSAQDAIDAGVTAIHQETVLFDELSVGENIFLGHAPKGRFGLIDWKTINTRARTLLEQLESTIDPTIRLKDLSIAQRHLVAIARALSVEARIVIMDEPTAALSRKEIDDLFRIVENLKRQGKAILFISHKFDEVYEIAENYAVFRDGRMVGAGNLAATPQDEIVRLMVGRDVTNAFPKQAVTLGPTVLSVRDYSHQTEFRDISLELRKGEILGLYGLIGAGRSELCQSLFGITRPASGQVSLEGQPLSIRSPEDAIRAGIVYVPEERGRHGLALDMPIYQNMSLPSLTRTSRKGFLAAANEFALARKYASRLDLRAAALSVPVGTLSGGNQQKVVIGKWLATQPKVIILDEPTKGIDIGSKAAVHGFISELAAEGLSIIMISSELPEILGMSDRAIVMREGLMAGQFERADFSPEKLVRAATGNA	PGPT0016705_164	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RHAMNOSE_TRANSPORT,PGPT0016705-rhaT-K10562	NA	NA
BMS010_00550	1002	rbsC_1	COG1172	Ribose import permease protein RbsC	ATGCAACGTCTACTTAAAAATCGCGAATGGCTGCTGGCGGGCATCATCGTCATCATGATCGCCGGTTTTGCGCTGCGCGCGCCCGGTTTCAGCCGGCCCGGCAATCTCGTCAATATCTTCAACGATACCTCCATCCTCATCATTCTGGCGCTTGGCCAGATGGCGGTCATTCTCACCAAATCCATCGATCTTTCGGTTGCCGCAAATCTCGCCTTCACCGGCATGGCGGTGGCGATGACCAATGCCGCCTTTCCGGGAATTCCCCTGCCGCTTCTCATCGCCATGGCGGTCGGCATCGGCGCATTTCTCGGCTCGCTCAACGGCGTGCTGGTCTGGTGGCTAGGCATTCCGCCCATCGTCGTCACGCTCGGCACGCTTACCATTTATCGCGGCATGGCCTTCGTTCTGTCCGGCGGCGGTTGGGTGAATGCGCACCAGCTTTCGCCGACCTTCCTCAATGTGCCGCGCACCATGATCCTCGGCATGCCGGTGCTTTCATGGGTGGCGATCCTCATCATCGCCGGCGCCTGGCTGGTGCTCAGCCGCACCTCCTTCGGCCGTTCCGCCTATGCGTCGGGCGGTAATCCGAGTGCCGCCGTCTATGCGGGCATCGATGTCGGCCGGACGCGCTTCTTCGCCTTCGTGCTCTCGGGCGCGCTCGCCGGTCTCGCCAGCTATCTCTGGGTGTCGCGTTATGCGGTTGCCTATGTCGACATCGCCGCCGGTTTCGAACTGGACAGCGTGGCGGCAAATGTGATCGGCGGCATCTCGATTGCCGGCGGCATCGGATCGGTGGCGGGTGCGGTGCTCGGCGCGCTGTTCCTCGGCGTCATCAAGAACGCCCTGCCCGTCATCGGCATTTCGCCCTTCGCGCAGATGGCGATTTCCGGCGTTGTCATCGTGCTCGCCGTCGTCTTCAACGCCCGCGCCGAAGCGCGAAAAGGCCGTATCATCCTGCGTGACCGCGCAGCAAGCGATCAGGCCAGGGAGGCCGCAGCATGA	MQRLLKNREWLLAGIIVIMIAGFALRAPGFSRPGNLVNIFNDTSILIILALGQMAVILTKSIDLSVAANLAFTGMAVAMTNAAFPGIPLPLLIAMAVGIGAFLGSLNGVLVWWLGIPPIVVTLGTLTIYRGMAFVLSGGGWVNAHQLSPTFLNVPRTMILGMPVLSWVAILIIAGAWLVLSRTSFGRSAYASGGNPSAAVYAGIDVGRTRFFAFVLSGALAGLASYLWVSRYAVAYVDIAAGFELDSVAANVIGGISIAGGIGSVAGAVLGALFLGVIKNALPVIGISPFAQMAISGVVIVLAVVFNARAEARKGRIILRDRAASDQAREAAA	PGPT0016690_300	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RHAMNOSE_TRANSPORT,PGPT0016690-rhaP-K10560	NA	NA
BMS010_00551	1011	lsrD		Autoinducer 2 import system permease protein LsrD	ATGAGCACCATGCCTCAACCAGCGCAGAATCCGCGCATCATTCCAGACAAGCTCGGCACGCCGATACGCCGCATCATGGCCAGTTGGGAAGTGCTGCTGCTTGGTGTTGCGATCCTCATCTTCATCGCCAATTCGCTGGCCTCACCCTATTTCCTCAATGCCTGGAACCTGTCGGACGCGACCTTCAACTTCACGGAAAAGGCGATCATCGCCTTCGCCATGGCGCTGCTGATCATCGCCGGTGAAATCGATCTTTCCGTCGCCGCCATCATCGCGCTCGCCTCCACCGCCATGGGTGCGGCAGTGCAAATGGGGATCGGCACGCCCGGCCTCGTCGCCATCGGCATCGGCACCGGGCTTTTGTGCGGGGCCTTCAACGGTTTTCTGGTCGCAGGGCTGAAACTGCCGTCCATCGTCGTCACCATCGGCACGATGAGCCTGTTTCGCGGCATTTCCTATATGGTGCTGGGCGATCAGGCCTATGGCAAATATCCCGCCGATTTTGCCTATTTCGGTCAGGGTTACGTTTTCTGGGTGATTTCTTTCGAATTCGTGCTGTTCATCACCATGGCCATCCTCTTCGCCATTTTGCTGCATGCCACCAATTTCGGCCGGCAGGTCTATGTGATCGGCAACAACCCCTTCGCCGCCCGTTTCTCCGGCATACCCGTCGAGCGGGTGAAGTTCATCCTGTTCCTGCTCACCGGCCTGATGAGCGGCATCGCCGCCGTCTGCCTCACATCGCGGCTCGGCTCCACCCGCCCGTCCATCGCTCAAGGGTGGGAGCTTGAGGTGGTGACCATGGTGGTGCTGGGCGGCGTCTCCATTCTCGGCGGCTCCGGCACCATCGCAGGCGTCGTCATTGCCGCTTTCGTCATGGGCCTCGTCACCTTCGGGCTCGGTCTTGTGAATGTGCCGGGCATCGTCATGTCGATCTTTGTCGGTCTGCTGCTCATCGTAACCATCGCCATCCCCATCGTTGTCCGTCGCCTTCGGGCCATGAGAAGTTAA	MSTMPQPAQNPRIIPDKLGTPIRRIMASWEVLLLGVAILIFIANSLASPYFLNAWNLSDATFNFTEKAIIAFAMALLIIAGEIDLSVAAIIALASTAMGAAVQMGIGTPGLVAIGIGTGLLCGAFNGFLVAGLKLPSIVVTIGTMSLFRGISYMVLGDQAYGKYPADFAYFGQGYVFWVISFEFVLFITMAILFAILLHATNFGRQVYVIGNNPFAARFSGIPVERVKFILFLLTGLMSGIAAVCLTSRLGSTRPSIAQGWELEVVTMVVLGGVSILGGSGTIAGVVIAAFVMGLVTFGLGLVNVPGIVMSIFVGLLLIVTIAIPIVVRRLRAMRS	PGPT0016695_175	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RHAMNOSE_TRANSPORT,PGPT0016695-rhaQ-K10561	NA	NA
BMS010_00552	324	rhaM_1		L-rhamnose mutarotase	ATGCCGGAACTTGAAAAACACGCCTTCAAGATGAAACTCTTTGCCGGAAAAGAGGCCGAATATAAAAAGCGCCATGACGAGATATGGCCGGAACTGGTGACGCTGCTACGCGAGGCGGGTGTGAGCGATTACTCCATTCATCTCGACCCAGAAACCAACATCCTGTTCGGCGTGCTGACGCGCCCGAAGAACCACGGCATGGCGGCCTTGCCCGAACATCCCGTGATGAAGAAGTGGTGGGCGCATATGGCCGATATCATGGAGAGCAATCCCGATCATTCGCCGGTCGCAAAAGATCTGGTGACGGTGTTCCATCTGCCATGA	MPELEKHAFKMKLFAGKEAEYKKRHDEIWPELVTLLREAGVSDYSIHLDPETNILFGVLTRPKNHGMAALPEHPVMKKWWAHMADIMESNPDHSPVAKDLVTVFHLP	PGPT0017795_746	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_RHAMNOSE_DEGRADATION,PGPT0017795-rhaM|rhaU|yiiL-K03534	NA	NA
BMS010_00553	1383	fucK		L-fuculokinase	ATGAGCGAGAGCATCAGACCGGGCCGCGTCGCGGTCATCGATATCGGCAAGACCAATGCCAAGGTCGTCGTCATCGATACCGGCAGCGGCGAGGAGATTGCCGCGGAGAAACAGGCGAACCCCGTCCTTCGCGATGGAATTTATCCGCATTACGATGTGGAGATGCTTTGGCGCTTCGTTCTCTCCGCGCTTCAGCGTTTCGGCCAGAAGCCCGGTTTCGATGCGATTTCGATCACCACCCATGGCGCTTCTGCAGCGCTTCTAGATGCGAACGGCGATCTCGCCATGCCGGTGCTCGATTATGAACACGGCTATCCCGCCGCCATCGAAGAAGCCTATCGCGGCATCAGGCCCGATTTTGCCGAGACCGGCTCACCGCAGCTTCCCGTTGGGTTGAACCTCGGCGCGCAAATCCATTTCCAGAAAACGGCCTTTCCGGACGATTTCTCCAGAGTGCGCAGCATCGTCACCTATGCGCAATATTGGGCGGGACGGCTGACGGGCATTCAGGCCACGGAAACGACCTCGCTTGGCTGCCATACGGATCTCTGGAACCCGCGGCGGAAGAGTTTCTCCTCGCTCGTCGCGCGTCTCGGTATCGAACATTTGATGGCGCCGGTCCGCTCCGCTTTCGATGTGCTGGGAACAATCCGCCCGTCGATTGCGCTGGAAACCGGTCTTTCACCGCATATGCCGGTCTATTGTGGCATCCACGATTCCAACGCATCCCTCCTGCCGCATCTTCTGCGTCGGGACGGTGATTTTTCGGTCGTCTCCACCGGCACCTGGGTGGTGAATTTCGCCATCGGCGGCGCGGCGGGTTCGCTCGATCCCACCCGTGATACACTCCTGAATGTCGATGCTTTCGGCCGTCCCGTTCCCTCGTCACGCTTCATGGGCGGCAGGGAATATGAAATGCTGGCGCAGCAATTCGGGGCCGTGAAAGACGAAGCGATAGACGCGGCTCTCGGCGGCGTGGTTGCCAGGGGCATGATGCTGCTGCCGAGCGTCGTCAGCGGCTCCGGCCCCTTTCCCGACAGGGCAGCGCGCTGGATTGGCGATGAAAATGCTACGGCCGCGGAACGGCACGCAGCGGCGTCGCTTTATCTCGCCCTGATGACGGAATGCAGCCTCTCGCTCATCGGGCGGAAAGGTCCGATCCTTGTGGAAGGCCCCTTCGCCAGCAACACCCTTTATCTGAAGGCGCTGGCCGGCTTTGCAGAGACCGAAGTAACCGCGGTCGAAGGGTCGACGGGCACCAGCGCCGGTGCGGCCCTGCTCACCGGCATCAAGCCGCTTGCCGGTCGCGAGCGCCATTTCACGCCGCACGATATTCCCGGCCTCGCCTCTTATCGCAATGCCTGGCGAGGCCACATGGCCTGA	MSESIRPGRVAVIDIGKTNAKVVVIDTGSGEEIAAEKQANPVLRDGIYPHYDVEMLWRFVLSALQRFGQKPGFDAISITTHGASAALLDANGDLAMPVLDYEHGYPAAIEEAYRGIRPDFAETGSPQLPVGLNLGAQIHFQKTAFPDDFSRVRSIVTYAQYWAGRLTGIQATETTSLGCHTDLWNPRRKSFSSLVARLGIEHLMAPVRSAFDVLGTIRPSIALETGLSPHMPVYCGIHDSNASLLPHLLRRDGDFSVVSTGTWVVNFAIGGAAGSLDPTRDTLLNVDAFGRPVPSSRFMGGREYEMLAQQFGAVKDEAIDAALGGVVARGMMLLPSVVSGSGPFPDRAARWIGDENATAAERHAAASLYLALMTECSLSLIGRKGPILVEGPFASNTLYLKALAGFAETEVTAVEGSTGTSAGAALLTGIKPLAGRERHFTPHDIPGLASYRNAWRGHMA	PGPT0017435_229	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FUCOSE_DEGRADATION,PGPT0017435-fucK-K00879	NA	NA
BMS010_00554	837	cpo_1		Non-heme chloroperoxidase	ATGGGCTTTGTTAAGACGACAGACGGAACCGAAATCTTCTACAAGGACTGGGGCCCGAAAGATGCCCAGCCGATCATGTTCCACCATGGCTGGCCGCTCTCCTCCGATGACTGGGATGCGCAGATGCTGTTCTTCGTTTCCAAGGGTTTTCGCGTCGTCGCCCATGACCGCCGTGGCCACGGCCGTTCCGCCCAGGTTGCCGACGGTCATGACATGGATCACTACGCCGCCGACGCCTTTGCTGTCGTTGAGGCCCTCGATCTGAAGAATGCCGTCCATATCGGCCACTCCACCGGTGGCGGCGAAGTCGCCCGTTATGTCGCAAAACATGGCGAACCCGCCGGCCGTGTCGCCAAGGCAGTTCTCGTTTCCGCCGTGCCGCCGCTGATGCTCAAGACCGAGGCCAATCCGGAAGGTCTGCCGATGGAGGTTTTTGACGGCTTCCGCTCGTCGCTCGCCGCAAACCGCGCGCAGTTCTTCCGCGATGTGCCGGCCGGCCCGTTCTATGGCTTCAACCGCGATGGCGCGACCGTTCATGAAGGCGTTATCCAGAACTGGTGGCGTCAGGGCATGATGGGCGGCGCAAAGGCCCATTATGACGGTATCAAGGCCTTCTCGGAAACCGACCAGACCGAAGACCTGAAGAATATCAGCGTTCCTACACTGGTGCTGCATGGCGAAGACGACCAGATCGTGCCGATTGCCGACTCCGCGCTGAAATCGGTTAAGCTGTTGAAAAACGGCACGCTGAAGACCTATCCCGGCTTCTCGCACGGTATGCTCACCGTCAATGCCGATGTGCTGAACGCCGATCTTCTGGCCTTCATCAAGGGCTGA	MGFVKTTDGTEIFYKDWGPKDAQPIMFHHGWPLSSDDWDAQMLFFVSKGFRVVAHDRRGHGRSAQVADGHDMDHYAADAFAVVEALDLKNAVHIGHSTGGGEVARYVAKHGEPAGRVAKAVLVSAVPPLMLKTEANPEGLPMEVFDGFRSSLAANRAQFFRDVPAGPFYGFNRDGATVHEGVIQNWWRQGMMGGAKAHYDGIKAFSETDQTEDLKNISVPTLVLHGEDDQIVPIADSALKSVKLLKNGTLKTYPGFSHGMLTVNADVLNADLLAFIKG	PGPT0013125_936	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013125-cpo-K00433	NA	NA
BMS010_00555	696			hypothetical protein	ATGGAAATACTGGACGTGCATGGAGTTGCCCTTCCCCTCTCTTCCGATGAGGTGTCGCCGGTCATCTGGCAGGCGCTGACCGACGGCAGCTATGAGGCGAAAGAGGCCCGCAGCGTCCTGAAAGCCATCAAGCCCGGCGATCGCGTACTGGAGCTTGGCTCCGGTATCGGGATCATCACCTCGATCATCGCCGGCATCGAGGATGTTTCCGTCTGGGCTTTCGAGGCCAACCCCTCCACCGCCGCGCTGGCAGAGCGGGTGATCAACGCCAATTGCCGCGGCAATGTCGTGTTTTCACAGGGGCTTCTCACCGCCGATGAGCCGAGCTCCTATCCTTTTTACGTTCGCAGGGATCTCTGGATGTCGTCCATGGACGAAAATCAGGGGCCTTATGAAAAACGCATCGAAATTTCTTCCGCCAATATCGATGAATTTATCGCCAGCCGGGGCATTACCGCGCTCGTGATGGATATCGAGGGTGCGGAACGCGATCTGCTCGGCAGGGCCGATCTGACCGGCGTGGAGCGGATATTCGTGGAACTGCACGACCATCTTTACGGTCTCGCCGGGGTTCGCGATATCATGCAGGCGCTGACTGCCAAGGGATATGCCTATGATCCGCGCGGTTCACGCGGGCCATGTGTCCTGTTCTCGAAGGACGAGAGCCCGAGGGAATACGATCCCGAGGTGGACTGA	MEILDVHGVALPLSSDEVSPVIWQALTDGSYEAKEARSVLKAIKPGDRVLELGSGIGIITSIIAGIEDVSVWAFEANPSTAALAERVINANCRGNVVFSQGLLTADEPSSYPFYVRRDLWMSSMDENQGPYEKRIEISSANIDEFIASRGITALVMDIEGAERDLLGRADLTGVERIFVELHDHLYGLAGVRDIMQALTAKGYAYDPRGSRGPCVLFSKDESPREYDPEVD				NA	NA	NA	NA	NA
BMS010_00556	1935		COG2199	putative signaling protein	TTGCGAAAACTTGTGGCGGTGATCATCTGTTGCTTCGTTCTGGCAACGGGCTATATCGCTTTCGTCATTGCCGAGCGGCAGACCGCTCTGCAGAAATTCGCCCGCTACAATGATTCCTGGGCCGTCAGCCAGACCGTAGCCGAATATCTGCGCCTCCAGAACAAGCTGGCCGTGTTCGCGCTCAATCCCGGCAAGATCGACAGGGATGAGCTGCAACTGCGCCTGGACATCATGCTGAGCCGCCTCGAGCTTTTGAAACAAGGCAATCTCGGGGCCTTCATCAATGAAAAACAGCAGTGGCGGGATCTCGTAACCCGCCTCGATGCCGTTCTGGCCCGTCTCGAGCAGCGGGTGAACACCCTCGATCCGGCCGAGGTTCCGGATCTGCTGGCGACGATGAGCGCGCTCGACGCGCCGATGACGACGCTTGCCTCGTCTTCCGTCGCTTATGACGTCAATCTGATCGATACGGCCCATGAGGACGTGCGCAAGCTGCATATCGTCTATACCGCGCTGGCGGGCGGCCTGATCCTGTGCGGTATCGCGCTTGTCATATTGCTGCTTCGCCAGAATGATCTCCTGAACCGCGCGCAGAAAAGCATGCGCGGCCTGACGGACGATCTGCGTGCCGCGACGCTGGAATTGCAGGCTAAAAATGTTCGGCTCGAACACGACGCCTATCACGACGCGCTGACGGGGCTGCCGAACCGCGCGCTGTTCCGGCAGGAACTGATCGAGAGGTTGCGCCGATCCTTCGGCGGGACGGGAACGACAGCCATCCTCCTGCTCGATCTCGACGGGTTCAAGGACGTCAACGATACGCTCGGCCACGATGCCGGCGATGCTCTGCTTCAGGCCGTGGCGCAGCGTCTCTCGGGCATCGGCGGCGATTATGACATGGTCTGCCGGCTGGGCGGCGACGAATTTGCCGTCGTCTCCGACGATCTGAACGAGGATGCCGCCCGCCGTCTTGCCACCAAGCTCATCGACCAGATCAGCCGCACCTACCAGCTGGGCGAACAGGAGGTCAAAATCGGCACCTGCATCGGCATCGCCATATCGCACGGCGCCGTCGACGCGGATGAATTGTTCAAGCGGGCGGATCTGGCGCTTTATGAGGCGAAAGCCATCGGCCCCGGCCGGGCGAGCGTTTTCAAGGTCCGCATGCAAAAGCAGCTGACCGAGAAAAAGTCCTTCGAGGCCGATCTGCAGACCGCGTTGCAGAACGACGAGATGGAAGTCTATTACCAGCCGCAGGTGGCGACCCAGACACGCAAGCTTTGCGGCTTCGAGGCGTTGCTGCGCTGGAAACATCCGGTGCGTGGCGATGTGCCGCCCAGTGTGTTCATTCCCGTTGCGGAAAGAACCGGTCTCATCCATTCGCTCGGAAAATGGGTGATGGAGACCGCCTGCCGCGAGGCGATGGGTTGGGACGAGGACATGAAGGTGGCGGTCAATCTGTCGCCGGTTCAGTTCCACAGTACCAACCTCATCCAGAACGTCATGGGCGCGCTTGAGAAAAGCGGGCTGGAACCGAGCCGGCTCGAGCTTGAAATCACCGAATCGATCCTGCTCAACAAGAGCGACCAGACGATCAACACCCTGTCGCGCCTGAAGGCCGTCGGCATTCAGATCGCCATGGATGATTTCGGGACAGGTTACTCATCGCTCGCCAATTTGCGCGGCGTGCCCTTCGACAAGATCAAGATCGACCGCTCGTTCCTGCGCGATATCACCAGCGACCGCGACGCGCTGGCGATCGTGGAATTCGTGGTTGGTGTCGGCCGCAGTCTGCGGATGACGACGATTGCGGAAGGTATCGAGACGGAAGAGCAATATGAATGCGTCAGGCGTCTGGGCTGCGATCAGGTTCAGGGATATCTGATCAGCAGACCGTTGCCGGCCAAGGAGCTTGTGGCCTGGAGTTCCGTCTGA	MRKLVAVIICCFVLATGYIAFVIAERQTALQKFARYNDSWAVSQTVAEYLRLQNKLAVFALNPGKIDRDELQLRLDIMLSRLELLKQGNLGAFINEKQQWRDLVTRLDAVLARLEQRVNTLDPAEVPDLLATMSALDAPMTTLASSSVAYDVNLIDTAHEDVRKLHIVYTALAGGLILCGIALVILLLRQNDLLNRAQKSMRGLTDDLRAATLELQAKNVRLEHDAYHDALTGLPNRALFRQELIERLRRSFGGTGTTAILLLDLDGFKDVNDTLGHDAGDALLQAVAQRLSGIGGDYDMVCRLGGDEFAVVSDDLNEDAARRLATKLIDQISRTYQLGEQEVKIGTCIGIAISHGAVDADELFKRADLALYEAKAIGPGRASVFKVRMQKQLTEKKSFEADLQTALQNDEMEVYYQPQVATQTRKLCGFEALLRWKHPVRGDVPPSVFIPVAERTGLIHSLGKWVMETACREAMGWDEDMKVAVNLSPVQFHSTNLIQNVMGALEKSGLEPSRLELEITESILLNKSDQTINTLSRLKAVGIQIAMDDFGTGYSSLANLRGVPFDKIKIDRSFLRDITSDRDALAIVEFVVGVGRSLRMTTIAEGIETEEQYECVRRLGCDQVQGYLISRPLPAKELVAWSSV				NA	NA	NA	NA	NA
BMS010_00557	507			hypothetical protein	ATGAGTTTCGCCCGGGTACTTCTCAGTGCGTTCTTGTCGCTCGCGTGGCTTTCCTGTGCCGAAGCCGGCGAAATTGCCAAACCGCAAGGAAAACCGATATTAACCATATCCGGAAACATCGCCAATACGAATGGCGAGGGTGCCGCGGTATTTGATCGTGACATGCTGGAAGCGCTCGGCATGGTGACGGTGGAGACGACGACGCCCTGGCATGATGGCCGCGTCCGTTTCGATGGTGTTTCGCTGGCAAAATTGATGGATGTCGTCGGCGCAAAGGGCACCAGCGTCACGGCAGTCGCTCTCAACGATTATGTCAGCACGATACCGATTGAAGATTTTAAGAAATTTAACGTTATCCTGGCGATCAAGCTGGATGGCAATTACATGACAGTTCGCGAAAAGGGCCCGTTGTTCGTCATCTATCCCTATGACAGCGATCCGGAGCTGCAGAAGCAGACCTATTATTCGCGGTCCGCATGGCAAGTTGCCAAACTGATAGTGGAATAA	MSFARVLLSAFLSLAWLSCAEAGEIAKPQGKPILTISGNIANTNGEGAAVFDRDMLEALGMVTVETTTPWHDGRVRFDGVSLAKLMDVVGAKGTSVTAVALNDYVSTIPIEDFKKFNVILAIKLDGNYMTVREKGPLFVIYPYDSDPELQKQTYYSRSAWQVAKLIVE				NA	NA	NA	NA	NA
BMS010_00558	1437	araE_1		Alpha-ketoglutaric semialdehyde dehydrogenase 1	ATGCACACCTATCCCGACATCAAACTTCTCATTGATGGCGAATGGCGAGACGCCGTTTCCGGCAAGACGATCGCCGTGTCCGATCCGGCAACCGACGAGATCATCGGCGCGATTGCGCATGCCGAGAAGGAAGACCTCGATCTGGCGCTTGCCGCCGCCGAGCGCGGTTTCAGGGTGTGGCGCGACACCTCGCCTTTCGAGCGCTCGAAGATCATGCGCAGGGCGGCCGATCTCCTGCGCGAGCGCAAGGACAAGATCGCCTACATCATGACCCGCGAACAGGGCAAGCCGCTGGCGCAATCCGGTACTGAAATCATGGGCGCCGCCGATACCATCGACTGGTTCGCCGAAGAAGCCCGCCGCACCTATGGGCAGGTCATTCCGGCGCGCGCAACCGGCGTTTCGCAGCTTGCCATCAAGCTGCCGGTCGGTCCGGTTGCGGCGTTCACGCCTTGGAATTTCCCGATCAACCAGATCGTCCGCAAGCTTTCAGCAGCGCTTGCCACCGGCTGCTCCATCATCGTCAAGGCGCCGGAAGAAACTCCGGCGTCACCGGCTGAACTTATCCGCGCCTTCGTGGACGCGGGCGTGCCGGCCGGCGTTATCGGCCTCGTTTATGGCGTTCCGTCGGAGATTTCCGAATATCTGATCCCGCATCCGGTCATCCGCAAGATTTCCTTCACCGGCTCCACGCCGATTGGCAAACATCTGGCGGCCTTGGCCGGCAAGCACATGAAGCGCGCCACGATGGAATTGGGCGGCCACGCGCCTGTCATGATCTTTGACGATGCCGATATCGAAAAGGCCATCCAGGTGACCTCGCTTGCCAAGTTCCGCAATGCAGGCCAGGTCTGCGTCGCCCCCACCCGCTTCCTGGTGCAGGACGGCGTGGCGGATCGCTTCCTTGAAGGTTTCGTGGAAGCGACCAAGGCCATCAAGGTCGGCAATGGCCTGGAAGACGATGTCGTAATGGGTCCCCTTGCCAATGAGCGCCGCATTCCCGCACTGGAAGGCCTCATCAACGACGCTGTTTCCCATGGTGCAGACCTGAAAACCGGCGGACGCCGCATCGGCAACAAGGGCAATTTCTTCGAGCCGACGGTTCTCGCCAATGTGCCGACCACCGCCAAAATCATGAATGACGAACCCTTCGGCCCGGTCGCCATCATCAATCGCTTCTCGAGCTTCGATGACGCCATCACCGAGGCGAACCGCCTGCCCTTCGGCCTTGCATCCTATGCCTTCACCGGCTCGGTCAAGACCGCGCATGCACTCGGCCAGCAGGTGGAGGCCGGCATGCTGACCATCAACCACAACGGCCTTGCGCTTCCGGAAGTCCCCTTCGGCGGCATCAAGGATTCCGGTTATGGCACGGAAGGCGGCTCGGAAGCGGTTCAGGCCTATCTGGAGACCAAATTCGTCAGCCAGATGAGCTGA	MHTYPDIKLLIDGEWRDAVSGKTIAVSDPATDEIIGAIAHAEKEDLDLALAAAERGFRVWRDTSPFERSKIMRRAADLLRERKDKIAYIMTREQGKPLAQSGTEIMGAADTIDWFAEEARRTYGQVIPARATGVSQLAIKLPVGPVAAFTPWNFPINQIVRKLSAALATGCSIIVKAPEETPASPAELIRAFVDAGVPAGVIGLVYGVPSEISEYLIPHPVIRKISFTGSTPIGKHLAALAGKHMKRATMELGGHAPVMIFDDADIEKAIQVTSLAKFRNAGQVCVAPTRFLVQDGVADRFLEGFVEATKAIKVGNGLEDDVVMGPLANERRIPALEGLINDAVSHGADLKTGGRRIGNKGNFFEPTVLANVPTTAKIMNDEPFGPVAIINRFSSFDDAITEANRLPFGLASYAFTGSVKTAHALGQQVEAGMLTINHNGLALPEVPFGGIKDSGYGTEGGSEAVQAYLETKFVSQMS	PGPT0001580_4633	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135	NA	NA
BMS010_00559	1098	yhaZ	COG4335	putative protein YhaZ	ATGAGCGACGCGGCGGCACCGGCACTGAAGGAAATCTTTAACCGCGAGAAACTGCGGCATATCGCCGATGAGACGAAGGCCGTTCATCCGCCATTTGACGTTTCCGCCTTCATGGCGCTCGCCACCGAAAACCTCGAAGCGCTGGGCATCATGCAGCGCATGCGACAGGTGGCGACGAGCCTGCATGCGACACTTCCCGGCGACTATGCCCGCAATATCGAAATCCTGACCGCCGCAGCGCCGGGCATCGGCAACGGTTTCGCCTCCATTTCGCTGCCGGAATATGTGGCGCTCTACGGCCTCGATGATTTCGATCTTTCCATGGAAGCGCTGCATTATTTCACCCGCTTCGGCTCCTCGGAATTCGCCATCCGGCATTTCCTGCAAAAGGATATGGCCCGCACCCTTGCCGTGATGGAAACATGGTCACAGCACGCGAATGAACATGTGCGGCGGCTGGCAAGCGAAGGCTGCCGGCCGCGTCTGCCATGGTCGTTCCAGCTCAAACCCCTGATCGACGATCCCTCGCCCGTCACCGCAATCCTCGACACGATGAAAGCCGACGAGGCGCTTTATGTGCGCAAATCCGTCGCCAATCATCTGAACGACATCACCAAGGACAATCCGGCTTTCGTGCTGGCGCTGATCGATACATGGCCAAAGGACAATCCGCATACACGCTGGATCACGCGGCAGGCCCTGCGCACATTGATCAAGAAGGGCGATGCGGCGGCGCTTGCCCATCTCGGCGCACATGAGGAAGCGGAAATTTCCCTTACGGCATTTCAGGTTACGCCGGACAAGGTTGCGCTCGGCAATCCGGTGCGGATTGCAACCTCTTTCACCTCGACGGCGAAACGGCCGCAGAAACTGGTGATCGACTACGCCGTGCACTACGTGAAGAAGAGCGGCGACGCCTCCGCAAAAGTCTTCAAGTGGAAAGAGATCGAACTTCAGCCCGGCGAGACATGTGCGCTGTCGATCAGCCGCGCCATACGTGATTTCACGACCCGCAAACACTATCCCGGCATCCACAGGGTCGACCTGACGATCAACGGCAAGCTTGTGGCAGAAAGCGCGTTCGAGCTTCTGGGCTGA	MSDAAAPALKEIFNREKLRHIADETKAVHPPFDVSAFMALATENLEALGIMQRMRQVATSLHATLPGDYARNIEILTAAAPGIGNGFASISLPEYVALYGLDDFDLSMEALHYFTRFGSSEFAIRHFLQKDMARTLAVMETWSQHANEHVRRLASEGCRPRLPWSFQLKPLIDDPSPVTAILDTMKADEALYVRKSVANHLNDITKDNPAFVLALIDTWPKDNPHTRWITRQALRTLIKKGDAAALAHLGAHEEAEISLTAFQVTPDKVALGNPVRIATSFTSTAKRPQKLVIDYAVHYVKKSGDASAKVFKWKEIELQPGETCALSISRAIRDFTTRKHYPGIHRVDLTINGKLVAESAFELLG				NA	NA	NA	NA	NA
BMS010_00560	1026	cysA_2	COG1118	Sulfate/thiosulfate import ATP-binding protein CysA	ATGAAAATCCGCCTCGAAAATGTGGTGAAGACCTTCGATACCTTCCGCGCCGTGCGCGATGTTTCGCTGGATATCGAAAGCGGCGAACTTCTGGCGTTGCTCGGCCCCTCAGGTTCCGGCAAGACCACGATTTTGCGCATGGTTGCCGGTCTCGAATATAGCGATGGCGGCCGTATCTTTTTCGGCGACGAGGACGCCACCAATATTCCGGTGCGGGACCGCGGCGTCGGTTTCGTGTTCCAGCATTACGCGCTCTTTCCGCATATGACCCTGCATCAAAACATCGCTTTCGGCATGAAGGTCTCGAAGGTGAAGCGGGACAAGGCGGCGATCGATGCCCGCGTCGAAGAGCTTCTGCGGCTGGTGAAGCTCGATGGCCTGGGCGACCGTTTCCCGGCGCAGATTTCCGGCGGCCAGCGGCAGCGCGTGGCGCTGGCGCGTGCGCTTTCGGTCGATCCGAAGGTGCTTCTGCTCGATGAGCCCTTCGGGGCGCTGGACGCCAATGTGCGCCGCGATCTTCGCCGCTGGCTGCGCGAGATTCACGATTCGCTCGGCATCACCACGATTTTCGTGACGCATGACCAGGAAGAGGCGCTCGATCTTGCCGACCGTGTCGTCATTCTCAATCAGGGCGAGATCGTACAGCAGGGCACGCCGAAGGAGGTCTGCCGCCAGCCGAACAGCGCCTTCGTCATGCGCTTTCTGGGCGATGCCAACCGGGTGTCCGGCGTGGCGCGCGGCGGCAAGGTCTATGTCGGCGATAACGAGCTGCCTTTCTCCTATGCTCAGGGCGATGGCGCGGTGGACATCTATGCCCGCCCCGGCGATCTGGAGTGGGAAGATCTGCATGAGGGCATTCCGGCTTCTGTGGCGCGGGTTCTCGACCGTGCGGGCGAGCGCCGGGTGATTGCCAGCACCGATGGCGGCGACCTTCTGGAATTCGACGTGCCGCCGGAAAACGATGTCGCCGCCGGAGACCGCGGTTCCGTCATCATCCGCCGGGCGAAGATTTTCCCGGCGGCGTGA	MKIRLENVVKTFDTFRAVRDVSLDIESGELLALLGPSGSGKTTILRMVAGLEYSDGGRIFFGDEDATNIPVRDRGVGFVFQHYALFPHMTLHQNIAFGMKVSKVKRDKAAIDARVEELLRLVKLDGLGDRFPAQISGGQRQRVALARALSVDPKVLLLDEPFGALDANVRRDLRRWLREIHDSLGITTIFVTHDQEEALDLADRVVILNQGEIVQQGTPKEVCRQPNSAFVMRFLGDANRVSGVARGGKVYVGDNELPFSYAQGDGAVDIYARPGDLEWEDLHEGIPASVARVLDRAGERRVIASTDGGDLLEFDVPPENDVAAGDRGSVIIRRAKIFPAA	PGPT0002990_1408	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002990-cysA-K02045	NA	NA
BMS010_00561	888	cysW_2	COG4208	Sulfate transport system permease protein CysW	ATGAGCGCCGTGTCTTCACATCGCAAACCGCCCCGCGTCGGCGACGCGCCTCTCGTTCGCCGCTGCCTGATTTCTTTTGTGCTGGTCATCGGCGCCATTTTGGTCCTGGCGCCGCTTATCATCATCGGCGTCGAGGCCTTTTCGCAGGGCTGGAAGGCCTATACGGCCACCATCACCCATCCCGATACCCGCCACGCCATCATGCTGACGGTGCTGACGGCGCTGATCGCGGTGCCGGTCAATACGGCCTTCGGTGTTGCGGCTGCATGGGCGATCACCAAGTTCGATTTCCCCGGCCGGCGCTTCCTGCTGGTGCTGATCGAGATACCCTTTTCCATCTCGCCCATCGTCGCGGGTGTCGCCTATCTTTTCGTTTACGGCCTGCAGGGGCTTTTCGGCCCGTTCCTCGATGCACATGACATCAAGATACTTTTTGCGCTGCCCGGCATCGTCATCGCCTCGATGTTCGTCACGGCACCTTTCGTGGCGCGGGAACTTATCCCGCTGATGCAGGCGCAGGGCCGCGATCTGGAAGAGGCGGCGACCTCGCTTGGCGCCTCCGGCTGGCGCACTTTCTTTTCGGTCACCTTGCCGAATATCAAATGGGCGCTGCTTTACGGCGTCGTGCTGTGCAACGCCCGCGTGATGGGTGAATTCGGCGCGGTATCGGTCGTATCGGGCAATATTCGCGGCCAGACCAATACGCTGCCGCTGCATATCGAGCTGCTTTACCACGATTACCAGACGGCCGGCGCTTTTGCCTCGGCCTCGATCCTCGCCACCCTCGCCGTCGTCACCATCATCGCCAAGGTGGCGCTGGAACGACGCGGCGCCGGGCGCGGGGCCAAGAAGACCAACGGCGATGCCGCCATCGCCACGGAGACCTGA	MSAVSSHRKPPRVGDAPLVRRCLISFVLVIGAILVLAPLIIIGVEAFSQGWKAYTATITHPDTRHAIMLTVLTALIAVPVNTAFGVAAAWAITKFDFPGRRFLLVLIEIPFSISPIVAGVAYLFVYGLQGLFGPFLDAHDIKILFALPGIVIASMFVTAPFVARELIPLMQAQGRDLEEAATSLGASGWRTFFSVTLPNIKWALLYGVVLCNARVMGEFGAVSVVSGNIRGQTNTLPLHIELLYHDYQTAGAFASASILATLAVVTIIAKVALERRGAGRGAKKTNGDAAIATET	PGPT0003005_517	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0003005-cysW-K02047	NA	NA
BMS010_00562	840	cysT_2	COG0555	Sulfate transport system permease protein CysT	ATGAATGGGGGGCGGGGTTTGAAGCGGAATGTTCTGCCGGGGCTGAAATTGTCCCTTGGCGTTACCCTGACTTACGTTGCCATCATCGTGCTTCTGCCGCTCTCGGCATTGGTGTTCAAGGCGGCAAGCCTTGGCCCTGCCGAATATTGGTCGATCATCTCCTCACCGCGCGCCGTGGCCAGTTATCGTGTTACCGTGCTCTGCGCGCTGGCTGCCACGCTGTTCAACGTCATCTTCGGGCTGGCGCTCGCCTGGGTGCTGACGCGTTACCGCTTTCCCGGCTGGCGTCTCGTTGATGCCATTGTTGACCTGCCTTTCGCGCTGCCCACGGCGGTTGCCGGCATTGCGCTGACGACATTGTTCGCAGGCAATGGCTGGTTCGGCTCGGTGCTTTCGCAATTCGGCATCAAGGTGGCCTATACGCCGCTCGGCATCATGGTGGCGATGGCCTTTACCAGCCTGCCCTTCATTGTGCGTACCGTGCAACCGGTGCTGGAAGACCTCGATCCGGCGCTTGAGGAAGCGGCGCAGTCGCTCGGCGGTTCCGATCTCGAAATTTTCCGCAAGATCATCCTGCCGCTGTTGACGCCAGCGTTGCTCGCCGGTCTGTCGCTGTCCTTCGCCCGCAGCCTCGGCGAATTCGGGGCGATCATCTTCATCGCCGGCAATCAGCCGTTTTCGACGGAAATCACGGCGCTGCTGATCTTCATCCGGCTGGAGGAATATGATTATCAGGCCGCCGCCGCCATCGCCTCCGTGCTGCTCATCACCGCCTTCGTGATGCTGGCGGTGACCAATTATCTGCAGGCGCGCGCGCTTCGTTATACGGTGAGGGGCTGA	MNGGRGLKRNVLPGLKLSLGVTLTYVAIIVLLPLSALVFKAASLGPAEYWSIISSPRAVASYRVTVLCALAATLFNVIFGLALAWVLTRYRFPGWRLVDAIVDLPFALPTAVAGIALTTLFAGNGWFGSVLSQFGIKVAYTPLGIMVAMAFTSLPFIVRTVQPVLEDLDPALEEAAQSLGGSDLEIFRKIILPLLTPALLAGLSLSFARSLGEFGAIIFIAGNQPFSTEITALLIFIRLEEYDYQAAAAIASVLLITAFVMLAVTNYLQARALRYTVRG	PGPT0003000_877	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0003000-cysT|cysU-K02046	NA	NA
BMS010_00563	987	cysP	COG4150	Thiosulfate-binding protein	ATGAAACGTCTTCTCATTATCGGTACTGCCATTGCCGCTCTTTTTGCAGGTGCGGCGCAGGCGCAGTCTCCGACCACCATTCTCAACGCATCCTACGATGTCGCCCGCGAAGTTTTCGCGGCCGAGAACGAGGCGTTCATCAAGCTGCATCCGGGCATCACCGTCGACCAGTCGCATGCCGGCACCTCCAAGCAGGCGCGCGCCATCGTCGAGGGTCTGGAAGCCGATGTCGTCACCTTCAATCAGGTCACCGATGTCGATTTTCTGGTGAAGCAGGGCTTCGTTTCCGCCGACTGGAAGAAGGATTTTGCGAACGACGCATCGCCCTTCTATTCCTTCCCGTCATTCCTCGTGCGTGCCGGCAATCCCAAGGGTATCAAGGACTGGGACGATCTTGCCCGCGACGATGTGAAGATTGTTTTCCCCAATCCGAAGACCTCGGGTAACGCCCGTTACACCTATCTCGCCGCCACGGCTTACGCCAAGGAGAAGTTCAACGGCGACGACGCGAAGGTTCAGGCATTCGTCAAGAAAATCTTCGACAATACGCCGGTGTTCGACACGGGAGGCCGCGCCGCCACCACCACCTTCGTTGAGCGTGAAATCGGCGACGTGCTGATCACCTTCGAAGCCGAGACGCGCGGCATCGCCAAGCAATATGGCGCAGACAAGGTGGAAGGCGTCGTGCCCTCCGTCAGCCTGCTGGCCGAATTCCCGGTGGCCGTGGTGGACAAGGTCGTCGACAAGCGCGGCTCGCGCGATCTGGCGAAGAGCTATCTCGACTTCCTCTATACCGAGGAAGGCCAGCGCATCGCCGCCGAATTCGGCCACCGCGTCCACAATGAAAAGGTCGTCGGCGAATTCAAGGACAAGTTCCCGGCCATTCGCCTCGTCAACGTCGAGGAGGTCTTCGGCGGCTGGGATAAAATCCAGAAAGAGCATTTTGCATCCGGCGCGACGCTTGATACGCTTTACGGCAGCCGTTAA	MKRLLIIGTAIAALFAGAAQAQSPTTILNASYDVAREVFAAENEAFIKLHPGITVDQSHAGTSKQARAIVEGLEADVVTFNQVTDVDFLVKQGFVSADWKKDFANDASPFYSFPSFLVRAGNPKGIKDWDDLARDDVKIVFPNPKTSGNARYTYLAATAYAKEKFNGDDAKVQAFVKKIFDNTPVFDTGGRAATTTFVEREIGDVLITFEAETRGIAKQYGADKVEGVVPSVSLLAEFPVAVVDKVVDKRGSRDLAKSYLDFLYTEEGQRIAAEFGHRVHNEKVVGEFKDKFPAIRLVNVEEVFGGWDKIQKEHFASGATLDTLYGSR	PGPT0002995_816	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002995-cysP|ylnA-K02048	NA	NA
BMS010_00564	1071	menB		1,4-dihydroxy-2-naphthoyl-CoA synthase	TTGGAACAGAGAACGGAAGCGGATGCGCAGGTCATCGTCGAAAAACGGGGAGGGGCAGGCATCATTCGCCTCAACCGCCCGAAGGCCATCAACAGCCTGACCTTGCCGATGGTGCGAGACCTGTTTCAGGCGCTTCAGCGTTTCGAAGAGGATGCCGATATTTCCTGTGTGGTCCTTACAGGAGAAGGCGACAGGGGGCTTTGCGCCGGGGGCGATGTCCGCATCATTCACGATCTCGGCAAGGCGGGCGATCCGCAGGTGCTTGATTTCTGGCGGGAAGAATTTCCGCTCAATTATCGCATCGCCCGCTTCGGCAAACCCTATATAGCGCTGATGGACGGCATCGTCATGGGCGGCGGTGTCGGCATTTCAGCCCATGGCAGCCACCGCATCGTCACGGAACGCACAAAACTCGCCATGCCGGAAACCGGCATCGGTTACTTCCCGGATGTCGGCGGTTCCTGGCTTTTGCCACGGGCGCCGGGCGAATGCGGCACCTGGCTGGGGTTGACGGGCAATGCCGTGACCGCTGCCGATGCCATCTATGCCGGTTTTGCCGATTATCTTGTTCCTTCGGACCGTCTCGACGGGTTGGTCCAAGACCTGTCGCAAGCCGCGGATACAGACAGTATCGAGACGGCGATCGCGGCGCGCGCCGACGAGGCCGGTGAAGGCGTTTTATCCATAAATCGGGAGATCATCGACGCGACATTCCGTTTCGACATTGTCGAGGAGATTTTTGAGGCACTTTCGGCGCGCCAGGATGCGTTTTCGCGCGAAACCCTCGAGGTCCTGCAAAAACGCTCCCCCACCAGTCTGAAACTGACCCTGAAGCTGCTGCGTCTCGGCCGGGAAAGCGCGAGCCTCATCGAATGCCTGGAGCGGGAATTTGCCGCCGGTACGGAAATATTGCGCCAGCATGATTTTTACGAAGGCGTGCGTGCTGCGCTGGTCGACAAGGATCGCAATCCCCGCTGGCAACCGGCACGGCTGGAGGAGGTGAGGGAGGAGGACATTGCGCCTTATTTTGCCGCGCATTCCGGCAATCTGTTTCCCGATCATCGTCTTTAG	MEQRTEADAQVIVEKRGGAGIIRLNRPKAINSLTLPMVRDLFQALQRFEEDADISCVVLTGEGDRGLCAGGDVRIIHDLGKAGDPQVLDFWREEFPLNYRIARFGKPYIALMDGIVMGGGVGISAHGSHRIVTERTKLAMPETGIGYFPDVGGSWLLPRAPGECGTWLGLTGNAVTAADAIYAGFADYLVPSDRLDGLVQDLSQAADTDSIETAIAARADEAGEGVLSINREIIDATFRFDIVEEIFEALSARQDAFSRETLEVLQKRSPTSLKLTLKLLRLGRESASLIECLEREFAAGTEILRQHDFYEGVRAALVDKDRNPRWQPARLEEVREEDIAPYFAAHSGNLFPDHRL	PGPT0001860_256	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0001860-paaF|echA-K01692	NA	NA
BMS010_00565	258			hypothetical protein	ATGCAGGTTTCGGAACACGAATGGATCAGTAAACGGGCATATACACTCTGGGAAAAGGAAGGCCACCCCCATGGGCGCGACGCGCACCATTGGGAACAGGCCAAGCATGAATTTTCGCTGCTGAAGACATCGGAAGCGACGAAACCCGCAACGCGCAAGAAGGCCGCTCCCAAGGCCGCCGCTGTGGAAGCCGCACCGGATGCGCAAGCCCCGGCAAAACCCAAGGCCCGTGCCCGCAAGGCTGCCGCCGCGAAATAA	MQVSEHEWISKRAYTLWEKEGHPHGRDAHHWEQAKHEFSLLKTSEATKPATRKKAAPKAAAVEAAPDAQAPAKPKARARKAAAAK				NA	NA	NA	NA	NA
BMS010_00566	798			hypothetical protein	GTGAAGAAAAAACTATTTGGCGCAATTGCGCTGGTGGCCATGCTCGCCGCGCCGGCACTTGCCGAAGCTGCGACGCGGGGTTTCGCCACCGCGAATGTGAATATGCGCTCCGGCCCGAGCACGGCTTATCCGGCCGTCGTGGTCATTCCGAATGGTGCGCCGCTCACCGTGCACGGTTGCCTTTCTGATACGCCGTGGTGCGATGTTTCCTTCGTGGGCGGCCGCGGCTGGGTGGCCGGGCGTTATATCGCCACGACCTACCGGCAGAACCGGGTTTATGTCGAACCGCGTTATTACCGCGATCTCGGCGTGCCGGTGATCACTTTCGAAGTCGGCCGTTATTGGGACCGCTATTATCGTGACCGCGACTTCTACCGCGAGCGCGACCGCTGGCGCCGTCCGCCGCCGTCCGGCGGGTACTGGAACGCCCCGCCTCCGAGCGCCGGATGGGATCGTCCGCGTCCGCGTGACGAGTGGCGTGACGGACGCCGGGACGACTGGCGTGATGGTCGCCGCGACGAGTGGCGTGATCCCCGTCAGGGCGGCCCGAATGACGGACGCTGGGAACGTCGCTACGGCGACTGGAACCAGGGTGACAGAAATCAGGACAGGCCGCGTCGCGACGACGACCGCCGCCGCTGGGAAGATGAAAACCGCGACCGCAATGGCCAGCAGAACCAGGATGAAGGCCAGCGTCGCCCAGAGCGTCGCCAGTGGGATGACACGCGCCGTGCGCCTGCCGGGGAAAATTTCCGCGATGGCTGCCGGATCGGCGATCCGGGTTGTGACCCGCTCTAA	MKKKLFGAIALVAMLAAPALAEAATRGFATANVNMRSGPSTAYPAVVVIPNGAPLTVHGCLSDTPWCDVSFVGGRGWVAGRYIATTYRQNRVYVEPRYYRDLGVPVITFEVGRYWDRYYRDRDFYRERDRWRRPPPSGGYWNAPPPSAGWDRPRPRDEWRDGRRDDWRDGRRDEWRDPRQGGPNDGRWERRYGDWNQGDRNQDRPRRDDDRRRWEDENRDRNGQQNQDEGQRRPERRQWDDTRRAPAGENFRDGCRIGDPGCDPL				NA	NA	NA	NA	NA
BMS010_00567	753	ubiG_1	COG2227	Ubiquinone biosynthesis O-methyltransferase	ATGAGCGAAACCGCACAGACGACCGTCGACCAGAGCGAAGTGGATCGCTTCTCCGCGATGGCTGCGGAGTGGTGGAGCCCGACCGGCAAGTTCCGCCCGCTGCACAAGTTCAATCCGGTGCGGCTCGAATATATCCGCAACCGCATCTGCGATAATTTCGGCCGCGACCCAAAGGCGCACCGCCCGCTGGAAGGGCTGCGCATACTGGATATCGGCTGCGGTGGTGGCCTTCTCTCCGAACCCGTTGCACGCATGGGCGCAGATGTGGTGGGCGCCGATCCCTCGGAAAAGAATATCGGCATCGCCTCCACCCATGCCCGCGAAAGCGGGGTCAGCGTCGATTACCGCGCCGTCACTGCCGAGCAGTTGCAGGAAGCCGGCGAAACCTTCGACGTCATCCTCAACATGGAGGTGGTCGAGCATGTGGCCAATGTCGATCTCTTCGTCACCACCTGCGCGAAAATGGTGCGCCCCGGCGGCCTGATGTTCGCCGCCACCATCAACCGCACGCTCAAAGCCCGGGCACTGGCGATCTTTGCCGCCGAAAATGTGCTGCGCTGGCTGCCGCGCGGCACCCACCAGTATGAAAAGCTCGTTCGCCCGGAAGAGCTCGAGCGGCCGCTGGTGGCGAGCGGCATGGATATCGTCCACCGCACCGGCGTCTTCTACAACGTGCTGCAGGATCGCTGGAATCTTTCGCCGGATATGGATGTCAACTACATGATGCTGGCGAAGCGGCCGGCGCAGGGGTAA	MSETAQTTVDQSEVDRFSAMAAEWWSPTGKFRPLHKFNPVRLEYIRNRICDNFGRDPKAHRPLEGLRILDIGCGGGLLSEPVARMGADVVGADPSEKNIGIASTHARESGVSVDYRAVTAEQLQEAGETFDVILNMEVVEHVANVDLFVTTCAKMVRPGGLMFAATINRTLKARALAIFAAENVLRWLPRGTHQYEKLVRPEELERPLVASGMDIVHRTGVFYNVLQDRWNLSPDMDVNYMMLAKRPAQG	PGPT0009545_418	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009545-ubiG-K00568	NA	NA
BMS010_00568	429			hypothetical protein	GTGATCCGTTATGCGCTGGCCTGTGAAAAGGGCCATGAGTTCGAAGGCTGGTTTGCCGGCAGCGACGATTTCGACGATCAGTTGCAACGCGGTTTCCTGTCCTGTCCGGTCTGCAATTCCGTGCAGGTCTCCAAGCTTTTGATGGCGCCTTCGGTTTCCACCGCCCGCAAGAAAGACGAACGCCAGACGCTGGCCATGGATACCGCCCGAAAAGAGGCGCTTGCGAAAATCCGCGAGGCCGTTGCCAATATCCGCGCCAATGCCGAAGATGTCGGCGATAAATTTCCGGAAGAAGCCCGCAAGATCCACTATGGCGAAGCGGATGAGCGCGGCATCATCGGCAATGCCTCGGCGCAGGACGCCAAGGCCCTGCTGGACGAGGGTATCGAGATCGCGCCGCTGCCGGTGCTGCCTGACGACGTCAACTGA	MIRYALACEKGHEFEGWFAGSDDFDDQLQRGFLSCPVCNSVQVSKLLMAPSVSTARKKDERQTLAMDTARKEALAKIREAVANIRANAEDVGDKFPEEARKIHYGEADERGIIGNASAQDAKALLDEGIEIAPLPVLPDDVN				NA	NA	NA	NA	NA
BMS010_00569	861	nit1_1		Deaminated glutathione amidase	ATGGGTTTCAAGGCTGCCGCCATTCAGATGCGCTCCGGCGTCGATCCGGCAAGAAACGCCGCCGATATGGAACGGCTGGTGCGTGCGGCTGCGGCCGAGGGCGCCGTTTATGTGCAGACCCCGGAAATGACGGGCGCAATCCAGAAGGACCGGCAGGCGCTGCGTGCGCAACTGCGTGATGACGATGGCGATATCATCGTTGCGACGGCGGCCCGTCTTGCCCGCGAACTCGGCATTCATGTCCATGTCGGCTCCACGGCCATTGCCCGCCCGGATGGCAAGATCGCCAATCGCGGTTTTCTCTTCGCGCCGGATGGTTCGCGCATCTGCAGCTATGACAAGATCCATATGTTCGATGTCGATCTCGACAATGGTGAAAGCTGGCGTGAAAGCGCTGCCTATCAACCCGGCGAAGTGGCGCGTATCGCCGAACTTCCGCTGGGGAAATTCGGCTTCGCAATCTGCTATGACGTCCGTTTCCCGCAGCTGTTCCGCGCGGAAGCGCTGGCAGGTGCGGAGGTTCTGACTGTTCCGGCGGCTTTCACCCGACAGACGGGGGAGGCGCATTGGGAAATCCTGCTGCGTGCCCGCGCCATCGAAAACGGCGCTTTCGTCATCGCCGCCGCGCAGGCCGGCGTGCATGAGGACGGGCGGGAGACCTTCGGCCATTCCATCATCATCGACCCATGGGGCAAGGTTCTGGCCGTTGCCGGCGGCGCTGGCGAAGAGATCATCTTCGCCGAGATTGATACCTCGCTGGTGGCTGCCGCGCGCGGAAAAATTCCCAATCTCCGCAATGCCCGCGAGTTCGGTCTGGATACGGTTATTCCCCTGAAACCTGCCGGAGGTGAAGCGGCGTGA	MGFKAAAIQMRSGVDPARNAADMERLVRAAAAEGAVYVQTPEMTGAIQKDRQALRAQLRDDDGDIIVATAARLARELGIHVHVGSTAIARPDGKIANRGFLFAPDGSRICSYDKIHMFDVDLDNGESWRESAAYQPGEVARIAELPLGKFGFAICYDVRFPQLFRAEALAGAEVLTVPAAFTRQTGEAHWEILLRARAIENGAFVIAAAQAGVHEDGRETFGHSIIIDPWGKVLAVAGGAGEEIIFAEIDTSLVAAARGKIPNLRNAREFGLDTVIPLKPAGGEAA	PGPT0000835_1187	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRP-DEPENDENT_PATHWAY_3,PGPT0000835-nitA|nitB|nitR|nit1-K01501	NA	NA
BMS010_00570	255	grxC_1	COG0695	Glutaredoxin 3	ATGGCACCGGTGACGATCTATACGCGGGATTTTTGTGGTTATTGCGCGCGCGCCAAGGCGCTGCTGGACAGCAAGGGCGTGGATTATGCCGAATATAACGCCACGACGACACCGGAATACCGGCAGGAAATGATCGAGAAATCCGGCGGAACGACGTTCCCGCAAATCTTCATCAACGGCCAGCACGTGGGCGGTTGCGACGATCTGCACGCGCTGGAGCGCGCCGGTAAACTGGACGCGCTGCTGGCCGCCTGA	MAPVTIYTRDFCGYCARAKALLDSKGVDYAEYNATTTPEYRQEMIEKSGGTTFPQIFINGQHVGGCDDLHALERAGKLDALLAA	PGPT0013201_2930	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CHAPERONES,PGPT0013201-grxC-K03676	NA	NA
BMS010_00571	720	prs_1		Putative ribose-phosphate pyrophosphokinase	ATGTGGCGTGCGGTCTTCCGCATGGTCTACCCGCCAACCTGCGCGGGCTGCACCCGCATGACCGGCGGCGAGGGCGCCTTATGCGCGGATTGCTGGCGGGATGTGGCCTTTATCGATCGCCCTTTTTGCGAGGTTCTGGGCATTCCCTTCGCGCGGGATCACGGAGATGGTTTCGTGAGCGCACAGGCGATTGCCGAACCGCCGCCTTTTGACCGGCTGCGCGCCGTTGCAAGCCATGAGGGAACCGCCCGCAAGCTGGTGCACCGGCTGAAATATCAGGACCGGACCGATCTCGCCCGCCTGATGGCGCTGTGGATGCTGAGGGCAAGCGACGGAACGGTGGATGCCTGCGATTGCATCGTGCCCGTTCCATTGCATCGCAACCGCTTCCTGCGCCGCCGCTTCAATCAATCCGCCGAGCTGGCGCGGCATCTGGCCAGGGCCTCCGGCAAGCCCTTGCTTGCCGGCACGCTGCTGCGCGTGAAGCCGACAGAGCGGCAGGTGGGGCTTTCCGCACTCGCCCGGCGGGATAATGTGCGCGGCGCTTTCGCGCTCGCACCCGGCCGGGAAACAGATGTTCATGGCAGGCGCGTGGTGCTGGTGGACGACGTCTATACCACTGGTGCGACGGTGGGTGCGGCAAGCCGCGCCCTGCGCAGGGCCGGTGCCGCGGATGTGACGGTTTTGACCTTTGCAATGGCCATTTCCGGGCCTATATGA	MWRAVFRMVYPPTCAGCTRMTGGEGALCADCWRDVAFIDRPFCEVLGIPFARDHGDGFVSAQAIAEPPPFDRLRAVASHEGTARKLVHRLKYQDRTDLARLMALWMLRASDGTVDACDCIVPVPLHRNRFLRRRFNQSAELARHLARASGKPLLAGTLLRVKPTERQVGLSALARRDNVRGAFALAPGRETDVHGRRVVLVDDVYTTGATVGAASRALRRAGAADVTVLTFAMAISGPI				NA	NA	NA	NA	NA
BMS010_00572	882			hypothetical protein	ATGGATATTCTCTTTGACCAGGCCCTGATCGAACAAAACCGTCGCCGGGCGTGGAACCGGCGCGACGACAAGGCCCTGTTTCTTCTCGATATGGCGGCCGAAGAGCTGGCCGACAGGCTTGCCATCGTCGAGCGCCAGTTCGAGACCGCAATCGAACTTCACGGCGGCACCGGCGTCACCGCCCGGCGGCTGGCGGAGACCGGCAAGGTGGATACCATTCGCCGTATCGAAACCGAGAGCTGTTTTGCGACAGATGCGAATATTCCCGACGCCGCTTCCATGGAGCATCTGCCGCTCGAGGAGGCCTCCGCCAACCTCATCGTTTCACCGCTTGCCCTGCATCTGACCAACGATACGCCCGGCGCGCTGATCCAGATCCGGCGGGCATTGAAACCGGACGGCCTGTTCCTCGGCGCCATTCCCGGCAGCGGCACCCTGCAGGAACTGCGCGACGTGCTGCTGACCGCCGAGGCGGAACTGACCGGAGGCGCCAGCCCGCGCGTCATTCCCTTCGCCGATGTGCGCGATGTCGGCGCGCTTTTGCAGCGCGCCGGCTTTGCGCTCCCCGTGACCGATGCGGAAAGCTACACCGTGCGTTACGATTCGATTTTCCCGCTGATGCGCGATCTGCGCGCCATGGGCATGGCCAATCCGCTGGCAAGCCGCAGCAGAAAGCCGCTCAACCGCGCCTTTTTCCTGCGCGCGGCCGAGCTTTACGCGGAGCGATATTCCGATCCTGACGGGCGGATAAGGGCGACATTTTCCATCATCTATGTATCGGGCTGGGCGCCGCACGAAAGCCAGCAGAAGCCGCTGAAACCCGGCTCCGCCAAGGTGCGGCTTGCCGATGCCTTAAAGACAACCGAGGTGAAGCTGTCCTGA	MDILFDQALIEQNRRRAWNRRDDKALFLLDMAAEELADRLAIVERQFETAIELHGGTGVTARRLAETGKVDTIRRIETESCFATDANIPDAASMEHLPLEEASANLIVSPLALHLTNDTPGALIQIRRALKPDGLFLGAIPGSGTLQELRDVLLTAEAELTGGASPRVIPFADVRDVGALLQRAGFALPVTDAESYTVRYDSIFPLMRDLRAMGMANPLASRSRKPLNRAFFLRAAELYAERYSDPDGRIRATFSIIYVSGWAPHESQQKPLKPGSAKVRLADALKTTEVKLS				NA	NA	NA	NA	NA
BMS010_00573	315			hypothetical protein	ATGAACGAGGATTTCTGGAAGACGGTGGAAGGTCGTCACTTGTATTCCCACAAATCCCGTCGCACCGGCGTACTCAATGTGGCGCTGCTTTTCGGCACGGCGGTTATCGCGCTCTCACTCATCGTCACTCCCATGCTTGCCGGAAAATCCTCCACGCGGGTGGCGCAGTTTCCCGATAATTACGACATGATCAGCACGGGCTCCATCAAGAAGACCGATGTGGGCAAGACCTATTCCATCCGTCGCAGCATCACCCAGCCAATGCCGGAAATGCCCTGCGTGGTCAGGGGTTATAGCAACGAGAGCGGTTGCTGA	MNEDFWKTVEGRHLYSHKSRRTGVLNVALLFGTAVIALSLIVTPMLAGKSSTRVAQFPDNYDMISTGSIKKTDVGKTYSIRRSITQPMPEMPCVVRGYSNESGC				NA	NA	NA	NA	NA
BMS010_00574	414	nudG	COG0494	CTP pyrophosphohydrolase	ATGAGCGAGGCAGGCAAAAAAATCCTGCTGGTCGCCGCCTGCGCCCTTCTCGATCAGGATGGCCGCATTCTTCTGGCGCAGCGTCCGGAAGGCAAGTCGCTTGCGGGCCTGTGGGAATTTCCGGGCGGCAAGGTGGAGCATGGCGAGACGCCGGAGGAAACCCTTGTTCGTGAACTGGACGAGGAGCTGGGCATCAAAACCAAAGTCGCTTGCCTCGCACCGCTGACATTTGCCAGCCACACCTATGAGACCTTCCACCTCCTGATGCCGCTTTATGTGTGCCGCCGTTATGAGGGCATTGCGCATGGCCGGGAAGGGCAGGCGATTAAATGGGTGAAGCCGCAGGCATTGCGCGATTACCCCATGCCGCCGGCCGATGAGCCGCTCATCCCCTTCCTGCAGGATCTGCTATAA	MSEAGKKILLVAACALLDQDGRILLAQRPEGKSLAGLWEFPGGKVEHGETPEETLVRELDEELGIKTKVACLAPLTFASHTYETFHLLMPLYVCRRYEGIAHGREGQAIKWVKPQALRDYPMPPADEPLIPFLQDLL	PGPT0021430_65	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021430-nudG-K08320	NA	NA
BMS010_00575	777			hypothetical protein	ATGCAGGACAATAAGGCCGTCAATCTGCCGCTGGTTCGCCGTCTGGAAGCCGTCAGCTTCCGGGCATGGCCTGCCTCGTCGGTGATTTATGACGGTAGCTGGCAAATCCGCCTGACGGGCTCGCACCCCTCCAAGCGCATCAACTGCGTGGTGCCGCTCGACCCGTCCGATTACGGAAACAGCGCGGTGCGGCTGGAAAAGGCGCGCAAGCGTTTTGAAGATTTCGGCCGACCGCTGGTGGTGCGCGAAACGACGCTGATGCCGCCGCAGCTGAGAGAATTTCTCTCGAATGATGGCTGGTCCGTGTTCGAAGAGGTCACGGTCATGACGGCCGATCTCTCCGGCATGGAGCTGCCCGAAACGCTGGTCAGCCTGCCGAGCCACGATATCGGCCGTTTTGTCGAGGCGAGCATCAAGGTCAGCGATAGCGATCCGGCGCTCCGTCCGGCGATTGCGGAAATCGTCAGCTCCATCAAGCCGGCGCTCGGCCTCTTTATCAATGAGGAAGTGGAAGGCAATCCGCTCGCGACCGTGATCTGCGTGCAGGATAATGACCTTGCCGGCATCATCTCCCTCGATGTCGAAAAGTCGCAGCGTAAAAAGGGCCTCGGCACGCAGGTTTTGTCGTCGGCACTGCGCTGGGCAAGAATCAGCGGCGCAAAAACCGCCTGGCTGCAGGTGGTTTCCACCAATGCGCCGGCGATCGCCCTTTATCAAAAATTCGGCTTCTCCGAGGCCTATCGTTATCGTTACTGGCGCAAGGGAGCCGGCGAATGA	MQDNKAVNLPLVRRLEAVSFRAWPASSVIYDGSWQIRLTGSHPSKRINCVVPLDPSDYGNSAVRLEKARKRFEDFGRPLVVRETTLMPPQLREFLSNDGWSVFEEVTVMTADLSGMELPETLVSLPSHDIGRFVEASIKVSDSDPALRPAIAEIVSSIKPALGLFINEEVEGNPLATVICVQDNDLAGIISLDVEKSQRKKGLGTQVLSSALRWARISGAKTAWLQVVSTNAPAIALYQKFGFSEAYRYRYWRKGAGE				NA	NA	NA	NA	NA
BMS010_00576	1242	oat2	COG1364	Glutamate N-acetyltransferase 2	ATGTCCGTTGCCGTTTCTCCGCTCGCTCCGAAATCCTATCCCGACATGCCTGCGCTGCGCGGCGTTCGCATGGCGACGGCCGCCGCCGGCATCAAGTACAAGAACCGCACCGACGTTCTGCTGATGGTGTTCGACAAGCCGGCAAGCGTCGCGGGTGTCTTCACCAAATCAAAATGCCCTTCCGCCCCGGTCGATTTCTGCCGCGCCAATCTCGGCGGCGGCGTGGCGCGCGCCGTGGTGGTCAATTCCGGCAATGCCAATGCCTTTACCGGCGTCAAGGGCAAGGCCGCGACCGAATTGACGGCGAAATCCGCCGCTGCCGCCGTTGGCTGTTCTGAAGGCGAGGTCTTCCTGGCATCGACGGGCGTGATCGGCGAGCCGCTGGATGCTTCGAAATTTGCCGGTGTTCTCGGCGACATGAATGTCAGGGCGGAAGCCGATTTCTGGCAGGAAGCCGCCAAGGCGATCATGACGACCGACACCTATCCCAAGGTTTCGACCCGCACCGCCGAGATCGGCGGCGTGATCGTGACGATCAACGGCATTTCCAAGGGTGCTGGCATGATTGCGCCGGATATGGCGACGATGCTCTCTTTCGTGGTGACGGATGCCGATATCGAGCCCGCCGCCCTGCAGTCGCTGCTGTCTGCCGGTGTTGGCCCGACATTCAATTCCGTGACGGTCGATAGCGACACTTCCACCTCCGATACGTTGATGCTGTTTGCGACAGGTGCTGCCGCTGAAGACGGCCAGGTGAAGGTAACGAGCGCCGACGACGAGCGCCTTGCCGGCTTCCGCGCCGCGCTGAACGATCTTCTGAAGGACCTTGCCTTGCAGGTGGTTCGCGATGGTGAAGGCGCGCGCAAAATGGTGGAAGTCACCGTAACGGGTGCGGAAAACGATGCCGCCGCCAAGAAGATTGCCCTTTCCATCGCCAATTCGCCGCTGGTGAAGACCGCGGTTGCCGGCGAAGACGCCAATTGGGGCCGCGTCGTCATGGCCGTCGGCAAGTCCGGCGAAGTGGCCGACCGTGACCGCCTCGCCATCTGGTTCGGCGGCGTGCGCGTGGCCGTCAACGGCGAGCGCGACCCGGATTATTCGGAAGCGGAAACCAGCGCGGTGATGCGTCTCGAAGACATTCCGGTAAAGGTGGATATCGGTCTCGGTCAGGGCACTGCCACCGTCTGGACCTGTGACCTGACGAAAGAATATGTTGCGATCAACGGCGACTATCGGAGCTGA	MSVAVSPLAPKSYPDMPALRGVRMATAAAGIKYKNRTDVLLMVFDKPASVAGVFTKSKCPSAPVDFCRANLGGGVARAVVVNSGNANAFTGVKGKAATELTAKSAAAAVGCSEGEVFLASTGVIGEPLDASKFAGVLGDMNVRAEADFWQEAAKAIMTTDTYPKVSTRTAEIGGVIVTINGISKGAGMIAPDMATMLSFVVTDADIEPAALQSLLSAGVGPTFNSVTVDSDTSTSDTLMLFATGAAAEDGQVKVTSADDERLAGFRAALNDLLKDLALQVVRDGEGARKMVEVTVTGAENDAAAKKIALSIANSPLVKTAVAGEDANWGRVVMAVGKSGEVADRDRLAIWFGGVRVAVNGERDPDYSEAETSAVMRLEDIPVKVDIGLGQGTATVWTCDLTKEYVAINGDYRS	PGPT0014244_902	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014244-argJ-K00620	NA	NA
BMS010_00577	900	prsA		Foldase protein PrsA	ATGTCTGGAGCCGGCATTGTCCCCGAAAGGTTCAAAATGTTGCGCTATAATAAAATTGCGGCTGCGGTGATTGTGGCCACGCTCGGCCTCCAGCTTCCGGCTTTCGCACAGGAAGACAAGGTTGTCGCCAAGGTCGGCGATCTGGAAATCCACCAGTCCGAACTCGACCTCGCCATGAGCAACCTCGACCCGCAGCTCGCGCAGCTTCCCGATGAGCAGAAGAAGGTTGCAGCCCTTTCCGGCGCGATCGACGTCAAGCTTCTGGTGAAGAACGCCAGCGCCGAAGGTCTGGAAAAGACTGAAGATTTCAAGAAGCGCATGGAATTCATCCAGGACCGTGAGCTGCACAACGCCTATTTCCGCAAGCATGTCGTCGATGCCGTTACCGCTGACGAAGTAAAGGCTCGCTACGACAAGGAAGTCGCAGCTCTGCCGCAGGAAGAGGAAATCAAGGCCGCGCACATTCTCGTCGCCAGCGAGGACGAAGCCAAGGACATCATTAAGCAGCTTGATTCGGGCAAGGATTTCGCCGCGCTCGCCAAGGAAAAGTCGACCGATTCCAACAAGGATGACGGCGGCGATCTCGGCTGGTTCGGCAAGGGCCGCATGGTGCCGGAATTCGAAGAAGCCGCTTTCGGCCTCGAAAAGGGCGCCTACACCAAGGCTCCGGTGAAGACCCAGTTCGGCTTCCACGTCATCAAGCTGGAAGACAAGCGCATCGCGCCGCCGCCGGCTTTCGAGCAGGTCGAGCCGCAGGTTCGTCAGCTTGTCATGCGTGACAAGTACGTTGCCCTCATCGAGAAGGCAAAGGCCGACCAGAAGATCGAAATCATGGATGAGACGCTGAAGAAGGGCTACGACGAAGCCACGAAGGAACAGCAGGCTCAGCCGCAGCAGTAA	MSGAGIVPERFKMLRYNKIAAAVIVATLGLQLPAFAQEDKVVAKVGDLEIHQSELDLAMSNLDPQLAQLPDEQKKVAALSGAIDVKLLVKNASAEGLEKTEDFKKRMEFIQDRELHNAYFRKHVVDAVTADEVKARYDKEVAALPQEEEIKAAHILVASEDEAKDIIKQLDSGKDFAALAKEKSTDSNKDDGGDLGWFGKGRMVPEFEEAAFGLEKGAYTKAPVKTQFGFHVIKLEDKRIAPPPAFEQVEPQVRQLVMRDKYVALIEKAKADQKIEIMDETLKKGYDEATKEQQAQPQQ	PGPT0000050_607	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000050-nifM-K03769	NA	NA
BMS010_00578	2718	secA_1	COG0653	Protein translocase subunit SecA	ATGGTCAGTCTCGGCGGAATAGCCCGCAAGTTGTTCGGTTCGGCAAATGACCGCCGCGTCCGCTCCTATAAAAGCAAGATCGCAGCCATCAATGCGCTGGAAGAAGCCACCAAGGCGCTCTCCGACGAAGCGCTGGCGGCCAAGACCGCTGAGTTCCGCCAGCAGCTTGCCGATGGCAAGACGCTGGACGACCTGCTGATCCCGGCTTTCGCCGTCGCCCGCGAAGCGTCGCGCCGCGTTCTGCATATGCGGCCCTTCGACGTGCAGCTGACCGGCGGCATGATTCTGCATGGAGGCGCCATCGCCGAAATGAAGACCGGTGAAGGCAAGACGCTGGTGGCGACCCTTGCGGTCTACCTCAACGCCCTTGCCGGCAAGGGCGTGCATGTCGTTACCGTCAACGACTATCTCGCCAAGCGCGACGCGGCCACGATGAGCAGGCTCTACGGCTTCCTCGGCCTGACGACCGGCGTGATCGTCCACGGGCTGGACGACGACCAGCGCCGCGAGGCCTATGCCTGCGACATCACCTACGCGACGAATAACGAACTCGGCTTCGACTATCTGCGCGACAACATGAAATATGACCGCGCCCAGATGGTTCAGCGCGGCCACAACTACGCGATCGTCGACGAAGTCGACTCGATCCTGGTCGACGAGGCGCGCACGCCGCTGATCATTTCCGGCCCGCTGGACGACCGTTCCGACCTTTACAACACCATCGACGCCTTCATTCCGCTGCTGACGCCGGAAGATTACGAAATCGATGAAAAGCAGCGCTCGGCCAACTTCTCCGAAGACGGCACCGAGAAGCTCGAGAACCTGCTGCGGCAGGCGGGACTGCTGAAGGGCGAATCGCTTTACGACGTCGAAAACGTCGCCATCGTTCACCACATCAACAATGCGCTGAAGGCCCACAAGCTCTTTACCCGCGACAAGGACTATATCGTCCGCAACGACGAAATCGTCATCATCGACGAGTTCACCGGCCGCATGATGCCGGGCCGCCGTTATTCCGAAGGTCAGCATCAGGCTCTCGAAGCCAAGGAAAAGGTGCAGATCCAGCCGGAAAACCAGACTCTTTCCTCCGTCACCTTCCAGAATTATTTCCGCATGTACGAAAAGCTGGCCGGCATGACCGGCACGGCCGCGACGGAAGCGGAAGAATTCGGCAACATTTACGGCCTCGACGTCATCGAAGTGCCAACCAACCTGCCGATCCAGCGTATCGACGAGGACGACGAGGTTTACCGCACCGGCGAGGAGAAGTTCCAGGCGATCATCACCGAGATCAAGGCGGCGCATGAACGCGGCCAGCCGGTTCTGGTGGGCACGACCTCCATCGAAAAATCCGAGCTTCTGGCCCATCTCCTGCGTCAGTCCGGCTTCTCCGATTTCCAGGTCCTGAACGCCCGTTACCACGAGCAGGAAGCCTATATCGTTTCGCAGGCCGGCGTTCCGGGTGCGGTCACCATCGCCACCAACATGGCCGGCCGCGGTACCGACATCCAGCTCGGCGGCAACGTCGACATGCGGCTTGAGCGCGAGCTCGAAGGCATCGAACCCGGTCCGGAACACGACGCCAAGGAACAGGCGATCCGCGCCGAGATCAAAGTTCTGAAGGAAAAGGCGCTCGCCGCCGGCGGTCTCTACGTCATCGCCACCGAACGCCACGAAAGCCGACGCATCGACAACCAGCTGCGCGGCCGTTCCGGCCGTCAGGGCGACCCGGGCCGTTCGAAATTCTACCTGTCGCTTCAGGATGACCTGATGCGCATCTTCGGTTCCGAGCGCATGGACAGCATGCTTCAGAAGCTCGGCCTGAAGGAAGGCGAGGCAATCGTCCATCCGTGGATCAACAAGGCGCTGGAACGCGCCCAGAAGAAGGTCGAAGCCCGCAACTTCGAGACCCGCAAGAACCTTCTGAAATATGACGACGTGCTGAATGACCAGCGCAAGGTCATCTTCGAACAGCGCCTCGAGCTGATGGAAGCCGACAATATCGGCGAAACCGCAGCCGATATGCGCCATGAAGTGATCGAAACGCTCGTCACCAAGCATATTCCGGAAAATGCCTATGCGGAACAGTGGGATATTGCAGGCCTGAAGGCCGGCATCGCCCAGTTCCTCAACCTCGACCTGCCGGTGGAGGAATGGGCCAAGGAAGAAGGCATCGCCGAGGACGATATTCTTCAGCGTGTTACCGAGGCCGCCGACAAATACGCCGCCGAGCGCGCGGAACGTTTCGGCCCCGAGATCATGACCTATGTGGAACGCTCGGTCATTCTCCAGACGATCGACCATCTGTGGCGCGAACATATCGTTAACCTCGACCATCTCCGTTCCGTCGTCGGTTTCCGCGGTTATGCCCAGCGCGACCCGCTGCAGGAATACAAGGCGGAAGCCTTCGAACTGTTCCAGGCGCTGCTCGCCAATCTGCGCGAGGCCGTTACCGCCCAGCTGATGCGGGTGGAACTGGTGCAGCAGGAACCTCAGCAGCCGGAACTGCCGGAAATGACGGCGCATCATCTCGACCCCAATACGGGCGAAGACGAAATGGCGCTGGGCCAACAGGCCGCGCCCGCCGCCTTCGTGCCGGCCGAGGATCGCGATCCGGAAAACCCGGCCACCTGGGGTCGCATCGGCCGCAACGAAATGTGCCCCTGCGGCTCCGGCAAGAAATACAAGCACTGCCACGGCGTTTACGAACAGGCCTGA	MVSLGGIARKLFGSANDRRVRSYKSKIAAINALEEATKALSDEALAAKTAEFRQQLADGKTLDDLLIPAFAVAREASRRVLHMRPFDVQLTGGMILHGGAIAEMKTGEGKTLVATLAVYLNALAGKGVHVVTVNDYLAKRDAATMSRLYGFLGLTTGVIVHGLDDDQRREAYACDITYATNNELGFDYLRDNMKYDRAQMVQRGHNYAIVDEVDSILVDEARTPLIISGPLDDRSDLYNTIDAFIPLLTPEDYEIDEKQRSANFSEDGTEKLENLLRQAGLLKGESLYDVENVAIVHHINNALKAHKLFTRDKDYIVRNDEIVIIDEFTGRMMPGRRYSEGQHQALEAKEKVQIQPENQTLSSVTFQNYFRMYEKLAGMTGTAATEAEEFGNIYGLDVIEVPTNLPIQRIDEDDEVYRTGEEKFQAIITEIKAAHERGQPVLVGTTSIEKSELLAHLLRQSGFSDFQVLNARYHEQEAYIVSQAGVPGAVTIATNMAGRGTDIQLGGNVDMRLERELEGIEPGPEHDAKEQAIRAEIKVLKEKALAAGGLYVIATERHESRRIDNQLRGRSGRQGDPGRSKFYLSLQDDLMRIFGSERMDSMLQKLGLKEGEAIVHPWINKALERAQKKVEARNFETRKNLLKYDDVLNDQRKVIFEQRLELMEADNIGETAADMRHEVIETLVTKHIPENAYAEQWDIAGLKAGIAQFLNLDLPVEEWAKEEGIAEDDILQRVTEAADKYAAERAERFGPEIMTYVERSVILQTIDHLWREHIVNLDHLRSVVGFRGYAQRDPLQEYKAEAFELFQALLANLREAVTAQLMRVELVQQEPQQPELPEMTAHHLDPNTGEDEMALGQQAAPAAFVPAEDRDPENPATWGRIGRNEMCPCGSGKKYKHCHGVYEQA	PGPT0025735_3063	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025735-secA-K03070	NA	NA
BMS010_00579	894			hypothetical protein	ATGGCCCCTCGCGACTTTGCCGCCTATGTTTTTCTCGCACTCGCGTGGGGAATGTCCTTCCTGCTGCTTTTGCATGTCGTCGAGGCCTTCGGCTGGATCGGCGCGGTCACGCTCCGTTCGCTGGTCACCGCCATCACCCTGTTTCTGATCGCGATTGCGGCGCGCCGAAAGCTCGCATTTTCCGCGAGCTGGCGCGCCTTCGCCGTCGTCGGCGCAACAACGGTCGCGGGACAGTTGATCGGCCTCTCCTATGCGACGCCGCTGGTCGGCACCGCCATGGCGGCCATTCTGGTGGCCACCATCCCGCTTTTTTCCATGCTCATCTCACAGGTCTGGGGACTTGAACGCCTCACGAAACAGGGCTTTGCCGGCCTCATCATCGGCTTTAGCGGCATCTTGCTGCTTGTCGGCTTCCCTGCTGTGCCCGTCACGACCGGCTTCATCATCGGCTGTGCCGCCGCCCTCGCCGCCTGCATCTGCGCCGCCTATGGCAGCAACTATGCCAGCCGCTATCTCAAGGGCGTGGGTTCGTGGGAAATCACTATCGGCTCCTTTCTCACGGGCGGGCTGATGACATTGCCGCTTCTTCTGGCCGTGCCCCTGCCCGGAGCACCGCGCCTCATCGATTACGGTTATCTTCTCGTACAGGCGGTGGTCATGAGCGGCCTCACCTACATCACCTATTTCAAGCTTGTCTCCTCGATCGGCGCAACCAGGGCGATCAGCGTGGAATTCGCCGTGACCGTCGTTGCGGTCCTCGTCGGCGCGCTGGTGCTGGATGAGCCGCTTTCGCTTCCCCAGCTTTTCGGCGCCGGCATCATCATTCTGGGCTGTGCGCTGGTCCTCGATCTCATGCCAAGGAAAAAGGCTCCGCCCACACCCTCCGGGGCGTGA	MAPRDFAAYVFLALAWGMSFLLLLHVVEAFGWIGAVTLRSLVTAITLFLIAIAARRKLAFSASWRAFAVVGATTVAGQLIGLSYATPLVGTAMAAILVATIPLFSMLISQVWGLERLTKQGFAGLIIGFSGILLLVGFPAVPVTTGFIIGCAAALAACICAAYGSNYASRYLKGVGSWEITIGSFLTGGLMTLPLLLAVPLPGAPRLIDYGYLLVQAVVMSGLTYITYFKLVSSIGATRAISVEFAVTVVAVLVGALVLDEPLSLPQLFGAGIIILGCALVLDLMPRKKAPPTPSGA				NA	NA	NA	NA	NA
BMS010_00580	1203	mdoC		Glucans biosynthesis protein C	ATGCAACCGGGCAAATCAGACTACGAGCACTACTGGGACCCGCTAAGGGCGCTCCTCATGCTGCTTGGCATTCCCTATCACGCCTCCCTCCTCTACACCTATGCCCTGCCATGGGACATCAAGGATTTCGACACCAGCCCGCTTCTGAGCGCGCTGGGTGCCGCACTCGTCACCTTCCGCATGCCGGCATTCTTTCTGGTGGCCGGCTATTTTTCCACCATGGTCATCGGCAGGAAGGGCAAGATGCGCTGGCTGAGACAGCGTTTCCTGCGCCTCGGCGTGCCCTTTATCATCGCGGTCCTTCTGCTCGGGCCATCACAGCTTTTCCTGCTGCAACTGGCCCGCGTCGCCAAAGGCGATATCCCGGCCGACCGGCTGCTTGAGAGCCTGCCCGGCCTGCTGCGCCCGAGCGAACAGTGGATCATGCATCTATGGTTCCTGCCGGCCCTTATCTTCTATTCGATCCTGCTTGCCGGCCTGCTGTTTCTCTTGGAACGTCCGCCAGTAGCCTATGTGAGAGATTGGTTCGGCAGCCTGCGGCAGGGGCATACCTCCCTGTTTTTCGCAATCCTCTGCCTCGCACCTGTTGTGTGGGAATTGATGATCTACGGATCCGGCCAGCTTGCAGCAAAGAGCGGAAGCGGCCTCTTTTTTCTCTATGAACGCGCTTCCGATCCCTATGCGCGTTACCTGCCATTCTTCCTCATTGGCGCGCTGCTGCACCGTGACCGCGCCCTCTTTCACCGCTTTCGCCAGACGGGCCTTCTCACCGGCGTCATCGCGGCGGGCGCCATCGCGACGGCGGTGACCCTGCGCCTGCAACATCCCTTTTCGAATTCGGCCCTGCTGGTGCTGGTGTCGACAATTGCGGCGGTGACGGCAAGCCGTCTGTTGATAGACCTCGCCTGCCGCTATTTCGACAGGCCGAGCCGGCTTGCCAGACGCATGACGGATGCGTCCTTCACCATCTACCTGTTCCACCATCCGCTGATCTACGCGTTCGGGACGCTCTTCATCCTCATTGCGCTGCCGCCCATCCTGGAATTCACCATCATCGTCGCGGCCACCACGACGGCGGCCTATATGCTGCATCGGGCGATACGCCTCAGCCCGCTCGCCCTTTTCCTGTTCAACGGCATTCGCAAGCCACGCGTGGCGGACGATATTGGCACACAGGCCGGCGCGTCCCAAACCCTTCGTTAA	MQPGKSDYEHYWDPLRALLMLLGIPYHASLLYTYALPWDIKDFDTSPLLSALGAALVTFRMPAFFLVAGYFSTMVIGRKGKMRWLRQRFLRLGVPFIIAVLLLGPSQLFLLQLARVAKGDIPADRLLESLPGLLRPSEQWIMHLWFLPALIFYSILLAGLLFLLERPPVAYVRDWFGSLRQGHTSLFFAILCLAPVVWELMIYGSGQLAAKSGSGLFFLYERASDPYARYLPFFLIGALLHRDRALFHRFRQTGLLTGVIAAGAIATAVTLRLQHPFSNSALLVLVSTIAAVTASRLLIDLACRYFDRPSRLARRMTDASFTIYLFHHPLIYAFGTLFILIALPPILEFTIIVAATTTAAYMLHRAIRLSPLALFLFNGIRKPRVADDIGTQAGASQTLR	PGPT0013335_157	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013335-mdoC|glucans_biosynthesis_protein_C_EC_2_1_X_X-K11941	NA	NA
BMS010_00581	1416			hypothetical protein	ATGGCTATCCTCAACACGGCGGAAAAAGCCTTACCCGCAGGCCTGCGCGCGAAGCTTTCGCCGCTGGTAGCGAAAGTCGCCGTTGTTCTTTCCGGCGGGGATGAGGTCTCTCGCGCGCAGCGCATGGCGCTGGTTGCGTTTGCGGTGCGTATCGTCAGCGCCGGTATAGCCTTCATTTCCCAGATCATTCTTGCCCGCCTGATGGGCGAATTCGAATACGGCCTGTTCGCCTTCGTCTGGGTTCTGGTGATCCTGTTCGGCAATCTTTCCTGTCTCGGTTTTCACACCACCGTCATCCGCTTTTTACCCGGCTATCGTCTGGAGGATGCCCATGACAAGATCATGGGGCTGACCTCGACGGCGCGGGTCTTCGCCATGCTTTCGGCGAGCGCGCTTGCGATTTTCGGTTTCGTTTTCCTGTATTTCTTTGGCGAGAGCATCGCCTCCTATTATCTCATTCCCGTGTCGCTCGCGCTTTTCACCCTGCCGATGGTGGCGCTGGGCGATGTGCTGAACGGCACCGCGCGCGCCAATGGCTGGGCGGTCTCCGCACTCAGCCCCACCTATATCGTTCGCCCGGTGCTGATCCTGCTGTTCATGCTGGTGGCAATCGGTCTTGGCGCGGAAAAAACCGCAACGACGGCCATGCTGACGGCCCTTCTTGCCACCTATGTCACCACGCTTTTCCATTTCGCGTTCATGAACCGCAGGCTTAACCGGCATTTCCGCAGCACGGTCCGCAGGGTGCATTTCCGCCACTGGATAAGGTTCGCCTTCCCGATGTTCCTGATCGACGGCATCGGTTTTCTGATGACCAATTCCGATGTGGTAATCGTCGGGCTTTATCTGCCGCCGGATCAGGTGGGCATCTATTTTGCCGCGGCAAAGACCATCGTGCTGATGCAATTCGTGTTTTTCTCGGTGCAGGCGGCCGCCGCCCCGCGCCTGGCCGCCCTCATGTCGGCCAATGACCGGCAGGGGCTCGCCGGTTTCGCCAGCCAGGCAGCGCGCTGGGCCTTCTGGCCATCGCTCGGCGTCGGCAGCGTGGTGCTTCTGGCCGGCCCGTTCCTGCTGTCGCTGTTCGGTCCCGGCTTCGTTCAGGGTTATGAGCTGATGTTCTTCCTTTTCGCCGGTTTCCTCGCCAAGGCGCTGATCGGCCCGGGGGAAACATTGCTGAACATGGCCGGCAAACAAAAATTGTGCGTCGTGCTTTATATTATTATCTTCGGTTGCAACATTGCACTCAACATGGCGCTCATTCCGGTCTATGGTCTGGCAGGGGCAGCGGCAGCGGTGGCGATAGCCATGTGCATAGAAGCTGTGCTATTGCATATTGCCATTCGCCGCACACTCGGGATCGTCCTTTTTGCCTTCAACGATCCCCGGGCGGGTCAAAACACTGGGAAGGCGGTGTAA	MAILNTAEKALPAGLRAKLSPLVAKVAVVLSGGDEVSRAQRMALVAFAVRIVSAGIAFISQIILARLMGEFEYGLFAFVWVLVILFGNLSCLGFHTTVIRFLPGYRLEDAHDKIMGLTSTARVFAMLSASALAIFGFVFLYFFGESIASYYLIPVSLALFTLPMVALGDVLNGTARANGWAVSALSPTYIVRPVLILLFMLVAIGLGAEKTATTAMLTALLATYVTTLFHFAFMNRRLNRHFRSTVRRVHFRHWIRFAFPMFLIDGIGFLMTNSDVVIVGLYLPPDQVGIYFAAAKTIVLMQFVFFSVQAAAAPRLAALMSANDRQGLAGFASQAARWAFWPSLGVGSVVLLAGPFLLSLFGPGFVQGYELMFFLFAGFLAKALIGPGETLLNMAGKQKLCVVLYIIIFGCNIALNMALIPVYGLAGAAAAVAIAMCIEAVLLHIAIRRTLGIVLFAFNDPRAGQNTGKAV				NA	NA	NA	NA	NA
BMS010_00582	1272			hypothetical protein	ATGTCCAGCGATCCAAAGAATCCGGATTTTCAGGACCCGCGCATCGCGGCACTGATGGCGTCCGCGGAGCGTGACCGCCCCGTGGCCGACAGCAGCCGACGCGTGGGCCGCGATGGCCGGGAATTCTGCATCTATCCGGGTCAGCTCGGTTATGACATGCAGGAAGAACTCGACTTTCTGTCCAACCGTGTCATGGAGGCGAATGTCTTCTTCACCGGAAGGCTCCTCGCGCCCGCCATGCCGCGCATCGAGGACAAGTCCGTGCGCTTCGCCCTCATTCGCGACGAGAATGGCGCCAGAAGCCGCATGCGCTTCCTGATGCCCTTTACCGTGGAAAAGCCGGGCTTTTCCATCGGTCCCTCCATCATTCGCGTCTGGGCCAATCCATTCGGGCCGCTCGGCACGCCGCTGGTCGACACCGAAGGCGCCGCCGAAACCCTCGACAATCTTTTCGATGCGCTTTCCGACAGCAACATGCGTCTGCCGAATGTTCTGGTTCTGCCGGATATTCGGCTGGAAGGGCCGTTTGCCCGCATGTTCAAAGCCATCGCGCTCAGCCGCAACCTGCCGGTGACGACGACGGGCAATTATTATCGCCCGATGCTGGAAAGCCTTCTCGATGGCAGGGCCTATCTGCGAAACGCCCTTGCGCCGCACCATTTGCGCGAAATGAACAGGCAGTGGCGGCAGCTCGAAAAACTTGGGGCCCTCTCCTATACCGTTACCCGGCAGCCAGCGGACGTGCGTTACCGCATGGAGGAGTTTCTGGCGCTGGAGGCGAGCGGCTGGAAAGGCCGCAAACGCACCGCGCTGGTCAACGACCGTTATCGCGCGGCCTTCGCCCGCGAGGCGATCACCAATCTGGCCGAAGCGGATGCGGTGCGTATCCACACTATCGATCTCAATGGCAGCGCCATCGCCTCCATGGTCGTCTTCATCACCGCCGGCGAGGCCTATACGTGGAAGACCGCTTTCGACGAGAGCTATGCGCAATTTTCTCCCGGCAAGCTGCTGGTGCAGAAACTGACCGACTGGCATCTCGATGACGCCAACATTCTGCGCAGCGACAGCTGCGCCGTGCCCGATCATCCGATCATGAGCCGCTTCTGGCAGGAACGTCAGGAAATGGGTACGCTGGTCGTCGGGCTTGCCCAGAACAGCGACCGGGACGTGCGTCAGGTTTCCACGCAGGTGGACATGTACCGCAACACCCGCAACCTCGCCCGCAGCCTGCGGCAGAAGATCCTGTCCTTCGGACGCAAGGGCAATTGA	MSSDPKNPDFQDPRIAALMASAERDRPVADSSRRVGRDGREFCIYPGQLGYDMQEELDFLSNRVMEANVFFTGRLLAPAMPRIEDKSVRFALIRDENGARSRMRFLMPFTVEKPGFSIGPSIIRVWANPFGPLGTPLVDTEGAAETLDNLFDALSDSNMRLPNVLVLPDIRLEGPFARMFKAIALSRNLPVTTTGNYYRPMLESLLDGRAYLRNALAPHHLREMNRQWRQLEKLGALSYTVTRQPADVRYRMEEFLALEASGWKGRKRTALVNDRYRAAFAREAITNLAEADAVRIHTIDLNGSAIASMVVFITAGEAYTWKTAFDESYAQFSPGKLLVQKLTDWHLDDANILRSDSCAVPDHPIMSRFWQERQEMGTLVVGLAQNSDRDVRQVSTQVDMYRNTRNLARSLRQKILSFGRKGN				NA	NA	NA	NA	NA
BMS010_00583	645			hypothetical protein	ATGAGGGCTTTTTCTCGCAATTTATTACTGTCCGCCTGCCTGATCCTGCCGATCAACGCCCATGCGCTGGATATCGGGATCGGTGGCGAGAATGGGGTTAACGCCAGTGTTGGCGACAATGGCAGTGGCGGGCTCGGGGTCGATGCCTCCGTTGGCGGCAGCAGTGGCGTTAACGCCAGTGCGGATGTCGGCGGCAGGAGCGGCGGCGGGCTGGGTGCGGATGTCAACGCATCGGTCGGCGGCAGCAATGGGGTCAATGCGGATGTCAATGCATCCGTCGGCGGTTCCAGTGGCGTCAATGCCGGTGTGAACGCTTCCGTTGGCGGCTCGGATGGCATCAATGCCAATGTCGGGGCCAATGTGGGCGGCTCGAGCGGTGTCGGTCTCGGCGTTGGCGTCGGTATCGGCGGCTCCGGTTCGACCGGCACGCCCGGCACGCCCGGAAATCCCGGCGGCAGCACCACCAGTCCCGGCGGCTCGGGCACGGTGTCTCCCGGCGCGATGCGCAATGCCCTGCAAGCCTATAACGATATGTCGCGGACCGAGCAGATCAAGCTCGCCCGCCGTTGTGTCGATATTCTGGGCGGCGGATACGATGCGGCGCTGACGAAACTGTGCAAAATGATCCGGACGGCCTCGCGCTGA	MRAFSRNLLLSACLILPINAHALDIGIGGENGVNASVGDNGSGGLGVDASVGGSSGVNASADVGGRSGGGLGADVNASVGGSNGVNADVNASVGGSSGVNAGVNASVGGSDGINANVGANVGGSSGVGLGVGVGIGGSGSTGTPGTPGNPGGSTTSPGGSGTVSPGAMRNALQAYNDMSRTEQIKLARRCVDILGGGYDAALTKLCKMIRTASR				NA	NA	NA	NA	NA
BMS010_00585	516	dsbB_1		Disulfide bond formation protein B	ATGGCCAATGCGACCACCGCCGACAATAGCCGCACGCTCGCCGCTCTCGGCGTCACGGCGGGAATGATCTTCACCGTCGGCTCCGCCCTCGGTTTCCAGCATATTGGCGGTTATACGCCCTGCGCGCTGTGCCTGCTGCAGCGCGATCCCTATTATTACGCGATTCCGCTGGGCATATTGGCCATTGCGACCAGCATCTTCAAATTGCCAGTCCAGATCACCCGGCTGCTGCTTGCCCTTATCGGCGTGGCGATGCTGATCGGCGCCGGGCTCGGTGTTTATCATGCCGGTGTGGAATGGGGTTTCTGGGAAGGGCCGATCACCTGCGCCACCGGGACGCCTTCCATCACCACTAATGCCGGCGATCTCTTGGGCAATCTGAACGCCATCAAGGCGCCTTCCTGCAACGACGCTGCCTTGCGGGTGCTCGGCCTTTCCTTCGCGGGCTGGAATGTCATCGCAAGCGTTGCACTTGCGGCAGTCGCCTTTTTTGGCGCGAGCCGTAAAAGCCGGTAA	MANATTADNSRTLAALGVTAGMIFTVGSALGFQHIGGYTPCALCLLQRDPYYYAIPLGILAIATSIFKLPVQITRLLLALIGVAMLIGAGLGVYHAGVEWGFWEGPITCATGTPSITTNAGDLLGNLNAIKAPSCNDAALRVLGLSFAGWNVIASVALAAVAFFGASRKSR				NA	NA	NA	NA	NA
BMS010_00586	558			hypothetical protein	TTGACGATTGCAGTTTCACCACAGGCCCTGCCGGCGCTCGTTCTGAACGCAGACTACAGGCCACTGAGTTATTATCCCTTGTCGTTATGGTCCTGGCAGGACGCGATCAAGGCCGTCTTTCTAGACCGTGTGAACATCATTGCAGAATATGATCACGCGGTGTCGTCCCCCAGCTTTTCCATGCGGCTGCCGAGCGTCGTCAGCCTCAAGACCTATGTGCAGCCCACCCGCAACCCCGCCTTCACCCGCTTCAACGTTTTCCTTCGGGACAAGTTCGAATGCCAGTATTGCGGCACGCGGGACGAATTGACCTTCGACCATGTGATTCCCCGCGCGCATGGCGGTGAAACCACCTGGCACAATGTCGTTGCGGCGTGCTCTCCCTGCAACCTTAAAAAAGGCAGCAAGCTTCCCAAGCAGGCGGGCATGTTCCCGGCGCAGAAGCCCTTCCAGCCGACGGTTCAGGATCTGCACAATAACGGGCGGCTGTTCCCGCCCAATTATCTACATGAAAGCTGGATGGATTATCTTTACTGGGATACCGAACTGCAGCCCTGA	MTIAVSPQALPALVLNADYRPLSYYPLSLWSWQDAIKAVFLDRVNIIAEYDHAVSSPSFSMRLPSVVSLKTYVQPTRNPAFTRFNVFLRDKFECQYCGTRDELTFDHVIPRAHGGETTWHNVVAACSPCNLKKGSKLPKQAGMFPAQKPFQPTVQDLHNNGRLFPPNYLHESWMDYLYWDTELQP				NA	NA	NA	NA	NA
BMS010_00587	300			hypothetical protein	ATGAGGTTGGGCGGGCAGCAAGCGGCAGCATTCCGAGGCGGACTGGCGGCCGGTGTTCTGACCGCCATGATCTTCCTCTCCGTGGGCGCCCATGCCCAGCAGTATCAGAATTTCGAAGTGACGCCGGATGGCCGCGGCGGGGCGCAGGGGACGATCGGCGGGCGCAATTTCGAAGTTTACCGAAATTACGACCGGCCGCCGGCAAGCCGCGCCTCCCCCGAGACCCGGCGTGAACTCAGGCGGGCGGTCCCGCAGCAGACCTGTAATGTCGACACCGAGGGCAGAACCCGCTGCAGGTGA	MRLGGQQAAAFRGGLAAGVLTAMIFLSVGAHAQQYQNFEVTPDGRGGAQGTIGGRNFEVYRNYDRPPASRASPETRRELRRAVPQQTCNVDTEGRTRCR				NA	NA	NA	NA	NA
BMS010_00588	606			hypothetical protein	ATGGCGAAGAGAACAATCCGTCTGGCAAAGATTTTTGTCGTCGCTGCCGGCGTGGCAGCAAGTGTTGCGACAACGGCATCAGCCGTCCAGCTCGGCGGCCTTGCCCAGAAGCCCGGCGCCTCGCGGCCCGGCCAGTTCATGACCACGAGCCGTCCCACCATCGCACCCATTGCCTTTGCGAAATTCTGTGAAAACGCCGCCGACCAGTGCCTCCGGATTGGCGACCGCGATACAGTGGAACTGAGCAAGCAGAAGCGCACCGAACTCCAGCGCATCAACGCCGAGATCAACACCTCGATAATCTATGCCAGCGAACAGGACGGCGAAGACGACTGGGAACTGAACCCGGCAAGCGGCGACTGCGAAGATTTCGCGGTGACCAAGCGGCAACGCCTCCTGCGCGCCGGCTGGCCTTCAGGCGCCCTGCGCATCGCCACAGCCCGCACGACGGATGGCATAGGACATGCCGTTCTGGTCGTCAGCACCAGCCAGGGCGATCTGGTGCTGGATAACCGCACCAATGTCGTCAAGCCATGGAAAGCGGTGGATCTGAAATGGATCAAGATCCAGTCGCACGAGGACCCGCGTGTCTGGCTGAAACTCTAG	MAKRTIRLAKIFVVAAGVAASVATTASAVQLGGLAQKPGASRPGQFMTTSRPTIAPIAFAKFCENAADQCLRIGDRDTVELSKQKRTELQRINAEINTSIIYASEQDGEDDWELNPASGDCEDFAVTKRQRLLRAGWPSGALRIATARTTDGIGHAVLVVSTSQGDLVLDNRTNVVKPWKAVDLKWIKIQSHEDPRVWLKL				NA	NA	NA	NA	NA
BMS010_00589	792	pphA	COG0639	Serine/threonine-protein phosphatase 1	ATGCCCAAAGTGCTCAACTGGATTCGCGGTCGTAAACAACCAGCCTCCCGCGACGACCGGAGGCGGCGCAGAATTGACCTTGGCGACAAGCCGGCCTCCTTTCCGATCTATGCCATTGGCGACGTGCATGGCAGCCTCGACCTGCTGTTGCAGGCGGAGCGGAAAATCCTTGCCGATCTGGGGCACGACCCTTCTCCCGCGCTGGTCGTTCTCCTCGGTGACTATGTCGATCGCGGACGCGATTCCCGTGGCGTTCTCGAACATTTGCTGCAGCCGCCACCCGCGCCGCTGCGCCGCATTGCGCTTTGCGGCAACCATGAGCAGCTCTTCCATGATTTTCTCGAAAATCCGCAGCAGAATATGCACTGGCTGGACTTCGGTGGCCGCCAGACGCTTTTATCCTACGGCGTCGATATCGACTATTTCCTGCAAAAGGGCCGCCTGAGACTGCAGCCATTCAGGGACGCCCTGCTCGGCGCGATTCCGCAAACCCACCGCCAGCTTTTATCCAGCCTGCCGATCTACGCCCGGATAGGACCCTATATTTTCGTGCATGCCGGCTTGAGACCGGGATTGCCGCTGGAGGCGCAGACGGATGAAGACATGCTCTGGATCCGGGAACCGTTCCTGTCGCAGGGGGCTGGGCTGGACCTCGTCGTCATCCACGGCCACACGCCGGTAACCGAGCCGGAAACCGGCCCGCAACGGATCGGCATCGACACGGGTGCATTCACCACGGGCAGGCTTACCGTTCTCAGACTTTCGGATGCGGGCTTGCACCTGATCGGTTGA	MPKVLNWIRGRKQPASRDDRRRRRIDLGDKPASFPIYAIGDVHGSLDLLLQAERKILADLGHDPSPALVVLLGDYVDRGRDSRGVLEHLLQPPPAPLRRIALCGNHEQLFHDFLENPQQNMHWLDFGGRQTLLSYGVDIDYFLQKGRLRLQPFRDALLGAIPQTHRQLLSSLPIYARIGPYIFVHAGLRPGLPLEAQTDEDMLWIREPFLSQGAGLDLVVIHGHTPVTEPETGPQRIGIDTGAFTTGRLTVLRLSDAGLHLIG				NA	NA	NA	NA	NA
BMS010_00590	948			hypothetical protein	ATGAAGACGATTACCATTCTCGATACAACCGTAGCCTCGGACAATCTCGGCGATCAGATCATTCTCGATGCCGTCAAGGAGGTGCTGCTTGAGGTTGTTCCTCAAGCGTATCCCTATCATGTGGCGACCCATGAATATATGACGAACGTCTCGAAATCGCTGCTGCGCAAGAGCGAAGCTGCCTTTGTTGCCGGCACTAATATTCTCGCATCGAACATGGAAGCCCGCGTTTTGTGGAAGTTGCTGCCGTGGGATGCATTCGCCTTCCGGGAGGCTGTTCTGCTCGGCTGCGGCTGGATGAATTACATGAAACAGCCGAACGCTTATTCGCGCTGGATTCTGAAAAAAATTCTGTCGGATGAATTCACACATGCGGTGCGCGACAATTACACCGCCGAAAAACTCAGGTCCCTGGGCAAGAAGGTTCTGAACACCTCTTGCCCGACCATGTGGGGCCTTGATCCGGACCATTGCAGGTCCATCCCTACTTCCAAGGCCTCTTCCGTTGTCACAACGCTGACCTTCTACCTCAACCGCCAGGAGGAGGACAAGAAGATGATTGAAATTCTGAAGGATCGTTACGACAACGTCTATTTCTGGCCGCAGCAGCGCGAAGATGCGGCTTATCTTGCTTCCATGAATATTTCCGGGCTGAAGTTCATCGATCCGACGCTCGCGGCCTATAACCACTTTCTTGATAATGAGGATGTGGATTTCGTGGGAACGCGCCTGCATGGCGGCATTCGTGCGATGCAGAAATTTCGCCGTGCCCTAATCGTCAAAGTCGACAACCGGGCCACGGAAATTTCCAAGGATACTGGTTTGCCGGCCATGGATCGTAAGGATTTCGAGAGAATGTCGAACTGGATTTCCGGGAGCGGGGTGCCGCCGATAAAGTTGCCGGTGGAGGCAATCGAAAGCTGGAAACAGCAGTTCAGGAGAGCGTGA	MKTITILDTTVASDNLGDQIILDAVKEVLLEVVPQAYPYHVATHEYMTNVSKSLLRKSEAAFVAGTNILASNMEARVLWKLLPWDAFAFREAVLLGCGWMNYMKQPNAYSRWILKKILSDEFTHAVRDNYTAEKLRSLGKKVLNTSCPTMWGLDPDHCRSIPTSKASSVVTTLTFYLNRQEEDKKMIEILKDRYDNVYFWPQQREDAAYLASMNISGLKFIDPTLAAYNHFLDNEDVDFVGTRLHGGIRAMQKFRRALIVKVDNRATEISKDTGLPAMDRKDFERMSNWISGSGVPPIKLPVEAIESWKQQFRRA				NA	NA	NA	NA	NA
BMS010_00591	1473			hypothetical protein	ATGTTGAAGTTGGACGAAAACGCTCCCCGTCTTGAAAGGCGCTCGGTCACGAGCGCCCTGTGGAGTGCGGCCGGCGGTTATGGCAACGTCTTTCTGTCTTTCGTCGTCTTCCTCATTCTGGCGCGCCTGCTGACGCCGGACGAGTTTGGGCTTGTCGCCATCGCAACGGTTTTCGTGGATATCATCCTCGTCATCGCCCGCGGTGGATTGCCGGAGGCGGTGCTGCAGCGACCGGAGCTGGACGAAGACTATGCCGACACGGCCTTCTGGTTTTCACTCCTGTGGGGAGCCGTGCTGTGCGCTTTGCTTTCGCTGGCGGCGCCTTTCCTCGCGGGCCTGTTTGGAATTGCAGAACTCAGCCCGGTCTTGATGGCGCTCTCCACCGTACTCTTCATTATGGGTGCCGGCACCATTCATGAAGCCCGCCTGCAGCGTGAGTTCGCGTTTCGCAAGCTTGCCATGCGTGCGCTCCTGTCCAATTTTCTTGCCGGGGTGATCGCAATCGCTCTGGCCCTGAATGGGTGGGGCGTATGGGCAATGGTCGTGCAGAGGCTGATTGCCAGTCTTGTGACGACTTGTATGAACTGGATTGCCTGTGGATGGATCCCGCGTCCGCGTTTCATCAGAGCCAATGTAGCGGATCAGTGGAGTTTCGGGTCGCGCATCTTTGCGGCAAATTTCCTGGTGGGTCTCAATGTCCGGCTGCAGGAGCTGATTGCCGCGACCTTTCTCTCGACCGCGGCCGTGGGGTACATCCGGTTGTCATGGCGGTGCATCGATCTCGTCAGTCAGCTGGCCGTCATTCCACTGACATCGGTGGCGTTGACGAGCTATGCACGCATCAATGCCGAGAACAAATCCCTCGAACATGCCTATTTCGGCTTCATCCGGCTGTCGGGCATCATTGCTTTCCCATGTTTCCTCGGTCTTGCGGCCACGGCGCCTGTTCTTGTTCCCGTTGCTTTCGGCGAAAACTGGGCGGCCGCTGCACCGGTCACGCAATTATTGTGTCTGACAGCTTTGCCGTTTGTCGCCAATTCATTCGTCTGGCCGCTGCTGACCGCCATCCGGCAGGGCGGAAAAACCCTGTACCTGTCGTTTCTGCAGGTTGTTATCGGCTGTGGGCTTGGTCTTGCCGCTGCTCCTTTCGGCTTGGTGGCGGTTACTCTCGCCCATGTCGTGCGGGCCTATCTGACGTGGCCGGTCGCTTTGGTCAGCGTTCGAAACAGCGCCGGCATTTCGATAGGCGGCACGCTTCGCACCTGCATGCCGCCGCTCATCGCGGCCTTCACCATGGCTGTGCTGGTTAGCGGTCTTTACTGGATGATGGGGGAACGTTTCTCCAAACCCGTAACACTATGCCTGCTGGTCTCGGCAGGGGCGGTGATCTATCCGGCTCTGCTTTTTATCACCATGCCCGGGGACATACGGGGGGTGCTCAAAGAGGCCAGGGCGCTTTTTTCACGAAAATGA	MLKLDENAPRLERRSVTSALWSAAGGYGNVFLSFVVFLILARLLTPDEFGLVAIATVFVDIILVIARGGLPEAVLQRPELDEDYADTAFWFSLLWGAVLCALLSLAAPFLAGLFGIAELSPVLMALSTVLFIMGAGTIHEARLQREFAFRKLAMRALLSNFLAGVIAIALALNGWGVWAMVVQRLIASLVTTCMNWIACGWIPRPRFIRANVADQWSFGSRIFAANFLVGLNVRLQELIAATFLSTAAVGYIRLSWRCIDLVSQLAVIPLTSVALTSYARINAENKSLEHAYFGFIRLSGIIAFPCFLGLAATAPVLVPVAFGENWAAAAPVTQLLCLTALPFVANSFVWPLLTAIRQGGKTLYLSFLQVVIGCGLGLAAAPFGLVAVTLAHVVRAYLTWPVALVSVRNSAGISIGGTLRTCMPPLIAAFTMAVLVSGLYWMMGERFSKPVTLCLLVSAGAVIYPALLFITMPGDIRGVLKEARALFSRK				NA	NA	NA	NA	NA
BMS010_00592	1224			hypothetical protein	ATGAGAATTCTCCATCTTAGCAGCCTTTATCCGCCGCATATCGTTGGTGGATGCGAACGCTCGGTCGAACACCTCGCCGAGGAACTCGTTTCCATGGGACATACGGTCGGCGCCGCCTGTATCGAGCGACAGGCCGAACCGAAAACCATGCGCAACGGCGTGACCGTTTACCGCATGTTCCACAACAACGATTTCTGGCTCGAGGACTGGCCGCAATATTCGCCGCAGCAGCGGCGCATGCAGAAGCTCAAGCAGCAATGGAATTTCGACGTCGAAAAGCAGTTCGAAGCCGTTCTCGACGATTTCAAACCTGACGTTCTCAACACCCACTCGCTTCTGGATGTGACGACGCTGGTGTGGCGGGCGGCGCATAAGCGCGGCATTCCGATCGTTCACACGATCTGCGAATATGATCTCCTGTGCGGCAACGCCGCCATGTTCAAGGGCGGCAAGCCCTGCGAGCACATCCATCTCGGCTGCCAGGCGGTGAATTTCACCAAGAAATTCACCCAGCGCTATATAGCGGCTGTCGCAAGCGTCGGCACGGAAATCCTCAAGACGCATGTCAATCACGGGCTTTTCCACCACATTCCGGAAAGCCTGCGCCGCGTTATCTTTTATTCCTGCACGGTTCCCGAGGGCGATCCCGTCGCCCGCCGGCAGATCGACCGCACTGGCCGGCCGCTGACCTTCGGTTATATCGGCCGTATCAATACGGAAAAAGGCGTCGGCAACATGGTCGATGCCTTCAAGGAAATCGGTCACGGCAACTGGCGCTGTCTGGTCGCCGGCCATGCGATGGACGATTCGATCGAACGCTTCACGGCTCAGGCCGGCGATCTGCCGATTGAATTCGTCGGCTGGGCGAAACCGAAGGAGTTTCTCGAAGAGATTGACGTGCTCATCGTTCCTTCCTTCTGGGCGGAACCTTCGCCACGCACGATCTACGAGGCTTATGCCATGGGCGTGCCGGTCATCGGCGCAGCCTCAGGCGGCATTCCGGAGCTGATTGGCGAGACCAACCATGACTGGCTGTTTGAGCCAGGCAACGCCACCGACCTTGCCGCCCGTATCCGCCGGGTGCTGACGCTTTCGCGCGAGCAATTGCCGACGGAGGCCGATTTCGGAAACATCGTCGAGGAATCCACCTCACGGCGGGTCGGTGAAAATTATGTGAAACTCTATGAAGACGTGCTGGCGAAAAGCAAGGCTGCAGCCGCATGA	MRILHLSSLYPPHIVGGCERSVEHLAEELVSMGHTVGAACIERQAEPKTMRNGVTVYRMFHNNDFWLEDWPQYSPQQRRMQKLKQQWNFDVEKQFEAVLDDFKPDVLNTHSLLDVTTLVWRAAHKRGIPIVHTICEYDLLCGNAAMFKGGKPCEHIHLGCQAVNFTKKFTQRYIAAVASVGTEILKTHVNHGLFHHIPESLRRVIFYSCTVPEGDPVARRQIDRTGRPLTFGYIGRINTEKGVGNMVDAFKEIGHGNWRCLVAGHAMDDSIERFTAQAGDLPIEFVGWAKPKEFLEEIDVLIVPSFWAEPSPRTIYEAYAMGVPVIGAASGGIPELIGETNHDWLFEPGNATDLAARIRRVLTLSREQLPTEADFGNIVEESTSRRVGENYVKLYEDVLAKSKAAAA	PGPT0018547_298	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENVIROMENTAL_SURRIVAL	CE-BACTERIAL_FITNESS-ENVIRONMENTAL_SURRIVAL-GLYCOGEN_BIOSYNTHESIS,PGPT0018547-yqgM-K16150	NA	NA
BMS010_00593	1329			hypothetical protein	ATGAATGGAAAAACGCCGATCGCCATGGGCAGCCTGACACGGCGCAACCTGCTTTCAGCCGCGCCGCTTGCATTGGTCGCCGCCTCCGGTTTGCAAGCCATTCCCGCACGGGGGCAGACGGTTGCTTCGGCCGGTACCGAAGCCTTTCTGGACAGCGTAGGGGTGTGCGGTCACTTCACCCGTCCCACGGGCATCTATCCGGAACAGTTCGAGCGGATCGTGCCCGAACTCGAAGCACTGGGCGTCCGGCATCTGCGCGATGACGGGCTGATCACCGCGAGAGACAGTCGCAACAGCCCCGTCTTTCGGCGGCTGCGCCGGATCGTGGCGGCTGGCGTTCGCCTCACCGTCATCTGTTACGACAATCTAAACCCTTACGTTTCCACGCCGCTCGACAGACTGGGGGATTTTTACGACTGGTGCGACGCGGGTATCGATATTTTCGAGGGCAGCAATGAGCCTAACCTGACGAAGGACCCGCAAAATGCTCCGCGAATTTCGGCGGAGCATCAGGCGGCGCTGCACGACACCATCCGCTCGGTTCCGCGCCTGAGTGCGGTGCCCGTTGCGGCGCCAAGTTATGTCCTGTCGAACAGAGCGCTGGCGCTGGACCTGAAAAATGCTTGCGATTACGGCAATATCCACGCTTACGCCGGGATGGAGCATCCCGAAACGACCGGTCCGGGGGCACTCTCGAAATCCGTCGCCGCTTCGGCGCATATAGCGGCCGGCAGGCCGGTGCTCGCCACGGAAATGGGCTATCATACCTCGCTGCAAACCAAGACCTTTCATTTCCCCGTCACCGAAGGCATCAAGGCGCGCTATATGCCGCGCATGCTGCTCTCGTGCTTCATCAGCGGTATCCGCCGGTCCTACATCTATGAAATGGTTTCAAGCTTCGCCACCGATCAGACAAACCCGGAATCCTCCTTCGGCCTCCTGCGCCACGATCTGAGCCGCACCCCGGCCTATGAGGCCGTTCGCGCCCTTCTTTCCCTTTGCAGGGCAGAACGGCAAACCGGACCGGAGAAACGACAGCTCGATTTCCTCACCGCCGATTCCCAAAGGTTGTCGCTGCATCTGGTGAGACCGGACGGTGCTTTGCTCGTGCCCGTCTGGCTTGGAATTTCCGGCTGGCAATGGCCGGCCCGCATCGAAAACCCGCCTGCCGAACGGATTGCGACATTTTCGGTGGCCGGCCAGCATAGTCACGTTATCGCACACCGGTTCCGCGATGACGGCTCCGTGAGCCAACAGACAATCACGCAGGAAAGCGGGCAATACCGGCTTTCGGTAAGCGACCAGCTTACGGTTCTGGAAGTTTTCTGA	MNGKTPIAMGSLTRRNLLSAAPLALVAASGLQAIPARGQTVASAGTEAFLDSVGVCGHFTRPTGIYPEQFERIVPELEALGVRHLRDDGLITARDSRNSPVFRRLRRIVAAGVRLTVICYDNLNPYVSTPLDRLGDFYDWCDAGIDIFEGSNEPNLTKDPQNAPRISAEHQAALHDTIRSVPRLSAVPVAAPSYVLSNRALALDLKNACDYGNIHAYAGMEHPETTGPGALSKSVAASAHIAAGRPVLATEMGYHTSLQTKTFHFPVTEGIKARYMPRMLLSCFISGIRRSYIYEMVSSFATDQTNPESSFGLLRHDLSRTPAYEAVRALLSLCRAERQTGPEKRQLDFLTADSQRLSLHLVRPDGALLVPVWLGISGWQWPARIENPPAERIATFSVAGQHSHVIAHRFRDDGSVSQQTITQESGQYRLSVSDQLTVLEVF				NA	NA	NA	NA	NA
BMS010_00594	852			hypothetical protein	ATGCCCCGCATTCGTAACGGCTCGATGCTCGTTGGTGCGATGTTTATTGCCAGCATGGGTCTCTTTTCCGCTGTCGCCAACGCACAGAACGTGGAAACCGCACCGCCGGCCGCACCGCAGCAGGCGCCCTCGGTTGAGAGCGCTGTAACAGGCGCACCCGTCAAGGCCGACGATGAAACCACCGCTGCATTTCTGAGCCGCGTCAACACCACCAATCCGGACACGGTTTCGATTGCCGCAGCGGAACTGTTCAAGCAGTCTCCGACGCAGGGTATGATCAGGGACTTGGTCACCATCGCTTCCAGCGCCGATGCGGCAACAGCCGACGTAACCGGAAAAGTGACGAGCGGGTTTCCGATCATCGCCGTTTCCACCAGCGCGGCACAGTTCTCCGAACAGCTTTCCAGCCTCATCCTGAGTGACTCCGGCCAGTTGCCGACCATCGTCGCACTGGCTCAGAAGGTCGGTAACAAGGACTTCTCCGAAGTCGTCGGCGAAGGCCTGGCCCTTGCCCACACCACCGCGATGAGGAACGGCAATTCGATACTCGCAGCCGCCATCCAGTTGCAGACAAAGGGTGCCAACGTACCCGCCGATCTGCTGATCGCCTTTAGCGAAAATATCGAAGGAACGGCTGCCGGTCCGGCCGCCCCTGCGGCGGCCGCAGCGGCGGCTTCGCCGATCGGCGGCGCCGGTTCCTCGCCGGCAAGCGCCAACAGCATCGGCGGTTCGGGAACGGCAGGTGCCGCAGGCGGCACCGCACAGGCGGGTGGCGGAAGCCCGCCGGCTGGCCGCGGCAGATCGCTTTCAACCGGCAGCACCAGCACGACGACGAGCACAAGTCCCGTTTGA	MPRIRNGSMLVGAMFIASMGLFSAVANAQNVETAPPAAPQQAPSVESAVTGAPVKADDETTAAFLSRVNTTNPDTVSIAAAELFKQSPTQGMIRDLVTIASSADAATADVTGKVTSGFPIIAVSTSAAQFSEQLSSLILSDSGQLPTIVALAQKVGNKDFSEVVGEGLALAHTTAMRNGNSILAAAIQLQTKGANVPADLLIAFSENIEGTAAGPAAPAAAAAAASPIGGAGSSPASANSIGGSGTAGAAGGTAQAGGGSPPAGRGRSLSTGSTSTTTSTSPV				NA	NA	NA	NA	NA
BMS010_00595	2286			hypothetical protein	TTGTTGCAAAGGCACGATCCCCTGACGATGGCTGACTACGATAAAGGCGGGCTGACGTCCGAGTTTATCGATATCGACGCCGTTCTTGCGATGATTCGCCGGCAGTGGCGCATCGTGCTTGCCGCGGTGGCAGTCGCCGGAGCAATCGGCCTCGCCTTTGCCGCAACGGCCGTTCCGATCTATTCTGCGACGGCGACGCTGCTGATCGACCGCAATAACAGCCAGATTGTCGAACAGCTTTCGACAATCGGCGGAGTCATAGAGGATGAGGCTTCCATTCTCAGTCAGGTCGAGGTGCTGCAATCGGAAACCATCGGGCTTGCCGTTGTCGATAGTCTCAATCTCACGGAAAATCAGGAATTCAGGGCAACGCGTGCGTCGCTTCTGAGCTCGATATTCGGCACGATCCGCTCGCTCGTCAATGTTTCGCAATGGTTCTCGCCAGCGAAAAAAGAGGCGGTGGTTGATAATGGAACCCTGAAGAGATCGCTGTCGGACCAGCTGCTGGATGGCCTCAGCGTCAAGCGCATCGGCCGGACCTACGCGCTGGAACTCACCTATAATTCGACATCGCCGGTTCTCGCCGCGCAGATCGTCAATGCCGTGGCCTCGGCCTATCTGCTGGACAAGCTGAATTCCAAATATGAGGCGACGCGGCGGGCCAGCGACTGGTTGTCCGACCGTATTGCCGAGCTGCGCCAGCGGGCGCTCGAAACCGATCTGGCCGTGCAGAAGTTTCGCGCCGAACATAATCTGATCTCGACCGGCAATAACAGCCTGCTCTCCGATCAGCAGCTGGCGGAATCCAATAGCGCTCTGATTTTGGCGCAGTCGGAAACCGCCAGGGCAAGGGCGCGGGTGCAACGCATCGAACATATTCTCGCCACCGACGATGTCGATGCGGTCGTTACCGATATTCTCGACAGCTCGGTCGCCAACGACCTGCGCAAAAAATATCTCGAAGCTTCCAAGATCGAAGCGGAAATCACCGGCAGGCTCGGCAGCAACCACGTTCAGGCGGTACGTCTGCGCAATGAAATGCAGGAATACCGACGGCTGATGTTTCAGGAAATCAGCCGTATCGCGCAAAGTTACAAAAGCGATCTGGAAGTCTCTGAAGCGAGGGAAAAGTCGCTTGCCGAGAGTGTCGCCAAGGCGACCGACATCAGCAACTCCGCCAGCGAGACACAGGTTCAGCTGCGCGAATTGCAGCGCGAGGCCGAAACCTACAAGAACATGTACCAGACCTTCCTGCAGCGATATCAGGAAGCGATGCAGCAGCAATCCTTCCCCGTGACGGAAGCGCGCGTGATTTCCAAGGCTATGCCGCCCAGAATTCCGAGCAAGCCGAACAAGCCCCTCATTTTGGCCCTGTTCATGATCATGGGCGCTGCGGCCGGTGGCGGCATCGCCATGTTCCGTGAATTCCGCGACCGGTTTTTTCGCACCGGGGAACAGGTTCGAGACGTTCTCGGGCTGGAATTCCTCGGCAATACCCCGCTCATCCAGAACAACAAGGCGATAATAGAAGATCAGGAAGGCGGCCATCCGGCCCTGACGCGCCCCACCAGCGTTGCGCGCTACGCGGTCGACCATCCGCTCTCCTCCTTCGCCGAAACCCTGCGCAGCACCAGGCTCGCCATCGATCTCGGTATTCCCGCCAAAAGCGGAGCGCGGATTGTCGGTGTCGTCTCAGCCTTGCCGAGCGAAGGGAAATCCACGATCTCCATCAATCTGGCGCAGCTGCTTGCCGGGCAGGGTGCGCGGGTCCTGCTGCTGGATGCCGATATTCGCAATCCCGGCGCCACGCGCGCCATGGCGCGTCACGCGAGCGAAGGCCTACTCGAAGTATTGCTGGAAGGCCGCAGCGTGCAGGATGTGCTGCTTCGTGACGAAAAGACACGGCTCGCTTTCCTGCCCACGGTGGTCAAACAGCGTGTCCCTCATTCCTCCGAACTGCTGACCTCGGCGCAGATGCACAAGCTGCTGGCCGAAGTGAGCAATGCTTTCGATTATATCATCGTCGACCTGCCCCCGCTCGGGCCGGTGGTCGATGCACGCGCCATGGCGGGGCGGATCGACGGTTTCATCTTCGTCACCGAATGGGGCAAAACCGCCCGCAGGGCAGTGCGGAACACGGTGGAGAATGAGGTTCATATCCGCAAGAAGTGCCTCGGCGTCGTCCTCAACAAGGTGGACACCGAAAAGCTGAAGCTCTATCGCGCCTACGGTTCGAGCGAATATTATCATTCGCGCTATACACGATATTACCATGACCAGGCGTGA	MLQRHDPLTMADYDKGGLTSEFIDIDAVLAMIRRQWRIVLAAVAVAGAIGLAFAATAVPIYSATATLLIDRNNSQIVEQLSTIGGVIEDEASILSQVEVLQSETIGLAVVDSLNLTENQEFRATRASLLSSIFGTIRSLVNVSQWFSPAKKEAVVDNGTLKRSLSDQLLDGLSVKRIGRTYALELTYNSTSPVLAAQIVNAVASAYLLDKLNSKYEATRRASDWLSDRIAELRQRALETDLAVQKFRAEHNLISTGNNSLLSDQQLAESNSALILAQSETARARARVQRIEHILATDDVDAVVTDILDSSVANDLRKKYLEASKIEAEITGRLGSNHVQAVRLRNEMQEYRRLMFQEISRIAQSYKSDLEVSEAREKSLAESVAKATDISNSASETQVQLRELQREAETYKNMYQTFLQRYQEAMQQQSFPVTEARVISKAMPPRIPSKPNKPLILALFMIMGAAAGGGIAMFREFRDRFFRTGEQVRDVLGLEFLGNTPLIQNNKAIIEDQEGGHPALTRPTSVARYAVDHPLSSFAETLRSTRLAIDLGIPAKSGARIVGVVSALPSEGKSTISINLAQLLAGQGARVLLLDADIRNPGATRAMARHASEGLLEVLLEGRSVQDVLLRDEKTRLAFLPTVVKQRVPHSSELLTSAQMHKLLAEVSNAFDYIIVDLPPLGPVVDARAMAGRIDGFIFVTEWGKTARRAVRNTVENEVHIRKKCLGVVLNKVDTEKLKLYRAYGSSEYYHSRYTRYYHDQA	PGPT0026560_651	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT-1,PGPT0026560-exoP|vpsO-K16554	NA	NA
BMS010_00596	678			hypothetical protein	ATGACCAGGCGTGACGGCGTGGTGCGCCTGCGGAAAATCCTCGCGGTCGTACCGGTCCTCGTCATTTCCATCTTTGTCCTGTCCGTCGCGGCGCAGGCATTTTCGCAAAGCCGTCGTTTTTCCGATATTGTCGCATTGGCGCGGATCGCCGACGACAATAATGGCCTCGCGCCAGATCTCCTTGCGGAAACGGTCCCTGAACTTCAGCCCATCGTTAGCGAAAAAATCTGCCGCTCGGATATCGTCAAAGCCGGACTAAGGCTCGTTCTGGCCGATCTCGATGCAAATGGTTTCGATCCGGCATCCGATCCCGGCGCGGCGCGTCTCGGTTTTGCCGAGACCTTTATTCGCCATTCGCTCTCTTGCTTTCCCGCAAATGGTGATGTCTGGCTGCGTCTTGCCATGGCTCGCTCGCTGCGCAACGCCTCGCCCATGGAAGTCGCCGTGCTGATGAACTTCTCCCAGCTCTATGGGCCTGCCGATGCCAATCTGATCCGTGGGCGTTTCGTGATGTGGCAGCAGTTTCCGACGAACACCTTGCCCGAGGCCGAGGCGGCCCGCGAGGCGGATACGGCCGTCGTCTGCGGCAGGCAGGGGGAAATCCTGCGGTGGACCCTGGCGGAAGTCTGCCCAAAGCCACCGCCGGCAGACACAAAACGCCCCGCGCCGCTGTCATGA	MTRRDGVVRLRKILAVVPVLVISIFVLSVAAQAFSQSRRFSDIVALARIADDNNGLAPDLLAETVPELQPIVSEKICRSDIVKAGLRLVLADLDANGFDPASDPGAARLGFAETFIRHSLSCFPANGDVWLRLAMARSLRNASPMEVAVLMNFSQLYGPADANLIRGRFVMWQQFPTNTLPEAEAAREADTAVVCGRQGEILRWTLAEVCPKPPPADTKRPAPLS				NA	NA	NA	NA	NA
BMS010_00597	1572			hypothetical protein	ATGTCGCTCACCGAAGCCCGATCAGAACCGCTCTCCTCCTCGCAGCCCCCACTCGTGGCGGTTCGGGACTATGTCCGGCCGGTCGCAATAGCCGCATTCTGGGCAATATTTCTGCTGGCGCTTCTCAATAGGGGCGCTACGGAAATAGAAAGTCGCATCGTCGTCACGGCCGGGATCTATCTCCTGCTGGTGCCATCGATCCTCCTGTTCGGACCACCGAAGGCCGGTGCGGGCAAGGTACTCGCCGCAGCCTGCCTTTTATTGGGAGCGCTCATCGTTCAGGTGCTGTTGCAGACCTCCTCCATACCCGGCATCGCGCGCCTCAATCCGGCATGGTCCACCGCCGCCATGTTCATGCAGACTGCGCCAGCCGCCACAATTTCACTGACACCTGCGGATGACCGGCTCGGCGTCATGAGCGCCGCCGTGCCCTTCGGCGCCTTCATGGCCGGCCTCGTGCTTTTCGATAGCGACGAGCGTGCGGCAAAGACGCTGCGATGGTTCGCAATTGCCGGTGGCTGGCTCGCGCTGTTTTCCATCGTGCAATTCGTGCTTTTCCCCGAAGCTCTCGGCCTCATCCAGAAGCGCTTCTACCTCGGCAGCCTTACCGGCCTTTTTGTCAACCGCAATACCGCCGCGACCTTCTTCGGTCTCATCCTTCTCACGCTCGCCGCATTATTGCACAAAAGCCTCCTCGCTCCGGATTGGGCCAGGGTAAAAGCGCTCGTGGCAAATCGCCTCACCGTGCCGGCGGAGCAGAAACAGCTTATCCGCAGGGCCGCTTTTCTTGGCGTCCTCGCGGGCTTTTGTTTCATCGCGTTAATGTTGACGGGATCGCGTGCGGGGATCGGCTCAAGCCTCGCAGCGCTGATTGTCCTGATCCTGCTGATTGTGTTCAACTCTCCCCCCAGAACCGGCCGCAATGGAGCCTCCAGCCGGCGTAGGCAGCGCGGGACGAGACGTCGTGCCGCGCTCCTGATCGCAATCGCCATCGCCCTCTTCGCGCTTTTCGCCAACCGGGTGGCGCTTCGCATGGAAACGCGTTTGGAAGACGATATGCGCTTCTGCTACATGCCGGGCATCGCCCGCGCCATCGCCGACAATTGGCCGCAGGGGTCGGGCCTTGCAAGCTTTACGGAAGTCTATGCGCCCTATCATGTGGCGCGGTGCGGGGTGGACGCCGTCGTCACCCATGCCCACAACGTCTACGCGGAGGGATTGCTGACACTCGGTACGGCTTTCCCGTTTTATCTCGCTTTTTTTGTGCTCATCCAACTGGTGATTTTCATTCGCGGGGCGCTGAAACGCAGAAATTATCGTTATGCCTCTCATCTCGGCCTTGCCGCGCTGCTACTCGTCCTGTTGCATTCGACGCTTGATTTTTCACTGCAGATTCCAGGCTTTGCCATGGCCTATGCCGTTTTCCTCGCCCCGGTCGTCACGCTTTGTCTGAACCCGCCGGGAATGGAGCGGGAAGGCCGCAAACGGCGGAGACAATTTCCGGAAGACGCTGCAATGCCGGTGCCGGTCCGTTCCGACCAGACAGTACAAACGCCGCTTCGTCTGCAATAA	MSLTEARSEPLSSSQPPLVAVRDYVRPVAIAAFWAIFLLALLNRGATEIESRIVVTAGIYLLLVPSILLFGPPKAGAGKVLAAACLLLGALIVQVLLQTSSIPGIARLNPAWSTAAMFMQTAPAATISLTPADDRLGVMSAAVPFGAFMAGLVLFDSDERAAKTLRWFAIAGGWLALFSIVQFVLFPEALGLIQKRFYLGSLTGLFVNRNTAATFFGLILLTLAALLHKSLLAPDWARVKALVANRLTVPAEQKQLIRRAAFLGVLAGFCFIALMLTGSRAGIGSSLAALIVLILLIVFNSPPRTGRNGASSRRRQRGTRRRAALLIAIAIALFALFANRVALRMETRLEDDMRFCYMPGIARAIADNWPQGSGLASFTEVYAPYHVARCGVDAVVTHAHNVYAEGLLTLGTAFPFYLAFFVLIQLVIFIRGALKRRNYRYASHLGLAALLLVLLHSTLDFSLQIPGFAMAYAVFLAPVVTLCLNPPGMEREGRKRRRQFPEDAAMPVPVRSDQTVQTPLRLQ				NA	NA	NA	NA	NA
BMS010_00598	1206			hypothetical protein	ATGCGGATATTGCAAATAACCTCGCTGTTTTCTCCCGATCGGGTGGGCGGCGCGGAAGTATTCGTGGAAGACCTCGCGCGTGGACTTGCGGATAAGGGGCACACCGTCGCGGTGGCCGCCATCTCGCGTGAAGAGCAGGCAGCGGAACAACGCGACGGTTTCACCATTCACCGTCTCGGGCATACCACGCCCTTCTTTATCGGCGACTGGGGGCAACAACCGGAATGGAAGCGAAAATACTACAAGATCGCTGTGCAGCTGGATCCGCGGCTCGTTCGCCGGCTTGCGCGTGTCATCGATGATTTCCGGCCGGACGTGGTCAATACCCATTCACTATCGGAACTGACGCCGCTGATCTGGCCGATGATTCGCAAGCGCGGCGTTCCGCTGGTTCATTCCCTGCATGATTTCACGAGCATGTGCACCAATGGCTCCCTGTTTCATGACGGGCATATCTGCGATGGCAGCAGCAAAAAATGCCGTGCCTTTTCTTATCTCCACCGGCGTTGCCAATGCGCGGTCGATGCTCTCGCCGGCGTCGGTCGCGATATCGTCGAACGCCACGTGCGGGCAGGCTTTTTTACCCATGTTCCCGAAAACCGCCGCACGGTGATCTGGAATGCCATCTCACCACCCGATTCGCCAGAACCGCGCATTCCCCGCACGCCCGGCGAGCCGCTGGTTTTCGGCTATCTGGGCCGCATCGAAGCGGCGAAAGGGGCTGACTTGCTGATAGAAGCGTTGCGGCTTTTGCCGCCGCAGGGCTGGCGAGCGGTCATGGCGGGCCGCGCGCCGGATGGCATCAAGGCCTATCAGCAAAAGGCAGCCGGCCTGCCTGTCGAATTTCCGGGCTATGTGGAGGCTGATCGTTTCTTCGCCGGCATAGATTGCCTCATCGTGCCGCCCCTATGGCCGGAGGCTTTCGGCCGCACAGTCGCTGAAGCCATTTTGCGCGGCGTACCCGTCATCGGCTCAAATCTTGCGGGTGTCGCCGAACAGATCGGCGCGGACACGCCGGAACACCTGTTCGCCCCGGGCAATGCCGCCGAACTGGCCGCACGCATGGCAGAGGCGATGCGCAATCCCGCCATGCTTGCGGAAACACCTGAAACCCGGGAGCGAATTCGCCAAGGCGTTGAGCCCGAAGAGGTCATCGCGGCCTATGAAAAGCTCTATGCGGATGTGTGCGACGACATTAAGCCATAA	MRILQITSLFSPDRVGGAEVFVEDLARGLADKGHTVAVAAISREEQAAEQRDGFTIHRLGHTTPFFIGDWGQQPEWKRKYYKIAVQLDPRLVRRLARVIDDFRPDVVNTHSLSELTPLIWPMIRKRGVPLVHSLHDFTSMCTNGSLFHDGHICDGSSKKCRAFSYLHRRCQCAVDALAGVGRDIVERHVRAGFFTHVPENRRTVIWNAISPPDSPEPRIPRTPGEPLVFGYLGRIEAAKGADLLIEALRLLPPQGWRAVMAGRAPDGIKAYQQKAAGLPVEFPGYVEADRFFAGIDCLIVPPLWPEAFGRTVAEAILRGVPVIGSNLAGVAEQIGADTPEHLFAPGNAAELAARMAEAMRNPAMLAETPETRERIRQGVEPEEVIAAYEKLYADVCDDIKP	PGPT0018547_298	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENVIROMENTAL_SURRIVAL	CE-BACTERIAL_FITNESS-ENVIRONMENTAL_SURRIVAL-GLYCOGEN_BIOSYNTHESIS,PGPT0018547-yqgM-K16150	NA	NA
BMS010_00599	1080			hypothetical protein	ATGATACACAATCTTCAATCCCTACGCGCAGCCGCAGCTATACTTGTATTTTTTTATCAAAGCGAAATTTACTGGAAGAGCGCCCTTCCGTCAACTTGGCTCTTCAAGCTTGGCCTAGCAGGAGTTGATGTTTTCTTTGTTTTAAGTGGATTCATCATGGCTGCAACTACATCATCACGTGATGTTGCGGCCACATCATTCCTTAGCCATCGCATTTTCCGTATCGTCCCCCTTTATTGGATTATAACGCTGCTTTTTACATTCTTATTTTTGTCAGGGCTCAAGCCCGTAGGCTTGATGGAGTTAACGTCGGAATATCTTATAAAATCCTTGTTCTTCATTCCGTTTTTACGGGGCGACGCAGCTGAACCAATCGTAACAGTCGGCTGGACACTTAACTACGAAATCTTCTTCTATCTCCTTTTTTCACTTTGCCTTTTTATTCCCAACATTAGGGCGCGGCACCCCTCCGTAATTATACTAATCTTACTCGCACTTTTACCCCGAAGTTTTGGTTCAGAGAATTTTTACGCGATTTATTATGGTAATCCGATCATACTTGAATTCTGCTTGGGAATTACCTGCTATCATTGTGTTACATTGATGGAGAAAGCCATCGACCCGAAGCATATGATCCCTCTTGTCAGTGCCTTCATCGCAGCATCATTATTGTTCCTTTTCGCGCCAGCCTTCGGCTTAAACGGAGAAGTAACGACATCTCAGTCTGCGGCGTCTGCCTTCATCCGCCCGCTCACATGGGGCGCGGCAGGATTCTTGGCTGTTTTATCCGCTGTACTTCTCGAACGTGCAGGCCACGTATCGCGACGGGGGCTAGTCCAAATTGGCAATGCAAGCTATTCGATTTATCTCATCCATGGACTGATGCTGCATGGCGTATCCAAGGTGGTCAGCGTATTTTCGCCGACCCCAGTAATCTTTGTACTGGCAACAACGACTATTGCACTTTTACTGTCGATCGCCGCAGGCCTCGTCTTGTTTCGATATTTAGAATTGCCCATCAATAAAATGCTGCGTGAGTCCTTTACGCGTTTACGCGTAACGCACCCTTCACCAAGTTAG	MIHNLQSLRAAAAILVFFYQSEIYWKSALPSTWLFKLGLAGVDVFFVLSGFIMAATTSSRDVAATSFLSHRIFRIVPLYWIITLLFTFLFLSGLKPVGLMELTSEYLIKSLFFIPFLRGDAAEPIVTVGWTLNYEIFFYLLFSLCLFIPNIRARHPSVIILILLALLPRSFGSENFYAIYYGNPIILEFCLGITCYHCVTLMEKAIDPKHMIPLVSAFIAASLLFLFAPAFGLNGEVTTSQSAASAFIRPLTWGAAGFLAVLSAVLLERAGHVSRRGLVQIGNASYSIYLIHGLMLHGVSKVVSVFSPTPVIFVLATTTIALLLSIAAGLVLFRYLELPINKMLRESFTRLRVTHPSPS	PGPT0026580_245	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-SUCCINOGLYCAN_METABOLIC_PATHWAY,PGPT0026580-exoZ-K16568	NA	NA
BMS010_00600	1128	mshA_1		D-inositol-3-phosphate glycosyltransferase	ATGCCGGCAGGCGGAAGGGTCAGGATGCGCATTCTCGTAAACATGCCGAGCCAATATGGTGGCAAGGCCTCTGGTGTGGCCCGCGTGACCTTCAGCCTGCTGGAGCGGCTGCTGGAGCAGACGGGTGATGACTATGTTCTGCGCTCTCCCTGGACGCGTGCGCAACTGCCTGAAAACCTGCGCGACAGCCGGTTGCAGCTCATCGAGACTCCACGGCCGCGCGTCATGGTTTTGGATGTGGTGCGTCAGGCCGCGATGCTGCCCGCGCTCTGCCGCCGGCACGGTATCGATGTGCTTTTTAATGCCGATCCTTTCGGAAGTCCCCTCGGGGGCAAACGGCGTCTCACCCTTGTTCATGATCTTTATTTCAAAACCATTCCCGAACAGATCGGCTGGCGGGCGACCCTGACGACCGATTTCATCTTTAAGCTGATGATGGCCGGTTCGGATCGGGTCATCTGCGTATCCGAAGCGACGCGGAAGGATCTGGGGCGTTTCTATCCAGCCGCTGCCGATAAGAGCATCACCATTCATTCCGATAGCACGCTGAATGTCGATCCCGGGGTTTTCGACACGCTGCCGCCTGTTCCCGGACGCTACATACTGGCGGTCGGAAACGCGACGTCCAATAAGAATTTCGCTCTCCTGGGCAAAGCCTTTGCCATACTCGGTAAAAAATGGCCGGATTTGCGCATCGTGCATGTTGGCCGCGACGAGGCGGAGGAAATCGCCGGCGCGCTGGACGATCCGGAATTGAAGGCCCGGCTGATCCGGCTTTCCGGCATAGATGACCGGCAACTGGCCGAACTTTACCGTCACGCAGCCTGCCTTTGCGTCCCCTCCACCTATGAAGGCTTCTGCCTGCCGGTGCTGGAGGCGCAGCAGCTGGGATGCCCGGTCGTCTGCTCCAATCGTTCGGCAACACCGGAGATTGCCGGCGAAGGCGCCCTGACTTTCGATCCGGCGGATGCCCAGAGCCTTGTCGACACGCTTGAGAGACTTTTGGATAATCCGGAACTGGCAGAAAATCTCCGCCTGGCGGGTCATGAAAACCGCAAATTATATTCGTGGCGGAAGGCGGCGGAGAGCTACGCGCGGCTTTTCCATGGAAACGCTGTTAAATGTTAA	MPAGGRVRMRILVNMPSQYGGKASGVARVTFSLLERLLEQTGDDYVLRSPWTRAQLPENLRDSRLQLIETPRPRVMVLDVVRQAAMLPALCRRHGIDVLFNADPFGSPLGGKRRLTLVHDLYFKTIPEQIGWRATLTTDFIFKLMMAGSDRVICVSEATRKDLGRFYPAAADKSITIHSDSTLNVDPGVFDTLPPVPGRYILAVGNATSNKNFALLGKAFAILGKKWPDLRIVHVGRDEAEEIAGALDDPELKARLIRLSGIDDRQLAELYRHAACLCVPSTYEGFCLPVLEAQQLGCPVVCSNRSATPEIAGEGALTFDPADAQSLVDTLERLLDNPELAENLRLAGHENRKLYSWRKAAESYARLFHGNAVKC				NA	NA	NA	NA	NA
BMS010_00601	1149	mshA_2		D-inositol-3-phosphate glycosyltransferase	ATGACATCCGCTCTTTTCGTCAGCCATACCGGAGAGAAGGGCGGCGCCGAACTTTTTCTGACGGACCTCGTCAAGGCGGGCCCGCACTCCTGGCGCGCCTGTTTTCTCAGTGGCGGTGCGGCCGCAGATGATCTCGTTGATGCAGGGCGGGCTCCGATCATGCTGTCTGCCGGAGAAAAAATGCTGTCGATCCGCCGCAACGCGTCCTTCGGGGCCCTGTTGCGCGGAGCGGCCGACGTGATGGCGGTTGCCTGGCAATTGAGCCGGGAGGCGAGGCACTATGATGTGATCTGCGCCAACTCGCAAAAGGCGCTTTTTGTCTGCGCCTTGGCCGCGAAGCTCAGCCGCCGGCCGCTTGTCTGGATTTTACACGATATCGTCACCGATCCGGCTTTCAGCGCCACCAACCGCCGCGCCTCGCTGGCATTTGCGCGCCTTTTCGCCAGGCTGGTGGCTGTCAATTCCGAAGAGACGGGCCGGGCTTTCATCGAGGCCGGCGGCGAGGCGGATAAGGTTCGCATCGTTTACAACGGCTTCGACCCTGCGAAAGCAAGGCTTCACGAGCCTGGCGTCGCCGCGCGGCTGCGTGCGGAACTGGGCCTTGGTCCGCAACCGCTTGTCGGCCTTTTTGGCCGGCTGAGCGAATGGAAGGGACAGCATGTGTTTCTGGACGCGATTGCGGCGATGGAGGGCGTGCAGGCGGTCATCGTCGGCGGTGCGCTTTTCGGGCAGGAGGCCTATGAAGCGCGCGTCCGCAAACAGGCGTCCCGTCTCGGTCTCGAGGGTCGCGTCCGTTTTCTCGGTTTCCGCCCGGATGTGCCGGAACTGATGGCGGCGATGGATGTGGTCGCTCATACCTCGATTGTTGCCGAGCCCTTCGGCCGTGTGGTGGTGGAGGCCATGATGTGCGGGCGTCCGGTTGTCGCCACGCGCGGCGGCGGTGTTACCGAAATCATCCGTGACGGCGAAACCGGCCTTCTCGTGCCGCCGGGGGATGCATCGGCGCTGGCAGCGGCGATCGGCTGTGTCCTGTCGCAACCAGCACTGGCGGAAAGGCTGGCGCAAAAGGGGCAGGAGGATGTGAGCCAGCGTTTCTCGCTGGAAGAAACCTGCCGCTCCGTTTCCGCGCTGCTCTCGGAGGCGGCGTGA	MTSALFVSHTGEKGGAELFLTDLVKAGPHSWRACFLSGGAAADDLVDAGRAPIMLSAGEKMLSIRRNASFGALLRGAADVMAVAWQLSREARHYDVICANSQKALFVCALAAKLSRRPLVWILHDIVTDPAFSATNRRASLAFARLFARLVAVNSEETGRAFIEAGGEADKVRIVYNGFDPAKARLHEPGVAARLRAELGLGPQPLVGLFGRLSEWKGQHVFLDAIAAMEGVQAVIVGGALFGQEAYEARVRKQASRLGLEGRVRFLGFRPDVPELMAAMDVVAHTSIVAEPFGRVVVEAMMCGRPVVATRGGGVTEIIRDGETGLLVPPGDASALAAAIGCVLSQPALAERLAQKGQEDVSQRFSLEETCRSVSALLSEAA				NA	NA	NA	NA	NA
BMS010_00602	117			hypothetical protein	ATGCACCTGTCTGTGATTGCGGGCATGAACAGCCGGCCGGCAAAAAGAACGAACCTGCCCGAAAGCGACGGGAATATCTTCACCGAAAGCTGCGTGGAACCGCATGTCGCCAGATAA	MHLSVIAGMNSRPAKRTNLPESDGNIFTESCVEPHVAR				NA	NA	NA	NA	NA
BMS010_00603	1338			hypothetical protein	ATGATCGGCTTAACGCTCGGCATACGTCCCGGAAACATGGGTGACATCGGTTTTTCCCTGACCGCGTTCTCGCCCTTGCGGGCCCGTCTGGCGGCCGGCCAGAATGCCACGATCTTCGTGAACGGCGACAGCACCGCCCATGCCGAAGCCGGACCATTTCAACAATTTGCGATGATGCTTGGCGATCTGCACGATACGACTGTTGTTTTATGCCGTTGGGCGGAATGGGAGACGAGCGCCGCCACCGGGCCAAAAACCTATGCAGCCCCAGTCACGCTGCGCGCCGGCAAGGAGGCGACGCTGACGCTCTATCTTGCGACGCTGCCCGGCGGCATGGCGGGTTACATGCTTGCGGAACAGCGCGCAGCAGCGCTGAAGATTCCCCGTCCCGATCTCTGCATCATGCATCAGGGCCACAATATGCAGACCTTCGAAGCGTCCGGCGGCATTTTGAGTTCCGGACGATCCACCCTGCTCGGACCGCTGGGAATGACTGAATGGCAGTGGCCAAACGCTCCGCAACTCATCACCACCCAAAACCCGTGGCGGGATGGAACGGGTTACGACAGGGTCTATCAGGCAATCCTCGACCTGGCCCGAGCCCATCCGAACCTCACGCTGGTGGATACGCATGCCGCATTTCTGGCGAAGGGCAAGGACGCCGCCCTTTATCGGGACAATATTCACCCGAACGAGGCGGGCTCCCGGCTGATTGCCCGGACCCTGTTCGATTCCTATCTGGGATCGGCACGCGATAACAACTTCCAGACACCTTGCTGGCCAAAGCTGCCTGCCGCCAATCTCATCGGCAATGGCGATTTCACCGATTGGACTGGTTCCGTTCCGACAGGCTGGGGCATGACTTCGCCAGGTTCCGCCACCAAAACCACCGAAATCATCTTCTCCCCATCCTTCGCAAGCGGCCTAGCACTCTATGCCAATGGCAGCCAGACGGCCGGACTCACACGCTACTTCCGCAACGCGGAGGCCACCGCGATGATCGGTAAGACCATTTCCTTCGCCGTGCTTTATAAAAACAACGAGAGGCAACGCCTCCCCTACATCACGCTGGTTGCGAAAAGCGGCGGCGCAGTGCGAACCATTGTTTGCGCCGCCCTGCAATTCGGAGGCGCCAACACCTCCGGTAATAGCGGCTGGATGTGGGCGATCGCCAACGGCATCGCCATAGACCCCGACATCAACCCGGCGGGGTATAATTTCTATCTGCGAATCCTTCCGGCATTCGGCACCAGCGCGCCCACCTCGAATGAACCAGTTCACATTCAGCGGATCATTGCCGTCGAAGGGGATTTGCCGAAAGGCAATCTGATCTCATGA	MIGLTLGIRPGNMGDIGFSLTAFSPLRARLAAGQNATIFVNGDSTAHAEAGPFQQFAMMLGDLHDTTVVLCRWAEWETSAATGPKTYAAPVTLRAGKEATLTLYLATLPGGMAGYMLAEQRAAALKIPRPDLCIMHQGHNMQTFEASGGILSSGRSTLLGPLGMTEWQWPNAPQLITTQNPWRDGTGYDRVYQAILDLARAHPNLTLVDTHAAFLAKGKDAALYRDNIHPNEAGSRLIARTLFDSYLGSARDNNFQTPCWPKLPAANLIGNGDFTDWTGSVPTGWGMTSPGSATKTTEIIFSPSFASGLALYANGSQTAGLTRYFRNAEATAMIGKTISFAVLYKNNERQRLPYITLVAKSGGAVRTIVCAALQFGGANTSGNSGWMWAIANGIAIDPDINPAGYNFYLRILPAFGTSAPTSNEPVHIQRIIAVEGDLPKGNLIS				NA	NA	NA	NA	NA
BMS010_00604	483	greB_1		Transcription elongation factor GreB	TTGAGCGTAGCCTTTACCAAGGAAGACAGTGCGGAAACCGCAGCCGAAACCGTTCTGCCGGATCGGGTAATCTCGTCTCATCCCAATCTGGTAACGCAGTCCGGGCTGAAGGCGCTGGAAGAGCAGTTGCGTCTGGCGCGCGAAGCTTGTGAGGCTGCCAATGCCATTGAAGACATCAATGAAAGACGGCGCCTTTCCGCCAGCCCGCTACGCGATCTGCGATATTTCTCCGAGCGGGTCCGCACCGCGCAGTTGATGCCTGATCCGCCAGCGGATGGCGTCGTCGCTTTCGGCAGCCTGGTGACATTCAGCCGCGATGACGGGCGAACGCAACGGTTCCGGATCGTCGGCGAGGACGAGGCCGATCCTGCGGCGGGAACGATGTCCTATGTTTCCCCGGTTGCAAGGGTGCTGATGGGAAAAGCGGCCGGCGATCTCGTCAGTTTGGGCGGGAGGGAGATCGAGATCCTCGACGTCGCCTGA	MSVAFTKEDSAETAAETVLPDRVISSHPNLVTQSGLKALEEQLRLAREACEAANAIEDINERRRLSASPLRDLRYFSERVRTAQLMPDPPADGVVAFGSLVTFSRDDGRTQRFRIVGEDEADPAAGTMSYVSPVARVLMGKAAGDLVSLGGREIEILDVA				NA	NA	NA	NA	NA
BMS010_00605	1398	exsH		Endo-1,3-1,4-beta-glycanase ExsH	ATGGCCCGGACAGTAGTGAATGCGCTTGGAGACACACTCTATTACAGCGGCAGTTCCACGGGATTTTTCTCCGCCACGGGTTCCGGCCCGCTGCTCACCGGCACCGCAGGCAATGATTCCATGTGGGGCGACAGTTCCGTCAACGTGACCATGGCGGGCGGCACGGGCGACGATATTTATTATCTCTATTCGAGCATCAATCGCGCCGCCGAAAATGCCGGGGAAGGTATCGACACCATCGATACCTGGATGAGTTACACCCTGCCCGACAACTTCGAGAATCTGCGGGTAACGGGTGACGGGCGTTATGCCTTCGGCAATTCGCTCGACAATATCATTACCGGCGGGTCGGGCAGCCAGACGATCGATGGCGGGGCCGGCAACGACGTGCTGATCGGCGGCGGCGGGGCCGACACCTTTGTTTTCACGAGCGGCAACGGCACCGATCTCATCACGGATTTCAGCGCCAATGACACGATCCGGCTCAATGGCTACGGCATCACATCTTTCGACCAGCTTGTCGGCAGCGCCACGCAGCAAGGCAACGACCTGTGGCTCAATTTTTCGAATGGCGAGGCCATCGTTCTTGCTGGAACGACCATAGACGACCTTCAGGCCGACCAGTTCGAACTCAGCCTCGACCGATCGTCCCTCACCCAGACCTTTGCCGATGAATTCGATACGCTGTCGCTGCGCAGCGGAGATCAGGGCACCTGGGACGCCAAATATTGGTGGGCGCCGGAAAAGGGAAGCTCGCTGACGACGAATGGCGAGGCGCAATGGTACATCAACCCGGCCTATGCCGGCACATCGGAGGTCAACCCTTTCAGCGTCGAAAACGGCGTTCTGACCATTACCGCCGAGGAGACCCCGCAGTCGATTGCCGACGAGGTCGAAGGTTATGATTATACCTCGGGGATGCTGAACACCTATTCCTCCTTCAGCCAGACCTATGGTTATTTCGAAATCCGCGCCGATATGCCGACCGACCGGGGCGCCTGGCCTGCCTTCTGGCTCCTGCCCGAAGACGGCTCCTGGCCGCCTGAACTCGATGTCATCGAAATGCGCGGTCAGAACCCCAATACGCTCATCATGTCCGCCCATTCCAACGCCACCGGTGAACAGACCTCAGTCATCAACAATGTCAGCGTGCCGAGCACCGAAGGGTTCCACACTTACGGCCTGTTGTGGGATGCCGAGCACATAACCTGGTATTTCGACGATGTCGCCGTGGTGCAGACGGATACGCCCGATGATATGCATGACCCCATGTATATGGTCGTCAACCTTGCCGTCGGCGGTACTGCGGGAACGCCATCGGACGCGGATTTCAGCGACGGCTCGCAGATGATGATCGATTATATCAGGGCCTATTCACTCTCCGACTGGGCAGCATGA	MARTVVNALGDTLYYSGSSTGFFSATGSGPLLTGTAGNDSMWGDSSVNVTMAGGTGDDIYYLYSSINRAAENAGEGIDTIDTWMSYTLPDNFENLRVTGDGRYAFGNSLDNIITGGSGSQTIDGGAGNDVLIGGGGADTFVFTSGNGTDLITDFSANDTIRLNGYGITSFDQLVGSATQQGNDLWLNFSNGEAIVLAGTTIDDLQADQFELSLDRSSLTQTFADEFDTLSLRSGDQGTWDAKYWWAPEKGSSLTTNGEAQWYINPAYAGTSEVNPFSVENGVLTITAEETPQSIADEVEGYDYTSGMLNTYSSFSQTYGYFEIRADMPTDRGAWPAFWLLPEDGSWPPELDVIEMRGQNPNTLIMSAHSNATGEQTSVINNVSVPSTEGFHTYGLLWDAEHITWYFDDVAVVQTDTPDDMHDPMYMVVNLAVGGTAGTPSDADFSDGSQMMIDYIRAYSLSDWAA	PGPT0027825_127	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0027825-prtC-K01406	NA	NA
BMS010_00606	915			hypothetical protein	GTGAGCAATCTTATAGGTACCGGCTTCAACGCCGGCTCTGATGATGGCGAACTGGCCACCCTCGAATGCGATCTGCGTGCGCTTGCCGAAATTGGCTGCGATACCGTGGAAATCGCCGCAACAAGCCTCGACATGATCGCCGGCGGCCGGATCATTGAAGAGCGCGCCGACCGTTTTGTGTCGCTCGCGAAGCAGTTCGACTTCCGCTACACCGTGCACGGTCTCGTTTCTTCGAATTTCATGGATCCGGTGACATGCCGTTACCAGATCGATGCGGCCAAGGCGCTTGCCGTTCTATGCGACCGTATCGGCGCGGGCATTCTCGTCCAGCATAGCGGCGCGCTGCGTGCCGACCAGATCGCCGAACGGGCCGATGCAGACAGCCGCGAACGGGAAGCGCTTTTCGAACTGGCGGAATTCTGCCGGCCCTATGGCGTGCGCATCGCCCTTGAGAATATCTTCTCCACCGAACCCGGCCAATATCGGCAGACGCCGGCCGAAGTGGCAGCGACCGTGAAGGCTGTCGGTCACGACAATCTCGTTGCGCTGATCGACTTCAGCCATGCCTATCTCGAATCCACCTATCGTGGCCTCGATTTCCGCCATGAACTTCGCGCCATGGCGCCGGTTGCCGGCCATCTGCATGTGCACGATTCCTTCGGCCGCCCGCAGGGCTTCTATCAGCCCTATTTTCCGCAGGAAAACACAGCACTCGGCATCGGCGATCTGCACATGCCGCTCGGCTGGGGCGATATCGACTGGCAGGACATCTTCTCGGAACTTTCCTTCCTGCCCGATACCGTGCTGATGATGGAAATCGGCCGCCGTTATCGCGCCGAGCAGCCCGCAAGCCTCGAAACGGCGCGGCACCTCATCTCGCTAAATAGCGCCCGCACCCAGCTCGCGGCCGAGTGA	MSNLIGTGFNAGSDDGELATLECDLRALAEIGCDTVEIAATSLDMIAGGRIIEERADRFVSLAKQFDFRYTVHGLVSSNFMDPVTCRYQIDAAKALAVLCDRIGAGILVQHSGALRADQIAERADADSREREALFELAEFCRPYGVRIALENIFSTEPGQYRQTPAEVAATVKAVGHDNLVALIDFSHAYLESTYRGLDFRHELRAMAPVAGHLHVHDSFGRPQGFYQPYFPQENTALGIGDLHMPLGWGDIDWQDIFSELSFLPDTVLMMEIGRRYRAEQPASLETARHLISLNSARTQLAAE				NA	NA	NA	NA	NA
BMS010_00607	345			hypothetical protein	ATGATGCCCAATAGAGGTCAAGTGCGTAACGGGGGGATGTCATCGCAGCTTGTGGCGGTGAATTGCGTTTCCGGCGACGATATGCTTTCCGATGCGGAGAGCGTTGAGGACGAGCCGCGCCCGCTTCTGCGCAGCGACAGGCTCTATGTTGTCAGCGAGCCCGTTTTCCAGACATTGCCCGTATCTGCCGTCGGCGATGATCTAGCCGGAAAAGAAGCGTCGGGCGGGGCCGAAATCCGAAACAGGGTTGTCGATGCCGATATCAGGGCCGCAAAATGGGCCTGGGCGATATTGGCCATCGCGCATTGCTGGCTGATTTATTTCATGGTGCACAATCTCGGTTAG	MMPNRGQVRNGGMSSQLVAVNCVSGDDMLSDAESVEDEPRPLLRSDRLYVVSEPVFQTLPVSAVGDDLAGKEASGGAEIRNRVVDADIRAAKWAWAILAIAHCWLIYFMVHNLG				NA	NA	NA	NA	NA
BMS010_00608	492			hypothetical protein	ATGGCCTTCGAGCCGCGTATCGAGCCTTACCAGCGTGCCGACGATGTCGGATATGCGGTCAGTGAATTCATGTGGTTCAAGGGCCGTCCGTTCTATCCGGTCTCGGCGCTGGTCCATGCGAAGGTCGCGCATGCCAGGCTGTCGGCGGAAAAGGGCGACGAAGAGGACGAGGATAATCTCGATATTCTCTTTCGGATGCCGTTGGTGGCGGGCGGGCACTTTTTCGAGATCGTGCTGCGTTCGAATGAGGGGACGTCCTACGGCGGCTGGGTGTGGGGAGAAGAACTGGAAATCCTGAATGAATTCGTCAACGGCTATCGCGTTCTGGCGGGCAAGTTCGACGACAGGCTCATCCGGTTCGAATATTCCAGGCGGTTTCAGCGTTACCGGACGATCGAGCCGCTGCCGGTGGAAAAATCCGTCTTCCTGATCCAGCGGGAGGCAAAACCCTATGCGGGCAGGCGTGGTCTGCCGGGAGTCCCGGTGGCCTGA	MAFEPRIEPYQRADDVGYAVSEFMWFKGRPFYPVSALVHAKVAHARLSAEKGDEEDEDNLDILFRMPLVAGGHFFEIVLRSNEGTSYGGWVWGEELEILNEFVNGYRVLAGKFDDRLIRFEYSRRFQRYRTIEPLPVEKSVFLIQREAKPYAGRRGLPGVPVA				NA	NA	NA	NA	NA
BMS010_00609	1953			hypothetical protein	ATGATGATTCATGAGGGGACGAAAGTGGCTGGGAACGCTGAACTGATACCGATCCGGCTTTTTGGCACCCCGCGCTGTGATGCGGTGCGGGAGGCATTTTTCCCGTCCAAGGGCTTCGCCCTTACCGCCGCCCTCATCCTTGCGCCGAACCAGTCCCTTTCCCGCCAGCATGCCGCATCGCTGCTGTGGGAAAATGTCGAGCAGAAAAGGGCTCTCGGCAATTTGCGGCAGCTCATTCTCCGCCTACAGAAACTGCCCAATGAGGACGATGCCATCCTTCTGACCGAAGGAAACGACCTGAAGGCCGGCAAGCTGGCTCAGCGCACTGACCTTGCCATCTTCCTTGCCGGCGCAAGGGCCGAAGACCCGATGCGGCGGCTCAACGCGCTGCTCGAATTCGGCGGCGAGTTGCTGGAGGGGCTGGAGGCCGGGCAGGACCATCTTTATCTCTGGCTGCTTTCGGAGCGCCGCCGTCTCAGGGACCTGTTCTTTTCGAGCTACACCCAGCTTCTGGAGGAATTGACCCGCTTCGGCCGCGCTAGCTCGAACGACATCGCCAGACTTGCCGAATGCGCCTGCAAGATCGAACCGGAGCGCGAAGAAACCTACCGCGCCGCCATGGCGGCCTATGCGCGGATCGGAAATATCAGCGCCTGCGAGGGCATGTACCAGCTTCTGATGGAGCAGCTTCGTCAGGAGGGTCGTTCGCCGGAAGCCGAAACCGTGGCGCTGAGGCGCAGAATACAAAGTCTGGCCGCCACGATAACGGCCCCCGCCGAGCCGGAAGAAGGCAGTCGCCGAAAATCAATGGCAAAACCGCGTGTCGCATTCGTGCGCCCGGCACGGGTCGACGGACAGCCGGTCTCGCCGGTCATGCAAGCCTTCGTCGAGGATGTCGCCAACAGCCTTGTCCGATACCGCACCTTCACCGTCCTTTCGCCGCACAGCACCTTTGCGCTGGCGCATGACCGGGCCGATGACGGCTACGCCATGCTGCGGGCGGATTACCGCATCATTTCGACCGTGTTCGACGAAACCCGCATGTCGGTTGCGCTGATCGAGGATGCAAGCGGTGAAATCGTCTGGTCACTGGAAGCGGTCCTGACCGAACGACATATCCACGCCGCCTTCCGGCTGCTCTCCAAACAGGTGGCGGCGGCGCTTGCCCGCGAAATCGAGCGGCTTCAGGTGGAGCCCGACCGCAACCATAGCGGCGAGGCCTACCGGCAATTGCTGGAAGGCCAGCAGCTTCTGCGCGGCAAATGCGATCTGCCGCTTCTCAGAAGAGCCCGTTCGATGTTCCGCAAGGCCGTCGATCTCGACCACAGCATGGCGGTTGCCCGCGCCCGCGTGGCACAGAGCCTGCAGCTGGAATGGCTGATGCTGGGCGGAAACGACCCCCATCTCCTGCACCGCGCCAAGGCGGAGGCCGATTCTTCCGTCGAGATCGACCCCGCCCTCGGTGTGGGCCACTGGATGTGCGCGGTGGTGGCGCTCTACCAGCGGGACTTCGACATCTCCGCCGAAAAATTCTTCGAGGCGGAGGCGCTGGCGCCCAATTCGGCCGACCTCCTGCTCCAGCATGCCGATGCGCTCGCTCATTTCGGCGATGCGGAAATCGCCTGGGAGAAGTTCCAGCAGGCCATCGACCTCAATCCGCTGGCGCCCGACATCTACTGGTGGGCCGGCGCCAGCATCGCTTTCAAGCGCGAGGATTACGGCACGGCGGTGGAACTGTGCGGGCGGATGGAAAATGACGAGCCTGCGCTGCGCGTCCTAACCGCAAGCCAAGCGCTGCATGGCGATCTGGCCTCCGCCCGGGAATCCGGCAACAGGCTTCAGGAAAACTATCCGGGTATGACGGCGAGGGAGATCAGCAGCCTGTCTCCAGACCGGGACCCGATAGCGAATGAAAAATTCTATCACGCACTTCGATTAGCTGGGATTAAATAG	MMIHEGTKVAGNAELIPIRLFGTPRCDAVREAFFPSKGFALTAALILAPNQSLSRQHAASLLWENVEQKRALGNLRQLILRLQKLPNEDDAILLTEGNDLKAGKLAQRTDLAIFLAGARAEDPMRRLNALLEFGGELLEGLEAGQDHLYLWLLSERRRLRDLFFSSYTQLLEELTRFGRASSNDIARLAECACKIEPEREETYRAAMAAYARIGNISACEGMYQLLMEQLRQEGRSPEAETVALRRRIQSLAATITAPAEPEEGSRRKSMAKPRVAFVRPARVDGQPVSPVMQAFVEDVANSLVRYRTFTVLSPHSTFALAHDRADDGYAMLRADYRIISTVFDETRMSVALIEDASGEIVWSLEAVLTERHIHAAFRLLSKQVAAALAREIERLQVEPDRNHSGEAYRQLLEGQQLLRGKCDLPLLRRARSMFRKAVDLDHSMAVARARVAQSLQLEWLMLGGNDPHLLHRAKAEADSSVEIDPALGVGHWMCAVVALYQRDFDISAEKFFEAEALAPNSADLLLQHADALAHFGDAEIAWEKFQQAIDLNPLAPDIYWWAGASIAFKREDYGTAVELCGRMENDEPALRVLTASQALHGDLASARESGNRLQENYPGMTAREISSLSPDRDPIANEKFYHALRLAGIK				NA	NA	NA	NA	NA
BMS010_00610	429			hypothetical protein	ATGTCCTCGCATTTCTTCATTGTCGGAAAAAAGGGTTTCGGCGTTCTCTTCATTCGCACGGCGCCGCTCAGGGTTGCGTCCGTGTCGCATGAGACAATTGCCGCCTATGAAGCCAGCCATCCCGGCGTGGATGGTTATGCCCGCGTGGCAGCCGCAGCAAAGTCCATGCTCGTTCGCCAGAACGGCCAGCCGGAAGCGGAACTCGACCAGGTTCAGATCCAGGGCATCGAAGCCCTCGTCTCCGGCGGCGCCGTGGTTTCCGAAGCCGATTTCGCCTTCATCGGCGAAGTGAACGACGCCGGCTGGGATTTCAACCGCATGGTACAGGCGCCGATCGAAGCGGCCCTGAAGGCTGTCGGCCCGGCCGGCTCCGTCACCGGCGAGCTGTTCGACGCCATCCTTGCTGACGACAGCAACACGGCGCCCTGA	MSSHFFIVGKKGFGVLFIRTAPLRVASVSHETIAAYEASHPGVDGYARVAAAAKSMLVRQNGQPEAELDQVQIQGIEALVSGGAVVSEADFAFIGEVNDAGWDFNRMVQAPIEAALKAVGPAGSVTGELFDAILADDSNTAP				NA	NA	NA	NA	NA
BMS010_00611	1107			hypothetical protein	GTGACCGGCCTCGATATTATCGGCATTCCCGTCTGGTTCGCAGCCCGGCCCAATTCGCGCGGGCTGTCGGTCTCGCAGGGCAAGGGGCTTGTCGCGGAACAGGCCCGGCTATCGGCGATCATGGAGGCGATCGAAGGCGCGGTCGCGGAAGAAACCCGCAAACATACCGCCGCCTTCAGCTCCGTTCAGGAGATGCGGGACAAGGGAACTCCTCTCATTCCCTTCGAAACCGTCGGCAGGGTCGATTGCGACGCGCTCGATCCGCGAAAAGAACGTGCCTGGGTGAAGGGCACATCCATTCGCCGGCAGGGGCAGGTTTTTGCGCCTTACGAACTTGTCGGCATGGATTTCCGGGTGGATTTCCCATGGGACCGGCAGGCCTTCCACATGAGTTCCCAAGGGCTCGCGGCGGGGTTCGACCATGACCATGCGGTCCTTCATGCCCTGCTCGAACTCATTGAAAACGATGCCTGCTTTCTCGTCGACGCTTTCGAGACGCGCGCCATCGCACCGCGACCGGCCCTCATTCCGGCGGGCGTCGATCCTTCCTTCGACGGTCTTGTTCAGCACCTTTCGGATATCGGCCTGCCGCCGTCCTTCTTCGACATGACGAATGGGCTTGGCGTGCCGGTGGTGATGGCGAGCCTGCCCCGGTCGCTTCAGGCGCAGGACGGGCCCGCCACCCGCAGCGCCGCGGGCGCCGCCTGCCGGCCTGATATCCATGGCGCTGCGATTGCAGCCTTGCTGGAGGCGATCCAGTCGCGATTGACCGATATCAGCGGCGCGAGGGACGATCTTTCCCCCCTCCGCTACCAGCGGGATATGGTTGCGGCCGGGTCTTCGGCCTCCGGCGTGCAGCCGATGGAAAGGGTGCCGGCCAATCTCGATTTTATATCTGACGCGTCTTCGCCGCCATGGCACCAGCTTGCGACGCACCTGTTCGCCGGCGGTATCGAGGACATCTATGTCTTTCCGCTGGAAACGGAGGTATCCGGCCTGCATGTGGTGCGGGTTCTGGCAAGCGGCCTTGCTCCGGCCGGCGGCGGCCTGCAACACATCTCGCAGCGCACCCTCGATCACCTGCTGACCGTCGGAGGCCTCGGATGA	MTGLDIIGIPVWFAARPNSRGLSVSQGKGLVAEQARLSAIMEAIEGAVAEETRKHTAAFSSVQEMRDKGTPLIPFETVGRVDCDALDPRKERAWVKGTSIRRQGQVFAPYELVGMDFRVDFPWDRQAFHMSSQGLAAGFDHDHAVLHALLELIENDACFLVDAFETRAIAPRPALIPAGVDPSFDGLVQHLSDIGLPPSFFDMTNGLGVPVVMASLPRSLQAQDGPATRSAAGAACRPDIHGAAIAALLEAIQSRLTDISGARDDLSPLRYQRDMVAAGSSASGVQPMERVPANLDFISDASSPPWHQLATHLFAGGIEDIYVFPLETEVSGLHVVRVLASGLAPAGGGLQHISQRTLDHLLTVGGLG				NA	NA	NA	NA	NA
BMS010_00612	714			hypothetical protein	ATGAAGCCGGTGGTTTTTGCAGGCCCGTCCATCCACGGCATCGCAGGCGAACATATGTCCGGTCTCGATCTTCGCGGTCCGGCCGCCTGCGGCGATATTTTCGATGCGGCTCGGCAAGGTGTGGGGACAATCGGGCTGATCGACGGGCTGTACGGCGATTGCGCCGCCGTCTGGCACAAGGAAATCCTGTTTGCACTGGCGAGCGGCGTTACCGTTTTCGGCGCCGCCAGCATGGGGGCGCTCAGGGCGGCGGAATGCGCCCCCTTCGGCATGATCGGCATCGGCGAGATTTTCGAGGCCTATCGCGACGGGCGGCGTTTTTCCGATGCCGATGTGGCGGTGAGCCATGCACCCGGCGCGCTCGATTACCGCCCGCTGACAGTCGCGCTGGTCGATGCCGAGGCGACGCTCGCCGTCTGCCGCGAGACGGTCGCTCCAGAGGAATATGACGCGCTCACCTGCGCAGCCAACAATCTGCATTTTACCCGCAGGACATGGCGCGCCGTCGCCGCGGAAGCGGGCCTCGGCTCCGAGACGGCGAATCTGCTCGCGGCCAATGCGGTTTCCATCAAAAGAAACGATGCGGCAAGGCTTCTGGCAACAATCACGGGAGAAACGTTGCCATCCCCACCGCCGCCATCATGGAAGCTTCAGAATACGATGTTTTTCCAGCAATTGGCAGCAAGGCAGGCGGCAGGGGACAAAAGGTCTTGA	MKPVVFAGPSIHGIAGEHMSGLDLRGPAACGDIFDAARQGVGTIGLIDGLYGDCAAVWHKEILFALASGVTVFGAASMGALRAAECAPFGMIGIGEIFEAYRDGRRFSDADVAVSHAPGALDYRPLTVALVDAEATLAVCRETVAPEEYDALTCAANNLHFTRRTWRAVAAEAGLGSETANLLAANAVSIKRNDAARLLATITGETLPSPPPPSWKLQNTMFFQQLAARQAAGDKRS	PGPT0009843_3	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-TRIFOLITOXIN_METABOLISM,PGPT0009843-tfuA_like-NA	NA	NA
BMS010_00613	1146			hypothetical protein	TTGAGCGCCATCCAGCCCCTGCCTCTTATGCCCGATTGCGGCGGGCTGATCCGCACGATTGCGCTCGCACTACCCGCCGCTTTTTTTGCGGAAAACAGGGCCACTGACACTGTTTCACCGCTCATTCCAATCGGAAACCTGCTCTCGGCCCTGCCCGCAGATATCACCGCTTTTATCGTGACCGATCAAGCCAGTCTCGCGTCAGCGCGAGACTGGCTCGGCAGCCTGCCAGCCTCCTGCGGCACCGAGCTGATACCCCTTGCCGGAAATGACGGCGTTTCGCATCCTTGGATACAGGACATCTTCCATGTGCGTGCGATTGATCCCGCGACAGAATTCGTCCTGGTGGCGGAGAAGGCCATCGGCGTCAGCCTGGCCGAATATCTGGGAGCGGCAACCACGCATGCGGATGTCGCCTTGGCAGGCGGCAACCAGCTTGTCGGCCCGGATTTTCGGCTGGTGGGCCATGCCAGCCTGCAGGATGACAGGGGGATAGGAAGGAATGCGGCCATCCCTTCGCAGCGGTGGCGAAAAATTCAGGCTCTCGACGGCAGAAACATCTTCAGTTTCGGATATCGGCCGGAAGATCTCGGCAAAGTCCCGGTCTCTTCCGATTTTTCCGCGATGGAAACTTGCGGAGCGGAGATTGCCGGCAAAAAAATGCACCAATGCGGCTTCCACGTTGACCAGTTCGTTTCAGTCACCGGTCTGAGAAGCGGCGGCCGGCCGCGATTGCTCGTTGCCGACCCTGTCGCGCATGGCGGATGCAATGCCCGCGCCGCAACCGAGCTGAAACGAAAACTGGACGCCTCGTCACTTTGGCTCGCGCGACAGGGCTTTGCGATAGAACGAAATCCCATCCCGCTTTCGCCGGCCATCGACACCAACAAATGCCTGCCCCGACTTTACAACAATGTCCTTCTTGAAAATGTCATACGTTCCGGTCAGAAACGGCCATTCGTCTGGATTCCGCATTTCGGCGATACCGAGTCGCTTGAGGAGTTCGATGCAATGAACCGAGAAATTTGGGACAGAATGGGCTTTCAGACCATCGGCGTGGCCGGATGGAGCCATCTTTCCAGCCGCAACGGGGCGTTGCGTTGTGCAACAAAAATAATAAATCGCGGGCCGGACACGCGATTATGA	MSAIQPLPLMPDCGGLIRTIALALPAAFFAENRATDTVSPLIPIGNLLSALPADITAFIVTDQASLASARDWLGSLPASCGTELIPLAGNDGVSHPWIQDIFHVRAIDPATEFVLVAEKAIGVSLAEYLGAATTHADVALAGGNQLVGPDFRLVGHASLQDDRGIGRNAAIPSQRWRKIQALDGRNIFSFGYRPEDLGKVPVSSDFSAMETCGAEIAGKKMHQCGFHVDQFVSVTGLRSGGRPRLLVADPVAHGGCNARAATELKRKLDASSLWLARQGFAIERNPIPLSPAIDTNKCLPRLYNNVLLENVIRSGQKRPFVWIPHFGDTESLEEFDAMNREIWDRMGFQTIGVAGWSHLSSRNGALRCATKIINRGPDTRL				NA	NA	NA	NA	NA
BMS010_00614	438			hypothetical protein	ATGCACGCCAAACTACCCAGCCCGATCGACGTCCATGTCGGCGCACAAATCAGAATGCGCCGCAAGTCGCTCGGCATGAGCCAGAGTGCACTGGCCGGGCGATTGGGCATCACCTTCCAGCAGGTCCAGAAGTATGAAAAGGGTGCCAATCGTGTCGGCGCGTCCCGTCTGCAGGCCATTGCGTCGATTCTCGGCGTTGAGGTCAGCTCCCTGTTCGCCAATGCCACGCCCGATGGCGACCCGGCCAATCCGGCCCTTGGCACGATCAATGCCATGCAGACCTTCGTGGCCTCGAATGAAGGCTTTTCGCTCAACCAGGCCTTTTCGCGCATCAAGAGCGCCGCGGTGCGTAGAAGCATCGTCGCTCTCGTGACATCGCTCGCCGCCACTGAAGCGGCGGAAAATGCCGCCGCGCCGGCGGACAAAAACGACGATTGA	MHAKLPSPIDVHVGAQIRMRRKSLGMSQSALAGRLGITFQQVQKYEKGANRVGASRLQAIASILGVEVSSLFANATPDGDPANPALGTINAMQTFVASNEGFSLNQAFSRIKSAAVRRSIVALVTSLAATEAAENAAAPADKNDD				NA	NA	NA	NA	NA
BMS010_00615	234			hypothetical protein	ATGGCGGCGTCTACCACAGATATACTTGAACAGGACAATGCAGACGAGATTCTGGCGCTCGGGCGGATGGTTTCCTATCTTTGCCAGCGCTCGAAATCTCTGGAACTGGGCATGTCGACCTATTTCCTGGAGATGGCATTGTTGTCGCTGGCCCAGGACATCAATCAGCAGGGTCTGCCGCCGGTAAGCGCAGAGCTGAATGTCGGCGCCTTCGCTCAGGCCGATCTGCATTGA	MAASTTDILEQDNADEILALGRMVSYLCQRSKSLELGMSTYFLEMALLSLAQDINQQGLPPVSAELNVGAFAQADLH				NA	NA	NA	NA	NA
BMS010_00616	2349	metE_1	COG0620	5-methyltetrahydropteroyltriglutamate--homocysteine methyltransferase	ATGCCAGACAAGACCATTCCAGTCGCATCGCTCGGTTTTCCGAGGATCGGACGCCATCGCGAACTGAAGTTCGCGCTTGAAGGCTTCTGGTCCGGCAAGATTTCCGAGACGGAACTGCTCGAAACCGCCGCCCGGCTGCGCGCCGAAAACTGGGCGCTCCAGCGTGAGAAGGGGATTACCCATATCCCGTCCAACGATTTCTCCCTTTACGATCACGTTCTCGATACGGCCGTGATGGTGGGCGCCATTCCATCCCTCTATGGATGGGCGGGTGGAGATGTTTCCCTCTCCACCTATTTCGCCATGGCGCGCGGCAGCCAGAGCGAAGGGCACGCAGGCTGCGGCCATGGGCATGAAGGACATTCGCATCATGGTCAGGGCGTTCCGGCGCTGGAAATGACCAAATGGTTCGACACCAACTATCACTACATGGTGCCGGAGGTTTCAGAGGATCAGCATTTCGTGCTCACCTCGCAAAAGCCGGTCGACCACTTCCTTGAGGCGAAAGCGCTCGGTATCCATACGCGTCCGGTCATTCTCGGCCCGGTCACGTTCCTGAAACTCGCCAAGGCGCGCGAGGCAGCCTTCAAGCCTCTCGATCTGCTGGCGAGGCTGCTGCCCGTCTATGAAGAGCTGCTGCGTCGCCTGCGCGCGGCCGGTGCGGACTGGGTGCAGATCGATGAGCCGGTCGCCGTGCTCGATCTTTCCGAGGGGGAGCGTCACGCGCTGGCTGTGGCCTATCAGGCTTTGTCGAAGGCCGCGCCGGATCTGAAAATCCTGCTCGCCACCTATTTCGGCGGGCTTGAGGACAATCTCGAAGCCGTCGCATCGCTTCCGGTCGCGGGCCTTCATATCGATCTGGTGCGAGCACGCGATGCGCTGGAGACGGTGTTGAAGACCTTGCCGGAAAATCGCGTCCTGTCGCTGGGTGTCATAGACGGTCGCAACATCTGGCGCGCTGATCTCGCTGCAATCATTACCCGATTGGAACCCGCCATCGCGGCACGCGGTGCGGCGGCGTTTCAGATCGCGCCCTCCTGCTCGCTGCTGCATGTCCCGGTCGATCTCGAACTGGAAACCGGCCTCGATGCAGATCTCAAAAGCTGGCTTTCTTTCGCCACCCAGAAGCTCGGCGAACTTGCCACGCTCGGCAAGGCTCTCGGTGAGGGCAAGGTTGCTGTCGCGACGGAACTGGCGGCTGCCTCCAAGGCCGTTGCCGGGCGTGCATCCTCACCGAAGGTAACGGACGCCGCCGTACAGAAGCGTATTGCGACGATTGGCGAGGCCGACAGGAAGCGGGCGAGCCCGTTTGCCGAGCGGCAGAAAGTGCAATCGCAGGCCATCGCGCTGCCGCTTTTCCCAACGACGACCATCGGCTCTTTCCCGCAGACGCCGGAGGTGCGCAAGGCCAGATCGGCACATTCCAAGGGCGCGCTGACCGATGCGCAATATGAAAAATTCCTGGAGAAGGAAACCGAAGCGACCATTCGCTGGCAGGAGGAAATCGGTCTCGACGTTCTCGTGCATGGCGAGTTCGAGCGCAATGACATGGTGCAATATTTTGGCGAACAGCTTTCCGGCTTCGCTTTCACCCAGCATGCATGGGTGCAGAGTTACGGCTCGCGTTATGTGCGTCCGCCCATCATTTTCGGCGATGTGTCGCGCCCAAAAGCGATGACGGTTCGCTGGTGGGAATATTCGCAGTCGCTCACCGACAAACCCGTCAAGGGCATGCTGACCGGGCCGGTGACGATCCTCAACTGGTCTTTTGTGCGCGACGATATCGCCAGAAGCCTGACATGCCGCCAGATCGCGCTTGCCATCCGCGATGAGGTCAATGATCTCGAAGCAGCCGGTGCGCAGATGATCCAGATCGATGAGGCTGCTCTTCGTGAAGGACTGCCGCTTCGGCACCGGGACTGGAAGGATTATCTCGGCTGGGCGGTGGAATGCTTCCGCATTTGCTCCAGCGGCGTGGGCGACCGCACACAGGTTCACACGCATATGTGCTATTCCGAATTCAACCAGATCATCGATGCCATTGCTGCCATGGACGCCGATGTGATCTCCATCGAGACCTCGCGTTCGAAGATGGAATTGCTGGATGCGTTTCGGACCTACAAATACCCGAACCAGATCGGTCCCGGCGTTTATGACATCCACTCGCCGCGCGTGCCGGCGGTTGGAGAAATGGTCGATCTTCTGGCGCTGGCGCGAGAGCGGCTTGACGACCGGCAGCTCTGGATCAATCCGGATTGCGGCCTGAAGACGCGTAAATGGGAAGAGGTGAGGCCCGCCCTGGTCAACATGGTCGCCGCAGCTGCCGAGCTTCGCCGCGCGGCGCTTTGA	MPDKTIPVASLGFPRIGRHRELKFALEGFWSGKISETELLETAARLRAENWALQREKGITHIPSNDFSLYDHVLDTAVMVGAIPSLYGWAGGDVSLSTYFAMARGSQSEGHAGCGHGHEGHSHHGQGVPALEMTKWFDTNYHYMVPEVSEDQHFVLTSQKPVDHFLEAKALGIHTRPVILGPVTFLKLAKAREAAFKPLDLLARLLPVYEELLRRLRAAGADWVQIDEPVAVLDLSEGERHALAVAYQALSKAAPDLKILLATYFGGLEDNLEAVASLPVAGLHIDLVRARDALETVLKTLPENRVLSLGVIDGRNIWRADLAAIITRLEPAIAARGAAAFQIAPSCSLLHVPVDLELETGLDADLKSWLSFATQKLGELATLGKALGEGKVAVATELAAASKAVAGRASSPKVTDAAVQKRIATIGEADRKRASPFAERQKVQSQAIALPLFPTTTIGSFPQTPEVRKARSAHSKGALTDAQYEKFLEKETEATIRWQEEIGLDVLVHGEFERNDMVQYFGEQLSGFAFTQHAWVQSYGSRYVRPPIIFGDVSRPKAMTVRWWEYSQSLTDKPVKGMLTGPVTILNWSFVRDDIARSLTCRQIALAIRDEVNDLEAAGAQMIQIDEAALREGLPLRHRDWKDYLGWAVECFRICSSGVGDRTQVHTHMCYSEFNQIIDAIAAMDADVISIETSRSKMELLDAFRTYKYPNQIGPGVYDIHSPRVPAVGEMVDLLALARERLDDRQLWINPDCGLKTRKWEEVRPALVNMVAAAAELRRAAL				NA	NA	NA	NA	NA
BMS010_00618	783	frcA_1	COG1129	Fructose import ATP-binding protein FrcA	ATGACGGACCAAGTCACGCCCCTCGTGGAAATGCGCAATATTTCCATTTCCTTCGGCGGTATCCATGCGGTGGAAAACGCCTCTGTCGATCTTTTCCCCGGTGAGGTGGTCGCCCTTCTCGGCCACAATGGCGCGGGCAAATCGACGCTGATCAAAATCCTCTCCGGCGCCTATCGGCGCGATGGCGGGGATATTCTCATCAATGGCGAGGATGCCGATATCCGCAATCCGCGCGACGCCAAGAAATACGGCATCGAGACCATCTACCAGACACTGGCCGTGGCCGATAACGTCGATGCGGCGGCCAATCTTTATCTCGGCCGCGAGCTGAAGACGAAATGGGGCACACTTGACGATGTCGCCATGGAAGCCTCGGCCCGCGAGGTCATGGGGCGTCTCAACCCCAATTTCCGGCGGTTCAAGGAACCGGTGAAGGCGCTTTCGGGCGGCCAGCGGCAGTCCGTCGCCATCGCCCGCGCCATTCTGTTCGATGCCCGCATCCTCATCATGGACGAGCCGACGGCCGCACTCGGCCCGCAGGAAACGGCGCAGGTGGGCGATCTCGTCAAGGAGCTGAAACGGCAGGGCATCGGCATCTTCCTCATCAGCCACGATATTCACGATGTCTTCGATCTGGCCGACCGGGTCTTCGTGATGAAGAACGGCAAGGTGGTGGGCCATGCCCGCACGCAGGACGTCACCAAGGACGAGGTGCTTGGCATGATCATTTTGGGCAAGGTGCCGGCCGGTGCGGTGCCGGGGCCGGGTGCGGTGGCGCTCTAA	MTDQVTPLVEMRNISISFGGIHAVENASVDLFPGEVVALLGHNGAGKSTLIKILSGAYRRDGGDILINGEDADIRNPRDAKKYGIETIYQTLAVADNVDAAANLYLGRELKTKWGTLDDVAMEASAREVMGRLNPNFRRFKEPVKALSGGQRQSVAIARAILFDARILIMDEPTAALGPQETAQVGDLVKELKRQGIGIFLISHDIHDVFDLADRVFVMKNGKVVGHARTQDVTKDEVLGMIILGKVPAGAVPGPGAVAL	PGPT0016660_932	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_XYLOSE_TRANSPORT_I,PGPT0016660-xylG-K10545	NA	NA
BMS010_00619	1314	xylH_1	COG4214	Xylose transport system permease protein XylH	ATGGCCGATATGACCCAGTCCAATACTACAGCGTCGCAAAAGACGGAAAAAACAGGATCGATAACGCGCTTCATCAACGCCACCGAGCTGGATACCCGCCTGCTCGGCATGGTCGGTGCGCTTCTTCTGATCTGGATCGGATTTCATATCCTGTCCGGCGGGCTGTTCCTGACGCCGCGAAACCTCTGGAACCTCTCCGTGCAGACCGCGTCCGTGGCTGTCATGGCAACCGGCATGGTGCTCGTCATCGTCACCCGCAATATCGACCTGTCGGTCGGGTCGATCCTCGGTTTTTCCGGCATGATCATGGGTGTCATGCAGGCGGAAATCCTGCCGCAAATCCTCGGCTTTGAACATTGGGCCACATGGATCGTCACGCTTCTGGTCGGCATTCTCGTCGGCGGCGCCATCGGCATGTTGCAGGGCTCCATCATCGCCTTCCTCAACGTCCCGTCCTTCATCGTCACGCTGGGCGGCCTGCTCGTTTGGCGCGGCGGTACCTGGTTCATCACCAGCGGCCGCACCGTGGCGCCGATGGATTCCACCTTCCGCCTGATGGGCGGCGGCACCAGCGGTTCGATCGGCGCGACATGGAGCTGGATCGCCGCTGTCATCGCCTGCGTCGCCATCATTGCGGCCATCCTGAACTCCCGCCATCAGCGCCGCCGTTTCGGCTTTCCGTTGCGGCCCGTCTGGGCGGAATATTTTCTGGCCGCGCTGGGCTGCCTTGTCGTCATCGGTTTCGTGGCGGTGGTCAACAGCTATCCATGGCCGGTCAACATCGCCCGCAACTATGCCGATGCCAATGGCATAACCTGGCCTGAAGGTGGTCTGTTCATTTCGCACGGCATCGCCATTCCGGTGCTGATGGCACTTGCCGTCGGTGCGGTCATGACTTTCATCGCCACACGGCTGCGTTTCGGCCGTTATGTCTTCGCCATCGGCGGCAATCCGGAAGCGGCCGAACTCGCCGGCATCAAGACCCGCTGGGTCACGGTGAAGATCTTCACGCTGATGGGTGTTCTGTGCGCCATCGCCGCCGCCATCTCCACCGCCCGTCTCAACGCGGCCACAAATGCCCAGGGCGAGTTGGACGAGCTTTACACCATCGCGGCGGCCGTCATCGGCGGCACTTCGCTTGCCGGCGGTGTCGGAACCATAGCGGGTGCGATGCTCGGCGCGCTCGTCATGCAGTCGCTGCAATCCGGCATGGTGCTGGTGGGCATCGATACGCCCTTCCAGCGCATCGTCGTCGGTGTGGTCCTGGTCGTCGCCGTCTGGCTCGACACCATCTACCGCGCCCGCGCCAAGTAA	MADMTQSNTTASQKTEKTGSITRFINATELDTRLLGMVGALLLIWIGFHILSGGLFLTPRNLWNLSVQTASVAVMATGMVLVIVTRNIDLSVGSILGFSGMIMGVMQAEILPQILGFEHWATWIVTLLVGILVGGAIGMLQGSIIAFLNVPSFIVTLGGLLVWRGGTWFITSGRTVAPMDSTFRLMGGGTSGSIGATWSWIAAVIACVAIIAAILNSRHQRRRFGFPLRPVWAEYFLAALGCLVVIGFVAVVNSYPWPVNIARNYADANGITWPEGGLFISHGIAIPVLMALAVGAVMTFIATRLRFGRYVFAIGGNPEAAELAGIKTRWVTVKIFTLMGVLCAIAAAISTARLNAATNAQGELDELYTIAAAVIGGTSLAGGVGTIAGAMLGALVMQSLQSGMVLVGIDTPFQRIVVGVVLVVAVWLDTIYRARAK	PGPT0016655_174	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_XYLOSE_TRANSPORT_I,PGPT0016655-xylH-K10544	NA	NA
BMS010_00620	1041	xylF	COG4213	D-xylose-binding periplasmic protein	ATGAATTCTTTTGCCAAGCTTTTGGCGGGTACAGCCGTACTCGTTTCCCTGCACACTGCCGCCATGGCCGCTGATCTCGTCGTCGGCGTGTCCTGGTCAAATTTCCAGGAAGAACGCTGGAAAACGGATGAGGCGGCCATCAAGGCAGCGCTCGACAAGGCCGGCGCGAAATACATCTCCGCCGATGCGCAATCATCCGCCGCAAAGCAGCTCACCGACGTGGAATCGCTGATCTCGCAGGGCGCCAACGCGCTGATCATTCTGGCGCAGGACAGCGACGCGATTGGTCCGGCCGTTGAAAAGGCCGTTGCCGAGGGCATTCCGGTCGTGGGTTACGACCGCCTGATCGAAAACCAGAACGCCTTCTACATCACCTTCGATAACAAGGAAGTCGGCCGTCTGCAGGCTGCCGAAGTCTTCAAGGTGAAGCCGGAAGGCAATTACGTCTTCATCAAGGGCTCTTCTTCCGACCCGAATGCGGACTTCCTGTTCGCCGGTCAGCAGGAAGTGCTGAAGGCGGCCATTGACGGCGGCAAGATCAAAAATGTCGGCGAAGCCTATACCGATGGCTGGAAGCCGGAAAATGCCCAGAAGAACATGGAACAGTTCCTGACCAAGAATAACAACAAGGTCGATGCGGTCGTCGCCTCGAATGACGGCACGGCCGGCGGTGCAATCGCCGCTCTCGCCGCGCAGGGCATGGCAGGTTCGGTTCCCGTTTCCGGTCAGGATGCCGATTTCGCCGCGCTGAACCGCGTCGCACTCGGCACGCAGACGGTGTCGGTCTGGAAGGACAGCCGTGAACTTGGCAAGGAAGCGGCTGGCATTGCGCTGGAACTGGCCGGCGGCAAGAAGATGACCGAGATCAAGGGTGTCTCCACCTTTGAAGGCGGTCCGAAAAAAGTGAAGATGCAGTCGGTCTTCCTCAAGCCTATCGCCATCACGAAGGACAATCTGAACGTCGTCATCGACGCTGGCTGGATCGAGAAGGAAACGGCCTGCCAGGGCGTGAAGGCTAAAACGGTCAAAGCCTGCGATTGA	MNSFAKLLAGTAVLVSLHTAAMAADLVVGVSWSNFQEERWKTDEAAIKAALDKAGAKYISADAQSSAAKQLTDVESLISQGANALIILAQDSDAIGPAVEKAVAEGIPVVGYDRLIENQNAFYITFDNKEVGRLQAAEVFKVKPEGNYVFIKGSSSDPNADFLFAGQQEVLKAAIDGGKIKNVGEAYTDGWKPENAQKNMEQFLTKNNNKVDAVVASNDGTAGGAIAALAAQGMAGSVPVSGQDADFAALNRVALGTQTVSVWKDSRELGKEAAGIALELAGGKKMTEIKGVSTFEGGPKKVKMQSVFLKPIAITKDNLNVVIDAGWIEKETACQGVKAKTVKACD	PGPT0016650_761	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_XYLOSE_TRANSPORT_I,PGPT0016650-xylF-K10543	NA	NA
BMS010_00621	1233			hypothetical protein	ATGTCCGCCATTGCAAGTACGGAACTGGTGCGCCAGAAAAACAGCCTGTCGGTGATGGCGGCGCTGCGCCTGCACGGCAACCTTTCCCATACCGGCATGTCGTCTTTCACCGGACTTGCCTCCGCAACCGTCTCCGCCATCACCACCGAGCTTGAGCGGGCCGGGCTCATTCTGCGGAAAGAGCAGCTCGTCACCGCCGGCCGTGGCCGGCCACGCATTCTCTTCGGCCCGCGCGGCGCTTTTTGCCATGTCGCCATCGTCATCATCTCATCCGACAGCGTGCAATATTCGCTGGTCGATTATGCCGGCAAGCTGGTGGACCGCTTCACCGAACAGAGGATTACAGCTGAAAAAGGCACATTCGGCGGCGCAATTCTCGCCGGCCTCGCAAGACTTGCCGATCGCTCGCGCATCGACCGTCACGATATCCTCCAGGTCTCGATCAGCAGCAAGGGGCTGGTGGATGCGGCCGCGGCAACGCTTGTCTGGTCGCCGGTTCTCGGTGACGAAAGGATCGATTTCCAGCGGCTCGTTTCCGAGGACGGCCGCATTCGCGTGACGCTGAACAACGAGACGCTGCTGGCCGCAAAAGCCATCTGGATGCGGGAGCAGGCACGGGAAAACCCGGCGCCGGAAGCCCTCGTCACCCTGTCGCTCGGCCACAGCATCGGCCTTGGCATCGCCCGCTCGACGGGCGGCGCAATCGAGGTCAGCGCTCCCAATTTCGGCCATATGCTGCATCTGGCCGATGGTGCGCTGTGCCGTTGCGGCACCAAAGGCTGCATCGAGGCCTATTCCGGGTTTTACGCCATCCTGCGTTCTGCTTTCGAAGCCCCGCCGCAGGCGGAACCGGCGAAATTCGTACCGATCGCCGAGGTGGACAAGATCGCCGCTTCAGCCCGCAACGGCGCGCGCATGGCGCGGTTCGCCTTCCGCACCGCCGGACTTGCGCTCGGTAACGGTCTTTCACGCCTCTTCAGCCTGCATGGCCATATGCCGGTCTTCATCACCGGCCCCGGCACCCGCTATTTCGATCTTCTGGAAAGCGGCCTGCGCGAGGGTCTGGCGCAATCGCAGGCGGTGCGTTTCGGCGGCATGCCGAAAATCGCCATAGCGCCTAACGAACCGGAACTGGTGTTCGAAGGGCACATGGAACACGCCCTTTCAGCTGCAGACGATTATATCCTGAGCGCCGACGGCCCGGAGAGGCCGGTGAGGAATTACGGGAGCTGA	MSAIASTELVRQKNSLSVMAALRLHGNLSHTGMSSFTGLASATVSAITTELERAGLILRKEQLVTAGRGRPRILFGPRGAFCHVAIVIISSDSVQYSLVDYAGKLVDRFTEQRITAEKGTFGGAILAGLARLADRSRIDRHDILQVSISSKGLVDAAAATLVWSPVLGDERIDFQRLVSEDGRIRVTLNNETLLAAKAIWMREQARENPAPEALVTLSLGHSIGLGIARSTGGAIEVSAPNFGHMLHLADGALCRCGTKGCIEAYSGFYAILRSAFEAPPQAEPAKFVPIAEVDKIAASARNGARMARFAFRTAGLALGNGLSRLFSLHGHMPVFITGPGTRYFDLLESGLREGLAQSQAVRFGGMPKIAIAPNEPELVFEGHMEHALSAADDYILSADGPERPVRNYGS				NA	NA	NA	NA	NA
BMS010_00622	1545	eryB_1	COG0578	D-erythritol 1-phosphate dehydrogenase	ATGTCCGGCGAGAATATTTTCGATCTTTTTGTCATCGGTGGCGGCATCAACGGCTGCGGCATTGCCCGCGATGCGGTGGGCAGGGGCTATTCCGTCGCGCTTGCGGAAAAGGGCGATTTCGCTTCCGGCACGTCTTCCGCCGCCACCAAGCTTATTCATGGTGGCCTGCGTTATCTCGAGCATTACGAGTTTCGTCTGGTGCGCGAAGCGCTGATGGAGCGGGAAATCCTCTGGGCCATGGCGCCGCATGTCATCTGGCCCATGCGTTTCGTCCTGCCCATCCAGAAAGGCGGCGTGCGCCCGGCCTGGATGGTCCGGCTCGGCCTGTTTCTTTACGACAATCTCGGCGGCCGCAAGCTTTTGCCGGCGACCCGCACGCTCGACCTTCGCAGGGACCCGGCGGGCAAGCCGCTGAAGCCGGCTTTCGCCACGGCTTTCGAATATTCCGACGGCTGGGTGGATGATGCCCGTTTCGTGGTCCTCAACGCGCGCGATGCGGCCAATCGCGGCGCGACGATCATGAACCGCACGCGGGTCGTTTCCGCACGGCGCGAAGGCGAGCTGTGGCTCATCGAGACGCTGGACGAAAAAACCGGACGCGCGGCCACGCACAAGGCGCGTATGCTGGTGAATGCCGCCGGCCCCTGGGTGGACAAGGTGCTTTCCGGCGTCTTCGGCCGCAACGACGTGCACAATGTCCGGCTCGTTCAGGGCAGCCATATCATCGTGCGCAAGAAGTTTTCCGACCCGCGCGCCTATTTCTTCCAGAACCCGGATAACCGCATCATCTTCGCCATTCCCTATGAACGGGATTTCACGCTGATCGGAACCACGGACCGCGATTACAAGGGCGATCCGGCCAGCGTTCGCATCTCCGAAGACGAGATTTCCTATCTCTGCAACGCGGCCAGCGACTATTTCAGCGAGCCGGTGCGTCCGGAAGATATCGTCTGGACCTATTCCGGCGTTCGCCCGCTTTTTGATGACGGTGCATCGAAAGCGCAGGAGGCGACGCGCGATTATGTGCTGAAGGTTGAAGAGACAGCGGGTGAGGCGCCACTCCTCAATATTTTCGGCGGCAAGCTCACCACCTATCGGCGGCTGGCAGAACATGCGCTGGAAAAGATCGGTGCGGCGATTGGCGAAAAGGGCAAGCCGTGGACGGCGGGCTCCCACCTGCCGGGCGGCGATTTCGGTGCTGAGAGATATGAGGCGCAGGTGCGGTCGCTCGTCTCCCGTTATCCCTTCCTTGACGGACGCCATGCCGAGCGACTTGTCAGAAACTACGGCACCAAGGCGGCGGAACTGTTGGGCAGCGCCACCGATGTCTCCGGCCTCGGCCGGCATTTCGGCGGCACGCTTTATGAATGCGAGGTGCGCTGGCTGGTTGAGCACGAATGGGCCTGCGCGGCCGAGGACATTCTCTGGCGGCGAACGAAACAGGGCCTGCGCCTCAGCAAGGATGAGGCCGCTGATCTCGATGACTTCGTTGCTGTGCTGATTTGTGGCGGGCAAGAGGCCGAGGCCGTGGCGGAGCGGGCCTGA	MSGENIFDLFVIGGGINGCGIARDAVGRGYSVALAEKGDFASGTSSAATKLIHGGLRYLEHYEFRLVREALMEREILWAMAPHVIWPMRFVLPIQKGGVRPAWMVRLGLFLYDNLGGRKLLPATRTLDLRRDPAGKPLKPAFATAFEYSDGWVDDARFVVLNARDAANRGATIMNRTRVVSARREGELWLIETLDEKTGRAATHKARMLVNAAGPWVDKVLSGVFGRNDVHNVRLVQGSHIIVRKKFSDPRAYFFQNPDNRIIFAIPYERDFTLIGTTDRDYKGDPASVRISEDEISYLCNAASDYFSEPVRPEDIVWTYSGVRPLFDDGASKAQEATRDYVLKVEETAGEAPLLNIFGGKLTTYRRLAEHALEKIGAAIGEKGKPWTAGSHLPGGDFGAERYEAQVRSLVSRYPFLDGRHAERLVRNYGTKAAELLGSATDVSGLGRHFGGTLYECEVRWLVEHEWACAAEDILWRRTKQGLRLSKDEAADLDDFVAVLICGGQEAEAVAERA	PGPT0006775_4007	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0006775-glpA|glpD-K00111	NA	NA
BMS010_00623	417	epi	COG0346	Ethylmalonyl-CoA/methylmalonyl-CoA epimerase	GTGTTCGGAAGATTGAATCACGTCGCCATCGCGGTGCCCGATCTGAATGCCGCAATCGCCCGCTACAGGCTGTTGGGCGCAGATGTCTCGGAACCGCAATCGCTACCCGAACACGGCGTGACGGTGGTTTTCATTCAGGCTGACAATACCAAGATCGAGCTTCTTTATCCGCTTGGCGAAAATTCGCCGATTGCCGCTTTTCTCGAGAGAAATCCGGGCGGCGGCACGCATCATCTCTGCTTTGAAGTGCCTGACATTGTCGCGGCGCGCGACGATCTCGTCAAAAAGGGCGTTCGAATTCTGGGTGATGGCGAGCCGAAGATCGGCGCGCATGGCAATCCCGTTCTTTTCCTGCATCCGAAGGATATGGGTGGCGTGCTCTATGAGCTTGAGCAGGTTTCCCAGACATACGGCTGA	MFGRLNHVAIAVPDLNAAIARYRLLGADVSEPQSLPEHGVTVVFIQADNTKIELLYPLGENSPIAAFLERNPGGGTHHLCFEVPDIVAARDDLVKKGVRILGDGEPKIGAHGNPVLFLHPKDMGGVLYELEQVSQTYG				NA	NA	NA	NA	NA
BMS010_00624	2142	bhbA		Methylmalonyl-CoA mutase	ATGTCGGGTGAAAAAACGGCGCGGGATTGGCTGCAGCTTGCCGAGAAAGAGCTGAAGCGTTCACCGGAAACGCTCGTCTGGCACACACCCGAAGGCATTGAGGTGAAGCCGCTCTATACCGCTGACGATCTTCAGAAGATTTCCCATCTGGACAGCCTGCCGGGCTTTGCGCCTTTCACGCGCGGCCCGCGCGCCACCATGTATGCCGGCCGGCCCTGGACCATCCGCCAATATGCCGGTTTTTCCACGGCCGAAGCCTCGAACGCCTTTTACCGCAAGGCGCTCGCCGCCGGTCAGCAGGGCGTTTCGGTTGCCTTCGACCTCGCCACCCACCGCGGTTACGATAGCGATCATCCGCGTGTGGAGGGCGATGTCGGCAAGGCGGGCGTGGCGATCGACAGCGTCGAGGACATGAAAATCCTGTTCGATGGCATTCCGCTCGAAAAAGTCTCGGTGTCGATGACCATGAATGGCGCGGTCATTCCGGTGCTCGCCAGTTTCATCGTTGCGGGGGAAGAACAGGGTGTGCCCCGCGCCGCCCTTTCCGGCACCATTCAGAACGACATCCTCAAGGAGTTCATGGTCCGCAATACCTATATCTATCCGCCGGAACCCTCGATGCGGATCATTGCCGACATCATCGAATATACGGCGAAGGAGATGCCGAAATTCAACTCCATCTCCATTTCCGGTTATCACATGCAGGAAGCGGGCGCGACGCTTACCCAGGAGCTGGCCTTCACGCTGGCGGATGGCCGCGAATATGTGCGGGCGGCGCTGGCCAAGGGACTGAATGTCGATGATTTCGCCGGGCGCCTGTCGTTCTTTTTCGCTATCGGCATGAATTTCTTCATGGAGGCTGCCAAGTTACGCGCCGCGCGCCTGCTCTGGTCGCGCATCATGGAGGAGTTCAAGCCGCAGAAGGCGTCGTCGCTGATGTTGCGCACACATTGCCAGACGTCCGGCGTCTCGCTGCAGGAGCAGGATCCCTATAACAACATCGTCCGCACCGCCTTTGAGGCCATGTCCGCCGTGCTGGGTGGCACGCAGTCGCTGCACACCAATTCCTTCGATGAGGCGATTGCCCTGCCGACGGAGTTTTCCGCCCGCATCGCGCGGAATACCCAGCTTATCCTTCAGCACGAAACCGGTGTCACCAGGGTGGTCGATCCGTTGGCCGGCTCCTATTATGTCGAAAGCCTGACGGATGAACTGGCAGAGAAGGCCTGGGCGCTGATCGAGGAGGTCGAGGCGCTCGGCGGCATGACCAAGGCGGTGGCGGAAGGTTTGCCGAAACGGCTGATCGAAGAGGCGGCAACGCGACGGCAGGCGGCGGTGGACAAGGGCGAGGAGGTTATCGTCGGTGTCAACCGTTACCGTCTCGAAAACGAGGAAGATATCGATGTTCTCGATATCGACAACGCCGCCGTGCGGGCCGCACAAATCCGCCGCATCGAAGAAACGCGCCGCCGCCGCGATGGCAAGGACGTGACCGCCGCTTTGGCAGCACTTTCCGAGATCGCCCGCAGCGGCAAGGGCAATATTCTCGAGGCCGCCGTTGTCGCCGCCCGCGCCCGCGCGACGGTGGGAGAGATTTCCGATGCGCTGCGTGCGGCCTTCGGCGACCATGCCGCCGTGCCGGAGGTGGTGAGCGATATCTACGGCGAGGCCTATAAGGACGAGCCGGAACTTGCCACGCTCGCCGCCCGGCTTTCCGGTGTGGCTGAGAGGATCGGCACCAAGCCGCGCATCATGGTCGCCAAGCTCGGGCAGGATGGGCATGATCGCGGCGCGAAGGTCATTGCCTCTGCCTTCGGCGATATCGGTTTCGATGTGCTGGCCGGACCCCTGTTCCAGACTCCCGTTGAGGCGGCTGATCTCGCCGTTCAGAGCAGGGTGCATGTGGTCGGCATGTCGTCGCTCGCCGCAGGTCACAAGACGCTGGCGCCGCAGCTGGTCGAGGCGCTGAAACAGAAGGGCGCGGACGATATCATTGTTGTGGTCGGCGGCGTCATTCCGCGGCAGGATTATCAGTTCCTGCTCGATCACGGTGTCTCGGCGATTTTCGGCCCCGGCACCAATGTCATGGATGCTGCCAACAAGGTGCTCGACCTGCTAGAAGGCATCAGGCGGAACGCGTGA	MSGEKTARDWLQLAEKELKRSPETLVWHTPEGIEVKPLYTADDLQKISHLDSLPGFAPFTRGPRATMYAGRPWTIRQYAGFSTAEASNAFYRKALAAGQQGVSVAFDLATHRGYDSDHPRVEGDVGKAGVAIDSVEDMKILFDGIPLEKVSVSMTMNGAVIPVLASFIVAGEEQGVPRAALSGTIQNDILKEFMVRNTYIYPPEPSMRIIADIIEYTAKEMPKFNSISISGYHMQEAGATLTQELAFTLADGREYVRAALAKGLNVDDFAGRLSFFFAIGMNFFMEAAKLRAARLLWSRIMEEFKPQKASSLMLRTHCQTSGVSLQEQDPYNNIVRTAFEAMSAVLGGTQSLHTNSFDEAIALPTEFSARIARNTQLILQHETGVTRVVDPLAGSYYVESLTDELAEKAWALIEEVEALGGMTKAVAEGLPKRLIEEAATRRQAAVDKGEEVIVGVNRYRLENEEDIDVLDIDNAAVRAAQIRRIEETRRRRDGKDVTAALAALSEIARSGKGNILEAAVVAARARATVGEISDALRAAFGDHAAVPEVVSDIYGEAYKDEPELATLAARLSGVAERIGTKPRIMVAKLGQDGHDRGAKVIASAFGDIGFDVLAGPLFQTPVEAADLAVQSRVHVVGMSSLAAGHKTLAPQLVEALKQKGADDIIVVVGGVIPRQDYQFLLDHGVSAIFGPGTNVMDAANKVLDLLEGIRRNA				NA	NA	NA	NA	NA
BMS010_00625	2004	accA1_1	COG4770	Acetyl-/propionyl-coenzyme A carboxylase alpha chain	ATGATCAAGAAAATCCTCATCGCCAATCGCGGCGAGATCGCCTGCCGGGTCATCAGGACAGCGAAGAAGATGGGCATCGCCACTGTCGCGGTCTATTCGGATGCGGATGCCAATGCGCTGCATGTGAGACAAGCGGATGAAGCCGTTCATATCGGCCCGGCCCCCTCGTCGCAGTCCTATATCGTCATCGACAGGATTCTCGAGGCAATCGCGAAGACCGGGGCGGATGCTGTCCATCCCGGTTACGGTTTCCTGTCGGAAAATGCTGCCTTCGCCGAGGCGCTGGAAAAGGCGGGTGTCGCCTTCATCGGTCCGCCTGTTGGCGCCATCAAGGCCATGGGCGACAAGATCACCTCCAAGAAACTGGCCGCGGAAGCGGGTGTTTCCACCGTTCCCGGCCATATGGGGCTGATCGAGGATGCGGATGAGGCGGTGAGGATCGCCTCGCAGATCGGTTATCCCGTCATGATCAAGGCGTCGGCCGGTGGCGGCGGCAAGGGCATGCGCATCGCTTTCAACGATGCCGAGGCGCGCGAGGGTTTCCAGTCTTCGAAAAACGAGGCGAAATCCTCCTTTGGCGATGACCGCATTTTCATCGAGAAATTCGTCACCCAGCCGCGCCACATTGAAATTCAGGTGCTGGGCGACAAGCACGGCAACACACTTTATCTGGGTGAACGCGAATGCTCGATCCAGCGGCGTAACCAGAAAGTCATCGAGGAAGCGCCGTCGCCCTTTCTGGACGAAGCGACCCGCAAAGCCATGGGCGAGCAGGCCGTGGCGCTGGCGAGAGCCGTCGGTTACCATTCGGCCGGCACGGTGGAGTTCATCGTCGATGGCGAGAGGAATTTCTACTTTCTGGAAATGAACACCCGCCTGCAGGTGGAGCATCCGGTGACGGAACTCATCACCGGCATCGATCTGGTCGAACAGATGATCCGTGTGGCATCAGGAGAAAAGCTCTCCTTCGGGCAGGCGGATGTGAGGTTGAACGGCTGGGCCATCGAAAGCCGGCTTTATGCCGAAGATCCCTACCGCAACTTCCTGCCCTCCATCGGCCGGCTGACACGATATCGCCCGCCGCAGGAGGGTGCGCAGGAGAACGGCACCGTCATCCGCAACGATACCGGTGTCTTCGAAGGTGGCGAAATTTCGATGTATTACGATCCGATGATCGCCAAGCTGTGCGCTCTAGGCAAGGATCGCGAAACCGCCATCGACGCCATGGGGCAGGCGCTGGACCGTTTCGAGGTGGAGGGCATCGGCCATAATCTGCCTTTCCTGTCGGCCGTCATGCAGCATGAGCGTTTCCGCGCCGGCCGCCTGACGACGGGCTTTATCGCTGAAGAATTTCCGGAAGGATTTTCCGGCGTGGAACCGGATGAGGCCACGGCGCGCCAGCTCTCCGCCATCGCCGCCATCATCCATCAGCGGCTGCAGAGCCGTGCGGTCGAAATTTCCGGCACCATCGGCAATCATCGCCGCATCGTCGGCCAGGACTGGGTGGTGTCATCAGGCGCATCCCGCCACAGGGTTGCGGTTGAAATCGGCACGGATGGCACGGCGATCCGTTTTGAAGACGGGGCGGCGCTCACCGTCGATACCGGCTGGCTTCCCGGCCAGAGCCTTGGCCTGTTCACGGTCGCGGGTGAGGTTATCGCCGCCAAGGTCGATCTTGCAGGTGCTGCTATCCGCCTGCGCTGGCGCGGCATGGATATTCGTGCCCATGTGCGTAGCCCGCGTGTGGCGGAACTGGCGCTGCTGATGCCGGAAAAGCTGCCGCCGGATACATCTAAACTGCTGCTTTGCCCCATGCCGGGCGTCATCACCGGTATTTCGGTGGGTGAGGGCGATGAGGTGGAGGCCGGTCAGGCGCTGGCGACGGTGGAAGCCATGAAGATGGAAAACATCCTGCGCGCGGAAAAACGCGGCCGCGTTGCCAGAGTGGCGGCAAAACCGGGCGACAGCCTTGCGGTGGATGAAGTCATCCTCGAATTCGAGTGA	MIKKILIANRGEIACRVIRTAKKMGIATVAVYSDADANALHVRQADEAVHIGPAPSSQSYIVIDRILEAIAKTGADAVHPGYGFLSENAAFAEALEKAGVAFIGPPVGAIKAMGDKITSKKLAAEAGVSTVPGHMGLIEDADEAVRIASQIGYPVMIKASAGGGGKGMRIAFNDAEAREGFQSSKNEAKSSFGDDRIFIEKFVTQPRHIEIQVLGDKHGNTLYLGERECSIQRRNQKVIEEAPSPFLDEATRKAMGEQAVALARAVGYHSAGTVEFIVDGERNFYFLEMNTRLQVEHPVTELITGIDLVEQMIRVASGEKLSFGQADVRLNGWAIESRLYAEDPYRNFLPSIGRLTRYRPPQEGAQENGTVIRNDTGVFEGGEISMYYDPMIAKLCALGKDRETAIDAMGQALDRFEVEGIGHNLPFLSAVMQHERFRAGRLTTGFIAEEFPEGFSGVEPDEATARQLSAIAAIIHQRLQSRAVEISGTIGNHRRIVGQDWVVSSGASRHRVAVEIGTDGTAIRFEDGAALTVDTGWLPGQSLGLFTVAGEVIAAKVDLAGAAIRLRWRGMDIRAHVRSPRVAELALLMPEKLPPDTSKLLLCPMPGVITGISVGEGDEVEAGQALATVEAMKMENILRAEKRGRVARVAAKPGDSLAVDEVILEFE	PGPT0001711_693	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPIONATE|PROPANOATE_UTILIZATION,PGPT0001711-pccA-K01965	NA	NA
BMS010_00626	378			hypothetical protein	ATGGCGAACCTGCCCGAAATGACCAAACACAAGGGATTTCCCTCCGGCATGCCGAGCACGGGTGTCCAGTTCACCATCCGCCGCGCCAACCCCAAAGGGGTAACGCCTATCAAGATGATACCCCGCCGGGCGCGCAACGACACCAAGGAGCATCGCATCGATGCCGCCTTCCTGCATTCGCTCTGGCACCATTTCGGTGCCGAGCCCTTCGAGCGCGGCAATCTCGACGCCGCCCGCCTCAACCTGCTTTTCGGCCGCGAGGTGGTGCCGGCGGAGAAGAATTTCGACCCGCTTTCCTATCAGGCGATGCTGGTGATTGACGAGCGCGTCGCGCGGCAGAACTTCCCGGAATCCTTCGAGAATTTCTTCGAGATTTGA	MANLPEMTKHKGFPSGMPSTGVQFTIRRANPKGVTPIKMIPRRARNDTKEHRIDAAFLHSLWHHFGAEPFERGNLDAARLNLLFGREVVPAEKNFDPLSYQAMLVIDERVARQNFPESFENFFEI				NA	NA	NA	NA	NA
BMS010_00627	897	yghU_1	COG0625	Disulfide-bond oxidoreductase YghU	ATGGCCGAAAATTCCTCCGCAGATAATTTCCCCGCAGGATATGAACCGCCCAAGGTCTGGACCTGGGAAAAGGGCAATGGCGGCCAGTTCGCCAATATCAACCGGCCTATCGCCGGCCCGACCCACGAAAAGGAACTTCCCGTCGGCAAGCATCCACTGCAGCTTTATTCGCTGGCGACGCCGAATGGCCAGAAGGTCACCATCATGCTGGAAGAATTGCTGGCCGCCGGCCACAAGGGCGCAGACTATGATGCCTGGCTGATCAAGATCGGCGAAGGCGACCAGTTCGGTTCCGGTTTTGTCGGCGTCAATCCGAATTCCAAAATCCCGGCGCTGATGGATCACTCGACGCCTGAGCCGACGCGCGTTTTCGAAAGCGGCTCCATTCTCGTTTACCTCGCGGAAAAATTCGGCGCCTTCCTGCCGAAAGAGGGCAATGCCCGCACGCAGGCGCTGAACTGGCTGTTCTGGCAGATGGGCTCCGCCCCCTTCCTCGGCGGCGGTTTCGGCCATTTTTATGCCTATGCGCCGGTGAAGATCAAATACGCCATCGACCGCTACGCCATGGAAGTCAAACGCCAGCTCGACGTGCTGGACCGGCATCTGGCCGAGAACCGCTACCTGGCGGGTTCGGAATATACGATCGCCGACATGGCCGTCTGGCCATGGTATGGCAAGATCGCGCTCGGTCAGGCCTATGGCGATGCCGGTGCTTTCCTTGAGGCGGACGGTTACAAAAACGTCATGCGCTGGACGCTCGAAATCGGCGAACGCCCGGCGGTCAAGCGCGGCGTGATCGTCAACAAGACCTCGGGCGATCCGTCCGAACAATTGCATGAACGCCACGATGCCTCCGACTTCGAGACGAAGACGCAGGACAAGATCGGCAGGGCGTAA	MAENSSADNFPAGYEPPKVWTWEKGNGGQFANINRPIAGPTHEKELPVGKHPLQLYSLATPNGQKVTIMLEELLAAGHKGADYDAWLIKIGEGDQFGSGFVGVNPNSKIPALMDHSTPEPTRVFESGSILVYLAEKFGAFLPKEGNARTQALNWLFWQMGSAPFLGGGFGHFYAYAPVKIKYAIDRYAMEVKRQLDVLDRHLAENRYLAGSEYTIADMAVWPWYGKIALGQAYGDAGAFLEADGYKNVMRWTLEIGERPAVKRGVIVNKTSGDPSEQLHERHDASDFETKTQDKIGRA	PGPT0013045_59	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013045-yghU|yfcG-K11209	NA	NA
BMS010_00628	1533	pccB_1	COG4799	Propionyl-CoA carboxylase beta chain	ATGCCCGGCATTCTGGAGCAATTGGAAACGCGGCGCGCTGAGGCGCGGCTCGGCGGCGGCGTCAAGCGCATCGAGGCGCAGCATGGCAAAGGCAAGCTGACGGCGCGCGAGCGTATCGACGTGCTCCTGGATGAAGGTTCCTTCGAAGAGTATGACATGTACGTCACCCACCGCGCGGTGGATTTCGGCATGGCGGAGCAGAAGGTGGCGGGTGACGGTGTCGTCACCGGCTGGGGCACCATCAATGGCCGGCAGGTCTATGTGTTTTCGCAGGATTTCACCGTGCTTGGCGGTTCGCTCTCGGAAACCCATGCCCAGAAGATTTGCAAAATCATGGATATGGCGGTGCGCAACGGCGCGCCGGTGATCGGCCTCAACGACAGCGGCGGCGCGCGCATTCAGGAGGGCGTGGCCTCGCTCGGCGGTTATGCCGATGTGTTCAAGCGCAATGTCGTCGCCTCCGGCGTCGTGCCGCAAATCTCTGTCATCATGGGGCCTTGTGCGGGCGGTGCGGTTTATTCGCCGGCCATGACCGATTTCATCTTCATGGTGCGCGATACCTCCTACATGTTCGTGACCGGGCCGGATGTGGTCAAAACCGTGACCAACGAGATCGTTACGGCTGAGGAACTGGGCGGAGCCTCCACCCACACGAAAAAATCCTCCGTCGCCGACGGCGCTTATGAAAACGACATCGAAACGCTGGAACATGTGCGGCTGCTGTTCGATTTCCTGCCGCTCAACAACCGCGAAAAGCCGCCGGTGCGCCCGTTCCACGACGATCCGGCGCGGCTGGAAGCACGTCTCGATACGCTGATCCCTGATAGTTCCAACAAGCCCTATGACATGAAGGAACTGATCCACGCGCTGGCCGATGAGGGCGATTTCTTCGAGTTGCAGGAGGCCTTTGCCCGCAACATCATCACCGGCTTCATCCGTCTCGAAGGCCAGACGGTGGGTGTTGTCGCCAACCAGCCGATGGTGCTGGCCGGCTGCCTCGATATCGACAGTTCGCGCAAGGCCGCCCGTTTCGTGCGCTTCTGCGATGCCTTCAATATTCCGCTGCTGACGCTGGTGGATGTGCCGGGCTTCCTGCCGGGAACCGCGCAGGAATATGGCGGCGTCATCAAGCACGGCGCAAAACTTCTCTTCGCCTATTCGGAGGCGACGGTGCCGATGGTGACGCTGATCACCCGCAAGGCCTATGGCGGCGCTTATGACGTGATGGCCTCGAAACATATCGGCGCGGATGTGAATTACGCCTGGCCGACGGCGGAAATCGCCGTGATGGGCGCGAAGGGTGCGGCGGAAATTCTCTATCGTTCCGAGCTTGCCGATCCGGAAAAGATCGCCGCGCGCACGAAGGAATATGAGGAGCGTTTCGCCAATCCCTTTGTCGCGGCGGAACGCGGTTTCATCGATGAGGTCATCATGCCGCATTCCTCGCGCCGCCGCATCGCCCGCGCCTTCGCGTCACTGCGTAACAAGAGCGTGGAAACCCGCTGGAAGAAACACGACACTATTCCGCTCTGA	MPGILEQLETRRAEARLGGGVKRIEAQHGKGKLTARERIDVLLDEGSFEEYDMYVTHRAVDFGMAEQKVAGDGVVTGWGTINGRQVYVFSQDFTVLGGSLSETHAQKICKIMDMAVRNGAPVIGLNDSGGARIQEGVASLGGYADVFKRNVVASGVVPQISVIMGPCAGGAVYSPAMTDFIFMVRDTSYMFVTGPDVVKTVTNEIVTAEELGGASTHTKKSSVADGAYENDIETLEHVRLLFDFLPLNNREKPPVRPFHDDPARLEARLDTLIPDSSNKPYDMKELIHALADEGDFFELQEAFARNIITGFIRLEGQTVGVVANQPMVLAGCLDIDSSRKAARFVRFCDAFNIPLLTLVDVPGFLPGTAQEYGGVIKHGAKLLFAYSEATVPMVTLITRKAYGGAYDVMASKHIGADVNYAWPTAEIAVMGAKGAAEILYRSELADPEKIAARTKEYEERFANPFVAAERGFIDEVIMPHSSRRRIARAFASLRNKSVETRWKKHDTIPL	PGPT0001712_1540	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPIONATE|PROPANOATE_UTILIZATION,PGPT0001712-pccB-K01966	NA	NA
BMS010_00629	1419	pccR	COG1396	Propionyl-CoA carboxylase regulator	ATGGCGACGGAAAAACTCTTTATCGGCCGTAAGGTTCGCGGCCTTCGCGAAAACGCCCGCGCCACGCAGGCGCAATTTGCCGAACGGCTGGGCATTTCCGCGAGTTACCTGAACCAGATCGAGAATAACCAGCGCCCGGTTTCGGCCAGCGTTCTGGTGACGCTGGTGGAAAAATTCCAGCTCGACATGGCAGAACTCGCGACAGGTGAAAGCGACCGGCTGGTTTCCGCCGTGCGCGAGGCGCTGAAAGACCCGCTGTTCATGAATTACGAACCGGGGCTTCAGGAGTTGAAGCTGATTGCCCAGAACGCGCCGGGTTTTGCCCATGCGCTGCTACGTGCCCATCAGGCCTATCGCCAGAACAGCGAGCAGCTGGTGCAGCTGGATGACCGGCTGGGCCGCGGCACCGCACAGGTGGAAAGAACCCCCTATGAGGAGGTGCGCGATTTCTTCCACTTCGTCGACAATTACGTTGCCGAGATCGATCTTCTGGCCGAGGAGCTGGCGGAAGAACTGGAGATTGAAGACGGCGAGACCTATGGCATTCTGGCGGCGCATCTGAAGAGCCGTTACGGCATCCATATCACCCGGACCGAGGCGGCAGGCGGTCTGATCCGGCACTTCGATCCTGCCAGCAAAACCCTCGCCCTCAGCTCCTACATGGCCGCGCCGACCCGCTGTTTTCAGCTTGCATTGCAGATCGCCCAGCTTCACGCCGGTCCAACGGTGGACAGGGTGCTGGCCGGCACCGGTTTCCGCAATGCGGAAGCCGCGGAAATCTGTCGTATCGGGCTTCACAATTACTTCGCCGCAGCCCTCATCCTGCCCTATGGGCAATTTCACCGGGCGGCGCAGGAGCTACGCCACGATCTCGAACTTCTCGCCGTGCGTTTCGGCGCAAGCCTTGAGCAGGTGGCCCACCGGCTGAGCACCTTGCAACGGCCGGGCATGAAGGGCGTGCCGATCTTTTTCGCCAAGATCGACCGCGCCGGCAACATCACCAAACGCCACAGCGCCACGCGGCTGCAATTTGCCCGTTTCGGCGCGGCCTGTCCGCTGTGGAATATCCACCAGGCCTTCGAAAGCTCTGACAGGATCGTACGGCAGCTGGCGGAAACACCTGACGGCGTGCGCTATCTTTCCATCGCCACGCAGATCGAAAAGGCCGGCGCCGGCTTCAATACGGAAAGATCGCGTTATGCCATCGCGCTCGGCTGCGAAATTTCCCATGCGCAGAATTTCGTTTATGCCGACACGCTCGATCTTGGCAATGCGGCTTCCTTCAAACCCATCGGCATTTCCTGTCGGGTCTGCGAGAGGGTGGATTGCGTGCAACGCGCCGTACCGCCGCTGAAACGCAAGCTGCATTTCGATCATCTCTCGCGCGGAGCGCTGCCCTACAATATCGCCGATTTTTAA	MATEKLFIGRKVRGLRENARATQAQFAERLGISASYLNQIENNQRPVSASVLVTLVEKFQLDMAELATGESDRLVSAVREALKDPLFMNYEPGLQELKLIAQNAPGFAHALLRAHQAYRQNSEQLVQLDDRLGRGTAQVERTPYEEVRDFFHFVDNYVAEIDLLAEELAEELEIEDGETYGILAAHLKSRYGIHITRTEAAGGLIRHFDPASKTLALSSYMAAPTRCFQLALQIAQLHAGPTVDRVLAGTGFRNAEAAEICRIGLHNYFAAALILPYGQFHRAAQELRHDLELLAVRFGASLEQVAHRLSTLQRPGMKGVPIFFAKIDRAGNITKRHSATRLQFARFGAACPLWNIHQAFESSDRIVRQLAETPDGVRYLSIATQIEKAGAGFNTERSRYAIALGCEISHAQNFVYADTLDLGNAASFKPIGISCRVCERVDCVQRAVPPLKRKLHFDHLSRGALPYNIADF				NA	NA	NA	NA	NA
BMS010_00630	648			hypothetical protein	ATGAAAATCATTACCGGGATGGACGACATCAGCGAAGGGCTGGAGCATCTCGCCCGCCTCGATCCGGCTCTCGGCCTCGTCATCGAAAAAGCCGGCCCGCTGGAACTGCGTATTCACGAGCCCGGCTTTGCCGGCCTTGCCCATATCGTCGTCTCGCAGATGGTGTCGCGCGCCAGCGCCAATGCCATATGGGCGCGTATTCTTGCCGGCACCGGCGGCGTGGTCACGGCGGAAAATTATCTCGGCGTATCGGAGGAATTGCGCGCCACTTTCGGCCTTTCGCGCGCCAAGGCGACGACGCTGGAAGGGCTGGCGCGCGCCGTCACGGAAGGGCAGATCGATCTTGACGGCGTGGTGCGCAAGGAGGGACGCGCTGCCCTTTCCGAGCTGGTTGCGCTTCGCGGTATCGGCCCGTGGACGGCGGAGGTCTATCTGATGTTCTGCGGCGGGCATCCGGATATTTTTCCGGTTGGCGATGTGGCGCTGAGATCCGCGGTGGCTCATGCGCTTGCCCTGGAGGTGAGGCCGGAAGCGAAATGGCTGGCGGAGCGGGCAACAATCTGGTCGCCATGGCGCTCCGTGGCCGCGCGGCTTTTCTGGGGCTACTACGCCAACATCATGCGGCGCGCCATGGTGCCGCTGCCCTGA	MKIITGMDDISEGLEHLARLDPALGLVIEKAGPLELRIHEPGFAGLAHIVVSQMVSRASANAIWARILAGTGGVVTAENYLGVSEELRATFGLSRAKATTLEGLARAVTEGQIDLDGVVRKEGRAALSELVALRGIGPWTAEVYLMFCGGHPDIFPVGDVALRSAVAHALALEVRPEAKWLAERATIWSPWRSVAARLFWGYYANIMRRAMVPLP				NA	NA	NA	NA	NA
BMS010_00631	900	gltX_1	COG0008	Glutamate--tRNA ligase	ATGGCAGAAGAAACCATGCCTTCGCCTCTCCGTCAAAAACCAGTTTACCGTTTTGCGCCAAGCCCCAATGGCCTGCTGCATCTCGGCCACGCGCTTTCCGCCTTCCTGAACCACGATATGGCGCGAGACAATGGCGGCCGCTTTCTGCTGCGCATCGAGGATATCGACCAGACACGCTGCACACCGGAGCTGGAACAGGCGATCTATGACGATCTTGGCTGGCTGGGTCTCGACTGGGAGAAACCGGTGCGGCGGCAATCGGAGCATTTCGATGCGTACCGTGTTGCGCTGGAAAGTTTGATCAAGGCAGGACTTGCTTACCCGGCTTTTCTGAGCCGTGGAGAAACCAAGGCAATCGTTCGTACTTTCGAGGCGGAGGGAGGGTCGTGGCCCCGCGATCCCGATGGCGCGCCGCTTTACCCGGCCATCGACCGGGAGAGGCCAAGGGCGGAGCGGGATGTGCTGCTCACCTCCGGCCGTCCGCACGCCTGGCGGCTCGACATGGAAAAGGCGATCCGCGCCGCCGGCAGCCCCCTGTTCTGGCAGGAAAGCGGCGATGGCGAGACGGGGCAGATCGAGGCCCTGCCAGCGCTTTGGGGCGATGTGGTGCTGTCGCGCTCCGACGCGCCTTCAAGCTATCATCTTTCCGTTGTGGTGGATGACGCGTTGCAGGGCATAACCCATGTGGTGCGCGGCATGGATCTCTATCACGCCACCGCCATTCACCGGCTGTTGCAACATCTGCTAGACCTGCCGCAGCCGGCCTACCACCATCACCGGCTGATCCTGGGCGCGGACGGGCGCAAGCTCTCGAAAAGCGAAGGCAGCACCGGGCTTTCTGCCCTTCGTTCGGAAGGTGCTGCGCCCTCAGATATCCGCCGGCTTGTCGGTCTCGTCTAG	MAEETMPSPLRQKPVYRFAPSPNGLLHLGHALSAFLNHDMARDNGGRFLLRIEDIDQTRCTPELEQAIYDDLGWLGLDWEKPVRRQSEHFDAYRVALESLIKAGLAYPAFLSRGETKAIVRTFEAEGGSWPRDPDGAPLYPAIDRERPRAERDVLLTSGRPHAWRLDMEKAIRAAGSPLFWQESGDGETGQIEALPALWGDVVLSRSDAPSSYHLSVVVDDALQGITHVVRGMDLYHATAIHRLLQHLLDLPQPAYHHHRLILGADGRKLSKSEGSTGLSALRSEGAAPSDIRRLVGLV	PGPT0008460_5996	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0008460-gltX-K01885	NA	NA
BMS010_00632	918			hypothetical protein	ATGGTTGCCGCAGTGCGCCTGGCAGGCAAGGTTGCCTTCGATGCCTATTCCCATTTCGCCGAGGATGACGGCTGGGCGATGGCGAGCCATATGGCGCTGTCGATCCTGCTGGCCCTGTTTCCGTTCCTGATCTTCGGCACGGCTCTTGCCGGTTTTCTGGGGGCGGACCAGTTTTCCGAAACGGCGGTGCATCTGATTTTCGACACCTGGCCAGCGGCGATTGCCGGGCCGCTGGCGGCGCAGGTGCAGCAGGTGCTGACCATTCCGCGCGGCGGGCTGCTGACGATTTCGGTGCTGGCGGCGGCCTATTTTGCGTCCAATGGTGTCGAGGCGTTGCGCATTTCATTGAACCGCGCCTATCGTGTTACCGAAACGCGCTGGTGGTATGTCACCCGCCTGCTCAGCCTGCTTTATGTGCTTATCGCCGTCGTGGTCTTTGCCGGCATCAGCATCGTGCTGGTCGCCGTGCCGGTCGCCACATCTTTTGCCGAGCAGCGGTTTCCGTGGCTGACGGATGTGCTGAACACCATCTCCAGCCTCGGTCTTTATGGCACCATCGTCGTGCTGACGGCGGGGCTGGTGGCGGCGCATCTGTGGCTTCCGGCCGGCAAGCGTCGCATCTGGGATGTCTGGCCGGGCATTCTTCTAACGATGATCTTCTGGGTCATCGGCGCCGCGATCTTCGCCTATTACCTCTCCACCTTCGCCAATTATGCCGCTACCTATGCCGGTCTCGCCTCAGTGATGGTGGTGCTGGTGTTTCTTTATATGGTCGGCGTCATCTTCATGCTGGGGGCTGAGGTGAATGCCGCGCTGATGAAATACAAGGTCCGCCAGATCATCCGCCGCAATATCGGTGGCAACGGCGCGCGCCGCGGGCAGGTACTAGACGAGACCGACAAGCCGGCGGATATCTGA	MVAAVRLAGKVAFDAYSHFAEDDGWAMASHMALSILLALFPFLIFGTALAGFLGADQFSETAVHLIFDTWPAAIAGPLAAQVQQVLTIPRGGLLTISVLAAAYFASNGVEALRISLNRAYRVTETRWWYVTRLLSLLYVLIAVVVFAGISIVLVAVPVATSFAEQRFPWLTDVLNTISSLGLYGTIVVLTAGLVAAHLWLPAGKRRIWDVWPGILLTMIFWVIGAAIFAYYLSTFANYAATYAGLASVMVVLVFLYMVGVIFMLGAEVNAALMKYKVRQIIRRNIGGNGARRGQVLDETDKPADI	PGPT0014525_4889	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014525-yfkH-K07058	NA	NA
BMS010_00633	834			hypothetical protein	ATGTCTGAAAAACCCGTCATCATCATTACCGGATGTTCCTCGGGCATCGGCGCCCATTGCGCCGGCGCGCTCCACCGGGACGGCTGGCGGGTTTTCGCCACCGTGCGGCGCATCGCCGACATGGCGGCGCTTGAAAACCAGGGCATCGAGACCCTGATCATGGATTACACCAAGCCGGAGACGATTGCCGCGCTGGTGGACACCGTCGCAGCCCGGACCGGCGGCCGCATCGATGCGCTTTTCAACAACGGCGCCTATGGCCAGCCGGGCGCGGTGGAGGATTTGCCTGTCGAGGCGCTGCGGGCGCAGTTCGAAACCAATGTCTTCGGCTGGCACGATCTGACACGGCGGGTCATTCCCTTCATGCGCGCCCGGGGTGCGGGGCGCATCGTGCATTGCTCCTCCATCCTCGGCCTTGTGCCTTATCGCTATCGCGGCGCTTACACCGCCTCGAAATTCGCCCTTGAGGGGCTGGGCGTCACGCTGCGCATGGAGCTTCAGGGCAGCGGCATCCATGTCAGCCTGATCGAACCGGGGCCGATCACCTCGAAATTCACCGCGACGGCGCTTGCCCATATCAACGAGCACATCGATCTCGAAAATTCCGCCCATGCGGCGGAATATAAACGCCAGCTGGCGCGCATGGATGGTTCCGGCCCCGTCAACCGCCACAAGCTCGGCCCGGACGCCGTTTATGCCGTGTTGAAACATGCCCTGACCGCCAAAAGGCCGAAACCGCATTATCCCGTTACCGTGCCCGCCAAACAGGGGCTTGTGCTGAAACGGCTCTTGCCTGCCGGACTTTTCTATCGTCTGCTGCGCAGATTCGATTGA	MSEKPVIIITGCSSGIGAHCAGALHRDGWRVFATVRRIADMAALENQGIETLIMDYTKPETIAALVDTVAARTGGRIDALFNNGAYGQPGAVEDLPVEALRAQFETNVFGWHDLTRRVIPFMRARGAGRIVHCSSILGLVPYRYRGAYTASKFALEGLGVTLRMELQGSGIHVSLIEPGPITSKFTATALAHINEHIDLENSAHAAEYKRQLARMDGSGPVNRHKLGPDAVYAVLKHALTAKRPKPHYPVTVPAKQGLVLKRLLPAGLFYRLLRRFD				NA	NA	NA	NA	NA
BMS010_00634	198			hypothetical protein	ATGTCCGGCTTCACCACCGTTCTGGCCCTTATCTTCATGGGCCTCGTCGTCATCGTGCTGATACGCGGCCTCTTCAACATGCTGAAGGGACAGGACGCCAACCGCTCCAACAAACTGATGCAGCTTCGCCTGCTTTTGCAGGCCGTAGCGATTGTGCTGATCATGTTCACCCTCTGGCTCACCGGCGGTGGCCGCTGA	MSGFTTVLALIFMGLVVIVLIRGLFNMLKGQDANRSNKLMQLRLLLQAVAIVLIMFTLWLTGGGR				NA	NA	NA	NA	NA
BMS010_00635	579		COG2096	Corrinoid adenosyltransferase	ATGGTGAAGCTGAACAAGATCTACACCCGTACCGGCGACAAGGGCACCACAGCGCTGGTTTCCGGCCCGCGCCGCCTGAAACACGATCTTCGCGTCGAGGCCTATGGCACGGTGGATGAGACCAATTCGGCCATCGGTGTCGCACGGCTTCATACGGGCGGGATGGAAAAGCTGGATGCCATGCTCTTCCGCATCCAGAACGATCTTTTCGATCTCGGCGCCGATCTCGCCACGCCGGACAGCGGCGAACCGCTTTCCTACGAGCCGCTGCGCATCGTCGAAAGCCAGGTCACGCGGCTGGAAAACGAAATCGACGATCTCAATGCCGCCCTTGAACCGCTCACCTCTTTCGTGCTGCCGGGCGGCAGTGCTGCGGCGGCCAGCCTACATATGGCGCGCACCGTCTGCAGGCGCGCGGAAAGACTGATGGTGGAACTTTCCGTCACTGAGAATGAGATCGTCAGCCCGGCGGCGCTGAAATATGCCAACCGCCTGTCCGACTTCCTGTTCGTCGCCGCCCGCTTCGCCAATGATGCCGGCAAGGCCGATATATTGTGGGTTCCCGGCAAGAACCGCTAA	MVKLNKIYTRTGDKGTTALVSGPRRLKHDLRVEAYGTVDETNSAIGVARLHTGGMEKLDAMLFRIQNDLFDLGADLATPDSGEPLSYEPLRIVESQVTRLENEIDDLNAALEPLTSFVLPGGSAAAASLHMARTVCRRAERLMVELSVTENEIVSPAALKYANRLSDFLFVAARFANDAGKADILWVPGKNR				NA	NA	NA	NA	NA
BMS010_00636	774			hypothetical protein	ATGTTCATACCGCTGCACGATGCGAATTCCCTCAAACATATCCGGCTGCAATATGTCACAATCGGCCTGATTGCGGTCAATGTGCTGGTCTGGCTGTTTACCGGGGTGCTGGCCAGCGACACGCAGGCCAATGCCGCAGCCCTCGGCCTCGGTTTCATTCCGGCAGTGGTGTTTGACTACGCCTATCTGGAACCCGCCCTGCAGGTCGTGCCCGATGACCTGACCGTCGTTACTTATGCTTTCCTGCATCTCGATTTCTGGCATCTGGCCGGCAACATGCTGTTTCTCTGGGTCTTCGGCGACAATGTCGAGGATGCGCTCGGCCATTTCCGTTTCCTGATTTTCTACATCGCCTGCGCCATCGCCGGCGCGCTGTTTCACGGTTTCGTCGCCCCCACCTCCGAAGGGCCGCTGATCGGCGCTTCGGGTGCGGTTTCCGGCGTCGTCGCGGCCTATTTCCTGTTGCATCCCAGGGTACGCGTCTGGGTGCTGGTTCTCATGCGCATTCCGCTTCCTTTGCCCGCCTTCATTCCGCTGGCGCTGTGGATCGGCCAGCAGTTCCTGATGCTGGCGCTCGGGCTCGAGGAAAACGTTTCCTGGGGCGCGCATGTGGGTGGCATCATGGCGGGCGCAATCATGGTGATCTTCATGCGCAGGCGGGGCGTTCCCCTGTTTGACCGCACCATTGTTCCGCCGAGGGCGGCGCAGTTCAAGAATCCGTCGCAAACGGCGGGGTTGTCGCAAATCGAACGGGGCTATGACGGGAGCAGATGA	MFIPLHDANSLKHIRLQYVTIGLIAVNVLVWLFTGVLASDTQANAAALGLGFIPAVVFDYAYLEPALQVVPDDLTVVTYAFLHLDFWHLAGNMLFLWVFGDNVEDALGHFRFLIFYIACAIAGALFHGFVAPTSEGPLIGASGAVSGVVAAYFLLHPRVRVWVLVLMRIPLPLPAFIPLALWIGQQFLMLALGLEENVSWGAHVGGIMAGAIMVIFMRRRGVPLFDRTIVPPRAAQFKNPSQTAGLSQIERGYDGSR				NA	NA	NA	NA	NA
BMS010_00637	747	etfB_1		Electron transfer flavoprotein subunit beta	ATGAAAATCCTTGTCCCCGTTAAACGAGTCGTCGATTACAACGTGAAGATCCGCGTGAAAGCCGATGGTTCTGGCGTTGAGCTTGCCAATGTAAAGATGTCGATGAACCCGTTCGACGAAATCTCGGTGGAAGAGGCGCTGCGCCTGAAGGAAGCCGGCAAGGCCGAAGAGGTTGTGGTCGTCTCCATCGGCCCGGCCAAGGCGGAAGAAACGCTGCGCACGGCGCTCGCCATGGGCGCCGACCGCGCCATCCTGATCGAGACCGACGAGACGGTCGAGCCGCTCGCCGTCGCCAAGCTTCTGAAGGGCGTGGCGGAAGCCGAACAGCCTGGCCTCGTCATCGTCGGCAAGCAGGCAATCGATGACGATTCGAACCAGACCGGCCAGATGCTGGCCGCATTGCTCGGCTGGGGCCAGGGCACCTTTGCCTCCAAGGTCGTGCCCGCAGATGGCAAGGTCGCAGTCACCCGTGAAGTCGATGGCGGTTTGCAGACGGTGGAGCTGAAGCTTCCCGCCGTGGTCACCACCGATCTTCGTCTCAATGAGCCGCGTTATGCATCGCTGCCGAACATCATGAAGGCGAAGAAGAAGCCTCTCGACAAGAAGGCGCCGGCCGATTTCGGCGTCGATGTTTCACCGCGCCTGAAGGTGCTGAAGACCGAGGAGCCGGCAGGCCGCAAGGCTGGCATCAAAGTCGGCTCGGTTGCCCAGCTGGTCGAAAAGCTCAAAGCCGACGGCGTCCTCTAA	MKILVPVKRVVDYNVKIRVKADGSGVELANVKMSMNPFDEISVEEALRLKEAGKAEEVVVVSIGPAKAEETLRTALAMGADRAILIETDETVEPLAVAKLLKGVAEAEQPGLVIVGKQAIDDDSNQTGQMLAALLGWGQGTFASKVVPADGKVAVTREVDGGLQTVELKLPAVVTTDLRLNEPRYASLPNIMKAKKKPLDKKAPADFGVDVSPRLKVLKTEEPAGRKAGIKVGSVAQLVEKLKADGVL	PGPT0001035_4651	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001035-fixA|etfB-K03521	NA	NA
BMS010_00638	930	etfA_1	COG2025	Electron transfer flavoprotein subunit alpha	ATGGCCATTCTTCTTCTGGCAGAACACGACAACGCAACCCTTTCCGACCTGACGGCAAAGACGCTGACGGCGGCAACGCAAATCGGCGGCGACGTCCATGTGCTGGTCGCTGGCTCAGGCGCCAAGGGTGCCGCCGACGCTGCCGCGAAACTCTCCGGCGTATCCAAGGTGCTGCTCGCCGACGACGCGTCCTATGCCAATGCGCTGGCAGAACCGCTGGCGGCGCTGATCGTCTCGCTCGCGCCTTCTTATGACGTCATCATCGCCCCGGCCACCGCCTCGGCCAAGAACGTGACGCCGCGCGTTGCGGCGCTTCTCGATGTGGCGCAGGTCTCGGAAATCATCGAGGTCGTCAGCCCTGATACCTTCAAGCGGCCGATCTATGCCGGCAACGCCATCCAGACGGTGCAGGCGACCGATGCGAAGAAGGTCATCACCGTGCGTCCGACCGCCTTTGCAGCCGCAGCTGAAGGCGGTTCGGCAGCAGTTGAAACCATCGGTGCTACTGCAAACCCTGGCCTTTCCAGCTTCGTTTCCGATGCTCTGGCATCGTCCGACCGTCCGGAACTGACATCGGCCAAGATCATCATCTCGGGTGGCCGTGCGCTCGGCTCTTCGGAGAAGTTCAAGGAAGTCATCCTTCCCGTCGCCGACAAGCTGGGTGCTGCCGTTGGCGCCAGCCGTGCGGCTGTCGATGCCGGTTATGCGCCGAACGACTGGCAGGTTGGCCAGACCGGCAAGGTGGTTGCGCCTCAGCTTTACATCGCTGCTGGCATTTCCGGCGCCATCCAGCATCTGGCCGGCATGAAGGATTCGAAGGTCATCGTCGCGATCAACAAGGATGAAGAAGCGCCGATCTTCCAGGTGGCCGACTACGGCCTCGTCGCAGACCTGTTCGAAGCGCTGCCCGAACTCGAAAAATCGCTGTAA	MAILLLAEHDNATLSDLTAKTLTAATQIGGDVHVLVAGSGAKGAADAAAKLSGVSKVLLADDASYANALAEPLAALIVSLAPSYDVIIAPATASAKNVTPRVAALLDVAQVSEIIEVVSPDTFKRPIYAGNAIQTVQATDAKKVITVRPTAFAAAAEGGSAAVETIGATANPGLSSFVSDALASSDRPELTSAKIIISGGRALGSSEKFKEVILPVADKLGAAVGASRAAVDAGYAPNDWQVGQTGKVVAPQLYIAAGISGAIQHLAGMKDSKVIVAINKDEEAPIFQVADYGLVADLFEALPELEKSL	PGPT0001040_4568	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001040-fixB|etfA-K03522	NA	NA
BMS010_00639	882	mmgB	COG1250	putative 3-hydroxybutyryl-CoA dehydrogenase	ATGACCGCCCCCTTTAATAACATCGGTGTCATTGGAGCCGGTCAAATGGGATGCGGCATTGCGCATGTCTCCGCAATTGCCGGCTACAAGGTCCATATCTACGATCTTTCCAAGGAAGGCATCGAGGCCGGTCTTGCCACGATCAACGGCAATCTCGCCCGCCAGGTCACCAATGGCAAGCTTTCCGACGACGCCCGCAAGCAGGCGCTGGCGCTCATCAGCGGCTCGACCGACATCAACGATCTGGCAGCCATGGACCTCGTCATCGAGGCCGCGACGGAAAACGAGGAGATCAAGCGCAAGATTTATGCGCAGGTCTGCCCGATCCTGAAGCCCGAGGCGCTGCTCGCCACCAATACGTCGTCGCTCTCCATCACCCGGCTCGCATCCGCCACCGACCGTCCCGAACAGTTCATGGGCATCCACTTCATGAATCCGGTGCCGGTCATGAAGCTGGTGGAACTGGTGCGCGGCATCGCCACCAATGAAAAGACCTTCGACGCGGCCAAGGACTATGTGCGGACGCTGGAAAAGGCGATCACCGTTGCCGAGGATTTCCCGGCCTTCATCGTCAACCGCATCCTGCTGCCGATGATCAACGAGGCGATCTATACGCTTTATGAAGGCGTCGGCTCGGTGGAAGCCATCGACACCGCCATGCGGCTGGGCGCGAACCACCCGATGGGACCGCTGCAGCTTGCCGATTTCATCGGTCTCGACACCTGTTTGTCGATCATGCAGGTGCTGCATGACGGCCTTTCCGACAGCAAGTATCGCCCCTGCCCGCTGCTGGTCAAATATGTCGAGGCCGGCTGGCTCGGCCGCAAATCCGGCCGAGGCTTCTACGACTATCGCGGCGAAACTCCGGTTCCGACGCGCTGA	MTAPFNNIGVIGAGQMGCGIAHVSAIAGYKVHIYDLSKEGIEAGLATINGNLARQVTNGKLSDDARKQALALISGSTDINDLAAMDLVIEAATENEEIKRKIYAQVCPILKPEALLATNTSSLSITRLASATDRPEQFMGIHFMNPVPVMKLVELVRGIATNEKTFDAAKDYVRTLEKAITVAEDFPAFIVNRILLPMINEAIYTLYEGVGSVEAIDTAMRLGANHPMGPLQLADFIGLDTCLSIMQVLHDGLSDSKYRPCPLLVKYVEAGWLGRKSGRGFYDYRGETPVPTR	PGPT0006075_2704	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006075-paaH|hbd|fadB|mmgB-K00074	NA	NA
BMS010_00640	669	tlpA	COG0526	Thiol:disulfide interchange protein TlpA	ATGACAGAAAAAAGGCCGTTCAGGCTTCCTTCCGCCAAGTTGGTTGCAATTGCTGCCGTTGCCGGTGTCTTAAGCGGCGCGGGCGCGGTCTGGTTCAGGCATATTGGGTCTGAGAGCCCGGTTCAAGGGGCAGCGGTGACTGACGCCGGTTTATGTGAGGGGGCGGCGAACCGCATCGCCTCGCTGAAGCCGTTTCTGAAGGGGCAGGTGGCGGCCATGTCGGCCACGGACACGCCGCGCGTCATTCCCCTCTCCTTCAAGGGGCCGCAGGCGCAGGATATGACGCTTGCCGATCTCAAGGGTAAGACGGTTCTTCTCAACCTCTGGGCCACATGGTGCGTGCCCTGCCGCGAAGAGATGCCGGCGCTGAACGCGCTTGAAAAGGAAAAGGGCGGTAACGCTTTCGAGGTCGTGGCCGTCAACATCGATACCGGCGCGGATGAAAAACCGAAAGCCTTCATGGATGAATACAAGATCGATGCCCTGAAGCACTACCGTGACAGTTCCATGGGGGTCTTCAACGTTCTGAAAAAGGAAGGCCTAGCCTTCGGCCTGCCGGCAACCCTGCTGCTGGACGAAAACGGCTGCCTGCTTGCGGCCATGAACGGCCCAGCGGCGTGGGACAGCGAGGATGCCAAGGCGCTGGTATCGGCGGTGAAGGCTAAATAA	MTEKRPFRLPSAKLVAIAAVAGVLSGAGAVWFRHIGSESPVQGAAVTDAGLCEGAANRIASLKPFLKGQVAAMSATDTPRVIPLSFKGPQAQDMTLADLKGKTVLLNLWATWCVPCREEMPALNALEKEKGGNAFEVVAVNIDTGADEKPKAFMDEYKIDALKHYRDSSMGVFNVLKKEGLAFGLPATLLLDENGCLLAAMNGPAAWDSEDAKALVSAVKAK				NA	NA	NA	NA	NA
BMS010_00641	1401	argH_1	COG0165	Argininosuccinate lyase	ATGGCTGACGGCACAGATCAGAAATCCTCCAACCAGATGTGGGGCGGGCGTTTCGCTTCCGGGCCGTCTGCCATCATGGAAGAGATAAATGCCTCCATCGGCTTCGACAAGAAGCTTTACGCCCAGGATATCCGCGGCTCTATGGCGCATGCCGCCATGCTGGCATCTAAAGGCATTATTTCGCCGGAAGATAAAGACAAGATCACCGAGGGCCTGAACACGATCCTGTCAGAGATCGAAGCCGGCAGCTTCGAATTCTCGCGCAAGCTCGAAGACATCCACATGAACATCGAAGCGCGGCTTGCGACGTTGATCGGCCCCGCCGCCGGCCGCCTGCACACCGCACGCTCGCGCAACGATCAGGTGGCGCTCGATTTCCGCCTGTGGGTCAAGGAAGAACTGCAGAAGACCGAGGGTATGTTGACCGCCCTCATCGCCGCCTTCCTAGACCGCGCCGAAGAAAATGCCGATACGGTCATGCCTGGCTTCACCCATTTGCAGACGGCCCAGCCCGTGACCTTCGGTCACCACTGCATGGCCTATGTGGAAATGTTCGGCCGTGACCGCGCCCGCGTGCGCCACGCCATCGAGCATATGGATGAAAGCCCGATCGGCGCGGCCGCCCTTGCCGGCACCGGCTATCCCATCGACCGCCACATGACGGCCAAGGCGCTCGGTTTCCGCGAGCCGACCCGCAACTCCATCGACACCGTCTCCGACCGCGATTTCGCGCTGGAATTCCTGTCTATCGCCTCCATCTGCGCGACGCACCTGTCGCGTCTCGCCGAAGAAATCGTCATCTGGTCGACGCCTCAATTCGGCTTCATCCGCCTGTCGGATGCCTTCTCCACCGGCTCCTCGATCATGCCGCAGAAGAAGAACCCTGATGCCGCTGAGCTGGTTCGCGCCAAGACCGGCCGCATCAACGGCTCGCTGATCGCCCTCCTGACAGTGATGAAGGGCCTGCCGCTCGCCTATTCCAAGGACATGCAGGAAGACAAGGAACAGGTTTTCGATGCCGCCGAAAGCCTGGAACTGGCGATTGCCGCCATGACGGGCATGATCCGCGACCTCGAGGTGCGCAAGGACCGCATGCGCGCCGCCGCCGGTTCAGGTTATTCCACGGCCACCGATCTTGCCGACTGGCTGGTGCGCGAAGCGGGCCTGCCCTTCCGCGATGCCCACCACGTGACCGGCAATGCCGTGGCGCTGGCGGAGAAGAAGGGCTGCGACCTCGCCGATCTTTCGCTGGAGGAATTGCAGGCCATCCACCCCGGCATCACCAAGGGCGTTTTCGACGTTCTGTCCGTCGAGGCATCGGTTGCCAGCCGCACGAGCTTCGGCGGCACGGCGCCTTCGGAAGTGAAGAAGCAGATCGCCTGGTGGCGCGGACGCAACTGA	MADGTDQKSSNQMWGGRFASGPSAIMEEINASIGFDKKLYAQDIRGSMAHAAMLASKGIISPEDKDKITEGLNTILSEIEAGSFEFSRKLEDIHMNIEARLATLIGPAAGRLHTARSRNDQVALDFRLWVKEELQKTEGMLTALIAAFLDRAEENADTVMPGFTHLQTAQPVTFGHHCMAYVEMFGRDRARVRHAIEHMDESPIGAAALAGTGYPIDRHMTAKALGFREPTRNSIDTVSDRDFALEFLSIASICATHLSRLAEEIVIWSTPQFGFIRLSDAFSTGSSIMPQKKNPDAAELVRAKTGRINGSLIALLTVMKGLPLAYSKDMQEDKEQVFDAAESLELAIAAMTGMIRDLEVRKDRMRAAAGSGYSTATDLADWLVREAGLPFRDAHHVTGNAVALAEKKGCDLADLSLEELQAIHPGITKGVFDVLSVEASVASRTSFGGTAPSEVKKQIAWWRGRN	PGPT0014242_74	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014242-argHA-K14681	NA	NA
BMS010_00642	204			hypothetical protein	ATGCTTTCAAAAACCGCGCGCAAACTCATCGTTCCCATCGGCATGACGCTCGCCGTCAGCCTTGTTCTCAGCGCCTGCGGGCGTAAGGGCGACATCGACCCGCCGAGCACGCCGGTCGAAATGCGCAACAAGCGCAATGCCGACGGAACGGAGACAAAGCCGGCGACGGCGGAACGGCCGTTCATTCTCGACAAGCTTCTCTGA	MLSKTARKLIVPIGMTLAVSLVLSACGRKGDIDPPSTPVEMRNKRNADGTETKPATAERPFILDKLL				NA	NA	NA	NA	NA
BMS010_00643	1269	lysA_1	COG0019	Diaminopimelate decarboxylase	GTGAACCATTTTGGCTATATCGACGGCGTGCTGCACGCCGAAAACGTGCCTGTGCCCGAGATCGCCAAGGCGGTCGGCACGCCATTCTACATCTATTCGACCGCGACGCTGGAGCGCCATTACAAGGTGTTTTCCGGAGCTTTTGCGGATGTGGACGCCATGGTCTGTTACGCCATGAAGGCCAATTCCAACCAGGCGGTTTTGAAGACGCTGGCAAAGCTCGGCGCGGGCATCGACGTCGTCTCGGGCGGCGAATTGCGCCGAGCACTCGCAGCCGGCGTTCCGGCAAGCCGCATCATGTTTTCCGGCGTCGGCAAGACGGTTGCGGAAATGGATTACGCGCTGGAAGCCGGCATCTACTGTTTCAACATCGAATCCGAGCCGGAACTGGAAGTCCTCAACCTGCGCGCCGTGACAGTCGGCAAGCGGGCGCATGTGTCCTTCCGCATCAATCCGGATGTGGATGCGCGCACCCACGCCAAGATTTCCACCGGCAAGAAAGAAAACAAGTTCGGCATTTCCTATGAGCGCGCCCGCGCGGTCTATGCCCATGCCGCCACCCTGCCCGGCATCGAAGTGACCGGCATCGACATGCATATCGGCAGCCAGATCACCGAATTGCAGCCTTTCGAGGACGCTTTCCGGCTGCTGCGCGAACTTGTCGAGGCGCTGCGCACTGACGGCCACACGATCAGCCACGTCGATATTGGCGGCGGTCTCGGCATTCCCTATCGCGATGACAATAATCCGCCGCCGCTGCCGGATGCCTATGCGCATATCGTCAAGAACGAACTAAAGAGCCTCAACTGCAAGATCGTCACCGAGCCCGGCCGCCTGATTGTCGGCAATGCCGGCATTCTGGTGACGGAGGTGATTTATGTGAAGGATGGCGGCGAAAAGACCTTCGTAATCGTCGACGGCGCGATGAACGACCTCATCCGCCCGACGCTTTATGAGGCCTATCACGGCATCCGTCCGGTGGTGCAGCCGGCAGAGAACACGCCACGCATCAAGGCCGATATCGTCGGCCCCGTTTGCGAGACCGGCGACTATCTGGCGCTCGACCGCGAGATGGCTGCGCCGCAGCCGGGCGACCTGATCGCCGTCAGTTCCGCCGGTGCTTACGGCGCGGTGCAGGCCGGCACCTACAACTCGCGCCTGCTGGTGCCGGAAGTGCTGGTGAAGGAAGACAAGTTCCACGTCATCCGTCCGCGCGGCACCTATGAAGAGCTGATCGCGCTCGATTCCGTGCCCGCCTGGCTCGATTGA	MNHFGYIDGVLHAENVPVPEIAKAVGTPFYIYSTATLERHYKVFSGAFADVDAMVCYAMKANSNQAVLKTLAKLGAGIDVVSGGELRRALAAGVPASRIMFSGVGKTVAEMDYALEAGIYCFNIESEPELEVLNLRAVTVGKRAHVSFRINPDVDARTHAKISTGKKENKFGISYERARAVYAHAATLPGIEVTGIDMHIGSQITELQPFEDAFRLLRELVEALRTDGHTISHVDIGGGLGIPYRDDNNPPPLPDAYAHIVKNELKSLNCKIVTEPGRLIVGNAGILVTEVIYVKDGGEKTFVIVDGAMNDLIRPTLYEAYHGIRPVVQPAENTPRIKADIVGPVCETGDYLALDREMAAPQPGDLIAVSSAGAYGAVQAGTYNSRLLVPEVLVKEDKFHVIRPRGTYEELIALDSVPAWLD	PGPT0023875_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023875-mrcA-K05366	NA	NA
BMS010_00644	2700			hypothetical protein	ATGACCACAGCCGGAGAGGACAGGACAGGCAGAAAGCGCCCGACCGGCGCGTTCGCGCAGCGGCCGGACCTTGCCCGCCGGGTTGCCGCCAAGCGCTTCTTCGCTAAAATCGTACTGCTTTCGGAAAAAATTGCGCCGAAAACGCTGTGGCCGCTCTCCATCGCCGCCGTGTTTCTGGCGCTTGCCTGGTTCGGTCTTTACCGGCAGATGCCGGATTTCCTGCGGCTCGGCGTTGTTTTCGTGCTTGTTTTCAGTTTCATCGCCACGCTTTTGCCAATCCTGCGGCTGAAATGGCCGACGGATAATGATGCCTCCCGCCTGCTTGAAGACCGCAACGGTCTCGCGCACCAGCCGGTTGGCGTGCAGGAGGACGAACCGGCCTTCGACACGCCTTTTTCCCGAACGCTGTGGAAAGAACATCAGATCCGCATGGCGGAGCGCATCGCCGCGCTGAATGCCGGCCTGCCGAAACCCGATATCGCCCGTTATGACCGTCTGGCGCTGCGCGCCGTCCCCGCCCTTCTTCTGGCCGCCGCCTTCGGTTTCTCCTATTCCAACGGCGCGGGCACGATTGCCGATGCCTTCCGCAGCCGACCGGCTGTCGGTCCGCTCAATCCGGATATCCGTCTCGATGCCTGGGTCACGCCGCCATCCTATACCGGCCGCGCGCCGATTTTCCTGACCGGACGTGACGCAACCAACCGTGACGCGGTTTCCGTGCCGCAATCCTCCAAGCTGACGATCCGCATGACCGGCGGCGATGGCGGCGAGGAAGTGACCTTCGAGCCTGAAATGGCGGGCGCGCTGCAAAAGCTTGCGCCGGAAGCGGCACGTGCCGATAGCGCAAGCGGCGAGGTTGCCGTTCAGACGCCGGCTCGTTCGGCGGATCAGCCGGTCGCGCCGCGCACTTTCGCCATGGATGTTACCGAAAGCGGCATGATCACCGCGAATGGCGAACAATGGGTGTTCAACGTCATTCCCGACCAGCCGCCCAGCATCGCCTTCGACAACATGCCGCGCCGGGCCGTCAATGGCGCGCTGGAAGTGGGCTTTACCGCCAAGGACGATTATGGGCTGAAGGAAGCCCATGCCATCATCGAGCCGATTGGCGTTGCGGAAGGTGCGACCGCGCTTTACCCGCCGCCGGAATTCAAGCTCGATCTGCCGCGGCAGAACAATCGCGAGATCAAGGGCCTGACCAGCCGTAACCTGACCGAACATCCGATGGCGGGAAAACGCGTGCGCATCACGCTGGTGGCGACGGACGGCGCCGGCCAGACCGGCCGCAGCCCCGCGCATGAAATGGTGCTGCCGGGCCGCAATTTCTCCGAACCGCTGGCCGCCTCCATTGCCGAGCAGCGGCAGATCTTCTCGCTCGATACGCGCCAGATGCCGAAGGCGATCGCCTATAACGAGGCGGTGGGCCTGCGCCCGGAAGAGACCATTCCCAACACCACCCATTATCTCCTGCTGCAATCGGCGCAGACCCGCATGCGGCTCGCCTATAACGAGGAGATGCTGAAGGACACAGCCGATTATCTCTGGGAAATCGCGCTCGGCATCGAGGACGGCGATCTTTCGCAGGCCGAAAGACGCCTGCGCGATGCGCAGACTGCGCTTTCCGAAGCGCTTCAGCGCAATGCTTCCGACGAGGAAATCGCCAAGCTGATGCAGGAACTGCGCGAAGCCATGCAGCAGTTCATGAGCGAGCTTGCGCAGCGCATGCAGAATGCGCCGCAGGCCAACATGAACAGCCAAGCACAGAACGTGCTGCGCCAGCGCGATCTGGAAAACATGATGAACCAGATCGAGAACCTCGCCCGCTCCGGCAATCGCGACGCGGCGCAGGAAATGCTCTCGCAGCTGCAGCGCATGATGAACAATCTGCAGGCGGGCCGCCCGCAGCGTCAGGGCCAGCAGGGGCAGCAGCAGAGCAGCAAGATGCGCCAGCAGATCGACAAGCTGGGCGAAATCCTGCAACAGCAGCAGAAGCTGATGGATGAGACCTTCAAGCTGGATCAGGCGCTGCGCGACCGGATGCAGCGCGGCGACCCGCAACAGGGCGGCGAAGGCGAAAACGACCAGCAGATGGGCGAAAACGGCCAGCAGCCGCGAGAGGGTCAGCAAGGCGAACAGGGTCAAAATGGTCAGCAGGGCGGACAACAGCCGAGCGACCAGATGACCGCTGAACAGCTACGCGAGGCGCTGAAAAACCTGCGGGCGCAGCAGGATGCGCTCGGCAAGCAGCTCGGCGAATTGCAGCAGGGCCTTCGCGATCTCGGTATGGAACCAGGCGAAAACTTCGGCAAGGCGCAACAGGAAATGCAAGGCGCCGGCGAGGCGCTGGGCAAGGGCCAGGGCGAACAGGCTGTCGAAGGACAGGGCAATGCGTTGAATGCGCTGCGGCAGGGCGCACAGGACATGATGGGCCAGATCATGCAGGCCATGCGCCAGCAGGGCCAACAATCCGGACAGGGTCAGGAGGGCATGGCCGGTCAGGGCGGCCAGAACGGCCGTGATCCGCTCGGCCGTCCGCGCAGCACCACCGGCCCGGATTTCGGCGATCAGGTGAAGGTGCCGGACGAAATCGACGTGCAGCGCGCCCGCGAAATCCTCGAGGCGATCCGTGAGAAGCTCGGCAACAATCCGCCGGGCGAGGTGGAGCGGCGTTATCTGGAGCGGTTGCTGGATATACAGTGA	MTTAGEDRTGRKRPTGAFAQRPDLARRVAAKRFFAKIVLLSEKIAPKTLWPLSIAAVFLALAWFGLYRQMPDFLRLGVVFVLVFSFIATLLPILRLKWPTDNDASRLLEDRNGLAHQPVGVQEDEPAFDTPFSRTLWKEHQIRMAERIAALNAGLPKPDIARYDRLALRAVPALLLAAAFGFSYSNGAGTIADAFRSRPAVGPLNPDIRLDAWVTPPSYTGRAPIFLTGRDATNRDAVSVPQSSKLTIRMTGGDGGEEVTFEPEMAGALQKLAPEAARADSASGEVAVQTPARSADQPVAPRTFAMDVTESGMITANGEQWVFNVIPDQPPSIAFDNMPRRAVNGALEVGFTAKDDYGLKEAHAIIEPIGVAEGATALYPPPEFKLDLPRQNNREIKGLTSRNLTEHPMAGKRVRITLVATDGAGQTGRSPAHEMVLPGRNFSEPLAASIAEQRQIFSLDTRQMPKAIAYNEAVGLRPEETIPNTTHYLLLQSAQTRMRLAYNEEMLKDTADYLWEIALGIEDGDLSQAERRLRDAQTALSEALQRNASDEEIAKLMQELREAMQQFMSELAQRMQNAPQANMNSQAQNVLRQRDLENMMNQIENLARSGNRDAAQEMLSQLQRMMNNLQAGRPQRQGQQGQQQSSKMRQQIDKLGEILQQQQKLMDETFKLDQALRDRMQRGDPQQGGEGENDQQMGENGQQPREGQQGEQGQNGQQGGQQPSDQMTAEQLREALKNLRAQQDALGKQLGELQQGLRDLGMEPGENFGKAQQEMQGAGEALGKGQGEQAVEGQGNALNALRQGAQDMMGQIMQAMRQQGQQSGQGQEGMAGQGGQNGRDPLGRPRSTTGPDFGDQVKVPDEIDVQRAREILEAIREKLGNNPPGEVERRYLERLLDIQ				NA	NA	NA	NA	NA
BMS010_00645	360	cpdR_1		Response regulator receiver protein CpdR	ATGGCGAAGATTCTGATTACCGAAGACGAGGATGCATTGCGGGCTTTCGTCGCTCGCGCGCTGCGTCTCGACGGTCACGAGACCCATGAGGCGGCGGATGGCGAGCAGGGGCTGGAAAAGCTTCAGGAAACCAGTTTCGATCTTCTTCTCTCGGATATCCGCATGCCGGTCATGGATGGCATCGAGCTGGCGCACCGCGCCGCCGAACGCTTCCCGGCCATGCGCATTTTGCTGATGACGGGTTATGCCGAGCAGCGCGAACGGGCTGACGATCTGGCGACGAAGATTGTGGACGTGGTTTCCAAACCCTTTGCGCTTCCCGATATTCGCAAGGCCGTGGCGCGGGCGCTTGCGGCCTGA	MAKILITEDEDALRAFVARALRLDGHETHEAADGEQGLEKLQETSFDLLLSDIRMPVMDGIELAHRAAERFPAMRILLMTGYAEQRERADDLATKIVDVVSKPFALPDIRKAVARALAA	PGPT0021745_825	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021745-atoC-K07714	NA	NA
BMS010_00646	543	hpt_1	COG0634	Hypoxanthine phosphoribosyltransferase	ATGCCCGTCGTCCGTGGAAAAAACATCGAGCCGCTTTATACCGCCGAGCAGATCGCCGAGCGCAATCGCGACATGGCCAAGCACATCGCCAGCGGCCCGACCAAGGATTTACTGGTCATTGCCGTGCTCAAGGGATCGTTCATTTTCGCGGCCGATCTTATCCGCGCTCTGCATGACAGCGGCCTTGCCCCTGAAGTCGAGTTCATCACGCTGTCGAGCTACGGCACTGGCACGGTTTCGCAAGGCGTCAGGATCGTCAAGGATATCGACAGCGACGTGAAGGACCGCGATGTCCTCCTGATCGACGATATTCTCGAATCCGGCCGCACGCTGCGTTTCGCCAAGGAACTGCTTTACGAGCGTGGCGCCCGCAACGTCACCATCGCCGTGCTGCTCGACAAGAAGGTCAAGCGCAAGGAGGATCTGGAGGCCGATTATGTCGGTTTCGAATGTCCGGATTATTTCGTCGTGGGTTACGGCATGGATGTCGCTTATGCCTTCCGCGAACTGCCCTTTGTCGGCGTCGTGACCGGCGACGCCTGA	MPVVRGKNIEPLYTAEQIAERNRDMAKHIASGPTKDLLVIAVLKGSFIFAADLIRALHDSGLAPEVEFITLSSYGTGTVSQGVRIVKDIDSDVKDRDVLLIDDILESGRTLRFAKELLYERGARNVTIAVLLDKKVKRKEDLEADYVGFECPDYFVVGYGMDVAYAFRELPFVGVVTGDA	PGPT0007295_2397	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0007295-hprT|hpt-K00760	NA	NA
BMS010_00647	678			hypothetical protein	ATGGCTATGTTCCGTTCATCTCGCCGGCAAGCGGCATTCGATTTCGACCTCCTGATGCCGGAAACGCCGGTGCGCCGCACGGCGCGGGCGGCAAATCCCGACCGCGATGTGGTAGACGCGGAATTTGTCACCATCAAGGAAAACCGTTCGCGGCAACACGGAAACGACAATCGCGGTGCTGCGCGCCGGCAGGCGGCAAAACCACCCGTCACCATCGGTGTGCTCGGCCTCGCTTTCATCGGCTGGCTGGACCGCAGATTGTCCCGTCTTTCGGCGGATGCCTATTCGGCGCTGGTGGCGGGACTCGCGATTTTCGTCTTCGTCTGTTCGGGCGGTCTTTCGGTGGTCGTGCCGGAAAAGCCGGCTGTTGCCGCTTCGGTGAACCCGCTCGCCATTTCCCATGTCACCGTGACCCCGATGGAGGCGGATGGCATGGATACTCTGCTCATCAACGGCATCGTCGAAAACAATGGCGGCAATCTCGAAGAGGTGCCGGCCCTCCGCGCCGATCTCTTCGCCGCCAAGGGACAGCTGGTGGCCAGCATGGTCATCGAACCGCCGGTGAAGGAGATGCAGCCCGGTTTCAGCCACGGTTTTTCGGCAAAGTTGCGCCATCCCGGTGGAAAAACGCCCGAGATCAAGCTTTCCTTCGTCGAGGCGGGTGCGTCCGAACGCTGA	MAMFRSSRRQAAFDFDLLMPETPVRRTARAANPDRDVVDAEFVTIKENRSRQHGNDNRGAARRQAAKPPVTIGVLGLAFIGWLDRRLSRLSADAYSALVAGLAIFVFVCSGGLSVVVPEKPAVAASVNPLAISHVTVTPMEADGMDTLLINGIVENNGGNLEEVPALRADLFAAKGQLVASMVIEPPVKEMQPGFSHGFSAKLRHPGGKTPEIKLSFVEAGASER				NA	NA	NA	NA	NA
BMS010_00648	660	ftsE_1	COG2884	Cell division ATP-binding protein FtsE	TTGATCCATTTCGAAAATGTCGGGTTGCGTTACGGCATGGGACCCGAGATCCTGAGGGACATGACCTTCGATATCCCCAAGGGTTCGTTCCAGTTTCTGACCGGCCCGTCGGGCGCCGGCAAGACGACGCTGCTCCGCCTGCTTTTAATGTCGCTGCAGCCGACACGCGGCAATATCCGCATGTTCAACCGCGATGTATCCCGCATTCCGCGCAGCGAGTTGCCGATGCTGCGCCGCCGCGTTGGTATCGTGTTTCAGGATTTCCGGCTGCTCGATCATCTGACGACCTATGAGAACGTCGCCCTGCCGCTGCGTGTGCGCGGCAAGGAAGAGAGCGCCTATCGCAACGATGTGATCGAGCTGCTGAAATGGGTCGGGCTCGGCGAACGCATCAATGTGTTGCCGGCCATTCTTTCCGGCGGGGAAAAGCAGCGCGCCGCCATTGCCCGCGCCTTGATGGACCAGCCCGAAATACTGCTTGCCGACGAGCCGACCGGCAACGTCGATCCGCCGATGGCCAAGCGCCTTCTCAACCTGTTTCTGGAACTCAACCGGCTGGGCACGGCCGTCGTCATCGCCACCCATGATTTCGGCCTGATGGACCAGATCGATGCGCGCCGGATGATCCTGACCGAAGGGCGGCTCGACATCTATGAATGA	MIHFENVGLRYGMGPEILRDMTFDIPKGSFQFLTGPSGAGKTTLLRLLLMSLQPTRGNIRMFNRDVSRIPRSELPMLRRRVGIVFQDFRLLDHLTTYENVALPLRVRGKEESAYRNDVIELLKWVGLGERINVLPAILSGGEKQRAAIARALMDQPEILLADEPTGNVDPPMAKRLLNLFLELNRLGTAVVIATHDFGLMDQIDARRMILTEGRLDIYE	PGPT0013345_2355	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
BMS010_00649	1008			hypothetical protein	ATGAATGAGATCAACCGCAAACAATTGAAGCCGGAAGCGGCGCAGCCGAAGCGCCCGCCCATGCGCATCCGCCCGATGGCGCCCATCCTGCCGCCCTCCAATATTCAGGGCAATGCGCTGATGGTGGTGATCGCCATCATGGCCTTTCTCGCCTGCCTGACTCTGGGCGCCGTCTCCATGGTGCGCGCCACCGCCGCCACCTGGCAGAGCCAGATTTCCCGTGAGATCACCATCCAGATCAAGCCCGAGGACGGGCTGGATATGGATGCGGCGCTGAATAAGGCGCGCAACCTGGCGCTCACCTTCGTCGGCACGCGGGATGGCACCATCCTCGACGATGCGGCGACATCGCGCCTTTTGGAGCCGTGGCTCGGCAGCGGTCTCGATCTTTCCGAATTGCCGGTGCCGCGTCTCGTCGTCATCACCATCGACGAAAACAATCCGCCCGATTTCCAGGCGATGCGGGATATGCTGAAGGCGGAGATTCCGCAGGCATTTCTGGACGACCACCGCACCTGGGTCGACAGGTTGGTCTCCATGGCCAGAACCACCGTTATGATAGGGGTCGGCGTTCTTATCCTCGTCTTCACCGCCATGGTGCTGACGGTGGTGTTTGCGACGCGCGGCGCGCTTTCCGGCAACCGGCATATCGTCGAAGTGCTGCATTTCGTCGGCGCGGAAAGCAGTTTTGTAGCGCGCGAATTTCAGAAACATTTCCTGAAGATCAGTCTCAAGGGGGCGGCGGCGGGCAGCGCTCTGGCCGCGGCGGTTTTCCTTGTCGCTGGTTTCTGGCAATCGAGCACGGTCGCCACGCCGCAGAGCGATCAGGCGAGCGCGCTTTTCGGCTCGTTTTCGGTCGGTCTCGGCGGCTATTTCGGCATTGCCATGACGATGATCATCATCGCGCTTTTGACCACAATCACGGCCCGCGTGACCGTCATCCGCACCATTGACGATATCGACCGCGTCCGCTCCGATCCATCGAAAAGCGACGGCCTTGCATCGTGA	MNEINRKQLKPEAAQPKRPPMRIRPMAPILPPSNIQGNALMVVIAIMAFLACLTLGAVSMVRATAATWQSQISREITIQIKPEDGLDMDAALNKARNLALTFVGTRDGTILDDAATSRLLEPWLGSGLDLSELPVPRLVVITIDENNPPDFQAMRDMLKAEIPQAFLDDHRTWVDRLVSMARTTVMIGVGVLILVFTAMVLTVVFATRGALSGNRHIVEVLHFVGAESSFVAREFQKHFLKISLKGAAAGSALAAAVFLVAGFWQSSTVATPQSDQASALFGSFSVGLGGYFGIAMTMIIIALLTTITARVTVIRTIDDIDRVRSDPSKSDGLAS				NA	NA	NA	NA	NA
BMS010_00650	726			hypothetical protein	GTGAGTCGGATGGACCAGGATCAGGCGACAGCGCGACCGGCCAGAAAGGGCCTGTTGTCGCGGCGCGGTCCTCTGCGCCGTTTTATTCGCGCCATCATCCTGCTTTGCGTCATTGTGCTCGGCGCATTTTCCGGCGGTTTCCTGTGGTTTGCCGATTCCGTCGCCTCCATGCGTCCGCCGGAGGGGGCAAGAGGCGATGCCATCATCGTGCTTACCGGCGGTTATCAGCGTATCGAACAGGCGGTCGGCCTGCTGAGAGACGGCGTGGGCAAGCGGCTTCTGATTTCCGGCGTCAACCCGGCCACCACCCGCTCGCAGATCCGCAAGATGACGCAAGGGTCATCCGACATGTTTTCCTGCTGCGTGGATATGGGCTACAAGGCGATAGACACAATCGGCAACGCCAGTGAGGCGGCAAGCTGGATACGCGACCACAATTATTCCTCCATCGTCGTCGTCACCAATAATTATCATATGCATCGCAGCCTGCATGAATTGCGCAGCGCCAGCCCGCAGACGCAATTCATCGCCTATCCCGTCATCAGCGCCGATCTTGCCCGCACCAACTGGTTCGTGGAGCCGGATGTGGTGAGAACCATGCTTTACGAATATCTGAAGTTCGTGGCGGCGGCGGGACGCGACCTCACCGGCTTCGGCAAGGGTGACGGTCTGCGCAAGGCCGCCGCCGATCATTCCCGGATAAAGACGACAAGCGCTTCTTCCTGA	MSRMDQDQATARPARKGLLSRRGPLRRFIRAIILLCVIVLGAFSGGFLWFADSVASMRPPEGARGDAIIVLTGGYQRIEQAVGLLRDGVGKRLLISGVNPATTRSQIRKMTQGSSDMFSCCVDMGYKAIDTIGNASEAASWIRDHNYSSIVVVTNNYHMHRSLHELRSASPQTQFIAYPVISADLARTNWFVEPDVVRTMLYEYLKFVAAAGRDLTGFGKGDGLRKAAADHSRIKTTSASS				NA	NA	NA	NA	NA
BMS010_00651	798			hypothetical protein	ATGCTCAAGCTGCGCTCTTTTCTTTTCAATACGCTGTTTTATCTCAACCTGATTGTCCGCATGATCGTGCTGACGCCGATCTATTTCATCCTGCCGCGCAAGATCGCCTATGAAATTCCCAAGAACTGGGCGCGATCCAACCACTGGCTGATGAAGACCATCGTCGGCACCACCTTCGAGGTCGAAGGGCTGGAAAACATTCCCGAAACCGGCTGCATCTTCGCACCTAAGCACCAGTCCTTCTGGGATACCTACGCTCTGCTGCCCAATCTTCCCGATCCGGTCTATATTCTGAAGCGCGAGCTTTTGTGGATTCCGCTGTTCGGCTGGTACGCCATGAAACAGCGCATGATCCCGGTTAACCGCGCCGCACGCGGCAAGGTGATGCTGAAGGTGATGGAGCGGGCAAAAGAGGAAATGGCCGCCGGTCGCGAACTCATCATTTATCCCGAGGGCACGCGCCGCCCGCCGGGCGCCGAGCCCGAATACCGTTACGGCATCGCAAGGCTTTACCGCGATCTGCAGGTTCCGGTCATTCCCGTCGCCATGCATCCCGGCCTGTTCTGGCCGCGCCGGTCCACCATGCGCTATCCCGGCCATTTCAAGGTGCGTATCCTGCCGGCCATCGAGCCGGGGCTGGACCCCGACGTGTTTTTCAAGCGCCTGATCGATGTAACGGAAAAGGCGAGCGACGAGTTGCTGCTGGAAACCGTGCGCAACAACCCGCATTTGCCGCTGCCGCCGACCGCCGTGAAGCGGATCGCCGAACTTCAGGGCAAGGAAACCGCCGCCGGCTGA	MLKLRSFLFNTLFYLNLIVRMIVLTPIYFILPRKIAYEIPKNWARSNHWLMKTIVGTTFEVEGLENIPETGCIFAPKHQSFWDTYALLPNLPDPVYILKRELLWIPLFGWYAMKQRMIPVNRAARGKVMLKVMERAKEEMAAGRELIIYPEGTRRPPGAEPEYRYGIARLYRDLQVPVIPVAMHPGLFWPRRSTMRYPGHFKVRILPAIEPGLDPDVFFKRLIDVTEKASDELLLETVRNNPHLPLPPTAVKRIAELQGKETAAG	PGPT0024380_952	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024380-plsC-K00655	NA	NA
BMS010_00652	552	chaC_1	COG3703	Glutathione-specific gamma-glutamylcyclotransferase	ATGGACGATTTTTGGGTCTTTGGCTATGGTTCGTTGATGTGGAACCCCGGCTTCGCCTTTGAAGAACGGCAGCAGGCACGGCTGCACGGGTATCGGCGCTCGCTTTGTATCAGTTCCAACTTTTATAGAGGCACCGAAGAAAAGCCCGGTCTCGTTCTCGGTCTGGAGCGCGGCGGCTCCTGCCTTGGCGTCGCTTTCCGCGTGCGCGGGCAGGACCGCGACCCGGTCATGATCTATCTGCGCGAGCGCGAACTGGTGACGAATGTCTATAAGGAGCGGCTGGTTTCCATCGCGCTTTCCGATGGCAGGCGCAGCAGCGCGGTGACCTATGTGGCCGATCCCGCGCATGAGCAATATATCGGCGGTCTCGGCGTTGCCGAATCGGCGACCATCGTTGCAGCCGCATCGGGCCGGTCCGGGCCGAATACGGATTATGTCTTCAACACCGTGCAGCATCTGCAGGAGATGGGCATTCGCGATTCCCTGCTGGAGAGCATCGCCAAAAATGTCGGCGCGCTCGCCGCTCAGCCGGCGGCGGTTTCCTTGCCCTGA	MDDFWVFGYGSLMWNPGFAFEERQQARLHGYRRSLCISSNFYRGTEEKPGLVLGLERGGSCLGVAFRVRGQDRDPVMIYLRERELVTNVYKERLVSIALSDGRRSSAVTYVADPAHEQYIGGLGVAESATIVAAASGRSGPNTDYVFNTVQHLQEMGIRDSLLESIAKNVGALAAQPAAVSLP				NA	NA	NA	NA	NA
BMS010_00653	1002			hypothetical protein	ATGGCAGCGTCAAGCCAATCCGGCACCGCCAAAAAATTCCTCTGGCTCGCCATCGCCATCCTCGTGGTCATCGGACTTTATACCGCCGGGTGGTTTTACGCCGCCGACAGGCTGAAGCAGACGGTTCTGAACGTCATTGCCCCCTCGCAGGCCCGCAGCGTTAGCGGCGAATGCGGCGATATCGCCTTCAAGGGTTATCCCTTCCGCATCGGCCTCTTCTGCTCCAAAGTGACGGTGGATGACAAGGAGAACGGCGTTTCCGCTTCCTTCGGCGAACTTCGCTCGGCAGCGCAGGTCTATAATCCCGGCCACATCGTCTGGGAACTCGATTCGCCGGCGGAGATCCGTTCCGCCCATGGCCTGACAATTTCGGCCGCCTGGCAGAACATGCAGTCCAGCATCGTCACCAAGCTGAAGGGCATCGACCGCAGCTCGCTCGTCATCGACGGGCTGAAGGCACAGGCGATTTCTTCCGTCACCGGCCAGACCATCGATTTCGATGCAGTCAAAACGGAAATGCATCTGCGCCAGAACGGCGCGGATCTCGACGGGGCCATCACGCTCACCGACTCCGCAACCGTCATCAAGGACTGGCCGCAGCTTTTGCCGCGCCTCAACGCCATCGCCGATGTCACCCTTGCCGGCAAGGCGGGCATGGTGGATGGCAGCGACAGTTCGGGCCTGTATGGCGCGAGCGGCGAGCTTCGCCGGCTGGTGGCCGATATTGGCGAGGGCCGCACCATGCGCATCAGCGGCCCCTTCTCCTTCGACAACGAGGGCTATCTCTCCGGCCAGTTCAAGCTGGAAATCGAAAAGCTCGGCGCATGGTCGGACAATGCCAAGCAGGTCTTCCCGCAGCTGCAGTCCACCATCGATACGGCCCGCAAACTGCTCGGCGCGCTCGCCGGCGGCGGTGACCGGGCATCCGTCGATCTCGTTGTGGATCGTGGCCGCGCCACGGTCAGCGGCTTTATTCCGCTTGGGAAAATCCCGCCGATTTGA	MAASSQSGTAKKFLWLAIAILVVIGLYTAGWFYAADRLKQTVLNVIAPSQARSVSGECGDIAFKGYPFRIGLFCSKVTVDDKENGVSASFGELRSAAQVYNPGHIVWELDSPAEIRSAHGLTISAAWQNMQSSIVTKLKGIDRSSLVIDGLKAQAISSVTGQTIDFDAVKTEMHLRQNGADLDGAITLTDSATVIKDWPQLLPRLNAIADVTLAGKAGMVDGSDSSGLYGASGELRRLVADIGEGRTMRISGPFSFDNEGYLSGQFKLEIEKLGAWSDNAKQVFPQLQSTIDTARKLLGALAGGGDRASVDLVVDRGRATVSGFIPLGKIPPI				NA	NA	NA	NA	NA
BMS010_00654	930	tyrC		Cyclohexadienyl dehydrogenase	ATGGCTGAGATCATGTTTGAACGCATCGCGCTGATCGGCATCGGCCTGATTGGCTCGTCGATTGCCCGCGATGTCAAAGAGCTGGGTCTTGCCCGCCATGTGACGATTTCCACCCGCAGCGAAGACACGCTGAAACGGGCGGAAGAACTGGCGCTTGGCACGGATTACACCGTTTCGGCGGCGGAGGCGGTAAAGGATGCCGATCTCGTCATCGTCTCGGTGCCGGTCGGTGCTTCCGAGAGCGTTGCGCAGCAGATCGCGCCACATCTGAAGCCGGGCGCCATCGTTACCGATGTCGGCTCCACCAAGGCTTCGGTCATCGCACAGATGGCGCCGCATATGCCTGACAATGTGCATTTCATTCCCGGCCATCCGCTGGCGGGTACGGAAAAATCCGGCCCGGATGCCGGTTTTGCCGGTCTCTTCCGCGACCGCTGGTGCATCTTCACGCCACTGCCGGGCACGGATGCGGAGGCTCTGGAAAGGCTGAAGGATTTCTGGCGGGCGCTCGGCTCCCGCGTGGATGAGATGGATGCCGAACACCACGACAAGGTTCTGGCGATCGTGTCGCATCTGCCGCATATCATCGCTTACAATATCGTCGGCACGGCGGATGATCTGGAGACGGTGACCGAATCGGAAGTCATCAAATATTCCGCCTCCGGTTTCCGCGATTTCACCCGTCTCGCCGCCTCCGATCCCACCATGTGGCGCGATGTCTGCCTGCATAACAAGGATGCGATCCTTGAAATGCTGGCGCGGTTTTCCGAAGACTTGGCGTCCCTGCAAAGGGCGATCCGCTGGGGAGAGGGCGACAAGCTGTTCGAACTGTTTTCCCGCACTCGCGCCATTCGCCGCTCCATTGTGCAGGCGGGCCAGGATGTCGACGCACCGGACTTCGGCCGTCACGCGCTCGACCAGAAGAAATAA	MAEIMFERIALIGIGLIGSSIARDVKELGLARHVTISTRSEDTLKRAEELALGTDYTVSAAEAVKDADLVIVSVPVGASESVAQQIAPHLKPGAIVTDVGSTKASVIAQMAPHMPDNVHFIPGHPLAGTEKSGPDAGFAGLFRDRWCIFTPLPGTDAEALERLKDFWRALGSRVDEMDAEHHDKVLAIVSHLPHIIAYNIVGTADDLETVTESEVIKYSASGFRDFTRLAASDPTMWRDVCLHNKDAILEMLARFSEDLASLQRAIRWGEGDKLFELFSRTRAIRRSIVQAGQDVDAPDFGRHALDQKK	PGPT0012870_174	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012870-cyclohexadieny|prephenate_dehydrogenase|3_phosphoshikimate_1_carboxyvinyltransferase-K24018	NA	NA
BMS010_00655	1107	hisC_2		Histidinol-phosphate aminotransferase	ATGAGTGCAGAGCTTAGCCAACCTGTTCCGCGTCCGGGTATTCTGGATATCGCCGCTTATGTTCCGGGCAAGGAACATGTGGACGGCGTCGCGAAGGTTTATAAGCTCTCCTCCAACGAAACGCCGCTTGGGCCGAGTCCGAAGGCGATAGAGGCTTTCGGCACGGCTGCCAGCCATCTGGAAATCTATCCGGACGGTCAGGCGATCGCGCTGCGCCAGGCGATTGCCGACGTGCACGGTCTCAACATCGCGAATATCATGTGCGGCAACGGTTCGGACGAGCTCCTCGGCCTGCTTTGCCACGTTTATCTGGGCGCCGGCGATGAGGCGATCATCACCGAACACGGTTTCCTCGTTTACAAGATCCAGATCATGGGCGCGGGCGCGACCCCGGTGACGGTGAAGGAAAAGGATTGTGCGGTGGATGTGGATGCGATCCTCGCCGCCGTGACGCCGAAGACCAAGATGGTTTTCGTCGCCAATCCGGGCAATCCCACCGGCACCTATGTTCCCGTTGCGGAAATCCGCCGCCTGCAGGCTGGCCTGCCGAAACATGTCGTGCTGGTGCTGGATGCGGCCTATGCCGAATATGTCCGCAAGAACGACTACGAGGCTGGTCTCGAGCTGGTCTCCGGCAACCGCAACGTGGTGATGACGCGAACCTTCTCGAAGGTCTATGGCCTCGCTGCCTTGCGCGTGGGCTGGATGTATGGTCCGGCCGCTGTCATCGATGCATTGAACCGCGTGCGCGGCCCGTTTAACATGAGCGCGCCGGCCATCGCGGCGGGTGCTGCGGCCATCCGCGATCAGGCCTTCGTAGAGAAGGCGGTGGCGCATAACGCGCTGTGGATGGAAAAGCTGGTCACGACCTTTACCGGCCTCGGCCTCACCGTCACGCCATCGGTCACCAATTTCATCCTCATCCATTTCCCGGATCAGGACGGCAAGCGTGCGGCGGATGCGGACGAGTTCCTGAGCCGCCGCGGTTACATTCTGCGTGCGGTACGTGGTTACGGTTTCCCGAATGCGCTGAGAATGACCGTCGGTTCGGAGGAGGCCAATCTCGGCGTCATCGCGGCCCTCACCGAGTTCATGGGGCAGGCGTGA	MSAELSQPVPRPGILDIAAYVPGKEHVDGVAKVYKLSSNETPLGPSPKAIEAFGTAASHLEIYPDGQAIALRQAIADVHGLNIANIMCGNGSDELLGLLCHVYLGAGDEAIITEHGFLVYKIQIMGAGATPVTVKEKDCAVDVDAILAAVTPKTKMVFVANPGNPTGTYVPVAEIRRLQAGLPKHVVLVLDAAYAEYVRKNDYEAGLELVSGNRNVVMTRTFSKVYGLAALRVGWMYGPAAVIDALNRVRGPFNMSAPAIAAGAAAIRDQAFVEKAVAHNALWMEKLVTTFTGLGLTVTPSVTNFILIHFPDQDGKRAADADEFLSRRGYILRAVRGYGFPNALRMTVGSEEANLGVIAALTEFMGQA	PGPT0020305_2991	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817	NA	NA
BMS010_00656	762			hypothetical protein	ATGAATACCGATATCGTCGATCTGCGCGAATTCTATCACTCTCCGCTTGGCCGCTCGGCCGAGCAGGCGATCACCATGGCGCTTTCGACGCTGTGGCCGCCCTTGCCGGAAGAGCGGCTGGTCGGGCTCGGCTATGCCGTGCCGTTTCTGGAGCGGTTTCGTCGCGATACGGAGCGCACCTTCGCCTTCATGCCGGCGGGGCAGGGGGCGGTGAACTGGCCGGCGGGCGAGCTGTCTTCCACGGCGCTGGTTTTCGATGAGGAATTGCCGCTGCCTGATGCGTCGATAGACCGGGTCTTGATGGTGCATGCGCTGGAATTTGCCGAAAATCCGCGCGAAAGCCTCAAGGAACTGTGGCGGGTGCTGGCGCCCGGCGGCCGTCTGGTGATCGTGGTGCCGAACCGGCGCGGCGTCTGGGCGCGCATGGAGCACACGCCCTTCGGTTCCGGAAGGCCCTATTCGCGCGGACAGCTGACGGCGCTTTTGCGCGAAACCAATTTCACGCCGGGCGCCACCGCCGAGGCGCTGTTCTTCCCGCCCACCACCAGCCGGCCGATACTGAAATTCCGCCGCTATCTCGAACATACCGGCCGCCGGCTGTGGCCGCTTTTTTCCGGTGTCATCGTGGTGGAAGCCCAGAAGCGTCTCTATCAGGGATTACCCGTCACCCAGCGCGCCTCGCGTCGCGTTTTTGTGCCGGTGCTGGCCCCGCAGGGGGTGCCCACCACCCGCACTGCCGCAAGCCAAGGAAAGCCGCGCTGA	MNTDIVDLREFYHSPLGRSAEQAITMALSTLWPPLPEERLVGLGYAVPFLERFRRDTERTFAFMPAGQGAVNWPAGELSSTALVFDEELPLPDASIDRVLMVHALEFAENPRESLKELWRVLAPGGRLVIVVPNRRGVWARMEHTPFGSGRPYSRGQLTALLRETNFTPGATAEALFFPPTTSRPILKFRRYLEHTGRRLWPLFSGVIVVEAQKRLYQGLPVTQRASRRVFVPVLAPQGVPTTRTAASQGKPR				NA	NA	NA	NA	NA
BMS010_00657	771	gloB_2	COG0491	Hydroxyacylglutathione hydrolase GloB	ATGAAACCTTTGGAAATAGACGTCTTTCTTTGCCGCAGCGACAATTTCGGGGTTCTCCTGCACGATCCTGAAAGCGGCGCGACAGCCACCATAGACGCACCGGAAGAAGGACCTATCCTGCAGGCGCTCGACGGCCACGGCTGGAAGCTCACCCATATCTTCACCACCCACCACCATCAGGACCATGTGGAAGCCAATCTGGCCCTGAAAGACAAGTTCCGCTGCGAAATTCACGGCCCCTACGACGAAGCGGTCGCGATCCCCGGTCTCGACCGTTCGCAGGCCGATGGCGACGAATTCGAATTCGCCGGCCGCCGCGTACAGGTCATCGGCACGCCCGGCCACACGGCGGGACATATCTGTTATTATCTGCCCGATGACGGGCTGCTGTTTGCCGCCGATACGCTGTTTGCGATGGGTTGCGGCCGCCTGTTCGAACGTCCGGCGGCGGATATGTGGCATTCCTTCCAGAAACTCATGGCGCTGCCGGATGAGACCAAGGTTTATTTCGGCCATGAATATACGCTGACGAACGCCCGTTTTGCCCTCACCGTCGACCCGGAGAATGCTGTGCTGAGTGAGCGCGCGGCCCACATCGAGAAGGCGCGGCAGGCGAATGAATTCACCATTCCCACCACCATCGGGCTCGAAAAACAGACCAATCCCTATATGCGGGTGGCCGACGCCGGTATTCGCAAATATCTTGGCCTTGAAAGCGCCACCGATGCCGATGTTTTCGCGGAAATCCGCACACGCAAGGACAATTTCTGA	MKPLEIDVFLCRSDNFGVLLHDPESGATATIDAPEEGPILQALDGHGWKLTHIFTTHHHQDHVEANLALKDKFRCEIHGPYDEAVAIPGLDRSQADGDEFEFAGRRVQVIGTPGHTAGHICYYLPDDGLLFAADTLFAMGCGRLFERPAADMWHSFQKLMALPDETKVYFGHEYTLTNARFALTVDPENAVLSERAAHIEKARQANEFTIPTTIGLEKQTNPYMRVADAGIRKYLGLESATDADVFAEIRTRKDNF	PGPT0001770_3233	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069	NA	NA
BMS010_00658	441			hypothetical protein	ATGGGAACGGATATATCGGCGCAGGCGATCATTCGCGAACTGGGGCTGGAGCCGCATCCCGAGGGCGGTTTTTACCACCAGACGTTCCGCGATAAGGCGGGCGGTGAGCGCGGTCATTCGACGGCGATCTATTATCTTCTGGAAAAGGGCGACCGCTCGCACTGGCACCGGGTGACCGATGCGGTGGAGGTCTGGCACTATTATGCCGGCGCGCCCATCGCATTGCATCTTTCGCAGGACGGCCGGGAAGTGCAGACCTTCACGCTCGGCCCCGCCATTCTTGAAGGCGAGCGCCCGCAGGTCCTCGTTCCGGCCAATTGCTGGCAATCGGCCGAAAGCCTCGGGGACTTCACGCTCGTCGGCTGTACCGTCTCGCCGGGCTTTGCCTTTTCGAGTTTCGTTATGGCAGAGCCCGGCTGGTCACCGGGTGATGCGCCGTAA	MGTDISAQAIIRELGLEPHPEGGFYHQTFRDKAGGERGHSTAIYYLLEKGDRSHWHRVTDAVEVWHYYAGAPIALHLSQDGREVQTFTLGPAILEGERPQVLVPANCWQSAESLGDFTLVGCTVSPGFAFSSFVMAEPGWSPGDAP	PGPT0013170_348	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS010_00659	774			hypothetical protein	ATGATTGCCAGAGGAAAAAGCATTTTCGTGGCCGCGACAATGGCGTTAGCGGGCGTCTCCCCCTCGCTCGCCGCCGAAGCGCGCCACACAAGCGAATACAGCATCAATCTCGGCATTTTGCCGATTGCCAAAGCGAGTTTCTCGACTCGCATGGATGGACCGAATTATTCGATCTCCGGTTCCTTCAGCGCCGCCGGCCTTGCCAGCATCCTGAAAGACATTTCCGGCAAGACGACCGTTTCCGGCGCCAAGCGCGGCCACCGGCTGCAGGCCAACGAATATTCGCTGGTCTACAAGGACGGCAAGCGGGTGCGCACCTATGATGTTGTCTATCGCAACGGCAACGTCACATCGACGACGGTGAAGCCTGAGCCGAAAGCCCGGCCGGACAACTGGGTGGACGTGAAGGACCGCGACCTGCGCTCGGTTCTCGATCCGATCTCCGGCCTCATCATTCCCGCGGGCGGGCGCATCTGCCCGACTCGCCTGCCGATCTATGACGGCGAATCGCGACTCGATCTGGTTTTGAGCTCCAGCGGCACCAAGCCGTTCAAGACCAATGGTTTTAATGGCGACGCCATCGTCTGCAAGGCGCGGTATGTGCCGAAGTCGGGTTACAGGCAGGGGCGCAAGGATATCGAATATCTGAAATCCATCTCCATGGAGATCTGGTTCGCCAAGTCGAACAACATGGATGTCTATGCGCCTGTTTATGCCATCATTCCGACCCGGGTGGGGCAGGTTTATATCACCGCCACGAAATACGGCGGCTGA	MIARGKSIFVAATMALAGVSPSLAAEARHTSEYSINLGILPIAKASFSTRMDGPNYSISGSFSAAGLASILKDISGKTTVSGAKRGHRLQANEYSLVYKDGKRVRTYDVVYRNGNVTSTTVKPEPKARPDNWVDVKDRDLRSVLDPISGLIIPAGGRICPTRLPIYDGESRLDLVLSSSGTKPFKTNGFNGDAIVCKARYVPKSGYRQGRKDIEYLKSISMEIWFAKSNNMDVYAPVYAIIPTRVGQVYITATKYGG				NA	NA	NA	NA	NA
BMS010_00660	291	rpmB_1	COG0227	50S ribosomal protein L28	ATGTCCCGTGTATGCGAATTGACCGGCAAGGGCGTCCAGACGGGCAACAACGTCAGCCACGCCAACAACAAGACCAAGCGCCGGTTCCTTCCGAACCTCTGCCAGGTCACGTTGATCTCCGATGCTCTCGGCCAGCGTTTCCGCCTGCGTGTTTCCGCAGCCGCTCTGCGCTCCGTTGAACACCGTGGCGGCCTCGATGCCTTCCTTCTGAAGTCCGGCGAAAACGAACTGAGCATGCGCGCTCGTCTCCTGCGCCGCCAGATCGCCAAGAAGACGGCCGAAGCTGCTTAA	MSRVCELTGKGVQTGNNVSHANNKTKRRFLPNLCQVTLISDALGQRFRLRVSAAALRSVEHRGGLDAFLLKSGENELSMRARLLRRQIAKKTAEAA				NA	NA	NA	NA	NA
BMS010_00661	636	yhhQ_1	COG1738	Queuosine precursor transporter	ATGCCCTATCTGCGCTATACGCTCATCTATGTTCTGCTGATGACGCTCGTCGTCGTCGCTTCCAATATTCTGGTGCAATACCCGCTTTCCGGCTCGTTGTTCGGCGTCAATCTGGGCGACCTTCTGACCTGGGGCGCCTTCACCTATCCCATCGCCTTCCTCGTCACGGACCTGACCAACCGCCAGTTCGGCCCCTCCATCGCGCGCCGCGTCGTGCTTGCCGGCTTCGTCGTCGGGGTCACGCTGTCCTTCTGGACATCCATTCCGCGCATCGCCGTCGCTTCCGGCACCGCTTATCTGATCGGCCAGTTGCTGGATATTTCCGTTTTCAACCGCCTGCGCCGCCAGCGCTGGTGGCACGCGCCGCTTGCCGGCTCCATGCTGGGATCGGTGCTGGATACCGCACTGTTCTTCTCCATCGCCTTTGCGGCAAGCTTCTCCTTCGTCGGCCCCAACGATGCCTTCGCCATCGAAAACGCTCCCATCCTCGGCGTCTTCGCCGTGGAAGCGCCCCGCTGGATTTCCTGGGCGCTGGGTGATCTCTCGGTGAAGGTTCTCGTCGGCCTCATCATGTTGTTGCCTTACGGCGCTCTGATGAACACGCTGAAGCCGATGCCGCCTGCAAAAGTGCTGTGA	MPYLRYTLIYVLLMTLVVVASNILVQYPLSGSLFGVNLGDLLTWGAFTYPIAFLVTDLTNRQFGPSIARRVVLAGFVVGVTLSFWTSIPRIAVASGTAYLIGQLLDISVFNRLRRQRWWHAPLAGSMLGSVLDTALFFSIAFAASFSFVGPNDAFAIENAPILGVFAVEAPRWISWALGDLSVKVLVGLIMLLPYGALMNTLKPMPPAKVL	PGPT0014225_13	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014225-proC-K00286	NA	NA
BMS010_00662	978			hypothetical protein	ATGGCCGCCATTCTGGCGGCCGCATCGTTGTGTCCGGTTTCCATCGGCGCTTCCACCATCGATGTGCCGGTAAGCGTGCGCCTGCTTTCCTCTTTCGAGGTCGGCACCAGCGAAAAACGTTTCGGCAAGCTGGAATTTATCGGTGGCATGGTGATGAGCGCGCCGGAAAAGCTGTTCGGGGCGATATCCTCCATCCGTTTCCGTCCCAATGGGGAGGATTTCGTTGCGGTGCTCGATACCGGCCATTGGCTGACCGGCAGGGTCTTGCGTGACGCTCGCGGTGCTTTGTCGGGGCTTGCCGATGTCCGCATCACCCCCATGTTGGACATGAGCGGGCGCGAACCGCCGCGCAAGATGGAGATGGATGCGGAAGGGCTGGCGCTGCGCGACGGCAGGGTTTTCGTCAGTTACGAGCAGCGCCACAGGATCGATATCTATCCCGATCCGGGCTTCGCCACCGCAAAGCCGCTAGACCGCCTGCCATATCTCATCCCCAGCAACGAGTTGCGCCACAATGGCGGCCTGGAGGCTCTCGCGGTATCGCCCGCCGATTCGCCGCTCGCCGGCGCTCTGGTCGTGGTGGCCGAAAAAAGTATCGACACGGACGGCAATCTTCTCGCCGCCATATTGGAAGGTCCGCGCAAGGGCACATTTGCCGTCAAGCATCATCCGTCATTCGACGTGACGGACGGCGCATTCCTGCCCAATGGCGACCTGCTGCTTCTTGAGCGCCGCTTCAATTTCGCCGAAGGCGTGGGCATGCGCATCCGTCGCATCCGTGGGGCCGATATCCGGCCGGGCGCGGTGGTGGATGGCGAAATCCTAATGGAAGCCGGCATGGCCTACCAGATCGACAATATGGAAGGCATGGATGTGGTAAAGGGGCCGGACGGCTCCACACGCCTCATCATCGTTTCCGATGACAATCACTCGTTCCTCCAGCGCAACCTGATGCTGGAATTCAAGCTGGTGGAATAA	MAAILAAASLCPVSIGASTIDVPVSVRLLSSFEVGTSEKRFGKLEFIGGMVMSAPEKLFGAISSIRFRPNGEDFVAVLDTGHWLTGRVLRDARGALSGLADVRITPMLDMSGREPPRKMEMDAEGLALRDGRVFVSYEQRHRIDIYPDPGFATAKPLDRLPYLIPSNELRHNGGLEALAVSPADSPLAGALVVVAEKSIDTDGNLLAAILEGPRKGTFAVKHHPSFDVTDGAFLPNGDLLLLERRFNFAEGVGMRIRRIRGADIRPGAVVDGEILMEAGMAYQIDNMEGMDVVKGPDGSTRLIIVSDDNHSFLQRNLMLEFKLVE				NA	NA	NA	NA	NA
BMS010_00663	1905	cobT_1		Aerobic cobaltochelatase subunit CobT	ATGGCAGCGCGCGGCGACAATTCCAGAGCAAAACCGGGTACGGCGGTTGATACGGAGCCGTTGCGTCAGGCGATTGCCGGATGTGTGCGATCCGTCGCTGGCGACGCCGAAGTCGAAGTCGTTTTCGCCAATGAACGGCCGGGTCTTGCCGGTGAGCGCATGCGCCTGCCGGAAATTTCCAAGAAGCCGACCGCGCAGGAAATCGCCATCACGCGTGGCCTCGGTGATTCCATGGCGCTGCGTCTTGCCTGCCATGATGCCGATACCCACGCTGTGATGTCGCCGCAGGGCGCCGAAGCGCGGCTGATCTTCGATGCTGTCGAACAGGCGCGCGTGGAATCCATCGGCGCGCTGCGCATGCCGGGCATGGCCTCCAACATCCATGCCATGAACACGGAAAAATACGCCAAGGCCAATTTCGCCGGCATCAACAACAAGGATGATGCACCGCTTGCCGAAGCCGTGGCGCTTTTGGTGCGCGAGAGGCTGACGGGTGAGAAGCCGCCGGAAAGCGCCGGCAAGGTTGTCGATCTGTGGCGCGATTTCATCGAGGACAAGGCGGCCGGCGACCTCAAGGATCTCTCCAGCGTCATCACCGACCAGAAGGCGTTTTCGCGGCTGGTGCGCAAGATGCTGACCTCCATGCAGATGGCGGAAGATTTCGGCGACGAGGATAACGAGCCAGAGAGCCAGGAAGCGGAATCCAACGAGGATCAGCCGCGCACCAACGAGACCGAAGAAGAGCAGGTCGAGGAAGAGGCCGGCTCGGACGCGACGCCTGCCGATGAAAACGAGGCCTCGCAGGAGGAAATGGAAGAAGGCGAGATGGACGGCGCCGAGATGTCGGACGAGGAAATGTCCGACGATCTCGACGAGGATTCCGAAACGCCCGGCGAGACCCGCCGTCCCAACAGCCCCTTCGACGATTTCAACGAGAAGGTCGATTACCGCATCTTCACCCAGGAATTCGACGAGGAAATTCACGCCGAGGAACTGTGCGACGAGGCCGAGCTTGACCGTCTGCGCGCCTTCCTCGACAAGCAGCTCGCTCACCTTCAGGGCGCGGTCGGGCGCTTAGCGAACCGGCTTCAGCGCCGCCTGATGGCGCAGCAGAACCGTTCCTGGGACTTCGATCTGGAAGAGGGCTATCTCGATCCGGCCCGTCTTGTCAGGCTCATCATCGATCCGATGCAGCCGCTTTCCTTCAAGAAGGAGCGCGACACCAAGTTCCGCGATACCGTGGTTTCGCTGGTGATCGACAATTCCGGTTCGATGCGCGGCCGTCCGATCACGGTTGCGGCTACCTGCGCCGATATATTGGCGCGCACGCTGGAGCGCTCGGGCGTGAAGGTGGAGATTCTGGGCTTCACCACCAAGGCCTGGAAGGGCGGGCAATCGCGCGAACAGTGGCTTGCCAATGGCAAGCCGCCATCGCCGGGCCGTCTCAACGATCTGCGCCACATCATCTACAAGTCAGCGGACGCTCCGTGGCGACGCGCACGGCGCAATCTCGGCCTGATGATGCGCGAGGGCCTGCTGAAAGAAAATATCGACGGCGAAGCGCTGATGTGGGCGCATAACCGCCTGATCGGCCGCCCCGAGCAGCGCAAGATCATGATGATGATCTCCGACGGTGCGCCGGTGGACGATTCGACCCTGTCGGTCAATCCGGGCAATTATCTGGAGCGGCACCTGCGCGCCGTCATCGAGCAGATCGAAACGCGCTCGCCGGTGGAACTGCTGGCTATCGGTATCGGCCACGATGTGACGCGCTATTATCGCCGCGCCGTGACCATCGTGGATGCGGACGAGCTGGCCGGCGCGATGACCGAGCAGCTTGCGGCGCTCTTCGAGGATACGAGCGGCGCTTCCGGTTCGTCCCGCAGGGTTCGCCGTGCGGGATAA	MAARGDNSRAKPGTAVDTEPLRQAIAGCVRSVAGDAEVEVVFANERPGLAGERMRLPEISKKPTAQEIAITRGLGDSMALRLACHDADTHAVMSPQGAEARLIFDAVEQARVESIGALRMPGMASNIHAMNTEKYAKANFAGINNKDDAPLAEAVALLVRERLTGEKPPESAGKVVDLWRDFIEDKAAGDLKDLSSVITDQKAFSRLVRKMLTSMQMAEDFGDEDNEPESQEAESNEDQPRTNETEEEQVEEEAGSDATPADENEASQEEMEEGEMDGAEMSDEEMSDDLDEDSETPGETRRPNSPFDDFNEKVDYRIFTQEFDEEIHAEELCDEAELDRLRAFLDKQLAHLQGAVGRLANRLQRRLMAQQNRSWDFDLEEGYLDPARLVRLIIDPMQPLSFKKERDTKFRDTVVSLVIDNSGSMRGRPITVAATCADILARTLERSGVKVEILGFTTKAWKGGQSREQWLANGKPPSPGRLNDLRHIIYKSADAPWRRARRNLGLMMREGLLKENIDGEALMWAHNRLIGRPEQRKIMMMISDGAPVDDSTLSVNPGNYLERHLRAVIEQIETRSPVELLAIGIGHDVTRYYRRAVTIVDADELAGAMTEQLAALFEDTSGASGSSRRVRRAG	PGPT0009290_116	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0009290-cobT-K09883	NA	NA
BMS010_00664	990	cobS_1		Aerobic cobaltochelatase subunit CobS	ATGAGCAAAATCGACCTTGATATTTCCAACCTGCCCGACACGACGGTGTCCGTGCGGGAGGTTTTCGGCATTGATACGGATCTGCGGGTTCCCGCCTATTCCCAGGGCGACGCCTATGTGCCTGACCTCGATCCCGACTATCTTTTCGATCGCGACACGACGCTTGCGATCCTTGCCGGTTTTGCTCACAACCGACGTGTCATGGTCTCCGGTTTCCACGGCACGGGTAAATCCACCCATATCGAGCAGGTGGCCGCCCGCCTGAACTGGCCCTGCGTGCGCGTCAACCTCGACAGCCATGTCAGCCGTATCGACCTCGTCGGCAAGGACGCCATCGTCCTGAAGGACGGCAAGCAGGTCACCGAATTCAAGGACGGCATTCTGCCCTGGGCCTACCAGCACAATGTGGCGCTCGTCTTCGACGAATATGATGCCGGCCGCCCGGATGTCATGTTCGTCATCCAGCGCGTGCTGGAATCCTCCGGCCGCCTGACCCTGCTCGACCAGAGCCGCGTCATCCGTCCTCACCCGGCCTTCCGCATTTTCGCAACCGCCAACACCATCGGCCTTGGCGATACGACCGGCCTTTACCACGGCACGCAGCAGATCAACCAGGCGCAGATGGACCGCTGGTCCATCGTCACCACGCTGAACTACCTGCCGCATGAGCAGGAAGTGAACATCATCGCCGCCAAGGTGAAGAGCTTCGACAATCCGAAGGGCCGTGAAACCGTCTCCAAGATGGTACGCGTGGCCGATCTCACCCGTTCGGCTTTCATCAATGGCGATCTTTCCACGGTCATGAGCCCGCGTACCGTCATCACCTGGGCGGAAAATGCGGAAATCTTCGGCGATCTCGCCTTTGCCTTCCGCGTAACCTTCCTCAACAAGTGTGACGAGCTGGAGCGCACGCTGGTGGCTGAGCAATATCAGCGGGCTTTCGGCGTCGAGCTGAAGGAAAGCGCTGCGAACATCGTTCTCAGCGCCTGA	MSKIDLDISNLPDTTVSVREVFGIDTDLRVPAYSQGDAYVPDLDPDYLFDRDTTLAILAGFAHNRRVMVSGFHGTGKSTHIEQVAARLNWPCVRVNLDSHVSRIDLVGKDAIVLKDGKQVTEFKDGILPWAYQHNVALVFDEYDAGRPDVMFVIQRVLESSGRLTLLDQSRVIRPHPAFRIFATANTIGLGDTTGLYHGTQQINQAQMDRWSIVTTLNYLPHEQEVNIIAAKVKSFDNPKGRETVSKMVRVADLTRSAFINGDLSTVMSPRTVITWAENAEIFGDLAFAFRVTFLNKCDELERTLVAEQYQRAFGVELKESAANIVLSA	PGPT0009285_392	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0009285-cobS-K09882	NA	NA
BMS010_00665	636	dnaJ_2		Chaperone protein DnaJ	ATGAAACTGGATTCGAAATATTTCGATCGCATCCGCACGCGCCGGAAAAGGGAGAGGGAACCTGAGGTTCAGGCCCCGACCTGCCAGTGGGACGGATGCGACAAGCCGGGTATTCACCGGGCACCCGTCGGCCGCAATGCCGAGGGGCAATTCTTCCTGTTCTGTTTTGAGCATGTGAAGGAATACAACAAGGGCTATAATTATTTTTCCGGCCTGTCCGACAGCGAGATCGCCCGTTACCAGAAGGAAGCGATCACCGGCCATCGCCCCACCTGGACGGTGGGCGTCAACAAGACGGCGCGCGACAGCCCGCTGCATTCCACGCTGCGTTCCGGCACGGCAAGCGGGAACGCCCGTATCCGCGATCCTTTCGGCTTTGCCGGCGGTTTTGCGGGCGGCGCAAGGGCAGGCGGCACCCGCATGCAGCAGGACCGCAAATTGAAGACGCTGGAGGCAAAAGCCTTCGATACGCTCGGTCTTTCTTCCACCGCAAAGCAGGAAGACATAAAAAGGCGCTACAAGGAGCTTGTCAAAAAGCACCATCCTGATGCTAATGGTGGCGATCGTGGTTCGGAAGAGCGTTTTCGGGCTGTTGTTCAAGCATATCAATTGTTAAAGCAGTCAGGTTTCTGCTAA	MKLDSKYFDRIRTRRKREREPEVQAPTCQWDGCDKPGIHRAPVGRNAEGQFFLFCFEHVKEYNKGYNYFSGLSDSEIARYQKEAITGHRPTWTVGVNKTARDSPLHSTLRSGTASGNARIRDPFGFAGGFAGGARAGGTRMQQDRKLKTLEAKAFDTLGLSSTAKQEDIKRRYKELVKKHHPDANGGDRGSEERFRAVVQAYQLLKQSGFC				NA	NA	NA	NA	NA
BMS010_00666	282	bolA_1	COG0271	DNA-binding transcriptional regulator BolA	ATGTCTCTGCGAGAGCGCATAGAAACCAAGCTTCGGGAAAGCTTTTCTCCGGAGCGCCTGAGGGTCGTCGATGAAAGCCTGATGCATGCCGGCCACCAGCCGGATATGACCGGCACGGGCGAGACGCATATGCGTGTTCAGATAGTGTCGGAAAGCTTTTCCGGCAAGTCTCGCGTCGAGCGCCACCGGGCGATCAACGCGCTTTTGAAGCCGGAACTCGATGCCGGCCTGCATGCACTGGCGATTGAGGCGGCAGCGCCCGGGGAAGCGGTGCGGTTCTAG	MSLRERIETKLRESFSPERLRVVDESLMHAGHQPDMTGTGETHMRVQIVSESFSGKSRVERHRAINALLKPELDAGLHALAIEAAAPGEAVRF	PGPT0014930_1175	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014930-bolA-K05527	NA	NA
BMS010_00667	1134	aroB_1	COG0337	3-dehydroquinate synthase	ATGACGCCTTCCGAAATCCACGCCGATGAACGTCTCGTGCATGTGCCGCTCGGCGAGCGCGCCTATGACATTCTGATCGGGCCGGGCCTCATCGGCCGTGCGGGCGGCGAAATTTCGGCGCGGCTGAAGGGCCGGCGCGCGGCCATCATAACCGATGAACATGTCGCGCCGCTCTATCTCGAAGGCCTGATGGACGGGCTGCAGACGGATGGCATCGAGGCCGTTTCGCTGACCCTGCCTGCCGGCGAAAAGACCAAGAGCTTCGAGCATCTGGTCACCGTCTGCGATGCGGTTCTGGCAGCAAGAGTAGAGCGTAACGATGTGGTGATCGCGCTTGGTGGGGGCGTGATCGGCGATCTCGCGGGTTTCGCAGCCGGCATCGTGCGCCGTGGCGTGCGCTTCGTGCAGATACCGACCTCGCTTCTGGCGCAGGTCGATTCCTCTGTCGGCGGGAAGACGGGCATCAACAGCCGCCATGGCAAGAACCTCGTGGGCGTGTTCCACCAGCCCGATCTGGTGCTGGCGGATACGGCCGTGCTCGATACGCTGAGCCCGCGGGAATTCCGCGCCGGTTATGCCGAAGTGGTGAAGTACGGGCTGATCGACAAGCCGGATTTCTTCTTCTGGCTGGAAAAGAACTGGGATGAAATCCGCACCGGCGGCCCCGCCCGCATTCAGGCGATTGCGACGAGCTGCCAGGCGAAAGCCGATGTGGTGGTGGCCGACGAGAAAGAAAACGGCGTGCGCGCCCTTCTGAACCTCGGCCATACATTCGGCCATGCGCTGGAGGCGGCGACCAATTACGACAGCAAGCGGCTGGTGCATGGCGAAGGCGTCGCCATCGGCATGGTGCTGGCGCACCAGTTCTCCGCCCGCCTCAACCTCGCAAGCCCGGACGATGCCGCCCGCGTCGAAGCGCATCTGAAGGCCGTCGGCCTGCCAACGACGATGAAGGATATCCCCGGCGAGTTGCCGCCGGTGGAAACGCTGATGGCGGCAATCGCGCAGGACAAGAAGGTCAAGGGCGGCAAGCTCACCTTCATCCTCACCCACGGCATCGGCCAGTCCTTCGTGGCCGATGATGTTGCGGCGTCCGAAGTGCAGTCCTTCCTGTCGGAAAAACATCCGGGTTAA	MTPSEIHADERLVHVPLGERAYDILIGPGLIGRAGGEISARLKGRRAAIITDEHVAPLYLEGLMDGLQTDGIEAVSLTLPAGEKTKSFEHLVTVCDAVLAARVERNDVVIALGGGVIGDLAGFAAGIVRRGVRFVQIPTSLLAQVDSSVGGKTGINSRHGKNLVGVFHQPDLVLADTAVLDTLSPREFRAGYAEVVKYGLIDKPDFFFWLEKNWDEIRTGGPARIQAIATSCQAKADVVVADEKENGVRALLNLGHTFGHALEAATNYDSKRLVHGEGVAIGMVLAHQFSARLNLASPDDAARVEAHLKAVGLPTTMKDIPGELPPVETLMAAIAQDKKVKGGKLTFILTHGIGQSFVADDVAASEVQSFLSEKHPG	PGPT0012865_604	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-PHENAZINE_DERIVATES	BIOTIC_STRESS_RESISTANCE-PHENAZINE-1-CARBOXYLIC_ACID_BIOSYNTHESIS,PGPT0012865-aroA-K01735	NA	NA
BMS010_00668	582	aroK	COG0703	Shikimate kinase 1	ATGAATGAAACGAATTTATCCGTCCCGGCCACACTCGGGGAGCAAGCGCGGGCAAAGCTCGGACGGCGCAACATCGTCTTCGTCGGGCTGATGGGGGCTGGAAAGTCGGCAGTGGGCCGCATGGTAGCCCAGCAGCTCAGGGTGCCGTTCATCGATACGGATGTCGAAATCGAGCGCGTTTCGCGCATGACGATATCGGAACTTTTCGCCACCTATGGCGAGGAAGAATTCCGGGCGCTGGAAACGCGGGTCATCAAGCGGCTGCTTCGAGGCGGCCCCAAGGTCATCTCCACCGGCGGCGGCGCCTTCATCAACGACAATACCCGCCGGCACATCACGCGCGGCGGCATTTCATTGTGGCTGAAGGCCGATCTCGAGGTGTTGTGGGAGAGGGTCAACAAGCGCGACCACCGCCCGCTTCTCAAGACCGAAAACCCCAAAGCCACGCTGGCGGCCCTGATGGAGAAGCGCTATCCGATCTATGCGGAAGCGGATCTGACCATCGAATCCCGCGATGTCCGCAAGGAAATCATCGTGACAGAAGTGCTGGCCGCCATAGCCGGCATCGAACAGAAAGACTGA	MNETNLSVPATLGEQARAKLGRRNIVFVGLMGAGKSAVGRMVAQQLRVPFIDTDVEIERVSRMTISELFATYGEEEFRALETRVIKRLLRGGPKVISTGGGAFINDNTRRHITRGGISLWLKADLEVLWERVNKRDHRPLLKTENPKATLAALMEKRYPIYAEADLTIESRDVRKEIIVTEVLAAIAGIEQKD	PGPT0012900_1002	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012900-aroL|aroK-K00891	NA	NA
BMS010_00669	174			hypothetical protein	ATGCCCACCCTCTTCCGCTTCACGATGATACTGGCGACCATCGCGGGGCTGATCTATGGCGGCATGGTGCTGCTCGTCATGGTCGTCAAACCGCGCGACCGCGAAGTGACGGTACGCATCCCTTCCGAGCGGCTGAACCCGCCGTCTACCGAACCGGCAAGGCGCACCCCATGA	MPTLFRFTMILATIAGLIYGGMVLLVMVVKPRDREVTVRIPSERLNPPSTEPARRTP				NA	NA	NA	NA	NA
BMS010_00670	993	xerD_1		Tyrosine recombinase XerD	ATGAGCGGACCGGCAGGAGGGCGCGACGGCGCGCGGCTGGAAAGTTTTCTGGAAATGATGAGTGCCGAACGCGGGGCTGCCCCCAACACGCTCTCTTCCTATGAGCGCGACCTTGCTGACTTGCGCGAATTTCTCGGCCGTCGCGGCCAGACCCTGACGGAAGCGCAGACGCCTGACCTTTCCGCCTATCTGACCCATCTTTCCGCTCAGGGTTTTGCCGCAACCTCACAGGCGCGACGTCTTTCCACCATGCGACAATTCTATCGTTTTCTCTATTCGGAAGGGCTGCGCGGCGACGACCCGACCGGCATCATCGATGCGCCGAGAAAAGGTCTCGGCTTACCGAAAACGATGAGCGTCGCCGATGTGAACCGGCTTCTTAGCCTTGCCGCGCAGGAAGCCGCCACATCCGGTCCCGGCCAGATGGCGCGCATCCGCATGCATCTGCTGCTCGAACTGCTTTATGCCACCGGCATGCGTGTCAGTGAGCTTGTCTCGCTGCCGGTCAAGGTGCTGCGTCAGGAAGGCCGCTTCCTGATGATACGCGGCAAGGGCAACAAGGACCGCATGGTTCTTCTTTCCCGCGCCGCCATCGAGGCGATGGAAAAATACGAGGCTGCCAGAAAGGCGCTCGTATCGGAGAAGAGCAAGGTGGCCGCTTCGCAGAAAAAACCGGAGACACCGGAAAGCCCGTGGCTGTTTCCTTCCAACGGCAAGGAAGGCCACCTGCCCCGCCAGGTCTTTGCTCGCGACCTCAAGGACATCGCCATCCGTGCGGGCCTGACCCCGTCTGCGATATCGCCGCATGTGCTGCGCCACGCCTTTGCCAGCCACCTTCTGCAGAACGGCGCGGATTTGCGCGCGGTGCAGGAACTGCTCGGCCATTCCGACATTTCCACGACACAAATCTATACACATGTGCTGGAAGAACGCTTGCAAGAGCTGGTACAAACACATCACCCCCTTGCCAAACAGGGCAAAAACCTTGATTAG	MSGPAGGRDGARLESFLEMMSAERGAAPNTLSSYERDLADLREFLGRRGQTLTEAQTPDLSAYLTHLSAQGFAATSQARRLSTMRQFYRFLYSEGLRGDDPTGIIDAPRKGLGLPKTMSVADVNRLLSLAAQEAATSGPGQMARIRMHLLLELLYATGMRVSELVSLPVKVLRQEGRFLMIRGKGNKDRMVLLSRAAIEAMEKYEAARKALVSEKSKVAASQKKPETPESPWLFPSNGKEGHLPRQVFARDLKDIAIRAGLTPSAISPHVLRHAFASHLLQNGADLRAVQELLGHSDISTTQIYTHVLEERLQELVQTHHPLAKQGKNLD	PGPT0022000_2135	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0022000-xerD-K04763	NA	NA
BMS010_00671	954	accA_1	COG0825	Acetyl-coenzyme A carboxylase carboxyl transferase subunit alpha	ATGCACAATTATCTCGACTTCGAAAAACCTATCTCGGACCTTGAGGGCAAGATCATCGAGCTGAAGAAGCTTGCCGATGAAGACGAGAGCATAGACACCTCGGAGGAGATCAACCGTCTGGAATCGCGCGTCAACGACGCGATGCAGGACATCTATTCCAAGCTCAACGCCTGGCAGAAAACGCAGGTCGCGCGCCATCCGCAGCGTCCGCATTTCGTCGATTACGCCAAGGCGCTGTTCACTGATTTCACGCCGCTGGCCGGCGACCGCAAATTTGCCGAAGACGCCGCCATTCAGGCAGGCCTCGGCCGCTTCAACGGTCAGCCCGTCGCCATCATCGGCCAGGAAAAGGGCAACGACACCAAAAGCCGCCTGAAGCATAATTTCGGCAGCCCGCGCCCGGAAGGTTACCGCAAGGCAATCCGCGTGCTGGAACTGGCCGACCGTTTCTCGCTGCCGGTGATCACCCTCATCGATACCGCAGGCGCCTATCCCGGCGTCGGCGCGGAAGAACGCGGCCAGGCCGAAGCCATCGCCCGCTCGACGGAAATGTGCCTCAACGTGAAGGTGCCGATCGTCTCCGTCGTCATCGGCGAAGGCGGCTCGGGCGGCGCAATCGCCATCGCCACCGGCAACCGCGTCTACATGCTCGAACACGCCATCTACTCGGTGATCTCGCCGGAAGGCGCCGCTTCCATCCTCTGGCGCGATTCGACCCGCGCCAAGGAAGCCGCAACCAATATGAAGATCACCTCGGAAGATCTGAAATCGCTCGGCGTCATCGACGGAATCATTCCGGAGCCGATCGGCGGCGCACACCGTGCTCCGGAAACCGTGATCGGTGCGACCGGCGATGTCATCGCCAAGGCGCTGGCCGATCTCTCCCAGCGTTCCGGCACACAGCTGCGCGCTGAACGCCGCCAGAAGTTCCTGGATATTGGCCGGAATCTCTAG	MHNYLDFEKPISDLEGKIIELKKLADEDESIDTSEEINRLESRVNDAMQDIYSKLNAWQKTQVARHPQRPHFVDYAKALFTDFTPLAGDRKFAEDAAIQAGLGRFNGQPVAIIGQEKGNDTKSRLKHNFGSPRPEGYRKAIRVLELADRFSLPVITLIDTAGAYPGVGAEERGQAEAIARSTEMCLNVKVPIVSVVIGEGGSGGAIAIATGNRVYMLEHAIYSVISPEGAASILWRDSTRAKEAATNMKITSEDLKSLGVIDGIIPEPIGGAHRAPETVIGATGDVIAKALADLSQRSGTQLRAERRQKFLDIGRNL	PGPT0001695_2343	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0001695-accA-K01962	NA	NA
BMS010_00672	1299			hypothetical protein	ATGCGTTTGACACATTTTGCACTTCTTGCCTGCACCGCGCTCGTTCTTGCCGGCTGCAACGATACGCTCGAAACCGTTGAACGCGACGTCTCCCACGTCAAGAACAAGGTCGATTACCCGCTATCTCCGGCCATTCTGGCCGAGATCGACAAAAGGGGCATGGACCGCACCTCGCCGATCATGATCCGCATCTTCAAGGAAGAAGGTGCCTTGGAAATCTGGAAAGCCAGGCGCGACAACCGTTTCGAGAAGATTGCCAGCTACGAGATTTGCGCATGGTCCGGCAAACTCGGCCCGAAGGTGAAGGAAGGCGACCGGCAGGCGCCGGAAGGTTTCTACAACCTGACGCCCGCGCATCTCAATCCGAACTCGAAATATTATCTCGCCATCAATACCGGTTTCCCGAACCGCTACGATGCCGCCAATGGCCGCAACGGCACCAATCTGATGATCCATGGCGCCTGCTCGTCCTCCGGCTGTTATTCGATGACGGATGCGCAGATTCTTGAAATTTACGGTTTTGCCCGTGACGCCTTCAAGGGCGGCCAGAAGACCGTGCAGCTGCAGGCCTTCCCGTTCCGAATGACGGCGGAAAACATGGCCCGCCACCGCCAGAGCGAACATCTCGAATTCTGGAAGATGCTGAAGGTCGGTTACGACAATTTCGAAGTGACCAAGCGCCCGCCGGAAGTGAATGTCTGCGAGAAGAAATATGTCTTCAACCAGCAGACGGAAGGCGGCAGCTTCAACGCCTCCGCCCAATGCCCGGCCATGAGCACACCGCCGGCGCTCGTCAGCGCGCTTTCGAGCTACGAGAAGACCTATGATCTCGCCTATGAAAAGGCGATGAAGAAATATGACGGCATGGCCTGGTACGACCCGAGCGAAGCCGAGCGCAAGGCGCTGGTCGCCGAAAAGCGCAAGGGTCGCGAGCCGGCGTATGCCCCGACCGGCTCGGCGCTGAAGGCCGGCAAGCTGATGAAAGAAACGGAATATGCCGCGCTGATGGAGAAGAAGGCGCAGCAGGTGACGTCTTCCTCACCGGCCACGACCGCAACCGCCTCGGCCCTGCGCGGCCCACGCCCTTCGGCTGTCCAGCCCGCCACGGCACCACAATCGAACCCGGCCCCGGCAGCACCGACGATGGTTGCCTCGGCTGCCCCCGCAGCAGCCGGCCAGACCGGAGCTGCCGCCCAGAGCGTTCCGGTTCCGACCATGAACCCGCTTGCCTATTCCGCAGCACCCGCACCCGAAGCGCCGGAAAAGAAGCCATTCTGGAAGTTCTGGGCCAAGGAATGA	MRLTHFALLACTALVLAGCNDTLETVERDVSHVKNKVDYPLSPAILAEIDKRGMDRTSPIMIRIFKEEGALEIWKARRDNRFEKIASYEICAWSGKLGPKVKEGDRQAPEGFYNLTPAHLNPNSKYYLAINTGFPNRYDAANGRNGTNLMIHGACSSSGCYSMTDAQILEIYGFARDAFKGGQKTVQLQAFPFRMTAENMARHRQSEHLEFWKMLKVGYDNFEVTKRPPEVNVCEKKYVFNQQTEGGSFNASAQCPAMSTPPALVSALSSYEKTYDLAYEKAMKKYDGMAWYDPSEAERKALVAEKRKGREPAYAPTGSALKAGKLMKETEYAALMEKKAQQVTSSSPATTATASALRGPRPSAVQPATAPQSNPAPAAPTMVASAAPAAAGQTGAAAQSVPVPTMNPLAYSAAPAPEAPEKKPFWKFWAKE				NA	NA	NA	NA	NA
BMS010_00673	237	tusA_1	COG0425	Sulfur carrier protein TusA	ATGAGCGACACGGCCGAGATCGTCTATGATTTGAGGGGGCTTAAATGCCCCCTTCCGGTTTTGAGAAGCCGCAAGAAACTCGCAACCCTGAAGGCGGGAGATGTTCTGACCGTCGAGACGACCGATCCGCTGGCGGTGATCGATATTACGCATATGTGCAATGAGGATGGGCATAGGCTGGTGGAAACCACTGCGCTGGAAAAGGGGCATCGGTTTCGCATTGTGAAGGGCGTGTAA	MSDTAEIVYDLRGLKCPLPVLRSRKKLATLKAGDVLTVETTDPLAVIDITHMCNEDGHRLVETTALEKGHRFRIVKGV				NA	NA	NA	NA	NA
BMS010_00674	1143	yjiA_1	COG0523	P-loop guanosine triphosphatase YjiA	ATGTCTCGCGATCGCATCCCGGTTTCCATCATCACCGGATTTCTCGGCGCCGGAAAATCGACGCTGCTCAACCGGCTCCTCAAGGATCCGGCGATGAGCGATGCGGCGATCATCATCAATGAATTCGGGGATGTCAGCATCGATCACATGCTGGTCGAAAGTGCTGGTGAGGGCATCATCGAGCTGGCGGAGGGCTGCCTGTGCTGCACGGTGCGCGGCGAGTTGGTGGATACGCTGGCGGAACTGATGGACGGCATTCAGACAGGCAAGCTGAAGCCGGTAAAACGGGTGGTGATCGAGACCACGGGCCTTGCCGATCCCGCCCCCGTTATGCAGTCGGTCATGGGCAACCCGGTCATCGCGCAGAATTTCGTGCTGAACGGCATGATTACGGTGGTGGATGCCGTCAACGGCCTTTCCACGCTCGACAATCATCAGGAGGCGGTGAAACAGGCCGCCGTGGCTGACCGTCTGGTGATGACCAAGCGCACGCTTGCGGATGCTGCCACGATTTCCGCGCTGACAGCCCGTCTACAAGCGCTCAATCCGCGCGCGACCATCGAGGATGGCGACAAAACCGAGTGGAGCGCTACGGGGCTTCTCGACAACGGCCTTTACGATGCCGGCAGCAAGAATGCCGATGTCGGCCGCTGGCTGGGCGAAGAGGCGGTACACGATCACCACGATCATGATCACGGTCACGACCATCACCACCATCATGGCGATCACGACGACCACCATCATCATCACGATGTGAATCGGCACGATGCGTCTATCCGTTCCTTCTCGATCATTCACGATCAGCCGGTCAGCCCGATGGCGATCGACATGTTCGTGGATCTGCTGCGCTCGGCACATGGTGAAAAGCTCCTGCGCATGAAGGCCATCGTCAAGCTGTCGGATAATCCGGCCCGGCCGTTGGTGCTGCATGGGGTGCAGAATATTTTCCACACGCCGGAGCGCCTTGCGGCCTGGCCGGACCCGGCTGATCAGCGCACGCGCATGGTGCTGATTACGAAGGATTTGCCGGAGGCTTTCGTGCAGGACCTGTTCGCAGCCTTCACAAGCGCACCGGGCATCGACCGGCCGGACAGGCAGGCGATGACGGATAATCCGCTGGCGGTTTCGGGGTTGCGGTTTTAG	MSRDRIPVSIITGFLGAGKSTLLNRLLKDPAMSDAAIIINEFGDVSIDHMLVESAGEGIIELAEGCLCCTVRGELVDTLAELMDGIQTGKLKPVKRVVIETTGLADPAPVMQSVMGNPVIAQNFVLNGMITVVDAVNGLSTLDNHQEAVKQAAVADRLVMTKRTLADAATISALTARLQALNPRATIEDGDKTEWSATGLLDNGLYDAGSKNADVGRWLGEEAVHDHHDHDHGHDHHHHHGDHDDHHHHHDVNRHDASIRSFSIIHDQPVSPMAIDMFVDLLRSAHGEKLLRMKAIVKLSDNPARPLVLHGVQNIFHTPERLAAWPDPADQRTRMVLITKDLPEAFVQDLFAAFTSAPGIDRPDRQAMTDNPLAVSGLRF				NA	NA	NA	NA	NA
BMS010_00675	1116			hypothetical protein	TTGCCACAGACTTTTAAATCGCCAAACGCCGCCAGACGGCTTTCCGCAGCCGTTGCCATCATGACCGCAGGCCTCGTTGCCGCAGCACCCGTGGCAAATGCCAATCCGAAAATGGTGGTCGATGTCAAAACCGGCAAGGTGATTTCCCACCAGGAAGCCTTCCGCAAGTGGTATCCCGCTTCGCTCACCAAGCTGATGACCGCCTATATCGCCTTTTCGCAGATGAAGGCCGGCAAGATCAGCCCGCAGACGGAAGTGGTGATGAGCAAGAAGGCCGCCGATCAGCCGGCCTCGAAAATGTATTTCAAGCCCGGCCAGAAGCTGACGATGGATAGCGCTTTGAAGCTGCTGCTCATCAAATCCGCCAATGACATCGCCGTGGCGATTGCCGAGACCATCGGCGGCACCAGCGATAATTTCGTGGCGCAGATGAATGCGCAGGCGCAGCGGCTGGGCATGAGTTCCACCCGTTACATCAACGCCAATGGCCTGCCCGGCAAGGGACAATATACGACCGCCCGCGATCTGGCGCTGCTGGCGCTGATCATCAAGCGCGAGTTTCCGGAATATGCCCATTATTTCTCGCTGGAAGGCGTCAGCACCGGCAAGAAGAACTACGCCAACTTCAACATGCTGGTCGGCCGTTTCGAGGGCGCGGATGGCATGAAGACCGGCTTCATCTGTGCCTCTGGCTTCAACCAGGTGTCGTCGGCCGTGCGCAATGGCCGCTCGGTCATCACGGTCGTGCTGGGTGCGGACAGCCTTGCCGGACGCACCGATCAATCGGCCGATCTGTTGCAGATGGGGCTGACGGCGCCTTCGGGCCAAGGCGTTTCGCTCGCCGCGCTGGCGCCCTATGGCGATACCGGTGATGTGAACGATATCAGCGCCGAAATCTGCAACCCGAAGGCCGCCAAGGTGCGCAGCGAAAGCCGCGACGAGGCTGGCCGCATGGTCATCCATTCGCCCTATGTGCAGGAAATGACCCGCCCGCCGGAATATTCCTTCGCCGGTCTCATTCCGGGCAGCGAGACGGTGGCGGTGAATGCCACCAAGGGAGCTGGCAAGGGCGAACTCGCCAACGTGCCGATCCCGATCCCGCGCCCGACATTCTGA	MPQTFKSPNAARRLSAAVAIMTAGLVAAAPVANANPKMVVDVKTGKVISHQEAFRKWYPASLTKLMTAYIAFSQMKAGKISPQTEVVMSKKAADQPASKMYFKPGQKLTMDSALKLLLIKSANDIAVAIAETIGGTSDNFVAQMNAQAQRLGMSSTRYINANGLPGKGQYTTARDLALLALIIKREFPEYAHYFSLEGVSTGKKNYANFNMLVGRFEGADGMKTGFICASGFNQVSSAVRNGRSVITVVLGADSLAGRTDQSADLLQMGLTAPSGQGVSLAALAPYGDTGDVNDISAEICNPKAAKVRSESRDEAGRMVIHSPYVQEMTRPPEYSFAGLIPGSETVAVNATKGAGKGELANVPIPIPRPTF	PGPT0024040_1760	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024040-dacC|dacA|dacD-K07258	NA	NA
BMS010_00676	1164	hipO_1	COG1473	Hippurate hydrolase	ATGCCGATTTTGAACAGAGCCGCCGAACTCCAGCAGGAAGTCAGCGAATGGCGGCGACACCTGCATGAAAATCCCGAGATTTTATATGATGTCGACAACACCGCGGCCTTCGTTGCTGAGAAGCTGAAATCTTTCGGCGTTGACGAAATCGTGACCGGTCTCGGCCGCACGGGTGTGGTCGGCATCATCAGGGGCAATCTTCCGGGCAATCGCACCATCGGCTTTCGCGCGGATATGGACGCTCTCCCAATTTTTGAGGAAACCGGCAAGCCCTGGGCCTCGAAAACCGCGGGCGCCATGCATGCCTGCGGCCATGACGGCCACACGGCCATGCTGCTTGGCGCGGCCAAATATCTTACCGAGACCCGCAATTTTGCGGGCTCCATCGCCGTCATCTTCCAGCCGGCGGAAGAAGGCGGCGCCGGCGCTCTCGCCATGGTCGAGGACGGCCTGATGGAGCGTTTCGGCATTAACGAGGTCTACGGCATGCACAACATGCCGGGCATTCCGCTCGGCGCCTTCGCCATCCGCAAGGGCGGCATTATGGCTGCACCGGACAAGTTCTCCATCACCGTCAAGGGCCGTGGCGGCCACGCGGCACAGCCGCACCGCACCGTCGATCCGATCACCATCGGCGCGCAGATCGTCGGCAACCTGCAGATGATCGCCTCACGCAATGCCGACCCTATCCGCTCGGTGGTCGTCTCCGTCACCCGCTTTCAGGCCGGCTCCAGCCACAACATCATCCCCAACGAGGCATTGATCGCCGGCACGGTGCGCAGCCTCGATGAAACTGTGCGCGATCTGGCGCAGGATCGCATCAAGCAGATGGCGGAAGGTATTGCCCTCGCCAACGGCGCGGAAGCGGAAGTCGTCTATGAGCGTTATTGCCCGGTAACCTTCAACCACGCCGCCGAGACCGACCACGCCATCCGTGTTGCCCGCGATGTGGCAGGCGAACCGAATGTCGATCCCGATGTCGATCCTTCCATGGCGGGAGAGGATTTCTCCTTCATGCTGAAGGAAAGACCGGGATGCTTCATCTTCATCGGCAACGGCGATTCGGCCGGGCTTCACAATCCGGGCTATGATTTCAACGACGAGGCCATCGCTTACGGCATTTCCTACTGGGTGAAACTGGCGGAACAGCGCCTGACGAGCTGA	MPILNRAAELQQEVSEWRRHLHENPEILYDVDNTAAFVAEKLKSFGVDEIVTGLGRTGVVGIIRGNLPGNRTIGFRADMDALPIFEETGKPWASKTAGAMHACGHDGHTAMLLGAAKYLTETRNFAGSIAVIFQPAEEGGAGALAMVEDGLMERFGINEVYGMHNMPGIPLGAFAIRKGGIMAAPDKFSITVKGRGGHAAQPHRTVDPITIGAQIVGNLQMIASRNADPIRSVVVSVTRFQAGSSHNIIPNEALIAGTVRSLDETVRDLAQDRIKQMAEGIALANGAEAEVVYERYCPVTFNHAAETDHAIRVARDVAGEPNVDPDVDPSMAGEDFSFMLKERPGCFIFIGNGDSAGLHNPGYDFNDEAIAYGISYWVKLAEQRLTS				NA	NA	NA	NA	NA
BMS010_00677	297			hypothetical protein	ATGATCGACGAATATGGTCCATATGTGCAGATGTCCACGCTTGGAGAACAGATGGCTGCCTGCTACCAGACGGATGCAAATCTCGTATTGGAACCGCATCTGGCGCATTACATGGACGAGGTGGAGGTCAATATCGCCGCCGATAGTTTTAATCACGTTGGCTTTCTGAACAACATCACAAGCCGGCTACAGGTGACACTGACGGCAACGACCAATCCCAGGCGCCGGGAATTTCTACAAGCCGTTGTGGCTTCGCTTCAGGAGCGGATCCACCGCCATTCACTCGATGTGGCGTAA	MIDEYGPYVQMSTLGEQMAACYQTDANLVLEPHLAHYMDEVEVNIAADSFNHVGFLNNITSRLQVTLTATTNPRRREFLQAVVASLQERIHRHSLDVA				NA	NA	NA	NA	NA
BMS010_00678	2079	pbpC_1	COG4953	Penicillin-binding protein 1C	ATGAGGCGGAAGAAGGCGATCATTGTCGGCATGATGACGGCCGCGTTGCTTATGGGCGGCGCGGCCTTCGGTCTCGATGCGCTGGACAAGGCCTATCCGCCGCCGCTGGACGCTGCGCAGCAACGATCCTTCGAGGTTCTGGATCGTGACGGCAAGCTGTTGCGCGCTTTTGCGACACCCGATGGCCGCTGGCGGCTGAAAACCACGGCCGCCGAAGTCGACCCACAGTTCCTGCGCATGCTGGTGGCCTATGAAGACCAGCGTTTCTACGATCACCACGGGGTCGATCCCTGGGCGCTTTTGCGCTCCGCCTGGCAATTGGCCAGCAACGGCCGGATCGTTTCCGGTGCATCGACGCTTTCCATGCAGGTGGCGCGGCTGATCGAGCCGCGCGCCGACCGGTCGTTTTCGGCGAAATTCCTGCAGGCCGCGCGTGCGCTCCAGATCGAGAGAAGGCTCAGCAAGGCGGAAATCCTCGATCTCTATCTGAATATCGCGCCCTATGGCGGCAATCTCGAAGGCATTCGCGCCGCAAGCCTCGCCTGGTTCGGCAAGGAGCCGGGCAGGCTCGATACGGCGGAGGCAGCCCTTTTGGTGGCGCTGCCGCAATTGCCGGAAAAGCGACGCCCGGATCGCTTTCCGGAGGCGGCGAAGCAGGCGCGCGAGCGGGTGCTGCAACGGCTTGCCGTGGAACGCGTGGTGGGTGAGGGGGAAGCGGAACGGTCGGCGCTTGCGAATGTGCCCACCAACCGGCGGGACCTGCCGGCCTATGCGCCGCATATGGCCGTCGCCGCACGGGTGAAATTCCCGGATACTGCCGAGGTGCGTTCCACGCTGAAGCTGCCGATCCAGCGGGAGCTGGAGGGTGTTGCCCGCCATGCGGCGGAAAAGCTCGGCGACAGGGTCTCCGTCGCCATCGTCATGGCCGATGCGCAGAGCGGCGATATTCTGGCGGAAGTGGGCTCGGCGGATTATCTCGATACGGCAAGACGCGGTTTCGTGGAGATGAGCCGGGCCGTTCGCTCGCCGGGCTCCACCCTCAAGCCATTCATCTACGGCCTTGCCTTCGAACACGGTCTTGTCGGGCAGGAAACCATCATCGAGGATCGCCCGGCCGACTTTTCCGGTTACAGGCCGCGCAATTTCGACATGCATTATCAGGGCGATGTCAGCATCCGGCAAGCGCTGCAACTGTCGCTCAACGTGCCTGCCGTCAAGCTGCTGGATGCCGTCAGCCCCTCGGCGCTGATGGTGCGGTTCCGGCGGGTGGGCGTCAAACTCGTTCTTCCCGCCAATGAAGCGCCCGGGCTTGCCATCGCCCTTGGCGGCGCGGGTGTTTCGCTGGTCGATCTGGTGCAGCTCTATGCGGGGCTTGCCGGCGGCGGCGATCCCGTGCGGCTTGGAGACGGCGTCCGCGCCGCCCCGGAACGGCTGGAGGGGGACCGGTTATTCTCCGATGCCGCTATCTGGAACATCTCCGACATCCTCTCCGGCGTGCTGCCGCCGCTCGGCATGAAACAGCGCGGCATCGCCTACAAGACCGGCACCAGCTATGGCTATCGCGATGCCTGGTCGGTGGGGTATGACGGGCGGCATGTGGTGGGCGTCTGGGTCGGCCGGGCCGACAATGGCGCGGTGCCGGGCATTGCCGGTTATGCGACAGCCGCCCCGATCCTGTTCGAGGCCTTCGAAAAATCCGGCGTGGCGATCACGCCGCTGCCGGCCGCACCTTCCGGTGTCGCCCGGGTCGTGGTCAATGACCTCCCCGCCAACCAGCGGCGTTTCACCACGACGGCCAGCGGCCTGCTTTCTGCTTCAAGACGTGAAAGCGCCCCGCGCATCGTTTACCCGCCGGAAGGCGCGCGCGTGGAGCTTTCCGGCCAGTCGGGTATCTCGCCGCTGGTACTGAAGCTGCAGGGCGGGCGCGCACCTTTCCGCTGGCTCGCCAATGGTTTGCCCTTGCCGAACGCTTCCCATCGCCGCAACAGCGAATGGCGGCCGGAAGGCCAGGGATTTTCCACACTGACGGTGATCGACGCCGATGGCCGCGCCTCGAGCGTGCGGGTTTTCGTCGAATAG	MRRKKAIIVGMMTAALLMGGAAFGLDALDKAYPPPLDAAQQRSFEVLDRDGKLLRAFATPDGRWRLKTTAAEVDPQFLRMLVAYEDQRFYDHHGVDPWALLRSAWQLASNGRIVSGASTLSMQVARLIEPRADRSFSAKFLQAARALQIERRLSKAEILDLYLNIAPYGGNLEGIRAASLAWFGKEPGRLDTAEAALLVALPQLPEKRRPDRFPEAAKQARERVLQRLAVERVVGEGEAERSALANVPTNRRDLPAYAPHMAVAARVKFPDTAEVRSTLKLPIQRELEGVARHAAEKLGDRVSVAIVMADAQSGDILAEVGSADYLDTARRGFVEMSRAVRSPGSTLKPFIYGLAFEHGLVGQETIIEDRPADFSGYRPRNFDMHYQGDVSIRQALQLSLNVPAVKLLDAVSPSALMVRFRRVGVKLVLPANEAPGLAIALGGAGVSLVDLVQLYAGLAGGGDPVRLGDGVRAAPERLEGDRLFSDAAIWNISDILSGVLPPLGMKQRGIAYKTGTSYGYRDAWSVGYDGRHVVGVWVGRADNGAVPGIAGYATAAPILFEAFEKSGVAITPLPAAPSGVARVVVNDLPANQRRFTTTASGLLSASRRESAPRIVYPPEGARVELSGQSGISPLVLKLQGGRAPFRWLANGLPLPNASHRRNSEWRPEGQGFSTLTVIDADGRASSVRVFVE	PGPT0023940_1460	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023940-pbpC-K05367	NA	NA
BMS010_00679	5457	yfhM_1	COG2373	Alpha-2-macroglobulin	ATGTCGTTGCGCGCGCTCGTCCGGATTTCGCTGGTTGCGGTCTCAACCGTCCTGTTTTTTCCGCCAGCCATGGCGGCGGAACCATCCCGCAAGGTCGTTACGACCCAAAATGGCGATTATTTCGGCTTCGATCTCAGGACGGAGCAAAATGTCTCGCTGGAGCAATGCGGCGAGATTTGCGTCGGCGATACCGCCTGCAAGGCCTTCACCTACAATCCCAAGGTGAAATGGTGCTTCCTTAAGTCGGATTTCAATCAGCTGAATGCCTTCCCTGGCGCAGTTGCCGGCAAGATTGTGGAAGTGGCCGCGGAAGCCGATATCGGCGCACCGCAGCGCCTGTCCTTCGTGACCGACAGCCTGCAGCAGGAAGCGCGCCGGCTGAAATCCGGCCTCGCGGCGAATGAGGGCGAGGGCGAACAGGGCCTGGAAGCTCTCGTGGAAACGGCGCGCCAGCAGGCAGCCGCCGGCAATATTCCCGATGCAGTCACGACCTATAAACAGGCGCTTGCGATCACACCTGACGATGGCGCGCTCTGGGCGGAATTGTCGGAAAAGGCCGCGCAGGTCACCGATAATTATTCGATAGCGGGACAAGCCGCTTCCGCTGCCATCAATGCCTACCAGCTGAGCCGCACGGTCAGCGCCCGCACCCAGGCCCTGAACCGGCTGGCGAAGGCTTTTGAGCGAACCCAGAATTATCGCGCGGCACTCAATGCCTATAAGGAAAGCCTTGCGCTTGCCGACAATGCACAGACCAAGGCGGCCTATGCCGATCTGCGCACGCGGCAGGGTTTCCGCGTCATCAACAATACCGTGGATACCGATAGCATCAGCCCGCGCGCCTGCGTGCAGTTTTCCGAGCCGCTGGTGAAGAACGGCGTCGATTATTCCTCCTTCATCACGCTCGATGGGGCAGCGCCCAAGGCTATCGAGGCGAAGGGCAGCGAGATTTGCGTGGAAGGCCTGAGCCATGGCCAGCGTTACAAGATCGCGTTTCGCGCCGGCCTGCCGTCTTCGGTGGAAGAGCCTCTGGAAAAGCAGGTCGATCTCGATATATACGTGCGTGACCGCGCCGCCAGCGTGCGCTTCACCGGCGAGAACTTCGTGCTGCCGGGCACGGCGCGCCGCGGCATTCCAATCGTCTCTGTTAATGCCGACAAGGCCGACCTGAAGCTTTATCGCGTCGGCGACCGCAACATCACCTCGCTTCTTTCAAACTCGCAGTTTCTGACGCAGATGGACGGCTACAATGCCGACCGTATCGAAAACGAAATTGGCGAGCTTGTCTGGCAGGGCTCGATCGATATCCAGCCCGATCTCAACAAGGATGTGGTGACGAGTTTTCCGGTGGATGAGGCCCTGCCCGAGCGCAAGCCCGGCATCTATGTGCTGACCGCCGTACCGCCGGGCACCGCACCGGAAACCTGGGATTCGCGCGCCACGCAATGGTTCCTCGTATCCGATACCGGCATCACCACCTATGCCGGAACCGATGGGCTCAATGTCTTCGTCCGCGCCCTTGGCAGCGCCAAGCCGTTGGCAGATGTGGATTTGCAGCTGCTCGCCAAGAATAACGAGGTGCTGGGCACTGCGAAGACCGATGCGGACGGCCGCGCGGTGTTCTCAGCCGGCCTGATGCGCGGCACGGCGGCGCAGGCGCCTGCGATTCTGACGGCGCGCAACGGCGACAAGGACTATGTGTTCCTCGACATGACCCGCGCCGGCTTCGATCTTTCGGATCGCGGCGTGACGGGCCGTGCAGCCCCCGGCGCCATCGACGTGTTCAGCTGGACGGAACGCGGCATCTACCGCGCCGGCGAGACCGTGCATGCCGCAGCCCTTGCCCGCGATGTCGACGGCAAGGCAATCGAGGATCTGCCGCTCACCTTCATCTTCTCGCGCCCGGATGGTGTCGAGGATCGGCGTTTCGTCAGCGACGGCAAGGCGCTCGGCGGCCATGCGGTCGATCTGCCGTTGCAGGCAAATGCGATGCGCGGCACCTGGACATTGCGCATCCATACCGATCCGAAAACGCCTGCGATCAGCGAAAAGAGCTTCCTTGTCGATGATTTCGTGCCTGACCGCACCGAGTTCGACCTCTCGAGCAAGGCAAAACAGATCGACCCTGGCGCGGAAACGGCAATCGATGTCGAGGGTCGTTATCTCTATGGTGCGCCCGCAGCCGGCCTGACGCTGGAAGGCGAGGTCGCCATCAAACCGACGCGCACCAGCGCCGATTTCGAAGGTTATTTCTTCGGTCTGGCCGATGAGGAAAGCGAAGAGGAAAACCGCACCACGCTTGCCGATCTGCCGGCGCTGGACGAAGAGGGCAAGGCGAGCTTCAATGTTGATCTCACCGATCTGCCATCCACAACGCAGCTTCTTTCCGCCAACATCACCGTGCGCATGCGCGAAGCCGGTGGACGTGCCGTGGAGCGCTCCCTGACGCTGCCCATCAAGGCTGAAGCGCCGGTCATCGGTATCAAACCGCAATTTTCCGGCGATCTCGCCCAGAATTCCGTTGGCCGTTTCCACATCATCGGCGTCAATGCTGACGGTGCCAAACAGGCGATGAATGGTCTGACCTGGAAGCTCATCAAGGTCGAGCGGAACTATCAATGGTATCGTCAGGGCAATTCCTGGCGTTACGAGCCGGTGGAATATACCAAGCAGCAGGAAGCGGGCACGCTTTCGGTCGATGCCAATGGCGGCGAGATTTCCGTGCCCGTCACCTGGGGTCGCTATCGGCTGGAAGTGGAGGGCGCCGGCAATGGCGCGCCTGTTTCCAGCGTTGAGTTCGATGCCGGTTTTTATGTCGAGGCAAGTTCGACCGAAACGCCGGATGCGCTGGAAATCGCTCTCGACAAGCAGAGCTACAAGATCGGCGATACGGCCAAGCTCAAGGTTTCCTCGCGGTTTGCTGGCGAGTTGATGGTGACTTCCGGTTCGGAAAAGCTGATTGCCGTGCAGAATGCCGAGATCGGCGAGGATGGCGGCGAGATCGACATTCCCGTCACCGAGGAATGGGGTGCGGGCGCTTATGTGACAGCCACGCTGTTCCGTCCCGGCGATGCGCAGGAAAGCCGTATGCCGATGCGCGCCATCGGCATCAAATGGCTTGCCGTCGATCCGGCCGAGCGCAAACTTGCCGTCACGCTTGGCGCGCCGCAGAAAACGCTGCCGCGCCAGCCGCTTGAAATTCCGATCACCGTCGCCGGTGCCGGCGTGGGCGAAAAGGCCTATGCCATCGTTGCGGCAGTCGATGTCGGCATATTGAACCTTACCCGCTATGAGCCGCCGAAACCGGATGAATGGTATTTCGGCCAGCGTCGGCTGGGGCTGGAAATCCGCGACCTCTATGGCCGCCTGATCGACGGTTCGCTCGGCGCCACCGGCCGGTTGCGCACTGGCGGTGACGGCGGGCAGGCAGCCCTTCAGGGCAGCCCACCCACGGAAAAGCTCGTGGCCTTCTTTGCCGGTCCGGTCGAACTCGACGCAGACGGCAAGGCGACGGTGAGCTTCGATATTCCGCAGTTCAACGGCACGGCCCGCATCATGGCGGTGGCCTGGACGAAGACAGGCGTGGGACATGCCGTCTCCGACGCCATCATTCGCGATCCTGTCGTGGTCACGGCCAGCGCGCCGAAATTCCTCGCTCCCGGCGATGTCTCGCAATTGCGGCTCGATATCGCCAATACCGATGGCGAGCCCGGCGATTACCGGCTGGATGTGACCAGCAATACCGCATTGACGGTCGATCAGGGTGAGATGTCGCAAACTCTCGCGCTTCAGAAAGGCGGCAAGTCTTCGCTGACGGTCCCGCTTACGGGCGAACAGCCCGGCAATGGCGCGATCACCATCAAGGTTTCCAATGCCGCCGGTCTTTCACTGGAGCAGGTTCTGAACGTGCCGGTGCGCCCGGCCGTTCTGCCGGTGACGACGCGGCGCGAAATCAAGATCGCGCCCAATAGCAGCCTGACGATCAATGGCGATCTTCTGGCCGACAGCATGCTGCTCGGCTCTTCCGTCGCGGTCAACGTCACGCGCTCGCCTGCCTTCGATATTCCGGCGCTGGTGATGATGCTGGACAAATATCCTTACGGCTGCGCCGAACAAACGACGAGCCGCGCTTTGCCGCTGCTTTACGTTTCGGAACTGACGAAGGATAGCGGCCTTGCAGAAGACCCCGATACCCGCAAGCGCGTGCAGGAGGCGATCTACCGCGTGCTGTCCTACCAGTCGAGTTCCGGCAGCTTCGGCCTCTGGTCGCCGGGTTACGGCGATCTGTGGCTCGATGCCTATATCAGCGACTTCCTGACCCGCGCCCGCGAGCAGAATTACGATGTGCCCGAAGCAGCCATGGTGCAGGCGCTGAACAACCTGCAAAACGGTCTTTCCTATGACAGCAATGTCAAGGATCGCGGCAACGAGATCGCCTATTCGCTTTATGTGCTGGCGCGCAACCGCAAGGCGGCGATCAACGATCTGCGTTATTACGCGGATACGGCGCTGGCCGATTTCGCCACACCGCTCGCCAAGGCGCAGGTTGCCGCCGCCCTTTCGCTTTATGGCGATCAGGCCCGTTCGAAGGCCGTATTCGGCGCTTCGCTCGACATGGCAAGCCGCACCACCAATGTCAGTTTCTCGCGCGCGGATTATGGCTCCGCCCTGCGTGACGGCGCGGCGACGCTGGCGCTTGCGGCGGAAAGCCGGCCGGTTCCGGCCGTCGTGCCGCAGCTTGCCGGTGCGGTGGCGAAGGAATGGGAAAAGAAGCCCTATACCAGCACCCAGGAACAGGCATGGATGCTGCTGGCCGCCCGCGCCGTGAAAGGCGAGGACAAGGATATCCGTCTCGATGTGAACGGCGATCTGCAGACCGGCGGCTTCGGCAAGCGGATGAGCGGCGATGAATTGCTGGCCGCACCCTTGAAGATCGCCAATGCCTCGGCCGATCCGGTCACGGCCGTCGTCACCACGGTGGCGCCGCCGGCGCAGCCACTTGCCGCCGGCGGCGAAGGCTTCACCATCACCCGCACCTATTATTCCATGGATGGCGAGGAGGTGAACCCGAGCGAGGTGGTCCAGAACGAGCGTTATGTCGTGGTGCTTAATGTGGTGCCGCAGAATAACTGGCAGTCGCGCATTCTGGTGACGGACCTGCTGCCCTCCGGTTTCGAAATCGACAATCCGAGCCTCGTCAATTCGGCTGAGCTTTCGAATTTCGACTGGCTGCCGGAAACGGAAGCGGCGCATACGGAATTCCGCTACGACCGTTTCGTGGCGGCCTTCGATCACTCGGCCGGCGACAGTTCGGAAATTGCCCTTGCCTATGTGGTCCGCGCCGTTACCCCCGGCACCTACGATCATCCGGCAGCTTCGGTTGAGGATATGTACCGGCCGCAATTTGCCGCCCGCACGGCAACCGGCCGCATGGAGGTGCGCTCGGCAAACCCATGA	MSLRALVRISLVAVSTVLFFPPAMAAEPSRKVVTTQNGDYFGFDLRTEQNVSLEQCGEICVGDTACKAFTYNPKVKWCFLKSDFNQLNAFPGAVAGKIVEVAAEADIGAPQRLSFVTDSLQQEARRLKSGLAANEGEGEQGLEALVETARQQAAAGNIPDAVTTYKQALAITPDDGALWAELSEKAAQVTDNYSIAGQAASAAINAYQLSRTVSARTQALNRLAKAFERTQNYRAALNAYKESLALADNAQTKAAYADLRTRQGFRVINNTVDTDSISPRACVQFSEPLVKNGVDYSSFITLDGAAPKAIEAKGSEICVEGLSHGQRYKIAFRAGLPSSVEEPLEKQVDLDIYVRDRAASVRFTGENFVLPGTARRGIPIVSVNADKADLKLYRVGDRNITSLLSNSQFLTQMDGYNADRIENEIGELVWQGSIDIQPDLNKDVVTSFPVDEALPERKPGIYVLTAVPPGTAPETWDSRATQWFLVSDTGITTYAGTDGLNVFVRALGSAKPLADVDLQLLAKNNEVLGTAKTDADGRAVFSAGLMRGTAAQAPAILTARNGDKDYVFLDMTRAGFDLSDRGVTGRAAPGAIDVFSWTERGIYRAGETVHAAALARDVDGKAIEDLPLTFIFSRPDGVEDRRFVSDGKALGGHAVDLPLQANAMRGTWTLRIHTDPKTPAISEKSFLVDDFVPDRTEFDLSSKAKQIDPGAETAIDVEGRYLYGAPAAGLTLEGEVAIKPTRTSADFEGYFFGLADEESEEENRTTLADLPALDEEGKASFNVDLTDLPSTTQLLSANITVRMREAGGRAVERSLTLPIKAEAPVIGIKPQFSGDLAQNSVGRFHIIGVNADGAKQAMNGLTWKLIKVERNYQWYRQGNSWRYEPVEYTKQQEAGTLSVDANGGEISVPVTWGRYRLEVEGAGNGAPVSSVEFDAGFYVEASSTETPDALEIALDKQSYKIGDTAKLKVSSRFAGELMVTSGSEKLIAVQNAEIGEDGGEIDIPVTEEWGAGAYVTATLFRPGDAQESRMPMRAIGIKWLAVDPAERKLAVTLGAPQKTLPRQPLEIPITVAGAGVGEKAYAIVAAVDVGILNLTRYEPPKPDEWYFGQRRLGLEIRDLYGRLIDGSLGATGRLRTGGDGGQAALQGSPPTEKLVAFFAGPVELDADGKATVSFDIPQFNGTARIMAVAWTKTGVGHAVSDAIIRDPVVVTASAPKFLAPGDVSQLRLDIANTDGEPGDYRLDVTSNTALTVDQGEMSQTLALQKGGKSSLTVPLTGEQPGNGAITIKVSNAAGLSLEQVLNVPVRPAVLPVTTRREIKIAPNSSLTINGDLLADSMLLGSSVAVNVTRSPAFDIPALVMMLDKYPYGCAEQTTSRALPLLYVSELTKDSGLAEDPDTRKRVQEAIYRVLSYQSSSGSFGLWSPGYGDLWLDAYISDFLTRAREQNYDVPEAAMVQALNNLQNGLSYDSNVKDRGNEIAYSLYVLARNRKAAINDLRYYADTALADFATPLAKAQVAAALSLYGDQARSKAVFGASLDMASRTTNVSFSRADYGSALRDGAATLALAAESRPVPAVVPQLAGAVAKEWEKKPYTSTQEQAWMLLAARAVKGEDKDIRLDVNGDLQTGGFGKRMSGDELLAAPLKIANASADPVTAVVTTVAPPAQPLAAGGEGFTITRTYYSMDGEEVNPSEVVQNERYVVVLNVVPQNNWQSRILVTDLLPSGFEIDNPSLVNSAELSNFDWLPETEAAHTEFRYDRFVAAFDHSAGDSSEIALAYVVRAVTPGTYDHPAASVEDMYRPQFAARTATGRMEVRSANP				NA	NA	NA	NA	NA
BMS010_00680	189			hypothetical protein	ATGGACGACAGGATGAGCAATGTCGATCCCAAGCTGCTGGAGCTTCTGGTCTGCCCTTTGACGAAAGGGCGTCTTGCCTATGACCGCGCCCGCAATGAACTCATCTCCGAAAGCGCGAGGCTTGCTTATCCGATCCGCGATGGCGTGCCGATCATGCTGATTTCGGAAGCGAGAAAAATAGAAGACTAA	MDDRMSNVDPKLLELLVCPLTKGRLAYDRARNELISESARLAYPIRDGVPIMLISEARKIED	PGPT0022380_14	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022380-lpxK-K00912	NA	NA
BMS010_00681	672	lon2	COG0466	Lon protease 2	ATGCATGTCGGAAATGCGAGATATGTGAAGAACGACGATCTGCCGGAAACCGTGCCGGTCTTCCCATTGCCGGGCGCGCTGCTTCTACCGGAAGGCCATCTTCCGCTCAATATTTTCGAGCCTCGATATCTCGCCATGATCGACCGAGCGTTAGCGGGCCATCGCATCATCGGCATGGTGCAGCCCGCGCTGCATGTCATCGAGGCGGGGCTTGAGGGCGGTCCGCTGAGCGCGGTCGGCTGCCTCGGCCGCATCACGTCCTTTTCCGAAACCGGCGATGGCCGTTATATCATTTCGCTCACCGGCGTGTGCCGCTTCCGCCTGCTGGAAGAGGTGGAGGCGGGCAAACCCTATCGCAGCTTCCGGCATGCGCCCTTCATCGCCGATCTTTCCGGCGAGTATGACGAGGATGCGGTGGACCGCGAAAACCTGCTCCGGGTATTCCGCTCGTTTCTGGATGCCAACCAGCTGGAGGCGGATTGGGAAAGCGTGGAAAGGGCGGGCAATCGTGTCCTCGTCAATTCGCTTTCCATGATGTCTCCCTTCGGGCCTGCCGAAAAACAGGCATTGCTGGAAGCGCCTGATCTGAAGACGCGGGCCGAAACATTGATCGCCATCACCGAGATCGTTCTTGCCCAGGGATCGGGCGAGGGCGGCAACGTGCTGCAATAG	MHVGNARYVKNDDLPETVPVFPLPGALLLPEGHLPLNIFEPRYLAMIDRALAGHRIIGMVQPALHVIEAGLEGGPLSAVGCLGRITSFSETGDGRYIISLTGVCRFRLLEEVEAGKPYRSFRHAPFIADLSGEYDEDAVDRENLLRVFRSFLDANQLEADWESVERAGNRVLVNSLSMMSPFGPAEKQALLEAPDLKTRAETLIAITEIVLAQGSGEGGNVLQ				NA	NA	NA	NA	NA
BMS010_00682	969	cnoX_1	COG3118	Chaperedoxin	ATGAGCGGCGAAAATAATCCTTACGGCGGTTCCTATAGCGGGCAGATGACCGCAAGCGCCCATCATAATGGCGAGCTGAACGGTGCGGCCTCCGGCCACATCAAGGACACCACGACGGCGGGTTTCTCCAGGGACGTTCTTGAGGAATCGCGCCGCCAGCCGGTTCTGGTGGATTTCTGGGCGCCCTGGTGTGGTCCGTGCAAGCAGCTGACGCCGGTGCTCGAGAAGGTCATCAACGAGGCGAATGGCCGCGTGAAGCTCGTGAAGCTGAATATTGACGACCACCCGTCGATCCCCGGCCAGCTCGGCATCCAGTCCATTCCGGCAATCGTCGCCTTTGCCGACGGCCGGCCGGTGGATGGCTTCATGGGTGCCGTGCCGGAAAGCCAGATCAAGCAGTTCATTGAGAAGATCGCCGGGCCTGACGCGGGCGATCCCAAGGCCGAGATCGAGGCTGTTCTGACGGAAGCGAAGCAGCTTCTGGCGGATGGCGATTTCAACGGCGCGGCGCAGCTTTTCGGCGCCGTCATGCAGGCCGATCCGGAAAATCCGGCAGCGATTGCCGGTATCGCCGAATGCATGATCGCCGCCGGTCAATATGAGCGGGCAAGCGAACTGCTCTCTTCGCTGCCCGCGGAACTCAACGAGGATGCGGGTATTCAGCTCGTTTCGAAAAAGATCGCGCAATATGAGGAAGCCCGTAAAATCGGCGACCCGGTGGCGCTGGAGCGCGAGCTTGCGCTCGATCCCGATCGTCACGAGGCGCGGGTGAAGCTTGCCAAGGTGCTGAATGCTCAAGGCCGGCGCGATGAGGCCGCGGACCATCTGCTTTACATCATGCGCAAGGACCGGACCTTCGACGATGACGGCGCGCGCCGCCAGCTTCTGGAGTTTTTCGAGGCCTGGGGCTTCAAGGACCCGGCAACCGTTGCCGGCCGCAGGAAGCTTTCGGCGATACTGTTTTCGTAA	MSGENNPYGGSYSGQMTASAHHNGELNGAASGHIKDTTTAGFSRDVLEESRRQPVLVDFWAPWCGPCKQLTPVLEKVINEANGRVKLVKLNIDDHPSIPGQLGIQSIPAIVAFADGRPVDGFMGAVPESQIKQFIEKIAGPDAGDPKAEIEAVLTEAKQLLADGDFNGAAQLFGAVMQADPENPAAIAGIAECMIAAGQYERASELLSSLPAELNEDAGIQLVSKKIAQYEEARKIGDPVALERELALDPDRHEARVKLAKVLNAQGRRDEAADHLLYIMRKDRTFDDDGARRQLLEFFEAWGFKDPATVAGRRKLSAILFS				NA	NA	NA	NA	NA
BMS010_00683	510	proX	COG3760	Prolyl-tRNA editing protein ProX	ATGGCGGAAAATTCCCAAAAGACGGCAACGGAGCTGTTCGAGTTTCTCGACGGACTCGGCATTTCCCACACCACGAAGCAGCATGAACCGGTATTTACCGTCGCCGAATCCCAGTCGCTTCGCGACCTCATTCCCGGCGGCCATACAAAGAACCTCTTTGTAAAGGACAAGAAGGATCAGTATTTCGTTCTGACCGTTGAGGAAAATGCGGTCGTCGATCTGAAAAGCGTTCACAAGACCATCGGTGCGGCGAGCCGCGTGTCCTTTGGCAAACCGGAAAAGATGCTTGAATATCTGGGCGTCGCGCCGGGCTCGGTGACGGTGTTCGGAGCCATCAACGACACCGACAGGCAGGTCACCTTCGTGCTCGACAGCGGGCTTCTGGAAAACGAGCTGGTCAATGGCCATCCGCTTTCCAACGACCAGACGACAACGATCGCGTCCACGGATCTCATTCGCTTTCTCGAGGCAACCGGACATGCGCCGCTTGTCTTGAAAGTCACCGAGTGA	MAENSQKTATELFEFLDGLGISHTTKQHEPVFTVAESQSLRDLIPGGHTKNLFVKDKKDQYFVLTVEENAVVDLKSVHKTIGAASRVSFGKPEKMLEYLGVAPGSVTVFGAINDTDRQVTFVLDSGLLENELVNGHPLSNDQTTTIASTDLIRFLEATGHAPLVLKVTE				NA	NA	NA	NA	NA
BMS010_00686	1209	mnmA_1		tRNA-specific 2-thiouridylase MnmA	ATGGGAAAAAACGTGAATACGCTCGATTTTGACAAGAGGCCGGAAGATACCCGGATCGTTGTCGCCATGTCCGGTGGCGTCGATTCTTCGGTGGTGGCCGGTATCCTCAAGCGCGAGGGCTATGATGTCCTCGGCATTACCCTCCAGCTTTATGACCACGGAGCTGCCGTGCACCGCGCCGGCTCCTGTTGCGCGGGGCAGGATATAGACGATGCGCGCCGGGTCTGCGAAACGCTCGGCATTCCCCACTATGTGCTGGATTACGAAGCGCGGTTCCGTGAAACTGTCATCAACCCCTTTGCCGAAGCCTATGCGATGGGTGAAACGCCGATCCCCTGCGTGGCCTGCAACCAGACGGTAAAATTCGCCGATCTGCTCGCCACCGCGCAGGAACTGGGCGCCGATGCGCTGGCGACCGGCCATTATATTCGTTCGCGTCCCAATCCCGTTTCCGGTCAGCCGGGGCGGCGTGCGCTTTATCGGCCGATCGACAGTGACCGTGACCAGAGCTGGTTCCTGTTTGCAACCACGCAGGAACAGATCGATTATCTGCGCTTTCCACTCGGCGGCCTCTCCAAGGCCGAGACGCGCGCTCTGGCGGAAGATATGGGGCTGGTCGTCGCCAAGAAGGCTGACAGCCAGGACATCTGTTTCGTGCCGCAGGGCAAATATACCGATATCATTAACAAGCTGAAGCCGAATGCGGCATTGGCAGGCGATATCGTCCATCTCGACGGGCGCGTGCTCGGCCGCCACGATGGTATCGTGCATTATACGATCGGCCAGCGCCGAGGCATTGGTGTCGCGACGGGGGAGCCGCTTTATGTCGTGCATCTCGATGCACGCGGCCGCCGGGTCATCGTTGGCCCGCGCGAGGCGCTGGAAACCCGCCGGGTCTATCTGCGTGACATGAACTGGCTGGGTGACGGCGAGCTGGCGAACGATGCAGGGCAGGGCTTTGCCTGTTTCGCCAAGGTGCGCTCCACCCGCCCGCCGACGGAAGCGATGCTGCATGCGGACGAAAACGGTATCTATGTGGACCTGATGACCGGGGAGGCCGGTGTCGCTCCCGGTCAGGCCTGCGTGCTTTATTCCGCACCGGGGGCCGATGCCCGCGTTTACGGCGGCGGTTTCATCGAACGGTCGGAACGCTCGGCGGAAGCCGAGGCGTCGCTGAAGGCGCTTCTGGAAAAGCCGGTTGCCGCCTGA	MGKNVNTLDFDKRPEDTRIVVAMSGGVDSSVVAGILKREGYDVLGITLQLYDHGAAVHRAGSCCAGQDIDDARRVCETLGIPHYVLDYEARFRETVINPFAEAYAMGETPIPCVACNQTVKFADLLATAQELGADALATGHYIRSRPNPVSGQPGRRALYRPIDSDRDQSWFLFATTQEQIDYLRFPLGGLSKAETRALAEDMGLVVAKKADSQDICFVPQGKYTDIINKLKPNAALAGDIVHLDGRVLGRHDGIVHYTIGQRRGIGVATGEPLYVVHLDARGRRVIVGPREALETRRVYLRDMNWLGDGELANDAGQGFACFAKVRSTRPPTEAMLHADENGIYVDLMTGEAGVAPGQACVLYSAPGADARVYGGGFIERSERSAEAEASLKALLEKPVAA				NA	NA	NA	NA	NA
BMS010_00687	1191			hypothetical protein	ATGAAACGCTTTGACCTGATCGACGGGATGCGTGGTTACTTCCTCGTCTTCATGCTGATCAACCATCTGGTGTTTGCCGGCGGTTTCTGGCTGGTGGAAATTAATCACCGGCAGTTTGCCTTTGTCGAGGACGCGCAGGGCTTCGTGTTCCTGTCCGGCCTGCTGATCGGCATGGTCTATGCGCGCAAGATGATGAAATACGGCTATGACGCCGGCAAGCAGATGATCTGGAACCGGGCGCTGGAGCTTTATCGTTACGCGATGGGTCTCGTCATCGCCGTGCTGTTCTTCCGCATGGTCATCCCGCATGCACCCTATATCTGGTACAACTGGCTCGGCATGACGTCGTTCGACGACCCGCTGCGACTGGCGGCGATCGCGACATTCCTGTTCCAGCCGACCTTCATGGATATTCTGCCGCAATATATCGTCTACATGATCTTTGCGCCTGTGCTGGTGAAGCTCTGCCTTGACGGCAAGTGGGCCTATGTCATGGCCGGCTCCCTGCTGGTCTGGATGGCCGGCCAGCTTGGCCTGCAGCAGATCGTGACGACCCCGCTCAACGAACTCGTGAAGGGTGCGGACGAGCAGGGCATTCGCGTCAGCTTTAACCTGCTCGGCTGGCAGCTCGTATTCTATTCGGCGCTGGTGATGGGCGCGATGACGGCGCAGAACCGCATTCCGTGGAAGGCGATCTTCTCGCCTGAGCATACGTGGCTGCCGAAAGCGGCGCTCGTCATCTGCCTGTTCTTCATGCCGCTGCGCATCGCCACAGCCTGGGGCCTGATGCCGGAATTCATGATGGGCAAATTCTCCACCATGGAAATCCGCGCCGATTTCGGTCCGGTCTATCTCATCAACTTCCTCGCCGTCGGCGTCGGCCTGACCTGGCTGGTGATCGCAGGTCCGAAGCATCATCGTCCGCTCGTGCGCTCCATCGCCGAGGGCGTCATCTGGGTGCTGTCGCTGAAGTTCCTGCAATTGCTCGGCCGCCATTCGCTTCAGGTCTATGTCTGGCACGTGGCCATCGTCTATGGCGTCTATTATCTGGACGGCCGCACGGCGGAACTGTCTCAGCTCAACAAGACCCTGATCGCCTTCACGGCTATCGGACTGCTGGCCCTGCCAGCCCTGTGGCGGGAGCGCGACAAGTGGTTCGGCAGCAGCGGCCAGAAGACGGCCGGCGCCTGA	MKRFDLIDGMRGYFLVFMLINHLVFAGGFWLVEINHRQFAFVEDAQGFVFLSGLLIGMVYARKMMKYGYDAGKQMIWNRALELYRYAMGLVIAVLFFRMVIPHAPYIWYNWLGMTSFDDPLRLAAIATFLFQPTFMDILPQYIVYMIFAPVLVKLCLDGKWAYVMAGSLLVWMAGQLGLQQIVTTPLNELVKGADEQGIRVSFNLLGWQLVFYSALVMGAMTAQNRIPWKAIFSPEHTWLPKAALVICLFFMPLRIATAWGLMPEFMMGKFSTMEIRADFGPVYLINFLAVGVGLTWLVIAGPKHHRPLVRSIAEGVIWVLSLKFLQLLGRHSLQVYVWHVAIVYGVYYLDGRTAELSQLNKTLIAFTAIGLLALPALWRERDKWFGSSGQKTAGA				NA	NA	NA	NA	NA
BMS010_00688	1074			hypothetical protein	ATGTTTGCTGCCTTTCGGCGCTTCAAGGGTTTGTTCGCAGTCGCCGCGCTTGGTATCGCGGCGTCTTTCGTGGCGGTTGATATGGCAGAAGCGCGTCGCGCCAGCGGCGGTTTCGGCAGCCGCGGCACGCGGACCTATTCCGCTCCGCCTTCGACCAGCACGGCCCCCGGCCAGACCGCGCCGATCAACCGCAGCATGACGCCCAACACCAATCAGGCAGCGCCGAGCGCTGCTCAGCCGGCCCGTCCGGGCGCGCAGGCGCCGCAACAGAATCGCGGCCTGTTCGGCGGCATGATGGGTGGTTTGATGGGCGGCCTGTTGATGGGCGGTCTGTTCGGCATGCTGCTGGGTGGCGGTTTTGGCGGCATGGCCGGTTTCTTCGGCATGCTGTTGCAGGTGGCGCTGATCGGTCTTCTGGTCATGCTCGCCATGCGTTTCTTCGCCTCGCGCCGTCAGGGCCAGCCCGCTTATGGCTCGGCCGTTGGGTCGCAGCGCACGGATCATTCCGGTTCCTCCTATAATGGCGGTTCGCAGGCGGGTTCTGCCGCTTCCTCTTTCAAGATTCCGAAGATCGGCGCGCTGGCCGGCGCTGCGGGCGGTGTGGCCGCCACTGCCGCAACGGCAAAGCCTGTGCCTCATGCTAATGCCATGTCGGAAGGCGATGAAATCGGCATTACCCAGGGCGATCTCGAAACTTTCCAGAAAATGCTGGAAGACGTACAGGCCGCCTATGCCGCCGAGGATTACGGCACCTTGCGCAAGCTGACGACGCCGGAAGCCATGTCTTACCTCGCAGAAGAACTGAGCGACAACGCCACGAGCGGCGTGAAAAACGACGTACGCGATGTGACGCTGCTACAGGGCGATGTTGCCGAAGCATGGCACGAAGAGGGCCAGGACTATGCAACGGTGGCGATGCGCTACTCCGCCATCGACGTGATGCGCGACCGCACCTCCGGCAAGGTAATCGAAGGTGACGAGCACCAGCCTTCTGAAGCGGTGGAAATGTGGACCTTCGTTCGTCGCCCCGGAAACGACAACTGGCAGGTGGCCGCTATTCAGGCCGCTGCCTGA	MFAAFRRFKGLFAVAALGIAASFVAVDMAEARRASGGFGSRGTRTYSAPPSTSTAPGQTAPINRSMTPNTNQAAPSAAQPARPGAQAPQQNRGLFGGMMGGLMGGLLMGGLFGMLLGGGFGGMAGFFGMLLQVALIGLLVMLAMRFFASRRQGQPAYGSAVGSQRTDHSGSSYNGGSQAGSAASSFKIPKIGALAGAAGGVAATAATAKPVPHANAMSEGDEIGITQGDLETFQKMLEDVQAAYAAEDYGTLRKLTTPEAMSYLAEELSDNATSGVKNDVRDVTLLQGDVAEAWHEEGQDYATVAMRYSAIDVMRDRTSGKVIEGDEHQPSEAVEMWTFVRRPGNDNWQVAAIQAAA				NA	NA	NA	NA	NA
BMS010_00689	1596	serA_1	COG0111	D-3-phosphoglycerate dehydrogenase	ATGGCACCTCGCGTACTCGTATCCGACGAACTGTCGGAAACCGCCGTCCAGATCTTCCGCGATCGTGGCGTCGAAGTCGATTTCCAGCCGAAGCTCGGCAAGGACAAGGACAAGCTTGCCGAAATCATCGGTAACTACGATGGTCTCGCCATCCGCTCCGCCACGAAGGCAACCGAAAAGCTGATCGAGGCTGCGACCAACCTCAAGGTTATCGGCCGCGCCGGCATCGGCGTCGACAATGTCGATATTCCGGCCGCCTCGCGCCGCGGTATCATCGTCATGAACACGCCTTTCGGCAACTCCATCACAACGGCAGAACACGCGATTGCGCTGATGTTCGCAGTTGCCCGCCAGCTTCCGGCAGCCGACAGCTCCACGCAGGCCGGCAAGTGGGAAAAGTCGAAATTCATGGGTGTCGAAATTACCGGCAAGACGCTCGGCGTCATCGGCGCCGGCAACATCGGCTCCATCGTCTGCTCGCGTGCACTCGGTCTCAAGATGCATGTTCTCGCTTATGACCCCTTCCTGTCCCCGGAACGCGCGCAGGAAATGGGCGTCACCAAGGTTGAGCTGGACGAACTGCTGGCCCAGGCCGATTTCATCACCCTGCACGTGCCGATGACCGACAAGACGCGGGGCATCCTTAATGCCGAAAACCTCGCCAAGACCAAGAAGGGCGTTCGTATCGTCAACTGCGCCCGTGGCGGTCTGGTGGATGAAGCGGCCCTTGCCGAAGCCATCAAGTCCGGCCATGTCGCCGGCGCCGGTTTTGACGTGTTCGAAGTCGAACCCGCCACGGAGAGCCCGCTTTTCGGCCTGCCGAACGTCGTCTGCACACCGCATCTCGGTGCTTCGACCACGGAAGCGCAGGAAAACGTTGCCCTTCAGGTTGCCGAGCAGATGTCGGATTACCTCGTCAAGGGTGCGGTTTCCAACGCCATCAACATGCCGTCGATTACGGCTGAGGAAGCACCGCGCCTGAAGCCCTTCATCCGTCTGGCGGATGTTCTCGGCTCTTTCGTCGGTCAGGTGCAGGAAAGCGCCACCAAGGAAATCGAAATCCTTTATGACGGTGCAACCGCCAGCATGAACACCAAGGCATTGACCAGCGCCCTGCTGGCCGGCCTGATCCGCAGCCAGGTTGCGGATGTGAACATGGTTTCGGCCCCGGTCATGATCAAGGAAAAGGGCATCATCCTCTCCGAGGTCAAGCGCGACAAGACCGGCGTTTACGACGGCTACATCAAGCTGACGGTCAAGACGGAAAATCAGATCCGCTCGGTTGCCGGCACGGTTTTCTCGGATGGCAAGCCGCGCTTCATCCAGATCAAGAACATCAACATGGATGCCGATGTTGGGTCGCATATGATCTACATCACCAACACCGACGTTCCCGGCATGATCGGCTTCATGGGCACCACGCTCGGCGAGGCTGGCGTCAACATCGCCAACTTCCAGCTCGGCCGTGAAAAGGAAGGCGGCGACGCCATCGCGCTGCTTTATGTCGACGGCCCGGTTTCCGAAGCGGTGCTGGACAAGCTGCGCGCCAACCCGGCGATCCGCCAGGTCAAGCCGCTGACGTTTAACGTCGACTGA	MAPRVLVSDELSETAVQIFRDRGVEVDFQPKLGKDKDKLAEIIGNYDGLAIRSATKATEKLIEAATNLKVIGRAGIGVDNVDIPAASRRGIIVMNTPFGNSITTAEHAIALMFAVARQLPAADSSTQAGKWEKSKFMGVEITGKTLGVIGAGNIGSIVCSRALGLKMHVLAYDPFLSPERAQEMGVTKVELDELLAQADFITLHVPMTDKTRGILNAENLAKTKKGVRIVNCARGGLVDEAALAEAIKSGHVAGAGFDVFEVEPATESPLFGLPNVVCTPHLGASTTEAQENVALQVAEQMSDYLVKGAVSNAINMPSITAEEAPRLKPFIRLADVLGSFVGQVQESATKEIEILYDGATASMNTKALTSALLAGLIRSQVADVNMVSAPVMIKEKGIILSEVKRDKTGVYDGYIKLTVKTENQIRSVAGTVFSDGKPRFIQIKNINMDADVGSHMIYITNTDVPGMIGFMGTTLGEAGVNIANFQLGREKEGGDAIALLYVDGPVSEAVLDKLRANPAIRQVKPLTFNVD	PGPT0009155_1167	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058	NA	NA
BMS010_00690	1179	serC_1	COG1932	Phosphoserine aminotransferase	ATGACAGATATCGTGAAGCCGGACGTCCGTCCGGGCAATACGCATTTTTCCTCTGGTCCCTGCTCGAAGCGTCCCGGTTGGTCGCTAGATGCTCTCTCCGATGCGCCGCTCGGTCGCTCGCATCGCGCCAAGGTTGGCAAAGCCAAGCTGAAGCAGGCCATCGATCTCACCCGTGAAGTTTTGAACGTTCCTGCCGATTATCGCATCGGTATCGTTCCCGCATCCGACACCGGCGCCGTTGAAATGGCGCTCTGGTCGCTGCTCGGTGAACGCGGCGTCGATATGCTCGCCTGGGAAAGCTTCGGCGCAGGCTGGGTCACCGACGTCGTCAAGCAGCTGAAGCTGAAGGACGTCCGCAAATTCGAGGCCGATTATGGCCTGCTGCCGAACCTTGCCGAAGTCGATTTCGACCGCGATGTGGTTTTCACCTGGAACGGCACCACCTCCGGCGTTCGCGTTCCCAATGCCGATTTCATCCCGGCTGACCGCAAGGGTCTGACCATCTGCGACGCCACTTCGGCGGCCTTCGCACAGGACATGGATTTTACGAAACTCGACGTCGTCACCTTCTCCTGGCAGAAGGTTCTGGGCGGTGAGGGCGGCCATGGCGTCATCATTCTTTCGCCCCGGGCTGTCGAGCGTCTCTTGAGCTACGCGCCGGCATGGCCTCTGCCGAAAATCTTCCGCATGGTTTCCGGCGGCAAGCTGATCGAAGGCATCTTCACCGGCGAAACCATCAACACGCCGTCCATGCTCTGCGTTGAAGACTATATCGATGCGCTGCTGTGGGCGAAGAATCTCGGCGGCCTCAAGGCGCTGATCGGCCGTGCCGATGCCAATGCCAAGGTCATTTACGACTTCATCGAGAAGAATAACTGGATCGCCAACCTGGCCGTCAAGCCGGAAACCCGCTCCAACACCTCCGTTTGCCTGAAGATCGTTGATCCCGAGGTACAGGCGCTGGACGCAGCCGCACAGGCCGATTTCGCCAAGGGCGTTGTCGCCCTGCTCGAAAAGGAAAATGTCGCCCTCGATATCGGCGCTTACCGTGACGCCCCGTCCGGCCTGCGCATCTGGGCCGGCGCCACCATCGAGACGGCGGATATGGAAGCCGTCATGCCCTGGCTCGCCTGGGCCTACCAGACGCAGAAGGCAGCACTTTCCAAGGCTGCCGCCTGA	MTDIVKPDVRPGNTHFSSGPCSKRPGWSLDALSDAPLGRSHRAKVGKAKLKQAIDLTREVLNVPADYRIGIVPASDTGAVEMALWSLLGERGVDMLAWESFGAGWVTDVVKQLKLKDVRKFEADYGLLPNLAEVDFDRDVVFTWNGTTSGVRVPNADFIPADRKGLTICDATSAAFAQDMDFTKLDVVTFSWQKVLGGEGGHGVIILSPRAVERLLSYAPAWPLPKIFRMVSGGKLIEGIFTGETINTPSMLCVEDYIDALLWAKNLGGLKALIGRADANAKVIYDFIEKNNWIANLAVKPETRSNTSVCLKIVDPEVQALDAAAQADFAKGVVALLEKENVALDIGAYRDAPSGLRIWAGATIETADMEAVMPWLAWAYQTQKAALSKAAA	PGPT0009160_400	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009160-serC|pdxF-K00831	NA	NA
BMS010_00692	849			hypothetical protein	ATGAAAAACGCCCTGGCCGGATTTCTGGCCGTCCTGCTGACCGGTACCAGCGCTATCGCTGCCGATCTTTATCAAGCCGAGCCCGCACCGGCCTATGTCGATGCACCCGAGGTTACTGTTACCCAGGCGAGCGGCTGGTATCTGCGCGGCGATGTCGGTTATTCCTTCAACAAGCTACGCGGTGCTCACTATTATCAGGGTGGTCCGGGTGGTTATCTCGCGGATTTCGATACCGCGACGATCAAGGACAGCTATGTCATCGGCGCCGGCGTCGGTTATCAGTTCAACAACTATTTCCGCAGTGACGTGACCTTCGACTATATGGGTAAGTCGGATTTCCGCGGTTCCACGAGCGGCGGTTGCGGTGTTTCGCCCTCAGGTGGATGCGTCTCTACCGATCTTAGTTCGCTCAGAGCCTATACGCTCATGGCGAACGCCTATGTCGATCTTGGCACCTATGGCCGCGTCACGCCGTATGTCGGCGGTGGTATCGGCGGCTCCTATGTCAAATGGGACAAGCTGCGCAATACCTCGTGCAGCACCAATGGTCTCGGTTGCGACCCGACCACCGAACATGGCGGCAAGGGCAAGTGGCGTTTCGCTTACGCCCTGATGGCTGGTGCCTCCATCGATGTCACCTGTAACCTGAAGGCCGACATCGGCTACCGTTTCCGCCATATCAACAAGGGCGATATGTTCGGGTACGAAAACAATGGCGGTCCGGGCCGTGACAAGGGCCTTTATTCGCATGAAGTGCGCGTCGGCGGCCGTTATGTCTTCAATGGCTGCGATACCGCACAATACATGCCGCCCGCCGATATTCCTCTGCAGCCTGCCGTTTATAAATAA	MKNALAGFLAVLLTGTSAIAADLYQAEPAPAYVDAPEVTVTQASGWYLRGDVGYSFNKLRGAHYYQGGPGGYLADFDTATIKDSYVIGAGVGYQFNNYFRSDVTFDYMGKSDFRGSTSGGCGVSPSGGCVSTDLSSLRAYTLMANAYVDLGTYGRVTPYVGGGIGGSYVKWDKLRNTSCSTNGLGCDPTTEHGGKGKWRFAYALMAGASIDVTCNLKADIGYRFRHINKGDMFGYENNGGPGRDKGLYSHEVRVGGRYVFNGCDTAQYMPPADIPLQPAVYK				NA	NA	NA	NA	NA
BMS010_00693	1353	glmM_1	COG1109	Phosphoglucosamine mutase	ATGGCACGCCGTTATTTCGGAACCGATGGTATCCGCGGACAATCGAACGTCTTTCCCATGACGCCTGATCTGGCGATGCGGGTGGGCATTGCGGTCGGGACGATTTTCCGCCGTGGCCATCATCGCCATCGCGTCGTCATCGGCAAGGATACGCGTCTTTCCGGTTATATGCTGGAAAACGCGCTGGTCGCCGGTTTCACCGCCGCCGGTCTCGATGTCTTCCTGCTCGGCCCCATTCCGACGCCTGCCGTCGCCATGCTGACTCGGTCGCTGCGCGCCGATATCGGTGTGATGATCTCGGCCTCGCACAATCCCTTCTCCGATAACGGCATCAAGCTTTTCGGACCGGATGGTTACAAGCTTTCCGATGAGCTGGAACTGGAGATTGAAGACCTTCTCGACAAGGATATCTATGCGCAGCTGGCCAAGCCGAGCGAGATCGGTCGCGCCAAGCGTGTGGATGGCGACATCTATCGTTATATCGAATTCGTCAAGCGCACGCTGCCGCGTGATGTGACGCTGAGCGGACTGCGGATCGCCATCGACTGCGCCAATGGCGCGGCATACAAGGTGGCGCCCGCTGCGCTCTGGGAACTCGGCGCGGAAGTCGTCACCATCGGCAATGAGCCGAACGGCATCAATATCAATCTGGAATGCGGCTCCACCCACCCGGAAGCGCTGCAGAAGAAGGTGCATGAAGTACGGGCCGATATCGGCATCGCGCTCGATGGCGATGCGGATCGCGTCATCATCGTTGACGAGCGCGGCGAGATCGTCGATGGCGACCAGCTGATGGCCGTCATCGCCGATAGCTGGGCTGCCGACAACACGCTGCGCGGCGGCGGTATCGTGGCGACCGTCATGTCGAATCTCGGGCTGGAACGCTTCCTGGGCGACAAGGGCCTCACCCTTGCCCGTACCAAGGTGGGCGACCGTTATGTCGTCGAACACATGCGTAACCACAATTTCAACGTCGGCGGCGAGCAGTCCGGCCATATCGTGCTGTCGGATTACGGCACGACGGGCGATGGTCTTGTCGCGGCCTTGCAGGTTCTCGCCAAGGTCAAGCGCTCCGGCCTCACGGTCAGCGAAGTCTGCCGCAAGTTCGAGCCGGTGCCGCAGCTTTTGAAGAATGTCCGTATCTCCGGCGGCAAGCCGCTGGAAAACCCTGTTGTGCAGCAGGCGATTGCGGATGCGGAAAGTGCATTGGCCAATAATGGCCGCCTCGTTATTCGCCCCTCCGGTACGGAGCCGTTGATCCGCGTCATGGCGGAAGGCGACGACAGTGCGAAGGTGGAGCAGATCGTCAATGATCTCGTCGGCGTCATCGCCAATGCCCGCTCGGCGGCGTGA	MARRYFGTDGIRGQSNVFPMTPDLAMRVGIAVGTIFRRGHHRHRVVIGKDTRLSGYMLENALVAGFTAAGLDVFLLGPIPTPAVAMLTRSLRADIGVMISASHNPFSDNGIKLFGPDGYKLSDELELEIEDLLDKDIYAQLAKPSEIGRAKRVDGDIYRYIEFVKRTLPRDVTLSGLRIAIDCANGAAYKVAPAALWELGAEVVTIGNEPNGININLECGSTHPEALQKKVHEVRADIGIALDGDADRVIIVDERGEIVDGDQLMAVIADSWAADNTLRGGGIVATVMSNLGLERFLGDKGLTLARTKVGDRYVVEHMRNHNFNVGGEQSGHIVLSDYGTTGDGLVAALQVLAKVKRSGLTVSEVCRKFEPVPQLLKNVRISGGKPLENPVVQQAIADAESALANNGRLVIRPSGTEPLIRVMAEGDDSAKVEQIVNDLVGVIANARSAA	PGPT0018950_1571	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0018950-glmM-K03431	NA	NA
BMS010_00694	1965	ftsH_1		ATP-dependent zinc metalloprotease FtsH	ATGAACCCAAATTTCAGAAATTTCGCCTTGTGGGCCGTGATTGCCCTCTTGCTGATCGCATTGTTCAGCATGTTCCAGACATCGCCGACGCAAACGGGTTCGCGGGAAATTCCGTATTCCCAGTTTCTTCGCGATGTGGATTCCGGGCGAGTTCGCGACGTGACCGTCACCGGTAACCGGGTTCTCGGAACCTATACCGAAAACGGCACGGCCTTTCAGACCTATTCCCCCGTCATCGATGACAGCCTGATGGAGCGCTTGCAGAGCAAGAACGTGACCATCGTGGCGCGTCCCGAAAGCGACGGTTCCTCCGGTTTCCTGAGCTATCTCGGCACGCTTTTGCCGATGTTCCTCATTCTCGGCGTCTGGCTGTTTTTCATGCGGCAGATGCAGGGCGGCTCGCGTGGTGCGATGGGCTTTGGCAAATCCAAGGCCAAGCTTTTGACGGAAGCCCATGGCCGCGTGACGTTCGATGACGTTGCAGGCGTGGACGAAGCCAAGCAGGACCTCGAGGAAATCGTCGAATTCCTGCGCGATCCGCAGAAGTTCCAGCGTCTCGGCGGTAAAATCCCGCGCGGCGTGCTGCTCGTTGGCCCGCCCGGCACGGGTAAAACCCTTCTGGCGCGTTCCGTCGCCGGCGAAGCCAATGTGCCGTTCTTCACCATTTCCGGTTCGGATTTCGTGGAAATGTTCGTCGGCGTCGGCGCGAGCCGTGTGCGTGACATGTTCGAGCAGGCCAAGAAGAATGCGCCCTGCATCATCTTCATCGATGAAATCGACGCCGTCGGCCGCCATCGTGGCGCCGGTCTAGGCGGCGGTAACGACGAACGCGAGCAGACGCTGAACCAGCTGCTGGTCGAAATGGACGGTTTCGAGGCGAATGAAGGCATTATCCTCATCGCCGCCACCAACCGTCCTGATGTTCTTGACCCCGCACTTCTGCGTCCCGGTCGTTTCGACCGTCAGGTCGTCGTGCCAAACCCGGATATTGTCGGCCGCGAGCGCATCCTCAAGGTGCATATCCGCAACGTGCCTCTGGCGCCGAATGTCGACCTTAAGGTTCTGGCTCGTGGTACCCCCGGTTTTTCGGGTGCGGACCTGATGAACCTCGTCAACGAAGCTGCCCTCATGGCTGCCCGCCGCAACAAGCGCGTGGTCACCATGCAGGAATTCGAAGACGCCAAGGACAAGATCATGATGGGTGCGGAGCGCCGCTCTTCCGCCATGACCGAGGCCGAAAAGAAGCTGACCGCCTATCACGAAGCCGGACATGCCATCACCGCACTGAAGGTTGCCGTGGCCGATCCGTTGCATAAGGCGACGATCATCCCGCGCGGCCGCGCTCTCGGCATGGTCATGCAGCTGCCGGAAGGCGACCGCTACTCCATGAGCTACAAGTGGATGGTATCGCGTCTCGTGATCATGATGGGTGGCCGCGTTGCCGAGGAACTGACCTTCGGCAAGGAAAACATCACCTCCGGCGCGTCTTCGGATATCGAGCAGGCCACCAAGCTTGCCCGCGCCATGGTCACGCAATGGGGCTTCTCCGATGCGCTCGGACAAGTGTCCTATGGTGAAAACCAGCAGGAAGTCTTCCTCGGCCATTCCGTCTCGCAGTCGAAGAACGTCTCCGAGGCGACGGCCCAGACCATCGATACGGAAGTTCGCCGCCTGATCGACGAGGCTTATGGCGAGGCCCGCCGCATCCTGACGGAAAACCACGATGGTTTCGTTGCTATTGCCGAGGGTCTGCTTGAATACGAAACCCTGACGGGCGACGAGATCAAGGCCCTGCTGAAGGGCGAGAAGCCCGCTCGCGATCTGGGCGACGATTCTCCGGGCAGCCGTGGTTCGGCAGTGCCGAAGGCAGGCACCAAGAAGGACGGTCCCAGTGAAGTGAAGGGTGACGGCGAAGCAAAGGGCGACGGCGAGGCCGAAGGCGGCATGGAGCCGCAGCCGCATTGA	MNPNFRNFALWAVIALLLIALFSMFQTSPTQTGSREIPYSQFLRDVDSGRVRDVTVTGNRVLGTYTENGTAFQTYSPVIDDSLMERLQSKNVTIVARPESDGSSGFLSYLGTLLPMFLILGVWLFFMRQMQGGSRGAMGFGKSKAKLLTEAHGRVTFDDVAGVDEAKQDLEEIVEFLRDPQKFQRLGGKIPRGVLLVGPPGTGKTLLARSVAGEANVPFFTISGSDFVEMFVGVGASRVRDMFEQAKKNAPCIIFIDEIDAVGRHRGAGLGGGNDEREQTLNQLLVEMDGFEANEGIILIAATNRPDVLDPALLRPGRFDRQVVVPNPDIVGRERILKVHIRNVPLAPNVDLKVLARGTPGFSGADLMNLVNEAALMAARRNKRVVTMQEFEDAKDKIMMGAERRSSAMTEAEKKLTAYHEAGHAITALKVAVADPLHKATIIPRGRALGMVMQLPEGDRYSMSYKWMVSRLVIMMGGRVAEELTFGKENITSGASSDIEQATKLARAMVTQWGFSDALGQVSYGENQQEVFLGHSVSQSKNVSEATAQTIDTEVRRLIDEAYGEARRILTENHDGFVAIAEGLLEYETLTGDEIKALLKGEKPARDLGDDSPGSRGSAVPKAGTKKDGPSEVKGDGEAKGDGEAEGGMEPQPH				NA	NA	NA	NA	NA
BMS010_00695	1338	tilS_1		tRNA(Ile)-lysidine synthase	ATGCCGGTTGATGCCCGCATTCTGAACGAAAAGACTGTTGCGCCGCTCGCGGCGGCAAGGTCTTTTGTCAAAAATCTCCACACACCCGCCCATATGCTCATCGCAATCTCCGGAGGCAGTGATTCCACCGGTCTGTTGCTGGCCTTGCATGAGGCAATGGCGGAGACGGATCGGGATGGCTTGCGCCTTTCCGCCGTCACCGTAGACCATGCGCTGAGAGCGGAATCCGCCGATGAGGCGCGCAAGGTGGCGATGCTCTGCGCCGAAATAGGCATCCGCCACGTTACCCGCCGATGGGACGGCATCAAACCGGCCTCGGGCCTTTCCGAAGCCTCCCGGCTTGCCCGCTACCGCCTGATTGCCGAGGTCGCCCGCGAGACCGGCGCCGATCTTGTCGTGACGGGACATACGGTCGGCGACCAGCGCGAAACCGTGGCGATGCGCGCCGCCCGCAGCGGCGGCTCTGACAATCTCGGTCTCTCCGGCATGGCGGATGCGGTCTTATACGATGGCCGCCACTGGATCATGCGGCCGTTCCTGATGTGTGAGAGGCAGGCGATCCGTGGCTATATGTCCTCCCGCTCGCGCGGTTGGTTTGACGATCCGAGCAATGAAAATACCCGATATGAAAGGGTGCGTGTACGGCAGGCGCTTCCCGTCTCTCCTGTCCGGATCGATGCGGAAACCTCTCTCAAAAGGCAGGCGCTTTCCGAAACAACGGCCGCATTCCTGCGGGGGCATACACAGGTTTTCCATGCTGCGCTCGCCAGATTGGCCGGCGATCGCGTCAATCCCGATCTTCCCGAGTTCCGGCATGGGCTGGCGGCGCTGATCGCAACCCTTGGGGGAAGGGCATATTTTCCGGCCGCAAGCAGCATGGCGCGCGTTCTGGAGTTTCTTAAAGCGGCTGAAAACGGGCGACTGACGGTCGGTCGCGTCCTGCTCGATCGCCGGCGGGACGGGCTTTATATGTTCCGCGAGCAGCGAAACCTGCCGGAGCTTGATATTGGCGCACATGAACAGAGATTGTGGGACGATCGTTTTCTCGTGAAGAACGGATCGGCTTTTCCAGTGCACGTCAAAGCGCGCAGGGCCAGCGATACTGCGGAAGCGGCCGCGCTTTTTCCGTCGGTACCGGCCGGGGTGGCGAAGCAGGCGATGGCGGGGCTGCCGCAAATTGCCGCAGCAGCCGATGAGCCGGGTTCGCGGGCGGAGGCCGTAACCGTCACGCCGAGGCTCGCACCTTTCGATCTGTTCCTGTCGCGTTTCGACCTTGAGTTGGCGAATGCAATCGCCAATTTATTCGGCCGCCCGGCTTATCCACAGCCCCCGGTTTAA	MPVDARILNEKTVAPLAAARSFVKNLHTPAHMLIAISGGSDSTGLLLALHEAMAETDRDGLRLSAVTVDHALRAESADEARKVAMLCAEIGIRHVTRRWDGIKPASGLSEASRLARYRLIAEVARETGADLVVTGHTVGDQRETVAMRAARSGGSDNLGLSGMADAVLYDGRHWIMRPFLMCERQAIRGYMSSRSRGWFDDPSNENTRYERVRVRQALPVSPVRIDAETSLKRQALSETTAAFLRGHTQVFHAALARLAGDRVNPDLPEFRHGLAALIATLGGRAYFPAASSMARVLEFLKAAENGRLTVGRVLLDRRRDGLYMFREQRNLPELDIGAHEQRLWDDRFLVKNGSAFPVHVKARRASDTAEAAALFPSVPAGVAKQAMAGLPQIAAAADEPGSRAEAVTVTPRLAPFDLFLSRFDLELANAIANLFGRPAYPQPPV				NA	NA	NA	NA	NA
BMS010_00696	1020	cpoB_1		Cell division coordinator CpoB	ATGAAGAAACTTGTCGTGGCGGGAATGCTGGGGCTTGCAGCCTGCACCGGCTTGAGCGGCATCGCCGTTTCGGGTCCGCTGTTCGGTGCGGGGGGTAGCTTCGGCACGATCAACTCTCAGCAGCAGCCCCCGGTCGTCCGGGTTCAGGCCAATGAAGCCTATCGGGTTCAGCAGCTTGAAGAACAGATCCGGCAGCTCAACGGCCGTATCGAGGAAATGAGCTTCCAGCTTCTGCAGATGCAGGAAACGATCCGCAAGGCGCAGGAAGACAATGAGTTCCGCTTCCAGGAACTGGAGAGCGGCAATGCCGGCGGCAAGGGTGCAAGCCCGACCGCTGCGCCGAAAAAGAAGGCGGAAGCCAGTCCGGTCAATCCGGCCTCACCGCCGACCGACGACGTTGCAACGATCATCGAAACGCCACCCGAGGGTGGCGCTTCCGTTTCTTCGTCTGCTCCCTCCACCGCTCCGACAGGCGCACCGGGAGAGACGACGCTCGGCTCCATCGAGCTTGATTCCAAGGGAATGCCGGTTGGCGGCACGTTGAATCAGGGCGCTAATAATTCCTCTGCCAGCCTTCCGGGCGTCAGCACGGGCAATAGCCAGCGCAAGACGGATCCGGTGAATACGGCGGCGCTTACCAGCGAAGGCGATATTTATCAGGCCGCTTACGGCCATGTTCTTTCCGGTGACTACAAGCTGGCGGAACAGGGGTTCCAGCAATATCTGCAGGGTTATCCCAAGGGCACGAAGGCCGCGGATGCGAGCTTCTGGCTGGGCGAGGCGCAATATTCCCAGGGCAAGTTCAACGAGGCCGCAAAGACCTTCCTGAATGGCCATCAGGCCTATGGCAAATCTCCGAAAGCGCCGGAAATGCTGATGAAGCTCGGCATGTCACTTGCCGCTCTCGACAATACCGAAACCGCCTGCGCCACGCTGCGCGAGGTGCCGAAGCGTTATCCCAATGCTTCCAAGACCGTGCTGAGCAAGGTTGCCAGCGAACAGAAACGGCTGAGCTGCTGA	MKKLVVAGMLGLAACTGLSGIAVSGPLFGAGGSFGTINSQQQPPVVRVQANEAYRVQQLEEQIRQLNGRIEEMSFQLLQMQETIRKAQEDNEFRFQELESGNAGGKGASPTAAPKKKAEASPVNPASPPTDDVATIIETPPEGGASVSSSAPSTAPTGAPGETTLGSIELDSKGMPVGGTLNQGANNSSASLPGVSTGNSQRKTDPVNTAALTSEGDIYQAAYGHVLSGDYKLAEQGFQQYLQGYPKGTKAADASFWLGEAQYSQGKFNEAAKTFLNGHQAYGKSPKAPEMLMKLGMSLAALDNTETACATLREVPKRYPNASKTVLSKVASEQKRLSC				NA	NA	NA	NA	NA
BMS010_00697	534	pal_1		Peptidoglycan-associated lipoprotein	ATGAGCCGTACACACATTTCGGCACTCAGCCCCATGCAGAAACTGGCCCGTAACCCGGCTGTCATCGCCATGACGCTCGCGCTCGCTCTCGCAGGCTGCGCGAACAAGAAGAACATGCCGAACAGCGCCGGTGAACTTGGCCTTGGTGGCGCGGGCTCCGCAACGCCGGGCTCCCAGCAGGACTTCACGGTCAATGTCGGCGACCGCATCTTCTTCGACACCGACTCGACCTCTATCCGCGCTGACGCCCAGCAGACCCTGCAGCGCCAGGCTCAGTGGCTCGCCCGTTACCCGAACTACGCCATCACCGTTGAAGGCCATGCCGACGAACGCGGCACGCGCGAATACAACCTGGCGCTCGGCGCCCGTCGTGCGGCTGCAACCCGCGACTTCCTGGCTTCCCAGGGCGTTCCGGCTAACCGCATGAAGACGATCTCCTACGGCAAGGAAAAGCCGGTCGCCGTTTGCGACGACATCTCCTGCTGGTCGCAGAACCGCCGCGCCGTGACGGTTCTCGGTGGCGCGGGCATGTGA	MSRTHISALSPMQKLARNPAVIAMTLALALAGCANKKNMPNSAGELGLGGAGSATPGSQQDFTVNVGDRIFFDTDSTSIRADAQQTLQRQAQWLARYPNYAITVEGHADERGTREYNLALGARRAAATRDFLASQGVPANRMKTISYGKEKPVAVCDDISCWSQNRRAVTVLGGAGM				NA	NA	NA	NA	NA
BMS010_00698	1308	tolB_1	COG0823	Tol-Pal system protein TolB	ATGAAGATATTTTCGCCGATCCGGCTGGTGCTCGCTGTCGCGGCCCTCATGTCGGTTTTCTCCGCACCGGCTTTTGCGCGGGTGGAAATCAACATCAACAAGGGTAATGTCGAGCCGCTGCCCATCGCCATCACCGACTTCATGTCGAGCGACGGCATCGGCGCGCAGGTTTCCGCGGTCATTGCCGCCGACCTGCAGCGTTCCGGCCTTTTTGCGCCGGTCAACAAGAACGCCTTCATCGAAAAGATCAGCAATCCGGATCAGCAGCCGCGTTTCGAGGACTGGAAGGTCATCAACGCCCAGGCGCTCGTGACCGGCCGTGTCACGCGTGAAAGCGATGGCCGCCTGCGCGCCGAATTCCGCCTGTGGGATACGTTCGCCAACCAGCAGATGACTGGCCAGCAATTCTTTACCCAGCCGGAAAACTGGCGCCGCGTTGCCCACATCATCGCCGACGCCATCTATGAGCGGATCACCGGTGAAAAGGGCTACTTCGACACCCGCGTCGTTTTCGTCTCTGAAAGCGGCCCGAAGACGGCCCGCAAGCGCCAGCTGTCGATCATGGACCAGGATGGTTTCAACGTCCGCAATCTCACCAACTCGAACGACATTGTCCTGACGCCGCGTTTCTCGCCGAACCGTCAGGAAGTGACCTACATGTCCTTCGAAGGCCAGCAGCCGCGCGTCTACCTGCTGCAGCTGGAAACCGGACAGCGCGAAGTTGTCGGCAATTTCCCCGGCATGACCTTCTCGCCGCGCTTCTCTCCGGATGGCCAGAAGGTCATCATGAGTCTGCAGCAGGATGGCAACGCCAATATCTACACGATGGACCTGCGCTCTCGCACCACGACACGGCTGACGAACACGTCGGCGATCGATACGGCGCCGTCCTATTCGCCCGACGGTCAGCGCGTCGCCTTCGAAAGCGACCGCGGCGGCCGCCAGCAGATTTACGTCATGAATGCCGATGGTTCCGGCCAGCAGCGCGTTTCCTTCGGCGATGGTTCCTATTCCACGCCGGTCTGGTCGCCGCGCGGCGATCTGATCGCCTTCACCAAGCAGTCGGGCGGCAAGTTCTCGATCGGCGTGATGAAGACCGACGGTTCGGGCGAGCGCATCCTGACCAGCGGTTTCCACAATGAAGGCCCGACCTGGGCGCCGAACGGCCGCGTGCTGATGTTCTTCCGTCAGAACGCCGGTGCGGGCGGTCCGCAGCTCTATTCGATCGACCTGACGGGCTACAACGAGCAGCTCATCAAGACGCCGACTTTCGCTTCGGATCCGGCATGGTCGCCGCTTCTGGACTGA	MKIFSPIRLVLAVAALMSVFSAPAFARVEININKGNVEPLPIAITDFMSSDGIGAQVSAVIAADLQRSGLFAPVNKNAFIEKISNPDQQPRFEDWKVINAQALVTGRVTRESDGRLRAEFRLWDTFANQQMTGQQFFTQPENWRRVAHIIADAIYERITGEKGYFDTRVVFVSESGPKTARKRQLSIMDQDGFNVRNLTNSNDIVLTPRFSPNRQEVTYMSFEGQQPRVYLLQLETGQREVVGNFPGMTFSPRFSPDGQKVIMSLQQDGNANIYTMDLRSRTTTRLTNTSAIDTAPSYSPDGQRVAFESDRGGRQQIYVMNADGSGQQRVSFGDGSYSTPVWSPRGDLIAFTKQSGGKFSIGVMKTDGSGERILTSGFHNEGPTWAPNGRVLMFFRQNAGAGGPQLYSIDLTGYNEQLIKTPTFASDPAWSPLLD				NA	NA	NA	NA	NA
BMS010_00699	1170			hypothetical protein	ATGAAGGGCAGCCTTACCACATCCGCGATCGTGCATGCGTCGCTTCTGGCTTTCGCCCTCGTTTCCCTGGGCTCGCCGGAGCCGCTTGACGTGTCGCAGGCCGAGGCTCTGCCGGTGGAACTGGTGCCCATCGAGGAGCTGAGCCAGATCCAGCAGGGCGACAAGAACGCGCCGAAAGCGGAAAAGTCGGCCCCCGTTCCGACGACGCGTCCGGATATCGTCGAGAACGCCCAGAACGTCGGCAACAACACGGTCGATCTTGACGCGCCGCCGACCCCGACCACCAAGCCGAACGACAATATCAGCGCCGCCGCTCCGCCAAAGCAGGAAAAGCCGCAACCCGTCGTCGACACCAAGGCGAACGAGGTGAAGGAAATCGTCAAGGAAGAAACCTCGGCTCCGAAGCCGCAGGAAATGGCCGCCTTGCCGCAGACCAAGCCCGAGATCGCGCCGCAGCCGAAGACGGAGCCGCCGCCGCAGGAAACGAAGGCCGAAGAGCCGCCGCCAGCGCAGCAGGAACCGGCCGAAATTCCCGTACCGCAGAACGTGCCGCGTCCAAACTCCCGTCCCGAGCCGCCGAAGCCGGAAGAGCCGAAGCAGGCCGAAACCAAGCCTGCCGAGCAGAAGCCCGCGGAAAAACCGGCCGAGACCAAGCCCGATCAGGCGAAGTCCACCGACAAGCCTTCCGACAAGAAGCCCGGCGAGAAGAAGCAGGAGACTGCGAAATCGGCTTCCTCGAAGGAAAGCGATTTTAACGCCGACGATATCGCCGCGCTTTTGAACAAGCAGGCGCCTTCGGGTGGCGGCGCCAAGCGCTCCACCCAGCAGGCCTCGCTTGGCGGCAAAAAGACGACGGGCGGTTCGACGCTCAGCCAGACGGAAATGGATGCGCTGCGTGGCGCGATCCAGAAGAACTGGCAGATCATTCCCGGCATGGCGGATGCCTCGGACGTTCGCGTCCGGGTCACCATGAAGCTCGACCGTGATGGAACCATCATCGGTCGGCCCGAGATCGAGGCGACCGGCGGTTCCGAAGGAACACGTCGTGCTCTTTCCGGCGGAGCCTATCGCGCCATCATGCGTTCTGCTCCGTTCACAAACCTTCCTGCCGACAAATATGACGCATGGAACGAAGTTGTCGTGAACTTCGATCCCAGTGAATTGCTATGA	MKGSLTTSAIVHASLLAFALVSLGSPEPLDVSQAEALPVELVPIEELSQIQQGDKNAPKAEKSAPVPTTRPDIVENAQNVGNNTVDLDAPPTPTTKPNDNISAAAPPKQEKPQPVVDTKANEVKEIVKEETSAPKPQEMAALPQTKPEIAPQPKTEPPPQETKAEEPPPAQQEPAEIPVPQNVPRPNSRPEPPKPEEPKQAETKPAEQKPAEKPAETKPDQAKSTDKPSDKKPGEKKQETAKSASSKESDFNADDIAALLNKQAPSGGGAKRSTQQASLGGKKTTGGSTLSQTEMDALRGAIQKNWQIIPGMADASDVRVRVTMKLDRDGTIIGRPEIEATGGSEGTRRALSGGAYRAIMRSAPFTNLPADKYDAWNEVVVNFDPSELL				NA	NA	NA	NA	NA
BMS010_00700	459	exbD_1	COG0848	Biopolymer transport protein ExbD	ATGGGTATGTCAGCAGGTGGCAGCGGCGGCGGTTCCGGTGGACGCCGGGGGCGCGGCGGACGACGCAGGGGCGGCGCGATCAGCGAGATCAACGTGACGCCGCTGGTCGACGTCATGCTCGTGCTGCTCATCATCTTCATGGTGGCAGCGCCGATGATGACGGTCGGCGTGCCGATCGATCTGCCGCAGACATCCGCCAATGCGCTGAACTCGGACACGCAGCCGATCACCATTTCCGTCAACGCCAATGGCCAGATCCATTTGCAGGAAACGGAAATTCAGGCGGCAGAAGTGGCCGACAAGCTGCAGGCAATCGCCACGACAGGTTATAACGAACGCATCTTCGTGCGCGCGGATTCCGTTGCCGCATACGGCGTCGTCGCCGATGTGATGGCGCGCATCCAGGCGGCGGGCTTCAAGAATATCGGCCTTGTGACCCAGCAGAAACAGGACAATTGA	MGMSAGGSGGGSGGRRGRGGRRRGGAISEINVTPLVDVMLVLLIIFMVAAPMMTVGVPIDLPQTSANALNSDTQPITISVNANGQIHLQETEIQAAEVADKLQAIATTGYNERIFVRADSVAAYGVVADVMARIQAAGFKNIGLVTQQKQDN	PGPT0003755_1012	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003755-exbD-K03559	NA	NA
BMS010_00701	720	tolQ_1	COG0811	Tol-Pal system protein TolQ	ATGGAACAGGCAGGTTTGGCAGCGGCGACGCACGATGTAAGTCTCTGGGCACTGTTTATGCAGGCGGGCCTCATCGTGAAGCTCGTGATGATCGGACTTATCGCCGCCTCGGTCTGGACGTGGGCGATCGTCTTTGACAAATATGTGAGCTTCGGCAAGGCAAGACGCCAGTTCGACCAGTTCGAACAGGTCTTCTGGTCGGGCCAGTCGCTCGAAGAGCTTTATCGCACGCTGGCGGAACGCCAGAACGGCGGTCTTGCGGCGATTTTCGTTTCCGCCATGCGCGAATGGAAGAAATCCTTCGAGCGCGGCGCACGCTCGCCCATCGGTCTGCAGATGCGCATCGACCGGGCGATGGACGTGACCATGGCGCGTGAAAGCGAACAATACGAGGCGCGCCTCGGTTCGCTCGCCACCATCGGTTCGGCCGGTCCCTTCATCGGTCTCTTCGGTACGGTTGTGGGTATCATGACCTCGTTCCAGGCGATTGCCGGTTCGAAGTCCACCAACCTTGCGGTCGTGGCGCCGGGTATCGCCGAAGCGCTTCTGGCAACGGCCATCGGTCTTGTCGCGGCTATTCCCGCCGTTATCGCCTACAACAAGTTCACGGCCGACGCGCACAAGCTTTCCGCCCGCATGGAAGGTTTCGCCGATGAGTTCTCCGCGATCCTGTCGCGCCAGATCGATGAAAAACTTCAGACGCGGCAGGCCGCCCAGTAA	MEQAGLAAATHDVSLWALFMQAGLIVKLVMIGLIAASVWTWAIVFDKYVSFGKARRQFDQFEQVFWSGQSLEELYRTLAERQNGGLAAIFVSAMREWKKSFERGARSPIGLQMRIDRAMDVTMARESEQYEARLGSLATIGSAGPFIGLFGTVVGIMTSFQAIAGSKSTNLAVVAPGIAEALLATAIGLVAAIPAVIAYNKFTADAHKLSARMEGFADEFSAILSRQIDEKLQTRQAAQ	PGPT0003750_2256	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003750-exbB-K03561	NA	NA
BMS010_00702	441	ybgC_1	COG0824	Acyl-CoA thioesterase YbgC	ATGAGCGAGCTTGTGGTTTCGCTTTCGGGTGAGCTTATCGAACATGGCCACCGCCTGACGCAGCGTGTCTATTACGAGGACACGGATTTCTCCGGCCTCGTTTATCACGCCCGCTACCTGCATTTTCTCGAACGTGGCCGCACCGATTACCTGCGCTGCCTCGGCTGCGAGCAAAGCGCGCTTCTGACCGCTGACGAAGAAGGTCTGGTCTTCGTCGTGCATCGCATGGAGATCGATTTCAAAAGCCCGGCGCGGATGGATGACGTCTTGACGATCACGACTATCACCGAGAAGGCCGGCGGCGCGAAAATGGTGCTCAATCAGGAAATCCGGCGCGGCGAAACACTGCTGGTCGCCGCCAAGGTCATCATCGCCGTCATCAACGCCAATGGTCGCCCAAGGCGTCTTCCGGAGACAGTGGCGGAAAAATTCCTGAAGTAA	MSELVVSLSGELIEHGHRLTQRVYYEDTDFSGLVYHARYLHFLERGRTDYLRCLGCEQSALLTADEEGLVFVVHRMEIDFKSPARMDDVLTITTITEKAGGAKMVLNQEIRRGETLLVAAKVIIAVINANGRPRRLPETVAEKFLK	PGPT0001850_3851	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107	NA	NA
BMS010_00703	537			hypothetical protein	ATGACCTCTGTCCCTGAACGCCACATGATCCGGCTGGACCGGAAGCCGCAGCTTTTCAGCATGCGCGTGGCGGCGCTGATCTTTCAGAACGGCCATGTTCTCGTCCAGCGCGGCACGAAGGACACTTACTGGGCCTTGCCCGGCGGCCGTGCCGAAATCGGCGAAAGCTCGCAGGAAACCATCATCCGCGAGATCGGCGAAGAGCTTGACCGGGATTGTTCGGTCGAACGTCTTCTCTGGTCGGCCGAGAATTTTTTCGCCTATGACGATTTTGCGGCGCATGAGCTCGGATTTTATTATCTCGTTTCGCTTCGCCAGCCCCTGCCGTTCCATGAAAGCGATATCGTGCATCGGGTGCTGGATGGTGTCGAGGTGGAGTTCCGCTGGCTGCCCGCGCAGCCTTCAGCACTTCTGAAGAGCGATCTGAGGCCCCGTTTCATCGCGGAGCGTATCGAAGCGCTGCCGCAACGGCATGAGCATCTTATTGTCCGCGAAGGACGCCGCGATGCAGTTGAAATTCCCAAGGAGATAATATGA	MTSVPERHMIRLDRKPQLFSMRVAALIFQNGHVLVQRGTKDTYWALPGGRAEIGESSQETIIREIGEELDRDCSVERLLWSAENFFAYDDFAAHELGFYYLVSLRQPLPFHESDIVHRVLDGVEVEFRWLPAQPSALLKSDLRPRFIAERIEALPQRHEHLIVREGRRDAVEIPKEII				NA	NA	NA	NA	NA
BMS010_00704	525	rppH_1		RNA pyrophosphohydrolase	ATGACACACGATACCAAGCAGGACACCCGCATCCGCATCAAGTTCAAGCCGAAGCGCATTTTTCAGATGCGGGTCGCGGGACTGGCGTTTCGCGATGGCCACGTGCTGGTGCACCGGGCGTCGCATGAAAAATTCTGGACCTTTCCGGGCGGCCGCGCCGAAATGGGCGAACGCTCCGAAGAAACGCTGGCGCGCGAAATGGTGGAAGAGCTTGGCGTCGAGGCCAAGATCGGGCGGCTTCTCTGGGCGGTCGAAAATTTCTTCCACTATGAGGGCAAGGACTGGCACGAACTCGGGTTTTATTACCTGATGGACCTGCCGGAGACGCTGGCCTTTCATCCGACCGATATCATTCACCGCGTTCAGGACGGCGATAACGAGCTGGAGTTCCGCTGGGTCGCCGCAACCCGTCAGGCATTGACCGAGCTTGATATTCCGCCCTATTTCATCGCCGACGAAATAGAGCACCTGCCGAAGGCCACGAGACACCTCGTCTGGCATGACGGCGATCTGGACGATAAATGA	MTHDTKQDTRIRIKFKPKRIFQMRVAGLAFRDGHVLVHRASHEKFWTFPGGRAEMGERSEETLAREMVEELGVEAKIGRLLWAVENFFHYEGKDWHELGFYYLMDLPETLAFHPTDIIHRVQDGDNELEFRWVAATRQALTELDIPPYFIADEIEHLPKATRHLVWHDGDLDDK				NA	NA	NA	NA	NA
BMS010_00705	582			hypothetical protein	ATGTCTTACGATCCGCTGCGGGTCTTCCGCAAACTCGCGCGCAACAACCGGCTGGCCAATTTTCGGCTGCATCAGGCCTGTCTTCAGCTTTCGCAGGAAGCGTTCGTCGCGTACCGTGTGAGTTTCTTTCCGACGCTGCGCGCGACGCTGAACCACATCTACACCGTTGACCGTTTTTATATCGATGCCCTGCAAGGCGGCACGCTCGGCCTTGCGGCCTTTGCTGAAGAAGAGCCTTTCGCCACCATGGCGGATTTGCATGTTGCCCAGACGGAGTTGGACGAGGTGCTGATCGCATTTGTCGACAGCCTCGATGAAGACGGCCTTGCCGCTAACGTCAATATTCACCGCGGTGCGCGTATCCAACATGATCGCTACGACGATATTCTGTCGCATCTCTTCCAGCACCAGACGCATCATCGCGGGCAGGCGCATGCCATGTTGTCCGGCACCGCGCTCAAGCCGCCGCAACTGGATGAATTCATTGTGGGAGATGATGCAAAGGCAAGAAAAGAAGAGATGGATGCGCTAGGGTGGACGGAAACCGATTTGATGTTTCCAGCCCGCAGGTCAGCGCCATGA	MSYDPLRVFRKLARNNRLANFRLHQACLQLSQEAFVAYRVSFFPTLRATLNHIYTVDRFYIDALQGGTLGLAAFAEEEPFATMADLHVAQTELDEVLIAFVDSLDEDGLAANVNIHRGARIQHDRYDDILSHLFQHQTHHRGQAHAMLSGTALKPPQLDEFIVGDDAKARKEEMDALGWTETDLMFPARRSAP				NA	NA	NA	NA	NA
BMS010_00706	219			hypothetical protein	ATGTCGGTGTATCGCAAGGGCACGAAGGTCCGGTGGAGCTGGGGCAGTGGTACCGGTGAAGGTAAAATCGTCGAGATTTTCACGGTTGATGTCGAACGCACCATCGCCGGCTCCAGAATAAAGCGGAAGGCGAGCAGGCAGGAGCCTGCCTATCTGATCGAACAGGAAGACGGCGCCAGGGTTCTGAAAAGCAGATCGGAGCTTGAGCGCGTCTATTGA	MSVYRKGTKVRWSWGSGTGEGKIVEIFTVDVERTIAGSRIKRKASRQEPAYLIEQEDGARVLKSRSELERVY				NA	NA	NA	NA	NA
BMS010_00707	1041	ruvB_1	COG2255	Holliday junction ATP-dependent DNA helicase RuvB	ATGAGTGATGCGGCAAGGCTTATCACCCCCGAAAAGCGCGGTGAGGACATCGACACCACCCTGCGTCCGCAGTCGCTGGACGATTTTACCGGCCAGGCGGAGGCCCGCGCCAATCTCAAGGTATTTATCGAGGCGGCCAAGAACCGTGGCGAAGCGCTGGATCACGTGTTGTTCGTCGGCCCGCCCGGTCTCGGCAAGACCACGCTGGCGCAGATCATGGCCAAGGAACTTGGCGTCAACTTCAAATCCACCTCCGGCCCCGTCATCGCCAAGGCGGGCGATCTCGCCGCGCTTTTGACCAATCTCGAGGAGCGCGACGTACTCTTCATCGATGAAATCCACCGTCTCAACCCGGCGGTGGAAGAAATTCTCTACCCGGCAATGGAGGATTTCCAGCTCGACCTCATCATCGGCGAAGGACCGGCGGCACGTTCGGTGAAGATCGATCTTTCCAAATTCACCCTTGTCGCCGCGACGACCCGTCTTGGGCTTTTGACGACGCCGCTGCGCGACCGTTTCGGCATTCCCGTCCGGTTGGCTTTCTACACCGTCGACGAACTGGAACTGATCGTCCGGCGCGGCGCGCGGCTGATGGGGTTGAACATGACCGACGAGGGCGCGCGCGAGGTGGCAAGGCGTGCCCGCGGCACGCCGCGTATCGCCGGACGGCTACTGCGCCGCGTGCGCGATTTCGCCGAGGTGGCGCGGGCGGAAGCGGTCACGCGTGAGATCGCCGATGAGGCTTTGACCCGGCTTCTGGTCGACAAAATGGGTCTCGACCAGCTCGACATGCGGTATCTCACCATGATCGCGGTCAATTTCGGCGGAGGCCCGGTTGGCATCGAAACCATCGCCGCCGGCCTTTCGGAGCCGCGCGACGCGATCGAGGATATTATCGAACCCTATATGATCCAGCAGGGCTTCATCCAGCGCACGCCGCGCGGTCGCATTCTGACCGGCACGGCCTGGAAACATCTGGGCATGCAGCCACCCAAGGATCTTGAGGCGGCGCAGTTCCGGCTGACCCTGGAGGAGGATTGA	MSDAARLITPEKRGEDIDTTLRPQSLDDFTGQAEARANLKVFIEAAKNRGEALDHVLFVGPPGLGKTTLAQIMAKELGVNFKSTSGPVIAKAGDLAALLTNLEERDVLFIDEIHRLNPAVEEILYPAMEDFQLDLIIGEGPAARSVKIDLSKFTLVAATTRLGLLTTPLRDRFGIPVRLAFYTVDELELIVRRGARLMGLNMTDEGAREVARRARGTPRIAGRLLRRVRDFAEVARAEAVTREIADEALTRLLVDKMGLDQLDMRYLTMIAVNFGGGPVGIETIAAGLSEPRDAIEDIIEPYMIQQGFIQRTPRGRILTGTAWKHLGMQPPKDLEAAQFRLTLEED				NA	NA	NA	NA	NA
BMS010_00708	408			hypothetical protein	ATGACCAGCCGTTTCGGAATAGACACGAATATTCTGCTCCGTATCGTGGTAGATGACGATGTCGAACAAAAAGAAACGGTGAAGCGTCTTCTTACACGGCTTGAGGACGGAGAAACCCTGCTTGTAAGTCTTGCTGTGATTTTGGAGACGGCGTGGGTACTTGGCCAGTTCTACGGTTATCCCAAAAGCGCCGTTCTGGAGTTTTTCCAGCTTATGCTTGAGCGGCGGGAACTGGAAATTCCGGATTATGAGGCGATTGGCAATGCCATCGACATATGCCGGAATACAAATGCGGATTTTTCCGACGCGATTGTATCGGAAAGCAACAGGGTCAATGGCTGCGTGGCGACATATACGTTTGACAAAAAAGCTGCTCGCAAGCTGCCCGGAATGGAACTTCTGACATGA	MTSRFGIDTNILLRIVVDDDVEQKETVKRLLTRLEDGETLLVSLAVILETAWVLGQFYGYPKSAVLEFFQLMLERRELEIPDYEAIGNAIDICRNTNADFSDAIVSESNRVNGCVATYTFDKKAARKLPGMELLT				NA	NA	NA	NA	NA
BMS010_00709	279			hypothetical protein	ATGGGCTTTCAGGTGACAATCACCTCCAAAGGGCAGATGACAGTTCCCAAGAACGTGCGCGAACAATTGAAAATCAAGCCCGGCGACAAATGTTACGCCTGGGTTCGTAACGGGGAGATGATCGTTGTCCCTCGCAATAAATCTCTTGCCGATCTGGCCGGAATTCTCGGTAAACCCCCGAATGGCAAAAAGCTTACCGTCGAGCAGATGAATGATGCGATTGGTGAGGGAGCTGTTGCGCGGTACAAGCGTTCTACGGATACGACGGAAGACGAATGA	MGFQVTITSKGQMTVPKNVREQLKIKPGDKCYAWVRNGEMIVVPRNKSLADLAGILGKPPNGKKLTVEQMNDAIGEGAVARYKRSTDTTEDE	PGPT0027420_318	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-YhaV-PrlF_TOXIN-ANTITOXIN_SYSTEM,PGPT0027420-antitoxin_prlF|sohA-K19156	NA	NA
BMS010_00710	618	ruvA_1	COG0632	Holliday junction ATP-dependent DNA helicase RuvA	ATGATCGGAAAACTGAAAGGCAGCATCGAGGAAATCGGCGCGGACTATGTGCTGGTGGATGTGCACGGCGTCTGTTACGTCGCCTATTGTTCGGCGCGCACGCTGTCGAAAATCGGCTCCGTGGGGGAGGCGGTGGTGCTGTTCATCGAAACCTATGTGCGTGAGGACCAGCTGAAGCTCTTCGGTTTTCTCTCGGCGCTGGAGCGGGAATGGTTCAACCTGCTGCAAAGCGTGCAGGGTGTGGGCTCGAAAGTGGCCTTGGCCGTTCTTTCCACGCTGTCGCCCTCCGAACTGGCAAATGCCATTGCGCTACAGGACAAAACGATGATCTCACGCGCGCCGGGCGTCGGGCCGAAGGTGGCGGTGCGTCTTGTGACCGAGCTTCGCAACAAGGCTCCGGCCTTCGCAGGAGAGGCTTCCGCCTCGATCGGCCTCAAGCAGGAGCTTGGCGAAGGCGTCGCATCCGCGCCGGTAGCGGATGCCGTCTCCGCGCTCACCAATCTCGGCTACTCGCGCGACCAGGCCGCCAACGCGGTTGCCGCGGCGCTGAAGAACGGCGGGGAGGGCGGCGACAGCGCCAAGCTGATCCGGCTCGGGCTGAAAGAGCTTTCGCGTTGA	MIGKLKGSIEEIGADYVLVDVHGVCYVAYCSARTLSKIGSVGEAVVLFIETYVREDQLKLFGFLSALEREWFNLLQSVQGVGSKVALAVLSTLSPSELANAIALQDKTMISRAPGVGPKVAVRLVTELRNKAPAFAGEASASIGLKQELGEGVASAPVADAVSALTNLGYSRDQAANAVAAALKNGGEGGDSAKLIRLGLKELSR				NA	NA	NA	NA	NA
BMS010_00711	513	ruvC_1		Crossover junction endodeoxyribonuclease RuvC	ATGCAAAAGACGATTCGAATCATCGGCATTGACCCCGGATTAAGGCGCACCGGCTGGGGGGTGATCGACACCCTCGGTAACAGTCTGCGGTTTGTCGCCTCCGGCACGGTGACGTCGGACGGTGATATGGATCTCGCCTCGCGGCTCTGCCAGCTGCATGACGGGCTGGCGGATATCGTGCACAGCCATCAGCCCGATGAGGCGGCGGTGGAGCAGACCTTCGTGAACAAGGATGCGGTTGCGACGCTGAAACTCGGCCAGGCGCGCGGCATCGCCATGCTGGTTCCGGCGCGCGCAGGGTTGCCGGTCTTTGAATATGCGCCGAATGCGGTGAAGAAGGCCGTCATCGGCGTTGGGCACGGCGAAAAGCAGCAAATTCACATGATGCTGAAAATCCTGATGCCGAAGGCCGAATTCAAGGGTAACGATGCGGCGGACGCGCTCGCCATCGCAATCTGCCACGCCCATAATCGCGGCGGTGACAGGATGCGGCGACTGCTGGCGGCCGGTTGA	MQKTIRIIGIDPGLRRTGWGVIDTLGNSLRFVASGTVTSDGDMDLASRLCQLHDGLADIVHSHQPDEAAVEQTFVNKDAVATLKLGQARGIAMLVPARAGLPVFEYAPNAVKKAVIGVGHGEKQQIHMMLKILMPKAEFKGNDAADALAIAICHAHNRGGDRMRRLLAAG				NA	NA	NA	NA	NA
BMS010_00712	2355			hypothetical protein	ATGCATGGCGCGGGAACTGATACGGCATTGGGGGCTGCATCGACCATGCTGAACCGTTTTCATTCCATATCCACCAAAGTGCTGGCGATTTTCCTGGCGCTGATGGCGATCTCGACCGGGGCTCTGACACTTCTCGGCTACCAAAGCAGCAGCGGCGTTCTGGAAGAACAGGCGTCGAAATCCATGGAGAGCATTCTCGTCTTTCGCGGCGACATGCTTCAGGAGCGTCTTGAGCAGCTGAAAACGCAGGCGGATTCCATCGCCAAGATCGAATCCCTGCAGATGGCTGTCGTTTCCATGCGCAGCGGCTGGGCGACCGTGCAGAAAAACTCCGGTGACGCGAAGGCGGAACTGCAGCGCGTCTTCGTCAAGGAAAACCCCTTTGGCGAAAAGGAAAAGCTGATCAAGCCGGAAAGCCCGAGCGGCTTTTATTATTCCACCCATGAAAAAACCCAGACGGATATTGGCGGTTATCTGCAGGGAACGCCGTTTAGCGACGTTCTCTTCATCGATCCCGCAGGCACGGTCTATTACTCTTACCTGAAAGGATCGGCTTTCGGGGAAACCGTCACCGGTAGCGCCTGGGCGGAAAGCGGCCTCGGCGCGGCCTTCGCACGCGGCGCCGCAAATGCCGAAAAGGCCGTGAACGACGTGGCCCAGACCAGCTTCTCCGGCCTGCGCATCGATGCCGCCACGAAAGAGGCCGGCATTTATTTCGGCGTTCCCGTCGTCAAGTTCGGCGCTTTCAAGGGCATCGTCCTCTTCCGGGTCAAGGAAGAGGTCTTCAGCCAGATCCTCACGAAGGGTGTGACGGTCGGCAGTTCCGAACAGTCCGCAATCGTTTCCGCCGATGGCAAGGTTATCGGCGTGGAGGGCAACAGGCTGGTTGGCCTCGATCCGGCAATCTATGGCTTCCACGGGCAGGCGCTGAATACGACGGGCATGACGATTGCCAAGATCGACCGTGCCGATGGCGAGGCCAATGCCTATGCCCGCCCCTTCTCCTTTGCCGGGGAAAAATATCTCGCGGTGGAAAGCATGCTGCGCAGCGAATTGAATTCGGGCTCGGTTTCGATTGCCGGCACGCTGGCCGTGATCGGCCTTTGCGTTCTGGCCGCAATGTGCGCGGCGACGGCCTTCTTCGCGCGGCGTCTCTTTGCACCGCTGGAAAAGCTTGCGGGACTGACCGGCGAAGTGGCCGCAGGCCGTCTCGATGCGGAGATCGGCAATCAGGACCGGAAGGACGAGATCGGCCGCATGGCGCGGGCGCTTGGCAGTTTCCGCGAAAAGCTCATCCTGCAGCGGGAGATGGAAGAAACCGCATCGCGCACGCGGGAGGAAGCCGAAACGGCCCGCCGCGCGCATCTTGCGGAACGGGAGGCCGAGGCCGGCACCCTGCAGATGGTCGTGCATTCCCTGGATCAAGGTCTGGACCGGCTGGCTAACGGCAACCTCGCCTATCGTATCGAAACCGTCTTCCCCGACGATCTCGAAAGCCTGCGTCATAACTTCAACACGGCGCTTTCCCGGCTCAGCGAAACCATGCAGGCCATCGGCGGCAACTCCGCCGCCGTTCGTAGCGGTTCCGAGGAGATGCGAGTGGGCGCCGATCAGCTCGCCGAACGGACCGAACGGCAGGCAGCTTCCATCACCGAAACGGCAAGCGCGATCAAGGCGATCACGGAGGCCGTCCGCGACCAGATCGAACGCGCCGAACAGGCAACGCGGATAGCCCGCGACGCCAGCGCGGAGGCCACGGCATCCAGCCGCATCATGGAGCAGACCATCGCCGCCATGGAGGCGATCCAGACCTCGTCACGCCAGATCAACCAGATCATCGGCGTCATCGATGAAATCGCCTTTCAGACCAACCTTCTCGCCCTCAATGCCGGCGTTGAGGCAGCCCGTGCGGGCGAAGCCGGCAAGGGCTTTGCGGTGGTGGCGCAGGAGGTGCGCGAACTGGCGCAGCGTTCGGCAGCGGCCGCAAAGGAGATCACCAGCCTGCTGAAGCGCTCTACCGACGAGGTTTCCGCCGGCGTGGCGCTGGTGGAAAAAGCAGGCACGTCGCTTTCCGGCATCGGCAAGCATGTGCAGACCATCAGCACGCGCATCGAGGAGATCATGGACTCCACCCGCGAGGAAGCGCACACGCTCTCGGAAATCAACAGCACCGTCGCCAGCCTCGACACCATGACCCAGCAGAATGCCGCCATGGTGGAAGAAACAACGGCCGCCATTCACAATCTCGCCTCCGAAGCGGGCGAAATGGACGGCAGGCTTGGACAATTCACGCTGGCTTCCGACCGGGATGCAGCAGGTCATCGCGACGCCCGACAAATTCGGCGGGCAGGCTGA	MHGAGTDTALGAASTMLNRFHSISTKVLAIFLALMAISTGALTLLGYQSSSGVLEEQASKSMESILVFRGDMLQERLEQLKTQADSIAKIESLQMAVVSMRSGWATVQKNSGDAKAELQRVFVKENPFGEKEKLIKPESPSGFYYSTHEKTQTDIGGYLQGTPFSDVLFIDPAGTVYYSYLKGSAFGETVTGSAWAESGLGAAFARGAANAEKAVNDVAQTSFSGLRIDAATKEAGIYFGVPVVKFGAFKGIVLFRVKEEVFSQILTKGVTVGSSEQSAIVSADGKVIGVEGNRLVGLDPAIYGFHGQALNTTGMTIAKIDRADGEANAYARPFSFAGEKYLAVESMLRSELNSGSVSIAGTLAVIGLCVLAAMCAATAFFARRLFAPLEKLAGLTGEVAAGRLDAEIGNQDRKDEIGRMARALGSFREKLILQREMEETASRTREEAETARRAHLAEREAEAGTLQMVVHSLDQGLDRLANGNLAYRIETVFPDDLESLRHNFNTALSRLSETMQAIGGNSAAVRSGSEEMRVGADQLAERTERQAASITETASAIKAITEAVRDQIERAEQATRIARDASAEATASSRIMEQTIAAMEAIQTSSRQINQIIGVIDEIAFQTNLLALNAGVEAARAGEAGKGFAVVAQEVRELAQRSAAAAKEITSLLKRSTDEVSAGVALVEKAGTSLSGIGKHVQTISTRIEEIMDSTREEAHTLSEINSTVASLDTMTQQNAAMVEETTAAIHNLASEAGEMDGRLGQFTLASDRDAAGHRDARQIRRAG	PGPT0015710_1702	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_00713	1002			hypothetical protein	ATGATCCCCTTTTCCATTCTCGACCTTTCGCCCATCGGCGAAGGCGAGAGCGTCAGCGAGGCGCTTGAAAATTCCCGCCGAATGGCGATCAAGGCCGAAGAAAACGGCTATAACCGTATCTGGCTGGCGGAGCACCACGGCATGCCGGGAATTGCCAGTGCTGCAACATCGCTCGTCATCGCCCATGTAGGCGCGGCCACGAGACATATCCGCGTCGGCTCCGGCGGCATCATGCTGCCCAACCACTCCCCGCTCGTCATCGCCGAGCAGTTCGGCACGCTTGCGGCGCTGCTTCCCGGCCGTGTCGATCTCGGTCTTGGCCGTGCTCCCGGAACCGACATGCGCACGGCACGGGCGCTGCGCCGCAATCTCGATGCCGGCGCGGAAAACTTCCCGCACGATATCGTCGAACTCCAGCGTTACCTTGGTCCGCCGCAGCAGGATCAGGCCATTCTCGCCGTGCCGGGCATGAATTCCAACGTGCCGATCTGGCTGCTCGGCTCCAGCACCTATAGCGCGCATCTCGCCGCAGCCCTCGGCCTGCCCTATTCCTTCGCCTCGCATTTTGCCCCTGACATGCTGATGGAAGCGATCCATATCTATCGCGAGCGCTTCCAGCCCTCCGAAGTACTGGACAAGCCCTATGTGATGGTGGGTGTGATGGGGGTCGGCGCCGATACGGACGAGGAGGCGCAGCATCTCTTCACCTCGTCGCAGCAGCAATTCGTCAACCTGCGCCGCAACGTGCGCACGCAGTTTCCGAAGCCGGTGCACAGCATGGACGATTACTGGAACGAGATGGAACGTTTCTCTGTCGAACACACGCTGCGTTTTGCGGCCGTCGGCTCGCCTGAGACGATCCAGCGCCATCTCGACGGTTTCCTGGCGGAAACGCAGGCGGATGAGCTGATCGTTTCCATGCCGATCCATGACATCGAAAAGCGACTGCGATCCGTGGAGATTTTTGCCGACGTGCGAACCTCCATAAAGAAGGCTGCCTAA	MIPFSILDLSPIGEGESVSEALENSRRMAIKAEENGYNRIWLAEHHGMPGIASAATSLVIAHVGAATRHIRVGSGGIMLPNHSPLVIAEQFGTLAALLPGRVDLGLGRAPGTDMRTARALRRNLDAGAENFPHDIVELQRYLGPPQQDQAILAVPGMNSNVPIWLLGSSTYSAHLAAALGLPYSFASHFAPDMLMEAIHIYRERFQPSEVLDKPYVMVGVMGVGADTDEEAQHLFTSSQQQFVNLRRNVRTQFPKPVHSMDDYWNEMERFSVEHTLRFAAVGSPETIQRHLDGFLAETQADELIVSMPIHDIEKRLRSVEIFADVRTSIKKAA	PGPT0030680_2	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030680-putative_transposase-K07496	NA	NA
BMS010_00714	747		COG0217	putative transcriptional regulatory protein	ATGGCTGGTCATTCACAGTTCAAGAACATCATGCACCGCAAGGGCAAGCAGGACTCCGTGCGGTCCAAAATGTTTTCCAAGCTTGCGCGCGAAATCACCGTTGCGGCAAAGACGGGCATGCCCGACCCGAACATGAACCCGCGCCTGCGTCTGGCAATCCAGAACGCCAAGGCCCAGTCCATGCCGAAGGACAATATCGAGCGTGCGATCAAGAAGGCGTCCGGCGCCGATGGCGAAAACTATGACGAAGTCCGTTACGAAGGTTACGGCCCGGGCGGCGTCGCCGTCATCGTCGAGGCCCTGACGGACAACCGCAACCGCACCGCTTCCAACGTTCGCTCCATTTTCACCAAGGCCGGCGGCGCTCTCGGCGAAACCGGCTCGGTCTCGTTCTCATTCGATCGGGTTGGCGAAATCTCCTACAAGGCTGAAGTCGGCGATGCCGACAAGGTGATGGAAGCCGCCATCGAAGCCGGCGCCGACGACGTCGAATCTTCCGAGGACGGCCACACCATCATCTGCGGTTTCGAAGCGATGAACGAGGTTTCCAAGGCGCTGGAAGGCGTGCTGGGCGAAGCCGAAAGCGTCAAGGCTATCTGGAAGCCGCAGAACACGGTGCCGGTGGATGAAGAAAAGGCGCAGTCGCTGATGAAGCTCATCGACAATCTCGAAGACGATGACGACGTGCAGAACGTCTACTCCAACTTCGAAGTGTCTGAAGAAATTCTCGCCAAGCTTTCCGCCTGA	MAGHSQFKNIMHRKGKQDSVRSKMFSKLAREITVAAKTGMPDPNMNPRLRLAIQNAKAQSMPKDNIERAIKKASGADGENYDEVRYEGYGPGGVAVIVEALTDNRNRTASNVRSIFTKAGGALGETGSVSFSFDRVGEISYKAEVGDADKVMEAAIEAGADDVESSEDGHTIICGFEAMNEVSKALEGVLGEAESVKAIWKPQNTVPVDEEKAQSLMKLIDNLEDDDDVQNVYSNFEVSEEILAKLSA				NA	NA	NA	NA	NA
BMS010_00715	504			hypothetical protein	ATGGTCAGCCTGACTGAAGCACGAGAAGCACCGGCCCGCCAGCTCTGGGACGAGATCAATTCCGTCCACGCCGGCATGCTCGGTCTCGAAGGACTGCACAACCACATGCAGCCCATGGCGCCTCACGCTGACCCCAAGACCAACACCGTCTGGTTTTTCTCCAAAAAAGACACCGATCTGGTGAAATCGCTGAAATCCGGCTCCCGGGCGCATTTCTGCGTGGTGGGCAAGGACCATGACTACCACGCCTGCCTTTCAGGCATCCTCGAAGCACGCGACGACAAAACCAAGATCGACGAATATTGGAACTCGGTCACCGCCGCATGGTACGAACATGGCAAAAGCGACCCGCAACTGATCATGCTGGCGTTGCATGTCGACGATGCCGATATCTGGGCTTCGACGGACAGCACGCTGAAATTCGGCTGGGAAATCGCCAAGGCGAACATGTCGGATGACAAGACGCCTGACGTCGGCGTCCGCCAGCACCTCACTTTTGCCTGA	MVSLTEAREAPARQLWDEINSVHAGMLGLEGLHNHMQPMAPHADPKTNTVWFFSKKDTDLVKSLKSGSRAHFCVVGKDHDYHACLSGILEARDDKTKIDEYWNSVTAAWYEHGKSDPQLIMLALHVDDADIWASTDSTLKFGWEIAKANMSDDKTPDVGVRQHLTFA				NA	NA	NA	NA	NA
BMS010_00716	840			hypothetical protein	ATGCTGCGCGTGCTAATGCTTGCAATAACGGGGCTGATCGCTTGTTCGGGAGCGGCCTTCTCCCAGACGGCGAGCCGTCCTCCCGTCAGCCAGTGCCAGGCGATCGCCAGCAACATTCCGGGCGTCATGTTCGCGAGCTTCAATCCGCCGGGTGTTCAGCTGGCGCAGGCGACGGCAAAGGAAGAGGTGAAGATCAGCTTCATCGGCCATTCCACCTATCTCATCGAAAGCCCCGGCGGTGTGACCATCGCCACCGATTATAACGGCGTCTATCGCCCGCCCGTCACGCCGACGGTGGTGACGATGAACCGGGCGCATTCGACGCATTTTACCCTCAGTCCAGACCCGGCCATTCAATATGTGCTGCATGGCTGGAGCGATACGCCGGGAGAAAAGGCCGAGCACAAGGTTCTGGTGGGCGATGTCTATATCCGCAATGTAGCAACCGACATCCGCAACCGCTGGGGCGATTACGAATCCTTTCAGGAGAACGGCAATTCCATCTTCATCTTCGAGGTTGCCGGGCTGTGCATTGGCCATCTCGGGCATCTGCATCATGAGTTAACGGATACGCATTATGCCGAGATCGGCCGTCTGGATGTGTTGATGGTGCCGGTGGATGGCGGGCTGACCATGGGTGCCGACAGCATGAGCCGGGTGGTCAAGCGCCTGCGCTCCGCGCTGATCCTGCCGATGCACCGCACCGGCCCGCCACTGGAGCAGTTTCTGACGATGTTCGGCGAGAGTTTCCGCATTGCCTATGCGACCGATCCGGTGATCCGGGTTTCGATGAGAAACCTTCCCCGCCAGCCGCAGATACTGGTGCCAAAAGGCATGTAG	MLRVLMLAITGLIACSGAAFSQTASRPPVSQCQAIASNIPGVMFASFNPPGVQLAQATAKEEVKISFIGHSTYLIESPGGVTIATDYNGVYRPPVTPTVVTMNRAHSTHFTLSPDPAIQYVLHGWSDTPGEKAEHKVLVGDVYIRNVATDIRNRWGDYESFQENGNSIFIFEVAGLCIGHLGHLHHELTDTHYAEIGRLDVLMVPVDGGLTMGADSMSRVVKRLRSALILPMHRTGPPLEQFLTMFGESFRIAYATDPVIRVSMRNLPRQPQILVPKGM				NA	NA	NA	NA	NA
BMS010_00717	825	ymdB_1	COG1692	2',3'-cyclic-nucleotide 2'-phosphodiesterase	ATGAGGCTTCTTTTTCTCGGAGATATGGTTGGCAAGACCGGACGCACGGCTGTCTGGGAGCGGTTGCCGGGGCTGATTTCCGACCTGAAGCTGGATTTCGTCATCGTCAACGGTGAAAACGCTGCCGGCGGTTTTGGGATCACCGAGGATATCTATCTCGAGACCATCAATGCCGGCGCCGATGTGGTGACGACCGGCAACCACGTCTGGGACCAGAAGGAAGCGGTTTCCTTCTGCGAGCGTCATGACCAGTTCCTCCGGCCCGCCAATTATCCGGATGGTACGCCGGGCAAAGGCTCGGGCATTTTTTATGCCCGCAACGGCGCGCGCATACTGGTTGCCAACATCATGGGCCGGGTCTTCATGCATCCGGAACTGGACGATCCCTTCAAGTCGGCTGAAAACATTCTTGCCGCCTGCCCGCTGAAGGAACAGGCCGACGCCATTATTTTCGATTTCCACGCGGAAGCGACCAGCGAAAAACAGTGTTTCGGCCATTTCGTCGATGGGCGCGCTAGTTTCGTTGTCGGTACCCACACCCATGTTCCGACAGCCGACGCGCAGATATTGAACGGCGGAACCGCCTACATGTCGGATGCCGGCATGTGCGGCGATTATGACAGCTCGCTTGGCATGGAGAAGGAAGAGCCGATCAACCGCTTCATTTCCAAAATGCCGAAGGGCCGTTTCGAGGCAGCCAGCGGACCTGCGACAATCTGCGGCGTCGGCGTGGAGATTTCCGACCGAACCGGACTGGCGGAAAAGATTGCGCCGCTGCGCATCGGGCCGCGGCTTTCTGAAACCCTGCCGTCCTTCTGGGTTTAA	MRLLFLGDMVGKTGRTAVWERLPGLISDLKLDFVIVNGENAAGGFGITEDIYLETINAGADVVTTGNHVWDQKEAVSFCERHDQFLRPANYPDGTPGKGSGIFYARNGARILVANIMGRVFMHPELDDPFKSAENILAACPLKEQADAIIFDFHAEATSEKQCFGHFVDGRASFVVGTHTHVPTADAQILNGGTAYMSDAGMCGDYDSSLGMEKEEPINRFISKMPKGRFEAASGPATICGVGVEISDRTGLAEKIAPLRIGPRLSETLPSFWV	PGPT0021405_257	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021405-ymdB-K09769	NA	NA
BMS010_00718	618		COG0212	5-formyltetrahydrofolate cyclo-ligase	ATGCCCGGTGACGTTGCCGAAAAAGCAAGGCTGCGCGGCGAAAGGCTCGCCGCGCGCGATGCGCTGACGCTGGCGGAGCGCCAGCTGAAGAGCCAGTCCATAACGGCCCATGGCGCCTCCGATATCCCCTTTGCACCGGGCACCGTAATTTCCGGCTTCATGCCGATCCGCTCCGAGGCCGATACCCGGCCGCTGATGGAAGCGTTGCGGACAAGGGGCGGGCGTCTTGTCCTGCCCGTTGTGCTGGATCGTGAAACCATTGTCTTCCGCGCCTTTAAAACGGATACGCCGCTGGTGAAGACCGGCTTCGGCACGACCGGCCCGGGCGAGGATGCGGAAGTTCTCGATCCGGATATTCTGCTCGTGCCTCTCTCCGTCTTCGATGGCAAAGGTCAGCGGGTCGGTTATGGCGCGGGCCATTATGACCGCGCCATTGCGCGACTGCACGCCAGGGGCCGTCAGCCCGTGCTCATCGGCGTCGCCTTCGATTGTCAGGAAGTGCCGTCCGTGCCGGCGGAGCCGCATGATGTGTCGCTTCACGCCATTCTAACCGAAAGCGGCCTGCGCTGGTTTTCCGCCCCACTGTCGATCTCAGATAGTGGGCAAAAGGCGCTTTAG	MPGDVAEKARLRGERLAARDALTLAERQLKSQSITAHGASDIPFAPGTVISGFMPIRSEADTRPLMEALRTRGGRLVLPVVLDRETIVFRAFKTDTPLVKTGFGTTGPGEDAEVLDPDILLVPLSVFDGKGQRVGYGAGHYDRAIARLHARGRQPVLIGVAFDCQEVPSVPAEPHDVSLHAILTESGLRWFSAPLSISDSGQKAL	PGPT0008170_1661	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008170-ygfA|fthC|yqgN|folN-K01934	NA	NA
BMS010_00719	1263			hypothetical protein	ATGATCGTGGTCCTGCTCACCGTATTGAACGGTGTGCTTGCCATGTCCGAGCTTGCCGTTGTCTCCTCCAGACCGGCGAGGCTCAAAGTGCTTGCCACACAAGGCAGCAAGGGCGCCACAATGGCGCTCAGCCTTTCCGAAAATCCCGGACGCTTTCTTTCCACGGTGCAGATCGGCATCACGCTGGTCGGCGTCCTTTCCGGCGCTTTTTCCGGCGCCACGCTCGGTGCGCGCTTTACGGCGTGGCTTTTGGAGCAGGGCGTTCCCGACCGTGCCGCCGATGCGCTCGGCGTCGGCTCGGTGGTCGTGGCCATCACCTATCTGTCGCTGATCGTCGGGGAACTGGTGCCCAAGCAGATTGCGCTGCGCGATCCCGAAAAGGTCGCCGCCCGCGTCGCCCCCACCATGATGCTGCTGTCCAAGGTCGGCGCGCCGCTGGTGTGGCTGCTCGACCGGTCGGGCAAGGCCGTTCTGGCGCTTCTCGGCCATAGCGGTGAATCCAACGCTTCGGTCACCGACGATGAAATCCGCACGGTTCTGGCCGAAGCTCACAGCGCCGGTGTGATCGAGACCGAGGAATCGGCGATGATCACCAGCGTCATGCGCCTTGCCGACCGCAATGCGCGCGGCCTGATGACGCCGCGACGCGATGTGGAAGTGGTCGATATCGAAGACAGCGCCGAAGAAATCCGCGAGCAGCTTCGCCAGACGCAGCGTTCGCGCCTGCCGGTGCGCAACGGCGCTTCGGATGAAATTCTCGGTGTGCTTTTCGCCAAGGACGCTTTCGATGCGCTGGCTTCCGGCAAGGAACTCAACATTCGCGAGCTTCTGCGGGAAGTGCCGGTCGTATCGGATCTGACGAGCGCGGTGGACGTCATCCAGTCGCTGCGCCGTTCCACCGTGCATATGGTGCTGGTCTACGACGAATACGGCCATTTCGAAGGCATCATCAGCTCCGGCGACGTGCTGGAAGCCATCACCGGTGCGTTCCAGGAAGATGACGATGAGGAGCCGGCCATGGTCGAGCGCGAGGACGGTTCGTTCCTCGTCGCCGGCTGGATGCCCGCCGATGAGTTCGCTTATCGCATGGGTTTCCAGATTGACGAGGATGCCGAGTTCGAGACCGTTGCCGGTCTGGTTCTGGACGAGTTCCGCCGCCTGCCGGAACTGGGCGAACATGTCACCCGCAATGGCTGGCGTTTCGAGGTCATCGATCTCGATGGCCACCGCATCGACAAGGTTCTCGTGAGCCGGGCCGCCTGA	MIVVLLTVLNGVLAMSELAVVSSRPARLKVLATQGSKGATMALSLSENPGRFLSTVQIGITLVGVLSGAFSGATLGARFTAWLLEQGVPDRAADALGVGSVVVAITYLSLIVGELVPKQIALRDPEKVAARVAPTMMLLSKVGAPLVWLLDRSGKAVLALLGHSGESNASVTDDEIRTVLAEAHSAGVIETEESAMITSVMRLADRNARGLMTPRRDVEVVDIEDSAEEIREQLRQTQRSRLPVRNGASDEILGVLFAKDAFDALASGKELNIRELLREVPVVSDLTSAVDVIQSLRRSTVHMVLVYDEYGHFEGIISSGDVLEAITGAFQEDDDEEPAMVEREDGSFLVAGWMPADEFAYRMGFQIDEDAEFETVAGLVLDEFRRLPELGEHVTRNGWRFEVIDLDGHRIDKVLVSRAA				NA	NA	NA	NA	NA
BMS010_00721	378			hypothetical protein	ATGGCGCAAGTCACAGTTATGATCGACGGCAAGGCCTACCGCATGGCGTGCGAGGCGGGGCAGGAAGACCATCTGACCGATCTCGCAACGAGGTTCGACCGGTATGTCGGGCACCTCAAGAGCCAGTTCGGCGAAATCGGCGATCTTCGCCTGACCGTTATGGCGGGCATCATGGTGATGGACGAGCTTTCCGAACTCAATCGCAAGATCGAGAAGCTGGAAGGAGAGGTCGCCTCCCTTTCCCGTAACCGCGACGGCATGGCCGAGCACCGGGCGAAATCAGACGAGATGGTGGCGCTCGCCATCGGCGATCTGGCCGACCGCCTGAACGGGATTACCGAAAAACTGCTGGCGCGGCCGAAGCCCGCCGCGCATTGA	MAQVTVMIDGKAYRMACEAGQEDHLTDLATRFDRYVGHLKSQFGEIGDLRLTVMAGIMVMDELSELNRKIEKLEGEVASLSRNRDGMAEHRAKSDEMVALAIGDLADRLNGITEKLLARPKPAAH				NA	NA	NA	NA	NA
BMS010_00722	273			hypothetical protein	ATGTCGGCTGACAAGACCGTACAATCTGCGCTGACGGAGCTGAATGCTGCCATCACAAATCTCGAAAATGCCATCGATATGCGTATCGAGCGGCAAAGGGAGACGGGCGAGATCGATAACGAGGTCAAGCGGGTCCATGTCGACCGCGCAAGGCTCGCGCATGAGCTGGATCAGGCCGAGTTTCGCGCCAATCGTCTTGAAGAAGTCAATCGCGAGGTTTCCCGCCGGCTGGTGACGGCGATGGAGACGATCCGCGCGGTGCTGGATCGATAG	MSADKTVQSALTELNAAITNLENAIDMRIERQRETGEIDNEVKRVHVDRARLAHELDQAEFRANRLEEVNREVSRRLVTAMETIRAVLDR				NA	NA	NA	NA	NA
BMS010_00723	1983	tktA_1	COG0021	Transketolase 1	ATGATTTCTCGCGACAAACACAACCGGATGGCAAATGCGATCCGATTTCTTGCCATGGATGCAGTGGAGAAGGCCAATTCCGGCCATCCCGGTCTGCCGATGGGCGCCGCTGATGTCGCCACCGTTCTCTTCACCCGTTACCTGAAATTCGATCCCAAGGCGCCGCTCTGGGCGGATCGCGACCGCTTCGTGCTGTCGGCAGGTCATGGCTCGATGCTTCTTTACTCGCTGCTCTATTTGACGGGCTACGAGGACATGACGATCGACGAGATCAAGCGCTTCCGTCAGTTCGGTTCCAAGACCGCCGGCCACCCCGAATATGGCCACGCGACCGGCATCGAAACCACAACCGGCCCGCTCGGCCAGGGCATCGCCAACGCCGTCGGCATGGCGATTGCCGAGCGCAAGCTGGAAGAGGAATTCGGCTCCGACCTGCAGAACCACTTCACCTATGTCCTGTGCGGCGACGGCTGCCTCATGGAAGGCATCAGCCACGAAGCCATCGCGCTTGCCGGCCACCTGAAGCTCAACAAGCTTGTTCTGTTCTGGGATGACAACAACATCACCATCGACGGCGAAGTCGGCCTCTCCGACAGCACCGACCAGATCGCCCGCTTCCAGGCCGTTCACTGGAACACCATCCGCGTCGATGGCCATGATCCGGACGCGATTGCCGCCGCCATCGAAGCCGCGCAGAAATCCGACCGCCCGACCTTCATCGCCTGCAAGACCGTGATCGGCTTCGGCGCGCCCAACAAGCAGGGCACCCACAAGGTTCACGGCAACCCGCTCGGCGCCGAAGAAATCGCCGCCACCCGCAAGCACCTGAACTGGGAAGCCGAAGCCTTCGTCGTTCCGGAAGATGTGCTCGATGCATGGCGTCTCGCCGGCCTGCGCTCCACCAAGACCCGCCAGGATTGGGAAGCCCGCCTTGAAGCCGCTGAAGCCGGCAAGAAGGCCGAATTCAAGCGCCGCTTCGCCGGCGACCTGCCCGGCAATTTCGACAGCGCCATCGATGCCTTCAAGAAGAAGATCATCGAGAACAACCCGACGGTCGCCACCCGCAAGGCTTCGGAAGATTCGCTCGAAGTCATCAACGGCGTCCTGCCGGAAATGATCGGCGGCTCTGCCGACCTGACGCCGTCCAACAACACCAAGACCAGCCAGATGAAGTCCATCACGCCGACGGACTTCTCCGGCCGTTACCTGCATTACGGCATCCGCGAGCACGGCATGGCGGCGGCGATGAACGGCATCGCGCTGCATGGCGGTCTCATCCCCTATGCGGGCGGCTTCCTGATCTTCTCGGATTATTGCCGTCCGTCGATCCGCCTTGCAGCGCTCATGGGCATCCGTGTCGTCCACGTTCTGACGCATGATTCCATCGGCGTCGGCGAAGACGGCCCGACCCACCAGCCGGTGGAGCAGATCGCAGCCCTGCGCGCCATTCCGAACCTGCTCGTCTTCCGCCCCGCGGATGAAACCGAGACGGCGGAATGCTGGCAGCTCGCGCTGGAACAGAAGCATCGTCCTTCCGCACTGGCGCTTACCCGCCAGAACCTTGCGCCCTCACGCAAGGAATATGAAGAGAAGAACCTCTCTGCTTACGGTGCCTACGAACTCGTCTCCGCCAGCGACGCCAAGGTTTCGATCTTCGCCTCCGGTTCGGAAGTCGAAGTGGCGCTGAAGGCCGCCGCAACGTTGAAGGACAAGGGCGTTTCCGCCCGCGTCGTTTCCGTTCCCTGCTTCGAGCTCTTCAAGGAACAGCCGGAAACCTATCGCAACGCCATCATCGGCAAGGCTCCGGTGAAGATCGCGGTCGAAGCCGCCATTCGCCAGGGCTGGGATTATTTCATCGGCTCCGACGGCGCATTCGTCGGCATGCACTCCTTTGGAGCGTCCGCACCGGCGAAGGATCTCTTCAAGCACTTCGGCATAACGGCGGAAGCCGTCGTCGCCGCAGTCGAGGCAAAACTTGCGTGA	MISRDKHNRMANAIRFLAMDAVEKANSGHPGLPMGAADVATVLFTRYLKFDPKAPLWADRDRFVLSAGHGSMLLYSLLYLTGYEDMTIDEIKRFRQFGSKTAGHPEYGHATGIETTTGPLGQGIANAVGMAIAERKLEEEFGSDLQNHFTYVLCGDGCLMEGISHEAIALAGHLKLNKLVLFWDDNNITIDGEVGLSDSTDQIARFQAVHWNTIRVDGHDPDAIAAAIEAAQKSDRPTFIACKTVIGFGAPNKQGTHKVHGNPLGAEEIAATRKHLNWEAEAFVVPEDVLDAWRLAGLRSTKTRQDWEARLEAAEAGKKAEFKRRFAGDLPGNFDSAIDAFKKKIIENNPTVATRKASEDSLEVINGVLPEMIGGSADLTPSNNTKTSQMKSITPTDFSGRYLHYGIREHGMAAAMNGIALHGGLIPYAGGFLIFSDYCRPSIRLAALMGIRVVHVLTHDSIGVGEDGPTHQPVEQIAALRAIPNLLVFRPADETETAECWQLALEQKHRPSALALTRQNLAPSRKEYEEKNLSAYGAYELVSASDAKVSIFASGSEVEVALKAAATLKDKGVSARVVSVPCFELFKEQPETYRNAIIGKAPVKIAVEAAIRQGWDYFIGSDGAFVGMHSFGASAPAKDLFKHFGITAEAVVAAVEAKLA	PGPT0011200_5075	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_PENTOSE_METABOLISM,PGPT0011200-tktA|tktB-K00615	NA	NA
BMS010_00724	1011	gapA	COG0057	Glyceraldehyde-3-phosphate dehydrogenase 1	ATGACTGTAAAAGTTGCCATTAACGGCTTCGGCCGCATCGGCCGCAACGTCCTGCGCGCCATCGTCGAATCCGGCCGCACCGACATCGAAGTCGTTGCCATCAACGACCTCGGCCCGGTTGAGACCAACGCACACCTGCTGCGCTACGATTCGATCCACGGCAAGTTCCCGGCCGATGTGAAGGTAGAAGGCGACACGATCATCGTTGGCGGCGGCAAGCCGATCAAGGTGACGGCCGTTCGCGATCCGGCAACGCTGCCGCACAAGGAACTCGGCGTCGACATCGCGCTGGAATGCACGGGCATCTTCACCGCTCGCGACAAGGCTGCCGCTCACCTGACGGCCGGCGCAAAGCGCGTCATCGTTTCGGCTCCGGCTGACGGCGCAGACCTCACCGTCGTCTTCGGCGTCAACGACGACCAGCTGACGAAGGACCATCTGGTCATTTCCAACGCGTCCTGCACCACCAACTGCCTCGTGCCGGTCGTGAAGGTTCTCGATGACGTCGTTGGCATCGACCATGGCTTCATGACGACGATCCACTCCTACACGGGCGACCAGCCGACGCTGGACACCATGCACAAGGACCTGTACCGCGCCCGCGCCGCAGCCCTGTCCATGATCCCGACCTCGACGGGCGCTGCCAAGGCCGTTGGCCTCGTTCTGCCGCACCTCAAGGGCAAGCTGGACGGCACGTCGATCCGCGTTCCGACCCCGAACGTTTCGGTCGTGGACTTCAAGTTCATTGCCAAGCGCGCCACCACGGTTGAAGAAATCAACGAAGCGATCAAGTCAGCCGCCAATGGCAAGCTGAAGGGCATCCTCGGCTACACGGACGAGCCGCTGGTTTCCCGCGATTTCAACCACGACAGCCATTCGTCGATCTTCGCCAACGACCAGACCAAGGTCATGGAAGGCAATTTCGTGCGCGTCCTGTCCTGGTACGACAACGAGTGGGGCTTCTCCAACCGCATGTCGGACACGGCCGTCGCCTTCGCGAAGACCATCTAA	MTVKVAINGFGRIGRNVLRAIVESGRTDIEVVAINDLGPVETNAHLLRYDSIHGKFPADVKVEGDTIIVGGGKPIKVTAVRDPATLPHKELGVDIALECTGIFTARDKAAAHLTAGAKRVIVSAPADGADLTVVFGVNDDQLTKDHLVISNASCTTNCLVPVVKVLDDVVGIDHGFMTTIHSYTGDQPTLDTMHKDLYRARAAALSMIPTSTGAAKAVGLVLPHLKGKLDGTSIRVPTPNVSVVDFKFIAKRATTVEEINEAIKSAANGKLKGILGYTDEPLVSRDFNHDSHSSIFANDQTKVMEGNFVRVLSWYDNEWGFSNRMSDTAVAFAKTI	PGPT0018000_4174	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0018000-gapA-K00134	NA	NA
BMS010_00725	1866	nhaP_1		K(+)/H(+) antiporter NhaP	GTGGAATCATTTTATCTTCTGTTGCTGGTCGCAACCGTTCTCGTTCTCGTCGCCGCCTTTTCCAGCCTCATCGCCTTCCGCTTCGGCGCGCCGCTGCTGCTGCTTTTCCTGATGATCGGCCTTGGGGCCGGTGTGGACGGCCTCGGCATCGAATTCACCAACAATCCGCTGGCCTATATGCTCGGCTCGCTGGTGCTTGCCGTCATCCTGTTCGATTCCGGGTTCGGCACATCCATCCAGTCCTTCCGGCTTTCGGCGGCACCCGCCGTCGCTCTCGCCACAGTCGGCGTCATCCTCACATCCGTCTTTTTTGCCGGCGCGGCGGCCCTCCTGCTCGGGCTTTCCTGGCTGGAAGGCCTGCTGCTCGGCGCCATCGTCGCTTCCACCGATGCGGCGGCCGTGTTCTTCCTGCTGCGCATCGGCGGCATCCATATCCGCGATCAGGTGCGCTCGACGCTGGAAGTCGAATCCGGCACCAACGATCCGATGGCGATCTTCCTCACCATTGCCCTGGTCGAAATCATCGCCAAGGGCCAGGGGCTGGCCGGCATCGATAGCGGCTTTCTGCTGCTTTTCATCGAGCAAATGGGCCTTGGCGTGATTTTCGGCCTGCTCGGCGGCGTCATGATCGCCACCGTCGTCAACCGTTTCGCCGCCGACCGCGGGCTTGCGCCCATCTTCGTGCTGGCGCTGGCGCTGCTCGTCTTTTCCTTCACCGGCACAATTGGCGGCAGCGGTTTTCTGGCGGTCTATGTCGCTGGCATCGTTGCCGGCAACCGCCGGATCTTCGCCAAGGAAACCATCCGCCGTTTCCATGAGGGGCTGACCTGGCTTGCCCAGATCATAATGTTCCTGATGCTCGGCCTGCTCGCCACCCCGTCGCAGTTTCCGGCAATCGCCATTCCGGCCGTGCTGCTCGCGCTTTTCCTGATCTTCGTCGCCCGCCCGCTCGCGGTCTGGCTCAGCCTGATGCCCTTCAACTATACCCAGCAGGAAACCTCCTTCGTCGCCTGGGTGGGTCTGCGCGGCGCGGTTTCCATCCTGCTCGCCATCATGCCCATTCTCGGCGGGCTTGACGATGCGCAGATCTATTTCAACGCCGCCTTCATCATCGTGCTGGTGTCGCTGCTGGTGCAAGGCTGGACCATCAAGCCGGTGGCGACAAGGCTCGGGCTGATCGTGCCGCCGCGCATGGGTGAGGTGGACAAGCTGGAAGTCGACCTGCCCGGCACCGCCAATCACGAACTGATTTCCTACCGGGTCGCCAAAGGCAGCGCCATCATGCAGGGCGAGCGTATTCCGCGCTGGGCCATGCCCTCGCTGGTGGTGCGCGACGGCAAATCGATCCGCTATCAATATGCCGGGCGGCTGCGCGAGAACGATCTCGTCTACCTCTTCATCGCACCCGGCTATTCCCGTCTGATCGACCGGCTGTTCGCCAGCGCCCTGCCGGTTGCCGATGACGACGCCGATTTCTTCGGCACCTTCGCGATCTCGCCGGCCCGTCCGGCGAAGGAACTGGATGCAGCCTATGGTCCCGGCCTGCTTTCGCCCGCCGAACAGGCGATGAGCGTCGCGGAACTCATCGAAGCGCGCCTTGCCGGAAAAGCCGATTATGCCGACCGCGTACGCCTCGGCTCCATCGTCCTGATCGTTCGCACACTGGACGAACACGAGGCGATAACCGGTGTGGGCATCTCCCTAGAACCGGTGGAACCGGCGACCAGCCTGCCGATCTTCATCAGCTTTTCGGAAATCCTCAATCGTGTGCGCAACCATCTGGCAGAGAAGCGCCAGCCACGCTCCGCCAGCGTTGAAGAAAGCGCCCCCGCCGCTGCGAATACAGTAAGAGAAAATGAGGCCTGA	MESFYLLLLVATVLVLVAAFSSLIAFRFGAPLLLLFLMIGLGAGVDGLGIEFTNNPLAYMLGSLVLAVILFDSGFGTSIQSFRLSAAPAVALATVGVILTSVFFAGAAALLLGLSWLEGLLLGAIVASTDAAAVFFLLRIGGIHIRDQVRSTLEVESGTNDPMAIFLTIALVEIIAKGQGLAGIDSGFLLLFIEQMGLGVIFGLLGGVMIATVVNRFAADRGLAPIFVLALALLVFSFTGTIGGSGFLAVYVAGIVAGNRRIFAKETIRRFHEGLTWLAQIIMFLMLGLLATPSQFPAIAIPAVLLALFLIFVARPLAVWLSLMPFNYTQQETSFVAWVGLRGAVSILLAIMPILGGLDDAQIYFNAAFIIVLVSLLVQGWTIKPVATRLGLIVPPRMGEVDKLEVDLPGTANHELISYRVAKGSAIMQGERIPRWAMPSLVVRDGKSIRYQYAGRLRENDLVYLFIAPGYSRLIDRLFASALPVADDDADFFGTFAISPARPAKELDAAYGPGLLSPAEQAMSVAELIEARLAGKADYADRVRLGSIVLIVRTLDEHEAITGVGISLEPVEPATSLPIFISFSEILNRVRNHLAEKRQPRSASVEESAPAAANTVRENEA	PGPT0013860_57	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013860-cvrA|nhaP2-K11105	NA	NA
BMS010_00726	1203	pgk_1	COG0126	Phosphoglycerate kinase	ATGCCCGCTTTCAAGACCCTCGACGACCTCAACGACATTGCCGGAAAGCGCGTTCTCGTCCGCGTTGATCTCAACGTGCCGGTCGCAGATGGCAAGGTGACGGACGCAACCCGTATCGAACGCGTTGCGCCGACCATTCTGGAACTGTCCTCCAAGGGCGCAAAAGTCATTCTGCTTGCCCATTTCGGCCGTCCGAAGGGCGAACCGGTGGCCGACATGTCGCTTTCCCAGATCGTACCCGCCGTCGAGGAAGTATTGGATCACGCCGTTTCCTTCGCGACCGACTGCATCGGCGCACCGGCGGCGGACGCCGTCGCTAAACTGAACGATGGCGATATCCTGCTTCTGGAAAATACCCGTTTCCACAAGGGCGAAGAAAAGAACGATCCCGCCTTCGTCGAAGCTCTGGCGGCCAATGGCGATATCTACGTGAACGACGCCTTCTCCGCCGCCCACCGCGCCCATGCCTCCACCGAGGGTCTGGCGCGCCACCTGCCCGCCTATGCCGGCCGCACCATGCAGGCCGAGCTTGAGGCCCTGGAAAAGGGCCTCGGCCAACCGGTACGTCCGGTCGTCGCCATCGTTGGTGGCGCCAAGGTTTCGAGCAAGATCGATCTGCTGATGAACCTCGTCAAGAAGGTCGACGCCCTCGTCATCGGCGGCGGCATGGCCAACACCTTCCTCGCCGCCCGCGGTGCGCAGGTCGGCAAATCGCTTTGCGAGCATGATCTCGCCGAGACCGCAAAGCAAATCATGATCGAGGCAGCGACATCCGGCTGCGCCATCGTTCTGCCGGAGGACGGCGTTGTCGCCCGCGAATTCAAGGCCGGTGCGGCCAATGAAATCGTCGACATCAACGCCATTCCGGCTGATGCCATGGTTCTCGATGTCGGCCCAAAATCGGTTGAAAGCATCAAGGCCTGGATTTCCCGCGCCGAAACGCTGGTCTGGAACGGTCCGCTCGGCGCCTTCGAAATCGAACCCTTCGACGCGGCGACTGTCGCCGCTGCAAAACACGCGGCGGAATGCACCAAGGCCGGCAAGCTCGTCTCCGTCGCCGGCGGCGGCGACACCGTTGCCGCGCTCAACCATGCCGGCGTTTCCGAGGATTTCTCCTATGTTTCGACGGCCGGCGGCGCCTTCCTCGAATGGATGGAAGGCAAGGAATTGCCGGGCGTTGCCATCCTGACCGCCGCCAAGTAA	MPAFKTLDDLNDIAGKRVLVRVDLNVPVADGKVTDATRIERVAPTILELSSKGAKVILLAHFGRPKGEPVADMSLSQIVPAVEEVLDHAVSFATDCIGAPAADAVAKLNDGDILLLENTRFHKGEEKNDPAFVEALAANGDIYVNDAFSAAHRAHASTEGLARHLPAYAGRTMQAELEALEKGLGQPVRPVVAIVGGAKVSSKIDLLMNLVKKVDALVIGGGMANTFLAARGAQVGKSLCEHDLAETAKQIMIEAATSGCAIVLPEDGVVAREFKAGAANEIVDINAIPADAMVLDVGPKSVESIKAWISRAETLVWNGPLGAFEIEPFDAATVAAAKHAAECTKAGKLVSVAGGGDTVAALNHAGVSEDFSYVSTAGGAFLEWMEGKELPGVAILTAAK	PGPT0018015_2807	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0018015-pgk-K00927	NA	NA
BMS010_00727	1026			hypothetical protein	ATGACCGAACGTCTCGAAGACATCGCAATCAAAATGGTCGCCGACGGCAAGGGCCTGCTCGCCGCCGACGAATCCACGGGAACGATCAAAAAGCGTTTCGACAGCATCAATCTGGAGTCCACCGAGACCGCCCGCCGCGATTATCGCGAGATGCTGTTCCGTTCCGACGACGCCATGAAGAAATACATCTCCGGCGTCATCCTTTATGAAGAGACCCTGTTCCAGAAGGCCGCCGACGGCACGCCTTTCGTGGATATCATCAAGGCGGCCGGCAGCCTGCCGGGCATCAAGGTGGATATCGGCGCCAAGCCGATGGCTTTCCATCCGCATGAATTCATCACCGAAGGCCTCGACGGTCTTTACGAGCGCCTGCGCAAGTATCATGAGGCCGGCGCGCGTTTCGCCAAATGGCGCGGCGTCATCACCATCGGTGAGCAGCGTCCGAGCTGGGGTTCGATCAAGGCAAACTCCCAGTCGCTCGCCCGTTACGCCGCTCTCTGCCAGCAGGCGGATATCGTGCCGATCGTGGAGCCGGAAGTGCTGATGGACGGCGAGCCGGGCACGCATGACATCGACCGCTGTGCGGAAGTCACGCAATGGGTTCTCCAGACCGTTTTTGCGGACCTGTTCGACGCCCGTGTGAATCTTGAAGGCATGATCCTCAAGCCGAACATGATCATCGACGGCAAGAAGGCCCGCAAGGCCTCCGTCGAGGAAGTGGCGGAAAAGACCGTGAAGGTTCTGAAGGCGACCGTGCCTTCGGCTGTTCCCGGCATCGCCTTCCTTTCCGGCGGCCAGTCCTCCGAAGAGGCGACCGCCCATCTCTCCGCCATGAATGCCGGCTACGACCTGCCCTGGTCTTTGACCTATTCCTACGGCCGCGCGCTTCAGGATACGGCCCTCAAGACATGGGGCGGCAAGCAGGAAAACGTCGCCGCCGGCCAGCGCGCCTTCACGCACCGCGCCGCGATGAACAGCCTCGCCGCCAAGGGTAACTGGAAGCAGGAACTCGAAAAGGCAGCCTGA	MTERLEDIAIKMVADGKGLLAADESTGTIKKRFDSINLESTETARRDYREMLFRSDDAMKKYISGVILYEETLFQKAADGTPFVDIIKAAGSLPGIKVDIGAKPMAFHPHEFITEGLDGLYERLRKYHEAGARFAKWRGVITIGEQRPSWGSIKANSQSLARYAALCQQADIVPIVEPEVLMDGEPGTHDIDRCAEVTQWVLQTVFADLFDARVNLEGMILKPNMIIDGKKARKASVEEVAEKTVKVLKATVPSAVPGIAFLSGGQSSEEATAHLSAMNAGYDLPWSLTYSYGRALQDTALKTWGGKQENVAAGQRAFTHRAAMNSLAAKGNWKQELEKAA	PGPT0017635_1534	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017635-fda-K01623	NA	NA
BMS010_00728	1878	siaT	COG1593	Sialic acid TRAP transporter permease protein SiaT	ATGACCATGACCGCAAACGCGAATGACGACGTATTTGTGCTCGATGGAGAGCTTTTGCATACCGGGCCGGTAACAGGCTCATGGTTCATGCGACCCATCGAGGCTGTCGCGGCGGTGCTGCTGGCGGTGATGATCGGCCTGCTTCTGCTGGGTGTGACATCGCGCTATGCCCTGCATTTGCCAATCGTCTGGATCGATGAAACGGCGTCGTTGAGCTTCCTGTGGTTTGCCATGCTGGGTGCGGCAATTGCCATCGACCGCAGCGAGCACCTGCGCCTGACGCTATTTCTCAACATGTTTCCGCAGCGCATTCTGGGCTATGTCAATTCGCTCGCGCTTGTGCTGGTGGCGACATTTCTTGCTGCTATTATCAAGCCGGCGATAGAATATGCCATCGAGGAATGGGTCGTGACCTCGGCAGCGCTGAATATTCCAATGTCCTTCCGCGCCGCGGCCTTGCCGGTTGGCGCCTGTCTGATGCTGCTGCTGGTCCTCAACAACCTCTTCCGCAGGGAAAATCTGCGGGACATCATCGCAGCCGTTGTCACCGTCGCGGTCGCCTCCGGCCTGCTCTATCTGGCATCGTCGACGCTCGAAACTTTCGGCAATTTCAATCTGGCGATCTTCCTTGGCCTGTTTGTGGCGGTGTTTCTGGTGCTGGGCGTACCGATCGCCTTCTGTTTCGGCCTTGGAACCCTCGCCTACCTGACCTTTACCACCTGGGTTCCGACCATCGTGATGATCGGGCGCATTGACGAGGGTATGTCGGGCATCATTCTGCTGTCGGTTCCGGTTTTCGTGCTGCTGGGCTGTGTGCTCGATGCCACCGGCATGGGCAAGGCGATTGTCGAGCTGCTATCCTCGATGTTCGGCCATATTCGCGCCGGCATGTCCTATGTGCTGCTCGGTTCGCTGTTTCTGGTCTCGGGCATTTCCGGCTCCAAGGTTTCGGATATGGCGACGGTTGCACCGGCGCTGTTTCCGGAAATGAAGCGCCGTGGCCACAAGCCCAAGGAAATGATTGCGCTGCTCGCCACCGGCGCCGCCATGGCCGATACGGTTCCGCCCTCCATCGTGCTGATCGTCCTCGGTTCGGCGGCGGGCGTGTCGATTGCCGGCCTGTTCACCTCCGGCTTCATGATCGCCATGGTGCTGCTTCTGGTGCTGGCCGTTCTGGCCCGCTGGAAGGCGCGGCATGAAAATATGGAAGGCGCAAAACGCACCCCGTGGCCGCTGGTGGGCAAGGCAGCGCTGGTTGCCGCACCGGCGCTGGTTCTGCCCTTCCTCATCCGCAGCCTCGTCGGCGGCGGCGTGGCGACGGCAACCGAGGTTTCCACCATTGCCGTGCTCTATGCGATGATTATCGGTGCGGTGCTTTATGGCGGCATCAGCCTCAAAAAGCTCTATTCCATGCTGGTGGAGACTGCCGCCCTTTCCGGGGCGATCCTGCTGATCCTCGGCTGCGCCTCGGCCATGGCCTGGGGGCTGACGCAGAGCGGCTTTGCCTTCCAGCTGACCGCGATGATCACCGATCTGCCGGGCGGCTGGATGACCTATATGATCGTGTCGATCCTGATTTTCATGATCCTCGGCTGCGTGCTGGAAGGCCTGCCGGCAATCGTATTGCTCGCACCGATCATGTTCCCCATTGCTCGCACGCTTGGCATCAACGACATCCATTATTCGATGGTGGTGGTGGTCGCCATGAATATCGGCCTGATGGCGCCGCCCATCGGCATCGGTTTCTATATCGCCTGCAAGATAGGCAATGTTTCGCCTGATGAGGCCATGGGCGCCATCTGGCCCTATCTCGCAGCCATGGTCATCGGTCTGCTGCTGATTGCGGCAATTCCGGGCTTCTCGACAATTCTGCTCTGA	MTMTANANDDVFVLDGELLHTGPVTGSWFMRPIEAVAAVLLAVMIGLLLLGVTSRYALHLPIVWIDETASLSFLWFAMLGAAIAIDRSEHLRLTLFLNMFPQRILGYVNSLALVLVATFLAAIIKPAIEYAIEEWVVTSAALNIPMSFRAAALPVGACLMLLLVLNNLFRRENLRDIIAAVVTVAVASGLLYLASSTLETFGNFNLAIFLGLFVAVFLVLGVPIAFCFGLGTLAYLTFTTWVPTIVMIGRIDEGMSGIILLSVPVFVLLGCVLDATGMGKAIVELLSSMFGHIRAGMSYVLLGSLFLVSGISGSKVSDMATVAPALFPEMKRRGHKPKEMIALLATGAAMADTVPPSIVLIVLGSAAGVSIAGLFTSGFMIAMVLLLVLAVLARWKARHENMEGAKRTPWPLVGKAALVAAPALVLPFLIRSLVGGGVATATEVSTIAVLYAMIIGAVLYGGISLKKLYSMLVETAALSGAILLILGCASAMAWGLTQSGFAFQLTAMITDLPGGWMTYMIVSILIFMILGCVLEGLPAIVLLAPIMFPIARTLGINDIHYSMVVVVAMNIGLMAPPIGIGFYIACKIGNVSPDEAMGAIWPYLAAMVIGLLLIAAIPGFSTILL				NA	NA	NA	NA	NA
BMS010_00729	1011		COG1638	putative protein	ATGAATATCAACAGACGTACCGTGTTGGCCGGCGCCGGTTCTGCCGTTCTTGCCACCGCTTTTGTGTCGCGCGCCCGCGCTGCGCAATTCAATTATAAATATGCCAACAACCTGCCTGCCGCGCACCCCATGAACATCCGCGCCAAGGAAGCGGCTGACCGTATCGCCAAGGAAACCGACGGCCAGGTGAATATCAACATCTTCCCCAGCAGCCAGTTGGGCGCTGATACGGATGTGTTGAGCCAGGTACGCTCTGGCGGCGTTGAATTCTTTACGCTTTCGCCACTGATCCTGTCGACGTTGGTGCCGAATGCATCCATCAGCGGCATCGGCTTCGCCTTCCCGAACTACGATTCGGTTTGGGCGGCCATGGATGGCGATCTCGGCAAATATGTGCGCGGCGAAATCGCCAAGCAGAATCTCGTTGCCATGGACACCATCTGGGATAACGGTTTCCGCCAGATCACCAGCGCTTCGAAACCCATCGCCACGCCGGCCGATCTCGAAAGCTTCAAGATCCGCGTGCCGGTAAGCCCGCTCTGGACCTCGATGTTCAAGGCCTTCAAGTCGGCCCCTGCCTCGATCAATTTCGCTGAAGTCTACACCGCCTTGCAGACCGGCGTTGTCGATGGCCAGGAAAACCCGCTGGCGATCATTTCCACCGCCAAGCTGTTCGAAGTGCAGAAATTCTGCTCGGTCACCAACCATATGTGGGACGGCTTCTGGTTCCTGGCGAACAAACGTGCTTGGGAGCGCCTGCCGGATGACCTGCGCGCCATCGTTGCCAAAAACCTCAATCAAGCCGGCAAGGACGAGCGGGCCGATGTGGCGAAGCTCAATGCCTCGGTGAAGGAAGACCTGATTGCCAAGGGCATGACCTTCAACGACACCGACGCCTCACTCTTCCGCGCAACTCTCAAGGAAGCCGGTTTCTATTCCGAATGGAAGGGCAAATATGGCGATGAAGCCTGGGCCATTCTCGAAAAGGCCGTTGGCGCCAGCCTGACCTGA	MNINRRTVLAGAGSAVLATAFVSRARAAQFNYKYANNLPAAHPMNIRAKEAADRIAKETDGQVNINIFPSSQLGADTDVLSQVRSGGVEFFTLSPLILSTLVPNASISGIGFAFPNYDSVWAAMDGDLGKYVRGEIAKQNLVAMDTIWDNGFRQITSASKPIATPADLESFKIRVPVSPLWTSMFKAFKSAPASINFAEVYTALQTGVVDGQENPLAIISTAKLFEVQKFCSVTNHMWDGFWFLANKRAWERLPDDLRAIVAKNLNQAGKDERADVAKLNASVKEDLIAKGMTFNDTDASLFRATLKEAGFYSEWKGKYGDEAWAILEKAVGASLT				NA	NA	NA	NA	NA
BMS010_00730	717	linX		2,5-dichloro-2,5-cyclohexadiene-1,4-diol dehydrogenase LinX	GTGCAATTTGCCCGCGAAGGCGCGCGCGTAGCCTGTGTCGACCTTTCCGCTGACGCGGCCGAGGAAACCGCGCAGATCATTCGCGGCGAAGGTTTCGAGGCGATTGCGGTTGCTGCCGATGTCACGGAACTCGATTCCGTATCGGCTACGGTTGCGCGGACCTGCGAGATCTTCGGCGGCATCGATATTCTGCACAACAATGTCGGCGTGACCCATATGGGCGGTCCGGTCGAGCTGGACGAGGAACGTTTTCGAGCCTCGGTCGATCTCAATATCGGCTCCGTTTATCGCACCGCCAAGGCGGTGCTGCCGGTGATGCTTGAGCAGGGCGGCGGGGCCATCGTCAACATCTCGTCGCTCGCCTCCATTCGCTGGACCGGCTATCCCTATTTTGCCTATTACGCCATGAAAGCCGCCGTAAACCAGGCAACCGTGGCGCTGGCCATGCAATATGCCCGCCAGGGCATTCGCGCCAATTGCGTTCTGCCCGGAATGATCGATACGCCGCTGATCTACAAGCAGATCAGCAATCAATATGCCTCCGTCGAGGATATGGTGGCGGCGCGCAATGCCGCGGTCCCGGTCGGCCGCATGGGCGATGCCTTCGATATCGCCCGCGCCGCAGTCTTTCTGGCATCCGATGAAGCCAAGTTCATCACCGGCATCTGCCTGCCGGTCGATGGCGGGCAAAGCTGTGCGGTGGGAGCGTTTTCCTGA	MQFAREGARVACVDLSADAAEETAQIIRGEGFEAIAVAADVTELDSVSATVARTCEIFGGIDILHNNVGVTHMGGPVELDEERFRASVDLNIGSVYRTAKAVLPVMLEQGGGAIVNISSLASIRWTGYPYFAYYAMKAAVNQATVALAMQYARQGIRANCVLPGMIDTPLIYKQISNQYASVEDMVAARNAAVPVGRMGDAFDIARAAVFLASDEAKFITGICLPVDGGQSCAVGAFS	PGPT0003180_11148	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0003180-ymfI|fabG|efpI-K00059	NA	NA
BMS010_00731	858	kipR_1	COG1414	HTH-type transcriptional regulator KipR	ATGGCCACGATGATCCCGATGGAAAACGACCTGACAGGCGCGCGCGCGGTAGACCGGGCGCTGGGGCTGCTCTCCATGGTGGGGCGTCATGCCGAACGCGGTGTGGCGCTTTCGGTCATCGTCACCGAAAGCGGGCTGAACAAGCCCACGGCCCGCCGCCTGCTGCTGGCGCTGATCCGCGCAGGCCTGGTGGAGCAGGATGAGGAAACGCGGCGTTATTATCTGGGCGAGGAAGCCTATGTGCTCGGCAGCCTGTCATCGCGCCGTTTCGGCTTGCTGCAGATGGCCCAGGACAGTCTGACGCGCATTTCCCGCCGGACAGAGGATTCGAGCTTCCTTTCCGTGCGTCGCGACACGTTCGCATTATGCCTCTATCGCGAAGAAGGCACCTGGCCGGTGCGCACCCACGCGCTTCAGGCCGGTTTCGAGCACCCACTGGGCATTGGCGCGGGATCGCTCGCCATGCTGGCGGCGCTGCCCGATGCCGAGGTGGAAAGCGTCATTGCCGCCAATAGCGGGCTGATTGCCGCGAACTATCCCGGCATCACGCTGGACGGACTGCGCCGCGATGTCGAATTGACGCGAACCAATGGTTATTCGCTCAATCCGGGTCTGATCCTCTCGAATTCCTGGGGTATCGGCGTTGCCATCCGGACACCGGATGGCGCAGTGGCGGGGGCGTTGAGCATTGCCGCCGTCGACAGCCGCATGCGGCCGGAGCGCCAACCGGAACTGGCGGCGGTGCTGCGCGAGGAAGTGACCCGCATCGAGACACGCATTGCGGAAATGATGGCAAGCCGCGCCCGCACGCGTGGCGAAGGCGATGCGAAACGGCAAACAAGGAGAACGAGCAAATGA	MATMIPMENDLTGARAVDRALGLLSMVGRHAERGVALSVIVTESGLNKPTARRLLLALIRAGLVEQDEETRRYYLGEEAYVLGSLSSRRFGLLQMAQDSLTRISRRTEDSSFLSVRRDTFALCLYREEGTWPVRTHALQAGFEHPLGIGAGSLAMLAALPDAEVESVIAANSGLIAANYPGITLDGLRRDVELTRTNGYSLNPGLILSNSWGIGVAIRTPDGAVAGALSIAAVDSRMRPERQPELAAVLREEVTRIETRIAEMMASRARTRGEGDAKRQTRRTSK				NA	NA	NA	NA	NA
BMS010_00732	1170			hypothetical protein	ATGAGCAAAGCGCAGATCGTCGGCTGGGCGCATTCGCCTTTCGGCAAATCGGCCCTTGAAAATACCGAACAACTGATGGCTTCGGTCGTGGCGCCAGCCATAGACCATGCGGGCGTCGATGTCGGCGATATAGACGGCATTTTCGTCGGCGTGATGAATAACGGTTTCTCGAAACAGGATTTTCAGGGCGCGCTGGTGGCCATGGGCGATGAGCGCCTCGCCTACACGCCCGCCGTGCGTTTCGAGAATGCCTGCTCGACAGGATCGGCCGCCCTTTACAGCGCCATGGATTTCATCGAGGCCGGGCGTGGGCGCATCGCGCTCGTTGTCGGCGCCGAAAAAATGACGGCGCTGCCAACCGCCGAGGTGGGTGAAATCCTGCTATCCGCCTGCTACCGTGCCGAAGAAGCCGATATTTCCGGCGGCTTTGCCGGCCAGTTCGGACGTATCGCCCAGGCTTATTTCCAGCGCTATGGCGATCGCTCGGAAGAACTGGCGATGATCGCCGCCAAGAACCACGCCAATGGCGCGGTCAATCCCTACGCCCATATGCGCAAGGATTTCGGCTTCGATTTCTGCAACACGGTATCGGATAAGAACCCTTACGTCGCAGGCCCGCTGCGCCGCACCGACTGCTCGCTGATTTCCGATGGCGCCGCCGCCATCATTCTGGCCGATGAGGAAACCGCAGCGACACTCAACCGGGCCATCGGTTTCCGGGGCCGCAAGCATGTCAATGACATTCTGGCGCTCAGCCGCCGCGATCCGCTGGCCTTCGAGGGCGCGCGCCGCGCCTGGGCAGGTTCGCTGGAACTCGCAGGCGCGACGCTCGACGACCTCTCCTTCGTCGAAACCCATGATTGCTTCACCATTGCCGAACTCATCGAATATGAGGCGATGGGATTGGCGAAGCCCGGTGAAGGGCACCGGGTGGTGCGCGAAGGCACGGCCCTGAAAACCGGTCGCCTGCCGATCAACCCCTCCGGCGGGCTGAAATCCAAGGGGCATCCGGTTGGGGCAACCGGGGTCTCCATGCATGTCATGGCGGCGATGCAATTGATGGGCGAAGCGGGCGACATGCAGATCCCCGGCGCCTCGCTCGCCGGTGTTTTCAACATGGGGGGAACTGCGGTTGCCAACTATGTCTCGATCATGGAGCGCGTGAAATGA	MSKAQIVGWAHSPFGKSALENTEQLMASVVAPAIDHAGVDVGDIDGIFVGVMNNGFSKQDFQGALVAMGDERLAYTPAVRFENACSTGSAALYSAMDFIEAGRGRIALVVGAEKMTALPTAEVGEILLSACYRAEEADISGGFAGQFGRIAQAYFQRYGDRSEELAMIAAKNHANGAVNPYAHMRKDFGFDFCNTVSDKNPYVAGPLRRTDCSLISDGAAAIILADEETAATLNRAIGFRGRKHVNDILALSRRDPLAFEGARRAWAGSLELAGATLDDLSFVETHDCFTIAELIEYEAMGLAKPGEGHRVVREGTALKTGRLPINPSGGLKSKGHPVGATGVSMHVMAAMQLMGEAGDMQIPGASLAGVFNMGGTAVANYVSIMERVK	PGPT0008320_12081	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
BMS010_00733	1626		COG0318	Long-chain-fatty-acid--CoA ligase FadD13	ATGACGATACATCCTCCGGGCGGGGTTGCGCCTTCGACCACGCGGGTCATGAATCTCTCGCATTTCCTGACCCAGGCAGCGCGCCGCAACCCCGCCGACATCGGCTTCGTATGGGGTGAGAAGAGCTGGACATGGGCTGAAATGGACGCCCGCGTCGATGCCATGGCGCAGGCGCTGGTAACAGAATTCGGCGTCAGGAAAGGTGACCGCATTCTGGTGCAGTCTTCCAACAACAACCAGATGTTCGAATCCATGTTCGCCTGCTTCCGCGTGGGCGCGGTGTGGGTGCCGACCAATTATCGCCAGTCGCCCGATGAGGTGGCCTATCTGGCAAAAGCCAGCGGCGCACGCGGCATGATCTGCGCCAGCGCTTTTCCCGAGCATGCAAGGGCGAGCCGCGAAGCAACCGCGATCGATTTCACCATCGCCATTGGCACGGCCGAATTCGGCGAGGACTACGACACTATCGTGGCCCGCCATCTGGGCCAAAAAGTAAAAAGCGAGGCGGTGGATCGGGACGATCCCTGCTGGTTCTTCTTCACCTCCGGCACGACGGGTCGGCCCAAGGCTGCGGTGCTGACCCATGGCCAGATGGCCTTTGTCATCACCAACCATCTTTGCGATCTGATGCCCGGCACCGGACCGGGCGACGCTTCCATCGTCGTTGCGCCGCTTTCGCACGGCGCGGGCATTCACCAGTTGGTGCAGGTGGCGCATGGGGCAAAAACGGTGCTTCCGGCTGCGGAAAAACTCGATGTGCCAGCGGTGTGGGCGCTGATCGAGAAATGGCGCGTCACCAATGCCTTTACCGTGCCGACCATTCTGAAAATGCTGATCGAAGACCCTTCCGTGGATCGTTTCGATCATTCCTCGCTGCGCTACGTCATCTATGCCGGTGCGCCCATGTATCGCGCCGATCAGAAACGGGCGCTCGCCAAGCTCGGCCCGGTGCTGGTGCAATATTTCGGCCTTGGCGAAGTGACCGGCAACATCACCGTGCTGCCGCCTTCCTTCCACAACACCGAAGACGGCCCGGAGGCGCGGATCGGCACCTGCGGTTTTGATCGCACCGGCATGGAAGTGCAAATCCAGAACGATGCGGGCGAGGAGCTTCAGGCCGGTGAAACCGGCGAAATCTGCGTTATCGGCCCTGCTGTTTTCGCGGGTTACTACGATAATCCCGATGCCAATGCCAAAGCCTTCCGCAACGGCTGGTTCCGCACCGGCGATCTTGGTCACCGCGACGAGAACGGTTTTGTCTACATCACCGGCCGCGCCTCCGACATGTATATTTCCGGCGGCTCGAACATCTATCCGCGTGAGATCGAGGAGAAAATCCTCATGCATCCGGATATCAGCGAGACAGCGGTTCTGGGCGTGCCGGATGCGGTGTGGGGCGAGGTCGGCGTCGCCGTCTGCGTGGCGCGGGAGGGCGCGGATATCGCCGGCATCGACCTGAAAGCCTATCTCGACGGCAAGATGGCCCGCTACAAGCTGCCGAAAGCCGTTGTGTTCTGGGATGCCATGCCGAAATCCGCCTATGGCAAGATCACCAAGAAGATGATCCGCGAGGAGCTGGAAAAGCGCGGCCAGATGCCGGTTTTCGAGGAAAAACTGACTGGCTGA	MTIHPPGGVAPSTTRVMNLSHFLTQAARRNPADIGFVWGEKSWTWAEMDARVDAMAQALVTEFGVRKGDRILVQSSNNNQMFESMFACFRVGAVWVPTNYRQSPDEVAYLAKASGARGMICASAFPEHARASREATAIDFTIAIGTAEFGEDYDTIVARHLGQKVKSEAVDRDDPCWFFFTSGTTGRPKAAVLTHGQMAFVITNHLCDLMPGTGPGDASIVVAPLSHGAGIHQLVQVAHGAKTVLPAAEKLDVPAVWALIEKWRVTNAFTVPTILKMLIEDPSVDRFDHSSLRYVIYAGAPMYRADQKRALAKLGPVLVQYFGLGEVTGNITVLPPSFHNTEDGPEARIGTCGFDRTGMEVQIQNDAGEELQAGETGEICVIGPAVFAGYYDNPDANAKAFRNGWFRTGDLGHRDENGFVYITGRASDMYISGGSNIYPREIEEKILMHPDISETAVLGVPDAVWGEVGVAVCVAREGADIAGIDLKAYLDGKMARYKLPKAVVFWDAMPKSAYGKITKKMIREELEKRGQMPVFEEKLTG				NA	NA	NA	NA	NA
BMS010_00734	780	fabG_3		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGACACAGCAGACGAGAGAGATGAAAGGCGCTGTCGCCATCACCGGCGGCGCATCGGGTATCGGCTTTTCCACGGCGCAGCTCTTGATGGCGCGCGGCTGGCAGCCATGGCTACTGGATCTCAAGCGTGAGGCGCTGGATGCGGCCTGCGAAAAACTCGGCATCGATGCTTCGCGCGGCATCGTCTGCAATGTAGCGGATGAGAGGTCGATAGAAGAGGCTTTCGCCGCCTTGACGGCGGGCGGCGCCGATCATGCCGTTGATCTGGTGGCCGTCGTCAACAGCGCCGGCATCGGCATCGACAAGCTTTCCGTCGATACCAGCGTGGAAGAATTCCGTCGTATCGTTGACGTCAATCTCGTCGGCAGTTTCGCCGTGGCCCGCACCGCCGCGCGTTACTGGCTGGACCGCGCAATTTCCGGTTCGATCGTCAATATCAGCTCGGTTTCCGGCATGTGCGGCAATCGTGGTCGCAGCGCCTATGGCGCCTCAAAAGGCGGTGTCAATCTTCTGACGATGGTTATGGCAAACGAGCTGGGGCAATCGGGGATTCGCGTCAATGCGATTGCGCCCGGCCCCGTCGATACCCCACTCACCCAGGCGGTTCATACGGAGAATGTTCGCAGCCAGTGGCACAGTCGCGTTCCCATGCACCGCTATGGCAGGACGGACGAGATCGCCTCTGCCGTGGCTTTCCTTGTGTCGGACGACGCGAGCTACATCAACGGTCAGGTGCTGGCCGTAGACGGCGGCTTCATTACCGCAGGGCTTGCGGTATGA	MTQQTREMKGAVAITGGASGIGFSTAQLLMARGWQPWLLDLKREALDAACEKLGIDASRGIVCNVADERSIEEAFAALTAGGADHAVDLVAVVNSAGIGIDKLSVDTSVEEFRRIVDVNLVGSFAVARTAARYWLDRAISGSIVNISSVSGMCGNRGRSAYGASKGGVNLLTMVMANELGQSGIRVNAIAPGPVDTPLTQAVHTENVRSQWHSRVPMHRYGRTDEIASAVAFLVSDDASYINGQVLAVDGGFITAGLAV	PGPT0003180_5729	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0003180-ymfI|fabG|efpI-K00059	NA	NA
BMS010_00735	894			hypothetical protein	ATGACGATAACGCCCCCGGAGGGGCTTCCGCGCAGCATCGTCCATCCGGGGCCGGCAACACCCGAACGCTTCCGAGTCGTCGGTTGCCACGCCCATCCGGTCAGGCTGAATGCCAGACCCGGTGTCTGCGTCAATGAGGCGATTGCAGAAGCCTTTGTCGAACAGGGTTTCTATGGGGGTTATGTCAGACTGAAAAATGTGCCGATGAAGCGGTTGCACTATGTCATGCCCGCAGCGGCACCCGATGACGCGCATGCCGCCTGGTATAGCGAAACTTTCTCCATGCCGGGGGGCACAATCATCGATGCCGGCCTGCATATGGGGCGGCGCGACGGTCAGCCGTTCCTGCACTGCCACGGTTCGTGGAAAAGTGCCGAAGGCGTTCTCTCCATGGGCCACCTGCTGCCTTTGGAGTCCGAATTTGCCGGGGAAACGCCGCTCGAGGCGCTGGCGCTGGATGGCGCAATTCTGGACGTGCAGAAGGATGAGGAAACCAATTTCCCCCTCTTCACGCCCATCGCTCAGCCGCGCAACCGGAAGGATGCAGGGCTCCGGGCGCTGTTGTGCACCGTGCGGCCCAATACCGATATCTGCACGGCGCTTGAAGCCGCCTGCAGAGAGTTCGACCTGCGGCAGGCCGAGGTCAATGGTATCGGCAGCCTGATCGGCGCGGATTATGAAGACGGAACAAGTCTCACCGCCTATGCCAGCGAAATCCTCATCCGCAATGGCCGCATCCACCCCGCCGCCACGGGTGGCGAACGGGCAATGCTGGATATTGCGATGGTCGATCTTACCACACAGATCAGCGGCGGGCGGCTGGTGCGCGGCAAAAACCCGGTCTGCGTCACTTTCGAGCTGCTTCTGACCGAAAGACAGGGGGCGGCTGCATGA	MTITPPEGLPRSIVHPGPATPERFRVVGCHAHPVRLNARPGVCVNEAIAEAFVEQGFYGGYVRLKNVPMKRLHYVMPAAAPDDAHAAWYSETFSMPGGTIIDAGLHMGRRDGQPFLHCHGSWKSAEGVLSMGHLLPLESEFAGETPLEALALDGAILDVQKDEETNFPLFTPIAQPRNRKDAGLRALLCTVRPNTDICTALEAACREFDLRQAEVNGIGSLIGADYEDGTSLTAYASEILIRNGRIHPAATGGERAMLDIAMVDLTTQISGGRLVRGKNPVCVTFELLLTERQGAAA				NA	NA	NA	NA	NA
BMS010_00736	408			hypothetical protein	ATGAACACGCATAACACTGTCGAATCCGGCTCCATGGGCCGCGTGGCCTATGCCCGCATTGCGCCCAATGAAGATCTCGTGCTCGGCGTCGAGAAATTGTGCCTGGCCGAAGGTTTCCGTAATGCCTTCGTGCGCGGCGCGCTGGGCAGTCTGGTGGATGCGTGTCTCGGCACCCGCAGCGGCGCGTTTTTGCAGATAAGCGGTCCTGCCGTTGAAATCGTTTCGATTGCCGGTGAGGTGCGCGCCCAGCCGGATGGCTCCCTGCGCGCCGCGCTGACCGGCGTTGTCGCCGATACCGATGGCGCGGTTTATGGCGGTCCCTTCATCGCCGGCGCCAACCCGGTGTGCATGACCTTCGAGGTGACGCTGGAAGAATGGTTGCCTGCGGAAAAGCCGCAGGCGGCGTGA	MNTHNTVESGSMGRVAYARIAPNEDLVLGVEKLCLAEGFRNAFVRGALGSLVDACLGTRSGAFLQISGPAVEIVSIAGEVRAQPDGSLRAALTGVVADTDGAVYGGPFIAGANPVCMTFEVTLEEWLPAEKPQAA				NA	NA	NA	NA	NA
BMS010_00737	567			hypothetical protein	ATGGCACCCACACGGCAACAGCATTTTCCAAGGCCGAGAACGCTGATACACCCCGGTATTTCTTCGCCGGTGCGTATCAACAGCCTGCGCTCGCCATCTGCGCGCCATATGCGGCTGTTCATCGCGCCGGGGTGCAGCCTTTACGATGGAATCGTGCGGTCTTTGGCCGAAAACGGCATTGAAAATGCCTCTTTGACCATTCTCGGCGGTTATTTCGACATTCTGTCCTATTGCGTGGCTCCACCCGATCCCTCCGGCAGGGCGGTCATCGCCTATACGAAACCCATCGATGCCGGGGCGGCCTGGCTGGTTTTCGGCAACGCCACGCTGGGGCGGAGCATGAAGGGCGAGCCGATCGTGCACTGCCATGCCGCCATGCGGACCGCGGCGGGTGTGGTCAAAGGCGGCCATTTGCTGACGGAATCCTGTATCGTCGGAGAAGGCGGCATTTCCGCCCTTGTGACCTCGCTCGACAGTTTTGTGCTGCAGCAGTCCTTCGATCCCGAAACCAATATTCCCCTTCTTCAACCCAGGAACCGCACGGAGCCCGCCGATGAACACGCATAA	MAPTRQQHFPRPRTLIHPGISSPVRINSLRSPSARHMRLFIAPGCSLYDGIVRSLAENGIENASLTILGGYFDILSYCVAPPDPSGRAVIAYTKPIDAGAAWLVFGNATLGRSMKGEPIVHCHAAMRTAAGVVKGGHLLTESCIVGEGGISALVTSLDSFVLQQSFDPETNIPLLQPRNRTEPADEHA				NA	NA	NA	NA	NA
BMS010_00738	486	lrp_2	COG1522	Leucine-responsive regulatory protein	ATGACGAAGCCGCTGGACAGAATTGACCGCAAAATATTGCGAGCCCTGCTGGAGAACGGCAGGCTGAGCAATACGGAACTATCGGAAAAGGTGGGGCTGTCGCCCAGCCCTTGCTGGCAGCGCGTCAAGCGGCTGGAAGACGAAGGGGTCATTCGCGGCTATACCGCCATTCTCGATCAGGCCCATCTTGGACTGACCGAGACGGTGATCATCGAGGTCATGCTGGAACGTCACGACGATGAAGTTCTGGAACGTTTCGGTAAGGCCATGGCCGCTCTTCCCGAAGTGCTGGAAGCCTATCTGACAACCGGCGAATATGATTATCTCATCAAGGTGGCGGTGGCGGGAACCGCGGGCTACGAGCAGTTTCTGCGCCGCAAGCTTTACAAGATCGAGGGTGTGCGCCATTCCCGCTCCTGTTTCGCACTTAAATGCCTCAAGCATACTTTATCGGTCGTGCCCGATGCGGAGCCGCCACCCGCCTGA	MTKPLDRIDRKILRALLENGRLSNTELSEKVGLSPSPCWQRVKRLEDEGVIRGYTAILDQAHLGLTETVIIEVMLERHDDEVLERFGKAMAALPEVLEAYLTTGEYDYLIKVAVAGTAGYEQFLRRKLYKIEGVRHSRSCFALKCLKHTLSVVPDAEPPPA	PGPT0014049_218	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014049-doeX-K15782	NA	NA
BMS010_00739	156			hypothetical protein	ATGACAAAGGCGATCGGCCTTTTTTTACTGCTGGCCATGGTGGTCCAGATCATCCGGCCGCTCGGTCTGCCGGGCCTGAAAAAAAGAGGCGATTGCTGGAAGATCGCGGTTGCCGCCTTTGTCATCTGGTCGGTGACGCTGCTTCTGCGCCCGTAA	MTKAIGLFLLLAMVVQIIRPLGLPGLKKRGDCWKIAVAAFVIWSVTLLLRP				NA	NA	NA	NA	NA
BMS010_00740	1290	ycaD_2		putative MFS-type transporter YcaD	ATGAGCAGAAATCTTCTACCCGTATTCGCTCTTTTATCCAGCACTCTGTTTCTTTTTCTCGGCAACGGCCTTCAGGGCCTCGTGCTTCCGGTGCGTGGTTCGGCGGAAGGTTACTCCAATGAAATTCTTGGCTTTCTGGGCACCTCTTGGGCGGCGGGATTCGTCGTCGGTTGCTTTGTCGCGCCTGCCATCGTGCGCCGCGCCGGGCATGTGCGGGCATTCGGGTCCTTCGTGGCGCTGGTGTGCCTGACGGTGCTGATGACCGGCCTTATCATCGACGACACCTCATGGATCGCGCTGCGCGCGCTTACCGGTTTCTGCACGGCCGGAACCTCGATGATCATCGAAAGCTGGCTGAACGAGCGCGCCACCAATGAAAGTCGTGGCATGATCTTCTCGCTTTATATCGCCATCACGCTGCTCGGTGTCGTGGCGGGGCAGATGATCGTGCCGATGGGGGATATCAGCAATACCTCGCTGTTCATGATCTGCGGCATCATCTATTGCATCGCGATTCTGCCGGCCACGCTTTCGAAAGCGGCGAGCCCACAGCCGTTGCAGAAGGTGAAGCTGGATCTGCCGGCCCTTTACCGCAACTCACCGGTTTCCTTCATCGGCATTCTGATGATCGGCATTGCCAACGGCGCTTACGGTACGCTTGGCGCCGTCTTCGGTGCGCGGGCAGGACTGGACCCGACCATGATCGCCATCATGGTGTCCGTCACGATTTTCGTCGGTGCGCTGGCGCAATTTCCCGCAGGCCGGCTTTCAGACCGGATAGACCGCCGCTATGTGCTGGCCGGGCTGGCCGGGCTTGGCGCGGTCGCGGGCCTGGCTGTCGCAGTGGTCCAGCCGCATGATGTCTATGTGCTGATTTCGATGATCGCCATTTATGGCGCCGCCGCCAATGCGCTCTATCCCATCGCCGTGGCCCATGCCAACGACTTCGCCGCATCGGAAGACTTCGTCAAGGTTTCCGGTGGTCTGCTGCTGCTTTACGGCATCGGCACCATCATCGGCCCGACGCTCGGCGGCGCGATCATGACCCATTTCGGCCCCTATGCGCTGTTTCTGGTCACGGCTGTGGCCCATCTGCTCATCACCGCCTATGCCATCATCAGAAGCCGCCGGCGCGCAGCACTTTCAACCGAGGAAAAAGACAATTTCTCGACGATGATGCCAACTACACCCTCACCGCTCGTCACGCCGGAAAGTATTGCGCTTGACCCGCGCGCGCCGCAATATCCAGGCGACGATGGCGACTATGTGGAAAAAGGAGCAGGCATATGA	MSRNLLPVFALLSSTLFLFLGNGLQGLVLPVRGSAEGYSNEILGFLGTSWAAGFVVGCFVAPAIVRRAGHVRAFGSFVALVCLTVLMTGLIIDDTSWIALRALTGFCTAGTSMIIESWLNERATNESRGMIFSLYIAITLLGVVAGQMIVPMGDISNTSLFMICGIIYCIAILPATLSKAASPQPLQKVKLDLPALYRNSPVSFIGILMIGIANGAYGTLGAVFGARAGLDPTMIAIMVSVTIFVGALAQFPAGRLSDRIDRRYVLAGLAGLGAVAGLAVAVVQPHDVYVLISMIAIYGAAANALYPIAVAHANDFAASEDFVKVSGGLLLLYGIGTIIGPTLGGAIMTHFGPYALFLVTAVAHLLITAYAIIRSRRRAALSTEEKDNFSTMMPTTPSPLVTPESIALDPRAPQYPGDDGDYVEKGAGI				NA	NA	NA	NA	NA
BMS010_00741	192			hypothetical protein	ATGAGCCTCTTTGACGATGACCGTCCGCAAAAACCGGCAGCGCATGAGATCGGTGGCGATCTCAGCCTTCTTTCCGTGGACGAGCTGAGCAGCCGTATCGATCTTCTGCAAGCCGAAATCACCCGACTCGAAGAGGAGAGGACACGGAAATCCGCCGGAAGGCAAGCGGCGGAAAATCTCTTCCGATCCTGA	MSLFDDDRPQKPAAHEIGGDLSLLSVDELSSRIDLLQAEITRLEEERTRKSAGRQAAENLFRS				NA	NA	NA	NA	NA
BMS010_00742	516			hypothetical protein	ATGTCGGAACAGGTTTTAAATACCATAAGCTTTGCGGGTCGCGCAGCTGCTTCCAACCAGTTCAAGACCCTCTATACCGAAGGCATGACCTTGGTTGAGGAAACGGCAAGTTATCTCGACGGCGCCGGCCGCGCCGCCTCCAAGGTGCTGCCGCGCATGGCCTCGGTTCTTTATGCGGCGGAATCGATGCGCCTCACCACCCGCCTGATGCAGATGGCCTCCTGGCTGCTTCTGCAGCGCGCCGTCAACAACGGTGAAATGACGCGCGATCAGGTTCTGAGCGAAAAGAACAAGGTGCGACTCGACAGCTTCAACGTCGACCGCAATGCGCCCGGCTGGAACGACCTGCCGGAATCCTTCCGCGACCTCATCGAGCGCTCGCTGCGTCTCCAGAACCGCATCGCCCTGCTCGACCGCGAAATCTATCGCCCGTCCGAAGCCGCCAAGGTGCCGGACAATGAAAACAGCGTGCAGGCGCAGCTCAACCTCCTGCGCACGGCTTTCTCGATCAACTGA	MSEQVLNTISFAGRAAASNQFKTLYTEGMTLVEETASYLDGAGRAASKVLPRMASVLYAAESMRLTTRLMQMASWLLLQRAVNNGEMTRDQVLSEKNKVRLDSFNVDRNAPGWNDLPESFRDLIERSLRLQNRIALLDREIYRPSEAAKVPDNENSVQAQLNLLRTAFSIN				NA	NA	NA	NA	NA
BMS010_00743	222	rpmE_1	COG0254	50S ribosomal protein L31	ATGAAGGCTGATATCCATCCCGATTATCACACGATCAAGGTGGTCATGACCGACGGCACCGAATACGAAACCCGCTCCACCTGGGGTTCGGAAGGCGCCGTCATGAACCTTGAAATCGACCCCAAGTCCCATCCGGCATGGACGGGCGGCAACCAGCAGCTTATGGACCGCGGTGGTCGCGTTTCCAAGTTCAACAAGCGTTTCGGCGGCCTCGGCCTCTGA	MKADIHPDYHTIKVVMTDGTEYETRSTWGSEGAVMNLEIDPKSHPAWTGGNQQLMDRGGRVSKFNKRFGGLGL	PGPT0014325_3174	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014325-rpmEB-K02909	NA	NA
BMS010_00744	1800	lmrA	COG1132	Multidrug resistance ABC transporter ATP-binding and permease protein	GTGGCAGACATTGACGAGCAGAAAGCGGCGAAACAACGAAGCCTGAAGCCGCTTCTTGGCCTGTTTCCCTATCTCCGGCGTTACCGCGGCCTGATGGCGGCTGCCCTTTTCGCTCTCGTGCTTTCTTCCGCCACGACACTCGCCCTGCCGCTTGCCGTTCGCCGCATTATCGATCACGGTTTCCAGACGCCGGACGGCGGCATGATCAACAGCTATTTCGCCATGCTTCTGGCGATTGCGGTAGTCCTCGCGCTCGCCAGCGCCATGCGTTATTATTACGTCATGACCATCGGTGAAAGGGTCGTCGCCGATCTGCGCCGCGATGTCTTTGCCCACCTCACCACCTTGTCGCAGCAGTTTTTCGATAGCAATCGATCCGGCGAGCTGACCTCGCGGCTGACCGCCGATACCGTGCAGATTCGCTCGGCTTTTGGCTCGTCCGCCTCGGTAGCGCTGCGCAATATCATCATGTGCTGCGGAGCGGTGGCGATGATGATCTATACCAGCCCCGGCCTTTCCGGCCTTGCGCTGCTTGCCATTCCCTTCATCGTTTTTCCGCTGATCGCCTTCGGACGCTCGGTTCGCGCCCGCTCCCGCACCACGCAGGACACATTGGCCAATTCCGCCGCCTATGCTTCCGAGACGATTGCGGCGAGCCGCACCGTGCAGTCTTTTAATGCCGAGGTGCTGGCGAATGCCCGTTATGGCGCTTCCGTGGAAGCCGCCTATCAGGGCGCACGCGCCGCCATCGGCGCCCGCTCCATCCTCACCGCCGTTGCCATTGCGCTCGTCTTCGGCAGCGTCGTCGGCATTCTCTGGTATGGCGCGCAAAGCGTGCTCTCGGGCACTATGACGGCCGGTACGCTCGGCCAGTTCGTGCTTTATTCGGTCATCGCGGCAAGCGGTCTCGGTCAGCTCTCGGAAGTCTGGGGTGAACTGGCGCAGGCGGGCGGTGCGGCAGAACGGCTCTCCGAACTGCTGAACGAGCACTCGCCCGTCGCGGAACCCATATCGCCCGTCGCCATGCCGCAACCGCCGCGCGGCGAGGCGGAATTCGAGAATGTCGATTTCGTTTATCCGCTCGCGACAGAACGGCCGATCGTTTCCGGCCTCTCCTTCAAGGTCAGCGCCGGCGAAACCGTCGCCATCGTCGGGCCTTCCGGTGCCGGCAAGAGCACGGTCTTTTCGCTGCTGATGCGCTTTTACGATCCGCAGCAGGGCCGCATCACCGTCGATGGCACGGATATTCGCGACGTCACCCTTGCCGATCTGCGCGCGCGCCTGTCCATCGTTCCGCAGGATGTGGCGATATTCGCCTCCTCCATCCACGATAATATCGCCTTTGGCCGACCTGACGCGACACGCGAGGAGGTGCGGGCCGCCGCCATCGCCGCACAGGCCGACAGCTTCATCGAACGTCTCACCGAAGGATATGATACGCAGGTGGGCGAGCGCGGCGTGACGCTTTCCGGCGGCCAGCGCCAGCGCATCGCCATTGCCCGCGCCATTCTGCGCAATGCGCCAATCCTGCTGCTCGACGAAGCCACCTCGGCGCTGGATGCGGAAAGCGAAACACTGGTGCAGAAGGCGCTCGATGAGCTGATGAAAACCCGCACTACCATCGTCATCGCCCATCGCCTCGCCACCGTGCTGAAGGCCGACCGTATTCTGGTGATGGATGAGGGCCGCATCATCGAAGAAGGCACGCATCAGAGCCTCATTCGCCAGAATGGCCTTTATGCGCGGCTTGCCCGGCTGCAATTCCAGACCGGGCCGGACGAATTGCGCGCCCAGGCCTAG	MADIDEQKAAKQRSLKPLLGLFPYLRRYRGLMAAALFALVLSSATTLALPLAVRRIIDHGFQTPDGGMINSYFAMLLAIAVVLALASAMRYYYVMTIGERVVADLRRDVFAHLTTLSQQFFDSNRSGELTSRLTADTVQIRSAFGSSASVALRNIIMCCGAVAMMIYTSPGLSGLALLAIPFIVFPLIAFGRSVRARSRTTQDTLANSAAYASETIAASRTVQSFNAEVLANARYGASVEAAYQGARAAIGARSILTAVAIALVFGSVVGILWYGAQSVLSGTMTAGTLGQFVLYSVIAASGLGQLSEVWGELAQAGGAAERLSELLNEHSPVAEPISPVAMPQPPRGEAEFENVDFVYPLATERPIVSGLSFKVSAGETVAIVGPSGAGKSTVFSLLMRFYDPQQGRITVDGTDIRDVTLADLRARLSIVPQDVAIFASSIHDNIAFGRPDATREEVRAAAIAAQADSFIERLTEGYDTQVGERGVTLSGGQRQRIAIARAILRNAPILLLDEATSALDAESETLVQKALDELMKTRTTIVIAHRLATVLKADRILVMDEGRIIEEGTHQSLIRQNGLYARLARLQFQTGPDELRAQA				NA	NA	NA	NA	NA
BMS010_00745	1647		COG3573	KsdD-like steroid dehydrogenase	ATGGAAGGCTATGATGTGATCGTTATCGGCGCGGGGCTTGCAGGGCTGGTGGCGGCAACCGAGGCGGCTGAGCGGGGTTTCAGCGTCTGCGTCGTGGATCAGGAGGGCGAGCAGAACCTTGGCGGGCAGGCCTTCTGGTCGCTGGGCGGACTGTTTTTCATCGATAGTCCCGAACAGCGCCGGATGCGGGTGCGAGACAGTCTCGATCTTGCAAGACAGGACTGGTTCGGTTCGGCCGGTTTCGACCGCCCGGAGGATTATTGGCCGCGCCGCTGGGCGGAGGCTTATCTCGATTTTGCTGCCGGTGAGAAACGCGAATGGCTGCACCGCATGGGCATGCGCTGGTTTCCCGTTGTTGGCTGGGCCGAGCGCGGCGGCAGCCTCGCCCACGGCCATGGCAATTCCGTTCCGCGTTTCCATGTAACCTGGGGCACGGGTCCGGGCGTACTTGCACCTTTCGTAAAAAAGGCGAAGGCCATGGCGGCAACCGGCCGGCTAACCTTTCGCTTTCGCCACCGGGTTAATCGTCTGGAGATCGCCGAAGGCCGGGTGACCGGTGTTTCAGGCTCTGTTCTTGCACCCGACCAGGTGCAGCGCGGGCAGGAGAGCAGCCGGGAAGAGCAGGGCGATTTTGTCTTCTCCGCTGCGGCGGTCATCGTCAGTTCCGGCGGCATCGGCGGCAATCAGGAACTGGTGCGGCGCAACTGGCCGGTGGAACGGTTGGGCGAGCCTCCTGCCAGCATGGTCTGCGGTGTTCCCGCGCATGTGGATGGCCGCATGATCGCCATTACGGAAACCGCCGGCGGCGCCGTCATCAATCGTGACCGCATGTGGCATTATACCGAGGGCGTGAAGAACCACGATCCGATCTGGCCGGGTCACGGCATCCGCATCCTGCCCGGCCCCTCGTCCTTCTGGTGCGATGCGGATGGAAACCGCCTTGCCGCCCCCGCCATGCCGGGTTTCGATACGCTCGGCACGCTAAAAATGCTGGGTGAAAGGGGCAGCGGCCATAGTTGGTTCATTCTGACCAAGGCGATCATCAAGAAGGAATTTGCGCTTTCAGGCTCGGAGCAGAATCCGGATCTGACTGGCAAGGATATAAGGCTGCTGCTCAAGAGGTTGGGCAAGGAACCGCCGGGGCCGGTGCGTGCCTTCATGGAGCGCGGCGAAGATTTCGCCGTTCGGGACACGCTCGAAGAACTCGTGACGGCGATGAATGCCATCAGCGGCGACGACCGGCTGCATATAGACCATATCCGTCATCAGATAGATGCGCGCGACCGCGAAATCGAAAACGGTTTCAGCAAGGATGCGCAGGTAACGGCGATACACGGGGCGCGCCGTTATCTCGGTGACCGGCTGATGCGGACGGCAAAACCGCACCGGCTGCTTGATCCGGCAATGGGGCCGCTGATTGCCGTGCGGCTGCATGTGCTGACGCGCAAGACGCTTGGTGGCCTCCACACCGATCTTGAGGGGCGGGTGCTGGATGCTGCCGGTGCGCCGGTTCCCGGCCTTTATGCCGCCGGAGAAGTGGCGGGTTTCGGTGGCGGCGGCATGCATGGTTATAATGCGCTGGAGGGCACGTTCCTTGGCGGATGCCTGTTTTCCGGCCGCGTTGCGGGGCGCAAAGTGCTGGCGTGA	MEGYDVIVIGAGLAGLVAATEAAERGFSVCVVDQEGEQNLGGQAFWSLGGLFFIDSPEQRRMRVRDSLDLARQDWFGSAGFDRPEDYWPRRWAEAYLDFAAGEKREWLHRMGMRWFPVVGWAERGGSLAHGHGNSVPRFHVTWGTGPGVLAPFVKKAKAMAATGRLTFRFRHRVNRLEIAEGRVTGVSGSVLAPDQVQRGQESSREEQGDFVFSAAAVIVSSGGIGGNQELVRRNWPVERLGEPPASMVCGVPAHVDGRMIAITETAGGAVINRDRMWHYTEGVKNHDPIWPGHGIRILPGPSSFWCDADGNRLAAPAMPGFDTLGTLKMLGERGSGHSWFILTKAIIKKEFALSGSEQNPDLTGKDIRLLLKRLGKEPPGPVRAFMERGEDFAVRDTLEELVTAMNAISGDDRLHIDHIRHQIDARDREIENGFSKDAQVTAIHGARRYLGDRLMRTAKPHRLLDPAMGPLIAVRLHVLTRKTLGGLHTDLEGRVLDAAGAPVPGLYAAGEVAGFGGGGMHGYNALEGTFLGGCLFSGRVAGRKVLA				NA	NA	NA	NA	NA
BMS010_00746	1032	ompA_1		Outer membrane protein A	ATGGCGCTTGCGCGCAACCGCCGCCGCGACAGGGGTGTGGACTATTGGCCGGGTTTCGTCGATGCCCTGTCGACGCTGCTCATGGCCATCATGTTTCTGCTCACGGTCTTCGTGCTGGCGCAATTCGTTCTGTCGCGGGAAATCACCGGCAAGGACGAGGTGCTGACACGTCTCAACAGCCAGATTGCGGAACTGACCGAACTTCTGGCCATGGAAAAAGGCAACAAGCAGGATATTGAGGACGCGCTCGCGAGCCTGCAATCCACCCTTGCCGCATCCGAAAACGAGCGCTCGCGCCTGCAGGCGCTTCTCGATGCGGGATCTGGCAGCAATGCGAATGCCAATGCCCGGATCGGCAGCCTGACCGGTGAGCTGGACGAGCAGCGGCAGGCCAATTCCCGTGCCTCCGCACAGATCGAATTGCTCAACCAGCAGATTGCAGCGCTGAGAGCGCAGATCGCCTCGGTCGAAGCCGCGCTTCAGGCCTCGGAAGCCAAGGATGCCTCTTCTCAGGTCAAGATCGCCGATCTCGGTCGCCGTCTCAATGTCGCGCTGGCGCAGCGGGTGCAGGAACTAAACCGGTATCGCTCCGATTTCTTCGGGCGGCTTCGCGAAATCCTGTCGGACCGCGAAAACATCCGCATCGTCGGCGACCGGTTTGTCTTCCAGTCCGAAGTGCTCTTCCCCTCCGGCGGCAATGAACTCAACCCGGAAGGGCAGGCGGAGATGGAGAAGCTTGCTGTCGCGCTGCTCGATCTCGCCAAGGAGATTCCGGCGGAGATCAACTGGGTGCTGCGCGTGGATGGCCATACGGATAATGTTCAGCTTTCCGGTTCCGGGCGTTATCGGGACAATTGGGAGCTTTCCTCGGCCCGCGCCACCTCGGTGGTGAAATTCCTGATCTCCAAGGGCGTGCCGGCAAACCGGCTGGTCGCCGCCGGTTTCGGCGAATATCAGCCGATTGCCGAAGGCGATACGCCGGAAGCACGGCAGCAGAACCGCCGTATCGAACTCAAGCTTACTGAGCGCTGA	MALARNRRRDRGVDYWPGFVDALSTLLMAIMFLLTVFVLAQFVLSREITGKDEVLTRLNSQIAELTELLAMEKGNKQDIEDALASLQSTLAASENERSRLQALLDAGSGSNANANARIGSLTGELDEQRQANSRASAQIELLNQQIAALRAQIASVEAALQASEAKDASSQVKIADLGRRLNVALAQRVQELNRYRSDFFGRLREILSDRENIRIVGDRFVFQSEVLFPSGGNELNPEGQAEMEKLAVALLDLAKEIPAEINWVLRVDGHTDNVQLSGSGRYRDNWELSSARATSVVKFLISKGVPANRLVAAGFGEYQPIAEGDTPEARQQNRRIELKLTER	PGPT0015375_791	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015375-motB-K02557	NA	NA
BMS010_00747	1017			hypothetical protein	ATGGCGGATTCGGAGCTGCTCGATCTTGGCGTCGAGAAACCGGTGACCACACGGCAATACAGCCACAAGCTGTCCAGCCCGACACCGTTTCTCTGGACGATGGTTCTGTTTCTGGTCCTTGTGGGCTTTCTGGCGGCCATTCTTTACCGGCAGGCCCACACCGCCTTCATGACCAATCCGGGGCTCAACGGCTTCATTCTCGGCGTGCTGGCCATCGGCATCATTCTGGTGTTTACGCAGACGATGAGCCTGCGTTCCGAAGTGCGCTGGTTCAATGCCTTTCGTGCCGCCGGCAGCGTCGAAAAGGTCGGCCGTGCGCCCAAGCTGCTTGCGCCGATGAGCACGCTGATCGGCAAGCGTGGCGAAGTCCGGCTCTCTGCCGTTACGCAAAGGACGATCCTCGATTCCATCGCGACGCGCCTCGACGAGACGCGTGACACATCGCGTTATCTTGTCGGCCTGCTGGTGTTTCTCGGCCTGCTCGGCACCTTCTGGGGCCTGATCGGCACCATTGGCGCCATCAGCAATGTCATCCAGTCGCTCGATCCAAGCGCCGGCGACAGCAACGATATTCTCGGCTCCCTCAAGGCCGGCCTGACCGCGCCGCTGGCGGGCATGGGAACGGCCTTTTCCTCGTCGCTGCTCGGTCTTTCGGGTTCGCTGATTCTCGGCTTCCTCGATCTTCAGGCCGGCCGCGCCCAGAACCGTTTCTATACACAGCTCGAAAACTGGCTTTCCTCGGTGACGGATACCACGGAAGGACCGCGGGAGTTCAAGGGCGAACCCGGCGCCGTGGTCAGCACCGAGCGCTCGCTTGCGGCCATGACCAGCCTTGCCGAAGGCATTCAGGGTCTGGTCAAGAACATGCGCAGCGAACAGCAGATGTTGCGAGACTGGATCGAAGCGCAGCAGGAAGAATCGAAATCGCTCCGCCGCACGCTCGACCGGCTGTCGGCGCGGATCGACAGCGACACGAAATCTTCCGGACGCACCCGGCACGATAACGGGAGCGAGTAG	MADSELLDLGVEKPVTTRQYSHKLSSPTPFLWTMVLFLVLVGFLAAILYRQAHTAFMTNPGLNGFILGVLAIGIILVFTQTMSLRSEVRWFNAFRAAGSVEKVGRAPKLLAPMSTLIGKRGEVRLSAVTQRTILDSIATRLDETRDTSRYLVGLLVFLGLLGTFWGLIGTIGAISNVIQSLDPSAGDSNDILGSLKAGLTAPLAGMGTAFSSSLLGLSGSLILGFLDLQAGRAQNRFYTQLENWLSSVTDTTEGPREFKGEPGAVVSTERSLAAMTSLAEGIQGLVKNMRSEQQMLRDWIEAQQEESKSLRRTLDRLSARIDSDTKSSGRTRHDNGSE				NA	NA	NA	NA	NA
BMS010_00748	801	suhB_1	COG0483	Inositol-1-monophosphatase	ATGGCCCGTTCAGCCCTTCTCAATGTCATGGTTCAGGCCGCCATCAAGGCGGGTAAGTCTTTGTCGCGTGACTTCGGTGAAGTGCAGAACCTTCAGGTCTCGGTCAAGGGACCGAGCGATTTCGTCTCGCAGGCGGACCTGAAAGCCGAGAAGATCGTGCGCGACGAGCTGATGAAGGCCCGCCCGACCTACGACTTCCTGGGTGAAGAAGGCGGCGAGGAAAAGGGCACGGACGGCGCACATCGCTGGATCGTCGATCCGCTGGATGGCACCACCAACTTCCTGCACGGCATTCCGCATTTCGCGGTTTCCATTGCGCTCGAGCGTAACGGTGAAGTCGTCGCCGGCGTGATCTTCAATCCGGCCACCGACGAACTCTACACTGCCGAGCGCGGCGGCGGCGCGTTCCTCAACGATCGCCGCATCCGCGTCGCTGCGCGGAAGGCGCTGACCGATTGCGTCATCGGTTGCGGCGTGCCGCATCTTGGCCGCGGCAATCACGGCAAGTTCCTCGTCGAACTTCGCCACGTCATGGGTGAGGCAGCCGGCATCCGCCGGATGGGTGCGGCGTCGCTCGATCTCGCCTACGTTGCCGCTGGCCGTCTAGATGGTTACTGGGAAGCCGATCTTTCGCCATGGGACATGGCGGCAGGCCTGGTGCTGATTCGTGAAGCCGGCGGTTTCGCCTCCGACATCAAGGGCGGCACGGATATCTTCGGCAGCAGCTCCGTCGCTGCCGGCAACGAATATATCCACAAGGCGCTCGTTGAGGTCGCCAACCGTCCCATTCCGGGCCGCTGA	MARSALLNVMVQAAIKAGKSLSRDFGEVQNLQVSVKGPSDFVSQADLKAEKIVRDELMKARPTYDFLGEEGGEEKGTDGAHRWIVDPLDGTTNFLHGIPHFAVSIALERNGEVVAGVIFNPATDELYTAERGGGAFLNDRRIRVAARKALTDCVIGCGVPHLGRGNHGKFLVELRHVMGEAAGIRRMGAASLDLAYVAAGRLDGYWEADLSPWDMAAGLVLIREAGGFASDIKGGTDIFGSSSVAAGNEYIHKALVEVANRPIPGR	PGPT0018535_4603	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018535-suhB-K01092	NA	NA
BMS010_00749	1095			hypothetical protein	ATGCGCTCGGTTCACCTCTGCCTTTCCGTTTCGCTGCTGGCGCTCGCTTTCGGCGCGCCGGCGGGTGTCGCTTTTGCCCAGTCCGGACCGCAGAGCGAAAGCAATGCGCTGTCCCGGCAGCTGGAAAATGAGGCTCAGCCGACCCGTCAGGGCCGGGTGCAATCCGAAGAGCAGAAGGACTTGCAGCCGTCGGCAGGCGTGAATGTCTATCAGCGCATGGGCGCGGAATTGCCGGCGCTGCCGCCTGAAAAGGAATTCAAGGGCCGGGTGGACGAAGCTTACGGGCATTTCCAGCGCGGCGAATATGTGCAGGCGCTCGACAAGGCGCTGAACCGCGCGCAGAACGGTGACGCAGCCGCCCAGACGCTGGTGGCGGAAATGATGTCGCGTGGTCTGGGCATCGCCCGTGACGAGAAGACAGCTGCTTTCTGGTACCAGCAGGCCGCTCAGGGTGGCGATCCCGTCGCCATGTTCAAATTCGCGCTGATCCTGATGGAAGGCAAATTCGTCACCCGCGATAAGGCGAAGGCCGACGATTTCATGCGCCGTGCGGCGGAAGCCGGCAACGCCTCTGCCCAGTTCAACTGGGGCCAGATATTGGTTTCGGAAAATCCCGGCGCCAAGGGTCTGCTGATGGCTTTGCCGTTCTATGAGAAATCCGCTGAACAGGGCATTGCCGATGCGCAATATGCGGTGTCGCAGATTTACTGGTCGCTCAAGGATGTGCCGGCCGAGAAGAAGGCAAAGGCGCGGGACTGGCTGACACGGGCCGCGAAGGCGGGCTACGATACTGCGCAGGTCGATCTCGGCATCTGGCTGGTCAATGGTTTCGGCGGTGAGCGCAATCTGGATGAGGGCTTCCGCTGGCTCTATGGTGCGGCACAGCGCGGCAATGTCGTGGCGCAGAACAAAGTGGCGCATCTTTACATTCAGGCGCTCGGCACCCGGCCCGATCCGGTCGAAGCGGCCAAATGGTATGTGCTTTCCCGCCGCGCCGGGCTGAAGGATCCGTCTCTCGAGGACTTTTATCTCGGCATCACCGACGAGCAGCAGAAGAAGGCGATTGAGGCCGCAAATCGTTTCCGCCCGACGTGA	MRSVHLCLSVSLLALAFGAPAGVAFAQSGPQSESNALSRQLENEAQPTRQGRVQSEEQKDLQPSAGVNVYQRMGAELPALPPEKEFKGRVDEAYGHFQRGEYVQALDKALNRAQNGDAAAQTLVAEMMSRGLGIARDEKTAAFWYQQAAQGGDPVAMFKFALILMEGKFVTRDKAKADDFMRRAAEAGNASAQFNWGQILVSENPGAKGLLMALPFYEKSAEQGIADAQYAVSQIYWSLKDVPAEKKAKARDWLTRAAKAGYDTAQVDLGIWLVNGFGGERNLDEGFRWLYGAAQRGNVVAQNKVAHLYIQALGTRPDPVEAAKWYVLSRRAGLKDPSLEDFYLGITDEQQKKAIEAANRFRPT	PGPT0000855_2129	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-ACIDITY|NITROGEN_RELATED_REGULATION,PGPT0000855-exoR-K07126	NA	NA
BMS010_00750	654	thiE_1		Thiamine-phosphate synthase	ATGACCCTAGTTGAAGATCGTTGCCGCCTTGTCCTGATCGTTCCGCAATCGGACGACGCGCAAAAGCAGGCGACAGAGGTGGAAGATGCATTGCGGGGCGGCGATGTCGCTTCCGTCATCATTCCGCAATATGGTCTGGATGACGCCGCTTTCCAGAAACGCGCCGAACTGATCGTGCCGCTTGTCCAGAAGGCAGGTGCGGCAGCGCTCATCGCCGGCGACAGCCGCGTTGCCGGTCGCGTGAAGGCGGATGGCCTGCATGTGGTTGGCAATGGCGAGGCGCTTGCCGAGGCCGTGGAAAAATTCACCCCGAAGCTCATCGTCGGCGGCGGCAATGCGGATGACCGTCACAAGGCGCTGGAGCAGGGCGAGGCCAATCCGGATTACGTGTTTTTCGGAAAGCTCGAAGGCGACATCAAGCCGGAAGCGCACCCCAAAAACCTGGCGCTCGGCGAGTGGTGGGCCTCGATGATCGAAATCCCGGCCATCGTCATGGGTGGTACCGATGTGTCCTCGGTGGTTGCCGTAGCCGAAACCGGTGTGGAGTTCGTGGCGATGCGCAGCGGCGTTTTCGATAACGCCACCGGCGCCGCCCAGGCCGTTTCTGAAATCAACGCCCTGCTTGACGAAAAAGCGCCACGGTTTGACGGTTGA	MTLVEDRCRLVLIVPQSDDAQKQATEVEDALRGGDVASVIIPQYGLDDAAFQKRAELIVPLVQKAGAAALIAGDSRVAGRVKADGLHVVGNGEALAEAVEKFTPKLIVGGGNADDRHKALEQGEANPDYVFFGKLEGDIKPEAHPKNLALGEWWASMIEIPAIVMGGTDVSSVVAVAETGVEFVAMRSGVFDNATGAAQAVSEINALLDEKAPRFDG	PGPT0008995_1889	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0008995-thiE-K00788	NA	NA
BMS010_00751	765			hypothetical protein	ATGCTCACCGATTTTCATTTTTATCTCGTCGCCATCCCCGCAGTCGTGCTCGTCGGCCTTTCCAAGGGCGGGCTGGGCGGCGCTCTCGCCCTTATGGGCGTGCCGCTGATGGCGCTTGCCGTATCGCCCGTGCAGGCGGCGGCCATCTTCCTGCCGATCCTGATCGTCATGGATATCGTGGCGCTTTTTGCCTGGCGGCACTACAACCACCGGGAAACGCTCCTCATCATGCTGCCGGGCGCAATCGCCGGTATCGCGCTCGGCTGGGCGACCTCGAGCCTCATTTCCGCGAACGCCATGCGTCTCGTCGTCGCCTCTGTCACGATCCTGTTCGTACTGCGTTATTTCTATGAGAGCTTCAAAAGCCGCAAAGGCCAGGAAATTCCGGCCAAGCCGCAAAGACCAGCTGCTGCAACCCTCTGGTCCAGCCTGTCGGGTTATGCGAGTTTCGTGGCTCATGCGGGCGGTCCGCCTTTCCAGATCTATGTTCTGCCGCTGAAGCTCGATCCGAAGACCTATACCGGCATGAGCGTGCGCTTCTTCGCCATCATGAATGCGATCAAGCTCATTCCCTATTTCGCGCTCGGCGCGCTGGACGCCACCAACCTCAAGACATCGGCAAGCCTGCTGCCGGTGGCGATGCTGGCGACGCTTGCTGGCGCCAGGGTGGTGAAATATTTGAAACCGGCCGTGTTTTACCCACTCATGTATGCCATGGCGCTGATTGCAGCGCTTAAACTGCTATGGGACGGACTGCCGTTCTAA	MLTDFHFYLVAIPAVVLVGLSKGGLGGALALMGVPLMALAVSPVQAAAIFLPILIVMDIVALFAWRHYNHRETLLIMLPGAIAGIALGWATSSLISANAMRLVVASVTILFVLRYFYESFKSRKGQEIPAKPQRPAAATLWSSLSGYASFVAHAGGPPFQIYVLPLKLDPKTYTGMSVRFFAIMNAIKLIPYFALGALDATNLKTSASLLPVAMLATLAGARVVKYLKPAVFYPLMYAMALIAALKLLWDGLPF				NA	NA	NA	NA	NA
BMS010_00752	177			hypothetical protein	ATGACCATTCAGGCTCATATTGCATCGCTCGAAAAGAAACACGGTGCTCTGGAGGAGGAGCTCGAAAGTATTCTTGCTTCCCCGTCGTCTGACGATAGAGAGATCGCGGACCTTAAACGTCGAAAACTGCGCCTGAAGGATGAACTGCAGAGGCTCAAGGCCTCGACAAGACATTGA	MTIQAHIASLEKKHGALEEELESILASPSSDDREIADLKRRKLRLKDELQRLKASTRH				NA	NA	NA	NA	NA
BMS010_00753	204			hypothetical protein	ATGCCCGATCAGGACCAGGCGGACATCAGGCTCACGCTGGCGCGGCTGCGCCAGGAGCATGAGGATTATGACGCGGCGATCAACGCGATGATCCAGACCAGCTGCGATGCGCTGAGAATACAGCGCATGAAAAAGAAGAAGCTGGCCGTCAAGGACAAGATGACCCAGCTCGAAGACCAGGTCATTCCCGATATCATCGCCTGA	MPDQDQADIRLTLARLRQEHEDYDAAINAMIQTSCDALRIQRMKKKKLAVKDKMTQLEDQVIPDIIA				NA	NA	NA	NA	NA
BMS010_00754	501	purE_1	COG0041	N5-carboxyaminoimidazole ribonucleotide mutase	GTGACAGCAGAAACGCCCCCCGTCGCCATCATCATGGGCAGCCAGTCCGACTGGGAGACCATGAAGAACGCCGCCGATACGCTGGATGCGCTCGACATCGAATACGAAGCCCGCATCATTTCCGCCCACCGCACCCCGGACCGGCTTTATGACTTCGCCAATAGCGCGAAGGACGAAGGCTTCAAGGTCATCATCGCCGGTGCGGGCGGCGCCGCCCACCTGCCGGGCATGACGGCCTCGATGACGCCGCTTCCGGTCTTCGGCGTTCCGGTGCAGTCCAAGACCATGTCCGGTCAGGACAGCCTCTATTCCATCGTGCAGATGCCCGCCGGCATTCCGGTTGGCACGCTCGCCATCGGCAAGGCAGGCGCGATCAATGCGGCCCTTCTTGCCGCCGCGGTTCTGGCGCTGAGCGACGACGACCTCGCCGACCGGCTGGATGCCTGGCGTGCGCGCCAGTCGGCGGCTGTCGCGGAATATCCAATGGACAGCACCCAGTGA	MTAETPPVAIIMGSQSDWETMKNAADTLDALDIEYEARIISAHRTPDRLYDFANSAKDEGFKVIIAGAGGAAHLPGMTASMTPLPVFGVPVQSKTMSGQDSLYSIVQMPAGIPVGTLAIGKAGAINAALLAAAVLALSDDDLADRLDAWRARQSAAVAEYPMDSTQ	PGPT0021545_1984	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021545-purE-K01588	NA	NA
BMS010_00755	1077	purK_1		N5-carboxyaminoimidazole ribonucleotide synthase	ATGGCAAAGACGACCAACCTGACCATCGGCATCATCGGTGGCGGGCAGCTCGGGCGTATGCTGGCGATGGCCGCAGCCCGCCTCAACCACCGTACCATCGTACTCGAACCGCAGGCCGATTGTCCGGCTGCGCAGGCCTGCAACGAGCAGATCGTGGCGGAATATGACGACGAAAACGCGCTTGCGGAACTCGCAAGCCGTTGCGATGTCGTGACCTACGAATTCGAGAACGTGCCTGTTGCGGCCGCCGAAAAGCTCAGCCTCTCCGTTCCCGTCTATCCGCCTCCGAAAGCGCTCAGCGCCTCGCAGGACCGGTTGACGGAAAAGCGCTTCCTCAATGGCTGCGGTATCCCGACTGCTGATTTCCGTGCTGTGGACAGCCAGGAAGAGCTGGAGGCCGCATTGGCCGCCTTCGGTGGCAAGGGCGTTCTGAAAACCCGTCGCATGGGTTATGACGGCAAGGGCCAGCGTCTTTTCCGCGGTGGGGAAGACCTCGCAGGCGCTTTTGCGGCGCTCGGCGGCGTGCCGCTGATTCTCGAGAGCTTCATCTCCTTCGAGCGGGAAATTTCGATCATCGCCGCCCGTTTCCTGGATGGAACCGTTACCTGCTATGATCCGGCCGAGAACGTTCATCTGAACGGCATTCTACACACGTCCAGCGTTCCGGCCGCACTTTCCGACGCCGCGAGGGAAGTTGCCGTGCAATCGGCGGAAAAGCTTCTGGCTGCGCTGGATTATGTCGGTGTCACCGGCATCGAATTCTTCGTCCTGCCGGATGGTTCGCTGGTCGCCAATGAAATGGCGCCGCGCGTTCACAATACCGGCCACTGGACGGAGGCGGCCTGCGTAATCTCGCAATTCGAACAGCATATCCGGGCCGTATCGGGCCTTACTCCCGGCAGCACGGATCGCCATTCGGATTGCGTCATGACCAACCTCATCGGCGACGACATCGACGATGTACCGGCATGGCTGTCGAAAAAAGACTGTCTCGTGCATCTCTACGGCAAGACGGAAGCACGGCCGGGCCGCAAGATGGGCCATGTGACCGAGCTTTTGCGCACAGGAAAAGCCTAG	MAKTTNLTIGIIGGGQLGRMLAMAAARLNHRTIVLEPQADCPAAQACNEQIVAEYDDENALAELASRCDVVTYEFENVPVAAAEKLSLSVPVYPPPKALSASQDRLTEKRFLNGCGIPTADFRAVDSQEELEAALAAFGGKGVLKTRRMGYDGKGQRLFRGGEDLAGAFAALGGVPLILESFISFEREISIIAARFLDGTVTCYDPAENVHLNGILHTSSVPAALSDAAREVAVQSAEKLLAALDYVGVTGIEFFVLPDGSLVANEMAPRVHNTGHWTEAACVISQFEQHIRAVSGLTPGSTDRHSDCVMTNLIGDDIDDVPAWLSKKDCLVHLYGKTEARPGRKMGHVTELLRTGKA	PGPT0021550_3618	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021550-purK-K01589	NA	NA
BMS010_00756	126	rpmJ	COG0257	50S ribosomal protein L36	ATGAAGATCAAGAATTCGCTTAAAGCGCTTAAGGCCCGTCATCGCGATAACCGCCTGGTTCGCCGCAAGGGCCGCGTCTACATCATCAACAAGCAGAACCCGCGCTTCAAGGCTCGCCAGGGCTGA	MKIKNSLKALKARHRDNRLVRRKGRVYIINKQNPRFKARQG				NA	NA	NA	NA	NA
BMS010_00757	621			hypothetical protein	ATGCGCCCAAATCGTTTTTGCACGGCTATCATCCTCGCCCAGGGCTTCCTGTTTTCAAGCCTCCCGATTCCGGGAATGGCTGCCATTGCCCATGCGGCGGACGGGCAACCACCTGCTCTTGCGGACTCCGCACCTTCATCCGCCAAGACGATCGACACGCTTTTCGCATCACTGAAAAAAGAACGGAATGCGGTCAAGGCGCGCAGCATCGCCAACCAGATCGCCTCCGAATGGAATGATTCCGGCAGCGCAACGGTCAACCTGCTGATGCAATGGGCGGGCGAAGCCGCAGACGAAAAGCGCAACGCCGCCGCTTACGATTTTCTCGACCAGGTCATTCTGCTCGATCCGGACTATGTGCAGGCGCCCTATCGCCGCGCCATGGTGCATTTTGCCGATGGCGACACCCGCAAGGCGATGGCGGATATTAACCTGACACTGGAAAGGGAGCCGCGCTATTTCCCGGCGCTGGCAAGCCTCGCCAATATCCTCGAAGCCTCGGGCCGCGACGAGCTGGCGTTGAAGGCTTGGGAACGTTATCTGGCGCTCTACCCCGCCGACAAGGACGCCCGCAAGGAGGCCGTCGACCTTTCGGAAAAGCTGGCCGGCACGCGCGGCTGA	MRPNRFCTAIILAQGFLFSSLPIPGMAAIAHAADGQPPALADSAPSSAKTIDTLFASLKKERNAVKARSIANQIASEWNDSGSATVNLLMQWAGEAADEKRNAAAYDFLDQVILLDPDYVQAPYRRAMVHFADGDTRKAMADINLTLEREPRYFPALASLANILEASGRDELALKAWERYLALYPADKDARKEAVDLSEKLAGTRG				NA	NA	NA	NA	NA
BMS010_00758	471			hypothetical protein	GTGACTGAGGATTGGGGGAAACTCATCGTCGCCCATATCTATCTGGATCACATCGTCACTGAAGTTTTGAACATGCATCTCGATCATCCCGCCTCATATTTCAACGGCCACAGATCGTTCGCTGAGAAGCTCAGCCTATGTCAGGCGCTGGGATATTTTCGTGATGAATTCGGCAATGTTCTAAGGGCCGTCAATAACTTACGGAATAGGTTTGCGCACAAACTGGTATTCCACGTTTCGGACGAAGAGAAGCGCAATTTGTTTCGTACTCTCACGACGGAACGCGCCACATCCGAAGTGACCCGGTCAGGCGGTTTCGAGGAGTTTCTGTTTACAGTCGTTATGTTTGCAGAGATTTCGCGATCCGCGGAAAAGCGCCAAGCCGAATTGTCAAAAGAGCACAAATTCGTAAGTGAAAAAATCCTGGAGCTTCTTATCGCCAACAAGGACGTGTTGGAAAATAAGATTTAG	MTEDWGKLIVAHIYLDHIVTEVLNMHLDHPASYFNGHRSFAEKLSLCQALGYFRDEFGNVLRAVNNLRNRFAHKLVFHVSDEEKRNLFRTLTTERATSEVTRSGGFEEFLFTVVMFAEISRSAEKRQAELSKEHKFVSEKILELLIANKDVLENKI				NA	NA	NA	NA	NA
BMS010_00759	255			hypothetical protein	ATGGACGATACCAGCACCACCGAAACCGTCGCCGCCGCAGAACTGCGCCAGATTATTGAACGGATTGAACGTCTGGAAGAAGAAAAGGCTGCCATTCAGGGCGATATCAAGGATGTCATCGGTGAGGCCAAAGGCCGTGGTTACGATACCAAAGCGATCCGCACCATTATCCGCTTGCGCAAAAAGGACGCCAACGAGCGTATCGAGGAAGAAACCATTCTTCAGACGTATATGGCTGCGCTCGGCATGGAATGA	MDDTSTTETVAAAELRQIIERIERLEEEKAAIQGDIKDVIGEAKGRGYDTKAIRTIIRLRKKDANERIEEETILQTYMAALGME				NA	NA	NA	NA	NA
BMS010_00760	306			hypothetical protein	ATGACGACTGAGAACGACAATCGGCAGGTCGAATTCGAGGCGGCGGCATTTCGCCGTCTCGTGCAGCACCTTCGCGAACGCCACGACGTGCAGAACATCGACCTGATGAATCTCGCCGGCTTTTGCCGCAACTGCCTTTCCAACTGGTACCGGGAAGCGGCCGAGGAGGCCGGCGTTCCCCTCAGCAAGGAAGAGTCCCGGGAAATCGTCTACGGCATGCCCTATGAGGACTGGAAGGAAAAATATCAGGCGGAGGCGAGTGATGCCCGGAAAGCCGCCTTTGAGCAGAACAGGCCCAGGGAATAA	MTTENDNRQVEFEAAAFRRLVQHLRERHDVQNIDLMNLAGFCRNCLSNWYREAAEEAGVPLSKEESREIVYGMPYEDWKEKYQAEASDARKAAFEQNRPRE	PGPT0008420_5	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008420-moaB-K03638	NA	NA
BMS010_00761	789			hypothetical protein	ATGAACGACTTCATACCCTATGAAATCATAGAAGGCGATTATGACAAAGGCATGGTTCTTCTGGCGGACCATGCCATGAACCTCCTGCCGGCACACTACGGCAAACTTGGCCTTCCGCAAACCGCTTTTCATCGCCATATCGCATTTGATATCGGTATAGAGGGGCTGACGCGCTCACTTGCCGCGCGCCTTGGCGTGCCGGCGGTGCTCGGGCGGTTTTCCCGGCTGCTGATCGATCCGAATCGCGGCGAGGATGATCCCACTCTCATCATGAAGATTTCGGACGGGGCGATCATCCCTGGCAATCATCCGATTTCGGATGAGGAATGGCAAAGGCGGATCGAGATTTTCCATCGGCCCTATCACAATGCCGTGGATCGTGTGCTGACCGGCGTGGCCGAGGCCTCGGAAGAAGCGCCGCTGGTTCTGTCGCTGCATTCCTACACGCCGTTCTGGAAGGAAACGCCGCGGCCATGGCATGCGGCGGTTCTGTGGGATACGGATCATCGTGCGGTCGATCCGCTTCTGGCGCATCTGCGGGCCACGGGCGACATCCTCGTCGGTGACAACGAACCCTATGACGGAGCGCTCAAGGGTGACACCATGTATCGCCATTGCATGATGAAGGGCATACCGCATGCGCTTCTCGAGGTTCGGCAGGATCTGATCGCGAATGAAGAGGGGATCGCCGAATGGTCGGACCGGCTCGCTCCCATTTTCGCCGCAATGAACGACGATCCCGTCCTGCATGAATATCAGCAGTTCGCCTCCCGCACCGGTCCCTACTGA	MNDFIPYEIIEGDYDKGMVLLADHAMNLLPAHYGKLGLPQTAFHRHIAFDIGIEGLTRSLAARLGVPAVLGRFSRLLIDPNRGEDDPTLIMKISDGAIIPGNHPISDEEWQRRIEIFHRPYHNAVDRVLTGVAEASEEAPLVLSLHSYTPFWKETPRPWHAAVLWDTDHRAVDPLLAHLRATGDILVGDNEPYDGALKGDTMYRHCMMKGIPHALLEVRQDLIANEEGIAEWSDRLAPIFAAMNDDPVLHEYQQFASRTGPY				NA	NA	NA	NA	NA
BMS010_00762	483			hypothetical protein	ATGGAAGCCGTGACTCAGTCATCTCTCGCTCTTCCTCGCCACTTTCGGCATATCGCCCGTCTTTTTTCCGCAGCGGCATTGTTTCTGACCCCGTTCATGATCGCGGCGCCCGCGCATGCGGATTTTCGCGTGTGCAACAGCACGCAGAACCTCGTGGGGGTCGCAATCGGCTACAGGGCACAGGAGGGCTGGGTCAGCGAAGGCTGGTGGCAGGTCCCCTCCTCGACCTGCGCGACGCTGATCGAGGGTGAGCTGCAGTCACGTTATTATTATCTCTATGCCGAAGATGCCGCCCATGGCGGCCGCTGGACCGGTGACGTCAACATGTGCGTGGCGGAAAACGAGTTCAAGATCAACGGCGTGGACGATTGTTTTGCCCGCAGCTTCCAGAGAATGGGTTTCAAGGAATATGACACGGGCAGACAGGGCAGCTGGATGGTCCAGCTCTCCGATACGCCAGGCACACAGGGAAATCAAAACTGA	MEAVTQSSLALPRHFRHIARLFSAAALFLTPFMIAAPAHADFRVCNSTQNLVGVAIGYRAQEGWVSEGWWQVPSSTCATLIEGELQSRYYYLYAEDAAHGGRWTGDVNMCVAENEFKINGVDDCFARSFQRMGFKEYDTGRQGSWMVQLSDTPGTQGNQN				NA	NA	NA	NA	NA
BMS010_00763	1440	ttuE_1		Pyruvate kinase	ATGAAGCGTAACCGCAAAGTCAAAATTCTTGCAACTCTCGGCCCAGCCTCTTCCGAAGAGGCGATGATCGAGAAGCTGCATCTTGCTGGCGCAGATCTTTTCCGGATCAACATGAGCCATGCGAGCCACGACGTGATGCGGACGCTCATTCAGCGTATCCGTTCTGTCGAGAGCCGTACCGGCCGCCCCATCGGCATTCTGGCCGACCTGCAGGGTCCCAAGCTGCGCGTCGGAAAATTCGCCGAAAGCAAGGTCGAACTCGTTCCGGGCCAGACCTTCACGCTGGACAATAACGACACGCCCGGTGACAACACCCGCGTTTTCCTTCCCCATCCGGAAATTCTCGAGGCGGTCAAGCCGGGCCATCGCCTGCTGATCGACGACGGCAAGCTGCATCTGCGCGCTGAAAAGAGCGACGGGAAGAGCATCGTCACCACCGTCATTTCCGGTACACGCATTTCCGACCGCAAGGGCATCAGCCTGCCCGATACGCTGCTCGGCGTCGGCGTTCTGACCGACAAGGACCGCGTCGATCTCGACGCCGTTCTCGCCACCGGCGAAGTCGACTGGGTGGCGCTTTCCTTCGTCCAGCGTCCGGAAGACCTTGCCGAAGTGCGCAAGATCGCACGCGGCCGCGTCGGCCTGATGTCCAAGATCGAAAAGCCGCAGGCTGTCGAGCGCATCGAAGAAATCATCGAGCTTTCCGACGCGCTGATGGTCGCCCGTGGCGATCTCGGCGTCGAAATGCCGCTGGAAGCCGTTCCGGGCATCCAGAAGCAGCTGACCCGCGCCTGCCGCCGCGCCGGCAAGCCGGTCGTGGTCGCCACGCAGATGCTGGAATCGATGATCACTGCGCCTGTGCCGACCCGCGCCGAAGTCTCCGACGTCGCCACCGCCGTCTTCGAAGGCGCAGACGCCATCATGCTTTCTGCTGAATCTGCCTCCGGCGACTACCCGGTCGAAGCGGTTTCCACCATGGCCTCCATTGCCAGCACGGTGGAGCAGGACCCCTATTATTCCAATATCATCTATGCGCAGCGCGCCCAGCCGGAACCGACCGGCGCCGACGCCATTTCGCTTGCCGCGCGCCAGATCGCCGAAACCCTGAAGCTTGCGGCAATCGTCACCTATACGTCCTCGGGCACGACCGGCCTGCGCGCCGCGCGCGAACGGCCGCAGGTTCCGATCATCGCGCTGTCGCCGATCATCCAGACCGCACGCCGCCTGTCGGTCGTCTGGGGCCTGCACTGCGTCGTCACGGGCGATGCCAGCGACCTCGATGACATGGTGAACCGCGCTTGTCGCATCGTGGTTTCCGAAGGTTTCGGCAAGCCGGGCGATCGTATCATCATCTCCGCAGGCGTACCGCTCGGCACCCCCGGCGCGACCAATATGGTCCGCATCGCCTATATCGGCTCTGATGGCCAGAGCGGCGTCTAA	MKRNRKVKILATLGPASSEEAMIEKLHLAGADLFRINMSHASHDVMRTLIQRIRSVESRTGRPIGILADLQGPKLRVGKFAESKVELVPGQTFTLDNNDTPGDNTRVFLPHPEILEAVKPGHRLLIDDGKLHLRAEKSDGKSIVTTVISGTRISDRKGISLPDTLLGVGVLTDKDRVDLDAVLATGEVDWVALSFVQRPEDLAEVRKIARGRVGLMSKIEKPQAVERIEEIIELSDALMVARGDLGVEMPLEAVPGIQKQLTRACRRAGKPVVVATQMLESMITAPVPTRAEVSDVATAVFEGADAIMLSAESASGDYPVEAVSTMASIASTVEQDPYYSNIIYAQRAQPEPTGADAISLAARQIAETLKLAAIVTYTSSGTTGLRAARERPQVPIIALSPIIQTARRLSVVWGLHCVVTGDASDLDDMVNRACRIVVSEGFGKPGDRIIISAGVPLGTPGATNMVRIAYIGSDGQSGV	PGPT0002020_5230	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002020-pyk-K00873	NA	NA
BMS010_00764	1905			hypothetical protein	GTGACAGAAATTGTCTTCCAGGCGGGGATCGAATTGCCATATCTGCATCGGAATAACGCGCTTTCGACAAAGATCGCGCGCGGCTTGATCAAGGATATATGCACGAAGCTGTCGGCGCGCGCTGTCACCTTTGCCTGCCTGATGCTCGCCGCAATGCCTTTCGTAGGTGTTTCGGCGACGGAAGCCGCCGCCGAGACGCGCAGCCTCAAACTGTATTATATCCATACACGCGAGAAGGCGGTCATCACCTTCAAGCGCAATGGAAAATATGACCAGAAAGGTCTGCAGGAGCTGAACCGCTTCCTGCGCGACTGGCGACGCAACCAGCCGACACGCATGGACCCGCGCCTTTTCGATCTCGTCTGGGAAGTTTATCGCCGCAGCGGCGCGACCGACTATATCAACGTCGTTTCGGCTTTCCGCTCGCCGGAAACCAACGGTTTGCTGCGCACACGCACCAAGGGTGTCGCGGAAAAAAGCCAGCATATGCTCGGCAAGGCCATGGATTTTTATATCCCCGGTGTGAAGCTTGCCCGTCTTCGTGAAATCGGCATGCAGATGCAGATCGGTGGCGTCGGTTTCTATCCGACGTCGGGCTCTCCCTTCGTGCACATGGATGTCGGCGGCGTTCGCGCCTGGCCGCGCATGAGCCGCCAGGAACTCGTCCGCATCTTCCCGAACGGCAATACGCTGCATCTTCCTTCCGATGGTAAGCCGCTTCCCGGTTATGAGCAGGCGCTCGCCGATTACAAGAAGCGCGTCAGCTCCTCCTCCATTCAGGTTGCTTCCAGCGCCGGTGCCGGCCCTGCCTCATCTGGCGGCGGCAAGCGCAAGACGTTGCTGCAGGCCCTCTTTGGCGGCGGCGACGAGGATGAAGATCCCGATAGCATCGCAGCGCCGGAGCCCGCAGAACGCCCGGCTGTCGCCCGTCCGGCGGCTCCGCAGCAGGCGGCTCCCGAGCCTGAACCCACCATTGCAGTTGCTTCGGCACAGGCGCTTCCCGGCGTGAACGATGCGCCGCTGCCGACGGCTCGACCCGCCTTCGGTAACCAGCCGCCGGCCAATACCGGCCTTGCGACTGCGCTTTATTCGCCGGCCCGCAATGCCGCACAGGATGCCCTGCAGGCAGCGACCACGCCGACTCCGGCTTCCGCGCCGGCCGAGCGCCAGCAATTTGCCGATCTGGCTGAGGTATCCGTGCCGGTGCCCACACTTCTTGGGCCGCGTGGCATGAAAGGTGATGCGGAAGGATCGATCCTGACGGCGTCCGCAGATGGTGCGACACCGGCTGCGACCGGCGAACTCGCTTCTGTTCCGGTTCCTGCCAATCGTCCGGCCGTGGCGGAAGCCCTGCTGGCGGCGGCCAATGCCGATCCAGAAGGTGAGGACGATCTCGCCGAGGCGCAGGAGGATACGCTTTCGCCGACGGTGGTTGCGGCTCTTGAACAGAGCGGTCAGGCCGCCCGGTCGCATGTCCAGTCGGCTGCCATGCCGACAGCCGCGCCATTCCCGGCCGCCGTCAACCATAAGGTTACCGTCGCACCCGCCGAAACGGCCAAGGCCGAACCGCAGGCTGGCTTCGGTGATGCTTTCGACCTGAAACCTGCCATCAATGGCGGCCTCAGCGCCGGCATGCCGACCAAGGGTTCGCGCCCGAGCAGGCAGGATGCCGCCGTTTCCCAGCAGGCCATGGTGGGCGGTGGACGCCTGACGCAGGATCTGATTTCGGATTGGGCGCTCAACCAGAACAAGGGTACGACCGGACGCTCGGTAAAGGCGCCGCGTGTTGTCGCCAACCGCATGCTCAGCAACGACATGTCGGCTTCCGCCACCTCGGCGAGCTTCAAGCCTGGTGCAGTGGCCATCGAATCCAGCCGCTTCAGCACGCCGGTGAAGATGCACTGA	MTEIVFQAGIELPYLHRNNALSTKIARGLIKDICTKLSARAVTFACLMLAAMPFVGVSATEAAAETRSLKLYYIHTREKAVITFKRNGKYDQKGLQELNRFLRDWRRNQPTRMDPRLFDLVWEVYRRSGATDYINVVSAFRSPETNGLLRTRTKGVAEKSQHMLGKAMDFYIPGVKLARLREIGMQMQIGGVGFYPTSGSPFVHMDVGGVRAWPRMSRQELVRIFPNGNTLHLPSDGKPLPGYEQALADYKKRVSSSSIQVASSAGAGPASSGGGKRKTLLQALFGGGDEDEDPDSIAAPEPAERPAVARPAAPQQAAPEPEPTIAVASAQALPGVNDAPLPTARPAFGNQPPANTGLATALYSPARNAAQDALQAATTPTPASAPAERQQFADLAEVSVPVPTLLGPRGMKGDAEGSILTASADGATPAATGELASVPVPANRPAVAEALLAAANADPEGEDDLAEAQEDTLSPTVVAALEQSGQAARSHVQSAAMPTAAPFPAAVNHKVTVAPAETAKAEPQAGFGDAFDLKPAINGGLSAGMPTKGSRPSRQDAAVSQQAMVGGGRLTQDLISDWALNQNKGTTGRSVKAPRVVANRMLSNDMSASATSASFKPGAVAIESSRFSTPVKMH				NA	NA	NA	NA	NA
BMS010_00765	1548	atoC_1	COG2204	Regulatory protein AtoC	ATGACCGCGCATGTTCTCGTGATAGACGATGATCCCGTCCAGCGCCGCCTGCTCAAAAATGCGGTGGAACGTTATGGGCATCTCGCCTTGCTCGCCGAAAACGGCAAGGCGGGGCTGGAACTGCTCAAGCAATATAGCGGCGAGATCAATGTCATCGTCCTCGACCTCATGATGCCTGAAATGGACGGGCTTACCTTTCTCAAAGCTATCGGCGAACTCGGCACCGATGTTCCCGTCATTGTCCAGACGGGACAGGGCGGCATCGATACCGTCGTGCAGGCCATGCGCGCCGGCGCTTTCGATTTTGTCGTCAAGCCGGTTTCGCCGGAAAGGATCGGCGCCGCCATCTCCAATGCGCTCAAGCTCGACAGGAGAGAGGCAAAGGCCCGCACGGGCCGGCGCGGACGGAGCAATGCAGTGAATTTTACCGATATCGTTTCCGCAAGCCCCGCAATGCTGAGGGTCATCGAACTCGCGCAGCGCGCCGCCCAGTCCAGCATTCCCGTGGTGCTGGAAGGCGAATCCGGTGTGGGCAAGGAAATGGTCGCCCGCGCCATCCAGTCGGCCGGAGACAGGGCGAGCAAGCCGTTCATCACCGTCAATTGCGGCGCCATTCCCCATAATCTCGTGGAAAGCATCCTCTTCGGCCACGAAAAGGGAGCCTTCACAGGCGCGACGGAAAAACATGTCGGCAAATTCATGGAGGCGGATGGCGGCACGCTGTTCCTCGATGAAATCGGCGATCTGCCGCTGGACGTGCAGGTGAAGCTGTTGCGCGCGGTCCAGCAGGGCGAAATCGAAACCGTCGGCTCCGCACGGGTGCAGAAGGTGAATGTGCGGCTGATCTCCGCCACCAACAAGAACCTCATCGAAGAGGTGAAGGAAGGTCGCTTCCGCGAGGACCTTTATTATCGCCTCAATGTCTTCCCGATCACTATTCCGGCGCTGCGCCGCCGCAAGGAAGATATTCCCCATCTGGCGCGGGTTTTCGCCGAGCGCTTTTCGGCGGAACAGAAATTGCCAAATCCCGTCGGCCTCGACGCCAGCGCGCTGGCGCTGCTGACGGCCTATGACTGGCCGGGCAATATCCGCCAGCTCGAAAACGCCGTCTTCCGTGCGGTAGTACTCTCACAGGGCGAGGAACTGTCGGATTCCGATTTTCCGCAGATCGCGCTTCAGCTGCCGGAATTTTCGACCGGTGACGATGCGGACGATGTCATCCGCACACCATCGGGAGCGTCTCTGAAACTTGCGGCCTATTCACCGGCCCCGCCACCGGTCGCTGAAAACCACGCTGTCATCGAGGAGCCGTCGGATATTTCCACCACCATCTACCGGGGTGGAAACCTGATCTCCAGCATGGATGAATCGGGCAATATCCGCAAACTGGCCGAGATCGAGGAGGAGCTCATCCGTTTCGCCCTGCGCTTCTATCGCGGGCAGATGAGTCAGGTCGCCAGAAAGCTTGGTATCGGCCGTTCGACTCTTTACCGAAAGCTGAAAGATTATGGCATCGATCCCGACGATCCCCTTCGAGATGCAGCCTGA	MTAHVLVIDDDPVQRRLLKNAVERYGHLALLAENGKAGLELLKQYSGEINVIVLDLMMPEMDGLTFLKAIGELGTDVPVIVQTGQGGIDTVVQAMRAGAFDFVVKPVSPERIGAAISNALKLDRREAKARTGRRGRSNAVNFTDIVSASPAMLRVIELAQRAAQSSIPVVLEGESGVGKEMVARAIQSAGDRASKPFITVNCGAIPHNLVESILFGHEKGAFTGATEKHVGKFMEADGGTLFLDEIGDLPLDVQVKLLRAVQQGEIETVGSARVQKVNVRLISATNKNLIEEVKEGRFREDLYYRLNVFPITIPALRRRKEDIPHLARVFAERFSAEQKLPNPVGLDASALALLTAYDWPGNIRQLENAVFRAVVLSQGEELSDSDFPQIALQLPEFSTGDDADDVIRTPSGASLKLAAYSPAPPPVAENHAVIEEPSDISTTIYRGGNLISSMDESGNIRKLAEIEEELIRFALRFYRGQMSQVARKLGIGRSTLYRKLKDYGIDPDDPLRDAA	PGPT0021745_626	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021745-atoC-K07714	NA	NA
BMS010_00766	1851			hypothetical protein	ATGACCCTCAACCGCCCTACCCCGCAACCCGTCTTCTCCCTTGCCGAAACCACCGGTCCGGCGCTTGGCGACCTGCCCGGCTGGAAGCTCTCGGACCTCTATCCGTCGGGCGATTCTCCGGAATACAAGGGCGATCTCGACAAGGCGGCGTCGATGGCGGCGGCTTTCGAGAAGAAATGGAAGGGCAAGCTTGAAGCAGCTGCGAAGGCGACGGGCGAAAACGGCATCGGTGCCGCGCTCAGGGAATATGAAGCGCTGGACGATCTCATTGGCCGCATCGGCTCCTTTGCCGGGCTCACCTATTTTTCCGATACGTCGAACCCGGCAAACGGCAAGCTTTACGGCGATGCCCAGGCGAAGCTGACGGATATTTCCTCCCACCTCCTGTTCTTCACCCTTGAACTCAACCGCATCGATGACGCCACGATGGACGCCTGCATGGCGAATGACGCCGCGGCGGGTCACTACCGCCCGTGGCTGGTGGATTTGCGCAAGGACAAGCCGCACCAGCTCGACGACCAGCTGGAGCAGCTGTTCCTCGAAAAATCGATGACCAGCGCAGCGGCCTTCAACCGCCTGTTCGACGAGACGATGGCCGACCTGCGTTTCGACATTGACGGCGCGAGCCTGCCGCTGGAAGTGACGCTCAACATGCTGCAGGAACCGGAGCCGGAAACCCGAAAGAAAGCGGCTCAGGCGCTGAGCGCCACCTTCAAGGACAATATGCGCGTCTTCACGCTCATCACCAACACGCTTGCCAAGGACAAGGATATTTCCGACCGCTGGCGCAAATTCGAGGATATTGCCGATAGCCGTCATCTCGCCAACCGCGTCGAGCGCGAGGTGGTCGATGCCTTGGCGGCGGCGGTCAAGAAGGCCTATCCGCGCCTCTCCCATCGTTATTACGCCATGAAGGCGAAATGGCTCGGCATGGAGCAGATGAATTATTGGGACCGCAACGCGCCGCTTCCCGATACGTCGAACACGATCATTCCCTGGGATGAGGCAAAGGACACCGTGCTTTCCGCCTATGGCAATTTCGCCCCCGAGATGGCCGATATTGCCCGCCGTTTCTTCGATGAAGAGTGGATCGACGCCCCTGCCCGGCCCGGCAAGGCGCCCGGCGCCTTCGCGCATCCGACCGTGCCCTCGGCCCATCCTTACGTGCTCGTCAACTATCTCGGTAAACCGCGCGACGTGATGACGCTTGCCCATGAGCTTGGCCATGGCGTGCATCAGGTGCTGGCCGGGGAGCAGGGCGCCTTGATGTGCGCGACGCCGCTGACGCTTGCCGAGACCGCCTCCGTCTTCGGGGAAATGCTGACTTTCCGCAAGCTGCTCGACGACACGAAAGATGTCCGGGAACGCAAGGCCATGCTCGCCCGCAAGGTCGAGGACATGATCAACACGGTCGTGCGCCAGATCGCTTTTTATGAATTCGAGCGCAAGCTGCACACCGCCCGCAAACAGGGAGAGCTCACCTCCGAGCAGATCGGCGAATTGTGGCTGTCCGTTCAGGCCGAGAGCCTTGGTCCGGCAATCCGGATTTCCGAAGGCTACGAGACATGGTGGACCTACATCCCCCATTTCATTCACTCGCCGTTTTATGTTTATGCCTATGCCTTCGGCGACTGCCTGGTGAACTCGCTCTATGCGGTTTACCAGAAGGCCGAGACGGGTTTTCAGGAGAAATATTTCGAGCTTCTGAAGGCGGGCGGCACCAAGCACCATTCGGAGCTTCTGAAACCCTTCGGCCTCGATGCGACCGATCCCTCTTTCTGGGACAAGGGGCTTTCGATGATCGAGGGGCTGATCGACGAGCTGGAAGCGCTGGATAACAAACAGGCTTAA	MTLNRPTPQPVFSLAETTGPALGDLPGWKLSDLYPSGDSPEYKGDLDKAASMAAAFEKKWKGKLEAAAKATGENGIGAALREYEALDDLIGRIGSFAGLTYFSDTSNPANGKLYGDAQAKLTDISSHLLFFTLELNRIDDATMDACMANDAAAGHYRPWLVDLRKDKPHQLDDQLEQLFLEKSMTSAAAFNRLFDETMADLRFDIDGASLPLEVTLNMLQEPEPETRKKAAQALSATFKDNMRVFTLITNTLAKDKDISDRWRKFEDIADSRHLANRVEREVVDALAAAVKKAYPRLSHRYYAMKAKWLGMEQMNYWDRNAPLPDTSNTIIPWDEAKDTVLSAYGNFAPEMADIARRFFDEEWIDAPARPGKAPGAFAHPTVPSAHPYVLVNYLGKPRDVMTLAHELGHGVHQVLAGEQGALMCATPLTLAETASVFGEMLTFRKLLDDTKDVRERKAMLARKVEDMINTVVRQIAFYEFERKLHTARKQGELTSEQIGELWLSVQAESLGPAIRISEGYETWWTYIPHFIHSPFYVYAYAFGDCLVNSLYAVYQKAETGFQEKYFELLKAGGTKHHSELLKPFGLDATDPSFWDKGLSMIEGLIDELEALDNKQA	PGPT0020965_367	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020965-pepF|pepB-K08602	NA	NA
BMS010_00767	636			hypothetical protein	ATGAAACGCAAACCCGCCGATCTGACCTTGAGGGAAACCCTGCGCTGGGAGCCGCAGACCGGCTTTCAGCGCATCGACCAGCATATGCGCCGATTGCTGCGCTCCGCCGACGCGCTCGGTTTTCGCGCACCGGTCAATGCGGTTCAGGTGCTGGAAAAGAAGGTGGGCGGCGAAAAGCCGCTCTGCGTCAGGCTGGTCATGAACTACAAGGGCGAACTCGATATCGAAACCGCCGACTTCCAGCCCTTGCGGCAGGATGCCGTCTGGCGGGTTCGCATCGCCCGGCAGACCACGCTCGATTCCGCCGATACCTTCTATCGCCACAAGTCCTCACGCCGCGAGCCCTATGATGCCGCCCGGGCCGAATTTTCAGCCGGGGAGGCTGACGAGGTGCTGCTGCTCAACGAGCGCGGTGAGTTGTGCGAGGGATCGTCGACCAGCATTTTCGTCGAAATGCCGGATGGGCAATTGCTGACGCCGCCGCTCGACAGCGGCATTCTGCCGGGTGTGCTGCGCGCCGATCTCATCCGCGAACGCAGGGCGCGCGGACAGGCGCTGAAACCGGAAGACATTGCCGGCCGGAAACTCTTCGTCGGTAATTCGCTGCATGGGTTGATTGCGGCGGAACTCGTTTAA	MKRKPADLTLRETLRWEPQTGFQRIDQHMRRLLRSADALGFRAPVNAVQVLEKKVGGEKPLCVRLVMNYKGELDIETADFQPLRQDAVWRVRIARQTTLDSADTFYRHKSSRREPYDAARAEFSAGEADEVLLLNERGELCEGSSTSIFVEMPDGQLLTPPLDSGILPGVLRADLIRERRARGQALKPEDIAGRKLFVGNSLHGLIAAELV	PGPT0008020_2122	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008020-pabC-K02619	NA	NA
BMS010_00768	909			hypothetical protein	TTGAATAATCTTATCGAGCGTGTCGCAGCGCTTCAGAGTGTCACCCCCGTTCTTATTGCGCTTTACGATTCCGAGGACCGGTTGCGCCATGCCAATCCGTCGTTTCGGGAAAGCTTTCAGCTTGCCGCCGGCGATTTCCCGACCTGGGCGGATATCATGCGGCTGAACCACCGGCTGCGCACCGGTGTCGTCGTCCGCAACAATGATTTCGAGGGATGGCTGCTGTCGGCGCAGTCCCGGCGCGGCAAGCTGCCTTACCGCGCCTTTGAGATGGATATGCATGACGGCCGCTGGTTCTGGATGACGGAAACGGTGCAGCAGGATGGCTGGATGCTGTGCGTTGCAAGCGACGTCACCGAATTGCGCCAGGGCTACAGAACGCTGCGGCAGGATCGGGATCTGGCAGTCCGCGCCTCGCAGACGGATGAATTGACGGGAACGGCAAACCGCCGTTTCGTCTTCGCCAAGCTGGCTTTGCAGGTGGAGCGGGTTGCCAAGGGGCTGGAAACGCCTTTTTGCCTGTGCACGCTCGATATCGATTTCTTCAAGCAGATCAACGACCGTTTCGGTCATAAATGCGGGGATGCGGTGCTTCGCGATTTCGTCGGCATCGCCCATTCCGTCATCCGGCGGGTGGATTGTTTCGGCAGGATCGGCGGTGAGGAATTCATGCTCATCCTGCCGCGCAGCACGGTGGCCGAGGGCCGGGAGATCGTCGAACGGCTGCTGCAGAAGGTGCGCCTTTCAAGGCCTCTCTCCGAATTTCCGGACTTTTCCTATAGCTGCTCGGCCGGGCTGACGGTCTATCGCGCGCCCGAAAGCGCCGACGATGTTTTCATGCGGGCGGATCAGGCTCTTTATGCGGCCAAGGAAAAAGGCCGCGACCGGCTTCTGTCGGTGACTGTTTAA	MNNLIERVAALQSVTPVLIALYDSEDRLRHANPSFRESFQLAAGDFPTWADIMRLNHRLRTGVVVRNNDFEGWLLSAQSRRGKLPYRAFEMDMHDGRWFWMTETVQQDGWMLCVASDVTELRQGYRTLRQDRDLAVRASQTDELTGTANRRFVFAKLALQVERVAKGLETPFCLCTLDIDFFKQINDRFGHKCGDAVLRDFVGIAHSVIRRVDCFGRIGGEEFMLILPRSTVAEGREIVERLLQKVRLSRPLSEFPDFSYSCSAGLTVYRAPESADDVFMRADQALYAAKEKGRDRLLSVTV	PGPT0025990_549	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-c-di-GMP_SIGNALLING_PATHWAY,PGPT0025990-sadC-K21019	NA	NA
BMS010_00769	1446	hss_1		Homospermidine synthase	ATGACGGATGCAAACCACCCGATTTACGGCGATATTGACGGCCCCATCATCATGATCGGCTTCGGCTCCATCGGGCGCGGCACTCTTCCGTTGATCGAACGTCATTTCAATTTCGACAGGAGCCGGCTCGTCGTCATCGACCCGCGCGAAGACATCGCCGCCTTTCTGGCCGAGAGGAACATCCGCCATATCCAGACGCATCTGACCAAGGAAAATTACCGCGAGATTCTCAAGCCGCTCCTCAAGGGCGTTCAGGGCCAGGGCTTCTGCGTCAATCTCTCGGTCGATGCCGCCTCCGTCGATCTGATGCGGATCTGTCGCAAGCATGGCATGCTTTACATCGACACGGTCGTCGAACCCTGGCCCGGTTTTTATTTCGACGCCGATGCCGACAATGCGGCCCGAACCAACTATTCGCTGCGCGAGACCATGCTGAAGGAAAGGGCGCGCAAGCCGGGCGGCACGACGGCGGTTTCCACCTGCGGCGCCAATCCCGGCATGGTGTCCTGGTTCGTGAAACAGGCACTCGTCAATCTCGCCAAAAATACCGGCCTCGACATCGAAGAGCCGCAGCCGCATGACCGCGATGGCTGGGCAAAGCTGATGAAGCGGCTTGGCGTCAAGGGCGTTCACGTGGCCGAACGCGACACCCAGCGGGCGAAGGAACCGAAGCCCTTCGGCGCTTTCTGGAACACGTGGTCGGTCGAAGGTTTTATCGCGGAAGGTTTTCAGCCGGCCGAACTCGGCTGGGGAACGCATGAAAACTGGATGCCGAAAAACGCAAAAAAGCAGAAAAAGGGAAGCAAGGCGGCGATCTATCTCGATCAGCCCGGCGCCAATACGCGGGTGCGGACATGGTGTCCGGGCCTTGGGCCGCAATACGGATTTCTCGTCACGCATAACGAAGCGATTTCGATTTCCGACTATTTCACCGTCCGCAACGATGATGGCGACGTGACCTATCGGCCAACCTGCCATTATGCCTACCATCCCTGCAATGACGCCATTCTTTCCCTGCATGAGCTTTTCGGCAATGGCGGCACCCCCCAGCCGATCCAGCATGTGCTCGGCGAAGACGAGCTTGTCGACGGCGCCGATGAACTCGGCGTTCTTCTTTATGGCCATGACAGGAATGCCTATTGGTATGGCTCGCGGTTGAGCCTGCAGGAAGCACGCTCACTCGCCCCTAACCAGAATGCGACCGGATTGCAGGTCAGCTCCGCTGTGCTCGCGGGCATGGTCTGGGCGATTGAGAACCCGCAGGCCGGCATCGTCGAGGCGGATGAAATGGATTATCGCCGTTGCCTTGAGGTGCAGCGCCCCTATCTCGGGCCCGTCGAGGGACATTATACCGACTGGAAGCCGACCGATGGCCGCCCCGGCCTGTTTCCCGACAATATCGATACGTCCGATCCCTGGCAGTTTCGCAACATCCTCGTGCGCTGA	MTDANHPIYGDIDGPIIMIGFGSIGRGTLPLIERHFNFDRSRLVVIDPREDIAAFLAERNIRHIQTHLTKENYREILKPLLKGVQGQGFCVNLSVDAASVDLMRICRKHGMLYIDTVVEPWPGFYFDADADNAARTNYSLRETMLKERARKPGGTTAVSTCGANPGMVSWFVKQALVNLAKNTGLDIEEPQPHDRDGWAKLMKRLGVKGVHVAERDTQRAKEPKPFGAFWNTWSVEGFIAEGFQPAELGWGTHENWMPKNAKKQKKGSKAAIYLDQPGANTRVRTWCPGLGPQYGFLVTHNEAISISDYFTVRNDDGDVTYRPTCHYAYHPCNDAILSLHELFGNGGTPQPIQHVLGEDELVDGADELGVLLYGHDRNAYWYGSRLSLQEARSLAPNQNATGLQVSSAVLAGMVWAIENPQAGIVEADEMDYRRCLEVQRPYLGPVEGHYTDWKPTDGRPGLFPDNIDTSDPWQFRNILVR				NA	NA	NA	NA	NA
BMS010_00770	375			Outer membrane lipoprotein omp10	ATGAACTTCAAGACAAGCGCTGCTTTGCTTTCAGCCGCCATCGCGGTGTCTTCATGCGTCGCGCCGGGTCCCTCCCAGCAGACCTCGATGGCGCCTTCGCTTTCCCGCGGCCCGGCCGTCGACGGTCGCTGGATCGACCGCAACGGCATCGTATCGACATTCCAGAACGGCGCCTTCTCCACCCGTTCGACCGATACCAACACGCTTCTGGCCTCCGGCACCTATGTGACGGTTTCGCCGACGCTTTACGAAATCAACATGACCTCGCTGGTGCGCAACACGCAGTCGCGCGTCAACTGCGCCCTCGTCTCCCCGTCACAATTGAACTGCACGACCGACACGAACAGCCAGTTCTCGCTGACGCGCCAAGGCTGA	MNFKTSAALLSAAIAVSSCVAPGPSQQTSMAPSLSRGPAVDGRWIDRNGIVSTFQNGAFSTRSTDTNTLLASGTYVTVSPTLYEINMTSLVRNTQSRVNCALVSPSQLNCTTDTNSQFSLTRQG				NA	NA	NA	NA	NA
BMS010_00771	1926	yfkN_1	COG0737	Trifunctional nucleotide phosphoesterase protein YfkN	ATGAAGAAAATTTTGGGACTGGGCATGCTGAGCGTTTCGGCGATAACGCTTTCGGCCGGAGCGGCTCTGGCCGATTACGAGCTCAACATTCTTCACATCAACGATTTTCACTCCCGTATCGAATCGATCAACAAGTTCGACTCGACCTGCTCGGCTGAAGAAGAAGGCAAAAACGAATGCTTCGGCGGCGCCGCCCGTCTTCTGACCGCAATCAATCAGACCCGTGATGCCCTGAAGGCTGAAGGCAAGAACGTTCTGCTGCTCAATGCCGGCGACAATTTCCAGGGATCGCTGTTCTACACCACCTACAAGGGCACGGTGGAAGCGGAAGTGCTGAACGCCATGAAGTTCGACGCCATGACCGTCGGCAACCATGAGTTCGACGACAGCGAGGACGGGCTTGCCGGCTTCCTAGACAAGGTGCAGTTCCCCGTCGTGACCGCCAATGTGGTGGCCACCGCCGCCTCGAAAATCGGCGACCGCGTAAAGCCGTCCATCGTGCTCGAAGTCGGCGGACAGAAAATCGGTATTGTCGGCGCGGTCGCGAACGACACGGCGGAACTGGCAACGCCCGGCCCCAATATCACCATCGCCGAAGATGTCGCGAAAATCAGCGAGCAGGTGCAGAAGCTGAAGCAGGACGGCGTCGACAAGATCATCGCGCTGACCCATGTCGGCTATCCGCGCGATCTCGAATTCATCGCCAAAATCCCTGACGTCGACGTCGTGGTCGGCGGCCACACACATACGCTGCTTTCCAACACCGACCAGAAGGCCGAAGGCCCCTATCCCACCCTCGTCGACAATCCCGGCGGCTACAAGGTTCCGGTCGTTCAGGCCGGACAGTACAGCAAATATCTGGGCGACCTCAAAGTGGTCTTCGATGACAGTGGCGTGGTCAAGGAAAGCAAGGGCGATCCCATCCTGATCGATTCCTCCTTCAAGCCCGATGAAGCCACGCTAAAGCGCATCGATGAGCTGAAGGCGCCGATCGAGGCTCTGAAGTCGAAGGTCGTCGGCTCGTCGGAAGGCCCGATCGAGGGAGACCGCAAGGTTTGCCGCGTGAAGGAATGCTCCATGGGCAATCTGGTGGCGGATGCCACGCTTGCGCGCGTCAAGGATCAGGGCGTGACCATCGCTTTCGCCAATAGCGGCGGCCTGCGCTCCTCCATCGATGCCGGCGATGTCTCCATGGGCGAAGTGCTCACGGTTCTGCCGTTCCAGAACACCGTCGCAACCTTCCAGCTGAAGGGCGAGGATATTCGCGCCGCCCTCGAAAACGGCGTCAGCCAGATCGATGACGGCGCTGGTCGTTTCATGCAGGTCTCCGGCCTGAAATATTCCTTCGACCGCTCGAAGCCTGCCGGCGGCCGGGTCGTTTCGGTCGACGTCAAGGAAGGCGACGCTTTCGTGCCTCTCGATCCCGCCAAGACCTACATCGTCGCGGCCAATAATTACGTGCGTACCGGCGGCGACGGCTTCAAGGTCTTTGCGACCAAGGCCATCAACGCCTATGACTTCGGCCCCAATCTCGAGGAAGCCGTTGCGGCCTATATCACCGCCAACAGCCCCTATAAGCCCTACACGGATGGCCGTATCAGCGAAGTGACGCCTGCCGGTTATGTCGCTCCGGCAAAGCCTGCGGCACCTGCGCCGGCAGCAACCGCACCTGCGCCGGCCGCCACACCCGCTCCCGCAGCACCTGCAGCCACAGCACCGGCCGCCACGGCTCCGGCCACGGCGACGCCCGCCGCAGCCGCTGCTACCGCCAGCAAATATATCGTTGAAAAGGGCGACTCGCTCTGGAAGATCGCAGCCGAGAAATATGGCGACGGCGCTCTCTGGAGCAGGATTGCCAAGGCAAACACGCTGAAGCATCCGAACCACATCGAGATCGGCGAGGAGCTGGAACTGCCGGCTCAATAA	MKKILGLGMLSVSAITLSAGAALADYELNILHINDFHSRIESINKFDSTCSAEEEGKNECFGGAARLLTAINQTRDALKAEGKNVLLLNAGDNFQGSLFYTTYKGTVEAEVLNAMKFDAMTVGNHEFDDSEDGLAGFLDKVQFPVVTANVVATAASKIGDRVKPSIVLEVGGQKIGIVGAVANDTAELATPGPNITIAEDVAKISEQVQKLKQDGVDKIIALTHVGYPRDLEFIAKIPDVDVVVGGHTHTLLSNTDQKAEGPYPTLVDNPGGYKVPVVQAGQYSKYLGDLKVVFDDSGVVKESKGDPILIDSSFKPDEATLKRIDELKAPIEALKSKVVGSSEGPIEGDRKVCRVKECSMGNLVADATLARVKDQGVTIAFANSGGLRSSIDAGDVSMGEVLTVLPFQNTVATFQLKGEDIRAALENGVSQIDDGAGRFMQVSGLKYSFDRSKPAGGRVVSVDVKEGDAFVPLDPAKTYIVAANNYVRTGGDGFKVFATKAINAYDFGPNLEEAVAAYITANSPYKPYTDGRISEVTPAGYVAPAKPAAPAPAATAPAPAATPAPAAPAATAPAATAPATATPAAAAATASKYIVEKGDSLWKIAAEKYGDGALWSRIAKANTLKHPNHIEIGEELELPAQ	PGPT0013400_317	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013400-ushA-K11751	NA	NA
BMS010_00772	1035	hemH_1	COG0276	Ferrochelatase	ATGGCGACAGAACTATCCGCACTCCCCGCAAACCATCCCCGCACGGCATTTGGCAAGGTCGGCGTCCTGCTCGTCAATCTCGGCACGCCTGACGGTACGGACTATTGGCCGATGCGCCGTTATTTGGCGGAATTCCTGAGCGACAAGCGGGTAATCGAATGGTCGCGTCTCTACTGGTATCCGATCCTTTACGGCATTGTTCTCAACAAGCGCCCGCAGAAAGTCGGAAAGGCCTATGAGGAGATCTGGAACCGCGAGCGCAATGAAAGCTATCTGCGCACCTATACTCGCAGCCAGGGCGAGCTGCTGGCAGAAGCGCTGAAGGACCTGCCCAATGTCGCGGTCGACTGGGGCATGCGTTACGGCCAGCCCTCCATCGCCTCCAAGATCGACGCGCTGAAGGAACAGGGTTGCGAAAAAATCCTGCTTTTCCCGCTCTACCCGCAATATGCCGCATCGACCACGGCAACCGTGAACGACAAGGCTTTCGAGCATTTGATGAAGCTGCGCTGGCAGCCCGCCATCCGCACCGTGCCGCCCTATCACGACGATCCGGCCTATATCGAGGCGCTCGCCGCCTCCGTCAAAAACCATCTGGCGACGCTGGACTGGGAGCCGGAAATGCTGATCACCTCTTTCCACGGCATTCCGCAATCCTATTTCAAAAAAGGCGATCCCTATTATTGTCACTGCCAGAAAACCGCACGGCTGCTGCGCGAGGCGCTGGGGCGGACAGAGAAAAACTTCATGATCACCTTCCAGTCGCGTTTCGGACCGGAAGAATGGTTGCAGCCCTATACCGACAAAACCGTGGAAAAGCTGGCGTCGGAAGGCATCAAGCGCATCGCCGTGATGAATCCCGGCTTCGTTTCGGATTGTCTTGAGACGCTGGAAGAAATCGCCGGTGAAGCGGGCGAGATTTTCCTGCATAATGGCGGAGAGAAATTTACCCATATTCCCTGCTTGAACGACAGCGCCGAGGGCATGAATGTTCTCGAAAAGGTTGTGCGGCAGGAGTTGCAAGGATGGGTGTAA	MATELSALPANHPRTAFGKVGVLLVNLGTPDGTDYWPMRRYLAEFLSDKRVIEWSRLYWYPILYGIVLNKRPQKVGKAYEEIWNRERNESYLRTYTRSQGELLAEALKDLPNVAVDWGMRYGQPSIASKIDALKEQGCEKILLFPLYPQYAASTTATVNDKAFEHLMKLRWQPAIRTVPPYHDDPAYIEALAASVKNHLATLDWEPEMLITSFHGIPQSYFKKGDPYYCHCQKTARLLREALGRTEKNFMITFQSRFGPEEWLQPYTDKTVEKLASEGIKRIAVMNPGFVSDCLETLEEIAGEAGEIFLHNGGEKFTHIPCLNDSAEGMNVLEKVVRQELQGWV	PGPT0008485_2567	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008485-hemH|ywfI-K01772	NA	NA
BMS010_00773	1050	qmcA_1	COG0330	Protein QmcA	ATGATTGCATTGGGCGGTTTCGACATCGTCGTCATGGCAGCGGTGGTTCTCGTTATTCTGGTGCTGTTTGCCGGCATCAAGACCGTCCCCCAGGGGCATCGTTACACGGTTGAACGGTTCGGGCGCTACACCCGCACACTCGAGCCGGGCCTGAACCTCATCGTGCCGTTCTTCGAAACCATTGGTTCGAAAATGAACGTGATGGAGCAGGTCCTTCATATACCGACACAGGAAGTCATCACCCGCGACAATGCCAGCGTCTCCGCCGACGCCGTCACCTTCTATCAGGTCCTCAATGCCGCGCAGGCCGCTTACCAGATCGCCAATCTGGAAATGGCCATCGAAAACCTCACCATGACCAATATCCGTTCGGTGATGGGCTCGATGGACCTCGACGAATTGCTGTCGAACCGCGACGCCATCAACGACCGCCTGCTGCGCGTGGTGGACGAGGCGGTGGGACCATGGGGCATCAAGGTCACCCGTATCGAAATCAAGGACATCGCACCGCCGAAGGATCTCGTCGATTCCATGGCGCGGCAGATGAAGGCCGAGCGTGAAAAACGCGCGCAGGTGCTGGAAGCCGAAGGCGCCCGCAATGCCCAGATCCTGCGCGCGGAAGGCGCGAAGCAATCCGCCATTCTGGAGGCGGAAGGCCAGCGCGAAGCGGCATTCCGCGATGCCGAGGCGCGCGAGCGTCTGGCCGAGGCCGAAGCGAATGCCACCCGCATGGTCTCGGAAGCCATCGCCGCCGGCAATGTCCACGCCATCAACTATTTCGTCGCCCAGAAATATACCGAGGCTCTGGCAGAGATCGGCACGGCGAAGAATTCCAAGATCGTGCTGATGCCGATGGAGGCTTCGGCGCTGATCGGTTCCCTCGGCGGTATCGGCACGATTGCGAAAGAGGTCTTCGGTGACAGGGGCGATGCGCCGACTGCGCCCGCCGCCTCCACAGCGCCCCGTTCCGTGCCGCCGACGCGGCCCTCCGGCCAGAGCATCAACGTCACGATCCCCGGTAATCCCTTCGGCGCTTCATCGGAGAAGTGA	MIALGGFDIVVMAAVVLVILVLFAGIKTVPQGHRYTVERFGRYTRTLEPGLNLIVPFFETIGSKMNVMEQVLHIPTQEVITRDNASVSADAVTFYQVLNAAQAAYQIANLEMAIENLTMTNIRSVMGSMDLDELLSNRDAINDRLLRVVDEAVGPWGIKVTRIEIKDIAPPKDLVDSMARQMKAEREKRAQVLEAEGARNAQILRAEGAKQSAILEAEGQREAAFRDAEARERLAEAEANATRMVSEAIAAGNVHAINYFVAQKYTEALAEIGTAKNSKIVLMPMEASALIGSLGGIGTIAKEVFGDRGDAPTAPAASTAPRSVPPTRPSGQSINVTIPGNPFGASSEK				NA	NA	NA	NA	NA
BMS010_00774	468	ybbJ_1	COG1585	Inner membrane protein YbbJ	ATGATGTTGCAACGGCTTGCCACTGAGCTGGGGCCATGGAGCTGGTGGATTGTCGCCTTCGTGCTTCTGGCCGCCGAACTCATCGCTCCCGGCGTATTCCTGATCTGGATCGGCCTCGCCGCGCTGGTCATCGGCGCGGTCTCGCTGCTTTTATGGGATACGGCATTCTGGGCCTGGCAATTGCAGCTGGTGCTGTTTGCCGCGCTTTCCGTCGTCTTCGCCCTGCTCGGCCGGAAATATTTCGGCAGGAACCGGGCGGCAAGCGACGAGCCCTTCCTCAACCAGCGTGAGGCAAGCCTTGTCGGCCGCACCGCGACCCTTCAGGAGCCGATTGTCGAAGGGCGTGGCCGGATCAGGCTGGACGATACCTGGTGGCCGGTCAACGGCGAAGACCTGCCGGCCGGCACCCGTGTGAGAATTGCTTCCGCACGCGGACGCACGCTTACAATCGAGCCGTTGGACAGATAG	MMLQRLATELGPWSWWIVAFVLLAAELIAPGVFLIWIGLAALVIGAVSLLLWDTAFWAWQLQLVLFAALSVVFALLGRKYFGRNRAASDEPFLNQREASLVGRTATLQEPIVEGRGRIRLDDTWWPVNGEDLPAGTRVRIASARGRTLTIEPLDR	PGPT0024505_184	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024505-ybbJ-K07340	NA	NA
BMS010_00775	996	kdsD_1	COG0517	Arabinose 5-phosphate isomerase KdsD	ATGATTACGCGCGCCGTCAAACTGGTCGAAGACAATGCCATCGAATCCGCCGTGCGGACGATTTCGATGGAGCGGGCTGGCCTTGCCGCCCTTGAGGATGCTCTGAGGAACGGTCTTTCAGACCCCTTCTGCAAGGCGATCGAGACGATCGGCCAGTCGAATGGCCGTCTCATCATTACCGGGGTCGGTAAAAGCGGCCACATAGGCGCGAAGCTTGCCGCCACCTTCGCCTCCACCGGGACGCCCGCCTTTTTTGTGCATGCGGCGGAGGCCAATCACGGCGATCTCGGCATGATCGGCGGCGATGATGTGGTGCTGGCCATTTCCAAGGGCGGCGAAAGCGCGGAACTGCGCAGCATCATCAACTATTCGCGCCGTTTCTCCATTCCGTTGATAGCGCTCACCTGCTCGGAAAATTCATCGCTGGCACAGGCTTCCGATATCGTGCTGCTGGTTCCCAATGAGCAGGAAGCCTGCCCGCTCGGCCTTGCGCCCACGACCTCTACGTTGATGCAGCTTGCGCTGGGCGATGCCCTTGCCGTTGCGCTGCTGGAGGCGCGCAATTTCACCGCGGGCGATTTCAAGGTGTTTCATCCCGGCGGCAAGCTGGGGGCGAGCCTGACGCTGGTTAGCGATATCATGCATACCGGCGATCGCGTGCCGCTGGTTAACAAGGGAACGGCCATGCCGGAAGCGGTCGGGGTTCTCTCCCGCAAGCATTTCGGCTGCGTCGGCATTCTGGACGAGGATGGTCGCCTGTGCGGCATCGTCACCGAAGGCGATATGGCGCGCAACTTGTCGCGCAACCTCGCCGAAATGACGGTCGATGACATCATGACCCGCACGCCGAAGACCGTCAAAAAATCGGTGCTGGCGACCAGCGCGCTGGCGACGCTGGAAAAATTCCACATTGGCGCGCTGATTGTCATCGATGACGACAACCGTCCTATCGGGCTGGTGCATTTCCACGATCTCTTGAGAATTGGCGTGGCTTGA	MITRAVKLVEDNAIESAVRTISMERAGLAALEDALRNGLSDPFCKAIETIGQSNGRLIITGVGKSGHIGAKLAATFASTGTPAFFVHAAEANHGDLGMIGGDDVVLAISKGGESAELRSIINYSRRFSIPLIALTCSENSSLAQASDIVLLVPNEQEACPLGLAPTTSTLMQLALGDALAVALLEARNFTAGDFKVFHPGGKLGASLTLVSDIMHTGDRVPLVNKGTAMPEAVGVLSRKHFGCVGILDEDGRLCGIVTEGDMARNLSRNLAEMTVDDIMTRTPKTVKKSVLATSALATLEKFHIGALIVIDDDNRPIGLVHFHDLLRIGVA	PGPT0023075_830	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-8-AMINO-3|8-DIDEOXY_D_MANNO-OCTULOSONIC_ACID_MODIFICATION,PGPT0023075-kdsD|kpsF-K06041	NA	NA
BMS010_00776	366			hypothetical protein	ATGAATCCCGTTTTGAACGCCAAGCAGGTCGGTTTTTATTGTTGGGATATTACCAATGACCGTTTCTACCTAGATGAAGTATGTGCTGAACTCTTCGGGATTCCGCTGCGGGAGGCGATGCAGGGCATCAGCATTTTTCAGATGCTTGAAAAAGTGGACCTCGATCATCGAAACCATGTGATCGAAACGGCGTTGACCACCCTCAAGGCCGCGAGTTTTTATAATCAGGAATATGCCGTGCGCCGCAGCGACGGCTCGGTCTCATGGGTAAGGACGCTCGGGCGATATCTGGTCGACGAGGAAAACATCCCTTTCAAGCGGCTTGGAACGATGGAGGAGATTTCTCCGCCGGACCGGCGTCATTGA	MNPVLNAKQVGFYCWDITNDRFYLDEVCAELFGIPLREAMQGISIFQMLEKVDLDHRNHVIETALTTLKAASFYNQEYAVRRSDGSVSWVRTLGRYLVDEENIPFKRLGTMEEISPPDRRH				NA	NA	NA	NA	NA
BMS010_00777	1500			hypothetical protein	GTGAAGGGCACCGCCACACGTCTGCCGACGTCGCGGAAAGCAGCAACCCTGCTGCTCGCCTGCACGATTTTTTACCCACAGGGAAGCACCTTCGCGCAGACTGCAACGACAGCCATACCGGTATTGCCGGGCAGCGCTTCTGCCGTCGACGGAGCAGCTTCCCCCACACCGGCGACGGACAATGGGGTGAGCACTGGCACGGGCGCTGTCCCGGCCACAGCTACACCCACGCCGGCACCGCAACTCTGGCGTCCGTCCAACAATCCCGGCGATCCGATTTACGAACAGCAGGACGAAGCGGGCCAACCCTATGCTGAAGGCGAAAACCCCTATGAGCCGACGGTGGACGGTGGCGAAAATCCACGGATAGCCACCGAACCCGGCCAGACGCCCGGCATCCGGCTCGGCACATTCCTGCTGCGGCCCTCGATCAGCCAGACGATCAATACGGAAAAGCAGACGAATACCGGCGGCCCTTCCAGACGCAATTATCTGACGACAGGCATACGCGGTACGCTCACCAGCGACTGGTCCCGTCACGCTTTAACGGTAACCGGCGACGGCGCCTGGGAGAGGAACTTCGGCAGCGACAAGGACGGCGAAGAACCCCGGGCAAGGGTAGAGGCCGATCTGCGCCTTGATCTCGGCGAAGAAACGACGGCCAATCTCAAGGCCGGTTACGAATTCAGCCGCGAAGACACGACGGACCCCAATGCTCTCACCGGCGCTGCCGTGCAGGGCGGCGAACACCGCTTCACCACCAGCGCATCGATAGAGCGGGATTTCGGCAAGCTGCGCGGCCTGGCGGCGCTCGATCTCTCGCGCACGGTCTATACGGATGCGAAAGGCGTCGACGGCCGGCCGATCAGCCTCAGTGACCGCGACCAGAACGGCGCGAACCTGCGCGGACGCATCGGTTATGAATTGTCGCCGGCACTCATCCCCTTCCTCGAACTGAATGCCGGGACGACCAAATATGACAGGCGTCTCGACAATTCGGGCTATGCCCGCTCCTCCAATGCCTATGGGGCGAAGGTCGGCGCGGAAGTCGATCTTGGCGAGAAGACACGTGGCGAGGCCGCCATCGGCTATCTGCGCAAGCAATATGACGACGATCGCCTCGCCTCGATAGGCGCATTGACGCTGGATGGCGAACTCAACTGGTCACCTCAGCGGGGCACCAATGTCAATCTCGGCCTGCGCACGACGATAGAGGACTTTGCCGGCGGACCGCAGGGTGGCTGGATTTCCTATCGGCTGGATGCCGGCCTGACCCACGAATTGCGCAGCAACCTCGTTGCCCGCCTGACGGGACAGATCGTGCATCGCACATTCCCCTCTTCCGACATGGAAAATGCCGTTGAATATACCGCTGGCGCCGGCCTGACCTGGGGACTGAACCGCTATCTCGACCTGACGGCGGACGTCAGCTATCAGTGGACACCGGTTTATGACAGCAGCGAGCTGCGCGTCGGCGCAGGACTTGTCCTTAAGCGATAG	MKGTATRLPTSRKAATLLLACTIFYPQGSTFAQTATTAIPVLPGSASAVDGAASPTPATDNGVSTGTGAVPATATPTPAPQLWRPSNNPGDPIYEQQDEAGQPYAEGENPYEPTVDGGENPRIATEPGQTPGIRLGTFLLRPSISQTINTEKQTNTGGPSRRNYLTTGIRGTLTSDWSRHALTVTGDGAWERNFGSDKDGEEPRARVEADLRLDLGEETTANLKAGYEFSREDTTDPNALTGAAVQGGEHRFTTSASIERDFGKLRGLAALDLSRTVYTDAKGVDGRPISLSDRDQNGANLRGRIGYELSPALIPFLELNAGTTKYDRRLDNSGYARSSNAYGAKVGAEVDLGEKTRGEAAIGYLRKQYDDDRLASIGALTLDGELNWSPQRGTNVNLGLRTTIEDFAGGPQGGWISYRLDAGLTHELRSNLVARLTGQIVHRTFPSSDMENAVEYTAGAGLTWGLNRYLDLTADVSYQWTPVYDSSELRVGAGLVLKR				NA	NA	NA	NA	NA
BMS010_00778	888	gtaB_1	COG1210	UTP--glucose-1-phosphate uridylyltransferase	GTGGTAGAACAGAAGAAAATTCGGAAGGCCGTATTTCCGGTCGCAGGTCTCGGCACGCGTTTCCTGCCCGCAACCAAGGCGGTTCCGAAAGAAATGCTCACTGTCGTCGACAAGCCGGTCATTCAATACGTCGTCGATGAGGCGGCGGAAGCGGGCATTGAGCATTTTGTATTTGTCACCGGCCGCGGCAAGGCGGTGATCGAAGATTATTTTGATATTCAATTTGAACTTGAACAGATGCTGCGCGAGCGCAACAAGAATGCCGAGCTGACATTGCTGGCCGGCCTTCTGCCCAAGGCGGGCACCGCGAGCTTCACGCGCCAGCAGGTGCCGCTCGGTCTTGGCCATGCGGTCTGGTGCGCCCGTGATATCGTCGGCGACGAGCCTTTCGCCGTGCTCTTGCCCGATATGATCATGCATTCGCAGAAAAGCTGCCTCAAGGGCATGGTCGAACTTTACGACCAGACCCAGGGCAACGTCATCGCGGTGCAGGAATGCGCTCCTGACCAGACGCATAAATACGGTATCGTCGGCGTGGGTGATGCCGTGGGTGAAGGTTTCAAGATCACTGAAATGGTCGAAAAGCCTGCCAAGGGTACGGCGCCGTCGAATTTCTATATCAACGGCCGTTATATTCTTCAGCCCGAGATTTTCGACATTCTCGAAAATCAGGAGCGTGGCGCCGGCAACGAAATCCAGCTGACGGACGGCATGCTGACGCTTGCCAAGTCGCAGCAGTTCTCCGGATATCATTTCCGTGGACAGACCTTCGATTGCGGCGCCAAGGATGGTTTCATTCTTGCCAACGTCGCCTTCGCGCTGGAGCGTGGCGATATTCGCCCGGCGATCGAAGAGCCGATCAAGGCCCTGATCAACGGGCTGAAGTAA	MVEQKKIRKAVFPVAGLGTRFLPATKAVPKEMLTVVDKPVIQYVVDEAAEAGIEHFVFVTGRGKAVIEDYFDIQFELEQMLRERNKNAELTLLAGLLPKAGTASFTRQQVPLGLGHAVWCARDIVGDEPFAVLLPDMIMHSQKSCLKGMVELYDQTQGNVIAVQECAPDQTHKYGIVGVGDAVGEGFKITEMVEKPAKGTAPSNFYINGRYILQPEIFDILENQERGAGNEIQLTDGMLTLAKSQQFSGYHFRGQTFDCGAKDGFILANVAFALERGDIRPAIEEPIKALINGLK	PGPT0014875_3563	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0014875-gtaB|UGP2|galU|galF-K00963	NA	NA
BMS010_00779	1224			Tn3 family transposase TnXax1	ATGACAAAGATGATCCTTTCAGATGTCCGCAAATTCGGCTGCATGGTGGTTGCAGGCCTGGCAATCTCGCTGGCGCCCGTTTCGGCCCGCGCCGATCAGGGATTCCGTCAGTGGATCAACCAGTTCTATGCAACAGCCGCGAAAGAAGGCATTAGCAAGGCGACCTATCAGAAGGCCTTTGCCGGTGTCAGCGAGCCTGATCCCGACGCGCTGCGCAAGGCCACCTTCCAGCCGGAATTCACCACGCAGATCTGGGATTATCTCGATTCCCGCGTCAATCCGTACACGGTGCGGATCGGCCGCGAGATGAAGATGAAGCACGCGACGACCCTCAACTGGATCGAGCGTAACTTCAACGTCGACAAGCACATCATTCTCGCCATCTGGTCGATGGAATCGAATTACGGCGCGGTTCTCGAAAAACCCGAACGTCTGCACAACATCCCGCAGGCGCTGGCAACGCTCGCCTATTCCGATCCCAAACGCGCCAAATTCGCGCGCACGCAATTGATCGCCGCTCTGAAGATTCTCCAGGCGGGCGATGTCACGCCGAAACAGCTGACAGGCTCCTGGGCGGGCGCGATGGGTCACACCCAGTTCATTCCCACCAGCTACCTGCTTTATGCGGTGGATGCGGATGGCAACGGCAAGCGCGACATCTGGCACTCCGTTCCGGACGCGCTGGCAACTGCTGCCAATCTTCTTTCCAAAAACGGCTGGGAGCCCGGCCGGACCTGGGGTTATGAAACCGCCGTTCCGCGTGGCGGCGCCCGTTATGAAGGGCAAACGAAGACCATTGCGGAATGGACGAAGCTCGGCTTTGCCCGCCCGAACGGCAAGAACTTCACGCGCGGTTCCGATCGCGCCATGCTGAAATTGCAGGGCGGAGCAAACGGCCCCGGCTTCCTGATGATGAAAAACTTCTTCACCATCAAGAAATACAACGCCTCCGACAGCTATGCGCTCGCCGTCGGCCTGCTTGCGGATGAGATCGCCGGTTATGGCGGCATGCAGCAGAAATGGCCGCGCCCCGATGGGACGCTGGACATTCGTGAAAAATTCGAGCTGCAGACCCGCATGAAGGAGCTCGGCTATTATGACGGCGAGGTCGATGGAAACTTCGGCTCCGGGTCGAAAGCCGCCATCAGCGCCATCCAGTCGCGCATGGGTATGGAAACCGATGGCCAGCCGTCGCAGCGGTTGCTGAGAGCCCTGCGCAATTGA	MTKMILSDVRKFGCMVVAGLAISLAPVSARADQGFRQWINQFYATAAKEGISKATYQKAFAGVSEPDPDALRKATFQPEFTTQIWDYLDSRVNPYTVRIGREMKMKHATTLNWIERNFNVDKHIILAIWSMESNYGAVLEKPERLHNIPQALATLAYSDPKRAKFARTQLIAALKILQAGDVTPKQLTGSWAGAMGHTQFIPTSYLLYAVDADGNGKRDIWHSVPDALATAANLLSKNGWEPGRTWGYETAVPRGGARYEGQTKTIAEWTKLGFARPNGKNFTRGSDRAMLKLQGGANGPGFLMMKNFFTIKKYNASDSYALAVGLLADEIAGYGGMQQKWPRPDGTLDIREKFELQTRMKELGYYDGEVDGNFGSGSKAAISAIQSRMGMETDGQPSQRLLRALRN	PGPT0023785_424	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_TRANSGLYCOSYLASE_ACTIVITY,PGPT0023785-mltB-K08305	NA	NA
BMS010_00780	1236			hypothetical protein	ATGAGTAGGAAACCTGCGGCGAAGAACGGAAGAACCGGCTGGCGTTTCTGCGCCGTCCTTCTTTGCGCTGTCCTTGCCGTGCCGCTCGTTCCTTTCGAAAGCTTCGCGCAGGAGCAACGGCGCACCCTGTTTGAAATGCTCTTCGGCAGACCGGTGGGCCGCGATGGCGGATCCGGGCGCGAATACCAGCCCCGCAACCGTCGCGACTTTCCGTCTGCTCCGCGCGAAAGATCGGTCACCCGCCCGCAACCCGCCAGAAAAGCGCCCTCGGTGGTGCAGATGCGAACCGCAAAGCCGGAGCCAGCCGCCAAACTTGAAAATGCGCGGCGCGTTCTGGTCATCGGCGATTTTCTCGCCGGCGGCATGGGTGAAGAACTGGTCAATGCCTTCGCCAGTTCGCCTGCAATCGCCGTCGATGTGCGTGCCAATGGTTCTTCCGGCCTCGTCCGTACCGATTACTACGACTGGTTCACCAACCTGCCGCAATTCATCAGCGAGACCAAACCAGCCACCATCGTCATCATGATGGGATCGAACGATCGCCAGCAGATGCAGATCGGCGATATCAGGGAAAAGTTCGGCACGGAGGTCTGGTTCAAGGAATATGAGCGGCGGATCGACGAGCTTCTGGCCCTTGCCGGACGCCCAAAGGTGCCGCTCTTGTGGGTTGGCCTGCCCGCCTTCCAGTCGCCGTCGCTTTCGGCCGATCTCGTCGGTTTCAACCGCCTTTATCGCAGCCATGTCGAAAAATATGGCGGCGAATTCGTCGACGTCTGGGACGGTTTCGTCGATGAGGCGGGAAAATTCGTCATTACCGGCTACGACATGAACGGCCAGCAGGCCCGCCTGCGCGAGGCTGATGGCATCGGCATGACCCAGGCCGGCAAACGCAAGCTTGCGTTTTACGTCGAAAAATTCGTGCGCAGGCACCTCGATAGCGCCGGGCCGGACCTCGTGAAACTGGACGGCAGCAATCTGCCGGCGCTCACCTCCCTGCCAGCACTCGGCATCGATGCCGGGCAGGTGCGCACCCAGCCTATCAGTCTCACCGATCCCAATCTCGATGGCGGCGACAAGCTGCTGGGCGATGCTCCTTTGACCGCCGGACCGACACGCGTATCCGTGGTGGAATCGCCACGTGAGAGGTTGACCAAGCGGGGCGAAATGGCCGATGCACCGGCAGGCCGCATCGATGACTATCGTGTGGCGCCCGATACCACACAGGCAAAACAATAG	MSRKPAAKNGRTGWRFCAVLLCAVLAVPLVPFESFAQEQRRTLFEMLFGRPVGRDGGSGREYQPRNRRDFPSAPRERSVTRPQPARKAPSVVQMRTAKPEPAAKLENARRVLVIGDFLAGGMGEELVNAFASSPAIAVDVRANGSSGLVRTDYYDWFTNLPQFISETKPATIVIMMGSNDRQQMQIGDIREKFGTEVWFKEYERRIDELLALAGRPKVPLLWVGLPAFQSPSLSADLVGFNRLYRSHVEKYGGEFVDVWDGFVDEAGKFVITGYDMNGQQARLREADGIGMTQAGKRKLAFYVEKFVRRHLDSAGPDLVKLDGSNLPALTSLPALGIDAGQVRTQPISLTDPNLDGGDKLLGDAPLTAGPTRVSVVESPRERLTKRGEMADAPAGRIDDYRVAPDTTQAKQ				NA	NA	NA	NA	NA
BMS010_00781	675	tctD_1	COG0745	Transcriptional regulatory protein tctD	ATGCGCCTGCTGCTTGTTGAAGACGAACGCGAAATGGCAGCAGCCCTGTCCGCCGCGCTCCACCGGTTCGATATTATCGTGGATACGGTCGGCACGCTCGATCTTGCCCGCCACGCCATCATGGACGGCGTCCACGACCTTGTCGTGCTCGACCGGCAATTGCCCGATGGTGACGGCATCCAGCTTATCGAAGATTTGCGGCTCCTGCCCGTCACCCCGCCCGTCATCGTGCTGACGGCGCAGGGCGCGCTTGTGGATCGGGTGAATGGCCTGAACCTGGGTGCGGACGATTATCTGGCCAAGCCATTCGCGGTCGAGGAACTGCTTGCACGCATCCGCGCCCTGATGCGCCGGCCGGCCGGCGCCGTGACGATGACGGCAAAACTGGGCAGGCTGGAATTTTGTTTCGAAACCCGCGAGGTGCGTATCAAGGGCGAATTCCTTCCGCTGACCAGACGCGAACTGCTGATCCTCGAGGCCCTGTTGCGGCGACAGGGCAGAACGGTGCTGCGCTCACTGCTTGAGGAAGCCGTTTATAATTTCGACGATGAGATCCAGTCCAATGCACTCGATTCCAATATCTCCCGCTTGCGCCGCAAATTGGCGGCCGCGGATGCGGGCCTCGAGGTCCACGGCATTCGCGGCGTCGGTTACCTGCTGAGGGCAACCTCGTGA	MRLLLVEDEREMAAALSAALHRFDIIVDTVGTLDLARHAIMDGVHDLVVLDRQLPDGDGIQLIEDLRLLPVTPPVIVLTAQGALVDRVNGLNLGADDYLAKPFAVEELLARIRALMRRPAGAVTMTAKLGRLEFCFETREVRIKGEFLPLTRRELLILEALLRRQGRTVLRSLLEEAVYNFDDEIQSNALDSNISRLRRKLAAADAGLEVHGIRGVGYLLRATS	PGPT0022440_9	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0022440-basR-K07771	NA	NA
BMS010_00782	1125			hypothetical protein	GTGAAGCTGGCCAGAAGAAAATCGCTCAAGCGCCGGCTCACCATTCAACTGCTGCTGTTCCAGATCGGCAGCCTGTTCTTCGTCACCGCCGCGATTGTCACCTATATGTCGAGCGGCGGCGCAGGCAGCGCGCTGCTCAGCCCGGAGGCGGCCCAGATAACCGCCAACGCGATCATACGGAATGAGGACAATCGGCTGGTTCTCCAAGAAACGCCCGAATTCATCAACCTGCGCAGCAATACCTCCGATTTCTGGTTTGTCGCGGTCAGCGAAAAAGGTGAGATCGTGCAGGGCGGGCAGGTGCCCGAGGCATTCAGCAACATGGATCAGCAGCTGAGCGACATCAGGGTCTCCGATGTGCGCGACGCGGCGCTGTCCTATTCCTACCTCGCCGTGGTGCGCATCGCCATTGTTCGCCGCGCTTCGGGGCCGGCCGGAGAATTCGTCATGATCGGCAAAGGCGGACCGTTCAGCATGACCTTCCCCGTTTTTTTGTTCTCGAACATATTGATCATGCCTGTCCTCATTCTCATGTCCATCGTGACGGTCGTGACCATCCCCTGGATCATCCGCAGGGAATTCCGCGCCCTTTCCACCATTGCCCGCGCGGCGGAAACCATCGATATCGACAGGCGCGGATACCGATTGCCGGATGGCGATATTCCACGGGAGGTGCAGCCGCTCGTGCATGCCGTCAACGGCGCGTTGAAGCGGCTGGACGATGGCTACGAACGGCACAAGCGCTTCATTCTCGATGCCGCCCATGAATTGCGAACCCCCGTCGCCATTCTCCAGACCCGCGTTGAAACGCTGCTGGACGGCCCGGCCCGCAGCAGAATATTGGCGGATGCCAGCCGTATCGCCGTGCTGGCCGAACAATTGCTAGATTTGCAGCGCCTTGGCGGGCAGAAAGCACCGCTGGTTCCGCTTGATATCGTCGGCCTGTGCAGGTCCGTCGTCGCCGATATGGCGCCGCTTGCGATCTCACAGGGATATAATCTGTCCTTCGAGCCGGAAGAGGAACCGATCCTCGCCCTTGCCGATGATGCCTCGCTGCAGCGCGCTTTAATGAACATCGTGCAGAACGCCATTGAACATGGCGGCAATCGCGGAACCATCCCATAA	MKLARRKSLKRRLTIQLLLFQIGSLFFVTAAIVTYMSSGGAGSALLSPEAAQITANAIIRNEDNRLVLQETPEFINLRSNTSDFWFVAVSEKGEIVQGGQVPEAFSNMDQQLSDIRVSDVRDAALSYSYLAVVRIAIVRRASGPAGEFVMIGKGGPFSMTFPVFLFSNILIMPVLILMSIVTVVTIPWIIRREFRALSTIARAAETIDIDRRGYRLPDGDIPREVQPLVHAVNGALKRLDDGYERHKRFILDAAHELRTPVAILQTRVETLLDGPARSRILADASRIAVLAEQLLDLQRLGGQKAPLVPLDIVGLCRSVVADMAPLAISQGYNLSFEPEEEPILALADDASLQRALMNIVQNAIEHGGNRGTIP				NA	NA	NA	NA	NA
BMS010_00783	228	todS		Sensor histidine kinase TodS	GTGGCCTCAAACCGGGTGATCGAGATAGCCGATGAAGGAAATGGTATTCCCGAGGCGGAACGGGAACTCGTCTTTGATGCGTTTCACCGGCTGAGGCCGAAGGATCGCGGCACCGGGCTTGGGCTCAATCTCGTGCAGGAGATCGTCCGTTATCACGGCGGCGAGATCACCATCAGCGATTCCTCCACCGGCGGCGCCTGTTTCCGCATTGCGCTTCCCTATTGCTGA	MASNRVIEIADEGNGIPEAERELVFDAFHRLRPKDRGTGLGLNLVQEIVRYHGGEITISDSSTGGACFRIALPYC	PGPT0015040_638	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-BF-RST_PH|TEMPERATURE|STARVATION_SIGNALLING_SYSTEM,PGPT0015040-rstB-K07639	NA	NA
BMS010_00784	1455	gltD_1	COG0493	Glutamate synthase [NADPH] small chain	GTGGGCAAGGTTACAGGTTTTCTGGAGATCGACCGGCAGGTGGGCAAGTATCAGCCCGCATCGGATCGTATCCGCCACTTCCGCGAATTCACCATTCCGATGTCGGATGCTGAGGTGCAGAAGCAGGCGGCGCGCTGCATGGATTGCGGCATTCCCTATTGTCACGGCCCGACCGGCTGTCCTGTGCACAACCAGATCCCCGACTGGAACGATCTGGTCTATAACAACAACTGGGAAGAGGCGATCCGCAACCTCCACTCCACCAACAACTTCCCGGAATTTACCGGCCGCGTCTGTCCCGCGCCTTGTGAGGAGGCTTGCACGCTGAATCTCGAGGATGCGCCGGTCGCCATCAAGACCGTCGAGCAGGCGATTGCCGACAAGGCCTATGAGTTGGGCTTTATCGTGCCGAAGCCGGCGACGATCCACACCGGCAAGAAGGTTGCCATCATCGGTTCCGGTCCTTCGGGCATGGCGGCTGCGCAGCAGCTCGGCCGCGCCGGCCACGAGGTTCATGTCTATGAGCGCGAATCCAAGCCCGGCGGCCTGCTGCGATACGGTATTCCCGACTTCAAGATGGAGAAGAACTTCATCGACCGCCGCGTCGAGCAGATCAAGGGTGAAGGCGTCACCTTCCATTGCGGCGTCAATGTCGGCGTCGACGTGACGGTCGAGGCGCTTCTCGCCGACCACGATGCCGTGCTTTATTGCGGCGGTTCGGAAACCCCGCGCCCGGCCGGTATCGGTGGCGCTGATCTGCATGGCGTCTACGATGCCATGCCCTATCTCGTGCAGCAGAACCGCCGCGTTGGTCGCGAAAATATCGACAGCGTCGGCTGGCCGGCCGATCCGATTCTTGCCGGCGGCAAGCATGTCGTCGTTGTCGGCGGCGGCGATACCGCATCCGACTGCGTCGGTACGGCTTTCCGTCAGGGTGCGGTGAAGGTCACGCAGCTCGACATCCGCCCGATGCCGCCGGAAAAGGAAGACAAGCTGGCCGTCTGGCCCTTCTGGGCGACCAAGATGCGCACCTCGTCCTCGCAGGCCGAAGGCGCTATCCGCGAGTTCCAGGTGGCGACGCTCGAATTCGTCGGCGAAGACGGCGTGTTGACCGGCGTGAAGTGCTGTCAGGTGGATGACCGCCGCAAGCCGATTGCCGGCACGGAATTCATCATCAAGGCCGATCTCGCCTTCATCGCCATCGGCTTTTCCGGTCCCTTCACGGACAGCGTGCTGAAGGAAATGGAAGGCAAGCTGACTCTCAACACCGACCGTCGCGGTTCCACCAATGTGATCGCAAACGAAACGGACTACAAAACCTCGGTCGACAAGCTGTGGGCGGCGGGCGACGTGCGCCGCGGCCAGTCGCTGGTGGTCTGGGCGATCCGCGAAGGCCGTCAGGCGGCGCGCGCGATCGATGAGGCGCTGATGGGTGCGACCGTTCTTCCGCGCTAA	MGKVTGFLEIDRQVGKYQPASDRIRHFREFTIPMSDAEVQKQAARCMDCGIPYCHGPTGCPVHNQIPDWNDLVYNNNWEEAIRNLHSTNNFPEFTGRVCPAPCEEACTLNLEDAPVAIKTVEQAIADKAYELGFIVPKPATIHTGKKVAIIGSGPSGMAAAQQLGRAGHEVHVYERESKPGGLLRYGIPDFKMEKNFIDRRVEQIKGEGVTFHCGVNVGVDVTVEALLADHDAVLYCGGSETPRPAGIGGADLHGVYDAMPYLVQQNRRVGRENIDSVGWPADPILAGGKHVVVVGGGDTASDCVGTAFRQGAVKVTQLDIRPMPPEKEDKLAVWPFWATKMRTSSSQAEGAIREFQVATLEFVGEDGVLTGVKCCQVDDRRKPIAGTEFIIKADLAFIAIGFSGPFTDSVLKEMEGKLTLNTDRRGSTNVIANETDYKTSVDKLWAAGDVRRGQSLVVWAIREGRQAARAIDEALMGATVLPR	PGPT0000640_2072	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0000640-gltD-K00266	NA	NA
BMS010_00785	4746	gltB_1		Ferredoxin-dependent glutamate synthase 1	ATGACGAACAAGCCGCAGGCGGAAATCGCCGCCGCCACCCTGACCACAGACTGTCCCACCGCGGCTGCGGCCGCACCCGTTTCTGCGAAAGCGCGTTTCGCGGGCGGTTTGCCGGAAAGGCAGGGTCTTTACGATCCGGCCAATGAACATGATGCCTGCGGCGTCGGCTTCGTTGCCCATATGAAGGGCGCCAAGTCGCACCAGATCGTCAAGGACGGCCTGTTCATCCTTGAGAACCTGACGCATCGCGGCGCCGTCGGCGCAGATCCGCTGATGGGCGATGGTGCGGGCATTCTCGTGCAGATTCCCGACCGCTTCTTCCGCGAGGAAATGGCCGCGCAGGGCGTTACGCTGCCGAAGGCCGGCGAATATGCCGTCGGCCACATCTTTATGCCGCGCGATCCTTCCCGCATCGAGCACTACAAGAAGGTCATCGTCGACGTCATCGGCGAAGAGGGGCAGCAGTTCCTCGGCTTCCGCGATGTGCCGGTCGACAATTCCTCGCTCTCCAAGGCGCCGGATATCGCAGCGACCGAACCGCACCACGTGCAGGTCTTCATCGGCGCCGGCCGCGATGCCGCGAGCAATGCCGATTTCGAGCGCAAGCTGTTCCTGATCCGCAAGGTACTGTCCAACCGCATCTATGACGAAGGCGGCGGCAAGGAAACGCAGGATTTCTATCCCGTTTCGCTGTCGTCTTCGACCATCGTCTACAAGGGCATGTTCCTCGCCTATCAGGTGGGCGCCTATTACAAGGATCTGGCCGATCCGCGCTTCGAATCCGCCGTCGCCCTCGTGCATCAGCGTTTTTCCACCAACACCTTCCCGTCCTGGAAGCTGGCGCACCCCTACCGCATGGTTGCCCATAACGGCGAAATCAACACGCTGCGCGGCAACGTCAACTGGATGGCGGCGCGTCAGGCGTCGGTTTCCTCCGTGCTGTTCGGCGACGATATCTCCAAGCTCTGGCCGATCTCCTATGAGGGCCAGTCGGATACCGCCTGCTTCGACAACGCGCTCGAATTCCTCGTGCGCGGCGGCTACTCCATGGCCCATGCCGTGATGATGCTGATCCCGGAGGCCTGGGCCGGCAACCAGTCCATGTCGGCCGAACGCAAGGCGTTCTACGAATATCACGCAGCGCTGATGGAGCCGTGGGACGGCCCGGCCGCCGTCGCCTTCACCGATGGCAAGCAGATCGGCGCAACGCTCGACCGCAACGGCCTGCGCCCCGCGCGTTACCTTGTCACCGATGACGACCGTATCATCATGGCGTCGGAAGCAGGCACGCTGCCGGTGCCGGAAGAGCGCATCGTCAAGAAGTGGCGCTTGCAGCCCGGCAAGATGCTGCTCATTGATATGGAAAAGGGCTCCATCGTTTCCGACGAGGAAGTGAAGCACGAGCTTGCCGCCAAGCACCCCTATCGCACCTGGCTCGACCGCACGCAGCTCATCCTCGAAGAGCTGAAGCCGGTTGAACCGCGCGCGCTGCGCCGCGATGTGTCGCTGCTCGACCGCCAGCAGGCCTTCGGCTACACCAGCGAAGATACCAAGCTCCTGATGTCGCCGATGGCGACGACCGGTCAGGAAGCCATCGGCTCGATGGGCACCGATACGCCGATCTCGGCCATGTCGGAAAAGTCGAAGCTGCTTTACACCTATTTCAAGCAGAACTTCGCGCAGGTGACCAACCCGCCGATCGATCCGATCCGCGAAGAGCTTGTCATGAGCCTCGTGTCCTTCATCGGTCCGCGCCCGAACATTCTCGACCATGAAGGTGCCGCCCGCGCCAAGCGTCTGGAAGTGCGCCAGCCGATCCTGACTAATGGCGATCTGGAGAAGATCCGCTCCATCGGCCACACGGAAGATCGTTTCGACACCAAGACGCTCGACTTCACCTACGATGTGGAGCGCGGTGCCGAAGGCATGCCTGAAATGCTCGACCGCCTGTGCGAGCGTGCGGAATCGGCCGTTCGCGGCGGTTACAACATCATCGTTCTTTCCGACCGCCAGCTCGGCCCGGACCGCATCGCGATCCCCGCCCTTCTGGCGACGGCCGCCGTGCACCATCACCTGATCCGCAAGGGTCTGCGCACCTCGGTCGGCCTCGTCGTGGAAACCGGTGAACCGCGCGAAATCCACCATTTCTGTCTGCTGGCCGGTTATGGTGCCGAGGCGATCAACCCCTATCTCGCCTTCGATACGCTGCTCGACATGCACAAGCACGGCGCCTTCCCGAAGGAAGTCTCCGACGATGAAGTGGTCTATCGCTACATCAAGGCTGTGGGTAAGGGCATCCTCAAGGTCATGTCCAAGATGGGCATTTCCACCTACCAGTCCTATTGCGGCGCGCAGATCTTCGACGCCATCGGCCTTTCCTCGGAATTCGTCGAGAAATATTTCTTCGGCACCGCCACCTCCATCGAAGGTGTCGGCCTGACGGAGATTGCCGAAGAAACCGTAACGCGCCACACGGCTGCCTTCGGCAAGGACCCGATCCTTGCCAACACGCTCGATATCGGCGGCGAATACGCCTATCGCATGCGCGGCGAAAGCCACGCCTGGACGCCGGATGCCGTCGCCTCGCTGCAGCACGCCGTGCGTGGCAACAGCCAGGATCGCTACCGCGAATTCGCCGGCATGGTGAATGAGACGGCGCTGCGCATGAACACCATTCGCGGCCTGTTCAAGGTCAAGTCGGCGGAAGCGCTCGGTCGCAAGCCGGTCTCCATTGATGAGGTCGAGCCGGCAGCCGATATCGTCAAGCGGTTCTCGACCGGCGCCATGTCCTTCGGCTCGATCAGCCGCGAGGCGCATACCACGCTTGCGATTGCCATGAACCGCATCGGCGGCAAGTCCAACACGGGTGAGGGCGGCGAAGAATCCGACCGTTACATGCCGCTGTTGAACGGTAAGCCGAACCCGGAACGCTCGGCCATCAAGCAGATCGCTTCCGGACGCTTCGGCGTGACGACCGAATATCTCGTCAATGCCGATATGCTGCAGATTAAGGTGGCGCAGGGTGCCAAGCCCGGCGAAGGCGGCCAGCTGCCCGGCCATAAGGTGGATGCGACCGTTGCCAAAACCCGGCATTCGACGCCGGGCGTCGGCCTCATCTCGCCGCCGCCGCATCATGATATCTACTCCATCGAAGATCTGGCGCAGCTGATCTACGACCTGAAGAACGTCAATCCGGAAGCGGATGTTTCGGTGAAGCTGGTGTCTGAAGTGGGCGTCGGCACGGTTGCCGCCGGTGTCGCCAAGGCGCGCGCCGACCATATCACCGTTGCCGGTTTCGATGGCGGCACGGGTGCTTCGCCGCTCACCTCGCTGAAGCACGCCGGTTCACCTTGGGAAATCGGTCTTGCCGAAACCCAGCAGACGCTGGTGCTGAACGGTCTTCGCTCGCGCGTTGCCCTGCAGGTGGATGGCGGTCTGAAGACCGGCCGCGACGTCATCATCGGCGCGCTGCTCGGTGCGGATGAATTCGGCTTCGCCACCGCGCCGCTGATCGCGGCCGGCTGCATCATGATGCGCAAGTGCCATCTCAACACCTGCCCTGTCGGCGTTGCCACGCAGGACCCGGTTCTGCGCAAGCGCTTCAAGGGCACGCCGGAACACGTCATCAACTACTTCTTCTTCGTGGCCGAAGAAGTGCGCGAAATCCTCGCTTCGCTTGGTGTTACCAGGCTGGACGAGATCATCGGCGCTTCCGAGCTGCTGGAGAAGGATGAGATGCTGGCGCACTGGAAGGCCAAGGGGCTGGATTTCAGCCGCATCTTCCACAAGGTCGAGGCTCCGAAGGAAGCGACCTTCTGGACCGAGCGCCAGAAGCATCCGATCGATGACATTCTCGACCGCAAGCTGATCGAGAAGTCCCTGCCGTCGCTCGAAAACCGCGAGCCCGTGGTCTTCGAAGTGCCGATCAAGAACGTCGACCGTTCCGCCGGCGCCATGCTGTCGGGTGCGCTTGCCAAGCGCTGGGGTCACAAGGGCCTGAAAGACGACACGATCCACGTCACCCTCAAGGGAACGGCGGGCCAGTCCTTCGGCGCTTTCCTCGCACGCGGCATCACCTTCGATCTGGTGGGTGACGGCAACGACTATGTCGGCAAGGGTCTGTCGGGTGGCCGCATCATCGTGCGCCCGCCGGAAAACACCCGCATCGTCGCGGAAAACTCGATCATCGTCGGTAATACCGTTCTTTACGGCGCGATCACCGGCGAGTGCTATTTCCGTGGCGTGGCCGGCGAGCGTTTCGCGGTGCGTAACTCCGGCGCGGTCGCGGTTGTCGAAGGTGTCGGCGACCACGGTTGCGAATACATGACCGGCGGCATCGTCGTCGTTCTCGGTGAAACGGGCCGTAACTTCGCGGCCGGCATGTCCGGCGGCGTGGCTTATGTTCTCGACGAGAAGGGTGATTTCGCCACCCGCTGCAACATGGCCATGGTCGAGCTGGAGCCGGTTCCGGAAGAGGACGACATGCTGGAGAAGCTGCACCATCACGGCGGCGACCTCATGCACAAGGGACGTGTGGACGTTTCCGAGGACATGACGCGCCACGATGAGGAGCGCCTCTACCAGCTGATCTCGAACCACTTCCATTACACGAACTCGTCGCGCGCCAAGGATATACTCGACCGCTGGAGCGAGTTCCGTCCAAAATTCCGCAAGGTCATGCCGGTCGAATACCGCCGTGCGCTTGAGGAAATGGAGCGCATGCGCATGGGCGTGGCGGCGGAGTAA	MTNKPQAEIAAATLTTDCPTAAAAAPVSAKARFAGGLPERQGLYDPANEHDACGVGFVAHMKGAKSHQIVKDGLFILENLTHRGAVGADPLMGDGAGILVQIPDRFFREEMAAQGVTLPKAGEYAVGHIFMPRDPSRIEHYKKVIVDVIGEEGQQFLGFRDVPVDNSSLSKAPDIAATEPHHVQVFIGAGRDAASNADFERKLFLIRKVLSNRIYDEGGGKETQDFYPVSLSSSTIVYKGMFLAYQVGAYYKDLADPRFESAVALVHQRFSTNTFPSWKLAHPYRMVAHNGEINTLRGNVNWMAARQASVSSVLFGDDISKLWPISYEGQSDTACFDNALEFLVRGGYSMAHAVMMLIPEAWAGNQSMSAERKAFYEYHAALMEPWDGPAAVAFTDGKQIGATLDRNGLRPARYLVTDDDRIIMASEAGTLPVPEERIVKKWRLQPGKMLLIDMEKGSIVSDEEVKHELAAKHPYRTWLDRTQLILEELKPVEPRALRRDVSLLDRQQAFGYTSEDTKLLMSPMATTGQEAIGSMGTDTPISAMSEKSKLLYTYFKQNFAQVTNPPIDPIREELVMSLVSFIGPRPNILDHEGAARAKRLEVRQPILTNGDLEKIRSIGHTEDRFDTKTLDFTYDVERGAEGMPEMLDRLCERAESAVRGGYNIIVLSDRQLGPDRIAIPALLATAAVHHHLIRKGLRTSVGLVVETGEPREIHHFCLLAGYGAEAINPYLAFDTLLDMHKHGAFPKEVSDDEVVYRYIKAVGKGILKVMSKMGISTYQSYCGAQIFDAIGLSSEFVEKYFFGTATSIEGVGLTEIAEETVTRHTAAFGKDPILANTLDIGGEYAYRMRGESHAWTPDAVASLQHAVRGNSQDRYREFAGMVNETALRMNTIRGLFKVKSAEALGRKPVSIDEVEPAADIVKRFSTGAMSFGSISREAHTTLAIAMNRIGGKSNTGEGGEESDRYMPLLNGKPNPERSAIKQIASGRFGVTTEYLVNADMLQIKVAQGAKPGEGGQLPGHKVDATVAKTRHSTPGVGLISPPPHHDIYSIEDLAQLIYDLKNVNPEADVSVKLVSEVGVGTVAAGVAKARADHITVAGFDGGTGASPLTSLKHAGSPWEIGLAETQQTLVLNGLRSRVALQVDGGLKTGRDVIIGALLGADEFGFATAPLIAAGCIMMRKCHLNTCPVGVATQDPVLRKRFKGTPEHVINYFFFVAEEVREILASLGVTRLDEIIGASELLEKDEMLAHWKAKGLDFSRIFHKVEAPKEATFWTERQKHPIDDILDRKLIEKSLPSLENREPVVFEVPIKNVDRSAGAMLSGALAKRWGHKGLKDDTIHVTLKGTAGQSFGAFLARGITFDLVGDGNDYVGKGLSGGRIIVRPPENTRIVAENSIIVGNTVLYGAITGECYFRGVAGERFAVRNSGAVAVVEGVGDHGCEYMTGGIVVVLGETGRNFAAGMSGGVAYVLDEKGDFATRCNMAMVELEPVPEEDDMLEKLHHHGGDLMHKGRVDVSEDMTRHDEERLYQLISNHFHYTNSSRAKDILDRWSEFRPKFRKVMPVEYRRALEEMERMRMGVAAE	PGPT0000635_232	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0000635-gltB-K00265	NA	NA
BMS010_00786	1053	ltaE_1		Low specificity L-threonine aldolase	ATGTTTTTTGCTTCAGACAATTGGGCCGGCGCCCACCCTGCCGTCAACGAACGGCTTTCGCGGGAATCCACGCGCTTTGCCGCCGCCTACGGCACCAGCGAACTCGATCTCTCCATCGAAAAGCGCTTCAACGAGATTTTCGAGCGCGAGGTCGCGGTGTTTTTCGTCGCCACCGGCACGGCGGCCAATTCGCTTTCGCTGGCCAGCATCGCCCGCGCCGGCGGCCTGACCTTCTGTCACTCCGAAGCGCATGTGATCGAGGACGAATGCGGCGCGCCGGATTTCTTTTCCGGCATGCGCATGGTCGCCGTCGAGGGACCGAACGGCAAGATGCTGCCGGAGAACCTCATCGAGCGCATTGCGCGTTATCCGCAGGATGCCGTGCATCACGGCCGCGCCGCAGCCATCACCATGACGCAGGCGACCGAGGCCGGCACGGTCTACACGCTCGATGAAATCGACGCCATCGCCAAAATCGCCAAGGATAACGGCCTGCCGCTGCATATGGATGGCGCGCGCTTTGCCAATGCGCTTTCCGCGCTCGGCACCACGCCGGCCGAAATGACTTGGAAACGCGGCGTTGACGTCCTGTCTTTCGGCGGCACGAAAAATGGCTGCTGGTGTGCGGAAGCCATCGTGTTTTTCGATCCTTCGCTCGCCCGGGATTTCTCCTTCCTGCGCAAGCGCACCGCTCAACTTTTCTCGAAATCGCGTTTCATCGCCGCGCAATTCGAAGCCTATTTGCAGGACGACCTGTGGCTCGGTCTCGCAAGCCATGCCAATGCCATGGCCAACCGGCTGCGCGCCGGCTTCGGCTCGCTGAACAGCGCCCGCCTCGCTTGGCCGACCCAGGCCAATGAAGTTTTCGCCATTCTGCCGAAGGCTGCCGCAGAAGCCGCCACGGCAAAGGGTGCGAAGTTCTATGACTGGCTGGAGCCGCGCGACATGCCGGAAAAGGTCGGCAAGGACGAAGTGCTGATCCGTATGGTCACCAGCTTTGCGACGACCGAGGCCGATGTCGACGAATTCCTGTCGATCTGCGCTGCCGTTTAA	MFFASDNWAGAHPAVNERLSRESTRFAAAYGTSELDLSIEKRFNEIFEREVAVFFVATGTAANSLSLASIARAGGLTFCHSEAHVIEDECGAPDFFSGMRMVAVEGPNGKMLPENLIERIARYPQDAVHHGRAAAITMTQATEAGTVYTLDEIDAIAKIAKDNGLPLHMDGARFANALSALGTTPAEMTWKRGVDVLSFGGTKNGCWCAEAIVFFDPSLARDFSFLRKRTAQLFSKSRFIAAQFEAYLQDDLWLGLASHANAMANRLRAGFGSLNSARLAWPTQANEVFAILPKAAAEAATAKGAKFYDWLEPRDMPEKVGKDEVLIRMVTSFATTEADVDEFLSICAAV	PGPT0020465_1371	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020465-ltaE-K01620	NA	NA
BMS010_00787	690	kdpE_1	COG0745	Transcriptional regulatory protein KdpE	ATGACCAATTCCGCCGTTCGTATTCTGATCGTCGACGACGAACCGCCGATCCGCAAGCTTTTGCGCGTAGGGCTGTCGACCCAGGAATATGCGGTGAGCGAGGCGATGAATGCGAAGGTCGCCATGCAGCTGGTCAGTGAGGACAAGCCCGATCTCGTCGTTCTCGATCTCGGCCTGCCGGATATGTCGGGTCATGATCTTCTGGCGAAATGGCGCGGCGAAGGGCTGGCGCTGCCGGTCATCATTCTCTCCAGCCGTACGGATGAGGCGGGCATCGTCAGGGCGCTGGAGCTGGGGGCGGATGACTATATCACCAAGCCTTTCGGCATGAACGAACTCGTCGCCCGCATCCGCGTCGCCCTGCGCCATCGTCTGCAAAGCCAGGGGGAGAGGCCGGTGTTCCAGACCGGCGATCTCTCCGTCGATCTGGTCCGGCGCATCGTCAAGGTGGAGGATCGGGAAGTGAAGCTCTCGCCCAAGGAGTATGACATTCTCAGGGTTCTGGTGCAGCATGCCGGCAAGGTGCTGACGCACCGTTTTCTGCTGGAGCATGTATGGGACGAACTGACCGATGTGCAATATTTGCGGGTCTATGTGCGCCAGCTTCGCCAGAAGATCGAAAAAATCCCGGATCAGCCGCGCTATATTCTGACGGAAACCGGGGTCGGTTACCGGCTGCAGGAGGTATGA	MTNSAVRILIVDDEPPIRKLLRVGLSTQEYAVSEAMNAKVAMQLVSEDKPDLVVLDLGLPDMSGHDLLAKWRGEGLALPVIILSSRTDEAGIVRALELGADDYITKPFGMNELVARIRVALRHRLQSQGERPVFQTGDLSVDLVRRIVKVEDREVKLSPKEYDILRVLVQHAGKVLTHRFLLEHVWDELTDVQYLRVYVRQLRQKIEKIPDQPRYILTETGVGYRLQEV	PGPT0002760_1287	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CAPSULE_METABOLISM	CE-EPS-CAPSULAR_POLYSACCHARIDE_REGULATION,PGPT0002760-kdpE-K07667	NA	NA
BMS010_00788	2703	kdpD_1	COG2205	Sensor protein KdpD	ATGCCTGACGACAATCGCGATATGCCGAGCCGACCATCGCCTGATGCGCTGCTGGAAAACGCCCGGCGCGAGGCGCGTGGCCGGCTGAAGATTTTTTTGGGGGCAGCGCCCGGCGTCGGCAAGACCTATGAAATGCTGATGTCCGGCCGAGCGAAGCTGGCGGATGGGGTGGATGCCGTCATCGGCGTCGTGGAAACCCATGGCCGCCGGGAAACCGAAACGCTGGTGCAGGGTTTCGAGATCATCGCGCGCCGGCGTATCGACTATCGCGGTCAGGTGCTGGAAGAGATGGATCTCGATGCCATTCTCGCCCGCCGTCCCGCTCTGGTTCTGGTCGATGAACTGGCGCACACCAATGCCGCCGGCAGCCGCCACCCCAAGCGCTACATGGACGTTCAGGAAATTCTGGCGCAGGGCATCGACGTCTATACGACGCTGAACATCCAGCATGTCGAAAGCCTGAACGACGTCGTTGCGCAGATCACCCGCATCCGCGTTCGCGAAACGGTGCCCGACAGCATTATCGACCGGGCCGACGATGTCGAAATCATCGATATTACGCCAGACGATCTGATCAAGCGGCTGCAGGATGGCAAGGTTTACCTGCCCCGCACCGCCCGGCGCGCCATCGAGAATTATTTCTCGCGCGGCAATCTGACGGCGTTGCGAGAGCTTGCGCTGCGGCGCACCGCGCAACGGGTGGATGAGCAGTTGCTCAACCACATGCAGTCCCATGCCATTTCCGGCCCATGGGCGGCTGGAGACAGGGTTCTGGTTTGCCTGGACCACGGCGGCAACGGTCCGGGGCTGGTGCGTTATGCCCGCCGGCAGGCGGATCGCCTGCGGGCGCCCTGGACGGCGCTGCATCTCGATACGCCGCGTTCGCAGCAATTGTCGGAGGCGGAGAAGGACCGGCTGGCCGGCACGATGCGGCTTGCCCAGCAGCTTGGCGGCGAGACGGTGACCCTGCCGGCGCTCGACCTGACACGGGAGATCATCTCCTATGCCAACGCCAATAATTTCACCCACATCATCATCGGCCGCCCGCGAAAATCCTGGTGGCAGCGGATTTTTCAGCGCTCGCTGACGCATGATCTGATCGACCATGCGGGCGATATCAGCGTTCACGTCATTTCCGGCGACAAAAAAGAAGAGAAGCTGGGCCAGACCGCAAAGCCAGCCTCGGCGCAATCGCATGGTTCCATACGGCCTTATCTTAACAGCACCCTGTTCGTCGGCCTCGCGATCGTGGCCGGCATCGTGCTCGACCAGACGCTCGATGTTCGAAATCTGGCGCTGGTGTTCCTGATGGCGGTTCTGGCCGCCGCCGTGCGCGGCGGGCTGGGGCCAGCGCTTTATGCTTCCCTGCTCGGCGCTTTTGCATTCAATTTTTTCTTCCTTGAGCCGCGTTACACCCTGACCGTTCGCGATCCGGAAAGTGTCGTGGCGCTGCTGTTTTATCTCGGTGTGGCGCTTGTCGCCTCCAATCTTACCGCGGCCGTGCAACGGCAGGCCGCTGCCGCGCGGGCAAGGGCGCGAACGACGGAAGACTTATATCTGTTCTCCAAGAAGCTTTCGGTGACGGGAACGCTGGACGATGTGCTGTGGGCGGCCGCTTTCCAGATGGCCTCGATGCTGAAGGTGCGGATCGTTCTGCTTTTACCTGAAAATAATACGATCACGGTCAAGGCGGGATATCCGCCGGACGATACGCTGGTGGATGCCGATATTGCCGCCGCGCAATGGGCCTGGGAACATAACAAGGCGGCGGGCAGGGGCGCGGATACCCTTCCCGGCGCCAAACGTCTTTATCTGCCCCTGCGCACCGGCAGCGGCGCCGTCGGCGTGGTGGGGCTGGACGATGACCGGCTCGGCCCGCTTTTGACACCGGAACAGCAGCGGCTGTTCGATGCCCTGGCCGATCAGGCAGCACTTGCCATCGAGCGAATCCAGCTCGTCTCGGATGTCGACCGGGCAAGGCTTGCGGCGGAAACCGACCGGCTGCGCACCGCGCTGCTGACATCCATTTCCCATGATCTCAAGACGCCGCTTGCGGCCATTCTGGGCTCGGCCGGAACGCTGAAGGATTTCGCCGAGGACATCCCGCCGGATGCGCGCGCCGAACTGCTTTCGACGATCATCGAGGAATCCGAGCGGCTGAACCGGTTCATCTCTAATCTTCTTGATATGACGCGGATCGGTTCGGGCGCGATGGAGCCAAATTACGGTCTGCATTTCGTGGGCGACATGGTCGGAACCGCACTTTCGCGCGCAGCGAAAATCGTCGTCAGGCATGAGATCGTTCTGGATATTCCCCCCGATCTGCCGATGCTGAAGGTCGATCCCGTGCTTTTCGAACAGGTTCTGTTCAATCTCATCGACAATGCCGCCAAATACGCTCCCGAACATACCGCTATCGAGATTCGCGGCTGGCGGCAGGGCAAAAATATCTTCCTCTCCGTGGCCGATGCGGGGCCGGGTATTCCGCCCGACGATACGGAGAGAGTGTTTGACAGTTTTTACCGGGTGCGCAAGGCGGATCATGTGCAGGCCGGAACGGGCCTGGGGCTATCCATCTGCAAGGGGTTTATCGAGGCCATGGGCGGTTCGATCCGCGCGGAAAACAGGTCGGGCCGCACCGGTGCGCAGTTTACCGTCAGTCTGCCGGTTCCCGCCGATGCGCCGGTGATAGACCATGATTAA	MPDDNRDMPSRPSPDALLENARREARGRLKIFLGAAPGVGKTYEMLMSGRAKLADGVDAVIGVVETHGRRETETLVQGFEIIARRRIDYRGQVLEEMDLDAILARRPALVLVDELAHTNAAGSRHPKRYMDVQEILAQGIDVYTTLNIQHVESLNDVVAQITRIRVRETVPDSIIDRADDVEIIDITPDDLIKRLQDGKVYLPRTARRAIENYFSRGNLTALRELALRRTAQRVDEQLLNHMQSHAISGPWAAGDRVLVCLDHGGNGPGLVRYARRQADRLRAPWTALHLDTPRSQQLSEAEKDRLAGTMRLAQQLGGETVTLPALDLTREIISYANANNFTHIIIGRPRKSWWQRIFQRSLTHDLIDHAGDISVHVISGDKKEEKLGQTAKPASAQSHGSIRPYLNSTLFVGLAIVAGIVLDQTLDVRNLALVFLMAVLAAAVRGGLGPALYASLLGAFAFNFFFLEPRYTLTVRDPESVVALLFYLGVALVASNLTAAVQRQAAAARARARTTEDLYLFSKKLSVTGTLDDVLWAAAFQMASMLKVRIVLLLPENNTITVKAGYPPDDTLVDADIAAAQWAWEHNKAAGRGADTLPGAKRLYLPLRTGSGAVGVVGLDDDRLGPLLTPEQQRLFDALADQAALAIERIQLVSDVDRARLAAETDRLRTALLTSISHDLKTPLAAILGSAGTLKDFAEDIPPDARAELLSTIIEESERLNRFISNLLDMTRIGSGAMEPNYGLHFVGDMVGTALSRAAKIVVRHEIVLDIPPDLPMLKVDPVLFEQVLFNLIDNAAKYAPEHTAIEIRGWRQGKNIFLSVADAGPGIPPDDTERVFDSFYRVRKADHVQAGTGLGLSICKGFIEAMGGSIRAENRSGRTGAQFTVSLPVPADAPVIDHD	PGPT0002755_548	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CAPSULE_METABOLISM	CE-EPS-CAPSULAR_POLYSACCHARIDE_REGULATION,PGPT0002755-kdpD-K07646	NA	NA
BMS010_00789	567	kdpC_1	COG2156	Potassium-transporting ATPase KdpC subunit	ATGTTCAAACAGCTTCGTCCCGCACTGGTGCTCATCCTCGCCACCACCGCCATCACCGGCCTTGCCTATCCTCTGGGCATGACGGGTCTCGCGCAGGCGATCTTCCCTTTTCAGGCCAATGGCAGTCTCATCGAAAAGAACGGTGCAGTTGTAGGTTCGCAATTGATCGGGCAGTCCTTTGCCAGTGAGAAATATTTCCATGGCAGGCCATCGGCTGCCGGCGATGGTTACAATGCCGCTTCGTCGTCCGGCTCCAATCTCGGTCCGACGAGCGCCAAGCTCATCGACCGGGTGAAACAGGATTACGAGGCCGCAAAAGCCGAAAATCCGACGGCCGAGGTTCCGGCCGATCTGGTGACGGCCTCGGGCAGCGGCCTTGATCCGCATGTTTCGCCGGAGGCTGCTTATTTTCAGGTTCCCCGTGTCGCCAAAGCGAGGGGCATGGATGAGGCATCCCTGCGTGCCATCGTGGAGCGCCATGTCGAAGGACCGGAACTCGGATTCATGGGAGAGCCGGTCGTGAATGTGGTGGCGCTCAACATGGCTCTTGACGCAGCCGGCTCATGA	MFKQLRPALVLILATTAITGLAYPLGMTGLAQAIFPFQANGSLIEKNGAVVGSQLIGQSFASEKYFHGRPSAAGDGYNAASSSGSNLGPTSAKLIDRVKQDYEAAKAENPTAEVPADLVTASGSGLDPHVSPEAAYFQVPRVAKARGMDEASLRAIVERHVEGPELGFMGEPVVNVVALNMALDAAGS	PGPT0002750_1835	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002750-kdpC-K01548	NA	NA
BMS010_00790	2085	kdpB_2	COG2216	Potassium-transporting ATPase ATP-binding subunit	ATGAGCCAGTCCAAACAAGCGAGCATCCTCGATTCTCGCATTCTCGTGCCGGCCATTGCCGCCGCATTCAAAAAGCTCAACCCACGCACGCTGGCGCGCAACCCGGTCATGTTCGTGGTCGCGACGGTGTCAGTGCTGACAACGGTGCTGTTCATCCGCGACCTCATCATGGGCGGCACCAATCTTGGTTTCTCCTTCCAGATCAATCTCTGGCTCTGGTTCACCGTATTGTTCGCCAATTTCGCGGAAGCCGTCGCCGAAGGGCGCGGCAAGGCGCAGGCGGATTCACTGCGCCGGACCCGCACCGAAACCCAGGCGAAACTGCTCACCGGCGATGACCGCAGCCAGTACAAGATGGTGGCGGGTACCAGCCTGAAGGTGAACGATGTCGTTCTCGTCGAGGCGGGCGATATCATCCCCTCCGACGGCGAAGTCATCGAAGGTGTCGCCTCCGTCAACGAAGCGGCAATCACCGGTGAATCCGCCCCCGTCATCCGCGAATCCGGCGGCGACCGCTCGGCCGTCACGGGCGGCACGCAGGTGCTGTCGGACTGGATCAGGGTTCGCATCACCGCCGCCGCCGGCTCCACCTTCCTCGACCGGATGATTTCGCTGGTCGAAGGCGCTGAACGCCAGAAGACGCCGAACGAGATCGCGCTCAACATTCTGCTTGCGGGCATGACGCTGATCTTTGTGCTGGCTACGGCGACCATTCCGAGCTTCGCGGCCTATGCCGGCGGTTCGATCCCGATCATCGTGCTGGTGGCGCTGTTCGTAACGCTCATCCCGACTACCATCGGCGCGCTTCTGTCCGCCATCGGCATTGCCGGCATGGACAGGCTGGTGCGTTTCAACGTGCTGGCCATGTCCGGCCGCGCCGTCGAGGCCGCCGGTGACGTGGATACGCTTTTGCTCGACAAGACCGGCACCATCACCCTGGGTAACCGGCAGGCGACCGAGTTTCGTCCCGTTGCCGGCGTTTCCGAGCAGGAACTGGCCGATGCGGCGCAGCTTGCCTCCCTTGCTGACGAAACGCCGGAAGGCCGTTCCATCGTGGTTCTCGCCAAGGAAAAATACGGCATCCGCGCCCGTGACATGCAGAAGCTGCATGCGAATTTCGTACCCTTCACCGCCCAGACCCGCATGAGCGGTGTCGATTTCGAAGGTTCCTCCATTCGCAAGGGCGCAGTCGACGCCGTTCTAGCCTATGTTAACGGCGGCGCTTCGCAACAGGGCAATGTGGCGCTTGCCGTCAAAACCGAAACGGACGCCGCACGCGGCATCCGGACAATTGCCGAAGAGATCGCCAAGACCGGCGGCACGCCGCTCGCCGTCGTGCGCGATGGCAAGCTGCTCGGCGTCGTGCAGTTGAAGGATATCGTCAAGGGCGGCATTCGCGAGCGTTTCGCGGAGCTTCGCCGCATGGGCATCCGCACGGTTATGATCACCGGCGACAACCCCATGACGGCCGCCGCCATCGCAGCGGAAGCGGGCGTCGATGATTTCCTCGCCCAGGCGACACCGGAAAACAAGCTGGAGCTTATCCGCGAGGAACAGGCCAAGGGCAAGCTCGTCGCTATGTGCGGCGATGGCACCAACGACGCGCCGGCGCTGGCGCAGGCCGATGTCGGCGTTGCCATGAACACCGGCACGGTGGCGGCACGCGAGGCGGGCAATATGGTCGATCTCGACAGCGATCCGACCAAGCTCATAGAGATCGTGGAAATCGGCAAGCAATTGCTGATGACGCGCGGCGCGCTGACGACGTTCTCCATCGCCAACGATATCGCCAAATATTTCGCCATCATCCCGGCAATGTTCCTGGTGCTCTATCCGCAGCTTGGCGTTCTGAACGTGATGGGGCTTTCGACACCGCAGAGCGCAATCCTGTCGGCCATCATCTTCAACGCGCTCATCATCATCGCGCTCATCCCGCTCTCGCTGAAGGGCGTCAAATATCGGCCGATCGGCGCGGGTGCGCTGCTGTCGCGCAATCTGGTCATCTATGGCCTCGGCGGCATCATCGTTCCTTTCATCGGCATCAAGGTCATCGACCTCGCCGTCACGGCGCTCGGTCTCGCCTGA	MSQSKQASILDSRILVPAIAAAFKKLNPRTLARNPVMFVVATVSVLTTVLFIRDLIMGGTNLGFSFQINLWLWFTVLFANFAEAVAEGRGKAQADSLRRTRTETQAKLLTGDDRSQYKMVAGTSLKVNDVVLVEAGDIIPSDGEVIEGVASVNEAAITGESAPVIRESGGDRSAVTGGTQVLSDWIRVRITAAAGSTFLDRMISLVEGAERQKTPNEIALNILLAGMTLIFVLATATIPSFAAYAGGSIPIIVLVALFVTLIPTTIGALLSAIGIAGMDRLVRFNVLAMSGRAVEAAGDVDTLLLDKTGTITLGNRQATEFRPVAGVSEQELADAAQLASLADETPEGRSIVVLAKEKYGIRARDMQKLHANFVPFTAQTRMSGVDFEGSSIRKGAVDAVLAYVNGGASQQGNVALAVKTETDAARGIRTIAEEIAKTGGTPLAVVRDGKLLGVVQLKDIVKGGIRERFAELRRMGIRTVMITGDNPMTAAAIAAEAGVDDFLAQATPENKLELIREEQAKGKLVAMCGDGTNDAPALAQADVGVAMNTGTVAAREAGNMVDLDSDPTKLIEIVEIGKQLLMTRGALTTFSIANDIAKYFAIIPAMFLVLYPQLGVLNVMGLSTPQSAILSAIIFNALIIIALIPLSLKGVKYRPIGAGALLSRNLVIYGLGGIIVPFIGIKVIDLAVTALGLA	PGPT0002745_837	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002745-kdpB-K01547	NA	NA
BMS010_00791	162			hypothetical protein	ATGAACGACAAATCCCGAAGTAACCGCATCGTCTCCGCCCGCAAAGGCGCTCCCGTCAAAGGGAGCGCCACGCCCGGCGGCTGGTGCGCTTCCAATCTCATTCTCGCGATGATGGCGGCTCTCGTCGCCGCCGTTGTCGCTGTCGAAGTTATCACGGGCTGA	MNDKSRSNRIVSARKGAPVKGSATPGGWCASNLILAMMAALVAAVVAVEVITG				NA	NA	NA	NA	NA
BMS010_00792	1704	kdpA_1	COG2060	Potassium-transporting ATPase potassium-binding subunit	ATGACCCTCACTGGATGGTTTCAGATTCTGCTTTTTTGCGGGATCATTTTTGCGCTGGTGAAGCCGCTCGGCTTCTATATGGCGCGTGTCTTTAATGGCGAGCGCACCCTGCTGTCGCCGGTTCTCGCACCGGTCGAGCGCGGCCTTTATGCCCTTGCCGGGACAAGCGAGCGTGAGGAGCAGCACTGGACGACCTATGCGTTCTCCATGCTTCTCTTCAACCTGCTTGGTTTTGCCCTGCTTTATGCCCTGATGCGCTTTCAGGCGGTGCTGCCCTATGATCCGCAGGCAATGGCGGCCGTAGGACCGGAATTGTCCTTCAATACGGCGGTCAGCTTCGTCACCAACACCAACTGGCAGAATTATGGCGGCGAAAGCACCCTGTCCTATCTGACCCAGATGGCGGGTCTCACCGTGCAGAACTTCGTTTCCGCCGCAACAGGCATGGCAATCGCCATCGGCCTCATCCGCGCGTTTTCCCGCGCTTCCGGCAAGGCGATCGGCAACTTCTGGGTGGATATGGTCCGCTCCACGCTCTACGTGCTTTTACCCCTCTGCATCGTGCTGACCCTCGTTTACGTCTGGCTCGGCGTGCCGCAGACGCTCGGCGCCTATGTGAACGCGCAGACGCTGGAAGGCGCGCAGCAGACGATTGCCGTCGGCCCCGTCGCGTCACAGCTGGCGATCAAGATGCTGGGCACCAATGGCGGCGGTTTCTTCAACGCCAATTCGGCGCATCCCTTCGAGAACCCGGATGCCATTTCCAACATGATCCAGATGGTGTCGATCTTCGCCATCGGGGCAGCCTTTACCAACGTCTTCGGCCGCATGGTCGGTAACCAGCGCCAGGGCTGGGCGATCCTCGCAGCCATGGGCGTGCTGTTCATCGCCGGCGTCGCCGTCACCTATTGGGCGGAAGCGGCCGGAAACCCGCTGATGCACAGCTTCGGTCTTGCCGGCGGCAATATGGAGGGCAAGGAGGTCCGTTTCGGCGTGGCGCTCTCGTCGCTCTTTGCGGTCATCACCACCGCCGCCTCCTGCGGCGCGGTCAATGCCATGCATGGCAGCTTCACGGCGCTGGGTGGTCTTATCCCACTCATTAACATGCAGCTGGGCGAGGTGATCGTCGGCGGTGTCGGCGCGGGTTTTTACGGCATTCTGCTCTTCATCGTCATCGCCATCTTTGTGGCGGGGCTGATGGTCGGGCGCACGCCGGAATATCTCGGCAAGAAGATCGAGGCCAAGGAAATGAAGATGGCGGTTCTGGCCATTCTCTGCCTGCCGCTCGCCATGCTCGTCTTCACGGCAACGGCCACCGTGCTGCCCTCGGCGGTCGCATCGATCGGCACCGCGGGGCCGCACGGCTTCTCCGAAATCCTCTATGCCTATACCTCGGCGGCCGCCAATAACGGCTCCGCCTTCGGCGGCCTCACAGGCAACACCACCTGGTACAACATCACGCTTGGCTTTGGCATGCTGATGGGCCGTTTTCTGGTCATCATTCCGGCACTCGCCATTGCCGGTTCGCTGGTCACCAAGAAGACCGTTCCGGCCTCGGCTGGCACCTTCCCGACGGATGGCCCGCTTTTCGTCGGCCTGCTTGTCGGCACGATCCTGATTGTCGGCGGCCTTACCTTCCTGCCTGCACTGGCGCTCGGCCCCGTTGCCGAACATCTGGTGATGGCGGCAGGCCAGCTCTTCTGA	MTLTGWFQILLFCGIIFALVKPLGFYMARVFNGERTLLSPVLAPVERGLYALAGTSEREEQHWTTYAFSMLLFNLLGFALLYALMRFQAVLPYDPQAMAAVGPELSFNTAVSFVTNTNWQNYGGESTLSYLTQMAGLTVQNFVSAATGMAIAIGLIRAFSRASGKAIGNFWVDMVRSTLYVLLPLCIVLTLVYVWLGVPQTLGAYVNAQTLEGAQQTIAVGPVASQLAIKMLGTNGGGFFNANSAHPFENPDAISNMIQMVSIFAIGAAFTNVFGRMVGNQRQGWAILAAMGVLFIAGVAVTYWAEAAGNPLMHSFGLAGGNMEGKEVRFGVALSSLFAVITTAASCGAVNAMHGSFTALGGLIPLINMQLGEVIVGGVGAGFYGILLFIVIAIFVAGLMVGRTPEYLGKKIEAKEMKMAVLAILCLPLAMLVFTATATVLPSAVASIGTAGPHGFSEILYAYTSAAANNGSAFGGLTGNTTWYNITLGFGMLMGRFLVIIPALAIAGSLVTKKTVPASAGTFPTDGPLFVGLLVGTILIVGGLTFLPALALGPVAEHLVMAAGQLF	PGPT0002740_994	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002740-kdpA-K01546	NA	NA
BMS010_00793	90			hypothetical protein	ATGACATTCGACTATATCTTGAGCGGCGCCGTCACGGTCTTTATCGCCGCCTATCTCACCTATGCTCTCATTCGCCCCGAACGTTTCTGA	MTFDYILSGAVTVFIAAYLTYALIRPERF	PGPT0002765_43	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002765-kdpF-K01545	NA	NA
BMS010_00794	954	ansA	COG0252	putative L-asparaginase	GTGAGCGGGCGGGACGCAACGCCTCTGGTGGCGGTCATCGCCACCGGCGGCACCATCGCCAGCCGGCGTGGTGCCGATGGCGTGAGCACGCCCAGCCTTTCGGGTGAGGACCTGCTGGCGCTGGTTCCGCAGATCAACGCCCGGCTGAAGCCGGTCGACCTGATGGCGAAGGATTCCTCCAGCCTGACATTGGCAGACATGCAGCGCATCAGCGATGCTGTGGGCGCCGAGCTCGATGATCCCGCCGTTGCCGGCATCGTGGTTCTGCATGGCACCGACGCCATGGAAGAATCCTCGCTGCTGGTGCATTTGCAGCGGGCCATCACAAAGCCGGTGGTCTTCACCGGCGCGCAGTTTACGGCAGACCATAAGGACGCGGATGGGCCGGCCAATCTGGCCCGGGCCATAGAAACAGCGCTCGATCAGGCGAATGCCGCAAAAGGCGTGCTCCTCTCCTTCGGCGGCCGCTGTCTGCCGGCCTGGGGGCTTTATAAGCTGAGCGCGGATGAGGCGGATGCCTTCCGCTCCGCCCGGCCGCTGGCTGCTGCCGCAATGCTGCGGCTTTCCGCCCCGGTAACCGATCAGCGCGTCGATATCGTCGCCATTCATCCCGGCTGTGACGCGACCCATATCGATGCAAGTCTGCAGGCGGGCGCGAAAGGCATCGTTCTTGCCGCACTCGGTTCCGGCAATGCCAATCCACGTATCGCCGAGGCTGTGAAGCGCTGCGCCGAACGCGGCGTTCCCGTCATCGTTTCCAGCCGCGTGCCGGAAGGGCGGCTGGTGGCGACTTATGGCGGCGGCGGCGGCGGGCATGATCTTGTCGCGGCGGGCGCCGTGCATTCATCCACGCTTCGCCCGGGCCAGGCCCGCATTTTGCTGGCAGCGCTGCTGGCCGGTAAAAGCCCGGCGGAAACCATCGTTTCCGCTTTCGGTGATAGCCCGCTCTCTTAG	MSGRDATPLVAVIATGGTIASRRGADGVSTPSLSGEDLLALVPQINARLKPVDLMAKDSSSLTLADMQRISDAVGAELDDPAVAGIVVLHGTDAMEESSLLVHLQRAITKPVVFTGAQFTADHKDADGPANLARAIETALDQANAAKGVLLSFGGRCLPAWGLYKLSADEADAFRSARPLAAAAMLRLSAPVTDQRVDIVAIHPGCDATHIDASLQAGAKGIVLAALGSGNANPRIAEAVKRCAERGVPVIVSSRVPEGRLVATYGGGGGGHDLVAAGAVHSSTLRPGQARILLAALLAGKSPAETIVSAFGDSPLS	PGPT0020180_3935	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARAGINE_DEGRADATION,PGPT0020180-EC_3_5_1_1|ansA|ansB-K01424	NA	NA
BMS010_00795	1452	ansP1	COG1113	L-asparagine permease 1	ATGCATTCTGGGAAAACGGCGTCAGCCGATCGTGAGGTCTTCGTCGAAGAAGACCTCGGTTACCACAAGGCCCTCAAACCGCGTCAGATTCAGATGATCGCCATTGGCGGCGCCATCGGCACCGGGCTTTTCCTCGGTGCGGGCGGACGTCTGGCACAGGCAGGCCCGGCGCTGGTATTTGTTTATGCGCTTTGCGGCTTCTTCGCTTTTCTGGTGCTGCGCGCGCTCGGCGAGTTGATCATGCATCGTCCGAGCTCCGGTTCCTTCGTGTCCTATGCCCGTGAGTTCTACGGCGAGAAGATGGCCTTCGCGGCCGGCTGGATGTACTGGCTGAACTGGGCCATGACCTCGGTGGCGGATGTGACCGCCGTTGCTCTCTACATGAATTTCTTCAAGCAATATGTTCCGTGGCTTGCGGGTATCGATCAGTGGGTCTTCGCGATGACGGCGCTTCTGGTCGTGTTGGCGATGAACATGCTGTCGGTGAAGGTCTTTGGTGAGCTCGAATTCTGGTTCAGCCTCATCAAGGTGCTGGCGCTTGCGATCTTCCTCGTGGTCGGCATTTATTTCGTCATTTTCGGCACCCCCATCGAAGGCCATGTCACCGGCTTTAGCATCATCACCGATAATGGCGGTTTCTTCCCGAACGGTATTTTGCCAGCCTTCGTCATCATACAGGGCGTCGTCTTCGCTTATGCCTCCATCGAACTGATCGGCACGGCGGCAGGCGAGACGGAAGACCCGCGCAAGGTCATGCCCCGCGCCATCCGGGCCGTGGTCCTGCGTCTCGTGGTCTTTTATGTCGGTTCGGTGCTGCTGTTCGCGCTGCTTCTGCCCTATACCGCCTACAAGGCCGGCGAGAGCCCCTTCGTCACCTTCTTCGGTTCCATCGGCGTGCAGGGCGCTGACGTGATCATGAACCTCGTGGTTCTGACCGCCGTGCTGTCCTCGCTCAATGCCGGGCTTTATTCCACCGGCCGCATCCTGCACTCGATGGCGGTTTCCGGCTCGGCGCCGGCAGCACTTGCGAAGATGAACAAGAACGGCGTGCCCTATGGCGGCATCGCGGTGACCGCCGTCGTCACCGTTCTCGGTGTGGCGCTGAACGCCGTCGTTCCCGCTTCGGCCTTCGAGATCGCGCTCAACCTCTCAGCGCTCGGCATCATCTGCGCATGGGCCGTCATCGTGCTCTGCCAGTTGAAGCTCTGGCAGCTTTCCAAGCGTGGTGAACTCGTGCGTCCGGATTTCCGCATGTTCGGCGCGCCGTACACCGGCATTCTCACGCTCATCTTCCTGTTCGGCGTGTTGGTGCTGATGGCCTTCGATTATCCTGTCGGCTCCTGGACCATCGCCTCGCTGCTGGTCATCATCCCGGCGCTCGTCATCGGCTGGTATCTCTTGCGTGACCGCATCTACCGTCTCGCGGACGAACGTGCGGGAGCATCACAGTGA	MHSGKTASADREVFVEEDLGYHKALKPRQIQMIAIGGAIGTGLFLGAGGRLAQAGPALVFVYALCGFFAFLVLRALGELIMHRPSSGSFVSYAREFYGEKMAFAAGWMYWLNWAMTSVADVTAVALYMNFFKQYVPWLAGIDQWVFAMTALLVVLAMNMLSVKVFGELEFWFSLIKVLALAIFLVVGIYFVIFGTPIEGHVTGFSIITDNGGFFPNGILPAFVIIQGVVFAYASIELIGTAAGETEDPRKVMPRAIRAVVLRLVVFYVGSVLLFALLLPYTAYKAGESPFVTFFGSIGVQGADVIMNLVVLTAVLSSLNAGLYSTGRILHSMAVSGSAPAALAKMNKNGVPYGGIAVTAVVTVLGVALNAVVPASAFEIALNLSALGIICAWAVIVLCQLKLWQLSKRGELVRPDFRMFGAPYTGILTLIFLFGVLVLMAFDYPVGSWTIASLLVIIPALVIGWYLLRDRIYRLADERAGASQ	PGPT0000815_1640	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0000815-TC_AAT|yifK-K03293	NA	NA
BMS010_00796	1428	aspA_1	COG1027	Aspartate ammonia-lyase	GTGAGCGTGACGCGCAAGGAGCATGATTTGCTCGGGACCAAGGAAATTCCGGCGGATGTCTATTGGGGCGTGCACACGGCGCGCGCCGTGGAAAACTTCAAGATCACCGGGGTGACCATCGGCCACAACCCCTATCTCGTCCGGGGACTGGCCTATGTGAAGGAGGCGGCGGCACGCGCAAACCACGAGCTCGGCCTTCTCGACACGGAACGCATGGAAGCCATCGCCGAGGCCTGCCGCGAAATCCGCGCCGGCGCGCTGCATGAGCAGTTCGTGGTGGATGAAATCCAGGGCGGCGCCGGCACTTCGACCAACATGAACGCCAATGAGGTCATCGCCAACCGTGCGCTCGAACTGCTCGGACACGAAAAAGGCGATTATGCCCGCCTTCACCCCAATGACCATGTCAATCTCAGCCAGTCGACCAACGACGCCTATCCGACCGCGATCAATGTCGGCCTGATCGAGGCCATCGACGATCTGGCCGCTTCCATGGGTGTGCTGAAGGATGCCTTCGACCGCAAGGCGCAGGAATTCGCCGGCTTCATCAAGATCGGGCGAACGCAATTGCAGGACGCCGTGCCGATGACGCTCGGCCAGGAATTCCGCACCTTCGTGGTGATGCTGGGAGAAGATCAGGCGCGCCTCATCGAATCCGCAGCACTTCTGCACGAGATCAATCTCGGCGCCACCGCCATCGGTACCGGGCTGAATGCACCGCGTGGTTATGCCGAGCTTGCCTGCCAGCATCTGGCGGAACTGACCGGACGACCTCTGGTGACGGCGGCAGACCTCATCGAAGCCACCCAGGACCCCGGCGCCTTCGTGCATCTCTCCGGTGTGCTGAAACGCGTCGCCGTGAAGCTGTCGAAGACCTGCAACGATCTTCGCCTCCTCTCTTCCGGCCCGCGCGCCGGGATTGGCGAAATCACCCTGCCCTCCGTTCAGGCGGGTTCCAGCATCATGCCAGGCAAGATCAATCCGGTCATTCCGGAAGTGGTCAATCAGGTGGCCTATGCGGTGATCGGCAATGACATCACCATCACCATGGCCGCTGAAGCCGGGCAGTTGCAGTTGAACGCTTTCGAGCCAATCATCGTGCGCGCGCTTTCACAGAGCATCAGCCAGCTCAGCGCCGCCTGCCGCACGCTGGCGGAACGCTGCGTCGACGGCATCGTCGCCAATCCGGCGATCATGGCGCAGCGCGTGAAAGAATCCATCGGTCTCGCCACCGCGCTCAACCCATTGATCGGTTATTATGCGGCGACAGAGGTGGCGAAGGAGGCGCTTGCCAGTGGCCGCACCGTGCCGCAGGTGGTTCTGGAACGCGGTTATCTCACCGATGCGCAATTGCAGCAGGCGCTGAGCCCGCGACACCTTGCAAACCTGCCCGCCGTCACGGCTGGCGAAGCCGATCTTCGCCAATAA	MSVTRKEHDLLGTKEIPADVYWGVHTARAVENFKITGVTIGHNPYLVRGLAYVKEAAARANHELGLLDTERMEAIAEACREIRAGALHEQFVVDEIQGGAGTSTNMNANEVIANRALELLGHEKGDYARLHPNDHVNLSQSTNDAYPTAINVGLIEAIDDLAASMGVLKDAFDRKAQEFAGFIKIGRTQLQDAVPMTLGQEFRTFVVMLGEDQARLIESAALLHEINLGATAIGTGLNAPRGYAELACQHLAELTGRPLVTAADLIEATQDPGAFVHLSGVLKRVAVKLSKTCNDLRLLSSGPRAGIGEITLPSVQAGSSIMPGKINPVIPEVVNQVAYAVIGNDITITMAAEAGQLQLNAFEPIIVRALSQSISQLSAACRTLAERCVDGIVANPAIMAQRVKESIGLATALNPLIGYYAATEVAKEALASGRTVPQVVLERGYLTDAQLQQALSPRHLANLPAVTAGEADLRQ	PGPT0020125_523	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0020125-aspA-K01744	NA	NA
BMS010_00797	717	lutR_1	COG2186	HTH-type transcriptional regulator LutR	ATGGGCGGGTTGTCGGATTGGCTGTCGGATGCGCAGCCGATCAATCGCAAGAATGCCGCAGAAGCGGTGTTCGATGATATCCGTTCCGCCATCACCTCGGGGCAGCTTGCGGTCGGCACCCGGCTGCCTTCCGAGGCCCATCTGGCCGCCCGATATGGCGTCAGCCGGCCGATCATTCGCGAGGCTTTGCGGTCGCTCCAGACCCTGGGGCTGACACAGACCCGCACCGGAAGCGGCACCTATGTGATGACGCCGACCCCGCCTTCCGAATTGAATTACGGCGCCTATTCCGCCCGCGATCTGATTGAGGCCCGCCCCTTCATCGAAGTTCCTGCGGCCGGTTGGGCGGCGTTGAGACGCACGAATGCCCAGCTGGAAGTCCTGCTCGACCTCTGTGATCGGATGGAAGCCGAAGAAAGGCCGCATCCCTGGGTGCTGCTGGATGGGCAATTCCATTGCGCCATTGCGGAAGCTTCGGCCAACAGGCTGTTTGCCAAGGTGGTGGCCGATGCCCGTGAGGCCCTTTCCCAACAGTCAGAGATGGTCAACCTGATGGCCGGCCGACGCGTTGCCTCGAATTTCGAGCACCGCCGGATCGTCGAGGCGATCCGGCGGGGTTCAGCGCCTGAGGCGCGGGAGGCGATGGAGCTTCACCTTGGGCAGGTGAAGCAGGTGGTGACCACGATTATTGGCGAAGATCGGCTTCGCCAGCCGTGA	MGGLSDWLSDAQPINRKNAAEAVFDDIRSAITSGQLAVGTRLPSEAHLAARYGVSRPIIREALRSLQTLGLTQTRTGSGTYVMTPTPPSELNYGAYSARDLIEARPFIEVPAAGWAALRRTNAQLEVLLDLCDRMEAEERPHPWVLLDGQFHCAIAEASANRLFAKVVADAREALSQQSEMVNLMAGRRVASNFEHRRIVEAIRRGSAPEAREAMELHLGQVKQVVTTIIGEDRLRQP				NA	NA	NA	NA	NA
BMS010_00798	3072	swrC	COG0841	Swarming motility protein SwrC	GTGAAGAAATTCAATCTCTCCGACTGGGCGCTCGAACACCGTTCGCTCGTCTGGTACTTCATGCTGGTTTTCGTTCTTGCCGGCGTTTTCTCCTATCTCAACCTCGGCCGCGAGGAAGATCCGAACTTCACCATCAAGACGATGGTGATCAGCGCGCAATGGCCCGGCGCTTCCGCCGAAGAAGTGGCGCGGCAGGTGACCGACAGGATCGAGAAGAAGCTCGAGGAACTCGACAATCTCGATCATCTGCGCAGCCAGACGGTGGCCGGTCGTACGACGATTTTCGTGGAACTGGTGCCGGAAACCAAGGCGCGCAACGTGGAGCCGACCTGGGTGCGGGTGCGCAACATGATCGGCGACATCAAGGGCGATTTCCCCTCGGGCGTTGTCGGTCCCTTCTTCAACGACCGCTTCGGCGATGTCTATGGCAATATCTACGCCTTCACCAGCGACGGTCTCAGCCAGCGGCAATTGCGCGATCTGGTGGAGGATGCGCGTGCGAAGGTGCTGACCGTCGACAATATCGGCAAGGTCGATGTCATCGGCGCACAGGATGAGACGATCTATCTGGAGTTCTCCACGCGGCAGATCGCGGCGCTCGGCATCGACCAGCAATCGATCATCAAGACGCTGCAAGCCCAGAACGCCGTCACGCAATCCGGCTTCGTCAATGCCGGGCCTGAGCGCGTGGCGCTGCGCGTCAGCGGCCAGTTCACCTCGGAAGACAGCCTGCGGTCCATCAATCTGCGGGTCAACAACCGGTTCTTCCCTCTGACGGAAGTGGCGACGATCCGGCGCGGTTATGTCGATCCGCCGTCCTCGCTGTTCCGCTTTAACGGCCAGCCGGCCATCGGCCTTGCGATCGGCATGAAAACCGGCGCGAACCTGCTGCACTTCGGCGAGGCGCTGGATGCTGAGATGAAGCGGGTGGTTGCGGATCTGCCTGTTGGCGTCGATGTGCATCGCGTGTCCGATCAGCCGGCCGTGGTCGATGAGGCAGTCTCGGGCTTCACCTCGGCGCTGTTCGAGGCCATCGCCATCGTTCTCGTCATCAGCTTCATCAGCCTTGGCCTCAGGGCCGGCATGGTGGTTGCGGTTTCCATTCCGCTCGTGCTGGCGATCACCTTCGTCTACATGGAATATACCGGCATTTCCCTGCAGCGTATCTCTCTGGGCGCCCTCATCATCGCGCTCGGGCTTCTCGTCGACGATGCAATGATCGCCGTTGAGATGATGGTTGCGCGGCTTGAGGTCGGTGACGATCTCAGGAAAGCGGCGACCTATGTTTACACCTCTACCGCTTTCCCGATGCTGACCGGTACGCTGGTCACCGTTGCCGGCTTCATTCCGGTCGGTCTCAACAACAGCGCGGCGGGTGAATTCACCTTCACGCTTTTTGTGGTGATCGCCGTTTCACTGATCGTGTCATGGATCGTCGCGGTCCTGTTCACGCCGCTGCTCGGCGTGACGATCCTGCCGAAGACGATGAAATCGCATCATGAGAAAAAGGGTCGCTTTGCCTCAGCCTTTTCGTGGCTTCTCGGCCGGGCGCTGCGCTGGCGCTGGGTGACGATCATCCTTACCATCGCGCTGTTCGGCCTTTCCGTCGGCGGCATGGGCCTTGTGCAGCAGCAGTTCTTCCCGTCATCCGACCGTGTGGAGCTGATCGTTGACTGGAACCTGCCGCAGAACAGTTCGATTGCCGAGACCAACCGGCAGATGGCGCAGTTCGAGCAGGAAATGCTGGCCAAGAATCCGGATATCGACCATTGGACAACCTATGTCGGCGAAGGCGCGCCGCGTTTCATCCTGTCCTTCGACGTGCAGACGCCTGATGTCACCTTCGGTCAGACGGTCATCGTCACCAAGGGGCTGGATGTCCGTGACAAGGTTCGTGCCGAGCTGCAGGACTATCTGAACAAGACTTTTATCGGCACCGATGCCTTCGTGAAACTGCTCGATATCGGTCCGCCGGTCGGAAAGCCGGTGCAATATCGCCTCAGCGGTCCTGATATCCAGAAGGTCCGCGAGCTCGGGCAGCAATTGTCGGGCATCGTCGGCGAACACCGGCTGCTTTCCAACATGGTGATGGACTGGAACGAGCCGACGCGCGTGGTGAAAGTCGATGTTCTGCAGGACAAGGCCCGTCAGCTCGGCGTCTCGTCGGAAGACATCGCCAATGCCATGAACAGCATTGTCGAAGGGTCCACCGTCACGCAAGTGAGGGACGATATCTACCTCGTTAACGTGGTGGCACGGGCGCAGCTTTCGGAGCGCGGTTCCATCGAGACCTTGCAGAACCTGCAATTGCCGGCAACCAACGGCAAGGCCGTGCCGCTCTCGGCAATCGCCAATTTCCGTTATGAGCTGGAGCAGCCGACCATCTGGCGTCGCGACAGGATCCCCACTGTCACCGTCAAGGCGGCCATTATCGGTCCAACGCAGCCAGCGACGATTGTGGAGCAGCTGAAACCGAAGATCGAGGCGTTCCAGAAAACGCTTCCCGTCGGCTATACGCTGGAGACGGGCGGCTCGGTGGAATCCAGTGCGGATTCGCAAGCGCCGATTGTCGCTGTCGTGCCCATGATGCTGTTTGCGATGGCGACGATCCTGATGATCCAGTTGCAGAGCTTCAGCCGGCTGTTCCTGGTCTTTGCCGTGGCGCCGACTGCCCTGATCGGCGTCGTGGTGGCGCTGCTCTTCTCCAATGCGCCGATGGGTTTCGTCGCCATTCTCGGCGTGCTGGCGCTGATCGGTATCCTGATCCGCAACTCGGTCATCCTCGTCGTGCAGATCGAGCATCTGAGAAGCGAAGGGGTCTCGGCATGGCGTGCCGTCATCGAGGCGACCGAGCACCGCATGCGGCCGATCATGCTGACGGCGGCGGCGGCCACACTTGCCCTCATCCCCATCTCCCGGGAAATCTTCTGGGGGCCGATGGCCTATGCGATGATGGGCGGCATTGTGGTGGGTACGGCGCTTACCCTGCTCTTCCTGCCGGCGCTCTATGTCGCGTGGTTCCGCATCCCGCGTGAGGATGACAAGCCGGAGGCAGCGGAAATAAAGGCGTAA	MKKFNLSDWALEHRSLVWYFMLVFVLAGVFSYLNLGREEDPNFTIKTMVISAQWPGASAEEVARQVTDRIEKKLEELDNLDHLRSQTVAGRTTIFVELVPETKARNVEPTWVRVRNMIGDIKGDFPSGVVGPFFNDRFGDVYGNIYAFTSDGLSQRQLRDLVEDARAKVLTVDNIGKVDVIGAQDETIYLEFSTRQIAALGIDQQSIIKTLQAQNAVTQSGFVNAGPERVALRVSGQFTSEDSLRSINLRVNNRFFPLTEVATIRRGYVDPPSSLFRFNGQPAIGLAIGMKTGANLLHFGEALDAEMKRVVADLPVGVDVHRVSDQPAVVDEAVSGFTSALFEAIAIVLVISFISLGLRAGMVVAVSIPLVLAITFVYMEYTGISLQRISLGALIIALGLLVDDAMIAVEMMVARLEVGDDLRKAATYVYTSTAFPMLTGTLVTVAGFIPVGLNNSAAGEFTFTLFVVIAVSLIVSWIVAVLFTPLLGVTILPKTMKSHHEKKGRFASAFSWLLGRALRWRWVTIILTIALFGLSVGGMGLVQQQFFPSSDRVELIVDWNLPQNSSIAETNRQMAQFEQEMLAKNPDIDHWTTYVGEGAPRFILSFDVQTPDVTFGQTVIVTKGLDVRDKVRAELQDYLNKTFIGTDAFVKLLDIGPPVGKPVQYRLSGPDIQKVRELGQQLSGIVGEHRLLSNMVMDWNEPTRVVKVDVLQDKARQLGVSSEDIANAMNSIVEGSTVTQVRDDIYLVNVVARAQLSERGSIETLQNLQLPATNGKAVPLSAIANFRYELEQPTIWRRDRIPTVTVKAAIIGPTQPATIVEQLKPKIEAFQKTLPVGYTLETGGSVESSADSQAPIVAVVPMMLFAMATILMIQLQSFSRLFLVFAVAPTALIGVVVALLFSNAPMGFVAILGVLALIGILIRNSVILVVQIEHLRSEGVSAWRAVIEATEHRMRPIMLTAAAATLALIPISREIFWGPMAYAMMGGIVVGTALTLLFLPALYVAWFRIPREDDKPEAAEIKA	PGPT0029140_228	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029140-triC-K21134	NA	NA
BMS010_00799	1086	mdtA_1		Multidrug resistance protein MdtA	ATGTCCAGTTTATACAAAAGCTTGTTTTTGGTGGCTGTGGCGATTGCGGTTTCCTCCTGCGAGGACAAGCAGGAAGCCGCCGCCGAGGCGCCGCGTCCCGTGCTTTCCGTCGTCGTGGAAGAGAAGCCGGCCGATGCCCTGCGGCTGACCGGCACGGTGGAATCGCGCATTCAGACCGATCTCGGCTTTCGCGTGCTCGGGCGCATCATCGCCCGCAATGTCGATGTCGCCGATCTGGTGAAGAAGGGCGACGTGGTTGCGTCAATCGATCCGCTCGCGCTCGAGCTTGCGGTGAAGAGCGCACAATCCGACCTCTCCAATGCGGAAGCGCAGCTGGCCAATGCAGTGACGACCGAGCAGCGCCAGCGCGTGCTGGCCGAAGCCCGCAGCGGCACGGAAGCGGCGTTGGAAGAGGCCGAGCAGGCCACCCGCACCGCCAATGCGTCCGTCGCCAAGGCCCGCGCCAATCTGGACAAGGCCGAGGAGCAGCTGGGTTATGCGCAGCTGCATGCGGAATTTGACGGTGTGGTGACGGCAACTTCGGGCGAAATCGGTCAGGTCGTCTCGGCCGGGCAAACGGTCGTGACCATTGCCCGCCCGGAAGTGCGCGACGTGGTGGTCGACGTTCCGCAATTTGCGGCGCAGCGTCTGGAGATCGGCTCCGCCTTCGAGATCGCCCTGCAGCTCGATCCGAAAATTCGCACCACCGGCGTGGTCCGCGAGATTGCTCCGGAAGCCGAAACGGCGACGCGCACGCGCCGCACGAAGATCAGCCTGCAGGATGCGCCGCCGGCATTCCGGCTCGGTTCCGTCGTCACGGCCTCGGTGCTTGCCGCATCCGAACCGCAGATCATGCTTCCTTCATCTGCCCTGTTGAAAACCGACAATGGATGGGGTGTCTGGATCGTCAATGCCGATACGGCAACGGTAACGCTCCGCCCGGTCACGATAGAGGGCGAGCCTGCCGAAGGCGGCAGCGTGCGCATCACCGGCGGCGTTAAGCCCGGCGAACGTGTTGCCAGCGCCGGCGTTCACAAGCTCAAGGATGGACAGGCCATCAGGATCGATCAGGAGGTCCGTCAGTGA	MSSLYKSLFLVAVAIAVSSCEDKQEAAAEAPRPVLSVVVEEKPADALRLTGTVESRIQTDLGFRVLGRIIARNVDVADLVKKGDVVASIDPLALELAVKSAQSDLSNAEAQLANAVTTEQRQRVLAEARSGTEAALEEAEQATRTANASVAKARANLDKAEEQLGYAQLHAEFDGVVTATSGEIGQVVSAGQTVVTIARPEVRDVVVDVPQFAAQRLEIGSAFEIALQLDPKIRTTGVVREIAPEAETATRTRRTKISLQDAPPAFRLGSVVTASVLAASEPQIMLPSSALLKTDNGWGVWIVNADTATVTLRPVTIEGEPAEGGSVRITGGVKPGERVASAGVHKLKDGQAIRIDQEVRQ	PGPT0029135_290	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029135-triB-K21137	NA	NA
BMS010_00800	1077	mdtA_2		Multidrug resistance protein MdtA	ATGAGAACCATTCTTATCGCGGCGGCGCTTGGCGGTATTTTCGCCCTGTCGTCCTGCAGCAATGAAGAGCCGCCCGCCGAAAAGCCGCTCCGCACCGTCGATGTGGTCGCGGCTGAAAAAAAGCCCGTTGATCGCGGCAGCGTCATCACGGGCGAAGTGAAGGCACGGGTCCAGACGGATCTGTCCTTCCGGGTCAGCGGCAAGATCACCGAGCGGCTGGTGGATGTGGGCGCACGGGTGAAGACCGGGCAATTGCTTGCCCGCATGGATCCCGAAGAGCAGAAGGCCGATCTCGATGTCGCCCTGGCCAACCTGCAATCAGCGGAAGCGCAGCAGACCCAGGCGCAATTGACGTTCGACCGTCAGCAAAGCCTTTTCAAGACGCAGGTGACCTCGCGTTCGGCGGTCGACAAGGCCCAGGAAACCCTTCTCACGACGCAAGGAGCGGTGAGATCGGCGCAGGCGCAGCTCGATACGGCGCGGGATGCCCTGTCCTATACGGAACTCAGGGCGGATGCGGATGGCGTTATAACGGCGCGCAATGTCGAAGTCGGCCAGGTGGCGCAGGCCGCCCAGCTCGTCTTCACCCTGGCGCATGACGGGCCGCGCGATGCGGTTTTTGATGTTTATGAATCCCTGTTCCTCGAGCGTGATATCGACAATCTTGTCAATGTCAGCCTCCTGTCGGACCCCGCCCGCAGCGTTGCGGCGCCGGTGCGGGAGATTTCTCCGACGATCGACCCGGACAATGGAACGATCAGGGTCAAGGTCGGCCTGAACGGCGATATGACCATGCCGCTCGGCGCGCCCGTATCCGGCCATTTCCGCTTCAAACAGGTCGATGCGATTGAGCTTCCGTGGTCGGCGATGACGTCGCAGGACGGCTTCCCCGCCGTCTGGGTGGTCGATCCGCAATCCTCGGAAATCGCCATGCGGCGCATCGAGGTCGTCGATTACGAGACCGGTCAATTCGTCATCACGCAGGGGCTTAATTCCGGCGATCTCGTCGTCACCGTCGGCACCAAATTTCTCCGCGCCGGTGAAAAGGTCGCCTATGAAAAGGGGCAGGCACAATAA	MRTILIAAALGGIFALSSCSNEEPPAEKPLRTVDVVAAEKKPVDRGSVITGEVKARVQTDLSFRVSGKITERLVDVGARVKTGQLLARMDPEEQKADLDVALANLQSAEAQQTQAQLTFDRQQSLFKTQVTSRSAVDKAQETLLTTQGAVRSAQAQLDTARDALSYTELRADADGVITARNVEVGQVAQAAQLVFTLAHDGPRDAVFDVYESLFLERDIDNLVNVSLLSDPARSVAAPVREISPTIDPDNGTIRVKVGLNGDMTMPLGAPVSGHFRFKQVDAIELPWSAMTSQDGFPAVWVVDPQSSEIAMRRIEVVDYETGQFVITQGLNSGDLVVTVGTKFLRAGEKVAYEKGQAQ	PGPT0029130_245	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029130-triA-K21136	NA	NA
BMS010_00801	615	nicS_1		HTH-type transcriptional repressor NicS	ATGGCGAAAGCAAAACTGACACGTGCTGAACAGAAGATACAACGTCCGTTGCAAATTCTCGATGCCGCATTCGAGGAATTCACCAAAAGGGGATTTACCGCGACGCGGGTGGAAGACATCGCGGAACGAGTGGGGGTGACGAAAGGAACGGTCTACGTCTATTTCGAAACCAAGGAGGCGCTCTTCGAAGCGATGGTCAAGCACGCCTCCCTGCCGTTCCAGGAGGCATTCAATGCCTATACGCATACATCCGACGACCCGGTCGAGGAGCTTCGTCTGCTGCTGGAGTTCCTGTTCGATTCCCTCGTCGACAACAAGAAGATGCGGGAACTGTTCCGCCTGATCCTTGCGGAAGGCGCAAAATTTCCCGATCTCATCGACCAGCACCATGACACGTTGATGGCACCGGTCTTTACGCGCATCGATACGGTCCTCGAGGAGGGCGTGGCGAAAAAAAGGTTCAGGGCCAATCCTCCCGAACTCGCCAAAGTGGTGATGTCACCCATGGTCGGAACATTGGTGTTTCGGCTGATTTTCAACGACCGGCGCATTCTGGACAGACAGGCTGTCCTGAAAATTCATCTCGATCTGATCATGCGTGGGCTGCTGGCATAG	MAKAKLTRAEQKIQRPLQILDAAFEEFTKRGFTATRVEDIAERVGVTKGTVYVYFETKEALFEAMVKHASLPFQEAFNAYTHTSDDPVEELRLLLEFLFDSLVDNKKMRELFRLILAEGAKFPDLIDQHHDTLMAPVFTRIDTVLEEGVAKKRFRANPPELAKVVMSPMVGTLVFRLIFNDRRILDRQAVLKIHLDLIMRGLLA				NA	NA	NA	NA	NA
BMS010_00802	1455	davD_1	COG1012	Glutarate-semialdehyde dehydrogenase	ATGCATCTGAATGATCCCACACTCTTCGGCGAGAAAGTGCCGGTGGCTGGCCGCTGGGTTGGTTGCGATGGCCGTGAAACGGCGGCAATCCGCAATCCCGCGACCGGTGAGATCGTCGGACGGGTTCCAGAACTCGGTGCGAAGGAAACGAGAGAAGCAATCGCTTCCGCCGTGATCGCCCAGAAGGAATGGGCCCGCCGCACCGCCGGCGAGCGTGCGAATATCCTGAAGGAATGGTTCCGGCTCGTCATGGAAAACCGTGACGATCTCGGCATGATATTGACGCTGGAACAGGGTAAGCCGCTGGCGGAAGCAAAGGGTGAGATCGCCTATGGTGCGAGCTTCATCGAATGGTTTGCGGAGGAGGCGCGGCGAATCCATGGCGAGACAGTGCCCGGCCACCAGCCGGACAAACGCATTCTGGTTCTCCGCCAGCCCGTGGGCGTCGTTGCAGCCATCACGCCATGGAATTTCCCCAATGCCATGATCACTCGCAAGGTCGGCCCGGCGCTGGCCGCCGGCTGTGCAGTGGTGCTGAAACCGGCGCCGCAAACGCCGTTTTCTGCCATTGCCCTTGCCATCCTTGCAGAGCGCGCCGGCCTGCCGCTTGCGCTTTTCAGCATTTTGACGGGGCCAGCCGCAGAGATAGGCGGGGAGATGACGGCAAGCCCGGATATCCGCCTTCTGACCTTTACCGGCTCGACGCGTACGGGCGAACATCTTTACCGGCAATGTGCGCCGACGATCAAGAAGCTGGGGCTGGAACTCGGCGGCAATGCGCCCTTCATCGTCTTCGATGACGCCGATCTCGATGCAGCTGTCGAGGGCGCGATCCTCGCCAAATTCCGCAACAATGGTCAGACCTGCGTTTGCGCCAACCGTTTTTATGTGCAGAGCGGCGTCTATGATGCTTTCGCTGAAAATTTCGCAGGGGCCGTCGCGCAATTGAAGGTCGGTAACGGGTTGGAGAGGGCAAGCATTCTCGGGCCTCTCATCGACGCAAACGCCGTTGCCAAAGTGGAAGCCCATATTGCCGATGCGCTTTCGAAAGGCGCCGAGATCGCCACGGGCGGCAGAAGACACGCGTTGGGCGGCAATTTCTTCGAGCCGACGATCCTGCGCAATGTCGATGCCGGCATGCAGGTGGCGCGTGAGGAAACCTTCGGGCCGCTTGCGCCGCTCTTCCGCTTCGAGGACGAGGCGGATGTGATTGCGCAGGCGAACAATACCGATTTCGGCCTCGCATCCTATTTTTATGCGCGCGATCTGTCGCGGGTCTTCCGGGTTGCGGAGGCGTTGGAATATGGCATGGTCGGCGTCAATACGGGGGCTATTTCCACCGCCGAGGCGCCTTTCGGTGGTGTCAAGATGTCTGGTCTCGGCCGGGAAGGGTCACGTCACGGCATCGAGGAATATACCGAGCTCAAATATGTCTGCATCGGTGGCGTCGGCTGA	MHLNDPTLFGEKVPVAGRWVGCDGRETAAIRNPATGEIVGRVPELGAKETREAIASAVIAQKEWARRTAGERANILKEWFRLVMENRDDLGMILTLEQGKPLAEAKGEIAYGASFIEWFAEEARRIHGETVPGHQPDKRILVLRQPVGVVAAITPWNFPNAMITRKVGPALAAGCAVVLKPAPQTPFSAIALAILAERAGLPLALFSILTGPAAEIGGEMTASPDIRLLTFTGSTRTGEHLYRQCAPTIKKLGLELGGNAPFIVFDDADLDAAVEGAILAKFRNNGQTCVCANRFYVQSGVYDAFAENFAGAVAQLKVGNGLERASILGPLIDANAVAKVEAHIADALSKGAEIATGGRRHALGGNFFEPTILRNVDAGMQVAREETFGPLAPLFRFEDEADVIAQANNTDFGLASYFYARDLSRVFRVAEALEYGMVGVNTGAISTAEAPFGGVKMSGLGREGSRHGIEEYTELKYVCIGGVG	PGPT0001580_3046	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135	NA	NA
BMS010_00803	1083	potA_1		Spermidine/putrescine import ATP-binding protein PotA	ATGACCAAACCGCTCCTGCAGATTCGCGGCATCCGCAAGCAATACGGACCGGTCGTCGCCGTTCAGGACGTCAATCTCGACGTGCAGCCGGGTGAATTCATGACATTTCTCGGGCCATCCGGTTCGGGCAAGAGCACGACGCTTTATATCTTGGCCGGTTTCGAGCAGCCGACATCGGGCGACATTTTGCTGAACGGCGAAAGCCTGCTGTCGACGCCGTCGCACAAGCGCAATATCGGCATGGTCTTCCAGCGCTACACCCTGTTTCCGCATCTGTCGGTTGGCGAGAACATCGCCTTTCCGCTGAAGGTCCGCCGCAAGAGCAAGGCGGAAATCGATGCGAAGGTGAAGGAAATGCTGCGGCTTGTCCGTCTCGAAGGTTTCGAAGACAGAAAACCGGCGCTAATGTCGGGCGGCCAGCAGCAACGTGTGGCGTTGGCGAGGGCGCTTGCCTATGACCCACCGGTGCTCTTGATGGATGAGCCGTTGTCGGCGCTCGACAAGAAGCTGCGCGAAGAAATCCAGTTCGAAATCCGCCGCATTCACCAGCAGACGGAAGTGACGATCCTCTATGTCACCCACGATCAGGAAGAGGCCTTGCGTCTTTCCGATCGGATCGCCGTGTTTTCCAAGGGGGTTATCGACCAGATCGGCACGGGACCGGAGCTTTACGCTCACCCGGCGACCCGTTTCGTGGCTGAATTCATCGGGGACAGCGACTTCATCGCCTGCGATCTCCTCGCCGCCTCGGGCGGCAGGGCGACGGTGTCGCTCGGTCGGGATATCGTTTTCGATCATATTCCGGTGCATGGCGAAGCCGCGCCGGGAAAGAAAGCGGCGCTGATGCTGCGCCCGGAGCGGCTGCAGCTCAGCCGCAACCGGCCGGTCGCCGCTGCCGGTTTCCAGGCCACGGTCAGCGACATCACTTTCCTCGGCAACAATGTCCATGTGGTGGCCCATACCGGCTCGGGTGAGCCGCTTGCGGTGCGCCTGCCTTTCGGCCATGAGGCGATTTCCGGCCTCAGCCGTGGCGACCTCGTGCATCTCGCCTTCGATCCGGCCTCGGCGCAGGTCTTCTGTTGA	MTKPLLQIRGIRKQYGPVVAVQDVNLDVQPGEFMTFLGPSGSGKSTTLYILAGFEQPTSGDILLNGESLLSTPSHKRNIGMVFQRYTLFPHLSVGENIAFPLKVRRKSKAEIDAKVKEMLRLVRLEGFEDRKPALMSGGQQQRVALARALAYDPPVLLMDEPLSALDKKLREEIQFEIRRIHQQTEVTILYVTHDQEEALRLSDRIAVFSKGVIDQIGTGPELYAHPATRFVAEFIGDSDFIACDLLAASGGRATVSLGRDIVFDHIPVHGEAAPGKKAALMLRPERLQLSRNRPVAAAGFQATVSDITFLGNNVHVVAHTGSGEPLAVRLPFGHEAISGLSRGDLVHLAFDPASAQVFC	PGPT0007860_1668	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007860-ABC_SP_A|ydcT-K02052	NA	NA
BMS010_00804	801			hypothetical protein	ATGCTTTTGAACTATAACAGCCTCGGCCTCTGGAAATGGCTGCTCCTCCTGATCACGGTGCTGACGACGGCATTTCTCATCCTGCCCATCGTTTTCATCGCAGCGCTGTCCTTCGGCTCGTCGCAATGGCTGATCTTTCCGCCGCCCGGCTGGACATTGAAATGGTATGCCGATTTCTTCGCCGATCCGCGATGGCTGGAGGCCGCCTGGACGAGCCTGCGCATCGCCCTCATGGTCACGGTGCTGTCCGTGCTGATCGGTCTTGTCGCTTCCTTCGGGCTGGTGCGCGGCCGTTTCATCGGACGTAACACGCTTCGCGCGCTGTTCATGACGCCGATGATCCTGCCTGTCGTGGTGCTGGCGGTGGCGCTTTACGCCTTTTTTCTGAAACTTGGCCTTGCCGGCACGACCGCCGGTTTCGTTATCGCCCATCTCGTCGTGGCGCTGCCCTTTTCGATTCTGGCGTTGACCGGCGCGCTCGAGGGTTTCGACAAATCGATTGAGGATGCGGCGGTGCTGTGCGGCGCAAACCCGTTGCAGGCGAAAATCCGCATCACGCTTCCCGCCATCAGCCACGGCCTTTTTTCGGCGGCGATCTTCTCCTTCCTTACCTCCTGGGATGAGGTGGTGCTGGCGATCTTCATGGCAAGCCCGACATTGCAGACGCTGCCGGTGAAGATTTGGGCGACGCTGCGTCAGGATCTGACGCCGGTGATTGCGGCCGCCTCCACGCTTCTCATTGCGGTGACCATCATTCTCATGCTGCTTGTCGCGGCTGTGCGAAAAGGACTGAAAACATGA	MLLNYNSLGLWKWLLLLITVLTTAFLILPIVFIAALSFGSSQWLIFPPPGWTLKWYADFFADPRWLEAAWTSLRIALMVTVLSVLIGLVASFGLVRGRFIGRNTLRALFMTPMILPVVVLAVALYAFFLKLGLAGTTAGFVIAHLVVALPFSILALTGALEGFDKSIEDAAVLCGANPLQAKIRITLPAISHGLFSAAIFSFLTSWDEVVLAIFMASPTLQTLPVKIWATLRQDLTPVIAAASTLLIAVTIILMLLVAAVRKGLKT	PGPT0007845_3213	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007845-ABC_SP_P|ydcV-K02053	NA	NA
BMS010_00805	876	potB_1	COG1176	Spermidine/putrescine transport system permease protein PotB	ATGGTCTCGCTTACCGATGAAACAGTCAGCCAGAAAGAAAAGGTGCGGATGCCTTTCCGGCCCGGTAACTTTACGGCCACCCTGCCGGCGCTGGTCCTGCTTGTCCTGTTTTTCGTCGTTCCGGTTCTGATCCTGCTGTCGCGCAGCGTCACCGAACCCGTCCTCGGATTCGGCAACTATGCCGCCCTGCTTGGCAGCTCCACCTATCTGAAGATTTTCTTCAATACCTTCGCGGTGTCGGCGCTGGTAACGGTCGTGTCGCTGGCGATCGGCTTTCCCGTCGCCTGGGCGCTCGCCATCATGCCGGCACGGCTCGCTTCCATCGTCTTTGCCATATTGCTCCTGTCGATGTGGACCAATCTTCTGGCGCGCACCTATGCGTGGATGGTGCTGTTGCAGCGCACAGGCGTGGTGAACAAGACGCTGATGTGGCTCGGCATCATCGATCACCCTCTGGCGCTGGTCAACAATCTTACCGGGGTTACGATAGGCATGACCTATATCATGCTGCCCTTCATCATCATTCCGCTCTATGGCGTCATCCGCAAGATCGATCCGGCCATTCTTCAGGCGGCGGCCTTGTGCGGGGCGACACGCTTTCAGGCGCTGACCCGCATCCTCATTCCGCTGGCAGCGCCCGGCATGATTTCCGGCGCGCTGATGGTCTTCGTCATGTCGCTTGGGTATTTCGTCACCCCGGCGCTCCTCGGCGGCACGGCGAACATGATGCTGGCCGAACTCATCGCGCAATTCGTCCAGTCGCTCGTCAACTGGGGCATGGGCGGGGCGGCCGCACTGGTGCTGTTGGTGGCGACGCTGACGCTTTACGCCATCCAGCTCAAATTTTTCGGCGCGGCCGGGGCAGGGGGGCGCTGA	MVSLTDETVSQKEKVRMPFRPGNFTATLPALVLLVLFFVVPVLILLSRSVTEPVLGFGNYAALLGSSTYLKIFFNTFAVSALVTVVSLAIGFPVAWALAIMPARLASIVFAILLLSMWTNLLARTYAWMVLLQRTGVVNKTLMWLGIIDHPLALVNNLTGVTIGMTYIMLPFIIIPLYGVIRKIDPAILQAAALCGATRFQALTRILIPLAAPGMISGALMVFVMSLGYFVTPALLGGTANMMLAELIAQFVQSLVNWGMGGAAALVLLVATLTLYAIQLKFFGAAGAGGR	PGPT0007850_2390	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007850-ABC_SP_P1|ydcU-K02054	NA	NA
BMS010_00806	1011	potD	COG0687	Spermidine/putrescine-binding periplasmic protein	ATGAAATTGAAACTGGTATTGACGACATGCGCCGCTCTTTTTGCCCTTGGTGCATCCGCTGAGGCGAATGATCTGGTTTTCTCCAGCTGGGGAGGAACCACGCAGGACGCCCAGAAGGCGGCCTGGGCTGAAAAATTCATGGTGTCGACCGGCATTAACGTGGTGCAGGACGGCCCGACGGACTACGGCAAATTGAAAGCCATGGTCGAGGCAAACGGCGTGACCTGGGATGTGGTCGATGTCGAGGGCGATTATGCCGCGCAGGCCGGCCCGAAAGGCCTGTTGGAGAAGCTCGATTTTGCCGTCATCGACAAGACCAAGCTCGATCCGCGCTTCGTGACGGACTACTCCGTCGGCAGCTTTTATTATTCCTTCGTCATCGGCTGCAATGTCGATGCCGTGGCCGCCTGCCCGAAGAGCTGGGCGGATCTGTTCGACACTTCGAAATTTCCCGGTAAACGAACCTTCTACAAATGGTCTGCTCCGGGCGTGATCGAAGCCGCCCTTCTGGCCGATGGTGTGGCCGCCGACAAGCTTTATCCTCTCGATCTCGACCGCGCTTTCAAGAAGCTCGATACGATCAAATCCGATATCATCTGGTGGTCCGGCGGTGCGCAGTCGCAGCAATTGATTGCATCTGCGGAAGCTCCCTTCGGAAGCGTCTGGAACGGCCGCATGACGGCGCTTGAAAAAAGCGGCGTGAAGGTGGAAACCTCCTGGCAGCAGAACATCACCGCGGCGGATTCCCTCGTCGTTCCCAAGGGAACGAAGAACAGGGATGCGGCGATGAAGTTCATCGCGCTCGCCACCTCTGCGCAGGCGCAGGCGGATATGGCGACCGCGACGGGTTATGCGCCGGTCAATATCGAATCCGCCAAGCTGATGGAGCGGGAAACCGCCAAGACCCTGCCTGATCAGCAGACGGCAAGCCAGGTCAATGCCGATATGAACTACTGGGCGCAGCATCGCGACGAGATCGGCGAGCGCTGGTACGCCTGGCAGGCGAAGTAA	MKLKLVLTTCAALFALGASAEANDLVFSSWGGTTQDAQKAAWAEKFMVSTGINVVQDGPTDYGKLKAMVEANGVTWDVVDVEGDYAAQAGPKGLLEKLDFAVIDKTKLDPRFVTDYSVGSFYYSFVIGCNVDAVAACPKSWADLFDTSKFPGKRTFYKWSAPGVIEAALLADGVAADKLYPLDLDRAFKKLDTIKSDIIWWSGGAQSQQLIASAEAPFGSVWNGRMTALEKSGVKVETSWQQNITAADSLVVPKGTKNRDAAMKFIALATSAQAQADMATATGYAPVNIESAKLMERETAKTLPDQQTASQVNADMNYWAQHRDEIGERWYAWQAK	PGPT0007855_4831	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007855-ABC_SP_S|ydcS-K02055	NA	NA
BMS010_00807	315			hypothetical protein	ATGTTTTACGAAATCCGCACCTACCGGCTGAAGAACGGCGCCATCCCCGCCTACCTCAAGGTGGTCGAGGAAGAGGGTATCGAAATCCAGAAGAGCCATCTTGGCGAACTGGAGGGTTACTTCTTCTCCGAGATCGGACCGATCAATGAGATCGTCCATATCTGGGCCTTTTCGAGCCTGGATGACCGCGAGGAACGGCGCGCACGGCTGATGGCCGATCCGCGCTGGTTGTCCTTCCTTCCGAAAATCCGCGACCTCATCGAAGTCGCCGAAAACAAGATCATGAAACCGGCGCGGTTTTCACCGCTCAGGTGA	MFYEIRTYRLKNGAIPAYLKVVEEEGIEIQKSHLGELEGYFFSEIGPINEIVHIWAFSSLDDREERRARLMADPRWLSFLPKIRDLIEVAENKIMKPARFSPLR				NA	NA	NA	NA	NA
BMS010_00808	1467	tgnC_1	COG1012	(Z)-2-((N-methylformamido)methylene)-5-hydroxybutyrolactone dehydrogenase	ATGCGCAGTTTCCAGTGCTATATCGACGGACGTTTCGAAGATGGTGAGGCGCGTTTCGCAAGTCTCGATCCCGCAAGCGGCACTGCATGGGCCGAAATGCCGGAAAGCCGCGAGGCCGATGTCGGCCGTGCGGTCGAGGCCGCTCACCGGGCGCTTTACGAAGATGCAGGCTGGTCGAAACTGACGGCGACACAGCGTGGGAAGCTGCTCTACCGGCTCGCCGATCTGGTCACTGAGAATGCGAAGACGCTCGCCGAACTCGAAACCCGCGATACCGGCAAGATCATCCGTGAGACCTCCGCGCAGATTGCCTACGTCGCGGATTATTATCGTTATTATGCGGGTCTGGCCGACAAGATCGAGGGCGCCTATCTGCCGATCGACAAGCCGGATATGGATGTCTGGCTGCGGCGCGAACCCGTGGGCGTCGTGGCGGCCATCGTGCCGTGGAACAGCCAGCTGTTTCTCGCCGCCGTCAAGATCGGCCCGGCACTCGCGGCCGGCTGCACCATTGTCGTCAAGGCCTCGGAAGATGGGCCTGCACCCCTTCTGGAATTCGCCCGGCTGGTGCATGAGGCCGGTTTTCCCGCCGGTGTGGTCAATATCGTCTCCGGCTTCGGCGCGTCCTGCGGTACGGCGCTCACCACCCATCCGAAGGTGGCTCATATCGCCTTTACCGGCGGTCCGGACACGGCGCGTCATATCGTGCGTAATTCGGCGGAAAATCTCGCTTCCACCTCGCTGGAACTCGGCGGCAAATCGCCGATCCTCGTTTTTGCCGATGCCGATCTCGAAAGTGCTGCCAATGCGCAGGTGGCGGGCATTTTCGCCGCGACCGGCCAGAGCTGCGTCGCCGGCTCGCGGCTGATCATCGAAAGAAGCGTCAAGGATCGGTTCCTCGATATTCTGAAGGCGAAGGCTGAGGCGATCCGCATCGGCTCGCCGCTGGATATGGCGACGGAAGTAGGCCCGCTGGCGACGGAGCGTCAAAGGAAGCACATTGTTTCTCTGGTTTCCGCCTCCGTGGACGCGGGCGCCAAGGTTGTCACAGGCGGTGCGCCGGTAGACGGCGACGGTTATTTCTATCGGCCAACCATTCTCGATTGCGACGGCATTCGTTCCCCATCGATGGAGAAAGAGTTCTTTGGCCCCGTCCTCTCGGTCGTTTCCTTTGAAACCGAAGCGGAAGCCATCGCGCTGGCCAATGACACGGTCTATGGGCTTGCCTCCGGTGTCTTCACGCAGAACCTGACGCGCGCCCACCGTTTGATGAAAGCGATCCGGGCCGGCATCGTCTGGGTGAATACCTATCGTGCGGTTTCGCCGATTGCGCCTTTCGGCGGATTCGGCCTGTCGGGCGACGGTCGCGAAGGCGGGCTTGCGGCGGCGCTCGATTACACGCGCACCAAGACCATATGGTTACGCACCTCCGATGACCCGATCCCCGATCCTTTCGTGATGCGGTGA	MRSFQCYIDGRFEDGEARFASLDPASGTAWAEMPESREADVGRAVEAAHRALYEDAGWSKLTATQRGKLLYRLADLVTENAKTLAELETRDTGKIIRETSAQIAYVADYYRYYAGLADKIEGAYLPIDKPDMDVWLRREPVGVVAAIVPWNSQLFLAAVKIGPALAAGCTIVVKASEDGPAPLLEFARLVHEAGFPAGVVNIVSGFGASCGTALTTHPKVAHIAFTGGPDTARHIVRNSAENLASTSLELGGKSPILVFADADLESAANAQVAGIFAATGQSCVAGSRLIIERSVKDRFLDILKAKAEAIRIGSPLDMATEVGPLATERQRKHIVSLVSASVDAGAKVVTGGAPVDGDGYFYRPTILDCDGIRSPSMEKEFFGPVLSVVSFETEAEAIALANDTVYGLASGVFTQNLTRAHRLMKAIRAGIVWVNTYRAVSPIAPFGGFGLSGDGREGGLAAALDYTRTKTIWLRTSDDPIPDPFVMR	PGPT0000915_402	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0000915-tgnC-K23463	NA	NA
BMS010_00809	1041	tgnB	COG2141	Flavin-dependent trigonelline monooxygenase, oxygenase component	ATGAAATTCTCCCTCTTCGTCCATATGGAGCGGCTGGACGCCTCGCAGGATCACAAGACGCTCTACGAGGAGTTCGTGACGCTTTGTGAAATCGCCGATCGCGGCGGCATGCATGCCATCTGGACCGGCGAACATCACGGCATGGATTTCACCATTGCCCCGAACCCCTTCGTGACGATCGCCGATCTGGCGCGGCGCACCAGGACGGCGCGTCTCGGCACGGGCACGGTAATCGCGCCCTTCTGGCACCCGATCAAGCTTGCCGGCGAAGCCGCGATGACCGACCTTATCTGCGATGGCCGTCTCGATATCGGCATCGCCCGCGGTGCTTACTCGTTTGAATATGAGCGGCTGCTTCCGGGCCTCGATGCCTGGGGCGCCGGCCAGCGCATGCGCGAGCTGATCCCGGCCGTCAAAGGTGTATGGGCGGGCGACTATGCCCATGACGGCGAGTTCTACAAATTTCCGGCCACCACCTCTGCTCCCAAGCCATTGCAGCAGCCCTTCCCGCCGATCTGGGTGGCGGCGCGCGATCCGAATTCGCATGAATTCGCCGTCGCCAATGATTGCAACGTGCAGGTGACGCCGCTCTGGCAGGGCGATGACGAGGTGGAAACCCTGATGGGCCGCTTCAACGATGCCTGCGCCAAGAACCCGGAAAAACAGCGGCCGAAAATCATGCTGCTTCGCCACACCTATGTCGGTTCCGATGACGCCGATATCGCCCAGGCGGCGCATGAGATGAGCGTCTATTACAATTATTTCTTCGCCTGGTTCAAAAACGAAAAACCGATCCATCAGGGGCTGATCGAGCGTATTGCACCTGAAGACATCGCCGCCAACGCGATGCTTTCCACCGATGTCATGCGAAAGAACAATGTCATCGGTAATGCCGATGAGGTGATTAGCCGGCTTAAAGCTTACGAGGCTATGGGCTATGACGAATATTCCTTCTGGATCGATACGGGCATGAGCTTCGAGCGTAAGAAGGCCTCGCTGGAGCGCTTCCTTTCCGATGTCATGCCGGCTTTCGGGGAGTAA	MKFSLFVHMERLDASQDHKTLYEEFVTLCEIADRGGMHAIWTGEHHGMDFTIAPNPFVTIADLARRTRTARLGTGTVIAPFWHPIKLAGEAAMTDLICDGRLDIGIARGAYSFEYERLLPGLDAWGAGQRMRELIPAVKGVWAGDYAHDGEFYKFPATTSAPKPLQQPFPPIWVAARDPNSHEFAVANDCNVQVTPLWQGDDEVETLMGRFNDACAKNPEKQRPKIMLLRHTYVGSDDADIAQAAHEMSVYYNYFFAWFKNEKPIHQGLIERIAPEDIAANAMLSTDVMRKNNVIGNADEVISRLKAYEAMGYDEYSFWIDTGMSFERKKASLERFLSDVMPAFGE	PGPT0000910_110	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0000910-tgnB-K23464	NA	NA
BMS010_00810	939			putative flavin reductase	ATGACCGTTGCAACCCTTGATCCGCGCGCCCTGCGCGACGCATTCGGCGCCTTCGTGACGGGGGTGACGATCGTTACCACCCGCGACGAAGCCGGAAAGCCGGTGGGTTTCACCGCAAATTCCTTCACCTCCGTCTCGCTCGATCCGCCGCTGCTGTTGATCTGCCTTGCCCGCACCTCGCGCAATTTCGCGACGATGACGGGTGCGAAAAATTTCGCCGTCAATATTCTGTCGGAAGGCCAGAAGGACCTGTCCAATACGTTCGCCCGGCCGGTTGAAGATCGTTTTGCTGCCGCCACCTGGTCGGATGCGCCGGCAGACTCACCGGTCTTTGCCGATGTTGCAGCCTGGTTCGAATGTTCGATGCAGGAGGTTATCGAGGCCGGAGACCACGTCATTCTGCTCGGTCGTATCGACGCTTTCGAAAATAGCGGCCTGAACGGCCTCGGTTATGCGCGCGGCGGTTACTTCACGCCGATGCTGGCCGCCAAGGCGCTTTCGGCTGCGGCAGAGGGTGAAATCGCTGTCGGCGCGGTTCTTGAGCGGCGCGGCGGGATTTACCTCGTCGGGGAGGATGTGCTGTCGCTGCCCGGCTGCGTCGTGGCGGGCGGCGATCCGGTCGCGGCGCTGACGGCGCGGCTTGAAGAGCTGACCGGACTGACGGTCAGAACGGGCTTTCTATACTCGGTTTATGAAAACAAGGCGGATGGGCGTCAGCACATCGTCTACCACGCGCTGGCAGATGGGGACGATGCGCCGCACCATGGCCGTTTTCTGTTGCCCGGCGCGCTGGCTTCGGCAAAGTTCGACTCCGGCGCGACGGCGGACATTGTCAACCGGTTCGCGCTGGAAAGTTCAATCGGCAATTTCGGTGTCTATGTCGGTAACGAGACTGCCGGCAGGGTCCATCCCATCTCGATGAAGGCGGCAAACCCATGA	MTVATLDPRALRDAFGAFVTGVTIVTTRDEAGKPVGFTANSFTSVSLDPPLLLICLARTSRNFATMTGAKNFAVNILSEGQKDLSNTFARPVEDRFAAATWSDAPADSPVFADVAAWFECSMQEVIEAGDHVILLGRIDAFENSGLNGLGYARGGYFTPMLAAKALSAAAEGEIAVGAVLERRGGIYLVGEDVLSLPGCVVAGGDPVAALTARLEELTGLTVRTGFLYSVYENKADGRQHIVYHALADGDDAPHHGRFLLPGALASAKFDSGATADIVNRFALESSIGNFGVYVGNETAGRVHPISMKAANP	PGPT0000905_76	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0000905-tgnA-K23462	NA	NA
BMS010_00811	846	tgnD_1		(E)-2-((N-methylformamido)methylene)succinate hydrolase	ATGCAAAGGGTCGCCGACACGTCACGGGTCAACGGTGCAAAGACAGGCGCCGCCACGCTCCCCCGGAAAACGACCGGAGGCGGGGCCGCCTATTTCGAAGCCGGCGCGGGCGAGAATCTGATCCTCATCCACGGTGTTGGAATGCGGCTCGAAGCCTGGACGCCGCAGATCGAGGTGTTTTCGAGGACGCACCGCGTCATCGCGGTCGACATGCCCGGCCACGGCGGCAGCGAACGTCTTGCGGCCGCCAGCACTCTTGAGGATTTCGTCGGCTGGTTCGGCCGGTTTCTCGACGACATGCGGATAGAGCGCGCCAATGTCGCCGGGCATTCCATGGGTGCGCTGATTTCCGGCGGGGCAGCCGCGACGCTTGGAGATCGCATAGCGCGTGTCGGGTATCTGAACGGTGTTTATCGCCGCGACCCCGTTGCGAAGGCGGCGGTGCTCGCTCGCGCGGCGGCGATCCGCACCACGGGCGTGGACAAGGAGGGCCCCTTGCTGCGCTGGTTTGGCGATGATCTGAAAAGCCAGCACGCGCGGGAATTGACGCGAGGCTGGCTGGAAATGGTCGATCCGGAAGGTTACGCGGTCGCCTATACCGCCTTTGCGGGCGGGGACGAGACCTATGCCGACCGCTGGCCCTCGGTCACCTGCCCGGCGCTTTTTCTGACCGGTTCGGACGATCCGAACTCCACGCCCCTGATGGCGGAACAGATGGCGGCGATCACGCCGCGCGGTTATGCCCGCATCGTCGAGGCGCACCGGCATATGGTCAATCTGACCGCGCCCGAAACCGTCAATGCATTGATGGCCGAATGGCTGGCTTTAGAGGAGGAGCCGCAATGA	MQRVADTSRVNGAKTGAATLPRKTTGGGAAYFEAGAGENLILIHGVGMRLEAWTPQIEVFSRTHRVIAVDMPGHGGSERLAAASTLEDFVGWFGRFLDDMRIERANVAGHSMGALISGGAAATLGDRIARVGYLNGVYRRDPVAKAAVLARAAAIRTTGVDKEGPLLRWFGDDLKSQHARELTRGWLEMVDPEGYAVAYTAFAGGDETYADRWPSVTCPALFLTGSDDPNSTPLMAEQMAAITPRGYARIVEAHRHMVNLTAPETVNALMAEWLALEEEPQ	PGPT0000920_46	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0000920-tgnD-K23465	NA	NA
BMS010_00812	603			hypothetical protein	ATGTCCATCCAGATCCGCAAGACCCTGCTGCAGGTCGAAACGACGTTGATTGAGGGGGGCAAGGCTGCCGCAGCGCCGTTGAAGCTGTTCGCCGCCATTGCGGTCGTTAAAAATCCGTGGGCGGGCAAAGGTTTCGTCGCCGATCTGAAGCCGGAAATTCACGCAGGCGCGCCGGTGCTTGGCGAGCTGCTGACGAAGATGATCCTTGACGCTGTCGGTTCCGGTGAGGCGGTGGAGGCCTATGGCAAGGCGGCCGTCGTGGGGCTGGATGGTGAGATCGAACATGCTTCCGCGCTCATCCATACGCTGCGCTTCGGCAATCACTATCGTCAGGCGGTCGGCGCCAAATCCTATCTCGCTTTCTGCAATACGCGCGGCCCCGGCAATGCGCCGATCATGATCCCGCTGATGGACAAGAATGATGAGGGCCGCCGTTCGCATTATCTGACGATCCAGACTGCCATTCCCGATGCCCCGGCTGCGGACGAGATCGTGGTCGCGCTCGGTGCTTCCGTTGGCGGCCGGCCGCATCATCGCATCGGCGACCGTTATCAGGATCTGAAGGATCTCGGCCAGGATGTCGCCAATCCGGCCGGCGTTTGA	MSIQIRKTLLQVETTLIEGGKAAAAPLKLFAAIAVVKNPWAGKGFVADLKPEIHAGAPVLGELLTKMILDAVGSGEAVEAYGKAAVVGLDGEIEHASALIHTLRFGNHYRQAVGAKSYLAFCNTRGPGNAPIMIPLMDKNDEGRRSHYLTIQTAIPDAPAADEIVVALGASVGGRPHHRIGDRYQDLKDLGQDVANPAGV				NA	NA	NA	NA	NA
BMS010_00813	741	nagR_1	COG2188	HTH-type transcriptional repressor NagR	ATGCTGCCCGTCACCGAAAACGAGTTTCCTGTCTCGGGCGATCGCTCCTCCCTGCCGCTGTATGAGCGGGTGAAAGAACAGATCAAGGAAAAGATCGCCAGCGGTGAGTGGTTGACCAACCACAGGATACCCTCCGAAAACGAGATCGTCGACATGCTGGGTATCAGTCGCATGACGGCAAACCGCGCCCTGAGGGAGCTGGCAACCGAGGGGGTAATCGTTCGCGTGCAGGGGCGCGGGTCTTTTGTTGCCCCGAAAAAGCGAAGCGCCGGCATGATGGGCGTGCGCAACATCGCCGACGAGATCAAGGAGCGCGGTTCGACGCATCGGCCGAGCCTGATCCTTGCCCAGACGGAAGTTTGCGGTCCCGATCTCGCAACGGCGCTGGAGATCGCCGTGGGAGCGAAGGTTTTTCACTCCATCATCGTGCACCACGAAGACGATGTGCCGATCCAGCTCGAAGATCGCTTCGTCAATGCGGAGATCGCTCCCGATTATCTGATGCAGGATTTCAATACGCTCACTCCGAATGCCTATCTCACGGCGGCGGCACCGATTTCGCGCACCGAGCAATTCATCGAGGCGGCATCGCCCCAGCCCTGGGAATGCAAATTGATGGCCATCAGCCGAAACGAGCCCTGCCTTCTTGTGCGCCGCAGAACCTGGTCATCGAGCCGCGCCGTCACGTCCGTACGGCTGCTCTATCCGGGTTCCCGATATCGGCTTGAAAGTCAGGAATAG	MLPVTENEFPVSGDRSSLPLYERVKEQIKEKIASGEWLTNHRIPSENEIVDMLGISRMTANRALRELATEGVIVRVQGRGSFVAPKKRSAGMMGVRNIADEIKERGSTHRPSLILAQTEVCGPDLATALEIAVGAKVFHSIIVHHEDDVPIQLEDRFVNAEIAPDYLMQDFNTLTPNAYLTAAAPISRTEQFIEAASPQPWECKLMAISRNEPCLLVRRRTWSSSRAVTSVRLLYPGSRYRLESQE				NA	NA	NA	NA	NA
BMS010_00814	354			hypothetical protein	ATGGCAAGCGAAGACTCGATCTCCAGCGGCCGCAAGTCTCCCGCCGATAGTCGGGGCGATATTCGAATGCCCGCCCAGCGCAACGGCAGGAGCTGCCATACCGATGCCGAAGCTATGCTCGACGGCTCGGTCGCGCAATATGCGCTGAAAGACCGCCCTTGCCAGAACCCGCCAACCGCATACGCCTTCGACTCGGAATGGCCAATGCGCGGGAAGCATATGAATTTCTCAAAGTTGTATAGTGAACTTCCGACACGCCGCTCCAGGATGAACATCGAATTCCATATTGATTCGACGAGCGCCCGCCCGCCGATTTCGACGGGACATGAAATGCACCAACGACCGCCGGGCTGA	MASEDSISSGRKSPADSRGDIRMPAQRNGRSCHTDAEAMLDGSVAQYALKDRPCQNPPTAYAFDSEWPMRGKHMNFSKLYSELPTRRSRMNIEFHIDSTSARPPISTGHEMHQRPPG				NA	NA	NA	NA	NA
BMS010_00815	1038	ousX_1	COG2113	Glycine betaine-binding periplasmic protein OusX	ATGCTGAATTCAAAGCTGAAAATCGCGCTGGCCACCACCGCGCTCATCATGGGAGCCTATGCCGGGTCCGCGAGAGCGGAAGGCTATTGCGCCGCTGGAAAGACCATCACCTTCGCCGGCATCGATTGGGAAAGCGGCGCTTTCATCACCGAAGTCATGAAGGAAATCCTCTCCAAGGGCTATGATTGCAAGGTCGATTCCATTCCCGGCAACTCCGTGACGCTGGAACAGGCGACCGCCAATAACGATGTGCAGATCTTCGCTGAAGAATGGATCGGCCGCTCCGACGTCTGGAACAAGGCCGCGGAAGCCGGTCAGGTAACATCGGTCGGCAAGACCTTCGTCGGCGCCGCCGAAGGCTGGTTCGTGCCGGAATATCTGGTCAAGGGCGACCCGGCAAAAGGCATCGAAGCCAAGGCGCCGGACCTGAAGAGCGTCGACCAGCTTTCCGACCCGAAGATCGTCGAACTGTTCAAGGATCCGGAAGAGCCGACCAAGGGCCGCTTCCTCAATTGCCCCTCGGGCTGGACTTGCGAAGGCGTCAACACCGCCAAGCTGCAGGCCTACAAGCTGGAAGCAAACTATGTGAACTTCCGCCCCGGCACCGGCACCGCTCTCGACGCCGCAATTGCCGCCGCCTATCTCCAGGGCGAGCCGATGCTGTTCTATTACTGGAGCCCGACGGCAATCATGGGCAAATACAAGCTGGTCCAGCTGCAGGAGCCGGCCTATAGCGACGCCTGCTGGAAGGAACTGACGAGCGCCGATGGAAAGCGCGACGCCGGTTGCGCCTTCCCTTCCGTTGAGGTGGCCTATGGCGTGAACAGCACCTTTGCGAAGGAAGCGCCGGAAATTATCGCGATCCTTGAAAAGGCAACATTCCCGCTGGCGGAGATCAACTCCAGCCTTGCCTATATGACCGACAAGCAGGTCGACGCGACAGCCGCTGCCAAAACCTTCCTTCAGACCAAGGCCGATATCTGGGGCAGCTGGGTTTCTGCGGACGCCAAGGCGCGTATCGAAGCCGCCGTCAAGTAA	MLNSKLKIALATTALIMGAYAGSARAEGYCAAGKTITFAGIDWESGAFITEVMKEILSKGYDCKVDSIPGNSVTLEQATANNDVQIFAEEWIGRSDVWNKAAEAGQVTSVGKTFVGAAEGWFVPEYLVKGDPAKGIEAKAPDLKSVDQLSDPKIVELFKDPEEPTKGRFLNCPSGWTCEGVNTAKLQAYKLEANYVNFRPGTGTALDAAIAAAYLQGEPMLFYYWSPTAIMGKYKLVQLQEPAYSDACWKELTSADGKRDAGCAFPSVEVAYGVNSTFAKEAPEIIAILEKATFPLAEINSSLAYMTDKQVDATAAAKTFLQTKADIWGSWVSADAKARIEAAVK	PGPT0013640_471	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013640-gbuC|proX-K02002	NA	NA
BMS010_00816	858	ousW_2	COG4176	Glycine betaine/choline transport system permease protein OusW	ATGTTTCCTGAAGTTTTTCATATTTCCATCCGAGGCCCGATCAATGAGATCGTGCGTTCGCTGGTGGTGAATTACGGCTCCGTTTTCAAGGCGATCTCGCAGACGATCCTGCAGGCGATCCTCTTCGTGGAATGGGTGCTGCGCGGTCTGCCGTGGTGGGTCATTTTTCTAGTCTTCCTGGTGCTCGCCTGGTTCGCGGCGAAGAAGATTTCGCTCGTCATCATGGTGGCGGTGATGCTTTTCATCGTGGGCGCGCTCGGTCTCTGGGACCTGACGATGCAGACGCTGGCGCTGATGCTGATTGCCAGCCTCATCTCAATCGTCATCGGCGTGCCCATGGGCATCCTGCTTGCCAAAAGCGAATGGGCAAGGCGCATCACCCTTCCGGTGCTCGACGTCATGCAGACCATGCCGAGCTTCGTCTATCTCATTCCCGCCATCATGCTTTTCGGCCTCGGCAAGGTCCCGGCCGTGCTGGCCACCATCGTTTATGCCGTCCCGCCGTTGATCCGCCTGACCGATCTCGGCATCCGGCAGGTGGACCGCGAAGTGGTGGAGGCGGCAACTGCATTTGGCGGCAGCCCGCGACAAATCCTCTTCGGCGTCGAATTGCCGCTCGCCACGCCCACGATCATGGCCGGCATCAACCAGACGATCATGATGGCGCTCTCCATGGTCGTCGTCGCCTCGATGATCGGCGCGCGCGGCCTTGGTGAGCAGGTGCTGAACGGCATCCAGACGCTCGATGTCGGCAAGGGCCTCGAAGCGGGCCTCGGCATCGTTATTCTCGCAATCGTGCTTGATCGTATCACCCAGGGTTTTGGCCGATCCAGCCGGAAGGAAATGGGCAATGACTGA	MFPEVFHISIRGPINEIVRSLVVNYGSVFKAISQTILQAILFVEWVLRGLPWWVIFLVFLVLAWFAAKKISLVIMVAVMLFIVGALGLWDLTMQTLALMLIASLISIVIGVPMGILLAKSEWARRITLPVLDVMQTMPSFVYLIPAIMLFGLGKVPAVLATIVYAVPPLIRLTDLGIRQVDREVVEAATAFGGSPRQILFGVELPLATPTIMAGINQTIMMALSMVVVASMIGARGLGEQVLNGIQTLDVGKGLEAGLGIVILAIVLDRITQGFGRSSRKEMGND	PGPT0013635_1771	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013635-gbuB|proW-K02001	NA	NA
BMS010_00817	831	opuAA	COG4175	Glycine betaine transport ATP-binding protein OpuAA	ATGACTGATATCCATATCCGCAACGTGTCCAAGATCTTCGGCGGCAACTGGAAGGCTGCGCTCGCCATGGCGCAGCAGGGCGCGGAAAAGAGCGACATCCTGGCAAAGACGGGATGCAGCGTCGGGCTCGACAATGTCAGCCTCGATATAGCGGGCGGCCGCATTTTCGTGATCATGGGCCTCTCCGGTTCCGGTAAGTCGACGCTGGTGCGCCACATCAACCGCCTTATCGAACCGACAAGCGGCGAGATTCTTGTCGGAGACGACAATGTTCTTGCGCTGAAACCGAAGGACCTGCGCGACTTCCGCAACCGGCGCGTCAGCATGGTGTTCCAGAATTTCGGCCTGATGCCGCACCGCACCGTCTTGCAGAACGTCGTTTATGGCCAACGCGTGCGCGGGCTGACCAAGGCCGATGCACGGCCCATCGGCATGAAATGGATCGAGACCGTCGGCCTTTCTGGCTATGAGGACAAGTTTCCGCACCAGCTTTCCGGCGGTATGAAGCAGCGTGTCGGCCTCGCCCGCGCGCTCGCCGCCGATACCGACGTCATCCTGATGGACGAGGCCTTTTCGGCGCTCGACCCGCTGATCCGCGCCGACATGCAGGACCAGTTGCTGCAGCTCGAAAAGAACCTGCACAAGACCATTGTTTTCATCACCCACGATCTTGATGAGGCGCTCCGTATCGGCGCGCAGATCGCGATCCTGAAGGATGGCAAACTGGTGCAGGTGGGAACGCCGGACCAGATCCTCAACAGCCCCGCAAACGACTATGTCGCCCGTTTCGTGGAGCGCCGCACGGGTGCGGGAGAAGGCCAGCATGGCTGA	MTDIHIRNVSKIFGGNWKAALAMAQQGAEKSDILAKTGCSVGLDNVSLDIAGGRIFVIMGLSGSGKSTLVRHINRLIEPTSGEILVGDDNVLALKPKDLRDFRNRRVSMVFQNFGLMPHRTVLQNVVYGQRVRGLTKADARPIGMKWIETVGLSGYEDKFPHQLSGGMKQRVGLARALAADTDVILMDEAFSALDPLIRADMQDQLLQLEKNLHKTIVFITHDLDEALRIGAQIAILKDGKLVQVGTPDQILNSPANDYVARFVERRTGAGEGQHG	PGPT0013630_2471	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013630-gbuA|proV-K02000	NA	NA
BMS010_00818	1509	hutH_1		Histidine ammonia-lyase	ATGGCTGATACGATCACCATCGATCGTCCCCTTACCTGGCAAGAGATCGCCGCTGTTGCAAAGGGCGCCACGCTCTCCCTGTCGGATAAAGCGTGGCGGCGCATTGCCGAAGCCCGCGCCATCGTCGATGCACTCGTCGAAAAACGGGTGCGCGGTTACGGCATCAATACGGGTGTCGGCGCGCTCTGCGATGTGATCGTCGACATCACGCAACAGCAGGCCCTCTCCCGCAACATCCTGCTCAGCCACTCCTGCGGCGTCGGAGAACCGCTCGGACGCGAAGAAACCCGCGCCATCATGGCCGCCCAGATCAACAACTTCGCGCATGGTTATTCCGGCGTGCAGGTCAAAACGGTCGAAGCGCTGCTCGCCCTGCTGAATGGCGATATTCTTCCCGTTATTCCGTCAAAAGGCTCGGTGGGTTATCTCACTCATGCCGCGGCCATAGGGCTGGTGCTGATCGGCGAAGGCCGGGCCCGCCACGGCGGCGAACTCATCAGCGGCAGGCAGGGGCTCGAAAAGCTCGGCCTCGAACCCATGGTTCTGCAGGCGAAGGAGGGGCTGAGCCTCGTCAACGGCACACCCTGCGCCACCGGTCTCGCCAGCCTCGCGCTCGCCCGCACGACTTCGCTCCTTGGCTGGGCCGATGCGGCAGCGGCGATGAGCTATGAAAACCTTGGTGCGCAGGCCGATCCCTTCGCCGCAGGGCCGCTGGCACTGCGCAGCTCACCCGGCATCCAGACCGTCGGCGCAAACCTGCGCCAGCTTCTGGCGGCAAGCCCGCTTCTTGCCCGGTCGGCCGGATCGCGCACGCAGGATCCGCTCAGCCTGCGCGCCGTGCCGCAGGTGCACGGCGCCGTTCGCGACAGCGTCGCGCAGATCGCGGACGTCGTAGACCGCGAGCTCGCGAGTGTTACGGACAACCCGGTCGTCGGCGGTACGCTGCAAGCGCCCGAGGTCCATTCCCAGGCCCATGCCGTCGGTGCGGCGCTCGGGCTTGCCATGGATGGGCTGGCGACGGCCGCGGCCGAACTTGCGGCGATTTCCGAGCGGCGTATCGACCGGCTCGTCAACCCGCTTGTCAGCGGGCTGCCCGCCTTTCTGGCGGAAAGCGATGGTGTCTGTTCCGGTTTCATGATCATCCAGTACACGGCCGCAGCGCTTGCCGCAGAAAACCGCCGCCTCGCCGCCCCCGCCAGCCTCGATGGCGGCATCACCTCCGCCTTGCAGGAGGATATACTGACACATGCCACCGCCGCCGCCGACAAGACACTTTCGATTATCGGCAATCTGGAAACCATTCTCGCAATCGAGATCATGAGCGCCGCGCAAGCATACGACATGCAACCAGACGAAGCCGGCCGTGCGCCCGGCGCCGATACGCTCTACCGGCGTGTCCGGACGGCGGCGCCATTTTACCGTGACGACCAGCCGCTCAACAATTTGGTAGCTGCCGTTCGGGAAATGCTGCAAACCACGCTCGCGGGAATAGGTGCCGACGCAGGCTAG	MADTITIDRPLTWQEIAAVAKGATLSLSDKAWRRIAEARAIVDALVEKRVRGYGINTGVGALCDVIVDITQQQALSRNILLSHSCGVGEPLGREETRAIMAAQINNFAHGYSGVQVKTVEALLALLNGDILPVIPSKGSVGYLTHAAAIGLVLIGEGRARHGGELISGRQGLEKLGLEPMVLQAKEGLSLVNGTPCATGLASLALARTTSLLGWADAAAAMSYENLGAQADPFAAGPLALRSSPGIQTVGANLRQLLAASPLLARSAGSRTQDPLSLRAVPQVHGAVRDSVAQIADVVDRELASVTDNPVVGGTLQAPEVHSQAHAVGAALGLAMDGLATAAAELAAISERRIDRLVNPLVSGLPAFLAESDGVCSGFMIIQYTAAALAAENRRLAAPASLDGGITSALQEDILTHATAAADKTLSIIGNLETILAIEIMSAAQAYDMQPDEAGRAPGADTLYRRVRTAAPFYRDDQPLNNLVAAVREMLQTTLAGIGADAG	PGPT0020230_3355	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020230-hutH-K01745	NA	NA
BMS010_00819	699	rspR_1	COG1802	HTH-type transcriptional repressor RspR	ATGACAGATGCTTCGCACGGAACTGCCATTCGCGTTGAGCGCCCGACAAAGACGCTGAGGGAACTCGCTCTCGACAAGGTCCGTGACGCCATCGTGAACGGTTATTTCCGCCCGGGCGACCGTCTGGTCGAGCGCGATCTCTGCGCCCAGCTCGGTGTTTCCCGCACCATCGTTCGTGAGGTCCTGCGGCACCTGGAATCCGAGGGGCTGGTGGCGAATTTGCCGAACAAGGGCCCGATGGTCGCGATGCTCGATCTCGATGAGGCGAAGCAGATTTATGAAATTCGCGGTGCGCTGGAAGGAATGGCGGCGCGCCTTTGTGCGGAACGTCGCGATCCTGCCATCGTGGAAGCGCTTGAAGCGTCGCTCAGCCATATCCGCGAAAGCTATGTCGAAAGGGATATGCCGGGCGTTCTGGCGCATACCTCGTCCTTTTATCAGACGCTGTTCAGCAAGATCGATCGTCATGTCGCCTGGGGCGTCGTCAACCTGCTGACGGTGCGGATCAACCATCTTCGTTCGATGACGATCAAGACGAAAAGCCGCGATACCGAAGGTCCGGCGCAAATGGAAAAGATCGTCGAGGCCATCCGGCAGGGGGATGGAGACGCCGCTTACAAGGCGGCTCTGGACCATGTCGCGAGCGCAAGCGCGATTGCGGAAGCTGTTCTCATCGCCCAGAAGACCGGCAAAGAGTGA	MTDASHGTAIRVERPTKTLRELALDKVRDAIVNGYFRPGDRLVERDLCAQLGVSRTIVREVLRHLESEGLVANLPNKGPMVAMLDLDEAKQIYEIRGALEGMAARLCAERRDPAIVEALEASLSHIRESYVERDMPGVLAHTSSFYQTLFSKIDRHVAWGVVNLLTVRINHLRSMTIKTKSRDTEGPAQMEKIVEAIRQGDGDAAYKAALDHVASASAIAEAVLIAQKTGKE	PGPT0000900_124	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0000900-tgnR-K23466	NA	NA
BMS010_00820	885	purU_1	COG0788	Formyltetrahydrofolate deformylase	ATGACGAACTTCGTCCTGACCGTGACATGCAAATCCACCCGCGGCATCGTCGCCGCCCTTTCAGGCTTTCTCGCTGAGAAGGGGTGCAACATCGTCGACAGTTCGCAATTCGACGATCTCGGCACCGGTCGTTTTTTCATACGTGTGGGTTTCATTTCCGAGGAGGGTGCGACACGCGACGCCTTGATGGCCGGGCTTGCTCCGATCTCGGAAAAATTCGGCATGGAGGTGGCGCTGCACGACCAGGCAGAGCGGATGAAGGTTCTTTTGATGGTGTCGCGCTTCGGCCATTGCCTCAATGACCTGCTCTACCGCTGGCGCATCGGGGCGCTGCCGATCGATATTGTCGGCGTCGTCTCCAACCATTTCGATTATCAGAAGGTCGTGGTCAATCACGACATTCCGTTCCACCACATTCCGGTGACGAAAGAGAACAAGCCGCAGGCCGAAGCCCGGATCATGGAGATCGTGGAAAGTTCGGGTACGGAACTCATCGTGCTGGCGCGTTACATGCAGGTGCTTTCCGACAGGATGTGCGAGGCGATGTCGGGCAGGATCATCAATATCCACCACTCCTTCCTGCCGTCCTTCAAGGGGGCCAACCCTTACAAGCAGGCCTATCAGCGCGGTGTGAAGCTGATCGGCGCGACGGCGCATTATGTGACTGCCGATCTGGATGAGGGACCGATCATCGAGCAGGATACCGTGCGCATCACCCATGCCCAGTCGGCCGAGGATTATGTGTCGCTTGGCCGCGACGTGGAGGCGCAGGTGCTGGCGCGTGCCATACACGCCCATATTCACCGTCGCGTATTCCTGAACGGCAGCCGAACCGTTGTGTTTCCCCCAGGTCCCGGCTCTTACGCTTCGGAAAGAATGGGATGA	MTNFVLTVTCKSTRGIVAALSGFLAEKGCNIVDSSQFDDLGTGRFFIRVGFISEEGATRDALMAGLAPISEKFGMEVALHDQAERMKVLLMVSRFGHCLNDLLYRWRIGALPIDIVGVVSNHFDYQKVVVNHDIPFHHIPVTKENKPQAEARIMEIVESSGTELIVLARYMQVLSDRMCEAMSGRIINIHHSFLPSFKGANPYKQAYQRGVKLIGATAHYVTADLDEGPIIEQDTVRITHAQSAEDYVSLGRDVEAQVLARAIHAHIHRRVFLNGSRTVVFPPGPGSYASERMG	PGPT0008155_1052	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008155-purU-K01433	NA	NA
BMS010_00821	1308	glnT	COG0174	Glutamine synthetase	GTGACACTGGACCTCTCCAAATTTGCTGCCGAAAAGGGCATCAAATATTTCATGATCAGTTATACCGATCTCTTCGGCGGCCAGCGCGCCAAGCTGGTTCCTGCAGAAGCGATTGCCGATATGCAGAAGGATGGCGCAGGTTTTGCGGGCTTTGCCACCTGGTTCGATCTGACGCCCGCCCATCCCGATCTTTTTGCCGTGCCCGACGCCTCCTCGGTCATCCAGCTTCCGTGGAAAAAGGATGTCGCCTGGGTCGCCGCCGATTGCGTGATGGAAGGCCAGCCGGTGGAGCAGGCGCCGCGCGTGGTGCTGAAAAAGCTCATCGCTGAGGCGGCGAGCGAAGGGCTCAGGGTCAAGACGGGCGTGGAGCCGGAATTTTTCCTGATTTCGCCGGATGGTGCGAAAATCTCCGACGAATATGACACGGCGGAAAAGCCCTGCTACGACCAGCAGGCGGTGATGCGCCGGTACGATGTGATCGCCGAGATTTGCGATTACATGCTGGAGCTGGGCTGGAAGCCCTACCAGAACGACCATGAGGACGCGAACGGCCAGTTCGAGATGAACTGGGAATATGACGATGCGCTGCAGACCGCAGACAAACATTCCTTCTTCAAATTCATGGTCAAATCCGTCGCCGAAAAGCACGGGCTGCGCGCCACCTTCATGCCGAAGCCGTTCAAGGGCCTGACCGGCAATGGCTGCCATGCCCATATTTCGGTCTGGGACCTCGACGGCAAGGTCAACGCCTTTGCCGACAGGGAAATGCCGTTCGGTCTGTCGGCCAAGGGCAAGACGTTTCTCGGCGGCATCATGAAACATGCGTCGGCGCTTGCGGCCGTCACCAATCCGACGGTCAATTCCTATAAACGTATCAACGCGCCGCGCACCATTTCCGGCGCGACCTGGGCGCCGAATACGGTGACCTGGACCGGCAATAACCGCACCCATATGGTGCGCGTGCCCGGGCCGGGGCGGTTCGAACTGCGCCTGCCGGATGGCGCCGTGAACCCCTATCTGCTGCAGGCCATCATCATCGCCGCCGGCCTTTCCGGTGTCCGCTCCAAGGCCGATCCCGGTCCGCACTACGATATCGATATGTATCGCGAGGGCCACAAGGTCACGGACGCACCGAAGCTGCCGCTCAACCTTCTCGATGCGCTGCGCGAATATGAGAAGGATGCGGAATTGCAGCAGGCGCTCGGTACTGAATTCTCGAAGGCCTATCTGAAGCTCAAGCAGGGCGAGTGGAACAGCTATTGCTCGCAATTCACCGCCTGGGAGCATCAGACCACCCTCGACGTCTGA	MTLDLSKFAAEKGIKYFMISYTDLFGGQRAKLVPAEAIADMQKDGAGFAGFATWFDLTPAHPDLFAVPDASSVIQLPWKKDVAWVAADCVMEGQPVEQAPRVVLKKLIAEAASEGLRVKTGVEPEFFLISPDGAKISDEYDTAEKPCYDQQAVMRRYDVIAEICDYMLELGWKPYQNDHEDANGQFEMNWEYDDALQTADKHSFFKFMVKSVAEKHGLRATFMPKPFKGLTGNGCHAHISVWDLDGKVNAFADREMPFGLSAKGKTFLGGIMKHASALAAVTNPTVNSYKRINAPRTISGATWAPNTVTWTGNNRTHMVRVPGPGRFELRLPDGAVNPYLLQAIIIAAGLSGVRSKADPGPHYDIDMYREGHKVTDAPKLPLNLLDALREYEKDAELQQALGTEFSKAYLKLKQGEWNSYCSQFTAWEHQTTLDV	PGPT0000645_9269	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMATE_DEGRADATION|CONVERSION,PGPT0000645-glnA-K01915	NA	NA
BMS010_00822	1329	fni		Isopentenyl-diphosphate delta-isomerase	ATGAGCTATCACAACCCCTTCACCCCGCCGCGCAAATCCGCAACTTTCGATGACCATACACTGGCGGAAATCCGCCGCGCGGCTGCGACCGGCATCTATGATATTCGCGGCGCGGGCACCAAGCGCAAGGTGCCGCATTTCGACGATCTCCTGTTTCTCGGCGCGTCCATCTCGCGTTATCCGCTCGAAGGTTATCGCGAGAAATGCGATACGACAGTTACGCTCGGTACGCGCTTCGCCAGGAAGCCGATCACGTTGAAAACGCCGATCACCATTGCCGGCATGAGCTTCGGTGCTCTGTCAGGCAACGCCAAGGAAGCGCTTGGCCGGGGCGCGACAATCGCCGGCACCTCAACCACGACCGGCGATGGCGGCATGACGGATGAGGAGCGCGGCCACAGCCAGACGCTGGTTTACCAGTACCTGCCCTCGCGTTACGGCATGAACCCAAAGGATCTGCGCCGTGCGGACGCCATCGAGGTCGTCGTCGGCCAGGGCGCGAAACCGGGCGGCGGCGGCATGTTGCTCGGCCAGAAGATTTCCGATCGCGTCGCCAATATGCGCAACCTGCCGAAGGGCATCGACCAGCGCTCCGCCTGCCGTCACCCTGATTGGACCGGCCCGGACGATCTGGAAATCAAGATCCTCGAACTGCGCGAAATTACTGACTGGGAAAAGCCGATCTATATCAAGGTCGGCGGCGCGCGGCCCTATTACGACACGGCGCTGGCGGTGAAGGCCGGTGCGGATGTGGTGGTGCTGGACGGTATGCAGGGCGGCACGGCCGCCACGCAGGATGTCTTCATCGAAAATGTCGGCATGCCCACGCTTGCCTGCATTCGCCCTGCCGTGCAGGCGCTTCAGGATCTCGGCATGCACCGCAAGGTGCAGCTCATCGTCTCCGGCGGCATCCGTTCGGGTGCTGATGTTGCAAAGGCGCTGGCGTTGGGCGCGGATGCGGTCGCCATCGGAACGGCGGCGCTGGTGGCGCTTGGCGACAATGATCCCAAGTGGGAAGACGAATACCAGAAACTCGGCACCACGGCCGGCGCTTACGATGACTGGCACGAGGGCAAAGACCCCGCCGGCATCACCACGCAGGATCCGGAGCTTGCCGCTCGCCTCGATCCCGTCGCCGCCGGCCGCCGTCTTGCCAATTATCTGAAGGTCATGACGCTCGAGGCGCAGACCATCGCGCGTGCCTGCGGCAAGAACCATCTCCACAATCTGGAGCCGGAAGATTTGGTGGCGCTGACGATGGAGGCGGCCGCCATGGCGCAGGTTCCGCTGGCGGGAACCAACTGGTTCCCGGGCAAAGGCAGCTTTTAA	MSYHNPFTPPRKSATFDDHTLAEIRRAAATGIYDIRGAGTKRKVPHFDDLLFLGASISRYPLEGYREKCDTTVTLGTRFARKPITLKTPITIAGMSFGALSGNAKEALGRGATIAGTSTTTGDGGMTDEERGHSQTLVYQYLPSRYGMNPKDLRRADAIEVVVGQGAKPGGGGMLLGQKISDRVANMRNLPKGIDQRSACRHPDWTGPDDLEIKILELREITDWEKPIYIKVGGARPYYDTALAVKAGADVVVLDGMQGGTAATQDVFIENVGMPTLACIRPAVQALQDLGMHRKVQLIVSGGIRSGADVAKALALGADAVAIGTAALVALGDNDPKWEDEYQKLGTTAGAYDDWHEGKDPAGITTQDPELAARLDPVAAGRRLANYLKVMTLEAQTIARACGKNHLHNLEPEDLVALTMEAAAMAQVPLAGTNWFPGKGSF				NA	NA	NA	NA	NA
BMS010_00823	687			hypothetical protein	ATGCCAGTTTTCGATCTCTCCCACACGCCGCTGCGTGAACTCAACAAGGCGCTCCACGGTCTTTCCTCGGGCGCAAACGACACCGAATTCGAGGTCGTCAATCCGCGCGGCCACCATGCCGTGGCGGTTGGCATCGACAGCCCCGTCACCGTCGATGTGCATGGTTCGGTCGGTTATTATTGCGCCGGCATGAATGATGGCGGCACCGTCACCGTGCACGGCTCGGCCGGGCCGGGTGTTGCTGAGAACATGATGTCCGGCACGGTCGTCATCGAGGGCGACGCCTCGCAATATGCCGGCGCCACCGGCCGCGGCGGGCTTCTGGTCATCAAGGGCAATGCCGCCTCCCGCTGCGGCATTTCCATGAAGGGCATCGATATCGTCGTGAAGGGCAATATCGGCCACATGTCGGCCTTCATGGGCCAGTCCGGCCACCTCGTCGTGTGCGGCGATGCGGGCGATGCGCTTGGCGATTCCCTTTATGAGGCGAAGCTTTTCGTGCGCGGTTCGGTGAAGAGCCTGGGTGCCGATTGCATCGAGAAGGAGATGCGGCCCGAACATCTCGAAAAGCTCGCTGAACTTCTCGACAAAGCCGGCGTCACGGATGTCAGCCCTGGCGAGTTCAAGCGCTACGGCTCGGCACGCACGCTCTACAATTTCAACATCGACAACGCCGACGCGTATTGA	MPVFDLSHTPLRELNKALHGLSSGANDTEFEVVNPRGHHAVAVGIDSPVTVDVHGSVGYYCAGMNDGGTVTVHGSAGPGVAENMMSGTVVIEGDASQYAGATGRGGLLVIKGNAASRCGISMKGIDIVVKGNIGHMSAFMGQSGHLVVCGDAGDALGDSLYEAKLFVRGSVKSLGADCIEKEMRPEHLEKLAELLDKAGVTDVSPGEFKRYGSARTLYNFNIDNADAY				NA	NA	NA	NA	NA
BMS010_00824	906	purF_2		Amidophosphoribosyltransferase	ATGTGCGGCATTGTTGGACTATTCCTGAAAGACAAAAGCCTTGAGCCGCAGCTGGGTGCGCTGCTTTCGGACATGCTCGTCACCATGACCGATCGCGGCCCGGATTCGGCCGGTATCGCGATCTACGGAAGCGCTGCCGATGGCCGCGCGAAAGTGACGATCCAGTCGGCCGATCCGACCGCCGATTTTTCCGGCCTCGCCGAAGCGCTGAAGGAAAGCGGCGTCGATGCCGTGGTCACGGTGAAAAGCACTCATGCTGTTCTCGATATTCCCGCCGAAAAACTGGATGGTATCCGTCCGGTTCTTTCCGCAATCCGCCCGAATGTGCGTGTGATGGGTTCCGGCGACAGCGTCGAAATCTACAAGGAAACCGGTCTTCCGAAGGATGTCGTCACCCGTTTTGACGTGCGCTCCATGGCGGGCACCCATGGCATCGGCCACACCCGCATGGCGACGGAATCGGCGGTGACGACGCTTGGCGCGCATCCCTTCTCCACCGGCGCAGACCAGTGCCTGGTGCATAATGGCTCGCTTTCCAACCATAATAATCTGCGCCGCGAACTGGTGAGCGAGGGCATGGTCTTCGAGACCCAGAACGACTCGGAAGTCGCCGCCGCCTATCTCACCGCGGAAATGGCCAAGGGCAAGGATTTGGGCGAGGCGCTGACCGGCGCGCTCGATGATCTCGATGGTTTCTTCACTTTCGTCGTCGGCACCAAATCCGGTTTCGGGGTGGTGCGTGATCCCATCGCCTGCAAGCCTGCTGTCATGGCCGAGACCGACCAATATGTCGCTTTCGGCTCTGAGTATCGCGCTCTGGTCAATCTGCCCGGCATTGAAAATGCCCGCGTCTGGGAGCCGGAACCGGCGACCGTCTATTTCTGGGACCATGAAAAGGCCGCCTGA	MCGIVGLFLKDKSLEPQLGALLSDMLVTMTDRGPDSAGIAIYGSAADGRAKVTIQSADPTADFSGLAEALKESGVDAVVTVKSTHAVLDIPAEKLDGIRPVLSAIRPNVRVMGSGDSVEIYKETGLPKDVVTRFDVRSMAGTHGIGHTRMATESAVTTLGAHPFSTGADQCLVHNGSLSNHNNLRRELVSEGMVFETQNDSEVAAAYLTAEMAKGKDLGEALTGALDDLDGFFTFVVGTKSGFGVVRDPIACKPAVMAETDQYVAFGSEYRALVNLPGIENARVWEPEPATVYFWDHEKAA				NA	NA	NA	NA	NA
BMS010_00825	666			hypothetical protein	ATGGCGAAGGATACCACCAAAACCGAAACTGCGCAGTTCCTGTCGCAGGATCCGCATGCCATCCGCGAGCCAAGGGTCAACAATCTGGAAATGGCGATTGGCCATGAGGTGCGCGCCTATCGCAAGAAACTCGGTATCACGGTCACCGATCTTGCATCGGCCACCGGCGTTTCCGTGGGCATGCTTTCCAAGATCGAAAACGGCAATATCTCGCCGTCGCTCACCACGCTGCAGACGCTCTCAAAGGCGCTGGGCGTGCCGATCACGGCCTTCTTTCGCGGTTTTGAGGAACCGCGCAGCGCCACCTTCGTCAAGGCGGGGCAGGGCGTGAATATTGAGCGCAGGGGCACTCGCGCCGGTCATCAATACAGCCTGCTCGGCCATATCGACAACAATACCAGCGGCGTCACCGTCGAGCCCTATCTCATTACGCTGACCAAGGATTCGGACGTGTTCCCGACCTTCCAGCATGAGGGAATGGAGTTTCTCTACATGCTGGAAGGCGAGGTGGTTTACCGCCACGGCGAGCAGCTTTTCACCATGCAGGCCGGCGACAGCCTGTTTTTCGACGCCGATGCGCCGCATGGGCCGGAGGAATTGGTGAAGCTTCCCGCCCGTTATCTGTCGATCATTTCCTATCCGCAAAGGCGACTGGGCAATAATTGA	MAKDTTKTETAQFLSQDPHAIREPRVNNLEMAIGHEVRAYRKKLGITVTDLASATGVSVGMLSKIENGNISPSLTTLQTLSKALGVPITAFFRGFEEPRSATFVKAGQGVNIERRGTRAGHQYSLLGHIDNNTSGVTVEPYLITLTKDSDVFPTFQHEGMEFLYMLEGEVVYRHGEQLFTMQAGDSLFFDADAPHGPEELVKLPARYLSIISYPQRRLGNN				NA	NA	NA	NA	NA
BMS010_00826	975	cdhR_1	COG4977	HTH-type transcriptional regulator CdhR	ATGACGACCATCGAGCAGAAGAATGTCCAGCGCATTGGTTTCATCCTGGTTCCGAATTTCGCGCTGATGTCTTACGCCTCGGCGGCGGAGCCATTGCGCGCCGCCAATCTGATCGCCGGAACCGATCTTTACGATGTGGTTCCGCTTTCTTTCGATGGCGAGGCCGTCAGAAGTTCTTCCGGCATCACTGTCGGCTGCGAGGCACTCGCCACCGCAGGCGAGAGATGCCACACGATCTTCGTCTGCGCAGGGGGCGGGCCGCAGGACTGGATCGTTGCGGAAAATTCCTACGGCACGTTAAGGCGGCTGGCGCGGCAGGGTGTCCGGATCGGGGGCATTTCCAGCGGCGCTCATGTGCTGGCGGCGGCGGGATTGCTGGAAAACCGCGATTTCACCATTCACTGGGAGCATGCGCCGGTGCTGAAAGAGGCCTTCGACCATCTGACGCCCCGGCAGGCGCGGTTTGTTTTCGACGGAGACCGCATCACCTGCGCCGGCGGCGTCGCGCCCCTCGACATGATGCATGCGATGATTTCGCAGAGAATGGGCGCTCATTTCGCACGGCGTGTCAGCGACTGGTATCTGCACACGGCCGTGGCCGAACCCGGCGCGCCGCAAAGGGGTTCCGCCGCCGAGCGCCATGGCACCAACCATCCGGCCCTGCTGGCCGTGCTGGAAAAAATGGAAACGACCATTGAAAGCCCGCTCGACCGGCAGACCATGGCGAAACTGGCGGGAACCAGCGCGCGCCACCTCGACCGGCTTTTCGCAACCCATCTGAAAACGACATTTCTGGAAACATACCGCGCGATCCGTCTCGATCACGCCCGGCGGCTGCTAGAGCAAAGCCCGCTTTCCATTGCCGAAGTGGCCTTCGCCACCGGCTTCTCAAGCGCCGGGCATTTTTCGGGAAGCTTCAAGGCCCGGTTCGGCCATACCCCAAATACAATGCGGCAAAGATTTCCTCCGAATTAA	MTTIEQKNVQRIGFILVPNFALMSYASAAEPLRAANLIAGTDLYDVVPLSFDGEAVRSSSGITVGCEALATAGERCHTIFVCAGGGPQDWIVAENSYGTLRRLARQGVRIGGISSGAHVLAAAGLLENRDFTIHWEHAPVLKEAFDHLTPRQARFVFDGDRITCAGGVAPLDMMHAMISQRMGAHFARRVSDWYLHTAVAEPGAPQRGSAAERHGTNHPALLAVLEKMETTIESPLDRQTMAKLAGTSARHLDRLFATHLKTTFLETYRAIRLDHARRLLEQSPLSIAEVAFATGFSSAGHFSGSFKARFGHTPNTMRQRFPPN	PGPT0021945_172	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARNITHINE_USAGE	PLANT_DERIVED_CARNITHINE_DEGRADATION,PGPT0021945-cdhR-K17736	NA	NA
BMS010_00827	1251	soxB_1		Sarcosine oxidase subunit beta	ATGCGCTATTCCGCCTTTTCCATTTTCAAGAACGGCCTTTTCGGCAACAAGGCGTGGAAACCCGCCTGGCGGGAGGTGTCTCCGAAACCGCATTATGACGTCATCATCGTTGGCGGCGGCGGACACGGGCTGGCGACGGCCTATTATCTTGCGAAAGAATTCGGCGTCACCAATGTCGCGGTGCTGGAAAAAAACTACATCGGCTCCGGTAATGTCGGCCGCAACACCACGATCATTCGCTCCAATTATCTGCTGCCGGGTAACAATCCCTTCTACGAGCTTTCGATGAAGCTGTGGGAAGGGCTGGAGCAGGATTTCAATTTCAACGCCATGGTTTCCCAGCGCGGCGTGCTGAACCTCTATCATTCGGACGCACAGCGCGATGCCTATACAAGGCGCGGCAACGCCATGCGGCTGCACGGCGTAGATGCCGAATTGCTGGATCGCGCCGCAGTGAAGGCCATGCTGCCGTTTCTCGATTTCGACAATGCCCGCTTTCCGGTGCAGGGCGGCCTGCTGCAAAGACGCGGCGGCACTGTGCGTCACGATGCCGTCGCCTGGGGTTATGCGCGCGGCGCAGACAGCCGCGGTGTCGATATCATTCAGGGCTGCGAGGTAACCGGCATTCGCCGCGAAAACGGGAGGGTCGTGGGTGTGGAGACCGCCAAGGGCTTCATCGGCTGCGGCAAGCTGGCGCTCGCGGCAGCCGGCAATTCCTCGCAGGTGGCCGCCATGGCCGGGCTGAAACTGCCGATCGAAAGCCATGTGCTGCAGGCTTTCGTGTCTGAAGGGCTGAAGCCCTTCATCGATGGCGTCGTCACCTTCGGGGCCGGCCATTTTTACGTCTCGCAATCGGACAAGGGCGGCCTCGTCTTCGGCGGCGATATAGACGGCTACAATTCCTATGCCCAGCGCGGCAATCTGGCGACGGTCGAACATGTCGCGGAGGCAGGCAAGGCGATGATACCGGCGCTCTCCCGCGTCCGGGTGCTGCGGTCCTGGGGCGGCATCATGGATATGTCGATGGATGGTTCGCCGATCATCGATCAGACCCCTATCGACAATCTCTATCTCAATGCCGGCTGGTGTTATGGCGGCTTCAAGGCGACGCCCGCTTCCGGTTTCTGCTTCGCCCATCTTCTGGCGCGGGGTGCACCGCAGGAAACGGCAACGGCCTTCCGGCTGGATCGCTTTCGGCGAGGTTATCTCATCGATGAAAAGGGCCAGGGCGCCCAGCCTAACCTTCACTAA	MRYSAFSIFKNGLFGNKAWKPAWREVSPKPHYDVIIVGGGGHGLATAYYLAKEFGVTNVAVLEKNYIGSGNVGRNTTIIRSNYLLPGNNPFYELSMKLWEGLEQDFNFNAMVSQRGVLNLYHSDAQRDAYTRRGNAMRLHGVDAELLDRAAVKAMLPFLDFDNARFPVQGGLLQRRGGTVRHDAVAWGYARGADSRGVDIIQGCEVTGIRRENGRVVGVETAKGFIGCGKLALAAAGNSSQVAAMAGLKLPIESHVLQAFVSEGLKPFIDGVVTFGAGHFYVSQSDKGGLVFGGDIDGYNSYAQRGNLATVEHVAEAGKAMIPALSRVRVLRSWGGIMDMSMDGSPIIDQTPIDNLYLNAGWCYGGFKATPASGFCFAHLLARGAPQETATAFRLDRFRRGYLIDEKGQGAQPNLH	PGPT0013510_279	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013510-soxB_-K00303	NA	NA
BMS010_00828	276	soxD_1		Sarcosine oxidase subunit delta	ATGGCAAGTCTCGTGCCCTGCCCGCATTGCGGGCCAAGACCCAGGGAAGAATTCACCATCAAGGGCGCAGCCCTTCAAAGGCCCGCCGCCGATGCCGGCGCGGAGGAATGGTTCGATTATGTCTATCTGCGCGACAATCCGCGCGGAGCATATGAGGAATATTGGCATCACACATCCGGCTGCCGCCGCTGGCTGGTCGTCGCCCGCGATACCGCCACCCATGAGATATCCGCCTGCCGCGACGCCGCCGACAAGACGAAAGTGACAAACGCATGA	MASLVPCPHCGPRPREEFTIKGAALQRPAADAGAEEWFDYVYLRDNPRGAYEEYWHHTSGCRRWLVVARDTATHEISACRDAADKTKVTNA	PGPT0013520_631	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013520-soxD-K00304	NA	NA
BMS010_00829	2964	soxA_1		Sarcosine oxidase subunit alpha	ATGAGTGCCAACCGCCTGAAGACCGGCGGTCTGATCGACCGTTCCAAACCGCTTTCCTTCACCTTCGACGGCAAGCCGATGTCAGGCTTTGAGGGTGACAGCCTCGCCTCCGCCCTGCTCGCCAACGGCCAGAAACTCGTAGGTCGCAGTTTCAAATACCACCGCCCGCGCGGTATATTGACGGCGGGTGCAGCCGAGCCGAACGCGCTGATGACCATTGGCCGCGGCGGGCGCACGGAGCCGAACACCCGCGCCACCATGCAGGAGCTTTATGCCGGGCTGGAAGCCAACAGCCAGAACCGCTGGCCCTCTCTCGATTTCGATATCGGCGCGCTGACCGGCCTTCTGTCTCCCTTCCTCGGGGCAGGGTTCTACTACAAGACTTTCATGTGGCCTGCTGCCTTCTGGGAAAAGGTCTACGAGCCCTTCATCCGCAAAGCCGCCGGCCTCGGCAAGGCGAGCTACGAGGCGGATCCGGATGCCTATGACAAATGCTGGGCGCATTGCGACCTGCTGGTGATCGGCTCCGGCGCGGCGGGTCTGGCGGCAGCGCTTGCCGCAGGACGCGCCGGCGCGCGCGTCATCATTGTCGATGAACATTCCGTGGCGGGCGGTGGGCTTCTTTCCGAAACGGCAGCCATCGGCGGCAAGAGCGCTCCGGATTTCGCAGCGCAATGCGTTGCCGAGCTCGAAACCCTGCCGAATGTGACGGTGCTGACGCGAACCACGGCTTTCGGCTGGTATGACGGCAATGTCTTCGGCGCGGTGGAGCGGGTGCAGAAACATCTGCCAGATCCGAAAGCCCATGTGCCCGTGGAGCGCCTGTGGCGCATCGTCGCCAAGCGGGCGCTGCTTGCCACTGGCGCGGAAGAACGACCGCTGGTCTTCGGCGGCAACGATGTTCCCGGCGTGATGATGGCGGGCGCCATGCGCAGCTATCTCAATCGATATGCCGTCAGCCCCGGCACGGCGACGGCAATTTTCACCACCAATGACAGCGGTTATGCGCTCGCCCGCGATCTGGAGGCGCAGGGCGTCGCTCTGGCCGCCATCATCGACAGCCGTGAGCAGGGCAATCCGGGCTACGAAGGCAAAGCGCGCGTCATCAAAGGTGGTGTCGTCTCCAATGCCAAGGGCGGCAAGTCGCTTTCCGCCATCGAGATTTATGCGAATGGCCAGGCTGAGAACCTGAATGTCGATGCGCTGGCCATGTCGGGCGGCTTCAGCCCCATCATCCATCTCGCCTGCCATCGCGGCGGCAAGCCGGTCTGGTCGGAAGACGATGCCGCTTTCCTGGCGCCCGGCAATCTCAAGGGGCTGGAACTCGCCGGCGCGGTTTCCGCAATAAACGGTATCGCCGCCTGCCTTGAGGATGGCGCGCGGAAGGGCGCGGCCTTGGCGCAAGAGCTCGGCTTTGCATCAGCTGCACCGACATTCGGCGCGGTGGAAAACGATATCGTAGCCCCGCCTGCAAAACCGCTATGGTCCATCCCCGGCATCAAGGCGAAAGCCTTTGTCGATTATCAGAACGACGTTCACCGCAAGGATCTCGGCCTCGCCATCCGTGAAGGTTATGGCCATGTCGAACTCGCCAAACGCTACACCACGAACGGCATGGCGACGGATCAGGGCAAGCTTTCGAATGTCAACGCCATCGGGCTGTTGGCCGAAGCGCGCGGCGTCTCCCCGGCGGATGTCGGCACCACGACGTTCCGGCCGTTTTATACGCCCGTCTCCTTCGGCGCGTTGACTGGGGCCTATCATGGCCAGCATTTCCAACCGGTGCGCAAATCGCCGCTGCATGGTTGGGCCGAGAAAAACGGGGCCGTCTTCGTCGAAACCGGGCTTTGGTATCGCTCCTCCTGGTTTCCGCGCGAAGGCGAAAGGGGCTGGCGGGAAAGCGTCGACCGTGAGGTTCTGAATGTGCGCAAGTATGCCGGGCTCTGCGATGTGTCGATGCTCGGCAAGATCGAGATTTGCGGCCGCGACGCCGCCGAATTCCTGAACCGGGTTTATTGCAACGCTTTCCTCAAACTGCCGGTCGGCAAGGCGCGTTATGGCCTGATGCTGCGTGAGGACGGCATGATCTACGACGACGGCACCACCAGCCGGCTGGAGGAAAACCGCTTCTTCATGACGACCACCACCGCCTATGCGGCGGGCGTCATGAACCATCTTGAATTCTGCGCGCAGGCGCTCTGGCCGGATCTCGACGTGCGGCTTGCCTCCGTCACCGATCAATGGGCGCAGATGGCGATTGCCGGGCCGAAGGCGCGCGCCATTCTTCAGAGGATCGTCGATGAAGATATTTCCGACGAGGCCTTTCCCTTCGTTGCAGCCCGGGAAGTCTCCTTGTTTGGCGGGCAACTGCATGGACGCCTGTTCCGGATTTCCTTCTCCGGCGAACTGGCCTACGAGCTTGCCGTCCCGGCCGGTTACGGTGAAAGCGTCGCCGATGCGCTGATGGAAGCCGGCGAGCCGGAGAATATCATGCCCTATGGCGTCGAGGCGCTTGGCGTGCTGCGCATCGAAAAGGGCCACGTCACTCACAATGAAATCAACGGCACGGTGGTGCCCGCCGATCTCGGCTTCGGCAAAATGGTCTCCACCACGAAGACCGATTTCATTGGCCGACGGATGCTGGAGCGCGACGGGCTTTCCGACACCGACCGCCCGAGCCTCGTCGGCGTCGTGCCGCTTGATCCAAAACAGTCCTTCCGCACCGGCTCGCATATTCTTGCGAAGAATGCCACGGCAACGCTGGAGAACGATCAGGGTTATGTGACCTCCAGCGCCTTCTCACCGCATCTGGGTTCGACCATCGGTCTCGCCCTCGTCAAGAATGGCCCTGCGCGGCATGGCGAGGAAATCATGGTCTGGAACGGTCTGCGCAACGAATTTACCCAAGCCCGCCTTTGCAACCCGGTTTTTGTCGATCCTCAAAACGAGAAACTCCATGTCTGA	MSANRLKTGGLIDRSKPLSFTFDGKPMSGFEGDSLASALLANGQKLVGRSFKYHRPRGILTAGAAEPNALMTIGRGGRTEPNTRATMQELYAGLEANSQNRWPSLDFDIGALTGLLSPFLGAGFYYKTFMWPAAFWEKVYEPFIRKAAGLGKASYEADPDAYDKCWAHCDLLVIGSGAAGLAAALAAGRAGARVIIVDEHSVAGGGLLSETAAIGGKSAPDFAAQCVAELETLPNVTVLTRTTAFGWYDGNVFGAVERVQKHLPDPKAHVPVERLWRIVAKRALLATGAEERPLVFGGNDVPGVMMAGAMRSYLNRYAVSPGTATAIFTTNDSGYALARDLEAQGVALAAIIDSREQGNPGYEGKARVIKGGVVSNAKGGKSLSAIEIYANGQAENLNVDALAMSGGFSPIIHLACHRGGKPVWSEDDAAFLAPGNLKGLELAGAVSAINGIAACLEDGARKGAALAQELGFASAAPTFGAVENDIVAPPAKPLWSIPGIKAKAFVDYQNDVHRKDLGLAIREGYGHVELAKRYTTNGMATDQGKLSNVNAIGLLAEARGVSPADVGTTTFRPFYTPVSFGALTGAYHGQHFQPVRKSPLHGWAEKNGAVFVETGLWYRSSWFPREGERGWRESVDREVLNVRKYAGLCDVSMLGKIEICGRDAAEFLNRVYCNAFLKLPVGKARYGLMLREDGMIYDDGTTSRLEENRFFMTTTTAYAAGVMNHLEFCAQALWPDLDVRLASVTDQWAQMAIAGPKARAILQRIVDEDISDEAFPFVAAREVSLFGGQLHGRLFRISFSGELAYELAVPAGYGESVADALMEAGEPENIMPYGVEALGVLRIEKGHVTHNEINGTVVPADLGFGKMVSTTKTDFIGRRMLERDGLSDTDRPSLVGVVPLDPKQSFRTGSHILAKNATATLENDQGYVTSSAFSPHLGSTIGLALVKNGPARHGEEIMVWNGLRNEFTQARLCNPVFVDPQNEKLHV	PGPT0013515_562	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0013515-soxA-K00302	NA	NA
BMS010_00830	549			hypothetical protein	ATGTCTGATTTCAAGTCTGATCTCCAGTCTGACTTCCGGCCGACGCTCCGCCCGGTGCTGGGCGCAAAGCGAGCGATTGCCTCCACCGCCATCAAGCTCTCTCCCCTGCCGGAAGGCACGATCATCCACGTTCTGGCCGCACCCGGCGCAGCAGATTTGGAAGCCCGCCTTCGCGACCTTGCCACAGGCGATATACGCGCGGTCTCACCGGGCCAATTGTTCATCGTCGGTGAACACCCCCTGTCTCACGCTGATATGAAGGCGCTTCTTGCAGCGCTCGAGCCTTTGGCAACGGGTGTCGACCAGAGCCAGGGACGCGTTCGCATCCGCATCGAAGGCAAGATGGCCGAGCGGGTTCTGGCCAAAGGCACGGCGGTCGACCTGTCTTTCGCAGCATTCCCGGTGGGACATTCCGCCGCGACGCTGATCGGCCACATCGCAGCCCACCTCACCCGGCTTGACGGACAGGTCTTCGAAGTCATCGTGCTGCGCGGTTTTGCCGAAAGCCTGTGGGACGATCTTGCCCGGATGAGCCTCGAATTCCAGTAA	MSDFKSDLQSDFRPTLRPVLGAKRAIASTAIKLSPLPEGTIIHVLAAPGAADLEARLRDLATGDIRAVSPGQLFIVGEHPLSHADMKALLAALEPLATGVDQSQGRVRIRIEGKMAERVLAKGTAVDLSFAAFPVGHSAATLIGHIAAHLTRLDGQVFEVIVLRGFAESLWDDLARMSLEFQ	PGPT0013525_699	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013525-soxG-K00305	NA	NA
BMS010_00831	750			hypothetical protein	ATGAAGAAGACTCGTCGGCAGACCCCAAAATCCGCCCCCAAGGCGCCGAGCGCAGCCGAAGCGGCAGAAAATGCCAATGACGACGTCTCTGAGCGCATTCGCACGACCCTTGCCACTGCCATCGGCGAAGGCGCGCTGAAACCCGGCACCAAAATCCTCGAAGATGCCATTGCCGACCATTTCGGCGTCAGCCGCACCGTTGTCCGTGGCGCTCTCGGCGTGCTGGAAAGCGACCATCTGCTCGAGCGCAAGCGCAACCGCGGCACCTTCGTCGCAGAGCCGGGCATCGAAGAAGCCAAGGCTTTGTTCGAGGCGCGCCGCAAGATCGAACATGCGATCCTCGACCTCGTAATGTCCCGTGCCACCACCGAACAACTGGATGCGCTGGAAAAGCTGACCGACGAGGAAGAGCACATCCACCACCACGGCGACGAAAAGTCGAAGACGGTGCTTTCCGGAAAATTCCATATCGTTCTGGCGGAGCTTGGCGGCAATGCCGTCATGACCGAAATGCTATCCAAGATCGTCGCGCGCCTTTCCCTCGTCATGGCGCTCTATGAAGAAGACAAGAAGGACGACTGTGGCGCCGACCACCACCGCCTGATCGTTACGGCGCTGAAGGCGAAAGACCTGGCGAAGGCACAGGAGTTGATGGACCACCATCTCGCCGACATCGAGGGGCGCGTTAGGCTGACTGAAGGACAGGGCGATCGGCACACGTTCCTCGCCGTGTTGGAGAACTTTTCATGA	MKKTRRQTPKSAPKAPSAAEAAENANDDVSERIRTTLATAIGEGALKPGTKILEDAIADHFGVSRTVVRGALGVLESDHLLERKRNRGTFVAEPGIEEAKALFEARRKIEHAILDLVMSRATTEQLDALEKLTDEEEHIHHHGDEKSKTVLSGKFHIVLAELGGNAVMTEMLSKIVARLSLVMALYEEDKKDDCGADHHRLIVTALKAKDLAKAQELMDHHLADIEGRVRLTEGQGDRHTFLAVLENFS				NA	NA	NA	NA	NA
BMS010_00832	1131			hypothetical protein	ATGAGACTGGGTATCGATAGCCAGAAGCTTCCCGAGTTCGTGAAACGCGGACCGCTCGCAAGCCTTGACCTTGTCAAGGAGCTTGGCCTTGCGGGCCTGTTCTTCCCGACAGTTCTCGACATGAGCCCGACGCTCGACAAGGGAGCACTTCGCGACATCCGCGAGAAAGCCGATGAACTGGGGCTCTACCTCGAAAGTGGCGTCGGCAAGATCAATCCCTATTGCAGCGCCGAGGCTCCGGAGTTCCGGGCGATCGGCGATGGCGACGTCATTCTGGGCTTTACCCGAATGATCGAGGCAAGTGCTTCCATCGGCTGCCGCGAACTATGGATCTCGCCGGGCAATTTCAAATCGGAGTATCGTGGCAGGCTGGCAAATGACCGCTTCCGCACCGACGTCACCTGGGAAGAGCAGTTGCTGGCAATCGAGAAGGTCTTGCTGAAGCTTGCTCCCGTAGCGCGCGCCAATGGTGTCCATCTCAATATGGAAACCCATGACGAGATTACGTCCTTCGAAATCCTCAGGCTGATCGAAAAGGTCGGTGAGGATTGCATGGGCGTTGTCTTCGACACGGCGAACGGCCTGCAGCGCGGGGAACATCCGGTTTACGCCGCAAAACGTGTCGCGCCATACGTTCGCCAGACCCATATCAAGGACGCCTATGTGGGCCGCGCAACCGGCGGCCTCGATTTCCAGACCCGCCCCGTCGGTTGGGGGATCGTGGATTTTGCCACGATCATTCCAATCCTGGCAGCGGCGAACCCGAATCTCAATCTCTCATTGGAAGTTGCCGCCTCCGTTGAAGACAAGCCGCGCAAGGCCAATCCGCGTCAGTGCATCGAGATCGACGACCCAGCGTGGCGCGCTGCGCACCCGGACCTCGATGCCGAAGAGCTCGACGCCTATCTTTCCCTCATCAGCACCTTTGAAAAGCGTGTTGCAGCCGGCGAGATTCCGGATTGGGAGACCTATGAGGCGACCAACTACGGCTACCCGTCCTATGAAAAGCAGGCCTATGGCTTCGACGCGGCTATCATCTTCATTCGCAATTCGGCCAGGCATATCGAGACGATCTGCGCCGATAATGGCATCGATCTTTCCCCATCCGTGGCGAAACGGCAGGCGGCCTGA	MRLGIDSQKLPEFVKRGPLASLDLVKELGLAGLFFPTVLDMSPTLDKGALRDIREKADELGLYLESGVGKINPYCSAEAPEFRAIGDGDVILGFTRMIEASASIGCRELWISPGNFKSEYRGRLANDRFRTDVTWEEQLLAIEKVLLKLAPVARANGVHLNMETHDEITSFEILRLIEKVGEDCMGVVFDTANGLQRGEHPVYAAKRVAPYVRQTHIKDAYVGRATGGLDFQTRPVGWGIVDFATIIPILAAANPNLNLSLEVAASVEDKPRKANPRQCIEIDDPAWRAAHPDLDAEELDAYLSLISTFEKRVAAGEIPDWETYEATNYGYPSYEKQAYGFDAAIIFIRNSARHIETICADNGIDLSPSVAKRQAA	PGPT0016785_7	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_CATABOLISM,PGPT0016785-mocC-K03335	NA	NA
BMS010_00833	855			hypothetical protein	ATGGCACTCTTTGCTCAACCGATCAGCATGACCATCGTGCCTCCAGTCCGCAAGCCGATACGCTGGGGGCCGGTCGCAACCGGTAGCATTGCGATCCTTGTGCTGGCCCTCATGGTCCTGGCTGTCGGGCGAAATCAGAGCGTCCAATGGAGCGAGATCCCGCGCTACATGATCGACCCCGTCATTCTTGGCGGCGTGGTTCTGACGCTCGAATTGACGGCCGGCGCCATGGTCGCCGGCATCGTCATCGGTTGCCTCATCGCCATTATGGCGACGAGCCAGAACATCGTTCTTAAAGCGATCGCCGTCGCCTTTGTCTGGTGGTTCCGCGGCGTACCGCTGATCGTCCAGATATTCTTCTGGTTCAACATCGCGCTCTTCGTCCCCGAGATCGGATTCGGTTCCTGGTCGGTTTCGGTAAACGACATCGTCACACCCGCCTTGGCCGGCTTCCTGGCGCTTGGTCTGCACGAGGCGGCGAACATGAGCGAGATCATTCGTAGTGGCCTGACTGCCGTGGATCGGGGACAGCGCGAAGCCGCATCGTCTCTGGGCCTCAGACCATCACAGACTCTGCGAACGGTGGTCCTCCCTCAGGCAGTAAGGCTGATCGTCCCGCCGACCGGAAACCAGGCGATCGGCATGCTGAAGGCGAGTGCCATCGTTTCAGTCATCGGGATGCAGGATTTGTTGACACAGGCGCAGGCCATCTATGCCCGCAACTTCCTCGTCATCGAGCTCCTGTGCGTTGCCTCGCTTTGGTATCTCGGGATCACCACGATTGCGTCCATCGGCCAGCACTATCTGGAACGGAAGCGCGCGCCAAAAGGCCGCTCGAACAGCGGCAAAAATTGA	MALFAQPISMTIVPPVRKPIRWGPVATGSIAILVLALMVLAVGRNQSVQWSEIPRYMIDPVILGGVVLTLELTAGAMVAGIVIGCLIAIMATSQNIVLKAIAVAFVWWFRGVPLIVQIFFWFNIALFVPEIGFGSWSVSVNDIVTPALAGFLALGLHEAANMSEIIRSGLTAVDRGQREAASSLGLRPSQTLRTVVLPQAVRLIVPPTGNQAIGMLKASAIVSVIGMQDLLTQAQAIYARNFLVIELLCVASLWYLGITTIASIGQHYLERKRAPKGRSNSGKN	PGPT0020795_2376	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
BMS010_00834	936	mltF_1		Membrane-bound lytic murein transglycosylase F	ATGCATAGTTTCAAGAAGACTCTCACAGCCGCCCTGGCAGGCGTCGCTCTAGCTCTCCTCGCCTCAACCGCGCAGGCTGCAGAGGGTACGCCCGTGAAGATGGTGCCAGAGGCAGATGTGGCCAAGCTTCCAGGCGTCGCCTTCAATCAGCAATTGGCAGATCGCTTGCCCGCCGCGATCAAGGAAAAGAAGGAGCTGAAGGTTGCGACGGATCTGACGCCGCCAATCAGCTTCCAGGACGAGGCCGGCAAGCTGATTGGCATCGATGCCGACCTCGCGGCGGCGCTGGGCGTCATTCTGGGCGTCGATGTGCAGATGACCAATGTCGGCGCGGGCGCAGCCATCGTTCCCGCTGTGCTCTCCAAGAGGTTCGACATGACGCTTTCCGGTATCAACGACGATGTGGAACTGGAAAAGCAGGTCGACGTGATCGACTACATGTATGACGCAACAACCATCATGACGGTCAAGGGCAATCCACTTGGCATCAAGAGCATGGAAGACCTCTGCGGCAAGAAGGTTGCCGTGCCGGTCGGAACCTTCCAGAACAGGCTCGTGGTTGCTGCCTCGGCAAAATGCAAGACCGCGCCCATCGAGATCATGTCCATACCGAAAATGCCTGACGTCCTGCAGGCCGTGCGAACGGGCCGCGCCGATGCGACCGTCAACGGTTACGCAACGAGCGTCTACACCACCGAAAAGCAGACCGGCAAAGGCGTCGGCCTACAAGCCTTGCCCGATGTCCGCCTCGCCGTCGGTTATCTTGGCATGCTGGTCTCGAAGAATAATCCAGAGCTCCGGGATGTCGTGATCGCCTCGCTCCAGCACATGGTCGACAGCGGCGCCTATCAGGCCATCATGGAGAAATGGAGCCTTGGCCCGCTTGCCGTGAAGACCGTCAAGTTCAACGATGCTGCCTCCATGCCGGTGGATTGA	MHSFKKTLTAALAGVALALLASTAQAAEGTPVKMVPEADVAKLPGVAFNQQLADRLPAAIKEKKELKVATDLTPPISFQDEAGKLIGIDADLAAALGVILGVDVQMTNVGAGAAIVPAVLSKRFDMTLSGINDDVELEKQVDVIDYMYDATTIMTVKGNPLGIKSMEDLCGKKVAVPVGTFQNRLVVAASAKCKTAPIEIMSIPKMPDVLQAVRTGRADATVNGYATSVYTTEKQTGKGVGLQALPDVRLAVGYLGMLVSKNNPELRDVVIASLQHMVDSGAYQAIMEKWSLGPLAVKTVKFNDAASMPVD	PGPT0020800_2113	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_00835	1242	btuD_3		Vitamin B12 import ATP-binding protein BtuD	ATGCCAATTGCAACTGCTGTTTCCATGACCCAAAGCGAACTCAAAATTGCCGATCGACCACACCTCCGCCTGAGACCGACGAGCGCGACGCCCTCGGCTATGCAGGTGCAACCCAAGGGGACATTCATGTCGCAGACCTCGAATGCAGCAGAAGGCAAGCAGCTTAGCGTTCGTGGCCTGACCCATAGCTACGGCGGACAGAATGCGATCAGCGATATCTCTTTCGAGATAGAAGCCGGTGAGATCGTTGCGCTACTGGGCCCGAGCGGCTGCGGCAAGTCCACGGTATTGCGCGCTATCGCGGGTCTGATCCAGCCGAAAAGCGGCGTGATCCAGCTCGGTGGCGAGGACCTTGCCCATGTTTCGGCGCGTGCGCGCGGTATCGGCATGGTCTTCCAGAACTATGCGCTGTTTCCACACCTGACGGTCGCCGAGAACATCGCCTATCCGCTGGCTTGCCAGAAGATTGGGCGCTCCGAGCGGCGCGAGCGGGTCGAGGAGATGCTCTCGCTCGTACAGTTGAAAGGGTTTGGTCATAGGCTGCCGCGTGAGCTCTCCGGTGGTCAGCAGCAACGCGTGGCGGTGGCCCGCGCCATTGCCGGACGGCCTTCGCTTCTGCTTCTCGACGAACCGTTCGGTGCCCTAGACCGTGCTCTGCGTTTCGACCTGCAGGTCGAGCTTCTCCATCTGCAGAAGACGCTTGGCATCACCACGCTGATCGTCACGCATGACCAGGAGGAGGCGCAGAGCCTCGCTGGACGCCTGGTGCTGATGAACAAAGGCAATGTCGAGCAGATTGATACGCCGATGGCCGTTTATGACCGGCCGAGGACCCTCTTCGTCAATACCTTCATCGGTCAGGCCAATGTGTTGCATGGAACGGTGGACCGCGTGGAGACGGAAGCAACCACTATCTCGCTGGCGAACGGCAGGGTCCTTGTTCTCCCGCGTCGTCTGAATTTCACCACCGGCTCCAAGGTCACGATCACCTTCCGCCCCGAAGATGTGCGTCTCTCCGCCACGCCGAGCGCATCTGCCCTGCCGGCACGACTGACCGTGTCAGTGCCGCTTGGGCCTACCCTAGTCCATGATCTCCTTCTCGAAGACGGGACAAACCTTCGTTCCTCCGAGGTCCGCGGGCCTTCGACCTTCATCCCCGAGCCGGGAGCACAGCTCTTTGCCGAGATAGACACCATGAGGTGTCACGCCTTTCCGAGCGAACCGGAAGCATTCCGTAAATAA	MPIATAVSMTQSELKIADRPHLRLRPTSATPSAMQVQPKGTFMSQTSNAAEGKQLSVRGLTHSYGGQNAISDISFEIEAGEIVALLGPSGCGKSTVLRAIAGLIQPKSGVIQLGGEDLAHVSARARGIGMVFQNYALFPHLTVAENIAYPLACQKIGRSERRERVEEMLSLVQLKGFGHRLPRELSGGQQQRVAVARAIAGRPSLLLLDEPFGALDRALRFDLQVELLHLQKTLGITTLIVTHDQEEAQSLAGRLVLMNKGNVEQIDTPMAVYDRPRTLFVNTFIGQANVLHGTVDRVETEATTISLANGRVLVLPRRLNFTTGSKVTITFRPEDVRLSATPSASALPARLTVSVPLGPTLVHDLLLEDGTNLRSSEVRGPSTFIPEPGAQLFAEIDTMRCHAFPSEPEAFRK	PGPT0007860_613	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007860-ABC_SP_A|ydcT-K02052	NA	NA
BMS010_00836	1041			hypothetical protein	ATGCAAGACTTCAACATCACAAGACGCCGTTTCGGACTGCTTGCCGCCGGTGCGGCTGTTGCAGCAACCGTTCCTTTCGCCGCCCGTGCGGCTGGTGGCACGGCGGTTGCCGCGACCTTCCCAGGCAACTGGGAAGACGGCTATCGCACGGTGCTGACGCCACTCGTGAAGGATGCCGGCTTCGATCTGACGGTCGCCCCGGCAATGGCGCAGGACCAACTCGCCAAGGTCATGGCAAGCCCCGGCAATCCGCCTTATGACACCCTTCTGATGTCGCCCGGTCAGATGGCTATAGCCGTCGAAAACGACCTCATCCAGAAGATCGACCCGTCGAAGCTCAAAAATTGGGGAATGCTCGATCCGGCCTTCCAGGGCGAATACGGCCCGACCGTCACGGTCGAGGTCAACGGCATTGCCTATAATCCCGATCTCGTCCCGGCGCCGAAGGGCTACCGCGATCTCTTTGAAAACCCTGCTTATAACGGCCTGGTATCTTGGACCGGCTTCGCCTCCAACACGGGCGTGATGGCCTATACCGAGATCGCCAAGATTTACGGCTCGGGTCCAACCGACATGGATGCTGTCTTCAAGCTGTTCAAGGAACACCCGGAGCAAATCAAGGGCGTGGTGGCCAGCACGAACCACCAGATGACGCTGTTCCAGCAGGGTGAAATTGCAGTCTTCATGTGCTCGACGGGCAATGTCGCGAAGTTGAAGGCCATGGGGCTGAAGGCCGAATTCGTCCAGCCGGAAACGGGTTCGCCCGCAGCGCCAGTCAACATTCATTTGACCAAGGGCGCCAAGAACGTTGACGCGGCCTATGCCTATATAGATGCCGCGATTTCCAAGGCCGCACAGGACAAGCTGAAGATGCCGCCGCAGGAAATGTTCCCGACGAACAGGCAGGTCGAGCTGACGCCGGGCATTGAGGCCTATGTGAAGCGCGAGCAGCTTGCGTCTCTCGTCTATCCGGACTGGGCTGCCATCAACAAGAACCGGCCGGAATGGATCCGCCAGTTCGACGCCCTCGTCGCCGGTTGA	MQDFNITRRRFGLLAAGAAVAATVPFAARAAGGTAVAATFPGNWEDGYRTVLTPLVKDAGFDLTVAPAMAQDQLAKVMASPGNPPYDTLLMSPGQMAIAVENDLIQKIDPSKLKNWGMLDPAFQGEYGPTVTVEVNGIAYNPDLVPAPKGYRDLFENPAYNGLVSWTGFASNTGVMAYTEIAKIYGSGPTDMDAVFKLFKEHPEQIKGVVASTNHQMTLFQQGEIAVFMCSTGNVAKLKAMGLKAEFVQPETGSPAAPVNIHLTKGAKNVDAAYAYIDAAISKAAQDKLKMPPQEMFPTNRQVELTPGIEAYVKREQLASLVYPDWAAINKNRPEWIRQFDALVAG	PGPT0007855_4072	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007855-ABC_SP_S|ydcS-K02055	NA	NA
BMS010_00837	828	potH_1	COG1176	Putrescine transport system permease protein PotH	ATGAAAGCGAGCGGCTTCCCCTACGTTATCCCGATGCTTGCGCTATCGGTGGCGTTCTTCGCGACGCCGCTCGCCGTCCTTGTCGGGTTCAGCTTCATTGGACCCGACGGCCTGTCCCTGCACAATTACGCGCGCTTTCTTGGCGATGCGTTCAACTATCGCGTTCTCGTCAACACCGCCAAGCTCGGGATACAGACCATCGTCACCACGACGCTGCTCGGTGTGCCGATCGCGCTATTCTACTGGCACAGCGGCAAGACCGCACGTCAGATCATAATTTTCCTGACGCTGATCCCGATGTTGACCAGCAATGTGGTTCGGACCTTTGCCTGGATCGTCATTCTCGGGCGGCAGGGACCGATCAGCGAGATATTCGTGGCGCTTGGGCTGACTGACCGTCCCTTCACACTCATGTCGACGGAACTCGGCTTGGTGATGGCCATGTGCCAGATCGACCTGCCGCTCATCATCCTTCCGCTGGTGGCGATCCTGTCGCGCATCCCAGTCACCTATACCGAGGCTGCGCAGGTTTCGGGCGCGGGACCGTGGCGCATTCTCGTCACGGTCCTGTTGCCGATGATGCTGCCTGGACTTCTGGCGGGCTGGATTCTCGTCTTTGCCAGCACCAGTGCTTCCTTTGTCACCCAGGCGGTGATTGGCGGCGCGCGCAACGTCTATGTGCCGCAATTGATCTATCGAGAGGTCGGCACGCTGTTCGACTGGCCGATGGCGTCTGCCATCGCCGTCGTGCTCCTCATGTCGACCGGCATTCTTCTCGTCGGCATGACCATGATTTCCCGTCACCGGAGGCTTGTCGGCCATGCGTAG	MKASGFPYVIPMLALSVAFFATPLAVLVGFSFIGPDGLSLHNYARFLGDAFNYRVLVNTAKLGIQTIVTTTLLGVPIALFYWHSGKTARQIIIFLTLIPMLTSNVVRTFAWIVILGRQGPISEIFVALGLTDRPFTLMSTELGLVMAMCQIDLPLIILPLVAILSRIPVTYTEAAQVSGAGPWRILVTVLLPMMLPGLLAGWILVFASTSASFVTQAVIGGARNVYVPQLIYREVGTLFDWPMASAIAVVLLMSTGILLVGMTMISRHRRLVGHA	PGPT0007850_3677	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007850-ABC_SP_P1|ydcU-K02054	NA	NA
BMS010_00838	822	ydcV_1		Inner membrane ABC transporter permease protein YdcV	ATGCGTAGAAAATCCGAAAACCCGGTCCCCGCCATTCTCTACAAGGCATTCGTCTTCGGTTTTGGCGGCCTGAGCCTGATCTATCTCGTGGCTCCGATCGTCATCGCGATCACCATGTCGTTCACGTCCGGGCAGACGCTCAAATACCCACCGGAAGGGTTCTCGCTGCGCTGGTATGAGGCGTTGCTCGATCCTATCCGCTCCGGGACCGAACATATTGCCGCCGGCAACTCGCTGAAGATCGCAGGCCTTGCCGTTCTCGGCTCGCTGCTCTTCGCCGTGCCCGCTACGATCGGCATGGCACGGCTGCAGCGTCGGTCGGTCAACACGATCGAACCATTGCTTCTCGCCCCGCTGGTCTTGCCGAGTCTGGTGTATGGTCTGGCTGCGCTGATCGTCGCCAATTTCGTTGGCTTGCAGCCTTCGCTGTGGCTCACGGTCGTCGGCCATGTGGTGGTTTTCGGGCCACTGATGTATCGCGCCGCCTCGGTCGTCGCACAAGGTATCAATCCCTCGCTGGCGGAAGCTTCGACAGTGATGGGAGCCACATGGTTCACGACGCTGAGGCGCGTGATCCTGCCCTTGCTGACACCCGGCATTCTCGCCGGCGCATTTCTCGTCTTCATCCAGTCGCTCGACAATGTTTCCGTCTCGCTCTTCCTGGCCGATGCGCAGACGACAGTGCTGCCGCTCAGGATGTTTGCGCTGATCGAGGAGTCGCTCGACGTGCGCGTTGCGGCAATGTCCGGCCTGCTGATCGGCCTGACGCTGGTGGTGATGCTGGTGGCAAGGCGGGTGCTGGCGCCTACGCGACAGGCCTGA	MRRKSENPVPAILYKAFVFGFGGLSLIYLVAPIVIAITMSFTSGQTLKYPPEGFSLRWYEALLDPIRSGTEHIAAGNSLKIAGLAVLGSLLFAVPATIGMARLQRRSVNTIEPLLLAPLVLPSLVYGLAALIVANFVGLQPSLWLTVVGHVVVFGPLMYRAASVVAQGINPSLAEASTVMGATWFTTLRRVILPLLTPGILAGAFLVFIQSLDNVSVSLFLADAQTTVLPLRMFALIEESLDVRVAAMSGLLIGLTLVVMLVARRVLAPTRQA	PGPT0007845_1879	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007845-ABC_SP_P|ydcV-K02053	NA	NA
BMS010_00839	1425			Methionine aminopeptidase 1, mitochondrial	ATGAACATGACCGCCACCAGAACAGGAGCCTATCGCATCGGCTCGCTGCTCGCCGACTTTCAGCCGGATTTCGATTTCGCAGCGCCCTTGCCCTTACCCGTCGAGGAATTCGAGGATCGTCTGCGGCGTATCCGCCGCCAGGCGGTGGAGGCTGGGCATGACGCCCTGATTGTCCACACGGGTGGTGTGGGCTGGTTTCACACGTCGAACCACTATCTGCGCTATATCTGCGACTGGATGCGCGAAGGCGTGCTGATCATTCCGACGGATGCCGATAAACCGATGGTGCTTTTGTCCTTCTTTACCCAGTCCGTGCTTTTGCCACCGGGTGGCGAACCCGTTCTGGTGGAGGACATCTGGCAGATTGGCCCGATTGGGCGGGAATATGCCGATCGTCCCGGCGACAGCGTCATCAAGACCGCCGAGAAATGTGCCGAACTGCTGGCAGGGATGGGCCTATCGAAAGCGCAGATCGGCCGCATTGGCGACCGCACTTCGCTGACCTTCTGGGCAGGTCTCGACGCGTTGATGCCAGGCGTGAAATTCGTTGCCGACAACGCCATCCTCGACCGCATGCAAAAGGTCCGCTCGCCACGCGAGATCGAGATGTTTCGGGCGGCCGCCCAATTGGTCAGCATCGCCACCCAGGCGGCCTATCACGTAGCGAAACCCGGCGTGACCGACCACGAGATTTACGCGGCCTTCACCCAGGCGCAACTCTCCTTCGGTGGCGAGACCGGTGACGGTTACCAGATCGGCATCAACGAATTTGGCACCCATTGCGGCAAGCCCTATGGCCATGTCGTGCGACCGGGAGACCTGATCAATCTCTATGTCTCCAACGTCACCTATCGGGGTTACACCGCTCAGACTGCAAGGATGATCGCCGTTGGCGAGATCACCAAGCGCCAGGAAGAGGTGCTCGCCGCCTGTACCGAAGGTGTCAAGCGGGCGGAAAAGCTGATCCGCCCCGGTGCCCTGATGCGCGACGTGAACAATGCGGCCTTCGAGCCCATGATCGAGCGCGGCATGCTGGCGTCGCCGGAAGCCCGGACCATGCCTTACAACTGGGCACCGATGGATGACGGCAGCGCGAGGCTTATCCCGCGCCAATATGTCAAGAACATCGACTGGGAGGCGCAGGGCCGCACGCTCATGCATGTCTATCCGGCGACACATGGCCCGCATAACCCCAATCTCGGCCATTCGGTCGGCATGGCCGGCGGCCAGAACAGCTTCAACATATCCTCTCACAACTACGATCGGATGGAGGAGGGCATGGTCTTCGTGCTCCACACACAGTGGCTTGAGCCACTGTCGGCCGGCTGCAATGTCGGTGACATGTATGTCGTGACCAAGGACGGGTTCGAAAACCTGTCGCGCCACACTCCGCTTGAAACCCACCGCATTGCTGCCGAGGCCTGA	MNMTATRTGAYRIGSLLADFQPDFDFAAPLPLPVEEFEDRLRRIRRQAVEAGHDALIVHTGGVGWFHTSNHYLRYICDWMREGVLIIPTDADKPMVLLSFFTQSVLLPPGGEPVLVEDIWQIGPIGREYADRPGDSVIKTAEKCAELLAGMGLSKAQIGRIGDRTSLTFWAGLDALMPGVKFVADNAILDRMQKVRSPREIEMFRAAAQLVSIATQAAYHVAKPGVTDHEIYAAFTQAQLSFGGETGDGYQIGINEFGTHCGKPYGHVVRPGDLINLYVSNVTYRGYTAQTARMIAVGEITKRQEEVLAACTEGVKRAEKLIRPGALMRDVNNAAFEPMIERGMLASPEARTMPYNWAPMDDGSARLIPRQYVKNIDWEAQGRTLMHVYPATHGPHNPNLGHSVGMAGGQNSFNISSHNYDRMEEGMVFVLHTQWLEPLSAGCNVGDMYVVTKDGFENLSRHTPLETHRIAAEA				NA	NA	NA	NA	NA
BMS010_00840	675			hypothetical protein	ATGACCGATACGACCCGAGCGCACACCCATTTCGATTTCTCCAGGCTCACCGAGCGCGAGCGCTACAAGATCCTGATCGGCACCGTCATCCCGCGCCCGATCGCGCTTGTGACAACCGTCGACAGAGACGGTCGCCCCAATGCCGGGCCGTTCAGCTTCTTCAATGTGCTGACCCATGATCCGGCAATCGTTGCGATCGGCGTGGAAAATTACGCCGACATGCGCTTCAAGGATACGGCCCGCAACATCCGCGAGACCGGTGAATTTACCGTCCATATCTGCGATAACGCTCTCGTGGATCAGATGGAGATCTGCGCCATCAAATTCGGTCCAGGCATCAACGAGATGGAGGAGGCGGGTCTCGAAACCGTGCCGGGTGAGATGGTGTGCAGTCCGCGCATTCTCGCCGCACCCGCAGCACTTGAGTGCCGTCGTCATACCACATTGCAGGTAGGTCCCGCCCGCGAGATCATCCTCGGTGAAGTCGTAGGCGTCTTCGTGCGCAGCGACGCCGTCAACACATCCAACCTGCATATCGATCAGCAAATGATGGACGCCGTTGGCCGCATGGGCGGGCATACCTATACCCGCACCCGCGACCAGTTCGACATCAAGACGCTGAGTCCGCAAGAATGGGAGAGCCGGAAGATTTGTAAGACCGACGCGGCTGAGTAA	MTDTTRAHTHFDFSRLTERERYKILIGTVIPRPIALVTTVDRDGRPNAGPFSFFNVLTHDPAIVAIGVENYADMRFKDTARNIRETGEFTVHICDNALVDQMEICAIKFGPGINEMEEAGLETVPGEMVCSPRILAAPAALECRRHTTLQVGPAREIILGEVVGVFVRSDAVNTSNLHIDQQMMDAVGRMGGHTYTRTRDQFDIKTLSPQEWESRKICKTDAAE				NA	NA	NA	NA	NA
BMS010_00841	231			hypothetical protein	ATGAAGCCCCGCTGCAAGAGCTTCGTCACCAAACTCGAAGCCGAAAAGTGGGCACGCGACCTCGAAGCACAGGTTGATAGGTGCGGAACTGCACCGGACACAAAAATACTCGAAAGCGCCGCGCTCGGGCAGTTGCTCGAACGATATCAGCGAGAAGTGTCGCCCCTGAAACGCGGGGCCGTCCAAGAGATACAGCGCATCGACGTTTTGCGCCGCCATGATCTCGCCTAG	MKPRCKSFVTKLEAEKWARDLEAQVDRCGTAPDTKILESAALGQLLERYQREVSPLKRGAVQEIQRIDVLRRHDLA				NA	NA	NA	NA	NA
BMS010_00843	951			hypothetical protein	ATGAGCTACGGGAAAACCGTCGGTAGGGTAGTAAAGATCTTTATTACGGGGCAGGATCCTCGCAGCCTTCGAACCGTTGAGCTTGACAACTGGACTGGTGTTGCGATCACGGGGCAGCCGGAATTCTTCAAGAAGGCGCTTGAAGCGGAAGTTTTGGCACGATCGTGCGTCTACCTTTTGATCAAGAGTGGTGCGGACGACGACCTTCCCGAGATCTATGTCGGCGAGAGCGACAACTTTTCCCAGCGTTATACGAGCGGAAGATTTCCCATAGCATTTGATACCTTTATGATTTTCACCAGTAAGGATGATAATCTGACGCGTGCGCATGTAAGGTGGCTGGAAAACAAGCTTTGGACGGTCCTGAATGGCAATAGCGGCAAGGTCATTGTTACCAATGCCAATCAGCCAAGCGAATCGAACCTGCCACGCGCCGATATCGCGACGATGCATACATACCTCGCAAACATGATCTATGTGCTAGAAGCGCTTGGCTACGATCTGTTCTCAGTTCAAGAACGCACCTCGGCGTCGCCATCCCCGGCAACGACCACAGAAGGCTATGCCACAGAGACAGATGGCCAGTCCCTCACGCTCTACGCAACATTGCCACACCGTCCTGATGACAGAGCGTTATTGCGATATGAGAACGGGGCCTACACGTTGCTCACAGGCTCCAAAATCAATCGGGTAATGAATGGTAGCCTGCCAGCTAACGTCAGAAAGCTTAGGCAACAATTGATAACTGATGGCGAACTGATCGAATGCGGCGAATATCTGGAACTCAAACGAGACATACCATTTTCCAAGCCGTCCCCAGCATCCGCGCTTGTAAAAGGGCACAGCTCGACAGGATACCGGGACTGGGCGCGGGAAACGGATAGCCTGCCTTTGGGAGCTATCCTTGGAATCGCTGAACCAAGTCAATTGCCTAACGACACGGCACAGTGA	MSYGKTVGRVVKIFITGQDPRSLRTVELDNWTGVAITGQPEFFKKALEAEVLARSCVYLLIKSGADDDLPEIYVGESDNFSQRYTSGRFPIAFDTFMIFTSKDDNLTRAHVRWLENKLWTVLNGNSGKVIVTNANQPSESNLPRADIATMHTYLANMIYVLEALGYDLFSVQERTSASPSPATTTEGYATETDGQSLTLYATLPHRPDDRALLRYENGAYTLLTGSKINRVMNGSLPANVRKLRQQLITDGELIECGEYLELKRDIPFSKPSPASALVKGHSSTGYRDWARETDSLPLGAILGIAEPSQLPNDTAQ				NA	NA	NA	NA	NA
BMS010_00844	2643			hypothetical protein	ATGAATCTGGGCGCCGGCGTGGGCGTCGCCGTCCGCGAGTTTCAAACAGCCTCGGGTCCCGTTGACTATGCTCTCTTCGTAGGGCGTCGGTTGTGCGGTGTCGTCGAAGCGAAAGCAGAGGGCACAACCCTTTCAGGCTTCTCGGATCAAGCTGAGCGCTACATTCACGACATGCCGGGTCATCTCATTCGAGAAGATGGCCAAGTGCGCTTTGAGTATGTCGCCTCCGGAAGCGAGACCCTATTCCGCGACCATGCGGATCCTCAACCAACGTCACGCCGCGTCTTTGCCTTTCATCGACCCGAGACCATGGAGCTATGGCTGCGCGAACTGCAGACACTGCGAGCGCGATTGCACCACATGCCACCTCTCATCGAGGATGGATTACGAGACTGCCAGGTCGACGCTGTTACCAATATCGAGCAGTCGCTTGCCGAGAACCGGCCGCGTGCCTTGGTCCAGATGGCGACGGGTGCCGGCAAGACCTTTACGGCAGCCACACTCAGCCATCGTCTGCTGGCCCATGCCGGATTCAAGCGCATTCTGTTTCTAGCCGATCGGGCAAACCTCGTTCGCCAGACGCGGGATGAGTATCTCGCCTATCGTCCACCCGGCACCGGACGCTCGTTTTCTGAGATTTACAACGTTCAGAAGCTCGGCAGCGCCGGGATCGACAAGGATGCTCAGATCGTCGTGTCCACGATCCAGCGCGTCTATTCGGTGCTCACCGGCAAGGAGCTGGCGGAAGACGACGAAGAGGCCTCGGCCTTCGAGGGCATCGCAGGCGGCCAGGAGCGGTTCGTCAGCTATAATTCCTCTATTCCGATCGAGAGCTTCGACCTCGTCATCACCGACGAATGCCATAGATCGATCTACGGAACCTGGCGGCAGGTCCTGGACTACTTCGACGCCTTCATCGTGGGACTGACCGCAACGCCCTCGCTGCACACACTGGGCTTTTTCGGGCGCAATCTCGTCGCGCAATATCCTTACGAGCGGTCAGTGGTCGATGGTGTCAATGTCGGCTTCGAGATCTACCGTATCAGAACTGAGATCGGCGAACGCGGATCGACCGTAAGGGCCGGCTATGATCTCCCGGTTCGAGACAAGCGCACCCGTGCGGAGCGCTATGAGACACTCAACGAGGACTTTGCCTACACCGCTGACCAGCTTGACCGGACGGTGGTTGTTCCGAACCAGATCCGCACGGTGCTCGAAACCTATCGAGACTCCCTGTTCACTGAGCTGTTTCCGGGCCGAACAGAAGTGCCAAAGACCTTGATCTTCGCCAAGGATGATCACCACGCCGAGGAGATTGTCACAATCGTCCGCGACGTGTTCGGCAAGGGCAACGACTTCGCCAAGAAGATCACCTACAAGGTTGATGGTGCTGATCCAGAACAGCTCATTCGCGCCTTCCGCAACGACTACAATCCCCGCATTGCCGTCACCGTGGACATGATTGCCACCGGCACCGACGTGAAGCCGTTGGAAGCCCTGATCTTCCTACGCGACGTAAAGTCAGAGCTCTATTTCGAACAGATGAAGGGGCGCGGGGCGCGCACCATCACACCGGAAAAGCTGCGGGAGGTGACGCCGGACGCAGACGCCAAGACACGCTTCGTCCTGGTCGATGCGGTGGGTGTTTCCGAAAGCCTCAAGAGCATTTCGCAGCCGTTGGAGCGAAACCGCGCCATTTCCTTCGACAAGCTGATTGATGAGATCGCCGCTGGTCGCAGGGATGACGATGCTTTCGCGACCCTGGCTGCACGTCTCTCAGCGCTCGACCGCCGCATCAGTGACAAGGACCGCGCCACCGTAGCAAAGGCGACGGGGGGGCTGGACCTGAAGGCGATCGCCTCGCGGCTTCTGGATGCCATAGACCCGGATGCCCTGGCAACCCATGTGCCCAAATCGGCACCAGAGCCGGAACAGCAGCGGGGGAAAGATGCCGTCAAGGAACAAGCAGCCATGCTCTTCGACGATCCCAAGCTGCGCACGCTGTTAAAAGACGTCAAAGCAGCCGCTGATATCCGTATTGATACGATCTCGGTCGATGCGGTCGTTTCCTCCGGATGGGATGAGGCCAAAGCGGGCGACACGGTCAACCGTTTCAAAACTTTCCTCAAGGAAATGCAGGATGAGCTTGTCGCCCTCCAGATCCTTTATCATCGCCCCTATGCGCAAAAGCGCCTGACCTATGAGGCGGTTGATGAGTTGCGCGAGGCTCTCAAGCGACCACCATGGTTGCTGGAGCCAGTCGATATCTGGCGAGCCTACAAGCGCATTGCGTCGGAGAAGGTGCGTGGTAACCCCGCAGGCACGCTGGCCGATATCGTCATGCTGGTTCGTTATGCTATTGGAAAGACCGAATCGCTGGAGCCGCTTAGCTCAGTGGTCGCCGGTCGTTTCAATCTCTGGCTTGGCCGTGAAGAGAAGGCCGGACGAACCTATAGCGATGAGCAACGCGCCTGGCTTCTGGCGATCCGTGATCATCTGGCGGTCAATATCGAAATCCGTCCGGAAGACATCATGGATGCACCGGAATTCTCCAGTCGCGGCGGTATGATCAAGGCGCGCGGCCTGTTTGGGCAACGGCTGCCAGCGATCCTGGATGAACTTACGGAAGTCTTGGTGGCGTAA	MNLGAGVGVAVREFQTASGPVDYALFVGRRLCGVVEAKAEGTTLSGFSDQAERYIHDMPGHLIREDGQVRFEYVASGSETLFRDHADPQPTSRRVFAFHRPETMELWLRELQTLRARLHHMPPLIEDGLRDCQVDAVTNIEQSLAENRPRALVQMATGAGKTFTAATLSHRLLAHAGFKRILFLADRANLVRQTRDEYLAYRPPGTGRSFSEIYNVQKLGSAGIDKDAQIVVSTIQRVYSVLTGKELAEDDEEASAFEGIAGGQERFVSYNSSIPIESFDLVITDECHRSIYGTWRQVLDYFDAFIVGLTATPSLHTLGFFGRNLVAQYPYERSVVDGVNVGFEIYRIRTEIGERGSTVRAGYDLPVRDKRTRAERYETLNEDFAYTADQLDRTVVVPNQIRTVLETYRDSLFTELFPGRTEVPKTLIFAKDDHHAEEIVTIVRDVFGKGNDFAKKITYKVDGADPEQLIRAFRNDYNPRIAVTVDMIATGTDVKPLEALIFLRDVKSELYFEQMKGRGARTITPEKLREVTPDADAKTRFVLVDAVGVSESLKSISQPLERNRAISFDKLIDEIAAGRRDDDAFATLAARLSALDRRISDKDRATVAKATGGLDLKAIASRLLDAIDPDALATHVPKSAPEPEQQRGKDAVKEQAAMLFDDPKLRTLLKDVKAAADIRIDTISVDAVVSSGWDEAKAGDTVNRFKTFLKEMQDELVALQILYHRPYAQKRLTYEAVDELREALKRPPWLLEPVDIWRAYKRIASEKVRGNPAGTLADIVMLVRYAIGKTESLEPLSSVVAGRFNLWLGREEKAGRTYSDEQRAWLLAIRDHLAVNIEIRPEDIMDAPEFSSRGGMIKARGLFGQRLPAILDELTEVLVA	PGPT0027170_4172	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_I_R-M_SYSTEM,PGPT0027170-hsdR-K01153	NA	NA
BMS010_00845	1479			hypothetical protein	ATGGACATGAGAGTGGCGGCAGACGCGAGCGGATCGGAGGATCAGCCTTGGACGCTGCCGGAGGGGTGGTGTTGGGCGGCGATTGGCGACATCGCTCGGCTTCGCGGGGAGAAAGTTAATCCTTCAGATGCGCCTCAGCTTCCGTTCGTCGGAATGGATGACATTCCGAACGACGGTTTGCGCGTCTTGAATACGAAGCCGTTCGCGCAAATGAAAAGCGCTGGCAATAAGTTTGAGCCTGGCGATGTCCTTTACGGACGACTGAGGCCCTACTTAAACAAAACAGCCATCGCGTCTGCGGAAGGTGCCGCGTCAGGCGAACTTCTAGCGATTAAAACAGAGATCGATGCGAATTATTTCCAATTTTTCCTTCACTCTCAAGGTTTCATCAACCGCGCGATGGCAACCGTGAGCGGGGATCGGCCCCGAATTGATTTCTCAACAATCGCCGAATTCAAGTTTCCTCTAGCTCCCCTTCCCGAACAGCGCCGCATTGTTGAGCGCATTGAAAGCCTCTTCGCGGAGATCGCCGAAGGTGAGGCAGCTCTTGAGGACGCCCGAAAGGGGCTGGAGACATTCCGTCGCGCCCTGCTGAAAAGCGCTGTCACCGGAGAGCTTACTCGCGACTGGCGGGAGAACAATCAGCCCAATGAGACCGGTCACGATCTTCTTGCCCGCATCAAGGCCGAGCATAACCCGACATCGGCGAAGGGACGCGGAAAACGGGCGGCATCGAGCCCGCGACTTGATGTTTTGGACTTGCCAGAGCTGCCGAACGGCTGGGCTTGGGCTAGGGTTGATGATCTCGTGGACTTCGTGACGAGCGGCTCTCGTGGGTGGAGCGAGTATTACGCCGACTCTGGAGTTATGTTTGTCAGGGCGCAAAACATTAACTCTGGTGCCTTGAACCTTTCCAAAGTCGCTTATGTGCGGTTGCCAACGAATGCGGAAGGAACGCGGACTCGATTACGACGGGGAGACGTTCTAGTCACGATCACCGGCGCCAATGTAACAGTGAGTGCTCTCGTTGATCATGAAATACCTGAAGCATACATAAACCAGCACATAGCGCTCCTACGACCAACACTGACCGAAATGTCGAATTTCCTGTTGCTTTGGCTACAAGCAGAGGGAGCGGGCAAGACTCAACTGATGGCAGCTGCTTACGGCGCGGGTAAGCCGGGTCTCAATCTCGATAACATTCGTGAGGTCTATGTCGCGATCCCTCCGCTCGAAGAAGCATCTGAATTGGCACGGCGAGTTGCCGAAGCGCTGGAAACCTACCGTAGTGCTTTCTCATTCCTTGAGGACCAGCGTTTTGACGCCGCCCGGCTCCGCCAAGCAATCCTGAAGTCCGCATTCGAAGGAACGCTTATGCCGCAGGATCCGAGCGATGAGCCAGCGTCTGTAATGCTTAAGCGCCTGAAGGATTCACAGATCAATAAGCGTAAGCAGACGAAACGCGGCAAAAAGGTATGA	MDMRVAADASGSEDQPWTLPEGWCWAAIGDIARLRGEKVNPSDAPQLPFVGMDDIPNDGLRVLNTKPFAQMKSAGNKFEPGDVLYGRLRPYLNKTAIASAEGAASGELLAIKTEIDANYFQFFLHSQGFINRAMATVSGDRPRIDFSTIAEFKFPLAPLPEQRRIVERIESLFAEIAEGEAALEDARKGLETFRRALLKSAVTGELTRDWRENNQPNETGHDLLARIKAEHNPTSAKGRGKRAASSPRLDVLDLPELPNGWAWARVDDLVDFVTSGSRGWSEYYADSGVMFVRAQNINSGALNLSKVAYVRLPTNAEGTRTRLRRGDVLVTITGANVTVSALVDHEIPEAYINQHIALLRPTLTEMSNFLLLWLQAEGAGKTQLMAAAYGAGKPGLNLDNIREVYVAIPPLEEASELARRVAEALETYRSAFSFLEDQRFDAARLRQAILKSAFEGTLMPQDPSDEPASVMLKRLKDSQINKRKQTKRGKKV				NA	NA	NA	NA	NA
BMS010_00846	1701			hypothetical protein	ATGTTGTTCGAGCCTATGGAACTGGAGCCGATCAAGGCTGGCCAGGAGCGACTGAGCCGCGTCTTCAGCGACGAATTCGCTTTCTCGATTCCTACCTATCAGCGGCCCTACGCATGGGAACAGGAGCAGACGCAGGCTCTGCTCGATGACATCTTGTCTGCCCTGCAGGACGCGATTGATACCAAGGAGCCGATCACATACTTCCTCGGCAGCATAGTGTTGATCAAGCAGCCTGGATCGCCGGAAGCTAAGGTGGTCGACGGACAGCAGCGTTTGACGACTTTGACCATTCTTTTGTCGGTCTTGCGCGACCTTTCATCACACGACGTCAGCATGAAGCGACACAGCTACATTTGCGAAGAGGGGGATCCGGACAAGGGAACGAAGAGCCGTTACCGTCTGACACTCCGCAAGCGCGACGATGAGTTCTTCAGGGAAACAATCCAGATCAGGGGGCAGACGGACAAACTGCCTGAGACCAAAGGACTGACCGATAGCCGCCTACGCATCGTTGAGAACGCGCGCTACCTCCGCAGGCGACTTGAAACGCTCTCTGCGGAACAGCGTGACGGCTTGATGGCATTTCTGCTGCAGCGCTGCTACCTCGTCGTGATCGCGGTATCGAACGTGGACGTCGCCCATAAGGTCTTCACCGTCCTCAACGCACGCGGGCTAGACCTCACCCCTGCAGACATCTTGAAGGCCGATCTCTTGGATCGCGTGCCAGAATCCGAAGAAAAAGATTACTCAGATACCTGGGAAGCGCTCGAAGAGCAGTTGGGAAGAGAACGGTTTGCCGAGCTATTTCAGCATATCCGCATGATTTACCAGCGTGAAAAACCCCGCGAACGCCTTGAAGTAGGCTTCAAACGGTTTGTAACCGACTTCGGCGACTATCGTTACTTCATGAAAAACGTGCTGCAACCGTTCGGGTCCACGTATGCGCTGCTGATGTCGCCGATCCTTTTCGCTCACAAGTTCGGAGACACAGCAACAAAACGCCTGCAGTATCTGACGAAACTCGACAACAATGACTGGCTGCCGGTCGCGCTAAAGTTCTTCGCCCACAACAAACCGGACCCTGCGGAAGCAGGCGACTTCATGCGGCGGCTCGAAACGCTCGCCTATTTCCTCTTTGTCACGAGAGCGGACATCAATGAACGCATAAAGCGCTACGCGCTCGTGTTGACGGATCTGCACGAAGGGGCGTGGCGGGAGAGATCGATTGCGTTGAGCGAGACCGACAAGGCGTTCTTCAGGCGACAACTCGATGGCCCGACATATCTCGCAACGAGGGTTCGCCTGCCCTTGCTCCTAAGGCTGGATGCTGAGTTATCATCCGGTGGCGCTACCTATGATCACAGCACGGTTTCGGTCGAACACGTGCTCCCGCAGAACCCTCAAACGGACAGCAATTGGTTTTGGGACTTTAGCGACGATGCGATCCGAGAACACTGGACGCACCGCCTTGCAAATTTGATGCTCCTGACCATCCGGAAAAACGCACAGGCGAGAAACTGGGACTTCGCCACCAAGAAACAACGCTATTTCATGGAACATGGCGGTGTGTCGCCCTTCGTGATCACGACTCAGGTGCTCGACAAGTCTGAATGGACGCCGAGTATTCTCGAGGAGAGACAGCAATTGCTTCTTAACAAACTCTTCAGCACCTGGGACATTGCCCCGGAGAAAACAACATGA	MLFEPMELEPIKAGQERLSRVFSDEFAFSIPTYQRPYAWEQEQTQALLDDILSALQDAIDTKEPITYFLGSIVLIKQPGSPEAKVVDGQQRLTTLTILLSVLRDLSSHDVSMKRHSYICEEGDPDKGTKSRYRLTLRKRDDEFFRETIQIRGQTDKLPETKGLTDSRLRIVENARYLRRRLETLSAEQRDGLMAFLLQRCYLVVIAVSNVDVAHKVFTVLNARGLDLTPADILKADLLDRVPESEEKDYSDTWEALEEQLGRERFAELFQHIRMIYQREKPRERLEVGFKRFVTDFGDYRYFMKNVLQPFGSTYALLMSPILFAHKFGDTATKRLQYLTKLDNNDWLPVALKFFAHNKPDPAEAGDFMRRLETLAYFLFVTRADINERIKRYALVLTDLHEGAWRERSIALSETDKAFFRRQLDGPTYLATRVRLPLLLRLDAELSSGGATYDHSTVSVEHVLPQNPQTDSNWFWDFSDDAIREHWTHRLANLMLLTIRKNAQARNWDFATKKQRYFMEHGGVSPFVITTQVLDKSEWTPSILEERQQLLLNKLFSTWDIAPEKTT				NA	NA	NA	NA	NA
BMS010_00847	1455		COG0286	putative type I restriction enzymeP M protein	ATGAATTCGCAAACGCTTGTCGCCAAGGTCTGGAATTTCGCGAATGTGCTTCGCGACCAGGGCGTCTCCTATCAAGCCTATATCAGCCAGATATCCTATCTCCTCTTCCTCAAGATGGATGACGAGCGCGTCACACAGATTGGCGAGGCCTCTATGCTGCCGGAGGGAGCAGCTTGGTCGGACATTCGCGATCTCTCCGGAGAGGCGCTGAGCTCGGCCTATGGCAAACTGCTGGAGACCCTGTCGAAACAAGGCGGCATCATAGGTGCGATCTTCCTCAAGGCGCAGAACGAGATCCAGGATCCGGCGAAACTGAAGCGTCTGGTAGGGCTGATCGACAGCGAAACCTGGCTTGGCCTGCCCGTGGACGTCAAAGGCGACATTTACGAGGGCTTGCTTGCCCGCAACGCTGAAGACGTGAAATCAGGCGCCGGCCAATACTTCACACCGCGCCCGGTCATCAACGCTATGGTGGAAGTTGTAGACCCAAAGCCGCATCAGACCGTGCATGATCCTGCCTGTGGCACCGCCGGCTTTTTGCTCGCGGCCTGGGAGCATATGAAGAAGCACCCAAAGGCGCGCGACCGGGCCGTCTATTCGGCATTGAAGAACAAGTTCTCCGGCGCAGACATCGTGCCCGAAGTCGTTCGGCTTGCTGCGATGAACCTCTATCTGCATGGCATCACTGGCGTGGAGTCGATCGTTGAGGCCAAAGATGCGCTGCTCGGCGCGGGTGGCAAGACCTATGATGTCGTGCTGGCCAACCCGCCCTTCGGCAAGAAGCAGAGCTATCGCGTCATCCGCGACGATGGCGAAATCGACACCGAACGCGAGGATTACGATCGCCAGGATTTCTTCGTCACCACGTCCAACAAGCAGCTGAACTTCTTGCAGCACATCATGACTGTGCTCGCCCCCAACGGCGAGGCCGGCGTTGTGTTGCCCGACAACGTGCTGTTCGAAGGCGGGGCCGGTGAAACCATTCGTCGACGCCTCCTGCAGAATTTCGATTTCCACACGCTGCTGCGCCTGCCGACCGGCATTTTCTACAAGCAGGGTGTGAAGGCCAATGTTCTGTTCTTCGACAAAAAGCCGCCCTCGGAAGACGCCTCGACCAAGGAACTCTGGATCTATGACCTAAGAACCAACAAGCGCTTCACCTTGAAGGAGCGCCCGATGGTTCGCGCGGATCTGGACGACTTCGTGACCAGCTACAAAGCCGGACGGCGTCACGAGCGTGCGGAGAGCGAACGGTTCAAGCGTTACCCGCTCGAAGCCTTGCTGGCGCGCGACAAGGTCAATCTGGATATCTTCTGGCTGAAGGACGACAGCCTAGACGACCCTGCGCTCCTCCCGCCACCGGACGAAGTTGCCGCTGAAGTCGTCGAAAGCCTGGAGCTTGCTCTGGATAAGTTCCGCAACGTGGCGAAGGCGCTCGGAGGACTGAGTGTCTAA	MNSQTLVAKVWNFANVLRDQGVSYQAYISQISYLLFLKMDDERVTQIGEASMLPEGAAWSDIRDLSGEALSSAYGKLLETLSKQGGIIGAIFLKAQNEIQDPAKLKRLVGLIDSETWLGLPVDVKGDIYEGLLARNAEDVKSGAGQYFTPRPVINAMVEVVDPKPHQTVHDPACGTAGFLLAAWEHMKKHPKARDRAVYSALKNKFSGADIVPEVVRLAAMNLYLHGITGVESIVEAKDALLGAGGKTYDVVLANPPFGKKQSYRVIRDDGEIDTEREDYDRQDFFVTTSNKQLNFLQHIMTVLAPNGEAGVVLPDNVLFEGGAGETIRRRLLQNFDFHTLLRLPTGIFYKQGVKANVLFFDKKPPSEDASTKELWIYDLRTNKRFTLKERPMVRADLDDFVTSYKAGRRHERAESERFKRYPLEALLARDKVNLDIFWLKDDSLDDPALLPPPDEVAAEVVESLELALDKFRNVAKALGGLSV	PGPT0027180_5364	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_I_R-M_SYSTEM,PGPT0027180-hsdM-K03427	NA	NA
BMS010_00848	405			hypothetical protein	ATGCTCAGCAAGAAAATGGCGAATATGCTCGCTCGAACCGGAGTGACGCTCACCACGTTGATCGGCTTACTGAGCACTCCGGTGGTTGCGGGCCCGCTGGACACCGCTTACGCGAATGCGATGGTGCCTTACGTCGTGCTGAAACGCGGCTCCATCGAATGTGGAAAACCCGCTGGAGAGCACATCTCCTACAAGACCCGGCTGCTTGGCATCCTCGGTCGTGTTCCAAGCATCGACTTGATTGCAGCCGATAGAGAAATCGAACGGGCATTTGAGCGGGAAGCGCCAAGGACGAGCTACGTGGAGTGCTCCGATGCCCTTCTTCAGCGGTATCAGAACACTCTCGACTCTGACGCAGAGAGGGCTCTGCAATATCTTGCGGAGCAGGTTCGTGCATATCCATAA	MLSKKMANMLARTGVTLTTLIGLLSTPVVAGPLDTAYANAMVPYVVLKRGSIECGKPAGEHISYKTRLLGILGRVPSIDLIAADREIERAFEREAPRTSYVECSDALLQRYQNTLDSDAERALQYLAEQVRAYP				NA	NA	NA	NA	NA
BMS010_00849	582	hin_1	COG1961	DNA-invertase hin	ATGAACACCTTGGGATATGCTCGAGTTAGCACCGTGGAACAAAGCCTCGACTTACAAATGTCGGCGCTGAGGGCGGCGGGATGCACCGATGTCCTTACCGATGAAGGATATTCCGGCGCAGACTTCACAAGACCCGGTCTGACGCGCCTGCTTCGAAAGCTTCGGCGCGGAGATACCATCGTTGTCTGGCGTCTCGACCGTCTGGGGCGCTCTCTATTCGAATTGCTCAAACTCATTCGTGACCTCAACGAGCGCGGGGTGGAGTTCCGGTCGTTGAGCGAAAGCTTGGACACTGGCACGCCAGCCGGTCGGCTCTTGCTGCACGTTCTCGCGTCGATGGCCGAGTTCGAGCGGTCGCTGATTAGCGAACGGACGCGGGCTGGTATGGCTGCCGCTCGTGCTCGTGGGAGCCGCATCGGTCGTCGCCCTGCAATGACAGAAGATCAGCGCCGGGACGCTCGACAGGCTCTGGCCAATGGTTCAGCCACCGCCGAAGCCATCGCGAAACAACATGGAATCCATCCCCGGACATTACTCAGGACTCTCAGGGTGGACGCCCAGCGTCTGGATGCCTCTCATTGA	MNTLGYARVSTVEQSLDLQMSALRAAGCTDVLTDEGYSGADFTRPGLTRLLRKLRRGDTIVVWRLDRLGRSLFELLKLIRDLNERGVEFRSLSESLDTGTPAGRLLLHVLASMAEFERSLISERTRAGMAAARARGSRIGRRPAMTEDQRRDARQALANGSATAEAIAKQHGIHPRTLLRTLRVDAQRLDASH				NA	NA	NA	NA	NA
BMS010_00850	1233			hypothetical protein	ATGAAGCCAAGGTTGCCGGGAATACTCATCCCGTTAATTGCTGCGAAATCCAAATCCCTAGTCGGCTATCTCGATTACCGCCGAGATGATTTGTCGAATACGCAAGCCCGCCTTTCCGGTAGATATTCTATTCGGCCGGTATTAGATTTCGAACAGTTCAAGACACGCGCTGTCATCGACTGGATCACGCTACGAGTGACGCTCGACCGCAACACTCAATTTCAATGGTTGCAACGAGAAATCGAACCAATTGGTGGCCGGCGGAGCTATGTGGAGAATGTTGACGGCGACAACACAGCCTCCTCGAACTGTTTCGATATCAGATTTCAAGAGCCGGAGATTGCCACTGTTCTAAAATCAATTGCTGCCGTCCGAGCCAAATTTGGCTTGGCGCTCGAACCTTCAGTCCGCGGCATTGAGATTAGCGTGGATTTTATTCCCAAGACACCCGATGATCTCCTACGCGCTCGTATGGTCCGGGTGTTGATGAACCATCTTCAAGTGCGCCCAGATGTAACGACAAATATCCGGGATAGGCCGAGGACGGTTTGGGGCAGAGGCCCTGATTTCACCCAGCGCTTGCTTTACGACTCTAGGCATTTGACGCCCGCTGAGAATGAGCAATTTTTGCTGGAAACGGACAGAGATCGCGCACCCAATGTAGACGGAACCTTGGAAGTGGGCGAGAAGGAGGCCTCTGTCCGGTGGCGCGTTATGGACAAGGTAATTGATACGCAAAACATATCCGCCGGAACATTTGTCCTACTCGATGAGAAGTCAAAAAGAGCTAGGGTCGAAGTCACGTTGGCTCATCCGGAAACAGAGAATATTGGCATTGGCTCGTTGAATGATCTCAGGACGTTCAGCTTCACAAAGCTTCAAGGAAAGTATTTCCAGTTCGCTCTTCCCACGTTTGCTGCTGAACCGGTAAGGGCTTCAAAGAGGCAAGCGCTAGCTGCTGCGAGTAATCCGGAGCGAGCGGCGAAATTCTCGAAGACTGGAGTAATTGGCCTGAAGGCTATGGATGCGACGAGAGACGACGCTAGGCGGAATTTGCGACGCAGAGTAATGCACCACATTCATGCAAGTGGTCTCCGGATGAGCGTCCTGAACAGAAATGCGCAGGGAGCGACCAGCACATTCGTGGCCTTTGAGGATTTGAATCAACGGGTCAGGGTCGCTTTAAGAAACCTTGGTAAGCGTGTTGGCGACGGATTTTCGTCTGCTCCCTAG	MKPRLPGILIPLIAAKSKSLVGYLDYRRDDLSNTQARLSGRYSIRPVLDFEQFKTRAVIDWITLRVTLDRNTQFQWLQREIEPIGGRRSYVENVDGDNTASSNCFDIRFQEPEIATVLKSIAAVRAKFGLALEPSVRGIEISVDFIPKTPDDLLRARMVRVLMNHLQVRPDVTTNIRDRPRTVWGRGPDFTQRLLYDSRHLTPAENEQFLLETDRDRAPNVDGTLEVGEKEASVRWRVMDKVIDTQNISAGTFVLLDEKSKRARVEVTLAHPETENIGIGSLNDLRTFSFTKLQGKYFQFALPTFAAEPVRASKRQALAAASNPERAAKFSKTGVIGLKAMDATRDDARRNLRRRVMHHIHASGLRMSVLNRNAQGATSTFVAFEDLNQRVRVALRNLGKRVGDGFSSAP				NA	NA	NA	NA	NA
BMS010_00851	993	xerC_1		Tyrosine recombinase XerC	ATGGCGACAATCAGAAAACTCAGAGGGCGCTGGCAAGCACAGGTGCGACGGCGCGGTATGAAGCCCCGCTGCAAGAGCTTCGACACTAAGCTCCAAGCTGAAAAGTGGGCACGCGACCTTGAAGCACAGGTCGATAGGTTCGGCGCTGCCCCCGATACGAAAATCCTTGAAGGCACTACGCTCGGACAGCTTCTCGAACGCTATCAACACGAAGTCTCGCCGCTCAAACGAGGCTCCGTCCAAGAGATACAGCGGATTGACGTGCTGCGCCGCCACGATCTCGCCTACCGGACGATGATCGGCCTGAGCCAACAGGACATTGCGTCGTTCCGCGACGAGCGGCTTCAGAGTGTAGCCCCATCTACTGCTGTCCGCGAACTTGCGATCCTGAGCCACGTCTTGAAGGTCGCAATCCGCGATTGGGGGCTGCCCCTTGCAAAGAACGTCGTGAAGTTAGTCCGCCGTCCGGTGATACGCAACGAGCGAAGCCGTCGCCTCGCATCCGACGAGGAGCAACGGCTACTTGATGCTTGCGATATCGGAAAAATACCTTTTCTGCGCACGCTGTTGGTCGTTGCCGTCGAGACCGGGATGCGCCGCGGTGAACTTCTCGGATTGAAGTGGAGTGACTTCTCTCACAATCGTCGAGTGCTTTCGCTCGCTCTTACCAAGAACGGTTCCGGTCGTGAGGTTCCTCTGTCACAGCGGGCATTCGATATGCTGATAGCTTGGAAAGAACACCCGACCGTTGATCAGTTGATGATTTTTCCGATGCGTGCTGGGACGCTAGAGCAGGCATGGCGAAGGTTGCTGGCGCGTGCCGGGATAAAGGGACTGCGCTTCCATGATTTGCGTCACGAGGGCGTCAGTCGTCTGTTCGAGCGCGGTTTGAACGTCATTGAGGTCAGCAGCATCAGCGGACACAAGGAGCTGCGAATGTTGAAAAGATATACGCACCTCGCCGCTGACGATCTCGTGGCACGTCTTGGGTAG	MATIRKLRGRWQAQVRRRGMKPRCKSFDTKLQAEKWARDLEAQVDRFGAAPDTKILEGTTLGQLLERYQHEVSPLKRGSVQEIQRIDVLRRHDLAYRTMIGLSQQDIASFRDERLQSVAPSTAVRELAILSHVLKVAIRDWGLPLAKNVVKLVRRPVIRNERSRRLASDEEQRLLDACDIGKIPFLRTLLVVAVETGMRRGELLGLKWSDFSHNRRVLSLALTKNGSGREVPLSQRAFDMLIAWKEHPTVDQLMIFPMRAGTLEQAWRRLLARAGIKGLRFHDLRHEGVSRLFERGLNVIEVSSISGHKELRMLKRYTHLAADDLVARLG				NA	NA	NA	NA	NA
BMS010_00852	1275			hypothetical protein	ATGCGTGGATTACTTCGCTTTGTTAGCGCCAGCGTTATTTTGGCGGCAACTTTTTCCGGAGCATTTGCCGGAGAGAGAACATTCGGCCCTTTTGCTGTAAGTGACGCAAATCCGGACGTGATTGCTTTGAATGGCGATATCGACGTCAACTCAGGTCTAAATTTTCGTCGTGCACTCCAAGCAGCGCCAAATGCGAAGCTCGTCACCCTCAATAGTCCCGGTGGCAATGTCCAGATGGGCTTGCTCATTGCGGACGATATCCATCAACGCAAGCTGGCGACCTACATTCCAAAGGAAAGCAAATGCTTATCCGCCTGTTCGTTCGTCTTTCTCGCCGGTAATGAGCGAAAGGTCGATGGAGCCTTGGGTGTTCATCAGATCTCGTCCGACTCGCCGGACCTAGTAGGCGCACAACTCGCGATCTCGGACATTATCGAAGTCCTCAATCGCTTTGGGACGCCAGTAGACGTCATGCACATCATGTTTAAGACGCCCCCTGATGACATGCATATATTCAGCCAAGACAAGGTGGATAAATACAAGCTCAATCGAACGGCGCAGGAACGATCTACGACGCCGACGATTGTCGACGTTCCCGTTGCAGTCGCTGGCCAAGATAGCGACCAGAAACCAAGTGATGCTGATCTTTTGGGAGACGGTCGCACATCGCCGCCTGCGCCAGATCCAAAACAACAGTCAAAACTGTCGGCCCTCGACGAATTTACCCGGCGACCCAATCGCATTGCTATCTACACCGGGCTGGACCTCTTCGGAGATGACATCTCATCGCAGCGTGTCGCGGACGCTAGCGAATGTGCTCAACGCTGCCTGATAATGGATGGCCAGTGCAAAGCTTTCACATACAATGCCAATCCCAAAATCAAGAGAGGGCCGAACTGCTTCCTGAAATCGAACGCGGGACGAGCCGATGGAAATAGCGTTGCATTTTCGGGCCGATTTCTGAGTGGAGCCGAAGCAGATCCATCTGCCGTAACGCTTGGAACGATCGATCCGCAATCAGCGCTGTTTGATGACGTCGATTTACCCGGTGGCGATTTATCCCGGCGTCCAGAACGTTCGGCGAAGACTCCTCTGGAATGTCGTCTGGCTTGCATCGACGAGAAGCAGTGCGTCGCCTTCACCTATATCAAGCCGAAAAAGGAATGCTGGCTGAAGGGCGCGGTTGGAACGCCCATGCCGGGCAAAGGAATGGTATCCGGATTGAAGAAGCTGGAGAGGTTTACGCCAGCTAAGATCATAAGCTTGAACGAATGA	MRGLLRFVSASVILAATFSGAFAGERTFGPFAVSDANPDVIALNGDIDVNSGLNFRRALQAAPNAKLVTLNSPGGNVQMGLLIADDIHQRKLATYIPKESKCLSACSFVFLAGNERKVDGALGVHQISSDSPDLVGAQLAISDIIEVLNRFGTPVDVMHIMFKTPPDDMHIFSQDKVDKYKLNRTAQERSTTPTIVDVPVAVAGQDSDQKPSDADLLGDGRTSPPAPDPKQQSKLSALDEFTRRPNRIAIYTGLDLFGDDISSQRVADASECAQRCLIMDGQCKAFTYNANPKIKRGPNCFLKSNAGRADGNSVAFSGRFLSGAEADPSAVTLGTIDPQSALFDDVDLPGGDLSRRPERSAKTPLECRLACIDEKQCVAFTYIKPKKECWLKGAVGTPMPGKGMVSGLKKLERFTPAKIISLNE				NA	NA	NA	NA	NA
BMS010_00853	771			hypothetical protein	ATGAAGTCACGATTTACCGAAGAAGTATGTGAGCGTCTGGGCAACTACGTCTACAGGCTGATCGATCCGCGTAACGGTGAGACCTTCTACGTCGGTAAAGGGCGAAATAACCGCGTCTTTGATCACGCGGCTGGCGTCGCGGACGTGGTTGAGGACAACAACCAGACACTCGGATCAAAGCTCGATCGCATCCGGGCGATAAAAAACGCCGGTCTTGATGTGCTGCACGTCATTCATCGTCACGAGATACCAGAGGCAGCCATATTCGAGGTCGAAGCTGCGCTGATCGACGCCTATCCAGGCCTCACCAACATTCAGGGCGGGCATGCCAGCAGCGACCGCGGCCCTATGAACCACACCGAGCTCGTAGACAAATATAGCTTACCGCCGTTTCCTCAGAAGCCCGAGCACAGGCTGGTCCTGATCAACATCAACAAGCTGGAAGATCGGTTCGACCGGCGAGCGATCTACAATCTCGTGCGCTATTGCTGGCGCATCTCCAAATCCCGCGCTGAAGATGCTCAATATGTTCTCGCTGTTGTGAGAGGTGTTGTTGTCGGAGCATTCGAGGCCGAGCGCTGGATGCCTGCGACAAGGGAAAACTTTCCGGACATCCCATATGCGGACAACTCTGAGACTCAAAGGCTGGGATTTGTTGGCCGGGACGCACCGGACGCGATATGGGATTTCTACGTTGGCGTAAGGGGTAAGAGGATTGTTGCGATGGAGCTCAAGCACATTCAAAACCCGATCAGGTTCTGGAATTGCTAG	MKSRFTEEVCERLGNYVYRLIDPRNGETFYVGKGRNNRVFDHAAGVADVVEDNNQTLGSKLDRIRAIKNAGLDVLHVIHRHEIPEAAIFEVEAALIDAYPGLTNIQGGHASSDRGPMNHTELVDKYSLPPFPQKPEHRLVLININKLEDRFDRRAIYNLVRYCWRISKSRAEDAQYVLAVVRGVVVGAFEAERWMPATRENFPDIPYADNSETQRLGFVGRDAPDAIWDFYVGVRGKRIVAMELKHIQNPIRFWNC				NA	NA	NA	NA	NA
BMS010_00854	729			hypothetical protein	ATGAATGTGGAAAAAATAACGGTGAACTATACAGTATATTGTGATGAAAGCAGGCATTCGGGAGGATTAGGCTGTCAGTTTGCAGTAATCGGTGGCCTTTGGGTTCAACGAGATTCTCGAGATTCTATCAACCATGATTTAAGCACACTCAAGAAGAAGGTCGGCCTAGGCGCCGAACTCAAGTGGTCTCGTGTCAGCCTGAAAAAATTAGACGCCTACAAAGCGATATCAGAATATTTCTGGAACAGCGAACATCTTAATTACAGGGCAATTATCGTCGATCAAAGCTCTGTAGACTATAGGAAATTTCACGGCGGCGACAAAGAACTTGGATTCTACAAGTTCTATTATGAAATGATCGAGAAGTGGATTTTCTCAGAAAATGATTACAACATTCTTCTGGACTTCAAAAACAACGCGGACGCCAAGAGGCTTCCTAATTTGCATAAGGTTCTTCAGAATTATGGTCAGCCACGTGCGATCACAATAAGTAATTTGACGAGCATAGACTCCAATCAATCTAATATTGCGCAGCTATGTGACGTTCTTACCGGCGCAGTAGCTGCGGATGCCAACGGAACTTCAGTCGGAACTCCCAAGGCCGAAATGATCCGGCATATGGTCGAGTCTCGTCACCTCTCTCCACTTTCCGCCCCATCGCGCTCGCCTGCATTTTCGAAATTCAATATCTTCCGCATTGCACTTAGTGGCCATGGGGCCGCTGAATGA	MNVEKITVNYTVYCDESRHSGGLGCQFAVIGGLWVQRDSRDSINHDLSTLKKKVGLGAELKWSRVSLKKLDAYKAISEYFWNSEHLNYRAIIVDQSSVDYRKFHGGDKELGFYKFYYEMIEKWIFSENDYNILLDFKNNADAKRLPNLHKVLQNYGQPRAITISNLTSIDSNQSNIAQLCDVLTGAVAADANGTSVGTPKAEMIRHMVESRHLSPLSAPSRSPAFSKFNIFRIALSGHGAAE				NA	NA	NA	NA	NA
BMS010_00855	477			hypothetical protein	ATGACACTCTCTACACCTTTAGACTTGGCGCATATGAACGATCAGGAGTGCTACGATTTCGGCATGAAGATCTACACGGAGGTCTATTTGGGCGGAAAGGAGCGTGGGGTGTTAAAAACGCACGACGACCTCGACGTGGTATTCTATGCAGATAGATATGAGCACGCCTTCCGAACATCGCCTGATCGGGCACGGCTCGCCTACGATAAAAGCAAGATCGCGGTCGATCGCATCAAGCGAATTCACTGGATAAAGCAGCTTTTACTTAAGGGTGACGCAAAGATCGTTTGCAAACAAAAAAGACCTCCACCGAGGTGGAAAAGGGCCTACTACTGCCACGAAAACTGTTATGTTGTTTGGCTTGAGCCGTTAAAGCTCGTTGAAGGACAGCCTTTCGGGTGGAAATTCTCCTCAGCCTACCCTCTTCCGGTCGGCGAATTCAAACGAACCACCCATGGCTTTAAAACTATATCTTGA	MTLSTPLDLAHMNDQECYDFGMKIYTEVYLGGKERGVLKTHDDLDVVFYADRYEHAFRTSPDRARLAYDKSKIAVDRIKRIHWIKQLLLKGDAKIVCKQKRPPPRWKRAYYCHENCYVVWLEPLKLVEGQPFGWKFSSAYPLPVGEFKRTTHGFKTIS				NA	NA	NA	NA	NA
BMS010_00857	882	dapA_3	COG0329	4-hydroxy-tetrahydrodipicolinate synthase	ATGAGCAAGCAAGCTTTCGTCGCGCTCGTCACCTGTTTCAACGAGGACGAAACCATCAACTATGAGGCAACCCGTGCGCAGGTGCGCCGCCAGGTGGCGGCCGGCAACAACATCATGTGTGCCGGCACAAATGGCGATTTTACCGCGCTGACGCATGCGGAAAAAATCCGGCTGACGGAAGAGGTGGTGGACGAAGTTGCCGGCCGTGCCAAGGTGATCGTGAATGCGGGTATGCCCGCCACATTCGAAACCCTGCAACTTGCCAAAGCCTTCGACCGCATCGGCGTCGACGGTATCGCCGTCATCACGCCATTCTTCATCGCCTGCACGCAGGATGGCTTGATCCGCCATTTCTCGACGGTGGCTGACGCCGTTGAAACGCCGGTCTATCTCTATGACATTCCCGCCCGCACCCAGAACCACATAGAGCCGGAAACCGCCCGCAAACTCGCCACCCATGGCAATATCGCCGGCATCAAGGATTCCGGCGGCGCTCAGCAGACGCTCGAAGCCTATCTTCAGGTGGCAAAGGAGATGCCCGGCTTCGAGGTCTATTCCGGCCCGGATCACCTCGTTCTCTGGTCGTTGCAGAACGGTGCGGCAGGCTGCATTTCCGGCCTCGGCAACGCGCTGCCGGATGTACTTGCCGGCATTCTCAATGCTTTCAACGCCGGTGATATCACCGAGGCCGTACGCCAGCAGGCAATCTACGCCGACTTCCGCACCGATCTCTACGCCCTCGGCTTCGCACCGGCCATGGTTAAACGCTCACTTTATCTCCAGGACCCATCCGTCGGCGCCAGCCGTCAACCGGCCCTTCTGCCGGATAAAGAGCAGGATGAAAAAATCCTGGAAATCTTGCGGCGTTATCAACGGATCTGA	MSKQAFVALVTCFNEDETINYEATRAQVRRQVAAGNNIMCAGTNGDFTALTHAEKIRLTEEVVDEVAGRAKVIVNAGMPATFETLQLAKAFDRIGVDGIAVITPFFIACTQDGLIRHFSTVADAVETPVYLYDIPARTQNHIEPETARKLATHGNIAGIKDSGGAQQTLEAYLQVAKEMPGFEVYSGPDHLVLWSLQNGAAGCISGLGNALPDVLAGILNAFNAGDITEAVRQQAIYADFRTDLYALGFAPAMVKRSLYLQDPSVGASRQPALLPDKEQDEKILEILRRYQRI	PGPT0002080_7292	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
BMS010_00858	1644	gsiA_1	COG1123	Glutathione import ATP-binding protein GsiA	ATGGCTGACCATCTTCTCGACGTGCGCAACCTTTCCGTGGAGTTCCACACCGCAAGCGGTGTCGTCCATGCGGTAAAGGATGTCTCCTACCATCTCGACCGTGGCGAAACGCTGGCCATCCTCGGCGAAAGCGGCTCGGGCAAGTCGGTATCGTCCTCGGCTATCATGAACCTCATCGACATGCCGCCCGGACATATCAGCAGCGGCCAGATATTGCTTGATGGTCACGACCTTCTGACCATGCCGGCCGAAGCGCGCCGCGAGATCAACGGCCGGCGTATCGCCATGATCTTTCAGGACCCGCTCAGCCATCTCAATCCGGTCTATACCGTCGGCTGGCAGATCCGTGAGGCGATGACCACCCACGGCATGGACAAGGCAAAGGCCGAAGCGGAGGCGAGGCGGCTTGTCGCCCGCGTCGGCATTCCCGACCCGGACGGGGCCTTGAAGAAATATCCGCATGAATTTTCGGGTGGCCAGCGCCAGCGCGTCATGATCGCCATGGCGCTGGCTCTTCGGCCCGATCTCCTGATCGCGGATGAACCGACCACCGCGCTTGACGTGACGGTGCAGGCCGAGGTGCTTTCGCTGCTCAAGGAATTGCAGCGGGAAACCGGCATGGCCGTGCTCATCATCACCCATGATCTCGGCGTCGTTGCCGAAATCGCCGACCGGGTGGTGGTGATGGAAAAGGGTGTTCTGGTCGAGGCCGGCACGGTGCGCGAGGTTTATCGCAATCCGCAGCATCCCTATACCCGCAAGCTCATCAGTGCAGCACCCGGCAGGGGCGACATGCACGAGTCGGAGGCGACGGGCGAAGCGCTGCTCAGCGTGCGTGATGTGCGCAAGCGTTACGGCGCCTTCGAGGCGCTGAAGGGCATTTCCTTCGACCTCATGGAAGGCGAAACCATCGCGGTCGTCGGCGAAAGCGGTTCCGGCAAATCGACGCTGGCGCGTATTCTTTTGCGGCTAGACGAGCCGGATGCGGGCACCGCCTTGTGGAAGGGTCGCGACCTCTTCAAGCTTCCGCCTGCCGAACTCTTCGCGCTCCGGCGCGATTTGCAGATGGTGTTTCAGGATCCCACCCAGTCGCTCAATCCGCGCATGACGGTGTTTCAGCTGATTTCCGAGGCCTGGGTCATCCATCCTGAGATCTTGCCCAGAGCAAGATGGCGTGAGCGGGTTGCCGAATTGCTGCATCAGGTGGGTCTCTCGCCGGAACATATGCGCCGTTATCCGCATCAGTTCTCCGGCGGTCAACGGCAGAGGATCGCGATTGCCCGCGCATTGGCGCTGGAACCGAAGCTCATCATCTGCGACGAGGCGGTCTCGGCGCTCGATGTTTCGGTTCAGGCGCAGGTTATTGCACTGCTGGACAAGCTGCGCCGCGAAATGGGCCTCTCCTTCATCTTCATCGCGCATGATTTGCCGGTGGTTCGGGATTTTGCCGATCACGTCATGGTCATGCAGCGGGGAGAGGTGGTGGAGTTCGGCACGGTCCGCCAGGTTTTCGAAGCGCCGCGCGAGGCCTATACCCGTGCCCTTTTATCCGCGAGCCTCGATCCCGACCCCGATATGCAATCTCAGCGTCATCCGGCCGGTGCCGGTGACGCCATCGGAAATTCAAGCGGAGTTCTTTCATGA	MADHLLDVRNLSVEFHTASGVVHAVKDVSYHLDRGETLAILGESGSGKSVSSSAIMNLIDMPPGHISSGQILLDGHDLLTMPAEARREINGRRIAMIFQDPLSHLNPVYTVGWQIREAMTTHGMDKAKAEAEARRLVARVGIPDPDGALKKYPHEFSGGQRQRVMIAMALALRPDLLIADEPTTALDVTVQAEVLSLLKELQRETGMAVLIITHDLGVVAEIADRVVVMEKGVLVEAGTVREVYRNPQHPYTRKLISAAPGRGDMHESEATGEALLSVRDVRKRYGAFEALKGISFDLMEGETIAVVGESGSGKSTLARILLRLDEPDAGTALWKGRDLFKLPPAELFALRRDLQMVFQDPTQSLNPRMTVFQLISEAWVIHPEILPRARWRERVAELLHQVGLSPEHMRRYPHQFSGGQRQRIAIARALALEPKLIICDEAVSALDVSVQAQVIALLDKLRREMGLSFIFIAHDLPVVRDFADHVMVMQRGEVVEFGTVRQVFEAPREAYTRALLSASLDPDPDMQSQRHPAGAGDAIGNSSGVLS	PGPT0004435_4748	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004435-ddpD-K02031	NA	NA
BMS010_00859	924	gsiD_2	COG1173	Glutathione transport system permease protein GsiD	ATGAGCCTTTCCAATGCCGATACCGAAATCATCGCCGAGCCGTCCTTCGCAACGCGTATGCTGCGCATGTTGTGGGCGGATAAATTCGCGCTCTGCGCCGCGATCTTCCTCATCATTGTCATTGTCCTCGCTTTTATCGGCCCTGCCTGGCTTGGCGATCTGGCGACGAAACAGAACCTGCGCGGGCGCAACCTTGCCCCGTTCGACTGGCAGCGCGAGTGGTATTTCTGGATGGGGGCGGATGCGCTCGGCCGCTCGCTTCTCGCGCGCATTGTCGCCGCCACGCAAAACACGATGATGATCGCCGCTGGCGCGGTGCTTCTTTCCGCCATCACCGGCACCGTGCTCGGGTTGATCGCCGGTTTTTCCTCCAACCGTGTCGGCCAGATCATCATGCGGCTTGCGGATGTGATCATGTCGTTCCCGTCGCTCTTGATCGCGGTCATCGTGCTTTATCTGCTCGGTTCCTCCATCCTCAACCTGATGCTGGTTCTCGCCATCACCCGCATTCCCGTTTACATCCGCACCACGCGGGCAGAGGTGCTGGAGGTGCGCGAACGCATGTTCGTGCAGGCGGCAAGGGTCATGGGCGCATCGGGCAAACGCATCCTGTTCCGCCACATCCTGCCCGTCGTGTTGCCGACGCTGACGACGCTCGCCACGCTCGATTTCGCCTATGTGATGCTGGCGGAAAGCGCGCTGTCCTTCCTTGGCATCGGCATTCAGCCGCCGGAAATCACCTGGGGCCTGATGATTTCGCAGGGGCGGCAATATCTCACCAATGCCTGGTGGCTGTCCTTCTGGCCGGGACTTGCCATCATCCTCACCACCCTGTCGCTCAACCTGCTTTCCAACTGGCTGCGCATCGCGCTTGATCCCGTGCAGCGCTGGCGGCTGGAAATGAAAGGCAGCAAGCATGGCTGA	MSLSNADTEIIAEPSFATRMLRMLWADKFALCAAIFLIIVIVLAFIGPAWLGDLATKQNLRGRNLAPFDWQREWYFWMGADALGRSLLARIVAATQNTMMIAAGAVLLSAITGTVLGLIAGFSSNRVGQIIMRLADVIMSFPSLLIAVIVLYLLGSSILNLMLVLAITRIPVYIRTTRAEVLEVRERMFVQAARVMGASGKRILFRHILPVVLPTLTTLATLDFAYVMLAESALSFLGIGIQPPEITWGLMISQGRQYLTNAWWLSFWPGLAIILTTLSLNLLSNWLRIALDPVQRWRLEMKGSKHG	PGPT0004450_5666	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004450-ddpC|appC-K02034	NA	NA
BMS010_00860	915	gsiC_2	COG0601	Glutathione transport system permease protein GsiC	ATGCTGAGCTTCATCCGAAAACGTTCCGTTGCGAGCCTGATCTCCCTGATCGGCCTCATCGTCATGGTTTTTTTCCTGTCGCGCCTGACGGGGGACCCGGCCGCACTGTTTCTGCCGGTCGAGGCTTCGGAAGAGTTGAAGCAGCAGTTCCGGGCGTTGCACGGGCTGAATGATCCGCTGATGGTGCAGTTTTTGCGTTATGCGGGCGATGTAATGACTGGGGATCTCGGAGAATCGCTCAGAAAAGCCCGCCCAGCGCTTGATGTGGTGCTGGAGGCTTTCGTCTGGACGCTGTGGCTTGCGGTCATCACCATGTCGCTCGTTACCACCGCCGCCATCGTCATCGGTTCGCTTGCGGCTTTCCGCTCCGGCGGCTTCTTCGACCGCATGGCCTCGAGCATCTCGCTGATCGGTGCATCCGTGCCGGATTTCTGGCTGGCGATTGTCGCCATTGTCGTCTTCTCGGTCAATCTCGCCTGGCTGCCCACGTCGGGCACGGGCTCCGTGCTGCACTGGATATTGCCGATCGCGGTCCTGTTCGTGCGCCCCTTCGGCATTATCGTGCAGGTGGTGCGCGGCTCGATGATCGGCGCTTTGTCCTCTGCCTATGTGAAGACAGCGCGCGCCAAGGGCGTGAAGTCGGGTCCGATCATTTTCATTCACGCTTTGCGAAACGCCATGCTGCCGGTCATCACCGTCATTGGCGACCAGGCAGCAAGCCTTCTCAATGGTGCTGTCATCGTCGAAACCATTTTCGGTTTTCCCGGTGTCGGCAAGCTGATGATCGATTCCATTCTGCAGCGCGATTTCAACGTCGTGCTCGCCGCCATTCTCGTGACCGCGCTGGCGATTTTCCTGATGAATCTTCTGATCGATATCGCCTATGCGCTCCTCGATCCGCGTATCCGGCACTGA	MLSFIRKRSVASLISLIGLIVMVFFLSRLTGDPAALFLPVEASEELKQQFRALHGLNDPLMVQFLRYAGDVMTGDLGESLRKARPALDVVLEAFVWTLWLAVITMSLVTTAAIVIGSLAAFRSGGFFDRMASSISLIGASVPDFWLAIVAIVVFSVNLAWLPTSGTGSVLHWILPIAVLFVRPFGIIVQVVRGSMIGALSSAYVKTARAKGVKSGPIIFIHALRNAMLPVITVIGDQAASLLNGAVIVETIFGFPGVGKLMIDSILQRDFNVVLAAILVTALAIFLMNLLIDIAYALLDPRIRH	PGPT0004445_14648	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004445-ddpB|appB-K02033	NA	NA
BMS010_00861	1509	dppA_1	COG0747	Periplasmic dipeptide transport protein	ATGAAGAAGTCATTGATTGCGGGCGCCCTTGTCTTGGGTTCCCTCAGCGCCGCGGTTTCGCCGGCGCTCGCGGCATCGGGGCCGATCAAGATCGTGCTGGCGGAAGAGGCGGACCTGCTGGAGCCCTGCATGGCCACCCGCTCCAATATCGGCCGCATCATCATGGAAAATGTCAGCGAGACGCTGACCGAGCTCGATGTTCGCGGCAATAAGGGCGTTCAGCCACGCCTCGCCGAGAAGTGGGAGCAGAATGCCGATGGAAGCTGGCGTTTCCACCTGCGTGAAGGCGTGAAGTTTTCCGACGGCACGGCATTCGATGCCAAGGACGTCAAGCACAGCTTCGAACGCATCATGAGCGACAAGAACGCCTGCGAGTCCCGCCGTTATTTCGGCGGCATGACGGTGACCCCGTCTATCGTCGATGACCACACGATAGACTTCAAGACCGAACCGGCGCAGCCCATTCTGCCGCTCCTCATGTCGCTCGTCACCATCGTGCCCGAAGAAACCAAGATGGAATTCATCCGCGAGCCTGTCGGCACCGGGCCTTACAAGCTGACCAACTGGACCCCGGGCCAGCAGATTGTCCTCACCGCACGCGACGACTATTGGGGCGCCAAGCCTCAGGTGACGGAAGCGACCTATCTTTTCCGGGCCGATCCTTCGGTTCGCGCCGCCATGGTGCAGACCGGCGAAGCCGATCTTTCACCTTCCATTTCGCAGCTAGACGCTACCAATACGAAGACCGACTTTTCCTATCTCGACAGCGAGACCGTCTATATGCGTCTCGATCACAATATTGCGCCGCTGAACGATGTGCGGGTGCGCCGCGCACTCAACCTTGCCATCGACCGGCAGGCCTTCCTCGGCACGCTGGTTCCGGAAGGTGCCGTGCTGGCCACCGCTCTCGTTCCGCCCACCACGCTTGGCTGGAACCCCGACGTCAAGGTCTTCCCCTATGACCCCGAGGGCGCAAAAAAGCTGCTCGAGGAAGCCAAGGCTGCCGGTGTGAAGGTGGATACGCCGATCACCATCATCGCGCGCACCGCTAACTTCCCCAACGTCACCGAGATCATGGAAGCGATCCAGCAGCAATTGCAGGATGTCGGCTTCAAGATCGACCTGAAATTCGTGGAGGTGGCCGAGCACGAGAGCTATTACTCCAAGCCCTTCAAGGAAGGCCGCGGACCGCAGATCGTCGCCGCCATGCACGACAACTCAAAGGGCGACCCGTCCTTCACCATGTTCTTCAAATATGCCACCAAGGGCACTCAGTCCGGCTTCTCGGACAAGAAGGTGGACGATCTGATCGAACGTGCGTCCGCAGCCGTGGGTGACGAACGCGCCAAGCTCTGGTCGGAACTGATCGCTTATCTGCACGACGATGTGGTGGCAGATGTGCTGCTGTTCCACATGGTCGGCTTCTCCCGCGTCTCGGAACGGCTGGACTTCAAGCCCACCATCGCCACCAACTCGATGCTACAGCTTTCGGAAATCGGCATCAAATAA	MKKSLIAGALVLGSLSAAVSPALAASGPIKIVLAEEADLLEPCMATRSNIGRIIMENVSETLTELDVRGNKGVQPRLAEKWEQNADGSWRFHLREGVKFSDGTAFDAKDVKHSFERIMSDKNACESRRYFGGMTVTPSIVDDHTIDFKTEPAQPILPLLMSLVTIVPEETKMEFIREPVGTGPYKLTNWTPGQQIVLTARDDYWGAKPQVTEATYLFRADPSVRAAMVQTGEADLSPSISQLDATNTKTDFSYLDSETVYMRLDHNIAPLNDVRVRRALNLAIDRQAFLGTLVPEGAVLATALVPPTTLGWNPDVKVFPYDPEGAKKLLEEAKAAGVKVDTPITIIARTANFPNVTEIMEAIQQQLQDVGFKIDLKFVEVAEHESYYSKPFKEGRGPQIVAAMHDNSKGDPSFTMFFKYATKGTQSGFSDKKVDDLIERASAAVGDERAKLWSELIAYLHDDVVADVLLFHMVGFSRVSERLDFKPTIATNSMLQLSEIGIK	PGPT0004430_17519	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004430-ddpA|ABC_PE_S-K02035	NA	NA
BMS010_00862	1197			hypothetical protein	ATGACCCCTGATGACATCGCTCAAGCCATGACCGGAGCCATCCATGCCGTGTCGGAAGACCGGCAGGAAGCGTTCCTGCCGTCACCTATGATCCAGAACCATGCGAGCTTCCTGCACCTTCTGGATGACGGCACCCTGCTCTGCGCCTGGTTCGGCGGCACGCTGGAAGGAAAATCCGATATTTCGATTTTCGCATCCGTGCTGACAGTGGGTGCAACCCGCTGGGGACCGCCGCAGCGCCTGAGCCACGACCCCGCTCATTCCGAACAGAACCCGGTCCTCTTCACTGCGCCGGATGGCGTTCTCTGGCTGTTTCACACAGCCCAGCCCTCCGGCAATCAGGATGAATGCCGCATTCGCATGGCGCGAATCCACCGCGACGCGACTGCACCGGAAAAGCTTATTTCCGAGGCCGGCCGCTTTCTCGACCTTCCGAAAGGCTGTTTCATCCGCGCACCGCTGCGCATCCGCGATGACGGCGCTTGGCTGCTGCCGATCTTCCGCTGCGTCCAGCGCCCCGGCCAGAAATGGAACGGCAGCCATGATACGGCAGCGCTCGGCATATCCACGGACAATGGCGCGACTTGGCAATTGCAGGAACTGAAGGAATCGACCGGCTGCGTGCATATGAGCCCGGTCGCGGTGACGGATGGGCGCTACGCCGCCTTCTTCCGCCGCCGTCAGGCCGATTTCGTTTATCGCACCGAAAGCACCGATGGCGGCCGCTCGTGGTCAAAGCCACAGCCGACCGATGTGCCCAACAATAATTCCTCCATTGCCGTGATCAGTCTCAACTATGGCAGGCTGGCTATGATCTGCAACCCCGTCAACGCCGCGCAGTCCAGCGACCGCCGCGCCTCGCTTTATGACGAGCTGGGAGAGGAAGACGACAGGCCGGATGCCGATCCGAGCGGCGGCTGTGTACCGGTCTGGGGCGTGCCGCGCGCGCCGGTTTCTATCTGCCTGTCCGACGATGGCGGGCGCAGTTTTACCACCCGGATACTGATCGAAGACGGGCCGGGCACCTGCCTTTCGAACGATTCGACCGATGGGCGCAATCTGGAAATGTCCTATCCGTGGCTTCTGGAAGCGCCGGACGGTACGCTGCATGCGAGCTACACCTATCATCGCCGCGCAATCAAATATGTCCGGCTGGCGCCCGGCTGGGCTAACGAGAACGACGGGAGACAAAGATGA	MTPDDIAQAMTGAIHAVSEDRQEAFLPSPMIQNHASFLHLLDDGTLLCAWFGGTLEGKSDISIFASVLTVGATRWGPPQRLSHDPAHSEQNPVLFTAPDGVLWLFHTAQPSGNQDECRIRMARIHRDATAPEKLISEAGRFLDLPKGCFIRAPLRIRDDGAWLLPIFRCVQRPGQKWNGSHDTAALGISTDNGATWQLQELKESTGCVHMSPVAVTDGRYAAFFRRRQADFVYRTESTDGGRSWSKPQPTDVPNNNSSIAVISLNYGRLAMICNPVNAAQSSDRRASLYDELGEEDDRPDADPSGGCVPVWGVPRAPVSICLSDDGGRSFTTRILIEDGPGTCLSNDSTDGRNLEMSYPWLLEAPDGTLHASYTYHRRAIKYVRLAPGWANENDGRQR				NA	NA	NA	NA	NA
BMS010_00863	957	pdxA2	COG1995	D-threonate 4-phosphate dehydrogenase	ATGAGCAACATCATTGGTATCACTATGGGCGACCCCTGCGGCGTCGGCCCCGAGATCACGGTGCGGGCGCTCGCCGAAATGTCCGCCCCGGATCGTGCGGCGACGCGGATTTACGGCAACCTCGCCACGCTGGAAGCGGCGCGGGATGCGCTCGGCGTTGATATCGATCTCACTCAACATGTGGTCGACCTGCCTGTGGAGGGCGCGCCGCTGCCCTGGGGTACATTGTCGCCAGTGGCCGGAGACGCCGCGTTCCGCTTTATCGAAAAGGCCGTTCGCGATGCCGAAGCGGGCGCAATCGGCTGCATCGTCACCGCGCCGATCAACAAGGAAGCCCTGAATCTCGCCGGTCATCATTATGACGGGCACACCGGCATGTTGCGCAGCCTCACCGGCTCCTCGGCCGCCTATATGCTGCTCGCCTCCGAACGGTTGAAGGTCATTCACGTTTCCACCCACGTCTCCCTGCAGGAAGCCATTCGCCGGGCGACGACGGAGCGGGTGCTGGCAACCATCCGCGCCGGCAACGCGCATCTGAAGCGCATCGGTTACGAGCGGCCGCGCATCGCGGTTGCCGGCATCAACCCGCATTGCGGTGAAAACGGCCTGTTCGGCACCGAAGATGACGACCAGATTGCGCCAGCGGTCGCTGCCGCCCGCGCCGAAGGCATCGAGGTGCAGGGGCCGATTTCCGCCGATACCGTGTTCCACCGGGCCTATTCCGGCGCTTTCGATCTCGTCGTCGCGCAATATCACGATCAGGGCCATATCCCGATCAAGCTTGTCGCTTTCGACACCGCCGTCAATGTCTCTGTCGATCTGCCGATAGACCGCACCTCCGTCGATCACGGCACGGCTTTCGATATCGCCGGCAAGGGCATCGCCAATCACGGCAACATGAATGCGGCCATCGCCTATGCGCGCAAGCTGGTGGCGGGCAAGGAACGGAAGGAATGA	MSNIIGITMGDPCGVGPEITVRALAEMSAPDRAATRIYGNLATLEAARDALGVDIDLTQHVVDLPVEGAPLPWGTLSPVAGDAAFRFIEKAVRDAEAGAIGCIVTAPINKEALNLAGHHYDGHTGMLRSLTGSSAAYMLLASERLKVIHVSTHVSLQEAIRRATTERVLATIRAGNAHLKRIGYERPRIAVAGINPHCGENGLFGTEDDDQIAPAVAAARAEGIEVQGPISADTVFHRAYSGAFDLVVAQYHDQGHIPIKLVAFDTAVNVSVDLPIDRTSVDHGTAFDIAGKGIANHGNMNAAIAYARKLVAGKERKE	PGPT0018130_685	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ERYTHRONATE_UTILIZATION,PGPT0018130-pdxA2-K22024	NA	NA
BMS010_00864	1128	adh1_1	COG1454	Long-chain-alcohol dehydrogenase 1	ATGAGCACCATGTCGACAGCTCCCATTCTCCTCCACCAGCCACGACGGCTCGCCGTCGGCGCTGGCACCATTTCACAGGTCGGCACCTGGGCGGGAAAATCCGCATCGACCCTGATTATCGCCACACCGCTGACGGCGAAATTTGCCGAACGACTGCAATTGCAGGGCCCTTTCACGATCTTCGACGCCATTCCCGGCGAGCCGGACACAACAACGCTGGAAGCCGCCCTTGCCGCAGCACGCGCTGCCAAGCCGGATCTTGTCATCGGCCTCGGCGGCGGTTCGGTAATGGATGTGGCGAAGCTGGTCGCTGCCCTCTGGAATTCCAACCAGTCGCTTGAAGACGTGGCCGGGCCGAACAGGGTTGCCGGGCGCGACACACGGCTGGTGCAAATCGCCACCACTGCCGGCACCGGCTCGGAAGCCGGCATCCGTTCGCTCATCACAGACCCGGTGAAAGGCAACAAGATCGCGGTCGAAAGCCCTTATCTGATCGCGGATTTCGCCGTGCTCGATCCGGAACTCACCTATTCCGTCCCATCAGCCGTTACGGCGGCAACCGGGGTGGATGCCATGGCCCATTGCGTCGAAGCCTTCACCAACCGCAAGGCCCATCCGATGATCGACGGTTTCGCGCGCATGGGCTTTGCACTGGTCGGTAAATATCTGGCGCGCGCCGTTCGCGACGGTGCGGATACCGAAGCGCGGGAAGGCATGATGCTCGCCTCCTATTATGGCGGCATCTGCCTCGGCCCCGTCAATACGGCGGCCGGCCATGCCATCGCCTATCCGCTCGGCACGCTTCTCAACCTGCCGCACGGGCTGGCAAACGCCATCGTCTTTCCGCACGTTCTGGCCTTCAACCAGCCTGCGGTTTCGGCGAAGACGGCGGAAGTGGCGGGAGCGCTCGGGCTTCGCGAGCACCTTTCCCCTGATGATCTACGCAAGGCGGCAACGGATTTCTGTGCCGGGCTCGGCATCGAAATGTCACTCGCACGGCATGGCGCGACTGAGGCCGATCTTCCCCGATATGCCGAGGATGCGCATGCCATCCGTCGGCTAATGGACAATAATCCCGTCGATATGAGCGTCGAGGACGTGCTCGGCATTTACCGCCACGCCTTCTAA	MSTMSTAPILLHQPRRLAVGAGTISQVGTWAGKSASTLIIATPLTAKFAERLQLQGPFTIFDAIPGEPDTTTLEAALAAARAAKPDLVIGLGGGSVMDVAKLVAALWNSNQSLEDVAGPNRVAGRDTRLVQIATTAGTGSEAGIRSLITDPVKGNKIAVESPYLIADFAVLDPELTYSVPSAVTAATGVDAMAHCVEAFTNRKAHPMIDGFARMGFALVGKYLARAVRDGADTEAREGMMLASYYGGICLGPVNTAAGHAIAYPLGTLLNLPHGLANAIVFPHVLAFNQPAVSAKTAEVAGALGLREHLSPDDLRKAATDFCAGLGIEMSLARHGATEADLPRYAEDAHAIRRLMDNNPVDMSVEDVLGIYRHAF	PGPT0008305_525	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008305-adh1-K19954	NA	NA
BMS010_00865	708	lutR_2	COG2186	HTH-type transcriptional regulator LutR	ATGGGGCTGATGAAAGAAACGGCGCGCAAGGCACTTCCGGACATTATTTTCGAGAGAATGCACCGAGCGATCAAATCCGGGGCCTATAAGCCGGATGAGCGGCTGCCGACAGAGCATGAACTCGCCATGGAATTCGAAGTGTCGCGACCTGTCGTGCGCGAGGCGTTGCGGCGGCTGCGCGAGCAGGGGTTCATTTATTCCCGCAGAGGCTCCGGCAGCTATGTCAGGGCTTTTGGCCTGCGCGAGCCGCTTGGCTTCGGGCAGCTTGAAAACGTTGCGGATCTTCTCAACTGTTACGAATTCAGGCTGACGCTGGAGCCGGCTGCGGCGGCCGCGGCAGCCTTGCGGCACGATGGCGAGAGGCTTGCTGCGATCCGGAAGGCGCTCGAACTGATGCGGGATGCGACCAATCGCCAGTCCCACCGCGAGGATGCCGATTATCAGTTCCACCTCGCCATCGCGCGGGCGGCGCGAAACAGCTATTTCTCCACCGCGATGGAAGCGCTCAAGGACCATATTGCAATGGGAATGAAGTTCCACGGCATGTCGGTGAAGCGGGAGGCATCCGGCCTGACGCGTGTTTTCGCCGAGCATGAGGCAATCGCAAAGGCGATTGCCGATGGGGACGCAGAGGCGGCGCGCCAGTTGATGCTCCAGCACCTGACCGGATCGCGCGACCGCCTGTTCGAGTCTTCGCACGCGGATTAA	MGLMKETARKALPDIIFERMHRAIKSGAYKPDERLPTEHELAMEFEVSRPVVREALRRLREQGFIYSRRGSGSYVRAFGLREPLGFGQLENVADLLNCYEFRLTLEPAAAAAAALRHDGERLAAIRKALELMRDATNRQSHREDADYQFHLAIARAARNSYFSTAMEALKDHIAMGMKFHGMSVKREASGLTRVFAEHEAIAKAIADGDAEAARQLMLQHLTGSRDRLFESSHAD				NA	NA	NA	NA	NA
BMS010_00866	1056			hypothetical protein	ATGAAGGCCTCACCCGTGCTGCTGATTTTTGCCGATGATCTGACCGGAGCGCTCGACGCCGCCGCTCCCTTTGCCGGGCGCGGGCTGGCGACCGAGGTTGCGATAGGGCTTGACGGTGTACGTGCGGCGCTGGCGGATGCGCCCGCCGTCCTTAGCGTCAATCTTGGCTGCCGTGATGGCGAAGCGGATGAAGCCTGGCGTCGCACGCAGGAACTGTTGGGGCTGGCTCCCGCCGATGCTGTCCTTTTCAAGAAGATCGATTCCCGCCTGAAAGGGCATATTGCCGCGGAAATGGATGCGATTTCCTATCGGCACGCGCTTGTCGCGCCCGCCATTCCGGATTTCGGACGAGTCGTTACTGGCGGAGCCGTTTCCGGCTTTGGCGTCGAAGCTGCCATTCCGGTTCATGAAAGGCTGGGCGGACATGCCGGCCGCTGCACGATACCCGACACGCGATCACAGGGCGATATCAGGGAAGCTCTCACCGCCGCGCAGGCGGAAGGGGCCGATCTTTTGGTTGGCGCGCGTGGGCTTGCCGAGGCGCTGGCTGAAGCGATGACGGCGCAGACTGTTCCAGAGGTCGCGGTCATTCCACCCGGCAGGGGGCTTTTTGTCATCGGGTCTCGCGATCCGATCACTGTGGAGCAGATCGACGTTCTCAAAAGCGTTGGGCCTGTCTCGATCATAGAGGCGCCGAATGGCGTCATGCCCCGCCACACCGATGACGGTGCCGCTCTGACGCTGGTTCAAGCGACGCAGGGTAAGGAAAATCTGTCGCCGCTTGCGGTTTCAGACCGGTTGGCGGAGGGCGTCGTGCCGCATCTTACCGCGAGCGCCGCCAGGCTGCTGTTATCGGGCGGAGCCACGGCCGAGGCCGTGCTGCGGGCCATGGGCGTTTCGCGCCTGCGTCTTGCCGGCGAATGCCTGCCGGGTCTCGGGGTCGGCTGGTCCGGCGATCAATGCATCATTGCGAAGTCCGGCGGTTTTGGGCAAGCTGACACGTTGAAACGGATCGCGAAAATGATGCTTGGCGACAACGATGCTGGAGAGAGCTGA	MKASPVLLIFADDLTGALDAAAPFAGRGLATEVAIGLDGVRAALADAPAVLSVNLGCRDGEADEAWRRTQELLGLAPADAVLFKKIDSRLKGHIAAEMDAISYRHALVAPAIPDFGRVVTGGAVSGFGVEAAIPVHERLGGHAGRCTIPDTRSQGDIREALTAAQAEGADLLVGARGLAEALAEAMTAQTVPEVAVIPPGRGLFVIGSRDPITVEQIDVLKSVGPVSIIEAPNGVMPRHTDDGAALTLVQATQGKENLSPLAVSDRLAEGVVPHLTASAARLLLSGGATAEAVLRAMGVSRLRLAGECLPGLGVGWSGDQCIIAKSGGFGQADTLKRIAKMMLGDNDAGES	PGPT0018125_654	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ERYTHRONATE_UTILIZATION,PGPT0018125-dtnK|denK-K22129	NA	NA
BMS010_00867	2244			hypothetical protein	TTGACCATTCCAGGTGTTGTTATTGTCGGCGGCGCTCACGGTACGCTCGCCCTTGCCCGAAGCCTTGGCGCCCTGAATGTGCCCGTTTATTACCTCACCCACGATTCTCCTTTGCCGGGTTGGTCGCGTTTCGTGCGGAAAACAATCCGCTGGGCCGGCCCGCATGATGCCGGGGCACTGCCGTTCCTGCGTCAAATGGCCGACAAGCATGGTTTGAAGGGCTGTCTGCTGGTGCCGTCCGGCGACGGAGAGGTCCAGCTTGTTGCGCAGCATCGTGAGGAACTGTCCTCGCTTTACAAAATCATCCTGCCGGATTGGACCGCGCTGCAATGGCTCTGCGAAAAGCCGCTGCTTTACCAGCGCGCCGCAGAACTTGGCGTCAGTATTCCGCGAACCTATGCGCTGGCATCGGCCGCTGACATCGATACGCTGGACATATTGTTTCCCGTCATTCTCAAGCCGAATATGGGCGGTGGCGATACCACCATCGCCAGAGCGAAAGTCATTCGCGCCGATGACCGACATGCTCTGAAAACGGCTTTTGCCGAAGCGAGTGGAGAGATCGGCGCTGGCAATGTCGTCGTACAGGAACTCATTCCGGGTGGGGGAGAAAGCCAGTTCTCCTACGCCGCGCTCTGGCTGAACGGAGAGCCGGTAGCGGAATTCACTGCCCGGCGCGCTCGGCAATATCCTGTCGATTTCGGCTATACCAGCACCAGCGTCGAGGTCGTCGACAACGGGCAGGCGGTGGATGCGGCCCGAAAAATACTGAAATCGGCCGGTCATAGCGGGCTGGTCGAGGCGGAATTCAAGCTCGACGGCCGGGACGGAAAACTGAAGCTTCTCGATGTCAATCCACGCCCATGGTCATGGTTTGGCCTTTGCTCTGCAGCGGGCATCGACCTTGGCGCCCTGCTATGGCGGGTCGCCAATGGCGAGCCGGTCGGCCAGCCCGGCAATGCGCGGCAGGGCGTTTCCTGGTCCTATCTTGTCCGCGATTCCGTTGCCGCCTTCACATTGGCCCGAAGGGGGCAGGCGAAAATCGGCGACTATTTCGCTTCTCTTCGCAATATCCGCAGCTGGGCCGCCTTTGCGCCGAACGATCCCTTGCCGGGCCTGATCGATCTGCCGTTGACGGTCTCGAGAGTCGTGAGAAAACGCCTTCTTCCCGGCCTGACATCAGGACAATCGGGGAGGGTGTTTTTACAACCGGTAAAACGACTTGTGAAATACGGGGCCATAAGGGCGGGGCTGGAGGTGAGTTCTCTCCCGGCCCTCCGTTCGGCATTTCCGTCTTTTGCCGGGCGTGGTGTGATCTTCACGCTTCATCATGTGCGCCCCGGAGGGGCTGTTTCGGCTTTCGCACCCAATGTGCAATTGTCCGTCACGCCGCAATTTCTGGAAGAGGCGATACAGGCCGCACTCGAATGCGGTCTCGTTCCAGTCCATCTGCACGATCTGCCGGCTCTGCTTGCCGTTAATCACGAGGGCCGGTCGTTCTGCGCCTTCACGCTTGATGACGGCTATCGAAACAATGCCGACTATGCCGCGCCGATCTTCCGTAAATATGCCGTTCCCTACACGATTTTCATCACGCCGGGTTTTGTGGAGCGGACACGCAGCCTCTGGTGGGAAACCGCTGCTGCCCTGACGCAGAAAGTCGCGTCGTTCGAATTCGATTTCGGGGCGGGGCCGGAGCACGTGGCATGCGCCAGCCCTTCGCAGAAAGCGGAGGCATTCACGCAGCTTGAAGATTTTGTCCAGAACTTTTCGGAAGACGAGGCGGTGGAAAGGATCGATCGTGTCGCGAGGCAGCATGGCGTCGATCCCATCGCGATCGTGGACGAACTTGTCATGGATGAAAATGAGCTCAGGGCGCTGGCGCAGGACCCTCTGGTGCATTTCGGCGCGCATACCATGACGCATGTGAATATGCGTAAGGTGGATGCGGCGCGTCTGGCTTATGAGATCGCGGAATCGACGCGCCGGGTGGAAGCCTATGCCGACCAAAGGCCGCGGTCCTTTTCCTATCCCTATGGCTGGGTAAAGGCAGTGGGGGAACGGGAAGCAAAAGCGGTTCAGGATGCAGGATTTTCCGCGGCAGTGACCACGCAGGCTGGCGTTATCGGTTCCCACAGCCTTGAAAAGCCGACGCAGTTACCGCGTGTATCGCTGAATGGACGCTTTCAGAAAAAGCGCTTCGTCAAGGCGCTCATCTCGGGCCTGCCCTTCCGGTTCATCTAG	MTIPGVVIVGGAHGTLALARSLGALNVPVYYLTHDSPLPGWSRFVRKTIRWAGPHDAGALPFLRQMADKHGLKGCLLVPSGDGEVQLVAQHREELSSLYKIILPDWTALQWLCEKPLLYQRAAELGVSIPRTYALASAADIDTLDILFPVILKPNMGGGDTTIARAKVIRADDRHALKTAFAEASGEIGAGNVVVQELIPGGGESQFSYAALWLNGEPVAEFTARRARQYPVDFGYTSTSVEVVDNGQAVDAARKILKSAGHSGLVEAEFKLDGRDGKLKLLDVNPRPWSWFGLCSAAGIDLGALLWRVANGEPVGQPGNARQGVSWSYLVRDSVAAFTLARRGQAKIGDYFASLRNIRSWAAFAPNDPLPGLIDLPLTVSRVVRKRLLPGLTSGQSGRVFLQPVKRLVKYGAIRAGLEVSSLPALRSAFPSFAGRGVIFTLHHVRPGGAVSAFAPNVQLSVTPQFLEEAIQAALECGLVPVHLHDLPALLAVNHEGRSFCAFTLDDGYRNNADYAAPIFRKYAVPYTIFITPGFVERTRSLWWETAAALTQKVASFEFDFGAGPEHVACASPSQKAEAFTQLEDFVQNFSEDEAVERIDRVARQHGVDPIAIVDELVMDENELRALAQDPLVHFGAHTMTHVNMRKVDAARLAYEIAESTRRVEAYADQRPRSFSYPYGWVKAVGEREAKAVQDAGFSAAVTTQAGVIGSHSLEKPTQLPRVSLNGRFQKKRFVKALISGLPFRFI				NA	NA	NA	NA	NA
BMS010_00868	390		COG1607	putative acyl-CoA thioester hydrolase	ATGGACCAGCAACCGCCCGCCGATATGGAACTCACGCTCAGAACGCTTGCGATGCCCGCCGATGCCAACCCCGCCGGCGATATTTTCGGCGGCTGGGTCATGTCGCAGATGGACCTTGCCGCTTTCGTCCGCGCCAATGATGTGGCCGGCGGCCGCACTGTCACCGTCGCAGTCAATGAGATCGTCTTCAAGAAGCCGGTCAAGATCGGCGACACATTGTGTGTCTACACCAAAATCGAAAAGATCGGCCGCACCTCCGTCACGTTGAAGATCGAGGCCTGGACCCGCAGGCACTATCAGGATTCTCGCGAGAAGGTGACGGAGGCCGTTTTCATCATGGTCGCGGTGGACGACAACGGCGATCCGCGTCCTGTCCGCAAGGAGGCGTGA	MDQQPPADMELTLRTLAMPADANPAGDIFGGWVMSQMDLAAFVRANDVAGGRTVTVAVNEIVFKKPVKIGDTLCVYTKIEKIGRTSVTLKIEAWTRRHYQDSREKVTEAVFIMVAVDDNGDPRPVRKEA	PGPT0001830_545	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001830-yciA-K10806	NA	NA
BMS010_00869	195			hypothetical protein	ATGGCCTATGACTGGAGTGGAAACAACACAATACAGCAGCGCTACGACCGTATCGTCCTGGCGGTCGCCAGCGTTGTCGCCATCAGCCTGGCGACCGGCACCCTTGCCCTGCGTTCGCAGGTGGAGCCGGACACCACCATAAGCCTTGCCAAACAGCAGCGGCTCGATTCGGACAAATGGCATTTGCGGCTCTAG	MAYDWSGNNTIQQRYDRIVLAVASVVAISLATGTLALRSQVEPDTTISLAKQQRLDSDKWHLRL				NA	NA	NA	NA	NA
BMS010_00870	1809	yddA	COG4178	Inner membrane ABC transporter ATP-binding protein YddA	ATGGCAACAACGGTGACCGACGATCAGCGCAAAAGCGCGGCTAATCTTTCGGGTTTCGATCTCGATTTCCCGGCGCAGCTGCGCATGATGGGGCGTGCCTTCTGGACCTCGCCGGTGCGCACCCGGCTGATCTTGCTGTCGATAGCGCTGCTCACGGTGATATTGCTCACCGCCTATGGGCAGATCAGGCTCAATGAATGGAACGCGCCGTTTTACAACGCGCTGGAGCGGCGCGATCTTGCCGCCTTCATTCACCAGCTGGAGGTCTTCGCCATCATCGCGGGGCTGTTGCTTCTCCTCAACGTCATCCAGACCTGGCTGAACCAGATGACGGCGCTGAACATGCGCGAGGGCCTTGCCAAGGATATGGTGGATCAATGGCTGAAACCGGGACGGGCCGCCCGTCTTGCCGGTTTCGGCACGATTGCGATCAACCCCGACCAGCGCCTGCATGACGATGTCCGCAATCTGGCTGAAAGCAGCACGGCGCTTTCCATCGGTCTCGTCAATGCGACGATCCTGCTGGTCAGCTTTATCGGCGTCCTCTGGTCTCTCTCGGCCGGCTTTGCCATCACCATCAGCGGCGATACCTATGCGATCCCCGGCTATATGGTCTGGGCGGCGATCCTTTACGCCGGTTCCGCCTCCCTGCTCAGCAATCTCGTCGGTTATCGGCTGGTGGGGCTGAATGCCGAGCGTTATTCCAAAGAGGCGGAGCTTCGCTTCTCACTGATGCGTGCCAGCGAAAATCTTGCCGCCATTGCCCTTGCACGTGGCGAAAAGAACGAAAGGCGGCGGATAGGCATCGATATTGATGCGGTGCTCGGCGTCATTCGCGGGCTCGCCATGGCGCTAACGCATCTGACATGGGTTTCGGCAGGATATGGCTGGCTGGCGGTGGTGGCGCCGATCCTGATCGCGGCTCCGGTTTATTTCTCCGGCAACCTCACCTTCGGCGGGCTGATGATGGCCGTCGGTGCGTTCAATCAGGTCAACACGGCGCTGCGCTGGTATATCGACAATTTCGGGCCGATCGCCAGCTGGAAGGCGACATTGCAACGCGTTTCGGTGTTCCGTAACGCGCTTATCCAGATGGACAGCGTCGAACAGCACGGCCTGGCGATCGATCTGCAACGCAGCGCGGAGAATGAAAAAATCCGCCTCCAGTCGGTAGTGATCTGCCGCGATGCGGGTGGGCAGGATCTGGATCGCGGCTTCCAGCTGCGCGAGAGCGAAGTCGAGATCGGGCCGGGCGAACGGCTGATGATCAATGGCGAGCAGGGCGTGAACCGAAGGCTGCTGTTTGCGGCCATGGCGGGCCTGTGGCCCTGGGGGCAGGGCAGGATTGAGATGCCCGAGCAGTCCGACACGCTTTTCATCGCCCAGCACGGCTATTTGCCGGCGGGATCGCTGCGTGAAATCCTCGCCTATCCGCGTGCGCCCCAGCGTTTCGCCGATGCGGATTATGTCTCGGCGCTCACAGCCTGCGGGCTTGGCGAGATGGCATCCCGTCTCGAGGAAAACATTCGCTGGGATAAAAAACTGGATTCGGATGAGCAGGCCAGCATTCGGGTTGCCAATGCCCTGCTGCTGAAGCCGAAATTCGTCGTTATCGACGATTTGCTCGAAGGGCTGGAAAAACAGACGCAGGATACGCTGGCGGAAGTTCTGAACGGGATCGAGGGTGCGGCGATCGTCTATATCGGCCGGTCGGAAACATTCCTGTCGGTGCTCGCCCCGGCTGTGGCGCATCTCGACCATACCGCGCAGAAGGAAAATATCTCCAGGCCCGGGAGTGCTCCGCAATAG	MATTVTDDQRKSAANLSGFDLDFPAQLRMMGRAFWTSPVRTRLILLSIALLTVILLTAYGQIRLNEWNAPFYNALERRDLAAFIHQLEVFAIIAGLLLLLNVIQTWLNQMTALNMREGLAKDMVDQWLKPGRAARLAGFGTIAINPDQRLHDDVRNLAESSTALSIGLVNATILLVSFIGVLWSLSAGFAITISGDTYAIPGYMVWAAILYAGSASLLSNLVGYRLVGLNAERYSKEAELRFSLMRASENLAAIALARGEKNERRRIGIDIDAVLGVIRGLAMALTHLTWVSAGYGWLAVVAPILIAAPVYFSGNLTFGGLMMAVGAFNQVNTALRWYIDNFGPIASWKATLQRVSVFRNALIQMDSVEQHGLAIDLQRSAENEKIRLQSVVICRDAGGQDLDRGFQLRESEVEIGPGERLMINGEQGVNRRLLFAAMAGLWPWGQGRIEMPEQSDTLFIAQHGYLPAGSLREILAYPRAPQRFADADYVSALTACGLGEMASRLEENIRWDKKLDSDEQASIRVANALLLKPKFVVIDDLLEGLEKQTQDTLAEVLNGIEGAAIVYIGRSETFLSVLAPAVAHLDHTAQKENISRPGSAPQ	PGPT0009345_595	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES|BLEOMYCIN,PGPT0009345-bacA|yddA-K02471	NA	NA
BMS010_00871	3327			hypothetical protein	ATGGCGATCAAAGCGAGCATCTATCATCTGACGCATTATAAATACGACAATCCGGTTCGCCTTGGACCACAGATCATAAGATTAAAGCCCGCCTCGCACTCCAGAACCCGTGTTATCAGCCATTCGCTCAAGGTTTCGCCCTCCAATCACTTCGTGAACCTTCAGCAGGATCCCTACGGCAATTACCTCGCCCGCTTCGTTTTTCCCGAGCCCGCGACGGAATTTAAGATCGAGGTCGATCTTGTCGCCGATATGACGGTTTACAATCCGTTCGATTTCTTTGTGGAGGAAGAGGCGACAAAGTGGCCCTTCGACTATCCGCAGGAATTGCGCGACGATCTCTCTATCTACATGAAGCCGGAGCCGACAGGCCCGCTGCTTGCCGCCTTCATGTCCACCGTCGACCGCACGCCGGGGCAGCAGACGGTGGACATGGTCGTTGGCCTCAATGCCCGCCTGCAACAGGAGATCGGTTACGTCATCCGCATGGAACCGGGCGTCCAGACGCCGGAGGAGACGCTTGCTTCCGGCAAGGGGTCCTGCCGCGATACCAGCTGGCTGCTCGTGCAGGTTCTGCGGCATCTTGGCCTCGCCGCCCGTTTCGTGTCGGGATATCTCATTCAGCTCACCCCCGATCTCAAAGCGCTGGATGGCCCATCCGGCACCGAAGTGGATTTTACCGATCTGCATGCCTGGGCCGAAGTCTATATGCCCGGCGCGGGCTGGATCGGCCTTGACCCCACCTCGGGACTTCTGACGGGCGAGAGCCATATTCCGCTGGCGGCAACGCCGCATTACCGCAATGCGGCGCCGATTTCCGGCGGTTATTACGGCCATGCCAACACGGAATTCGCCTTCGACATGCAGGTCCGGCGGGTTGCCGAAACGCCGCGCATCACCAAACCTTTTTCGGATGAAAGCTGGGAGGAACTCAACGCGCTCGGTCAGGAGGTCGATGACGTTCTGAACAGCCATGATGTCCGGTTGACCATGGGCGGCGAACCGACCTTCGTTTCCATCGACGATTTCGAATCCGACGAATGGAACACCGGCGCGGTCGGGCCGACAAAGCGTGAGAAGGCCGATGCCCTGATCCGCCGCCTGCGTGAACGTTTCGCACCGGGCGGCTTTCTGCATTACGGACAGGGAAAATGGTATCCGGGCGAAAGCCTGCCGCGCTGGACCTTCTCGCTCTATTGGCGCAAGGACGGCATGCCGATCTGGCAGAACCCGGCGCTGATCGCCGAGGAGGGCGCAAATACAAGCGTCAAGGCGGAAGATGCGCAAAAGCTGCTGGGCGGTATAGCCTCCCATCTCGGCATCGAGCCGGAACTGGTGCTGCCGGCCTATGAGGATCCGGCCGAATGGATCATCAAGGAAGGCAGCCTTCCCGACAATGTCGACCCGTCCAATTCCAAGCTGAAAGACCCGGAGGAGCGAAACCGCATGGCCCGCGTCTTCGAACGGGGACTGACGACACCGACCGGTTACATTCTTCCCGTTCAGGCGTGGAATGCGCGCGCCGCCGGCAAACGCTGGATCAGCGAAAAATGGAAGACGCGGCGCGGTAAAATATTCCTGGTTCCGGGTGACAGCCCGGTGGGTTACCGCCTGCCGCTCGGCACCCTTCCCTATGTGCCATCATCCGCCTATCCCTATATTCATGAAGCCGATCCTTCGATCCCCCGCGGTCCGCTTCCCGATGTTCTGACGCCATCGGGCCGCGCCATGCCCGAAGCCTCCTTCCACGCCAGCGAGGCCGCAGGGCAGGAGCGCATCGAACAGACGCTCAGCGAAATCGGCGGCGCGGTGCGCACCGCCATGTCGGTAGAACCGCGTGACGGAAGGCTCTGCGTCTTCATGCCGCCGGTCGAGCGCATCGAGGACTATCTCGAACTGATTGCAGCAGCGGAAGCGGCAGCCGCCGATCTTGGCTTGCCCGTCCATATCGAGGGTTATGCGCCGCCGCATGACGAGCGCGTCAATGTCATCCGCGTCGCACCCGATCCCGGCGTCATCGAGGTCAACATCCATCCCGCCGCGGGCTGGAAGGATTGCGTCGACATCACCACGGCTGTTTATGAGGAAGCGCGTCAGTCGCGTCTCGGCGCCGACAAGTTCATGATCGACGGCCGCCACACCGGCACCGGCGGCGGAAACCATGTGGTCGTGGGCGGCGCCAACCCCAATGACAGCCCCTTCCTGCGCCGGCCCGATCTTCTCAAAAGCCTCGTTCTGCACTGGCAGCGGCATCCCTCGCTCTCCTACCTTTTCTCAGGCCTTTTCATCGGCCCGACGAGCCAGGCGCCGCGTATCGACGAAGCCCGCCACGACAGTCTCTACGAGCTGGAGATCGCGCTTGCGCAGGTGCCTGCCCCCGGAGAAGGCGTGCCGCCCCTGCCATGGCTGGTCGACCGGCTGTTCCGCAATCTTCTGACGGATGTGACGGGCAATACCCATCGCGCCGAAATCTGCATCGACAAGCTGTTTTCCCCTGACGGGCCGACCGGCCGCCTCGGGCTGGTGGAGTTCCGGGGCTTTGAAATGCCGCCAAATGCGCGCATGTCGCTCGCCCAGCAATTGCTGGTGCGCGCCCTCATCGCCCGCTTCTGGAAAAATCCGGCCGCCGGCAAATTCGTGCGCTGGGGTACGGCGCTCGCCGACCGCTTCATGCTGCCGCATTATATCTGGGCGGATTTCCTCGACGTGCTTGCCGACCTCAGGGAAAACGGTTTCGACCTCAAGCCAGAATGGTTCACCGCCCAGCAGGAATTCCGTTTCCCCTTCTTCGGGGAAGTGGAATATGAGGGCGCGAAGCTGGAATTGCGCCAGGCGCTGGAGCCCTGGCATGTGATGGGCGAACAGGGCGCCATCGGCGGAACCGTGCGTTATGTCGACAGCTCCGTCGAGCGCCTGCAGGTGCGGCTGGAAACCTCCAACCCCGCCCGTTACGCGGTGGCATGCAACGGCCGCGCCGTTCCGCTGACCCCGACCGAAAACCGCAGCGTCGCAGTCGCCGGCGTTCGCTTCAAGGCATGGCAGCCCGCTTCCGGCCTGCATCCCGTTCTGCCCGTCAATTCACCCTTGACCTTTGACATTTATGATACATGGTCGAGGCGATCGATCGGCGGATGCATCTACCATGTTGCTCATCCGGGCGGGCGCAATTACGAGACCTTTCCCGTCAACGGCAATGAGGCCGAGGCACGCCGCCTCGCCCGTTTCGAACCATGGGGACATACGGCAGGGCAATATCCGCTACAGGCGGAAACCATGTCGCCAGAATTTCCGCTGACGCTCGATCTGCGTCGGCCTTACGGAGTGTAA	MAIKASIYHLTHYKYDNPVRLGPQIIRLKPASHSRTRVISHSLKVSPSNHFVNLQQDPYGNYLARFVFPEPATEFKIEVDLVADMTVYNPFDFFVEEEATKWPFDYPQELRDDLSIYMKPEPTGPLLAAFMSTVDRTPGQQTVDMVVGLNARLQQEIGYVIRMEPGVQTPEETLASGKGSCRDTSWLLVQVLRHLGLAARFVSGYLIQLTPDLKALDGPSGTEVDFTDLHAWAEVYMPGAGWIGLDPTSGLLTGESHIPLAATPHYRNAAPISGGYYGHANTEFAFDMQVRRVAETPRITKPFSDESWEELNALGQEVDDVLNSHDVRLTMGGEPTFVSIDDFESDEWNTGAVGPTKREKADALIRRLRERFAPGGFLHYGQGKWYPGESLPRWTFSLYWRKDGMPIWQNPALIAEEGANTSVKAEDAQKLLGGIASHLGIEPELVLPAYEDPAEWIIKEGSLPDNVDPSNSKLKDPEERNRMARVFERGLTTPTGYILPVQAWNARAAGKRWISEKWKTRRGKIFLVPGDSPVGYRLPLGTLPYVPSSAYPYIHEADPSIPRGPLPDVLTPSGRAMPEASFHASEAAGQERIEQTLSEIGGAVRTAMSVEPRDGRLCVFMPPVERIEDYLELIAAAEAAAADLGLPVHIEGYAPPHDERVNVIRVAPDPGVIEVNIHPAAGWKDCVDITTAVYEEARQSRLGADKFMIDGRHTGTGGGNHVVVGGANPNDSPFLRRPDLLKSLVLHWQRHPSLSYLFSGLFIGPTSQAPRIDEARHDSLYELEIALAQVPAPGEGVPPLPWLVDRLFRNLLTDVTGNTHRAEICIDKLFSPDGPTGRLGLVEFRGFEMPPNARMSLAQQLLVRALIARFWKNPAAGKFVRWGTALADRFMLPHYIWADFLDVLADLRENGFDLKPEWFTAQQEFRFPFFGEVEYEGAKLELRQALEPWHVMGEQGAIGGTVRYVDSSVERLQVRLETSNPARYAVACNGRAVPLTPTENRSVAVAGVRFKAWQPASGLHPVLPVNSPLTFDIYDTWSRRSIGGCIYHVAHPGGRNYETFPVNGNEAEARRLARFEPWGHTAGQYPLQAETMSPEFPLTLDLRRPYGV				NA	NA	NA	NA	NA
BMS010_00872	2406		COG2307	putative protein	TTGTCCAAAGCCCCGGCAACGGAACGCAAGACGGAAACGAGCGCGCAACCGCGCGGGCTTGAATATTCCCCCTTGCCGGGTGTTGCCGACGAAATGCTCGATACCAACGGCAAGGTCAGGCCGGTCTGGAAGACCCTGCTCGACGCCCTGTCGCGCATGTCGGAACGGGAATTGCACGAGCGCTTTGCCCGCACCGACCGCTACCTGCGCGATGCCGGCGTGTTCTACCGCGATTACGGCAAGGGCAGCAGTGAAAGAAACTGGCCAATCTCCCATATTCCGGTCCTGATCGACGACAGGGAGTGGGCGGTTCTTTCCGAGGGGCTGAAACAGCGCGCCAATCTTCTGGAAGCCATGGTCGCCGATTTTTACGGCGAAAACCGGCTGGTCAAGGAAGGTTTCGTACCCCCGGCCCTGATCGCCTCCAATCCGGAATATCTGCGGCCCATGGTCGGCGTGAAACCGGCAAGCGGCCATTATCTGCATTTCTGTTCCTTCGAGATCGGGCGCGGACCTGACGGCAACTGGTGGGTGCTGGCCGACCGGACACAGGCGCCTTCCGGTGCGGGTTTCGCACTCGAAAACCGGGTGGCCACCACCCGTGCACTTTCCGATATCTATGCCGAAACCCATGTGCACCGTCTGGCCTCGTTCTTCGGCGCTTTCCGCGACACGCTGCAGGCGCAAAGAAAGCACCCCGACGACCGGATCGCCGTGTTGACGCCCGGCCCCGCCAACGAAACCTATTTCGAACACGCCTATATCGCACGTTATCTCGGCTTCATGCTGCTGGAAGGCGAAGACCTCACTGTCGTCAACGGCCGCGTCATGGTCAGAACCGTAGCGGGGCTGAAACCGGTTGGCGTTCTCTGGCGGCGTCTCGACGCCTCCTATTCCGATCCGCTGGAACTGAACCAGCAATCCCATATCGGCACGCCGGGCATGGTGCAGGCGCTGCGCAATGAGGCGCTCACCGTCGTCAATGCGCTCGGCAGCGGCATTCTCGAGACGCGGGCGCTGCTCGCCTTCATGCCGCGCATCTGCCGCCACATTCTGGGCGAGGAGCTGAAACTGCCATCGATTGCCACCTGGTGGTGCGGGCAGGAATCGGAACGCCGCCATGTCGCCGGCAATATCGAAGGCATGGTCATCGGCCCGGCTTATTCCCGGCTTCCCTTCTTCGACGATAACGGTCAGTCCGTGCTCGGCTCGTCGCTGCGCGAAACGGCGAAGGAATCGATCAGCGACTGGCTCGCCTCCGACGGCCACAGGCTGGTGGGACAGGAAGTGGTGACGCTTTCGACAACCCCGGCCTATATCGACAACAAGCTCGTGCCGCGCCCGATGAGCCTTCGCGTTTTTGCCGCGCGCACCCAGGACGGCTGGCAGATCATGCCCGGCGGCTTTGCCCGTATCGGCAGCAGCAACGATGTCTCCGCCATCGCCATGCAATCGGGCGGAAGCGCTGCGGATGTATGGATCGTCAGCGACAAGCCGGTGGAACGCACCACGCTACTGCCGGCGGAAGAAAGCTTTACCCGCAATATGCCGGGCAGCCTGCCGAGCCGCGCAGCCGACAATCTCTTCTGGCTCGGCCGTTATATCGAGCGTTCGGAAGGCGCCCTGCGCATCCTGCGCGCCTGGCACGGGCGTTATGCCGAATCCGCCGATCCGCGCCAGCCTCTGCTCGCGCATGTGACACGCTATCTCGAAGCGCTCGATGTGGAGATGAGCGATGCCGTGCCGGAAAGCCTGCTGAACAACATCAACAGCGCGCTTTATTCCGCCAGCAATATCCGCGACCGCTTTTCGCCCGACGGGTGGCTGGCGCTGAACGACCTTGCCAAGACCGCCCGCCGTTTCCACGCGAAAGTGGCCCCCGGCGACGATGCTACCCATGCCATGACGATCCTGCTGCGCAAGCTTGCGGGCTTTGCCGGTCTCGTGCACGAAAACATGTATCGTTTCACCGGCTGGCGTTTCCTGTCGATCGGCCGCTACCTGGAGCGCGGCCTGCATATGACGCGTCTTCTCGGCCATATGACCGGCCCGGACGCACCTGACGGCTCCTATGACATGCTGCTCGAAATCGGCGACAGCGTCATGACCCATCGCCGGCGCTACAACGTCAATACGGCCGGCCTGACCGTGACCGATCTTCTGGCGCTCGACCCGCTCAATCCCCGCTCGATCCTGTTTCAGCTGAACGAAATCCGCACAGAGGTGGAGCAGCTTCCGAACGCCTTCGTGAACGGCCAGATGTCGCCCTTCTACCGCGAGGCGATGCGCCTGCATTCCGGGCTTGCGGTGATGACGCCGGAAAACATGAACGGCGCGATCTATCGCCAGCTCGAAACCGATATGGAACATCTCTCCGATGTTCTGGCCCGGACCTATCTCGGATAA	MSKAPATERKTETSAQPRGLEYSPLPGVADEMLDTNGKVRPVWKTLLDALSRMSERELHERFARTDRYLRDAGVFYRDYGKGSSERNWPISHIPVLIDDREWAVLSEGLKQRANLLEAMVADFYGENRLVKEGFVPPALIASNPEYLRPMVGVKPASGHYLHFCSFEIGRGPDGNWWVLADRTQAPSGAGFALENRVATTRALSDIYAETHVHRLASFFGAFRDTLQAQRKHPDDRIAVLTPGPANETYFEHAYIARYLGFMLLEGEDLTVVNGRVMVRTVAGLKPVGVLWRRLDASYSDPLELNQQSHIGTPGMVQALRNEALTVVNALGSGILETRALLAFMPRICRHILGEELKLPSIATWWCGQESERRHVAGNIEGMVIGPAYSRLPFFDDNGQSVLGSSLRETAKESISDWLASDGHRLVGQEVVTLSTTPAYIDNKLVPRPMSLRVFAARTQDGWQIMPGGFARIGSSNDVSAIAMQSGGSAADVWIVSDKPVERTTLLPAEESFTRNMPGSLPSRAADNLFWLGRYIERSEGALRILRAWHGRYAESADPRQPLLAHVTRYLEALDVEMSDAVPESLLNNINSALYSASNIRDRFSPDGWLALNDLAKTARRFHAKVAPGDDATHAMTILLRKLAGFAGLVHENMYRFTGWRFLSIGRYLERGLHMTRLLGHMTGPDAPDGSYDMLLEIGDSVMTHRRRYNVNTAGLTVTDLLALDPLNPRSILFQLNEIRTEVEQLPNAFVNGQMSPFYREAMRLHSGLAVMTPENMNGAIYRQLETDMEHLSDVLARTYLG				NA	NA	NA	NA	NA
BMS010_00873	879		COG1305	putative protein	ATGCTTTACGATCTTTCCCTGCATATGGGTTACACCTACGACACGCTGGCCCACGGCGCGCGCCACATCATCCGTGTCCTGCCGCTCTCCATCCCCGGCCGGCAGCGGCTTGTCGCCGGCTCCATCGATGTTTCGCCGGTGCCGGAAGAACGTGCCACCTTCGAGGACTTCTTTCATCAATCGGCCACGTCAGTGCATCTGCGCGCTCCGCATGAAAAGCTGGATATCCGTATGCAGGCCCGCGTGATGGTGGAGGCGCCGGCGCTGACGGCGGATTTTTCGCCCGAGCTTTCCCGCCTGCCGCAGGACCTGGCCGATGTCTGGTCGCTCGATTTCCAGTCGCCGCACCACTTCATCGGCGCAAGCCCAAGGATCGGAATGGATGCGGCAATATCCGCCTATGCCCGGGAATTGTTGAAACCGGGAATGACCATTCGCGAAATCGCGCGCTCTCTGTGCAAACGCATCCATAAGGACTTTACCTATGATGGCGAGGCGACGACCGTCGATACGACGCCATCGGAAGCCTTCAAGCTGAAGCGCGGCGTGTGCCAGGATTTTTCGCACATCATGATCATGGCGCTGCGCAGCCTCGGCATTCCCGCCGGTTATGTCAGCGGTTTCCTGCGCACCATTCCGCCACCGGGCAAGGAACGGCTTGAAGGCGCCGATGCAATGCATGCCTGGGTTCGCGTCTGGTGCGGAGAAGCAGCCGGTTATCTGGAACTCGATCCCACCAATGATATCGTCGCCGGAAGCGACCATATCGTCGTCGGTTACGGCCGGGACTATTCCGATGTCGCCCCCGTGATCGGTGTCTTGAAGAGCTATGGCAACCAGCAGATAAAACAGGCCGTCGACGTCATCCCCGTCCAATAA	MLYDLSLHMGYTYDTLAHGARHIIRVLPLSIPGRQRLVAGSIDVSPVPEERATFEDFFHQSATSVHLRAPHEKLDIRMQARVMVEAPALTADFSPELSRLPQDLADVWSLDFQSPHHFIGASPRIGMDAAISAYARELLKPGMTIREIARSLCKRIHKDFTYDGEATTVDTTPSEAFKLKRGVCQDFSHIMIMALRSLGIPAGYVSGFLRTIPPPGKERLEGADAMHAWVRVWCGEAAGYLELDPTNDIVAGSDHIVVGYGRDYSDVAPVIGVLKSYGNQQIKQAVDVIPVQ				NA	NA	NA	NA	NA
BMS010_00874	1239			hypothetical protein	ATGACCGCCTCCGCACATCAAAAACCGAAGCGCCGTTTTCTTGCCGATACCAGCGGCAATTTCGGCATGATGACGGCCATTCTGCTGCCGGTGTTGCTGGGTTTTGCCGGCGCCGGCATGGAGTTGGCGAATGTGATGCAGGTGAAAGCGGATATGCAGAATACCGCGGATTCGGCAGCCCTTGCAGCAGCGACCGAGGCCCGTTTGAAAATGGGCGACCTGACGGACGAGCAGATCAAGGAAATCGCCAAGAGCTTCATCGCGGCCCAGATGGAAAAGAACCTGACCGAGGAAGAGAAAAAGGAACTGGAGCAGAATTCTCCGACCAATATCACGAAGACGGAAAATGCCCGCGGCAAAACCTACACCGTCGAGACCACGATAAACCACCGCGTACAGCTTAATCCGCTGCTTGGGTTCATTGGCGCAAAAACACTCGATCTTTCGGTAACGGGCACCGCGAAGAGCACCGTCAACAAGGGCGCACCGATCTCCATGTATCTGGCGCTTGATCGTTCCGGTTCGATGTCATTCAAGACGGATACCATCAATACCGCGAAAAAATCGTGCCCGGTTTATACGGCTGACAATTGGGGTACCAGCGAAGCGAAGGCCACATCCAGTCCCTGCTATGTCAACAAGGCCACGTCGCTCAAAACCGCCGTCGGGTTCCTTGTCGCAACATTGAACAAGGCTGATCCGACCTACACGGCCAACGGCGGTTCAGAACTCGTCCGTACCGGTGCCTCGGTCTATACGCACGAGACATATGCTGCTCAGCCCATCAGCTGGGGTACGGGCAGTGTCGCCAGCTATGTCAACAAACAGATCCCGGAATTTCCCTCCGGCGGCACGGATGCCCGCAGCAGCCTGAACGCCGCCTATAACGCCCTTAAAAAATCCAACACCGACGAAGCGAAAGCACACAAGGACAAAGGCAGTGAATCGTTCGAGCGCTACATTGTTCTCATGACCGACGGTGAAATGACGGGCAACAGCGCCTCGTGGAACTCCAGCATCGACCAGTCCGTGCGCACCACCTGCGAGACCGCCAAGAAAGACGGAATCAAGATTTTCAGCGTCGCCTTCATGGCGCCGGACAAGGGCAAGTCGCTGTTGCAATATTGCGCATCCAGCCTCGACAATTATTACGCGCCGGAAAACATGGAGCAGATCGTCACTGCCTTTGGCGAAATCGCCCGCAAGGCTGCCGGCAGCATAGCCACGCTCACCAACTGA	MTASAHQKPKRRFLADTSGNFGMMTAILLPVLLGFAGAGMELANVMQVKADMQNTADSAALAAATEARLKMGDLTDEQIKEIAKSFIAAQMEKNLTEEEKKELEQNSPTNITKTENARGKTYTVETTINHRVQLNPLLGFIGAKTLDLSVTGTAKSTVNKGAPISMYLALDRSGSMSFKTDTINTAKKSCPVYTADNWGTSEAKATSSPCYVNKATSLKTAVGFLVATLNKADPTYTANGGSELVRTGASVYTHETYAAQPISWGTGSVASYVNKQIPEFPSGGTDARSSLNAAYNALKKSNTDEAKAHKDKGSESFERYIVLMTDGEMTGNSASWNSSIDQSVRTTCETAKKDGIKIFSVAFMAPDKGKSLLQYCASSLDNYYAPENMEQIVTAFGEIARKAAGSIATLTN				NA	NA	NA	NA	NA
BMS010_00875	1623	yheS_3	COG0488	putative ABC transporter ATP-binding protein YheS	ATGATCCGCATCGAAAACATCAGCAAGTCGAACAGTCACCGCATTCTCTATATCGAGGCCTCCGCCGCGCTCAATCGCGGCGAGAAGATCGGCCTTGTCGGCCCGAACGGTGCCGGCAAGACCACGCTGTTCCGGATGATCACCGGCGAAGAGCAGCCCGACGAGGGCCAGGTCGTCGTCGAAAAGGGCATGACGGTCGGTTATTTCGATCAGGATGTCGGTGAAATGTCCGGCCGCTCGGCCGTCGCGGAAGTCATGGAAGGTGCAGGCCCGGTCAGCGAAGTGGCGGCGGAGCTTCGGGAACTGGAAGCCGCCATGTCCGATCCCGACCGGATGGACGAGATGGACGCCATCATCGAACGTTACGGCGAAGTGCAGGCGCGTTATGAGGAACTGGACGGCTACGCGCTGGAAGGCCGTGCGCGCGAAGTGCTGGACGGGTTGAGCTTCAGCCAGGAGATGATGGACGGCGATGTTTCCAAGCTTTCCGGCGGCTGGAAGATGCGCGTGGCGCTCGCCCGTATCCTGTTGATGCGCCCGGACGTGATGCTCCTCGACGAACCGTCGAACCATCTCGATCTCGAAAGCCTGATCTGGCTCGAGGATTTCCTGAAAAACTACGACGGCGCTTTGCTGATGACCTCGCACGACCGCGAATTCATGAACCGCATCGTCACCAAAATCATCGAAATCGATGCCGGCAATCTCACCACCTATTCCGGTGACTACGGCTTTTACGAACAGCAGCGCGCGCAGAACGAAAAACAGCAGCAGGCGCAGTTCGAACGCCAGCAGGCCATGCTTGCCAAGGAAATCAAGTTCATCGAACGCTTCAAGGCCCGCGCTTCGCACGCCTCGCAGGTTCAGAGCCGCGTGAAGAAACTCGAGAAGATCGACCGCGTCGAGCCGCCAAAACGGCGTCAGACGGTGGCTTTCGAATTCGCGCCGGCGCCCCGGTCAGGCGAGGATGTCGTGGCGCTGAAGAAGGTAAACAAGGCCTATGGCAGCCGCACGATCTATGGCGAGCTCGATTTCATGGTGCGGCGCAAGGAACGCTGGTGCATCATGGGCGTCAACGGCGCTGGAAAATCGACGCTGCTGAAGCTGGTGACCGGCACGACGGAACCGGATTCCGGCAATGTCACGCTCGGCGCCAGCGTCAAGCTCGGCTATTTCGCCCAGCACGCCATGGATGTTCTGGATGGCGACAGCACCATTCTCGAATGGCTGGAGGAGCGTTTTCCGAAGGCGGGGCAGGCGCCGTTGCGCGCCCTTGCCGGCTGTTTCGGCTTTTCCGGCGACGACGTGGAAAAACGCTGCCGTGTTCTTTCCGGCGGCGAAAAGGCCCGTCTCGTCATGGCCGCCATGCTGTTCGATCCGCCGAACTTCCTCGTGCTGGACGAGCCGACCAACCATCTCGATCTCGACACCAAGGAAATGCTGATCAAGGCCCTGTCGGATTATGAGGGCACGATGCTGTTCGTTTCGCACGACCGCCATTTCCTCGCCGCGCTTTCCAACCGGGTGCTGGAACTGACGCCCGATGGCATCCACCAATATGGCGGCGGCTATACCGAATATGTCGAAAGCACGGGACAGGAAGCGCCGGGCCTTCGCAGCTAA	MIRIENISKSNSHRILYIEASAALNRGEKIGLVGPNGAGKTTLFRMITGEEQPDEGQVVVEKGMTVGYFDQDVGEMSGRSAVAEVMEGAGPVSEVAAELRELEAAMSDPDRMDEMDAIIERYGEVQARYEELDGYALEGRAREVLDGLSFSQEMMDGDVSKLSGGWKMRVALARILLMRPDVMLLDEPSNHLDLESLIWLEDFLKNYDGALLMTSHDREFMNRIVTKIIEIDAGNLTTYSGDYGFYEQQRAQNEKQQQAQFERQQAMLAKEIKFIERFKARASHASQVQSRVKKLEKIDRVEPPKRRQTVAFEFAPAPRSGEDVVALKKVNKAYGSRTIYGELDFMVRRKERWCIMGVNGAGKSTLLKLVTGTTEPDSGNVTLGASVKLGYFAQHAMDVLDGDSTILEWLEERFPKAGQAPLRALAGCFGFSGDDVEKRCRVLSGGEKARLVMAAMLFDPPNFLVLDEPTNHLDLDTKEMLIKALSDYEGTMLFVSHDRHFLAALSNRVLELTPDGIHQYGGGYTEYVESTGQEAPGLRS				NA	NA	NA	NA	NA
BMS010_00876	1011	ldhA_1	COG1052	D-lactate dehydrogenase	ATGCGGATCGTGGTCTACAGCGCCAAACCCTATGACAGGCAGTTCCTTGACGCTGCCGCCCACGCTGGCATGCGGATGCAATATTGCGAAGCACGCCTGTCTCTCGAGACAGTGGCGCTGGCGGAGGGAGCGGCGGCGATCTGCGCCTTCGTTAATGACGACCTGTCGCGGCCAGTACTCGAAAAGCTGGCGGAAATGGGTATCCGGCTCATCGCCCTGCGCTGCGCCGGTTTCAATCAGGTCGATCTCGCCGCCGCCGAAAAGCTCGGCCTGACGGTTGGGCGCGTGTCGGCCTATTCGCCCTATGCGGTCGCCGAACACACCATGGCGCTCATCCTGTCGCTCAACCGTAAGATTCATCGTGCCTATAACCGTGTCCGCGAAGGAAACTTCGCCCTCGATGGCCTTCTCGGCTTTGATCTTCACGGCAAGACGGTCGGCATTGTCGGCACGGGTAAGATCGGAGCGATTTTCGCGCGCATTGCGGCCGGCTTCGGCTGCCGTCTCGTTGGCCATGACGTCCGCCCAAATCCGGATTGCGAGGCACTGGGCATGGTCTACGTCATGCGCGAGGAACTGTTTCGAACATCGGACATTCTGGCGCTGATGTGCCCGCTCACACCGGAGACCCGTCACCTCATTCGCCGGGAGACGCTGCCGCTTCTGAAAAAGGGCGTGATGCTCGTCAATACCAGCCGCGGCGCCATCATCGACACGCAGGCGGCGATTGCGGGTCTGAAAGACGGCACAATCGGCAGTCTCGGCATCGATGTCTATGAAGAAGAGGCCGATCTCTTTTTCGAGGATCTTTCCAACGACGTGCTGCGCGACGATGTTTTCGCGCGGCTGCTGACCTTCCCCAATGTTCTGGTCACCGGCCATCAGGGCTTCTTCACGCAGGAGGCCCTTAGAAACATTGCGGACACCACGATCGGCAATATCGAGAGCTTTTTCGGGACCGGCAGGGCGCTATATGCCGTTTCCACGGAACAGTTTGCCGGCCCGGTCTAG	MRIVVYSAKPYDRQFLDAAAHAGMRMQYCEARLSLETVALAEGAAAICAFVNDDLSRPVLEKLAEMGIRLIALRCAGFNQVDLAAAEKLGLTVGRVSAYSPYAVAEHTMALILSLNRKIHRAYNRVREGNFALDGLLGFDLHGKTVGIVGTGKIGAIFARIAAGFGCRLVGHDVRPNPDCEALGMVYVMREELFRTSDILALMCPLTPETRHLIRRETLPLLKKGVMLVNTSRGAIIDTQAAIAGLKDGTIGSLGIDVYEEEADLFFEDLSNDVLRDDVFARLLTFPNVLVTGHQGFFTQEALRNIADTTIGNIESFFGTGRALYAVSTEQFAGPV	PGPT0001755_374	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001755-ldhA-K03778	NA	NA
BMS010_00877	753	lutR_3	COG2186	HTH-type transcriptional regulator LutR	ATGGTGACCGACGTGCCTGAACAGCAAAAACAGCGCAGCAAATCCTCCGGTTCTCTGGTCAGCAGAGTTAGCCTCAGCCTGAGAAAAGCGATTGCCTCCGGGCAATATGGACCCGGCGACCGCCTGCCCAGCGAAATCGAGATGACGGAAACCCATGGCGTCAGCCGCACCGTGGTGCGCGAGGCGGTGACGGCGCTACGCTGCGACGGGCTGGTGGAGGTGCGTCAGGGGGCGGGCATTTTCGTGCTGAAGCGTGAAAAAGACGCGTCACCCACACCCGGTATCGACCGCGCCCGGCTCTCTTCCGATCTGGAGGTGCTGGAAATCAGGACGCCGCTCGAAATCGAAGCGGCAGGGCTCGCCGCCCTCCGCCGTTCGCCTTCGCAGGAGGAAGCGATTTTCGACTGTCACGCCCGGCTTCTGCAGTGTATCGAGGAGAACCGCTCCATCCGCGAGGCGGATCTGGCGCTGCATCTGGCCATTGCTGCCGCCACCAACAATCCGCTTTTCACACAGTTCCTCGAGCTGCACGGTCAGGCCGTGATTCCACAATCGCGGGTGGTTTCCGAAACCGGCGAGAACGACCAGACAGCTTACCGGCGATTGATCCACAAGGAACATGAAGCCATCGTCATCGCCATATCGGACCGGAACGAACAGGCCGCGAAGCTGGCGATGCAGGCGCATCTGCGCGGTAGCCAGCACCGCTACCGCGACATGATGCGCGACATGCGCGGCATCGCGCACAGCTAA	MVTDVPEQQKQRSKSSGSLVSRVSLSLRKAIASGQYGPGDRLPSEIEMTETHGVSRTVVREAVTALRCDGLVEVRQGAGIFVLKREKDASPTPGIDRARLSSDLEVLEIRTPLEIEAAGLAALRRSPSQEEAIFDCHARLLQCIEENRSIREADLALHLAIAAATNNPLFTQFLELHGQAVIPQSRVVSETGENDQTAYRRLIHKEHEAIVIAISDRNEQAAKLAMQAHLRGSQHRYRDMMRDMRGIAHS				NA	NA	NA	NA	NA
BMS010_00878	798			hypothetical protein	ATGAAACTTACACTCAAGGTCGTCAATGCGGCGGGTGATGTTCTGGCGGAGGCCGGAGCGGAGGACGAAGCTTTGCTCGTCTATCGCGCAGAATATTGCGAGGGTGACAGGCTTGTCGTCGAGGTTTCACAGCCCGGTCATATCTGGCTTGCGCTCGATGCCGGCATGCCGCCGACGCTGGTTTTCCTGCACGGAAACCAATTCATCCTGCCCGTTCCTTCGGCGGCGAAACGCAAATCCTATCCGCCGCAGGCTTTCAGCGGTAACCTTCACCGGATCGCCGCGCGCCGCACACTCGCCGGTGAAATCGGGGTTCGCAGGAATCTAGCCCTCAACCCGTTTGACGATCATGAAAACACCTCGCTGTTTCCGCACGTTTATGCGAGCACGGAAACGCGCGGGGAGGCGGCCTTCGCAGCCCGCAACGTCATCGATGGTGAAAAGGCGAGCGCGGGCCACGGCTTCTGGCCCTATACAAGCTGGGGCATCAACCGCGATCCCGAAGCTTCGCTGACCCTCGTATTCGGCCGCGCAGTCCTCATCGACCAGCTGACTTTTTACCTGCGGGCGGATTTTCCCCATGATGCCTGGTGGGAAAAAGCGAGCGTCACTTTTTCCGACGGCGAAAGCGCGAGCTTTTCCCTGCAAAAAACCGGGGCTGCCCAGAGTTTCCCGGTCGCGCCGCGCCAGGTGGAATGGATCCGTCTGCATGATCTTAAAAAAGCCGACGACCCCTCGCCTTTTCCCGCGCTGACGCAGATCGAGGTCTGGGGAGCGGATCTGCGGGAGGCACCGTAG	MKLTLKVVNAAGDVLAEAGAEDEALLVYRAEYCEGDRLVVEVSQPGHIWLALDAGMPPTLVFLHGNQFILPVPSAAKRKSYPPQAFSGNLHRIAARRTLAGEIGVRRNLALNPFDDHENTSLFPHVYASTETRGEAAFAARNVIDGEKASAGHGFWPYTSWGINRDPEASLTLVFGRAVLIDQLTFYLRADFPHDAWWEKASVTFSDGESASFSLQKTGAAQSFPVAPRQVEWIRLHDLKKADDPSPFPALTQIEVWGADLREAP				NA	NA	NA	NA	NA
BMS010_00879	1788			hypothetical protein	GTGTTTGTCGAAATGATGCGGCTTCTGCCCGAACGGTTCGCCGATTTCGGCGCGGAACTGACGGCGCAGAAAATACGGTCTTCAGCACCGGGCGCAGTTTCCCGTAGTCTCATCGAGGCGGCGGAACAGACGCTTGACGAGCCTTGGTCTGTCATTATGGCGGGCGACTACCGGGAATATAGCCGTACCGGCAATCGCGATCGTTTCGAGGCGCTTTATTTTTCCCGACGACTGAAGCTGAATGCGCTGGTTCTTGGAGAATGCGCCGAGGGGCAGGGCCGCTTTCTCGATGCCATCATCGATGGTCTTTGGCTGATATGCGAGGAGAGCGGCTGGCAATTGCCCGCCCATAATTCCCATATTCGCGGCGGCCCGCGAGATCCTCTGCCCGATCCGCAAAACCCGGTGATCGACCTGTTCGCTGCCGAAACGGGCGCCAATCTCGCTTTGTGCCTGCATCTGCTGGCACCGGAACTGGAAAGGGCAAATGCAAACCTCGCTTCCCGCGTCCGCGCCGAGATCGACCGGCGCATTACCACGCCTTATCTCACCCGGCATTTCTGGTGGATGGGGAAGGGCGACAAGCGGATGAACAACTGGACGGCCTGGATTACCCAGAACGTCCTTCTCTCGACCCTGCTATTGCCCATAGACCAGTCGACGAGGCGTTCGGTCGTGGGAAAGGCGCTCAAGAGTCTCGATGCGTTTCAGAAGGATTATGCGGAAGACGGTGCCTGCGAAGAGGGCGTTCTTTATTATGGCCATGCGGCACTTTGCCTGTTCGGGGCGATGAGCATTCTCGAAGCCTCTGCGCCCGGCTCCATGGCGCCGCTCTTTCATGCGCCGAAGCTGCGCAGCATGGCCGAATTCATTCTCAACATGCACGTGGCGGAAGACCGGTTCTTCAACTTCGCCGATGCGCCGGCGAAGGTCGAGACATCCGGCGTGCGGGAATATCTTTTCGGCAAGGCCGTTTCTTCGCCACGGCTTCAGGCTTTCGCTGCCGCCTGCTGGAACCGCTCACCGGACCGGCTGATGTGCAAGGAGTGGAACCTCTGGTATCGGGTCCAGGCGGTGCTTGCCGTCCCGGAATTTTCCGCGCTTATTCCAGCGGAACCGGCAAAGACCGATATCGCCTATCCCGGTATCGGTCTTGCGATTGCCCGCGACGGGGTCTTCGATCTTGCCGTGAAGGCGGGCAATAATGGCGAGAGCCACAACCACAACGATGTCGGCAGTTTCACGCTTTATAAGAACGGCCGGCCGTTCATCATCGACGTCGGGGTGGAAACCTACACCGCAAAAACCTTCTCGCCGCAACGCTACGACATCTGGACGATGCAATCGGCCTTCCACAATCTGCCGACTTTCGGCGGCGTCATGCAGGCAGCCGGGGCAGAGTTTACGGCGAGAGATCTTGTGACCGAATTCTCTGAAGATCAGGCGGAAGTCTCTTTCAATATAGCCGGGGCCTATCCCGCCGTGGCGCGTGTTGAGCACTATCGCCGCCGCGTCCGACTGCTGCGTGGCAGCCATGTGGAAGTCCTCGACGACTATCAGGGCGGGCAGGAGGCGGTTCTGTCGCTGATGGTCGCCGAGAAGCCCGCTGTCATGTCGGGTTGGCTGATCTTTGCGGGGCTGGGAGAGATAGCCTGCGAAGGGGCAGGAGAACCCGCCATCGAAGCCATAACAATCAACGATGCTCGCCTTCGCCAGTCCTGGCCACCCGTGATCTATCGCATTCTCATCCCCATCGCAGCCCAGCGTCTGTGCCTGACGATCAGTTAA	MFVEMMRLLPERFADFGAELTAQKIRSSAPGAVSRSLIEAAEQTLDEPWSVIMAGDYREYSRTGNRDRFEALYFSRRLKLNALVLGECAEGQGRFLDAIIDGLWLICEESGWQLPAHNSHIRGGPRDPLPDPQNPVIDLFAAETGANLALCLHLLAPELERANANLASRVRAEIDRRITTPYLTRHFWWMGKGDKRMNNWTAWITQNVLLSTLLLPIDQSTRRSVVGKALKSLDAFQKDYAEDGACEEGVLYYGHAALCLFGAMSILEASAPGSMAPLFHAPKLRSMAEFILNMHVAEDRFFNFADAPAKVETSGVREYLFGKAVSSPRLQAFAAACWNRSPDRLMCKEWNLWYRVQAVLAVPEFSALIPAEPAKTDIAYPGIGLAIARDGVFDLAVKAGNNGESHNHNDVGSFTLYKNGRPFIIDVGVETYTAKTFSPQRYDIWTMQSAFHNLPTFGGVMQAAGAEFTARDLVTEFSEDQAEVSFNIAGAYPAVARVEHYRRRVRLLRGSHVEVLDDYQGGQEAVLSLMVAEKPAVMSGWLIFAGLGEIACEGAGEPAIEAITINDARLRQSWPPVIYRILIPIAAQRLCLTIS				NA	NA	NA	NA	NA
BMS010_00880	945	lacF_1		Lactose transport system permease protein LacF	GTGGCAACCGCGACCATGTCCGACAAGCAGGCGACTCCGTATCGCAGGAAAAAACTCCGCATCGTCTCTAAACGGCGGCGCAGAATAGAAAATGCGCTCGTCGCCTATTCCTTCATTGCGCCCAATTTTCTCGGCTTTGCGATTTTCACGCTCGGACCGATCCTCTTTGCCTTTGCGCTGGCCTTCATGCATTGGGACGGCTCCAATGCCATGCGTTTTGCCGGTCTCGATAATTTCTGGCGGCTTTTCGAGGACAGGGCCTTCATCGCGGCCTTCTGGAACACGGTCATCTACACCGTCGCGTCGGTGCCGGCCACGCTCGCCTGCGCACTCGGCCTTGCGATCCTGCTCAACCAGAAAATCCTCGGCCGCAACTTCTTTCGCACGGCCATGTTCTTTCCCTATGTCGCATCGCTGGTCGCCGTGGCCGTCGTCTGGAACATGATTTTCAATCCGGAGATGGGTCCGGTCAACATGCTGCTCTATACGCTCGGCCTCGATCCCGCCGACATGCCGGGATGGGCGGCGGACCGGCACTGGGCCATGGTCACGGTCATTCTCTTCGGCGTGTGGAAAAGCATGGGTTATTACATGGTCATCTATCTCGCCGGACTACAGGGCATCAATTCGGAGCTTTATGAAGCCGCGGGGCTGGATGGCGCCAATGCCTGGCAGAAATTCATCCACGTCACCCTGCCACAGCTTGCGCCGACGACCTTTTTCGTGACCGTCATGCTGACGATCCAGTCCTTCAAGGTTTTCGATCAGGTCTACATGATCACACAGGGCGGTCCCGGCACCTCAACGCTGGTTCTCGTCTATCACATCTACAATGAGGCCTTCATCTCCTGGGATCTCGGCTATTCCAGCATGATCGCCCTCGTCCTGTTCTTCCTCGTCCTGCTGGTTACCATCGTCCAGTTCAAACGGCAGCGGGAGGATTGA	MATATMSDKQATPYRRKKLRIVSKRRRRIENALVAYSFIAPNFLGFAIFTLGPILFAFALAFMHWDGSNAMRFAGLDNFWRLFEDRAFIAAFWNTVIYTVASVPATLACALGLAILLNQKILGRNFFRTAMFFPYVASLVAVAVVWNMIFNPEMGPVNMLLYTLGLDPADMPGWAADRHWAMVTVILFGVWKSMGYYMVIYLAGLQGINSELYEAAGLDGANAWQKFIHVTLPQLAPTTFFVTVMLTIQSFKVFDQVYMITQGGPGTSTLVLVYHIYNEAFISWDLGYSSMIALVLFFLVLLVTIVQFKRQRED	PGPT0016535_2666	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
BMS010_00881	837	lacG_1		Lactose transport system permease protein LacG	ATGCGCATCATGGGCCGCAAAATCCCCGCCGCCACGGTTGGCATCTATCTGACGGTGATCGTCGTCACCATCGTCATGCTTCTGCCCTTCGCATGGATGCTGTCGGCGTCGCTGAAGCTCAGCCGCGATGTCTTCGCGTTCCCGATCGAATGGATCCCCTCGCAGCCGCGGTGGGAAAACTATGTGGAAATCTGGACGAAAATCCCGCTGGCGCTGTTCATCTACAACACGTCGAAGCTGACGATCATCGTCACATTGCTGCAATTGCTGACTTCAAGCTTCGCAGCCTACGCCTTCGCCAAGCTGCATTTTCCCTACAAGAACACGCTGTTTCTCGGCTATATCGCCACCATCGCCATGCCCTGGCAGGTTTATATGGTGCCGCAGTTTCTGTTGATGCGCGAATTCGGGCTCAACAACACCCATCTCGCCCTGATTTTCCTGCAGGCCTTTACCGCCTTCGGCGTTTTCCTGATGCGGCAGTTTTACATGTCGATCCCGAACGAACTCTGCGAGGCGGCGCGCATCGACGGCATGAACGAATACCAGATCTGGGCGAAGATCATGCTGCCGCTTTCCAAACCTGCGCTTTCCACCTTGACGATCTTCACCTTCGTCACGACCTGGAACGACTTCATGGGTCCGATGATCTATCTCACCAAGACCGAGCTGAAGACCATCCAGATCGGCCTGCGCATGTTCATTTCGCAATATTCGGCGGAATACGGATTGATCATGGCCGCCTCGGTGGTGGCGCTTGTCCCGGTTCTCGTCGTTTTCCTCGCATTGCAGCGCTTCTTCGTCGAAGGCGTCGCCTCCACCGGCCTCAAGGGTTGA	MRIMGRKIPAATVGIYLTVIVVTIVMLLPFAWMLSASLKLSRDVFAFPIEWIPSQPRWENYVEIWTKIPLALFIYNTSKLTIIVTLLQLLTSSFAAYAFAKLHFPYKNTLFLGYIATIAMPWQVYMVPQFLLMREFGLNNTHLALIFLQAFTAFGVFLMRQFYMSIPNELCEAARIDGMNEYQIWAKIMLPLSKPALSTLTIFTFVTTWNDFMGPMIYLTKTELKTIQIGLRMFISQYSAEYGLIMAASVVALVPVLVVFLALQRFFVEGVASTGLKG	PGPT0016540_6528	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
BMS010_00882	1173			Unsaturated chondroitin disaccharide hydrolase	ATGCTCGATTTGACCACGTCCCTCCCAACCCCGATCACCGCCGCCGAAATCGATGCGGCGTTGGCCGTGGCCGTCGCGCAGGTCAGGCGCAACCTGCCGCAATTTACCTATGCGGCGCAGAACCATTCGAGCGTGAAGAATTTTTACCCGGCAGTCGCCAACGACCAATGGACCGCCGGTTTTTGGCCGGGCCAGATATGGCTCGCCTTCGAACATACCGGCGACAGGACCTTTCAGCATGCGGCGCAAATTCAGGTGCAGAGTTTCCTGCATCGTATCGAAAACCGCATCGAGACCGATCATCACGATATGGGCTTTCTCTACTCGCCCTCCTGCATCGCCGCATGGAAACTGGTGGGCGATGAGGATGGAAGACGTGCGGCGCTGATGGCAGCGGACCAGTTGATGGAGCGGTTCCAGCCGGTCGGGCAATTCATCCAGGCCTGGGGCCGCAGGGACAATCCCAACGAATATCGCTACATCATTGACTGCCTTTTGAACCTGCCGCTGCTTTATTGGGCAAGCCGCGAAACCGGCCGGGAAGACTACCGCACCGTGGCGCTTGCCCATGCCCGCACCACGCTTGCCCACTCCGTCCGGCCGGACGATTCCACCTATCATACATTTTACATGGACCCGGAGACCGGCGCGCCGGTGCGCGGTGTCACAAAACAGGGTTACAGCGATGAGAGCTACTGGGCCCGCGGACAGGCCTGGGGCATTGCCGGTATGGCCATTTCCTATCGATATGAGCGCCTGCCCGCCTATCGCGACACCTTCGAGCGGCTTCTCGCCTTCTATCTCAAACGCCTGCCCGACGATCTCGTACCCTATTGGGACCTGATTTTTGCGGATGGCGATGGCGAACCGCGCGACAGCTCGGCAGCGGCCATCGTCGCCTGCGGCCTCCTGGAAATGGCGGAGCTGGAGACACCGGAGAAGGCGGCGGAATATCGCGATCTGGCAAGGCGCATGGTGAAGAGCCTCGCCGATATCTATTCGGTGCGCGATCCCGCGATCTCCAACGGGCAGCTTCTGCACGGCACCTATTCCAAGAAGACGCCCCATAATACCTGCCGGGGCGAAGGCGTCGACGAGTGCGTTTCCTGGGGCGATTATTATTATCTGGAAGCGCTGATCCGGCTTTCGCGCAACTGGTCTTCCTATTGGTGA	MLDLTTSLPTPITAAEIDAALAVAVAQVRRNLPQFTYAAQNHSSVKNFYPAVANDQWTAGFWPGQIWLAFEHTGDRTFQHAAQIQVQSFLHRIENRIETDHHDMGFLYSPSCIAAWKLVGDEDGRRAALMAADQLMERFQPVGQFIQAWGRRDNPNEYRYIIDCLLNLPLLYWASRETGREDYRTVALAHARTTLAHSVRPDDSTYHTFYMDPETGAPVRGVTKQGYSDESYWARGQAWGIAGMAISYRYERLPAYRDTFERLLAFYLKRLPDDLVPYWDLIFADGDGEPRDSSAAAIVACGLLEMAELETPEKAAEYRDLARRMVKSLADIYSVRDPAISNGQLLHGTYSKKTPHNTCRGEGVDECVSWGDYYYLEALIRLSRNWSSYW	PGPT0019355_658	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_GLYCOSIDE-GLYCOSIDASES|GLYCOSYLHYDROLASES,PGPT0019355-ugl|EC_3_2_1_180-K18581	NA	NA
BMS010_00883	1110	msmX_1	COG3839	Oligosaccharides import ATP-binding protein MsmX	ATGGCTAGCATTTCCCTGAAAAAACTCAACAAGACCTTCGGCGCGCTCAAGGTCGTTCACGATATCGATCTGGATATTGCCGACAAGGAATTCATCATTCTGGTCGGCCCTTCCGGATGCGGCAAATCCACGACGCTCAGAATGATCGCCGGGCTGGAGGAAATCTCCGGCGGCGAGTTGCGCATTGGCGAGGACGTGATGAACGATGTGCCCTCGAAGGATCGCGACATCGCCATGGTGTTCCAGAACTATGCGCTTTACCCGCATATGACGGTTTACAAGAACATGGCCTTCGGTCTGGAACTCAGAAAGGCGCCGCGCGATCTCATCGACACCAAGGTCAAGGATGCGGCGAAAATTCTCGACATCACCCATCTCTTGAACCGCAAGCCGAAAGCGCTCTCCGGCGGCCAGCGCCAGCGTGTCGCGCTCGGCCGGGCCATGGTGCGCAATCCGGAAGTCTTTCTGCTCGATGAGCCGCTTTCCAATCTCGACGCCAAGCTGCGCGGCACCATGCGTTCGGAAATCTCCAAGCTGCACAAGCGGCTGGACGCCACCTTCATTTACGTCACCCACGATCAGGTGGAAGCCATGACCATGGCGGACCGCATCGTGGTGATGAAGGACGGACATATCCAGCAGGTGGATACGCCGCAAAACCTTTACGACCGGCCGATAAACATGTTCGTTGCGGGTTTCATCGGCGCGCCGCAGATGAACATGCTGCCAGTCACGCTGCGCCGCGACGGCGACCGCTTCACCGCCCTGTTCGACGGCAATCCGCTGCCTCTGCCGGCAGGCATCGATACCGCACGCCTGCTCCCCCACGAAGGAAAGGACATCGTTCTCGGCATCCGGCCGGAAAACTTCCACGAATTCGCCCCGGCGGATATCGATGCCGCCAATGTCGCACCCTTCCGGGCGACGGTGGAACTGGCGGAGCCGATGGGATCGGAAGTGCATCTCAACCTTGTCTCCGGCGGCAGAAACCTCGTCGCACGCGTCTCGCCGCGTTTCAGGGCGAAGATCGGCGATCCCGTCGAACTGGTGGCCGATCTGACGAATGCGCAGCTTTTCGATCCCGCCACCGAGCGATCGATCCTTTATTGA	MASISLKKLNKTFGALKVVHDIDLDIADKEFIILVGPSGCGKSTTLRMIAGLEEISGGELRIGEDVMNDVPSKDRDIAMVFQNYALYPHMTVYKNMAFGLELRKAPRDLIDTKVKDAAKILDITHLLNRKPKALSGGQRQRVALGRAMVRNPEVFLLDEPLSNLDAKLRGTMRSEISKLHKRLDATFIYVTHDQVEAMTMADRIVVMKDGHIQQVDTPQNLYDRPINMFVAGFIGAPQMNMLPVTLRRDGDRFTALFDGNPLPLPAGIDTARLLPHEGKDIVLGIRPENFHEFAPADIDAANVAPFRATVELAEPMGSEVHLNLVSGGRNLVARVSPRFRAKIGDPVELVADLTNAQLFDPATERSILY	PGPT0016310_2812	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0016310-msmX|msmK|malK|sugC|ggtA|msiK-K10112	NA	NA
BMS010_00884	705			hypothetical protein	ATGCAATGGCTGGAAGGGTTATGGACGAAGGAAGGGGCCGGGATCGACAAGAACGCCCCGCCGCTGACCGGCCTTGCCCTTTTCCTCGATATCATCAAGCGCGAATGGTGGGAGATGGTGAAGCTCAACCTCCTCTTCATCATCGCCAGCCTGCCGGTGGTGACGATGCCGGCGGCGATGCTGGCCATGGCCCGCATCTCTGTTTCCTTCGCAAATGACGAGAATACCTATCTGCTGCGCGACTTTCTCGAGGCCTTGCGGAAATTCGCCCTGCGCGGCACCGCGCTTGTGGTTTTAAGCGCGCTGCTGGTGAGCGCCGGTGCTTATGCGACCGTCAGCTATGCCAGTGCCGCCCGGCTTCAGCTCGTCTATAGCCTGCCTTTTGCGATCAGCCTGGCGGTCACGCTGTTTCTCATCCTCCTCAGCGCCTATGCCAGTGTTGTTCTGGCCAAGCGGGACCCGCCGCTTGGGGAAACCCTGCGGCAGGCGGCGTTTCTGGCGCTCACCAGGCCACTGCCAATGCTTGCGGCGCTCGGCTTCGTCGCAGCGCTCTGGCTCGCGCATATCCTCTTTTATCCGGTGTCGGTGTTCATGCCGGCCACCATCAATTTTTCGCTCGGCATGTTCGCCCTCTGTTTCGCAGCGAGAAACGCCGCCGCAAAAACACGCGCGCGGATGCTCGAACCGACGGGGAGCGGCACTTAA	MQWLEGLWTKEGAGIDKNAPPLTGLALFLDIIKREWWEMVKLNLLFIIASLPVVTMPAAMLAMARISVSFANDENTYLLRDFLEALRKFALRGTALVVLSALLVSAGAYATVSYASAARLQLVYSLPFAISLAVTLFLILLSAYASVVLAKRDPPLGETLRQAAFLALTRPLPMLAALGFVAALWLAHILFYPVSVFMPATINFSLGMFALCFAARNAAAKTRARMLEPTGSGT				NA	NA	NA	NA	NA
BMS010_00885	1281			hypothetical protein	ATGGAGTTTAAGACAACCAGACGTGCATTCGCTCTCGCAACCGCCGGTCTCGGCATTGCCATGAGCATGGGAGGACCGGCGTTCGCTGCGGGCGATGCGCCCGTTACGCTGAAATGGGCGCTGTGGGATCTGGACAAGGGCGCATATTTCAGGCCCTTGATGGAGGCCTACAAGCAGAAGCATCCGAATGTGACGTTCGAGGTGGTCGACCTCGGCTCACAGGATTATACGCAGATGATATCCACGCAGCTCACCGGCGGCTCCAAGGATATCGATGTCGTCACCATCAAGGATGTGCCCGGCTACGCCAATCTGGTGCGCGCCGGCAACATCACCGATCTCAGCGGCTTCATCAAGGACCAGAAGATCGAGACGGCCCCCTATGGCGGCCTGATCGAGGAGCTGACCATTGACGGCAAGATTTACGCCCTGCCGTTCCGCTCGGATTTCTGGGTGGTCTATTACAACAAGGATATTTTCGACAAGGCGGGCGTGCCTTACCCCACCAATGACATGAGCTGGGCGCAGTTCGATGAGATCGCCGGCAAGCTGAAGGGCGGCATGGGCGCAAACCGCACCTATGGCGCGCTGCTGCACACCTGGCGTTCGACGGTGCAGCTCCCCGGTATTCAGGATGGCAAGCACACGCTTGTGGACGGTAATTATGAATTCCTGAAACCCTGGTATGAGCGTGCGCTTGCCCTGCAGAAGAGCGGCGCGATACCGTCCTATGCCTCGCTGAAAACATCGAACACCCATTATTCCGCTCTGTTTTTCAACGGAACGATCGGCATGCTGCCCATGGGCACATGGTTTGTCGGCACTCAGATCGCCAAGGTGAAATCCGGCGAGTCGAAAAGCGTCAATTGGGGCATCGTGAAGTTCCCCCATCCGGATGGTGTGGCGGCAGGCGCGACGGCCGCGCAGATTGCCGGATTGTCGGTCAATGCCAATTCCGGCCACAAGGAAGCGGCGCTTGACTTCATCCACTTCGTTACCGGACCTGAAGGTGCGGCGATCATCGCCTCTACCGGCACTTTCCCTGCACTCAGAACCGATGATGTGGCCGAGAAGATCGCAGCGCTGCCGGGCTTCCCGCAGGACCAGAACAGCAAGGACGCGCTGCAGGCCGGCAAGGCCTATCTGGAAATGGCGGTCAACCCGAATGCGGCGAAGATCGAAGTCGTTCTTAACCGCGTGCATGACGCGCTGATGACCGACAATATCTCCATTGATGACGGCATCAAGGACATGAATGACGGCGTCAAGGCCATCAAATAA	MEFKTTRRAFALATAGLGIAMSMGGPAFAAGDAPVTLKWALWDLDKGAYFRPLMEAYKQKHPNVTFEVVDLGSQDYTQMISTQLTGGSKDIDVVTIKDVPGYANLVRAGNITDLSGFIKDQKIETAPYGGLIEELTIDGKIYALPFRSDFWVVYYNKDIFDKAGVPYPTNDMSWAQFDEIAGKLKGGMGANRTYGALLHTWRSTVQLPGIQDGKHTLVDGNYEFLKPWYERALALQKSGAIPSYASLKTSNTHYSALFFNGTIGMLPMGTWFVGTQIAKVKSGESKSVNWGIVKFPHPDGVAAGATAAQIAGLSVNANSGHKEAALDFIHFVTGPEGAAIIASTGTFPALRTDDVAEKIAALPGFPQDQNSKDALQAGKAYLEMAVNPNAAKIEVVLNRVHDALMTDNISIDDGIKDMNDGVKAIK	PGPT0016545_7670	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
BMS010_00886	1962			hypothetical protein	ATGACGGCGTCAAGGCCATCAAATAATTGCCACAGGGCCGCGGGCGATGAGCCTGCGGCCCTTTCCTTTGATCATGAATTCCGGACATCCGTCACCGTGCCTCACGAGACCGCCACAGCCAATCCGCTCTTTCACAATCCGCTTCTCGGCAGGGACGATCTCGCAAAGGCGGTTATCGATCTCTTCAACCCGCTGCTTGCCTGTTTTTCACCGGGCGGCGCGCGCGTCCGGCTTGGAGCAACGGGGGCAATTTTCGATTTTCCTGCGGCGGAGCTGGAGGGTTTTGCCCGGCCATTATGGGGCATCGTTCCGCTTGCCGCCGGCGGTTATGACTTTCCCCATTGGGATCTCTACAGGCGTGGACTGGCCAATGGCGCCAACCCCGCCCACCCCGAATATTGGGGCGATACGGCTGATCGGCACCAGCGGCTGGTCGAACTGGCGGCGATAGGATTTGCGCTTGCCATGGTTCCCGAACATATCTGGGAGCCGCTTGCCGAAACGGACAGGCAGGCTGTCGCCGCCTATCTTCTCGCCGCCCGCGCGCGGGAATTCGTCAATAATAACTGGAAATTCTTCCGCGTTCTGATCGATCTCGGGCTGGAGCGGGTCGGCGTGGAGTTTGACCGGACCAAGACCCAAACCTATCTCGATGAACTCGAGGCTTTCGATATCGGCAACGGCTGGTATCGCGACGGGCCGGTGCGCCGGGTCGACCATTATATTCCCTTCGCCATGCATTTTTACGGCCTGATCTATACGGTGCTGGCGAAAGGCGACGACACGCGAAAGACACGCTTGCTCGAACGCTCGCGCATTTTCGCGCGTGACATACGCCACTGGTTCGGGCCTGACGGGGCGTCGCTCGCCTTCGGGCGCAGCCAGACCTACCGTTTTGCGGCGGGCGGTTTCTGGGGCGCTCTTGCCTTTTCCGGTCTGGAAGCGCTGCCGTGGCCGGAAATCAAGGGCTATTACATGCGCCATATCCGCTGGTGGTCGAAGCGGCCGATCGCGGACCGCGACGGCGTCCTGTCGGTCGGATACGCCTATCCAAACCTTCTGATGAGCGAGAGCTACAATTCTCCCTGCTCTCCCTATTGGGCGCTCAAATTTTTCCTGCCGCTGGCGCTGCCCGCCGATCACCCGTTCTGGACTGCGGAAGAGGCCGAACCGCAGGAATTTGCCGAACCGGTTCCCCTCGCGGAGCCTGGCATGGTGGCCTTTCATACGCCGGGCAATATCGTGGTCCTGTCCTCCGGGCAGCAGCACGACAGGATGCGTGGCGCGCAGGAAAAATATTCGAAATTCGTCTATTCCACCCGCTATGCCTTCAATATCGAAGCGGATGACCGGCATTTCGCCGCCGCGAGCTTCGATGGCATGCTCGGCCTTTCCGACGACGGTGTGCACTTCCGCACCCGCGAGACGATGGAAGAGGCGTTGATCGCCGAGGATTACCTCTATTCCCGCTGGCGGCCATGGGTAGATGTCGAGATCGAGACCTGGCTCGTGCCGCAAAACCCGTGGCACATAAGGCTGCACCGCATCCGCACCCCACGCCCCTTGCAAACATCAGAAGGCGGATTTGCCATAGAACGCGCCGACTTCAACCGCGACCGCACCGAGGCGATTGAAGGTCGCGCCGTCTGTTACGGACAGACTGACACCAGCCTCATCGTCGATCTTACGGGAGATATAAGGCGCGAAGGCGTGTGCCATCAGGCAATCGCCAATACCAACCTCATTCGCGCCAGAACCCTTGTTCCGCAATTGCGCGGCGCCATCGCCTCCGGCGAAACGCTGCTGGTGACGGCGGCCCTGGCACTGCCGACCGGCAAAGAGGCAGAGGCCGCATTGGCTGCCCTCCCCGAAAGTCCCGATCTCCCGAGGCTGGAAGAGATGTTCAGGCGGGAGGGGCGACGCGTTCCCGCCTATGCTCTCGATGAAAACCGCGCAGGCTGA	MTASRPSNNCHRAAGDEPAALSFDHEFRTSVTVPHETATANPLFHNPLLGRDDLAKAVIDLFNPLLACFSPGGARVRLGATGAIFDFPAAELEGFARPLWGIVPLAAGGYDFPHWDLYRRGLANGANPAHPEYWGDTADRHQRLVELAAIGFALAMVPEHIWEPLAETDRQAVAAYLLAARAREFVNNNWKFFRVLIDLGLERVGVEFDRTKTQTYLDELEAFDIGNGWYRDGPVRRVDHYIPFAMHFYGLIYTVLAKGDDTRKTRLLERSRIFARDIRHWFGPDGASLAFGRSQTYRFAAGGFWGALAFSGLEALPWPEIKGYYMRHIRWWSKRPIADRDGVLSVGYAYPNLLMSESYNSPCSPYWALKFFLPLALPADHPFWTAEEAEPQEFAEPVPLAEPGMVAFHTPGNIVVLSSGQQHDRMRGAQEKYSKFVYSTRYAFNIEADDRHFAAASFDGMLGLSDDGVHFRTRETMEEALIAEDYLYSRWRPWVDVEIETWLVPQNPWHIRLHRIRTPRPLQTSEGGFAIERADFNRDRTEAIEGRAVCYGQTDTSLIVDLTGDIRREGVCHQAIANTNLIRARTLVPQLRGAIASGETLLVTAALALPTGKEAEAALAALPESPDLPRLEEMFRREGRRVPAYALDENRAG				NA	NA	NA	NA	NA
BMS010_00887	1668	dapH_2		2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-acetyltransferase	ATGACCGACGACACACCGGGTGTTTCCCAAAGGTCGGATCGGCTGAACATCCTGACCTGGGAGCGGAAGCAGGAGGATATCGACAGCCCCGACCATCAGGCGCGGCTGCATGACCTTGAGCGCTCTGGAAACGCCGTTTTCGGGCAGGGCGTCTACATCGCCGCTAGGACCGAGGTGCATACGGACAGGCTATTGATGGGTGCGCAGTCGTGGATCGCCGGTTACGCAATCGTGCGCGGCGATATCGAACTGGGCGAAAATGTCTCGATCAACCCCTATGCCTGTCTTTCCGGTAAGGTGACAATCGGCAATGGCGTACGCATCGCCTCACATGTCAGCATCGTCGGCTTCAACCATGGCTTCGACGACATTGAAACTCCGATCTATCGCCAGCCGCTGACCTCGCTCGGGATAGAGATCGGCGACGACGTCTGGATCGGCGCCAATGCGGTTGTGCTGGATGGCGTGAAGATAGGGTGCGGCGCAATTATTGCCGCAGGCGCCGTGGTGGCGAAGGACATTCCCGCCATGGCCATTGCAGGCGGCGTTCCCGCCCGGGTTCTGCGATATCGCGGAGAAAAAACGGCCGCGCCGAAGGTGACAAAGCCCGATGGCCTGCTGCAAGAACTCGGCAAGGAGATTGCCGACGACTGGCTTGCCGCCATCCGCTCCTATGGCAAGGATGGCATCTATCGTTCCGCAGATGCATCCGGACATGAGGTCGAAAGCATCAGGCATCTGTGCGATGCCGTCGAGATTGCGGCAGCCTTCGGACAGGAAAAGATCGCTTTCGATGCCGGAAAAACCGTCGCCAGTCTTCAGGCCCTGCAGGACCAGGAAACGGGGCTGTTTCTTAACCGTCACCACCGCCCCTCGACGCCTCTCGAGAAGGACCCTGCCGTCATCTATAATATTCTGGCTGTCGGATATGCGCTTGAATGTTTCGGTGCTGCGCCGAAACAGCCGATCGCTTTCGCGGAGCGTCTGCGCGCCGACGAACTCATCCTCCTGCTGGAAGAATTGCCGTGGCAAAGCCGGGCATGGCATTGCGGCGCCACCATAGACGCCATTGCCACCGCGCTTTATTTCAACAGGCGCTATTTCACATCTGGCGACAACCTCACCGTTCTCTTCGGCTGGCTGGCGATGAATGTGGATAAAACCACCGGGCTTTGGGGGGAGCCGACTGCCGCACAGGGCCTGCTGCAACCGGTCAACGGCTTTTACCGGCTTACCCGCGGCTCTTACGCACAGTTCGGCCTGCCCCTTCCCTATCCGGAAGCAGCAATAGACTCCGTTATCGCCAATTATCGTGCCTATGGCGGTTTCCATGGCGCGGATTTTAATGCCTGCAACCTGCTCGATACGATCCATCCGCTTCTTCTGTGCCTGAAACAGACGGATCACCGGCAGGACGAGGCGAAGGAAATCGCCCGCGAAATTCTGCGCCGAAACGAGGGACGCTGGCAAAGGAACAAGGGATTTGCCTTCGCCGAGGGGCATCCGGCCGGGCTGCAGGGCACGGAAATGTGGATGTCGGTTCTCTGGCTTTCAGCAAAGCTTCTCAATGCGGAACATCTTCTGCCGTTCCGACCTCGCGGCATCCATCGCTTCGAGCCTGCGGAAATCGTCCGTGGCCTGATTGCCCGCTCTAAATCTCCGGTATAG	MTDDTPGVSQRSDRLNILTWERKQEDIDSPDHQARLHDLERSGNAVFGQGVYIAARTEVHTDRLLMGAQSWIAGYAIVRGDIELGENVSINPYACLSGKVTIGNGVRIASHVSIVGFNHGFDDIETPIYRQPLTSLGIEIGDDVWIGANAVVLDGVKIGCGAIIAAGAVVAKDIPAMAIAGGVPARVLRYRGEKTAAPKVTKPDGLLQELGKEIADDWLAAIRSYGKDGIYRSADASGHEVESIRHLCDAVEIAAAFGQEKIAFDAGKTVASLQALQDQETGLFLNRHHRPSTPLEKDPAVIYNILAVGYALECFGAAPKQPIAFAERLRADELILLLEELPWQSRAWHCGATIDAIATALYFNRRYFTSGDNLTVLFGWLAMNVDKTTGLWGEPTAAQGLLQPVNGFYRLTRGSYAQFGLPLPYPEAAIDSVIANYRAYGGFHGADFNACNLLDTIHPLLLCLKQTDHRQDEAKEIAREILRRNEGRWQRNKGFAFAEGHPAGLQGTEMWMSVLWLSAKLLNAEHLLPFRPRGIHRFEPAEIVRGLIARSKSPV				NA	NA	NA	NA	NA
BMS010_00888	1146	lldD_1	COG1304	Putative L-lactate dehydrogenase	ATGCAACTCAAAGACTGCTATAATTTCCACGATTTTCGCCGCATGGCCAAACAGCGTCTGCCCGGACCGATCTTCAATTATATAGACGGCGCCGCCGATGACGAGGTGACGTATCGGCGAAACACGGCCGCCTTTGAAAAATGCGATCTCGTTCCCGATGTGCTGCGGGGCGTAGCGGATGTGGATATGTCGGTCACCGTCATGGGGCAGAAGCTGTCCATGCCGGTCTATTGTTCGCCGACGGCGCTGCAACGCCTCTTCCACCACCAGGGGGAACGGGCGGTTGCGGCAGCAGCGGGGAAATACGGCACGATGTTCGGCGTCTCCTCGCTCGGCACCACGAGCCTTGAAGAAGCGCGCCGGATCAGCGGCGGCCCGCAGGTCTATCAGTTCTATTTCCACAAGGACCGCGGCCTCAACCGCGATATGATGGCGCGCGCCAAGAGCGCCGGTGTCGAGACGATGATGCTGACGGTGGACAGTATTACCGGCGGCAACCGCGAGCGCGACAAGCGCACCGGCTTTGCCATTCCGTTCAAGCTCAATCTTTCCGGCATCGCGCAATTCGCCATCAAGCCGGCCTGGGGCATCAACTACCTGACGCATGAGCGCTTCAGCCTGCCGCAGCTCGACGACCACATTAAAATGGACGGCGGCGCTCTTTCCATCAGCCGCTATTTCACCGACATGCTCGACCCTTCGATGAACTGGGACGATGTGGCGCAAATGGTGCGCGAATGGGGCGGGCCGTTCTGCCTTAAAGGCATCATGTCGGTGGACGACGCCAGACGCGCCGTGGAGATCGGCTGCAGCGGCATTGTACTTTCCAATCACGGCGGCCGCCAACTCGATGGCTCCCGCAGCGCCTTCGATCAGCTGGCCGAGATCGTCGATGCGGTCGGCGACCGGATCGACGTGATGATGGATGGCGGCGTACAGCGCGGCACCCATGTTCTGAAAGCATTGTCTCTCGGCGCAAAAGCGGTGGGGCTCGGCCGCTATTATCTTTTCCCCCTGGCTGCTGCCGGGCAACCGGGCGTCGAACGGGCACTCGAGCTGATGCGTATCGAAATAGAGCGCGGCATGAAGCTGATGGGCTGCACCTCCGTCGATCAACTCACACGCCGGAACCTTCGGTTCCGTTGA	MQLKDCYNFHDFRRMAKQRLPGPIFNYIDGAADDEVTYRRNTAAFEKCDLVPDVLRGVADVDMSVTVMGQKLSMPVYCSPTALQRLFHHQGERAVAAAAGKYGTMFGVSSLGTTSLEEARRISGGPQVYQFYFHKDRGLNRDMMARAKSAGVETMMLTVDSITGGNRERDKRTGFAIPFKLNLSGIAQFAIKPAWGINYLTHERFSLPQLDDHIKMDGGALSISRYFTDMLDPSMNWDDVAQMVREWGGPFCLKGIMSVDDARRAVEIGCSGIVLSNHGGRQLDGSRSAFDQLAEIVDAVGDRIDVMMDGGVQRGTHVLKALSLGAKAVGLGRYYLFPLAAAGQPGVERALELMRIEIERGMKLMGCTSVDQLTRRNLRFR	PGPT0001765_1837	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0001765-lldD-K00101	NA	NA
BMS010_00889	345			hypothetical protein	ATGCCCGACACGCCCCGATTTTTCCGTTACGCAGTTTTAGCCGCCATGTTTCCGGTGGCCGTCCTCGGCCTGGTTGCAACCCCGAACGAATATCGCACCATCGGCGTCGAGACCGTCGATTGCGATGGCCCCATATCCGTTCTGATTGCCGCGGTGCCGGCGCTTGCGGCCTATGCAATTATCGGCTGGATGTTTCTCTCCGGAGCCAAGCGCCATCGCTCGCTGATTTCAGCCTGTTTTTGCGGACTTGTTTGCCTGGCCCTCGTCTGGAACATCGGCATGGCGCTTCAGGAACAGCGACGAAACGCGGCTGAAACGGCATGCGTTTTCAGTAGTCGGTTGTGA	MPDTPRFFRYAVLAAMFPVAVLGLVATPNEYRTIGVETVDCDGPISVLIAAVPALAAYAIIGWMFLSGAKRHRSLISACFCGLVCLALVWNIGMALQEQRRNAAETACVFSSRL				NA	NA	NA	NA	NA
BMS010_00890	975			hypothetical protein	ATGGTTGCACGATGCAACCATAATGGATTGAACGTGCCCCAACAGCCATTCCCCATAAACGACATCCGTTCCACCTCCCGCCGGCTCGTCCGCGAACTCGGCTTCATGGGGGGAGACTTTGCCGGCACCGATCTGCCGCCCTCCGCCGTGCATGCCCTGATCGAGATTGAGGCGCGCCCCGACATCACGGCGCGGGATTTGGGAAAACTTCTGCGGCTTGAAAAATCGAGTGTCAGCCGCATGCTGCGCAAGCTCGTCCTGTCGGGCGATGTTCGCGAAGAAACGGATGAAGGAGACAGCCGCATCAAGCGGCTGCGTCTTACGGGTCAGGGACAAGAACAGGTGAGCGCCATTCACGGCTTCGCGAACCGGCAGGTCTCCGGCGCCCTGAGGCAGCTTACATCAGCGGATGCCGACACGATCCTCCAGGGACTTCGTCTCTACGCCGATGCGCTGGGAGACAGGACCGATACCGTTGCTCCCTCCATGGAGATACTGGAAGGATACAGATCCGGCATCATTGCCCGGATCACGCAGATGCATGCGCTTTATTACGCCCGGACATCCGGCTTCGGCCAACGTTTCGAATCCGTCGTGGCCGAAGGCCTCGCCGCTTTTTCCAACCGGCTCGAAAGCCCGAAGAATGCCATCTGGGTCGCAATGCGCGGACAGGAGATCATCGGCTCCGTCGCTATCGATGGCGAAGATCTCGGAGCGGATATTGCGCATCTGCGCTGGTTCATCGTTGATGACGGCGTGCGCGGTGGCGGTGTCGGACGCAGGCTGCTGGAAACCGCACTGGCCTTCGTCGATGAAAAGGGCTTTGCCGAAACCCATCTCTGGACATTCAACGGCCTCCTGGCCGCACGGCACCTTTACGAAACCCATGGCTTCAAATGCGTCGAGGAACATCCGGGCAGCCAGTGGGGAAGCGAGGTTCTGGAACAGCGCTTTGTCCGGTCACGGCCCGAATGA	MVARCNHNGLNVPQQPFPINDIRSTSRRLVRELGFMGGDFAGTDLPPSAVHALIEIEARPDITARDLGKLLRLEKSSVSRMLRKLVLSGDVREETDEGDSRIKRLRLTGQGQEQVSAIHGFANRQVSGALRQLTSADADTILQGLRLYADALGDRTDTVAPSMEILEGYRSGIIARITQMHALYYARTSGFGQRFESVVAEGLAAFSNRLESPKNAIWVAMRGQEIIGSVAIDGEDLGADIAHLRWFIVDDGVRGGGVGRRLLETALAFVDEKGFAETHLWTFNGLLAARHLYETHGFKCVEEHPGSQWGSEVLEQRFVRSRPE				NA	NA	NA	NA	NA
BMS010_00891	1032	idnD_1	COG1063	L-idonate 5-dehydrogenase (NAD(P)(+))	ATGAAAGCGGTTGTCATCCACGCGGCGAAGGATCTGCGGATCGAGGAACGGGAGACCGGGCAGCCCGGTCCGGGACAGGTCGAGGTCGCCATCGAAGCGGGTGGCATCTGCGGCTCCGACCTGCATTATTACAATCATGGCGGCTTCGGCACCGTGCGCGTGCGGGAGCCGATGATCCTCGGCCATGAGGTCGCCGGCACCATCAAGGCTTTGGGAGAGGGTGTCTCCGGTCTCGCCGTTGGCGACCGTGTTGCCGTATCGCCGAGCCGGCCCTGCAACCATTGCGAATTCTGCCTGAAGGGTCAGCAGAATCAGTGCCTGAACATGCGCTTTTATGGCTCCGCCATGCCCATGCCGCATATTCAGGGCGCATTCCGTCAGCGTCTCGTCGCCGAGGCATATCAGTGCCACAAGGTGCGGGATGGCATCTCCATTCATGAAGCGGCCATGGCCGAACCTTTCGCGGTAACGCTGCATGGCGTCAACCGCGCCGGAGCATTGACCGACAAGCGCGTTCTGGTCACCGGCTGCGGGCCGATCGGTGCACTTGCCATCATCGCCGCCCGCGCCCATGGCGCCCGGGAAATCGTCGCGACTGATGTCATGGATGCGGTTCTGCAAAAGGCGCTCGCCGTTGGCGCCGACCGTGTCATCAATGTCGCCGATGACCCGGATGTGCTCTCCGCCTATTCGGCAAACAAGGGTTATTTCGATGTGCAATTCGAGGCATCCGGCAATGAAAGAGCCGTCCGTTCGGGTCTCGAAGCGCTGAAACCGCGTTCCACCGTGGTTCAGCTCGGTCTTGGCGGCGATGTGTCCATTCCGCAGAATATGGTGGTCGCTAAGGAAATCGAGATGAAGGGCACCTTCCGGTTCCATGAGGAATTCGGACTTGCCGTTGATTTCATCAACCAGCGCCGTGTCGACCTGAAGCCCCTGCTCACTGGAACCTTTCCGCTAGAAGAGGCGGTTGCGGCATTTGAAGCCGCCGGTGACAGAAGCAGGTCGATGAAGGTTCAACTCGCCTTTTAA	MKAVVIHAAKDLRIEERETGQPGPGQVEVAIEAGGICGSDLHYYNHGGFGTVRVREPMILGHEVAGTIKALGEGVSGLAVGDRVAVSPSRPCNHCEFCLKGQQNQCLNMRFYGSAMPMPHIQGAFRQRLVAEAYQCHKVRDGISIHEAAMAEPFAVTLHGVNRAGALTDKRVLVTGCGPIGALAIIAARAHGAREIVATDVMDAVLQKALAVGADRVINVADDPDVLSAYSANKGYFDVQFEASGNERAVRSGLEALKPRSTVVQLGLGGDVSIPQNMVVAKEIEMKGTFRFHEEFGLAVDFINQRRVDLKPLLTGTFPLEEAVAAFEAAGDRSRSMKVQLAF	PGPT0018190_447	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_IDONATE_DEGRADATION,PGPT0018190-idnD-K00098	NA	NA
BMS010_00892	675	ligK_1	COG0684	4-carboxy-4-hydroxy-2-oxoadipate aldolase	ATGATCCACATTAAAGATATCGCGCAGCGTCCGGCCAAGGCGGATGTCGAAGCGCTTGCCAAATTCTCTCCCGCCACGATCCATGAGGCGCAGGGACGTCGCGGCGCATTGTCCTCGCGGCTGAAGCCGGTCGATTATCGCATGAAACTCTGCGGCCCGGCCTTCACGGTCAAATGCGCGCCGCGCGACAACATCATGCTGCAGCTTGCCATCAACTATGCCAAGCCGGGTGACATCATCGTCGTTTCCGCCGGCGAATATGAAGAAGCCGGCTCCTTCGGTGACGTGCTCGCCAATGCTTGCCTCGCAAAAGGCATCGGCGGCCTGGTAACGGATACCGGCGTGCGCGACACGCTGCAGCTGCGGGACCTCGGCTTTCCGGTCTTCTCGCTCAGCGTCTGCATCAAGGGTACGGTCAAGGAGACCATTGCGGCGGTCAACGATCAGGTGATCGTCGGCGGCGAGATCATCAATCCGGGCGATATCATCGTCGGCGACGCTGATGGCCTTGTGGTCGTCAGGCGCGAGGAGGCACAGGAAGCGGCCAGGCTTTCGCAGGCCCGCGAAGATGCCGAGGCCGGTTACATCGAAGCCTACAAGCAGGGCAAGTCGGTGATCGAGGTCAGCAAGCTCGAGCCGGTTCTGAAAGCCAAGGGCCTCGTGGTCGATATCTGA	MIHIKDIAQRPAKADVEALAKFSPATIHEAQGRRGALSSRLKPVDYRMKLCGPAFTVKCAPRDNIMLQLAINYAKPGDIIVVSAGEYEEAGSFGDVLANACLAKGIGGLVTDTGVRDTLQLRDLGFPVFSLSVCIKGTVKETIAAVNDQVIVGGEIINPGDIIVGDADGLVVVRREEAQEAARLSQAREDAEAGYIEAYKQGKSVIEVSKLEPVLKAKGLVVDI	PGPT0002085_803	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-GALLATE_RESISTANCE,PGPT0002085-ligK|galC-K10218	NA	NA
BMS010_00893	837	glnH_1	COG0834	ABC transporter glutamine-binding protein GlnH	ATGAACTGGAAGTGCATTACTCTTACCGCCATATTGGCAACCTCGGCTGCGGTCATTCCGGCCAAGGCCGACCAGCTCGACACGATCATGGCGAACAAGACGCTGCGTTGCGCGACATTCGCTGATGTGCCGCCTTTCGCCTCACCGGACCCGAAGACGCGCGAAATGGCAGGCTTCGACGTCGATCTGTGCGGCGCTATCGCCAAGGAATTGGGCGTCAAGGCCGAGATCAAGCCAGTGTCGGTCGAAGCGCGCGTTCCCGAAGTCAAGCTCGGCCGCGTCGACCTCTCGGTCGCCAACCTCGCTTACACCCAGAGCCGCGCCGAGCAGATCCAGTTCAGCGACCCATATTACTTGGCGAAGGAAATGCTGATCGTTCCGGTCGATGACCCCGGCACCAAGAAGTCCGATTTCGTCGGCCAGCGCATCGCGTCCAGCAAGGGCTCGACATCGGAACTCTCCGTCAAGCTCAACAAGTCCGAGCCGCTGACGTTCCAGGACACGGCATCCGCCTATCTCGCCGTGCAGCAGGGCAAGGCGCGCGGCATCGTCGGCAACACCATGACGATGACCAAGTTCGTCAATGAATCCAAGACCAAGGGCAAGCAGATGCGCATGATCGAAGAGCCGATGCTCTTCCAGCCCATCGGCATCGGCATGGCCAAGGACAACCCGGCGCTGACCGCGAAGATCAACGAAATCCTGCGCAAGCTCGATGCGGATGGTGAAATCAACCGCATCTGGGACAAGTGGCTTGGCCCGAACACCGAATACAAGATGACGCGGACCGACAAGGTCGTGCCTCTGTCCGAACTGAAGTTCGACCCGATCCCCTGA	MNWKCITLTAILATSAAVIPAKADQLDTIMANKTLRCATFADVPPFASPDPKTREMAGFDVDLCGAIAKELGVKAEIKPVSVEARVPEVKLGRVDLSVANLAYTQSRAEQIQFSDPYYLAKEMLIVPVDDPGTKKSDFVGQRIASSKGSTSELSVKLNKSEPLTFQDTASAYLAVQQGKARGIVGNTMTMTKFVNESKTKGKQMRMIEEPMLFQPIGIGMAKDNPALTAKINEILRKLDADGEINRIWDKWLGPNTEYKMTRTDKVVPLSELKFDPIP	PGPT0020800_6607	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_00894	768	glnQ_1		Glutamine transport ATP-binding protein GlnQ	ATGACCGCGCCAGTTTCCGCCACTCAGGCCGCCTACACCATCACGCTTTCGCAGGTCTGCAAAAGCTATGGCGATTATCAGGTGCTCAAGGATGTCAACGAAAACGTCACCCGTGGCGAGGTCGTGGTCATCTGCGGGCCGTCGGGCTCCGGCAAGTCCACCCTCATCCGCACGATCAACCGTCTGGAAGAGATCAGCAGCGGTGCGATCATGCTGGACGGAAGGAACATCCATGCCCAGATGCGCGCAAAGGAGTTGAACGCGCTGCGCAGCCGTGTGGGCTTCGTCTTCCAGAGCTTCAACCTCTTCCCGCATCTTTCGGTGGTGGAGAATGTCTCCATGTCGCCGGTCCGGGTGAAAGGTGTTGCTCCGGCCGTCGCCCATGACAAGGCGCTGAAGCTTCTCGACCGCGTCGGTCTAGCCGACAAAGCCAGTTCCTATCCCGCGCAGCTTTCCGGCGGTCAGCAGCAGCGCGTCGCCATCGCGCGGGCACTCGCCATGGAGCCGCCGGTCATGCTGTTCGACGAGCCGACCTCAGCGCTCGATCCGGAAATGGTTGGCGAAGTGCTCGCCGTCATGAAGAGCCTCGCCGCCGAAGGCATGACCATGCTCTGCGTCACCCATGAAATGGGCTTTGCCCGGGAAGTGGCCGACCGCATCTGGTTCATCGATGCCGGGCGCATTCTCGAAACGGCAAAACCGGACGAGTTTTTCAAAAATCCGCAACATCCGCGTGCCCAGCGGTTTCTTGCCGATTTGAGACACTAG	MTAPVSATQAAYTITLSQVCKSYGDYQVLKDVNENVTRGEVVVICGPSGSGKSTLIRTINRLEEISSGAIMLDGRNIHAQMRAKELNALRSRVGFVFQSFNLFPHLSVVENVSMSPVRVKGVAPAVAHDKALKLLDRVGLADKASSYPAQLSGGQQQRVAIARALAMEPPVMLFDEPTSALDPEMVGEVLAVMKSLAAEGMTMLCVTHEMGFAREVADRIWFIDAGRILETAKPDEFFKNPQHPRAQRFLADLRH	PGPT0020790_2565	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020790-ABC_PA_A-K02028	NA	NA
BMS010_00895	762	yhdY_1	COG0765	Inner membrane amino-acid ABC transporter permease protein YhdY	ATGATCCACGACATGATCGCAATCATCCAGGATTACTGGCTGCTGCTCCTGATCGGCCAATATCCCAACGGCCCGCTCGGCGGCCTTGCCAACACGCTCATCCTGTCGGCGCTTAGCATTGCGCTTGCCTTCCCCGTCAGCATCCTGATGGCGCTGGCGCGGCTGTCGAAATGGCGGGCACTGCGCTGGCCGGTGACCGCGGTGGTTTATTTCACCCGTGGCGTGCCGCTGCTGATGCTCATTCTCTGGAGCTATTTTCTCGTTCCGCTCTGGACCGGGGCAGACGTGCCGAGCTTCGTGACGATGCTGGCCACGCTCGTCATCTATCAGGGCGCTTTCATGAGCGAAGTCGTCCGTGCCGGCATCGTATCGCTGGGCACGGGGCAGATGGATGCGGCACGGGCGCTCGGCCACGGTTATTTCGGCGCGATGCGCTATGTCATCCTGCCGCAGGCGCTCTACAACATGATCCCGAGCCTGATCTCGACCTTCGTATCCACCATAAAGGATACGACGCTCGGCTACGTCATCAATGTGCCGGACCTGACCTTTGCGGCGAACCAGGTGAACAACCAGCTTTTGACCCAGCCCTTCCAGGTCTTCCTCATTCTGGCGCTGGTTTATTACATCATCTGCTGGTCGCTCACCCATGTCGCCAATCTTCTCGAGCGGCGTATCGCCCGCCGCCGGGCCGGCCCGCGCGGCAAGCTTGCCGCAGACACGGCACCGGCCCCCGCCAATATCGCTACGGAGCAGCTATGA	MIHDMIAIIQDYWLLLLIGQYPNGPLGGLANTLILSALSIALAFPVSILMALARLSKWRALRWPVTAVVYFTRGVPLLMLILWSYFLVPLWTGADVPSFVTMLATLVIYQGAFMSEVVRAGIVSLGTGQMDAARALGHGYFGAMRYVILPQALYNMIPSLISTFVSTIKDTTLGYVINVPDLTFAANQVNNQLLTQPFQVFLILALVYYIICWSLTHVANLLERRIARRRAGPRGKLAADTAPAPANIATEQL	PGPT0020795_3933	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
BMS010_00896	708	yecS_1	COG0765	L-cystine transport system permease protein YecS	GTGAGCGGTTTTGACCTCGGCGCAATTTTGAACAATGCGGACTACGTCTCGATGCTTTTGCATGGCATCCAGATGACGTTCATCATCTATGCCGGCTCGTGGCTGCTCGCCATGTCGCTCGCCATCGTGCTTCTCGCCATCCGCCTCTCGCCCTTCCGCTTCGGCGATCCGCTGGTGGCGGCCTATGTGTCCTATCACCGCAATGTGCCGACGCTCGTGCAGCTGATGCTCTGGTATTTCGGCGTCTTCACGCTGCTGCCGAGCGGGCTGGCCAGCTGGCTTTCCAGCCATAATGCGGAAGCTATCTTCGCCATTATCGGCCTCGGTCTCTGTCAGGCGGCCTATTTCAGCGAGGATCTGCGTTCGGGCGTTCGCTCCATCAATCCCGGCCAGATGGAGGCGGCGCGCGCTCTTGGCCACAGCTATGTCTCGGCCATGCGCTTCGTCATCATGCCGCAGGGCGTTCGCAACGCGCTGCCGCCGCTCATCAACCACAGTACCTCGCTTTTCAAGAACAGCAGTCTCGGCGTTCTGATCGGCGCACCGGAACTCACCCATGCGGTCAAGGAAGTCGAAAATCTGAGTTTCCGAACGTTTGAGGTCTATCTGGTCGCCACCGTGCTTTATCTGTTCTTCTCGCTGCTGATCATGGGTCTTGGAGCTTATATCTCCATGCGTGCCGATCCTCTGCGGAGGGCGCGGGCATGA	MSGFDLGAILNNADYVSMLLHGIQMTFIIYAGSWLLAMSLAIVLLAIRLSPFRFGDPLVAAYVSYHRNVPTLVQLMLWYFGVFTLLPSGLASWLSSHNAEAIFAIIGLGLCQAAYFSEDLRSGVRSINPGQMEAARALGHSYVSAMRFVIMPQGVRNALPPLINHSTSLFKNSSLGVLIGAPELTHAVKEVENLSFRTFEVYLVATVLYLFFSLLIMGLGAYISMRADPLRRARA	PGPT0020795_5583	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
BMS010_00897	801	ydfG	COG4221	NADP-dependent 3-hydroxy acid dehydrogenase YdfG	ATGCCATTCTCAGACTACAAGACCGCACTCGTAACCGGCGCATCTTCCGGAATTGGCGCCGCCGTCGTGGAGCGCCTTTGCCGCGAAGGGCTGGAAGTGCATGCGGTTGCCAGAAGCGCGGACGCTCTCAACAAGCTGGCGAAGCGCACGGGCTGCTTCGCACATGCCATCGATGTGACGAACCGGCCGGCGCTTGCAAAGCTGACGAGCGAAGTTGCGTTCGATGTCCTCGTTAACAATGCCGGCGTTGACCGCCCGAAGAAGTTTCTGGAAGCGGATGAGAGCGATATCGATCTCCTGATCGACGTCAACCTGCGCGCCGTGCTGCATCTGTGCCGCATGGTGGTGCCGGGCATGGTGGCGCGCGATCGCGGCCACGTCATCAACATCTCCTCCATTGCCGGCAATTATAATTTCGGCGGCAATTCCACCTATCATGCCAGCAAGGCCGGCGTGGCGATGCTGTCCAACCAGCTGCGCATCGATGCTTTCGGCAAACGCGTGCGGGTGACGGAAATCTGCCCCGGCCGCGTCGCGACCGATATTTTCAACCATGTGCATGGCGATGATCCGAGCATTCGCGAACGTTTCATCGATGGTTTCGAATTGCCGCAGGCATCCGATATCGCCGATGCGATTGCCTTTGCCATCGCCGCACCCGTGGCCATGAATATCGGCCACATGGAAATTACCCCTACGCTTCAGGTCATGGGCGGGCTGCAGACGGCCAAGCCCCAAACGGTTGAAAATCGGCCGGCTGAAAAGGTCGCGGCGGGCGGAGCCGGAGGAAAAGTCGCGTGA	MPFSDYKTALVTGASSGIGAAVVERLCREGLEVHAVARSADALNKLAKRTGCFAHAIDVTNRPALAKLTSEVAFDVLVNNAGVDRPKKFLEADESDIDLLIDVNLRAVLHLCRMVVPGMVARDRGHVINISSIAGNYNFGGNSTYHASKAGVAMLSNQLRIDAFGKRVRVTEICPGRVATDIFNHVHGDDPSIRERFIDGFELPQASDIADAIAFAIAAPVAMNIGHMEITPTLQVMGGLQTAKPQTVENRPAEKVAAGGAGGKVA	PGPT0021285_1313	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021285-ydfG-K16066	NA	NA
BMS010_00898	936		COG1052	2-ketogluconate reductase	ATGAAGCCCGATCTTCTGCAAACCTACCCGCTTCAGCCACAGATAGAAGCCGAACTGCAAAAGCGCTTCCGGGTCCATCGCTGGCACGAAATATCCGACAAACAGGCGTTTCTGCAGGCGGAGGCGGCTTCGATAAAGGCTGTCGTCACGGGCGGTCATATCGGCCTTGCCCCTGATCTCGCCGCCTGCCTGCCCGCTCTCGAAATCGTCGCCATTAACGGCGTCGGTTTCGACAAGGTCGATCTTGATCAGGCCCGCGCGCGCGGCTTCAGGGTCACGAACACGCCGGACGTGCTGACCGAGGATGTCGCCGATCTCGCCATCGGCCTTTCCATCATGCTGCTGCGCCAGCTCGTCAGCGCGGATCACCATGTCCGCTCGGGGGAGTGGAAAAAAGCCGAGATGCCGCTTGGCAACAAGGCCTCGCGGCGGCGTTACGGGATTTACGGGCTTGGCCGCATAGGCCGCGCCATCGCGGCGCGGCTGGAAGCCTTCGATGCGGAGATTTCCTATTTCAGCCGGCGGAAACAGGACGTGGCCTATGATTATCATTCAACGGCAGTGTCGCTCGCAAGCGCCTGCAATGTCCTGATCGTCGCGGCGGCGGCGACGCCGGAGACCAGGCACGCGATCAACCGCGAGGTGCTGGCGGCGCTGGGGCCGGATGGCGTGCTCGTCAACGTCGCCAGAGGATCGCTGGTGGATGAAAAGGCGCTGGTCGATATTCTTGTGGCAGGCGGGCTGAAGGGTGCGGCACTCGATGTTTTCGAGAACGAGCCGCATGTTCCCGAGGCGCTGATCGGCATGCGCAATGTCGTTCTCGCCCCGCATATCGGCGCTGCGACCCATGAGACGCGGCTTCAGATGGGCGCTCTGGTTCTCGCCAATCTGGATGCGCATTTCGCAGGACAGGACCTGCCGACGGCGGTGGTCTAG	MKPDLLQTYPLQPQIEAELQKRFRVHRWHEISDKQAFLQAEAASIKAVVTGGHIGLAPDLAACLPALEIVAINGVGFDKVDLDQARARGFRVTNTPDVLTEDVADLAIGLSIMLLRQLVSADHHVRSGEWKKAEMPLGNKASRRRYGIYGLGRIGRAIAARLEAFDAEISYFSRRKQDVAYDYHSTAVSLASACNVLIVAAAATPETRHAINREVLAALGPDGVLVNVARGSLVDEKALVDILVAGGLKGAALDVFENEPHVPEALIGMRNVVLAPHIGAATHETRLQMGALVLANLDAHFAGQDLPTAVV	PGPT0001315_9	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-VITAMIN_C|ASCORBIC_ACID_BIOSYNTHESIS,PGPT0001315-2_ketogluconate_reductase-K22229	NA	NA
BMS010_00899	756	hcaB_2		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGAGTGATGGAAAGATCGCGCTCGTTACGGGCGGAGGAACAGGAGTCGGCAAGGCGATTGCCGAGGCGCTTCTGGAAGATGGTTACAGCGTCGCGATCACCGGGCGGCGGCGTGAGGTTCTGGATGCCGCCGTTGGCGAATGGCGCGAACATGGAGATCGTATTCTTGCCGTCGCGGCCGATATTTCCGTTCCGGCCGATGTCGAACGGCTGTTTGCGGAGGTCACCGGACGTTTCGGCCGCCTCGACCTTCTGGTCAACAATGCCGGCATGTCGGCGCCGGCTGTCCATATCGAAGATGTGCCGTTCGAAACCTGGAACGCGGTGGTCGGGGCCAATCTCACGGGCGCCTTTCTCTGCACCCAGGCGGCATTTCGCCAGATGAAGGCGCAATCGCCGCAGGGCGGGCGCATCATCAATAATGGCTCGATTTCGGCCACCACGCCGCGGCCGCGTTCGGCGCCCTATACCGCGACCAAACACGCGATCACCGGCCTTACCAAGTCGGCCGCGCTGGATGGCCGGGCATTCAACATCGCCTGCGGGCAGATCGATATCGGCAATGCCAGCACGGAAATGACGCGCGCCATGGCAACCGGTGTGTTGCAGGCGGATGGCAGCACCGCCGTCGAACCGACCATCGATGCCAGCATCGTCGCCAAAGCCGTGGTGCATATGGCCTCGCTGCCGCTGGAAGCGAATGTGCTGACCATGACGGTGATGGCGAGCGGCATGCCTTTCGTCGGTCGCGGCTAA	MSDGKIALVTGGGTGVGKAIAEALLEDGYSVAITGRRREVLDAAVGEWREHGDRILAVAADISVPADVERLFAEVTGRFGRLDLLVNNAGMSAPAVHIEDVPFETWNAVVGANLTGAFLCTQAAFRQMKAQSPQGGRIINNGSISATTPRPRSAPYTATKHAITGLTKSAALDGRAFNIACGQIDIGNASTEMTRAMATGVLQADGSTAVEPTIDASIVAKAVVHMASLPLEANVLTMTVMASGMPFVGRG	PGPT0018065_1217	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_OLIGOGALACTURONIDE_DEGRADATION,PGPT0018065-kduD-K00065	NA	NA
BMS010_00900	987	denD_1	COG0451	D-erythronate dehydrogenase	ATGCATATTCTGATAATCGGCGCCGCTGGAATGATCGGCCGCAAATTGACGCAACGTCTCGCTTCTGACGGAGAGCTTGGCGGTGCAAAGATCACGGAAATGACGCTGACGGATGTTTTCGAGCCGACCGCGCCGAAGGGCTTTGGCGGCAAACTGACCATCGAGCGCAGCGATCTGTCGAATGCCGGCGTCGCCGAAAAGCTGATTGCCAAGCGACCGGATGTGATCTTCAACCTCGCCGCCGTGGTTTCGGGCGAGGCGGAGGCCGATTTCGAGAAGGGCTATCGCATCAATCTCGATGGCGGACGTTCGCTGTTCGAAGCCATTCGTCTGGAGCATCAGAAGGATGGCTACCGCCCGCGTGTGGTCTTCTGCTCGTCGCTCGCGGTTTTCGGGTCGCCTTTCCCCAAGGTAATTGGCGACGAGTTCCTGCCGGCGCCGTTGACCAGCTATGGCACGCAGAAGGCGATCGTGGAGCTGTTGCTTGCGGATTATAGCCGTCGCGGTTTCTTCGATGGCGTCAGCATCCGCCTGCCCACCATCTGTATCCGCCCCGGCAAGCCGAATGCGGCTGCCTCCGGCTTCTTCTCCAATATTCTGCGCGAACCGCTGGTGGGCCAGGAAGCGGTGTTGCCCGTTGCCGATACCGTGCGCCACTGGTTCGCCAGCCCGCGCTCGGCGGTCGCTTTCCTGCTGCGCGCCGCGAGCGTTGATCTCTCCGGGCTTGGCGTTCGCCGCAATCTCATCATGCCGGGGCTTTCGGCCACGGTGGCCGATGAAATCGAGGCCCTGCGCGCCTTTGCCGGGGAAAAGGCCGTGGCGCTTATCAAGCGTGTTCCCGACGAGCGGATCATCCGGATCGTCGACGGCTGGGCCGAGGATTACGATCCGCAACTGGCGCTGTCGCTTGGCTTCAGGGCGGAAACGTCCTTCGCCGAAATCATTCAGGCGCATGTGGAAGATGAGCTGGAGGGGAAAGCAGCATGA	MHILIIGAAGMIGRKLTQRLASDGELGGAKITEMTLTDVFEPTAPKGFGGKLTIERSDLSNAGVAEKLIAKRPDVIFNLAAVVSGEAEADFEKGYRINLDGGRSLFEAIRLEHQKDGYRPRVVFCSSLAVFGSPFPKVIGDEFLPAPLTSYGTQKAIVELLLADYSRRGFFDGVSIRLPTICIRPGKPNAAASGFFSNILREPLVGQEAVLPVADTVRHWFASPRSAVAFLLRAASVDLSGLGVRRNLIMPGLSATVADEIEALRAFAGEKAVALIKRVPDERIIRIVDGWAEDYDPQLALSLGFRAETSFAEIIQAHVEDELEGKAA	PGPT0019550_151	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ERYTHRONATE_UTILIZATION,PGPT0019550-denD-K22025	NA	NA
BMS010_00901	1512			hypothetical protein	ATGACTGATCTTTTTTCTAATATCATCCTCGGGTTCGGTGTGGCCGTCACGCCAGTAAACCTTTTCTACTGCCTGCTTGGCGTCACGCTCGGCACGATGATCGGCATCCTGCCGGGCATCGGCCCTTCCGCCACCGTCGCGCTGCTTCTGCCCATCACCTATACGATGCCGGATACGGCCGCACTGATCATGCTGGCGGGCATTTTTTATGGCGCGCAATATGGCGGCTCGACAACGGCGATCCTCGTCAATCTGCCGGGCGAATCCTCGTCCGTCGTCACCTGCATCGATGGTTATGCCATGGCCCGGCAGGGCAGGGCGGGTGTGGCGCTGGCCACGGCGGCGCTCGGGTCGTTTTTTGCCGGCACGGTGGCGACCATCCTGATCGTCGTTGTCGCAAAGCCGCTTTCTGCCGTGGCACTGGCCTTCGGGCCGGCCGATTATTTCAGTCTGGTGATCTTCGGGTTGCTGTTTGCCGTGTTCCTGTCGAGCGGATCACCGGTCAAGGCGGTCGGCATGGTCGCCTTCGGCATTGCACTCAGCCTCGTCGGCATCGATCCGACATCGGGTGAGCAGCGCTTCACCTTCGGCATGGCGGAACTGTTCGACGGTATCGATTTCGTCGTTCTCGCCATCGGGCTTCTCGGCGTCAGCGAGATCCTCTTCAATCTGCAGCAGGGCGTGGAGCGCGATGCGGACACGGTAAAAACCGGATCGCTGATGCCGACCCGGCAGGATTTCAAGCAAGCCTTTCCGGCCGTGCTGCGCGGCACGGCGCTCGGCTCTTTCCTCGGCGTGCTGCCCGGCGGCGGTGCGATTATGAGTTCTTTCGCGAGCTACGCGCTGGAGCGCAAGATCGCCAAGGATCCATCCCGTTTCGGCAAGGGCGCAATCGAAGGGCTGGCGGGGCCGGAAAGCGCCAACAATGCCGGCGCGCAGACCTCCTTCATCCCGCTTCTGACGCTCGGTATTCCCGCCAACGGCCTGATGGCGCTGATGGTCGGGGCGATGATGATACAGGGCATTACACCGGGACCTGAAGTCATGCAGTCGCGGCCCGATCTCTTCTGGGGGCTTATCGCCAGCATGTGGGTGGGCAATCTTCTGCTCCTGGTGCTGAACCTGCCGCTCATCGGCATCTGGGTTCGCCTTCTCGGCATACCCTATCGCTTCTTGTGCCCCGCCATTTTGATGTTCTGCGCCATCGGGGCCTATGGCCTGTCCTACAGCGTCGTCGACGTTCTGTTCTGCGCGGTCTTCGGCATTGTCGGCTTCTTCCTGCGCAAGATCGGCTGCGAGCCGGCGCCGCTGGTGCTGGGCTTCGTTCTCGGTCCGCTTCTGGAGCAGAACATGCGCCTCGGGCTGCTGATTTCGCAGGGAAGTTTCTCGACATTCGTCACCCATCCGATCAGCGCCACCCTGCTCGCATTGTCCGGCATGGTCGTCATCATGATGGCGATGCCGGCGATCATGCGCCGTCGCGAGGTGGTGTTCCAGGGTGATGACGACTGA	MTDLFSNIILGFGVAVTPVNLFYCLLGVTLGTMIGILPGIGPSATVALLLPITYTMPDTAALIMLAGIFYGAQYGGSTTAILVNLPGESSSVVTCIDGYAMARQGRAGVALATAALGSFFAGTVATILIVVVAKPLSAVALAFGPADYFSLVIFGLLFAVFLSSGSPVKAVGMVAFGIALSLVGIDPTSGEQRFTFGMAELFDGIDFVVLAIGLLGVSEILFNLQQGVERDADTVKTGSLMPTRQDFKQAFPAVLRGTALGSFLGVLPGGGAIMSSFASYALERKIAKDPSRFGKGAIEGLAGPESANNAGAQTSFIPLLTLGIPANGLMALMVGAMMIQGITPGPEVMQSRPDLFWGLIASMWVGNLLLLVLNLPLIGIWVRLLGIPYRFLCPAILMFCAIGAYGLSYSVVDVLFCAVFGIVGFFLRKIGCEPAPLVLGFVLGPLLEQNMRLGLLISQGSFSTFVTHPISATLLALSGMVVIMMAMPAIMRRREVVFQGDDD	PGPT0017350_1907	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017350-tctA-K07793	NA	NA
BMS010_00902	453			hypothetical protein	ATGGCCGAAAACGGCTCGAAACTGACCGCGAATATTCTGTCCGGGGCCTTCTTTCTGGCCGCCGCCGCAGGGCTTTATTATGGCGCGCGGCCGCTGAGCATGGGCACCAATTTCCAGCCCGGACCCGGCTATATGCCGACGGTCATCGCGGCTTTGATGTTCGCACTCGGCATCGCGCTGCTTTTGCAGGATTTGCTGGGAAAGACACCGTCCGAAGCCTGGGTGGCGCCGAAAATGCGTCCGTTTCTGGCGGTCGCCGGCATTGTCGGTTTTGCGCTGCTGATCGAGCCATTGGGCTTCATCGCCGCCGCTTTCGTGCTGATCGTGCTCGCCTGCATCGCCTATGGCAGGATCCGGCCGGTTGAAGTTCTGCTGCTTTCGGCGGTGCTCATCCTTGCCTGCATCCTCATTTTTGTTGTCGGCCTCGGACAGAGGATACCGCTGCTGCCATGA	MAENGSKLTANILSGAFFLAAAAGLYYGARPLSMGTNFQPGPGYMPTVIAALMFALGIALLLQDLLGKTPSEAWVAPKMRPFLAVAGIVGFALLIEPLGFIAAAFVLIVLACIAYGRIRPVEVLLLSAVLILACILIFVVGLGQRIPLLP	PGPT0017355_2241	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017355-tctB-K07794	NA	NA
BMS010_00903	669	ligK_2	COG0684	4-carboxy-4-hydroxy-2-oxoadipate aldolase	ATGGCCCATGTCATCCGCAATTTCCAGCGCCCTTCCAGAGCCGATATCGAAGCGATCAGCAAATTCAGCCCTGCCACCATTCACGAGGCGCAGGGCAAGCTCGGTGCTCTCGATTATCGCATCAAGCCGATCAAGCCCGGCCTGAAAATCTGCGGCCCGGCAATCACCGCGAAATGCCATATCGGCGATAATCTGATGATTTTCGAAGCTATCAATCTGGCAAAGCCCGGCGATGTGCTGGTCATCGATGGCGGTGACAATCCCAATCAGGGCGGCTTCGGCGATGTGCTGGCTGCCGCTTGCATCGGCAAGGGCATTGTCGGTTTCGTGGTCAGCGCCGCCGTGCGCGATGGCAAGGGGCTGCGTGAGATCGGTTTCCCGGTGTTTTCGCTCGGGCTTTGCATGAAGGGCACCTCCAAGGACACGCTCGGCACCATCAACCATCCGGTCGTGGTCGGCGGTGAACTGATCAGCCCCGGCGATATCGTCTGCGGCGATGATGACGGCGTCGTCGTCGTTCGCGAGAAGGATATCGCAAAGCTCGTCAAGGCTTGCCAGGAACGCGACGACCACGAGAACCACATGATGGAACTGCACCGGCAGGGCAAGATGGATATCGAGGATCGTTACGACATGATGCGCTCGAAGGGATGTGTCTGGGCCGATTAA	MAHVIRNFQRPSRADIEAISKFSPATIHEAQGKLGALDYRIKPIKPGLKICGPAITAKCHIGDNLMIFEAINLAKPGDVLVIDGGDNPNQGGFGDVLAAACIGKGIVGFVVSAAVRDGKGLREIGFPVFSLGLCMKGTSKDTLGTINHPVVVGGELISPGDIVCGDDDGVVVVREKDIAKLVKACQERDDHENHMMELHRQGKMDIEDRYDMMRSKGCVWAD	PGPT0002085_967	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-GALLATE_RESISTANCE,PGPT0002085-ligK|galC-K10218	NA	NA
BMS010_00904	954			hypothetical protein	ATGCGTTTGAAGACATCTCTGTTTGGCATGCTGGCGGCGGCGGGAATGCTGGCTGCGGGAGGGGCGGCGGCGGAATATCCGGAGCGGCCGGTAACGCTCGTCATCGGTTATCCGGCCGGCGGCGGCACCGATATCCAGTCGCGGGCGCTGGTGCCCTATCTCGAAAAATATCTCGGCACACCGGTCGTGGTGGAAAACCGCGAAGGTGCCGGCGGGTTGATCGGCGCGACCTATATCGCCAATGCGAAGCCTGACGGTTACACCATCGGAGCGCTGAATTTCCCATCCATGTATTCGCCGATCGTGCAGGGCAATGCCAGCTACAAGGAAGACGCCTTCACCCCGCTCGCAAACCAGATCGGCGGCGATCTGGCGCTGACGGTCAACAAGGTATCGCCGATCAAGACCGCCAAGGAGTTCGTGGAGGCGGCCAAGGCGAACCCGGTCGTCGTTGGCGTGACGGGTATCGGTCACCCAAGCCAGATTACAGCCCTGCTGTTCGAAGAGGCGGCGGGCGTGAAGCTCAATTTCGTGCCCTTCAATGGCGGCGGACCGGCACGGCTTGCCATGCTCGGCAACCACGTCACGCTCGGTTTCATGAACCTCAACGAGGTCTTCGCCGACAATCGTTCGGGCGCACTGCGTGTGCTCGCGACCTCCGGTGCCGAGCGTTCGCCGCTTTCGCCTGATGTGCCGACCTTCAGGGAAGCCGGCTACAATGTTCAGTTCAGCCTACTGGCGGGCTTCGGCGCGCCGAAGGGCTTGCCGGCGGATGTGGAGGCAAAGTTGGTCGATGCCTTCCAGAAGGCGCTGAAGGATCCGGATTATCTTGCCGATGCCAAAAAGCGTGAGCTGACGATGCTGCCGCTGACACAGGCCGAATTTGCCGAGGCGCTCAAGAAGGGCAACGCCAATCTGGCCGAGCTCTGGAAAAGCAAGCCCTGGACAAAATAA	MRLKTSLFGMLAAAGMLAAGGAAAEYPERPVTLVIGYPAGGGTDIQSRALVPYLEKYLGTPVVVENREGAGGLIGATYIANAKPDGYTIGALNFPSMYSPIVQGNASYKEDAFTPLANQIGGDLALTVNKVSPIKTAKEFVEAAKANPVVVGVTGIGHPSQITALLFEEAAGVKLNFVPFNGGGPARLAMLGNHVTLGFMNLNEVFADNRSGALRVLATSGAERSPLSPDVPTFREAGYNVQFSLLAGFGAPKGLPADVEAKLVDAFQKALKDPDYLADAKKRELTMLPLTQAEFAEALKKGNANLAELWKSKPWTK	PGPT0017360_2908	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017360-tctC-K07795	NA	NA
BMS010_00905	888	cmpR_2		HTH-type transcriptional activator CmpR	ATGTTGGATTTGCGCAGGCTGCGATATCTGGTCGCGATTGCCGATTGCGGCTCCATGTCGGCGGCGGCGCGGCAATTGGGGATAGCCCAGCCGGCGCTCAGCCATCACATTACGGAACTGGAACGGCTGGTTGGTTTTCCAGTGCTGCACCGGCTGGCGCGCGGTGTGAAGGCGACGGAAAAGGGTGAAGTCCTGCTTTCCCATGCGCGCGAGATTACCGAGAAGGTTCGGCAGGCGGAAGCGGAAATCCGGGCCATGGCCTATCTGGATGAGAGGGTGATCCGGCTGAGCCTCATCCCCTCCTGGGCGACCGCCTTTGCGCCGAGCATCATCAGCGAAGTTGCCGCTTCGATGCCCAAGGTTTCGCTGCGGCTGATAGAGGCGCGCAATGACGAATCCCTGCGCCTTATTCGTCTCGGCAAGGTGGATATGGCCGTTGCGCTGGTCGGTGCGGAGGACAAGGCCGACGATCTTATCGTCAAGGAGAGCCTGTTTGCCGTTTCTTCAAGGCCTATCGGCCGGTCGATACCGCTTGAGGCTGCGGCAGGGCTCAACCTGATCCTGCCGCCGAAAGACAATCCACTGCGCATATCGATCGACGAGGCCGCCGCCCGCGCCGGAATAACACTGAACGTGACCATGGAGATCGACGGGCAGGATACGATCAAACGCGCCGTCAGCGCCGGCATCGGTGCGACGATCCTGTCATGGAATTCGGTGCAGCAGGAGCAGGAGGCCGGTCAGCTTCAGGCCGCCCATATCACCCAGCCCGTCATTTATCGCTCCATACATCTGTTAAAGGGCAGGGAAGTGGATGAGCGAACGTTCAGGCTGTTCCGCGACCTTTTGCGGGCTGTCGCAAGACGTGAACCGGCATTCAACCCATAA	MLDLRRLRYLVAIADCGSMSAAARQLGIAQPALSHHITELERLVGFPVLHRLARGVKATEKGEVLLSHAREITEKVRQAEAEIRAMAYLDERVIRLSLIPSWATAFAPSIISEVAASMPKVSLRLIEARNDESLRLIRLGKVDMAVALVGAEDKADDLIVKESLFAVSSRPIGRSIPLEAAAGLNLILPPKDNPLRISIDEAAARAGITLNVTMEIDGQDTIKRAVSAGIGATILSWNSVQQEQEAGQLQAAHITQPVIYRSIHLLKGREVDERTFRLFRDLLRAVARREPAFNP				NA	NA	NA	NA	NA
BMS010_00906	930	cntI_2		Pseudopaline exporter CntI	ATGAATCCTAAGACCGGAATTTTGCTCAAGCTGGCGGCCATGCTGGCATTCACAGTCATGTCCGCCTGCGTGAAGGGCCTGGACGGGGCGATCCCGGTCGGCGAAGTCGTTTTCTGCCGGGGATTTTTTGCCCTCATTCCCCTCTGTCTCTGGTTCATCGCCTCCTCGGAGCGGATAACCGTGCCGGCCGCGAAGAACATCGGCAGCCTGCTCGCGGGCAGCTCGGCCGGGCTTGGCGGCATGTTCTTCGGCTTTCTCGCCCTCGCCTATCTGCCGCTGGTGAATGTGACGGTGCTGAGCTACACGACACCGCTTTTCACCATCATGCTGGCGGCGCTGCTGCTTGGCGAAAAAGTGCGGATATATCGCTGGTCCGCCGTACTGACCGGTTTCATCGGTGTCTTCATCACGCTCTCGCCGAAACTGATCTTCGATGCCGCCTCAGGCCCCGCTCAAACAGACTGCGTCGCAATGATCGGAACCGCGCTGGCGCTCACCGGTGCGCTTTGCGCAGCCTTTTCCTCCATCGCCGTCCGCCATCTGAACAGCATCGAAAAGCCGTCGCGCATCGTGCTCATCTATACGCTGACGGGTGTGGTGGCCGGCCTCGCCACGCTCGGATTTGGATGGAAGATGCCGGATTTTCACCAGTTCCTGCTGCTCGCCGGCGGGGGCCTTGCCGGCGGCATCGGCCAGATCGCCATGACGCTCAGCCTGCGCCACGCCCAGGCCTCGCTGCTCGCGCCGTTCGATTACACCACCATGATATGGGCAATCGCCCTCGGTTATCTCTTCATGGCCGAAGTGCCGACGGGTGCGACCCTCATTGGCGCCTTGACTGTCATCGCCGCCGGGCTTTTTGCGATGTGGCGCGAAAACCGGCTGGCGAAACAGGCCGTCAGGGAGCCGACAGCGTCAACTGTTCCGTAA	MNPKTGILLKLAAMLAFTVMSACVKGLDGAIPVGEVVFCRGFFALIPLCLWFIASSERITVPAAKNIGSLLAGSSAGLGGMFFGFLALAYLPLVNVTVLSYTTPLFTIMLAALLLGEKVRIYRWSAVLTGFIGVFITLSPKLIFDAASGPAQTDCVAMIGTALALTGALCAAFSSIAVRHLNSIEKPSRIVLIYTLTGVVAGLATLGFGWKMPDFHQFLLLAGGGLAGGIGQIAMTLSLRHAQASLLAPFDYTTMIWAIALGYLFMAEVPTGATLIGALTVIAAGLFAMWRENRLAKQAVREPTASTVP				NA	NA	NA	NA	NA
BMS010_00907	927	ribN_1		Riboflavin transporter	ATGGATTCCCGCAAAGGCATTCTCCTCAAAATCTCCGCAGCGCTCGCTCTGGTGCTGATGGGCGCCTGCATCAGCGGCCTCAGGGGCGAAATACCCATCGGGCAGGTGGTCTTCTTCAGATCGGCTGTGGCCATGCTGCCGCTCTGTCTGTGGATGGCGGCGCAGGGCGGTTTGCGAAGGCAGGTGGCAACCAGCCATATTGGCGGCCATCTGGTGCGGAGTTTTTCCGGCACCGGCGGCATGGTCTTCAGCTATCTGGCGCTCGCCTACATTCCGCTGGCCGACGCGACGGCCATCAGCTACGCGACACCGCTCTTCACCGTCATTCTGGCGGTGTTGCTTTTGAAAGAAGTCGTCAAGATTTACCGCTGGACGGCGGTGGTCGTCGGGCTCTGCGGAATCGTGCTGATCCTGTCGCCGCATTTTTCCTTCGATGTTTCGGATGTCGCTTCCGGCTCTGGCGTCGCCATGCTCGGCGGTCTGTTCGGTCTGGCGGCTGCTTTTTTCTCCGCCATATCGATGATCCAGATCCGGCATTTGACGCAGACGGAAAATACCGGCGCAATCATCTTCTATTTCACCCTGCTCACCACCGTCATCGGCTTTGCCAGCATCGGCATGGGCTGGAAAATGCCGACCGCGTGGCAATGGACCCTGCTGATCGGCACCGGTCTTATTGGCGGTATCGCGCAGATATTGGTGACGCTCAGCCTGCGTTATGCCGAGGCCTCGCTGCTCGCGCCGTTCGACTATACGACGATGATCTGGGCGCTGTTGATCGGTTATGCCTTCATGGATCAGGTTCCGGCCCTGACGACCATTCTGGGGGCTTCTATCGTGGTTGCCGCCGGTTTGTTCACGCTGTGGCGGGAAAGGCGGCTGCACAAAAAGCGCGTTACGGAACAGTTGACGCTGTCGGCTCCCTGA	MDSRKGILLKISAALALVLMGACISGLRGEIPIGQVVFFRSAVAMLPLCLWMAAQGGLRRQVATSHIGGHLVRSFSGTGGMVFSYLALAYIPLADATAISYATPLFTVILAVLLLKEVVKIYRWTAVVVGLCGIVLILSPHFSFDVSDVASGSGVAMLGGLFGLAAAFFSAISMIQIRHLTQTENTGAIIFYFTLLTTVIGFASIGMGWKMPTAWQWTLLIGTGLIGGIAQILVTLSLRYAEASLLAPFDYTTMIWALLIGYAFMDQVPALTTILGASIVVAAGLFTLWRERRLHKKRVTEQLTLSAP				NA	NA	NA	NA	NA
BMS010_00908	429	accB_1	COG0511	Biotin carboxyl carrier protein of acetyl-CoA carboxylase	ATGGATCTGGAAAAGATCAAGAAACTGATCGAGTTCGTTGGCTCTTCGCGAGTATCCGAATTGACCGTGAGCCAGGAGGGAACCACGGTCCGGATCATCCGCGAAAACAATGCCGTTTCGCCGCAGGCACCATCATCGCAGCCCCGGCCCGTTGCGGTAGCCGAAACGGCATCCGCCGCAGCCGCACCGGCGTCATCCGGCATCGTCGCAGCACCCTCATTCGGCCTTTTCCATCGCGCCCCGAGCCCGGGCGCGGCGCCTTTCGCCGAAGCCGGCGACGAGGTCAGGCAAGGACAGGAACTCTTCATCATCGAGGCGATGAAAGTGTTCAACACCGTTAGGGCCGAACGAAGCGGCAGGATCGCCAGATTTATCGCCAATGACGGCGAAGACGTCGAACTTGGACAGCCGGTGCTGGAGTTCGAATGA	MDLEKIKKLIEFVGSSRVSELTVSQEGTTVRIIRENNAVSPQAPSSQPRPVAVAETASAAAAPASSGIVAAPSFGLFHRAPSPGAAPFAEAGDEVRQGQELFIIEAMKVFNTVRAERSGRIARFIANDGEDVELGQPVLEFE	PGPT0001700_2682	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0001700-accB|bccP-K02160	NA	NA
BMS010_00909	1392	accC_1	COG0439	Biotin carboxylase	ATGATGGATGCGACACTCCCAAACGTGGCTGAGACACGAGCATTCGATAGCGTCCTGATCGCCAATCGCGGCGAGATTGCCCTGCGGGTGCAGCGCGCCTGCCGTGAACTCGGCCTGAAGACCGTCATGATCTATTCGGAAGCCGATAAGGATGCCGACTATCTGAAGGCGGCCGACACCGCCATCTGCATCGGCCCGGCCTCTCCCGCCCAGAGCTACCTCAACGCGCCGGCCATATTGCTTGCGATGGAGCTGACCGGCGCTGGCGCGGTTCACCCCGGCTATGGTTTCCTGTCCGAAAGAGCGTCTTTTTCGGAAGCCGTGGAGGCGGCGGGGGCGGTCTTCATCGGCCCACGCGCCGACGCCATTCGCACCATGGGTGACAAGATCGCGGCGAAGCGGGCGATGATGGAGGCCGGCGTGCCCTGCGTTCCCGGACCCGATTCCGCCCTGCCGGACGACATGGCCGAAGTCTCGAGAATCGCCGCTGAAATCGGATATCCGGTCATCGTCAAGGCGGCCGGCGGCGGCGGCGGGCGCGGCATGCGTGTCGTGCACGAGGCCTCCGCTCTTCAGGATGCCGTTCTCGTCACGCGTGAGGAGGCAAGCCGGGCATTCGGAACGCCGGAACTCTATATCGAAAAATTCCTCGAACATCCGCGCCATGTCGAAATTCAGGTTCTCTGCGATGGTCAGGGCAACGGGGTCTGGGTGGGCCTGCGCGATTGTTCCATGCAGCGCCGCCACCAGAAGGTCGTCGAAGAAGGCCCGGCCATCGGCATCCCGCCCGATGTCGCGGCTTTCGTCGGCAATCGCTGTGTCGAAGCCTGCCGCCAGATCGGTTATCGCGGCGTCGGCACCTTCGAGTTTCTTTACGAGAATGGCGAATTTTATTTCATCGAGATGAATACCCGCCTGCAGGTCGAACATCCGGTCACGGAAATGACCTCGGGCGTGGATCTGGTGCGCCAGCAGCTTCTCGTCGCTCTTGGCCATCCGCTTGAGATTTCGCAGGAGGATATCGTCTGCGAAGGCCACTCCATCGAGTGCCGCATCAATGCTGAAGACCCCTATAGCTTCATTCCCTGCCCCGGCCTTATCACGGCGCTTCACCTGCCGGGAGGTCCCGGCGTTAGGGTCGATACCCATGTGAGGGCGGGTTACAGCGTTTCGGCTCATTACGATTCCCTGATCGCCAAGCTCATCGTCCATGCGCCGACCCGCGAGCAGGCAGTCCTGCGCATGCGGCGCGCACTTGACGAAATGCGCATCGAAGGCGTTTCCACCAACCTGCCGCTGCATCGGGAAATATTACAGGACCCGGCCTTTTCCGAAGGCGGTACGGATATTCATTACCTCGAACATTGGCTTGCAGCGCGGAGTGCAAAGTGA	MMDATLPNVAETRAFDSVLIANRGEIALRVQRACRELGLKTVMIYSEADKDADYLKAADTAICIGPASPAQSYLNAPAILLAMELTGAGAVHPGYGFLSERASFSEAVEAAGAVFIGPRADAIRTMGDKIAAKRAMMEAGVPCVPGPDSALPDDMAEVSRIAAEIGYPVIVKAAGGGGGRGMRVVHEASALQDAVLVTREEASRAFGTPELYIEKFLEHPRHVEIQVLCDGQGNGVWVGLRDCSMQRRHQKVVEEGPAIGIPPDVAAFVGNRCVEACRQIGYRGVGTFEFLYENGEFYFIEMNTRLQVEHPVTEMTSGVDLVRQQLLVALGHPLEISQEDIVCEGHSIECRINAEDPYSFIPCPGLITALHLPGGPGVRVDTHVRAGYSVSAHYDSLIAKLIVHAPTREQAVLRMRRALDEMRIEGVSTNLPLHREILQDPAFSEGGTDIHYLEHWLAARSAK	PGPT0001705_474	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-VOLATILE_RELATED_FATTY_ACID_METABOLISM,PGPT0001705-accC-K01961	NA	NA
BMS010_00910	441			hypothetical protein	GTGAAGCGACAGCCTGTTTCCATATCCCGCTACAGCGAGCCCGGCACGATTGCCGATCTTGCCGCTCACCTCGAGCGCAACAATATCTCCGCCATTGAAATAGAGACGCCGGATGGATCATTGAAGATCGTTGCCATGGCAGGCGCTCAGCCCCCCGCAGCGCAGCGGCCCATCGAATCGGCCAAAGCGCCGGTAAAGGCCGGGGACATTCTTGCCCGTGCACCGATGGCCGGCATCTTCACGCTCGCGCATCCGCAGCGCCCCGACCGGGCGGTTCGGGCAGGACAATCCGTAGCGAAAGGCGAGATCGTCGCATTCGTCGCAGCCGGACCGGTGCTTGTTCCGGTCATCGCCGAAAAAGCCGGCATCGTCAGCGAAATCGTGACGGAAGCCGGCGCGCTTTTCGGCTATGGCTCCGCCCTTCTCAAGACCGAAACATGA	MKRQPVSISRYSEPGTIADLAAHLERNNISAIEIETPDGSLKIVAMAGAQPPAAQRPIESAKAPVKAGDILARAPMAGIFTLAHPQRPDRAVRAGQSVAKGEIVAFVAAGPVLVPVIAEKAGIVSEIVTEAGALFGYGSALLKTET	PGPT0001700_3745	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0001700-accB|bccP-K02160	NA	NA
BMS010_00911	714	pxpB_1	COG2049	5-oxoprolinase subunit B	ATGATGGTGACGTCGATGAGCAACCTCCCGCTGAAAACGCCCCACGTCACCCCCGCCCATCTGGGCCTGCCGAAAATCTCGATGATCGGCAACAAGACGTTTCTCATCGAAGCGCCCGGCGAGCTGGACTTGCCCGCGCAGCGGCGCATCTGGGCGCTGACGCGCGCATTGAAGGACCGCCCCGAAGTGCTGGAGCTGATACCCGGCATGACCAACCTGCTGATCGTGCTACGCAGCACGCCTGAAGATGCCGGGCATCTGCAGGATGAGCTTCTCGACATCTGGCAAAGGACGGCGGAACTCGATCTTCTGGGCAAGACCATCGAGGTGCCGACGACCTATGGCGGCGAGCACGCCATAGACCTTGCGGCGATCTGCGATTATTCCGGCCTGCCGGACAGTGAAGTCGTGCGGCTGCATTTCGAGCGGACCTATACGGTTTTCGCCGTCGGCAGCGCACCGGGCTTCGGTTATCTCGGCGGCCTCGATCCGCGCATTTTCATGCCGCGCAAGAAAGTCCCGTCGCTTCGCATGTTGAAGGGCATGGTGACGATCGGCGGCATGCAGTCCGGCATCTCGGTTCTGACCGGACCGAATGGCTGGAATTCGCTGGGCTTCACCGAAATCACCATGTTCGACGCCACCGCCGAACAGCCGGCGGTGCTGGCGCCCGGCGACCGCGTTCGTTTCCTTCCCGAAAGGATCGAACTATGA	MMVTSMSNLPLKTPHVTPAHLGLPKISMIGNKTFLIEAPGELDLPAQRRIWALTRALKDRPEVLELIPGMTNLLIVLRSTPEDAGHLQDELLDIWQRTAELDLLGKTIEVPTTYGGEHAIDLAAICDYSGLPDSEVVRLHFERTYTVFAVGSAPGFGYLGGLDPRIFMPRKKVPSLRMLKGMVTIGGMQSGISVLTGPNGWNSLGFTEITMFDATAEQPAVLAPGDRVRFLPERIEL				NA	NA	NA	NA	NA
BMS010_00912	999	pxpC_1	COG1984	5-oxoprolinase subunit C	ATGATCCATATTCTTGCCTGCGGGCCGCTGAACACCGTGCAGGATCTTGGCCGCGCGGGTTACCGCAATATCGGCATCACCGCCACGGGCGCGATGGACCCCATCGCGCTCAGGGTCGGCAATATTCTTGTCGGCAACGGCGAGGATGCCGCGGCGATTGAAATCCAGACCTTTCCGTTCCGCATCGAATTCGAAGAGGCGCTGACCTTCGCCGTAACCGGTGCGGATTGCGCCGCCCGGCTCAATGGTGCTGATCTGCCGCCCTACTGGTGCGCGCGGGCAGAAAAGGGTCAGATTCTCGAATTTTCGACGCCGCTGAAGAATGCGCGCGCCTATCTCTGCCTTCAGGGCGGCATAGACGTTCCCGTGGTGATGGGATCACGAAGCACCTCACTTCGCGGCTCCTTCGGCGGCCATGAGGGACGCCACCTCACCACCGGCGACAGGCTGTCCGTTCTGCCATCCGAACCAACGGCGCTGCCGGCAAGCGGCCTCGGCGTCATGCCGCTTGCCGAGGCGATGCCGGACATGTTTCCGGTATCCGAAAATGGCGAATTGCTGCTGAGAGCCATTCCCGCCGCCGAACACGATCTTTTCGGCGAAGGTGCGGAACGTTTCTGGTCCGAAGCCTGGAAAATCACCTCGCAGAGCGACCGCACCGGCTACCGGCTTGCCGGCACGCCACTTATGCTTTCGGCTCCCGTCGAGTTGCGCTCCTATGGCGTCATTCCGGGCGTGGTTCAGGTGCCGCCGGGCGGCGAGCCGATCATCCAGATGAGCGACGCCAACACGGCCGGCGGTTACCCGAAGATGGCCGGTATCATCGACAGCGATCTTTGGCGGCTCGGACAGGCGCGCATCGGCAGCCGCATCCGTTTCGTGCAGGCGACGGTGCGCGAGGCGCTGGAGGTCGAACAGGCAATCGACGCCTATTTCGCCGATATCCGCAAAACCCTGCCGCTGGTCACCGCCGCACTCGGCACGCTCGCAAAACGATAA	MIHILACGPLNTVQDLGRAGYRNIGITATGAMDPIALRVGNILVGNGEDAAAIEIQTFPFRIEFEEALTFAVTGADCAARLNGADLPPYWCARAEKGQILEFSTPLKNARAYLCLQGGIDVPVVMGSRSTSLRGSFGGHEGRHLTTGDRLSVLPSEPTALPASGLGVMPLAEAMPDMFPVSENGELLLRAIPAAEHDLFGEGAERFWSEAWKITSQSDRTGYRLAGTPLMLSAPVELRSYGVIPGVVQVPPGGEPIIQMSDANTAGGYPKMAGIIDSDLWRLGQARIGSRIRFVQATVREALEVEQAIDAYFADIRKTLPLVTAALGTLAKR	PGPT0001010_932	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_ATRAZINE|DERIVATE_DEGRADATION	XENOBIOTIC_CYANURIC_ACID_DEGRADATION,PGPT0001010-atzF-K01457	NA	NA
BMS010_00913	768	pxpA_1	COG1540	5-oxoprolinase subunit A	ATGAAGATCGATGTTAATTCCGATATGGGCGAAGGTTTCGGCGTCTATAAGGTCTGCGACGACGAGAAGCTTATGGAAGTCGTCTCTTCGGCGAATATCGCCTGCGGATTCCATGCCGGCGATCCGGAAATGATGGCGCGCATGGTGCGTCTCGCCAAACAGAACGGCGTCGGTGTCGGCGCCCATCCAGGCCTCGCCGACCGTCTCGGCTTCGGCCGCCGCGAAATTCCCGTCGATGCGGAAGAAATGGAACAGCAGGTTCTCTACCAGCTCGGCGCGCTCTCGGCGATTGCCAGGGCGCAGGATGTCTCCCTCTCCCATATCAGCTTCCATGCCGCCATGGGCAACATGATCAACCGCGATGCGGCGCTTGCCGAACGGATCATGAAAAAGATCAAAGCGGTCGATCCCAATCTCATCGTCTTTTCGATGCCGGACATGCTGATCGAAAAGGCGGCGCTGGATTGCGGGCTGAAAGTGCTCAACCTCTTTCTCGCCGACCGCGCCTATGATGTGAAGGGCCAGCTCGTGCCACGCAAGCTGCCGAATTCCGTCATCAAGGAAGAGGGAAAAGTACGCGCACGCGTCCGCCAGTTTCTGGAAAAAGGCACGGTCACGACCATCGAGGGCGAGATCATTCCCGTTCGCGCCAGATCGATCCTCGTCCACAGCGATACGCCCGGCTCGCTGGAGCTTGCGCGCACGGTGCGCAGCGAAGTGGAAGCCTGCGGCGGCAGCGTCGTGCCGGCTCGCGAAGTGGTCGCCTGA	MKIDVNSDMGEGFGVYKVCDDEKLMEVVSSANIACGFHAGDPEMMARMVRLAKQNGVGVGAHPGLADRLGFGRREIPVDAEEMEQQVLYQLGALSAIARAQDVSLSHISFHAAMGNMINRDAALAERIMKKIKAVDPNLIVFSMPDMLIEKAALDCGLKVLNLFLADRAYDVKGQLVPRKLPNSVIKEEGKVRARVRQFLEKGTVTTIEGEIIPVRARSILVHSDTPGSLELARTVRSEVEACGGSVVPAREVVA				NA	NA	NA	NA	NA
BMS010_00914	1104	potA_2	COG3842	Spermidine/putrescine import ATP-binding protein PotA	ATGAAATCCGTAGAAGTCCGCCTGGAAAGACTGACCAAGCATTACAACGGTCAGGTCGTTGCCGTCGATGATGTTTCGCTTACCGTCAAGGCAGGGGAAATCCTGGCGCTTCTCGGCCCGAGCGGCTGCGGTAAAACGACCTGCCTGCGCATGATTGCGGGGCTTGTCGATCCTACCTCGGGTGAAATCGTGGTCGGCGGCAAGCCGACCACGCGCACCCCGGTTCACCGCCGCAATGTTGGCATGCTTTTCCAGAACTACGCCCTGTTTCCCCACATGACCGTTGCCGAAAACGTCGCCTTCGGGCTGGAGATGCGGGGCGTTTCCAAGGCTGACCGGGAAGGGCGCGTGAAGCAGGCGCTCGATCTCGTTCAGCTGCACGCCTTCGGCGACCGACTGCCGGTGCAGCTTTCCGGCGGCCAGCAGCAGCGTGTGGCTCTGGCGCGCGCGCTGGTGATCGAGCCTTCGATGCTGCTTCTGGACGAACCGCTCGGTGCGCTCGACAAGGGCCTGAGGGAAAGCATGCAGGTCGAAATCCGCAGCCTGCAGCAGCGGCTTGGCCTCACCACCATCATGGTGACCCACGATCAGGACGAGGCGCTGACCATGGCGGACCAGATCGCCGTGATGCGGGATGGCAATCTCGAGCAGATCGCACCAGCCGGCGAAATCTACCAGAAGCCGTTGACCCGCTTCGTCGCGGGTTTCATCGGCGCTTCGAACTTCTTCGAGGCGAGCGTGGCGGAGCGCAATGGTCGTTCCGCAAGGCTGGTCACCGGTTCCGGCGTGCGGCTCGATGTCGAGGATATGGGGGCGGTTCAGGGCGACAAGGTTGTCGTCACCGTTCGCCCCGAAGCGATTTCGGTCTCACCGCTTGCGGTGGACACAGGTGAAAACGCCAGCAATTCCACCACGGCGCGGGTAGAGCAGGTCGTCTATCGCGGTTTCATGCTGCATTATTACCTGCGTCTGGACAATGGCGAGCCAATGATCGCCTACCGGCAGACCCAGACCGAAGGTTTCACCAATGCCGTCAGCGCCGCTGGCGACCGGGTGAGACTGAGCTGGACGAGCGACAGCAATCACGTGATCCAGCTGAATTGA	MKSVEVRLERLTKHYNGQVVAVDDVSLTVKAGEILALLGPSGCGKTTCLRMIAGLVDPTSGEIVVGGKPTTRTPVHRRNVGMLFQNYALFPHMTVAENVAFGLEMRGVSKADREGRVKQALDLVQLHAFGDRLPVQLSGGQQQRVALARALVIEPSMLLLDEPLGALDKGLRESMQVEIRSLQQRLGLTTIMVTHDQDEALTMADQIAVMRDGNLEQIAPAGEIYQKPLTRFVAGFIGASNFFEASVAERNGRSARLVTGSGVRLDVEDMGAVQGDKVVVTVRPEAISVSPLAVDTGENASNSTTARVEQVVYRGFMLHYYLRLDNGEPMIAYRQTQTEGFTNAVSAAGDRVRLSWTSDSNHVIQLN	PGPT0007860_887	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007860-ABC_SP_A|ydcT-K02052	NA	NA
BMS010_00915	1077			hypothetical protein	ATGACAGACAAGACCATCATCATGAAACGGCGCAGTTTCCTGACAGTCACCGCAGGCGCGCTCGCCACACCCTATTTCTACACCGCGGCTTCCGCACAGGACCGCACCATGTATGTCGGCGTCTATAATTCGGCGCAGGGCGGGCTGATCAAGAAGGAAGTGATCCCGGCTTTCGAAAAGGAATATAAGTGCCGGGTCCTGACGACCGAAGGCGCGACGCTCGCCAATATCGCCACGCTGCGCGCCACCCGCGAAAATCCGCAATATAGCGTGATGTCGATGGACGATGTCGGCGTTCCGCAGGCCAAGGAGGAAGGCCTGATCGAGCAATTGCCGGCGGACGAAATCCCCAACCTCAAGAACGTCTATTCTCGCTATCTTTTCGAAGACAATTTCGGCGTCGGTTTTGCAATCTCGATTGCCGGCCTGTTCTATAATCCGACGACGGGCAAGCCGTTTGAAAGCTACGAACAGATGTTCGACAAGAAATATGCCCGCCGCATGCTTCTCAACACACCGAAGAACACCCAGAGCGTTCTGATGCTGATGGTGGCGGCTGCCCTTGCGACCGGCAAGCCGCTGAAAGAAGCGCAATATGATACCGATGCCGGCTGGGCGAAACTCGCCGAGCTGAAGCCGAACGTGCTCTCGATATACGATGCGGAAGCACAGACGATGATGGTGGCGCAGGGCCAGGCGGATTTCGGCGGCATCGAATATTCCAAGGCGGTTTATCCGCACACCAAGAAGGGCGTGCCGCTGGACATGACCTTCCCGAAGGAAGGGGCATTCACCGGCATCAATTCCATCGCGCTGGTAAAGGGCGGGCCGCACCGCGATCTCGCGCTTGCCTATATCAACCGCATCCTCGATCCCGGTGTGCAGAAGATGCTTTCGGAAGCGACACTGAGCGCTCCCTCCGTCAAGGGCATCGAGTTCGGCGCAGATACGGCGAAGTTCCTTGCCTACCCGGAAACGAAGATGGAATCGCTGAACCTGTTCACACCGGACTGGAAATACATCATTCCGCGTCGCGCCCAATGGCTCGAAAAATACAACCAGACCTTTAACGGCTGA	MTDKTIIMKRRSFLTVTAGALATPYFYTAASAQDRTMYVGVYNSAQGGLIKKEVIPAFEKEYKCRVLTTEGATLANIATLRATRENPQYSVMSMDDVGVPQAKEEGLIEQLPADEIPNLKNVYSRYLFEDNFGVGFAISIAGLFYNPTTGKPFESYEQMFDKKYARRMLLNTPKNTQSVLMLMVAAALATGKPLKEAQYDTDAGWAKLAELKPNVLSIYDAEAQTMMVAQGQADFGGIEYSKAVYPHTKKGVPLDMTFPKEGAFTGINSIALVKGGPHRDLALAYINRILDPGVQKMLSEATLSAPSVKGIEFGADTAKFLAYPETKMESLNLFTPDWKYIIPRRAQWLEKYNQTFNG	PGPT0007855_2662	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007855-ABC_SP_S|ydcS-K02055	NA	NA
BMS010_00916	804	ydcV_2		Inner membrane ABC transporter permease protein YdcV	ATGAACAACAAGCTGACTGGCACTTCCGCCATCGTCTTTTACGCGATCACCGCCGCCATGATGGTCTTCATCCTGGCACCGATCATTCTCGTCGTCGCCATCTCGTTCTCCGACAGTTATTTCGTCACCTTCCCGCCACAGGGTTTCACCTTCCGCTGGTATGCAGCGGTAATGCAGAACGAGGAATTCACCGCTGGTCTCACCTTCAGTGCGGCGCTGGCGGTGGCGACCACCATCCTTTCACTGGCGCTCGGCGTTCCGGCAGCCTTCGCACTCTCCCGCGGAAAATTCATCGGCCGCTCGTTGATGAAGGGACTGCTGCTTTCGCCGCTGATCTTTCCCGTGCTGGTGACCGGCCTGGCATTGCTGCAGCTTTTCTCCGGCTATGGCTGGATGGATACCAAGCTGAAGCTTCTCATCGCCCACACCGTCGTGACGTCGCCCTATGTGATCCGCACGGTGCTGACCAGCCTTCAGCTCGTCAATGTCAGCCTTGAGGAAGCGGCGCGCACGCTTGGCGCCACGCGCTGGAAAACCTTCACGCGGGTGATCTTTCCGCAGATCGCGCCCGGCGTCGCCTCCGGCTCGATCTTCTGCTTCATGGTTTCTTTCGACAATTATCCCGTTTCGATGTGGCTGGCGGATTCCGCGAACCTGCCCGTGCCCATCGTTCTTTATCGCCAGATCGGCACGGTCTTTGATCCTTCGGTCGCGACCATGTCCACCATCATCATTCTTCTGGCGGTGACCGTCGTGCTCGTCCTCGACAGGCTGGTGGGTCTGCGCCGGGCAATGGCTATGTAA	MNNKLTGTSAIVFYAITAAMMVFILAPIILVVAISFSDSYFVTFPPQGFTFRWYAAVMQNEEFTAGLTFSAALAVATTILSLALGVPAAFALSRGKFIGRSLMKGLLLSPLIFPVLVTGLALLQLFSGYGWMDTKLKLLIAHTVVTSPYVIRTVLTSLQLVNVSLEEAARTLGATRWKTFTRVIFPQIAPGVASGSIFCFMVSFDNYPVSMWLADSANLPVPIVLYRQIGTVFDPSVATMSTIIILLAVTVVLVLDRLVGLRRAMAM	PGPT0007845_2924	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007845-ABC_SP_P|ydcV-K02053	NA	NA
BMS010_00917	933	potB_2	COG1176	Spermidine/putrescine transport system permease protein PotB	ATGTCGGATATTGCGATCATGGAACCACATGCCCCGCCACGCCGTGAAGTTTCCGGCTGGAAGGCCCTCGAGCGTCGGCTGTTTTCGCCCGGCATCCTCATCCTGCCACTGCTGATCTTTCTGCTGATCTTTTTCTTCTGGCCGGCGGTTCGGTTGATGAGTTTCAGCGTCATGACCCAGAATTCGCAGGGGCTGATCGGCTCCCCCTTCACGCTTGCCCATTATGTCAGGTTTTTCGAGGTCGATCTTTACCAGAAGGTGCTCTGGGCGACGATCCGCATCAGCCTGATCACCTCAATTCTTGCGGCGATACTGGCCTATCCGGTCGCGACCGTTCTCGTGCGCGGCAATATCGTCACGACCCGTATCATCACACTAATCGTGATTGCGCCGCTGGCCGTCAGCGTCGTGGTGCGCGCCTACGGCTGGCAGCTCATTCTCGGCAACGGTCCGACCGGCCTTCTGAATTACGTGTTGATGAATCTTGGCATCATAGACAGTCCGATGACGCTGCTGTTTTCGGATGCCGCCGTCATTATCGGTTCGCTGCACATTTTCTTCCCGATGATGGTGCTGCCGCTGTCCTCCGCGCTTGGCAAGATCGATTCGAACCTGCAGCAGGCCGCCCGGACGCTCGGCGCGCCGGCATGGAAAGTGTTCCTGCGGATCACCTTCCCGCTCAGCCTTCCCGGTCTGCTAGCGGGTTTCACGTTGGTGTTTTCGCTCGCTTCCGCATCCTACGTCATTCCCGCTCTGATCGGCGGTCCCGGCTCGCAGATGCTTGGCAACATGGTCGAACAGCAGGTTCTCGCGGTCTATGACTGGCCGTTCGGCGCCACCATCGCCACCATCCTCGTTTTCATCGTCATTCTGATCAACGCCGTCTCGATGCGGCTGCTCGGCGGGCGTCGTATCAAGGCAAGCGCGTCATGA	MSDIAIMEPHAPPRREVSGWKALERRLFSPGILILPLLIFLLIFFFWPAVRLMSFSVMTQNSQGLIGSPFTLAHYVRFFEVDLYQKVLWATIRISLITSILAAILAYPVATVLVRGNIVTTRIITLIVIAPLAVSVVVRAYGWQLILGNGPTGLLNYVLMNLGIIDSPMTLLFSDAAVIIGSLHIFFPMMVLPLSSALGKIDSNLQQAARTLGAPAWKVFLRITFPLSLPGLLAGFTLVFSLASASYVIPALIGGPGSQMLGNMVEQQVLAVYDWPFGATIATILVFIVILINAVSMRLLGGRRIKASAS	PGPT0007850_1303	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007850-ABC_SP_P1|ydcU-K02054	NA	NA
BMS010_00918	1203	aatA_1	COG0436	Aspartate/prephenate aminotransferase	ATGCCCACTATCGCCCAACGCCTTAACAACGTCACCGTGTCAGCTTCGCTCGCCATGACCCAGAAAGCGCGCGATCTCGCCGCTCAGGGCATCAAGGTCATCAGCCTGTCGTCCGGCGAGCCGGATTTCCCGACGCCTGCCCACGCGGTCGAGGCGGCGCATGCGGCGGCCCTTGCCGGCGACACGAAATATCCGCCAGCCGACGGAACCCCGGCGCTGCGGGCCGCGATCCAGCGGAAGTTCAAACGCGACAATAATCTCGACTACGATCCGAGCCAGATTCTGGTGGCGGGCGGCGGCAAGCAGATCATCTTCAACGCCATCATGGCTACCTGCGACCCGGGCGATGAAGTCGTCATTCCCGCGCCGTCCTGGATCAGCTATGCCGATATCGTGAAGTTCGCGGGCGGCGTGCCCGTGCCGGTGGTTTGCCCGGAGAATAACGGTTTCCGCCTGCGCGCCGAAGATCTCGAAGCCGCGATTACCCCGAAGACCAAGTGGCTGCTTTTCAACTTCCCCAACAACCCTACGGGTGCCGCCTGCTCCCGCGCGGAAATGAAGGAAATCGCCGAGGTCATGCTGCGGCATCCGCATGTCTGGATCATGACCGACGATATGTATGAGCACCTGATCTATGATGACTTCGAATTCTGCACCATCGCCGAAGTCGAACCGCGCCTCTATGACCGGGTGCTGACCGTCAACGGCGCATCGAAAGCCTATGCCATGACCGGCTGGCGTCTCGGTTTCTGCGGCGGCCCGAAGGATCTCATCAAGGCCATCAGCAACGTCAATACCCAGAACAGCGGCGGTGTCGCGACCATCGTACAGGCTGCCGCCGTCGCGGTTCTCGACGGCCCGCAGGATCTGCTGAAGGAGCGCGCCGACATCTACAAGACGCGCCGCGACTTCGTGCTCGGCAAGCTTTCGGAAATCGAGGGGCTTCGCTGCCACAAGCCGGAAGGCGCCTTCTATATCTTCCCGAATATTGCCGCGCTGATAGGCAAGACGACGAAGGGCGGCACGAAGATCGAGAACGATACCGATTTCGTCATGGCGCTTCTCGCCCAACATCATGTTGCGACAGTGCAGGGCGCGGCCTATGGCCTCAGCCCCTTCTTCCGGCTTTCCTATGCCACCAGCATGGAAAACCTTGCCGAAGGCTGCGCCCGCATCGCCGAATTCTGCAATGGAATGAAATAG	MPTIAQRLNNVTVSASLAMTQKARDLAAQGIKVISLSSGEPDFPTPAHAVEAAHAAALAGDTKYPPADGTPALRAAIQRKFKRDNNLDYDPSQILVAGGGKQIIFNAIMATCDPGDEVVIPAPSWISYADIVKFAGGVPVPVVCPENNGFRLRAEDLEAAITPKTKWLLFNFPNNPTGAACSRAEMKEIAEVMLRHPHVWIMTDDMYEHLIYDDFEFCTIAEVEPRLYDRVLTVNGASKAYAMTGWRLGFCGGPKDLIKAISNVNTQNSGGVATIVQAAAVAVLDGPQDLLKERADIYKTRRDFVLGKLSEIEGLRCHKPEGAFYIFPNIAALIGKTTKGGTKIENDTDFVMALLAQHHVATVQGAAYGLSPFFRLSYATSMENLAEGCARIAEFCNGMK	PGPT0020110_1905	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020110-aspB-K00812	NA	NA
BMS010_00919	693			putative oxidoreductase	ATGTTGGGAGGAAGTGGCCGTGTCATCATGGTTTCCGGCGCATCGCGGGGTCTCGGCCTTGCGATCGCCAAAAGGCTTCACGAAGCCGGTTTCACGGTGGCGGCGGGAGCGCGAAATCCGGCCGCCGTTGCGGTGAAGGACCGGCTTTCGGCCGATCGCTACGATGCGGAAGAGGCTGGTTCGGCGGAGGCCTGGGTTGAGGCCATTGCCGCCAGATATGGCCGGATCGACGGGCTGGTGAATTGCGCCGGCATCAACCCCAAGGTCCGGGTCATGGATGCGGGCGAAGAAAGCCTCGACCAGATGTGGCGTATCAACGTCAAGGGTCCGCTGAGGGTAACCCGCGCCGCCATTCCCCATCTCGTAAAAACCGGACAGGGCAGGGTTATCAATGTCGCTTCGCTGGCGGGACGCCGCGTGGGGTCAAATGTGGGTTATGCCATGACGAAATTCGCCGTTGTCGCCCTCACCCACGGCATCCGGCAGGAATTGTGGGACAGCGGCGTGCGCGCCACCGCGCTTTGCCCTGGCTATATCGCAACCGATATGACGGTCGGCGAAACGGAAGTCAGCCGCGAGGATATGACCCAGCCGGACGATCTCGCCGAAATGGTCGAAACCCTGCTTCGCCTGCCGAACAATCTTTCGGTGGCAGAATTGCTGGTGAACTGCCGCAAGGAAGCAATGCTTTGA	MLGGSGRVIMVSGASRGLGLAIAKRLHEAGFTVAAGARNPAAVAVKDRLSADRYDAEEAGSAEAWVEAIAARYGRIDGLVNCAGINPKVRVMDAGEESLDQMWRINVKGPLRVTRAAIPHLVKTGQGRVINVASLAGRRVGSNVGYAMTKFAVVALTHGIRQELWDSGVRATALCPGYIATDMTVGETEVSREDMTQPDDLAEMVETLLRLPNNLSVAELLVNCRKEAML	PGPT0021285_352	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021285-ydfG-K16066	NA	NA
BMS010_00920	906			hypothetical protein	ATGGATATCAGGCGCCTGAAATCGTTTATCACGATTGTCGACATGGGTAGCATTACAAGAGCGGCCGATGTGCTGCATATTGCCCAGCCGGCGCTCAGCCAGCAGCTGGCAAGCATCGAGGAGCATTTCCGCCAGAAACTGCTGACCCGAAGCCAGCAGGGTGTGGTCATGACCGATGCCGGCAAGGTTGTCTACAGGCATGCGCAGGTCATTTTGCGGCAGATGGAGCAGGCGCAGGCGGAGGCGCTGGAAGCGGGGGCTGTGCTTTCCGGCAAGGTGTCGGTGGGCCTTGCGCCCTTCAGCAGCGCCGCCACGCTTTCGCTGCGTCTGATGGAGGAAACCAAGCGGCTTCATCCCGGCATTCTGCTGCACATCACGGAAAGCGTCAGCCAGCCCTATAGCCAGATGATCATGAACGGCCGTCTGGAAATGGGTTTGATCCACGGCGTCGGGCCGATCCGGGGTGTCAAGTTCACGCCGCTGTTCCGTGAGGAATTCGTCCTCGTCGTGCATCGCAGCTTCGGCGTGGAACCGGGCGATGCGCCGATCACGGTCGCCGATCTGGCGTTTTTGCCCTTTCTTCTGCCGCCGACCTATAATTTCGTGCGCCGCGCCATCAATCTCGCCTTCACCCGCAGCCGCAAGGATCTGATCGTGATGGCGGAGCTGGAATCGGTGAGGACTATCGCGCGCGGCGTGGATGCCGGGCTTGGCGCGACCATAACGCCCAAGGCCATTGCCGACCGCATCGTCGCAGAATCCAATGAGGACATCGTCGTGAGGCAGATCGCCAGCCCGATGATCGAGGAAACGCTGTCCTTCTGCGTATCGGACAATACGCCGCTCTCCGAGCCCGCGCTTGCCGTGAAGGAGATATTGCTGCAACTGGCGGAGACCCTGAAATAA	MDIRRLKSFITIVDMGSITRAADVLHIAQPALSQQLASIEEHFRQKLLTRSQQGVVMTDAGKVVYRHAQVILRQMEQAQAEALEAGAVLSGKVSVGLAPFSSAATLSLRLMEETKRLHPGILLHITESVSQPYSQMIMNGRLEMGLIHGVGPIRGVKFTPLFREEFVLVVHRSFGVEPGDAPITVADLAFLPFLLPPTYNFVRRAINLAFTRSRKDLIVMAELESVRTIARGVDAGLGATITPKAIADRIVAESNEDIVVRQIASPMIEETLSFCVSDNTPLSEPALAVKEILLQLAETLK				NA	NA	NA	NA	NA
BMS010_00921	1005			hypothetical protein	ATGGTTCGGTACCAAATGCACAATGAAAACACGCACACCTATGAGAAGTTTATTGCCAGCGGTGAGTATGGCAAAATCATGAGCATGCGGCAGCGCATGCCGGATATCGATGATCTCGATCTGCCTGAGTGGTTGATTGAAGGCGCAAAAAAGCTAATGAAGCATCCGTTATTCGATGCTGCCCTCTGTGCTCAGGCCGAGGCCGTCACCAGTATTTTTGAAAGCACCTTTGCCCTCGTCAAGGTCATGAGCGAGGAGGCGCGTTATATCATCTCCGCTGCGCTGGTTGCTATGCACAGTAGCAGGGATCCGTTCGATCCCGCTTCCGGCGCCACTGTCACCCGCCTTCAGCAATTTGCGGAATATCATGGATTGGCGGGATCGAACCGGGTTGCTGCCATCATCGCTCTTATGAGACATCTTGGATATGTCCAGCAGGTGCAGGCCCGCTCCGACCGCAGGATAAGGCGGCTGGAGCCGACGGACTATGGCCTGTCTGTCGCTCGAAGGATGACCTCGGCGGCGCTTACATCCATTCAATTGTTTTCAGAAGGTCACGACTATCAGGAACTTATCCGGTCGGACGAGAATTTCATGGGCAGGTTCTTCGCCGAGAGTTTGCGGCACTACAATAACGGCGCCCGGATTACCTATGCGATGCCGGAATTCAACCTCTTCGGCCAGCAGAATGGCGGGCGGGAGGTTATGTTCAAACTCTGGCTGGCGTTGGCGGAGAGAGGTCCAAGAGAGCCTATGATGGTTTCCTGCCCTTATGGCGAACTCGCCAGGAGCCTTGGCGTTTCACGCGGGCATGTGCGCCGCATGATAGAAAAAGGAGAGGAGCGGGGACTGTTCCGCGTGCGGGCAGCGGGCGGACAGGCAATCGAAATCCTGCCCGATTTCATTTACCTGCATCGAACATTCACGGCGCTTGAATATGCTCTCATGCTGCCGGGGGCGGAATATGCCGCGTCCACGACGGGGCGCCCGCAACTGTCGTTTTGA	MVRYQMHNENTHTYEKFIASGEYGKIMSMRQRMPDIDDLDLPEWLIEGAKKLMKHPLFDAALCAQAEAVTSIFESTFALVKVMSEEARYIISAALVAMHSSRDPFDPASGATVTRLQQFAEYHGLAGSNRVAAIIALMRHLGYVQQVQARSDRRIRRLEPTDYGLSVARRMTSAALTSIQLFSEGHDYQELIRSDENFMGRFFAESLRHYNNGARITYAMPEFNLFGQQNGGREVMFKLWLALAERGPREPMMVSCPYGELARSLGVSRGHVRRMIEKGEERGLFRVRAAGGQAIEILPDFIYLHRTFTALEYALMLPGAEYAASTTGRPQLSF				NA	NA	NA	NA	NA
BMS010_00922	1185	hlyD		Hemolysin secretion protein D, chromosomal	ATGGTGGATTTTGCAATTCCGGCAGGCCCGGTGGGCGTTAAACGGGCGGGCGCGCTTCAGGCACGTTATCTGTTGTGGCTGATCGTCACTGCGATCTCGATTTTCATGGTCTGGGCCGCCTTTGCGGAACTGGACGAGGTGGCGATCGGCGAAGGCAAGGTCACACCGGCGTCGAAAGGCCAGATCATTCAGAGTCTGGAAGGCGGCATTCTGTCGGAGATGACGGTTCGGGAAGGCGATATCGTCGAAGCGGGGCAAAAGCTTGCTACCCTGGATCCGGTGCAGGCGCGGTCCTCGATGGAAGAGACGCTTGTGCGCGTCGCCGCATTACAGGCTCGCGCGGCGCGGCTGCAGGCGGAAATGACGGACCAGAAGGAACTGGTTTTTCCTGCCGATATTACCGGCGACAAGGCCGTGCTTGAGCGTGAACGCCAGCTTTTCACCGCCAATCACCGCGCTTTCAACGAGAATCTCGCCAATCTTCGCCAGCAGTCGCGGCTGGCTGATGAGGAGCTGAAAATCACGCTGCCGCTCCTGCGCTCAGGAGCGACAAACGAGGTCGAGGTTTTGCGCCTGAAACAGAAGGCCATAGAATATTCGACCAAGCTCACGGCAACGCAGAGTGAATATTACGTGGCGCTGAAGGCTGATTTTACCAAGACGATGGCCGATCTGGAGCCGCTTCTGAAAATCCGCGACGGAAGGGCCGATCAATTGCGCCGCACGGTGATCACCTCCCCGGCGCGCGGCATCGTCAAGGATATCCGCGTCTCGACGATTGGCGGCGTCGTTGGATCGGGTGGCGTGCTGATGGAAATCGTTCCGCTTGGCGACCAGCTGTTGATCGAGGCGCGGCTTAGCCCGCGCGATATCGCCTTCATCCATGCGGGTCAGGAGGCGACGGTGAAGATCACCGCTTATGAGTCCTCCGTATACGGTACGCTCCCGGCCAAGGTTGAAAGAATATCGCCCGACACGATCGAGGATCAGGCTGACAAGCGCATTTTCTACTACCGCGTTTACGTTTTAACCGGACATTCCTATCTGGAAACAAGGGACGGCAAACGCCACCCGATCATGCCGGGCATGGTGGCGACGGCGGAAATCAGAACCGGACGGAAGACCGTACTCTCCTATCTGCTGAAACCATTGAACAAGGCGGGAGAGGCTCTGCGGGAAAGATGA	MVDFAIPAGPVGVKRAGALQARYLLWLIVTAISIFMVWAAFAELDEVAIGEGKVTPASKGQIIQSLEGGILSEMTVREGDIVEAGQKLATLDPVQARSSMEETLVRVAALQARAARLQAEMTDQKELVFPADITGDKAVLERERQLFTANHRAFNENLANLRQQSRLADEELKITLPLLRSGATNEVEVLRLKQKAIEYSTKLTATQSEYYVALKADFTKTMADLEPLLKIRDGRADQLRRTVITSPARGIVKDIRVSTIGGVVGSGGVLMEIVPLGDQLLIEARLSPRDIAFIHAGQEATVKITAYESSVYGTLPAKVERISPDTIEDQADKRIFYYRVYVLTGHSYLETRDGKRHPIMPGMVATAEIRTGRKTVLSYLLKPLNKAGEALRER	PGPT0022230_1230	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-ADHESIN_TRANSPORT,PGPT0022230-lapC-K12542	NA	NA
BMS010_00923	2211	apxIB_1	COG2274	Toxin RTX-I translocation ATP-binding protein	ATGACGGATGCAGCCACTGCCATCGAAATGCCGCCGATCTCCAGCCCGAAAGAAACGGCGATGCTCGGATTATGGGTTGAGGCGATCCTGTTCGTCGCGCGTCAGCTGGGCGTCGCCGTTTCTCCCGAACTCGTCCGCAACGCATCGGCTTGGGGCAATGGTGAGGAATTGGAACACGCCGTTGTCGATATCGCGCAATCGGCGGGTCTTGTCGGACAATTCGTCGAAACCGCGATCGGCGATCTCTCGCCGCTGATGCTGCCGTCGCTGGTGACGGTCGGCGACAAGTATGTCGGTGTGATCACCGCGGTTGCCGACGGCAATGTGCGGCTCGTCTTCCCGCTTGAGGGCAAGGCTATGGAACGCATCGTGCCGGTTGAGCAATTCGAGCGGCTGGGCACGCAGCGAATACTTTTCGTCCATGAACGTCAGGCGGTTCGCGACAACCGTGTCGACGACTATCTGCTTCAGCGTCCCCGGTCGTGGCTTCTGCGCATTTTTACGAACAACTGGCGAACCCTGCTGGAACTCGGTCTCGGATCGCTGTTCGGAAACCTGCTGGCGATTGGCACTTCGCTGTTTTCCATGCAGGTGTGGGATCGCGTGGTGCCGGCGCGTTCCACCAATACGCTGTGGGTGCTGGCCTTGGGTGTGGGGCTGGCCCTTCTCTTTGAGCTTCTCATCAGGACGGCGCGCGTGTCGCTGGCCGATCATTTCGGCAAACGGGCCGATTTGAAGCTTTCGGCGATGTTCTTTGCCCGCGTGCTGGATATTCGCAACGATGCGCGGCCCCGCTCGCCCGGAACGCTGATCTCGCAATTGCGCGATCTGGAACAGATACGCGAGCTTTTGACCTCGACCACGATGGGTGTGCTTATCGACCTGCCTTTCGTGCTGGCCTTTCTTTTTATCATCTGGGTAATCGGCGGGCCGCTGGTGCTGGTGCCGCTTGCGGCCATTCCCCTCCTGCTCTTGCCGGGGCTCATCATGCAGATTCCGCTGGCGAGACTGTCACGCGAGGGAATGGGCGAGGCGGCGCTGCGTAACACGATCCTGATGGAATCGATCTATCGGGTGGAGGATATCAAGCTTCTTCAGGCAGAACCGCGCTTTCGCGGGTTGTGGGACAATGTCAACCGCGTCAGCGGCGAAATCGGTCTGAAGCAGCGCTACCTCTCCGGCCTCCTGGTAAACTGTGCCCAGACGGTCCAGCAGCTTGCCTATATCGGCGTCATCATTATGGGCGTCTACGGGATACTGGAAGGCAGCCTCTCTTTCGGTGCGGTTCTGGCATGCTCGATTTTGACGAGCCGCACCATCGCGCCGCTCGGGCAGGTCTCGGCCATTTTCGGCCGGCTCCAAAATGCCCGCGTTGGCAAAAAGGGGCTGGATGCGCTTCTTTCGCTTCCCGTCGATCACGATCCTGAAACGGATTCCTATCACAAGCCGTCGCTGGTCGGCCGCTATCGTTTCGAAAATGTCGTCTACTCCTATGGGCCGGAAGAGAAGCCGGCGTTGGTCGTGCCGCATCTCAAGATCGAGCCGGGTGAGCGTATCGCCATTCTCGGGCGGGTCGGCGCTGGCAAGTCGACACTCTTGCGGCTCGCTGGCGGTCTAGCGTTGCCGGCGCACGGCCGGATCCTCTTTAACGATACCGTCATGAACCTGATCGATACCGCCGATGTCAGGCGCGATGTGGGCCTGCTTCTCCAAGAATCGAGCCTGTTTTACGGCACCATCCGCGAAAACCTCCTGATCGGCAATCCGCTTGCCTCCGATGCGGATATCCTCGACGCTATGCGCGTGTCCTGCGCCGATCAACTGTTGCTCAACCAGCCGCATGGGCTTGACCTGACGATACGCGAGGGTGGGCAGGGGCTTTCGGGAGGCCAGAAGCAGGCGCTGATGCTGGCGAGGACATTCCTGCGCTCGCCCAATATCCTGCTGCTCGATGAGCCGACGGCCTCGCTCGATGAGGCGACCGAACTTGCGATCATCGACAATATGAAGAAATGGCTCGGCGACCGGACCTTGGTGGTTGCGACGCATCGTTATCCCCTCCTGTCGCTGGTCGATCGGATCATCGTGGTGGAAGGCGGCCGGATCGTCCGCGACGGCCCGAAGGACGACATACTCAACGCCCTGAAGAACCGGGGGTCGACGAAAATGGATGGGCGTGGCCGGCCACAGCCCCTGCAGGCGGTGGAGTGA	MTDAATAIEMPPISSPKETAMLGLWVEAILFVARQLGVAVSPELVRNASAWGNGEELEHAVVDIAQSAGLVGQFVETAIGDLSPLMLPSLVTVGDKYVGVITAVADGNVRLVFPLEGKAMERIVPVEQFERLGTQRILFVHERQAVRDNRVDDYLLQRPRSWLLRIFTNNWRTLLELGLGSLFGNLLAIGTSLFSMQVWDRVVPARSTNTLWVLALGVGLALLFELLIRTARVSLADHFGKRADLKLSAMFFARVLDIRNDARPRSPGTLISQLRDLEQIRELLTSTTMGVLIDLPFVLAFLFIIWVIGGPLVLVPLAAIPLLLLPGLIMQIPLARLSREGMGEAALRNTILMESIYRVEDIKLLQAEPRFRGLWDNVNRVSGEIGLKQRYLSGLLVNCAQTVQQLAYIGVIIMGVYGILEGSLSFGAVLACSILTSRTIAPLGQVSAIFGRLQNARVGKKGLDALLSLPVDHDPETDSYHKPSLVGRYRFENVVYSYGPEEKPALVVPHLKIEPGERIAILGRVGAGKSTLLRLAGGLALPAHGRILFNDTVMNLIDTADVRRDVGLLLQESSLFYGTIRENLLIGNPLASDADILDAMRVSCADQLLLNQPHGLDLTIREGGQGLSGGQKQALMLARTFLRSPNILLLDEPTASLDEATELAIIDNMKKWLGDRTLVVATHRYPLLSLVDRIIVVEGGRIVRDGPKDDILNALKNRGSTKMDGRGRPQPLQAVE	PGPT0022225_172	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-ADHESIN_TRANSPORT,PGPT0022225-lapB-K12541	NA	NA
BMS010_00924	1449			hypothetical protein	ATGAACGAATGCGTGGGTGAAATCGACTTAGCGGCTAGCGCGCAGCACCACCGGATGGTGGCGTTGCGCCGCATGCCCAGGCTGGGTTTTGGTGTTGTGTTTGTCGCGGCGCTGCTGGCGGGTTGTACCACCCAGCAGAAAGATGCGGCACCTGGCCGCCTGTCTTCGGGCAAGGCGCCCCTCGCTTCTGCCGCCACAAAGGTTCCGGTGCAGCCGACAGAGCCAGCGCGCCGCATCGCCATCGACGGTATGAGCCTTTCCGATGCCGTGGGTGTTGCGATCGCCCGCCATCCCGATGTCAGCCGCGCTGATGCGCTTGTGACGCAGAGTACGTCGGAAGTGGCGGTTGCGAAGGCGGCCTGGTATCCCACGATCGAATATGGCGCCAAACCCGGTTATGGCCGTGGCTACGCCAATTCCGGCGACAATGGCGCCGTCCGCGGCTCGATCGGCGTCAACCAGCTGCTCTACGATTTCGGGCGGACCCCCGGCCGGATTTCCGCGGCTGATGCCACTCTCGTCAAGCAGAAGCACCTGCGCGCCGATACGATGGAAACCATTGCCTATGACACGGCGGCGATCTATCTCGAACTCGCCGACAGTCAGGACATGATTGCGGCAGCCGGGCGCCAGCTCTCGGCGCTTCGGGAAACGCGTGCCAAGATCGTCGAACGCCTTCAGGCGGGCCTGTCGGATGCGACGGATCGGAACCAGGCCGATGTCGCCATTCAGCGTGCCGATGCGGAGGTGCTGAAAGCGAAGACGCGTTTCAGCGTTGCGGCGGGCAAACTTGCCGAATTGACCGGCGTGCGTCCGCAGCGCGTGGCCACACTTGCGGGAACCGGCGCTTTCGTCTCCCGTCTGGGTACTGCCGTTGGCGATATCGACCGGACGCCGTCCGTTCTTGCTGCGAAGGCGGCTGTCGAGGCCGCCGATGCCCGGATCGAAGTGGCCAAGGCCGAGCGGTTTCCCACGATAGGACTGGGCGTCAGCCGCTCGATGTCCACCGGGCAGCGAAACGACAAGGACGATACCTTTGTCGGCGTTTCGATCAGCGGCAGTTTCTCGCTTGGCGGCTTGGCCGGCCACCGGATAGAGGCAGCGGAAGCCGAGCGCAAGGCGACGGCGAAGATGCTTGAAAATCAGCGTCTCGTGACGCGCACGGCGCTCGGATCGGCCGAGCTCGAAGCGTCAGGCGCGGCGGCGCGTGTGGTGAGCTATGAGAAAATCATCGATCTCTCCCGGACATCGCGCGATCTCTACTGGCAGGAATATACGCTGAACAAGCGCCCGCTGACCGAGGTCATCAGCGCAGAGCGCGAAATCTATCTTTCCGAAGTCGAACGTATCAGCGCTTTTTCGGACGGCATTCTTGCAAAGATAAAGGCCCATAGCGCCGTCGGCCGATTGGTTGCGCTGCTAAAGGCACAAGGAGAGGTCCGCAAATGA	MNECVGEIDLAASAQHHRMVALRRMPRLGFGVVFVAALLAGCTTQQKDAAPGRLSSGKAPLASAATKVPVQPTEPARRIAIDGMSLSDAVGVAIARHPDVSRADALVTQSTSEVAVAKAAWYPTIEYGAKPGYGRGYANSGDNGAVRGSIGVNQLLYDFGRTPGRISAADATLVKQKHLRADTMETIAYDTAAIYLELADSQDMIAAAGRQLSALRETRAKIVERLQAGLSDATDRNQADVAIQRADAEVLKAKTRFSVAAGKLAELTGVRPQRVATLAGTGAFVSRLGTAVGDIDRTPSVLAAKAAVEAADARIEVAKAERFPTIGLGVSRSMSTGQRNDKDDTFVGVSISGSFSLGGLAGHRIEAAEAERKATAKMLENQRLVTRTALGSAELEASGAAARVVSYEKIIDLSRTSRDLYWQEYTLNKRPLTEVISAEREIYLSEVERISAFSDGILAKIKAHSAVGRLVALLKAQGEVRK	PGPT0022235_324	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-ADHESIN_TRANSPORT,PGPT0022235-lapE-K12543	NA	NA
BMS010_00925	1518	rebH		Flavin-dependent tryptophan halogenase RebH	GTGCTCGATCTCGCAACACCCAAACGCGTGGCCATTATCGGCGGCGGTATCGCCGGCTGGTTTGCCGCGCTCGCCATGCGGCGGATTTTCGGGCAGACCGTCGAGGTGACCTGCGTCGAGCTGCCCGAGATCGGCATCACCGGCGCAGGTGAAGGAGGGCTTCTCAACCTCATTGAGGCTCTCATCCGTAACAATATCCCCGTCGATGAATTCGCGCGGGAAACCGGCGCGGCTTACAAGCTCGGTTCCATTTACGAAGGCTGGCGCGGCGGCGGTCGCGAGGACTATTATTACCACCTCTATGGCGGGCCGGGCATTCCGGAGCTGGAGTGGCAGCAAAGCGGATTTTTTCCGTTTCTGTCGGCGCGGATTGCCGCCGGCGAGGCGCTTCACAGTTGCATTCCGGGTTTCGAGGCGATTTCGCGCCATGCGTCGCAGGAAGAGATGCGCAGTCTCCTGTCGGGTCGGCAGTCCGGCCTGATGGCATCCTATAATTTCGACGGTTACCGCGCCGCTCGATATCTCAGGAATATCGCTGTTTCTCGAGGTGTCGTCCATCGCAAGGCGCACATCGATGCGTTGAGCCTCGACGGCGACGGCTATACCCGCTCGGTGCAGTTGGACGGCCAAGCACTCGATATCGATTTTCTGATCGATGCTTCCGGCCTTGCCCGGATCGGCATCGGCAAGACCTACGGCGCAGGCTGGGAATCTTTTTCGGATTACCTGTTGCCGGACAGGGCCATACCGTTCCACCTGCAGCATCCACACGCCAATCCGGAACTGCTGACGCGCGCGGTATCGATGAAGGCCGGATGGATGTGGCAATTGCCGCTGAAGGACAGGATCGGCGCCGGCTACGCTTTCAGCAGCCGGCATATCGATGAAGCGGAGGCCGTTGCCGAAATCGAGGCCTATCTCGGCCGTCCCGTTGCGGCGATGCGGACGCTGAGCTTTGACGCCGGGCACTATGACGCGGTCTGGATCAACAATGTCGTGGCGATTGGTCCCGCATCGGGTTTTGTCGAGCCGCTTGAGGCAACGATGATTGGGCAGATGCTCGAGCAGCTCAGAAATATCGAACGCGTTCTGGTGGACGGCAACGGCATCGTCAGCCGGCAGACGGTCGAGGATTTTAACCGTTCCAATGGGCGATGCTGGGCCGGGATACGCGATTTTCTGCGAATGCATTACGATTGCCCGCGCGTGGATACGCTGTTCTGGCGTGACGTGGCGAAGACGCCGCTTCCGGAAAGCTACGCGGAATTGAAGCAGTGTTTCCTGCGACGCACACCGCGCATTGTCGATATCGAAGCTTATGTCGGGGCCGGGTGGAAGGGCATCTTCCATATGGTCAACTGGATGTTTGTGGCGGCCCCACTCGGGGTCGTGTCGCCGGCGGCGGCGCGCGCCGAACTGCGCCGCCTGCCGACCGAGGTCCGGCCCGACATCGAGGCCTATCTGCGGCAATTCGATATTTCCTTCCTATCAGACCGCGGCGGCGCCTCCCTCCATTAG	MLDLATPKRVAIIGGGIAGWFAALAMRRIFGQTVEVTCVELPEIGITGAGEGGLLNLIEALIRNNIPVDEFARETGAAYKLGSIYEGWRGGGREDYYYHLYGGPGIPELEWQQSGFFPFLSARIAAGEALHSCIPGFEAISRHASQEEMRSLLSGRQSGLMASYNFDGYRAARYLRNIAVSRGVVHRKAHIDALSLDGDGYTRSVQLDGQALDIDFLIDASGLARIGIGKTYGAGWESFSDYLLPDRAIPFHLQHPHANPELLTRAVSMKAGWMWQLPLKDRIGAGYAFSSRHIDEAEAVAEIEAYLGRPVAAMRTLSFDAGHYDAVWINNVVAIGPASGFVEPLEATMIGQMLEQLRNIERVLVDGNGIVSRQTVEDFNRSNGRCWAGIRDFLRMHYDCPRVDTLFWRDVAKTPLPESYAELKQCFLRRTPRIVDIEAYVGAGWKGIFHMVNWMFVAAPLGVVSPAAARAELRRLPTEVRPDIEAYLRQFDISFLSDRGGASLH	PGPT0011765_463	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-PYRROLNITRIN_METABOLISM,PGPT0011765-prnA|rebH|ktzQ-K14266	NA	NA
BMS010_00926	6354			hypothetical protein	ATGGCCTCTTCATCCGTCCTTGCCAATCACATCAACGTCTCCGTTTCTTTGAAGAACCAGACCGTCACGGCGCCGAATGAGCCCACGAACTTCCTTGTATCCGCCGATCAGCAGAATGTGTCCAACTATGCGCGATCGGGAAACAATCTCGTCATCCAGTTTGATGACGGCAAAATCATCCGCATCAGTGATTTCTTCACTCATGGTCTGGATTTCAACAATCTGGTTTTTGTTCATGACGGCGGCAAGTGGCTGACGGAGTTTGACAAGGCTCTGGGGGGCGGCGACGGTGTCATGGACCCGCGGGTCACCTATGAGCTGATTTCCGACAGCGCTGCCGTTCTGGCGTTGCTCGGCATTCTGGGTGCCGCGGCTGGAGGCGTCATTTCCGCTGCAAATGACGGCAATGGAGATGATGACAATACCCGGAAAGATACCACTGCTCCTTCGGCGCCGACTTTCGTGGCGATCGACGACAAGGCGCCAGGGATCGGGCCTATCGAGCACAATTCGAAAACAAATGACGCGACCCCGACGCTTCTCGGTTCCGCAGAGCCCGGCAGCACCGTCAGGATTTACGACAATGGCAAGCTGATCGGCACGACGACAGCCGGTGCGGACGGAAAATGGAGCTTCACACCTTCGACGCCGCTAGCCGATGGCGCTCACACATTTTCAGCGACCGCGACCGACAAGGACAATAATACCAGCCCTTCCTCAAATCCCATTGTCGTGGAGATCGACACAATAGCACCGGATCAGCCGGCGGCGCCCACCGGCTACGTCGATAACGAGGGTCCGGTCCGCAGCGATAACAGCACCGCGCCGGTAACTGATGATACTACGCCAGGCCTCAACATTGGCAAGCTGCCCGACGGCACGACGCCCTCTCTATACGTGGATGGTGTCAAGGTCGACGCTGTTTATGATGCGACCAAGGGTACGCTGACACCGAAGGATCCGCTCAAGGAAGGCGCGCACGATCTCTCCTACACAGTGACGGACAAGGCCGGCAATGAGAGCAAGCCGTCCGCGCCGCTCAAGACGGAGATCGATACCACGGCTCCCAACGCGCCGGCGATCACCTCGGCCATGGACGATGTCGATCCGGTCAAGGGTCCGATCGTTAACGGCGGTTTCACCAACGACACCACACCGACGCTGTCGGGCACTGGCGAGCCCGGCGCGACCGTCACCATCCTCGACGGCAAGACACCGGTTGCGACTGCCATCGTCAAGAAGGACGGCACCTGGTCGGTGACCACCTCTCCGCTCGGTGAGGGCGACCACCGTCTGACCGCCACGGTCACCGACGAGGCCGGCCAGACCAGTACCCCTTCGGCCCCGCTCACCTTCACCATCGATACGCAAAAGCCTGTGACGCCTTCGACGCCTTTAAGCTATGCCGACGATGTCGGTTCGATCAGGGCCGATGAGAGCACGGCTTCGGTGACGGACGATACGCGTCCCGGCCTCAATATCGGCAAGGTTGGCGATGGGACGACGCCTTCGCTTTATGTTGATGGCGTCAAGGTTGCGGCCGATTATGACGCGGCCAAGGGCACGCTGACGCCGAAGGATCCGCTGGGCGACGGTTCGCACGCGCTTTCCTACACGCTGACGGACAAGGCGGGCAATGAGAGCGATCGCTCCGGGGCGCTGAAGACGGAAGTGGATACGAAGGCTCCTGCGGCCCCCGTGATCGATGCGGTGACGGACGATGCCGAGCCTGTGACGGGTGCGGTTTTGAATGGCGGCGTGACCAACGACACGCGGCCTTCGCTGTCTGGTTCTGGTGCTGAGCCGAACGGCGTTGTGAAGGTCTACGACAAGGGTGTGCTTGTCGGTGAGACGGTGGCGGATGCGTCGGGCAAGTGGAGCTTCACGCCGGATGCTGGCAAGGCGCTTTCGGGCGGCGAGCACAGCCTGACGGCCAGTGCGGTGGATGCTGCGGGCAACGAGGGCCCGCAGGGTGGCGCCTTCACGCTGACGGTTGCGACGGATGGTCCTTCGCAGACGGCTTCGGTCAATGCCGTTCTCGACGATGTCGATCCTGTGACGGGTGCTGTTGTGAGTGGCGGCGTGACCAACGACACGGCGCCGTCGCTGTCGGGCACGGTGTCTGCTGCGCTGTCTGCCGGCGATGTGGTCGAGGTTCTGCGCAACGGCGTGGTGATCGGCACGGCGACGGTTGCGGGCACGGACTGGGCTTACGAGGACAAGGGGCTTTCCGACGGACAGACCTACAGCTACACGGCGCGGGTGACCAATGCCGCCGGCGTGCCGGGCCTTGAGGGCGCGGCGCATGCGATCACCATCGATACGCAAAAGCCTGTGACGCCTTCGACGCCTTTAAGCTATGCCGACGATGTCGGTTCGATCAGGGCCGATGAGAGCACGGCTTCGGTGACGGACGATACGCGTCCCGGCCTCAATATCGGCAAGGTTGGCGATGGGACGACGCCTTCGCTTTATGTTGATGGCGTCAAGGTTGCGGCCGATTATGACGCGGCCAAGGGCACGCTGACGCCGAAGGATCCGCTGGGCGACGGTTCGCACGCGCTTTCCTACACGCTGACGGACAAGGCGGGCAATGAGAGCGATCGCTCCGGGGCGCTGAAGACGGAAGTGGATACGAAGGCTCCTGCGGCCCCCGTGATCGATGCGGTGACGGACGATGCCGAGCCTGTGACGGGTGCGGTTTTGAATGGCGGCGTGACCAACGACACGCGGCCTTCGCTGTCTGGTTCTGGTGCTGAGCCGAACGGCGTTGTGAAGGTCTACGACAAGGGTGTGCTTGTCGGTGAGACGGTGGCGGATGCGTCGGGCAAGTGGAGCTTCACGCCGGATGCTGGCAAGGCGCTTTCGGGCGGCGAGCACAGCCTGACGGCCAGTGCGGTGGATGCTGCGGGCAACGAGGGCCCGCAGGGTGGCGCCTTCACGCTGACGGTTGCGACGGATGGTCCTTCGCAGACGGCTTCGGTCAATGCCGTTCTCGACGATGTCGATCCTGTGACGGGTGCTGTTGTGAGTGGCGGCGTGACCAACGACACGGCGCCGTCGCTGTCGGGCACGGTGTCTGCTGCGCTGTCTGCCGGCGATGTGGTCGAGGTTCTGCGCAACGGCGTGGTGATCGGCACGGCGACGGTTGCGGGCACGGACTGGGCTTACGAGGACAAGGGGCTTTCCGACGGACAGACCTACAGCTACACGGCGCGGGTGACCAATGCCGCCGGCGTGCCGGGCCTTGAGGGCGCGGCGCATGCGATCACCATCGATACGGTTGCTCCTCAGGATGTCTCGGTCAGGATTGCGTCGATCACGGATGACACCGGCGTCAGCGGCAGCGACTATATCACCGCCGACAATACGCTGACGGTGAACGGCACATTGAACCGTGAGTTTGCTGCGGACGAAAAACTGCAGCTCCGCCTCGATAGCGGAGATTGGATCGATGTCGCGACGACCGGCAAGAACTGGAGCTACACGGACCCTGCCAACCGCATCCTGTCGGACGGACAACATGTCTACGATGTCCGGGTGGTCGACAGGGCCGGCAATATCGGTTCGCAAACGCAGCAATCGGTCACGATCGATACGTCCAAGCCCACCGCGTCGCTGTCCATCACGGGCTATGACGACAATGAGGGTCGGATTCAGGGCATACGTCAGTCTGGAACTTATACGGATGACACAACCCCGACGCTTATGGGCACGGTCACCGGTACATTGCAACCTCAGGAGAAGGTCGGCATTTATCTAGGTGCGCAACTGGTTGGATTTGCCGATGTCTCGGCATCGAACTGGAGCTTCACCGTTCCCTCCGCCCTGCAGGACGGCAAGACCTATGTGTTCCATGCCGCTGTGGTGAGCATGGCTGGGGGTGTGGGCTCGACATCGAATGACCTGCAACTGAGCATCGATACTTCGGACACCAATATGGCGCCGAAGATCGGAACCAGCGCGGCCCAGTCCTTCTCGACGGGCATCACGCTCGGCAAGAACGGTCTGTGGACGGTTGTTTCCGATCAGGCGATCTATTCCTCCAACGGGATCAGGGACTATAGCGAGCAACAGCTGGATATTTCGAGCACGGTGGCTATTTCCAACGGCAAAACTGTCGCGAGTCAGACGAAGAGCGGCGTATGGGGAGGGGTGCCTTTCGGCGCATGGACATTCGCCGACTATGATCGCGACGGTTATCAGGACATGTTCACGACGGACTCCGACTATGACGACGGAAGTTCGACGGTCTTCAGGGGCAGCAGCGCCGGTCTCACGGCAACGGTCCTCGACTACTGGAAAGTGGATAATGTGGTCAGGGATCCCGACGTCCATCTCGGCGGCATCATGTCGATCGACATAAATGGCGATGGCTATGCCGATGTGATAGTCGGAGACTCTCAGGGTGACTCCGCGACCTTCCTTCTCAACAAAGGCGCGGCGGCGACAGGCCCCGGTGTGGAAGCCGGTCAATGGTATGGCTACGGCTATGACACGACGGCTGATGATGTCACGGCCCCGAGCATTCGCTATGTGACGATCGATCATGAAGTCTCCGGCGTTGACATCGACAATAACGGTACGATCGACTTTGTCGGCCATACCGTCGCAAACAGGGCCGATGCCTTTGTCATCAGCAATGGCAGTGCGAGCGGGATGAGCGTTCTCAAAAACTCCGGTGTGGGTTCGCTCAACGGGTCGAACTGGTCGATCAGCCAGACTTTCGATGACGTCTATAATTATAACGGCAGCCGGGGCGTTTCCGGCGCCGGTGAAGACAACACCTACCTCCATACGGTCTCGATGACCTGGGCCGATTTCAACGGCGACGGTTATCTCGACCTGTTCATGGGTAATGGCCGTCTGGGTAACTCCGTCAGCAGTGACAGCGTCGTCTATTACAACAATAACGGCACGCTCTCGGCAACGGCGCAAAGGATCCGCGACGGTGTGATGGGTAAGACGACGCTTGCCGTCGATTGGGATGGGGATGGCGATATGGACATCGTCGAGCTGCCCGAAAGCGGGTTCAGCGGTGCCCAGTCGAAACTGCATCGCAATAATGGCGCCGCGGCAGGCGGCGAAGTGACGTGGAATACGGAGGTGCTCGGCAGCGTCGGTGAAACCACGCATGGCACCGGCCGTATCGATCTCGGCGGTATCTCGGATGTCAGCGGCGGCAGCGCCGTGGACTATGACTGGGATGGCGATGTCGATGTTCTGATCAGCACCCTGGGCGGTACGCCGACGGTGACTGTCAACAATCCGAACACGCCGGCGGAGGGAACCGCCCTGCATCTGCGGATCCTCGATGCTCAAGGCTTCAACAGCTTCTATGGCAATACCGTGAAGCTCTATGACGCCAGCGGCAATCTGGTGGCGAGCCAGATACTCAATCCGCAGTCCGGCGCAGGCGTGAATGACAGCTCCGGCATCGTTCACTTCTTCGGGCTTGATCCCAGCCAGACCTATTCCGCGGTGCTTGTGCGGAATGTGAATGGCGCCTCGCAGGATGTGGGCGCGCCGGGCATTGCCGGTGTCGAAAACGTCAATGCCGCTTGGGGCCATCTGACGCCGGGTGCTGCCAACAGCGCCTATGTGCTGACGGCCGAAGCGGGGACGAACGACGCAAGCGCGGTCCACGGTATCGTCGGGACGGGTTACAACGACACGTTCTTTGCTACTGCCGGCTCCGATAAATTCGAGGGCAGCGGCGGCACCGCGAGCGTCGGCGGAGTGAGCGGCTGGAGCGCCACAGGTGGCCTCGACATTGTCGACTACAAGCTGGCGGGTGACGCTGCGCTGACGATCGATCTTGATAAAGCCGGCGCCCAGAACACCGGCTTCGGAACGGCGACGTTCTCGAATATCGAGGGGATCGCGGGTGGTGTCGGTGCTGACACCTTTACCGACAATGCAGGCGACAACCTGTTTGAAGGCAGGGCCGGCAACGACGTGTTCAACCTGACGAATGGCGGCAGGGACACGTTGCTTTACAAGTTGCTGACCGACGACGCGACCGGGGGCAGTGGCAGCGATCAGGTTAATGGCTTCACGCTCGGTCTCTACGAGGCGGTGCCGAATGCCGACAGGGTCGATCTTCGAGACTTGTTATCCGGCTACAAATCGGATGCGGACGGTGCCGCCCATCACGTCAACGGCGTTGCCACGATCGATCCGGGTGAGACCATCAGGGATTACCTGTCGGTCACCCAGAGCGGCGGCAATACGGTGATCAGCGTCGACCGCGATGGCGCAGGGGCCGCGTTCAGCGCGGCACCGATCCTCACATTGAACAATGTGACGACCGATCTCGAGACCCTGCTCGCCAACCATCAGATCGTTGTCTGA	MASSSVLANHINVSVSLKNQTVTAPNEPTNFLVSADQQNVSNYARSGNNLVIQFDDGKIIRISDFFTHGLDFNNLVFVHDGGKWLTEFDKALGGGDGVMDPRVTYELISDSAAVLALLGILGAAAGGVISAANDGNGDDDNTRKDTTAPSAPTFVAIDDKAPGIGPIEHNSKTNDATPTLLGSAEPGSTVRIYDNGKLIGTTTAGADGKWSFTPSTPLADGAHTFSATATDKDNNTSPSSNPIVVEIDTIAPDQPAAPTGYVDNEGPVRSDNSTAPVTDDTTPGLNIGKLPDGTTPSLYVDGVKVDAVYDATKGTLTPKDPLKEGAHDLSYTVTDKAGNESKPSAPLKTEIDTTAPNAPAITSAMDDVDPVKGPIVNGGFTNDTTPTLSGTGEPGATVTILDGKTPVATAIVKKDGTWSVTTSPLGEGDHRLTATVTDEAGQTSTPSAPLTFTIDTQKPVTPSTPLSYADDVGSIRADESTASVTDDTRPGLNIGKVGDGTTPSLYVDGVKVAADYDAAKGTLTPKDPLGDGSHALSYTLTDKAGNESDRSGALKTEVDTKAPAAPVIDAVTDDAEPVTGAVLNGGVTNDTRPSLSGSGAEPNGVVKVYDKGVLVGETVADASGKWSFTPDAGKALSGGEHSLTASAVDAAGNEGPQGGAFTLTVATDGPSQTASVNAVLDDVDPVTGAVVSGGVTNDTAPSLSGTVSAALSAGDVVEVLRNGVVIGTATVAGTDWAYEDKGLSDGQTYSYTARVTNAAGVPGLEGAAHAITIDTQKPVTPSTPLSYADDVGSIRADESTASVTDDTRPGLNIGKVGDGTTPSLYVDGVKVAADYDAAKGTLTPKDPLGDGSHALSYTLTDKAGNESDRSGALKTEVDTKAPAAPVIDAVTDDAEPVTGAVLNGGVTNDTRPSLSGSGAEPNGVVKVYDKGVLVGETVADASGKWSFTPDAGKALSGGEHSLTASAVDAAGNEGPQGGAFTLTVATDGPSQTASVNAVLDDVDPVTGAVVSGGVTNDTAPSLSGTVSAALSAGDVVEVLRNGVVIGTATVAGTDWAYEDKGLSDGQTYSYTARVTNAAGVPGLEGAAHAITIDTVAPQDVSVRIASITDDTGVSGSDYITADNTLTVNGTLNREFAADEKLQLRLDSGDWIDVATTGKNWSYTDPANRILSDGQHVYDVRVVDRAGNIGSQTQQSVTIDTSKPTASLSITGYDDNEGRIQGIRQSGTYTDDTTPTLMGTVTGTLQPQEKVGIYLGAQLVGFADVSASNWSFTVPSALQDGKTYVFHAAVVSMAGGVGSTSNDLQLSIDTSDTNMAPKIGTSAAQSFSTGITLGKNGLWTVVSDQAIYSSNGIRDYSEQQLDISSTVAISNGKTVASQTKSGVWGGVPFGAWTFADYDRDGYQDMFTTDSDYDDGSSTVFRGSSAGLTATVLDYWKVDNVVRDPDVHLGGIMSIDINGDGYADVIVGDSQGDSATFLLNKGAAATGPGVEAGQWYGYGYDTTADDVTAPSIRYVTIDHEVSGVDIDNNGTIDFVGHTVANRADAFVISNGSASGMSVLKNSGVGSLNGSNWSISQTFDDVYNYNGSRGVSGAGEDNTYLHTVSMTWADFNGDGYLDLFMGNGRLGNSVSSDSVVYYNNNGTLSATAQRIRDGVMGKTTLAVDWDGDGDMDIVELPESGFSGAQSKLHRNNGAAAGGEVTWNTEVLGSVGETTHGTGRIDLGGISDVSGGSAVDYDWDGDVDVLISTLGGTPTVTVNNPNTPAEGTALHLRILDAQGFNSFYGNTVKLYDASGNLVASQILNPQSGAGVNDSSGIVHFFGLDPSQTYSAVLVRNVNGASQDVGAPGIAGVENVNAAWGHLTPGAANSAYVLTAEAGTNDASAVHGIVGTGYNDTFFATAGSDKFEGSGGTASVGGVSGWSATGGLDIVDYKLAGDAALTIDLDKAGAQNTGFGTATFSNIEGIAGGVGADTFTDNAGDNLFEGRAGNDVFNLTNGGRDTLLYKLLTDDATGGSGSDQVNGFTLGLYEAVPNADRVDLRDLLSGYKSDADGAAHHVNGVATIDPGETIRDYLSVTQSGGNTVISVDRDGAGAAFSAAPILTLNNVTTDLETLLANHQIVV				NA	NA	NA	NA	NA
BMS010_00927	1296			hypothetical protein	ATGGGCTTGCCTTTGCCGGTCGCGGCCGGTGAACCCGTGCGCATTTGCGCAAGTGCGAAGAACCGGTCGCAGATTGCCGCAGCCTTTGGCGATGCGGCTATTGTCGCTATTGAAGGGGTTATACTTGACGTCCTTTCGCGTAGTCTTTCATCGGCGTCTCATTTCATTTCTGAAACTCTCGTCGAGGGCGACCTGGTCTTCATTGAAATTGCCGCGCGTCTCTCGCCGGTCGATCTCGCCCGGCTGATCGAGGCCCTGTCGCAGGCTCTAGCGCTTGAGCCGGTGGTCATCGGTGAGGATCGAATCCATATCGCCCCCTCCGTTCGGTTGGCGGGCGAACCGGACGCCGATCAGGCTTACCTGGAAGGGCACTTCGGCGGCGGATCTGCTGCGGGCCGACGGGAATGGATGGATTGCTACCGGCGGGATATGGCGACCGTTGCGCAATTGTTCGAAGATCTCAATGCGGACAGGTTGACGTTCGCCCTGCAGCCCATCCGAATGGCGCAAGCTCCGGACCGGCTTCTCTATGAAGAGTTCCTGCTTCGCCGAACGGAGGGTTCGCACACGGTTGGCGGTGCGGGTGTGGGCATCCTTGCTGCAGAGCGTCTCGGTCTCGTCCGGGTGCTCGACAATTATGTTGTCAGAAGTGCCGTTTCGCTGATGAGGTACGATCCCGGATTGCGGCTCGGGGTCAATATATCCGCTCAGAGCGTGTGCCTTGACGAATGGTGGACCGTTCTTGAAAACGAGCTGGAGGCGGAGTCCGATCTCGCCGAGCGCCTGATTATCGAAATCACGGAGACCGCCGGATTTTCTTCGATCATCGCCGCCACGGCTTTCGCGCGGCGTATGGGGGCTCTAGGGTGCCGCATCGCTCTCGATGATTTCGGGATGGGCCGTGATGCGATCAAAAATCTTTACGCCTTGAAGCCGAATATCGTGAAGGTCGACGCCTTCTTCGTGCACGACGCAAGAGATTCCGCAAGCGGCCAATCGGCTCTCAAATCGCTCGTCGGATTTTCCCGTGCGATCGGCGGCGCGGTGGTGGTGGAAGGCATCGAAACGAAAGCGGATAGCGACGCCGCTTCGCTTGCAGGCGCTATCTGGCAGCAGGGCCATTTTATTCAACCCCCGAAGCTTGCCGATCATCCGGTGCAGGAAGGACAAACGGGGGAAGCGGATCCGCTGCCCATCCCGTCTCCTTATCATCTGCGCTCGGTATTTTTACTGGCCGTGCCGCTTTGGGCGCTCGGCATAGCCGTCATGTGGCTCGTATGGAGCGGCATTACTTGA	MGLPLPVAAGEPVRICASAKNRSQIAAAFGDAAIVAIEGVILDVLSRSLSSASHFISETLVEGDLVFIEIAARLSPVDLARLIEALSQALALEPVVIGEDRIHIAPSVRLAGEPDADQAYLEGHFGGGSAAGRREWMDCYRRDMATVAQLFEDLNADRLTFALQPIRMAQAPDRLLYEEFLLRRTEGSHTVGGAGVGILAAERLGLVRVLDNYVVRSAVSLMRYDPGLRLGVNISAQSVCLDEWWTVLENELEAESDLAERLIIEITETAGFSSIIAATAFARRMGALGCRIALDDFGMGRDAIKNLYALKPNIVKVDAFFVHDARDSASGQSALKSLVGFSRAIGGAVVVEGIETKADSDAASLAGAIWQQGHFIQPPKLADHPVQEGQTGEADPLPIPSPYHLRSVFLLAVPLWALGIAVMWLVWSGIT				NA	NA	NA	NA	NA
BMS010_00928	1011	rhaS_2		HTH-type transcriptional activator RhaS	ATGCATTCCGTATTTGAACACCGCAGCAATGGCGCGCCCGTCGCTTTTCCGACAGACAAAATTGAAGGCCTGCCCGATACCGGCGGTCGCGCGCGTATACCCGTCAGCGAGTTCCGACTGGAGCAGACGGCGCTTCGGGCAGGCACTAAAGTTCGTTTGAAAAAATCGAGCCAGGGACACGGCTGGACAGGCATTTTTGCCGCCGTGACGGAGGAACATCCACATGAGACGCTGTATGGCGCCGTGCCTGCCGTCTGGCTTACCGCGAATTTGACCGTCGTTGGAAGCCGCCGCTGGCTGCCGGGCTCCGGGCTCCATCAGGTTCTTTCCAATGACCTGATGTCCATAACGGCTGCGGGTGAGGCGGTTCGCAGCGAAGTGGAAGAGGCAATGGAGGCGATGCATATTTTCCTGCGTCAGGAGATCATCGACGTCGTTGCGGACGATCTTTACGCGGGCGGGGACGTGAAGCGGTCGATAAGCTCCTCTGCCGGTATTAATGACGGGGCGCTCCGGTGCTTTATCTCTTCGATCAGGGCGTCGCTGGACACGATGCATGCAAGCACGCTGGAAATGGATTATCTTGCCTATGCTCTTGCCGCTTATCTGCTACATCATCATTCGGCGCCGGGCAGAACCACGGTCAATCCCCGGGTTTCGGAAGCGCTGAATGCGCGGCAGATGGGTATCGTTGTGGACTACGTCGAAGCCAATCTGGAGACCGGCATAAGCGTTGCGCAACTGGCGGACATCGCCGGCGTGGGCAGGGCGCGGTTTCTCCCCCGTTTCAAGGCGGCCACGCTGATGACGCCGCATCAATATGTTCTGGAACAGAAAATCCGGCGCAGTCAGCGCTTGCTCACGCGGTCGCAGATGGACCATGTTAACATTGCCGCGCTTTGCGGCTTTGTCGATCAGGCCCATTTTGCCTCCACCTTCAAACGTATCGTTAAAATGACGCCGCGGGACTATCGCGCGTCCCATTGTATATTTGTCGGAGCGCACCAGTAA	MHSVFEHRSNGAPVAFPTDKIEGLPDTGGRARIPVSEFRLEQTALRAGTKVRLKKSSQGHGWTGIFAAVTEEHPHETLYGAVPAVWLTANLTVVGSRRWLPGSGLHQVLSNDLMSITAAGEAVRSEVEEAMEAMHIFLRQEIIDVVADDLYAGGDVKRSISSSAGINDGALRCFISSIRASLDTMHASTLEMDYLAYALAAYLLHHHSAPGRTTVNPRVSEALNARQMGIVVDYVEANLETGISVAQLADIAGVGRARFLPRFKAATLMTPHQYVLEQKIRRSQRLLTRSQMDHVNIAALCGFVDQAHFASTFKRIVKMTPRDYRASHCIFVGAHQ				NA	NA	NA	NA	NA
BMS010_00929	942	rhaS_3		HTH-type transcriptional activator RhaS	ATGCTCGCAGATATCGATGGTTTCCTTGGTAGTTTGCCCGGCCTGCGCCCGGTATCGCAATCCCATGACCTGCCGGCCGGTCTCGATCGCAGCTTTTTCGGCCGCGAGGACGCGGTCACCATTCTTTGTGACAGCGTCGGTGCCGGCTGGCACGGCACTTATGCGGCCGTAACCCATGAATTGCCCCATGAAACCGAGCGCAGGCCGGTTCCGGCGGTCTGGCTGGTGATCGGCCTTGAGACGACCAGCCATCGGCGCATCATCCGGGGGCAGGAGTATTACAATCCTTCGGTCCCTGCGAATTTCGTCACAATTACACCGCCGGGCGAGAGTGCCCGCGATGTGATCGGCATGCCGGCGAAGGCGTTTCATATGTTTCTGACCGATGCCGTCATTCAGGAAGTGGCGGATGAAATTCTTCAGGGCAATGCTGGAAATGTCAGTGTCGCGCCTGCATTCTGCGTTGATGATCCCGTGGTGACGCCGCTGATGCATCTCATCCGGCGCACGCTGACAAAGCCCTCTTGCGAGGCGCGGCTGAAGATCGACAATCTCGTCCGCGCGCTTGCCGCACGCGTGCTTTTGTGTGAGCGGAGGCAAGAGCCGCAACCAACCCCGGACCTGACGGCAAGACAGATGAAGCTGCTGCGGGACTATATGGAAAGCCATCTAGACCGGGATATTTCCATCGAAGACTTCGCAACCCTGCTTGGCCTCAGCCGCACGCAGTTTTTACGCCGCTTCAAGGCAGCATCGGGAACCTCGCCGCACCAGTGGGTCATGCAGGCCCGCGTGGAAAAAGCGAAACAATTGCTGTCCACCCCTGACCTTAGTCTTGGGGCCATTTCCCTGGCTTGCGGTTTTGCAAATCAGGCCCATCTTTCGACGGTATTCCAGCGCTTCGTTAAAATATCCCCATCAGCATTCCGGCGCGGTTTCTAA	MLADIDGFLGSLPGLRPVSQSHDLPAGLDRSFFGREDAVTILCDSVGAGWHGTYAAVTHELPHETERRPVPAVWLVIGLETTSHRRIIRGQEYYNPSVPANFVTITPPGESARDVIGMPAKAFHMFLTDAVIQEVADEILQGNAGNVSVAPAFCVDDPVVTPLMHLIRRTLTKPSCEARLKIDNLVRALAARVLLCERRQEPQPTPDLTARQMKLLRDYMESHLDRDISIEDFATLLGLSRTQFLRRFKAASGTSPHQWVMQARVEKAKQLLSTPDLSLGAISLACGFANQAHLSTVFQRFVKISPSAFRRGF				NA	NA	NA	NA	NA
BMS010_00930	2205			hypothetical protein	ATGCTTTTTAAATCGACAACGGGTCGGAATATTTTTGCGGTCGCCGCATGCGGGGTCTTTGCGACGATCGCGGCCTCGGCCGTGCTGTTTTATCGGTCCATTGAGGATACCAGGGCCAACAATCTTGAGCGTATGCGGCAGATCGCCCATAGCGAAGCCCTGGCGACCGAAAAGAATATCGGCGGCACGATCCATATCGTCAACAGCCTCGTCTCGGTTCTGGAGTCGATGAAACAGTCAGGCGATGCCGACCGGGGTAAGGCCGATCAGATCATTCACCAGATGCTGGCCAATAACCCCGACATCCTTGGCCTCTGGACCGGATGGGAGCCAAATGCGTTTGACGGCAAGGATGCGGATTTCGCCAACAGGGAGGGGCATGACGCGACCGGCCGGTACATACCCTATTGGGTGCGCAGCGGCGGCAAAATAGGCAATACCGCTTTGACGGACTATGCCACCGCAGGTCCGGGCGATTATTATCAATTGCCCTTCACCCTGAAGAAAACGGTCGTCGTCGAACCCTATTCCTATGCAATCGACGGCAAGGAGGTCCTGATTACCTCGATCGCCAAGCCGGTTATGGTCGATGGCAAACCTCAGGGGGTCGCCGGCCTCGACCTGTCGCTCGATGAAACGAGCAAGGCGCTTTCGGCGGTGCGGCCCATGGGAACGGGGTTCGTCAGTCTGGTCAGCGGCGGCGGCAAGATCATCAGTCATCCGGATGCGGCGATCATGGGAAAAAGCCTCGCGGACGGCGGTGCGAAGACCGCCGGTTGGGACCAGTTGATTGCAAATCCCGGTGCGGAGCGCGAGATCACCGCACAGGATGGAACGGCGTCCTTCGCCATCGCCTTGCCGGTCATGCTTACCCAGGACATGAAATGGTACGCAATCATCTCGGTGCCGGAAGAAACGGTGTTTGCGCAGCTGCATGCCATGATGCGTGACGCCGCTTTGACCATAGTGACGGCCACCGTCCTGCTGGCGCTGGCGGGATGGTTCATCGCGCGGCGGTTCATCGGGCGCATCGCAAACATCATCGATGAGACCGCCCAGATTGCACAGGGAAATCTTCATCTGACACTGAAGGATATCGGGACAAGGGACGAAATTGGCGATCTTGCCCGCTCTCTCGATGTTCTGCGCGAAAACAACCGGCAGAAGGCCTCGCTGGAACAGGAGGCCGAGACCAACCGCACGCTTGGTGAAGAAGAGCGTGCGGCCCGGGAACGCAGGGCCGCCGATGAGGCGGGCAGCATCCGCTTTGCCGTCGACAGCCTGGCTTATGCGCTGGCGAAGCTCGCTGACGGAGACCTGTCCTGCCGTATCGACAATCCCTTTGTCGAGCAGCTCGACGCGGTGCGTGGGGATTTCAACGGCTCGGCCGGGAAATTGCAGGACGCGCTTCTGCGGGTATCGGAAAATGCCTCCGGCATCGACGTCGGCGCCAATGAAATCAAGGCGGCGTCCGATGATCTGGCGCGGCGAACGGAGCAGCAGGCGGCGGCCGTTGAAGAAACCGCTGCCGCCCTTGAAGAGATTACGACAACGGTAAAAGACGCCGCGAACCGTGCGCATGAGGCGGGCCGGCTGGTTTCCCGCACGCGCATCGGCGCGGAACGGTCGGGTGAGGTCGTGCGTCAGGCCGTGATGGCGATGGAGCGGATCGAAAAATCGTCGAACGAAATTTCCAGCATCATCGGCGTGATCGATGAGATCGCCTTCCAGACGAATTTGCTGGCGCTGAATGCCGGGGTGGAAGCGGCACGTGCCGGTGAGGCGGGCAAGGGTTTTGCCGTGGTGGCGCAGGAAGTGCGGGAGCTTGCCCAACGCTCCGCCGCTGCGGCGAAAGAAATCAAGTCGCTGATCACGAAGTCGAACCAGCAGGTCGAAGAGGGCGTGCATCTTGTCGGCGATACCGGCAAGGCGCTCGATGTCATCGTTGCCGAAGTGCAGGAAATCAACCAGCACGTCGCCGCGATCGTGGAATCCGCGCAGGAGCAGTCATCCGGCCTCCAGCAGATCAACGTCGCCGTCAACCAGATGGACCAGGAGACGCAGAAAAATGCCGCGATGGTCGAGGAGATGACCGCCGCAAGCCACACGCTGGCAACGGAGGTCGATGCGCTAAACCGGCTGCTCGGCCAGTTCGAACTCGGTTCGGGAGCCGACGCTTATCGGGGGTCTCTCAAGGCTGCCTGA	MLFKSTTGRNIFAVAACGVFATIAASAVLFYRSIEDTRANNLERMRQIAHSEALATEKNIGGTIHIVNSLVSVLESMKQSGDADRGKADQIIHQMLANNPDILGLWTGWEPNAFDGKDADFANREGHDATGRYIPYWVRSGGKIGNTALTDYATAGPGDYYQLPFTLKKTVVVEPYSYAIDGKEVLITSIAKPVMVDGKPQGVAGLDLSLDETSKALSAVRPMGTGFVSLVSGGGKIISHPDAAIMGKSLADGGAKTAGWDQLIANPGAEREITAQDGTASFAIALPVMLTQDMKWYAIISVPEETVFAQLHAMMRDAALTIVTATVLLALAGWFIARRFIGRIANIIDETAQIAQGNLHLTLKDIGTRDEIGDLARSLDVLRENNRQKASLEQEAETNRTLGEEERAARERRAADEAGSIRFAVDSLAYALAKLADGDLSCRIDNPFVEQLDAVRGDFNGSAGKLQDALLRVSENASGIDVGANEIKAASDDLARRTEQQAAAVEETAAALEEITTTVKDAANRAHEAGRLVSRTRIGAERSGEVVRQAVMAMERIEKSSNEISSIIGVIDEIAFQTNLLALNAGVEAARAGEAGKGFAVVAQEVRELAQRSAAAAKEIKSLITKSNQQVEEGVHLVGDTGKALDVIVAEVQEINQHVAAIVESAQEQSSGLQQINVAVNQMDQETQKNAAMVEEMTAASHTLATEVDALNRLLGQFELGSGADAYRGSLKAA	PGPT0015710_2459	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_00931	1530	lyx	COG1070	L-xylulose/3-keto-L-gulonate kinase	GTGGCGAGGAAGCATGGGATATCTATAATCGTGGCTGATAAAAATCACATATTGGGTCTCGATGTCGGCAACACGGTCATCAAGGCCGTGCTGTTCGACACGGAAGGCCGGCAGGTTGCGCAACACGCCATCGACGGACAGTCGACATTTCCTGAGCCCGGCTATGTCGAGCGCGATCTCGAGGAATTGTGGCGGAACGGCTGCGAAGCGATCCGCCAGCTTCTGGTGAAATCGTCCGTCGATCCCCGCAGCATCCTGGCAGTGGGCTGTGCCGGCCACGGCAATGGCCTCTATCTTCTGGACAAGGACCGGCAGCCCCTGATCGGCATCCAGTCGCTCGACAGCCGTGCTGCCGATCTGGCGGCCGAGCTTGACCGGAAAAGCGGAGCACAATTGCAGGCCCGTTGCCTGCAGCGGCCATGGCCTGCGCAAACACCCAGCCTTCTGGCCTGGGTAAAGCGACATGCACCTGATCTTTATGCCCGGACCGGCACGGTCCTGTTCTGCAAGGATTTTGTCAATTTCCGCCTGACGGGGTTCCTTGCCAATGATATTTCCGATCTCAGCGGCGCTGGGCTGCTTGCCTTGCCGGAAGCGCGGCTCGACCGCGAGCTTCTGTCGCTTTACGATCTTGAGGACGCGTTCGCGTTCTTCCCCCGTCGCGTGGAATCGGCTGACATCGTCGGCCATGTGACGGGCGAGGCTGCGGCTGTGACGGGGCTTTCCGAAGGCACACCTGTGATCGGCGGTTTCTTCGATGTGGTCTCCAGCGCCATGGGGTCCGGGGTCATCAATGCCGGGGAAGCTTCCATCATCGCCGGCACCTGGAGCATCAATCAGGTTTTCGCGGACAAGCCGGTCATCAGTCCCGATGTCTTCATGGTCACCACCTTCGGCCGTGACCGCTATGTCAATATCGAATCCAGCGCCACCTCCGCCGCCAACCTCGAATGGTACGTGCACCGCGTTCGCGGCGATCATGGCGACCACGCCTTCGAGCGATGCAACGAATTGGTCGGCTCCGTCTCACCCCGCGCCGACGATCCGTTCTTCCATCCTTTCATTTTCGGCTCGCGACTGGGCGCGGAATTTCGCGGCGGCTTTTACGGCCTCGCGGGATGGCACGGCGAAGGCCATATGTTGCGGGCCCTATTCGAAGGGGTGTGTTTCGAGCATCGCCGCCATATCGGCGTTCTGCGCGAAGCGGGACTGCCGGTGGAAAGCGCCGTGATGTCCGGCGGCGGTTCCCGCAGCCAGCATTGGCCGCAGATCATGGCGGATGTTCTGGAAATTCCGCTACGTGTCGCGGAAGCCCGCGAGACGGGCGCGCTCGGCGCGGCCATTGGTGCGGCCGTGGCGATTGGGCTTTATCCTGATTATGAGGAGGCGGTTGCGGCGATGACACGGGTTGCGAATGCTTACCGGCCCGATGCTGCGCAAGTCTCGCATTATCGGCGGCGCTACGGTCTCTATGCAGAATTGACCGCGCAGTTGCGTGGCTTCTGGAGCGCTTTGCGGTTACCGCAATAG	MARKHGISIIVADKNHILGLDVGNTVIKAVLFDTEGRQVAQHAIDGQSTFPEPGYVERDLEELWRNGCEAIRQLLVKSSVDPRSILAVGCAGHGNGLYLLDKDRQPLIGIQSLDSRAADLAAELDRKSGAQLQARCLQRPWPAQTPSLLAWVKRHAPDLYARTGTVLFCKDFVNFRLTGFLANDISDLSGAGLLALPEARLDRELLSLYDLEDAFAFFPRRVESADIVGHVTGEAAAVTGLSEGTPVIGGFFDVVSSAMGSGVINAGEASIIAGTWSINQVFADKPVISPDVFMVTTFGRDRYVNIESSATSAANLEWYVHRVRGDHGDHAFERCNELVGSVSPRADDPFFHPFIFGSRLGAEFRGGFYGLAGWHGEGHMLRALFEGVCFEHRRHIGVLREAGLPVESAVMSGGGSRSQHWPQIMADVLEIPLRVAEARETGALGAAIGAAVAIGLYPDYEEAVAAMTRVANAYRPDAAQVSHYRRRYGLYAELTAQLRGFWSALRLPQ	PGPT0017520_269	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ASCORBATE_UTILIZATION,PGPT0017520-lyxK-K00880	NA	NA
BMS010_00932	849	lsrF	COG1830	3-hydroxy-5-phosphonooxypentane-2,4-dione thiolase	ATGATGATGCGGATTTCGAAAAAGGCGCGCATGAACCGGCTGTTCCGCAATGGCGGTTGCCTGGATGTGGCCATCGATCACGGTGTTTGCAACGAGCCGAGCTTCCTCATCGGGCTGGAGGATATGGCGCAGACCGTGGACAGGCTGGTTGAGGCCGGTCCCGATGCCATCCAGATGGCCTATGGGCAGGCGGATCTGCTGCAGCAGAGGCCGGAGCGCGACAAGCCGGCCCTCGTCATGCGTATCGACATGGGCAACCCTTACAATTCCACGCGCCACAGAACCATGTGGTCGCAGCTCCAGAACCATCACGATCCGATCATCGGTGCGCTGGAAATGGACGCCGCCTGCGTCGTCGTGAACCTGTTCATGCTGCCGGATGAGCCGGAGCTGTTTCGTCAATGCGTCGAAAACATCAGCCGTGTGCGGGCAGATTGCCATCGTTTCGGTATGCCGTTGATGATCGAGCCGCTGGTGATGCTGGCGAATGATGTGCGCGGCGGTTATCAGGTGGATGGCGACGCCGAAAAGATCGTCACGCTCGTGCGTCTTGCCTCGGAAATGGGAGCCGATATCATCAAGGCCGATCCGACCAGTAACCCGCAGGATTTTCACAAGGTGATCGAAGCGGCGCGGTGCCCGGTGCTGGTGCGGGGCGGGGGGCGTGAGGACTTGCGAAACGTGCTTACCAAATCGGCGGCTCTGGTGGCCGAAGGTGCGAACGGGATGGTCTATGGGCGTAATATTTACCAGCACGACAATCCCAAGGCCGTCGTTGCGGCGTTGATGGCCATCATCCATGAGGGGGCGGGTGGCGAGGAAGCATGGGATATCTATAATCGTGGCTGA	MMMRISKKARMNRLFRNGGCLDVAIDHGVCNEPSFLIGLEDMAQTVDRLVEAGPDAIQMAYGQADLLQQRPERDKPALVMRIDMGNPYNSTRHRTMWSQLQNHHDPIIGALEMDAACVVVNLFMLPDEPELFRQCVENISRVRADCHRFGMPLMIEPLVMLANDVRGGYQVDGDAEKIVTLVRLASEMGADIIKADPTSNPQDFHKVIEAARCPVLVRGGGREDLRNVLTKSAALVAEGANGMVYGRNIYQHDNPKAVVAALMAIIHEGAGGEEAWDIYNRG	PGPT0017620_780	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0017620-fbaB|dhnA-K11645	NA	NA
BMS010_00933	1725	eryB_2	COG0578	D-erythritol 1-phosphate dehydrogenase	ATGCCCAATTTTCGCGAGGACGCTCTGCGCCGCATCCGGCTCGATGGTGATTTCGATGCCGTCGTGATCGGCGGCGGCATCAACGGAATTGCCGCCTATCGCGATCTCGCCTTGCAGGGGCTGCGGGTGCTGCTGGTGGAGCGCAACGATTTCTCCTCCGGTTGCAGCGCCGCACCCTCACGCATGATCCATGGCGGCCTGCGTTATCTCGAAAACGGTGAATTCGGCCTCGTGGCAGAATCGTTGCGGGAGCGGGATGCACTTCTCAGGCTCGCGCCGCATATGGTTCGTCCGCTGCCGACCACGATTCCGATCTTTTCGACTTTCAGCGGCCTGTTCAACGCGGCGGCAACCTTTGCCGGTTCCGGCGGAAAACCCGCAAGCCGTGGCGCTCTCGCCATCAAGGCGGGTCTGATGCTCTATGATTTCGTCACCCGCAAAAACCGCATCCTGCCCCGTCATGCGTTTCGCGGTGCGTCCGGGACTTTGCAGCATTGGCCAGATCTGACGCCGGAAATCAGATATTCGGCTACCTATTACGATGCGTGGATAAGCCAGCCCGAACGGCTTGCACTGGAGCTTCTGATCGACACCCATGCCGATGCGCCGCAAAGCATTGCGCTCAACTATGCGGAGCTTGTCCGTCTCGGCGACGCGTATCGTCTTCGGCTGGAGGGTATGGATGAAGCCCTGCCTATCCGCCCAAGGATCATTGTTAATGCGACCGGCGCCTGGATCGACGAGACGATTGACACGCTGGCTGCACCCCCGGCGGCGGAGACAGCAAAACCGACCGTCTCCGGAACCAAGGGATCGCATCTGATTATCGCTAACGAGGCGCTTTTGAAGGCCCTGAACGGCCATATGATCTTCTTCGAGAATGACGATAATCGCGTCTGTATCCTCTTTCCCTATCTCGGCCGGGTTCTCGCAGGCTCGACCGATATCAAGGTGGATCGTCCCGAGCGGGTGCGCTGCGAGCCCGAGGAACGGGATTATATTCTGGATGCGATCCGGCAGGTCTTTCCGCAGATTGCCATTACCCATTCCGACATCGTTTTCAGTTTCAGCGGCATCCGTCCGCTGCCGCGCAGCGATGCCGCCTTTACCGGAAGAATTTCCCGCAGCCATTTCATCCATCGCGTTGCGGGCGATCCGCCGCAGCTCTGCATGATCGGCGGCAAGTGGACCACTTTCAGGGCTTTTGGCGAGCAGGTGACCGACGAGGTTCTGGCCTTTCTTGGACGCCGACGGCTGACCGGCACCATGGCCCGCCCGATCGGCGGCGGCAGGAATTTTCCAACCGGTGCCAGCAGCCTGCCCACCTTGCTGTCGGAGGAATTTTCGATTGCCGGAGAGCGGGCGGAGCATCTGGCTCTGGCTTACGGCTCCCGTGCCTCCGATCTGATGGGCTTTTGCCGGGGCCGTGCGGATGATGTGCGGCTTTCAGAAAAATCGCCGATCACGGCCGCGGAGGTGGTCTGGCTGATCCGTTTCGAACACGTGCGCCACCTGACCGATCTCGCCCTGCGGCGCACGACGCTCGCCATCACCGGCGTCATCGATGCCGATCTGATCGACGCGATCCTCGCCGTTGCGGCCCGCGAGCTTGGCTGGCCGGCCACCCAGGCGGCGGCGGAACGGCAGCGGCTTATCCATGAGCTGGAGACTTTTTATGGGGTCACGCCGGCAATGCTTCAACACAGATGCAAGGAGAATGCATGA	MPNFREDALRRIRLDGDFDAVVIGGGINGIAAYRDLALQGLRVLLVERNDFSSGCSAAPSRMIHGGLRYLENGEFGLVAESLRERDALLRLAPHMVRPLPTTIPIFSTFSGLFNAAATFAGSGGKPASRGALAIKAGLMLYDFVTRKNRILPRHAFRGASGTLQHWPDLTPEIRYSATYYDAWISQPERLALELLIDTHADAPQSIALNYAELVRLGDAYRLRLEGMDEALPIRPRIIVNATGAWIDETIDTLAAPPAAETAKPTVSGTKGSHLIIANEALLKALNGHMIFFENDDNRVCILFPYLGRVLAGSTDIKVDRPERVRCEPEERDYILDAIRQVFPQIAITHSDIVFSFSGIRPLPRSDAAFTGRISRSHFIHRVAGDPPQLCMIGGKWTTFRAFGEQVTDEVLAFLGRRRLTGTMARPIGGGRNFPTGASSLPTLLSEEFSIAGERAEHLALAYGSRASDLMGFCRGRADDVRLSEKSPITAAEVVWLIRFEHVRHLTDLALRRTTLAITGVIDADLIDAILAVAARELGWPATQAAAERQRLIHELETFYGVTPAMLQHRCKENA	PGPT0006775_1213	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0006775-glpA|glpD-K00111	NA	NA
BMS010_00934	999	yhdN	COG0667	Aldo-keto reductase YhdN	GTGACGGACAATGCAATATTGACCCGGACGATCGGCAGAAGCGGCATCGGCGCATCCGCCGTGGGGCTCGGCACCTGGGCCATCGGCGGCTGGATGTGGGGCGGCACCGACGAGCGGCAATCCATCGCCGCCATCCAGGCCTCCATCGATGCGGGTATTTCCCTGATCGACACCGCACCGGCCTATGGCATGGGGCTTGCGGAAACCATCGTTGGCAAGGCAATTGCCGGCAGGCGCGAGGAGGTGGTGCTGGTTACCAAATGCGGGCTGGTCTGGCATGTGAATGAGGGTGCTTATTTCTTCCATCAGGATGGCAAGCCCGTTCATCGTTATCTCGGTCCTGCCTCTATCCGTTTCGAGGTCGAAGAAAGTCTGAAACGGCTCGGAACCGATTATATCGATTACTACGTGACCCATTGGCAGGACGCCACGACGCCTATTGCCGAAACGGTCGGGGCTTTGGTGCGGCTGAAAGAGGAGGGGAAGATCCGCTCCATCGGCGCAAGCAACGTCTCGCCCGGCGATCTTGAGGCTTATATCGCCACCGGCGCGCTGGATGCCATTCAGGAAGAATATTCCATGGTGAAGCGCGATATCGAGACGACGCTGCTGCCGCTTTGCCAAAAGAACGATGTCTCGGTTCTCAGCTATTCGTCGCTGGCGCTCGGTCTCCTCTCGGGCAAGGTCGGGCCTGAACGGGTCTTTGCGGACGACGACCAGCGCCACGGCAACCCGCGCTTCAGCCAGGCGAACCGTCAGAAAATCGCGCGATTGATGGGCGTGCTGGAACCGGTGGCGGCCGCCCACAGGGCTTCGGTCGCGCAGGTGGTGATCGCCTGGACGATTGCCCAGCCGGGCATAACATTCTCGCTCTGCGGCGCGCGCGATCCGGCTCAGGCGGTTGAAAACGCTGCCGCGGCACGTCTTCGCCTCACGGAGAGTGAGCTGGCGCACATCAGCGCCGGTGTCGCGGAGCATCTTGTGGGGCTCGATACCTGA	MTDNAILTRTIGRSGIGASAVGLGTWAIGGWMWGGTDERQSIAAIQASIDAGISLIDTAPAYGMGLAETIVGKAIAGRREEVVLVTKCGLVWHVNEGAYFFHQDGKPVHRYLGPASIRFEVEESLKRLGTDYIDYYVTHWQDATTPIAETVGALVRLKEEGKIRSIGASNVSPGDLEAYIATGALDAIQEEYSMVKRDIETTLLPLCQKNDVSVLSYSSLALGLLSGKVGPERVFADDDQRHGNPRFSQANRQKIARLMGVLEPVAAAHRASVAQVVIAWTIAQPGITFSLCGARDPAQAVENAAAARLRLTESELAHISAGVAEHLVGLDT	PGPT0008280_18	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-METHYLGLYOXAL_DETOXIFICATION,PGPT0008280-ydjG-K18471	NA	NA
BMS010_00935	975	eryD_1	COG2390	Erythritol catabolism regulatory protein EryD	ATGCTGGATATCAAGGACGATTTCGATCAACAGAGGCAGATGTATTCCGTCCTGGTGCTGCATTTCATCGAGGGTGTGAAGCAGTCGGAAATCGCCGAGCGGCTCAATCTTTCCCACACCAAGGTCAACCGCATGATTGCGGCCGGCCGCAAGGCGGGCATGGTGAAGATCACCATCGCCAGTCCCTATCAGAGGCTGGTGGACCTCGAAAACGAGATTACCCGCCGTTTCGGCCTCAGGCAGTCGGTGGTGACGCCGACGGTCTCCGATAATCCGGAAACCGCCTTGCAGATGGTGGGTCGGGTGGCCGCCAACCATTTGCTGGAGACCATTCGTGACGGCGATGTGATCGCGATTACCGGCGGCAAGGCGGTGAGTGCCGTTGTCGACAATCTTGAGGCGGAGCGTCGTTTCGATGTGCGGGTGGTGCCGCTGACCGGCGGCGTGCAGGGCAAGCACTATACGGATGTCAATCATCTCGCCACGCAACTGGCGGAGAAGCTCGGCGGCAGCGCATCGCTCGTTCATGCGCCGCTGTTTGCCGAGGATGAGGAACAGCGCGATCTGCTGATGAATGTCGCATCGATCCGTGAGGTCTTCGATCTGGCCCGGCAGGCGCAGGTGGCGCTGGTCGGCATCGGCTCCGTGGAGGCTCCTGGCTCCGGCTATTACGATCTTCTGCCGGATGCGGCCCGTGGCGGGCAGGCGCTGGTGGATGCGGGCATTGCCGGCGAGTTTCTCGCCCATCTTACCATGGCGGACGGGCAGCTGGCGCGCATCGATCTCAACTCGCGCGTGGTGGCGCTGGACCCCGGGCAGCTTGCCCGGTGCCCGAATATCATCGGTGTGGCGGCAGGCGCCATCAAGGCCGGACCGGTGGCGGCCACGCTTGCCGGCCGCTATCTAACCTCGCTCGTCGTGGACGAGGCGATAGCCGGCTATTTACTGGATCACGAAGGAGGGGAAACCGCGTGA	MLDIKDDFDQQRQMYSVLVLHFIEGVKQSEIAERLNLSHTKVNRMIAAGRKAGMVKITIASPYQRLVDLENEITRRFGLRQSVVTPTVSDNPETALQMVGRVAANHLLETIRDGDVIAITGGKAVSAVVDNLEAERRFDVRVVPLTGGVQGKHYTDVNHLATQLAEKLGGSASLVHAPLFAEDEEQRDLLMNVASIREVFDLARQAQVALVGIGSVEAPGSGYYDLLPDAARGGQALVDAGIAGEFLAHLTMADGQLARIDLNSRVVALDPGQLARCPNIIGVAAGAIKAGPVAATLAGRYLTSLVVDEAIAGYLLDHEGGETA	PGPT0025525_74	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI-2_PERCIPITATION|SIGNALLING,PGPT0025525-lsrR-K11531	NA	NA
BMS010_00936	1002	rbsC_2	COG1172	Ribose import permease protein RbsC	ATGGCAACATCGGAAACACCTTCGGGCATAGCTGAGACGGCGGTTCGCCGCACCACCTGGTGGGAGCCGGCGCTCAAGGCGCGAGAAACCGGGCTGATCGTCATCATCCTCGCGCTTTTTGCGGTGATGTCCTTCATATCTCCGTATTTCCTGACCGTGGACAATCTGCGGGCCATGGCCATGGTCTTCGCCATCGAAAGCATCGTCGTGGTGGGCATGACGATCCTGCTGATCTCTGGCGGTATCGACCTTTCGGTCGGCTCCGTCACCGCACTTGCGATGGTGGCGGCTGGCTGGCTCTTCCTCAATGGCGTCGACCCATGGGTGGCGGCGGGGCTGGCAATCTGCCTTACGACCTTGATCGGCATGGCCATGGGATTCCTGACGACGGTGATCGGGCTGCATCATTTCATCGTGTCGCTGGGCGTCATGGTGATTGCGCGCGGTGTGTGCCTGCTGGCGACGGGTGGGCGGCCGCTTGGGCTCTATTCCCTGCCGCCGGAATTCAAGTTCATCGGTCAGGGCGCGCTTGGCGGCATTCCGCTGGTGCTGATCATCTTCGCGGTGGTGGTTGTCGTTTTCGATCTGCTGCTGCGGCGCACGACCGCCTTCCGCAAGGTGTTCTATACCGGCAGCAATCCGAAAGCCGCGGCCTATTCCGGTATCCGCGTCGGCCGGGTGGTGTTTGCCACCACCACGCTTTGTTCGATGTTGTGCGGTGTTGCAGGCGTTATCTATATGGCCCGTTTCGGCTCTGCCCAGCCAAGCTTCGGCGTCGGCATGGAACTTAACGTGATTGCGGCGGCGGTCATCGGCGGCGCGAGCCTTTCGGGCGGCTCGGGCACCATTCTCGGCGCGATCCTTGGGGCGATCCTTCTTTCGGTGGTTTCCAGTTCGCTTGCCTTGCTCAATGTGTCTGTCTACTGGCAGGACATCATCAGGGGCAGCATATTGCTGACTGCGGTCCTGTTCGACCACTATCTGGTCAGGCGCCGCCGTTGA	MATSETPSGIAETAVRRTTWWEPALKARETGLIVIILALFAVMSFISPYFLTVDNLRAMAMVFAIESIVVVGMTILLISGGIDLSVGSVTALAMVAAGWLFLNGVDPWVAAGLAICLTTLIGMAMGFLTTVIGLHHFIVSLGVMVIARGVCLLATGGRPLGLYSLPPEFKFIGQGALGGIPLVLIIFAVVVVVFDLLLRRTTAFRKVFYTGSNPKAAAYSGIRVGRVVFATTTLCSMLCGVAGVIYMARFGSAQPSFGVGMELNVIAAAVIGGASLSGGSGTILGAILGAILLSVVSSSLALLNVSVYWQDIIRGSILLTAVLFDHYLVRRRR	PGPT0016590_2639	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0016590-rbsC-K10440	NA	NA
BMS010_00937	1521	rbsA_2	COG1129	Ribose import ATP-binding protein RbsA	ATGGGTGAGGTCATCCTCAGCATGACGAATATTCACAAGGCGTTCGGCCCCGTGCGGGCGCTGCGCAATGCGGCACTCGAGTTGCGGCGCGGCGAAATCCATGCGCTGGCCGGTGAAAACGGCGCCGGCAAATCGACGCTGATGCATATCATCGACGGCATTCTGCAGCCGGATGGCGGGGAAATCGTGCTGGATGGCAAACCGGTCAAGATATCCTCGCCCAATGCGGCGAACCGGCTCGGCATCGGTTTCGTGCATCAGGAGATCGCGCTCTGCCCGGAGATTTCCGTCGCCGAGAACATGTTTATGTCGCAGACGGGGCAGAGCCGCTCCTGGTTCATGAACTATCGCGATCTCGAAAAGCGGGCGGCAATTGTGCTGCGGGAAATCGGTGATATCGATCCCGCCCGCCGGGCCGGAGACCTGTCGATTTCGCAACAGCAGATCGTCGAAATCGCCAAGGCGCTGACACTCGATTGCCGCATCCTGATCCTCGACGAGCCGACGGCGGCGCTGACCGAAACCGAAGCCCAGACCCTTTTCAGGATCATGCACCGGCTGGCGGACCGGGGCATTGCCATCGTTTATATCTCGCATCGTATGGCGGAGATTTTCGAACATTGCGACCGCATCACGGTGATGCGCGACGGCTGCCATATCAGGACGGAGAATATTGCCGATATTTCCCCGGAAGAGGTCGTCAACAGCATGGTGGGACGGGTGCTCGACAAGCTCTACCCGCCAAAGCTTTCGGAGGATGAAAAATCGGATGACGTCATTCTCTCTGTGCGAGGCCTGAACGAAGGAAAGCGGGTTTTCGATGTCGATTTCGATCTGCGCCGCGGCGAAATCCTGGGGCTTGCCGGGCTGATCGGTGCGGGAAGAAGCGAGATCGCCCGGGCGGTCTGCCGGCTGGAGGGGAAGCCGAGAGGCGAGGTTACGCTGCGCGGCCGGCCGCTGAGGCTCAAGGATTATCGTGACAGCATCCGCGAGGGGCTGGTCTATCTGTCCGAGGATCGCAAGGGGGACGGGCTTTTCCTCAACATGTCCATCGCCTCGAATGTCTCTGCACTCGATATCGGCAGGGTATCGAACGGCATGGGCTTCATCGAACGGCGCAAGGAAATGAAGCGTGCCGATGAGCTGGGACGCCGGCTGAAATTGCGGGCGAACAGCATCGGCGATGCGGTATCGACCCTGAGCGGCGGTAACCAGCAGAAGGTGGCGCTGGCGAAGATGCTCTCGGTGGAGCCGGAGGTCATCTTTCTGGATGAGCCGACACGCGGGGTGGATGTGGGCGCGAAGGCGGAAATCCATCGCCAGATCCGGAAACTGGCGCGTGAGGGGGTCGGCGTGGTCGTCATATCCTCGGAACTGCCGGAACTTATCGGCGTCAGCGACCGCGTGCTGGTCGTGCGCGAGGGTCGGATTACGGGTGAGGTCGAGGGCGACGACATGACGGAGGAAAAGATCATGCAGCTTGCATCGATCAATATTGTGCATAGCCCGGAAAGGGCCTGA	MGEVILSMTNIHKAFGPVRALRNAALELRRGEIHALAGENGAGKSTLMHIIDGILQPDGGEIVLDGKPVKISSPNAANRLGIGFVHQEIALCPEISVAENMFMSQTGQSRSWFMNYRDLEKRAAIVLREIGDIDPARRAGDLSISQQQIVEIAKALTLDCRILILDEPTAALTETEAQTLFRIMHRLADRGIAIVYISHRMAEIFEHCDRITVMRDGCHIRTENIADISPEEVVNSMVGRVLDKLYPPKLSEDEKSDDVILSVRGLNEGKRVFDVDFDLRRGEILGLAGLIGAGRSEIARAVCRLEGKPRGEVTLRGRPLRLKDYRDSIREGLVYLSEDRKGDGLFLNMSIASNVSALDIGRVSNGMGFIERRKEMKRADELGRRLKLRANSIGDAVSTLSGGNQQKVALAKMLSVEPEVIFLDEPTRGVDVGAKAEIHRQIRKLAREGVGVVVISSELPELIGVSDRVLVVREGRITGEVEGDDMTEEKIMQLASINIVHSPERA	PGPT0016600_2330	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0016600-rbsA-K10441	NA	NA
BMS010_00938	1017			hypothetical protein	ATGTTGGCTTTTCTGAAATCGACCGCTACCACGGGTGTTTTAGCCGTGGCGATTGCTGCTGGGGCCGGTTCGCAGGCCACCGCTGCTCCGGGCAAATTTGCCTGCGAGCCGGGTGAGACCTATGTGATGAACGTCATGGTTTCCAGCCACCCTTATTGGGTGCCGGTCTTCGAGGGGTTCAAGCAGGCCGCAAAGGCGCTCGGCTGCGAGGCCGTTTTCACCGGCACCCCGGAATATGACATCACCAAGCAGATCGCATCTTTCGAGCAGGAACTGGTGAAGAAGCCGAAGGGCATTCTGCTGCATCCGATGCAGGCCGATCCCTTTATCGAACCGATCAACAAGGCGATCGGCTCCGGCGTTTCGGTGACGACTTTTGCGGCGGATTCCCCGAAGTCGAAACGCACCGCCTATATCACTTCGGACAATGTTGCCGAGGCGAAATTTGCGGCGGATGAAATCGTCAAGAAACTTGGCGAAAAAGGCGAATATGCCGTTCTGGAAAATCCGGGACAGAGCAATCACGATCTGCGCGTCACCGCTCTCATCGACTATATGGGGCGCACCTATCCGCAGATGAAGCTGGTCGGTCGCCAGGCGACCAATCAGGATTCGAACCTTGCCTACCAGGCCGTTGGCGCATTGTTGCAGGCCAATCCCAATCTGGGTGCCCTGTGGATTCCCGAAGCCGGTTCGGCCGAAGGCGCGACAGCTGCGGTCCTTGAGGCGAAGAAGAAGGTCCTGATCCTGCATGCGGATATCACCCCGGCCACGCTGGAGCATATCAAGCAGGGCAATATCTACATGTCCATCAACCCCAATCAGGGTGTGCAGGGCTTCATGGGTTTCATGAACACGTTTCTGGGCGCCCATTCGGACCTGATCGACCCGTTCAACGACTACAAGGTTTCCGGCTTCAACCCGATGCAGGTTCCTTCGATGGACAATGGTTTCGCTGTCATCACCAAGGCGAATGCCGCTTCCTTCGATCTCAACGACTATATGAAGGGGCGCTGA	MLAFLKSTATTGVLAVAIAAGAGSQATAAPGKFACEPGETYVMNVMVSSHPYWVPVFEGFKQAAKALGCEAVFTGTPEYDITKQIASFEQELVKKPKGILLHPMQADPFIEPINKAIGSGVSVTTFAADSPKSKRTAYITSDNVAEAKFAADEIVKKLGEKGEYAVLENPGQSNHDLRVTALIDYMGRTYPQMKLVGRQATNQDSNLAYQAVGALLQANPNLGALWIPEAGSAEGATAAVLEAKKKVLILHADITPATLEHIKQGNIYMSINPNQGVQGFMGFMNTFLGAHSDLIDPFNDYKVSGFNPMQVPSMDNGFAVITKANAASFDLNDYMKGR	PGPT0015740_2479	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0015740-rbsB-K10439	NA	NA
BMS010_00939	372			hypothetical protein	ATGAATGGATTGATTATCGCCATATCAAACGCGCCCTTTCCAGATCGACTAGGTCGTCGCCAACTGAATGAAGCGAATGGCATCACCGACAGTGGAAAGACTGTCTGCGGCAGCATCGGGAATTTCTATGCCAAATTCCTCTTCGATCTCCATGACGATCTGAACGACCTCAAGCGAATCCGCATTCAGATCTTCGGAAAAATCAGCTGTATCGACGATTTTATCATCAGCTATTCCGAGCTGCTCGCCGATGATTTTTGCAACCCGGTTTCTTATCTCGGATACTGCGGTGTCTGTTGGGACCGGAAAACTCACCATCTCGATTCCGACGTCCTGTTCTCCCTGCCGATGTCATCCGACATCCATCGATAG	MNGLIIAISNAPFPDRLGRRQLNEANGITDSGKTVCGSIGNFYAKFLFDLHDDLNDLKRIRIQIFGKISCIDDFIISYSELLADDFCNPVSYLGYCGVCWDRKTHHLDSDVLFSLPMSSDIHR				NA	NA	NA	NA	NA
BMS010_00940	171			hypothetical protein	ATGTTTCATCTGGCCCTAAGCGAAATATCCCGGAAAGACTGTTTAATGGTGACGGGCCGCGCGGAAGCTGGAGTGAATGAAAGCCTGACCCATATGGCACCCGTTACCCTTAGATCCGTAAAGAAAAGCTACGGCGCATTCGCCACCATCGACTGTTTACGTCACGCATGA	MFHLALSEISRKDCLMVTGRAEAGVNESLTHMAPVTLRSVKKSYGAFATIDCLRHA				NA	NA	NA	NA	NA
BMS010_00941	453	msmX_2	COG3839	Oligosaccharides import ATP-binding protein MsmX	ATGGCCGTGGCCGACAAGATCGTGGTGATGAATGCCGGACGGGTCGAGCAATGCGGAGCGCCGCTCGAGCTTTATGACCAGCCCGCCAATCCCTTCGTCGCCGGTTTCATCGGTTCCCCGGCAATGAATTTCATCAATGGGCGATTGACCGCCGATGGTTTCGAGGCTGACGGCGTCGTCCTGCCCCTCCCGCCCAGCCATGCCACAGGCGAAGCGATCTACGGCATCCGCCCGGAACATTTCGAACTGGTCAACCATGGCCTCGCCGCAACCGTTTTATTGGTGGAGCCGATGGGGTCGGAAACGCAGGTCACAATGATGATCGGCGATCACCAGGTCATCGGTGTCTTCCGCGAGCGCGTACAAGCGCAGCCGGGCGCGACCATCCAGGTTCAGCCGGATCTGGCATCGATCCACCTGTTTGATGCCAGAACCAGTCAACGCCTCAACTAG	MAVADKIVVMNAGRVEQCGAPLELYDQPANPFVAGFIGSPAMNFINGRLTADGFEADGVVLPLPPSHATGEAIYGIRPEHFELVNHGLAATVLLVEPMGSETQVTMMIGDHQVIGVFRERVQAQPGATIQVQPDLASIHLFDARTSQRLN	PGPT0016310_6191	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0016310-msmX|msmK|malK|sugC|ggtA|msiK-K10112	NA	NA
BMS010_00942	1611	yejF_1	COG4172	putative ABC transporter ATP-binding protein YejF	ATGAATACGACATCTGAAACCATTCTGACCGTCCGTAATCTCAAGGTCGATTTCACGACGCCGGACGGCACGGTGAAAGCCGTCAAGGGCATCGATCTTGACGTCAAGCAGGGTGAAACGCTTGCCGTTGTCGGAGAATCCGGTTCCGGCAAAAGCCAGACCATGATGGCCATCATGGGCTTGCTGGCATCTAACGGCGTTATTGAAGGCTCGGCAAAATATCGCGGACGCGAGCTGATCGGTCTGCCGGTCGGCGAGCTGAACGATATTCGAGGTGCGAAAATCACTATGATTTTCCAGGAGCCGATGACCTCGCTCGATCCTCTTTACCGGATCGGCGCGCAAATCGCCGAACCTATCCTGCACCACAGGGGCGGCAGTAAAAAAGAGGCGCGCGCCCGCGTTCTCGAACTGCTGAAGCTCGTGGGAATTCCCGAGCCGGAGCGGCGCATAGACAGCTATCCCCACGAACTTTCCGGTGGCCAGCGCCAGCGCGTCATGATCGCCATGGCTCTCGCGAATGAACCGGATATTCTGATTGCGGATGAGCCGACCACTGCGCTGGACGTGACGATCCAGGCGCAAATCCTCGACCTCCTGAAGTCGTTGCAACAACGCTTCGGCATGGCCATCGTCCTGATCACGCATGATCTTGGCGTGGTCCGCCATTTTGCCAATCGTGTGGCTGTCATGCGCCGTGGTGAGATTGTCGAGTCCGGTACGACGGAAGATATCTTCCATCGCCCGCAGGCGGATTACACCAGGATGCTTCTCGATGCCGAACCCAGCGGACACAAGCCGGCAATTAGTACAGAGGCGCCGGTCGTGCTCTCCAGTCAGGGCGTGACGATCGACTATACAATTCCTGGTGGCTTCTTGTCGAAGTCTCGCAGGTTTCGAGCCGTCGACGGCGTCAATGTCAACCTTCACCAGGGACAGACCATAGGCATCGTCGGTGAATCCGGATCAGGCAAGTCCACGCTCGGTCGTGCGCTTCTGCGTCTAATTGTGGCAGATGGCCGTATTTTCTTCGATGGAAGGGAAATTACCGGACTTGATCGGAAGGCAATGCGGCCATTGCGGCGGCGTCTGCAGCTTGTGTTCCAGGACCCCTATGGCTCGCTTTCGCCAAGACAGACGGTCGGAGAGATCATCACGGAAGGCCTGTTTGTGCATGAGCAACGGCTGAGCCGAGCGGAACGGGACAAGCGGGCAATAGAAGCACTGAAAGAAGTCGGCCTCGATCCCGCCGCTCGCAACCGTTACCCTCACGAGTTTTCAGGCGGACAACGTCAGCGTATCGCAATCGCCCGCGCGATCATCCTCAAACCGGATGTCGTCATTCTCGACGAACCGACATCCGCACTGGACCGATCCGTTCAGGGACAAGTTATCGATCTGCTGCGTGATTTGCAGAAGACGCATGGCCTTTCTTACATCTTCATCAGCCACGACCTTTCTGTCATCAAGGCGATTTCGGATTACGTCATCGTCATGAGAAACGGGAAGATTGTGGAGGAAGGAGAAACGGATGTGATATTCAACAATCCGACGGCTGAATATACCGAAACACTCATCAAATCTGCTTTTTCAGTGGAGGCGGCACCATAG	MNTTSETILTVRNLKVDFTTPDGTVKAVKGIDLDVKQGETLAVVGESGSGKSQTMMAIMGLLASNGVIEGSAKYRGRELIGLPVGELNDIRGAKITMIFQEPMTSLDPLYRIGAQIAEPILHHRGGSKKEARARVLELLKLVGIPEPERRIDSYPHELSGGQRQRVMIAMALANEPDILIADEPTTALDVTIQAQILDLLKSLQQRFGMAIVLITHDLGVVRHFANRVAVMRRGEIVESGTTEDIFHRPQADYTRMLLDAEPSGHKPAISTEAPVVLSSQGVTIDYTIPGGFLSKSRRFRAVDGVNVNLHQGQTIGIVGESGSGKSTLGRALLRLIVADGRIFFDGREITGLDRKAMRPLRRRLQLVFQDPYGSLSPRQTVGEIITEGLFVHEQRLSRAERDKRAIEALKEVGLDPAARNRYPHEFSGGQRQRIAIARAIILKPDVVILDEPTSALDRSVQGQVIDLLRDLQKTHGLSYIFISHDLSVIKAISDYVIVMRNGKIVEEGETDVIFNNPTAEYTETLIKSAFSVEAAP	PGPT0021030_167	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021030-oppD-K15583	NA	NA
BMS010_00943	1131			hypothetical protein	ATGACTGATATCCCCGGCAATATTGCCCCTCAACCATTGGTAAAAAGCCGAAGCCTGTTCCAGCTGGCAGCCCTGCGTTTCAAACGAAACAAGGCCGCCATGGCAGGTTCCGTCATGCTGCTGCTGATCACGCTTTTCTCGTTCATCGGCCCGCATTTCCTCACGCACACCTACGATCAGGTGTTTTCGTCCTATGTCTCCGTCCCGCCGAGCCTTGAGCCACGCCCGGATGTGAACAACCTGCAAGACGTGATGGAGGGCGTTGCCAGCCGGGCGCGCGTCGAGCTGAAGGAATTCTCCGTCGAAGGGCAGACCTTCACGGCAACCGTCACCTCCAGCAGCACGATTGACCCGCGCACCACACGCTATTTCGACCGCGCCAACGAATTCGAAAATACGAAGGTCATCGCCACAGAAGATGAGGGGCGAACGCTGAAACTGGAAGGCGACGTCAACCGCGAATACTTCTTCTTCGGCACGGATTCCAACGGTCGCGACATGCTGGCGCGCGTGATGCTGGGTGGGCAAATCTCGATCGCCGTCGGCGTTCTCGCCAGCCTCGTTTCGCTCGGAATCGGCGTTCTTTACGGCGCAACCGCGGGATATATCGGTGGGCGTGTCGACAATGTGATGATGCGTTTCGTCGAAATTCTCTATTCGCTGCCCTTCGTCTTTCTGGTGGTCGTGCTGGTGGTGTTTTTCGGCCGCAGCTTCATCCTGATCTTCCTGGTCATCGGTGCGGTGGAATGGCTGGACATGGCGCGTATCGTCCGCGGTCAGACGCTTGCCCTGAAACGGCGGGAATTTGTGGGCGCCGCACAGGCCTTGGGTTTGAGCGACTGGCAGATCATCCGCCGTCACATCATCCCGAATACGATCGGGCCCGTCGTCGTGTTCGTCACGGTCGTCGTGCCCAAGGTCATTCTTCTGGAAAGCTTCCTCTCCTTCCTCGGTCTTGGCGTGCAGGCGCCGCTGACGAGCTGGGGTGCGCTGATTTCCGAAGGTGCCAACAATATCCAATCAGCCCCCTGGCTACTGATATTTCCGGCGATCTTCTTCGTACTGACCCTGTTTTCGCTGAATTTCGTGGGTGACGGGTTGCGTGATGCACTCGATCCCAAGGATCGTTGA	MTDIPGNIAPQPLVKSRSLFQLAALRFKRNKAAMAGSVMLLLITLFSFIGPHFLTHTYDQVFSSYVSVPPSLEPRPDVNNLQDVMEGVASRARVELKEFSVEGQTFTATVTSSSTIDPRTTRYFDRANEFENTKVIATEDEGRTLKLEGDVNREYFFFGTDSNGRDMLARVMLGGQISIAVGVLASLVSLGIGVLYGATAGYIGGRVDNVMMRFVEILYSLPFVFLVVVLVVFFGRSFILIFLVIGAVEWLDMARIVRGQTLALKRREFVGAAQALGLSDWQIIRRHIIPNTIGPVVVFVTVVVPKVILLESFLSFLGLGVQAPLTSWGALISEGANNIQSAPWLLIFPAIFFVLTLFSLNFVGDGLRDALDPKDR	PGPT0021025_210	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021025-oppC-K15582	NA	NA
BMS010_00944	924	oppB	COG0601	Oligopeptide transport system permease protein OppB	ATGATCTCGTTTATCCTGCGCCGTTTGGCGAGTGCGGTGCCGACGTTGTTTATCGTCGTCACGATTTCGTTTTTCCTGATGCGTTTCGCACCGGGCGGTCCGTTCAATCTTGAACGTCCCCTGCCGCCGCAGACGATGGAAAACCTGATGAGAACCTATCATCTGGATGAACCATTGTGGCGCCAGTATCTCATCTATCTCGGCAATGCCGTCACCGGCGATTTCGGTCCGAGCTACGTCTACAAGGACAATACCGTCGCGCAGTTGATCGGCAAGGGTCTGCCCTATTCGCTGGAACTCGGCAGCTATGCTCTTTTGCTTGCGCTGGTCGGCGGCGTTCTTGCTGGTACCCTGGCCGCGCTCAGGCAGAATAGTGCCTTCGATTTCTCGATCATGTCGATTTCGACGGTTGGCGTTACCGTGCCGAACTTCGTTGTCGCACCCGTTCTCACGCTTGTCTTTGCCGTCATACTCGGGCTTCTGCCCGCCGGCAGCTGGGGCGACGGATCGCTGCGATATCTCATCCTTCCGATGATCGCGCTCGCTTTGCCGCAGCTTGCGGTCATCGCGCGCCTGACACGCGGCGCGATGATTGAGGCTTTGCGAATGGACCACATCCGCACCGCCAAGGCGTACGGCCTTCCGGCGCGCAACGTGGTGGTATTCCACGCCATGCGCGCGGCGATGCTTCCGGTCGTTTCCTATCTGGCTCCGTGCGCCGCAGCACTATTGACGGGTTCGGCCGTCATCGAGACGATCTTCACTATTCCGGGTGTCGGCCGCTACTTCGTTCTTGGCGCGATCAATCGTGACTATACCTTGGTGATGGGAACCGTCGTTCTCGTCGCCATTTTTGTCATCCTGTTCAATCTCGTGGTCGATATTCTCTACGGCCTGCTGGATCCGAGGGTCAGACATGACTGA	MISFILRRLASAVPTLFIVVTISFFLMRFAPGGPFNLERPLPPQTMENLMRTYHLDEPLWRQYLIYLGNAVTGDFGPSYVYKDNTVAQLIGKGLPYSLELGSYALLLALVGGVLAGTLAALRQNSAFDFSIMSISTVGVTVPNFVVAPVLTLVFAVILGLLPAGSWGDGSLRYLILPMIALALPQLAVIARLTRGAMIEALRMDHIRTAKAYGLPARNVVVFHAMRAAMLPVVSYLAPCAAALLTGSAVIETIFTIPGVGRYFVLGAINRDYTLVMGTVVLVAIFVILFNLVVDILYGLLDPRVRHD	PGPT0021020_1534	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021020-oppB-K15581	NA	NA
BMS010_00945	1596	oppA	COG4166	Periplasmic oligopeptide-binding protein	ATGTCCATAAAAACAACAACTCGCGCCACTCTGCTGGTAGGATCGCTTCTGATTGGGGCGAGTTCTGCACTTGCAGAAACAGTTCTACACCGCGGCAATGCCGGGGAACCGCAGACGCTGGATCAGGCACAGACCTCCATCAACATCGAAGCCTTTATCCTGAAAGACCTTTATGAAGGTCTCACCATTTACGATGCCGCCGGCAAGATCGTTCCCGGTACGGCGGAAAGCTGGACACTGTCTGAGGATGGTACCGTCTACACGTTCAAACTGCGTGCAGATGCGAAGTGGTCGGATGGCACGCCGGTAACGGCCGGAGATTTTGTGTTCTCCTACCAGCGCGTCGAAGATCCAAAGACTGCAGCAAAATATGCAAATATTCTTTACCCGATCAAGAACGCCGAAAAGATCAACAAGGGCGATGTTCCGGTTGACCAGCTTGGCGTCAAGGCGGTGGATGACAAGACGCTGGAGATCACACTCGAGCGCCCGACACCTTTCTTCCTTGAACTCCTTTCTCATCAGGCGGCTCTGCCAATCTCCAAGGCAAGCTACGAAAAGAATGGCACCGACTTCGTAAAGCCCGGCGTCATGGTCTCGAACGGCGCCTATAAACTCGAAGCGCATGTTCCCAATGACAGCTTGACGGTCGTCAAGAACACCAGTTTCTGGGATGCATCCAACACCAAGATCGACAAGGTCATCTTCTACCCGATCGACGATCAGGCCGCATCCGTTCGTCGTTTCGAAGCAAAGGAAATGGACCTCGCCTACAACTTTTCCGCGGATCAGATCGACCGTCTGCGCAAGGCCTATGGCGAACAGGTTCACGTTTCGCCGACGCTTGCCACCTATTACTACACCTTCGATACCCGCGAAGCGCCGTATAATGACGTCCGTGTCCGCCAGGCGCTCTCCATGGCAGTGGACCGCGATTTCCTCGCCAAGGAAATCTATAGCGGTTCTCAGATTCCGGCCTATTCCATGGTTCCTCCGGGCATGGATTCTTACAAAGAGCCGGCAAAGGCCGACTTTGCCACGCTGTCTCAGCTTGATCGTGAAGACGAAGCCCTCAAGCTCATGAAGGACGCTGGTTACGGTGAGGGCGGCAAGCCGCTTTCCATCGAAATCCGTTACAACACCAACCCGAACCATGAACGCGTCGCGACGGCTATCGCTGATATGTGGAAGAACACTTTCGGCGCGAAGGTGTCGCTGGTGAACCTCGACGTCGCCTCGCACTATGGTTACCTTCAGGAAGGCGGCAAATTCAACGTGGCGCGTGCCGGTTGGGTTGCCGACTATGCGGATGCCGAAAACTTCCTCGCGCTTTCGGTATCTTCCAACAAGACCTTTAACTATTCCAAGTTCAACAACGCCGAATATGACGCGCTGATGCAGAAGTCCTACGACGAGAAGGATCCTGCCGCTCGCTCCAAGCTCCTGCATGAGGCAGAAACCATCCTCATGAAGGAACAGCCGGTTGTTCCGCTTCTGACGCAGGCCGATCTCTGGCTGGTTTCCAACCGCGTCAAGGGTTGGGTCGACAACGCTGCCAACGCACACCTCAGCCGCTTCCTGAGCGTTTCCGAATAA	MSIKTTTRATLLVGSLLIGASSALAETVLHRGNAGEPQTLDQAQTSINIEAFILKDLYEGLTIYDAAGKIVPGTAESWTLSEDGTVYTFKLRADAKWSDGTPVTAGDFVFSYQRVEDPKTAAKYANILYPIKNAEKINKGDVPVDQLGVKAVDDKTLEITLERPTPFFLELLSHQAALPISKASYEKNGTDFVKPGVMVSNGAYKLEAHVPNDSLTVVKNTSFWDASNTKIDKVIFYPIDDQAASVRRFEAKEMDLAYNFSADQIDRLRKAYGEQVHVSPTLATYYYTFDTREAPYNDVRVRQALSMAVDRDFLAKEIYSGSQIPAYSMVPPGMDSYKEPAKADFATLSQLDREDEALKLMKDAGYGEGGKPLSIEIRYNTNPNHERVATAIADMWKNTFGAKVSLVNLDVASHYGYLQEGGKFNVARAGWVADYADAENFLALSVSSNKTFNYSKFNNAEYDALMQKSYDEKDPAARSKLLHEAETILMKEQPVVPLLTQADLWLVSNRVKGWVDNAANAHLSRFLSVSE	PGPT0021015_4701	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021015-oppA|mppA-K15580	NA	NA
BMS010_00947	366	cpdR_2		Response regulator receiver protein CpdR	ATGATGAATCAGAAAATTCTTCTCGCTGAAGACGACAACGATATGCGCCGCTTCCTCGTCAAGGCGCTGGAAAAAGCCGGTTACAAGGTTTCTTCCTTCGACAATGGCGCCAGCGCCTATGACCGGCTTCGCGAAGAGCCCTTTTCGCTTCTGCTGACCGATATCGTCATGCCCGAAATGGACGGCATCGAGCTTGCGCGGCGCGCGACCGAACTCGACCCGGACCTGAAAGTCATGTTCATTACCGGCTTTGCAGCCGTTGCGCTGAATGCCGATTCGAAGGCTCCGAAGGACGCCAAGGTGCTTTCCAAGCCGTTCCATCTGCGCGATCTGGTGGATGAGGTCAACAAACTCCTTGTGGCGTAA	MMNQKILLAEDDNDMRRFLVKALEKAGYKVSSFDNGASAYDRLREEPFSLLLTDIVMPEMDGIELARRATELDPDLKVMFITGFAAVALNADSKAPKDAKVLSKPFHLRDLVDEVNKLLVA				NA	NA	NA	NA	NA
BMS010_00948	885			hypothetical protein	ATGGACTGGATAACGGGTGAATATGAGCTGTTTGAAGTAACGGAACCTGCCGTTCAAACCCTGCCATTCGTCTATAATTCCCCCCATAGCGGCCGCTGCTACCCCATCTCCTTCCTGGAATCGGCAAGGCTCGATTCGCATGAGATCCGCCGCTCCGAAGATCATTTCGTCGATGAGCTGTTCGCGGCGGCACCGGAGATCGGCGCGCCGCTTCTCAAAGCGAATTTCCCGCGCGCCTATCTGGACGTCAATCGCGAGCCCTACGAGCTCGATCCCCGCATGTTCGAAGGCACGCTTCCGCCTTATGCCAATATCGGCTCCATGCGGGTCGCCGGCGGTCTTGGAACGGTGCCACGCATCGTCGCCGAGAATATGGATATCTATGCCCACCGCCTGCCGGTCGACGAGGCGCTTTCGCGGATCGAGACGATCTACAAGCCCTATCATGCCTGCCTGCGCCGCCTGCTGTCTCGCACCCACGCCAATTTCGGAATGGCGGTACTGATCGACTGCCATTCCATGCCGGGCAATATCCGCGTTGCCGGCTCGAATCTGAGGCCGGATGTAATCATCGGCGATCGCTACGGCACCAGCGCATCCCAGGAAGTCTCCCGCGCCGCGCTGCATTTTCTTGAAGAACTGGGTTTCGTCGCGGTGTGCAACAAACCCTATGCCGGCGGCTTCATCACCGAACATTATGGCCGGCCCATCCGCTCTCTCCATGCGCTGCAGATCGAGGTCAACCGGGCGCTTTACGTGGATGAAAAGACGCTTTTGAAAAAAGCCGATTTTCCCGCCATTCAGGCGTCGCTTGAAATCTTCATGCGCCAGCTCGGCGCCTTCGTTTCCGAATACGCGATAGAAACGTCGCTCGCCGCTGAATAG	MDWITGEYELFEVTEPAVQTLPFVYNSPHSGRCYPISFLESARLDSHEIRRSEDHFVDELFAAAPEIGAPLLKANFPRAYLDVNREPYELDPRMFEGTLPPYANIGSMRVAGGLGTVPRIVAENMDIYAHRLPVDEALSRIETIYKPYHACLRRLLSRTHANFGMAVLIDCHSMPGNIRVAGSNLRPDVIIGDRYGTSASQEVSRAALHFLEELGFVAVCNKPYAGGFITEHYGRPIRSLHALQIEVNRALYVDEKTLLKKADFPAIQASLEIFMRQLGAFVSEYAIETSLAAE				NA	NA	NA	NA	NA
BMS010_00950	777	hisN	COG0483	Histidinol-phosphatase	ATGCTGCCCGACCGGGATTTCTTCTTCAAACTTGCCGATGCCGCCAGCGCTGAAACGCTTCCCCGCTTCCGCACGGGCATTGCCGTCGCCAACAAAGAGGATGGCGGCTACGATCCGGTGACGGAAGGCGATCAGGCCGCAGAAACAGCCATTCGCGCCCTGATCGAGGCCCGGTTTCCACATCATGGCATTCTGGGCGAAGAACACGGCAATATCGGTCTCGACCGCGAGCATATCTGGGTCATCGACCCGATCGATGGCACCCGCGCCTTCATTTCCGGCGTGCCGGTCTGGGGCACGCTGATCGGCTTCCAGTCAGCCGGCCGCGCCTCCATGGGCATCATGGACCAGCCTTTCACGAAAGAGCGCTATTTCGCCGATGGCGAGACAGCCTGGTATTTCGGGCCCGACGGCGAAAAGAAAATCCGGACGCGTGATTGCGCGTCTTTGTCGGATGCGGTGCTGTTCACCACTACCCCGCATATCTTCACTGCGGAAGAAAAGCCCTTCTATGAAAAGGTACAGGATCAGGTCCGCCTTTTCCGCTACGGCGTGGATTGTTACGCCTATTGCCTGCTTGCAGCCGGCCACGTCGATCTGGTGATCGAATCCGGCCTGAAGCCCTATGATGTCGGCGCGCTGATCCCTGTCATCGAACAGGCCGGCGGCATCATGACGACCTGGGATGGCGGACGTCCGGAAAATGGCGGCCGCATTCTCGCCGCCGGCTCAAAGGCGGTGCACGAACAGGCGCTCGCCATTCTCTCAAAACTCTGA	MLPDRDFFFKLADAASAETLPRFRTGIAVANKEDGGYDPVTEGDQAAETAIRALIEARFPHHGILGEEHGNIGLDREHIWVIDPIDGTRAFISGVPVWGTLIGFQSAGRASMGIMDQPFTKERYFADGETAWYFGPDGEKKIRTRDCASLSDAVLFTTTPHIFTAEEKPFYEKVQDQVRLFRYGVDCYAYCLLAAGHVDLVIESGLKPYDVGALIPVIEQAGGIMTTWDGGRPENGGRILAAGSKAVHEQALAILSKL	PGPT0018535_3679	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018535-suhB-K01092	NA	NA
BMS010_00951	942	pldB	COG2267	Lysophospholipase L2	ATGATCGAAGCCACATTGCGCGCCAGCGAAGACAACCCGGTTCCCGGCAACCATACCGTCGGTTATTTTACCGGCGATCGCGGCAAACAGCTTCGCTACGCGATCTTTCGCGCCAGCCGCCAGGTGGCCCGTGGAACCGTGGTTCTGCTGCATGGCAGGAACGAATGTATCGAGAAATATTTCGAAACGGTTAGCGATCTCACCGCCATGGGTTTCTGGGTTGCGACCTTCGATACGCGCGGGCAGGGCGGTTCCGAAAGATTGCTGAAAAAACCGGGTGCCGGGCATGTACGGCGGTTCTCCGACTATCAGCGTGATATCGGCCTTTTTCTCGAACAGGTGGTGTTGCCGGATACGCGGCTGCCATTCTTCATGATCGCGCACTCCACCGGCGCGCTTGCAGCGCTTGCCGCCGCACCCGGCCTGTCGAACCGGATCGACCGTCTGGCGCTTTGTTCGCCTTTCATCGAGCTGGACAGCCAGCAATCCGTCCCCTCATCCGTCATTCGGGCGGTGGCGACGGCTCTAAGTCTCGTTGGCCTTGGGCGGGTGCAGCTCGGCAAGGATCAGCGCGAGCGGGATTTCGACGGTAATCCGCTCACCTCGGACCCCAGACGTTTTAAAAGAAATCTCTCGCTGCACAGGCAGTTTCCGGAACTTTTCATCGGTGCGCCGACGGCGCGCTGGGTGTATGAGGCGCTGAAGACCATGGGACGGGTGGTCCGTCAGGACCATCTGACGAATATCACCATTCCTACCCTTGTTCTGGCGCCGATGCTGGATACCATCACGCCCTATAAGGCGCAGGAGGAACTCTCACGCAATTTCCGGGCAGCGCAGCTTCTTCCTATCACCGGTGCGCGCCACGAACTGCTGCATGAGCGTGACGTTTTCCGCAAACAGGCGCTGGCGGCCATCGACGCGTTTTTCGCGCCGGAATGA	MIEATLRASEDNPVPGNHTVGYFTGDRGKQLRYAIFRASRQVARGTVVLLHGRNECIEKYFETVSDLTAMGFWVATFDTRGQGGSERLLKKPGAGHVRRFSDYQRDIGLFLEQVVLPDTRLPFFMIAHSTGALAALAAAPGLSNRIDRLALCSPFIELDSQQSVPSSVIRAVATALSLVGLGRVQLGKDQRERDFDGNPLTSDPRRFKRNLSLHRQFPELFIGAPTARWVYEALKTMGRVVRQDHLTNITIPTLVLAPMLDTITPYKAQEELSRNFRAAQLLPITGARHELLHERDVFRKQALAAIDAFFAPE	PGPT0023520_953	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_LYSOPHOSPHOLIPASE_ACTIVITY,PGPT0023520-pldB-K01048	NA	NA
BMS010_00952	483	ibpA_1	COG0071	Small heat shock protein IbpA	ATGCGTCACGTTGATTTTTCCCCCCTCTATCGTTCCACCGTCGGCTTCGACCGTCTTTTTTCGATGCTTGACGGCCTCGGCCAGCCCGAACAGGCCCAGTCCTATCCGCCCTACAATATCGAGCGGACCGGCGAAAACACCTATCGCATCACCATGGCCGTTGCCGGTTTCGATGAAACTGAACTCAGCATCGAATCCCGTGCGAATACGCTGACGGTGAAGGCCGAGAAGGCCGCAGATGAGAAATCATCCGAAGGTGAGTTCCTGTATCGCGGCATTGCCACCCGCGCTTTCGAGCGCCGCTTCCAGCTTGCCGACCATGTCGAGGTCCAGACCGCTTCCCTGAAGAACGGCCTGCTCCACATCGATCTCGTCCGCAATATTCCCGAAGCCATGAAACCGCGCCGCATTGCGATCTCGTCCGACAGCGCCGATGCGCCGAAGACCATCGAAGCCCAGATTTCGCCGGCTCAGGTCAACTAA	MRHVDFSPLYRSTVGFDRLFSMLDGLGQPEQAQSYPPYNIERTGENTYRITMAVAGFDETELSIESRANTLTVKAEKAADEKSSEGEFLYRGIATRAFERRFQLADHVEVQTASLKNGLLHIDLVRNIPEAMKPRRIAISSDSADAPKTIEAQISPAQVN	PGPT0014641_240	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014641-ibpA-K04080	NA	NA
BMS010_00953	1020			hypothetical protein	ATGACCCGCTTCCTACCTGATCGCTTCACCATGATGCTGGTGGCCACCGTGATTTTGGCCTCCATTTTGCCGATCAGCGGTGAGCCGGCAGAGTATTTCGGGCTGGCGACAAAACTCGCGATCGCTTTGTTGTTCTTCCTCCACGGCGCGCGGCTTTCCCGGGATGTGGTGATTGCCGGTATCCTGCACTGGCGCCTGCATCTGGCGATCCTTCTCGTGACCTTCGGCCTGTTCCCGCTGCTTGGTGTGGCAATCGGCTTCATTCCCGAGAATATTCTGCCTGCGCCGCTTTATATGGGCGTGTTGTTCCTCTGCGTCCTGCCATCCACCGTGCAGTCTTCCATTGCCTTCACCTCCATGGCGGGCGGAAACGTGCCGGCTGCGATCTGTTCGGCCTCCGCTTCGAATATTTTCGGCATGTTCCTGACCCCGCTGCTGGTCGGCCTTCTGTTTACGGTGGGGGGCCATGGCGGTGGATTTTCGCTGGATGCGTTCCTGCAGATCTTCCTGCAGCTGCTTTTGCCCTTCATCGTCGGTCAGGTGCTGCAGCCGTGGATCGGCGACTGGATCAGGGCGCGCAAGAAACTGCTGGCTCCGGTCGATCGCGGCTCCATCCTGATGGTCGTTTATCTGGCTTTTTCCGATGCGGTCATCGAAGGCATCTGGCACACGTTTTCGCTCAGGGATATCGGTGTGGTCATCGTCATCAATATCCTGCTGCTGGCGCTTGTCCTGTGTGTGACGATGTTCGGCAGCCGTTTGCTGGGTTTCAAGAAGGCCGATGAAATCACCATCACCTTCTGCGGCTCGAAAAAGAGCCTCGCCAGTGGCGTGCCCATGGCGGGCGCGATTTTCGCCGGCCAAAGCATTGGTGCAATCGTCCTGCCGATCATGCTTTTCCACCAGATCCAGCTGATGGTCTGCGCGGTGCTGGCCCAACGTTATGCCAGAAAGGCCCATGAAAAAGCGGCCATATCGGAAGCCGCTGCCGCAGAAGGTGCGGTAGTCTCCACCCGCTGA	MTRFLPDRFTMMLVATVILASILPISGEPAEYFGLATKLAIALLFFLHGARLSRDVVIAGILHWRLHLAILLVTFGLFPLLGVAIGFIPENILPAPLYMGVLFLCVLPSTVQSSIAFTSMAGGNVPAAICSASASNIFGMFLTPLLVGLLFTVGGHGGGFSLDAFLQIFLQLLLPFIVGQVLQPWIGDWIRARKKLLAPVDRGSILMVVYLAFSDAVIEGIWHTFSLRDIGVVIVINILLLALVLCVTMFGSRLLGFKKADEITITFCGSKKSLASGVPMAGAIFAGQSIGAIVLPIMLFHQIQLMVCAVLAQRYARKAHEKAAISEAAAAEGAVVSTR				NA	NA	NA	NA	NA
BMS010_00954	828	yofA_1	COG0583	HTH-type transcriptional regulator YofA	ATGCTTCAGCAGACCGGCAGCTTCACGCTGGCGGCCGAACGGCTGGGGATTGGCCAGTCCACTGTCAGCCAGCATATTCAAAGGCTTGAGGCCACACTTGGCCGCCGGCTGATTGCCCGCAGCACCCATCAGGTGAAACTGACGGGTGAAGGTGAGGCGCTGCTGGGTTATGCCCGCAACATGCTGGAAATCGACAGCAAGGTGTCATCGCTATTCAGCGAGAACCGTCTGCGCGGACGGCTGAGGCTTGGCGTTTCGGAAGATTTCGTCGCCAGCCGGCTGACCGCCATTCTGGAAGAGTTCATCCGGCTTTATCCCCTCGTCGATCTGGAACTGACGGTTTCGCTGAGCGGCGTGCTTTACCAGATGCAGGACAATGGCGAACTGGATGTGGTGCTCGCCAAACGCCGTCTCGGCGACAAGCTCGGTCACTTTCTCTACCGCGAACCGCTCGTATGGCTGGCGCGCGACCCGGAGCGGATGCTGAACCAACCGGATGCCCTGCCGCTGATTGCCTTTCCGCCGCCGAGCATCACCCGAAAGGCGGCGCAGGAGGCGCTCGACCGGGCCGGTCTCGCCTGGCGGATCGTCTGTACCTGCGGCAGTCTCAGCGGGCTGACCGCCGCAGCAAGGGCGGGCATGGGCATTCTGGTGCAGCCACGCAGCATGGCGCCGGCAGGCCTGAAGGAGATTGCCGCAGGCGTGCTACCGCCGCTGGAGGACGTGGAATTCGTGCTTCAGCCGAGCAAGGGCGCGGATGCGAAGCTGGTGCGCGCCCTTTCCGATCTCGTTTCCAGCAAGAGCATCGCACCCGGCAGTTTCGTATAG	MLQQTGSFTLAAERLGIGQSTVSQHIQRLEATLGRRLIARSTHQVKLTGEGEALLGYARNMLEIDSKVSSLFSENRLRGRLRLGVSEDFVASRLTAILEEFIRLYPLVDLELTVSLSGVLYQMQDNGELDVVLAKRRLGDKLGHFLYREPLVWLARDPERMLNQPDALPLIAFPPPSITRKAAQEALDRAGLAWRIVCTCGSLSGLTAAARAGMGILVQPRSMAPAGLKEIAAGVLPPLEDVEFVLQPSKGADAKLVRALSDLVSSKSIAPGSFV				NA	NA	NA	NA	NA
BMS010_00955	1500	glpK_1		Glycerol kinase	ATGGGCGGTTATATTCTGGCGATCGATCAGGGAACGACATCGACACGGTCGATGGTCTTTGATCGCGACATGCGGGTCATCGGTGTCGGACAGCGAGAATTTCCGCAGCATTTTCCGGCCTCCGGCTGGGTCGAACACGATGCCGAGGATATCTGGAAAAGCGTGCTCGAAACCATCCGGCTGGCGCTTGCCGATGCCGGCATCGCCGCCTCCGATATCGAGGCCATCGGCATTACCAACCAGCGCGAAACGACCGTGCTGTGGGACCGGAACACGGGCGAGGCCGTGCATCGGGCCGTGGTCTGGCAGGATCGTCGCGCTGCTCCCGTCTGCGAGGATCTGAAAAGAAGGGGGCTGGAGCCGCTTTTTTCGAAAAAGACCGGTCTGCTGCTCGATCCCTATTTTTCCGGCACGAAGCTGAAATGGCTTCTCGATAGTGTCAGCGGCCTTCGCGAAAAAGCCGTGAAGGGCGAAATCTGCTTCGGCACGGTCGATAGTTTCCTGATCTACCGTCTCACCGGCGGCCGCCGCCATGTGACCGACGCCACCAATGCCTCGCGAACGCTGATCTACAATATCGAGGAAAATGCATGGGACGATGAACTCCTGTCGATCCTCGATATCCCCCGCGCCATGCTGCCGGAGGTGCTGGATTGCGCCGCCGATTTCGGCGTGACGGATAAATCGCTTCTGGGCGCGGAAATTCCGATCCTTGGCGTCGCCGGCGACCAGCAGGCAGCGGTGATTGGCAATGCCTGCTTCGAGCCGGGCATGATGAAATCCACCTACGGCACGGGCTGCTTTGCATTGCTCAACACCGGCACGGATCGCGTCGCCTCCACCAACCGGCTGCTGACGACCATCGCTTATCGTCTCGACGGCGTCACCACCTATGCGCTGGAAGGCTCCATCTTCATTGCCGGTGCCGCCGTGCAATGGCTGCGCGATGAGCTCGGTTTCATCTCGGTCGCTTCCGAGGTCAGCGCGCTTGCGGAAAAGGCTGACGCCAATCAGCGTGTCTATCTGGTTCCGGCCTTCACCGGCCTTGGCGCACCCTATTGGGACGCGGAGGCACGTGGCGCTATTTTCGGGCTGACGCGTGGCACCGGTCCGGCGGAATTCGCCCGCGCGGCGCTGGAAAGCGTCGCCTATCAGACCTTCGACCTGCTGGACGCCATGCGCAAGGACTGGGCGGGTGACAATGGCAAGACGGTGCTCCGGGTCGATGGTGGCATGGTCGCTTCCGATTGGACCATGCAACGGCTGGCGGATATTCTTGCGGCACCCGTCGACCGGCCGGTCTTCCTGGAAACGACCATTCTCGGAGCGGCCTGGCTTGCCGCCTCACGCGCCGGCATCTGGCCGGATCGCAAGGCCTTTGCTGAACATTGGCGGCGTGACCGCCGTTTCAGCCCCGCAATGGAAGAGGCTAAACGGAAAGACGCCATTGCCGGCTGGCGCGACAGCGTCGGCCGCTGCCTGTCGCGGCGGGAGAATTGA	MGGYILAIDQGTTSTRSMVFDRDMRVIGVGQREFPQHFPASGWVEHDAEDIWKSVLETIRLALADAGIAASDIEAIGITNQRETTVLWDRNTGEAVHRAVVWQDRRAAPVCEDLKRRGLEPLFSKKTGLLLDPYFSGTKLKWLLDSVSGLREKAVKGEICFGTVDSFLIYRLTGGRRHVTDATNASRTLIYNIEENAWDDELLSILDIPRAMLPEVLDCAADFGVTDKSLLGAEIPILGVAGDQQAAVIGNACFEPGMMKSTYGTGCFALLNTGTDRVASTNRLLTTIAYRLDGVTTYALEGSIFIAGAAVQWLRDELGFISVASEVSALAEKADANQRVYLVPAFTGLGAPYWDAEARGAIFGLTRGTGPAEFARAALESVAYQTFDLLDAMRKDWAGDNGKTVLRVDGGMVASDWTMQRLADILAAPVDRPVFLETTILGAAWLAASRAGIWPDRKAFAEHWRRDRRFSPAMEEAKRKDAIAGWRDSVGRCLSRREN	PGPT0018435_3730	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018435-glpK-K00864	NA	NA
BMS010_00956	1722			hypothetical protein	ATGCGACGGCATCTGATGACGACGACGGCGGCTATGCTGCTGGCAATGACGGGTTCCGCTTTCGCCGGAATGGAGGAAGCAAAGCAGTTTCTGGACAAGGAAATCGGCGATCTTTCGTCGCTTTCGCGTGGCGATCAGGAAAAAGAGCTGCAATGGTTTGTCGATGCCGCGAAACCCTTCGCGGGCATGGAAATCAAGGTCGTTTCCGAATCTCTGACGACCCATGAATATGAATCCAAGGTTCTGGCTCCGGCCTTCACCGCCATTACCGGCATCAAGGTCACGCACGACCTGATCCAGGAAGGCGACGTCGTCGAAAAAATCCAGACCCAGATGCAGACCGGCCAGAACCTTTATGACGGCTGGGTCAACGACAGCGACCTTATCGGCACGCATTGGCGCTACCAGCAGGTGCGCAACCTGACCGACTTCATGGCCAATGAAGGCAAGGACGTCACCAATCCCGGCCTCGACCTCAAGGACTTCATCGGCAGCGCCTTTACGACGGCGCCGGACAAGAAGCTCTACCAGCTTCCCGACCAGCAGTTCGCGAACCTCTACTGGTTCCGTTACGACTGGTTCAACAACGAAAAGAACAAGGCCGATTTCAAGGCCAAATATGGTTATGACCTCGGCGTGCCGGTCAACTGGTCGGCCTATGAGGATATTGCCGAATTCTTCACCGGCCGCGATGTCGACGGCAAGAAGGTCTTCGGCCATATGGATTACGGCAAGAAGGATCCGTCGCTCGGCTGGCGCTTCACCGATGCCTGGCTCTCCATGGCCGGCAACGGCGACAAGGGCCTGCCGAACGGTTTGCCGGTCGATGAATGGGGCATCAAGGTCAACGACAAGTCACAGCCGGTCGGCTCCTGCGTGGCGCGCGGCGGCGATACCAACGGTCCGGCTTCGGTCTATTCCATCGAGAAATACCTCGAATGGCTGAAGAAATATGCGCCGCCGGAAGCGCAGGGCATGACCTTCTCCGAATCCGGTCCGGTGCCGGCGCAGGGCAACATCGCCCAGCAGATCTTCTGGTACACGGCGTTTACCGCCGATATGGCCAAGCCCGGCCTGCCTGTCGTGAACGAGGACGGTTCGCCGAAATGGCGCGTCGCACCTTCGCCGCACGGCGTCTACTGGAAGGACGGCATGAAGCTCGGTTATCAGGACGTGGGTTCGTGGACGCTGATGAAATCCACCCCCGACGACCGCGCCAAGGCCGCCTGGCTCTATGCGCAGTTCGTGACCTCCAAGACCGTGGATGTGAAGAAGAGCCATGTGGGCCTGACCTTCATTCGCGACACCACCATCCACCACAAGAGCTTCACGGACCGGGCGTCCAAACTCGGCGGTCTCATCGAGTTCTATCGTTCGCCGGCCCGCGTGCAATGGTCGCCGACCGGCACCAACGTTCCGGATTATCCGAAGCTGGCGCAGCTGTGGTGGCAGGCGATCGGCGATGCTTCGTCGGGCGCGAAAACCGCGCAAGCCGCGATGGACTCTCTCTGCGCCGAGCAGGAAAAGGTCATGAGCCGTCTGGAACGCGCTGGCGTGCAGGGCGATATCGGCCCTAAACTGGCGGAAGAGCACGATATCGAATACTGGAACAAGGATGCCGTTTCGAAGGGCAATCTGGCGCCGCAGCTGAAGATTGCCAACGAAAAGGAAAAGCCGGTCACCGTCAATTACGACGAACTGGTCAAAAGCTGGCAGAAGTGA	MRRHLMTTTAAMLLAMTGSAFAGMEEAKQFLDKEIGDLSSLSRGDQEKELQWFVDAAKPFAGMEIKVVSESLTTHEYESKVLAPAFTAITGIKVTHDLIQEGDVVEKIQTQMQTGQNLYDGWVNDSDLIGTHWRYQQVRNLTDFMANEGKDVTNPGLDLKDFIGSAFTTAPDKKLYQLPDQQFANLYWFRYDWFNNEKNKADFKAKYGYDLGVPVNWSAYEDIAEFFTGRDVDGKKVFGHMDYGKKDPSLGWRFTDAWLSMAGNGDKGLPNGLPVDEWGIKVNDKSQPVGSCVARGGDTNGPASVYSIEKYLEWLKKYAPPEAQGMTFSESGPVPAQGNIAQQIFWYTAFTADMAKPGLPVVNEDGSPKWRVAPSPHGVYWKDGMKLGYQDVGSWTLMKSTPDDRAKAAWLYAQFVTSKTVDVKKSHVGLTFIRDTTIHHKSFTDRASKLGGLIEFYRSPARVQWSPTGTNVPDYPKLAQLWWQAIGDASSGAKTAQAAMDSLCAEQEKVMSRLERAGVQGDIGPKLAEEHDIEYWNKDAVSKGNLAPQLKIANEKEKPVTVNYDELVKSWQK	PGPT0016805_434	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_GLYCEROL_TRANSPORT,PGPT0016805-glpV-K17321	NA	NA
BMS010_00957	294			hypothetical protein	ATGACGAAGATGCCCGATTTTACCTGGATGGCGTGGACTTGGCAGACGGCGGCCTTTTTCGGCGCCATCGCCCTGCTGCTCGTCGGCATGTGGTTCTGGGAATATCTCTCGCCCGGCGGCAATCCCCGCTTCGGCCTCCTGCGCTTCGAGACCACGCGCGGCGACAGGCTGTTCATCTCGCTGCTCGGCAGCGCCTTCATTCATCTCGCATGGCTCGGGCTGGTCGGCCCGAACCTGTGGTGGGCTCTCGCTCTATCCTTGGTTTACGCCATCGGCGTTTTCCGATTTGTCTAG	MTKMPDFTWMAWTWQTAAFFGAIALLLVGMWFWEYLSPGGNPRFGLLRFETTRGDRLFISLLGSAFIHLAWLGLVGPNLWWALALSLVYAIGVFRFV				NA	NA	NA	NA	NA
BMS010_00958	921	dasC_1	COG0395	Diacetylchitobiose uptake system permease protein DasC	ATGAGCGCCTCGAATGTCACGACAAGCGTGGAGCGCAACGGCATCGGCAGTTCGCCGGTGAGAGCCACTGCGACGGGACGATCCGGCCTTGCCGTCAATGCGCGGCGTCGCCACCATGGGCCGTCGCGTTTTTCCTGGCTGGTGCCGACGATCTATATCCTGCTGCTGCTGGTTCCCATCTACTGGCTCGTCAATATGAGCTTCAAGACGAACACGGAAATCGTCTCCTCCATGACGCTTTATCCGCATCAGCCGACGTTGCAGAACTACCGGACGATCTTCACGGATTCATCCTGGTATTCGGGCTATATCAATTCGATCATCTATGTCGTCATGAACATGGTGATCTCGGTCGCGGTGGCGTTGCCGGCGGCTTACGCCTTCTCGCGTTATCGCTTTCTCGGCGACAAGCACCTGTTCTTCTGGCTTTTGACCAACCGCATGGCGCCGCCCGCCGTCTTCGCGCTGCCGTTCTTTCAGCTTTATTCGGCTTTTGGCCTGATCGATACGCATATCGCCGTGGCGCTGGCGCATTGCCTGTTCAACGTGCCGCTGGCGGTGTGGATTCTCGAAGGTTTCATGTCCGGCGTGCCGAAGGAAATCGACGAGACAGCCTATATTGACGGCTACTCCTTCCCGAAATTCTTCGTGAAGATCTTCATGCCGCTCATCGCTTCCGGCATCGGTGTCGCCTGCTTCTTCAGCTTCATGTTCTCGTGGGTCGAGCTTCTGATCGCCCGCACGCTGACGACGACGGACGCCAAGCCGATTGCCGCGACCATGACGCGCACGGTCTCTGCCGCCGGCATGGACTGGGGCCTGCTTGCCGCCGCCGGCGTGCTGACACTGATCCCCGGCGCGCTGGTGATCTGGTTCGTGCGCAATTACATCGCCAAGGGCTTTGCGCTCGGGAGGGTTTGA	MSASNVTTSVERNGIGSSPVRATATGRSGLAVNARRRHHGPSRFSWLVPTIYILLLLVPIYWLVNMSFKTNTEIVSSMTLYPHQPTLQNYRTIFTDSSWYSGYINSIIYVVMNMVISVAVALPAAYAFSRYRFLGDKHLFFWLLTNRMAPPAVFALPFFQLYSAFGLIDTHIAVALAHCLFNVPLAVWILEGFMSGVPKEIDETAYIDGYSFPKFFVKIFMPLIASGIGVACFFSFMFSWVELLIARTLTTTDAKPIAATMTRTVSAAGMDWGLLAAAGVLTLIPGALVIWFVRNYIAKGFALGRV	PGPT0016810_11	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_GLYCEROL_TRANSPORT,PGPT0016810-glpQ-K17323	NA	NA
BMS010_00959	867	melD_1	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	ATGGAAAAGAGCTGGAACAACAAGGCATGGTTCATGGTGCTGCCGGTGCTGGTGCTGGTCGCCTTTTCCGCCGTCATTCCGCTGATGACCGTCGTGAATTATTCGGTGCAGGATACGTTCGGCAATAACCAGTTCTTCTGGGCTGGAACGCAATGGTTCGAGGAAATTCTGGCCTCGGACCGTTTCTGGGATGCGCTGGGGCGCAACCTGCTGTTCTCCGGCATTATCCTGGCGATTGAAATTCCGCTCGGCATCTTCATCGCGCTCAAGATGCCGAAATCCGGCATCGGCGTGCCGGTCTGCCTCGTCACCATGGCGCTGCCGCTGCTGGTGCCGTGGAATGTCGTGGGCACCATCTGGCAGGTTTTCGGCCGCAGCGATATCGGCCTGCTCGGTTATTACGCCAATCAGCTCGGGCTCGATTACAACTATGTCAATGATCCGCTCGATGCTTGGATCACCGTGGTCATCATGGATGTCTGGCACTGGACGAGCCTTGTCGTGCTTTTGTGCTATGCCAGCCTCGTCTCCATTCCGGATGCCTATTATCAGGCGGCAAGGATCGATGGGGCATCGCGTTTCGCCGTATTCCGGTTCATCCAGCTGCCGAAGATGAAGCGCGTGCTGCTCATTGCCTTCCTGCTGCGCTTCATGGACAGTTTCATGATCTATACGGAGCCTTTCGTCGTCACCGGCGGCGGCCCGGGCAATTCCACCACCTTCCTGTCCATCGATCTCGTGAAGATGGCGCTCGGCCAGTTCGACCTCGGGCCGGCGGCGGCCATGTCGCTGATCTACTTCCTCATCATCCTGCTGCTGTCCTGGGTGTTCTACACCGTCATGACCAGCCACGACGCGGAGACTTGA	MEKSWNNKAWFMVLPVLVLVAFSAVIPLMTVVNYSVQDTFGNNQFFWAGTQWFEEILASDRFWDALGRNLLFSGIILAIEIPLGIFIALKMPKSGIGVPVCLVTMALPLLVPWNVVGTIWQVFGRSDIGLLGYYANQLGLDYNYVNDPLDAWITVVIMDVWHWTSLVVLLCYASLVSIPDAYYQAARIDGASRFAVFRFIQLPKMKRVLLIAFLLRFMDSFMIYTEPFVVTGGGPGNSTTFLSIDLVKMALGQFDLGPAAAMSLIYFLIILLLSWVFYTVMTSHDAET	PGPT0016585_340	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_GLYCEROL_TRANSPORT,PGPT0016585-glpP-K17322	NA	NA
BMS010_00960	1071	ugpC_1	COG3839	sn-glycerol-3-phosphate import ATP-binding protein UgpC	ATGGCACGCATCACGCTCGATCACATCCGCCACGCCTATAACGCAAAGGCGCAGGCTGCCGGCGACTATGCGCTGAAGGAAGTCCACCATGAATGGGAGGACGGCGGCGCCTATGCGCTGCTCGGCCCTTCCGGCTGCGGCAAGACAACGCTGCTCAACATCATTTCCGGGCTGCTGCGCCCCTCCGAAGGCCGCATCGCCTTTGATGGAACCGACGTGACGGATTTCGCCACGGAAGACCGCAATATTGCGCAGGTATTCCAGTTCCCGGTCGTCTACGACACGATGACGGTCTATGACAATCTGGCCTTTCCGCTGCGCAACCGGCATGTGCCGGAGGCCGAGGTGGACCGTCGGGTGCGGGAAATCCTCGAAATGACCGATCTTTCCGGCATGGCCAAACGCCATGCGCGTGGTCTGACGGCGGATCAAAAACAGAAGATTTCGCTGGCGCGGGGGCTGGTGCGGTCCGATGTCAACGCCATCCTCTTCGACGAGCCGCTGACGGTGATCGATCCGCATATGAAATGGGTGCTGCGCTCGCAGCTGAAACGGCTGCATCGCCAGTCCGGTTTCACCATGGTCTATGTGACCCATGACCAGACCGAAGCGCTGACCTTCGCCGATAAGGTTGTGGTCATGTATGACGGGCAGATCGTCCAGATCGGCACGCCGGCTGAGCTTTTCGAACGGCCGGGACATACCTTCGTCGGTTATTTCATCGGGTCGCCCGGCATGAACGTGCTGCCCGCCAGTATCGACGGCGCGACCGCAATGGTCGGCGGCCTTGGTGTGCCGCTCGCCGGTGCGCCAAAGGTTGACGGAGCGCAACGCATCGAGATCGGCATCCGCCCGGAATTCGTCCGGCTGGAACGGGGCGGCATGCCCATAGCTGTCGACAAGGTCGAGGATATCGGCCGGCAGAAGATCGTGCGCGCCCGGTTCGCCGGCCAGAAACTCGCGATCGTCGTTGCCGAAGACGAGGAAATCCCGGCGGAAGCGGGTGTTCGCTTCGATCCGGCCGCCATTGGCGTGTTCGCCGACTCGTGGCGTGTAAAGATGGGGGCCTGA	MARITLDHIRHAYNAKAQAAGDYALKEVHHEWEDGGAYALLGPSGCGKTTLLNIISGLLRPSEGRIAFDGTDVTDFATEDRNIAQVFQFPVVYDTMTVYDNLAFPLRNRHVPEAEVDRRVREILEMTDLSGMAKRHARGLTADQKQKISLARGLVRSDVNAILFDEPLTVIDPHMKWVLRSQLKRLHRQSGFTMVYVTHDQTEALTFADKVVVMYDGQIVQIGTPAELFERPGHTFVGYFIGSPGMNVLPASIDGATAMVGGLGVPLAGAPKVDGAQRIEIGIRPEFVRLERGGMPIAVDKVEDIGRQKIVRARFAGQKLAIVVAEDEEIPAEAGVRFDPAAIGVFADSWRVKMGA	PGPT0016820_454	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_GLYCEROL_TRANSPORT,PGPT0016820-glpT-K17325	NA	NA
BMS010_00961	1071	ugpC_2	COG3839	sn-glycerol-3-phosphate import ATP-binding protein UgpC	ATGCTTGAATTGCGAAACGTCTCTAAGATGGTTGGCGGTGAATATCATATTCACCCGACCGATCTGACGTTGCAGCGCGGAAGCCTGAACGTCCTGCTTGGACCGACACTTTCGGGCAAGACGACGCTGATGCGGCTGATGGCCGGGCTGGACAAGCCGAGCGCGGGCTCGATCTTTTTCAATGGCGAAGATGTGACGGGGTGGCCGGTGCAGAAGCGCAACGTCGCCATGGTCTATCAGCAGTTCATCAACTATCCGGCGCTCAGCGTTTACGAAAACATCGCCTCGCCGATGCGCGTTGCCGGCAAGGACCAGGCGACCATCGACAGGGAAGTGAGGAAAGCCGCCGAGCTTCTGAAGCTGACGCCCTATCTCGACCGCACGCCGCTCAATCTTTCCGGCGGCCAGCAGCAGCGCACAGCACTCGCCCGCGCCATCGTCAAGAACGCCAATCTGGTGCTGCTCGATGAGCCGCTGGCCAATCTCGATTACAAGCTGCGCGAAGAGTTGCGCGAGGAACTGCCGCGCATTTTCGCCGAATCCGGCGCCATCTTCGTTTATGCCACGACCGAACCTTCCGAGGCGCTGCTTTTGGGCGGCAATACCGCAACGCTCAACGAGGGCAGGGTAACGCAGTTCAGCCGTACCATCGAGGTTTACCGGCGTCCGGTGGATATCGTCACCGCGGAAATTTTTGCAGACCCGCCGCTCAACACCATCGAGGTCATCAAGGCGGGCGGTGCATTCACCCGTGCCGACCAGGCGGTGATTGCGGTGCCGGCGCATCTTGCCGCCGTGCCGGATGGACCTTTGACCATTGCGTTCCAACCGCATCATCTTTTCCCGCAGGCGAAGGGCGAGGCCCGGCAGTCGATCCGGGCGCGGACGCTGATTTCGGAAATCGCCGGATCGGAAAGCTTCGTGCATGTGGAATTTTCGGGCCGGCGCTGGGTCATGCTCGCGCATGGCATTCACGACATCGAGCCGGACAGGGACATAGAGCTGTTTCTCGATACAAAACACCTGATGGCCTTTGACGCGAATGGCCGCGCCATCGGCGAAGCGGCTTGA	MLELRNVSKMVGGEYHIHPTDLTLQRGSLNVLLGPTLSGKTTLMRLMAGLDKPSAGSIFFNGEDVTGWPVQKRNVAMVYQQFINYPALSVYENIASPMRVAGKDQATIDREVRKAAELLKLTPYLDRTPLNLSGGQQQRTALARAIVKNANLVLLDEPLANLDYKLREELREELPRIFAESGAIFVYATTEPSEALLLGGNTATLNEGRVTQFSRTIEVYRRPVDIVTAEIFADPPLNTIEVIKAGGAFTRADQAVIAVPAHLAAVPDGPLTIAFQPHHLFPQAKGEARQSIRARTLISEIAGSESFVHVEFSGRRWVMLAHGIHDIEPDRDIELFLDTKHLMAFDANGRAIGEAA	PGPT0016815_465	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_GLYCEROL_TRANSPORT,PGPT0016815-glpS-K17324	NA	NA
BMS010_00962	1524	eryB_3	COG0578	D-erythritol 1-phosphate dehydrogenase	ATGTCTGACGAGGCAATCCACGATATTTTCGTGATCGGCGGCGGTATCAATGGCTGCGGCATCGCGCGTGACGCCGTCGGCAGGGGCTATTCCGTCGCGCTTGCGGAAATGAACGATTTCGCCTCCGGCACCTCGTCCGCCGCTACCAAGCTTATCCATGGCGGTTTGCGTTATCTCGAACATTACGAGTTTCGTCTGGTGCGCGAAGCGCTGATGGAACGTGAGGTGCTGTGGGCCATGGCGCCGCACATCATCTGGCCCATGCGCTTCGTATTGCCGTTCCAGAAAGGTGGCGTGCGCCCGGCCTGGCTCGTGCGTCTGGGGCTATTTCTGTACGACCATCTCGGCGGCCGCAAGCTTCTGCCCGCGACCCGCTCGCTCGATCTGCGCCGCGATCCCGCCGGGAAACCTTTGAAACCGATTTTTGCCCGCGCCTTCGAATATTCGGATGGCTGGGTGGATGATGCCCGCCTGGTGGTGCTGAATGCCCGCGACGCTGCCAATCGCGGCGCGCTCATCCTCAACCGCACGCAGGTGGTTTCGGCCCGACGCGAAGGCACCTTCTGGCATGTCGAAACGAAAAATGCGGCCGGAGAGGCCAAAACCTACCGGGCGCGCATGCTGGTGAATGCCGCGGGTCCCTGGGTGGACAAGGTGCTGTCCTCGGCGTTCGGCAAAAACAATGTCCATAATGTCCGCCTGGTGCAGGGCAGCCACATCATCGTGCGCAAGAAATTTTCCGATCCGCGTGCCTATTTTTTCCAGAATCCGGACGGGCGGATCATCTTCGCCATTCCCTATGAACAGGACTTTACGCTGATCGGCACCACGGATCGCGACTATACCGCCGACCCCCGGGCTGTTAAGATCAGCGACGAGGAGATCAGCTATCTTTGCAATGCGGCGAGCGAATATTTCGCTGAACCGGTGGAGCCGGCGGATATCGTCTGGACCTATTCCGGCGTGCGCCCGCTGTTCGATGACGGAGCATCGAAAGCGCAGGAAGCGACCCGCGATTATGTGCTGAAAACCGAAGGGGCGGAAGGTGAAGCGCCGCTTCTCAATATTTTCGGCGGCAAGCTCACCACCTATCGGCGGCTTGCCGAACATGCTCTTGAAAAAATCGGCGATGCGCTGGGTGAAAAGGGTGCGCCATGGACGGCGGGCTCGCATTTGCCGGGTGGAAATTTCGGCGCCGAGGCCTACACCGCGGAAGTTTCGGCGCTGCGGTCGCGTTACCCCTTTCTTGAAGAGCGTCATGCGGAGCGGCTTGTGCGCTGCTACGGAACGGATGCGGCGGTGCTGATCGGCAATGCCACGGAGGCGGCGGCGCTCGGGCGGTATTTCGGCGGTACGCTGTACGAGGCTGAGGTTCGCTGGCTGATGGCGCGGGAATGGGCGCTGACGGCGGAGGATATTCTGTGGCGTCGCACCAAGCAGGGGCTCTTTTTTACCCCGGAAGAGGTGCGTGAGCTGGAGGATTATGTCGAAGACATTGCAGGTGGGCGCTTAAGGGCAATCTGA	MSDEAIHDIFVIGGGINGCGIARDAVGRGYSVALAEMNDFASGTSSAATKLIHGGLRYLEHYEFRLVREALMEREVLWAMAPHIIWPMRFVLPFQKGGVRPAWLVRLGLFLYDHLGGRKLLPATRSLDLRRDPAGKPLKPIFARAFEYSDGWVDDARLVVLNARDAANRGALILNRTQVVSARREGTFWHVETKNAAGEAKTYRARMLVNAAGPWVDKVLSSAFGKNNVHNVRLVQGSHIIVRKKFSDPRAYFFQNPDGRIIFAIPYEQDFTLIGTTDRDYTADPRAVKISDEEISYLCNAASEYFAEPVEPADIVWTYSGVRPLFDDGASKAQEATRDYVLKTEGAEGEAPLLNIFGGKLTTYRRLAEHALEKIGDALGEKGAPWTAGSHLPGGNFGAEAYTAEVSALRSRYPFLEERHAERLVRCYGTDAAVLIGNATEAAALGRYFGGTLYEAEVRWLMAREWALTAEDILWRRTKQGLFFTPEEVRELEDYVEDIAGGRLRAI	PGPT0006775_4318	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0006775-glpA|glpD-K00111	NA	NA
BMS010_00963	774	glpR_1	COG1349	Glycerol-3-phosphate regulon repressor	ATGCTGCTCACACCGCGTCAGGATGAAATCGTTGCGCTGGCGAAAGCGAACGGGCGGGTGCTGGTCGACGAGCTGGCGGCGCGGTTCTCCGTCACTCCCCAGACGATCCGCAAGGATCTGAACGATCTCTGCGATACGCGGGTTTTAACCCGCATCCACGGCGGCGCGCTTTTTCCAAGCGGCAACGAAAACGTCAAATACGAGGCGCGTCGGGCGATAGCCTCTTCCGAAAAGCAGGCGATAGGCGCCGCCGCCGCCGCCCTTATCCCGAACAACTCGTCACTCTTCATCAATATCGGCACGACCACCGAAGCCGTGGGCGAAGCGCTGGCGGATCATCACGAGTTGATGGTCATTACCAACAACATCAATGTTGCCAACAGGTTGCGTGTCTTCCCCGGTATCGAGGTAGTGATTGTTGGCGGTGTCGTGCGCGGTTCCGATGGCGGTATCGTCGGCGAGGCGGCGGTGGATTTCATTCGCCAGTTCAAGGTGGATTTTGCGGTCATCGGCGTTTCGGCCATCGATGAGGATGGCGCTTTGCTGGATTTCGACTTTCGTGAGGTCAAGGTCGCGCAGGCAATCATCTCCAATGCGCGCCATGTCATTCTGGTGTCGGATTCGCTCAAATTCGAGCGCACGGCTCCGGTTCGTATCGGCCATCTTTCCCAGGTGCATACTTTCATCACCGATCATTGTCCGGTGGATTCGATCCGGTCCATCTGTGCCGATCATGACGTCCGGTTGATCGAAACCGAGATGGTCGAGTCCTGA	MLLTPRQDEIVALAKANGRVLVDELAARFSVTPQTIRKDLNDLCDTRVLTRIHGGALFPSGNENVKYEARRAIASSEKQAIGAAAAALIPNNSSLFINIGTTTEAVGEALADHHELMVITNNINVANRLRVFPGIEVVIVGGVVRGSDGGIVGEAAVDFIRQFKVDFAVIGVSAIDEDGALLDFDFREVKVAQAIISNARHVILVSDSLKFERTAPVRIGHLSQVHTFITDHCPVDSIRSICADHDVRLIETEMVES	PGPT0018445_646	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULE_REGULATION,PGPT0018445-glpR-K02444	NA	NA
BMS010_00964	1461	cysG_1	COG0007	Siroheme synthase	ATGGATGCCTTAAAACCGCAGCGGAATGAACCGGCCCGCATGGAAAGATTAGCCAAGTTGCCGGTCTTCTGGGGGCTTGAGGGCAAGCGCGTGGTGCTGGCGGGCGGATCGGACGGGGCCGCCTGGAAGGCGGAACTGCTGCTGGCCTGCGGGGCGGAATTGCATCTTTATTGCGAGGCAAGCGAGCTTTCGGAAAGCTTTGCAGTGCTTGTCGCAAAAAGCCAGATGCTGAGATGGCATGACCGTCCGTGGGGTTCGGATATCTTCGGCGGCGCGGAACTGGCGCTGGCGGATTGCGAAACCGATGCGGAAGCCGCGAGCTTCTACGCTGCCGCGCGCGCGGCCGGCGTTCCCGTCAATGTCATCGACAAGCCGGAATTCTGCCAGTTCCAGTTTGGCTCCATCGTCAATCGCTCGCCCGTGGTGGTGTCGATCTCTACCGATGGCGCAGCACCCATTCTGGCGCAGGCTATCCGCCGGCGCATTGAGACATTGCTGCCGCTTTCGCTGAGGGATTGGGGCGCGCTTGCCCAGACAATCCGCGAGCGCGTCAATCTGCGGCTCGCTCCCGGTGCGTCGCGGCGCTCTTTCTGGGAAAAATTCGTCGATCGGGCTTTTACCGAAAGGCTGGATGAGGGCAGCGAGGAACGGCTGCTTGCGGATATCGGAATGCAGGCTGCGCGGGCAGGATCGGGGCGAGGCCTTGTGACGCTTGTGGGCGCCGGACCGGGCGATGCCGAACTGCTGACACTGAAAGCGGTGCGCGCTTTGCAGGCGGCCGATGTCATCCTGTTCGACGATCTCGTCTCGGCGGAAGTGCTGGAACTGGCGCGGCGGGAGGCGAAACGCATGCTGGTCGGAAAGCGTGGCGGCCGGGAAAGCTGCAGGCAGGAAGATATCAATGACATGATGATCCGTCTCGCCAAGGCCGGCAAACGGGTGGTGCGGTTGAAATCCGGCGATCCAATGATTTTCGGGCGCGCCGGCGAGGAAATCGCTGCGCTTGAGGCTGAAAATATCCCGGTTGAGATCGTTCCCGGCATCACTGCCGCAAGCGCCATGGCCTCGCGTCTGGGTGTGTCCCTGACCCATCGCGACCATGCCCAGTCGGTACGCTTCATCACCGGCCATTCCCGGCAGGGAAGGCTGCCGGAGAATATCGACTGGAAATCGCTGTCTGACCCTTCCGTAACCACGGTCTTTTACATGGGTGGGCGCACCGCAGCCGAGATCGAAGCTGCCCTGCTTGCTCATGGCATGCCTGCCTTGACGCCCGTTGCCATCATGATTTCCGTCAGTCGCTCAAACGAACAGCGTTGGTGCGGTTCGCTTACGCAACTGGCTGCGGCCGTTGAGAGGCTGGGTGTAAACGAACCGGTGCTAATCGGCATCGGCGATGCATTTGGTGCCGCGTCCTCGGCGATGTCCCGTTCCAGCCCGCTCATTCAGAAAGTCGGCTAA	MDALKPQRNEPARMERLAKLPVFWGLEGKRVVLAGGSDGAAWKAELLLACGAELHLYCEASELSESFAVLVAKSQMLRWHDRPWGSDIFGGAELALADCETDAEAASFYAAARAAGVPVNVIDKPEFCQFQFGSIVNRSPVVVSISTDGAAPILAQAIRRRIETLLPLSLRDWGALAQTIRERVNLRLAPGASRRSFWEKFVDRAFTERLDEGSEERLLADIGMQAARAGSGRGLVTLVGAGPGDAELLTLKAVRALQAADVILFDDLVSAEVLELARREAKRMLVGKRGGRESCRQEDINDMMIRLAKAGKRVVRLKSGDPMIFGRAGEEIAALEAENIPVEIVPGITAASAMASRLGVSLTHRDHAQSVRFITGHSRQGRLPENIDWKSLSDPSVTTVFYMGGRTAAEIEAALLAHGMPALTPVAIMISVSRSNEQRWCGSLTQLAAAVERLGVNEPVLIGIGDAFGAASSAMSRSSPLIQKVG	PGPT0003690_53	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003690-cysG-K02302	NA	NA
BMS010_00965	2649	nasA_1		Nitrate reductase	ATGCCCGTTGAAACAAAAACCACCTGTCCCTATTGCGGCGTTGGCTGCGGCGTCATCGCCACCGTCAACGACGATGGCGCGGTATCCGTCAGAGGCGATCAGGACCACCCCGCCAATTTCGGACGGCTGTGCTCCAAAGGTTCGGCTTTGGCCGAAACCATCGACCTCGACGGTCGCCTGCTCCACCCGGAAATCGCCGGCAGGTGGGCGTCATGGGACGAAGCGCTTGACCTCGTCGCTTCCCGGTTTTCTCAAGCCATCGCCGAACACGGCCCGGACTCCGTCGCCTTTTACGTCTCCGGCCAATTGCTGACAGAAGATTATTACCTCGCCAACAAGCTGATGAAGGGTTTCATCGGCTCGGCCAATATCGATACCAATTCAAGGCTGTGCATGTCGTCGTCCGTCGCCGGCCATCGCCGCGCCTTCGGTGCCGATACGGTGCCGGGCACCTATGAGGATATGGAGCTTGCCGATCTGGTGATCCTCACCGGTTCCAATCTCGCCTGGTGCCATCCAGTGCTTTACCAAAGGCTTGCGGCGGCAAAGGCGGCGCGGCCGGACATGAAAGTCGTTGTCATCGATCCGCGCCGGACGATGAGCGCCGATATTACCGATATGCACCTCGCCATCCGCCCGGATGGAGATGTGGCGCTGTTTACCGGTTTGCTGGCGCATCTTTCAGATAGTCCTGCAGTCGATCGCGGTTATGTGGAAAATCACACGGTCGGTTTTGATGCAGCGATGCAGGCAGCAAACGAGCATAGCCTGCCGGAGATCGCCGAAGCCACCGGCCTGACGATTGCCGAACTGATTTCCTTTTACGAATTGTTCGAACGCACCGAAAAAACCGTCACCTGCTACAGTCAGGGTGTCAACCAGTCTGAAAGCGGCACCGACAAGGTCAACGCGATCATCAATTGCCACCTTGCCACCGGCCGCATCGGCAGGCCGGGCATGGGGCCGTTCTCGCTGACCGGCCAGCCGAACGCCATGGGTGGGCGTGAGGTCGGCGGGCTCGCCAACATGCTGGCCGCCCATATGGCCATCGAAAATGCCGAGGATCGCGACCGTGTGCGGCGCTTCTGGGCCTCGCCCGCCATTGCGGAAAAACCCGGACTGAAGGCGGTGGACATGTTCAGGGCCGTGGCCGATGGCCGCATCAAGGCGCTGTGGATCATGGCGACCAACCCGGTGGTTTCCATGCCGGATGCCGGTGCCGTCGAGGCGGCCATCAAGGCGTGTCCTTTCGTCGTGGTGTCCGATGTCATGGCGAGTACCGATACGGCCCGCCATGCGCATGTGCTTCTGCCATCGCGTGGCTGGGGTGAAAAGGACGGCACCGTCACCAATTCCGAGCGGCGCATTTCCCGCCAGCGCGGTTTTCTCGATGCGCCCGGTGAAGCGAAATCGGACTGGTGGCAAATGGCGGAAGTGGGCCGGCGCATGGGTTTCGGCACGGCCTTCGCCTACGGCCAGCCATCGGATATTTTTGCCGAACATGCCGCTCTTTCCGGTTTCGAGAATGCCGGCAGTCGCGATTTCGATATCAGCGGCGTCGAGCGGAATTCCTATGATGCGATGACGCCGTTTCAATGGCCGAAGGCCGGGCAGGGCGATGCCGTCGTTACCCGCTTTTTTTCGGATGGGCGGTTTTACCATGCCGATGGCAAGGCGCGGTTCATCGCCACCGCTTTGCCGGAGACAGGCAGGACATCGGCGGATTACCCGCTGACACTGAATACCGGCCGTATCCGCGATCAATGGCACACCATGACCCGCACCGGCAAAAGTGCGCGCCTGACCGCCCATATCGCCGAACCCTTCGCCGAGCTTCATCCGCGCGATGCGCAGGCGCTGGGAATCGAAAGCGCCGATCTGGTGGAACTGGAAAGCCCCCATGGCAAGGTTCTGCTGCGGGCGCTGGTGAGCGAAAGGCAGGCGCGCGGCTCGGTGTTTGCGCCGATGCACTGGAACGACCAGTTCGCCTCGCAGGCGCGCATCGATGTTGTGGTTGCGCCGGTGACGGACCCCTATTCCGGCCAGCCCGCCTCGAAAAACGTGGCAGTAAGGGCAAGGCGCTTCGAAGCTAAAGCCTATGGTTTCGCCATCTCCCGCATCCGGCCGGATGCGCCGGATTGTGCGTACTGGGCCACGGCCAAAGCGGATGGCGGCTATCGCATGGAGCTTGCCTTTGCCGAGGAGCCGCAGGACTGGACACTCTGGGCGCGACAGGTCTTCGGCATCGAGGCCAGGGTCGAGCCGCTGGGTTATAGTGACCGGCAGACGGGTGACCTGCGCCTCGCCTTCTTCGACCGCGATATCCTGCTGGCGGCGCTGTTCGTCGCCAGGCAGCCGGTGGCCGTTGCCCGCAACTGGGCCATCTCGCAACTTGCCGAGCGTCATGAGGATCTGCGCATGCGTTTTGCGCTGGTCGCTGGTCGCCCCGGTGCCGGCCGCGCCGATCCGGGCGCCACCGTCTGCTCCTGCTTTAACGTCGGAGTGAACCAGATTACCGCGGCCATCCGCGAAGGCTGCCGCAGCGTCGAAGCCATCGGCAAGGCGTTGAATGCCGGAACCAATTGCGGCTCCTGCCGCGCCGAAATCAGGGGGATCATCGATGGATGCCTTAAAACCGCAGCGGAATGA	MPVETKTTCPYCGVGCGVIATVNDDGAVSVRGDQDHPANFGRLCSKGSALAETIDLDGRLLHPEIAGRWASWDEALDLVASRFSQAIAEHGPDSVAFYVSGQLLTEDYYLANKLMKGFIGSANIDTNSRLCMSSSVAGHRRAFGADTVPGTYEDMELADLVILTGSNLAWCHPVLYQRLAAAKAARPDMKVVVIDPRRTMSADITDMHLAIRPDGDVALFTGLLAHLSDSPAVDRGYVENHTVGFDAAMQAANEHSLPEIAEATGLTIAELISFYELFERTEKTVTCYSQGVNQSESGTDKVNAIINCHLATGRIGRPGMGPFSLTGQPNAMGGREVGGLANMLAAHMAIENAEDRDRVRRFWASPAIAEKPGLKAVDMFRAVADGRIKALWIMATNPVVSMPDAGAVEAAIKACPFVVVSDVMASTDTARHAHVLLPSRGWGEKDGTVTNSERRISRQRGFLDAPGEAKSDWWQMAEVGRRMGFGTAFAYGQPSDIFAEHAALSGFENAGSRDFDISGVERNSYDAMTPFQWPKAGQGDAVVTRFFSDGRFYHADGKARFIATALPETGRTSADYPLTLNTGRIRDQWHTMTRTGKSARLTAHIAEPFAELHPRDAQALGIESADLVELESPHGKVLLRALVSERQARGSVFAPMHWNDQFASQARIDVVVAPVTDPYSGQPASKNVAVRARRFEAKAYGFAISRIRPDAPDCAYWATAKADGGYRMELAFAEEPQDWTLWARQVFGIEARVEPLGYSDRQTGDLRLAFFDRDILLAALFVARQPVAVARNWAISQLAERHEDLRMRFALVAGRPGAGRADPGATVCSCFNVGVNQITAAIREGCRSVEAIGKALNAGTNCGSCRAEIRGIIDGCLKTAAE	PGPT0000390_787	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000390-nasA|nasC|narB-K00372	NA	NA
BMS010_00966	243			hypothetical protein	ATGGCGGCGGCGTTACCCCCCTCTGTCCTGCCGGACATCTCCCCCTCAAGGAGGGAGATCACTCGCGGCACAAACTTCCATTCACAACTGGCGTCGTTGCCGGTGGAGAGGGAACGGGGAGCCATCCGCTTTTCGATCTCCCCCCTTGAGGGGGAGATGCCCGGCAGGGCAGAGGGGGGTAACCGCCACGCACTGAGGCGGGGTAAGCGCCACCCACTGAGGGGGCAAACCCATGCCCGTTGA	MAAALPPSVLPDISPSRREITRGTNFHSQLASLPVERERGAIRFSISPLEGEMPGRAEGGNRHALRRGKRHPLRGQTHAR	PGPT0008555_288	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008555-ribD-K11752	NA	NA
BMS010_00967	336	hcaC_1		3-phenylpropionate/cinnamic acid dioxygenase ferredoxin subunit	ATGGACAGCAACTGGATCGATATTGGCGATATCTCCGACATTCCCCTGCGCGGCGCGCGTTGCGTCAAAACGCCGATGGGCAAGATCGCCGTGTTCCGCACGGCGGAAAATCAGGTCTTCGCCATCGAGGACCATTGCCCGCACAAGGGCGGGCCGCTGAGCCAGGGCATCGTGCATGGCGCTTCGGTGACGTGTCCTTTGCATAATTGGGTCATTTCGCTGGAAACCGGCAAGGCGCTGGGGGCGGATGAGGGCGAGGTGCGGACCATTCCAGTGCGTAATCTGGATGGGAGGCTTTCGATAGCGCTCGAAACCCTGATGATTGCGGCGGAGTGA	MDSNWIDIGDISDIPLRGARCVKTPMGKIAVFRTAENQVFAIEDHCPHKGGPLSQGIVHGASVTCPLHNWVISLETGKALGADEGEVRTIPVRNLDGRLSIALETLMIAAE	PGPT0000455_1320	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000455-nirD-K00363	NA	NA
BMS010_00968	2448	nasD_1	COG1251	Nitrite reductase [NAD(P)H]	ATGACGCAAAAACTCGTCATCATCGGCAATGGCATGGCGCCGGGGCGCATGCTGGAGAACCTGTTCGAAACCGCTCCCGGCCTTTACGACGTCACCATTTTTAACGCGGAGCCGCGCGTCAATTACGACCGCATCATGCTCTCGCCGGTGCTTTCTGGCGAAAAGAGCTATGAAGACATCGTCATTCATAATGACGAATGGTATGCGGCTAACAATGTGACGCTGCACAAGGGTGCGAAGGTCACCGGCATCGACCGCGACAGAAAGACCGTGACCAGCGAAAACGGCATCACGGTTTCCTACGACAGGCTGGTGATCGCCACCGGTTCGTTGCCTTTCATCATTCCGGTTCCCGGCCATCAATTGCCGGGCGTGCTCGCCTACCGCGATCTCGACGATGTGACGAAGATGCTGGAAATCGCCGAGGGCAAGGGCCGCGCCATCGTCATCGGCGCCGGTCTTCTAGGGCTGGAAGCCGCCTATGGCCTCAAGCGCCAGGGCATGGACGTTACCGTCATCCACCTGATGCCGACGATCATGGAGCGCCAGCTCGATCCAGCAGCGGCCTATCTTCTCGAAAAGGCGCTCAATGAGCGCGGCATCGACATCATCACCAAGGCCAATACCAAATGCATTCTCGGTGAGGAGAAGGTCGAAGGCATCGAGCTGGAAGACGGCCGGGTCATCAAGGGCGATATGGTGGTGATGGCGGTCGGCATCCGTCCTGCCTCGGGTCTCGCCAAGGAGGCTGGTATCGCCGTCAATCGCGGCATCGTGGTGGATGACGGCATGATGACGTCGGACGCCTCGATCTACGCGCTCGGCGAATGCGCCGAACATCGCGGCATGTGCTATGGTCTCGTTGCGCCGCTTTATGAATCGGCCCGCGTGCTCGCTGACCGGCTGTGCGGCGGTTCGGCCGAATATCACGGCTCCGTCACCAATACCAAGCTGAAGGTCACCGGCATCAACCTGTTTTCCGCCGGCGATTTCGCAGAAGGCGACGACCGCGAGGAAATCGTGCTACGCGATGCCACGGCCGGTGTCTATAAGCGCCTGATCCTCAAGGAAAACCGCATCATCGGCGCGGTGCTTTACGGCGAGACGGCGGATGGGTCGTGGTTCTTCGACCTGATGAAGAAATCGACCGATATTTCCGCCATGCGCGAAACCCTGATCTTCGGCCAGGCCTATCAGGGAGGGTCGCCGCTGGACCCTATGGCGGCCGTTGCAGCCTTGCCGGATGATGCGGAAATCTGCGGCTGCAACGGCGTCTGCAAGGGCAAGATCACATCGGCCATCACCTCCAAGGGGCTGACATCGCTGGACGATGTGCGCGCCCACACCAAGGCGTCCGCCTCCTGCGGCAATTGTACCGGCCTTGTCGAGCAGCTGATGACGATAACGCTCGGCGACAGCTACAATCCCGCTGCCGTGCAGCCCATGTGCAAATGTACCGATCTCGGCCACGACGATGTGCGCCGTCTCATCAAGGCCAAGGGGCTGAAGACCATCCCGGCCGTGATGCAGGAGCTGGAATGGAAGACCTCCTGCGGCTGCGCCAAATGTCGGCCGGCGCTCAATTATTACCTCGTCTGCGACTGGCCGGATGAATATGCCGACGATTACCAGTCGCGTTTCATCAATGAGCGCGTCCACGCCAATATCCAGAAGGACGGCACCTATTCCGTCGTTCCGCGCATGTGGGGCGGCGTTACCTCTTCCTCCGAACTGAGGGCGATTGCGGATGTGGTCGACAAATTCGAAATCCCGATGGTGAAGGTGACCGGCGGCCAGCGCATCGATCTTCTCGGCATCGAGAAAGAGGATTTGCCGGCGGTCTGGGCCGATCTCGGCAAGGCCGGCTTCATTTCCGGCCAGGCCTACGCCAAAGGTTTGCGCACGGTCAAAACCTGCGTCGGCCAGCAATGGTGCCGCTTCGGCACGCAGGATTCCACCGGACTTGGCATCCGCATCGAAAAATTCATGTGGGGTTCGTGGACGCCCGCCAAGCTGAAGCTTGCCGTTTCCGGCTGTCCGCGCAACTGCGCGGAGGCCACCTGCAAGGATATCGGCGTCATCTGCGTCGATTCCGGTTTCGAGATCCATTTCGCCGGTGCCGCCGGTCTCGATATCAAGGGCACGGAAGTTCTGGGTCTCGTCAAAACCGAGGATGAGGCGCTGGAACATATCGTGGCGCTGACGCAGATGTATCGCGAACAGGCGCGCTATCTCGAGCGCATCTACAAATGGGCCAAGCGCATCGGTTACGACGAAATCCGCCGCCAGATCATGGACGATGCGGAAAAGCGCAAGGCCTATTTCGATCGCTTCGTCTTCAGCCAAAAATTCGCGCAGGTCGATCCCTGGTCGGAACGCGTATCCGGCCACGACAAGCACGAATTCAGGCCCATGGCGGCGATCGGTTTCAATCAGGCGGCGGAGTGA	MTQKLVIIGNGMAPGRMLENLFETAPGLYDVTIFNAEPRVNYDRIMLSPVLSGEKSYEDIVIHNDEWYAANNVTLHKGAKVTGIDRDRKTVTSENGITVSYDRLVIATGSLPFIIPVPGHQLPGVLAYRDLDDVTKMLEIAEGKGRAIVIGAGLLGLEAAYGLKRQGMDVTVIHLMPTIMERQLDPAAAYLLEKALNERGIDIITKANTKCILGEEKVEGIELEDGRVIKGDMVVMAVGIRPASGLAKEAGIAVNRGIVVDDGMMTSDASIYALGECAEHRGMCYGLVAPLYESARVLADRLCGGSAEYHGSVTNTKLKVTGINLFSAGDFAEGDDREEIVLRDATAGVYKRLILKENRIIGAVLYGETADGSWFFDLMKKSTDISAMRETLIFGQAYQGGSPLDPMAAVAALPDDAEICGCNGVCKGKITSAITSKGLTSLDDVRAHTKASASCGNCTGLVEQLMTITLGDSYNPAAVQPMCKCTDLGHDDVRRLIKAKGLKTIPAVMQELEWKTSCGCAKCRPALNYYLVCDWPDEYADDYQSRFINERVHANIQKDGTYSVVPRMWGGVTSSSELRAIADVVDKFEIPMVKVTGGQRIDLLGIEKEDLPAVWADLGKAGFISGQAYAKGLRTVKTCVGQQWCRFGTQDSTGLGIRIEKFMWGSWTPAKLKLAVSGCPRNCAEATCKDIGVICVDSGFEIHFAGAAGLDIKGTEVLGLVKTEDEALEHIVALTQMYREQARYLERIYKWAKRIGYDEIRRQIMDDAEKRKAYFDRFVFSQKFAQVDPWSERVSGHDKHEFRPMAAIGFNQAAE	PGPT0000450_1971	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000450-nirB-K00362	NA	NA
BMS010_00969	798	nrtC	COG0715	Nitrate import ATP-binding protein NrtC	ATGAACGCTTATCTGAAGCTCGATCACATCGACAAATATTTCGACAAGGGCGGCTCGCGCGCCGAGGTGCTGAAAGGCATCAATCTCACCATCGAAAAAGGCGAATTCGTCTCCGTCATCGGCCATTCCGGTTGCGGCAAATCCACCATGCTCAATCTCATCGCCGGACTGACGAAAGTGTCTGCCGGCGCCGTTCTGCTCGAAAACCGCGAGGTCAACGAGCCCGGCCCGGAACGCGCCGTCGTGTTCCAGAACCACAGCCTGCTGCCATGGCTTTCGGTTTATGAAAACGTCAACCTTGCTGTCGAGAAGGTCTTCCGCAATACCAAGACCCGGGCCGAGCGGCATGACTGGGTCATGCGCAATCTCGATCTCGTGCAGATGGCCCATGCCAGAGATAAGAAACCCTCTGAAATTTCCGGCGGCATGAAACAGCGCGTCGGAATTGCCCGCGCGCTCGCCATGGAGCCCAAGATCCTGCTGCTCGACGAGCCTTTCGGTGCGCTGGACGCGCTGACCCGCGCCCATCTCCAGGACGCGGTGATGGAAATCCACGCCCGGCTTGGCAACACCATGGTCATGATCACTCATGATGTCGACGAGGCGGTGCTGCTTTCCGACCGTATCGTAATGATGACCAACGGTCCGGCAGCCCACATCGGCGAAGTGCTGGAGGTGCCGCTGGCACGCCCGCGCAACCGCATCGAGCTCGCATCCGACAAGACCTACCTCAAATGCCGCGAGGCCGTGCTGAAGTTCCTTTACGAACGTCACCGCTTCGTCGAAGCTGCGGAGTAA	MNAYLKLDHIDKYFDKGGSRAEVLKGINLTIEKGEFVSVIGHSGCGKSTMLNLIAGLTKVSAGAVLLENREVNEPGPERAVVFQNHSLLPWLSVYENVNLAVEKVFRNTKTRAERHDWVMRNLDLVQMAHARDKKPSEISGGMKQRVGIARALAMEPKILLLDEPFGALDALTRAHLQDAVMEIHARLGNTMVMITHDVDEAVLLSDRIVMMTNGPAAHIGEVLEVPLARPRNRIELASDKTYLKCREAVLKFLYERHRFVEAAE	PGPT0000575_758	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRTATE|NITRITE_TRANSPORT,PGPT0000575-nasD|nrtC-K15578	NA	NA
BMS010_00970	894	nrtB	COG0600	Nitrate import permease protein NrtB	ATGTCCGCATTGGCCCGAAAATTCAACGAAGAGTCGCAGCAGCCGATAGCGCAGAAGGCAAACGTCTTGTCGCTTGCGCCGAAACAGTCGCCGCGGATCGATCTGCGCAAATGGGGTGCGGCGGCGGCCCGCAACATCGTACCGCCGTTCATCGTCCTCGCCATTCTGCTGGGCGTCTGGCAATTGCTCTGTTCCGCCCCCGGCTCATCGCTGCCGCCGCCGAGCCAGGTTTTCGAGGAGAGCTACGATCTCATCGTATCGCCGTTCTTCCATAACGGTTCGCAGGATATCGGCCTTGGCTGGCGCGTGCTGGTCTCGCTGGAGCGTGTGGCTTACGGTTTCGGCCTCGCCGCCATTGCCGGCATCATTCTCGGCGCTGTCGTCGGTCAGTCGGTCTGGGCCATGCGCGGTCTCGATCCGATCTTCCAGGTGCTGCGCACCGTGCCGCCGCTTGCCTGGCTGCCGCTTTCGCTGGCCGCCTTTCAGGACAGCAATCCTTCGGCCATTTTCGTGATCTTCATCACCTCCATCTGGCCGGTCATCATCAATACCGCAGTCGGCGTGCGCAATATTCCGCAGGACTACCGCAACGTGGCGCAGGTGCTGCGACTCAACCAGCTGGAATTCTTCTTCAAGATCATGCTGCCTTCGGCGGCACCCTACATCTTCACCGGCCTGCGTATCGGTGTCGGCCTTTCGTGGCTCGCAATCGTCGCGGCGGAAATGCTGACCGGCGGCGTCGGCATCGGTTTCTTCATCTGGGATGCGTGGAATTCCTCGCGCCTGCCCGACATCATCGTGGCGCTCGTCTACATCGGCGTCGTCGGCTTCGTGCTCGACAAGCTGGTGGCGGCGCTCGGCAAGGTCATCACCCGCGGCGCTGCGGCAAATTAA	MSALARKFNEESQQPIAQKANVLSLAPKQSPRIDLRKWGAAAARNIVPPFIVLAILLGVWQLLCSAPGSSLPPPSQVFEESYDLIVSPFFHNGSQDIGLGWRVLVSLERVAYGFGLAAIAGIILGAVVGQSVWAMRGLDPIFQVLRTVPPLAWLPLSLAAFQDSNPSAIFVIFITSIWPVIINTAVGVRNIPQDYRNVAQVLRLNQLEFFFKIMLPSAAPYIFTGLRIGVGLSWLAIVAAEMLTGGVGIGFFIWDAWNSSRLPDIIVALVYIGVVGFVLDKLVAALGKVITRGAAAN	PGPT0000580_522	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRTATE|NITRITE_TRANSPORT,PGPT0000580-nasE|nrtB|cynB-K15577	NA	NA
BMS010_00971	1293	nrtA_2		Nitrate/nitrite binding protein NrtA	ATGAAAAAGATATTCTCCGGCGATGTCAGCCGCCGCACGATACTGAAGACGACAGCCACCGCCGCCCTTGTCAGCGCCGTGCGCGTGGCCTTTCCGTCCGGTGCTTTCGCAGCCACCGCTGAGCCCGAGGTGAAAGGCGCGAAAATCGGCTTTATCGCGCTCACCGATGCCGCCCCGCTCATCATTGCGGCGGAAAAGGGCCTGTTCGCCAAACACGGCATGCCTGACGTTGAGGTTCTGAAACAGGCCTCCTGGGGTGCGACGCGCGACAATCTCGTGCTCGGCGGCGCATCGAACGGCATAGATGGCGCACACATCCTGACGCCGATGCCCTATCTCATGCATACCGGCAAGGTGACCCAGAACAATGTGCCGGTGCCGATGACCATCCTCGCCCGCCTCAACCTCGACAGTCAGGGCATTTCCGTCGCCAAGGAATATGCCGAAACCGGCGTTCAGCTCGATGCTTCCAAGCTGAAGGCGGCTTTCGAGAAAAAGAAGGCCGAAGGCAAGGAAATCAAGGCCGCCATGACCTTCCCCGGCGGCACGCATGATCTCTGGATTCGCTACTGGCTTGCCGCCGGCGGCATCGATCCGGACAAGGACGTCTCCACCATCGTCGTTCCGCCGCCGCAGATGGTCGCCAATATGAAGGTCGGCAATATGGACGTCTTCTGTGTGGGCGAACCCTGGAACGAGCAGCTCGTCAATCAGGGCATCGGCTTCACCGCCTGTACCACCGGCGAACTCTGGAAAGGCCATCCGGAAAAGGCGCTCGGCATGCGTGCCGACTGGGTGGAAAAGAACCCCAATGCCACCAAGGCGCTGCTGATGGCGGTGATGGAAGCGCAGCAATGGTGCGACGAGATGGCGAACAAGGAGGAAATGTCCACCATCCTCGGCAAACGCCAATGGTTCAATGTGCCGCCGAAGGATGTGCTTGGCCGCCTGAAGGGCAATATCAATTACGGCAACGGCCGCGTGCTCGAAAATACCGGCCTGCAGATGAAGTTCTGGCAGGACCATGCCTCCTATCCCTTCCGCAGCCACGACAGCTGGTTCATCGCGGAAAACATCCGCTGGGGCAAATTCGCACCCGATACGGATGTGAAAGCGCTGGTGGAGAAGGTGAACCGTGAGGATATCTGGCGCGCGGCGGCCAAGGATCTCGGCGTTGCCGATCTGCCCGCCTCCACCTCGCGCGGCAAGGAAACCTTCTTCGACGGCAAGGTCTTCGACCCGGAAAATCCGTCGGCCTATCTCGAAAGCCTGTCCATCAAGGCGGCCTCCTGA	MKKIFSGDVSRRTILKTTATAALVSAVRVAFPSGAFAATAEPEVKGAKIGFIALTDAAPLIIAAEKGLFAKHGMPDVEVLKQASWGATRDNLVLGGASNGIDGAHILTPMPYLMHTGKVTQNNVPVPMTILARLNLDSQGISVAKEYAETGVQLDASKLKAAFEKKKAEGKEIKAAMTFPGGTHDLWIRYWLAAGGIDPDKDVSTIVVPPPQMVANMKVGNMDVFCVGEPWNEQLVNQGIGFTACTTGELWKGHPEKALGMRADWVEKNPNATKALLMAVMEAQQWCDEMANKEEMSTILGKRQWFNVPPKDVLGRLKGNINYGNGRVLENTGLQMKFWQDHASYPFRSHDSWFIAENIRWGKFAPDTDVKALVEKVNREDIWRAAAKDLGVADLPASTSRGKETFFDGKVFDPENPSAYLESLSIKAAS	PGPT0000585_768	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRTATE|NITRITE_TRANSPORT,PGPT0000585-nasF|nrtA|cynA-K15576	NA	NA
BMS010_00972	1287	cmpC	COG0715	Bicarbonate transport ATP-binding protein CmpC	ATGGCGGCACCGGAAAAAACGGCCGGATCAGACAGCGGCGTAACGCAAGCACCGGCAATCGTCGGCAGCGACCGGCAGAAAATTCTGCGTGCCGGCTTTATTCCGCTTGTCGACGCATCCGTCCTGATTGCTGCGGCCGAATTCGGTTTCGCAGAACGCGAAGGCCTTTCGCTCGATCTCGTCAAGGATGTTTCCTGGGCGAATGTGCGCGACCGGCTGGCGTTTCGGCAATTCGATATCGCCCACATGCTGTCGCCGATGCCCGTCGCCTCCATGCTCGGGCTTGGCTCAAATCCGTCGCCGACGATCACGCCCTTTTCACTCGGGCGCGGCGGCAATGCGATCACGCTTTCGACCCGGCTGTTTGCACGGATGAAGACTTTGACCGGGCTTTCCGAAACGGCCGGAGCGCTCGAAAATGCCGAGGCGTTGAAGCGGGTGCTCGATGATATGCGCGCCCGCGGCGAACCGCCGCCGACGCTTGGCATGACCTATCCATTTTCATCGCATAATTACGAGTTTCGCTACTGGCTTGCCGCCGGCGGCATTCACCCCGATCACGATGTCAAGCTTGTGGTCGTGCCGCCGCCATTGACCTCGGATGCGCTTGCCGCAGGGGCCATTGACGGTTTCTGCGTCGGAGCGCCGTGGAACATCGTCGCCGCCGAGCGCGGTGTCGGCCGGATCGTTGCGGCCAAGCAGGATTTGTGGCCTTCCGCACCGGAAAAAGTCATCGGCATGCGACCCGAATGGGCGGAAAACCAGCAGGAAACGGTCGGACGGTTGCTGAAGGCGCTCGATGCCGCCGCGCGCTGGTGCGACCTAGCCGAAAATCACGATGATCTCAGCGCTGCCCTTGCCGATCCCCGTTATATCGGCGCACCGGAAGGTATCATTCGCCGTGTGCTTGCCGGTGAATTCAGTATCGACAGCCAGGGCAACCGCCGGGTGATCGACAATTATTTCATCTTCCACGATGGTCACGCCAATTATCCGCGCCAGAGCCAGGCATTGTGGATCTACAGCCAGATGATCCGCTGGGGGCAGGCCGAGTTTTCCCAGGCCGGTGTGGAGGCCGCCCTGTCTGCCTACCGGCCGGATATTTATCGGGCGGCGCTTGGCGACGCCAATGCACCTGACGATGCCGATATCCGCATCGAAGGGCAGGAAGAGCAGGACCGTTTCGTGGATGGCCTCATATTCGATCCCGCCGACATTGCAGGCTACGTGAACGCCTTTTCCGTGCGCACCGCCGCACCGTTTTCTCCGACTTCAGGCGAGACGTAA	MAAPEKTAGSDSGVTQAPAIVGSDRQKILRAGFIPLVDASVLIAAAEFGFAEREGLSLDLVKDVSWANVRDRLAFRQFDIAHMLSPMPVASMLGLGSNPSPTITPFSLGRGGNAITLSTRLFARMKTLTGLSETAGALENAEALKRVLDDMRARGEPPPTLGMTYPFSSHNYEFRYWLAAGGIHPDHDVKLVVVPPPLTSDALAAGAIDGFCVGAPWNIVAAERGVGRIVAAKQDLWPSAPEKVIGMRPEWAENQQETVGRLLKALDAAARWCDLAENHDDLSAALADPRYIGAPEGIIRRVLAGEFSIDSQGNRRVIDNYFIFHDGHANYPRQSQALWIYSQMIRWGQAEFSQAGVEAALSAYRPDIYRAALGDANAPDDADIRIEGQEEQDRFVDGLIFDPADIAGYVNAFSVRTAAPFSPTSGET	PGPT0000405_36	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000405-nasS-K22067	NA	NA
BMS010_00973	690	pdtaR_1	COG3707	putative transcriptional regulatory protein pdtaR	ATGACGGGCGGCAGGGGAGAAAACGACCCTTGCCGCTCCCGCCATTTTTTTTGCATCCGCAGCCGATTGCCAAGTTTGCTGCGCTGCGTCATCAATGCTGACATGACGCTTCGCGACCTGACCATTCTCGTTATCGACGAAAACGCGATCCGCGCCTCCATCATCGAGGAGGGGCTGCGCGAGGCCGGCTATCATCGCGTCACCGTCATCCACGAGGTGAACGGGGTGGCGCGCACCATCGAGACGCTGCAGCCCGATGTCATCTTCATCGATCTCGAAAATCCCAATCGTGACATGATGGAGCATCTGTTCCAGCTTACCCGCACGGTCGGCCGGCCGATCGCCATGTTTGTCGATCGCTCCGACACCGCGTCCATTGAGGCGGCCGTCGAGGCGGGCGTTTCCGCCTATGTGGTGGACGGGCTGAAGAAGGAGCGGGTCAAGCCCATTCTCGACATGGCGGTCAGCCGCTTCAATGCCTTCAGCCGTCTGCAGCGGGAACTTGCCGAAGCGAAATCGGCGCTTGAGGAACGCAAGGTCCTCGAGCGCGCCAAGGGCATTCTGATGAAGATGCGCGGCCTTTCCGAAGAGGAGGCCTTTGCCCTTTTGCGGCAAACCGCAATGAACGAGAAGAAGAAGATTTCCGAGATCGCGCAAAGCGTGGTCACCGCGGCCGGTCTGTTGATGTAA	MTGGRGENDPCRSRHFFCIRSRLPSLLRCVINADMTLRDLTILVIDENAIRASIIEEGLREAGYHRVTVIHEVNGVARTIETLQPDVIFIDLENPNRDMMEHLFQLTRTVGRPIAMFVDRSDTASIEAAVEAGVSAYVVDGLKKERVKPILDMAVSRFNAFSRLQRELAEAKSALEERKVLERAKGILMKMRGLSEEEAFALLRQTAMNEKKKISEIAQSVVTAAGLLM	PGPT0000400_454	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000400-nasR|nasT-K07183	NA	NA
BMS010_00974	666			hypothetical protein	ATGACCGAAACGATAGAGGGTCTGCCGCTTGCGGATCGATTGGCCAAGGGTATTCGCACCCTGCTGATCTCCGGCGAGTTGATGCCGGGACAGCGCCTATCAGAGGCAGCCTTCAGTGAACGTTTCGACGTCTCGCGCAATTCGCTGCGCGAAGCTTTCCGGTTGCTGACCAAGGACGGGCTTTTGCGCCATGAGGCAAATCGCGGCGTGTTCGTCGCCGTTCCCACCATGTCCTCGGTCATCGATATTTATCGGGTGCGACGCATGGTGGAATGCGGCGCACTTCGCCAGGCCTGGCACAAGCATCCCGCAATCAAGACGATGCGGGCAGCGGTCGAGGACGCCAAGGTCAAGCGTGAAGATGCCGACTGGCTGGGTGTGGGCAGCGCCAACATGAAATTTCACGCCGCCGTCGTCGATCTTCTCGACAGCGCCCGCCTCAGCGATTTTTACGAGCGTATCGCCGCTGAACTCAGGCTTTGTTTCGGTTTGCTGAAAGATCCCGAACAGCTTCATTCCCCCTTCGTGGACATGAACAGCAAGATCCTGTCGCTGATGGAAGAGGGCAGGGCGCAAGAGGCCGGCGACGAGATGGAAATCTATCTCAATCTGTCCGAGCGGACGGTTCTGAAGGCGCTTGAACGCGCCGTCGAACACGCTTCCTGA	MTETIEGLPLADRLAKGIRTLLISGELMPGQRLSEAAFSERFDVSRNSLREAFRLLTKDGLLRHEANRGVFVAVPTMSSVIDIYRVRRMVECGALRQAWHKHPAIKTMRAAVEDAKVKREDADWLGVGSANMKFHAAVVDLLDSARLSDFYERIAAELRLCFGLLKDPEQLHSPFVDMNSKILSLMEEGRAQEAGDEMEIYLNLSERTVLKALERAVEHAS				NA	NA	NA	NA	NA
BMS010_00975	1242			hypothetical protein	ATGGAGCAGAAAAAGCTCACCCCGACTGCCGATATGAAAATGTCAAAACGCGCATCCCTGATGGGGGCGATCTTCCTGATGGCGACATCCGCCATCGGTCCCGGCTTCATCACGCAAACCGCGACATTCACGACCCAGCTCGGTGCCGCCTTCGCCTTCGGCATCCTTGCCTCCATCCTCATCGACTTCGTCGTCCAGCTCAACATCTGGCGTATCGTGACGCTGACGCGCATGCGCGCATCCGATATTGCCAATGCCGCTATTCCCGGCTCCGGTTATCTTCTGGCCATTCTCGTCATTATCGGCGGCCTGTTCTTCAACATCGGCAATATTGGCGGCACCGGCCTTGGCCTGAACGCCATTTTCGGGCTGGACCCGAAAATCGGCGGCGCCATCAGCGCAGTCTTTTCCATCGCCATCTTCGTTTCCAAACGCGCAGGCCTTGCCGTCGACCGGTTCATCATTTTCGCCGGCATCCTGATGATCGTGCTGACACTTTATGTGGCCTTCGTTTCCGCACCGCCGGTGGGTGACGCCTTCCGCCAGACCTTCCTGCCGGATACGATCAATTTCGCGACCATCACCACCATCGTCGGCGGCACCGTCGGCGGCTACATCACCTATTCCGGCGCACACCGGCTGCTGGACCGGGGCATGGTCGGCATCGAAAACCTGCCTGCCGTCAACCGCGCGGCGCTGACCGGCATCGCCGTCACGGGCGTCATGCGCTATGTGCTGTTCCTCGCCATTCTCGGCGTCGTCGCCAGCGGCGTCATCATCGATACGTCGGGCCAGGCCGCCAATCCGGCCGCACAGGCCTTCCGTTCGGCCGCGGGCGATCTCGGCTTCCGGCTCTTCGGCATCATCTTCTGGGCAGCGGCCATCACCAGCGTCATCGGCGCGGCCTATACCTCGGTTTCATTCCTGCCCGTCTTCAAGCAGGACATGACCGAACGTGCCCGCAACATGGCGACGGTCGTTTTCATCGCCGTCTCGCTTGTCTGCTACCTGCTGATCACCACGCCGCCCGCCGCCATGCTGGTCTTCGTCGGCGGCCTGAACGGCCTCATCCTGCCCATCGGCCTCAGCATCTTCCTGTTCGCCGCATGGAAACGCGAAGACCTGATGGGCGGCTATCGTTACCCACGCATCCTGCTTGTGCTTGGCGTTCTGACCTGCGCATTGACATGGTACATGGGCTACAAGTCCGCCGGCACCATCTTCGGCCTGCTCGGCCTGTAA	MEQKKLTPTADMKMSKRASLMGAIFLMATSAIGPGFITQTATFTTQLGAAFAFGILASILIDFVVQLNIWRIVTLTRMRASDIANAAIPGSGYLLAILVIIGGLFFNIGNIGGTGLGLNAIFGLDPKIGGAISAVFSIAIFVSKRAGLAVDRFIIFAGILMIVLTLYVAFVSAPPVGDAFRQTFLPDTINFATITTIVGGTVGGYITYSGAHRLLDRGMVGIENLPAVNRAALTGIAVTGVMRYVLFLAILGVVASGVIIDTSGQAANPAAQAFRSAAGDLGFRLFGIIFWAAAITSVIGAAYTSVSFLPVFKQDMTERARNMATVVFIAVSLVCYLLITTPPAAMLVFVGGLNGLILPIGLSIFLFAAWKREDLMGGYRYPRILLVLGVLTCALTWYMGYKSAGTIFGLLGL	PGPT0020786_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_BRANCHED-CHAIN_AMINO_ACID_TRANSPORT,PGPT0020786-ycsG-NA	NA	NA
BMS010_00976	768	pxpA_2		5-oxoprolinase subunit A	ATGGCCGCTATCGATCTCAACAGCGATCTTGGCGAAAGTTACGGCGCATGGCGCATGGGAGACGACGAAGCGATGCTCGCTATCGTTTCAAGCGCCAACATCGCCTGCGGATTTCATGCCGGCGATCCGGCCGGTATCTACCGCACCGTCAAGGCCGCCGCCGAAAAAGGCGTGGTCGTTGGGGCCCATGTCTCCTATCCGGACCGCGTCGGCTTCGGCCGCCGCGATCTGGACGCGACCTCGGAAGAACTGATCGCCGATGTCATCTACCAGATCGGCGCACTGAAAGGCGTCGCCGCCGCTGCCGGCACAACGGTGCGTTACGTGAAACCGCATGGCGCGCTTTACAACCGCATCGCCAACGATGCGAAACAGGGGCAGGCCGTCATTGACGGCATCAAGGCCGTCGATCCTTCGCTGGTGCTGATGGGTCTTGCGAACGCGCCCATCCTCGATCTTGCCCGCAAGGCAGGTCTTGCCATCGTCGCAGAAGCTTTCGCGGATCGCGCCTATACGCCTCAGGGCCAGCTCGTCTCCCGCCGCGAAGCCGGTGCCGTGCTGCATGACGCGGCCAAAATCGCCGACCGCATGGTGCAGCTTGCCCGCGAAGGCACGCTGGAGGCCATCGATGGCAGCATCATAAAGATCGAAGCGCAATCCATCTGCGTGCACGGCGACAGCCCCGGTGCCGTCGCCATCGCCCAGGAAATCCGTCGCCGTTTCGAGGCTGATGGTATCGACATCCGCTCTTTCGCATCCAATCGTTGA	MAAIDLNSDLGESYGAWRMGDDEAMLAIVSSANIACGFHAGDPAGIYRTVKAAAEKGVVVGAHVSYPDRVGFGRRDLDATSEELIADVIYQIGALKGVAAAAGTTVRYVKPHGALYNRIANDAKQGQAVIDGIKAVDPSLVLMGLANAPILDLARKAGLAIVAEAFADRAYTPQGQLVSRREAGAVLHDAAKIADRMVQLAREGTLEAIDGSIIKIEAQSICVHGDSPGAVAIAQEIRRRFEADGIDIRSFASNR				NA	NA	NA	NA	NA
BMS010_00977	810		COG4336	Putative hydro-lyase	ATGACGATACCGACATCCTATCTCAACCACACGGACGCCGACGCCGCACGAAAGGCCCGTGCGACCTATCGCGGCGGCCTCGTCGCCCCAACTTCCGGCATTGCGCCCGGCTTCACGCAGGCGAACATGATCGTGCTGCCGCGCGACTGGGCCTTCGATTTCCTGCTTTACGCGCAGCGCAATCCCAAACCCTGCCCGGTGCTGGACGTGTCCGATCCCGGTTCGCCCACCACGCTGCTCGCGCCCGGCGCAGATCTGAGAACCGACCTGCCGCTCTACCGCATCTGGCGGGACGGCAAGCTCGTCGAGGAAACAGCGGATGCAACCGCCGCCTGGGCGGAGCGCGATGATCTCGTCGCCTTCCTGATCGGCTGCAGCTTCACCTTCGAAACGCCGATGGTGGAAGCGGGCATCGAAATCCGCCATATGACCGACAAGAGCAATGTGCCGATGTATCTCACCAACCGACCCTGCCGCCCGGCCGGTCGGCTGAAGGGCAATATGGTCGTTTCCATGCGGCCGATCCCGGCCTCGCGGGTCGCCGATGCTGCGACCATTTCGGGACGTTTTCCGGCCGTACACGGGTCGCCCGTGCATGTCGGCGCACCGGAAGAGATCGGCATCACCGATCTTGCAAAGCCTGATTTCGGCGATGCGGTGCGGATCGAGCCGGGCGAAGTTCCGGTGTTCTGGGCCTGCGGTGTCACACCCCAGGCCGCCGTGATGGCGTCGGGCGTACCCTTTGCGATCACCCATGCGCCGGGGCACATGTTCATCACCGACATTCCCGATTCAGCCTATCACGCGTGA	MTIPTSYLNHTDADAARKARATYRGGLVAPTSGIAPGFTQANMIVLPRDWAFDFLLYAQRNPKPCPVLDVSDPGSPTTLLAPGADLRTDLPLYRIWRDGKLVEETADATAAWAERDDLVAFLIGCSFTFETPMVEAGIEIRHMTDKSNVPMYLTNRPCRPAGRLKGNMVVSMRPIPASRVADAATISGRFPAVHGSPVHVGAPEEIGITDLAKPDFGDAVRIEPGEVPVFWACGVTPQAAVMASGVPFAITHAPGHMFITDIPDSAYHA				NA	NA	NA	NA	NA
BMS010_00978	1617			hypothetical protein	ATGCGTTTTCTCCCCGTCAGCCTCACCACCATTCTTGTCGAACTCGCCGATCTCGATGAAACGCTGGCGCTTTTCGCCTCACTTCAGAACAATCCGGTCGAAGGTATCGAAGAGACCGTGCCGGCTGCCCGCACCCTGATGATCCGCTTTCGCCCTGAGAAAATCGGTGCCGAAGCGCTGGTCGCGCGACTGGCAAGCCGCGATCTCTCGGCAAAAATCGCGCCTTCGGACAATCTCGTGGAAATCCCCGTCCACTATAATGGTGAGGACCTTGCCGATGTTGCCGAACTGACCGGCATGAGGATCGAAGAAGTCATCCGCCGCCACACCGAAAGCGAATTCACCGTGGCCTTTTGCGGTTTCGCTCCCGGCTTCGGTTATCTGGTCGGCGGCGATCCGGCGCTGCATGTGCCACGCCGGCAAAGCCCGCGCACCCGCATTCCGGCAGGTTCGGTGGCGCTGGCCGGCGCCTTCAGCGGCGTCTACCCGCAAAACAGCCCCGGCGGCTGGCAGATCATCGGCACCACGCCGGTGAAGATGTGGGATATAGACCGCGATCCCGGCGCGCTTTTCCAGCCGGGTTACCGCGTGCGTTTCTTCGACATGGACAAGGCCGGCAAAACGGTCGACATCCCCGTCCCGGCACCGCGCAGCGCCGGGAAAGACCGGGCAAAAGCAGGCCCGCATTTCGAGGTGCTCGCAGCTCCCATGCCCGCCATCTTTCAGGATCTCGGCCGCTTCGGCCAGACCGGACAGGGCGTTTCGGCCTCCGGCGCGCTGGATCGCGGCGCGTTCAATGCCGCAAACCGCATCGTCGGCAACCCCATCAACACGCCCTGTCTCGAACTGACGCTCGGCGGATTTTCCTTTAAAAGCACAAGCCGCGCCGTCATCGGCATTGCAGGCGCCCCCTGCCCCGTCACGATCACCACGGCAGATCGCAGCTTCGCGGCAAAGACCCATGGCCCGGTGCCGCTCGAACCCGGTGATGTGGTCACTTTCGGCCAGCCGCCAAAGGGCATGCGCTGTTATCTTGCGGTGCGCGGCGGCTTCGATGTCGAGCCGGTGCTCGGCAGTTTCGCAACGGATACGCTGGCTGTCGTCGGCCCAGAGCCGGTGGGTACAGGCGCCACCCTGCCGCTTAAGGGAGAGAAGACCGGCCTTTCCAGCGTATCGATCGACGAGGTTCCGGCCTTCGAACCGCCGGCAATGGGTGAGGTCGTCACGCTGGACGTCGTTCTCGGCCCCCGCACCGACTGGTTCACCCAGGAGGGCATCGACACGCTGACCGGCCAGCTCTGGCAGGTCACGCCGCAATCGAACAGGGTCGGCATCCGCCTTGCCGGCGACGTGCCGGTGGAGCGCAAGGACAGCGCCGAATTGCCGAGCGAAGGCACGGCGACAGGGGCGATCCAGATTCCCCATAGCGGCCAGCCGGTTCTCTTCCTTGCCGACCATCCGCTAACCGGCGGTTATCCCGTCATCGGCGCGGTCGCCGAATATCATCTCGATCTTGCGGGACAAATCCCCGTCAACGCCAAAATCAAATTCCGCCCGATCGGCCCCTTCGCCGAAATCGCGGCCAAGAACACAGAATTCCGAGGAGAAGAGCGATGA	MRFLPVSLTTILVELADLDETLALFASLQNNPVEGIEETVPAARTLMIRFRPEKIGAEALVARLASRDLSAKIAPSDNLVEIPVHYNGEDLADVAELTGMRIEEVIRRHTESEFTVAFCGFAPGFGYLVGGDPALHVPRRQSPRTRIPAGSVALAGAFSGVYPQNSPGGWQIIGTTPVKMWDIDRDPGALFQPGYRVRFFDMDKAGKTVDIPVPAPRSAGKDRAKAGPHFEVLAAPMPAIFQDLGRFGQTGQGVSASGALDRGAFNAANRIVGNPINTPCLELTLGGFSFKSTSRAVIGIAGAPCPVTITTADRSFAAKTHGPVPLEPGDVVTFGQPPKGMRCYLAVRGGFDVEPVLGSFATDTLAVVGPEPVGTGATLPLKGEKTGLSSVSIDEVPAFEPPAMGEVVTLDVVLGPRTDWFTQEGIDTLTGQLWQVTPQSNRVGIRLAGDVPVERKDSAELPSEGTATGAIQIPHSGQPVLFLADHPLTGGYPVIGAVAEYHLDLAGQIPVNAKIKFRPIGPFAEIAAKNTEFRGEER	PGPT0001010_841	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_ATRAZINE|DERIVATE_DEGRADATION	XENOBIOTIC_CYANURIC_ACID_DEGRADATION,PGPT0001010-atzF-K01457	NA	NA
BMS010_00979	1734	carB_1		Carbamoyl-phosphate synthase large chain	ATGAAAAAAGTGCTGATTGCCAATCGCGGCGAGATCGCGGTGCGCATCATCCGCGCATGTCGCGATTACGGCCTGCAATCGGTCGCCGTTTATGCCGATCCCGATCAGGATGCGCTCTTCGTCCGGCTCGCGGATGAGGCCTATGCGCTGGAGGGCGTGCGTCCCGCCGAGACCTATCTCGATATCGCCAAGCTGATTGCGATTGCCAAACGCGCCGGCGCGGATGCCATTCATCCCGGTTACGGTTTCCTGTCCGAACGCGCCGAATTTGCGCGTGCCGTTTTCGATGCCGGCCTCATCTGGATCGGCCCCGACCCGCACGTCATCGAGGCACTGGGCGACAAGGTAGAGGCACGGCGCATTGCCACCGGCGTCGGCGCACCGCTGGTCGCCGGCAGTGACGGCCCGGTTTCTTCCGCTGCCGAAGTCACGGCCTTCGCCGAAGAACACGGCCTGCCCGTCGCCATCAAGGCGGCCCATGGCGGCGGCGGTCGCGGTCTGAAGGTTGCGTGGAAGATGGAAGAGATCACCGATCTCTACGAATCCGCCGTGCGCGAGGCAACGGCCGCCTTTGGCCGCGGCGAGTGTTTCCTTGAGCGCTTCCTTGACCGGCCGCGCCATATCGAGGCGCAGGTTCTGGCCGACAAGCATGGCAATGTGCTCGTCCTTGGCACCCGCGATTGTTCGCTGCAGCGCCGGAACCAGAAGCTGATCGAAGAGGCTCCCGCCCCGTTCCTCTCCGCCGAACAGCGGCAGAAAATCCATGCGGCTGCAAAAGCTATCTGCGCCGCTGCCGGTTATTCCGGCGCCGGCACGGTCGAATTCCTGCTCGGCGTCGATGGCACGATTTCTTTCCTCGAGGTCAATACGCGCCTGCAGGTGGAACATCCCGTTACCGAAGAAACCACCGGTATCGATCTCGTCATCGAGCAGTTCCGTATTGCTGAAGGCCAAAAGCTGCGGGTTCTCGAAACGCCGGAACCGCGTGGCCATTCGATGGAATTCCGCATCAATGCCGAAGATCCCGGCCGGGGCTTCCTGCCGACCCCCGGGTCGATCTCGGTTTTCAACGCCCCCTCCGGTCCCGGCATTCGCGTGGATAGCGGCGTCGTCAGCGGCTCCAGCGTGCCGGGCGTATTCGACTCGCTTATGGCGAAGCTGATCGTCACCGGTGCCGACCGCGATCAGGTTCTGCGCCGCGCCCGCCGCGCGCTCAAAGAATTCCGCATCGAAGGCATCGCCACCGTCCTGCCGTTCCATCGGGCCGCAATCGAAACCGAAGACTTCGTCGGAACTGACGGTTTCAAGGTTCACACCCGCTGGATCGAGACCGATTTCGCCGCCATGCCGGATGCCATGGAGCGCCCGGCACCGGCCGACGACCCTTCCGTCACCCGCACTTTTCTGGAAATCGACGGCAAGCGTGTATCGGTCGGTCTGCCCAGCCTGCTGCTCTCCAGCCTCGGTGCGGTTAGCGGCAACAGCGGGGCTGTTCCCGGCACCGCCGCCCCCAAGGAAAAGGAGGGCGAAATCACCGCCCCGGTTTCCGGCACGCTGCAGTCCTTCAAGGTAAAAGACGGTGATACGGTGTCGCAAGGCGATCTTCTGGCCGTTATGGAAGCCATGAAGATGGAAACGCAGATTGTCGCCACCAAGGCCGGCAAAGTCCGCCTCATTGTCAAGCAAGGCGACTATCTGCAGGCGGGTGCAGCCCTTCTCGAGATAGCCGGCTAA	MKKVLIANRGEIAVRIIRACRDYGLQSVAVYADPDQDALFVRLADEAYALEGVRPAETYLDIAKLIAIAKRAGADAIHPGYGFLSERAEFARAVFDAGLIWIGPDPHVIEALGDKVEARRIATGVGAPLVAGSDGPVSSAAEVTAFAEEHGLPVAIKAAHGGGGRGLKVAWKMEEITDLYESAVREATAAFGRGECFLERFLDRPRHIEAQVLADKHGNVLVLGTRDCSLQRRNQKLIEEAPAPFLSAEQRQKIHAAAKAICAAAGYSGAGTVEFLLGVDGTISFLEVNTRLQVEHPVTEETTGIDLVIEQFRIAEGQKLRVLETPEPRGHSMEFRINAEDPGRGFLPTPGSISVFNAPSGPGIRVDSGVVSGSSVPGVFDSLMAKLIVTGADRDQVLRRARRALKEFRIEGIATVLPFHRAAIETEDFVGTDGFKVHTRWIETDFAAMPDAMERPAPADDPSVTRTFLEIDGKRVSVGLPSLLLSSLGAVSGNSGAVPGTAAPKEKEGEITAPVSGTLQSFKVKDGDTVSQGDLLAVMEAMKMETQIVATKAGKVRLIVKQGDYLQAGAALLEIAG	PGPT0001425_25	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001425-pycA-K01959	NA	NA
BMS010_00980	1488	amyA	COG0366	Cytoplasmic alpha-amylase	ATGGCCGGACGCACCTTGCTTCAGTTCTTCCATTGGTATTATCCGGACGGAGGGAAATTATGGAGCGAGGTGGCCGAAAAGGCCGAAAGCCTTGCCAAAATGGGCATCACCGATATCTGGCTGCCACCCGCCTATAAGGGTGCTGCCGGCGGTTATTCGGTCGGTTACGATACCTACGATCTCTTCGACCTCGGTGAATTCGACCAGAAGGGCACCGTCGCCACCAAATATGGCGATCGCGCCGCCCTCGAACATGCCGGCCGGACGCTGAAGGAAAACGGCATCCGCGTCATTCATGACGTGGTTCTCAATCACAAGATGGGTGCGGATGAAAAGGAAAAGGTACGGGTTCGCCGCGTCAATCCCGAAGACCGTACCGAAATCGATGATGAAGACTTTCAGGCGCTGGCCTTTACCCGCTTCACCTTTCCCGGCCGCAACGGCAAACACTCCAAATTCATCTGGGACCTGAAGTGCTTCAGCGGTGTCGATCACATCGAAGAGCCGACCGAAGACGGTATATTCCGCCTCGTCAATGAGTATGGCGATGGGGAATGGAATGAGGAAGTCGATCAGGAAAACGGCAATTTCGATTATCTGATGGGTGCCGATGTCGAGTTCAGGAACCGGGCGGTTTACGAAGAGCTCAAATATTGGGGCCGCTGGCTCTCCGAGCAGGTGCAGGTCGATGGCTTCCGTCTCGATGCCGCCAAACATATTCCGGCCTGGTTCTTCCGCGACTGGGTCGGCCATATGCGCGAAACGGTCGATCCCGATCTTTTCGTCGTGGCGGAATATTGGCACCCCGATCTCGAGGCGCTGAAAAGCTATCTGGAACTCGTCGACAAGCAGCTGATGCTTTTCGATGTCGCCCTTCACCACAGCTTCCACGATGCCTCGAAACAGGGCGGCGATTTCGATATGCGCAGCATCTTCGATGGTTCGCTTGTCTCCGCCGTTCCCGACCATGCCGTCACGCTGGTCGACAATCACGACACGCAGCCGCTGCAATCGCTGGAAGCGCCGGTGGAGCCCTGGTTCAAACCTCTTGCCTATGCAATCATTCTGCTGCGCGAAGAGGGTGTGCCCTGCGTCTTTTATCCCGATCTGTTCGGCACGAGCTATACCGACACCGGCAATGACGGCAACGAGTATAAAATCGATATGCCCGCCATTGAATGCCTGCCGAAACTCATCGAGGCCCGCAGCCGTTTCGCCAACGGAGCCCAGACGGATATTCTCGACGATGCAAGCTGCATCGCCTTTATTCGCCACGGCGCCGCCGATGCGCCGGGCTGCGTGGTGGTGATGTCGAATGGCGAGCCCGCAGAAAAGCAGATCGATCTCGGTCCCGATCACGCCGGGGCGGTCTGGCATGACTTTCTCGGGCACCGTGAAGAACGAATTACCCTCGATGAGAGCGGCAAGGGCGTCTTTCCCACCAATGGCGGCAGCGTCAGCGTCTGGGTTGCCGCCGATTCCGAGTGA	MAGRTLLQFFHWYYPDGGKLWSEVAEKAESLAKMGITDIWLPPAYKGAAGGYSVGYDTYDLFDLGEFDQKGTVATKYGDRAALEHAGRTLKENGIRVIHDVVLNHKMGADEKEKVRVRRVNPEDRTEIDDEDFQALAFTRFTFPGRNGKHSKFIWDLKCFSGVDHIEEPTEDGIFRLVNEYGDGEWNEEVDQENGNFDYLMGADVEFRNRAVYEELKYWGRWLSEQVQVDGFRLDAAKHIPAWFFRDWVGHMRETVDPDLFVVAEYWHPDLEALKSYLELVDKQLMLFDVALHHSFHDASKQGGDFDMRSIFDGSLVSAVPDHAVTLVDNHDTQPLQSLEAPVEPWFKPLAYAIILLREEGVPCVFYPDLFGTSYTDTGNDGNEYKIDMPAIECLPKLIEARSRFANGAQTDILDDASCIAFIRHGAADAPGCVVVMSNGEPAEKQIDLGPDHAGAVWHDFLGHREERITLDESGKGVFPTNGGSVSVWVAADSE	PGPT0018575_2173	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-AMYLASE,PGPT0018575-amyA|malS-K01176	NA	NA
BMS010_00981	456	soxR	COG0789	Redox-sensitive transcriptional activator SoxR	ATGGAAAATACCGTATTCAAGCACAGCCTGACGGTTGGGGAGGTTGCCCGCCGGAGCGGCATTGCCGTGTCCACCATCCATTTTTATGAGGCGAAGGGGCTGATTGAAGGTTGGCGAACCGCCGGTAACCAGCGTCGTTATCATCGCGCCGTCTTGCGGCGTATTGCCATCATCCGCATCGCGCAGCGGGCGGGTATACAGCTCAGCATCATCAGGGATGCGATGGCCGATCTGCCGCAGGATCGGGTGGCAACGACGGCCGATTGGCGCAGGTTTTCCCAATCCTGGCGGGAAATGCTGCAGCTTCGCATCAACAGCCTTATCATGCTGCGCGATCAGCTTACCGGCTGTATCGGTTGCGGGTGCCTTTCGCTGGATGATTGTCCGTTGCGCAATCCGAACGATGTTCTGGCCGATGACGGCGCAGGTCCGCGCCGCCTCGTTTCTGCGGAATGA	MENTVFKHSLTVGEVARRSGIAVSTIHFYEAKGLIEGWRTAGNQRRYHRAVLRRIAIIRIAQRAGIQLSIIRDAMADLPQDRVATTADWRRFSQSWREMLQLRINSLIMLRDQLTGCIGCGCLSLDDCPLRNPNDVLADDGAGPRRLVSAE	PGPT0012955_769	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012955-soxR-K13639	NA	NA
BMS010_00982	2109	cirA	COG4771	Colicin I receptor	ATGGAATTGAAGTACCGCGGCCGCGAAAAGTCCGCGACGGTAATAAAGGCCGGTCTTTCGGCAGCAATGGCGGGAACGGCCCTTAGCATTGCTCTGCCCGTTTTTGCGCAGCAGGCGTCTGAGGGGAACACGGTTCTTCAGCAGATCGTCGTCACCGCATCCGGTTTCGAGCAGAATGTGAAGGACGCTCCGGCCAGCATCACGGTTGTGACGCGGGAAGATCTGGAAAAGGGGTCTTATCGCGATCTGACCGATGCCCTGCGGGAAGTTCAGGGTGTATCCGTCACCGGCATTGCCAATGAAAAGGATATTTTCATTCGCGGTTTGCCTGGTGCTTACACGCTGGTTCTGGTTGACGGCAAGCGACAGAGCACGCGCGATGCCCGCACCAACGGCAATTCCGGCTTTGAACAGAGTTTCGTGCCGCCGGTTTCGGCGATCGAGCGCATCGAAGTGGTGCGTGGGCCGATGTCCTCGCTTTATGGTTCGGATGCCATGGGCGGTGTCATCAACATCATCACCCGCAAGGTCGGCGATGTCTGGTCAGGTTCCGTTACCACCGAAGGCACGGTTCAGCAGCATTCCAAATTCGGCAATAGCGGCCAGGTCTCCTGGTACGCCAACGGACCGATCCTGAAGGACCAGCTCGGTCTGCAGCTCTGGGGCAGGGGTTTCACACGCGGCGAAGACCGTATTCTGAGCGGCACCACGGGCGCCAAGGAATATGATTTCAACGGTCGTCTGACGTTTACGCCGAACGAAGATCACGACATCTATCTCGAAGGCGGCAAGACGCGGCTGCGCCGCAGCGCCGAGCCCGGCGACACGCTGGCGGCAACCGACGCCAACGGCACCTACAATACCAATACGCGCGACCATTGGTCATTGTCGCATACCGGCCGCTGGGGGCCGACCACATCCGAATTCTCGTTCCAGCAGGAATGGGCGGAGCGTACCAACTTCACCAGAAATATCCGCACCGGCCGCGTGACAGAAAACCCGCGCTCGCCGGAAGTGCGTAACACCGTTCTCGATGGCAAGTTCACGACGCCGTTCGAATTGTTTGGCAACCACACGCTGGTCACGGGCGGACAATATTTCGAGGCGCGGCTGACCGACCAGAACCCGGGACGCCGCACCGGCCGCGACGAGACATTTTCGGCGACGCAATGGGCGCTCTTCCTTGAGGATGAATGGCGCATTGTCGATAATTTCGCGCTGACGGGCGGACTTCGTCTCGATAATCACGAGAAATACGGCAATCATTTCAGCCCGCGCCTTTATGGCGTCTGGAGCGCGACCGAGGAACTGACCATCAAGGGCGGCATCTCTACCGGTTTCCGCGCCCCGGAAATCCGCCAGATCGCACCGGGTTACGCCTATACGACGGGTGGTGGCGGTTGCACCTATGGCCCGAGCGGCACCTGCGGCGTGATCATCGGCGATCCCAACCTCGAGGCGGAAAAGAGCACGAGCTATGAAGTGGCTGCGCTTTGGGACAATGGCGACGTCGCTCTCGGCGCCACCTATTTCTATACCGATTTCAAGGACAAGATTTCCAACGCGCTGGTGCTCAATCCGGATGGAACACCGGCCCGCTGGAGCGAAGACCGCAACTATCGTCTCTGGTACAATTACAACATCGACGATGCGGTCATTCAGGGTGTGGAACTGACGGCGACATGGTATGCGACGCCGGACCTGACGCTGCGCGGCAACTATACCTATACCCATTCCGAACAGAAAACCGGCGACTATGAGGGCTTCCCGCTGGCGCGCACGCCGGAACATATGGCCAATCTGCGCGGCGACTGGGTGACCCCAATCGACGGTCTGGAAGCCTGGGCCTCGCTGAATTACCACGGATCGGAAATCAATGCCGGCCCGCGCATCGGCACCAACGGCACGCCGGTAACGATCAACGGCAAGGCCGGGCGTAAATATGACGCCTACACGACCCTCGATATCGGCGCGAAATATGCGGTTGCCGAAAATGTCTATCTCAATGCCGCCATTTATAATGTCTTCGACAAGGATGTCGGCACCGACGATTTCAACACCGTCATGGAAGGCCGCCGTTTCTGGATCAGCATGACAGCGAAGTTCTGA	MELKYRGREKSATVIKAGLSAAMAGTALSIALPVFAQQASEGNTVLQQIVVTASGFEQNVKDAPASITVVTREDLEKGSYRDLTDALREVQGVSVTGIANEKDIFIRGLPGAYTLVLVDGKRQSTRDARTNGNSGFEQSFVPPVSAIERIEVVRGPMSSLYGSDAMGGVINIITRKVGDVWSGSVTTEGTVQQHSKFGNSGQVSWYANGPILKDQLGLQLWGRGFTRGEDRILSGTTGAKEYDFNGRLTFTPNEDHDIYLEGGKTRLRRSAEPGDTLAATDANGTYNTNTRDHWSLSHTGRWGPTTSEFSFQQEWAERTNFTRNIRTGRVTENPRSPEVRNTVLDGKFTTPFELFGNHTLVTGGQYFEARLTDQNPGRRTGRDETFSATQWALFLEDEWRIVDNFALTGGLRLDNHEKYGNHFSPRLYGVWSATEELTIKGGISTGFRAPEIRQIAPGYAYTTGGGGCTYGPSGTCGVIIGDPNLEAEKSTSYEVAALWDNGDVALGATYFYTDFKDKISNALVLNPDGTPARWSEDRNYRLWYNYNIDDAVIQGVELTATWYATPDLTLRGNYTYTHSEQKTGDYEGFPLARTPEHMANLRGDWVTPIDGLEAWASLNYHGSEINAGPRIGTNGTPVTINGKAGRKYDAYTTLDIGAKYAVAENVYLNAAIYNVFDKDVGTDDFNTVMEGRRFWISMTAKF	PGPT0003780_1160	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|COLICINS,PGPT0003780-TC_FEV_OM2|cirA|cfrA|hmuR-K16089	NA	NA
BMS010_00983	1341	trpD_1		Anthranilate phosphoribosyltransferase	ATGGGACTGCCGACATCTTCCATGAGCCGCATCTTGCAGCAGCTGCGCGAAAGATATGGCGATCAGCTTTTTCTGCGCACCGGTCAAGGCCTGCGTCCCACCCCCTTTGCCGAAAACATGCGGCTGCGCATTCGTTCGCTGGCGGCGGAGGCCGAGAACCTTATCGACTATTCGCAGGAAAAACCCGCCGCCCCGGCCAACGCCAGTGCAAGCGGCTGGGAGCGGCCCGTGCTGATGAAGGCGCCGCCGCTTTCGCTTCGCCCCAGCGTTCTTCTGGAAGGTCAGCCAACACCGGAAAACATCGCCGACCGTCTTGCGCGCATCGGCCACAATGCCGATCCGCAGCAGAGGCTTGCCAAATACATCGCAACCTGCGCGATGGGCATCGGCAACAGCCGCCCGCTCAGCCATGTGGAAGCGATGGACGCGCTCTCTATCATTCTCGATGGCGATGCCGACCCGATACAGATAGGCGCGCTGCTCGCCACCATGAATTATCGCGGAGTGACCGCGGCGGAGCTTGCCGGTTTCATCGAAGCCATGTGGCGACATATAGAGAGGGACCAGCAAGCTCCTGCATCGGCGGATCTCGACTGGCCCGCTTATATGTCGCCGAAACATCGCGATGCGCCGTGGTTCCTCCATTCCGCGCGTCTTGTCGCCATGGCGGGATACAGCGTCCTGCTGCACGGGCATGTGGGGCAGGGAGAAAACGGCGGCAAGCTTGAACTTGCAGCACAGGCCTGCGGCATTCCCCTTTGCCACTCGCTTTCGCAGGCGGCGAAAGCCACAGCCTCGGAACGCATCGCCTACCTGCCGATCGGTGGTCTGTCCCTGCAGTTTCAAAGCCTGCTCGGCCTCCACGGCATTCTGGAGATGCGCCTGCCGCTCAACACGGTCGTGCATCTTCTCAATCCGCTTCGCGCCAGAAGCACGATCATCGGCGTCGCCCGCCCGTCCTATCAGGAACTTCATCGGGACACGGCGCGACTGCTTTCGGTGGAAAACCTCGCCATTCTCGGCAATACGCGGGATTTTGCGCAATTCACGCCGTTTCGCAGCACCCGGATTTTCGGTCTTTCAAAGGGCAGGGATGTGGAATTTATCGTTCCCGCACGCGAAACGCCGCCTGCCGAAATGCCGACCATGTTCACAACCTTCGAATATTGGCGCGCGGTCTGGACGGGCGCCGCAAGGGACGAAAGGGCAGAAACCATTATCATCTCGACGGCAGCCATCGCGCTGATGCTGGTCAACGATATGGCTCTGCCCTTTGAGGAAGCCTATGCCCGCAGCCTTCGGCTCTGGAACGACAGGGCGCGCAATCTCGTCAACGCCTGA	MGLPTSSMSRILQQLRERYGDQLFLRTGQGLRPTPFAENMRLRIRSLAAEAENLIDYSQEKPAAPANASASGWERPVLMKAPPLSLRPSVLLEGQPTPENIADRLARIGHNADPQQRLAKYIATCAMGIGNSRPLSHVEAMDALSIILDGDADPIQIGALLATMNYRGVTAAELAGFIEAMWRHIERDQQAPASADLDWPAYMSPKHRDAPWFLHSARLVAMAGYSVLLHGHVGQGENGGKLELAAQACGIPLCHSLSQAAKATASERIAYLPIGGLSLQFQSLLGLHGILEMRLPLNTVVHLLNPLRARSTIIGVARPSYQELHRDTARLLSVENLAILGNTRDFAQFTPFRSTRIFGLSKGRDVEFIVPARETPPAEMPTMFTTFEYWRAVWTGAARDERAETIIISTAAIALMLVNDMALPFEEAYARSLRLWNDRARNLVNA				NA	NA	NA	NA	NA
BMS010_00984	1200			hypothetical protein	ATGAGAACCGGGGGTGAGCTTCAAGAACGCAAAGCGGATGCGGAAAGCTGGATAAGGCAGGAGGGCCAGGACGCCGGCAAGGCCAGCTTCCCCGAACTGTTCTTCGATCTGGTCTTTGTTTTCGCGTTGATCCAGCTCTCCCACGCGCTGGCCAAGGATTTTGGGCCGACGGCGGCGCTTGAGGCCGGCATCCTGATATTGTCGCTCTGGTGGCTATGGATACACACCACCTGGATCACAAACCTGCTGAACACGGAAAAGGAGCCAGTCAGGATCCTGCTGTTCGTGCTGATGTTCGGCGGCGTTCTGCTGGCCATCGCGCTGCCGGAGGCTTTTGCGGAACAGGGCCTTGTCTTCGCCCTGATCTACAGCGTGATGCAAGTCGGTCGAAGCCTGTTCGCCCTCTATGCGTTCAGGGGTGAAGACCGGCAGTCTTATCTGGTCTTCGTGCGCGTGACGATCTGGCTCGTGGTATCGAGCCTGTTCTGGCTGGCCGGTGGGCTTGTCGATCTGGCGGATCGCATTCTCCTGTGGGGCATCGCACTTGCAATTGAATATGCCGGCCCCGCCTGCCGTTATGTCGTGCCGGGCGTAGCCTCGAGCGACGAGGACAGGCTGCATCTTTCCGGCGAGCATCTGGCGGAGCGATGTGCGCTCTTCGTCATCATCTGCCTTGGCGAAACGATCCTGACCACGGGACGCACGGCCACCGAATATATGAATTCGGGCCTGACGTTCATCGTCTTCTGCTCCGCTTTCGTCAGTACCGTGGCGATGTGGTGGATTTATTTCCATCACGGGCAGGAAGAGGCGTCGAGAAAAGCCGAGAATGCCGAAGAAAAGGCGAAGATCGCCCATAATCTTTTTAACTACGGGCATTTGCCCATCGTGGCCGGTATCATCCTGACGGCGGTGGGTGAAGATTTCAGCCTCTCCCATGCGCGAGAAGGCGCAACGATGCGCGAGGCGCTCGCCATTCTCGGCGGTCCGGTCCTGTTTCTGGCCGGCAATATCGGCGTCAAGATCGCCGCCGCCTATCAGCGACCGGTTTCGCATTTTGCCGGCGTGGCGGCGCTCTGCCTGCTTTTGCCGGTGCCGGGTATTCCGCTTTTCGTGCTGCAACTGGTGAGCACGGCAATTCTTCTGCTTGTCGCCCTTTGGGAATATCTGGCGCTGAAAAGGGCCGTCGCCAATGCCTGA	MRTGGELQERKADAESWIRQEGQDAGKASFPELFFDLVFVFALIQLSHALAKDFGPTAALEAGILILSLWWLWIHTTWITNLLNTEKEPVRILLFVLMFGGVLLAIALPEAFAEQGLVFALIYSVMQVGRSLFALYAFRGEDRQSYLVFVRVTIWLVVSSLFWLAGGLVDLADRILLWGIALAIEYAGPACRYVVPGVASSDEDRLHLSGEHLAERCALFVIICLGETILTTGRTATEYMNSGLTFIVFCSAFVSTVAMWWIYFHHGQEEASRKAENAEEKAKIAHNLFNYGHLPIVAGIILTAVGEDFSLSHAREGATMREALAILGGPVLFLAGNIGVKIAAAYQRPVSHFAGVAALCLLLPVPGIPLFVLQLVSTAILLLVALWEYLALKRAVANA				NA	NA	NA	NA	NA
BMS010_00985	285			hypothetical protein	ATGTTTCCCAGATCATTTATTATCTCAGCCGCACTCACCGCAATGACGAGCCTGCCTGCAATTGCCCAGCCTCTCGAGGTCAGCACGCTTGCGGTTTCCAGCGCCGACAGCATTCCACTTTCGCCCAAGGCTGTGACCCCGAACTACATTACCGACGTCTCTGGGAAGAAAGTCCGTCTGGTTGGGCCGCGCTTTTATCCCGACAATGCGCGGGCGCTGGAGTTTCCCGGCCGAAGGTCGAACCCGGTTGCATCGGGGAGCGAAGAGGCTTTGTCGCAACGGTGA	MFPRSFIISAALTAMTSLPAIAQPLEVSTLAVSSADSIPLSPKAVTPNYITDVSGKKVRLVGPRFYPDNARALEFPGRRSNPVASGSEEALSQR				NA	NA	NA	NA	NA
BMS010_00986	213			hypothetical protein	ATGAATTTTCCGGATGACATGGAACTGGCCGTCGCCCTCTACATGGCGGATAACGCCTTGCCCCGGGAAAGGGCTATCGAAAAGCTCCTGAGAGCGGAGCTCGAAAACACTGGCCATCTGCCCGGTGGCGAAGGTCGACCGCCGGAGATAGTCGGTGGGCAACCGAGCGCCAACTATGTTCAATATAGCTCCTACCTTGATGGGGATAGCTGA	MNFPDDMELAVALYMADNALPRERAIEKLLRAELENTGHLPGGEGRPPEIVGGQPSANYVQYSSYLDGDS				NA	NA	NA	NA	NA
BMS010_00987	1236			hypothetical protein	ATGTCGTTTGGCGTCCTCGCAACCCAGTTTGCCGCGCAGAAAAACAAGAAAATCGAAGCGGTCGATAAATGGAAACTCTATCGTTCGGTCTGCGAAGCCAGGCCATTGCTCGGCGTGACTGATCGCTCGCTCGCGGTTCTGAACGCGCTTTTGAGTTTTTATCCGAAGAACGAGCTTTCCAGCGAAGCCGGATTGGTCGTCTTCCCGTCGAATACGCAATTGTCACTCAGGGCCCATGGCATGGCCGAGCAGACATTGCGCCGGCATCTTTCGGCTCTTGTCGAGGCCGGTCTTATCATTCGCAAGGACAGCCCGAACGGAAAACGATACGCGCGCAAGCATAGGGGAGGGGAAATCAGCGAGGCTTACGGTTTTTCGCTGGCGCCGCTTCTTGCCCGCAAAGCGGAAATCGAGGAACTGGCCGAACGCATCGTCAGCGAGCGGCTCGATCTTCAGCGGCTTCGTGAAAATATCAGTCTTTGCCGCCGCGATATCCAGAAACTCTGCGAGATGATTGCCGCGAGGGGAGAAGTCGAAACCTTCGAAGGGTTTCAGACCCGCTACAATGCCATTGCCCGCTCTCTCGGCCGCAATTCCAAGCCTGCGGAGCTTCGGGAAATCGCCGGATTTTTGGCCTCTTTGCGCGCGGAAGTGACCAACTATCTGGAAAATATTGAAAAATCGGAAAAAACGGGCGGCAATGACTGCCAAAATGAGCGCCTCATAAAGAATTCAGAATCCGAATCCATATCTGAACGGCAAGATTTGTGCGAACCGGCAACCGTTGCACCTGCCAGCACAGCAAGCACCCAGCCGGCATATGTGGCGCCCGTCAGTGCAAAAGCTTCGCCGCAGTCAGCAAAGCCTGTTCTTCATAAGCAATTTTTTGTTCCTGATATTGTTTTGGTTTTGAAAGCTTGCCCGGATATCTCGCTCTATGCCCCAGGCGGAGCGGTTACCGGATGGCGCGATCTTGAAGTGGCGACATCCGTCATCAAAACCATGTTCAACATCAGCCAGTCGGCGTATCAGGATGCCCTCCTCACATTCGGCCGACAGGGAACGGCAGCCATTCTCGCATGCCTTTTGCAGAAAGCGGACCAGATAAGCTCGCTCGGCGGATATCTGCGTAATCTGACCCGTAAGGCGCAGGAAGGCGGCTTCGATGTGCAGACAATGCTTCTGGCGCAGTTGCGAGGGCGTAAGGACACCATGGAGGCGAACATGCTTTCGTGA	MSFGVLATQFAAQKNKKIEAVDKWKLYRSVCEARPLLGVTDRSLAVLNALLSFYPKNELSSEAGLVVFPSNTQLSLRAHGMAEQTLRRHLSALVEAGLIIRKDSPNGKRYARKHRGGEISEAYGFSLAPLLARKAEIEELAERIVSERLDLQRLRENISLCRRDIQKLCEMIAARGEVETFEGFQTRYNAIARSLGRNSKPAELREIAGFLASLRAEVTNYLENIEKSEKTGGNDCQNERLIKNSESESISERQDLCEPATVAPASTASTQPAYVAPVSAKASPQSAKPVLHKQFFVPDIVLVLKACPDISLYAPGGAVTGWRDLEVATSVIKTMFNISQSAYQDALLTFGRQGTAAILACLLQKADQISSLGGYLRNLTRKAQEGGFDVQTMLLAQLRGRKDTMEANMLS				NA	NA	NA	NA	NA
BMS010_00990	1014	noc_1		Nucleoid occlusion protein	ATGAGCAGAAAACAGATTTTCGCCAATCTCGGTACGCCGGGCGCCGACAGCAACGAGGCTGCCACCGAGCGGTCGCGTCCGCGTATCCGGCCCATCCTCGGTTCTCCTGAACTCGTGACGGATGTTCTGAATTCCCCGGTCGGCATGATCGGCCAGTCGCTCAACGAAGTATCGGAACGCGCCAAGCGGGCAGAAGAGATCGAAAAGCAGCTCGCCGAAGGTCTTACGATCGTTTCGCTCAACCCTGCCGACATCGATCCCTCTTTCATACCGGATCGCATGCCAGCCTCGGAAGAGGCGGATGCTGGCCTGATAGAGGCCATTCGTGAACAGGGCCAGCAGGTTCCCATTCTGGTGCGCCCGCATCCCGAATTCCCCGGCCGTTATCAGGTCGCCTTCGGCCATCGTCGCCTGCGCGCCGTTTCCAGCCTCGGTATTCCGGTCAAGGCGGTCGTTCGTGATCTCAGCGACGAGCAGCTTGTCGTTGCCCAGGGACAGGAAAACAACGAGCGCCGCGACCTCACCTATATCGAAAAGGCGCGTTTTGCCCAGAAACTGCAAATGCGGTTTCCTCGCGATACGATCATGGCCGCCATGTCGCTGCACAAGGGCGATCTCTCCAACATGCTTTCGGTTGTCGGCCGTATTCCCGAAGATTTGGTCGATCTGATTGGCCCGGCCCCGACTGTCGGCCGTCGTAACTGGATGGATCTTGCCGATCAGCTTTCCTCCTCTCAGGTCAAGGAAGCAGCCCGCGCCTATGTCAAGGACGCATCGGTTGCCGCCCTGCCATCGGAAGAACGTTTCAAGTCGCTTCTGGATTTTCTGAAGCCCAAGGCGCAGGCGAAAAAAACCGGCGTCTGGTCATCGCAAACCGGCGGTCGACTGGCAAAGGTGGTCGAAAGCGACCGCAAGCTGGATATCTCCATCGACAAGAACGAAGCCCCGGAATTTGCCGAGTTCGTTCTCGAACATCTTCAGACGCTGTTTGCCGAATACCGGTCCAAGCAGTGA	MSRKQIFANLGTPGADSNEAATERSRPRIRPILGSPELVTDVLNSPVGMIGQSLNEVSERAKRAEEIEKQLAEGLTIVSLNPADIDPSFIPDRMPASEEADAGLIEAIREQGQQVPILVRPHPEFPGRYQVAFGHRRLRAVSSLGIPVKAVVRDLSDEQLVVAQGQENNERRDLTYIEKARFAQKLQMRFPRDTIMAAMSLHKGDLSNMLSVVGRIPEDLVDLIGPAPTVGRRNWMDLADQLSSSQVKEAARAYVKDASVAALPSEERFKSLLDFLKPKAQAKKTGVWSSQTGGRLAKVVESDRKLDISIDKNEAPEFAEFVLEHLQTLFAEYRSKQ	PGPT0014815_2860	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014815-parB|spo0J|yyaA-K03497	NA	NA
BMS010_00991	1077			hypothetical protein	ATGCGCCATTTTTCACCGGCGGAAACCGCACGGTTGATCGGCATCGGCGAAGCCTATCTTCGCCAGATCGCCGCTGAGCGTCCGGAGCTCGATGCGGCGCAGGCTTCCGGTCGTCGTTCCTATTCCGTCGAGGATATGGACGAGATCAGAAAATTCCTCGATCAGGGCGCGCGTGGCACACGCCGTTATCTGCCGCACCGCCGTGACGGCGAAGAGTTGCAGGTCATTGCGGTCATGAACTTCAAGGGTGGCTCGGGAAAAACCACGACATCTGCGCATCTGGCGCAATATCTGGCGCTGCGCGGTTACCGGGTACTTGCCATCGATCTCGATCCGCAGGCCAGTCTGTCCGCTCTCTTCGGTCATCAGCCGGAGATTGATGTCGGTCCGAATGAAACGCTTTACGGCGCGATCCGCTACGACGATGAACGCCGACCGATCGCGGAGATCGTTCGTGGTACCTATATTCCCAATCTCCATATCGTTCCGGGCAATCTGGAACTTATGGAATTCGAACACGACACGCCCCGCGCGCTGATGCGTCGCGCACCGGGAGATACCTTGTTTTTTGCCCGCATCGGCCAGGCAATAGCCCAGGCGCAGAACTTCTATGACGTTGTGGTCATCGATTGCCCGCCACAGCTCGGTTATCTGACACTTTCGGCGCTGACGGCTGCCACATCGGTTCTCGTCACCGTTCATCCGCAAATGCTCGATGTGATGTCGATGAACCAGTTCCTTGCCATGACCGGCGATCTTCTCGCTGAAATCGGCAGGGCGGGCGCGCGTTCCGACTACAACTGGATGCGTTACCTGATCACCCGTTTTGAACCGAGCGATGGGCCGCAAAACCAGATGGTCGCGTTCCTGCGCTCGATTTTCGGTGAAAACGTCCTCATCCACCCGATGCTGAAGAGCACGGCCGTCTCGGATGCCGGACTGACCAACCAGACACTTTTTGAAGTGGAAAGAACCCAGTTCACCCGGTCCACCTATGACCGCGCACTGGAAGCCATGAACAACGTAAACGCTGAAATCGAAGGACTGATTAAAAAAGCGTGGGGTAGGGCAGCATGA	MRHFSPAETARLIGIGEAYLRQIAAERPELDAAQASGRRSYSVEDMDEIRKFLDQGARGTRRYLPHRRDGEELQVIAVMNFKGGSGKTTTSAHLAQYLALRGYRVLAIDLDPQASLSALFGHQPEIDVGPNETLYGAIRYDDERRPIAEIVRGTYIPNLHIVPGNLELMEFEHDTPRALMRRAPGDTLFFARIGQAIAQAQNFYDVVVIDCPPQLGYLTLSALTAATSVLVTVHPQMLDVMSMNQFLAMTGDLLAEIGRAGARSDYNWMRYLITRFEPSDGPQNQMVAFLRSIFGENVLIHPMLKSTAVSDAGLTNQTLFEVERTQFTRSTYDRALEAMNNVNAEIEGLIKKAWGRAA				NA	NA	NA	NA	NA
BMS010_00992	630			hypothetical protein	ATGCGGATGCGGCACCAGACCACGACGGGACAGGACATGGATTGGCCCTTGATGTCCTTTTCCCCGCAAAGTCAAAACCTGATCGATCATCGTCAGGCCCGACCCCAGAATACAAATGCGATCCCCTGCTTTGATTTTAGACAACCATCCCGGCTGCCAGCAGTGGCCAATGATACGTTGCGACCCCTCTTCTTCACTTGCGACAGTTTGCACCGGCAAACTCGCAGCGCCGACACCCAGACACAGAACGACATTCTGCGCGCGCAGCTGCTCACCATTTTCCAGTGTAAAAGAAAATCCGCCTGCACCATCCGGCCGACAGGCCGAAGCCCTGGCCCGAACGAAGTCCACCCGGGCCCGTTGCTCCCTGCTTCTGAGCAAGCCAGCCAACCTGTCGCGAAGATAAAGGCCATAGTCACCGCGCGAGGCGAACAGCAGGGGATTGTCCGCGATCCCGTTTTCCGCCAACCAGTCGACAAAGTCATCAGGCCTGTCAGGGAAGACACTCATCCGCCCGGCCGGCACATTCAGACGATGATAGGGCAGTTCCGTGCGATAGGCGGTGCCGCGCCCGAAATCCGACTCATCACCGACGATAGCGATAGAGGCTTCCGCCGGCAGAGACGATAA	MRMRHQTTTGQDMDWPLMSFSPQSQNLIDHRQARPQNTNAIPCFDFRQPSRLPAVANDTLRPLFFTCDSLHRQTRSADTQTQNDILRAQLLTIFQCKRKSACTIRPTGRSPGPNEVHPGPLLPASEQASQPVAKIKAIVTARGEQQGIVRDPVFRQPVDKVIRPVREDTHPPGRHIQTMIGQFRAIGGAAPEIRLITDDSDRGFRRQRR				NA	NA	NA	NA	NA
BMS010_00993	357			hypothetical protein	GTGCGTTACCGCCGCAGGCATACGCAGATATTGAAGGAACTGCAGGTCGATTGGGTCATCAATTGCACGGGAATGGAGCGGGCCGGCATCGGCCATTCGCGGCTTCTTGAAACGATGCGTGGGGACGGTGTTATTTTGCTCGATCCCTTCGGGCTCGGTGTAGAAGTTGACGGCCAGTCCCGTTTGCTGCGGACTGACGGACGAAGCTGGCCCGGTCTTTTTGCCGCCGGTGCGTTGACGGCGGGCCGCTTCTGGGAAATTACCGCCGTTCCGGACATTCGTGTGCAGGCGCAGAAGATCGCGCAAGAGATCACGCACAGAGTGGCAGCCAGCGATCGGCTTTCCGCACGGGGATGA	MRYRRRHTQILKELQVDWVINCTGMERAGIGHSRLLETMRGDGVILLDPFGLGVEVDGQSRLLRTDGRSWPGLFAAGALTAGRFWEITAVPDIRVQAQKIAQEITHRVAASDRLSARG				NA	NA	NA	NA	NA
BMS010_00994	396	yabJ_1	COG0251	2-iminobutanoate/2-iminopropanoate deaminase	ATGCAAAAGCCGAAACTGATACGATATGAGGCGGCGGACAATCAGGCTGGTGGACAGCGGCGACCATTTGCCAAGGCCGTCCGGGCCGGCGATTTCGTTTATGTTTCCGGGCAGGTGCCGACCGTCGATGGCGAGGTGGTGACCGGCGGAATCGTGGCGCAGACCGAGCAGGTGGTTGCGAATATCAAGGATGTTCTGGCGCTTGCCGATTGTACGCTTGCGGATGTGGTCAAGGTCAATGTCTGGCTGGACGATGCCCGGGATTTTTCGAGCTTTAACGCTGTCTTCCAGAAATATTTCATCGATCATCCGCCCGCACGCTCCACCGTGCAATCTCCGTTGATGGTCGATGCCAAGGTGGAAATGGACGTTATCGCCTATAAGCCGCTGACCTGA	MQKPKLIRYEAADNQAGGQRRPFAKAVRAGDFVYVSGQVPTVDGEVVTGGIVAQTEQVVANIKDVLALADCTLADVVKVNVWLDDARDFSSFNAVFQKYFIDHPPARSTVQSPLMVDAKVEMDVIAYKPLT	PGPT0020030_4713	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020030-ridA|tdcF-K09022	NA	NA
BMS010_00995	1092			D-threonine aldolase	ATGATGACCTATCCCTGGCCTGATGCGGGCACACCCCTCAATGCGATTTCGACGCCGATGCCTGTCATCGACGAGGACAGGCTCGCCGCCAATATCCTCAGGGCGCAATCTTATCTGGATGACCACGGCAAGGCCTTTCGGCCGCATATCAAGACGCACAAGATACCCGCCGTCGCAAAGCAGCAGCTTCAGGCCGGCGCCATCGGCATTAATTGCCAGAAAGTCAGTGAGGCGGAGGTTTTTGCGGATGCCGGTTTTGATGACATTCTGATTACCTATAATATTCTCGGTGCAGCAAAGCTGTCGCGGCTGAAGGCGCTGAATGCGCGCATCGGCCGGTTGAGCGTGGTTGCCGATAGCGTGGTCACGATTGCCGGCCTTGCCGATACATTCGATGCGGCAAGGCCGCTTGCCGTACTGGTCGAATGCGACACGGGCGGCAAGCGCTGTGGTGTGCAGACGCCGGAAGCGGCACTGGCGCTTGCGGAAAAGATCGCGGCGGCACCGGGCCTCACATTCAAGGGCATTTTGACCTACCCGGCACCGGGAGGCGCCGCGACGGTGGAGAACTTCCTTCGCGAGACCATGGCATTGCTGGCGGCAAAGGGCATGGATTGCCCGGTGCGATCCAGCGGCGGTTCTCCGGATTTTTACGCCGCCCATCTCGTTCCTTCCGCCACCGAACATCGGGCCGGCACCTATGTCTATAATGATCGCGCCATGCTGCGCGCCGGACATTGCACGGCGGACGATCTCGCCATGCATGTTCTTGCCACCGTCGTATCGCGACCGACAGCCGATCGGGCGGTGCTGGATTGCGGCTCCAAGGCCCTGACCTCGGATCTTCTGGGTTTCAGCGATTACGGGCTGCTCGAAGGCTATGAAGGAGCGAAAATCATCTCGCTTTCGGAAGAACATGCGGTTGTCGATCTATCCGGCTGTGCCTCGGGCCGGCCTGAAATCGGCGATGTGGTCAAGGTCGTTCCGAACCACACCTGCGTTGTCAGCAATCTTTTCGACAGGATGATTTTCCATCGAAACGGCGTTGTAACGCGGGTTGAGCAGGTCGCCGCCCGCGGTACGGTGTGGTAA	MMTYPWPDAGTPLNAISTPMPVIDEDRLAANILRAQSYLDDHGKAFRPHIKTHKIPAVAKQQLQAGAIGINCQKVSEAEVFADAGFDDILITYNILGAAKLSRLKALNARIGRLSVVADSVVTIAGLADTFDAARPLAVLVECDTGGKRCGVQTPEAALALAEKIAAAPGLTFKGILTYPAPGGAATVENFLRETMALLAAKGMDCPVRSSGGSPDFYAAHLVPSATEHRAGTYVYNDRAMLRAGHCTADDLAMHVLATVVSRPTADRAVLDCGSKALTSDLLGFSDYGLLEGYEGAKIISLSEEHAVVDLSGCASGRPEIGDVVKVVPNHTCVVSNLFDRMIFHRNGVVTRVEQVAARGTVW				NA	NA	NA	NA	NA
BMS010_00996	1479			hypothetical protein	ATGCGCATCTTCACGGCGTCACTCGCCACCGAAACCAACACGTTTTCACCTGTCCCGACGGATATGGATGCCTTTCGCGCGGCTTTTTATGCCGGGCCGGGGGAACATCCCGAAACGCCGACGCTCTGCTCGTCGCCAGTGCCGATCTTGCGCCGTCGTGGTAAAGCGGAAGGGTTCACGGTAATAGAGGGAACTTCCTGCTGGGCGGAACCGGCGGGCCTCATCCAGCGCCAGACCTATGAAACGCTGCGGGATACGATTCTCGCAGAACTCAGCGCCGCAATGCCGATCGATGCGGTGGTGCTCGGTCTGCACGGCGCCATGGTGGCACAGGGTTATGACGATCCGGAAGGGGATTTCCTGTCGCGCGTCCGCGCATTGGTCGGACCGGATGTGCTGGTTGCGGCGGAATTCGATCCGCACAGCCATCTGACGCCGCTTCGGGTCAAAAATCTCGATATAATGGCGACGTTTCTGGAGTTTCCACATACGGATTTCGAAGAGCGCGGCGAGCATGTAGTGGAAATGGCGCTGCGCACGCTTCGGGGGGAGATCAAGCCGGTCATCTCCACTTTCGATTGCCGCATGATCACCATTTATCCCACCAGCCGCGAGCCGATGCGCTCTTACGTCGACCGACTGAAGGCGATGGAAGGCAGGGATGGCATCCTGTCGATCTCCGTCATTCACGGTTTTATGGCGGGCGATGTGCCGGATATGGGAACGCGCATCGTTGTCGTGACCGATAATGACAGGGCAAAGGGCGATGCGCTGGCCGAAAAGCTCGGCCATGAGCTTTATGCCATGCGAAAACTGACCGCCATGCCGATGCTGGATACGGAATCGGGTCTCGACCAGGTTCTTGCCATTCGCAGCAACAATCCGGACAGGCCGGTCGTCGTATCGGATATCTGGGACAATCCGGGCGGCGGTGTCGCCGGTGACGCCACCCATATTCTGCGGCGCATGGTGGAGCGCGGCATGGACAATATCGCCGTCGCGACGATCTGGGACCCGATTGCGGTGTCTTTCTGTCATGCGGCGGGCGAGGGCGCCGAGATCGATCTGCGCATCGGCGGCAAATCCAGCCCGGAAGGCGGCGAGCCGCTTGATTTCCGCATAAAGGTGATGCGCACGGCCGAGGCCGGCTGGCAGAGTTTCCGCAACAGCCGCGTCACGCTCGGCCGTGCCGCCGTCGTTCGGCCGCTCGGTACGCAGATCGATATCATCCTCATCACCAGCCGCACGCAAACTTATGAGCCGGATATCTTTTCCAACCTCGGCGTCGATTTTGCGAAAAAAGACGTGCTGTTGGTCAAGTCCACCAACCATTTCCACGCGGGGTTTGCGCCGGTCGCCTCCGAGATCGTTTACATAGCGGCTCCGACGTCTTATCCGACCGATCCGGCGAAAACGCCCTATCGCAAGGCGAGCCTGGAGCTTTGGCCGCGGGTGGCCGATCCGCTGGGGCTGGACTGA	MRIFTASLATETNTFSPVPTDMDAFRAAFYAGPGEHPETPTLCSSPVPILRRRGKAEGFTVIEGTSCWAEPAGLIQRQTYETLRDTILAELSAAMPIDAVVLGLHGAMVAQGYDDPEGDFLSRVRALVGPDVLVAAEFDPHSHLTPLRVKNLDIMATFLEFPHTDFEERGEHVVEMALRTLRGEIKPVISTFDCRMITIYPTSREPMRSYVDRLKAMEGRDGILSISVIHGFMAGDVPDMGTRIVVVTDNDRAKGDALAEKLGHELYAMRKLTAMPMLDTESGLDQVLAIRSNNPDRPVVVSDIWDNPGGGVAGDATHILRRMVERGMDNIAVATIWDPIAVSFCHAAGEGAEIDLRIGGKSSPEGGEPLDFRIKVMRTAEAGWQSFRNSRVTLGRAAVVRPLGTQIDIILITSRTQTYEPDIFSNLGVDFAKKDVLLVKSTNHFHAGFAPVASEIVYIAAPTSYPTDPAKTPYRKASLELWPRVADPLGLD				NA	NA	NA	NA	NA
BMS010_00997	570	ves_1		Protein Ves	ATGACCCTGCTGCGCGCAAGCGATTACAAGCGAATGCCCTGGAAAAACGGCGGCGGTGAGACGGTGGAAATCGCCATCTTCCCACCCGCGTCTTCCGTCGAGAATTTCGACTGGCGCATCAGCATGGCGACGGTGACGAGCGACGGGCCGTTTTCGATCTTCCCCGGCATAGACCGCACCCTCTCCATTCTTGAGGGAAACGGCATGGCGCTGGCAATTGCGGCCGGCGATCCGCTGTTGCTGACAATGGAAAGCCCACCCCTGCCCTTTCCGGCCGATGTTCCCGTGAATGCGACCCTGCCCGGTGGCGCGATCACCGATCTGAACGTCATGACCCGCCGCTCGCGCTTTCGTCATGTCGTTAAAAGGCATTCCGGCCCGTTTTCGGGAAAAGCCGCCGGAAACACGACGCTTGTTCTGGCGCTCGACCCGCTGGCGGTTTTAACCGGTGAAGGCGAGAACCGATTGGGGAAGCTGGATGGTCTGCTGATCGAAGGCGGTTTACCGTTCACCGTCGAAGGAGATCGAAGCGAAAGCGCGTTTTTCCTGATCACCCTCGAGCGTCTCTGA	MTLLRASDYKRMPWKNGGGETVEIAIFPPASSVENFDWRISMATVTSDGPFSIFPGIDRTLSILEGNGMALAIAAGDPLLLTMESPPLPFPADVPVNATLPGGAITDLNVMTRRSRFRHVVKRHSGPFSGKAAGNTTLVLALDPLAVLTGEGENRLGKLDGLLIEGGLPFTVEGDRSESAFFLITLERL	PGPT0020255_823	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MAINTENANCE	CE-BACTERIAL_FITNESS-HISTIDINE_REPLETION_RELATED_FITNESS,PGPT0020255-hutD|ves-K09975	NA	NA
BMS010_00998	1674	hutU_1	COG2987	Urocanate hydratase	ATGAACAATCCACGCCACAATATTCGCGATGTCCGCTCGCCGCAGGGCACTGACCTCAATGCCAAAAGCTGGATGACGGAAGCGCCGCTGCGCATGCTGATGAACAATCTCGACCCTGACGTGGCCGAGCGCCCGCATGAGCTGGTGGTTTATGGCGGTATCGGCCGCGCCGCCCGCACCTGGGACGATTTCGACCGTATCGTCGCGACGCTGAAGGATCTGAACGAGGATGAAACCCTCGTCGTGCAGTCCGGCAAGCCGGTCGGCGTGTTCCGCACCCATAAGGACGCGCCGCGCGTCCTGATCGCCAATTCCAACCTTGTGCCGCATTGGGCGAACTGGGATCATTTCAACGAGCTGGATAAGAAGGGCCTTGCCATGTACGGCCAGATGACGGCCGGTTCGTGGATCTACATCGGTACGCAGGGCATCGTGCAGGGTACCTATGAAACCTTCGTCGAGGCCGGCCGCCAGCATTATGACGGCAACCTGAAGGGCAAGTGGATTCTCACCGGCGGTCTCGGCGGCATGGGCGGCGCACAGCCGCTCGCCGCCGTCATGGCCGGCGCCTGCTGCCTCGCCGTCGAATGCGATGAAACCCGCGTCGATTTCCGCCTGCGCACCCGTTATGTCGATGCGAAGGCGCATACACTCGATGAGGCACTGGCCCTGATCGACCAATGGACCAAGGCGGGCGAGGCGAAATCCGTCGGCTTGATCGGCAATGCGGCGGAAATCTTCCCGGAACTCGTCCGTCGCGGCGTTCGTCCCGATATCGTTACCGACCAGACCTCGGCGCACGATCCCGTCCATGGGTACCTTCCGGCCGGATGGACCGTTGCCGAATGGCGCGCCAAGCAGGAAAGCGACCCAAAGGCCGTTGCGGCTGCCGCCCGCGCCTCGATGAAGGTGCATGTGCAGGCCATGGTCGATTTCTGGAACGCCGGCGTTCCCACGCTCGATTACGGCAACAATATCCGCCAGGTCGCAAAGGATGAGGGCCTCGAAAACGCCTTCGCCTTTCCGGGCTTCGTGCCGGCCTATATCCGCCCGCTGTTTTGCCGCGGCATCGGCCCGTTCCGCTGGGCGGCCCTTTCCGGCGATCCGGAAGACATCTACAAGACCGACGCCAAGGTGAAGGAACTGCTGCCAGACAACAAGCACCTGCACAACTGGCTGGACATGGCGCGCGAGCGCATCGCGTTTCAGGGCCTGCCGGCGCGCATTTGCTGGGTCGGCCTTGGCGACCGCCACCGTCTCGGCCTCGCCTTCAACGAAATGGTGAGGAACGGTGAGCTGAAGGCGCCGATCGTCATCGGACGCGACCATCTGGATTCCGGCTCTGTCGCCTCGCCCAACCGCGAGACCGAGGCCATGAAGGATGGCTCGGACGCCGTTTCCGACTGGCCGCTCCTGAACGCGCTGCTCAACACCGCATCCGGCGCGACCTGGGTGTCGTTGCACCACGGCGGCGGCGTCGGCATGGGCTTCTCGCAGCATTCCGGCATGGTCATCTGCGCCGATGGCACCGACGATGCCGCTCGCCGGCTGGAGCGCGTGCTGTGGAATGACCCGGCAACCGGCGTCATGCGCCATGCCGATGCCGGTTACGACATCGCCGTGGAATGCGCCAAGGAACAGGGCCTGCGCCTGCCCGGCATTCTCGGCAATTGA	MNNPRHNIRDVRSPQGTDLNAKSWMTEAPLRMLMNNLDPDVAERPHELVVYGGIGRAARTWDDFDRIVATLKDLNEDETLVVQSGKPVGVFRTHKDAPRVLIANSNLVPHWANWDHFNELDKKGLAMYGQMTAGSWIYIGTQGIVQGTYETFVEAGRQHYDGNLKGKWILTGGLGGMGGAQPLAAVMAGACCLAVECDETRVDFRLRTRYVDAKAHTLDEALALIDQWTKAGEAKSVGLIGNAAEIFPELVRRGVRPDIVTDQTSAHDPVHGYLPAGWTVAEWRAKQESDPKAVAAAARASMKVHVQAMVDFWNAGVPTLDYGNNIRQVAKDEGLENAFAFPGFVPAYIRPLFCRGIGPFRWAALSGDPEDIYKTDAKVKELLPDNKHLHNWLDMARERIAFQGLPARICWVGLGDRHRLGLAFNEMVRNGELKAPIVIGRDHLDSGSVASPNRETEAMKDGSDAVSDWPLLNALLNTASGATWVSLHHGGGVGMGFSQHSGMVICADGTDDAARRLERVLWNDPATGVMRHADAGYDIAVECAKEQGLRLPGILGN	PGPT0020250_1827	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020250-hutU-K01712	NA	NA
BMS010_00999	804			hypothetical protein	ATGAACGGACCCTTCACGCTTCACCAGGGCACCTCGCCCATCATCCTCGGACTACCTCACACCGGCACGGATGTTCCGGCTGAGATTTGGGATCGTCTCAACGATAACGGCAAGATTCTCGCCGATACGGACTGGTATATCCATGAGCTCTATGCCGGCCTTCTAGAGGATGCGACAACCGTAAGGGCGACCTTCCATCGTTATGTGATCGACGCCAACCGCGATCCGGCCGGGGTCAGCCTTTATCCGGGCCAGAACACAACCGGGCTTGTTCCGGAGACCGATTTCGACGGCGAGCCGATCTGGACTGAAGGACAGGAACCCGCAGCGGACGATATCGCCTATCGTCTGGAAAACTTCCACGCGCCCTATCACGCGGCCCTTGCGGCGGAAATCGAGCGGGTCAAATCCATCCACGGCATCGCCATTCTCTATGATTGCCATTCGATCCGTTCGCATATTCCCTTCCTGTTCGAAGGCAAGCTGCCGGATTTCAACATCGGCACGGATATGGGCAAGACCTGCGATCCGACCATCGAAAAGATCGCCGTCGAGGTGAGCGCCGCAGCGGAGGGCTACGACAGCATTCTGAACGGTCGTTTCAAGGGCGGCTGGACGACGCGCCATTACGGAAAACCGCAGAGCGGCGTGCACGCCATTCAGATGGAGCTGGCGCAATCCACCCATCTTCAAAGCGAGACGCCGCCTTTTGCCTATGACACGGGCAAGGCCGAACGGCTTCGCTCCCATCTCAAAACCATTCTCACGCGCATGGAAAAATTTGCGCTCGACACGAAACGATAA	MNGPFTLHQGTSPIILGLPHTGTDVPAEIWDRLNDNGKILADTDWYIHELYAGLLEDATTVRATFHRYVIDANRDPAGVSLYPGQNTTGLVPETDFDGEPIWTEGQEPAADDIAYRLENFHAPYHAALAAEIERVKSIHGIAILYDCHSIRSHIPFLFEGKLPDFNIGTDMGKTCDPTIEKIAVEVSAAAEGYDSILNGRFKGGWTTRHYGKPQSGVHAIQMELAQSTHLQSETPPFAYDTGKAERLRSHLKTILTRMEKFALDTKR				NA	NA	NA	NA	NA
BMS010_01000	213			hypothetical protein	ATGATGAGTACTTTATCCTTCACTGCCGTAGGGTTACCCCCCTCTGCCCTGCCGGGCATCTCCCCCTCAAGGCGGGAGATCAGATGCCGCACCCGCTCGTTCCCAGATATTGTGACGCAAGGCATTCGCCGCTTGCCGATCTCCCCCCTTGAGGGGGAGATGCCCGGCAGGGCAGAGGGGGGTAACCCCACGGCAGAAGAGGCCAATCGATGA	MMSTLSFTAVGLPPSALPGISPSRREIRCRTRSFPDIVTQGIRRLPISPLEGEMPGRAEGGNPTAEEANR	PGPT0008555_172	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008555-ribD-K11752	NA	NA
BMS010_01001	1545	hutH_2		Histidine ammonia-lyase	ATGACCATGAAGACCATCACGCTTCACCCCGGCAATGTCACCTTAGCCGATCTCGCCGAGATATACTGGGAGAACGGCAGCGCCAAACTCGACCGCAGCTTTGATGCAGGCATTGAAAAGGCGGCGGCCCGCATTGCGGAGATCGCTGCCGGCAATGCGCCGGTCTATGGCATCAATACCGGTTTCGGCAAACTCGCTTCCATCAAGATCGACGCGGCCGATGTAGCGACGTTGCAGCGCAATCTCATCCTGTCGCACTGCTGCGGGGTCGGCGCGCCGCTTCCTGAAAATGTCGTGCGGCTGATCATGGCGCTGAAGCTGGTTTCGCTCGGTCGCGGCGCATCCGGCGTGCGGCTGCAACTTGTGCGGCTGATCGAAGCCATGCTGGAGAAGGGCGTCATCCCCGTCATTCCCGAAAAGGGTTCGGTTGGGGCATCAGGCGATCTCGCGCCGCTCGCCCATATGGCGGCGGTGATGATGGGCGAAGGCGAGGCCTTTTATGCGGGTGCGCTTCTGCCGGCCGGCGAAGCGCTTGCGAAAGCCGGACTGACCCCGGTTGTGCTTGCCGCCAAGGAAGGGCTGGCGCTGATCAACGGCACGCAGACTTCGACGGCGCTGGCGCTGGCCGGCCTTTTCCGAGCCCACCGCGCAGCGCAGGCTGCGCTGATTACCGGTGCGCTTTCCACCGATGCCGCCATGGGGTCTTCCGCGCCTTTCCATCCCGATATTCACAGCCTGAGGGGTCATAAGGGCCAGATCGACGCGGGAGCTGCGCTTCGTAATCTGCTGGAAGGTTCGGAAATCCGCGTCAGCCATATCGAGGGTGACGAGCGGGTGCAGGATCCCTATTGCATTCGTTGCCAGCCGCAGGTGGATGGCGCTTGCCTCGATCTTCTGCGGCAGGTGGCCCGCACGCTGGAAATCGAAGCCAATGCCGTGACCGACAATCCGCTGGTGCTTTCAGACAATTCCGTCGTCTCCGGCGGCAACTTCCACGCCGAACCGGTCGCCTTTGCCGCCGATCAGACGGCGCTTGCCATTTGCGAGATCGGCGCGATCGCCCAGCGCCGTGTGGCGCTGCTGGTCGATCCGGCCCTTTCTTATGGCCTTCCGGCCTTTCTTTCGAAGAAGCCGGGCCTGAATTCCGGTCTGATGATCGCCGAAGTCACCTCCGCCGCGCTGATGAGCGAGAACAAGCAGATGGCGCATCCGGCCTCGGTGGATTCCACACCGACCTCCGCCAATCAGGAAGACCATGTCTCCATGGCCTGCCATGGCGCGCGCCGCCTGCTGCCGATGACGGACAATCTCTTCGCCATTCTCGGCATCGAGGCGCTTTCGGCCGTGCAGGGCGTGGAACTGCGCGGGCCGCTGAAAACGAGCCCCGAACTGCAAAAGGCGATTGCGGCGTTGCGCGCGGCGGTCCCTTCGCTGGAGGAAGACCGCTATATGGCGCCGGACCTGAAGGCTGCGGCGGACTTGATTGCCTCCGGCGCGCTGGTCGCGACGATTTCGGACGGCATTCTGCCGAAGCTGGAGGTTTGA	MTMKTITLHPGNVTLADLAEIYWENGSAKLDRSFDAGIEKAAARIAEIAAGNAPVYGINTGFGKLASIKIDAADVATLQRNLILSHCCGVGAPLPENVVRLIMALKLVSLGRGASGVRLQLVRLIEAMLEKGVIPVIPEKGSVGASGDLAPLAHMAAVMMGEGEAFYAGALLPAGEALAKAGLTPVVLAAKEGLALINGTQTSTALALAGLFRAHRAAQAALITGALSTDAAMGSSAPFHPDIHSLRGHKGQIDAGAALRNLLEGSEIRVSHIEGDERVQDPYCIRCQPQVDGACLDLLRQVARTLEIEANAVTDNPLVLSDNSVVSGGNFHAEPVAFAADQTALAICEIGAIAQRRVALLVDPALSYGLPAFLSKKPGLNSGLMIAEVTSAALMSENKQMAHPASVDSTPTSANQEDHVSMACHGARRLLPMTDNLFAILGIEALSAVQGVELRGPLKTSPELQKAIAALRAAVPSLEEDRYMAPDLKAAADLIASGALVATISDGILPKLEV	PGPT0020230_1542	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020230-hutH-K01745	NA	NA
BMS010_01002	1215	hutI_1	COG1228	Imidazolonepropionase	ATGTCTTTGTGGCGCAACGCCCGGCTGGCAACCTTCAATCCCGCCATGGAAGGCATCGGCGCCGTCGAAAACGCCGTCATTGCCGTGCGTAACGGCCGCATCGCCTTTGCCGGCCCTGAAAGCGATCTGCCCGCCGATCTGGCAACGGCCGATGAGACCAATGATTGCGGCGGCCGCTGGATCACCCCTGCCCTGATCGACTGCCACACCCATCTTGTCTTCGGCGGCAACCGCGCCATGGAATTCGAGATGCGGCTGGATGGGGCGACCTATGAAGAGATCGCCAAGGCGGGCGGCGGCATTGTTTCTTCAGTGCGCGACACGCGCGCGCTTTCGGAAGATGCTCTGGTGGCGCAGGCTTTGCCGCGCCTCGACACGCTTCTTTCCGAAGGCGTTTCCACGGTCGAAATCAAATCCGGTTACGGTCTCGACATTGAAACCGAGCTGAAAATGCTGCGCGTCGCCCGCAGGCTCGAGACATTGCGGCCGGTGCGCATCGTCACCAGCTATCTCGCCGCGCATGCGACACCTGCAGACTATAAGGGGCGCAACGCCGATTATATTGGCGATGTCGTTCTGCCTGGGCTGGAAAAAGCCCATGCGGAAGGACTGGCGGATGCGGTTGACGGTTTTTGCGAAGGCATCGCCTTTTCCGTCGAGGAGATCGACCGGGTTTTCAAGGCTGCAAAACAATATGGCCTTCCGGTCAAACTGCATGCCGAGCAGCTTTCCAACCTTGGCGGTTCCGAGCTTGCGGCATCCTATAACGCGCTTTCGGCCGATCACCTCGAATATCTTGATGGGGCCGGTGCTAAGGCGCTGGCGAAAGCGGGAACCGTGGCCGTTTTTCTTCCCGGCGCTTTCTACGCGCTCAGGGAAAAACAATTGCCGCCGGTGCAGGCCCTGCGCGATGCCGGGGCCGACATTGCGCTGGCAACGGACTGCAACCCCGGCACTTCGCCGCTCACCTCCCTGCTGCTGACCATGAATATGGGCGCAACGCTTTTCCGCATGACCGTGGAAGAATGCTTGACGGCGACGACACGCAACGCGGCAAAGGCGCTCGGCCTGCTTACGGAAACCGGCACGCTGGAGGCTGGAAAATCCGCTGATTTCGCCATCTGGGATATCGAGCGTCCGGCAGAACTTGTCTACCGCATCGGTTTCAATCCGCTCCACGCCCGCATTTTCAAGGGACAGAAGGTTTGCCCATGA	MSLWRNARLATFNPAMEGIGAVENAVIAVRNGRIAFAGPESDLPADLATADETNDCGGRWITPALIDCHTHLVFGGNRAMEFEMRLDGATYEEIAKAGGGIVSSVRDTRALSEDALVAQALPRLDTLLSEGVSTVEIKSGYGLDIETELKMLRVARRLETLRPVRIVTSYLAAHATPADYKGRNADYIGDVVLPGLEKAHAEGLADAVDGFCEGIAFSVEEIDRVFKAAKQYGLPVKLHAEQLSNLGGSELAASYNALSADHLEYLDGAGAKALAKAGTVAVFLPGAFYALREKQLPPVQALRDAGADIALATDCNPGTSPLTSLLLTMNMGATLFRMTVEECLTATTRNAAKALGLLTETGTLEAGKSADFAIWDIERPAELVYRIGFNPLHARIFKGQKVCP	PGPT0020235_652	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020235-hutI-K01468	NA	NA
BMS010_01003	1347	atzA		Atrazine chlorohydrolase	ATGACGGCAATTCACGCGGGCGCAGCGCTTCTGGTGGATGGATGGGCGAAGGATGTTCGCATCGTCTGCGACGAAGGTGCTATTTTATCCGTGGAAACCGGTGTTTCCCCGCAGCCGCAGGATGAGCGACATGCCGTCATCGTCCCGGCCATGCCAAATCTTCACAGCCACGCCTTTCAGCGGGCCATCGCCGGGCTTGCCGAAATCCGTGGTCCCGGCGATGACAGTTTCTGGAGCTGGCGCACCGTCATGTATAAATTCGCGCTCTCCATGACGCCTGACCATGTCGAGGCGGTTGCCGCCCAGCTTTATATGGAAATGCTTGAGGCCGGTTTCGGGCGGGTTGGAGAATTTCACTATCTGCATAATGACAGGGATGGCTCGCATTACGGCAATATCGCCGAAATGGCCGAACGTATCGGCGCGGCCGCCTCGCAGACGGGTATCGGCCTCACATTGCTGCCGGTCTTTTATGCCCATTCCGGTTTTGGCGGCCAGGCGCCGATCGACGGGCAGAAGCGTTTCATCCATTCGCTCGACAGTTACGGAAAGCTGATGCAGGGAGCGCAGGCCGTGGTGGACAGGCTGCCGGGTGCCACGCTCGGGATCGCGCCGCACAGCCTGCGTGCAGTGACCGGCGACGAGCTGGCAGCCATCGAGCCGCTGGCAAAAGGCGGGCCGATCCATATTCATGTGGCGGAACAGACGAAAGAAGTGGAAGATTCGCTCGCCTTTTCCGGTGCGAGGCCGGTGGAATGGCTGCTTGAAAACGCGCCGGTCGATGGCCGCTGGTGCCTTATCCATGCGACGCACATGACGGAAACCGAAACGCGAGACATGGCAAAAAGCGGTGCTGTTGCCGGTCTCTGCCCGATCACCGAAGCCAATCTCGGCGACGGCATCTTCCCGGCTCCGGCGTATCTCGCTGAAAACGGCCATTATGGTGTCGGATCCGATTCCAACATTCTGATTTCCGTGCCGGAAGAATTGCGAACGCTCGAATATTCGCAACGCCTCTCGCATCGCGCGCGCAATGTCATCGCCGATGCCGGCCATTCCACGGGAGAAAAACTCTTCCGGCAGGCGCTCGAAGGCGGCGGCAGGGCTCTGGCGTCGCGAAACGGTCTGGAAAGTGGAAAAAGCGCCGATTTCGTCGCTCTTGATGTTTCGGCCGTTTCTTATCTTCCGATATCCCAGATTCTCGATCAGTGGATATTCGCGGGCGGCGTTTCTGTCGATTCCGTTTGGGTTCGCGGCAAAAAGCGCGTGCAGGCCGGCCGGCATATCCATCGCCGTGAAATATCCAATCGTTTCAACAAGGTCATGGCTGAACTTCTCGATAGCTGA	MTAIHAGAALLVDGWAKDVRIVCDEGAILSVETGVSPQPQDERHAVIVPAMPNLHSHAFQRAIAGLAEIRGPGDDSFWSWRTVMYKFALSMTPDHVEAVAAQLYMEMLEAGFGRVGEFHYLHNDRDGSHYGNIAEMAERIGAAASQTGIGLTLLPVFYAHSGFGGQAPIDGQKRFIHSLDSYGKLMQGAQAVVDRLPGATLGIAPHSLRAVTGDELAAIEPLAKGGPIHIHVAEQTKEVEDSLAFSGARPVEWLLENAPVDGRWCLIHATHMTETETRDMAKSGAVAGLCPITEANLGDGIFPAPAYLAENGHYGVGSDSNILISVPEELRTLEYSQRLSHRARNVIADAGHSTGEKLFRQALEGGGRALASRNGLESGKSADFVALDVSAVSYLPISQILDQWIFAGGVSVDSVWVRGKKRVQAGRHIHRREISNRFNKVMAELLDS	PGPT0020245_767	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020245-hutF-K05603	NA	NA
BMS010_01004	726	nagR_2	COG2188	HTH-type transcriptional repressor NagR	GTGACGAAAGCATCAGCCGGGCAGACCCTGCACCAGCGTATCCTCACTGAGATCGAGGGGCGGATCGTTTCGGGAGAATGGCCGCCGGGCCACCGGTTGCCTTTTGAGGTCGACCTCGCCAATCAATATCACTGTTCACGCATGACCGTGAACAAGGTCATGGGCCAGCTCGCCAAGGCCGGTTTGATCGAACGCCGCAAGAAATCAGGCAGTTTCGTTCGCCAGCCGCAGATCCAGTCCGCCGTTCTTCAAATTCACGATATCGGGGCCGAGGTCGAATCCCTTGGCCTCGACTATGGCTTCAAAATCCTGGAGCGCGAAAGGCGTAGCGCGAAAAGCGCGGATCGTGAGCGGCTCGATGTGTCCGTCGGGACGCCCTTGCTCGACATCCTCTGCATCCATTTCGCCGGTGCACGCGAATTCTGTGTCGAACAGCGCCTCATCAATCTGGCGGCCGTGCCGGAAGCGGCTGAAACCGACTTCACCGAAATTGCGCCGGGCCCTTGGCTGCTCGGCCATGTTCCCTGGAGCACTGCCGAACATCGGATCAGCGCCGAAACACCGTCGAAGGAGATCGCACGCCTGCTGGGTATTTCTGACAGGCAGGCGTGTCTTGTCGTGGAGCGCCGTACCTGGAGCAATTCGGGCGCTGTCACCTATGTACGCTTCACCTATCCCGGCAATGCGCATGCGCTGGTCGCCCGCTTCAGCCCGTCTTCCGACTGA	MTKASAGQTLHQRILTEIEGRIVSGEWPPGHRLPFEVDLANQYHCSRMTVNKVMGQLAKAGLIERRKKSGSFVRQPQIQSAVLQIHDIGAEVESLGLDYGFKILERERRSAKSADRERLDVSVGTPLLDILCIHFAGAREFCVEQRLINLAAVPEAAETDFTEIAPGPWLLGHVPWSTAEHRISAETPSKEIARLLGISDRQACLVVERRTWSNSGAVTYVRFTYPGNAHALVARFSPSSD	PGPT0020245_2	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020245-hutF-K05603	NA	NA
BMS010_01005	993			hypothetical protein	ATGAAAATGAAACTTGCATCCATGCTTCTTGCCGGCGCGTCAGTGATGACGGCATTCAGCGCGCAGGCCGCCGACAAGATCACCCTTCAACTCAAATGGGTGACCCAGGCGCAGTTCGCCGGATATTACGTCGCCAAGGACAAGGGTTTTTACGAAGCCGAAGGCCTCGATGTCGACATCAAGCCCGGCGGCCCGGACATTGCACCCGCGCAGGTTCTGGCCGGCGGCGGCGCGGACGTCATCGTCGACTGGATGCCATCCGCACTCGCCACCCGCGAAAAAGGCGTGCCGCTGGTCAATATCGCCCAGCCGTTCAAATCGTCAGGCATGATGCTGACCTGCCTGAAAGAAACCGGCATCACCAAGCCGGAAGATTTCAAGGGCAAGACGCTGGGCGTCTGGTTCTTCGGCAATGAATATCCGTTCCTGTCCTGGATGGCGCACCTGAAAATCCCGACAACCGGCGGCGCCGACGGCGTGACCGTTCTCAAACAGGGCTTCAATGTCGATCCGCTGCTGCAGAAACAGGCCGCCTGCATTTCCACCATGACCTATAATGAATATTGGCAGGTCATCGATGCCGGCATCAAACCGGAGGAACTCGTCACCTTCAAATACGAGGCGGAAGGCGTGGCGACGCTGGAAGACGGGCTTTACGTTCTGGAAGACAAGCTGAAGGACGCCAAGTTCAAGGAAGACATGGTCAAATTCGTCCGCGCTTCCATGAAGGGCTGGAAATGGGCGGAAGAAAACCCTGACGACGCCGCCGATATCGTTCTCGAAAACGACGCCTCCGGCGCCCAGACCGAAAAACACCAGAAGCGCATGATGGGCGAAGTGGCAAAACTGACCGCCGGTTCGAAGGGCGCGCTCGACAAGGCGGACTATGACCGCACGGTCAAGACGCTGCTGGGCGGCGGTTCCGACCCGGTCATTACCAAGGAACCGACAGGCGCCTTCACCACCGAAATCACCGATGCGGCGCTGAAATAA	MKMKLASMLLAGASVMTAFSAQAADKITLQLKWVTQAQFAGYYVAKDKGFYEAEGLDVDIKPGGPDIAPAQVLAGGGADVIVDWMPSALATREKGVPLVNIAQPFKSSGMMLTCLKETGITKPEDFKGKTLGVWFFGNEYPFLSWMAHLKIPTTGGADGVTVLKQGFNVDPLLQKQAACISTMTYNEYWQVIDAGIKPEELVTFKYEAEGVATLEDGLYVLEDKLKDAKFKEDMVKFVRASMKGWKWAEENPDDAADIVLENDASGAQTEKHQKRMMGEVAKLTAGSKGALDKADYDRTVKTLLGGGSDPVITKEPTGAFTTEITDAALK	PGPT0001135_6281	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051	NA	NA
BMS010_01006	873	ribX_2		Riboflavin transport system permease protein RibX	ATGACCCATCCCGGCTGGTTTTTCGGCGCGATCCTGTTCTGGCTTGCCGCCTGGGCCTTCAACGAATGGCTGGTGCGCCGCCACGTCTCCACGCCAGCGGCAAAACGCATCGGCCGCATCGCCGTGCCGCTCCTCTTCGGGCTGGCCATCCTCGCGCTGTGGGAAGGCGTGGTGCGCGGTTTTTCCGTGCCGCCCATTCTGCTGCCGGCTCCGAGCGCTATCCTCGCACGGCTCGCCGGCTCCCTGCCGATACTCTGGGCCGATTTCCGCCAGACCTTCATCAAATCGGTACTGACGGGCTACGTGCTCGGCTGCGGCCTCGGCTTTGCCGTCGCCATCCTCATCGACCGCTCGCCTTTCCTCCAGCGCGGGCTGCTGCCCATCGGCAATTTCGTCTCGGCTCTGCCGGTCGTCGGCGTAGCACCCATCATGGTCATGTGGTTCGGCTTCGACTGGCAGTCGAAAGTCGCCGTCGTTGTCATCATGACCTTCTTCCCCATGCTGGTGAACACGGTTCAGGGGCTTGCCGCTTCCAGCCACATGGAACGCGACCTGATGCGCACCTATGCCGCCGGCTGGTGGCAGACGTTGCTGAAACTGCGCCTGCCCGCCGCCTGGCCCTTCATCTTCAACGCGCTGAAGATCAATTCCACGCTGGCGCTGATCGGCGCCATCGTCGCGGAATTTTTCGGCACGCCCATCGTCGGCATGGGGTTCCGCATCTCGGCGGAAATGGGCCGCAGCAATGTCGATATGGTCTGGGCCGAAATCGCGGTCGCAGCACTCGCCGGCTCCGGCTTTTATGGTCTCGTGGCGCTCGCAGAGCGGGCCGTCACCTTCTGGCATCCGTCCGTCCGTGGGGGACGAACGTAA	MTHPGWFFGAILFWLAAWAFNEWLVRRHVSTPAAKRIGRIAVPLLFGLAILALWEGVVRGFSVPPILLPAPSAILARLAGSLPILWADFRQTFIKSVLTGYVLGCGLGFAVAILIDRSPFLQRGLLPIGNFVSALPVVGVAPIMVMWFGFDWQSKVAVVVIMTFFPMLVNTVQGLAASSHMERDLMRTYAAGWWQTLLKLRLPAAWPFIFNALKINSTLALIGAIVAEFFGTPIVGMGFRISAEMGRSNVDMVWAEIAVAALAGSGFYGLVALAERAVTFWHPSVRGGRT	PGPT0001145_2552	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050	NA	NA
BMS010_01007	876			hypothetical protein	ATGACCCTCCTCCGCCACCGCCTCCTCCCCATCCTAACCGTCCTCCTCGCCATCCTCATCCTCTGGCACCTCGCCGTCGTCTACCTCAACATGCCTTTCGCCCGCGATCAGGCCACCCGCGCCGGTCAAACGCCGGGCTTCTTCGAGCTCCTGCCGCAAACCTTCGCCCAGGAGCGCCCGGTTCTCCCCGCCCCGCACCAGATTGCCGCCGAACTGTGGGACACCACGGTCAACAAGGCCATCACCTCCAAGCGCAGCCTCATTTACCACGCCGGCGTTACGCTCTCGGCCACGCTGCTCGGTTTCGCCATCGGTGCGGTACTCGGCATCCTGCTTGCCGTCGCCATCGTGCATAACCGCGCCATGGACCGCTCCGTCATGCCGTGGATCATCGCCAGCCAGACCATCCCCATCCTTGCCGTCGCGCCGATGATTATCGTCGTGTTGAATTCCATCGGCATTTCCGGGCTGCTGCCGAAGGCGCTGATCTCCACCTATCTTTCCTTCTTTCCCATCGTCGTCGGCATGGTGAAGGGTCTCCGAAGCCCGGAGACGATCCAGCTCGACCTGATGCACACCTATAATGCCTCGCCCGGCCAGATATTCTGGAAGCTGCGCTGGCCCGCAGCGCTGCCCTATCTCTTCACCTCGCTGAAGATCGCCGTCGCCATTGCGCTGGTCGGCGCCATCGTCGGTGAATTGCCGACAGGCGCTGTTGCCGGGCTTGGCGCGCGTCTGCTTTCCGGTTCCTATTACGGCCAGACGGTGCAGATATGGGCGGCGCTGTTCATGGCCGCCGGTGTGGCTGCGCTGCTGGTATCCATCATCGGCATCGCCCATGCCGCCGTCCTCAAGAGAATGGGAGCCCGGCCATGA	MTLLRHRLLPILTVLLAILILWHLAVVYLNMPFARDQATRAGQTPGFFELLPQTFAQERPVLPAPHQIAAELWDTTVNKAITSKRSLIYHAGVTLSATLLGFAIGAVLGILLAVAIVHNRAMDRSVMPWIIASQTIPILAVAPMIIVVLNSIGISGLLPKALISTYLSFFPIVVGMVKGLRSPETIQLDLMHTYNASPGQIFWKLRWPAALPYLFTSLKIAVAIALVGAIVGELPTGAVAGLGARLLSGSYYGQTVQIWAALFMAAGVAALLVSIIGIAHAAVLKRMGARP	PGPT0001145_2422	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050	NA	NA
BMS010_01008	795	tauB_1	COG4525	Taurine import ATP-binding protein TauB	ATGAACCAGGCCTCCCCCTATTCCGTCGTTTCCGCCAGAAATCTCGGCCTCACTTTCGAAACGGGCGATGGCCCGGTACACGCACTCTCCAATGTCGACCTGGAGGTCGGCAAAGGCGATTTCGTCTCCTTCATCGGCCCTTCCGGCTGCGGCAAGACCACCTTCCTGCGGGTCATCGCCGATCTGGAAAAACACACATCCGGCGACATCACCGTCAACGGCACGACGCCGGAAAACGCCCGCCGGGACCGCTCTTACGGTTACGTTTTTCAGGCCGCCGCCCTTTATCCGTGGCGCAGCATCGAAAAGAACATTGCACTACCGCTCGAAATCATGGGCTATACCAAGGCCGAGCAGCGCGAGCGCATCGAGCGCACGCTCGATCTCGTCAATCTCAACGGTTTCGGCAAAAAATATCCCTGGCAGCTTTCCGGCGGCATGCAGCAGCGCGCCTCCATCGCCCGCGCGCTCGCCTTCGATGCCGACCTGCTGTTGATGGACGAACCCTTTGGCGCACTGGACGAGATCGTTCGCGATCACCTCAACGAACAGCTTCTGAAACTCTGGGATACGACCGGCAAGACCATTTGCTTCGTCACCCATTCCATCCCCGAAGCGGTCTATCTTTCGACCAAGATCGTTGTGATGTCGCCGCGGCCGGGCAGAGTGACGGATGTGATCACATCGACGCTGCCACGGGAAAGGCCGCTCGAGATTCGCGAGACGCCGGAGTTTCTGGCGATCGCACATCGGGTGCGTGAGGGGCTGAAGGCGGGGCATAGCTATGAGGGGTGA	MNQASPYSVVSARNLGLTFETGDGPVHALSNVDLEVGKGDFVSFIGPSGCGKTTFLRVIADLEKHTSGDITVNGTTPENARRDRSYGYVFQAAALYPWRSIEKNIALPLEIMGYTKAEQRERIERTLDLVNLNGFGKKYPWQLSGGMQQRASIARALAFDADLLLMDEPFGALDEIVRDHLNEQLLKLWDTTGKTICFVTHSIPEAVYLSTKIVVMSPRPGRVTDVITSTLPRERPLEIRETPEFLAIAHRVREGLKAGHSYEG	PGPT0001140_4518	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049	NA	NA
BMS010_01009	444	rppH_2		RNA pyrophosphohydrolase	ATGACCGTGAGCACCGGGCCGAAACGCGAAATCCTCATCGCCGCAGCCGTTCTCCTCAATGAGCGGCGGCAGATGCTGGTCGTGCGCAAGCGCGGCACCACGCAATTCATGCAGCCGGGCGGCAAGATCGATCCGGGCGAAACGCCGGAACAGGCGCTTCACCGCGAACTTGCCGAGGAAATCGGCCTGACGCTGCCCGAAAATGCCGCCCGTTATGAAGGCGTCTTTCGCGAGGAGGCCGCCAATGAGACGGGGGCGGACGTCGTCGCCCATACATTCATCGCGAGGCTTCATGCCGATGTGGCCCCGCAGGCGGAAATAGAGGAAGTGCGCTGGCTCGATCTCGACGGCCACACCGGCGTAACGATCGCAAGGCTTACGGAAACCCAAATGCTGCCGCTGGCGCGCGCGGCCCTGACGGAAAGCGAAACCAAGCCCAGATGA	MTVSTGPKREILIAAAVLLNERRQMLVVRKRGTTQFMQPGGKIDPGETPEQALHRELAEEIGLTLPENAARYEGVFREEAANETGADVVAHTFIARLHADVAPQAEIEEVRWLDLDGHTGVTIARLTETQMLPLARAALTESETKPR				NA	NA	NA	NA	NA
BMS010_01010	1458	dht	COG0044	D-hydantoinase/dihydropyrimidinase	ATGACCGCCACCATCATCAAGAACGGCACCATCGTCACCGCCGACCTCACCTATAAGGCCGATGTGAAGATCGAAGGCGGCAGGATCACCGAGATCGGGCCTGATCTGACCGGCGGCACGGTACTCGATGCCACCGGATGTTATGTCATGCCCGGCGGCATCGATCCGCATGTGCATCTGGAAATGCCCTTCATGGGCACCTATTCCGCCGATGACTTCGAGAGCGGCACGCGCGCGGCGCTTGCCGGCGGCACGACCATGGTGGTGGATTTCTGCCTGCCGGAGCCCGGCCAGTCGCTTCTTGATGCGCTGCAGCGATGGGACAACAAGGCGACGCGCGCCAATTGCGATTATTCCTTCCACATGGCCGTCACCTGGTGGGGCGAGCAGGTCTTCGATGAGATGAAGACGGTGGTTCGGGAAAAAGGCATCAACTCCTTCAAGCACTTCATGGCCTATAAGGGCGCTTTGATGGTGAATGACGACGAGATGTTCGCCTCCTTCTCGCGCTGCGCCGAACTGGGCGCCATTCCCTTCGTGCATGCGGAAAACGGCGATATCGTCGCGCAGATGCAGGAAAAGCTGATGGCGGAAGGCAATGTCGGGCCGGAGGCGCATGCCTATTCCCGCCCACCCTCGGTGGAAGGCGAGGCCACCAACCGCGCCATCATCATCGCCGATATGGCGGGTGCGCCGCTTTATGTCGTCCACACCTCCTGCGAGCAGGCCCATGAAGCGATCCGCCGCGCCCGCCAAAATGGCATGCGGGTCTATGGCGAACCGCTGATCCAGCACCTGATCCTCGATGAAAGCGAATATGCCAATGCCGACTGGGATCACGCCGCCCGCCGGGTGATGTCGCCGCCCTTCCGCAACCGGCAGCATCAGGACAGCCTCTGGGCGGGCCTCGCCTCCGGCTCGCTGCAATGCGTGGCGACCGACCATTGCGCCTTCACCACCGAACAGAAACGCTTTGGTCTTGGCGATTTCCGAAGGATTCCGAACGGCACCGGCGGGCTGGAAGATCGCATGCCGCTGCTCTGGACCCATGGCGTGGCGACCGGCCGCCTGACGATGAACGAATTCGTCGCCGTCACCTCCACCAACATCGCCAAGATTCTGAACATCTACCCCAGAAAGGGCGCGATCCTCGTCGGCAGCGATGCCGATATCGTCGTCTGGGATCCGGCGCTGGAAAAGACCATCAGCGCGGCGAGCCAGCAATCGGCCATCGATTACAACGTGTTCGAAGGCCAGAAGGTCAAAGGCCTGCCGCGCTACACCCTGTCGCGCGGTCTCGTCAGCGTCGAGGAAGCCACCATCGAAACGCAGCCGGGTCACGGCCAGTTCATCGCCCGCGATGCTTATCCAGCCGTCAGCCGGGCGCTTTCCACCTGGAAGGAACTCGTCGCGCCGCGCAAGGTGGAGCGCAGCGGCATTCCGGCATCGGGTGTATGA	MTATIIKNGTIVTADLTYKADVKIEGGRITEIGPDLTGGTVLDATGCYVMPGGIDPHVHLEMPFMGTYSADDFESGTRAALAGGTTMVVDFCLPEPGQSLLDALQRWDNKATRANCDYSFHMAVTWWGEQVFDEMKTVVREKGINSFKHFMAYKGALMVNDDEMFASFSRCAELGAIPFVHAENGDIVAQMQEKLMAEGNVGPEAHAYSRPPSVEGEATNRAIIIADMAGAPLYVVHTSCEQAHEAIRRARQNGMRVYGEPLIQHLILDESEYANADWDHAARRVMSPPFRNRQHQDSLWAGLASGSLQCVATDHCAFTTEQKRFGLGDFRRIPNGTGGLEDRMPLLWTHGVATGRLTMNEFVAVTSTNIAKILNIYPRKGAILVGSDADIVVWDPALEKTISAASQQSAIDYNVFEGQKVKGLPRYTLSRGLVSVEEATIETQPGHGQFIARDAYPAVSRALSTWKELVAPRKVERSGIPASGV	PGPT0008880_619	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_DEGRADATION,PGPT0008880-dht|hydA-K01464	NA	NA
BMS010_01011	1248	hyuC_1	COG0624	N-carbamoyl-L-amino-acid hydrolase	ATGGCGGCGGGTAAGAACTTGACGGTCAATGGCGACCGTCTGTGGGACAGTCTGATGGATATGGCGAAGATTGGCCCCGGCATTGCCGGCGGCAATAATCGCCGCACGCTGACGGATGAGGATGCGGAAGGCCGCCGTCTCTTCCAGCGCTGGTGCGAAGCGGCGGGCCTGACGATGGGCGTCGACCGCATGGGCACCATGTTCGCCACCCGCCCCGGCGAGGATCCGGACGCGCTTCCCGTTTATATCGGCAGCCACCTAGACACCCAGCCGACTGGCGGCAAGTTCGATGGCGTGCTCGGCGTGCTGGCAGGGCTGGAGGTGGTGCGCAGCCTGAATGACTTGAACATCAAAACCAAACACCCGATCACGGTCACCAACTGGTCAAACGAGGAAGGCGCGCGCTTTGCCCCGGCCATGCTGGCCTCCGGCGTCTTCGCCGGCATTCACGATCTCGATTATGCCTATGGCCGCACCGATACCGACGGCAAGACCTATGGCGAAGAGCTGAAACGCATCGGCTGGCTGGGCGAGGAAGAGGTGGGCGCGCGCAAAATGCACGCCTATTTCGAATATCACATCGAACAGGGTCCGATCCTGGAGGCGGAAAGCAAACAGATCGGCGTTGTCACCCATTGCCAGGGCCTGTGGTGGCTGGAAGTGACGCTGACCGGCAAGGAAGCCCACACCGGCTCCACGCCTATGGCCATGCGCGTCAATGCCGGTCTTGCCGCCGCCCGCATTCTCGAAAAGGTGCAGGAGGTGGCCATGGCTCACCAGCCCGGCGCCGTCGCCGGCGTTGGCCAGATGATCTTCACGCCCAATTCCCGCAATGTGCTGCCCGGCAAGGTGGTCTTCACCATCGACCTCAGAACCCCCTCACAGGCGAAACTCGACAGCATGCGCGCCATCTTCGAGCGCGAGGTGCCGCAGATCGCCGAAGAACTCGGCGTCGGCTGCTCAATCGAGGCCATCGGCCATTTCGATCCCGTCACCTTCGACCCCGTTTTGGTCGGCCGCGTACGCTCCGCCGCCGAAAAACTCGGCTACAGCCACATGGATATCATCTCCGGCGCCGGCCACGATGCCTGCTGGACGGCAAGGGTCGCCCCCTCCACCATGATCTTCTGCCCTTGCGTGGACGGGCTTTCCCACAACGAGGCCGAAGAAATTTCGCCGGAATGGGCAGCCGCCGGCTGCGATGTGCTGCTGCATGCGGTGCTGGAGACTGCGGAGATCGCGGAATGA	MAAGKNLTVNGDRLWDSLMDMAKIGPGIAGGNNRRTLTDEDAEGRRLFQRWCEAAGLTMGVDRMGTMFATRPGEDPDALPVYIGSHLDTQPTGGKFDGVLGVLAGLEVVRSLNDLNIKTKHPITVTNWSNEEGARFAPAMLASGVFAGIHDLDYAYGRTDTDGKTYGEELKRIGWLGEEEVGARKMHAYFEYHIEQGPILEAESKQIGVVTHCQGLWWLEVTLTGKEAHTGSTPMAMRVNAGLAAARILEKVQEVAMAHQPGAVAGVGQMIFTPNSRNVLPGKVVFTIDLRTPSQAKLDSMRAIFEREVPQIAEELGVGCSIEAIGHFDPVTFDPVLVGRVRSAAEKLGYSHMDIISGAGHDACWTARVAPSTMIFCPCVDGLSHNEAEEISPEWAAAGCDVLLHAVLETAEIAE	PGPT0021095_1567	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_DEGRADATION,PGPT0021095-pydC-K06016	NA	NA
BMS010_01012	642	rutR_1	COG1309	HTH-type transcriptional regulator RutR	ATGGCCATACCGCGCGCAGCGAAAACACAGAAGCGGACCCGCATTCAGGAAGAAAAGCAGGAAGCGATTCTTGAAGCCGCGCTCAGTGTTTTTTCCACAAACGGGTTTCGCGGTTCCACCATCGATCAGATTGCCGAGGCGGCCGGCATGTCGAAACCGAACGTGCTTTATTATTTCCGCACCAAAGAGGCGATGCATCGCGCGCTGATCGAGCGGGTGCTGGACACATGGCTCGACCCGCTGCGCGCTTTCGATGCCGAGGGCAATCCTGAAAGCGAGATTCGCTCCTATATTCGTCGCAAGCTGGAAATGTCGCGCGATTTCCCGCGTGAAAGCCGCCTGTTCGCCAATGAAATCCTGCAGGGCGCGCCGCATATCGAGGATGAGCTGAAGGGGCCGCTGAAACAACTGGTGGATGAAAAGGCCGAGGTCATCCGCGCCTGGGTGAAGGCCGGCCGGATGGCCAAATGCGATCCTTATCACCTCATTTTTTCCATCTGGTCGACCACCCAGCATTATGCGGATTTCGATGTGCAGGTGCGGGCGGTGCTGGGCGAGAAGAATGGCGGCGAGGGCCGTTTCGAGGATGCGGCCCGGCATTTGGAGCAGCTTTTCATGGGCGGATTGCGGATAAACGGCTGA	MAIPRAAKTQKRTRIQEEKQEAILEAALSVFSTNGFRGSTIDQIAEAAGMSKPNVLYYFRTKEAMHRALIERVLDTWLDPLRAFDAEGNPESEIRSYIRRKLEMSRDFPRESRLFANEILQGAPHIEDELKGPLKQLVDEKAEVIRAWVKAGRMAKCDPYHLIFSIWSTTQHYADFDVQVRAVLGEKNGGEGRFEDAARHLEQLFMGGLRING				NA	NA	NA	NA	NA
BMS010_01013	426			hypothetical protein	ATGGCACGCAAGGAAAAGAAGAAGGCCGAACGTGGCGGCAAGCAGGGCAAGGGCGTTCCCCAAACCGAGCGGGACGTGGCCGAACAGCAGCTTTCCGGTCCCAAAAGCTTTCTTTATGTCGGCGGCCGTGACTGTCAGGTTGCTCATCTTCGCCAGATCGCCAGCAATTTCGGCGCGGAGCTCATTCATCACGATGGCGGCCTGCGTGAGGCCGTCTCGCGCATCGATACCGTGCTTCCCTCCGTCGACTGCGTTTTCTGCCCGATCGACTGTATCAGCCACGATGCGTGTCTGCGGGTGAAGTCCGGTTGCAAGAAATTCGGCAAGACGTTCATTCCGCTGCGCAACGGCAGCAAATCCAGTCTGGAGCGGGCGCTGCAGACCATGAATGAACGGACCTCGAACGATGAGCGACGAGCGCAATAA	MARKEKKKAERGGKQGKGVPQTERDVAEQQLSGPKSFLYVGGRDCQVAHLRQIASNFGAELIHHDGGLREAVSRIDTVLPSVDCVFCPIDCISHDACLRVKSGCKKFGKTFIPLRNGSKSSLERALQTMNERTSNDERRAQ				NA	NA	NA	NA	NA
BMS010_01014	291			hypothetical protein	ATGAGCGACGAGCGCAATAATTTCAAGGGTGAAGAGCCGGCGGCGGAAGCCTGCCGTGTCGAACTGCATAAGATGGCCGAGCAGGCTGCCGATCCGGCCCTGACCGATATCTATGAAATCATCGGTGAACGCGAAAGGCGCAACCGCCTTGCCAGAAGCAGCGGCAATGTTGTGACTTTTCCCTATCTGCGCACCCGCCAGCCCGGTGAAACGCCGTCCTTCAAGATCGGCACGGCGGCCGAAGAGGGCCGCAATATCCTCTCGTTTCGCTGGACGCGGCGTAAGGGCTAA	MSDERNNFKGEEPAAEACRVELHKMAEQAADPALTDIYEIIGERERRNRLARSSGNVVTFPYLRTRQPGETPSFKIGTAAEEGRNILSFRWTRRKG				NA	NA	NA	NA	NA
BMS010_01015	396			hypothetical protein	ATGACCACGCAGAGCGCGACCATCGCAAGCCTGCCCCGCGACAGATTGCGGGCCTTCATTCTGTTGCTAGGCGGCCTGCTGGGCGCGGCCGGTGTGATGCTTGCAGCCGCCGCCACCCATACCGGCGAAACCTATATGCTCGGCAATGCCTCGGCCATGGCGCTGGCGCATGCGCCGGTGCTGGTGGCGCTTCATATCGGCGGGGATCGCATCAGAACCGCCATTCCGGCAGGCCTGATCCTCGGCCTCGGTACTGCGGTCTTTGTCGGCGATCTCGTTACCCGGCATTTTTCCGGCCACAGCCTGTTTCCCTACGCCGCACCCACGGGCGGCCTCGGCATGATCGGCGGATGGCTGGTGCTGTGCGCGGGAGCATTTCTGAAGCCGAAGGGTTAG	MTTQSATIASLPRDRLRAFILLLGGLLGAAGVMLAAAATHTGETYMLGNASAMALAHAPVLVALHIGGDRIRTAIPAGLILGLGTAVFVGDLVTRHFSGHSLFPYAAPTGGLGMIGGWLVLCAGAFLKPKG				NA	NA	NA	NA	NA
BMS010_01016	402	yjbI_1	COG2346	Group 2 truncated hemoglobin YjbI	ATGAGCGGCGAGACCATTACCCTTTATGAAGCGATAGGTGGCGATGCGACCGTAAGGGCGCTGACCCGGCGCTTCTACGAATTGATGGATACCCTGCCGGAAGCGGCGCGATGCCGTGCCATCCATCCCGCCGATCTTTCCGGCAGCGAGGCGAAGTTCTACGATTATCTGACGGGATATCTTGGCGGACCGCCCGTTTATGTCGAGAAACACGGCCATCCGATGTTGCGGCGGCGCCATTTCGTCGCCCCCATCGGCCCCGCCGAGCGGGATGAATGGCTGCTCTGCTTCCGCCGCGCCATGGACGAGACCATCGAAAATCCGAAGCTGCGCGAGATCATCTGGACGCCGGTCGAGCGGCTGGCCTTTCACATGCAGAACCAGGAGGCGGACAGCCAATGA	MSGETITLYEAIGGDATVRALTRRFYELMDTLPEAARCRAIHPADLSGSEAKFYDYLTGYLGGPPVYVEKHGHPMLRRRHFVAPIGPAERDEWLLCFRRAMDETIENPKLREIIWTPVERLAFHMQNQEADSQ				NA	NA	NA	NA	NA
BMS010_01017	354			hypothetical protein	ATGACCAGACGTAGGGTCGGGCCGGTTCTCGCCGAAATTCTGGAGGCCATAAACGGCATTGAGACCCACACCGCAGGCCTGTCGCTCACTGATTTCCAGCAAAATTGGCTCCTCAAACTCGCCGTGCAACGCGCCCTCGAAATCGTCTCCGAGGCGTCCCGTCACCTATCCGATGACTTGCTGGAGCTTGCGCCGGACGTACCGTGGAAACAGATTCGGGGAATCGGCAATATTCTGCGTCATGAGTACCACAAGATCGCGGATGATGTCGTTTGGGCCGTGGTCACCGAACATGTGCCGCCGCTCAAAATTGCTGTTGAGGCTATCCAACGATCCGTCGAAAGTGAAAACTGA	MTRRRVGPVLAEILEAINGIETHTAGLSLTDFQQNWLLKLAVQRALEIVSEASRHLSDDLLELAPDVPWKQIRGIGNILRHEYHKIADDVVWAVVTEHVPPLKIAVEAIQRSVESEN				NA	NA	NA	NA	NA
BMS010_01018	297			hypothetical protein	ATGAAGAGAACGGACGCAATCAGGAAACTCAAGCGCCACGCCCATGCAGTGAAAAGCATGGGCGCGACGTCGCTCTATCTTTTCGGATCGACGGCCCGCGATGAGGCCCTTGCCTCCAGCGATCTGGACATCTTCATCGACTATGATCCGGGCCGCCGTTTCTCGTTGATCGATCTCGTCGGTATCAAGCAGTTTCTGGAAGAAGAATTGGCCGTGGAGGTCGATGTGACGACACGCAACAGCCTCCACCCGCTGCTCCGGAATGACATCGAGCAATCCGCCGTACGGATATTTTGA	MKRTDAIRKLKRHAHAVKSMGATSLYLFGSTARDEALASSDLDIFIDYDPGRRFSLIDLVGIKQFLEEELAVEVDVTTRNSLHPLLRNDIEQSAVRIF				NA	NA	NA	NA	NA
BMS010_01019	1416	glmM_2	COG1109	Phosphoglucosamine mutase	ATGAGCCTGAAATTTGGAACGAGCGGCCTTCGCGGCCTCTCTGTCGATCTGAAAGGAAAAGCTTCTGCCGTCTATGCCACGGCATTTGCAAGGCACCTTCTCACATCGGGCCAGGCAAAGGCGGGCGATCCCATTCTCGTCGGCCGCGATTTCCGCGATTCGAGCCCGGATGTTTCCGCCACCTGCATCGCCGCGCTCAAAAAAGCCGGCCTGACCCCGTTCGATTGCGGCACGGTGCCGACACCCGCGCTGGCGCTTTACGGCCTGACGCTCAAGGCCGGCGCGCTGATGATCACCGGCTCGCATATTCCGGCCGACCGCAACGGCATCAAGTTCTACCGTCCGGACGGTGAAATCGACAAGCAGGACGAGACGGCGATTGCCGCTCTTGCCGCCGAAATCGAAGCGGAAGGCATCAGCGACGAGGCGGCGACTGCCGAAGACCATTCCGCCACCGCAGCCGAACTTTTCTACGAGCGCAACATCGCGCTGCTGCCGGAAAAAGCGCTCTCCGGCCTCAAGATCGGCGTTTACCAGCATAGCACGGTGGCGCGCGATCTCTTTGTCGACGTGCTTGCCCATTATGGTGCGGATGTCGTTCCGCTCGGCCGCTCCGAAACCTTCATCCCTGTCGACACCGAAGCGGTCTCGCCGGAAACGCTGGCCCTTCTCAAGAAATGGTCGCCGGAGCACGGTCTCGACGCCATCGTTTCCGCCGATGGCGACGGCGACCGTCCCCTGCTGACCGATGAAAACGGCGTGCCGCTGCGCGGCGACCTCATCGGGCTGATCACCGCCAATTTCCTCGGCGCCGGCGTGGTCGTCACCCCCGTCACCTCCAATTCCGGCATCGAGGCAAGCGGTTCGTTCGACGTCGTCCGCACCAAAGTCGGCTCCCCTTTCGTGATCGCGGGAATGGCTGAGGCGCTCGCCGCCGGCAAGAACGGTGTCATGGGCTTCGAGGCCAATGGCGGCCTGCTGACGGCCTCTGCCTTCACACTTAACGGTCGGGCGCTTTCGCCGCTGCCGACGCGTGACAGCTTCCTGCCGGTTCTCGCCGTGCTGCTTCTCTCGGCAGAACAGAAAAAGCCGCTGTCGCAGATCGCCGCCGCCTATAACCTGCCGGTCGCCGCCGCCGACCGTCTGGAAAATTTCGCGCAGGAAAAGAGCGCCGCCCTGATGACGCATCTGCGCGCCTCGCGCAGCAATCTCGAAGCCTTCCTCGCACCGGTCGGCACCGTGAAGGCGCTGAGCGACATCGACGGCCTGCGCGTGGCGCTTACCGATGGCAGCACCATCCATTTCCGCCCATCAGGCAATGCTCCCGAAATGCGCTGCTACGTCGAAGCCGCCAATCAGGACGAGGCCGAAACGCTTTTGAACAAGGGGCTCGATCTCATCCGCAATTTTGGGTGA	MSLKFGTSGLRGLSVDLKGKASAVYATAFARHLLTSGQAKAGDPILVGRDFRDSSPDVSATCIAALKKAGLTPFDCGTVPTPALALYGLTLKAGALMITGSHIPADRNGIKFYRPDGEIDKQDETAIAALAAEIEAEGISDEAATAEDHSATAAELFYERNIALLPEKALSGLKIGVYQHSTVARDLFVDVLAHYGADVVPLGRSETFIPVDTEAVSPETLALLKKWSPEHGLDAIVSADGDGDRPLLTDENGVPLRGDLIGLITANFLGAGVVVTPVTSNSGIEASGSFDVVRTKVGSPFVIAGMAEALAAGKNGVMGFEANGGLLTASAFTLNGRALSPLPTRDSFLPVLAVLLLSAEQKKPLSQIAAAYNLPVAAADRLENFAQEKSAALMTHLRASRSNLEAFLAPVGTVKALSDIDGLRVALTDGSTIHFRPSGNAPEMRCYVEAANQDEAETLLNKGLDLIRNFG	PGPT0017865_1520	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-COLANIC_ACID_METABOLISM	CE-EPS-COLANIC_ACID_RELATED_PROTEINS,PGPT0017865-manB|yhxB-K01840	NA	NA
BMS010_01020	1623			hypothetical protein	ATGTACAGGCTTCAAAAGGCGGGACATAAGCAGGCACGTCCGCTCGATGAAAAAACGGCGCCTGCCGCGAGAACCCATGGTTCCCTGCTGGACGATCTGGTGGATGAGGACGAGGTTTTCGAGCGCACGGTGCTGAAGGAGCATCTGGAGCCGAAACCGGCGAAGACCGTCGCCGAGCCGGCTGCGGCCGAGACGCCGGTGAAGGCGGCTTCGCCGAGCGGCAGTCTGGCGACTGCGCTGCCGGGCCTGAAACATATCGACAGGATCGGTGTGGATGACGTCATCCTCTGGCTTCGCAAAGGCATTGTCTGGATCGTGCTGGCAATCGTTCTCTGCGTTGCCGGCGCTCTGACCTATGCCTCCATGACGCCGCCGCGCTACAAGGCCTATACGGATATCGTCGTCAATCCCTCCAACCTGAATGTCGTCAATGACGGCGTGTTTTCGCCCAACCAGCAGCGCGACACGCAAATCCTCGAGGTGGAAAGCAAGCTGCGCACCATCACCTCACGCAACGTGCTGGCACGGGTGGTGGACGAGTTGAAGCTCGATCAGGATCCTGAATTCATCAGCCCGCCGCCGCTCGCCCGGCTGAAGGCGATGTTCTCATCGAAACCGGAAGATGACGACAACCGGGTCGGCGCGCTTCGTTCGCTCGGCGATCGGGTGGCGGCGGAACGCGACCCGCGATCCTTTGTCGTGACGCTTTCGGTCTGGACCAATGATGCCGAAAAATCGGTGACTGTCTCCAAGGCCATCGTGAAGGCTTTCGAAAGCGAGCTGTTCCAGACAAACTCCGACAGCAGTCAACGCGTCGTTGACGATCTCAGGAAGCGGCTCGAGGAAATGCGCGAGAATGTGACCGCCGCCGAAAAGCGCGTGGCCGATTTCCGCCGCGAGAACGGCCTGCAGGAAAATAACGGCCAGCTCGTCAGCAATCTGGCTTCCGGTGAGCTGAACGCTCAGGTGCTTGCGACCCAGCAGCGCCTCATTCAGGAAGAATCGCGCCTCAAGCAGATGGAGGCGGCGATTGCGCAGAACCGCACCCAGAGCGACGCCATATTCGACAGCCAAACGATGAATACGATCCGTGCGCAATACAGCACGCTGCAACAGCAGATCGGTGCGATGACGCTGACCTATGGCGCGCGCCATCCGCGTCTTGCAACCGCGGGTGCGGAGCGGGCGATGCTGGAACAGGGAATGGCGGATGAGGCGCGGCGTATCCTTCAAGCGGCAAAGATCAACGTCGCGGAGGCGCGCTCCTCACTCGATGCCCTGCGGCTGAAAGCGGTGGCGGAACGCGCCAATGTCTTTACCGACAATGAGGCGCAGGTGCGGCTGCGCGATCTCGATCGTGACGCCCGCTCGGCGGCGGCGATCTATGAGACTTATCTCACACGCTCGCGCCAGCTGGCCGAACAGCAGTCAATCGATTCCACCAATGTACGGGTGATTTCGCAGCCGGTTGCGCCCAATTCCAGAAGCTGGCCGCCCGGCAAGCTGACCTTCCTGATCGCCGGCGGCATGGGCGGCCTGTTCCTTGGTCTGGCAATTGCCGTGGCGCTTGGGCTCTGGGGTTATCTTCGCCGGGACGATCACGCGGATGTCGCGGCGCGGTAA	MYRLQKAGHKQARPLDEKTAPAARTHGSLLDDLVDEDEVFERTVLKEHLEPKPAKTVAEPAAAETPVKAASPSGSLATALPGLKHIDRIGVDDVILWLRKGIVWIVLAIVLCVAGALTYASMTPPRYKAYTDIVVNPSNLNVVNDGVFSPNQQRDTQILEVESKLRTITSRNVLARVVDELKLDQDPEFISPPPLARLKAMFSSKPEDDDNRVGALRSLGDRVAAERDPRSFVVTLSVWTNDAEKSVTVSKAIVKAFESELFQTNSDSSQRVVDDLRKRLEEMRENVTAAEKRVADFRRENGLQENNGQLVSNLASGELNAQVLATQQRLIQEESRLKQMEAAIAQNRTQSDAIFDSQTMNTIRAQYSTLQQQIGAMTLTYGARHPRLATAGAERAMLEQGMADEARRILQAAKINVAEARSSLDALRLKAVAERANVFTDNEAQVRLRDLDRDARSAAAIYETYLTRSRQLAEQQSIDSTNVRVISQPVAPNSRSWPPGKLTFLIAGGMGGLFLGLAIAVALGLWGYLRRDDHADVAAR	PGPT0026560_1870	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT-1,PGPT0026560-exoP|vpsO-K16554	NA	NA
BMS010_01021	210			hypothetical protein	ATGGAAACAATCTCGATCGACAATCGCGGCGATTTCGGCCTCTGGGCGATAGAACGGGCGAAAGAAATCGTCGCCAACGAGGCGTCCGACCTTGCCATTTCGGTTCGCGACGGTGACGAAGCGGGCATTCGCGATGCCGGCAATGCACTGGGCGCGGCCATCGCCGCCGCGCTGCTCGAGGTTTATGACGGTCTGATTTCGGAAGAATAA	METISIDNRGDFGLWAIERAKEIVANEASDLAISVRDGDEAGIRDAGNALGAAIAAALLEVYDGLISEE				NA	NA	NA	NA	NA
BMS010_01022	801			N-acetylglucosaminyldiphosphoundecaprenol N-acetyl-beta-D-mannosaminyltransferase	ATGCCGGATGCGGAGGGGACTGGCCAGGTCTGGCCGGTTATTCCGCTTGCGGCGTTGCCCATTACCGACGCGACCATCGACGAAACCGCGCGGGATTTCATCCTGCGCGCGACGACGGCGCGTGCGGCCGGTGCAAAACCGTTTTATTCGACATCGGCAAACGGTCAGGTCATCGCGCTCTGCCATCACGACCGGGAATTCGACGCCATGCTGCGGCAGGCGGACCAGATTCATGCGGACGGCATGTCGCTGGTCATCTTCTCCCGCAAATTCTGCCCAAAGGCGTTGAGAGAACGGGTTGCGACCACGGATCTCGTTCATGCGGTTGCGAAGCGCGCCGAAGAGACGGGCAGCCGGTTTTATTTCCTCGGCGGCTCCGAAGAGGTGAACCGTGCGGCGGTCGAGGAAATGCAGAGGCTTTATCCGCGCCTCGTATTCGCGGGACGGCGCAACGGTTATTTCAGCCGGGCCGAGGAAGAGGCGATCCTCGCCGATATCGCGGCATCCGGGACGGATATTCTCTGGGTTGGCTTCGGCATACCGCTGGAGCAGCGTTTCGTCTCGCGCAATCTGGACAGGCTTTCCGGCATCGCCGTAATCAAGACCTGTGGCGGCCTTTTCGATTTCCTCGCCGGCAAGAACAGCCGGGCACCGCAATGGATGCAGGATATGGGGCTGGAATGGCTCTACCGGGCCATGCTTGAGCCGAAGCGGCTCGGAAAACGTTACCTGCTGACCAATCCTATCGCCATATATTCGCTGCTGAAGTATCGCTTCGGCGCTTCGGGACAAGGCCGCTAG	MPDAEGTGQVWPVIPLAALPITDATIDETARDFILRATTARAAGAKPFYSTSANGQVIALCHHDREFDAMLRQADQIHADGMSLVIFSRKFCPKALRERVATTDLVHAVAKRAEETGSRFYFLGGSEEVNRAAVEEMQRLYPRLVFAGRRNGYFSRAEEEAILADIAASGTDILWVGFGIPLEQRFVSRNLDRLSGIAVIKTCGGLFDFLAGKNSRAPQWMQDMGLEWLYRAMLEPKRLGKRYLLTNPIAIYSLLKYRFGASGQGR	PGPT0023455_495	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023455-tagA|tarA-K05946	NA	NA
BMS010_01023	249			hypothetical protein	ATGGTGATTACGTCCATTTCTCTTTTCATATATGGAATTGGCACCGTTACCTCTCTCGCCATGACCTATATCGAAGGCGCCCGCCGCGGCAAGGACTGGGATTTTTATCGCGTCACCGGCATTGTCCTTTGTTTCTTCTGGCCGGTGCTCGTGCCGCTCCTCGTCCTTGCGACGGCCTTGTCGTCGTTCGGTTTCCAGAAACGGTTCACGAATACGATCTCGCTCGGCAGGCAAAAAACCCTTGGCTGA	MVITSISLFIYGIGTVTSLAMTYIEGARRGKDWDFYRVTGIVLCFFWPVLVPLLVLATALSSFGFQKRFTNTISLGRQKTLG				NA	NA	NA	NA	NA
BMS010_01024	945			hypothetical protein	ATGTCCGAGATCATGCCGGAAGCGGTGGTGTGCATTCCGAGTTTCCGCCGGCCGGAAGGCCTGAAAAAGACGCTTCGGTCACTCGCAGCCCAGAAGGTCGATTTTCCCTTCGCCATCGTTGTGGTCGATAATGACGGCGCGGGCCAGGCGGGTCTTGCGGTCGCGCGCGCCTTTTTCGCCGAAAGCGGCATGGCCGGCGAGGCATTGGTCGAACCGACGCAGGGCAATTGTTACGCCATCAACACCGCTTTCCGCACCGCCCGGCAAAGATATGCTTCGGCTGAGTGGTTCCTGATGATCGATGACGACGAGGCTGCCTCCCCCGTCTGGCTTGCCGAAATGGTTGCGGCGGCGAGATCCTTCGGCGTCGATATCGTCGGCGGCCCGGTCAACCGGGAATTCGACGCGCCGGCTTCGAAGGCGGTTCTCTCGCATCCGCTGTTCGGCTCCATCGAAGCGCCGACCGGCCCCGTCGAGCAAATCCACGGATCGGGCAACTGCCTGATCTCACGGCGGGTTTTCGAGACGCTGGCGAAACCGGAATTCGACGTGCGCTTCAACTTCCTAGGCGGCGGCGACATGGATTTCTTCACCCGCTGCCGCAAGGCCGGTTTCAAATTCGCCTGGAATGCGCAAGCCCTCATCATCGAATATGTGCCGGAAAACCGCATGGCGCCGCGCTGGATCATGGAGCGCTCGCTCCGAACCGGCATCATCAATTACAGCATCGACCGTGCCCGACGCCCCGGCCTGAAAGGCGGGCTGCTGCTCGCCGCCAAAAACGCCGTCAGCCTGTGCCTGTCTCTTGTCCGCGCCGTTTCCGCCTTTGTGAAAACCGGAACCCTGCTGCCAGCCACGCATCCGCCGCTGATGTCCATCGGCCGCGTGATGGCAAGCCTCGGCATTACGCTCACGCCCTACAAGGCGCCGGCGAAGAAGAGCTGA	MSEIMPEAVVCIPSFRRPEGLKKTLRSLAAQKVDFPFAIVVVDNDGAGQAGLAVARAFFAESGMAGEALVEPTQGNCYAINTAFRTARQRYASAEWFLMIDDDEAASPVWLAEMVAAARSFGVDIVGGPVNREFDAPASKAVLSHPLFGSIEAPTGPVEQIHGSGNCLISRRVFETLAKPEFDVRFNFLGGGDMDFFTRCRKAGFKFAWNAQALIIEYVPENRMAPRWIMERSLRTGIINYSIDRARRPGLKGGLLLAAKNAVSLCLSLVRAVSAFVKTGTLLPATHPPLMSIGRVMASLGITLTPYKAPAKKS				NA	NA	NA	NA	NA
BMS010_01025	912			hypothetical protein	TTGGTTTCCGTTTCGATTGTCATTCCCGTTCGCAATGGCGAGCGTTACATCGTGGAAGCGATCGAAAGCGTGTTGCTGCAGGGCGAGACCATCGGCGAAGTGCTGGTGGTCGATGACGGCTCCACCGACACCACAGCACAAAAGGTGGAAGGTTTTTCCGACCCTCGCGTCAAATTGCTTGCCCGGCCACAGGGAAGGCAGGGCGTTTCCGCCGTGCGCAATTTCGGCCTGTCGCAGGCGCGCGGCGAATGGACGATGTTTCTCGACGCCGACGATCGCCTGAAACCGGGCGCCATAGCGGCCCTTTGCGCCGGCATTTCCGGGCCGGATGTCGTCGCCGTTTATGGCGATTACGAGCGCATCGATGAAAATGGCGTCAAGATCGGCCGGCGCAACCTCATTCGCCGCCGGGAAAAACCCGATGGGTTCATTCTCCAGCCGCTGCTCGGCGGCAACTTCATCGTCAATGGCGGCATCATGCTGGTCAGAACCCGCATCTTTCAGGAATTCGGCGGTTTCGACGAGACTTTGCGTTATGCCGAAGACTGGTATGGCTGGTGCAGGCTGGCCGCCGCCGGCCGTTTCGTTTACCTGCCCGGCTGCCATGTGCTGGATTACCGCGTGCACAGAACGAGCGTGATGATGAACCGGCTTTTGACCTTCCGGGATTGCGAACCGGCAATCGAGGCCGTGTTTTCCGACCCGGCCATCGTCGCTGCCGTTTCGCCGCCGGAGCTGCGACGGCTTCGCCGCCGGTCCGAAAACCACATGAATGCCTATACCGTGGCGCAGGCCTTCCGCGCCCGCCGCTACCGCGAGGCCTTTTCGGCGCTTGCCGATACCTTCCTCAACCGCCCGCGCCAGAGCCTCAGGGCCGTCGTTTTTTCCGCCGCAGCGCTTGCCGGAATTTAG	MVSVSIVIPVRNGERYIVEAIESVLLQGETIGEVLVVDDGSTDTTAQKVEGFSDPRVKLLARPQGRQGVSAVRNFGLSQARGEWTMFLDADDRLKPGAIAALCAGISGPDVVAVYGDYERIDENGVKIGRRNLIRRREKPDGFILQPLLGGNFIVNGGIMLVRTRIFQEFGGFDETLRYAEDWYGWCRLAAAGRFVYLPGCHVLDYRVHRTSVMMNRLLTFRDCEPAIEAVFSDPAIVAAVSPPELRRLRRRSENHMNAYTVAQAFRARRYREAFSALADTFLNRPRQSLRAVVFSAAALAGI				NA	NA	NA	NA	NA
BMS010_01026	1071	xynB		Endo-1,4-beta-xylanase B	ATGCGGATTGGGCGGCGGAATTTTATGGGCGGTGCGGCAAGCGCTGGCCTGCTGCATGCCGTGGCCGGCCCGGCCTTTGCCGCGCAGAAGAAAACGGCGAGTAAAACCGCCCCTTATGGCGCGGCTGTTTACCTGCCGGATCTCACCGCCGATAGCCGCATCGGCGAGGCGGTGGTGAAATATTGCTCGCGCATCACACCCGTTACCGAAATGAAATGGGAGGTCCTGCGGCCTTCGGCGGAGGTGTTCGATTTCGCCGCCGCCGATGCAATCGCCAATTTCGCCCGTCAGCACAAGCTTTCCATGCACGGCCATCCGCTGATCTGGTATGCCTCCAACGCGCCCTGGCTTGCGAGCATCGGCGGCGGCGTGAAGGTCGAGAAGCTGATGGAGACCCATATCGTCACGGTGATGGAGCGTTATAAGGACGTGATCCATAGCTGGGATGTGGTCAATGAGCCGATCCCCGACGTGCCGGGCAATGTGCGCGCGCGGCGCGATGCCTGGTATTACGGCGCCGGGCCGGACGCCATCAAGAAAGCTTTCGAGATCGCCCACGCCGTCGATCCGAAGGCGCAGCTCGTGCTCAATGAATATGATGTCGAATTTGCCGCCGAGAAATCGCCGGCCAAGCGCGCGGCCTTCCGCAATCTCATTCTCGAACTGCTGGAGAAGGGCGCGCCGATCAACGCCGTCGGCCTGCAGGGGCATTTGCGCGGCGGCTGGCCGATCGCCAAGGACGAGCTTGCCGCCTTCACGACGGAAATGCGCAGTTACGGTCTTGCCGTTCTGGTAACGGAGCTGGATGTGATGGACCAGACGCTGCCCGCGCCGGAAGCCGAACGCGATATGCTGATCAACGGCCAGGTCCGTGAATTTCTGGAGGCGGCTTCCGCGGGCGGCGCGCTTTCCTCCATCACCACATGGGGCATCTCGGATCAATATAGCTGGATCCGCTGGGCCTATCCGCGCCGGGACGGCACCGCCAACCGGCCGCTGCCGCTGGACTGGAGTTTCAACGAAAAACCCATGATGGCCATCATCAATGAATTCCGGAACCGTGGTGCATGA	MRIGRRNFMGGAASAGLLHAVAGPAFAAQKKTASKTAPYGAAVYLPDLTADSRIGEAVVKYCSRITPVTEMKWEVLRPSAEVFDFAAADAIANFARQHKLSMHGHPLIWYASNAPWLASIGGGVKVEKLMETHIVTVMERYKDVIHSWDVVNEPIPDVPGNVRARRDAWYYGAGPDAIKKAFEIAHAVDPKAQLVLNEYDVEFAAEKSPAKRAAFRNLILELLEKGAPINAVGLQGHLRGGWPIAKDELAAFTTEMRSYGLAVLVTELDVMDQTLPAPEAERDMLINGQVREFLEAASAGGALSSITTWGISDQYSWIRWAYPRRDGTANRPLPLDWSFNEKPMMAIINEFRNRGA	PGPT0018625_1555	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCANASE,PGPT0018625-xynY|xynZ|xynD|xynA-K01181	NA	NA
BMS010_01027	1086			hypothetical protein	ATGACTATGAATGCTGAAATGCCGCTTCCTCCCGTGCAAAAGGCGCTGCAAATCAACCTGCACCCCTTCGATGCCCCGCATGCGGCCCTGACCCTGCCGCATCAGCTCAGGGTCTGGGGCGGACAGGTGGACCGCATTCTGCTGACCGTCGATACGGGCCAGGTGGGGGCCGGCCGCTACAAGGGCAACGGTTTCGATGCGGCGCGCCAGCGTCTCTTCGACATGCTGGAGGAAATGCAGACCAATTATCCGCATCTCTCCGTGGATATCGTCGATTACAGCGATGCGGCGCGCAGCACCGTGACGGAAACCTTCTTTCCCCGCTCGCCGATCCCCTATCCCGCCAAGGCTTTCGATGGCGGGCCTTTCCATGTCTATTTCTACGGGCTGAAACGCGCCAATGCCCGTTATGTGCTGCATATGGACAGCGACATGATGTTCGGCGGCGGCAGCCAGAGCTGGTTCGGCGAGGCCATCGCGCTTCAGAAGGCCAATCCGGATGCGTTGTGCATCACGCCCTTTTCCGGGCCGCCGACGGTGCGCGGCGATCTGGATATCTCCCGCCATGTTGGCATGCCCGGCGTAAAGAATATTCCTGCGCCGCGCAAGCTGCCGTCGCGCATTCCCACCTGGCGTTTCGCCACCGTTTCCACCCGGCTTTTCATGATCGACATGGAACGTTTTGCGAAACGCATCGGCTCGCTGGAACTGCTCAAGCCCGATGTCAAACGGCGCATCCGCTCCTATGCCTATAACCAGCAGCCTGTCTCGATGCCCGCCGAGGAGGTGCTGAGCACGAACATGATGCGCACGGGTGTTTATCGCCTCGATTTTCTCGGCACGGGCAAGGGCATGTATTCACTGCATCCGCCCTATCGTTCGCCGGAATTTTATGCGGCGCTGGCCTCCATCGTCGAGCGCATCGAAAAGGGCGATATTCCCGAAGGCCAGCTTGGCGATTTCGATATTAACGGGTCGATGGTGGACTGGACCAGCGCGCTGGCGGCCAAGACGCGCTCCAAACGTTATGCGAAAGCGCTGCGCCATCTCATCTCGGCCAATGTCGGGCGGTTCAGCAAGGCTTGA	MTMNAEMPLPPVQKALQINLHPFDAPHAALTLPHQLRVWGGQVDRILLTVDTGQVGAGRYKGNGFDAARQRLFDMLEEMQTNYPHLSVDIVDYSDAARSTVTETFFPRSPIPYPAKAFDGGPFHVYFYGLKRANARYVLHMDSDMMFGGGSQSWFGEAIALQKANPDALCITPFSGPPTVRGDLDISRHVGMPGVKNIPAPRKLPSRIPTWRFATVSTRLFMIDMERFAKRIGSLELLKPDVKRRIRSYAYNQQPVSMPAEEVLSTNMMRTGVYRLDFLGTGKGMYSLHPPYRSPEFYAALASIVERIEKGDIPEGQLGDFDINGSMVDWTSALAAKTRSKRYAKALRHLISANVGRFSKA				NA	NA	NA	NA	NA
BMS010_01028	1164			hypothetical protein	GTGGACGTTCCGATACACACCCATGTGGACGATGGCGATAGCGGTCACTTGACACAACGCCCGGTTCAAATCGGTGTGTCCGGCATCCGCCCCATGCGCAGGGAAGACGTTCCGGCTGTCGAGGCCGTGCTCAACAGCGCTTTCAGGAAAACCGGGCAGGAGCGGAACTTCGATTTCGGCTCCTATATCGAAAAACTGTTTTTCGGCAGCCCCGCCTTCAGCCCGGAAAACGGCAGCGTTGTCTACGATGCCGGGGAGAACGGGGTCACCAGCGTCATTCTCGCCGTGCCCATGCGCTTCGTTGCGAATGGAAAAACCATTACCGCACGGCTGCTCTGCGCCTTCGCATCGGACGGGAAACGCGGCGCACTCGGCGCGGCGCGTCTGTCCCGGGGCATGCGGGCCTCCAAACACGACATGTTGTTCTCGGATACGGCTTCACCCGTCAGCGCCGATCACTGGGTGGCGACCGGCGGCAACATGCTGCCGATTGAAAGCCTGCAATGGCACAAGGCGCTCAAGCCCTTCTGCACCATCGCGCTGCGCATGCCGCGCCGTTCGAAACTGGCCAAAACCACGCTGGCGCTCGCCGCGCTCGGATTTGTGGATGGAATCCTGCGACGATGGAAAAAGGGTCTGAGACCGCAGGAGGCCGCGGGCGCTACGGTGAGAACCGTGGATTACGAAACTTTCCGCCGCAGGGCGCTCGCGATGATCGAGCGTTTTTCCATTCGCCCGGAATGGTCTCACGAGGAATTCCACTGGCTGATCGAGATGAGCAGGACCAATGAAAGCCTCGGCGAACTGAAGGGCGTGGTGATCGAGAATGCCGAAGGCCATGCCATGGGCGCTGCGCTGTTTTTCGGCCAGCGGGGCAGAACGGCCTATGTGCTCAATCTCGTCTGCGATGCCGGTTGCGAAAACGATGTCCTCAACACCCTGTTCCGCCATTTCGATGACGAGAACTATGCCCATGTCACCGGCATGGCACAGCCCTTTCTCATCAACGCGCTTTACCGCCAGAACCACATGAGCTTCCGCCATGACGGTTATTTCTGCATGGCGACGCGCGATGACGCCCTGCGGGAAAGGGCGCTGGCCGGCGATATCTATATTGGCGGACTGTGCTCGGAGAGCTGGAGCAAGCTCATCACCGACTATTGA	MDVPIHTHVDDGDSGHLTQRPVQIGVSGIRPMRREDVPAVEAVLNSAFRKTGQERNFDFGSYIEKLFFGSPAFSPENGSVVYDAGENGVTSVILAVPMRFVANGKTITARLLCAFASDGKRGALGAARLSRGMRASKHDMLFSDTASPVSADHWVATGGNMLPIESLQWHKALKPFCTIALRMPRRSKLAKTTLALAALGFVDGILRRWKKGLRPQEAAGATVRTVDYETFRRRALAMIERFSIRPEWSHEEFHWLIEMSRTNESLGELKGVVIENAEGHAMGAALFFGQRGRTAYVLNLVCDAGCENDVLNTLFRHFDDENYAHVTGMAQPFLINALYRQNHMSFRHDGYFCMATRDDALRERALAGDIYIGGLCSESWSKLITDY				NA	NA	NA	NA	NA
BMS010_01029	1371			hypothetical protein	ATGGATGCAGCGCATGGCGAACAGGGGCGCGGCTACTGGCGGGACGTGTTGTTTTACGTGACGTTCCTGTTTTTCACGGTCGGCTTTTCGCCCTATATCTCGCTCTCATCGACCTATCAGGGCTCCGCCATGGCGGCCGGGTCCAACCTGCTCAACCAGTTGACCGCGATCATCCTGTTTTTCAGTTTCCTGGCCTTCATGGCGAAGGAGCGGTCGTTTTCCATCCTCTTCATGCCGCGCCTGCTGATGGCGGCGATTTTCGGCTGGTTTGTCCTGACCTCGCTTGCGGGCGAAGCGCCGCTATTTTCGCTCAGGCGGCTGGTCATGTCCGCCATCATCTGTGTGCTTGCCGGCGGCTTCCTGCAATTGCCGCGCACCGAGCGGCATTTCACGACGCTGCTTGCCACATGCGCCCTGATCATATTGTTCCTGTGCTATTTCGGAATCACCGTGCTGCCCTCGCGCTCGATCCATCAGGCCAGCGATGCGCTGGAGCCGCTGCTGGCGGGGGACTGGCGCGGGGTTTTCCGCCATAAGAACGAGGCCGCCTCGGTCATGGCGGTGTTGATTATCGTCGGTATTTATCTCTGCAAGCGCTGGTCCTTCATCGGCGGGCTGTCGGTGCTGTTGCTGTCGCTGGTCTTTCTGGTCAAGTCGGGCGGCAAGACCGCGCTCGGGCTGATGCCGATCATTATTGCGGCAGGCTGGTTCATCCTGCGCTGGCCGCGCTGGCGTTATACGGTCGTGACCCTGTTTCTGGCGGTTTTTGCGCTGGTGACCGTCGGCACCACGGTCGATCCCGTCTTTTCGCAGATGCTGACGAAGCTGGGGCTCGACGCCAGCTTTACCGGCAGACGGGATATCTGGACCGTCGCCATCGATTACATCCGTCAAAGCCCGCTTCTGGGATACGGCTATCAGGCCTTCTGGCGCAGCGATGCCCTGATGTCGAGTTTCACCGAGAACAATACCTGGGCGACGACCGCGCCGGATTCGCACAATGGTTATTTCGACCTTCTGCTGGCGGGTGGCGTGCCGGGTCTGGTGCTGGTGATGGTGTGGATTTATCTCCTGCCGCTGCACTATCTCGGCAAAATGAACGAGGCCACGCGCAACAGTCCGCTGACGCGGCTTTATGTCGGCGTATGGCTTTATGTGCTGCTCTACGGCTTTCTGGAAACGCTGTTTTTCCTCAGCACCGGCTTCGTCTGGTTCTTCCTCATCGTCGCCGTGATGGGTCTGCACCTTCAGGCCAATGCCAGCCTCGTGGAGGACGAGGCGGAGCGGGAACCGGAGAGAGCCGTGGGTGGAGCGGGCATTGCCCCGACACCGCTGTCAGGGCAGGTTTCTCCTGTCGTTCGCTCCAGATGA	MDAAHGEQGRGYWRDVLFYVTFLFFTVGFSPYISLSSTYQGSAMAAGSNLLNQLTAIILFFSFLAFMAKERSFSILFMPRLLMAAIFGWFVLTSLAGEAPLFSLRRLVMSAIICVLAGGFLQLPRTERHFTTLLATCALIILFLCYFGITVLPSRSIHQASDALEPLLAGDWRGVFRHKNEAASVMAVLIIVGIYLCKRWSFIGGLSVLLLSLVFLVKSGGKTALGLMPIIIAAGWFILRWPRWRYTVVTLFLAVFALVTVGTTVDPVFSQMLTKLGLDASFTGRRDIWTVAIDYIRQSPLLGYGYQAFWRSDALMSSFTENNTWATTAPDSHNGYFDLLLAGGVPGLVLVMVWIYLLPLHYLGKMNEATRNSPLTRLYVGVWLYVLLYGFLETLFFLSTGFVWFFLIVAVMGLHLQANASLVEDEAEREPERAVGGAGIAPTPLSGQVSPVVRSR				NA	NA	NA	NA	NA
BMS010_01030	780	occP_1		Octopine permease ATP-binding protein P	ATGGCAGATACAGGCGCCTGCGCGCTCGAGGCGGATGACATCCACAAGAGCTTCGGCACGCATGAAGTTTTGAAGGGCGTTTCCTTGCAGGCCCACAAGGGCGATGTCATCTCGATCATCGGGTCTTCCGGTTCCGGCAAAAGCACCTTTCTGCGCTGCATGAATTTTCTCGAAACGCCGGATCGCGGCCGCGTCATCGTCAATGGCGAGGAAATCGCCACAAAAACCGGCCGCGACGGCAAGGCCGTGCCAAAAAACTGGCGGCAGGTGGAAAAACTGCGCACCGGCCTTGGCATGGTGTTCCAGAATTTCAATCTCTGGGCCCATCGCACCGTTCTGGAAAACGTCATCGAGGCGCCCGTTCATGTTCTCGGCGTCAGGCGGCAGGTGGCGGTTGAAAAGGCCGAAGCCCTGCTGAACAAGGTCGGGCTTTATGACAAGAAAAACGCCTATCCGGCATTCCTGTCCGGCGGGCAGCAGCAACGTGCCGCCATTGCGCGCGCGCTCTGCATGGAGCCGGCGGTGATGCTGTTCGACGAACCCACTTCGGCGCTCGATCCCGAACTGGTGGGCGAGGTTCTGAAGGTCATTCGCGATCTGGCCGAGGAAGGCCGCACCATGCTGCTCGTCACCCACGAAATGCGCTTTGCGCGCGATGTATCCTCGCAGGTCGTGTTTTTGCATCAGGGCCGGGTGGAGGAGGCGGGGCCGCCGGCGCAGGTGTTCGGAAACCCCTTGAGCGCCCGCTGCCGGGAATTTACCGGCGCGCTCACCAATTGA	MADTGACALEADDIHKSFGTHEVLKGVSLQAHKGDVISIIGSSGSGKSTFLRCMNFLETPDRGRVIVNGEEIATKTGRDGKAVPKNWRQVEKLRTGLGMVFQNFNLWAHRTVLENVIEAPVHVLGVRRQVAVEKAEALLNKVGLYDKKNAYPAFLSGGQQQRAAIARALCMEPAVMLFDEPTSALDPELVGEVLKVIRDLAEEGRTMLLVTHEMRFARDVSSQVVFLHQGRVEEAGPPAQVFGNPLSARCREFTGALTN	PGPT0020890_312	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020890-occP|nocP-K10021	NA	NA
BMS010_01031	777	hisJ	COG0834	Histidine-binding periplasmic protein	ATGAAATTTTTCGCCACGCTGCTTGCCGGAACGGCATTTGCGTTTTCCGCCTTCACCGCCAGCGCCGACGTGCGCTTCGGCATCATGAACGAGGCCTATCCGCCCTTCTTCGCCAAGGATGCGAGCGGCAAGTGGCAGGGCTGGGAAATCGACCTCATGGACGCCGTCTGCGCGGAAATGAAGGAAAAATGCTCGATCGTGGAACTGTCGTGGGATGGGCTGATCCCGGCTCTCCAAACCAAGAAATTCGACGTCATCTGGTCGTCCATGTCGAACACGGAAGAGCGCCAGAAGGTGATCGATTTCACCGACAAATATTACAACACGCCGAGCAAGCTGATTGGCGCCAAGGGCGAAAAGCCCGGTGCAGCGGCGGAAGATGTCAAGGGCAAGACCATCGGCATTCAGGTGGCAACCATCCAGTCCGAATATTACAAGAAATATTTCGCTGCTGTTGCTGACGAGAAGACCTACCAGACGCTGGACGAGGCGTTCCAGGATCTGGCCGCCGGCCGTATCGACTATGTCTTCGGCGACTCGCTGGTTCTCGATGCCTTCGTGAAGAGCGATGCCGGCAAGGATTGCTGCGCCGACATGGGCAACGTGGCCGACGACAAGCAAATCCTCGGTCTCGGCGTTTCCGGCGGCCTGCGCAAGGAAGACACCGAACTCAAGGCCAAGCTGAATGCGGCAATCGCCGCCGTCCGCGCCAGCGGCAAATACGACGAGATCACCAAGAAGTATTTCAGCTTCGACATCTACGGCAGCAAGCCCTGA	MKFFATLLAGTAFAFSAFTASADVRFGIMNEAYPPFFAKDASGKWQGWEIDLMDAVCAEMKEKCSIVELSWDGLIPALQTKKFDVIWSSMSNTEERQKVIDFTDKYYNTPSKLIGAKGEKPGAAAEDVKGKTIGIQVATIQSEYYKKYFAAVADEKTYQTLDEAFQDLAAGRIDYVFGDSLVLDAFVKSDAGKDCCADMGNVADDKQILGLGVSGGLRKEDTELKAKLNAAIAAVRASGKYDEITKKYFSFDIYGSKP	PGPT0020800_13054	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_01032	723	hisQ_1	COG4215	Histidine transport system permease protein HisQ	ATGGCAAGCCTTGAAACCACGTTGCAGCTTCTGTCACCCTATCCTCCGGGATGGGGCGGCACCCTTTTGAAGGGTGCGGCGTCGACACTTGCCATTTCCGCCGGTGCCTATCTCATCGGTATCGTCATCGGGCTTGCCGGCGCGCTCGGCAAGCTGTCCGGTAACAGGCCGCTTGGCCTGTTGCTCAATTTCTACACCACGGCGATCCGCGCCGTTCCCGAACTCATTCTCATCGTCGGGCTTTATTATGCCGGTACGGATGGGCTCAACGGGCTGCTCTTGCTGGCTGGCATGCCGCCGCTTGAGGTAAACGGTTTTGTTGCCGCTGTTGCGGTTCTGGGTTTCGTGCAGGGCGCCTATATGACCGAGGTGCTGCGCGGTGCGATCCTTGCCGTGCCGAACGGCCAGATCGAGGCGGCGCGGGCCTTTGGCATGTCGCCTTTCCTGCGTTTCCGTCGCGTGGTCCTGCCGGCATTGCTGCCGAATGCGCTGCCGGGTCTTGCCAATCTCTGGCTTGCCGTGACCAAGGACAGCGCGCTGGTGGCCGTCGTCGGTTATCAGGAACTGGCGCTGGCAACGCGCTTGGCAGGGGCCAGCACCAAGCAATATTTCCTGTTCTTCCTGGCGGCGGCGTTCCTTTATCTCGCCATCACGCTCGTCTCCAATCTCGTCTTCTCGCTGTTGGAACGCCGGGTGCGGCGCGGCCAACCGGCCTTGGCGTAA	MASLETTLQLLSPYPPGWGGTLLKGAASTLAISAGAYLIGIVIGLAGALGKLSGNRPLGLLLNFYTTAIRAVPELILIVGLYYAGTDGLNGLLLLAGMPPLEVNGFVAAVAVLGFVQGAYMTEVLRGAILAVPNGQIEAARAFGMSPFLRFRRVVLPALLPNALPGLANLWLAVTKDSALVAVVGYQELALATRLAGASTKQYFLFFLAAAFLYLAITLVSNLVFSLLERRVRRGQPALA	PGPT0020795_5076	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
BMS010_01033	690	occM_1		Octopine transport system permease protein OccM	ATGGATTTTTCATGGGTCGCCAAATATTGGCCGCTGCTTCTCTCGGGTGCCTGGCAGACGGTGGCGTTGCTCGTCATCTCCGTCAGCATCGGTTTTCTCCTCGCCATCGGGCTTGCCTTTGCGCAGGTGAGCGGCGGGCGGGTGACGAAAATCCTGGCGCGGGCCTATTGCACCTTCTTCCGGGGCACGCCGTTGCTCATCCAGCTCTGGCTGCTTTATTACGGCGTTGGCTCGCTTCTGCCGATGATCCCCGGCCTGCGCCAAAGCTTCATGTGGCCGGTGCTGCGCGAAGGGTTCTTCTTTGCGGCCGTGAGCTTCACGCTGAATTATGCGGCCTATGAGGCGGAAGTTCTGCGCGGCGCGCTGCTGGCGGTGCCGAAAGGTGAGCTGGAGGCGGGCAGGGCTTTCGGCATGGGCCGTTTCACCCTCATTCGCCGCATCTGGCTGCCGCGCGCCATCCGCATCGCGCTGCCGACGATTGCCGGCGAGGTGGTGATGCAGCTTAAAGCCACGCCGCTTGCTTTCACCGTGACGGTGATGGACCTCTACGCCGTCGCCTACAAGGTGCGGCAGGATACGCTTCTGGTCTATGAGCCGCTGATCGTCGTCACCGTCTTCTATCTCATTCTCACCGCCATCATCGCCCGCTGTTTCGGCCTTGTCGAACAGCAGGTGCCGGTCAGGCGATAA	MDFSWVAKYWPLLLSGAWQTVALLVISVSIGFLLAIGLAFAQVSGGRVTKILARAYCTFFRGTPLLIQLWLLYYGVGSLLPMIPGLRQSFMWPVLREGFFFAAVSFTLNYAAYEAEVLRGALLAVPKGELEAGRAFGMGRFTLIRRIWLPRAIRIALPTIAGEVVMQLKATPLAFTVTVMDLYAVAYKVRQDTLLVYEPLIVVTVFYLILTAIIARCFGLVEQQVPVRR	PGPT0020795_6291	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
BMS010_01034	912	mmuM	COG2040	Homocysteine S-methyltransferase	ATGAGCACAATCCGTATCCTCGACGGCGGCATGAGCCGCGAATTGCAGCGGCTCGGCGCCGAACTGAAACAGCCGGAATGGTCGGCGCTGGCGCTGATCGACGCGCCCGATATCGTGCGGCAGGTGCATGCGGAATTCATCGAGGCCGGCGCCGATGTCGTCACCACCAATTCTTATGCGCTGGTGCCCTTCCACATCGGCGAAGAGCGTTTCCAGGACGATGGCGCATCGCTGATCGCCCTTTCTGGCAAGCTGGCGCGCGAAGCGGCGGATGCTTCCGGCCGCAAGGTGCTGGTGGCGGGTTCGCTGCCGCCGATTTTCGGTTCCTATGAGCCGCAGAATTTCGATGCCACGCGGGTGCAGGCCTATCTGAAGGTGCTGGTCGACAATCTTGCGCCCCATGTCGATGTCTGGCTCGGTGAGACGCTCAGCCTGATCGCCGAGGGCGACGCGGTGCGCGAGGCCGTTGCCGCAACCGGCAAACCGTTCTGGATTTCCTTCACGCTCAACGACGATGCGGCTGCGGCCGGCGGCGAGCCCGCGCTTCGCTCCGGTGAAACGGTAAGGGCGGCCGCCGAATGGGCGGCGCAATCGGGTGCCGCCGCGCTTCTGTTCAATTGCAGCAAGCCGGAAGTCATGAAGGCCGCCGTGGAGACGGCCGCCGCCGTCTTCGCGGACAAGGCTGTGTCGCTGGAAATCGGCGTCTACGCCAATGCCTTCGAAGGCGAGCAGGGCGATTCCGCCGCAAATGAAGGGCTGCATGGCACGCGCGCCGATCTGACCGGCGATGTCTATTCCCGTTTTGCCTGCTCCTGGGCGGATGCGGGCGCGACCATGATCGGCGGCTGCTGCGGCATTGGTGCGGCGCATATCCACACGGTTGCGACAGCGCTGCGGCGCGCGGCGGCTTGA	MSTIRILDGGMSRELQRLGAELKQPEWSALALIDAPDIVRQVHAEFIEAGADVVTTNSYALVPFHIGEERFQDDGASLIALSGKLAREAADASGRKVLVAGSLPPIFGSYEPQNFDATRVQAYLKVLVDNLAPHVDVWLGETLSLIAEGDAVREAVAATGKPFWISFTLNDDAAAAGGEPALRSGETVRAAAEWAAQSGAAALLFNCSKPEVMKAAVETAAAVFADKAVSLEIGVYANAFEGEQGDSAANEGLHGTRADLTGDVYSRFACSWADAGATMIGGCCGIGAAHIHTVATALRRAAA				NA	NA	NA	NA	NA
BMS010_01035	1947			hypothetical protein	GTGTCGTTTCTTCAAAACGCCAGTATCCGCACCAAAATCCTGTCGCTCATTCTTCCGCTCTGCATCGTCGGCCTTGGCGCCGCCGCCTTCATGTCCACCCGCTACAAGGAAGCGGACACGGCCTACTCGCTCTTTATCGCCAACGACAACGCCGCTCTGGTGGAGCTTGCGCGTGCCAACCGAAATCTGGTTGCCCTGGCCTATGGCGCCTATCAGGTCATGGCGTACGACGTGAACGGGCCGGAGATAAAGGCCGCCAAGCAGGCCTACAGTGACAGCAAGGGCGCGCTCCTCCAGCGCCTCAATAATGTGAAGACTGTTTTTCCCGAAGAGTCCGCCGCCATGGACGCCTTCATCGCGCAGTCGCAGGCCATAACCGCCATGACGGATAAGGCTGTCGAACTTGGTATGGCAAATCGTAATGACGAATCCGCTGCCCAATTGCTCAAGGCGGACGCCTCCATTCACGCGACTTCGGTTGCCATGACGGCGCTGCTGGACAAGCTTGCCAAGGGCGTCGTCCAGGGAAGCGACGAACTGACGGACCAGACCAATTCGACCATCTTCACCTCCCTGTTGGTTGTCGGCATCGCTTTTGCGGTCGGCATCATTCTGGCGCTGTTCGTGGCGTCCCGCGGCATCACAACCCCTATCGCCCGCCTGCGCGAGCGCATGGTGTCGCTTGCCGGCGGCGAGACGGCGACGGAAATCGACGGCATGACGCGCCGCGACGAAGTGGGCCAGATGGCGAAGGCCGTGCAGGTCTTCCGTGAAAACGCCATCGAGCGCATTCGTCTCGAGCAGGAAACCGAAGCCAATCGCAGCCTCTCGGAGAAAGACCGGATGGAGCGCGAGCAGCAGAAGGCAAGGGAAGCGGCCGACGTCAAGTTCGCCGTCGACAATCTCGCCGCCGGTCTCTCGAAGCTTTCGGAGGGCGATGTTTCCTATCGCATCGGCCAGCCGTTCACCGCCACGCTCGACGCCGTTCGTAACGATTTCAACATGTCCGCCGAAAAGCTGCAGGCGGCCCTGACCAAGGTGGCCCAGAACGCCAGCGGCATCGGCGCGGGTGCTGACGAGATCAAATCTGCCGCCGACGATCTGGCCAAACGCACCGAGCAGCAGGCTGCGGCTGTCGAAGAAACCGCCGCAGCTCTGGAGGAGATCACAACGACGGTGCGCGATTCCACCCGTCGTGCGCAGGAGGCGGGCGAGATCGTCAGCCGCGCCAAGGCGGGCGCCGAGCAATCCGGCGACGTGGTGCGCCGCGCCGTGGTCGCCATGGAGCAGATCGCCAAATCCGCCAATGAGATCAGCAACATCATCGGCGTCATCGACGAAATCGCCTTCCAGACCAACCTTCTGGCGCTGAATGCCGGCGTGGAGGCCGCGCGTGCGGGTGAGGCCGGCAAGGGTTTTGCCGTCGTCGCGCAGGAAGTGCGCGAGCTTGCCCAGCGCTCCGCCCATGCCGCCAAGGAGATCAAGGCGCTGATCAACACCTCAAACGATCAGGTGCAGCAGGGCGTTCAGCTGGTGGGCGACACCGGCAAGGCGCTGGCGACCATCGTTTCGGAAGTGCAGGAAATCAACCGGCACGTCGTCTCCATCGTGGAGGCCGCGCAGGAACAGTCTTCCGGACTGCAGCAGATCAATACGGCGGTCAACCAGATGGATCAGGACACGCAGAAAAATGCGGCCATGGTGGAAGAAACCAACGCCGCAAGCCACAGCCTCGCCAAGGAAGTGGCGTCGCTCAACCAGCTGCTCTCCCAGTTCCGGCTCGCCGACGGCGCCTATCAACCGAAAAGCCAGCCTGCGCCGGTCCGCAGCGCCGGTGGCAGCGACAAATATGTCGCCTCTCCCGTCCGTGCACTGGGCCGCAAGATCGCCTCGGCGTTTTCGGGCAATGCCGCCGTCGATACAAAAGGCGACTGGCAGGAGTTCTGA	MSFLQNASIRTKILSLILPLCIVGLGAAAFMSTRYKEADTAYSLFIANDNAALVELARANRNLVALAYGAYQVMAYDVNGPEIKAAKQAYSDSKGALLQRLNNVKTVFPEESAAMDAFIAQSQAITAMTDKAVELGMANRNDESAAQLLKADASIHATSVAMTALLDKLAKGVVQGSDELTDQTNSTIFTSLLVVGIAFAVGIILALFVASRGITTPIARLRERMVSLAGGETATEIDGMTRRDEVGQMAKAVQVFRENAIERIRLEQETEANRSLSEKDRMEREQQKAREAADVKFAVDNLAAGLSKLSEGDVSYRIGQPFTATLDAVRNDFNMSAEKLQAALTKVAQNASGIGAGADEIKSAADDLAKRTEQQAAAVEETAAALEEITTTVRDSTRRAQEAGEIVSRAKAGAEQSGDVVRRAVVAMEQIAKSANEISNIIGVIDEIAFQTNLLALNAGVEAARAGEAGKGFAVVAQEVRELAQRSAHAAKEIKALINTSNDQVQQGVQLVGDTGKALATIVSEVQEINRHVVSIVEAAQEQSSGLQQINTAVNQMDQDTQKNAAMVEETNAASHSLAKEVASLNQLLSQFRLADGAYQPKSQPAPVRSAGGSDKYVASPVRALGRKIASAFSGNAAVDTKGDWQEF	PGPT0015710_9201	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_01036	141			hypothetical protein	ATGATGGAATGGGATTGGGTAGATTTGTTCCCCTTGGTCTTCTTTCCGTTCAAGATTATCGTGTTGGGCACGGGCATGTTCTTCGCCATCAAGTGGCATCACGATCAGGCGAAGAAGGAAAAGGGCCCCAGCGGCCCCTAA	MMEWDWVDLFPLVFFPFKIIVLGTGMFFAIKWHHDQAKKEKGPSGP				NA	NA	NA	NA	NA
BMS010_01037	1401	rep_1		ATP-dependent DNA helicase Rep	GTGAGGGTTTTAAAGCGAATCCGGCCTACGCCGGAGCAAATGACGGTAATTCGGCGAATCCAGAGCGGTACTTCGCTCATCCGGGGTGCAGCGGGAAGTGGAAAAACGTCAACTGCGTTGACAGCTCTTCGCGCAGCAACTGGCACAGTAGTCAATCAGTTGCGAAACGAATTGGCATTACCCGCTCACGTGCTGGTTTTGACCTACTACAACTCATTGAAGGGATACATTTCTGCTGTAATCCGCGAGGAAATGAGTGACTATGCGGACAGCGCGCTTTTGTACGTCCTTACCTTCGATAAATGGGCCTTTGATACGCTTGGAATATGCGGCCCGCTCGAGCTCCCACGTTGCGAGACTGAATTGCGACGACTGGCGCAGCCATTTCCTCGAAATACCGATTTCCTTCTTGACGAAGTAAATTACCTTCTAGGCAGATTTCAGCCTGCTGATCTTGATGATTATGTCGTACGTCCTCGCACAGGGCGCGGAAACTCTCCACAAATGGATGCAGCAATGCGGACTCGATTGCTGAACGAAGTAGTCAGGCCTTATATCAGTTGGAAGGAAGCCAACAATATTCGTGATTTCAACGACGTGGCTGTGCAAATGTCACAACATCATCCAAACTTCCTTTTTGACGTTGTTGTCGTTGATGAAGCCCAGGATTTTTCGGCTAACCAGCTCAGAGCGATAATGCGGCACTGCGCTCCCAACGCCACAGTCACTATCGTTACAGACACGGCGCAACGTATATATCCGAGAGGAACATCTTGGGCAGAGGTTGGTGTAACTGTAACTGCTCAGCGCAGTTTCCGCCTAACGGTAAACTACCGAAACACAAAAGAAATTGCAGAATTGGCGAGCAATATAGCTCAGGGGCTCCCCCTAGATGAAGACGCTAGCATGCCTGATCCAGCTAACTGTGAAGAGAGTGGAAATCTTCCAGTCCTCTTAAAGGGTTTGTATAGCGAGCAAGTTGAGTGGTCGCTAGATCGCTTGTCAGAAATAGATCTGGAAAATGAAACTGTTGGATTTCTTCATCTGAAGGGCGGGAGGTATTTCAATTATTTGAGGCAGTGCTTGCGAGACAAAGGACTGGAGTTCTGCGAACTGCAAGGTTCTCGCGAATGGCCTGAGGACGAGGCAAACATTGGGCTTTGTACGTTCCACAGTGCAAAAGGGTTAGAATTCGATCATTTGTTTTTACTCGGCCTCGCTCAAAAGGATGCCGTATATGGTGATGAGCCTGATGATGATCGATTTGAGGCTCTACGAAGACTTGTTGCAATGGGGGTAGGAAGAGCCCGTAAAACAGTAGTATTAGGCGCGAAGCCTTCGGAGGCATTATCGTTGCTCGATGACATAAATCCAGAGTTGATAGAGGTCAAAGAACTATGA	MRVLKRIRPTPEQMTVIRRIQSGTSLIRGAAGSGKTSTALTALRAATGTVVNQLRNELALPAHVLVLTYYNSLKGYISAVIREEMSDYADSALLYVLTFDKWAFDTLGICGPLELPRCETELRRLAQPFPRNTDFLLDEVNYLLGRFQPADLDDYVVRPRTGRGNSPQMDAAMRTRLLNEVVRPYISWKEANNIRDFNDVAVQMSQHHPNFLFDVVVVDEAQDFSANQLRAIMRHCAPNATVTIVTDTAQRIYPRGTSWAEVGVTVTAQRSFRLTVNYRNTKEIAELASNIAQGLPLDEDASMPDPANCEESGNLPVLLKGLYSEQVEWSLDRLSEIDLENETVGFLHLKGGRYFNYLRQCLRDKGLEFCELQGSREWPEDEANIGLCTFHSAKGLEFDHLFLLGLAQKDAVYGDEPDDDRFEALRRLVAMGVGRARKTVVLGAKPSEALSLLDDINPELIEVKEL				NA	NA	NA	NA	NA
BMS010_01038	642			hypothetical protein	ATGAGTGTTCGGGACCTAACAACAGCAAGATCGGTCGAGGAGGTCGTCCACTTCACAACTAACCATGGTTGCCTCGGTACACTCTACACTGAGCACTTGCAGTCACGTAGAAGATTGCAAGACGATAAGATGGTCAAATTTCTTTTTGCACCAAACTCACTCCTCAGGAAAGACCCGACGTATGTTGATTACGTAAGTCTCTCGATTAGTCACATTAACACGGATTTTTTTCGTGTAAGCTCCCAATCATGGCATCGGAATGAGCCGATATTCTGGTGTATCTTGTCTTTTTCGCCAGAGATATTGGCTCATGATGGTGTGGTTTTCGCATCAACAAATAATATCTATCCCAGTGTCATTCGCGGGGAGGGTGTGGGAGGGTTCCAAGCACTTTTTGCTCAAAACGTGGCCGGAAGATACGGGGCGATCACTACCAGACAGGTAACCTTGCCCTCATTCTATCCGACGTGTTTTCAAGCAGAGGCACTTTATCCGTCGAAAATTTCCACGGACTTCCTTCAGCGCATTTATGTTGCTAACACTACAGAGCAGTCAGAGATTGTCGGCTTCCTGAAGGCTACATTCCACCGAGATGTCGACGTAGTAGTATCTCCCGAAAAGTTTGGTACACGACCGCTATGA	MSVRDLTTARSVEEVVHFTTNHGCLGTLYTEHLQSRRRLQDDKMVKFLFAPNSLLRKDPTYVDYVSLSISHINTDFFRVSSQSWHRNEPIFWCILSFSPEILAHDGVVFASTNNIYPSVIRGEGVGGFQALFAQNVAGRYGAITTRQVTLPSFYPTCFQAEALYPSKISTDFLQRIYVANTTEQSEIVGFLKATFHRDVDVVVSPEKFGTRPL	PGPT0027679_767	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-darG-darT_TOXIN-ANTITOXIN_SYSTEM,PGPT0027679-toxin_darT-na	NA	NA
BMS010_01039	1659			hypothetical protein	ATGAGCGATGTAAGAGAAAATAGGATAAGATCGTCAGCTGTTTGGGCAGCCTACGGTGATGCGCTAGGTTTCATAACCGAACTGGCCGACGAAGGCCGCGTCGCACACAGAACAGGTCAATCAGCGATAACCAAAACGATTCCGTGGCGTCGAAAACTGGGAAGCAGGATCGGAGTATTTGTTGATTTTCCAGCTGGGGCGTATTCCGATGATACGCAACTTAGATTAGCCACGTCTCGTGCCATTCGAAGTGACGGTTCCTTTGACGTAGCGGCGTTCTCAAAGGTAGAGCTGCCTGCATGGTTGAACTACGCACTTGGCGCAGGTATCGCGACCCGTGAGGCTGCCTCGAGCTTAGCTAGGACTTCAGCAACTTGGTACTCTAACTTTTTCGAAAATAAGCGTTCTAATTACGTTGCCGCTGGAGGGAACGGTGGCGCGATGAGAGTGCAGCCGCACGTATGGGCAGCACGAGACCTTGATAATCTCTCTATAATATTCTCCGACGTAATAAAAAACACGATCTGCACTCATGGACATCCGCGCGCTATTGTAGGTGCATGTTTTCATGCTTTGGCGTTAGCTCGGGCTTTAAAGACCGGACGCCCTTCTCGCCTCGATGAACTGTACGCAGATGTAAATGAACTGAACAAAATCGCATCGATAATAGAAAACGATGCAGACCTCAGGCTCTTTTGGGTCGGTCCGTGGCTAGATAAACTCGGCGCATCTCTTGACGCGGTCATAAATGATACTGTTCGGGAAATTTCAGATGACCTCACACTCTTGCGAGAAATTGATGATGATGAGACTCGGCTTGCATATGAGGAAGGCCTGAAAAGACTGCAGGGGTATAGTCCTAATGCGCGCGGTTCGGGTACGAAGACAGCAATCCTCGCATCTTACCTAGCATCACTCTGCGAACATAAAGGTCCTGAAGAGGCTGTGATTTTGGCGGCGAACGCCCTTGGCTCTGATACGGATTCGATAGCTACCATGGCGGGTGCGATACTTGGCGCGTGTACCGATATCCCTTTAAAACACGCGCTTCAGGATATCGATTACATCTCTTTCGAAGCAATACGCCTAGCCCATGTCTCGGATCGAGCAGCACAGAGAAACTTCTCATATCCCGATTTACGATCTTGGAAACCCGAGCGCGCGGCGGTGGATGCTGTCGCTCGGACAGAGGAGGGTTTAATTCTCAACGGTATCGCCAGAGCAGAGTTCGTCGGACGGCCTCCAATTTCTGACAGTGACGGAGTATTTGTTGCTTGGTTGAGGCTAAATTTTGGGCAGACTATCCTCGCTCGGATAAGAGAAGAACCACGTTACGTGGATGATGTAGCAAAGAGAGTGGTCATCAATCGACCGGTTCAGCCGTTGATTAGGCAGTTGGTTGAACCCCCGATGCCAGATTTGTTCTCGAAGCGAGTTGAGAAGAATGCGGATCAGAAGAAACTATCGGGCGATCTTTCGACTAAGACCATCAATGACCTCCTTGAAGCAATTATAAATTCGAATTTCGACCCCGAGCTGGTTGGAAATGCGATCCTTTCTCAAGCGCGACTAGACCAAAAGGACTTTGTTGAGCGCGGTATCGCCCTTACGGCCAACGTGTTGACCGCCCTCCATGCGCGGCGTCGTCGAGGAAACTAG	MSDVRENRIRSSAVWAAYGDALGFITELADEGRVAHRTGQSAITKTIPWRRKLGSRIGVFVDFPAGAYSDDTQLRLATSRAIRSDGSFDVAAFSKVELPAWLNYALGAGIATREAASSLARTSATWYSNFFENKRSNYVAAGGNGGAMRVQPHVWAARDLDNLSIIFSDVIKNTICTHGHPRAIVGACFHALALARALKTGRPSRLDELYADVNELNKIASIIENDADLRLFWVGPWLDKLGASLDAVINDTVREISDDLTLLREIDDDETRLAYEEGLKRLQGYSPNARGSGTKTAILASYLASLCEHKGPEEAVILAANALGSDTDSIATMAGAILGACTDIPLKHALQDIDYISFEAIRLAHVSDRAAQRNFSYPDLRSWKPERAAVDAVARTEEGLILNGIARAEFVGRPPISDSDGVFVAWLRLNFGQTILARIREEPRYVDDVAKRVVINRPVQPLIRQLVEPPMPDLFSKRVEKNADQKKLSGDLSTKTINDLLEAIINSNFDPELVGNAILSQARLDQKDFVERGIALTANVLTALHARRRRGN				NA	NA	NA	NA	NA
BMS010_01040	2220			hypothetical protein	ATGGCTGCTGAATTCTCTCTTCATAGACTTGGTTGGCAGTCTTTTCAAGACTTGTGTGTCGCTCTTGCAGAGGAAAGTTTACAGCGACCAGTTCAGACTTTTCTTCCCACAAATGATGCCGGAAGAGACGGAGCTTTTATAGGCCGGTGGGACGGAAAACCTCATGATGGTGAAAGTACGATCCAATGCAAATTTACTTCAACCCCTGATCTACATTTAAGTCTGTCGATGCTCTCAGAAGAGCTTCCTAAAGCACGACGTCTCGCGGCGAGAGGGCTTGCTGATGATTACATTATTCTGACCAACCACCCTGTGACCGGTGAGAGCGAGCTCGCTATCAAAGAGGCGTTCGAAGCTGCTGGGGTCGGAAAGTGCCGGGTGTTTCATCGAGATTGGATAACGAAACGGGTAAATGCGTCATCGCGCCTGCGGATGATGGTTCCACGCCTGTACACGATCGCCGACTTAGGGGGGATTCTGGGTGAGGATTTGCGAGCTTACAAACAGGCGCAACTTATTCTAACGGAGATGGGAGATAGCCTAAGAAAATTCGTTGTGACCGACGCTCATCGCAAGAGCGTGGATGCCATAAACGATCACGGTACGGTACTCTTACTTGGGGAGCCTGCCGCAGGAAAATCCACCATTGGGGCGAGCTTAGCCTTAGCGGCTGCTGACAGATGGCAGTGTTCAGTAGTCAAGGCCACTTCACCAGAAACGTTAGAACCTCGAATTGATCCAGATAGTCGCCAATTTTTCTGGATTGATGATGCTTTTGGTAGTACCCAGTTTCAGCGTGATCGAGTTGAAGGGTGGAATCAGATTTTCCCTTTGATGCAAGCGGCGTTAAAAAACGGCTCGAAATTCCTCATCACCTCTCGAGACTATATTTGGCATGTTGCCAATAAAGAACTCAAGACTTCGGCTTTTCCAGTCCTTAAAAACAGCGAAGTTGTCATTTACACGCAGAGCCTGTCAGTAAATGAAAAAGCAAGGATCCTCTATAATCATATAAAACTCGGTGATCAGCCCAACTCGGTAAAAGCCGAACTCCGTCCGTTGCTAGGGCTCATGGCTCAGAAGGAAACATTCCTTCCAGAAACGGCCCGTCGGCTTGGAAATACGCAATTCACAAGTGGTCTGCATATCACCACGGAAGGGGTGTCCGCATTTTTCGATAAGCCCAAAGATTTTCTCGAGCAGACTATCAGCAACCTGTCGCCCGAAGGGAAATCGGCGATCGCGGTATTGTTTTTAAACGGAGGGGTAGTCCGATCTCCTGTCGCAACAGACTTACTAGAACGGCCTGCAGCAGATTTTGGTGCAACCCCCGCAAAAATTCGGGAACAACTAAAAGCGCTCGACGGTAGTTTGCTCCTACAAGCGAGCGACGAAGAAGGGCCATATTGGACCTACCGTCATCCCACCATTAGTGATGCGTTTGGTACTCATGTCGGAAAAGAGCCCGAACTTGTTGAAATGTATCTTCGTGGAGCGAAACCAGAAAGCATAGTACGTGAGGTGGTTTGCGCTGGCACGAAATTGCAAGGCGCTTGGCTGTCAGTTCCCGCAAAACTTGAAAATCTCTTGGTGGATCGACTTGCGGCGTTGCCTCGAACAACCCTTTCAACCTTTATCTCGTACAGAGCGAACAAGCGTGTGTCCGAAATGCTATTGTCCGAGAGGGGTGACCTATGGAGTACATTTGATTATGGTTTCAGTGCCCCATTGAAAGAAGACAAAGATGTGGACTTCTTAGTAGCGGTGCATAAATTTGGATTGCTACCAGAGGAACTCCGTCTTGTTTTTTTTGAGCGTGTTCAATCCGCTTTAACGCAAGAAGCTGATCCAAGCTTCCTAGACAGTGAAAAGATCGCCTCTGTTCTTACGTCAGACGAGTATCAAGAATTGCTCTCGATTGTCGAGGGCGAGGTGATACCGCGAATTCCCGATTATGTAGAAATTTTGAGGGACAGGTGGGACAGCGATTACAGCCCAGATGACTATTTTGACTCGTTGCTTGATGCGATCGAGACTCTTGCGATTGCCGTCGGCCTAGATCCAGACGAAATAAAGCGTAAGAACTCTGTTTTCATTGAAAAAGCCATTGATAATTTGCACTACAGGTATGTTGATACAGGTTCACACTATAGCGGATTTGAGAGTGCACGCGTAGCGGACGCTTCGCTCGAAGAGCTTTTCCGCGACGTAGCGGATTGA	MAAEFSLHRLGWQSFQDLCVALAEESLQRPVQTFLPTNDAGRDGAFIGRWDGKPHDGESTIQCKFTSTPDLHLSLSMLSEELPKARRLAARGLADDYIILTNHPVTGESELAIKEAFEAAGVGKCRVFHRDWITKRVNASSRLRMMVPRLYTIADLGGILGEDLRAYKQAQLILTEMGDSLRKFVVTDAHRKSVDAINDHGTVLLLGEPAAGKSTIGASLALAAADRWQCSVVKATSPETLEPRIDPDSRQFFWIDDAFGSTQFQRDRVEGWNQIFPLMQAALKNGSKFLITSRDYIWHVANKELKTSAFPVLKNSEVVIYTQSLSVNEKARILYNHIKLGDQPNSVKAELRPLLGLMAQKETFLPETARRLGNTQFTSGLHITTEGVSAFFDKPKDFLEQTISNLSPEGKSAIAVLFLNGGVVRSPVATDLLERPAADFGATPAKIREQLKALDGSLLLQASDEEGPYWTYRHPTISDAFGTHVGKEPELVEMYLRGAKPESIVREVVCAGTKLQGAWLSVPAKLENLLVDRLAALPRTTLSTFISYRANKRVSEMLLSERGDLWSTFDYGFSAPLKEDKDVDFLVAVHKFGLLPEELRLVFFERVQSALTQEADPSFLDSEKIASVLTSDEYQELLSIVEGEVIPRIPDYVEILRDRWDSDYSPDDYFDSLLDAIETLAIAVGLDPDEIKRKNSVFIEKAIDNLHYRYVDTGSHYSGFESARVADASLEELFRDVAD				NA	NA	NA	NA	NA
BMS010_01041	1710			hypothetical protein	ATGGACGAGACAGAAAAATATTTGAGCCGTGTCCAAAACAGTGCAGAAGGCTTGGCGACCCAGCTACGCCAGTCCAGCAACGTACCGTTAGATACTTTCATAGATCTCGGCGATGTGAAGACTTTGACCGAAGCCTTGGCTCTTGACCCATCGAGCGTGTGTGAAGCCGATTTGGTTAGGATGCATATCTTCAGAGACGCTTTTCATGACTTACTTCATAGCATAGCGGACAGCGATGCAAACCACGAATTCTCTGTGGAGCAGCTGTTGAATTCGATAAGCCGTCTCTATGTAGACGTTGAGCGAGTTCTGAAAGGCAGCGGCGATAGATTGCAAGGCGCTGCTGACAAATTCAGTAAGATTTCCGATGGACACCGAGAAGTTGTTCCTAAATCGCTGTCTGAGGAAGTAGCCAAAGAAGCAAATGCGGTCATTACAACGGTTCAGTTTAATCAGAGAATTATAAATATCAGTATTTTGAATTTCAATGTAGGCGAGCTAAACCTTCTTAAAGAATTTAAGATGAATGTGAAAAGGCTGAGCGCCAGCGTTTTTGCTATTAGATTAAACTTTGATGCTGGCATCGTTTTTGAAGGAACAATCAGATTCCTAAATGAAGGAGTCGACCGAATTCTATCAGATATACGTAATTTTGCCTCGATAGTTAAAGACAAATACAATAATGTTTCGGAATTCATTCACGCATTAGATCCTATCATTGAGAAAGGAACACGGTTTGTAAAACTAATTGGCAAAATCATAAAAGATTTGTTCGATGGAGGGGAACCTCTTCAAAAAGAAGTGATGTTCACCAAGCAGACAGCAACTACATCAGAGGCAATAACGTGCGCATCAATTACACAAAATGGTGATATAATTTTCGGAGGTCGTGGGGGGTGTAGTATCGTCCACACTAGAAGGACTGCGCAATTTTTAAAGCTTCCATACTCTACGAAATCCGATGTATTTAATATTACATCCCTACCGCAAGAACAGGGCTTTGTGCTGGGTACAGCAGAAGGAATGTGCTGGGTACAAAGCGTCGAGCGCAACCGCCGCGCCATACGCTCCTCATTTTCCGAAAGAATTAGCGCTTTAGAAACACCAAACTGGGGTGAGAATGCAACTGGCATCGTTTCAGGCTCAACAAATGGTTACGTGCGACGTTGGACATTGTCAGGGGGACTGGATGCTTATCGAGATGCTACTTTAAGTCGGCCAGTCCACGAGAAGTTTGGTAAGACAATCAAGGCATTCACGAGATGGCGTGATAAGCTGGTGATAGCTGTCGATGAAAAGATAATAGTAGTCGATGAAAAGCTGCGCAGTGTATTTGAGGTACACGTTGATAAGCCGATATCTGGGCTGTGCGCCTTCCCCGACGACAGTGTAATTGTAACTGGCGCAGGGTTATTAGCCGAAGTAAATTTAGCGCGCGGCGCATACCACAGGCTGCTTACCGTAACGCCAACCACAAATTATGTTTGCGTTGCACATTTGAATAATCGTATCGCCGTAGCAGCTACGGAGGGTGGAATTTTGCGGGCAATCGATATGAACTCTGGCGCAGAAGTTGGCGAGATAAATTTACAAAATTCCATAAGAGGTTTGGCCGTGCAGGGAAAAACAGTGTTCGCCTACGGTGGGGCGTGGAAAGGTGTCTCTCAATCGATCGTCAAAGTTTTATGGGAGGAAGCCGTTATTGAATGA	MDETEKYLSRVQNSAEGLATQLRQSSNVPLDTFIDLGDVKTLTEALALDPSSVCEADLVRMHIFRDAFHDLLHSIADSDANHEFSVEQLLNSISRLYVDVERVLKGSGDRLQGAADKFSKISDGHREVVPKSLSEEVAKEANAVITTVQFNQRIINISILNFNVGELNLLKEFKMNVKRLSASVFAIRLNFDAGIVFEGTIRFLNEGVDRILSDIRNFASIVKDKYNNVSEFIHALDPIIEKGTRFVKLIGKIIKDLFDGGEPLQKEVMFTKQTATTSEAITCASITQNGDIIFGGRGGCSIVHTRRTAQFLKLPYSTKSDVFNITSLPQEQGFVLGTAEGMCWVQSVERNRRAIRSSFSERISALETPNWGENATGIVSGSTNGYVRRWTLSGGLDAYRDATLSRPVHEKFGKTIKAFTRWRDKLVIAVDEKIIVVDEKLRSVFEVHVDKPISGLCAFPDDSVIVTGAGLLAEVNLARGAYHRLLTVTPTTNYVCVAHLNNRIAVAATEGGILRAIDMNSGAEVGEINLQNSIRGLAVQGKTVFAYGGAWKGVSQSIVKVLWEEAVIE				NA	NA	NA	NA	NA
BMS010_01042	351			hypothetical protein	ATGAAGCCTACCCCTGTCACCCTCGTTGCTCTATCCGCCGCTCTCCTTTCCTTCGACGCACAAGCAAATGAAGCGTCCATAATCGGTTCTTGGCGGGGAAAATACGCTGAAAGCTGTGCTGCCGTAAAAGAGGAAAGCACCGATGACTTTCTCAAAATCAGCAAAAAGCAGATCGCTCGTTATGAAGGCACTTGCGAGATAACCCGTCAAAGCAAGCAGAAGGACACGCATGTCCTTCAGATCCTCTGCGAGACTGAAGGGGAAACGGTTCTCGACACGTTGAAAATCACCCCCGTCAGCAACGACCGAATTAGTGTCGAAGGAGCCGGCATCTATGAACGCTGCAAATAA	MKPTPVTLVALSAALLSFDAQANEASIIGSWRGKYAESCAAVKEESTDDFLKISKKQIARYEGTCEITRQSKQKDTHVLQILCETEGETVLDTLKITPVSNDRISVEGAGIYERCK				NA	NA	NA	NA	NA
BMS010_01043	1170			hypothetical protein	ATGAACGCTGCAAATAAGGTTCTGCTTTGGACCGGTGTGGCTCTTGTCGGCATGAGCGCATCTCAAGCTGCACAGGCTCAGTATTTTTCCAGTGAAGGCCGTTCAGGTCACTATGCTGATATGTTTCTGGCCGGGACGCAAAAGACGTCTATCGAGGAGAACCTCATGGCGACAGTCCGCATCTCCAATAATTTTGGCGAGATCGAAATTCGCGATTTCGTGGTCAACTGCAATCGTCACAATGCGCAGGTTTTGGACGATGCAAACGTCAGTCATGCTATCCGGGTTAAACAGACTCCAAGCAGCGCGGAAAAGTTCACATGGGAGCTGTGGCAGGCCGTTTGCAGGAAAGAGTTCGCCAAAATATCAAAGCGTCCCACATCTTCTGCGGTGCTTGGAAAATTGCCTGATCAGATTTCCATTTCTTTCGATGGAACTTTGTTCAGCATTCCGACGAAGCGGCTGGATCGCAAAGAAAACCTGTCGAATTTGGTCGAAGCGAAAGTCGATACCGAGCGGGTTTCCCTATATTGCGATACCGATAACGGTACCGCCTATTGGGCTGACAGCAAAGCTCTTGTGGGGATTGGCAGCGATTTGGCCGGAGAACTGAACGGCGATGTGTCCGCTGAGCTTGTCAGCCGTTCTCAAGCGCTTTGGAGTGGCATTTGCCGCTACAGGCTGGATCAGGTCGCTAACAATAAAATTACGCCTATGGAGCCTCCTACAAAGCCCACAGGGCGGGCTGATCTGCAACCGGCTGGCACACTTAATCCACCCCCGTCGTCATCGTCACAGCAGCCCCATGATGAAGCTGCTGAATACATATCAACGGTCTACGAAACCTATATCCTCGCGAAGGCTATCTGCGACCTAAGCTACTCCGGCAGCTTCGGCCTTAACAGTGCCAAAGCCAGAATGAAGGAAATGGATAACTTTGCCGGAAGCCAAGGCATCGATATCCAGTCGCTATGGGACAAGGCCACTAACAAGATGGAAAAGGATGCCGATTACAAGCTTTTCCAGCTGTACAAAACCATGCCGATTGAGCCTTCTGATCGTGTTCGATTTTCCGGGGGATGCAGCCGCATAACGCCGCTCATCACGACTGGTGTAGATAGCTATCTTTCGAAATTCGCGGGGCAATCGGCGATTAAGAAGGACTTCTGA	MNAANKVLLWTGVALVGMSASQAAQAQYFSSEGRSGHYADMFLAGTQKTSIEENLMATVRISNNFGEIEIRDFVVNCNRHNAQVLDDANVSHAIRVKQTPSSAEKFTWELWQAVCRKEFAKISKRPTSSAVLGKLPDQISISFDGTLFSIPTKRLDRKENLSNLVEAKVDTERVSLYCDTDNGTAYWADSKALVGIGSDLAGELNGDVSAELVSRSQALWSGICRYRLDQVANNKITPMEPPTKPTGRADLQPAGTLNPPPSSSSQQPHDEAAEYISTVYETYILAKAICDLSYSGSFGLNSAKARMKEMDNFAGSQGIDIQSLWDKATNKMEKDADYKLFQLYKTMPIEPSDRVRFSGGCSRITPLITTGVDSYLSKFAGQSAIKKDF				NA	NA	NA	NA	NA
BMS010_01044	264			hypothetical protein	ATGGATATTCAAGAAACCTTCGCGCTCAATCTCCGCAGAATCCGGGTTGCAAAGCAAATCTCACAGGATGAGCTCGCGCTTACATCAGGCGTAGAACGGTCTTACGTTGGTCATGTCGAGCGAGGGGCAAAGAACCCGACGATCAAGACCGTGGAGAAGCTCGCAATTGCGCTCGGGTGCAAGGTGTCCGAGCTCTTCGAAGATATTGCAGAGGGCGAGGAAAAAGCGATCACGACGCTTCCCCGTGGCCGCAAGATTAAGTAG	MDIQETFALNLRRIRVAKQISQDELALTSGVERSYVGHVERGAKNPTIKTVEKLAIALGCKVSELFEDIAEGEEKAITTLPRGRKIK				NA	NA	NA	NA	NA
BMS010_01045	261			hypothetical protein	ATGATGTCCAACATCAAGCTCTCCGACACGCGGGTTTCGGTTGCAGTGAACAATGACACCGGCAATCTCGTCTCGTTGTTTTTCGTGCCCGGCTCTTTCGTAGATGGTGAAGCCATTGACACTACGAAGGACCGCGCTCTTCAGCTTCGCGAAGAAGCGATCATAGAGCTTGGCGATGTGAAAACGGCCTTTCTCGGAAAGAACGGCTGGGCGTTCCTGCTGGGCTTGAAACACCAAAATCAACAAACTCAATCGAACTAA	MMSNIKLSDTRVSVAVNNDTGNLVSLFFVPGSFVDGEAIDTTKDRALQLREEAIIELGDVKTAFLGKNGWAFLLGLKHQNQQTQSN				NA	NA	NA	NA	NA
BMS010_01046	348			hypothetical protein	ATGCAAAAAGCAGGTGGCATTATTGGACTTGTTGCGGGCATCTTCGGAGTGATTGCGGCTCTGGCAACACTGCTGATTGGCGGCATTGGTGCAGGGCTCGAAGCTGAAGGGGCTTCCACGGTTGTTGGTCTCGGATGGGGTGGTGTCGCCTTCTCGTTTCTGACTATCGTACTCGGGGCAGTGGCGATGGGTGCAAAGACGAAAACCCCCGGGATGCTTCTCATGCTGTGTGCCGTCTTGGGAGCCGTTCTCGGGGGCATGCTTGTAGCGATTTGCATGGTGCTGGCGTTCATCGGCGGCTTGCTGACAACGTTCGGCACCAAGAAAGCCGTTGTCGCTGCGGGCTGA	MQKAGGIIGLVAGIFGVIAALATLLIGGIGAGLEAEGASTVVGLGWGGVAFSFLTIVLGAVAMGAKTKTPGMLLMLCAVLGAVLGGMLVAICMVLAFIGGLLTTFGTKKAVVAAG				NA	NA	NA	NA	NA
BMS010_01047	849			hypothetical protein	TTGGGTGAAGCCAAGAAAAAAAGAGAAAAGCCGTGCCATTGCGGGAGCGGTCTGGTTTACGCCAAATGCTGTTTGAGCCGTGACCAAAAAAGCCGGACACACGGCTTTGTCTTCAGTGTCACAGAACCCTCATTAATTACTGGCTTGCAAATAAGAAGTGACGGCCGGGTTGAACTGGTGTGCGGGGACTCGGTCGTCTCTATTGAAGACGTTAGACCAACTGAATGGCGGGAAACTACCAAAGGTCTGAAAGTCAAGTCGCAAGCATTCACCTCGCAAACCGGTTACCTTAGTCCAGAGGCCGCCATTGCGAACGCGGACTACGTCTTCGGAGTTGACACGAATACCTTGAGCAAGGAAGGAAGGTTAGTGCATGTCTCTTGTTTGACGTGCGCGACAACGCAAATTGCCCAAGAGCATTTTGAAGGTAGCATCCAGCAAATTCTATGCGTGGATTTTCAGGATGCGGATTGCCATCCAGAAAGGGTCGGTTGGCTTATCGCAGTCGAAGCAATTTTGCGGTCCTCGCCTCATGCGGGTGCAGATATTGTTTTAGTTACCGATCACGATTTGAACAGTCTGAGTAAGATCAATTTACGTCAAGAGCCCGTGGCCCTTGACCGGTTTTTGCCGCCCGGTTTTCGAATGGTTTATGCTGCTGACAAAGGAACAGCGATTCCAAACAAACTCATCAAAGTTGCACACACTGGAGCCACCAAGGTCGCCAAACGCGTTCTTTCAGAAGATATTCCCGGTCAAAATGTTCTGCCGTTTCTCCTTAATCAAAAAGAAGCCCATGGTATGCGCAGGTGGACAAACGACAAGAATTCATCTCACTTTTTCTCGTAA	MGEAKKKREKPCHCGSGLVYAKCCLSRDQKSRTHGFVFSVTEPSLITGLQIRSDGRVELVCGDSVVSIEDVRPTEWRETTKGLKVKSQAFTSQTGYLSPEAAIANADYVFGVDTNTLSKEGRLVHVSCLTCATTQIAQEHFEGSIQQILCVDFQDADCHPERVGWLIAVEAILRSSPHAGADIVLVTDHDLNSLSKINLRQEPVALDRFLPPGFRMVYAADKGTAIPNKLIKVAHTGATKVAKRVLSEDIPGQNVLPFLLNQKEAHGMRRWTNDKNSSHFFS				NA	NA	NA	NA	NA
BMS010_01048	495			hypothetical protein	ATGTCAGATGATGAATTTTTGAAGCTGAACAGGGAACTCGCCCGCGAAACGCATCGGTCGCATATCGAAAGCCAAAATTCCTTCATGCGCGCCACCGTTGATTTCGCTCTTGAGGCGATAAGAACGGCAACGATAATAAACGGTGGCGCTGTTATAGCCTGTCTGACTTTTCTCGGCGCTCTCTATGGCGCGGATAACGGGGTCGATAAGGCCCTATCTGTCCCCGTCAGCAAAGCGGCTCTTTCGTTTGTGACCGGCGCGGTTCTCTCGGGCGTTGCATCCGGTTTCGCGTACTTCGCTCAATATTGTTATAATCGTGCAGCGGAAGAAGCGCGGATGATTTGGGACCACCCGTATATTGAGTATGGGGATGAGAGTAAATGGCACAATCGCATGGGTGCTGTGTGGCACTATGCATCCTGCGTTGCTGTCTTAGCTTCATATTTGGCGACTATAACAGGACTTGCTATCGCTGGCCCTGCGTTCTTTTCATGA	MSDDEFLKLNRELARETHRSHIESQNSFMRATVDFALEAIRTATIINGGAVIACLTFLGALYGADNGVDKALSVPVSKAALSFVTGAVLSGVASGFAYFAQYCYNRAAEEARMIWDHPYIEYGDESKWHNRMGAVWHYASCVAVLASYLATITGLAIAGPAFFS				NA	NA	NA	NA	NA
BMS010_01049	1026			hypothetical protein	ATGTCTGACGACCACTTAGATAAAGAAACTTCCGTTTCTGTAGAATTGACGCCTAACGGCTTAAGAGCCAGCGCAAAGAGCCGGGCGGTTGCTGCTATAGACAGGCTTATTGGAAGTGTTGCGGACCGCTGGAGTGTGCCGTTCGAAAATAAGGCGGCGGAGGAGCGGGCTAAGTCAAAAGCGCGAGTAGAAATTATTGAAGCAGCGAAGGCGCTAGGCATTCAGCGTATCAAAGACGACCCTGAGTTTGCCACTCGTGCAATAGAAAACCATTTCGAGACAACTTTCCGCCGCCATGAGAACAAAGAGGCTGTCATCCGCGAAGCGCTTGAGGATTTGGATCGGCTACCTCCAACAGAAATGCAGTCCTCAACAGGACCGGAAGTTTTGGATGAAAAATTTCTAGTTAGATTTGAGCGGTATTCCGAGGATGCCTCTACCGCCGATCTTCGGGTGAAGTGGGGTAAGGTTCTTGCGGCAGAGATTCGAAAACCCAACAGTGTTTCTGCGAAAGTGATGCGCATTGTTGATGAACTGGAAGGTCGAACAGCGGAGTTGTTTGAGGGTATATGCCATCACCGGATAGGTGACGGAATTATCAAATGCCTTTCCGGTAGTCTAAGTTTTGCAGCTAAACTCGATTTAGTTTCAGCAGGATTGATTGTCGATCCCGGGTCGGTGGGGCAGGTTAAGCTCTTTGCGGACGCGACCAGTAACTCCGGGGAAAAGATTTGGATTTTAACGCTAAACAACCGCGTTCTTGCGGTTTCATCAAAAGCGAGGATACCGCCAGCCACACCAAATGACGTATCCCCATTGGTAGAAGCGGGGGGTGGCTTGGGAGTTCCAGCCTATATTCTGACCAGCGCAGGTTCAGCAGTGGCCCAAATTCTTGAGGATAAACAGGATTTGGCCGTCGAAACGTATTTTAGAATAATTGAGCGGTTCCTACCCAGAACTGGTGCTTCTGAATACAGGCAAGAGTCCGACGGCAGCTTCACTTTCATAAGACGGTTGACCAATTAG	MSDDHLDKETSVSVELTPNGLRASAKSRAVAAIDRLIGSVADRWSVPFENKAAEERAKSKARVEIIEAAKALGIQRIKDDPEFATRAIENHFETTFRRHENKEAVIREALEDLDRLPPTEMQSSTGPEVLDEKFLVRFERYSEDASTADLRVKWGKVLAAEIRKPNSVSAKVMRIVDELEGRTAELFEGICHHRIGDGIIKCLSGSLSFAAKLDLVSAGLIVDPGSVGQVKLFADATSNSGEKIWILTLNNRVLAVSSKARIPPATPNDVSPLVEAGGGLGVPAYILTSAGSAVAQILEDKQDLAVETYFRIIERFLPRTGASEYRQESDGSFTFIRRLTN				NA	NA	NA	NA	NA
BMS010_01050	582			hypothetical protein	ATGGACAACGCCGGGCATGTTGTGAAATTCGATGAGCTGCCGGACGCATATCCAACACATCGAAATCAGGCTGATTTTTGGGAGTGGCTTGGCCGAGTGGTTGGCACATTCGGTTTTTTGGAGAACACGCTCGCCCGTGCGATCTTTGCGTTCAGCGGCACCCGCGAATATGCGGAGGAAGATGTTCAGAGCGCATTTGCGGCGTGGGTTCCCAAGCTGGAAAAGTCTCTGAGTGATACGCTCTATCCGCTTATCAAGACATACGAGCGGGAGGTTTTATCGCATCAACACACCAAACCGGAAAACTTCGACGCACTAATTCGCGACCTCAAGGAGGCCGCTGAACTCCGCAATGTGCTATGTCACGGGTCATGGTCAGTTCCGAATGCGGAGGGTGCATCGGTACCGTTTTTCATGAGGTCGAAAGATAAGATGGTCTTCGATAGCCCCGTGGATGTGCGATATCTCAAGCAGACGCAGAAAGGCACGATGGAGCTAGCTGCTGCCGTCATTAACACCGTCACGGTTATGGGGTACCGGTTCCCCGGCATCACTAAGGGATTGGGCCGCGATATATTTTGA	MDNAGHVVKFDELPDAYPTHRNQADFWEWLGRVVGTFGFLENTLARAIFAFSGTREYAEEDVQSAFAAWVPKLEKSLSDTLYPLIKTYEREVLSHQHTKPENFDALIRDLKEAAELRNVLCHGSWSVPNAEGASVPFFMRSKDKMVFDSPVDVRYLKQTQKGTMELAAAVINTVTVMGYRFPGITKGLGRDIF				NA	NA	NA	NA	NA
BMS010_01051	612	bin3_1		Putative transposon Tn552 DNA-invertase bin3	ATGTTTGTCCGAGCCTACCTCAGAGCCTCAACGAAAGAACAAGATGCGAACCGCGCAAAAGCGGATTTGTTTTCTTTCGCGAAAGAGCGAGGTCTGAAGATTGCGGCCTCGTATGTTGAGAACGAGAGCGGAGCATCTTTGCAGAGGCCCGAGCTTTTCAGACTGCTCTCGGATTCCCAACCGGGAGACATTTTACTCATTGAACAGGTAGATCGCTTAAGCCGCCTCAATGCCGAGGATTGGGAAAAGTTGAAGAATGAAATCAAAAGTCGGCAGGTGAGAGTTGTTGCTCTGGACCTGCCGACTTCATGGTCGTTGATGTTATCGAACGCTGACGAATTCACCATGCGGATGAGTGAAGCCATCAATAGCATGATGTTGGATATGATCGCCGCTATTGCTCGAAAGGATTACGAGGACCGGAGACGTCGTCAAATGCAAGGAATTGCAAAAGCGAAGGATGCCGGTCTCTACAAGGGCCGCCCTGCAAACGATACAAGGAACGCTGCTATCCTAAAAATGCTCGCCAGCGGTCAGAGCTGGAATAGCATTGTTGCTGCTACCGGCTGCTCTCGGTCAACCATATCCCGAATAAAATCAATGGCTTCGTAG	MFVRAYLRASTKEQDANRAKADLFSFAKERGLKIAASYVENESGASLQRPELFRLLSDSQPGDILLIEQVDRLSRLNAEDWEKLKNEIKSRQVRVVALDLPTSWSLMLSNADEFTMRMSEAINSMMLDMIAAIARKDYEDRRRRQMQGIAKAKDAGLYKGRPANDTRNAAILKMLASGQSWNSIVAATGCSRSTISRIKSMAS				NA	NA	NA	NA	NA
BMS010_01052	558			hypothetical protein	ATGATTGAGAAATATTATAATGAAGATTTTTTCGATATAAACGAAGATAAATTCAGATATACTGATTATATAAGTTACAACACTGCAATAAACATTCTTCATACTTTCGATTATGCAAAGTTTTGTGGTAAGCCCTTAAACGTAGCAGTGACCATCAACTTCTATAATGACTATAGCACCCCTGAAAAATTTAAAAACATTCGAAAGAAATTGTTCCGGTGGATGAAAGCAAAGAGGGAACGATCAGGATATCCCCCAGATCAACTTTGGGCTTTCAGCATAGAAAATCCTCACCAAAACGTGCATGTCCACTTTGCGTGTCACGTAGAGGACGAACTCCGAAAGGACTTTGAGATAAAAATTAAAGAGCTTGTCCGAATAGAATCTATAAAGACTGAGAAGAACCAGATATTATTTAAAGACATCAACGTACTAACAGACAAAATATTCGCGAATTATATGATAAAAGGCGTTCATCCTGATACTGCGAAAATACTTCACATTGGCTGCGGGTATCAAGGACGGATATTTGGACAACGAGCGCGCGAAGTTGCATGA	MIEKYYNEDFFDINEDKFRYTDYISYNTAINILHTFDYAKFCGKPLNVAVTINFYNDYSTPEKFKNIRKKLFRWMKAKRERSGYPPDQLWAFSIENPHQNVHVHFACHVEDELRKDFEIKIKELVRIESIKTEKNQILFKDINVLTDKIFANYMIKGVHPDTAKILHIGCGYQGRIFGQRAREVA				NA	NA	NA	NA	NA
BMS010_01053	1332			hypothetical protein	TTGAAGATAAATTCGAAGGAGCTCGCAAACCTTAACCAGAATAACAAAGGAACTTACGTCTTCCGGAAAGCCATTCCCGAGAAATACCGTAAGCTCGCGGGGAGGCGTGAAATTAAGGTCTCCCTTCGCACCACAGACCTTATCGTTGCGGTTAGCAGGTATGAGCTCGCAAGGAAGGCCGCAGAAGCTGAACTGGCACGGCTCAACCAAGGAATCGCGCCAGACAAAGGATTGAGCTTCGATGACGCATCCAATCTAGCGAAGTCTCAGGGACGAGAACTGGTTGATCTAGGTACCCTCCTGAAACATCCGAAGGCGTTTATTGAAACCGTCGCACAATGGGATGCCCTCCCTAACAAAAACCCACGAACTTTCTCCTCACTCTTCAATGCTGACGGCAACGACATCATGCTGTCGGGCCTTGTAGGCAATTACGAGACGCAGACCGCTACTGCGCATAGGTTTCTAAACGAAACCGAATACAAGAGAAAACTAGCGCCACTTAAGTTAGCTTGCCGAGAATTCATCGACCACGTCGGAGGCGACAAGCGTCTGTCCAGCTTGGATAGAGAGTCCGCCATCTCATATAAAAATGAACTCGATTTGCGTATACAGAGGGGAGAGATCGCCGAAAATGCCGCCAACAAGCGGCTGATCGCCATGCGCACCTTGATCAGGACATTTTACGTCTCAAAGGACGTCGCTAAGGATGAAGTTTCCACGCCGTTTGACAAGCTAAAATTCGAGGAAAAGCTCAATAAACGAGAAGCTTTCTCACGCGAGTTCATTAGGGATAAATGGCTAAGTGGGGATCGCTTCGCAGAACTGAATTTCTACGCCCGAAACATGACATTTGCTATGCTAGATACAGGGTGCCACTTAAAAGAACTCTGTGGCCTTGATCCCGATAAGGACATATTCTTAGATGCCGATATCCCGCACATTTTCATTAGAGCTAACGCAAAACGCGTAATAAAGACCGAGTACCGGGAAAGAAAAATCCCACTAATGGGACACGCCCTTGAGGCATTTAAGGCCTGCCCAAAAGGCTTTGAGAGGTACTCGGGGGAAAATGGCCATACATCTGCATCTCAGCTCATTAATAAATTTTTGAAAAAGAACGGCCTTTCCGAAAACGGCATATGCACGACCTACAGTCTCCGACATCTTTTCAAGGACCGCATGAGAGAGCACGGCATTCCAATTGATATGCAAGATCACATCATGGGCCACGGTACCCCGGGTAGCGGCTCAAACTACGGCAACGGCTATCGCCTAAAAGACGTCGCATCCGCTATGAAGCAACTCGAAGGTGACTTCGACCGCTATTGA	MKINSKELANLNQNNKGTYVFRKAIPEKYRKLAGRREIKVSLRTTDLIVAVSRYELARKAAEAELARLNQGIAPDKGLSFDDASNLAKSQGRELVDLGTLLKHPKAFIETVAQWDALPNKNPRTFSSLFNADGNDIMLSGLVGNYETQTATAHRFLNETEYKRKLAPLKLACREFIDHVGGDKRLSSLDRESAISYKNELDLRIQRGEIAENAANKRLIAMRTLIRTFYVSKDVAKDEVSTPFDKLKFEEKLNKREAFSREFIRDKWLSGDRFAELNFYARNMTFAMLDTGCHLKELCGLDPDKDIFLDADIPHIFIRANAKRVIKTEYRERKIPLMGHALEAFKACPKGFERYSGENGHTSASQLINKFLKKNGLSENGICTTYSLRHLFKDRMREHGIPIDMQDHIMGHGTPGSGSNYGNGYRLKDVASAMKQLEGDFDRY				NA	NA	NA	NA	NA
BMS010_01055	507	slyA_2		Transcriptional regulator SlyA	ATGGCTTTGCGATTGGCACACAGCAACGGGCCGCGGACGGAAAAGGCCGAAAGCGGCAGCGCGGAAGCGGCGCATATCACGGCTATCGACTATGGGTTGCTGACGACTGCGATCAGCTATCATTTGCGGCACTCGCAACTTGCCGTGGCAAACGGTTTTGCCGATGTGCTGGCGGAGCAGGGATTGCGGCCTGCCGATTTTTCCGTTCTCGTCATCGTCGGCGGCAATCCGGGTCTCAAGCAGAGCGATGTGGCCGAAGCGCTCGGCATACAGCGCGCCAATTTCGTCGCCATCGTCGACAGCATGGAAGAAAAGGGACTACTCGTCCGCCGCAAATCGGAAGAGGACAGGCGCGTTCATTTCCTCGACATGACGGAGGAGGGCAGCAGCCTTCTCGACCGGCTTTCCAACACCTGGCGGGATCGTGAGGAAAAGCTGATCGACAGGATCGGCGGCAAGAAGGCCCGCGACCAGCTTCTGGCGCTGCTCGGACGCCTGCGCGACTGA	MALRLAHSNGPRTEKAESGSAEAAHITAIDYGLLTTAISYHLRHSQLAVANGFADVLAEQGLRPADFSVLVIVGGNPGLKQSDVAEALGIQRANFVAIVDSMEEKGLLVRRKSEEDRRVHFLDMTEEGSSLLDRLSNTWRDREEKLIDRIGGKKARDQLLALLGRLRD				NA	NA	NA	NA	NA
BMS010_01056	264			hypothetical protein	ATGCTGAATATCGATACGAGTCATCCGCTTTATCGTCCCCTGTGGGTCCGGTTGCTCATCGTCGGCTTTTGCGCCGCGTGGGCCGTCATCGAATTCGTCAATCGCGAGTTTTTCTGGGGAACCATCGTTGCCGGCATCGGCGCTTATGCGGCCTATGAATTGCTGCTGAAGTTCAAACCCGCAAGCGATGCTGCCAAGAGCGAAAATGGTGCGGATGAGCCTGCCGCCGAAAGCGCGCCCACCGACAAGAACGATGCGGGCTGA	MLNIDTSHPLYRPLWVRLLIVGFCAAWAVIEFVNREFFWGTIVAGIGAYAAYELLLKFKPASDAAKSENGADEPAAESAPTDKNDAG				NA	NA	NA	NA	NA
BMS010_01057	483			hypothetical protein	ATGCTCTTCGGACAATCCGTCTTCCAGTCGGTCGTCGACAGGCTGAAACACGAAAAAGAAACGGAAGAGGAAGGCGCGGAGCCGCCACCGCCCGCCGGTCACCGCATTGCCGGTTTCAGCTCGGGCTTTGTTATCGATACACATATTGAAACGCCGCCGCCCGCGAACGGCAATCTCGATGCCTATCTCGCCTTCCTGGCCGACCCCGCGCCACCGCCCGAACCGGAGCCGGAGCCCGAACCGGAACCGATGCCGGCCCATCTCGAAAAGACGTCGCTTGCCGATGTTTCGGCGGAACTGGCGATCCACGACACCGACACGGCCGCAACGCTTGCGGAAAAGCGCCGCGCCTTTGCCCGCCTCAATCATCCCGACCGGGTGAAACCGCAGTTCCGGCACAATGCGACGCTGCGCATGACCGCGGCCAATCTCCTGATCGACCAGGCGATACGGATGCTGCGGGCGCGGGAGCATTTCCGGTAA	MLFGQSVFQSVVDRLKHEKETEEEGAEPPPPAGHRIAGFSSGFVIDTHIETPPPANGNLDAYLAFLADPAPPPEPEPEPEPEPMPAHLEKTSLADVSAELAIHDTDTAATLAEKRRAFARLNHPDRVKPQFRHNATLRMTAANLLIDQAIRMLRAREHFR				NA	NA	NA	NA	NA
BMS010_01058	1005	gbpR_1		HTH-type transcriptional regulator GbpR	ATGAACAACCAAAAAGTGTATGAGCAGGCGCAAACAACGGATGCTCTTTTCGTCTTTGAGGACAACCCTTTGCTGCGGGCCGGATTGAAGATGAGCCACCTGCGCATGCTGGTCATGATCGAGGAGCACGGGCAGGTCAGCGCGGCTGCCGCCGCCATGAACATGACGCAGCCGGCCGCCTCGCGCATGCTCTCGGAAATGGAGGCGATCGTCAAATCACCCCTTTGTCAGCGGGCTTCGCGCGGCGTGGTGCTGACGAAGTTCGGCGAGGCGCTGGCGCGGCGGGCGCGCACCATATTGCTTGAACTGCGCGAGGCGAGCCGCGAGCTGAACCAGATGAAATCCGGCAGCGGCGGCTCGGTCTATATCGGCGCCGTCACAGCACCTGCGATCAGCCTCGTGGTTCCCGCCATAAGGCGCGCCATGGACACCTATCCCGGAATCGAAATCAACGTGCAGGTGGAAAGCAGCAACGTGCTGGCCCGGGAACTGCTTGCGGCCCGGCACGATTTCATCATCGGCCGGATACCGGACGATTTCGATCCCGGCCTCTTTTCCATCCATGAAATCGGCATAGAGCGCGCCTGTCTGGTGGTGCGCGAAGGCCACCCGCTGCTTCGCGGCGAGCCCGTGACCCTGCAGGATCTCTCCGGTTACGACTGGGTCTTCCAGCCGCCCGGCGCGCTTTTGCGCAGAACCATGGAGGATGTGTTCCTCACCCATGGCGTCGCCATGCCGCGCAACGTCATCAACACACCATCCGTGGTGCTCACCCTTGCGCTTGTCTGCAACACGGATGCCATCGCCCCGATCGCGCAGGACATGGCCGAATTCGTTGCCGGCCAGCAGGCCGATATCGGCCGAACCCGGATATTGCCGACGGATTTTGAACTCGTCGTAAAGCCATACAGCATCATCACCACCAAGGGTCGCGTTTTGCCGCCCAGCGCCCGCCTGCTCTACGATCTGGTTCTGGATGAAAGCCGCAAGCTGACCGGCCCGTGA	MNNQKVYEQAQTTDALFVFEDNPLLRAGLKMSHLRMLVMIEEHGQVSAAAAAMNMTQPAASRMLSEMEAIVKSPLCQRASRGVVLTKFGEALARRARTILLELREASRELNQMKSGSGGSVYIGAVTAPAISLVVPAIRRAMDTYPGIEINVQVESSNVLARELLAARHDFIIGRIPDDFDPGLFSIHEIGIERACLVVREGHPLLRGEPVTLQDLSGYDWVFQPPGALLRRTMEDVFLTHGVAMPRNVINTPSVVLTLALVCNTDAIAPIAQDMAEFVAGQQADIGRTRILPTDFELVVKPYSIITTKGRVLPPSARLLYDLVLDESRKLTGP				NA	NA	NA	NA	NA
BMS010_01059	1065	chvE	COG4213	Multiple sugar-binding periplasmic receptor ChvE	ATGAAGTCCATTATTTCGCTGATGGCGGCTTGTGCCATCGGTGCTGCTTCTTTCGCAGTGCCGGCTTTCGCACAGGACAAGGGTTCCGTTGGTATCGCCATGCCGACCAAGTCGTCCGCACGCTGGATCGACGACGGCAACAACATCGTAAAGCAGCTTCAGGAAGCCGGTTACACGACCGACCTGCAATATGCCGATGACGATATTCCTAACCAGCTTTCCCAGATCGAAAACATGGTCACCAAGGGCGTCAAGGTCCTCGTGATCGCATCGATCGACGGCACGACGCTGTCGGACGTGCTGAAGCAGGCCGGCGAGCAGGGCATCAAGGTCATCGCTTATGACCGCCTGATCCGTAACAGCGGCGACGTCAGCTACTACGCCACCTTCGACAACTTCCAGGTTGGCGTTCTGCAGGCGACTTCGATCGTCGACAAGCTCGGCCTGAAGGACGGCAAGGGCCCGTTCAACATCGAGCTCTTCGGCGGCTCCCCGGACGACAACAACGCGTTCTTCTTCTATGACGGCGCGATGTCGGTTCTCCAGCCTTACATCGACAGCGGCAAGCTCGTCGTGAAGTCCGGCCAGACCGGCATGGACAAGGTCGGTACGCTGCGTTGGGACCCGGCAACGGCCCAGGCCCGCATGGACAACCTGCTGTCGGCTTATTACACCGACGCCAAGGTTGACGCCGTTCTGTCGCCTTACGACGGTCTCTCCATCGGCATCATCTCCTCGCTGAAGGGCGTTGGTTATGGCACGAAGGACCAGCCGCTGCCGGTCGTTTCCGGTCAGGACGCTGAAGTTCCTTCCGTCAAGTCGATCATTGCCGGCGAACAGTACTCCACCATCTTCAAGGACACCCGCGAACTCGCCAAGGTGACCGTGAACATGGTCAACGCCGTGATGGAAGGCAAGGAGCCGGAAGTGAACGACACCAAGACCTATGAAAATGGCGTCAAGGTCGTTCCGTCCTACCTGCTGAAGCCGGTTGCAGTGACCAAGGAGAACTACAAGCAGGTTCTCGTTGACGGCGGTTACTACAAGGAAGACCAGCTGAAATAA	MKSIISLMAACAIGAASFAVPAFAQDKGSVGIAMPTKSSARWIDDGNNIVKQLQEAGYTTDLQYADDDIPNQLSQIENMVTKGVKVLVIASIDGTTLSDVLKQAGEQGIKVIAYDRLIRNSGDVSYYATFDNFQVGVLQATSIVDKLGLKDGKGPFNIELFGGSPDDNNAFFFYDGAMSVLQPYIDSGKLVVKSGQTGMDKVGTLRWDPATAQARMDNLLSAYYTDAKVDAVLSPYDGLSIGIISSLKGVGYGTKDQPLPVVSGQDAEVPSVKSIIAGEQYSTIFKDTRELAKVTVNMVNAVMEGKEPEVNDTKTYENGVKVVPSYLLKPVAVTKENYKQVLVDGGYYKEDQLK	PGPT0015735_705	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_II,PGPT0015735-sbpA-K10546	NA	NA
BMS010_01060	1539	xylG	COG1129	Xylose import ATP-binding protein XylG	ATGGCCAATACCATTCTCGAAATGCGGAACATCACCAAGACGTTTCCGGGCGTGAAAGCGCTTGAGAACGTCAACCTCAAGGTTAAAGAGGGTGAGATCCACGCACTCGTCGGTGAGAACGGCGCGGGGAAGTCGACCTTGATGAAGGTCCTTTCCGGTGTTTACCCCGCCGGCACCTATGAGGGCGAAATCCACTATGAAGGCGCTGTGCGGAATTTTCGCGCCATCAACGACAGTGAAGATATTGGTATCATCATCATTCACCAGGAGCTGGCGCTCGTGCCGCTTCTGTCGATTGCGGAAAACATCTTCCTTGGCAACGAGGTCGCTTCGAGCGGCGTCATCAGCTGGCAGCAGACCTTCAACCGTACCCGCGAACTTTTAAAGAAGGTGGGCCTGAAGGAATCGCCGGAGACGCTGATCACCGATATCGGCGTGGGCAAGCAGCAGCTCGTCGAAATCGCCAAGGCGCTGTCGAAGAGCGTGAAGCTGCTCATCCTCGATGAGCCGACGGCTTCGCTTAACGAAAGCGATTCCGAGGCGCTGCTGAACCTGCTGATGGAATTCCGCAAGCAGGGCATGACCTCGATCATCATCACCCACAAGCTCAACGAAGTGCGCAAGGTGGCCGACCAGATCACCGTTTTGCGCGACGGCATGACGGTGAAGACGCTCGACTGTCATCAGGAAGAAATCAGCGAGGATGTCATCATCCGCAACATGGTGGGGCGTGATCTCGAGGATCGTTATCCGCCGCGCGATGTGCCGATCGGCGGGACCATTCTCGAAGTGAAGAACTGGAACGCCTATCACCAGCAGCACCGCGACCGCCAGGTTCTGCACGATATCAACGTTACCGTGCGCAAGGGCGAAGTCGTCGGCATTGCCGGTCTGATGGGTGCCGGGCGCACCGAATTTGCCATGAGCGTGTTCGGCAAGTCCTATGGCCACAAGATCAGCGGCGAAGTGCTGATCGACGGCAAGCCGGTCGATGTCAGCACCGTGCGCAAGGCCATCGATGCCGGTCTCGCCTATGTCACGGAAGACCGCAAGCATCTCGGTCTCGTGCTCAACGACAACATCCTGCACAATACCACGCTTGCCAATCTGGCCGGCGTGTCGAGTGCCAGCATCATCGACGACATCAAGGAAATGAAGGTGGCGAGCGATTTTCGCACGCGCCTGCGCATCCGCTCGTCGGGGATTTTTCAGGAAACGGTCAATCTTTCGGGCGGCAACCAGCAGAAGGTCGTGCTCTCCAAGTGGCTGTTCTCCAATCCCGACGTGCTGATCCTCGATGAACCGACCCGCGGTATCGATGTCGGCGCGAAATATGAAATCTACACCATCATCAACCAGCTCGCTGCCGACGGCAAAGGCGTTCTGATGATCTCATCGGAAATGCCCGAACTGCTCGGCAATTGCGACCGCATCTACGTCATGAACGAAGGCCGCATCGTCGCTGAATTGCCGAAGGGAGAGGCGAGCCAGGAAAGCATCATGCGCGCTATCATGCGCTCAGGGGAGAAGAACTCATGA	MANTILEMRNITKTFPGVKALENVNLKVKEGEIHALVGENGAGKSTLMKVLSGVYPAGTYEGEIHYEGAVRNFRAINDSEDIGIIIIHQELALVPLLSIAENIFLGNEVASSGVISWQQTFNRTRELLKKVGLKESPETLITDIGVGKQQLVEIAKALSKSVKLLILDEPTASLNESDSEALLNLLMEFRKQGMTSIIITHKLNEVRKVADQITVLRDGMTVKTLDCHQEEISEDVIIRNMVGRDLEDRYPPRDVPIGGTILEVKNWNAYHQQHRDRQVLHDINVTVRKGEVVGIAGLMGAGRTEFAMSVFGKSYGHKISGEVLIDGKPVDVSTVRKAIDAGLAYVTEDRKHLGLVLNDNILHNTTLANLAGVSSASIIDDIKEMKVASDFRTRLRIRSSGIFQETVNLSGGNQQKVVLSKWLFSNPDVLILDEPTRGIDVGAKYEIYTIINQLAADGKGVLMISSEMPELLGNCDRIYVMNEGRIVAELPKGEASQESIMRAIMRSGEKNS	PGPT0016530_378	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_II,PGPT0016530-gguA|ABC_GGU_A-K10548	NA	NA
BMS010_01061	1197	xylH_2	COG4214	Xylose transport system permease protein XylH	ATGAGTTCGGCAAACACCACAAACGAAGAAAGTAACGTCGTCTCGATCTCGTCCTATATTCGCGCCAATATTCGCGAATACGGCATGCTGATCGCGCTCGTCGCCATCATGGTTTTCTTCCAGTTCTACACCGGCGGCATCCTGTTCCGCCCTGTGAACCTGACCAACCTCATCCTGCAGAACTCGTTCATCGTCATCATGGCGCTGGGCATGCTGCTCGTCATCGTGGCCGGGCATATCGACCTTTCGGTCGGCTCCATCGTCGCCTTTGTCGGCGCGATAGCGGCCATATTGACCGTGCAATGGGGCATGAACCCGTTCCTTGCGGCGCTGATTTGTCTCGTCATCGGCGGCATCATCGGTGCTGCACAGGGTTACTGGATCGCCTATCACCGCATCCCGTCCTTCATCGTGACGCTGGCGGGCATGCTGGTGTTCCGCGGCCTGACGCTGTTCGTGCTCGGCGGCAAGAACATCGGTCCGTTCCCGACCGATTTCCAGATCATCAGCACCGGCTTCCTGCCTGATATCGGCGGCATTGAAGGTCTCAACACCACCTCGATGATCCTGACGGTCTTGATTACCGTCGTGCTGTCCTATCTCGCATGGCGCCGTCGCGTCGTGAACGTGAAGCACGGTATCGATGTCGAGCCTTTCGGTTTCTTCATCGCCCAGAACCTGCTGATCGCGGCCGCGATCCTGTTCCTCGGCTACCAGCTTTCCACCTATCGCGGCCTGCCGAACGTGCTGATCGTGATGCTTGTTCTCGTTGCGCTCTACAGCTTCGTGACCCGCCGCACCACCATCGGCCGTCGCATCTACGCCATGGGCGGCAATGAAAAGGCGACCAAGCTTTCCGGTATCAATACCGAACGCCTGAGCTTCCTCACCTTCGTCAACATGGGCGTGCTGGCCGGTCTTGCCGGCATGATCATCGCGACACGCCTCAATTCGGCGACGCCGAAGGCGGGTGTGGGTTTTGAGCTTGACGTTATCGCGGCCTGCTTCATCGGTGGCGCTTCGGCATCCGGCGGCGTTGGCAAGATCACCGGTGCGGTCATCGGCGCCTTCATCATGGGCGTCATGAACAACGGCATGTCGATCGTCGGCCTCGGCATCGACTTCCAGCAGATGGTCAAGGGCCTCGTGCTGCTCGCCGCCGTGTTTTTCGACGTTTACAACAAGAACAAGGGCTGA	MSSANTTNEESNVVSISSYIRANIREYGMLIALVAIMVFFQFYTGGILFRPVNLTNLILQNSFIVIMALGMLLVIVAGHIDLSVGSIVAFVGAIAAILTVQWGMNPFLAALICLVIGGIIGAAQGYWIAYHRIPSFIVTLAGMLVFRGLTLFVLGGKNIGPFPTDFQIISTGFLPDIGGIEGLNTTSMILTVLITVVLSYLAWRRRVVNVKHGIDVEPFGFFIAQNLLIAAAILFLGYQLSTYRGLPNVLIVMLVLVALYSFVTRRTTIGRRIYAMGGNEKATKLSGINTERLSFLTFVNMGVLAGLAGMIIATRLNSATPKAGVGFELDVIAACFIGGASASGGVGKITGAVIGAFIMGVMNNGMSIVGLGIDFQQMVKGLVLLAAVFFDVYNKNKG	PGPT0016525_499	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_II,PGPT0016525-gguB|ABC_GGU_P-K10547	NA	NA
BMS010_01062	996			hypothetical protein	GTGCTCATTTCACAGATCAAAGATGCCAGTGGCAAGATCACCGTAGCCGTTCGCGAAGAAGGCGGGCAGGCGCAGGCCGTCAAGGGTGCGGCGTCGGTTTATGCGCTTGCCATGGAAGCCGCCAATGGCGGCAAGAGCCTTGCCGATGTCATTTCCGCCCATGGTCTCGGCGATGTCGTCGATCTCGAAAAGGCTTATGCCGAAGGCCGTTTCCTGCCGCCGATCACCCATCCCGATCCGGCGCATCTGCATCTGACCGGCACGGGCCTCACCCATCTGGGTTCGGCCGCGACCCGCGACAGCATGCACAAGAAGACCACGGAAGCGGCGGAAGAAAGCCTGACGGACTCCATGAAGATGTTCCGCATGGGTCTCGAAAACGGCAAGCCCAAGGCCGGTGAAAAGGGTGTTCAGCCCGAGTGGTTCTACAAGGGCAACGGCCATGTGGCGGCAGCACCGGGTGCGGCTCTCACCTCTCCCTCCTTCGCGCTCGATGGCGGCGAAGAGCCTGAGATGGCTGGCATCTATGTGATCTCCGATAAGGGCGAAGCGGTGCGCATCGGCTTTGCCGTCTCGAACGAGTTTTCCGATCACGTCACCGAGCGGATCAACTATCTCTACCTCGCCCATTCCAAACTGCGCCCGGCAAGCTTCGGCCCGGAAATCCGCGTCGGCGCTCCGCCGTCGGATATTCGTGGCACCTCGCGCATCCGCCGCGGCGACAAGGTTATCTTCGAAAAGCCGTTCGTTTCGGGCGAGGACAACATGTCCCACACCTTTGCGAACCTGGAATATCACCACTTCAAATACGGCCTGTTCCGCGCGCCCGGCGACGTGCATGTGCACATGTTCGGCACTGCGACGCTCTCCTTCGCAGAAGGCATCAAGCCCGAAGCGGGCGACGTCTTCGAAATCGAAGCCGCCGGCTTCGGCCTGCCGCTGAAGAACCCGCTGGCCGTGGATTCGGAAGAAGAGATCACCGTTCGCCAGATCTGA	MLISQIKDASGKITVAVREEGGQAQAVKGAASVYALAMEAANGGKSLADVISAHGLGDVVDLEKAYAEGRFLPPITHPDPAHLHLTGTGLTHLGSAATRDSMHKKTTEAAEESLTDSMKMFRMGLENGKPKAGEKGVQPEWFYKGNGHVAAAPGAALTSPSFALDGGEEPEMAGIYVISDKGEAVRIGFAVSNEFSDHVTERINYLYLAHSKLRPASFGPEIRVGAPPSDIRGTSRIRRGDKVIFEKPFVSGEDNMSHTFANLEYHHFKYGLFRAPGDVHVHMFGTATLSFAEGIKPEAGDVFEIEAAGFGLPLKNPLAVDSEEEITVRQI	PGPT0017806_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LYXONATE_DEGRADATION,PGPT0017806-2_keto3_deoxy_L_lyxonate_dehydratase-NA	NA	NA
BMS010_01063	654	gpmA_2		2,3-bisphosphoglycerate-dependent phosphoglycerate mutase	ATGAAGAACATTTTTGTCGTCACGCACACTCAGTCCATCCACCATGTCGAAAACAAGGTCGGGGGTTGGTATGACACCGAGCTGACACCCAAAGGTGTGGCAGATGCGGAAGCAACAGCTGCTAAGCTTATGACCTTGATTGGCAGTGCATCAATCGAAATCTTCAGCTCCGATCTTCTCCGGGCCTCCCAGACTGCGGCAATCGTTGCTGAACATCTCAAGCGCCCTTTTGAAATCACAAATGACCTGCGAGAAATCAGCTACGGTTCGGCTGGCGGCATGCCACAGGAATGGCTCGACGCCCGCCAAATCCCCGCTCAGGACCACAATCGGATGGATCACCGAGGCGGAATCGCCGATGCCGAAACGAGACGTGAGGTGGCGGAAAGAGTGTATCGCTCTGTTAACACCATTATTTCGCGGCCATGCCCAACACAGATCATCGTTACCCATGGCTTTGCCCTTACCTTCGTCATCGCAGCATGGATCAAGATGCCAATAGAAAGCGCCGGCTATGTCAGCTTTCCGGCGCGGTCTGGAAGCATTACCCACCTAAGACAAGATGACTATTGGCAAAGTCGATCCGTTATTGCTTTGGCGGATGTTTCCCACCTGAAGGCAAGCTGTGGGGGTTCGGGTGAGGCAAGCGCCTGA	MKNIFVVTHTQSIHHVENKVGGWYDTELTPKGVADAEATAAKLMTLIGSASIEIFSSDLLRASQTAAIVAEHLKRPFEITNDLREISYGSAGGMPQEWLDARQIPAQDHNRMDHRGGIADAETRREVAERVYRSVNTIISRPCPTQIIVTHGFALTFVIAAWIKMPIESAGYVSFPARSGSITHLRQDDYWQSRSVIALADVSHLKASCGGSGEASA	PGPT0018035_1014	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0018035-gpmB-K15634	NA	NA
BMS010_01064	411			hypothetical protein	ATGCAACCGCCAACCGCCATTATGGAAACCGCGCTCTACACCGACGACCTCGACGCCGCCGAAGCCTTTTACCGGGATGTTTTCGGGCTGGAAGTGGTACGCAGGCTGCCGGGGCAATTCATCTTCTTCCGATGCGGGCAGCAGATGCTTCTGCTCTTCGACCCCGAGCAATCCCGCCGGGCCGACCCCGACAATCCGATCCCCCGCCACGGCGCGGTGGGGCAAGGTCATTTCTGCTTTTACGCCAGGGACAAGTCGGAGGTGGACGGCTGGAAGACCCACTTCGAAGCGCTCGGAATTCCCATCGAACATTATCACCGCTGGCCGAATGACAGCTATTCCGTCTATATCCGCGATCCCGCTGGTAATTCGGTGGAGGTTGGGGAAGGCAAGCTGTGGGGGTTTGGATAA	MQPPTAIMETALYTDDLDAAEAFYRDVFGLEVVRRLPGQFIFFRCGQQMLLLFDPEQSRRADPDNPIPRHGAVGQGHFCFYARDKSEVDGWKTHFEALGIPIEHYHRWPNDSYSVYIRDPAGNSVEVGEGKLWGFG	PGPT0021590_66	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021590-rdgB-K02428	NA	NA
BMS010_01065	465			IS1595 family transposase ISSfr4	TTGTACAGCATTTCCGACTATCGCGACTGCCAGTCGCATGGACCCGTCATCGCCGAACGGGTCTGGACGGCATGGTGGCAGGATAGCGGCCTTCAGGTGGGCGACGTCGCCGAGCACCTGAAGGACATGACCAACCCCCATACGCTGCCCACCGGCTTCGTCGCCCATGACGGCAGCGATTATGTCGGCTCCGCCTTCCTCATCCATTGCGATCTGGAAGAACGTCCGCAATATCTGCCCTGGGTCGCAGCCCTGTGGGTGGAAGAAGACCGCCGGCGCTCGGGCGTGGCGCGGGCCTTGATGCAGGCCGCGACGCAAAGGGCAGCCGAACTTGGCCACGAGACCAGCTATCTCTGCTGCCAACGGGGTCTCGAAGCCTATTATGTCAACTGCGGCTGGACCGTTCTGGAACGTGGCGTCGGCAAACACGACCTGACGGTGCTGACCTACACAACAGGTAAATAG	MYSISDYRDCQSHGPVIAERVWTAWWQDSGLQVGDVAEHLKDMTNPHTLPTGFVAHDGSDYVGSAFLIHCDLEERPQYLPWVAALWVEEDRRRSGVARALMQAATQRAAELGHETSYLCCQRGLEAYYVNCGWTVLERGVGKHDLTVLTYTTGK				NA	NA	NA	NA	NA
BMS010_01066	597			hypothetical protein	ATGACTGGCAGGGACGACGACACAATCGGCTTTTACACGGGTAACGCTGCGGCCTATACCTCGCGCGGGCAGGCGGCGGATCGCCCGCATCTGGAAACATTCCTGACGCGGCTGCAAGAGGGTGCAAGCATTCTCGAGCTGGGATGCGGCGGCGGGCAGGACAGCGAATTCATGCTGGCCGCCGGTTACGATGTCCACCCCACCGACGGAACGCCTGAAATCGCCAAAGCGGCGCAAGCCCGGCTCGGCATTCCCGTCCGGACATTGCTGTTCGAGGATATCGATGAGAGTGCGCGATATGACGGCGTCTGGGCCAATGCCTGCCTGCTGCATGTGCCTCGCCCTGCCCTGCCGGGCATTATCGGCTGCATCCACACCGCGCTGAAACGGGGCGGCGTTTTTTATGCCAGCTTCAAGGCGGGAGAAGCGGAAGGCCGCGACATGTTCGGCCGTTATTATAATTACCCTTCGAAGCCCTGGCTGGAAGACGTTTACGGACAGTTTGACTGGGCGGTGGTGGAGATCGAGGCGAGGCAGGGCAGCGGTTATGACAAGCTCCCGACCGCATGGCTGCATGTGACGGCAACGAAACCCTGA	MTGRDDDTIGFYTGNAAAYTSRGQAADRPHLETFLTRLQEGASILELGCGGGQDSEFMLAAGYDVHPTDGTPEIAKAAQARLGIPVRTLLFEDIDESARYDGVWANACLLHVPRPALPGIIGCIHTALKRGGVFYASFKAGEAEGRDMFGRYYNYPSKPWLEDVYGQFDWAVVEIEARQGSGYDKLPTAWLHVTATKP				NA	NA	NA	NA	NA
BMS010_01067	822		COG1305	putative protein	ATGCGTCTGAAAATCACCCATACGACGGAATATGTCTATGACGAGCCGATGCCCTATGCGTTGCAGCGGCTGCGCCTGACGCCGCAGACCGGCCCCGGCCAGACGGTGGAGAACTGGGATGTCTCGGTCGATGGCGCCACCGTCGAAGTGACCTATGACGACCATTTCGGCAACCGTGTTGCGCTGGTGGAAACCGAAGGCCCGCAGCAGCGGGTGAAGGTGGTGGCGAGCGGCACCGTGAACACCGAGGACAAGGCCGGCGTGTTCGGTTACCACATCGGCAATGCGCCGCTGTGGCTTTTCCTGCGCGAGACGCCGCGCACCAAACCGGGAAAGCTCGTGCGCGAACTGGTGAAGGTGAGCGCCGGCGACAGCGAGCTGGCCCGCCTGCATGACCTGATGGAAAATATTCACCGCAAGGTGGAGTATGTGCCCGGCGCGACCGATATTGAAACCACGGCGGAAACGGCGCTGGAAGCGGGCAAGGGTGTCTGCCAGGACCACGCCCATATCCTGATTTCCGCCGCCCGGCTGATGGGCCTGCCGGCCCGTTACGTTTCCGGTTATCTGATGATGGAAGAGGTGGAGGAACAGACGGCCACCCATGCCTGGGCCGAAGTGCATCTTCAGGGGCTCGGCTGGGTGGGTTTCGACGCCGCCAACAATATCTGCCCCGACGACCGCTATGTGCGCATCGCATCGGGCCTCTGCTACCGCGATTGCGCGCCGATATCGGGCATGCGCATCGGCCCAGCCGGTGAGACCCTGAATGTGTCGGTCACCGTGCAGCAATCGCAGGGCCAGAGCCAGTCGCAGAGCTGA	MRLKITHTTEYVYDEPMPYALQRLRLTPQTGPGQTVENWDVSVDGATVEVTYDDHFGNRVALVETEGPQQRVKVVASGTVNTEDKAGVFGYHIGNAPLWLFLRETPRTKPGKLVRELVKVSAGDSELARLHDLMENIHRKVEYVPGATDIETTAETALEAGKGVCQDHAHILISAARLMGLPARYVSGYLMMEEVEEQTATHAWAEVHLQGLGWVGFDAANNICPDDRYVRIASGLCYRDCAPISGMRIGPAGETLNVSVTVQQSQGQSQSQS				NA	NA	NA	NA	NA
BMS010_01068	942			hypothetical protein	ATGCTGGGCAGAACGGCAAACGGGCTCTACTGGATGTTCCGGTACATCGAGCGCGCTGAAAACATCGCCCGGCTGATCGATGCGGGCCTGCGCGTTTCATTGACGCGCTCCGGCAGCGGTGATGAGGACTGGGATGGCGTGCTGCAAAGTGCGGGCGTGCGCGAAGCCTTCCTTGAAATGCACAAGAAGGTGACGGCGGCGGACGCGATCGATTATCTGCTTCGGGAAAAATCGAACCCTTCCAGCGTCATGTCCTGCATCGAGGCGGGCCGCAACAATGCCCGCATGGTGCGCACGGCGCTGACACGCGAGACATGGGAAGCCACCAACGAATTCTGGATCGAGCTGAAGAACATTCTCGGTCGCAAGCTCAACCATGCCGAACTGCCGCAGACCATCGATGTCATCAAACATCGCGCCGGTCTGGTGCGCGGCGCCTTCCACGGTTCGATGCTGCGCAACGATCTCTATAACTTCTCCCGCATCGGCACCTTCATCGAGCGCGCCGACAACACGGCCCGTATTCTCGACGTCAAATATTACGTGCTGCTGCCGGCAGTGGCCCATGTCGGCTCCTCGCTCGACAATGCGCAGTGGGAATCCATCCTGCGTTCGGTTTCGGCGCACCGCTCCTATGGCTGGGTCTACGATGCGGAATACAAGCCCTCCAACATTGCCGACTTTCTCATTCTCAATGGCCGCATGCCGCGCTCGCTGGCCTATTGTTATGAAAAGATCGCCAGCAACCTCAATTACATCGCCGAGGATTACAGCGAGAGGCACAAGGCGCACGACACGGCCGAGAGCATTCGCGACAGCCTGCGCGCGACCACCATCAGCCGGGTGATGGATGAAGGCTTGCACGAATTTCTGGAGAGATTTGTCAACCGCAACGGACAATTGGGACAGGAAATCACGGAAGGCTACCGCTTCTATCAATAA	MLGRTANGLYWMFRYIERAENIARLIDAGLRVSLTRSGSGDEDWDGVLQSAGVREAFLEMHKKVTAADAIDYLLREKSNPSSVMSCIEAGRNNARMVRTALTRETWEATNEFWIELKNILGRKLNHAELPQTIDVIKHRAGLVRGAFHGSMLRNDLYNFSRIGTFIERADNTARILDVKYYVLLPAVAHVGSSLDNAQWESILRSVSAHRSYGWVYDAEYKPSNIADFLILNGRMPRSLAYCYEKIASNLNYIAEDYSERHKAHDTAESIRDSLRATTISRVMDEGLHEFLERFVNRNGQLGQEITEGYRFYQ				NA	NA	NA	NA	NA
BMS010_01069	1410		COG2308	putative protein	TTGGCATTTGACGAAATGATAAATGCGGACGACACGCCGCGAAGCCCATATGAAAACTATAACGAGTGGTACAGCCGACAGGACAGGGCGCACCTGATCCAGAAATCAAAAGACGCGGAAAACATCTTTCGAAAAACCGGTATTACTTTCGCAGTCTATGGCCATGCCGACAGTTCAGAAAAACTGATCCCCTTCGATATCATCCCGCGCATTATCTCCGGCCGCGAGTGGCGCAAACTGGCCCAGGGTATCGAACAACGCGTCCTCGCCCTCAATGCTTTCCTCGACGATATCTACCATAAACAGGAAATCATCCGCGCCGGCCGCATTCCCCGCGAAATCATCGAGAAAAACGAAGCCTTCCTGCCGGAAATGATCGGCTTCACCCCACCCGGCGGCGTTTATACCCATATTGTCGGCACGGATATCGTTCGCACCGGCGAAGACCAGTTCTACGTTCTGGAAGACAATGCCCGCACCCCCTCCGGCGTCAGCTACATGCTGGAAAACCGCGAAACGATGATGCAGATGTTCCCGGAGCTCTTCCATGAAAACCGGGTGCGCCGGGTAGAGGATTACCCCTATCTGCTGCGCCAGTCGCTCGCCTCGCTCGCACCGCCCGGCTGTTCCGGCAAGCCACGCGTCGCGGTGCTGACGCCCGGCATCTATAATTCCGCCTATTACGAACATTCCTTCCTCGCCGACATGATGGGCGTGGAACTGGTGGAAGGTTCCGACCTGCGCGTCATGGACGGCAAGGTCAAGATGCGCACCACCCGCGGTTATGAGGCCATCGACGTGCTTTACCGCCGCGTCGATGACGACTTCCTCGACCCGCTGACCTTCCGGCCGGATTCGGCGCTAGGTGTTCCCGGCATCATGGATGTCTACCGCGCCGGCAACATCACCATCGCCAATGCCCCGGGCACCGGCATTTCCGACGACAAGGCGATCTATTCCTACATGCCTGAAATCGTCGAGTTCTATACCGGCCGCAAACCGCTTCTGGAAAACGTGCCGACCTGGCGCTGTTCGGAGCCGGACAGCCTGAAATACGTCCTGGACAACCTCGCCGATCTCGTCGTCAAGGAAGTTCACGGTTCGGGCGGTTACGGCATGCTGGTCGGCCCCACGGCGACGAAACGCGAGCGGACGCTGTTTGCGGAAAAGCTCAAAGCCCGTCCCGCCAATTACATCGCGCAGCCGACGCTGTCGCTGTCCACCGTGCCGATCATGGTGAAGAACGGCATTGCGCCGCGCCATGTCGATCTGCGCCCCTATGTGCTCGTCTCGGACAAGGTGCAGATCATTCCCGGCGGCCTGACCCGCGTGGCGCTGAAAAAGGGCTCGCTGGTGGTCAATTCCAGCCAGGGCGGCGGCACCAAGGATACCTGGGTACTGGAGGATTAA	MAFDEMINADDTPRSPYENYNEWYSRQDRAHLIQKSKDAENIFRKTGITFAVYGHADSSEKLIPFDIIPRIISGREWRKLAQGIEQRVLALNAFLDDIYHKQEIIRAGRIPREIIEKNEAFLPEMIGFTPPGGVYTHIVGTDIVRTGEDQFYVLEDNARTPSGVSYMLENRETMMQMFPELFHENRVRRVEDYPYLLRQSLASLAPPGCSGKPRVAVLTPGIYNSAYYEHSFLADMMGVELVEGSDLRVMDGKVKMRTTRGYEAIDVLYRRVDDDFLDPLTFRPDSALGVPGIMDVYRAGNITIANAPGTGISDDKAIYSYMPEIVEFYTGRKPLLENVPTWRCSEPDSLKYVLDNLADLVVKEVHGSGGYGMLVGPTATKRERTLFAEKLKARPANYIAQPTLSLSTVPIMVKNGIAPRHVDLRPYVLVSDKVQIIPGGLTRVALKKGSLVVNSSQGGGTKDTWVLED	PGPT0026300_15	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026300-gshA|ybdK-K06048	NA	NA
BMS010_01070	897			hypothetical protein	ATGTCGCTCGACCGTCTGGCTCCGGCCATCTTCGTTTTTCTCTGGTCGACCGGCTGGGTCACCGCCAAATATGCGGTCTATTATACCGGACCGCTAACCTTTCTCTGTCTGCGCTATCTGCTGGCGGGGGCGTTGCTGTGGGCGATCTGCCGCTTTTCTTCCATCCAGTGGCCTGAGCGGCGTGCCGATATCTTCCGGGCGATCCTCTCCGGCGTCTTCCTGCACGGTCTTTATCTCGGCATGATCTGGTGGGCGATAGGGCAGGGCGTGCCAGCGGCGATCGGCGGCATCATCGCCGGTCTGCAGCCGCTGATGACGGCGGTGGCCGCCCGCTACATGATCGGTGAAAGGATCTCGCCCTTGCAGCGCGCCGGCCTGCTCATCGGCTTTGCCGGCATTGCCATTGCCGTGCTGCCGAAGGTCATGGCCACCGGTGCTGTCGGCCTGTCGGTGCCGCTCTACGCCGTGGCGGTGAATGTGCTGGGCATGACTTCGGTTACCTATGGCACGCTCTACCAGAAGAAATATGTCCATGGCGGAAACATCATGGCGGTGGCCACACTGCAATATGTCGGTGCGCTGCTGGTCACCGTGCCCTTCGCGCTTTTGCTGGAGGATGGGCATGTGGACTGGAGCCTCGGCCTTGCCGCCACGCTTGCCTGGTCGGTGGGTGCGATCTCCATCGGTGCCGTGGCGTTGCTTCTTTATCTCATCCGACGCGGGCAGGTCTCGCGGGCCGCCTCGCTGATCTATCTCGTCCCGCCGCTTGCGGCGGTGGAAGCAGCACTGCTTTTCGGCGAAACGCTGACACCGGCCATGATTGCCGGCACCGTTCTGGCGGTGACGGGGGTTTATCTCGCCAATCGCAAACCTGCCGCAGCGGTTGTCGCACGTTAG	MSLDRLAPAIFVFLWSTGWVTAKYAVYYTGPLTFLCLRYLLAGALLWAICRFSSIQWPERRADIFRAILSGVFLHGLYLGMIWWAIGQGVPAAIGGIIAGLQPLMTAVAARYMIGERISPLQRAGLLIGFAGIAIAVLPKVMATGAVGLSVPLYAVAVNVLGMTSVTYGTLYQKKYVHGGNIMAVATLQYVGALLVTVPFALLLEDGHVDWSLGLAATLAWSVGAISIGAVALLLYLIRRGQVSRAASLIYLVPPLAAVEAALLFGETLTPAMIAGTVLAVTGVYLANRKPAAAVVAR				NA	NA	NA	NA	NA
BMS010_01071	618			hypothetical protein	ATGTCTATTTCACGTCGTGGTGTTCTGTTCGGATTGCCGCTGTTTCTGGCCGGCTGCGCGAATACCGGCATCGGCCAGCAGAGGCTGAATTATGCGGCAAAGCCGGAGGAGAAATTCCCGCTTCCTGCCATGCATCTGGACAAGGTCAAGCCGGAACTGCGCCGGCAGGAAGTCACCTACGATACCATGCACCCGGCCGGAACGGTCGTGGTGGATACGCCGGCGCGGCGGCTTTATTACGTTATGGGCGATGGTCGCGCCATGCGTTACGGCGTCGGTGTCGGCCGGCAGGGTCTTGCGCTGAAGGGCGATGCCTATATCGGCCGCAAGGCGGAATGGCCGTCCTGGACGCCGACCGCGAACATGATGCGCCGCGATCCGCGCAATCTGAAATTCGCCGGCGGCATGGCGGGCGGCCCGAACAATCCGCTCGGCGCCCGCGCGCTCTATCTCTATCGCGGCGGCAACGACACCATGTTCCGTCTGCACGGCACCAACCAGCCGCAATCCATCGGCCACGCCATGTCGAGCGGCTGCATCCGCATGCTGAACCACGACATCATCGATCTTTACAGCCGCGTGCCGGTCGGTTCGAAGGTCGTCGTCTTGCAGGCGTGA	MSISRRGVLFGLPLFLAGCANTGIGQQRLNYAAKPEEKFPLPAMHLDKVKPELRRQEVTYDTMHPAGTVVVDTPARRLYYVMGDGRAMRYGVGVGRQGLALKGDAYIGRKAEWPSWTPTANMMRRDPRNLKFAGGMAGGPNNPLGARALYLYRGGNDTMFRLHGTNQPQSIGHAMSSGCIRMLNHDIIDLYSRVPVGSKVVVLQA				NA	NA	NA	NA	NA
BMS010_01072	390			hypothetical protein	ATGGCAACTTTCGACTCTCTTTCCCGCTATCGCCCGCAGGCACTCGGGGCGCTGCGCATCATGACGGCGCTGCTTTTCATTTCGCATGGAACGCAGAAGCTGTTCGGTTTTCCGGCATCGCAGATGGATGGCTCCCTGCCGACGATGCTGCTGGTGGCGGCGCTTCTGGAACTCGTCGGCGGCATTCTCGTGCTGATCGGCCTGTTCACACGCCCGGTCGCCTTCATTCTGTGCGGCCAGATGGCGGTGGCCTATTTCATGGCGCATGCGCCGAGCAATTTCTTCCCGGCCCTGAACGGTGGCGACGCCGCCATCCTGTTCTGCTTCATCTTCCTCTATCTGTTCGTTGCCGGTCCGGGCGCCTTCTCGGTGGATGAGCGCCGGGCCTGA	MATFDSLSRYRPQALGALRIMTALLFISHGTQKLFGFPASQMDGSLPTMLLVAALLELVGGILVLIGLFTRPVAFILCGQMAVAYFMAHAPSNFFPALNGGDAAILFCFIFLYLFVAGPGAFSVDERRA	PGPT0028505_6273	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROQUINONE-DERIVATE_RESISTANCE,PGPT0028505-catD-K15977	NA	NA
BMS010_01073	909	yedA_1		putative inner membrane transporter YedA	GTGACCTCCCAGACCCCCATCGTCCGCGAATTACTGTTTCTTGCCCTGTTGTCCACGCTGTGGGCCGCATCCTATACCTTCATCAAGATCGGGGTGGAGACGATACCGCCGATCACCTTCATCGCCTCGAGAACCCTGATCGCCGGTCTGCTGCTCTTTGCGGTGATCCGGTTGCGCGGGCTGCGCCTGCCTACGGATTTGGCGACATGGCGGCTGTTCTTCATTCAGGCCTGCATCAACAGCGTTCTACCCTTCACATTGATCGCCTGGGCGGAACAGAGCATCGATGCCGGTCTTGCCGTCATTCTCAACGCAACGACGCCGATATTCACCTTTCTTCTCACCGCACTCGTTATCCGGCACGAGCCGGTCAGCGGGCGCAAGCTGTTCGGCACCATTGCCGGCATGACGGGCGTGTGCCTCATCATCGGCGTCGAAGCGCTGAGCGGCGCGGGGGAGGCGATATGGAGCCAGCTCGCCGTGCTGACGGCGGCTTTTTCCTATGCCTGCGCGGCTATTTTCAGTAAAAATTTCAAGGGGCTCGATCCGATCATGCCGGCAGCGGGTTCGCTTATCTGCGGCGCTGTTTTCCTGTTGCCCGTGAGCCTGATCGTCGACCGGCCCTGGACATTGTCGCCTTCGGCGGCGTCACTGACGGCGCTCCTTTGCCTCAGCGTGTTTTCGACCGCGCTCGCCTTTATGATCTATTTCCGGCTGATGCAGACGCTGGGCTCCGTCGGCACCACCTCCCAGGCCTATCTCAGGGTGCCGGTCGGCGTCGCCATCGGCATGGCGTTCCTGGGGGAAATGCCGACACCTGCCATGTGGGTGGGGCTCGTCTGCGTCATTGCCGGCGTGCTGGCCATGACCCTGCCGTCACGGCGTCGTCCGGTCGCGCAGGGCGGGTGA	MTSQTPIVRELLFLALLSTLWAASYTFIKIGVETIPPITFIASRTLIAGLLLFAVIRLRGLRLPTDLATWRLFFIQACINSVLPFTLIAWAEQSIDAGLAVILNATTPIFTFLLTALVIRHEPVSGRKLFGTIAGMTGVCLIIGVEALSGAGEAIWSQLAVLTAAFSYACAAIFSKNFKGLDPIMPAAGSLICGAVFLLPVSLIVDRPWTLSPSAASLTALLCLSVFSTALAFMIYFRLMQTLGSVGTTSQAYLRVPVGVAIGMAFLGEMPTPAMWVGLVCVIAGVLAMTLPSRRRPVAQGG				NA	NA	NA	NA	NA
BMS010_01074	1473	rhlE_1		ATP-dependent RNA helicase RhlE	TTGACCAGTTTTAGCGAACTCGGCCTCTCCGAAAAGATTGTGGCCAGCGTTACCCAGCTTGGCTATACGACCCCTACTCCCATTCAGGCAAAGGCCATTCCGCTGCTGCTCGAAGGCCGTGACCTGATCGGCCTCGCACAGACCGGCACCGGCAAGACCGCCGCTTTCGGCCTGCCCATCATCGAAATGCTGATGAAGCAGGCGGACCGCCCGGCAAACCGCACCTGCCGCACCCTCATCCTCGCCCCCACCCGCGAGCTGGTGAACCAGATCGGCGAGAATCTGCGCTCTTTCGTGAAGAAGACGCCGCTGCGCATCAACCAGGTGGTCGGCGGCGCATCGATCAACAAGCAGCAGCTTCAGCTCGAAAAGGGCACGGATATTCTGGTGGCGACCCCCGGCCGCCTGCTGGACCTCATCGCCCGCAACGCCATCTCGCTTTCCAAGGTCACCTATCTGGTGCTCGATGAAGCGGACCAGATGCTCGATCTCGGCTTCATCCACGATCTGCGCAAAATTTCGAAGATGGTGCCGGCCAAGCGCCAGACGCTGCTCTTCTCGGCCACCATGCCGAAGGCGATCGCCGATCTCGCCCACAGCTACCTGACCGATCCGCTCAAGGTGGAAGTGACCCCGCCCGGCAAGGCAGCCGACAAGGTGGAGCAATATGTTCACTTCGTCGCCGGCAAGAACGACAAGACCGAGCTTCTGAAAAAGTCGCTCAACGAAAACCCGGATGGCCGCGCCATCGTGTTCCTGCGCACCAAGCACGGCGCTGAGAAGCTCTACAAGCATCTCGAACATATCGGCTTCAAGGTCGCCTCCATCCACGGCAACAAGAGCCAGGGCCAGCGCGAGCGCGCTCTCAAGGGCTTCAAGGATGGCGAGATCAAGGTGCTGGTGGCAACCGACGTCGCTGCCCGCGGCATCGACATTCCGGCCGTCACCCACGTCTTCAACTATGACCTGCCGGAAGTGCCCGACGCCTATGTTCACCGCATCGGCCGTACCGCCCGCGCCGGCCGCGACGGCATCGCCATTGCGTTTTGCGCCCCGGACGAAACCCGCCTGCTGCACGACATCGAAAAGCTGATGAAGATCGATATTCCGGTCGCCTCCGGCGAGCGCCCGGCCGGTCTTGCGAGCCCAACGCGCCCCAACAACAACCGCGGCGGCCGCAACAACAATGGCGGCCATCAGCGTGGTCCCCGCGAAGGCGGCCGTCACAACGGCGAATCCCGCCCGTCGCGCCACCACGCACCGCGCGAAGCGGACAACGATCTTGAAGTCACCTCCGACTTCAAGCGCGTCAAGCAGGCTGAAGGCGACGCAGGCCGCCCGGCCGGCCCGCGCAAGCACCGTCGCCCGGCCCGCGAGCCCGGCGGCAGCGGCGCCAACCGCCACGCCCCTGCCGGCGGCAACGGCCAGGAAAAGCGCGCTTCCGGCAACGGCCATCGCGGCCGTAACCGCTAA	MTSFSELGLSEKIVASVTQLGYTTPTPIQAKAIPLLLEGRDLIGLAQTGTGKTAAFGLPIIEMLMKQADRPANRTCRTLILAPTRELVNQIGENLRSFVKKTPLRINQVVGGASINKQQLQLEKGTDILVATPGRLLDLIARNAISLSKVTYLVLDEADQMLDLGFIHDLRKISKMVPAKRQTLLFSATMPKAIADLAHSYLTDPLKVEVTPPGKAADKVEQYVHFVAGKNDKTELLKKSLNENPDGRAIVFLRTKHGAEKLYKHLEHIGFKVASIHGNKSQGQRERALKGFKDGEIKVLVATDVAARGIDIPAVTHVFNYDLPEVPDAYVHRIGRTARAGRDGIAIAFCAPDETRLLHDIEKLMKIDIPVASGERPAGLASPTRPNNNRGGRNNNGGHQRGPREGGRHNGESRPSRHHAPREADNDLEVTSDFKRVKQAEGDAGRPAGPRKHRRPAREPGGSGANRHAPAGGNGQEKRASGNGHRGRNR	PGPT0013740_895	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
BMS010_01076	756	mnmC_1	COG0665	tRNA 5-methylaminomethyl-2-thiouridine biosynthesis bifunctional protein MnmC	ATGAAACATTCCAACGAAAATATCACAGAGACCGGCGCAGCGGCCGGTTCACCGGCCGGGGAACCCCCCACCGCGCTCGACTGGCGTGACGGGGATATGCCCTATTCACTGGCCTTTGACGACCATTTTTATTGCCAGACGGATGGCCGGCTGGAATGCGGCCATGTCTTCCTCTCCGGAAACGGCCTGCCAGAGCGTTGGCTCGAACGGGAGGGCACCTTCCGCATCGGCGAACTGGGCTTCGGCACCGGGCTTAACCTCTGCGAGACATGGCGCCAGTGGAAAGAGATGCGCAACGGCCGCTCCACACTGCATTTCATCTCCTTCGAACTCTACCCGATGAAGGCGGAGGAAATCGACCGGGCGCTTTCCCGCTGGCCGGAAGTGGATGCCGAACGCAAGGCGCTCACCGCCCTCTGGCCCGCCGAGCCGAAAGGACGGGTCGAAATCCAGCTCGATGACGAAACGCAGCTGACAGTGGTTTGCGGCGAAGCGCTCGCCGGCATTTCCGCAAGCGAGGAAAGTTTCGACGCCTGGTTTCTCGATGGCTTCGCACCCGCGCGCAATCCGGACATGTGGTCGCTGGAAATCATGCAGGCGCTTTTCGCAAAGACGGCGCCTGGCGGCACATTCGCCACCTATGCCGCCGCCGGCTTCGTTCGCCGCAACCTCATCGCCGCCGGTTTTGAGCTGGAGCGCCGGAAAGGTTTTGCCGGAAAGCGGGAAATGCTCTGCGGGACCAAACCGTTCGGCTGA	MKHSNENITETGAAAGSPAGEPPTALDWRDGDMPYSLAFDDHFYCQTDGRLECGHVFLSGNGLPERWLEREGTFRIGELGFGTGLNLCETWRQWKEMRNGRSTLHFISFELYPMKAEEIDRALSRWPEVDAERKALTALWPAEPKGRVEIQLDDETQLTVVCGEALAGISASEESFDAWFLDGFAPARNPDMWSLEIMQALFAKTAPGGTFATYAAAGFVRRNLIAAGFELERRKGFAGKREMLCGTKPFG				NA	NA	NA	NA	NA
BMS010_01077	1149	mnmC_2		tRNA 5-methylaminomethyl-2-thiouridine biosynthesis bifunctional protein MnmC	GTGCCGCTTCTCATCGTCGGCGGCGGCATCATGGGACTGTGGGCCGCCGTCAAGGCGGAGCGGCTCGGCATCGATACATTACTGGTGGAGGCGGATCGCCCCGGCGGCGGCGCCAGCGGCGGGCTGCTGGGCGCGTTGATGCCGCATATGCCGGACCGCTGGTCGGACAAGAAGCAGTTCCAGTTCGATGCCCTCGTTGCGCTGGAAAAAGAGATTGCCTGGCTGGAGGCGGAGACCGGGCTTTCCGCCGGCTATCGCCGTTCCGGCCGTATCATTCCGCTGCCGAGGCCGCATCTGCGCGCCATTGCCGAACGGCACGAACGGGATGCGCTGGAGAACTGGGTGTCGGGCGAGCGCCGGTTCCATTGGCATGTCGGCGACAGGCCTTCAGTCGCGGGCTGGGTGGATGATGCGGCGGGTGAGGCGGGTTTCGTGTTCGATACGCTGGCGGCGCGGGTTTCGCCACGTGCGATGATCGCCCTTCTTTCGGCTTTTCTCGGTAAGGCGCGGCATGTGCGGCTGGCGGAAGGTTGCCGCGTTCTTTCGCTCGACGCGGATGCCGGGCGGGCGGTGCTGACGTCGGGCGACGCGGTTTCTTTCGGCCATGTCATCGTCGCCAACGGTCATGATTCCTTCCCCCTGATCCGCGATGCGATCGGCCTGGAGGCCGGTGTGACGCTGGGGCAGGCGGTTAAGGGGCAGGCAGCACTTCTCGACGCGGCGGCCGATCCGGCGATGCCGGTCGTGTTCCTGAACGGTCTTTATATCGTGCCGCATGAGGATGGCACGGTCGCGATCGGCAGTACCAGCGAAGATTGTTTTTCCGATCCCTTCAGTACCGATGAAAAGCTCGAAAAACTGGTTGCCGATGCGTCTGCCGTTGTTCCCTCGCTCATCCGCGCGCCGGTGCTGGAACGCTGGGCCGGGCTGCGCCCGAAGGCGGTGGGGAGGGACCCGATGGTGGGCACGATCCCCGGCAATCCGAAGCTCGTTGCGCTGACCGGCGGCTTCAAGGTCAGCTTCGGGCTTGCGCATTTTCTCGCCGATGCGGCGTTGCAGACCGTGTGCGGTCACACGCCTGTCATCCCCTCGGGCTTTCACCTTCAACAACACGTGAGTATTGCCGCCGCGGACTTTAGAAAGTTCTGA	MPLLIVGGGIMGLWAAVKAERLGIDTLLVEADRPGGGASGGLLGALMPHMPDRWSDKKQFQFDALVALEKEIAWLEAETGLSAGYRRSGRIIPLPRPHLRAIAERHERDALENWVSGERRFHWHVGDRPSVAGWVDDAAGEAGFVFDTLAARVSPRAMIALLSAFLGKARHVRLAEGCRVLSLDADAGRAVLTSGDAVSFGHVIVANGHDSFPLIRDAIGLEAGVTLGQAVKGQAALLDAAADPAMPVVFLNGLYIVPHEDGTVAIGSTSEDCFSDPFSTDEKLEKLVADASAVVPSLIRAPVLERWAGLRPKAVGRDPMVGTIPGNPKLVALTGGFKVSFGLAHFLADAALQTVCGHTPVIPSGFHLQQHVSIAAADFRKF	PGPT0008955_209	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008955-thiO-K03153	NA	NA
BMS010_01078	708			hypothetical protein	ATGCGATACGCCATTCATTTCACGCCTTCCCCCAATGACCCCCTGACGCAGGCGGCTGCCGCGTGGTTGGGGCGCGATGCCTATTCCGGTCAGGCGGTGGAGCCGCCGGGCATGATCGATCTCGGCATGCAGGAGATTTCCTACCATACGGCCCTGCCGCGCCGTTACGGTTTCCACGGCACGATCAAGGCTCCCTTCCGTCTTGCGGAGGGCCATTCCGAGGCGGCACTTCTGCGTGACCTGATGTATTTTTCCGGCAGGCAGGAGCCCTTCACGCTGCCGCAACTGGTGGTGGCAAGGCAGGAGAATGTCTTCAGCCTCGTTCCCGAGCGCCCCTGCGAAGTGCTGCATTTCTTTGCCGCCCGCGTGGTGCAGGAATTCGACCGTTACCGGGCGCCGCTCTCCGACGCGGAAATCGAGCGGGCGGATCCGGACCGGCTTTCGGCCTCGCAGCTCACCAATCTGCATCGCTGGGGCAGCCCGCATGTGATGGACGAGTTCCGGTTCCAGATGTCGCTGACGGGCGGTGTGGAAGCTTCCAGCAGCCAGAGGATAGAGCGGGCCGTGCGCAAGGTTTTCGAGCCGCTGCTGACCCGATCCCTGCAATTTTCCAGCCTTGCGCTTTTCATCGAGGATGAACCGGGCGCGCCTTTCCGGGTACACTCGCTTCACCCCATGGGTCGCGTTTCCGCCCGAAAGATCGCCTGA	MRYAIHFTPSPNDPLTQAAAAWLGRDAYSGQAVEPPGMIDLGMQEISYHTALPRRYGFHGTIKAPFRLAEGHSEAALLRDLMYFSGRQEPFTLPQLVVARQENVFSLVPERPCEVLHFFAARVVQEFDRYRAPLSDAEIERADPDRLSASQLTNLHRWGSPHVMDEFRFQMSLTGGVEASSSQRIERAVRKVFEPLLTRSLQFSSLALFIEDEPGAPFRVHSLHPMGRVSARKIA				NA	NA	NA	NA	NA
BMS010_01079	975			hypothetical protein	ATGTCTCCCGAAATCGGTTTCCGCCTTGGGAGAGATGTTCTGGGTGGCTGCATGATTTCCGAAAATTACTCCCGCAATCTGGTGGGCTATGGCCGCAATGTTCCCGATCCGAAATGGCCGGGCGGCGCGCGCATCGCCGTGCAATTCGTCATCAATTACGAGGAGGGCGGCGAAAGCTGCATTCTCGACAATGACAAGGCGTCGGAATCGCTGCTGTCGGAAATCGTCGGCGCCCAGCCCTGGCCCGGCCAGCGCAACCTGAACATGGAATCGATCTATGAATATGGCTCGCGCGCCGGCTTCTGGCGGCTGTGGCGCATGTTCACCGGCCTTGGCGTTACCACCACCGTTTATGGCGTGACCGCCGCCATGGCCCGCAACCCGGAAGCCGTCGCGGCGATGAAGGAAGCGGGCTGGGAAATCGCAAGCCACGGTTACCGCTGGCTGGAATATAAGGATTTTTCCGAAGAAGAAGAGCGCAAGCATATAGTCGAAGCCGTGCGTCTGCACAGGGAGGTTACCGGCGAGCGTCCCTATGGCATGTATCAGGGCAAGCCTTCGGACAATACGCTGCGCCTTGTCATGGAAGAGGGCGGTTTCCTCTATTCGTCGGATTCCTATGCCGACGATTTGCCCTATTGGGTCAAGGGTGCGAAGCACGAGCCTTTCCTGATCATTCCCTATACGCTCGAAACCAACGATATGCGTTTCGCCACGCCGCAGGGCTTCAATTCCGGCGACCAGTTCTTCACCTATCTGAAGGATGCTTTCGATGTGCTTTATCAGGAAGGCGTCGAGGGCGCGCCGAAGATGATGAGCGTTGGCCTGCATTGCCGTCTTGTCGGCCGCCCCGGCCGCGCGGCGGCACTTCGCCGTTTCATCGAATATGTGCTCGGGCATGAGAAAGTGTGGATCCCGCAGCGCATCGAGATTGCCCGTCACTGGCATGAACATCATAAGCCGGAGGTGTTGTGA	MSPEIGFRLGRDVLGGCMISENYSRNLVGYGRNVPDPKWPGGARIAVQFVINYEEGGESCILDNDKASESLLSEIVGAQPWPGQRNLNMESIYEYGSRAGFWRLWRMFTGLGVTTTVYGVTAAMARNPEAVAAMKEAGWEIASHGYRWLEYKDFSEEEERKHIVEAVRLHREVTGERPYGMYQGKPSDNTLRLVMEEGGFLYSSDSYADDLPYWVKGAKHEPFLIIPYTLETNDMRFATPQGFNSGDQFFTYLKDAFDVLYQEGVEGAPKMMSVGLHCRLVGRPGRAAALRRFIEYVLGHEKVWIPQRIEIARHWHEHHKPEVL	PGPT0012156_319	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-CHITINOLYTIC_ACTIVITIES,PGPT0012156-chitin_deacetylase-NA	NA	NA
BMS010_01080	498	uao_1		Uric acid degradation bifunctional protein	ATGGTGACGCGTGAGGACTTCGTCGCCCGCTTCGGCGGCGTGTTCGAACATTCGCCCTTCATCGCCGAACGGGCCTATGATGCTGGCGGAGCCGGCCTGGAACTGACGGCGAAGGCGGTTCACGCCGTGCTTTGTGCGCAGTTTCGCGCGGCTTCCGAGGCGGAAAGGCTCGGCGTGTTGCGGGCGCATCCCGATCTTGCCGGCAAGCTGGCGATTGCGGGCGAGTTGACGGCCGACAGCCGTAACGAACAGGCCGGTGCGGGGCTGGACCGGCTTACCTCTGAAGAGCACGCCCGTTTTACCGAATTGAACGGCGCCTATACCGAAAAATTCGGCTTTCCTTTCATCATCGCGGTCAAGGGGCTGAACAGGCATGATATTCTAGCTGCCTTCGAGACGCGCATCGGCAACGGTGCAGCCGAAGAATTTGAGACGGCGACGGCGCAGGTGGAGAAGATCGCCTGGCTGCGCCTTTCCGCGATGTTGCCGGAAGGCTGA	MVTREDFVARFGGVFEHSPFIAERAYDAGGAGLELTAKAVHAVLCAQFRAASEAERLGVLRAHPDLAGKLAIAGELTADSRNEQAGAGLDRLTSEEHARFTELNGAYTEKFGFPFIIAVKGLNRHDILAAFETRIGNGAAEEFETATAQVEKIAWLRLSAMLPEG	PGPT0021130_639	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0021130-uraD-K13485	NA	NA
BMS010_01081	291			hypothetical protein	ATGAGACCTTCCGAGGTGCTGGAAAAGAACAGGGAAGCGATCCGCGAAGCGACGAAACGCTTCAACGCGGCAAACCCGCGCGTGTTCGGCTCCGTCGCCCGAGGCGAGGATCGGCCGGACAGCGATCTCGACATTCTGGTGGATGCACTGCCGGGCACGACATTGTTCGATCTCGGCGGTTTGCTGGAGGAATTGAAGGCACTGCTTGGTGTGGAGGTTGACGTCGTCACCTCGGGCGGCCTGCATTCGGATATACGGGCGCGCGTTTTGAAGGAAGCCAAAGCGGTATGA	MRPSEVLEKNREAIREATKRFNAANPRVFGSVARGEDRPDSDLDILVDALPGTTLFDLGGLLEELKALLGVEVDVVTSGGLHSDIRARVLKEAKAV				NA	NA	NA	NA	NA
BMS010_01082	363			hypothetical protein	ATGAGCACGGATCGGCTTCTGCTCTATCTGAAGGAGATGGATGTTGCCGCCTCCAGAATACGGGATTTCATTCAGGATATGGATGAGGCCGCTTTTTCTTCCGACACGCGGACGCAGATGGCGGTCATGATGGGCCTTGCCCTGATTGGCGAGGCGGTCGCCAAGCTCGACAGGCATTACCCCGCATTTTTACAGCAGCACCCGGAAATTCCCTGGATCAAGATGAAGGGTATGCGCAATCTGATCGTGCATGATTATTTCCGGGCGGAGCTCTCGGTCGTCTGGAAAACGATAACGCAGAGCATTCCGGATTTGCAGGCGCGTCTCTCCCTCCTCCGAAACTGGCATGCCCAAGGTGAATGA	MSTDRLLLYLKEMDVAASRIRDFIQDMDEAAFSSDTRTQMAVMMGLALIGEAVAKLDRHYPAFLQQHPEIPWIKMKGMRNLIVHDYFRAELSVVWKTITQSIPDLQARLSLLRNWHAQGE				NA	NA	NA	NA	NA
BMS010_01083	501	allA_1	COG3194	Ureidoglycolate lyase	TTGACTGATTTTCTCGACATAAAACCTCTCACCAAAGAGGCTTTCGCATCCTTCGGTGATGTGATCGAAACGACACCCTCTTCCATGCGGCATATCAATGGCGGTCAGACCGAGCGGCACCATGCGCTCGCAGCTCCGGAGGCGGCGGGGGAGGGTGCGCGTGTCATCCTCAATATTTTCCGCGGGCAGCCGCGCGCCTTTCCGCATCAAATCGAGATGATGGAACGGCATCCGCTTGGCAGCCAGAGTTTTTCGCCGCTTTCCGGCCGACCCTTCCTCGTGGTCGTCGCCGATGACGACGGCGGCCGGCCCGGCCGGCCGCAGGTGTTTCTGGCGCGGGGCGATCAGGGCGTGAATTACCGCCGCAATGTCTGGCACTATCCGCTTATGCCGTTGCAGGCGGTTTCGGATTTTCTGGTTGCCGACCGTGATGGGCCGGGTAACAATCTGGAAGAGTATTTTTTCGACAAGCCCTATATGATCGCGGAGCCCAAGCCATGA	MTDFLDIKPLTKEAFASFGDVIETTPSSMRHINGGQTERHHALAAPEAAGEGARVILNIFRGQPRAFPHQIEMMERHPLGSQSFSPLSGRPFLVVVADDDGGRPGRPQVFLARGDQGVNYRRNVWHYPLMPLQAVSDFLVADRDGPGNNLEEYFFDKPYMIAEPKP	PGPT0021505_673	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021505-allA-K01483	NA	NA
BMS010_01084	357	pucM_1	COG2351	5-hydroxyisourate hydrolase	ATGACCGGTTTGACCACCCATGTCCTCGATGCCGCCCATGGCACGCCCGCAGAAGGACTGACGATCGAGCTCTACCGGCTCTCCGGCGATCGCCGCGAGAAGCTGAAGACAGTGAAGACCAATAGCGACGGCCGTGTCGATGGCGGGCCTCTGCTCGTCGGCGACAATTTCAGGGCCGGGGAATATGAGCTGGTTTTCCACGCCGGCGATTATCTGCGCGGCAAGGGTGTTGTACTGCCGGAGCCGGCCTTTCTCGATATTATCCCGATCCGCTTCGGCATTGCCGATGAGAGCGGCCATTACCATGTGCCGCTTCTGCTTTCGCCTTATAGCTATTCCACCTATCGAGGAAGCTGA	MTGLTTHVLDAAHGTPAEGLTIELYRLSGDRREKLKTVKTNSDGRVDGGPLLVGDNFRAGEYELVFHAGDYLRGKGVVLPEPAFLDIIPIRFGIADESGHYHVPLLLSPYSYSTYRGS	PGPT0021125_979	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0021125-uraH|pucM|hiuH-K07127	NA	NA
BMS010_01085	744			hypothetical protein	ATGATCTTTGCCGCCATTGCCGATATTCATGGAAACTGCGCCGCGCTTGAAGCCGTGCTGGAGGATATCGCGAGGCTTGGCATCAAGGACATCGTCAATCTCGGCGATTGTTTCAGCGGCCCGCTGGAAGCGGGGTTTACCGGCGATGTGCTTGTTGGCAACTGGATACCCAGCATTCGCGGCAATCATGACCGGGAACTGATCGACCGCGCGCCGGAGGAGATGGGGAGCTGGGAGAGGCCGGCGCATGCGCAGCTGAGCGCCGCCCATCTGGACTGGCTGCAAACCCTGCCATTCAGCATGGTGTTCAAGGATGTCGCTTATTGCTGCCACGGCTCGCCGCGTGACGATCTGGAATATTGGCTGGAAACGCTGTCACCGGAAGGCGTTCTGAAATTGCGGCCGCTGGCCGAAATCGAAGCCATGGCGGAAGGCATCACGCAGCCGCTGATGCTGTGTGGCCACACCCATATTCCCCGTACCGTGCAGCTTTCCGACGGCCGGCTGATCGTCAATCCCGGCAGCGTCGGCTGCCCCGGCTGGAAGGACGACACGCCGTTCGACCATCACGTCGAGGCGGGTCATCCGCTTGCCACCTATGCTGTGCTGGAAGAGACCGGGCGCGGCTGGCAGGTCTATTTCCGCAACATCCGTTACGACAATATGGCCATGGCCGAGATGGCGAAGGTCAACGGCATGCCGCATCTCTCCGAAGCCTTGGCCGGCGGTTGGCTCAAGCGCTGA	MIFAAIADIHGNCAALEAVLEDIARLGIKDIVNLGDCFSGPLEAGFTGDVLVGNWIPSIRGNHDRELIDRAPEEMGSWERPAHAQLSAAHLDWLQTLPFSMVFKDVAYCCHGSPRDDLEYWLETLSPEGVLKLRPLAEIEAMAEGITQPLMLCGHTHIPRTVQLSDGRLIVNPGSVGCPGWKDDTPFDHHVEAGHPLATYAVLEETGRGWQVYFRNIRYDNMAMAEMAKVNGMPHLSEALAGGWLKR				NA	NA	NA	NA	NA
BMS010_01086	1317			hypothetical protein	ATGTCGGGAACGATCAAACGGGGAATGGCGGGCGCATGGGTCTTCGCACTCGCCTTCTTTTGCGCGATCCTCTCATTGCAGGCATCGCCTGCGCAGGCCGGTTACGCCCATTTCATCATGGACGCCAATACCGGCAAGGTTCTGGCCGCCCGCAATGCCGATGTGCTGAACCACCCCGCTTCGCTCACCAAGATGATGACGCTCTACATGACCTTCGAAGCGCTGCATGCCGGCCGGCTTCGCTGGGACCAGAAGATAAAGATGTCCAAGAACGGCGCAGCCGTTATCCCCTCGAAGCTTTATGTGCGCCAGGGGCAGACCTTCACCGTGCGCGAGGCCGTCTACGGCATGATCGTCAAATCCGCCAACGACATGGCGGAAGGCATGGGCGATCATCTCGGCGGCTCCGAGGCAAGGTTCGCCGAAATGATGACCCGCAAGGCCCGCCAGCTCGGCATGACGAAAACGGTGTTCCGCAACGCCTCCGGCCTGCCCAGCAAATCGCAGGTGACGACAGCGCGTGATATGGCGAAGCTCGGTCTGGCGCTGCAGCGCGACTTTCCCAAGGAATACGGCCTCTTCGCCATGGAATCCTTCAGCTTCCGGGGAAAACGCATTCGCGGTCATAACAATCTGATGTATCGCTATCAGGGCATGGACGGCATCAAGACCGGCTATACCAATGCTTCCGGTTTCAACCTCGTCAGCGCCGTCAATCACAATGGTCGCCGCGTCGTCGGCGTCGTGCTGGGCGGCAAGACCGCGCGCAGCCGCGATGCGCAGATGGCCGCCCTTCTGGACAAGGCCGTGCCGCAGGCATCGAGAAGCCGCAACACCGAACAGCTCGTCGCCAGCGCCAATGTCAGCCGCACCTTTGCTGTGACGCCCGCAGCCGCGCCCACCGCCTCCCTACCCCCCGCATCTGTACCATTGCCGATGTTCGCCGAGCGCCGCCAGGATCCCGTCGCTATGCAGATCGCCACGGCGAATAACCAGATGGCCGACATGATGCAGGTTTCGGCCATCCCGCGGCCGGGTCCCACTGCCGTCTCCGCCGGTCAGAGAAGCCGCTGGGAAGTGCAGATCGCCGCCACCGACAGCGAAGCCGCCGCCCGCTCGCTGCTCGCCAATGCCCGCTCCAACATCGCCGGAAATTATGCCGGGATCGCTCCCTACACAGAAGCCGTGCAAAGCGGATCGGCAACCCTCTACCGCGCCCGTTTCACCGGCTTCGAAGACCAGTCTTCGGCGGTTTCAGCCTGCAAGGAACTGAAGGCGCAATCTTATTCCTGCGTGGTGATGACCAGCGAGGGGTGA	MSGTIKRGMAGAWVFALAFFCAILSLQASPAQAGYAHFIMDANTGKVLAARNADVLNHPASLTKMMTLYMTFEALHAGRLRWDQKIKMSKNGAAVIPSKLYVRQGQTFTVREAVYGMIVKSANDMAEGMGDHLGGSEARFAEMMTRKARQLGMTKTVFRNASGLPSKSQVTTARDMAKLGLALQRDFPKEYGLFAMESFSFRGKRIRGHNNLMYRYQGMDGIKTGYTNASGFNLVSAVNHNGRRVVGVVLGGKTARSRDAQMAALLDKAVPQASRSRNTEQLVASANVSRTFAVTPAAAPTASLPPASVPLPMFAERRQDPVAMQIATANNQMADMMQVSAIPRPGPTAVSAGQRSRWEVQIAATDSEAAARSLLANARSNIAGNYAGIAPYTEAVQSGSATLYRARFTGFEDQSSAVSACKELKAQSYSCVVMTSEG	PGPT0024040_1179	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024040-dacC|dacA|dacD-K07258	NA	NA
BMS010_01087	573	betI_2		HTH-type transcriptional regulator BetI	ATGAAAAATGCACATGAACGGAAAAAGCAGCCTGAGATCGTTCGCCGCAGTCTTCTCGATTGCGCGGCGAAACTCGCTGCCGAGCAGGGTGTTGCAGCACTTTCCGTGCAGGCGGTGGCGGATGCCGCCGGGGTGACGAAGGGCGGGTTGTTTCATCATTTTCCCTCCAAGCAGGCGCTGCTGGAAGCGGTGATGACTGACCTTCTGGCGGCTCTGGACGCTGAGATCGATGACCTCGTCTCACAGGATTGTGAAGCTTTTGGGAGCTTCACAAGGGCCTATGTGAACGCGGTTTTCTCGGATCGGGGTAGGGATTCGGGCAGGCAATGGGCAGCGATCTCGGTTTCCATGGTCGGTGAACCGTCGCTTCGGCGCATGTGGAACAGCTGGATTGAGGGACGTCTTGCCCGTCATAAAGAAACGGATGACGGGGTGGTACTGGAGATGGTGCGGCTTGCGGCTGACGGCATCTGGTTTGCCGATCTACTGGCCGACGATGGCAAAGCGGGTGGCGACAGGGCGGCTCTGAGGGCCCGGATGATCGCCCAGACGAAAAAGGAAGTGGAACGATGA	MKNAHERKKQPEIVRRSLLDCAAKLAAEQGVAALSVQAVADAAGVTKGGLFHHFPSKQALLEAVMTDLLAALDAEIDDLVSQDCEAFGSFTRAYVNAVFSDRGRDSGRQWAAISVSMVGEPSLRRMWNSWIEGRLARHKETDDGVVLEMVRLAADGIWFADLLADDGKAGGDRAALRARMIAQTKKEVER				NA	NA	NA	NA	NA
BMS010_01088	345	emrE	COG2076	Multidrug transporter EmrE	ATGAACGCGGCTGTTTTGACCTATGGGGCGCTTGTTGCGGCCATCGTCTGTGAGGTCATCGCAACTTCCTTTCTGCAGCAGTCGCAGCAGTTCACCAGGCTGTTGCCAACGGTGCTGATGGCGCTGTTTTACGGTGCAGCCTTTTATCTGCTGTCGTTCACGCTGCGGGCGCTGCCTGTCGGCGTAGCCTATGCCATCTGGAGCGGGCTCGGCATCGTGCTGATTTCCGGCATCGGCTATTTCGTGTTCCGCCAGGCGCTGGATATCGCCGCCGTTGTCGGCCTCGGGTTTATCGTGACGGGGGTGGTGATCGTGAACGTGTTTTCGAAGACGGTGGGGCATTGA	MNAAVLTYGALVAAIVCEVIATSFLQQSQQFTRLLPTVLMALFYGAAFYLLSFTLRALPVGVAYAIWSGLGIVLISGIGYFVFRQALDIAAVVGLGFIVTGVVIVNVFSKTVGH	PGPT0029230_473	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029230-emrE|qac|mmr|smr-K03297	NA	NA
BMS010_01089	546			hypothetical protein	ATGGTACACCCTGTTTACATCGGATGCGACGTCTCAAAGGCACATCTGGATCTTTTCGATGCCGCGACACAAAAAGCCGTCCGCATCGCCAATACCGGCACCGCCATCGATGAATGGCTTGCCACCCTTGATGGACGCGAGGCGCAGATCATTCTGGAGGCGACCGGACGTTATGACCGGCTGTTGTGCTCGGCGCTCGAGAGATGGCGGCGGCCCTATTGCCGGGTCAATCCGGCCAGGGCCCGCGACTTTGCAAGAGCCACCGGCCAGCTTGCCAAAACCGATACCATCGATGCGCGACTTTTGGCGCGCATGGGCGAAACACTTTCACCACCCGTTACGACACCGCCCGACCCGGCCCGTCAGCAGCTGGAAAGCCTGCACACGCGCCGTGATCAGCTTGTTGCCATGCGCCAGCAGGAACGGCTGCGCCTTCATACAGCCGAGCCGTCGGAGCGCGACAGCATCGCGCGCCACCTCGGCTGGCTTGATAGGAAATCGCCGCGATCGAACAACAATGCCAGTCGCATGTGCGGACAAATGTGA	MVHPVYIGCDVSKAHLDLFDAATQKAVRIANTGTAIDEWLATLDGREAQIILEATGRYDRLLCSALERWRRPYCRVNPARARDFARATGQLAKTDTIDARLLARMGETLSPPVTTPPDPARQQLESLHTRRDQLVAMRQQERLRLHTAEPSERDSIARHLGWLDRKSPRSNNNASRMCGQM	PGPT0030635_5158	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030635-tnp-K07486	NA	NA
BMS010_01090	387			IS110 family transposase ISHne3	GTGACGCTGAACGAGCAAAACATCAGACTTCGCTCGATCCCCGGCATTGGCCAGATCACGGCGTTCACCCTGATGGCCCACATGCCGGAACTGGGCGACAGTTCGCCCAGCGGCATGGCGGCGCTTGCAGGCCTTGCCCCCTTCAATGCCGATAGCGGCGTTCACCGCGGCCAGCGCCATATCCGCGGCGGACGAAAGCGCGTGCGCGATGCCCTCTACATGGCGGCGCTGGTGGCCTACCGGTTAAAGTCGCCATTCGCCCGCATGGTTCAGGCCATGCAGGCCAAAGGCAAACCGTTCAAGGTCATGATCATTGCCATCGCCCGCAAACTGCTCGTCATCGCAAACGCCATGCTCAGGGATAAAACCACATTCCAAGCAGCTTGA	MTLNEQNIRLRSIPGIGQITAFTLMAHMPELGDSSPSGMAALAGLAPFNADSGVHRGQRHIRGGRKRVRDALYMAALVAYRLKSPFARMVQAMQAKGKPFKVMIIAIARKLLVIANAMLRDKTTFQAA	PGPT0030635_5158	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030635-tnp-K07486	NA	NA
BMS010_01091	1134	lldD_2	COG1304	L-lactate dehydrogenase	ATGGGCAAAATCCTCACCATAGCGGACCTGAAGCAACAGGCTCAGCGTCGTGTGCCAAAAATGTTTTTCGACTACGCCGATAGCGGCGCATGGACGGAAGGCACCTACCGCGCCAATGAGGATGATTTTTCCAAGATAAAGCTGCGCCAGCGCGTGCTGGTGGATATGACCGATCGGTCGCTTGCCACAGAAATGGTCGGCGAGAAGGTTTCGATGCCGGTAGCCCTCTCCCCCACCGGGCTAACGGGTATGCAGCATGCCGATGGCGAAATGCTGGCCGCCAAAGCAGCCGAAGAATTCGGCGTGCCTTTCACGCTCTCCACCATGAGCATCTGCTCCATCGAGGATGTCGCCTCCGTCACCTCAAAACCCTTCTGGTTCCAGCTTTACGTGATGAAGGACCGGGATTTCGTCAACAATCTCATCGACCGCGCCAAGGCCGCCGGATGCTCGGCACTGGTGCTGACACTCGACCTGCAAATCCTCGGCCAGCGCCACAAGGACCTTCGCAACGGCCTCTCCGCACCGCCGAAATTCACCCCGAAACATATCTGGCAGATGGCGACCCGGCCGAAATGGTGCATGGACATGGCTCGCACCAAGCGCCGCAGCTTCGGCAATATCGTCGGCCACGCCAAAAACGTCTCCGACCTGTCATCGCTCTCCTCCTGGACGGCGGAGCAATTCGATCCGCGCCTGTCGTGGAAGGATGTCGAATGGATCAAGCAACGTTGGGGCGGCAAGCTTATCCTCAAGGGCATCCTTGACGAGAAAGACGCCCGCGCCTCGCTCGATACCGGCGCCGACGCCATCATTGTCTCCAACCATGGCGGCCGCCAGCTCGACGGCGCGCACTCCTCCATCGCCATGCTGCCGAAAATCGTCGATGCAGTTGGTGACAAGGTCGAGGTGCATATGGATGGCGGCATCCGCTCCGGTCAGGACGTGCTGAAGGCCGTGGCGCTCGGCGCCAAAGGCACCTATATCGGCCGGCCCTTCCTCTATGGTCTCGGTGCCGATGGCAAACAGGGTGTGACGACGGCGCTGGAGATCATCCGCAAGGAGATGGATATCAGCATGGCGCTTTGCGGCAAGCGGTTGATTACGGATGTGGACCGCAGCGTTCTGGCGTGA	MGKILTIADLKQQAQRRVPKMFFDYADSGAWTEGTYRANEDDFSKIKLRQRVLVDMTDRSLATEMVGEKVSMPVALSPTGLTGMQHADGEMLAAKAAEEFGVPFTLSTMSICSIEDVASVTSKPFWFQLYVMKDRDFVNNLIDRAKAAGCSALVLTLDLQILGQRHKDLRNGLSAPPKFTPKHIWQMATRPKWCMDMARTKRRSFGNIVGHAKNVSDLSSLSSWTAEQFDPRLSWKDVEWIKQRWGGKLILKGILDEKDARASLDTGADAIIVSNHGGRQLDGAHSSIAMLPKIVDAVGDKVEVHMDGGIRSGQDVLKAVALGAKGTYIGRPFLYGLGADGKQGVTTALEIIRKEMDISMALCGKRLITDVDRSVLA	PGPT0001765_1762	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0001765-lldD-K00101	NA	NA
BMS010_01092	528			hypothetical protein	ATGAATAGTATTAGCGATAATACAGATGATGATAATTTCGAAATAACAGATAAATACAGATTCCGAGAGAAAAAGCTGTTGGACGAAATCCAGCGGTCCGTTGAATACTACGTGAGATATGGGCAGATTGCACAGAAATGGCAGCGGATCACCGCCATGTTGGTGATGGTTCTCAGCACATTTGCGCCCCTGTTGGTGGTAGGGTCAACAACGTCTTTGCCGGTTCTTTCCGAAGAGGTCGTTTCTTTCGCGGCGTTTCTTGTAACGCTGCTCCTCGCTCTGTTGGAGGGTACCCGCAGAATTTTTAGATTCGAGCAGCGTTGGATGGCCTGTTATATGGCCAAACAAACCCTGAAACGCGAACGAGAAAAATACAGATTTGCTAGAATTGGGCTCGTGGTGGGAAGTGATGTCTGGAAGGCAAATTTAGCCGATCTTCGGAGGGTATACGATGAGGTGACGGGGAGCGAAACGAAAGAATTCTTTGCGGCCCTGCAATCGCCAATGCCGGATCTGAAGAGGCCGTAG	MNSISDNTDDDNFEITDKYRFREKKLLDEIQRSVEYYVRYGQIAQKWQRITAMLVMVLSTFAPLLVVGSTTSLPVLSEEVVSFAAFLVTLLLALLEGTRRIFRFEQRWMACYMAKQTLKREREKYRFARIGLVVGSDVWKANLADLRRVYDEVTGSETKEFFAALQSPMPDLKRP				NA	NA	NA	NA	NA
BMS010_01093	1308	guaD_1	COG0402	Guanine deaminase	ATGAGCATGGTTCTGCTGCGTGGCCGCCTGCTGAGCTTCCGCCGCGCGCCGCTCGCAATCGACGATACGCAAAGCTATCTCTATATCGAAGATGGCGGCCTGCTTCTCGAAAACGGCAGGATCGCCGCCATCGGCGATTATGCCGATATCCGTAAGACCGTACCCGAAGACATCGAAGAAAAGGACCACCGGCCGCATCTCATCGTGCCGGGCCTCATCGACATGCACCTGCATTTCCCGCAGATGCAGGTCATCGGCTCCTATGCCGCCAACCTGCTGGAATGGCTGAACACCTATACTTTCCCGGAAGAATGCCGTTTCGTCGAAAGCGCCCATGCTGAGCGCATCGCCACGCATTTCTATGACGAACTGCTGCGCCACGGCACCACCACGGCCGCCGCTTATTGCTCCGTGCACAAGACCTCCGCCGACGCCTTCTTTGCTGAGGCCATGAAGCGCAACATGCTGATGGTGGGCGGCAAGGTGATGATGGACCGCAACGCCCCGCAGGGCCTGCTGGACACGCCGGAAACCTCCTATGACGAGACGCGCCAAGTCATCGCCGACTGGCACGGAAAAGGCCGCAACCACGTCGCCATCACCCCCCGCTTTGCTATCACCTCCACCCCGAAACAGATGGAAGCCGCGCAGGCGCTGGCGCAGGAATTTCCCGATCTCTTCATCCAGACGCATCTTTCGGAAAATCTGGACGAGATCAAATATACCTGCGAACTCTACCCCGAAGCGACCGACTATACCGACATCTATGTGCGTTACGGACTGATGGGCAACAAGACCCTGCTCGGCCACGCCATCCACCTCTCCGAGCGCGAGGCGGATGTGCTGTCGGAAACCGGCGCAGTGGCCGTGCATTGCCCCACCTCGAACCTCTTCATCGGCTCCGGCCTGTTCCCGATGAAAAAGCTGCAACGGCGCGAAAAGCCTGTTCGCATCGCCGTCGCCACCGATATCGGCGGCGGATCGAGCTATTCCATGCTGCGCACCATGGACGAGGCCTACAAAATCCAGCAATTGCTGGGCGAACGCCTCAACCCGCTGGAAAGCTGGTACCTGATGACCCGCGGCAATGCCGAGGCGCTTTCCATGGTCGACCGCATCGGCACGCTGGATGCCGGCACGGACGCAGACATCACCGTGCTCAACGCCTCTTCCACCCCAGCCATGGCGCTGAAGATGGAAGTGGTGAACAGCCTGACGGAAGAACTCTTCCTGATGCTGACCATGGGCGACGACCGCACGGTGGTTGAGACCTATGTGGCCGGCAGGGCAATGAAGAGCGTGAAGTAA	MSMVLLRGRLLSFRRAPLAIDDTQSYLYIEDGGLLLENGRIAAIGDYADIRKTVPEDIEEKDHRPHLIVPGLIDMHLHFPQMQVIGSYAANLLEWLNTYTFPEECRFVESAHAERIATHFYDELLRHGTTTAAAYCSVHKTSADAFFAEAMKRNMLMVGGKVMMDRNAPQGLLDTPETSYDETRQVIADWHGKGRNHVAITPRFAITSTPKQMEAAQALAQEFPDLFIQTHLSENLDEIKYTCELYPEATDYTDIYVRYGLMGNKTLLGHAIHLSEREADVLSETGAVAVHCPTSNLFIGSGLFPMKKLQRREKPVRIAVATDIGGGSSYSMLRTMDEAYKIQQLLGERLNPLESWYLMTRGNAEALSMVDRIGTLDAGTDADITVLNASSTPAMALKMEVVNSLTEELFLMLTMGDDRTVVETYVAGRAMKSVK	PGPT0021515_1337	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021515-guaD-K01487	NA	NA
BMS010_01094	1263			hypothetical protein	ATGTACGAATACGCCATTGCGTGGGAATGGATGGCCTTTGCCGTCCGCTGGCTCCACGTCATCACCGCCATCGCCTGGATCGGCTCATCCTTTTATTTCATCGCGCTCGATCTCGGGCTGGTCAAACGGCCGCATCTGCCGCCGGGGGCCTATGGCGAGGAATGGCAGGTGCATGGTGGCGGCTTTTACCACATCCAGAAATATCTGGTCGCGCCGGCCCAGATGCCCGAGCACCTGACATGGTTCAAATGGGAAAGCTACGTCACCTGGCTGTCCGGCTTCGCTATGCTCTGCATCGTTTATTATGGCGGGGCCGATCTCTTCCTCATCGATCATTCCGTGCTGGCGCTCACCCAGTTCCAGGCCATCTGTCTGTCGCTCGCCTCGCTTGCCATCGGCTGGCTGTTTTACGATTTCCTCTGCAAATCGCCGCTCGGCAACAATACCTGGGGCCTGATGATCGTGCTTTATGTCGCGCTGGTGGCGATGGCATGGGGTTACACGCAGGTTTTCACCGGCCGCGCCGCCTTCCTGCATCTCGGCGCGTTTACCGCCACCATCATGTCGGCGAATGTGTTTTTCATCATCATCCCCAACCAGAAGATCGTGGTCGCCGACCTGATCGCCGGGCGCACACCGGACCCGAAATATGGCCGCATCGCCAAACAGCGCTCACTGCACAACAACTATCTGACGCTGCCCGTCATCTTCTTCATGCTGTCGAACCATTATCCGCTGGCCTTTGCCACGCAGTTTAACTGGATCATCGCGGCACTCGTCTTCCTGATGGGGGTCACCATCCGCCACTGGTTCAACACCACCCATGCCCGCAAGGGAAAACCCACATGGACCTGGCTGCTGACCGCCCTCATCTTCATCGTCATCATGTGGCTCTCCACCGTGCCGAAAGTGCTGACCGGCGAGGAAGAACAGAAAGCAGCGACGCTTTCGCCGATGCAGCAGCAATTCGTCGCCGACACCCATTTTGCCAAGGCGCGCGATGTGGTCCAGGGCCGCTGTTCCATGTGCCATGCGGCCGAGCCGGTGTGGGAAGGCGTGCCCTTCACGCCAAAATCCGTAAAGCTCGAAACCGACGAACAGATCGCCGCCCATGCCCGCGAAATCTATTTGCAAGCCGGCCGCAGCCATGCCATGCCTCCCGGCAACATCACCGCCATCACCCCGGATGAGCGCAAGCTGCTGACCGCCTGGTACGAAAGCGCGGTGTCCGGGGCAGGAAAAGCCGAAGGAAAGACTGAATGA	MYEYAIAWEWMAFAVRWLHVITAIAWIGSSFYFIALDLGLVKRPHLPPGAYGEEWQVHGGGFYHIQKYLVAPAQMPEHLTWFKWESYVTWLSGFAMLCIVYYGGADLFLIDHSVLALTQFQAICLSLASLAIGWLFYDFLCKSPLGNNTWGLMIVLYVALVAMAWGYTQVFTGRAAFLHLGAFTATIMSANVFFIIIPNQKIVVADLIAGRTPDPKYGRIAKQRSLHNNYLTLPVIFFMLSNHYPLAFATQFNWIIAALVFLMGVTIRHWFNTTHARKGKPTWTWLLTALIFIVIMWLSTVPKVLTGEEEQKAATLSPMQQQFVADTHFAKARDVVQGRCSMCHAAEPVWEGVPFTPKSVKLETDEQIAAHAREIYLQAGRSHAMPPGNITAITPDERKLLTAWYESAVSGAGKAEGKTE				NA	NA	NA	NA	NA
BMS010_01095	339			hypothetical protein	ATGCGCCTTGTTCTGACGGTCCTCTTCTTATCTCTGGCGTTCAGCGCCACCGCGCTTGCCCATGAATCCCACAAGGGGTTCAAATATGAAAGCTATTGCTGCAATGGCGACGCCGAAACCGGCGACTGCCAGATGATTCCCACGCGCAGTGTTCGTGTCACGCCTGACGGTTACGAGGTCTCGCTCGCACCTGGCGATCACCGCATGGTCACCCGACGCCATGTCTTCAACTGGTCGCAGCGCGAGGCAAGACGATCCGAGGATGGCGAATATCATCTCTGTCTGTTTCCGGATGAGGACACGCCGCGCTGTTTTTATGCGCCGGACATGGGGTTTTGA	MRLVLTVLFLSLAFSATALAHESHKGFKYESYCCNGDAETGDCQMIPTRSVRVTPDGYEVSLAPGDHRMVTRRHVFNWSQREARRSEDGEYHLCLFPDEDTPRCFYAPDMGF				NA	NA	NA	NA	NA
BMS010_01096	930	gcvA_1		Glycine cleavage system transcriptional activator	ATGAAAATGTCCCGCCAGTTTCCCTTGAACGCCCTGCGGGTGTTCGAAGCTGCCGCAAGGCATCTGAGCTTCACCAAGGCCGGCGAAGAGCTGGGCATGACCCAGACGGCGGTGAGCTATCAGGTGAAACTGCTGGAGGAGAATATCGGCGAGCCGCTCTTCATCAGAAAGGCGAGGCAGGTCTCGCTGACAGAGGCGGGGCAGAAACTTGCGCCGAAAGTCGCGGAAGCCTTCAACAATCTGCGGGAGGCCGTCGACAATGTGCGTGACACGTCCGATGCGACCCTGACAATCCATTCCACCGCTACCTTCGCCTCACGCTGGCTTTCGCGGCATCTGGGTGCTTTCCAGCTCGAACATCCCTCGATTGCCGTGCGGCTCGACACATCAAGCGCTTTGATCGATTTTTCCCAGTCGGATTGCGATGTCGCCATTCGCTGGAGCAAAGATAGCGGCAAAGGGCTGATCTACCATCAACTGCTGCGCGGCGTTTACACGCCGATGCTGCATCCGGGCCTTGCCGAAAGCATCGGCGGATTGCACAAGCCGGAAGACCTGCTGCGCCTGCGCATCATCGACCCCGGCGACATCTGGTGGAGCCAATGGTTTCGGGAAGTGGGTGTTGAAAATCCCGGCCTTGACCGTTATCCCCGCAGCCGCCTCAATGTGCAGGCCTTCGAAGCCGCCGCCGCAATCGCCAGCCAGGGGGTGGCCATGCTCACCCCTGAACTCTATGCCGATGAGATTGCGCTCGGCCGCCTTTATCAGCCCTTCGAGCACCTCAGCAGCGAAGGAAAGAACTATTGGCTGGTCTACCCCGAAAACCGCAGGAACATTCGCAAGATAAGGCTGTTTCGCGACTGGATATTGAAGCGGATCGAGGAAAGCCGGCCGCAGCAACTGCCTCAAAACCCCATGTCCGGCGCATAA	MKMSRQFPLNALRVFEAAARHLSFTKAGEELGMTQTAVSYQVKLLEENIGEPLFIRKARQVSLTEAGQKLAPKVAEAFNNLREAVDNVRDTSDATLTIHSTATFASRWLSRHLGAFQLEHPSIAVRLDTSSALIDFSQSDCDVAIRWSKDSGKGLIYHQLLRGVYTPMLHPGLAESIGGLHKPEDLLRLRIIDPGDIWWSQWFREVGVENPGLDRYPRSRLNVQAFEAAAAIASQGVAMLTPELYADEIALGRLYQPFEHLSSEGKNYWLVYPENRRNIRKIRLFRDWILKRIEESRPQQLPQNPMSGA	PGPT0026360_1907	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
BMS010_01097	228			hypothetical protein	ATGCGCACAGCACTCTTGCGCGCGTGGTCCCGCCTGCGCGCGGGTCTGCGGACAGCGGAACGGTTTACCCTTGAAAGCCTCGCACCGGACAATCTGGCGGATGAAAGCCTGCCGGATGGGCTCAGGCGTGATCTTGGCCTTGAGGATGGCCGTGTCGATTTTCGCTGCGACGGATTTCGGCAGCGGAAAATGCTTGCAACAACTCGGCTGCCACAAGGGCCGCTATGA	MRTALLRAWSRLRAGLRTAERFTLESLAPDNLADESLPDGLRRDLGLEDGRVDFRCDGFRQRKMLATTRLPQGPL				NA	NA	NA	NA	NA
BMS010_01098	855			hypothetical protein	ATGCCTGACGCCTCCCTCTCCACCTTCCTCGCCCGCCCTGCCCCCGCAATCCTCGTCGAAATCGAGGCCGTGAAAGGCTCGTCCCCACGCGAGGCCGGCACCTTCATGTTGGTCTCACAGGCTGACTTGTGGGAAACCATCGGCGGCGGGCAGTTTGAATATATGGCGATAGACCACGCCCGCGCCATGCTGCGAACAGGTGCTGCCGAAGACCGCATGGATATTCCGCTTGGCCCAGAAATCGGCCAGTGCTGCGGCGGCCGCACCCTGCTCCGGTTCCGGCTGATAACTTCGGAAATTGCGGCAGCGCTGGAAGCGAGGGTGAAGGGCGAGGCCGAGCAGCAGCCGGCCGTCTTCATTTTCGGGGCGGGCCATGTCGGCAAGGCGCTGGCCGAGGCGCTGTCGCTGCTGCCCCTGACGCTGACAGTGGTGGAAACGCGGGAAAACGAGCTGCACGATCTTCCAGTGAACATCGCATCCGTGCTGACCCCCATGCCGGAGGCGCTCGTCGCGAAAATCCCCGCAAACGGCGCGGCCATCATCGTCACCCACGATCACGCGCTCGATTTCCTCATCGCGAAGGAAGCGCTTGCCCGCGACGATCTCGCTTATGTCGGCATGATTGGTTCGAAGACCAAACGCGCCACCTTCGCCCATTGGCTGGAGCGGGAGGGAGAGCCCCCTTCCCGCCTTGCAAAGCTCATCCTGCCCATCGGCGGCAACAGCGTCAGGGACAAGCGGCCTGCGATCATAGCGGCCCTTGTGGCAGCCGAGTTGTTGCAAGCATTTTCCGCTGCCGAAATCCGTCGCAGCGAAAATCGACACGGCCATCCTCAAGGCCAAGATCACGCCTGA	MPDASLSTFLARPAPAILVEIEAVKGSSPREAGTFMLVSQADLWETIGGGQFEYMAIDHARAMLRTGAAEDRMDIPLGPEIGQCCGGRTLLRFRLITSEIAAALEARVKGEAEQQPAVFIFGAGHVGKALAEALSLLPLTLTVVETRENELHDLPVNIASVLTPMPEALVAKIPANGAAIIVTHDHALDFLIAKEALARDDLAYVGMIGSKTKRATFAHWLEREGEPPSRLAKLILPIGGNSVRDKRPAIIAALVAAELLQAFSAAEIRRSENRHGHPQGQDHA	PGPT0007280_2954	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-XANTHINE_METABOLISM	PHYTOHORMONE-XANTHINE_BIOSYNTHESIS,PGPT0007280-xdhC|paod|ygeB|pucA-K07402	NA	NA
BMS010_01099	2340	xdhA	COG1529	Putative xanthine dehydrogenase molybdenum-binding subunit XdhA	ATGGACACCACAAGCTTCGACAAGACCAAGACCGAAATCGACGGCCCGATGCACGCTTCGCTCCGGCACGATTCCGCCCATAAGCATGTGACGGGCAGCGCCGAATATATCGACGATATTCCCGAACCCGCCGGATTGATCCACGGCGCTCTCGGTCTTTCTGACCGGGCACATGCCGAAATCGTCTCGATGGACCTCTCGGAAGTGGAAAAGACACCCGGCGTGCTCTGGGTCATGGTTGCCAAGGACGTACCCGGCGAAAACGACATCTCTTCCGGCGGCCGTCACGACGAGCCGCTGCTTGCCGAAACCAAGGTGGAATTCCACGGCCAGCCGATCTTCGCGGTTTTCGCCGAAACCCGCGATATCGCCAGAAAAGCGGCCCGGAAAGCAAAGATCACCTATAAGGACCTGCCGCATTTCACCGATATCGACACGGCGATTGAAAATGGCGGCGCGCTGGTCATTGACCCGATGACACTCAAGCGCGGCGATGCCAAAATCGAAATGGATGTCGCACCCCGTCGCCTCACCGGCACCATGCGGATCGGCGGGCAGGAGCATTTTTATCTCGAAAGCCACATCGCCATGGCCGTACCGGGCGAGGATGACGAGGTGACGTTATGGAGCTCCACCCAGCATCCGAGCGAAATCCAGCACATCGTCAGCCATATGCTTCAGGTCCCGTCCAACGCCGTCACGGTGCAGGTGCGCCGTATGGGCGGCGGTTTCGGCGGCAAGGAAACGCAGGGCAACCAGTTCGCCGCCCTCTGCGCCATCGCCGCCAAGAAGCTGAACCGGGCCGTTAAAATCCGCCCCGACCGCGACGAGGATATGAGCGCCACCGGCAAGCGCCACGATTTCCGCGTCGATTACGAACTGGGCTTCGATGAAGAAGGCCGCATCCACGCCGTCGACGCCACCTATTCCGCCCGCTGCGGTTTTTCCTCCGATCTCTCCGGCCCGGTGACGGACCGCGCGCTGTTCCATGCCGATTCCAGCTATTTCTATCCGCATGTGCATCTCACCTCGCGGCCGCTGAAAACCCACACGGTCTCCAACACCGCCTTTCGCGGTTTCGGCGGGCCGCAGGGCATGCTGGGGGCGGAACGTTTCATCGAGGAAATCGCCTATGCGGTGGGCAAGGACCCGCTCGATATCCGCAAGCTGAATTTCTACGGCAAGACCGGCTCGGGCCGCACCACGACGCCCTATCATCAGGAGGTCGAGGACAACATCATCGCCCGCATCGTCGAGGAGCTGGAAACCTCCAGCGACTATCGCGCGCGACGCGAGGCGATCATCGAGTTCAACAAAACGAGCCCGATCATCCGCAAGGGCATCGCGCTGACGCCAGTCAAATTCGGCATCTCCTTCACCATGACCGCCTTCAATCAGGCGGGTGCACTGGTGCATATCTATAATGACGGCTCCATTCACCTGAACCATGGCGGCACCGAAATGGGTCAGGGCCTCTACACCAAGGTGGCGCAGGTGGTGGCGGATGCCTTCCAGGTGGATATCGGCCGGGTGAAGATCACAGCCACGACAACGGGCAAGGTGCCGAACACGTCGGCCACCGCCGCCTCCTCCGGCACCGACCTCAACGGTATGGCGGCCTATGACGCCGCCCGTCAGATCCGCGAGCGCCTGGTCAAATTCGCCGCCGAGAACTGGAATGTGCCGGAAGAGCAAGTCGTCTTTCTGCCGAACCGGGTGCGTATCGGCCTTGAGGAAATCGCCTTCAACGATTTCATCAAAAAGGCCTATTTCGCCCGCGTGCAGCTTTCCGCCGCCGGTTTTTACAAGACGCCGAAAATCCACTGGGACCGCGCCGCCGGCCGCGGCACGCCGTTTTATTATTTCGCCTATGGCGCGGCCTGCTCGGAAGTGTCGATCGATACGCTCACCGGCGAATATATGATGGAGCGCACCGATATCCTCCACGATGTCGGCAAGTCGCTGAACCCCGCAATCGATATCGGCCAGATCGAGGGCGCCTTCGTGCAGGGCATGGGCTGGCTGACGACCGAGGAATTATGGTGGGATGGCAAGGGGCGGCTGCGCACCCATGCGCCCTCCACCTACAAGATCCCGCTCGCCTCCGACCGGCCGAAGAGCTTTAACGTCAGGCTGGCGGAATGGGCGGAAAATGCCGAACCCACCATTGGCCGCTCAAAAGCCGTGGGCGAACCGCCCTTCATGCTGGCGATCTCGGTTCTCGAAGCCCTCTCCATGGCCGTCGCCTCCGTCGCCGATTACAAGGTCTGCCCGCGCCTCGATGCACCGGCAACGCCCGAGCGGGTTCTGATGGCGGTGGAACGGCTGAAGAAGGTGTGA	MDTTSFDKTKTEIDGPMHASLRHDSAHKHVTGSAEYIDDIPEPAGLIHGALGLSDRAHAEIVSMDLSEVEKTPGVLWVMVAKDVPGENDISSGGRHDEPLLAETKVEFHGQPIFAVFAETRDIARKAARKAKITYKDLPHFTDIDTAIENGGALVIDPMTLKRGDAKIEMDVAPRRLTGTMRIGGQEHFYLESHIAMAVPGEDDEVTLWSSTQHPSEIQHIVSHMLQVPSNAVTVQVRRMGGGFGGKETQGNQFAALCAIAAKKLNRAVKIRPDRDEDMSATGKRHDFRVDYELGFDEEGRIHAVDATYSARCGFSSDLSGPVTDRALFHADSSYFYPHVHLTSRPLKTHTVSNTAFRGFGGPQGMLGAERFIEEIAYAVGKDPLDIRKLNFYGKTGSGRTTTPYHQEVEDNIIARIVEELETSSDYRARREAIIEFNKTSPIIRKGIALTPVKFGISFTMTAFNQAGALVHIYNDGSIHLNHGGTEMGQGLYTKVAQVVADAFQVDIGRVKITATTTGKVPNTSATAASSGTDLNGMAAYDAARQIRERLVKFAAENWNVPEEQVVFLPNRVRIGLEEIAFNDFIKKAYFARVQLSAAGFYKTPKIHWDRAAGRGTPFYYFAYGAACSEVSIDTLTGEYMMERTDILHDVGKSLNPAIDIGQIEGAFVQGMGWLTTEELWWDGKGRLRTHAPSTYKIPLASDRPKSFNVRLAEWAENAEPTIGRSKAVGEPPFMLAISVLEALSMAVASVADYKVCPRLDAPATPERVLMAVERLKKV	PGPT0007265_771	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0007265-xdhB|pucD-K13482	NA	NA
BMS010_01100	192			hypothetical protein	ATGATGGCGATGGCGAACCGCTCAACCTCCCTCATTCCTGTGCTTGTCACAGGAATCCAGTCGACGCGCGTCTGCGCGGCGAAAGACTCTTTTCAGCCCAAAGACATGGGCTGGCTGGATTCCTGTGACAAGCACAGGAATGAGGGACTATCATCGCTGTCATATGCCGTAATTCACCAAGAAGGAGCTTGA	MMAMANRSTSLIPVLVTGIQSTRVCAAKDSFQPKDMGWLDSCDKHRNEGLSSLSYAVIHQEGA				NA	NA	NA	NA	NA
BMS010_01101	1470			hypothetical protein	ATGAACGACGCGATCAGCTTCATCCTCAACAGCGAAACCATCTCGCTGAAGGATTTCGGACCGACAGACACGCTTCTCGATTATCTCCGCATCAGCAAGCGGTTGACCGGGACCAAGGAAGGCTGCGCCGAAGGCGATTGCGGCGCCTGCACGGTGCTGGTCGGGCGGCTGCTGGACGGTTCGCTGCGTTATGAAAGCGTCAATGCCTGCATCCGCTTTTTAGGTTCGCTGCACGGCACCCATATCGTGACGGTCGAACATCTGGCCGCGCGCGACGGTACGCTGCACCCCGTGCAGCAGGCGATGGTGGATTTCCACGGCTCGCAATGCGGTTTCTGCACGCCGGGCTTCATCATGTCGCTTTACGGTCTCTGGCTTGCCAGTGAAAACCCCGGCCGCGCCGACATCGAAAAGGCGCTGCAAGGCAATCTCTGTCGATGCACGGGTTATGAGCCGATCGTCCGCGCCGCCGAAAAGATCGCCGCCGCCCGCCCGAGCGCGCTCTTCGACCCGCTGCAACGGGACCGCACCGATATCATGGCAAGGCTCTGGGCAATCCGCGCCAATGAGACGATCACCGTCACCCACGGCGAGGACCGCACCATCATTCCGGCGACACTGGCCGAACTGACCGAGATTTACGCCGCTGAACCGAAGGCGACCATCGTTGCCGGCTCCACCGATGTCGGCCTGTGGGTGACGAAGCAGATGCGGGCGCTGAACCCGGTCATCTTCATCAACAATCTCGGGGATCTGCAAACCATCACCGTAGATGAGGACGGCGTAACACTCGGCGCCGGCGTCACCTATAGCCAGGCCTTCAAGACCGTTGCGGAACACTTCCCGCCGCTTGCCCGGCTGTTCGACCGCCTCGGCGGCGAGCAGGTGCGCAATATGGGCACCATCGGCGGCAATATAGCCAACGGTTCGCCCATCGGCGACACGCCGCCGGCGCTGATCGCGCTCGGGGCGACGCTGACCTTGCGATCCTCCTCCGGCAACCGCAGCCTGCCGCTGGAAAGCTATTTCATCGACTATGGCAAACAGGACCGGTTGAGCGGCGAATTCGTCGAAAAGCTCTTCATCCCGTTCCGGAAGCCGGAAAGCCTCTACGCCGTCTACAAGATTTCCAAGCGCCGCGACGAGGATATTTCCGCGCTCTGCGGCGCTTTCAACCTGACGCTCGATGCCGATGGCGCGGTCGAAGACATCCGCATCGCCTTTGGCGGCATGGCCGGTACGCCCAAACGCGCCGCGCATCTGGAGGCGGCGCTTCTCGGCAAGCCCTGGCGCCAGGAAACGATCGATGCGGCACGCGATGTGCTCGATGAGGACTTTACCCCGCTGACCGACTGGCGGGCGACTGCCGAATATCGGCAACTGACGGCCAAGAACCTACTGACGCGGTTTTTCCTCGAGACTTCGGGGCAAAAGCAGGAACTCAGCCGTTTCTCGCTGGAGGAGGCGTGA	MNDAISFILNSETISLKDFGPTDTLLDYLRISKRLTGTKEGCAEGDCGACTVLVGRLLDGSLRYESVNACIRFLGSLHGTHIVTVEHLAARDGTLHPVQQAMVDFHGSQCGFCTPGFIMSLYGLWLASENPGRADIEKALQGNLCRCTGYEPIVRAAEKIAAARPSALFDPLQRDRTDIMARLWAIRANETITVTHGEDRTIIPATLAELTEIYAAEPKATIVAGSTDVGLWVTKQMRALNPVIFINNLGDLQTITVDEDGVTLGAGVTYSQAFKTVAEHFPPLARLFDRLGGEQVRNMGTIGGNIANGSPIGDTPPALIALGATLTLRSSSGNRSLPLESYFIDYGKQDRLSGEFVEKLFIPFRKPESLYAVYKISKRRDEDISALCGAFNLTLDADGAVEDIRIAFGGMAGTPKRAAHLEAALLGKPWRQETIDAARDVLDEDFTPLTDWRATAEYRQLTAKNLLTRFFLETSGQKQELSRFSLEEA	PGPT0007250_542	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0007250-xdhA-K13481	NA	NA
BMS010_01102	777	bdhA_1		D-beta-hydroxybutyrate dehydrogenase	ATGCATCGGACAGTTATCGTGACGGGCTCTACAAGCGGTATCGGCCTTGCGATTGCGCAGCGATTTGCGCGGGAGGGCGCCAATATTGTACTGAACGGTTTCGGCGATGAGGACGAGATCGAAAAACTGCGCCTTTTGCTGGAAGCGGAAAGCGGCGGGCGCGTGCTTTATCACCCGGCGGATATGACGAAACCGGACGAGATCGCCGATCTCATTCAATCCTCGCACGAAAAACTCGGCTCGGTGGATGTGCTCGTCAACAATGCCGGCATCCAGCATATCGCGCCCATCGAGGAGTTTCCGCCGGAAAAATGGGACTGGATCATCGCCATCAATCTGACCAGTTCCTTCCATATCATGCGCGCTGCGATACCGCTGATGAAGAAGGCCGGCAAAGGCCGTATCATCAACATCGCATCCGCCCACGGTCTCGTCGCCTCGCCGTTCAAATCGGCCTATGTGGCGGCCAAGCACGGCATCATGGGCCTGACGAAGACGGCGGCGCTCGAGCTTGCGCAAACCGGGGTTACCGTCAACGCCATCTGTCCGGGTTATGTGCTCACACCGCTCGTCGAAAAGCAGATACCGGAAATGGCGAAGGTGCGCGGCATCAGCGAAGAGGCGGTGAAGAACGACGTGATGCTGGAACTGCAGGCAACCAAGCAGTTCGTCACCGTCGATGACGTGGCCGCCGCCGCACTGTTTCTGGCAAGCGACGCCGCAAGCAACATCACCGGCACCCATATTTCCGTGGATGGCGGCTGGACGGCGCAATAA	MHRTVIVTGSTSGIGLAIAQRFAREGANIVLNGFGDEDEIEKLRLLLEAESGGRVLYHPADMTKPDEIADLIQSSHEKLGSVDVLVNNAGIQHIAPIEEFPPEKWDWIIAINLTSSFHIMRAAIPLMKKAGKGRIINIASAHGLVASPFKSAYVAAKHGIMGLTKTAALELAQTGVTVNAICPGYVLTPLVEKQIPEMAKVRGISEEAVKNDVMLELQATKQFVTVDDVAAAALFLASDAASNITGTHISVDGGWTAQ	PGPT0008310_1883	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008310-bdh-K00019	NA	NA
BMS010_01103	1062			hypothetical protein	ATGGAACTCGGTCTTTACACCTTCGCGGATGTCAATCCCAACCCCGCCGATGGCCGTGGGCCGGAAGGCGCGCGTCGGCTGCGCGAACTCATCGAAGAGATCGAGCTTGCCGATCAGGTCGGGCTCGATGTCTTTGGCCTCGGGGAGCATCACCGTCCGGATTATGTCGTCTCCTCGCCCTCCACCGTTCTCGCGGCGGCGGCGGTGAAGACGAAGAATATTCGCCTGACGAGCGCCGTTTCGGTGCTGAGTTCGGACGATCCGGTGCGGGTGTTCCAGCAGTTTTCGACCGTCGATCTCCTGTCGAACGGCCGCGCCGAAATCATGGCCGGGCGCGGTTCCTTCATCGAATCCTACCCGCTGTTCGGTTACGATCTCGAGGATTACGATGTGCTCTTCGCCGAAAAGCTCGATCTGCTTTTGGCGCTGCGGGAGCAGGAAATCGTCACCTGGTCCGGCACCAAGCATCCCGCCATTAACGGGCGCGGCGTTTATCCGCGGCCCCTACAGGAGCGTCTGCCGGTGTGGATCGCCGTGGGCGGCACGCCGCAATCGGTGGCGCGGGCAGGCGCCATGGGTCTGCCGGTGGCGCTTGCCATCATCGGCGGCGAATATCGCCGCTTTGCGCCGCTGTTCGATCTCTATCATGAGGCTGCGCGCCGCGCCGGGCAGGAAAAGACCAAGTTGCGCACCAGCATCAATGTGCACGGCTTCATTGCCGACACCACCGCCAAGGCGGCGGACCAGTTTTACGGACCGCAGGCGGAGGTGATGAACCGCATCGGCCGCGAGCGCGGCTGGGGGCCGACGAACCGCGCGCATTTCGACGCCGCGCGCGGGCCGGAGGGCAATCTCTTCCTCGGTGAGCCGGAACTGGTGGCGGAAAAGATCATCAAGGCGCATGGCGTTTTCAGGAACGATCGCTTCCTGCTGCAGATGGCCATCGGCCTGATGCCGCACGATCAGATCATGCGCGGCATCGAGCTTTATGGTACGAAAGTCGCCCCGATCGTCAGAAAAGAATTGACGGGGAGCGCCGATCCGGTGAAAGCCACGGCCTGA	MELGLYTFADVNPNPADGRGPEGARRLRELIEEIELADQVGLDVFGLGEHHRPDYVVSSPSTVLAAAAVKTKNIRLTSAVSVLSSDDPVRVFQQFSTVDLLSNGRAEIMAGRGSFIESYPLFGYDLEDYDVLFAEKLDLLLALREQEIVTWSGTKHPAINGRGVYPRPLQERLPVWIAVGGTPQSVARAGAMGLPVALAIIGGEYRRFAPLFDLYHEAARRAGQEKTKLRTSINVHGFIADTTAKAADQFYGPQAEVMNRIGRERGWGPTNRAHFDAARGPEGNLFLGEPELVAEKIIKAHGVFRNDRFLLQMAIGLMPHDQIMRGIELYGTKVAPIVRKELTGSADPVKATA				NA	NA	NA	NA	NA
BMS010_01104	753	map_1		Methionine aminopeptidase	ATGGTCATTTCCACCGAAGAAGAACTGGTTCTGCTGAAGGACATCGGCCGTTTGTGCGCCGTCGCGATGCAGACCATGGCGGACGCGCTGGAACCCGGCATCACCACGGCCGAGCTGGATGCCATCGGCCGCAAGGTGCTGGAGGATAATGGTGCGCAATCGGCGCCGGAATTCTGCTACAAGTTTCCCGGCGCGACCTGCATCAGCGTCAACGAGGAAGTGGCCCACGGCATTCCGGGACCGCGCATCATCAAGGCGGGCGATCTCGTCAATATCGATGTCTCGGCGGTGAAGAACGGCTTTTTCGGCGATACCGGCTCGTCTTTCGCCGTGCCGCCGGTGAAGAAGGACATCGAGCGGCTGTGCCGCGATGGCAAACGCGCCATGTGGACGGGCCTGCAGCAGGTGAAAACCGGCCGGCCTTTCGCCGATATCGGCAATGCCATCGGCGCCTTTGCCAAGAAGAACCGCTATACGCTGATCACCAATCTCGCCAGCCACGGCATCGGCCGCTCGCTGCATGAGGAGCCAAAGGAACTGGCGACCTGGCCGGACAAGGACGAGCGGCGCATCATGCAGGAAGGCATGGTGTTCACCGTCGAGCCGTTTCTCTCGACGGGCGCCTATTGGGCCGAAGACGGCGATGACGATCCATGGACGCTCTATAGCGATCCGAGCGCGCCGACGGTGCAGTATGAGCATACCGTGGTTGCGACGAAGAACGGGCCGCTGGTGCTGACGCTCGCTGAGTGA	MVISTEEELVLLKDIGRLCAVAMQTMADALEPGITTAELDAIGRKVLEDNGAQSAPEFCYKFPGATCISVNEEVAHGIPGPRIIKAGDLVNIDVSAVKNGFFGDTGSSFAVPPVKKDIERLCRDGKRAMWTGLQQVKTGRPFADIGNAIGAFAKKNRYTLITNLASHGIGRSLHEEPKELATWPDKDERRIMQEGMVFTVEPFLSTGAYWAEDGDDDPWTLYSDPSAPTVQYEHTVVATKNGPLVLTLAE	PGPT0020010_8505	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020010-map-K01265	NA	NA
BMS010_01105	1191			hypothetical protein	ATGAGCATCGACAAGCCACTTTCCGCCAGACATCTGACCGCACTTGGATTTTCCGGGGCGCTGATGATGGCCTCCGCCATGGGTTTCGGCCGCTTTTCCTTCACCCCCATTCTGCCCGGCATGATGGCGGATGTTCCGCTTTCGGCGGGGGATGCGGGTATCGTGGCAGCGGGTAACTTCGCCGGTTATCTGGCGGGGGCGGTTCTGGCGGCCTATTCGTGGGGTTCGGGGCGGGAACGGCTGGTGGCGCTCTGCGGCCTGTTTTCCACCGGGGCATTGTTGCTTGCCATGGCGGCTTTCAATTCCGTCGCTGCCTTCACCGTCATCCGGTTTCTGGCCGGTGTTGCCAGCGCGCTCACCATGATCTTCACCTCGCAGATCGTTATCGGCCATGCCGTCAAGGCGGGCAGGGACAGCGTTCAGGCGCTGCATTATGGCGGCGTCGGTGCGGGCATCGCGATCTCCTCGCTTGCGGTCTATCTGATCGGCGTCGTTTTTGACGGCGGCGGCTCCTCATGGCGGGAGGAGTGGATCGCAGGTGCTGTCTTTTCCTTCATCACATTCATTCTCGTCTGGCGGGTGCTGCCCGCAGGCCCGCCGCGACATGCATCCTCGGTGGCGGAGCCGCCGCTCCACTGGACGCGGCCGCTCTTCCTGACGACGCTGGCCTATGGGCTTTTCGGTTTCGGTTACGTCATCACCGCCACCTTCATCGTGGCGATTGCCCGCATGGCCGCTGCCGGCGCCTTCGTGGAGTTTCTGGCCTGGTTCATCACCGGCTGCGCCGCCGCCATTTCGCTTTTCCTCTGGAAACCGGTGTTGAAATCGCAGGGGCTGAAACGCGCCTTCGTCATCGTTCTTGCCGTCGAAGCCGTCGGTGTTTTCGCTTCCGTCATGCTGCCGCCGGTGCCGGGCGTTCTGGCCGGAGGCCTGCTTCTCGGGCTGACCTTCATGGTCATCACCGCTTATGGCCTGCAGCTCGGCCGGGAATTTGCCGGGCCGAGCCCGCGTCGCGCCTTTGCGCTGATGACGGCCGCTTTCGGCACGGGCCAGATTGTCGGGCCGCTTGCTGCCGGCTGGATTGCCGAAGTGACAGGAAGTTTCACCGCGCCCAGCATTCTCGCTTCCGCCGTGCTCGTCGTCAGCATTCTGCTGATGCTGCCGGTGCTCGCCACGGAGCGGCGGCGCTAG	MSIDKPLSARHLTALGFSGALMMASAMGFGRFSFTPILPGMMADVPLSAGDAGIVAAGNFAGYLAGAVLAAYSWGSGRERLVALCGLFSTGALLLAMAAFNSVAAFTVIRFLAGVASALTMIFTSQIVIGHAVKAGRDSVQALHYGGVGAGIAISSLAVYLIGVVFDGGGSSWREEWIAGAVFSFITFILVWRVLPAGPPRHASSVAEPPLHWTRPLFLTTLAYGLFGFGYVITATFIVAIARMAAAGAFVEFLAWFITGCAAAISLFLWKPVLKSQGLKRAFVIVLAVEAVGVFASVMLPPVPGVLAGGLLLGLTFMVITAYGLQLGREFAGPSPRRAFALMTAAFGTGQIVGPLAAGWIAEVTGSFTAPSILASAVLVVSILLMLPVLATERRR				NA	NA	NA	NA	NA
BMS010_01106	1269	sbmA	COG1133	Peptide antibiotic transporter SbmA	GTGTTTCATTCCTTCTTTCCCAAACCGAAAATGTTCTTCACGTCGGCCATTGTCTGGGCTTTTTTCGCCATTCTCGGATGGTACTTCATCGTTGAAGGGTTAGGTCGGTCTTGGGGCTATGTAATGCCTGAACAGGAACCCTACGATCTCAGCTACTTCCTGGTGCCGGCCAACCTGTTCTTTTACGCCTATCTCGCATTGTGTCTGGCGGCGTTCGGCGGCGTGTGGACCGTTATCGCCAAGGATCATCCCTGGAAATACTGGTCCATCTGGGGATCGTTGCTGATTATCGCGGTGACCTATTTCGGCGTTCAGATTTCCGTCGTGATCAACAATTTCCGCCGGCCTTTCGGCGATCTTCTGCAAAATGCCCTTTCGAAACAGCCCGGTATCGAGGTCTGGGATTTCTACAGCCTTCAGATCGTCTTCGCCAAGATCGCCTTTCTCAGCATGGCCGTTTCGATCCTGACAGATTTCTTCACGAGCCATTATATCTTCCGCTGGCGCACCGCGATGAACGACTTCTACATGTCCAAGTGGGAAAAGCTGCGCCACATCGAAGGTGCTTCCCAGCGTGTTCAGGAAGATACGATGCGGTTTTCCTCGACGCTTGAGGCATTGGGCATCACCCTGATCAATTCGGTCATGACGCTCGTCGTTTTCCTGCCGATCCTGTTTGCGCTGTCTTCTTATGTCTCAGAATTGCCAATCATTGGCGAAGTGCCGCATGCGCTGTTCTGGCTGGCGATAGTCTGGTCCATATTCGGCACCGTGCTGCTGGCGACGGTCGGCATCAAGCTGCCCGGCCTGAACTTCCGCAATCAGCGTGTGGAAGCCGCCTATCGTAAGGAACTGGTTTATGGCGAGGATCACGCCGACCGCGCCCAGCCGCCGACAGTCAAGGAACTCTACTCCAATGTGCGGAAGAATTATTTCCGTATGTATTGGCACTATCTCTATTTCAACGTCGCACGGTATTTCTACATTCAGGCCGATGCGGTGTTCCTGCTTCTGATGCTCGTTCCGACCATCGTGGCGGGCAAGATCACCTATGGTATCTACCAGCAGATCGCCACGGCCTTCGGTCAGGTCAGCAATTCGTTCCAGTATCTGGTCAATTCCTGGACAACGATCATCGAGCTGCTGTCCATCCACAAACGTCTTGTGGCCTTCGAGGCCGCGATCGACGACAAGCCCCTGCCGGATATCGACGAGCGCTATCTTCAGCGGGAAGCGGAAGCCGGAGAGCTGGCGGCCAACAAGCCTTGA	MFHSFFPKPKMFFTSAIVWAFFAILGWYFIVEGLGRSWGYVMPEQEPYDLSYFLVPANLFFYAYLALCLAAFGGVWTVIAKDHPWKYWSIWGSLLIIAVTYFGVQISVVINNFRRPFGDLLQNALSKQPGIEVWDFYSLQIVFAKIAFLSMAVSILTDFFTSHYIFRWRTAMNDFYMSKWEKLRHIEGASQRVQEDTMRFSSTLEALGITLINSVMTLVVFLPILFALSSYVSELPIIGEVPHALFWLAIVWSIFGTVLLATVGIKLPGLNFRNQRVEAAYRKELVYGEDHADRAQPPTVKELYSNVRKNYFRMYWHYLYFNVARYFYIQADAVFLLLMLVPTIVAGKITYGIYQQIATAFGQVSNSFQYLVNSWTTIIELLSIHKRLVAFEAAIDDKPLPDIDERYLQREAEAGELAANKP	PGPT0011645_42	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BACTERIOCIN_RESISTANCE,PGPT0011645-sbmA|bacA-K17938	NA	NA
BMS010_01107	984			hypothetical protein	ATGTTTCGCCCATTTGCCGCCTTTTCCCTGTCGCTTCTCGCCGCCCTTCCCGCTTTTGCGCAAGAGGCTGAGAAGTCGAAGCAGCTCGTCATCGTGTCCTTCGACGGTGCGGGCGACAATACGCTGTGGGAAAGAAGCCGGGCGACGGGCAAGCAAGTCGGCGCGCATTTTACCTATTTCCTTGCCTGCACGCTGGTGATGGACCGCAAGACCAGCGCCAAGACCTATCAGGGACCCGGCCAGAAGTCCGGCCGTTCCAATGTCGGTTTCGGCCAGTCGCCGGAAGAGGTGGAGGCAAGGCTCAGAAACATCTGGGCCGCCTATCGCGAAGGCCACGAAATCGGCAACCACACCTGCGGCCATTTCGATGGCGGGCAATGGACGGCCGAACAATGGGACGGCGAATTCACCACCTTCACCAGCACGCTGGAAAACGCCTGGCAGATGATCGGCAAAAAGGGCGAGGAACCCGAAGGCTGGCGCGAGATGGTGAAAAAGATCAATGGTTTCCGCGCGCCCTATCTCTCGCAGGGGCCGGCGCTGACCGAAGCGCAGAAAAAGCACCGTTTCGTTTATGACGCCACCAGCATCACCAAGGGACCGGAATGGCCGGTGGAGCGCGACGGCATAGAGCATTTCGGCCTGCCGCTCATTCCGGAAGGCCCGGGCAACCGCCCGATCATCGCCATGGACTACAATCTCTTCATCCGCCACTCCATCGGCGTCGAGACGCCGGATCGTTCGAAGGAATTCGAGGAGCGCGCCTATACCGCCTTCCGCAATGCATTCGACAGGCAATATAATGGCGAGCGCATTCCGCTACAGATGGGCTTCCACTTCGTGAAGATGAATGGCGGCGCCTATTGGAACGCCTACGAGCGGCTGCTGCGCGAAGTCTGCGGCAGGCAGGATGTCGCCTGCGTGAGCTATGCCGAGGCGATGCCGATGATCGAGGCGCGGAAGAAACAGAAGACCGAGGGGTGA	MFRPFAAFSLSLLAALPAFAQEAEKSKQLVIVSFDGAGDNTLWERSRATGKQVGAHFTYFLACTLVMDRKTSAKTYQGPGQKSGRSNVGFGQSPEEVEARLRNIWAAYREGHEIGNHTCGHFDGGQWTAEQWDGEFTTFTSTLENAWQMIGKKGEEPEGWREMVKKINGFRAPYLSQGPALTEAQKKHRFVYDATSITKGPEWPVERDGIEHFGLPLIPEGPGNRPIIAMDYNLFIRHSIGVETPDRSKEFEERAYTAFRNAFDRQYNGERIPLQMGFHFVKMNGGAYWNAYERLLREVCGRQDVACVSYAEAMPMIEARKKQKTEG				NA	NA	NA	NA	NA
BMS010_01108	585			hypothetical protein	ATGCTTTTTCTCGCACTTTGTCTTGCCTTGTTCCTGCTGACGCATCTTTTGAAGGTGGTCGCACCGCAATTTCGCGCGCGGATGATCGCGTCGATGGGCGAAGGCCCTTTCAAGGGCGTCTATTCGCTCGTCAGCCTCATCACGCTCGGCCTCGTCATCTATGCCTTCGGTGAAGCGCGGCAGGAAACCGGAATGTTGTGGTATCCGCCGGTCTGGATGAGCCATATTGCCGTGACCCTGATGCTGCCGGCGATGATCTGTCTTATCGCCAGCCTCATCCCGGCTGGCCACATCGCGACGAAGACGAAACATCCGCTCATTCTTTCGGTCAAGATATGGGCGCTCGCGCATCTTCTGGCCAATGGCGAGACGTCTTCCATTCTTCTTTTCGTATCGTTCCTCGCCTGGGGCGTGGTGATGCGGATTTCGCTGAAGCGACGGGAACGGGCAGGCGAAAAAGTGGTCCGGGACTTCGTTTCAGGCCGTTACGATCTGGTGGCCATCCTCGGCGGCATCGTACTGTGGGGTGCTTTCATCCTGAAACTGCACGAATGGTTGATCGGCGTTCAGCCCATCGTCCTGTAG	MLFLALCLALFLLTHLLKVVAPQFRARMIASMGEGPFKGVYSLVSLITLGLVIYAFGEARQETGMLWYPPVWMSHIAVTLMLPAMICLIASLIPAGHIATKTKHPLILSVKIWALAHLLANGETSSILLFVSFLAWGVVMRISLKRRERAGEKVVRDFVSGRYDLVAILGGIVLWGAFILKLHEWLIGVQPIVL				NA	NA	NA	NA	NA
BMS010_01109	672			hypothetical protein	ATGGCAAACGAGAATGATACCTTTATCCGCGAAGTGAACGAGCAGATCCGCTCCGAGCAGCTGTCGCGCTTCTGGGGCCGTTACGGTATCGTGGTCGTGGGTGCGGCCGTTCTCGTGGTTCTGGGCGCCGCCGGCACCGGTATCTACGAATACTGGAACACCAGCCGCGCTTCCAATTCCGGCGACCAGTTCCTTGCGGCGCTGAAGCTCGCTTCCGAAAACAAGACGGATGAGGCGCTGAAGGCCTTCGCCGATCTCGAAACCTCCGGTCATGGCAATTATCCGGTTCTGGCGAAGTTCCGCTCGGCCACGCTGCTGTCGCAGAAGGGTGATGCTGCCGGCGCCATCGCCGCCTTCACCGCCATCGGCAACGACACATCCGCACCGCAGGTCTTCCGCGATACCGCCAAGGTGCGCGCCGCCTGGCTGCTGGTGGATAACGGCACCTATGATCAGGTCGTCGCCCTTGCGGAGCCCTTGAGCACCGATGGCCAGACCATGCGCGCTTCAGCCCGTGAGGCGCTGGGTCTTGCCGCCTACAAGGCCGGCGATTTCGCCAAGGCCAAACAATGGTTCGAGCAGATCGTCAGCGACGCGCAGGCGCCGCGCAACGTGACGAACCGCGCGCAGATCATGCTCGACAACATCACCGCTTCGGGCAAGGCTGCCTAA	MANENDTFIREVNEQIRSEQLSRFWGRYGIVVVGAAVLVVLGAAGTGIYEYWNTSRASNSGDQFLAALKLASENKTDEALKAFADLETSGHGNYPVLAKFRSATLLSQKGDAAGAIAAFTAIGNDTSAPQVFRDTAKVRAAWLLVDNGTYDQVVALAEPLSTDGQTMRASAREALGLAAYKAGDFAKAKQWFEQIVSDAQAPRNVTNRAQIMLDNITASGKAA				NA	NA	NA	NA	NA
BMS010_01110	1431	der_1	COG1160	GTPase Der	ATGAGCTTCACCGTCGCCATAGTCGGGCGCCCCAATGTTGGCAAGTCCACGCTTTTTAACCGTCTCGTCGGAAAGAAGCTGGCGCTGGTGGACGATACGCCGGGTGTGACCCGCGACCGCCGGCCTGGCGAGGCGAAGCTGGTCGACCTGCGTTTCACCATCATCGATACCGCCGGTCTGGAGCAATCCGGGCCGGAAACGCTTCAGGGCCGCATGTGGGCGCAGACCGAAGCGGCAATCGACGATGCCGATGTGACGCTGTTCGTTGTGGACGCCAAGGCCGGATTGACGCCGGCCGACGAGACGCTGGCCGAAATGCTGCGCCGTCGTGGCAAGCCGGTGGTGCTGGTGGCCAACAAGTCCGAAGCGCGCGGCTCGGATGCCGGTTTCTACGACGCCTTTACGCTCGGTCTTGGCGATCCTTGCCCGATCTCGGCCGAACACGGCCAGGGCATGATCGACCTGCGCGACGCCATCGTCGAGGCGATCGGTGAAGACGTGGCCTTCCCGCCTGAGGTGGACGAGGCGGAAACGGATATCGTTCTGCCGCGCAGCGAGCCGGGCAGCGAGGACGAAGAAGACGAAGAGCCGGTTTATGACGAGACCAAGCCGCTGCGCGTCGCCATTATCGGCCGGCCGAATGCGGGCAAGTCGACGCTCATCAACCGTTTCCTCGGTGAAGACCGCCTGCTGACCGGCCCGGAAGCCGGCATTACCCGCGACAGCATTTCGGTCGAATGGGACTGGCGCGGCCGCACCATCAAGATGTTCGACACGGCCGGCATGCGCCGCAAGGCCAAGGTGACGGAGAAGCTGGAAAAGCTTTCGGTGGCCGATTCGCTGCGCTCCATCCGTTTTGCCGAAACCGTGGTGATCGTGTTCGACAGCACCATTCCCTTCGAAAAGCAGGATTTGCAGCTCGTCGATCTCGTCATCCGCGAAGGCCGCGCCGCCGTGCTCGCCTTCAACAAATGGGATCTGGTGGAAGACCCGCAGGCCTATCTGGCCGATCTGCGCGAGAAAACCGAGCGGCTTCTGCCGCAGGCGCGCGGCATTCGCGCCGTGCCGATTTCCGGCCAGACGGGTTATGGCCTCGACCGGCTGATGCAGAACATCATTGACACCGACAAGGTCTGGAACCGCCGCATCTCCACCGCCCGCCTTAACCGCTGGCTGGATTCGCAGACGACCCAGCATCCGCCGCCGGCCGTTTCCGGCCGCCGCCTGAAGCTGAAATATATGACGCAGGTCAAGGCCCGCCCGCCGGCCTTCATGATTTCCTGCACGCGGCCGGAAGCTATTCCGGAAAGCTATACACGTTATCTGGTGAACGGTCTGCGCAAGGATTTCGACATGCCGGGCGTGCCGATCCGTGTGCATTATCGTGGGTCTGACAATCCGTTCGAGAGCAAGGCGAAGAAGCGGCGGTAA	MSFTVAIVGRPNVGKSTLFNRLVGKKLALVDDTPGVTRDRRPGEAKLVDLRFTIIDTAGLEQSGPETLQGRMWAQTEAAIDDADVTLFVVDAKAGLTPADETLAEMLRRRGKPVVLVANKSEARGSDAGFYDAFTLGLGDPCPISAEHGQGMIDLRDAIVEAIGEDVAFPPEVDEAETDIVLPRSEPGSEDEEDEEPVYDETKPLRVAIIGRPNAGKSTLINRFLGEDRLLTGPEAGITRDSISVEWDWRGRTIKMFDTAGMRRKAKVTEKLEKLSVADSLRSIRFAETVVIVFDSTIPFEKQDLQLVDLVIREGRAAVLAFNKWDLVEDPQAYLADLREKTERLLPQARGIRAVPISGQTGYGLDRLMQNIIDTDKVWNRRISTARLNRWLDSQTTQHPPPAVSGRRLKLKYMTQVKARPPAFMISCTRPEAIPESYTRYLVNGLRKDFDMPGVPIRVHYRGSDNPFESKAKKRR				NA	NA	NA	NA	NA
BMS010_01111	609			hypothetical protein	ATGCTGATCAAGCAGACCGACTATCACCGGATTTACCGCGTCATCAACAGCCTGCTCATCAGCCAGAATGCCGATCCCGCCTCGGCCTCCATGTATTTCAGCACCTTCGGCGCCTTCATCCTGCAGCAGCATTACAAGGTGAAGGCGGTGCCGAAGGGCGGGCTTGCGGCCTATAATCTCGGTGGAACCGTGCTGCTATTCGCCGATCACCGTGAAGACGGTTATGTGACGGGCGCGGGCGAGAACTTCCACTGCTGGATCGAGGCGGATGGCTGGGCGATCGATTTCATGGCGCCGGCATTTTCGGAGGGTGCCAATGGGCTTTCCGTGCCGGCGAAAATGTTCCAGCGGCCCCTTGCCGCCATGGCGGCATCCATCAACGATCTCGGACAATCCGGCGATTTCTTCTATCGTTCCGAACCCGAAGCCACGGCCAAGCGCTTTGCCGACTGGCACAGGCAGGCGATGATCGGCGATATGGCGAGCGTTGCCGCCAACTGGTTCCGCAAGTCGCCGAAACAGATGGCCGCATCGCTTTCTGTAACGGATCCCGACGGCAAGGCGCGGACCGTACCGCTTTCCGGCCAGATGCTTACCGGAGCATGGTGA	MLIKQTDYHRIYRVINSLLISQNADPASASMYFSTFGAFILQQHYKVKAVPKGGLAAYNLGGTVLLFADHREDGYVTGAGENFHCWIEADGWAIDFMAPAFSEGANGLSVPAKMFQRPLAAMAASINDLGQSGDFFYRSEPEATAKRFADWHRQAMIGDMASVAANWFRKSPKQMAASLSVTDPDGKARTVPLSGQMLTGAW				NA	NA	NA	NA	NA
BMS010_01112	1050	mgtA_1	COG0438	GDP-mannose-dependent alpha-mannosyltransferase	ATGACGAGAATCACGATTGTCACAGATGCCTGGCACCCGCAGGTCAACGGCGTGGTTCGCTCCATAGAAAACACCAATACCGAACTCGCGCGGCTCGGCGTCGATGTGCGAATGGTCACGCCGCAGAGTTTTTACAGCATCCCCTGCCCCACCTATCCGGAAATCCGCCTTTCGGTTGCCGGTTATCGCCGTGTGGCGGCGGAGATCGAAAAAAGCCAGCCTTCCTTCGTGCATATTGCGACGGAAGGGCCGCTGGGTTTCATGGCGCGGCGCTGGTGTGTGAAGAACCGCATGCGTTTTTCCACCAGCTATCACACCCGCTTTCCCGAATATGTGGCGGCGCGATTCCCTGTGCCGGAAAGCTGGCTTTATGCCTTCGTGCGCTGGTTCCACAATGGCGGCAACACCTGCATGGTGGCAACGCCGAGCCTTGAGACCGAACTGGAAGCGCGCGGCGTGCGCAACCTGAAGCGGTGGAGCCGCGGCATCGACGCCGAGCTTTTCCATCCCCGCCCGAAAGCAAAGCTGCCTTTCGATCTGCCGAGGCCGATTTTCATGACGGTGGGACGTGTGGCGGTGGAGAAGAACCTGCCGGAATTTCTGGAACTGGACCTGCCGGGTTCGAAGGTCGTTATCGGCGACGGCCCTGCCCGCCATGAATTGCAGGAGAAATATCCGGACGTTTTGTTCACCGGCGTCAAGACCGGTGAGGAGCTGGCCGATGCCTATGCGCAGGCCGATGTCTTCGTTTTCCCCTCCAAGACGGACACCTTCGGCAACACCATTCTGGAAGCACTGGCAAGCGGCGTGCCCGTGGCCGCCTTCCCCGTCACCGGGCCGATCGATATTCTCGGCGGCAACCCGGCAGCCGGTGCGCTGGACGACAATCTTCGCGATGCCTGTCTCGCAGCGCTTCATTGTTCGCCACAGGAGGCGCTGGCGCTTTCCAGAAGCTACAGCTGGGAAAAGGCCTCGCGGCAGTTCCTCGACAATGTCATTCACGCGGCGGGAAAATCCCTGCCGCTGCTGTCGCGTTCTCAACTTGCATGA	MTRITIVTDAWHPQVNGVVRSIENTNTELARLGVDVRMVTPQSFYSIPCPTYPEIRLSVAGYRRVAAEIEKSQPSFVHIATEGPLGFMARRWCVKNRMRFSTSYHTRFPEYVAARFPVPESWLYAFVRWFHNGGNTCMVATPSLETELEARGVRNLKRWSRGIDAELFHPRPKAKLPFDLPRPIFMTVGRVAVEKNLPEFLELDLPGSKVVIGDGPARHELQEKYPDVLFTGVKTGEELADAYAQADVFVFPSKTDTFGNTILEALASGVPVAAFPVTGPIDILGGNPAAGALDDNLRDACLAALHCSPQEALALSRSYSWEKASRQFLDNVIHAAGKSLPLLSRSQLA	PGPT0024340_2364	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024340-dgkA|DGK-K00901	NA	NA
BMS010_01113	921	kdgK	COG0524	2-dehydro-3-deoxygluconokinase	GTGGGCGGACGGTTTCTGTCGATTGGCGAATGCATGGTGGAACTGTCGCAGGCCGGCAACGGGCTGCTGCGCAAGGGCTTTGCCGGCGATACGTTCAATACCGCCTGGTATGCCCGGGCCTGCCTGCCGGGCGACTGGTCGGTCGATTATTTCACCGCTCTTGGCGATGATCCGCTATCGGAAGACATGCTGGCCTTCATTGCGGAAGCCGGCATCGGCACGGAAAAAATCCGCCGCATCAAGGGCGGCACGCCCGGCCTTTACCTCATCAACCTGAAGGACGGCGAGCGCACCTTCAGCTACTGGCGCAACGCCGCCGCCGCAAGGCAGCTGGCCGCCGATGCGGACCACCTGCGCAGGACGGTGGAAAGCGCCGATGTCGTCTATTTCTCCGGCATCACGCTCGCCATTCTCGCCTCCGCCCATGATGTCGATACGTTCCTCGCCGAACTGCGCCGCGCCAGGGCGGCGGGTAAGCTGGTGGTCTTCGACCCCAACATCCGCCCGCGCCTGTGGGCGGATAAGGATACGATGCTTGAGACCATCTCCAACGGCGCACGCGCCGCAGCGCTTGTCATGCCGAGCTTCGATGACGAGGCGAGCCATTTCGGCGATGTCTCCGTGGAAGCGACCATCGACCGCTACCGTTCGCTTGGCGTCGAAAACATCGTCGTGAAGGACGGCGCCAAGGGCGCGACGCTCGATTTCGGCGGCAGCCGCACTCACGCCCCGGCGGTGAAGGCCGTAGACGTGGTGGACACGACAAGCGCCGGCGACAGCTTCAACGGCGCTTTCCTCGCCCGTTATGTGACCGGCAGTTCGCCGGAGGAAGCGGCCACCTTCGCGGCAAGGGCGGCGGCAACCGTCATCGGTCACCACGGCGCGCTGATCAGCCCCGAGCTGCTGCCGCTGGTGGGATAA	MGGRFLSIGECMVELSQAGNGLLRKGFAGDTFNTAWYARACLPGDWSVDYFTALGDDPLSEDMLAFIAEAGIGTEKIRRIKGGTPGLYLINLKDGERTFSYWRNAAAARQLAADADHLRRTVESADVVYFSGITLAILASAHDVDTFLAELRRARAAGKLVVFDPNIRPRLWADKDTMLETISNGARAAALVMPSFDDEASHFGDVSVEATIDRYRSLGVENIVVKDGAKGATLDFGGSRTHAPAVKAVDVVDTTSAGDSFNGAFLARYVTGSSPEEAATFAARAAATVIGHHGALISPELLPLVG	PGPT0018060_3154	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTURONATE|TAGATURONATE|ALTRONATE_DEGRADATION,PGPT0018060-kdgK-K00874	NA	NA
BMS010_01114	1665	malL_1	COG0366	Oligo-1,6-glucosidase	ATGACGCTGCCCTATGCCCCGGTCCACAAACCTCAAGCACAATCGGACTGGTGGAAGGGAGCGGTGATCTATCAGGTCTATCCGCGCTCGTTTCAGGATACGACCGGCGACGGCTATGGCGATCTTGCCGGGGTGACGAAACGTCTGCCCTATATCGCCTCGCTTGGCGTTGACGGCATCTGGCTCTCGCCCTTTTTCACCTCGCCCATGGCTGATATGGGCTATGATGTTTCCGATTATTGCAATGTCGATCCGATGTTCGGCACGCTTGCCGATTTCGACGCGCTGATGGCAGAGGCGCACCGGCTGGGGCTGAAGGTCATCATCGATCAGGTCATCTCGCACACGTCGGACCAGCATCCCTGGTTCGTGGACAGCCGGGCGAGCCGCACCAACAGCAAGGCCGACTGGTATGTCTGGGCCAATCCCAAGCCGGATGGCACCGCCCCCACCAACTGGCTTTCCGTTTTCGGCGGGCCGGCATGGGAATGGGACGGCGTTCGCAAGCAATATTACATGCACAGCTTCCTCGCCTCGCAGCCGGATCTCAATTTCCATAATCCGGCTGTGCAGGATGCGCTTCTGGAAACCGTGCGGTTCTGGCTGGATCGCGGCGTGGACGGTTTCCGGCTCGATACCGTCAACCATTATTTCCATGACAAGCTCTTGCGCGACAACCCGCCGCTTTTCGACGAGGAAAGTTTCGGTCTCGATGCTTCCGACGTCAATCCCTATGGCATGCAGGACCATCTCTACGACAAGACGCGGCCGGAAAACGTGGCCTTCCTGAAGCGTTTTCGCGCGCTGCTCGACGAGTATGAGGGGCGCGCCACGGTGGGTGAGGTGGGAGACGGGGCGCGGTCGCTGAAGACGGTGGCGGCTTATACGTCCGGCAATGACAAGCTCAACATGTGCTACACTTTCGACCTGCTGGGCCCGGATTTCAGCGCGAAGCATCTGCGCGCCTCGGTCGAGACCTTCGGCAAGGTGGTGACGGATGGCTGGGTGTGCTGGGCCTTTTCCAACCACGATGTGGTGCGCCACCTCAGCCGTTTTTCCGAAAGTGTAGAGGAGCAGGTGCGGGTGGCGAAGCTTGCCATCTGCGTTCTCGCCAGCCTGCGCGGTTCCATATGTCTCTATCAGGGCGAGGAGCTGGGTCTGACCGAGGCGGAACTCGCCTTCGAGGATCTGCGCGATCCCTACGGCATCCGCTTCTGGCCCGCCTTCAAGGGGCGGGACGGATGCCGCACGCCGATGGTGTGGGAAACCGGAAAGCCGAATGCCGGTTTTTCCAGCGCTGAAAAGCCCTGGCTGCCGGTGCCCTATGTCCATGGCATGCAGGCTGTGGATTCGCAGGAGCGCAAGCCGGACTCGGTTCTGAACCATTACCGCGCCGTCTTGTCCTTCCGCAAAGGTCACGGCGCGCTGCGCGATGGCGACATGCATTTTATCAAGACCAATCTCGATGTGCTGGCCTTCACGCGCCAGAAGGGGGATGAAAAACTGCTCTTCGTTTTCAACCTCACCCGTGAGGCGGTGGAATTCCCGATACCGAAGGCCATGCGGGTCACCGATATACTGCCGATGCCGGGTTTCGCACCGCTATTCGATGCGGGGATCGTGAAGCTCGAGGGGCTGGATGTGTTTTGCGGGGTCGTTGCATGA	MTLPYAPVHKPQAQSDWWKGAVIYQVYPRSFQDTTGDGYGDLAGVTKRLPYIASLGVDGIWLSPFFTSPMADMGYDVSDYCNVDPMFGTLADFDALMAEAHRLGLKVIIDQVISHTSDQHPWFVDSRASRTNSKADWYVWANPKPDGTAPTNWLSVFGGPAWEWDGVRKQYYMHSFLASQPDLNFHNPAVQDALLETVRFWLDRGVDGFRLDTVNHYFHDKLLRDNPPLFDEESFGLDASDVNPYGMQDHLYDKTRPENVAFLKRFRALLDEYEGRATVGEVGDGARSLKTVAAYTSGNDKLNMCYTFDLLGPDFSAKHLRASVETFGKVVTDGWVCWAFSNHDVVRHLSRFSESVEEQVRVAKLAICVLASLRGSICLYQGEELGLTEAELAFEDLRDPYGIRFWPAFKGRDGCRTPMVWETGKPNAGFSSAEKPWLPVPYVHGMQAVDSQERKPDSVLNHYRAVLSFRKGHGALRDGDMHFIKTNLDVLAFTRQKGDEKLLFVFNLTREAVEFPIPKAMRVTDILPMPGFAPLFDAGIVKLEGLDVFCGVVA	PGPT0018560_3904	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187	NA	NA
BMS010_01115	456			Aminoglycoside N(6')-acetyltransferase type 1	ATGAGCGGCCAATTTGCCATCGAGACGGCTGGCGAAGCATCGCTCGATGAGTGGTCCCTTCTGCGACACCGCTTGTGGCCCGATGCTTCACCCGCCGAACATCGGGCGGAGTTGCAGGACGTCTCCGACAATGAGGTTGGATTTATTGCCTATGATCCGGCTGGCATGGCCATCGGTTTTGCCGAAGCCAGCCTGCGGCACGATTATGTCAACGGATGCGACACCTCGCCCGTGGCGTTTCTCGAAGGCGTTTATGTGGAGGAGGCCTTTCGCAAACAGGGCGTTGCGGCTGCATTGATTGCCGAAGTAACCCGTTGGGCGACCAGCAAGGGTGTGAGCGAACTTGCTTCCGATGCCGATATTTCCAATGTCGATTCACACCGCATGCATGCGGCGCTGGGATTTGAGGAAACGCAGCGGGTGGTTTATTTTCGCAAGTCTCTGCCTCCGGATTGA	MSGQFAIETAGEASLDEWSLLRHRLWPDASPAEHRAELQDVSDNEVGFIAYDPAGMAIGFAEASLRHDYVNGCDTSPVAFLEGVYVEEAFRKQGVAAALIAEVTRWATSKGVSELASDADISNVDSHRMHAALGFEETQRVVYFRKSLPPD	PGPT0028640_87	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-STREPTOMYCIN|KANAMYCIN|AMIKACIN,PGPT0028640-aac6_I|aacA7-K18816	NA	NA
BMS010_01116	1695	ade	COG1001	Adenine deaminase	ATGAATTCCAGACTTGAAACGCGCATCGATCAGGGTACGGGCCGTGAACCGGCGGACATGGTTCTCAAGGGCGGACGCTTCTTCGACCTCGTCACCGGAGAACTCGTCGCTTCGGATATCGCCATCTGTGGCGACACCATCGTCGGCACCTGCGATAACTACAAGGGGCGACGGGAAATCGACATTTCCGGAAAGATCGTCGTTCCGGGTTTCATCGATACGCATCTCCATATCGAATCGTCGCTGGTGACACCGCACGAATTCGACCGCTGCGTTTTGCCCTATGGCGTTACCACGGCCATTTGCGACCCGCACGAGATCGCCAATGTTCTGGGCGTGGAAGGGCTTCAGTTCTTCCTCGACAGCGCCATGGAAACCATCATGGACATCCGCGTGCAGCTCTCCTCCTGCGTGCCCGCCACCCATCTGGAAACCGCCGGCGCCGATCTGCCCATCGAAAAACTGCTGCCGTTCCGGGGGCACCCGAAGGTCATCGGCCTTGCCGAATTCATGAATTTTCCGGGCGTCATCCACAAGGATCCGGTGTGTATGGCGAAGCTAGAGGCCTTTCAGGGCCAGCATATCGACGGCCATGCACCGCTTCTCTCCGGCACGGCTTTGAACGGCTATCTCGCCGCAGGCATCCGCACCGAACATGAATGCACGAGCGCGACTGAAGCGCTGGAGAAAATCCGCAAGGGCATGCATATTCTGGTGCGCGAAGGCTCGGTCTCGAAGGACCTGCACGCCCTGATGCCGATCATCACCGAGCGCCTGTCGCCCTATCTGGCCCTCTGCACGGATGACCGCAACCCGCTCGACATCGCCGAACAGGGCCATCTCGACTATATGATCCGCACCGCGATCGCCAGCGGAGTGGAACCGCTCGCCATCTACCGCGCCGCCTCCATTTCAGCCGCAAAAGCCTTTGGTCTGCGGGATCGCGGCCTTGTCGCACCGGGCTGGCGGGCCGATCTTGTGGTCATCGACAGCCTGCAGAACTGCAAGGCGAGCATGGTGCTTTCCGGCGGCAGGATCGTCGATGACGCCCTTTTTGCCACGCGTAAACCGGTCGCACCCGTCGGCCTCGACAGCGTCAAGGCAAGACCCGTGCTCGCCTCGCATTTCGGCGTGCCGGTCACGGAAGGCGAAAGCCCTGTCATGGGTGTGCTTCCCGGCAAGATCATTACCGAGCACCGCCGCTACAGGCTGCCGACGGATGGCAACCAGACCACCGTCGATCTTGAAAACGACATCATCAAGGTCGCCGTCATCGAACGCCACGGCAAGAACGGCAACCATGCCAACGGTTTCGTTCAGGGCTTCGGCCTGAAAAAAGGCGCCATCGCCTCCACCGTCGGCCATGACAGCCACAATATCTGTGTCGTCGGCGTGAGCGAAGACGACATGGCGCTGGCCGCCAACCGGCTCGGCGAAATCAAGGGCGGCTTCGTGGTGGTGGAAGACGGCAGGGTGACGGGCGAGATCGCTTTGCCCGTCGCCGGGCTGATGAGCCTCGAACCCTATGAGACCGTTCGCGATACGCTGCACACGCTCAGAAAAGCAGCCTATGCACTCGGCACGACGCTGGAGGAACCCTTCCTGCAGGTCGCCTTCCTGCCCCTGCCCGTCATCCCGCATCTGAAGATTTCCGATATGGGTATGGTGGATGTGGACCGGTTTGCGCTGATTTGA	MNSRLETRIDQGTGREPADMVLKGGRFFDLVTGELVASDIAICGDTIVGTCDNYKGRREIDISGKIVVPGFIDTHLHIESSLVTPHEFDRCVLPYGVTTAICDPHEIANVLGVEGLQFFLDSAMETIMDIRVQLSSCVPATHLETAGADLPIEKLLPFRGHPKVIGLAEFMNFPGVIHKDPVCMAKLEAFQGQHIDGHAPLLSGTALNGYLAAGIRTEHECTSATEALEKIRKGMHILVREGSVSKDLHALMPIITERLSPYLALCTDDRNPLDIAEQGHLDYMIRTAIASGVEPLAIYRAASISAAKAFGLRDRGLVAPGWRADLVVIDSLQNCKASMVLSGGRIVDDALFATRKPVAPVGLDSVKARPVLASHFGVPVTEGESPVMGVLPGKIITEHRRYRLPTDGNQTTVDLENDIIKVAVIERHGKNGNHANGFVQGFGLKKGAIASTVGHDSHNICVVGVSEDDMALAANRLGEIKGGFVVVEDGRVTGEIALPVAGLMSLEPYETVRDTLHTLRKAAYALGTTLEEPFLQVAFLPLPVIPHLKISDMGMVDVDRFALI	PGPT0021510_1541	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021510-ade-K01486	NA	NA
BMS010_01117	822		COG2206	Cyclic di-GMP phosphodiesterase	ATGCGTCAATTGAAATCAAGCGGCGCCGAAAGCATCGTCATCAACACCGCCAGGGGATACGATACCGAAGGCAGCGCGCGTTCCGCGGCTCCTTCGCCGCAACCGGGCAATTGCCCGGAAACCGTCGCCGCCGTTACCCATGCCGTACGCTCGGCCGCCGATACGATTGCCGAGACCTTTGCTTCCGCAGAAGAGGGCGGCGTTGTTTCGCTGAAGGGCATGGCTGCGGCGGCGGGCAAGATTTCCGATGCCGTGCAGTCGAACCCGGCGATTTTCATCGGCGTCACCCGCCTGAAATCGAAAGACGAAACGACTTTCGTGCACTCGGTCTCCGTCAGCGGGCTGATGATCCTCTTCGGTAATTATCTCGGACTCGACAGGGGAACGGTCAATCTGCTCGGCATCAGCGGGTTGCTGCATGATATCGGCAAGGTGGAAATCCCTTCATCGATCCTCAACAAGGCGGAAGGGTTGAGCGCCAGCGAGCGGGAAATCATCAATCTCCATCCCGCATTCGGCCGGGATATATTGTCGCGCAACGCGCAGATGCCGGAGATGGTGCTCGATGTCTGCTTCAATCATCATGAGCGGATGGATGGCGGCGGTTATCCCAGCGGCCGTGCGGGCAGCCAGATCAGCCTCTATGCGCGTATCGCGGCGATTTGCGACGTCTATGACGCCATCACCTCGGTCAGGCCCTACAAGAAGCCGTGGACGGCGAATGAGGCGCTGACCTGGATGCTGCGGCGGGAAGGGCACTTCGACACGCAGCTGCTGAAGAAATTCGCGCTGTGCATTTCCGCCTCGCTGCCGAGGGGTTAG	MRQLKSSGAESIVINTARGYDTEGSARSAAPSPQPGNCPETVAAVTHAVRSAADTIAETFASAEEGGVVSLKGMAAAAGKISDAVQSNPAIFIGVTRLKSKDETTFVHSVSVSGLMILFGNYLGLDRGTVNLLGISGLLHDIGKVEIPSSILNKAEGLSASEREIINLHPAFGRDILSRNAQMPEMVLDVCFNHHERMDGGGYPSGRAGSQISLYARIAAICDVYDAITSVRPYKKPWTANEALTWMLRREGHFDTQLLKKFALCISASLPRG				NA	NA	NA	NA	NA
BMS010_01118	513	mshD		Mycothiol acetyltransferase	ATGATAACGGCCGCCGACGCCATCAGCATCGAGCCGATCCGGGCAGAGCACGTTGAAAGCTTTCACCGTGCCCTCGATGCGGTGTCGCGTGAGCGGAAATATCTGAGCTTTCTGGAGGCGCCGCCGCTCGATTCGGTCCGCGCCTTCGTTCTCGACATGATCGAAAACGACCATCCGCAATTCGTGGCGATTGCGGATGGCAAGGTGGTCGGCTGGTGCGATATCCGCCGCCAGAGCAGAGACACCCGCGTCCATTGCGGCACCCTCGGCATGGGCATCCTGCCGGCCTATCGCGACAAGGGGCTGGGTGGAAAGCTGATGCGGCAGACGCTCGATGCCGCGCGTCAATGCGGGCTGCACCGTGTGGAACTGAGCGTGCATGCCGACAATGCCAGAGCAATCGCGCTTTATGAAAAGATCGGTTTTGTACATGAAGGCCGGGGCCGTGATGCCGTTCTGATCGACGGGCGTTACATCGACAGCCTGAACATGGCGATCATCTTGGGCAACTAA	MITAADAISIEPIRAEHVESFHRALDAVSRERKYLSFLEAPPLDSVRAFVLDMIENDHPQFVAIADGKVVGWCDIRRQSRDTRVHCGTLGMGILPAYRDKGLGGKLMRQTLDAARQCGLHRVELSVHADNARAIALYEKIGFVHEGRGRDAVLIDGRYIDSLNMAIILGN				NA	NA	NA	NA	NA
BMS010_01119	2190	menF_1		Isochorismate synthase MenF	ATGGTAACGATCATTCAGGATGACGGAGCGGAAACCTACGAGACGAAAGGCGGCATCAAGGTCAGCCGAAAGCGTCGGCCCGCCGATTACGCCCGCGCCATCGATAATTATATCGAAAAGCTCGATTCCCATCGCGGCGCGGTTTTTTCGTCCAACTACGAATATCCGGGCCGTTACACCCGCTGGGATACGGCTATCGTCGATCCGCCGCTCGGCATTTCCTGTTTCGGCCGCAAAATGTGGATCGAGGCCTATAATGGTCGCGGCGAAGTGCTGCTTTCCTTCATCACCGAGAAGCTGAAGGCGACGCCCGATCTCACGCTTGGCGCTTCCACCACGCGCCGTCTCGATCTCACCGTCAACGAGCCGGACCGCGTCTTTACCGAAGAAGAGCGTTCGAAAATCCCGACCGTCTTCACGGCGTTGCGCGCCATCGTCGACCTCTTTTATTCGAATGCGGATTCGGCCATCGGCCTGTTCGGCGCCTTCGGTTACGATCTCGCCTTCCAGTTCGACGCGATCAAGCTGTCGCTGGCGCGCCCGGAAGACCAGCGCGACATGGTGCTGTTTCTGCCGGACGAAATCCTCGTCGTCGACCATTACTCCGCCAAGGCCTGGATCGACCGCTACGACTTCGAAAAGGCCGGCGTGACGACGGACGGCAAGTCCTCCGACATCGCGCCCGATCCCTTCAAGACCACGGATACGATCCCGCCCAAGGGCGATCACCGTCCCGGTGAATATTCCGAACTGGTGGTGAAGGCCAAGGAAAGCTTCCGTCGCGGCGATCTGTTCGAGGTCGTTCCCGGCCAGAAGTTCATGGAACGCTGCGAAAGCAATCCGTCGGCGATTTCCCGCCGCCTGAAGGCGATCAACCCGTCCCCCTACTCCTTCTTCATCAATCTCGGCCATCAGGAATATCTGGTCGGCGCGTCGCCGGAAATGTTCGTGCGTGTCTCCGGCCGCCGCATCGAGACCTGCCCGATTTCCGGCACCATCAAGCGCGGCGACGATCCGATTGCCGACAGCGAACAGATTCTGAAGCTGCTCAACTCGAAGAAGGACGAGTCCGAACTGACCATGTGTTCGGATGTGGACCGCAACGACAAGAGCCGCGTCTGCGAGCCTGGTTCGGTCAAGGTCATCGGCCGCCGCCAGATCGAGATGTATTCGCGCCTCATCCACACGGTGGACCATATCGAAGGCCGCCTCCGGGACGATATGGACGCCTTTGACGGCTTCCTCAGCCACGCCTGGGCCGTCACCGTTACCGGTGCGCCGAAGCTGTGGGCCATGCGTTTCATTGAAGGCCATGAAAAGAGCCCGCGTGCCTGGTATGGTGGCGCGATCGGCATGGTCGGCTTCAATGGCGACATGAATACCGGTCTGACCCTGCGCACCATTCGCATCAAGGACGGCATCGCCGAAGTGCGCGCCGGCGCGACCCTGCTTAACGATTCCAATCCGCAGGAAGAAGAAGCCGAAACCGAACTGAAGGCGTCCGCCATGATCGCTGCCATCAGAGATGCAAAAGGCACCAACGCCGCAGCCACCAAGCGTGATGCCGCAAAGGTCGGCACCGGCGTCAAAATCCTGCTCGTCGACCATGAGGACAGTTTCGTGCACACACTGGCGAATTATTTCCGCCAGACGGGTGCAACGGTCTCGACCGTTAGAACACCTGTCGCGGCCGAAGTCTTCGATCGCTTCCAGCCGGATCTCGTGGTCCTCTCCCCCGGACCGGGCAACCCGACGGACTTCGACTGCAAGGCGACAATCAAGGCCGCCCGCGCGCGTGAACTGCCGATCTTCGGCGTCTGCCTTGGCCTTCAAGCACTGGCGGAAGCCTATGGCGGCGAGTTGCGCCAGCTTGCGGTGCCGATGCATGGCAAGCCGTCGCGCATTCGCGTACTGGAACCGGGTCTCGTCTTCTCCGGCCTCGGCAAGGAAGTGACCGTTGGCCGTTACCACTCGATCTTCGCCGATCCCACCACCCTGCCGCGTGATTTCATCATCACCGCGGAAAGTGAGGACGGCACGATCATGGGCATCGAACACGCCAAGGAGCCGGTGGCCGCCGTTCAGTTCCACCCGGAATCGATCATGACGCTCGGCCATGACGCCGGCATGCGGATGATCGAGAACGTGGTGGTGCATCTGACCCGCAAGGCAAAGACCAAGGCGGCATGA	MVTIIQDDGAETYETKGGIKVSRKRRPADYARAIDNYIEKLDSHRGAVFSSNYEYPGRYTRWDTAIVDPPLGISCFGRKMWIEAYNGRGEVLLSFITEKLKATPDLTLGASTTRRLDLTVNEPDRVFTEEERSKIPTVFTALRAIVDLFYSNADSAIGLFGAFGYDLAFQFDAIKLSLARPEDQRDMVLFLPDEILVVDHYSAKAWIDRYDFEKAGVTTDGKSSDIAPDPFKTTDTIPPKGDHRPGEYSELVVKAKESFRRGDLFEVVPGQKFMERCESNPSAISRRLKAINPSPYSFFINLGHQEYLVGASPEMFVRVSGRRIETCPISGTIKRGDDPIADSEQILKLLNSKKDESELTMCSDVDRNDKSRVCEPGSVKVIGRRQIEMYSRLIHTVDHIEGRLRDDMDAFDGFLSHAWAVTVTGAPKLWAMRFIEGHEKSPRAWYGGAIGMVGFNGDMNTGLTLRTIRIKDGIAEVRAGATLLNDSNPQEEEAETELKASAMIAAIRDAKGTNAAATKRDAAKVGTGVKILLVDHEDSFVHTLANYFRQTGATVSTVRTPVAAEVFDRFQPDLVVLSPGPGNPTDFDCKATIKAARARELPIFGVCLGLQALAEAYGGELRQLAVPMHGKPSRIRVLEPGLVFSGLGKEVTVGRYHSIFADPTTLPRDFIITAESEDGTIMGIEHAKEPVAAVQFHPESIMTLGHDAGMRMIENVVVHLTRKAKTKAA	PGPT0007100_95	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007100-trpEG-K13503	NA	NA
BMS010_01121	924			hypothetical protein	ATGCTTCATCGCCTGTGTCTTCTGGTAACCACCCTCGCATTGATTTCCGCCTCTGAACCGCCGGCGCAGGTGCCGGTGCCGCAACCGAAACCGGGTGAGGGGCAATCCGCCACCCCTGCGGAAAAGCCATCGGACGAGCCGCCGCAAAGCCCGGTGGAAGCGCCGAAACCAGCCCCGAAACCGCAGGTCCCGGAAGAGGGGAAACCGGATGACGGCAAGACGCCGGCAGACAAGGGGTCCGATGACAGCAGGAAAGGCGTCGAAGGCAAGGCGGGGGAGGGCAAAGAGGATGGTGAACAACGCAAGCCGGATGTTGACGCTGCAAAACCGGAAGAGAAGCCGCCGGAGCCGGTGAGGCCGGAAGACCCGGCCGCGCTTCAGGCATGCCTTGGCGCGTTGAAGGATATCGGCGCGGAATTCAAACAGCTCGAACCGATCCGCGATGCGGAGCAGGGCTGCGGCATCGAAGCGCCTGTCGAGCTTTCCGTGGTTCTGCCCGGCATCAAGCTGGAACCTTCGGGGACCATGCGCTGCGAAACCGCGCTCGCGCTTTCCCGCTGGACAAAGGAAATGATGCTGCCGGCTGCGGCTCTGGCTATGCCGGAGAAAAAGGTGACGGCCATCGCCAATGCCTCGACCTATATCTGCCGCAACCGCAACAGCGCGGAAAACGGCAAGATTTCCGAACATGCCAAGGGCAATGCCGTCGATATTTCCACGATCGCTTTCGATAAGGGCGAGCCGCTGGTGATGAAGCCGCGCGGTGAAGACGGAACGCCGGAAGGCGCTTTCCAGCGCACGATTACCGCCGCCGCCTGCCTGTTCTTCCGCACGGTTCTTTCCCCCGGCAGCGACGCCACCCATCAGGACCACCTGCATCTCGACGTGCTGGAGCGCAAGGGCGGCTATCTCTATTGCCGCTGA	MLHRLCLLVTTLALISASEPPAQVPVPQPKPGEGQSATPAEKPSDEPPQSPVEAPKPAPKPQVPEEGKPDDGKTPADKGSDDSRKGVEGKAGEGKEDGEQRKPDVDAAKPEEKPPEPVRPEDPAALQACLGALKDIGAEFKQLEPIRDAEQGCGIEAPVELSVVLPGIKLEPSGTMRCETALALSRWTKEMMLPAAALAMPEKKVTAIANASTYICRNRNSAENGKISEHAKGNAVDISTIAFDKGEPLVMKPRGEDGTPEGAFQRTITAAACLFFRTVLSPGSDATHQDHLHLDVLERKGGYLYCR				NA	NA	NA	NA	NA
BMS010_01122	2241	pfeA_1	COG4771	Ferric enterobactin receptor	ATGTCCATTTCGCGCACGCATTCCGCGCTGCTTCTGTGCACTGCCATCTCTCTTCTGCCGCTTGCCGGCCCCGCGCGGGCCAAGGACGCCGCGGCGCAAGCGGACGAGGCCACCACGCTTGAAAGGATCGTCGTCAAGGGCAAGCGCGTCAAAAGCGCAAATGCCGCCGCCGACACGCCGCTGGCGAGCCAGACCACGGCGGAAGACATCCGCAAGAAGGATATCGGCAGCATCAAGGACCTCGGCAATAGCACGGAGCCGGGCGTCGATTACGTCGATGCCAAGCCCGGCCGGCCCGGCGGCCTGTTCATTCGCGGCCTCGGCGGCGCGCGCGTCGTCACTTTGATCGACAATATTCCCGTTCCTTATTTCAACAATTTCGCCCGTCAGGGTCAGGCAACCACCACCCTCAGCGATACGAGTTCGAGCTTCGATTTTTCCTCGCTCTCGACGGTCGATGTGGTGCGTGGCGCAGATTCCAGCCGTATCGGCTCCGGTGCCCTCGGCGGCGCGCTGGTGCTGCGCACGCTCGATCCGGAAGACCTGATCGGCGAAGGCAGGGACTGGGGCGGCGTGGCCAAGACCACCTATGACAGCGAAGACAGAAGCGTGGGCGGATCGCTCGCCGTCGCCAGGAAGATCGAGAATACTTCGGTCCTGTTCCAGGGCTCCTACAAGCGCGGCAACGAGACGGACAACAAGGGCACCGCCGATATCTACGGCACGCGCCGCACCAAGCCCAATCCCGCCGACACCTATGAAAGCAACCTGATGTTCAAGATCCGTCAGGATCTTGAAGGCGGTCACAGCATCGGGCTGACGGCCGAGCGCTATTCTCTGAGAAACCGCAGCGACATGAAGACCCTGCAGGGCGTCAGCGTTTCGGGCTCGACCTACCGGATCGGCGACTACCGGGGCTATGAGGATACCGAGCGCGATCGCGTATCGCTCGATTACGAATACGAAGCGCCCTCGACCGACGGCTTCATCGACGCCGCCAATCTTTCGCTCTACTGGACGCGTCTTTCCAAGGAATCCGGTGCCGGCGACCGCCTGACCAACAATTCGCTTTATATTCGCGAAGACAGCATGCGCAACAGCGCATTCGGCATCGTCGGCGGCCTTGAATCCGGCTTCGAGCTTGGCGGCGTGCAGCACACGGTCCGTTTCGGCGGCAACGCCATGACGACCGATTTCAGCCAGGAGCTTTTCGCCAACACGGCCGGATCGACCTCGTCCTCGCAATCGGACATGCCTGACGTGAGCGGCAAGAGCCTCGGTCTTTATCTCGATGACGAAATCGCCTTCGGCAACGGCTTCCGCCTGACCCCCGGCCTGCGCTTCGATTCCTACGATTACGATCCCGATGGCTCCGTTTCCAGCAACAGCGGCTACCGAACATTCGGCCTGCCGAGCGGCAACAGCGGCTCGCGCTTCTCGCCGAAGCTTCTTGCCACCTATGACGTCACGCCCGAACTGCAGCTTTTCGCACAATGGTCGATGGCCTATCGTGCCCCGACGATCAACGAACTGTATCTGAACTTCTCCAACGTCAGCTCCGGTTACGCTGTTGTGGGCAACTCCGCCCTCAATCCCGAGACCAGCAACGGTTTCGAGATCGGTGCGAACTACGCCTCCGGCGACCTCACGGGAAGCCTGACGCTGTTCCACAACAAGTACAAGAACTTCATCGAGCAGTACACGACGTCGACAACGCTCTTCCCCGGCTTCGGCGGCAGGGGCAACGGATCGCTCTTCACCTATCGCAACCGTAACAACGTCGAAATCTCCGGTGTCGAAGCCAAGGTCCGCAAGGACCTCGCCAACGGCTTCTTCGCCCACGCTTCGCTTGCTTACGCCTATGGCAAGGACACCGATACCAACGAATTCATTCGCACGGTCGCGCCCTTCAAGTCCGTCGTCGGCATCGGCTACGAGCAGGACGTCTGGGGCACGGAATTTACCGGTGTCTTCTCCTCCGGCATGCGTGACGACAGGGTGGCCAACACCTTCGACGCCCCCGGCTATGGCGTCTTCAACCTGACCGGCTGGTGGGAACCGGAACAGACCAAGGGCCTGCGCATCCAGGCCGGCATCTACAACCTGTTCGACAGGAAATACTGGAATGCCGTCGGCGTTCGCGACGTGAACCCGAATGCCGTCAGCACCGTCAACCAGCCGGTGGACTTCTATACGGAAGCCGGACGCACCTTCAAAATCTCTCTGACCCAGAAATTTTAA	MSISRTHSALLLCTAISLLPLAGPARAKDAAAQADEATTLERIVVKGKRVKSANAAADTPLASQTTAEDIRKKDIGSIKDLGNSTEPGVDYVDAKPGRPGGLFIRGLGGARVVTLIDNIPVPYFNNFARQGQATTTLSDTSSSFDFSSLSTVDVVRGADSSRIGSGALGGALVLRTLDPEDLIGEGRDWGGVAKTTYDSEDRSVGGSLAVARKIENTSVLFQGSYKRGNETDNKGTADIYGTRRTKPNPADTYESNLMFKIRQDLEGGHSIGLTAERYSLRNRSDMKTLQGVSVSGSTYRIGDYRGYEDTERDRVSLDYEYEAPSTDGFIDAANLSLYWTRLSKESGAGDRLTNNSLYIREDSMRNSAFGIVGGLESGFELGGVQHTVRFGGNAMTTDFSQELFANTAGSTSSSQSDMPDVSGKSLGLYLDDEIAFGNGFRLTPGLRFDSYDYDPDGSVSSNSGYRTFGLPSGNSGSRFSPKLLATYDVTPELQLFAQWSMAYRAPTINELYLNFSNVSSGYAVVGNSALNPETSNGFEIGANYASGDLTGSLTLFHNKYKNFIEQYTTSTTLFPGFGGRGNGSLFTYRNRNNVEISGVEAKVRKDLANGFFAHASLAYAYGKDTDTNEFIRTVAPFKSVVGIGYEQDVWGTEFTGVFSSGMRDDRVANTFDAPGYGVFNLTGWWEPEQTKGLRIQAGIYNLFDRKYWNAVGVRDVNPNAVSTVNQPVDFYTEAGRTFKISLTQKF	PGPT0003785_983	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_COMPLEX_RECEPTOR,PGPT0003785-TC_FEV_OM3|tbpA|hemR|lbpA|hpuB|bhuR|hugA|hmbR-K16087	NA	NA
BMS010_01123	522			hypothetical protein	ATGAAGTCTCTTGAACTGCTCGTCGAGCGGATCATCCTCTCCAGCCGCTGGCTGCTCGTCGTTTTTTATCTCGGGCTCGTCGCGGCACTGGCGGTTTATGCGTTTTCCTTCGCGCTCAAGTTTCTGAAAGTTGCGAAGAACGTTTTCACCTACGACGAAGCGGACATGATCCTCGCCATGCTGGGTCTGATCGATGCGGCGCTGGTCGCCAGCCTGATCGTCATGGTGATGATTTCCGGTTACGAGAACTTCGTCAGCCGCTTCGACGATGCCGATGCCGAGGTTTCCTTTCTGGGCAAGCTCGATTCCGGCAGTCTGAAAATCAAGGTCGCGTCGTCGATCGTGGCGATCTCGTCGATCCACCTGCTGCAAATCTTTCTCAACGCCAGTCAATATTCGGACAGCAAGCTGATGTGGTTCACCATCATCCATCTGGCTTTTGTCGTCTCGGCGGTCATGCTCGGTTTCCTGGAAAAACTGATGGCCAAGCCGAAGGACAAATCCGAAAAGCCGGTGCTTTGA	MKSLELLVERIILSSRWLLVVFYLGLVAALAVYAFSFALKFLKVAKNVFTYDEADMILAMLGLIDAALVASLIVMVMISGYENFVSRFDDADAEVSFLGKLDSGSLKIKVASSIVAISSIHLLQIFLNASQYSDSKLMWFTIIHLAFVVSAVMLGFLEKLMAKPKDKSEKPVL				NA	NA	NA	NA	NA
BMS010_01124	717			hypothetical protein	ATGGTGAAGACGGAGCGTCAGGCCAGACTTTGCGACGATCTGTCGGCTGCGGCCGACAAATCCCAATGGCTGGAGGCCCTGCGGGAAGTGATGTGCGCCTTCGGTTATGCCTATGTGACCCTTTTGCGGTTGCCCGGCGGCCAGAATGCCTATGCCTTGCCGACTGTTGTCGAAAGCAGCCTGCCCATCTGGGTCGTGAATGCGATGACCAGGGACGGCGCGCTTGGGGAGTGTCCCGTCATCAAGCGCGGCGCGTCGTCGATGATGCCGCAATATTGGTCGCTGCAGGATCCGGATATTGCCTGCGGACCGCTGGTGGATGCGGCGGCCTCGCTGAGCAGCATGGGCATTACGTCCGGTCTGATGGTGCCGGTGCATGGCATGTACGGCAACCGGCATCTGATGAATTTCGCGGGCGATCGCGATATCCTGCCGCAAGCCGCACTCAACGAGCTGGGCATGATCGTGCTGCATGCGCTGGAGGTTTATGACCGGCTTTGCCGCACCAACTCAAAAGGTCCATCGCCTTTGACGAAGCGGGAACTCGATGTGGTGCGCTGGACGGCGCAGGGAAAGACCTCCGTGGAGATCGCCGAGCTTCTGTCCATCTCGGAACATACCGTCAATGCCTATATGAACAACGCCATCCGCAAGCTCGACTGCGTCAACCGCACCCAGCTGGTGGCCAAGACAATACGCCTTGGCCTGATAGACTGA	MVKTERQARLCDDLSAAADKSQWLEALREVMCAFGYAYVTLLRLPGGQNAYALPTVVESSLPIWVVNAMTRDGALGECPVIKRGASSMMPQYWSLQDPDIACGPLVDAAASLSSMGITSGLMVPVHGMYGNRHLMNFAGDRDILPQAALNELGMIVLHALEVYDRLCRTNSKGPSPLTKRELDVVRWTAQGKTSVEIAELLSISEHTVNAYMNNAIRKLDCVNRTQLVAKTIRLGLID				NA	NA	NA	NA	NA
BMS010_01125	1152			hypothetical protein	ATGATCGACCGGATCACCGCTTTGATTCAGGCAGCCTTCAGCGCCATCGGCAGGGCCGCCGGTCTTCTCGTCGCCTGGCTTTTGTGGCCCTTCATGGCCGCCCACGGCTGGTACAGCGGCCGCAACTGGCTCATCAAGGGCCCGATCGCCCTCATCGTCATTCTTCTCGCCGGCTTCTACGGATATTTCATCTGGCAAACCCAGGTCTGGACGAATTTCGACCCGGATTACGTCGCGCGCTACAAGCTTGAAGAGCGCACCGTGCCTGCCGGGCAGGAATTGCCCGCCGCCGCCCCGGCGGGTGGCGCAACGGGCGCCGCCGCAAACACATCCGCGCCGGTCTGCCAGCGTTCGGCCATCGTCGACGCAGCCGCCGATCTCACCGATTTCAACGTCAACCAGAACGCGTGGATTTCCTCCATGCTGCTCTATCGTCTCGGCCTTTTCGGCATGGACTGGGACAGCACGCCGTTTCTGGACAACAAGGCGTCTTTCCAGCGTGGTGTAAACCAGGCCGTGCGCCGCACCTCGGTGGAACTTGTGGATACGCTCGGCCGCGTGCGCGGAACCTCCGGCATCAACAACAATCTCCAGGAAGCGCGCGGCAACATGCAGTTCAGCGAGTATTCCTGGTATTTCGGTCTCGATCCCTTCGGCCCGAAGACCCCGACCCCCAGCTATTACCGCGCCGCCATCCGCAGCTTCCAGGCCTTCAATGGCGAACTCGCCGCCTGCAAGGCCGTCTTCGATACCCGCGCCGACAACCTCATCCAGTTCATCGACCGTATCGCCGGCGATATCGGCTCCACGTCTGCAATTCTGCGCGAACGCTCGGAAAATTATAATGGCGGCTGGTTCGATACGCGCGCCGATGACCGCTTCTGGTTCGCCTATGGCCAGCTTTACGGCTATTACGGCGTGCTTTCCGCCGCCGGATCGGACTTCGCGCAGGTCATCCGCGAGCGTAACCTGACCAACCTGTGGAACGACACGCTGTTGCAGACCCGCGCAGCCCTGCGCATCCAGCCGGCGATCATTTCCAATGGTGAGGAAAGCGGCTGGATCATGCCCTCGCACCTCGCCACCATGGGATTTTACGTTTTGCGGGTCCGCTCTAATCTCGTCGAGCTTCGCTCGGTTCTCGACCGGTAA	MIDRITALIQAAFSAIGRAAGLLVAWLLWPFMAAHGWYSGRNWLIKGPIALIVILLAGFYGYFIWQTQVWTNFDPDYVARYKLEERTVPAGQELPAAAPAGGATGAAANTSAPVCQRSAIVDAAADLTDFNVNQNAWISSMLLYRLGLFGMDWDSTPFLDNKASFQRGVNQAVRRTSVELVDTLGRVRGTSGINNNLQEARGNMQFSEYSWYFGLDPFGPKTPTPSYYRAAIRSFQAFNGELAACKAVFDTRADNLIQFIDRIAGDIGSTSAILRERSENYNGGWFDTRADDRFWFAYGQLYGYYGVLSAAGSDFAQVIRERNLTNLWNDTLLQTRAALRIQPAIISNGEESGWIMPSHLATMGFYVLRVRSNLVELRSVLDR				NA	NA	NA	NA	NA
BMS010_01126	453	pazS_1		Pseudoazurin	ATGCAGAACAGAACTGCCAAATTCGCCGGCCTCGCCATTCTCGCAGGTCTTTTCGCCTTTCCCGCCCTTGCTGCCGAAATCGAAGTGAAGATGCTCAACAAGGGCAGCGACGGTCAGGCGATGGTCTTCGAGCCCGCAACCGTCAAGGCCGCCGTCGGCGACGTCATTACCTTCGTCCCGGTCGACAAGGGCCATGATGCGGCAGCCGTGAAGGACATGATCCCCGAGGGTGTCGCAGACTTCAAGGGCAAGATGAACGAGACGGTGAAGTTGACGGTCGAGAAGGAAGGCGCCTACGTCGTCAAATGCACACCGCATCTGGGCATGGGCATGATCGCGCTCGTTGTCGTCGGCGATGCCGCGCCGGCCAATCTGGACGCCGTCAAGAACGGCAAACTGCCGAAAAAGGCGCGCGACCGGCTGAACGACGAGATCGCCAAGCTCGGCCTTTGA	MQNRTAKFAGLAILAGLFAFPALAAEIEVKMLNKGSDGQAMVFEPATVKAAVGDVITFVPVDKGHDAAAVKDMIPEGVADFKGKMNETVKLTVEKEGAYVVKCTPHLGMGMIALVVVGDAAPANLDAVKNGKLPKKARDRLNDEIAKLGL				NA	NA	NA	NA	NA
BMS010_01127	582	tdk		Thymidine kinase	ATGGCAAAACTCTATTTCAATTATTCGACGATGAATGCCGGCAAATCGACCATGCTGCTGCAGGCATCCTACAATTATCAGGAGCGCGGCATGCGCACACTGATCTTCACGGCCGCCTTTGACGACCGGGCCGGCGTCGGCCGTGTCGCCTCGCGAATCGGCCTCTCTTCCGACGCCCTGACCTTCGATGACAATACCGACCTGTTCGCCGAGGTATCGGCCCTCACTGCCGAAGCGCCGGTCGCCTGCGTTTTCATCGATGAAGCCAATTTTCTCTCCGAGCACCATGTCTGGCAGCTTGCCGACATTGTCGACAGGCTGAACATCCCGGTCATGACCTATGGCCTGCGCACGGATTTTCAGGGAAAGCTTTTCCCCGCCTCGAAAGAACTGCTGGCCATTGCCGACGAGCTTCGCGAAATCCGCACCATCTGCCATTGCGGCCGCAAGGCGACGATGGTCGCCCGCTTCGACAATGAAGGAAAGGTCGTGACGAAAGGCGCGCAGATCGATGTCGGCGGCAACGAGAAATATGTTTCCTTCTGCCGCCGCCACTGGGTGGAGACGTTCAAGGGCGAGTGA	MAKLYFNYSTMNAGKSTMLLQASYNYQERGMRTLIFTAAFDDRAGVGRVASRIGLSSDALTFDDNTDLFAEVSALTAEAPVACVFIDEANFLSEHHVWQLADIVDRLNIPVMTYGLRTDFQGKLFPASKELLAIADELREIRTICHCGRKATMVARFDNEGKVVTKGAQIDVGGNEKYVSFCRRHWVETFKGE	PGPT0021390_2692	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021390-tdk-K00857	NA	NA
BMS010_01128	954			hypothetical protein	ATGTTTGCAAATAGAAGCCGCTGTCTGGCCCTGGCCGCAGCAATCTCCTCCATGACGTTCAGTGCGGCCGGTGCTGCGGAACCGGCAAGCTGTGGCACAGTGCGCTTTTCCGATGTGGGCTGGACCGACATCACCGCCACGACGGCGACCGCCACCGTGCTTCTGAAAAGCCTTGGCTATGAAACCGACGTCAAGCTTCTCTCCGTACCCGTTACCTACACATCCCTGAAAAACAAGGACATCGACGTCTTCCTCGGCAACTGGATGCCGACCATGGAAGGCGATATCGCGCCTTATCGCGAAGACAAATCCGTGGAAACGCTGCGGGAAAACCTGACCGGCGCGAAATACACGCTGGCGACCAACGCCAAGGGCGCCGAACTCGGCATCAAGGATTTCAAGGACATTGCCGCCCACAGCGCCGATCTCGGCGGCAAGATCTATGGTATCGAGCCGGGCAACGACGGCAACCGCCTGATTCTCGACATGGTGGCCAAGGACAGTTTCGGTCTGAAGTCATTCGAGGTCGTCGAGTCGTCCGAACAGGGCATGCTCTCCCAGGTGGCGCGCGCCGAAAAATCCGGCGATCCCATCGTCTTCCTCGGCTGGGAACCGCATCCCATGAATGCGAATTTCAAGCTGACTTATCTGACCGGCGGGGACGAGGTCTTCGGCCCCAATCTCGGCGGCGCGACGATCCATACCAATGTCCGCAAGGGTTACGTCGAGGAGTGCCCCAACGTCGGCGCCTTCCTCAAGAACCTGCAATTTTCCCTGCCCATGGAAAACGAGATCATGGGCAAGATCCTGAATGACGGCCTTGAGGGCGAGGCGGCTGCAACCGCCTGGCTGAAGGCCAATCCGACGGCGATCGAGCCCTGGCTCGCCAACGTCAAGACCAAGGACGGCAGCGCTGACGCCCTGCCTGCCGCCAAGAAGGCTCTCGGCCTCTAA	MFANRSRCLALAAAISSMTFSAAGAAEPASCGTVRFSDVGWTDITATTATATVLLKSLGYETDVKLLSVPVTYTSLKNKDIDVFLGNWMPTMEGDIAPYREDKSVETLRENLTGAKYTLATNAKGAELGIKDFKDIAAHSADLGGKIYGIEPGNDGNRLILDMVAKDSFGLKSFEVVESSEQGMLSQVARAEKSGDPIVFLGWEPHPMNANFKLTYLTGGDEVFGPNLGGATIHTNVRKGYVEECPNVGAFLKNLQFSLPMENEIMGKILNDGLEGEAAATAWLKANPTAIEPWLANVKTKDGSADALPAAKKALGL	PGPT0013640_1998	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013640-gbuC|proX-K02002	NA	NA
BMS010_01129	948	opuAB_1	COG4176	Glycine betaine transport system permease protein OpuAB	ATGCTCTATTTCTTTGTTGTCTGCGCAATTCCGGACGCAAAACCGCTCTGCACTTTTGCCGGAATTGTTTTAGTTCACGAAAGGTCTTTTCTTACCGTGGAATGGCTCAGCGCTCCTGAAAACCGCCTGCCTGTCGGCCGATATGCCAAGGAGGCCATTGACTGGCTGACCGGCAATCTCGCTTTTTTCTTCGATTGGCTTTCCTTCATTTTCCAAAGCGTCATCAACGCCCTGCTTTATGTGCTGCAGGCGCCGCATCCGCTTGTCATCGTCGCGATCCTGACGGCGCTTTCCGCCTGGACGCGCCGCTCCGTCGGCATGCCGGTCTTCACGGCGCTCGGCCTGCTGCTCATCATCAATCTGGGCTACTGGAAGGCGACGACGGAAACGCTGGCGCTCGTCATCGCCGCCAGCGCCGTGTGCATGATCATCGGCATACCGCTCGGCATATTGGCGGCGCGGCGCAAGTGGATCTATGCCGGCATGCGCCCGGTGCTGGACCTGATGCAGACCATCCCCACCTTCGTTTATCTGATCCCGGCGCTGGTGCTGTTCGGTCTCGGCATGGTTCCGGGGCTCATCGCCACCGTCATCTTCGCCATTCCGGCCCCGGTGCGGCTCACCCGCCTCGGCATCGTTTCGACGCCGCCGGCGCTGGTGGAGGCGGCCGTTGCTTTTGGCGCCACGCCTTCGCAAGTATTGCGCAAGGTGGAGCTTCCCTTCGCCGCGCCGCAGATCATGGCCGGCCTTACCCAGACGATCATGCTGTCGCTGTCGATGGTGGTCATTTCCGCCCTGGTGGGCGCCAATGGTCTGGGTGTGCCGGTGGTGCGCGCGCTCAATACCGTCAATATCGCCATGGGCTTCGAAGCGGGACTGTGCATCGTCATACTGGCGATCGTTCTCGACCGGCTTTTCCGCCTTCCCGGCGCGGAGGATGATCTATGA	MLYFFVVCAIPDAKPLCTFAGIVLVHERSFLTVEWLSAPENRLPVGRYAKEAIDWLTGNLAFFFDWLSFIFQSVINALLYVLQAPHPLVIVAILTALSAWTRRSVGMPVFTALGLLLIINLGYWKATTETLALVIAASAVCMIIGIPLGILAARRKWIYAGMRPVLDLMQTIPTFVYLIPALVLFGLGMVPGLIATVIFAIPAPVRLTRLGIVSTPPALVEAAVAFGATPSQVLRKVELPFAAPQIMAGLTQTIMLSLSMVVISALVGANGLGVPVVRALNTVNIAMGFEAGLCIVILAIVLDRLFRLPGAEDDL	PGPT0013635_998	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013635-gbuB|proW-K02001	NA	NA
BMS010_01130	1047	btuD_4		Vitamin B12 import ATP-binding protein BtuD	ATGAGTGACGCCATCATCTTCGGAAATGTCGATATCGTTTTCGGCGACCGGCCCGATGCGGCGCTGTCGCTGATCGACAAGGGCAGCACGCGTGACGAGATCAATGCTGAAACCGGACTGGTTCTCGGCGTCGCCAATGCCTCGCTCTCGGTCAGCGAGGGCGAGATACTCGTGCTCATGGGTCTTTCCGGCTCGGGGAAGTCGACCCTGCTGAGGGCCGTCAACGGGCTTGCGCCCGTGGTGCGCGGCAATGTCGGCGTGAAGACCAAGTCCGGCTATGTCGATCCCTATCGCTCGACGGCGAAAGCGCTGCGCGATCTGCGCATGCACACGGTCTCCATGGTCTTCCAGCAATTCGGCCTTCTGCCCTGGCGCAATGTGGCCGATAATGTCGGCTTCGGGCTTGAGCTTTCCGGCGTGCCGGAAGCCGAGCGCAAGCGCATGGTGGCCGAGCAGCTGGAGCTGGTCAATCTCTCCGCCTGGGCCGACCGCAAGGTGGGAGAGCTTTCCGGCGGCATGCAGCAGCGTGTGGGGCTGGCGAGAGCTTTTGCCACCGGCGCGCCGATCCTGTTGATGGACGAGCCATTCTCCGCGCTCGACCCTCTCATCAGAAGCCGCCTACAGGACGAGCTTCTGGAGTTCCAGAGCCGGCTGAAGAAAACTATCCTCTTCGTCAGCCACGATCTGGATGAGGCCTTCCGCATCGGCAACCGGATCGCCATGATGGAGGGCGGACGCATCATCCAGTGCGGAACGCCGCAGCAGATCGTCAAGCAGCCGGCCACGCCCTATGTCGCGGATTTCGTGCAGAACATGAACCCGATCTCCATGCTGACCGCCGCCGATGTGATGAAGCGTGGGGTGGACGAACGCAACGGGCAGATGACAGTCGCCGCCACCGCCCGCCCGTCATCGCCGCTCATCGATATTCTCGATGCGCTGTCAAAACATTCCGGCGCGATCGGCGTCGTCGACAACGGTGCTATCGTCGGCACGATTTCCGCCGATGAAGTTGTCGCGGGGCTGACGCGTCACCGCAAAAAATAG	MSDAIIFGNVDIVFGDRPDAALSLIDKGSTRDEINAETGLVLGVANASLSVSEGEILVLMGLSGSGKSTLLRAVNGLAPVVRGNVGVKTKSGYVDPYRSTAKALRDLRMHTVSMVFQQFGLLPWRNVADNVGFGLELSGVPEAERKRMVAEQLELVNLSAWADRKVGELSGGMQQRVGLARAFATGAPILLMDEPFSALDPLIRSRLQDELLEFQSRLKKTILFVSHDLDEAFRIGNRIAMMEGGRIIQCGTPQQIVKQPATPYVADFVQNMNPISMLTAADVMKRGVDERNGQMTVAATARPSSPLIDILDALSKHSGAIGVVDNGAIVGTISADEVVAGLTRHRKK	PGPT0013630_2166	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013630-gbuA|proV-K02000	NA	NA
BMS010_01131	321	hlyU	COG0640	Transcriptional activator HlyU	ATGGATAATCAATCTCTGTCGGAACATAGCATCGCCGCTGCAGACTTGCTCTCAGCCATGGCGAATCCCAAGCGCCTGATGATCTTGTGCACGCTGGTGGATACGGAAGTGCCGGTCGGTGTTCTCGCTTCACAGGTTGGTCTCAGCCAGTCCGCTCTCTCGCAGCATCTTTCGAAATTGCGTGCCCAGCGGCTGGTGAAGACACGACGGGATGCGCAGACCATCTATTATTCCAGCAATTCCGAATCCGTGAAAAAAATCCTCGCATCCCTCGAGGAAATTTACTGCCAGGCGCAGAAGAGCAGCAAGACCGCTGCATGA	MDNQSLSEHSIAAADLLSAMANPKRLMILCTLVDTEVPVGVLASQVGLSQSALSQHLSKLRAQRLVKTRRDAQTIYYSSNSESVKKILASLEEIYCQAQKSSKTAA	PGPT0016126_272	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0016126-bigR-K22042	NA	NA
BMS010_01132	1176			hypothetical protein	ATGATCGCAGCAGATGAAGAATTTCTGACGGGCCTGCCCGTCTTCCGGCATTTTGAAGACGTGGCCGACCCGGCGCTTTATCGCGCCCTGCCGCCGGGATGGGGGCTGGCCATCGCCGATATCATCGATTCGACCTCGGCAATCGGCACCGGCCGCTACAAGGCCGTCAACATGGCGGGTGCGGCGGTCATATCGGGCGTATCGAACAGTCTCGGCCGTCACGACCTGCCCTTCGTTTTCGGCGGCGATGGCGCTGCCGTCGCGGTGCCGCCGCATGGGCTGTCTGTCGCACGCACCGCGCTTTCGAATGTGCAGCGCTGGGTGAAGGACGATCTCGATCTTGCCATGCGCGTGGCGCTGGTTCCCGTCGAGGATATTCGTGAAAATGGCTTCGATATTCGTGTCGCGCGCTTTCAGGCGAGCGAGGATGTTTCCTACGCCATGTTTTCGGGCGGCGGCAACAGTTGGGCGGAAGCGCGGATGAAGGAAGGGCAATATGCCCTGCCCGCAGCCGAAACGGGCGAGCGTCCCGATCTCACCGGTCTTTCATGCCGCTGGAACCCCATTCCGGCCACCCATGGCAAGGTGGTGTCGATCATCGCCGTGCCGGGGCCGTCGCGGGACATGCCGGCATTTCGCCAACTGGTCGTCGATCTTGTCGATCTGGCCGAACAGGACGCGAGACACGGCCACCCCGTGCCGGAGGATGGGCCGAAACTCGGCTTCGTGCGCGAGGGTCTCGGCCTTGAAGCTCGTGCCGGCGCTGCCTATCGCGATGTCTGGGGCAAGATGCGCCGCTCGTTTCGCATTCTCGGCGAGTCCCTGCTCGTCAATCTCTTGAGTGTGACGGGGCTCTCGTTCGGACCGTTCAATGCGATACGCTACCGGCGTTCGGTCGCGAGCAACACCGATTTCCGGAAATTCGACGACGGCCTGAAGATGACGGTGGATATCGACGCCGCACGGCTCGAAAAAATCCGCGCGCGGCTGGAACAGGGCCGCCTCTCGGGAAGCTGTTATTACGGCCTGCACGAACAGGATGCCGCATTGATGACCTGTATCGTTCCGTCTCCGCTTTCGCGAGACCATATGCATTTCGTGGATGGTGCCGACGGCGGATATGCGGCTGCGGCAAGCCGTCTCAAGCAGCAGATACAGCTTGCCGCGCCGGCCTGA	MIAADEEFLTGLPVFRHFEDVADPALYRALPPGWGLAIADIIDSTSAIGTGRYKAVNMAGAAVISGVSNSLGRHDLPFVFGGDGAAVAVPPHGLSVARTALSNVQRWVKDDLDLAMRVALVPVEDIRENGFDIRVARFQASEDVSYAMFSGGGNSWAEARMKEGQYALPAAETGERPDLTGLSCRWNPIPATHGKVVSIIAVPGPSRDMPAFRQLVVDLVDLAEQDARHGHPVPEDGPKLGFVREGLGLEARAGAAYRDVWGKMRRSFRILGESLLVNLLSVTGLSFGPFNAIRYRRSVASNTDFRKFDDGLKMTVDIDAARLEKIRARLEQGRLSGSCYYGLHEQDAALMTCIVPSPLSRDHMHFVDGADGGYAAAASRLKQQIQLAAPA				NA	NA	NA	NA	NA
BMS010_01133	1107		COG0683	Leu/Ile/Val-binding protein	ATGAAACTGAAGACATTGACCAGCGTGACGCTTGCAGCGTCCTTCGCATTCGCACCCCTTGCTCATGCCGAAATCGTCATCGGCCTGATTGCGCCGCTCACCGGTCCTGTCGCCGCCTATGGCGACCAGGTGAAGAACGGCGCCCAGACGGCAGTCAATGAAATCAACAAGAAGGGCGGCATCCTCGGCGAACAGGTCGTGCTGAAGCTTGCCGATGACGGCGGTGAGCCGAAGCAGGGCGTTTCCGCAGCCAACCAGCTGGTTGCCGAAGGCATCCACTTCGTCGTCGGTCCGGTGACGTCCGGCGTCGCCATTCCGGCATCGGATGTCTTTGCCGAAAACGGCGTGCTGATGGTGACGCCGACGGCGACCGCGCCGGGCCTGACCAACCGTGGCCTTGCCAACGTTTTCCGCACCTGCGGTCGGGACGACCAGCAGGCCGAGGTTGCGGCGAAATATGTTCTCGCCAACCTCAAGGACAAGAAGATCGCCATCATTCACGACAAGGGCGCTTACGGTAAAGGTCTGGCGGACGCCTTCAAGACCACGCTGAATGCCGGTGGCGTGACCGAAGTTCTCTACGATGCGCTGACGCCCGGCGAAAAGGATCTCGGTGCGCTGACGGCCCGTCTGAAGTCCGACAATGCCGACATCGTCTATTTCGGCGGTTACCACCCGGAAGCGGGTCTTCTGGTGCGCCAGTTGAAGGATATCGGCTCCAAGGCTGCCGTCATCGGCGGTGACGGCCTGTCGAACAGCGAGTTCTGGAACATCGGTTCGCAGGCTGGCGAAGGCACGATCTTCACCAACGCTTCCGACGCGCTGAAGAACGACGATTCCAAGGCCGCTGCCGAAGCGCTGAAGGCCGCCAACATTCCGGCGGAAGCCTTCACGCTCAATGCTTACGCTGCCGTGGAAGTGCTGAAGGCCGGCATCGAGAAGGCTGGAAGCGCCAAGGATTCCGAAGCGGTTGCCACGGCCCTGAAAAGCGGTGACGCTTTCCCGACCGCAATCGGCAAGGTGACCTACGGCGAAAACGGCGACCTGACCTCGCAGGCCTTCTCGCTGTTCAAGTGGCAGGACGGCAAGATCGTCGCAGCCGAATAA	MKLKTLTSVTLAASFAFAPLAHAEIVIGLIAPLTGPVAAYGDQVKNGAQTAVNEINKKGGILGEQVVLKLADDGGEPKQGVSAANQLVAEGIHFVVGPVTSGVAIPASDVFAENGVLMVTPTATAPGLTNRGLANVFRTCGRDDQQAEVAAKYVLANLKDKKIAIIHDKGAYGKGLADAFKTTLNAGGVTEVLYDALTPGEKDLGALTARLKSDNADIVYFGGYHPEAGLLVRQLKDIGSKAAVIGGDGLSNSEFWNIGSQAGEGTIFTNASDALKNDDSKAAAEALKAANIPAEAFTLNAYAAVEVLKAGIEKAGSAKDSEAVATALKSGDAFPTAIGKVTYGENGDLTSQAFSLFKWQDGKIVAAE	PGPT0020765_14372	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020765-livK-K01999	NA	NA
BMS010_01134	402			hypothetical protein	ATGGGCGATGCCGGGAAGCGGACTGTTGAAGACATCGGCTTCGGGCGGATATTCCCGATCGTCAGAATTTTCGACGAGGCCAAGGCGCGGGAGTTTTATGTCGATTTTCTCGGTTTCGAGGTCGACTGGGAACATCGCTTCGGCGATAATTTCCCGCTTTACATGCAGGTTTCACGGGCCGGAATGGGGCTTCATCTTAGCGGCCATCATGGCGATGCGACGCCGGGCTCCAACATCTTCGCCACCATGCACGGCGTTCACGCCTATCAACAGGAACTGGCGGCGAAAGACTATCGCTTCATGAAGCCGGGCGTTGAAGAACTGCCATGGGGCGATGTGATGGAAGTGACCGATCCGTTCGGCAACCGCATTCGTTTCTGTGAGCAGAAAAGCGGAGAGTGA	MGDAGKRTVEDIGFGRIFPIVRIFDEAKAREFYVDFLGFEVDWEHRFGDNFPLYMQVSRAGMGLHLSGHHGDATPGSNIFATMHGVHAYQQELAAKDYRFMKPGVEELPWGDVMEVTDPFGNRIRFCEQKSGE				NA	NA	NA	NA	NA
BMS010_01135	969	fieF_1	COG0053	Ferrous-iron efflux pump FieF	GTGCGCGCGGTTCGTGCGTTTTGGCAATCGGTCATGCAATTCGTTCGCATCCGCACGGGGGCAAAAATGAACAGTGAAGGCAATATGCTGGTCCGGAAGCTCGCATTCTGGAGCATTCCGCTTTCTTTCGGCGTGCTGGGCCTCAAGCTCGTGGCCTGGTGGGTCACGGGCTCGGTCGCGCTTTTATCGGACGGTCTGGAATCGACCGTCAACGTGGTCGCGGCCTTCATCGCCTATTTTGTCATTCGTTATGCGCAGAAGCCCGCCGATGACGACCACCAGTTCGGCCACCACAAGGCGGAATATATTTCCGCCGTCGTGGAGGGAGTGCTAATCGTCGTTGCCGCGCTTCTGATCGTGCAGGAGGCCTGGGGCGGTCTTTTCAACCCGAGGCTGCCGGAAGCACCGGCCCTTGGTCTTGCCATCAATGCGGCGGCGGGCGTCATCAACGCCATATGGGCGACGATCCTCATCCGTGTGGGCAAAAGACACGCCTCACCGGCACTGGCCGCCGACGGCCATCACATCATGTCCGATGTCGTGACCTCGGCAGGCGTGCTCGTCGGCCTTATTCTGGCGCTGCTGACGGGTTATGCCATTCTCGATCCGCTGCTCGCCATTCTGGTGGCCATCAACATCCTGTTCCAGGGATCCAAGGTCATTCTGCATTCGCTTGGCGGGCTGATGGACCGGGCCGTGGAGCCGGAAGAAGACGAGGCGATCAAGAAGGCCATCGCCGAACATTGCGGTGGCGTCATTGGCGTACACGATCTGAGGACACGCCGCGCCGGCTCGGCCGCCTTCATCGATTTTCACGTCGTTGTTCCAGCTGCCATGACGGTGCGCGAGGCGCATGATATTTGCGACCGCCTTGAAGATGCCATAAGGGACGTCATACCGGGCGCCAGCCTTGCCATTCACGTCGAGCCGGAAGGCGAAAAGGCGCATGGCGTCAAAGTGATTGTTTGA	MRAVRAFWQSVMQFVRIRTGAKMNSEGNMLVRKLAFWSIPLSFGVLGLKLVAWWVTGSVALLSDGLESTVNVVAAFIAYFVIRYAQKPADDDHQFGHHKAEYISAVVEGVLIVVAALLIVQEAWGGLFNPRLPEAPALGLAINAAAGVINAIWATILIRVGKRHASPALAADGHHIMSDVVTSAGVLVGLILALLTGYAILDPLLAILVAINILFQGSKVILHSLGGLMDRAVEPEEDEAIKKAIAEHCGGVIGVHDLRTRRAGSAAFIDFHVVVPAAMTVREAHDICDRLEDAIRDVIPGASLAIHVEPEGEKAHGVKVIV				NA	NA	NA	NA	NA
BMS010_01136	465	queF_1	COG0780	NADPH-dependent 7-cyano-7-deazaguanine reductase	ATGTCCGTGACGGATGTTTCCGGCCTGTCGCAGCTGGGCACGAAGGTCGATACGCCAGAGAGCCCGGAAAAGGCCGTTCTTGAAAAGGTGCCGAACGGCAATGCCGGCACCGATTACGTGGTGCGCTTCACCGCACCCGAATTCACCTCGCTTTGCCCGATGACCGGCCAGCCGGATTTCGCCCATATCGTCATCGACTATATTCCGGGCGATTTCCTGGTGGAATCCAAGTCGCTGAAGCTGTTTTTGCAGTCCTTCCGCAATCACGGTGCATTCCATGAGGATTGCTCGGTCTATATCGCCAGGCGGCTGGTGGAGCTGCTGCAGCCGAAGTGGCTGAGAATCGGCGCTTACTGGTATCCGCGCGGCGGCATTCCGATCGACGTCTTCTGGCAGACCGGACCGGTGCCCGAGGGCGTATGGCTGCCGGATCAGGGCGTTCCCACCTATCGCGGTCGCGGCTGA	MSVTDVSGLSQLGTKVDTPESPEKAVLEKVPNGNAGTDYVVRFTAPEFTSLCPMTGQPDFAHIVIDYIPGDFLVESKSLKLFLQSFRNHGAFHEDCSVYIARRLVELLQPKWLRIGAYWYPRGGIPIDVFWQTGPVPEGVWLPDQGVPTYRGRG				NA	NA	NA	NA	NA
BMS010_01137	753			hypothetical protein	ATGTCACCGGAAGAAAGCCAGCTTCTCAAGGCCCTGTTCGACAGGACCAGAACCGCATCCGCCACCCCGCGTGACCGCGAGGCGGAAACATTGATCGCAGACGCCGTGCGCGATCAGCCCGCAGCTCCTTATTATCTCGCCCAGGCGGTGATCGTTCAGGAAAAGGGTCTGGAGGCGGCAGCAGCCCATATCAAGCAGCTCGAAGACCGTATCCACGCGCTGGAAAGCGGCAATAGCGCCCCGCAGGCCGCAGCGCAGGGCGGCTTTCTGAGTTCCATCTTCGGAACCGGCCAGCAGCAGCCGCCGGCACCCACGCCTGCCCCCTCCCCGGCTGCCCCGCAAACCTCATGGCGAAACGATACCGCTGGCCAGACGGCCGGTCCCTGGGGATCGCCAGCCGGCCAGCAACCCGGCGGCCCCTGGAGCCAGCAGTCCGCCGCATTCGGGCGTTCTTCGGGCGGTGGTTTTCTGCAGGGTGCGCTTGGGACCGCTGCGGGTGTCGCCGGCGGCATGTTGCTCGCCAATTCGCTGAGCGGCATTTTTGGCAGCCATATGTCGTCGCTCGGCCTTGGCTCGCCCTTCGGCGGGGGCAATGCCGCGGGTAACGCGCCTGTCGAGGAAACCGTCATCAATAATTATTACGGCGACAACGCCAGCCCCCAGAACAACGATGACGACGATATCCAGCAGGCCGATGACGACAGCGCCGACGATGCGGATTTCGATTCAGGCGACGACGGTTCGTTCGCCTGA	MSPEESQLLKALFDRTRTASATPRDREAETLIADAVRDQPAAPYYLAQAVIVQEKGLEAAAAHIKQLEDRIHALESGNSAPQAAAQGGFLSSIFGTGQQQPPAPTPAPSPAAPQTSWRNDTAGQTAGPWGSPAGQQPGGPWSQQSAAFGRSSGGGFLQGALGTAAGVAGGMLLANSLSGIFGSHMSSLGLGSPFGGGNAAGNAPVEETVINNYYGDNASPQNNDDDDIQQADDDSADDADFDSGDDGSFA				NA	NA	NA	NA	NA
BMS010_01138	591			hypothetical protein	ATGCTGAAAAGACTAAGCCTCACTGCCGCCGCACTGGGCGTTACCGCCCTGCCCGCTTTCGCGCATTTGAACCCGGAAGAACACGGCTCCTTCATGGCCGGCGTCTCCCACCCGTTCTTCGGTGCGGATCACATTCTGGCGATGGTGGCCGTCGGCATCTGGGCCTCGCAGATCGCCGTGGCGCAGGGCGACCGCAAGGCGCTGTGGATCGTGCCTTCCGCCTTCGTCGGCACCATGGCCGCCGGCTTCCTGATGGCTGTTTATGGCATCGGGCTCCCCTTCGTCGAACCGGCCATTCTCGCCTCCGTCATCGGTCTCGGCCTGCTCGTTGCCATGGCGGCAAGGCTTCCGACGGCAGCGGCGGCGGCCGTTGTCGGCGCTTTCGCGCTTTTCCACGGCCACGCCCATGGCGGTGAACTCGGCAGCGCCGGCGCGCTTCAATTCGGCATCGGCTTCATGATCGCCACCGCCATTCTGCATGCGGCCGGCATCGCGCTCGGCCTCGGCATTGCCCGTTTCGGCTCGGTCGCAAGCCGCACGGTCGGCGCGTTGACGGCGATTGCGGGTCTCTCGCTCGCCTTCGGCGGTTGA	MLKRLSLTAAALGVTALPAFAHLNPEEHGSFMAGVSHPFFGADHILAMVAVGIWASQIAVAQGDRKALWIVPSAFVGTMAAGFLMAVYGIGLPFVEPAILASVIGLGLLVAMAARLPTAAAAAVVGAFALFHGHAHGGELGSAGALQFGIGFMIATAILHAAGIALGLGIARFGSVASRTVGALTAIAGLSLAFGG	PGPT0000995_408	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000995-ureJ-K03192	NA	NA
BMS010_01139	582	clpP_1	COG0740	ATP-dependent Clp protease proteolytic subunit	ATGAACGAAGACGAAGACGACAAGAGCAAGGAACTGCCGATCGGCAAGGAAACGGAAGCGAATCTTTTCAAGTCGCGTTCGATCTTCATCTATGGTGGCATCACGCAGGAACTGGCGCAGAAGGTCTGCACGCAGCTCGTGGCTCTCGCCGCCGCCAGCGACGACGACATTCGCGTTTACGTCAATTCGCCGGGCGGCCATGTCGAATCGGGTGATTCCATCCATGACATGATCAAGTTCATCAAGCCGAAGGTCTATATCATCGGCACGGGCTGGGTCGCTTCCGCCGGCGCGCTGATTTACGTTTCGGTGCCGAAGGAACGTCGCCTCTGCCTGCCGAACACCCGCTTCCTGCTGCACCAACCCTCCGGCGGCACGCGCGGCATGGCGTCCGACATCGAAATCCAGGCCCGCGAAATCATCAAGATGAACCAGCGCCTGATCAAGATCTTCTCCAAGGCCACCGGCCAGAGCGAAGAAAAGATCGCCAAGGATATCGATCGCGATTACTGGCTCGGCGCGGAAGAGGCCAAGGACTACGGCCTCGTCGGCAAGATCGTCGAAAGCCAGTCGGAACTCTGA	MNEDEDDKSKELPIGKETEANLFKSRSIFIYGGITQELAQKVCTQLVALAAASDDDIRVYVNSPGGHVESGDSIHDMIKFIKPKVYIIGTGWVASAGALIYVSVPKERRLCLPNTRFLLHQPSGGTRGMASDIEIQAREIIKMNQRLIKIFSKATGQSEEKIAKDIDRDYWLGAEEAKDYGLVGKIVESQSEL	PGPT0014595_1916	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014595-clpP-K01358	NA	NA
BMS010_01140	309			hypothetical protein	ATGACCCGCATTTTCACCGCCATTGCCGCCGCCTCCCTTCTATCCGCTCTTTCCTTCGCAGACATCGCCCATGCCGACAGCATGAAAACCGATACGATGAAGAAGGATACCATGCATAGCGACACGACGAAGACGGAGACGATGAAAAAGGATGGCATGTCCATGACCGGCAAGAAGGCCAGCAAAAAGGATGGCATGTCCATGACCGGCAAGAAGGCCAGCAAAAAGGACTGCATGCACAAGGCCGGCATGGAAATGGACAAGATGAAAAAGGCCGACATGATGAAGGCCTGCGACATGATGAAATAA	MTRIFTAIAAASLLSALSFADIAHADSMKTDTMKKDTMHSDTTKTETMKKDGMSMTGKKASKKDGMSMTGKKASKKDCMHKAGMEMDKMKKADMMKACDMMK				NA	NA	NA	NA	NA
BMS010_01141	708			hypothetical protein	ATGTCCGCCGGCATCGTGCCGGGGCTCACGATTGTCCATTCGGCCGGGAACGGCCGGCCGTTACATCTTCACGCGCTTGTGACGACAAGTTCGGGCGAGATTTTTTTAAAGCCACTATGTAACAATATCCTGCCGATTGCGAATAACCCGATAGTGACGATGACAGGCAGCCCTTCGGAAGAAACACTGAAAATGCTGATGCTGCGTTCCCTCGATGGGGACGAAGGCGCCTACAGGCATTTGCTTCATGCCCTGAGACGGCTGCTGATCGCCTATTACGGCCGGCGCATGGGAGCAGCTGCCAGAGGCGATGTCGAAGATCTTGTGCAGGAAACCCTGTTGTCGCTTCACGCCAAGCGGGAGACCTATGACCGTGCGCGACCCTTTACGGCCTGGTTCTTTTCGATAGCGCGCTACAAGCTCATTGATCACTATCGGGGCCGGGGTGCGCGCGTGCTGGCGGAAGTGGAACTCGATGAAACGCTGGAGGCGGAACCGTCCGTCGATGCGGTCACGGCCCGCATGGATGTGGAGCGGCTGCTTGATGAGTTACCGGAACGGCAGCGGGATCTCATTCGAAGGGTGAAGCTCGAAGGTCACTCAATTGCCGAAGCGGCGCAAAAATCCGGCCAGACCGAGCTTGCGGCGAGGGTCGGTATTCACAGAACGCTGAAAGTCCTGGCGGCAAAGTTGCGGGGGGACACGTGA	MSAGIVPGLTIVHSAGNGRPLHLHALVTTSSGEIFLKPLCNNILPIANNPIVTMTGSPSEETLKMLMLRSLDGDEGAYRHLLHALRRLLIAYYGRRMGAAARGDVEDLVQETLLSLHAKRETYDRARPFTAWFFSIARYKLIDHYRGRGARVLAEVELDETLEAEPSVDAVTARMDVERLLDELPERQRDLIRRVKLEGHSIAEAAQKSGQTELAARVGIHRTLKVLAAKLRGDT	PGPT0014960_2858	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
BMS010_01142	645	nrsF		Anti-sigma-F factor NrsF	GTGAGGAAGACGGAAGACATCATCGACCAACTGGCGGGCGATCTGAAACCCGTACGAGCTTTTGCGCTGGAGCGGAGGCTGGCGCTCGCCGCCTTGCCCGCGCTCGGCGTTTCGCTGCTGCTGATGGTCGTCATTCTGGGGCTGCGCAGCGATATGAATGACGCCATGACCGAACCGGGTTTCTGGGTCAAATCCGCCTATAATGTCCTGCTGGCCGTGACCGCATTTTTCGCCGTCATGCGTCTTGCGCGGCCGGACGGCGACAGGGGTGGCCTGTTTGCCTGGCTTGCGGTGATTTTCGTGGCCATGGCCGTCATCGCGCTCGTCCAGCTTGGATTTGCCGTGCCCGGCACCTACAGGACCCTCATTCTCGGATCGTCGGCGCTGCATTGCCCGTTTTTGATCGTTGCTTTCGCGCTGCCGCTGTTTATCGCGAATTTCTCGGTTCTCAGGCGTTCGGCTCCCGCTGATCCCAGGCTTGCGGGTTTTGCCGCGGGCATCGCAGCGGGTGCGGCCGGGGCGTGGGTCTATTCGTGGTTCTGCACCGAAAACGGCATGGCTTTCGTGTTGATCTGGTATTCGCTGGGCATCCTGTTGACCGGCATCATCGGCGCTTTTGCCGGTTCACGTCTGCTCCGCTGGTGA	MRKTEDIIDQLAGDLKPVRAFALERRLALAALPALGVSLLLMVVILGLRSDMNDAMTEPGFWVKSAYNVLLAVTAFFAVMRLARPDGDRGGLFAWLAVIFVAMAVIALVQLGFAVPGTYRTLILGSSALHCPFLIVAFALPLFIANFSVLRRSAPADPRLAGFAAGIAAGAAGAWVYSWFCTENGMAFVLIWYSLGILLTGIIGAFAGSRLLRW				NA	NA	NA	NA	NA
BMS010_01143	1083			hypothetical protein	ATGCTGCGCATCGTCACCACCGTCGCCTGCTGTTTTGCGGCTTTGCCCGCCGCGGCCCAGACCCCGCCGCCGCCGGCCTTTCTCGGCCAGATCGTCGTTCCATCGGGCCTCTCCATCGATGGCGTCACCTTCGGCGGCATTTCCGATCTCGCTTTTGACAGCGAAACCGGGCGTTATCTCGCAATTTCCGATGACCGTGTGGAAAAAGGGCCGGCCCGTTATTACGAGCTGGAGCTGACTGTCGCGGAAGGCGCCGCCACGCTCAACATCGCCGCCACGCGCGAATTGAAGGACGAGACCGGCGCTGCTTTTGCGCCAAAGGGCATCGATGCGGAAGGCATCGCGCTGGACCGCAAGGGCGGCAAGCTCTACTGGTCCTCCGAACGCGACCTGAAGAACCAGCCGGCGCTTTACGTCTCGGACCTCGACGGCAGCAATGTGAAGCGGCTGGAACTGCCAAACGCCTATCTCGTCGATGACGCCAAGACCAGGGGCGTACAGAACAACCTCGCTTTCGAAGGCCTGACGCTGATGCCCGGCCGGCTGATCGCCGCCACCGAAAATGCGCTCACCCAGGACGGCCCCAAGGCGACCCCGCAGGCGGGCAGCCCGGCCCGCATCCTCGTCATCGACACGGCGACGCTGAAACCGGTCGCCGAGCATGTCTATGTAACCGAGCCTATCTCTAAGACGCCGACAGCCGCCGAGCCGAAATATAACGACAACGGCCTTTCCGCCATCGCGGCCCTGCCGGATGGCCGTTTCGTCGCCGTCGAGCGCAATTTCGCTTCCGGCGTGGGCAATCACATCCGCTTCTTCATCGCCGACATGTCCCGCGCCGACAATATTCTCGGCAAGGACAAGATCGATCCCGCATCCGTGGCCGCCGTATCCAAATCGGCCTGGTTCGAAATCAACGAAGGCGATTTCGGCCTCGATATCGACAATATCGAAAGCTTCGCTTTCGGCCCGGTGGTGGATGGCAAGCAGCTCTTCGTCATCGGCTCCGATGACAATTTTAACACCGGCAAGCAGTTCACCCAGTTTGCAGCTTTCGCAATTCCCGCCAATCTGGGTCAGTGA	MLRIVTTVACCFAALPAAAQTPPPPAFLGQIVVPSGLSIDGVTFGGISDLAFDSETGRYLAISDDRVEKGPARYYELELTVAEGAATLNIAATRELKDETGAAFAPKGIDAEGIALDRKGGKLYWSSERDLKNQPALYVSDLDGSNVKRLELPNAYLVDDAKTRGVQNNLAFEGLTLMPGRLIAATENALTQDGPKATPQAGSPARILVIDTATLKPVAEHVYVTEPISKTPTAAEPKYNDNGLSAIAALPDGRFVAVERNFASGVGNHIRFFIADMSRADNILGKDKIDPASVAAVSKSAWFEINEGDFGLDIDNIESFAFGPVVDGKQLFVIGSDDNFNTGKQFTQFAAFAIPANLGQ				NA	NA	NA	NA	NA
BMS010_01144	1179	ydcO_1	COG3135	Inner membrane protein YdcO	ATGCTGAAAGATTTTTCCGTCCAGAGCCTGTTCATGGGCTGCCTCACCGCCTTTGTCGGTTTCGCCAGCTCCTTCGCCGTCGTGCTGCAGGGCCTGAAAGCTGTCGGCGCGACGGATTTCGAGGCGGCGTCGGGGCTGATGGCGCTTTCGGTGGCGATGGGGCTTTGCGCCATTATTCTCTCCGCCGCCACGCGGCTACCCATCAGCATCGCCTGGTCGACACCGGGTGCGGCGCTGCTTGCGACCACCGGCGTCATTGAGGGCGGCTTTCCGGCGGCCGTCGGCGGGTTCATTATCTGCGCCATCCTGATCATCATCGCGGGCCTGTTCCGGCCGCTGGGAAAGGCGGTCGCCTCCATTCCCGCGCCGCTTGCCAATGCCATGCTCTCTGGCGTCATCATCGGCCTGTGTTTTGCGCCCATCAAGGCGATCGGCTTCAACCCGGCGCTCGGATTGCCCATCATCCTCGCCTGGATCGTGGTGGGGGCCTTTAAACGACTGTTCGCCGTGCCCGCCGCCCTTGCCGCCTTCGTGCTGGTGATGATTTTTGGCGTCGAAATTCCGGCGGGTGCGCTGGACAGCGTGGCGCAATCGCTGACGCCGCCGATGGAGTGGGTAACGCCCGTCTTCAGTCTCCACGCGGTTGTCTCCATCGCGCTGCCGCTCTTCATCGTCACCATGGCCTCGCAGAATATTCCCGGCATCGCGGTGCTGAAGGTCAATCATTACGATCCGCAGCCCGGACCGCTTTTCGCCTCGACCGGCTTTTTCTCGCTGCTTTCCGCACCTTTTGGCGGCCATGCCGTCAATCTCGCGGCGATTACGGCGGCCATGTGTGCTGGCGAGGACGCCCATCCCGATCCAAAGCGGCGTTACTGGGCGGCGATCATCGGCGGTGTCGGCTATATTATTTTCGGCCTTTTGGCGGGCGTGGTCACCGCCTTCGTGGCGCTGGCGCCGCCCATCCTCATTCAGGCGGTGGCGGGGCTGGCGCTGGTCGGCGCCTTTTCCGGCTCCGCTGTCGCAGCCTTCAGGGAGCCGGAAACCCGCGAGGCGGCGGCCATCACTTTCCTCATTACGGCCTCCGGCCTTTCCTTCGGCGGCATTTCCGGGGCCTTCTGGGGGCTGATCGGCGGCGGGCTGATGATGGCGTTGCAGCGGATGGTCAAGTGTGGTTAG	MLKDFSVQSLFMGCLTAFVGFASSFAVVLQGLKAVGATDFEAASGLMALSVAMGLCAIILSAATRLPISIAWSTPGAALLATTGVIEGGFPAAVGGFIICAILIIIAGLFRPLGKAVASIPAPLANAMLSGVIIGLCFAPIKAIGFNPALGLPIILAWIVVGAFKRLFAVPAALAAFVLVMIFGVEIPAGALDSVAQSLTPPMEWVTPVFSLHAVVSIALPLFIVTMASQNIPGIAVLKVNHYDPQPGPLFASTGFFSLLSAPFGGHAVNLAAITAAMCAGEDAHPDPKRRYWAAIIGGVGYIIFGLLAGVVTAFVALAPPILIQAVAGLALVGAFSGSAVAAFREPETREAAAITFLITASGLSFGGISGAFWGLIGGGLMMALQRMVKCG	PGPT0005385_1154	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_SYMPORTER,PGPT0005385-benE-K05782	NA	NA
BMS010_01145	243			hypothetical protein	ATGAAGACAATAAGCGCAGAAGAATTCGACAAGATGGCCGATGATGGCGAAGACATCAGCGAATATCTCGACTGGTCGACGGCGCGCCATCTGAACATCGAACCCAAGCGCGTGAACATCGATTTTCCGACGTGGGTCGTCAACGATCTCGACAACGAAGCACGTCGTCTCGGTGTGACCCGGCAATCGCTTGTCAAATTGTGGATCGCTGAAAGGCTGGAGACCGGCCGTCAAGCAAAATAA	MKTISAEEFDKMADDGEDISEYLDWSTARHLNIEPKRVNIDFPTWVVNDLDNEARRLGVTRQSLVKLWIAERLETGRQAK	PGPT0027803_42	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-BrnA-BrnTTOXIN-ANTITOXIN_SYSTEM,PGPT0027803-BrnT_toxin-K09803	NA	NA
BMS010_01146	1710	leuA_1	COG0119	2-isopropylmalate synthase	ATGGACGGCAAGATTACCAATATTTCCAAGGGCATGGCTGACGCGAGCGTGAAGTATCGCCCTTACCCGACCATCAACATCCCTGACCGCACATGGCCGGGCAAGACCATCGACAAGGCGCCTATCTGGTGTTCGGTGGACCTGCGCGACGGCAACCAGTCGCTGGTCAACCCCATGGGCCACGACCGCAAGGCCCGCATGTTCAAGCTGCTGTTGGAAATGGGCTTCAAGGAAATCGAAATTGGTTTTCCTTCCGCCTCGCAGACGGACTTCGATTTTGCCCGCTGGTGCGTGGAAGAGGGCAATGTGCCTGACGATGTTTCCCTGCAGGTGCTGGTGCAGTGCCGGCCGGAGCTGATTACCCGCACCTTCGAGGCGCTGGAGGGCGCCAACAAGCCGATCATCCACTTCTACAATTCCACTTCGGAATTGCAGCGCCGCGTGGTGTTTGGCAAGGATGTGCACGGCATCAAGCAGATCGCGGTCGATGCAGCCAAGATGATCACCGATATGGCGGCCAAGGCTGGCGGCGGTTACCGCTTCGAATATTCGCCTGAGAGCTTTACCGGCACAGAGCTGGAAGTGGCGCTGGAAATCTGCAACGCAGTGGTCGAGGTGGTGAAGCCGACGGCCGACAACAAGCTGATCCTGAACCTGCCCTCGACGGTGGAAATGGCGACGCCGAACATCTATGCCGACCAGATCGAATGGATGTGCCGCAATATCGACAATCGCGAAAACGTCATCATCTCCCTGCACCCGCATAATGACCGTGGCACCGGCATTGCCGCGACCGAGCTCGGCCTGATGGCCGGCGCGGACCGCGTCGAAGGCACGCTCTTCGGCAATGGTGAGCGCACCGGCAATGTCGACGTCGTGACGCTGGCGCTGAACATGTATACGCAGGGTGTCGATCCGGAGCTGGATTGCCGCGATATCGAGCGCATCAAGGCGGTCTATGAATATTCCAACGAGATGACGATCCCCGAGCGCCACCCCTATGTCGGCGAACTGGTCTATACGGCCTTTTCCGGCTCGCATCAGGATGCGATCAACAAGGGCATGAAGGCGATCAAGGTCGCCAACCATCCCGTCTGGGAAGTGCCCTATCTGCCGATCGATCCGAAGGATGTCGGCCGCTCCTATGAGGCGATCATCCGCATCAACTCGCAATCCGGCAAGGGCGGCATCGCCTATATTCTCCAGCAGGATTACGGCATCAACCTGCCGCGCAACCTGCAGGTGGAATTCCGCGAGGATATCCAGCGCATCACCGATGAAGAGGGCGTGGAACTGCCGGCCAAGCGCATCTACGAGCGCTTTATCGAGCGTTACGTGACGCAGCCGAATGCGCGCATCAAGTTCGTCGATCACCACACCTATCCGGCCGGCGATTTCAAGGGCGTGCGCATCGTCGCCGCCGAGATCACCGATAATGGCGAGGTGAAGCGCATCGAGGGCAAGGGCACCGGCCCGATCGACGGGTTCATCAATGCGCTGTCGGTTTATCTCGGCATTGACCTGTCGGTAAATGATTATTCCGAGCATTCGCTGCAGCATGGCTCGAACGCTTCGGCCATCGCTTATGTCGAGATGGAGCATCCGGGCGGTAAGCTGTTCGGGGCAGGCGTCAATACGAATATCGTAGCGGCTTCGCTGGAGGCGATTGTGTCGGCGGCCAATCGGGTGCTGGAAGAGCGGGCGAGGTAA	MDGKITNISKGMADASVKYRPYPTINIPDRTWPGKTIDKAPIWCSVDLRDGNQSLVNPMGHDRKARMFKLLLEMGFKEIEIGFPSASQTDFDFARWCVEEGNVPDDVSLQVLVQCRPELITRTFEALEGANKPIIHFYNSTSELQRRVVFGKDVHGIKQIAVDAAKMITDMAAKAGGGYRFEYSPESFTGTELEVALEICNAVVEVVKPTADNKLILNLPSTVEMATPNIYADQIEWMCRNIDNRENVIISLHPHNDRGTGIAATELGLMAGADRVEGTLFGNGERTGNVDVVTLALNMYTQGVDPELDCRDIERIKAVYEYSNEMTIPERHPYVGELVYTAFSGSHQDAINKGMKAIKVANHPVWEVPYLPIDPKDVGRSYEAIIRINSQSGKGGIAYILQQDYGINLPRNLQVEFREDIQRITDEEGVELPAKRIYERFIERYVTQPNARIKFVDHHTYPAGDFKGVRIVAAEITDNGEVKRIEGKGTGPIDGFINALSVYLGIDLSVNDYSEHSLQHGSNASAIAYVEMEHPGGKLFGAGVNTNIVAASLEAIVSAANRVLEERAR				NA	NA	NA	NA	NA
BMS010_01147	951	cpdA_2		3',5'-cyclic adenosine monophosphate phosphodiesterase CpdA	ATGTTCAAACTTGCGCATATTTCAGACGTCCATTTGGGGCCACTGCCAAAACTCACTTTCCGCGAACTTGCATCCAAGCGTATCACCGGTTTTGTCAACTGGCACCGCAACCGCCGCAAGCATCTCTTCACCGATACGCTGGAAAAACTGCTCGACGATCTGGAGACAAAGTCACCTGACCATCTGGCTATTACCGGCGATCTCGTCAATCTTGCGACCGGCATTGAAATCCGCGCCGCCGCCGACTGGCTGGAGGAGGTGGGCGATCCCGAAAAAACCTCCGTCGTTCCCGGCAATCACGACGCCTATGTTTCCGGCGCGCACGATAAGGCCATGCAGGCCTGGTATCCCTATGTTCGTGGCGATGGCGATCCGCCGGAATGGGACGACGACCGCAAGATTTTCCCCTATATGCGCGTGCGCGGTCCCGTCGCACTCATTGGCTGCTCCACCTCGATTGCGACACCGCCCTTTTCGGCAACCGGTTATTTCGGCAACCGGCAGGCCCGCGCCACGGCGGAGCTCTTGAAAAAAGCCGGTGAACAGGGGCTGTTCCGGGTGGTGATGATCCATCACCCGCCGATTCGGGGCGCTTCCCCCACCCACAAGCGCATGATCGGCATCCGCCGTTTCGCAGCGGCGCTGGGCGTCGGCGGCGCGGAACTCGTGCTGCATGGCCATACCCATCTCAACACGGTCTACTGGCTGAATACGCATCATGGGGAAGACCACATCCCGGTCGTCGGCATTTCCTCCGCCAGCCAGGGACCCGGCGGTGAAAAACCGCGCGCGGCCTATAATCTCTTCCATATCTCCGGTGGCCCCGGCACATGGAACGTCGCCTGTGAGCGTCACAGCCTCAATGAGACGGGGACGGGCGTGGCGCTGGAGGATGTGCGGGTGTTTTATGAAAACGGGCGGCCGCTGGGGTTTTCGCTGCGGGTGGAATAG	MFKLAHISDVHLGPLPKLTFRELASKRITGFVNWHRNRRKHLFTDTLEKLLDDLETKSPDHLAITGDLVNLATGIEIRAAADWLEEVGDPEKTSVVPGNHDAYVSGAHDKAMQAWYPYVRGDGDPPEWDDDRKIFPYMRVRGPVALIGCSTSIATPPFSATGYFGNRQARATAELLKKAGEQGLFRVVMIHHPPIRGASPTHKRMIGIRRFAAALGVGGAELVLHGHTHLNTVYWLNTHHGEDHIPVVGISSASQGPGGEKPRAAYNLFHISGGPGTWNVACERHSLNETGTGVALEDVRVFYENGRPLGFSLRVE				NA	NA	NA	NA	NA
BMS010_01148	492			hypothetical protein	GTGAATGACGAAACAACCGGGCGGCAGGCCCGTCCGTTCCATATGCGTGTCTTCATCCGTTTTCTGCATTTCGTTTTTCTGTTCACGCGCGGCGCCACCCTTGGCGTGCGTGCGGCCTGTTTCGATGAAAAGGGCAGGATTTTTCTGGTGCGGCACACCTATCTGCCGGGCTGGTATCTGCCGGGCGGCGGGGTGGAACGTGGTGAAACCCTGCTCGTGGCGCTGCACAAGGAAATCCGCGAAGAAGGCAATCTCGAAGCAGCTTCCAGGCCGGAGCTTTTCCATGTCTATCTCAATCTGGAAGGCAGCAATCGCGATCATGTTGCGCTCTACCGGCTTGACGTCACCCAGACCAAATCGAAAAAGCCGGATCATGAAATTGCCGAAAGCGGCTTTTTCGACCTGTCGGAGCTGCCGGAAGGGGTGACGGCCGCCACCCGTCGCCGCCTCGCCGAGCTTGCCGGCGAAGCGGCGATCGCCGATCACTGGTAA	MNDETTGRQARPFHMRVFIRFLHFVFLFTRGATLGVRAACFDEKGRIFLVRHTYLPGWYLPGGGVERGETLLVALHKEIREEGNLEAASRPELFHVYLNLEGSNRDHVALYRLDVTQTKSKKPDHEIAESGFFDLSELPEGVTAATRRRLAELAGEAAIADHW				NA	NA	NA	NA	NA
BMS010_01149	993	yqjG_1	COG0435	Glutathionyl-hydroquinone reductase YqjG	ATGGGCATGCTGGTGGAAGGCGTATGGAAAGACGTCTGGTATGACACCAAGGAAACCAAGGGGCACTTCAAGCGTAGCGCCTCGCAATTCCGCAACTGGATCACAGCGGATGGCGCACCCGGCCCTTCCGGAGAAGGCGGGTTCGAGGCCGAGAAGGACCGTTACCACCTCTATGTCTCCTTCGCCTGCCCCTGGGCGCACCGCACCCTGATTTTCCGCAAGCTCAAAAAGCTGGAAGACCTGATTTCCGTCTCCGTCGTCGATCCGCTGATGCTGGAAAACGGCTGGGAATTTAAGCCTGAGGGCGAGCGCACGCCGGGCGCGACCGAGGATCACCTCTTCGGCTCCTCCGCACTCTGGCAGGTCTACACAAAGGCAGACCCCAAATATTCCGGGCGCGTCACCGTGCCGGTGCTCTGGGACAAAAAGCGCGGCACCATCGTCTCCAATGAATCGGCGGAAATCATCCGCATGTTCAATTCCGCCTTCAACGATCTCACCGGCTCGCAGGCCGATTATTATCCTGAAGCGCTACGCAGCGAGATCGACGCACTGAACGACGTGATCTACGACACAGTCAATAACGGCGTCTACAAGGCCGGCTTCGCCACCACGCAGGATGCCTATCAGCAGAATGCCGTAAAAGTGTTCGAAACGCTGGATATGCTGGAGGACCGCCTGAAGGACCGGCGTTTCCTGTTCGGTGCGGAACAGACGGAAGCGGACTGGCGCCTGTTCACGACGATGGTGCGGTTTGACCCCGTCTATGTCGGCCATTTCAAATGCAATATCCGCCGCATCCACGACTATCCGCACCTGACGGATTACCTGCGCGATCTTTACCAGACGCCGGGCGTGCCGGAGACGGTGGATATGCGCCACATCAAGGAGCATTATTACCGCAGCCACCGCACCATCAATCCCACCGGCATCGTGCCCGTCGGCCCGGAACTGGACCTGACCATGGCCCATGGCCGCGAGGCGCTCTCCTGA	MGMLVEGVWKDVWYDTKETKGHFKRSASQFRNWITADGAPGPSGEGGFEAEKDRYHLYVSFACPWAHRTLIFRKLKKLEDLISVSVVDPLMLENGWEFKPEGERTPGATEDHLFGSSALWQVYTKADPKYSGRVTVPVLWDKKRGTIVSNESAEIIRMFNSAFNDLTGSQADYYPEALRSEIDALNDVIYDTVNNGVYKAGFATTQDAYQQNAVKVFETLDMLEDRLKDRRFLFGAEQTEADWRLFTTMVRFDPVYVGHFKCNIRRIHDYPHLTDYLRDLYQTPGVPETVDMRHIKEHYYRSHRTINPTGIVPVGPELDLTMAHGREALS	PGPT0013050_1217	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013050-yqjG-K07393	NA	NA
BMS010_01150	570			hypothetical protein	ATGTCCAAGCACGATCTTGTCTACCTCACCGAGGACGCGTCGCACGACGCCATCATTGACGTCATCAACGAAGAAGCATTCGGTCCCGGCAGGCATACCCGTGCCGCAGCGCGCATTCGTGAGCAGGGGCCGCATGACCGGTCGCTGTCCTTCGTCTGCGCCGACGATGGCGAAACCATTGCCTCGGTGCGCATGACGCCGGTTCTGGCGGGCGGGGTGAAGGGCCATATGCTCGGGCCCCTTGCGGTTCGGCCCTCGCACAAGAACAAGGGCATCGGCCGGGAACTCGTCCGGATCGCCATTGCCGCCGCCCGGCGGAAGGGCTCCGAAGCGGTTATCCTGATCGGCGATCCGCCCTATTACATGCCGCTCGGTTTCGAGAAGGTCGCTTATGCGGCGCTCGATTTTCCCGGCCCGGTGGACCCGAACCGCGTGCTGGTCGCGCCGATTGGTGACGACGTGCACCAGCGGCTGAAGGGTAAGATCGGCTGGCGCAAATGCGAGGCCGTCATGTCGACCGCCACGGCGGAAGATGAGGGTTTTGAGGAGCCGCTCAGGGTTTACGGGTGA	MSKHDLVYLTEDASHDAIIDVINEEAFGPGRHTRAAARIREQGPHDRSLSFVCADDGETIASVRMTPVLAGGVKGHMLGPLAVRPSHKNKGIGRELVRIAIAAARRKGSEAVILIGDPPYYMPLGFEKVAYAALDFPGPVDPNRVLVAPIGDDVHQRLKGKIGWRKCEAVMSTATAEDEGFEEPLRVYG				NA	NA	NA	NA	NA
BMS010_01151	1314	naiP		Putative niacin/nicotinamide transporter NaiP	ATGACGGCTATCACCATGAACGATGCGCTGGAGCGTGCGGGCGCAGGCGCCTATCAGCGGCGGCTGATGGGCATATTCGGTCTCGTCTGGGCGGCAGATGCCATGCAGGTTCTGGCGGTTGGCTTCACCGCCGCGTCTATCGCCGCAACCTTCGGGCTGACAGTGCCGCAGGCGTTGCAGACCGGAACGGCGTTCTTCTTCGGCATGTTGCTTGGTGCTGCCGGTTTCGGACGGCTGGCGGACCGGTATGGGCGTCGCCGTGTGCTGATCGTCACCGTGGCCTGCGATGCGCTGTTCGGCGTGCTTTCGGTGTTCGCGCCTGATTTCACTATTCTGCTCGTTCTGCGCTTTCTCACCGGTGCTGCCGTGGGCGGCACGCTGCCGGTGGATTATGCGATGATGGCCGAATTCCTGCCCGCCAAGAATCGCGGCCGCTGGCTGGTCTTTCTGGAGGGTTTCTGGGCTGTCGGAACGCTGATAGTGGCGCTGGCGGCCTGGGGTGCAAGCCTTGCCGGTGTGGCCGATGCCTGGCGTTATATATTCGCCGTGACGGCTTTTCCGGCCGTTCTTGGTCTTGGCCTTCGTTTTCTGGTGCCGGAATCGCCGCTTTACCTGCTGCGCAGCGGGCGGTTGGAGGAAGCAAAGGCCGTCGTCAACCGCATGCTGGTGACGAATGGGCGTGCGCCGCTCGATGCCGGGACCGGGCTTTTCCAGCCTGACGTGGGCAAAGTGCAGGGGATATTTTCGCCGGCGCTCCGGCAGCGCAGTATCATGATCCTTGCCATCTGGTTCCTCGTTTCCGTTTCCTATTACGGCGTCTTCACCTGGATGCCGGCGAAACTGGCCGGAGACGGGTTCGGTTTCGTGCGCGGTTATGGTTTTCTGGTGCTAGTGGCGCTGGCGCAGATCCCCGGTTATGCGCTTGCCGCCTATGGTGTCGAAAAATGGGGCCGCAAGCCGACGCTGATCGGCTTCTGCCTGCTCTCTGCGCTCGGTTGCCTGCTGTTCACGCTGGCCTCGGCGGGTGCGATGATCGCCGCCTCGCTTCTTATCATGAGCTTTGCGCTGCTCGGCACGTGGGGCGCGCTTTATGCCTATACGCCGGAGCTTTACCCGACGGAATCGCGGGCGACCGGCATGGGGGCTGCGGGCGCCATGGCAAGGCTCGGCGGCCTGCTGGCGCCGTCCCTGCTCGGTTATGCCATAGCGCAGGGTTTTGGGGTCGCAATCGGCATTTTCGCCGGTCTGCTGGTGCTTGCCGCCATTGCCGCGACGATGATCAATGCGGAAACGCGGCAGGTGGCGCTGACCTGA	MTAITMNDALERAGAGAYQRRLMGIFGLVWAADAMQVLAVGFTAASIAATFGLTVPQALQTGTAFFFGMLLGAAGFGRLADRYGRRRVLIVTVACDALFGVLSVFAPDFTILLVLRFLTGAAVGGTLPVDYAMMAEFLPAKNRGRWLVFLEGFWAVGTLIVALAAWGASLAGVADAWRYIFAVTAFPAVLGLGLRFLVPESPLYLLRSGRLEEAKAVVNRMLVTNGRAPLDAGTGLFQPDVGKVQGIFSPALRQRSIMILAIWFLVSVSYYGVFTWMPAKLAGDGFGFVRGYGFLVLVALAQIPGYALAAYGVEKWGRKPTLIGFCLLSALGCLLFTLASAGAMIAASLLIMSFALLGTWGALYAYTPELYPTESRATGMGAAGAMARLGGLLAPSLLGYAIAQGFGVAIGIFAGLLVLAAIAATMINAETRQVALT	PGPT0014435_1752	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_SYMPORTER,PGPT0014435-ydjE-K08369	NA	NA
BMS010_01152	966			hypothetical protein	ATGCCATCACGTCGCTCACTTCTCAAAGGCGCCGCCAGCGCCATCTTTGCAGCCTCTTTCATTGCGCCCTCCCTCGCCTTTGCCAAAGCGCCGCTCGCTGCCACCCAGGCACCCGGCTTCTACAGGCTGATGGTCGGTAAGGTGGAAGTCACCGCGCTGTCGGATGGCGTCGTCGCGCTGCCGCTTGCAAAACTTTACAGCAACACGACACCGGAACACGCATCCAAGGTTTTGCAGGATGCCTTCCTGCCGGACGAGACGCCGACCTCCGTCAATGCGTTTCTGGTCAATACCGGCGACAGGCTGGTGCTGATCGATGCCGGCACCGGCACCTATCTTGGCGCGAGCCTTGGCAAGCTTGTCGCCAATATCGAAGCTTCGGGCTACAAGGCCAGTGAGATTGACGACGTCATCCTCACACACATCCATACCGACCATTCCGGCGGACTGTCGGCGAATGGCAAACGCGTTTTTGCCAACGCGACCCTGCACGTCAACAAGCGCGAAGCCGCTTTCTGGCTGGATGAGGCAAAGGCGAAGGCAGCGCCCGAAGCGATGAAAAAATATTATGCCGAAGCGAAGGAGAGCATCCAGCCCTATATCGATGCCGGCAAATTTGAGACCTTTACCGACAACGCCGCGCCGGTTCCCGGTCTTGGGTCGATCCTCTATGCCGGCCACACACCAGGCCACAGCGCCGTCGTTCTGGAAAGCGAAGGCCAGAAAATCGTCTTCTGGGGCGATATCACCCATGGCGATATCCTCCAGTTCGATGAGCCTGACGTGGCAATCGAATTCGACGTCGACCAGAAGGCCGCCGTCGTGGCGCGTGATTTGGCATTCAAACAGGCGGTAGAGGGCAAATATCTGGTGGCCGGCGCGCATATCGCCTTCCCCGGCATCGGCCATGTGCGCACCGACAGCACCAATTACGATTGGCTGCCGGTCAACTACACGGCGCTGTAA	MPSRRSLLKGAASAIFAASFIAPSLAFAKAPLAATQAPGFYRLMVGKVEVTALSDGVVALPLAKLYSNTTPEHASKVLQDAFLPDETPTSVNAFLVNTGDRLVLIDAGTGTYLGASLGKLVANIEASGYKASEIDDVILTHIHTDHSGGLSANGKRVFANATLHVNKREAAFWLDEAKAKAAPEAMKKYYAEAKESIQPYIDAGKFETFTDNAAPVPGLGSILYAGHTPGHSAVVLESEGQKIVFWGDITHGDILQFDEPDVAIEFDVDQKAAVVARDLAFKQAVEGKYLVAGAHIAFPGIGHVRTDSTNYDWLPVNYTAL	PGPT0006762_4	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_ORGANO-PHOSPHORUS_INSECTICIDES	XENOBIOTIC_ORGANOPHOSPHATE_DEGRADTION,PGPT0006762-mpd-NA	NA	NA
BMS010_01153	954	leuO_1		HTH-type transcriptional regulator LeuO	ATGCAAACTATCGATCATTTCAATCTCCGTTCCTTCGACCTCAATCTTCTGATCGCTTTCGATGCGATGATGGAAGAGATGAATGTGACGCGCGCCGCTCGGCGGCTGAAAATCCAGCAGCCGGCGATGAGCCATAACATCTCAACTTTGCGGACCCTGTTTCAGGATGAGCTTTTCATCCGCGTGGGGCAGGAAATGAAGCCGACGGCGCGGGCGCTCCATCTGGCCGGCCCGGTGCGGCAGGCGCTGCGGCAGGCGCAGGCGGCGGTTTTCACGACGGATGTGTTCGATCCGGCGACGGAGCGCCGCACGTTCCGGCTGGGCATGTCGAGCGAGGTGGAGCTGTTGCTTTTGCCGGATCTGACGGCGCGGCTGCGGGAGATCGCGCCCGGTATTCGCATTCTGGCCCGCAGCGGGCAGGAGCAGGAAATAACCGCGATGCTGGATACGGGTGTGATCGACATGGCGGTCGGATGCACCTACTCGAAAGAGCAGCGCCACCATTGCGAACCGCTTTATTCCTCCAGCGTGCTTTGCTGTTTCAACCCGGCCTTGCTCGATCTGCCCAATCCCGTCGGGCTGGACGCCTATATGGAGGCGAAACACGCGGTCATATCGCAGACGGACAGCCTCCATGGCTGCATCAAGGATGCGCTGGAACTGAGCGGCTTGGAAATCGACGTCGTTGCGGCCGCACCGGATTTTCTCTCGGTGCTGGCGACGGCGCGATCCTCGGCAGTGCTGGCGACCGTGTCCTCACGCATCGCCCTGCGTTATGCGCCAATGCTGGGGCTGAAAATAAGCCCGGTGCCGGTGACGCTGAGTTTCCCGCCCGTCGCCATGGTCTGGACATTGCAAACTGACGCGGATGCCGGAGCCGTATGGCTTCGCCAGCAAATCCGTGAGGCCATGGGCCGAACGGTCGACGGTGGGGTATCGGGGATTGCGGCCTAG	MQTIDHFNLRSFDLNLLIAFDAMMEEMNVTRAARRLKIQQPAMSHNISTLRTLFQDELFIRVGQEMKPTARALHLAGPVRQALRQAQAAVFTTDVFDPATERRTFRLGMSSEVELLLLPDLTARLREIAPGIRILARSGQEQEITAMLDTGVIDMAVGCTYSKEQRHHCEPLYSSSVLCCFNPALLDLPNPVGLDAYMEAKHAVISQTDSLHGCIKDALELSGLEIDVVAAAPDFLSVLATARSSAVLATVSSRIALRYAPMLGLKISPVPVTLSFPPVAMVWTLQTDADAGAVWLRQQIREAMGRTVDGGVSGIAA	PGPT0028130_98	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexEF-OprN,PGPT0028130-mexT-K18297	NA	NA
BMS010_01154	414			Acetyltransferase	ATGAATTTCGTTTTAAGCGATGTCGCGGATGCAGAGGCCGAAAAGGCCATTCGCGATCCGCTGGTGGCCTATAATCTCGCCCGTTTCGGCGAAAGCGACAAACGCGAACTCAACATCACCATCCGCGATGACGACAATACCGTCACCGGCGGTCTGGTGGGCCATACCGCTCGCGGCTGGCTTTACGTGCAGCTTCTTTTCGTGCCGGAGGCCATGCGCGGTCGGGGCACAGGCCCGAAGCTGCTTGCCATGGCGGAGGAAGAAGCCAGAAAGCGCGGCTGCATGGGCGCCTATATCGACACGATGAACCCGGATGCCCTGAGAACCTATGAGCGCTACGGTTTCACGAAGATAGGCTCGCTTGGCCCCCTTTCCAGCGGCCAGTCGATCACCTGGCTGGAGAAGCGGTTCTAG	MNFVLSDVADAEAEKAIRDPLVAYNLARFGESDKRELNITIRDDDNTVTGGLVGHTARGWLYVQLLFVPEAMRGRGTGPKLLAMAEEEARKRGCMGAYIDTMNPDALRTYERYGFTKIGSLGPLSSGQSITWLEKRF				NA	NA	NA	NA	NA
BMS010_01155	2085			hypothetical protein	ATGACATTGACCTTCGCCCCCTTCCTGCCGTGGATCGTGATTGCCGTTCTGGCCGTCGCCGCCCTTGCCCTCTCCTTCATAGGCCTGTGGCGCGGCGTGCGCGGCGCATGGCTGCGCGGACTGGCGCTCGCCGCCCTGCTTGCGGCCATCGCCAATCCGCTTTTGACGCAGGAGGAGCGCGAGCCGCTCTCCACCATCGTGCCCGTCATCGTCGACCGTTCGCAGAGCCAGGACGTGCAGGACCGGCCGCAGATGACGGACACGGCGCTGAATGCGCTGAAAGACCGGCTCTCCCGCTTCCCGCGCATCGAGCCGCGCATCGTGGAGGTGCGCGATGATGGCGAAAGCGATTCACCCTCGACGCAGCTTTTCTCCGCCTTGTCCTCTGCCGTTTCTGATGTCTCGCCTCCCCGCGTCGGGGGCGCGATCTTCCTCAGCGACGGCCAGATTCATGATATCCCCAATGCCCTGCCCAACGCCGAACAGGCGCTCGGCTTTCGCGCACCCGTGCATGGGCTGATCACCGGCAAGGCCGATGAGTTCGACCGCCGTATCGAGATCGTCCGCGCGCCGCGCTTCGGCATCGTCAATGAGGAACAGCAGCTGACGCTGCGCGTCTTCGATGATGGTCGCCCGGCAGGCGGCGGTGCGGCGGAAGTGACGGTGAAGATGAATGGCGAAGAAATCGCCACGCTGCAGGCGACACCCGGCCAGCCGACGCCGTTCAACTTCAAGGTTCCACGCGGCGGCAACAATGTCATGGAATTTTCCGTCGCCGAGCTTCCGGGCGAAGTGACGGCTGCAAACAACCGCGCCGTTCATCTGATCGAAGGCATCCGCCAGAACCTGCGTGTGCTGCTCGTCTCAGGCGAACCCCATGCCGGCGAACGGGCGTGGCGCAATCTCCTGAAATCCGACGCCTCGGTCGATCTGGTACATTTCACCATTCTGCGCCCGCCGGAAAAACAGGATGGCACGCCGATCAACGAACTCTCGCTGATCGCCTTCCCGACCCGAGAATTGTTCGTCGAAAAGATCGAGGATTTCGACCTCATCATCTTCGACCGCTATCAGCATCGCGGCGTGCTGCCGATCCTCTATTACGATTACATCGCCCAATATGTCGAAAAGGGCGGCGCGCTCTTGATCGCCGCCGGGCCGGAACATGCCGGTCAGGATTCGATCGCCATGACGCCACTCGCCTCCGTGCTGCCGGCGCAGCCGACCGGTCAGGTGCATCAGGCCGCCTTTTATCCGCGCCTGTCGGAAGCGGGCAAGAAACACCCCGTCACCCGCGGGCTGGAAGGTTCGGGCAACGAGCCGCCGCAATGGGGCCGCTGGTTCCGCACCATCAGCGTCGACCCGCCGCAGGGCCAGACCGTGATGCTGGGCGACGGGCAGGACCCGCTTCTGGTGCTCAACCGTCAGGGCGAAGGCCGCGTCGCCATGCTGCTGTCCGATCAGGGCTGGCTGTGGGCGCGCGGTTTCGAAGGCGGTGGCCCACATGTGGCGCTTTATCGCCGCATCGCCCACTGGCTGATGAAAGAGCCGGAGCTTGAGGAAGAAGCGCTGACGGCGCGCGCCAATGGCCGCACCCTGCAGATCACCCGCCAGACCATCGGCGACGATCCCGGTCAGGCAAGCGTGCGTTTCCCTTCCGGCAAGACGGAAAACATGGCCTTCACCAGCACCGAGCCCGGTCTTTACAGGATCGAGCGCCGCATGGACGAAACCGGGCTGTTCGAGATCAAAAACGGCGATTTCACCACCCTCGTCCATGTCGGCGCGGTGGATGCGCCGGAATTCAAGGCGATGATCTCGACCACCGAAACGCTGAAACCGCTGGCCGATGCCACCAAAGGCAGCGTGCACCGTGTCGCCGACAATTCCGGCCGTATCGCGCTGCCCGATATATTGCCCGTCCGAGGCGATATCAGGGTTGCCGATGAGGATCGCATGCTGATACGCATGACCGACGAGACGGTGCTGAAAGGCGTCAATACCCTGCCGCTCTTTGCCGGTTTTGCCGGGCTTGCCGCCCTGCTGCTCGCCTTCTCCGCGCTGTGGTGGCGTGAGGGCCGGTAG	MTLTFAPFLPWIVIAVLAVAALALSFIGLWRGVRGAWLRGLALAALLAAIANPLLTQEEREPLSTIVPVIVDRSQSQDVQDRPQMTDTALNALKDRLSRFPRIEPRIVEVRDDGESDSPSTQLFSALSSAVSDVSPPRVGGAIFLSDGQIHDIPNALPNAEQALGFRAPVHGLITGKADEFDRRIEIVRAPRFGIVNEEQQLTLRVFDDGRPAGGGAAEVTVKMNGEEIATLQATPGQPTPFNFKVPRGGNNVMEFSVAELPGEVTAANNRAVHLIEGIRQNLRVLLVSGEPHAGERAWRNLLKSDASVDLVHFTILRPPEKQDGTPINELSLIAFPTRELFVEKIEDFDLIIFDRYQHRGVLPILYYDYIAQYVEKGGALLIAAGPEHAGQDSIAMTPLASVLPAQPTGQVHQAAFYPRLSEAGKKHPVTRGLEGSGNEPPQWGRWFRTISVDPPQGQTVMLGDGQDPLLVLNRQGEGRVAMLLSDQGWLWARGFEGGGPHVALYRRIAHWLMKEPELEEEALTARANGRTLQITRQTIGDDPGQASVRFPSGKTENMAFTSTEPGLYRIERRMDETGLFEIKNGDFTTLVHVGAVDAPEFKAMISTTETLKPLADATKGSVHRVADNSGRIALPDILPVRGDIRVADEDRMLIRMTDETVLKGVNTLPLFAGFAGLAALLLAFSALWWREGR				NA	NA	NA	NA	NA
BMS010_01156	2811			hypothetical protein	ATGAGCGCATTGCCTTTCGTCTTCACCAGCCCCTATATCCTCCTCGGCTTGCTGGCGCTGCCCGCCATCTGGTGGCTGCTGCGGCTTACCCCGCCGCGCCCCAAGGCGGAAGTGTTTCCGCCGCTGAAGATATTGGCGACGGTGCTGAAACGCGAGGAAACGCCGTCGAAAAGCCCGTGGTGGCTGACCCTGCTGCGCATGGCGCTTGCCGCCGCCGTGATTTTCGCGTTGGCCGACCCGGTGGTAAACCCGCGCAACAACAGCATTGCCGGCAGCGGCCCGCTGGTGCTGGTGGTCGACAACAGCTGGGCCTCCGCACCTGACTGGGAAAGACGCGTGGCGACCGCTCAGGCCCTGATCGGCGATGCGGAACGGGCCGACCGCCCCGTCTCCATCAGCTTCACCGCCGATGCGGAACATGACGCCGTACCGGGAACGACAGCCGTTGCACTTGAAAAACTCGCCGCAGCAAAGCCAAAGCCGCTCGTTCCAGATCGTATCCGCACGGCTGAGGCCATCACCGAGGCGCTGAACGGCACGGCCCCCGGCACGATTGCCTATATTGCCGATGGTGTTCAGACCGCGCAGGATGAAAGCGCGATGAGAACGCTCGCCAGCCTCTCCCCCGCCGAATTCCGCATCGTGAAGGGCGACGGCAGGGCGATTACAGCCATTACCGGCGCCACCAACAATGCCGATGCCATGAGCGTCACACTGTCGCGCCTCGATACCGCCGAAGCCGGCCGGCTGACCGTCAATGCACAGGACAGCCAGGGCCGCATCCTCGCCAACGGCGTCGCAAACTTCGCGCCCGGCGCGGCCGAAACCACGGCAACGGTGGAAGCGCCCTTCGAGCTGCGCAACGATTTCGCCCGCCTGTCCCTCGAAGGCGTGTCGACGGCGGGTGCGGTGCATCTTCTGGATGACGGTTTCCGTCGCCGTCGCGTGGCGCTGCTGGCCGGCGAAACCGGCAATGATTTCCAGCCGCTGCTGCAGCCGCTCTATTACATCAGCCGCGCTTTACAGCCGTTTGCCGATCTTATCCCGCAACGGCAGGCCGATCTGGCGCAGGCGATACCGGAAATCCTGCAATCCAATCCTTCCGTCATCGTCATGGCCGATATCGGCCGCCTGCCGCAGGAAACCTATGAGCCGATGCAGCGGTGGCTCGCCGGCGGCGGCACGCTGATCCGTTTTGCCGGACCGCGCCTTGCCGCAGCCCCGGCCGACGATCCGCTGGTGCCTGTAACACTCAGACAGGGCGAACGCGCGCTTGGCGGCGCGCTCTCCTGGGCCGAGCCGCAGCCGCTTGCCGATTTCCCGAATTTCGGCGCCTTTGCCGGCATGCCGAAGGCCGATGGCGTCCTCGTCAAGCGGCAGGTTCTGGCCGAACCGACACCGGATCTGGCTGAACGCACCTGGGCAAGCCTTGCCGATGGCACGCCGCTCGTCACCACCCGCAATGTCGAGGCTGGCCGTATCGTGCTGTTCCATGTCAGCGCGGAAGCAAGCTGGTCTGACCTGCCGATCTCTGGCCATTTCGTCGATATGCTGCGCCGTATCGTTCAATTGTCGAAGGCAGGCGGCGCTTCCGCCAACGCCAATGCCCCGGCCGCGGCCCTTCCGCCCTTCCGGCTGCTGACGGCGGAAGGCGCGCTTTCAGCCGAAATCGGCACTGCCCGGCCGCTGGAAATGCGCGCCGGCCAGCCGCCGCGCACCGGTTTCGACAATCCCCCCGGCCTCTATGGCACAGAGGATGGTTTCGTGGCTCTCAATCTCTTACCCGCAGGTGCCACACTTCGCCCGCTCGACACCTCCGCCGCCGGTGTCAGCACCACCAGCGAAGCCCTGATCGGAGAAACGGCGAAATCGCTGCGCCCTGCACTCTTCATCGCCGCCTTCCTGATGTTGATTGCCGATAGCCTGATCGTGCTCTTCATGAACGGCGCCTTCGCACGCCTGCCGAAAGCCCGCAGCGCCACAGCCGCCACCGTGCTTCTGGCGCTTGGCGCCTTTGCTGCCATGTCACCAACCGATGCCCGCGCCGACGATCCCAAACCCGGCGACGAGCAGATTTTCGAGCGGCTGGACACCACCCATCTCGCCTATGTGCGCACCGGTGAAGTCGATGTCGACCGCATTTCAGAGCAGGGTTTGCAGGGTTTGAGCGAATTCCTGACCTGGCGCACGACACTAGAGCCCGGACAGCCTGTGGGCCTCGATATTTCCAAGGACGAATTGTCCTTCTATCCGATCATCTACTGGCCTGTTTCGGCCTCCGCGCCGATGCCGTCCAGCGCCGCCATCTCGCGCATCGATGCGTATATGCGTGCCGGTGGCACCGTTCTGTTCGATACGCGTGACCAGTTCTCTTCGCTCGATACCGGCGCGACCAGCCCTAACGGCGAGCGTTTGCAGGCGATCCTCGCCAATATCGATATTCCGCCGCTGGAGCCCGTGCCGGAAGACCACGTTCTGACGCGGTCCTTCTATCTGCTCACCAATTTCCCCGGCCGTTACAACGGCTCCCCGCTCTGGGTGGAATCGCGCCAGGGTGCCGCCAAGACCACCTCCGGCCTTTCCTCCTCCGGTGATGGCGTGACGCCGATCATGATAACGGGCAATGATTTCGCCGGCGCATGGGCCGTCGATCCGCAGGGCGCACCGGTTCTGCCCACCGTGCCGCCGGACGAGATGCAGCGCGAGCATGCCTTCCGCTCCGGCGTCAACATCATGATGTATATGCTGACCGGCAACTACAAGGCCGATCAGGTCCACGTTCCCGCACTTCTCGAACGGTTGGGGCAGTGA	MSALPFVFTSPYILLGLLALPAIWWLLRLTPPRPKAEVFPPLKILATVLKREETPSKSPWWLTLLRMALAAAVIFALADPVVNPRNNSIAGSGPLVLVVDNSWASAPDWERRVATAQALIGDAERADRPVSISFTADAEHDAVPGTTAVALEKLAAAKPKPLVPDRIRTAEAITEALNGTAPGTIAYIADGVQTAQDESAMRTLASLSPAEFRIVKGDGRAITAITGATNNADAMSVTLSRLDTAEAGRLTVNAQDSQGRILANGVANFAPGAAETTATVEAPFELRNDFARLSLEGVSTAGAVHLLDDGFRRRRVALLAGETGNDFQPLLQPLYYISRALQPFADLIPQRQADLAQAIPEILQSNPSVIVMADIGRLPQETYEPMQRWLAGGGTLIRFAGPRLAAAPADDPLVPVTLRQGERALGGALSWAEPQPLADFPNFGAFAGMPKADGVLVKRQVLAEPTPDLAERTWASLADGTPLVTTRNVEAGRIVLFHVSAEASWSDLPISGHFVDMLRRIVQLSKAGGASANANAPAAALPPFRLLTAEGALSAEIGTARPLEMRAGQPPRTGFDNPPGLYGTEDGFVALNLLPAGATLRPLDTSAAGVSTTSEALIGETAKSLRPALFIAAFLMLIADSLIVLFMNGAFARLPKARSATAATVLLALGAFAAMSPTDARADDPKPGDEQIFERLDTTHLAYVRTGEVDVDRISEQGLQGLSEFLTWRTTLEPGQPVGLDISKDELSFYPIIYWPVSASAPMPSSAAISRIDAYMRAGGTVLFDTRDQFSSLDTGATSPNGERLQAILANIDIPPLEPVPEDHVLTRSFYLLTNFPGRYNGSPLWVESRQGAAKTTSGLSSSGDGVTPIMITGNDFAGAWAVDPQGAPVLPTVPPDEMQREHAFRSGVNIMMYMLTGNYKADQVHVPALLERLGQ				NA	NA	NA	NA	NA
BMS010_01157	915			hypothetical protein	GTGGCATCCATCGGCCAGATCGTAGACAAGACGCCGGGTAGCGAAGTTCTGGCGCGCGCGCGCCAGCGCGCAGCCCTGGTGCCGGACTGCATGGTCGAGGCAAAGCGCATCGCCAACACCGTCACCGCCGGCTGGCACGGCCGCCGCAAACGCGGCATCGGTGAAAATTTCTGGCAGTTCCGCCCCTATGCCGAAGGCGAGAGCCTGTCGCGCATCGACTGGCGGCGCTCCGCCCGCGACGATCATACCTATGTGCGCGACCGGGAGTGGGAAGCCGCCCACACCATCTGGCTCTGGGCCGACATGTCGCCGTCGATGATGTTCAAATCCACCCTCGGCTCCGTCTCCAAGGAAAGCCGGGCTCTGGTGCTGATGCTGGCGCTGGCGGAAATTCTCGCGCGCTCCGGTGAGCGCATCGGCTGCCCCGGCATCATGGAGCCGGTTTCGGCCAGAAACGCCGCCGAACGGCTGGCAGCCGCCATCATGCATGCGCCGCTGACCACTGGCATGCCGGAAACGGGCATGATCCGCGGCGCGAGCGACATCGTCCTCATCGGCGATTTTCTCGATGATGCCAAAGCCGTGATGGAGCGGATTTCGCCTCTGGCGCGGCGCGGCCTGCGCGGCCATGTGGTGGAAATTGCCGATCCGGCCGAAGAAACCTTCCCCTACTCCGGCCGCACCGAATTCACCGACCCGGAAACCGGCGAAAAACTGGTGTCCGGCCGTGCCGAAACCATTCGCGAGGATTACACCCGCGCCTATCTCGCAAGGCGTGAGGCTCTGTCCTCGTCGCTGCGCCGTCTCGGCTGGAACTTCGTGTTCCACCGCACCGATCATCTGGCCTCCGAGGCGCTTGTGGCCATGCACATGTATCTTTCCGGCGCGCCAGCACAGGGCGGTGGGCACAGATGA	MASIGQIVDKTPGSEVLARARQRAALVPDCMVEAKRIANTVTAGWHGRRKRGIGENFWQFRPYAEGESLSRIDWRRSARDDHTYVRDREWEAAHTIWLWADMSPSMMFKSTLGSVSKESRALVLMLALAEILARSGERIGCPGIMEPVSARNAAERLAAAIMHAPLTTGMPETGMIRGASDIVLIGDFLDDAKAVMERISPLARRGLRGHVVEIADPAEETFPYSGRTEFTDPETGEKLVSGRAETIREDYTRAYLARREALSSSLRRLGWNFVFHRTDHLASEALVAMHMYLSGAPAQGGGHR				NA	NA	NA	NA	NA
BMS010_01158	1011			hypothetical protein	ATGGGCGTGATGAATACCGGCGAAACCCTCGATGAAAAGGCCATCGTCGCCTCGGCCGAAAAGGCGCTTTCCGATATCGCGGCCATCCGCACGGAAGTCTCCAAGGTCATTTTCGGTCAGGAGAAAGTGGTACAGAACACGCTGCTCGCCATCCTTTCCGGCGGCCATGCGCTGCTGGTCGGCGTTCCCGGCCTTGCCAAGACCAAGCTCGTCACCACGCTCGGCACCGTGCTCGGCCTCGATGCCAACCGCATCCAGTTCACGCCGGACCTGATGCCGTCGGATATCCTCGGTTCCGAAGTCATGGATCAGGATGAAAACGGCCGCCGTTCCTTCCGTTTCATCAAGGGTCCGATTTTCGGCCAGCTGCTGATGGCCGATGAAATCAACCGCGCCAGCCCGCGCACGCAGTCCGCACTTTTGCAGGCCATGCAGGAATATCACATCACCATGGCCGGCCAGACCTATGAGCTGCCGAAGCCGTTCCACGTTCTCGCCACCCAGAACCCGCTGGAGCAGGAAGGCACCTATCCGCTGCCTGAAGCCCAGCTCGACCGCTTCCTGCTTCAGGTCGATGTCGGTTATCCCGAGCTTGCCGCAGAACGCCAGATCCTGCTCGACACCACGGGCACCGCCTCGGGCGAAGCGCGCGGCGTGATCGATGCCGGGCGCCTGATGGAAATCCAGGCCCTCATCCGCCAGATGCCGGTGAGCGACAAGGTGGTGGACGCAATCCTGTCGCTCGTCCGCTCCGCCCGCCCCGGCCATGGCAACAAATTGACCGACAAACACGTTGTCTGGGGTCCGGGCCCGCGCGCCGGCCAGTCGCTGATGCTGACGGCCCGCGCCCGTGCGCTTTACGAAGGCCGGCTCGCCCCGTCGCTGGACGATGTTCATGCGCTCGCCGAACCGGTGCTGGAACATCGCATGGCGCTGACCTTTGCGGCCCGTGCCGAAGGCATGTCGGTGCGCGATGTCATCGCAGCGCTCGTGGAGCAGGCGAAGAACTGA	MGVMNTGETLDEKAIVASAEKALSDIAAIRTEVSKVIFGQEKVVQNTLLAILSGGHALLVGVPGLAKTKLVTTLGTVLGLDANRIQFTPDLMPSDILGSEVMDQDENGRRSFRFIKGPIFGQLLMADEINRASPRTQSALLQAMQEYHITMAGQTYELPKPFHVLATQNPLEQEGTYPLPEAQLDRFLLQVDVGYPELAAERQILLDTTGTASGEARGVIDAGRLMEIQALIRQMPVSDKVVDAILSLVRSARPGHGNKLTDKHVVWGPGPRAGQSLMLTARARALYEGRLAPSLDDVHALAEPVLEHRMALTFAARAEGMSVRDVIAALVEQAKN				NA	NA	NA	NA	NA
BMS010_01159	630			hypothetical protein	ATGGCAGCGGAGACGATAAATTCGGCGGGCGATGCGGCCGGGCTGGCGGCGATGATTTCCCGCGCCGCCGAACAGACCGGCGACGCCAAACGCGGGCCGGCCCCGGTGGAGCGCTGGAATCCGCCTTTTTGCGGCGATCTCGACATGGAAATCCGCGCCGACGGCACCTGGTTCTACCTCGGCACCCCCATCGGCAGGGCGCCGCTGGTGCGGCTGTTTTCCACGGTTCTGCGCAAGGATGAGGATGGCAAAACCTATCTCGTAACTCCTGTGGAAAAAGTCGGCATCCGCGTCGTGGACGCGCCTTTCGTCGCCGTGGAAATGAAGCTGACGGCGGGTGAGGATGATGGCGAGCCGCTGCTGACCTTCCGCACCAATGTCGGCGATGTGGTGGAGGCGGGGCCGGAGCATCCGCTGCGGTTCGAGGTTTTCGGTGAGAACCGCGAATTGAAGCCCTATCTTCTGGTGCGCGGCAGACTGGAAGCGCTCGTGTCGCGGGCGGTGATGTATGATCTCGTCGCACTTGGCGAGGTAATAGACGTGGAGGGCGTCGACATGTTCGCCGTGCGCTCGGGCGGGGTCGTTTTCCCGGTGATGCCCGCAAAGGAACTGGAACGGCTTTCGCAATGA	MAAETINSAGDAAGLAAMISRAAEQTGDAKRGPAPVERWNPPFCGDLDMEIRADGTWFYLGTPIGRAPLVRLFSTVLRKDEDGKTYLVTPVEKVGIRVVDAPFVAVEMKLTAGEDDGEPLLTFRTNVGDVVEAGPEHPLRFEVFGENRELKPYLLVRGRLEALVSRAVMYDLVALGEVIDVEGVDMFAVRSGGVVFPVMPAKELERLSQ				NA	NA	NA	NA	NA
BMS010_01160	633	nudL_1		putative Nudix hydrolase NudL	ATGACGACAACGGCATTCAAGACTTTTACCGCCGCCGATTTCCGCTGCCGGGTGCTGCAGGAAGGCGAGGGCGTGACCGAGCGTGAAAATGGCGATCATGTCCTCAATCCGGGTGTGGTGCTTTCCGGGAACGGCATCAAGCTGAAGGACGCCGCCGTGCTGGTGCCTGTCATTGACGATGGCAACGATGCGCGGGTGATCTTCACTCAGCGCACTTCGACGTTGCGCAAGCATTCCGGCCAGATTTCATTTCCGGGCGGCGGTATCGATGCCGAGGACCGGACGCCGGAAGAGGCGGCGCTGCGCGAGACGGAAGAGGAAATCGGCCTTTCCAGGTCTTTCGTGGAAACGGTCGGGCGTCTGCCGGATTATATTTCCGGCACGGGTTTCCGCATCAAGCCGGTGCTGTCCATCGTTCGGCCCGGCTTCGACCTGACGCTCAATCCAACGGAAGTGGATGAGGTTTTCGAGGTGCCGCTGTCCTTTCTGATGGACCCGGCCAACCACGGGCGCGGCAGCCGTATCTTTCAGGGGAAGGAGCGGTTTTTCTACGAAATGCCCTATGGCGAACGCTACATTTGGGGCATTACGGCGGGCATCGTCAGGACGATTTACGAGAGGTTTTATTCATGA	MTTTAFKTFTAADFRCRVLQEGEGVTERENGDHVLNPGVVLSGNGIKLKDAAVLVPVIDDGNDARVIFTQRTSTLRKHSGQISFPGGGIDAEDRTPEEAALRETEEEIGLSRSFVETVGRLPDYISGTGFRIKPVLSIVRPGFDLTLNPTEVDEVFEVPLSFLMDPANHGRGSRIFQGKERFFYEMPYGERYIWGITAGIVRTIYERFYS				NA	NA	NA	NA	NA
BMS010_01161	1257	cca_1		CCA-adding enzyme	ATGAGCAGCCTTGCCGGGCGGGACTGGTTTGAAAAACCGGCGCTGAAGCGCATTTTTACGCTTCTGAATGCCGATGGCGGCGAGGTGCGGATCGTTGGCGGCGCGGTGCGTAATGCGCTGATGGACCTGCCGGTGGTCGATGTCGACATGGCAACGACGCTGACCCCCGATGTTGTCGTTCAGCGCGCGAAAGCGGCAGGCATCAAGGCCGTGCCGACCGGCATCGAACACGGCACGGTAACGCTGGTGATCGATGGCGAAGGTTTCGAGGTGACAACGTTGCGCCGCGATGTCGAAACCAATGGCCGCCACGCACAGGTAGCCTTCGGCACCGACTGGCAGACCGATGCCGAGCGGCGCGACCTCACCATCAATGCCCTCTATGCCGACGAAAAGGGCGAGATCATCGACCTTATCGATGGTCTTCCCGATATCGAGACCGGCACTGTGCGTTTCATCGGCGATGCGGCGATGCGGATTTCGGAAGATTATCTACGGATTCTCCGGTTTTTCCGCTTTTTCGCCCATTATGGTTCCGGCCGCCCGGATGCGGACGGCTTGCGGGCAAGCGCGCGGGCCAAGGACAAGCTGGGCACCCTTTCGGCCGAGCGGGTGTGGAGCGAGCTGAAAAAGCTGCTTTCCGCCCGCGATCCTTCCCGCGCCCTTTTGTGGATGCGGCAATCGGGCGTTCTTGCGGAAATTCTGCCCGAAACGGAAAAATGGGGCATCGATGCCATTCACGGGCTGGTGGCGACGGAGCAGGCTCTCGGCTGGGCGGTGGACCCGATGCTGCGGCTTGCCGCCATCGTGCCGCCGGACAGGGACAGGCTGGCCGCCCTTGCCGCGCGTCTCCGGCTGTCGAAGGCCGAAGCGGCTTATCTTGCCCATTGGGCTTCGGCGCCGGCGGCTGACCCGGAGATGAAGGAGACCGCGCTCGACCGGTTGCTTTATCGTCAGGGCGTCGAGGGCGTGAAGACGCGGCTGAAACTGGCGCTTGCTTCGGCCCGTGCCGATCTTTCGGCTGGCGACACGGCTATGCAGAAAGTGGCGCGGCTTTCTACTTTGCTGACGCGGGCGGAAAAATTTCACAAACCGGGCTTTCCGCTGAGCGGCGCTGATGTGATGGCCGCGGGCGTCGAGGCGGGCCCGAAGGTGGGCGAAGTGCTGAAAAGCCTCGAGGAAAAGTGGGTCGACGTCAATTTCTCACTCGACCGGGCAGCGTTAACCGCCCGGCTGAAGGATATGCTGGAAAATTGA	MSSLAGRDWFEKPALKRIFTLLNADGGEVRIVGGAVRNALMDLPVVDVDMATTLTPDVVVQRAKAAGIKAVPTGIEHGTVTLVIDGEGFEVTTLRRDVETNGRHAQVAFGTDWQTDAERRDLTINALYADEKGEIIDLIDGLPDIETGTVRFIGDAAMRISEDYLRILRFFRFFAHYGSGRPDADGLRASARAKDKLGTLSAERVWSELKKLLSARDPSRALLWMRQSGVLAEILPETEKWGIDAIHGLVATEQALGWAVDPMLRLAAIVPPDRDRLAALAARLRLSKAEAAYLAHWASAPAADPEMKETALDRLLYRQGVEGVKTRLKLALASARADLSAGDTAMQKVARLSTLLTRAEKFHKPGFPLSGADVMAAGVEAGPKVGEVLKSLEEKWVDVNFSLDRAALTARLKDMLEN				NA	NA	NA	NA	NA
BMS010_01162	186			hypothetical protein	ATGAGACTGTTTGAATGTGGAACGCTCGTGCCCGGCTGTGCCTGGCACACGCGCGCAGATGACGACGCCGAAGTTGTGCGTCGCACCGTGGAACATATGCGATCGGCACACGGCGAAACCGTCATCCGCGAGAACATGATCGAAAACATCAAATCCCGCATTCGCGACGAGGCAAATGCGGCCTGA	MRLFECGTLVPGCAWHTRADDDAEVVRRTVEHMRSAHGETVIRENMIENIKSRIRDEANAA				NA	NA	NA	NA	NA
BMS010_01163	270			hypothetical protein	ATGATTACTTCGAACAGCATGCCTATCTCTGCTTCCCCCGAGGGAGCGCCACAATCCATCGATACCCCGGAATTGATCGACCGCCTGGCAGCAGAAATGCGCGCCACGGGTGATCGCGAACTGCCGCATTCCTTCTATGTCGAACAGGTAAAACGTTCCCTTGCCGGACAAAAAACGGCACGGCGGGCGGCCAATGACGAAATGCCTCGTACAAAAATTCCGGCAGCCGGCACATCCTCTGTTTTTCAGTGCTGGGCGATGCCCGAATAG	MITSNSMPISASPEGAPQSIDTPELIDRLAAEMRATGDRELPHSFYVEQVKRSLAGQKTARRAANDEMPRTKIPAAGTSSVFQCWAMPE				NA	NA	NA	NA	NA
BMS010_01164	912	hemF_1		Oxygen-dependent coproporphyrinogen-III oxidase	ATGGAACGGCCAATCTTGCCGAAGGGCTTGCCCGACGACATCGAGGACAAGAAGGCCCTTGCCCAAGCCTGGTTCCAGCATCTGCGCGACACCATCGTTAACTCCTTCGAGACCCTCGAAAACGACCTGACCGGCCCTCTTTCCGACCAGGAGCCCGGCCGTTTCGTCCAGAAAGACTGGCTGCGCGACGATGGCGAGGGCGGCGGCGGCAAGATGTCGATGATGGAAGGCCGCGTCTTCGAAAAGGTTGGCGTCCACACCTCCACCGTCTATGGCGAATTCTCGCCGGAATTCCGCAAGCAGATACCGGGTGCGGAAGAAGACCCGCGTTTCTGGGCGTCGGGCCTCTCGCTCATCGCCCATCCCGTCAACCCCAATGTGCCGGCGGTCCACATGAATACCCGCATGGTCGTCACCACCAGCCACTGGTTCGGCGGCGGCGCGGATCTGACGCCGGTGCTGGGACGCAGACGGACGCAGGAAGACCCGGACAGCCAGCTTTTCCACCGCGCCTTCGAAATCACCTGCAACCGCCATCCGGTTGCCGATTATCCGCGCTACAAGACATGGTGCGACGAGTATTTCTTCCTGAAGCACCGTAACGAAGCCCGCGGCATCGGCGGCATCTTTTTCGACTGGCTGTACCCGCAGGAGGAAAATGGCGGCTGGGACGCCAATTTCGCCTTCGTGCAGGATGTCGGCCGCGCCTTCAATCTGGTCTATCCGAAAATCGTCCGCGCCAATTTCAACCAGAACTGGACGGAAGAGGACCGCGACGAACAGCTCATCCGCCGCGGCCGCTATGTGGAATTCAACCTGCTTTACGATCGCGGCACGATCTTCGGCCTCAAGACCGGCGGCAACGTCGAATCGATTCTCTCCTCGCTGCCGCCGGTGGTGCGCTGGCCTTAA	MERPILPKGLPDDIEDKKALAQAWFQHLRDTIVNSFETLENDLTGPLSDQEPGRFVQKDWLRDDGEGGGGKMSMMEGRVFEKVGVHTSTVYGEFSPEFRKQIPGAEEDPRFWASGLSLIAHPVNPNVPAVHMNTRMVVTTSHWFGGGADLTPVLGRRRTQEDPDSQLFHRAFEITCNRHPVADYPRYKTWCDEYFFLKHRNEARGIGGIFFDWLYPQEENGGWDANFAFVQDVGRAFNLVYPKIVRANFNQNWTEEDRDEQLIRRGRYVEFNLLYDRGTIFGLKTGGNVESILSSLPPVVRWP	PGPT0003205_1809	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003205-hemF-K00228	NA	NA
BMS010_01165	276			hypothetical protein	ATGACGAAATTTACCGGACCGCCGCCCCTCGACGGGCTGAAGCGCAGGATCGCCAATCACCGCAAGGCGCGTGAAGGCTCGGGCGACGACAAGACGCGCAACGGCATGTTCGTGCGGCAGACCTTCTGTCTCGGACGCGAGGAAGCCCGCGCCAAGGCGCGCGAATGGTTCGACAGCTTTCCGAAAGCGGCCTACTGGACGGAAGTGGAAAGCTGGCGGCAACTGGAAGGCGACCGCATCGAATTCACCATGCGGCGGCTGCCCTCGGCCGATTGA	MTKFTGPPPLDGLKRRIANHRKAREGSGDDKTRNGMFVRQTFCLGREEARAKAREWFDSFPKAAYWTEVESWRQLEGDRIEFTMRRLPSAD				NA	NA	NA	NA	NA
BMS010_01166	1653			hypothetical protein	ATGCAATCCACCATTGTCATCGTCAACCTTCTCGGCGCAGTCGCGCTGCTGCTCTTCGGCCTTTCCCAGGTCAAGGATGGCGTCACCCGCGCCTTCGGCATGAAACTGCGAAGCGTGCTGGCCACCGGCACCCAGAACGGTCCGCGTTCCTTCTTTTCCGGCTTTTTCGCCACCGTCGCGCTGCAAAGTTCGACGGCGACGGCGCTCACCGTCGCCTCCTTTGCTGAACGAGACCTCATCAGGCCGCGCATGGCACAGGTGGTGCTGCTGGGCGCCAATGTCGGCACCGCCGTTACCGCATGGATCGTGGCGGCCGGGGTGGAATGGCTGTCGCCGCTGCTGATCCTCGCGGGCATTATTTTGAAAAAGGGCAGCTCCAATGCCCGGCAGGGCGGCGGAACGGCGCTGATCGGCATCGGCCTCATGCTTCTGTCGCTGCATCTGTTAAGCGGCGCGACAGAACCGATGCGCGCCTCGCCGGCTCTCGGCGTCTTTATCGGCCTGCTTGACGGGGCATGGCCCGTCGCGCTGATCTTTTCCGCCGTGCTCGCCTTCGTTTCGTCTTCCAGCCTTGCCGTCGTGGTGCTCATCCTGTCGCTGGCCGCCACCGGCACGCTTTCCACCGGCCTCATCATCGTGCTCATTCTCGGTGCCAACCTCGGCGGCGCGATTCCGCCGGTCATCGCCACGCTTTCCGGCCCCGCCTCGGCGCGGCGCATCACCATGGGCAACCTTCTGGTGCGCACCATTGGCTGCCTCATCGCGCTGCCGCTTGCCTCCTATGGCGCGGAATTCCTGCAGCAGTTGCCGCTTTCGCCCGCAAAATTGCCGGTCGACGCCCATCTGATCTTCAACGTCATTCTGGCGGCGCTGGCCTGGCCCTTCTCCGGCCTCCTGTCCGACCTGATGGCAAGGCTGGTGCCGGGCGATCCGAAAGCCGAAGACGGTCCGAATTTCCTCGACCAGCAGGCGCTGGACATGCCGGTCGTGGCCCTTGCCAACGCCACCCGCGAAGTGCTGGGTGTCGGCGACAGCATCGAGCGCATGCTGATCCGCGCTGAAAACGCCTTCAAGCACAATGATCTCGCACCGCTTCAGGAGGTTTCCCTGCTCGAAAAGAAGGTCGACCGCCGCCAGCAGGAGGTGAAGGTCTATCTGTCGCAACTGGGACGCAAGGGGCTTTCCGACGAAGAAGCCCGCCGTTCGATCGCCATCATCGATTACGCGATCAACCTCGAACATATCGGCGATATCATCGAAAAGGGCATCTGCGAACAGATCCGCAAGAAGGTGCTGAACAGCTTCAAGTTTTCCGACGACGGTTATGAGGAGCTGAAAACCCTGTTCGACATGACCATCGAGAACCTGCGCGCCGCCCAGAGCATTCTGGTGACCGGCGATTTCGAACTCGCCCGCCGGCTGATGGAAAGCAAGGTTGATATACGCCGGCTCGAAAAACAGTCCTCCAACCGCCATCTGGAGCGGCTGCGCGACGGGCTGGCGGAAAGCATGCAGACCAGTTCGCTGCATCTAGACATGCTGCGCGACCTCAAACGCATCAACGCCCATATCGTCACGGTGGCGCATCCCATTCTGGATGAAAGCGGTGTGCTGATCGAAAGCCGACTGCGTTATGCCGAGCCCCGCGCCTGA	MQSTIVIVNLLGAVALLLFGLSQVKDGVTRAFGMKLRSVLATGTQNGPRSFFSGFFATVALQSSTATALTVASFAERDLIRPRMAQVVLLGANVGTAVTAWIVAAGVEWLSPLLILAGIILKKGSSNARQGGGTALIGIGLMLLSLHLLSGATEPMRASPALGVFIGLLDGAWPVALIFSAVLAFVSSSSLAVVVLILSLAATGTLSTGLIIVLILGANLGGAIPPVIATLSGPASARRITMGNLLVRTIGCLIALPLASYGAEFLQQLPLSPAKLPVDAHLIFNVILAALAWPFSGLLSDLMARLVPGDPKAEDGPNFLDQQALDMPVVALANATREVLGVGDSIERMLIRAENAFKHNDLAPLQEVSLLEKKVDRRQQEVKVYLSQLGRKGLSDEEARRSIAIIDYAINLEHIGDIIEKGICEQIRKKVLNSFKFSDDGYEELKTLFDMTIENLRAAQSILVTGDFELARRLMESKVDIRRLEKQSSNRHLERLRDGLAESMQTSSLHLDMLRDLKRINAHIVTVAHPILDESGVLIESRLRYAEPRA	PGPT0002650_1203	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0002650-yjbB-K03324	NA	NA
BMS010_01167	462	trmL_1	COG0219	tRNA (cytidine(34)-2'-O)-methyltransferase	ATGCCCGAAATAAGGATCGCCCTTTACCAGCCCGATATTCCCGGCAATACCGGCACCATCCTGCGGCTGGCCGCCTGTCTCGGCCTTGGCGTCGACATCATCGAGCCGGCCGGTTTCGATATTTCCGACCGCAATCTGAAACGGGCGGGCATGGATTATATCGCAGCGGCGGCGCTGACGCGCCATGTCAGCTGGGACCGTTTCGAGGAATGGCGGGCAACCACCGGCCGCCGTCTCGTTCTCGCCTCCACCAAAGCCGCCCTGCCCTATACGAAGATCACCTACCGCACGGATGACATCCTGCTTTTCGGCCGCGAAAGTGCGGGCGTACCGGACCATGTGCATGAGAAGGCAGAGGTGCGAATCATCATCCCCATGATGTCGGGACAGCGCTCCATCAACGTCGCCATGTCGGCGGCGATGATCGCCGGCGAGGCTTTACGCCAGGTGGCGTGGGCCTAG	MPEIRIALYQPDIPGNTGTILRLAACLGLGVDIIEPAGFDISDRNLKRAGMDYIAAAALTRHVSWDRFEEWRATTGRRLVLASTKAALPYTKITYRTDDILLFGRESAGVPDHVHEKAEVRIIIPMMSGQRSINVAMSAAMIAGEALRQVAWA				NA	NA	NA	NA	NA
BMS010_01168	1851		COG1132	Putative multidrug export ATP-binding/permease protein	ATGTTTGGCTGGTTTGAAAAACGCCTCGATCCTTTTCCCTCTTCGGCGCCCTCCGTGCCGCCAAAGAAGCTTTTGCCGTTCCTGTGGCACTATGTGAAGCCCGCATGGCCATGGCTCCTGCTGCTCGGCCTGATGTCCATGGGCATCGCGATTGCGGAAGCCATGCTCTACAAATTCCTTGGCAATATCGTCGACTGGCTGTCCACGGCCAATCGCGAGACATTTTTTGCCGATGAGGGCTGGCATCTGATCGGCATGGCGGCGCTGGTGCTCTTCGTGTTGCCGCTGATGGGCGCGATCCACACCATGACGATGCACCAGACGCTTGCCGGCAATTTCGGCATGATTGCGCGCTGGAAGATGCACCGTTTCCTGCTGCGCCATTCCATGAACTTCTTCGCCAACGAGTTTGCCGGCCGCGTTTCCACCAAGGTGATGCAGACGGCGCTGGCGATCCGCGAAGTGGCGCTGAAGGTGATCGACGTCTTCGTCTATGCGATCAGCTTCGTCGTCTCGATGCTGTTCATGGTGGCAGCGGCGGACTGGCGGCTGGTCATTCCGCTGCTGGTCTGGCTCGGTATCTATATGGCCATCCTCGCTTATTTCGTGCCGAAGCTCGGCCGGCTGGCGCAGGAGCAGGCCGATGCACGCTCGATGATGACGGGCCGGATCGTCGACAGTTACACCAACATCTCAACGATCAAGCTGTTTTCCCATGCGGGGCGCGAGGAAAGATATGCGCGTGAGGGCATGAATGTGTTTCTCGGCACGGTTCACCGCCAGATGCGCAAGATTTCCGGCTTCAACATCCTGATCGACCTCAACAACGCCCTGGTGCTGTTTTCCACGGCGGCGCTCGGTCTTTATTTCTGGATGCAGGGATCGGTCACGGCCGGTTCGGTCGCCATCGCCATCAGCCTTGCGATGCGCGTCAACGGCATGTCGCAGTGGATCATGTGGGAAGTCACCTCGCTGTTCGAAAATATCGGCACGGTTTATGACGGCATGTCGATGATGACGAAGCCGCACGATATCGTCGACGTCCCGAAGGCGCCTGAGCTTGCCGCACCGCAGGGCGCGATCCGTTATGACAATGTCCGTTTCCACTACGGCAAGAACAAGGGCGTGATCGACGGGCTGACGCTCGACATCAAACCTGGCGAAAAGGTCGGTCTGGTCGGGCGCTCGGGTGCGGGCAAGACGACGCTGATGAACCTGCTTCTGCGTTTCTACGATCTGGAAGCGGGCAGGATCACCATCGATGGGCAGGACATCTCCAAGGTGTCCCAGGACAGCCTGCGCGAGCTGATCGGCGTCGTGACGCAGGATACCTCGCTGCTGCATCGCTCGATCCGCGACAACATCGCTTATGGTCATCCCGAAGCTACGGACGAGCAGGTGATCGCGGCGGCGAAGCGGGCGAATGCCTGGGACTTCATCGAAACGCTTGTCGACATGCATGGCCGTCAGGGCCTCGATGCGCAGGTGGGCGAACGCGGCGTGAAGCTCTCCGGCGGCCAGCGCCAGCGTATCGCTATCGCCCGCGTCTTCCTCAAGAACGCGCCGATCCTGGTGCTGGACGAGGCGACTTCGGCGCTCGACTCCGAAGTCGAGGCGGCGATCCAGGAAAACCTGTTCTCGCTGATGGAAGGCAAGACGGTGATCGCGATTGCCCACCGCCTTTCGACACTGACCGAAATGGACCGGCTCATCATTCTCGACAAGGGCCGGATCGTGGAGGCGGGCAGCCATGCGGAGCTGGTGGCGATGGGCGGCATCTATGCCGACCTGTGGCGGCGCCAGTCCGGCGGCTTCATCGCCGACCATGAGGCGGAAGTGGCCGCAGAGTAA	MFGWFEKRLDPFPSSAPSVPPKKLLPFLWHYVKPAWPWLLLLGLMSMGIAIAEAMLYKFLGNIVDWLSTANRETFFADEGWHLIGMAALVLFVLPLMGAIHTMTMHQTLAGNFGMIARWKMHRFLLRHSMNFFANEFAGRVSTKVMQTALAIREVALKVIDVFVYAISFVVSMLFMVAAADWRLVIPLLVWLGIYMAILAYFVPKLGRLAQEQADARSMMTGRIVDSYTNISTIKLFSHAGREERYAREGMNVFLGTVHRQMRKISGFNILIDLNNALVLFSTAALGLYFWMQGSVTAGSVAIAISLAMRVNGMSQWIMWEVTSLFENIGTVYDGMSMMTKPHDIVDVPKAPELAAPQGAIRYDNVRFHYGKNKGVIDGLTLDIKPGEKVGLVGRSGAGKTTLMNLLLRFYDLEAGRITIDGQDISKVSQDSLRELIGVVTQDTSLLHRSIRDNIAYGHPEATDEQVIAAAKRANAWDFIETLVDMHGRQGLDAQVGERGVKLSGGQRQRIAIARVFLKNAPILVLDEATSALDSEVEAAIQENLFSLMEGKTVIAIAHRLSTLTEMDRLIILDKGRIVEAGSHAELVAMGGIYADLWRRQSGGFIADHEAEVAAE	PGPT0029145_602	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029145-vcaM-K18893	NA	NA
BMS010_01169	2010	btuD_5		Vitamin B12 import ATP-binding protein BtuD	ATGCGCAAAATATCGCTGGGTCGATTTAAGGGCGGGGAACATTCCCCGCCCTTCTTCATTCCACGAATGTTACCGAAATATAATCTCTTCCCGAAGCCTTCGCGGCTGTTCCCGCTCCGGGAATCCGCCTATATCCGGATCATGGTTATTACCCGCATCTTCGAGTTTTTCGAGAACTGGATAAAGCCCTTCGCCCGCAAGGACGATTTGCGGCCGCCTGAAAGCACGTTCGCCTTTATCTGGTTCTACATCTCGCAGGCCAAGGCGCCGTTTTTAGCCATGCTGGTGCTGGGCGGGCTGACGGCGGCCATCGAGGCGGCGCTGTTCTGGTTCGTCGGGCGGCTGGTGGATATTCTCTCTACCGTGAAGCCGGAAGAGGGCTGGGCGGGGCTGCTTGCGGCCCATGGCGGCGAGCTGGTGGGCATGCTGGTGCTGATCGGCGTGGTGCGTTTTATCGTCACCATGGTAACGGCGCTGGTGGATCAGCAGATCATCACGCCCGGTTTTTACAATCTGGTGCGCTGGCAATCCTATATGCATGTGGCGCGGCAATCGCTGACCTTCTTCCAGAACGATTTTTCCGGCCGCATCGTCACCAAGGTCTGGTCGGGTGGGCAGGCAGCGGGCGATCTCGTCACCTCGCTGATGGAAAGCGTGTGGTTCGTCGGCATTTATTCCGTTTCCATGCTGTTCCTGATTGGCGGGCTGGACTGGCGGCTTGCGGTCGTCGTCGTCGTCTGGGTGGGGATATTCTCGCTGCTGGCGCGCTATTTCGTGCCACGTATCCGCTACCATTCCAAGGAAACGGCGGAAGCCGCCTCGATGCTCTCCGGCCGCATGGTGGATGCCTACAGCAATATCCAGACGCTCCGGCTGTTCGGGCGAGATGATGCCAATGACCGCTACATGCGGCAGGGTTTCGACATTTTCCAGCATGCGACCATGACATTCACCCGGTTCATCACCGGCGTGCGCGCCTCCATGGCGCTGTTGTCCGGCGTGATGATCACGTCCATGGCGGCGCTCTGCATCGATCTGTGGCTTTCCGGCAAGATCAGTTCCGGTGCGGTGGCCTTCACGCTGGCGCTGGTGCTGCGTCTCAACTTCCTGCTCGGCCGGCTGATGACGCAGTTCAACGGCATTATGCGCAATTTCGGCACGGTGCAGAATGCCGCCGAACTGATTTCGCAGCCGATCGGTCTCGTCGATGCGCCGGAGGCGACGGCGCTGGAGGTGAAGAAGCCGGGCATCCGTTTCGAAAATGTCAGCTTCCATTACGGGCGCGCGAACGGCGTCATCGACCATCTCAATCTCGAAATCAGAGCGGGCGAGAAGGTAGGCATCGTCGGACGCTCCGGGGCGGGAAAATCCACCCTCGTCAATCTGCTCCTGCGTTTTTACGATGTCGAAAAAGGCCGCATCCTGATCGACGGGCAGGATATCGCCAGAGTGACGCAGGAATCGCTGCGCGCCCATATCGGCATGGTCACGCAGGACACGTCGCTGCTGCATCGCTCCATTCGTGACAACATCCTGTTCGGCCGTACAGACGCGACCGAAGCGCAATTGCAGGAGGCGACGCGGCGAGCCAAGGCGGATGATTTCATCGCCAGGCTCGAGGATCAGCGCGGCCGCAAGGGGTTCGACGCACATGTGGGCGAACGCGGCGTGAAATTGTCCGGCGGCCAGCGCCAGCGCATCGCAATCGCCCGCGTGATGCTGAAGGACGCACCGATCCTCGTGCTCGATGAGGCGACGTCGGCGCTCGATTCGGAGGTGGAGGCGGCGATCCAGAGCAATCTGGACGAGTTGATGCAGGGCAAGACGGTGCTGGCCATCGCCCACCGCCTGTCGACCATCGCGGCTCTCGACCGGCTGATCGTGATGGACCAAGGGCGCATCGTCGAACAGGGCAGCCATTCCGATCTGGTCATGCAGGGCGGACTTTATTCGGAACTCTGGGCGCGGCAGTCGGGCGGTTTTCTTGCCGCGGACGAAGCGGCGCAATAA	MRKISLGRFKGGEHSPPFFIPRMLPKYNLFPKPSRLFPLRESAYIRIMVITRIFEFFENWIKPFARKDDLRPPESTFAFIWFYISQAKAPFLAMLVLGGLTAAIEAALFWFVGRLVDILSTVKPEEGWAGLLAAHGGELVGMLVLIGVVRFIVTMVTALVDQQIITPGFYNLVRWQSYMHVARQSLTFFQNDFSGRIVTKVWSGGQAAGDLVTSLMESVWFVGIYSVSMLFLIGGLDWRLAVVVVVWVGIFSLLARYFVPRIRYHSKETAEAASMLSGRMVDAYSNIQTLRLFGRDDANDRYMRQGFDIFQHATMTFTRFITGVRASMALLSGVMITSMAALCIDLWLSGKISSGAVAFTLALVLRLNFLLGRLMTQFNGIMRNFGTVQNAAELISQPIGLVDAPEATALEVKKPGIRFENVSFHYGRANGVIDHLNLEIRAGEKVGIVGRSGAGKSTLVNLLLRFYDVEKGRILIDGQDIARVTQESLRAHIGMVTQDTSLLHRSIRDNILFGRTDATEAQLQEATRRAKADDFIARLEDQRGRKGFDAHVGERGVKLSGGQRQRIAIARVMLKDAPILVLDEATSALDSEVEAAIQSNLDELMQGKTVLAIAHRLSTIAALDRLIVMDQGRIVEQGSHSDLVMQGGLYSELWARQSGGFLAADEAAQ	PGPT0029145_10	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029145-vcaM-K18893	NA	NA
BMS010_01170	933			hypothetical protein	ATGACGGCGAAGCTCTCTTGCATGGTCTCCACGGCGGTGGCTGCCGTTCTTTTCGTCGCCAGCCTGCGTTATGTGACGGATTTCTGGCTTCTCGCCTTCGTCACCAGTTTCCAGCTGCACATCGCCATCGTCTGTATCCTGCTGTCATGCCTCGTTTTCTGGCTGACGCGCGACGCGGTTTCGGCGCTCCTCCTCGTCTGGTCGCTTGCGCTCGCCATCCATGCCATTGCCATGCTTCTGGAATTTTCCACATCCGCCAACCCGGCGCCGGGCGCCAAACCCTTCCGGCTGCTGTCCTTCAACGTGCTGATGGACAATGCCACCAATGCGGATGCAATTGCCGACACGATTCTCGAATCGGGCGCGGATGCCATCTATCTCTTCGAGGCGGCGGCGCTGAAATCGGCCCTGCCGCGACTGCAGCAAACCTATCCGCACAGGCTTGGCTGTTACACCGGAACGCCCGGATGCGATCTGGTGATCCTGTCAAAAAGACCGTTGCTGGAAGGCCGTTTCCATAGTCTCAGCGATCTTCGGCGGGATCGGTTCGCCATAGCCCATATCGATCTCGACGGCACGGAACTGACGCTCGCCGCCGGGCATATCACCAAGCCCTATTTCGACGATTATCATCGCGACGAACTCGATGAAGTCAGTGAAATTCTCTTTCGCGTCACCGGGCCGCTCATTCTGGCCGGAGATTTCAATTCGGCCAGCATCGCCCCGGACATGCGCGCTTTCCTCGCCGCCAACGATCTGAAAAAAGCGACCTTCGAACCCGCCACATGGCCGACAGAGGCCGGCCGCTTCGGCATCGCCATCGACCACATCTTCGCCCGCGAACCGGCGACGCTGATGAAAACTACCCGCCTGCCCGACAGCCTCGGCTCCAATCATTACGGCCTGATGGCGGATTTCATGATCGGGAAATAG	MTAKLSCMVSTAVAAVLFVASLRYVTDFWLLAFVTSFQLHIAIVCILLSCLVFWLTRDAVSALLLVWSLALAIHAIAMLLEFSTSANPAPGAKPFRLLSFNVLMDNATNADAIADTILESGADAIYLFEAAALKSALPRLQQTYPHRLGCYTGTPGCDLVILSKRPLLEGRFHSLSDLRRDRFAIAHIDLDGTELTLAAGHITKPYFDDYHRDELDEVSEILFRVTGPLILAGDFNSASIAPDMRAFLAANDLKKATFEPATWPTEAGRFGIAIDHIFAREPATLMKTTRLPDSLGSNHYGLMADFMIGK				NA	NA	NA	NA	NA
BMS010_01171	579	petA_1	COG0723	Ubiquinol-cytochrome c reductase iron-sulfur subunit	GTGAGCGAGCACGTAACCAATCACGACGCTTCGGGTGAACCGACCCGTCGCGATTTTCTTTACCTAGTGACGGGAATGGCGGGCGCTGTCGGTGCCGCCGCCGTCGCATGGCCCTTTATCGACCAGATGCGTCCCGATGCATCGACGCTGGCGCTCGCCTCCATCGAGGTGGATGTCACGGCCGTCGAGCCGGGCATGTCGCTTACCGTGAAGTGGCGCGGCAAGCCGATTTTCATCCGCAACCGCACGGAGAAGGAAATCGAGGAAGCCCAGGCCGTCGCTCTCGGCGATCTGAAGGATCCTGTGGCGCGCAATGCCAACATCGCCGCCGACGCGCAGGCGACGGATATCGACCGCTCCGCTGGCGAGGGCAAGGAAAACTGGATCGTCATGGTCGGTTCCTGCACCCATCTCGGTTGCGTTCCGCTCGGCCAGGCCGGCGATTTCGGCGGGTGGTTCTGTCCCTGCCATGGCTCGCACTACGATACGGCGGGCCGCATACGTAAGGGTCCGGCGCCGGAAAACCTCGCCATCCCGACATTTGCATTCACATCCGATACCGTGATCAAGATCGGATAA	MSEHVTNHDASGEPTRRDFLYLVTGMAGAVGAAAVAWPFIDQMRPDASTLALASIEVDVTAVEPGMSLTVKWRGKPIFIRNRTEKEIEEAQAVALGDLKDPVARNANIAADAQATDIDRSAGEGKENWIVMVGSCTHLGCVPLGQAGDFGGWFCPCHGSHYDTAGRIRKGPAPENLAIPTFAFTSDTVIKIG	PGPT0030835_1670	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-PHOTOSYNTHESIS_ELECTRON_TRANSFER,PGPT0030835-petA-K00411
BMS010_01172	1323	fbcH_1	COG1290	Cytochrome b/c1	ATGAGTGGTCATTCCAGTTATCAGCCGTCCACCGGCATCGAAAGGTGGATCGATTCGCGGCTTCCCTTGCCGCGCATGATCTATGACAGCTTCGTTGCCTATCCTGTCCCGCGTAACCTGAACTACGCCTACACCTTCGGCGCGATGCTTTCCGTCATGCTGCTGGTGCAAATCCTCACCGGCGTCGTGCTGGCCATGCACTATGCGGCCGAAACGACGGTCGCCTTCAATTCCGTCGAAAAGATCATGCGCGACGTCAACCATGGCTGGCTGCTGCGCTACATGCATGCCAACGGTGCGTCGTTCTTCTTCATCGCGGTTTACCTGCATATCGCCCGCGGCCTTTATTACGGCTCCTACAAGGCGCCGCGCGAAATCCTCTGGATTCTCGGCTGCGTGATCTTCCTGCTGATGATGGCGACGGGCTTCATGGGCTACGTTCTGCCCTGGGGCCAGATGTCCTTCTGGGGCGCAACCGTTATCACCGGCTTCTTCACGGCTTTCCCGGCCATCGGCGAATGGATCCAGCAGTTCCTGCTCGGCGGCTTTGCCGTGGACCAGCCGACGCTGAACCGCTTCTTTGCGCTTCACTATCTGCTGCCCTTCATGATCGCAGGCGTCGTGATCCTCCATATCTGGGCGCTGCATGTGACCGGCCAGACCAACCCGACCGGCGTTGAAGTGAAGAGCAAGACCGACACGGTTCCCTTCACGCCCTATGCGACGCTTAAGGATGCGCTCGGCGTTTCCGTGTTCCTGATCGGTTACGCCTGGTTCGTGTTCTACATGCCGAACTTCCTTGGCCACCCCGACAACTACATCATGGCCGACCCGCTGAAGACGCCGGCGCATATCGTTCCGGAATGGTACTTCCTGCCGTTCTACGCCATGCTGCGCGCCATCACCTTCAACATCTGGATCATCGATTCCAAGCTGGGCGGCGTTCTCGTGATGTTCGGCGCGATCGTCGTGCTGTTCTTCCTGCCCTGGCTCGATACGTCGAAGGTGCGTTCCGCCGTCTATCGTCCCTGGTACAAGATGTTCTTCTGGCTGTTCGTGGTCAATGCCATCATGCTCGGCTGGCTGGGTTCACGCCCGGCGGAAGGAACTGGCCTGCTCGGCCTGCTCACCGGCGAGCTGAAAGGCAATTATGTCGGCTATTCGCAGCTCGGCACGCTTTATTACTTCGGTTTCTTCCTCGTCATCATGCCGATCCTCGGTCTGGTCGAAACGCCCCGGCGTATTCCGAATTCGATTACCGAGGCCGTTCTCGAAAAGAACGCCGCCAAGACGGGTGCCGCATCTGCGGCTGCCGAAGTCTGA	MSGHSSYQPSTGIERWIDSRLPLPRMIYDSFVAYPVPRNLNYAYTFGAMLSVMLLVQILTGVVLAMHYAAETTVAFNSVEKIMRDVNHGWLLRYMHANGASFFFIAVYLHIARGLYYGSYKAPREILWILGCVIFLLMMATGFMGYVLPWGQMSFWGATVITGFFTAFPAIGEWIQQFLLGGFAVDQPTLNRFFALHYLLPFMIAGVVILHIWALHVTGQTNPTGVEVKSKTDTVPFTPYATLKDALGVSVFLIGYAWFVFYMPNFLGHPDNYIMADPLKTPAHIVPEWYFLPFYAMLRAITFNIWIIDSKLGGVLVMFGAIVVLFFLPWLDTSKVRSAVYRPWYKMFFWLFVVNAIMLGWLGSRPAEGTGLLGLLTGELKGNYVGYSQLGTLYYFGFFLVIMPILGLVETPRRIPNSITEAVLEKNAAKTGAASAAAEV	PGPT0030840_696	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-PHOTOSYNTHESIS_ELECTRON_TRANSFER,PGPT0030840-petB-K00412
BMS010_01173	909	fbcH_2	COG1290	Cytochrome b/c1	ATGAAGACGCTTCTCACGAGCATCGCGCTTTTCGCCGCCATTGGCTGTTCCGCCGCCGCTTTTGCGGCGGAGGAGAGCCATGATCTCGCCGCCCAGGCCACGCATGCGATCGCCGGCAATCACTTCCCGGTCATCAAGCCCGAGGAGCAGAGCTGGTCCTTTGCCGGACCCTTCGGCAAATACGACAAGGGCCAGCTGCAACGCGGCCTGAAGGTCTATAAGGAAGTCTGCTCCGCCTGCCATTCCATGAGCCTCGTTTCCTTCCGCACGCTGGAGGATCTCGGCTATTCGGAGGAGCAGGTGAAGGCTTTCGCCGCGGAATATGAGGTACAGGACGGGCCGAACGCCGATGGTGAAATGTACAATCGCAAGGCCGTGCCTTCCGATCATTTCCCTTCGCCTTTCCCCAACCATGAGGCGGCCGCTGCCGCCAACGGCGGAGCGGCCCCGCCCGACATGTCGCTGCTCGCAAAGGCGCGTGGCGTGGAGCGCGGTTTTCCGCAATTCATCATCGACATGATCCCGATTGTCGGTGGTTACCAGGAAGGCGGCCCGGATTATATCCATGCGCTGCTGACCGGATATCAGGATCCGCCGGCCGGCATAAAAAACCCGGATGGTTCGGAGTACAAGGTGTCGGAAGGCACGCACTTCAATCCGTACTTCGTCAGCGCCACTTCCTTAAAGATGGCGCCGCCGATCAGTGCCGATCAGGTGACCTATGATGACGGCGCGCCGCAGACCGTGGACCAATATTCCAAGGACGTTGCTGCGTTCCTGATGTGGGCGGCAGAACCGCATCTGGAAGAGCGCAAGCGCACCGGCTTCATGGTCATGGTGTTCCTGTTCATCTTCACGGCGCTGATCTATCTCACCAAGAAATCGGTCTACGCCAACAAGGAACATTGA	MKTLLTSIALFAAIGCSAAAFAAEESHDLAAQATHAIAGNHFPVIKPEEQSWSFAGPFGKYDKGQLQRGLKVYKEVCSACHSMSLVSFRTLEDLGYSEEQVKAFAAEYEVQDGPNADGEMYNRKAVPSDHFPSPFPNHEAAAAANGGAAPPDMSLLAKARGVERGFPQFIIDMIPIVGGYQEGGPDYIHALLTGYQDPPAGIKNPDGSEYKVSEGTHFNPYFVSATSLKMAPPISADQVTYDDGAPQTVDQYSKDVAAFLMWAAEPHLEERKRTGFMVMVFLFIFTALIYLTKKSVYANKEH	PGPT0030845_761	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-PHOTOSYNTHESIS_ELECTRON_TRANSFER,PGPT0030845-petC-K00413
BMS010_01174	393			hypothetical protein	ATGACGACAATTCGTAACGGCGGCTGCCTGTGCGGCTCCATCCGTTTTGAAGCGAAGGGGGAGCCCGGTAATCCGCACACTTGCTCCTGCGATATCTGCCAGCGCCATTCCGGTGCGCCCAGCCTTGCCTGGGTGGAGTTCGAGAAGGATGCGGTGACATGGACGGGAGAGGGCGGCGCGCCTTCGACTTTCCGATCCTCCGATTATTCCAGCCGGGCTTTCTGCCCGACCTGCGGCAGCACGCTTGGCGCCATCGACGACGCGCCGACGGTTGCGCTGGTCTTTGGAAGTTTCGATGACAGGGACGATGAGGCGCTGCGGCCCCTGTCGCATTCCTTCGAGGATGTCTGCCCGGTCTGGGCGCGGATCGAGGGAATGTCCCCGGCGGGATGA	MTTIRNGGCLCGSIRFEAKGEPGNPHTCSCDICQRHSGAPSLAWVEFEKDAVTWTGEGGAPSTFRSSDYSSRAFCPTCGSTLGAIDDAPTVALVFGSFDDRDDEALRPLSHSFEDVCPVWARIEGMSPAG				NA	NA	NA	NA	NA
BMS010_01175	543	apt_1	COG0503	Adenine phosphoribosyltransferase	ATGACCGTTATCGCTTCGGAGCTTTCCGCTGCCATCCGTTCCATTCCCGACTATCCGAAGCCGGGTATCATCTTCCGGGACATCACGACGTTGCTCGGCAACCCCCGCGCTTTTCGCCGTGCCGTGGACGAACTTGTGCAGCCCTATGCGGGAACCAAGATCGACAAAATCGCCGGCATGGAAGCACGCGGCTTCATTCTGGGCGGTGCGGTGGCGCATCAGCTATCGGCCGGTTTCGTGCCGATCCGCAAGAAGGGCAAGCTGCCGCACACCACCGTCCGTGTCGCCTACAGCCTTGAATACGGCGTCGACGAAATGGAAATGCATGTGGATGCGGTCCAGCCGGGCGAAAAGGTCATTCTGGTCGACGACCTGATTGCCACCGGCGGCACTGCCGAAGGTGCGGTCAAACTGCTGCGGCAGATGGGTGCAGAGATCGTTTCCGCCTGTTTCGTTATCGACCTGCCCGATCTCGGTGGCCGCAAGAAGCTGGAAGACCTCGGTGTCGAGGTGCGCACACTGGTGGAATTTTCCGGTCACTGA	MTVIASELSAAIRSIPDYPKPGIIFRDITTLLGNPRAFRRAVDELVQPYAGTKIDKIAGMEARGFILGGAVAHQLSAGFVPIRKKGKLPHTTVRVAYSLEYGVDEMEMHVDAVQPGEKVILVDDLIATGGTAEGAVKLLRQMGAEIVSACFVIDLPDLGGRKKLEDLGVEVRTLVEFSGH	PGPT0021455_2585	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021455-apt-K00759	NA	NA
BMS010_01176	468			hypothetical protein	ATGAAACTGGCAGAACTTTCTCCCATCGGCGAACGCGTCACCCTCGACACGCTGCATTTTTCCGCCGAAGACATCATCCGTTTCGCGCGCGATTTCGATCCGCAGCCCTTTCATCTCGACGCGGAAGCCGCAAAGAACAGCGTTTTCGGCGCTCTCTGCGCTTCCGGCTGGCACACCGGCGCAGGCTGGATGAAATGCTTCCTCTCTCACTGGGCCAAAGAGGTGAAAAGGTTGAAGCTACAGGGCCTTGAGCCGCCCAAACTCGGCCCCTCCCCCGGTTTTCGCGAACTCAAATGGAAAAAGCCGGTCTTTGCCGGAGACGATGTCACCTATTTCGTGACCCTGCTCGACACCCGAGCGCTGGAATCCAGAGCCGGCGTCTGGCTGAACACCACATTTAACGAGGGCGTCAACCAGTCGGGAGAAACAGTGATGACCTTCCAGAGCGGGGTTCTGGAATTCGAATAG	MKLAELSPIGERVTLDTLHFSAEDIIRFARDFDPQPFHLDAEAAKNSVFGALCASGWHTGAGWMKCFLSHWAKEVKRLKLQGLEPPKLGPSPGFRELKWKKPVFAGDDVTYFVTLLDTRALESRAGVWLNTTFNEGVNQSGETVMTFQSGVLEFE				NA	NA	NA	NA	NA
BMS010_01177	474			hypothetical protein	ATGACGCCGGTCGCGACATATGCCTATGAGGATTTTTCCGTCGGTCGGGAATTTCCTTTGGGCCCGCAATCGATTTCCGCAGAGCAGATCATTACCTTCGCCAGCGAATTCGACCCACAGCCCATGCATCTTTCCGAAGAGGCTGGCCGCCAGAGCATTCTCGGCGGCCTGGCGGCTTCCGGCTGGCACACCTGCAGCCTGCTGATGCGGATGATGGCGGACAGCTACATCTCGAACTCGACCTCGCAGGGCAGCCCCGGCATCGATTTCGTCGACTGGAAAAAGCCGGTTCTGGCGGGCGATACGCTTGTCGGAAAATCCATCGTGCTGGAACAGCGGCCCTCCGCGTCGCGCCCCGGTATCGGCCTCGTGAAATTACGCCACGAGCTTTATAACCAGCGCGGCGTTCTGGTATCGCACGGGGAAAACACCGTGATGTTCCTGATGCGCGGCAATGGAGGCGTTGCAGCATGA	MTPVATYAYEDFSVGREFPLGPQSISAEQIITFASEFDPQPMHLSEEAGRQSILGGLAASGWHTCSLLMRMMADSYISNSTSQGSPGIDFVDWKKPVLAGDTLVGKSIVLEQRPSASRPGIGLVKLRHELYNQRGVLVSHGENTVMFLMRGNGGVAA				NA	NA	NA	NA	NA
BMS010_01178	1104	ychF_1	COG0012	Ribosome-binding ATPase YchF	ATGGGCTTCAAATGCGGTATCGTTGGATTGCCAAATGTCGGCAAGTCCACTCTCTTCAACGCGCTGACGAAAACGGCAGCGGCGCAGGCAGCCAACTATCCCTTTTGCACCATCGAGCCGAACACCGGCGAAGTGGCGGTTCCGGATGCGCGCATGAAAATCCTTGCCGACATTGCCGGCTCGAAGGAAATCATCCCCACCCGCATCTCCTTCGTCGATATTGCCGGCCTGGTGCGCGGCGCATCGAAGGGCGAAGGCCTCGGCAACCAGTTCCTCGCCAATATCCGCGAAGTGGACGCCGTGGTCCACGTTCTGCGCTGCTTCGAGGATGACGACATCACTCACGTCGAAGGCCGCATCAACCCCGTGGCCGATGCCGAAACAATCGAGACCGAACTGATGCTTTCCGATCTCGAAAGCCTTGAGCGCCGCACGGAACAGACCCGCAAGCGCGCCACCGGCAAGGATAAGGAATCGCTGGCGCAGCTGCCTTTGATGGAAGCGTCGCTGAAGCTTCTGAACGAAGGCAAGCCGGTCCGCACCCTGCTCTCCACGCTGGATGCCGAGGAACTGCGCATCCTTCAGGGCCTCAACCTCCTGACGGCGCACCCGGTCCTCTACGTCTGCAACGTCGCCGAAAGCGACGCCGTCGACGGCAACGAACATACCAAGGCGGTTGCCGAAATGGCCAAGGCCCAGGGTGCGGAATCGGTCGTCATCTCCGCGGCGATCGAATCCGAAGTCGCGCAGCTTCCCGATGAAGAGGCGAAGGAATTCCTCTCCGCCCTCGGGCTCGAGGAAGCAGGCCTCGACCGCCTGATCCGCGCCGGCTACAAGCTGCTCGATCTCATCACCTATTTCACCGTCGGCCCGAAGGAATGCCGCGCCTGGACCATCGAGCGCGGCACCAAGGCCCCGCAGGCCGCGGGCGTCATCCACTCCGATTTCGAACGCGGCTTCATCCGTGCCAACACCATCGCTTACAACGACTATGTCGCCTTCAAGGGCGAAGTCGGCGCGAAGGAAGCCGGCAAGGCTCGCGATGAAGGCAAGGAATATGTGGTTCAGGACGGCGACGTCATCCACTTCCGCTTCAATACCTGA	MGFKCGIVGLPNVGKSTLFNALTKTAAAQAANYPFCTIEPNTGEVAVPDARMKILADIAGSKEIIPTRISFVDIAGLVRGASKGEGLGNQFLANIREVDAVVHVLRCFEDDDITHVEGRINPVADAETIETELMLSDLESLERRTEQTRKRATGKDKESLAQLPLMEASLKLLNEGKPVRTLLSTLDAEELRILQGLNLLTAHPVLYVCNVAESDAVDGNEHTKAVAEMAKAQGAESVVISAAIESEVAQLPDEEAKEFLSALGLEEAGLDRLIRAGYKLLDLITYFTVGPKECRAWTIERGTKAPQAAGVIHSDFERGFIRANTIAYNDYVAFKGEVGAKEAGKARDEGKEYVVQDGDVIHFRFNT				NA	NA	NA	NA	NA
BMS010_01179	315	clpS2	COG2127	ATP-dependent Clp protease adapter protein ClpS 2	ATGATGAGTGACAGTCCTGTCGATCTCAAGCCGAAGCCGAAAGTCAAACCGAAGCTGGAGCGGCCGAAGCTCTACAAGGTCATTCTGCTGAATGACGACTATACGCCGCGTGAGTTCGTTACGATGGTGTTGAAAGCCGTCTTCCGCATGAGCGAGGAAACCGGTCACCGGGTGATGATGACGGCGCACCGCTTCGGCAGCGCGGTCGTCGTTGTCTGCGAGCGCGATATTGCCGAGACCAAGGCCAAGGAAGCGACCGATCTCGGCAAGGAAGCGGGTTTTCCGCTGATGTTCACCACCGAGCCGGAGGAGTGA	MMSDSPVDLKPKPKVKPKLERPKLYKVILLNDDYTPREFVTMVLKAVFRMSEETGHRVMMTAHRFGSAVVVVCERDIAETKAKEATDLGKEAGFPLMFTTEPEE	PGPT0014575_3	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014575-clpA-K03694	NA	NA
BMS010_01180	453			hypothetical protein	ATGTCTTCGGAGCCCACCGTCCTGCGCGCAGCCGGAGCCGGCGATCTGGCCGGATTGCTTGACCTTTACCGGGCTCTCAATCCGTCCGACCCTGAAATAACGGCAGAAGAAGCGAACACGGCTTTCGCGGCCATGCTCGCCCAGCCGGGCCTGACCGTGTTTCTTGCGACCGAAGGCGAAGAAGCGGTCGCCACCGCCACGCTGCAGATCGTTCCGAACCTGACGCGCGCCGCCCGCCCCTATGCCCTTATCGAAAACGTGGTGACGCTGGAAAACCGTCGCGGCCGCGGATATGGCCGCGCGGTGGTGCGCCATGCCGTCGAGGCCGCTTTTGCGGCGAACTGCTACAAGGTGATGCTGCTGACCGGCCGGCAGCGTCCGGAGGTCCACGCCTTTTACGAAAGCTGCGGTTTCGTGCAGAACAAGACGGGTTTTCAGATCCGGCAGGGTTAA	MSSEPTVLRAAGAGDLAGLLDLYRALNPSDPEITAEEANTAFAAMLAQPGLTVFLATEGEEAVATATLQIVPNLTRAARPYALIENVVTLENRRGRGYGRAVVRHAVEAAFAANCYKVMLLTGRQRPEVHAFYESCGFVQNKTGFQIRQG				NA	NA	NA	NA	NA
BMS010_01181	717	pth_1		Peptidyl-tRNA hydrolase	ATGAAGATCATCGCAGGACTTGGTAATCCCGGCGCGCAATATGCGGGAAACCGTCACAATATCGGCTTCATGGCCGTCGATGCGCTGCAGCGCCTGCCGTCCTTTGCGCCCTGGTCGAGAAAATTCAAGGCGGAGATTTCCGAAGGCGAAATCGGCGGCGAAAAGGTCCTGCTGATGAAGCCGCTGACCTACATGAACCTTTCGGGTGAGTCCGTCGGCGAAGCCATGCGCTTCTTCAAGCTTGCGCCGGCAGACATCATCGCCATCCATGACGAACTGGATTTGCCGGCGGGCCGCGCCCGCATCAAGATCGGCGGCGGCCATGGCGGTCACAACGGCCTGAAATCGCTCGACGCCCATTGCGGCAAGGACTATCGCCGCCTGCGTCTCGGCATCGGCCATCCCGGGGACAAGGAGCGGGTGCACGGCCACGTGCTCGGCGATTTCGCCAAGGCAGACCGGGTCTGGCTCGATCCGCTTCTGGACGCCATTGCCGACAATGCCGCCATGCTGGTGAAAGCCGAGGATTCGCAGCTGATGAACAAGCTGGCGCTCGCCACGGGCACCAAGCCGGAAGCCGAAAAGCCGGCCAAGGCAGCCAAACCCGCCGCACAGTCCCATATCCATCAGGCACGCAACAGCGCCCAGCCGAAAAAGCTGCCGGAAACCGGCCCGATGGCCGAAATGCTGAAACGCATGTTCAGCAAGAAGGACTAG	MKIIAGLGNPGAQYAGNRHNIGFMAVDALQRLPSFAPWSRKFKAEISEGEIGGEKVLLMKPLTYMNLSGESVGEAMRFFKLAPADIIAIHDELDLPAGRARIKIGGGHGGHNGLKSLDAHCGKDYRRLRLGIGHPGDKERVHGHVLGDFAKADRVWLDPLLDAIADNAAMLVKAEDSQLMNKLALATGTKPEAEKPAKAAKPAAQSHIHQARNSAQPKKLPETGPMAEMLKRMFSKKD	PGPT0023420_61	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023420-tarL-K18704	NA	NA
BMS010_01182	714			hypothetical protein	ATGGGATTGATCCGCTTTTGCCTGATCTTTCTTTCACTCGCCGCTCCGGCCAGCGCGGCCAAGCTCTTCCTGACCACCGAGGTCTATCCGCCCTATAATCTGCAGGCCAGCGACGGCAGCGTGCGGGGTGTCTATTTCGAACAGCTCAGAACCGTGCTCGAAGACACCGGCACCAGTTACGAGGTCGCCGTCATGCCCTGGGCGCGGGCGATCGCACTGGCCAGAACGCAGGCCATGCACTGCGTCTTCGCCGCCGCGAGAACACCGGAGCGGGAAAAACAGTTCAAATGGGTCACGCCGATCCATATCGACCGCAACATTCTCGTGGCGCGCCGCAACGCGAATATCGAAGCCTCCAGCCTTGAGGAAGCCAAGAAATATCGGGTGGGAACCCAGCGTGGAGATTACACCGAAGCGCTTCTGGAAAAGCTCGGTTTCCCGCAGGTGGATGTCGGCGCAGATTTCGAGATCACGCTTCACAAGCTCAAGGCCGGCCGCATCGACCTGATGCCCATGTCTGAAAGCACCTTCAAAAGCCTGCCCGCTGACACGTTCAGCGAAGTGATAACTCTCTCGCGGCAGCAGCTTGGGCTTGCCTGCAACAAAAGCGTGCCCGACGAGGTCATCGCGAAATTACAGGCCCGGCTGGACAGGCTGATCGCCGATGGAACGCAGCAGCGAATATTCGACCGCTACAATCTCGTCAGCCCCTGA	MGLIRFCLIFLSLAAPASAAKLFLTTEVYPPYNLQASDGSVRGVYFEQLRTVLEDTGTSYEVAVMPWARAIALARTQAMHCVFAAARTPEREKQFKWVTPIHIDRNILVARRNANIEASSLEEAKKYRVGTQRGDYTEALLEKLGFPQVDVGADFEITLHKLKAGRIDLMPMSESTFKSLPADTFSEVITLSRQQLGLACNKSVPDEVIAKLQARLDRLIADGTQQRIFDRYNLVSP	PGPT0020800_16769	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_01183	2388			hypothetical protein	ATGGCTCATTCCGTCGAAAGTCGCTTTATCGCGATTGTTTCCGGCGCACTTCTTACAGTGGTCGCCCCGCTCTTCACGCTTTTGCTGACGCTCTCCTACCACGAAGCCATTCGCAGCCAGCGTAACCACCTTGAGATTCTGCTGTCGACCAATGCGCAGGCGCTTGCCCGGCCCCTGTGGGACCTTGATGACGACACCATAAACCAGATTACCGGCACCCTCATTTCCGACCCCGTGATCAGGATGGTCGAGGTCAGGGATACCTCCGGCCAGCTCGATATCGTCCAGACGGCCGACAGCGACATCATTCAGGATGCCGCCTCGACGACGCGCGAAGTGACCTACAAGACCACGAAGGGCTCCGTCACCGTCGGGCAATTGACGATCTATTACGACAATGTCAGCCTTCTGACCTCTTTGAGCCGCACCGAACTGGCCTTCATCACGATTTTCATCCTCGCCGTCCTCACCATCGTTCTTGCCGCCATCGCCGGCAACCGCTTCATGGTCATCCGCCCGCTGATGCGGCTCGCGGCCGCCATCGAGGCGACGCGGCGTCTCGGCTCGCGCCACCACGTCGACTGGCGTTCGAAGGACGAAATCGGCCGGCTGGCGAAAAGCTTCAACGAAATGCAGACCCAGCTCGAAAAGGAAGAGCTGGAGATCAAGAATGCGCATGAGCGCAAGACGGAAATCTACAACCGCACGCCCGCGATGCTGTTCTCGCTCGACAGGCACGACCGCATTGCCGCCGTCAGTGACTATTGGGTGCAAGCGACCGGTTACGACCGCACCCGGATACTCGGCCTGAATTTCGCCGATCTCATCCATCCCGATGACCGGCTTCTGTTCCAGCAGCGCAAGACGGCTCATCCCCTGCCCGATGCCTCGCATAGCGGCATTACGGTCCGCTTCCATTGTATGGATGGCAGCGTCATGGACGCGCTCATCCTCGAAAAGGCCCTTGATTCCGGCGATGCGGCCCATCAGAGCACCTGCCTCTGCGTCATGACGGACGTGACCGAACTGCGCCAGTCGGAAAAGCGCAACCGCCAGCAGGCCATTTCCGACCACCTGACCGGCCTTTTCAACCGCCAGGGCTTCGAGGCCATTCTCGACCTGCAAATTCGCGATGCGGACCGCAACGGCAGCGAGCTGGCCTGCCTGTTCATCGACCTCGACCGGTTCAAGGCGATCAACGACAATCTCGGCCATGCCGCGGGCGACGCCGTTCTCAAACAGTTCACGTTGAAGCTCGAACCGCTGCTGACGCCGCTGGACAGCGCATCGCGGCTTGGCGGCGACGAATTCGCCATTCTTCTGGCCGGTGACAAGGTGGAAGAGCGCGCCCTGCAATTCTGCGAGCGCATCTGCGCAATGCTCGACACGCCCTTCGACATCGAAAGCAACAGCATCCGCCTCAGCGCCAGCATCGGCATGGCGGTCTATCCCCTGCACGCCGCCAGCGCCTCCGAGCTTTTGCAGAATGCCGACATGGCCATGTATACCCGCAAGCGCACCGGCAAGAACGGCTCGCAGGTCTTCGACAGCTCGATCATGGACCGTGCGCGCGAACATGCGGAGCTGGAACGGGATATCGCGCAGGCGCTTTCCGAAGACTGGTTCGAGGCCTATTTCCAGCCGATTCAAGACCTCGCCACCGGCCAGACGGCGGGTTTCGAGGCGCTGCTGCGTCTCAACCACCCGGACAAGGGCCTGCTTTCCCCGGCCGCAATCGTCAGCCTTGCGGAAGAAAACGGCACCATCCACCGCATCGGCAATGTCATTCTCGATCAGTCGATCGCCAATCTCGCCCGGCTGTCGCGCCTGCCGGGCATGGAACAGACCTATGTGGCGGTGAATTTCTCGCCGCTGCAATTCGAACCGGGATTGCCGACGCGCATCGCCGGCGTTCTGCACCGCCATGGCATTCTTCCCAGACGGCTGGTCATCGAGATCACCGAAGCCGTTATCATGAAGGACGATCCGCAGGTCCGGGCGATCCTCAATGCCATCCACCAGCTCGGCTGCCGCATCGCGCTGGATGATTTCGGCACGGGTTATTCCTCGCTTAGCTATCTCAGCCGTTTTCCGGTCGATATCGTCAAGATCGACCAGTCCTTCACCCGCTCGATCTGCGACGACAGGATGGACATCAGGCAGCGCAACCGCATGCTGGTCGAAGGCATCGCGGCCATCTCGCACAAGATGAACTGCGCAGTCATTGCCGAGGGCGTCGAGACGGAAGAACAGAAGGCGCTTCTAAGCGATATAGGCGCGGATTTCGGGCAGGGTTATTTCTTCGCGCGTCCGCAGCCGGTCGAAAGGCTTATCTCCTCACTCGACACGGCGTCCGGGCAAAACCGCGCCGCTGCGCGGCAAGCATGA	MAHSVESRFIAIVSGALLTVVAPLFTLLLTLSYHEAIRSQRNHLEILLSTNAQALARPLWDLDDDTINQITGTLISDPVIRMVEVRDTSGQLDIVQTADSDIIQDAASTTREVTYKTTKGSVTVGQLTIYYDNVSLLTSLSRTELAFITIFILAVLTIVLAAIAGNRFMVIRPLMRLAAAIEATRRLGSRHHVDWRSKDEIGRLAKSFNEMQTQLEKEELEIKNAHERKTEIYNRTPAMLFSLDRHDRIAAVSDYWVQATGYDRTRILGLNFADLIHPDDRLLFQQRKTAHPLPDASHSGITVRFHCMDGSVMDALILEKALDSGDAAHQSTCLCVMTDVTELRQSEKRNRQQAISDHLTGLFNRQGFEAILDLQIRDADRNGSELACLFIDLDRFKAINDNLGHAAGDAVLKQFTLKLEPLLTPLDSASRLGGDEFAILLAGDKVEERALQFCERICAMLDTPFDIESNSIRLSASIGMAVYPLHAASASELLQNADMAMYTRKRTGKNGSQVFDSSIMDRAREHAELERDIAQALSEDWFEAYFQPIQDLATGQTAGFEALLRLNHPDKGLLSPAAIVSLAEENGTIHRIGNVILDQSIANLARLSRLPGMEQTYVAVNFSPLQFEPGLPTRIAGVLHRHGILPRRLVIEITEAVIMKDDPQVRAILNAIHQLGCRIALDDFGTGYSSLSYLSRFPVDIVKIDQSFTRSICDDRMDIRQRNRMLVEGIAAISHKMNCAVIAEGVETEEQKALLSDIGADFGQGYFFARPQPVERLISSLDTASGQNRAAARQA				NA	NA	NA	NA	NA
BMS010_01184	609	rplY_1	COG1825	50S ribosomal protein L25	ATGAGCAAAGAATCGTATGAGCTCAAGGCCGAGGCGCGCGAACGAGTTGGTAAGGGGTCCTCTCGTGAACTTCGCCGCAACGGTTTGATTCCCGCTGTCATCTATGGTGACAAGCAGGCCCCCATTTCCATCGCGCTCTCGACCAACGAAGTCACCAAGCGTATCCACGCTGGCGGTTTCATGACGACGGTTGCGACCATCGACGTCGACGGCAAGAAGATCAAGGTTCTCCCGAAGGACTACCAGCTTGATCCGGTCCGCGACTTCACCATGCACGTCGACTTCCTGCGCGTTTCGGGCAACACGCTCGTCAACGTCGAAGTTCCGGTTCACTTCGTCAACGAAGAAAAGTCGGACATCAAGATCGGCGGCGTTCTGAACATCGTTCGCCACACGGTGGAATTCCACTGCCCGGCCAACGACATTCCGGAATTCATCACGGTCGATCTCGCTGGTCTGAAGATCGGCGACAACGTCCACATTTCGAATGTGAAGCTGCCGAAGAACATCACGCCGGTTATCGCCGACCGTGACTTCACGATCGCAACGATCGTTGCTCCGGCCGCTGGCGTTGCAGAAGAAACGACCGAAGAAGCTTCCGAGGAATAA	MSKESYELKAEARERVGKGSSRELRRNGLIPAVIYGDKQAPISIALSTNEVTKRIHAGGFMTTVATIDVDGKKIKVLPKDYQLDPVRDFTMHVDFLRVSGNTLVNVEVPVHFVNEEKSDIKIGGVLNIVRHTVEFHCPANDIPEFITVDLAGLKIGDNVHISNVKLPKNITPVIADRDFTIATIVAPAAGVAEETTEEASEE				NA	NA	NA	NA	NA
BMS010_01185	2085		COG2199	putative signaling protein	ATGCTCAAAGTTCTCCAGTGCCTCACCATCGATCACGACTATCGATACACCGCCGCAGCGGTCTTCGTCTGCATGCTGGGCAGTTTCGTGTCGATGCGCCTTTTTTCGAAAGCACGTCTGGCGACGGGCGTGCAGAAGGTCAACTGGCTGTTTCTGGCGGGCGTCAATGGCGGGGCGGCGATATGGACCACCCATTTCGTGGCGATGCTGGGCTATGTCGCGGCGGGCGATGTGGGATACGATCCCTATCTGACCGGGCTGTCGCTTCTGATTGCCATTACCACAACGACTGCCGGCCTCGGCATTTCCGCCTATGGCGGGCGCAGCGTGCTGGTGGAAGCCGGTGGCGTGGTTCTCGGCCTCGGCATTGCGGCAATGCATTATACGGGTATGGCCGCCTATAATGTTCAGGGCATGATTTTCTGGGATCAGGCCTATGTCATCGCCTCGCTGATATTGGGAGCTGTGCTGGGCGCCATTGCGGTCAATCGGATTGCCCGGCCTGTCAACCGTTTCTGCCAGTATAGCGCGGTGGCGTTTCTCATCCTCGCCATTGCCTCGATGCATTATACCGGCATGGCGTCGATGTCCTTCGCCTTCGACCCGCGCATTGTCATTCCGGAAAACCTGCTTCCGCCGGCCATCATGGGCGGAGGCGCCATTGCGGTGACGCTTCTGCTTCTGGCGCTCGGGCTCTCCACTTATGTCATCGATGCGCAGTCCACCCAGCAGGCGGTTGCCCGCTATCGCCATCTTTCGTTGCACGATCCGCTGACGGGCATTCCCAACCGGGCGGCATTCATCGAGCATCTCAATCGCCGCACACGCCATGTCTCGCTGGGGGCGCATACGGCGCTTCTGTCCATCGATCTCGACCGTTTCAAGGAAATCAATGACGTGCATGGCCATGCGGCAGGCGACGCCGTGCTGCGCGCCATCGCCGACCGCGCGAGTTCCGTGCTGAAGACCGGAGAGTTTCTGGCCCGCATGGGAGGTGATGAATTCGTGGCGATGACCCATTCCTATTACACCCGCGCCGACGGCGCGGAATTCGCCCAGCGATTGATCGAGCAGATCAGTAAGCCGGTGGAATGGAACGGGCAGACATTTTCGGTTGGCGCAAGCGTCGGCATATCGGTTCGCAATACCGGCTCCATCGATGCCGATACGCTGATGGCCCAGGCGGATGTCGCCATGTACCGGGCAAAAAGCGGTACTTCGGACACCATATGCTTTTACGACAAATCCATGGACGAGGCCGCGCGTGAGCGCAACGTGCTGGCCGTCGCCATGCGCAGCGGCCTCGCCAATAACGAGTTCGAGCTTTATTACCAGCAGCAGAACGACACCAAAAGCGGCAGCATCGTCGGTTTCGAAGCGCTTTTGCGCTGGAACCATCCCGAACGGGGCATGGTCTCGCCGACCGAATTCATTCCGATCGCCGAACAGACCGGCTTTATCGTCGAACTGGGCGAATGGGTTCTGAGAGAAGCCTGCGCGCAGGCTGCGCGGTGGAAAAAGTCACTCGCCATTGCCGTTAACGTCGCGCCGCAGCAGCTTGCGGATAATGATTTCCCCGACAAGGTTGAGAGAATTCTTGCCGAAACGGGACTTGCGCCGGAGAGGCTCGAGCTGGAAATTACCGAAGGCAGCATCATCGCCGACCATCGCCACGCGCTCGTCACCATCCGCAAACTCAAGTCGCTCGGCGTCAAGATCGCCATGGACGACTACGGCACGGGCTATTCCTCGCTTTCGACGCTGCAGAGCTTCCCCTTCGACAAGATCAAGATCGACCGCGCCTTCATCGATGGCCTGTCGACCAACGTGCAGTCGGAGGCGATCGTTCGCTCGACGCTCATTCTGGCGCACAGCCTCAATATTCCGGTGCTTGCGGAAGGCGTTGAAACCAAGGCCCATATCGAGTTCCTGCGGCGTGAAGGTTGCCTGCAGGTGCAGGGCTTCTTTTTTGGCAAGCCCGGTCCGCTGACTTCCATCGCCAATCTCGTGGACGATACGTTCCTCTCGGCCGAGGATGAAACGGACGTGACCGCCGGCCGGCGTTATTTCAAGGCGGTCCGATAG	MLKVLQCLTIDHDYRYTAAAVFVCMLGSFVSMRLFSKARLATGVQKVNWLFLAGVNGGAAIWTTHFVAMLGYVAAGDVGYDPYLTGLSLLIAITTTTAGLGISAYGGRSVLVEAGGVVLGLGIAAMHYTGMAAYNVQGMIFWDQAYVIASLILGAVLGAIAVNRIARPVNRFCQYSAVAFLILAIASMHYTGMASMSFAFDPRIVIPENLLPPAIMGGGAIAVTLLLLALGLSTYVIDAQSTQQAVARYRHLSLHDPLTGIPNRAAFIEHLNRRTRHVSLGAHTALLSIDLDRFKEINDVHGHAAGDAVLRAIADRASSVLKTGEFLARMGGDEFVAMTHSYYTRADGAEFAQRLIEQISKPVEWNGQTFSVGASVGISVRNTGSIDADTLMAQADVAMYRAKSGTSDTICFYDKSMDEAARERNVLAVAMRSGLANNEFELYYQQQNDTKSGSIVGFEALLRWNHPERGMVSPTEFIPIAEQTGFIVELGEWVLREACAQAARWKKSLAIAVNVAPQQLADNDFPDKVERILAETGLAPERLELEITEGSIIADHRHALVTIRKLKSLGVKIAMDDYGTGYSSLSTLQSFPFDKIKIDRAFIDGLSTNVQSEAIVRSTLILAHSLNIPVLAEGVETKAHIEFLRREGCLQVQGFFFGKPGPLTSIANLVDDTFLSAEDETDVTAGRRYFKAVR	PGPT0026010_1432	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0026010-mucR-K21023	NA	NA
BMS010_01186	960			hypothetical protein	ATGCCGACAGACATCGCCCATGCGGAACGCGTGTATGAAACCGCGCGCCATCGTTCCGCAGCCGCAAGTTCTCCGATTGTCGCCTCCTGGCGTCGCTGCATGGTCAAACATCATCTTGCACCGGAGGAAAACCGCAAACCGATCTTTCTCAGCGAGTATGAGTTCCGCCGCGCCCGCGAAAGTGCGGCCGGCCTGATTGCCGAAAGCACGGATGAACTCGACCGCATTTTCCAAAGCGTCGGCAGATCCGGCTGCTGCCTGCTTTTGACCGACGCGCAGGGCGTTGCGCTGGAGCGGCGCGGCGCCTCTGGCGATGATCGTGATTTCCGGGCGCTTGGCCTCTGGTCCGGGGCGGTCTGGAGCGAAGAAAGCGTGGGCACCAACGGTATCGGCACGGCACTGGTGGATGAGCGCTCAGTGGTGGTCTACCGCGATCAGCATTTCTTCACGTCGAATACCGAACTCTGCTGCACCACGGCTCCCATCCGCGATCATACCGGCCGGGTGACCGGCGCGCTCGATATTTCCACCTGCCGCGACGACATCAACGAGATGACCTTTTCTTTTGTCACCCAGGCGGTGAAGGACGCGGCGCAGCGCATCGAGGGTAATCTGTTCCGCCGTGCCTTTCCGGGTGCGCGCATCGTCGTCGTCCCGAGCGGTTTCGGCGCGGCGCTGTCGCTGCTCGCGGTGGATCAGGACGATCTCGTGCTGGGCGCGACCCGTGCCGCTCGTCTCGCGCTGAAGCTGGACGATGCCCGCATCGCGCAGGGTCTGCCCGCCGCCGATGTTCTTCAGGAACAGCGCCACGATGGCGGTTCCGACCTCGCGGAAGCGGAGCGTTCGGCGCTGCGGCGCGTGTTGTCGCGCACCAACGGCAATGTCACGCAGGCCGCTTCGCTGCTCGGCATCAGCCGCGCCACGCTTCACCGCAAAATGAAGAAATTCGACGTGCATTGA	MPTDIAHAERVYETARHRSAAASSPIVASWRRCMVKHHLAPEENRKPIFLSEYEFRRARESAAGLIAESTDELDRIFQSVGRSGCCLLLTDAQGVALERRGASGDDRDFRALGLWSGAVWSEESVGTNGIGTALVDERSVVVYRDQHFFTSNTELCCTTAPIRDHTGRVTGALDISTCRDDINEMTFSFVTQAVKDAAQRIEGNLFRRAFPGARIVVVPSGFGAALSLLAVDQDDLVLGATRAARLALKLDDARIAQGLPAADVLQEQRHDGGSDLAEAERSALRRVLSRTNGNVTQAASLLGISRATLHRKMKKFDVH				NA	NA	NA	NA	NA
BMS010_01187	1518	adh_1	COG1012	Aldehyde dehydrogenase	ATGAACATTCAGGTTCAGCAGAAAGCGGGCGAAGCGCCCTTCAAGCTGAAATACGGCAATTACATCGGCGGCAAATGGGTGGAGCCGAAATCCGGCCGCTACATGGATAATCTTTCGCCGGTCACCGGCCACAAGATCTGCGAAGTGCCGCGTTCGGATGCAGCCGACATCGAGTTCGCGCTGGATGCCGCCCACAAGGCTCGCGATAAATGGGGCAAGACGAGCGTGACGGAGCGCTCCAACATCCTGCTCAAGATCGCCCAGCGCATCGAAGACAATCTCGATCTCATCGCACGTGCCGAAACCTGGGACAACGGCAAGCCGCTGCGCGAAACCACCAATGCGGATATTCCGCTCGCCATCGACCATTTCCGTTATTTCGCGGGCTGCATCCGCGCCCAGGAAGGCACGATCGGCGAAATCGACAACGATACGGTCGCCTATCACTTCCATGAGCCGCTCGGCGTCGTCGGCCAGATCATTCCGTGGAACTTCCCGATCCTGATGGCCGCGTGGAAGCTTGCACCGGCACTTGCCGCCGGCAATTGCGTGGTGCTGAAGCCGGCGGAACAGACACCGGCCTCGATTCTCATCGTGATGGAACTGATCGAAGACCTGCTGCCGCCCGGCGTCCTCAACATCGTCAACGGCACGGGCCTCGAAGCCGGCAAGCCGCTGGCGCAGAGCAACCGCATCGCCAAGATCGCCTTTACCGGCTCCACCTCGGTCGGCAAGGAAATCATGCGTTATGCGGCCGATAACGTCACCAACATCACGCTGGAGCTGGGCGGCAAGTCGCCGAACATCTTCTTCGCCGATGTGATGAACGAGGACGATGCCTTCCTTGATAAGGCTTTGGAAGGTTTCGCCTTCTTTGCGCTCAATCAGGGCGAGGTGTGCACCTGCCCGTCGCGTGCGCTGGTGCATGAATCGATCTATGACCGCTTCATGGAAAAGGCGATCAAGCGCGTTCAGGCGATCAGCCAGGACGATCCGCTCAATCCGTCGACCATGCTGGGCGCGCAGGCCTCGCAGGAACAGTTCGACAAGATCATGGGCTATCTGGAGATCGGCAAGAAGGAAGGCGCCAAGGTTCTGACCGGCGGCGACCGCAAGACGCTGACGGGCGATCTGAAGGATGGCTATTACATCCAGCCGACCGTCTTCGAAGGCAACAACAAGATGCGGATTTTCCAGGAGGAAATCTTCGGGCCGGTCGTTTCCGTCACCACCTTCAAGACGGTGGAAGAGGCCCTCGAAATCGCCAATGACACGGTCTACGGTCTGGGCGCAGGCGTCTGGAGCCGCGATACCAACATTGCCTATCGGGCCGGCCGGGGCATCGAAGCGGGCCGCGTGTGGACGAATTGCTATCACGTCTATCCGGCGGGCGCTGCCTTTGGCGGCTACAAGCAGTCGGGCATCGGTCGCGAGACCCACAAGATGATGCTCGATCATTACCAGCAGACCAAGAACCTGCTCGTGTCCTACAGCCCGAACAAGGTCGGTTTCTTCTGA	MNIQVQQKAGEAPFKLKYGNYIGGKWVEPKSGRYMDNLSPVTGHKICEVPRSDAADIEFALDAAHKARDKWGKTSVTERSNILLKIAQRIEDNLDLIARAETWDNGKPLRETTNADIPLAIDHFRYFAGCIRAQEGTIGEIDNDTVAYHFHEPLGVVGQIIPWNFPILMAAWKLAPALAAGNCVVLKPAEQTPASILIVMELIEDLLPPGVLNIVNGTGLEAGKPLAQSNRIAKIAFTGSTSVGKEIMRYAADNVTNITLELGGKSPNIFFADVMNEDDAFLDKALEGFAFFALNQGEVCTCPSRALVHESIYDRFMEKAIKRVQAISQDDPLNPSTMLGAQASQEQFDKIMGYLEIGKKEGAKVLTGGDRKTLTGDLKDGYYIQPTVFEGNNKMRIFQEEIFGPVVSVTTFKTVEEALEIANDTVYGLGAGVWSRDTNIAYRAGRGIEAGRVWTNCYHVYPAGAAFGGYKQSGIGRETHKMMLDHYQQTKNLLVSYSPNKVGFF	PGPT0007176_1792	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_METABOLISM,PGPT0007176-aldB-K00138	NA	NA
BMS010_01188	2265			hypothetical protein	ATGCCGGGTGTAAATCCGACTGCTGTCAAAGCTAAATCATTGTCGATAAAGGCCAAATTCGCGGCGCTCGTCACGGGCGCAACGCTGGTTTCATGTCTTTCCGTGGGGCTATTGTCCTACGAGATGGGGAAGTCGGGACTGATCGACGCCAGCGAAATCAGGCTCGAAACGGTTGCAGGCAACCAGTCCAAGCAGCTTGATGCCTATACTTTGCGCGTCGAACAGAGCATTTCCGAACTGTCGCAGAACGCCGCGGTCGCACAGGCGCTGGAAACGATGACCACCGTTGTGCCGACGGAAAGGGATGCGATCATCCAGGCTTTCCGGCGCGAGGGCGTCTCCGAAGAGGAGCGCGCCTCCTTCAATGGCGAAGGCCTGCGACTGCTTTATGCCATTCGCCACGCCACCATCAACGCCGCCATCGCCAGCGTCTGGCGCAACACCCGTGTCAGCGACATCTATGTGATCGACAAGACCGGCCTCATTATTTACACCGTGACCAAGGGGAAGAACTTCCTCACCAGGGTGACGGAACCGCAGAACGCCGCGATCAAGGACCTGTTCGACCGCATCGAAGCCGGCAAGGACGGCGTCGTCAGCACCACTGGCTTCAGCGGCGGCGAAAATGATTCGGCCATGATCGGCATGCCGCTCGCCGTCTCCAACTGGGGCCAGCTCCAGCGCAAGGGCGCCGTCATCATGCGCATCGCCGCCGATCGCATCGGCGCGGTGGTGACGCCCGAGGAAACCGGCAAGACCATCGATGACGCCGTTCTCCTGAGCGCCGACGGCAAACGTCGGGCCGGCGTACTGTCGGGCGGTGCTGATGCTGCGGTTTCCGAAAGCCTCGCCGCCCTTTCCAACGCAAACAGCGCCGGAACAGTGATGGCGCAGACATCTGCGGGCAACATCTTCTATGCCTATCGCCCGGTCTCCGTCTTCGGACAGAAACATCTTCTGGCCATCGGCCAGCAGGAAAGCAAGGTTCTTGCCGCCGCCAACGACCTCGCCTTCTGGGCGACGGTTGCGACACTGGCCGTGCTTGCGATCATGACGCTGATCGGCATTTTCGTTTCCGCGAGCCTGACCAAGCCGCTGACCGGCCTTGCGGGGTTGATGGAGCGCCTGAACGGCGGTGAAAACAACATCGAGATCAAGGCCGTTTCCCGTGGCGACGAGATCGGCACCATGGCGCGTGCGCTGGAATCCTTCCGTCAGGGCATTCTGGACAAGCAGCGCATGGAAGCCGAATCCCATCGCAAGAGCGAAGAACTGGACGAAGAACGCGCCCAGCGGGAAATGGAAAAGGCAAGAAGCGCGAAAGAACTGGAAGAGGCTGTCGACGCACTCGCCACCGGCCTTGCCAATCTTGCCGCCGGCAGGCTCGATCTCCGCATCGACAAATCCTTCGTGCCGTCGCTCGATCATCTGCGCATCGACTTCAACAACTCCATGGCAGGCCTGGAAGCGACCATCTCCAACATCGGCGAAAGCGCCAATGCCATCCGCTCCGGCTCCGGCGAACTGAAAAGCGCATCGGAAGACCTGTCGCGTCGCACCGAACGCCAGGCCGCAGCCCTTGAGGAAGCGGCAGCGGCACTCGGAGACATGACGCAGGCCGTCAATCTCTCGCTGTCGCGCTGCAATGTCGCCGTCGAGGCGACGGCGGGCACGATGCAGGATGCGCACAAGTCCACGGCCGTCGTTAAAGAAGCGATCGTCGCGATGGAACGCATTGAGACCTCGTCGGCCAAGATCCGCCAGATCATCGACGTCATCGACCAGATCGCCTTCCAGACCAATCTGCTGGCGCTGAATGCCGGTGTGGAAGCCGCCCGCGCCGGCGAAGCCGGCAAGGGGTTTGCCGTTGTGGCGCAGGAGGTTCGCGAGCTTGCCCAGAAATCGGCAGCCGCCGCCCGGGACATCACGACGCTGATCGCCACTTCGGCGGGCGATGTGGAAAGCGGCGTGGCGCTGGTGCTGAAGACGGGTGAAAGCCTCGAGCAGATCCAGAAACGCATCCAGTCGGTCAACGACCAGATCGGCGAGATCGCCACCGCATCGCGCGAACAGTCCGGCCGCCTCAGCGAAATCAACGCCTCCGTCAACGAACTCGACCATGTAACGCAGCAGAACGCGGCCATGGTGGAGGAAACGACGGCGGCCGCTTTCTCGCTATCCAGCGAGGCGGACGGCCTGACCGAACAGGTGGGGCAGTTCTCGGTCGGCGGCCTCCGCCAACGGGACCAGCGTTACGCGGCATAA	MPGVNPTAVKAKSLSIKAKFAALVTGATLVSCLSVGLLSYEMGKSGLIDASEIRLETVAGNQSKQLDAYTLRVEQSISELSQNAAVAQALETMTTVVPTERDAIIQAFRREGVSEEERASFNGEGLRLLYAIRHATINAAIASVWRNTRVSDIYVIDKTGLIIYTVTKGKNFLTRVTEPQNAAIKDLFDRIEAGKDGVVSTTGFSGGENDSAMIGMPLAVSNWGQLQRKGAVIMRIAADRIGAVVTPEETGKTIDDAVLLSADGKRRAGVLSGGADAAVSESLAALSNANSAGTVMAQTSAGNIFYAYRPVSVFGQKHLLAIGQQESKVLAAANDLAFWATVATLAVLAIMTLIGIFVSASLTKPLTGLAGLMERLNGGENNIEIKAVSRGDEIGTMARALESFRQGILDKQRMEAESHRKSEELDEERAQREMEKARSAKELEEAVDALATGLANLAAGRLDLRIDKSFVPSLDHLRIDFNNSMAGLEATISNIGESANAIRSGSGELKSASEDLSRRTERQAAALEEAAAALGDMTQAVNLSLSRCNVAVEATAGTMQDAHKSTAVVKEAIVAMERIETSSAKIRQIIDVIDQIAFQTNLLALNAGVEAARAGEAGKGFAVVAQEVRELAQKSAAAARDITTLIATSAGDVESGVALVLKTGESLEQIQKRIQSVNDQIGEIATASREQSGRLSEINASVNELDHVTQQNAAMVEETTAAAFSLSSEADGLTEQVGQFSVGGLRQRDQRYAA	PGPT0015710_1909	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_01189	753	rgtE	COG0463	Dodecaprenyl-phosphate galacturonate synthase	GTGAAACCGAGGCCGGATTTCGCCGTTGTCGTGCCCATGCACAATGAGCAAGCGAGTGTGGAAACGCTCGTGGCGGAGATTTTTGCCGCCTGCCAGCCCGTCGGCGCCTTCGAGATCGTGGTGGTAGACGACGCATCTTCCGACGGCACGGTCGATGCGGTGCTTGCGCTTGGCGATCGTTACCCGATGCTGCGGCTCGTCCGGCATGATCGTCAGGGCGGACAGTCTGCGGCGATCCACAGCGGTGTGCAGGCGGCGCGTGCGCCGGTCATCTGCATGCTGGACGGAGACGGGCAGAACCCGCCGGACAATCTGCCGGCTCTTCTCGCGCCGCTTCTCTCCGCAGGCGCTCCCAGCCGGCTTGGCCTCGTGGCCGGCCAGCGCGTCGGTCGGCGCGATACGCTTGGAAAACGTCTTTCCTCCCGCTTCGCCAATGGGCTTCGGGCGCGGATCTTAAAGGACGGCACGCGCGACACCGGCTGCGGCCTCAAGGCCTTCCGCCGCGACGCCTATCTCGCCTTGCCCTATTTCGATCATCACCACCGCTATTTCCCGGCGCTGTTCAATCGCGACGGCTGGCAGGTCACCCATGTCGACGTCACACACCGGGCGCGGCTGCACGGAAATTCCCATTACACCAATATCGGCCGCGCGCTTGTCGGCATCCACGACCTGATCGGCGTCGCCTGGCTGCTGCGCCGGCGAAAGCGCTCAAGCTGGGCTGAAACTTTCAAAACGGAGACATCGCCGTGA	MKPRPDFAVVVPMHNEQASVETLVAEIFAACQPVGAFEIVVVDDASSDGTVDAVLALGDRYPMLRLVRHDRQGGQSAAIHSGVQAARAPVICMLDGDGQNPPDNLPALLAPLLSAGAPSRLGLVAGQRVGRRDTLGKRLSSRFANGLRARILKDGTRDTGCGLKAFRRDAYLALPYFDHHHRYFPALFNRDGWQVTHVDVTHRARLHGNSHYTNIGRALVGIHDLIGVAWLLRRRKRSSWAETFKTETSP	PGPT0017834_899	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GLYCAN_BIOSYNTHESIS,PGPT0017834-DPM1_like|arnC|ppm1|wcaA-K00721	NA	NA
BMS010_01190	312			hypothetical protein	GTGAATGCACCGGCTTTATGGTCCATGCTGCATGTGAACAGCTGGAAGGAATTTCTGTGGGTCTGCACCGGCTTCATGGGCCAGATGCTGTTTACCATGCGTTTTCTGGTTCAATGGATTTCTTCGGAACGGGCGAACCGCTCGGTCATTCCGGTGGCCTTCTGGTATTTTTCCGTTCTCGGCGGTCTGGTGTTGCTTTCCTACGCCATCTGGCGGCGCGATCCGGTCTTCATTCTGGGCCAGGCGTCCGGCCTTTTCATCTATGCCCGAAATCTCTGGTTGATTCATGCAGAACGCCGCCAGCATGCATGA	MNAPALWSMLHVNSWKEFLWVCTGFMGQMLFTMRFLVQWISSERANRSVIPVAFWYFSVLGGLVLLSYAIWRRDPVFILGQASGLFIYARNLWLIHAERRQHA				NA	NA	NA	NA	NA
BMS010_01191	1509	arnT		Undecaprenyl phosphate-alpha-4-amino-4-deoxy-L-arabinose arabinosyl transferase	ATGCAGAACGCCGCCAGCATGCATGAGGCGGCGACCCTGCCTTACGAGCAGGCAGGCGATGAGCGCCGGTGGCTGACATTTTCATTCGCGGCGATCGTCCTCGTGACGGCGCTGCGCGTCCTTGGGCTGGCCTTCAATCGCACCGACCTTTTCGTCGATGAGGCGCAATATTGGCTATGGGGCAGGGAGATGGCGCTCGGCGCCTATTCCAAGCCGCCCCTGATCGGCTGGCTCATTCGCGCGGCAACCATTCTGGGTGGCGGCGAGGGCACGTTTCAGGTGCGGCTGGCCGCGCCCGTGGTGCATGGCGTCGCGGCGGCGGCCATTCTTGCGCTCGGCCGTATGATCTATGATGTCAGGCTGGCATCCCTGGCCGCCCTTATCTATTTAACCCTGCCGGCCGTAACGCTCGGCAGCCTGTTGATCTCGACCGATACGCCGATGATGCTGTTCATCGTGCTGTCGATGATCTCCGTGCGGAAGCTTGCGCTGGCCCGCCGCGAGGGCAGGGCGGCGCTGGGCTGGAGCATCGCCCTCGGTCTCTGCTTCGGCCTCGGGCTGATGTCGAAATATGCGATGATCTATTTTCTGCCCTGCTTCATCGCCGCAGGCTGGCTCTGTGAGGCATGGCGCATCCGGCTGCGTGACGCGGTCATTGCTGCGCTCGTCTGCGTCGCCGTCATCGCGCCCAATCTGTGGTGGAACGCGGCGCATGATTTCATGACCGCACGCCATACGGCGGATAATGCGAACTGGCATGGCGTCCAGCTGAAGATCGGTTCCGCGCTGGAATTCTTCTTCTCGCAGGCGGGCGTGGTCGGACCGTTCGTTTTCGTCGGCATGGTCGTCGCAACAATTCGTGCGAAGAACGCCGAAACCCGGGCGCTGGTCGCTCTTTCGGTGCCGATCGTTCTGCTGATTACCGCGCAGGGTTTGATGTCACGGGCGCTCGCCAATTGGGCAGTCGGGGCCTATGCGGCGGGCGTGCTTCTGGCGGTGCCGGTCCTGGCGTCGCGGCGTTGGCTCATCGTGTCCACGCTTGTACTTGGTAGCATCGTGGCCATCGCGCTGCCGCTGATGACCATTGCTGGAACGCAATTGCGCCTGCCGAAAGGTGAACTGGCGATGGCGCGGTATCTCGGGCGCGCCGAGCTGGTGTCGACCGGTCTGTTACGGGCGCGCGAGGCGGGTGCGGACGCCATCGTCGCTACCGACCGTTCGATACTTGCCGAGCTTTTTTATCAGCTTCGGGATGAGAAACAGGTGATGACGCGCGCGCTGCCCGAGACCGGCGTGCCTTCCAGTCACTATGCGCTTCTTTACCCGCTGAAACCGGGCGAGGCGAAAAATCCCCTGTTCCTGGCAAGTGCGGATGGCCTGCCGGCCTGCCTTGCCGGCGAGGCGCCGGTCGCCCGCTGGACCGCCGGGCCGGGTTTCCTCGAGGGCAGGGAAATCGGACTCTGGCGCCTGCTGCCGCGATGCATGCCGGAGGGCAGCAATGGACAATGA	MQNAASMHEAATLPYEQAGDERRWLTFSFAAIVLVTALRVLGLAFNRTDLFVDEAQYWLWGREMALGAYSKPPLIGWLIRAATILGGGEGTFQVRLAAPVVHGVAAAAILALGRMIYDVRLASLAALIYLTLPAVTLGSLLISTDTPMMLFIVLSMISVRKLALARREGRAALGWSIALGLCFGLGLMSKYAMIYFLPCFIAAGWLCEAWRIRLRDAVIAALVCVAVIAPNLWWNAAHDFMTARHTADNANWHGVQLKIGSALEFFFSQAGVVGPFVFVGMVVATIRAKNAETRALVALSVPIVLLITAQGLMSRALANWAVGAYAAGVLLAVPVLASRRWLIVSTLVLGSIVAIALPLMTIAGTQLRLPKGELAMARYLGRAELVSTGLLRAREAGADAIVATDRSILAELFYQLRDEKQVMTRALPETGVPSSHYALLYPLKPGEAKNPLFLASADGLPACLAGEAPVARWTAGPGFLEGREIGLWRLLPRCMPEGSNGQ				NA	NA	NA	NA	NA
BMS010_01192	849			hypothetical protein	ATGGACAATGATCTTTCGCATATGCGGATCACGATCTGGGTGACACTCGCGACATTGGCGCTCGTCATCCTGTTCGCGACCTTTCCCTCCATCGATCTGAGATTCTCCGCCCTGTTTTTCTCGCCCGTCGAGCAGCCATGGTCCGGCCGTGAGCCGTTTCCCGAATGGTTGCGGGATACGCTGCGCGAAGGTACGGAGCTTGCCACCCTTCTGGCTTTCACGATCCTTGTCGGCAATCTTCGGCTGGGCACGCTGCAAAGAACCGGCTGGCGGGTGTGGGCCTTTCTGTGCGGGCCGGTGATCCTCTGTGCCGGGCTTCTGGTCAACGGTGTGCTGAAGGCGACTATCGGTCGCGCGCGCCCGTTCAGCGTCACCGAATTCGGCGGGCAGCAGCTTTTCACGCCGCCTTTCCAGTACAGTGCGCAATGTTATTCGAACTGCTCGTTTTCTTCCGGCGAAACCGCGCTGATCGCCAGTTTCTTCCTGCCGCTCTGCGTGCTCGTCTGGCCCCGGCTGCAACGGCGCGGACGGTTGGCGATGGGAAGCATCGCCGCCGGCATGATCGTCCTCATGTCCGGCTTGCGCATCGCGGCCGGCGGGCATTTCCTCAGCGATGTGGTGATGTCCATCCTGTTTTCCGCTCTCACGACCCTGTTTCTTTACCGGGCGCTGGTGATCGGACGTTACCGCCATCTGTTTACCGGCGATGCGGTTACAGCCGATACGGTCAGCATCTGGCGTAACGGTCGCCATGCTGTCCTGACCCGGGTTCGGCGCTGGTGGCCGAAAATCAAGGCCGCAGCCTCCCGTCTGCAACGGCCGCCGGATGCGGGTGCGGCATCGTCTTAA	MDNDLSHMRITIWVTLATLALVILFATFPSIDLRFSALFFSPVEQPWSGREPFPEWLRDTLREGTELATLLAFTILVGNLRLGTLQRTGWRVWAFLCGPVILCAGLLVNGVLKATIGRARPFSVTEFGGQQLFTPPFQYSAQCYSNCSFSSGETALIASFFLPLCVLVWPRLQRRGRLAMGSIAAGMIVLMSGLRIAAGGHFLSDVVMSILFSALTTLFLYRALVIGRYRHLFTGDAVTADTVSIWRNGRHAVLTRVRRWWPKIKAAASRLQRPPDAGAASS	PGPT0022355_32	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022355-lpxF-K12978	NA	NA
BMS010_01193	933	prs_2	COG0462	Ribose-phosphate pyrophosphokinase	ATGAAGGTTTTCGCAGGCAATTCGAACCGGCACCTTGCCGAAGCGATCTGCAAGTATCTTAACGTTCCTCTCGGAAATGCCACTGTAAAGCGGTTTGCTGACCAGGAAATATTCGTAGAAATCAGCGAGAACGTGCGCGGCGAAGACGTTTTCATCGTCCAGTCCACCTCCTTCCCGGCAAATGATCATCTGATGGAACTGCTCATCATGATCGACGCCATGCGCCGCTCCTCTGCCAAGCGTATTACCGCGGTGCTTCCCTATTTCGGTTACGCCCGCCAGGACCGCAAGGCCGGCCCCCGCACCCCGATTTCCGCCAAGCTCGTCGCCAATCTGATCACCGAAGCCGGCGCCGACCGCGTTCTCACCCTCGATCTTCATGCCGGCCAGATCCAGGGCTTCTTCGATATCCCCACCGACAATCTCTTCGCAGCGCCCATTCTCGCCCGCGACGTGAAGGACCATTACGACACCAACAATGTCATGGTGGTTTCGCCCGATGTTGGCGGCGTGGTTCGCGCCCGTGCACTCGCCAAGCGTCTCGACTGTCTTCTGGCCATCGTCGACAAGCGTCGTGACCGTCCGGGCGAATCCGAAGTCATGAACGTCATCGGCGATGTCTCCGGCAAGGACTGCATCCTCATCGACGACATCGTCGATTCCGGCGGCACGCTCTGCAACGCCGCTGAGGCGCTGCTGAAAAAGGGCGCCACCAGCGTCACCGCCTATATCACCCACGGCGTGCTTTCCGGCGGCGCGGTTGCCCGTGTTGCTTCCTCGAAGCTGCGCGAACTCGTCATCACTGACAGCATCCAGCCGACCACCGGTGTCCAGTCCGCGCATAATATCCGCGTGGTCAGCACCGCAGGCCTGCTCGGCGAAGCGATCAACCGCACCGCACAGGAACAGTCGGTTTCCGGCCTGTTCGACTGA	MKVFAGNSNRHLAEAICKYLNVPLGNATVKRFADQEIFVEISENVRGEDVFIVQSTSFPANDHLMELLIMIDAMRRSSAKRITAVLPYFGYARQDRKAGPRTPISAKLVANLITEAGADRVLTLDLHAGQIQGFFDIPTDNLFAAPILARDVKDHYDTNNVMVVSPDVGGVVRARALAKRLDCLLAIVDKRRDRPGESEVMNVIGDVSGKDCILIDDIVDSGGTLCNAAEALLKKGATSVTAYITHGVLSGGAVARVASSKLRELVITDSIQPTTGVQSAHNIRVVSTAGLLGEAINRTAQEQSVSGLFD	PGPT0021480_5839	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021480-prsA-K00948	NA	NA
BMS010_01194	750			hypothetical protein	ATGAGCCGGACGGGGTTCACCCCCCTTTTTCCGGCCATCATTGTTCCAGCGATGATGCTGGCCCTGTCAGGCTGCAACACGACGGAAGCGCTGACACCGCAGGTGGATGTCGGCAACAATGCCTCGCAGTCGACACCCGTGACCCAGGGCGATCTCGACCAGATGGCCGCCGCCGCCGACCGCGCACCCACGGGCGCTCCGGCAACCGCAACATCCGTTCCCGCCTATGCACCGCAAAACTCGTTGCAGGCGCAGGCACAGGCGCTGTCCAACGGCAGCCAGTATGGCGAGCCGCTTCGCCAGAACCAGACCGCAGCCCTGCCACCCGCCGACGCTCAACCCGCCCCCGCGCAGCAGACGGCATCGCTTGCACCCGCCTCTTCCGCAAACTCCATCCGCTTCCTGCCGATCATCGGAGCGCCGGTTCAGGCGGTGACGCCGCTGTCGCGCCAGCTCGGGGCCGAAGCACGGGCGAAGGGGCTGACCATACGGGCCTCAAACGACAATTCGGCCGAAAACATCCTGAAGGGATATTTCTCCGCCTTTGCCGATGGCGCCAAGGTCAATGTCGTCTACGTCTGGGACATTCTGGACGCCAATGGTGTGCGGCTTCACCGCCTGCAGGGGCAGGAAACGGTGGCGGCCAAAGGCAGCGATCCATGGGCCGCCGTGACCGACAGGGTCATGCAGGATATCGCTGCAAAAACGCTCAACGACTATTCGTCATGGAAGCAGTCTCAACAGGGATGA	MSRTGFTPLFPAIIVPAMMLALSGCNTTEALTPQVDVGNNASQSTPVTQGDLDQMAAAADRAPTGAPATATSVPAYAPQNSLQAQAQALSNGSQYGEPLRQNQTAALPPADAQPAPAQQTASLAPASSANSIRFLPIIGAPVQAVTPLSRQLGAEARAKGLTIRASNDNSAENILKGYFSAFADGAKVNVVYVWDILDANGVRLHRLQGQETVAAKGSDPWAAVTDRVMQDIAAKTLNDYSSWKQSQQG				NA	NA	NA	NA	NA
BMS010_01195	1152	doeA_1	COG0006	Ectoine hydrolase	ATGGCCCTGCATTTCGAGCTTTCGGAATTCGATGCCCGCCGCGAGCGTCTGCTCGCAAAAATGGCCGAGGAGAAGCTGGACGCCCTTCTGCTTTTCGCGCAGGAAAGCATGTATTGGCTGACCGGCTACGACACGTTCGGCTACTGCTTCTTCCAGACGCTGGTGGTCAAATCGGATGGCTCCATGACGCTTCTGACCCGCTCGGCGGATCTGCGCCAGGCCCGCAATACCTCCATCATCGAGAATATCCTGATCTGGGTCGACCGGCCCAATGCCGACCCGACGCTCGATCTCAAGAACCTGCTGAGCGATCTCGACCTGCTGGGTGCAAAGATCGGCGTCGAATACGACACCCACGGCATGACCGGCCGCGTCGCCCGCCTGCTGGACAATCAGCTCGCCAGCTTCTGCCAGATGAGCGACGCTTCCTATCTGGTCAGCACACTGCGGCTGGTCAAAAGCCCGGCCGAGATCGCCTATGCGCGCAAGGCGGGCCAACTGGCCGATGCGGCGCTGGACGCGGCGCTGCCGCTCATCAGGCCCGGCGCGGACGAGGCCGCAATTCTAGCGGCAATGCAGAGAGCCGTTCTGGCCGGCGGCGGTGATTACCCCGCCAATGAATTCATCGTCGGTTCCGGCGCGGACGCGCTGCTGTGCCGTTACAAGGCTGGCCGCCGCAGGCTCGACGACAAGGATCAGCTGACGCTGGAATGGGCCGGCGTCAGCGCGCATTACCATGCCGCCATGATGCGCACGGTGGTGATCGGCGAACAGGACTTCCGCCAGAAGGAGCTTTACAGCGCCTGCCTGCAAAACCTCACCGCCATCGAAGAGGTGCTGCGACCGGGCAAGACCTTCGGCGATGTCTTCGACGTGCATGCCCGCGTGATGGATGAACGCGGCTTGACCCGCCACCGGCTGAACTCCTGCGGTTATTCGCTGGGCGCGCGCTTCTCGCCGTCCTGGATGGAGCATCAGATGTTCCATGCCGGCAATCCGCAGGAGATTACCGCCGACATGACGCTCTTCGTGCATATGATCGTGATGGATTCCGATTCCGGCACGGCCATGACGCTCGGCCAGACCTATCTTACCACCGACGGCGCACCGGAGCCGCTCTCGCGCCACAACCTCGATCTTCTCACAGCTTAA	MALHFELSEFDARRERLLAKMAEEKLDALLLFAQESMYWLTGYDTFGYCFFQTLVVKSDGSMTLLTRSADLRQARNTSIIENILIWVDRPNADPTLDLKNLLSDLDLLGAKIGVEYDTHGMTGRVARLLDNQLASFCQMSDASYLVSTLRLVKSPAEIAYARKAGQLADAALDAALPLIRPGADEAAILAAMQRAVLAGGGDYPANEFIVGSGADALLCRYKAGRRRLDDKDQLTLEWAGVSAHYHAAMMRTVVIGEQDFRQKELYSACLQNLTAIEEVLRPGKTFGDVFDVHARVMDERGLTRHRLNSCGYSLGARFSPSWMEHQMFHAGNPQEITADMTLFVHMIVMDSDSGTAMTLGQTYLTTDGAPEPLSRHNLDLLTA	PGPT0006760_1822	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0006760-opaA|pepQ-K01271	NA	NA
BMS010_01196	795	yfiH_1	COG1496	Polyphenol oxidase	ATGCAGAACGCAACGCTGCCGCTCCCCATCCAGAGTCCCCTGCTCGCCGACTATAGCAAAAACCGTATCCGCCACGGTTTTTTCACCCGGCAGGGCGGGGTGTCTGAAGGGCTTTATCAGGGTCTGAATGTCGGCCTCGGCTCGTATGACGAACCGGAACGGGTGCAGGAAAACCGTCGGCGGGTAACGCAATGGTTTGGCCTGCCGGCGGAGCGCCTCGCCACCGTGCACCAGATCCATTCCCCCGATGTTCTCGTGGTCGATGAAACCTATGACGGCAGCCGCCCGCAGGCCGACGCCATGGTAACCGCGACACCGGGTTTCGTGCTTGGAGTGCTGAGCGCCGATTGCGGCCCGATCCTGTTTGCCGATGCGGAAGCCGGCGTCGTGGGTGCGGCCCATGCCGGCTGGAAAGGCGCGCTGTTCGGCGTGCTCGAAAACACCATCGAGACCATGACGACGCTCGGCGCCAGCCGGGAACGCATCGCCGCCTCGCTCGGCCCTTCGATCAGCCAGAACAATTATGAGGTCGGTCCGGAATATGTGGCGCGTTTCACCGATATCGATCCGGCCTATGCGGATTATTTCGCCGGGACGGAGAAGGAAGGTCACGCATTGTTCGACCTCAAGCAATTCACCATCGACCGGCTGACGAAAGCCGGTGTGAAAGCGGAAAATCTCGGCCTCTGCACCTATCCCGACGAACATCGCTTCTATTCCTACCGCCGCACCACCCACCGCGCCGAACCCGATTATGGCCGGCAGATTTCCGCAATCGCAATTCTGGAGGACTGA	MQNATLPLPIQSPLLADYSKNRIRHGFFTRQGGVSEGLYQGLNVGLGSYDEPERVQENRRRVTQWFGLPAERLATVHQIHSPDVLVVDETYDGSRPQADAMVTATPGFVLGVLSADCGPILFADAEAGVVGAAHAGWKGALFGVLENTIETMTTLGASRERIAASLGPSISQNNYEVGPEYVARFTDIDPAYADYFAGTEKEGHALFDLKQFTIDRLTKAGVKAENLGLCTYPDEHRFYSYRRTTHRAEPDYGRQISAIAILED	PGPT0019965_1160	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_LIGNIN_DEGRADATION|LIGNINASES	PLANT_LIGNIN_DEGRADATION-POLYPHENOL_OXIDASE,PGPT0019965-yfiH-K05810	NA	NA
BMS010_01197	1101			hypothetical protein	ATGACGACACCGCTCGCGCAACGCATTAAATCACTTATCCGGCTCAACGGTCCGCTTAGCGTTACCGACTTCTTCTCGCTCTGCCTCGCCGACCCGGAGCACGGTTATTACAGGAGCCGCGAGCCCTTCGGCCGTTCGGGCGATTTCATCACCGCACCTGAAGTCAGCCAGCTTTTCGGCGAAATGCTCGGCGTTTTCGTGGTCCATGCCTGGCAGAGGCACGGCGCGCCCATGGAAACCCAGCTGGTGGAAATCGGCCCCGGCCGCGGCACCATGATGTCGGACATGCTGCGCGTCATCCGCCGCATCGCACCGCCGCTTTACGAGACGATGCGGGTGCATCTGGTCGAAACCAGCCCCCGCCTTTCCGCCATCCAGAAGGAAACGCTGGCCGCACATGCGGACAGGCTGACCTGGCATGACAGTTTCGACGATGTGCCGGAAGGTTTCCTGCTCCTCGTCGCCAACGAGCTTTTCGACGCCATTCCGATCCGGCAATTCATAAAAACACCACAGGGTTTCCGTGAACGGGTCGTCAGCCTCGACGCCAATGACGAACTTGTGTTCTCGACCGGGCTTGCCGGCATAGACCCGGCCCTGCTGCCGCCGCAGCCGGAACGGCAGCCGATTGGCGCCATAGTCGAGATTTCGCCTGCCCGCGAAGCCGTGATGACCGCGATCTGCCAGCGCCTCTCCGCCCATGGCGGCACGGCGCTCGCCATCGATTACGGCCATCTGGTCGCCGGGTATGGCGATACGTTGCAGGCCATGCGCAACCATGCCTTCGACCCGGCGCTTGCGCATCCCGGCGAAGCCGATCTCACCAGCCATGTCGATTTCGAAAGCCTCGTGAAAACAGCCGAAGCAACCGGCGTACACGTCAACGGCACCCTGAGACAGGGCGACTTTCTCTATGGCCTCGGTCTCAAGGAACGCGCGGCCGCACTTGCCGCCAAAGCCACGCCGGACCAGACGCTGGAAATCGCCGAAGCGGTCAACCGCCTCGCCGGCGAAGGCGCCGGCAAGATGGGGGAACTTTTCAAGGTCATCGCCGTTTCAAGTCCCGCGCTTCATCTCCTGCCGTTTCGCGCGGTGGATTGA	MTTPLAQRIKSLIRLNGPLSVTDFFSLCLADPEHGYYRSREPFGRSGDFITAPEVSQLFGEMLGVFVVHAWQRHGAPMETQLVEIGPGRGTMMSDMLRVIRRIAPPLYETMRVHLVETSPRLSAIQKETLAAHADRLTWHDSFDDVPEGFLLLVANELFDAIPIRQFIKTPQGFRERVVSLDANDELVFSTGLAGIDPALLPPQPERQPIGAIVEISPAREAVMTAICQRLSAHGGTALAIDYGHLVAGYGDTLQAMRNHAFDPALAHPGEADLTSHVDFESLVKTAEATGVHVNGTLRQGDFLYGLGLKERAAALAAKATPDQTLEIAEAVNRLAGEGAGKMGELFKVIAVSSPALHLLPFRAVD				NA	NA	NA	NA	NA
BMS010_01198	843	lgt_1	COG0682	Phosphatidylglycerol--prolipoprotein diacylglyceryl transferase	TTGTTAGCCGCTCCCACCCAACTCGCCATCATGCCCTTCCCCAATATCGATCCGGTAGCGCTGTCCCTCGGCCCGCTCTCGATCCACTGGTACGGTATCGCCTATGTCGCCGGCATCATGCTCGGCTGGTTTTATGCCCGTCGCCTCGCCCGCACGGATCGCCTGTGGCCGAACGAGACGTCGCCGATCTCGGCGCAGCATCTTGACGATTTCATCCTCTGGGCAGCCGGCGGCATCGTACTCGGCGGGCGCATCGGCTACATCCTGTTTTACGATCTCGCCGCCGTCGCCGCCAATCCCATCAGGGCAATCGAGATATGGAACGGCGGCATGTCGTTCCATGGCGGCCTGATCGGCACCACCATCGCCATGATCCTCTTCGCCCGCAAGAACGGCATTCCGGTCTGGAGCATGTTCGACATCGTCGCGGCCGTAGCACCCATCGGCCTGCTGTTCGGGCGCATCGCCAATTTTATCAACGGCGAATTGTGGGGGCGCATCGCCGACGTGCCATGGGCGGTCGTCTTCCCGACCGGCGGCCCCTTCGCGCGGCACCCGAGCCAGCTTTATGAAGCCGGCCTTGAAGGCCTCGTGCTCGTCATCGTTCTGGCAATCGCCATCTATGCCTTCAGGGCGCTGAAGACGCCCGGCGTCGTCACCGGTATCTTCGTCTGCGGTTACGCGCTGTCGCGCATCTTCGTGGAGTTCTTCCGCGAGCCGGACGCCCAGATCGGTTATCTCGCCGGCAACTGGCTGACCATGGGCATGGTGCTCTCCACGCCGATGTTCGCCCTCGGCCTCTGGGCGGTTCTGCGGGCGCGCAGCGCGGCAAAAAGCGCCTGA	MLAAPTQLAIMPFPNIDPVALSLGPLSIHWYGIAYVAGIMLGWFYARRLARTDRLWPNETSPISAQHLDDFILWAAGGIVLGGRIGYILFYDLAAVAANPIRAIEIWNGGMSFHGGLIGTTIAMILFARKNGIPVWSMFDIVAAVAPIGLLFGRIANFINGELWGRIADVPWAVVFPTGGPFARHPSQLYEAGLEGLVLVIVLAIAIYAFRALKTPGVVTGIFVCGYALSRIFVEFFREPDAQIGYLAGNWLTMGMVLSTPMFALGLWAVLRARSAAKSA				NA	NA	NA	NA	NA
BMS010_01199	264	ubiK_1		Ubiquinone biosynthesis accessory factor UbiK	ATGAGCACGACAGGCACCAACCGTTTTCTGGATGAATTCGCCAAGCTGATGACCGATGCGGCCGGCGCGGCGCAGGGTGTGCGCAAGGAAGCCGAAGCCGCTTTTCACGCCCAGGCGGATCGCTGGCTGAACAGTCTGGACGTCGTCCGGCGCGAGGAATTCGATGCCGTTCGCGAAATGGCCATTCAGGCGCGTGATGAAAACGACGCGCTGCGCGCCCGTATCGAGGCTCTGGAAGCGAAGCTTTCCGCCGCCAAGGACTGA	MSTTGTNRFLDEFAKLMTDAAGAAQGVRKEAEAAFHAQADRWLNSLDVVRREEFDAVREMAIQARDENDALRARIEALEAKLSAAKD				NA	NA	NA	NA	NA
BMS010_01200	501			hypothetical protein	ATGAGTCTGATAGAATTTGAAATTGAGCGTCAGTCCAATCCCGTGGACATGATCGAGATCGTCGCGGCCTCGAACGACTGGTCGTTCGAACGTTCGGGCGAAGATGAGATCGCCATGACAGTCGCCGGTCACTGGGCCGACTATCACGTTTCCTTTTCATGGATGGAAGAGTTCGAGGCGCTGCATCTTGCCTGCGCCTTCGACATCAAGGTGCCGGACCAGCGCGTCAACGAAGTCATTCGTCTGCTCTCCCAGGTCAACGGTCAGGTGCTGATGGGGCATTTCGATCTGTGGCGGCAGGAAGATGTGGTTATCTTCCGCCAGTCCCTGCTTCTGGCGGGCGGCGCCGAACCGAACAACCAGCAGGTGGAAGTGCTGCTTTCCAGCGCTCTGGAAGCCTGCGAACAATATTATCAGGCATTCCAGTTCGTCGTCTGGTCGGGGCTGGATGCGAAAAGTGCAATCGAAGCGGTCATGTTCGAGACCGTCGGAGAAGCGTAA	MSLIEFEIERQSNPVDMIEIVAASNDWSFERSGEDEIAMTVAGHWADYHVSFSWMEEFEALHLACAFDIKVPDQRVNEVIRLLSQVNGQVLMGHFDLWRQEDVVIFRQSLLLAGGAEPNNQQVEVLLSSALEACEQYYQAFQFVVWSGLDAKSAIEAVMFETVGEA				NA	NA	NA	NA	NA
BMS010_01201	819	proC_1	COG0345	Pyrroline-5-carboxylate reductase	ATGGTATATAAGGCTTCCGGGCCGCTCGTCCTGGTGGGCGCCGGCAATATGGGCGGCGCTCTGCTTTCAGGCTGGCTGAAAAAGGGCGTGCCGGGATCGCAGGTCATCGTGATCGATCCGCGCCCTTCCGACGCGATGCGGACGACGATTGCGGAAGCCGGAGCCACCCATAGCGAAGGTGTGCCCGAGGGTGTAAAGGCCGGAATTCTTTTCGTGGCGGTGAAGCCGCAGATGATGGAAGCCGTACTGCCCTCACTGAAACCCCTGCTGGGCCCGAATACGGTCGTCGTTTCCATTGCGGCGGGCACCACCATCGGCACGTTCGTTTCGCATTTCGGCAAGGTTGCCGCCGTGCGTGCCATGCCCAACACACCGGCCATGGTCGGCCGCGGCGTCACGGGGGCCTATGCCAACGAGCTGGTGACGCCGGAGTTTAAAACGGTGGTGGACGGACTGCTGAAAGTCAGCGGCCCGGTTGAATGGGTGGATGCCGAAAGCGATATCGACGCAGTGACCGCGGTTTCGGGAAGCGGCCCGGCCTATGTCTTCTACCTGGTGGAATGCATGGCCGAAGCCGGCCGCAAGGCCGGTCTGCCCGCGGATGTGGCCATGCGTCTGGCGCGCGAGACCGTGGCCGGCGCCGGTGAGCTTCTGCATCAATCCTCCGACGAAGCGGCGCGCCTGCGCCAGAACGTCACCTCGCCGGGCGGCACCACGGCTGCGGCGCTCTCCGTTTTGATGGCCGAAGACGGCATGCAGCCCCTGTTCGACAGGGCGGTCGCTGCCGCGAAAACGCGCGCCGAAGAGCTGGCGGGCTGA	MVYKASGPLVLVGAGNMGGALLSGWLKKGVPGSQVIVIDPRPSDAMRTTIAEAGATHSEGVPEGVKAGILFVAVKPQMMEAVLPSLKPLLGPNTVVVSIAAGTTIGTFVSHFGKVAAVRAMPNTPAMVGRGVTGAYANELVTPEFKTVVDGLLKVSGPVEWVDAESDIDAVTAVSGSGPAYVFYLVECMAEAGRKAGLPADVAMRLARETVAGAGELLHQSSDEAARLRQNVTSPGGTTAAALSVLMAEDGMQPLFDRAVAAAKTRAEELAG	PGPT0014225_2770	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014225-proC-K00286	NA	NA
BMS010_01202	342	csaA_1	COG0073	putative chaperone CsaA	ATGAGCGGTGAAATTTCCTATGCCGATTTCGAGAAGGTCGATATCCGCGTCGGCACCATCATTGAGGCCGAGCCTTTTCCTGAGGCGCGCAAACCTGCCTTCAAGGTGAAGATCGATTTCGGGCCGGAGATCGGCGTCAAAAAATCCTCGGCGCAGATCACGGTGCATTACACGCTGGAAAGCCTTGTCGGCCGGCAGGTTCTGGGGGTGGTGAATTTTCCGCCGCGCCAGATCGGCCCTTTCCGGTCCGAGGTTCTGACGCTCGGTTTTGCCGATGCCAATGGCGATATCGTGCTTGCCGCCGTTGAACGGCCAGTACCGAACGGCGAGAAAATGTGCTGA	MSGEISYADFEKVDIRVGTIIEAEPFPEARKPAFKVKIDFGPEIGVKKSSAQITVHYTLESLVGRQVLGVVNFPPRQIGPFRSEVLTLGFADANGDIVLAAVERPVPNGEKMC				NA	NA	NA	NA	NA
BMS010_01203	1380	envZ_1		Osmolarity sensor protein EnvZ	ATGGCGAGCCTCGATTTTCTCAGCACGGTCAGAAACAGCGGCGTGGCCAAGGCCTGGCGCATGTCGGGCAGATGGCTGCGCCACTGGCTGCCGACCGGCCTCTACACCCGTTCGCTGCTCATCATCATCCTGCCGATGATCCTGCTTCAGGCCGTGGTCGCGGCCGTTTTCATGGAACGTCACTGGCAGCTCGTGACGGAACGCCTCTCCTCCGCCGTGACGCGCGATATCGCCGCGATCATCGAGCTTCTGCAGACGGACCCGGAGGAAGACGACTATCAACGCGTCATCCGCATCGCCCGCGACAAGCTGGGTCTGAGCGTCTATATCGAACCGAAGGCGGATCTGCCTGCTCCGAGACCTGAGCCGCTGTTTTCGATCCTCGACAGAATTCTGGCGGATCAGTTAACGCAGCAGATCGGCCGACCGTTCTGGATCGACACCTATGGCAATGGTTCATTGGTCGAAATCCGCGTCCAGCTGGAAGACAAGACCCTGCGCGTCTTCACCAGCCGCAGCGCGGCCTATGCCTCCAACACCCATATCTTCCTTGTCTGGATGGTCGGGGCATCGCTGGTGCTGATCGCCATCTCCATCCTCTTCCTGCGCGGGCAGATCAAACCCATCGAAGCGCTTGCCAAGGCGGCGGAAAACTTCGGCAAAGGCCAGAAGATCAGCGGCTATTCCCCGCGCGGTGCGGATGAGGTGCGGCGCGCCGGCCTCGCCTTCATCCTGATGCGCGAGCGTATCGAGCGGCAGATGGAGCAGCGCACCGCCATGCTGAACGGCGTCAGCCACGACCTGCGCACCATCCTCACCCGCTTCAAGCTGCAACTGGCGCTCGCGGGCGACAATCCCGACCTCGAGGGGCTCGACAAGGATGTCGAGGACATGCAGTCGATGCTGGAGGCCTATCTGACCTTCGCCCGTACCGATGTCGAAGAGGATGTCGGCACGCTGGAGCTTCCGGCCCTTCTCGAAAAAATCAGCCATGATTTCGAGCTGCACGGCAAGAAATTCAGCTACGAACTCTATAATATCGAGCGGATCATCGCGCGGCCGAACGCGCTGTCCCGGCTCGTCGCCAATCTGGCCGAAAATGCACGGCGCTACGCCGGCAATCTCCACATCGATATCCGCAAGGCGCCGCGTTCCATCATCATGACCTTTGACGATGACGGACCGGGCATTCCGGAGAACTCACGCGAGGATGTGTTCAAGCCGTTCTTCCGGCTGGACGAGGCGCGCAACCTCAATGCTTCGGGCACCGGCCTTGGCCTTTCCATCGTTCGCGACATCGCCCGCAGCCACGGCGGCGATGTGACGCTCGATGAAAGCCCGATGGGTGGATTGCGGGTAATCGTCAAAATTCCGGCTTAA	MASLDFLSTVRNSGVAKAWRMSGRWLRHWLPTGLYTRSLLIIILPMILLQAVVAAVFMERHWQLVTERLSSAVTRDIAAIIELLQTDPEEDDYQRVIRIARDKLGLSVYIEPKADLPAPRPEPLFSILDRILADQLTQQIGRPFWIDTYGNGSLVEIRVQLEDKTLRVFTSRSAAYASNTHIFLVWMVGASLVLIAISILFLRGQIKPIEALAKAAENFGKGQKISGYSPRGADEVRRAGLAFILMRERIERQMEQRTAMLNGVSHDLRTILTRFKLQLALAGDNPDLEGLDKDVEDMQSMLEAYLTFARTDVEEDVGTLELPALLEKISHDFELHGKKFSYELYNIERIIARPNALSRLVANLAENARRYAGNLHIDIRKAPRSIIMTFDDDGPGIPENSREDVFKPFFRLDEARNLNASGTGLGLSIVRDIARSHGGDVTLDESPMGGLRVIVKIPA	PGPT0012975_406	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OSMOLARITY_SIGNALLING,PGPT0012975-envZ-K07638	NA	NA
BMS010_01204	714	ompR_1		Transcriptional regulatory protein OmpR	ATGGCGACAGCACCGACAAAACGTCCACCGGCGGATGACGATGCGGCCCATCTCCTTATCGTCGACGACGATGCCCGTATTCGCGATCTTCTGCAGCGCTTTCTGGGCGACAAGGGCTATCGAATCTCCGTGGCTGCCGATGCCGCCGAAGCACGGCGCAAAATGGTGGGCATCCGTTTCGATCTGCTCATCCTCGACGTGATGATGCCGGGCGAAAACGGGCTTTCGCTGACCCGTTCGCTGAACGAGGACAAATCCGTGCCGGTCATCCTTCTGACCGCCCGGTCGGAAGCGGATTCGCGCATCGCCGGGCTGGAAGCCGGAGCGGACGATTATCTCGCCAAACCCTTCGACCCGCGCGAGCTCGTCCTTCGCATCAACAACATCCTGCGGCGCAATACCTCGCCCGATACCCCCAAGATCGAACAGATCATGTTCGGCCCCTACAGCTTCTCCATCGCCAAAAAGGAATTGCGGCGCGGCCCCGAAACGATCCGCCTGACGGATCGCGAACAGGAGATCATGCTGCTTTTTGCGCTGCGCGCCGGCGATACCATTCCCCGCCACGAGCTGGTGGAAGCGGAATCGGAAGTGGGCGAAAGAACCATCGACGTGCAGATCAACCGTCTTCGCCGAAAGATCGAGGACGACCCTGCCAATCCTGTTTATCTGCAAACGGTGCGCGGCATCGGTTACCGCCTGAGCGTGGACTGA	MATAPTKRPPADDDAAHLLIVDDDARIRDLLQRFLGDKGYRISVAADAAEARRKMVGIRFDLLILDVMMPGENGLSLTRSLNEDKSVPVILLTARSEADSRIAGLEAGADDYLAKPFDPRELVLRINNILRRNTSPDTPKIEQIMFGPYSFSIAKKELRRGPETIRLTDREQEIMLLFALRAGDTIPRHELVEAESEVGERTIDVQINRLRRKIEDDPANPVYLQTVRGIGYRLSVD	PGPT0012985_1025	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OSMOLARITY_SIGNALLING,PGPT0012985-ompR-K07659	NA	NA
BMS010_01205	507			hypothetical protein	GTGCCACCGCAATCGCTTAAAACCGCAGCCGCCAGGCAGACACCGGCACTCCCGAAGGTTGACGACGGCAAGATCGACTTCGACACGATCGAGGCGCTGTTTTTCGCCTATCGCGATTTCGTCTCCGATCCCGATGTAATTCTGTCGAAACTGGAATATGGGCGCGCGCATCACCGGGTGGTCTATTTCGTCAGCCGGCAGCCGGGCATGACGGTGGCGGATCTGCTCGATACGTTGCAGATTACCAAGCAGAGCCTTGCCCGTGTGCTGAAGCAATTGATCGACGACGGTTACATCCGCCAGATGGCAGGCCCGGAAGACCGCCGCCAGCGCAGGCTTTACCCCACGCTGACGGGCCGTGAACTGGCGCTGGCGCTGAGCGAGCCGCAGTCGCGCCGCATCGACCGCGCGCTGGAAGGTCTCGGGCCGGACGCCCGCGCCTGCGTGCGCAAATTCCTGGCGCAGATGCGCAGCCCGACGACGACAACCACCGTGGAGGACGAGTGA	MPPQSLKTAAARQTPALPKVDDGKIDFDTIEALFFAYRDFVSDPDVILSKLEYGRAHHRVVYFVSRQPGMTVADLLDTLQITKQSLARVLKQLIDDGYIRQMAGPEDRRQRRLYPTLTGRELALALSEPQSRRIDRALEGLGPDARACVRKFLAQMRSPTTTTTVEDE				NA	NA	NA	NA	NA
BMS010_01206	600			hypothetical protein	ATGGACAAGACGCTTAAAATGCTCATGGCTGGCGGCGCCTTCGCCTTGATGGCCGGTTTCGCGAACGCCGCCATGGTCGCCACCACCGCATCTGATATTTCCGTTCGCTCAGGCCCCGGTGAAGACTATCCCGAAGTGGGACTGGCCACCCGCGGCAGCAATGCGGTTCTGGATGGCTGCATGGAAGGCAGCAGCTGGTGCCGGATCGAAGTCAACGGTCTGCGCGGCTGGGCCCACGCCGATCATCTGAATGTCATGTATGAGGGCTCTCCGGTCATTCTCGAACAGCACCGCTCGGAACTCAGCGTGCCGGTCGTGACCTACGAAACGACCTCGAGCGTGCAGGCAGAGCCCAATCCCGGCGATCCGAACCTCGGCCGCGTCGGTGAGGTCGATCCGCCGCAATCGGTGATCACCTACATTGACGAACATCCCGCAGACACCGTCACATATGACGGCGACATAGCCGTCGGCAGTGTGTTGCCGTCGGATACGCGTCTCGTCGAAATTCCGGACTATCAATATCGTTATGTCCGGGTGAACGACGTGCCGGTTCTGGTAGAACCTTCGACGCGACGGATCGTTTACGTCTATCAGTAA	MDKTLKMLMAGGAFALMAGFANAAMVATTASDISVRSGPGEDYPEVGLATRGSNAVLDGCMEGSSWCRIEVNGLRGWAHADHLNVMYEGSPVILEQHRSELSVPVVTYETTSSVQAEPNPGDPNLGRVGEVDPPQSVITYIDEHPADTVTYDGDIAVGSVLPSDTRLVEIPDYQYRYVRVNDVPVLVEPSTRRIVYVYQ				NA	NA	NA	NA	NA
BMS010_01207	645	gloC_1	COG0491	Hydroxyacylglutathione hydrolase GloC	ATGGGAAAATTGCAGGCGGGCATTATTCCGGTCACGCCATTCGAGCAGAATTGCACCATCCTGTTCGATCAGGACACCAAAGAGGGCGTCGTCGTCGATCCCGGTGGGGATGTGGACGTCATTCTCCAGGTCGTGTCTGAAAACGGCATCGCGCTGAAGGAAATCTGGCTGACGCACGGGCATCTCGATCATGCCGGCGGTGCCGATGAGCTGCGTGAAAAGCTGTCGCTGCCGGTCATCGGGCCGCATGAGGACGACCGGCCTCTGCTGGAGAGGATCGAGGTGCAGGCGGAGAAATACGGCATCAGCGGTCTGAAGAATGTGGTGCCTGATACATGGTTGAAGGAAGGCGATAAGGTCTCATTTGGAGACCACGTCTTCGAGGTCTATCATTGCCCAGGTCATGCGCCCGGCCACGTCATATATTACAACCGCGACCAGAACTTCGCCCATGTCGGCGACGTGCTGTTTTCGGGATCGGTGGGGCGCACGGACCTGCCGGGCGGAAACCACGAGCAATTGATGGCGTCCATCCGCGACAAGCTTTTGCCGCTGGGTGACGATGTCGGTTTCATCTGCGGCCATGGTCCGGGTGGACGGCTGGGCGAGGAGCGGCTCACCAACCCCTATCTCAAGGGGCTCTGA	MGKLQAGIIPVTPFEQNCTILFDQDTKEGVVVDPGGDVDVILQVVSENGIALKEIWLTHGHLDHAGGADELREKLSLPVIGPHEDDRPLLERIEVQAEKYGISGLKNVVPDTWLKEGDKVSFGDHVFEVYHCPGHAPGHVIYYNRDQNFAHVGDVLFSGSVGRTDLPGGNHEQLMASIRDKLLPLGDDVGFICGHGPGGRLGEERLTNPYLKGL	PGPT0001770_6391	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069	NA	NA
BMS010_01208	216		COG1278	Cold shock-like protein 7.0	ATGGCCGAAACTGGCACCGTAAAATTCTTCAATACAGACAAAGGCTTCGGCTTCATCAAGCCAGACAATGGTGGCGCTGATATCTTTGTTCACATCTCTGCCGTACAGGCTTCTGGCCTGTCCGGACTTTCAGAAAATCAGAAAGTGAGCTTCGACACGGAACCGGATCGTCGCGGCAAGGGGCCGAAGGCAGTCAATCTGCAGATTGCTGGCTGA	MAETGTVKFFNTDKGFGFIKPDNGGADIFVHISAVQASGLSGLSENQKVSFDTEPDRRGKGPKAVNLQIAG	PGPT0014675_2890	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
BMS010_01209	882			hypothetical protein	ATGCTGCTTCTGCTCGCCGCAGCAATCTGGGGAGGCGGCTTCGTCGCGCAATCCTCCGCCATGGCCTCGATCGGCCCGTTCTGGTTCGTCGGCCTGCGTTTCGCCATCGCCGCCATCGCCGTGCTGCCCTTCGCGCTCATGGAAACACGGTCGCTGAAATCGCCGCCGCGCCGGCGCGAAATCGGCAGCTTCATCCTCGTGGGTCTGGCCCTGTTCGGCGGCGCCACCACCCAGCAGGTCGGGCTCCTGACCACGACCGTCACCAATTCCAGCTTCCTGACCGGGCTTTACGTCATCTTCGTACCGGTGATCGCCGTCGTGCTTTACCGCCGTCATCCCCACTGGATCGTCTGGCCATGCGCGCTGATGATGCTGGGCGGCATATTCCTGCTCTCCGGAGGCGCATTCGAGGCGCTGACCACCGGCGATATTCTCAGCATCATCTGCGCCTTCTTCTGGGCGATCCAGATCACGCTTGCCGGGCGCTTCGTCTCCGAAAGCGGAAGGCCGCTGGCGCTTTCCTGCACCCAGTTCGCCGTTTGCTCCCTTCTTAGTTGCATGATCGGCGTTGTGTTCGAACCGATCAGCATGGCCTCCATCGAGGCGTCGCTGGCGGAAATCCTCTATGTCGGCCTCGTCTCCTCCGGCCTCGCCTTCGTTTTGCAGGTCATCGGCCAGCGTTACACCACCGCCCCGCAGGCCGCGATATTCCTGTCCTCGGAAGCGCTTTTCGGCGCTTTGCTGGCTTCGGTGTTCCTGAAGGAAACCATTTCAAGCGCCGGCTATATCGGCTGCCTGATCATATTCGTCGCGATCCTGATCGTGGAACTGGTGCCGGAATTGACGCGCAAACGGCAAAAATCCATGGCTGGAGCGGCCTGA	MLLLLAAAIWGGGFVAQSSAMASIGPFWFVGLRFAIAAIAVLPFALMETRSLKSPPRRREIGSFILVGLALFGGATTQQVGLLTTTVTNSSFLTGLYVIFVPVIAVVLYRRHPHWIVWPCALMMLGGIFLLSGGAFEALTTGDILSIICAFFWAIQITLAGRFVSESGRPLALSCTQFAVCSLLSCMIGVVFEPISMASIEASLAEILYVGLVSSGLAFVLQVIGQRYTTAPQAAIFLSSEALFGALLASVFLKETISSAGYIGCLIIFVAILIVELVPELTRKRQKSMAGAA				NA	NA	NA	NA	NA
BMS010_01210	312			hypothetical protein	ATGTTTACCAACGATCGGACTTCCGTTGAAAGGTTAAGGGCGCAGAGAACGCTGTTTTCCCTCTGGATGGCCGTTGCGGCGTTTCTTGTCATCGTCACCATGGCCGCCGGCATCGCAACCTCGGCCAATGCGGCTGCCCAGGCGGTCGATACCCTGCATACTTCCGCCATTCCGCAGGTGGCAGCGACGACGAAAGCGAGTCCCCACATCCTGCTCATCGTCCTTTCGGCCGCGGCCTTCATTGGCCTCGGCATTGGCGGCCTGACGCTCACCCGGCGCAGCCTGAAGGACGAGGCCCGCCGCTACAAATAA	MFTNDRTSVERLRAQRTLFSLWMAVAAFLVIVTMAAGIATSANAAAQAVDTLHTSAIPQVAATTKASPHILLIVLSAAAFIGLGIGGLTLTRRSLKDEARRYK				NA	NA	NA	NA	NA
BMS010_01211	927			hypothetical protein	ATGGCGCTCAAAAGCATCTTTTCCAGTCTTGTCCGCGAGGTCGATGGCACATGGTCCACCGTCTATAGCACCTTCAACCTGAAATCGGCCCTGCAGCCCATTTTCCGCCGCACGGCGAGCGGTATTCTCGACATCGATTCCTTTGAGGGTCTGGTGCGTCCCCATCGCAATGGCGAGCCGGTGACGCCGGGAGAATTCTTCTCGCTGGTCGCGCCGGAAGATATCGAAAATATCGACAGCATCCTGCGCACGATCCACATTCTCAACACCGGCCGGCTCAACCGGTCCCGCGCCCGCATCTTCGTCAATTTCCATCCGGGGCTGTTCCAGACTCCGGCCAAGATGCGCCAGGAAGTGGAGCGCATGCGTCTTGCCGCCCACGAAGCCGGCATGACGGCGGATCGCATCGTCTGCGAAATATCCGAGAAAAAAGCCTCCGATACGCAGATGGTCGCCGACTTCGCGTACCACATGCACGATATCGGCTTTCGCGTGGCGCTCGATGATTATGGCGCGGGCGATTCCGACATCGACCGGGTGAAGCTCATCAAGCCGGACTATGTGAAATTCGAAGCCGGCTGGGTGCGCGATTTCATGCAGAATTCGGCGGGCGCTGCCCTTCTGCGCGTCATTGTCAGCCAGTTTCGCGCCGATGGCATAGAGCCGGTCTTCGAAGGACTGGAAGCTGCATGGCAGGTCGATCTGTGCGAAGAACTCGGCGTCTTCTTGATGCAGGGCTACGTGCTGGCAAAGCCAGAACTTGCCCCGACTAGTTTCGACACACGTTTCCCGGAACTCGGTAGTGAATATTTCGCCCCCTCAAGGACGGAAAGAGGCCCTGCGCCACCGGCATTTTTCCGGGAAGAACGCCCCGCCGATCCGCACCCGCTGCGCCAGACCCGGACCTTCGGAAAACGCGGCCTCTGA	MALKSIFSSLVREVDGTWSTVYSTFNLKSALQPIFRRTASGILDIDSFEGLVRPHRNGEPVTPGEFFSLVAPEDIENIDSILRTIHILNTGRLNRSRARIFVNFHPGLFQTPAKMRQEVERMRLAAHEAGMTADRIVCEISEKKASDTQMVADFAYHMHDIGFRVALDDYGAGDSDIDRVKLIKPDYVKFEAGWVRDFMQNSAGAALLRVIVSQFRADGIEPVFEGLEAAWQVDLCEELGVFLMQGYVLAKPELAPTSFDTRFPELGSEYFAPSRTERGPAPPAFFREERPADPHPLRQTRTFGKRGL				NA	NA	NA	NA	NA
BMS010_01212	1203	aatA_2	COG0436	Aspartate/prephenate aminotransferase	ATGGCCTTCCTTGCCGACATTCTCTCCCGCGTAAAGCCATCCGCCACCATCGCCGTTACCCAGAAAGCCCGTGAGCTGAAAGCGAAGGGCCGCGATGTAATCAGCCTTGGCGCCGGCGAGCCGGATTTCGATACGCCCGAAAATATCAAGGAAGCGGCCATCGACGCCATCAAGCGCGGCGAAACGAAATACACGCCGGTTTCGGGTATTCCGGAACTGCGCAAGGCGATTGCCGACAAGTTCAAGCGTGAAAACGGGCTGGACTACAAGCCGGAGCAGACGATTGTCGGCACGGGCGGCAAGCAGATCCTCTTCAACGCCTTCATGGCCACCCTGAACCCAGGCGATGAAGTCATCATTCCGGCGCCCTACTGGGTCAGCTATCCGGAAATGGTGGCGATCTGCGGCGGCACGCCGGTTTTCGTCGACGCCACGCTGGAAGACAATTTCAAGCTGAAGCCGGAAGCGCTGGAAAAGGCGATCACGCCGAAGACCAAGTGGTTCGTGTTCAACTCGCCGTCCAACCCGTCGGGCGCCGCCTATTCGCATGACGAGCTGAAGGCGCTGACCGATGTGCTGGTCAAGCATCCGCATGTCTGGGTGCTGACGGACGACATGTATGAGCACCTGACCTATGGCGATTTCAAATTCGTCACGCCGGTCGAAGTGGAGCCTTCGCTCTATGACCGCACGCTGACGATGAACGGCGTCTCCAAGGCCTATGCCATGACCGGCTGGCGTATCGGTTACGCTGCTGGCCCGCTGCCGCTGATCAAGGCAATGGACATGATCCAGGGCCAGCAGACCTCGGGCGCAAGTTCGATTGCGCAATGGGCCGCTGTCGAAGCCTTGAACGGCACGCAGGATTTCATTCCGGCCAACAAGAAAATCTTCGAAGGTCGCCGCGATCTCGTCGTCTCCATGCTCAACCAGGCGAAGGGCATCAGCTGCCCGGCTCCGGAAGGCGCATTCTACGTTTATCCGTCCTGCGCCGGCCTGATCGGCAAGACCGCTCCCTCGGGCAAGGTCATCGAGACGGATACGGATTTCGTTTCCGAGCTTCTCGAAGCCGAAGGCGTCGCCGTCGTGCAGGGATCGGCTTTCGGCCTCGGCCCGAACTTCCGCATTTCCTACGCCACGTCGGAAGCGCTGCTGGAAGAGGCCTGCAAGCGCATCCAGCGCTTCTGCGCCGATTGCCGCTGA	MAFLADILSRVKPSATIAVTQKARELKAKGRDVISLGAGEPDFDTPENIKEAAIDAIKRGETKYTPVSGIPELRKAIADKFKRENGLDYKPEQTIVGTGGKQILFNAFMATLNPGDEVIIPAPYWVSYPEMVAICGGTPVFVDATLEDNFKLKPEALEKAITPKTKWFVFNSPSNPSGAAYSHDELKALTDVLVKHPHVWVLTDDMYEHLTYGDFKFVTPVEVEPSLYDRTLTMNGVSKAYAMTGWRIGYAAGPLPLIKAMDMIQGQQTSGASSIAQWAAVEALNGTQDFIPANKKIFEGRRDLVVSMLNQAKGISCPAPEGAFYVYPSCAGLIGKTAPSGKVIETDTDFVSELLEAEGVAVVQGSAFGLGPNFRISYATSEALLEEACKRIQRFCADCR	PGPT0020110_1903	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020110-aspB-K00812	NA	NA
BMS010_01213	1107	chaA_1	COG0387	Sodium-potassium/proton antiporter ChaA	ATGGCGGGTTCTATTCTGAAACAGGAGCGCATGCTGCTGCTGGCAATACCGGCGGCAATCGTCGCCTATCTGGCCGAACATGCAATATTCGAAGCCGGAAAAACGGCGGCGCTCATCGCCGCGGTCGCGCTGATCGGACTCATCGTCCTGGTCTCGATGCGGGTTGCCCATCACGCCGAAATCCTCGCCACCAAGGTCGGCGACCCTTACGGCACCATGATCCTGACGCTGTCGGCCGTCGCGGTGGAAGTGCTGATCCTCGCCATCATCATGAGCGAATCCAGTTCGCCCACTCTGGTGCGCGATACGATCTATTCCGCCGTGATGATCGACATCAACGGCATTCTCGGTCTCGCGGCGCTGCTCGGCGGTCTTCGCCACGGCGAGCAGCCCTATAACGACGATTCCGGCAAGACCTATGGCGTGATGATCCTCACCGCCATGGGTATTTCGATGATCGTGCCGGAATTCATCCCCAATGAAAGCTGGCATGTCTACTCCGCCTTCACCATCGTCGCGATGATCGCGCTTTACGCCCTGTTCCTCAAAATGCAGGTCGGCCCGCACAGCTATTTCTTCAGCTATGCCTATCCCCGCAAGGCGCATCCGGCCGGACAGGCATCGGACGGCCATGCGGAAGAGGAGGACGAAGGCAGCGTACCGCTCTCCATCGGCCTCATCATCGCCGGCGTGGTGCTGATCGGCGTGCTGGCGGAATTCATGTCGGCCTTCTTAAGCGAAAGCCTCGAGGGCACCAGCGCGCCGCCAGCGCTGATGGCGGTAGTGGTGGCGACGATCTCGGCATCGCCGGAAATCCTCACCGCGCTTCGGTCCGCCTTGCGAAACCGCATGCAGGCGGTGGTCAATATCGCCATGGGCGCATCGCTGTCGACGGTCATCCTCACCGTGCCCGTCATGGAGGGTATCGCGCTCTATACCGGCCAGCCCTTCATCATGGCGATGACGCCGGTTCAGACCGTCATGGTCTTCATCACCCTCATCGCCGCCGCCATCAATCTCAATGACGGCGAGACCAACGCGATTGAAGGAATGACGCATTTCATTCTCTTCGCCACCTTCATCATGCTGCTGTTTCTGGGGCTTTGA	MAGSILKQERMLLLAIPAAIVAYLAEHAIFEAGKTAALIAAVALIGLIVLVSMRVAHHAEILATKVGDPYGTMILTLSAVAVEVLILAIIMSESSSPTLVRDTIYSAVMIDINGILGLAALLGGLRHGEQPYNDDSGKTYGVMILTAMGISMIVPEFIPNESWHVYSAFTIVAMIALYALFLKMQVGPHSYFFSYAYPRKAHPAGQASDGHAEEEDEGSVPLSIGLIIAGVVLIGVLAEFMSAFLSESLEGTSAPPALMAVVVATISASPEILTALRSALRNRMQAVVNIAMGASLSTVILTVPVMEGIALYTGQPFIMAMTPVQTVMVFITLIAAAINLNDGETNAIEGMTHFILFATFIMLLFLGL	PGPT0013985_1555	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013985-chaA-K07300	NA	NA
BMS010_01214	267			hypothetical protein	ATGACCAAAGTGGTATATGAAATTGTCGAACATGACGGAGGCTTTGCCTACCGCATGAACGGCGCTTATTCCGAAACATTCCCTTCTTATGCGGATGCCGTCGAGGCTGCGCGCATCGTTGCCGCTGAACAGCAGGTGGGGGGCGATGACGAGGAAATCAGCTATCAGGATGAGAGCGGCCACTGGCATGAAGAATACAGCCAGGGCGGCGACCGGCCGGAAGCCGAGGTGGTCGACAAGACGACGCAGCAGGCCAGACCGTTTTGA	MTKVVYEIVEHDGGFAYRMNGAYSETFPSYADAVEAARIVAAEQQVGGDDEEISYQDESGHWHEEYSQGGDRPEAEVVDKTTQQARPF				NA	NA	NA	NA	NA
BMS010_01215	945	dmlR_1		HTH-type transcriptional regulator DmlR	ATGACGAGAAACCGTGACATCAGCTGGGATTTCTATCGCACCTTCCTCAGCGTGCTGAGCGACGGTTCGCTGTCCGCCGCCGCCCGCGAGCTTGGCATCACCCAGCCGACGGCGGGACGTCATATCGGCGCGCTGGAAGAGGCCGTCGGCTTTCCGCTGTTCATCCGCTCGCCGCACGGGCTGATGCCGACGGAAGCAGCCCTTGCACTCCGCCCCTATGCGGAAAATCTCGCGGCGACGACCGCCGCCCTCATGCGCGCGGCCTCCGGTGAAGTCGGCAAGATCGAAGGCACGGTGCGCATCAGCGCAAGTGATATCATCGGCGTGGAAATGCTGCCGCCGATCATCACGGCCATGCAGGAGGTTCACCCGCGGCTTGAAATCGAGCTTTCGCTTTCCGATACGCTGGAAGACCTTTTAAGGCGCGAGGCGGATATCGCCATTCGCATGACCGAACCGCAGCAGGATGCGATCGTCATGCGTTATATCGGCAATTTCCGTCTGGGATTTCATGCAACGCGCGACTATCTGGCAAGAGCCGGCACCCCGAAGAGCATGGAAGATCTGAACCATCACCGGATGGTCGGCTTCGACCGCAAGACACCTTTCATTCGGGCGGCCATCCAGCGCATGCGCTCGCTCGATCCGGACATACCCGATATTGAGGAAATTTCCTTTGAAATCCGCGCCGACAGCAATCTCGCCCAGCTTGCCATGATCCGCGCCAGCGCAGGCATCGGCGTCTGTCAGATCGGTCTGGCGCGCAAGGACCCCCGGCTCGTTCAGGTTCTTCCGAAAATCGACATCCCGCTCCACACCTGGGTCGCGATGCATGAAAATCTCAAGACCTCGCCGCGATGTCGTGCCGTGTTCAGCGCCCTCGTTGAAGGCCTCAAGGGGCATCTTAAAGAAACCGATCCGAGCGCACCGCCGAAACGGCGCTAA	MTRNRDISWDFYRTFLSVLSDGSLSAAARELGITQPTAGRHIGALEEAVGFPLFIRSPHGLMPTEAALALRPYAENLAATTAALMRAASGEVGKIEGTVRISASDIIGVEMLPPIITAMQEVHPRLEIELSLSDTLEDLLRREADIAIRMTEPQQDAIVMRYIGNFRLGFHATRDYLARAGTPKSMEDLNHHRMVGFDRKTPFIRAAIQRMRSLDPDIPDIEEISFEIRADSNLAQLAMIRASAGIGVCQIGLARKDPRLVQVLPKIDIPLHTWVAMHENLKTSPRCRAVFSALVEGLKGHLKETDPSAPPKRR				NA	NA	NA	NA	NA
BMS010_01216	1038			hypothetical protein	ATGATATATGAAAACAACGCAAATACAGCGCGGAATGAACGGCCTCTGGCCCTGATTTTGGGGGTGAATGGCGGTGTCGGCAGTCAGGTCTCCAGAATGCTGCAGCAACGGGGATGGCGGGTGAGGGCGATGACGCGCCAGCGGACGTCAACGGGCGCTACGGATGGCGTCGAACGTGTGATCGGCGATGCCATGAACCGGCAGGATGTGATGGATGCGGCAAAAGGCGTGAGCCTCATCGTCCATGCGGTCAATCCTCCCGGATATCGCAACTGGGAAAGCCAGGTGCTGCCGATGCTCGACAATACCATTGCCGCCGCCGAAGCCTGCGGGGCGCGGATCGTCTTTCCGGGCAGCGTCTATAATTTCGGCCCGGACGCCTTTCCGCTTCTGACGGAAGACAGTCCGCAAAAGCCTTTTACCCGCAAGGGCGCATTGCGTGTGGAGATGGAGCGGCGGCTGAAAATGGCGTCGATGCGCGGCGTGCCGGTACTGATCGTCCGCGCCGGGGATTTCTTTGGGCCGGACGCGAGAAACAACTGGTTTTCGCAGATGCTGGTGAAACCCGGAAAGCCGGTCCGGAGTGTCCAGAATCCCGCCGCGCCATATGCCGGGCATCAATGGGCCTATCTGCCGGATGTCGCCGAGACCATTGGCCGGCTGCTGGACCGCGCAGACGAGCTTCCGGCTTTCGCCGTCTATCACATGGAAGGTTTCTGGGATTTCGACGGGCTGCAACTGGTTGAAGCCATCGAGCGGGTTGTCGGGCATCCGGTCAAGAGGCGGCAGCTGTCCTGGTCGGGCATCAAATTGACCGCTCCCTTCGTTCCCCTGTTCCGCGAAGTGCTGGAAATGCAATATCTCTGGCAGATGCCGATCCGGATGAGCAATCGCAGGCTGACGGATTTTTTCGGAACGGAACCCAGGACACCGATCGACATTGCGGTAGCGACGACACTGGCGAGCCTCGACTGCCTTGAGCAGAGGCCGCAGCCGTCGAGCCTTTCTCATCCGGCCGATGCCGGGGGCAGGGTGTGA	MIYENNANTARNERPLALILGVNGGVGSQVSRMLQQRGWRVRAMTRQRTSTGATDGVERVIGDAMNRQDVMDAAKGVSLIVHAVNPPGYRNWESQVLPMLDNTIAAAEACGARIVFPGSVYNFGPDAFPLLTEDSPQKPFTRKGALRVEMERRLKMASMRGVPVLIVRAGDFFGPDARNNWFSQMLVKPGKPVRSVQNPAAPYAGHQWAYLPDVAETIGRLLDRADELPAFAVYHMEGFWDFDGLQLVEAIERVVGHPVKRRQLSWSGIKLTAPFVPLFREVLEMQYLWQMPIRMSNRRLTDFFGTEPRTPIDIAVATTLASLDCLEQRPQPSSLSHPADAGGRV				NA	NA	NA	NA	NA
BMS010_01217	390			hypothetical protein	ATGGCCACGATTGCGAATGGGATGTCGGCGAGGCGTCGCGTGTTTGCCGTGATTTCGGCAAGCGTGCCGGTGCTGATCTTCGCGCAGGTGCTGCTGGCCGGGCTGTCGATCTATTACGATGGATCGCTGCTTTCGCTGCACAAGGGGCTCGGCTTTCTGATCGCCGTTCCGATCCTGTCGCTGGCGGTTCTCGCTTCTCTATATGACGATCTGCGGCCGAACCTTGCACGCACGCTGGTCCTGCTTGGTCTCTACTGTCTTCAGGTGGCCCTTATGAGCATCGGACGGGAAACGGGCAATGGCTTCATGCAGGCGCTGCATGTGCCCAACGCCTTCGTCATGGGCGCGTTTTCCGATTTTGCCGCGCGGCAGGCGCGAAGCCTGCGCTGA	MATIANGMSARRRVFAVISASVPVLIFAQVLLAGLSIYYDGSLLSLHKGLGFLIAVPILSLAVLASLYDDLRPNLARTLVLLGLYCLQVALMSIGRETGNGFMQALHVPNAFVMGAFSDFAARQARSLR				NA	NA	NA	NA	NA
BMS010_01218	1113	nemA_1	COG1902	N-ethylmaleimide reductase	ATGACCAGTCTTTTCGAACCGGCACAGGCCGGCGATATCGCACTCGCCAACCGTATCGTCATGGCCCCCCTCACCCGCAACCGTTCGCCGGGCGCCATTCCAAACAATCTCAACGCCACCTATTACGAGCAGCGCGCCACGGCCGGGCTGATCGTCACCGAAGGCACGCCGATTTCCCAGCAGGGTCAGGGTTACGCTGACGTTCCCGGCCTCTACAAGCGGGAAGCAATCGCGGGCTGGAAACAGGTGACGGACAGCGTGCATTCTGCCGGTGGCAAGATCGTCGCGCAGATCTGGCATGTGGGCCGCATTTCCCACACCTCGCTGCAGCCACATGGCGGCCAGCCGGTCGCGCCTTCCGCCATTCCGGCCAAGTCGAAGACCTATATCATCAATGATGACGGCACCGGCGCCTTTGCCGAAACCTCCGAGCCCCGTGCGCTCACCATCGACGATATCGGCCTCATTCTCGAGGATTACCGCAGCGGCGCGCGAGCAGCACTGGAAGCCGGTTTCGACGGTGTCGAAATCCATGCCGCCAATGGCTACCTGATCGAGCAGTTCCTGAAATCCAGCACTAACCAGCGCACGGATGATTATGGGGGCTCCATCGAAAACCGGGCCCGCTTCCTGCTCGAAGTTGTCGATGCCGTGGCGGAAGAGATCGGCGCAGGCCGTACCGGTATCCGCCTCTCACCCGTCACGCCCGCCAACGACATTTTCGAAGCCGATCCGCAGCCGCTTTATAATTACGTGGTGGAACAGCTCGGCAAGCGCAATCTCGCCTTCATCCATGTCGTTGAAGGTGCAACCGGCGGCCCGCGCGATTTCAAGCAGGGCGACAAACCTTTCGATTATGCCGCCTTCAAGGCCGCTTATCGCAATGCCGGCGGCAAGGGCCTTTGGATCGCCAATAATGGATACGACCGTGAGAGCGCCATCGAGGCGGTTGAAAGCGGTAAAGTAGACGCCGTGGCTTTCGGCAAGGCGTTCATCGCCAATCCGGATCTGGTGCGTCGCCTGAAAAACGACGCGCCGCTCAATGAGCCGAACCAGCCGACCTTCTATGGCGGCGGAGCCGAAGGTTACACCGACTATCCGGCGCTTGCCTGA	MTSLFEPAQAGDIALANRIVMAPLTRNRSPGAIPNNLNATYYEQRATAGLIVTEGTPISQQGQGYADVPGLYKREAIAGWKQVTDSVHSAGGKIVAQIWHVGRISHTSLQPHGGQPVAPSAIPAKSKTYIINDDGTGAFAETSEPRALTIDDIGLILEDYRSGARAALEAGFDGVEIHAANGYLIEQFLKSSTNQRTDDYGGSIENRARFLLEVVDAVAEEIGAGRTGIRLSPVTPANDIFEADPQPLYNYVVEQLGKRNLAFIHVVEGATGGPRDFKQGDKPFDYAAFKAAYRNAGGKGLWIANNGYDRESAIEAVESGKVDAVAFGKAFIANPDLVRRLKNDAPLNEPNQPTFYGGGAEGYTDYPALA	PGPT0005930_780	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_TOLULENE|DERIVATE_DEGRADATION	XENOBIOTIC_NITROTOLULENE_DEGRADATION,PGPT0005930-nemA-K10680	NA	NA
BMS010_01219	291			hypothetical protein	ATGAACCCGGAGGAAATCCTCAAAGCCCTTTCGCACCCCGCAAGGCTGAAATTCCTGGAATGGCTGAAGTCTCCGGAAAGTCACTTCTGCCAGGAGCATCCCCTCAGCATGGGTGTATGCGCCAACCAGTTTCAGATCAGCGGCCTGTCGCAATCCACCGTCTCGTCGCATTTGGCGGTGTTGCAGGCAGCCGGCCTGATAAGGTCGAAAAAGGTCGGGCAATGGGTGTTTTTCGAACGCAACGAGGAAACCATCGACGCCTTCCGCAATTATCTGCAAGCCAATCTCTGA	MNPEEILKALSHPARLKFLEWLKSPESHFCQEHPLSMGVCANQFQISGLSQSTVSSHLAVLQAAGLIRSKKVGQWVFFERNEETIDAFRNYLQANL				NA	NA	NA	NA	NA
BMS010_01222	903	pgrR_2		HTH-type transcriptional regulator PgrR	ATGGCAATGCCATTGGACTGGGATAAACTGCGCATTTTTCATGCCGCAGCCGAAGCAGGGTCTTTCACCCATGCTGCCGACAAGCTGCATTTGTCCCAGTCGGCCATCAGCCGTCAGGTCAGCGCGCTTGAGCAGGATGTCGGCGTCAAGCTGTTCCATCGCCACGCCCGCGGCCTGATCCTCACCGAACAGGGCGAGCTGCTGTATCGCACCGCCCATGACGTGCTGCTGAAGCTCGAAACCGTCAAGATGCAGCTCACCGAAACGACGGAGAAGCCGAGCGGCAAGCTGCGCGTGACAACGACCGTCGGCCTCGGCCAGGGCTGGCTGACGGACAAGGTGCAGGAATTCCTGCAGCTCTATCCGGAAATGTCGATCCAGCTCATCCTCGACAATGAGGAGCTGGACGTGAACATGCGTCACGCCGATTGCGCCATCCGCCTGCGCCAGCCGCAGCAGTCGGACCTCATTCAGCGCAAGTTGTTCACGGTGCACATGCACGTCTACGCCGCGCCGTCCTATATCAACCGCCATGGTGAGCCGCAGTCGATCGAGGATCTCGACAATCACCGCATCATCTCCTTCGGCGAACCGGCGCCCAACTATCTGCTGGACGTCAACTGGCTGGAGAACGCCGGACGCTCATCCGACAACACGCGTACACCACACCTACAGATCAACAGCCAGACCTCGATCAAGCGCGCCTGCCTGCTGGGAATCGGTATTGCCTGCTTGCCGGATTATATCGTCGGCCGCGATCCGGGCCTTATCCAGCTATCGCTCGCCGCCGATATTCCGTCCTTCGATACCTATTTCTGCTATCCGGATGAGATGAAAAACGCTGCAAAGCTGAAAGCCTTCCGCGACTTCATCGTGGCAAAGGCGCGGAACTGGAACTTCTGA	MAMPLDWDKLRIFHAAAEAGSFTHAADKLHLSQSAISRQVSALEQDVGVKLFHRHARGLILTEQGELLYRTAHDVLLKLETVKMQLTETTEKPSGKLRVTTTVGLGQGWLTDKVQEFLQLYPEMSIQLILDNEELDVNMRHADCAIRLRQPQQSDLIQRKLFTVHMHVYAAPSYINRHGEPQSIEDLDNHRIISFGEPAPNYLLDVNWLENAGRSSDNTRTPHLQINSQTSIKRACLLGIGIACLPDYIVGRDPGLIQLSLAADIPSFDTYFCYPDEMKNAAKLKAFRDFIVAKARNWNF				NA	NA	NA	NA	NA
BMS010_01223	975	trxB_1	COG0492	Thioredoxin reductase	ATGTCTGCCCGCCACACCAAGGTATTGATCATCGGCTCCGGCCCCGCCGGTTATACCGCGGCGATCTACGCGGCCCGCGCAATGCTGAAACCCGTGCTGATCGCCGGCATGGAACAGGGCGGCCAGCTGATGATCACCACCGATGTCGAGAACTATCCGGGCTTTGCCGATCCGATCCAGGGTCCGTGGCTGATGGACCAGATGCTGAAGCAGGCGACGCATGTGGGCGCGGAAATCGTCAGCGACCTCGTCACCGAGGTTGAAACCAATGTGCGGCCTTTCGTGGTCAAGACCGATTCCGGTCAGGTCTGGACCGCCGATACGCTGATCATCGCCACCGGTGCCAAGGCCAAGTGGCTCGGCATTGAGAGCGAGCAGCATTTCCAGGGCTTCGGTGTTTCCGCCTGCGCCACCTGCGACGGTTTCTTCTATCGCAACAAGGATGTGATCGTGGTCGGCGGCGGCAACTCCGCCGTGGAAGAAGCGCTGTACCTTGCCCATATCGCCAAGTCGGTCACCGTCGTGCACCGCCGCGATAGCTTCCGCTCGGAAAAAATCCTGCAGGAACGGCTGTTCGCCAAGGAAAACGTCAAGATTCTCTGGAACACGGAAATCGCCGAAATTACCGGTGCACCCGCAAAGCCGCCAATGCCGCCTTCCGTCTCCGGCGTGAAGCTGCGTGATACCAAGACCGGCACGATCAGCGAATTCCCCATCGACGGCGTCTTCGTCGCCATCGGCCATGCGCCGGCAGTCGAGCTGTTCAAGGGCAAGGTGAAGCTGAAAGACAACGGCTACATGTGGACCGCCCCCGATTCCACGGCGACCGACGTGGAAGGCATTTTCGCGGCTGGCGACGTCACCGACGACATCTACCGTCAGGCGATCACCGCCGCCGGCATGGGCTGCATGGCCGCGCTGGAAGCGGAACGTTATCTCACCGCGCATCAACCGCTTGCTGTCGCAGCGGAATAA	MSARHTKVLIIGSGPAGYTAAIYAARAMLKPVLIAGMEQGGQLMITTDVENYPGFADPIQGPWLMDQMLKQATHVGAEIVSDLVTEVETNVRPFVVKTDSGQVWTADTLIIATGAKAKWLGIESEQHFQGFGVSACATCDGFFYRNKDVIVVGGGNSAVEEALYLAHIAKSVTVVHRRDSFRSEKILQERLFAKENVKILWNTEIAEITGAPAKPPMPPSVSGVKLRDTKTGTISEFPIDGVFVAIGHAPAVELFKGKVKLKDNGYMWTAPDSTATDVEGIFAAGDVTDDIYRQAITAAGMGCMAALEAERYLTAHQPLAVAAE	PGPT0013060_4119	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
BMS010_01224	468	lrp_3	COG1522	Leucine-responsive regulatory protein	GTGACCAGCGTCGAACTCGATGCCATCGATCTGAAAATCCTGCGCGAATTGCAGCGCGACGGGCGCATGACCAATGTGGAACTGGCCGAAAGGGTCGGAATTTCCGCGCCGCCCTGCCTCCGGCGCGTCCGCAAGCTGGAAGAGGCGGGCGTGATCGAGGGTTATCACGCCATGTTGAACGCGCCGAAGCTCGGTTTCGATCTCGTCGCCTTCTGCATGGTTGGTCTCAAGCGCCAGTCGGACAGCAATCTGAAGGCTTTTGCGGCGGCAACGGCCGGCTGGTCGCTGGTGCGTCAGGCCTGGATGGTGTCGGGCGAAAGCGACTTTCTGCTACATTGCGTGGCCAAAAACCTGACGGAATTTCAGGATTTCGTCATCGAGGTTCTGACGGCGGACGAAAATGTCGATACGGTGCGCACCATGCTCACCATCCGGCAGGTCAAGCGCGTCGGTCTCGTGGAAATCTGA	MTSVELDAIDLKILRELQRDGRMTNVELAERVGISAPPCLRRVRKLEEAGVIEGYHAMLNAPKLGFDLVAFCMVGLKRQSDSNLKAFAAATAGWSLVRQAWMVSGESDFLLHCVAKNLTEFQDFVIEVLTADENVDTVRTMLTIRQVKRVGLVEI				NA	NA	NA	NA	NA
BMS010_01225	1056	mshA_3		D-inositol-3-phosphate glycosyltransferase	TTGTCCCACGTCAGTCTGAAAGATGTGCAGGTGCTTGCGCCGAACTTCAAACGCAGGCTCTCCGGCGTCACCTCCACCATTGTTCAGCTTATTCCGGTGCAGAACCGGCTGGGACAGAAGGTGGCCGTCATCGGCCCCGGCCTGCCGCCGCATCTGCCGCATGTGCGCTTCCGCGATCTCTGGCGGCTCTGGCAAAACGGCCCGCAGGGCGGCCCGCGTATCTGGCATGCCCGTCGCAACCTCGAAATGTTGCCGGGTCTTTTCATGCGTGACGTGCTGCGCATGAAAGTGAAGCTGCTGTTCACCTCGGCCGCACAGAGGCGGCATTCCGCCTATACACGGTTTCTGATTTCGAAGATGGACGCCGTGGTCGCGACCAGCACCCGCTCCGGCTCGTTTCTGGAAGTACCCCATCGCGTTGTCATGCATGGCGTCGATACCGACCTGTTCCATCCGGCAACCGGCCCGGAAGACACAATCGCGGCAACCGGCCTGCCGGGCCAATATCTCATCGGCTGCTTTGGACGGGTGCGCCACCAGAAGGGCACCGATCTTTTCGTGCGCGCCATGATCGAGCTTTTGCCCGCCCATCCGCAATGGACAGCCATTGTTTCCGGCCGGGTAACGGCGGAACACAAGGCTTTTGCCGAGGCACTCGAGGCCGATGTCAAGGCTGCCGGCCTTTCGGATCGCATCGTGTTTCAGGGTGAGGTGGACGACATCAAGCCGTGGTACCGGCGGCTGACGCTCTATGTCGCCCCATCCCGCAACGAAGGTTTCGGCTTGACGCCGCTCGAGGCCATGGCATCGGAAACGGCCGTCGTCACCAGCACTGCCGGCGCCTATGAGGAAATGATCGTCAGGGGTGAAACCGGCGCAGTCGTCGAGGCGGGTGACTACGCATCTCTCAGGGATGCGATAAGGACCTATCTTGCTGACCCGGCTCTGGCCGAGAGCCATGCCCGTGCCGGTCTCGCGCATGTGCGCAGCACATTCCCGCTTGATAAAGAGGCTACGAGTCTCGGCGAAGTCTATGAAGCTTTGCGGCGCGGGTAA	MSHVSLKDVQVLAPNFKRRLSGVTSTIVQLIPVQNRLGQKVAVIGPGLPPHLPHVRFRDLWRLWQNGPQGGPRIWHARRNLEMLPGLFMRDVLRMKVKLLFTSAAQRRHSAYTRFLISKMDAVVATSTRSGSFLEVPHRVVMHGVDTDLFHPATGPEDTIAATGLPGQYLIGCFGRVRHQKGTDLFVRAMIELLPAHPQWTAIVSGRVTAEHKAFAEALEADVKAAGLSDRIVFQGEVDDIKPWYRRLTLYVAPSRNEGFGLTPLEAMASETAVVTSTAGAYEEMIVRGETGAVVEAGDYASLRDAIRTYLADPALAESHARAGLAHVRSTFPLDKEATSLGEVYEALRRG	PGPT0022470_141	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_CORE_OLIGOSACCHARIDE_METABOLISM,PGPT0022470-lpcC-K12989	NA	NA
BMS010_01226	477	greA_1	COG0782	Transcription elongation factor GreA	ATGGTAGAAAAAGTACCGATGACTCAGGGTGGATTCGTCAAGCTGCAGGAGGAGCTGCGCTGGCGCCAGCAGGAGGAACGCCCCCGTATCATCGAGGCGATTGCGGAAGCGCGCGCCCATGGCGACCTTTCGGAAAACGCCGAGTACCATGCTGCCAAGGAAGCACAGAGCCACAATGAAGGCCGCATCACCGAACTCGAAGACCTGACCGCACGTGCGGAAGTCATCGATCTCTCCAAGATGTCGGGCTCGAAGATCAAGTTCGGCGCCACCGTCAAGCTGGTGGATGAGGATAGCGACGAGGAAAAGACCTATCAGATCGTTGGCGATCAGGAAGCCGATGTGAAGGCTGGCCGCATCTCCATCTCCTCGCCCATCGCCCGCGCCCTGATCGGCAAGGAAGTCGGCGACAGCATCGAAGTCAACGCGCCTGGCGGTGCCAAGGGCTACGAGATTCTCGCGGTTCAGTGGGGCTGA	MVEKVPMTQGGFVKLQEELRWRQQEERPRIIEAIAEARAHGDLSENAEYHAAKEAQSHNEGRITELEDLTARAEVIDLSKMSGSKIKFGATVKLVDEDSDEEKTYQIVGDQEADVKAGRISISSPIARALIGKEVGDSIEVNAPGGAKGYEILAVQWG	PGPT0030495_2200	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TRANSCRIPTIONAL_CONTROL	PUTATIVE-TRANSCRIPTIONAL_CONTROL-1,PGPT0030495-greA-K03624
BMS010_01227	1233			hypothetical protein	ATGAAGAAGTCCATCAGGCAACGGCTGGCCATTCTCTCCGACGCGGCGAAATACGATGCTTCCTGCGCATCCAGCGGCACGACAAAACGCAACTCCGCAGCATCGGGCGGTCTGGGCTCCACGGAAGGGTCGGGCATCTGCCATGCCTATGCGCCGGACGGGCGATGCATTTCGCTTTTGAAAATCCTGCTCACCAATTTCTGTATCTATGATTGCGCCTATTGCATCAACCGCTCCTCCAGCAATGTCGAGCGGGCACGGTTCACGCCGGAAGAGGTGGTTTGGCTGACGCTGGAGTTTTACAGGCGCAACTATATCGAGGGGCTGTTCCTGTCCTCCGGCATCATCCGCTCTTCCGATCATACGATGGAGGAGATGGTGCGCGTGGCGCGGGAGTTGCGGGTTACCCATGGTTTTCGTGGGTATATTCACCTGAAATCCATTCCCGAAGCATCGCCCAGGCTCATTGAGGAGGCAGGGCTTTATGCGGATCGGCTCTCGATCAATATCGAATTGCCGACCGATAGCGGCATTGGCCGTTTCGCGCCGGAAAAGCAGCCCGTCAATATTCGCCGCTCTATGGCCGATATCCGCCTGAAGATCGAAGAGGCCGGAGAGCCTACCGTCCGGACACGCAAGACCAGGCGCTTTGCACCGGCCGGGCAGAGCACGCAGATGATCGTGGGAGCGGATGGCGCTGACGATAGCACCATTCTCTCCACCAGCGCCCGGCTTTATGGCAGCTACGGTTTGCGGCGCGTCTATTATTCGGCCTTTAGCCCCATTCCCGATTCGTCGAAAAGCCTGCCGCTCATCAAGCCGCCGCTGATGCGGGAGCACCGGCTTTATCAGGCCGACTGGCTGTATCGCTTTTATGGCTTCGATATCAGCGAGATAACGGCGATCGGCGGCGACGGCATGCTCGATCTCGATATCGACCCGAAACTCGCCTGGGCGCTGAAACATCGCGACCGTTTCCCGGTGGACGTCAATGCGGCGGATCGGGAAATGCTGCTGCGTGTGCCCGGTTTCGGCACCAAGACGGTTGCTTCCATCCTCTCGTCGCGGCGGTTCCGGCGGCTGCGGCTGGAGGATATCGCCCGTTTTGGTGTTTCCCTGAAAAAGGTGAAGGCTTTCATCGTCGCCGAGGGCTGGACGCCGGGCAAGCTGACCGAGCGGCCGGATTTGCGGGCGATGTTTGCGCCGCAGCCCGAACAATTGTCGCTGTTGTGA	MKKSIRQRLAILSDAAKYDASCASSGTTKRNSAASGGLGSTEGSGICHAYAPDGRCISLLKILLTNFCIYDCAYCINRSSSNVERARFTPEEVVWLTLEFYRRNYIEGLFLSSGIIRSSDHTMEEMVRVARELRVTHGFRGYIHLKSIPEASPRLIEEAGLYADRLSINIELPTDSGIGRFAPEKQPVNIRRSMADIRLKIEEAGEPTVRTRKTRRFAPAGQSTQMIVGADGADDSTILSTSARLYGSYGLRRVYYSAFSPIPDSSKSLPLIKPPLMREHRLYQADWLYRFYGFDISEITAIGGDGMLDLDIDPKLAWALKHRDRFPVDVNAADREMLLRVPGFGTKTVASILSSRRFRRLRLEDIARFGVSLKKVKAFIVAEGWTPGKLTERPDLRAMFAPQPEQLSLL				NA	NA	NA	NA	NA
BMS010_01228	1449			hypothetical protein	ATGTATGGCCCGGTTCTCGAAGGGCGGGGCGATTTCGGCGAGTGGCGCGATGCCGCGCGTGCGGCCCTTGCCGCCGATATTCCGCCGGAGACGATTGACTGGCGGTTGCGGGACGACGGGGCAGGGCTGCTGGATTTCGCCGGTGAGCCTTTGCCGACCGTCGATGCCGGCAATGGGCAGGTTTCCGTTTCGGCCTCGTTCCTGGCGCTGGCGCAGGCCGTCATCTGCCATGGCGATCCCGGCCGGTTTGCGTTGCTTTACCGATTATTGTGGCGGCTGAAGCGGGATCGCGCCCTGTTGCAGTTCAAGTCCGATCCGGATGTTGCAGAGGCCCGCTTGCTCGAGAAATCGGTGCGCCGGGATTGTCACAAGATGACGGCCTTCGTCCGTTTCAAGGAATTGCCCTGGCCGCAGGGGCAGGGCGGGCGACGGCGGTTCGTGGCCTGGTTCGAGCCGGATCATTTCATCGTCGAGCGGACGGCAGCGTTTTTCCAGCGACGGTTTACCGATATGGACTGGCTGATCGCCACGCCGAAAGGGTCCGCCCGATGGGACGGAAGCGAGCTGCAAACCTCACGGGAGGCGGCGGCGAAGCCTGATCTGAAGGACGAGACGGATGAACTCTGGCGGACCTATTATGCCAATATATTCAATCCGGCGCGCCTCAAGATCAAAGCCATGACGGCGGAGATGCCGAAGAAATACTGGAAGAACCTGCCGGAAGCCGATCTCATTCCCGGTCTCGTTCTCGGTGCTGAGGCGCGGGTGCTGGAGATGGCCGCCAGGGCGGCAAGCCAGCCGCAGCCCTTTCACCATCGCCTGCAGGCTGCGGCCGCTGCCCGGGAGACGACGCAACCCGTGCCGGAGGGCACGCTCGCGTCGCTGGCGCGGGAGGCTGCCCACTGTACCCGCTGTCCCCTGCATTGCAGCGCCACGCAAACGGTTTTCGGTTTGGGGCCGGAGGATGCGGAAATCATGATCGTTGGCGAACAGCCGGGCGATCACGAGGATCTCGCCGGCAAGCCTTTTGTCGGTCCGGCCGGCCAGCTTTTCGACCGGACTCTTGCCGATGCCGGTATCGAGCGCAAAAAGCTTTATGTCACCAATGCTGTCAAACACTTCAAATATGAAACGCGCGGCAAACGGCGCATCCATCAGCGGCCGAATGCGGGCGAAGTGGAGCAATGCCGCTGGTGGCTCAATCAGGAAATCGCGCTTATTCGGCCGAAGCTGATCGTTGCCATGGGCGCAACGGCGCTTTATGCGCTGACCGGCGGCAAGGAAAAGCTCTCAGAGATTCGGAGCCGTCCTCTGCCGATGGAGGAAGGCCGAACGCTTTTTGTCACCGTGCATCCGTCCTACCTCCTGCGCCTTGCCGATGCGCAGGTGAAAGAGGCGGAAACCATGCGGTTCAAGAAGGATATAAGTTTTATTAGAACATTCGAATAA	MYGPVLEGRGDFGEWRDAARAALAADIPPETIDWRLRDDGAGLLDFAGEPLPTVDAGNGQVSVSASFLALAQAVICHGDPGRFALLYRLLWRLKRDRALLQFKSDPDVAEARLLEKSVRRDCHKMTAFVRFKELPWPQGQGGRRRFVAWFEPDHFIVERTAAFFQRRFTDMDWLIATPKGSARWDGSELQTSREAAAKPDLKDETDELWRTYYANIFNPARLKIKAMTAEMPKKYWKNLPEADLIPGLVLGAEARVLEMAARAASQPQPFHHRLQAAAAARETTQPVPEGTLASLAREAAHCTRCPLHCSATQTVFGLGPEDAEIMIVGEQPGDHEDLAGKPFVGPAGQLFDRTLADAGIERKKLYVTNAVKHFKYETRGKRRIHQRPNAGEVEQCRWWLNQEIALIRPKLIVAMGATALYALTGGKEKLSEIRSRPLPMEEGRTLFVTVHPSYLLRLADAQVKEAETMRFKKDISFIRTFE				NA	NA	NA	NA	NA
BMS010_01229	1140			hypothetical protein	ATGTTGGGTGAACTCGACCTTGCGACAGTCATACTGATGCAGAAGTGTTCTTATATCGTTGGGCTTTTGAGTTTTATCTATCTGAAAATGACCAATCGCGGCTTGCGCGGTCCCATCCCCCTTGCGGCGGGTTTCGCCTCGATGACGATTGGTTCCACGCTTGCTGGTTATGGCGAATGGGGAATATTGTCGCCGGCCCTGTGGCGGCTCGGCAGTGTCGCTTTCGGTATTGTGGGTTACGCGCTGATCTGGCTCGGCTTGAAGGCGTTGAGCGATGGGCGTTCCGTCGACCGACGGACCGTATCCATTGTCTGCGTCATCTCCGTGCTGGCGATGGTTGTCGCCCAGCAGGTGGCGGAAAATAATGCGTATCGCGCGGCGCTCTTCAATGGCTGCGCATCGCTTGCCTATCTCGCCGGGGCATCGGTGCTTTTGGCCAGATGGCGCAGGGAGCCGCTGCTGTCTCGCCTGGCGCTGGGTGGCATCACCGGCGTCTCCGGTCTCATTTCGCTATCGGTGGTGAAAAGCGTGCTTTTGCCCGATTATGCCACTATCAATCTGGTCAATGCGTTTTTCTTGATCATCATGCTGAACTTCGCCATTGCCCTGTTCGTGATGATGTTCGTGGCCGAGCGGTCGGAGCGAAAACTGCTTGTTCTTGCGAATACCGACCCGCTGACGGGCGTGAAGAACCGGCGCTTCTTTTTCCAGACCATGCCTGCGACGCCCGATCCCACCGATGCGGCCATGTTGCTGGATATCGATCACTTCAAGTCGATCAACGACCGTTTCGGCCATGCCGTCGGCGATAGTGTGCTGCAGGAAGTGGCGAAGCGCATCGGCGGCAGCATCCGCAGCGGGGACGTGCTGGCGCGTTACGGCGGAGAGGAATTCATCATCTACCTGCCGGGCGCCGGCGTTCGCAAAGCCTGCATGATCGGCGAGCGCATTCGCGATGCGATTGCGGTAACCGAGGTCGATTGCGGCGGTTTGCGTGTCGGCGTCACCATCAGCATCGGCGTTGCCGCCACTGGCGAGATGCGCTGCGATCTCCAGACGCTCGCGGAAATGGCGGATCGCGCACTTTACCGCGCGAAGATGGAAGGGCGCAATTGCGTTCGGGAGGCGCAGGCGGCATAG	MLGELDLATVILMQKCSYIVGLLSFIYLKMTNRGLRGPIPLAAGFASMTIGSTLAGYGEWGILSPALWRLGSVAFGIVGYALIWLGLKALSDGRSVDRRTVSIVCVISVLAMVVAQQVAENNAYRAALFNGCASLAYLAGASVLLARWRREPLLSRLALGGITGVSGLISLSVVKSVLLPDYATINLVNAFFLIIMLNFAIALFVMMFVAERSERKLLVLANTDPLTGVKNRRFFFQTMPATPDPTDAAMLLDIDHFKSINDRFGHAVGDSVLQEVAKRIGGSIRSGDVLARYGGEEFIIYLPGAGVRKACMIGERIRDAIAVTEVDCGGLRVGVTISIGVAATGEMRCDLQTLAEMADRALYRAKMEGRNCVREAQAA				NA	NA	NA	NA	NA
BMS010_01230	189			hypothetical protein	ATGGCTGGACGTCCACCGGGACCGGAGCGGGTGGCTTTTCCGCTGCGGATCGAACCCGCAATATTGAACATGATCCGGCACACCGCGAGCGGCGAGTTGCGCAGCATCAATGCCCAGATCGAGGTTCTTCTGAAAGAGGCCCTGTCCCGCCGCGCCACGGCGGATGAAGCAGACAAGCCGCCCTTCTAG	MAGRPPGPERVAFPLRIEPAILNMIRHTASGELRSINAQIEVLLKEALSRRATADEADKPPF				NA	NA	NA	NA	NA
BMS010_01231	3489	carB_2	COG0458	Carbamoyl-phosphate synthase large chain	ATGCCGAAGCGCCAAGATATCAAGTCCATCCTCATCATCGGCGCGGGACCGATCGTCATCGGTCAGGCATGTGAATTCGACTATTCCGGCACCCAGGCCTGCAAGGCGCTGAAGGAAGAGGGTTACCGGGTCATCCTGGTCAACTCCAACCCGGCGACGATCATGACCGATCCGGGCCTTGCCGACGCCACTTACGTCGAGCCGATCACGCCCGAAGTCGTGGCAAAGATCATCGCCAAGGAACGTCCGGATGCGCTTCTTCCGACCATGGGCGGTCAGACCGCGCTCAACACCGCGCTCTCTCTCAAGCGCATGGGCGTTCTCGACCGTTACAATGTGGAAATGATCGGCGCAAAGCCGGAAGCCATCGACATGGCCGAAGACCGCGCTCTCTTCCGCGAAGCCATGGCCCGCATCGGCCTTGAAACCCCGCGCTCCATGCTGGCCAACGCCACCGAAATCAAGGATGCCGACCGCAAGAAGCACGAGGCAGCCCGCACCGAGCTGAAGGGCAAGCTTTCCGGTCCCGATCTCGACAAGGCGCTGGACGATCTCGAAAACCAGTGGAACCTCGGCGAAACCGACCGCAAGCAGCGCTATATGGCCCATGCCATGGCAATCGCCGCTCAGGCCATCGATCATGTCGGCCTGCCGGCCATCATCCGCCCGTCGTTTACGCTTGGCGGAACCGGCGGGGGCATTGCCTATAACCGCTCGGAATTCTTCGATATCGTCTCGGGCGGTCTCGACGCCTCGCCGACGACGGAAGTTCTGGTCGAAGAATCGGTTCTCGGCTGGAAGGAATATGAGATGGAAGTCGTCCGCGACAAGGCGGACAATTGCATCATCATCTGCTCCATCGAAAACATCGATCCGATGGGCGTCCACACGGGTGACTCGATCACCGTTGCGCCGGCGCTGACCTTGACCGACAAGGAATACCAGATCATGCGCAACGCCTCGATTGCGGTGCTGCGCGAGATCGGCGTGGAAACCGGCGGCTCGAACGTGCAGTTCGCCGTCAACCCGAAGGACGGCCGCCTCGTCGTCATCGAAATGAACCCGCGCGTGTCGCGCTCGTCCGCTCTCGCTTCCAAGGCCACCGGCTTCCCGATCGCCAAGATCGCCGCCAAGCTCGCCATCGGTTATACGCTGGATGAGCTGGAAAACGACATCACCGGCGGCGCGACACCTGCTTCGTTCGAACCTTCCATCGACTACGTCGTCACCAAGATCCCGCGTTTCGCCTTCGAGAAATTCCCCGGCGCTTCGCCGATCCTCACCACCGCCATGAAGTCGGTCGGCGAAGTCATGGCCATCGGCCGCACCTTCGCGGAATCGCTGCAGAAGGCGCTGCGCGGCATGGAAACCGGCCTCACCGGTCTCGATGAAATCGAAATCCCCGGTTACGAGGAAGGCGAAGGCTCCAAGAACGCCATCCGCGCCGCCATCGGCACGCCGACGCCGGACCGCCTGCGCATGGTCGCTCAGGCGCTGCGCATGGGCATGAGCGAAGAGGAAGTCCACGAAAACTCGAAGATCGACCCCTGGTTCATCGCCCAGTTCAAGGCCATCGTCGACATGGAAGCCCGCATCCGCGAGCATGGCCTGCCGCAGGATGCCGAAAACCTGCGCATGCTGAAGGCCATGGGCTTCTCCGACGCCCGCCTCGCCAGCCTGACGTCCAAGCGTCCGAAGGAAGTGGCCGAACTGCGCAACAGCCTGAATGTTCGTCCGGTCTTCAAGCGCATCGACACCTGCGCGGCCGAATTCGCCTCGCCGACCGCTTACATGTATTCGACCTATGAAATTCCCTTCGTCGGCGCAGCCCGCTCGGAAGCGCAGGTTTCCGACCGCAAGAAGGTGGTCATCCTTGGCGGCGGTCCGAACCGCATCGGCCAGGGCATCGAGTTCGATTATTGCTGCTGCCACGCCGCCTTCGCGCTGAAGGATGCCGGTTTCGAAGCAATCATGATCAACTGCAACCCGGAAACCGTCTCCACCGACTACGACACCTCCGACCGCCTCTATTTCGAACCGCTGACGGCCGAAGACGTGATCGAGATCATGCGCGCCGAACAGGAAAAGGGCGAGTTGGTCGGCGTCATCGTGCAGTTCGGCGGCCAGACCCCGCTGAAGCTCGCCGAAGCGCTGGAAAAGAACGGTATCCCGATCCTCGGCACGGCGCCTGACATGATCGACCTTGCCGAAGACCGCGACCGCTTCCAGAAGCTGCTGATGAAGCTCGATCTTGCCCAGCCGAACAACGGCATTGCCTATTCGGTCGAGCAGGCTCGCCTCGTCGCGTCTGAAATCGGCTTCCCGCTGGTTGTTCGCCCGTCCTACGTTCTGGGTGGCCGCGCCATGCAGATCATCCATTCGGAAGGCCAGCTCCAGACCTATCTGCTCGACACGGTTCCGGGCCTCGTACCCGAGGACATCAAGCAGCGTTACCCGAACGACAAGACCGGCCAGATCAACACCCTGCTCGGCAAGAACCCGCTGCTGTTCGACAGCTACCTGACCAACGCCGTGGAAGTGGACGTCGATGCGCTGTGCGACGGCGAAAGCGTCTTCGTGTCGGGCATCATGGAGCACATCGAAGAAGCCGGCATCCATTCGGGCGACTCGGCCTGCTCGCTGCCGGTCCGTTCGCTGTCGAAGGAAATCGTCGACGAGTTGGAACGCCAGACGACGGCGCTTGCCAAGGCGCTCAATGTCGGCGGCCTGATGAACGTGCAATATGCCATCAAGGACGGCACGATCTACGTTCTCGAAGTCAATCCGCGCGCCTCGCGCACCGTGCCTTTCGTCGCCAAGACCATCGGCGCGCCGATCGCCAAGATCGCCGCCCGCGTCATGGCCGGCGAGAAGCTCGATCCGGCGATTGCCGCTTACGGCGAAAAGCCCGATCCGCGCAACCTGAAGCACATTGCCGTCAAGGAAGCCGTCTTCCCCTTCGCCCGCTTCCCCGGCGTCGACATTCTGCTCGGACCGGAAATGCGCTCGACCGGCGAAGTCATCGGCCTCGACACCGATTTCGCGCTGGCCTTCGCCAAGAGCCAGCTCGGCGCCGGCGTCGACCTGCCCCGCTCCGGTGCGGTCTTCGTCTCGGTGCGTGACGAGGACAAGGAAGGCGTTCTGCCCGCCATCCGCATTCTCGTGGAAAGCGGCTTCAAGGTGCTGGCCACCGGCGGCACGCAGCGCTTCCTCGCCGAAAAGGGAATCAACGCCGAAAAGATCAACAAGGTGCAGGAAGGCCGTCCGCATATCGAAGACGCCATCCGCAACCGTCAGGTCCAGCTCGTCATCAACACCACCGACAGCAACAAGGCGATTTCTGACTCGAAGTCACTGCGCCGCGCGACGCTGATGCAGAAGGTGCCTTACTACACGACGATGGCCGGCGCGGAAGCGGCAGCGCTTGCCATCAAGGCGCTGAAGGCCGGCAATCTGGAAGTGAAGCCGCTGCAGAGCTACTTCCAGTAA	MPKRQDIKSILIIGAGPIVIGQACEFDYSGTQACKALKEEGYRVILVNSNPATIMTDPGLADATYVEPITPEVVAKIIAKERPDALLPTMGGQTALNTALSLKRMGVLDRYNVEMIGAKPEAIDMAEDRALFREAMARIGLETPRSMLANATEIKDADRKKHEAARTELKGKLSGPDLDKALDDLENQWNLGETDRKQRYMAHAMAIAAQAIDHVGLPAIIRPSFTLGGTGGGIAYNRSEFFDIVSGGLDASPTTEVLVEESVLGWKEYEMEVVRDKADNCIIICSIENIDPMGVHTGDSITVAPALTLTDKEYQIMRNASIAVLREIGVETGGSNVQFAVNPKDGRLVVIEMNPRVSRSSALASKATGFPIAKIAAKLAIGYTLDELENDITGGATPASFEPSIDYVVTKIPRFAFEKFPGASPILTTAMKSVGEVMAIGRTFAESLQKALRGMETGLTGLDEIEIPGYEEGEGSKNAIRAAIGTPTPDRLRMVAQALRMGMSEEEVHENSKIDPWFIAQFKAIVDMEARIREHGLPQDAENLRMLKAMGFSDARLASLTSKRPKEVAELRNSLNVRPVFKRIDTCAAEFASPTAYMYSTYEIPFVGAARSEAQVSDRKKVVILGGGPNRIGQGIEFDYCCCHAAFALKDAGFEAIMINCNPETVSTDYDTSDRLYFEPLTAEDVIEIMRAEQEKGELVGVIVQFGGQTPLKLAEALEKNGIPILGTAPDMIDLAEDRDRFQKLLMKLDLAQPNNGIAYSVEQARLVASEIGFPLVVRPSYVLGGRAMQIIHSEGQLQTYLLDTVPGLVPEDIKQRYPNDKTGQINTLLGKNPLLFDSYLTNAVEVDVDALCDGESVFVSGIMEHIEEAGIHSGDSACSLPVRSLSKEIVDELERQTTALAKALNVGGLMNVQYAIKDGTIYVLEVNPRASRTVPFVAKTIGAPIAKIAARVMAGEKLDPAIAAYGEKPDPRNLKHIAVKEAVFPFARFPGVDILLGPEMRSTGEVIGLDTDFALAFAKSQLGAGVDLPRSGAVFVSVRDEDKEGVLPAIRILVESGFKVLATGGTQRFLAEKGINAEKINKVQEGRPHIEDAIRNRQVQLVINTTDSNKAISDSKSLRRATLMQKVPYYTTMAGAEAAALAIKALKAGNLEVKPLQSYFQ	PGPT0021150_276	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021150-carB-K01955	NA	NA
BMS010_01232	822			hypothetical protein	GTGGATCACCCGTCTCTGCAATTCACGCTTCGTGAAATGCACGCCATGCTGCAATCGCGCAGGCTGTGGCTGACATTTCTTGCGGTGCTGGCGATCTTCATCTTGACCGGGCCTTTCGGGACCAGCGAAACCATGAGCTTCGCCGACCGGCTGCTTTACTGGACAATCGTTCAGGCGGGCGCCTGGATGCTCGCCATCTCCTTTTCGGTCATCGCCAAGACGATCCTTGCAGGCCACATCGACAACATGCTGACACGCATGATGATCGGCTCGCTGACGGCAGCACTGCCGATCGGGCTACTGCTCGCCATTACCAATCAGATTTTCTACGGCAAGGAGATGGGTCTCACGCCGGTTCTGAAGAGCAGCCTCTCATCCCTGCCGCTCTGCGCGATCTTCTGCCTGTTGAGTTACCTTACGACCCGCCAGTCCTTCGAAAAGGTGGCGGACGCTGAAACGGACACAAATGCAAATGCAGATAGGGACGTGAAAGGCATCATCCCCTTGCTGGAACGATTGCCGCCGCAAAAGCGCGGAGAATTACTGCGACTATCGGTCCAGGATCATTACACGCAAATCGTCACCACGCGCGGGCAGCAGCTGGTTCTGCTACGTTTTGCCGATGCGCTGAAAGAACTCGGCCAGACGGCGGGTTTACAGGTGCATCGTTCCCACTGGATTGCCGATGCCGACTTTGTCTCCCTGCGCAAACAGGCCGGCCGTCTGCATGTCATGACCAGAGACGGCAGTGAAATCCCCGTCAGCCGCTCTTACAGTGCTGCGGTACAGGCCCGTTTCACCGCACACGCCCCTGCCCGTTAA	MDHPSLQFTLREMHAMLQSRRLWLTFLAVLAIFILTGPFGTSETMSFADRLLYWTIVQAGAWMLAISFSVIAKTILAGHIDNMLTRMMIGSLTAALPIGLLLAITNQIFYGKEMGLTPVLKSSLSSLPLCAIFCLLSYLTTRQSFEKVADAETDTNANADRDVKGIIPLLERLPPQKRGELLRLSVQDHYTQIVTTRGQQLVLLRFADALKELGQTAGLQVHRSHWIADADFVSLRKQAGRLHVMTRDGSEIPVSRSYSAAVQARFTAHAPAR				NA	NA	NA	NA	NA
BMS010_01233	489			hypothetical protein	ATGTCATTCCAGCCTTTGTTAGATGCACCGCTTGCCGTGCAGTTCCATGTCGCCACCGTCGTGCCCGCAGCCCTTCTTGAGGCCTTCATTTTCCTGCGCCCAAAGGGCACCGCCATTCACCGGCTGCTCGGCAAGATCTGGGTGGTGCTGATGGTCGCGACTGCGGCGTCCACCTTCTTCATCCATGAATTGAAGGTGTTTTATGGTTTCAGCCCGATCCATCTGCTTTCCATCTTCACCATCTACGGGTGTCTGCAATCAATCTATTTCGCCCGCCGCGGTGATATCAGACGCCATATGCGGATCATGCAGAGCGTTTATCTCGGCGGCATCGTGATTGCCGGAGGTTTCACCTTCGTTCCCGGCCGCATCATGCATGAGGTCGCTTTTGGTGATGGAAAAGCCGGTTTTGTGGTCCTTTCCGCCGGCGCTCTCCTGTTTGTCGTCCTGTTTCTGACCGTGCTGAAACAAAGACGCAGAGCCGCATGA	MSFQPLLDAPLAVQFHVATVVPAALLEAFIFLRPKGTAIHRLLGKIWVVLMVATAASTFFIHELKVFYGFSPIHLLSIFTIYGCLQSIYFARRGDIRRHMRIMQSVYLGGIVIAGGFTFVPGRIMHEVAFGDGKAGFVVLSAGALLFVVLFLTVLKQRRRAA				NA	NA	NA	NA	NA
BMS010_01234	918			hypothetical protein	ATGGAATGGAGAGGGCGTCGCCAGTCGGACAATATCGAGGATCGGCGCGGCATGTCGGCGGGATCGGGTGATCCTTTTTCCCGCGGCGGTATGCGGGTGCCGATCGGACGTCGCGGCGGCGGCATCGGCATTGGCGGTCTTCTGGTCATTCTGTTGATCAGCTGGGTGCTCGGCATCAACCCGCTAACGCTGCTGACCGGCGGCGATCTGTCGATGGATGGCGGCGGTACGACGCAATCGGGGACCCAGCAGTCCGGCACGCGACCACAGGGACAATCGTCCGACGAGACGACCGCCTTCGTCCGCACCGTCCTTGCCGAGACGGAAGATACATGGAGCGGCATTTTCCAGTCGGCCGGGGAGACCTATCAGAAGCCGACGCTGGTTCTGTTCTCCGGACAGGTGTCTTCCGCCTGTGGTTATGCTTCCGCTGCCAGCGGTCCGTTCTATTGCCCGGGCGACCGCAAGGTCTATCTCGACACCAGCTTCTTCAAGGAACTCGACCAGCGTTTCGGCGCGGCCGGCGATTTCGCGCAAGCTTACGTGATTGCGCATGAGGTCGGCCACCACATCCAGAACCTGACCGGCGTTCTGCCGGAGTTCAACCGCCGCCGTCAGTCGATGAGCCAGACGGACGCCAACAAGATGTCGGTGCGCGTCGAGCTTCAGGCGGATTGTTATGCCGGCATCTGGGGCAAGTTCACCGAGCAGAAGGGTATTCTCGAAACTGGCGACCTCGAGGAAGCGCTGAACGCCGCCCACCAGATCGGCGACGATACGCTGCAGAAGCAGACACAGGGCTATGTGGTGCCTGACAGTTTCAACCACGGCACCTCGGCACAGCGCGCGGAGTGGTTCAAGCGCGGTTTCCAGAGCGGCCGTGTCGAAGATTGCGATACGTTCTCGGCGAATATCTGA	MEWRGRRQSDNIEDRRGMSAGSGDPFSRGGMRVPIGRRGGGIGIGGLLVILLISWVLGINPLTLLTGGDLSMDGGGTTQSGTQQSGTRPQGQSSDETTAFVRTVLAETEDTWSGIFQSAGETYQKPTLVLFSGQVSSACGYASAASGPFYCPGDRKVYLDTSFFKELDQRFGAAGDFAQAYVIAHEVGHHIQNLTGVLPEFNRRRQSMSQTDANKMSVRVELQADCYAGIWGKFTEQKGILETGDLEEALNAAHQIGDDTLQKQTQGYVVPDSFNHGTSAQRAEWFKRGFQSGRVEDCDTFSANI				NA	NA	NA	NA	NA
BMS010_01235	480			hypothetical protein	ATGCTGGAACTGATTTGGCGCGGCATTGCCATGGGCATCGGCGGCACCCTGTTTATGGATATATGGGCGATTGTGCTGCACCGGTTCTTCGGCCAGTCCGCGCCGAACTGGGCGCCGGTCGGCCGCTGGTTCTGGCATGTGCCGAAAGGTACGATATTTCACGACAGCATCGCCACGGCTGAACCCTATGAACATGAACTGGCGCTCGGCTGGATTTCGCATTACGCCGTCGGCATTCTTTATGGCATCGTTCTCGCGCTGGTAGTCCCGGCCGCGTGGTTTGCCAATCCTTCGTTCATTGAGCCTTGGATCGTCGGCATCGTCACGGTCGGCGCGGGCTGGTTCCTGTTGCAGCCGGGGCTCGGCATTGGCTGGGCGGCGTCGAAGACCCCCAACCCGAACAAGGTCCGCTTTCTCAACCTCGTGGCCCATACGGTTTTCGCCCTCGGCATGTATGCCGTGGCGCTTTTGATGCGCTAA	MLELIWRGIAMGIGGTLFMDIWAIVLHRFFGQSAPNWAPVGRWFWHVPKGTIFHDSIATAEPYEHELALGWISHYAVGILYGIVLALVVPAAWFANPSFIEPWIVGIVTVGAGWFLLQPGLGIGWAASKTPNPNKVRFLNLVAHTVFALGMYAVALLMR				NA	NA	NA	NA	NA
BMS010_01236	2091	pctA_1	COG0840	Methyl-accepting chemotaxis protein PctA	TTGCCTAAAAAAACCAATCTCATGACGCGCATTCTCGTTGCTGCGTCATCACTTGTCGTCGCCGCTTTTGCCGGCTTTTCTTTTTACATCGACAGCCTTCAGCACCGCGTCACGACGGAAGCAGTGGCGGAAAATATCGATTCATCCGGCAAACAGGCGGCGCAAAGCATCGCCAACTGGCTGAATGGCCGCATCATGCTGACCGAAACGGTGGCAAAGACGCTGGCCAAGCTTCCGGATAACGAAGCAAAGCTGCATTTTCTGGAAAACGACGTGCTGACGGCACAGTTCATGTCGACCTATTTCGGCAATGCCGACACCGGCAGCTTCACCACCTTCCCGAAAACGCCGCTGCCTGAAGGTTACGATCCGCGCAAGCGCCCGTGGTATCTGGATGCGGTGAAAGCCGGCAAGACGGTTCTGACCGAACCTTACAATGATGCATCGACCGGCGGCCTCATCATCACCGCCGCCATTCCCGTTTCCATCGATGGCAAGCTTGCTGGCGTGACAGGCAGTGACTTCTCGCTGGACTCGCTGGTGAAGATGATCAAGTCGGTGGATGCCGGCGCGGAGGGATATGCATTCCTCGTCAGCAAGGATGGCAAGATACTCATCCATCCCGACCCAAAATTTGTCGACAAGCCGATGGCCGACCTCTTCAAGGTCAATACGCCAGCGATTTCCTCCGCGATCTCCCAGACCGAGATCGACGGCAAGGGCAAGATCACCAGCTTCATTCCGGTCGCCGGCCTGCCCTCGGTCGACTGGTATCTCGGCTTTGTCGTCGATTCCGATGTTGCCTACAGCGCAATCGGCCAGTTCCGGCTGGCGGCAACCATCGCCACGATCCTCGCAGCGACGATCATGATCGGACTTCTCGCAACCGTCCTTTCCCGTTTCATCGTCCGCCCCGTCACGCAGATGACGTCCGCCATGGAAGGCCTTGCCGCGGGTAATCTCGAGGTCGCCATTCCCGGTCAGGAGCGCACCGACCAGATCGGCTCCATGGCCGCAGCCGTTGCCGTGTTCCGTTCGAACGCCATGGAACGACTGCGCCTTGAAGGCGACGCCGAACAGAACCGTACGCTCTCCGAACAGGAGCGCAACGAGCGTGAAAGAACGGCAGCAAAAGACGCGGCGGATATCCAGTTCGCAGTCGATTCACTTGCCCGGGGACTGGCGCATCTTTCCGATGGCGACCTCAATTACCGCATCGACACGCCCTTCGTGACCCGCATCGACCGTCTGCGCGATGATTTCAACAATTCCGTCGCCAAGCTGAACGCAGCCCTCAGCACCGTCGGCCAGAACGCCCTCGCAATCGATGCGGGTGCGGGTGAAATCCGCCAGTCGGCCGATGATCTGGCGCGACGCACCGAACAGCAGGCGGCCTCCGTTGAGGAGACGGCAGCAGCACTCGAGGAAATCACCACAACGGTGAAGGATTCCGCCCGTCGCGCCGAAGAAGTCGGCCGTCTGGTCGACCGCGCCCGCGGCAATGCCGAACAATCCGGCGTCATTGTGGAAGATGCCGTGCGCGCCATGGAAGGTATCGAAAAATCATCGTCCGAGATCAGCAACATCATCGGCGTGATCGACGAAATCGCCTTCCAGACCAACCTTCTGGCGCTGAATGCCGGTGTTGAAGCCGCCCGCGCCGGTGAGGCCGGCAAGGGTTTTGCCGTCGTCGCCCAGGAAGTGCGCGAGCTTGCCCAGCGCTCAGCCAATGCGGCAAAGGAGATCAAGACGCTGATCAACGCCTCGACATCGCAGGTGCAGTCCGGCGTCGAACTCGTCGGCAATGCCGGCAAGGCGCTGGAAACCATCGTCCGCGAAGTGCAGGAGATCAACCGCCATATCGACGCGATCGTCACTGCATCGCGCGAACAGTCGACAGGTCTTCAGGAAATTAACACCGCCATCAATACCATCGATCAGGGCACGCAGCAAAATGCCGCCATGGTCGAGGAACAGACGGCAGCAAGTCATGGCCTCGCCTCGGAAGCGGCGGCGCTCAACGAGTTGCTCGCGCAGTTCCAGCTCGCCACGGCCAGCCGGCGGCAGGCGGAATATGGGCGGGCCGCTTAA	MPKKTNLMTRILVAASSLVVAAFAGFSFYIDSLQHRVTTEAVAENIDSSGKQAAQSIANWLNGRIMLTETVAKTLAKLPDNEAKLHFLENDVLTAQFMSTYFGNADTGSFTTFPKTPLPEGYDPRKRPWYLDAVKAGKTVLTEPYNDASTGGLIITAAIPVSIDGKLAGVTGSDFSLDSLVKMIKSVDAGAEGYAFLVSKDGKILIHPDPKFVDKPMADLFKVNTPAISSAISQTEIDGKGKITSFIPVAGLPSVDWYLGFVVDSDVAYSAIGQFRLAATIATILAATIMIGLLATVLSRFIVRPVTQMTSAMEGLAAGNLEVAIPGQERTDQIGSMAAAVAVFRSNAMERLRLEGDAEQNRTLSEQERNERERTAAKDAADIQFAVDSLARGLAHLSDGDLNYRIDTPFVTRIDRLRDDFNNSVAKLNAALSTVGQNALAIDAGAGEIRQSADDLARRTEQQAASVEETAAALEEITTTVKDSARRAEEVGRLVDRARGNAEQSGVIVEDAVRAMEGIEKSSSEISNIIGVIDEIAFQTNLLALNAGVEAARAGEAGKGFAVVAQEVRELAQRSANAAKEIKTLINASTSQVQSGVELVGNAGKALETIVREVQEINRHIDAIVTASREQSTGLQEINTAINTIDQGTQQNAAMVEEQTAASHGLASEAAALNELLAQFQLATASRRQAEYGRAA	PGPT0015710_4199	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_01237	1398	mdtK_1	COG0534	Multidrug resistance protein MdtK	ATGTCTTCGTCGGTTGTTGCAGGAACCGTTCCGTCCGGATCGGGGTCGTGGTTTTCGCATTTCAAGGCTACGCTTGTACTGGGAATCCCGCTTATCGGCGCGCAGCTCGCGCAGCTTGGCATCCATACCACTGATATGGTCATCGTCGGCCAACTTGGCGCCGAAAAGCTGGCGGCCATGGTGCTGGCCGGACAGTTCTTTTTCGTCGTCTTCATTTTCGGCTCCGGCTTTTCCGTCGCTGTTGTACCAATGGTAGCGCAGGCTTACGGGCAGGGTGATGCGACATCCGCGCGCCGCTCGCTGCGCATGGGCATGTGGGTGGCAATCGCCTATTGGCTGCTTGCATTGCCGATTTTCTTCAATGCCGAGCGCATTCTCATTTCTCTTGGGCAGAACCCCAATGTGGCGGCGCTGACCGGCCATTATCTCGCCATCGCCAAGTTCGGCCTTTTGCCGGCGCTGCTGTTTTATGTCCTGCGCGGGCTTGTCAGCGCCATCGGGCGGGCGGGCATCATTCTTTATGTCACCATCATCATGCTGGTGATGAACGGTGTGCTTGCCTATGCGCTTGTGTTCGGCCATTTCGGATTGCCCGCCATGGGCATGAACGGTGCGGCCGTCGTTGCCGTCATCGTCAACGCCTTCAGCTTCATTTTCATTGTCGCCTATGTGCAGACGCGTGAGGAAACGAAGAGATACGAGCTGTTCGTGCGCTTCTGGCGGCCTGATTGGCACGCGCTTTTCGAAGTGCTGCGTCTTGGTCTGCCGATTAGCATCACCATTCTTGCCGAAGTGACGCTGTTCGCCGCCGCTTCGATCCTGATGGGGCAGATCGGCACCGTCCAGCTTGCGGCGCACGGCATCGCCCTGCAGCTCGCCTCCATCGCCTTCATGATTCCGCTTGGTCTTTCCCAGGCGGCGACGGTTCGTGTGGGCGTGGCGCGGGGGCAGGGAGATTTCAGGAATCTCATCCGTGCTTCTATCATGATTTACGCCATCGCCTGCGGCATCGCCATTTGTGGGGGCATCCTGTTTGCGGCGGTGCCGGAATTTCTGGCGAAGTGGTTCCTCGATCCGAAATTGCCTGAGGCCGCCGAGGTGCTCGCTTATGCCAGCAGCCTTGTGGTGATTGCCGGCATCTTCCAGCTTGTCGATGGTATTCAGGCGGTCACGGCGGGCCTGCTGCGCGGGTTGAAGGACGCCCGCATACCGGCGATGCTGGCGTTGATCTCCTATTGGCCAATCGGCCTGGCGCTCGCCTGGACCATGGCTTTTCCGCTCGGTTTCGGCGGGCGCGGTGTCTGGTTCGGCTTTGTGATCGGTCTTTCGACAGCCGCCGTTCTTCTCACCATCCGCTTCGTGCTGCTTGTGAAGCGTGAAATGAAAACGGCCCGCTGA	MSSSVVAGTVPSGSGSWFSHFKATLVLGIPLIGAQLAQLGIHTTDMVIVGQLGAEKLAAMVLAGQFFFVVFIFGSGFSVAVVPMVAQAYGQGDATSARRSLRMGMWVAIAYWLLALPIFFNAERILISLGQNPNVAALTGHYLAIAKFGLLPALLFYVLRGLVSAIGRAGIILYVTIIMLVMNGVLAYALVFGHFGLPAMGMNGAAVVAVIVNAFSFIFIVAYVQTREETKRYELFVRFWRPDWHALFEVLRLGLPISITILAEVTLFAAASILMGQIGTVQLAAHGIALQLASIAFMIPLGLSQAATVRVGVARGQGDFRNLIRASIMIYAIACGIAICGGILFAAVPEFLAKWFLDPKLPEAAEVLAYASSLVVIAGIFQLVDGIQAVTAGLLRGLKDARIPAMLALISYWPIGLALAWTMAFPLGFGGRGVWFGFVIGLSTAAVLLTIRFVLLVKREMKTAR	PGPT0029115_6141	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029115-TC_MATE|norM|mdtK|dinF-K03327	NA	NA
BMS010_01238	1206	carA_1	COG0505	Carbamoyl-phosphate synthase small chain	ATGACCGAGACAGCGCCCTGGACTACCCGCAAACCGACCGCAATGCTTGTTCTTGCCGATGGCACGGTGATTGAAGGAACGGGCATCGGCGCAACCGGAAAGGTTCAGGCCGAAGTCTGCTTCAACACGGCGCTGACGGGTTACGAGGAAATTCTGACCGATCCTTCCTATCTCGGCCAGATCGTCACCTTCACCTTCCCGCATATCGGCAATGTCGGCACCAATGAGGAAGACATCGAAGACCTGACGCCCGCCGCCCGTCGCGGCGCGGTCGGCGTCATCTTCAAGGCCGATATCACCGATCCCTCGAACTTCCGCGCCGTCAAGCATCTGGATGCCTGGCTGAAGGCCCGTGGCGTCATCGGCCTCTGCGGCATCGACACCCGCGCGCTCACCGCATGGATCCGCGAAAACGGCGCGCCGAACGCGGTGATCGCCCATGACCCGAACGGCGTCTTCGACATCGAAGCGCTGAAGGCGGAAGCCAAGGCATGGAGCGGCCTCGTCGGCCTCGACCTCGCCATCGAAGCCACCTCCGGCCAGTCCTCCACCTGGACGGAAACGCCTTGGGTCTGGAACAAGGGTTACGGCACGCTCGGTGAAGCCGATGCGAAATATCACGTCGTCTGCGTGGATTTCGGTGTGAAGCGCAACATCCTGCGCCTCTTTGCCGGTCTGGATTGCAAGGTCACGGTCGTTCCGGCCCAAACGTCGGCCGAAGACATTCTGGCGCTGAAGCCTGATGGCGTGTTCCTGTCCAACGGTCCGGGAGACCCGGCCGCGACGGGCGAATATGCCGTGCCGGTTATCCAGAACCTCATCAAGAGCGAGCTGCCGATCTTCGGCATCTGCCTCGGTCACCAGATGCTCGGTCTCGCCGTCGGCGCAAAGACCGAAAAGATGCACCAGGGCCACCACGGCGCCAACCACCCGGTCAAGGACTTCACTACCGGCAAGGTGGAAATCGTTTCGATGAACCACGGCTTTGCGGTAGATACCAAGTCGCTGCCCGAGGGCGTCGAAGAGACCCATATCTCGCTGTTCGATGGCACCAATTGCGGCCTGCGCATCGTCGGCAAGCCGGTCTTCTCGGTCCAGCACCATCCGGAAGCATCGCCCGGCCCGCAGGACAGCCACTATCTCTTCCGCCGCTTCGTCAACCTGCTGCGTGAAAAGAAGGGCGAGGCAGCGCTCGCGGAGCGCTGA	MTETAPWTTRKPTAMLVLADGTVIEGTGIGATGKVQAEVCFNTALTGYEEILTDPSYLGQIVTFTFPHIGNVGTNEEDIEDLTPAARRGAVGVIFKADITDPSNFRAVKHLDAWLKARGVIGLCGIDTRALTAWIRENGAPNAVIAHDPNGVFDIEALKAEAKAWSGLVGLDLAIEATSGQSSTWTETPWVWNKGYGTLGEADAKYHVVCVDFGVKRNILRLFAGLDCKVTVVPAQTSAEDILALKPDGVFLSNGPGDPAATGEYAVPVIQNLIKSELPIFGICLGHQMLGLAVGAKTEKMHQGHHGANHPVKDFTTGKVEIVSMNHGFAVDTKSLPEGVEETHISLFDGTNCGLRIVGKPVFSVQHHPEASPGPQDSHYLFRRFVNLLREKKGEAALAER	PGPT0021155_688	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021155-carA-K01956	NA	NA
BMS010_01239	453	yqeY	COG1610	putative protein YqeY	ATGATGCGCGACACGTTCGCAAACGCTTTGAAGGACGCATTGAAGGCTCGTGATGCACGCCGCACCTCGACCGTGCGCCTCATCCAGACCGCCATCAAGGATCGCGATATCGCCAATCGCGGCGTGGGCAAGGACCTCGTCAGCGATGAGGACATCATGCAGATCCTGACCAAGATGGTGAAGCAGCGGGAAGAATCCGCCAATATCTATGAAGGCGCCGGCCGCCCCGAGCTTGCGGCTCAGGAGCGCGAGGAAATCGTCATCATCAAGGAATTCATGCCGGAAGAAATCCCGGCCGAGAAGGTGCGCGAACTCTGCCAGGCCGTCATCACTGAGACCGGCGCGTCCGGCCTGCGCGACATGGGCAAGTGCATGAATGCGCTGAAGGAGCGCTACCCCGGCCAGATCGACTTCGCCAAGGCTTCCGGCGTCGTCAAGGATTTGCTGAAGTAA	MMRDTFANALKDALKARDARRTSTVRLIQTAIKDRDIANRGVGKDLVSDEDIMQILTKMVKQREESANIYEGAGRPELAAQEREEIVIIKEFMPEEIPAEKVRELCQAVITETGASGLRDMGKCMNALKERYPGQIDFAKASGVVKDLLK	PGPT0030490_1305	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TRANSAMIDASE_ACTIVITY	PUTATIVE-TRANSAMIDASE_ACTIVITY-1,PGPT0030490-gatB|yqeY-K09117
BMS010_01240	1986	dnaG_1		DNA primase	ATGCGCTTTTCCAACTCTTTCCTCGATGAGATACGCGACCGCGTGCACATCTCCGATGTGATCGGCCGACGTGTGTCCTGGGACAAGAAGAAGACCAATACGTCGCGCGGGGATTATTGGGCCTGCTGCCCGTTCCATGGTGAGAAAAGCCCGAGCTTCCACTGCGAGGACCGCAAGGGGCGGTATCATTGTTTCGGTTGCGGCGTTTCCGGCGATCACTTCCGCTTTCTGACCGAGCTTGAGGGCCTGAGTTTTCCGGAGGCCGTGCAGCAGATTGCCGATATGGCCGGCATTTCCATGCCGCAGCCCGATCCGCAGGCGGAAAAGCGCGAGCGCGAGCGTACCTCGCTTCAGGACGTCATGGAAATGGCGACGCTGTTCTTTCAGGACCAGTTGCAGACGGCACTCGGTGCGCGGGCGCGGGCTTACCTGCGCGATCGCGGGTTGACCGGGCGCACCATCGAGACTTTCCGGCTGGGTTATGCGCCCGATAGCCGCAATGCGCTGAAAGAGCATCTGGCGAGCAAGGGCGTGACGAAGGAGCAGATGGAGGCCTGCGGGCTGGTGGTGCATGAGAATGTGCCGGTCTCCTACGACCGCTTCCGCGACCGCATCATGTTCCCGATCCTGTCTTCGCGGGAAAAGGTGATCGCTTTCGGCGGCCGCGCCATGGCAGCGGATGCGGTGGCGAAATATCTGAACTCCAACGAAACAGAGCTCTTTCACAAGGGCAATGTTCTCTACAATTTCGCCCGCGCCCGGCGCGCCTCGCAGGCGGCCGGCGGTTCGGTCATCGCCGTCGAAGGCTATATGGATGTCATCGCGCTCTATCAGGCGGGTGTGGAAAATGCCGTCGCGCCGCTCGGCACGGCGCTGACCGAAAGCCAGCTCGATCTCCTCTGGAAAATGTCGCCGCAGCCGATCCTCTGCTTCGATGGCGATGGCGCCGGCATTCGCGCCGCCAACCGTGCGGCCGACCTTGCCCTGCCGCATATCAAGCCGGATCGTTCCGTCAGTTTCGCGCTTCTGCCCGATGGCAAGGATCCAGACGATCTCGTGCGGCTGGAGGGACGCGCGCCTTTCGACCGGGTGCTGTCTGAAGCCAAGCCGCTGGCCGCGATGATCTGGAGCCGCGAGACCTCCGGCGTCACTTTCGATACGCCGGAAAAACGCGCGCAGCTTGAAAGCCGGTTGCGGCAGATCGTGGCCGTTATCGGCGACGAGACAGTGCGCCGTTTTTACCAGCAGGATATGCGCGACAGGCTGAATGGCTTTTTCCAGCCGCGTTTTCAGCAGGGTGGGGCTCAGAACGGCAATTTTCGCCGCAACGGCGCGCAGCCCGCGGGACGCGGTTTCCAGCGCAATGCGCCGGGGCGGGGCGGGGCGATGGCTGCACCAGCCAGCAGCATTTCCGACCGGCTGGCGCAATCGGGTCTCGTCAGGGGCTATCAGACAAAGCCTTCGCTCCGGGAAAGCGTTCTTGCCATCACCATCGTCAACCATCCCGAATTGCTGCTCGAGGAATATGACGAGATCGCCGCTATCGACTACGAAAACCGCGATTTGCAGCGCCTGTGGTCGACGGTGCTGACCTATGCGGCGGAAAGTGCGGCGGATATTTCGCGGGCGGGGCTGATCGAGCGCCTGTCACAGCAGGGTTTCGAGGTGCTTTTGAAGGCCATGGACCAGCAGGTGCGCAATGCCCGCCTGTGGACGGCGACGGAGCAGGCGGCGATGGAGGATGCGCGCGAGGGTTATGTGCAGGCGCTTTCCCTGCATAAGAGGACGAAATCCCTGCTCTGGCAGAAAAAGGAACTGGAGCGGGAAATCGCCGAGGCGACGGATGACGAACGCGGTACATTGCTGGTGCGGGCGCTGGCCGAAGTGCAGCTGGAAATCGGCCGTATGGAAAATCAGGAGGCGATCATCGATGGTTTCGGGGTCATGTCCGGCCGGGTGAAGGGGCCGGCCGTCGGCCATGGCTGA	MRFSNSFLDEIRDRVHISDVIGRRVSWDKKKTNTSRGDYWACCPFHGEKSPSFHCEDRKGRYHCFGCGVSGDHFRFLTELEGLSFPEAVQQIADMAGISMPQPDPQAEKRERERTSLQDVMEMATLFFQDQLQTALGARARAYLRDRGLTGRTIETFRLGYAPDSRNALKEHLASKGVTKEQMEACGLVVHENVPVSYDRFRDRIMFPILSSREKVIAFGGRAMAADAVAKYLNSNETELFHKGNVLYNFARARRASQAAGGSVIAVEGYMDVIALYQAGVENAVAPLGTALTESQLDLLWKMSPQPILCFDGDGAGIRAANRAADLALPHIKPDRSVSFALLPDGKDPDDLVRLEGRAPFDRVLSEAKPLAAMIWSRETSGVTFDTPEKRAQLESRLRQIVAVIGDETVRRFYQQDMRDRLNGFFQPRFQQGGAQNGNFRRNGAQPAGRGFQRNAPGRGGAMAAPASSISDRLAQSGLVRGYQTKPSLRESVLAITIVNHPELLLEEYDEIAAIDYENRDLQRLWSTVLTYAAESAADISRAGLIERLSQQGFEVLLKAMDQQVRNARLWTATEQAAMEDAREGYVQALSLHKRTKSLLWQKKELEREIAEATDDERGTLLVRALAEVQLEIGRMENQEAIIDGFGVMSGRVKGPAVGHG				NA	NA	NA	NA	NA
BMS010_01241	2055	rpoD_1	COG0568	RNA polymerase sigma factor RpoD	ATGGCAACCAAAGTCAAAGAAAACGAAGAAGCAGAAAACGAACGCGACGGTGCGACGGACGGCCCGCTTCTCGACCTTTCGGATGACGCGGTCAAGAAAATGATCAAGGCCGCCAAGAAGCGCGGCTATGTGACGATGGACGAGCTGAATTCCGTCCTGCCGTCTGAAGAGGTGACCTCCGAGCAGATCGAGGACACGATGGCGATGCTGTCCGATATGGGCATCAACGTGATCGAGGACGAGGACGCCGAGGAAGCCGCCAGCAGCGACGACGACAGCGATTCCGATAGCGACGATTCCGAGGGCGGGGAACTTGCCCCTTCCGGCGGCACCGCGCTTGCGACCGCCAAGAAGAAAGAACCGACCGACCGTACCGACGACCCGGTGCGCATGTATCTGCGCGAAATGGGTTCCGTGGAGCTTCTGTCGCGCGAAGGCGAAATCGCCATCGCCAAGCGTATCGAGGCCGGCCGCGAAACGATGATTTCGGGCCTGTGCGAAAGCCCGCTGACGTTCCAGGCGCTGATTATCTGGCGCGACGAACTCAACGAAGGCACGACGCTGCTGCGTGAGATCATCGATCTCGAAACCACCTATTCCGGTCCGGAAGCCAAGGCGGCTCCCCAGTTCCAGAGCCCGGAAAAGATCGAAGCGGACCGCAAGGCCGCTGAAGAGAAGGAAAAGACCCGCAAGCTGCGTGCGCCGACCGGCGACGAGGATGTGACGGATGTGGGCGGCGATGGCCTTCCGCCGGAAGAGGAAGAAGAGGACGACGACGAGTCCAATCTTTCGCTCGCCGCGATGGAAGCCGAGCTGCGCCCGCAGGTCATGGAAACGCTCGATACCATCGCTGACACCTATAAGAAGCTGCGCAAGCTTCAGGATCAGCAGGTTGAAGCGCGTCTTGCCTGCACCGGCACCCTGTCTTCCGGTCAGGAGCGTCGTTACAAGGAACTGAAGGATCAGCTGATCACGGCCGTCAAGTCGCTGTCGCTGAACCAGAACCGTATCGACAGCCTTGTCGAGCAGCTCTACGACATTTCCAAGCGCCTGATGCAGAACGAAGGCCGGCTGCTGCGCCTTGCCGAGTCCTATGGCGTCAAGCGCGACAGCTTCCTTGAGCAGTATCACGGTGCGGAACTCGATCCGAACTGGATGAAGTCGATTGCCAATCTGGCCGCGCGCGGCTGGAAGGAATTCGCCCGCGAGGAAAGCAACACGATCCGGGAAATCCGTCAGGAAATCCAGAACCTCTCCACGGAAACCGGCATTTCCATCGCCGAATTCCGCCGCATCGTTTCGATGGTGCAGAAGGGTGAGCGCGAAGCGCGCATCGCCAAGAAGGAGATGGTCGAGGCCAACCTGCGTCTGGTGATCTCGATTGCGAAGAAATACACCAACCGTGGTCTGCAGTTCCTCGATCTCATTCAGGAAGGCAATATCGGCTTGATGAAGGCGGTCGACAAGTTCGAATACCGTCGCGGTTACAAGTTCTCGACCTATGCGACCTGGTGGATCAGGCAGGCGATCACCCGTTCGATTGCCGACCAGGCCCGCACGATCCGTATTCCGGTGCATATGATCGAAACGATCAACAAGATCGTTCGCACCTCGCGCCAGATGCTGCACGAGATCGGGCGCGAGCCGACCCCGGAAGAGCTGGCCGAAAAGCTCGCCATGCCGCTGGAAAAGGTGCGCAAGGTTCTGAAGATCGCCAAGGAGCCGATCTCGCTCGAAACCCCCGTGGGTGACGAAGAGGATTCGCATCTCGGTGACTTCATCGAGGACAAGAATGCGCTGCTGCCTATCGACGCCGCCATTCAGGCGAACCTGCGCGAGACGACCACCCGCGTATTGGCCTCGCTGACGCCGCGTGAAGAACGCGTTCTGCGCATGCGCTTCGGCATCGGCATGAACACGGACCATACGCTGGAAGAAGTCGGCCAGCAGTTCTCGGTCACGCGCGAACGTATCCGTCAGATTGAGGCGAAGGCGCTGCGCAAGCTGAAGCATCCGAGCCGCTCCAGAAAGCTGCGCAGCTTCCTCGACAGCTAA	MATKVKENEEAENERDGATDGPLLDLSDDAVKKMIKAAKKRGYVTMDELNSVLPSEEVTSEQIEDTMAMLSDMGINVIEDEDAEEAASSDDDSDSDSDDSEGGELAPSGGTALATAKKKEPTDRTDDPVRMYLREMGSVELLSREGEIAIAKRIEAGRETMISGLCESPLTFQALIIWRDELNEGTTLLREIIDLETTYSGPEAKAAPQFQSPEKIEADRKAAEEKEKTRKLRAPTGDEDVTDVGGDGLPPEEEEEDDDESNLSLAAMEAELRPQVMETLDTIADTYKKLRKLQDQQVEARLACTGTLSSGQERRYKELKDQLITAVKSLSLNQNRIDSLVEQLYDISKRLMQNEGRLLRLAESYGVKRDSFLEQYHGAELDPNWMKSIANLAARGWKEFAREESNTIREIRQEIQNLSTETGISIAEFRRIVSMVQKGEREARIAKKEMVEANLRLVISIAKKYTNRGLQFLDLIQEGNIGLMKAVDKFEYRRGYKFSTYATWWIRQAITRSIADQARTIRIPVHMIETINKIVRTSRQMLHEIGREPTPEELAEKLAMPLEKVRKVLKIAKEPISLETPVGDEEDSHLGDFIEDKNALLPIDAAIQANLRETTTRVLASLTPREERVLRMRFGIGMNTDHTLEEVGQQFSVTRERIRQIEAKALRKLKHPSRSRKLRSFLDS				NA	NA	NA	NA	NA
BMS010_01242	918			hypothetical protein	GTGCCCGTCTCCGTGCTGCTGCATCTTGCCGTCGTCGCGCTTTTCTTTTTCGAGCTGCCGGAGCGGATAGCCGAGCCGCAGGAGCCGGAAAGCATCAGCGTCGATCTGGTGCCGCCGCCCGAGGAGAAAAAGGCGGAAGAGGCCCCGCCGCCGGGTGAAGAGAAGGCGAAAGAGGAAAAGCCGCAACCCCCGCCGCCGCCCGCTCCTCCAGCGGAAGAGGCGAAACCTTTGCCGCCGCCGCAGGCGACGTTGCCGGCCATCGCCATGAGGCCCGAGGAAGCGCAGGCGGACCCTGAGGACAAGCCGGGCAAGACGGAGGAAGTGGAAAAGACCGAGCCTTCCGCGGAGCCTGCTAGCCAGCCTGAAAAAACGGCGGAGGAAAAGCCCGCAGCTCCTGCCGCCAACAGCGATCTTCAGGCTTCCGCCGCGCAGGGGGAGATCGCGGTTTCACCCGTGAAGGAAGAAGCGCAGCCCGATCAGCCGCCAGTGCCGCAGGCCAAGCCGACTGAGGAAAAGCCGGCGGAAGTGACGGAAAAGAAGCCCGCGAAACTTCCGGCGGCCAAAAACCTCCTGTCTTCGTCGATGCTGTCACCGGCCCAGAGACGCCAGATGTTTGGCGATCTGCCACCGCGTCGCCGTGTCGTTCAGCTTTGCAGCACCGAAGCCCTGGCCCAGATTCAAGGCGCGGGATTTGCCGCCAGGGGCATGATCCCCTACTCGGACACGGGCGGCAGGATTTCCGGTAATTCGATCGATGCTTCCGGCGGCGCGTTCAACACGGGCAGTGGCTGGCATGACGTCTCGTTCCAGTGCGAAGTCGATCTGGAAAATTACACGGTGACGGAGTTCCGGTTTAAAATCGGAAATGAGGTCAGCCCGGAAGACGCGAAAAAGCGGGGCTTTACGAGATTTCAGTGA	MPVSVLLHLAVVALFFFELPERIAEPQEPESISVDLVPPPEEKKAEEAPPPGEEKAKEEKPQPPPPPAPPAEEAKPLPPPQATLPAIAMRPEEAQADPEDKPGKTEEVEKTEPSAEPASQPEKTAEEKPAAPAANSDLQASAAQGEIAVSPVKEEAQPDQPPVPQAKPTEEKPAEVTEKKPAKLPAAKNLLSSSMLSPAQRRQMFGDLPPRRRVVQLCSTEALAQIQGAGFAARGMIPYSDTGGRISGNSIDASGGAFNTGSGWHDVSFQCEVDLENYTVTEFRFKIGNEVSPEDAKKRGFTRFQ				NA	NA	NA	NA	NA
BMS010_01243	2553			hypothetical protein	ATGGCCCCCAGTGACTATCATGTCGACCTGACCAATTGCGACCGCGAACCCATCCACATCCCAGGCTATATTCAACCGCATGGCTGTCTCATCGCCTGCGACAACGCCATGCGCATGGTGCTGCGGCATTCTGAAAACTGCCGCGAACTGCTGGGCGTCGAAGGCGATATCAATGGCAGGACCGCCGAAGAGGTGCTCGGCAAAAAACTCGTCCACGATCTTCGCAATGCGCTCACCGTCACTGGCAGAACCACGCGTCCCGCCATGCTGCCCGCCATGGAAATGAGCGACGGCCGCAGCTTCGATATTGCCCTGCATCGCTACAAATCCACCACGATCATCGAATTCGAGCCCTCGCGCAGCGAAACGCAGCCGCTGGGCACCGCCCGCAAGATGGTGGACCGCATCCGCGAGGCGGACAGCATCGAAAGCCTGATCTCCAGAACGACACGGCTGATAAAGGCGACGCTCGGTTACGACCGGGTGATGATCTATCGTTTCGAGGAAGACGGCGCCGGCAAGGTCGTGTCGGAAGCGAAGCAGCCGGAGCTGGAAAGCTTTCTCGGTCAATATTTCCCCGCCAGCGACATACCCCAGCAGGCCCGCGCGCTCTATCTCAAGAACACACTACGCATCATCTCCGATGCCAGCGGCGCCCGGGTCTCCGTCCTTCCGGCGCTCGACGCATCGGGCGAACCTCTCGATATGTCCTTTGCCCATCTGCGCAGCGTCTCGCCCATCCATTGCGAATATCTTCGCAACATGGGTGTTGCGGCTTCCATGTCGATTTCGGTGATTGTCGACGGTGCGCTCTGGGGCCTCATCGCCTGTCATCATTATTCCCCGCGCGTGCTGACGATGCCGGTCCGGATCGCCGCTGAAATGTTCGGAGAATTTTTCTCCATGCATTTGCAGGTTCTAAAGCAGAAGCGCAGGCTCGATACCGTCAACCACGCCCACGCCGCGCTCGACCGCTTCCTTCGGCTTGCCGCCCATCACGCCAACATCGAAGAACTGCTGATCGACAGCTTTCAGGATTTTGCCGATCTGATGCCCTGCGATGGCGTCGGCCTGTGGGTGGGAAACAACTGGCACGGCCAGGGTGCAACGCCGCCGCATGACGCCATTCCAAGGCTGGCGCGCTTCGTCGCCTCGGCTTCAGAAGGCAGGGTCTGGGCAACGCACGCGCTGTCGCAGGCCATACCGGAGGCGGAAATCTATGCCGGCACCGCAGCCGGAATGCTCGCCATTCCACTCTCGCAGGTGAAGAACGACTATCTTCTGTTTTTCCGCAAGGAGATCGTGCAGAACCTGAACTGGGCAGGAAATCCGGAAAAATCCTATGAAACCGGTCCGATGGGGGATCGTCTCACGCCGCGCAAAAGCTTTGCAATCTGGAAAGAGACGGTGCGCTGGCAGGCTCAGCCCTGGTCGGAAGACGACCGGGAAATCGCCGAAGCGGCGAGGATTGCGCTGGTCGAGGTCGCATTCCATCACAGCGAGCTGATGGCGGGCGAAAGGGAGCGAGCGGAAGTGCGCCAGCGCATGCTGAACGAGGAGCTTAATCACCGCGTCAAGAATGTTCTGGCCATCATCAAATCGCTGGTCGGCAATCCCTCGCAGGACGGCAAGACCCTGCAGGAATATGTGACTGCCCTGAAGGGCCGCATTCAGGCATTGTCCTTTGCCCATGACCAGATCATTCGCGGTGAAGGCGGCGGCGCGCTTCGCGATCTTCTGGATGCCGAGCTTTCGCCGCATCGCTCGCCGGAAACCGTTGTGAAACTGACCGGCCCGCAGGTCACGCTCGATTCGCGCGCTTTCTCCGTCATGGCTCTTGTTTTGCATGAGCTGGCCACGAACGCCGCCAAATACGGTGCGCTTTCGCAAAATGGCGGGCAATTGCATGTGCGCTGGACCATCGACGAGAACCGCGATTGCGAGATTGAGTGGCGCGAAATCCTGCCCACCAAACTGCCCCCGCCCTCGCGCGCGGGCTTCGGCACCGCACTCATCAGCCGCAGCATCCCATACGATCTCGGCGGGCGCAGCACGATACGCTATTTGCCCGATGGGCTGGAGGCGGAAATTCTCCTGCCCTCCCGTCACGTTTCTTCGGCCATGGCAGTCGCCGACACGCAAACCGAAGATGAAACCGCGCCACAGCCCAGGCGCTATAACCGGGAGGAGCCGTTGAAAGTATTACTCGTCGAAGACCAGATGCTGATCGCCATGGATGTCGAGAACATGCTGGAAGACAACGGCATCAAGGCAATCGAAACGGCAACCTCGTCGGCAATGGCCATTGAAAAGCTGAAGACCTATCTGCCGGATGTCGCCATTCTCGACATCAATCTCGGCTCCGATACATCGATCCCCGTCGCCCGGGAACTCCACCGCCGCGGCATCCCCTTCCTCTTCGCCACCGGTTATGCTGATGGCAGCATGGTGCCGGATGAATTCGGCACCGTGCCGGTGATCAGGAAGCCCTATGATGAGGATGCGCTGATGGCGGGCATCGGGCTGCTGGTGGGGGATGCGGAGCGGGTTTAG	MAPSDYHVDLTNCDREPIHIPGYIQPHGCLIACDNAMRMVLRHSENCRELLGVEGDINGRTAEEVLGKKLVHDLRNALTVTGRTTRPAMLPAMEMSDGRSFDIALHRYKSTTIIEFEPSRSETQPLGTARKMVDRIREADSIESLISRTTRLIKATLGYDRVMIYRFEEDGAGKVVSEAKQPELESFLGQYFPASDIPQQARALYLKNTLRIISDASGARVSVLPALDASGEPLDMSFAHLRSVSPIHCEYLRNMGVAASMSISVIVDGALWGLIACHHYSPRVLTMPVRIAAEMFGEFFSMHLQVLKQKRRLDTVNHAHAALDRFLRLAAHHANIEELLIDSFQDFADLMPCDGVGLWVGNNWHGQGATPPHDAIPRLARFVASASEGRVWATHALSQAIPEAEIYAGTAAGMLAIPLSQVKNDYLLFFRKEIVQNLNWAGNPEKSYETGPMGDRLTPRKSFAIWKETVRWQAQPWSEDDREIAEAARIALVEVAFHHSELMAGERERAEVRQRMLNEELNHRVKNVLAIIKSLVGNPSQDGKTLQEYVTALKGRIQALSFAHDQIIRGEGGGALRDLLDAELSPHRSPETVVKLTGPQVTLDSRAFSVMALVLHELATNAAKYGALSQNGGQLHVRWTIDENRDCEIEWREILPTKLPPPSRAGFGTALISRSIPYDLGGRSTIRYLPDGLEAEILLPSRHVSSAMAVADTQTEDETAPQPRRYNREEPLKVLLVEDQMLIAMDVENMLEDNGIKAIETATSSAMAIEKLKTYLPDVAILDINLGSDTSIPVARELHRRGIPFLFATGYADGSMVPDEFGTVPVIRKPYDEDALMAGIGLLVGDAERV				NA	NA	NA	NA	NA
BMS010_01244	423			hypothetical protein	GTGCCGCAGAGAAAAATCATAGTCGCCACCCGGGGGCAGGGTCTTTATGAATTCACATCCGAGGCCAAGGCATTCGTCAGCCAAGCCGGCTTGGAAGAAGGCCTGCTGACGATCTTCGTCCGGCACACATCCTGCTCGCTGCTTATCCAGGAAAATGCCGATCCCGATGTGCGGCGCGATCTCACGATGTTTTTCTCCCGTCTCGTGCCGCCTTCGGACGATCCTTCCATGCGCTGGATCATCCACACGCTCGAAGGCCCCGACGATATGCCCGCTCATATCAAATCGGCGCTCACCACGGTTTCCATCGGCGTGCCGATCAGCGATGGCAGGCTCGTGCTCGGCACCTGGCAGGGCCTTTATCTTTTCGAACACCGCGATGAGCCGCATCGACGCGAAATCGTGCTGCATATCTCGCCGTGA	MPQRKIIVATRGQGLYEFTSEAKAFVSQAGLEEGLLTIFVRHTSCSLLIQENADPDVRRDLTMFFSRLVPPSDDPSMRWIIHTLEGPDDMPAHIKSALTTVSIGVPISDGRLVLGTWQGLYLFEHRDEPHRREIVLHISP				NA	NA	NA	NA	NA
BMS010_01245	336			hypothetical protein	ATGTTCAGCACCTTCGCAAAAGCCGGCCTGGCTGCCCTCATCGCCCTCGGTGGAATTTCCTTCACTGCGCCGGCGGCTTCCGCTGGCTCGGATGTTCAGTTCAGAGTTCAGGTTCAGGATGGCTATGGCCATCGTCCCGGCTGGGGTCGCCCGGATCGCCCGCGCCGTGGCTGCTCGCCCTGGCTGGCGGAAGAAAAAGCGAGCCGCATGGGCCTTCGCCGCGCCCGCGTGGTTGATGTATCGCCGCGCCGTGTCGTTGTGGCAGGCTTCAACCGTTACGGCCGCGACCGCGTCGTTTTCGCCAATGAGCGCGGCTGCCCCGTCATCCGCCGCTAA	MFSTFAKAGLAALIALGGISFTAPAASAGSDVQFRVQVQDGYGHRPGWGRPDRPRRGCSPWLAEEKASRMGLRRARVVDVSPRRVVVAGFNRYGRDRVVFANERGCPVIRR				NA	NA	NA	NA	NA
BMS010_01246	744		COG2968	26 kDa periplasmic immunogenic protein	ATGAAGACAAAAACGGCCCGCCTTTTCGCACTCACCGCAATGACCGCAGCAGCCATGATGCCGCTCGCCGCCCAGGTGTCTGCGCAGGAGGCTACTCCTCGCGAAGCCACCATCAGTGTTTCCGGTGAGGGCCAGTCGGCCATTGCCCCCGACATGGCGATCCTGTCCTTCAGCGTCGTCAAGCAGGCGGAGACCGCGGCTGCGGCGCTGACCGAAAACTCCAAGGCGCTTGCCGATGTTCTGAAGGCGCTGAAAGAGGCCGCCATCGAGGAGCGCGACCTGCAGACCAGCAATTTCTCGGTGCAGCCGCTCTACAAGCACTATGAACCCAAGGATGGTGTCTATGTCGCGCCCGAGATCACCGGCTATCAGGTGTCCAACGGCCTGACTGTGCGGGTGCGCGACCTGAAAAAGCTCGGCACGATCCTCGATACATCCGTCAAGCTCGGCATCAACCAGGGCGGCGAAATCACCTTCACCAATGACAAGCCCGAAGCGACGGTGACCGAGGCCCGCAAGCTGGCCGTTGCCGATGCGCTGGCCAAGGCGAAGACGCTGACGGAAGCTGCAGGCGTGAAGCTTGGCCGGGTCATTCAGATCAGCGAAAACTCGCAGCGCCCGATGCCGGTACCGGCGGGCGCGATGCGCGCTTCGATGATGAAGGAAGCCGACAGCGTTCCGATCGCTTCGGGCGAGAACAACTACAGCGTGGTGGTCAACGTCACCTTCGCTCTCGAGCAATAA	MKTKTARLFALTAMTAAAMMPLAAQVSAQEATPREATISVSGEGQSAIAPDMAILSFSVVKQAETAAAALTENSKALADVLKALKEAAIEERDLQTSNFSVQPLYKHYEPKDGVYVAPEITGYQVSNGLTVRVRDLKKLGTILDTSVKLGINQGGEITFTNDKPEATVTEARKLAVADALAKAKTLTEAAGVKLGRVIQISENSQRPMPVPAGAMRASMMKEADSVPIASGENNYSVVVNVTFALEQ	PGPT0012980_697	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012980-yggE-K09807	NA	NA
BMS010_01248	372			hypothetical protein	ATGAAAAAGATAATTCTTTCCACTATTGCCGCGCTAGTCGCCACCGGCAGCATTTTTGCATCCTATGGCAGCGCTGCCGCACAGGACTATCCCTATCGCCCGCGCTATGACCGTGGCTACGACCGCGGCGGCCCACCCCCGCCGCCCTACCGCGAACACCGCCGCCACAATGACGGCGCAGCGATTGCCGGCGGCCTCGCCGCAGGCGTGATCGGCGGCCTGATCGGCGGCGCCATCGCCAATAGCAATAACGGCCCGCGCTACTACGAGCCGCCACCGCCGCCCCGCCCGCGCTGCTGGTTCGAAGACCGCCGCGTTCCCAATTCCTATGACGGCGGCTGGCATACGGAAAGTATGCGGGTCTGCAACTGA	MKKIILSTIAALVATGSIFASYGSAAAQDYPYRPRYDRGYDRGGPPPPPYREHRRHNDGAAIAGGLAAGVIGGLIGGAIANSNNGPRYYEPPPPPRPRCWFEDRRVPNSYDGGWHTESMRVCN				NA	NA	NA	NA	NA
BMS010_01249	633			hypothetical protein	ATGAAAACGCTGATCGTAACGTCACTTCTGGCTCTTTCCGCCAGCACCGCAATGGCCGCGGATGCCGTCTACGAAACGCCGGCACCTCCGGTCGCGCAGGAAACCCTGCCGGTCTTCACCTGGTCTGGCCCCTATCTTGGTATCCAAGGCGGCGCTGGCTGGGCGAATGGCGATTTTTCGGCGGGCGGCCCAGTCGCTTCGGATAATTTCAATGGCGGCATTCTGGGTGCCTTTGCCGGTTACAATTACCAGTTCGACAATAACTTCGTCGTCGGCATCGAAGGTGACGTCGATTATAACTGGAACGACAATGACTATGCCGGTGTGCAGATCGGCACCGACTGGCAGGGCTCCGTCCGTGGCCGCGTCGGTTATGCCTTCGACCATGCCCTGCTCTATGCCACCGCCGGCTGGACCGCGACACGCGGCTTCATCGAAACGCCCGGCGCTGGCAAGGACAGCACCACCTTCAACGGCTATACCGTTGGCGCGGGTCTGGACTATGCCTTCACCGACAATGTGTTCGGCAGGCTGGAATACCGCTACAACGACTATAGCGACAAGGACATCTTCGGCATCAACACCGATGTCGACCAGCACACTGTAAAGGTCGGTCTCGGCGTGAAGTTCTGA	MKTLIVTSLLALSASTAMAADAVYETPAPPVAQETLPVFTWSGPYLGIQGGAGWANGDFSAGGPVASDNFNGGILGAFAGYNYQFDNNFVVGIEGDVDYNWNDNDYAGVQIGTDWQGSVRGRVGYAFDHALLYATAGWTATRGFIETPGAGKDSTTFNGYTVGAGLDYAFTDNVFGRLEYRYNDYSDKDIFGINTDVDQHTVKVGLGVKF				NA	NA	NA	NA	NA
BMS010_01250	453			hypothetical protein	GTGATTGTCGGAGCCGTTCTCAGCGCCATTCTTCTTCTCACCCTCATTGCATTTCCGCGGCATCTCAAATCCGTCGTTGTCTGCCTGTTGTTGATCTGGACGGCCACCGCCGCCTTTGTGATTTATGACTGGTGGCGCGGCAACCAGCGGCTCGACCATATCGTCGCGAGCGCCGGATTCGATGCGTCCTGCCCGGATGCGGCATTGCCGATCCGCGTCAGCTTCCGCAACGACAATAATGTCGCCGTACAGCGGCTGACCTATACGCTCGAAGGGTTCGAACCGGCCTTCCGTGCCTCCGTTTCCTTCGATCCCTATCAGGTGAGCGAAAGACGGATCGAGGCCGGGGAGACTTTCTCGGCCTGCCGGGCGTTCCGGATGCGCAACAATGAAAGGGTTGAGCCGCAACGGCTGGAATGGCGCGTCACCGTCATTTCCGCGGAATTCGACTGA	MIVGAVLSAILLLTLIAFPRHLKSVVVCLLLIWTATAAFVIYDWWRGNQRLDHIVASAGFDASCPDAALPIRVSFRNDNNVAVQRLTYTLEGFEPAFRASVSFDPYQVSERRIEAGETFSACRAFRMRNNERVEPQRLEWRVTVISAEFD				NA	NA	NA	NA	NA
BMS010_01251	579			hypothetical protein	ATGTCGCGGGTTGATGTTTTGCGTATTGTTCTGAAGTTTCTGAAAATAACCGCCATCGGCCTTGTCGCCCTGCCGGTTCTGGCGGGTGCGCATATGGGCATCGGCCAGCTCACCGGAAATTTTCACGAAGTCATTCCCGGAGAGCTTTACCGTTCGGCCCAGCCGAGCGGTAAGGACATCACGGCCTATGCCAAGGCTTATGGCATCAAGACAATCATCAACCTGCGCGATGAAAAGCGTGAAGGCTGGTACGATGCCGAAAGCCTTGCGGCCAGGAACAACGGCATCCGGCTTGTGGATTATCCGCTGAGTTCAAGCGAAAAGGTCTCGGTGGACGATTCGGAAACGCTGGCGGCCGTGCTGCGCAATGCGGAAAAACCTGTTCTCATCCATTGCGAACATGGCGCCAACCGCACCGGGCTCGCCTCCGCCATCTATGTGGCTGCCGTGGCCGGCAAGAGCGAGGCGGTCGCAGAATTTCAGCTTTCCCCCTATTACGGGCATGTGCCGATCCCCGGTATCGGGCGTTATGAAATGTACCAGTCCTGGGATGATTTCGAGGAAACCATCGGGTTTTGA	MSRVDVLRIVLKFLKITAIGLVALPVLAGAHMGIGQLTGNFHEVIPGELYRSAQPSGKDITAYAKAYGIKTIINLRDEKREGWYDAESLAARNNGIRLVDYPLSSSEKVSVDDSETLAAVLRNAEKPVLIHCEHGANRTGLASAIYVAAVAGKSEAVAEFQLSPYYGHVPIPGIGRYEMYQSWDDFEETIGF				NA	NA	NA	NA	NA
BMS010_01252	1248	yihS	COG2942	Sulfoquinovose isomerase	ATGCCCGAGGACGATCACAACAGCCGCAACTGGAACACCCTGCCCTGGCATCGCCAATGGCTGGTAAAACAGGCCGAGGGACTTTTCGATTTCTTCCAGTATCGTGCCCTCAACCCTGCCGGCGGCTTCTTCGATCTCGATGCCAAAGGCGCGCCGTTGCAGCCAAACGACCCCGTGCGCGGCATCCATGCTTCGGCCCGCATGGTGCATTGCTTCTCCATCGGCCACTTGCTTGGCCGTCCGGGCTGCGGCGATATCGTCGATCACGGCATGACCTACCTCTGGAACAGGCACCGCGATGGCGAGCATGGCGGTTATTTCTGGCAGGTGAACGATGCCGGCCCAGTGGACGCCACCAAGCAGGGTTATGGCCATGCCTTTGTGCTTCTGGCCGCCTCTTCCGCCAAGACCGTCGGCCACCCACTGGCCGACAAGATGCTGGCCGATATTACCGAGGTTCTGGAAACCCGCTTCTGGGAAGAAAAACACGGCGCCATCGCCGAGGAATTCCATCGCGACTGGTCGCCCATCGAGAATTACCGCGGCCAGAACTCAAACATGCACCTGACCGAAGCGCTGATGGCGGCCTATGAGGTTATCGGCGACAATAGCTACCTCAGCAAGGCGGAGCGCATCGCCGATCTCGTCATCCGCCGTCGCGCCGGCGAGCTGGACTTCCGTGTACCGGAGCATTTCGATGAGAACTGGACACTCGACAAGGAGTATCGCGGCAACGAAATGTTCCGCCCCTCCGGCTCCACCCCCGGCCACTGGCTGGAATGGGCGCGCCTCATCCTGCAATTATGGGTGCTGGGCGAGCGCCGCCATGACTGGATGCCGGTGGCCGCGAAATCGCTGTTCGTGCAATCCATGGCGCTCGGCTGGGACCGGGAAAAGGGCGGCTTCTTTTATACGCTCGACTGGAACGACAATCCCGACAAGCGGTCAAAGCTCTGGTGGCCCATGTCCGAGGCGGCGGGCGCTGCCCACTTCCTCAACGAGAACCTGCCGGCGGACAACTTCTATGAAGACAGCTATCGCCGCATCTGGAGCACCATCGCCAACAATTTCATCGACCATGAGAATGGCGGCTGGCACGAGGAGCTGACGGAAGATCTGGTTCCCGCCCACACGCTGTTCCCCGGCAAGGGCGATATCTATCACGCGCTGCAGGCCTGCCTCATCCCGCTTTTCCCGGCGACGGGAAGCCTGACGAAGGTGATCAGGGAAAGTGGCGGGGATTATTGA	MPEDDHNSRNWNTLPWHRQWLVKQAEGLFDFFQYRALNPAGGFFDLDAKGAPLQPNDPVRGIHASARMVHCFSIGHLLGRPGCGDIVDHGMTYLWNRHRDGEHGGYFWQVNDAGPVDATKQGYGHAFVLLAASSAKTVGHPLADKMLADITEVLETRFWEEKHGAIAEEFHRDWSPIENYRGQNSNMHLTEALMAAYEVIGDNSYLSKAERIADLVIRRRAGELDFRVPEHFDENWTLDKEYRGNEMFRPSGSTPGHWLEWARLILQLWVLGERRHDWMPVAAKSLFVQSMALGWDREKGGFFYTLDWNDNPDKRSKLWWPMSEAAGAAHFLNENLPADNFYEDSYRRIWSTIANNFIDHENGGWHEELTEDLVPAHTLFPGKGDIYHALQACLIPLFPATGSLTKVIRESGGDY				NA	NA	NA	NA	NA
BMS010_01253	3774	metH_1	COG0646	Methionine synthase	GTGTTTGACGATCTGTTCGGCCCTGAAGGGGCAAAGCGTGACGGCGCGGAAATTTTCAAGGCGTTGCGCGATGCCGCCAGCGAACGCATCCTCATTCTCGATGGCGCCATGGGCACGCAGATCCAGGGGCTGGGTTTTGACGAAGACCATTTTCGTGGCGATCGTTTTATCGGCTGTGCCTGTCACCAGAAGGGCAATAACGACCTTCTGATCCTGACCCAGCCTGATGCCATCGAAGACATCCATTACCGCTACGCCATGGCGGGTGCGGATATTCTCGAAACCAACACGTTTTCGTCGACGCGTATCGCGCAGGCCGATTACGAGATGGAAAACGCCGTCTACGACCTTAACCGCGAGGGTGCCGCGATTGTCCGCCGTGCCGCCCAGCGCGCCGAGCGGGAAGATGGCCGCCGCCGTTTCGTGGCGGGCGCCATCGGCCCGACCAACCGCACGGCCTCCATTTCGCCTGACGTCAACAATCCCGGTTACCGCGCCGTCAGTTTCGACGACCTGCGTATCGCCTATGGCGAGCAGATCGACGGCCTGATCGATGGCGGCGCCGACATCATCCTCATCGAGACGATTTTCGATACGCTGAACGCCAAGGCTGCGATTTTCGCCTGCGAGGAGCGTTTCGAGGCCAAGGGCATCCGCCTGCCGGTGATGATCTCCGGCACGATCACCGACCTTTCCGGCCGCACGCTTTCCGGCCAGACACCTTCGGCGTTCTGGAACTCGGTGCGCCACGCCAACCCCTTCACCATCGGCCTGAACTGCGCGCTGGGTGCCGACGCCATGCGTCCGCACCTGCAGGAACTGTCTGACGTGGCCGATACATTCGTCTGCGCCTATCCGAATGCCGGCCTGCCGAATGAATTCGGTCAGTACGACGAAACACCTGAGATGATGGCGCGTCAGGTCGAGGGCTTTGTCCGCGACGGTCTCGTCAACATCGTCGGCGGCTGCTGCGGTTCGACGCCGGAGCATATCCGGGCGATTGCGGAGGCTGTGAAAGGCTACAAGCCGCGCGAAATTCCCGAGCACAAGCCCTTCATGTCGCTTTCGGGCCTCGAGCCTTTCGTGCTGACCAAGGACATTCCCTTCGTCAATGTCGGCGAGCGCACCAACGTCACCGGCTCGGCCCGCTTCCGCAAGCTCATCACCGCCGGTGATTACACGGCGGCGCTGGCTGTTGCCCGCGATCAGGTGGAAAACGGTGCGCAGATCATCGACATCAACATGGATGAGGGTCTGATCGATTCCGAAAAGGCGATGGTGGAGTTCCTGAACCTCATCGCCGCCGAGCCGGATATCGCCCGTGTGCCTGTGATGATCGACTCATCCAAGTTCGAGATCATCGAGGCCGGCCTGAAATGCGTTCAGGGCAAGTCGATCGTCAATTCCATTTCGCTGAAGGAAGGCGAGGAGAAGTTTCTCCAGCAGGCGCGGCTCGTCCATAATTACGGTGCGGCGGTCGTGGTCATGGCCTTCGATGAGGTCGGGCAGGCGGATACTTATGAGCGCAAGGTCGAGATCTGCTCGCGCGCCTACAAGCTCCTGACCGAGAAGGCGGGCCTGTCGCCGGAAGACATCATCTTCGACCCCAACGTCTTTGCCGTTGCGACGGGTATCGAGGAGCACAATAATTACGGCGTGGATTTCATTCAGGCCACCAAGACCATCCGTGAAACCATGCCGCTGACGCATATTTCCGGCGGCGTTTCCAACCTGTCCTTCTCCTTCCGCGGCAATGAGCCGGTGCGTGAGGCGATGCATGCCGTGTTCCTTTACCACGCCATTCAGGTCGGCATGGATATGGGCATCGTCAATGCCGGGCAGCTCGCGGTTTACGACAATATCGACCCTGAACTGCGTGAGGCCTGCGAGGACGTGGTGCTGAACCGTCGCGACGACGCGACGGAACGGTTGCTGGAGGTCGCGGAGCGTTTCCGTGGTACGGGCGCCAAGGATACCAAGGTTCAGGACCTTTCCTGGCGCGAACTGCCCGTCGAGAAGCGGCTGGAACATGCGCTGGTCAACGGCATCACCGAATATATCGAGGCCGATACGGAAGAGGCGCGCCAGAAGGCGGAGCGTCCATTGCACGTCATCGAAGGGCCGCTGATGGCCGGCATGAATGTGGTCGGCGATCTCTTCGGTTCGGGCAAGATGTTCCTGCCGCAGGTGGTGAAATCCGCCCGCGTGATGAAGCAGGCGGTTGCCGTGCTTTTGCCTTACATGGAAGAGGAAAAGCGCCAGAACGGCGGTGCGGAACGCAGCGCTGCCGGCAAGGTGCTGATGGCGACCGTCAAGGGCGACGTGCACGATATCGGCAAGAACATTGTCGGCGTCGTTCTCGCCTGCAACAATTACGAGATCATCGATCTCGGCGTCATGGTGCCGACGACGAAAATCCTCGAAACGGCGATTGCCGAAAAGGTGGATGTGATCGGCCTTTCCGGCCTCATCACCCCGTCGCTGGACGAGATGGTGCATGTGGCGGCCGAAATGGAGCGGCAGGGTTTCGACATCCCGCTGCTGATCGGCGGCGCGACGACGAGCCGTGTGCATACGGCGGTGAAAATCCATCCGCGTTACGAGGCGGGGCAGGCAATCTATGTCACCGACGCCTCGCGTGCGGTGGGCGTCGTGTCGGCGCTTCTCTCTGCCGAGCAGAAGCCCGCTTACATCGACGGTATTCGCAGCGAATATGCCAAGGTGGCAGAGGCGCACGCCCGCAATGAGCGCGAGAAGCAGCGCCTGCCGCTTTCCCGCGCCCGCGAGAATGCGCACAAGATCGACTGGTCGAGCTATAGCGCCGTCAAGCCGCAATTCTTCGGCACCAGGGTGTTCGAAACCTATGATCTGGAAGAGCTTTCCCGTTACATCGACTGGACGCCGTTCTTCCAGACCTGGGAATTGAAGGGTCGTTTCCCGGCCATTCTCGATGACGAAAAGCAGGGCGAGGCGGCGCGGCAGCTCTACAGCGATGCGCAGGCGATGCTGAAGAAGATCATCGAGGAAAACTGGTTCCGGCCGCGCGCGGTGATCGGCTTCTGGCCGGCAAACGCCGTGGGTGACGATATCCGGCTGTTCACGGATGAAAGCCGCGGCGAAGAGCTCGCCACCTTCTTCACGCTGCGCCAGCAGCTTTCCAAGCGCGACGGTCGCCCCAATGTGGCGCTGTCGGATTTCGTCGCACCTGTCGATAGCGGCGTTGCCGATTATGTCGGCGGTTTCGTGGTGACGGCGGGCATCGAGGAAGTAGCGATTGCCGAGCGTTTCGAGCGGGCGAATGACGATTATTCGTCCATTCTCGTCAAGGCGCTGGCCGACCGTTTCGCGGAAGCCTTCGCTGAGCGCATGCATGAGCGGGTGCGCAAGGAGTTCTGGGGTTATGCGCCGCAGGAAAACTTCAACGGCGATGAGCTGATTGGCGAAGCCTATGCCGGCATTCGCCCGGCGCCCGGCTATCCTGCCCAGCCCGATCATACCGAAAAGAAGACGCTGTTTGCCCTGCTCGACGCCACCAATGCGGCGGGTGTGGAATTGACGGAAAGCTATGCCATGTGGCCGGGCTCCTCCGTCTCGGGCATCTATATCGGCCATCCCGAGAGCTATTATTTCGGTGTCGCCAAGGTGGAGCGTGATCAGGTGCTGGATTATGCGCGCCGCAAGGATATGCCGGTTGAGGAAGTGGAGCGCTGGCTCGGCCCTGTCCTCAACTACGTGCCGACAAATGGTGCTGATGAAATCGACAGCGCGGCGTGA	MFDDLFGPEGAKRDGAEIFKALRDAASERILILDGAMGTQIQGLGFDEDHFRGDRFIGCACHQKGNNDLLILTQPDAIEDIHYRYAMAGADILETNTFSSTRIAQADYEMENAVYDLNREGAAIVRRAAQRAEREDGRRRFVAGAIGPTNRTASISPDVNNPGYRAVSFDDLRIAYGEQIDGLIDGGADIILIETIFDTLNAKAAIFACEERFEAKGIRLPVMISGTITDLSGRTLSGQTPSAFWNSVRHANPFTIGLNCALGADAMRPHLQELSDVADTFVCAYPNAGLPNEFGQYDETPEMMARQVEGFVRDGLVNIVGGCCGSTPEHIRAIAEAVKGYKPREIPEHKPFMSLSGLEPFVLTKDIPFVNVGERTNVTGSARFRKLITAGDYTAALAVARDQVENGAQIIDINMDEGLIDSEKAMVEFLNLIAAEPDIARVPVMIDSSKFEIIEAGLKCVQGKSIVNSISLKEGEEKFLQQARLVHNYGAAVVVMAFDEVGQADTYERKVEICSRAYKLLTEKAGLSPEDIIFDPNVFAVATGIEEHNNYGVDFIQATKTIRETMPLTHISGGVSNLSFSFRGNEPVREAMHAVFLYHAIQVGMDMGIVNAGQLAVYDNIDPELREACEDVVLNRRDDATERLLEVAERFRGTGAKDTKVQDLSWRELPVEKRLEHALVNGITEYIEADTEEARQKAERPLHVIEGPLMAGMNVVGDLFGSGKMFLPQVVKSARVMKQAVAVLLPYMEEEKRQNGGAERSAAGKVLMATVKGDVHDIGKNIVGVVLACNNYEIIDLGVMVPTTKILETAIAEKVDVIGLSGLITPSLDEMVHVAAEMERQGFDIPLLIGGATTSRVHTAVKIHPRYEAGQAIYVTDASRAVGVVSALLSAEQKPAYIDGIRSEYAKVAEAHARNEREKQRLPLSRARENAHKIDWSSYSAVKPQFFGTRVFETYDLEELSRYIDWTPFFQTWELKGRFPAILDDEKQGEAARQLYSDAQAMLKKIIEENWFRPRAVIGFWPANAVGDDIRLFTDESRGEELATFFTLRQQLSKRDGRPNVALSDFVAPVDSGVADYVGGFVVTAGIEEVAIAERFERANDDYSSILVKALADRFAEAFAERMHERVRKEFWGYAPQENFNGDELIGEAYAGIRPAPGYPAQPDHTEKKTLFALLDATNAAGVELTESYAMWPGSSVSGIYIGHPESYYFGVAKVERDQVLDYARRKDMPVEEVERWLGPVLNYVPTNGADEIDSAA	PGPT0008135_374	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008135-metH-K00548	NA	NA
BMS010_01254	1332	proP		Proline/betaine transporter	ATGTCTCCCACCACCACACCCGCGGCAGCCCGGCCTCTTAACGGTCAGGATTACAAAACTCTTGGCCTTTCGGCCCTGGGCGGCGCGCTCGAATTTTACGATTTCATCATCTTCGTATTTTTCGCCACCGTCATCGGCCATCTGTTCTTCCCGCCAGAAATGCCCGACTGGCTGGTGATGATCCAGACTTTCGGCATCTTCGCCGCCGGTTATCTGGTGCGGCCGCTCGGCGGCATCGTGCTGGCGCATTATGGCGACCGTTATGGCCGCAAGCGCGTCTTCGCTTTCTCCATCCTGCTGATGGCACTCTCCACGCTGGGTATGGCGCTGATGCCGACCTATGCCACCATCGGCGTGGCCGCCCCCATCCTGCTCATCATCCTGCGCATGCTGCAGGGCGCGGCCATCGGTGGTGAAGTGCCGGGCGCCTGGACCTTTGTTGCCGAACATGTGCCCTTCCGACGCGTTGGCCTCGCTTGCGGCTTCCTCACATCGGGCCTTTCCTTCGGCATCATGCTGGGTTCGCTGATCGCCTTCGCCATCAACTCGCTCTTCACACCGGAAGACGTGGCCGGTTACGCCTGGCGCATTCCCTTCCTCCTCGGCGGCATTTTCGGCCTCATCGCCGTTTATCTGCGCCGCTGGCTGGAAGAAACGCCGATCTTCATGGAAATGAAAAAGTCGAAATCGCTGACGGACAAGCTGCCGCTCGGGCTGGTATTGAAGCACCATATGCGCGGCGTGGTCATTTCCGCCCTGCTGACCTGGGTTCTCTCGGCCGCCATCGTCGTCACCACGCTGATGACGGCCACCTTCCTGCAGAAGCTTTACGGTTATACTCCGACGCAGGCACTCGCCGGCACCAGCTTCGGCACGCTGTTCCTGATCTTCGGCGTCATCATCGCCGGCGCGCTGATCGACCGTCTCGGCTCCGGCATCTTCTTTATGGGGGCAAGCATCTTCTTCGGCATCGCTACCTTCACCTTCTACAGCTATGCCGGCACATCGCTTCAGACCATGTTCGTGCTTTACGGCGTCATGGGCCTTTCGGTCGGCATGGCAGGCGCGGTGCCCTATGTCATGGTCCGCGCCTTCCCGGCCTCGGTCCGCTTCTCCGGCCTCTCCTTTGCCTATAACGTCTCCTATGCCGTCTTCGGCGGGCTGACGCCGATTGGCGTGACCACGGCGCTTGCCATCAACCCCATGGCTCATGCCTGGTATCTGGTCTTCATCGCCGTCCTCGCCTTCTGCATTGGCCTTTACCTCTATCTGCGCGGCAGCGAGGTCGAAAGCCATGTCGGCATCGAGGAACTGGCGGCGTTACGGTCTTAA	MSPTTTPAAARPLNGQDYKTLGLSALGGALEFYDFIIFVFFATVIGHLFFPPEMPDWLVMIQTFGIFAAGYLVRPLGGIVLAHYGDRYGRKRVFAFSILLMALSTLGMALMPTYATIGVAAPILLIILRMLQGAAIGGEVPGAWTFVAEHVPFRRVGLACGFLTSGLSFGIMLGSLIAFAINSLFTPEDVAGYAWRIPFLLGGIFGLIAVYLRRWLEETPIFMEMKKSKSLTDKLPLGLVLKHHMRGVVISALLTWVLSAAIVVTTLMTATFLQKLYGYTPTQALAGTSFGTLFLIFGVIIAGALIDRLGSGIFFMGASIFFGIATFTFYSYAGTSLQTMFVLYGVMGLSVGMAGAVPYVMVRAFPASVRFSGLSFAYNVSYAVFGGLTPIGVTTALAINPMAHAWYLVFIAVLAFCIGLYLYLRGSEVESHVGIEELAALRS	PGPT0013645_1649	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013645-proP-K03762	NA	NA
BMS010_01255	777			hypothetical protein	ATGCTGTTTCTCGATAGCGTAACCATGAAAGAGACCCCGGACGGAAGAGACGACTATCCCTTCTCCGTTCCGGCGCTACGCCACCTGGAACGCCTCGAATTCAAGACGCCGATCACCTTTTTCGCCGGTAATAACGGCTCGGGAAAATCGACACTGCTGGAGGGTCTGGCGGCGGGAATGACGGCCTATGCCATCGGCAACCATGGCCAGGTCAAGGGTGATCTCTATCTCCAGCATGCCGAAACCGTGGCCAAGGCCTTCTATTTTGCCCGCAAAAAATATCCGAAGATCCGCATGTTTCTGCGTGCGGAAGACGTGCTTGGCTATATCCGTCGACAGAACGAGGAAGCACTGGACGATTTTCGCTGGGAGCGGGAAAAGGCTTTAAAAAACGGCGAGTATTTTCCGGAGGAAACGCCGGAGACATTTCGCGGGATTGTCAGGAACAACAGCCTCGACCGACTATCGCATGGCGAAGGCTTCCTCGATATCATGCATCGGCGCCTGCATGGCGCCGGCCTCTATTTTCTCGACGAACCGGAAAGCCCGCTTTCGCCGCAAAAGCAGCTCGAACTGGCAGCCCTTATCCGCGACGCCGCCGATAGCGGCGGACAATTGATTATCGCTACGCATTCGCCGGTGCTTTTGGCGATTCCCGAGGCCACGATTTATTACTTCGATGAGGATGGCATCACCGAGCGCCTCTATGACGAACTGGAAAACATCAGCTTTCTGCGGCGCTTTCTCGATCGTCCCTCGAAATACCTGAGCGATTGA	MLFLDSVTMKETPDGRDDYPFSVPALRHLERLEFKTPITFFAGNNGSGKSTLLEGLAAGMTAYAIGNHGQVKGDLYLQHAETVAKAFYFARKKYPKIRMFLRAEDVLGYIRRQNEEALDDFRWEREKALKNGEYFPEETPETFRGIVRNNSLDRLSHGEGFLDIMHRRLHGAGLYFLDEPESPLSPQKQLELAALIRDAADSGGQLIIATHSPVLLAIPEATIYYFDEDGITERLYDELENISFLRRFLDRPSKYLSD				NA	NA	NA	NA	NA
BMS010_01256	645			hypothetical protein	ATGAAGCATATTGCGCTTTTTTCGGTCGCGTTTCTATTTTCCGCGATATTCGTGAGCGAAGCTGAGGCGCGGAAGTCCCGCTTTTTTGCCATCCCCGGATTCGGCGGCGGCGAGACGATCGATCTCGTTTACGATCTGCCGGATAACGAGCCTTTTCTTCGCGACGGGGAAGCATTCGACATTGGTTATCTCAACAGCGGGGATAGGAGCGGTTATGTGCTGTATCGCGGCGAGCGTTACAGCAGACTCAGCGATGCTGACATCGCCAGGCTGAATGCGACGCTTGGTTTTGATCCGACGACAAAAGACCGCATGGAGCGGGCGGCGAGGGCCAGCGACGCGCCCTGGAACCTCGTGATTATCATAGCGGTCGCAATTGCTGGTATCTTTGTGCTTGTGCACAAGGGCATGCAGCTAGTGCGGTGGATTTCGCGTTTGGCGACGATCTCCGCAATTGCGGGAAATAAGCGGCAGGAGGAGGAGGACACCCCCGACCCGCTGGAGGTCCGCAAGAAACAGCTGGTAACCCGTCAATGGAGCGATAGCCAGACGGATCACGCGGCGCGTGTCCCGGCAGCATCGCCGGCCCATGCGTCTGCGCGAGGAACCACTGCGGTCCGGACATTCGGACGCAGGAGCGCCTGA	MKHIALFSVAFLFSAIFVSEAEARKSRFFAIPGFGGGETIDLVYDLPDNEPFLRDGEAFDIGYLNSGDRSGYVLYRGERYSRLSDADIARLNATLGFDPTTKDRMERAARASDAPWNLVIIIAVAIAGIFVLVHKGMQLVRWISRLATISAIAGNKRQEEEDTPDPLEVRKKQLVTRQWSDSQTDHAARVPAASPAHASARGTTAVRTFGRRSA				NA	NA	NA	NA	NA
BMS010_01257	1044			Alcohol dehydrogenase	ATGCGCGCGCTTTTTTACGAACTGTTCGGCGAAACCCCGGTTGTTGCGTCGCTGCCCGATCCGGAACCGACCGATGGCGGCGTGGTCATCGAGGTAAAGGCGACCGGCCTCTGCCGCAGCGACTGGCACGGATGGATGGGTCATGACCCGGATATCCGCCTGCCGCATGTTCCCGGCCACGAATTCGCAGGCGTGGTCGCCGCCGTCGGCAAAAACGTCACCCGCTTCAAGACCGGCGACCGCGTCACCGTGCCCTTCGTCTCCGGCTGCGGTCATTGCCATGAATGCCGCTCCGGCAACCAGCAGGTCTGCGAGGCGCAGTTCCAGCCCGGCTTCACCCATTGGGGCTCCTTCGCCGAATATGTCGCCATCGATTATGCCGATCAGAATCTGGTGCACCTGCCGGAATCGATGACTTATGCGACCGCCGCCGGCCTCGGCTGCCGTTTCGCCACCTCCTTCCGGGCCGTGACTGATCAGGGACGCCTGAAGGGCGGCGAATGGCTGGCGGTCCATGGCTGCGGCGGCGTTGGCCTCTCCGCCATCATGATCGGCGCTGGCCTCGGCGCGCAGGTCGTCGCTATCGATATAGCCGAAGACAAGCTCGACCTTGCGCGGCAGCTTGGAGCAACCGCCACCATCAACAGCCGCGCGGTTGCCGATGTTGCCGAGGCGGTTCGCGAGGTGACGGGCGGCGGCGCGCATGTCTCTGTCGATGCGCTTGGCCACCCGCAGACCTGCTGCAACTCCATCAGCAACCTGCGTCGGCGCGGCCGCCATGTGCAGGTGGGGCTGATGCTGGCAGACCATGCCATGCCAGCCATTCCCATGGCCCGAGTGATCGCCCATGAGCTGGAGATCTACGGCAGCCATGGAATGCAGGCATGGCGTTATGAGGACATGCTGGCGATGATCGAAAGCGGCAGGCTCGCGCCGGAAAAGCTGATCGGCCGCCACATCACGCTTTCCGAGGCCGCAACCGCCCTGCCCGCCATGGACAGCTTTAAGGAAAGCGGCATCAGCATCATCGACCGGTTCGAATAG	MRALFYELFGETPVVASLPDPEPTDGGVVIEVKATGLCRSDWHGWMGHDPDIRLPHVPGHEFAGVVAAVGKNVTRFKTGDRVTVPFVSGCGHCHECRSGNQQVCEAQFQPGFTHWGSFAEYVAIDYADQNLVHLPESMTYATAAGLGCRFATSFRAVTDQGRLKGGEWLAVHGCGGVGLSAIMIGAGLGAQVVAIDIAEDKLDLARQLGATATINSRAVADVAEAVREVTGGGAHVSVDALGHPQTCCNSISNLRRRGRHVQVGLMLADHAMPAIPMARVIAHELEIYGSHGMQAWRYEDMLAMIESGRLAPEKLIGRHITLSEAATALPAMDSFKESGISIIDRFE	PGPT0006375_904	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006375-EC_1_1_1_1|adh-K00001	NA	NA
BMS010_01258	1059	potA_3	COG3842	Spermidine/putrescine import ATP-binding protein PotA	ATGAGCTTTTTGACACTTAGCAACATCAAGAAATCCTTCGGCTCCGTGCAGGTCGTCCATGATTTCAACATGGCCATCGAAAAGGGCGAATTCGTCTCCTTCCTCGGGCCATCGGGCTGCGGCAAGACCACCGTGCTGCGCATGATCGCCGGCTTCGAAACCCCGAGTGGCGGATCGATCGTCATCAACGGCAAGGACCAGACGGCGCTCAGACCGAACCAGCGCAATATCGGCATGGTGTTTCAGGCCTATGCGCTGTTCCCCAACATGAATGTCTATGAAAACGTCGCCTTCGGGCTCAAAGTCGCCGGCAAGCCGAAAGCCGAGATCGACGCCCGCGTGAAGGAAATGCTCCAGCTTATCCATCTGGAGCATCTGGCGGACCGTTACCCCTACCAGATGTCCGGCGGCCAGCAGCAGCGCGTGGCGCTTGCCCGCGCGCTCGCGCCGAAGCCGGAAGTACTTTTGCTGGACGAACCGCTCTCCGCGCTTGATGCGAAGATTCGCGTGTCGCTACGCGAAGAAATCCGCCAGATTCAGCAGAAACTCGGCATCACCACCATTTTCGTGACCCACGATCAGGAAGAGGCCCTGTCGATTTCTGACCGCATCGTCGTCATGAATGGCGGTCGCGCCGACCAGATCGGCTCCCCGTTCGATATCTACAACAAGCCCGCGACCCGCTTCGTCGCCTCTTTCGTCGGCACGCTGAACCTCATCGACGCCACTGTGGTCGATTCCTCATCCAACACCATCCGTGTCGGAGAGCAGCAGATCACCCTGCCGAAGCCGGTCGATGCAGCCACCGGCGAAAAAATCACGCTGGCGCTTCGCCCGGAGGCAGGCTCCCTGGGCAGCGATGCGAAAGGCGATGTCGCCATTTCCGGCCTCGTCACCTCCAGCCAGTTCCTCGGCTCCGTGATCCGCACCCGCCTCGATCTCGGCGGCTCGACCCTGTCTTTCGACATGTTCAACGATCCCGGCACAGCACCGCCCGCGGTCGGCGAGCAGGTGACGCTGAAATTCGCAGCCGGCGACCTGATGGTCATCAAGGACTAA	MSFLTLSNIKKSFGSVQVVHDFNMAIEKGEFVSFLGPSGCGKTTVLRMIAGFETPSGGSIVINGKDQTALRPNQRNIGMVFQAYALFPNMNVYENVAFGLKVAGKPKAEIDARVKEMLQLIHLEHLADRYPYQMSGGQQQRVALARALAPKPEVLLLDEPLSALDAKIRVSLREEIRQIQQKLGITTIFVTHDQEEALSISDRIVVMNGGRADQIGSPFDIYNKPATRFVASFVGTLNLIDATVVDSSSNTIRVGEQQITLPKPVDAATGEKITLALRPEAGSLGSDAKGDVAISGLVTSSQFLGSVIRTRLDLGGSTLSFDMFNDPGTAPPAVGEQVTLKFAAGDLMVIKD	PGPT0007860_2621	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007860-ABC_SP_A|ydcT-K02052	NA	NA
BMS010_01259	783			hypothetical protein	ATGAAGCGTTTCTTCGCCTGGGGCGCGCTGATTTTCGGCCTGCTCTATTTCGCCCTGCCGCTGATCGGCATGACCAACTTCTCGCTGAAAATGCGGCGCGGCGAATACTCATTCGACGCCTATGGCAAGGTGCTGACCGATCCGCGTTTTCAGGAGACCTTCAGCTATTCTGTGGTGATGGCGCTGTTTACCATCGTTTTCGGCGTTCTGCTGGTGGTGCCCACCGCCTATTGGGTGCGCCTGAAACTGCCGGGTCTGCGGCCCTATATCGAATTCGTCACGCTCTTGCCGCTGGTCATCCCGGCCATCGTCATCGTCTTCGGTTATATCCGGCTTTACAACACCTCGAGCTGGCTGCCACTGACCGGCACGAGCTTCGGCACCAACCTGCTTTTGATGTTCGGTTATGCCACGCTGGCCTTGCCCTATATGTACCGCGCCGTCGATACCGGTCTCAGAACCATCGACGTGGCGACGCTGACGGAAGCAGCCCAAAGTCTCGGGGCGGGCTGGACGACCATCCTGTCGCGCATCATCCTTCCCAACGTTCTGGTCGCGGTGCTGTCCGGTGCGTTTTTGACCTTCGCCATCGTCATCGGTGAATTCACCATGGCGGCCCTTTTGAACCGCCCGGCCTTCGGCCCCTACATGCAGCTGCTCGGCGCCAACCGCGCCTATGAACCGGCCGCACTTGCCGTGATTTCCTTCGGCATCACCTGGGGTTGCCTGGGTCTGATCCAACTCGTTTCACGCTACCAGAAGGGCGCGCCTCCCAAGGCCTGA	MKRFFAWGALIFGLLYFALPLIGMTNFSLKMRRGEYSFDAYGKVLTDPRFQETFSYSVVMALFTIVFGVLLVVPTAYWVRLKLPGLRPYIEFVTLLPLVIPAIVIVFGYIRLYNTSSWLPLTGTSFGTNLLLMFGYATLALPYMYRAVDTGLRTIDVATLTEAAQSLGAGWTTILSRIILPNVLVAVLSGAFLTFAIVIGEFTMAALLNRPAFGPYMQLLGANRAYEPAALAVISFGITWGCLGLIQLVSRYQKGAPPKA	PGPT0007845_4319	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007845-ABC_SP_P|ydcV-K02053	NA	NA
BMS010_01260	885			hypothetical protein	ATGCCATCAACCAACACCGGCGGACCATCCGACGCGGGCAGAAAGCTGCCGCTTCACTGGATAGGTGTGCTGCCATTTGTCGTATTTGTTGCGATGTTTCTGATCATGCCGACGATGAAGATCGTCATCGGTGCATTTCAGGATCCGAGCGGCAGTTTCACCCTCGCCAATATTGCTGGGCTTTTCACGCCGGCGATCATGGGCGCTTTTACGATATCGATAAAAATCAGCCTCGCGTCGTCATTGCTGGGGTGTTTGATCGGTTTTTCCGTTGCAGCCGCCGTCATACTTGGCGGCCTTCCCAATGCGTTGCGCGGGCCGCTGATGACCTTTTCCGGGGTTGCGTCGCAATTTGCCGGCGTTCCGCTGGCCTTCGCATTTCTCGCCACCCTCGGCCCGGTCGGCATATTGACGGTGTTCCTGAAATCCCAGCTGGGGATAGACCTCAGATTGATGGGCTTCAACCTCATCTCCTTCTGGGGGCTGACAATCACCTATCTCTTCTTCCAAATTCCGCTCATGATACTGATCATCGCTCCTGCCCTGGATGGGTTGAAGCGCGAATGGCGGGAGGCGGCGGAAGTTCTTGGCGCGACGGGAACGCAATATTGGCGATTTATCGCATTTCCCATCCTGCTGCCGTCACTGCTTGGCACATTCGCGCTCCTGTTCGCCAATGCTTTCGGTGCTGTTGCAACAGCAATAGCGCTGACCGGCTCTTCGCTTAATATTGCGCCCATTCTGCTTTTTGCCCAGATACGCGGCGACGTGCTCGGCGATCCCCATCTCGGTTACGCGCTTGCCTTCGGTATGATCGTCGTTACCGGTGTCGCCAACACACTTTATATCTGGCTGCGCGCCCGCAGCGAAAGGTGGCTGAAATGA	MPSTNTGGPSDAGRKLPLHWIGVLPFVVFVAMFLIMPTMKIVIGAFQDPSGSFTLANIAGLFTPAIMGAFTISIKISLASSLLGCLIGFSVAAAVILGGLPNALRGPLMTFSGVASQFAGVPLAFAFLATLGPVGILTVFLKSQLGIDLRLMGFNLISFWGLTITYLFFQIPLMILIIAPALDGLKREWREAAEVLGATGTQYWRFIAFPILLPSLLGTFALLFANAFGAVATAIALTGSSLNIAPILLFAQIRGDVLGDPHLGYALAFGMIVVTGVANTLYIWLRARSERWLK	PGPT0007850_2186	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007850-ABC_SP_P1|ydcU-K02054	NA	NA
BMS010_01261	1107		COG1840	putative protein	GTGATCTCTCACTGCCGCCGACTGCTTGCTACGACCACTGCACTGGTCATCGCCTCCACCGCAATTGCCGCCGCTGAACCGAGCGCCGAGCTGATCGCGGCCGCCAAGAAGGAAGGCATGCTGACCACCGTCGCCCTGCCGCACGACTGGTGCGGTTACGGCGACGTGATTGCCGCCTTCAAGGCGAAATATCCGGAAATCACCGTCAACGAACTGAACCCCGACGCCGGCTCCGCCGATGAAGTCGAAGCCATCAAGGCGAACAAGGACAATAAGGGCCCGCAGGCTCCTGACGTCGTTGACGTCGGTCTCGCTTTCGGCCCGCAGATGAAGGCCGAAGGCCTGCTGCAGCCTTACAAGGTCTCGACCTGGGACGAAATTCCTGACAACGTCAAGGATCCGGAAGGTTACTGGTACGGCGACTATTACGGCGTCATGTCGTTCTTCGTGAACAAGGACCTCGTGAAGAACACGCCGAAGGACTGGGCCGACCTGTTGAAGCCGGAATATTCCGGTCAGGTCGCACTTGCCGGTCCCCCGCTGACATCCAACCAGGCAATTCTCGGCGTTCTCGCCGCCGGTCTTGGCCAGGGCGCAAAGTCCGGCAAGGAAGCCGGTGAAGCCGGTCTGAAGTATTTCGCCGACCTCAACAAGGCAGGCAACTTCGTTCCGACCGTCGGCAAGGCCGGCACGCTCGCACAGGGTTCGACACCAATCATCATCGCCTGGGACTACAACGCGCTGTCCTGGAAAAAGACGCTGAACGACAACCCGCCGACAGAAGTCGTCGTGCCTGAAAAGGGTGTTCTGGCCGGCGTTTACGTGCAGGGCATTTCTGCCTATGCACCGCATCCGAACGCAGCGAAGCTCTGGATGGAGCATCTCTATTCCGACGACGGTCAGCTCGGCTGGCTGAAGGGCTATTGCCACCCGATCCGCTTCAACGCAATGGTCAAGGCTGGCAAGGTTCCGCAGGAACTGATCGACAGCCTGCCGCCGGCAGCGGCCTATGAAAAGGCTATCTTCCCGACGCTCGAGGAAGTTGACGCCAACAAGGCTGCCGTTACCGGTGGCTGGGACAAGACCGTCGGCGCGAACGTCAAGTAA	MISHCRRLLATTTALVIASTAIAAAEPSAELIAAAKKEGMLTTVALPHDWCGYGDVIAAFKAKYPEITVNELNPDAGSADEVEAIKANKDNKGPQAPDVVDVGLAFGPQMKAEGLLQPYKVSTWDEIPDNVKDPEGYWYGDYYGVMSFFVNKDLVKNTPKDWADLLKPEYSGQVALAGPPLTSNQAILGVLAAGLGQGAKSGKEAGEAGLKYFADLNKAGNFVPTVGKAGTLAQGSTPIIIAWDYNALSWKKTLNDNPPTEVVVPEKGVLAGVYVQGISAYAPHPNAAKLWMEHLYSDDGQLGWLKGYCHPIRFNAMVKAGKVPQELIDSLPPAAAYEKAIFPTLEEVDANKAAVTGGWDKTVGANVK	PGPT0007855_1879	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007855-ABC_SP_S|ydcS-K02055	NA	NA
BMS010_01262	879	hexR_1	COG1737	HTH-type transcriptional regulator HexR	TTGCGCAGCACGACGGCGACCGTGTCGGATGTCATTCATGCCCATTACGACGCACTGACCCGTTCGGAAAAACGGCTGGCGGAGAGCCTGCTCGGCAACTACCCCGTCTCCGGCCTCGGCAGCATCACCACCATTGCGGAAAATGCCGGCGTTTCGACGCCGACGGTGGCGCGCATGGTGCAGAAGCTCGGCTACAAGGGCTATCCGGAATTTCAGGCGCATCTGCACCAGGAACTGGAAGCGACGATTTCCGGCCCCATCGCCAAACATGATCGTTGGGCAACCAATGCGCCCGGCCTGCACATTCTCAACCGCTTCGCCGACGCCATCACCGGCAATCTGCGCGATACGCTGAGCGATCTCGACACCGCCGTCTTCGACAATGCCGCAGCGCTGCTTTCCGATCGCAAGCGCAGCATCTATTTCGTCGGCGGGCGCATCACCGGCGCGATTGCCGAATACTTCTTCACACATATGCAGGTGATCCGGCCGAGGACGACGCTGATGTCGTCGAATTCCAGCGCCTGGCCGCAATATATGCTGAACATGAGCGCCGGCGACATACTGGTTATCTTCGACATTCGCCGCTACGAGCACGACATGACGACGCTGGCTGAAGTGGCCAAGGCTAACGGCGTGCAGATCATTCTCTTCACCGATCAATGGACATCGCCGGTGGCGCGCCATGCGCTGCACACTTTCCGTGTCAGGATCGAAGCGCCCTCGGCATGGGATTCCTCGGTCGTTACGCTGTTCGTGGTCGAAGCGCTGATCGAAGCGGTGCAGAACGGCACCTGGGATGAAACCAGGGAACGCATGAACGCGCTTGAAGGCCTGTTTGAACAGACGCGGCTGTTCCGCAGGCCGGACAGAACATGA	MRSTTATVSDVIHAHYDALTRSEKRLAESLLGNYPVSGLGSITTIAENAGVSTPTVARMVQKLGYKGYPEFQAHLHQELEATISGPIAKHDRWATNAPGLHILNRFADAITGNLRDTLSDLDTAVFDNAAALLSDRKRSIYFVGGRITGAIAEYFFTHMQVIRPRTTLMSSNSSAWPQYMLNMSAGDILVIFDIRRYEHDMTTLAEVAKANGVQIILFTDQWTSPVARHALHTFRVRIEAPSAWDSSVVTLFVVEALIEAVQNGTWDETRERMNALEGLFEQTRLFRRPDRT				NA	NA	NA	NA	NA
BMS010_01263	774			hypothetical protein	ATGACGCTGCGGTCACGGTTTTTCACAGAAGCAGAAGGGCAGGCCGTTGGCATCGAGAATGCGGCGGCGAAGGGCGACGTCCTTCTCGTCTGCGAACATGCCTCCGCCACCATTCCGCAGAAATTCGGCACATTGGGTCTTTCGCCGGAGGTGCTTTCGAGCCATGCGGCCTGGGATCCGGGCGCTCTGGCCGTTGCCCGGCTGCTTTCGGAAAAACTTGACGCCACGCTCGTCTATCAGCGATTTTCGCGTCTCGTCTATGATTGCAACCGGCCGCCCGAATCGCCTTCCGCCATGCCGGTGAAAAGCGAGATTTACGATATTCCCGGCAATTTCGATCTCAGCGAAGCGGAGCGGTTCGCCCGCACCTCCGCACTTTATGTGCCGTTTCATGACCGGGTGAGCGAGATCATCGCCGCGCGGCAGGCGGACGGCCGCAACGTGGTGGTGGTGACCATCCACAGTTTCACACCGGTTTATCACGGCCGGTTCCGAAAGGTTGAGATCGGCATCCTGCACGATACCGACAGCCGCCTCGCGGATGCGATGCTGGCGGGTGCCGACGGGTCCTCGCTCACGGTCAATCGCAACGATCCTTACGGCCCGGAAGATGGCGTGACGCATACGCTGCGGCTGCATGCGCTGCCGGATGGGCTTTTGAACGTCATGATCGAGATCCGCAACGATCTCATCACCAATGAAGGAGAGCAGGCGGCAATCGCCGGTTTTCTCCACGAGCTTATGGGGAAGGCGCTCTCATCGATCGATGAGTGA	MTLRSRFFTEAEGQAVGIENAAAKGDVLLVCEHASATIPQKFGTLGLSPEVLSSHAAWDPGALAVARLLSEKLDATLVYQRFSRLVYDCNRPPESPSAMPVKSEIYDIPGNFDLSEAERFARTSALYVPFHDRVSEIIAARQADGRNVVVVTIHSFTPVYHGRFRKVEIGILHDTDSRLADAMLAGADGSSLTVNRNDPYGPEDGVTHTLRLHALPDGLLNVMIEIRNDLITNEGEQAAIAGFLHELMGKALSSIDE				NA	NA	NA	NA	NA
BMS010_01264	1515			hypothetical protein	ATGGACAGTTCATCGTCAGGCGTCAGCTACAAGAAGGCTGATGCATCCTATTTCGAAAAACGCGGACTATCCCGTTATGCGGGCGTGTGGTCGCTCTGGTCGCTCGGCGTCGGTGCGGTCATTTCCGGGCATTTTTCCGGATGGAATTTCGGCTTTTCCACCGGCGGCTGGGGCGGCATGCTGGTGGCGGGCATCATCATCGCCATCATGTATCTCGGGCTGACATTTTCGATTGCGGAAATGAGCCCGGCCTTGCCACATACGGGTGCGGCCTATTCCTTCGCCCGCACGGCCATGGGCCCATGGGGCGGCTTCATCACCGGGCTTTGCGAGAATGTCGAATATGTGCTGACGCCGGCGGTCGTCGTCACCTTCATCACGGCCTATGTGAACTCCATTCTCGGTCTCGATCCCGCCTATTCACCTTTCGTGTGGATAGCGTTTTACGCGATATTCCTTGCGCTCAATGTCTTCGGGCTTGAGCTTTCCTTCAAGGTTACGCTCGTCATCACGCTGATTTCGCTTGCCGTTCTGGTGTTCTTCTGGATCAGCGCCATTCCAAACATCGATTTTTCGCGTTTCGCACTCAATATCGGTGTCGGACCTGACGGCAAGGCGGTGGAGCTGCCGGAGGGCGGCGGTTCCTTCTTCCCCTTCGGGTTCTCAGGCGTTCTCGCCACGCTGCCTTTCGCGGTCTGGCTGTTCCTCGCCATCGAGCAACTGCCGCTGGCGGCGGAAGAATCGGTCGATCCCAAGCGCGACATGCCGAAGGGCATCATCCTCGGCATGGTCACGCTGATGGTTTCGGCCTTCATGATCGTATTGCTCAACCCGTCCCTGCCGGGCGTCGGCGCCTTCCATCTCAGCTCCTCGCTTGAGCCGCTGCTCGATGGTTTCAAGGCGATCTATGGCGATGGCGGCGTGGTGGTGCTGGGTCTCGTTGCCTTGACCGGCCTGATCGCCAGCTTCCATACGATCCTCTACGCGCAGGGTCGCCAGATCTATTCGCTGTCGCGTGCGGGTTACTTCCCGACCGTGCTGTCGATTACCCATTCCAAGTATCGCACGCCATACGTTGCCAACATCACCGGCGCGATTGTCGGCTTGGCGGTCATGCTCGTCATCTGGTTCGCGCTGGGTGCGGAACAGGGCGGCAGCATCATCGGCAGCGTGCTTTTGAACATGGCCGTCTTCGGTGCGATGTTCTCCTACATCATGCAGGCGATTTCCTTCATTCTGCTCAGGAAGAACCTGCCGCATATCGAGCGGCCGTTCCGCTCGCCTTTCGGCATTCCGGGCGCGGTGCTGACGGTGATTATCGCCATCGTCACGCTGCTTTACCAGATCCAGGATCCGAACTTCACCAAGGGCGTGCTCTGGGTGGCGGTCTGGTTCGCCGTGGCAATCGCCTACTTTGCCTTCATCGGCCGCCACCGCCTCATCCTGTCGCCGGAAGAGGAGTTCGCGCTGGAGCACAAGCAGGCTGCGGTTGCCGCAGCGGCTGCAAAGGCCTGA	MDSSSSGVSYKKADASYFEKRGLSRYAGVWSLWSLGVGAVISGHFSGWNFGFSTGGWGGMLVAGIIIAIMYLGLTFSIAEMSPALPHTGAAYSFARTAMGPWGGFITGLCENVEYVLTPAVVVTFITAYVNSILGLDPAYSPFVWIAFYAIFLALNVFGLELSFKVTLVITLISLAVLVFFWISAIPNIDFSRFALNIGVGPDGKAVELPEGGGSFFPFGFSGVLATLPFAVWLFLAIEQLPLAAEESVDPKRDMPKGIILGMVTLMVSAFMIVLLNPSLPGVGAFHLSSSLEPLLDGFKAIYGDGGVVVLGLVALTGLIASFHTILYAQGRQIYSLSRAGYFPTVLSITHSKYRTPYVANITGAIVGLAVMLVIWFALGAEQGGSIIGSVLLNMAVFGAMFSYIMQAISFILLRKNLPHIERPFRSPFGIPGAVLTVIIAIVTLLYQIQDPNFTKGVLWVAVWFAVAIAYFAFIGRHRLILSPEEEFALEHKQAAVAAAAAKA				NA	NA	NA	NA	NA
BMS010_01265	1368	ipuC_1		Glutamate--isopropylamine ligase	ATGACGAGCTACACATTCGACGCGCTTAAGATGGATGTCGCCGAGGGGCGCATCGACACGGTTCTGGCCTGCCTTGTCGACATGCAGGGGCGTCTGATGGGCAAACGGTTCCAGGCGGAGTTCTTCGTTGAAAGCGCCTTTGAGGAAACCCATAGCTGTAATTACGTGCTTGCCACCGACATGGAGATGGAAACCGTTCCCGGTTACAAATCCTCCAGCTGGGAAAAGGGTTATGGCGACTATGTGCTGAAACCCGATCTTTCGACGCTGCGGCGGGTGCCGTGGCTGGAAGGCACGGCGCTGGTGCTGTGCGATGTGCTCGATCATCACACCCATGAAGAAGTGCCGCATTCACCGCGCGCGCTCCTGAAAAAGCAGGTGGCGCGGCTGGAGGCCATGGGGCTGAAGGCCTATATGGCGACCGAACTGGAATTTTTCCTGTTCGACCAGACTTTCGACGCGGCGCGCGCCAGCGGCTACAGGGGGCTGAACCTCGCCAGCGGTTACAACGAGGATTACCACATCTTCCAGACGACCAAGGAAGAGGACGTCATGCGGGCGCTGCGCAAGGGCCTGCAGGGCGCCGGCATTCCGGTTGAAAATTCCAAGGGCGAGGCGTCTCCCGGTCAGGCGGAAATCAACGTTCGTTATGCCGAGGCGCTGACCATGGCCGACCGGCACGCCATCATCAAGAACGCCACCAAGGAAATCGCCTGGTCGAAGGGCAAGGCGGTGACTTTCCTCGCCAAGTGGAACTACAATGCCGCCGGCAGTTCCTCGCATATTCATCAGTCGCTCTGGAGCCTCGACGGCAAGACCCCGGCGTTTCTGGACAAGGACGCCGAGCATGGCATGTCGCAGCTGATGCGGCATTATGTTGCCGGGCTTCTGGCCCATGCGAGCGAGATCACCTATTTTCTGGCGCCTTACATCAATTCCTACAAGCGGTTCATGGCCGGCACGTTTGCGCCCACCAAGGCGATCTGGAGCCTCGACAACCGCACGGCGGGATATCGTCTGTGCGGGGAGGGCACCAAGGGCATCCGCATCGAGTGCCGTGTCGGTGGCTCCGATCTCAATCCCTATCTCGCCATGGCTGCCCTGCTTGCAGCAGGCATTGACGGCATCGAAAATAAACTCGAACTTGAGCCCGCTTTTGTAGGTGACGCCTATGGCGGCAAGGACGTGCGCGAGATACCCAAGACATTGCGTGACGCCACTGTCTTTCTGGACGGATCGAAAATGCTGCGCGACGCCTTTGGCGACGATGTGATCGATCATTACGTCCATGCCGGACGATGGGAGCAGGAAGAATACGACCGCCGCGTGACCGACTGGGAAGTGGCGCGCGGTTTTGAACGAGCCTAA	MTSYTFDALKMDVAEGRIDTVLACLVDMQGRLMGKRFQAEFFVESAFEETHSCNYVLATDMEMETVPGYKSSSWEKGYGDYVLKPDLSTLRRVPWLEGTALVLCDVLDHHTHEEVPHSPRALLKKQVARLEAMGLKAYMATELEFFLFDQTFDAARASGYRGLNLASGYNEDYHIFQTTKEEDVMRALRKGLQGAGIPVENSKGEASPGQAEINVRYAEALTMADRHAIIKNATKEIAWSKGKAVTFLAKWNYNAAGSSSHIHQSLWSLDGKTPAFLDKDAEHGMSQLMRHYVAGLLAHASEITYFLAPYINSYKRFMAGTFAPTKAIWSLDNRTAGYRLCGEGTKGIRIECRVGGSDLNPYLAMAALLAAGIDGIENKLELEPAFVGDAYGGKDVREIPKTLRDATVFLDGSKMLRDAFGDDVIDHYVHAGRWEQEEYDRRVTDWEVARGFERA	PGPT0000645_5651	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMATE_DEGRADATION|CONVERSION,PGPT0000645-glnA-K01915	NA	NA
BMS010_01266	1389	Vejahgd	COG1012	3,6-anhydro-alpha-L-galactose dehydrogenase	ATGACCATGATCCAGAATATCTCGCCCATCGACGGCTCGGTTTATGCCGAGCGGGAGGCGATGTCGCTGGAGGCGGCGCGCGTCGCCGTTTCGAAAGCGCGCAAGGCGCAGAAGGACTGGGCGCGGCGTCCGCTTGAGGACCGCGTTCAGCTGGTTCTCAAAGGTGTGGCGCGCCTTAACGAAATGGTGGCCGAGGTTGTGCCGGAACTGGCGCATATGATGGGCCGTCCGGTTCGTTATGGCGGCGAGTTCAAGGGCTTCAACGAGCGCTCCAACTATGTCGCCTCCATTGCAGCCGATGCGCTGGCGCCGCTCGTCATCGAGGAAAGCGGCAATTTCGAACGTCGCATCGAGCGCGAAGCGCATGGCGTGGTCTTCGTCATCGCGCCGTGGAATTATCCTTACATGACGGCGATCAACACCGTCGCGCCCGCCTTGATGGCCGGCAATACGGTCGTCATCAAACATGCGGCGCAGACGCTACTGGTGGGCGAGCGCATGGTGCGGGCTTTCGTTGAGGCCGGCGTGCCTGACGATGTCTTCATCAATGTCTTCCTCGACCATGGCACGACCTCGGCGCTCATTTCCGAGGGACTGTTCAATTTCGTCAACTTCACTGGTTCGGTGGAAGGCGGCCGTGCCATCGAACGTGCCGCTGCCGGCACCTTCACCGGTCTCGGGCTTGAACTCGGCGGCAAGGACCCCGGTTACGTGATGGAGGATGCCGATCTCGACGCCGCCGTCGATACGCTGATGGATGGCGCGACCTATAATTCCGGGCAATGCTGCTGCGGCATCGAGCGCATCTACGTCAATGAAAACCTCTATGACGCATTCGTCGAGAAGTCCGTGGCGTGGGTTTCGAACTACAAGCTCGGCAATCCGCTGGAGCAGGAAACGACGCTCGGGCCGATGGCCAATAAGCGTTTCGCCGAGGTGGTGCGTGCGCAGATCGCGGACGCCGTCGCCAAGGGCGCCAAAGCGCTTGTCGATTCGAAGCTTTTCCCCGCCGATGATGGCGAAAGCGCTTACGTCGCGCCGCAAGTGCTCGTCAATGTCGATCATTCGATGGAGTTCATGACCGAAGAAACCTTCGGCCCGGCGGTCGGGATCATGAAGGTCAAGAACGACGACGAAGCCATCGCGCTGATGAATGACAGCAAATACGGGCTGACCGCCTCGCTCTGGACGCAGGATGCCGCCCGCGCCGGGCGCATCGGCCGCGAGATCGAAACCGGAACCGTGTTCATGAACCGCGCGGACTATCTCGACCCGGCGCTTTGCTGGACCGGTGTGAAGGAAACTGGCCGCGGCGGTTCGCTCTCCGTTCTCGGTTTCCAGAACCTGACCCGTCCGAAATCCTACCATCTGAAGAAAGTCACGAAATGA	MTMIQNISPIDGSVYAEREAMSLEAARVAVSKARKAQKDWARRPLEDRVQLVLKGVARLNEMVAEVVPELAHMMGRPVRYGGEFKGFNERSNYVASIAADALAPLVIEESGNFERRIEREAHGVVFVIAPWNYPYMTAINTVAPALMAGNTVVIKHAAQTLLVGERMVRAFVEAGVPDDVFINVFLDHGTTSALISEGLFNFVNFTGSVEGGRAIERAAAGTFTGLGLELGGKDPGYVMEDADLDAAVDTLMDGATYNSGQCCCGIERIYVNENLYDAFVEKSVAWVSNYKLGNPLEQETTLGPMANKRFAEVVRAQIADAVAKGAKALVDSKLFPADDGESAYVAPQVLVNVDHSMEFMTEETFGPAVGIMKVKNDDEAIALMNDSKYGLTASLWTQDAARAGRIGREIETGTVFMNRADYLDPALCWTGVKETGRGGSLSVLGFQNLTRPKSYHLKKVTK				NA	NA	NA	NA	NA
BMS010_01267	1146	mdh_1		NAD-dependent methanol dehydrogenase	ATGAATATCGTCGCCAACTGGAGCTACCCCACCGCCGTCAAGCTTGGCCGTGGCCGGATCAAGGAACTGGCGGAAGCCTGCAAGACGCTCGGCATCAAGAAGCCGCTGCTCGTTACGGATCGCGGCCTTGCCAATATGGCGATAACAGCGCATGCGCTCGACGTGCTGGAAGAGGCGGGTCTCGGCCGGGCGATCTTTGCCGAGGTCGATCCGAATCCCAACGAGATCAACATGGAAGCCGGCGTGAAGGCCTATCGCGATGGCGGCCATGACGGCGTCGTCGCCTTCGGCGGCGGCTCTGGCCTCGATCTCGGCAAGACCATCGCCTTCATGGCCGGGCAGACGCGCCCGGTCTGGGATTTCGAGGATATCGGTGACTGGTGGACCCGAGCGGACGCTTCAAAGATCGCGCCCATCGTCGCGGTTCCGACGACGGCGGGCACCGGTTCGGAAGTCGGCCGCGCCAGCGTCATCACCAATTCGCAGACCCATGTGAAGAAGATCATCTTCCATCCGAAGCTTCTGCCCGGCGTCGTCATCTGCGATCCGGAGCTGACGGTCGGCATGCCGAAGGTCATCACGGCGGGCACGGGCATGGACGCCTTTGCCCATTGCCTCGAGGCCTATTCCTCGCCCTTCTATCATCCGATGAGCGCCGGTGTGGCGCTGGAGGGGCTGCGGCTCGTCAAGGAATTCCTTCCGCGCGCCTATAAGGACGGCACGGATATCGAAGCGCGCACCAATATGATGGCGGCGGCGGCGATGGGGGCGGTCGCCTTCCAGAAGGGCCTCGGCGCCATCCATTCGCTCTCGCACCCCATCGGCGCGGTCTACAACACCCATCACGGCATGACCAATGCCGTCGTCATGCCGGCGGTGCTGCGCTTCAACCGTCCAGCCATCGAGGACAAGATTGCCCGCGCGGCCGCCTATCTCGGTATCTCCGGCGGTTTCGATGGTTTTTATGACTATGTGCTGGAGCTTCGCAAGGAACTCGGCGTGCCAGAGAATCTCACCGCCATGGGCATCAAGCCGGATCGTATCGACGAACTGGCGGCGGAAGCGATCAAGGATCCGAGCTGCGGCGGTAATCCGGTGCCGATGACGCTGGAGAATACGAAGAAGTTGTTCGAGGACTGCTTTTGA	MNIVANWSYPTAVKLGRGRIKELAEACKTLGIKKPLLVTDRGLANMAITAHALDVLEEAGLGRAIFAEVDPNPNEINMEAGVKAYRDGGHDGVVAFGGGSGLDLGKTIAFMAGQTRPVWDFEDIGDWWTRADASKIAPIVAVPTTAGTGSEVGRASVITNSQTHVKKIIFHPKLLPGVVICDPELTVGMPKVITAGTGMDAFAHCLEAYSSPFYHPMSAGVALEGLRLVKEFLPRAYKDGTDIEARTNMMAAAAMGAVAFQKGLGAIHSLSHPIGAVYNTHHGMTNAVVMPAVLRFNRPAIEDKIARAAAYLGISGGFDGFYDYVLELRKELGVPENLTAMGIKPDRIDELAAEAIKDPSCGGNPVPMTLENTKKLFEDCF	PGPT0006375_380	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006375-EC_1_1_1_1|adh-K00001	NA	NA
BMS010_01268	717			hypothetical protein	ATGTCAGTCATCACTTTCGCCAATACCAAGGGCGGCGCCGGAAAAACGACAGCAGTGCTGCTTCTGGCAACCGAACTGGCCCGCAGCGGTCACCGCGTGACCGTTCTGGACGCCGATCCGCAATTGTGGATTTCCCGCTGGCACGACTTGTCCGGCGAGATCGAAAATCTCTCGGTGATTTCGCATGTGACGATGGCTTCGCTTGAAGGCCATATTCGCGAGAATAAAACCAATACCGACTGTTTCATCATCGACCTGCCGGGCGCGAAAAGCCCGCTGTTGACCATGGCGCTCGGTATTTCCGATCATGTGCTGATCCCGGTTCAAGGTTCAGCCATGGATGCGCGCGGCGCTGCCGAAGTTCTGGATCACATCGAATTCCTGAACCGCAAGATGGGCAAGGCTATCGCCCATTCAATCGTACTGACGCGGGTGAATGCCATGGTGGCGACGCGTTCGCTGCTGCTCGTCAAAATGCTGCTGGCGGAAAAGAACGTCTCGGTTCTCAATACGCCGATTGTCGAGAGAGCGGCCTATCGCGATATTTTCGATTATGGTGGTACGCTCCTCTGTCTCGATAAGGACAAGGTCAGCAATATCGACAAGGCGGTGGAGAACGCGAAAGCCTTCGCCACCGAAGTTGTCGGCCTGCTGCCGAAACGTCTTTTGCGGCTCGGCACGCAACCGGCTCGCCTTTTCACCCGCAAGGCCGCCTGA	MSVITFANTKGGAGKTTAVLLLATELARSGHRVTVLDADPQLWISRWHDLSGEIENLSVISHVTMASLEGHIRENKTNTDCFIIDLPGAKSPLLTMALGISDHVLIPVQGSAMDARGAAEVLDHIEFLNRKMGKAIAHSIVLTRVNAMVATRSLLLVKMLLAEKNVSVLNTPIVERAAYRDIFDYGGTLLCLDKDKVSNIDKAVENAKAFATEVVGLLPKRLLRLGTQPARLFTRKAA				NA	NA	NA	NA	NA
BMS010_01269	648	comR_1		HTH-type transcriptional repressor ComR	ATGATCGTTTCCTATATTCCGGCCATGAGCAATATCAACCACACCAATTCACCGGAACAGCGCTATCGCGGCAGGCCGCGCGAGTTTGACGTCGACCGCGCGCTCGATGGGGCGATCCGCGTTTTTTCGCGACGGGGTTATCACGCCACCTCCGTCGGTGACCTTACCGATGCGATGGAGCTGGCGCAGGGCAGTCTTTACAAGGCTTTCAAGGACAAGAAAGCCATCTTCATCGCCACGATGGAACGCTACAGGATCGTGCAGACCGAGCGTTTCGAGGCGGCGGTAGCTGTTTTCGATACCGGTTATGAGCGCATTAGGGCAGGCCTGATGTTCTATGCGGAACGGTCGCATGGCGGTGTCGGTTCCGATGGATGTCTTGTGGTTGGTGCTGCTGCCGATCTGGCGGCTCTGGATGACGATATTGCAATCGTGGTCGAGCGGGCGGTGAAGGCGAGGGAGCGAATTGTCGCCCGCCTCGTTGCTGAAGGGCAGAAGGATGGTTCCGTGCGTTCGAAGGCCGATCCCGATGATCTCGCCCGGGCGATGCTGTGCATGATGTACGGCATGCGCGTGGTTGGAAAGACGGGGCGCAGCCTCAAAGACATGGTGGCCGTGGTGGATATCGCCATGAAGCTTGCCGATTGA	MIVSYIPAMSNINHTNSPEQRYRGRPREFDVDRALDGAIRVFSRRGYHATSVGDLTDAMELAQGSLYKAFKDKKAIFIATMERYRIVQTERFEAAVAVFDTGYERIRAGLMFYAERSHGGVGSDGCLVVGAAADLAALDDDIAIVVERAVKARERIVARLVAEGQKDGSVRSKADPDDLARAMLCMMYGMRVVGKTGRSLKDMVAVVDIAMKLAD				NA	NA	NA	NA	NA
BMS010_01270	1206			hypothetical protein	ATGACGACGCGTGTAATTGAAGGGGATGATGTCGAGGCAACATCCATTTCCCCGGCCTTGACGTTCCTCTTGGCGACAGCCTGCGGACTGATTGCCGCCAATCTTTATTATGGCCAGCCGCTAGCCGGCATCATCGGGGCGGAGCTTGGTCTTTCTGCCGGTGCGACGGGGCTGATCGTGACCCTGACCCAGATCGGTTATGGCATCGGTCTGCTGTTTGTCGTGCCGCTCGGCGATCTTGTTGAAAACCGCAAGCTGGTGGTCAGCGCCGTTGCGATGGCGGTGCTTTCCCTTGTGGCGGCAGCATTTGCGCCGCATGCGGCCCCGTTTCTGATTGCGGCCTTTCTGGTCGGCGTCAGTTCCGTGGCGGTGCAGGTCATCGTTCCCTATGCCGCCCACATGGCGCCGCATGCCATTCGCGGCCGGGTGGTCGGCAATGTCATGAGCGGGCTGATGGCCGGCATCATGCTGGCGCGCCCGGTTTCCAGCCTGCTGTCTGAAGTGGTCTCCTGGCGCGGTGTGTTTCTGACCTCGGCGGCCGTCATGGCGCTTCTTGCCGTGGTGCTTTTCCGGCTTCTGCCCGCCCGTATGCCCGATGCGCGGCTGAGCTATGGGGCCTTGATGGCTTCGATGGGCCGGCTGGCGCTGCACACGCCGATCCTGCGGCGGCGGGCGATCTATCACGCCTTCCTGTTTGCGGCCTTCAGCCTGTTCTGGACCACGACGCCGCTTTATCTGAGCGGACCGCATTTCAATCTGAGCCAGGGTGAGATCGCGCTTTTCGCGCTGGCCGGTGCGGCCGGCACCGTGGCCGCGCCGATTGCCGGGCGGATGGCGGACCGTGGCTGGACGCGTGCGGCCACCTTCTTTGCCCTGGTGGCGGTGGCGCTCTCCTTCGCCGTCACACATCTTGCGCCCGAAGGCTCGCATCTCGCGCTCGCCATTCTGGTGGTCGCCGCCATCGTTCTGGATTTCGGCGTCACCACCAATCTGGTGCTTGGCCAGCGTGCCATCTTCACGCTCGGAGCGGAATTCCGCAGCCGTTTGAACGGCATCTATATGGCAACGTTCTTCATGGGCGGCGCAATCGGCTCCGCCGTTGGCGGCTGGGCCTATGCCGTCGGCGAATGGCAAGCCGCCTCTTGGATCGGCTTCGCCTTGCCGGTGGCAGCCCTGCTTTATTTCCTCACGGAAAAACGTGACTGA	MTTRVIEGDDVEATSISPALTFLLATACGLIAANLYYGQPLAGIIGAELGLSAGATGLIVTLTQIGYGIGLLFVVPLGDLVENRKLVVSAVAMAVLSLVAAAFAPHAAPFLIAAFLVGVSSVAVQVIVPYAAHMAPHAIRGRVVGNVMSGLMAGIMLARPVSSLLSEVVSWRGVFLTSAAVMALLAVVLFRLLPARMPDARLSYGALMASMGRLALHTPILRRRAIYHAFLFAAFSLFWTTTPLYLSGPHFNLSQGEIALFALAGAAGTVAAPIAGRMADRGWTRAATFFALVAVALSFAVTHLAPEGSHLALAILVVAAIVLDFGVTTNLVLGQRAIFTLGAEFRSRLNGIYMATFFMGGAIGSAVGGWAYAVGEWQAASWIGFALPVAALLYFLTEKRD				NA	NA	NA	NA	NA
BMS010_01271	1389			hypothetical protein	GTGAAACAGTTTCTTAACGCAGCTCTGGGTCTGACAGTCGCGCTGGCGGCAGCTATCGCCCCGCTACAGGCTGGCGCGCAGCAGCGTTATGGCGATCAGCAGACGATGCTGGTGACCCCTGATGGTCGTGTGCTCGACTTCATGCCGGAGCGCGGCGATATCGTCATCAGCCGCGATTCCATGGGACGCACGGTGTTTTACGACCAGTACGGCAATCTCCTCGCCACCGAAATGCCCTCGGGCTACCAGCAGCGGCAGCAGGCGCGCCAGCGCGACACCACCTATTATCCGCCCGCCCCCGGCGGCCAGTATCGTGAGCCGCAGCGCGACTACGGCTATCAGGAGAATGGCAGCGTGCGCGATTACCGCGAATATCGCGGCGATGGTTCCGACGAGAATTTCTACACCGGCTCCGTTCCCGCACCCGGTGCGGTGGAAAGCGGTCCGCTCGGCCAGCCGATGCCGGGCGAAAGCACCACCGCCGCCGTTCCGCAGCCGGACCACCTGATCGAGCGCCATACGCCGGTAACAACGCCCGTCAATCGCTCGCGCCAGGAAATCGTCGCGCTCCAGACATTCCTCGACCGTGAAGGCATCTCGCCCGGCGTTATCGACGGCAAGATGGGCGACAACGTCAACAAGGCGATTGCCGCCTGGCAGGACATGACCGGCGAGAAGCTCGACCCCAACAATTCCGATGACATTCTGGAGCGTCTGCGCGCATCCGGCGGCATGCCGATCGTCGATTACACCATTACCGCCGCCGACGCCGCCGGCCCCTACGTCGCCTCCATCCCGGACGACTATGCCGAGAAGTCGCAACTGCCTGCCCTCTCCTTCACCTCAACGTCGGAAGCGCTCGCCGAACGTTTCCACATGGATGAGAACTATCTGAAGGAACTGAACCCCGGCATCGATTTTTCCGTGCCCGGCACCATCATCAAGGTCGTCAATCCGGGCGAGACGAAAAAGGGACAGGTTGCCCGCATCGTCGCGCATAAGGGCATCAAGCAGGTCTTCGCCTATGGTCAGGACGGCAATCTGATTGCCGCCTATCCGGCCACCATCGGTTCCACGGACACGCCCTCGCCAAGCGGCACGCACACGGTGGAGCGCATCGCGCTCAATCCCGGCTACACCTATAATCCGAAGATCAACTTCAAGCAGGGCCAGAACGACAAGATCCTGCAAATCCCGCCGGGTCCGAACGGCCCGGTCGGCACGGTCTGGATTGCGCTGTCGAAGCCGACCTATGGCATTCACGGCACGCCGGAACCCTCGAAGATCGGCAAGACCAACAGCCACGGCTGTATCCGCCTGACCAACTGGGATGCGACCGAACTGGCGAAAATGGTCCGCCCCGGCGTGGTGGTCGAATTCGCGGAATAG	MKQFLNAALGLTVALAAAIAPLQAGAQQRYGDQQTMLVTPDGRVLDFMPERGDIVISRDSMGRTVFYDQYGNLLATEMPSGYQQRQQARQRDTTYYPPAPGGQYREPQRDYGYQENGSVRDYREYRGDGSDENFYTGSVPAPGAVESGPLGQPMPGESTTAAVPQPDHLIERHTPVTTPVNRSRQEIVALQTFLDREGISPGVIDGKMGDNVNKAIAAWQDMTGEKLDPNNSDDILERLRASGGMPIVDYTITAADAAGPYVASIPDDYAEKSQLPALSFTSTSEALAERFHMDENYLKELNPGIDFSVPGTIIKVVNPGETKKGQVARIVAHKGIKQVFAYGQDGNLIAAYPATIGSTDTPSPSGTHTVERIALNPGYTYNPKINFKQGQNDKILQIPPGPNGPVGTVWIALSKPTYGIHGTPEPSKIGKTNSHGCIRLTNWDATELAKMVRPGVVVEFAE				NA	NA	NA	NA	NA
BMS010_01272	834			hypothetical protein	TTGCGTTCGTTTCAGGCTGGCAGATCGCCACGCATTTTCCTCGATGAAACCTCCGTTTTCGATATCGGCTCCTGCGTCGTCGATGGCATCGACATCGCGCCCGGCCGCGCCATTCCTGACGATGGCGATGCGCGCATCGACCACTCTCTGGAAGGCTTTCTGTTCACCTGCGGCCCCGACCATATCCGCCATCCCGAGCCGATCGATGGCGACGGTGAGGGACGTCGATATCCGCTGCATGGGTCCTTTTCCTCGCATCCCGCGACGGTCATTGCGTTCGATGTTCAAGAGTCCAATGCATTGGCGCGCGTCGAGGTTCCCGTGAAGCTTGCCGATGGCGGCACGGCCCTTCTGGAACGGACATGGCGTATCGACGGGGAGAGCGGCGAGGTCAGCCTCGATGACCGGATCGTCAACACGTCCGAGCGGCCCATCCCGGTGTTCCTGATGTATCATATGAATGTCGGCGCGCGCCTCTTCGACGATGCCGTGCGGCTTGAGGGCGCGATGCTGGATGGTGGCGGCCACGGCTGGCGTTTCGGCGAGGAGCCGGGCAATGTTTTCTGCGTTGCCGCCGGTGATGACGAGTGGGCGTCGCTTTCGCTCGGACCGATTGCGGCCATTGGCGGGAAGACGCTGACGGTGCGTTTTCGCACGGAAACGCTGCCCTATCTGCAGATGTGGCGCAACCAGCAGGCGCCGGCCAATGTGCTCGGCATCGAGCCGGTATCGCATCGCTGGGTGGGGCGGAGCGAGCTTGAGGCGGCCGGCGAGTTCAATATTCTCCAGCCTGGCGAAAGCCGTTCCTTCGGCCTGCGCTTTTCCATCCTCTGA	MRSFQAGRSPRIFLDETSVFDIGSCVVDGIDIAPGRAIPDDGDARIDHSLEGFLFTCGPDHIRHPEPIDGDGEGRRYPLHGSFSSHPATVIAFDVQESNALARVEVPVKLADGGTALLERTWRIDGESGEVSLDDRIVNTSERPIPVFLMYHMNVGARLFDDAVRLEGAMLDGGGHGWRFGEEPGNVFCVAAGDDEWASLSLGPIAAIGGKTLTVRFRTETLPYLQMWRNQQAPANVLGIEPVSHRWVGRSELEAAGEFNILQPGESRSFGLRFSIL				NA	NA	NA	NA	NA
BMS010_01273	339	blh_1	COG0491	Beta-lactamase hydrolase-like protein	ATGGATATCAGGCGCATAGACGACGAATATTCGGTAACGGGACAGATCAGCGTCGCCGATCTCGACGAGATCAAGGCGCTCGGCTTCAAGTCGATCGTCTGCCACCGCCCTGACGGCGAAGAAGACGGCCAGCCGCTTTTCGCCGATATTGCCGAGCGTGCCGAGCAGCTTGGCCTCACCATCATGCATGTGCCGGTTGGCCGTTACGGCGTCGATGCCGATGCCGTTGCCGGCATGGTGGATGCGCTGGACGAATTGCAGCGCCCGATGCTCGGCTATTGCCGTTCCGGCGCGCGCTCGACGGCGATTTACGAAAAGACCCATCACCTGCGCGGCTGA	MDIRRIDDEYSVTGQISVADLDEIKALGFKSIVCHRPDGEEDGQPLFADIAERAEQLGLTIMHVPVGRYGVDADAVAGMVDALDELQRPMLGYCRSGARSTAIYEKTHHLRG	PGPT0000065_248	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-SULFUR_MODIFICATION_PROTEINS,PGPT0000065-nifS|iscS-K04487	NA	NA
BMS010_01274	342			hypothetical protein	ATGACCATCAAGCGTATCGAGCCGGGCAAGCGCATGAGCGGCGCCGTCGTTCACGGCAACACCGTTTATCTGGCCGGCCAGGTTGGCGAAGGCACGAGCGTTACGGAACAGAGCAAGTCTGCTCTCGCTGAAGTCGACCGCCTGCTGGCCGCTGCCGGTTCGGACAAGTCGAAGATCCTGCAGACCATCATCTATCTCTCCGACATGTCCACCTTCGGCGAAATGAACGCCGTCTGGGAAGGCTGGATCGACCCGGCAAACCCGCCGGCCCGCGCCACCAGCGGCGCACCATTGGCGACGCCGGACTACAAGGTTGAGTTCATCGTGACCGCTGCTCTCTGA	MTIKRIEPGKRMSGAVVHGNTVYLAGQVGEGTSVTEQSKSALAEVDRLLAAAGSDKSKILQTIIYLSDMSTFGEMNAVWEGWIDPANPPARATSGAPLATPDYKVEFIVTAAL				NA	NA	NA	NA	NA
BMS010_01275	765			hypothetical protein	ATGCCGGATGCAGCCTCTCCCGTCATCACCCCACGCGGCGCAAAGATCGAGTCCTCGGCCGGTGCGCCTTTCGAGGCCGTGCGCGTGGCCCGGGACGTCTTGCACACTTCCCGCGCGGCAGCGCTTGCGACCCTCGATCCGGTCAGCGGTTATCCCTATACGACCGCCACCAATATCGGCATCGAGCCGGACGGCACGCCGTTTTTCTTCGCGGCGGGGCTGACGCTGCACGCCCGCAACATGGAGGCGGACGCGCGCATCTCGCTGACGCTCGCCCCCTTCGGCAAGGGAGATGCGCTGACGCTGCCGCGGCTGACAATGGTGGGCAAGGCGGAACAAATCGGCCCGGATGAAGCGCCGCTCGCCATCGCGCGCTACATTGCCCGCTACCCCAAAGCGAAACTTTATCTCTCCCTTCCCGACACGCGGCTTTACCGGTTGCGGACGGAAGGTGTGCAGATCAATGGCGGCCCGGCCCGCAATGCCAGCAACATCACCCCGGCCGATCTGCGCACCAATCTCTCAGGCGCAGACGAACTGATGGCGGCGGCGGAAAGCGAAGCGACCCGCCTCAACGCCATCAAGGGCGAAGCGTCCCGGCTCGCCGTTCTGGCCGGCGCAAAAACTGGCCGCTGGACGATAACCTCCATCGACCCGGATGGCATCGATCTCGCCTCGGCCAGCGATCTGGCGCGACTGTGGTTTGCGGAGCGGGTGACGACGTTGAAGCAATTTGAGAAGGCGCTTGCTTCGCCGGTGAGGTGA	MPDAASPVITPRGAKIESSAGAPFEAVRVARDVLHTSRAAALATLDPVSGYPYTTATNIGIEPDGTPFFFAAGLTLHARNMEADARISLTLAPFGKGDALTLPRLTMVGKAEQIGPDEAPLAIARYIARYPKAKLYLSLPDTRLYRLRTEGVQINGGPARNASNITPADLRTNLSGADELMAAAESEATRLNAIKGEASRLAVLAGAKTGRWTITSIDPDGIDLASASDLARLWFAERVTTLKQFEKALASPVR	PGPT0003615_205	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-HEMOPHORES-HEME|HEMIN_UTILISATION,PGPT0003615-hugZ|hutZ|chuZ-K07226	NA	NA
BMS010_01276	1668	ilvG_1		Acetolactate synthase isozyme 2 large subunit	ATGACTGCAGCCGGAATGAAGAGAACAGGCGGGCAATTGATCGTCGAAGCGCTGAAGGCCAATGGCGTCTCTCGCGTTTCCTGCGTTCCGGGCGAAAGCTATCTCGCCGTGCTGGATGCGCTTTATGAAAGCGGCATCGAAACCGTGGTCTGCCGCCAGGAAGGCGGCGCCGCCATGATGGCCGACACATGGGGCCGGCTGACGGGTGAACCCGGCATCTGCATGGTGACCCGCGGACCGGGCGCCACCAATGCCTCGGCGGGCCTGCACATCGCAAGGCAGGATTCCATTCCGATGATCCTCTTCATCGGTCAGGTTCAGCGCGAAGCGCGTGAGCGCGAGGCGTTTCAGGAAGTGGAATATCGCCGCGCCTTCACCGAATTCGCCAAATGGGTGGGTGAGATTGACGATGCGCGCCGCATCCCCGAATTCGTCACCCGCGCCTTTGCCGTCGCCACCTCCGGCCGCCCCGGCCCGGTGGTGCTGACGCTGCCCGAAGACATGCTGGTGGAAGAGGTCGAAGCGCCCGAAGCAAAGCCCTATACTCCGGTCGAAGCGCATCCCGGCCCGTCACAGATGGCCGCCTTCGCAAAAATGCTTGGCGAGGCGAAGCGCCCGGTCTTCATCATCGGCGGCACACGCTGGTCCGAGGAAAGCGTCGCAGGCTTCAAGGCATTTGCGGAAAACAACAAGCTGCCCGTTGGCTGTTCCTTCCGCCGCCAGATGCTGTTCGATCATCTGAGCCCCTCCTATGCGGGCGATGTCGGCATCGGCATCAACCCGGCGCTGGCCAAGGAGATCAAGGAGGCCGATCTCGTGGTGCTGCTCGGCGGCCGCCTCTCCGAAATGCCGTCTTCCGGCTATACGCTGCTCGACATCCCCTACCCGTCGCAGAAACTCGTCCATATTTATCCGGAAGCCGAAGAGCTTGGCCGCGTTTACCGTCCCGATCTGGCAATCTGCGCCGCACCGGACGATTTTATCGCCGCCCTCTCCTCCATCGCACTTTCCGGCAGTGCGGCATGGGCGGATCGCACCGCCGCCATGCATGCGGCCTATCGCAGCTGGTCCACCCCGCCGAAGACCGGCCCCGGCGCTGTGCAGATGGGTCCGATCATGGACTGGATCGAGGCCAATGTGCCCGAGGACGCGATCTTCACCAATGGCGCGGGCAACTATGCCACCTGGGTCCATCGCTTCCACCGTTTCCGTCGCTACAATACACAATCGGCCCCGACATCAGGTTCGATGGGTTACGGCCTCCCGGCGGCGGTTGCCGCAAAGCACCTTTTCCCGGAGCGTGAGGTGATCTGCTTTGCCGGCGACGGCTGTTTCATGATGCATGGGCAGGAATTCATCACCGCCGTGCGTTACGGTCTGCCGATCATCACCGTACTGGTCAATAACGGCACCTACGGCACGATCCGCATGCATCAGGAGCGGGAATATCCCGGCCGCGTCAGCGGCACCGATCTTGTCAATCCGGATTTCAACGCCTTTGCCAAAGCCTATGGCGGCCACGGCGAAACGGTGGAAAGAACGCAAGACTTCGCCGCCGCTTTCGAACGGGCGCGGGCAAGCGGCAAGCCGGCCATTATCGAGGTAAAGCTGGATGCCGAAGCGATCACGCCGACGCGTACCCTGACGCAGATCAGGACCGGAAGCTGA	MTAAGMKRTGGQLIVEALKANGVSRVSCVPGESYLAVLDALYESGIETVVCRQEGGAAMMADTWGRLTGEPGICMVTRGPGATNASAGLHIARQDSIPMILFIGQVQREAREREAFQEVEYRRAFTEFAKWVGEIDDARRIPEFVTRAFAVATSGRPGPVVLTLPEDMLVEEVEAPEAKPYTPVEAHPGPSQMAAFAKMLGEAKRPVFIIGGTRWSEESVAGFKAFAENNKLPVGCSFRRQMLFDHLSPSYAGDVGIGINPALAKEIKEADLVVLLGGRLSEMPSSGYTLLDIPYPSQKLVHIYPEAEELGRVYRPDLAICAAPDDFIAALSSIALSGSAAWADRTAAMHAAYRSWSTPPKTGPGAVQMGPIMDWIEANVPEDAIFTNGAGNYATWVHRFHRFRRYNTQSAPTSGSMGYGLPAAVAAKHLFPEREVICFAGDGCFMMHGQEFITAVRYGLPIITVLVNNGTYGTIRMHQEREYPGRVSGTDLVNPDFNAFAKAYGGHGETVERTQDFAAAFERARASGKPAIIEVKLDAEAITPTRTLTQIRTGS	PGPT0008185_7911	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008185-budB|ilvK|alsS|ilvB|ilvG|ilvI-K01652	NA	NA
BMS010_01277	1203	yfdE_1	COG1804	Acetyl-CoA:oxalate CoA-transferase	ATGACCGACATGCCAAACAGGAAACCGCCGCTATCGGGCATTCGCGTCATCGAACTGGCGCGTGTTCTGGCCGGTCCCTGGGCAGGGCAGATGCTGGCCGATATGGGTGCCGACGTCATCAAGGTGGAAAACCCCGAGGGCGGCGACGATACACGCGCATGGGGACCGCCTTTCGTCGAAAGCGACGATGGAGAAAACCTCTCCGCCGCCTATTACCACGCCACCAATCGCGGCAAACGCTCCATCGTCGCCGATCTGAAGACGTCCAAGGGCTGCGAGCTGGTGCGCCGGCTGGTGCGCACCGCCGATGTCGTCATCGAAAATTTCAAGCGCGGCGGGCTTGCCAAATATGGCCTCGACTACGAGAGCCTGAAGGCGCTCAATCCGAAGCTGATCTATTGCTCCATCACCGGCTTCGGCCAGACCGGGCCTTATGCCGATCTCGCCGGATACGACTATATCGTGCAGGGCATGTCCGGCTTCATGTCGATTACCGGCGAAGCCGACGGCCAGCCGATGAAGGCGGGCGTGGCGGTTGCCGATATCTTCACCGGCATCTATTCCGTGTCAGCCATTCAGGCGGCGCTGATCCACGCCATCCGCACCGGCGAAGGCCAGCATATCGACATGGCGCTTCTCGATGTGCAATCGGCCGTGCTCGCCAACCAGAACATGAATTACCTGATTTCCGGCAAGCCGCCCGTCCGGCTCGGCAACGCCCATCCGAATATTTCCCCCTATGAGGTGGTGCCGACGGCTGACGGTTTCCTGATCCTGGCGGTCGGTAATGACGGCCAGTTCCGCCGCCTCTGCACCATTCTCGGCATCGGTGCGATTGCCGATGACGAACGTTACGCGACGAACAAGGCCCGCGTGGCCCATAAAGCGGAAGTCCGGCAGATCGTTTCCACCGAAACGCTGAAATGGCAGAAGCGCGATCTTCTGACCGCCTGCGAAAAGAACGCCGTCCCCGCCGGACCGATCAATTCCATCGAGGAAATGTTCGCCGACCCGCAGGTGAAAGCCCGTGGCCTTCGCGTCGATCTGGAGGCGGAAGACGGCACCGTCATTCCCGGGGTCCGAACACCCATTATCATGTCGCAAACGCCGCTGCGCTATGAACGCCCGAGCCCCAAGCTCGGCGAACATCAGGCGCAGGTGCTGGCCGAACTGGAAAACATCGAAAGGACCACGACGCCATGA	MTDMPNRKPPLSGIRVIELARVLAGPWAGQMLADMGADVIKVENPEGGDDTRAWGPPFVESDDGENLSAAYYHATNRGKRSIVADLKTSKGCELVRRLVRTADVVIENFKRGGLAKYGLDYESLKALNPKLIYCSITGFGQTGPYADLAGYDYIVQGMSGFMSITGEADGQPMKAGVAVADIFTGIYSVSAIQAALIHAIRTGEGQHIDMALLDVQSAVLANQNMNYLISGKPPVRLGNAHPNISPYEVVPTADGFLILAVGNDGQFRRLCTILGIGAIADDERYATNKARVAHKAEVRQIVSTETLKWQKRDLLTACEKNAVPAGPINSIEEMFADPQVKARGLRVDLEAEDGTVIPGVRTPIIMSQTPLRYERPSPKLGEHQAQVLAELENIERTTTP	PGPT0002130_682	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0002130-frc|yfdW-K07749	NA	NA
BMS010_01278	981		COG2267	Monoacylglycerol lipase	ATGAATGAAACGACCGACGACTTGGCCTTCAGCCGTATTCAGAGGCTGGAAGCCCCCTCCGGCGCATCCATCGCCTTTCGCCACCAGCCCTCCGCTCTTGCCACTGCGCGCGGCGTGCTGATGATCTGCCACGGGCTGGTTGACCACGCGGGCCGTTATCGCCGGCTCGCGGATGTGATGTCGAAGCAGGGTTTCGAAGTCTACGCCCACGACCATCGCGGCCATGGCCGCACGAGAGCGGCGGACGCGCCTCTCGGCCGTTTTGCCTGGAAGGACGGCGCGGAAAAGGTCGTTGCCGATGTCATGGCGATGCGCCTGATGGCCGGCGAAAGACATCCCGGCCTGCCGGTAATCCTGTTCGGCCATTCCATGGGCGGCCTCGTGGCGCTCAACACCGCCGTCAGCCATCCGGATGCCTTCGATGGCCTGTCCATCTGGAATTCCAGCCTCAATCCCGGCCTCATGGGCCGTTTGGCACAGGTTGTGCTGCGGCTGGAAAAGATGCTGAAGGGCTCGGATGTGCCGAGCGCCATTCTGCCGAAGGCGACCTTCCGCGTGTGGAATGCGAAAATGCCGGAAAGGCGCACCCATGCCGACTGGCTGAGCCACGACAGGGCGGCGGTGGACGCCTATGTGGAGGACCCGCTCTGCCAGTTCGAGGCGAGCGTTTCCCTGTGGCAGGATGTCTTCGAACTCTCCTATCGCGCACCGAAACTCATCGAGCGCCTGCCGAAAACCTTACCGCTTCTGCTTGTCAGCGGCGATCAGGACAAAGCCACCAATGACGGCAAGGAGATCGTCTGGCTGGCGGAGCGTTTCCGCGAGGCAGGTTTCAGCCATGTCGAGCACACGATCTACAAGGGCATGCGACACGAGACTTTGAACGAAATCGGCTGGCAGCCCGTCGCGGCGGATTTTGCCGCCTGGTGCGGCCGCGTCGTGGATGACAGTAAAACGCCCTCCCCGTCATTCCGGCCTTGA	MNETTDDLAFSRIQRLEAPSGASIAFRHQPSALATARGVLMICHGLVDHAGRYRRLADVMSKQGFEVYAHDHRGHGRTRAADAPLGRFAWKDGAEKVVADVMAMRLMAGERHPGLPVILFGHSMGGLVALNTAVSHPDAFDGLSIWNSSLNPGLMGRLAQVVLRLEKMLKGSDVPSAILPKATFRVWNAKMPERRTHADWLSHDRAAVDAYVEDPLCQFEASVSLWQDVFELSYRAPKLIERLPKTLPLLLVSGDQDKATNDGKEIVWLAERFREAGFSHVEHTIYKGMRHETLNEIGWQPVAADFAAWCGRVVDDSKTPSPSFRP	PGPT0023520_1006	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_LYSOPHOSPHOLIPASE_ACTIVITY,PGPT0023520-pldB-K01048	NA	NA
BMS010_01279	1650	ettA_1	COG0488	Energy-dependent translational throttle protein EttA	ATGGCACGTCAATTCATCTATCACATGGCCGGGCTGAACAAGGCCTACGGTGCGAAGAAGGTTCTGGAGAACGTTCATCTCTCCTTCTACCCCGACGCCAAGATCGGTATCCTCGGCCCGAACGGCGCCGGTAAGTCGACTGTTCTGAAAATCATGGCCGGCCTAGACAAGGAATATACCGGTGAAGCCTGGCTCGCCGAAGGTGCTACGCTCGGTTACCTCGAGCAGGAGCCGAAGCTCGACGAAAACAAGACCGTGATGGAAAACGTCATGGAAGGCGTGGCGAGCAAGACGGCGATCGTCGACCGCTACAACGAATTGATGATGAACTATTCCGACGAAACGGCGGATGAGGGCGCAAAGCTTCAGGACATCATCGACAGCCAGAATCTCTGGGACCTGGAAAACCAGGTCGAGATGGCCATGGACGCGCTGCGTTGCCCGCCCGGCGACTCGGCTGTAACCGGTCTTTCCGGTGGTGAACGCCGTCGTGTGGCGCTCTGCCGTCTGCTGCTGTCGCAGCCGGATCTGCTGCTGCTCGACGAACCGACCAACCACCTCGATGCGGAAACCATTGCGTGGCTTGAAAAGCACCTGCGCGATTATCCCGGCGCCGTGATGATGATCACCCACGACCGCTACTTCCTCGACAACGTCACGGGCTGGATTCTCGAGCTCGACCGGGGTCGCGGCATTCCTTACGAAGGCAACTACTCCGCTTACCTGCAGGCGAAAGCCAAGCGCATGCAGCAGGAAGCCCGCGAAGACGCCTCGCGCCAGAAGGCCATCAGCCGCGAACAGGAATGGATCGCCTCCAGCCCCAAGGCCCGCCAGACGAAGTCCAAGGCACGTATCAAGGCCTATGACGAGCTGGTGGAAGCAGCGGAAAACCGTCGTCCCGGCGATGCGCAGATCGTTATCCCGGTTGCCGAGCGTCTCGGTCGCGTCGTCATCGAAGCCGACAACCTGACGAAGTCCTATGGCGACCGCGTGCTGATCGAAAACCTGTCCTTCAAGCTGCCCCCCGGCGGTATTGTAGGCGTCATCGGCCCGAACGGCGCCGGTAAGACGACGCTGTTCAAGATGATTACCGGCCAGGAAAAGCCTGATAGTGGCTCCGTGACCGTTGGTGATACCGTTCAGCTCGGTTACGTCGACCAGAGCCGTGACGCGCTGGCGGGTGACAAGACCGTGTGGGAAGAAATCTCCGGCGGCAACGACATCATCAAGCTCGGCAAGTTCGAAGTGAACTCGCGCGCCTATTGCGGCGCCTTCAACTTCAAGGGCGGCGATCAGCAGCAGAAGGTCGGCAATCTCTCCGGCGGTCAGCGTAACCGCGTGCACCTCGCCAAGATGCTGAAGGCCGGCGGCAACGTTCTGCTGCTCGACGAACCGACCAACGACCTTGATACGGAAACGCTGGCAGCACTTGAAGAAGCGCTGGAAGCCTTTGCCGGTTGCGCCGTTATCATCAGCCACGACCGCATGTTCCTCGACCGTCTGGCCACGCACATCCTCGCTTTTGAGGGTGACAGCCATGTGGAATGGTTCGAAGGCAACTTCGAAGACTACGAAAAGGACAAGGTCCGCCGCCTCGGCCCGGAAAGCATCAAGCCCGGCCGCGTGAGCTACAAGCGCCTGACGCGCTGA	MARQFIYHMAGLNKAYGAKKVLENVHLSFYPDAKIGILGPNGAGKSTVLKIMAGLDKEYTGEAWLAEGATLGYLEQEPKLDENKTVMENVMEGVASKTAIVDRYNELMMNYSDETADEGAKLQDIIDSQNLWDLENQVEMAMDALRCPPGDSAVTGLSGGERRRVALCRLLLSQPDLLLLDEPTNHLDAETIAWLEKHLRDYPGAVMMITHDRYFLDNVTGWILELDRGRGIPYEGNYSAYLQAKAKRMQQEAREDASRQKAISREQEWIASSPKARQTKSKARIKAYDELVEAAENRRPGDAQIVIPVAERLGRVVIEADNLTKSYGDRVLIENLSFKLPPGGIVGVIGPNGAGKTTLFKMITGQEKPDSGSVTVGDTVQLGYVDQSRDALAGDKTVWEEISGGNDIIKLGKFEVNSRAYCGAFNFKGGDQQQKVGNLSGGQRNRVHLAKMLKAGGNVLLLDEPTNDLDTETLAALEEALEAFAGCAVIISHDRMFLDRLATHILAFEGDSHVEWFEGNFEDYEKDKVRRLGPESIKPGRVSYKRLTR				NA	NA	NA	NA	NA
BMS010_01280	1014	COQ5_2		2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial	GTGGCGTTCGGTCTGGACAAATTGGTGGATCTTCTGAAGGCGGCGGGTGAGCCGACGCGCTTTCGCTTGCTGGCGCTTCTTTCGGCCGGCGATCTGACTGTCACCGATCTTACCGAAATTCTCGGCCAGTCGCAGCCGCGCATCTCCCGTCACCTCAAGCTTTTGACGGAAGAGGGGCTGATCGAGCGTTATCAGGAAGGCGCCTGGGCCTATTTCCGCTTGCGGCAGGATGGTGAGCCTGCGGGCCTCGTCCGGCAGCTGCTTGGCGCCGCATCGCCGTCTGACGCGGTTCTCCAGCGCGACAGCGAACGGCTTGCCACTGTCAAGCGGGTGCGGGCGGAGCGGGCGCAGGATTATTTCAGCCGCAACGCCTCCGCCTGGGACGAGCTGCGCCGCCTGCATGTCAGCGACGAGGCGGTGGAAGGCGCGCTCCTGAAGCTGGTGGGCACCACGCCGGTCGATTCGCTGCTCGACCTCGGCACGGGCACCGGCCGCATCCTGCAGCTGCTGAGCGGTATCTATCGCCGCGCGATCGGTGTGGATGCCAGCCGTGACATGCTCTCGGTGGCGCGTGCCAATCTCGACAAGGCGGGCGTGGTCAATGCATCCGTGCGCCATGGCGATATTCTCAATCTGCCGCTGGAGGGCCAGGATTTCGATCTGATCGTCATCCATCAGGTTCTGCATTTTCTCGACCAGCCGGAGATTGCGCTTTCCGAGGCCGCGCGCATGCTGCGCCCCGGCGGGCGGCTGATCGTTATCGATCTTGCGCCGCATTCCTTCGAATATCTGCGCGACGAGCATGCGCATGTGCGGCTCGGTTTCTCGCATCCGCTGATGGAAGAATGGCTGAAGAAGGCCGGACTTTCTCTGGAGCGTGCCGTCGATCTTCATTCTGAAAAGGCGTCCGACGAAGCTCTGGATGTTACGATTTGGGTTGCCCGTGACCAGCGGCTGCTGATGGCAGACGATGTGGTGCAAGAGGCCGTTTTACTTGCTGCCGGGAGGGCATGA	MAFGLDKLVDLLKAAGEPTRFRLLALLSAGDLTVTDLTEILGQSQPRISRHLKLLTEEGLIERYQEGAWAYFRLRQDGEPAGLVRQLLGAASPSDAVLQRDSERLATVKRVRAERAQDYFSRNASAWDELRRLHVSDEAVEGALLKLVGTTPVDSLLDLGTGTGRILQLLSGIYRRAIGVDASRDMLSVARANLDKAGVVNASVRHGDILNLPLEGQDFDLIVIHQVLHFLDQPEIALSEAARMLRPGGRLIVIDLAPHSFEYLRDEHAHVRLGFSHPLMEEWLKKAGLSLERAVDLHSEKASDEALDVTIWVARDQRLLMADDVVQEAVLLAAGRA	PGPT0008160_12	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008160-metF-K00297	NA	NA
BMS010_01281	894	metF_1	COG0685	5,10-methylenetetrahydrofolate reductase	ATGTTGAGGTCGGAAACCGCGCGCCGTGATGGCGATATCCGGTTGTCTTTCGAGTTTTTCCCGCCCAAGAATCCCGAGATGGAAACCCAGCTCTGGGAAACGGTTGCCGAGCTGAAGAAATGGAACCCGGATTTCGTGTCCGTCACCTATGGCGCCGGCGGTTCCACCAAGGCGCCGACGCTGGATGCGGTGCGCCGGATGATCGGCGACAGCCATCTGGCGACCGCTGCACATCTGACCTGCGTGGATGCCAGCCGTGAGGACGTGCATCAGGTCATTGAAGAGTTTCGCAATGCCGGCGTTCGTCATTTTGTGGCGCTGCGCGGCGATCCCTCCACTGGCATCGGCACGGCGTATAAGCCACATCCGGAAGGGTATGAGAACGCCGCCGCTCTGGTGAAGGGGCTGCGTGAAATTGCCGATTTCGAGATTTCCGTGTCGGCCTATCCGGAAAAACACCCGGAAAGCGCAAGCGAAGCGGTCGATATCGATATGCTGAAGCGCAAGGCGGATAATGGCGCGACGCGGGCGCTGACGCAGTTCTTCTTCGATAATGACGTGTTCGAACGCTATATGGAGCGGGTGACGGCTGCGGGCATCACCATTCCGGTGGTTCCGGGCATCATGCCGATCCAGAACCTCACCCAGCTCAAGCGTTTCGCCGGCCGTTGCGGCACCAGCATTCCCGGTTTTCTGGATGAGCGTTTCGAAGGTTATGACGACGATCTGGAAGGTCGTGCCCGCGTGGCCGCGGAGGTTGCCGCCGAGCAGATCGCCGATCTTCAGCGGCGTGGCGTCAATGAATTCCATCTCTACACCATGAACCGCGCGCCGCTGGTTGATGCGGTGCTTGAAAATCTCGGGCTGGAGCGTCTGCGCCGCAGCGCCGCCTGA	MLRSETARRDGDIRLSFEFFPPKNPEMETQLWETVAELKKWNPDFVSVTYGAGGSTKAPTLDAVRRMIGDSHLATAAHLTCVDASREDVHQVIEEFRNAGVRHFVALRGDPSTGIGTAYKPHPEGYENAAALVKGLREIADFEISVSAYPEKHPESASEAVDIDMLKRKADNGATRALTQFFFDNDVFERYMERVTAAGITIPVVPGIMPIQNLTQLKRFAGRCGTSIPGFLDERFEGYDDDLEGRARVAAEVAAEQIADLQRRGVNEFHLYTMNRAPLVDAVLENLGLERLRRSAA	PGPT0008160_2228	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008160-metF-K00297	NA	NA
BMS010_01283	1227			hypothetical protein	ATGCCCACGTTCCGGTCGCGCAGCATCGTTTTTGCCGCCGCTTTGTCGTTTCTTTCCACCGGCTCCGCCCTCGCCACACCGCCAGTGGCCGCGCCCGACGATCCCAAGCAGGTTGCCTGCGGCGGCGATCTCGGTGCATTTCTCGAAGGCGTGAAAGCCGACGCACTTGCCAAGGGCATTCCGGCCGATGCGATCCAGAAGGCGCTTGCCGGCGCGCAGATCGACCCGAAGGTGCTCTCGCGTGACCGTGCACAGGGCGTCTTCCGCCAGACCTTCCTGGAATTCTCCCAGCGCACCGTCAGCCAGGCCCGTCTGGATATCGGCCGCAAGAAACTTCAGGAACTCTCCTCCACCTTCGCCCGCGCCGAAAACGAATTCGGTGTTCCGGCCGGCGTCATCGCCGCCTTCTGGGCCATGGAGACGGATTTCGGCGCCGTTCAGGGCGATTTCAACACCCGCAACGCGCTTGTGACCCTCTCGCATGATTGCCGCCGCCCGGAACTCTTCCGCCCGCAACTGCTGGCGCTGATCGAAATGGTCCAGCACGGCGATCTCGATCCCGCCACCAATACCGGCGCATGGGCCGGTGAAATCGGTCAGGTGCAGATGCTGCCCAAGGACATCATCGCCTTCGGCGTCGACGGCGATGGCGACGGCCACATCAACGTCAAGAGCAGCGCCCCGGATGCGATCCTGACGGCTGCGAAGTTCATCCAGCATCTCGGCTTCAAGAAGGGCGAACCCTGGATTCAGGAAGTCTCGCTGCCGGAAAACCTGCCCTGGGAAAAATCCGGCCTCGGCGGTCCGCTGACCGCGGGTGACTGGTTCGCACTGGGCGTGACCCCGCGCGACGGCAACAGAAACTTCGCCACCCTGCCCGCTGCCCTCATCATGCCGCAGGGACGCAAGGGACCGACCTTCATCACCTATCCGAACTTCAACATCTATCTGGAGTGGAACCAGTCGTTCATCTACACGACCTCGGCCGCCTATTTCGCCACCCGCCTCATGGGCTCTCCCGTCTACAACAAGGGCAACCCGGAGCCCGGTTTCGATGATGCGACCATGAAAGAGCTTCAGACCAAGCTTGAAGCGCGCGGACACAATGTCGGCAAGGTGGATGGCATTCTCGGTTCCGGCACCCGCGTCGCCATCCAGAAGGAGCAGCAGCGTCTCGGAATGCCCGCCGATGGCTGGCCTTCGACCGCACTTCTGCAGGCGCTTTAA	MPTFRSRSIVFAAALSFLSTGSALATPPVAAPDDPKQVACGGDLGAFLEGVKADALAKGIPADAIQKALAGAQIDPKVLSRDRAQGVFRQTFLEFSQRTVSQARLDIGRKKLQELSSTFARAENEFGVPAGVIAAFWAMETDFGAVQGDFNTRNALVTLSHDCRRPELFRPQLLALIEMVQHGDLDPATNTGAWAGEIGQVQMLPKDIIAFGVDGDGDGHINVKSSAPDAILTAAKFIQHLGFKKGEPWIQEVSLPENLPWEKSGLGGPLTAGDWFALGVTPRDGNRNFATLPAALIMPQGRKGPTFITYPNFNIYLEWNQSFIYTTSAAYFATRLMGSPVYNKGNPEPGFDDATMKELQTKLEARGHNVGKVDGILGSGTRVAIQKEQQRLGMPADGWPSTALLQAL				NA	NA	NA	NA	NA
BMS010_01284	780			hypothetical protein	ATGCGGCTGCGTTTTTCGGCACTATTGTCGGCTTTGCTGTTGATCGGCGGCTGCACCTCCACCAGCTATGACCTGCTGGAAACCGCATCCGTTTCCAAGCCGAAATTTTCCGATACCGATCCGCAGGATTTCGGCACGAACAACCCGCACCGCCATGAGGTGCACGGCATCGACGTGTCCAAATGGAATGGCGATGTCGACTGGCCGACCGTGCGCAAATCAGGCGTGTCCTTCGTCTTCATCAAGGCGACGGAGGGATCGGACCGCATCGATCCCAAATTCGGCGACCATTGGCGCAGCGCGGCGGCGGCAGATGTTCTGCACGCGCCCTACCACTTCTATTATTTCTGTTCGACAGCAGACGCCCAGGCCGACTGGTTCATTCGCAACGTGCCGAAGGAGGCCGTCACCCTGCCCCCGGTTCTCGACGTTGAATGGAACCCGGCCTCGCCCACCTGCAAGACGCGCCCGGCGCCCGGCATCGTTCGTGCCGAGATGCAGCGTTTCCTCGACCGCATCGAAGCCCACTATGGCAAGCGTCCGATCATCTATACCTCGGTCGACTTCCACCGCGACAATCTCGTCGGCCAGTTCAAGGATTACCATTTCTGGGTCCGCTCCGTCGCCGCCCATCCGGCCAAGATTTACGAAGACCGCAAATGGGCCTTCTGGCAATATACTGCAACCGGCGTCGTGCCCGGCGTGAAGGGTCCGACCGACATCAATGTCTTTGCCGGAACGGAGAAAAACTGGCGGAAATGGATTGCTTCCGCCAAATAA	MRLRFSALLSALLLIGGCTSTSYDLLETASVSKPKFSDTDPQDFGTNNPHRHEVHGIDVSKWNGDVDWPTVRKSGVSFVFIKATEGSDRIDPKFGDHWRSAAAADVLHAPYHFYYFCSTADAQADWFIRNVPKEAVTLPPVLDVEWNPASPTCKTRPAPGIVRAEMQRFLDRIEAHYGKRPIIYTSVDFHRDNLVGQFKDYHFWVRSVAAHPAKIYEDRKWAFWQYTATGVVPGVKGPTDINVFAGTEKNWRKWIASAK	PGPT0019160_1248	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_DEGRADATIVE_GLYCOSIDASES|GLYCOSYLHYDROLASES	PLANT_DEGRADATIVE_GS|GH-LYSOZYME,PGPT0019160-acm-K07273	NA	NA
BMS010_01285	720	COQ5_3		2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial	ATGAAAACCATCGGCGAGAATGTGGGCCTTGCAGATAGCGCGCATGCGAGCCTGATGGACCGCATGTATCGCCACCAGCGGCATATCTACGATATCACCCGCAAATATTACCTTCTCGGCCGTGACCGGACCATTTCCGGCCTCGACGTGCCGAAGGGTGGCACGCTGTTGGAAGTCGGATGCGGCACCGGCCGCAACCTGCTGCTGGCCAGCCGCAAGTTTCCGCAGGCGAGACTGTTCGGCCTCGACATCTCCGCCGAAATGCTGCTGACCGCAGCCGAAAATTTCGCTGGCAAGGCGGAACGCCCCATTCTGCGCGTGGCCGATGCCACCGCTTTTCGCGCCTCCGAATTCGGCCAGCCCGACGGCTTCGACCGCGTCATGATCCCCTATGCCCTGTCGATGATACCGGACTGGGAAAAGGCGATCGAACAGGCGCTCACGGCGCTGAGACCCGGCGGCTCGCTGCATATCGTCGATTTCGGCCAGCAGGAACAATTGCCGAAGTGGTTCCGCACCCTTCTGCAAGCTTGGCTCACCCGTTTCCACGTCACGCCCCGCGCCAATCTCCGCTATGTTCTGGCCAATATGGCCGGCCGTTTCGACGGCAATCTCGAATTCGAGGAAATCGCCCGTGGTTATGCCTGGCGCGCTGTCATCACGCTTCCGGCTGCCGAAGCGCAACAGCCGAAGGTTCACCGCATATTGGCCGACGCCTGA	MKTIGENVGLADSAHASLMDRMYRHQRHIYDITRKYYLLGRDRTISGLDVPKGGTLLEVGCGTGRNLLLASRKFPQARLFGLDISAEMLLTAAENFAGKAERPILRVADATAFRASEFGQPDGFDRVMIPYALSMIPDWEKAIEQALTALRPGGSLHIVDFGQQEQLPKWFRTLLQAWLTRFHVTPRANLRYVLANMAGRFDGNLEFEEIARGYAWRAVITLPAAEAQQPKVHRILADA	PGPT0023675_40	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_METHLYTRANSFERASE_ACTIVITY,PGPT0023675-batB-K13623	NA	NA
BMS010_01286	1251			hypothetical protein	ATGACGAGTGCGGCACCCAAGACCGGCTTCAGCAAGAACACAAAACTGAAGTCCGCATTGCTCCAGCACAAGGCACTCTCCAAAAGCGGTTTGTCCGAGCGCTTCTTCGGCGTCCTCTTTTCCGGCCTCGTCTATCCGCAGATATGGGAAGACCCGGAAATCGACATGGAAGCTATGGAGCTTGGCGAAGGTCACCGCATCGTCACCATCGGCTCGGGCGGCTGCAACATGCTGGCCTATCTCTCCCGCAATCCGGCCAGCATCGATGTCGTGGACCTCAACCCGCACCACATCGCGCTGAACAAGCTGAAGCTCGCCGCCTTCCGCCATCTGCCCGCCCATCAGGACGTGGTGCGCCACTTCGGCCGCGCCAATACGCGCAGCAACAGCCACGGTTACGACCGCTTCATCGCCGAGCATCTCGACGCCACAACCAAGGCATACTGGTCGAAGCGCACCCTTACCGGCCGCCGCCGCATCTCTGTCTTCGACAGGAACATCTATCGCACCGGCCTGCTTGGCCGCTTCATCGGCGCCGGCCATCTCATGGCCCGTCTGCACGGCGTAAAGCTCACCGAAATGGCCAAAACCCGCACGCTGGACGAACAGCGCCAGTTTTTCGACAGCAAGGTGGCGCCATTGTTCGACAAGCCGGTGGTGCGCTGGCTGACGAAGCGCAAAAGCTCGTTGTTCGGCCTCGGCATTCCGCCTCGCCAATATGACGAGCTGGCCAGCCTCTCCGCCAATGGCACGGTCGCATCCGTGCTGAAGGCGCGGCTGGAAAAGCTCGCCTGCAACTTCCCGCTCAGCGACAATTATTTCGCCTGGCAGGCCTTTGCGCGCCGTTATCCCGAACCGCATGAGGGCGCGCTGCCCGCCTATCTCAAACCGGAATATTACGAGACGATCCGCAACAACACGGCCCGCGTTGCCGTGCACCACGCAACCTATACCGAGCTTCTCTCCAGAAAGCCGGCAAGCGCCGTCGACCGCTATATCCTCCTCGATGCGCAGGACTGGATGACGGACACGCAGCTCAACGAATTGTGGTCGCAGATCACCCGCACCGCCGCGCCCGGTGCGCGCGTCATTTTCCGCACCGCGGCCGAAAAGAGCGTCATCGAAGGCCGGCTTTCGCCCGATATCCGCAACCAGTGGGTCTATCTCGAAGAGCGCTCCAACGAGCTCAACGCCATGGACCGCTCGGCCATCTACGGCGGCTTCCATATCTATCAGAGGGGTATGGCATGA	MTSAAPKTGFSKNTKLKSALLQHKALSKSGLSERFFGVLFSGLVYPQIWEDPEIDMEAMELGEGHRIVTIGSGGCNMLAYLSRNPASIDVVDLNPHHIALNKLKLAAFRHLPAHQDVVRHFGRANTRSNSHGYDRFIAEHLDATTKAYWSKRTLTGRRRISVFDRNIYRTGLLGRFIGAGHLMARLHGVKLTEMAKTRTLDEQRQFFDSKVAPLFDKPVVRWLTKRKSSLFGLGIPPRQYDELASLSANGTVASVLKARLEKLACNFPLSDNYFAWQAFARRYPEPHEGALPAYLKPEYYETIRNNTARVAVHHATYTELLSRKPASAVDRYILLDAQDWMTDTQLNELWSQITRTAAPGARVIFRTAAEKSVIEGRLSPDIRNQWVYLEERSNELNAMDRSAIYGGFHIYQRGMA	PGPT0023670_56	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_CARBOXYPROPYL_TRANSFERASE_ACTIVITY,PGPT0023670-batA-K13622	NA	NA
BMS010_01287	1086			hypothetical protein	ATGCGAAATTCGGGAAAATTCCGCGGAAGAAGTGCACTTCTTCTGTCTTCCACCGTGGGTCTGGCACTGGCATTGAGCGCATGCACCAGCGTCGAATATACCGCCAAGGAAGGGCCGAACGGCCCGAAGATCGCAACAGTCAATCCCGCGACCACTCCTGCGCAAACATCGGCGCAGCCGGCAACGGCCGAAGCAGCAGCGGGCGCGACCCCGGCAGCAGCAGCAACGGTGCAGACCGCCGAAACCGCAACCCCTTCCCAGCCTGCAGCACTTCCCACCGCAGTCGCCGTCAAGGGCGGACGCGTGGCGCTGCCGCCGGCTTCTGAAATTGCTGCAGCCGCAGCCATCGCCGCCCAGATGCAGCCGCAGCAGAACGAAGTCGCCCAGGCTGGTGTGACGACATCTGTGTCGACCACGGCCACGGCGCTGGCACCGACAAGCGCCACTCCGGCGGCCGCAGCCATCGAAACGGCTGACGTGGCGGCCAAGCCGGCTGCCCATAATGCCGCCGCCGATCTGCCGCAGGTGGTTGCCGTCAAGGGCAGCTTCCCGCCCGCACCGCCGCCGCCCGGCTCGCCCTCCATCGGCACCGAACTGACGGCGGAACGCAAAGTCATTCCGCTGCCGAAGCCGGACAGCACGGTTCTGGCCTATGCCGCCGGCCCCACCAACGCCGCGCTGGCTGCCATCCGCCAGAACGAATCGATGACGGCGCCGCTCAATTCCGCGCCGGCCGGACGCGAAAAGCTGAGCGGCCTTATTACCAAATACGCCACCATGTATGATGTGCCGGAAGATCTGGTTCACCGCGTCGTGCAGCGCGAGAGCCGATATAACCCCGGCGCCTATAGCAGCGGCAATTTCGGCCTGATGCAAATCCGCCACGCCACGGCCCGCTCCATGGGCTTCGATGGCCCTGCCTCCGGCCTTTTCGATGCCGAAACCAACCTCAAATACGCCGTCAAATATCTGCGCGGCGCATGGGTTGTGGCAGGCAACGACCGCGACAACGCAGTCCGGCTTTACGCGCGCGGCTATTATTACGACGCCAAGCGCAAGGGCATGCTGCACGTTCTGCGCAAGTGA	MRNSGKFRGRSALLLSSTVGLALALSACTSVEYTAKEGPNGPKIATVNPATTPAQTSAQPATAEAAAGATPAAAATVQTAETATPSQPAALPTAVAVKGGRVALPPASEIAAAAAIAAQMQPQQNEVAQAGVTTSVSTTATALAPTSATPAAAAIETADVAAKPAAHNAAADLPQVVAVKGSFPPAPPPPGSPSIGTELTAERKVIPLPKPDSTVLAYAAGPTNAALAAIRQNESMTAPLNSAPAGREKLSGLITKYATMYDVPEDLVHRVVQRESRYNPGAYSSGNFGLMQIRHATARSMGFDGPASGLFDAETNLKYAVKYLRGAWVVAGNDRDNAVRLYARGYYYDAKRKGMLHVLRK				NA	NA	NA	NA	NA
BMS010_01288	636			hypothetical protein	ATGTCTGGACAGGCCTGGCTGATTTTTTGTGCAGCATGTGCCGTTGTGTTCGCACTCCCCTCTCCCCTTGTATTTTCTGTCGCCTCCTATGCCGCCATTCGCGGCAAAAAGACGGTCTTCGCCTCCGTCATCGGCGGCGCGCTCGGCATTGTCACGGCCATGACGATTTCCGCCATTCCGGTGGCCGGTCTCGCCTGGCTGCCGCAATCCTTCGTGGAAATCGTGCAATGGGCCGGCATCGGCTGGCTGATGCTGTTCCTCCTGTGGACCTTCGCCACGCCGGCCGCCCAGGCCGCCAATGCCGATAATGACAACCTGCCGGGCAAATCCTGGAGCGGTATTTTCCGCGATTGTTACGCCATTGCCGCCCTGCGCCCGCGCTACTTCGCTTTCTTTCTGGCGTTGCTGCCGCAATTCGTGTCCGCCTCCGGCAATGCAATTGAAACGCTTGCCATGGCGCAGGCCGCCATCCTGCTTCTGGCGCTGGTGATTCTGACCGCGCAGGCGCTGTTTGCCGGGCCTACTCTGGCGATAGTACGCCGCATGTCGGGCGATAAAAAAATCCGGCCGAAATACCGCACTCACTTCATTTCCGGCCGCGCCGTCAGCGCCGGATACAGGCGCATCGCCGCATGA	MSGQAWLIFCAACAVVFALPSPLVFSVASYAAIRGKKTVFASVIGGALGIVTAMTISAIPVAGLAWLPQSFVEIVQWAGIGWLMLFLLWTFATPAAQAANADNDNLPGKSWSGIFRDCYAIAALRPRYFAFFLALLPQFVSASGNAIETLAMAQAAILLLALVILTAQALFAGPTLAIVRRMSGDKKIRPKYRTHFISGRAVSAGYRRIAA				NA	NA	NA	NA	NA
BMS010_01289	1212	pfp		Pyrophosphate--fructose 6-phosphate 1-phosphotransferase	ATGGCCAAACAGAAAGTCGCAATGCTGACCGCGGGTGGCCTTGCGCCCTGTCTCTCTTCGGCCGTGGGCGGCCTGATCGAGCGTTACAGCGACATCGCGCCCGAGATCGACATCATCGCTTACCGCTCGGGTTATCAGGGCGTGCTTCTGGGTGACCGTATCGAGATCACCAGGGATATGCGGGAAAAGGCGCATCTGCTGCACCGATACGGCGGCTCGCCGATCGGCAACAGCCGCGTCAAGCTCACCAACGCAGCCGATTGCGCCAAGCGCGGCTTGGTCAAGGAAGGCGACAATCCGCTTCGCGTCGCGGCTGACCGGCTGGCGGCTGACGGCATCACCATTCTCCATACCATCGGCGGTGACGACACCAACACGACGGCTGCGGACCTTGCCGCCTATCTCGGCGCCAACGGCTACAATCTCACCGTTGTCGGCCTGCCGAAGACGGTGGATAACGACGTGGTGCCGATCAAGCAGTCGCTCGGCGCCTGGACGGCCGCCGAAGTCGGCGCCTCATTCTTCGACAATGTCAGCAACGAACAGAGCGCGGCGCCGAAAACTTTCGTTATCCACGAAGTCATGGGCCGCCATTGCGGCTGGCTGACGGCCGCCACCGCCCGTGCCTATATCCAGAAGACCAGCGGCAATGAATATGTCGAAGGCCTGATGATGAACACGCAGATGAAGAACATCGACGGCATCTACCTGCCGGAAATGGCCTTCGACATCGAGGCGGAAGCCGAGCGCCTGAAGGAAATCATGGACAGGAACGGCTATGTCACGCTGTTCGTTTCCGAAGGTGCGGGCCTCGATTCCATCGTCGCCGAACGCGAAGCCTCCGGCGAGGCCGTCAAGCGCGACGCTTTCGGCCATGTGAAGATCGACACCATCAATGTCGGTGGCTGGTTCCAGAAGCAGTTCGCCAGCCTCATCGGTGCGGAACGCTCCATGGTGCAGAAATCAGGCTATTTCGCCCGCTCCGCCGCCGCCAATGGCGACGACCTGCGCCTCATTCAGGGCATGGTCGATCTCGCCGTCGAAAGCGCGCTCAACAAGGTATCCGGCGTCACCGGACATGACGAAGACCAGAATGGCAAATTGCGGACCATCGAGTTTCCGCGTATCAAGGGCGGAAAGCATTTCGACCTCTCTGCAAAATGGTTTACCGAAGTGATGGAACACGTCGGTCAGCCGTTCACAGCGGCCTGA	MAKQKVAMLTAGGLAPCLSSAVGGLIERYSDIAPEIDIIAYRSGYQGVLLGDRIEITRDMREKAHLLHRYGGSPIGNSRVKLTNAADCAKRGLVKEGDNPLRVAADRLAADGITILHTIGGDDTNTTAADLAAYLGANGYNLTVVGLPKTVDNDVVPIKQSLGAWTAAEVGASFFDNVSNEQSAAPKTFVIHEVMGRHCGWLTAATARAYIQKTSGNEYVEGLMMNTQMKNIDGIYLPEMAFDIEAEAERLKEIMDRNGYVTLFVSEGAGLDSIVAEREASGEAVKRDAFGHVKIDTINVGGWFQKQFASLIGAERSMVQKSGYFARSAAANGDDLRLIQGMVDLAVESALNKVSGVTGHDEDQNGKLRTIEFPRIKGGKHFDLSAKWFTEVMEHVGQPFTAA	PGPT0017640_726	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017640-pfp-K00895	NA	NA
BMS010_01290	741	djlA_1	COG1076	Co-chaperone protein DjlA	ATGATGTTCGATTTCGCCTGTCTGCAAATTTCATCCCTGTGGGAACGGCTGCTCGGCGCAATCGGCGACGCGGCAGGCGGTGCGCTCGGGCGCGTCGTGGAAGCCATCCGCACCCTTTTCGAGGGTGATCCGGAGACGCGCCGCAAGGTTTCCTTTTCCGTGGCCATCATCGCGCTTTCCGCCAAGATGGCGAAGGCCGACGGTGTCGTCAACGATGCCGAAGTGCGCGCCTTCCGGCAGATCTTCGATTTTCCGGAAGAAGAAGCCAAGAACGTCGCCCGTCTTTATAATCTCGCCCGTCAGGACGTTGCCGGTTACGAGGCCTATGCGGAGCGGCTTGCCGGTCTTTGCGGCTCCGGGCACGCCAATTGCGAGATGCTGGAAAGCGTCATCGACGGCCTGTTCCACATCGCCAAGGCCGATGGGCTGATCCATGAGCGGGAACTGGCCTTCCTCGGCCGGATAGCGGAAATCTTCCGTATCACCGAAGATCACTTCGAAACGATCATGGCGCGGCATGTCCATATGGACGGGCGCGACCCCTATCGCGTGCTCGGCGTTTCGCCTTCCGACGATTTTTCCGATATTCGCCGGCGTTATCGTTCGCTGGTTGCCGAACACCATCCTGACAAGCTCATCGCACGCGGCGTTCCCATGGAATTGCATGCGGCCGCGAATGAGCGTATGGCGGCTCTCAACGCCGCCTATGCGGCCATCGAGAAAGAACGCCGCGTCGCATGA	MMFDFACLQISSLWERLLGAIGDAAGGALGRVVEAIRTLFEGDPETRRKVSFSVAIIALSAKMAKADGVVNDAEVRAFRQIFDFPEEEAKNVARLYNLARQDVAGYEAYAERLAGLCGSGHANCEMLESVIDGLFHIAKADGLIHERELAFLGRIAEIFRITEDHFETIMARHVHMDGRDPYRVLGVSPSDDFSDIRRRYRSLVAEHHPDKLIARGVPMELHAAANERMAALNAAYAAIEKERRVA	PGPT0014550_1119	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014550-djlA-K05801	NA	NA
BMS010_01291	780	amiD_1	COG3023	N-acetylmuramoyl-L-alanine amidase AmiD	ATGAGTGAATGTCTGCCGGATTTTACCCCGGATTTCGGGGGCGCAGCCGTTGCGCCTTCGCCTAACCATGGCGAAAGGCTGGGTGTGGCCGGCCCTGATATTATTCTGCTGCATTATACCGGCATGACGACGGCCGACGGCGCGCTGTCGTGGCTCTGCAATCCCGAAAGCCAGGTTTCCAGCCATTATTTTGTCTTCGAAGACGGGCGCGTCATCCAGCTCGTGCCGGAAACCCGCCGTGCCTGGCACGCGGGCAAAAGCATCTGGGCGGGGGATCAAGACATCAATTCCCGCTCCATCGGCATCGAGATCGCCAATCAGGGCCATCCCGGCGGCCTGCCGGAATTTCCGAAGAAACAGGTGCAAGCCGTCATCGAATTGTGTCGCGATTGCGGCCAGCGCTGGTCTATCGCCCCTGAAAGGGTGCTGGCGCACTCGGATGTCGCGCCGATCCGCAAGGTCGATCCGGGTGAAAAATTCCCGTGGGACATCCTGTCGCAGCATGGTGTCGGCCATTGGGTGGAGCCTGCGCCGATCCGTGGCGGACGTTTTTTCCAGCGCGGCGATCATGGCCAACCGGTCGAAGCGCTGCAGTCGATGCTGTCCATTTATGGTTATGGCGTTGAAATTACAGGCGCCTATTGCGAGAAAACCGAAGGCGCCGTGGCTGCCTTCCAGCGGCATTTCCGTCCCGCTCTGGTGGATGGCATCGCGGATTTCTCCACCATCGACACGTTGCATCGGCTGATCGCCAGCCTGCCGAGATTTTCGGCCGCCTGA	MSECLPDFTPDFGGAAVAPSPNHGERLGVAGPDIILLHYTGMTTADGALSWLCNPESQVSSHYFVFEDGRVIQLVPETRRAWHAGKSIWAGDQDINSRSIGIEIANQGHPGGLPEFPKKQVQAVIELCRDCGQRWSIAPERVLAHSDVAPIRKVDPGEKFPWDILSQHGVGHWVEPAPIRGGRFFQRGDHGQPVEALQSMLSIYGYGVEITGAYCEKTEGAVAAFQRHFRPALVDGIADFSTIDTLHRLIASLPRFSAA	PGPT0019115_1335	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0019115-xlyAB-K01447	NA	NA
BMS010_01292	501	mltC_1		Membrane-bound lytic murein transglycosylase C	ATGCTCGCTTCGCAGGCGGGGATTGCTTTTGCCAAAGACGAGGACGTCAAGACCAAAACCGTGACGCTGGAGACCTTCTTCCGCAAGCCCGGTTATCCCATTCCCGAAAAGAGCCTGCCTTCCTCGCTCAGGAACGACTATTCCGATCTGATCGTCAAATATGCCAAGCGTTACGGCGTTCCCACCAATCTGGCGCATGCCGTGGTTTCGGTGGAAAGCAAGTTCAATCCGAAGGCTCGCGGCAGCGCAGGCGAGGTCGGGCTGATGCAGATCAAGCCGGCGACGGCGCGGATGATGGGATATCGCGGTACGACCAAGGCGCTCTACGATCCCGAGACCAATATTCGCTGGGGCATGCAATATCTGGCGACGGCGCATCAGCTTGGCGGCGGCCAGGTGTGCAGCACGATCCTGCGTTACAATGCAGGCCATGGCGCCACCCGGATGAACCCGGTCTCCAAGCGCTATTGCGGAAAGGTGCAGGCGCTGCTGGCCGGCTGA	MLASQAGIAFAKDEDVKTKTVTLETFFRKPGYPIPEKSLPSSLRNDYSDLIVKYAKRYGVPTNLAHAVVSVESKFNPKARGSAGEVGLMQIKPATARMMGYRGTTKALYDPETNIRWGMQYLATAHQLGGGQVCSTILRYNAGHGATRMNPVSKRYCGKVQALLAG				NA	NA	NA	NA	NA
BMS010_01293	1188	soxA_2		Monomeric sarcosine oxidase	ATGCCGGATTTCAAATATATCGTCGTCGGGGCCGGGATGATGGGAGCGGCTGCGGCGCGGCATCTCTCAGTGCAAACGGATGGCGTGGCGCTGATCGGCCCGGACGAGCCCACCGATCGCAAGACCCATCAGGGTGTGTTTTCGAGCCATTACGACGAAGCGCGCATTACCCGCGGTTTTGATGGCGATCCGGTCTGGGCGGAACTCGCGCAGCGCTCCATCCGCCGTTATGCGGAGATCGAGGCCAAAAGCGGCATCCGCTTTTTCACGGAAGCGGGCTGCCTGTTCACCGGAAACGGCAGGGGGCTTGCGGGAGATTATGTCTCGCGCGCGTTTGCCTCGGCCGACCGCCTCGGTCTCGGTGTGGAGACACTCGGCACTGATGCGCTGGCTGATCGGTTTCCGATGTTCTCCCTGCCGGCCGATCACAGCGGTTATTTCGAGGCGCAATATGCCGGCCACGTCAATCCGCGCGCCCTGGTGAAGGCGCAATGCACGATTGCCGTCGCGCAGGGCGCGCGGCTTGTGCGCCAGACGGCGGCGCATATTCGAGATACTTCCCATGGCGTCGAGGTTTCCACTCGAGAAGGGGCGGTTCATACGGCTGAAAAGGTCATCGTAGCGGCCGGCGGTTTCACCAACATGGCCGAGCTTCTGCCTTCTCCGGTCGATATGGCGGCCACGGGCCGCACCATCGTCTTTTTTGAGCTGGATGAGGCGCGGCAGGCGCTGTTCGGTGCGATGCCCTCCACCATCGTGCTGGCGGAGACCGAGGACGACATCGTCTATATCCTGCCGCCGGTGCGTTATCCCGATGGCAAGGTCTATCTGAAGATCGGCGGCGAGAGCGAAAAGGGCAGGCTTGAAACGCTCACCGACGCAGTGGACTGGTTTCATTCGGACGGCACGCCGGGTGAGGTTGAGTTTCTGAAAAAGCGGGCGCTCTCCTTGATGCCGGAGCTTGCCGGCTGCCCGGTCACCTCAGGCTCCTGTGTCGCCTCCATTACCCGCAGCGGCTATCCCTATATTGGCTATACGCAATCCTCCAATATCGCGGTTCTGACCGGCGGCAATTTCGTCTCCGCCAAGTCTTCGGACGAAATCGGCCGGCTGGGCGCCATGCTGCTTTTGAACGGTCAGTTGACCGAGGATGAATTCGCCGCCGAAATGTCGCCGGTTTTCGTCTGA	MPDFKYIVVGAGMMGAAAARHLSVQTDGVALIGPDEPTDRKTHQGVFSSHYDEARITRGFDGDPVWAELAQRSIRRYAEIEAKSGIRFFTEAGCLFTGNGRGLAGDYVSRAFASADRLGLGVETLGTDALADRFPMFSLPADHSGYFEAQYAGHVNPRALVKAQCTIAVAQGARLVRQTAAHIRDTSHGVEVSTREGAVHTAEKVIVAAGGFTNMAELLPSPVDMAATGRTIVFFELDEARQALFGAMPSTIVLAETEDDIVYILPPVRYPDGKVYLKIGGESEKGRLETLTDAVDWFHSDGTPGEVEFLKKRALSLMPELAGCPVTSGSCVASITRSGYPYIGYTQSSNIAVLTGGNFVSAKSSDEIGRLGAMLLLNGQLTEDEFAAEMSPVFV	PGPT0013530_119	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013530-soxA|solA-K00301	NA	NA
BMS010_01294	1191	soxA_3		Monomeric sarcosine oxidase	ATGTCGGGACATTTCAGATACATCGTCGTGGGGCGCGGCATGATGGGGGCCGCTGCCGCCCGCCATCTGGCTGAAACGGTGGATGGCGTCGCGCTGATTGGCCCCGGCGAACCTGCCGACATCAAATCGCATCTGGGCGTTTTCGCCAGTCACTATGACGAGGCGCGGATTACCCGCACCATCGACGGCGATGCCGACTGGGCGCTGCTCGCCAACCGCTCGATAGCGCGTTACGCCGATATTGCCGCGAGAAGCGGCGTTGAATTTTATGCACCCGTCGGCTGCCTGATGGTGGGGCCTGAACGGGGCGGCAATAATCCTTTTGTCGACGATGTCCGCAAGGCGGCGGCGCGGCTCGGGGTTTCGACGGAACTGCTGGACGGGGAAGGCCTCGAAAGCCGCTTTCCCTATTTCTCCTTCGAGCCGGGTTGCGAGGGCGTGTTCGAAAGGGACAATGCCGGATACGTTAATCCACGTGGGCTGGTGAAGGCGCAGGCCATTTTGGCGGAAATGGCGGGCGTTACGCTTGTCGACGATATCGTCGTCTCGACGCGCGAAGAGGATGGTCGCGTGCGGGTGGAGACGGCCTCTGGCGCGGTTTATACCGCAGACCGGGTGCTGGTGGCGGCCGGCGGCTTCTCGATCACGAAAGATCTGCTGCCGCAGCCGGTGGCGCTCGATGTCTATGCACGCACCGTCGCTTTCTTCGAGGTAGATGAGGGCGATCTGGATCAATATGCGGAGATGCCGTCGCTGATCTATGAGCCGCGCGACACGACGAAACATATCTATCTTCTGCCGCCGGTACGTTATCCCGATGGCAAATTCTATCTGAAGATCGGCGGCGATCCCGACGACAAGAGGCTCGGCAGCGACCCGGAAATCCGGGAATGGTTCCGCTCCGGCGGACGCGAAAGCGTGCGTGATCATCTCTCTGAGATCGTCGGATCGCTGGTGCCTTCCATCGATCTCTCGCGTGTCTCGATGGCCGCCTGCGTCGTCTCCAAAACGCAAAGCGGTTATCCGGCCATCGGCTTCACCGCCTCGCCGAAGATTGCGGTTATGACGGGCGGCAACGGCACGGCGGCCAAGAGTTCCGATGAGATCGGACGGCTCGGCGCTCTGCTGCTGCGGGACGGAGAAATCGCCGATGGCGCCTTTTCGACGGATTTCAAGCCGGCATTTCTTTGA	MSGHFRYIVVGRGMMGAAAARHLAETVDGVALIGPGEPADIKSHLGVFASHYDEARITRTIDGDADWALLANRSIARYADIAARSGVEFYAPVGCLMVGPERGGNNPFVDDVRKAAARLGVSTELLDGEGLESRFPYFSFEPGCEGVFERDNAGYVNPRGLVKAQAILAEMAGVTLVDDIVVSTREEDGRVRVETASGAVYTADRVLVAAGGFSITKDLLPQPVALDVYARTVAFFEVDEGDLDQYAEMPSLIYEPRDTTKHIYLLPPVRYPDGKFYLKIGGDPDDKRLGSDPEIREWFRSGGRESVRDHLSEIVGSLVPSIDLSRVSMAACVVSKTQSGYPAIGFTASPKIAVMTGGNGTAAKSSDEIGRLGALLLRDGEIADGAFSTDFKPAFL	PGPT0013530_99	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013530-soxA|solA-K00301	NA	NA
BMS010_01296	279			hypothetical protein	ATGCGCACCACCCAAGCTTTCAGCATCACACTCCCCCTGGAAATGGCGGAAATGGTCAAGGCAAAGGTCGCTTCCGGCGAATATGCGACGGAGAGCGAGGTTATCCGTGATGGCCTTCGCACCCTGGCAGCCCGCGATGCGGCCGTGGAGCGGTGGTTGCAGGAAGAAGTGACATCCGCATACGATGCTCACAAAGCAGACCCGGGCAGGGCCAAGCCTCTCAGTGAAGGTTTGGCTGAGGTCAGGGCGCGTATTGTCAAGGGTGAGGGGCGCACATAG	MRTTQAFSITLPLEMAEMVKAKVASGEYATESEVIRDGLRTLAARDAAVERWLQEEVTSAYDAHKADPGRAKPLSEGLAEVRARIVKGEGRT	PGPT0027540_366	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-ParE-ParD|paaAR_TOXIN-ANTITOXIN_SYSTEM,PGPT0027540-antitoxin_parD1_3_4-K07746	NA	NA
BMS010_01297	213			hypothetical protein	ATGGCTTCCTTCGCTGCGCTCTATATCCGCATTCTCAGGGCGCAGTGCTTCCTCATCAAACTGCTGGCCTTTAGCCAGAAGACGCAGAACAACCACATCGTCCTGCTCCACCACAAAAGCGACACTGGCGCTGCGTTCAAAACCGATTATGCGGAGTCCCACACGCAGTTCGTTACGCACGGTGCCACGTTCGGGAAAGACATTCAAAGTTGA	MASFAALYIRILRAQCFLIKLLAFSQKTQNNHIVLLHHKSDTGAAFKTDYAESHTQFVTHGATFGKDIQS				NA	NA	NA	NA	NA
BMS010_01298	441	mraZ_1		Transcriptional regulator MraZ	ATGGACCGCTTTTTATCGAACGTGACGAACAGGATCGACGCCAAGGGGCGCGTTTCGGTTCCGTCTCCGTTTCGTTCGGTGCTGGTCAGGCGCGGCATTCAGGAGCTTTATTGTCTTCAGGATTTCGCCTTTCCGGCAATCAGTGTCGGCGGTCCGGATTTGCTGGAGCGCTACGAGCGGCAGATTGCGTCGATGGATGCCTTCTCGCCCGAGGCGAACGCGATGTCGCTGCTGGTTCACGGCGGCGGCGTTTTCATGAAGCTCGACCAGGAAGGTCGATTGATGGTGACGGATTTCGTGCGGGAATTCACCGGCATATCCACCGAGGTCACCTTCGTCGGACGGGCGGATCATTTTCAGCTTTGGCAACCGAATGCGTTTTTGGCGGCGCAGGCGGAAGCAAGAGCGGGGCGCGGTTTTTCGGCTGCTCGCCCCGCCTAG	MDRFLSNVTNRIDAKGRVSVPSPFRSVLVRRGIQELYCLQDFAFPAISVGGPDLLERYERQIASMDAFSPEANAMSLLVHGGGVFMKLDQEGRLMVTDFVREFTGISTEVTFVGRADHFQLWQPNAFLAAQAEARAGRGFSAARPA				NA	NA	NA	NA	NA
BMS010_01299	1026	rsmH_1	COG0275	Ribosomal RNA small subunit methyltransferase H	ATGGCGGCGAATTCTGGCGGACGATCTTCTGATGCCGATGGCGGACCTCAGCGTCACATCCCGGTCCTGCTTCGCGAAGTCATTGCCGCGCTGGAGCCATCATCCGGCAAGATAATTCTCGACGGCACGTTCGGCGCCGGCGGCTACACCCAGGCCATTCTCGATCAGGGCGCCGACGTCATCGCGCTCGACCGCGATCCGACCGCTATCGCCGGCGGTCAGGCGATGGTTGCCGCCAATGGCGGCCGGTTGAGCCTCATCCAATCGCAATTCTCCGATCTCGCGAAACATGCCCCGCAAGGCGGGCTCGATGGCGTCGTGCTGGATATCGGCGTTTCCTCCATGCAGATCGACGAGGCCGAGCGCGGTTTTTCCTTCCAGAAAAATGGCCCTCTCGACATGCGCATGTCGGGTTCCGGCGTTTCGGCGGCCGACGTCGTCAATCGTGCGAAGGTCAGCGATCTGATCCGCATCTTCGGTTTTCTCGGTGAAGAAAAGCAGCCGGGCCGCATCGCCCGCGCCATAGAGAAGAAGAGGGCGGAAGAGCCGTTCCGCACCACCCGCGATCTGGCCGGCCTCATCGAAATCGTCACGCCGCGTAAGGCCAAAGACAAGATTCATCCCGCAACGCGGGTGTTTCAGGCGCTGCGCGTTTTCGTCAATGACGAGCTGGGCGAGCTGGCGCAGGCGCTTTTTGCCGCCGAGCAGGTTTTGAAACCCGGTGGCCGGCTGGTCGTCGTCACCTTCCATTCGCTGGAAGACCGTATCGTCAAGAAATTCTTCTCCGACCGTTCGGGCAAGGCCGCCGGTTCCCGGCATCTGCCGATGGTGGAGGACAAGCCCGCCATTTTCGATAACATCGGAAAGCCGATGATCGCCGCCAGCGATGAGGAGGCGGAGCTCAATCCCCGTGCCCGATCCGCCAAACTGCGGGCCGGTCTGCGCACGACCGCACCGGCGCGCGCGTCGGATTATTCGATCTTCGAGCTTCCCGATCTCGCCAGCCTTGAAAAGATGGGAGGCTGA	MAANSGGRSSDADGGPQRHIPVLLREVIAALEPSSGKIILDGTFGAGGYTQAILDQGADVIALDRDPTAIAGGQAMVAANGGRLSLIQSQFSDLAKHAPQGGLDGVVLDIGVSSMQIDEAERGFSFQKNGPLDMRMSGSGVSAADVVNRAKVSDLIRIFGFLGEEKQPGRIARAIEKKRAEEPFRTTRDLAGLIEIVTPRKAKDKIHPATRVFQALRVFVNDELGELAQALFAAEQVLKPGGRLVVVTFHSLEDRIVKKFFSDRSGKAAGSRHLPMVEDKPAIFDNIGKPMIAASDEEAELNPRARSAKLRAGLRTTAPARASDYSIFELPDLASLEKMGG				NA	NA	NA	NA	NA
BMS010_01300	555			hypothetical protein	ATGCTGCGCACTTTCGATGTCATCTTGATGGGTGTGATGGTCGCCGCGGCCGTCGTGACCTATTCGATCAAGCACAAGGCCGATCTGAAGCTTGAGGAGGTCCGCAAGCTGGAGGCCGAGATCAAGCTTGAGAAGGATACGATCGATCTTTTGAGAGCCGACTGGGCGCTCTTGACGCAGCCGAACCGTCTGCACCGTCTCGTGAATGCCTATCAGGATGAGCTTGGCCTTTCGCCGACGCTGCCGACGCAGCTGGCTCAGCCGCGTGAGCTGCCCATGCTGCGCTCGCAACTGCCGCAACCGCCCGAGCCGGAAGGCATGAGCGTCGAGGATGTCATTGCCGCCGCCGTCAACGGTTCCAAGCCGGGTGCGACGCTTGGCGCGGCCACCAAAAAGAAATCACCGCCGGCGGGCCAGATTGCCGTCAACGGCACTCCGGTTCCGACACCCCGGGCGCGTGTTTCCCGTCCAACAGCGGCTCCGGCCGTCTCCGCCGTCGCGGGCGATGAAACCGACGACATGGATGACACGATAACAGGATCGGTGAACCGCTAA	MLRTFDVILMGVMVAAAVVTYSIKHKADLKLEEVRKLEAEIKLEKDTIDLLRADWALLTQPNRLHRLVNAYQDELGLSPTLPTQLAQPRELPMLRSQLPQPPEPEGMSVEDVIAAAVNGSKPGATLGAATKKKSPPAGQIAVNGTPVPTPRARVSRPTAAPAVSAVAGDETDDMDDTITGSVNR				NA	NA	NA	NA	NA
BMS010_01301	1743	ftsI_2		putative peptidoglycan D,D-transpeptidase FtsI	ATGTCTTTTCTCTCCCGCGTCATGGTTTTGAAGAGCAAGGCTCATTTTTCCGCCAGCACCACCGGTGTTTATACCGACCATGCGGCTTTTGAGGGCGCCCGCAAGAAGCGCGCCGCCCAGGCGAAAAGCCGTGTCGGCCTCATTATTTTCGGTTTTGTGGCCTTTTACGCCGTCGTTGGTGGGCGTCTTGTGCAATATGGCATGGCCGAGCAGGAAACGGTATCGAGCATCGCACCCGCCGACCGCTTGATGGCGTCGCGCCCCGATCTTCTCGACCGCAATGGCGAGGTTCTGGCCACCGATATTCGCACCGTCTCGCTTTTCGCCGAACCGCATCGCATCGTCGATATCGATGAGGCTATCGAGAAGCTGCGGACGGTTCTGCCGGATCTCGACCAGCGCAGCACCTATCAGAAGCTTTCCTCCAATTCGCGCTTCCAGTGGCTGCGCCGCCAGCTGACGCCGAAGCAGCAGAGCCAGATTCTGGCGCTCGGCATTCCAGGCGTCGGCTTCCGTCCGGAAAAGCGCCGCTTTTATCCCGGCGGGCCGACCGCTGCGCATGTCGTCGGTCACGTCAATATCGACAATCGCGGCGTTGCCGGCATGGAACGTTACGTCGACAGCCAGGGCCTTGCCGATCTGACCGCGCTTGGCATGACCAGCGACCAGCCGCTGGAGCCGGTGAAGCTTTCCATCGATCTGCGCGTACAGTCCATTGTCCGCGAAGTCGTGACCTCGGCCATCACCAAGTTCCAGGCAATCGGCGCCGGCGCGGTGGTTCTGGATGTGCATACCGGCGAAGTCCTCGCCATGGCCTCCGTGCCGGATTATGATCCGAACAATCCGGCCGAAGGCGCCAAGGAAGGCTGGCTCAACCGCATGTCGAACGGCACGTTCGAAATGGGGTCCACCTTCAAATCCTTCACCATCGCCATGGGTCTCGATTCGGGCCGCGTCCGTCTCGGCGATACCTTCGATGCGCGTTATCCGATCCGCATCGGCGGTTTCACCATCAAGGACTTCCACGGCAAGGGCCGGATGCTGTCGGTGCCGGAAATCTTCCAGTATTCGTCGAACATCGGTACTGCCAAGATTGCCGATACGGTGGGAACGGAAGGCCACAAGGAATTCCTCACCCGGCTTGGCCTTTTGACCCGCATGCAGACCGAACTGCCGGAAGTGGCGCTGCCGTCGCAGCCGCGCGAATGGAAGAAGATCAACTCGATTACCATTTCCTTCGGCCACGGTGTTTCCACGACACCGTTGCAGACGGCGGTTGCCGGCGCTGCACTCGTCAATGGCGGCAAATTGATCGAGCCGACTTTCCTGCCGCGTACCCGCGAACAGGCCGATCAGGTGGCCAAGCAGGTTCTGAAACCGGGCGCCAGCAATGACATGCGTTTCCTGTTCGAGTGGAACGGGGTCAACGGTTCCGGCCGCAACGCGCGCGTCGATGGTTTCAACGTCGGCGGCAAGACCGGCACGGCCGACAAGGTCGTCAACGGACGTTATGTGCACGACAAGAACTTCAACGCCTTCCTCTCGGCCTTCCCAATGGACGATCCGCAATATGTCGTGCTGTCCTTCATCGACGAGCCGAAGACGGACAAGGGCAATGGCGCGGCACTCGCCGGCACATCCGCAGCGCCGATGGTGCGCGATATCATCACCCGCACGGCGGCGGTGCTGGGCGTGAAGCCGAAGTTCGGCAAGGATGGCTCGGCCTTGCTCGTGTCTTATTGA	MSFLSRVMVLKSKAHFSASTTGVYTDHAAFEGARKKRAAQAKSRVGLIIFGFVAFYAVVGGRLVQYGMAEQETVSSIAPADRLMASRPDLLDRNGEVLATDIRTVSLFAEPHRIVDIDEAIEKLRTVLPDLDQRSTYQKLSSNSRFQWLRRQLTPKQQSQILALGIPGVGFRPEKRRFYPGGPTAAHVVGHVNIDNRGVAGMERYVDSQGLADLTALGMTSDQPLEPVKLSIDLRVQSIVREVVTSAITKFQAIGAGAVVLDVHTGEVLAMASVPDYDPNNPAEGAKEGWLNRMSNGTFEMGSTFKSFTIAMGLDSGRVRLGDTFDARYPIRIGGFTIKDFHGKGRMLSVPEIFQYSSNIGTAKIADTVGTEGHKEFLTRLGLLTRMQTELPEVALPSQPREWKKINSITISFGHGVSTTPLQTAVAGAALVNGGKLIEPTFLPRTREQADQVAKQVLKPGASNDMRFLFEWNGVNGSGRNARVDGFNVGGKTGTADKVVNGRYVHDKNFNAFLSAFPMDDPQYVVLSFIDEPKTDKGNGAALAGTSAAPMVRDIITRTAAVLGVKPKFGKDGSALLVSY	PGPT0023865_3077	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023865-ftsI-K03587	NA	NA
BMS010_01302	1470	murE_1	COG0769	UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2,6-diaminopimelate ligase	ATGAATTTGCGAGATATATCCGGAGATGCGTTTCCGGAATTGAAAGAATTGCTCCTGTCTGAGATCGGGGCGATCGAAATCGGGGGGATCACCGCAGACAGCCGCAAGGCTGCGCCGGGCAGCCTGTTCGTGGCGGTTGCGGGCACCAAGGCGGATGGCGCGGCCTATGTGAAGGACGCGGTTGCCAAGGGCGCGGTCGCCATCGTTTCCGGACACGCGCTGGATGCCGATGTGCCGGTGCTTTCGGTCACCGATCCACGCCTTTATCTCTCCCTTGCCGCTTCCCGTTTTTATGGAAAACAGCCGGAAACCATGGTCGCCGTCACCGGTACTGCGGGAAAAACGTCCGTTGCTTCCTTCGTGCGGCAAATCTGGGCTTTCGCCGGCCATGCCGCTGCACAGATCGGCACGACAGGTGTGATTGCACCCGGCCGCGAGGATTACGGCGCGCTCACCACGCCCGATCCGGTGACGCTGCATGCGCTTCTGGCCGAACTTGCGGCCGAAGGCGTGACGCATGCGGCGATGGAGGCGTCCAGCCACGGTCTTGACCAGCGCCGTCTCGATGGAGTGAGGCTGGCAGCCGCCGGTTTCACCAATCTCGGCCGCGACCACATGGATTATCATCCGACCGTCGAGGACTATATGGCCGCGAAGATGCGGCTCTTCGATACGCTGATGGAAAAGGGCGCTCCCGCCGTGATCTTCGCCGACGACCCGTGGTCGGAAAAGGCGATCCGGGCGGCGCGCGAAGCCGGTCTCGATGTGCGCACGGTCGGTCGCAAAGGCGAATATCTGGCCCTGAAGCGTGTCGAGCACTTCCGTCACAAGCAGATGATCGAAGTGCATCATGACGGCGAGATTTATGAAGTCGACATCCCCTTGGCGGGTGATTTTCAGGTTGCGAACGCTCTCGTCGCGGCCGGTCTTGCCATGTCCACCGGCGTTCCCGCAGCAACCGCGCTGAAGGCGCTCGAAAAGCTGATCGGCGCCGCCGGCCGTCTGGAGCTTGTGGGCCAGACGAAGAACGGCGCGCTTGCCTATGTGGATTATGCCCACAAGCCGGACGCGCTGGAGAACGTGCTGACCTCGGTGCGGCCCTTCACCTCCGGCCGCATCATCACCGTGTTCGGCTGCGGCGGCGACCGCGACAAGGGCAAGCGCCCGATCATGGGCGAGGTTGCGACGCGGCTTTCCGACATCGTCATCGTCACCGACGACAATCCGCGTTCGGAAGATGCTGCAACGATCCGTTCCGAAGTCATGGCGGCAGCGCCCGGCGCTTTGGAAATCGGCGACAGGGCGGACGCTATCCGCCATGCGGTGTCGCTGCTTTCGCATGGCGATACGCTGATCGTTGCAGGCAAGGGGCATGAAGAGGGGCAGATCGTCGGTTCGGTAACGCTGCCGTTTTCCGATCATGAACAGGTGCGCGCTGCACTGGCAGGGCTGGAAGGATCGAAGATTTGA	MNLRDISGDAFPELKELLLSEIGAIEIGGITADSRKAAPGSLFVAVAGTKADGAAYVKDAVAKGAVAIVSGHALDADVPVLSVTDPRLYLSLAASRFYGKQPETMVAVTGTAGKTSVASFVRQIWAFAGHAAAQIGTTGVIAPGREDYGALTTPDPVTLHALLAELAAEGVTHAAMEASSHGLDQRRLDGVRLAAAGFTNLGRDHMDYHPTVEDYMAAKMRLFDTLMEKGAPAVIFADDPWSEKAIRAAREAGLDVRTVGRKGEYLALKRVEHFRHKQMIEVHHDGEIYEVDIPLAGDFQVANALVAAGLAMSTGVPAATALKALEKLIGAAGRLELVGQTKNGALAYVDYAHKPDALENVLTSVRPFTSGRIITVFGCGGDRDKGKRPIMGEVATRLSDIVIVTDDNPRSEDAATIRSEVMAAAPGALEIGDRADAIRHAVSLLSHGDTLIVAGKGHEEGQIVGSVTLPFSDHEQVRAALAGLEGSKI	PGPT0024130_3212	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024130-murE-K01928	NA	NA
BMS010_01303	1407	murF_1	COG0770	UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D-alanine ligase	ATGATCGCCATCACGGCAGGACGCCCCGTGGGCAACCTGCCGACCGGAATCACCGGCATTTCCATCGACAGCCGGACGGTCAAGCCGGGCGAAGCGTTCTTCGCCATCAAGGGCGACCGGGTGGACGGTCATGATTACACCAGCTTCGCCGTTGCGAACGGGGCGGGGCTTCTGGTCGTTGCCGAGGCCAAGCTGCCGGCGCTCGGCCGCCTGACCGTGCCGATGATCGTGGTGGAAGATGTGCTTGCCGCACTCGGCAAGCTCGCCATCGCGGCGCGTGAAAGAACGTCGGCGCGCATCATTGCGGTAACCGGTTCGGTCGGCAAGACCACGACCAAGGAAATGCTGCGGCAGGCGCTCGCCCCTTCAGGCCGTGTGCATGCGGCGGTAGCCTCCTTCAACAATCATTGGGGCGTGCCGCTGACGCTGGCGCGCATGCCGGCGGACACGGAATTCGGCGTGTTCGAAATCGGCATGAACCATTCCGGCGAAATCCGGCCGCTGGTGAAGCTGGTGCGCCCGCATGTGGCGATCATCACGACCATCGCACCGGCCCATCTCGGCAATTTCAAGAACATCGAAGAGATCGCTAGCGCCAAGGCGGAGATTTTCGAGGGTCTGGAAGAGGGCGGTTCCGTCATCCTCAACCGCGATAACGCCCAATTCGAACAGCTTGAAGAAGCGGCGCAGGAACAGGGTATCGAGCATATCCTCACCTTCGGGCAGCATGCCAAGGCGGATTTCCGCCTCGCGGATTTCGAGAGCACGACGACGGGCTCGACGATCTGGGCGATCCTGAACGGTGAAACCAGCGAGTTGCACATCAATATTCCCGGCCGGCACATTGCCGATAACGCCATGGCCGTGCTGGGCGCCGTTGCGGTCACCGGCGCCAATCTCGACCGTGCCTTCGAGGCGCTGGGAACGCTTGAGGCGGTAAAGGGGCGCGGCCAGCGCCATCAGCTGGCAATCAACGGTGGCACCTTCCTGCTGATCGATGAAAGCTACAATGCCAATCCGGCCTCCATGCGCGCGGCGATCGCCGTGCTGGCGGAAACGCCGACGCAGGGTCACGGAAGGCGCGTCGCAGTCCTCGGCGACATGCTGGAGATGGGCGAGTTTTCCGCGCAGTTGCATGAAGAATTGGCGGGCCCACTGCTCGCGGCCGGTATCGAACATGTCTGGCTGGCGGGTGAGGCGATGGCGGCGCTGCGTGATGCGTTGCCGGACAGCGTTACCGTCATCTGGTTCCCGACGACGGCGGAACTGACCGATTTCGCCCTGCAATGGGTGCAACCGGGAGACGCGCTGATGGTAAAATCGTCACTTGGCCTCGGTTTCGGCAAGATTGTCGCCGCCCTGCTTGACAAGTATCCGGCATTCCCCGAGACGGAACGCCAAGTCTGA	MIAITAGRPVGNLPTGITGISIDSRTVKPGEAFFAIKGDRVDGHDYTSFAVANGAGLLVVAEAKLPALGRLTVPMIVVEDVLAALGKLAIAARERTSARIIAVTGSVGKTTTKEMLRQALAPSGRVHAAVASFNNHWGVPLTLARMPADTEFGVFEIGMNHSGEIRPLVKLVRPHVAIITTIAPAHLGNFKNIEEIASAKAEIFEGLEEGGSVILNRDNAQFEQLEEAAQEQGIEHILTFGQHAKADFRLADFESTTTGSTIWAILNGETSELHINIPGRHIADNAMAVLGAVAVTGANLDRAFEALGTLEAVKGRGQRHQLAINGGTFLLIDESYNANPASMRAAIAVLAETPTQGHGRRVAVLGDMLEMGEFSAQLHEELAGPLLAAGIEHVWLAGEAMAALRDALPDSVTVIWFPTTAELTDFALQWVQPGDALMVKSSLGLGFGKIVAALLDKYPAFPETERQV	PGPT0024145_1179	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024145-murF-K01929	NA	NA
BMS010_01304	1101	mraY_1	COG0472	Phospho-N-acetylmuramoyl-pentapeptide-transferase	ATGCTGATCTGGCTCGTCGAACTGTCGGATAAAATTCAAATCTTCAACCTGTTCCGGTACATCACCTTCCGGGCGGGTGCTGCGATGTTCACCTCTGCGTTGATCGTCTTCCTGTTCGGACCGGCGATCATCAATTCGCTGCGCGTGCGCCAGGGCAAGGGCCAGCCCATCCGCGCGGATGGTCCGCAGACGCATTTCAAGAAGGCCGGCACGCCGACCATGGGCGGCCTGATGATCCTTGCCGGCATTCTCGGCGGTTCGCTGCTCTGGGGCGATCTGTCGAACGTCTATGTCGTCGCCGTTTTGATGGTGACGCTCGGTTTCGGAGCCATCGGCTTCTACGACGATTATCTGAAAGTGACGAAACAGAGCGACAAGGGCTTTTCCGGCAAGGCCCGTCTCGGCATTGAATTCCTGATTGCGGCGATTGCCGTGTTCTTCATGATGAAGATGGCGCTCGCTTCCGCACCGCATGGCGGCACGCTCGGCAGCTCCATCGCCTTTCCCTTCTTCAAGGAATTCGTGATCAATCTCGGCTACTTCTTCGTGCTGTTCGGTGCTTTCGTCATCGTTGGCGCGGGCAATGCCGTGAACCTGACGGATGGTCTCGATGGTCTCGCCATCGTGCCTGTGATGATCGCCGCCGCCACTTTCGGCGTGATCGCCTATCTCGCCGGTAACGCGGTTTTCGCCAATTACCTGCAGATCAACTTCGTGCCCGGCACGGGTGAGCTTGCCGTCATCGTCGGCGCGGTCATCGGCGCGGGCCTCGGCTTCCTGTGGTTCAACGCGCCGCCCGCCGCCATCTTCATGGGCGATACGGGTTCGCTGGCGCTCGGAGGCCTGATCGGCTCCATCGCTGTCGCGACCAAGCACGAGATCGTCATGGTCATCGTCGGCGGTCTGTTCGTCATGGAAACACTGTCTGTCATCATCCAGGTCTTCTGGTTCAAGCGCACCGGCAGGCGCGTCTTCCTGATGGCGCCGATCCATCACCATTTTGAGAAAAAGGGCTGGACGGAAAGCCAGGTGGTCATCCGTTTCTGGATCATCTCCGTTGGCCTCGCGCTGCTTGGCCTCGCCACCCTGAAGCTGAGGTGA	MLIWLVELSDKIQIFNLFRYITFRAGAAMFTSALIVFLFGPAIINSLRVRQGKGQPIRADGPQTHFKKAGTPTMGGLMILAGILGGSLLWGDLSNVYVVAVLMVTLGFGAIGFYDDYLKVTKQSDKGFSGKARLGIEFLIAAIAVFFMMKMALASAPHGGTLGSSIAFPFFKEFVINLGYFFVLFGAFVIVGAGNAVNLTDGLDGLAIVPVMIAAATFGVIAYLAGNAVFANYLQINFVPGTGELAVIVGAVIGAGLGFLWFNAPPAAIFMGDTGSLALGGLIGSIAVATKHEIVMVIVGGLFVMETLSVIIQVFWFKRTGRRVFLMAPIHHHFEKKGWTESQVVIRFWIISVGLALLGLATLKLR	PGPT0024105_1211	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024105-mraY-K01000	NA	NA
BMS010_01305	1410	murD_1		UDP-N-acetylmuramoylalanine--D-glutamate ligase	ATGATCCCGGTCACGTCGTTCAAAGGTAAGAAGGTCGCGCTTTTCGGGCTTGGCGGTTCGGGTCTCGTCACGGCCCGGGCGCTGGTGGCTGGCGGGGCGGATGTCGTGGCTTTCGACGACAATCCCGACAGTGTCGCGAAGGCTGAGGCCGAGGGCATCAAGACGGCGGACCTTCGAACGATAGACTGGTCGAGCTTTTCTTCCTTCGTTCTGGCGCCCGGCGTGCCGCTGACGCATCCGAAACCGCATTGGTCGGTCGACCTTGCGAAGGCGGCGGGCGTCGAGATCATCGGCGATATCGAGCTTTTCATCCGCGAGCGCCGTGCGCACGCGCCGGACTGCCCTTTCATCGCCATTACCGGCACCAACGGCAAGTCCACAACGACGGCGCTGATCGCGCATATTCTCAAGGCTTCGGGCCGCGATACGCAGCTTGGCGGTAATATCGGCACGGCGGTGCTGAGCCTCGATCCGCCGAAGGCGCAACGCTTCTATGTTGTCGAATGCTCGTCCTACCAGATCGATCTCGCACCGACGATCAATCCGACCGCCGGCATTCTGCTCAATCTGACGCCCGATCATCTCGACCGGCACGGCACGATGCAGCACTATGCCGACGTCAAGGAACGGCTGGTGGCTGGCAGCGGCACGGCAATCGTCGGTGTCGATGACAGCCATTCGACGCTGATTGCCGACCGTATCGAACGCGCCGGTGTCAAGGTGGAGCGCATTTCCAAGCGCAATGTCGTTTCCGAAGGTCTCTATGCCGAAGGCAGCCGTATTTTCCGTGCGCATGGCGGCACTTCTTCGCTGCTCACCGATCTCGACGGTATCCAGACCCTGCGCGGCAGCCACAATGCGCAGAATGCGGCGGCGGCAATCGCCGCCTGCCTTGCGGTCGGGGTTTCCGAAGAGGAAGTTCGCGCAGGCCTGAGGTCTTTTCCCGGCCTCAAGCATCGTATGCAGCCGGTCGGCCGACGTGGCAATGTCACCTTCGTCAATGACAGCAAGGCCACCAATGCCGATGCTGCGGCACCGGCGCTTTCAAGTTTCGACCGTATCTACTGGATCGCCGGCGGTCTGCCCAAGGCAGGCGGCATCACCAGCCTTTCGCCGCTTTTCCCGCGCATCGCCAAGGCCTATCTCATCGGCGAGGCGGCAGCCGAATTTGCCGCGACACTTGGTGAAGCCGTGCCTTATGAAATATCCGGCACGCTGGACAAGGCCGTGCAACATGCGGCGGCGGATGCGGAAAAAGATGCGACGGCCGGCAATATCGTGATGTTATCCCCGGCTTGCGCAAGCTTCGATCAATATAAGAACTTTGAGATCAGAGGTGATTCGTTCGTCGCGCAGGTCGCGGCGCTCGATGGCATGACGATGCTGGTTGACTCTGGAAAAGGGGGCTGA	MIPVTSFKGKKVALFGLGGSGLVTARALVAGGADVVAFDDNPDSVAKAEAEGIKTADLRTIDWSSFSSFVLAPGVPLTHPKPHWSVDLAKAAGVEIIGDIELFIRERRAHAPDCPFIAITGTNGKSTTTALIAHILKASGRDTQLGGNIGTAVLSLDPPKAQRFYVVECSSYQIDLAPTINPTAGILLNLTPDHLDRHGTMQHYADVKERLVAGSGTAIVGVDDSHSTLIADRIERAGVKVERISKRNVVSEGLYAEGSRIFRAHGGTSSLLTDLDGIQTLRGSHNAQNAAAAIAACLAVGVSEEEVRAGLRSFPGLKHRMQPVGRRGNVTFVNDSKATNADAAAPALSSFDRIYWIAGGLPKAGGITSLSPLFPRIAKAYLIGEAAAEFAATLGEAVPYEISGTLDKAVQHAAADAEKDATAGNIVMLSPACASFDQYKNFEIRGDSFVAQVAALDGMTMLVDSGKGG	PGPT0024125_991	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024125-murD-K01925	NA	NA
BMS010_01306	1155	ftsW_1		putative peptidoglycan glycosyltransferase FtsW	ATGGTAAGCCGAGTTGATCGCGGTCCGGTCGCAGAGTGGTTCTGGACCATCGACCGTTTCTTTCTGGCGGCGTTCATCGCGCTGATGGGCATCGGCCTGATGCTGTCCTTTGCGGCCTCGCCTGCGGTTGCCGAGCGCATCGGCCTCAACAGTTTCTTCTTCGTCGAGCGTCAGGCGATGTTCATGGTACCGTCGCTCGCGATCATGGTCGGCCTGTCCTTCCTGTCGCCGCGTCAGGTGCGACGCGTCGCGGTCATCATGCTTATCGTTTCGCTGCTGATGATGATCTTCGCGTTGTTCTTCGGCATCGAGGTCAAGGGTGCGCGGCGCTGGATTTCCATCGGCACCTTCTCGATCCAGCCGTCGGAATTCATGAAGCCGGCCTTCGTCATCGTCTGCGCCTGGCTGTTTGCCGAACGGGCGCGCCATCCTGAAATTCCCGGCAATCTTTTCGCCATCATCACCTTCGGCATTGTGGCGGCGCTCCTGATCGCCCAGCCGGACTTCGGCCAAACGATCCTGACGTCGGTGGTCTGGGGTGGCATGTTCTTCATGGCCGGCGTGCCGTGGTTCTGGATCATCATGCTCGGCGGCGTCGGGGTCGGCGGCATCATCTCCGCCTATCTGATGCTGCCGCACGTGGCCGGTCGTATCGACCGTTTCTGGACCGGCGAAGGCGATACGTTCCAGGTGGACACGGCGCGCGAGGCTATCATTCGCGGCGACTGGTTCGGTCGCGGACCGGGCGAGGGCATCGTCAAGCGCATCATTCCCGACAGCCACACCGACTTCATCTTCTCGGTGGCTGCGGAAGAATTCGGCATCGTTTTCTGCATGTTCCTCGTCGTGATCTTCGCCTTCATCGTGCTGCGCGGCCTTTCGCACGCCTTCAAGGAAAAGGACGATTTCTGCCGCTTTGCCGTGGCGGGCCTTGTGCTGCAGATCGGCATGCAGTCGATGATCAATATCGGCGTCAATCTGGAACTGATGCCCGCCAAGGGCATGACGCTGCCGCTGATTTCCTACGGTGGTTCGTCGATGATGGCGATCTGCGTGACCGCCGGCTTCCTTCTGGCGCTGACACGCCACAGACCCGAAAAGCGGGCGCAGGAGCGGAGTTTCTTCCGCGTCGGTTCCGGCGTTCCCGCGGAGTAA	MVSRVDRGPVAEWFWTIDRFFLAAFIALMGIGLMLSFAASPAVAERIGLNSFFFVERQAMFMVPSLAIMVGLSFLSPRQVRRVAVIMLIVSLLMMIFALFFGIEVKGARRWISIGTFSIQPSEFMKPAFVIVCAWLFAERARHPEIPGNLFAIITFGIVAALLIAQPDFGQTILTSVVWGGMFFMAGVPWFWIIMLGGVGVGGIISAYLMLPHVAGRIDRFWTGEGDTFQVDTAREAIIRGDWFGRGPGEGIVKRIIPDSHTDFIFSVAAEEFGIVFCMFLVVIFAFIVLRGLSHAFKEKDDFCRFAVAGLVLQIGMQSMINIGVNLELMPAKGMTLPLISYGGSSMMAICVTAGFLLALTRHRPEKRAQERSFFRVGSGVPAE	PGPT0014810_3814	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014810-ftsW|spoVE-K03588	NA	NA
BMS010_01307	1137	murG_1	COG0707	UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglucosamine transferase	ATGAGCAAGGGTATTGTTCTTCTTGCCGCCGGGGGAACCGGCGGCCATGTCTTTCCAGCAGAGGCGCTCGCGCACACGCTGAAAGCGCGCGGTTATCAGGTGCACCTCGTTACCGACAGCCGCGCCGAGCGTTATGCTGGCAAGTTCCCGGCGGATGAAATTCATGTCGTGCCGTCCGCCACCATCGGCTCGAAAAACCCGATTTCCGTGGCGCGTTCGCTCTGGAAGCTGTGGGTTGGTCTGCGCGCCGCGCGCCGGCTGGTGGCGAAGCTGAAGCCTGTCGCAGTTGTCGGTTTCGGTGGTTATCCCACCGTGCCTCCGCTGCTGGCCTCCACCGGGCTTGGCGTTCCGTCCATCATTCACGAACAGAATGCGGTGATGGGCCGCGCCAACAAGGCGCTGGCAGGCCGGGTGAAAGCGATTGCCGGCGGTTTCCTGCCGCCCGCCAACGGCCAATACTCCGACAAGACGGTGGCGACCGGCAATCCCGTGCGCCCGGCGGTGCTGGCGGCGTCGGAGATACCCTATACGCCCTCGCAGACGGGTGAGACATTCCAGCTTGTCGTTTTCGGCGGCAGCCAGGGCGCGCAGTTCTTCTCGAGCGCGGTGCCTGCGGCGATCTGCCTGCTGAAGGATGAACAGCGCAAGCGCATCGTCGTCACCCAGCAGGCGCGGCCGGAAGACAAGGACAGCGTGGTCGCCTCCTATCAGAAGCTTGGGGTGAAGGCGGATGTTTCGCCCTTCTTCGGCGACATGGCGTCGCGCATCGGCGAGGCCGATCTGGTCATCAGCCGCTCGGGCGCATCGACCGTATCGGAGCTTTCGGTGATCGGCCGCCCATCTATCCTCGTTCCGTATCCGCATGCGCTCGATCACGATCAGGCCGCCAATGCGGCAGCGCTTTCGGCGGCGGGCGGAGCAAGCGTCATCAAGCAGGCGGAACTGTCGCCGCAGAAGCTTTCCGGCCTGCTGACGTCGGCGCTCGCGGAGCCGGATCGACTTTCCGCAACCGCGGCGGCGGCCAAGGCAACAGGCAAACCGCATGCGGCGGATGTGCTGGCCGATCTGGTGGAGGCGATTGCCTCCGGCCGGTCCGTGCAGGAATTCAAGAAGAAGAATGAAGGAGTTGGGGCATGA	MSKGIVLLAAGGTGGHVFPAEALAHTLKARGYQVHLVTDSRAERYAGKFPADEIHVVPSATIGSKNPISVARSLWKLWVGLRAARRLVAKLKPVAVVGFGGYPTVPPLLASTGLGVPSIIHEQNAVMGRANKALAGRVKAIAGGFLPPANGQYSDKTVATGNPVRPAVLAASEIPYTPSQTGETFQLVVFGGSQGAQFFSSAVPAAICLLKDEQRKRIVVTQQARPEDKDSVVASYQKLGVKADVSPFFGDMASRIGEADLVISRSGASTVSELSVIGRPSILVPYPHALDHDQAANAAALSAAGGASVIKQAELSPQKLSGLLTSALAEPDRLSATAAAAKATGKPHAADVLADLVEAIASGRSVQEFKKKNEGVGA	PGPT0024150_768	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024150-murG-K02563	NA	NA
BMS010_01308	1416	murC_1	COG0773	UDP-N-acetylmuramate--L-alanine ligase	ATGAAGATGCCGAAAGCCATAGGCCTTGTGCATTTCATCGGCATAGGCGGGATCGGCATGAGCGGCATTGCCGAAGTGCTTCACAATCTCGGCCACCGCGTTCAGGGGTCGGATCAGGCCGACAGCGCCAATGTGCAGCGGCTGCGCGACAAGGGCATCGAGGTTTTTGTCGGCCATACGGCGGATAATATCGGCGACGCCGAGGTCGTGGTCGTTTCCACCGCCATCAAGAAGAACAATCCCGAACTCATCGCGGCGCGTGAAAAGCACCTGCCGATCGTTCGCCGGGCCGAAATGCTGGCCGAGCTGATGCGTTTCCGTAACGCCATCGCCATTGGTGGCACGCATGGCAAGACCACCACCACCTCCATGGTCGCGACCCTGCTGGAAGCCGGCAATCTTGACCCGACCGTCATCAACGGCGGCATCATCAATGCTTACGGCACCAATGCCCGCATGGGTGAGGGCGAGTGGATGGTGGTGGAGGCCGACGAATCCGACGGCACCTTCCTGAAGCTGCCGGCCGATGTGGCTGTCATCACCAATATCGATCCCGAGCATCTGGATCACTACGGAAATTTCGATGCCGTCCGCGCCGCATTCCGCCAGTTCGTGGAGAATGTGCCTTTCTACGGTTTCGGCGTCATGTGCCTCGATCATCCGGAAGTGCAGGCACTGGTCGGCCGCATCGAGGACCGCAAGGTCATCACCTATGGCGAGAACCCGCAGGCCGACGTACGTTTTTCGAATGTGCGTATCGATGGTACGCGGTCGGTGTTCGATGTGGAAATCCGCCGTCGCCGCACGGGCAAGATATTCTCCTTCAAGGACCTCGTCCTGCCGATGCCCGGCCGCCACAACGTCTCGAATGCGACGGCGGCGATTGCGGTTGCCAATCGTCTCGGCATTTCTGAAGCCGACATCAAGAAGGGCCTTGCCTCCTTCGGCGGCGTCAAGCGGCGTTTCACGCTGACGGGCGAAGCCAATGGGGTGCAGGTTTTCGATGACTACGGCCACCATCCGGTGGAGATCAAGGCCGTGCTGAAGGCGGCGCGGGAGGCCTGCAAGGGCCGCATCATCGCCGTGCACCAGCCGCACCGCTACAGCCGCCTTTCCAGCCTGTTCGACGATTTCGCACATTGTTTTAACGATGCCGACACGATTATCCTTGCTCCGGTCTATGCCGCGGGCGAAGATCCGATCGAGGGTGCAAGCTCGGAAGCGCTGGTTTCGGCCATCAAGGCCGCCGGCCACCGGGACGCCCGTTTTCTCGAGAAACGGGAAGATCTCGCCTCAGTGGTTGCAGGCATTGCGAATCCGGGTGATTTCGTGGTTCTCTTGGGGGCTGGAAATATCACGCAATGGGCAGCGGCGCTGCCTTCGGAATTGAAGAGCATATCAGGAAAGTCTGAATGA	MKMPKAIGLVHFIGIGGIGMSGIAEVLHNLGHRVQGSDQADSANVQRLRDKGIEVFVGHTADNIGDAEVVVVSTAIKKNNPELIAAREKHLPIVRRAEMLAELMRFRNAIAIGGTHGKTTTTSMVATLLEAGNLDPTVINGGIINAYGTNARMGEGEWMVVEADESDGTFLKLPADVAVITNIDPEHLDHYGNFDAVRAAFRQFVENVPFYGFGVMCLDHPEVQALVGRIEDRKVITYGENPQADVRFSNVRIDGTRSVFDVEIRRRRTGKIFSFKDLVLPMPGRHNVSNATAAIAVANRLGISEADIKKGLASFGGVKRRFTLTGEANGVQVFDDYGHHPVEIKAVLKAAREACKGRIIAVHQPHRYSRLSSLFDDFAHCFNDADTIILAPVYAAGEDPIEGASSEALVSAIKAAGHRDARFLEKREDLASVVAGIANPGDFVVLLGAGNITQWAAALPSELKSISGKSE	PGPT0024120_2233	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024120-murC-K01924	NA	NA
BMS010_01309	966	murB_1	COG0812	UDP-N-acetylenolpyruvoylglucosamine reductase	ATGAGACAGGTCGATGGGGTTAAATTGCTGGGGAGGCTCGGCGACGGGGTAAATGAATTGCGGGGACGTCTGACACCGGATGCGCCCATGGACCGCGTGACGTGGTTCAGAGCCGGCGGTCTTGCGGAAGTCATGTTCCAGCCGCACGATACCGACGATCTGATTGCCTTCCTGAAAATTCTGCCGGAAGACGTGCCGTTGACCGTGGTTGGCGTCGGCTCGAACCTTCTGGTGCGCGATGGCGGCATTCCGGGCGTTGTCGTCCGTCTGTCCGCCAAGGGCTTTGGCCAGGTGGAGCTTGCCGGTGAAAACCGCATCAAGGCGGGCGCGATCTGCCCTGACAAGCATATTGCCGCTATGGCCATGGATAATGGCATTGGCGGGTTCCATTTCTATTACGGCATTCCCGGCTCCATCGGCGGTGCGCTGCGCATGAATGCGGGCGCCAATGGCGGCGAGACGCGCGAGCGTGTCGTGGAGGTCTATGCGGTCGACCGTCAGGGCAACCAGCATGTGCTTTCCAATGCCGATATGGGCTACAGCTATCGCCATTCCGGCGCCGATGCAGGTCTGATCTTTACGGGCGCGCTGTTTGAGGGTTATCCCGAAGACAAGGCGAAAATCCGGGCCGATATGGACGCCGTGCGCCACCACCGCGAAACCGTGCAGCCAATCCGCGAGCAGACGGGCGGTTCCACCTTCAAGAATCCCGAAGGTCATTCCGCCTGGGAACTGATCGACGAGGCGGGCGGTCGCGGTCTGGTCATCGGCGGCGCGCAGATGTCGTCGCTGCATTGCAATTTCATGATCAATACCGGCCATGCGACCGGTTACGATCTGGAATATCTGGGTGAGACCATCCGCAAGCGGGTGTTCGAGAAGTCGGGCATCCGGCTGGAATGGGAAATCAAGCGCCTTGGCCTGTTCATGCCGGGCCGGGAAGTGGAGCCGTTCCTGGGGGCTTAA	MRQVDGVKLLGRLGDGVNELRGRLTPDAPMDRVTWFRAGGLAEVMFQPHDTDDLIAFLKILPEDVPLTVVGVGSNLLVRDGGIPGVVVRLSAKGFGQVELAGENRIKAGAICPDKHIAAMAMDNGIGGFHFYYGIPGSIGGALRMNAGANGGETRERVVEVYAVDRQGNQHVLSNADMGYSYRHSGADAGLIFTGALFEGYPEDKAKIRADMDAVRHHRETVQPIREQTGGSTFKNPEGHSAWELIDEAGGRGLVIGGAQMSSLHCNFMINTGHATGYDLEYLGETIRKRVFEKSGIRLEWEIKRLGLFMPGREVEPFLGA	PGPT0024115_2798	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024115-murB-K00075	NA	NA
BMS010_01310	810			hypothetical protein	ATGATGTTGGGTCTTTGGAAAAAACCGATCGAAATGATAAGTTTTTCGGTCGCCACGTCGGATGGCCGCAGGCGGCTCGAGCCACTGGAGTTCTCCCTTCGTATCGCTTGTCTCGTGACGATCATTGTCATCCTGATGTGCATAGGTGGCCTGACGCTTCTCGCGCGGTTCGGGCTGGTAACCGATCTCTTCAACGGCATCATGTTGAGTGTGACGCTCGGCGGGACGGTGGCGTTTTCGATTACATTGCTGGTCTGTTGGCTGAATTCCAGGGAAGTGAAAATTCTCGTGCAATCCCACGAGCGCTTCCTGCATCTGAGCCACACGGACGCCCTGACCGGCCTCAGCAACCGGCTCGGCCTTTATGCTGCATGCGCTGAACTGGGCAGCGACTATTGCGTCGCCTTTCTTGATATCGATCATTTCAAGAAGGTGAATGACAGATACAGCCACCTTGCCGGTGATCTCGTCATCTCGAACGTCGCCCGCAGGATAAGGGAGCATTTCGATTCTTCTGCGCATGTCGCCCGCCTGGGTGGCGAGGAATTTGTCGTTGTGCAGGAAACCAGCCCGCTCGCCTTTCTGCAGATGTGCGAAAGGGTTCGCGCAGCCATCGAGACCACCCCGGTGGAGTATCAGGATTTGCGGATCACGGTGACGATTTCGATTGGCGTGGCGTTTCGCGGCGACGCCGACATTTTCGACAAGGTCATGCACAATGCCGATCTGGCGCTCTATCGGGCAAAGGAAGGAGGGCGCAATCGCGTCTGCATGACCGGTCATGTGGAGCGGCGCCAGGCCGTGGCGTAA	MMLGLWKKPIEMISFSVATSDGRRRLEPLEFSLRIACLVTIIVILMCIGGLTLLARFGLVTDLFNGIMLSVTLGGTVAFSITLLVCWLNSREVKILVQSHERFLHLSHTDALTGLSNRLGLYAACAELGSDYCVAFLDIDHFKKVNDRYSHLAGDLVISNVARRIREHFDSSAHVARLGGEEFVVVQETSPLAFLQMCERVRAAIETTPVEYQDLRITVTISIGVAFRGDADIFDKVMHNADLALYRAKEGGRNRVCMTGHVERRQAVA				NA	NA	NA	NA	NA
BMS010_01311	1305	yhjE_1		Inner membrane metabolite transport protein YhjE	ATGACCGACGCGATATCTCCGGTATCGCCGACCGCTGACACTTCGAACGTTGTAAAGACAAATTCGCCTGCACGAGTTCTCACTGCCAGCCTGGTCGGCACGACCATCGAGTTTTTCGATTTCTATGTTTACGCCACGGCCGCAGTGCTCGTGTTCCCCACATTGTTCTTCCCGAACAATGACCCGATGACGGCGCTTCTGGCGTCCTTCGCCACCTTCTCCATCGCCTTTTTCGCCCGCCCGCTGGGCGCTGTGGTCTTCGGGCACTATGGTGACCGCGTTGGCCGCAAGACCACCCTTGTCGCGGCGCTGCTGACCATGGGCGTCTCGACTGTCGTGATCGGCCTGCTGCCATCCTATGAGACGGCAGGCGTTCTGGCGCCGCTGCTGCTCGCACTTTGCCGCTTCGGCCAGGGTTTCGGCCTCGGTGGCGAATGGGGCGGCGCCGTCCTGCTCGCCACGGAAAACGCACCTCCGGGCAAGCGCAGCTGGTACGGCATGTTCCCGCAGCTCGGAGCACCCGTTGGCCTGTTCCTTTCGTCCGGCGTGTTCTGGATCCTGCTGCACTTCATGTCTCAGGAAGCACTTCTGAGCTGGGGCTGGCGCATTCCCTTCGTCGCTTCGATCATCCTGATCGCGGTCGGCATGTGGGTTCGCCTGTCCATCACCGAAACGCCCGACTTCCAGAAGGCAATCGAAAAGGAAGAGCGTGTGGCCGTGCCGGTCGCGGAACTGTTCCGCAACCACAAGCGCAGCCTCGTGCTCGGCACCTTCGTGGCGCTGGCCACCTTCGTGCTCTTCTACATCGGCACCGCCTATCTTCTGTCCTACAACGTCAAGGTCCTGAAAATCCCGTTCCTCGACGCGTTGGAAGTGCAGATCCTCGGCTCCATCGTTTTCGGCATCTTCATTCCGATCGCCGGCAAGCTCGCCGAAAAATTCGGCCGTCGTGAAATCCTGATCCTGACGACGGTGCTGATCGGCCTGTTCTCCTTCCTGCTGCCCGGCCTGATGTCCGGTGGCGAAGGCTCGATCTTCGTCTTCGCGGCTCTTGCCATGATGCTGATGGGCATGACCTACGGCCTGATCGGAACGGCGCTCGCCGCCCCCTTCCCGACCCGCGTGCGCTACACCGGCTCGTCCATCACCTTCAACATGGCCGGCATCTTTGGCGCATCGCTGGCGCCCTACATCGCCACATGGCTGCAGGTGAATTACGGTATGGGGTATGTCGGCTATTATCTCTGCGTATCGGCGCTCATCACGCTCGCCTGCATTCTTCTGTCCCGCAAGGACGAAGTCTGA	MTDAISPVSPTADTSNVVKTNSPARVLTASLVGTTIEFFDFYVYATAAVLVFPTLFFPNNDPMTALLASFATFSIAFFARPLGAVVFGHYGDRVGRKTTLVAALLTMGVSTVVIGLLPSYETAGVLAPLLLALCRFGQGFGLGGEWGGAVLLATENAPPGKRSWYGMFPQLGAPVGLFLSSGVFWILLHFMSQEALLSWGWRIPFVASIILIAVGMWVRLSITETPDFQKAIEKEERVAVPVAELFRNHKRSLVLGTFVALATFVLFYIGTAYLLSYNVKVLKIPFLDALEVQILGSIVFGIFIPIAGKLAEKFGRREILILTTVLIGLFSFLLPGLMSGGEGSIFVFAALAMMLMGMTYGLIGTALAAPFPTRVRYTGSSITFNMAGIFGASLAPYIATWLQVNYGMGYVGYYLCVSALITLACILLSRKDEV	PGPT0002956_531	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_SHIKIMATE_TRANSPORT,PGPT0002956-shiA-K08172	NA	NA
BMS010_01312	927	ddlB	COG1181	D-alanine--D-alanine ligase B	ATGAGCGGCAAGCACGTAGCTGTTCTTTTGGGTGGATTTTCGTCGGAGCGGCCGGTCAGCCTGTCGTCGGGCAACGCTTGCGCGCAGGCTCTGGAAGACGAGGGCTACAAGGTCACCCGGGTCGATGTGGGGCGCGATATCGCCGCCGTGCTAGCCGAGCTGCGCCCGGATGTCGCCTTCAACGCGCTGCACGGTCCTTTTGGCGAAGACGGCACCATTCAGGGCATTCTCGAATATCTCGCCATTCCCTATACCCATTCCGGCGTGCTCGCTTCCGCGCTCGCCATGGACAAGGCGCAGGCCAAGAAGGTTGCCGCTGCTGCCGGCATCCCGGTGGCTGCCGAGCGCGTCATGAACCGCTTCGATTTCACCAGCGAACATCCGCTTGCACCACCTTATGTCGTGAAGCCGGTGCGTGAAGGTTCGAGCTTCGGCGTCGTGATCGTCAAGGAAGACCAGTCGCACCCGCCGCAGATTCTCACCTCTTCGGAATGGCGCTACGGCGATCAGGTCATGGTCGAGCGCTATATTCATGGCCGCGAACTGACCTGCGGTGTACTCGACGGCGAGGCGCTGGGCGTCACCGAAGTGGTGCCGCTTGGTCACAATTTCTATGATTATGATGCGAAATATGCGGCTGGTGGCTCGAAACATGTCATTCCCGCAGAAATTTCACCGAAAATTTACCAAAAAATTCAAACACTGGCGGTTATGGCGCATCGGGCGATCGGATGCCGTGGCGTAAGCCGTTCAGACTTTCGTTACGACGACCGTTTCTCAGAAGATGGCGAAGTTATCTGGCTTGAAGTGAATACGCAGCCGGGCATGACGCCGACCTCCCTGGTGCCGGAAATGGCGGCTCATGCTGGCCGCTCCTTTGGTAACCTTGTCAGCTGGATGGTGGAGGACGCTTCGTGTTTGCGGTGA	MSGKHVAVLLGGFSSERPVSLSSGNACAQALEDEGYKVTRVDVGRDIAAVLAELRPDVAFNALHGPFGEDGTIQGILEYLAIPYTHSGVLASALAMDKAQAKKVAAAAGIPVAAERVMNRFDFTSEHPLAPPYVVKPVREGSSFGVVIVKEDQSHPPQILTSSEWRYGDQVMVERYIHGRELTCGVLDGEALGVTEVVPLGHNFYDYDAKYAAGGSKHVIPAEISPKIYQKIQTLAVMAHRAIGCRGVSRSDFRYDDRFSEDGEVIWLEVNTQPGMTPTSLVPEMAAHAGRSFGNLVSWMVEDASCLR	PGPT0020050_5069	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0020050-ddl-K01921	NA	NA
BMS010_01313	933	ftsQ_1		Cell division protein FtsQ	GTGTTTGCGGTGATCGGCAAAAAGTCGACGGCAAAAAAGCGCGAACAATTCGCGGCGGCGGCCAGCGCCGACGACCGCATGGTATTGCCGCGTCCCCTGCGTCGCTTCGTGCGTTTCGGTGTCAGCCTTGCGACCGGACGCATTCACATTCCTGCCCATACCGGTACGATTTCGGCCGTCGCTTTTTACGCGGTGACCGGGCTTTACGGCATGTCGCTCGGCGGGCACACCAATATCGTTACCCAGACCACGACATCGGCCGCAGGTTTTGCGGTCGAGGACGTGAAGGTTTCCGGCAATCTGCAGACCTCCGAAATCGAAGTGTTTCAGCTTCTCGGCCTCGATGGAAGCACCTCGCTGATCGCGCTCGATATCGATGCGGCGCGCCGCAAGCTGGTGCAGCTTCCCTGGGTGGAAGATGTCGATATCCGCAAGGTGTACCCCAAGACTGTGGAAGTCCGGCTGAAGGAGCGTCAGGCCTTCGGCATCTGGCAGCATGGAACGGAACTGTCGCTGATCGAAAAAAGCGGCAGCGTGATTGCGCCGCTGCGGGACAATAAGTTCGCCGCCCTGCCGCTCTTCGTCGGCCGTGACGCGGAAACGGGTGCTGCCGGTTTCGTCGAGCAGCTGGCCGACTGGCCGGAAATCCGCAACCGTGTCCGCGCTTATGTCCGCATTGCCGGCCGTCGCTGGGATCTGCATCTCGATAACGGCATCGTCGTCAAGCTGCCGGAAGAAAACCTGCCGCAGGCGCTGCAATTGCTGGCGCGGCTCGATCTCGAGGAAAAGGTGCTGTCGCGCGATGTCGCCGCCGTCGATCTCCGGCTCGCGGACCGCACCACGATCCAGTTGACCGAGGGCGCCACGGAACGCCGTCAGGCCGCTGTCGACGCGCGCACCAAGGCTCTCAAGAAGGCGGAGAAGAACACATGA	MFAVIGKKSTAKKREQFAAAASADDRMVLPRPLRRFVRFGVSLATGRIHIPAHTGTISAVAFYAVTGLYGMSLGGHTNIVTQTTTSAAGFAVEDVKVSGNLQTSEIEVFQLLGLDGSTSLIALDIDAARRKLVQLPWVEDVDIRKVYPKTVEVRLKERQAFGIWQHGTELSLIEKSGSVIAPLRDNKFAALPLFVGRDAETGAAGFVEQLADWPEIRNRVRAYVRIAGRRWDLHLDNGIVVKLPEENLPQALQLLARLDLEEKVLSRDVAAVDLRLADRTTIQLTEGATERRQAAVDARTKALKKAEKNT				NA	NA	NA	NA	NA
BMS010_01314	1332	ftsA_1	COG0849	Cell division protein FtsA	ATGAGCTTTTTCGGTTCTTCCCATTTCGGCCTGCCTCGCCTGAAGCCGCTTTCTTCCAAGCGCAGCCACATCGTTTCGGTGCTCGACATCGGCTCGACCAAGGTCGTGTGCATGATCGGCCGGCTGACGCCGCGCCAGGAAAGCGAAATTCTGCCGGGCCGCACCCACAAGGTCGAAATCATCGGCATCGGCCACCAGCGTTCGCGTGGCGTGAAGTCAGGCGTGATTGCCGACCTCGATGCGCTGGAAGGCGTTATCCGTCTTTCGGTCGATGCGGCCGAGCGCATGGCGGGGCTTACCGTCGACAGCCTGATCGTCAATGTTTCGGCCGGCAGGCTGGCAAGCGATATCTATACCGCGAGCATCGATCTCGGCGGGCAGGAAGTGGAAGCAAGCGATCTGCGCAAGGTTCTGGTGGCGGCAAGCCAGCAATCCATGCGTCAGGACCGGGCCATCCTGCATTCGCTGCCAACAGGTTACTCGCTGGATGGCGAGCGCGGCATTCGCGATCCGCTCTCCATGTATGGTGATCTTCTCGGTGTGGACATGCATGTCGTCACGGTCGAGCGGACGGCGCTGAAGAACCTCGAGCTTTGCGTCAACCGCGCGCATCTTTCGGTCGAGGGCATGGTGGCGACGCCCTATGCCAGCGGTCTGGCGGCGCTGGTGGACGATGAAGTCGAACTCGGCTGCGCGGCCATCGACATGGGCGGCGGCACCACGACGATCTCGGTTTTCGCGGAAGGCCGCCTCATTCACACCGACGCGATAGGCCTTGGCGGCCATCACGTGACGACAGATCTTGCACGTGGCCTCTCGACACGAATCGAAGATGCAGAGAGACTGAAGGTGGTGCATGGTTCGGCTTTGCTGAATGGCGCGGATGAGCGCGACATGATTTCGATCCCGCCGATTGGCGAAGACGATCGCGATCAACCATCGCAAGTTTCAAGAGCATTGGTCACCCGTATCGTACGGGCGCGTATCGAAGAGACGCTGGAATTGATCCGTGATCGCATCCAGAAGTCCGGCTTCAGCCCGATTGTCGGCAAGCGCGTCGTCCTGACCGGCGGCGCAAGCCAGCTGACGGGGCTGCCGGAAACGGCGCGGCGCATCCTTGCCCGCAACGTCCGTATCGGCCGCCCCATGGGGGTCGCCGGTCTTCCGGTGGCGGCGAAGGGACCGGCATTTTCAACCGCCTGCGGACTGATGATCTATCCGCAGGTGGCGGACATCGAAATTCATGCGGCGCAAGGCGGAATGTTCTCGCCGTTTGGTAACGGTAGCGGCCGGATAGCCCGGGTGGGGCAATGGCTGAAAGAGAGTTTTTGA	MSFFGSSHFGLPRLKPLSSKRSHIVSVLDIGSTKVVCMIGRLTPRQESEILPGRTHKVEIIGIGHQRSRGVKSGVIADLDALEGVIRLSVDAAERMAGLTVDSLIVNVSAGRLASDIYTASIDLGGQEVEASDLRKVLVAASQQSMRQDRAILHSLPTGYSLDGERGIRDPLSMYGDLLGVDMHVVTVERTALKNLELCVNRAHLSVEGMVATPYASGLAALVDDEVELGCAAIDMGGGTTTISVFAEGRLIHTDAIGLGGHHVTTDLARGLSTRIEDAERLKVVHGSALLNGADERDMISIPPIGEDDRDQPSQVSRALVTRIVRARIEETLELIRDRIQKSGFSPIVGKRVVLTGGASQLTGLPETARRILARNVRIGRPMGVAGLPVAAKGPAFSTACGLMIYPQVADIEIHAAQGGMFSPFGNGSGRIARVGQWLKESF				NA	NA	NA	NA	NA
BMS010_01315	1761	ftsZ_1		Cell division protein FtsZ	ATGACGATACAGCTGCAGAAGCCTGATATCACAGAGCTGAAGCCACGCATCACCGTCTTCGGTGTTGGCGGTGGTGGTGGTAACGCTGTCAACAACATGATCACGGCCGGCCTTCAGGGCGTCGACTTCGTCGTCGCCAACACGGATGCGCAGGCGCTGACCATGACGAAGGCAGATCGGGTCATTCAGCTCGGCGTCAACGTCACCGAAGGCCTCGGCGCCGGTTCCCAGCCGGAAGTCGGCCGCGCCGCCGCTGAAGAATGCATCGATGAGATCATCGACCACCTGAACGGCACCCACATGTGCTTCGTCACCGCCGGCATGGGCGGCGGCACCGGCACCGGCGCTGCTCCCGTCGTCGCACAGGCCGCCCGTAACAAGGGCATCCTGACGGTCGGCGTCGTCACCAAGCCGTTCCACTTCGAAGGCGGCCGCCGCATGCGTCTTGCCGAACAGGGCATCGAGGAACTGCAGAAGTCCGTCGATACGCTGATCGTCATTCCGAACCAGAACCTCTTCCGTATTGCCAACGACAAGACGACCTTCGCCGACGCCTTCGCCATGGCCGACCAGGTGCTCTATTCCGGCGTTGCCTGCATCACCGATCTGATGGTGAAGGAAGGTCTCATCAACCTTGACTTCGCCGACGTCCGTTCGGTCATGCGCGAAATGGGCCGCGCAATGATGGGCACCGGCGAAGCTTCCGGTCCGGGCCGCGCAATGCAGGCTGCGGAAGCGGCGATCGCCAACCCGCTGCTCGACGAAACCTCGATGAAGGGTGCACAGGGCCTGCTGATCTCCATCACCGGCGGTCGCGACCTTACCCTGTTCGAAGTCGACGAAGCTGCGACCCGTATCCGCGAAGAAGTCGATCCGGATGCGAACATCATCCTCGGCGCAACCTTCGACGAAGCTCTGGAAGGTCTCATCCGCGTCTCCGTCGTTGCGACCGGCATCGACCGCGTTGCAGGCGTCGGCGAACAGAACGTTGCCGATATGCGTGCCGCAGCAGCCGTTGCCAAGCCGCTTATCCGTCCTTCCGCGGCCGTTGCTTCCGCTCCGGCCGCAGTTCAGCCTGCTCCAGCAGTATCGCAGGCACAGAAGGCCGTAGACCCGATCGCCCAGACCATCCGTTCGGCAGAAGCCGAAATGGAACGCGAACTCGGTTTCGCCGCACACCAGCAGCCCGCTCAGGATTTCCGTCCCCAGAGCAAGCTGTTCGCATCTTCTCCGGCTGAAGCGCCGGCGGCTCTCCGTCCGGCCCAGCCGGTTCAGCAGGCCGTTCCGGCACCGGTCGCTCCGGCGCCCGTCTATCATGCTCCGGAACAGGTTGCCGCTCCGGCGCCGCGCATGCAGCAGCCACAGGCTCCTGTCTATCAGGAACCCGCACCGGTTGCCCGCCAGCCCGAGCCGGTTCGCATGCCGAAGGTCGAAGACTTCCCGCCGGTCGTCAAGGCCGAGATGGAACATCGCACCCATGCCGCTCCTGCTGCCCAGGAAGAGCGTGGCCCGATGGGTCTCCTGAAGCGCATCACCAACTCGCTTGGTCGTCGCGAAGAAGAAGAAGTTCCGTCCGACATGATGGATGCGCCGAGCATGGCGCCGCAGCAGCGCCGCGCCCCGCTTTCGCCGGAAGCCAGCCTCTACGCACCGCGTCGTGGCCAGCTTGACGACCACGGCCGCGCAACGCCTTCTTCGGCCAGCCATCACGACGACGACCAGCTGGAAATCCCGGCCTTCCTGCGCCGCCAGTCCAACTAA	MTIQLQKPDITELKPRITVFGVGGGGGNAVNNMITAGLQGVDFVVANTDAQALTMTKADRVIQLGVNVTEGLGAGSQPEVGRAAAEECIDEIIDHLNGTHMCFVTAGMGGGTGTGAAPVVAQAARNKGILTVGVVTKPFHFEGGRRMRLAEQGIEELQKSVDTLIVIPNQNLFRIANDKTTFADAFAMADQVLYSGVACITDLMVKEGLINLDFADVRSVMREMGRAMMGTGEASGPGRAMQAAEAAIANPLLDETSMKGAQGLLISITGGRDLTLFEVDEAATRIREEVDPDANIILGATFDEALEGLIRVSVVATGIDRVAGVGEQNVADMRAAAAVAKPLIRPSAAVASAPAAVQPAPAVSQAQKAVDPIAQTIRSAEAEMERELGFAAHQQPAQDFRPQSKLFASSPAEAPAALRPAQPVQQAVPAPVAPAPVYHAPEQVAAPAPRMQQPQAPVYQEPAPVARQPEPVRMPKVEDFPPVVKAEMEHRTHAAPAAQEERGPMGLLKRITNSLGRREEEEVPSDMMDAPSMAPQQRRAPLSPEASLYAPRRGQLDDHGRATPSSASHHDDDQLEIPAFLRRQSN	PGPT0027695_317	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0027695-ftsZ-K03531	NA	NA
BMS010_01316	960	lpxC_1	COG0774	UDP-3-O-acyl-N-acetylglucosamine deacetylase	ATGACTATCGGACTGCTCGGATTTCAGACAACTATCGCAAATGCTGTTCAGCTCAAAGGCATTGGCGTGCATTCCGGCAATCCGGTTTCGATGACCTTCCAGCCCGCAGAAGCCGGAACGGGCATCGTCTTCCATCGCCTTCATGACAATGGCAGCGTTACCGAGTTGAAGGCGGTTTCGGCCAATGTCGGCAATACCGACCTGTGCACCGTGCTCGGCCGTTCGCTTTCCCAGTCGGTTGCGACGATCGAGCACGTCATGGCCGCCATCTACGCCATGGGCCTCGATAACCTCATCGTTGAAGTCGACGGTCCGGAAGCGCCGATCATGGACGGCAGCTCCGCACCTTTCATCGAAGCGATCGAATCGGTCGGCATCAAGAGCCTCGGCGTGAAGCGTCGTTATATTCGCGTCACCAAGCCGGTGCGCATCGATTCGGGCGCCTCCTGGGCGGAGTTCCGTCCCTATGACGGCACGCGCTTCGAGGTTGACATCGATTTCGACACGCCGCTGATCGGCAAGCAGTCCTGGAAGGGCGACCTGACGGCGGAGAGCTTCAAGAACGAGCTGTCGCGCGCCCGCACCTTCGGCTTCATGCGTGATGTGGAGCGCCTGTGGGCCGCCGGTTATGCGCTCGGCTCCTCGCTTGAGAACTCGGTCGTCATCTCCGACGACAACAGCGTCATCAACATGGAAGGTCTGCGTTACGCCAAGGACGAATTCGTCCGTCACAAGACGCTGGACGCCGTGGGCGACCTGGCGCTTGCCGGGGCGCAGTTCATCGGCTGCTACCGCTCCTATCGCGGCGGCCACAAGGTCAATGCGAATGCGCTGAAGGCGCTTTTGAGCGACCGCACTGCCTACGAGATCGTCGAAGCGCCGGCCGCCCGCAACCAGATGGTGCGCGCCCGCGAATTCGTTGCGGTCAACATGCCGGAATTCGCACCCTGGTCTGCGTGA	MTIGLLGFQTTIANAVQLKGIGVHSGNPVSMTFQPAEAGTGIVFHRLHDNGSVTELKAVSANVGNTDLCTVLGRSLSQSVATIEHVMAAIYAMGLDNLIVEVDGPEAPIMDGSSAPFIEAIESVGIKSLGVKRRYIRVTKPVRIDSGASWAEFRPYDGTRFEVDIDFDTPLIGKQSWKGDLTAESFKNELSRARTFGFMRDVERLWAAGYALGSSLENSVVISDDNSVINMEGLRYAKDEFVRHKTLDAVGDLALAGAQFIGCYRSYRGGHKVNANALKALLSDRTAYEIVEAPAARNQMVRAREFVAVNMPEFAPWSA	PGPT0022330_192	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022330-lpxC-K02535	NA	NA
BMS010_01317	843	bamD_1	COG4105	Outer membrane protein assembly factor BamD	ATGAAGGGTACGATGCGGGGGATCGCCGTCTCGTTGATGTTGGTCGGCGCGAGTGTCGCCGTCACGGCCTGCCAGTCCGATCCGGATATCGACATCACCAAGCTCGGCGTCGAGACCGATCCGCCGGATGTTCTGTACAAGCAGGGGCTTGCCAACATGAACGCCGGTAACATGACGGAAGCCTCACGCAAGTTCGAGGCGATCGACAAGCAGTACCCGTTCACCGAATGGGGCCAGAAGGCGCTGGTGATGCAGACCTTCATTGCCACGCGCACCAACAAGAACGATGTGGCCATTACCAATGGTAGCCGGTTCCTGCGCCAATATCCGCGCTCCAAGGATGCCGCTTACGTTCAGTACATGATCGGTCTTGCCTATTCGAAGCAGATTTCCGACGTCACGCAGGACCAGCGCGCCGCACAGCGCACCGTCGAGGCGATGAACAAGGTCGTCAACGACTATCCCGATTCGGAATATGTCGCCGACGCACAGGCCAAGATCCGTTTCGCCCGCGACCAGCTCGCCGGCCGCGAAATGCAGGTCGGCCGTTATTATCTTGAGCGCAAGGAATACCTCGCCGCCGTTTCGCGTTTCCGCATCGTCGTCGAGCAGTATCAGAACACCAACCAGATCGAGGAAGCGCTGGCACGTCTGACGGAAGCCTATTATGCGATGGGTCTGGTGGACGAAGCGCAGACCGCAGCCGCCGTTCTCGGAAACAACTATCCTGACAGCCAATGGTATTCGGATTCCTACAAGCTGCTGAAGGGTAGCGGGCTGGAGCCGCGGGAAAACAAGGGGTCCTGGATTTCGCGCGCCGGCAAGAAGCTCATCGGCGCCTGA	MKGTMRGIAVSLMLVGASVAVTACQSDPDIDITKLGVETDPPDVLYKQGLANMNAGNMTEASRKFEAIDKQYPFTEWGQKALVMQTFIATRTNKNDVAITNGSRFLRQYPRSKDAAYVQYMIGLAYSKQISDVTQDQRAAQRTVEAMNKVVNDYPDSEYVADAQAKIRFARDQLAGREMQVGRYYLERKEYLAAVSRFRIVVEQYQNTNQIEEALARLTEAYYAMGLVDEAQTAAAVLGNNYPDSQWYSDSYKLLKGSGLEPRENKGSWISRAGKKLIGA				NA	NA	NA	NA	NA
BMS010_01318	1674	recN_1	COG0497	DNA repair protein RecN	ATGCTGGTCCAGCTCTCGATTCGCGATATCGTTCTCATCGAAAGGCTCGACCTCGGTTTCGAGGCGGGCCTTTCCGTGTTGACGGGCGAAACGGGTGCGGGCAAATCCATTCTTCTCGATAGTCTCTCGCTGGCGCTTGGCGGGCGTGGCGATGGCGGCCTTGTGCGGCACGGGGAAGAGAAGGGGCAGGTGACCGCCACTTTCGAAGTCCCGAACAATCACCCGACACGGCTTCTCCTGCGTGAAAACGGTCTCGACGACGATGGCGACCTGATTTTCCGCCGGGTGCAATCCTCTGACGGTCGCACCAAGGCCTATATCAACGATCAGGCCATCAGCGTGCAAATGATGCGCCAACTCGGGCAATTGCTGGTCGAAATCCATGGTCAGCATGATGATCGCGCGCTTGTCGATACCGATGCACACCGCACGCTGCTGGATGCCTTTGCCGGGCTGAGCGATGAGGCTCGTGCCGTTCAGGGCCTCTACCGCACCTGGAAGGATGCCGAGCGTGCGCTGAAGACGCACCGCGCCAAGGTGGAGGCGGCAGCGCGTGAGGCGGATTACCTTCGCTCTTCCGTCGAGGAACTGGAAACGCTCTCGCCGCGCGACGGTGAAGAGGACGAGCTGGCCGAACGCCGGGCGGTGATGCAGAAATCCGAACGCATTGCCGGCGATATCGCCGAGGCAAGCGAGTTTCTGAACGGCAATGCCTCGCCCGTGCCTGTCATCGCCTCGATGATGCGGCGTCTGGAGCGCAAGAGCCACGAGGCTCCCGGCTTGCTGGAAGACACGGTGCAATTGCTGGATGCCGCGCTCGACAGCCTTTCCAATGCGCAGATGGAAGTGGAGGCGGCGCTGCGCCGCACCGAATTCGATCCCCGTGAGCTGGAGCGGGTGGAGGAAAGGCTGTTCGCGCTGCGCGCTGCCGGGCGTAAATATAACGTTGCCGTGCCGGACTTGCCGGCTCTCGCCGAAAAAATGGTGGCCGATCTCGCCGATCTCGATGCCGGCGAAGAAAAGCTCGGCAAGCTCGAGGCCAATCTCGGCTTGGTGAAGGCTGATTTCGACCGTGCCGCGCAATCGCTTTCCGAAAAACGCCGCCATGCGGCGGATGCGCTTTCCAATGCGGTGATGGCAGAACTGCCGGCGCTGAAGCTGGAGCGGGCGCGGTTTACCGTCGAGGTGACCTCCGATGCCGAACAGGCGACGGCCGACGGCATCGACACGGTGGAATTCCACGTCCAGACCAATCCGGGCACACGGCCGGGACCGATCATGAAGGTGGCCTCGGGTGGCGAATTGTCCCGCTTCCTGCTGGCGCTGAAAGTGGCGCTGGCGGATCGCGGTTCGGCACCGACGCTGGTGTTCGATGAAATCGATACGGGTGTCGGCGGCGCGGTGGCGGATGCCATCGGCCAGCGGCTGCGCCGCCTGTCGAAAACCGTGCAGGTTCTGTCCGTCACCCATGCGCCGCAGGTGGCGGCACGGGCGGCGACCCATCTACTCATTTCCAAGGGCCCATCCGGCGACGGCAGCGAGCGTATCGCCACGCGCGTGGCCACCATGGAGCCGAAGCACCGCACCGAAGAGATTGCCCGGATGCTCGCCGGCGCGTCGGTGACGGACGAGGCGAGGGCTGCGGCGGCTCGCCTGCTGGCGGCCAAGGATTGA	MLVQLSIRDIVLIERLDLGFEAGLSVLTGETGAGKSILLDSLSLALGGRGDGGLVRHGEEKGQVTATFEVPNNHPTRLLLRENGLDDDGDLIFRRVQSSDGRTKAYINDQAISVQMMRQLGQLLVEIHGQHDDRALVDTDAHRTLLDAFAGLSDEARAVQGLYRTWKDAERALKTHRAKVEAAAREADYLRSSVEELETLSPRDGEEDELAERRAVMQKSERIAGDIAEASEFLNGNASPVPVIASMMRRLERKSHEAPGLLEDTVQLLDAALDSLSNAQMEVEAALRRTEFDPRELERVEERLFALRAAGRKYNVAVPDLPALAEKMVADLADLDAGEEKLGKLEANLGLVKADFDRAAQSLSEKRRHAADALSNAVMAELPALKLERARFTVEVTSDAEQATADGIDTVEFHVQTNPGTRPGPIMKVASGGELSRFLLALKVALADRGSAPTLVFDEIDTGVGGAVADAIGQRLRRLSKTVQVLSVTHAPQVAARAATHLLISKGPSGDGSERIATRVATMEPKHRTEEIARMLAGASVTDEARAAAARLLAAKD				NA	NA	NA	NA	NA
BMS010_01319	2175	ligA_1	COG0272	DNA ligase	ATGTCGAAAGACCAGAAATCCGTCGAAAACCTCACCGAGCTTGAAGCCTCTTCCGAGCTTGCGTTTCTGGCGGCCGAGCTTGCCCGCCACGATGCGCTCTACCACGGCAAGGATGCGCCGGAGATTACGGACGGCGAATATGATGCGCTGAAGCGGCGCAACGATGCCATCGAAGCAGCTTTCCCAGCGCTGGTGCGGGCCGACAGCCCGTCGAAAAAAGTCGGCTTCGCGCCGCTTCCGACCTTCGCACCTATCGTGCATGCGCGGCCGATGCTTTCGCTCGACAATACGTTTTCGGAAGAGGATTTGCGGGATTTCGTGAGTTCCGTCTATCGCTTCCTCGGGCATCTGCCGGACGATTCCATCGCCTTCACCGCCGAGCCGAAGATCGATGGGCTTTCCATGTCGATCCGCTATGAGAACCGCAGGCTTAAGACGGCGGCGACGCGCGGAGACGGCACCACCGGTGAAAATGTCACCGCCAATATCAGGACCATCAAGGAAATTCCGAACGAGCTGCCCGCCGATGCGCCCGATGTGGTGGAAGTACGCGGTGAGGTCTATATGGCCAAGAGCGACTTTCTGGCGCTCAATGCCCAGATGGAGGCCGAGGGCAAGCAGACCTACGTGAACCCGCGCAACACGGCATCCGGTTCCCTGCGCCAGCTCGACGCCAATGTGACGGCGAAACGCAAGCTGCGGTTCTTCGCCTATGCGCTGGGCGAGGTTTCGAAGGGCGGCCAGCCGGCGCGGATCGCCGATACGCAATATGGCATCGTGGAGAAATTCCGGGACTGGGGATTTCCGGTCAATCCGCTGATGAAGCGATTCACCTCTGCCGCGCAATTGCTTGAGCATTATAATGAAATAGGCGTCGCACGGCCCGATCTCGATTACGATATCGACGGTGTGGTTTATAAGGTCGACCGGCTCGATCTGCAGGAACGGCTGGGCTTTCGCTCGCGCAGCCCGCGCTGGGCCACCGCCCATAAATTTCCGGCCGAGCAGGCCTTTACCACGGTTGAGAATATCGAAATTCAGGTGGGGCGCACCGGTGCCTTGACGCCGGTGGCGCGTCTCACCCCGATCACCGTCGGCGGTGTCGTCGTCACCAATGCGACGCTGCATAATGCCGATTATATCGAAGGCATCGGCAATAGCGGCGAGCGTATCCGCCCGGAGGACCACGATATCCGTATCGGCGATACGGTCATCGTGCAGCGCGCCGGTGACGTCATTCCGCAGGTGCTGGATGTGCTTCTGGAAAAGCGCCCGGCCGAGGCAGTGAAATATGCCTTTCCGGAAAAATGTCCGGTCTGCGGCAGCCATGCGGTGCGGGAGCGTAATGAGAAAACCGGCAAGCTCGATTCGGTCACGCGTTGCACGGGCGGTTTCGTCTGTCGGGCGCAGGCGGTGGAGCATCTCAAACATTTCGTTTCGCGCAATGCCTTCGATATCGAAGGGCTTGGCACCAAACAGATCGATTTCTTTTTCGAAAGTGATGATCCGGCGCTTTCGATCAAGACTGCGCCTGAGATTTTCACCCTCAAGGCGCGGCAGGAAGCCTCGCAACTGACCAAGCTCGAGAATATCGACGGCTTCGGCAAGGTCAGCGTTAGAAAGCTGTTCGACGCCATCGATGCCCGCCGCGAGATCGATCTGCACCGGCTGATCTTCGCGCTCGGCATCCGCCATGTGGGCGAGACCACGGCGAAGCTTCTGGCGCGCTCCTATGGCACTTACGAACATTTCGAAGAGAGCATGAAGGCGGCGGCCGATCCGGCGAGCGATGCCTGGGCCGAACTCAACAGCATCGACGGCATCGGCGAAGTGGTGGCCCGCGCCATCATCGAATTCTACAAGGAGCCGCGCAATCTCGATGTCATCGACCGGCTGATACGGGAGCTTCGCCCGAAGGAAGCCGAGAAGCCCTCGACCGATGGCAGTCCGGTGGCGGGCAAGACGGTGGTGTTTACCGGCTCTCTGGAGAAATTTACCCGTGACGAGGCCAAGGCGCGTGCCGAAAGCCTCGGCGCGAAAGTGGCCGGTTCCGTCTCGAAAAAGACCGATATTCTGGTGGCGGGACCGGGGGCGGGTTCCAAGCTTGCCAAGGCGACGGAACTGGGCGTGCAGACCATGGATGAGGACGAGTGGCTGGCCTTGATCGGCGGCTGA	MSKDQKSVENLTELEASSELAFLAAELARHDALYHGKDAPEITDGEYDALKRRNDAIEAAFPALVRADSPSKKVGFAPLPTFAPIVHARPMLSLDNTFSEEDLRDFVSSVYRFLGHLPDDSIAFTAEPKIDGLSMSIRYENRRLKTAATRGDGTTGENVTANIRTIKEIPNELPADAPDVVEVRGEVYMAKSDFLALNAQMEAEGKQTYVNPRNTASGSLRQLDANVTAKRKLRFFAYALGEVSKGGQPARIADTQYGIVEKFRDWGFPVNPLMKRFTSAAQLLEHYNEIGVARPDLDYDIDGVVYKVDRLDLQERLGFRSRSPRWATAHKFPAEQAFTTVENIEIQVGRTGALTPVARLTPITVGGVVVTNATLHNADYIEGIGNSGERIRPEDHDIRIGDTVIVQRAGDVIPQVLDVLLEKRPAEAVKYAFPEKCPVCGSHAVRERNEKTGKLDSVTRCTGGFVCRAQAVEHLKHFVSRNAFDIEGLGTKQIDFFFESDDPALSIKTAPEIFTLKARQEASQLTKLENIDGFGKVSVRKLFDAIDARREIDLHRLIFALGIRHVGETTAKLLARSYGTYEHFEESMKAAADPASDAWAELNSIDGIGEVVARAIIEFYKEPRNLDVIDRLIRELRPKEAEKPSTDGSPVAGKTVVFTGSLEKFTRDEAKARAESLGAKVAGSVSKKTDILVAGPGAGSKLAKATELGVQTMDEDEWLALIGG				NA	NA	NA	NA	NA
BMS010_01320	897			hypothetical protein	ATGGATGACCGCATTGTCGTCAGCACAGAGCAGGTCCGGGCGCTGGTAGGCAGCCAGTTTCCGCAATGGGCGGGGTTAAATATCCGGCCGGTGGAGCTGAGCGGCTGGGACAATCGCAGCTTTCGTCTTGGCAATGAGATGCTGATCCGCATGCCAAGTGCCGCCCGGTATGTTGCGCAGGTGGAGAAGGAGCATCGGTGGCTGCCGGCGCTTGCGCCGCTCCTGCCTTTTCCGATTCCTGCGCCATTGGCGCTCGGGCAGCCGGGACAGGGTTATCCGTTCCGCTGGTCCGTCTATCGCTGGCTTGAGGGCGAACCGCTCGCCCGGGGTCTGGATCGCGTTGATCTTTCAACCATCGCCGTCGATGTTGCCGCGTTTTTAAGAGCATTGCATGGGGTGGATGCTTCGGATGGCCCGCCCGCAGGCGCACATAACTTCCATCGCGGCGGCTCGCTTTCGGTCTATGACGGGGAGGCGAAGGCTTCGGCGGTGCGGCTTGCCGATGAGGTGGATCAGGCGCTGGCCATGGAGATATGGCAGCTTGCACTTTCGAGCCATTGGCGGAAGCAGGGAGTGTGGGTGCATGGAGACATTGCCGAGGGCAATCTGCTGGTGAAGGACGGCCGGCTTTCGGCCGTCATCGATTTCGGCAGTTCCGGCGTCGGCGATCCGTCTTCCGATCTCATCCTCGCGTGGAATGTGCTCGATGCGGAAAGCCGCGCCGTTTTTCGTCAGGCGCTGGAGCTGGATGAGGCGACATGGCAGCGCGGGCGTGGCTGGGCGCTGTGGAAGGCATTTATCGTGCTGGATGCGGAGCGTGGACGTAACGACAAAATGGCCGAATGGTCGCGGCGGACCATTCGGGAAGTGTTTGCGGATCACTCCGCAGCCGTCTGA	MDDRIVVSTEQVRALVGSQFPQWAGLNIRPVELSGWDNRSFRLGNEMLIRMPSAARYVAQVEKEHRWLPALAPLLPFPIPAPLALGQPGQGYPFRWSVYRWLEGEPLARGLDRVDLSTIAVDVAAFLRALHGVDASDGPPAGAHNFHRGGSLSVYDGEAKASAVRLADEVDQALAMEIWQLALSSHWRKQGVWVHGDIAEGNLLVKDGRLSAVIDFGSSGVGDPSSDLILAWNVLDAESRAVFRQALELDEATWQRGRGWALWKAFIVLDAERGRNDKMAEWSRRTIREVFADHSAAV				NA	NA	NA	NA	NA
BMS010_01321	537	aaaT	COG0454	L-amino acid N-acetyltransferase AaaT	ATGCCGGATTTCGATATTTCCCCGCCACTCGACCCCGACGCGCGCTGGCCCGAAGGCCTGTGGATTCGCGCACGCACGCCGGCAGATGCGCCGGGGATAACAGCAATGCACAATATGGCCGGATATCGCTACGGGACGCTGCGCTGGCCGCATCACACTCCGGAAGATATTCGCAAGGGGATCGAAACCCAGCCGGCCAACAGCTTTGCGCTGATCGCCATCCTCGACGGCAAGATCGTTGGCGATATCGGCCTGACGCGCCACAGCAACCGCCGGGCGCATGCGGGCAGCATCGGCATGGGCGTCCATGACGCCTATAAGGGACGCGGGATCGGCAGCGCCATGATCGGCGAAATCCTCGCCATAGCCGATCGCTGGCTGGACCTGAAACGGATCGAACTGACCGTTTTCACGGACAATGAACCGGCGCTGGCGCTTTATCGCAAATTCGGCTTCGAGGTCGAGGGACACCTCAAATCCTTCGCCTTCCGCGACGGCGAGTATATCGATGCCTATTGCATGGCGCGTCTGCGATAG	MPDFDISPPLDPDARWPEGLWIRARTPADAPGITAMHNMAGYRYGTLRWPHHTPEDIRKGIETQPANSFALIAILDGKIVGDIGLTRHSNRRAHAGSIGMGVHDAYKGRGIGSAMIGEILAIADRWLDLKRIELTVFTDNEPALALYRKFGFEVEGHLKSFAFRDGEYIDAYCMARLR	PGPT0020290_78	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-RESISTANCE_TO_TOXIC_AMINOACYL_NUCLEOTIDES-1,PGPT0020290-aaaT-K03825	NA	NA
BMS010_01322	927	yedA_2		putative inner membrane transporter YedA	ATGGCGATACAGAAACAGATGGATGCCGGTGAATGGGCGATGCTTGTCGCGCTTTCGCTTCTCTGGGGCGGATCGTTCTTTTTCATCGGTGTCGCCGTCAAGGAACTGCCGCCCGTCACCATCGTCACGCTGCGCGTCAGCCTGGCGGCAATCGCGCTTCTCATCGTCTGCCGCATCATGGGCCTTCGCCTGCCGCGTGAATGGGCGGTGTGGCGCGCCTTTTTCGGCATGGGCCTGCTCAACAACATCATCCCCTTCTGCCTGATCGTCTGGGGTCAGACCCATATTGCCAGCGGACTAGCCTCAATCCTCAATGCCACCACGCCTCTCTTCACCGTCATCGTCGCCCATTTTCTCACCGCCGACGAGAAGATGACCGGCAACAAGCTCACCGGCGTGCTGATCGGCTTTGCCGGCGTGGCGACCATGATCGGCCCGGCCGCCTTCACCGGCTCATCCGGCCTCTGGGGCCAGATCGCCATTCTCGGCGCGGCCATCTCCTATTCTTTCGCGGGCATATTCGGCCGCCGTTTCAAGGCCATGGGCGTGCCGCCGCTGATGACCGCCACCGGCCAGATCTCCTCTTCGACACTGATGCTCATCCCGGCCGCCCTTGTTATCGACAAACCATGGACGCTCGCCATGCCGGGCCTCGGAAGCTGGGGCGCGCTTGTCGGCATCGCCCTCTTGTCGACGGCGCTCGCCTACCTGATCTTCTTCCGCATCCTCGCCAGCGCCGGCGCCACCAACCTCGCCCTCGTCACCTTCCTTATTCCCGTCAGCGCTATTCTGCTCGGTTCGCTGCTCCTCGGCGAGCAGCTGGAGATGAAGCACTTCGCCGGCATGGCGATGATCGCCGCCGGTCTTGCCGCGATCGACGGCAGGCTGCTTTCCAGATGGCGTCAGCCCCGCGCGAGGCCGCAGTGA	MAIQKQMDAGEWAMLVALSLLWGGSFFFIGVAVKELPPVTIVTLRVSLAAIALLIVCRIMGLRLPREWAVWRAFFGMGLLNNIIPFCLIVWGQTHIASGLASILNATTPLFTVIVAHFLTADEKMTGNKLTGVLIGFAGVATMIGPAAFTGSSGLWGQIAILGAAISYSFAGIFGRRFKAMGVPPLMTATGQISSSTLMLIPAALVIDKPWTLAMPGLGSWGALVGIALLSTALAYLIFFRILASAGATNLALVTFLIPVSAILLGSLLLGEQLEMKHFAGMAMIAAGLAAIDGRLLSRWRQPRARPQ				NA	NA	NA	NA	NA
BMS010_01323	903	gcvA_2		Glycine cleavage system transcriptional activator	ATGGCAGCCGAACTTCCGTCTCTGAAAGGGTTGCAGGCCTTCGAGGCCGCAGCGCGGTATCGCAGCGTCACGCTTGCTTCCAATGAGTTGAATGTCACGCCCGGTGCCGTCAGCCTGCAAATCCGGGAGCTGGAGGCGCGGCTTGGCGTGCAATTGTTTTTCCGCAAGCCGCGCAGCATCCAGCTGACGCGTGAGGGGGAGCGTTATTACGGCGCGCTTCGCACCGCCTTCCGGATGATGCGCGAGGCGACGGCGGAACTGACGGCGCGCTCCGAGATCACGGTTCTGACGCTGAGCTGCACGCCCACTTTCGCCGTTCAATGGTTGATGCCGCGATTGCCTGCCTTCCAGCAGCAACACCCGCAGGTGGATGTCCGCATCAGCGTGACGAACCGGCTGGTGGATTTTTCAAGGGACGACGTCGATCTGGCGGTGCGGCACGGGTTCGGTCGGTATGAAGGGCTGGAGAGCATCCGCTTCATCGATGACAGCACTCTGCCGGTTTGCTCCCCGCAGCTTCTGGAAAAATATGGGCCGCTTCAGGAGGCGGGGAATCTCAAATCCATTCCGCTTCTGCACGATGAAAACCGCAATGAATGGCGGCGTTGGCTGGAGGCGGCGGGAGCATCGGACGTGGACGCCTCCGGCGGCACCGTCTTCATCGACAGCAACGGGGCGCTGGATGCGGCCAAGGCCGGGCACGGCATTGCGCTGACCCGGCGTTCGCTGGTTTCCCGCGAACTTGCGGAGGGCGCATTGATTGCGCCCTTCGGTAAGGACATGGCCAGCACGCTCGCCTATTTCCTCGTTTATCCGCGGCGCATGCTGGATAATCCCGATCTGGTGACGCTCATCGACTGGATGCTTTCGGAAGCGGGTTCTGCCGAGGCTGGTTCTCTTTGA	MAAELPSLKGLQAFEAAARYRSVTLASNELNVTPGAVSLQIRELEARLGVQLFFRKPRSIQLTREGERYYGALRTAFRMMREATAELTARSEITVLTLSCTPTFAVQWLMPRLPAFQQQHPQVDVRISVTNRLVDFSRDDVDLAVRHGFGRYEGLESIRFIDDSTLPVCSPQLLEKYGPLQEAGNLKSIPLLHDENRNEWRRWLEAAGASDVDASGGTVFIDSNGALDAAKAGHGIALTRRSLVSRELAEGALIAPFGKDMASTLAYFLVYPRRMLDNPDLVTLIDWMLSEAGSAEAGSL	PGPT0026360_4481	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
BMS010_01324	609	dinG_1		3'-5' exonuclease DinG	TTGAAAACCATCGCCATCGATTTCGAGACCGCCAATGAGGAACGGGGCAGCGCCTGCTCCGTCGGGCTTGCATGGATAGAGGGCGGCGAGATCGTTCGCGTCGAGGAACGGCTGATCCGGCCGAAGGACATGCGGTTTTCGCCCTTCAACATCGCGGTGCATGGCATCCGCCCGGCGGATGTCGAAGATGCGCCGGAATTTCCCGAGGTGATGGAGGAGTTCATCGACGACTTCCACGGCGCCACCATGATCGCCCATAATGCCGCCTTCGATCTCAGCGTCATGCGCGCGTCCTTCGATAAATACCGGCAGTCCTATCCCGATCTTTCCTATCTGTGCAGCGTCAAGATCGCCCGGCATGTCTGGCCCAATCTGGCGTCGCACAAGCTGAATGTCATCGCCCATCACCTCCAGCTGCGTTTCGTGCACCACAATGCAGCGGAAGATGCTGTCGTCTGCGCGGCCGCGTCGATTGCAGCGGTCAAGGCGTTGCGCGTTGCCCATATCCGCGATCTGCCGGAAAAGATCGGCATGGTCGCGGGGCGTCTCACCTCCACCGGTTACCAGCCCTGCAGCATGAAAAAACGCGCCGTCTCCCGGGTTGCGTAA	MKTIAIDFETANEERGSACSVGLAWIEGGEIVRVEERLIRPKDMRFSPFNIAVHGIRPADVEDAPEFPEVMEEFIDDFHGATMIAHNAAFDLSVMRASFDKYRQSYPDLSYLCSVKIARHVWPNLASHKLNVIAHHLQLRFVHHNAAEDAVVCAAASIAAVKALRVAHIRDLPEKIGMVAGRLTSTGYQPCSMKKRAVSRVA				NA	NA	NA	NA	NA
BMS010_01325	492			hypothetical protein	ATGACGATGAAAACTCTGTCGGGTTTGTTTGCGGGCTTTCTGGCATTGCTTCCGGTGACAGCTGCGCATTCGCAGGTGGTGGGCGAGGTCGGCGTCGACTGGATCGGCAATGACATCGTCATCGAGGCGATCGCCGATCCGAAGATCAAGGGCGTGACCTGCCATGTGACCTATTTCGAGCGCGGCGTCATCGACCGGCTGAAGAACGGCAACTGGTTCGAAGACCCTTCCAACAACGCCATTTCCTGCAGCCAGACTGGACCGGTGGAGATCGGCGATATCGATCTCTCCAAGGGCGGAGAAGAAGTGTTCCGGCAGGGCATGTCGCTTGTCTGGAAGAAGCTCGTCGTCAGCCGGGTCTATGACAAGGCGAACGACACGCTGATCTATCTGGTGCATGCGCGGGAGCTGACCGACGGTTCGGCCAAGATGGCGATCTCCACGGTGCCGCTTTATAACCAGCAGGTCACATGGCAAAAGGGCAAGCCGTAA	MTMKTLSGLFAGFLALLPVTAAHSQVVGEVGVDWIGNDIVIEAIADPKIKGVTCHVTYFERGVIDRLKNGNWFEDPSNNAISCSQTGPVEIGDIDLSKGGEEVFRQGMSLVWKKLVVSRVYDKANDTLIYLVHARELTDGSAKMAISTVPLYNQQVTWQKGKP				NA	NA	NA	NA	NA
BMS010_01326	468	cheW_1	COG0835	Chemotaxis protein CheW	ATGTCCAACGCCATCAAGCAATCCGGCGCATATCTCGAAATCGTTTCCTTCCATCTGGGCGATCAGGAATTCTGCATCGACATCATGGCGATCCGCGAAATCCGCGGCTGGGCGCCGGTTACCCCGATGCCGCACACCCCGCCTTATGTTCTCGGCCTCATCAACCTGCGCGGCGCCGTCATTCCCGTCATCGACATGGCCGGCCGCCTCGGCATGAAGATGACCGAACCGTCCGAACGCTCCGCCATCATCGTCACCGATATCGGCGGCAAGCTGGTCGGCCTGCTGGTGGAACAGGTCTCCGACATGATGACCATCCGCTCCGAAGACCTGCAGCCCGCGCCCGATATCATTCCGGAAGAACAGCGCAGCTTCTGCCGCGGCATCGTGGCGCTGGAAAAGAGCATGGTCTGCTTCCTCAACCTCGACACCGTCATCGCGGACGAGCTGGCACGCGAAGCGGCCTGA	MSNAIKQSGAYLEIVSFHLGDQEFCIDIMAIREIRGWAPVTPMPHTPPYVLGLINLRGAVIPVIDMAGRLGMKMTEPSERSAIIVTDIGGKLVGLLVEQVSDMMTIRSEDLQPAPDIIPEEQRSFCRGIVALEKSMVCFLNLDTVIADELAREAA	PGPT0015680_4100	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015680-cheW-K03408	NA	NA
BMS010_01327	297			hypothetical protein	ATGTCGAGGCTTAAAAACCGCTATGGTCATAATGCACAGCAAGATTTTAAACTTTCCCTAACAATTGCTGCTGCCCCGCCGGCAAAACCCAGTATTTTGGCGGTTTTCGCGCTCACACAAACAGGTTATGATGGGCGTATGAACGCACTCGTTTCCCATCCGCTGAAGTTTATTCTGGCTAGTCTTGCCGCTGTGGCCTCGCTTGCCATCGTGCTTCTTGCCTTTGACGGCTGGGTGCGGCACGGCACGGATATTTTCCTGTCCACGGTGCAGAGCGGCATCGCCTGGTGCCTGTGA	MSRLKNRYGHNAQQDFKLSLTIAAAPPAKPSILAVFALTQTGYDGRMNALVSHPLKFILASLAAVASLAIVLLAFDGWVRHGTDIFLSTVQSGIAWCL				NA	NA	NA	NA	NA
BMS010_01328	600			hypothetical protein	ATGAGAAATATTCGCATCGTATTGTGGGCCGTCGTGCTCGTTCTCGCCGGTGTCGTCAGCTGGTTGACGATCGAAATGACGAAGACGCGTAATGAAATGGTGGAGACGGCCTATGGCGTGCCCTTCCAACTCACGGCGCAAAACGGCCAGCCGATCACCGAAAAGGCCTTTCAAGGCAAGCCGACAGCGCTGTTCTTCGGTTTCACCCATTGCCCGGAAGTCTGCCCGACAACCCTTTTCGAGCTGAATGGCTGGATGGAGAAGGTGGACCCGGCCGGCGACAAGCTGCAGGCCTATTTCGTCTCCGTCGATCCCGAGCGCGATACGCCTGAGATCATGCAGCAATATGTCTCCAACGTCTCGAAGCGCATCACCGGCATCACCGGCCCGGCCGACAAGATCGCCGAAACGCTGAAGGGCTACCGCATCTATGCCAAGAAGGTGCCGGTGGACGAGAAGGATCCGAATGGCGACTACACCATGGATCACACGGCGTCCGTCATCCTGCTCGATGCCAATGGCCGTTTTTCCGGCACCATTGCTTATGGCGAAAACCCGGAAGTTGCCGAGCAGAAGCTTCAGAATCTTCTGAAGGGCTGA	MRNIRIVLWAVVLVLAGVVSWLTIEMTKTRNEMVETAYGVPFQLTAQNGQPITEKAFQGKPTALFFGFTHCPEVCPTTLFELNGWMEKVDPAGDKLQAYFVSVDPERDTPEIMQQYVSNVSKRITGITGPADKIAETLKGYRIYAKKVPVDEKDPNGDYTMDHTASVILLDANGRFSGTIAYGENPEVAEQKLQNLLKG				NA	NA	NA	NA	NA
BMS010_01329	945	prmC_1		Release factor glutamine methyltransferase	TTGGACTGGCCGAGGTTTTGTGGCAAAGGCAAGAACAATAACCTCATCCAGAGAAAGCAGCCCGCCGTGAGCGAAATCCGACTTTACGTCACCACGACCGAAATCCAGGCGGGTGAAATCCTCGATCTCATGTCGGACTATTTCGGCGAGGAGGATGTCGCGATTGCCACGACCGAGGTGGATGAGAAGCGCGATATCTGGGAAGCTTCGGTCTATCTGATGGCCGAGCAGGAGGAAGAGTTCCGCGAGCGTGTCAGCGCCCTGCTTGCTCCGGCCTTTCCCGATCTCGTCATCGAGAAGGAGACCGTTCCGGATGTCGACTGGATCGCAAAGTCGCTCGAGGGGCTGAAACCGGTCAGGGCAGGGCGTTTCATCGTTCATGGGGCGCATGATCGCGACAAGGTGCGGGCGAACGATCTGGCAATCGAAATCGAGGCCGGACAGGCTTTCGGCACCGGCCATCACGGCACGACGGCCGGCTGCCTTGAGATGATTGAGGAGGTTCTGCGGGCGCGCACCGTGCGCAACGCGCTCGATCTTGGCACCGGCAGCGGCGTTCTGGCAATTGCGGTGCGCAAGATGCGCCCCATTCCCGTGCTGGCGACAGATATCGACCCCATCGCCGTCAAGGTGGCGAAGGAGAATGTGCGGCTGAACGGCATCGTCTCCGGGATGGCGCTGGAGACCGCGCCGGGCTTCCACTCGGACGCCTTCCGCAAGCATGGTCCGTTCGATCTCATCATCGCCAATATTCTGGCCCGGCCGCTCATCAAGATGGCGCCGCAGCTCGTCACGCATCTGGCGCCCGGCGGCACCGTCATCCTGTCCGGCATTCTGGCCTCACAGCGCTGGAAGGTGCTTTCCGCCTATAATGGCGCCCGGCTTTCCCATGTCCGCACCATCTGGCGCAACGGCTGGGTCACGCTGCATCTGCGTAAAGACTGA	MDWPRFCGKGKNNNLIQRKQPAVSEIRLYVTTTEIQAGEILDLMSDYFGEEDVAIATTEVDEKRDIWEASVYLMAEQEEEFRERVSALLAPAFPDLVIEKETVPDVDWIAKSLEGLKPVRAGRFIVHGAHDRDKVRANDLAIEIEAGQAFGTGHHGTTAGCLEMIEEVLRARTVRNALDLGTGSGVLAIAVRKMRPIPVLATDIDPIAVKVAKENVRLNGIVSGMALETAPGFHSDAFRKHGPFDLIIANILARPLIKMAPQLVTHLAPGGTVILSGILASQRWKVLSAYNGARLSHVRTIWRNGWVTLHLRKD				NA	NA	NA	NA	NA
BMS010_01330	174			hypothetical protein	ATGGCAAAATCTTTCCTCCGCACCGCCTTCGATCGCGTCGTTGAAGCACGCGAGCGTCAGGTCAGCCGCCATGTCAACGCCGCCCTTCTGAACCTCGACGACAAGTCGCTGGAAGCGCTCGGCATGAACCGCGCCGATCTGCGTCGCAAGGCAAACTCCAGCTACGTATTCTGA	MAKSFLRTAFDRVVEARERQVSRHVNAALLNLDDKSLEALGMNRADLRRKANSSYVF				NA	NA	NA	NA	NA
BMS010_01331	1842			hypothetical protein	ATGTTCCAGACCTTCGAAAACAAATCTGCGCCGCAATTTGGCAAGGCCCGCGTCGAGGCGCTGCGCGCCGGTTTCGATGCCCTTGGTATCGACGGTTTTCTGGTGCCGCGCGCCGATGAATATCAGGGGGAATATGTGCCGGAGTGCGCCGAGCGCCTGTCCTGGCTGACGGGCTTTACCGGTTCCGCCGGCATTGCGCTGGTGACGCGCACGGAGGCGGTGGTTTTCGTCGATGGCCGTTATACGACGCAGCTTAAGTCGCAGGTCGATCAATCGGTCTTCAGCGGCGGCGATCTGGTTGGCGCGCCGCCCTCCGTCTGGCTGGCCGAACATGCTCCACAGGGTTTCCGGCTCGGCATCGATCCATGGCTGCACACCGGCGCGGAGTTGAAGCGGCTGGAAAAAGTGCTTGCCGGCAAGGGCGGTTCGGTCGTTCTCCTGGAAAAGAACCCGCTCGATGCCCTGTGGCAGGACCGTCCCTCCGAGCCGCTGGAGCCCGTCGTTATCCAGCCCGAGGCCTTTACCGGCAAGCTGGCGAAGGAAAAGATCGCCTCGCTGGCGGAGACGGTCTCGGCAAAGGGCGCGGATGCCCTGCTGGTTACCGATCCATCCTCCATCGCCTGGATTTTCAATGTTCGCGGCAATGACGTGCCGCATACGCCGCACCCGCTCGCCCGCGCCATCATCTACGCCGATGGCAGGGCGGATATTTTTCTCGACAAGCGTAAGACCGGCATCGAGACCGAGGCCTATCTGGCGCAGCTTGCGACACAATTGCCGCCGTCGAAGATCGCTGACCGTCTGCATGCCATCGCCAGCGCCAAGGGCCGCGTCATGGTGGATGCCGATCTGACCCCTGTGGCGCTGACCGGCGCAATCACCGCGGCGGGCGGCTCGCTGATAGAGGAGGCCGATCCCGTTCGCCTGCCGCGCGCGCGCAAGAACAAGGCGGAGCTTGCCGGCTCGTCAGCCGCCCATGTGCAGGACGGCGCGGCCATGGTCGAATATCTCTGCTGGCTGGACCGCCAGCAACCGGGCAGCGTCACCGAAATCGCCGCCGTCAAGGCGCTGGAGGCCGCTCGGTTCAAGGTGGGGCAGGGGCTGCAAAACCCGCTCAAGGACGTGTCTTTCGATACGATTTCAGGCGCCGGCGAACATGCCGCCATCATCCATTACCGCGTCACCACCGATACCGACCGCACACTTGCGGACGGCGAGATGTTCCTCGTCGATTCCGGCGCGCAATATGTCAATGGCACCACGGATATCACCCGTACCGTTGCAATCGGCACGGTGCCGGAAGAGCAGAGGCGTTTCTTTACACTGGTGCTGAAGGGCATGATCGGCATCAGCACCGCACGGTTTCCGAAGGGAACGCGCGGTTGCGATCTCGATCCGCTGGCGCGCATTGCGCTCTGGAAAGCGGGAGCGGATTACGCCCATGGCACCGGCCACGGCGTCGGGTCGTATCTTTCGGTGCATGAGGGGCCGCAGCGCATTTCGCGGCTTTCGACACAGGAGCTTCTGCCCGGCATGATCCTGTCCAACGAGCCGGGTTATTACCGGCCCGGCGCTTTCGGTATCCGCATCGAGAACCTCATCTATGTACGCGAGGCGGAAGAGGTGGCCGGCGGCGACCAGCCGATGTTCTCCTTCGAAACGCTGACCTGGTGCCCCATCGACCGCAGGCTGGTCGTCGCCGCTCTCCTGACCGATGAAGAACTGGACTGGCTGAACGCCTATCACGCCGGGGTTCTGGAGAAGCTTTCTCCATTGATCACCGACGAGGAGGTTAAGGCGTGGCTCGTTGCCGCGACGAAGCCATTGGAGCGGGTCGCTTAA	MFQTFENKSAPQFGKARVEALRAGFDALGIDGFLVPRADEYQGEYVPECAERLSWLTGFTGSAGIALVTRTEAVVFVDGRYTTQLKSQVDQSVFSGGDLVGAPPSVWLAEHAPQGFRLGIDPWLHTGAELKRLEKVLAGKGGSVVLLEKNPLDALWQDRPSEPLEPVVIQPEAFTGKLAKEKIASLAETVSAKGADALLVTDPSSIAWIFNVRGNDVPHTPHPLARAIIYADGRADIFLDKRKTGIETEAYLAQLATQLPPSKIADRLHAIASAKGRVMVDADLTPVALTGAITAAGGSLIEEADPVRLPRARKNKAELAGSSAAHVQDGAAMVEYLCWLDRQQPGSVTEIAAVKALEAARFKVGQGLQNPLKDVSFDTISGAGEHAAIIHYRVTTDTDRTLADGEMFLVDSGAQYVNGTTDITRTVAIGTVPEEQRRFFTLVLKGMIGISTARFPKGTRGCDLDPLARIALWKAGADYAHGTGHGVGSYLSVHEGPQRISRLSTQELLPGMILSNEPGYYRPGAFGIRIENLIYVREAEEVAGGDQPMFSFETLTWCPIDRRLVVAALLTDEELDWLNAYHAGVLEKLSPLITDEEVKAWLVAATKPLERVA	PGPT0006770_922	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0006770-pepP-K01262	NA	NA
BMS010_01332	315			hypothetical protein	ATGAGCGACATGCTGCACACCGATACGCTGATCCTGATCGCGCTCGCCGCCATCGCCACTTATCTCACCCGCATCGGCGGTTATGTGCTGATGACGCGGATGAAATCCATCCCGCCACGCATGGAGGCGGGACTGAACGCCGTTCCCGTGGCGGTTTTGACCACGCTCGTCGCACCCGCCTTTTTCGAAGGCGGATACGAGGTGAAGATCGGCATGGTTGCAGCGCTTCTGGTCTGCCTGCGCTTTCCCGGCCTGACGATGCTCGCCGTCGGCTGGGCCATCGTCATCGCCATCAGGCATTTCGGGCTGCTTTAA	MSDMLHTDTLILIALAAIATYLTRIGGYVLMTRMKSIPPRMEAGLNAVPVAVLTTLVAPAFFEGGYEVKIGMVAALLVCLRFPGLTMLAVGWAIVIAIRHFGLL				NA	NA	NA	NA	NA
BMS010_01333	708	ygaZ_2	COG1296	Inner membrane protein YgaZ	ATGTTCAATGCAGATTTTCGCGAGGGATTGAAGAGCGGTTTCCCGATCGCCCTCTCCGCCGCCCCCTTCGGTGCGCTGTTCGGCGCGGTCGCCGTCGATAATGGGCTCAGCGTCACCGAGGCCACGATCATGAGCGGCACCGTCTATGCGGGCGCGAGCCAGCTCGTGGGTATCGAATTGTTCGGCCAGAGGGTTGCCCCCTGGCTGATCGTTCTATCCGTTTTCGCCGTCAATTTCCGCCATATCCTCTATTCGGCCGCCATTGCCCGGATGATCTCGAACTGGTCTTTCCTGCAAAAAGCCGCAGGCTTCTTCGTGCTGGTCGATCCGCAATTCGCCGAATCGGTCAGGAAATACGAAAATACCGGCACGGTCGGCTTTTCCTGGTACATGGGCTTTGCAGCGCCGGTCTACGTGCTGTGGCTGGCCATGACCATTCTCGGCGCATCGCTCGGCAATATGGTCGGCGATCCAAAAGCCATCGGTCTCGATGTACTGCTGCCGATCTATTTCATGGGCATGGTCTTGAGCTTCCGCCAGCGGGAGAATTTCTATCCTGTCATGCTGGCAAGCGCGGTGGGCGCAACGGTCGCCTATCACATCGTCGGCTCGCCGTGGCATGTCAGCCTAGGCGCCGTCGCCGGAATTCTCGTTGCGGTCATCCATCCGCCGAAGCCGAATTCTGAAAGCGGGGTGGAAACGCCATGA	MFNADFREGLKSGFPIALSAAPFGALFGAVAVDNGLSVTEATIMSGTVYAGASQLVGIELFGQRVAPWLIVLSVFAVNFRHILYSAAIARMISNWSFLQKAAGFFVLVDPQFAESVRKYENTGTVGFSWYMGFAAPVYVLWLAMTILGASLGNMVGDPKAIGLDVLLPIYFMGMVLSFRQRENFYPVMLASAVGATVAYHIVGSPWHVSLGAVAGILVAVIHPPKPNSESGVETP				NA	NA	NA	NA	NA
BMS010_01334	237			hypothetical protein	ATGCTGGAAAAGCAGGAAAAGGCCGCTCTGGCCGCACGTATCCGGGACTATCTTGCCCGGGAGACCGAAGCCGAGATCGGCCATCTGCAGGCGGAAATCTTCGTTGATTTTCTGGCCGAGGAGCTGGGGCATGTTTTTTATAATGAGGGGCTCAGGGATGCACATGCCGCGATCCTGAGACGCCTTGAGGATGCAGCAGGCGATATCGACGTGCTGGAGAAGCCGAAGCCGCGCTAA	MLEKQEKAALAARIRDYLARETEAEIGHLQAEIFVDFLAEELGHVFYNEGLRDAHAAILRRLEDAAGDIDVLEKPKPR				NA	NA	NA	NA	NA
BMS010_01335	627	pncA_1	COG1335	Nicotinamidase	ATGAAGGCGCTGCTGCTCATCGATATCCAGAACGGTTTTTGCCCGGGCGGCAATCTGGCCGTTGCCGATGGCGACATGATCGTGCCCATCGCCAATGCCCTGATCGACAATGGCGGCTACGATCTCATCGTCGCCTCGCAGGACTGGCACCCGGAAAATCACGGCAGCTTCGCCTCCCAGCATCCCGGCAAGAAACCCTTCGACATGGGCGAACTCTCCGGCAAACCGCAGATGATGTGGCCGGACCATTGCGTGCAGGGCACGCCGGATGCGGAATTTCATCCCGACCTCAAGACGGACGCCTTCGATTATATTCAGCAGAAGGGCGAAAACCCCGCCGTCGACAGCTATTCCGCCTTTCGCGACAATGATCAGGGGGCGACGACGGGACTGGCTGATTATCTGAGCCGTCAGGGTGTCACGCAACTCGACATCTGCGGCCTTGCCACCGATTATTGCGTCAGTTTTTCGGTGCTCGATGCCCTCGACATGCTGCCCGGTGTGAATGTCCGTTTCATCGAAGACGCCAGCCGTGGCATCGATCCGCAGGGCATCAAGGCCGCGATTTCGACGATGCGGGAAAAAGGCGCGGCCATTCTCAAAAGCCGCGACATTTTGCTGGATTAG	MKALLLIDIQNGFCPGGNLAVADGDMIVPIANALIDNGGYDLIVASQDWHPENHGSFASQHPGKKPFDMGELSGKPQMMWPDHCVQGTPDAEFHPDLKTDAFDYIQQKGENPAVDSYSAFRDNDQGATTGLADYLSRQGVTQLDICGLATDYCVSFSVLDALDMLPGVNVRFIEDASRGIDPQGIKAAISTMREKGAAILKSRDILLD	PGPT0013470_980	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013470-pncA-K08281	NA	NA
BMS010_01336	1287			hypothetical protein	ATGGCGTTTTCTGCTGCGGCCTATAATGGCGCCGGTCTTGCCGGTTCGTCTTCCGTCAAGAGAGGCAAATCCTTTGCGTTCGGCCGAATGTCCGCCCTTCTCGGCGGCGGCGCCTTTGCCGGCCTTTTCGCCTTCGCTGCCTTTGCCTCGCTGCACAGCATGGCCGCGGCTTCGCATGGTGTCGGGCAGTTTGAAAAAACGCTGGTGACGCGATTCGCTTCCACTGAGACGGCAATTGCCCACGCGGCCGCGCGGGATATTCACGTGCGCAAGTTCTCCCGCCTGAGCGACCACAGCCATGGCCAGCAGAAGGCGGTTCGCCTCGCCGGCATCATGCCCGAGATCGGCGCGAAGGAATTCGGCGAGCGCTTCGGCGCAGCTGCCAATGCCAAGGGGCAGGCGACGGTGAAGCAGCTTGCCGCGCTCAAGCCGTCGGCGATCGTCGATTCGGCGCTGGGTCGCACCTCCGAGGTTGCCTATCAGAGCGCCGTTCCGCAGCACCCGGCATTTGAAGTGGCTCTGGCGCGCCCGCAGATCGAGGAAGAGGCAAGCAGCCTGCTGCCCGATGATGTGCCGCTGCCGAGCTTCCGTCCCGAGGTGGCGATGGCTGAGACGGTTGAGCCGTCACCGCGTCCCGCGACATCGTCCAAGACCGAGGGCCATGTTCCGGACGTCGCTTTGGCACCGGCTTTCGATGCGCCGGTTCCCCTTCGCGCGCCTGCGCCGCCGAAGCAGAGCACCGGCGCCATGCTCGCCTTTGCAAAGCCTGACAATCCGGTGCGTGAGCCGAGCAAGATGGATGCGGTTCCGTGGCCGGATCGCGGTAACGGCACGGCGATCTACGATATTTCCTCCGGCGTGGTGCACATGCCGAATGGCGAGAAGCTCGAAGCGCATTCCGGCATCGGCAAGATGCGCGACAACCCCGATTACGTGCATGTGAGAATGCGCGGTTCGACGCCGCCTTCCAGCTATCGTCTGACGATGCGCGAGGCGCGTTTCCATGGCGTCGAGGCCATTCGCCTGACGCCCGAAAACGGCGTCAACCCGCACGGTCGCGACGGTCTTCTGGCGCATACCTACATGCTGGCGAAACGCGGTGAATCGAATGGCTGCGTGGTGTTTCGGGATTACCCGCGCTTCCTTGCGGCCTTCAAGCGCGGCGAAGTCAAGCGCATGGTGGTGGTGCCGAAATTGAACGGCAACCGGCCGACACTTGCAAGCAGCGGCGGTAAAAGCGGTGGCAAAACCCTGCTCGGCATGTTTTCGCGCGGCAGCGATTCCTGA	MAFSAAAYNGAGLAGSSSVKRGKSFAFGRMSALLGGGAFAGLFAFAAFASLHSMAAASHGVGQFEKTLVTRFASTETAIAHAAARDIHVRKFSRLSDHSHGQQKAVRLAGIMPEIGAKEFGERFGAAANAKGQATVKQLAALKPSAIVDSALGRTSEVAYQSAVPQHPAFEVALARPQIEEEASSLLPDDVPLPSFRPEVAMAETVEPSPRPATSSKTEGHVPDVALAPAFDAPVPLRAPAPPKQSTGAMLAFAKPDNPVREPSKMDAVPWPDRGNGTAIYDISSGVVHMPNGEKLEAHSGIGKMRDNPDYVHVRMRGSTPPSSYRLTMREARFHGVEAIRLTPENGVNPHGRDGLLAHTYMLAKRGESNGCVVFRDYPRFLAAFKRGEVKRMVVVPKLNGNRPTLASSGGKSGGKTLLGMFSRGSDS				NA	NA	NA	NA	NA
BMS010_01337	426			hypothetical protein	ATGATCGTCTGGATCGCCATGGCCTTTACCGGCGGCGTCTTCGTGGCGCTGAGCCGCCAGATCAACGGCCGCCTCAGCCTGTCCAACTCGCCGCTCATCGCATCGTTCTGGAACCACATTGTCGGTTTTGCCGTGCTGACGGTCATCGGCCTCATCGTCGGCGGCCTCATTCCGCCGGGCGCGGCCGACGCGCCGTGGCTTGCCTTTATCGGCGGGCCGATCGGCGTCGTCTTCATCGCTTCGGGAAGCTGGCTCATTCCGCGCATCGGTGCGGTCAATACCGCCCTTCTGGTCATCAGCGGCCAGATGGTCTCAGGCGTGGTTCTCGATCTTTTCGGCGATCATCCGCCGAAACTCTGGGCGAGCGCACTCGGCATCCTGCTCATTTTCGCCGGCATGGTGCTGACACAGCGGCGCGGTCGCTAG	MIVWIAMAFTGGVFVALSRQINGRLSLSNSPLIASFWNHIVGFAVLTVIGLIVGGLIPPGAADAPWLAFIGGPIGVVFIASGSWLIPRIGAVNTALLVISGQMVSGVVLDLFGDHPPKLWASALGILLIFAGMVLTQRRGR	PGPT0009795_2354	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-TOXOFLAVIN_METABOLISM,PGPT0009795-toxF-K09936	NA	NA
BMS010_01338	483			hypothetical protein	ATGACAGACACGACGCATCCACGCCTCAACCCGCTGCATCTTGCCGCCGCCTTCGCCAGCGGCTGCCTTTTGACATTGATGGTGCATTTTAACGGTCAGCTTGCCCATTACGGCAATGCGCTGTTTTCCTCGTGGACGGCGCATGGCACCGGCACGGTGGCGGCGCTGATCTATCTCGCCATCATGCGCCCGAAGAAAGAAGTGGGCGCGGCGGAAAAACCGAAAGCGCCGCTCTGGGCCTATTGCGGCGGGGTCGTGGGTGCGGCCATCGTCATCCTCACCTCCACCGCCGTCAATTCGCCGCTGGCGCTTTCCGGCACCATTGCGCTCGGGCTTGGCGGACAGGTGATCTTCAGCCTCCTGGCGGATCTTTTCGGCCTTTTCGGCCTGCCAAAAAGAAAGCCGGACCTGCGGGACATGGCGGCGGTGGCGCTCATTCTCTGCGGCAGCGCACTCATCATCCTTGTCGGGAGAACAGCATGA	MTDTTHPRLNPLHLAAAFASGCLLTLMVHFNGQLAHYGNALFSSWTAHGTGTVAALIYLAIMRPKKEVGAAEKPKAPLWAYCGGVVGAAIVILTSTAVNSPLALSGTIALGLGGQVIFSLLADLFGLFGLPKRKPDLRDMAAVALILCGSALIILVGRTA	PGPT0009795_826	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-TOXOFLAVIN_METABOLISM,PGPT0009795-toxF-K09936	NA	NA
BMS010_01339	813			hypothetical protein	TTGCATATATTACCGAAAAGCCAGCGCAGGCTCGCCGTTTTCCTGATCAATATGGATAGCGCCACCAAACGCCTCGCGGATATGACCGCGCGCCTCGATGCCATGGGGCTCAAGGCGGAGCGTGTCCCCGGCGTCAATGGCAGGGAACTGAATTACCCCATCCCGGAATTCAGCGAGATTTCCTACATGCTCATGCATGGCCGCCGCACCTCGCCGCCGGAAATCGGCTGCTATCTCAGCCATGTCGCCTGCGCCAATAAATTCATGGCGGGCGATGCCGATATCGCGCTCATCCTCGAGGATGACGTGGTCTTCGACGATGATTTTCTCAACGCCATCGACGAGGCGGTGCTGAATGGCGGCGACTGGGATTTGCTGCGGCTCACGACCGTCAGCAATGGCCGCAAATTCCCGTTCCGCCAGCTTTCCAATGGTCGTTCGCTCGCCATTGCCATCACGCGGGAAAAAGGATCGGGAGCCTATCTCGTCAACCGCCGCGCCGGAAAATGGATATCGAAGCTGATCCCCATGCGGCTCGCTTATGACATCGCATTCGATCTGGAATATCTCGCAGGGCTGAAGGCGGCCTTCCTCTACCCGCTCTGCGCCACGCAGGATGCGGATGGGGAAAGCCAGATCCAGAACAATCTGCGCATCTACCGCCTGCCGCGCTGGCGCTATTTCACCGTTTTGCCCTATCGCGCCTATCTGGAAACCAGCCGGTTCCTGCTGCGCGGCATTCGCTTCGCAGTCGCCAAAGTGTCCGTTGCGATGGAGCGCGGCAAAGGCAAAACCGCCCCAGCCGGTCGTTGA	MHILPKSQRRLAVFLINMDSATKRLADMTARLDAMGLKAERVPGVNGRELNYPIPEFSEISYMLMHGRRTSPPEIGCYLSHVACANKFMAGDADIALILEDDVVFDDDFLNAIDEAVLNGGDWDLLRLTTVSNGRKFPFRQLSNGRSLAIAITREKGSGAYLVNRRAGKWISKLIPMRLAYDIAFDLEYLAGLKAAFLYPLCATQDADGESQIQNNLRIYRLPRWRYFTVLPYRAYLETSRFLLRGIRFAVAKVSVAMERGKGKTAPAGR				NA	NA	NA	NA	NA
BMS010_01340	2475	pcrA_1		ATP-dependent DNA helicase PcrA	ATGAGCAACAGTTTTGACGATATGCCGTTCTTCGATGAGGAACCCGCCGCACCGCGCAGGGCAACGAACAATGCCGGTGCGGAAAGCGGCGGCGGGCTTGGCATTGCCGCCCGCGCCATGGCGGCGCGCGATCAGACGCGTGCTGCACCCGATTATCTTTCCGGCCTCAACCCGGAACAGCGCGATGCCGTGGAAACGCTGGACGGACCCGTTCTCGTGCTCGCCGGCGCAGGCACCGGCAAGACCCGCGTGCTGACGACCCGCATCGCCCATATTCTGGCCACCGGCCGCGCCTATCCGAGCCAGATTCTTGCCGTGACCTTCACCAACAAAGCTGCCCGCGAGATGAAGGAACGTATCGGCGTTCTCGTCGGCGGCGCTGTCGAGGGCATGCCCTGGCTCGGCACCTTCCACTCCATCGGCGTCAAGCTGCTGCGCCGCCACGCCGAACTCGTCGGCCTGAAATCGGACTTCACCATTCTCGATACGGATGACGTGGTGCGGCTGATCAAGCAGCTCATTCAGGCCGAAGGGCTGGACGACAAGCGCTGGCCGGCAAAGCAGTTCGCCGGCATGATCGACGGCTGGAAAAACAAGGGCCTGACGCCGCCGGATATTCCGGAGGGCGACAGCCGCGCTTTCGCCAACGGCAAGGGCCGCGAACTTTACACCGCCTATCAGAACCGCCTGAAAACGCTGAACGCCTGCGATTTCGGCGACCTTTTGATGCATCCCATCAGCATCTTCCGCCGCAACACCGATATTCTGAAGGAGTATCACCAGAAGTTCCGTTACATTCTGGTGGACGAATATCAGGACACCAATACGGCGCAATATATGTGGCTGAGGCTGCTTGCCCAACGCGCCAAGGGCGAACCGCAGAACGTCTGTTGCGTGGGTGACGACGACCAGTCGATCTATGGCTGGCGCGGTGCGGAAGTGGACAACATCCTCCGCTTCGACAAGGATTTCCCCGGCGCCAAGGTCATCAAGCTCGAGCGCAACTACCGCTCCACCGAACATATTCTCGGCGCGGCCGGCCATCTGATCGCCCATAATGAAGGGCGTCTCGGCAAGACGCTCTTCACCGAACGCAGCAGCCCGGATGACGAAAAGGTCGTGGTGCATGCCGCCTGGGATTCCGAGGAGGAAGCCCGCGCTGTCGGCGAGGAAATCGAACAGCTCCAGCGCAAAAACCATAATCTGAACGACATGGCGATCCTCGTCCGCGCCTCCTTCCAGATGCGCGAGTTCGAAGACCGTTTCGTGACGCTTGGCCTCAATTACCGCGTCATCGGCGGCCCGCGCTTTTATGAGCGCCTCGAAATCCGCGACGCCATGGCCTATTTCCGGCTCGTCTGCCAGCCGGCTGACGATCTCGCCTTTGAGCGGATCGTCAATACGCCGAAGCGCGGTCTTGGCGATACGACGATCCGTAACCTGCACGACTATGCCCGCGCCCGCGATATTCCGATGCTGGCAGCGGCCGCCGACATCATCGAGACCGACGAACTGAAACCGAAGGCGCGCAAGGCGCTGTTCGATGTGGTGCAGGATTTCCGCCGCTGGCAGGGCCTCTTGGAAAACACTGAGCACACCACGCTTGCCGAGCAGATTCTCGACGAAAGCGGCTATACCGCCATGTGGCAGGCCGACAAGACGGCCGAAGCGCCCGGACGGCTTGAGAACCTGAAGGAACTCATCCGCTCGATGGAGGCCTTCGAGAGCATGCGCGGATTCCTCGAGCACGTCGCCCTCGTCATGGATGCAGAGCAGAACGAAAATCTCGATGCCGTCTCCATCATGACGCTGCATTCCGCCAAGGGTCTGGAATTCGACACCGTCTTCCTGCCCGGCTGGGAAGAAGGCCTGTTCCCGCACCAACGGGCGTTGGACGAAGGCGGGCGCTCCGGTCTGGAAGAAGAACGCCGCCTCGCTTACGTTGGCATCACCCGCGCCAAGAAGCTCTGCCATATCTGGTTCGTGTCGAACCGGCGCATTCACGGGCTGTGGCAATCTACCCTGCCCTCGCGTTTCCTCGATGAATTGCCGCCCGCCCATGTGGATGTCGCGGCATACGACAGCAGTTACGGCGGTTATGGCGGACGCGGCGGCTACGGTCAGTCGCGCTTCGACAAGGCCGATCCTTTCACCAACAACTATTCGACCCCCGGCTGGAAGCGCGCGCAGCAGAACCGCAGCGACGCCACCCGTGACAATTGGGGCACCCGCTCCGGCCATGCGGTGGAACGGATCGGTTATGGCGAAAGCGGCCCGCGCACTCGCACGATCGACGGCGAACTGGTGGCGAAATCCGTCGCCGACACGCCATCGAAATTCTTTGTCGGCGACCGCGTCTTCCACCTCAAATTTGGCAATGGCAACATCTCTGCCATCGAAGGAAACAAGCTGACGATCGACTTCGATCGCGCCGGGCAGAAGCGTGTGCTGGACGGATTTGTGGAAAAGGTCTGA	MSNSFDDMPFFDEEPAAPRRATNNAGAESGGGLGIAARAMAARDQTRAAPDYLSGLNPEQRDAVETLDGPVLVLAGAGTGKTRVLTTRIAHILATGRAYPSQILAVTFTNKAAREMKERIGVLVGGAVEGMPWLGTFHSIGVKLLRRHAELVGLKSDFTILDTDDVVRLIKQLIQAEGLDDKRWPAKQFAGMIDGWKNKGLTPPDIPEGDSRAFANGKGRELYTAYQNRLKTLNACDFGDLLMHPISIFRRNTDILKEYHQKFRYILVDEYQDTNTAQYMWLRLLAQRAKGEPQNVCCVGDDDQSIYGWRGAEVDNILRFDKDFPGAKVIKLERNYRSTEHILGAAGHLIAHNEGRLGKTLFTERSSPDDEKVVVHAAWDSEEEARAVGEEIEQLQRKNHNLNDMAILVRASFQMREFEDRFVTLGLNYRVIGGPRFYERLEIRDAMAYFRLVCQPADDLAFERIVNTPKRGLGDTTIRNLHDYARARDIPMLAAAADIIETDELKPKARKALFDVVQDFRRWQGLLENTEHTTLAEQILDESGYTAMWQADKTAEAPGRLENLKELIRSMEAFESMRGFLEHVALVMDAEQNENLDAVSIMTLHSAKGLEFDTVFLPGWEEGLFPHQRALDEGGRSGLEEERRLAYVGITRAKKLCHIWFVSNRRIHGLWQSTLPSRFLDELPPAHVDVAAYDSSYGGYGGRGGYGQSRFDKADPFTNNYSTPGWKRAQQNRSDATRDNWGTRSGHAVERIGYGESGPRTRTIDGELVAKSVADTPSKFFVGDRVFHLKFGNGNISAIEGNKLTIDFDRAGQKRVLDGFVEKV				NA	NA	NA	NA	NA
BMS010_01341	411			hypothetical protein	ATGAGCACCGTGACGAAGACCGAAAACCCGGAAACCGACCCGCGCGTCAAGGCGGTGTTCGATGACATCCGCGCCACCCGCAAATCGGATTTCATCAACAATATGTGGCTCTACCTCGCCTTCGATGCCGATCTGCTTGAAAAGACATGGGGTGAGGTCAAGGCGGTGATGGCGACACCTTCGGCGCTCGATGCCGTGGTGAAGGAAATGCTCTATATCGCCGTTTCCGTCACCAATGGCTGCTCCTATTGCGCCCATTCCCACACGGTAGCAGCAAAAGCCAAGGGCATGACCACCGAACAACATGCCGATTTGCTGCGCGTCATCGCGCTTGCCGCCAAGACCAACCAGCTTGCGGTGGCGTTGCAAGTGCCCGTTGACGCCGCTTTCGACGCCGACAGGCAGACATGA	MSTVTKTENPETDPRVKAVFDDIRATRKSDFINNMWLYLAFDADLLEKTWGEVKAVMATPSALDAVVKEMLYIAVSVTNGCSYCAHSHTVAAKAKGMTTEQHADLLRVIALAAKTNQLAVALQVPVDAAFDADRQT				NA	NA	NA	NA	NA
BMS010_01342	1152	mdtA_3		Multidrug resistance protein MdtA	ATGCGGGTCTGGAAACAGGTGGGTGTCAGTGTTGCCGTGGTGGGAGCGGGGCTCTGTCTCTGGGGCTTCTATTCGCCCGAAGCCCGCAATGTGCTCGCCAGCATGGGGCTTGGCAAAACGCCTGCCAGCGCCGTCGAGGTTGCCGCCGCTACGCCCGGTTCGGGTCAAAACGCCGGCGGTGCGCGCCGCAACGGCAACGCCACACTGGTGGTGACGGCCCCGGTGAAGAAAGGCACGGTCAATGACCGGCTGAACGCAATCGGTAATGGCGAGGCGATCCAGTCGGTTGTCGTCATGCCGCAGGCTTCCGGCACGCTTTCCGAAATTCGCACGTCGTCCGGTGCACGCGTCGTGAAGGGGCAGGTGCTGGCGCGGCTCGACGATGAAGAGCAGGTGATCGAGCGCGACAAGGCACAGGTGGCGCTGCGCAGCGCCGTTGAAAAATCCAATTCCTACAAGAACCTGAAATCCGTTTCCCGCCTCGATGTGCTGGATGCGCAGATTGCCGAGGAAGCCGCCAAGCTTGCGCTGAGCACGGCCGAACTCAATCTCAAGCGGCGCGACATCGTTGCGCCGATAGAGGGTGTGGCGGGTATCGTCGCCGCCAATATTGGCGATAACGTCACCACGCAGTCAACCATCGTCAGCATCGATGACCGTTCGGAAATTCTCGTCAATTTCTGGGCCCCCGAGCGGTTCGCAACCGCGATCAAGGTCGGCATGCCGGTGGAGGCGACGTCCATTTCCCGCCCCGGTGAGACTTTCAAGGGCGAGATCGAGGCCGTCGACAACCGCGTCGATGAGGCGAGCCGCACAATCCGTATCCGGGCGAAATTCGGCAATGAGAAGGACGAGCTGAGGGCGGGCATGTCCTTCGGCGTGACCATGCGTTTTGCCGGGGAAACCTATGCCTCGGTCGATCCACTGGCCGTGCAGTGGGATGCGGAAGGCTCTTACGTCTGGCGCGTGGCCGACAATAAATCGAACAAAGTGCGGGTGCAGATCGTGCAGCGCAATCCCGATGCCGTTCTCGTCAAGGCGGAGCTGGCGGATGGCGAACCTGTCGTGATCGAGGGCCTTCAGCGTGTGAGGGAAGGCGGCGCGGTCCGCGTTGGCAACCAGCCGAAGCCTGAAGAGGTTGCCAGCCAATGA	MRVWKQVGVSVAVVGAGLCLWGFYSPEARNVLASMGLGKTPASAVEVAAATPGSGQNAGGARRNGNATLVVTAPVKKGTVNDRLNAIGNGEAIQSVVVMPQASGTLSEIRTSSGARVVKGQVLARLDDEEQVIERDKAQVALRSAVEKSNSYKNLKSVSRLDVLDAQIAEEAAKLALSTAELNLKRRDIVAPIEGVAGIVAANIGDNVTTQSTIVSIDDRSEILVNFWAPERFATAIKVGMPVEATSISRPGETFKGEIEAVDNRVDEASRTIRIRAKFGNEKDELRAGMSFGVTMRFAGETYASVDPLAVQWDAEGSYVWRVADNKSNKVRVQIVQRNPDAVLVKAELADGEPVVIEGLQRVREGGAVRVGNQPKPEEVASQ				NA	NA	NA	NA	NA
BMS010_01343	3150	mdtC_1		Multidrug resistance protein MdtC	ATGACGACGCAGCCACCCTCCGGGCAGGATTCCAAGCTCGCCTTTACGGCATTGTTCGTGCGCCGGCCGATTCTGGCGGCGGTTCTCAACACGCTGCTGGTCGTTGCCGGCCTTGCAGCGCTGGTGGGCGTTGAAGTGCGTGAACTGCCTGACGTCGACCGGCCGACGATCAGCGTCAGGACCACCTATGAGGGGGCGGCGCCCGAAACCATCGATCAGGAAGTGACGCAGACCATCGAAGGTGCGGTGGCGCGGGTCAGCGGCGTCAAGTCCATCTCGTCCAACTCGCAATTCGGCACCAGCCGCGTGACGCTGGAATTCGGCGACAATGTCGATCTGGCGGTTGCCGCCAACGATGTGCGCGACGCCATCGGCCGCGTCACCAATCAGCTGCCTGACGATGCCGACGAACCGCAGATCATCAAGGCAGATTCCGACAGCCAGCCGATCATGCGCCTTGCCGTCACCTCCTCCACGCTCAGCATGGAAGACCTGACCAAGCTGGTGGATGACGAGATCATCGACCGTCTGGCTGCCGTCGACGGCGTGGCCGATGTGGAGCTTTACGGCGATCAGGAAAAGGTTTTCCGGGTCGATCTCAATCAGGCGGCGCTCGCCAGCCGCGGTTTGACGGTGACCGATGTTTCGAACGCGCTTGCCAGCGCAGCCCTCGACGTGCCGGCGGGGTCGCTGAAAAGCACGACGCAGGACATCGTCGTGCGCGCCACCGCCAGCCTGACGAAGCCCGAGGATTTCTCCAATCTCCTGATCAAGAACAATATCCGCCTCAGGGACGTCGCGACCGTCATGCTGGGCGCGGATGATGAATCCACCTCGCTGCGCTCCAACGGCGTGCAGGGTGTCGGTCTCGGCGTCATCCGTCAGGCGCAGTCGAACACGCTCAGTATCTCGACCGGCGTGAAGGCGGCCGTCGACGCCATGTCGGCCAATCTGCCCGAAGGTACGCGTATCGTCGTGACCAGTGACGATGCCGTCTTCATCGAAGGCGCGCTGCATGAGGTCGAGCTGGCGCTCGGTCTCTCGGCGATCATCGTCGTCGTCGTGCTTTATCTCTTCCTGCGCGACTGGCGTGCGACCCTCATTCCGGCAATCACCATGCCGGTGGCGCTTATCGGCACCATTGTCGCTATCTATATGGTCGGCTTCTCGGTCAATATTCTGACGCTGCTTGCCATCGTTCTGGCGACGGGCCTCGTGGTCGATGACGCCATCGTGGTGCTGGAAAATATCGTGCGCCGCCGGGCGGAAGGCATGGGGCCGCGGGCCGCTGCCGTTCTCGGCACGCAGGAAGTCTTTTTCGCGGTCATCGCGACGACGGCGACGCTTGCCGCCGTGTTCATTCCGCTCTCCTTCCTGCCGGGCCAGCTTGGCGGTCTGTTCCGCGAATTCGGTTTCGTGCTGGCCTTCGCGGTGGGCTTGTCCTCCATCGTGGCGCTGACGCTCTGCCCGATGCTCGCCTCGCGTATGCTGAAGGAGGGGTTGAAGGAGCCGACGGGGCCGCTTGCCTGGTTCGGCAATGTCTTTGCCTCCACCTACAAAACGACACTTTCCGCCTGCCTCAACAATCCGCTGATCGTCATCGTCGTGGCGCTGATCTTTTCCGGCCTGTCGTGGATCGCCTTCGGCATGATCCAGAACGAGTTGACGCCGCGCGAGGACCGCGCCTCGATCATGATGCGGGTCACCGCGCCGCAGGGCGTCAGCCTCGAATATACCCGCGACCAGTTGCAGCGGATCGAAGAAAACCTGCAGCCGCTGCGCGACAGCGGTGAAATCCGCAATATTTACTCCATCACCGGCATGAACGGCTCGTCCAATACCGGTTTCATGGTGCTGACGCTTGCGCCCTGGGCAGATCGTGAGCGCACGCAGAACCAGATTGCCGCCGATGTCACCTCCGCCGCCAACAGGGTGCCGGCGCTGCGCGGCAATGCAATGCAGCCGAACAGCCTCCGAATTCGCGGTGCCGGCAACGGATTGCAGATGGCGATGGTTGGCAGCAACTATGCCGCGCTGACCGAGGCGACGCAGAAATTACTGCTTTCCATGGAGGAAAGCGGCCTGTTCGATACGCCGCGTTTCGACAATGAACCCAATCAGGCGCAAATCTCCGTCTCCATCGACCGCGAGCGTGCGTCGGATCTCGGCATCGATATCACCGGCCTGTCGCGCGCCATGCAGTCGCTGCTGGAAGGGCGCTCGATTGTCGACGTCTTCGTGGATGGCGATGCGATCCCGGTGCGGCTCCTGTCCTCCACCCGGCCGATCAACGATCCGACCGATCTGGAAAACGTCTTCCTGAAGACGGGCGACGGCAAGATCGTGCCGATGTCGGTCATCGCCACCCTGAAGGAAAATGCGGTTGCGCCGCAGCTCAACCGCGAGCAGCAGCTTCCCTCCGTCGGCTTTACCGCCAATCTCAAGGACGGCGTTTCGCTGGGCGAGGCCCTGCAGAAGGTGAATGAGCTCTCGCAATCCGTCATGCCGTCAGGCGCCCGTCTCCTGCCGCTCGGCGAAGCGGCGACGCTGGAGGAAAATTCGAGCGGCATGTTGCTGACCTTCGGTTTTGCCATCGCCATCATCTTCCTCGTGCTGGCTGCGCAGTTCGAAAGCGTCTTGAGTTCGGTCATCATCATGACGACGGTGCCGCTCGGCCTTGCCTGCGCGGTCATCGCGCTGCTCGTTACCGGTTCAAGCCTCAACGTCTATAGCCAGATCGGGCTTGTGTTGCTCGTCGGGGTTATGGCGAAGAACGGTATTCTCATCGTCGAATTCGCCAATCATCTGCGCGATCAGGGCGCAACCGTGCGGGAAGCCATTGAAAAGGCCACCAGCATTCGCCTGCGCCCTGTCATGATGACGATGATTGCGACCATTCTCGGCGGTGTTCCGCTGGTGTTGGCGCAGGGTGCTGGCGCGGAAGCGCGCATCGCGCTCGGCTGGGTCATCGTCGGCGGCCTCGGTTTTGCGACGCTGGTGACGCTTTACATCACGCCGGTCTCCTACCTGCTGATCGCCCGCTTCGCCAAACCGCAGGCGGATGAGGAAATCCGTCTTCACCGCGAGCTTGAACTTGCCGCCCGCCGCAAGGCGCTGGAAGAGGACAAGCCGCTGCTTGCGGCGGAATAA	MTTQPPSGQDSKLAFTALFVRRPILAAVLNTLLVVAGLAALVGVEVRELPDVDRPTISVRTTYEGAAPETIDQEVTQTIEGAVARVSGVKSISSNSQFGTSRVTLEFGDNVDLAVAANDVRDAIGRVTNQLPDDADEPQIIKADSDSQPIMRLAVTSSTLSMEDLTKLVDDEIIDRLAAVDGVADVELYGDQEKVFRVDLNQAALASRGLTVTDVSNALASAALDVPAGSLKSTTQDIVVRATASLTKPEDFSNLLIKNNIRLRDVATVMLGADDESTSLRSNGVQGVGLGVIRQAQSNTLSISTGVKAAVDAMSANLPEGTRIVVTSDDAVFIEGALHEVELALGLSAIIVVVVLYLFLRDWRATLIPAITMPVALIGTIVAIYMVGFSVNILTLLAIVLATGLVVDDAIVVLENIVRRRAEGMGPRAAAVLGTQEVFFAVIATTATLAAVFIPLSFLPGQLGGLFREFGFVLAFAVGLSSIVALTLCPMLASRMLKEGLKEPTGPLAWFGNVFASTYKTTLSACLNNPLIVIVVALIFSGLSWIAFGMIQNELTPREDRASIMMRVTAPQGVSLEYTRDQLQRIEENLQPLRDSGEIRNIYSITGMNGSSNTGFMVLTLAPWADRERTQNQIAADVTSAANRVPALRGNAMQPNSLRIRGAGNGLQMAMVGSNYAALTEATQKLLLSMEESGLFDTPRFDNEPNQAQISVSIDRERASDLGIDITGLSRAMQSLLEGRSIVDVFVDGDAIPVRLLSSTRPINDPTDLENVFLKTGDGKIVPMSVIATLKENAVAPQLNREQQLPSVGFTANLKDGVSLGEALQKVNELSQSVMPSGARLLPLGEAATLEENSSGMLLTFGFAIAIIFLVLAAQFESVLSSVIIMTTVPLGLACAVIALLVTGSSLNVYSQIGLVLLVGVMAKNGILIVEFANHLRDQGATVREAIEKATSIRLRPVMMTMIATILGGVPLVLAQGAGAEARIALGWVIVGGLGFATLVTLYITPVSYLLIARFAKPQADEEIRLHRELELAARRKALEEDKPLLAAE	PGPT0016195_861	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-SURFACTIN_RESISTANCE,PGPT0016195-swrC|yerP-K03296	NA	NA
BMS010_01344	1413		COG0277	putative FAD-linked oxidoreductase	ATGGCGCTGAAAGATGTGGTGGCGGGAAAGCGGAACGAAGAGGGCATCGCGTCGGCACTCGCGGTGCTGAAGCAGCAGCTCGGCGACAGGCTCCAGACCGGACAGGCGTTCCGCGAACAGCATGGCCACACCACCACTTATCTGACGCTGCAGGCGCCTGACGGCGTCGTTTTTGCCGAGAGCGCCGATGATGTGAAGGCGGTGGTAAAGGTCTGCGCGCAATATAAGGTGCCGGTCATTCCTTTCGGAACTGGCTCTTCGCTGGAAGGGCAGGTGAATGCGCCGAACGGCGGAATCTGCATCGATTTCAGCCGGATGAATCGCATCATTGAGGTGAATGCCGAAGATCTTGACGTGACGGTGGAGCCGGGCGTGACGCGCGAGGACCTGAATGTCTATCTGCGCGATACCGGCCTGTTCTTCCCCATCGATCCCGGCGCCAATGCCTCCATCGGCGGCATGGCCTCGACGCGGGCCTCCGGCACCAATGCCGTGCGTTACGGCACCATGAAGGACAATGTGCTGGCCGTCACCGCCGTCGTTGCCAATGGCGAGGAAATCCGCACCGCCCGCCGCGCCCGCAAGTCGTCTGCGGGTTACGATCTGACGCGGCTTTTCGTCGGTGCAGAGGGAACGCTGGGTGTCATTACCTCCGTTACGCTGCGCTTGCAGGGTATTCCTGAAAAAATCGCCGGCGGGGTCTGCACCTTCGACAGCATCAAGGCGGCCTGCGATGCCGTCATCATGACGATCCAGATGGGGGTTCCGGTCGCCCGCATCGAATTGCTGGACGAAGTGCAGGTGCGGGCCTGCAATGCCTATTCCGGCCTGAACTACGCCGAGAAGCCGACACTCTTCGTGGAATTCCACGGCACCGAGGAAACGGCGGCGCTGCAATCGCAGCAGTTCGCCGAAATCGCCGCCGAATGCGGCGGCGTCGATTTCCGCTGGACGAGCGACGCTGCCGAGCGCAACAAGCTCTGGAAAGCGCGGCACGATGCCTATTGGGCTTCTCGCGCGCTCGCGCCGCATCTCGACGGGCTTTCCACCGATGTCTGCGTGCCGATTTCGCGGCTCGCGGATTGCGTGGTGGAAACGCAGCGGGATATTCAGGAAAACGGATTTCTGGCACCCATCGTCGGCCATGCGGGCGACGGGAACTTCCACGTCCTTATTCTGTTCGATGGCAAGGACGCGGAAAGTGTGGCGAAAACCGAAGCCTTCGTCGCCCGTCTCAACCGCCGCGCCATCGCCATGGACGGCACCTGCACCGGTGAACACGGCATCGGCCAGGGCAAGATGAGTTTCCTCGCCGAAGAGGCCGGCAATGCACTGGATCTCATGCGCGCCATCAAAACGTCGCTCGATCCCGATAACATCTTCAATCCGGGCAAGTTGTTCCGGCTTGTCTGA	MALKDVVAGKRNEEGIASALAVLKQQLGDRLQTGQAFREQHGHTTTYLTLQAPDGVVFAESADDVKAVVKVCAQYKVPVIPFGTGSSLEGQVNAPNGGICIDFSRMNRIIEVNAEDLDVTVEPGVTREDLNVYLRDTGLFFPIDPGANASIGGMASTRASGTNAVRYGTMKDNVLAVTAVVANGEEIRTARRARKSSAGYDLTRLFVGAEGTLGVITSVTLRLQGIPEKIAGGVCTFDSIKAACDAVIMTIQMGVPVARIELLDEVQVRACNAYSGLNYAEKPTLFVEFHGTEETAALQSQQFAEIAAECGGVDFRWTSDAAERNKLWKARHDAYWASRALAPHLDGLSTDVCVPISRLADCVVETQRDIQENGFLAPIVGHAGDGNFHVLILFDGKDAESVAKTEAFVARLNRRAIAMDGTCTGEHGIGQGKMSFLAEEAGNALDLMRAIKTSLDPDNIFNPGKLFRLV	PGPT0001890_1002	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001890-dld-K00102	NA	NA
BMS010_01345	3729			hypothetical protein	GTGCTCGGACGTATTCTGGTTTTTCTGGGCGGACTGCTGGCCGTGGTGCTGTTTTCGGCGCTGCTTATTCCCTATTTCGTCGACTGGACGGATTTCCGCCGCGATTTCGAGGATCAGGCAAGCCGTATTCTCGGCAAAAAGGTGGTGGTGCATGGCCGCGTCGAAGCCCGTATCCTGCCTTTTCCTTCGGTAACATTGCATGATGTGCGCGCCGGAACGGATGCGGATGGATCGCCGCTCATTCAGGTCGCGCGTTTTTCCATGGATGCCGAGCTTGCGCCTTTCCTCTCGGGCGAGGCGCGTATCTTTGACATGCGCATCGAGGAACCCAAGGCCAAGATAAGGCTGCTGAAGGACGGCACGCTGGACTGGATGCGTGGCAGCCGGGCGGAAATTCCCGCCCGCACCGTGGTTCTGGAAAGCGTACAGATCGAAGGCGGGCAGATCGAATTCATCGATGAGCAATCCGGCCGCAACCGTGTCGTGACCGGTCTCAATGCCGACATGTCTGCCAATTCGCTGGCCGGGCCATGGAAGGCGGAGGGACGCGCCGCCGTCGACGGACATCCGGGCTCCTTCTCGCTCTCCAGCAGCGAGCCGGATTATGCCGCCGGCCGCATGGGGCTGAGGATGCGGCTGGTGCCGGACGAACACCCGGTCGAGGTCGATCTCGATGGCGCAATTGCCGCAACGGCGGGAAAGCCGGCCTATAGCGGTTCTTTCTCCTTCAGTTTCCGTGAGGACGAAAAGCAGAAGCAGCAGGCCGGACAATCGCTGTTTTCCTCGCCCCGCACCCGCGGCAGCTTTGAACTCACCAATGAAAGCGTGCGTATCCCGAGCTACCGCATGGAACTCGGCGGCAGCGAAAATCCCTATGTCGTGACAGGGGAAGCAACGCTCGATACCGGCGCCAAGCCGGAATTCCTGCTGACGGCCGATGGCCAGCAGATCGATGTCGCTCGCTTTGCGCCGCCCGTCGTGCAGTCTGGCAAGACCTCGCGCCAGCCCACCGCCTCGGTGCGTCAGCGTATCGAGGCCTTTGCGGCCATGGTGGCCCGCATTCCGGTGCCGCCAGTGCCGGGCAAAGCCAGCATCAGCCTTCCGGCGCTCGTTTCCGATGACACGACCATTCGCGACATCAGGCTGGACGTGCGCCCTGAAGGCAGCGGCTGGCAGGTGGTGAATGCGGTTGCGACCCTGCCGGGCCGGACGCAGCTCGAAGCCAAGGGGTCGCTGACGCTTCTCGGCGGCCCTGCCTTCAACGGCAATCTGCTTCTCGCTTCCAATCAGCCCTCGGGTCTGGCGAACTGGCTTTCCGGTTCCGTCGATCCGGCGATCCGCCAGCTCAATGCCGCCGGTTTTTCCGCCGATGTCTCGCTGACGACGCTCAACCAGCGCTTCGACAATCTGGAGCTTGCAGTCGGCGATGCGTCTCTGAAGGGTGAGCTGGAGCGGCGCTCCGACGGCAAGACTTCCAATCTTTCCATCGATCTTGCCGGCAATGAAATTGATCTCGATGCGCTGAAGGCGCTCGGCAGTCTGGCGCTTGGCGATCAGGTCGGCAGTTCCGTGCTCGACCACCGCATTACCGCGAAATTCAAGGCCGACCGGTTCAACATGGCCGGTGTGACCGCCAATCATGTCGAGACCGCCTTCACCATGGCAGGCGGCGTTCTCTCGCTGGAGAACATGACGGCCGGAGACATCGCCGGTGCGGAAGTCAGGGCAAGGGGTGAGCTGCAGGGTTCGCTGCTGAAATATGCGGGCAAGGGCACGGTGAACCTGCATGCGGCGGATATGCAGCCGTTCTTCACCATGCTGCAGCAGAAGTTGCCGAACCATCCATTCCTCAGCCGTCTGGCGGCGAGTGCGCCGTGGTACGCCAATTCCGACCTGGCAATGGACGTTTCCGTCAATAGCGAAAATGGCGGCGCCAATGTCGCCGTTTCCGGTACCGTCAATGGCAGCCGGCTGTCGGCTGTGGCCAAAATGCCGGATTTCCTGTCGATCACCGATGATACCGCCATGTCGCTGGAAGCGGTTCTGAAAAACCAGTCGACGGCCATCCTGTTCGGGCAGGCGGGGCTCGATCCGCTGCCCTTCGATGCGGATGGCGAGGGGCTTTTGTCCATCAAGCTCAACGGCACGCTCGGCTCGCCCGCCCAGACGGAACTGCGCTTCTCGACGGAGCGCACGCATTTTTCGATGAACGGTTCCTTTGCCGTTTCGTCCGCCAATTTCGGTGAGGGCAGCGCCGACGTGGCGCTCGAAAGCGCCGACATCGAGCCCTATCTCATCATGAACGCCGTTGGCCTGCCGCAGCTTGGCGGGGGCATGGCGTTGAAGGCCAACGCGAAAGTGGCGGTGGATGGGCAAAAGATCGCGCTTTCCTCGATAGGCGGGCAGGCGGGCGGAAATCCGTTCTCGGGCAATCTGACCTTCCAGCGCGCCGCGCCCTATCCCGTCACCGGCGATCTTGCGGTCAGAACCGCCGATCTCGCCTGGCTGGGTGATGCGATCTATGGGCCGGTAATCGATCCGGAAGCCGGGGCGCTCAACGCCAAGCCTCTGGCCATGGCCGCCTTCCCGCAGCTCAAGGCTTCGCTTGCCTTGAAAGCGGAAAGCTTCGAGGCCGGCCCTTTCGGCACGGTCACGGGTGTTTCGGCCAAGGTCACGCATGATGCGGGCAGCCTCTCTCTCGACGATGTTGCCGGCACCTTCATGGGCGGTAAACTCACGGGACGGCTCGCCATGTCGACGGGCGAGGGGGCGGGCATTTTCCGCACCAAGATCGCGGTGACCGACGCCAATCCGGAGCCGATCCTGTGGGCGAATGCCAACGGGCCGGTCGCGGCAGGCCGGGTCGCCATCGACCTGACGGCCGAATCGACCGGCAAGAGCGTCGGTGAAATGCTGAAATCGGCAGGCGGCTCGGGTGAAATCCGGGTCGGCGGGCTGGTGCTGAAGGGGCTCAATCCCGGCACTCTGCCGCCGATCCTGCAGGCGGCGGACGGCTTGCAGCAGCCGATAGACGCGCCCAAGGTGCGGCCGCTGGTGGACCAGAGCCTGTGGCAGGGTGAAATCGGTCTAGGCGATGTGGCCTTGCCGTTCTCGCTGAATGGCGGCGCGCTTCATTTCAAGAATTTGCGTGCGGGGATCGATCCGGTAACGCTGACGGCCGATGCAACGGTCGATCTTGCGGCTTCGACGGTGAATGGCGACCTCGATCTCCTGTTCAATCCCGGCACCGAAACGGTTGCGGGGGCCGAGCCTTCGGTGCGCCTGAATTATAACGGCCCGCTTGCGGCGCCGGCTTTGACGACCGACGTTTCGGCGCTCAGCAACTACTTGTCGCTCCGGGCTTTCGAAAAGGAACGCCGTCGAGTGGAGGCTATGCAGGCCAGCGTTCTCGAAAAGCAGCGCCTGCGCCGCGAAGTGGCGCTTTATCGCTCGCAGGCGGCCGAGCGGCAGGCCGAGAAGGAACGGGCGGAGGCGGAAGCCAAGGCCAAGGCCGAAGAAGAGGCGCGTTTGAAGGCTGCGGCCGAAGAACGTCTGCGTCAGGAAAAGGAACAGCAGGAGCGGTTGCAGCAGCAACAGCAACAGCAGGAACAGCAGAAACAGGGGCAACAGCCGACGCCCGAGCGGCAATCCGCGCCGGTTCTGGTGGTGCCTCCGACGGAAAATGCCATCCGGCAACTGGCGCCGGAAAATGCTCCCGCGACGCCGTGA	MLGRILVFLGGLLAVVLFSALLIPYFVDWTDFRRDFEDQASRILGKKVVVHGRVEARILPFPSVTLHDVRAGTDADGSPLIQVARFSMDAELAPFLSGEARIFDMRIEEPKAKIRLLKDGTLDWMRGSRAEIPARTVVLESVQIEGGQIEFIDEQSGRNRVVTGLNADMSANSLAGPWKAEGRAAVDGHPGSFSLSSSEPDYAAGRMGLRMRLVPDEHPVEVDLDGAIAATAGKPAYSGSFSFSFREDEKQKQQAGQSLFSSPRTRGSFELTNESVRIPSYRMELGGSENPYVVTGEATLDTGAKPEFLLTADGQQIDVARFAPPVVQSGKTSRQPTASVRQRIEAFAAMVARIPVPPVPGKASISLPALVSDDTTIRDIRLDVRPEGSGWQVVNAVATLPGRTQLEAKGSLTLLGGPAFNGNLLLASNQPSGLANWLSGSVDPAIRQLNAAGFSADVSLTTLNQRFDNLELAVGDASLKGELERRSDGKTSNLSIDLAGNEIDLDALKALGSLALGDQVGSSVLDHRITAKFKADRFNMAGVTANHVETAFTMAGGVLSLENMTAGDIAGAEVRARGELQGSLLKYAGKGTVNLHAADMQPFFTMLQQKLPNHPFLSRLAASAPWYANSDLAMDVSVNSENGGANVAVSGTVNGSRLSAVAKMPDFLSITDDTAMSLEAVLKNQSTAILFGQAGLDPLPFDADGEGLLSIKLNGTLGSPAQTELRFSTERTHFSMNGSFAVSSANFGEGSADVALESADIEPYLIMNAVGLPQLGGGMALKANAKVAVDGQKIALSSIGGQAGGNPFSGNLTFQRAAPYPVTGDLAVRTADLAWLGDAIYGPVIDPEAGALNAKPLAMAAFPQLKASLALKAESFEAGPFGTVTGVSAKVTHDAGSLSLDDVAGTFMGGKLTGRLAMSTGEGAGIFRTKIAVTDANPEPILWANANGPVAAGRVAIDLTAESTGKSVGEMLKSAGGSGEIRVGGLVLKGLNPGTLPPILQAADGLQQPIDAPKVRPLVDQSLWQGEIGLGDVALPFSLNGGALHFKNLRAGIDPVTLTADATVDLAASTVNGDLDLLFNPGTETVAGAEPSVRLNYNGPLAAPALTTDVSALSNYLSLRAFEKERRRVEAMQASVLEKQRLRREVALYRSQAAERQAEKERAEAEAKAKAEEEARLKAAAEERLRQEKEQQERLQQQQQQQEQQKQGQQPTPERQSAPVLVVPPTENAIRQLAPENAPATP				NA	NA	NA	NA	NA
BMS010_01346	210			hypothetical protein	ATGATCCGCAAGCACTCCGCGACGTTGCACGGCCACCGCACCAGCATTTCACTCGAGGATGCATTCTGGGACGAGCTGAAAACCATTGCGGAAAGACGCAAGATCAGTTTCGCGGCCCTGCTTGCCGAAATAGACGACAACCGCTCCGCCGACAGCAATCTGTCCTCGTCACTGCGGGTTTATGTGCTGAACTGGCTGAAAACCCGCTGA	MIRKHSATLHGHRTSISLEDAFWDELKTIAERRKISFAALLAEIDDNRSADSNLSSSLRVYVLNWLKTR				NA	NA	NA	NA	NA
BMS010_01347	204			hypothetical protein	ATGGCGGCCGATATCGTCAATCTGCGTCAGTTTCGCAAACAGAAAGCCCGTAGCGAAAAAGAAAAGCAGGCGGAGCAGAACCGCCTGTCCTTTGGCCGCACCAAGACCGAAAAAAATCTTACCTCAGCCCTGAACGAAAAAGCCGAAAAGGCGCTCGATCAAGGGCGGCTCGAAAAAAACGATGACGGGACCGGCAAAGACTGA	MAADIVNLRQFRKQKARSEKEKQAEQNRLSFGRTKTEKNLTSALNEKAEKALDQGRLEKNDDGTGKD				NA	NA	NA	NA	NA
BMS010_01348	513			hypothetical protein	ATGGGGCAGGATCATATCCGTTACGACATTCTCGCACAGGATGCCCTTCGCGGCGTTATTCGTAAGGTTTTGGGTGAAGTGGCCGCAACCGGTCGTCTGCCCGGCGACCACCACTTTTTCATCACCTTTCTGACCGGCGCGCCGGGCGTGCGGATTTCCCAGCACCTCAAGGCGAAATATGCCGAGCAGATGACCATCGTTATCCAGCATCAGTTCTGGGACCTGAAAGTAACCGAAACCGGCTTCGAAATCGGCTTGTCCTTCTCGGATACGCCGGAAAAGCTGGTGATCCCCTATAACGCCATTCGCGGTTTCTACGATCCTTCCGTCAATTTCGAGCTCGAATTCGACGTGCCTCTGGCCGAAGAAGAGGAAATCGAAGACGCAGAGATCACCGCTTATCCCGTTTCCCATGAGGCAAAGCCCGCTGTCGCTTCCGAGACGCCCAAATCCGGCGAGGAAAAGAAGGAAGGCTCGGTCGTTTCGCTGGATGCCTTCCGCAAGAAGCAATAA	MGQDHIRYDILAQDALRGVIRKVLGEVAATGRLPGDHHFFITFLTGAPGVRISQHLKAKYAEQMTIVIQHQFWDLKVTETGFEIGLSFSDTPEKLVIPYNAIRGFYDPSVNFELEFDVPLAEEEEIEDAEITAYPVSHEAKPAVASETPKSGEEKKEGSVVSLDAFRKKQ				NA	NA	NA	NA	NA
BMS010_01350	309			hypothetical protein	ATGACTGACTATCTCGCAGATGTGAAGAAATACGACGCAGCAGCCGACGAAGCGGTGGTCGGCAAGATCGTCAAGCATCTCGGCATCGCCCTGCGCAACCGGGATTCCTCGCTGGTGTCCGCTTCCGATCCGGAAGAGCTTGCGCGTGTGAAGGCGAGCTGGTGCGGCAAGAAGCTCGGCGTGACCGACGGCACGGCCGATCAGGCAATCGATGCCGTTGCTAAGGCCATGGCTGCGGACCGCTCCAAATCGCGCGTGACCTTTTATTATCTGGTCGCCAAGGAACTGGGCAAACTCCAGTCGCTTTGA	MTDYLADVKKYDAAADEAVVGKIVKHLGIALRNRDSSLVSASDPEELARVKASWCGKKLGVTDGTADQAIDAVAKAMAADRSKSRVTFYYLVAKELGKLQSL				NA	NA	NA	NA	NA
BMS010_01351	795	thyA_1	COG0207	Thymidylate synthase	ATGAAACAATATCTCGATCTTCTCCGGCATGTGATGGAAACCGGCTCCGACCGCGGAGACCGCACCGGTACGGGCACGCGCTCGGTGTTCGGTTACCAGATGCGTTTCGACCTTTCCGAAGGTTTTCCGGTTCTCACCACCAAGAAGCTGCATCTGCGCTCCATCATTCATGAACTGCTGTGGTTCCTGAAGGGCGATACCAATATCGCCTATCTCAAGGAAAACGGCGTTTCCATCTGGGATGAGTGGGCCGACGAGAACGGCGATCTCGGTCCGGTCTATGGTGCGCAGTGGCGCTCGTGGCCCGCACCGGACGGTCGCCATGTCGATCAGATCGCGCTTTTGATCGAGGGCCTGAAAACCAATCCGAATTCCCGCCGTCACATCGTTTCGGCCTGGAACCCGGCGCTGGTGGACGAGATGGCGCTGCCGCCCTGCCATTGCCTGTTCCAGTTCTATGTTTCCGATGGCAAGCTCTCCTGCCAGCTCTATCAGCGCTCGGCCGACATTTTCCTCGGCGTGCCGTTCAACATCGCATCCTATGCGCTGCTGACGCTGATGGTGGCGCAGGTCACCGGCCTGAAGCCGGGCGATTTCGTCCATACGCTCGGCGATGCGCATATCTATGCCAATCATTTCGAACAGGCGAAGCTGCAGATGACCCGCACGCCCAAGGCCCTGCCGACGATGCGCCTCAATCCGGATGTGAAGGATCTTTTCGCCTTTAAGTTCGAAGACTTTACGCTGGAAAACTACGAGGCCGATTCAAGCATCAAGGCGCCGATCGCGGTATGA	MKQYLDLLRHVMETGSDRGDRTGTGTRSVFGYQMRFDLSEGFPVLTTKKLHLRSIIHELLWFLKGDTNIAYLKENGVSIWDEWADENGDLGPVYGAQWRSWPAPDGRHVDQIALLIEGLKTNPNSRRHIVSAWNPALVDEMALPPCHCLFQFYVSDGKLSCQLYQRSADIFLGVPFNIASYALLTLMVAQVTGLKPGDFVHTLGDAHIYANHFEQAKLQMTRTPKALPTMRLNPDVKDLFAFKFEDFTLENYEADSSIKAPIAV	PGPT0008145_4079	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0008145-thyA-K00560	NA	NA
BMS010_01352	528			IS1595 family transposase ISSsu9	ATGAGCGAACCGCGTGTCACCATCATCGTTGCGGTGTCCGAAAACGGCGTCATCGGCCGCGACCTCGACATGCCGTGGAAACTTTCCACCGACCTCAAGCGCTTCAAGGCGATGACGATGGGCAAGCCGCTCATCATGGGCCGAAAGACATTTTTATCCGTCGGCGAGCGTCCATTGCCGGGCCGCCCGCATATCATCGTCAGCCGCAATGCCGATTACCGGCCGCAAGGCGTGGATGTCGTCTCCTCGCTGGAGGAGGCTTTGAAGCTTGCCGCAAGCAAGGCTGCGGAACTGGGTGTGGATGAGGTCTTCGTGGCCGGTGGTGGCGAGATTTACCGTCAGGCCATGCCCTTCGCCGATCAACTTTCCGTCACCCATGTCGCGGTAAAGCTCGATGGCGACACTTTTTTTCCGGAAATCGATCCTGCCGTTTTTGAGAAAATCGAGGAAATCCCTGCTCCCGCAGGGGAAAAGGACAATTATCCGGTTCTGTTTACCACTTATGTGCGAAGAGCCGCGTCAAAGTGA	MSEPRVTIIVAVSENGVIGRDLDMPWKLSTDLKRFKAMTMGKPLIMGRKTFLSVGERPLPGRPHIIVSRNADYRPQGVDVVSSLEEALKLAASKAAELGVDEVFVAGGGEIYRQAMPFADQLSVTHVAVKLDGDTFFPEIDPAVFEKIEEIPAPAGEKDNYPVLFTTYVRRAASK	PGPT0007945_944	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007945-folA-K00287	NA	NA
BMS010_01353	1119	hflK_1	COG0330	Modulator of FtsH protease HflK	ATGCCCTGGAGCAATCAGAATGGCGGCGGCGGCCCTTGGGGCGGCGGCGGTGGAGGAAACAACCAGGGCGGCGGTGGCGGCCCATGGGGGCAGGGGCCTAACCGGCCTCGCGGCGGTGGCGGCGGCAATGGTGGCCCGCCCGATCTCGAAGAGATCATCCGGCGCAGCCAGGACCGTTTCAAGAATGTGCTGCCCGGCGGCTTCAACGGCGGCGCGGTTGCCATCGTGGTTCTCGTCGTGCTGGTTTTCCTCGGCATTCAGTCCATCTATACCGTCCAGCCGGACGAGCGCGGCGTGGAACTGCGTTTCGGCCGCCCGAAGGACGAAATCTCGATGCCCGGTCTGCATTTCCATCTGTGGCCGATCGAGACGGTTGAAATCGTCAAGGTTACCGAGCAGCAGCAGAATATCGGTTCGCGCGCCTCATCGTCTTCGTCTAGCGGCGTGATGCTGACCGGCGACCAGAACATCGTCAACGTGCAGTTCTCGGTGCTCTATACGGTTTCCGATCCGAAATCCTATCTCTTCAACGTCGACAGCCCGGCCGAAACCCTGCAGCAGGTTTCCGAAAGCGCCATGCGCGAAGTCGTCGGCCGTCGTCCGGCACAGGATATTTTCCGCGATAACCGTCAGGCGATTGCGGCGGATGTGCGCACCATCATCCAGTCCACCATGGACGGTTATGGCGCCGGCATTTCCATCAATGCCGTTGCGATCGAAGATGCGGCGCCGCCGCGCGAAGTGGCCGATGCCTTCGATGAAGTGCAGCGTGCCGAACAGGACGAAGACCGCTTCGTTCAGGAAGCCAACCAGTACGCCAACCAGAAGCTCGGCGCCGCTCGCGGTCAGGCCGCGCAGATCCTCGAAGAAGCGAATGCGTACAAGTCGCGCGTCGTTAACGAGGCGCAGGGTGAGGCGCAGCGCTTCGTCTCCATCTATGACCAGTATCGCACCGCGCCGGACGTGACCCGCCAGCGCATGTTCCTGGAAACGATGGAGCAGGTCCTGAAGGGTTCCAACAAGATCATCATCGACGAAAAACAGGGCGTGGTGCCCTATCTGCCTCTGAACGAGATCATGCGCAACAATCCGGGCGCAGCACAGCAGGGAGGCAACTGA	MPWSNQNGGGGPWGGGGGGNNQGGGGGPWGQGPNRPRGGGGGNGGPPDLEEIIRRSQDRFKNVLPGGFNGGAVAIVVLVVLVFLGIQSIYTVQPDERGVELRFGRPKDEISMPGLHFHLWPIETVEIVKVTEQQQNIGSRASSSSSSGVMLTGDQNIVNVQFSVLYTVSDPKSYLFNVDSPAETLQQVSESAMREVVGRRPAQDIFRDNRQAIAADVRTIIQSTMDGYGAGISINAVAIEDAAPPREVADAFDEVQRAEQDEDRFVQEANQYANQKLGAARGQAAQILEEANAYKSRVVNEAQGEAQRFVSIYDQYRTAPDVTRQRMFLETMEQVLKGSNKIIIDEKQGVVPYLPLNEIMRNNPGAAQQGGN				NA	NA	NA	NA	NA
BMS010_01354	915	hflC_1	COG0330	Modulator of FtsH protease HflC	ATGAGTAACCGTCTTACGGCCGTTCTCGTCGGTCTCGCCGTCCTGCTTTTCTTCGGCTATTCGTCGATCTTTGTGGTCAACGAACGCCAGCAGGCCATCGTTGTCCGCTTCGGTCAGATTCAGGATGTGAAAACAGCGCCGGGCCTCTATTTCAAGCTGCCCTTCGCCTTCATGGATGCCGACCGGGTGCAATATATCGAGAACCGGGCGCTGCGCTTCGATCACGACAATATCCGTGTTCAGGTTTCCGGCGGCAAGTTCTACGAGGTCGATGCCTTCGTGGTCTATCGCATCACGGATGCGCGCCGCTTCCGGCAGACGGTCTCGGGTGACCAGATGTCGGCGGAATCGCGCCTGCGTACCCGTCTCGACGCCTCGCTGCGCCGGGTCTACGGTCTGCGCGGCTTCGAATCGGCGCTCTCGGACGCTCGTGCATCGATGATGCAGGAAGTGCGCGACGATCTGCGTCCCGATGCGGAATCGCTCGGCATCAGCATCGTCGATGTCCGCATCCGCCGTACCGATCTCACGCAGGAAGTCTCGCAGCAGACCTTCGAGCGCATGAAATCGGAACGTCTGGCCGAGGCCGAACTGATCCGCGCCCGCGGTAACGAAGAGGCGCAGCGCCGCCGCGCCATCGCCGACCGTCAGGTCGTCGAGCTGGAATCCGACGCCCGCCGTCAGTCCGAAGTGCTGCGCGGTGAAGGGGACGCGGAGCGCAACAAGGTCTTCGGCGAGGCTTTCCAGCGCGATCCGAACTTCTTCGAGTTCTATCGCTCCATGTCGGCCTATGCCAATGCGCTGAATGGCAATGGCACGACGCTGGTTCTGTCTCCGGACTCGACCTTCTTCCGTTATTTCAACAATATCGACGGTGCGGCTCCGGCTGCCCCTGCGCCGGCACCGGCGAACTGA	MSNRLTAVLVGLAVLLFFGYSSIFVVNERQQAIVVRFGQIQDVKTAPGLYFKLPFAFMDADRVQYIENRALRFDHDNIRVQVSGGKFYEVDAFVVYRITDARRFRQTVSGDQMSAESRLRTRLDASLRRVYGLRGFESALSDARASMMQEVRDDLRPDAESLGISIVDVRIRRTDLTQEVSQQTFERMKSERLAEAELIRARGNEEAQRRRAIADRQVVELESDARRQSEVLRGEGDAERNKVFGEAFQRDPNFFEFYRSMSAYANALNGNGTTLVLSPDSTFFRYFNNIDGAAPAAPAPAPAN				NA	NA	NA	NA	NA
BMS010_01355	1545	degP_2	COG0265	Periplasmic serine endoprotease DegP	ATGGCCGTGACCCTTCTTTCGCCTTTTCGCAGCAGCATCGCCGCAGTCGCGGGCATCGCGCTTGTGGCAGGTAGCCTGACGGCACCGGTTGCTGCGAGAGCGCAGAGCCATGGGCCGGAATCGGTGGCAGATCTTGCCGAGCCGCTTCTCGATGCGGTGGTGAATATTTCCACGTCGCAGAACGTCAAGACCGAGGGCAAGGGCCCGGTTCCGCCGCGTCTGCCGGAGGGCTCGCCCTTTCAGGAATTCTTCAAGGATTATTTCGACAGCCAGAAGCCCGAGGGTGGCGAAAAGGTGAGTTCGCTGGGCTCGGGTTTCGTCATCGATCCCGCCGGCTACGTTGTCACCAACAACCACGTGATCGAGGGTGCCGACGCTATCGAGGTGATTTTCCCGAACGGCTCGAAGCTCAAGGCGACGCTGGTTGGCACCGATACCAAGACCGACCTTTCGGTGTTGAAGGTGGAGCCGAAAACACCGCTGAAGGCCGTCAAGTTCGGCGATTCGCGCAGCATGCGCATCGGCGACTGGGTGATGGCCATCGGCAACCCCTTCGGGCTTGGCGGCTCGCTGACGGTGGGTGTCATTTCCGCGCGCGGGCGTAACATCAATGCCGGTCCCTATGACAATTTCATCCAGACGGATGCGGCCATCAACAAGGGCAATTCCGGCGGTCCGCTCTTCAACATGAAGGGTGAGGTTATCGGCATCAATACGGCGATCATTTCCCCGAGCGGCGGTTCGATCGGCATCGGTTTCGCCGTGCCGACGGAGCTTGCCCAGAATATCGTCCAGCAGCTCATCGAGTTCGGCGAGACGCGCCGCGGCTGGCTCGGCGTTCGTGTCCAGCCCGTCACCGACGATGTGGCGGCAAGCCTTGGCATGGACAGCGCCAAGGGTGCGCTGATCTCCGGTGTCGCCAAGGGCGGACCGGTGGAGAACGGCCCGATTCAGGCCGGCGATGTCGTGCTGAAATTCGACGGCAAGGATATTCATGAGATGCGCGACCTCTTGCGGATCGTGGCGGAAAGCCCCGTCGGCAAGGAGGTCGATGTGGTGATCCTGCGTGACGGCAAGGAGGAAACCGTCAAGGTCAAGCTTGGGCAATTGCAGGATACGACCGACGAAAATGCCTCGGCCGAAGATCAGCAGAGTGAAGACGGCGATGGCGGTGTGGTTGCACCGGAAGATGATGGCGGCGCCGACGATCAGGCGCAGGACCAGACTCCGGAAGTGCGCGAGGCGCCGCAAAGCGTGCTCGGCATGAATCTCGTGGTGCTGAGCAACGAGTTGCGCACCGAAAAGGGCATTGCCGAAAGCGTCGAAGGCGTGCTGGTGGCGAGCGTCGATCCGGGCTCGCCCGCCGAGCAGAAGGGCATGAAGGCCGGCGATATCATCGTCGAGGTCGGGCAGGACTTCATGGAAGTGCCGGGCGACGTGCTGGTGCGCGTCAACGGCCTGAAATCCGAGGGCCGCAAGAATGCGCATATGATGGTGGCCGATGCGCAGGGTAATCTGCGCGTCGTGGCGCTGCCGCTGGAATAA	MAVTLLSPFRSSIAAVAGIALVAGSLTAPVAARAQSHGPESVADLAEPLLDAVVNISTSQNVKTEGKGPVPPRLPEGSPFQEFFKDYFDSQKPEGGEKVSSLGSGFVIDPAGYVVTNNHVIEGADAIEVIFPNGSKLKATLVGTDTKTDLSVLKVEPKTPLKAVKFGDSRSMRIGDWVMAIGNPFGLGGSLTVGVISARGRNINAGPYDNFIQTDAAINKGNSGGPLFNMKGEVIGINTAIISPSGGSIGIGFAVPTELAQNIVQQLIEFGETRRGWLGVRVQPVTDDVAASLGMDSAKGALISGVAKGGPVENGPIQAGDVVLKFDGKDIHEMRDLLRIVAESPVGKEVDVVILRDGKEETVKVKLGQLQDTTDENASAEDQQSEDGDGGVVAPEDDGGADDQAQDQTPEVREAPQSVLGMNLVVLSNELRTEKGIAESVEGVLVASVDPGSPAEQKGMKAGDIIVEVGQDFMEVPGDVLVRVNGLKSEGRKNAHMMVADAQGNLRVVALPLE	PGPT0015105_1047	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0015105-degP|htrA-K04771	NA	NA
BMS010_01356	750	gdhI	COG1028	Glucose 1-dehydrogenase 1	ATGAAATTACTCGAAAACAAGGTTGCCATCATCACCGGCGCGTCATCCGGCATCGGCCGGGCGACGGCGATGCTGTTTGCCGCCGAAGGTGCGGCCATTGTCATCAATGCGCGCGGCGAAAAGGCCCTGCATGAGGTTGCCGCAGACATTCGTGAGGCCGGCGGTCGTGTCCACACGGTTGCCGGCGATGCCGGTGTTGCCGAAACCCATTCGCGGTTGGCGGATGAGGCCATAAGCGTCTTCGGTGGCCTCGATATCGCCGTCAACAATGCCGGTGCGGTGGGAGCCATGAAACCGCTGGCGGAGATTTCGCCCGCGGAGTGGGATCATGCGCTCAACGTCAATCTCACCTCCGCCTTTCTGGGGGCGCGTTACCAGATTCCGCCGATGTTGATGCGGGGTGGCGGTTCCATCGTTTTCACCTCGAGCTTTGTCGGCACCAGCGCCGGCATACCGGGCATGGCGGCTTATGGCGCGGCCAAGGCGGGGTTGATGGGGCTGGTGAAAGGCATTACCGCCGATTATGCCGTGAAGGGCATTCGCGCCAATGCGCTGCTGCCCGGCGGGGTCGATACACCTGCTGCGGGAGACGACGCCCAGAAGGAATGGGCCGCCGGCCTGCATGCGATGAAACGTATCGCTGAGCCGCCGGAAATTGCGCGGGCAGCGCTTTTCCTCGCGAGCCCCATGGCGAGCTTTGTCGCCGGCGCCGCTCTGTTCGCCGATGGCGGCAATGCCGCGGTGAAATGA	MKLLENKVAIITGASSGIGRATAMLFAAEGAAIVINARGEKALHEVAADIREAGGRVHTVAGDAGVAETHSRLADEAISVFGGLDIAVNNAGAVGAMKPLAEISPAEWDHALNVNLTSAFLGARYQIPPMLMRGGGSIVFTSSFVGTSAGIPGMAAYGAAKAGLMGLVKGITADYAVKGIRANALLPGGVDTPAAGDDAQKEWAAGLHAMKRIAEPPEIARAALFLASPMASFVAGAALFADGGNAAVK				NA	NA	NA	NA	NA
BMS010_01357	564		COG1670	Acetyltransferase	ATGATCATCCGAGAGACGCCACGACTCATTCTGCGCGAGTGGAAGGAGAGCGACCGTGACCTGTTCCGCGAAATCAACGCCGACGAAAAGGTCATGGAGTTTTTCCCCTTCCGCCGCAGCCATGCGGAAGCGGACGCCGTGCTGGAAACCATCAACGGCATGATCCGCGGCAGCGGCTATGGCTTTTATGCCATGGAGCTGCGTGAAACCTGCGAAGTCATGGGCTTCTGCGGTATCTCCCCGGTCATGAACCTCGACCCCCCCTTCCCGGTCGGCACCATGGAGATCGGCTGGCGGCTCGCCACCCGCTTCTGGGGCCACGGCTATGTCACGGAAGCGGCGCAGTCGCTGCTCGTCATGGCCTTCGATGAAAAGGAAACGCCGGAAATCGTCTCCTTCGCCGTCCACGACAACCACCGTTCGACGGCGGTGATGGAGCGCATCGGCCTGAAGCGCGATCCTTCGCGCGACTTCGACCATCCGCGCGTGCCGGAAGACACACATCCGCATCTGCGGCCGCACGTCACCTATGCGCTGACGCTGGAGGAATGGCGGGCGCGATAA	MIIRETPRLILREWKESDRDLFREINADEKVMEFFPFRRSHAEADAVLETINGMIRGSGYGFYAMELRETCEVMGFCGISPVMNLDPPFPVGTMEIGWRLATRFWGHGYVTEAAQSLLVMAFDEKETPEIVSFAVHDNHRSTAVMERIGLKRDPSRDFDHPRVPEDTHPHLRPHVTYALTLEEWRAR	PGPT0012895_7	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-PHENAZINE_DERIVATES	BIOTIC_STRESS_RESISTANCE-PHENAZINE-1-CARBOXYLIC_ACID_BIOSYNTHESIS,PGPT0012895-aroDE-K13832	NA	NA
BMS010_01358	891			hypothetical protein	ATGGCTCTCGTTGCCACGCTTATCGCCAATCCGTCAAATCCTGTTCTGACACTGGCCCTCGGCGAGGCGGCCGCAAAGGCCGTCAACGCATCGGGCCTTTATTGGCTGGCCGATGGCATCGCCTGCGATATCGCCCTGCCTTCCGGCACCGCAGCCGAGCAGGCTCGCAGTGCCATTGCAGCCGAGCTTGTCGGAAAACCGATCGATATCGTCATCCAGGAACAGGATCAGCGCCGGAAGAAACTGCTGATCGCCGATATGGATTCGACCATGATCGGCCAGGAATGCATTGACGAGCTGGCCGCCGAAGTCGGGCTGAAGGAAAAAGTTTCCGCTATTACCGCCCGCGCCATGAATGGCGAGATCGCCTTCGAACCTGCATTGCGGGAACGTGTGGCGCTGCTGAAGGGCCTGCCTGTCTCGGTTATCGACGATGTCATCGAAAAGCGCATCACGCTTACCCCCGGCGGCAGGGAGTTGATCGCCACCATGAAGGCCAAGGGCTATTATACCGCCCTCGTTTCCGGCGGCTTCACCGTCTTCACCGGCCGTGTCGCCGCCATGCTGGGTTTCGATGAGGACCGCGCCAATCTGCTCGGCGAAGCCAATGGCGAACTTGACGGCACCGTTGCCGAACCCATCCTTGGCAAGCAGGCCAAGGTGGATGCGCTGAACGATATTGCCGCAAAGCTCGGCATCTCGCCGGAAGAGGCGATGGCGGTCGGCGATGGCGCCAACGATCTCGGCATGCTGCATCTCGCCGGCGCCGGCGTTGCCCTGCACGCCAAGCCGGCAGTGGCCGCCGAGGCGCAGATGCGCATCGACCATGGCGACCTGACCGCGCTTCTTTACATCCAGGGCTATCGCAAGACGGATTTTGTCACTCCATGA	MALVATLIANPSNPVLTLALGEAAAKAVNASGLYWLADGIACDIALPSGTAAEQARSAIAAELVGKPIDIVIQEQDQRRKKLLIADMDSTMIGQECIDELAAEVGLKEKVSAITARAMNGEIAFEPALRERVALLKGLPVSVIDDVIEKRITLTPGGRELIATMKAKGYYTALVSGGFTVFTGRVAAMLGFDEDRANLLGEANGELDGTVAEPILGKQAKVDALNDIAAKLGISPEEAMAVGDGANDLGMLHLAGAGVALHAKPAVAAEAQMRIDHGDLTALLYIQGYRKTDFVTP				NA	NA	NA	NA	NA
BMS010_01359	894	miaA_1	COG0324	tRNA dimethylallyltransferase	ATGAAAAACCTTGATGAGAATTTTGATGCGATCCTGATAACCGGCCCGACGGCAAGCGGCAAGTCCGCGCTTGCGCTTCGTCTGGCGCGGGAGCGGGACGGCGTCGTCATCAATGCAGACAGCATGCAGGTTTACGACACGCTGCGGGTGCTGACCGCGCGGCCGTCAGAAGACGAAATGGCGGGCGTGCCGCATCTTCTCTACGGCCATGTGCCGGCGAGCAGCCTTTACTCAACGGGCGAATGGCTGCGGGACATTTCCGCCCTGCTTGCGGATTTGCGCGGGCAGGGGCGTTTGCCCGTCATCGTCGGCGGTACGGGGCTTTATTTCAAGGCGCTGACGGGTGGGCTTTCCGATATGCCCGCCATTCCGGATGACATCCGCGATGGGCTGCGCGCCCGGCTGATCGGGGAGGGGGCGGCTGCGCTCCATGCCGAACTCGCACGGCACGATCCGGCCATGGCGGATATGCTGCAGCCGGGAGACGGCCAGCGTATCGTCCGGGCGCTGGAGGTGCTCAACGCGACCGGAAAGTCGATCCGGGATTTTCAGCGCGCCAGCGGCCCGATGATCGTCGATCCCGACCGGGCGCAAAAATTCGTCGTCCTGCCGGAAAGGCCGGTGCTGCATGACCGCATCAACCGGCGTTTCGAGATGATGATGGATAGCGGGGCGGTGGAGGAGGTGCAGGCGCTTCTCGCGCTCAACCTCGCATCCGATGCCACCGCAATGAAGGCGATCGGCGTTGCCCAGATCGCCGATATGCTGGCCGGGCGCATCGGCGAGGCGGAGGTCATCGAAAAATCGGCGGCCGCGACCCGTCAATATGCCAAACGGCAGATGACCTGGTTCCGCAACCAGATGGGGGACGACTGGACACGTATCCAGCCGTGA	MKNLDENFDAILITGPTASGKSALALRLARERDGVVINADSMQVYDTLRVLTARPSEDEMAGVPHLLYGHVPASSLYSTGEWLRDISALLADLRGQGRLPVIVGGTGLYFKALTGGLSDMPAIPDDIRDGLRARLIGEGAAALHAELARHDPAMADMLQPGDGQRIVRALEVLNATGKSIRDFQRASGPMIVDPDRAQKFVVLPERPVLHDRINRRFEMMMDSGAVEEVQALLALNLASDATAMKAIGVAQIADMLAGRIGEAEVIEKSAAATRQYAKRQMTWFRNQMGDDWTRIQP	PGPT0007210_5087	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0007210-miaA|ipt-K00791	NA	NA
BMS010_01360	2010			hypothetical protein	GTGAGTAACGACACGTTTCATAGTGCGTCCCGCATGGACGAAAACGAACGGCGATCCGGCCAGCAGCCGGCGAACCGCATGCTGGGCCGCGTCATCGCCTGTAACGGTGCGCATGCCACCATCGCCGCCGAAACGGAACCCGGCACCACCGATGTCTCGCAGCTCTGGTCCGTCGGACGCCTGATCTCCATCGAGATGGGTACGAGCCGTGTCGCAGCGCTGGTTTTTTCCATGCGAACCGGCGAGGACTACTGGGCGGCGGACAGGCCGAACAGGCTGCTGGTCGAGGTTGAACTGATTGGCGAAGTCTATCGCACCGAGGATGGCAGCGAGCGCTTTTCCACCGGCATCTCCCGTTACCCCTATCTGGGTGCGGTGGCGCATCGCATCCGCACCAGCGATCTTGCCAAGATTTACGACAGCGGCAAGCGCGACGCCTGCACGATCGGCAGGCTGACGCAGGACGATACGATCAACGCCACCATCAGCATTCCCCAGATGCTCTCCAAACATTTCGCCGTCGTCGGCTCGACGGGCGTGGGCAAGACCACCGCCGTCTCGCTGCTTCTGAACAAGGCGATCGAGACCGACCCGAAGCTCCGTGTCCTCATTCTCGATCCGCATAATGAATTCGCGGCCGCCTTTCCCGACCATTCGGTCGTCATCGACACCGATACGCTGGATCTTCCCTTCTGGCTGATGCGTCTTGAGGAATTTGCAGAAGTGATTTTCCGCGGCCGCAAACCCGTGCCGGAAGAAATGGATGTCCTTCGCGACCTCGTTCCGGAAGCGAAAAAGGCATTTCGCGGCACCGATGGTTCCGCCGTGCGCCGCACGTCCGACAAGAGCGCGATCACGCCGGATACGCCGGTGCCCTACCGCATGGCCGATCTCCTCGCCCTCATCGACGAGCGTATCGGCCGGCTGGAAGGGCGTGGCGAAAAACCAGCGCTGCGTTCGCTGAAAGGCCGCATTCTCTCGGCCATCAACGACACGCGCTACAATTTCATGTTCTCCAGCAATACGATCAGCGACACCATTCTGGAGACGGTCGCGCATATTTTCCGCATTCCGGGGGAAGGCAAACCGATTTCGGTGTTCCAGCTTTCCGGCATCCCCTCCGAAGTGGTGAATTCGGTGGTCTCCGTCCTCTGCCGCATGTCCTTCGAACTGGCGGTGCTGGCACGCGGCTCGCTGCATATGCTTGTCGTCTGCGAGGAAGCGCACCGTTATGTGCCTGCCGACCCCGAGCGCGGCTTTTTCCCCACCCGGCAATCCATTGCCCAGATCGCCAAGGAAGGCCGCAAATACGGCATTTCGCTCGGCGTCATCAGCCAGCGGCCAAGCGAGCTGGACCAGACCATCCTGTCGCAATGCTCGACCGTTTTCGCCATGCGGCTGTCGAACGAGATCGACCAGAAGATCATTCTCTCCGCCGTACCGAACGCATCGACCTCGACCACCAGCTTTCTGTCTTCCATCGGCAATGGCGAGGCCATCGCCTTCGGCGAGGCCGTCAATGTACCGATGCGCATGCGTTTCGACCGCGTGGCCACGGCCAAATTGCCGAAAGCGAGCGGCACTATCAGCCACACGAACCATGAAACCCCAGACACGGTCGATCTGAACAACATCGTCACCCGCATGCGCGCCACGGCCAAGCCTGTTATCACCGGCTTCCAGCAAAGCGTCGAGGCAGCCTTTTCCGATCTGCCGGAGCCGGCAGCCGCACCACGGGAGACGGACGACATCGACCGCTGGAAGCGGGAACTGGGAACGGCCGCACCGGAGGGATACGAGCCCTACCGCCCGGACATGCTGCCTGGCCGCACGCTCTCCGCATCGCCAAATCCGGCGACACCCGATGCCGCCTCCGGCGCCGTCAACGAATTGCGCAAGGCGAGTTTCCAGATGCAGGCGCAGAATGGCCCGCCGCCCGGCGATGCACGTCCCTCGCTCCGCGAAAGCCTGCTGAAGAAGCCGCTCGGCAGTCTCTACCGAAAAGACTGA	MSNDTFHSASRMDENERRSGQQPANRMLGRVIACNGAHATIAAETEPGTTDVSQLWSVGRLISIEMGTSRVAALVFSMRTGEDYWAADRPNRLLVEVELIGEVYRTEDGSERFSTGISRYPYLGAVAHRIRTSDLAKIYDSGKRDACTIGRLTQDDTINATISIPQMLSKHFAVVGSTGVGKTTAVSLLLNKAIETDPKLRVLILDPHNEFAAAFPDHSVVIDTDTLDLPFWLMRLEEFAEVIFRGRKPVPEEMDVLRDLVPEAKKAFRGTDGSAVRRTSDKSAITPDTPVPYRMADLLALIDERIGRLEGRGEKPALRSLKGRILSAINDTRYNFMFSSNTISDTILETVAHIFRIPGEGKPISVFQLSGIPSEVVNSVVSVLCRMSFELAVLARGSLHMLVVCEEAHRYVPADPERGFFPTRQSIAQIAKEGRKYGISLGVISQRPSELDQTILSQCSTVFAMRLSNEIDQKIILSAVPNASTSTTSFLSSIGNGEAIAFGEAVNVPMRMRFDRVATAKLPKASGTISHTNHETPDTVDLNNIVTRMRATAKPVITGFQQSVEAAFSDLPEPAAAPRETDDIDRWKRELGTAAPEGYEPYRPDMLPGRTLSASPNPATPDAASGAVNELRKASFQMQAQNGPPPGDARPSLRESLLKKPLGSLYRKD				NA	NA	NA	NA	NA
BMS010_01362	1794	ilvI_1	COG0028	Acetolactate synthase isozyme 3 large subunit	ATGACGGATAAGGACAATACGGAAAACAGCAATCGCATGACAGGTGCGGAGATCGTTCTGCAGGCGCTGAAGGACAATGGCGTCGAGCACATCTTCGGTTATCCGGGCGGTGCCGTTCTTCCGATCTACGACGAGATTTTCCAGCAGGAAGACATCCAGCATATCCTCGTGCGCCACGAGCAGGGCGCTGGCCATGCGGCCGAAGGTTATGCACGCTCCACCGGCAAAGTTGGCGTCATGCTCGTCACCTCCGGCCCCGGCGCCACCAATGCGGTCACGCCGCTGCAGGATGCGCTGATGGATTCCATTCCGCTCGTCTGCCTGTCCGGCCAGGTTCCCACCACGCTCATCGGTTCCGACGCGTTCCAGGAATGCGATACCGTCGGCATCACGCGCCCCTGCACCAAGCACAACTGGCTGGTCAAGGACGTCAACGAGCTGGCGGGCATCATCCATGAAGCCTTCCGCATCGCGCAGACGGGTCGTCCCGGTCCTGTCGTCGTCGATATTCCGAAGGACATCCAGTTCGCCACCGGCACCTATACGCCGCCCTCCGCCGCCACCCAGCACGAGAGCTACAAGCCGAAGGTTCAGGGCGATCTGAACGCCATTCATGCCGCCATCGACCTGATGTCGAAGGCGAAGAAGCCGGTTTTCTATACCGGCGGCGGCGTCATCAATTCCGGTCCGGAGGCAACCCGGCTGCTGCGCGAACTGGTGGAGCTGACCGGCTTCCCGATCACCTCGACGCTGATGGGCCTCGGCGCCTATCCGGCTTCCGGCAAGAACTGGCTCGGCATGCTGGGCATGCACGGTTCCTACGAAGCCAATATGACGATGCATGATTGCGACGTTCTGGTCTGCGTCGGTGCGCGTTTCGACGACCGAATTACCGGCCGCATCAATGCGTTTTCGCCGAATTCGAAGAAGATCCATATCGATATCGATCCGTCCTCGATCAACAAGACGGTTCGCGTCGACGTGCCGATCATCGGGGATGTCAGCCATGTTCTGGAAGATATGGTTCGCCTGTGGCGCGCTCTGCCGAAGAAGGTTGAGAAGGCTCAGACGGCCGACTGGTGGGCGCAGATCGAGCGCTGGCGCGCCCGCAATTCCTTCGCCTATAAGAACTCCAACGATGTCATCATGCCGCAATATGCCTTGCAGCGGCTTTATGAGGCCTCGAAGGGCCGCGACACCTATATCACCACCGAAGTCGGCCAGCATCAGATGTGGGCGGCGCAGTTCTTCGGTTTCGAGGAGCCGAACCACTGGATGACCTCGGGCGGTCTCGGCACCATGGGTTACGGCCTGCCGGCGGCCATCGGCGTTCAGGTCGCGCATCCGGACGCGCTGGTCATCGATATTGCCGGTGACGCCTCGATCCAGATGTGCATTCAGGAAATGTCCTGCGCCATCCAGTACGGTCTGCCGGTGAAGATCTTCATCCTCAACAACCAGTATATGGGCATGGTGCGCCAATGGCAGCAGCTGCTGCACGGCAACCGCCTGTCCAACTCCTATACGGAAGCCATGCCCGATTTTGTCAAGCTGGCGGAAGCCTATGGCGCGGTCGGCATGTATTGCGACGATCCGAAGGAACTGGACGACAAGATTGCAGAAATGATCGCGGTCAAGAAGCCGGTCATCTTCGATTGCCGCGTCGCCAATCTTGCCAATTGCTTCCCGATGATCCCGTCTGGTAAAGCCCATAACGAGATGCTGTTGCCGGATGAGGCGACGGATGAAGCGGTTGCCAACGCCATTGACGCCAAGGGCCGTCAGCTAGTCTGA	MTDKDNTENSNRMTGAEIVLQALKDNGVEHIFGYPGGAVLPIYDEIFQQEDIQHILVRHEQGAGHAAEGYARSTGKVGVMLVTSGPGATNAVTPLQDALMDSIPLVCLSGQVPTTLIGSDAFQECDTVGITRPCTKHNWLVKDVNELAGIIHEAFRIAQTGRPGPVVVDIPKDIQFATGTYTPPSAATQHESYKPKVQGDLNAIHAAIDLMSKAKKPVFYTGGGVINSGPEATRLLRELVELTGFPITSTLMGLGAYPASGKNWLGMLGMHGSYEANMTMHDCDVLVCVGARFDDRITGRINAFSPNSKKIHIDIDPSSINKTVRVDVPIIGDVSHVLEDMVRLWRALPKKVEKAQTADWWAQIERWRARNSFAYKNSNDVIMPQYALQRLYEASKGRDTYITTEVGQHQMWAAQFFGFEEPNHWMTSGGLGTMGYGLPAAIGVQVAHPDALVIDIAGDASIQMCIQEMSCAIQYGLPVKIFILNNQYMGMVRQWQQLLHGNRLSNSYTEAMPDFVKLAEAYGAVGMYCDDPKELDDKIAEMIAVKKPVIFDCRVANLANCFPMIPSGKAHNEMLLPDEATDEAVANAIDAKGRQLV	PGPT0008185_1587	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008185-budB|ilvK|alsS|ilvB|ilvG|ilvI-K01652	NA	NA
BMS010_01363	573	ilvH_1	COG0440	Acetolactate synthase isozyme 3 small subunit	ATGAACGCACACCTACAACCCACCGGCTCGGCCTATTTCATCCAGAAGGAAACGGCCGCCGTTGAAAATCACACGCTGTCGGTTCTCGTCAGCAACGAGCCGGGCGTTCTCGCCCGGGTCATCGGCCTGTTCTCCGGCCGCGGCTACAACATCGAGAGCCTGACGGTTTCGGAAACGGAACATGAGGCGCATCTGTCGCGCATCACCATCGTCACGCGCGGCACGCCCATCGTGCTGGAGCAGATCAAGGCGCAGCTGGAACGCATCGTGCCGGTGCACCGGGTTCTCGATCTCACCGTTCGCGCCCGCGAACTGGGGCAGGAGCGGCCTATCGAGCGCGAAGTGGCGCTCATCAAGGTCGCTGGTTCCGGCGAGGACCGTGCTGAGACGCTGCGCCTTGCCGATGCGTTTCAGGCCAAGGTGGTGGATGCGACGGTGGAGCATTTCATCTTCGAGATCACTGGCAAGTCGTCGAAGATTGACCAGTTCGTGGCGATCATCAAGCCGCTCGGCCTGATCGAGATTTGCCGCACCGGTATCGCGGCGATGAATCGCGGCCCGCAGGGGATGTAA	MNAHLQPTGSAYFIQKETAAVENHTLSVLVSNEPGVLARVIGLFSGRGYNIESLTVSETEHEAHLSRITIVTRGTPIVLEQIKAQLERIVPVHRVLDLTVRARELGQERPIEREVALIKVAGSGEDRAETLRLADAFQAKVVDATVEHFIFEITGKSSKIDQFVAIIKPLGLIEICRTGIAAMNRGPQGM	PGPT0008205_585	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008205-ilvH|ilvN-K01653	NA	NA
BMS010_01364	408			hypothetical protein	ATGGTTGACTTTCTGGACCGTCAGTCTATATTCAACAACATGGTTGAATTATCCGCTTCACATCTCGACACTGTCTTTCATGCCCTCGGCGACGCCACGCGGCGCACGATGCTGCGCGATCTTTCCCTTGGTGAGCGAACGGTGAGCCAGTTGGCCCGGCCGTTCGATATATCGCTCGCCGCCGCCTCGAAACATATCAAGGCGCTGGAAAATGCGGGGCTTATTCGCCGCGAGGTGAGGGGGCGCATTCATGTCTGCCGCCTTGCACCGGAACCGTTGGCAGAGGCGCATGAATGGCTCGATTTCTACCGACAGTTCTGGGGCAGCCGCCTCGATATTCTTGAGCAGATGCTCAGGGAGGATGATCAGGGAAAAATCCCTGCAGATGGAGGAAATGACAATGGCTGA	MVDFLDRQSIFNNMVELSASHLDTVFHALGDATRRTMLRDLSLGERTVSQLARPFDISLAAASKHIKALENAGLIRREVRGRIHVCRLAPEPLAEAHEWLDFYRQFWGSRLDILEQMLREDDQGKIPADGGNDNG				NA	NA	NA	NA	NA
BMS010_01365	531			hypothetical protein	ATGGCTGATATTGCAATGCCTGACGCCTATGGCCGTCTTGTCGAACCGACGACCCTTAAGATCGAACGGCTGCTGCCGGGGCCGATCGAGCGGGTATGGGCCTATCTCACACAAAGCGAGCTTCGCCGTCGCTGGCTGGCTTCCGGCGAAATGCGGCTTGCGCCCGATGCGCCGTTCGAACTCGTCTGGCGCAACGATGAGCTTTCCGATCCGCCGGGCCGGCGCCCGGAGGGCTTTTCCGAAGAAGACCGTATGGCTTCCCGCATCATTACCGTGGTCCCACCGCACCGTCTCGTCTTCAGTTGGGGCGAAGGTGGCGAGGTGTCGATCGAGCTTCAGGCTCTTGGCAAGGATGTGCTGCTGACGCTGGTTCATCGCCGGCTGGCCGACAGGAGGACGAGGCTTGACGTCAGCGCTGGCTGGCATGTGCATCTCGACATTCTCGCCGCCCGTCTTCAGGAGAAGGAGCCGGGGCCGTTCTGGGATACATGGCTGGGACTGAAAGAAGAATATGAGCGGCGCATACCGTAA	MADIAMPDAYGRLVEPTTLKIERLLPGPIERVWAYLTQSELRRRWLASGEMRLAPDAPFELVWRNDELSDPPGRRPEGFSEEDRMASRIITVVPPHRLVFSWGEGGEVSIELQALGKDVLLTLVHRRLADRRTRLDVSAGWHVHLDILAARLQEKEPGPFWDTWLGLKEEYERRIP				NA	NA	NA	NA	NA
BMS010_01366	846	yvgN	COG0656	Glyoxal reductase	ATGTATGACGATATTCCTTCCGTCACCCTGCCCTCCGGAAAAGAGGTTCCGGCCCTTGGCCTCGGTACCTGGAACATGGGGGAGACGAGATCATCCGCGCCGCAGGAGGTCGAAAGCATCCGCAAGGCGATCGATCTCGGCATGACGCTGATCGACACGGCGGAAATGTATGCGGATGGCAGATCGGAAGAGGTGGTCGGCGCGGCCATCGCCGGCCGTCGACAGGACGTGTTTCTGGTCAGCAAGGTCTACCCCTGGAACGCCAGCGAAAGAGGCACGGCGGAGGCCTGCGAGCGCAGCCTTGCAAGGCTCGGCACCGACCATATCGACCTCTATCTGCTGCACTGGCGCGGCGAGCATCCGCTTGCAGAAACCGTGGCGGCTTTCGAAAGGCTGAAGAGCGACGGCAAGATCGGCGACTGGGGCGTCTCCAATTTCGACACCGACGACATGGAGGAGCTTTTCGCGGTTCCCGGCGGCAAGAACTGCGCGGCCAATCAGGTGCTCTACAATCTGTCCCGGCGTGGGCCGGAGTTTTCGCTGCTGCCCTGGTGCCAGGAACGCGGCGTGCCGCTGATGGCCTATTCCCCCATCGAGCAGGGCCGCATCTTGAAGAACCACGAACTCATCCGCATCGCCAAGGCCTATCAGGCGACACCGGCGCAACTGGCGCTCGCCTTTCTTCTGGAGAGGGACGGCGTCATCGCCATCCCGAAATCCGCCAGCGTTTCCCGTGTCGAGGAAAATCGCGGCGCGACCGATCTTGAAATAACCGAGGAAGACTGGGCCGCTTTCGACGCCGTCTTCCCGCCGCCGATGCGCAAGACCTCGCTGGAAATGCTTTGA	MYDDIPSVTLPSGKEVPALGLGTWNMGETRSSAPQEVESIRKAIDLGMTLIDTAEMYADGRSEEVVGAAIAGRRQDVFLVSKVYPWNASERGTAEACERSLARLGTDHIDLYLLHWRGEHPLAETVAAFERLKSDGKIGDWGVSNFDTDDMEELFAVPGGKNCAANQVLYNLSRRGPEFSLLPWCQERGVPLMAYSPIEQGRILKNHELIRIAKAYQATPAQLALAFLLERDGVIAIPKSASVSRVEENRGATDLEITEEDWAAFDAVFPPPMRKTSLEML				NA	NA	NA	NA	NA
BMS010_01367	594	eamB_1	COG1280	Cysteine/O-acetylserine efflux protein	ATGACTGTCGAAACTCTTGTCGCGCTGGTGCTGTTTGCCTTCACCACATCCATCACGCCCGGCCCGAACAATAGGATGCTTTTTGCTTCCGGCGTGAATTTCGGTTTCCGCCGCACCATCCCGCATATGCTGGGCATCGGGGCGGGGTTCCTGTCGCTGCTAATCGGGGTCGGCTTCGGTCTCGGCGCGTTGTTGCATTCGGTGCCCGTGCTTTACACCGGGCTGAAATTCGCAGGCGGGCTCTATCTCGTCTGGATCGCGTGGAAGATCGGCACCTCCCGCAGCCTGAGCGAGGGTTCGGCCGCAGCGGAGCCGATGAGTTTCCTTGCCGCGGCCGCTTTTCAGTGGGTCAATCCCAAGGCGTGGGTGATGGCGGTGACGGCAATGGCGACCTATACGGATGAGCGGCAATATTTCCTCACCGTCCTTCTCGTTGGCGTGGCCTTCGCCGCGGTCAATCTTCCCAGCGTTTCCACCTGGGCGGGTTTCGGCTCGGCATTACGGGAATGGCTGGCGGTGCCGGTCCGGCTCAAATGGTTCAATATCACCATGGCCGTACTTCTCGTCATCAGCCTCTGGCCGATGCTGAAATAA	MTVETLVALVLFAFTTSITPGPNNRMLFASGVNFGFRRTIPHMLGIGAGFLSLLIGVGFGLGALLHSVPVLYTGLKFAGGLYLVWIAWKIGTSRSLSEGSAAAEPMSFLAAAAFQWVNPKAWVMAVTAMATYTDERQYFLTVLLVGVAFAAVNLPSVSTWAGFGSALREWLAVPVRLKWFNITMAVLLVISLWPMLK				NA	NA	NA	NA	NA
BMS010_01368	789			hypothetical protein	ATGACACGGCTAGAGGCCATAACCGAAGACGATCTGCACGCCTATGTCGACGGACTTCTTTCCGACGATGACCGCGCGGCTGTCGAGGCCTGGCTGGCGGAAAGGCCGGAGGAGCAGGCCCGTGTGGAGGAATGGAGAAAACAGGCCGATATTCTGCGCAATGCCTTCGCCTCCTATGCCGCCGCACATCCGCATGACGCATCGATGCTCACCCCGCAAAAGAGGGACCGCGCATGGCGGGCAAAACCGGTTCTCCTGCAAACAGCGGCCGCCCTTTTGTTATTCGTGGCGGGTGCTGCGGCGGGCAGGCTTCTGCCGCCGTCTTTTTCCACGCCGCAGGACGTGACCCTGGCGTCGCTGACCACGGATATTCCGGCGCAGGCGAAATCCGCCTATCTCATCTATGCGAGCGAGGTGCGCCATCCCGTCGAAGTCGGCGCGGGAGAACAGCAGCATCTCGCCACATGGCTCGGCAAGCGGCTCGGTTACCCCTTCACCATCCCCGATCTCTCAAAGATCGGATACGACCTCGTCGGCGGGCGTCTTATCCCCGTCAGCGGCAAACCGGGCGCGATGCTGATGTATCAGGACAAAACCGGCCGTCGGGTGACTGTGCTGATCGGCCACAACGAGGAAAACCGCACCACCAGCTTCCGCATGGCCAGCGCCGACGGCATCGAGACCTTCTACTGGATCGACAATGAACTGGGTTACGCCGTGTCCGCCGAGCTGACGCGCGACGAGGTGCAGGCAATCGCCGAGGAATGCTACCGGCAGTTCCCGACGTGA	MTRLEAITEDDLHAYVDGLLSDDDRAAVEAWLAERPEEQARVEEWRKQADILRNAFASYAAAHPHDASMLTPQKRDRAWRAKPVLLQTAAALLLFVAGAAAGRLLPPSFSTPQDVTLASLTTDIPAQAKSAYLIYASEVRHPVEVGAGEQQHLATWLGKRLGYPFTIPDLSKIGYDLVGGRLIPVSGKPGAMLMYQDKTGRRVTVLIGHNEENRTTSFRMASADGIETFYWIDNELGYAVSAELTRDEVQAIAEECYRQFPT				NA	NA	NA	NA	NA
BMS010_01369	537	sigH	COG1595	ECF RNA polymerase sigma factor SigH	ATGACGGATGAAAAGCGGGGGAACCATTCCCCCGCAGCCGGCAGCTTCGAAACGGAGATGCTGGCGCTGATGCCCATGCTGCGCCGTTATTCCCGCAGCCTTTCCCGTTCAGATGCCGATGGCGAGGACCTCTTGCAGGACTGCGTGGAAAAGGCGCTGGCCAATAAAAGGCAATGGCGCGGAACGGGTTTTAAATCATGGGCATACACGATAATGACGAATCTTTATCGTAACCGCCACCGCGCCGAGAAACGCCACCCGTCCGAGAGCCTGGACGGCCATGAGAGTATCGCCGGCGCGGAGACGCTCTCCGACACGCTGGAGAACGACCGGCTGCACGGCGCACTCGCCCTTCTTTCGCCGGACATGCGCGCCGTGCTGATGCTGGTGACGGTGGAAGGCTACAGCTATCAGGAAGCGGCCGAGACATTGGCGATCCCGCTCGGCACCGTCATGTCCAGACTGTCCCGCGCCCGCGAAACCCTTCGCCAGCATCTGGCGGCGGATAATATCATTCCCCTGCGGAGACCAAGATGA	MTDEKRGNHSPAAGSFETEMLALMPMLRRYSRSLSRSDADGEDLLQDCVEKALANKRQWRGTGFKSWAYTIMTNLYRNRHRAEKRHPSESLDGHESIAGAETLSDTLENDRLHGALALLSPDMRAVLMLVTVEGYSYQEAAETLAIPLGTVMSRLSRARETLRQHLAADNIIPLRRPR	PGPT0014960_10209	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
BMS010_01370	375			hypothetical protein	ATGAAGATCCGCTTTATCGTTCCCGCCCTCGTTCTGGCTTTTGCCGGAACGGCCTATGCCGCCCCCATGGTCGAAACCGTCAAGACCGCCAAGGGCGATGTGCTGGCGGGCGAAAAAGGCATGACGCTCTACACTTTCAAGAACGACAAGAAGGGCGTATCCAATTGTTATGACAAATGCGCGGTGAACTGGCCGCCGTTTTTCGCAGCCGCAAGCGACAAGGCCGAGGGTGCCTATTCCCTCGTGAAGCGCAAGGACGGCAAGATGCAATGGGCGAAGGATGGCATGCCGCTTTATTACTGGGTCAAGGACACGAAAAAAGGCGACGCCACCGGCGACGGTATGAACGGTGTATGGGATGCCGCAAAACCCTGA	MKIRFIVPALVLAFAGTAYAAPMVETVKTAKGDVLAGEKGMTLYTFKNDKKGVSNCYDKCAVNWPPFFAAASDKAEGAYSLVKRKDGKMQWAKDGMPLYYWVKDTKKGDATGDGMNGVWDAAKP				NA	NA	NA	NA	NA
BMS010_01371	360			hypothetical protein	ATGGAAAACTATTCAGACGCGCTCAACGATATCTTCCAGTCTCTTGCCGATCCGACCCGCCGGGCGGTGATCCTGCGGCTGGGCGGCGGGGAGGCGAGCATCGGAACGCTTGCCGAGCCCTTCGACATGGCCCTGCCATCCTTCATGAAACATATCCGCCAGCTGGAAGAGGCGGGGCTGATCGTGACGCGCAAGCAGGGGCGTGTCCGGTTCTGCTCGCTGGAGAAACAAAGGTTCTCCATGCTCGATGGCTGGTTGTCGCAACAACGCGCCATCTGGGAAGGCCGCACCGACAGGCTCGAACAATTCGTCATGGCGCAACAGGACAGGATGTCCAGCAAAGGGGAGAATGACCAATGA	MENYSDALNDIFQSLADPTRRAVILRLGGGEASIGTLAEPFDMALPSFMKHIRQLEEAGLIVTRKQGRVRFCSLEKQRFSMLDGWLSQQRAIWEGRTDRLEQFVMAQQDRMSSKGENDQ				NA	NA	NA	NA	NA
BMS010_01372	483			hypothetical protein	ATGACCGAGACTTTCAATCCCGATCTCGACCTGAAGATTTCCCGCATCATCAGGGCGCCGCGCCGGCTCGTCTGGAATGCCTGGACGGACAAGGCCAGCCTCGAACAATGGTGGGTGCCGCATCCCGGCCAATGCCGGGTCGACCGCATGGAGCTCCATCCCGGCGGCGCCTTCGAAACGCGCTATAGCGAGGACGGCACGGCCTTCGGTCCGCATGTCAAGGGATGTTTTCTGGCGGTGGATCATGAGCAGCGTCTGGTTTTCACCGATGCGCTGACGGCGGGTTTTCGCCCCTCCGCCCAGCCGTTCCTCACCGCCGTGATGACATTTCGCGATCACCCCGACGGCATGGAATATGTGGCCTATGCCATGCACAACAATCTTGAGGATCGCGACAGGCACGCGGAGATGGGCTTCTTCGACGGTTGGAACACGGTTGCGGAGCAGCTGGCGCAGCTTGTCGAGCGGCAGGCGGCCAATTGA	MTETFNPDLDLKISRIIRAPRRLVWNAWTDKASLEQWWVPHPGQCRVDRMELHPGGAFETRYSEDGTAFGPHVKGCFLAVDHEQRLVFTDALTAGFRPSAQPFLTAVMTFRDHPDGMEYVAYAMHNNLEDRDRHAEMGFFDGWNTVAEQLAQLVERQAAN				NA	NA	NA	NA	NA
BMS010_01373	483			hypothetical protein	ATGACGCTTGAGGAACTGCTGCGGCTTGCCCATGTCATCGGCGCGACGGTGCTGTTCGGCACTGGCGCGGGCATTGCCTTTTTCATGGTGATGGCACGGCGGACGGCCAGCCCGGCGCTGATCGCTCATGTCGCAGGCACTGTCGTCATCGCCGACACGGTATTTACCGCCACCGCCGCGATCATCCAGCCGGTCACCGGATATTTTCTTGCGCGCATCATCGGCTGGCCGCTGACCGAAGGCTGGATCGCGCTTTCGCTCGCCCTTTATGTCTTCACCGGTATTTTCTGGCTGCCGGTGGTGTGGATACAGATCAGGCTGCGCGATATCGCCCGCGACTGCGCCGCCACCGGACAGGCCCTGCCCGCGCAATGGTTCCGCCTTTACCGCATCTGGTTCGCCTGCGGTTTTCCCGCCTTTTTCGCGGTTCTCGGCATTATATGGCTCATGCTCAACAAGCCGGATATTCCCCTGTTCGGCTGA	MTLEELLRLAHVIGATVLFGTGAGIAFFMVMARRTASPALIAHVAGTVVIADTVFTATAAIIQPVTGYFLARIIGWPLTEGWIALSLALYVFTGIFWLPVVWIQIRLRDIARDCAATGQALPAQWFRLYRIWFACGFPAFFAVLGIIWLMLNKPDIPLFG				NA	NA	NA	NA	NA
BMS010_01374	1287			hypothetical protein	ATGAAGATATTGATTCTCGGCGCAACAGGTTTCATCGGTTCGGAGGTTCTCAAAAGCCTGCACCTCCGCGGGCATGCCGTGACGGGGCTGGCGCGTTCAGTCACCCGCGCCCGCGACAAATGGCCTTTCGCCAACTGGATCTCAGCCGATCTTTCCAGGATGACGCACGCGACAGACTGGTCATCGCTCGTCCATGACCATGACGCCATTGTCAATTGCGCGGGCGCGCTGCAGGACGGCCTGTCGGATGACCTTGCCGCGACGCAGGAAAAGGCGATGCTGGCGCTTTATGAAGCAGCGGCGCAGGCGGGCGGCAGACGGATAATCCAGATATCGGCCCGCACGGCGGGGGCCGCATCCCGCCTGCCCTTCCTCGCCACCAAACGCCGCGCCGATGAGGCGCTCGCCGCAAGCGGTCTGCCTCACGTCATTCTGCGCCCCGCGCTGGTGGTTGGGCGAAACGCGCACGGCGGCACGGCACTTGTGCGTGCGCTTGCAGGCTTTCCCTTCGTGGTGCCCCTCGTCAATGGACAGATCGCCGTCCGAACGGTCGCGGTGGAGGATGTGGCAACCGTGGTATGCGCGGCGATCGACGGCGAAATCCCGGCGGGCAGCGATCTCGAACTCGCCGCGAAGGAAACGCTGACATTGCAGGACGTGGTCGCCAGACACCGGCAATGGCTGGGCCTGCCCCGTGCTCCGGTCATAAATCTTCCCGCCGCCTTTATGCGCCCCGTCGGCCTTGTTGCGGATGCCACAGGCAAACTCGGCTGGCGGTCGCCGCTGCGTTCGACCGCCATGACGGTCATGTCGGAAGGCATCGTGACGGAGAATGAAGGAGGACCGGTGATGGCCTCACTCAAGACCCTGGAACAGACGCTGGCCGCCCACCCTTCCGGTGTGCAGGACCTGTGGTTTGCCAGATTATATCTGCTGAAACCCCTGATCGTTCTCTGCCTGTCTTTATTCTGGCTGCTGTCCGGCCTCATACCGCTGCTGAATATCACTGGAGCAGCAGCGCATTTCCTGCCCTTTATGCCGCACACGCCGGCTGTCATTCTCGCGCTCGCCACCTGCCTCATCGATATAGGCCTCGGCATCGCCGTCCTGCTGCGGCCGCTCGCCAGAAAGGCGCTCGTCGCCATGCTGCTGGTCAGCGCCGCTTATCTGGCCGGCGGCAGCCTGCTCGAACCGACCCTTTGGCTCGATCCGCTCGGTCCTCTGGTCAAGGTTCTGCCTTCCATCGCCCTGACGCTCGTTGCCCTCGCCACCCTGGATGAACGCTGA	MKILILGATGFIGSEVLKSLHLRGHAVTGLARSVTRARDKWPFANWISADLSRMTHATDWSSLVHDHDAIVNCAGALQDGLSDDLAATQEKAMLALYEAAAQAGGRRIIQISARTAGAASRLPFLATKRRADEALAASGLPHVILRPALVVGRNAHGGTALVRALAGFPFVVPLVNGQIAVRTVAVEDVATVVCAAIDGEIPAGSDLELAAKETLTLQDVVARHRQWLGLPRAPVINLPAAFMRPVGLVADATGKLGWRSPLRSTAMTVMSEGIVTENEGGPVMASLKTLEQTLAAHPSGVQDLWFARLYLLKPLIVLCLSLFWLLSGLIPLLNITGAAAHFLPFMPHTPAVILALATCLIDIGLGIAVLLRPLARKALVAMLLVSAAYLAGGSLLEPTLWLDPLGPLVKVLPSIALTLVALATLDER				NA	NA	NA	NA	NA
BMS010_01375	1128	recD2	COG0507	ATP-dependent RecD-like DNA helicase	ATGTTATTTTCACCGCAACAGGACGAAGCGCTGAAGGCTGTTTCCCGCTGGCTGAAGGAAGGCCGGACGCCGGTTTTCCGGCTGTTCGGTTATGCCGGAACGGGCAAGACGACGCTTGCCAAGCATTTCGCGGAAAATGTCGATGGGGAGGTGCTGTTTGCGGCCTTCACCGGCAAGGCGGCGCAGGTGCTGCGTTCGCGCGGGGCGACCAATGCCCGTACCATCCATTCGCTGATCTATCGCCCGCGCGGCGAAGAAACGGTGGAAGACGAGGAAACCGGCAAGACGTCGATTGCGCCGATGTTCTCCATCAACCGCCAGAGCCCGCTCGCCAAGGCGGCGCTCATCATCATCGATGAATGTTCGATGGTGGATGAGCAGCTCGGCAAGGACCTGATGAGCTTCGGCACGCCGATCCTCGTGCTTGGCGATCCCGGCCAGTTGCCGCCGGTTTCGGGCGGCGGCTTCTTTACCGAGCAGGAGCCGGATTATCTGCTGTCGGAAATCCATCGCCAGGCCAAGGACAATCCCATCATCCATCTTGCCATGGATGTGCGGGAGGGCCGGGAGATCATGCGCGGCGATTACGGGACCGCGCAGGTGATTTCCAAATCCGAGGTGACGCAGTCGCTGGTTCTCGATGCCGATCAGGTGCTGGTCGGTACCAACCGCACCCGCCGCCGTTACAATCAGCGGCTTCGCGAGCTGAAGGGTTTTACCGCCGATTACCCGCAATCCGGCGACAAGCTGGTCTGCCTCCGGAACGACCCGGCCAAGGGGCTGCTCAACGGCTCGCTCTGGCAGGTGATGAGTTCATCGCGCGAGACGGTGAAGCCCGGCATCAACCTGATGATCCGGCCCGAGGACGACGATATGGATCGTGGTGCTGCGAAAATCAAATTGTTGAAGGCGGCTTTCGAGGATGTGGAGACGGAAATTCCGTGGTCCACGCGTAAGCGTTATGACGAGTTCGATTTCGGCTATGCGCTGACCGTGCACAAGGCGCAGGGTTCGCAGTGGAACAATGTGGTTCTCTTCGACGAGAGCTATGCTTTCCGGGACTCGCGCGAGAGGTGGCTTTACACCGCCATTACCCGTGCGGCGGAGACACTGACAATCGTTCGTTGA	MLFSPQQDEALKAVSRWLKEGRTPVFRLFGYAGTGKTTLAKHFAENVDGEVLFAAFTGKAAQVLRSRGATNARTIHSLIYRPRGEETVEDEETGKTSIAPMFSINRQSPLAKAALIIIDECSMVDEQLGKDLMSFGTPILVLGDPGQLPPVSGGGFFTEQEPDYLLSEIHRQAKDNPIIHLAMDVREGREIMRGDYGTAQVISKSEVTQSLVLDADQVLVGTNRTRRRYNQRLRELKGFTADYPQSGDKLVCLRNDPAKGLLNGSLWQVMSSSRETVKPGINLMIRPEDDDMDRGAAKIKLLKAAFEDVETEIPWSTRKRYDEFDFGYALTVHKAQGSQWNNVVLFDESYAFRDSRERWLYTAITRAAETLTIVR				NA	NA	NA	NA	NA
BMS010_01376	684			hypothetical protein	ATGCCGTTCGAAAGTCACGGCGACGAGGACAAACCCAATCTAAGGATCAGCAGCTTTCTACCCGATATAAGCCTGCCCTCCTCCCTGCCCGCGGAACCCGTGCCCATCGCCGACATGGCCAATATCTTCGGGGTGACCCACCGGACGCTGCATTTTTACGAAGAAAAGGCGCTGCTGACCTCGAAGCGCATCGGCCAGATGCGGGTCTATACCCACCGCAACGTCCAGCGCATGGCCGTCATCAACGTCTGCCGCGAAGTGGGCATTTCCGTCGCCGCCATTACCGAGATCATGGAAAAATTCGTCCGTTCGCTCTCGCAGAGCGAGGCGGACGATATATTCCACGCCGCGCTGCGGCAGCGGAAGCGGGAATTGACAGCCGAGCTTTCCACCCTTCAGCGCCAGGCCCAGCAGATCGAGGAACTGCTGGTCGCCGACACGGATGCGGACGGCACGGATGGCGCGGAACGGGCACCGGCAAAGGACATCGCCCTCACCGACACGGAACGAAAATGTCTGGAACTGATGGCGGAGGGTTACGCCCCGGTGAGGCTCGCCCGCGCCCTTGGTCTTTCCGGCAGCGATCTCAATGTTCTCGAGGCGAAGATCATCGGCAAGTTCAATGCCAGCAACCGCTTTCAGGCGGTCGCCAAGGCGGTTCTGCTCGGCGTCATCCGTGCATAG	MPFESHGDEDKPNLRISSFLPDISLPSSLPAEPVPIADMANIFGVTHRTLHFYEEKALLTSKRIGQMRVYTHRNVQRMAVINVCREVGISVAAITEIMEKFVRSLSQSEADDIFHAALRQRKRELTAELSTLQRQAQQIEELLVADTDADGTDGAERAPAKDIALTDTERKCLELMAEGYAPVRLARALGLSGSDLNVLEAKIIGKFNASNRFQAVAKAVLLGVIRA				NA	NA	NA	NA	NA
BMS010_01377	756	pdxJ_1	COG0854	Pyridoxine 5'-phosphate synthase	ATGCCCGCAAAACTTTCTGTCAATCTGAACGCAATTGCCATGTTACGCAACCGCCGCGATCTTCCATGGCCGGATGTCGCGCATTTCGGGCATATTGCACTGGCGGCGGGGGCAAGCGGGCTGACTGTACACCCGCGGCCGGATCAGCGCCATATCCGCTTTTCGGACCTGCCCGTCCTGCGCGCGCTGATCGACGACAGTTTTCCCGGCGCGGAATTCAACATCGAAGGTTATCCGACCGAGGATTTCCTCGTTCTTTGCGAAAAGACCCAACCGGAGCAGGTGACGCTGGTACCTGACGATCCGTCGCAGGCGACCTCCGACCATGGCTGGGATTTCCGCAAGCACGGCGTTTTCCTGAAAGACGTGGTGGGACGCCTGAAGGCCGGCGGCATGCGAGTCTCGCTTTTTGCCGATGGCGATGGGGAGCGCGAGCCGGTGGAACTGGCCGCTGAAACGGGGGCGGCGCGTATCGAACTTTACACCGGCCCCTATGGCGGCTGTTTTGACGATCCGCAAAAGGGTGAGGCGCTTCTCGAAAAGCTCGGGCAGACGGCGGATCATGCCAGAGCGCTTGGACTTGCCGTCAATGCCGGCCATGACCTCACCGTCGCAAACCTGCCCAAGCTAATGAAACGTATCCCTTATCTGGCCGAGGTTTCCATCGGCCATGGGCTGACGGCGGATGCGCTGGAATATGGCATGGCTGAAACAGTCCGGCGTTTTTGTCACGCCTGCGGTCAGGCTATTTCATAA	MPAKLSVNLNAIAMLRNRRDLPWPDVAHFGHIALAAGASGLTVHPRPDQRHIRFSDLPVLRALIDDSFPGAEFNIEGYPTEDFLVLCEKTQPEQVTLVPDDPSQATSDHGWDFRKHGVFLKDVVGRLKAGGMRVSLFADGDGEREPVELAAETGAARIELYTGPYGGCFDDPQKGEALLEKLGQTADHARALGLAVNAGHDLTVANLPKLMKRIPYLAEVSIGHGLTADALEYGMAETVRRFCHACGQAIS	PGPT0009170_700	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009170-pdxJ-K03474	NA	NA
BMS010_01378	1266		COG1252	NADH dehydrogenase-like protein	ATGCAAGAACATCATGTTGTCGTCGTGGGTGGAGGCTTCGGCGGTTTGCAACTGGTACATGGGCTGGAGGGGGCCCCTGTCCGCATCACATTGATCGATCGTCGCAATCACCACCTGTTCCAGCCATTGCTTTATCAGGTTGCGACGACGGCTCTCGCGACATCCGAAATCGCCTGGCCGATCCGCCATCTCTACCGCGACCGCAAGGAGGTCACGACCCTGCTTGCGGAGGTGAATGGCATAGACCGGGCGGCGCGGACCGTGCATCTAAGTTCGGGTCAGGTCATCGGCTTCGATACGCTGGTGCTGGCCACTGGCGCCCGCCACGCCTATTTCGGCCGCGACGAGTGGGAACGTTCCGCCCCCGGTCTCAAGACGCTCGAAGATGCAACGACAATTCGCCGCCGCCTGCTTCTGGCTTTCGAGCGCGCCGAACTCGCCACCAGTGAAGAAGAACGGCGGGCGCTGCTGACCTTCGTCATCATCGGCGCAGGCCCGACGGGCGTGGAAATGGCAGGCATGATTGCCGAGTTGGCGCACAAGGCGCTGCCGGCAGAATTCCGCAATGTGGATACCAGAAAAACCCGGGTGCTGCTCGTCGAGGCCGGCCCTCGCGTTCTGCCAGTCTTCACGGAGGATCTTTCGGCCTATGCGAAGGAAGCCCTCGAAAAACTTGGCGTCGAGGTTCTGCTCGGCACGCCGGTTACGGCGTGCAGCGATGAGGGCGTGACGGTGGGCGAGACCTATTACCCCTGCCGCACTGTGGTCTGGGCTGCCGGCGTGCAGGCGTCGCCCGCCGCGAAATGGCTCAACGCCGCCGCCGACCGGGCAGGACGGGCCATCGTCGGACCTCATCTCAATCTGGAAGACGACCCGAATATCTTCGTCATCGGCGATACGGCCGCCGTCAATCAGGAAAACAGCAAGCCGGTGCCGGGTATTGCGCCCGCGGCAAAGCAGCAGGGCGCCTATGTCGCGAAGGTCATCAAGGCGCGGCTGGCCGGCCAGCCGTCACCATCGCCGTTCCGCTACAGCCATCAAGGCAATCTGGCGACCATCGGCAAACGCGCGGCGGTGATCGATTTCGGCAGGTTCAAGCTCAAGGGCGTGCTGGCGTGGTGGATATGGGGGCTTGCCCATATCTACTTCCTGATCGGAACGCGTTCGCGGCTGGCCGTGGCGTGGAGCTGGCTGTGGATTTACCTGAGCGGCCAGCACAGCGCGCGGCTGATTACCCAGAAAGAGACGCTGAAGGACGAGGCGTGA	MQEHHVVVVGGGFGGLQLVHGLEGAPVRITLIDRRNHHLFQPLLYQVATTALATSEIAWPIRHLYRDRKEVTTLLAEVNGIDRAARTVHLSSGQVIGFDTLVLATGARHAYFGRDEWERSAPGLKTLEDATTIRRRLLLAFERAELATSEEERRALLTFVIIGAGPTGVEMAGMIAELAHKALPAEFRNVDTRKTRVLLVEAGPRVLPVFTEDLSAYAKEALEKLGVEVLLGTPVTACSDEGVTVGETYYPCRTVVWAAGVQASPAAKWLNAAADRAGRAIVGPHLNLEDDPNIFVIGDTAAVNQENSKPVPGIAPAAKQQGAYVAKVIKARLAGQPSPSPFRYSHQGNLATIGKRAAVIDFGRFKLKGVLAWWIWGLAHIYFLIGTRSRLAVAWSWLWIYLSGQHSARLITQKETLKDEA	PGPT0004020_3882	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0004020-ndh-K03885	NA	NA
BMS010_01379	1047	adhC2_1	COG1064	NADP-dependent alcohol dehydrogenase C 2	ATGGCTATTGCTAGAGGTTACGCTGCGACAGATGCGTCGAAGCCGCTTACCCCGTTCACCTTCGAACGCCGCGAGCCGAACGATGACGACGTCGTCATCGATATCAAATATGCCGGCATCTGCCATTCCGACATTCATACCGTCCGCAACGAATGGAAGAACGCCGTCTACCCGATCGTTCCGGGCCATGAGATCGCCGGCGTCGTGAAAGCCGTCGGTTCCAAGGTCACGAAGTTCAAGGTCGGAGACCATGTCGGCGTCGGCTGCTTTGTCGATTCCTGCGTCGGCTGCGCCACCCGCGATCTCGACAATGAACAGTACATGCCGGGTCTCGTGCAGACCTACAACTCCGTCGAACGCGACGGCAAGACCGCCACGCAGGGCGGATATTCCGACCATATCGTCGTGCGGGAAGATTACGTCCTCTCCATTCCGGAAAACCTGCCGCTCGACGCCTCCGCTCCCCTGCTCTGCGCTGGTATCACGCTTTATTCGCCGCTTCAGCACTGGAATGCCGGCCCGGGCAAGAAGGTGGCTATCGTCGGCATGGGCGGTCTTGGCCATATGGGCGTGAAGATCGGTTCAGCCATGGGCGCGGATATCACCGTGCTTTCGCAGACACTCTCCAAGAAGGAAGACGGCCTTAAGCTTGGCGCGAAGGAATATTATGCCACCAGCGATGCCTCGACCTTCGAAAAGCTCGCCGGCACCTTCGACCTGATCCTCTGCACCGTTTCGGCGGAAATCGACTGGAATGCCTATCTCGGCCTGCTGAAGGTCAACGGCACCATGGTGCTTCTCGGTGTGCCTGAACATGCGATCCCCGTGCACGCCTTCTCGGTCATCCCCGGCCGCCGTTCTCTGGCTGGCTCTATGATCGGCTCTATCAAGGAAACCCAGGAGATGCTGGATTTCTGCGGCAAGCACGACATCGTGTCCGAAATCGAAAAGATCGACATCAAGGACGTCAACGAGGCTTATGAGCGCGTGCTGAAGAGCGACGTACGTTACCGCTTCGTCATCGACATGGCGTCGCTCGACGCTTGA	MAIARGYAATDASKPLTPFTFERREPNDDDVVIDIKYAGICHSDIHTVRNEWKNAVYPIVPGHEIAGVVKAVGSKVTKFKVGDHVGVGCFVDSCVGCATRDLDNEQYMPGLVQTYNSVERDGKTATQGGYSDHIVVREDYVLSIPENLPLDASAPLLCAGITLYSPLQHWNAGPGKKVAIVGMGGLGHMGVKIGSAMGADITVLSQTLSKKEDGLKLGAKEYYATSDASTFEKLAGTFDLILCTVSAEIDWNAYLGLLKVNGTMVLLGVPEHAIPVHAFSVIPGRRSLAGSMIGSIKETQEMLDFCGKHDIVSEIEKIDIKDVNEAYERVLKSDVRYRFVIDMASLDA	PGPT0024430_1503	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0024430-yahK-K13979	NA	NA
BMS010_01380	909	rhaS_4		HTH-type transcriptional activator RhaS	ATGTCCTTGCCGTTCAATGTCTATCAGGAGATCGCCTCCATTGCCGCGCGGCATGCTACCCAGGACGGCGAGGTGCAGACGGCAATCGACTCCCTCGGCATCAGCCGGCGCACGACACCGAGCGCCCCATGCCACGGCAGCTATCGCCCCTGTCTCGCGATGGTTATCCAGGGCGCGAAATGCGTGCAACTGGGGACGGACACCATCAATTATGGGGCGGGGGATTATCTCCTGACGTCACTTGATCTGCCGGTTGCATGGCGGGTGGTGGAGGCGAGCAGGGAGGTGCCGCATTTCTGCATTTCGCTTGCTATCGACAGCGAAAAGCTGCTCGATCTCATGCGGCGTGTACCTATCGATCCGCCTGCGGAGCCGGCGAATGCGCAGCGCGGCATCGTCGTCAATACCGCCACGCCGGAACTTCTCGATGCGGCTATCCGCCTGTTGCGCCTGCTCGACCGTCCGGCAGACATTGCCGCTATGGCGCCGCTGATCGAGCAGGAAATCCTCTATCGCATTCTGACCGGACCGGCGGGCGGGCAGCTTATGAACATCATCGCGGCTGGCAGCCATGGCAACCGCATCGCCCGCGCCATCGCCTGGCTGCGCGAAAATTTCGCACGCCAGCTGCGTATCGAGGATCTGGCCGATCATATCGGCATGAGCGTCTCGTCCTTCCACCATCATTTCAAGACGATCACGGCCATGACGCCGGTTCAGTACCAGAAACAACTGCGGCTGCACGAGGCGCGGCGGCTGATGCTGCTGGAGCGGCTGGATGCAGGCACCGCCGGCCACCGCGTCGGTTATCAGAGCCCGTCGCAGTTCAGCCGAGAATATAGCCGTTTCTACGGGTTATCGCCGTCGCGGGATATCGATGCATCGCGGGAGATCAGCGCGGCTGGGTAG	MSLPFNVYQEIASIAARHATQDGEVQTAIDSLGISRRTTPSAPCHGSYRPCLAMVIQGAKCVQLGTDTINYGAGDYLLTSLDLPVAWRVVEASREVPHFCISLAIDSEKLLDLMRRVPIDPPAEPANAQRGIVVNTATPELLDAAIRLLRLLDRPADIAAMAPLIEQEILYRILTGPAGGQLMNIIAAGSHGNRIARAIAWLRENFARQLRIEDLADHIGMSVSSFHHHFKTITAMTPVQYQKQLRLHEARRLMLLERLDAGTAGHRVGYQSPSQFSREYSRFYGLSPSRDIDASREISAAG				NA	NA	NA	NA	NA
BMS010_01381	654			hypothetical protein	TTGGCTTCCGACCCGATCACAGCGCAGGAGTTTTCGCCGCGCCAGAACGCCGTTCTGGACCAGGCATTGCGTCTATTGGTCGAGGGCGGCGAGAAAGCGCTGACCACATCGGGGCTGGCGCGTGCCGCCAACTGTTCCAAGGAAAGCCTGTACAAGTGGTTCGGCGACCGGGACGGCCTGCTGGCGGCGATGATCACCTTTCAGCAGAGCAAGGTCCGCACCTTCGAAAAGGCAGGTGACCGCGTCTCCGCACCGCAGCTTGCCGATCACCTCGAGGTTTTCGCGCATGATCTGCTGGATGTGCTGGCGGGCGATGTGTCGCTGGCGCTCAACCGTCTGGCGATAGGGCAGGCGAGCCGTGACGGTTCGAAGCTCGGCGATCTGCTGCTGGAACGCGGCCGTCGCCAGATCGACCGCCGCGCCCGTGGGCTGATCGAGGCGGGTCGCCGTTCCGGCTATCTGCGTTTCGATGATGCCGAGGAGGCATATCGCAGTTTTTACGGCCTCATCGTTTCGGATCTGCATGTGCGCATGCTGCTGGGCGAGGCGCCGGACAAGGATTTTTCCGCCCGGGCGAAGAAGGCGGTCGTCGCCTTTCTGACCCTCTACGGCACGGAAAAGGTACATTCGGAACTCAGCGGCAAACCCGCCTGA	MASDPITAQEFSPRQNAVLDQALRLLVEGGEKALTTSGLARAANCSKESLYKWFGDRDGLLAAMITFQQSKVRTFEKAGDRVSAPQLADHLEVFAHDLLDVLAGDVSLALNRLAIGQASRDGSKLGDLLLERGRRQIDRRARGLIEAGRRSGYLRFDDAEEAYRSFYGLIVSDLHVRMLLGEAPDKDFSARAKKAVVAFLTLYGTEKVHSELSGKPA				NA	NA	NA	NA	NA
BMS010_01382	1020	ilvC_1	COG0059	Ketol-acid reductoisomerase (NADP(+))	ATGCGCGTTTATTATGATCGTGATGCCGATCTCAATCTCATCAAGTCCAAGAATGTCGTCATCGTCGGTTACGGCTCCCAGGGCCGCGCCCATGCGCTGAACCTCAAGGATTCCGGCGCCAAGAACGTCGTCATCGCCCTGAAGGCCGGTTCGCCGACCGTCAAGAAGGCCGAAGCCGACGGCTTCAAGGTCATGACCGTTGCCGAAGCCGCCAAGTGGGGCGACCTGCTGATGATGGCGACGCCGGACGAGCTCCAGGCCGACATCTACAAGGCCGACATCGCCGGCAACATCCGTGATGGCGCTGCTATCGCTTTCGCACACGGCCTCAATGTTCACTTCGGCCTCATCGAGCCGAAGGCATCGCTCGACGTCGTCATGATCGCGCCGAAGGGCCCCGGCCACACGGTTCGCGGCGAATACCAGAAGGGCGGCGGCGTTCCCTGCCTCGTTGCCGTTCACCAGAACGCTTCCGGCAACGCGCTTGAACTCGCTCTCTCCTACGCCTGCGGCGTTGGCGGCGGCCGTTCGGGCATCATCGAAACCAACTTCAAGGAAGAGTGCGAAACCGACCTCTTCGGCGAACAGGTCGTTCTGTGCGGCGGTCTCGTTGAACTGATCCGCGCCGGTTTCGAAACGCTGGTCGAAGCCGGTTACGCACCGGAAATGGCCTATTTCGAGTGCCTGCACGAAGTGAAGCTGATCGTCGACCTGATCTATGAAGGCGGCATCGCCAACATGAACTACTCGATCTCCAACACGGCCGAGTGGGGCGAATACGTCACCGGTCCGCGCATCATCACCGCGGACACCAAGGCTGAAATGAAGCGCGTTCTGCACGACATCCAGACCGGCAAGTTCACCTCCGAGTGGATGCAGGAATGGAAGGCCGGCGGCGCACGCTTCAAGGGCATTCGTCGCAACAACGACGCCCACCAGATCGAAGAAGTCGGCGCCAAGCTGCGCGGCATGATGCCCTGGATCGGCAAGAACAAGCTGGTCGACAAGGCCGTCAACTAA	MRVYYDRDADLNLIKSKNVVIVGYGSQGRAHALNLKDSGAKNVVIALKAGSPTVKKAEADGFKVMTVAEAAKWGDLLMMATPDELQADIYKADIAGNIRDGAAIAFAHGLNVHFGLIEPKASLDVVMIAPKGPGHTVRGEYQKGGGVPCLVAVHQNASGNALELALSYACGVGGGRSGIIETNFKEECETDLFGEQVVLCGGLVELIRAGFETLVEAGYAPEMAYFECLHEVKLIVDLIYEGGIANMNYSISNTAEWGEYVTGPRIITADTKAEMKRVLHDIQTGKFTSEWMQEWKAGGARFKGIRRNNDAHQIEEVGAKLRGMMPWIGKNKLVDKAVN	PGPT0008735_2258	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0008735-ilvC-K00053	NA	NA
BMS010_01383	1032			hypothetical protein	ATGACCCAGTATGTCCTGGCGTTCTGGAATGTCGAAAACCTGTTTGCGCCGGAGGGCTATCCGGCGCGCGAGCCGTGGATTGCCGAGCGGCTGAAGAACGATCTGAAAGGCTGGACCGAGGACCTGTTCAAAACCAAGGTCAAACAGCTCGGTCTGATCATAAGCCAGATCGGCGGCGCGGGACCGGATCTGCTCGGTGTCTGCGAAGTCGAGAACCGTTTCGTTCTGGAGACGCTGGCGGAACATCTGAACGACCTCATGCCCGCGCGCTCCTACCGGGTCGTGCATGCCGATTCCAGCAAGGACCAGCGCGGCATCGATACCGCCTTCATCTATGACAGCAAAAAGCTGCTGATCAACGAGAACGAGATTTTCAGCCATTTCGTGATGCGCCGCACCGGCACACGCGACATTACCCAATGCACCTTCATCACCAAGGGCGGCCGCCAGCTTATCGCGCTCTCCAATCACTGGCCGTCGCGCTCTGGCGGCGCGGTGGAAAGCGCCGGTTTTCGCATGACGGCAGGTGAAACGCTGGGCTATTGGCATCAGCGCATCAGGGAAGAAAAAGGCAACGACATCGCCGTCATCGCCTTCGGCGACTTCAACGACGATCCTTCCGATGCCTCGCTGCGCTACCACGCCAATTCCACCCGCGAGCGGGACGATGTCGAAAACTCGCAATCGGCCATGTTCTACAATCTCACCTGGAATTACCTGCGCCAGCCGGTGGTCGATTCCGTCGGCGCGGCAAGAACCATCTATGGCACGCTCTATTTCAACGGCGATGCCAATATCTTTGATCAGATCCTCGTTTCCAGATCGCTTCTGACCGGTAGCAGCGGCTTCAAGGCGCGCGAGGAGACGGCAAAAATAGAAGCCATTGCCGCCATGGTCAGCCACAGCAAGAATGAGGGGCCCATCCGCTTCGGCCTGTCGAAGGGCGATGCGGTCAAAAACGTCAATCTCGGTGGGTTCTCGGATCACTTCCCTGTTTCGGTGGTTATCGAGGAAGACGATACCGTCGTGTGA	MTQYVLAFWNVENLFAPEGYPAREPWIAERLKNDLKGWTEDLFKTKVKQLGLIISQIGGAGPDLLGVCEVENRFVLETLAEHLNDLMPARSYRVVHADSSKDQRGIDTAFIYDSKKLLINENEIFSHFVMRRTGTRDITQCTFITKGGRQLIALSNHWPSRSGGAVESAGFRMTAGETLGYWHQRIREEKGNDIAVIAFGDFNDDPSDASLRYHANSTRERDDVENSQSAMFYNLTWNYLRQPVVDSVGAARTIYGTLYFNGDANIFDQILVSRSLLTGSSGFKAREETAKIEAIAAMVSHSKNEGPIRFGLSKGDAVKNVNLGGFSDHFPVSVVIEEDDTVV				NA	NA	NA	NA	NA
BMS010_01384	453	fucU	COG4154	L-fucose mutarotase	ATGCTGAAAAATATCGACCCGGCGCTGAATGCCGATGTCCTGCACGCGCTGCGCGCCATGGGGCATGGCGATACGCTGGTGATCTCCGACACCAACTTCCCCTCCGATTCGGTTGCCCGCCACACGACTGTCGGCAAGGTGCTGCATATCGACAACGTCTCCGCAGCCCGCGCCATGAAGGCGATCCTGTCCGTCCTGCCGCTCGACACGCCGCTGCAGCCTTCCGTCGGCCGCATGGAAGTGATGGGCGCGCCGGATCAGCTGGAGCCCGTACAGGTGGAAGTGCAGAAGGAAATCGACGCGGCGGAGGAAAAATCCGCGCCCATGTATGGCATCGAGCGCTTCGCCTTCTACGAACAGGCAAAAAAAGCCTATTGCGTCATCACCACGGGCGAAACCCGGTTTTATGGCTGCTTCCTTCTGACGAAGGGTGTCATCCCGCCGGCGAAGTAA	MLKNIDPALNADVLHALRAMGHGDTLVISDTNFPSDSVARHTTVGKVLHIDNVSAARAMKAILSVLPLDTPLQPSVGRMEVMGAPDQLEPVQVEVQKEIDAAEEKSAPMYGIERFAFYEQAKKAYCVITTGETRFYGCFLLTKGVIPPAK	PGPT0017496_295	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FUCOSE_DEGRADATION,PGPT0017496-fucU-K02431	NA	NA
BMS010_01385	1245	lysN_1	COG1167	2-aminoadipate transaminase	ATGCTCAATTGGGAACAAATTTTCGCCACGCGCTCTTCGCGCATGAAAGCGTCCGAAATCCGCGAGTTGCTGAAGCTGCTTGAGCAGCCCGATATCATCTCCTTTGCCGGCGGTATTCCGGACCCGGCTCTTTTCCCCGCAGAGGAGTTCCAGCAGGCTTATGCGGAAATTTTTTCGGGTTCGCAGGTCAACTCGGCGCTGCAATATTCGGTGAGCGAAGGTTACAAGCCGCTGCGCGAATGGCTGGCGGGCGAAATGGCCGAGATCGGCATCGACTGCACTGCCGACAACGTCTTCATCGTTTCCGGTTCGCAGCAGGGTCTCGATTATCTCGGCAAGTTGTTCCTGTCGCCGAAGGATACGGCGCTGGTCACCTGGCCGACCTATCTCGGCGCGCTTTCCGCCTTCAACGCCTATGAGCCGAACTACGACCAGCTGAACCCCGGCGGCAACCGCACGCCCGAGGCTTACCGCGAAACCGCCGCCAAGCTCGGCGGCGCGGTGAAGTTCGCTTATCTCTCGGCCGATTTCTCCAACCCGACTGGTGAAACCGTCGATCTGGCCGGCCGCGAAAAGGTTCTGGCGCTGGCCGATGAGCTGGATATCGCCGTCATCGAAGACGCCGCTTACCAGTCGCTGCGTTACGATGGCGAGGCTGTTCCGCCGATCATGGCGCTCGACATCGCCCGCTCGGGCGGCATTGAGAATACCCGCACCATCTATTGCGGCAGCTTTTCGAAGACGCTCGCACCGGGCCTTCGCGTCGGTTACATCGTCGCTTCCGCACCGGTTATTCGCAAGCTGGTGCTGATGAAGCAGGCCGCCGACCTGCATTCCTCCACCATCAACCAGATCGCCATCGAACGTGTCGCCTCGCGCGGCTTCGACAAGCAGGTTGCCAAGATTAAAGCCGCCTATAGCGCCCGCCGTGACGCGATGCTGGCCGCACTCGACAGATACATGCCGAAGGGTACGCGCTGGACGAAGCCGGAAGGCGGCATGTTCATCTGGGTGACGTTGCCGGAAGGCATGGACGGTGCGGCGTTGCTGGCGAAATCCATCGCCACGGAAAAGGTCGCTTTCGTTCCCGGCCGTGCCTTCTTCGCGGATGGCTCCGGCACGAATACGCTGCGCATCAGCTTCTCCTGCGCCAATGAGGCGATGATCGAGGAAGGCATGAAGCGGCTTGGCCGGTTGATCGCGACGGCGCAGGCGGAAACGGGTGAGGCGCTGCCGGCGATTTGA	MLNWEQIFATRSSRMKASEIRELLKLLEQPDIISFAGGIPDPALFPAEEFQQAYAEIFSGSQVNSALQYSVSEGYKPLREWLAGEMAEIGIDCTADNVFIVSGSQQGLDYLGKLFLSPKDTALVTWPTYLGALSAFNAYEPNYDQLNPGGNRTPEAYRETAAKLGGAVKFAYLSADFSNPTGETVDLAGREKVLALADELDIAVIEDAAYQSLRYDGEAVPPIMALDIARSGGIENTRTIYCGSFSKTLAPGLRVGYIVASAPVIRKLVLMKQAADLHSSTINQIAIERVASRGFDKQVAKIKAAYSARRDAMLAALDRYMPKGTRWTKPEGGMFIWVTLPEGMDGAALLAKSIATEKVAFVPGRAFFADGSGTNTLRISFSCANEAMIEEGMKRLGRLIATAQAETGEALPAI	PGPT0007135_387	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007135-lysN-K05825	NA	NA
BMS010_01386	984		COG1840	putative protein	ATGAAAACGCTGCTCTCCGCTTTCACCGCCATCGTATCGCTCGGCTTTATCGCCACCGCCGCCAATGCTGCCGATCTGGTGCTTTACACCAGCCAGCCCAACGAGGACGCGCAGGCGACCGTTGATGGTTTCAAGGCCGCCAATCCCGGTCTCGAGGTTGAATGGGTGCGTGACGGAACGCCGAAGATCATGGCCAAGCTGATGGCCGAGATCAATGCCGGCAATCCGGTTGCCGACGTGCTGCTGATCGCCGACACCGTGACGCTGGAGCGCATGAAGCAGGCTGGCCAGCTTCTCGCCCACAAGTCCGCGGAAGCCAAGAACATCGACGCCTCGCTCTACGATGCGGACGGCTTCTATTATTCCACCAAGCTTATCACCACCGGCATCATGTATAACACTGCCGCCGCAATGAAGCCGACGAGCTGGAAGGATCTGGCCAAGGCGGAAGCCAAGGGGCTGGTGACCATGCCAAGCCCGCTGACGTCCGGTGCAGCGCTGATCCATGCGCAGACGCTTGCCGCCGCAAACGGCCTCGGCTGGGATTACTACAAGCAACTGAAGGCCAATGAAGCCATCTCCGGCGGTGGCAACGGTGCGGTTCTGAAGTCCGTCGCGTCGGGCGAAAAGGCCTATGGCGCGGTCGTCGATTACATGCCGATCCGCGAAAAGGCGAAGGGCGCGCCGGTCGAGTTCGTTTTCCCGGAAGAGGGTGTTTCGGCCGTCACCGAGCCGGTCGCGATCATCAAGGGCACCAAGCACGAGGAAGCCGCCAAGAAGTTCGTCGATTACGTGCTGTCCGAAAAGGGCCAGCAGGGCTTCGTCAAGCTCGGTTACATCCCGGTTCGTGCCGATGCCGGTATGCCGGAAGGTTTCCCGGCCCGCGACAAGATCAAGGTTTTGCCGCTCAGCGCTGCCGATGCGCTGAAGAACTCCGAGCAGGACCTGAAGACTTTCTCCGATATTTTCGGCTCCAAGGGCTGA	MKTLLSAFTAIVSLGFIATAANAADLVLYTSQPNEDAQATVDGFKAANPGLEVEWVRDGTPKIMAKLMAEINAGNPVADVLLIADTVTLERMKQAGQLLAHKSAEAKNIDASLYDADGFYYSTKLITTGIMYNTAAAMKPTSWKDLAKAEAKGLVTMPSPLTSGAALIHAQTLAAANGLGWDYYKQLKANEAISGGGNGAVLKSVASGEKAYGAVVDYMPIREKAKGAPVEFVFPEEGVSAVTEPVAIIKGTKHEEAAKKFVDYVLSEKGQQGFVKLGYIPVRADAGMPEGFPARDKIKVLPLSAADALKNSEQDLKTFSDIFGSKG	PGPT0003725_4897	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003725-afuA|fbpA-K02012	NA	NA
BMS010_01387	1695			hypothetical protein	ATGACCCGTTCCAATGCCTATGGAAGCAGCCAGCCGCGCTGGCTGTTTCCTTCTGTGGTCAGCGTTGTTTTTGCGCTCAGCGCCCTGCCGCTCGGGCGGCTCGCCTATACCGGCGTCATCTCGTCACTTAATGGTGACATATGGCGGCTTCTCGCCGATCCTGCCCTTTGGGATGCGGCGCTGAACACGCTCTCCACCTCGTTTTTCGGCATGCTGATTTCGCTTTTGATCGGCGGCGCTTTCGCACTTGCGCTGACGCTTTGCGACATTCGCGGCAAGTCGATCCTGAGCTTCCTGTTCATGCTGCCGATGATGATCCCGCCGCAGGTGACGGCGCTGTCGTGGATCGGCATGACCGGTCCCTCGAGCACGCTGTTGAAGGCTTTCGGCCTTGCGCCGGCGATGGGATCGCCGCAGCCGCTTTATTCGATTGCGGGCATTGCGCTGCTGCTCGGCGTGCAGCATGCGCCGCTCGTCTATCTGTCGCTGCGGGCCGGTCTGCTGGCCTTGCCACAGGACGGCATCGAGGCTGCCAAGCTGTCCGGTGCTTCGCCGCGCCGGGTGCTGTTCGATATCATCCTGCCGCTGTCGACACCGGGATTGATCGCCGGGGCGGCGATCTCCTTCGTGTCCAGTGTCGGCAATTTCGGCATTCCGGCGATCCTTGGCATTCCGGCCTCGATCTTCACCCTGCCGACGCTGATCTACAGCCGTTTTGCCAGTTTCGGCACCAGCACATTCGGCGATATCGCCATCCTCTCCACCATGATCGCCATCATCTCGGTCGCTGGGCTTGCGCTTCAGGAACGGGCGATGAAGGGCAGAGACTATCGCATCATCGGTCTTTCCGGCAAGGCGGCGACATTCCGGCTTGGGCTGTGGCGGGTGCCGGCGGAGCTTGCCCTGTGGCTCGTGCTGTTCTTCATGCTGGTGGCGCCGCTGACGGCACTGGTGGCAAGCTCGCTTGCGCCTGCCTATGGCGTGCCGCTCAGCCTCAAGACAGCGACGCTGCATGCCTATGAGGAATTGCTTTACCGCCAGAGCGTGACGCGTACCGCCTTCCGCAACTCGTTGTTTCTGGCGACCGCCACCTCGCTTTGCTTGCTGGCGGTGACGGTGCTGACGGCCTATTTTCTGGTGCGCGGCAAGAGCCGTTTCATGTTCCTCCTGTCGGCGCTGGTGGATATTCCCTATGCGTTGCCGGGGGTGGTGATTTCCGTCTCCTTCGTGCTGCTTTTCGCGGCTCCCATCCCGCTTGTCGGCATCACGCTTTACGGCACGATCTGGATCATCCTGCTCGCCTATTTCTCCTCCTTCTTCGCCGTCAGCCTCAAACCAATGGTCAGCGCTTTCCTGCAATTCGATCCATCGCTGGAAGAGGCAGCAAGGCTGTCGGGCGCCGGTTTCTGGCGGCGGCTTAAGGATATCATCCTGCCGCTGGTCGGGCCTGCGGCGGGGGCATCGGTCATTCTCGTTTTCCTCATCGCCTGCAACGAGCTGACAGTCTCGGCGCTGCTGTGGTCCGCCGGCACCCAGACGCTCGGCGTGCTCATTTACAATCTCGATGACAGCGGCAGCTTCGATCTTGCCTCGGCACTTTCGGTGCTTGTCGTCATCATGGTGATTTTCCTCATGGCTCTGCTGGAAATTCTGGGGCGCTATCTGCCGAAAGGAGTGGTCCCTTGGCGAAACTGA	MTRSNAYGSSQPRWLFPSVVSVVFALSALPLGRLAYTGVISSLNGDIWRLLADPALWDAALNTLSTSFFGMLISLLIGGAFALALTLCDIRGKSILSFLFMLPMMIPPQVTALSWIGMTGPSSTLLKAFGLAPAMGSPQPLYSIAGIALLLGVQHAPLVYLSLRAGLLALPQDGIEAAKLSGASPRRVLFDIILPLSTPGLIAGAAISFVSSVGNFGIPAILGIPASIFTLPTLIYSRFASFGTSTFGDIAILSTMIAIISVAGLALQERAMKGRDYRIIGLSGKAATFRLGLWRVPAELALWLVLFFMLVAPLTALVASSLAPAYGVPLSLKTATLHAYEELLYRQSVTRTAFRNSLFLATATSLCLLAVTVLTAYFLVRGKSRFMFLLSALVDIPYALPGVVISVSFVLLFAAPIPLVGITLYGTIWIILLAYFSSFFAVSLKPMVSAFLQFDPSLEEAARLSGAGFWRRLKDIILPLVGPAAGASVILVFLIACNELTVSALLWSAGTQTLGVLIYNLDDSGSFDLASALSVLVVIMVIFLMALLEILGRYLPKGVVPWRN	PGPT0003730_1910	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003730-afuB|fbpB-K02011	NA	NA
BMS010_01388	1029	msiK_1	COG3839	Diacetylchitobiose uptake system ATP-binding protein MsiK	TTGGCGAAACTGATCCTCAACCGCCTGTCGAAAAGTTTCGGTGCCGGTTCGAAACCAGCCGTGGACGATGTGTCGCTGACGGTGCGTGACGGCGGTTTTCTCGCGCTGCTCGGGCCTTCCGGCTGCGGCAAGACGACGGTGCTTCGCATGATCGCCGGTTTCGAACAGCCGACCGACGGTTCCATCCTGCTCGGCGAGCGGGTGCTGGCCGATGCCGGCAGCATGGTGCCGCCGGAGCGGCGCAACATGGCGATGGTGTTCCAGTCCTATGCCTTGTGGCCGCATATGTCGGTTGCCGACAATGCCGGTTATCCCTTGAAGGTGCGCGGTATTTCCGGCGAGAAATATCGTGAGAAGGTGCGCCAGGCGCTTGCTGCCGTCCGTCTCGAGAGCTTCGCCGATCGCCGCCCCGCCGAATTGTCCGGTGGCCAGCGGCAGCGTGTGGCGCTTGCCCGCTGCCTCGTTACCGAGCCTGACGTGGTGCTGCTCGACGAGCCGCTCGCCAATCTCGACCGGCATCTGCGGCAGGAGATGGAGGAGACATTCCGCGAGTTCCACATCCGCTCCGGTGCGACGATGATCTATGTCACCCACGATCAGGCGGAAGCCATGGCGCTGGCAACCGATGTCGCCGTGATGTCGCAGGGCAAGCTGTTGCAGGTCGCGCCACCGGCGGCGCTTTATGCGCGGCCCGAAGGCAGGCTGGTCGGCTCGCTCGTGGGGCAGGGGGCGATCGTGACCTTGCCGGCGCCCGAAGGGACTTCGCGCGATCTCGACTGGTCGGTGCTTAGGGCAGTGATGGAGAGCGGCGGGCAATCGCCGCACGCGGATATTCTTGTGCGGCCACAGGATGTGGTGCGGGATGCAGAGGGCATCGCCTGCACCGTCACCTCGGTTCTCTACGAGGGCGAGCGTTATGCCCTGCGTCTCGACCTGCCGGACGGGCAGGCGCTGAGGGCCTATTCGCGGGAAGCGGTTGCAGTCGGGGACCGTCTGCCAATGGCCATTCGCGCGGCGTGGCGGCTTTAG	MAKLILNRLSKSFGAGSKPAVDDVSLTVRDGGFLALLGPSGCGKTTVLRMIAGFEQPTDGSILLGERVLADAGSMVPPERRNMAMVFQSYALWPHMSVADNAGYPLKVRGISGEKYREKVRQALAAVRLESFADRRPAELSGGQRQRVALARCLVTEPDVVLLDEPLANLDRHLRQEMEETFREFHIRSGATMIYVTHDQAEAMALATDVAVMSQGKLLQVAPPAALYARPEGRLVGSLVGQGAIVTLPAPEGTSRDLDWSVLRAVMESGGQSPHADILVRPQDVVRDAEGIACTVTSVLYEGERYALRLDLPDGQALRAYSREAVAVGDRLPMAIRAAWRL	PGPT0003735_3573	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003735-afuC|fbpC-K02010	NA	NA
BMS010_01389	1110			hypothetical protein	ATGTCGCTTCGGCTTGCCACCTTCAATATCGAAAATCTCCTCACCCGTTTCGATTTCACCGGCTTTCGCAACCAGACGCGGCGCGACAGGGCGATCCAGCTTTTCGATATTCGCGACGAGGCGACCTATCAGGCGCTGGAAAGCGCGCGGATGGTCTCTTCAACCGACGACACGCGCCAGCTTTCGGCACTCGCCATCGCCGATGCGGATGCCGATATTCTCTGCCTGCAGGAAGTGGACAACATGGCCGCGCTGCAGGCCTTCGAATATGGCTATCTCTATCGCATGGTCGGCAATGGCTACCTGCAGAAATATCTGGTCGAGGGCAATGACAGCCGCGGCATCGATGTCGCCGTCGTCATGCGCGAGGAGACGCGGGACGGCGACAGGATCGAGGTGGTCGACATCAAGAGCCATGCGGCGCTGACCTATCGCAATCTCGATCTCTTCAATACCGCGCTTGCCGCCACAAACCAGATCGACGACAAGATTTTCAAACGGGATTGCCTGGAAATCGATCTGAGGATCGGTGGCAAGCCGCTGACGCTTTACGTCACGCATTTCAAATCCATGACCAATGCCCGCGATGCGGTTGACGCCCGCATCGCCACCATGCCGATCCGCGAGGCGGAGGCCATGGCCGTGCGCCGTATCGTTGAAAACCGCTGGGGTGTGGGCAATACGCGCAACAAGAATTTCGCGATCTGCGGCGATCTGAACGATTATCAGGAGCGTGTCGCGATTTCCGGCGACAGGCGCAGCGGCTACAGCTTCACGCCGGTCGAGGAGGAGCGCAGCGCGCTCGATATCCTCTCGGCCGATGGTTTCGTGGTCAATCCGATGATGCGCCGTGATGTCATGGATCGCTGGACGCTCTACCATTCACGCGGGCCGCAGGAGCAGCATCTGTGCCAGCTCGACTATATTTGGCTGTCCCCGCGTCTGGCGGAGACGAACGCCATGCATGTTCCCGAAATCATTCGCAATGGGCAACCTTTCCGGACAATATTCCCGCCGGGGCAGGAGGTCGAACGTTATCCCCGCACCGGCTGGGATCGCCCCAAGGCTTCCGATCATTGCCCCGTGGTCATGACGCTGGATTTGATCTAG	MSLRLATFNIENLLTRFDFTGFRNQTRRDRAIQLFDIRDEATYQALESARMVSSTDDTRQLSALAIADADADILCLQEVDNMAALQAFEYGYLYRMVGNGYLQKYLVEGNDSRGIDVAVVMREETRDGDRIEVVDIKSHAALTYRNLDLFNTALAATNQIDDKIFKRDCLEIDLRIGGKPLTLYVTHFKSMTNARDAVDARIATMPIREAEAMAVRRIVENRWGVGNTRNKNFAICGDLNDYQERVAISGDRRSGYSFTPVEEERSALDILSADGFVVNPMMRRDVMDRWTLYHSRGPQEQHLCQLDYIWLSPRLAETNAMHVPEIIRNGQPFRTIFPPGQEVERYPRTGWDRPKASDHCPVVMTLDLI				NA	NA	NA	NA	NA
BMS010_01390	1740			hypothetical protein	ATGCGCGCGAGCATACAGAAAATCCAGCTGACGGGCACGATCATCATCGCCGTAAGCTCCATCCTGCTGGCAACCCTTGCCGCGCTGCCCAGCGTCTATAATTATCTGCGCTATCGCACCAATGCCGCGCAGCTCAGCCGCTTTGAAACCGCTCTCCAGTCCGCATGGCTGGTGTCGGCCGAGCGAGGCCCCGCCAATAATCTGATGGGTGCATCCGTGCCGGATGCAAGGCTGACCGAAGGGCTTGCCGCCGCGCGCAAGGCAACGGACGACAAGCTGTCGGAGCTGGAGAAATCCTTCGCCAACGATATCAGAACACAGCCTGAACTGGCGAAGTCGCTTGCTGATACCCGCCAGAAGCTCGAGCAATCGCGAGAGCTGGTCGATCAGGTTGCCGCGCTCCCCCCTGACGCGCGTAACCACGGCGCGATGTCCAATGCGATTGCATCGATGTTCAAGGCGGCGGATAGCGTCAATCTGCTGCGCGGCAGGGCCGCACGCGCCATCATCAAGGTGACGCCCGACGTGGCGATCGACATCGCCATGACGGGCACGGCGGGCGTGATGCGCGACCGTATCGGTCGCCTCGGTTCCTATGTCATCATGAGTCTCAAGGCGAACAGGCAGGAAAAGCTCGGTTATCGCGCCAAGTTCGATACCGAGATGCAGAGCCTGCTGTCGCTGAAAGCGTCGCTGACCAATTATACCGCCGCCTATCTCTCGACGCCGCGACTGGACGGCGCATTGCGCGATCTTGAAACCCAATATTTCGGTCAGGCTTTACGTTACGCGCAGAACACGATCGTGATGGCGGTGCCATCCGCCCAGCCAAGCGCACTTGAGTTCTCCAGAAACTATATTGCCGGCATGCGGTCGTCCGACACCCTGCGCGACCTTATTCTGTCCGAAACGCGCGCGCGGATCGAAAAGAAAAAGCAGGAGGCCCTGATCTATGGCGGAACCTCGCTCTTTCTCGCCGGCATCGCTGTGCTGGTGCTGTTGCGGCTGACATCGGTGTATAAAACCGCGCTGTTCCGTCCCATGCAATCCGTCCAGACGCAGATCGCCGCCATCGCCGGCGGTGATCTTTCCGAGGGCAATCATGAGGACAGGGTTGCACCGGAAGTAAAGAAGATGTTCGAGGAACTGGATTTCCTGCGCGAACAGCTTCGCCAGAAGGGCGAAATGGAAAACCAGCAGCGTGCGCTGGCCGAGCAGCTGCGCACCCTTTCCGAAACCGATGCGCTGACGGGCGTCTTCAACCGCCGCGCACTCGAAAAGGCGGTTCGCTCCATATTGACGGGCGAGGAGCAATGTCAGTCGCTCGGCGTGATGATTGTCGATATCGACCATTTCAAATCGATCAACGACCGTTACGGCCATGCCATGGGTGACATCGCGCTTCAGAAGACCGCGGGCCTGTTGCGCAGCGCATTGCGCAAGCACGACATTCTCGCCCGATATGGCGGTGAGGAATTCGTCGTCGTGCTGCAGGATGTCAGCCATGCCACGGCGACGGCCACGGCCGACCGCCTTCGCCGCCTGATCGAAGCCCAGACCATCGATGAGCAAAGCGGCCTGTCGCTGACGGCAAGTTTCGGCGTGGTCTGGCAGGAAGCGCGTGCGATCAACAGCTGGGATGAGTTGATCGCCATCGCTGACGACCGGCTTTACGAAGCGAAGCGTGCGGGCCGCAACCGGGTCTGGGCAACCTATTTCCCAAAGGTCGCGAACGGCTAA	MRASIQKIQLTGTIIIAVSSILLATLAALPSVYNYLRYRTNAAQLSRFETALQSAWLVSAERGPANNLMGASVPDARLTEGLAAARKATDDKLSELEKSFANDIRTQPELAKSLADTRQKLEQSRELVDQVAALPPDARNHGAMSNAIASMFKAADSVNLLRGRAARAIIKVTPDVAIDIAMTGTAGVMRDRIGRLGSYVIMSLKANRQEKLGYRAKFDTEMQSLLSLKASLTNYTAAYLSTPRLDGALRDLETQYFGQALRYAQNTIVMAVPSAQPSALEFSRNYIAGMRSSDTLRDLILSETRARIEKKKQEALIYGGTSLFLAGIAVLVLLRLTSVYKTALFRPMQSVQTQIAAIAGGDLSEGNHEDRVAPEVKKMFEELDFLREQLRQKGEMENQQRALAEQLRTLSETDALTGVFNRRALEKAVRSILTGEEQCQSLGVMIVDIDHFKSINDRYGHAMGDIALQKTAGLLRSALRKHDILARYGGEEFVVVLQDVSHATATATADRLRRLIEAQTIDEQSGLSLTASFGVVWQEARAINSWDELIAIADDRLYEAKRAGRNRVWATYFPKVANG				NA	NA	NA	NA	NA
BMS010_01392	570			hypothetical protein	ATGGATGCATATGGTCATTTGCGGATATTGGTAAGCCTCATCCTCGGCCTGGCCATTACCAGGGTGTTGTCCGGACTTTCCAGAAGGTTGCAGGAGCCGCAGAAAACCGACCGTATGCATGCGCAGATCGTCTGGTCGATTGCCCTGCTTCTGGGAGCTGTCCATTTCTGGTGGTGGGAATTTGCGCTGCGGCTGATCCACAACTGGAATTTCTGGATTTACATTTTCGTTCTGGTCTACACGTCGCTGTTCTTTTTGATGTCGACGCTGCTTTATCCCGATCACATTCAGGAACTCTCCGAGCGGGAAAGTTTTTTCGTGCGCAGGCGACATGCGTTCTTTGCCCTGTTTGCCGCCTCGTTCGTCTTCGATCTGGTGGACACCTACATCAAGGGCAGGGAACATTTCGAACAGCTCGGGCCATGGTATCTGGCAAGGATAGTCGGCGGTCTGCTTATCGCGATTGTGGCGATGAGAACCGATAGCAGCCGCAAAATCATGTGGCTCGGTGTTATCTGGCTCTTCTTTAACGCGCTCTGGATAACAGCGATCTACAGCGACCTGTTCTAG	MDAYGHLRILVSLILGLAITRVLSGLSRRLQEPQKTDRMHAQIVWSIALLLGAVHFWWWEFALRLIHNWNFWIYIFVLVYTSLFFLMSTLLYPDHIQELSERESFFVRRRHAFFALFAASFVFDLVDTYIKGREHFEQLGPWYLARIVGGLLIAIVAMRTDSSRKIMWLGVIWLFFNALWITAIYSDLF				NA	NA	NA	NA	NA
BMS010_01393	354			hypothetical protein	ATGCCGCAAACGATTACCCAGACCGTCACGGACTATGTCCATGCCATGGCCTATGCGGATGAGAGCCTGATGCGTGACGTTTTCGACCCGCGCGCCAGCATCGTCGGAACCTTCGAAGGCGAGATCGAATGGCTGTCCCTGGAGGACTTTGTCGACCAGATGCGCAAAAGCGAACGCGGCCTCCCCGATCACGATCCCGCTTTTGAAATCATGGGCATCGACAAGGAAGGCGACAGCGCCTCGGTGAAGCTGACGACCCGTTTCGACGGTATGGATTTTTACGAATATCTGTCACTGCTGGAACGCGACGGCAACTGGTCCATCGTGCACAAGCTCTATCACATAAAGCCGTAG	MPQTITQTVTDYVHAMAYADESLMRDVFDPRASIVGTFEGEIEWLSLEDFVDQMRKSERGLPDHDPAFEIMGIDKEGDSASVKLTTRFDGMDFYEYLSLLERDGNWSIVHKLYHIKP				NA	NA	NA	NA	NA
BMS010_01394	603	dnaJ_3		Chaperone protein DnaJ	GTGATTGATCCCTATGTTTTGCTTGGCGTGGAGCGCGATGCCGACGAGGCGGCGATCAAGTCGGCCTACCGCAAGGTGGCCAAGGCCGCGCATCCCGATAGCGGCGGCGATGCCGAGCAATTCGCGCGCCTGCAGACGGCCTATGAGCTGCTGAAGGATCCGGTGCGCCGCAAGGTATTCGACGATACCGGTTACGATCCGCAGCTTGCCGACGCCAAGGACCTCAAGGGCCTGCTGATGCTGGAAACGCTGGTGAATGAATTCATTCTAGACGAACGCGAACCCGGCAGTTTTGACCCCGTGGCCGCCATGCGCCGCAAGCTGACCGACGATATTCTGAAAAGCCGTTTCCATATTCTCGAGCTGGAACGACACCGCACCCGGGTTCGCAAACATATGGACCGTCTCGGCCGCAAGCCGGAAACCGATGTGCTGAGTTCCATGCTGCGCGCCCGCAGCCAGTCCATCGCCGAAGCCATTCGTAACGCCGAAGCCCAGATCGAGGCAATCGAACAAGCCTATACGATGCTCGAAGGTTATTCCTACGAGCTGGAAAGCGTGACTTTGGCCGAGCCCTTGCTGAAAGGCGAGGCGGCGGAATAG	MIDPYVLLGVERDADEAAIKSAYRKVAKAAHPDSGGDAEQFARLQTAYELLKDPVRRKVFDDTGYDPQLADAKDLKGLLMLETLVNEFILDEREPGSFDPVAAMRRKLTDDILKSRFHILELERHRTRVRKHMDRLGRKPETDVLSSMLRARSQSIAEAIRNAEAQIEAIEQAYTMLEGYSYELESVTLAEPLLKGEAAE				NA	NA	NA	NA	NA
BMS010_01395	609			hypothetical protein	GTGCCCGCCAATAGCCTCTTTTCCTTTGCCATCAGCACCGCCATCGCGCTCAGCGCCCTGCCGCTGTCAGCGCAGGCGGCCGACTGGAAACCGGCCGAGCAGATAAAAACCTATGCCATCAGCGGCAATACGGGCGGTGCGCTTTATCAATCGATCGGCGAACGCGGTCCGACCGCCGGAGTGCAGGCCATTGCCCACACCACCTTCAAGCTGACATGGCGGCGGGATTATCGCCCGCAGCCGGATGGCGCCTGCGTGCTGGCCACCGCAAGGCCCAATCTCACCATCATCTACACCTGGCCGAAAGCGCCCGCCAATCTGCCGCCCGCAGTCGCCGCCAGCTGGAGGACCTTCATTTCCGGCGTGGAAACCCACGAACGCGTCCATGGTGACCATATTCTCGACATGGTGAAAAAGATCGAGGCCTTCAGCATCGGGCTGAGGGCGGAGAACGATGCCAAATGCCAGAAGGTGCGCGCCGTTCTGCAACAGCGTCTGGGTGAGCTTTCCAACGAGCAGCGCCAGCGCGGCCGCGATTTCGACCGGGACGAGCTTTCCCCCGGCGGGCGGGTGCATCAGCTCATCCTCGCCCTCGTCAACGGCCCCTGA	MPANSLFSFAISTAIALSALPLSAQAADWKPAEQIKTYAISGNTGGALYQSIGERGPTAGVQAIAHTTFKLTWRRDYRPQPDGACVLATARPNLTIIYTWPKAPANLPPAVAASWRTFISGVETHERVHGDHILDMVKKIEAFSIGLRAENDAKCQKVRAVLQQRLGELSNEQRQRGRDFDRDELSPGGRVHQLILALVNGP				NA	NA	NA	NA	NA
BMS010_01396	456			hypothetical protein	ATGAAAATCAAGGTCATCGCTCTCGCTGCCGCAGCAGCGCTCTCCTCTTCCGTGGCTTTTGCCCAGACGGCCGCCACTGCTCCTGCTGCCGGCGCGGACGCCACTTTGTCCGGCCCCGGCATTACCATGGGCACCAAGGCCAGCGGCCCGCTGAAGTTCGTCAATGTCCAGAAGACCGACCTCACCGCCTCCCAGCTCGATGGCATGGACATCTATAACGCCCAGAACGAAAACATCGGTGAAATCGAGGATGTCGTCATCGGTGACGGCAAGTCGGTGATCGGCCTTGTGGCCAGCGTCGGCGGCTTCCTCGGCATCGACAAGAGCTATGTGGTGCTCGACCCGGCTTCCGTCGCGGTCCACAACGACAACGGCACCTGGAAGGCCTATGTCGACACCACCAAGGAAGCGCTTCAGAACGCCCCGAAGCTCGATTACGACAAGCTGGACGACTGA	MKIKVIALAAAAALSSSVAFAQTAATAPAAGADATLSGPGITMGTKASGPLKFVNVQKTDLTASQLDGMDIYNAQNENIGEIEDVVIGDGKSVIGLVASVGGFLGIDKSYVVLDPASVAVHNDNGTWKAYVDTTKEALQNAPKLDYDKLDD				NA	NA	NA	NA	NA
BMS010_01397	426			hypothetical protein	ATGGCGAAAAACACGGTGGCGAAAGATGCAGAGGAGACCGCACCATCGGACTTCATCGACCGGAAGATCGCGGAACTCGGCGACTGGCGCGGTGAGACGCTCGCGCATATTCGCGCGGTCATCAGGAAGGCCGATCCGGAGGTGGTGGAAGAGGTGAAATGGCGCGGCGTGCCGGTCTGGTCGCATGCGGGCATCCTCTGCACCGGCGAAACCTACAAGAACGCGGTGAAGATGACATTCGCCAAAGGAGCCTCGCTGGAGGACCCGGCAGGCCTGTTCAATTCAAGTCTGGAGGGAAACACACGGCGGGCGATTGATTTTCACGAGGGGGATGTCGTGGATGAGGAGGCGCTGGCGGCGCTGATCCGGGCGGCGGTGGCGTTGAACGCGGTGGGGAAGAGCGGGAAAAAGCGGGCCGGAAAGTAA	MAKNTVAKDAEETAPSDFIDRKIAELGDWRGETLAHIRAVIRKADPEVVEEVKWRGVPVWSHAGILCTGETYKNAVKMTFAKGASLEDPAGLFNSSLEGNTRRAIDFHEGDVVDEEALAALIRAAVALNAVGKSGKKRAGK				NA	NA	NA	NA	NA
BMS010_01398	969			hypothetical protein	ATGTATCGAAAAAATCTGGCGGCGTTCTGCCTCCTCGTCACCAGCACCCCGGCCTTTGCCGGACAGATCGAGGATGCGACCTTCCATAGTCCCGCCCTGAACGCGCCGCTCCCCGTCAACATCTATCGCCCGGACGGCGCACCGCCGGAAAACGGCTGGCCGGTGCTTTACCTCCTGCACGGCCACGATGGCGACCAGAACAGCTGGCGCGATCTCGGCAATATCGAAAAGACGCTCGATACGCTCATCGCTGCCGGCGCCATCCGCCCGCTGGTTGTCGTCATGCCCGGTGTGAAAAACAGCTGGTATGTGGATTCCGCCGCTGTCGGCGGCCCCGGCGATTACGAAACCGCCGTGACCGGCGATCTGTGCCGCCAGATCGAAAAAACGCTGCCGGTGCGGAAAGATCGGGAAGGCCGCGCCATCGCCGGCCTCTCCATGGGCGGTTTCGGCGCCCTGCATCTCGCCTATGGCCATGAAGACCTCTATGGCGCAGTGGCCAGTCTGTCGGGCGCCATCTGGCAGAATGTCCCCGCCTCCGATCTCGACAAGACGCCGGCCGAACTCAAGCTCATTCAGGACAGCGCATTTTTCCACCGGGTCGACCGCACCACCGTCACCAGCGGCATCGTGCTTCCCTCAACGGGGGACCATTTCTCCGGAGCCTTCGGCACACCTTTCGATGCCAGGCTCTTCAACGAAAAGAACGTCTTCACCCTCGTTGCACAGCATGTGGCCGAAAGCCAGGATTTGCCCGCCACCTATCTGACCGTCGGCGATGATGACGGCTTCTTCCTCTGGCGCGGCGCCATCGCCCTGCACGAGACGCTGCAAGCCGACAAACGCAAATCCGAGCTGCGAGTGACCGACGGCGATCACGTCTGGTCGGTGTGGAAGGTCTCGATTATCGACGCGCTGAAGTTCATCGATGGGGAATGGGACAAGGCTGCCGACAAAGCCAAGGATTGA	MYRKNLAAFCLLVTSTPAFAGQIEDATFHSPALNAPLPVNIYRPDGAPPENGWPVLYLLHGHDGDQNSWRDLGNIEKTLDTLIAAGAIRPLVVVMPGVKNSWYVDSAAVGGPGDYETAVTGDLCRQIEKTLPVRKDREGRAIAGLSMGGFGALHLAYGHEDLYGAVASLSGAIWQNVPASDLDKTPAELKLIQDSAFFHRVDRTTVTSGIVLPSTGDHFSGAFGTPFDARLFNEKNVFTLVAQHVAESQDLPATYLTVGDDDGFFLWRGAIALHETLQADKRKSELRVTDGDHVWSVWKVSIIDALKFIDGEWDKAADKAKD				NA	NA	NA	NA	NA
BMS010_01399	168			hypothetical protein	TTGCGCGCCTGTGTCGCGGGCGTCCTCCCGACCGGGCCGATCTATTTCTCTACCTACATCAAGCCGGCGGAAAATGAGGACTACATTGCCATGGCCCTGGATGCCGATCTGGTGAAAGTTTTTGGTCCGGGCCAGGTCGCAGCGCGGATCAGGCAGTGCGAAAGCTGA	MRACVAGVLPTGPIYFSTYIKPAENEDYIAMALDADLVKVFGPGQVAARIRQCES				NA	NA	NA	NA	NA
BMS010_01400	2967	uvrB_1		UvrABC system protein B	ATGGCCAGATCACCGAAAAACTCCACCTCCTCGCCCTCGGGCTTCGAGGAAGCTCCGCAATCGTCCTTCGAAGGCGCGCCGCTCAGCGGCAGCGTCGCCGATTGGGTGAAGCAGCTCGAGGCGGAAGCGGAGGCTTCCTCCGTGGAAACCCAGCGCGAAATCGCCTCGAAGGCGGGCAAGCACCGCAAGAAGATCGAGATCGAAGCGCGCAAGGAGGCCCAGAAAGCCCCCCCGAAGACGGCCAAGAACACCACGGCCTCCAAGACCGCACGCGGCGTTTCCATCGGCGCATCGAGCGATCCGAAAATCCGCGCCGCCGCCGGTCTCAATCCGGTCGCCGGCATGGACGTATCGCTGGAGGATGCCGCCAACCTCGCGCCCGGCGCCGTCACCGCCACGGTGGACGCGCTGTCGAAACTGATCGAGAGCGGCAATCCGCTGTTCAAGGACGGCAAGCTGTGGACGCCGCACCGCCCGGCCCGCCCGCCAAAATCCGAAGGCGGCGTCGCCATCCGCATGGCTTCGGACTACAAGCCCGCCGGCGACCAGCCGACGGCCATCAACGACCTCGTAGAAGGTATCAATTCGGGCGAACGCAGCCAGGTGCTGCTCGGCGTTACCGGCTCGGGCAAGACCTTCACCATGGCCAAGGTGATCGAGGCGACGCAGCGCCCGGCTGTCATCCTCGCGCCCAACAAGACGCTGGCCGCGCAGCTATATTCGGAGTTCAAGAACTTCTTCCCCGATAATGCGGTGGAATATTTCGTATCCTACTACGATTATTATCAGCCGGAAGCCTATGTGCCGCGCTCCGATACCTTCATTGAGAAGGAATCCTCGATCAACGAACAGATCGACCGGATGCGCCACTCCGCCACCCGCTCGCTGCTGGAACGCGACGACTGCATCATCGTCGCCTCGGTTTCCTGCATCTACGGTATCGGTTCGGTCGAGACCTATACGGCCATGACCTTCCAGATGCAGGTGGGTGACCGGCTGGACCAGCGCCAGCTTCTGGCCGACCTCGTAGCCCAGCAATACAAACGCCGTGACATGGATTTCCAGCGCGGTTCGTTCCGCGTGCGCGGCGATACCATCGAAATCTTCCCCGCCCACCTTGAGGATGCCGCCTGGCGCATATCGATGTTCGGCGACGAGATCGATTCCATCACCGAATTTGACCCCTTGACGGGCCAGAAGACCGGTGACCTGCAATCGGTGAAAATTTACGCCAATTCGCACTATGTGACCCCACGCCCGACGCTGAACGGCGCGATCAAGTCGATCAAGGAAGAGCTGAAGGGCCGCCTCGCCGAACTGGAAAAGGCCGGGCGTCTGCTGGAAGCCCAGCGGCTGGAGCAGCGTACCCGCTACGATATCGAGATGCTGGAAGCGACCGGCTCCTGCGCCGGCATCGAGAACTATTCGCGTTATCTCACCGGCCGCAATCCCGGCGAACCGCCGCCGACTTTGTTCGAATATATCCCTGATAACGCGCTGCTGTTCATCGACGAAAGCCACGTCTCCGTCAGCCAGATCGGCGGCATGTATCGCGGCGACTTCAGGCGCAAGGCGACGCTGGCCGAATATGGCTTCCGCCTGCCCTCCTGCATGGACAACCGGCCGCTGCGCTTCGAGGAATGGGACGCGATGCGCCCGCTCACCGTCGCGGTTTCGGCAACCCCCGGCTCATGGGAGATGGAACAGTCCGGCGGCGTCTTCGCCGAACAGGTCATCCGCCCGACCGGCCTCATCGATCCGCCGGTGGAAGTGCGCTCCGCCCGCAGCCAGGTCGACGATGTTCTCGGCGAAATCCGCGAAACCGCCGCCAAGGGTTATCGCACGCTCTGCACCGTGTTGACCAAACGCATGGCCGAGGACCTGACCGAATATCTGCATGAACAGGGCGTCCGCGTCCGTTACATGCACTCGGATATTGACACGCTGGAGCGCATCGAAATCATCCGCGACCTGCGCCTCGGCGCTTTCGACGTTCTCGTCGGTATCAACCTGCTGCGTGAAGGCCTCGACATTCCCGAATGCGGTTTCGTCGCCATCCTCGATGCAGACAAGGAAGGCTTCCTGCGCTCGGAAACCTCGCTGATCCAGACCATCGGCCGTGCCGCCCGTAACGTTGACGGCAAGGTCATCCTTTATGCCGACAATATCACCGGCTCGATGAAGCGGGCGATGGAGGAAACCTCCCGCCGCCGCGAAAAGCAGATGGCCTATAATGCCGAACACGGCATCACGCCGGAATCGGTTAAGGCGAAGATTTCCGACATTCTTGATTCTGTTTATGAGCGCGATCACGTAAGGGCCGATATTTCTGGCGTTTCCGGCAAGGGCTTCGCCGATGGCGGCCATCTCGTCGGCAACAATCTTCAGGCCCATCTCAACGCGCTGGAAAAATCCATGCGCGACGCCGCAGCCGATCTCGACTTCGAAAAGGCCGCCCGCCTGCGCGACGAAATCAAACGCCTCAAGGCCGCCGAACTGGCGACCATGGACGACCCGATGGCCAAGGAAGAGGCCCGCGCCATCGAAGGCGGCGGAAAAAACAACAGACGCAGCCACTTGTCGATCTCCCCACCGGAGGGCGAGACATCCGGCGGGACGGAGACGGGTGCCGCAGCGAACGAAAGCGGCAAATCCCTCTTCGCCAAACCCTCGCTGGACGAAATGGGCCCCGGCTCGGATGCGGGAAAACCGCTGTTCCGCAGGAACACGCTGGACGAGATGACGGTGGGCAGGACCGAAAAACCCGTGCGCGGCGCGGTGCCCGACAAGCCCCAGACAGAACCCGGCAAACGGTTCTCACCGTTGCTGGAGGGCCAGCCGGAGCGCGCCACCGACGATCCCCGACCGCTGGTACGCGGCAAGATCGGCGCGGGTTCCTATGAGGACGCCGGCGAGCAGAAGCGCAAGAGCCGAACCAAGGGCAAGACGGGTCGGCCGGGACGGTGA	MARSPKNSTSSPSGFEEAPQSSFEGAPLSGSVADWVKQLEAEAEASSVETQREIASKAGKHRKKIEIEARKEAQKAPPKTAKNTTASKTARGVSIGASSDPKIRAAAGLNPVAGMDVSLEDAANLAPGAVTATVDALSKLIESGNPLFKDGKLWTPHRPARPPKSEGGVAIRMASDYKPAGDQPTAINDLVEGINSGERSQVLLGVTGSGKTFTMAKVIEATQRPAVILAPNKTLAAQLYSEFKNFFPDNAVEYFVSYYDYYQPEAYVPRSDTFIEKESSINEQIDRMRHSATRSLLERDDCIIVASVSCIYGIGSVETYTAMTFQMQVGDRLDQRQLLADLVAQQYKRRDMDFQRGSFRVRGDTIEIFPAHLEDAAWRISMFGDEIDSITEFDPLTGQKTGDLQSVKIYANSHYVTPRPTLNGAIKSIKEELKGRLAELEKAGRLLEAQRLEQRTRYDIEMLEATGSCAGIENYSRYLTGRNPGEPPPTLFEYIPDNALLFIDESHVSVSQIGGMYRGDFRRKATLAEYGFRLPSCMDNRPLRFEEWDAMRPLTVAVSATPGSWEMEQSGGVFAEQVIRPTGLIDPPVEVRSARSQVDDVLGEIRETAAKGYRTLCTVLTKRMAEDLTEYLHEQGVRVRYMHSDIDTLERIEIIRDLRLGAFDVLVGINLLREGLDIPECGFVAILDADKEGFLRSETSLIQTIGRAARNVDGKVILYADNITGSMKRAMEETSRRREKQMAYNAEHGITPESVKAKISDILDSVYERDHVRADISGVSGKGFADGGHLVGNNLQAHLNALEKSMRDAAADLDFEKAARLRDEIKRLKAAELATMDDPMAKEEARAIEGGGKNNRRSHLSISPPEGETSGGTETGAAANESGKSLFAKPSLDEMGPGSDAGKPLFRRNTLDEMTVGRTEKPVRGAVPDKPQTEPGKRFSPLLEGQPERATDDPRPLVRGKIGAGSYEDAGEQKRKSRTKGKTGRPGR	PGPT0014920_22	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014920-uvrB-K03702	NA	NA
BMS010_01401	354			hypothetical protein	ATGCCGTTCTCAATCAGCCCTGCCCATATCTGGCCTGTCCTGATGCTTATCGCCTCCAATGTTTTCATGACCTTCGCCTGGTACGGCCACCTCAAGCACAAGGGCAGCGCGCTCTTCCTGGCGATTGTCGCCAGCTGGGGCATCGCCTTCTTCGAATATGTGCTTGCCGTTCCCGCCAACCGCATCGGTTCGGAGGTCTATTCGACCGCGCAGCTCAAAACCATTCAGGAAGTCATCACGCTCGCGGTCTTCGCGCTGTTTTCGATCTTCTGGCTGAAGGAAAGCATCACCATCAATCACGTGATCGGTTTCGCGCTGATCGCTTTCGGTGCGTCCTTCATTTTCCGCTCCTGA	MPFSISPAHIWPVLMLIASNVFMTFAWYGHLKHKGSALFLAIVASWGIAFFEYVLAVPANRIGSEVYSTAQLKTIQEVITLAVFALFSIFWLKESITINHVIGFALIAFGASFIFRS				NA	NA	NA	NA	NA
BMS010_01402	462			hypothetical protein	ATGAAAATACGGCCTGCGACAGTTGACGATGCAACGGGAATGGCGGCGGTTCAGAACGAGATATTCTCGGCCGGCCTCCGAAAAGCGCCGACGGACATTACGGCGGTGCTGGAGAATTACCTCCAGCACGCCGACCGTATCCAATGCTCGGTCGCCGAGGACGATGACGGGCGTATCCTGGGCTTCCAGTCGCTGCGTTATGCGCGGACGAACAATCCCTATGGCGTGGCGGAAGGCTGGGGCATCATCGGCACCCATGTCAGCCCGCAGGCGGCACGAAGAGGTGTGGGATCCGCCCTCTTCGCGGCAACGCGCAGGGCGGCGGAGGCGCGTGGCCTTAAAAATATCGATGCCAGCATCGGTGCGGACAACATGCTCGGCCAAAGCTATTACGACGCGATGGGATTTGCGACCTATCGCCAACCGGAAGGGCTGGTCTGCAAGGTTTACCGGCTGGGCTAG	MKIRPATVDDATGMAAVQNEIFSAGLRKAPTDITAVLENYLQHADRIQCSVAEDDDGRILGFQSLRYARTNNPYGVAEGWGIIGTHVSPQAARRGVGSALFAATRRAAEARGLKNIDASIGADNMLGQSYYDAMGFATYRQPEGLVCKVYRLG				NA	NA	NA	NA	NA
BMS010_01403	384	yybR_2	COG1733	putative HTH-type transcriptional regulator YybR	ATGGCGGATACGCAGACGAAAGAGGTTTTTGCCTTCGACCAGCCCTGCCCCATCCGCGATGTGCTCGACCGTATCGGCGATCAATGGAGCCTTTTGGTTCTGGAAGCCCTGCAGGGCGGCGTGCTGCGCTTCAACGAGCTGAACCGCAGGATCGACGATATTTCCAAGCAGATGTTGTCCCGCACGCTGAAACGGCTGGAAGAAGATGGCTTCATCCGCCGCACGCTTTATGCCGAGGTGCCGCCGCGCGTTGAATATGAGCTGACCAATCTCGGCCGCTCTTTTCTGGTGCCGATGCAATTGCTGGTGCAATGGGCTGACGAGAACCACGTTCGCATCTGCAAGGCCCGCCTGCAATATTCCGAAAACGACAATCGCGGCTGA	MADTQTKEVFAFDQPCPIRDVLDRIGDQWSLLVLEALQGGVLRFNELNRRIDDISKQMLSRTLKRLEEDGFIRRTLYAEVPPRVEYELTNLGRSFLVPMQLLVQWADENHVRICKARLQYSENDNRG				NA	NA	NA	NA	NA
BMS010_01404	612			hypothetical protein	ATGGCTAAAATCGCGCTCATCGGCGCTTCCGGCAATGCCGGGTCCCGTATTCTGAAGGAACTTTCCGACCGGGGACATCAGGTGACGGCAATCGCCCGCAATCCCGAAAAGATCGCCAGCCTGCCGAATGTGGTGGCAAAGAAGGGCGATGTTTTCGATCAGGCAGGGCTTTCGGAACTGCTGAAGGGTCACGATGCCGTGATCAGTTCGGTGCATTTCACCGCCAGCGATCCGGCAACGCTGATCGAGGCAGTGCGCGCCTCCGGCGTTCAGCGCTATTTCGTCGTCGGCGGCGCCGGCAGCCTTGAAATTGCGCCGGGCCAGCGTGTGGTCGACCTGCCGGATTTCCCGGCCGCCTACAAGGCCGAAGCGACCAAGGGCGCGGAGTTCCTGGACCGGCTGAAACAGGAAAAGCAGCTCGACTGGACCTTCCTGTCGCCATCCGCCGAATTCGTGCCGGGCGAAAGAACGGGCAAATTCCGCATCGGCAAGAATAATCTCCTCAGCAACGATGAGGGCAGCCGCATTTCCTTCGAAGACTATGCCATCGCGCTTGTCGATGAAATCGAGAAGCCGCAGCATTCCCGCCAGCGTTTCACCGTCGGTTATTGA	MAKIALIGASGNAGSRILKELSDRGHQVTAIARNPEKIASLPNVVAKKGDVFDQAGLSELLKGHDAVISSVHFTASDPATLIEAVRASGVQRYFVVGGAGSLEIAPGQRVVDLPDFPAAYKAEATKGAEFLDRLKQEKQLDWTFLSPSAEFVPGERTGKFRIGKNNLLSNDEGSRISFEDYAIALVDEIEKPQHSRQRFTVGY	PGPT0020900_1801	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020900-putative_saccharopine_dehydrogenase-K07118	NA	NA
BMS010_01405	477			hypothetical protein	ATGAATTTCGTAACACGCCGTCTTGCCATCGCCGCATTCGCTCTCGTGCCCGCCTTGATGGCAGCGCCCGTTCTGGCGCAAACCGCAGCACGGGACTTCGCGCAGGAAGAAGCCAACCGCAAACTGGTGATCGAGTTCTACGATACGGTCTTCAACAAGCATGAGGTTGACAAGGGCGCCGCCGTCCTCGTCGACAGCTACAAGCAGCACAACCCGATGGTGCCGGATGGTAAGAAGCCGTTCGTGGATTATTTCACCGGCCACTTCAAGGAAAACCCGCAGTCGAAAGCGCGGATCGTGCGCAGCGCCACGGATGGCGATCTGGTCTATCTGCATATCCATTCAACGGAAAATGAAGGCGATCGCGGTAGGGCCATCGTCGATATCTTCCGCGTCACCGATGGCAAGATTACCGAGCACTGGGACGTGATCCAGGAGGTGCCGGAAAAGGCGGCGAACAATAATACGATGTTCTGA	MNFVTRRLAIAAFALVPALMAAPVLAQTAARDFAQEEANRKLVIEFYDTVFNKHEVDKGAAVLVDSYKQHNPMVPDGKKPFVDYFTGHFKENPQSKARIVRSATDGDLVYLHIHSTENEGDRGRAIVDIFRVTDGKITEHWDVIQEVPEKAANNNTMF				NA	NA	NA	NA	NA
BMS010_01406	1365			hypothetical protein	ATGTCTGTTACGACCTCTTTCGAGGGCGAGCGCGCGCCTGCGCATTCCTCGTCCGCAAATCTTTACCGCGCCGTATGGCGCTGGCATTTCTACGCCGGTCTCTTCGTCCTGCCCTTCATGATATCGCTCGCCGTCACCGGTGCGCTTTATCTCTTCCGGGACGAGTTCGATAATCTCATCCATTCAGACCTGAAGCGGATCGAAGTGGTGCAAAACGCGCCGAAAGCGCTGCCTTCCGAGATCGTGAGTGCAGCACTTGCGGCCGTTCCCGGCGCAGCCGTCAAATATACCACCCCCGCCGATCCGGGCGCGTCGGCGGAAATCACCGTCAATACGGCGGATGGAAAGCGGGCCGTCTACGTCAATCCCTACACTGCTGAGGTTGCCGGCTCCCTGCCGGATCGCGGCACCGTCATGTGGACGATCCGCTATCTCCACAGCCTGAAATATTTCGGCACCTATGCCCGCTATCTGATCGAAATCGCTGCCGGCTGGTCCATCCTTCTTGTCGCCACCGGCATCTATCTCTGGTGGCCGCGAAAACAGACCGGCGGTGTCGTGACCGTGCGCGGCACGCCGAAAAAGCGGGTGTTCTGGCGCGATACCCATGCCGTCACCGGCATTTTCGTCGGCTTTTTCATCGTTTTCCTTGCGGTCACCGGCATGCCCTGGTCGGGCGTCTGGGGTGCGAAGATCAATGAATGGGCGAATGGCAGCAACTTCGGATATCCGGCGGGCATTCGCACCGATGTTCCGATGTCGGGCGAACATCTCGACCACGTGGCGAAGACAAGCTGGTCACTGGAGCAGGCGAAAATACCGGAATCCACCCATTCCGCCGAAGACCAGCCTATCGGGATCGACGAGGCGATAGCACGTTTCGACGCGCTCGGTCTTGCCGCCGGTTACGCTGTCTCCCTTCCGGGAAAACCGACGGGCGTTTATAGCGGCTCCGTCTATCCCGACGATCTGGCGCAGCAACGGGTCGTCCATCTCGATCAATATAGCGGCGAGCCGCTGATCGATATGAGCTACGCCGATTACGGCCCGCTCGGCAAGGCGCTGGAATGGGGCATCAACGTGCATCTGGGCCAGCAATATGGCCTTGCCAACCAGATCGTGCTTCTGGCGGCCTGTATCGGCATTGTGCTGCTTGCCGTGTCCGCCGGCATCATGTGGTGGAAACGCCGCCCCAAGGGTTCGTTCGGCGTGCCGCCCCTGCCGCAGGAAAAACGCGTCCTGCACGGTCTACTCGCCATACTCGCCATCGGCGGCATCATTTTCCCGCTGGTGGGCGCGAGCCTGCTGGCCATGCTGGCGCTGGATCTGATCGTACAGTCGCGCCAGAAACGACGCGCGATCTGA	MSVTTSFEGERAPAHSSSANLYRAVWRWHFYAGLFVLPFMISLAVTGALYLFRDEFDNLIHSDLKRIEVVQNAPKALPSEIVSAALAAVPGAAVKYTTPADPGASAEITVNTADGKRAVYVNPYTAEVAGSLPDRGTVMWTIRYLHSLKYFGTYARYLIEIAAGWSILLVATGIYLWWPRKQTGGVVTVRGTPKKRVFWRDTHAVTGIFVGFFIVFLAVTGMPWSGVWGAKINEWANGSNFGYPAGIRTDVPMSGEHLDHVAKTSWSLEQAKIPESTHSAEDQPIGIDEAIARFDALGLAAGYAVSLPGKPTGVYSGSVYPDDLAQQRVVHLDQYSGEPLIDMSYADYGPLGKALEWGINVHLGQQYGLANQIVLLAACIGIVLLAVSAGIMWWKRRPKGSFGVPPLPQEKRVLHGLLAILAIGGIIFPLVGASLLAMLALDLIVQSRQKRRAI				NA	NA	NA	NA	NA
BMS010_01407	384			hypothetical protein	ATGCAGGACAGAAGTTCGGCTGGCGCCATCGCCATGCTGGCGGTTCTGCTTTTCCTTTTGCAGGGCCTTGCCAACGGCCTGACCAGCGGCAACATGGCGATGGCCGCGCTGGCGGCGGATGAGATCATCTGTTCCAGCCATATGCCGGAAGGCGGCTCCGGCAAACAGAACCCTGCCGGCAAGATCGCCGACGACTGTTGCGGCACGCTCTGCCGTCTGGCTTCGGCCACGGCCGCCGCTCTTCCGGTTATTCCCGTCGAGCGCGCGGACAATATTCTTCCTGCGGTCGAAGTCACCTTCCTGAACATCGACGCGGCGTTGCCGCCATCGCCGCCCAATCTGGAATCGCGCCCACGCGCACCCCCCTCCGCTCCGCGACGCTAG	MQDRSSAGAIAMLAVLLFLLQGLANGLTSGNMAMAALAADEIICSSHMPEGGSGKQNPAGKIADDCCGTLCRLASATAAALPVIPVERADNILPAVEVTFLNIDAALPPSPPNLESRPRAPPSAPRR				NA	NA	NA	NA	NA
BMS010_01408	393		COG1607	putative acyl-CoA thioester hydrolase	ATGACCGAGCAGACCATCAAACCGACCGGCGAGCTGACGCTCAGAACGCTTGCCATGCCGGCCGACGCCAATCCGGCCGGCGATATTTTCGGGGGCTGGGTCATGTCGCAGATGGACTTGGCGAGCGGCATCCGTGCAGCAGAGCGTTCCCGCTGTCGCGTCGTCACCGCGGCGGTCAAGGAAATGGCCTTCGAGTTGCCGGTGAAGATCGGCGACACGCTGTCCATCTATACCGACATCGCCCGCGTTGGCCGCACCTCCATCACGCTGACGGTGGAAGCCTGGGCGCAGCGGTCGCGTTATGACAAGCTGGAAAAAGTCACCGCCGGAACCTTCATCATGGTGGCGATGGACGAAAACGGACAACCCACGCCCATTCCGGCAGCGGAATAA	MTEQTIKPTGELTLRTLAMPADANPAGDIFGGWVMSQMDLASGIRAAERSRCRVVTAAVKEMAFELPVKIGDTLSIYTDIARVGRTSITLTVEAWAQRSRYDKLEKVTAGTFIMVAMDENGQPTPIPAAE	PGPT0001830_504	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001830-yciA-K10806	NA	NA
BMS010_01409	888	rlmB_1		23S rRNA (guanosine-2'-O-)-methyltransferase RlmB	ATGAGCAAAGACGATCCCAAGAACAAATCCACCCGCGACACGCACTATGCCAACCTGCGCCGCGCCGTGCGCGACGCCAAGCGCGAGCGCGGCGAAATTCCGACCCCGCAGCAGCCAAGGCGCAAGAACCGCGGCTCGGACGACTGGAAGCCGCCGCAGCTTGCGCCCGATCAGGTGCATCTTTACGGCCTGCATACCGTGCGTGCGGCACTCGCCAATCCCGAACGGCAGATCGTCAAGCTCTTCGTCACCCAGAACGCCTTTGCGCGTCTCGATATCGGCGAGGCCGATGCCCAGCCCTTCCCCGTCGAGATGGTTTCGCCTCAGGATATCGACCGTGTGCTCGGCCCCGAGGCCATCCATCAGGGCGTGATGCTGGAAACCCGGCCGTTGCCGGTCAAGCGTCTCGGCGCGCTGAAGGACAGCCCGCTCATTCTCGTGCTCGATCAGGTCACCGATCCGCACAATGTCGGCGCCATCATGCGCTCGGCGGTCGCCTTCAACGCCGGCGCCGTCATTACCACCATGCGCCACAGCCCGACCGAGTCGGGCGTGCTGGCGAAATCGGCTTCCGGTGCGCTGGAGCTCATTCCCTATATCCAGATCACCAATCTGGCCGATGCGCTCGGCGAGCTGCACAAGCTCGGCTTCTTCTCCGTCGGTCTGGATTCGGAAGGCCCCGCCCCCATCGAGCAGACATTCAGCGGTGAAAAAATCGCTCTGGTGCTGGGCGCCGAAGGCAAGGGCCTGCGCCAGAAAACGCGCGAAACCGTCTCGGCGCTCGCCCGTCTCGATATGCCCGGCGAGATCAAATCGCTCAACGTTTCGAATGCGGCAGCCATCGCCCTTTATGCAACGCAGCAATTTCTGGGCAAAGCGTCGTCCTGA	MSKDDPKNKSTRDTHYANLRRAVRDAKRERGEIPTPQQPRRKNRGSDDWKPPQLAPDQVHLYGLHTVRAALANPERQIVKLFVTQNAFARLDIGEADAQPFPVEMVSPQDIDRVLGPEAIHQGVMLETRPLPVKRLGALKDSPLILVLDQVTDPHNVGAIMRSAVAFNAGAVITTMRHSPTESGVLAKSASGALELIPYIQITNLADALGELHKLGFFSVGLDSEGPAPIEQTFSGEKIALVLGAEGKGLRQKTRETVSALARLDMPGEIKSLNVSNAAAIALYATQQFLGKASS				NA	NA	NA	NA	NA
BMS010_01412	2211	cph1		Phytochrome-like protein cph1	ATGAGTTCAAATACGCCGAAACTGGATAGTTGCGGCGCCGAGCCCATCCACATTCCCGGTGCTATTCAGGAACATGGGGCCCTTCTGGCTCTGTCCGCGCGGGAATTTTCCCTGGTGCAGGCGAGCGATAATCTTGCCGATTATATTGGTTTGGCCCTGCCAATCGGGGTCGTCGTCACCGAAAAAATCTTGCCCTTCATCTCCGCACTCTCCGCCTGGTATTCCTCCGAAGAGAGCAACTTCCGATATGCGTGGGCCGAAAAGAAACTCGATGTTTCGGCGCATCGATCAGGGACTTTGGTTATTCTCGAGTTGGAAAAGGCAAGAGAGGGCGAGTCGGCTGAAAAGCTGATGGGCGAACTTACCAATCTGGCGCAATATCTGAACAGCGCGCCATCGCTGGAGGACGCTCTTTCGCGGACCGCGCAATTGGTGTCCTCGATCAGCGGTTATGATCGTACCTTGATTTATGATTTCGGACTGGACTGGAGCGGCCATGTCGTGGCGGAAGCCGGAAGCGGGACTTTGCCGTCTTATCTCGGACTTCGCTTTCCGGCGGGCGACATCCCGCCGCAGGCGCGGCAGCTCTACACCATCAATCGCCTGCGGATGATTCCCGATGTCGATTATAAGCCTGTCCCGATCAGACCGCCGGTCAATGCGGAAACGGGAGCGGTGCTCGATATGAGCTTTTCGCAGCTCCGCAGCGTGTCGCCGGTTCATCTCGAATATATGCGCAATATGGGCACGGCCGCTTCGATGTCCGTGTCGATCATCGTTAATGGCACTCTCTGGGGCTTGATCGCCTGCCATCATGCGACACCCCATTCGGCATCCTTTGCCGTCCGTGAAGCCTGTGATTTTGCGGCACAGCTCCTGTCTATGCGGATCGCGGCCGAGCAGAGTTCCCAGGATGCATTCCGCCGGGTGGAGCTTGGCCAAATTCAGGCGCGTCTCTTGAAAGGCATGGCCGCCGCCGAAAAATGGGTTGATGGACTGCTTGCGGGTGACGACGAAAAAAACGACCTGCTGAAACAGGTGGGAGCGGACGGCGCTGCACTCGTCCTTGGCGACGACTATGAGCTTGTCGGCAGAACGCCGTCACGGCAGCAAGTTGAAGAGCTTGTCTTATGGTTCGCAGAGAAGGACGTTGTGGACGTTTTTGCAACCGACAATCTGGCCGGCGATTACGCTGCCGCTGAGGCCTATGCTGCCGCCGCAAGCGGAATTATTGCGATGCGGGTTTCGGAATTGCACGGCAGTTGGCTTATCTGGTTTCGGCCGGAAGTCATAAAAACGGTGCGCTGGGGCGGTGATCCGCACAAAACAGTGCAGGAGAGCGGGCGCATTCATCCGCGCAAGTCCTTTGAAATCTGGAAGGAGCAATTGCGCAATACGTCATCTCCCTGGTCGGAGGCCGAGCTTGCGGCGGCGAGGGAGCTTCGCAGCGCGATCATCGGCATTGTCCTGCGCAAGGCCGAGGAGATGGCGGATCTGACGCGGGAATTGCAGCGGACCAACAAAGAGTTGGAGGCATTTTCCTATTCCGTTTCGCACGACCTGCGTGCCCCGTTCCGTCATATTGTCGGGTTTGCGCAGTTACTGCGGGAGCGCAGCAATGTTCTGGACGAGAAATCCCTGCATTATCTGCAGATGATATCAGAGGCGGCGCTGGGTGCCGGCAGGCTGGTGGATGATCTCCTGAATTTTTCACAGCTTGGCCGCACGCAACTCACCCTGAAACCGGTGGATATGCAGAAGGTGGTGAGCGAAGTTCGTCGCTCTCTGGCGCCCGCCGTTGCGGATCGCCAGATCGAGTGGCGCATCGGAGAGTTACCGGTGATATTCGGGGATGCGACCCTGCTGCGGCAGGTCTGGTACAATCTCATCGAAAATGCCATCAAATATTCGTCTCGGGAGCCGGTCTCGATCATCACCATTTCTGCGGTTGAAACCGAGGATGACGTCACTTATTCGGTCGAAGACAATGGTGTTGGCTTCGATATGGCCTATTACAGCAAGCTTTTTGGTGTGTTCCAGAGGTTGCAGCGGGTAGAGGATTTCGAGGGAACGGGCATTGGACTGGCGCTGGTGCGACGAATTGTCGAACGCCATCACGGTTCGGTCGGTGCCGAGGGAACTGTCGGTGAGGGAGCCACGTTCTTCTTCACATTGCCGGTTATGAAAGTTGAAGAGGAAAAAATTGCCTGA	MSSNTPKLDSCGAEPIHIPGAIQEHGALLALSAREFSLVQASDNLADYIGLALPIGVVVTEKILPFISALSAWYSSEESNFRYAWAEKKLDVSAHRSGTLVILELEKAREGESAEKLMGELTNLAQYLNSAPSLEDALSRTAQLVSSISGYDRTLIYDFGLDWSGHVVAEAGSGTLPSYLGLRFPAGDIPPQARQLYTINRLRMIPDVDYKPVPIRPPVNAETGAVLDMSFSQLRSVSPVHLEYMRNMGTAASMSVSIIVNGTLWGLIACHHATPHSASFAVREACDFAAQLLSMRIAAEQSSQDAFRRVELGQIQARLLKGMAAAEKWVDGLLAGDDEKNDLLKQVGADGAALVLGDDYELVGRTPSRQQVEELVLWFAEKDVVDVFATDNLAGDYAAAEAYAAAASGIIAMRVSELHGSWLIWFRPEVIKTVRWGGDPHKTVQESGRIHPRKSFEIWKEQLRNTSSPWSEAELAAARELRSAIIGIVLRKAEEMADLTRELQRTNKELEAFSYSVSHDLRAPFRHIVGFAQLLRERSNVLDEKSLHYLQMISEAALGAGRLVDDLLNFSQLGRTQLTLKPVDMQKVVSEVRRSLAPAVADRQIEWRIGELPVIFGDATLLRQVWYNLIENAIKYSSREPVSIITISAVETEDDVTYSVEDNGVGFDMAYYSKLFGVFQRLQRVEDFEGTGIGLALVRRIVERHHGSVGAEGTVGEGATFFFTLPVMKVEEEKIA				NA	NA	NA	NA	NA
BMS010_01413	456	rcp1_1		Response regulator rcp1	TTGCCTGAACTCAGACCCATTCTGCTGGTGGAAGACAATCCACGCGATCTGGAACTAACGCTGACCGCTCTTGAAAAATGCCAATTGGCGAATGAGGTGGTGGTGGCACGCGATGGCACCGAGGCACTCGACTATCTGAATGTAACCGGTAGCTATCATAACCGCTCGGCTGGTGATCCGGCGGTAGTTCTTCTCGACCTCAAACTGCCGAAAGTGGATGGGCTTGAGGTTTTGCAGACGGTCAAGGGCAGCGATCACTTGCGGCACATTCCGGTCGTCATGCTGACGTCTTCGCGAGAAGAACAGGATCTCGTCAGGAGCTACGAACTCGGCGTGAACGCGTTTGTCGTCAAGCCTGTGGAATTCAACCAGTTCTTCAAGGCGATACAGGATCTTGGCGTCTTCTGGGCTCTCCTGAACGAACCGCCACCGGGTGCACATCGCAATGGCGGATGA	MPELRPILLVEDNPRDLELTLTALEKCQLANEVVVARDGTEALDYLNVTGSYHNRSAGDPAVVLLDLKLPKVDGLEVLQTVKGSDHLRHIPVVMLTSSREEQDLVRSYELGVNAFVVKPVEFNQFFKAIQDLGVFWALLNEPPPGAHRNGG				NA	NA	NA	NA	NA
BMS010_01414	993	cheB_2		Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGGAGGCAAGCAGACTTCTTCTCCTGGAAGACAGTTCTGTGGATGCCGAACTGATCGAAGAACAGCTTTCACGCCTTTCGCCGCCACCTGCGGTAACGAGAGCCGTCGGCAAGGCATCGTTCATTGAGGCGTTGGAAAAACAGCAGTTCGATATCATTCTCGCGGATTTCTCCTTGCCGGACTTCGATGGCATGTCGGCGCTCGATGTCGTTATGGCGAAAAGACCCGATACGCCGTTCATTTTCGTGTCCGGTGTCTTAGGCGAGGACGCGGCGATCGATGCATTCCGGCGCGGGGCGACGGATTATGTTCTCAAGCAGCGGCTTGTGAGACTGCCATCCGCTGTCGAGCGCGCGCTGGCGGAAGCCCGGGAGAAACAGGAGCGAAAGCGGGCGGAGCTGCACAAGGAGCTGCTCGTCCGTGAGCTCAGCCATCGCGTCAAGAACACGATGGCGATGGTCGTTTCAATCATTCGCAGAACGGCCAAAGGCAGCACCTCCATCAAGGATTACCAAGAACGGCTGGTGGCCCGCGTGAGTGCCCTTGCGGAGAGCCATGCGCTGCTTTTTCAGAGTAATTGGGGTGAGACGAATCTGAGGGATGTCGTGACGCGGGCGATCGAGCCGCATAATACCTTTGCGAGCAGGATCGAGCTCGACGGTCCGGATGACGTACAGGTGTCGCCGAAATCGGCGCTGGCACTGGGAATGATCCTGCACGAGCTAGCCACAAATGCCCAGAAATACGGTTCTCTTTCCGGCGCAAACGGAAAGGTCGAGGTTGTCTGGAAAAAGATTCTGAACGGAGACGGCCATGACTGCATCGACCTGCGGTGGCAGGAAAGCGGCGGCCCGCCTGTTTCCGTGCCGCAGGATACCGGATTTGGAACAACCCTTATAACAAGGGGTGTGCAATACGAATTGCAGGCGGAAAGCGAAATTCGCTATGATCGCGACGGCTTGCGATATCAGGTCATTTTTCCCCTGAACTAA	MEASRLLLLEDSSVDAELIEEQLSRLSPPPAVTRAVGKASFIEALEKQQFDIILADFSLPDFDGMSALDVVMAKRPDTPFIFVSGVLGEDAAIDAFRRGATDYVLKQRLVRLPSAVERALAEAREKQERKRAELHKELLVRELSHRVKNTMAMVVSIIRRTAKGSTSIKDYQERLVARVSALAESHALLFQSNWGETNLRDVVTRAIEPHNTFASRIELDGPDDVQVSPKSALALGMILHELATNAQKYGSLSGANGKVEVVWKKILNGDGHDCIDLRWQESGGPPVSVPQDTGFGTTLITRGVQYELQAESEIRYDRDGLRYQVIFPLN				NA	NA	NA	NA	NA
BMS010_01415	426			hypothetical protein	ATGTTGATTGGCGGTGCCAGACTGAGTCCAAATGACGAAAATGCGGTAACAATGAGCTATAGTTTCCAGGGAAAACAAATCCTCGTGTTGGAGGACGACGCGCTTCTGGCGATGGATATGGAGGATTTCCTTTCCGATCTGGGAGTCAATGTCGTCGGGCCGGTTTCGCACATCGGTGCCGCCCTGGAGAAAATAAACGACACCGATCTGGATGGCGCCGTCATCGATCTCAATTTGCGAGGCGAATTGTCCTTACCCGTCATTGAAGAGCTCAAGGCGGCAAACATCCCCTTCGTCATCTGCAGCGGATATGCGGAGATACCCGGGGTCCGCGCGCAGCTCGACGGGCTGACGGTCGTCTCCAAACCCTGCGATTTCGACAATCTGTCGCGTGTTCTGGCGAACGAGTTTTCACTGACCAACTAA	MLIGGARLSPNDENAVTMSYSFQGKQILVLEDDALLAMDMEDFLSDLGVNVVGPVSHIGAALEKINDTDLDGAVIDLNLRGELSLPVIEELKAANIPFVICSGYAEIPGVRAQLDGLTVVSKPCDFDNLSRVLANEFSLTN				NA	NA	NA	NA	NA
BMS010_01416	1455	sasA_3		Adaptive-response sensory-kinase SasA	ATGCTTGCCGTGGGTGTTGCGATTTTGATTGGCATGGTCTCCATGTCGTTGTGGCTTGTGCAGGTGAATAACCGCTATTCCCAGGAAACAGCGGAACTCCGACGTTTCCGTGCCGCTGTTTTGGATGTGCTGACGACGATGCAGGACATCGAAACCGGCCAGAGGGGATATCTGCTGACCAATAATCGCGATTATCTTCTGCCTTATGAAGAAGCCCTGCGTGGCTTGCCTCAACGCCAGTCAAGACTTTTCGATCTTCTGACGGAAGACGAGCAATACAAGCAGTCTCTTTCGGGCCTGAGGCAGGCAATCGACGCGAAGTTGGCCGAGACCCGCGAGACCATAGATCTGCAGCGTGCGGGCCGAATAACGGAGGCGGTTGAGGTCGTCCGCAATAATGACGGCAAACGCTTCATGAACGAGATCAGGAGTATTCTGTCTGACCTGCAATCGGACACAGATGATCGCTTGCGCATCATCGTTGCGGATCAGCTGGGGGCTGCCAATACGCTGCGGTGGGTGACGGTCGGCGGTGCGCTCGCCATCCTCATTGTGGTGGGTGGTTCGATCTTCCTTGTCTTCACCTATATCCGCGCCCTGACAAGGTCGCGGGAGGATGTCGATGAACTCAATCGTCATCTTGAAGAACGTGTAGAGGAAAGAACGCGCGATCTCCGGCGAGCCAATCAGGAGATTCAGCGCTTCGCCTATATCGTAACGCATGACCTGCGCGCGCCGCTCGTCAATATCATGGGCTTCCTCTCCGAATTCGATACATCGCTGAAGCCGGTGAGCCGTTATGTTCTCGCAGATGGCGAGTCGCTGCCGGAAGATGTTATCCGTGAGGCGCGGCTGGCTGTTGAAGAGGATATTCCAGAGGCTATCGGCTTCATTCGCTCGTCTACCCGCAAAATGGATCAGCTGATCAACGCCATCCTTAAAATATCCCGCGACGGCCAGCGAAAGCTACAGCCGGAAAAGGTTGATATCGAAATGTTGCTTTCGTCGCTGTCTGAGACGGTGCGTCACCAGATCAACGCCAATGGCGGTGAGATTGAGGTCGATACGCCGAAGCTGACGATCGTGACCGATCGAATATCCCTTGATCAGATTCTTGGAAATCTTTTCGACAATGCGGTGAAATACCAGATGCCTGGCCGTCCGCTGAGGCTGACGGCACGAGCCTATCCAGCCGGGCGGGGGGCGATTTGTATCGAGGTCGCCGACAACGGGCGCGGTATCGGCGAACAGGATCTTGAACGGATTTTCGAGCTCTTTCGCCGGGCGGGCAGTCAGGACCAGCCGGGAGAGGGCATTGGTCTCGCGCATGTTCGTTCGCTAATCAGAAATTTAGGAGGTGACATTAAAGTCGAGTCTAAACTCGGTGAGGGCAGTACATTCATCCTGCTGATGCCGAGCGATCTCAGACGAGTCACCAAGGAAGGCGAAAAATGA	MLAVGVAILIGMVSMSLWLVQVNNRYSQETAELRRFRAAVLDVLTTMQDIETGQRGYLLTNNRDYLLPYEEALRGLPQRQSRLFDLLTEDEQYKQSLSGLRQAIDAKLAETRETIDLQRAGRITEAVEVVRNNDGKRFMNEIRSILSDLQSDTDDRLRIIVADQLGAANTLRWVTVGGALAILIVVGGSIFLVFTYIRALTRSREDVDELNRHLEERVEERTRDLRRANQEIQRFAYIVTHDLRAPLVNIMGFLSEFDTSLKPVSRYVLADGESLPEDVIREARLAVEEDIPEAIGFIRSSTRKMDQLINAILKISRDGQRKLQPEKVDIEMLLSSLSETVRHQINANGGEIEVDTPKLTIVTDRISLDQILGNLFDNAVKYQMPGRPLRLTARAYPAGRGAICIEVADNGRGIGEQDLERIFELFRRAGSQDQPGEGIGLAHVRSLIRNLGGDIKVESKLGEGSTFILLMPSDLRRVTKEGEK				NA	NA	NA	NA	NA
BMS010_01417	438	rcp1_2		Response regulator rcp1	ATGAAAGCGACCGGTCAGGAAGTAACGATCGTGATGATCGAAGATGACGAAGGCCATGCCCGGCTGATCGAGAAGAACGTGCGGCGTGCCGGCGTGAACAACGAGATCGTGCCTTTTACGCTTGGCGCCAAGGCGCTGGATTTCATATTAGGCGAAAGTCGGGATGGGCTTGTCAGCAAGGACCGCTATCTTCTCGTCCTGCTCGATCTCAATCTTCCGGATATGTCGGGCCTTAACATTCTCGAGCAGATCAAGAGCAATGAATATACCCGCCGCTTGCCTGTGGTGGTTTTGACAACGACCGACGATGAGACTGAAATTCAGAAATGCTATGATCTTGGCGCGAATGTTTATATAACCAAGCCGGTCGACTATGAGGGCTTTGCCAACGCCATCAAAAATCTCGGCCTGTTCTTTTCCGTAATTCAGATACCTTGA	MKATGQEVTIVMIEDDEGHARLIEKNVRRAGVNNEIVPFTLGAKALDFILGESRDGLVSKDRYLLVLLDLNLPDMSGLNILEQIKSNEYTRRLPVVVLTTTDDETEIQKCYDLGANVYITKPVDYEGFANAIKNLGLFFSVIQIP				NA	NA	NA	NA	NA
BMS010_01418	1047	cheB_3		Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGATGGCTTTGCGCGTTTTGTACGTCGATGACGACCCGGCTTTGGCTCGGCTTTCGAGCCGCGTTCTTGGTCGTCACGGTATGGAGGTGGTTCACGCCACCTCAGTAGCTTCCGGTCTCGAGCTTTTTCAAAACGGGCAGTTCGATGTCGTCGTTCTCGACCACTATTTCCAGACGGCAACTGGCATGGAATTTCTTGCCGCGATCCAGACGATACCGGCAAGGGCTCCTGTTCTCTATGTGACGGGGTCCAACGAGGCCCAGATCGCCATAGACGCGCTCAAGGCGGGTGCTGCCGACTACGTCATCAAGAATGTCGGGGACGACTTCTTTCCGCTTCTGCTCACGGCAATCGAGCAGGCATTGGAAAACCATCGCCTGCGCCAGACCAAGGAAGAGGCCGATCGTTTGCTGGTAAAGGCCAAAGAACACGCGGAAATGATGGTGAAGGAGATGAACCATCGTGTCGCGAACAGCCTATCGCTGGTGTCGGCCATGATCCGCTTGCAAATAAACACCCTGAAATCGCAGGAGGCGGAAACCGCGTTGCTGGAAACGCAAAGCAGGATTTCGGCCATCGCCGGCGTGCACCGCAGCCTCTATAATACCGCCAATGTCGGGCTGGTCTCCCTGAGTTCCTATCTAACCTCCATCATCGGCGACCTGTTCCAGGCGGTGCCCGGCTCTTCTTCCGTCACGGTCGAGACTTCGCTTTGCGAAATCGATCTCAAGGCGGATCATGCCGTGGCGCTTGGTGTCATCATAACCGAGCTTCTGACCAATGCGCTGAAATATGCTTATCCTGACCAGACCGGTACGGTTCGCGTCAAACTCTCCGAAGATAATGGACAGTTTGTTCTGCTGGTGGAGGATGACGGCGTCGGCGTGCCGTCAAATTCGACTCCGCGTGGCACAGGCCTCGGTACGAAGCTGATCATGGCGATGGCGCAGAATATCGGTGCACGTGTCGAGCAGACCCATACGCATCCCGAACTGAGGCAGGGAACGCGTTTTACGATGACATGGCATGAGAAGCGGCAGGATTGA	MMALRVLYVDDDPALARLSSRVLGRHGMEVVHATSVASGLELFQNGQFDVVVLDHYFQTATGMEFLAAIQTIPARAPVLYVTGSNEAQIAIDALKAGAADYVIKNVGDDFFPLLLTAIEQALENHRLRQTKEEADRLLVKAKEHAEMMVKEMNHRVANSLSLVSAMIRLQINTLKSQEAETALLETQSRISAIAGVHRSLYNTANVGLVSLSSYLTSIIGDLFQAVPGSSSVTVETSLCEIDLKADHAVALGVIITELLTNALKYAYPDQTGTVRVKLSEDNGQFVLLVEDDGVGVPSNSTPRGTGLGTKLIMAMAQNIGARVEQTHTHPELRQGTRFTMTWHEKRQD				NA	NA	NA	NA	NA
BMS010_01419	195			hypothetical protein	ATGTTCTGGAATCTGGAAAAGCTTGAGCAGGAGCGACTTGATCTGATCGAGGTCATCACGGCCCTGCGTCGCGTGGAGCGCCTGTCGAAAACGGATCGCACCTCGATCTTTGAGGAAATCACGGCGCATATGGGAAGGCTGAGTGAACTGGACGCGGAAAAACTGCGGATCCAGTCGGCGCTGGAGCCATCCTGA	MFWNLEKLEQERLDLIEVITALRRVERLSKTDRTSIFEEITAHMGRLSELDAEKLRIQSALEPS				NA	NA	NA	NA	NA
BMS010_01420	327			hypothetical protein	ATGTTGAGGATGCCGAAGACCATCTCCGCGCTCGCTCTTGGCGTCGCGATATCTGCCGCTGCTGTCGTGCCCGCCCATGCGTTGAGCCTCATACAGCCGGCCTACGAAACACAAGCGCAGGCGCAGAATTCAAATCAGCGAGGCTACCCGGCGTCTGCCTTTGCGGCAGGGAAAGGCGAAGAAGCCACGCCCAACGGCTACGCCCTGTCTCAAGCCGAGATCAACCATATAAAATGGTGTGCGGCGCGTTACACATCCTACCACCCCACCGACAACAGCTATATGGCCCCTGCCGGCACGCGGACGCAGTGCCGCTCCCCCTATTGA	MLRMPKTISALALGVAISAAAVVPAHALSLIQPAYETQAQAQNSNQRGYPASAFAAGKGEEATPNGYALSQAEINHIKWCAARYTSYHPTDNSYMAPAGTRTQCRSPY				NA	NA	NA	NA	NA
BMS010_01421	450			hypothetical protein	ATGTTTAACAGGGTTGTCATTCTCTCATCCTTTGCGCTGCTGGCATCGGCGGCGTTTGTCTCCCCCGCAGCCGCACTCACCATGAAGGAGTGCAGCGTGAAATATCAGGCGGCGAAAGCCGATGGGTCGGCCAAGGACGTCAAGTGGAACGACTATCGCGCCAAGTTCTGCGGCAGCGAGGCGGCAGCCGAGGATGCGGCCGACGACAAGCAGGTCGCGGCCACCACCGAAAAAGAACCCGAAAAAGCGACGACAAAGGCCCCGAAGGGCGTCGCTTTCCCGAGTGCTGTCGATAAGAAATACTCAAGCGAGACGCCCGCAAAGGCGCGCCTGAAAACCTGTGTCGACTCCTATCACAAGAACAAGAATGACGGCACGCTCGGCGATCTGAAATGGATCCAGAAGGGCGGCGGCTACTGGAGCCTGTGCAACACGGCCCTGAAAAGCTGA	MFNRVVILSSFALLASAAFVSPAAALTMKECSVKYQAAKADGSAKDVKWNDYRAKFCGSEAAAEDAADDKQVAATTEKEPEKATTKAPKGVAFPSAVDKKYSSETPAKARLKTCVDSYHKNKNDGTLGDLKWIQKGGGYWSLCNTALKS				NA	NA	NA	NA	NA
BMS010_01422	369			hypothetical protein	ATGAAAAAATCCGTTGCCGCGACGTGCCTTGCAGCTTTCTCCATGTCGGTCGCTACCGGCGCCATGGCTGAAGAGCTGGTGATTCCGCTCCCGAATGACACGACGGTTGAAAAGGTGGAGACCGTCTACCAATGCGCCGCCGACAAGGTGGAGGCCGTCTATTTCAATGCCGGTGAGATCAGCCTCGTGCGGCTTGGGCTGAAGGATGGCGTCACCGTTGCCGCAAATGTCATTTCCGGGTCAGGCGCCAAATATCAGGGCGGCATTTATGTCTGGTGGTCGAAGGGCGAGGAGGCGGATCTTTACGATCTGATGGCGGATCCGGAGATGAAAAAGCCGGTTCATTGCGTCGAGGCCAGGAAATCCTGA	MKKSVAATCLAAFSMSVATGAMAEELVIPLPNDTTVEKVETVYQCAADKVEAVYFNAGEISLVRLGLKDGVTVAANVISGSGAKYQGGIYVWWSKGEEADLYDLMADPEMKKPVHCVEARKS				NA	NA	NA	NA	NA
BMS010_01423	633			hypothetical protein	ATGGAAATCTTCACAGCCGCCGGTTTCACGGCATTCTTACAGGTCATCGCAATCGACCTCGTGCTGGCGGGCGACAACGCCATCGTCATCGGCCTTGCCGCCGCCGGTCTGCCCGCTCACCTCCGCCGCAAGGCGATCCTGGTCGGCATCATCGCCGCCACGGTTCTGCGCATCGGCTTTGCCGCCGTCACCGTGCAGCTTCTCGCCATTGTCGGCCTGCAATTGTTCGGCGGCCTGCTGCTCGCCTGGGTGTGCTGGAAGATGTGGACGGAACTGCGTGAGGCCGCAGGCTCCATCGAAGACGAGGTGACGGACGAAGAGGCCGACCTGACGAAGGGTCACAAGACCTTCTTCCAGGCCGCGACCCAGATCGTCATCGCCGATGTTTCCATGTCGCTGGATAACGTCCTTGCCGTCGCCGGCGCCGCGCAGGAACATGTGACGGTGCTCATCATCGGCCTCGTCGTTTCGATTGCACTCATGGGTCTTGCCGCCAACTTCGTCGCCAAGCTGCTGCACCGCTATCGCTGGATTTCCTATCTCGGCCTGATGGTCATCATCTATGTCGCCCTCAACATGCTGTATCACGGCACGCTCGAGGTTCTGCCCTATCTCCAGCCCTATCTGAGCTGA	MEIFTAAGFTAFLQVIAIDLVLAGDNAIVIGLAAAGLPAHLRRKAILVGIIAATVLRIGFAAVTVQLLAIVGLQLFGGLLLAWVCWKMWTELREAAGSIEDEVTDEEADLTKGHKTFFQAATQIVIADVSMSLDNVLAVAGAAQEHVTVLIIGLVVSIALMGLAANFVAKLLHRYRWISYLGLMVIIYVALNMLYHGTLEVLPYLQPYLS				NA	NA	NA	NA	NA
BMS010_01424	750			hypothetical protein	ATGTCCACCTCACCTACCTTTTCACGCCCCTTGCACCTGACACTCTGCCTGGGCGTGCCACTGCTGCTGATCGCCCTGCTCCTGCTGGGCAATCCGAGCCGCCTGGATTTCGCCCTGGCCGACCTGTTCTACCAGCCGGGCGTAGGGTTCATCGCCCGCCGCAGCGCATTCTTCGAAGACATCCTGCACGACCGCGCCAAGCAGGCAGTGATCCTGATCGGCGTACTGGCCATCGCCGGCTTCCTGGTCAGCCTGCTGTACGCACCCTGGCGTCACTTGCGTGCGTCATTGGGCTACCTGGTACTGGCGATGGGCTTGTCCACGGCCATCGTGCCGCCGCTGAAAATCATCACCGGCGTGCATTGCCCCTGGAGCCTGACCCGCTACGGCGGCGTGGAGAGCTACAGTCCACTGATCGGCGAACGCGCACCGACCCTCAAGCCCGGTCGCTGCTGGCCAGGCGGCCATGCCACCAGCGGCTTCGCCTTCTTCGCCCTGTACTTCGTCCTGCGCGACCGCCGTCCGCGCCTGGCACGGGCCGCCTTCGTCGGAGCCCTGGCCCTCGGCGGGCTGTTTTCCCTCGCCAGGATGATGCAGGGAGCGCATTTCCTCTCGCACAACCTCTGGACCGCACTGTTCGACTGGTTGATCTGCCTCGGCTGCTACGCCCTGCTGCTCTATCGCCGACCGGCCCCCGTCATGGCCGAGGCAAGCCAGACACCCGCTTCCACTTCCTCCAACCTGGACTGA	MSTSPTFSRPLHLTLCLGVPLLLIALLLLGNPSRLDFALADLFYQPGVGFIARRSAFFEDILHDRAKQAVILIGVLAIAGFLVSLLYAPWRHLRASLGYLVLAMGLSTAIVPPLKIITGVHCPWSLTRYGGVESYSPLIGERAPTLKPGRCWPGGHATSGFAFFALYFVLRDRRPRLARAAFVGALALGGLFSLARMMQGAHFLSHNLWTALFDWLICLGCYALLLYRRPAPVMAEASQTPASTSSNLD	PGPT0022420_2	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0022420-eptA-K03760	NA	NA
BMS010_01425	657			hypothetical protein	ATGATGCGCCCGACCCTTTCCGCGCCCCTCCACTCTCTTGCGCTGGCCATGATCACTCTGCTCGCCAGCGCCACTGGCGCGGGCGCCACCGAGCGCCCCGCCACCTGGGCACAGCCGGTGGATACCTCCTTCAACCTCTACCGCCTGTCGCCGACGCTCTACCGCAGCGCACTGCCCGAAGCCCGCAACCTGCCACTGCTGGAAGAACTCGGGATGCGCACGGTGCTGAGCCTGATCAAGACCGACGACAAGACCTGGACGAACGGCGCCCCTCTGCGCACCCTCAGCGTTCCGACCCATGCCGACCGCGTCGACGACGCCGATGTGATTCGCGTACTGAACCTCCTCCAGAGCGCCCAGCAACAGGGCCCGGTATTACTGCACTGCAAGCATGGCCGCGACCGCACCGGCCTGTTCGCCGCCATGTACCGCACGGTGATCCAAGGCTGGAGCAGGGAGGACGCACTCCGGGAAATGGTCGAAGGCGGCTTCGGCAACCAGGACGATATGAACGACGCCATACGCTACGTGCGTAACGCCGATATCGAGACGATCCGCCAGGCCATGTCTGAAGGCAGCTGCAGCCCCAGCCCCGTCAGCCTGTGTCATCTGCGCGAGTTGCTGAGCAGTCTGGCCGGCCCCGAAGACCTCGACTGA	MMRPTLSAPLHSLALAMITLLASATGAGATERPATWAQPVDTSFNLYRLSPTLYRSALPEARNLPLLEELGMRTVLSLIKTDDKTWTNGAPLRTLSVPTHADRVDDADVIRVLNLLQSAQQQGPVLLHCKHGRDRTGLFAAMYRTVIQGWSREDALREMVEGGFGNQDDMNDAIRYVRNADIETIRQAMSEGSCSPSPVSLCHLRELLSSLAGPEDLD				NA	NA	NA	NA	NA
BMS010_01426	684	hprR	COG0745	Transcriptional regulatory protein HprR	ATGCGCATTCTGCTGGTCGAGGATAACCGCGACATCCTGGCCAATATGTTGGATTACCTGAGCATCAAGGGGTACAGCGTCGACTGTGCCCAGGACGGCCTGTCCGGCTTGCACCTGGCCGCCACCGAGCATTACGACCTGATCGTGCTCGACATCATGTTGCCCGGCCTCGACGGCTACAGCCTGTGCAAGCGCCTACGGGAAGAGGCACGCCGCGACACCCCGGTGATCATGCTCACTGCCCGCGACCAGCTCGACGACCGCCTGCAGGGCTTCCGCTCCGGTGCCGACGATTACTTGATCAAGCCCTTCGCCCTGTCGGAGCTGGCGGCACGCATCGAGGCGGTGCTGCGCCGCACCCAGGGCGGCGGCCGGCGCCTGCTGCAAGTCGCCGACCTGTGCTACGACCTCGATACCCTGGAAGTCACCCGCGATGGCAAGCCGCTCAAGCTCAACCCCATCGGTCTCAAGTTGCTCGCCGTGTTGATGCAGAAAAGCCCCCATGTGGTGCGCCGCGAGGTGCTGGAAGCGGCCGTCTGGGGCGACGATTGCCCGGACAGTGACAGCCTGCGCAGCCACGTTCACCAATTACGCCAGGTGATCGACAAACCCTTCGCCCGGCCCTTGCTGCAGACCGTCCACGGCGTCGGCTATCGGCTGGCAGAGAGTGCCGATGGAATATAA	MRILLVEDNRDILANMLDYLSIKGYSVDCAQDGLSGLHLAATEHYDLIVLDIMLPGLDGYSLCKRLREEARRDTPVIMLTARDQLDDRLQGFRSGADDYLIKPFALSELAARIEAVLRRTQGGGRRLLQVADLCYDLDTLEVTRDGKPLKLNPIGLKLLAVLMQKSPHVVRREVLEAAVWGDDCPDSDSLRSHVHQLRQVIDKPFARPLLQTVHGVGYRLAESADGI	PGPT0004105_837	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0004105-cusR|copR|silR-K07665	NA	NA
BMS010_01427	1296	sasA_4		Adaptive-response sensory-kinase SasA	ATGGAATATAAGCAGAGCCTGGCGCGGCGGATCGTCATCGCCTTCCTGTTGCTCACCCTGCTGGTGGCCGGCTCTTTCGCCATGGGCATCATCGGCACCGTGCACCTGGTCGAGGAGCGGTTGATTTCCACCGAGCTGGGCCGTGACCTCGATCGCTTGCTGAAGATGGACAGCATGGAGGAGTGGCGCCATCGGCCCGAGCCGGGCCAGTTGTTCTATTTCAGCGACGGCAAGGATGATTTCGCCCTGACGGACGATTTGCGCAATCTGACGCCGGGCTTCCACGAGGTCTTCCGCGACGAACTGTCGTACCACGCCATGGTGCGCGAGGTCAGCGGTCGTCTGTATGTCCTGTTGCAGGACCAGAGCGATTTCGAGGCGCGCGAGCAGGTGTTGTTCGCGGTGGTACAGATCGGCCTGGGGCTCAGCCTGTTGCTCGCCGCGCTGCTCGGCTGGCTGCTGGCGCGACGGGTGATGGCACCGGTGGCGAGGCTGGCCCGCCAGGTGCGTCACCGCGATCAGTTGCTGACCCTGGCACCGCCGTTGGCGCCGGACTACGCCGCCGACGAGGTGGGGCAATTGGCGGCGGCCTTCGACGATACCCTCGGCCAACTGCGTGAGGCGCTGACCCGCGAGCGCCTGTTCACCAGCGATGTCAGCCACGAACTGCGCACACCGCTGATGGTGCTGGCCAGCTCCTGCGAGCTGCTGCTGGAAAACCCGCAACTCGATACCCGTGCTCGCGCCCAGGTGCAGCGCATGGCCCGTGCCTGCGATGAAATGCGGGGACTGGTGCACACCTTCCTGCTCCTCGCCCGGGCGCAGAGCGAGGGCGACGATCAGGCGACCCTGGCCAGCCTGCTCGAAGTGGCCGATGACCTGGCCGCGCAATGGCGTCAGCCGATTGAAGACAAGGGGTTGCGTTTCGATTACCGGAGCGACGAACTCCCGGCGGACGAGGCGGGGCGCCGGTATAACCTGACCTTTCTGCACACAGTGATGAGCAACCTTCTGCGCAATGCCCTGCATTACACCGAGAAGGGCTGGATCAGCCTGAGCCTGGAACCGCATGGCTTCGTCGTCGAGGACAGCGGTGTGGGTATTCCCGAGGAACAGCGCGAGCGGGTCTTCCAACCCTTCGTGCGCGGCACGGACCGGGGCGAGGGGCTGGGGCTGGGGCTGTCGCTGGTTCGGCGGATTTGCGTCAGCCAGGGCTGGACGGTGGAGTTGCTGACGGCCGAGTCGGGTGGCTGCCGTTTCCGGGTCCGGCTGGATGGCGAGGCCGTGGGCTGCTGA	MEYKQSLARRIVIAFLLLTLLVAGSFAMGIIGTVHLVEERLISTELGRDLDRLLKMDSMEEWRHRPEPGQLFYFSDGKDDFALTDDLRNLTPGFHEVFRDELSYHAMVREVSGRLYVLLQDQSDFEAREQVLFAVVQIGLGLSLLLAALLGWLLARRVMAPVARLARQVRHRDQLLTLAPPLAPDYAADEVGQLAAAFDDTLGQLREALTRERLFTSDVSHELRTPLMVLASSCELLLENPQLDTRARAQVQRMARACDEMRGLVHTFLLLARAQSEGDDQATLASLLEVADDLAAQWRQPIEDKGLRFDYRSDELPADEAGRRYNLTFLHTVMSNLLRNALHYTEKGWISLSLEPHGFVVEDSGVGIPEEQRERVFQPFVRGTDRGEGLGLGLSLVRRICVSQGWTVELLTAESGGCRFRVRLDGEAVGC				NA	NA	NA	NA	NA
BMS010_01428	681			hypothetical protein	ATGAGCAGTCCCGTCGAACTGGCGTTCTCGCAGAAGTACAACCACGAACATGCCCAGCAATACCTGCAAAAGCACCAGGACGGTCTCTGGCGGCGCCTGTCGCATTGGCGCGACGAACAACTGGCGCGCCGTGCGCTGACTCTGGCCGGCGACCCCGGCCTGGTGCTCGACCTGCCCTGCGGTGCCGGACGCTTCTGGCCGTTGCTGGCGGAAAAGGCCAATCGGGTCATCATCGGGGCGGACAACTCGGCGGACATGCTGCGCACCGCCTGCGCCGCTCAGCCGGCGGAAGTGGTGCAAAGGGTACGGCCCTTGCATACTTCTGCTTTCGCCATCGACCTGCCGGACAATGCCGTGGACAGCGTCTTCTGCATGCGTCTGCTGCACCATATCGGTGAGGCCGAACACCGCAGGGCTCTGCTTGAGGAGTGTCGGCGCGTCACCCGTGACAGCCTGATCGTTTCGCTGTGGGTCGACGGCAACTACAAGGCGTGGAAGCGCAAGCGCCTGGAGCAGCGCCGCCAACACGAACGTGGGGAGGAAAGTTACCAGAACCGTTTCGTGTTACCGGCCGCCCAGGTCGAAAGCGAATTCAGGCAGGTCGGGTTCCAGGTTCAGGAACGCCTGGATTTCCTGCCGCTGTATGCCATGTGGCGGGTCTATGTGCTGCGTAAACAATAA	MSSPVELAFSQKYNHEHAQQYLQKHQDGLWRRLSHWRDEQLARRALTLAGDPGLVLDLPCGAGRFWPLLAEKANRVIIGADNSADMLRTACAAQPAEVVQRVRPLHTSAFAIDLPDNAVDSVFCMRLLHHIGEAEHRRALLEECRRVTRDSLIVSLWVDGNYKAWKRKRLEQRRQHERGEESYQNRFVLPAAQVESEFRQVGFQVQERLDFLPLYAMWRVYVLRKQ				NA	NA	NA	NA	NA
BMS010_01429	600	inaA		Protein InaA	GTGCAACGCGTGCGTATCGGTGATGGTCCCTTGCTGTATGCGAAGCGCCAGGTCGGCCACATCTACCGCAGCCTGCGTCATCCCTTCGGCCGCCCCACCGTTCTACGCGAGCGCGATGCGCTGCTCAGCCTGCAGCAACTCGGGGTGCAGGTACCGGAAATCCATTACTGCGGCGTCGAGCGCGACAGCGAGGCGGGGTGGCGGGCGCTGCTGGTGACCGTCGATCTGAAGGGTTACCAGGAAATCGACCGGTGGTACGCCGAGGGTGGGCGGGAGCGCTATGGTGAGCAGGTTCACCGACGCTTGCTCGAGCAGATCGGCATCACCCTGGCCCGCATGCACCGGGGGCGCTGGCAGCATGGCTGCCTGTACGCCAAGCACGTGTTCGTGCGGGTGATTGGCGAGGGTGACGAGGCCCAGGTGGATGTGGCGCTGCTGGATCTGGAGAAGAGCCGGCGCCGCCTGAGCAGTCGACAGGCCGCTCGTCACGATATGCGGCAATTGCGGCGCCATTCGTCATGGAATGAAGCGGACTGGCAACAACTGATCTACGGTTATGAAACAGCGTTTGGCAGCGCTATCAGAGAGTTGCGGTCATGA	MQRVRIGDGPLLYAKRQVGHIYRSLRHPFGRPTVLRERDALLSLQQLGVQVPEIHYCGVERDSEAGWRALLVTVDLKGYQEIDRWYAEGGRERYGEQVHRRLLEQIGITLARMHRGRWQHGCLYAKHVFVRVIGEGDEAQVDVALLDLEKSRRRLSSRQAARHDMRQLRRHSSWNEADWQQLIYGYETAFGSAIRELRS				NA	NA	NA	NA	NA
BMS010_01430	231			hypothetical protein	ATGAAGCTAGAAATTGCTCGAGGTTTGTTCCTTGTCGGTGCACTGGGCGTGGCCTCCCTGGCTGCGGCCGCCTGGCATCAGCCGGGTCCTTCGGTCCTGAGCGACAGCGATGGACGCAGTTATTGCCGTATCCCTGCCAATGCACGAACACATGCGGAACAGGTCAGGCCGGATCAGGATCTGCTCCTGTTCATGTTCAGCCTGGCCCAGGGGCTCAAGCCGCAAGGGTGA	MKLEIARGLFLVGALGVASLAAAAWHQPGPSVLSDSDGRSYCRIPANARTHAEQVRPDQDLLLFMFSLAQGLKPQG				NA	NA	NA	NA	NA
BMS010_01431	3060	acrB_1	COG0841	Multidrug efflux pump subunit AcrB	ATGGCTTTTACCGATCCGTTCATCCGTCGTCCGGTGCTGGCCACGGTCGTCAGCCTGCTGATCGTGCTCCTGGGCTTCCAGGCGTTCAGCAAGCTGACCATCCGCCAGTACCCGCAGATGGAAAACGCCCTCATCACGGTGACCACCAGTTACCCGGGCGCCAACGCCGAGACGATCCAGGGCTATATCACCCAGCCGCTGCAGCAGAGCCTGGCCAGCGCCGAAGGCATCGACTACATGACCTCGGTCAGCCGGCAGAACGCCTCGGTCATCTCGATCTACGCGCGCATCGGCGCCAACACCGACCGGCTGTTCACCGAGCTGCTGGCCAAGGCCAACGAGGTCAAGAACCAGTTGCCGCAGGACGCCGAAGACCCGGTGCTGAGCAAGGAAGCGGCGGACGCCTCGGCGCTGATGTACATCAGCTTCTACAGCGACGAACTGTCCAACCCGCAGATCACCGACTACCTGTCGCGGGTCATCCAGCCCAAGCTGGCCACCCTGCCCGGCATGGCCGAGGCAGAAATCCTCGGCAACCAGGTGTTCGCCATGCGTCTCTGGCTCGACCCGGTGCGCCTGGCCGCCTACGGGGTGACCGCCGCCGACGTCAACGAAGCGGTGCGCAAGTACAACTTCCTCTCCGCCGCCGGCGAGGTGAAGGGTCAGTACGTGGTCACCAGCATCAACGCCGAGACCGACCTGAAATCGCCCGAGGCCTTCGCCGCCATCCCGCTGAAGACCGAAGGCGACAGCCGCGTGCTGATCGGCGATGTGGCGCGGGTGGAAATGGGTGCGGAAACCTACGACTCGATCAGCTCCTTCGACGGCATCCCCTCCGTCTATATCGCCGTCAAGGGCACGCCCAGCGCCAACCCGCTGGACGTGATCAAGGAAGTCCGCAAGATCCTGCCGGAGATCGAAGCCCAGTTGCCGCCGAACCTGAAGGTGTCCATCGCCTATGACGCTACCCAGTTCATCCAGGCGTCCATCGACGAGGTGGTGAAGACCCTCGGCGAAGCGGTGCTGATCGTGATCGTGGTGGTGTTCCTGTTCCTCGGCGCCTTCCGCTCGGTGCTGATCCCGGTGGTGACCATCCCGCTGTCGATGATCGGCGTGCTGTTCTTCATGCAGATGATGGGCTACTCGATCAACCTGCTGACCCTGCTGGCCATGGTGCTGGCGATCGGCCTGGTGGTGGACGATGCCATCGTCGTGGTGGAGAACATCCACCGCCACATCGAAGAGGGCAAGACGCCGTTCGAAGCGGCGCTGGAAGGTGCTCGCGAGATCGCCACGCCAGTGGTGGCGATGACCATCACCCTGGCGGCGGTGTACGCGCCCATCGGCTTCCTCGAAGGGCTCACCGGGGCCCTGTTCAAGGAGTTCGCCTTCACTCTCGCAGGCGCGGTGATCATTTCCGGCATCGTCGCGCTGACCCTGTCGCCGATGATGTGCGCCAAGCTGCTGCGCCACGAAGAGAACCCGACCGGCCTGGCGCACAAGCTGGACGATCTGTTCGAACGCCTGAAAGTGCGCTACCAGCACCTGCTCCACGCGACCCTGGATACCCGTCCGGTGGTGGTGGTGTTCGCCGTGATCGTGCTGGCGCTGATCCCGATCATGCTCAACCCGATGTTCACCAAGAGCGAGCTGGCGCCGGATGAGGACCAGGGCATCGTGTTCATGATGTCTACCTCGCCGCAGCCGACCAACCTGGACTACGTGAACGCCAACACCGACCGGTTCGTGAAGATCTTCAAGGAGTTCCCCGAGTACTACTCCTCGTTCCAGATCAACGGCTTCAACGGCGTGCAGTCGGGTATCGGCGGCTTCCTGCTGAAACCCTGGGACGAGCGCGAGCGGACCCAGATGGAACTGCTGCCGCTGGTGCAGGCCAAGCTCGACCAGATTCCCGGCCTGCAGATCTTCGGCTTCAACCTGCCGTCGCTACCCGGTACCGGCGAAGGCCTGCCGTTCCAGTTCGTGATCAACACCCCAGGCGACTATCAGTCGCTGCTGCAGGTGGCGGAGAAGATCAAGCAACGCGGCATGGAAACCGGCAAGTTCTACTTCATGGACGTCGACCTGGCCTTCGACAAGCCGGAAGTGGTGGTAGAGATCGACCGGCAGAAAGCCGCGCAGATGGATGTGTCCATGGAAGACCTGGGCACCACCCTGTCGACCCTGCTCGGCGAAGGCGAAATCAACCGCTTCACCATCGATGGCCGCAGCTACAAGGTCATCGCCCAGGTCGAGCGCGCCTACCGCGACAATCCGGGCTGGCTGAACAGCTACTACGTGAAGAACGGTGCCGGCGAGCTGCTGCCACTGTCGACCCTGATCAAGGTTAGCGACCGCGCGCGGCCGACCCAGTTGAACCAGTTCCAGCAGTTGAACTCGGCAATCATCCAGGGCATGCCCGGGGTGAGCATGGGTGAAGCCATCGACACCATCCGCCAGATCGCCGAGGAAGAGGCACCGCAGGGCTTCGGCTTCGACTATGCCGGCGCTTCGCGGCAGTTCGTCCAGGAAGGCAGCGCGCTCTACGTCACCTTCGGTCTGGCGCTGGCGATCATCTTCCTGGTGCTGGCGGCGCAGTTCGAGAGCTTCCGCGATCCGCTGGTGATCCTGGTGACCGTGCCGCTGTCGATCTGTGGTGCGCTGGTGCCGCTGTTCCTCGGCTTCTCCAGCATGAACATCTACACCCAGGTGGGCCTGGTGACGCTGATCGGCCTGATCAGCAAGCACGGCATCCTGATCGTGGAGTTCGCCAACCAGTTGCGCCATGAGAAGGGGTTATCCCGCCGCGAAGCAGTGGAGGAAGCCGCCTCGATCCGCCTGCGTCCGGTGTTGATGACCACCGCGGCCATGGTGTTCGGCATGGTGCCGTTGATTCTCGCGACTGGCGCGGGCGCGGTGAGCCGCTTCGACATCGGCCTGGTGATCGCCACCGGCATGTCGGTGGGTACGCTGTTCACCCTGTTCGTGCTGCCCTGCGTCTATACCCTGCTGGCCTCGCCGGACACCAAACCGGCAGCCCAACCCAGCCCGGCTCATTGA	MAFTDPFIRRPVLATVVSLLIVLLGFQAFSKLTIRQYPQMENALITVTTSYPGANAETIQGYITQPLQQSLASAEGIDYMTSVSRQNASVISIYARIGANTDRLFTELLAKANEVKNQLPQDAEDPVLSKEAADASALMYISFYSDELSNPQITDYLSRVIQPKLATLPGMAEAEILGNQVFAMRLWLDPVRLAAYGVTAADVNEAVRKYNFLSAAGEVKGQYVVTSINAETDLKSPEAFAAIPLKTEGDSRVLIGDVARVEMGAETYDSISSFDGIPSVYIAVKGTPSANPLDVIKEVRKILPEIEAQLPPNLKVSIAYDATQFIQASIDEVVKTLGEAVLIVIVVVFLFLGAFRSVLIPVVTIPLSMIGVLFFMQMMGYSINLLTLLAMVLAIGLVVDDAIVVVENIHRHIEEGKTPFEAALEGAREIATPVVAMTITLAAVYAPIGFLEGLTGALFKEFAFTLAGAVIISGIVALTLSPMMCAKLLRHEENPTGLAHKLDDLFERLKVRYQHLLHATLDTRPVVVVFAVIVLALIPIMLNPMFTKSELAPDEDQGIVFMMSTSPQPTNLDYVNANTDRFVKIFKEFPEYYSSFQINGFNGVQSGIGGFLLKPWDERERTQMELLPLVQAKLDQIPGLQIFGFNLPSLPGTGEGLPFQFVINTPGDYQSLLQVAEKIKQRGMETGKFYFMDVDLAFDKPEVVVEIDRQKAAQMDVSMEDLGTTLSTLLGEGEINRFTIDGRSYKVIAQVERAYRDNPGWLNSYYVKNGAGELLPLSTLIKVSDRARPTQLNQFQQLNSAIIQGMPGVSMGEAIDTIRQIAEEEAPQGFGFDYAGASRQFVQEGSALYVTFGLALAIIFLVLAAQFESFRDPLVILVTVPLSICGALVPLFLGFSSMNIYTQVGLVTLIGLISKHGILIVEFANQLRHEKGLSRREAVEEAASIRLRPVLMTTAAMVFGMVPLILATGAGAVSRFDIGLVIATGMSVGTLFTLFVLPCVYTLLASPDTKPAAQPSPAH	PGPT0003280_3814	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003280-acrB|acrE|mexB|adeJ|smeE|mtrD|cmeB-K18138	NA	NA
BMS010_01432	1155	mdtA_4		Multidrug resistance protein MdtA	ATGTTGCTCCGCCGCATGCTCATCATGTTGGGCGTCGTCGTTCTCGTGATTCTCGCCCTCGCTGCCTACAAAGGCTTCTCCATCTTCCAGCAGATCCAGCAGTTCTCCGCGCCGCAGCCGCCGATCAACGTCGGTGCCGTGACCGCCGAGGAAGGCCCCTGGCAGACCCGCCTGCCAGCCATCGGTACGCTGAAGGCCTACCAGGGCATCGACCTGACCGTCGAAGTCGCCGGCACCGTCCGCGACGTGCTGTTCCGCTCCGGCGAGAAGGTCAGCCTGAACCAGCCGCTGATCCAGATGGACAGCGACGTGGAGAAGGCCAGTCTCGCCACTGCCGAAGCCGGACTGGGCCTGGCCCGCGTTGAATTCGAGCGCGGCCGCAATCTGGTCGGCCGTCAGGCGATCTCCAAGAGCGAGTTCGACCGCCTGGCCGCCACGCTGGAGAAGTCCAACGCCAGCGTCGCCCAGTTGAAGGCCACCCTGGCCAAGAAGCGCATCCTCGCGCCCTTCGCCGGCACCATCGGTATCCGCCAGGTGGATGTCGGCGACTATTTGGCCTCCGGCACCACCATCGCCACCCTGCAGGACCTCAGCACGCTCTATGTGGACTTCTTCCTGCCGGAACAGAACGCTCCGCAACTGGCCATCGGCCAACGCGTGCGGGTCAGCGTCGCGGCGTATCCGGGCGAAGTCTTCGAGGGCCAGATCAGTGCGATCAACCCGAAGGTGGAAACCACCACCCGCAACCTGCAGGTGCGCGCCACCCTCGACAACCCGGACGAGAAACTGCTGCCGGGCATGTTCGCCAACCTCGACGTGCTGCTGCCCGAGGAGCCCTCGCGCGTACGCGTCCCGGAAACCGCGATCACCTATACCCTCTATGGCAATTCGGTCTACGTCATCGCAGAGAAGAAGGACGAGCAGGGCAACGTGCAGAAAGACGACAAGGGCCAGGCCGTCCTGGTGGTGGAGCGTCGCTTCGTCGAAACCGGCCAGCGCCGCGACGGCTGGGTGGTGATCCTCAAGGGCCTGCAGGCCGGCGAACGCGTCGTCACCGACGGCCAGTTGAAGCTGGACAGCGGTGCCCATGTGGCCATCGTCGACAGCCTGGCCCTCCCTGCCGAACCGAACAGCCAGACCGGCGCCGCTCAGTGA	MLLRRMLIMLGVVVLVILALAAYKGFSIFQQIQQFSAPQPPINVGAVTAEEGPWQTRLPAIGTLKAYQGIDLTVEVAGTVRDVLFRSGEKVSLNQPLIQMDSDVEKASLATAEAGLGLARVEFERGRNLVGRQAISKSEFDRLAATLEKSNASVAQLKATLAKKRILAPFAGTIGIRQVDVGDYLASGTTIATLQDLSTLYVDFFLPEQNAPQLAIGQRVRVSVAAYPGEVFEGQISAINPKVETTTRNLQVRATLDNPDEKLLPGMFANLDVLLPEEPSRVRVPETAITYTLYGNSVYVIAEKKDEQGNVQKDDKGQAVLVVERRFVETGQRRDGWVVILKGLQAGERVVTDGQLKLDSGAHVAIVDSLALPAEPNSQTGAAQ	PGPT0003275_3038	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003275-acrA|lir|mtcA|mexA|adeI|smeD|mtrC|cmeA-K03585	NA	NA
BMS010_01433	1626	ctpH		Methyl-accepting chemotaxis protein CtpH	ATGTCCTTGCAACGCTCCTTGCGTGCACAGATTCTCACCCTGCTGGGCGGCAGCCTGGCGCTGATCCTGCTGATCGCTCTCGCCTGTTTCAACTTCCTGTCCAACGGCATTCAGGCCTACCGCGGCCTGCTGGAAGGTCCACTGGAAGCCTCGCGCCTGGTCGACCAGGCCAACCTGCAATTCAAGGTGCAGGTCCAGGAATGGAAGAACGTGCTGCTGCGCGGCCGGCAACCGGCCGACCTGGATAAGTACTGGAGCCAGTTCGAGGCCGAGGAGCGCAATGTCCAGGATACGCTCGGCCGCCTGGCCAATCTTCCCGACCTCGACGCCGGTCTGAAGAGCCGCATCGAGCGTCTGCGCGAGGAGCACCGCACTCTGGGCGCGGCCTACCGCAAGGGTCGTGACGCCTTCATCGGCGCCGATGCCGATCCGCGTGCCGGCGATGCCGCCGTGAAAGGCATCGACCGTGCCGCCAGCGAGCAGATGAGCGCACTCGTGGACGAACTCCGCACCCGCGCCACCCGCAGCGCCGATGACATCAGCGCCTCCGCCGACCGCACCATCCTGTTCGGTACCCTGGTCATGCTGGTCTCCAGCCTGCTGATCGGCCTGCTCAGCCTGTGGCTGATCAACCGCAACCTGATCGCCCCGATCCGCGCACTGATCGACCACATCGCCCAGCTCAGCCAGGGCCGCTTCGGCGAGCGCGTCGCCACCGACCGCCGCGACGAGCTGGGCCGGCTGGCCGCGGCCGCCAATACCCTGCGCGACTTCCTCGCCGATACCTTCACCCGCCTCAAGCGCAGCACCGCCGACCTGGACAACGCCAGCGGCGAGCTGAATGCCATCGCCACGCTGATGGCCCAGGGTACCCGCGAGCAGTTTTCGCGCACCGATCAGGTCGCCACGGCGATGCACGAGATGTCCGCCACCGCCCAGGAGGTCGCGCGGCACGCCGCCGAAGCCGCCGCCGCGGCGGACGACGCCGACGACTCGGCACGCCAGGGCGAGACGGTGATGCGCTCGACCATCCAGACCATCACCGACATCCGTGGCGAAATCGCCAGCACGGCCGACGTCATCCGCCGCCTGGAAAATGACAGCGGGCGGATCGGCAAGGTGCTCGAAGTGATCCGCGGCATCGCCGACCAGACCAACCTACTGGCGCTGAACGCGGCCATCGAGGCGGCACGCGCCGGAGAAGCCGGACGTGGCTTCGCGGTGGTCGCCGACGAGGTGCGCACCCTGGCCCAGCGCACCGCCGAATCCACCGCCGAGATCCACCAGATCATCGACACCGTGCAGACCGGCGCGGTGAATGCCGTGCGCGCCATCGAGAGCGGCCAGAACCGCAGCGAGGCCGGTGTCGAACAGGTCACAGAGGCCGGTCTCATGCTGCAACGCATCACCGGCGCGGTGGAGGCGATCCGTGACATGAACCGGCAGATCGCGACGGCTGCCGAAGAGCAGACCTCGGTGGCCGAGGACATCTCGCGCAACCTCACCGAGATCACCGCCATCGCCACCACCAACCAGGAAAACGTGCAGCGCACCGAGGCCGCCAGCCAGGACCTGCACAGTCTCTCCGGCGAGCTCAGCAGCCTGACCCGCCGCCTCAGCGCCTGA	MSLQRSLRAQILTLLGGSLALILLIALACFNFLSNGIQAYRGLLEGPLEASRLVDQANLQFKVQVQEWKNVLLRGRQPADLDKYWSQFEAEERNVQDTLGRLANLPDLDAGLKSRIERLREEHRTLGAAYRKGRDAFIGADADPRAGDAAVKGIDRAASEQMSALVDELRTRATRSADDISASADRTILFGTLVMLVSSLLIGLLSLWLINRNLIAPIRALIDHIAQLSQGRFGERVATDRRDELGRLAAAANTLRDFLADTFTRLKRSTADLDNASGELNAIATLMAQGTREQFSRTDQVATAMHEMSATAQEVARHAAEAAAAADDADDSARQGETVMRSTIQTITDIRGEIASTADVIRRLENDSGRIGKVLEVIRGIADQTNLLALNAAIEAARAGEAGRGFAVVADEVRTLAQRTAESTAEIHQIIDTVQTGAVNAVRAIESGQNRSEAGVEQVTEAGLMLQRITGAVEAIRDMNRQIATAAEEQTSVAEDISRNLTEITAIATTNQENVQRTEAASQDLHSLSGELSSLTRRLSA	PGPT0015710_20518	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_01434	1095			hypothetical protein	ATGCGTCGCAGAGTCTTCCTCGGACTGGGCAGTGCGCTGCTCGCCGCCTCCGCCTTCGGCGGCTGGACCCTGGCCCGCCACGGGCACCAGCCACTGCTGCTGTCCGCCCGAGACGACAGCGACGGCAAGCACTATGCGGTCGGCTATCGGCTGGACGGCAGCCAGGCGTTCGCCACCCCGGTCGCCGAGCGCTGCCACGACGTGGTGCCGCATCCGCACCTGCCGCTGGCGGTGTTCGTCGGTCGTCGGCCGAGTCGCGAAAGCTATCTGGTCGACACCCGCGGCGGTCGCCTGCTGCAAGTACTGGCCTCGCCCCAGGACCGCCACTTCTACGGCCATGGCCAGTTCCACAAGGATGGCGAGTGGTTCTACAGCACCGAGAACGACACCCGCGATCCCGGCCGAGGCGTGCTCGGCGTGTACCGGCTGGACGGCGAGCGCCTGGTGCGCAGCGCCGAGCATTCCACCCATGGCATAGGCCCGCACCAGCTGCTGTGGATGCCCGATGGCGAAACCTTGGTGGTGGCCAACGGTGGCATCCGCACCGAGGCCGACAGCCGGGTCATGATGAATCTCGACGCCATGGAACCGAGCCTGGTGCTGATGCGCCGCGACGGCAGCCTGATCAGCAAGGAGCAGTTGCCCGAACGGATGAACAGCGTGCGTCACCTGGCGGTGGCTGCCGACGGCACCATCGTCTCCGGCCAGCAGTACGAAGGCGACCCGATGGACAGCGCGCCGCTGCTGGCGATCAAGCGCCCCGGCCAGCCGTTCCAGCCGTTCCCGGTCGGCGAAGCGCAGCGCCTGACCATGAACCAGTACACCGCCAGCCTGGCAATCCACGACGAACTGCGCCTGCTGGCGTTGACCGCGCCACGCGGCAACCGCTTCTTCGTCTGGGACCTGGACAGCGCCGAGCTGCGCCTGGACGCGCCGCTGCCGGACTGCGCCGGCGTCGGCGCGGTGGCCGATGGTTTCGTGGTCACCGCCGGCGTGGGCCGCTGCCGACTCTACGATTGCCGCGGCGAGCAGATCGTCGGCCGCCCGCTGGAGCTGCCGGCCGGGTTGTGGGACAACCATCTGCGCCTTGCCTGA	MRRRVFLGLGSALLAASAFGGWTLARHGHQPLLLSARDDSDGKHYAVGYRLDGSQAFATPVAERCHDVVPHPHLPLAVFVGRRPSRESYLVDTRGGRLLQVLASPQDRHFYGHGQFHKDGEWFYSTENDTRDPGRGVLGVYRLDGERLVRSAEHSTHGIGPHQLLWMPDGETLVVANGGIRTEADSRVMMNLDAMEPSLVLMRRDGSLISKEQLPERMNSVRHLAVAADGTIVSGQQYEGDPMDSAPLLAIKRPGQPFQPFPVGEAQRLTMNQYTASLAIHDELRLLALTAPRGNRFFVWDLDSAELRLDAPLPDCAGVGAVADGFVVTAGVGRCRLYDCRGEQIVGRPLELPAGLWDNHLRLA				NA	NA	NA	NA	NA
BMS010_01435	1074			hypothetical protein	ATGTTCCGCCCCCGCCTGATCAGCATTGCCGTCGCCACCCTCACCGGCCTCGCGCTGAGCGCCTGCTCGCCGAAGGACGAGCAGCGCAGCGTCAGCGCCGTGCTGGCCGACAGCGTGCTGCTGCCGGCCTACGCCGCCTGGACCGAAGCCGACCATCAGCTCGCCGCCAGCGGCAAGGCCTTCTGCGATGGCAGCCAGGACCTGCCGGCCGCGCGCCAGGCCTTCCTCGCCGCGCAAAGCGCCTGGGCCGGGCTGCAGCCGCTGCTGGTCGGGCCGCTGGCGGAAGGTAACCGCACCTGGCAGGTGCAGTTCTGGCCGGACAAGAAAAACCTGGTGGCGCGTCAGGTGGAAGCGCTGCTCAAGAGCAAGCCGGAACTGAGCGTCGCCGACCTGGACAAGGCCAGCGTGGTGGTCCAGGGCTTGACCGCCTACGAGTACGTGCTGTTCGACAACGCCATCGATCTCGGCGATGCTGCCCAGAAGAGCCGTTACTGCCCGCTGATCGTCGCCATCGGCCAGCACCAGCAGGCCCTCGCCGACCAGACGCTCGCCCAGTGGCAGGGCGATGCCGGCATGGCCGCACAGTTGAAGAAATTCCCCAACGACCGCTATGCCGATTCCGGCGAAGCGATGGCCGAGCTGCTGCGCGCCCAGGTGACCGCCCTGGATGCGCTGAAGAAGAAGCTCGGCACCCCGCTGGGTCGGCAGAGCAAGGGCGTCCCGCAGCCGTACCAGGCCGAAGCGTGGCGCAGCCAGGCTTCGCTGGCCAGCATCGCCGCCAGCCTGGCGAGCGCCGAGCGTCTCTGGCGCGGTGCCAACGATGACGGCGTGAAGGCCCTGCTCCCTGCCGATCAGGCCGAGCTGGTGAAGCGCCTGGATGCCGCCTACGCCGATACCCGCCAGCGCATCGCCGATCTGCAGCGCCCGCTGACCGAACTGATCACCGACGAACAAGGCCGCCAGGCATTGGGCGAGGTCTACGACAGCCTCAACACCCTGCATCGCCTGCATGAGGGCGAGCTGGCCAAGGCGCTGGGCATCCAGCTCGGGTTCAACGCCCACGACGGAGACTGA	MFRPRLISIAVATLTGLALSACSPKDEQRSVSAVLADSVLLPAYAAWTEADHQLAASGKAFCDGSQDLPAARQAFLAAQSAWAGLQPLLVGPLAEGNRTWQVQFWPDKKNLVARQVEALLKSKPELSVADLDKASVVVQGLTAYEYVLFDNAIDLGDAAQKSRYCPLIVAIGQHQQALADQTLAQWQGDAGMAAQLKKFPNDRYADSGEAMAELLRAQVTALDALKKKLGTPLGRQSKGVPQPYQAEAWRSQASLASIAASLASAERLWRGANDDGVKALLPADQAELVKRLDAAYADTRQRIADLQRPLTELITDEQGRQALGEVYDSLNTLHRLHEGELAKALGIQLGFNAHDGD				NA	NA	NA	NA	NA
BMS010_01436	1413			hypothetical protein	ATGTCTGCCTTGCTTCGCGTGTCTCCCTTGCTGCTGGCCCTGAGCCTCGCTGCTTGTGAAGACCGGCCCCGTTTCGATGCGGCCGAGCCCGGTGAAGCTCTCTCCGCCGGCAGCGCCACGGTGCATAAGCAGGACAGCAACGCTTTCTCCCTGCCCTCGGCGAATCTCTCGCCGTCGCGCCGGCTGGATTTCAGCGTCGGCAACAGCTTCTTCCGCAATCCCTGGGTGATGGCGCCGGCCACTACCACGGCCCGCGACGGGCTGGGGCCGCTGTTCAACACCAATGCCTGCCAGAACTGCCATATCAAGGACGGCCGCGGCCACCCGCCGGGGCCGGATGCAATCCAGGCGGTGTCCATGCTGGTACGCCTGTCGATTCCCGCCTCCGCGGAACAGGCGCACCTGATCGAGCGCCTGGGCGTGGTGCCCGAGCCGGTCTACGGTGGCCAGTTGCAGGACATGGCCATCCCCGGCGTCGCTCCGGAAGGCAAGGTGCGTTTCGAGTACGAAACCGAGACCGTGCGCTTCGACGACGGCAGCGAAGTCGAGCTGCGCAAGCCCACCCTCGCAATCAGCCAGCTCGGCTACGGGCCGATGCACCCGCAGACGATGCTCTCCGCCCGCGTCGCCCCGCCGATGATCGGCCTCGGCCTGCTGGAAGCCATTCCCGAGGTGGCGATCCTGGCCAACGCCGATCCCGACGACAGCGACGGCGACGGCATCTCCGGGCGCCCCAACCGGGTCTGGGACGACGTCACGCAGCGCACCGTGCTCGGCCGTTTCGGCTGGAAGGCCGGGCAACCGAGCCTGAACCAGCAGAACGCCCACGCCTTCGCCGGCGACATGGGCCTGACCACCGCGCTGCTCACCACCGACGATTGCACCGAGACGCAGACCGACTGCCGCGCCGCACCGAACGGCGGCTCCCCGGAGGTCAGCGACAATATCCTCGCCAGCGTGCTGTTCTATTCGCGCAACCTCGGCGTGCCGGCACGCCGCCGGGTCGACGATCCGCAAGTGCTGGCCGGCAAGGGCCTGTTCCACCAAGCCGGCTGCCAGAGCTGCCACACCCCACGCTTCGAGACGACTGCCGACGCCGCCGAGCCGGAGCTGGCCAGCCAGACCATCCGCCCGTATACCGACCTGCTGCTGCACGACATGGGCGAAGGTCTGGCGGACGGCCGGCCCGAATTCCAGGCCAGCGGCAGCGAATGGCGCACGCCGCCGCTGTGGGGCATCGGCCTGACGGAAACGGTCAACGGTCATACCCTGTTCCTGCACGACGGCCGCGCCCGCAATTTGCTGGAGGCAATCCTCTGGCACGGCGGCGAGGCCGAAGCCGCCAAACGGCATGTCCTGACTTACGACGCCGAGCAGCGTGCCGCGCTGCTGGCCTTCCTGAATTCACTCTAA	MSALLRVSPLLLALSLAACEDRPRFDAAEPGEALSAGSATVHKQDSNAFSLPSANLSPSRRLDFSVGNSFFRNPWVMAPATTTARDGLGPLFNTNACQNCHIKDGRGHPPGPDAIQAVSMLVRLSIPASAEQAHLIERLGVVPEPVYGGQLQDMAIPGVAPEGKVRFEYETETVRFDDGSEVELRKPTLAISQLGYGPMHPQTMLSARVAPPMIGLGLLEAIPEVAILANADPDDSDGDGISGRPNRVWDDVTQRTVLGRFGWKAGQPSLNQQNAHAFAGDMGLTTALLTTDDCTETQTDCRAAPNGGSPEVSDNILASVLFYSRNLGVPARRRVDDPQVLAGKGLFHQAGCQSCHTPRFETTADAAEPELASQTIRPYTDLLLHDMGEGLADGRPEFQASGSEWRTPPLWGIGLTETVNGHTLFLHDGRARNLLEAILWHGGEAEAAKRHVLTYDAEQRAALLAFLNSL				NA	NA	NA	NA	NA
BMS010_01437	1353			hypothetical protein	ATGATTCGTATGCCCCTGGCCACCGCCAGCCTGTTGGCTATCGCCATTTCCCTCGCCGGTTGCGGCGACGACAAGGAAAAAGCCGCCGCGCCGCAAGCCTCCGCCCCGGCGCCTGCCGCCAGCCAGAGCAGCGCAGCCCCGGCCCCCGCCGCCGGCAAGGTCGACGAAGCCGCCGCCAAGGCCGTGGTGAAGCACTACGCCGACATCGCCCTGGCCGTGTTCAGCGATGCCCTCTCCACCGGCAAGGCGCTGCAGCAGGCGGTCGATGCCCTGCTGGCCAACCCCAGCGACGAAACCCTGAAGGCCGCCCGCGAAGCCTGGCTGGCTGCCCGCGTGCCGTACATGCAGAGCGAAGTCTTCCGCTTCGGCAACCCGGTGGTGGACGACTGGGAAGGCCAACTGAACGCCTGGCCGCTGGACGAAGGCCTGATCGACTACGTGGCCGGTGACTACCAGCACGCCCTGGGCAACCCTGGCGCCACCGCCAACATCATCGCCAACACCGAAATCCAGGTCGGCGAAGACAAGATCGACGTCACCGAGATCACCGGCGAGAAGCTGGCCAGCCTGAACGAACTGGGCGGCTCCGAAGCCAACGTCGCCACCGGCTACCACGCCATCGAATTCCTTCTCTGGGGCCAGGACCTGAACGGCACCAACCCCGGCGCCGGCAATCGTCCGGCTACCGACTACGTCACCGGCGAAGGCTGCACCGGCGGTCATTGCGAACGTCGTCGCGCCTATCTGAAAGCCGCTACCGACCTGCTGGTGAAAGACCTGGAAGACATGGTCGCCCAGTGGCAGCCGAACGTGGCCGACAACTACCGCGCCACCCTGGAAGGCGAAGCCGCCGAGAACGGCCTGCGCAAGATGCTGTTCGGCATGGGCAGCCTGTCCCTCGGCGAGCTGGCCGGCGAGCGCATGAAAGTCGCCCTGGAAGCCAACTCCACCGAAGACGAGCACGACTGCTTCAGCGACAACACCCACCACTCGCACTTCTATAACGGCAAGGGCATCCGCAACGTCTACCTGGGCGAGTACAAGCGTGTCGACGGCACCACCCTGACCGGCCCGAGCCTGTCCGAACTGGTGGCAAAGGTCGATGCCCAGACCGATAGCACCCTGAAGGCCGACCTGGAGGCCACCGAAGCCAAGCTGCAGGCCCTGGTGGACAGCGCCGAGAAGAACAACGTGCACTTCGACCAACTGATCGCCGCCGACAACACCGAAGGCCAGACGCTGGTACGCGATGCTATCGCCGCCCTGGTCAAGCAGACCGGTGCCATCGAGCAGGCCGCGGCCAAGCTGGGCATCAGCGACCTGAACCCGGACAACGCCGATCACGAATTCTGA	MIRMPLATASLLAIAISLAGCGDDKEKAAAPQASAPAPAASQSSAAPAPAAGKVDEAAAKAVVKHYADIALAVFSDALSTGKALQQAVDALLANPSDETLKAAREAWLAARVPYMQSEVFRFGNPVVDDWEGQLNAWPLDEGLIDYVAGDYQHALGNPGATANIIANTEIQVGEDKIDVTEITGEKLASLNELGGSEANVATGYHAIEFLLWGQDLNGTNPGAGNRPATDYVTGEGCTGGHCERRRAYLKAATDLLVKDLEDMVAQWQPNVADNYRATLEGEAAENGLRKMLFGMGSLSLGELAGERMKVALEANSTEDEHDCFSDNTHHSHFYNGKGIRNVYLGEYKRVDGTTLTGPSLSELVAKVDAQTDSTLKADLEATEAKLQALVDSAEKNNVHFDQLIAADNTEGQTLVRDAIAALVKQTGAIEQAAAKLGISDLNPDNADHEF				NA	NA	NA	NA	NA
BMS010_01438	573	lemA_1	COG1704	Protein LemA	ATGAGCCTCGTCAGCGTCGCCATCCTCGTCGTACTGTTTCTCGCTGCCGCCTACGCGGTCATCCTCTATAACGCGCTGGTACGGCTGAAGCACGGCGTGAGCAAGGCCTGGGCGAACATCGACGTGCTGCTCAAGCAGCGCCACGAAGAACTGCCCAAGCTGGTAGAAACCTGCAAGCAATACATGCAGTACGAACAGACCACCCTGGAAAAGGTCATTTCCGCCCGTAACGCCGTGGCCAGCGCCCGCGAGAAGGGTGACGTCGGCGCCCTGGGCAAGGCCGAAACCGGCCTGCGCGCCGGCCTCGGCCAGCTCTTCGCCCTGGCCGAGAACTACCCGCAACTGAAGGCCAACGACAGCTTCCAGCACCTGCAGCAGCGCATCACCGGCCTGGAGAACGGCATTGCCGACCGCCGCGAGCTGTACAACGAAGCGGTCAACCTGAATAACGTGCGCATCGAGCAATTCCCCGACGTGATCATCGCCAACCTGTTCGGCTTCAAGGCGGCGGAATTGCTCCAGTTCAGCGAGGCCGAAAAGGCCGACGTGAACATCAAAGCCCTGTTCGGCTGA	MSLVSVAILVVLFLAAAYAVILYNALVRLKHGVSKAWANIDVLLKQRHEELPKLVETCKQYMQYEQTTLEKVISARNAVASAREKGDVGALGKAETGLRAGLGQLFALAENYPQLKANDSFQHLQQRITGLENGIADRRELYNEAVNLNNVRIEQFPDVIIANLFGFKAAELLQFSEAEKADVNIKALFG				NA	NA	NA	NA	NA
BMS010_01439	903			hypothetical protein	ATGGACGTTCCAGGGCTGGCCGTCAGCCTGTCGTTCAGTCTCGGCGCCTGCGTCGGCGGCGGCTGGTGGTGCCTGCGCCGCTTGCGCGAGGCGCGCTACCTGCTGGACACGCCGACCTCGAAAATCCGCTCCGCCGCGCAAGGCTACGTCGAGCTGTACGGCATCCTTCATGGGCTGCCGGACGCCGTGATCACCGGCCCGCTGACCGGCAAACCGTGTGTCTGGTGGCGCTTTCGCATCGAGGAGCTTCAGTCCGACGGCAAGAAAAGCCGCTGGCGCGTGGTCGAGAGCGGCACCAGCGAGGCCTGGCTGCGGCTCTCCGACAACACCGGCGAATGCCTGATCAACCCGCGTGGCGCGGAAGTACGCCCCGCCACCCGCGAAAGCTGGCAGGGCTCGATGCGCCACCCGCTGCGCATCGAACCCAGTGGCGGATTCTTCGGCTTCCTCACCGGAGGCAAGCAATACCGCTATATCGAAGAACGCCTGCATGCCGGCGAGCCGCTTTACGCCATCGGTGAATTCCGCAGCCTGGGAGGCGGCCGCCAGGGCCTGGATGCCAGCGCGGCACAGATGGCGGTGATTCGCGAATGGAAAGGCGATTTCGCCGGCCTGTTGCAGCGTTTCGATGCCGACAACAACGGCCAGCTCGACGAGCAGGAATGGAACCGCGTGCGCCTGGCCGCCCAGCTCGAGGCGGAAGACCGCCATCGCAAAGCCAGCACCCAGCCGACGCAAAACCACATGGTCTGCCCGGAGGAGTCCCAACCCTTCATCCTGTCCAGCCATGGGGAGGACGAAATCGCCCGCCGCTTCCGCTGGCAGGCTGCCGGCGGCGCCATCCTCTGTCTGGTGGGCGCCGTGGCTACCGTTTACCTGCTACAGGTGGTGGGGTTGGTTTAG	MDVPGLAVSLSFSLGACVGGGWWCLRRLREARYLLDTPTSKIRSAAQGYVELYGILHGLPDAVITGPLTGKPCVWWRFRIEELQSDGKKSRWRVVESGTSEAWLRLSDNTGECLINPRGAEVRPATRESWQGSMRHPLRIEPSGGFFGFLTGGKQYRYIEERLHAGEPLYAIGEFRSLGGGRQGLDASAAQMAVIREWKGDFAGLLQRFDADNNGQLDEQEWNRVRLAAQLEAEDRHRKASTQPTQNHMVCPEESQPFILSSHGEDEIARRFRWQAAGGAILCLVGAVATVYLLQVVGLV				NA	NA	NA	NA	NA
BMS010_01440	264			hypothetical protein	ATGGCCGTTGAAGTGGTGTACCGCAGCAGCCGAGACCCGGAGCGTTTGTTCATGGATAAAGCCGAAGCCGATCGTCATGACAAGATGCTGGAACTGGCGGAGTCCCTGGCAGAGGTGCTGCAGAAGGCTGTGCCGTCGTTGAGCGAACAGCAGGTCGAGGAGATCGGGATTTTCATGGCGAAGAACCGCGAGGTGTTCGCCAAGGCCTTCAAGAGTAGCCCGGATGCGTTGGCCGATCTGAATGCCTCCTCGGCAGACGAATGA	MAVEVVYRSSRDPERLFMDKAEADRHDKMLELAESLAEVLQKAVPSLSEQQVEEIGIFMAKNREVFAKAFKSSPDALADLNASSADE				NA	NA	NA	NA	NA
BMS010_01441	249			hypothetical protein	ATGCCTGATTACCGCCCCCTTCCCTCTTTCACCCCTGCCGGCAAGCCAGTGCTGTACGTCGATGCCAGCCAAAGCGCGCTGGAGTTGTACGAGTCGGCCCAGGAGCGGCTGGATGCGGCGCGGCAGTTGGCGCTGGTGTTGTTCTGCGGCGATCAGCAGTTGGATGACAGCCGGGTCTTTGCGGCTTTCCATCTGTTGTTGAGCGATGCGGCCGGGTTGTACGAGGCGGCGTTCGCGCAACGGCGCTAA	MPDYRPLPSFTPAGKPVLYVDASQSALELYESAQERLDAARQLALVLFCGDQQLDDSRVFAAFHLLLSDAAGLYEAAFAQRR				NA	NA	NA	NA	NA
BMS010_01443	426			hypothetical protein	GTGGGTACGACGGTACGACTGGACGAATTGTTGGATGCGTATGAATGGGTCAGCGCCAGTGATGCAGTGGTGTTAGGCTGCGCGGCTTATATCGACAGGACGACGGGAAAGATTCATTGGGTTGGCGAAGGCATCGATGAGGAAGCCCCGGAAGACGTCGATGATGAAAGCCGGTATATCGCCGTACCGCGAAAGAGAGAGCTCGACCTCGGTAGCCCCCTCGTTCTGCGTTTTGTCAAAGAGCACCTCCCGGACAGCATCGACACCGTTTACGGGTTCTTCCGCAAGCGAGGTGCGTACGGGCAATTCAAAGCGTTGCTCGATCGTGTCGGTCAGCTCGATGCTTGGTATGCGTATGAACAGCGCGCTACTGAAGACGCATTGCGCGATTGGTGCGAAGAAAACGGTCTCACCCTTGCCCCATAG	MGTTVRLDELLDAYEWVSASDAVVLGCAAYIDRTTGKIHWVGEGIDEEAPEDVDDESRYIAVPRKRELDLGSPLVLRFVKEHLPDSIDTVYGFFRKRGAYGQFKALLDRVGQLDAWYAYEQRATEDALRDWCEENGLTLAP				NA	NA	NA	NA	NA
BMS010_01444	771			hypothetical protein	ATGAACAAGCTCCCTCAGATCACCCTGGCATTCTGGGTGATGAAGATTTGTGCCACGACCCTGGGCGAGACGGCAGGCGACCTTCTGTCGATGACGCTCGATATCGGCTATGCGCTCAGTTCGTTGCTGCTGATCGGCCTGTTTCTGGTGTCTCTTTTTGGACAGTTGCGGACGCATCGCTATCAGCCGGCGCTTTACTGGACCGTGATCCTCATGACCAGTACGGCCGGCACCACCCTCTCGGATTTCATGGACCGCACCCTCGGGTTGGGGTACGCCAGCGGTGCGGCCTTGCTCGTCACCCTGCTGCTCCTGGTTCTGGCGAGTTGGTGGCTGAGTGAAAAGTCGCTTGCGGTGGATAACATTTCGACCCGTCGGGGCGAGTTGTTCTATTGGGGCGCCATCCTGGTTTCCAACACCCTGGGAACGGCATTGGGTGATTACCTGGCCGACGACTCGGGGCTCGGCTTCGCCGGCGGCGCCCTGCTCATCGGTAGCCTGCTGGCGGTGGTCGCGTTGGCCTACTTTTATACGCGGGTTTCCCGGGTGGCGTTGTTCTGGATGGCTTTCGTTCTGACCCGGCCGTTTGGCGCGACGATGGGCGATGTCCTGACCAAGAGCGCGGACAAGGGTGGGCTCGATCTGGGGACCATCGGTTCTTCGACTGTCCTGGCCGCTGTTCTGGTCGCGATGGTCTGCTTCACGCTGTGGTCGCAACGGCAAGCCCAACGGCTGGCACCGGCGGCCCAGTACGATGACTCACGCGTTTGA	MNKLPQITLAFWVMKICATTLGETAGDLLSMTLDIGYALSSLLLIGLFLVSLFGQLRTHRYQPALYWTVILMTSTAGTTLSDFMDRTLGLGYASGAALLVTLLLLVLASWWLSEKSLAVDNISTRRGELFYWGAILVSNTLGTALGDYLADDSGLGFAGGALLIGSLLAVVALAYFYTRVSRVALFWMAFVLTRPFGATMGDVLTKSADKGGLDLGTIGSSTVLAAVLVAMVCFTLWSQRQAQRLAPAAQYDDSRV				NA	NA	NA	NA	NA
BMS010_01445	666			hypothetical protein	ATGTCCCTATCCCGCCATCTCCCCGCCCGTATTTTCCCGTCCATGCTCCGTGTCCTCGGCACCTGCCTGCTGGGTGGACTGCTGGTCGCCGCCCCGCTACACGCCGAGGAAACCGCCAGCAACGTGCGCTGGGTGAGCGACAGCCTGAACACCTACGTACGTAGCGGCCCGACCGATGGTTACCGCATCATCGGCACCCTCACCTCCGGGCAGAAGGTCGAGCTGCTGAGCACCCAGGGGGATTACAGCCAGGTGCGTAACGAGAACGGCAACGCCGTGTGGATACCCAGCCGTGACCTGCAGGAAGTGCCCGGCCAGGCCGAACGCCTGCCGCAACTGGAGCAGAAGGTCGCCGAGCTGACAGCGGAACTGGCAGGCATCGACGACACCTGGAAAAACCGTGTGAAAGGCATGCAGGAGACGCTGGATTCGCGCAAGAAACTGATCGACGAGCTACAGACCGCCCGCTCGACCCTGAACCTCGAGCTGAGCCGGGCACGTTCCGAATTGCGCGAGCTGCAAGCCCAGGTTGGCGACGAGAACCAGCAGGTGCTGATGCGCTACATGGTCTACGGTGGCAGTATCGCCGGCGCCGGGCTGTTCGCCGGGCTGATCCTGCCGACCCTGCTGCGGGTACGGCGCAAGCGTAACGATCAGTGGTTCTGA	MSLSRHLPARIFPSMLRVLGTCLLGGLLVAAPLHAEETASNVRWVSDSLNTYVRSGPTDGYRIIGTLTSGQKVELLSTQGDYSQVRNENGNAVWIPSRDLQEVPGQAERLPQLEQKVAELTAELAGIDDTWKNRVKGMQETLDSRKKLIDELQTARSTLNLELSRARSELRELQAQVGDENQQVLMRYMVYGGSIAGAGLFAGLILPTLLRVRRKRNDQWF	PGPT0023725_152	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0023725-ygiM|htrG-K07184	NA	NA
BMS010_01446	612	kefF_1		Glutathione-regulated potassium-efflux system ancillary protein KefF	ATGCACGCCCTCATCGTCGTCGCGCATCACGATCCCCAATCGCTCACCCACAGCCTCGCGAAACGGCTTGCAGAAGGCATCGCCCTCTCCGGCCACGGCGCCGAAATCGCCGACCTCGCGGCGGAAGGCTTCGATCCACGCTTCACCCTGGCCGACCATGCTGTACACCGCCGCCAAGCACCGCCCCCCGTCGACGTGGCCGCCGAACAGGCACGCATCGACCGCGCCGATGCCCTGGTACTGGTCTATCCCGTCTACTGGTGGTCGATGCCGGGGCTGCTCAAGGGCTGGATCGACCGGGTGTTCTCCAACGGCTGGGCCTTCGACTTCAGCCTCGACGCCAAGCTGGAGAAAAAGCTCCGCCACCTGCGCGTCCACCTTATCGGCGTGGGTGGCGCCGACGCAGGCACCTATGAACGGCACGGCTACTTCCACGCGATGAAAACCCAGATCGACCACGGCATTTTCGACTACTGCGGCGCCCACGTGGCGACCTCCGAACTCTTGCTCGACTCGGAAACCCAGGACCCGTGCATTCACTTGGACTGCGCATTTGCCATGGGGCAGGACCTCTTCGCGGCAGTCCATCAGCGCGAAGCGGCGCTGCTCTGA	MHALIVVAHHDPQSLTHSLAKRLAEGIALSGHGAEIADLAAEGFDPRFTLADHAVHRRQAPPPVDVAAEQARIDRADALVLVYPVYWWSMPGLLKGWIDRVFSNGWAFDFSLDAKLEKKLRHLRVHLIGVGGADAGTYERHGYFHAMKTQIDHGIFDYCGAHVATSELLLDSETQDPCIHLDCAFAMGQDLFAAVHQREAALL	PGPT0009455_940	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009455-kefF|nqo|ywrO-K00355	NA	NA
BMS010_01447	630			hypothetical protein	GTGTCAAGCAGTGAGATCGAAGAGCAGGAGTCCCTTTCGCAGCCGCGTCGTCGCCTTTCCCGGGAGGAGCGGCAGCGGCAGTTGCTGGATGTCGCATGGCAATTGATCCGGGAGGAGGGCACGGAGGCGCTGACCCTGGGCCGGCTTGCCGAGATGGCCGGCGTGACCAAACCGGTGGTCTACGACCATTTCGGCACGCGGGCCGGGTTGTTGGCGGTGCTTTACCAGGCATTCGACGCCCGCCAGACGGCGCAGATGGACGCCGCACTGGCGGCGAGCGAACCGACCCTGACGGCCCGGGCGGAGGTGATTGCTTCCTCCTATGTGGATTGCGTGCTGCTGCAGGGGCGGGAGATTCCCGGCGTGATCGCGGCGCTCGCTAGTTCGCCGGAACTGGAGCGGATCAAGCGCGAGTACGAGGTGGTGTTCCTCGACAAATGCCGTAAGGCCCTGGCCCCCTTCGCTGCCCAGGGTGACGTGGGCCAGGCGGGACTGCGGGCGATGCTGGGGGCCGCCGAGGCGTTGTCCCATGCCGCCGCGGTTGGCGAAGTCACGCCAGGGCAGGCGAAGGACGAGCTGTACGAGACCATCGTCGCGATGGTCGAGAGAAGCGGGCGCGAACGCCGCTGA	MSSSEIEEQESLSQPRRRLSREERQRQLLDVAWQLIREEGTEALTLGRLAEMAGVTKPVVYDHFGTRAGLLAVLYQAFDARQTAQMDAALAASEPTLTARAEVIASSYVDCVLLQGREIPGVIAALASSPELERIKREYEVVFLDKCRKALAPFAAQGDVGQAGLRAMLGAAEALSHAAAVGEVTPGQAKDELYETIVAMVERSGRERR				NA	NA	NA	NA	NA
BMS010_01448	2364	polB	COG0417	DNA polymerase II	GTGGAGTTACAGCAAGGGTTCGTCCTGACGCGGCACTGGCGCGATACGCCCGCCGGTACCGAGGTCGCTTTCTGGTTGGCGACCGACGACGGCCCGCGCTATGTGCGCCTGCCCCACCAGCCTTCGGTGGCCTTCATCCCGGCCGCCCAGCGCGAGCGCGCCGAGGCGTTGCTACGCGGCGAACGTGACGTCGAGCTACGCCCCCTGGCCCTCAGCGATTTCCGCCACCGACCGGTACTCGGCCTCTATTGCCGCCAGCACCGGCAACTGATGAAGCTGGACAAGCAGCTTCGCCAGGCCGGCGTGGATGTCTACGAAGCCGACATCCGGCCGCCGGAGCGCTATCTGATGGAGCGCTTCATCACCGCGCCGGTAGGGTTCGGCGGCACGCCGGACGACAACGGCGCCCTGTTCGACGTCCAGCTCAAGCCCGCGCCGGACTACCGCCCCAGACTCAGACTGGTCTCACTCGACATCGAGACCAACATGCGCGGCGACCTCTACTCCATCGCCCTGGAGGGCTGCGGCCAGCGCCAGGTCTACATGCTCGGCCCGCCCAACGGCACCGACACGCCCCGCGACTTCGACCTGGAATACTGCGACAGCCGCGCCGAACTGCTGGAACGGCTCAACGACTGGCTGGCCCGCCACGACCCGGACGCGCTCATCGGCTGGAACCTGGTGCAGTTCGACCTGCGCGTGCTGCACGAGCACGCCAAGCGCCTGCAGGTGCCCCTGCGCCTCGGTCGCGGCGGCGACGAGATGGGCTGGCGCGAGCACGGCACCCGCAGCAATCACTTCTTCGCCGACGCCGCCGGCCGGCTGATCATCGACGGCATCGAAGCCCTGCGTTCGGCCACCTGGAGCTTCCCCTCGTTCAGCCTGGAAAACGTTGCCCAGACCCTGCTCGGCGAGGGCAAGTCCATCGACAACCCCTACCAGCGCATGGACGAGATCGACCGCATGTTCGCCGAGGACAAACCCGCCCTGGCGCGTTACAACCTCAAGGACTGCGAGCTGGTCACACGGATCTTCGAGCACACCGAACTGCTGCGCTTTTTGCTGGAACGCGCCACCGTCACCGGCCTGCCCGCCGACCGCAGCGGCGGCTCGGTAGCCGCTTTCTGCCACCTGTACATACCACTCATGCACCGCCAGGGCTTCGTCGCGCCGAACCTCGGCGAACGCATGCCGGAAGCCAGCCCCGGCGGCTTCGTGATGGACTCCCGCCCGGGCCTCTACGATTCGGTGCTGGTGCTGGACTACAAGAGCCTCTACCCCTCGATCATCCGCACCTTCCTCATCGACCCGGTGGGCCTGGTGGAGGGCCTGCGCACCCCCGACGACAGCGCCTCGGTGCCGGGCTTTCGCGGCGCGCGCTTCTCCCGCACGCGGCACTGCCTGCCGGCCATCGTCGCCCGAGTCTGGGAAGGTCGTGAAGCAGCCAAGCGCGAGCACAACAAACCGCTGTCCCAGGCGCTGAAAATCATCATGAACGCCTTCTACGGCGTGCTCGGTTCCAGCGGTTGTCGCTTCTTCGATCCGCGCCTCGCCTCGTCCATCACCCTGCGCGGGCACGAGATCATGCGCCGCACCCGCGAACTGATTGAAGCCCAGGGCTACAGCGTGATCTACGGCGACACCGACTCCACCTTCGTCTGGCTGCGCAGCGCTCACGCCGAGGCGGATGCCACCCGCATCGGCCGCGCCCTGGTGCAGCACGTCAACCAGTGGTGGCGCGAGCACCTGCAACGGGAATTCGGCCTGGAAAGCGCCCTCGAACTGCAATTCGAAACCCATTACCGCCGCTTCCTCATGCCCACCGTGCGCGGCGCCGAGGAAGGCAGCAAGAAGCGCTACGCCGGCCTCGTCCAGCGAACGGACGGCAGCGAGGAGATCGTGTTCAAGGGCCTGGAAACCGTGCGCACCGACTGGTCGCCGCTGGCCCAGCGCTTCCAGCAGGAACTCTACCTGCGCATCTTCAACGGCCAGCCCTACCAGGACTATGTGCGCGACTACGTGCGCCGCACCCTGGCCGGCGACCTGGACGACCTGCTCGTCTATCGCAAGCGCCTGCGCCGCCGCCTCGACGACTACCAGCGCAACGTCCCGCCCCACGTGCGCGCCGCGCGCCTCGCCGACGAACACAACGACCGCCTCGGCCGCCCCCGGCAATACCAGAGCGGCGGCTGGATCAGCTACCTGATCACCGTCGCCGGCCCGGAACCCCTGGAAACCCGCCGCGCGCCCATCGACTACGACCACTACGTGAGCCGTCAGCTACAGCCCGTGGCGGACGCCATCCTGCCGTTCGTGGGGGATGACTTCGAACGGCTGATCGACGGCCAGATGGGATTGTTCTGA	MELQQGFVLTRHWRDTPAGTEVAFWLATDDGPRYVRLPHQPSVAFIPAAQRERAEALLRGERDVELRPLALSDFRHRPVLGLYCRQHRQLMKLDKQLRQAGVDVYEADIRPPERYLMERFITAPVGFGGTPDDNGALFDVQLKPAPDYRPRLRLVSLDIETNMRGDLYSIALEGCGQRQVYMLGPPNGTDTPRDFDLEYCDSRAELLERLNDWLARHDPDALIGWNLVQFDLRVLHEHAKRLQVPLRLGRGGDEMGWREHGTRSNHFFADAAGRLIIDGIEALRSATWSFPSFSLENVAQTLLGEGKSIDNPYQRMDEIDRMFAEDKPALARYNLKDCELVTRIFEHTELLRFLLERATVTGLPADRSGGSVAAFCHLYIPLMHRQGFVAPNLGERMPEASPGGFVMDSRPGLYDSVLVLDYKSLYPSIIRTFLIDPVGLVEGLRTPDDSASVPGFRGARFSRTRHCLPAIVARVWEGREAAKREHNKPLSQALKIIMNAFYGVLGSSGCRFFDPRLASSITLRGHEIMRRTRELIEAQGYSVIYGDTDSTFVWLRSAHAEADATRIGRALVQHVNQWWREHLQREFGLESALELQFETHYRRFLMPTVRGAEEGSKKRYAGLVQRTDGSEEIVFKGLETVRTDWSPLAQRFQQELYLRIFNGQPYQDYVRDYVRRTLAGDLDDLLVYRKRLRRRLDDYQRNVPPHVRAARLADEHNDRLGRPRQYQSGGWISYLITVAGPEPLETRRAPIDYDHYVSRQLQPVADAILPFVGDDFERLIDGQMGLF				NA	NA	NA	NA	NA
BMS010_01449	495			hypothetical protein	ATGGAACAAGACAGGGACGCGGTGCTGGAACGGATTCGGGCGTTCTTCGCGTCGATCGAGTTGCCATGCGAGCCGGCAACGCTGGAAGAGCCGACCTTCCTGCCGGGCATCAGGGTGGAGTGCGGGGGATTGCTGTTCGATGCCGAGCGCCTCGCATTCCCCGGCGACCTGCTGCACGAGGCGGGGCACCTGGTGGTGGTGCCGGTCGAGGAGCGGCGGACGCTGAGCGGCAATATCGACCGTGGCGGCGCGGAGGAGATGGCGGCCATCGCCTGGTCCTGGGCCGCGCTGGTGCATCTGCGGTTGGCGCCGGAGGTGGTGTTTCACCCCGACGGATATCGTGGCGAGGCGGCGGCGATCATCGAGAATTTCAGTGCCGGGCGTTTCGTCGGGGTGCCCTGGCTGCAATGGCGGGGGATGAGTCTGGAGCCGGAGCAGGCGGCACGCCAGGGCGGAGAGCCGTTCCCGACGATGCGGCGGTGGTTGTGCGATTGA	MEQDRDAVLERIRAFFASIELPCEPATLEEPTFLPGIRVECGGLLFDAERLAFPGDLLHEAGHLVVVPVEERRTLSGNIDRGGAEEMAAIAWSWAALVHLRLAPEVVFHPDGYRGEAAAIIENFSAGRFVGVPWLQWRGMSLEPEQAARQGGEPFPTMRRWLCD				NA	NA	NA	NA	NA
BMS010_01450	663	psiE		Protein PsiE	ATGCCAGCGCGTCTCACCCCAGCCCATCCTACTTGTCGACGATTCGGGGCCTTCTTTCGCAGCACCGCCAAGGTAGCGCTGCGTTGTGTGCCACGCTGCGGTTCAATCCTGGCTGGTCTTTTGCTGGATAACCAAACCGTCACCCCGGCGACGCAGAATCCACCCGAACGCAAGGAATCCCGCATCGTGAAACTGAATTGGGCCGAATCGCTCCGCGAGGCCGTGCATGGGCTGGCCGAGTCCCTGGGCAACCTGCTGGTGGAGAGCTTTCACTACCTGGCGCTGTTCGCCATCGGCGGGATCACCGCCTGGGCGGCGGTGCTGGCGGTCTGCGGGATGCTGGAGAAAGGCCACATCACGGTGGACGACATCCTGCTGCTGTTCATCTACCTCGAGCTGGGCGCCATGGTGGGAATCTATTTCAAGACCAACCACATGCCGGTGCGCTTCCTCATCTACGTCGCCATCACGGCGCTGACCCGGCTGCTGATTTCCGATGTGTCGCACCACAATCGCCCGGGTATGGAGGTGGTGTACGTGTCTGGCGCCATTCTGCTGTTGGCGCTGGCGATCCTGGTGGTGCGTTTCGCGTCGTCGCGCTTCCCGGCGGTGCAGAGCGATGCGCGCCGGGGACGTGACGGCGATGCGCAAACGCTGGATTGA	MPARLTPAHPTCRRFGAFFRSTAKVALRCVPRCGSILAGLLLDNQTVTPATQNPPERKESRIVKLNWAESLREAVHGLAESLGNLLVESFHYLALFAIGGITAWAAVLAVCGMLEKGHITVDDILLLFIYLELGAMVGIYFKTNHMPVRFLIYVAITALTRLLISDVSHHNRPGMEVVYVSGAILLLALAILVVRFASSRFPAVQSDARRGRDGDAQTLD	PGPT0015090_49	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-PHOSPHATE_STARVATION_RESPONSE,PGPT0015090-psiE|yjbA-K13256	NA	NA
BMS010_01451	906	dhaA_1		Haloalkane dehalogenase	ATGGTACCCACCCCATCCTTGAACGTTGCGGCAAACCGGGCGGTTCGCCACAGAACCCTCGATCTGGACGGTTTGAAGATTTTCTACCGGGAAGCCGGCCCGGCGGACGCACCCGTGCTCCTTCTACCTCACGGCTACCCCTGCTCTTCCTACCAGTACCGTAATCTGATGCCGGCCCTGGCCGACCGCTGGCATAGCGTCGCACCGGACTTTCCCGGCTTCGGATACAGCGACACGCCAGCCGAATTCGCGTTCGACTTCGATGGCTACGCAGACTTCCTCGACCGCTTCGCCGAGGCCCTGGGCCTTCATCGCTTCGTGCTTTACCTGCACGACTACGGCTCGCAGATCGGCCTGCGCCTGGCCATCCGTTCGCCAGATCGAATCCGCGGACTGATCATCCAGAACGGCGACATCTACGAGGATGCCCTTGGCCCGAAATACGCCGGCCTGAAGGCATACTTCGCCGCGCCCAGCGCCGAGAAACGCCACGCCCTGGAGAGCGCGGTGAGCGAACACGGTTTCCGCGACGAGTTCCTCAACCAAGTATCCGCCGAGGTGGCCGAACGGATTTCACCCGACCTCTGGCAGCTCAACTGGGCCTTGCTGCAAACCGCTCGGCGCCGCGAAATCATGGTAGGACTGATGGAGGGATTGAAGGAGAACCTCGCCTGGTTTCCGCGCTACCAGGCTTATCTGCGCGAGCACCAGCCAGCCACGCTCATCGTCTGGGGTCCGCAGGACGGCTATATGCCGGAAGCCTCGGCCCGCGCTTACCTGCGCGACCTCCCGGATGCCGAGCTGCACCTCCTGCCTGACGCCGGGCACTGGGCGCTCGAAACGCACCTGGATGCCGTGGTCGAGCGGATCAGGGCATTCCTGGCTCGATTGCCGGAAGGACGATAA	MVPTPSLNVAANRAVRHRTLDLDGLKIFYREAGPADAPVLLLPHGYPCSSYQYRNLMPALADRWHSVAPDFPGFGYSDTPAEFAFDFDGYADFLDRFAEALGLHRFVLYLHDYGSQIGLRLAIRSPDRIRGLIIQNGDIYEDALGPKYAGLKAYFAAPSAEKRHALESAVSEHGFRDEFLNQVSAEVAERISPDLWQLNWALLQTARRREIMVGLMEGLKENLAWFPRYQAYLREHQPATLIVWGPQDGYMPEASARAYLRDLPDAELHLLPDAGHWALETHLDAVVERIRAFLARLPEGR	PGPT0013255_10	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
BMS010_01452	501			hypothetical protein	ATGAACGAGACGCCCATCGTCCGCCTGCTCACCCAACTGGCCCGGCACTGCAACTGCGACGCAGACCGGCTGCTCGCCGGCGAGCGCACGCTCATCAACGGCACGGCCTTCCGCTTCGATCATGACGAAGCGGAGTCGCCGGACACTCTGCTGGTCTGTTGCGAATACGGCGACCTGCCGGAACGCCAGCGCACCGACGCCATCGCCGCCCTGCTGGAAGCCAACATGCTGCTGTTCTTCAACCGGGGCAGCGAGAGCCTGTTCAGCCTCTCGCCGGAAGACGGCAAGGTCTGGCTGCTGGCTCGCCTGCGCCTGAGCCGGCTGACGCCGCAGGAACTGTCGCGCTACCTGGCGCAGACCGCCGAACAGGCGCGCCTGTGGCGCCAGGACCACTTCCTCGGCCCGGAGCGGACGGAGTCGGCGGTACCAGCAGAACGGCCCTATGCTCTGGGGCTGGGCGCTTCCCTTCTGCAAACCCCGGCCGTTCGGCCCACCTCCTGA	MNETPIVRLLTQLARHCNCDADRLLAGERTLINGTAFRFDHDEAESPDTLLVCCEYGDLPERQRTDAIAALLEANMLLFFNRGSESLFSLSPEDGKVWLLARLRLSRLTPQELSRYLAQTAEQARLWRQDHFLGPERTESAVPAERPYALGLGASLLQTPAVRPTS				NA	NA	NA	NA	NA
BMS010_01453	2529			hypothetical protein	ATGCACACCACGCTGTCTTCCTCTGCGCTCACCGCGCAGTTGCATACGCACATCGATGAAAGCCACCACAATCGCCACACGGAAGGCGCGCAAAGCCCCGGCGAAGCCATGCGTACGCTGGTGAACCAATGGACGCACAACAGCCGCTCGCGGGAAGCCCTGTTCGGCACGTCCCCCAGCGTCGGGCGGCTGGATATCCGTGCCGAAGAGTCGGATTCGGACGAAATCCGCGAGGCCCACGAAGTGATACCCGGCCACCAGCGCGCCAAGGTGCTCGAACGCCTGCAGAGCCTGGTACGCGAGCACCTGCAACTGAATCCGGACGATGCCGACTTCGGCGAGCATGGCGCCATCGTCCTGGACCTGGACGAAGCCGTACATGGCGCCTACAGCGCCGCGGCCTATGGCAAGAAAGGCGTGGAAAAAGGCGCCTCGGAAGTGCTGGAGGCGTTCAAGGAAGAAGCCCACGAAATCCGTGAAGAGCCATTCAGCTTCATGCGCCATGAGGTGCAGCCGGGGAACCTGGTGGACATCGGCATCGCCAGCGCCCTCACCGTGCTGGTCACGCCACTGGCGCTCAAGGCGCTGTTCGCCGGTATCCACGAGATCGGCGAGGCCAAGGAGAAAGCGGCGGAACTGAAAGGTAAGCAGCACGACAAGCAGGAAAACCTGGACAAGCTCTCCCTCGGCCTCCAGGCCGTGCGCCAGCATTCGGAGCTGCGGGGCCTGCAACCGCTGGTCGAAGGCGAGATCGCCCTCGGTCGCCAGGAAGCCCACGACCTGCGCCAGGCGCAGACGCAAAACACACTGGCCAAGGCCATCGGCTTCTCCTCCGCACTCTCCGGTGGTGCCATCGTGGCGAGCACCGCCACCAAGCTCGGCGGCCAAGTCGGACTGGCGAGCGCGGCCGGAGGCGTCGGCAAAGTCTCCGCCTTCGTCGCCGGCAGCGCGCCGGCCGCCACGGCGGCGACGGTTCTGGGCACCGCGGCCACCCTGGCCCTCGCCCCTGCCGCGGCGGTGGGTGCCATCAGCCTCGGCGCGGCCTTCACCATCAAGTCGCACAAGAAGCACAAGGCCCTGTTGGCACGCAGCCAGCCCACCCGCAAGCATCTCAAGGCGATGGCGGAAAAACCGGGGCTCGGCGACGCCGCATCGGTGCGCAAGTACCAGCAGTTCCTGGAAACCAAGATCACCCAGCGCGAGCGCTTCTTCAAAGACTTCGAGCGCTCCAACAAGCTCTTTCTCGGCGCCAGCTCTCTGTATGGCGCCGGCGCCCTGGGCAAGGCGGCGCTGGTCGGCGCTTCGCTGGCCGGGGTCGGCCTGCTGAGCAACCCGGTCACCGCGGCGGCCACGGTGGCGGCAGGTGCCGTCGGCGGCGTCGGCATGGCACTGACCTCCCATCAGTTCCTCACCGGCCACGGCAAGCAGCACCGCTACGACGAATACCTGACCACCGACATGCCCGTGCTGGATCGCCACCTGCTGGCCTCCGCCGACCTGCTGGCCGGCCCGGAACAGGGCATGAAGCTGCGCTCGGCGTTCTTCGGTCTGATCGAACAGCGCGACCATGAGCGCCAGGACCTGCTGGTGGAGATCGCCAACGACACCAACCGGGTGTTCGGCAAGCAACTGCATTCCACCGACGCGGGCTTCGTCTCGCCGAAGGACCGCCTCAAGGCGCGCCTGCGCGGGCAATCGGCGGACGCCCCGCCCCACAGCAACCGCCACGCGTCCATGAGCCAGCGCTTCAAGGCCAACGCCCTGGGTGCCGGGGCCTTCTTCCAGGCGGTGGGGCACGGCGACCTGAAGCGGGCGCTTCGCCAGGCGAAGGACACCCGCATGGCCAACGTCGACAAGCTCAGCTCACGCAAGATCCAGGAATGGCTGACCGCGCCGCAGCACCAGGCCCGGCAGATCGCCTTCATGCAGGCGGACCTGGAACGGCTGCAGACCTATCTGGAGGCGAAACTGGAGGTCCACGCCGGCATCCGCCAGCAGGCGGACGGCCCGCTCGATGAGCCCGGCCACAAGACCCTCGCCGAACTCTTCGCCGAAGAGGATCGCCAGGATTACATCGACAAGCTGGCGAAGGGCGACGGAAGGAGCCCGGCGGCGCCCTCGCCCCTCGCCGACCAGGCCCACGCCCTGGCCGACTTCCTCGGCCAATTGGACCAGAGCCAGGAGCGCATCGCCTTGATGCACGCACAGACCCGCCAGGTGCTGCATGATCTCGAACAATTGCAGAACGGCGAAGGCAGCTCTTCCGACGTTTCACCGCAGGACCGCCTGGCCCTCTGCCGCGAACGTTATCTGGCACTGCAAACCGGCAAGCTCTATGACAGCGAACGGAACGAGGCGAGCACCGACCTGGCAGCCAACACCCGCGCCTTCGCCAAGTACATGCTGCACGAAGCCGGCGCGGACTACCGTCACCTGCGCGGCATCCTGGTGGAAACCGAGATGCAGGCGACCATGGCCCGCACGCTCTATGAGCGGGGTTCGGCCCAGGCCGCAGGAGGAGCAGTGTGA	MHTTLSSSALTAQLHTHIDESHHNRHTEGAQSPGEAMRTLVNQWTHNSRSREALFGTSPSVGRLDIRAEESDSDEIREAHEVIPGHQRAKVLERLQSLVREHLQLNPDDADFGEHGAIVLDLDEAVHGAYSAAAYGKKGVEKGASEVLEAFKEEAHEIREEPFSFMRHEVQPGNLVDIGIASALTVLVTPLALKALFAGIHEIGEAKEKAAELKGKQHDKQENLDKLSLGLQAVRQHSELRGLQPLVEGEIALGRQEAHDLRQAQTQNTLAKAIGFSSALSGGAIVASTATKLGGQVGLASAAGGVGKVSAFVAGSAPAATAATVLGTAATLALAPAAAVGAISLGAAFTIKSHKKHKALLARSQPTRKHLKAMAEKPGLGDAASVRKYQQFLETKITQRERFFKDFERSNKLFLGASSLYGAGALGKAALVGASLAGVGLLSNPVTAAATVAAGAVGGVGMALTSHQFLTGHGKQHRYDEYLTTDMPVLDRHLLASADLLAGPEQGMKLRSAFFGLIEQRDHERQDLLVEIANDTNRVFGKQLHSTDAGFVSPKDRLKARLRGQSADAPPHSNRHASMSQRFKANALGAGAFFQAVGHGDLKRALRQAKDTRMANVDKLSSRKIQEWLTAPQHQARQIAFMQADLERLQTYLEAKLEVHAGIRQQADGPLDEPGHKTLAELFAEEDRQDYIDKLAKGDGRSPAAPSPLADQAHALADFLGQLDQSQERIALMHAQTRQVLHDLEQLQNGEGSSSDVSPQDRLALCRERYLALQTGKLYDSERNEASTDLAANTRAFAKYMLHEAGADYRHLRGILVETEMQATMARTLYERGSAQAAGGAV				NA	NA	NA	NA	NA
BMS010_01454	351			hypothetical protein	ATGGCCGTTCGCCGCATCGTCGCCAATCTCTATGCCGCCGATCCCGACCAGGCACAACAGTTCTACGCGGACCTGCTCGGCCTCGAGCGGGTCATGGACCACGGTTGGCTCATCACCTTCGCCTCCCCCGCCAGCGCGGCGCCGCAAGTCAGCATCGCCTGCCAAGGCGGTTCGGGCACGCCGGTGCCGGCGCTGTCCATCGAAGTGGACGATGTGGATGATGTCCACCGGCGCGCTCAGGGTGCCCGGCTCGATATCCCCTACCCGCTGACCGACGAACCTTGGGGTGTGCGGCGCTTCTTCGTACGCGATCCGTTCGGCAACCTGGTCAACATCCTCTCCCACCTGTAA	MAVRRIVANLYAADPDQAQQFYADLLGLERVMDHGWLITFASPASAAPQVSIACQGGSGTPVPALSIEVDDVDDVHRRAQGARLDIPYPLTDEPWGVRRFFVRDPFGNLVNILSHL	PGPT0013300_6193	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BLEOMYCIN_RESISTANCE,PGPT0013300-gloA|ywbC-K01759	NA	NA
BMS010_01455	477			hypothetical protein	GTGACCCGCATCAGCGACAACCTGGCCAGCCGCGCCAACGTCACCTTCGCCAACCGGGCGAACGCAACCAACAGCGCCGGGGCCCAGGACGCCGGCGACTCCAGCACCGCCGAACGCATCGCGAGCGACAAGGCCGCCTTCGGCGCCAGTGCCCGCGAGGCGCTGAACGCCGAGCGGCCGGCCGCCGCCAATGAGAGCGAGGGTGCATCGGGTGGTATCGACCCGGTGGAGCAGATCAAGAAGACCATCGAGCGCCTCAAGGAGCAGTTGCGCGAAGCCCGCCAACAGCTCGAAGAGGCCCAGCGCCGGGCGGAAGCGGCACCGGGCGACGATGCCGCCCAGGCCGCGTTGCAGGCGGCGCAACAACAGGTCGCTACGCTCAGTGCGGCGCTCCAGCAGGCCTATGCCTCGCTGATGGAAGCGCTGGAAAAGAGCGGCGGCGACAAGGCCGGCCAGACGGTGAATACCCGCGCCTGA	MTRISDNLASRANVTFANRANATNSAGAQDAGDSSTAERIASDKAAFGASAREALNAERPAAANESEGASGGIDPVEQIKKTIERLKEQLREARQQLEEAQRRAEAAPGDDAAQAALQAAQQQVATLSAALQQAYASLMEALEKSGGDKAGQTVNTRA				NA	NA	NA	NA	NA
BMS010_01456	894			hypothetical protein	GTGGGACACGACGTATATGCCAATGGACGGAGCATTTCCAGCAAGTCGGCGGACGGCAAGTCCCTGTGCGCCTTTCCCGATGTTTGCCTGACACCGCCGGCGCCGCCGGCCGGCCCGATTCCGGTGCCCTATCCGAACACTGGCATGGCCTCCGACACCACACGGGGCACGCGCAACGTGAAGATCGCCGGCAAGGAGGTCATGCTCAAGAACCGCTCGTTCTTTCGCAAGAGCACCGGCGACGAGGCTGCCACCCGTTCCCAGGGCATGAACGTGGTCACGCATCAGATCAAGGGCAAGGTCTATTTCGTGTCCTGGTCGATGAACGTGAAGTTCGAGGGCGAGAATGTGGTCCGCCATCTCGACTTGACCACCCACAATCATGCTTCCGACCCGCCCGGCACACCGCCCACCGGGCACACCGACAAGCAGACACCGCCGGTGGCGGAGAAGGAGACCTGCGACCCCCATGCCTGGGTGAAGGTATCCCAGGAGTCGCCTGCCGACACCAAGGCCAAGAATGACAACGCCCGTGGCGCCACCAAGCAGGAGGATGCGAAGCGGGGGTACGCATTCGAGAACAAGGCGATCGACGCCAACATGGTGGAAATGAACATCCAGGCGACTTCTGCGGTGTTCAAGTGCAGCAAATGCGGGGCCGAGCAGGAGGTGGATATCGTCGGCGACCGCCAGTTGGGCGAGGCCAAGTCCAAGTCGGCCAAGCAGGTGAAGAAAAAGGGTTCGCAACAGGCGCGCAATTACCGCTCCATCCAGGCCCAGGTGTTCGGCGAGGGGACCCAGCCGCGCGCTAAGTTGGATGGTGAGCGTGGCGATCATGCCGAGACCCGCGCCGAATTCGAACGGCGGGGATTCCAGGTCGAGATCGTCAACTGA	MGHDVYANGRSISSKSADGKSLCAFPDVCLTPPAPPAGPIPVPYPNTGMASDTTRGTRNVKIAGKEVMLKNRSFFRKSTGDEAATRSQGMNVVTHQIKGKVYFVSWSMNVKFEGENVVRHLDLTTHNHASDPPGTPPTGHTDKQTPPVAEKETCDPHAWVKVSQESPADTKAKNDNARGATKQEDAKRGYAFENKAIDANMVEMNIQATSAVFKCSKCGAEQEVDIVGDRQLGEAKSKSAKQVKKKGSQQARNYRSIQAQVFGEGTQPRAKLDGERGDHAETRAEFERRGFQVEIVN				NA	NA	NA	NA	NA
BMS010_01457	663			hypothetical protein	ATGTCGCAGGACTACACATTCGTTTTCAGTTGCCGCGAGACGGCGTTCGTCCCGGCGCTCGAACGCCTCCGCGATACGCTCGCGCCGCAAGGGTACGCGGTGGGGCCGGCTCTGACCCGGGTCGAGGTGCGCGGCGATGACTTCTTTCTGACCGAGTGCGAGGTTCCGAGCGGCGGGGCGAAGGGTTGGAAGACGGCGCTACGCGGCTTCGGGGAAGCGCCCGGGGTCAATCTGGATTTCACCTCCGAAGCCCTGTCCTTCGAGCTGACGGTGGCTCACTTTCCGTATCGGCATTGTGCAGTACTGATGAGCGTGCCGATGCACGACTGCCGCCGGCTGTTCCGGGAGCAGGGAATCGAGAAGCTCCATTTCACCCTGGCGCAAGTGGCCCTGGCGTTCGGCGCCCGCGCGGCGGCCGGCGCCATCGAGTTCGACGGCGACTACAGCCTGCTGACCCCGGACATGCTGGAGGAGCTGTTCCGCGCCGGGCGAACGGATGCTACGCGACTGGAAGAGCAGGGGGTCGATCTGATCGCCGGGCACCAGTCGCTGCTGCCTGCCGGGGAGGTGCTGGATGCCGCGCAGCCGTTCCATCCGGCCGGTTACGCACTGGGCTACTGGTTCCTGCAGCTCGAATCGACGGTGCGTATCTTCGGACTTTGA	MSQDYTFVFSCRETAFVPALERLRDTLAPQGYAVGPALTRVEVRGDDFFLTECEVPSGGAKGWKTALRGFGEAPGVNLDFTSEALSFELTVAHFPYRHCAVLMSVPMHDCRRLFREQGIEKLHFTLAQVALAFGARAAAGAIEFDGDYSLLTPDMLEELFRAGRTDATRLEEQGVDLIAGHQSLLPAGEVLDAAQPFHPAGYALGYWFLQLESTVRIFGL				NA	NA	NA	NA	NA
BMS010_01458	609	rhtB_2	COG1280	Homoserine/homoserine lactone efflux protein	ATGCTCAGCACAGAGTTCCTGATCACATCCCTGATCGTCGTCCTGATTCCCGGTACGGGCGTGGTGTTCACCCTGTCCGCCGGGTTGTTCCTCGGCTGGCGGGCCAGTCTGTTCGCCGCCCTGGGTTGCACCGTCGGGATCGTTCCGCATCTGCTGGCCAGTATCGTCGGCCTGGCGGCGGTTCTGCACATGAGCGCCGTGGCGTTCACCGCGTTGAAGTTCGCCGGCGTGGCCTACCTGCTGTATCTCGCCTGGGCGATGTGGAACGACAAGGGCTCGATCAGCTTCTCCCGGCCGGGCGAGACCCGCGCCTGGAACATCGCGGTCAAGGCGTTCCTGACGAATATCCTCAACCCCAAGCTGTCGATCTTCTTCCTCGCCTTCCTGCCCCAGTTCGTCACGCCCGGTGCCGATTCGCTGGCGCAGATGCTGGTGCTGAGCGGTGTGTTCATGGCCATGACCCTGGTGGTGTTCGTCGGCTATGGCGTGCTGGCCTTCAGCGTGCGGCGCTGGTTCCTCGGTTCGCCGAGGCTGCTGGCCTGGATGCGCCGCAGCTTCGCCGCCGTGTTCGCAGGCCTGGGGGTAAACCTGGCGCTCTCCGGTCGTTGA	MLSTEFLITSLIVVLIPGTGVVFTLSAGLFLGWRASLFAALGCTVGIVPHLLASIVGLAAVLHMSAVAFTALKFAGVAYLLYLAWAMWNDKGSISFSRPGETRAWNIAVKAFLTNILNPKLSIFFLAFLPQFVTPGADSLAQMLVLSGVFMAMTLVVFVGYGVLAFSVRRWFLGSPRLLAWMRRSFAAVFAGLGVNLALSGR				NA	NA	NA	NA	NA
BMS010_01459	729			hypothetical protein	ATGGAATTCCTACTGGTCGCGTTGCCGGCCGTGTTTCTCACCGGGTTGTCCAAGGGCGGCTTCGGCGGTGCCTTTGGTGGGATTGCCGTGCCGTTGCTGGCGCTGTCGATGGCGCCGACCCAGGCCGCCGCGGTGATGCTGCCGATTCTCTGCGTGGCCGACGTGGTCGGCCTGCGTGCCTACTACGGCAAGTGGGATCTGGCCAACCTGAAGATCATGCTGCCGGGGGCGCTGGTCGGCGTGACCATCGGCGCGCTGACCTTCCATCTGATGAACGAGCGCGTCATCGCCCTGCTCATCGGTGGCATCGCCATTGCCTTCGTGGTGGTCAACCTGCTGGTCCGTGCCGCGGCCACTCCAGCCCCGATACGCCCGAAGCGGGGGTTGGCCCTGTCCACCCTGGCCGGCTTCACCAGCTTCGTTTCCCACGCCGGCGGCCCGCCGATCATGATGCACCTGCTGCCGCAGCAGCTCGACAAGGTGCGCTATGTCGCCACGGTGAACGGCTTCTTCCTGCTGACCAACGCCGTGAAGCTGGTGCCCTACACACTGCTCGGCCAGTTCAGCCGCGACAACCTGCTCACCAGCCTGGCCTTGGCGCCGCTGGTACCGCTGGGCGTGTGGACGGGCCTGTGGTTGCAGAGCCGGGTGAACCACCTCTGGTTCTACCGCATCGCTCGCCTCGGGCTGCTGGGGACGGGGATTCAACTGATCGTGAAGAATCTGTGA	MEFLLVALPAVFLTGLSKGGFGGAFGGIAVPLLALSMAPTQAAAVMLPILCVADVVGLRAYYGKWDLANLKIMLPGALVGVTIGALTFHLMNERVIALLIGGIAIAFVVVNLLVRAAATPAPIRPKRGLALSTLAGFTSFVSHAGGPPIMMHLLPQQLDKVRYVATVNGFFLLTNAVKLVPYTLLGQFSRDNLLTSLALAPLVPLGVWTGLWLQSRVNHLWFYRIARLGLLGTGIQLIVKNL				NA	NA	NA	NA	NA
BMS010_01460	1896			hypothetical protein	ATGGCTGGCACCTGGGCCGCTTTGGCCAACGAGCCCCCCGCATCCATCGCAACGACCCTGCTCCTGACTGACGGCTCCGTACTCGCCCAAGGCGTGAGTACGAACCAGTGGTACAGGCTGCGTCCCGATTCGAGCGGTAACTATGTGAACGGCACTTGGACCACGCTGGCCGCCAGCGTCCATGCGCCTCTGTACTATGCCTCCGGCATCCTGCGTGACGGCCGCGCCATCGTGGCCGGCGGCGAATACGACGCGGGCGCCCTGGTATGGCTGCTCAATGTCGAAGCCTACGATCCGGTGGCCAACACCTGGACGACGCTGCCCAATCCGGCGGGCTGGACACGCATCGGCGATGCGCCGGGCTGTGTCCTGCCGGACGGCCGCTTCTTCCTGGGGCAGGTGGGGACTCGTCGCACGGCGATCTATAACCCCGCCACCAACACCTGGACAGCGGCGGCCGACAAGATCAACGCGGTCGGCGAGGAGAGCTGGTCCCTGCTCCCCGATGGCTCGATCCATGCGGTGGACTGCTCCAATCCACCCAATGCCGAGAAATACATCATTGCCGCCAATACCTGGGTGGCCGACGGCACGACACCTCAAACACTGGTCGACAGCATTTCCGAAATCGGTGCCTCGGTGCTGCTCCCGGACGGGCGATTGTTCGTCATCGGGGCGACCGGTTTCACGGCGCTCTATACGCCGCCGCCTATCGCCAATCAGGTGGGAACATGGGTGCAGGGACCTTCGATTCCGCAGGTCAATCCGGGCCAGCCGCTGGGCGCCGTCGATGCCCCGGCGTGCCTGCTGCCCAACGGCAACGTGTTGTTCACCGTGGGGCCGATCACCGTTCCGGCGACCTTCCAGGCGCCGACGTTCTTCTTCGAATACGACCCCGGCGCGAACACGATCAGCCCCGTTCCGGCGGCAGCGACCTCGTCGAGCGTCCCCTACTGGGGGCGCATGCTGATGTTGCCGACCGGCCAGGTGCTCTATACCACCGGCAAGACTTCCGTGCAGGTGTATACGCCCAGTGGCAGCCCCGACAGCGTCTGGCGACCGACCATCACGGACTGCCCCGGCGCCGTGCGGCGCGGGCGGACGTATCGCCTGCTGGGGCGCCAGATCAACGGCCTGAGCCAGTGCGTCTACTACGGGAACGACGCGACGCAGGCCACCAACTATCCCATCGTGCGGTTGGAGTCGGGCGGGAGCGTCTACTACTGCCGGACGTCGAATTTCTCGACCATGGGGCTGCAGACCGGCACCGTCATTCACGGTTGCGACTTCACCGTGCCCACCTCGGTGCCGGATGGCTCGTATTGCCTGCGGGTGATCGCCAACGGCATCCGCTCTGCCTGCCGGACAGTCAGTGTGACGAGCAAGTTCTTCAAGGAGTTGAAGTACGAGATCAAGGAGAAGCTGGAGATACTGGAGAACATCAAGGCGATCCAGGATGCCCGATCCAAGCGGATTCCCGACTTCATCGATCCGAAGCTGATCCGCGAAGACATCGACATCTTCGAGCGCATCCAGGACGAGTGGGCCAAGTCCCTCGGCACCCTCGCGGCCCAGGTGGACCGGACCCATCTCCAGCTCAGCCGCGCGTTCATCGGGCCGGAAGAGCGTCCCCTGGTCGGACCGCCCGAACCCGTGGTCGAAAAACTGGACGTACCGAAGATTTCCGAGGAACGCGCGCGCCGTGAAAGCGAGAAGACCGCCTTCAACGATGGGCGCAAGGAACTGGCGGTGTCCAAGGAAGCGGAGCGGATACACCGGCTGATCCATGCGATTTCCCGTTCCGGCGGCAAGGGCATCGAAGAGGACGGGACCGCGGGAAGGCAACCGGGAGGCGACAGCGCCAAGCCCACACGGCGCAAGCCGAAAAAATCATGA	MAGTWAALANEPPASIATTLLLTDGSVLAQGVSTNQWYRLRPDSSGNYVNGTWTTLAASVHAPLYYASGILRDGRAIVAGGEYDAGALVWLLNVEAYDPVANTWTTLPNPAGWTRIGDAPGCVLPDGRFFLGQVGTRRTAIYNPATNTWTAAADKINAVGEESWSLLPDGSIHAVDCSNPPNAEKYIIAANTWVADGTTPQTLVDSISEIGASVLLPDGRLFVIGATGFTALYTPPPIANQVGTWVQGPSIPQVNPGQPLGAVDAPACLLPNGNVLFTVGPITVPATFQAPTFFFEYDPGANTISPVPAAATSSSVPYWGRMLMLPTGQVLYTTGKTSVQVYTPSGSPDSVWRPTITDCPGAVRRGRTYRLLGRQINGLSQCVYYGNDATQATNYPIVRLESGGSVYYCRTSNFSTMGLQTGTVIHGCDFTVPTSVPDGSYCLRVIANGIRSACRTVSVTSKFFKELKYEIKEKLEILENIKAIQDARSKRIPDFIDPKLIREDIDIFERIQDEWAKSLGTLAAQVDRTHLQLSRAFIGPEERPLVGPPEPVVEKLDVPKISEERARRESEKTAFNDGRKELAVSKEAERIHRLIHAISRSGGKGIEEDGTAGRQPGGDSAKPTRRKPKKS				NA	NA	NA	NA	NA
BMS010_01461	672			hypothetical protein	ATGATCGTCGTCGTCGGTAGCCGGCATGACCCGGTGGCGATGGAACTCGTCGCCACCTGGCCCGGGGCCGCGCTGTGTTCGGCGGAGGATCTGGTCAGCCCGGGCTGGGCATGGACTGTTGGCGATGACGAAGCGCCGACCTGGGTGGTGGAAGGCCGGACAGTGGCGGATAGCGACGTCACGGGCGTGTTCCTGCGCCGCTCGGCGGTGTACCCCGCCGAGTTGCTCGGAATTCATCCTGACGACCGAACCTACATGGCCTCCGAAGCCCACGCCTTCCTCATCTTCGTGCTGGCGTCCACGCGGGCGAGGGTGGCCAGTCCGGTGGCCGATGGCGGGTTGGGTGACGATGCCTTGCGCCCGGAGCACTGGATGCCCCTCGCTGCTGCCGCTGGGCTGCCGCTGGCACCTTTGCGCCTGCGCTCGGGCCACGCGAAGCGGCGTGCGTTGAACGGCCGGATCGTCGAGGTGGTCGATGGGCAGGTCATCGGCGACATGGCGCCACGCCGGCAGGCGCGCATTCATCGTTTCGTGGCGGCCCTGCGGCTCGATTGGGCCCAGCTCCTGTTCGACGGGCGCCAGCGGCTCGTGGCCCTCACCTCCATGCATTCGCCCACGCCGGAGGCCGCCATGGCGCTCGGCCGGATGCTGATGGCTGGAGCACCGTCATGA	MIVVVGSRHDPVAMELVATWPGAALCSAEDLVSPGWAWTVGDDEAPTWVVEGRTVADSDVTGVFLRRSAVYPAELLGIHPDDRTYMASEAHAFLIFVLASTRARVASPVADGGLGDDALRPEHWMPLAAAAGLPLAPLRLRSGHAKRRALNGRIVEVVDGQVIGDMAPRRQARIHRFVAALRLDWAQLLFDGRQRLVALTSMHSPTPEAAMALGRMLMAGAPS				NA	NA	NA	NA	NA
BMS010_01462	915			hypothetical protein	ATGATCCTGGTCTGGGGAAACCTGTCCGACACGCCGGTCGAACGGATCGTCGATGTCTTGCTGGAGCGCGAGTCGGCGTTCTTTCATATCGACGATGCGGCCCTGCCGCTGATGACGCACGATGTTGTCTTCACCATGCCGCCGACGGGCTGGATCGAACTGCGTGGGCAGCGTCTGCCATTGGACGAAATTCGGGCGGCCTTCATCCGCCCCGGCGAGTTGCGCGAGGCGCGGGGGCTCGCCGCCGCGTCGACGTTGTCCGCCATCGCCGCCAGTCTCGACGCGAGGGTGATCAACCGTCCTGCCGCCGGGCGTTCCAACTGGTCCAAGCCTTTCCAGCTCCGGCTGATCGAGGCTGCCGGTCTGAACGTACCGGAAACACTGGTCACCACCGACCCTGCCAAGGCACGGGCATTCCTCGCCCGGCATCGGCGTGTCGTCTACAAGTCGGTGAGCGGTGTGCGCAGCATCGTCACGACCCTCGACACTCACCAGGCTGCGCGCCTGGACGACGTCTCGACCGGGCCGGTGCAATTGCAACGCTGGATCGCCGGGCGCGACGTGCGTGTGCATGTCGTGGGGGATCGCTGGTTTGCCACCGCCATCGAATCCGACGCGGACGATTACCGCTACGCCGCTCGATCGGGCGACTCGACGCACATGGCGGCGACGGACATACCGCAGGCCCTGGGCGAGCGGCTGGTGGCGCTGAGCCACTCCATGGGGCTGCTGTTGTCGGGTATCGACTTGCGCGTCGACCGGCACGGCGAGTGGTACTGCTTCGAAGTCAATCCATCGCCGGGTTTCAGCTATTTCGAAGACATGACCGGGCAACCGATCGCGGCGGCAATCGTGGAACTGTTGGCGGGTAAGGAGCGTCACGCGGTGCTGCCGAGGATGGGCCGCTTGCGATAA	MILVWGNLSDTPVERIVDVLLERESAFFHIDDAALPLMTHDVVFTMPPTGWIELRGQRLPLDEIRAAFIRPGELREARGLAAASTLSAIAASLDARVINRPAAGRSNWSKPFQLRLIEAAGLNVPETLVTTDPAKARAFLARHRRVVYKSVSGVRSIVTTLDTHQAARLDDVSTGPVQLQRWIAGRDVRVHVVGDRWFATAIESDADDYRYAARSGDSTHMAATDIPQALGERLVALSHSMGLLLSGIDLRVDRHGEWYCFEVNPSPGFSYFEDMTGQPIAAAIVELLAGKERHAVLPRMGRLR				NA	NA	NA	NA	NA
BMS010_01463	615			hypothetical protein	ATGTTCGCCAATGATCGTGAATTCCATCGTCCCACCAGCCGCCTTTGGGCCATGGGGGTGGATACCCGCACCGAGAGCGCCGTGACGGATACGCGCGGCAACGTGCTGTTGCATGCGCAGACGGGCGGGATGATTTCGCCGCAGCGCTACGAACTGCCCCGCAACACCCAGCTGTATCGCTTCGCCAGCGGCAGCGCACCGATTCCCCGTGCGATCACCGGAGGCTGGTGGGTCGCCGAGCCGGAGTTCGAAAAACTCACCCGTTTCGCCCAGATCCACGACCTGCACGTGGCCATGGCCGCGCGCTACTTGTGCTGCGTGCCGCCGGAGTGGAGCGACATGGGGCTGCTGATGCGCGTGCGGGTGGAAAAGCCGCTGCTGGCCTATCGCGGGTTGGGCAACAGTGTGGTGGTGCCGAAGTCCGATGGGCTCGGCCACGTGCGCATGGAGCCGAACAACGACATCGCCGCGCGGCGCCTGCACCAGTTGTTCATCCCCGGCCTGCAGGAATACGCGGCGAAGACGCCGGAACAGGTGGTGCCGGGCGCCCTGGCGCTGGAGCGCTACTGGAAGCTGGAGTCCGCCGATACCCAGCGGGGGTGGTTTTATCTATAG	MFANDREFHRPTSRLWAMGVDTRTESAVTDTRGNVLLHAQTGGMISPQRYELPRNTQLYRFASGSAPIPRAITGGWWVAEPEFEKLTRFAQIHDLHVAMAARYLCCVPPEWSDMGLLMRVRVEKPLLAYRGLGNSVVVPKSDGLGHVRMEPNNDIAARRLHQLFIPGLQEYAAKTPEQVVPGALALERYWKLESADTQRGWFYL				NA	NA	NA	NA	NA
BMS010_01464	1368			hypothetical protein	ATGGACGTGACTCATTTGCCAAATTCGGCCGATGCTGATCAAAAGAACGGCGTCATCAATCCATACGCACTCGCTGAAACCGTCGCCGGCCGCCGCATTGCCTGGTCGGAGGTGGACGCGCCTCGTGTGCTGGAAGATTTGCTGGCGACGCCCTATGAAGAGTTGTTCGACCCAAAGTACGACAGCCCTCTGTACACTGGCCTTCGCTTGAATAACAGCAGAACGCTGGAGCCTTATCGCTCACCGCTGCTGGATGTTCAGCTCAAACTGGAAACCAATGACTTGGAGATTCCAATTGAGCAACTGATGACAGAAGTGAAGGTACTCGGTGATCTTGGTCGACGCTACGAAATAACGGATATAGCCAATCTGGCCGTTCACCACATCAAGCTCTGTAATCCGTTCCAGATCGAACTAACCTTGAAGGTGCCTCCCAAGGATCGTCTGCAGCAACTGGCGCGCGTGTTTCCTAAAGAGTTAGTGCAAACCATCGCATTCGATCCGGAAATGCAAGGCAACACCAATCAGGATTGGACGCCGCCAAATGCTAACTGGACTGACAAAGGCACGTTCTTCAACGAAACTGCCGAGTTTTTCGATCCAGTACAAGGTGCTGTTGCCAACTGTTATTACATCGCGGCGTTGTCCGCTGTTGCTTGGGCGTCACCTTATCGCATTGCGCATATGACGCGAGCGCTCGGTCAAGGCCAGCAAGCTTTTACCAATCTGGTCCGCTTCTTCAAACCTGATAGCGGAGGTCAAATAGACAAGGAAATCGAGGTCACCGATACCGTTCCTGTCAGCAATGGTTCCGGCAATTTTATCTATTGCCGTTCCAGCGAGATTGGCGAAACGTGGCCTGCCATATTGGAAAAGGCGTTCGCCAAATTCGTCACCGGTACCACATCGGATCATCCCGATATTCTGGCAACCGCTTGGGGGAGCTGTATGCTCGCTACCGCTCAGTTGACCGGCGGTAAACGTTACTCTTACGGCAATGAAGGTCTAACCGGCGATCAGATATGGGATTTTGTACGTTCCAACTCTCTGAGTCGTCGAACCTTCCATCCCATGACCTGTTGGACCTACCACACAGCACCGGAGGGTCTGAACTATGCCGATGCCAATGTCGTTGCCGCGCACTGCTACACGGTACTGGGCTGGGATTATCACTGCGGTAAAAAATATATCGTGTTGCGTAATCCCTGGGGGTTCAAGGAAGTAACGGAAAGTGCACTCGATGCCACGGTCTGGATGTACGACATAAGCTGGTGGCGACCCATTAATCTGGCAACTCCGGATGGAACCTTTGCAATAGAGGCCAATGCGTTCAAGAAATATTTCAAAGGTATTGGTGTGGTGAAATGA	MDVTHLPNSADADQKNGVINPYALAETVAGRRIAWSEVDAPRVLEDLLATPYEELFDPKYDSPLYTGLRLNNSRTLEPYRSPLLDVQLKLETNDLEIPIEQLMTEVKVLGDLGRRYEITDIANLAVHHIKLCNPFQIELTLKVPPKDRLQQLARVFPKELVQTIAFDPEMQGNTNQDWTPPNANWTDKGTFFNETAEFFDPVQGAVANCYYIAALSAVAWASPYRIAHMTRALGQGQQAFTNLVRFFKPDSGGQIDKEIEVTDTVPVSNGSGNFIYCRSSEIGETWPAILEKAFAKFVTGTTSDHPDILATAWGSCMLATAQLTGGKRYSYGNEGLTGDQIWDFVRSNSLSRRTFHPMTCWTYHTAPEGLNYADANVVAAHCYTVLGWDYHCGKKYIVLRNPWGFKEVTESALDATVWMYDISWWRPINLATPDGTFAIEANAFKKYFKGIGVVK				NA	NA	NA	NA	NA
BMS010_01465	2364			hypothetical protein	ATGTTTTCGCACTTCAAGAGCCTGCGCACCCGCACGCTGTTCTATCTGCTATTGCTACTGTTCGTCTTCGCCCTCGCCAGCTACCTGACGACCTCGCGCCTGCTGCACAAGAGCCTGCAACAGTTCGAAGCCGCCCAGGCCCAGGCCGAGCTGGAACGCATCCGCGCGGTCCTCGCCACCGACGCCCAGGCCCTGCTCAGCAGCGGTCTCGACTACAGCCTGTGGGACGACACCTACGGCTACATGCAGGACCTCGACCCAGCGTACCTGGCGAGCAACTTCACCGCCGAATCCCTGGGCAACCTGCGCGTCGACCTGGTGGTGTTCCTCGATGCCGGCGGGCATTTCCATTCCGGCGTCGACCCGCATGCCGGCGCGAGCATGTCCCAGGCTGCCGCCAGTGGTACGCGGATCGACGCCATCCGTGCCGGTTACGACGCCCTGTCGCCGCACCTGCGCGACAAGGGCGGCTACCTGTTCCGCTGGCTCGGCAACGCGCCGGCCCTGCTGGTCTACAGCCCGATCCACGACAACAGCGGCCGCCAGCCCCGACGCGGTTGGCTGGTCATGGCCCGCCTGCTCCAGGGAGCCGCCGATTCCGCCCTCGGCAGCCAGGCGCCGATCCCCTTCCGCCTCGAACCGGTCGATACCCGCCGGACACCCGCTGCCGGCGACGGGCAGGCGTCCTTCACCGTCACCCAGATTCTGCAGGACTCGCAGGGCAGCAGCGACCTGCGGCTGATCGTCGAGCATCCGCCCAGCCTGCTTTCCCAGCAGCGTGCCGGCGACCTGCTGCTGCTCACCAACTCCCTGCTGATCCTGGTGCTGGCCGCGTTGGCCGCGGCGCTGCTGCTCGACCGCCTGATCCTCAAGCGCCTCAGCCACTTCTCGAACCTGGCGGAGTCCCGGCGTCACGGCGAGGGCCCCGCCGCCGTCTGGCCGGTGCGAGGCCGGGACGAACTGGACGTCCTGGCCCACTCCCTGAACGAACTCATGGCCGAGGTCCAGACCGCCCATGGCCATCTTTACCAGGAAGCCCGCAAAGACCCGCTGACCGGGCTCGGCAACCGCAAATTCCTCAGCGAGCGCCTGCAGCTCTACCAGGCGCTATGCAACCGCGACCCGGAACAGTCGCTGGTGTTCTATCTGATCGACCTGGACGACTTCAAACTGATCAACGACTGCCTCGGCCACGCCGCCGGCGATGCCATGCTGGATGCCATCGCCCTGCGCCTGCGCTCGCTGGTGCGCGCCAGCGACACGGCAGTGCGCATGGGCGGCGACGAGTTCGCCGTGCTCAGCCTGGTCCGCCACGGCGACCTGGGGGTTGGCGCCTTCGCCGAGCGCCTGCTGGAAGAAATCAGCCTGCCGGTGTTCTTCAACGGCACCCGCCTGACCATCACCGGCTCCATCGGCATCGCTCACGCCGAGCGCAACACGCCCCAGGAAGAGCTGCTGCGCCACGCCGACATCGCCCTGTACGAAGCCAAGCGCCTGGGCCGCAGCCGCCAGGTGATCTTCTCCGAAGACATGCACGCCCAGGTGCAGGAACGCATGTTCCTCGAACAGCGGCTGCGCCACGCCCTGACCATGGGCCAACTGGAAGTCTGGTTCCAACCCATCATCGACAGCAGCAACGACCAGGTGGTGATGGTCGAGGCCCTGGCCCGCTGGCCCGATATCGACGGTTTCTGCTCACCGGAGAAATTCATCCCTATCGCCGAAGAAGCGGGCCTGATCGGCGAACTCGGCCTGTACATCGCGCGCAACGCCATCGGCTCGCTGCCCCGTCTGCGCAAGCAACTGCCCGGCCTGGCCATGAACATCAACCTGTCGGTCAAGCAATTGCTCCAGGCCGATCTGGTCGAGCAGCTCTGCGAGCTGGTGGACAGCCAGGGCCTGCCCCGCCAGAGCATCCACTTCGAACTGACCGAAAGCGCCTTCGCCGACAGCCTGGAGCTGTTGCAGAACCAGGTCCGGAGCCTGGTCGACGCCGGCTTCAAACTGCACCTGGACGACTTCGGCACCGGCTACTCCTCCCTGCAACGCCTGCAGCGCCTGCCCATGTCCGCGCTGAAACTGGACAAATCCTTCACCCACCTGATCGACGACGGCGACGAGCGCCTGATCAAAGTCATCCTCTCCCTCGGCGAACAACTGAACATGCACGTCATCGCCGAAGGCGTGGAAAGTCCGCAGCAACGCCTACGCCTGCAAACCCTCGGCTGCTACCTGATGCAAGGCCACCTGTTCGCCGCCTCGATGCCCGAGACGCAGTTGCTGGAATGGATACAGGCGCGGGAAAAGCACGACGAAACGCTGGCACCGGTCATTGCACTCGTGGGGCCGCATGGGGCTGGGTGA	MFSHFKSLRTRTLFYLLLLLFVFALASYLTTSRLLHKSLQQFEAAQAQAELERIRAVLATDAQALLSSGLDYSLWDDTYGYMQDLDPAYLASNFTAESLGNLRVDLVVFLDAGGHFHSGVDPHAGASMSQAAASGTRIDAIRAGYDALSPHLRDKGGYLFRWLGNAPALLVYSPIHDNSGRQPRRGWLVMARLLQGAADSALGSQAPIPFRLEPVDTRRTPAAGDGQASFTVTQILQDSQGSSDLRLIVEHPPSLLSQQRAGDLLLLTNSLLILVLAALAAALLLDRLILKRLSHFSNLAESRRHGEGPAAVWPVRGRDELDVLAHSLNELMAEVQTAHGHLYQEARKDPLTGLGNRKFLSERLQLYQALCNRDPEQSLVFYLIDLDDFKLINDCLGHAAGDAMLDAIALRLRSLVRASDTAVRMGGDEFAVLSLVRHGDLGVGAFAERLLEEISLPVFFNGTRLTITGSIGIAHAERNTPQEELLRHADIALYEAKRLGRSRQVIFSEDMHAQVQERMFLEQRLRHALTMGQLEVWFQPIIDSSNDQVVMVEALARWPDIDGFCSPEKFIPIAEEAGLIGELGLYIARNAIGSLPRLRKQLPGLAMNINLSVKQLLQADLVEQLCELVDSQGLPRQSIHFELTESAFADSLELLQNQVRSLVDAGFKLHLDDFGTGYSSLQRLQRLPMSALKLDKSFTHLIDDGDERLIKVILSLGEQLNMHVIAEGVESPQQRLRLQTLGCYLMQGHLFAASMPETQLLEWIQAREKHDETLAPVIALVGPHGAG				NA	NA	NA	NA	NA
BMS010_01466	297			hypothetical protein	GTGACAACCCGCACCGCCCTCACTCGACTGGATACGGCCGCCCGCGTGCTGGCCGCGCTCTTCGGGGGATACGCCGTGGTCTACGCGGCGACTGCCTTCCTCAGCGTCTACCTGCCCCTGGCACGGGCGGATCGGGTGATCTTCGCCGGTCTCGCCTGCTTCGTGCTCTACGCCGGCCTGTTCATCTATGCCTTCGCCGCACGCAGTGCCGTGCGGGTCTGGCTGGTGTTCGCCGGGCTCGGTGTGATGCTTGGTTTGGCGGCCTTCCTGCCCAGCGAATTCGGGGTACGCCCATGA	MTTRTALTRLDTAARVLAALFGGYAVVYAATAFLSVYLPLARADRVIFAGLACFVLYAGLFIYAFAARSAVRVWLVFAGLGVMLGLAAFLPSEFGVRP				NA	NA	NA	NA	NA
BMS010_01467	1530			hypothetical protein	ATGAGCCTGCGGCAAAGCATGAGCGGTCTGCACACCTGGGGCGGGTTGCTGCCGTCCTGGTTGCTCTTCGTGATTTTCTTCGCCGGCAGCCTGGCCTGTTTCGATAAAGAACTGGAGCGCTGGATGCGTCCGGCGCTGCATCAGCCGGGTGTGGCCAGCCTGACGGCCGATCAGGTGCGCGACTGGCTGCACGAGCGCGCGCCCAACGCCCATGCCTGGTGGATGCGGCCGCCCAGCGAGCGCGAACCGTTCTGGTGGGCCGGCTGGGAGCCGGAGGAGGGCGCCGAGTTCCAGCGTTTCGCCCTGGATGCCTCTACCGGCGAGGTGCTCACCGATACCGTCGGCGGCATGTTCTTCTTCACCCTGCACTACGAGCTGCACGCCGGCATGCTCGGCATGTATATCGTCGCCATCGCCGCGATGGCGATGCTGATCGCCCTGGTCAGCGGGGTGATCATCCACCGGCGCATCTTCAAGGATTTCTTCACCCTGCGCCCGGCCGCCAACGGCCAGCGGGCCTGGCTGGACGCACACAACCTGTTCGGTGTGCTGGGCCTGCCGTTCCACCTGCTGATCGCCTACACCGGGCTGGTGATCTTCGTCGTCTTCTATATGCCGGCGGGGCTGAAGGTAGCCTACCAGGACGACTTCGGCGCCCTGTTCCGCGAGTCCACCGGCTATTTCGAGCGCGGCGAAGTGGGCCGTCCGGCCGGGCCGCCGGCCTCCCTCGATACGCTGCTGACCGATGCGCGCCAGCGCTGGGGCGGCGGCGAACCGGGCTGGATCAGCGTGCACTATCCCTACGACGAAGCGGCGGTGGTGGACTTGCGCAACTGGGTATCGAGCCGGGTCACCGACTTCCAGTGGACGCTCTCTTACGACGCGAGCAGCGGCGAGCTGCTGCACGAACAGAAGCCCTATGGCGCCGGCTACCAGACCCAGTCCTGGCTGACCGGCCTGCACATGGCCCAGTTCGGCGGTACGCCGGTGCGTCTGTTGTACCTGCTGCTGGGCCTGGCCGGTTGCGCCATGCTGGTCGGCGGGCTGCGGGTCTGGCTGGCCAAGCGCGAGGCGCGCGGCGGCTATGGCATCGGCTTGGTACGGGCGCTCAACGGCGCGGTGATCGGCGGCCTGCCGTTGGCCAGCCTGGCGCTGCTGTGGGGTAACCGCCTGTTGCCGGCCGGTCTGGCCGAACGTTCGCGGGCCGAGGCGATGGTGTTCGTCGGCGCCTGGTTGCTGGTGGCGCTCTGGGCCGTGCTGCGCCAGGGTAGCGGCCGGTTGGGACGCGATCTGTACGTCGTCGGTGCGGTGTTGGCGCTGGGCCTGCCGGTATTGAATGCGTTGACCTCTTCCCAAGGCCATCTGGGCGCCACCCTGGCGCGGGGCGATTGGGCGCTGGCGGGGATCGATCTGAGCCTGCTCGGTGTCGGCCTGCTCTGTGCGCTGTTGGGCTGGCGCCACCGCCAGCCGGGCGAGGTCCACCAAGCCGGCCGTCGCGAATCCCGTCGTCTGGCCGAGGAGGGCGTCTGA	MSLRQSMSGLHTWGGLLPSWLLFVIFFAGSLACFDKELERWMRPALHQPGVASLTADQVRDWLHERAPNAHAWWMRPPSEREPFWWAGWEPEEGAEFQRFALDASTGEVLTDTVGGMFFFTLHYELHAGMLGMYIVAIAAMAMLIALVSGVIIHRRIFKDFFTLRPAANGQRAWLDAHNLFGVLGLPFHLLIAYTGLVIFVVFYMPAGLKVAYQDDFGALFRESTGYFERGEVGRPAGPPASLDTLLTDARQRWGGGEPGWISVHYPYDEAAVVDLRNWVSSRVTDFQWTLSYDASSGELLHEQKPYGAGYQTQSWLTGLHMAQFGGTPVRLLYLLLGLAGCAMLVGGLRVWLAKREARGGYGIGLVRALNGAVIGGLPLASLALLWGNRLLPAGLAERSRAEAMVFVGAWLLVALWAVLRQGSGRLGRDLYVVGAVLALGLPVLNALTSSQGHLGATLARGDWALAGIDLSLLGVGLLCALLGWRHRQPGEVHQAGRRESRRLAEEGV				NA	NA	NA	NA	NA
BMS010_01468	327			hypothetical protein	ATGCTCTGGTTGAGTTTTGCCCTGGGCTACCTCGCGCTGACCGCGCTCTGCCTGGCCATGAACCGTCACCACAAGGCGCTGCTCGGCGGCGAGCCCAGCCCGACACGTCGCCGCGGCTTGCGTTTGGGAGCAGCCGTGGCGATGCTGCTGGCGCTGGTCCTGTGTATCGCCGCCCAGGGTGGCGAGATCGGCGCGGTTATCTGGCTGTGCCAACTGATGGTGAGCGGCTGGTTGTTGGTCGGCCTGCTCGCCTGGCGCCAGCGCTGGGCCTTGTCCATGGCTGCCTTGCTGCCGCTTGGCAGCGGTCTGTTCGCGCTGTTGGGCTGA	MLWLSFALGYLALTALCLAMNRHHKALLGGEPSPTRRRGLRLGAAVAMLLALVLCIAAQGGEIGAVIWLCQLMVSGWLLVGLLAWRQRWALSMAALLPLGSGLFALLG				NA	NA	NA	NA	NA
BMS010_01469	2616			hypothetical protein	ATGCCGCTGGACCTCCGTCACCTGCGCCGCGCGGACTGGGCCCACGCCTTCGGCGAAGGTAGCCTGGCACGCGGCACGGCCTACGCCGACCAGGGCCGTTCGACCCTGTTCAAGGCCGAAGACGGCCAGGTGCTCGCCGAGTGCCTGGGTTCGGGCGGCAGTCGCTACCGGCAGACCATCCAGCTGAAACAGGCCCGCACGGGCCAGTTGAACATCGAGGGCCGCTGCACCTGTCCGGTGGGTTTCAATTGCAAGCATGTGGTCGCCGCCCTGCTGACCCTGGAAGAACACCCCGAACTGGCCGGCCCGCCGACCGTCGAACGCGTGGTGGACGACGTGCAACCGCAGCCGCTGCTGACCCTCGGCAGCCTCGCACGCATGCAGTACGACACCCGCACCGGCAAGATGGCCGAGCGTCAGCAGCACCGCGCCGCGTTGGCCTTCCTCTATGGCGAACGGCGGGTCTCCGGCAGGCCCGCCGAAGACATCGTGCAACTGGTCGGCCCCGGCGAACGGCTGCGCATCCGTCGCCAGCCCAAGGCGGAAGACGCCCTGCGCCAGACCCTCGCCGGACTCGGCTTCAAACCGCCACTACGACAGAGCGATGCGCTGCCGGCCCAGGCCGGCGAGATGCTGGAACTGCCGGACGATGCCGCCTGGCTGGGCTTCGTCCGCGAACATCTGTCGGTGCTGCGTGCCGCGGGCTGGCAGGTCGACATGCAGCCGGGCTTCCATTTCAACCTGGCCGATGTCGATGGCTGGTACGCCATCGTCGAGGAATCGCCGACCCAGGAATGGTTCGAGCTGGAGATGGGCATCGAGGTGAACGGCCAGCGCATCAGCCTGCTGCCGATCCTGCTGCACGCCATCCGCCACACGCCCTGGCTGCTCTCCCCCGAAGCCCTGGCCCGACGCCGCGACGACGAATTGCTGCTGGTCCCGCTGCCGCCGGCCCAGGGTGGCCAACGCGTCGCCCTGCCGTTCGGCCGGCTCAAACCGCTGCTGGCGACCCTCGGCGAACTCTACTTCAAGGAGCCGGCCTCCCTCGGCGAACGCCTGCGCCTGGCAACCCCGGACGCGGCACGGCTAGCCGGCCTGGAGGCCGCGCTACCGCTGGAATGGCAGGGCGCCGAGCGACTGCGGCGCTTCGCCGAAGGCTTGCGCGACCTGCCGCAGCGCTCCGTGGAGGCTCCCCGTGGCCTGCACGCCGAACTGCGTCCCTACCAGCTGCAGGGCCTGGCCTGGATGCAGGCGCTGCGTGCCCTCGACGTCGGCGGCGTGCTGGCCGACGACATGGGCCTGGGCAAGACTCTGCAGACCCTCGCGCACATCCTCTGCGAGAAGGAAGCCGGACGGCTCACCGCACCGGCGCTGATCGTCATGCCCACCAGCCTGATCCCCAACTGGCAGGACGAAGCCGCCCGCTTCGCCCCCGACCTGCGCGTGCTGGCCCTGCACGGCCCGAAGCGCCGGGCGGATTTCGCCCGCCTCGGCGAATTCGACCTGATCCTCACCACCTACGCCCTGCTGCCCCGCGACAGCAAGGCGCTCGGCGAACTGCACTACCACCTGCTGATCCTCGACGAGGCGCAGAACATCAAGAACGCGCGCAGCAAGGCCGCGGCCGCCGCGCGCGAGCTGAACGCCACGCAGCGCCTGTGCCTCACCGGCACACCGCTGGAAAACCACCTGGGTGAACTCTGGTCGCTGTTCCACTTCCTCATGCCCGGCTGGCTCGGCAACGAGGAGAGCTTCCGCCAGGACTACCGCACCCCCATCGAGCGCCAGGCCGACGCCGCCCGCCTGACCCAGTTGAACGCGCGGGTGCGGCCCTTCCTGCTGCGCCGGACCAAGGAAGAAGTCGCCCGCGAGCTGCCACCGAAGACCGAGATCACCCAGTGGATCGAACTGACCCAGGCCCAGCGCGACCGCTACGAGACCCTGCGCCTGGCCATGGACAGGAAGGTCCGCGATGAAATCCAGCGCCAGGGCCTGGCGCGCAGCCAGATCGTCATCCTCGAAGCCCTGCTGCGCCTGCGCCAGGCCTGCTGCGACCTGCGCCTGCTGGAGCCGGTGGACGACAAGAGCTACCGCAGCGAGCACTCGGGCAAGCTGAGCGCGCTGCTGGACATGCTCGAAGAACTGTTCGCCGAGGGGCGGCGCGTGCTGCTGTTCTCCCAGTTCACCGGGATGCTCGCGCTGATCGAGGCCGAGCTGAAACAGCGCAAGATTCCCTACGCCCTGCTCACCGGCTCGACTCGCGACCGCGGCACGCCGGTGCGGGAATTCCAGGCCGGCAAGCTGCCGATCTTCCTGATCAGCCTGAAGGCCGGGGGCGCAGGTCTCAACCTCACCGCCGCCGACACCGTGATCCACTTCGACCCCTGGTGGAACCCCGCCGCCGAAGCGCAGGCCAGCGACCGCGCCTACCGCATCGGCCAGGACAAGCCGGTGTTCGTCTACAAGCTGATCGCCCGCGGCAGCGTGGAAGAGAAAATCCAGCAACTCCAGCAGGCCAAGCGCAGCCTGGCCCAAGGCGTGCTGGCGGGCAGTGGCCAGGGCGAAACCAAGTTGAGCGAAGAGGACCTGGCGGCGTTGTTCGCACCGCTTACCTGA	MPLDLRHLRRADWAHAFGEGSLARGTAYADQGRSTLFKAEDGQVLAECLGSGGSRYRQTIQLKQARTGQLNIEGRCTCPVGFNCKHVVAALLTLEEHPELAGPPTVERVVDDVQPQPLLTLGSLARMQYDTRTGKMAERQQHRAALAFLYGERRVSGRPAEDIVQLVGPGERLRIRRQPKAEDALRQTLAGLGFKPPLRQSDALPAQAGEMLELPDDAAWLGFVREHLSVLRAAGWQVDMQPGFHFNLADVDGWYAIVEESPTQEWFELEMGIEVNGQRISLLPILLHAIRHTPWLLSPEALARRRDDELLLVPLPPAQGGQRVALPFGRLKPLLATLGELYFKEPASLGERLRLATPDAARLAGLEAALPLEWQGAERLRRFAEGLRDLPQRSVEAPRGLHAELRPYQLQGLAWMQALRALDVGGVLADDMGLGKTLQTLAHILCEKEAGRLTAPALIVMPTSLIPNWQDEAARFAPDLRVLALHGPKRRADFARLGEFDLILTTYALLPRDSKALGELHYHLLILDEAQNIKNARSKAAAAARELNATQRLCLTGTPLENHLGELWSLFHFLMPGWLGNEESFRQDYRTPIERQADAARLTQLNARVRPFLLRRTKEEVARELPPKTEITQWIELTQAQRDRYETLRLAMDRKVRDEIQRQGLARSQIVILEALLRLRQACCDLRLLEPVDDKSYRSEHSGKLSALLDMLEELFAEGRRVLLFSQFTGMLALIEAELKQRKIPYALLTGSTRDRGTPVREFQAGKLPIFLISLKAGGAGLNLTAADTVIHFDPWWNPAAEAQASDRAYRIGQDKPVFVYKLIARGSVEEKIQQLQQAKRSLAQGVLAGSGQGETKLSEEDLAALFAPLT				NA	NA	NA	NA	NA
BMS010_01470	876	rhaS_5		HTH-type transcriptional activator RhaS	ATGCCGCAGCTCGAAGACATCCAGGTATTCCAGGCCATGAGCAGCTCGCCCAACGCCCGATTGGAGCGTTGCGCCGAGCTGGGCGACGGGCTGGCCGGCGCGCTCTGGCACAACCACCACGACGCCCGCGACTACGAGGCACCGAGCCACCACACCCTGAGCTGCTACCTGGCCGGCGGCACCGGCACCTTCCGCCGCGAGCGGCCACAGCGCAAGGGCGCACCGGACAAGCTCTGCGTACTGCCCGCCGGGCACCAGTCGGCCTGGGTGATCAACGGCGACATCCACCTCGCCCATCTCTACGTCAGCCCGGAGCGCTTCGCCCTCAGTGCCGTCGGCCTGCTCGACCGCGAACCCCGCGAGCTGCAATTGCGCGAATACACCTTCCTCGACGACCCGCAACAGACCGCGCGCTTCCGCCAGTTGATCCGCCTGAACTGGGACGAGCCCGGCGAACGCCTGCTGACCAGCAGCCTCGCCCACGAGATGATCGACCACGCCCTGCTGACCCAGGTCGGCCTGCGCGAAGGGTTGCGTCTCAAGGGCGGTCTGGCGCCGGTCATGCGGAGGCGGCTGATCGAATACATCGACGCCCATCTGGCCGAGCCCCTGACTCTTGGCCACCTCGCCTCGCTCTGCGCGCTCTCGGAATACCACTTCGCCCGCATGTTCCGCGAAAGCTTCGGCGTGCCTCCGCACCGCTACCTCCTGGCCCGGCGCCTGGAGCGGGCGCAGCAACTGCTGCGCAGCACCGCGCTGCCCCTCGGCGAGATCGCCCTGGCCTGCGGCTTCACCGACGCCAGCCATTTCAGCAACCGCTTCCGTGCCGCCCTGGGCGGCACACCGGGGCAATACCGCGCCGCATTGCGCGGCTGA	MPQLEDIQVFQAMSSSPNARLERCAELGDGLAGALWHNHHDARDYEAPSHHTLSCYLAGGTGTFRRERPQRKGAPDKLCVLPAGHQSAWVINGDIHLAHLYVSPERFALSAVGLLDREPRELQLREYTFLDDPQQTARFRQLIRLNWDEPGERLLTSSLAHEMIDHALLTQVGLREGLRLKGGLAPVMRRRLIEYIDAHLAEPLTLGHLASLCALSEYHFARMFRESFGVPPHRYLLARRLERAQQLLRSTALPLGEIALACGFTDASHFSNRFRAALGGTPGQYRAALRG				NA	NA	NA	NA	NA
BMS010_01471	897			hypothetical protein	ATGAATCTGTCGCTGTACTTGCTCACCGTGCTGATCTGGGGGACCACCTGGATCGCCATCACCCTGCAACTGGAGGTGGTCGCCATCCCGGCGTCCATCGCCTACCGCTTCGCCCTGGCCGCCGCCGTGCTGTTCGCCGGGCTGCTGCTGACGGGACGCTTGCAGCGGCTCGACCGGCGCGCCCAGTGGATCTGCCTGGCCCAGGGGCTGTGCCTGTTCTGCGTCAATTTCATGTGCTTCTACAGCGCCAGCCAGTGGATTCCCAGCGGGTTGATCGCCGTGGTGTTCTCCACCGCGACCCTGTGGAATGCGCTCAACGCCCGGATTTTCTTCGGCCAGCGGATCGCCGCCAATGTGCTGGCCGGCGGTGCGCTCGGGCTGTGCGGGCTGGGGCTGCTGTTCTGGCCGGAACTGGCCGGCCACGACGCCAGCCGCGAGACGCTGTACGGGCTCGGCCTGGCGCTGCTCGGCACGCTGTGTTTCTCCGCCGGCAACATGCTCTCCAGTCTGCAGCAGAAGGCTGGCTTCAAGCCGCTGACCACCAATGCCTGGGGCATGTTTTATGGGGCGCTGATGCTGTCCGGCTATTGTCTGCTCAGCGGCACGCCGTTCGCCTTCGACTGGAGCCTGCGCTACGTCGGCTCGTTGCTGTACCTCGCCATTCCCGGCTCGGTGATCGGCTTCACCGCCTACCTCACCCTGGTGGGGCGGATGGGGCCCGAGCGGGCGGCCTACTGCACGGTGCTGTTCCCGGTGGTGGCGCTGAACGTGTCGGCCTTCGCCGAGGGATATCAATGGACGCTGCCGGCGCTGTTCGGGCTGGTGCTGGTGATGCTGGGCAACCTGCTGGTGTTCCGGCCGCGACGGGAGCCGCAGCCGGTGCTGGCGACGCGCTGA	MNLSLYLLTVLIWGTTWIAITLQLEVVAIPASIAYRFALAAAVLFAGLLLTGRLQRLDRRAQWICLAQGLCLFCVNFMCFYSASQWIPSGLIAVVFSTATLWNALNARIFFGQRIAANVLAGGALGLCGLGLLFWPELAGHDASRETLYGLGLALLGTLCFSAGNMLSSLQQKAGFKPLTTNAWGMFYGALMLSGYCLLSGTPFAFDWSLRYVGSLLYLAIPGSVIGFTAYLTLVGRMGPERAAYCTVLFPVVALNVSAFAEGYQWTLPALFGLVLVMLGNLLVFRPRREPQPVLATR				NA	NA	NA	NA	NA
BMS010_01472	579			hypothetical protein	ATGAACAGCGAAGCATTGGACGGCATTCTCGGTTTCCTCAAGCAGGCCGAGCAATTGAAGAATGTGCTGCGCAGTTCGCACACCTCCCAGGGCCGCCCGGAAAGCACGGCCGAACACAGTTGGCGGCTGTGCCTGATGGCGATGATGCTGGAAGACGACTTCCCCGAAATCGACTTCGCCAGGCTGGTGAAGATTTGCATCATCCATGACCTGGGCGAAGCCATCAGCGGCGACATTCCCGCCATCCACCAGGTCGGCCTGCCGGACAAGACCGCCCAGGAACGCGAAGACCTGCTGACCCTGCTGCAACCCTTGCCCGACGCGCAACGGGCAAAAATCCTCGACCTCTGGGACGACTACTCCGAGGCCCGCTCGCCCGAAGCCCGGCTGGCCAAGGCGCTGGACAAGCTGGAAACCATCATGCAGCACAACCAGGGCCGCAATCCGCCGGACTTCGACTATGCCTTCAACCTCGGCTACGGTCAGCGCTACACCGGCTACAACGACCTGACCCAGCGCATCCGGACGATCCTCGACGAAGAGACCGCGACCCACGCCCGACGCCAGGGCGCCAACTGA	MNSEALDGILGFLKQAEQLKNVLRSSHTSQGRPESTAEHSWRLCLMAMMLEDDFPEIDFARLVKICIIHDLGEAISGDIPAIHQVGLPDKTAQEREDLLTLLQPLPDAQRAKILDLWDDYSEARSPEARLAKALDKLETIMQHNQGRNPPDFDYAFNLGYGQRYTGYNDLTQRIRTILDEETATHARRQGAN				NA	NA	NA	NA	NA
BMS010_01473	315	yqjZ	COG2329	putative protein YqjZ	ATGTTTGCCGTGACACCCGAACCGCCGTATTACGCGGTGATTTTCACGTCCACCCGTACCGACGGCGATAACGGTTACGCCGAGATGGCCGAGCGCATGGTCGAACTGGCCGCCGAACAGCCAGGCTTTCTCGGCGTGGAATCGGCGCGCGAGGCGATCGGCATCACCGTCTCCTACTGGCGCGACCTGGAAAGCATCGCCGCGTGGAAACGCAACGCCGAACACCGCGAAGCCCAGCGCCTCGGCCGCTCGCAATGGTACGCCGGCTTCCGGCTACGGATCGCGAAGGTGGAGCGGGAGTATGGGATGGGTTGA	MFAVTPEPPYYAVIFTSTRTDGDNGYAEMAERMVELAAEQPGFLGVESAREAIGITVSYWRDLESIAAWKRNAEHREAQRLGRSQWYAGFRLRIAKVEREYGMG				NA	NA	NA	NA	NA
BMS010_01474	396			hypothetical protein	ATGAGCGACCCGTTCATCCACCGGCTATTCACCGAGGTCCTGCACAAAATGGGCATGGACACCACCGGACTCGCCGCCAGCCAGGAATACCCCCTGCTCGTCGACGAGCAGTATCCGGTGCTGCTGCGTTACGACGGTCCTTCGGAGCGCGTGCTGCTGATCGCCGGCCTGGACCCGGCCCTGGCGGACACCCCCGAGAACCTGCCCCAACGGATTCTCCGCGCCGCCCTCAACCCCCTGCGCGGCCAGGAGCCCGGCGCGGGTCTCGACGCAGGTTCCGGCCTGTACTTCGCCTTCCTCACCCTGCCGCGCCAGACCGTCACGGCCGAGAACGTGTGCCGGGAGATCGGCCGCCTGGTGGAATGGGCCAAGACACTGCTGGCCGGCCGCCACTGA	MSDPFIHRLFTEVLHKMGMDTTGLAASQEYPLLVDEQYPVLLRYDGPSERVLLIAGLDPALADTPENLPQRILRAALNPLRGQEPGAGLDAGSGLYFAFLTLPRQTVTAENVCREIGRLVEWAKTLLAGRH				NA	NA	NA	NA	NA
BMS010_01475	1257			hypothetical protein	ATGATCAAGAACGACCCGTCCTTTCACTTTTCCAGTGTCGACGCGATCAAGCACACCTCTGTCGACCTTCATGCCCTGGCCCGCCAGGGCAAGCTCACGGTGGACGGCACCACGTATCGGGTGCAGGTCTCCCCGTCCGGCGAATTCAAGGTCCATCGCGACAATCGCCCGACCATATCGCCGGGGCGTTTCTTCAAGGCGGCTGGCGAAATGTTCAGCCATCGGCTGTCGGAGGGGACCCTGTCGTCGCGCAGCGAACGCATCGCCGAGGCCTTGAACAACAAGGCATGGGGACCTAGGCACAGCGCCCCGATGCAGGCCCCCGCCGGCCCGCGGAGAGCAGGCGGGCGGACCGACAACCGCATCCATCCGGAACCCCAGCCACCCGCCGCGCCAGCACAGGGCAAGGTCTTGCGCGACGGCATTCTCGGCCAGATCGAACGTTTGCCCCGCGCCGACTGGAAGAACCCCATCGAGGCCCTGGAACGGCTGGATGCCAGATCCCGGACCCTGCCCCAGGCGCACGCCGATCAGTTGCTCGGCAAGCTGCACGACATCATGCAGACCCGCGACCCCGCCAGGCGAAACCAGTTGCTGGATCGCTTCATGGCGTCCCTCGACGCGCCTGCGGCCAAGCCGCGGCCACAAACCTCGTCCCCCATGGCCAGGCCGGGCGGGCGTCCGCACCCGCTGCAGAATCCTCCTGCGCACACAGCGCCACGACCGGAGCCCCGGCCGAGCACGCCCCCCCAACTGACCATCAATGACTTCATCCGTTTCGAGCAGGATCGGGCAGACCAGGAGCACGAATATTTCGACATGGATAACGCCGAGCGCGACTACGCCAACTACCTGAAACGGCAGACCCAAGGCCCCGAAGACACACCGGCCCCTCGCTCACAGAGCCGTCCACAGACAATCCGCCAACAACCGGCCGAGGCCCAGGTGCCGCGTCGCGACCTGAGCGAGTTCGAGCGTGACGAAGAAACGCGTGCCGCTTACCACAACGAGCGACCGAACTACGACAACGCCCGCTGGGCCTACCAGACCCAGCCGGGTTCGCTGGAAAAACCACAGCGCACAGTCGCGTCGCACTCAACCGCCAGCAGCACCCGGCAGGAGCCATCACAACCCAAGCTGACTTTCGATGACTTCATGAAGGATGAAGAGGCCCGCGCCGATTACCACGGCGAAACCCCGAGCGAGGACAACGCACGTCGGGCATTCCGGCGATACCTGCGCGAGAACGACGGTTGA	MIKNDPSFHFSSVDAIKHTSVDLHALARQGKLTVDGTTYRVQVSPSGEFKVHRDNRPTISPGRFFKAAGEMFSHRLSEGTLSSRSERIAEALNNKAWGPRHSAPMQAPAGPRRAGGRTDNRIHPEPQPPAAPAQGKVLRDGILGQIERLPRADWKNPIEALERLDARSRTLPQAHADQLLGKLHDIMQTRDPARRNQLLDRFMASLDAPAAKPRPQTSSPMARPGGRPHPLQNPPAHTAPRPEPRPSTPPQLTINDFIRFEQDRADQEHEYFDMDNAERDYANYLKRQTQGPEDTPAPRSQSRPQTIRQQPAEAQVPRRDLSEFERDEETRAAYHNERPNYDNARWAYQTQPGSLEKPQRTVASHSTASSTRQEPSQPKLTFDDFMKDEEARADYHGETPSEDNARRAFRRYLRENDG				NA	NA	NA	NA	NA
BMS010_01476	828	hcaB_3		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGTCATCCGTCGTGCTGATCACCGGCTGCTCCAGCGGCATCGGCCGGGCCCTCGCCGAAACCTTCCACGCCGCCGGCTACCAGGTCTGGGCCAGCGCGCGCCGCGACGAAGACCTCGCCGCCCTGGCCGAAGCCGGCTTCACTGCAGTGCCACTGGACGTCAACGACGCCGAGGCGGTGACCCGACTCGCCAACCGCCTGGCAGAGGAAGCCGGACGCCTCGACGTGCTGATCAACAATGCCGGCTACGGTGCCATGGGTCCGCTGCTCGACGGTGGCGTCGATGCCCTGCGCCAGCAGTTCGAGACCAACGTCTTCGCCCCCATCGGCCTGACCCGCGCCTGCTTTCCGCTACTGCGCGCCAGCCAGGGCCTGGTGGTGAACATCGGCAGCGTCTCGGGCGTGTTGGTCACGCCTTTCGCCGGCGCCTACTGCGCGTCCAAGGCCGCCGTCCACGCGCTGTCCGATGCCCTGCGCCTGGAGTTGGCGCCGTTCGGTATCCAGGTGATGGAAGTCCAGCCCGGCGCCATCGCCTCGCACTTCGGCGCCAACGCCAGTCGCGAAGCCGAACGGCTGATCGACGAACACTCGCCCTGGTGGCCGATCCGCGACGGCATTCGCGCCCGCGCCAAGGCCTCCCAGGACAACCCCACCCCCGCCGACAGCTTCGCCCGCGACCTGCTCGCCGCCGTCCAACGTCCGCACCCTCCCCGGCTGCTGCGCCTCGGCAACGGCAGCCGGGCCTTGCCGCTGCTGGCGAACTGGCTGCCGAAAGGCTTGCTGGACGTCGTGTTGAAGAAGCGTTTCGGCCTGGACGCCTCACTCTGA	MSSVVLITGCSSGIGRALAETFHAAGYQVWASARRDEDLAALAEAGFTAVPLDVNDAEAVTRLANRLAEEAGRLDVLINNAGYGAMGPLLDGGVDALRQQFETNVFAPIGLTRACFPLLRASQGLVVNIGSVSGVLVTPFAGAYCASKAAVHALSDALRLELAPFGIQVMEVQPGAIASHFGANASREAERLIDEHSPWWPIRDGIRARAKASQDNPTPADSFARDLLAAVQRPHPPRLLRLGNGSRALPLLANWLPKGLLDVVLKKRFGLDASL	PGPT0030485_4122	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-OXIDOREDUCTASE_ACTIVITY	PUTATIVE-OXIDOREDUCTASE_ACTIVITY-1,PGPT0030485-yqjQ-K07124
BMS010_01477	465			hypothetical protein	ATGCTGATCGGTGCCCTGCTCGTACTGACCTGGCTGGTTCTGCTGCTGCGCTACCCGGCCAAGGCCCTGCCGGTTTCCCTCGCCGCCCTGCTCGGGCTGGCGGTGCTGGCCAGCTGGGTGATCTGGCAGGAGCAACGCGAGGAACATCGGCTGGCGCGCCTGGAACTGCGCCTGCATTACGATCCCCGGCGCTGTCCGGGAGACCGTCCGCTGAGCGTCGAGCTGAAGAACGGCAGCGATGCTGCCTTGAGCGAGCTGCGCTGGCGGGTCGCTGCCTATGCGCCGGGCGACAGCGTCAACCTCGCCGAAAACCTCTACGACAGCCCGCGCTACCGGGGCCCGGGCGAGCTGCTGCCCGGCGACGCTTGGCAGGACTGCTTGCCGCTGCCGACCCTGCGCCCCGGTTACCGCGCCAGGACCCTGGAATTCCGCGCCGAGCGCCTGCAGGGCCGGTTCGCCGACTGA	MLIGALLVLTWLVLLLRYPAKALPVSLAALLGLAVLASWVIWQEQREEHRLARLELRLHYDPRRCPGDRPLSVELKNGSDAALSELRWRVAAYAPGDSVNLAENLYDSPRYRGPGELLPGDAWQDCLPLPTLRPGYRARTLEFRAERLQGRFAD				NA	NA	NA	NA	NA
BMS010_01478	642			hypothetical protein	ATGGCTGATCTCATCATGGAAGGTGATTCCACTTTCAACGACCCCAAGACCATCACCGACCTGGCCGTGCTGGCTTCTCTGGCACGGGAAGGTCTGCTCGGCGGACCGCTCGATATCTATGTCGGCGAACCGTCGGAAGCCCTGACCCGGGTGGAACTGAACCGCATGCTGGGCAGTACGCGCTGGAACGAGAAGGGCGATCGCTTCATCCGGATCGCCCGGCGAGCCAATGGGGCGCTGTTCTGCCTCTGGCTCTATCCCGGCCTGCGGGGACGACCACCCGTCGTGTTCTTCGGCGGCGACGGCGAGTTGCACCTGGTATCGGCCAACACCACGGATTTCCTGCACCAGTTGTCGTCCGGCTATCTCTACTGGCGTGGCCACTGGATCGTGCCGACGGATGGCGATGCCGTGGGGTTCGACTGGCAGGCTTTGCAGGTGGCAGTCAACGAACGGCTCGGTGTCGACCGCAGTGATCCCAATGTGCTGACGACCAAGGCCGAGCGCCGCAGCCCGGCGTTCCGCGCCTGGGCCGTGGCACGGCGGCTGAAGGTGCGGCGGGAAGCCGAGGGCGACGGCACAAAGAAGTCCCAACTGTTGATTGCCCTGACCAAGTTCATTGGCGGAACCACGATCCGGTAA	MADLIMEGDSTFNDPKTITDLAVLASLAREGLLGGPLDIYVGEPSEALTRVELNRMLGSTRWNEKGDRFIRIARRANGALFCLWLYPGLRGRPPVVFFGGDGELHLVSANTTDFLHQLSSGYLYWRGHWIVPTDGDAVGFDWQALQVAVNERLGVDRSDPNVLTTKAERRSPAFRAWAVARRLKVRREAEGDGTKKSQLLIALTKFIGGTTIR				NA	NA	NA	NA	NA
BMS010_01479	924			hypothetical protein	ATGATTTCACCTCTTGCCCTCTATCACCGATCCCATACGCCTGATCCGACTGACTCCGTAGCGGAGAAGCAGCTATCGAGCCATGGGAGCGATCAAGAGCCGACGGCTCGAAATCTTCGCGATGTATCGCAAGGAGCGCTCGAGCAGCTCTCCACATCCCTGCGTCGGGAAATGTCGGGGCGAAACAGCATGTGGTCCGATCTGGTCGCCCTGGCCAAATGCAGTTTCACCTGCCCATTCGATCAGTACGAGTTCAAGAAGGCGCTGTTCAAGAAGAGCCCTGAAATCAAGGCTGCCATGGATAAACCCGAAAGCGGGTTGTGTTTTGGTCTTTCCCTATCCTGGTGCCAACAACGCTTGCAGGGAAAAACCGACAAAGCATTCTTCACCGAACTGCCTCAATGGAAGGACAACAGTCTTTTTCTGCGTAGCTTGGCGTTGCAGTCCATCGAGCAATTGCGTCATCCGGGAGGATTGGACAAGGACGTCGAGCGTTGCGCTGCATTGGCAGGACTGGAGTGTGTGTCCATCGACTCCAAGCAAACCGTCCATCGCATAGCGTGCCGTTTGGAAAAGCCGTTTGCCGAGCGATTGGATGCTTTGCTGGGGGACGATGCGCAGCCGCGCTGTCTTCTGCTGATGACCGATCGTCACGCTCTGGCGCTGTTCAAGGACCAGGACCGACAACTGCATTTCTTCGACCCCAATTGCGGTGTCATCAGCAGTACACACGACAACAAACTGAACCTGTATCTGCTCATCCATTCGATGCTCGAGGCCGGAGATGACCTGTGGAACGACAAGCATCGACGTACGCCTCGTTTTCTGATGGCCGCCGAGTTGCAGCTACCCGCTGTTCGCCAGGAGGGTATCCGACCGTTGCATACCTTGAGCCTGTCGCAGGCATCTACGAGCCGGTCCTGA	MISPLALYHRSHTPDPTDSVAEKQLSSHGSDQEPTARNLRDVSQGALEQLSTSLRREMSGRNSMWSDLVALAKCSFTCPFDQYEFKKALFKKSPEIKAAMDKPESGLCFGLSLSWCQQRLQGKTDKAFFTELPQWKDNSLFLRSLALQSIEQLRHPGGLDKDVERCAALAGLECVSIDSKQTVHRIACRLEKPFAERLDALLGDDAQPRCLLLMTDRHALALFKDQDRQLHFFDPNCGVISSTHDNKLNLYLLIHSMLEAGDDLWNDKHRRTPRFLMAAELQLPAVRQEGIRPLHTLSLSQASTSRS				NA	NA	NA	NA	NA
BMS010_01480	1449	algA	COG0662	Alginate biosynthesis protein AlgA	ATGATTCCGGTAATCTTGTCAGGTGGTAGCGGTTCCCGTCTCTGGCCCCTGTCGCGCAAGCTGTTCCCCAAGCAGTTCCTCGCGTTGACCGGCGAAGAGACCCTGTTCCAACAGACCCTGCAGCGCCTCTCCTTCGAGGGCATGCAGGCCCCTCTCGTGGTGTGCAACCAGGAGCACCGTTTCATCGTCAAGGAACAGCTTTCCGCGCTGAACCTGAACGTCCAGGGCATGCTGTTCGAGCCCTTCGGCCGTAATACCGCACCGGCCGTGGCCATCGCCGCCATGAAGCTGGTCGCCGAAGGCCGCGACGAACTGCTGCTGGTCCTCCCGGCCGACCACGTACTGGAAGACCAGAAGTCCTTCCAACGCGCCCTGGCCATCGCCGCCACCGCCGCCGAGCGTGGCGAAATGGTGCTGTTCGGCATCCCCGCCCTGCGCCCGGAAACCGGCTACGGCTACATCAAGTGCGACCTGAGCGAGCGCGACGGTCTGCCGGAAGGCGTCAACCGCGTCATGCAATTCGTCGAGAAGCCGGACGAGCAGCGCGCCAAGGCCTTCGTCGAATCCGGCGATTACTTCTGGAACAGCGGCATGTTCCTGTTCCGCGCCAGCCGCTTCCTCGAAGAACTGAAGAAGTACGACGCCGACATCTACGACACCTGCATGCTCGCCCTGGAGCGCAGCAAGGTGGAAGGCGACGAAGTGAAGATCGACCCGGCCACCTTCGCCTGCTGCCCGGACAACTCCATCGACTACGCCGTGATGGAAAAGACCGAGCACGCCTGCGTGGTGCCGCTGTCCGCCGGCTGGAACGACGTCGGTAGCTGGTCCTCGATCTGGGACGTGCACGACAAGGACGACGACGGCAACGTGGTCAAGGGCGACGTGGTGCTGCACAACACCCGCAACAGCCTGGTCCACGGCAACGGCAAGCTGGTCACCGTACTCGGCCTGGAAGACGTGGTCGTGGTCGAGACCAAGGACGCCATGATGGTCGCCCACAAGGACCACGTGCAGGACGTCAAGAAACTGGTCAAGACCCTGGACGAGAAAGAGCGTCCGGAAACCCAGAACCACTGCGCCGTCTACCGCCCCTGGGGCTCCTACGACTCGGTGGACATGGGCGGCCGCTTCCAGGTCAAGCACATCACCGTGAAGCCGGGCGCCAGCCTGTCGCTGCAGATGCACCACCACCGCGCCGAACACTGGATCGTGGTGTCCGGCACCGCCCAGGTGACCTGCAACGACAAGACCTTCCTGCTCACCGAGAACCAGTCGACCTACATCCCGATCACCGCGGTGCACCGCCTGGCCAACCCGGGCAAGATCCCGCTGGAAATCATCGAGGTGCAGTCCGGCAGCTACCTGGGTGAGGACGACATCGAGCGTCTGGAAGACGTCTACGGCCGTACCGACGCGGGCGTCAAGACCAAGACCATCGCCGGCTGA	MIPVILSGGSGSRLWPLSRKLFPKQFLALTGEETLFQQTLQRLSFEGMQAPLVVCNQEHRFIVKEQLSALNLNVQGMLFEPFGRNTAPAVAIAAMKLVAEGRDELLLVLPADHVLEDQKSFQRALAIAATAAERGEMVLFGIPALRPETGYGYIKCDLSERDGLPEGVNRVMQFVEKPDEQRAKAFVESGDYFWNSGMFLFRASRFLEELKKYDADIYDTCMLALERSKVEGDEVKIDPATFACCPDNSIDYAVMEKTEHACVVPLSAGWNDVGSWSSIWDVHDKDDDGNVVKGDVVLHNTRNSLVHGNGKLVTVLGLEDVVVVETKDAMMVAHKDHVQDVKKLVKTLDEKERPETQNHCAVYRPWGSYDSVDMGGRFQVKHITVKPGASLSLQMHHHRAEHWIVVSGTAQVTCNDKTFLLTENQSTYIPITAVHRLANPGKIPLEIIEVQSGSYLGEDDIERLEDVYGRTDAGVKTKTIAG	PGPT0017875_672	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0017875-algA|xanB|rfbA|wbpW|pslB-K16011	NA	NA
BMS010_01481	648	algF		Alginate biosynthesis protein AlgF	ATGACTCGACTGACTAAAACCCCGCGCTGGATCGCCCACACCTGTGCCCTGGTATTCGGCCTGCTGGCCGTCCAGGCCCATGCCGGCGATGGTGCCCTGTACGGCCCCGTGGCACCGAAGGGCTCGACCTTCATCCGCCTCTACAACGCCACCAACCAGGAAGTCAGCGCGACTGTCGGCACGGTCAAGATGAACGACATCGCTCCGCTCGGCAGCAGCGACTTCGGCTTCATGCCCAAGGGCAACTACACCGCCCAGGTCGGCTCCCAGAGCCTGCCGGTGACCCTGGAAAGCGATCACTACTACACCCTGGTCCATCTGCCCAACGGCGCACCCAAGCTGGTGGAAGAACCGCCGTTCAAGAACAAGCAGAAGGCCCTGGTCCGCGTGCAGAACCTGACCGACAGCCCGCTGACGCTGAAGACCGCCGACGGCAAGACCGAAGTGGTCAAGACCGTCGCACCGTCGGCCCACGGCGACCGTGAAATCAACCCGGTCAAGGTCAGCCTCGCGCTGTTCGATGGCGACCGCAAGGTCGGCGACCTCAAGCCGGTCACCCTGACCCGCGGCGAAACCGTGTGCCTCTTCGTCACCGGTTCGAACGGCAACTACTCCCCTGTCTGGGTCACCCGCCCGGTCAGTGATTGA	MTRLTKTPRWIAHTCALVFGLLAVQAHAGDGALYGPVAPKGSTFIRLYNATNQEVSATVGTVKMNDIAPLGSSDFGFMPKGNYTAQVGSQSLPVTLESDHYYTLVHLPNGAPKLVEEPPFKNKQKALVRVQNLTDSPLTLKTADGKTEVVKTVAPSAHGDREINPVKVSLALFDGDRKVGDLKPVTLTRGETVCLFVTGSNGNYSPVWVTRPVSD	PGPT0026110_111	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0026110-algF-K19296	NA	NA
BMS010_01482	1158	algJ		putative alginate O-acetylase AlgJ	ATGACTCGTCAGTTACGCAAACTCTACGTCGCGCTCTTCCTGGCCGTACTCGCGCTGCTCTTCGTCTGGTCGGCGCGCAACCTGCTGAGCGTCACCCTGCCGCCGGACACCAGCGTGCTCGACGGCAAGTGGGCGAAAGCGGTGGAAAGCCACTACGACAAGGAATTCCCGGTCAAGCGCCTGGGCACCAACGTCTGGGCCGCGCTGGACTACCTGTTGTTCGGCGAAGGCCGCCCCGGTGTGATCGTCGGCCGCAACGACTGGCTGTTCAGCGATGAAGAGTTCAAGCCGGTGGTCAACGGCGAACAGAACATCGCGGACAACCTGGCCCTGGTCCGTGGCGTGCGCGACCAGCTCGCCCGGCAGAACATCAAGCTGGTACTGGCCATCGTGCCGGCCAAGAGCCGCCTGTATCCGGAATACCTCGACGAAACCCAGCCGGCGGCCATGCGCACCCGGCTCTACGAAGACTTCCATGCCGCCGCCGAGCGCGCCGGGATTCTCGCCCCCGACCTGCTGAAGCCGCTGGAACAGGCCAAGAGCAACGGCGAAGTGTTCCTGCGCACCGACACCCACTGGACCCCGATGGGTGCCGAAGTGGTCGCCCAGACCCTCGGCCGCACCATTCGCGGCGATGCCCTGCTGAGCAGCGAGCCGCAGCAGTTCGTCACCGAAACCGGGGAGATCAAGCCGCACAAGGGCGACCTGCTCAACTTCCTGCCGCTCGATCCGCTGTTCAGCGACCTGCTGCCACCCGCGGACAAGCTCCAGCAGCGCACCACCCACCCGGCCAACGACGGCGAAGCCGGTGGCGACGCCCTGTTCGCCGACACCGAGGTGCCGGTCGCCCTGGTGGGCACCAGCTACAGCGCCAACGAGCGCTGGAACTTCCCCGGTGCCCTGCGCCAGTCGCTGGCCAGCGACCTGGTCAACCACGCCGAGGATGGCCGTGGGCCGCTGCTGCCGATGCTCAAGTTCCTGCAGAGCGAGGAATTCAAGTCCGCTCCGCCGCAAGTGGTGGTCTGGGAATTCCCCGAGCGCTACCTGCCGATGCAGAACGACCTGAGCGATTTCGACCCGTCCTGGATTGCCGAGCTGAAGAAAGCCGGCACTGCAGAGAGCCTGGCCAGCACGGCCGGAAAAACCGCTACGCCCTGA	MTRQLRKLYVALFLAVLALLFVWSARNLLSVTLPPDTSVLDGKWAKAVESHYDKEFPVKRLGTNVWAALDYLLFGEGRPGVIVGRNDWLFSDEEFKPVVNGEQNIADNLALVRGVRDQLARQNIKLVLAIVPAKSRLYPEYLDETQPAAMRTRLYEDFHAAAERAGILAPDLLKPLEQAKSNGEVFLRTDTHWTPMGAEVVAQTLGRTIRGDALLSSEPQQFVTETGEIKPHKGDLLNFLPLDPLFSDLLPPADKLQQRTTHPANDGEAGGDALFADTEVPVALVGTSYSANERWNFPGALRQSLASDLVNHAEDGRGPLLPMLKFLQSEEFKSAPPQVVVWEFPERYLPMQNDLSDFDPSWIAELKKAGTAESLASTAGKTATP	PGPT0026130_100	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0026130-algJ-K19295	NA	NA
BMS010_01483	1542			hypothetical protein	ATGGTCTTCTCTTCGAACGTTTTCCTGTTTCTGTTTCTGCCGGTGTTTCTCAGTCTCTATTACCTGAGCGCACCGCGTTACCGGAACCTGTTGATCCTGATCGGCAGCTACGCCTTCTACGCCTGGTGGCGAGTCGACTTCCTGCTGCTGTTCGTCGCCGTCACCCTGTGGAACTACGTGTTCGGCCTGCGCATCCACCGCGCCGGCACCCGCAGCAAAGAGGCCCAGCGCTGGGTGCTCTGGGGCGTCGCCGGCAACCTCGCCACCCTGGGCTACTTCAAGTACGCCAACTTCGGGGTGGCCAACATCAACGCGGTGCTCCAGGCAGCCGGGATGGAGCCGTTCGTGCTCACCCAGGTGATCCTGCCGATCGGCATCTCGTTCTACATCTTCCAGTCGATCAGCTACCTGATCGACGTGTACCGCGGCGACACCGAGCCGACCGAGAACGTCGTCAACTTCGCGGCGTTCATCGCCCTGTTCCCGCAACTGATCGCCGGCCCGGTGCTGCGCTACAAGGACCTCGCCGACCAGTTCATCAGCCGCACCCACAGCGTGGACAAGTTCTCCGAAGGGGCCACCCGCTTCATGCAGGGCTTCGTCAAGAAAGTGTTCATCGCCGACACCCTGGCGCCGCTGGTGGACCACTGCTTCGCCCTGCAGAACCCGAGCACGGGCGACGCCTGGCTGGGCATGCTGGCCTATACCGCGCAGCTCTATTTCGACTTCTCCGGCTACAGCGACATGGCCATCGGCCTTGGCCTGATGATGGGCTTCCGCTTCATGGAGAACTTCAACCAGCCGTACATCAGCCAGTCCATCACCGAGTTCTGGCGGCGCTGGCACATCAGCCTGTCCACCTGGCTGCGCGACTACCTGTACGTGCCCCTGGGCGGTAACCGCCACGGCACCTTCAAGACCTACCGCAACCTGTTCCTGACCATGCTGCTGGGCGGTTTCTGGCACGGCGCCAACTGGACCTTCATCATCTGGGGCGCCTGGCACGGCACTTGGCTGGCCATCGAGCGCGCCCTTGGCGTCAACGCCGCGCCCAAGGTGATCAACCCGCTGAAGTGGGCCTTCACCTTCTTCCTGGTGATGCTCGGCTGGGTGATCTTCCGCGCCGAGAACGTGCACGTCGCCTGGCGTATGTATGAAGCCATGTTCAGCTTCGATGGCTGGCAGCTCTCCGAGCTGGGCCGCGCCAACCTGACCGAGCTGCAGGTCGCCACCCTGGTGGTCGCCTACGTCACCCTCGCCTTCTGCGGCCTGCGCCAGTTCTACCGCAACCCGCTGTCGCCGAAAGCGCCGAAGACCGACGCCGACGGCCCGGCCAGCGACCAGCCGCGCATGATCAAGGCGGTTCCCGGCGATGCCGCGAGCTTCGAGGTGACCCCGTCCGGCATGCTGGTGCAGCGTCCGTCCTGGACCGCCGCCCTGCCGCGCTATTTCGTGCGCGCCGCGATCCTCCTGCTGTTCTGCGCCTCGGTGTTGAAGCTGTCGGCGCAGAGCTACTCCCCCTTCCTCTACTTCCAGTTCTGA	MVFSSNVFLFLFLPVFLSLYYLSAPRYRNLLILIGSYAFYAWWRVDFLLLFVAVTLWNYVFGLRIHRAGTRSKEAQRWVLWGVAGNLATLGYFKYANFGVANINAVLQAAGMEPFVLTQVILPIGISFYIFQSISYLIDVYRGDTEPTENVVNFAAFIALFPQLIAGPVLRYKDLADQFISRTHSVDKFSEGATRFMQGFVKKVFIADTLAPLVDHCFALQNPSTGDAWLGMLAYTAQLYFDFSGYSDMAIGLGLMMGFRFMENFNQPYISQSITEFWRRWHISLSTWLRDYLYVPLGGNRHGTFKTYRNLFLTMLLGGFWHGANWTFIIWGAWHGTWLAIERALGVNAAPKVINPLKWAFTFFLVMLGWVIFRAENVHVAWRMYEAMFSFDGWQLSELGRANLTELQVATLVVAYVTLAFCGLRQFYRNPLSPKAPKTDADGPASDQPRMIKAVPGDAASFEVTPSGMLVQRPSWTAALPRYFVRAAILLLFCASVLKLSAQSYSPFLYFQF	PGPT0026125_218	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0026125-algI-K19294	NA	NA
BMS010_01484	1098	algL		Alginate lyase	ATGCCGACGTTCAAGCTGACCACCCTGTCCTGCCTGCTCGGCGCCCTGCTGCTGGCCAACGCCGCGCAGGCCGCCCTGCGGCCGCCGCTGGGCTACTACGCGCCGGTGGAAACCCGCAAGGGTGAACCCGACGCCTGCCCGGCAGCCCCCACGCCGTATACCGGCAAACTGGAATTCACCAGCAAGTACCAGGGATCGGACAAAGCGCGCGCCACGCTGAACGTCGCGGCGGAAAAGACCTTCCGCAGCCAGACCGAAGACATCACCGTGCTGGAGAAGGACTTCAACAAGCTGGTCATGCACTACATGCGCGACGGCCACCCGCAGCAGCTCGACTGCGCGCTGCAGTGGCTCACCACCTGGGCCAAGGCCGACGCGCTGCTCTCCACCGAGTTCAACCACACCGGCAAGTCCATGCGCAAATGGGCGCTGGGCAGCCTGTCGGGCGCCTACCTGCGGCTGAAGTTCTCCGATTCGCGCCCGCTGCAACCCTACGGCGAGCAGACCCGGGTCATCGAATCCTGGTTCGGCAAGCTGGCCGACCAGGTGGTGCGCGACTGGAGCGGCCTGCCGCTGAAGAAGATCAACAACCACTCGTACTGGGCCGCCTGGTCGGTGATGGCCACCGCCGTGGCGATCGACCGCCGCGACCTGTTCGATTGGTCCGTGCAGCAGTTCCGCGTTGCCGCCAACCAGGTCGACGAAAAGGGCTACCTGCCCAACGAGCTGAAACGCGAACAGCGTGCGCTGGCCTACCACAACTACAGCCTGCCGCCGCTGGCGATGATTGCCGCCTTCGCCCAGGTGAACGGCGTCGACCTGCGCAACGAGAACAACGGAGCGCTGCGGCGCCTGGCCGAACGGGTGCTGGCCGGCGTCGACGATCCCGACCAGTTCGCCGAGAAGACGCGCAAGAAGCAGGACATGGAAGACCTGAAGAAAGACGCCAAGTACTCCTGGCTCGAACCCTACTGCGCGCTCTACAGCTGCTCCCCGTCCGTCCTCGCCTGGAAGGAGTCGATGGAGCCGTTCAAGACATTCCGCCTGGGAGGCGACGTGACCCGGGTGTTCAACCGCCGGACAGAGGAGAAGTCGTAG	MPTFKLTTLSCLLGALLLANAAQAALRPPLGYYAPVETRKGEPDACPAAPTPYTGKLEFTSKYQGSDKARATLNVAAEKTFRSQTEDITVLEKDFNKLVMHYMRDGHPQQLDCALQWLTTWAKADALLSTEFNHTGKSMRKWALGSLSGAYLRLKFSDSRPLQPYGEQTRVIESWFGKLADQVVRDWSGLPLKKINNHSYWAAWSVMATAVAIDRRDLFDWSVQQFRVAANQVDEKGYLPNELKREQRALAYHNYSLPPLAMIAAFAQVNGVDLRNENNGALRRLAERVLAGVDDPDQFAEKTRKKQDMEDLKKDAKYSWLEPYCALYSCSPSVLAWKESMEPFKTFRLGGDVTRVFNRRTEEKS	PGPT0019415_377	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0019415-algL-K01729	NA	NA
BMS010_01485	1452	algX		Alginate biosynthesis protein AlgX	ATGAAAGTACGCGACATGAAATGGATCGGTCTCTCTTCCCTGGCCGCCGCAATCTGCCTGGCCAGCACCGGGCTGCGCGCCGAAGAGCAGAGCCAGGGACCGGTGTTCAAGGCCGAAGGCTGCTGCACCCTGTGCCCGGCGGCGCATAACGCCAGCCTGTACACCACCAATTACATGAAGAACTTCCTGACGCTGATCGATGCGCAGGACGAGTGGCTGTTCCGTACCCAGGAAGACCTGCGCACCGAGTTCGGCACCACGCCGGAGGGCTACCGCATGCTCAAGGAGCTGCGCGACGCCTTCAAGGCCCGCGGCATCGAAGTGGTGCTGGTCTACCAGCCCACCCGCGGCCTGGTGAACCGCGACAAGCTGCGGCCGGAAGACAAGGCCCGCTTCGACTACGACCGCGCGCTGAAGAACTACCGCACGGCCCTGGACCGCTTCCGCGAGATCGGTTTCTGGGTGCCCGACCTCTCGCCGTTGACCGACGAACAAGCGGACAACGAGCGCGCCTTCTACTTCGCCCGCGACCAGCACTGGACGCCCTACGGCGCCGAGCGCACCGCACGCGTCGTGGCCGAGACGGTCAAGCAGATTCCCGGCTACGACGACTTGCCGAAGAAGGAATTCGTCAGCCGCAAGATCGGCCGCATGGGCAAGCGCGGCACCATGCAGAACGTTGCCGGCCAGTTGTGCGGAACCAGCTATGCCATCCAGTACATGGACCAGTTCGCCACCGAGCCCAAGGACGAGAGCAGCAGCGACGACCTGTTCGGCGATTCCTCGAATCCGCAAATCACACTGGTCGGCACCAGCCACAGCGGCAAGAACTACAACTTCGCCGGCTTCCTCGAAGAGAACATCGGTTCCGAAATCCTCAACGTCGCCTTCCCCGGTGGCGGTCTGGAAGGCTCGATGATCGAATACCTGGGCAGCCAGGAATTCCATGACAACCCGCCCAAGGTCCTGATCTGGGAATTCTCCCCGCTCTACGACCTGGCCTCGAAGAAGATCCACCGGCAGATGATGGCCGTGCTGGAAGACGGCTGCGACCAGAAGGACGTGCTGCTGGCCAGCAAGACCAAGCTGCGTCCCGGCGCCAACGAGGTGCTAGTCAACGGCAAGAACAATTCGCTGGTGACGCTGCCGAACAAGAGCCACCTGATGGATATCCGCTTCAGCGATCCGTCGGTGAAAACCCTCGAGGCGACCCTCTGGTACCTCAGCGGGCGCCGCGAAAAGCTGAAGATCGAAAAACCCAACACCTACGACACCGACGGCCGCTTCGCCTTCGAGATGCGCGACGACGAGGACTGGGGCGATCTGGACTTCTTCGCCCTGGAAATCCAGTCGCCGGAAGGCATGACGGAGCCGGTGGAAGTCGAGGCCCGGGTCTGCAAGCGCGGCCCCGGTCCGAACAAGCTCACCGCCCAGAACGGGGCGGGCTCCTGA	MKVRDMKWIGLSSLAAAICLASTGLRAEEQSQGPVFKAEGCCTLCPAAHNASLYTTNYMKNFLTLIDAQDEWLFRTQEDLRTEFGTTPEGYRMLKELRDAFKARGIEVVLVYQPTRGLVNRDKLRPEDKARFDYDRALKNYRTALDRFREIGFWVPDLSPLTDEQADNERAFYFARDQHWTPYGAERTARVVAETVKQIPGYDDLPKKEFVSRKIGRMGKRGTMQNVAGQLCGTSYAIQYMDQFATEPKDESSSDDLFGDSSNPQITLVGTSHSGKNYNFAGFLEENIGSEILNVAFPGGGLEGSMIEYLGSQEFHDNPPKVLIWEFSPLYDLASKKIHRQMMAVLEDGCDQKDVLLASKTKLRPGANEVLVNGKNNSLVTLPNKSHLMDIRFSDPSVKTLEATLWYLSGRREKLKIEKPNTYDTDGRFAFEMRDDEDWGDLDFFALEIQSPEGMTEPVEVEARVCKRGPGPNKLTAQNGAGS	PGPT0026140_86	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0026140-algX-K19293	NA	NA
BMS010_01486	1611	algG		Mannuronan C5-epimerase	ATGAACAGCCCACGATTCCCACTGCAACCCCTGGCCAGGCACCTGCTCACCGGTGCCTTGCTGCTCGGCGGCGCCTGGGCGCAGGCCAACGAGGCCGCGGCTCCCCAGGCTCAGGCCCAAGCCCAGGCCGAAGAGACCGACAAAACCAAGGAGTTGCAGCAGGCGAAGACGTACACCGTCACCACCGCGCCGGTCGAACAGCTGCACCTCGATCCGCCGAAGCTTCCCGACCTCAGCGGTTACACCGCTGAGGCGGTCAACGCCAAGATCGACCGGAGCAAGGCGGGCCAGGTGGTGGTACGCCGCATGTTGCAACAGGACACCCTGAAAGACTTCACCGGCGGTAGCGGCCGTCTGCGCGAGTGGATTACCCGCCAGCGCGGCATGCCGCATGCCATCTTCATCGAAGGTGGCTACGTCAAGCTGAGCCAGTTGGCCGAGAAGTTGCCGAAGAACCAGTTCGAGGAGGTCGAGCCGGGTGTCTACCTGGCTCGCCTGCCGATCGTCGTGGCGCAGGGCGCGACCCTTCACATCGACAAAGACACCAAGGAACTGCGCCTTTCCGAAGAGCGCGGCTCGTTCCTGGTCAACGACGGCATGATGTTCATCACCGATACCAAGGTGACCGCCTGGCGCGAAGCGGCCAATGGCCCGGCCACGTTCCGCAAGCCCGACGACTTCCGCCCGTTCCTGGTCTCCTGGGGCGGCAGCGAGCTGTACATCGTCGGCAGCACCATCACCAGCCTCGGTTACAACAAGAGTAAGTCCTACGGCGTCTCCATCACCCAGTACACGCCCGGCACCCAGGCGCGCCTGAAGCGTCCGCACCCGACCGGCTGGCTGATCGACTCGGAGTTCGTCGACCACTGGTACGGCTTCTACTGCTACGAAGCGGAAGACGTGGTGGTCAAGGGCAATACCTATCGCGACAACATCGTCTACGGCATCGACCCGCACGACCGTTCGGAGCGGTTGATCATCGCAGAGAACACGGTGTTCGGGACCAAGAAGAAGCACGGGATCATCATCTCCCGTGAGGTGAACAACAGTTGGCTGATCAACAACAAGTCGTACGACAACAAGCTCTCCGGCCTCGTCCTCGACCGTAACAGCGTGAACAACCTGGTGGCCTACAACGAGATCTACCAGAACCATTCCGATGGCATCACGGTGTACGAAAGCTCGGACAACCTCATCTGGGGCAACAAGGTCCTGGCCAACCAGCGCCACGGCATCCGCCTGCGCAACAGTACCAACATCCGCCTGTACGAGAACCTCTCGGCCGGCAACAAGCTGTCCGGCGTGTACGGCCACATCAAGGACCTGTCCAACACCGACCGCAACATCGAACTCGACCCCTTCGACACCCAGGTCTCGATGATCGTGGTCGGCGGCAAGCTCGCCGGCAACGGCTCCGCCCCGCTGTCCATCGACTCGCCATTGAGCGTGGAACTCTACCGGGTGGAACTGCTGGCCCCGTCCAAGTCTTCCGGCATCAGCTTCGCCGGCATCCTGGGCGAAAAGCAGGAAGAAATCCTCGACCTGATGGTCCGTCGCGGCAAGGCCGTGCTCATCGACCCGGTCGAGACGCAGGCCGACCTGCACGATTAA	MNSPRFPLQPLARHLLTGALLLGGAWAQANEAAAPQAQAQAQAEETDKTKELQQAKTYTVTTAPVEQLHLDPPKLPDLSGYTAEAVNAKIDRSKAGQVVVRRMLQQDTLKDFTGGSGRLREWITRQRGMPHAIFIEGGYVKLSQLAEKLPKNQFEEVEPGVYLARLPIVVAQGATLHIDKDTKELRLSEERGSFLVNDGMMFITDTKVTAWREAANGPATFRKPDDFRPFLVSWGGSELYIVGSTITSLGYNKSKSYGVSITQYTPGTQARLKRPHPTGWLIDSEFVDHWYGFYCYEAEDVVVKGNTYRDNIVYGIDPHDRSERLIIAENTVFGTKKKHGIIISREVNNSWLINNKSYDNKLSGLVLDRNSVNNLVAYNEIYQNHSDGITVYESSDNLIWGNKVLANQRHGIRLRNSTNIRLYENLSAGNKLSGVYGHIKDLSNTDRNIELDPFDTQVSMIVVGGKLAGNGSAPLSIDSPLSVELYRVELLAPSKSSGISFAGILGEKQEEILDLMVRRGKAVLIDPVETQADLHD	PGPT0026115_89	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0026115-algG-K01795	NA	NA
BMS010_01487	1461	algE		Alginate production protein AlgE	ATGAAGAAGAATCAGAAGAAGAACCCGTGGATCGGTGCTGGATTGGGCCTGAGCGTTACCCTGATTTCCAGCGCCCCCGCCTGGGCGGCAACCTACGACGCCGAAAAGAACTTCGGCCTGGACGTGAAGGTTACCGGCCAATCCGAAGACGACCGTGACCTCGGCACCCGCGACGGTGGCGACGTGAACGGCTTCGCCCTCGACCTGCGCCCCTGGCTGTACGGCCAGAGCGGCAACTGGAGCGCCTACGTGATGGCCCAGGCCGTGGCCTCCACCGATATCGTCGAAACCGACCCGATCTCCGAGAACACCGAGGAAGACACCACCAGCACCTCCAACCGCCGCGAGCCGGACAAGAACTACCTGGCCCTGCGCGAGTTCTGGGTCGACTACGCCGGCCTCACCGCCTACCCCGGCGAACACCTGCGCTTCGGCCGCCAGCGCGTGCGCAGCGACGAAGGCACCTGGTGGGACACCAATATCGAAGCCCTCAACTGGACCTTCGACACCACCCTGCTGCGCGCCAACCTGGGCGTGGCCGAGCGCTTCTCCGACTACCGCACCGATCTCGACGATCTGGCGCCGGAAGACGAAGACCGCCAGCACCTGTTCGGCAGCATTTCCACCCAGCTCGCCCCCGGCCACTGGGTCGGCCTCAAGGCCCACCACAGCCGCGACGACGGCGACCTGCCGAACGTCGGCGAAGAAGTCGACGAGCTGACCAAGACCTACAAGGGCGACCTCACCTGGCTCGGCATCAATGCCGATGGTGAGTTCTTCAACCCGCGCTCCACCATGCCGCTCAACTATTGGGCGCAACTGACCTGGCTCACCGGCCAGCGCGATTCCATCACCGAAGGTGCGGTGAACGGTCAGCGCGTGGTCACCGGCGAGCAGGACGCCGACGTCAGCGCCTGGGCCATCGACCTCGGCCTGCGCTGGACCATCGACCAGAACTGGAAGATCGGCGGCGCCTATGCCCGTGGCAGCGGTGGCGGCGACGATGGCTCCGACCAGTTCGTACAGACCGGCATGGAGAGCAACCGCTCCAACTTCACCGGCACCCAGTCGCGCCTGCACCGCTTCGGCGAGGCCTTCCGTGGCGAGTTGAGCAACCTGCAATCGGTCACCGCCTTCACCTCCTGGACGCTGCGCGAAGACTACGACGCCAGCCTGGTCTACCACCGCTTCTGGCGCGTCGACTCGGATCAGTCGATCGGCCAGGCCGGCGTCAACGCCGCGCTGGTGGAAGACGACAAGGACATCGGCCAGGAAGTCGACCTGGTGGTGACCCGTTACTTCAGACAAGGCCTGCTGCCGGCGTCGATGAGTCAGAGCATCGACGAGCGTTCCGCGCTGGTCCGCTTCCGCGGCGGCCTGTTCTTCCCCGGCGATGCGTACGGCAGCCAGGCCGATTCGGTCATGCACCGTGCCTTCGTCGATTTCATCTGGCGTTTCTGA	MKKNQKKNPWIGAGLGLSVTLISSAPAWAATYDAEKNFGLDVKVTGQSEDDRDLGTRDGGDVNGFALDLRPWLYGQSGNWSAYVMAQAVASTDIVETDPISENTEEDTTSTSNRREPDKNYLALREFWVDYAGLTAYPGEHLRFGRQRVRSDEGTWWDTNIEALNWTFDTTLLRANLGVAERFSDYRTDLDDLAPEDEDRQHLFGSISTQLAPGHWVGLKAHHSRDDGDLPNVGEEVDELTKTYKGDLTWLGINADGEFFNPRSTMPLNYWAQLTWLTGQRDSITEGAVNGQRVVTGEQDADVSAWAIDLGLRWTIDQNWKIGGAYARGSGGGDDGSDQFVQTGMESNRSNFTGTQSRLHRFGEAFRGELSNLQSVTAFTSWTLREDYDASLVYHRFWRVDSDQSIGQAGVNAALVEDDKDIGQEVDLVVTRYFRQGLLPASMSQSIDERSALVRFRGGLFFPGDAYGSQADSVMHRAFVDFIWRF	PGPT0026105_102	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0026105-algE-K16081	NA	NA
BMS010_01488	1368	algK	COG0790	Alginate biosynthesis protein AlgK	GTGAACAGCACAACAAAAATCCTGCTTCTTTCAGCGCTCGGTCTGGCCGGCTGTACCAGCCTGCCGGACCAGCAGCTGGCTAATGAAGCCCTCAAGCGCGGGGATACCGCCACTGCCGAACGGCATTACCGCCAGCTCGCCGAGCTGGGCTATGCCGATGCCGCGGTCGGTCTCGCCGACCTGCAGGTGGCGAGCCGCGATCCGGAGCAACTGCGCAAGGCCGAGCAGACCTACCGCAGCGCCCTGGACAGCTCGCCGCGTGCCAAGGCACGCCTGGGCAAACTCCTGGCCGCCAAGGTGGATGCCAGTGATGCCGAACGCCGGGAAGCGGAAAAACTGTTGAGCGAATCGTTCGAGGCCGGCGAACAAAGCGCCCTGCTGCCGCTGACGATGCTGTACCTGCAGTACCCGCAGCTCTTCCCCGGGGTCAACCTGCAGCAACGCATCGCCCAGTGGCGGGCCGAAGGCTACCCGCAGGCGGAAATGGCCCAGGTCATCTACTACCGCAGCCAGGGTACCTACGATCAGCACCTCGGCGAGATCGAGCAGATCTGCCAGCGCATGCTGAACCAGATGGACGTCTGCTACGTCGAGCTGGCGACCGTCTACCAGAAGCGCGAGCAGGCCGACCAGCAGAAGGCCCTGATCGAACGCCTGATGTCCGGCTACCGCGCCGGTACGGTGTCGGCCAACCGCGTCGATGGTGTCGCCGGTGTGCTGGCCGACTCCGAGCTGGGCAAGACCGACGAGAAGACCGCCCAGGAGCTGCTCGAGGAAATCGCCCCGAAGTACCCCGCCGCCTGGGTCAGCCTGGCCCGGCTGCTCTACGAGTACCCCGAGCTGGGCGATGCCGACAAGATGATGGAGTACCTCGACCAGGGTCGCGCCGCCGCCCAGCCGCGCGCCGAACTGCTGCTCGGCAAGCTCTATTACGAGGGCAAGCTGGTCCCCATGGACCCGTTCAAGGCCGAAGAGCATCTGAACAAGGCCGCCGAAACCGAACTCAGTGCCCACTATTACCTGGGCCAGCTCTACCGCCGGGGCTTCCTCGGCAAGGTCTACCCGCAGAAAGCGCTGGACCACCTGCTGTATGCCGCGCGGGGTGGGCAGAACAGCGCCGACTTCGCCCTGGCGCAGATGTTCTCCCAAGGCCGCGGCATCAAGATCGACCGCGTGAACGCTTACGTTTTTGGGCAATTGGCCATACTCAGGGGCGCACCTCAGGCCGAGGTGCTGATGCAGGAACTCGAACCCCAGTTGCTCCCTGCCGAGAGAGCCCGAGGCGACGAACTGCTGCGACAGGAAAAGCAGCTTCGTGGAACCGCCTGGCTCGAATCCGTGCAGATGCAAGCCATGCAATCCCAATAA	MNSTTKILLLSALGLAGCTSLPDQQLANEALKRGDTATAERHYRQLAELGYADAAVGLADLQVASRDPEQLRKAEQTYRSALDSSPRAKARLGKLLAAKVDASDAERREAEKLLSESFEAGEQSALLPLTMLYLQYPQLFPGVNLQQRIAQWRAEGYPQAEMAQVIYYRSQGTYDQHLGEIEQICQRMLNQMDVCYVELATVYQKREQADQQKALIERLMSGYRAGTVSANRVDGVAGVLADSELGKTDEKTAQELLEEIAPKYPAAWVSLARLLYEYPELGDADKMMEYLDQGRAAAQPRAELLLGKLYYEGKLVPMDPFKAEEHLNKAAETELSAHYYLGQLYRRGFLGKVYPQKALDHLLYAARGGQNSADFALAQMFSQGRGIKIDRVNAYVFGQLAILRGAPQAEVLMQELEPQLLPAERARGDELLRQEKQLRGTAWLESVQMQAMQSQ	PGPT0026135_100	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0026135-algK-K19292	NA	NA
BMS010_01489	1170			Mannuronan synthase	ATGAATACAGCCGTCAACGTGAACGTAGTACATGAATCTGAAGCCCAGCGACAGCATGCGCGCGTCAAGCTACCCGCCAAGATCCGCTATGCCAGCGGCAACCGCGAAGTGGTCGAGCAACGCCTGATCGACCTGTCGGCCGGGGGCTTCAGCTTCATCGCCGGCAACGGCCAAGCGGCCCGCAGCGGCGACTATCACAAGGGCAAGCTGCTGTTCCAGATCGACAACCTGGGCCTGGCCATCGACGTCGAGTTCCAGGTCCGCTCGGTGGACTTCGACAGCGGCCGCATCGGTTGCCAGTTCCAGAACCTCAAGCCGCGCGAGATCGCCACGCTGCGCCACCTGATCACCGCCCACCTGTCCGGCGAGCTGGTCAACCTGGGCGATCTGCTCAGCACCCTGCAGCGCGATAACTTCACCAAGGCCCGCAAGAACAAGGACGGCGGCTCCGGCATGGGCGTCATCGCCCGCCTGCGCGCGGTCACCTTCAGCCTGGGCATCTTCATCGTCGGCCTCGGCGCCTTCGCCCTGATCCTCAAGCAGCTGTATGGCCTGTACTTCGTCACCCATGCCGAATCCGGCCAGGTCAGCGTGCCCAGCATGCAGGTGACCATGCCGCGCGAAGGCACGGTGCAGAGCCTCGTGGGCCCGGACGGCATCGTCAAGAACGGCGCGCCGATCGCTTCCTTCTCCGCCACCATGCTGGAAATGCTCAAGGGCCATCTGAACGAAGAGCAGCTCAACCCGAAGAACGTCGAGCAGCTGTTCAGCCAGCAGATGAAAGGCACCCTGACCAGCCCGTGCGACTGCAAGGTCGCCCAGCAACTGGTCGCCGACGGCCAGTACGCCAGCAAGGGCCAGGTGATCTTCGAACTGGTGCCGCGCGACAGCAACGCCACCGTCGAGGCGCGCTTCCCCTATCGCAACTTCGCCCAGGCCAAGCCGGGTGCCCGCGTCAGCTTCATGGTCGCCGGCGAAGACGAGCCGCGTCATGGCCAGATCGTCAGCAGCACCCTGCTCGAAGGCGGCCTGTCCTCCGATATCCGCGTGACCATCCAGCCCGACCAGCCGCTGGACAGCGCCCTGGCCGGCCAGCCGGTGGAAGTGACCATCGACCGCGGCCCCTCCTTCGACTGGCTGATCGACAAGGCACTGGCGGCTGGTTTCTAA	MNTAVNVNVVHESEAQRQHARVKLPAKIRYASGNREVVEQRLIDLSAGGFSFIAGNGQAARSGDYHKGKLLFQIDNLGLAIDVEFQVRSVDFDSGRIGCQFQNLKPREIATLRHLITAHLSGELVNLGDLLSTLQRDNFTKARKNKDGGSGMGVIARLRAVTFSLGIFIVGLGAFALILKQLYGLYFVTHAESGQVSVPSMQVTMPREGTVQSLVGPDGIVKNGAPIASFSATMLEMLKGHLNEEQLNPKNVEQLFSQQMKGTLTSPCDCKVAQQLVADGQYASKGQVIFELVPRDSNATVEARFPYRNFAQAKPGARVSFMVAGEDEPRHGQIVSSTLLEGGLSSDIRVTIQPDQPLDSALAGQPVEVTIDRGPSFDWLIDKALAAGF	PGPT0026095_88	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0026095-alg44-K19291	NA	NA
BMS010_01490	1482	alg8	COG1215	Mannuronan synthase	ATGGACAGGCTAAAGCAAGGTCTTACCGAGGCCACCGGCTGGCTTCTTTACGTCAGTTTATTGATGCTGCTCGCCTTGGCGTTGCCCAGGGATGTTTTCGATCCCGATTCGAAGCATTTCCTGTTCATCATCGGCGCAGTCGGCATCTGGCGCTATTCCATGGGCGCCATGCACTACATCCGCGGGCTGATCTTCCTCTACCTGGTGTACCCCTACTACCGCCGCCAGGTACGCAAGCTGGGCAGCGCCGCCGATCCGTCGCACGTGTTCCTGATGGTCACCAGCTTCCGCATCGAGGCCCTGACCACCGCCCAGGTCTATGGCTCGGTGATCCAGGAGGCCATCGACTCCGGCTACCCAACCACCGTGGTCTGCTCCATCGTGGAGATGTCCGACGAACTCCTGATCAAGAGCCTGTGGGCCAAGCTGAACCCGCCGGAGCGGGTCAAGCTGGACTTCGTGCGGATTCCCGGCACCGGCAAGCGCGACGGGCTGGCCTACGGCTTCCGCGCCATTTCCCGGCACCTGCCGGACGAACACGCGGTGGTGGCGGTGATCGATGGCGATACCGTCCTGACCCCCGGCGTGGTGCGCAAGACCGTGCCCTGGTTCAAGCTGTTCCCGAACGTCGGTGGCCTGACCACCAACGAGTTCTGCGAAGTGCGCGGCGGCTACATCATGAGCGAGTGGCACAAGCTGCGTTTCGCCCAGCGGCACATCAACATGTGCTCGATGGCCCTGTCCAAGCGCGTGTTGACCATGACCGGCCGGATGTCGGTCTTCCGCGCGCAGGTGGTCACCGAGCCGGAGTTCATCGCCGACGTGGAATCCGACCATCTGGAGCACTGGCGCCTGGGCCGCTTCCGCTTCCTCACCGGCGACGACAAATCCAGCTGGTTCAGCCTGATGCGCCTCGGCTACGACACCTTCTACGTGCCGGATGCCGCCATCAACACCGTGGAACACCCGCCGGAAAAGAGTTTCATCAAGGCCAGCCGCAAGCTGATGTTCCGCTGGTACGGCAACAACCTTCGTCAGAATTCGCGCGCTCTGCGCCTGGGGCCGCGACGTCTGGGCTGGTTCACCAGCCTGGTGCTGTTCGACCAGCGCATCTCGATGTGGACGTGCCTTCTGGGCCTGGCGGTAGCGATCATCGCCAGCCTCAAGTACAGCATCGGTTTCCTGCTGGTCTATCTGCTGTGGATCGGTCTGACCCGCCTGATCTTGAGCATCCTGCTCATTGCATCCGGGCACCACATCGGTCCGGCCTACCCCACGATCCTTTATTACAACCAGATCGTTGGCGCCCTGGTGAAGGTCTACGTGTTCTTCCGCCTGGATCAGCAGTCGTGGACCCGCCAGGACACCAAACTCACGCGTGATCTCGCCAGCTTCCAGCGCTGGTTCAACAGTTGGTCGTCACGGGCCATGACCTTCTCGGCCGCCAGCGTGTTCATCGCTGTGCTGCTGACGGTGGTGTGA	MDRLKQGLTEATGWLLYVSLLMLLALALPRDVFDPDSKHFLFIIGAVGIWRYSMGAMHYIRGLIFLYLVYPYYRRQVRKLGSAADPSHVFLMVTSFRIEALTTAQVYGSVIQEAIDSGYPTTVVCSIVEMSDELLIKSLWAKLNPPERVKLDFVRIPGTGKRDGLAYGFRAISRHLPDEHAVVAVIDGDTVLTPGVVRKTVPWFKLFPNVGGLTTNEFCEVRGGYIMSEWHKLRFAQRHINMCSMALSKRVLTMTGRMSVFRAQVVTEPEFIADVESDHLEHWRLGRFRFLTGDDKSSWFSLMRLGYDTFYVPDAAINTVEHPPEKSFIKASRKLMFRWYGNNLRQNSRALRLGPRRLGWFTSLVLFDQRISMWTCLLGLAVAIIASLKYSIGFLLVYLLWIGLTRLILSILLIASGHHIGPAYPTILYYNQIVGALVKVYVFFRLDQQSWTRQDTKLTRDLASFQRWFNSWSSRAMTFSAASVFIAVLLTVV	PGPT0026100_92	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0026100-alg8-K19290	NA	NA
BMS010_01491	1311	algD	COG1004	GDP-mannose 6-dehydrogenase	ATGCGCATCAGCATCTTTGGTTTGGGCTACGTCGGTGCAGTATGCGCCGGTTGCCTGTCGGCTCGCGGCCATGAAGTTGTCGGCGTGGATATCTCCACCCACAAGATCGACCTGATCAACAACGGCAAATCCCCCATCGTCGAGCCCGGTCTCGAAGAACTTCTCGGCAAAGGTATCAAGGCCGGCAACCTGCGCGGCACCACCGATGTCGCCGACGCGATTCGCAACACCGACCTGTCCATGCTCTGCGTCGGTACGCCCAGCAAGAAGAACGGCGACCTCGAGCTGAACTACATGGAGTCGGTCTGCCGCGAAATCGGCATGGCCCTGCGTGACAAGAGCCAACGCCACACTGTCGTGGTCCGCAGCACCGTGCTGCCGGGCACCGTCAAGAACGTCGTCATTCCGATCCTCGAAGACTGCTCCGGCAAGAAGGCCGGTGTCGACTTCGGCGTGGCGGTCAACCCGGAGTTCCTCCGCGAAAGCACCGCGATCAAGGACTACAACTTCCCGCCGATGACCGTCATCGGTCAGTTGGACGACGCGTCCGGCGACATGCTGCAGGAAATCTACCAGGAGCTCGACGCGCCGATCATCCGCAAGGACATCGAAGTCGCCGAGATGATCAAGTACACCTGCAACGTCTGGCACGCCACCAAGGTCACCTTCGCCAACGAGATCGGTAACATCGCCAAGGCGGTGGGCGTCGATGGCCGCGAGGTGATGGACGTGGTCTGCCAGGACAACAAGCTGAACCTGTCCAAGTACTACATGCGTCCGGGCTTCGCCTTCGGTGGCTCCTGCCTGCCGAAAGACGTGCGCGCCCTCTCCTACCGCGCCAGCTCGCTGGACGTGGAGGCGCCGCTGATCGGCTCGCTGATGCGCAGCAACTCGGTTCAGGTCCAGAAAGCCTTCGACATCATCTCCAGCTACGACAAGCGCAAAGTCGCTCTGCTCGGCCTGAGCTTCAAGGCCGGCACCGACGACCTGCGCGAGAGCCCGCTGGTGGAACTGGCAGAAATGCTGATCGGTAAGGGTTTCGACCTGCGCATCTACGACCGCAACGTGGAGTACGCCCGCGTCCATGGCGCCAACAAGGACTACATCGAGTCGAAGATTCCGCACGTTTCCTCGCTGCTGAATTCCGACTTCGACGAAGTGGTGAAGAACGCCGACGTCATCGTCCTGGGTAACGGCGACGAGCAGTTCGCCTCTCTGGTGCAGCAGGTACCCGAGGGCAAGCAGGTCGTCGACCTGATCGGCTTCATGCCGCACGCGACCCGCGGTGCGACTGAAGGCATCTGCTGGTAA	MRISIFGLGYVGAVCAGCLSARGHEVVGVDISTHKIDLINNGKSPIVEPGLEELLGKGIKAGNLRGTTDVADAIRNTDLSMLCVGTPSKKNGDLELNYMESVCREIGMALRDKSQRHTVVVRSTVLPGTVKNVVIPILEDCSGKKAGVDFGVAVNPEFLRESTAIKDYNFPPMTVIGQLDDASGDMLQEIYQELDAPIIRKDIEVAEMIKYTCNVWHATKVTFANEIGNIAKAVGVDGREVMDVVCQDNKLNLSKYYMRPGFAFGGSCLPKDVRALSYRASSLDVEAPLIGSLMRSNSVQVQKAFDIISSYDKRKVALLGLSFKAGTDDLRESPLVELAEMLIGKGFDLRIYDRNVEYARVHGANKDYIESKIPHVSSLLNSDFDEVVKNADVIVLGNGDEQFASLVQQVPEGKQVVDLIGFMPHATRGATEGICW	PGPT0022720_201	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0022720-algD-K00066	NA	NA
BMS010_01492	780	yaaA	COG3022	Peroxide stress resistance protein YaaA	ATGCTGATGGTGATTTCTCCGGCCAAGACCCTCGATTACGAGACCCCGCCGGTCACTTCCCGCTTCACCCAACCCCAACACCTGGACCATGCCCAGGAACTGATCGCCCAGTTGCGCCGGATGGCTCCGGCCGAGATCGGCGAACTCATGCACCTGTCCGACAAGCTCGCCGGGCTCAACGCCGCCCGCTACGGCAGTTGGACGCCCGACTTCACGCCGGAGAACGCCAAGCAGGCGCTGCTCGCCTTCAAGGGCGACGTGTATACCGGACTGAACGCCGAGGATTTCCGCGAGGCCGACTTCGACTTCGCCCAGGACCATCTGCGCATGCTTTCCGGCCTGTATGGCGTGCTGCGCCCGCTGGACCTGATGCAGCCCTATCGACTGGAAATGGGCACCAAGCTGGCCAACAGCCGCGGCCAGGACCTCTACGCCTTTTGGGGCGAACGCATCAGCGGCTGGCTGAACGAGGCCCTCGCAGCGCAGGGCGACGACATCCTGCTGAACCTGGCCTCCAACGAGTATTTCAGTGCGGTCAAACGCAAGGCGCTGAACGCTCGGATCATCGACACCGAATTTCGCGATCTGAAGAACGGCCAGTACAAGATCATCAGCTTCTACGCCAAGAAAGCGCGCGGTCTGATGGCTCGCTTCGTGATCAAGGAGCGTCTGCGCGATCCGGACGCCCTCAAGGGCTTCGACTACCAGGGCTACCGCTACTCCGCCGAACATTCCGCACCGGACAAGCTGGTTTTCCTGCGCGACACGCCGAACGACTGA	MLMVISPAKTLDYETPPVTSRFTQPQHLDHAQELIAQLRRMAPAEIGELMHLSDKLAGLNAARYGSWTPDFTPENAKQALLAFKGDVYTGLNAEDFREADFDFAQDHLRMLSGLYGVLRPLDLMQPYRLEMGTKLANSRGQDLYAFWGERISGWLNEALAAQGDDILLNLASNEYFSAVKRKALNARIIDTEFRDLKNGQYKIISFYAKKARGLMARFVIKERLRDPDALKGFDYQGYRYSAEHSAPDKLVFLRDTPND				NA	NA	NA	NA	NA
BMS010_01493	1035	czcD_2	COG1230	Cadmium, cobalt and zinc/H(+)-K(+) antiporter	ATGAATTCCTGTGATCATTCGCGCTGGGAGCCCTCTCACGATTACCGGCCCCTGGAGCACGGTAGCGAGCGGCAGGCCTGGCGTGTCATGGCGTTGACCGGCGTGACCATGCTGGTGGAAATCGCCGCCGGCCACTGGTTCAACTCCATGGCGCTGCTCGCCGACGGTTGGCACATGGCCTCGCACATGGTCGCCATCGGTCTCACCGCGCTCGCCTATCTGCTCGCCCGTCGCTACGCACGGGATCGCCGCTTCGCCTTCGGCACCTGGAAGATCGAAATTCTGGCCGGCTTCGCCAGTGCCTTGCTGCTGGTGGTGGTCGCTGTGCTGATGCTGTTCGAATCGTTCTGGCGGTTGTGGGAGCCGGTGCGGATCAGCTTCGACCAGGCGCTGTGGGTGGCATCCATCGGCCTGGTGGTGAACCTGTTGTCGGCCTGGTTGCTGCGTGACCAGCCGCATTCTCACAGCCACACTGGCGCCGATCACGATCACGATCACGATCACGATCACGATCACGATCACGATCACGATCACGATCACGGCCATGGGCATGCTCACGGCGGGCGCGATCTCAACCGGCATGCGGCCTTCCTTCATGTGCTGGCCGACGCGCTGACATCGGTGGCCGCCATCCTCGCCCTGCTGGGCGGCAAGCTGTTCGGCTGGGATTGGCTGGACCCGGCCATGGGTGTGGTCGGTGCCGTGGTGATCGGCATCTGGGCCAAGGGGCTGCTGGTGGAGACCGGCAAGGTGCTGCTCGATCGCGAGATGGATCACCCGCTGGTGGATCGGGTTCGCATGGTTCTGGAAGAGGAACCGGACACCGAGATCGCCGACCTGCACCTGTGGCGTGTCGGGCGCGCGCAATATGCCTGCATTCTTTCCCTGGTGACCCACGACGACGTATCGGCGGATCGCTACAAATCGCGCCTGGCGGGCTTCAACGAGCTGGTGCACGTGACCGTGGAGGTCAATCGGTGCGGCATCGGCCATGGCACGGGCCAGGACGATCCGGTCTGTCGGGCGAAGGGATGA	MNSCDHSRWEPSHDYRPLEHGSERQAWRVMALTGVTMLVEIAAGHWFNSMALLADGWHMASHMVAIGLTALAYLLARRYARDRRFAFGTWKIEILAGFASALLLVVVAVLMLFESFWRLWEPVRISFDQALWVASIGLVVNLLSAWLLRDQPHSHSHTGADHDHDHDHDHDHDHDHDHDHGHGHAHGGRDLNRHAAFLHVLADALTSVAAILALLGGKLFGWDWLDPAMGVVGAVVIGIWAKGLLVETGKVLLDREMDHPLVDRVRMVLEEEPDTEIADLHLWRVGRAQYACILSLVTHDDVSADRYKSRLAGFNELVHVTVEVNRCGIGHGTGQDDPVCRAKG				NA	NA	NA	NA	NA
BMS010_01494	1386			hypothetical protein	ATGGATGACCACGGACGTGCCCGCTCCACCCAGCCCACCCTGTATGTCCTCGACACCAATGTCCTGATCCACGATCCGAATGCCTTGCTGAATTTCCAGGAACACCACGTCGCGATTCCGATGACGGTGCTGGAAGAGCTGGACAAGTTGAAGACCGGCAAGCACACCGTCGCTGCCGAATGCCGTCAGGCGATCCGCCTGATCGATCAGGTGCTGGGCGAAGCCTCGCCGGAGGAAGTGGAGCAGGGCGTACCGATCCAGCGTGGCAAGAGCGGCCCTTGCGGCTGGCTGTCGATCCTCATGAGCAAGCGGGCCGAGACGGTACTGCCGGAGAACCATAACGACAACCGCATCATCAATCAGTTGGTGGAACTGAAGAGCCGCCGTACCGGCGTCCCCGTGGTGCTGGTGACCAAGGACATCAACATGCGCCTGAAGGCGCGCGCCTGCGGTATCGCCGCGGAGGACTACCATACCGACCAACTGATCGATGACGTCAACCTGCTGTCCCGCGGCTACCACAGCCTGGGCGGGACCTTCTGGGACCGCGTGAGCAAGGTGGAGACTCGCCAGGACCATGGGCGCACCTGGCACCGCGTGCAGCTCACCGACAACCTGCCGGCGGTGCACGTGAATGAGTTCATCGTCGACGAGCAGGGCTTCGTCGGCTGGATCAAGGGCATCAAGCAGGACGAACTGCTGATCCTCGACCTGCATCAGGAGCCGCTGCTGCATCAGGAGGCCTGGGGCCTGCGGCCGCGGGACATCTATCAGGCGCTGGCGCTGTACGCGCTGCTCGATCCGGACATCCATCTGGTCAACCTGTCCGGCGCCGCCGGCTCCGGCAAGACCATCCTGGCCCTGGCCGCGGCCATCGAGCAGACCATGGTCAGCAAGCGCTACCGGCGCATCATCGCCACCCGCAGCGTGCAGGGGCTGGACGAGGACATCGGCTTCCTGCCCGGTACCGAGGCCGAGAAAATGGAGCCCTGGCTGGGCGCCATCACCGATAACCTGGAAGCGTTGCACATGGACGACGAGAACACCCACGGCAGCGTCGACTACATCCTGCAAAAGGTGCCGTTGCAGTTCAAATCGCTGAACTACATCCGCGGGCGCAGCTTCCAGCAGAGCCTGATCCTGATCGACGAGTGCCAGAACCTCACGCCGCACCAGATGAAAACCATCATCACCCGTGCCGGCAGCGGTTCGAAGGTGGTTTGCCTGGGCAACCTGGCGCAGATCGACACGCCCTACCTGTCCGCCACCAGTTCGGGCTTGACCTATCTGACGGAGCGCTTCAAGGACTTCCCGCACGGGGTACACATCACCCTTCAAGGGGTACCTCGTTCGGTGCTGGCGGAGTACGCCGAGGCCCATATGTAA	MDDHGRARSTQPTLYVLDTNVLIHDPNALLNFQEHHVAIPMTVLEELDKLKTGKHTVAAECRQAIRLIDQVLGEASPEEVEQGVPIQRGKSGPCGWLSILMSKRAETVLPENHNDNRIINQLVELKSRRTGVPVVLVTKDINMRLKARACGIAAEDYHTDQLIDDVNLLSRGYHSLGGTFWDRVSKVETRQDHGRTWHRVQLTDNLPAVHVNEFIVDEQGFVGWIKGIKQDELLILDLHQEPLLHQEAWGLRPRDIYQALALYALLDPDIHLVNLSGAAGSGKTILALAAAIEQTMVSKRYRRIIATRSVQGLDEDIGFLPGTEAEKMEPWLGAITDNLEALHMDDENTHGSVDYILQKVPLQFKSLNYIRGRSFQQSLILIDECQNLTPHQMKTIITRAGSGSKVVCLGNLAQIDTPYLSATSSGLTYLTERFKDFPHGVHITLQGVPRSVLAEYAEAHM				NA	NA	NA	NA	NA
BMS010_01495	480	moaC_1	COG0315	Cyclic pyranopterin monophosphate synthase	ATGCTGACCCATCTCGATTCCCAAGGTCATGCCAACATGGTCGACGTCACCGACAAGGCGGTGACGTCCCGTGAGGCCGTGGCCGAAGCGCGGGTGCGCATGCGCCCGGAAACCCTGCGCCTGATCCAGGACGGCGGCCATCCCAAGGGCGACGTGTTCGCCGTGGCACGCATCGCTGGCATCCAGGCGGCGAAGAAGACCCATGAACTGATCCCGCTGTGCCATCCGCTCCTGCTCACCGGCGTGAAGGTCGAACTGGCCCCCGAGGGCGACGACACCGTGCACATCGTTGCCCGTTGCAAGCTGGCCGGGCAGACCGGTGTGGAAATGGAAGCCTTGACCGCTGCCAGCGTCGCCGCGCTGACCCTCTATGACATGTGCAAGGCGGTGGATCGCGGCATGACCATCGAACAGGTACGCCTGTTGGAGAAGCTCGGCGGCAAGAGCGGCCATTACCGGGCGGAGGACGACGCGCAATGA	MLTHLDSQGHANMVDVTDKAVTSREAVAEARVRMRPETLRLIQDGGHPKGDVFAVARIAGIQAAKKTHELIPLCHPLLLTGVKVELAPEGDDTVHIVARCKLAGQTGVEMEALTAASVAALTLYDMCKAVDRGMTIEQVRLLEKLGGKSGHYRAEDDAQ	PGPT0008405_3052	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008405-moaC_-K03637	NA	NA
BMS010_01496	249	moaD_2	COG1977	Molybdopterin synthase sulfur carrier subunit	ATGATCTGTGTGCAGTACTTCGCCCGTTACCGCGAGACCCTGGGCCTCGATGACGAGGCGCTCGACATGGCCTCCGACTGGACCCGCATCGACGATCTGCGCCAGCACCTGCTGGGTCGCGGCGGCGCCTGGGAGGTGCTCGCCGAACGCAACCTGATGTGCGCCCGCAACCAGGAACTGTGCAGCCTCGACGAACCCCTGGAAGACGGCGACGAAGTGGCGTTCTTCCCCACGGTCACCGGAGGTTGA	MICVQYFARYRETLGLDDEALDMASDWTRIDDLRQHLLGRGGAWEVLAERNLMCARNQELCSLDEPLEDGDEVAFFPTVTGG	PGPT0008415_71	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008415-moaX-K21142	NA	NA
BMS010_01497	456	moaE_2	COG0314	Molybdopterin synthase catalytic subunit	ATGGCTATTCGGGTCCAGGCGGCGGCGTTCGACCCGGGGGTCGAACTCAATGCCCTGCACGCAGCCAATGTCGGCGTCGGCGCGGTGGTCGGCTTCGTCGGCTATGTGCGCGACTTCAACGATGGCCAGGAAGTCGGCGGCATGTTCCTCGAACACTATCCCGGCATGACCGAGAAGGCGCTGGAGAAGATCGCCCGCGAAGCGGAGCAACGCTGGCCGCTGCTCCGCCTCGAGATCCTGCACCGCATCGGTCGCCTGGAGCCGGGCGAGCCCATCGTCTTCGTCGGCACGGCCAGTGCTCATCGTCAGGCAGCCTTCGATGCCTGCAATTTCGTCATGGATTACCTGAAGACCCGCGCGCCGTTCTGGAAGAAGGAAGATACCCAGGAGGGTCCGCGCTGGGTCGAAGGCCGCGATAGCGACAAAGCCGCGGCCGACCGCTGGCGTAACGACTGA	MAIRVQAAAFDPGVELNALHAANVGVGAVVGFVGYVRDFNDGQEVGGMFLEHYPGMTEKALEKIAREAEQRWPLLRLEILHRIGRLEPGEPIVFVGTASAHRQAAFDACNFVMDYLKTRAPFWKKEDTQEGPRWVEGRDSDKAAADRWRND	PGPT0008415_12	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008415-moaX-K21142	NA	NA
BMS010_01498	777	argT_1	COG0834	Lysine/arginine/ornithine-binding periplasmic protein	ATGAAGAAAATCGTCCTGTTGAGCAGCCTTGCCCTGGGCCTGCTGGCCTCCAGCCTGTTCGCCGCCGAAAAGCCCCTGCGCCTGGGCATCGAGGCGGCTTATCCACCGTTCGCCTACAAGACGCCCGAGGGGGCGATCGCCGGCTTCGACTACGACATTGGCAATGCCCTGTGCGAACAGATGCAGACCCGCTGCGAATGGGTCGAACAGGAGTTCGACGGGCTGATCCCCTCGCTGAAAGTACGCAAGGTGGATGCGATTCTCTCGTCCATGACCATTACCGACGAACGGCGCCGGTCGGTGGATTTCACCGGCAAGTACTACTACAGCCCCGCGCGTCTGGTGATGAAGGAAGGCACCACCGTGGACGCCGATTTCGCCGACCTGAAGGGCAAGCGCATCGCCGTCCAGCGTTCCACCACCACCGACCGTTTCGCCACCGAGGTGCTGCAGCCCAAAGGTGTCGAGGTGGTGCGTTACAGCACCCAGAACGAGATCTACCTGGACCTGCTCGCCGGCCGTCTGGACGGGGTATTGGCCGATGCCATTCCGCTGGATGAGGGTTTCCTCAAGACCGAGAGCGGGAAGGGCTTCGCCTTCGTCGGGCCGGACTTCAGCGATCCGCATTATTTCGGCGAAGGGGCCGGCATCGCCGTACGCAAGGGGGATGCGGAACTGCTGGACAAACTCAATGCAGCCATCGCGGCGATCCGCGCCAACGGCCGCTACCAGGCGATCCAGAGCAAGTACTTCAGCTTCGATATCTACGGCGAGTGA	MKKIVLLSSLALGLLASSLFAAEKPLRLGIEAAYPPFAYKTPEGAIAGFDYDIGNALCEQMQTRCEWVEQEFDGLIPSLKVRKVDAILSSMTITDERRRSVDFTGKYYYSPARLVMKEGTTVDADFADLKGKRIAVQRSTTTDRFATEVLQPKGVEVVRYSTQNEIYLDLLAGRLDGVLADAIPLDEGFLKTESGKGFAFVGPDFSDPHYFGEGAGIAVRKGDAELLDKLNAAIAAIRANGRYQAIQSKYFSFDIYGE	PGPT0020680_261	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ARGININE_TRANSPORT,PGPT0020680-aotJ-K10022	NA	NA
BMS010_01499	306			hypothetical protein	ATGGAGCTGAACAAAGCCGTTCTGGATTGCATGCAGGCACTGCGTCGGCGCCTGCGCGACGAGTTGGCGGTGGATATCCGCCTCAGCCAGCCGGACGCCATCCCGGCGATGCTCGCGGCCTGCCTGAACTCCAACGACCTGGAAACCCGCACCCTGGGCCAGCGTCTGGCGGAGTTCAGCGACCTGATCCCCATCCGGTCCACTCCGAAGGGCCAGCCACTGGCCGACGTACCGGCTCCCGCCAGCCTGGCCGGAAAGCCCTCCGGCTCGGTGCGTATCTATCGCGGCCAGCGGATCTATGTCTGA	MELNKAVLDCMQALRRRLRDELAVDIRLSQPDAIPAMLAACLNSNDLETRTLGQRLAEFSDLIPIRSTPKGQPLADVPAPASLAGKPSGSVRIYRGQRIYV				NA	NA	NA	NA	NA
BMS010_01500	885			hypothetical protein	ATGCGTAACGATGCCCACGACGAACTGGAACACGTGCCCAGCCTGAGGCCCGATATCCGCGATGACGACGATTTCGATCATGACGTGCCCGAGCCGCTGGAGCGCGGTTACGGCCGTGGAGCGGTACGTGCGGAGAGGCCGGCGAAAGCTTCGAAGGGAGCCAGCACCGGCCCGCTGTGGGCGCTGGTCGGCGCCCTGACCATCGCCTTGGGCGGTCTGGGATGGTGGAGCTTCCAGCAGATTTCGCTGATGGAGCAGCAACTGGTGGCGACCCAGGAGAGCTTCGCCCGCATCAGCGAGGAGGCCGCCGGGCGTATCCAGGACATCACCGGCAAGGTGGTGGCCACCGAGTCCAGCGTCACCACCGGCAGCGAAGCCCTGAAACTGCAGGTCAAGCAACTGGAAAACAAACTCGCCGAGCTGAGCCGCCAGCAGCAGGGCGTTGCCGGGCAGCAGGGCGAACAGGCCAAGCGCCTCGACCAACTGGCCGCCGATCTCAAGGCGCAGAAGAGCGACGCCGCCCAGGTCGATACCCGTCTGAAAGGCTTGGCCGGGGAACAGGAAAAGCTGCAGGCCGCACAGGCGGACCTGAAGGCCGCCCAGGGTGACGCCCAGTCGGCCAAGCAGGAACTGGCTCGCCTGGATACTCGCCTCAAGGGGCTGGCGGCGGATCTCGAAACCCTGAAGAAACAGGGCAATCCCAACCAGGCCATCGGCCGCCTGGAGCAGGACCTGCTGGTCCTGCGCAGCGAAATGGAAACCCGCGCCGGCTCCGGCCAGGGCAACGCCGCCGAATTCGACGCCTTCCGCGCCCAGATGACCCGCAACATCACCAGCCTGCAAAGCCAACTGCAAAGCCTGCAACAGCAGATCAACGCACGTTGA	MRNDAHDELEHVPSLRPDIRDDDDFDHDVPEPLERGYGRGAVRAERPAKASKGASTGPLWALVGALTIALGGLGWWSFQQISLMEQQLVATQESFARISEEAAGRIQDITGKVVATESSVTTGSEALKLQVKQLENKLAELSRQQQGVAGQQGEQAKRLDQLAADLKAQKSDAAQVDTRLKGLAGEQEKLQAAQADLKAAQGDAQSAKQELARLDTRLKGLAADLETLKKQGNPNQAIGRLEQDLLVLRSEMETRAGSGQGNAAEFDAFRAQMTRNITSLQSQLQSLQQQINAR				NA	NA	NA	NA	NA
BMS010_01501	1050	nemA_2	COG1902	N-ethylmaleimide reductase	ATGACCACGCTCTTCGACCCGATCAAGATCGGCGACCTGGAACTGAACAACCGTATCGTCATGGCCCCGCTGACCCGTTGCCGCGCGGACGAAGGCCGCGTGCCCAACGCGCTGATGGCCGAGTACTACGCCCAGCGCGCCTCCGCCGGCCTGATTCTCAGCGAGGCCACGTCGGTGTCGCCGATGGGTGTCGGCTACCCCGACACCCCTGGCATCTGGTCCGACGCCCAGGTGCGCGGCTGGAGCAATATCACCAAGGCGGTGCATGCCAACGGCGGCAAGATCATGCTGCAACTCTGGCACGTCGGGCGCATTTCCGACCCCAGCTACCTGAACGGCGAGCTACCGGTTGCCCCCAGCGCCATCGCCGCCAAGGGCCATGTCAGCCTGCTGCGGCCGCTGCGTGACTTCGTCACCCCGCGCGCCTTGGAAACCGAGGAAATCGCCGATATCGTCGAGGCTTACCGCACCGGCGCCGAGAACGCCAAGGCCGCCGGCTTCGACGGTGTGGAAATCCATGCTGCCAACGGTTATCTGCTCGATCAGTTCCTGCAGGACAGTACCAATACGCGCACTGATCGCTACGGCGGCTCGCTGGAGAACCGCGCGCGCCTGCTGCTGGAAGTCACCGATGCGGCCATCGAGGTCTGGGGCGCCGGTCGTGTCGGCGTCCACCTGGCGCCCCGTGCCGACTTGCATGACATGGGCGATTCGAGTCGGACCGAGACCTTCACCTACGTCGCCCACGAGCTGGGCAAGCGCGGTATCGCCTTCATCTGCGCCCGCGAGAAGGAAGCCGACGACAGCCTCGCTCCGCGCCTGAAGGAAGCCTTCGGCGGTGTGTTCATCGCCAATGAGCGCTTCACCAAGGAACAGGCCGACGCCTGGCTGGCGGCCGGCAAAGCCGATGCGGTGGCCTTCGGCGTGCCCTACATCGCCAACCCGGACCTGGTGGAACGATTCAAGCAGAACGCCCCGCTCAACGAAGCCGACCCGGCGACCTTCTACAGCTCGGGGCCGGTGGGCTACCTGGACTATCCGCGGCTGTAA	MTTLFDPIKIGDLELNNRIVMAPLTRCRADEGRVPNALMAEYYAQRASAGLILSEATSVSPMGVGYPDTPGIWSDAQVRGWSNITKAVHANGGKIMLQLWHVGRISDPSYLNGELPVAPSAIAAKGHVSLLRPLRDFVTPRALETEEIADIVEAYRTGAENAKAAGFDGVEIHAANGYLLDQFLQDSTNTRTDRYGGSLENRARLLLEVTDAAIEVWGAGRVGVHLAPRADLHDMGDSSRTETFTYVAHELGKRGIAFICAREKEADDSLAPRLKEAFGGVFIANERFTKEQADAWLAAGKADAVAFGVPYIANPDLVERFKQNAPLNEADPATFYSSGPVGYLDYPRL	PGPT0005930_2955	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_TOLULENE|DERIVATE_DEGRADATION	XENOBIOTIC_NITROTOLULENE_DEGRADATION,PGPT0005930-nemA-K10680	NA	NA
BMS010_01502	303			hypothetical protein	ATGTCCATCGACATCGATGAAATCATCAAGGCCCTCGCCCACCCGGTGCGCCGCGACATGCTGCATTGGCTGAAGGACCCGGAGAAATACTTCGTCGAGCAGGAACACCCGTTCGAGATCGGCGTCTGCGCCGGCAAGTTCGACCAGCGCACCGGGCTGTCCCAGTCCACCGTCTCGGCACACCTGGCGACCTTGCAACGGGCGGGTCTGGTGACCAGCCAGCGGGTCGGCCAGTGGAATTTCTTCAAACGCAACGAGGACACCATCCAGGCGTTCCTGCGCCAGATCCGCGACGAGTTGTAG	MSIDIDEIIKALAHPVRRDMLHWLKDPEKYFVEQEHPFEIGVCAGKFDQRTGLSQSTVSAHLATLQRAGLVTSQRVGQWNFFKRNEDTIQAFLRQIRDEL	PGPT0004735_436	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892	NA	NA
BMS010_01503	585	acpH	COG3124	Acyl carrier protein phosphodiesterase	ATGAATTACCTGGCCCACCTTCACCTTGGCGGCGACGCTCCGGCCGCGTTGCTCGGCAGTCTCTACGGCGACTTCGTCAAAGGTCCGCTGGACGGACGCTGGCCGGCGGACATCGAGGCGGGCATCCGCCTGCACCGGCGCATCGATGCCTTCACCGATGCGCATCCGCTGATCGAGCGGGCCAAGGCGCGCTTTCCACAGGAGCGGCGGCGCCTGGCCGGAATTCTGCTCGACGTGTTCTTCGATCATTGCCTGGCGCGCGATTGGAACCAGTTCTCCGATGAGCCGCTGGACCGTTTCACCGCGCGTGTCTACCGGCTGCTCGCCGGCGAGGCGCGCCTGCCGGAGCGCCTGGCGCTGGTCGCGCCGCGCATGGCCGCCCAGGACTGGCTGGGCAGCTACCGCGAGTTCGCCGTGCTGGAGCAGGTCATCGCCGGCATGGGGCGGCGCCTGTCGCGGCCACAACTGCTGGCGGGCGGGATGGACATGCTGGAGCGGCTGTACGAGCCGCTGAGCGAGGATTTCCAGCGCTTCTATCCGGAGCTGCAGCGCTTCGTCGATGCGCAAGGGCAGGCGTTGCGCTGA	MNYLAHLHLGGDAPAALLGSLYGDFVKGPLDGRWPADIEAGIRLHRRIDAFTDAHPLIERAKARFPQERRRLAGILLDVFFDHCLARDWNQFSDEPLDRFTARVYRLLAGEARLPERLALVAPRMAAQDWLGSYREFAVLEQVIAGMGRRLSRPQLLAGGMDMLERLYEPLSEDFQRFYPELQRFVDAQGQALR	PGPT0008850_497	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0008850-acpH-K08682	NA	NA
BMS010_01504	777			hypothetical protein	ATGAAGCGACTCCGCCTCTACCTCCGCATCGCCCGCCTGCTCGCCGTGATCGGCCTCGGCCTGGTCCTGGCGGGCTGGGTGAGCCTGCTCGAACGCCTGCGCCGCCACGACCTGATGCCGCTGCGCCAGCGCCTGACCCGCTGGTTCCTCGCCCGCCTCGCCGCCGCCCTGCCGTTCCGCGTGAGCGTGCACGGCCAACTGCCGGACCGGCCGATGCTATGGGTAGGCAATCACGTGTCCTGGACCGATATCCCGCTGCTCGGCGCCCTGGCGCCGTTGTCGTTCCTCTCGAAAGCCGAAGTCCGCGCCTGGCCGCTGGCCGGCTGGCTGGCGCACAAGGCCGGCACCCTGTTCATCCGCCGCGGCTCGGGCGACAGTAACCTGGTCAACCGCCAGCTCGCCCGCCACCTGCACCAGCAGCGGCATTTGGCGATCTTTCCGGAAGGCACCACCACCGATGGCAGCCGCGTGCGTACCTTCCATGGCCGCCTGCTGGCCAGCGCCATCGAGGCCGGCGTAGCGCTGCAGCCGGTGGCAATCGGTTATCGGCACGGAGCCGGACGGGATACCGAAGTCGCTCCGTTCATTGGCGACGATGACCTGCCGTCCCACCTGCTACGCCTGCTGAAGGCCGATCTCATCGAGGTGGATATCCACCTGCTGGCGCCCATCGAAAGCCACGGCCTGGAGCGCGGCGTCCTCGCCCAGCGCGCCCAGCAGGCGGTGCATGACGCCTTGTTCGGCATCCCGGAAGACAGGTTGCGCGACGTCGCCTGA	MKRLRLYLRIARLLAVIGLGLVLAGWVSLLERLRRHDLMPLRQRLTRWFLARLAAALPFRVSVHGQLPDRPMLWVGNHVSWTDIPLLGALAPLSFLSKAEVRAWPLAGWLAHKAGTLFIRRGSGDSNLVNRQLARHLHQQRHLAIFPEGTTTDGSRVRTFHGRLLASAIEAGVALQPVAIGYRHGAGRDTEVAPFIGDDDLPSHLLRLLKADLIEVDIHLLAPIESHGLERGVLAQRAQQAVHDALFGIPEDRLRDVA	PGPT0014465_614	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULE-ORNITHINE_LIPIDS_BIOSYNTHESIS,PGPT0014465-olsA-K22617	NA	NA
BMS010_01505	756			hypothetical protein	ATGACCCAGATCGCCCTCACCCGCCAGCCCACCCCGGAACGCCGCCTGCAAGCCGAACGCCTGCTCGGCACCGCCGCACTGCGAGAAGCCCAGGCCCTGCGCTACCAAGTGTTCAGCGCGGAATTCGACGCCAAGCTCAAGGGCGCCGAACAGGGGCTGGACCTCGACGATTTCGACGAACACTGCGCCCACATCGGCGTACGCGACCTGAACAACGGGCGCCTGGTCGCCACCACCCGCCTGCTCGACCATCGCGCCGCCGCCGGCCTGGGCCGCTTCTACAGCGAAGAGGAATTCAACCTGCATGGCCTGTTGCAACTTCAAGGGCCGGTGCTGGAAATCGGCCGCACCTGCGTCGACCCGGCCTACCGCAACGGCGCCACCATCGCCGTGCTCTGGGGCGAACTCGCGGAAGTGCTCAACGAAGGCGGCTACCGCTATCTGATGGGCTGCGCCAGCATCCCCATGCAGGACGGCGGTATCCAGGCCCAGGCGATCATGCAGCGCCTGCGCGAACGCTACCTGTGCACCGAACACCTGTGCGCCGAGCCGAAGAACCCGCTGCCGCCGCTGGAGCTGCCGGGCAACGTCATCGCCGAGATGCCGCCGCTGCTCAAGGCCTACATGCGCCTGGGTGCGAAGGTGTGCGGCGAACCCTGCTGGGACCCGGACTTCCAGGTCGCCGACGTGTTCATCCTGCTCAAGCGCGACGAGCTGTGCCCGCGCTACGCCCGTCACTTCAAGGCCGCGGTCTGA	MTQIALTRQPTPERRLQAERLLGTAALREAQALRYQVFSAEFDAKLKGAEQGLDLDDFDEHCAHIGVRDLNNGRLVATTRLLDHRAAAGLGRFYSEEEFNLHGLLQLQGPVLEIGRTCVDPAYRNGATIAVLWGELAEVLNEGGYRYLMGCASIPMQDGGIQAQAIMQRLRERYLCTEHLCAEPKNPLPPLELPGNVIAEMPPLLKAYMRLGAKVCGEPCWDPDFQVADVFILLKRDELCPRYARHFKAAV				NA	NA	NA	NA	NA
BMS010_01506	888			hypothetical protein	ATGCCCTGGCAATCCGTGCTCGGCCCCGCCGAACGCCTACCCGCGATGACCGCCCTGGACGACTGGTTCGCCGCCTTGCTGGAGCGCATCGGCAACGTCGGGCCGCTGGAGATGGCGCTGCTGGGCGGTCGTCTGGCGGCCACGCCGGGTCTGGCCTTTCTCGCCGGCTACCAGGGTGCGTTGCGCGCGCTCTGGCCTTCGGCCCCGGCGAGCCTGGGGGCGCTCTGCGTCACCGAGCAGCGCAGCACCCGGCCGGCGGACCTGGCGACTCGCCTGGAGGACCTGAAGCTGACGGGGCGCAAGGACTTCGTCACCGCCGCCGAGGCGGCCGACTGGCTGCTGGTCTCGGCGCGGGAAGAGGCGCCCGGGGAGCCGCCGCGACTGGCGCTGTGCGTGCTCTACAGCGGGGCGCCGGGCGTACGCATCGAGCCCTTGCCGGCACTGCCGCTGATGCCAGACATCGGCCATGCCCGCCTGCATCTCGACAACGCCCTCTGCGAGCGGCTGGCGGGCGACGGCTGGGACGCCTACGTCAAGCCGTTCCGTACGCTGGAAGATACCCACGTGCTGGCCGCGTTCTGTGCCTGGCTGTACGGGGTAGGTTTGGAGAGCGCCTGGCCGCGCGACCTGCTGCTGCGCCTCGGCGCCCTGCTTGCCGGTTGTGCCGAGGTGGCCCGGCAGAGCGCCGGGGCGCCGACCAGCCATGTCCTGCTGGCCGGCCTGTTCGCCCAATTCGAATCGCTCAGGCCGGTGCTCGATGCGGCCTTTGCCAGCGGGGCGCAGAGTTGGGCAGCGCTCTGGACACGGGATCGCGACCTGCTGTCGATTGCCAGCGGCCCCCGTGCCCGGCGGTTGGAGAAGGCCCTGGCAAGCCTGGGCATGGCATGA	MPWQSVLGPAERLPAMTALDDWFAALLERIGNVGPLEMALLGGRLAATPGLAFLAGYQGALRALWPSAPASLGALCVTEQRSTRPADLATRLEDLKLTGRKDFVTAAEAADWLLVSAREEAPGEPPRLALCVLYSGAPGVRIEPLPALPLMPDIGHARLHLDNALCERLAGDGWDAYVKPFRTLEDTHVLAAFCAWLYGVGLESAWPRDLLLRLGALLAGCAEVARQSAGAPTSHVLLAGLFAQFESLRPVLDAAFASGAQSWAALWTRDRDLLSIASGPRARRLEKALASLGMA				NA	NA	NA	NA	NA
BMS010_01507	783			hypothetical protein	ATGCGACGCGAACCCATCATGCTGTTCGATAACGGCAGCCATCAATGCCTGATGTTCGATGACCTGGTCAGTGGCGACGGCGTGCAGTCCAACCAGTTCCTGATCATCGACCATGACGAGTTCCTGCTGCTCGATCCGGGCGGCGATCTCACCTACACACCCCTGTCGCTGGAGCTGTCCAAGCACATCCCGGTGCAGGACCTGACCTACATCTTCGCCTCGCACCAGGACCCGGACATCATCGCCTCGCTGGACAAGTGGTTGCTGCACACGCGCGCCCGGGTGATCTGTTCCAAGCTGTGGGCGCGCTTCCTGCCGCACCTGACCGCCAACTACCTGGCCATCAGCCATGGCATCTCCACCTACGACCGGATCATCGCCCTGCCGGACCGTGGGCAGAAGTTCTCCCTGGGCAAGTGCCAGTTGAAGGCGATACCGGCGCACTTCCTCCATTCGGTGGGCAACTTCCAGCTCTACGATCCGGTGAGCAAGATTCTCTTTTCCGGCGACATGGGCGCCTCCATGGTGGATGACGCCGATCCGGTTCGCGATTTCGCCAGCCATGTGCCGAGCATGGAAGGCTTCCACCGTCGCTACATGGCCAGCAACAAGGTCGCCCGGCTGTGGGCGCAGATGGTGCGCAGCATGGATGTGGAGATGATCGTGCCGCAGCACGGCCGGCCCTTCGTCGGCAAGGAAATGATCAGCGCCTTCCTGTACTGGATCGAAGGTCTGGAGTGTGGCATCGACCTGATGAGTTCCGACGATTACCGGGCGCCCTGA	MRREPIMLFDNGSHQCLMFDDLVSGDGVQSNQFLIIDHDEFLLLDPGGDLTYTPLSLELSKHIPVQDLTYIFASHQDPDIIASLDKWLLHTRARVICSKLWARFLPHLTANYLAISHGISTYDRIIALPDRGQKFSLGKCQLKAIPAHFLHSVGNFQLYDPVSKILFSGDMGASMVDDADPVRDFASHVPSMEGFHRRYMASNKVARLWAQMVRSMDVEMIVPQHGRPFVGKEMISAFLYWIEGLECGIDLMSSDDYRAP				NA	NA	NA	NA	NA
BMS010_01508	1110	nylB'_1		6-aminohexanoate-dimer hydrolase	ATGCCCCGACCGTTCTCTCTTCTCCTTGGTATTGCCGGTTGCTTCGTCATCGGTGCCGCGCAGGCTTTCGCCGAAGCCTGGCCCGATGACGACTGGCCCCGCGGCGCCACGCCGACGGGCGAGGCCCTTGCCGCCTTCGAATCCTATGCCTTCCCCGAGCGTGACGAGGTGTCCCGGCTGGGCGTGCGCAGCGATGCGGTGGTGGTGATCCGTGACGGTGAGCTGATCTACGAGCGCTATGCCGGCGAGACCCGTGCCGACACGCCGCACCTGACCTGGTCGGTGAGCAAGAGCCTGCTCGCCAGCGTCCTCGGCGTGGCCTACGGCGAGGGACGTTTCCGCCTCGACGACCCGGCGGCCCGCTACTATCCTGCGTTCAGCGCTCACCCGCAGGTCAGCCTGCGGCACCTGCTCAACTGGTCCTCCGGGCTGGCCTGGCAGGAAGACTACGAGTACGCGCCGGTGAAATCGTCGGTGGTGGCGATGCTCTACACCCAAGGGCGCACGGACATGGCCGCGTTCACCGCCGCCCATGCCCAGGAAGTGCTGCCGGGCCAGCATTTCCGCTACTCCAGCGGCGACAGCAACGTCCTGGCCGCCGCCCTGAAAGGCGTGGTCGGCGCCGCAGCCTACCCGGACTACCCCTGGACCGCGCTGTTCGAGCCACTGGGCATCCGTTCCGCCGTATGGGAGACCGATGCCGCCGGCACCTTCGTCGGTTCGTCCTACACCTACCTTACGGCGCGTGATCTGGCGCGGGTCGGCCTGCTCATGCAGCGCGACGGACGCTGGCACGACCGGCAACTGTTGCCGCGCGACTGGGTTGCCTTCAACCGCACCCCCGCGCCGAGCTACCGACCGCTGGAGGATGAAGCGGTGCCCGGCGGCCACTGGTGGCTCAACGCGCGGCTGGACGGTGCCGGGAAACCCTGGCCGAACGCGCCGGAAGATACCTTCGCCGCCCTCGGCCACTGGGGCCAGGCGCTGTACGTGCTGCCCGCCGCGCGGCTGGTGATCGTGCGCTACGCCGACGACCGCGACGCCAGCTACCGCCATGACGAATTCCTCAAGCGGGCCGTCGCCGCCTTCGCCAGGGAGACCGGGCAATGA	MPRPFSLLLGIAGCFVIGAAQAFAEAWPDDDWPRGATPTGEALAAFESYAFPERDEVSRLGVRSDAVVVIRDGELIYERYAGETRADTPHLTWSVSKSLLASVLGVAYGEGRFRLDDPAARYYPAFSAHPQVSLRHLLNWSSGLAWQEDYEYAPVKSSVVAMLYTQGRTDMAAFTAAHAQEVLPGQHFRYSSGDSNVLAAALKGVVGAAAYPDYPWTALFEPLGIRSAVWETDAAGTFVGSSYTYLTARDLARVGLLMQRDGRWHDRQLLPRDWVAFNRTPAPSYRPLEDEAVPGGHWWLNARLDGAGKPWPNAPEDTFAALGHWGQALYVLPAARLVIVRYADDRDASYRHDEFLKRAVAAFARETGQ				NA	NA	NA	NA	NA
BMS010_01509	339			hypothetical protein	ATGATCCGTCGCCATCCGTTCCTCAGCCTGCTGGTTCTGCTGGTAGCGGTGCTCAGCCTGCTCGGCTGGCAGAACCGCACCCACCTGGCGGCCTTCCCGGACATCATCGGTGCCTACACGGCGAAGGAATATTGTTCCTGTCGCTACGTCAGCGGGAACTCGGCGGACTATTGCCGGGCCTATACCCAACAGTACGTGCCGATCAGCGCGTTTCACGACGACCAGGCCGGCAAGCGGGTGACCGCTCGTGGCCTCGGCCGTACGCATACCGCCGCCTGGCTCGGCCCGCGTCAGGGTTGCCGCCTGCTGCCGGAGGCGGATGATTTGCCCGAATCCTGA	MIRRHPFLSLLVLLVAVLSLLGWQNRTHLAAFPDIIGAYTAKEYCSCRYVSGNSADYCRAYTQQYVPISAFHDDQAGKRVTARGLGRTHTAAWLGPRQGCRLLPEADDLPES				NA	NA	NA	NA	NA
BMS010_01510	576			hypothetical protein	ATGCGCGCATTGGTTTTTCTCCTGGCATTCCTGCCGGCTTCCTGGGTGCTGGCCGACTGGCAACTGGACCCCAAGCTGTCGCGGATCAGCTTCGTCTCGGTCAAGCGCGGCGATATGGCTGACGTGCAGCGCTTCACCGAACTCTCCGGGACGGTCGACGGCCAGGGGTTGGCGCGTGTCGTCATTCCCTTCAGCGGTCTCGACACCGGACTCGCCCTGCGCGACGAACGCACTCGCGAGGCGCTGTTCGAAACCGAGCGCTTTCCCCAGGCGGAGGTGTCCAGCCAGGTCGATCTGGCGGTCTGGGAGCAACTGGCAGTGGGCGCGTCGCAGATCGAGAACCTCGAGTTCCAGCTCGACCTGCACGGCCAGCAGCGGCGCCTGAAGGCCGAGGTGCTGGTCAGTCGCCTGGGCGAGGAGCGCCTCCAGGTGACCCTGCTCGAACCCCTGGTGATCAAGGCCGACGATTTCGCCCTGATCGATGGGTTGGAAAAGCTCAAGGCCATCGCCAGCGTGCCGTCGATCACGCCGGAGGTGCCGGTCTTCGCGGTGCTGAACTTCCAGCGGCAGCCCTGA	MRALVFLLAFLPASWVLADWQLDPKLSRISFVSVKRGDMADVQRFTELSGTVDGQGLARVVIPFSGLDTGLALRDERTREALFETERFPQAEVSSQVDLAVWEQLAVGASQIENLEFQLDLHGQQRRLKAEVLVSRLGEERLQVTLLEPLVIKADDFALIDGLEKLKAIASVPSITPEVPVFAVLNFQRQP				NA	NA	NA	NA	NA
BMS010_01511	576			hypothetical protein	ATGCGAAAGCTGTTAGCTCTTGCGCTGGCTGCCTCGGTCAGCGCAACCGCCCATGCCAGCTGGTATCTGGATAACGAATCGTCGCGGCTGTCGTTCATCTCCACCAAGGCCGTGAATTTCTCCGAGGTGCACCGGTTTCTCACGCTGCACGGCAAGGTCGACGACCAGGGCCGTGCACGTTTGCGTGTCGAGCTGGAGTCGGTGAGCACCGGCATTCCGCTGCGCGACGAGCGGATGCGCAGCCTGCTGTTCGATACCCGGCGCTTCGCCGAGGCGGAGGTGGAGGCCCAGCTCGCCTTGGGGCCGATTACCGACCTGGCGCCCGGCGCGCAACTGGAGCTGCGCCTGCCGCTGACCCTGCGTCTGCACGGGAAGGAAAAACGCCTGGACGCGGAGCTGTTGGCGACCCGCCTGGACGACCGCCGCTTCCAGGTCGTGACCCTGGCGCCACTGGTGCTTCATGCCGACGACTTCGGTCTGGCTCCGGGCGTCGAGGCATTGCGCGAGGCGGCCGCGCTTCCCGCCATCAGCCTGTCCGTGCCGGTGGGCGCGGTGCTGATCTTCACCGCCCGCTGA	MRKLLALALAASVSATAHASWYLDNESSRLSFISTKAVNFSEVHRFLTLHGKVDDQGRARLRVELESVSTGIPLRDERMRSLLFDTRRFAEAEVEAQLALGPITDLAPGAQLELRLPLTLRLHGKEKRLDAELLATRLDDRRFQVVTLAPLVLHADDFGLAPGVEALREAAALPAISLSVPVGAVLIFTAR				NA	NA	NA	NA	NA
BMS010_01512	1161	ywiE	COG1502	putative cardiolipin synthase YwiE	ATGCGTCGAGGCGCGATCTTTCCCTGGCGGGGCGGCAATCGTTTCGAATTGCTGGTGGACGGGCCCGTGTTCTTCCCGCGCATGCTGGAGGCCATCGAGGCTGCCGAGCGCCAGGTCGAGCTGGAGCTGTACCTGGTCGAGGCGGGGGCCTGTCTCGACGCCTTGCTGGACGTGCTCTGCCGGGTTGGCCGGCGTGGCGTGCAGGTGCGCTGCCTGTTCGACGATTTCGGCAGCCTCGCCTTTACCCCGGCGGAGCGCCAGCGCCTGCTGGACGTCGGGGTGCAACTGCGCTTCTACAACCCGCTGCGCTGGCGGCGAGGCTTGCGCAACCTGTTCCGCGACCATCGCAAGCTGCTGGTGGTGGACGGCACCCGTGCCTTCATCGGCGGCACCGGCGTGACCGACGACTTCTGGACGCCGGGCGCGGAGCAAAGCGCCTGGCACGAGGTGATGGTGGAAATCGCCGGCCCGCTGGTGGCCGACTGGCAGCAACTGTTCGAACGCCAGTGGCTGGCCTGCCTGGCGCGTCTGGCGTGGAAACCGCAGTACCCGCTGGGTTTGCCGCGTTTGCCGCCGTACCCGCCGGCGGGTGTGGGACTGGGCCGGGTGGCCTATGCCGATGCCCGCCAGCATCGCGACATCCTGCAATCGCTGATCCGTTCCCTACGCGGCAGCAAGGAGCGCATCTGGCTGGCCACGCCTTACTTCCTGCCGACCTGGAAGGTCCGCCGAGCCCTGCGCAAGGCCGCGTCGCAGGGCATCGACGTGCGCCTGCTGCTCACCGGCCAGCACACCGATCATCCGCCGATACGCTACGCCGGCCAGCGCTATTACCCACGGCTGCTCAAGGCCGGGGTGCGGATCTTCGAGTACCAGCCGCGCTTCATGCACCAGAAGATCGTGCTGGTGGACGACTGGGTCAGCATCGGCTCGTGCAACTTCGATCACTGGAACCTGCGCTTCAACCTCGAGGCCAACCTGGAGGCCATGGACCCGAACCTGACCCAGGCGGTGGTGGCGAGCTTCATCGAGGATTTCGGCCAGAGCCGCGAAGTCAGCCTGGAGCTGTGGCGGGCGCGGCCGTGGTGGCGGCGTCTGCAACAGCGCCTGTGGGGCTGGCTGGACCGGCTGGTGGTAAACCTGCTCGACCGCCGCGGCTGA	MRRGAIFPWRGGNRFELLVDGPVFFPRMLEAIEAAERQVELELYLVEAGACLDALLDVLCRVGRRGVQVRCLFDDFGSLAFTPAERQRLLDVGVQLRFYNPLRWRRGLRNLFRDHRKLLVVDGTRAFIGGTGVTDDFWTPGAEQSAWHEVMVEIAGPLVADWQQLFERQWLACLARLAWKPQYPLGLPRLPPYPPAGVGLGRVAYADARQHRDILQSLIRSLRGSKERIWLATPYFLPTWKVRRALRKAASQGIDVRLLLTGQHTDHPPIRYAGQRYYPRLLKAGVRIFEYQPRFMHQKIVLVDDWVSIGSCNFDHWNLRFNLEANLEAMDPNLTQAVVASFIEDFGQSREVSLELWRARPWWRRLQQRLWGWLDRLVVNLLDRRG	PGPT0007725_5111	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_SENSING_RELATED_GENES	CE-QSR-CARDIOLIPIN_SYNTHESIS,PGPT0007725-clsA_B|ybhO|ywiE-K06131	NA	NA
BMS010_01513	612			hypothetical protein	ATGCGCAGTCGCCTGCTGTTTGTCCTGCCGTTGCTGGTTGTCCTGGCTGGTTGTTCGACCCCCGGTGCCTTTTTCGGCGAAACCGACGGGCCGGCCTTCCAGGCCCACACGCCGAGCGACGGGCAGCATGCACTGGTCTACCTGTACCGGCCACGCAGCGACTGGGCCGACCAGGAACTGGAAGCCCCCGGCCTGTTCATCAACAACAACCTGATCGGCAGCCTGCCGAGCAATGGCTACCTGGTGCTGGAGTTCGAGGCCGCCGGCTATCAGCTGGAAATGCGCCGTCCCTTGTTCGGCAGCTTCTGGACCCTGTTTGCCGACGGCCCGCTGGATTTCACCCGTATCGCCAGTTTCAGCCTGGAGACCGAGGCGGGCAGCGCCTATTACCTGCGCTACGACGAACTCAACCCACCCCCGGCCAACGGCAAGCCGAACCAGGGCGATGGCCCGCTGCAACTGGTATCGGAAAGCCTCGCTCTGAGCGAACTCGCCCCGACCCGACAGGTGCAACCTTTCGAGCAGATCGCCGCCAACGGCGACAAGAAACCGCGACCGCAGCGTGGCTTCTGGCGCGGCGTGGGGCGGGCGTTGGACAAGATCGGTATCTGA	MRSRLLFVLPLLVVLAGCSTPGAFFGETDGPAFQAHTPSDGQHALVYLYRPRSDWADQELEAPGLFINNNLIGSLPSNGYLVLEFEAAGYQLEMRRPLFGSFWTLFADGPLDFTRIASFSLETEAGSAYYLRYDELNPPPANGKPNQGDGPLQLVSESLALSELAPTRQVQPFEQIAANGDKKPRPQRGFWRGVGRALDKIGI				NA	NA	NA	NA	NA
BMS010_01514	582	yfkM_1	COG0693	General stress protein 18	ATGGCTGCGAAGAAGATTCTGATGCTGGTCGGCGACTACGCCGAAGACTACGAGACCATGGTGCCGTTCCAGGCACTGCAGATGGTGGGGCATACCGTGCATGCCGTGTGTCCGGACAAAAAGTCCGGGCAGAGCGTACGCACGGCGGTGCATGACTTCGAAGGCGACCAGACCTACAGCGAGAAGCCGGGACACAACTTCGCCCTGAACGCAGACTTCGCCGGTGTGCGCGCCGAGGATTACGATGCGTTGCTGATCCCGGGGGGACGGGCGCCGGAATACCTGCGGCTGAACGCCACGGTGATCGAGCTGGTGAAGGCGTTCGATGCGGCGAAGAAACCCATCGCGGCGGTCTGCCACGGCGCCCAATTGCTCGCTGCCGCCGGTGTGCTCAAGGGCCGTGCCTGCAGCGCCTACCCGGCCTGTGCCCCGGAGGTGCGGCTGGCTGGTGGCGACTACGTGGATATCCCGGTGGACCAGGCTCACGTCGAGGGTAATCTGGTCACCGCGCCGGCCTGGCCGGCGCATCCGGCGTGGTTGGCGAAGTTCCTCGAACTGCTCGGCACCCGCATCGACCTGTAG	MAAKKILMLVGDYAEDYETMVPFQALQMVGHTVHAVCPDKKSGQSVRTAVHDFEGDQTYSEKPGHNFALNADFAGVRAEDYDALLIPGGRAPEYLRLNATVIELVKAFDAAKKPIAAVCHGAQLLAAAGVLKGRACSAYPACAPEVRLAGGDYVDIPVDQAHVEGNLVTAPAWPAHPAWLAKFLELLGTRIDL	PGPT0015010_651	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-METHYLGLYOXAL_DETOXIFICATION,PGPT0015010-yfkM|pfpI|yraA-K05520	NA	NA
BMS010_01515	303			hypothetical protein	ATGTGTGAACTCTATGTAAAGGCCGACCCGATTCTCTACGAGTCCCGCTCGCGCTCGCTGCGCATCCGTGGGGTGGTCACCACCCTGCGCCTGGAGAACCAGTTCTGGGACATCCTGCGGGAAATCGCCGAAGTGGACGGCATGACCACCAACCAGTTGATCACCAAGCTGTACGACGAGGTGATGGACTACCGTGGCGAAGTGGTCAATTTCGCATCCTTCCTGCGGGTGAGCTGCACTCGCTATCTCGCCCAGCGCCGCGCCAGCGTGCATGAGCTACCGAAACCGCGGGCGTTGGCGTAG	MCELYVKADPILYESRSRSLRIRGVVTTLRLENQFWDILREIAEVDGMTTNQLITKLYDEVMDYRGEVVNFASFLRVSCTRYLAQRRASVHELPKPRALA				NA	NA	NA	NA	NA
BMS010_01516	399			hypothetical protein	ATGACCACCACCGAGCTGATCCACGCTTACTACGCCGCCTTCAATGCCCATGACATGCCGGCCTTCCTTGCCCTGCTCTGCGACGACGTCGTCCATGACATCAACCAGGGCATGCGGGAGACGGGGAAGCCGGCGTTCAGCGCCTTCATGGACAAGATGAGCCGTTGCTACAAGGAGCGCCTCAGCGACATCGTGGTGATGACCAACGGCGACGGCAGCCGCGCCGCGGCGGAGTTCGTGGTGCATGGCCAATACCTGGTGGACGACGAAGGCCTGCCGCCCGCCACCGGCCAGACCTACGAACTGCCGGCCGGCGCCTTCTTCGAGATCCGCAACGGCAAGATCGCCCGCGTGACCAACTACTACAACCTGATGGACTGGATCGCCCAGGTCGATTGA	MTTTELIHAYYAAFNAHDMPAFLALLCDDVVHDINQGMRETGKPAFSAFMDKMSRCYKERLSDIVVMTNGDGSRAAAEFVVHGQYLVDDEGLPPATGQTYELPAGAFFEIRNGKIARVTNYYNLMDWIAQVD				NA	NA	NA	NA	NA
BMS010_01517	591			hypothetical protein	ATGGATATCCACCTGCTTCACGGTTCGGCCATCGAACCGTTCATAACCGACCTGGCGCGGCTGCGCATCGAGGTGTTCCGCGAGTTTCCGTACCTCTATGACGGCACTGCGGAATACGAGGCGAACTACCTGAGCACCTACGCCCGCTCGGCGCGGAGCCTGTTCGTCCTGGCGTTGGACGGCGGGCGGGTGGTCGGTGCGTCCACCGGCTTGCCGATGGCCGATGAGACGGACGAATTCAAGCGGCCGTTCCTGGAGCGCGGCTGGGACCCGCAGCGCATCTTCTATTTCGGCGAGTCGGTGCTGTTGCCGGCATACCGTGGCTCGGGCCTGGGCGTGCGCTTCTTCGTCGAGCGCGAGGGCTATGCCCGTCGCCTCGGAGGTTTCGACTGGTGCGCGTTCTGCGCCGTCGAGCGGCCTGCCGATCATCCGCATCGGCCCGCCGGCTACCAGCCGCTGAATACCTTTTGGGAAAAGCGCGGCTATCGCCATCACCCCGAGCTGCGCACCGAATACCATTGGCGGGACCTGGGCGATGCCGAGGAAAGCGCCAAGCCCATGTCCTTTTGGTTGAAAGAGTTGAACGCATGA	MDIHLLHGSAIEPFITDLARLRIEVFREFPYLYDGTAEYEANYLSTYARSARSLFVLALDGGRVVGASTGLPMADETDEFKRPFLERGWDPQRIFYFGESVLLPAYRGSGLGVRFFVEREGYARRLGGFDWCAFCAVERPADHPHRPAGYQPLNTFWEKRGYRHHPELRTEYHWRDLGDAEESAKPMSFWLKELNA				NA	NA	NA	NA	NA
BMS010_01518	885			hypothetical protein	ATGATCCGGGTCGCCGCCTGCCAGTACGCCATCGAATTGTTCGAGACGGCCGAGTCCTACGCCGAGCATTTGCGGGCTCTCTGTCGACAGGCGGCCGGGCAGGGGGCCCGGCTGCTGCTCCTGCCGGAATACGCCGGGTTGGTGCTCAGCGGCCAATTGCCGACGGCGCAGCGTGGCGATCTGCTGGCGTCCATCGCCGGTATCCAGCCGCTGCTGGAGGGCTGGAAGGCGCTCTGTGCGGATACTGCCTGCGAACTGGGCATTTACCTGCAACCGGGATCGGCGCCGGTCCGCGACCCGGATGGTCGCTACCGCAACCGCGCCTGGCTGTTCGGGCCGGACGGCTGCCTGGGGCATCAGGACAAGCTGATGATGACCCGCTTCGAGCGCGAGCAATGGAGCATCGAGGCGGGGGAGGGGCTCAGGGTGTTCGACACCGACCTCGGTCGGCTGGGCATCCTGATCTGTTACGACAACGAATTCCCGCTGCTCGCCCGCCGTCTGGCCGAGGGCGGCGCCGACCTGATCCTGGCGCCCAGTTGCACCGATACCGAGGCCGGCTTCCACCGGGTGCGCATCGGCTGCCAGGCGCGGGCGCTGGAAAACCAGATCGCCGTGCTGCAGTCGCCCACCGTGGGGCTGGCGCCCTGGTCGCCAGCGCTGGACGAGAACATCGGCCGCGCTGGGCTGTATGTCCCACCGGACTACGGCATGCCTGCGGATGGCGTGGCGGCATCGAGTGCCCAGCTTTGCCCGGCCGGCAGCCAGTGGCTGATCGCCGATCTCGATCTCGACGAAGTGCGCCGGGTGCGCGAGCACGGACAAGTGTTCACCCGCCGCGACTGGCCGGAGCAGTTCGCGGACGGGGTGTTGCGATTACGCTGA	MIRVAACQYAIELFETAESYAEHLRALCRQAAGQGARLLLLPEYAGLVLSGQLPTAQRGDLLASIAGIQPLLEGWKALCADTACELGIYLQPGSAPVRDPDGRYRNRAWLFGPDGCLGHQDKLMMTRFEREQWSIEAGEGLRVFDTDLGRLGILICYDNEFPLLARRLAEGGADLILAPSCTDTEAGFHRVRIGCQARALENQIAVLQSPTVGLAPWSPALDENIGRAGLYVPPDYGMPADGVAASSAQLCPAGSQWLIADLDLDEVRRVREHGQVFTRRDWPEQFADGVLRLR	PGPT0007175_38	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_METABOLISM,PGPT0007175-yhcX-NA	NA	NA
BMS010_01519	1035			hypothetical protein	ATGAACCTGCGCGTGGGCGAACTGGCCCGACGCAGCGGCCTGACCGTCAGGACGCTGCACCATTACGACAGCATCGGCCTGCTCCGCCCTTCGGCACGCTCCGAGGCCGGCTACCGGCTCTACGGCCGCGCGGACATCGCGCGCCTGCACCAGATCCAGGCGCTGCGCGGTCTGGGCGTCTCGCTGGCGGACATCGGAGCGATCCTGGACCGGCCGGACCTGTCCCTTCCCCATCTCGTCGAGCAGCAGATCCGTCTGCTGGATCGGCAGATAGCCCAACAACGCCTGCTGCGCGAACGACTGGCGCAGTTGCACGGGCAGTTTCGCGACGGGGAAGAGCCGGCGCTGGCCGACTGGCTGACCACCTTGGAAATGATGACCATGTATGACCGCTACTTTTCCCCGGAAGAACTCGCCGTGTTGCCCTTCTATCAGGACGGCGCCACCAAGCGCGAGGAATGGACCGCCCTGGCCCGCGAGGCGGAAGCCCTCATGCGCCAGTCCGCATCGCCACGCAGCGAAGCCGCCCAGGCCCTGGCCCGGCGCTGGATGTGCGCCCTGGAACGCGACACGGCGGCGAACCCGGCCTGGCTGGTGAAGCTCAACGACATGCATGCCCACGAAGACTCGTTGCAGGCGCAACTGGGCATCACGCCGGCGATCGGCGCGTTCATCATGACGGCCTTCGCCGAGAGCCGGCTGGCGCTGTACGAGCGCTACCTGTCGGCCGACGAGATGACCTTCATGCGGGGGCACTATGCGCAACGGATGCAGGCATGGCCGGCGCTGCTGGCGGATTTGCGCCAGGCGATGGATGACGGCATGGCAGCGGACAGCCCACAGGCGCGCCAACTGGCCGGACGCTGGCTGGAACTGTTGCGCGGCTACGCCGGCGACGACCCCGAGACGCACCGGAAAATCCGCCTCGCCCATGAGCGCGAACCGAGCCTGAACGAAGGCACCTGGACGACGCCGGCGCTCCTCGCCTATCTGGGACAGGCCGTCGCCGCGCTGCAGGCCGATGCCGGGCGCTGA	MNLRVGELARRSGLTVRTLHHYDSIGLLRPSARSEAGYRLYGRADIARLHQIQALRGLGVSLADIGAILDRPDLSLPHLVEQQIRLLDRQIAQQRLLRERLAQLHGQFRDGEEPALADWLTTLEMMTMYDRYFSPEELAVLPFYQDGATKREEWTALAREAEALMRQSASPRSEAAQALARRWMCALERDTAANPAWLVKLNDMHAHEDSLQAQLGITPAIGAFIMTAFAESRLALYERYLSADEMTFMRGHYAQRMQAWPALLADLRQAMDDGMAADSPQARQLAGRWLELLRGYAGDDPETHRKIRLAHEREPSLNEGTWTTPALLAYLGQAVAALQADAGR				NA	NA	NA	NA	NA
BMS010_01520	1524	fumA	COG1838	Fumarate hydratase class I, aerobic	GTGACCGTGATCAAGCAAGACGACCTGATTCAGAGCCTCGCCGACGCCCTGCAGTTCATCTCCTATTACCACCCGGTTGATTTCATCCAGGCCATGCACGAGGCCTACCTGAAGGAAGAATCGCCGGCCGCGCGCGACTCCATGGCGCAGATCCTGATCAACTCGCGCATGTGCGCCACCGGCCATCGCCCGATCTGCCAGGACACCGGCATCGTCACCGTGTTCATCCGCGTCGGCATGGACGTGCGCTGGGACGGCGCCACCATGAGCGTCGACGACATGATCAACGAAGGCGTGCGCCGCGCCTACAACCTGCCGGAGAACGTCCTGCGCGCCTCGATCCTGGCCGACCCGGCCGGGGCCCGCAAGAACACCAAGGACAACACCCCGGCGGTGATCCACTACTCCATCGTCCCCGGCGACAAGGTCGAGGTGGACGTCGCGGCCAAGGGCGGCGGCTCGGAGAACAAGTCGAAAATGGCCATGCTCAACCCCTCCGACTCCATCGTCGACTGGGTGCTGAAGACCGTTCCGACCATGGGTGCCGGCTGGTGCCCGCCGGGCATGCTCGGCATTGGCATCGGCGGTACCGCCGAGAAGGCCGCGGTGATGGCGAAGGAAGTCCTGATGGAGCCCATCGACATCCACGAACTGAAAGCCCGTGGCCCGCAGAACCGCATCGAGGAGCTGCGCCTGGAGCTGTTCGAGAAGGTCAACCAGTTGGGCATCGGCGCCCAGGGCCTGGGCGGCCTGACCACCGTGCTCGACGTCAAGATCATGGATTACCCGACCCACGCCGCCTCGCTGCCGGTGTGCATGATCCCCAACTGCGCCGCCACCCGTCACGCCCACTTCGTGCTCGACGGCTCCGGCCCGGCCAGCCTGGAAGCGCCGCCGCTGGACGCCTACCCGGAAATTGTCTGGGAAGCCGGCCCGAGCGCGCGCCGCGTGAACCTCGACACCGTCACCCCGGAAGACGTGCAGAGCTGGAAGCCGGGCGAGACCCTGCTGCTCAACGGCAAGATGCTCACCGGCCGCGACGCCGCGCACAAGCGCATGGTCGACATGCTGAACAAGGGCGAGCCGCTGCCGGTGGACCTGAAAGGCCGCTTCATCTATTACGTCGGCCCGGTCGATCCGGTCGGCGACGAAGTGGTCGGCCCGGCCGGTCCCACCACCGCCACCCGCATGGACAAGTTCACCCGCCAGATTCTCGAGCAGACCGGTCTGCTCGGCATGATCGGCAAGTCCGAGCGCGGCCCCATCGCTATCGAGGCGATCAAGGACAACAAGGCCGTTTACCTGATGGCCGTCGGCGGCGCCGCGTACCTCGTGGCCCAGGCGATCAAGAAGTCCAAGGTGCTGGCCTTCGAAGAACTCGGGATGGAAGCCATCTACGAGTTCGAAGTGAAGGACATGCCGGTGACCGTGGCCGTGGATACTAACGGCGAATCGGTACACATCACCGGCCCGGCGATCTGGCAGAAGAAGATCGCCGAGAACCTGGCGGTGGAAGTGAAGTAA	MTVIKQDDLIQSLADALQFISYYHPVDFIQAMHEAYLKEESPAARDSMAQILINSRMCATGHRPICQDTGIVTVFIRVGMDVRWDGATMSVDDMINEGVRRAYNLPENVLRASILADPAGARKNTKDNTPAVIHYSIVPGDKVEVDVAAKGGGSENKSKMAMLNPSDSIVDWVLKTVPTMGAGWCPPGMLGIGIGGTAEKAAVMAKEVLMEPIDIHELKARGPQNRIEELRLELFEKVNQLGIGAQGLGGLTTVLDVKIMDYPTHAASLPVCMIPNCAATRHAHFVLDGSGPASLEAPPLDAYPEIVWEAGPSARRVNLDTVTPEDVQSWKPGETLLLNGKMLTGRDAAHKRMVDMLNKGEPLPVDLKGRFIYYVGPVDPVGDEVVGPAGPTTATRMDKFTRQILEQTGLLGMIGKSERGPIAIEAIKDNKAVYLMAVGGAAYLVAQAIKKSKVLAFEELGMEAIYEFEVKDMPVTVAVDTNGESVHITGPAIWQKKIAENLAVEVK	PGPT0001635_1859	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001635-fumA|fumB-K01676	NA	NA
BMS010_01521	1128			hypothetical protein	ATGAGCACATCGAGTCACCGGGGCAAGCGCCGAGCTTTGCAGAGCCTGCTGATGAAGCGCTTCTACATGGCGGCGGCGACGTACGGCCTGGGATTGCTGCTGAATTGGGTCGCGGTGTTCAGCGACCTCTACCAGGCGTCGGTGGCCGGTGCGCTGCTGACCACCGGGCTGGTCGTGCTCAGCCAGTTGACCTTCTTCCTGATCTTCCGCAGCGGGCGCAACCTGCGCCTGCGCGATCCCAGCCTGACCGAGCCCCAGGTACTGGTGGCGCTGGCCTGGCACACCTGGTTTCTCTCGCAGATGAGCATCGGCCGAGGCACCCTGCTGGTGCTCTACGTGTTGATCCTGCTGTTCGGCGTCTTCCAGTTGCAGCCGAAAGTCTTCGTGCGCTGCGCCGCTGCGGCCTTCTTCGGATTCGCCGGGCTGAATCTGTGGGAAGCCTGGCGGATGGCCCTGGACGACCCCGGCCTGGCGGTGCTGCAGCTCAGCGTGCTGTTCGTGGTGCTGGTCTGGCTCAGCCTGTTCGCCAGTTACGTGCACGCGCTGCGCCAGCGCATGCGGCAAAGGCGCTTTGCCTTGCAGGCGCATCAGGATACGCTGCGCGGCATGATGCGCCAGCTCGAAGACCTGGTGGCCACCGACGAGTTGACCGGGTTGTTCAATCGCCGCCATTTCCTCCGCCTCGCCGCCCGTGAACTGGGGCAGCTCACCCCCGGCCGCCAGCTCGGCCTGGCGCTGATCGACCTGGATTACTTCAAGCGGATCAACGACGTCCACGGCCATGCCGCCGGCGACCGCGTGCTGCAGACCTTCGCCGCGGTGGCGCGGGCCTGCCTGCGCGACGGCGATGTGCTGGCGCGTTATGGCGGCGAAGAGTTCGTCCTGCTGCTGCCGAACACCGATGCCGATCAGTGCACCGCCTGCTGCGAGCGCCTGCGCGAAGCCTTCAGCCAGGCCGAGCCGGTGGGGGTGCAGGTGGACAACCTCAGCCTGTCGGTGGGCATGACCCTGCTGAACTGCGGCGACGACCTGGACGAGGCCTTGCAACGCGCCGACCAGGCGCTCTACCGGGCCAAGCGTGGCGGGCGCAACCGTTGCGACGCCACCTGGGAGGGCGTCGATGCCTGA	MSTSSHRGKRRALQSLLMKRFYMAAATYGLGLLLNWVAVFSDLYQASVAGALLTTGLVVLSQLTFFLIFRSGRNLRLRDPSLTEPQVLVALAWHTWFLSQMSIGRGTLLVLYVLILLFGVFQLQPKVFVRCAAAAFFGFAGLNLWEAWRMALDDPGLAVLQLSVLFVVLVWLSLFASYVHALRQRMRQRRFALQAHQDTLRGMMRQLEDLVATDELTGLFNRRHFLRLAARELGQLTPGRQLGLALIDLDYFKRINDVHGHAAGDRVLQTFAAVARACLRDGDVLARYGGEEFVLLLPNTDADQCTACCERLREAFSQAEPVGVQVDNLSLSVGMTLLNCGDDLDEALQRADQALYRAKRGGRNRCDATWEGVDA	PGPT0025990_303	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-c-di-GMP_SIGNALLING_PATHWAY,PGPT0025990-sadC-K21019	NA	NA
BMS010_01522	942	gcoB		Aromatic O-demethylase, reductase subunit	ATGCCTGAGCTGTCCGCCGGCGGCCGCCACTGGACCGTCGCCCCCGGTACCAACCTGCTGGACGCCCTGCGCGATGGCGGGGTGGCCGTTCCCTATAGCTGCCGGGCCGGCAGTTGCCATGCCTGCCTGGTGCGTTGCCTGCACGGCGAACCGGACGACGCCCAGCCCGAAGCCCTCGACGCCGCGCGCCGCGAGAACGGCTGGCGGCTGGCCTGTCAGTGCCGGGTGGTGGATGACCTCGAGGTGGAAGTCTTCGACCCGCTGCGCGACGGGCTTCCCGCCAACGTGGCGGAAGTCGGCTGGCTGAGCCCGACCGTCTTGCGTCTGCGCGTGCATCCGCAGAAGCCGCTGGCCTACCGCGCCGGGCAGCATCTGGTGCTGTGGACGGCGACGGGTGTGGCGCGTCCGTATTCCCTGGCCAGCCTGCCGGGCGAGGACCCCTGGCTCGAATTTCATCTGGACTGCCGCCAACCCGGAGCCTTCAGCGATGCGGCCCGGGCTTTGCGTCCGGGCGATGCGTTGCGTCTCGGCGAACTGCGTGGCGGGGCCCTGCACTACGACCCCGACTGGCAGGAGCGGCCGCTCTGCCTGATGGCCGCCGGCACCGGCCTGGCGCCACTCTGGGGCGTGCTTCGCGAGGCATTGCGGCAGGATCACCGAGGCCCCATCCGCCTCATTCACCTCGCCCATGATGCCGCCGAGCATTACCTCGCCGAGCCCCTGGCCACGCTGGCCCGGCAGCATCCGACGGTAAAGGCGGAGCTGATCGTGCCGGCCGAGTTGCCGGCTGTTTTGGCCGGATTCCGCCTTGTTTCGCGGCAAACCGTCGCCTTACTCTGCGGCCATCCCGACAGCGTCGAGACCTTCGCCCGCCGCCTCTATCTCGCCGGCTTGCCGCGCAACCAGATGCTGGCCGACGTCTTTCTCCCGCGCGTCGGTTGA	MPELSAGGRHWTVAPGTNLLDALRDGGVAVPYSCRAGSCHACLVRCLHGEPDDAQPEALDAARRENGWRLACQCRVVDDLEVEVFDPLRDGLPANVAEVGWLSPTVLRLRVHPQKPLAYRAGQHLVLWTATGVARPYSLASLPGEDPWLEFHLDCRQPGAFSDAARALRPGDALRLGELRGGALHYDPDWQERPLCLMAAGTGLAPLWGVLREALRQDHRGPIRLIHLAHDAAEHYLAEPLATLARQHPTVKAELIVPAELPAVLAGFRLVSRQTVALLCGHPDSVETFARRLYLAGLPRNQMLADVFLPRVG	PGPT0022595_853	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PARATOSE|TRYLOSE|ABEQUOSE|ASCARYLOSE_MODIFICATION,PGPT0022595-ascD|ddhD|rfbI-K00523	NA	NA
BMS010_01523	774	paaG	COG1024	1,2-epoxyphenylacetyl-CoA isomerase	ATGACCGATCACATCCTCGTCGAACACGAGCAGGGGCTGCTGACCCTGCGTCTCAATCGCCCGGACAAGCTCAACGCACTGACCCGCGCCATGTACAGCCGCCTGGCCGATGCGCTGACCGAGGCCGACCGGGACCCGACGGTGCGCGCGGTGCTGATCGCCGGCAGCGACACTTGCTTCACCAGCGGCAACGACGTGGAAGATTTTCTCAAGGTACCGCCGAGCAGCCTGGACAGCCCGGTGTTCCACTTCATGCGCGCGCTGTTCGAGCTGAGCAAGCCGGTGGTGGCGGCGGTGGCCGGCCCGGCGGTGGGCATCGGCACCACGCTGTTGCTGCACTGCGACCTGGTCTATGTGAGCCGGGATGCCCGGTTGAAGATGCCGTTCGTCAACCTCGGCCTGTGCCCCGAGTTCGGTTCCAGCCTGATCCTGCCGCGTCTGCTCGGTCAGGCTCGGGCCGCCGAATTGCTGCTGCTGGGCGAAGGGTTCAGCGGCGAGCAGGCGGCGGCCTGGGGCATTGCCCTGGAAGCGCTGGACGATGGCCCGGCCACCCTGGCCAGGGCGCGGGAGCGGGCCTTGCGCTTCCTCGAGCTGCCGCCGGCCGCGGTGGCCGACAGCAAGCGCCTGATGCGCGCGCCGGGGCGCGAGGAGCTGCGTCGGGTGATCACCGAAGAAGGCGAGCTGTTCGGCCAGCGCCTGCGTTCGCCGGAGGCGGTCGAGGCGCTGAGCGCGTTTTTGCAAAGGCGGAAGCCGGATTTCTCTCGCTTCGCTTGA	MTDHILVEHEQGLLTLRLNRPDKLNALTRAMYSRLADALTEADRDPTVRAVLIAGSDTCFTSGNDVEDFLKVPPSSLDSPVFHFMRALFELSKPVVAAVAGPAVGIGTTLLLHCDLVYVSRDARLKMPFVNLGLCPEFGSSLILPRLLGQARAAELLLLGEGFSGEQAAAWGIALEALDDGPATLARARERALRFLELPPAAVADSKRLMRAPGREELRRVITEEGELFGQRLRSPEAVEALSAFLQRRKPDFSRFA	PGPT0006070_1849	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006070-paaG-K15866	NA	NA
BMS010_01524	324			hypothetical protein	ATGTATCCCAAGCGACTCATCATCGGCTGCGCCCTGGCCTTCGTCACCCTGGCCGGCTGCAGCAGCACGACGGATAAACCCGCCCAGGCGCCGACAGAGCCGGCCGGCGATCACTTCAGCGGCCGATGCGACGCCGCGCCGGTACAGGGCCTGATCGGCAAGACCGCCAGTTTCGAAATCCTCGAAGAAGCCCGCCGCAAAGCCGGCGCCCAGACCGCGCGCGTACTGGGGCCGAACGACGCGGTGACCATGGAATACAACGCCCAGCGCCTCAACCTGGAAACCGACGCCGCCCAAGTGATCCAGCGGGTTACCTGCGGCTGA	MYPKRLIIGCALAFVTLAGCSSTTDKPAQAPTEPAGDHFSGRCDAAPVQGLIGKTASFEILEEARRKAGAQTARVLGPNDAVTMEYNAQRLNLETDAAQVIQRVTCG				NA	NA	NA	NA	NA
BMS010_01525	198			hypothetical protein	ATGGAAATTTCCAGCCTCACCAGTGCCTTCACCGCCGCCACCGCCGCGCAGCTCGCGATGGAAACGTCCGTGCAGGTCCTGGACAAGGCGCTGGACGTCCAAGCCCTGAGCGCCCTCGCCCTGATCGAGGCCCTGCCACCCCTGCCCTCCGGCGCCAATCCGCCCAACCTCGGCAACTTCATCGACACCACCGCCTGA	MEISSLTSAFTAATAAQLAMETSVQVLDKALDVQALSALALIEALPPLPSGANPPNLGNFIDTTA				NA	NA	NA	NA	NA
BMS010_01526	1017	adh_2		Alcohol dehydrogenase	ATGAAGGCTTATCAGATCGTTTCCGGTGCCGGTATCGCCGGCCTCGAGCCCGTCGAACGCGCAGCCCCCACGCCGGCCCCGCACGAGGTACTGGTGCGGGTCAGGGCGGTATCGCTGAACTATCGCGACCTGATGGTGGCGCGCGGCAACTACATGGTGTCGCGCAGCGAACCGCTGGTGCCCTGCTCGGACGGTGCCGGCGACGTCATCGCCGTCGGTTCCGAGGTCAGCGGCTTCAAGGTGGGCGACCGGGTGATCGGTACGTTCTTCCCCCATTGGGAGGACGGCGCACCGACCCCGCAAAAGGCAGCCGGCGCGCTCGGCGCGGAAGCCGACGGCATGCTGGCCGAGCGGGTGGCACTGCCGGAAAGCGCACTGGTGCGGATTCCCGATCACCTGGACTACGTAGAAGCCGCCACCTTGCCCTGCGCCGGGGTCACCGCCTGGAACGCGCTGTTCGTCGAAGGCCGCCTGAAGCCAGGCGACAGCGTACTGCTGCTCGGCACCGGCGGGGTTTCGATCTGGGGCCTGCAACTGGCCAAGGCGGCTGGACTGCAAGCGATCATCACCTCGTCCAGCGACGAGAAGCTGGTCAGGGCCCGCGAACTCGGTGCGGCTGCGACCCTCAACTACCGCACCACACCGGAATGGCAGGACGAGGTACGGCGCCTCACCGACGACCGCGGTGTCGACCTGGTGCTGGAAGTCGGCGGCCAGGGCACCCTGAAGCGCTCGGTGGCCTCCACGGCCATGGGCGGCACCGTCGCCATCATCGGCGGCGTCAGCGGCTTCGGCGGCGAATTCGAACCCTTCGCGTTGATCGGCGGGGCCAAGCGCCTGAGCGGCATTTTCGTCGGCAACCGCGCAATGACCGAAGACCTCGCCCGTTTCGTCGGCGTGACCGGCATCCGCCCGGTGGTGGACCGCGTGTTCGACTTCGCCCAGGCGCGGGATGCCTACGCCTACCTCGATGCCGGCCGGCATTTCGGCAAGGTGGTGATCACGGTCGGCGACTGA	MKAYQIVSGAGIAGLEPVERAAPTPAPHEVLVRVRAVSLNYRDLMVARGNYMVSRSEPLVPCSDGAGDVIAVGSEVSGFKVGDRVIGTFFPHWEDGAPTPQKAAGALGAEADGMLAERVALPESALVRIPDHLDYVEAATLPCAGVTAWNALFVEGRLKPGDSVLLLGTGGVSIWGLQLAKAAGLQAIITSSSDEKLVRARELGAAATLNYRTTPEWQDEVRRLTDDRGVDLVLEVGGQGTLKRSVASTAMGGTVAIIGGVSGFGGEFEPFALIGGAKRLSGIFVGNRAMTEDLARFVGVTGIRPVVDRVFDFAQARDAYAYLDAGRHFGKVVITVGD	PGPT0006375_1223	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006375-EC_1_1_1_1|adh-K00001	NA	NA
BMS010_01527	975	dmlR_2		HTH-type transcriptional regulator DmlR	ATGAGCGAGCGTTTGCAGGGCATCGATGCCTTCGTCCAGGCCGTGGAGGCGGGCAGCTTTGCCCAGGCGGCCGAGCGCATGCGCCTCACCCGCTCGGCGGTGGGCAAGAGCATCGCTCGCCTCGAACGCCGCCTCGGCGTGCGCCTGTTCCACCGCACCACGCGGCGGCAGAGCCTGACCGAGGATGGCCAGGCCTATTACGAGCGCTGCAAACGCGCCCTGGCCGAACTGGAAGACGCCGAAGCGGCGCTGGACAACGGCCGTCGCGAGCCCAGCGGCCGTCTGCGGGTCAGCGTGCCGGTGCTGTTCGGCCGGCATTGCGTAGCGCCGGTGCTGACCCGTCTGGCGCGTCAGTATCCACGCCTGGAAGTGGAGATCGCCTTCAGCGACCGGGTGGCCGATCTGCTGGAGGAAGGGTTCGATCTGGCGGTGCGCGTCGGTGATCTGCGCGACAGCAGCACCCTGGCGGCGCGCCGGCTGGGCACCCAGCACCTGGCGATCTGCGCGGCGCCGTCCTACCTGGATGCCCACGGCTGGCCGCGCACCATCGAGGAGTTGTCCGGGCACGTCGGCATCCACTATTCCCAGACCGGCCAGGAATCGCCATGGCAGGTGCTCGACGAGGAGGGCCGGCTGCATGAGCCGCGCATCCGCAGCAAGCTGCGTTTCGACGACCTGCAGGCCATCGCCGACGCCGCCGTGGCCGGCGCCGGGCTCGCGCGCCTGCCGTGCTGGCTGCTCACCCCGCATGTGCGCTCCGGCGAGCTGGCGCTGGTGGTGACCAACGAGCGGGTGCTGCCCACCGAGATCCATGCGGTCTGGCCGCAGACCCGTTACCTGCCTTCGAAGATTCGCGTGGCGATCGATGCGCTGGTGGAAGAAATACCGGCCCGCATCGCACCGCAGGAATGTCGCCCGGCAGAGAGCGGTGCAGGGGCGGGCTTATCCGTGGTGCGGGATGCATTGGACGAATGA	MSERLQGIDAFVQAVEAGSFAQAAERMRLTRSAVGKSIARLERRLGVRLFHRTTRRQSLTEDGQAYYERCKRALAELEDAEAALDNGRREPSGRLRVSVPVLFGRHCVAPVLTRLARQYPRLEVEIAFSDRVADLLEEGFDLAVRVGDLRDSSTLAARRLGTQHLAICAAPSYLDAHGWPRTIEELSGHVGIHYSQTGQESPWQVLDEEGRLHEPRIRSKLRFDDLQAIADAAVAGAGLARLPCWLLTPHVRSGELALVVTNERVLPTEIHAVWPQTRYLPSKIRVAIDALVEEIPARIAPQECRPAESGAGAGLSVVRDALDE	PGPT0031690_1	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-MALLEOBACTIN_METABOLISM,PGPT0031690-mbaP-NA	NA	NA
BMS010_01528	1071	dgcC		putative diguanylate cyclase DgcC	ATGCAAAGGAATGCCGGTCAGGGGCTTTCGTTCGCCAGACGTCTTTACGCGCCGCGCCTGTTCGGTCTTGGGGTCGGTTTCTTCTGCGTCGCCGCTGGGCTCTGGTACCTCGACAAGCCGGCCTGGGTCTGGGCGCTGCTGGTTTTCAACGGCTATCTCTGGCCGCACCTGGCTTTCCAATTGGCGAAGCATTCCCCGACCCCCTACCGCGCGGAGCATCGCAACCTGCTGATCGACTCGGTGTTCGGCGGGTTCTGGACCGGCGCGATGCAGTTCAACGCGCTGCCCAGCGTGACCATTCTCTCGATGATGGCGATGAACAATGTCGCCGCCGGAGGGGCGCGCTTCTTCCTCGCCGGCAGCCTGGCGCAACTGACAGGCGTAGTAATCGCACTGCTGGTCTTCGGCCCGGCGTTTTCCCCCGAGACCCGACTCGAACAGCTCTACGCCTGTCTGCCGATGCTGGTGCTCTATCCGCTGTCGCTGGGCCTGGTGTGCTACCGCCTGACCATTCAACTGGCCGACCACAAGCGCGCCCTGCGGGCGGTCAGCCGTACCGACAGCCTGACCAGCCTGTACAACCATGGCTACTGGAAAGACCTGCTGCAGGTCGAGTTCCTCAAGTGTCGCGGTCACCATCAGCGTGCCACGGTGGCGCTGATCGACATCGATCATTTCAAGGCGATCAACGACACCCACGGGCACATCGTCGGCGACAGCGTGCTGCGTCTGCTCAGCGAGCGTCTGGTGCAGAACTTGCGTAGCGAGGACCTGGCCGGGCGCTACGGTGGCGACGAGTTCTGCGTGATCCTGCCGAACACCCCGCCGGTGCTGGCCAAGGAAATCATGGAGCGGCTGCGGGAGAGCCTGAGCGACGTGCGCACAGAGCTGGCGCCCGAGCTGCGCATCACCCTGAGCATCGGCCTGGCCGGTTACAGCCCTTACCAGCGGGATGCTTCCGACTGGCTCAAGGACGCCGACCAGGCGCTCTACGTCGCCAAGTCGTCCGGTCGCAACCAGGTGAGCATGGCCAACGATGCGCTGCACCATCCGCCGCCGGTCGAGGGCTGA	MQRNAGQGLSFARRLYAPRLFGLGVGFFCVAAGLWYLDKPAWVWALLVFNGYLWPHLAFQLAKHSPTPYRAEHRNLLIDSVFGGFWTGAMQFNALPSVTILSMMAMNNVAAGGARFFLAGSLAQLTGVVIALLVFGPAFSPETRLEQLYACLPMLVLYPLSLGLVCYRLTIQLADHKRALRAVSRTDSLTSLYNHGYWKDLLQVEFLKCRGHHQRATVALIDIDHFKAINDTHGHIVGDSVLRLLSERLVQNLRSEDLAGRYGGDEFCVILPNTPPVLAKEIMERLRESLSDVRTELAPELRITLSIGLAGYSPYQRDASDWLKDADQALYVAKSSGRNQVSMANDALHHPPPVEG	PGPT0026210_251	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CELLULOSE_METABOLISM	CE-EPS-CELLULOSE_BIOSYNTHESIS,PGPT0026210-adrA-K18968	NA	NA
BMS010_01529	915	rhaS_6		HTH-type transcriptional activator RhaS	ATGCCGGATACCGCCGCGCTTCCCCTCGATATCGAACAGCGCCAGAACGAACTGGCGGCGCTGATCTCGCGCTTCACCACCGCCGAAGGCATCCATCAGACCGCCATTGCCCCGCTCGACCTGATTCGCGGCGACAAGACTACTTCCTTCACTCCGGGGGTCTACCAGCCCAGCCTGTGCATCATTGCCCAGGGCCGCAAGGAAGTGATGCTCAATGACGAGCGCTATGTCTACGACCCGCTGAACTACCTGGTCGCCTCGGTGACCCTGCCGGTGACCGGCTCGGTGATCGAGGCTTCGCCGGAACAGCCCTATCTCTGCGTCAAGCTGGCCATCGACCCGGCGGAGATCGGCAGCCTGATCGCCGATGCCGGCCCGCTCGGCCTGTCCACCCAGGATCGCCGCGGCCTGTATCTCGGGCGTGTCGATGCGCCGCTGCTGGATGCCGTGCTGCGCCTGATCCGCCTGCTCGACACGCCGAAGGACATCCCCATGCTGGCGCCGCTGGCCCTGCGCGAAATTTTCTACCGCCTGCTGCGCAGCCCCCAGGGCCAGCGCCTGGTGGAGATCGCCATCGCCGACAGCCAGACGCACCGGGTGACGCGCGCCATCGAGTGGCTGAACCGCTATTACCACAAGCCGTTGCGCATCGAGGAACTGGCGCGGACGGTCAATCTCAGCCCGTCGACGCTGCATCACCGTTTCAAGGAAGTCACCGCCATGAGCCCGCTGCAATACCAGAAGCAGTTGCGCCTGCAGGAAGCCCGCCGGCTGATGCTGGCGGAAGGGTTGGAAGCCTCGGCGGCCGGCTACCGGGTGGGTTACGAGAGCCCGTCGCAGTTCAGCCGCGAGTACAGCCGCCAATTCGGCGCGCCGCCGCTGCGCGACCTCGCCCGGCTGCGCAGCTCCGCTTGA	MPDTAALPLDIEQRQNELAALISRFTTAEGIHQTAIAPLDLIRGDKTTSFTPGVYQPSLCIIAQGRKEVMLNDERYVYDPLNYLVASVTLPVTGSVIEASPEQPYLCVKLAIDPAEIGSLIADAGPLGLSTQDRRGLYLGRVDAPLLDAVLRLIRLLDTPKDIPMLAPLALREIFYRLLRSPQGQRLVEIAIADSQTHRVTRAIEWLNRYYHKPLRIEELARTVNLSPSTLHHRFKEVTAMSPLQYQKQLRLQEARRLMLAEGLEASAAGYRVGYESPSQFSREYSRQFGAPPLRDLARLRSSA				NA	NA	NA	NA	NA
BMS010_01530	330			hypothetical protein	ATGAGCGAAACGATGCCTGTCACCAGCCTGGCCTTGGTTCGCGCCCGCACCGGCCGCGCGGACGCATTGGGCAACCGCCTTCGCGTGTTGCTGGAGCCGGCGCGTCGCACGCCCGGATGCCTTCGCTACGAATTGGAACGTGCGCCGGACGATCCCGATCTCTGGCGGGTGCGTGGGTTGTGGGCGTCCGAGGAAGCCATGACCGCCCACCTCGCCATGCCGGTGGTCCAGGTGTTCGCGGATATTCTGATGGACCGCTCCGTCAGCCAGGTGGAGTTGTGCAGCTTCCCTTGCCGTGCCGATGACCTTGAATGGGAGGGGGCCGCTTGA	MSETMPVTSLALVRARTGRADALGNRLRVLLEPARRTPGCLRYELERAPDDPDLWRVRGLWASEEAMTAHLAMPVVQVFADILMDRSVSQVELCSFPCRADDLEWEGAA				NA	NA	NA	NA	NA
BMS010_01531	669			hypothetical protein	ATGACCACCGAGACGGATGCCCAATCCCAGCCGGTCGAACCGCTCAACGCCATCGAAGTCCGCATCGTCGGCAGCCTGATCGAGAAGCAGGCCACCACCCCGGAAGCCTATCCGCTGACACTCAACGCACTCCTGCTCGCCTGTAACCAGAAGACCAGCCGCGAGCCGGTGATGAACCTCACCGCCGGCCAGGTCGGCCAGAGCCTGCGCCGCCTGGAGGATCGCGGCCTGGTGCGGCTGGTGATGGGCAGCCGCGCCGACCGTTGGGAACACCGCGCGGAGAAGGGCCTGGAGCTGACCCCGGCACAGGTGGTGCTGATCGGCCTGTTGTTCCTGCGCGGCCCGCAGACCCTCAATGAACTGCTCACCCGCAGCAACCGGATGTTCGAGTTCGACGACCTGGACGACCTTCAGCATCCGTTGGAACGTCTGATCGCCCGCGGCCTGGCCTGCAAGCTGCCGCGCCAGCCGGGGCAGCGCGAAGACCGCTACATGCACCTGCTGGGCGATCCGGCCGATCTCGAACAACTGCTCGCCGCCCGCCAGGCCCAGGACGCACGCCAGGGCAGCGGCGCAGGACAGGCGGACGAGCGGGTCGATGCGCTGGAAGCCCGCCTGGCCGAACTGGAGGAACGTCTGGCGCGGCTGGAGCAGCGGGTCGCCGACTGA	MTTETDAQSQPVEPLNAIEVRIVGSLIEKQATTPEAYPLTLNALLLACNQKTSREPVMNLTAGQVGQSLRRLEDRGLVRLVMGSRADRWEHRAEKGLELTPAQVVLIGLLFLRGPQTLNELLTRSNRMFEFDDLDDLQHPLERLIARGLACKLPRQPGQREDRYMHLLGDPADLEQLLAARQAQDARQGSGAGQADERVDALEARLAELEERLARLEQRVAD	PGPT0024195_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_MODIFICATION,PGPT0024195-mviM|yceM-K03810	NA	NA
BMS010_01532	1137			hypothetical protein	ATGGGGGCGGCACGGTTGAAGCGGACGGCGCCGAAGGCGCGCGGCAGTGTCGTGCTCTATCCCAACCGGCGTTCGGAACCGCAGCACGAGCGGGTGGTGCACGCGGCGCTGGCGCAGCGGCTCGCGGCACTGTTGGGGATGGACTTCCACGGCGATTTCGACCCCACGGCCCGCCCGCCGGAACCGGTCTACTTCGTCCCGAGCGACAGCATCGTCGGCCTCGACGAAGCCCGCCGGCTGGGCATCGCCAGCGAGCAGGACCTGTTCGGCGGCGTGGTGCCGCATTCCTTCATGGCCACCAAGGCCATCACCCATCCGCTGGTGCGGGCGAAGGCGGCGGCTCCGGCCGGCTGGTCGGCGGCGTTCGGCCGGCGTGTCGACCGCGCGGTATTCCGGGGTTTCACCGTGTTCAGCCTCGACGATGCGCGAACGGCGGCGCGGCGCCTGTTCGCCGACGGGCCGATCCGCATCAAGCCGGTGCGGGCCACCGCCGGGCGCGGGCAAATGGTGGTCAACGACGTCGCGGAACTGGATGCCGCGTTGGACGCCCAATGCGTCGACGAGCTGGCGAATTGCGGACTGGTGCTGGAAGAGCACCTGGAACGCATGACCACCTTCAGCGTCGGCCGGGTGCGGGTCGGCGAGTTGCTCGCCAGCTATTGCGGCACCCAGCGGCTGACCGTCGACAACCAGGGCGAGACCGTCTACGGCGGCTCCGACCTGCTGGTGGTGCGGGGCGACTTCGACGCGCTGCTGCAGCTCGACCTGCCGGAGGCGGCGCGCCTCGCCGTCACCCAGGCCCAGCGTTACGACAGCGCCGCCAGCGAATGCTTCGCCGGCCTGCTGGCCTCGCGGCGCAACTACGACATCGGCCAGGGGGTGGACGCCCGGGGGCGGGTTCGCTCCGGCGTGCTCGAACAATCCTGGCGCATCGGTGGCGCCAGCGGCGCGGAAGTCGCTGCACTCCAGGCGTTCCATGGCGGCGGGCAACGCGCGGTGCTGGCCTCGACAGTGGAACTCTATGGCGGTCGGGAGACTCCACCCCCACAGGCGGACATTCTGTTCGATGGCCTCGACGAAGAGGTCGGACGAATCACCAAGTACATCACGGTGGAGGCTTATGAACACCCGGAGTGA	MGAARLKRTAPKARGSVVLYPNRRSEPQHERVVHAALAQRLAALLGMDFHGDFDPTARPPEPVYFVPSDSIVGLDEARRLGIASEQDLFGGVVPHSFMATKAITHPLVRAKAAAPAGWSAAFGRRVDRAVFRGFTVFSLDDARTAARRLFADGPIRIKPVRATAGRGQMVVNDVAELDAALDAQCVDELANCGLVLEEHLERMTTFSVGRVRVGELLASYCGTQRLTVDNQGETVYGGSDLLVVRGDFDALLQLDLPEAARLAVTQAQRYDSAASECFAGLLASRRNYDIGQGVDARGRVRSGVLEQSWRIGGASGAEVAALQAFHGGGQRAVLASTVELYGGRETPPPQADILFDGLDEEVGRITKYITVEAYEHPE				NA	NA	NA	NA	NA
BMS010_01533	768			hypothetical protein	ATGAACACCCGGAGTGAGGCGCTGGAGATCGCCGTCGACGACGAACAGATCGACGCGACCCTGCTGGCGCCAAGCGCGAAAATGCCCGGCGTGCTGTTCGTACACGGCTGGGGCGGCAGCCAGAAGCGCGACATCGCGCGGGCCAAGGGCCTGGCCGGGCTCGGCTGCGTATGCCTGACCTTCGATATGCGCGGCCATGAACGAACGCTGGAGCGGCAGCAGCGCGTCACCCGCGAAGATAATCTGCGCGACCTGCTGTCCGCCTACGATCGCCTGGCCCGTCACCCGTCCATCGACCCCTCGGCCATCGCCGTGGTCGGCAGCAGCTACGGCGGCTACCTGTCCACCATCCTTACCAGCCTGCGCCCGGTACGCTGGCTCGCGTTGCGCGTGCCGGCGCTATACCGCGACGAAGGCTGGCTGACGCCGAAGCGCGAACTCGACCGCAAGGACCTGGTGGAATACCGCAACACCCCGCTGCCACCCACGGCCAATCGGGCTTTGGCGGCCTGCGCGGCATTCGAGGGCGACGTGCTGATCGTCGAGTCCGAACAGGACCACCTGATCCCGCACACCACCATCACCAACTACCTGTCGGCGTTCGCCCGCGCCCATTCGCTGACCCACCGCATCATCGATGGTGCCGACCATGGCCTCACGAGCGAAGCCTGCCGACAGGCGTACACCTCCCTCCTGATCAACTGGGCAACGGAAATGGTGGTTGGTGCACGCATTGGCGATGGTGTGTTCGAGGAAGTGGCGGTCTGA	MNTRSEALEIAVDDEQIDATLLAPSAKMPGVLFVHGWGGSQKRDIARAKGLAGLGCVCLTFDMRGHERTLERQQRVTREDNLRDLLSAYDRLARHPSIDPSAIAVVGSSYGGYLSTILTSLRPVRWLALRVPALYRDEGWLTPKRELDRKDLVEYRNTPLPPTANRALAACAAFEGDVLIVESEQDHLIPHTTITNYLSAFARAHSLTHRIIDGADHGLTSEACRQAYTSLLINWATEMVVGARIGDGVFEEVAV				NA	NA	NA	NA	NA
BMS010_01534	129			hypothetical protein	ATGGCTGATACGGCAAAGCGGTTCGGGGCCAACGACATCGAAGCCGGGCGGACCTCCCATGCGGGGAATGAATGGGAACGCACCCACCCCGGCAAGCCGGAGCGGAAAGGAAACGGGGAAGGGCCATAG	MADTAKRFGANDIEAGRTSHAGNEWERTHPGKPERKGNGEGP				NA	NA	NA	NA	NA
BMS010_01535	1398			hypothetical protein	ATGCCTCGCGTGTTCGAATCCCTACCGGGTCGGTGTCTGTTCCTCCTGTTGCTGGCGTTGTCGCTGCTCGGTGGCAGGGCTGCCGTTGCCGATGATAGCTGTGCCGCCAGCCAGAGCTGGATCACCAGCCCCAACCCACCCGGTGAAATCCCCGAGGGCAGCAATGCCGATTTCTGCGATTTCTACCAATTCAGTTGGCAGTGGTTCCTGCAACTGACCAGCCCGTCGTCGAGCGATGCCAGCCTGCGCAACTTCCAGGTGCCCACCAGCTTCCCCGTGCTCCAGGCCACCGGGACGGATTCCTGTTCGCCGAATGCGCCGAAGGAAGTGATGTTCGTCCGCACCGTCAAGCCGGTCGCCGCCGACACGCCGTTCAACCTGCCCGACCGCACCGGCCAGGCGGCGAAGGAGGCGACCATCTTCGATCAGGACGGCAACGTGGTGTTCTACGAAGTGCGCTTCAGCCGCAACCTGTGCAACGTCGGGCAGATCCAGTCGCAGCCGCAATTCCCGGCTGGCACCACCGAGATGAAGATCGCCTGGCGCATCATCACCGACGCGGAGAAGCCGCAGTACTTCTGGATCGAAGCGAACGTGGACGGCGTGCCCGGCGATGAGTTGCTGGGCATGGTGGGCTTCCACATCGTCATGGCCACGGCGCTGCACCCGGAGTTCATCTGGGCCACCTTCGAGCACCGCGCCAACGCGCCCGAATGCGCCAATCCGGTCACCGCGCCGGCTTCCGGCTGGTCGTTCACCAGCGCTAAATGCGCCGGCGAGCTGCCCAACCCGTCGTCGGACTGCGCCTTCAACCAGGCCGTGGAGAGCCAGAGCCTGACCGGGACGCCAACGGAAATCTGCCGGGTGTTCCATGACGGCACCGACCCGAGCGACCACGAAGGCACGGACAACATTGCCATCATCGACAGCATGAACACCCAGATCCAGGCCATGCTGGCAGCGCTGCCGAGCAGCAGCCCGATGTCCGTCTGGCAGAACTACATGATGGTCGGCGCGCTCTGGGAGAACGACGTCACCCAGCCGTCGTCCACCGTCTCCAACCAGCGCGGCTCGATGCGCCTGGCCAACACGGTGATGGAGACCACGGTACAGAACATCGATCTCAATGCGACGTTCGTGTCCAACTGCTTCGGTTGCCACCAATTCGCCGGCTCGGGCAACAGCAACACGCTGCCGTCCTCCAGCCTCAGCCACATCTTCGACGATGTGATGCAGGGCCAGTGCAAGGCCAGCGACGTCCAGGCCGGGCCGATCTGGAACAACCAGGACGCCCAGCAGAAGTGCGTGCAGACTTGCCAGAACAAAGGCGGTTGGAACGGCAACTGGAAAACCACCGAGCCGGGTGTGATGTCCGTCTGCGGCTGTTGCGGCGGCTGA	MPRVFESLPGRCLFLLLLALSLLGGRAAVADDSCAASQSWITSPNPPGEIPEGSNADFCDFYQFSWQWFLQLTSPSSSDASLRNFQVPTSFPVLQATGTDSCSPNAPKEVMFVRTVKPVAADTPFNLPDRTGQAAKEATIFDQDGNVVFYEVRFSRNLCNVGQIQSQPQFPAGTTEMKIAWRIITDAEKPQYFWIEANVDGVPGDELLGMVGFHIVMATALHPEFIWATFEHRANAPECANPVTAPASGWSFTSAKCAGELPNPSSDCAFNQAVESQSLTGTPTEICRVFHDGTDPSDHEGTDNIAIIDSMNTQIQAMLAALPSSSPMSVWQNYMMVGALWENDVTQPSSTVSNQRGSMRLANTVMETTVQNIDLNATFVSNCFGCHQFAGSGNSNTLPSSSLSHIFDDVMQGQCKASDVQAGPIWNNQDAQQKCVQTCQNKGGWNGNWKTTEPGVMSVCGCCGG				NA	NA	NA	NA	NA
BMS010_01536	1962	mnmC_3	COG0665	tRNA 5-methylaminomethyl-2-thiouridine biosynthesis bifunctional protein MnmC	ATGTCCGACACTCCCCACGCCCAGCTCGACTGGGACGAACAAGGCCAGCCGCTATCCAGCGTGTTCGGCGATGTCTACTTCTCCCGCGCCTCGGGCCTGGAGGAAAGCCGCTACGTGTTCCTCGGCCACAACGACCTGCCGCAGCGCTTCGCCGCCCTGCCGGCCGGCGGACGGCTGACGATCGGCGAAACCGGATTCGGCACCGGGCTGAACTTCCTCTGCGCCTGGCAACTGTTCGAGCAGACGGCGCCGGCCGATGCGCGGCTGCATTTCGTCAGCGTGGAGAAATTCCCGCTGCACCGCGACGACCTGCAGCGCGCCCTGGCGCTGTGGCCGGAGCTGGCCGACTACGCCGGGCAGTTGCTGGTGCAATACGTGGCCATTCATCCGGGCTTCCAGCGCCTGGTGTTCGCTGGCGGGAGGGTGGTGCTCACCCTGCTGGTGGGCGATGTGCTGGAGTGTCTGCCGGAACTGGATGCACACATCGACGCCTGGTTCCTCGACGGTTTCGCGCCCTCGAAGAACCCGGAGATGTGGACGCCGGAGCTGTTCGCCCAGATGGCCCGGCTGTCCGCCCCCGGTGCAACCCTGGCCACCTTCACCTGTGCCGGTTTCGTTCGTCGCGGGCTGAACGAGGCCGGCTTCGAGATGAGCAAGGTCAAGGGCTTCGGCCAGAAGTGGCAGATGCTGCGCGGCCGCTTCGCTGGCATCCCGCAGGCAACCGCCAAACCCTGGTTCGCCCGCCCCGGCTGGCGTCCCACGGAGCGCAGCGCCCTGGTGATCGGCGCCGGCATGGCCGGCTGCGCCACCGCCGCCAGCCTGGCCGCGCGCGGTTGGCAGGTGACGGTACTGGAGCGCCACGCCGGGCCGGCACAGGAAGCGTCCGGCAATCCGCAGGGCGTGCTTTATCTCAAGCTGTCCGCCCACGGCACGCCGCTGTCGCGTCTGATCGTCAGCGGCTTCGGCCATAGCCGCCGCCTGTTGGAACGGCTGGAGCGCGGTGCCGAGTGGGATGCCTGCGGCGTGCTGCAACTGGCGTTCGACGAGAAAGAGTCCGAACGCCAGGCGCAATTGGCCGACGCCTTCACGGATGGCCTGTTGCATCGCCTGGATCGCCAACAGGCCGAAGACCTGGCCGGCGTGGCGCTACTGGCGGGAGGGCTGTTCTTCCCGGAAGCCGGCTGGGCGCATCCGCCGGCGCTGTGCCGCAGGCTGTTGGAACACCCGAATATCCGTCTGCTGACACACCGCGAGGCGCTGTCGCTGGAGCGGGTCGGTGAACGCTGGCAGGCCCGTACCGGCGATACGCTGTTGGCCGAGGCACCGGTCGCAGTGCTGGCCGGCGCCGCCGATATCCAGCGCTTCCCCTACGCCGCCGACCTGCCGCTCAAGCGCATCCGCGGGCAGATCACCCGCCTGCCGGCGACCCCGGAAAGCCGGGCGCTGCGTACCGTGGTCTGTGCCGAGGGCTACGTCGCACCGGCCCGTGGTGACGAACACACCTTGGGCGCCAGCTTCGATTTCCATAGTCAGGACTGCGCCCCGACGATGGCCGAGCACGCCAGCAACCTGGATTTGCTGCGGGAGATTTCCACGGACCTCGGCAATCGCCTGCAGGCCGACCGCCTCGACCCGGCCAACCTGCAAGGGCGCGCCGCATTCCGCTGCACCAGCCCGGACTACCTGCCGGTCGTCGGTCCGCTGGCGGACAGCCAGGCCCTGGCCGAGGCCTACGCCGTGCTGGCCAAGGACGCCCGCCAGGTGCCAGACACACCCTGCCCCTGGTACGAAGGACTGTACGTCAACAGCGGCCACGGCTCGCGCGGGCTGGTCACCGCGCCGCTATCCGGCGAGCTGCTGGCCGCCTGGCTCGACGACGAACCTCTACCCCTGCCGCGCAGCGTGGCCGAAGCCTGCCACCCGAACCGCTTCGCCCTGCGCCGGTTGATTCGCGGGAAATAG	MSDTPHAQLDWDEQGQPLSSVFGDVYFSRASGLEESRYVFLGHNDLPQRFAALPAGGRLTIGETGFGTGLNFLCAWQLFEQTAPADARLHFVSVEKFPLHRDDLQRALALWPELADYAGQLLVQYVAIHPGFQRLVFAGGRVVLTLLVGDVLECLPELDAHIDAWFLDGFAPSKNPEMWTPELFAQMARLSAPGATLATFTCAGFVRRGLNEAGFEMSKVKGFGQKWQMLRGRFAGIPQATAKPWFARPGWRPTERSALVIGAGMAGCATAASLAARGWQVTVLERHAGPAQEASGNPQGVLYLKLSAHGTPLSRLIVSGFGHSRRLLERLERGAEWDACGVLQLAFDEKESERQAQLADAFTDGLLHRLDRQQAEDLAGVALLAGGLFFPEAGWAHPPALCRRLLEHPNIRLLTHREALSLERVGERWQARTGDTLLAEAPVAVLAGAADIQRFPYAADLPLKRIRGQITRLPATPESRALRTVVCAEGYVAPARGDEHTLGASFDFHSQDCAPTMAEHASNLDLLREISTDLGNRLQADRLDPANLQGRAAFRCTSPDYLPVVGPLADSQALAEAYAVLAKDARQVPDTPCPWYEGLYVNSGHGSRGLVTAPLSGELLAAWLDDEPLPLPRSVAEACHPNRFALRRLIRGK				NA	NA	NA	NA	NA
BMS010_01537	1488		COG2326	Polyphosphate:AMP phosphotransferase	ATGTTCGAATCCGCCGAGATCGGTCACGCCATCGACAAGGACACCTACGACGCCGAAGTGCCGGTGTTGCGCGAGGCGTTGCTGGAGGCCCAGTACGAGTTGCAGCAACAGGCGCGTTTCCCGGTGATCGTGCTGATCAACGGCATCGAGGGCGCCGGCAAGGGCGAAACGGTCAAGTTGCTCAACGAGTGGATGGACCCCCGGCTGATCCAGGTGGAAACCTTCGACCAGCAGACCGACGAGGAGCTGGCCCGTCCGCCGGCCTGGCGCTACTGGCGGCGGTTGCCGCCGAAGGGGCGGATGGGCATCTTCTTCGGCAACTGGTACAGCCAGATGCTCCAGGGGCGGGTCCACGGCAACTTCAAGGACCCGGTGCTGGACCAGGCCATCGAGGGCGCGGAGCGACTGGAGCGCATGCTCTGCGACGAGGGCGCGCTGATCTTCAAGTTCTGGTTCCACCTGTCCAAGCAGCAGATGAAGGCGCGCCTGAAGACGCTCAAGGACGACCCGCTGCACAGCTGGCGGCTTAGCCCGCTGGACTGGCAGCAGTCGAAGACCTACGACAAGTTCGTGCGCTACGGCGAGCGGGTCCTGCGCCGCACCAGCCGCGACTACGCGCCCTGGTACGTAGTGGAAGGCTTCGACGAGCACTACCGCAGCCTGACTGTCGGCCGCATCCTGCTGGAGGGCATGCAAGCGGCCCTGGCCAACAAGCAGCGGCCGGTCCGCCAGCCGCACGCCGCGCCGCTGGTTTCCAGCCTGGACAACCTCGGCCTGCTGGACAGCCTGGACATGAGCCAGAGCCTGGACAAGGACCGCTACAAGGAACAGTTGGCCACCGAGCAGGCGCGCCTGGCCGGGCTGATGCGCGACAAGCGCATGCGCAAGCACGCGCTGGTGGCGGTGTTCGAGGGTAACGACGCGGCCGGCAAGGGCGGTGCCATCCGCCGTGTCGCGGGGGCGCTGGACCCGCGCCAGTACCGCATCGTGCCGATCGCCGCGCCTACCGAGGAGGAGCGCGCGCAACCCTATCTCTGGCGCTTCTGGCGACACATTCCGGGGCGCGGCATGTTCACCCTGTTCGACCGTTCCTGGTACGGCCGCGTGCTGGTGGAGCGGGTCGAGGGCTTCTGCAGCGAGGCGGACTGGCTGCGTGCCTATGGCGAGATCAACGACTTCGAGGAGCAGCTCACCCGCGCCGGCGTGGTCCTGGTGAAGTTCTGGCTGGCCATCGACAAGGACACCCAGTTGCAGCGCTTCAAGGAGCGCGAGCAGACCGCCTTCAAGCGCTTCAAGATCACCGAGGACGACTGGCGCAACCGCGAGAAGTGGGACAGGTACAGCGATGCGGTGGGTGACATGGTCGACCGCACCAGCAGCGAGATCGCACCCTGGACACTGGTCGAGGCCAACGACAAGCGCTTCGCCCGGGTCAAGGTGCTGCGCACCCTCAACGATGCGCTGGAGGCGGCCTTCGCGCGGGATTGA	MFESAEIGHAIDKDTYDAEVPVLREALLEAQYELQQQARFPVIVLINGIEGAGKGETVKLLNEWMDPRLIQVETFDQQTDEELARPPAWRYWRRLPPKGRMGIFFGNWYSQMLQGRVHGNFKDPVLDQAIEGAERLERMLCDEGALIFKFWFHLSKQQMKARLKTLKDDPLHSWRLSPLDWQQSKTYDKFVRYGERVLRRTSRDYAPWYVVEGFDEHYRSLTVGRILLEGMQAALANKQRPVRQPHAAPLVSSLDNLGLLDSLDMSQSLDKDRYKEQLATEQARLAGLMRDKRMRKHALVAVFEGNDAAGKGGAIRRVAGALDPRQYRIVPIAAPTEEERAQPYLWRFWRHIPGRGMFTLFDRSWYGRVLVERVEGFCSEADWLRAYGEINDFEEQLTRAGVVLVKFWLAIDKDTQLQRFKEREQTAFKRFKITEDDWRNREKWDRYSDAVGDMVDRTSSEIAPWTLVEANDKRFARVKVLRTLNDALEAAFARD	PGPT0002695_282	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002695-ppk2-K23753	NA	NA
BMS010_01538	1185	fadA_1	COG0183	3-ketoacyl-CoA thiolase	ATGCGTGAAGTGGTGATCGTCGACAGCGTGCGGACCGGCCTGGCCAAGTCCTTCCGCGGCAAGTTCAACCAGACCCGGCCGGACGACATGGCGGCCCACTGCGTCAACGCGCTGCTGGCGCGCAACGACCTCGATCCGGCGCTGGTGGACGACTGCATCGTCGGCGCCGGCTCCAACGAAGGCGCCCAGGGCTACAACATCGGCCGCAACGTGGCAGTGCTGTCCGGCCTGGGCATCCAGGTCGCCGGCATGACCCTCAACCGCTACTGCTCCTCCGGCCTGCAGGCCATCGCCATCGCCGCCAACCAGGTGGCGTCCGGTTGCAGCGACATCATCGTCGCCGGCGGGGTGGAGTCCATCAGCCTGACCCTGAAGAGCGTCAATACCGATCACCTGTACAACCCGCTCATCCAGGAGCGCTTCCCCGGTATCTACTTCCCCATGGGCCAGACCGCCGAGATCGTCGCCCGCCGCTACGGCGTGACCCGCGAGCAGCAGGACCTCTACGCCCTGCAAAGCCAGCAGCGCACCGCCCGCGCCCAGGCCGAGGGTCTGTTCGCCGACGAGATCGTGCCGATGAGCGTGAAGTACCTGGTGGAGGACAAGGCCACCGGCGAGAAGAAAATCCTCGACGGCGTGGTCGACCGCGACGACTGCAACCGTCCCGACACCACCCTGGAAAGCCTCGCCGGTCTGAAGCCGGCCTTCGCCGAGGACGGTTCGGTGACCGCCGGCAACGCCTCGCAGCTCTCCGATGGGGCCTCCATGACCCTGGTGATGAGCCTGGACAAGGCCCTGGAACTCGGCCTCAAGCCGAAGGCATTCTTCCGCGGCTTCGTCGCCGCCGGCTGCGAGCCGGACGAGATGGGCATCGGCCCGGTGTTCTCGGTGCCCAAGCTGCTCAAAGCCAAGGGCTTGAGCGTCGCCGACATCGATCTCTGGGAACTGAACGAAGCCTTCGCCTCGCAGTGCCTGTATTGCCGCGACCGGCTGGAAATCGACAACGAGAAGTACAACGTCAACGGCGGTTCCATCTCCATCGGCCATCCTTTCGGCATGACCGGCTCACGTCAGGTCGGCCATCTGGTGCGCGAACTGCAACGGCGCAAACTGCGCTACGGCGTGGTGACCATGTGCGTGGGCGGCGGGATGGGCGCGACCGGGCTGTTCGAAGCGGTACGCTGA	MREVVIVDSVRTGLAKSFRGKFNQTRPDDMAAHCVNALLARNDLDPALVDDCIVGAGSNEGAQGYNIGRNVAVLSGLGIQVAGMTLNRYCSSGLQAIAIAANQVASGCSDIIVAGGVESISLTLKSVNTDHLYNPLIQERFPGIYFPMGQTAEIVARRYGVTREQQDLYALQSQQRTARAQAEGLFADEIVPMSVKYLVEDKATGEKKILDGVVDRDDCNRPDTTLESLAGLKPAFAEDGSVTAGNASQLSDGASMTLVMSLDKALELGLKPKAFFRGFVAAGCEPDEMGIGPVFSVPKLLKAKGLSVADIDLWELNEAFASQCLYCRDRLEIDNEKYNVNGGSISIGHPFGMTGSRQVGHLVRELQRRKLRYGVVTMCVGGGMGATGLFEAVR	PGPT0001565_3084	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0001565-fadA|fadI-K00632	NA	NA
BMS010_01539	219			hypothetical protein	ATGTATGGAAAACGCGCAGTCGATGCACTGCCTGGTACGCATTACCGGAGTGATCGCATCAGTTCGGTGAACGGCCAATACTTCTTCGCCACCCGCGAAGGTACGCTCGAAGGCCCCTTCTTCACCCGGGTGGACGCCGAACACGAGATCGGCCGTTACATCCAGCGCATGCAGCAATCCAGCGCCCTCTACGGCCGAGCGGTCCCCAGCCGCAACTGA	MYGKRAVDALPGTHYRSDRISSVNGQYFFATREGTLEGPFFTRVDAEHEIGRYIQRMQQSSALYGRAVPSRN				NA	NA	NA	NA	NA
BMS010_01540	969	yhbE	COG0697	putative inner membrane transporter YhbE	ATGCACATCTCCTCCGGCCGTTGGCTGTACGGCCTGTCGCTCGCCCTGCTCACCGCCGTACTCTGGGGCATCCTGCCGATCAAGCTGAAAGAAGTCCTGCAGGTCATGGACCCGATCACCGTGACCTGGTACCGCCTGCTGGTGTCCGGTTCCCTGTTGCTGGCCTACCTCGCCGCGACCCGCCGCTTGCCGCGCTTCCGGCCGCTGGGGCGCAAGGGCGCCTGGCTGGTGACGGCGGCCATCGCCGGGCTGACGGCCAACTACGTGCTCTATCTGATTGGCCTGAAACTGCTCAGCCCCGGCACCACCCAACTGGTGATCCAGGTGGCCCCTATCCTGCTGCTGATCAGCAGTCTGTTCATCTTCCGCGAGCGTTTCAGCCTGGGGCAGGGCATCGGCCTGGCGATCCTGCTGGTGGGCTTCGGCCTGTTCTTCAACCAGCGCCTGGGCGAGCTGCTGACCTCGCTGACCGCCTACACCGCCGGGGTGCTCACGGTATTGCTGGCGGCCTTCGTCTGGACATTCTACGGGCTGGCGCAGAAGCAGCTGCTCACCGTGTGGAACTCGCTGCAGGTGATGATGGTGATCTACCTCGGCTGCGCCCTGCTCATCACCCCTTGGGCCCTGCCGCTGCAAGTGCTGGAGCTGAGCCCGCTGCAGGGTTGGCTGCTGCTGGCCTGTTGCCTGAACACCCTGGTGGCCTACGGCGCCTTCGCCGAAGCCCTGGCCCATTGGGAAGCCTCGCGGGTCAGCGCGACCCTGGCCGTCACCCCGTTGGTGACCTTCGGCTCCGTCGCCCTGGCCGCCAGCCTCTGGCCGGACCACGTACAGCCGGAACAGATCAACACCCTCGCCTATGGCGGCGCCCTGCTGGTGGTGCTGGGCTCGGCACTCACCGCCATCGGCCCATCCATGCTCGCCGGCTGGAGAGCACGGCGGGTGCGGAACGAGGAAGAGTTGGGCCTGTAG	MHISSGRWLYGLSLALLTAVLWGILPIKLKEVLQVMDPITVTWYRLLVSGSLLLAYLAATRRLPRFRPLGRKGAWLVTAAIAGLTANYVLYLIGLKLLSPGTTQLVIQVAPILLLISSLFIFRERFSLGQGIGLAILLVGFGLFFNQRLGELLTSLTAYTAGVLTVLLAAFVWTFYGLAQKQLLTVWNSLQVMMVIYLGCALLITPWALPLQVLELSPLQGWLLLACCLNTLVAYGAFAEALAHWEASRVSATLAVTPLVTFGSVALAASLWPDHVQPEQINTLAYGGALLVVLGSALTAIGPSMLAGWRARRVRNEEELGL				NA	NA	NA	NA	NA
BMS010_01541	531			hypothetical protein	ATGGCCACTTCGGACGAACTGAACCAAAGCCTCAACCGACTGGCGGAAAGCTGGCTGAAACGCCCGCTGACCGCCGTGGAACGGCAGCAGTTGCAGCAATTCCAACTCGGTCTGGCCGACAAGGCCGGCAGCAACCCCGCCGCCCTGGCCCGACAGCAGGTCGAACAGGCCATCGAGGCCGGCAAGCAGCAGACCCAGGACTCGATCCGGCAGATCCTGCAGAACGTGCAAAGCGCATCGACCCAGGCCCTCCAGGCCCACGAGAACGGCGAGCAGGCGATCCTCAAGGCGGTGACGGCGGCCCATTCCCTGGCCGACCTGCACCCGGCCACATCCGGCTCCACCCAGGCCGGTACCGATCCGGCGGCAACCGCACAGATCGCCAGCCGCCTGGAGGAACTGGTGAAGAACGAAGTACAGAAGTGCTTCGAGCAGAACTTCGGCGCGCTCAAGACCCAGCTCGAAAACGCTATCGCCGCCCTCAACGAAACCCACAAGACTGCGCCGTCCGGCACACCGCCCCGGTCATAG	MATSDELNQSLNRLAESWLKRPLTAVERQQLQQFQLGLADKAGSNPAALARQQVEQAIEAGKQQTQDSIRQILQNVQSASTQALQAHENGEQAILKAVTAAHSLADLHPATSGSTQAGTDPAATAQIASRLEELVKNEVQKCFEQNFGALKTQLENAIAALNETHKTAPSGTPPRS				NA	NA	NA	NA	NA
BMS010_01542	210			hypothetical protein	ATGCAAGACGAACTGGAAAACCTCAAGGAACAGGTCAAGTCCCTGCTCTCCGATTGCCTCAACCAGTGGTTGCAGTCGCTTTCCCAGGACCACCCGAACGACATCCTGGCGCGCCTCAGCCAAATGGCGTTGCAACTGAGCACCGCCCATACTGCCTTGCACACCGCCTCGGCCCTGTGCGCCACGCCGTCCGGCGACGGCAGCAGTTGA	MQDELENLKEQVKSLLSDCLNQWLQSLSQDHPNDILARLSQMALQLSTAHTALHTASALCATPSGDGSS				NA	NA	NA	NA	NA
BMS010_01543	180			hypothetical protein	ATGCCCTCCTTCGTCCAGTACCTGATTCGCAGCGAGTCGAACAGCACGGTAACCGCGGCAGCCAAACCGCCGGCACCGCCCGCCGACGCCCCCGCGCCGCGCCGCACGGGCAAGCGCCTGATCGAAGTGCAGGACAGCGACGTGGCCAAGTTGTTGAGCCTGCTGAAACTGCTGAAGTGA	MPSFVQYLIRSESNSTVTAAAKPPAPPADAPAPRRTGKRLIEVQDSDVAKLLSLLKLLK				NA	NA	NA	NA	NA
BMS010_01544	2190			hypothetical protein	ATGGCCTACTTCACGCTGGACAAGCCGACCCTGTTCATGGGGTACCCCTTCGACTTCCACAGCCACTTCGCCGGCATCCTGCCGGTGGAAAGCCGCATGCACTGGTCCGCCGCCGACTGGCCCGCACAGCCCATTCCGCTGCCGAAGGGACGGAGCACCACCTTCCAGGTCGCCAAGGGTCAGGAGCTGTCGTTGATCGGCCTGCTGATGGCGAAGAACGGCATCCACCCGAACGCCCCGCACGAGGCGAGGGAAAAGGCACGGGAAGCAGCGCACTACGAACTCTTCGAACTGGCCCTGCAACGCACCATCGCCCGCAATCCTTTCCTGGCCTTCGACAAGGAAGCCTACCTGCGCGGCGAATGCGCGGCGGAAAGCACCTACCTGGCCTGCGCCATCCTGCTCCAGCGCTTCGGCAACCTCGGCGTCGCCCCGGCCATCGACCAACCCGACCTCTACCGCGCCGTCGCCGAGCTGCTGCGCTCCGAGGCGGTCCGCGACACGGAAACCTTCGAACTGGTGCGCTATTTCAACCGCAAGATCTGGACGGCCAACAAATACACGCCGTTCGACGATGCCTACTGGACCCGCGGCATCATCCGCGACCGCCACCCCGAGCTGTTCGCCGGCTTCACCCTCTGCTTCCTGCGCGAAGAAGGCATCGCCTACACCCAGACGGCCACCGGCGAAGACGAGATCGACGACCTGAACGCGCTGTTCGCCGCCTTCAACCAGGCCCACGGGACCGCCTATCGGCTGCTCGCCCACACCGCTCACGGTTACACGGCGCTGACCCCGTTCAACAAGGATCTGGCGGCCATCCGCACGCACTTCGAGCTGGTCGGCGACACCCCGAAAAGCCCCACGCTGGTCGGCATCGACCTGCTGGGCGCGGAAACCCGCACGGGCTTCTATCGCGACTTCTTCGCCTTCGTCCTGGGCTCGCTTCCGCTATTCAAGACCTACGCGGACAAGAACCCGGATACCCGCAAGGTGGTGCTGCACATCCATTGCGGCGAAGGCACCGGCATCTCCGACAACAACCGCTCGCTGTGCGGCTACTTCCTGCGCAACGCCACCCACGTCGAACCCGGCGTGTTCTATCGCAACCTCTGCGCCTACGCCTACAAGTGCTACGCCAACACCCTGTTGCAAGGCCCGGTGAAGCAGCGCGACAAGCGCAACCGCGGCCTGTCCACCGACGACCACAGCGCCCTGGCCGGACTGTTCGACGAGCTGTTCCAAGACAACAGCCTGACCGTCGCCGGGCTGCGCCTGCGCCGCTTCGACATCACCAGCGCCACCACCCAGAGCCTGGTCGCCTACTACGCCCGGATCAACATCATGAACCTGAGCCGCGCGCTCGACTCCCAGGACGGGCAAGGCCCGACCTGCTACGAGCGGCTGACGGAACCGGACTCGCCGTTCACCCTGCGCATCGGTCACGCCTACCACTACCGCAACTACATCGCCAGCAAGTACCCCGCCCTGCTGTTCGACACCAATCTCGGCAGCAACTTCATTACCGGTGCCGCCGGCCTGTTCGACTCCGCCCAGGCTTACCGTCTCAATCGCGGCCTGCGCCACCTGAATGGTTTCATCGGCACCGACGTGCTGCGCGAGCTGATCGATGCCGTGGCCTACCAGGGCGAAGAGCGCCTCGACCAGTCCCAAATCGACTACGTCTATGGCCTCACCGCGAGCGATGCGGCCTTCCACCAGGGCATGCAGCACTTCGCCCAGCACCTGCCGCCGGGAACACCCGAGGCGATAGGCGACCGGCTGCGCTTCTACTTCCAGCGGCAATGCGACCTGCATCGACCGCTCTGCGAGGGCAAGGGATACCCACTGCTGCAGCTCTACCTGAAGCTGTTCGCCCAGGTGTTGAACTGGCGCTCCTACCTGCTCGGCGCCGACGGCCAGGGTGTGGAGCATTCCAACGTCCAGGACGAGGCCATGCGCATGAGCATCTTGCTCAACTATGGCCTGACCAGCCGTGAGGGCCGGATTCTCGAAGCGTCGCTGGAAAACACCCACCGACTCTTCGTCGCCTTGGGCAAGGCGTACTGGGACGCCACCATTGGCACGCCCGGGGAGCCGGCCATCGCCCTCGAGTGGCGCCGGCTGAGCCGGCTGGAAGGCTTCGAATCGCCCGACTCGGTCGTGCTGATCGAGTCGCGGCGAATCTGA	MAYFTLDKPTLFMGYPFDFHSHFAGILPVESRMHWSAADWPAQPIPLPKGRSTTFQVAKGQELSLIGLLMAKNGIHPNAPHEAREKAREAAHYELFELALQRTIARNPFLAFDKEAYLRGECAAESTYLACAILLQRFGNLGVAPAIDQPDLYRAVAELLRSEAVRDTETFELVRYFNRKIWTANKYTPFDDAYWTRGIIRDRHPELFAGFTLCFLREEGIAYTQTATGEDEIDDLNALFAAFNQAHGTAYRLLAHTAHGYTALTPFNKDLAAIRTHFELVGDTPKSPTLVGIDLLGAETRTGFYRDFFAFVLGSLPLFKTYADKNPDTRKVVLHIHCGEGTGISDNNRSLCGYFLRNATHVEPGVFYRNLCAYAYKCYANTLLQGPVKQRDKRNRGLSTDDHSALAGLFDELFQDNSLTVAGLRLRRFDITSATTQSLVAYYARINIMNLSRALDSQDGQGPTCYERLTEPDSPFTLRIGHAYHYRNYIASKYPALLFDTNLGSNFITGAAGLFDSAQAYRLNRGLRHLNGFIGTDVLRELIDAVAYQGEERLDQSQIDYVYGLTASDAAFHQGMQHFAQHLPPGTPEAIGDRLRFYFQRQCDLHRPLCEGKGYPLLQLYLKLFAQVLNWRSYLLGADGQGVEHSNVQDEAMRMSILLNYGLTSREGRILEASLENTHRLFVALGKAYWDATIGTPGEPAIALEWRRLSRLEGFESPDSVVLIESRRI				NA	NA	NA	NA	NA
BMS010_01545	651			hypothetical protein	ATGTTCGGCTTCGGCAAGAAACCCGCTTCTCCAGAAGGCACCGGCAACGGGACGGCACCACCCGCGCCCGATGAAACGGCGAGCACGCCCGCACAGGACGATCCCCCGGCCACGCCCGGCCCCGGCGTCGCGCTGCCGAAGCGCCCGTCGACCCTGTCGGCGATGACCGACCGCCTGCTCAACCAGTCCGGCAAGGCCACGCCGCCCGACACCAGTGCGCTGAACAGCCAGATCGTCCAGGCGGTGCAGTTGAGCAACGCGGAAACCGCCAGCTATGCGCCGTCGCAGATTGCCACCGCGCCGGACATGATGATCAGCCAGGCCTCCGCGCTGGTGGCGCAGTCCGCCGCCAACTACTTCGACGGCGTGAGCAAGATTGCCCTGGCGAGCCAGGCCGTCCTGCTCAAGCAAATGACCGAGAACATCGCCGAGAACAAGCTCGCCCAGGCCGCCGAGGACGCCCTCGGAGCGCTCGCCACCGACCTGCTGATGGGGGCCGCCGCCGCGGTTGCCGCAGCCGCCGGCGCACTCGAAGCCGAATCGGCCAGTTTCGCCATCGACAAGATCGACCAGAGCATCGCGAAGTACGCCGACACCCTGGCCAACCGCAACGGCAAGACGACGCCGCCCTCCGGCGGCGACGCGTCCTGA	MFGFGKKPASPEGTGNGTAPPAPDETASTPAQDDPPATPGPGVALPKRPSTLSAMTDRLLNQSGKATPPDTSALNSQIVQAVQLSNAETASYAPSQIATAPDMMISQASALVAQSAANYFDGVSKIALASQAVLLKQMTENIAENKLAQAAEDALGALATDLLMGAAAAVAAAAGALEAESASFAIDKIDQSIAKYADTLANRNGKTTPPSGGDAS				NA	NA	NA	NA	NA
BMS010_01546	240			hypothetical protein	ATGGCAGACAACACAGAGGTCAATCCGCAGATCACCGACGCCGTCACCCAGACCAACGTCAAGGTGGTGGCCGAAGCCCCGGCCCAGGCCATCGCCTCGCTCTATCAGGTCGCCAGCCACTCGGCCGGGCTATCGCTGCAGAACGCCGTGTACAGCCAGCAGGCCCTCAACCAGATCTCCACCGCCGTGGTCTCCAAGGCCGTGTCGATGATCATGGCGATCGGCGAAAAGACCTCGTGA	MADNTEVNPQITDAVTQTNVKVVAEAPAQAIASLYQVASHSAGLSLQNAVYSQQALNQISTAVVSKAVSMIMAIGEKTS				NA	NA	NA	NA	NA
BMS010_01547	594			hypothetical protein	ATGGAGTGTCTTACCCGGCTGAATGGTGGCTTCCTCGGCATCGACCGGCTCTTCGAGCAGAGCTGGCGCGCCGTCCAGCCTAACCTGCGCAAACGCGCGCAGCGCCTGGCCCGGGGCGATCGCGAGCGGGCCGAGGAGTGGCTCAGCAACACCGCGCTCAAGGCCCTGCTGTTCCTCCGCCGCACCCCCGAGCGCATTCGCGACCCCGAGGGCTTCATGTTCCTCGTCCTGGAACATGTCTACCTGGACAGCGCCCGCCATCACCAGCGCGAGAACCGGCTGTTCGACCATGGCGTGGACCTGCACAGCGAGCAGATCGACCGCTTCGCCTCGCCCGCCAACCTCCTCGAACGCCTCGAACAACTGGAGCGGCTAGCTCAGATCGGCGCCGCGGTCGCCCGCCTGCCGCTGCCCCAGCAACGCCTGTTCGAGCTGCGCTTCATCGAAGATCGCCCTTATGCCGACATCGCCGACGAACTGGGCATCACCCAACCCCTGGTGCGCAAACGCGTGCAATTGCTGCGCAGCCGGTTGGGCGACCAGCTTTTTTCACAAGGGCGTTCACAAAGCGGCGGCAGCCGCGTTCCTTCCTGA	MECLTRLNGGFLGIDRLFEQSWRAVQPNLRKRAQRLARGDRERAEEWLSNTALKALLFLRRTPERIRDPEGFMFLVLEHVYLDSARHHQRENRLFDHGVDLHSEQIDRFASPANLLERLEQLERLAQIGAAVARLPLPQQRLFELRFIEDRPYADIADELGITQPLVRKRVQLLRSRLGDQLFSQGRSQSGGSRVPS				NA	NA	NA	NA	NA
BMS010_01548	735			hypothetical protein	ATGCATTCGAACGAGTCAGCGGAAGACAGCCTTCTGCGTCGCGAAACCCTGTCAGGACAATCTCACCTGTTGCACGGCCTGCCGGCAGAGCTGATCCGGCATGTCGCTCTCCATTCGACCGAACGGACCCTGCGTGACAAGGACGTGCTGTTCCTCAAGCACGACCCCGACGACTTCATCGCGCTAGTGATCGCTGGGCAGATCTACACCGTTCTCTACGGGCCGGACGGCCGCGAGTTGATCATCAACGACATCGGCCCCGGCGAGGTGGTGGGGGAAACCGCGCTGATCCAGCCGAGCCGGCGCGAGACCTCGGCCTATGCCTCAGGCCCCACGCAGGTGCTGATCCTGGGCCGGCGCCACTTCGCCCCGCTGATCGCCAACCCGACCTTCCTCGAGCGCGCCCTCGCCCTGCTCTGCTCGCGGCTGCGGGAAGCCTCCAGCTTCGTCGAGATGGTCTGCCTGCATCGACTGGAATCCCGCCTGGCGCGCTACCTGCTGGCCAGCCTGGCGCAGGATGCGTCTGCCTCCGACGCGGCCAGCGCGGCGTTGCCGGCCAACCAGAGCATCCTCGCGGCGATGCTCAATGCCAGCCGGCCGAAGCTCAACGCCCAGTTGCAGAGCTGGAAGCGCCAGGGCCTGATCAGTTGCCGCAGCGACCGCATCCTGATCAACGACATCGGCCAGTTGCGGCGCATGGCGGAACTGCCCTCCGGCACGGTGTCACCCAGGTAA	MHSNESAEDSLLRRETLSGQSHLLHGLPAELIRHVALHSTERTLRDKDVLFLKHDPDDFIALVIAGQIYTVLYGPDGRELIINDIGPGEVVGETALIQPSRRETSAYASGPTQVLILGRRHFAPLIANPTFLERALALLCSRLREASSFVEMVCLHRLESRLARYLLASLAQDASASDAASAALPANQSILAAMLNASRPKLNAQLQSWKRQGLISCRSDRILINDIGQLRRMAELPSGTVSPR	PGPT0015075_800	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-CARBOHYDRATE_LIMITATION_SIGNALLING,PGPT0015075-clp|crp-K10914	NA	NA
BMS010_01549	1158			hypothetical protein	ATGACGACTGCATTGGCTCTTCTGCCGCTGGCCATGGCCCAGGCCGCCCAGGTCGACCTGCTGGTGACCTACGACGACTACAGCAACACCTATTTCAATGGCGACGTCCAGGCCGCCATGCAGAGTTGGGTCGAACAGATCAACACCATGTACACGAACAGCCAGGTCGACGTGCAACTGCGTCTGGTCGGGGTCATGAACCGAAACGACGCCGATACGGATATGGACAATGTGCTGCACAGGTTGCGGGTGGACAGCGCCGTGGCGCAGAAGCGCGCCGAGCTGGGTGCGGACTACGTCACTCAGTTGCACAAGGGCAACGACAACTACTGCGGCGTCGGCTACCTGGCGATCCATCCGGATTGGTCGTTCAGTGTGGTAGGCGCGGACTGTGGCGCCCAGTCCATGGCCCACGAACTCGGCCATACCATGGGGCTGCACCACTCCCGGCGCCAGGGCAACACCAGTGGTGAACGCTACGATTACGCCCTGGGATACGGCGTCGATGGCGTGTTCGCCACCATCATGGCTTACGGGAGCGTCTTCGGTGCTCCCTCGATACCCAAGTTTTCCAACCCTCGGATTACCTGCAACGGCCTGCCCTGCGGCGTGGAGGCCGGAAAGCCCGAACAGGCGGATGCCGCGCTGGCCATCAACAACGTGCGCGACGAAATCGCCGGCTTCCTGCCGACCAAGGTCACCCAGGCAGCGCCGGCAACCGCGACCCTCGCCAACGGCACCTACAGCATCAAGGCCAAGCACAGCGGCAAGTGCCTCGATGTGACCGGCGCCTCGACGGCAGATGGCGCGGCGCTGATCCAATGGACCTGCCACCTGGCCAACAACCAGCGCTGGATTCTCACCGCGCTGGGCGACGGCTACTACGAGGTTAAATCCAAGCACAGCGGCAAGTGCATGGACGTCACCGGCGCCAGCATCTCGAACGGCGCGCGCCTGCAGCAATTGGCATGCTCGCGCGGCAACCAGCAGCAGTGGCTCATCGAAGCCCAGAGCGACGGCAACTACCGCATGACCGCACGCCACAGCGGCAAGGTCGCCGATGTGCTCGGGGTATCGCTGAACAATGGCGCGGCCCTCACCCAGTGGAACTGGCAGAACGGCAACAACCAGCAGTTCACCTTCACACGCCTGGAATGA	MTTALALLPLAMAQAAQVDLLVTYDDYSNTYFNGDVQAAMQSWVEQINTMYTNSQVDVQLRLVGVMNRNDADTDMDNVLHRLRVDSAVAQKRAELGADYVTQLHKGNDNYCGVGYLAIHPDWSFSVVGADCGAQSMAHELGHTMGLHHSRRQGNTSGERYDYALGYGVDGVFATIMAYGSVFGAPSIPKFSNPRITCNGLPCGVEAGKPEQADAALAINNVRDEIAGFLPTKVTQAAPATATLANGTYSIKAKHSGKCLDVTGASTADGAALIQWTCHLANNQRWILTALGDGYYEVKSKHSGKCMDVTGASISNGARLQQLACSRGNQQQWLIEAQSDGNYRMTARHSGKVADVLGVSLNNGAALTQWNWQNGNNQQFTFTRLE				NA	NA	NA	NA	NA
BMS010_01550	798			hypothetical protein	ATGCCACTACACCACAAGGCGGCGCTCGCCTGCGCTGCCATACTCTGCACGGTCGCGTCCATCGGCTGGCTATTGGCTTCCGGCACCCAGGCCACCGATCACCAGGCCGCCTCGGTGAAAGCTGATTCCCCTACCGCTTCGATCCAACCGGGCAAGGCCGTACCGGGCGCGGTCGACACGGCCGCAGCGCAGGTCGGTAAATCGAAGCAGGACGACGAAAAAACGCTGCAACTGCTCATGCAGCCCGATCCCAACCCCTACTACGCCACCTTCGGCGACCGCCTGCAGGAAGTGTTGGCACGGCGCGACGGCCAGACCGTGGACGCGAAGAAGCTCTGGGCGGCGCTGCAGGAAAAAGCCGCCTGGAAACCCCTGGAGGGCTCGCCCGACCAGCTGCCGCTCACGGCGGAACAACGCAGCGACGGGCGTGAATTCATCAGCATCGATCCGCTCAAGATCGAATCCCTGGTTCCCGGCGATCACCTGGAAGTGCCGATCGCCCAGGCCAACCAGACCTACAACGTCGTCATCGATCACGTGCGGTCGACGGACGGCCAGAGCATGACCTGGTCCGGCCATATCGAGGAACTCTCCCAGGACAACCAGGTGACGATCACCCGGGGCAACGGGCTGATCGTCGGCGGCATCACCACCCCCCAGGGCCTCTATGCCCTGCAGGCCCACGGCAGCCAGGGCTGGATCGCGACCAGCGCCACCCTGTTCAAGAAGGGAGACAAACACATCGAGGTCCCGTCCAGCCAGGACAACGCGGCCACCGATAACCACGCCGGGCACTGA	MPLHHKAALACAAILCTVASIGWLLASGTQATDHQAASVKADSPTASIQPGKAVPGAVDTAAAQVGKSKQDDEKTLQLLMQPDPNPYYATFGDRLQEVLARRDGQTVDAKKLWAALQEKAAWKPLEGSPDQLPLTAEQRSDGREFISIDPLKIESLVPGDHLEVPIAQANQTYNVVIDHVRSTDGQSMTWSGHIEELSQDNQVTITRGNGLIVGGITTPQGLYALQAHGSQGWIATSATLFKKGDKHIEVPSSQDNAATDNHAGH				NA	NA	NA	NA	NA
BMS010_01551	300			hypothetical protein	ATGACAGCGCACGATCCACGGCTGGTGGGAAGCTGGCAGAAGATCGACGACGCGGCCTGCGCGGCGAAGTACGCCGCGCACCTGCGCTTCGAACCCACCGGTCTCTACTTCGGCAGCACCGAACCCGCCGGCGGCTTCACCTGGTGGGACGGAGGGACTTGGGCGACGGAGGTCCCCGGCCGTCTCGCGCTGTCCATCGCCAACGACGAAGTGGTCATCTACGCCTATTCGCTCGACGACGACACCTTGACCGTGGATGACCCTTCGGGGTGTCGCTTCCGCTATCGCCGAGCCCTTTGA	MTAHDPRLVGSWQKIDDAACAAKYAAHLRFEPTGLYFGSTEPAGGFTWWDGGTWATEVPGRLALSIANDEVVIYAYSLDDDTLTVDDPSGCRFRYRRAL				NA	NA	NA	NA	NA
BMS010_01552	2184			hypothetical protein	ATGTCCAGCCATTCCCGAACCACGACGTTCCCGCCCCTCCCCGATCTGCTGACCTCGCCGACCCGCGCCGATGCGCCCACCGCGGCGCTGGACCCGTCGATCGCGACCGCGTCGCTGGGATCGATCGTGTTTCCCCCGATCCATTCCCTGCGCGCCGGCTGCTGGCTGCTGAACTACAAGCCCACGGGTGCGCCGCTGGTGTCCTACGACGGTACCCTGCGGGTAGAAAGCCATAGCGGCGGCCGTACCGTCAGCGGCGACCTCTACCAGCGGCCCGTGATCTACCTGCCGCTCAACCTGAGCGCGCCCCTGCCCGCCCAACCGGGCAAACCGACGCTGGTGCCCGAGCTGTCGTGGAAGCCCATCCTCCTGGGCGGCCCGAACCCGGCCAACGGCATCCCGATCCTGGCACGCTCGCGCTACCGCTATTACGTGCGGGTGACCGCCTTGCCGGAGTACTTCTACTTCGGCAACACCTTCACCCTCGGCTTCGAGCTGTGGCGCTTCACCGCGCCGAACACTTGGGTGAACGAAACCACGCTGACCGCGCAGATGGTGCGCATGAGCGGCCCCGCGGGCTATCCGTCCCCTGCCGACTACGCCGAAGGCGATGTCAGGAACGCATCTAACACGGTCGTCGGCCGCCTGACCATGGGCTGGCTGTCCACCTACTACCGCCGCTGCACGGTCGAGATCGACACCGTGAGCGGCTCGGAGCGGCCGCTCGCCAGCGGCGTCGGCCACACCTGGCAAACGGTGATGGACGAAGTCGGCTGGCAAGTGAACCTGCACCTCAGCGACGTCGATGTCGCCGAGGCCAGCGGCGCCTCCTGGTCCAATACCGAGATGCACGCCTCCATGCTCGCCCGCCGCGCGGCCACCAACCTCGACAGCGAATGGCGCTACCACGTGCTGGCGGTGAAGAACATCGACTCGACCCCACGCGGGATCATGTACGACAACGGCGGCACCGACTCCAACAACGTGCCGCGCGAAGGCATCGGCATCGCCTCGCACTGGATCATCGATGCCGGCTGGGGCACGGTCAGCGGCCAGCGCTTCGGCACCGCCGACGCGCCCTACTTCCGCACCGCCGTGCACGAGATCGGCCACGCCATGGGCCTGTACCACAACTTCGCCGACCTCGGCTTCATGTGCACCAGCGACGTGATCGCCGCCGCCGGCACCCCCGGCACGCCATTCCCCAGCAACATCCAGTGGTCGTTCCATCCGGACAACCTCAAGCAACTGCGCCACTACCCCGACCCCTTCGTGCGTCCCGGCTCGGTGGCGTTCGGCGGCGCCTCGATGAACACGCCGCTGATCACCCCCACCGACCTGGAAATCGATGTGGAAGGCCTGGCACTGGAAGTGAAACCGCTGCTCGCCGAACTGCCACTGGGAGCACCGGTGCGGGTGGACATCGCCCTGGTGAACCGTGGCGACCGCGCGATCCGCGTCCCGGCCAATCTCAGCCTGAAAGGCGAGTTCGTCAGCGGCAGCGTGATCGATCCGGCCGGCACTTCCCGCTCGTTCCGCACCGTGGTGCACTGCCTGGAGGATCACGCCTTCAACCTGTTGCAGCCGGGCGAGCGGATCGAAGACTCCATGACCCTGCTGCGTGGCGCCGAGGGCGCCCTGTTCGGCACCTCGGGCGTGCATGAAATCCAGGTCGAGGTGCACTGGGACGTGGAAGGCATGGTCGCCCGCGTGGCCGGCAGCACCACCGTGATGGTGACCGCCGCGGTCGATGCCCGGCATGCGGAAGCGGCGCACCAGATCCTGGCGACGCCCGATGCGCATCTGGTGCTGGCCATCGGCGGCGACCACCTCACCGAGGGCATCAAGGCGATCCAGTGTGCCCTCGACTCGCCGGTGCTGCGGCCGCATTACGCGGTCATCGAAGCCAAGCGGGTCGCGCGCCGCTTCAGGAACCGCAAGGCCGACCTCAAGGCCGCCGCCGCGCTGCTGGAAGACAGCTGCGTGATGAGTCCCCGTGAACTGGGCAAACTGGCGAAAGCCGCCAGCCAGGCCGATACGGGCGGCGCACCGCTGAAAGAACTGTCCAAGCAACTCAAGGCGCGGGCGAAGAAAATGGCCCTGCCGGTTGCCGACCGGCGGGCGCTGGATGCGCTCGACGAGCGCGACAACGGCAAACCCGATACGCCCCGCCTGCGCGCTTGA	MSSHSRTTTFPPLPDLLTSPTRADAPTAALDPSIATASLGSIVFPPIHSLRAGCWLLNYKPTGAPLVSYDGTLRVESHSGGRTVSGDLYQRPVIYLPLNLSAPLPAQPGKPTLVPELSWKPILLGGPNPANGIPILARSRYRYYVRVTALPEYFYFGNTFTLGFELWRFTAPNTWVNETTLTAQMVRMSGPAGYPSPADYAEGDVRNASNTVVGRLTMGWLSTYYRRCTVEIDTVSGSERPLASGVGHTWQTVMDEVGWQVNLHLSDVDVAEASGASWSNTEMHASMLARRAATNLDSEWRYHVLAVKNIDSTPRGIMYDNGGTDSNNVPREGIGIASHWIIDAGWGTVSGQRFGTADAPYFRTAVHEIGHAMGLYHNFADLGFMCTSDVIAAAGTPGTPFPSNIQWSFHPDNLKQLRHYPDPFVRPGSVAFGGASMNTPLITPTDLEIDVEGLALEVKPLLAELPLGAPVRVDIALVNRGDRAIRVPANLSLKGEFVSGSVIDPAGTSRSFRTVVHCLEDHAFNLLQPGERIEDSMTLLRGAEGALFGTSGVHEIQVEVHWDVEGMVARVAGSTTVMVTAAVDARHAEAAHQILATPDAHLVLAIGGDHLTEGIKAIQCALDSPVLRPHYAVIEAKRVARRFRNRKADLKAAAALLEDSCVMSPRELGKLAKAASQADTGGAPLKELSKQLKARAKKMALPVADRRALDALDERDNGKPDTPRLRA				NA	NA	NA	NA	NA
BMS010_01553	1191	fliC_1		A-type flagellin	ATGGCTTTGACCGTCAACACTAACGTTGCATCGCTGAACACCCAGCGCAACCTGAACACCTCTTCCAAGGCTCTGGATGTGTCCCTGCAGCGCCTGTCCACCGGTTCGCGCATCAACAGCGCCAAGGACGACGCCGCCGGCCTGCAGATCGCCAACCGCCTGACCAGCCAGGTCAACGGCCTGAACATCGCCGTCAAGAACTCCAACGACGGCATCTCCATGGCCCAGACCGCTGAAGGCGCCCTGCAGCAGTCCACCTCCATCCTGCAGCGTATGCGCGATCTGGCCCTGCAATCGGCCAACGGCTCCAACAGCTCCGAAGAACGCAAGGCACTGAACTCCGAAGTGACCGAGCTGAAGAAGGAACTGGACCGTATCGCCAACACCACCTCCTTCGGTGGCAAGAAACTGCTCGACGGTACCTTCGGCACCACCACCTTCCAGGTCGGTAGCGCCGCGAACGAAACCATCAGCGTCAAGATCGACGAGATGAGCACCGAGTCGATGGAGGCTACCTTCTCCTCCGGCAGCATCAGCGCGAGCGACGTTGCTGCGGGTGCGGCCAACGCATCGGGTGCCATCGCCATCTCCGTGACCATGGCCAACGGCACTGCCAAGACCTTCAGCGCCACCTTCGCCAGCGGCGCCACCCAGGCCGAGCAGGTCCAGGCCCTGGCCACCGTGATCAACGACGCCAACATCGGCATCGGTGCCTTCGTCAACGACTCCGGCGACATCGATCTGGTGACCGCTCTGGGTTCGGGCAGCTCCGCCGGTGAGATCGAGAGCTTCTCCTTCGGCTCCGGTGCTTCCATCGACGCCGCGGAAACCGCTGCGACCACCACCGCTGTCAGCCTGGCCGACGTGACCGACGACAACCTGGTTGCCGACGTGGACATCACCGACACCATCGGTTCGCAGAAGGCGGTGATCATCATCGACCAGGCGATCCAGAAGATCGATGCGCAGCGCGCCGACCTCGGTGCGGTCCAGAACCGCTTCGAGAACACCATCGGCAACCTGCAGAACATCGGGGAGAACGTGTCGGCCGCACGCAGCCGGATTCAGGACACCGACTTCGCTGCCGAAACTGCTAATCTGACCAAGAACCAGATTCTGCAGCAGGCCGGTACCTCGATCCTGGCCCAGGCCAACCAGCTGCCGCAAGCAGTGCTCAGCCTGCTGGGCTAA	MALTVNTNVASLNTQRNLNTSSKALDVSLQRLSTGSRINSAKDDAAGLQIANRLTSQVNGLNIAVKNSNDGISMAQTAEGALQQSTSILQRMRDLALQSANGSNSSEERKALNSEVTELKKELDRIANTTSFGGKKLLDGTFGTTTFQVGSAANETISVKIDEMSTESMEATFSSGSISASDVAAGAANASGAIAISVTMANGTAKTFSATFASGATQAEQVQALATVINDANIGIGAFVNDSGDIDLVTALGSGSSAGEIESFSFGSGASIDAAETAATTTAVSLADVTDDNLVADVDITDTIGSQKAVIIIDQAIQKIDAQRADLGAVQNRFENTIGNLQNIGENVSAARSRIQDTDFAAETANLTKNQILQQAGTSILAQANQLPQAVLSLLG	PGPT0015190_1877	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015190-fliC|laf1|lafA|fla1|hag-K02406	NA	NA
BMS010_01554	384			hypothetical protein	ATGGACATCAGCTCGATAAACGATTGGTCTGTGCCGCGCAGCACCCAGCCCACCGTCTCCAGCACTGCTCGGGAAGCGGCCTCCAAGCCGGCCGAGCCGACTGTCGCCAGCACCAAGGCCACCGAGGCCGAGCGCGACGGTAGCGTCGCCGCCGCCGTGAGCCGGGGTCAACTGGAAGACGCGGTGAGCAGCATCCAGGAGTTCGTGCAGTCGGTCCGACGCGACATCAATTTCTCCCTCGACGATGGCAGCGGCCGTATCGTCGTCAAGGTCACCGATGCCGCATCCGGCGACGTGATCCGACAGATTCCCTCCGAAGAGGCGCTCAAGCTCGCGGAAAGCCTTTCGGAAATGCGCAGCCTGTTATTCAAGACCCAGGTCTGA	MDISSINDWSVPRSTQPTVSSTAREAASKPAEPTVASTKATEAERDGSVAAAVSRGQLEDAVSSIQEFVQSVRRDINFSLDDGSGRIVVKVTDAASGDVIRQIPSEEALKLAESLSEMRSLLFKTQV				NA	NA	NA	NA	NA
BMS010_01555	1380	fliD_1	COG1345	B-type flagellar hook-associated protein 2	ATGGCTGGCATCACGGGTTTGGGTTCCGGAATCGATATCGATTCCATCGTTTCTGCGCTGACAGCGGCCGAGAAGGCGCCGAAGGAAGCGCAGCTCAAGCGTCTCGAAACTCAGACGACCGCCAAGATCTCCGCCCTGGGGACGCTCAAGAGTGCGGTCAGCGACTTCCAGAGCGCCATCAAGGGGCTGAACGACCTCAGCCTGTTCGATACGCGCAAGGCGACCTCTTCCGATACCGCGCGACTCACCGCGACGGTCGGCAAGACAGCCCTTGCCGGCAAATACAGCATCGAAGTCACCCAACTGGCATCGGCGAGCAAGATCGCATCCGGCGCAGTGAGCGGCGACTCCACCTCTACCTTTGCCGCTGGCGGTACTTTGACCATTGGCCTCGGCAGCTCCAGTTTCGACGTGAACATCGCCGACGGCGCCAGCCTCAAGGATGTTCGCGATGCGATCAACACGCAGCTCAAGGACCAGGGCATCAGCGCCAATATCGTCACCGACCCGGTAGCCAATACCTCCCGGCTGGTGCTGTCGTCGAACAAGACCGGTGCCGGCAACGACCTGACCATGAGCGTTGCCGATGCGGGCAGCGATCTCCAGTCGCTGGTCACCAACATGCCGGCGGCGCTGAGTACCGCAGCCAACGCCAAGTTCAAGATCGACGGCCTGGAAATCGAAAGCGAGAAGAATTCCGTCAGCGGCGTCATCGAGGGCGTGACCCTCGATCTGCTGCAAGCGGAGACCGGCAAGACCGTCACCCTGACCGTCGGTGAGAACACCTCGGCGGTGAAGGACAACCTGAAGAAATTCGTCGACGCCTACAACAAGCTGATGTCCACCACCAAAACGCTGACCAGCGTGGTATCGGTGGGTGAAGGCAAGGAGCCGGTCACCGGCAACCTGGTCGGCGACGCCACGGTGCGCAGCCTGGTCAGTGGCGTGCGCAGCGAGTTGACCAATCCCGTGGGGAGCGGCGACCTGCGCGTGCTGGCCGACCTTGGCATCACCACGCAGAAGGATGGCACGCTGAAGATCGACGACACCAAGCTCGGCGAAGTGCTGGACAGCAACTATGACGCGGTCGGCAGCTTCCTCACCGGCGACAACGGTCTGATGGCCCGTCTGAACAACAAGGTCGATGGCTATACCAAGACCGGCGGCGTGCTGGAGCAACGAGTCAGCGGCCTGCAGCAGACGCTGAGTAGCGTCGACGATCAGAAGATCCAGCTCAATGCACGCATCGCCAAGATTCAGGAACGCCTCTACACGCAATACAACGCGATGGACTCCCTGGTCGGCCAGTTGAAGCGGACCAGCGACTGGATGTCCGGTGCGTTCTCCAACCTCCCCGGTGTCGTCAAGAAGAGCAACTGA	MAGITGLGSGIDIDSIVSALTAAEKAPKEAQLKRLETQTTAKISALGTLKSAVSDFQSAIKGLNDLSLFDTRKATSSDTARLTATVGKTALAGKYSIEVTQLASASKIASGAVSGDSTSTFAAGGTLTIGLGSSSFDVNIADGASLKDVRDAINTQLKDQGISANIVTDPVANTSRLVLSSNKTGAGNDLTMSVADAGSDLQSLVTNMPAALSTAANAKFKIDGLEIESEKNSVSGVIEGVTLDLLQAETGKTVTLTVGENTSAVKDNLKKFVDAYNKLMSTTKTLTSVVSVGEGKEPVTGNLVGDATVRSLVSGVRSELTNPVGSGDLRVLADLGITTQKDGTLKIDDTKLGEVLDSNYDAVGSFLTGDNGLMARLNNKVDGYTKTGGVLEQRVSGLQQTLSSVDDQKIQLNARIAKIQERLYTQYNAMDSLVGQLKRTSDWMSGAFSNLPGVVKKSN	PGPT0015200_1553	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015200-fliD|flaB-K02407	NA	NA
BMS010_01556	393	fliS_1	COG1516	Flagellar secretion chaperone FliS	ATGAGTTCGATCGATACCTACAAGCAGGTCAAGACCAGCGTCGAAGTGTCCCCCTACCAGGCGGTGCAGATGCTCCTGGCTGGCGCCCTGGAGCGTATCTCCCTGGCACGCCTCGCCCAGGCGCAAGGCAATCGCGAGACGCGCGGCGTGGCGGTCGGTTCCACCATCAGCATTCTCGGTGTGCTCCAGGCGAGCCTGGACAAGCAACTCGGCGGCCAGATCGCCGAGAACCTCGACGCGCTGTACGACTACATGACCCGGCGCCTGGCCGGCGTCGCCCTGGAAGATACGCCACGCAGCCTTGACGAGGTCGAAGCCTTGCTGTTGCAGATCAAGGAAGCCTGGGACGCCATCGGCGAGCACGAAGAAGTCAAGGCGACGAATTTGCCTTAA	MSSIDTYKQVKTSVEVSPYQAVQMLLAGALERISLARLAQAQGNRETRGVAVGSTISILGVLQASLDKQLGGQIAENLDALYDYMTRRLAGVALEDTPRSLDEVEALLLQIKEAWDAIGEHEEVKATNLP	PGPT0015620_1512	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_CHAPERONES,PGPT0015620-fliS-K02422	NA	NA
BMS010_01557	381	fliS_2	COG1516	Flagellar secretion chaperone FliS	ATGAATGCAATGGCAGCCCTCAGGCAATACCAGACGGTGAATACCCAGGTCCAGGTGTTGGATGCCAGCCCGCATCGTCTCATCCAGATGCTCTTCGAAGGCGGCCTGGCCCGCCTGGCACAGGCCAAGGGGGCTCTGGAGCGTGGGCAGACCTCGCTCAAGGGCGAGCTGATCGGCAAGGCCATCGCCATCATCGGCGGCCTGCGGGAAGGTCTGGACCACCAGAAGGGCGGCGAGATCGCGGCCAATCTGGACAGTCTCTACGAATACATGGTCTCCCGACTGGTCGAGGCCAACGTGAACAACGACGTGGCGCTGGTCGACGAAGTGGCGGGCCTGCTGCGGGAAGTCAAGACGGGCTGGGACGGCATTGCCTCCTGA	MNAMAALRQYQTVNTQVQVLDASPHRLIQMLFEGGLARLAQAKGALERGQTSLKGELIGKAIAIIGGLREGLDHQKGGEIAANLDSLYEYMVSRLVEANVNNDVALVDEVAGLLREVKTGWDGIAS	PGPT0015620_1994	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_CHAPERONES,PGPT0015620-fliS-K02422	NA	NA
BMS010_01558	297			hypothetical protein	ATGAATCCAGCTTTTCAGCGCCTCGAAACAACCGGTTCGGCTCTGCGCGACGCACTGTCGCGGCAGGACTGGACGGCCATCGGCGAGCTCGATCAGCAATGCCGCCTGGCCGTGGAAGAGGCGATGGACGCCGAAACCAGCGACGAGAACCTGTTGCGCAGCCGCATGCAGGAGTTGCTGTCCCTCTATCGCGAGCTGATCGCCGTCTGCAGCCGTGAGCAGCAGCGTCTGGCCGGCGAGCTGATCCAGCTCAACCAGTCGGCCCAGCGTGCCAAGGTCTACCAACTCTTCGGTTGA	MNPAFQRLETTGSALRDALSRQDWTAIGELDQQCRLAVEEAMDAETSDENLLRSRMQELLSLYRELIAVCSREQQRLAGELIQLNQSAQRAKVYQLFG	PGPT0015625_860	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_CHAPERONES,PGPT0015625-fliT-K02423	NA	NA
BMS010_01559	1476	atoC_2	COG2204	Regulatory protein AtoC	ATGTGGCGTGAAACCCGAATCCTGCTGGTCGACGATAACAACGAGCGCCGCCGCGATCTGGCGGTCATCCTGAACTTCCTGGGCGAGGAGCATCTGGCCTGCGGCAGCGCCGACTGGCGGGCCGCTGTCGAATCCCTGGATGCCAGCCGCGACGTGCTGAGCGTCCTGCTCGGTTCCGTCGAGTCGAAGGGGGGAGCGCTGGAGCTGATCAAGCAGTTGGGCAACTGGGACGAATACCTGCCGCTGGTGTTGATCGGCGAATCGGCGCCGCCGGAGTGGCCGGAAGACGTGCGTCGGCGTGTACTCGCCAGCCTGGAAATGCCGCCCAGCTACAACAAGTTGCTCGATTCCCTGCACCGTGCCCAGGTCTACCGCGAGATGTACGACCAGGCCCGCGAGCGCGGCCGCCAACGCGAACCGAACCTGTTCCGCAGCCTGGTCGGCACCAGCCGTGCCATCCAGCACGTACGGCAGATGATGCAGCAGGTCGCCGATACCGAGGCCAGCGTGCTGATCCTCGGCGAGTCCGGGACCGGCAAGGAAGTGGTGGCGCGCAACCTGCATTACCATTCCAAGCGTCGCGAGGCGCCCTTCGTGCCAGTGAACTGCGGCGCGATTCCGGCCGAGTTGCTGGAAAGCGAACTGTTCGGCCACGAGAAGGGTGCTTTCACTGGTGCCATCACCAGCCGCGCCGGGCGTTTCGAATTGGCCAACGGCGGTACGCTGTTCCTCGACGAGATCGGCGACATGCCGTTGCCGATGCAGGTGAAGCTGCTGCGCGTGCTGCAGGAGCGGACCTTCGAGCGGGTCGGCAGCAACAAGACGCAGACCGTGGATGTGCGCATCATCGCGGCCACCCACAAGAACCTGGAGAAGATGATCGAGCAGGGGACCTTCCGCGAAGACCTCTACTACCGGCTCAATGTCTTCCCCATCGAGATGGCGCCGTTGCGCGAGCGGGTGGAGGATATCCCCCTGCTGATGAACGAGCTGATCTCGCGCATGGAGCACGAGAAGCGTGGCTCCATCCGCTTCAACTCGGCGGCCATCATGTCGCTCTGCCGCCACGACTGGCCGGGCAACGTGCGTGAGCTGGCGAACCTGGTGGAGCGCATGGCGATCATGCATCCCTACGGGGTGATCGGCGTGTCCGAGCTGCCGAAGAAATTCCGTCACGTGGATGACGAGGACGAACAATTGGCGGCCAGCCTGCGCGAGGAACTGGAAGAGCGCGCGGCGATCAACGCCGGCCTGCCGGGCATGACGTCGCCGGCGATGCTGCCGCCCGAGGGGCTGGACCTCAAGGACTACCTCGGCAACCTGGAGCAGGGACTGATCCAGCAGGCCCTGGACGATGCCGGCGGCATCGTCGCCCGTGCCGCCGAACGCCTGCGTATCCGTCGTACCACCCTGGTGGAGAAGATGCGCAAGTACGGCATGAGCCGTCGCGACGACGAGGATCAGCCGGAGGATTGA	MWRETRILLVDDNNERRRDLAVILNFLGEEHLACGSADWRAAVESLDASRDVLSVLLGSVESKGGALELIKQLGNWDEYLPLVLIGESAPPEWPEDVRRRVLASLEMPPSYNKLLDSLHRAQVYREMYDQARERGRQREPNLFRSLVGTSRAIQHVRQMMQQVADTEASVLILGESGTGKEVVARNLHYHSKRREAPFVPVNCGAIPAELLESELFGHEKGAFTGAITSRAGRFELANGGTLFLDEIGDMPLPMQVKLLRVLQERTFERVGSNKTQTVDVRIIAATHKNLEKMIEQGTFREDLYYRLNVFPIEMAPLRERVEDIPLLMNELISRMEHEKRGSIRFNSAAIMSLCRHDWPGNVRELANLVERMAIMHPYGVIGVSELPKKFRHVDDEDEQLAASLREELEERAAINAGLPGMTSPAMLPPEGLDLKDYLGNLEQGLIQQALDDAGGIVARAAERLRIRRTTLVEKMRKYGMSRRDDEDQPED	PGPT0015560_161	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|VFR_SIGNALLING_PATHWAY,PGPT0015560-flrA|fleQ-K10941	NA	NA
BMS010_01560	1215	atoS	COG0642	Signal transduction histidine-protein kinase AtoS	ATGAACCCAGCCGCCCGCCCGCTAAACCCTGCCGAAACGGAACAGGCCATCGCCCTCGAGGATGCTGGCCGTGCCGGTCTGGAACAGACCCTGGCGCTGTTCAATCAGATGTCCTCCCAGCTCAACGAGTCCTACGGCTTGCTGGAGGCGCGCGTCAATGAATTGAAAGGGCAACTGGCATTGGTCAGTGCCCAGCGCATGCAGGAGCTGGCGGAAAAAGAACGCCTGGCCATGCGTCTGCAAAGCCTGCTCGATCTGCTGCCCGGCGGGGTCATCGTGATCGACGGCCAGGGCGTGGTCCGTGAGGCCAACCCGGTGGCGCGCAACCTGCTCGGCCAGCCCTTGGTGGGCCTGCTCTGGCGCCACGTGATCGCCCGCTGTTTCGCGCCGCGCAAGGACGATGGCCACGAGATTTCCCTGAAGGACGGGCGCCGCCTGTCCATCGCCACCCGTTCGCTGCAGGGCGAGCCGGGGCAACTGGTGCTGCTCACCGACCTGACGGAAACCCGTCGCCTGCAGGACCAACTGGCCCGCCACGAGCGCCTGTCCTCCCTGGGACGCATGGTGGCGTCCCTGGCTCACCAGATCCGCACCCCGCTGACCGCCGCCCTGTTGTATGCCAGCCATCTCGCCGAACAGGTGTTGCCGACCGAGCAGCAGCAGCGTTTCGCCGGGCGCCTGAAGGAGCGTCTGCACGAGCTGGAACACCAAGTGCGCGACATGCTGATCTTCGCCCGTGGCGACCTGCCGCTGCCGGATCGCCTGGCGCCTGCCGAGCTGTTCGCGGCGCTGCGTTCCGCCGCGGAGTCCCACGTGCAGGGCATGCAGGTTCGCTGGCAATGCGACGCTCGCGACGGCGAGCTGCTGTGCAACCGCGACACCCTGGTTGGCACCGTGGTCAACCTGATCGAAAACGCCATCCAGGCCGGTGGCAGCGACACCGGTTTGAAGATCCACCTCTATGCCCGGGGCGACGCCCTGCGCCTGTGCGTCAGCGACAACGGCCCCGGTATCGACGCCGCCACCCTGGCGCGCCTGGGCGAACCCTTCTTCACCACCAAGACCACCGGCACCGGCCTCGGCCTGGCGGTGGTCAAGGCTGTGGCTCGTGCCCACCAGGGCGAGCTGCGCCTGTTTTCGCGCGTCGGTCGCGGGACCTGCGCCATTCTTCAGTTGCCGCTGATTCCGGCGGCCCAACCGGTCAATCGGGAGTGA	MNPAARPLNPAETEQAIALEDAGRAGLEQTLALFNQMSSQLNESYGLLEARVNELKGQLALVSAQRMQELAEKERLAMRLQSLLDLLPGGVIVIDGQGVVREANPVARNLLGQPLVGLLWRHVIARCFAPRKDDGHEISLKDGRRLSIATRSLQGEPGQLVLLTDLTETRRLQDQLARHERLSSLGRMVASLAHQIRTPLTAALLYASHLAEQVLPTEQQQRFAGRLKERLHELEHQVRDMLIFARGDLPLPDRLAPAELFAALRSAAESHVQGMQVRWQCDARDGELLCNRDTLVGTVVNLIENAIQAGGSDTGLKIHLYARGDALRLCVSDNGPGIDAATLARLGEPFFTTKTTGTGLGLAVVKAVARAHQGELRLFSRVGRGTCAILQLPLIPAAQPVNRE	PGPT0015565_124	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_REGULATION,PGPT0015565-flrB|fleS-K10942	NA	NA
BMS010_01561	1416	atoC_3	COG2204	Regulatory protein AtoC	ATGACAGCCAAAGTCCTGCTGGTCGAAGACGACCGTGCCCTGCGCGAAGCGCTGGGCGATACCCTGTCGCTCGGCGGACATGCGTTCCGCGCCGTCGAAAGCGCCGAAGAGGCCTTGGTGGTGTTGGCCCAGGAGCCGTTCGGCCTGGTGGTCAGCGACGTGAACATGCCGGGCATGGATGGCCATCAGTTGCTGGCGCTGATCCGTGCCCGCTACCCGCAGTTGCCGGTGCTGCTGATGACCGCCTTCGGCGCCGTCGAGCGCGCGGTGGAAGCGATGCGCCAGGGCGCGGCGGATTACCTGGTCAAGCCGTTCGAGCCGAAGACCCTGCTCGAGCTGGTCGCCCGTCATGCCCTGGGGCGCCTCGGTGCGTCCGAGAGCGAAGGGCCGGTGGCTGTCGAACCGGCCAGCCAGCACCTGCTGCAACTGGCCGCGCGGGTGGCCCGCAGCGATTCCACCGTGCTGATCTCGGGCGAGTCCGGCACCGGTAAGGAAGTGCTAGCGCGCTACATCCACCAGCAGTCGCCGCGTGCCGACAAACCATTCATCGCGATCAACTGCGCGGCGATCCCGGACAACATGCTGGAGGCCACGCTGTTCGGTCACGAAAAGGGTGCCTTCACCGGTGCTATCGCCGCTCAGCCGGGCAAGTTCGAGCTGGCCGACGGTGGGACCATCCTGCTCGACGAAATCTCCGAAATGCCCCTGGGCCTGCAAGCCAAGCTGCTGCGGGTATTGCAGGAGCGCGAAGTGGAGCGGGTCGGCGCGCGCAGGCCGATCACCCTGGACATCCGGGTGCTGGCCACCACCAACCGCGACCTGGCCGGCGAAGTGGCGGCTGGGCGTTTCCGTGAAGACCTTTACTATCGCCTGTCGGTATTCCCGCTGGCCTGGCGTGCCTTGCGCGAGCGGCCCGCCGACATTCTGCCGCTGGCCGAGCGTCTGCTGGCCAAGCACGTCAAAAAAATGAATCAGGGCCCGGTGAGCCTGTCCGCCGACGCGCGGGCCTGCCTGGTCAGCCATGCCTGGCCGGGTAACGTGCGCGAACTGGACAACGCCATCCAGCGCGCCCTGATCCTCCAGCAGGGCGGGGTGATCCAACCCGAGGACCTGTGCCTGACCGCCCCGATCGGCCTGGCCCCGCTGGCTGCCGTGTCGACGGTGGCGCCAATGCCGGTCGCCGCCGTGGCGATGCCGCCGCTGATGGAGACACCGCTCGCCGAAGCGGCCGGCCCGCTCGGTGAGGACCTGCGCCGCCGCGAGTTCCAGATGATCATCGACACCCTGCGCTCCGAGCGCGGCCGCCGTAAGGAAGCCGCCGAACGCCTCGGCATCAGCCCGCGCACCCTGCGTTACAAGCTCGCCCAGATGCGCGATGCCGGCATGGACGTCGAAGCCTATCTCTTCGCCAGCTAA	MTAKVLLVEDDRALREALGDTLSLGGHAFRAVESAEEALVVLAQEPFGLVVSDVNMPGMDGHQLLALIRARYPQLPVLLMTAFGAVERAVEAMRQGAADYLVKPFEPKTLLELVARHALGRLGASESEGPVAVEPASQHLLQLAARVARSDSTVLISGESGTGKEVLARYIHQQSPRADKPFIAINCAAIPDNMLEATLFGHEKGAFTGAIAAQPGKFELADGGTILLDEISEMPLGLQAKLLRVLQEREVERVGARRPITLDIRVLATTNRDLAGEVAAGRFREDLYYRLSVFPLAWRALRERPADILPLAERLLAKHVKKMNQGPVSLSADARACLVSHAWPGNVRELDNAIQRALILQQGGVIQPEDLCLTAPIGLAPLAAVSTVAPMPVAAVAMPPLMETPLAEAAGPLGEDLRRREFQMIIDTLRSERGRRKEAAERLGISPRTLRYKLAQMRDAGMDVEAYLFAS	PGPT0015570_82	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_REGULATION,PGPT0015570-flrC|fleR-K10943	NA	NA
BMS010_01562	330	fliE_1	COG1677	Flagellar hook-basal body complex protein FliE	ATGAGCCAGGGTGTCGAATTCAATCGCCTGATGTTGGAAATGCGCTCCATGCAAATGGAGGCCATGGCCCGTGCGAAACCGGTGACGGCGACGCCGGAGCCGGGTGCGCCGAGCTTTTCGGACATGCTCGGTCAGGCGGTGAACAAGGTGAACGACACCCAGCAGGTCGCCAACCAGATGGCGACCGCCTTCGAGATGGGGCAGAGCGGGGTCGATCTCGCCGATGTGATGATCGCCTCGCAGAAGGCCAGCGTTTCCTTCCAGGCCATGACCCAGGTGCGTAACAAGCTGGTTCAGGCGTATCAAGACATCATGCAGATGCCGGTTTAA	MSQGVEFNRLMLEMRSMQMEAMARAKPVTATPEPGAPSFSDMLGQAVNKVNDTQQVANQMATAFEMGQSGVDLADVMIASQKASVSFQAMTQVRNKLVQAYQDIMQMPV	PGPT0015515_984	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015515-fliE|lfiE-K02408	NA	NA
BMS010_01563	1788	fliF_1	COG1766	Flagellar M-ring protein	ATGGCTGAAGCAGTCGCGAATAACGTGATCGTCAAGGGCGGAGCCGAAGAGCCGAAGAAGCCGTTGTTCGGCCTGGCTTTTCTGGAGAATCTGTCCGACATGTCGATGCTGCGGCAGATCGGCCTGCTGGTTGGCTTGGCCGCCAGCGTGGCGATCGGTTTCGCCGTGGTGCTCTGGTCGCAGCAACCGGATTACCGTCCGCTGTACGGCAGCCTGAACGGGATGGACGCCAACCAGGTGGTGGAAATCCTCACCGCGTCCGACATCCCCTACAAGATCGAACCCAACTCTGGCGCCCTGCTGGTCAAGTCCGACGACCTCGCCCGTGCCCGCCTGAAGCTGGCCGGTGCCGGTGTGGCGCCCAGCGACAACACCGTCGGCTTCGAGATCCTCGACAAGGAGCAGGGCCTCGGCACCAGCCAGTTCATGGAAGCCACCCGCTACCGTCGCGGCCTGGAAGGCGAACTGGCACGCACCGTTTCCAGCCTGAACAATGTCAAGGCGGCCCGCGTGCACCTGGCCATTCCGAAAAGCTCGGTGTTCGTCCGCGACGAGCGCAAGCCCAGCGCATCGGTACTGGTCGAACTGTACCCGGGGCGTACCCTGGAGCCTAGCCAGGTGATGGCCATCATCAACCTGGTCGCCACCAGCGTGCCGGAACTGGATAAATCGCAGATCACCGTGGTCGACCAGAAAGGCAACCTGCTGTCCGATCAGCAGGAAATGTCCGAGCTGACCGTGGCCGGCAAGCAGTTCGATTACAGCCGCCGCATGGAAGGCCTGTTCACCCAGCGCGTGCACAACATCCTGCAACCGGTGCTGGGCATGGGCCGCTACAAGGCCGAGGTGTCCGCCGACGTCGATTTCAGCGCGGTGGAATCCACTTCGGAGATGTTCAACCCGGACCAGCCGGCGCTGCGCAGCGAGCAGTCGGTCAACGAACAGCGCCAGAGCAGCCTGCCGCCGCAGGGCGTGCCGGGCGCGCTGAGTAACCAGCCGCCGGGACCGGCCAGCGCGCCGGAGCAGGCCACCCAGGCAGCGGCCCCGGCCGGTCCGGTGGCAGCCGGCCAGCCGCTGCTGGACGCCAACGGTCAACAGGTCATGGACCCGGCCACCGGCCAACCGCTGCTGGCGCCCTATCCGGCGGACAAGCGCGAGCAGGCCACCCGTAACTACGAGCTGGATCGCTCCATCAGCTACACCAAGCAGCAGCAGGGCCGCCTGCGCCGTCTGTCGGTGGCCGTGGTAGTGGACGACCAGGTGAAGATCGACCCGGCCAGCGGCGAAGTGACCCGGGCGCCATGGTCCGCCGATGACCTGGCACGCTTCACCCGCCTGGTACAGGACGCGGTGGGCTACGACGCCACCCGTGGCGACAGCGTCAGCGTGATCAACGCACCGTTCGCGGCGGAAAGCGGCGAGGAGATCATCGAGGTCCCGTTCTACTCGCAGCCCTGGTTCTGGGATATCGTCAAACAGGTGCTCGGAGTCCTGTTCATCCTGGTGCTGGTCTTCGGCGTGCTGCGCCCGGTGCTGAACAACATCACCGGCGGCGGCAAGGGCAAGGACCTCGCCACCCGCGACGGCGACGTCGAACTGGGCGAGATGGGTGGCCTGGAAGGCGAGTTGTCGGAAGACCGGGTCAGCCTGGGTGGGCCGCAGAGCATCCTGCTGCCCAGTCCCACGGAGGGGTATGATGCTCAACTGAACGCCATCAAGAGTCTGGTGGCCGAAGACCCGGGTCGCGTGGCCCAGGTCGTGAAAGAGTGGATCAACGCCGATGAGTGA	MAEAVANNVIVKGGAEEPKKPLFGLAFLENLSDMSMLRQIGLLVGLAASVAIGFAVVLWSQQPDYRPLYGSLNGMDANQVVEILTASDIPYKIEPNSGALLVKSDDLARARLKLAGAGVAPSDNTVGFEILDKEQGLGTSQFMEATRYRRGLEGELARTVSSLNNVKAARVHLAIPKSSVFVRDERKPSASVLVELYPGRTLEPSQVMAIINLVATSVPELDKSQITVVDQKGNLLSDQQEMSELTVAGKQFDYSRRMEGLFTQRVHNILQPVLGMGRYKAEVSADVDFSAVESTSEMFNPDQPALRSEQSVNEQRQSSLPPQGVPGALSNQPPGPASAPEQATQAAAPAGPVAAGQPLLDANGQQVMDPATGQPLLAPYPADKREQATRNYELDRSISYTKQQQGRLRRLSVAVVVDDQVKIDPASGEVTRAPWSADDLARFTRLVQDAVGYDATRGDSVSVINAPFAAESGEEIIEVPFYSQPWFWDIVKQVLGVLFILVLVFGVLRPVLNNITGGGKGKDLATRDGDVELGEMGGLEGELSEDRVSLGGPQSILLPSPTEGYDAQLNAIKSLVAEDPGRVAQVVKEWINADE	PGPT0015430_128	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015430-fliF-K02409	NA	NA
BMS010_01564	1017	fliG_1	COG1536	Flagellar motor switch protein FliG	ATGAGTGATAATCGCCTCCCCGCCAAGCTGACCAAAGTCGACAAGGCCGCCATCCTCCTGCTGTCCCTCGGTGAGACCGACGCCGCGCAAGTGCTGCGTCACCTCGGCCCGAAGGAGGTACAGAAGGTCGGTGTGGCCATGGCGCAGATGCGCAACATCCAGCGTGCGCAGATCGAACAGGTGATGGGCGAGTTCGTCGAGATCGTCGGCGACCAGACCAGCCTGGGCATGGGTTCCGACAGCTACATCCGCAAGATGCTGACCCAGGCGCTCGGCGAAGACAAAGCCGGCAACCTGATCGACCGCATCCTGCTCGGCGGTAGCACCAGCGGCCTGGACAGCCTGAAGTGGATGGAGCCGCGCGCCGTGGCCGACGTGATCCGCTACGAGCACCCGCAAATCCAGGCCATCGTGGTCGCCTATCTGGACCCGGACCAGGCCGGCGAAGTGCTCAGCCACTTCGACCACAAGGTGCGCCTGGACATCATCCTGCGCGTGTCTTCGCTGAACACCGTTCAGCCGGCCGCGCTGAAGGAACTCAACCAGATTCTCGAGAAGCAATTCTCCGGCAGTGCCAACACCACCCGCGCCAACCTGGGCGGCGTGAAGCGCGCGGCAGACATCATGAACTTCCTCGACAGTTCCGTCGAAGGTCAGCTCATGGATTCGATCCGCGAAGTAGACGAAGACCTGTCGAGCCAGATCGAAGACCTGATGTTTGTCTTCGACAACCTGGCGGACGTCGACGACCGTGGCATCCAGGCGCTGCTGCGCGAAGTGTCCTCGGACGTGCTGGTGCTGGCCCTGAAAGGCGCCGACGAGGCGATCAAGGAGAAGGTGTTCAAGAACATGTCCAAGCGTGCTGCCGAGCTGCTGCGCGACGACCTCGAAGCCAAGGGGCCGGTCCGTGTCAGCGACGTGGAAACGGCGCAGAAGGAAATTCTCACCATCGCCCGCCGCATGGCCGAAGCCGGGGAAATCGTGCTCGGCGGCAAGGGCGGCGAAGAGATGATCTAA	MSDNRLPAKLTKVDKAAILLLSLGETDAAQVLRHLGPKEVQKVGVAMAQMRNIQRAQIEQVMGEFVEIVGDQTSLGMGSDSYIRKMLTQALGEDKAGNLIDRILLGGSTSGLDSLKWMEPRAVADVIRYEHPQIQAIVVAYLDPDQAGEVLSHFDHKVRLDIILRVSSLNTVQPAALKELNQILEKQFSGSANTTRANLGGVKRAADIMNFLDSSVEGQLMDSIREVDEDLSSQIEDLMFVFDNLADVDDRGIQALLREVSSDVLVLALKGADEAIKEKVFKNMSKRAAELLRDDLEAKGPVRVSDVETAQKEILTIARRMAEAGEIVLGGKGGEEMI	PGPT0015400_1340	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_C-RING,PGPT0015400-fliG-K02410	NA	NA
BMS010_01565	783			hypothetical protein	ATGGCGAAAGAAGCCCCCAGCGAACTGATCCGCGCCAAGGACGTCAACGCTTTCGACCGCTGGTCGTTGCCGAGCTTCGATCCGCAGGGCGAGACGGTGGTCGAAGAGGAACCCGCCGCCCTGCTGGAATCGCCCATCGAAGAAGCAGCGGAAGAGCGGGCGGCGGAAGACGTGCCGCTGGAGGCCGTCAAACCGCTGACGCTGGACGAGCTGGAAGCGATTCGCCAGGACGCCTACAACGAAGGCTTCGCCACCGGCGAGAAGGACGGTTTCCGCTCGGGCCAGTTGAAGGCCAAGCAGGAAAGCGACGCGGCGTTGGCGACGCGGCTGGCTGCCCTGGAAAAACTGATGGAGCAGTTGTTCGAGCCCATCGCCGACCAGGATACGCAGGTGGAAAAGGCACTGGTCACCCTGGTCAATCACATCACCCGCCAAGTCATCCAGCGTGAATTGGCCACCGATTCGAGCCAGATCCGCCAGGTCCTGCGCGAAGCGCTCAAGCTGCTGCCGATGGGAGCCAGCAACGTGCGCATCCACATCAACCCGCAGGACTTCGAGATGGTCAAGGCGCTGCGCGAGCGCCACGAAGAGACCTGGCGCATCCTCGAGGACGACTCGCTGCTGCCGGGCGGCTGCCGGGTCGAGAGCGAGCACAGCCTGATCGACGCCAGCGTCGAGACCCGCATGGCCCAGGCGCTCAAGCAGCTCTTCGAGCAGCAGCGGGAAAACGCCACCAATGCACCGGAAGCCGATCTGCACCTGGACCTGCCCCATGCGCCTTGA	MAKEAPSELIRAKDVNAFDRWSLPSFDPQGETVVEEEPAALLESPIEEAAEERAAEDVPLEAVKPLTLDELEAIRQDAYNEGFATGEKDGFRSGQLKAKQESDAALATRLAALEKLMEQLFEPIADQDTQVEKALVTLVNHITRQVIQRELATDSSQIRQVLREALKLLPMGASNVRIHINPQDFEMVKALRERHEETWRILEDDSLLPGGCRVESEHSLIDASVETRMAQALKQLFEQQRENATNAPEADLHLDLPHAP	PGPT0015335_806	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015335-fliH-K02411	NA	NA
BMS010_01566	1362	fliI_1	COG1157	Flagellum-specific ATP synthase	ATGCGCCTTGATCGCATCAGCTTCGCCAGGCGCCTGGCGAGCTACAGCGACGCCATCCAGCTCCCTAGCCAGCCGGTGGTCGAAGGCCGCCTGCTGCGCATGGTCGGCCTGACCCTGGAAGCGGAAGGCCTGCGCGCCAGCATCGGCAGCCGCTGCCTGGTGATCAACGACGGCAACTACCACCCGGTGCAGGTCGAGGCCGAGGTGATGGGCTTTTCCAGCGGCAAGATTTACCTGATGCCGGTTGGCAGTCTGGCCGGTATCGCCCCCGGTGCGCGGGTGGTTCCGTTGCCGGACACCGGCCGCCTGCCGATGGGCATGAGTATGCTCGGCCGGGTGCTGGACGGCGCCGGCCGGGCCCTGGACGGCAAGGGCGGGATGAAGGCGGAAGACTGGGTGCCGATGGACGGCCCGACGATCAACCCGCTCAAGCGCCATCCCATCAGCGAGCCGCTGGATGTCGGCATCCGCTGCATCAATGGCCTGCTCACCGTGGGGCGCGGGCAGCGTCTCGGCCTGTTCGCCGGCACCGGCGTGGGCAAGAGCGTGCTGCTGGGCATGATGACCCGCTTCACCGAGGCGGACATCATCGTGGTCGGCCTGATCGGCGAGCGTGGTCGCGAGGTGAAGGAGTTCATTGAAGACATCCTCGGCGAGGAAGGTCTCAAGCGCTCGGTGGTGGTGGCTTCGCCGGCCGACGATGCGCCGCTGATGCGCCTGCGCGCCGCCATGTACTGCACGCGCATCGCCGAATATTTCCGCGACAAGGGCAAGAACGTCCTGCTGCTGATGGATTCCCTCACCCGTTTCGCCCAGGCCCAGCGCGAGATCGCCCTGGCCATCGGCGAGCCGCCGGCGACCAAGGGCTACCCGCCGTCGGTGTTCGCCAAGCTGCCGAAACTGGTGGAACGGGCCGGTAACGCGGAGAAGGGCGGCGGCTCTATTACTGCATTCTACACCGTGCTCTCCGAAGGCGACGACCAGCAGGACCCGATCGCCGACTCCGCGCGCGGCGTGCTCGATGGCCACTTCGTGCTGTCGCGCCGGCTGGCGGAGGAGGGGCACTACCCGGCCATCGACATCGAGGCGTCCATCAGCCGGGTCATGCCCCAGGTGGTTAGCCCCGAGCACCTGCGCGAGGCCCAGCGCTTCAAGCAGCTCTGGTCGCGCTACCAGCAGAGCCGCGACCTGATCAGCGTCGGCGCCTACGTGCCGGGCGGCGATCCGGAAACCGACCTGGCCATCGCCCGCCAGCCGCAGATGGTCCAGTTCCTCCGCCAGGGCTTACGGGAAAGCGAAAGCCTGCCGCAGAGCGCCAGCCAGTTGGCGGCGATCTTCAACCCGGGCGCGGCGGGGCGCTAA	MRLDRISFARRLASYSDAIQLPSQPVVEGRLLRMVGLTLEAEGLRASIGSRCLVINDGNYHPVQVEAEVMGFSSGKIYLMPVGSLAGIAPGARVVPLPDTGRLPMGMSMLGRVLDGAGRALDGKGGMKAEDWVPMDGPTINPLKRHPISEPLDVGIRCINGLLTVGRGQRLGLFAGTGVGKSVLLGMMTRFTEADIIVVGLIGERGREVKEFIEDILGEEGLKRSVVVASPADDAPLMRLRAAMYCTRIAEYFRDKGKNVLLLMDSLTRFAQAQREIALAIGEPPATKGYPPSVFAKLPKLVERAGNAEKGGGSITAFYTVLSEGDDQQDPIADSARGVLDGHFVLSRRLAEEGHYPAIDIEASISRVMPQVVSPEHLREAQRFKQLWSRYQQSRDLISVGAYVPGGDPETDLAIARQPQMVQFLRQGLRESESLPQSASQLAAIFNPGAAGR	PGPT0015340_1022	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015340-fliI|lgiI-K02412	NA	NA
BMS010_01567	450	fliJ	COG2882	Flagellar FliJ protein	GTGACGAAGAGCCGCGCCGCGCGCCTGGCGCCGGTGGTCGAGATGGCCGAAAAGGCCGAGCGCGAGGCCGCCCGTCAGCTCGGACACTGCCAGGGCCTGCTGAGCCAGGCGGAGGTGAAACTGGGCGAGCTGGAGCGTTATCGCGGCGACTACCAGCAGCAATGGATCACCGAAGGCCGCCAGGGTGTCTCCGGGCAGTGGCTGATGAACTACCAGCGCTTCCTCTCCCAACTGGAAACCGCCATCGGCCAGCAAAGCCGCAGCGTGGACTGGCACCGGACCAACCTGGAAAAGGCCCGCGAACAATGGCAACAGCGCTACGCCCGCCTGGAGGGCCTGCGCAAGCTGGTGCAGCGCTACCTGGACGAGGCGCGGCGGGCCGAAGACAAGCGCGAGCAGCGGCTGCTCGACGAACTGGCCCAGCGCCTGACGAACGGCGAGCGGCACTGA	MTKSRAARLAPVVEMAEKAEREAARQLGHCQGLLSQAEVKLGELERYRGDYQQQWITEGRQGVSGQWLMNYQRFLSQLETAIGQQSRSVDWHRTNLEKAREQWQQRYARLEGLRKLVQRYLDEARRAEDKREQRLLDELAQRLTNGERH	PGPT0015615_663	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_CHAPERONES,PGPT0015615-fliJ-K02413	NA	NA
BMS010_01568	306			STAS-domain containing protein	ATGGCCATTACCTCGCAGCCCTCGGCTGACGGGCAAGAGCTGACCATTCAAGTTCAGGGACGCTTCGACTTCGGTGCGCATCAGGAATTTCGCAATGCCTACGAGCGGGTGAACGTCACGCCCAGGCGCTACGTGGTGGACCTCAAGGACGCCACCTACCTGGACAGCTCGGCGCTCGGCATGCTGCTCCTGTTGCGCGATCACGCCGGTGGGGACGACGCGCAGATTCGTCTGGTCAACTGCAGTCCCGACGTCCGCAAGATTCTCGCCATTTCCAACTTCGAACAACTGTTCCAGATCGCCTGA	MAITSQPSADGQELTIQVQGRFDFGAHQEFRNAYERVNVTPRRYVVDLKDATYLDSSALGMLLLLRDHAGGDDAQIRLVNCSPDVRKILAISNFEQLFQIA	PGPT0025860_202	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0025860-hsbA-K20978	NA	NA
BMS010_01569	1698	cheB_4		Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGCCCCAGCGTCTGTCCATCCTGATCGCCGAGGACAGCGCTGCCGATCGCATGCTGCTGTCCACCATCGTCAGCCGCCAGGGGCACCGGGTGCTGACGGCGGCCAACGGCATGGAAGCGGTGGCCCTGTTCCAGCAGGAGCATCCGCGCATGGTCCTGATGGATGCGCTGATGCCGGTCATGGACGGCTTCGAGGCGGCGCGGCGGATCAAGCAGCTCGCCGGCGACGAGCTGGTGCCGATCATTTTCCTCACCTCCCTCAGCGAAAACGACGCCCTGGTGCGCTGTCTGGAGGCGGGCGGCGACGACTTCCTTTCCAAGCCCTACAACGGGGTGATCCTCGACGCCAAGATCAAGGCCATGGATCGCCTGCGACGCTTGCAGGACACCGTGCTCAAGCAGCGCGACCTGATCGCCCGGCACAACGAGCACCTGATGACCGAGCAGCGGGTGGCCAAGGCGGTGTTCGACAAGGTGGCGCACTCCGGCTGCCTCAGCGCGCCGAACATCCGCTATCTGCAGTCGCCGTTCGCTCTTTTCAACGGCGACCTGCTGCTGGCCGCGTTCAAGCCGTCCGGCGGCATGCACATCCTGCTCGGCGATTTCACCGGCCACGGGTTGCCGGCGGCGATCGGCGCCATGCCGCTGGCCGAGGTGTTCTATGGGATGACCGCCAAGGGCTACTCGCTGGTGGACATCCTGCGCGAGATGAACGCCAAGCTGAAACGCATCCTGCCGGTCGGCGTGTTCTGCTGCGCCACGCTGCTCAACCTCAGCTTCCAGCGCCGGGTCGTGGAGGTCTGGAACGGTGGCTTGCCCGACGGCTATATTCGCCGTGCCGGCAGTCATGAGCGTATCGCCCTGGTCTCCCGCCACCTGCCGCTGGGTGTGCTGGACCCGGAAGCCTTCGACGACAAGTACGAAATCTATCCGCTGGAGGTGGGAGACCGGATTTTCCTGCTGTCGGACGGCGTGCTGGAGACGCGTAACCGCGCCGACGAGTTGTTCGGCGAGGCGCGGCTGCAGGCCGTGTTCGATGCTAACCGTGAGCCGGGCCGGTTGTTCGATGAAATCCAGCAGGCGCTGGCCGCCTTTCGTGGCGAGGCGCAGGACGACGTCAGCATGGTCGAGGTCAGCCTGGTCGAGGACAACGCGCTGGTCCGTCCGCCACTGGCCTTCGCCAACAGCGCCCAAGGCAGTCCGCTGGATTGGTCGGCCAGCTTCGAATTCCGTGCCGAGACCCTCAAGCACTTCAACCCCTTGCCGTTCCTGCTGCAGCTGCTGCTGGAGGTGCGTGGGCTGCGCCTGCAGGCCGGGGCGCTCTACACCGTCCTGGCCGAGTTGTACTCCAATGCCCTCGAGCATGGCGTGCTTGGCCTGGATTCGTCGCTCAAGCGCGATGCCGAGGGCTTCGCGCTGTACTACCGCGAGCGCACGAAGCGCCTGGCCGGGTTGCAGGACGGCTACGTGCGTTTCCATCTGGATTTGATCCAGGAGATCGGCGGCGGTCGTCTGATCGTGCGGGTCGAGGACAGCGGCGAGGGGTTCGATGTCTCCCGCGTACTCAACCAGCAGCAGGTCGCCGGTTGTCTGTCGGGGCGCGGCCTGGCGCTGGTCCGTCGGCTCGCCGAGCGGTGTACCTGGCTTTCCGACGGGCGGGGTGTGAGCGTGGAGTTTTCCTGGGCGGCTCAGGCATAA	MPQRLSILIAEDSAADRMLLSTIVSRQGHRVLTAANGMEAVALFQQEHPRMVLMDALMPVMDGFEAARRIKQLAGDELVPIIFLTSLSENDALVRCLEAGGDDFLSKPYNGVILDAKIKAMDRLRRLQDTVLKQRDLIARHNEHLMTEQRVAKAVFDKVAHSGCLSAPNIRYLQSPFALFNGDLLLAAFKPSGGMHILLGDFTGHGLPAAIGAMPLAEVFYGMTAKGYSLVDILREMNAKLKRILPVGVFCCATLLNLSFQRRVVEVWNGGLPDGYIRRAGSHERIALVSRHLPLGVLDPEAFDDKYEIYPLEVGDRIFLLSDGVLETRNRADELFGEARLQAVFDANREPGRLFDEIQQALAAFRGEAQDDVSMVEVSLVEDNALVRPPLAFANSAQGSPLDWSASFEFRAETLKHFNPLPFLLQLLLEVRGLRLQAGALYTVLAELYSNALEHGVLGLDSSLKRDAEGFALYYRERTKRLAGLQDGYVRFHLDLIQEIGGGRLIVRVEDSGEGFDVSRVLNQQQVAGCLSGRGLALVRRLAERCTWLSDGRGVSVEFSWAAQA	PGPT0025865_186	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0025865-hsbR-K20977	NA	NA
BMS010_01570	357			hypothetical protein	GTGTCCGATCTACATATCGACAGCGCGGTTCTGGCTGCCTTGCAAGGCGTCATGGAAGACGAGTACCCCGTGTTGCTCGAGACTTTCCTGACCGATTCCGAAGAACGCCTGCGCCTCATCCAGCAAGCCCAGCAGGCCGCCGACGCGCAAGGCGTACGTCTCGCCGCACACAGCTTCAAGGGCAGTTGCAGCAACATGGGCGCGCCGCTCCTGGCCGCCTTGTGCAAGGACCTGGAAGAAACCGCGCGGCGCGAGCAACTCGACGAGACGCCGGCCCTGATCGAACAGATCGAACGCGAGTTCGCCATCGTCCGCATCCTCTTCCGTGCCGAGCGCCAGCGCTACCTGACGCGCTGA	MSDLHIDSAVLAALQGVMEDEYPVLLETFLTDSEERLRLIQQAQQAADAQGVRLAAHSFKGSCSNMGAPLLAALCKDLEETARREQLDETPALIEQIEREFAIVRILFRAERQRYLTR	PGPT0025855_268	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_SENSING_REGULATORS	CE-QSR-QUORUM_SENSING_REGULATED_FLS,PGPT0025855-hptB-K20976	NA	NA
BMS010_01571	1284			hypothetical protein	ATGTCCGTCGCCCCCGATCTGCTGCTCAAGGCCGCGCTCGAGGTGAAGCCCAAGGCGGCGCCCTCGAAAGCGCCGGAGCCCCGCAAGAACGAGGCTTCCAGCTTCGCCCAGGTGTACGCCAAGGAGCGCCAGGCCAAGTCCGCCGAACGCAGCGAAAAACCGGAAAAGCCGGAAAGACCGGCCGCGGCCAAGCCCGCCGACGCCAGCGAAACGGAGAAAACCGACGAGGCCGCTGCCGCCGAGTCGACAGCGGTTGCCGATAGCGGCAATTCCTTGCCGACCGATCCGGCGCAGGAAGACCCGACCCTCGACCCCATGCTGTTGATGGCCATGGCCGGCCAGGTGCCGCCCGAAGAGGGCGAGCTGAGCGTCGGCCTGGATAGCGAAGGCGAGGAGGGCGACGAGACCGGCGAAGAGCTGGCGCTGATGCTGCCCGCACTGAACAGCGCCGCTCCGGCCAGCATGACTGCGGCCAGCCACGATCCGCAGCTCGATGCGCTGAACAGCGCGAAGGGCGTGAACCTGGCCCTGGACATGCACGGCAAGGGACAGGCCGCCAAGCCGGACAGCACGCCGACGCTTGCCCTCGATTCCGCGGGCAAGGGCGAACCGAACCTTGCCGATGCCATGGCCGCCTTCGCCGAACAGCAGGCGCAGGGTGGCGAGGGCGAAGGCGAGGGGGATGCCGCGCTGCTGTTGCCCGAACCGACGCTCGAGCGGGCGGAAAGCCCGGCCGAGGCGCGTGCCGACAGCTTCGCCAGCAAGCTCAGTGCCCTGAGCCAGGCGATCTCCCAGCAGACCGGCCAGGCGCAACGCGTGCCGCTGGTACCGGGGCAACCGGTGGCCATGCAGCAGGGCGGCTGGAGCGAGGCCGTAGTGGACCGGGTGATGTGGCTGTCCAGCCAGAACCTCAAGTCGGCCGAGATCCAGCTCGATCCGGCCGAACTCGGGCGCATGGAAGTGCGCATCGAGATGAACCGGGACCAGACCCAGGTCACCTTCGCCAGCCCCAACGCCGGCGTTCGTGAGGCGCTGGAAAGCCAGGTGCACCGTTTGCGCGAGCTGTTCTCCCAACAGGGCATGAACCAGCTCGACGTGAACGTCTCCGACCAGTCGCTGGCGCGTGGCTGGCAGGGGCAGGGCGACGGTGGCCAGGGCCGTGGCGGCAGCCGCAGCCATGGCAACGCGCTGGGCGATCTCGATGACGAGCGTCCGCTGGCGGTCGGCGAGATGCGCAGCAATATCGCCAGCCAGGGGCGGGGCCTGGTGGACTATTACGCCTGA	MSVAPDLLLKAALEVKPKAAPSKAPEPRKNEASSFAQVYAKERQAKSAERSEKPEKPERPAAAKPADASETEKTDEAAAAESTAVADSGNSLPTDPAQEDPTLDPMLLMAMAGQVPPEEGELSVGLDSEGEEGDETGEELALMLPALNSAAPASMTAASHDPQLDALNSAKGVNLALDMHGKGQAAKPDSTPTLALDSAGKGEPNLADAMAAFAEQQAQGGEGEGEGDAALLLPEPTLERAESPAEARADSFASKLSALSQAISQQTGQAQRVPLVPGQPVAMQQGGWSEAVVDRVMWLSSQNLKSAEIQLDPAELGRMEVRIEMNRDQTQVTFASPNAGVREALESQVHRLRELFSQQGMNQLDVNVSDQSLARGWQGQGDGGQGRGGSRSHGNALGDLDDERPLAVGEMRSNIASQGRGLVDYYA	PGPT0015520_1605	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015520-fliK|motD-K02414	NA	NA
BMS010_01572	528			hypothetical protein	ATGGCTAAGAAAGAAGCCCCGCAAACCCCGCCGCCCGCCGGCGACGCGCCGGCCGGCAAAGGCAAGCTCAAGCTCATCATCATCGTGGTCGTGGCCTTGCTGCTGGCCGTGGGAGCGTCCGTGGGCGGCACCTGGTTCTTTCTCAGTCGCGGCGACAAGCCGAAGGAAGAAGCGCACGCCGCCGCCGAAAGCGCCGCGCCGGTCAAGCAGCCGGCGATCTACGAGCAACTGGCCCCGGCTTTCGTGGTCAATTTCAACCATAAGGGCCGCCAGCGTTACATGCAGGTGAGCGTGGCCCTGATGGCGCGCGACCAGGCGGCGCTCGACGCGCTCAAGGTGCACATGCCGGTGCTGCGCAACCGCCTGGTGATGCTGTTTTCCAGCCAGGACTTCGAGGCGATGATGACGCCGGTCGGCAAGGAAATGCTTCGCCAGCAGGCCACGGCGAGCGTCCAGGAGCTGGCGGAGAAAGAGACGGGTAAACTGACCGTCGAGCAAGTGCTGTTCACCAACTTCGTTCTCCAGTAG	MAKKEAPQTPPPAGDAPAGKGKLKLIIIVVVALLLAVGASVGGTWFFLSRGDKPKEEAHAAAESAAPVKQPAIYEQLAPAFVVNFNHKGRQRYMQVSVALMARDQAALDALKVHMPVLRNRLVMLFSSQDFEAMMTPVGKEMLRQQATASVQELAEKETGKLTVEQVLFTNFVLQ	PGPT0015525_853	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015525-fliL-K02415	NA	NA
BMS010_01573	972	fliM	COG1868	Flagellar motor switch protein FliM	ATGGCCGTACAAGACCTGCTGTCCCAGGATGAAATCGACGCCCTGTTGCACGGCGTCGACGATGGCCTGGTCGAGACCGAGAGCGCTGCCGAACCGGGCAGCGTCAAGAGCTATGACCTGACCAGCCAGGATCGGATCGTCCGTGGACGCATGCCGACCCTGGAAATGATCAACGAGCGTTTCGCCCGCTACACCCGCATCAGCATGTTCAACCTGCTGCGCCGCTCGGCCGACGTGGCGGTGGGCGGCGTGCAGGTGATGAAGTTCGGCGAGTACGTGCATTCCCTCTACGTGCCGACCAGCCTGAACCTGGTGAAGATGAAGCCACTGCGCGGCACCGCGTTGTTCATCCTCGACGCCAAGCTGGTGTTCAAGCTGGTGGACAATTTCTTCGGCGGCGACGGCCGCCACGCCAAGATCGAGGGGCGCGAATTCACCCCCACCGAGCTGCGGGTGGTGCGCATGGTGCTCGACCAGGCCTTCGTCGACCTCAAGGAAGCCTGGCACGCGGTGCTCGACGTCAACTTCGAGTACATCAACTCCGAGGTGAACCCGGCGCTGGCGAACATCGTCAGCCCCAGCGAAGTGGTGGTGGTCTCCACCTTCCACATCGAGTTGGACGGCGGCGGCGGCGACCTGCACATCACCATGCCCTATTCGATGATCGAGCCGATCCGCGAGATGCTCGATGCCGGCTTCCAGTCCGATGTCGACGACCAGGACGAGCGCTGGATCAAGGCCCTGCGCGAAGACATCCTCGACGTCAGCGTACCGCTGGGCGCCACGGTGGTTCGCCGCCAACTGCGCCTGCGCGACATCCTGCACATGCAGCCGGGCGACGTGATCCCGGTGGAAATGCCGGAAAACATGATCATGCGCGCCAATGGCGTACCGGCTTTCAAGGTCAAACTGGGCGCGCACAAGGGTAACCTGTCGTTGCAGATTCTCGATCCGATCGAGCGGCAGCGCTGA	MAVQDLLSQDEIDALLHGVDDGLVETESAAEPGSVKSYDLTSQDRIVRGRMPTLEMINERFARYTRISMFNLLRRSADVAVGGVQVMKFGEYVHSLYVPTSLNLVKMKPLRGTALFILDAKLVFKLVDNFFGGDGRHAKIEGREFTPTELRVVRMVLDQAFVDLKEAWHAVLDVNFEYINSEVNPALANIVSPSEVVVVSTFHIELDGGGGDLHITMPYSMIEPIREMLDAGFQSDVDDQDERWIKALREDILDVSVPLGATVVRRQLRLRDILHMQPGDVIPVEMPENMIMRANGVPAFKVKLGAHKGNLSLQILDPIERQR	PGPT0015405_1911	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_C-RING,PGPT0015405-fliM-K02416	NA	NA
BMS010_01574	471	fliN	COG1886	Flagellar motor switch protein FliN	ATGGCAGACGACAACGAACACACTTCCCCGGAAGAACAGGCGCTCGCCGACGAGTGGGCGGCAGCGCTGGCCGAGGCCGGCGACGCCAGCCAGGACGACATCGATGCCATGCTGTCGCAGGGCGGCGTCAGCGCGCCCGTGCCTTCGCCGCGCGCGCCGATGGAGGAATTCGGCAGTGCGCCCAAGGCGAATGGCCCGGTGAGTCTCGAAGGGCCGAACCTGGATGTGATCCTGGACATCCCGGTCTCGATCTCCATGGAGGTCGGCAACACCGACATCACCATCCGCAACCTGCTGCAACTGAACCAGGGCTCGGTGATCGAGTTGGATCGCCTGGCCGGCGAGCCGCTGGACGTGCTGGTCAACGGCACCCTCATCGCCCATGGTGAGGTGGTGGTGGTCAACGAGAAGTTCGGCATCCGGCTGACCGACGTCATCAGCCCCAGCGAACGTATCAAGAAGCTGCGCTGA	MADDNEHTSPEEQALADEWAAALAEAGDASQDDIDAMLSQGGVSAPVPSPRAPMEEFGSAPKANGPVSLEGPNLDVILDIPVSISMEVGNTDITIRNLLQLNQGSVIELDRLAGEPLDVLVNGTLIAHGEVVVVNEKFGIRLTDVISPSERIKKLR	PGPT0015410_1264	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015410-fliN|lfiN|fliNY|cheC|cheD-K02417	NA	NA
BMS010_01575	435			hypothetical protein	ATGTCCAGACTCCTTTCCCTGTTCCTCATACTGCCGCTGGGCGCACTGGCCGCCGAGCCGGCGGCGCAAGCAGCGGCCCCGGTCGCCGCTGGCGGTGGCGTCGGCGGACAACTGGCGCAACTGCTGCTCGGCCTGTTGCTGGTGGTCGGCCTGATCTTCCTGCTCGGCTGGCTGCTGCGCCGGGTGCAGCGGATCGGCCCGCGCGGCGGCCAGGTCATCAAGCTGCTGGCCAGCCAGCCGCTTGGCGCGCGCGAGCGTCTGCTGCTGGTCCAAGTGGGCAGCGAGCAGATTCTCCTGGGCCTGACACCCGGACGCATCAGCACCCTGCATGTCTTGAGCGAGCCGGTGCACCTGCCGGACGCGGAACCGGCCACGCCGGAATTCGCCCAGCGCCTGATGGAACTGCTGGGCAAGGATCAGAAGGACAAGACCTGA	MSRLLSLFLILPLGALAAEPAAQAAAPVAAGGGVGGQLAQLLLGLLLVVGLIFLLGWLLRRVQRIGPRGGQVIKLLASQPLGARERLLLVQVGSEQILLGLTPGRISTLHVLSEPVHLPDAEPATPEFAQRLMELLGKDQKDKT	PGPT0015345_1022	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015345-fliOZ-K02418	NA	NA
BMS010_01576	777	fliP_1	COG1338	Flagellar biosynthetic protein FliP	ATGCTGCGCATCCTCCTGGCCGTGTTCTTCGTGGTAGCGGCCCCGCTGGCCTTCGGCCAGGAAGGCGGGCCGCTGTTCGGCCAGGGCGACAACCCGCTCTCGGTGCCGGCCATCACCCTGTCGACCAACCCGGAAGGGCAGCAGGAATACTCGGTCAGCCTGCAAATCCTGCTGATCATGACGGCGCTGAGCTTCATCCCGGCGTTCGTCATGCTGATGACCAGCTTCACCCGCATCATCATCGTCTTCTCTATCTTGCGTCAGGCCCTGGGGCTGCAGCAGACGCCGTCCAACCAGATCCTGATCGGCCTGGCCCTGTTCCTCACCCTGTTCGTCATGGCGCCGGTGTTCGAGCGGATCAACCGCGAGGCCCTGCAGCCGTACCTGAACCAGCAATTGCCGGCCCAGCAGGCGATCGCCCGGGCCGAGGTACCGTTGAAGGAATTCATGCTGGCGCAGACCCGTTCCTCCGACCTGGAGCTGTTCGTGCGCCTGTCCAAGCGCACCGACATCATCAGTGCCGACCAGGCGCCGCTGACCATCCTGGTCCCGGCGTTCGTCACCTCGGAGCTGAAAACCGCGTTCCAGATCGGCTTCATGATCTTCATCCCGTTCCTGATCATCGACCTGGTGGTGTCCAGCGTGCTGATGGCGATGGGTATGATGATGCTGTCGCCGCTGATCATTTCCCTGCCGTTCAAGATCATGCTGTTCGTCCTGGTGGACGGCTGGGCGTTGATCATCGGTACCCTGGCCGGCAGCTTCGGCACCCTTTAG	MLRILLAVFFVVAAPLAFGQEGGPLFGQGDNPLSVPAITLSTNPEGQQEYSVSLQILLIMTALSFIPAFVMLMTSFTRIIIVFSILRQALGLQQTPSNQILIGLALFLTLFVMAPVFERINREALQPYLNQQLPAQQAIARAEVPLKEFMLAQTRSSDLELFVRLSKRTDIISADQAPLTILVPAFVTSELKTAFQIGFMIFIPFLIIDLVVSSVLMAMGMMMLSPLIISLPFKIMLFVLVDGWALIIGTLAGSFGTL	PGPT0015350_700	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015350-fliP|rhcR-K02419	NA	NA
BMS010_01577	270	fliQ_1	COG1987	Flagellar biosynthetic protein FliQ	ATGACCCCGGAAGTGGCGATAGACCTGTTTCGCGAGGCGCTCTGGCTGACCGCCCTGATCGTCGGCGTGCTGGTGGTGCCGAGCCTGCTGGTGGGCCTGCTGGTGGCGATGTTCCAGGCGGCGACGCAGATCAACGAGCAGACCCTGAGCTTCCTGCCGCGCCTGCTGGTGATCATGCTCACCCTGATCTGGGCTGGTCCCTGGCTGACCCGCCAGTTGATCGAGTACACCCAGACCCTGATCCAGAACATTCCCCAGTTGATCGGCTGA	MTPEVAIDLFREALWLTALIVGVLVVPSLLVGLLVAMFQAATQINEQTLSFLPRLLVIMLTLIWAGPWLTRQLIEYTQTLIQNIPQLIG	PGPT0015355_423	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015355-fliQ|lfiQ-K02420	NA	NA
BMS010_01578	777	fliR_1	COG1684	Flagellar biosynthetic protein FliR	ATGTTCGAACTGAGCGCGGAGCAGATCGGGGGCTGGGTCAGTGCGTTCCTGCTGCCGCTGTTCCGCATCGGCGCGCTGCTGATGACCATGCCGGTGGTGGGGACGCAGCTGGTGCCCATGCGCATCCGCCTGTACCTGACCCTGGCCATCTGCGTGGTGCTGGTCCCGAACCTGCCGCCCATGCCCGAGGTGGATGCGCTCAGCCTGCGCGCGCTGCTGCTGATCGGTCATGAAATCCTGGTCGGCGCCATGTTCGGCTTCGTCCTGCAACTGTTCTTCCACGCCTTCATAGTCGCCGGGCAGATACTGGCGATGCAGATGGGCCTGGGCTTCGCCTCCATGGTCGACCCCACCAACGGCATCTCGGTACCGGTGATCGGCCAGTTCTTCACCATGCTGGTGACCCTGCTGTTCCTCGCCATGAACGGCCATCTGGTGGTGTTCGAGGTGCTGGCGGAAAGCTTCGCGACGCTGCCACCGGGGGGCGGATTGCTCACCGACCATCACTGGCTGATCGCCGGCAAGCTCGGCTGGGTGATCGGCGCCGGGCTGCTGCTGGTGCTGCCGGGCATCACCGCGCTATTGGTGGTCAACCTGGCGTTCGGGGTGATGACCCGCGCGGCGCCTCAGCTGAACATCTTCTCCATCGGTTTTCCCATGACCTTGGTGCTCGGCATGGTCATCGTCTGGATTGGCATGGCCGATATCCTGGCGCAGTACCAGACCCTGGCCAGCGAAGCCCTGCAACTGCTGCGCGACGTGGCGCAGGCGAGGTGA	MFELSAEQIGGWVSAFLLPLFRIGALLMTMPVVGTQLVPMRIRLYLTLAICVVLVPNLPPMPEVDALSLRALLLIGHEILVGAMFGFVLQLFFHAFIVAGQILAMQMGLGFASMVDPTNGISVPVIGQFFTMLVTLLFLAMNGHLVVFEVLAESFATLPPGGGLLTDHHWLIAGKLGWVIGAGLLLVLPGITALLVVNLAFGVMTRAAPQLNIFSIGFPMTLVLGMVIVWIGMADILAQYQTLASEALQLLRDVAQAR	PGPT0015360_1553	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015360-fliR|lfiR-K02421	NA	NA
BMS010_01579	1137	flhB_1	COG1377	Flagellar biosynthetic protein FlhB	ATGGCTGAGAGCGACAGCGGCCAGGACCGCAGCGAAGAACCCACAGCGAAACGCCTGCGCGAGTCCCGGGAAAAGGGCCAGATCGCCCGTTCGCGGGAGCTCAACACGCTGGCCGTCCTGCTCGGGGGAACGGGCGGTCTGCTCGCCACGGGCGGCAGTCTGGCCGATACCCTGATGCGGGTAATGAGCGCCAATTTCTCGTTGTCCCGCGACATTCTCATGGACGAGCGCAGCATGGCGCTCTGGTTCCTCGCCTCGGGGGAGGCCGCGCTACAGGCGCTGCTGCCGTTGTTCATGACGCTGTTGATCGCGGCGATCGCCGGGCCCATCGCGCTGGGCGGCTGGCTGTTCTCCACCCAGGCCCTGGCGCCCAAGTTCAGCCGGATGAATCCCTGGGAAGGTATCAAACGCATGTTTTCCGTCCGGGCCCTGGTCGAACTGCTCAAGGCCCTGGCCAAGTTCGCGGTGGTTCTGATCGTGGCGCTGCTGGTGCTGTCGGCGGACCGCGACGATCTCCTGGCGATTGCCCACGAACCGCTGGAGCCGGCGATCCTGCACAGCGTCCAGGTGGTGGGTTGGAGCGCGCTGTGGATGGCTTGCGGCTTGATCCTGATCGCCGCGGTGGACGTGCCGTTCCAGCTCTGGGACAACAAGCAGAAGCTGATGATGACCAAGCAGGAGGTCCGTGACGAGTACAAGGACGCCGAGGGCAAGCCCGAGGTCAAGGCGAAGATCCGCCAGTTGCAGCGCCAGGCCGCCGAACGCCGCATGATGCAGGCGGTGCCGGAGGCGGACGTGGTGATCACCAACCCCACGCACTTCGCCGTCGCGTTGAAATACGACCCGGCCAAGGGCAACGCGCCGATGCTGCTGGCCAAGGGCGGCGACTTCCTCGCCCTGAAAATCCGCGAGATCGCCCAGGAACACAAGGTGACGGTACTGGAATCGCCGGCCCTGGCGCGGGCAGTGTACTACTCCACCGAACTGGACCAGGAAATCCCCGCGGGGCTGTACTTGGCCGTCGCCCAGGTGTTGGCTTACGTCTACCAGATCAAACAATACCGCGCCGGCAAGGGCAAACGCCCCGGCCCGCTGCCGGACCTGCCGATTCCGCCGGATTTGCGGCGGGATGAGTGA	MAESDSGQDRSEEPTAKRLRESREKGQIARSRELNTLAVLLGGTGGLLATGGSLADTLMRVMSANFSLSRDILMDERSMALWFLASGEAALQALLPLFMTLLIAAIAGPIALGGWLFSTQALAPKFSRMNPWEGIKRMFSVRALVELLKALAKFAVVLIVALLVLSADRDDLLAIAHEPLEPAILHSVQVVGWSALWMACGLILIAAVDVPFQLWDNKQKLMMTKQEVRDEYKDAEGKPEVKAKIRQLQRQAAERRMMQAVPEADVVITNPTHFAVALKYDPAKGNAPMLLAKGGDFLALKIREIAQEHKVTVLESPALARAVYYSTELDQEIPAGLYLAVAQVLAYVYQIKQYRAGKGKRPGPLPDLPIPPDLRRDE	PGPT0015325_1038	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015325-flhB-K02401	NA	NA
BMS010_01580	522	sodC	COG2032	Superoxide dismutase [Cu-Zn]	ATGAAACAATGGATGATCGCAGCGCTCGCCGCCTGCTCCGCCATGAGCCTGCATGCCGAGACCCTGTCCATAACCGTCAATCAGGTGAGCGCCGATGGCGTCGGCGACAAGGTCGGTACGGTCAACGTCGAGCAAACCTCCTACGGCCTGGTGTTCCGCCCGTCCCTGCAAGGCCTGCAGCCCGGCATCCATGGCTTCCACATCCACACCAACCCCAGCTGCGACGCCGCGCCGAAGGAAGGCAAGCCGTCCGCCGCGGAAGCCGCCGGCGGCCACTGGGACCCGAACAACACCGGCAAGCACGGCGAACCCTGGGGCGACGGCCACCTGGGCGACTTGCCGGCGCTCTACGTTACCAACGACGGCAAGGCCGAACAGCCGGTCCTCGCCCCGCGCCTGAAGAACCTCGACGAAATCAAGGGCCATGCCCTGATGCTGCACGCCGGCGGCGACAACCACGCCGACCACCCGATGCCCCTGGGTGGCGGCGGGGCTCGGGTAGCTTGTGGAGTCATTAAGTAA	MKQWMIAALAACSAMSLHAETLSITVNQVSADGVGDKVGTVNVEQTSYGLVFRPSLQGLQPGIHGFHIHTNPSCDAAPKEGKPSAAEAAGGHWDPNNTGKHGEPWGDGHLGDLPALYVTNDGKAEQPVLAPRLKNLDEIKGHALMLHAGGDNHADHPMPLGGGGARVACGVIK	PGPT0013181_1916	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0013181-sodC|sod1-K04565	NA	NA
BMS010_01581	2127	flhA_1	COG1298	Flagellar biosynthesis protein FlhA	GTGGATCGCACGCAACTGCTGACCAACATGCGCAGCAACCTCACAGGGTTGGGGCGCGGCAACCTGGGGGTTCCGATCCTGCTGCTGGTCATCCTCGGCATGATGACCCTGCCGGTGCCGCCGTTCCTGCTGGACGTGCTGTTCACCTTCAACATTGCCCTGTCCATCGTGGTCCTGCTGGTCTGCGTGTATGCCATGCGCCCGCTGGACTTCGCCGTGTTCCCTACCATCCTGCTGGTCGCTACCCTGCTGCGTCTGGCGCTGAACGTCGCTTCCACCCGCGTCGTGCTGCTCCACGGCCATGACGGCGGCGATGCCGCGGGCAAGGTGATCCAGGCCTTCGGCGAAGTGGTGATCGGCGGTAACTACGTGGTCGGCGTGGTGGTATTCGCCATCCTGATGATCATCAACTTCGTGGTGGTCACCAAGGGCGCCGGGCGTATTTCCGAGGTGAGCGCGCGCTTCACCCTGGACGCCATGCCGGGCAAGCAGATGGCCATCGACGCTGACCTCAACGCCGGCCTGATCGATCAGGTCGAGGCCAAGAAGCGCCGGTCCGAAGTGGCCCAGGAAGCCGATTTCTATGGCTCCATGGACGGTGCCAGCAAATTCGTTCGCGGCGACGCCGTCGCCGGCCTGCTGATCCTTTTCATCAACCTGCTCGGCGGTGTCGCCATTGGCATGGCCCAGCATTCCATGGGCTTCGCCGATGCCGGCCAGGTCTACGCCCTGCTGACCATCGGTGACGGCCTGGTGGCGCAGATTCCCTCGCTGCTGCTGTCCACCGCCGCCGCCATCATGGTGACCCGTGTCTCCACCTCGGAAGACATGGGCCAGCAGGTCAACCGGCAGATGTTCGCCTCGCCCAAGGCGCTGGCGGTGTCCGCCGCGATCCTGATTGCCATGGGCCTGGTGCCCGGCATGCCGCACGTGTCCTTCATCGGACTCGGCCTGATGGCTGCCGGCGGCGCCTACTGGATCTGGCATCGCCAGAAGCAGGTGAAGGAGGAAGCGGCCAAGGAGGTCCAGCGCCAACAGGACCTGCTGCCGGCGCAGAAGGCCCAGGAGGTCAAGGAGTTGGGCTGGGATGACGTGACCCCGGTGGATATGGTCGGCCTGGAGGTCGGCTACCGCCTGATTCCTCTGGTGGACCGCAACCAGGGCGGCCAATTGCTGGCGCGGATCAAGGGCGTCCGCAAGAAGCTCTCCCAGGAGATGGGCTTCCTGATGCCGTCGGTGCACATTCGCGACAACCTCGACCTGCTGCCCAATGCCTACCGCCTGACCCTGATGGGCGTTAGCGTGGCCGAGGCGGAGGTCTACCCGGACCGCGAGCTGGCGATCAACCCCGGCCAGGTGTTCGGCACCCTCAGCGGCGTGGCCGCCAAGGACCCGGCGTTCGGCCTGGACGCCGTGTGGATCGACCCGAGCCAGCGCGACCAGGCGCAATCGCTCGGCTACACCGTGGTCGATGCCAGCACCGTGGTCGCCACCCACCTCAACCAGATCCTGCACAAGCACGCCCACGAGCTGCTCGGCCACGAGGAAGTCCAGCAACTGATGCAACTGCTGGCCAAGAGTTCGCCGAAGCTGGCCGAGGAACTGGTGCCGGGGATGGTCTCGCTGTCCACGTTGCTCAAGGTGCTGCAGACGCTGCTGCAGGAACAGGTGCCGGTGCGCGACATGCGCAGCATCGCCGAAGCCCTCGCGAACGTGGCGCCGAAGAGTCAAGATCCCGCCGCCATGGTGGCGGCGGTACGGGTCGCGTTGTCCCGCTCGATCGTGCAAAGCATTGTGGGACTAGAGCCGCAGCTTCCTGTGATCACCCTCGAACCCAGGTTGGAACAGATATTGCTCAATAGTCTGCAGAAGGCCGGTCAGGGCTCCGAGGACGGCATCCTCCTCGAACCCGGCATGGCCGAGAAGCTGCAGCGTTCTCTGGTGGAAGCCGCGCAGCGCCAGGAAATGCTCGGCAAGCCAGCGATCCTGCTGGTGGCCGGTCCGATCCGGGCGATGCTCTCGCGGTTCGCTCGAATGGCAGTGCCCAACATGCATGTGTTGGCCTACCAGGAAATCCCGGATAACAAGCAGGTCACTATCGTCGCCACCGTGGGTCAGAACGGTTGA	MDRTQLLTNMRSNLTGLGRGNLGVPILLLVILGMMTLPVPPFLLDVLFTFNIALSIVVLLVCVYAMRPLDFAVFPTILLVATLLRLALNVASTRVVLLHGHDGGDAAGKVIQAFGEVVIGGNYVVGVVVFAILMIINFVVVTKGAGRISEVSARFTLDAMPGKQMAIDADLNAGLIDQVEAKKRRSEVAQEADFYGSMDGASKFVRGDAVAGLLILFINLLGGVAIGMAQHSMGFADAGQVYALLTIGDGLVAQIPSLLLSTAAAIMVTRVSTSEDMGQQVNRQMFASPKALAVSAAILIAMGLVPGMPHVSFIGLGLMAAGGAYWIWHRQKQVKEEAAKEVQRQQDLLPAQKAQEVKELGWDDVTPVDMVGLEVGYRLIPLVDRNQGGQLLARIKGVRKKLSQEMGFLMPSVHIRDNLDLLPNAYRLTLMGVSVAEAEVYPDRELAINPGQVFGTLSGVAAKDPAFGLDAVWIDPSQRDQAQSLGYTVVDASTVVATHLNQILHKHAHELLGHEEVQQLMQLLAKSSPKLAEELVPGMVSLSTLLKVLQTLLQEQVPVRDMRSIAEALANVAPKSQDPAAMVAAVRVALSRSIVQSIVGLEPQLPVITLEPRLEQILLNSLQKAGQGSEDGILLEPGMAEKLQRSLVEAAQRQEMLGKPAILLVAGPIRAMLSRFARMAVPNMHVLAYQEIPDNKQVTIVATVGQNG	PGPT0015320_416	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015320-flhA|lfhA|fhiA|rhcV-K02400	NA	NA
BMS010_01582	1311	srp54		Signal recognition particle 54 kDa protein	ATGCAAGTCAAACGCTTTTTCGCCGCCGATATGCGTCAAGCCATGAAGCTGGTTCGCGATGAACTCGGTGCGGACGCGGCCATCATCGGCAATCGCCGGGTTGCCGGCGGCGTCGAGCTGACCGCTGCGCTGGACTACCAACTGCCGCCCGAGCCGGCCCGCCAGCCGAACCCAGCGCTGGAGGCCGAGCTGCGCAAGACCCAGGCGAAGATCGCTTCGGCCCATGCTGAACTGACCACCCGCGCGCAGAGCGACGCCGGCAAGGACCGTCAATTGCTCGGCGGCCAGCCGGAGGCGAAGGCCGACCCGCTGGCCGCCGCGTTGCGCCAGAAACCCGTCGCGCCGGCGCCGGCGGCCGCCCCGGCCGATAACCGCGCCCTGGAAGCCATGCGCTCCGAGCTGAACGGCCTGCGCGAACTGATCGAAGTGCAGCTCGGCTCCATCGCCTGGGGCCAGTTGCAGAACCGCCGGCCGCAACAGGCCAGCCTCTGGCGCCGCCTGCAGCGCATGGGTCTGCCGGCCGAGCTGGCGCGTGTCCTGCTGGAGAAGGTGTCCTCGGTACAGGAACCGCGCCAGGCCTGGCGCATGCTGCTGGCCCACCTGTCGCATGCGATCAAGACCCCGCAGGCCGAGCCGCTGGAAGAGGGCGGCGTGATCGCCCTGGTCGGCCCGGCCGGCATGGGCAAGACCACCACCCTGGCCAAGATGGCGGCGCGCTACGTGCTGAAGTACGGCGCGCAGAACATCGCCCTGGTCAGCATGGACAGCTACCGCATCGGCGCCCAGGAGCAGTTGAAGACCCTCGGCCGCATCCTCAACGTATCGGTGACCATGGTCGATCCCGGTCAGTCGCTGACCCAGGCCTTGGCGCCGCTGGCACGCAAGCGCGTGGTGCTGATCGATACCGCCGGTCTGCCGGCCAGCGACCCGGCCCTGCGCATGCAACTGGAAAGCCTGGCCGGGCGCGGTGTCAAAGCCCGTAACTACCTGGTGCTGGCGGCAACCAGCCAGAGCCAGGTGCTGAAGTCGGCCTACCATAGCTATAAGCGCTGCGGTTTGGCGGGCTGCATTCTGACCAAGCTGGACGAGGCGGGCAGCCTCGGCGAAGTTTTGGGGCTGGCTATAGGCCAGCATCTCCCGGTAGCCTATCTGGCGGACGGGCCGCGTATCCCGGATGATCTGCATGTGCCACGCAGTCATCAGCTGGTCAGCCGCGCCGTCAGCCTGCAAGCGCCGGAAGACCCGAGCGAAGAAGCCATGGCCGACATGTTCGCCGGCCTCTATCACAATCCGGCGCGCCGCGCCGGGTAG	MQVKRFFAADMRQAMKLVRDELGADAAIIGNRRVAGGVELTAALDYQLPPEPARQPNPALEAELRKTQAKIASAHAELTTRAQSDAGKDRQLLGGQPEAKADPLAAALRQKPVAPAPAAAPADNRALEAMRSELNGLRELIEVQLGSIAWGQLQNRRPQQASLWRRLQRMGLPAELARVLLEKVSSVQEPRQAWRMLLAHLSHAIKTPQAEPLEEGGVIALVGPAGMGKTTTLAKMAARYVLKYGAQNIALVSMDSYRIGAQEQLKTLGRILNVSVTMVDPGQSLTQALAPLARKRVVLIDTAGLPASDPALRMQLESLAGRGVKARNYLVLAATSQSQVLKSAYHSYKRCGLAGCILTKLDEAGSLGEVLGLAIGQHLPVAYLADGPRIPDDLHVPRSHQLVSRAVSLQAPEDPSEEAMADMFAGLYHNPARRAG	PGPT0015550_807	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_REGULATION,PGPT0015550-flhF-K02404	NA	NA
BMS010_01583	831	ylxH	COG0455	Flagellum site-determining protein YlxH	ATGGGTAGTATGCATCCCGTACAGGTGATCGCGGTGACCGGCGGCAAGGGCGGCGTCGGCAAGACCAATGTGTCGGTGAATCTGTCCCTGGCCCTGGCCGACCTCGGTCGCCGGGTGATGCTGCTGGACGCCGACCTCGGTCTGGCCAACGTCGACGTGCTGCTCGGCCTCACCGCCAAGCGCACCCTGGCCGACGTCATCAATGGCGAATGCGACTTGCGCGACGTGCTGATCCAGGGGCCCGGCGGCATCCGCATCGTGCCCGCGTCGTCCGGCACCCAGGCCATGGTCCAGCTCTCGCCCATGCAGCATGCCGGCCTGATCCAGGCATTCAGCGACATCAGCGACAACCTCGATGTGCTGGTCATCGACACCGCCGCCGGCATCGGCGACGGCGTGGTGAGCTTCGTGCGCGCGGCGCAGGAGGTGATCGTGGTGGTCTGCGACGAGCCGACCTCCATCACCGACGCCTACGCACTGATCAAACTGCTCAACCGCGATTACGGCATGAGCCGTTTCCGGGTGCTCGCCAACATGGCCCACAGTCCCCAGGAAGGTCGCAATCTCTTTGCTAAGCTCACCAAGGTGACTGACCGGTTCCTCGATGTAGCCCTGCAGTATGTGGGGGCGGTGCCTTACGACGAGTGCGTTCGCAAGGCCGTGCAGAAACAGCGAGCGGTCTATGAGGCATTCCCCCGCTCGAAGTGCGCACTGGCGTTCAAGGCGATAGCCCAGAAGGTCGACACCTGGCCGCTGCCGGCCAACCCGCGCGGCCATCTGGAGTTCTTCGTCGAACGCCTGGTGCAGCCAGCTGCAGACTCAACCGTATGA	MGSMHPVQVIAVTGGKGGVGKTNVSVNLSLALADLGRRVMLLDADLGLANVDVLLGLTAKRTLADVINGECDLRDVLIQGPGGIRIVPASSGTQAMVQLSPMQHAGLIQAFSDISDNLDVLVIDTAAGIGDGVVSFVRAAQEVIVVVCDEPTSITDAYALIKLLNRDYGMSRFRVLANMAHSPQEGRNLFAKLTKVTDRFLDVALQYVGAVPYDECVRKAVQKQRAVYEAFPRSKCALAFKAIAQKVDTWPLPANPRGHLEFFVERLVQPAADSTV	PGPT0015555_1258	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_REGULATION,PGPT0015555-flhG-K04562	NA	NA
BMS010_01584	723	fliA	COG1191	RNA polymerase sigma factor FliA	ATGTACAACAAGGCACAGGCGAAGGACTCGCAACATCAGTTGATCGAACGCTATGCGCCTCTGGTCAAGCGGATCGCCTACCACCTCCTGGCCCGCCTGCCGGCCAGCGTGCAGGTGGAGGACCTGATGCAGGCCGGGATGATCGGCCTGCTCGAGGCGTCGAAGAAATACGACTCCGGCAAGGGCGCGAGCTTCGAGACCTACGCCGGTATCCGCATCCGCGGCGCGATGCTCGACGAGGTGCGCAAGGGCGACTGGGCACCGCGCTCGGTGCACCGCAACAGCCGCATGGTCAGCGACGCGATCCGGAAAATCGAAGCGAGAACCGGGCGCGACGCTAAAGATCACGAGGTTGCGGCCGAACTCCAATTGAGTCTCGAAGATTACTACGGCATCCTGAGCGACACTTTGGGCAGCCGACTGTTCAGCTTCGACGATCTGTTGGAGGAAGGAGAGCACGGCGAGCTGCGCGAAGACAGCGACAGTACCCATCCCGAGCCCTCACGCGATCTGGAAGACGAACGTTTCCAGGCGGCGCTGGCCGACGCCATCGCCCACCTGCCGGAGCGTGAGCGTCTGGTATTGGCGTTGTATTACGACGAAGAATTGAATCTCAAGGAAATCGGCGAGGTGCTGGGGGTCAGCGAATCGCGGGTCAGCCAGCTGCACAGCCAGTGCGCCGCACGCCTGCGCGCGCGACTGGGCGAATGGCGGGCGCGCTGA	MYNKAQAKDSQHQLIERYAPLVKRIAYHLLARLPASVQVEDLMQAGMIGLLEASKKYDSGKGASFETYAGIRIRGAMLDEVRKGDWAPRSVHRNSRMVSDAIRKIEARTGRDAKDHEVAAELQLSLEDYYGILSDTLGSRLFSFDDLLEEGEHGELREDSDSTHPEPSRDLEDERFQAALADAIAHLPERERLVLALYYDEELNLKEIGEVLGVSESRVSQLHSQCAARLRARLGEWRAR	PGPT0015610_1012	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0015610-fliA|sigD|whiG-K02405	NA	NA
BMS010_01585	375	cheY_1	COG0784	Chemotaxis protein CheY	ATGAAAATCCTCATCGTGGATGACTTCTCGACGATGAGACGGATCATCAAGAACCTCCTGCGCGATCTGGGGTTCACCAACACCGCCGAGGCGGACGACGGCACCACCGCACTGCCGATGCTGCAGAGCGGCAACTTCGACTTCCTGGTCACCGACTGGAACATGCCCGGCATGACCGGCATCGACCTGCTGCGCGCGGTGCGCGCCGACGAGCGCCTGAAGCACCTGCCGGTGCTGATGGTCACCGCCGAAGCCAAGCGCGACCAGATCATCGAGGCCGCGCAAGCCGGCGTAAACGGGTATGTGGTCAAGCCGTTCACGGCCCAGGTGCTGAAAGAGAAGATCGAGAAGATCTTCGAGCGTGTTAACGGCTGA	MKILIVDDFSTMRRIIKNLLRDLGFTNTAEADDGTTALPMLQSGNFDFLVTDWNMPGMTGIDLLRAVRADERLKHLPVLMVTAEAKRDQIIEAAQAGVNGYVVKPFTAQVLKEKIEKIFERVNG	PGPT0015690_1800	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015690-cheY|yneI-K03413	NA	NA
BMS010_01586	789	cheZ	COG3143	Protein phosphatase CheZ	ATGGATCACAAAGACTCCACACCGGGTGACTTCGAGTCGACCCTGAAAACCCACGCCCGCGAGCTGGTCGACAGCCTGGAGCAGGGGCAGTTCGGCAAGGCCGTGCAACTGATCCAGGAACTGAGCCAGGTGCGCGACCACGGGCTCTACCAGGAAGTCGGCAAGCTCACCCGCGAGCTGCACAACGCCATCGTCAATTTCCAGATCGACCCGCGCGTACCGCACGCCACGGAAGTCTCGCAGATCGCCGATGCCACCGAGCGCCTCTCCTACGTGGTGCAGATGACCGAGCGCGCGGCCAACCGCACCATGGACCTGGTCGAAGAGTGCGCGCCGCTGGTCAACGACCTCAACGACGAAGCCAGGAGCCTCAGTGCCGATTGGGGGCGCTTCATGCGCCGGGAAATCGGCGCCGAGGGCTTCCGCGAGCTGGCCAAGCGCATCGAACTGTTCCTCGCCCGTAGCGAGCGCGACAGCGACAAGCTGTCCGGCCATCTCAACGACATCCTGCTGGCGCAGGACTACCAGGACCTCACCGGCCAGGTCATCAAGCGCGTCACCCAACTGGTCACCGAGGTGGAAAGCAACCTCGTCAAGCTGGTGCTGATGGCCAGCCAGGTCGACCGTTTCGCCGGCATCCAGCACGATCACGAAGCGCTGCGCGCCGAGCAGGAAAAACAAAAAGAACCTTCCAGGGGTGAAGGTCCGCAGATTCATGCCGATAAGCGTGATGACGTCGTATCCGGTCAGGACGATGTCGACGATCTGCTATCCAGCTTGGGATTCTAA	MDHKDSTPGDFESTLKTHARELVDSLEQGQFGKAVQLIQELSQVRDHGLYQEVGKLTRELHNAIVNFQIDPRVPHATEVSQIADATERLSYVVQMTERAANRTMDLVEECAPLVNDLNDEARSLSADWGRFMRREIGAEGFRELAKRIELFLARSERDSDKLSGHLNDILLAQDYQDLTGQVIKRVTQLVTEVESNLVKLVLMASQVDRFAGIQHDHEALRAEQEKQKEPSRGEGPQIHADKRDDVVSGQDDVDDLLSSLGF	PGPT0015695_145	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015695-cheZ-K03414	NA	NA
BMS010_01587	2238			hypothetical protein	ATGAGCTTCGACGCCGATGAAGAAATCCTCCAGGACTTCCTGGTAGAGGCCGGCGAGATTCTCGAGCAATTGTCCGAGCAGTTGGTTGAGCTGGAAAGCCGCCCCGACGACATGGCGCTGCTCAATGCCATTTTCCGTGGCTTCCATACGGTCAAGGGCGGCGCGGGCTTCCTCCAGCTGAACGAGCTGGTGGAGTGCTGCCACATTGCCGAGAACGTATTCGACATCCTGCGCAAGGGTGAGCGCCGCGTCGATGCGGAGCTGATGGACGTCGTCCTGCAGGCGCTGGACGCGGTCAACGAGATGTTCAGCCAAGTACGCGACCGTACCGAGCCGACTCCTGCCTCGCCCGAGCTGCTGGCGGCCCTGGCCCGCCTGGCCGAGCCGGCTGGCGACGACGAACCGGCCGCCGAAGCGCCCGTCGCGGCAGCAGAGCCCGAGCCGGAGCCCGAGGCACCCTCCGCCGACATCACCGACAGCGAGTTCGAGCAGTTGCTCGACGCCCTGGGCGAGCCGCAGGCCGAAGCCGCGCCCGCTGCCGCGGCGAGCGACGAAATCACCGACGACGAATTCGAGGCGCTGCTCGACCAGTTGCATGGCAAGGGCCAGTTCACCGCCGAACCGCCCAAGGCGGAAGCCCCGGCGCCTGCCGCACCAGCGGCGGGTGGTGACGAGATCACCGACGACGAGTTCGAAGCCCTGCTCGACCAGCTTCACGGCAAGGGCAAGTTCGTTCCGCCGGCCGTCGACGCCGAGCCGGAAAAACCGGTTGCCGCACCGGCCTCCAGCGCCGCACCGGCCGCAGGCGGCGACGAGATCACCGACGACGAATTCGAAGCGCTGCTCGACCAGTTGCACGGCAAGGGCAAGTTCGTCCCGCCGGCCGTCGAGGCCGAGCCGGAGAAACCGGCCGCCGCGCCCAAGCCTGCTGCCCAGCCGGCCGCTGCGCCGAAACCGGCGGCAGCCAGCAAGCCTGCACCGGCCAAGCCTGCCGCCAAGCCCGCCGAGGCGACCAAACCGGCGGCCGCCGCGCCGGCGCCTGCCGCTGGCGAGAAGGCCGCGGCCAGCGAAGCGGAAACCACGGTGCGGGTCGATACCGCGCGCCTGGACGAGATCATGAACATGGTCGGCGAGCTGGTGCTGGTGCGTAACCGCCTGGTGCGCCTGGGCCTGAACAGCGGCGACGAGGCCATGGCCAAGGCCGTGTCCAACCTCGACGTGGTCACCGCCGACCTGCAGACCGCGGTGATGAAGACCCGCATGCAGCCGATCAAGAAGGTCTTCGGCCGCTTCCCGCGCCTGGTCCGCGACCTGGCGCGCAACCTGAAGAAAGAAATCAACCTGGAACTGGTGGGCGAAGAGACCGACCTCGACAAAAACCTCGTCGAGGCCCTGGCCGACCCGCTGGTGCACCTGGTGCGCAACGCCGTCGACCACGGCATCGAGTCGCCGGAAGAGCGCGAGGCCGCCGGCAAGCCGCGTACCGGCCGGGTGGTGCTCTCCGCCGAGCAGGAAGGCGATCACATCCTGCTGATGATCAGCGACGACGGCAAAGGGATGGACGCCAATATCCTGCGCGCCAAGGCCGTAGAAAAAGGCCTGCTGGACAAGGACGCGGCCGATCGCCTGACCGAGCTGGAGTGCTACAACCTGATCTTTGCCCCGGGCTTCTCGACCAAGACCGAGATTTCCGATGTCTCCGGCCGCGGTGTCGGCATGGACGTGGTGAAGACCAAGATTTCCCAGCTCAACGGCACGGTGAACGTGTTCTCGCAGAAGGGACAGGGCTCGCGGATCGTCATCAAGGTGCCGCTGACCCTGGCGATCATGCCGACCCTGATGGTGATGCTGGGCAACCAGGCGTTCGCCTTCCCGCTGGTCAACGTCAACGAAATCTTCCACCTCGACCTGTCGCGCACCAACGTGGTGGACGGCCAGGAAGTGGTGATCGTGCGCGACAAGGCGCTGCCGCTGTTCTACCTCAAGCGCTGGCTGGTGCGCGACGCCGCCCATGAGGAACAGCGCGAGGGCCACGTGGTGATCCTCTCGGTGGGGACCCAGCGCATCGGCTTTGTCGTCGATCAACTGGTCGGCCAGGAAGAGGTGGTAATCAAGCCGCTGGGCAAGATGCTCCAGGGCACCCCTGGCATGTCCGGCGCCACCATTACCGGCGACGGCCGCATTGCCCTGATTCTCGACGTGCCGAGCATGCTCAAGCGCTACGCTCGCCGCATCTGA	MSFDADEEILQDFLVEAGEILEQLSEQLVELESRPDDMALLNAIFRGFHTVKGGAGFLQLNELVECCHIAENVFDILRKGERRVDAELMDVVLQALDAVNEMFSQVRDRTEPTPASPELLAALARLAEPAGDDEPAAEAPVAAAEPEPEPEAPSADITDSEFEQLLDALGEPQAEAAPAAAASDEITDDEFEALLDQLHGKGQFTAEPPKAEAPAPAAPAAGGDEITDDEFEALLDQLHGKGKFVPPAVDAEPEKPVAAPASSAAPAAGGDEITDDEFEALLDQLHGKGKFVPPAVEAEPEKPAAAPKPAAQPAAAPKPAAASKPAPAKPAAKPAEATKPAAAAPAPAAGEKAAASEAETTVRVDTARLDEIMNMVGELVLVRNRLVRLGLNSGDEAMAKAVSNLDVVTADLQTAVMKTRMQPIKKVFGRFPRLVRDLARNLKKEINLELVGEETDLDKNLVEALADPLVHLVRNAVDHGIESPEEREAAGKPRTGRVVLSAEQEGDHILLMISDDGKGMDANILRAKAVEKGLLDKDAADRLTELECYNLIFAPGFSTKTEISDVSGRGVGMDVVKTKISQLNGTVNVFSQKGQGSRIVIKVPLTLAIMPTLMVMLGNQAFAFPLVNVNEIFHLDLSRTNVVDGQEVVIVRDKALPLFYLKRWLVRDAAHEEQREGHVVILSVGTQRIGFVVDQLVGQEEVVIKPLGKMLQGTPGMSGATITGDGRIALILDVPSMLKRYARRI	PGPT0015645_1071	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015645-cheA|wspE-K03407	NA	NA
BMS010_01588	1095	cheB1	COG2201	Protein-glutamate methylesterase/protein-glutamine glutaminase 1	ATGCCAGTCAAGGTTCTGGTGGTGGACGATTCCGGCTTCTTCCGTCGCCGCGTCTCGGAAATCCTTTCCGCCGACCCGAATATCCAGGTGGTCGGCACGGCCACCAACGGCCGCGAGGCGATCGACCAGGCGCTGGCGCTGAAGCCGGACGTCATCACCATGGACTACGAGATGCCGATGATGGACGGCATCACCGCGGTGCGGCACATCATGCAGCGCTGCCCGACGCCGGTCCTGATGTTCTCCTCGCTGACCCACGAAGGCGCCCGCGTCACCCTGGACGCCCTGGACGCCGGCGCGGTGGACTACCTGCCGAAGAACTTCGAGGACATCTCGCGTAACCCGGAGAAGGTCAAGCAACTGCTCTGCGAGAAGGTCCACACCATCGCGCGCAGCAACCGCCGCTACAGCAGCTTCAGCCCGAGCCCGGCCACTCCGGCCGCCAGCCCGACCAGCAGCGCTCCGGCGCGCCCGGCACCCGCCGCGCCGGCCCCAACGGCACCGACGGGAGGCTCGCCCGCCCCAAAGCGTAAGGCCTACAAGCTGGTGGCCATCGGCACCTCCACCGGCGGGCCGGTTGCCCTGCAGCGCGTGCTGACCCAGCTTCCGGGCAATTTCCCGGCGCCCATCGTGCTGATCCAGCACATGCCGGCGGCCTTCACCAAGGCTTTCGCCGAGCGCCTGGACAAGCTCTGCCGGATCAGTGTCAAGGAAGCCGAGGACGGCGACATGCTGCGTCCCGGCCTGGCCCTGCTGGCGCCCGGTGGCAAGCAGATGATGGTCGACCCGCGCGGCGTGGTGAAAATCCTCCCCGGCGACGAGCGCCTCAACTACAAGCCCTGCGTCGACATCACCTTCGGTTCGGCGGCCAAGTCGTTCAACGACAAGGTGCTCGCCGTGGTGCTCACCGGCATGGGCGCCGACGGCCGCGAAGGCGCGCGCATGCTCAAGCAGAGCGGCAGCCAGGTATGGGCCCAGGACGAGGCGAGCTGCGTGATCTACGGCATGCCCATGGCCGTGGCCAAGGCCAACCTGGCCGACGCCATCTACGGCCTGGACGACATCGGCCGGCACCTGACCGAGGCCTGCCTGTGA	MPVKVLVVDDSGFFRRRVSEILSADPNIQVVGTATNGREAIDQALALKPDVITMDYEMPMMDGITAVRHIMQRCPTPVLMFSSLTHEGARVTLDALDAGAVDYLPKNFEDISRNPEKVKQLLCEKVHTIARSNRRYSSFSPSPATPAASPTSSAPARPAPAAPAPTAPTGGSPAPKRKAYKLVAIGTSTGGPVALQRVLTQLPGNFPAPIVLIQHMPAAFTKAFAERLDKLCRISVKEAEDGDMLRPGLALLAPGGKQMMVDPRGVVKILPGDERLNYKPCVDITFGSAAKSFNDKVLAVVLTGMGADGREGARMLKQSGSQVWAQDEASCVIYGMPMAVAKANLADAIYGLDDIGRHLTEACL	PGPT0015650_1367	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015650-cheB|chpB|wspF-K03412	NA	NA
BMS010_01589	741	pomA	COG1291	Chemotaxis protein PomA	ATGGATATCCTCAGCCTCATCGGGGTCATCCTCGCCTTCGTCGCCATCATCGGCGGCAACTACCTGGAAGGCGGACACGCCGCGGCCCTGCTCAACGGGCCGGCGGCGCTGATCGTGGTGGGCGGTACCCTGGGCGCGGCATTCCTGCAGACGCCCGTGAGCGTGTTCAAGCGGGCGCTGACGGTGCTGCGCTGGATTGTCTTCCCGCCGCGGATCGACCTGGCTGGCGGCATCGACCGGGTGGTCGGCTGGAGCATGACGGCGCGCAAGGAAGGGCTGCTCGGCCTGGAGCCGATCGCCGACGCCGAACCCGATCCCTACGCGCGCAAGGGCCTGCAACTGCTGGTGGACGGCGCTGAGCCCGAAGCCATCCGCAGCATCCTCGAAGTCGATCTCTACACCCAGGAAGGCCGTGACATCCAGGCCGCCAAGGTGTTCGAGAGCATGGGTGGCTACGCCCCGACCATCGGTATCATCGGAGCGGTCATGGGCCTGATCCACGTGATGGGCAACCTGGCCGACCCCAGCCAGCTCGGCAACGGCATCGCCGTGGCCTTCGTCGCCACCATCTACGGCGTGGGCTTCGCCAACCTGCTGCTGTTGCCGGCCGGCAACAAGCTCAAGGCCGTGGCCCAGCGCCAGTCGCGCTACCGTGAAATGCTCCTGGAAGGCATCCTGTCGATCGCCGAAGGCGAGAACCCTCGCTCCATCGAACTGAAGCTGCAGGGCTTCATGGACTGA	MDILSLIGVILAFVAIIGGNYLEGGHAAALLNGPAALIVVGGTLGAAFLQTPVSVFKRALTVLRWIVFPPRIDLAGGIDRVVGWSMTARKEGLLGLEPIADAEPDPYARKGLQLLVDGAEPEAIRSILEVDLYTQEGRDIQAAKVFESMGGYAPTIGIIGAVMGLIHVMGNLADPSQLGNGIAVAFVATIYGVGFANLLLLPAGNKLKAVAQRQSRYREMLLEGILSIAEGENPRSIELKLQGFMD	PGPT0015370_3363	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015370-motA-K02556	NA	NA
BMS010_01590	888	motB_1	COG1360	Motility protein B	ATGCCGCGCCGGCGCAACCACGAGGAACACGAGAACCACGAACGCTGGCTGGTCTCCTATGCCGACTTCATCACCCTGCTGTTCGCCTTCTTCGTGGTGATGTATTCGATTTCCTCGATCAACGAGGGCAAGTACAAGATTCTTTCGGAGACCTTGGTCGGCGTGTTCAACCAGCCGGACCGCTCGATCAAGCCGATCCCGGTGGGCGAAGAGCGGCCGCGTACCACCGAGCCGGCGCGCTCCGAGGTGGAAGAGAACGACCATAGCGACATCGCCATCGACGACCCCGGCGCCGATCCGTTGCAGGACATCGCCCAGAGCATGCGCGAGGCATTCGGCGACCTGATCCAGTCGGACCAGTTGACGGTGCGCGGCAACGAGCTGTGGGTGGAGATCGAGATGAACTCGGCGCTGCTGTTCCCCAGCGGCGATGCGATCCCGCACGATGCGGCCTTCGCCATCATCGAGAAGGTCGCCAAGATTCTGGCGCCCTACCAGAACCCGGTGCACGTGGAAGGCTTCACGGATAACCAGCCGATCCGCACGCGCGAATATCCGACCAACTGGGAGCTGTCGGCGGCGCGGGCGGCGAGTATCGTGCGGATGATGGCGAACGAAGGGGTCAATCCCGGGCGAATGGCGGCCGTCGGCTATGGCGAATTCCAGCCGGTGGCGGACAATGCCACGCCGGAGGGGAGGGCGCGCAACCGGCGCGTGGTCCTGGTGATTTCGCGCAACCTGGATGTGCGCCGCAGCGTGAGCGGCGTGGGCAGCGCCAACGCCCGGCCGGACGATGCGCTGCGGCGGGCTGGCACGCAATCTGCACCGGCGCCAGCAGCGCAGGCACCCAAAGGCGGTGCCGTCAATTCCCCGTCGTCGGCCCCCTGA	MPRRRNHEEHENHERWLVSYADFITLLFAFFVVMYSISSINEGKYKILSETLVGVFNQPDRSIKPIPVGEERPRTTEPARSEVEENDHSDIAIDDPGADPLQDIAQSMREAFGDLIQSDQLTVRGNELWVEIEMNSALLFPSGDAIPHDAAFAIIEKVAKILAPYQNPVHVEGFTDNQPIRTREYPTNWELSAARAASIVRMMANEGVNPGRMAAVGYGEFQPVADNATPEGRARNRRVVLVISRNLDVRRSVSGVGSANARPDDALRRAGTQSAPAPAAQAPKGGAVNSPSSAP	PGPT0015375_2496	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015375-motB-K02557	NA	NA
BMS010_01591	789	soj_1	COG1192	Sporulation initiation inhibitor protein Soj	ATGAGAGTCTGGGCAGTAGCCAATCAAAAAGGTGGCGTCGGCAAAACCACCACTTCCATCGCACTGGCGGGCCTGCTGGCCGACGCCGGCAAGCGCGTGGTGGTCGTCGACCTCGATCCGCACGGGTCCATGACCAGCTATTTCGGGCATGATCCCGACACCCTGGAACACAGTGTCTTCGACCTGTTCCAGCACCTGGGCAACGTGCCCCAGGGCCTGCCGCGGGAACTGCTGCTGCCCACCAGCCACGAGCGCATCGCCCTGCTGCCGTCGAGCACCGCGCTGGCGACCCTGGAGCGCCAGTCGCCCGGCCAGGCGGGCCTGGGCCTGGTGATCTCAAAGAGCCTGGCGCAGCTCTGGCAGGATTTCGACCACGCCATCATCGATAGCCCGCCGCTGCTCGGCGTGCTGATGGTCAACGCCCTGGCCGCCAGCCAGCAACTGGTGATCCCGGTGCAGACCGAGTTCCTCGCGGTGAAGGGCCTGGAGCGGATGGTCAGCACCCTGGCGATGATCAACCGCTCGCGCAAGCAGGCGTTGCCCTACACCATCGTGCCGACCCTGTTCGACCGCCGCACCCAGGCGTCCCTGGGAACCTTGCGGGTGCTGCGCGACACCTACCCCGAGCACCTCTGGCCGGCGTACATTCCGATCGATACGCGCCTGCGCGATGCCAGCCGGGCCGGGGTCACGCCGTCGCAGCACGACGACAAGAGCCGGGGCGTGCTTGCCTACCGCGCCTTGCTCAAGCACCTGCTCGGCCAGCAGACGTCGGCACAGGTGGCCTGA	MRVWAVANQKGGVGKTTTSIALAGLLADAGKRVVVVDLDPHGSMTSYFGHDPDTLEHSVFDLFQHLGNVPQGLPRELLLPTSHERIALLPSSTALATLERQSPGQAGLGLVISKSLAQLWQDFDHAIIDSPPLLGVLMVNALAASQQLVIPVQTEFLAVKGLERMVSTLAMINRSRKQALPYTIVPTLFDRRTQASLGTLRVLRDTYPEHLWPAYIPIDTRLRDASRAGVTPSQHDDKSRGVLAYRALLKHLLGQQTSAQVA				NA	NA	NA	NA	NA
BMS010_01592	846			hypothetical protein	ATGAGCCGTTCTGTCGCTACCGTTACCCGTCCCCAGCAGGCCTTGCAGTCCTATCTGGATGCCTTGCTGCAGGAGGCTTCCGTCGAACTGGCGGAAAGCGTCGGCCTCGACGAGTTCGAGGCGGCCGTGCTCGAAGAGCAGGTGCGTGACGCCCGGCTGGTGCCTGCCGCCGCGCCTGTCGCGCCCATCGTCCAGGCCGAGCCGGTGGCCCGTCCGGTGCTGGCCGAAGTGCGTCCGGCGGTGCTGCCCACCGTGCGCATGCCGGAGCCCGTTGTGGAGGCGCCGGCACCCACGCCGGCCGTGGTCGAGCCGCTGGCCGATGTCCACGTGCCGCCGAAGAGCGAACCGGCACCGTTGCGCCTCGACGAGCGTCCGGCCTGGGCCGACGAGCCGTTCGAGTGCCTGCTGTTCGACGTCGCCGGGCTGACCCTGGCGGTGCCGCTGGTCTGCCTGGGGTCGATCTATCCGCTGGCGGGCCAGGAGCTGACGCCGCTGTTCGGGCAGCCGGACTGGTTCCTCGGCATACTGCCGTGCCAGGCGGGCAACCTGAAGGTGCTGGACACCGCCCGCTGGGTGATGCCCGACCGCTACCGCGACGATTTCCGCGAAGGACTGCAATATGTGATTTCCGTGCAGGGCTACGAGTGGGGATTGGCCGTGCACCAGGTGAGCCGTTCGATCCGCCTCGACCCGAGCGAGATCAAGTGGCGCACCCAGCGTAGCCAGCGGCCCTGGCTCGCCGGCACGGTGATCGAACACATGTGCGCACTGCTCGATGTCTCCGCGCTGGCGGAGCTGATCGCCAGCGGCGCGGTCAAGCGCATGAACGGCGGCAAGCCGCATTGA	MSRSVATVTRPQQALQSYLDALLQEASVELAESVGLDEFEAAVLEEQVRDARLVPAAAPVAPIVQAEPVARPVLAEVRPAVLPTVRMPEPVVEAPAPTPAVVEPLADVHVPPKSEPAPLRLDERPAWADEPFECLLFDVAGLTLAVPLVCLGSIYPLAGQELTPLFGQPDWFLGILPCQAGNLKVLDTARWVMPDRYRDDFREGLQYVISVQGYEWGLAVHQVSRSIRLDPSEIKWRTQRSQRPWLAGTVIEHMCALLDVSALAELIASGAVKRMNGGKPH	PGPT0015680_498	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015680-cheW-K03408	NA	NA
BMS010_01593	480	cheW_2	COG0835	Chemotaxis protein CheW	ATGAAGAAAACGTCCGCACAAGGTTCCGAAGATCCGATTCTGCAATGGGTGACCTTCCGCCTGGACAACGAAACCTATGGCATCAACGTGATGCAGGTCCAGGAAGTGCTGCGCTACACCGAAATCGCGCCGGTGCCGGGTGCGCCGAGCTACGTGCTGGGGATCATCAACCTGCGCGGTAACGTGGTCACCGTGATCGATACCCGCCAGCGCTTCGGCCTGGCGCCGGCGCCGGTCACCGACAACACCCGCATCGTCATCATCGAGGCCGACAAGCAGGTGGTAGGCATTCTCGTCGACAGCGTCGCCGAGGTGGTCTACCTGCGTCAGTCGGAGATCGAGACCGCGCCGAACGTCGGCAACGAGGAATCGGCCAAGTTCATCCAGGGCGTCTGCAACAAGAACGGCGAGTTGCTGATCCTGGTCGAGCTGGACAAGATGATGAGCGAAGAGGAATGGTCCGAACTGGAGAGTATCTGA	MKKTSAQGSEDPILQWVTFRLDNETYGINVMQVQEVLRYTEIAPVPGAPSYVLGIINLRGNVVTVIDTRQRFGLAPAPVTDNTRIVIIEADKQVVGILVDSVAEVVYLRQSEIETAPNVGNEESAKFIQGVCNKNGELLILVELDKMMSEEEWSELESI	PGPT0015680_3647	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015680-cheW-K03408	NA	NA
BMS010_01594	414			hypothetical protein	TTGATCGAGATCGCGCTGGGGGCCCTGATCACCCTCTGCCTGCTGCTGACCGGCACCTGCCTGTGGCTGCTGACCAACCAGCGCGAGCACGCGCGCTGGCAGGTGGAGCGTGACGCCCGCGATGCCCTGCGTGACCAGCGCATCAAGGAGCTGAGCAAGCGCCTGGATGCCTACCTCACCGGCAGCGTGCGCATGGGCGAAGAGCTGCAGGAGCTGCGCCGCATCGTCGCGCCGCTGCCGGACAAGCTGAACCAGATGGAACAGCGCGATCCCTCCAGCCTGTCCTTCACCCAGGCCGCGCGCCTGGTGGGGATGGGCGCCAGCGTCGAAGACCTGACCCAATCCTGCGGGCTGACCCAGGCGGAAGCCGAGCTGGTCAGCAAGCTGCACCAGGCGCAACGCCGCAAAAGCTGA	MIEIALGALITLCLLLTGTCLWLLTNQREHARWQVERDARDALRDQRIKELSKRLDAYLTGSVRMGEELQELRRIVAPLPDKLNQMEQRDPSSLSFTQAARLVGMGASVEDLTQSCGLTQAEAELVSKLHQAQRRKS				NA	NA	NA	NA	NA
BMS010_01595	432	glpE_1		Thiosulfate sulfurtransferase GlpE	ATGCTGAGGACACTGCTGGTGTTGCTGGTCGCCTTGCCGCTCTACGGCCAGGCGCAAGAGGCGCCGCTGGAAGTGAAAGGCGCGGTCACGGTGAACGTGGAGCAGGCCAAGCGGCTTTATGACCTGGGTGCGGTCTTCATCGACGTGCGCCCGTCGCGGGAATGGAGCTGGGGCCATGTGCATGGCGCGGTCCACCTGGATCTGGCCGAACGCTTTTCCGGCTTGGCGATGCCGCACTGGCCACGCGGGATACCGCTGGTGATCTACTGCGACAGCGAAGTCTGCCCCCGTGGCGCCTTGGCCGCCGCCCTGGCGGTGGAGTGGGGCTATGAGCAGGTGTTCTACTTCCGCGAGGGCTACTTCGCCTGGCAGCTCTACGACCTGCCGCAGGGCAAGGGGTTGGCCGGGGAAGTGGTGGCGTTCAGGCCGTAG	MLRTLLVLLVALPLYGQAQEAPLEVKGAVTVNVEQAKRLYDLGAVFIDVRPSREWSWGHVHGAVHLDLAERFSGLAMPHWPRGIPLVIYCDSEVCPRGALAAALAVEWGYEQVFYFREGYFAWQLYDLPQGKGLAGEVVAFRP				NA	NA	NA	NA	NA
BMS010_01596	333			hypothetical protein	ATGAAACGCCAAGCCCCACGCCAGGCCATCGCCCTCAACTACGACGGCCAGAACGCCCCGACGCTCAGCGCCAAGGGCGACGACGAACTGGCCGAAGCCATCCTCGCCATCGCCCGTGAGCATGAGGTGCCGATCTACGAGAACGCCGATCTGGTGCGCCTGCTGGCTCGCCTGGAGCTGGGCGAGGCCATTCCCGAAGCGCTCTACCGCTGCATCGCCGAGATCATCGCCTTCGCCTGGTACCTCAAGGGCAAGGCGCCGGCGGGGTTTGGCGAGGATCGGGATATCACCCCATCCACGCTTTTGTTGGAAGGGCCGGATACGGCGAAATAG	MKRQAPRQAIALNYDGQNAPTLSAKGDDELAEAILAIAREHEVPIYENADLVRLLARLELGEAIPEALYRCIAEIIAFAWYLKGKAPAGFGEDRDITPSTLLLEGPDTAK	PGPT0029865_132	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0029865-flhB2-K04061	NA	NA
BMS010_01597	1545			hypothetical protein	ATGAACGAGATCAGCGGCGCCCGCCCCCTCCCCTCCGCCACGCCCAGCGTGCGGTCGGCCGCCAGCGCCGCCGACATGGCGGTGAAGCTGCTGCAGCCACTGGAAGGGTTGCTGGCCGCCGGGGAAACCGCCAAGGCCGAAGTGGTGGCGCTGAAGGAATCGGCGCAGAGCTTCCAGCTACTGCTCCGCCTGACCCTGGACAACGGCCGCCAGACCACCCTGGAGGCCAGCAGCACCCGCCCGCTGGCCCAGGGCACCGCCCTGGCCGTCACCGCCCTTTCCGACACCCGTCTGCTGCTCGCCCTGCAAGGCGGCGGCGACAAACCGCTCACCCAACTGGACCTGGAGCAACTGCCGGTCGGCACCCTGCTGCAAGGCAAGGTGGTAGCCAGCCAGCAGGTCGCCCAGGCCAAGGCCGAGCAGGCGGTCTACCGGGTGGTGGTCAACCTGCTCAACACTTCCCTGGCCGGCAGCAAGCTGTCGCTGGAAACACCGCTCGCGCTGCCAGTCGGCAGCCTGCTCACCGCCCAGGTGCAAGGCAGCCAGGCGCTGAATTTCCTGCCGCTGAGCGGACGCCTGGACCAACTGGAACTGGGCCAGCAACTGGCCGCCCAGCAGAACCGCCAGGGTTCGCTGGAGGGGCTGTTCAAGGCAATGCAGGGGATGAATGGCAAGGCCGGGCTGCCCGAGGGCTTGCAGGCCGGCATCGACAAGCTGCTCGCCGCCTTCCCCGACGCGCGTCAACTCACCGACACCAAGGGGCTGGCCCAGGCCATGGAGAACAGCGGCCTGTTCCTCGAGGCCAAGCTGCTGCACGGCCAGGCCGGCGCCCTACCCCAGGACCTCAAGGCCAACCTGCTGCGTCTGGTGGCGCAGATGCTGCCGAACCTGCCCAGCAGTTCGCCGCTCGCCGCGAGCAATGTCAGCGGCGCCCTGGCCCAGGCCCTGCCGGCGTTCGTCCGCAATGCCCTGGGTGCCCTCGGCCAGACCAACGCCCGCCAGCAGGCGCTGAGCTTCCCGCTGCCGTCCAAGCTGCTGCAATCCATGGAGGGCGAGGCGGACCTGGAAACCCTGCTGCGCCTGGCCGCTGCGGCGATTTCACGGTTGCAGACCCACCAGCTTTCCAGCCTGGCGCAGACCCAGACCACCCCGGACGGTACCCTGCTGACCACCTGGCAACTGGAATTGCCGATGCGCAACCAGCAGGAGCTGGTGCCGCTGCAGGTCAAGCTGCAACGCGAGGATTCGCCCAAGGCGGAGAAGAAGGAACAAAAAGAAACCCTGTGGAAGGTGGAGCTGGCCTTCGACCTGGCCCCGCTTGGCCCGCTACAGGTGCAGGCGCAACTGTTGCGCGGAAGCCTGTCCAGCCAGCTATGGGCGGAACACGCCGGCACCGCGCAACTGATCGGCCGGGAGCTGGAGCACCTGCGCGAACGGCTGGTGGCGGCCGGACTGACGGTCGGCGAGCTGGCCTGCCGCCAGGGTGTCCCGCCTCAAGGGCCGCGGACCCAACTGGAACAGCGCTGGGTGGACGAGACCGCATGA	MNEISGARPLPSATPSVRSAASAADMAVKLLQPLEGLLAAGETAKAEVVALKESAQSFQLLLRLTLDNGRQTTLEASSTRPLAQGTALAVTALSDTRLLLALQGGGDKPLTQLDLEQLPVGTLLQGKVVASQQVAQAKAEQAVYRVVVNLLNTSLAGSKLSLETPLALPVGSLLTAQVQGSQALNFLPLSGRLDQLELGQQLAAQQNRQGSLEGLFKAMQGMNGKAGLPEGLQAGIDKLLAAFPDARQLTDTKGLAQAMENSGLFLEAKLLHGQAGALPQDLKANLLRLVAQMLPNLPSSSPLAASNVSGALAQALPAFVRNALGALGQTNARQQALSFPLPSKLLQSMEGEADLETLLRLAAAAISRLQTHQLSSLAQTQTTPDGTLLTTWQLELPMRNQQELVPLQVKLQREDSPKAEKKEQKETLWKVELAFDLAPLGPLQVQAQLLRGSLSSQLWAEHAGTAQLIGRELEHLRERLVAAGLTVGELACRQGVPPQGPRTQLEQRWVDETA				NA	NA	NA	NA	NA
BMS010_01598	651	ccmA_1	COG4133	Cytochrome c biogenesis ATP-binding export protein CcmA	ATGGGTAACCATGCCGTGACCAGCCCTCTTCTCGAAGCCGTGGCGCTCGCCTGCGAGCGGGACTGGCGCATGCTCTTCGAGCGACTGGAGTTTCGCCTCTCCGCGGGCGAGATGCTGCAGGTCTCCGGCCCCAACGGCAGCGGCAAGACCAGCCTGCTGCGCCTGCTCTCCGGCTTGATGCAGCCGACCGCCGGCGAAGTGCGCCTGAACGGCCGCCCTCTCGGCGCCCAACGCGGCGAGCTGGCGCGCAACCTGCTGTGGATCGGCCATGCCGCGGGCATCAAGGGTCTGCTCACCGCCGAGGAAAACCTCACCTGGCTCTGCGCGCTGCACCAGCCGGCCGGTCGCGAGGCGATCTGGCAGGCGCTGGAGGCCGTTGGCCTGCGCGGTTTCGAGGACGTGCCCTGCCATACCCTGTCCGCCGGCCAGCAACGCCGTGTCGCCCTGGCCCGGCTGTATCTCGATCCGCCGCCGCTGTGGATTCTCGACGAACCCTTCACCGCCCTCGACAAGCAGGGCGTGGCGCAACTGGAAAGCCACCTGGCCCGGCACTGCGAGCAGGGTGGGCTGGTGGTGCTGACCACCCACCACACGCTGACGGAAAAGCCCGCCGGCTATCGCGACCTTGACCTGGGACAGCACCGCGCATGA	MGNHAVTSPLLEAVALACERDWRMLFERLEFRLSAGEMLQVSGPNGSGKTSLLRLLSGLMQPTAGEVRLNGRPLGAQRGELARNLLWIGHAAGIKGLLTAEENLTWLCALHQPAGREAIWQALEAVGLRGFEDVPCHTLSAGQQRRVALARLYLDPPPLWILDEPFTALDKQGVAQLESHLARHCEQGGLVVLTTHHTLTEKPAGYRDLDLGQHRA				NA	NA	NA	NA	NA
BMS010_01599	672	ccmB_1	COG2386	Heme exporter protein B	ATGAGCAATGTCTTCACACTCTTGCTCGCCCGCGAGGCTCGGCTGCTCTGTCGCCGTCCGGCGGAGCTGGCCAATCCCCTGGTGTTTTTCGCTATCGTGATCGCATTGTTCCCCCTGGCGGTGGGGCCCGAAACGCAACTGTTGCAGACCCTCTCGCCGGGGCTGGTCTGGGTCGCCGCGCTGCTCGCCGTGCTGCTCTCGCTGGACGGTCTGTTCCGCAGCGATTTCGAGGATGGCTCCCTCGAGCAGTGGGTCGTTTCGCCGCACCCCCTGCCGCTTCTGGTGCTGGCCAAGGTTTTGGCACACTGGCTGTTTTCCGGGCTGGCGCTGGTCCTGCTGGCCCCGTTGCTGGCACTGATGCTCGGGCTGCCGGCCCGCTGCCTGCCGGTGCTGCTGCTTTCGCTGCTGCTCGGCACGCCGGTGCTGAGCCTGCTCGGCGCGGTCGGCGCGGCGCTGACCGTCGGTCTCAAGCGCGGCGGCCTGCTGCTGGCGCTGCTGATTCTGCCGCTGTACATCCCGGTGCTGATCCTCGGCAGCGGGGCGCTGCAGGCGGCCCTGCAAGGATTGCCGGCGGCCGGCCACCTGTTGTGGCTGGCCAGCCTGACCGCCCTGGCGGTCACCCTGACCCCGTTCGCGATCGCCGCCGGGCTGACCATCAGCGTGGGCGAGTGA	MSNVFTLLLAREARLLCRRPAELANPLVFFAIVIALFPLAVGPETQLLQTLSPGLVWVAALLAVLLSLDGLFRSDFEDGSLEQWVVSPHPLPLLVLAKVLAHWLFSGLALVLLAPLLALMLGLPARCLPVLLLSLLLGTPVLSLLGAVGAALTVGLKRGGLLLALLILPLYIPVLILGSGALQAALQGLPAAGHLLWLASLTALAVTLTPFAIAAGLTISVGE				NA	NA	NA	NA	NA
BMS010_01600	756	ccmC_1	COG0755	Heme exporter protein C	ATGAACTGGACGTGGTTTCATAAGCTGGGTTCGCCCAAATGGTTCTACGAGATCAGCGGCCGCTGGCTGCCTTGGTTCGCCGTGGCGGCGGTGCTGCTGATCGGTGTCGGGCTGGTCTGGGGCCTGGCCTTTGCGCCGCCGGACTACCAGCAGGGCAACAGCTTCCGCATCATCTATATCCACGTCCCGGCGGCGTTCCTCGCCCAGTCCTGCTACGTCATGCTGGCGGTGGCCGGGCTGGTCGGGTTGGTCTGGAAGATGAAACTGGCCGACGTCGCCCTGCAGCAGGCCGCGCCAATCGGCGCCTGGATGACCTTCATCGCGCTGCTCACCGGCGCCATCTGGGGCAAGCCGACCTGGGGCACCTGGTGGGTCTGGGATGCCCGACTGACGTCGATGCTCATCCTCCTGTTCCTGTACTTCGGTGTGATTGCGCTCGGCCAGGCGATCAGCAATCGTGACAGTGCGGCAAAGGCCTGTGCGGTGCTGTCGATCGTCGGCGTGGTGAACATCCCGATCATCAAGTACTCGGTGGACTGGTGGAATTCCCTGCACCAGCCGGCCACCTTCAAAATCACCGAAAAGCCGGCGATGCCGGCGGAAATGTGGGTGCCGCTGTTGATCATGGTGCTCGGCTTCTACTGCTTCTTCGCCGCTGTGCTGCTGATGCGCATGCGTCTGGAAGTGCTCAAGCGTGAGGCCCGCAGCAGTTGGGTGAAAGCCGAGGTGCGCGCCCAGGTGGAGAAGCTGTCATGA	MNWTWFHKLGSPKWFYEISGRWLPWFAVAAVLLIGVGLVWGLAFAPPDYQQGNSFRIIYIHVPAAFLAQSCYVMLAVAGLVGLVWKMKLADVALQQAAPIGAWMTFIALLTGAIWGKPTWGTWWVWDARLTSMLILLFLYFGVIALGQAISNRDSAAKACAVLSIVGVVNIPIIKYSVDWWNSLHQPATFKITEKPAMPAEMWVPLLIMVLGFYCFFAAVLLMRMRLEVLKREARSSWVKAEVRAQVEKLS				NA	NA	NA	NA	NA
BMS010_01601	177			hypothetical protein	ATGAGTTTCGACTCGTTCGCCGATTTCATCGCCATGGGCACCCATGGCCCCTACGTCTGGTCCGCCTACGGCATCAGCCTGGCGGTGCTGGTCATCAACGTCGCGTTGCCTGTCATGGCCCGCCGACGTTATCTGCAAGACGAGGCGCGCCGTTTGCGCCGGGAGGAATCGAAGTGA	MSFDSFADFIAMGTHGPYVWSAYGISLAVLVINVALPVMARRRYLQDEARRLRREESK				NA	NA	NA	NA	NA
BMS010_01602	471	ccmE_2	COG2332	Cytochrome c-type biogenesis protein CcmE	GTGAATCCGCAGCGTAAGAAGCGTCTGTTCATCGTGCTGGCCATCCTGGCCGGTGTCGGCATCGCCGTGGCCCTGGCGTTGAGCGCGCTGCAGCAGAACATCAACCTGTTCTACACGCCGAGCCAGATCGCCGGCGGCGAGGCGCCGAAGGACACCCGCATCCGCGCCGGCGGCCTGGTGAAGGAGGGCTCGGTGAAGCGTTCGTCGGATTCGCTGGAGGTGGATTTCGTGGTCACCGACGGCGCCGCCGACGTGACCATCCGCTACCAGGGCATCCTCCCCGACCTGTTCCGCGAGGGGCAGGGCATCGTCGCCCTCGGCCGGATCAACCAGGACGGCCTGCTGGTGGCCGACGAAGTGCTGGCCAAGCACGACGAGAACTACATGCCGCCCGAGGTCACCCAGGCCCTGGAGAAGAGCGGCATGATGAAACACTACGAAGGCGGCAAGCAGCAGGGGTACGCGCAATGA	MNPQRKKRLFIVLAILAGVGIAVALALSALQQNINLFYTPSQIAGGEAPKDTRIRAGGLVKEGSVKRSSDSLEVDFVVTDGAADVTIRYQGILPDLFREGQGIVALGRINQDGLLVADEVLAKHDENYMPPEVTQALEKSGMMKHYEGGKQQGYAQ				NA	NA	NA	NA	NA
BMS010_01603	1974	ccmF_2	COG1138	Cytochrome c-type biogenesis protein CcmF	ATGATTCCCGAACTGGGCCACCTGGCGATGATCCTCGCCCTGTGCCTCGCCCTGGTACAGGCGACCCTGCCGCTGATCGGTGCCTGGCGCGGCGACCGCCAGTGGATGAGCCTGGCCCAGCCGGCGGCCTGGGGACAGTTCTCCTTCCTGCTGTTCGCCTTTCTCTGCCTGACCTATGCCTTCCTGACCGACGACTTCTCGGTCGCCTACGTCGCCAGCAACTCCAACAGCGCGTTGCCCTGGTACTACAAGTTCAGTGCCGTGTGGGGCGCCCATGAAGGCTCGCTGCTGCTCTGGGCGCTGATCCTGGGCGGCTGGACCTTCGCCGTGTCGGTGTTCTCCCGGCAGTTGCCGGAGGTGATGCTGGCACGCGTGCTGGCAATCATGGGCATGATCAGCGTTGGCTTCCTGTTGTTCCTGATCATCACCTCCAACCCCTTCGACCGCCTGTTGCCGCAATCGCCGGCGGACGGCCGCGACCTCAATCCGCTGCTGCAGGACTTCGGCCTGATCGTCCACCCGCCGATGCTCTACATGGGCTACGTGGGCTTCTCGGTCGCCTTCGCCTTCGCCATCGCCGCGCTGCTCGGGGGCCGCCTCGATGCCGCCTGGGCACGTTGGTCGCGACCCTGGACCATCGTCGCCTGGGCGTTTCTCGGCATCGGTATCGTGCTCGGCTCCTGGTGGGCCTACTACGAGCTGGGCTGGGGCGGCTGGTGGTTCTGGGACCCGGTGGAAAACGCTTCCTTCATGCCCTGGCTGGTGGGCACTGCGCTGATCCACTCCCTGGCGGTCACCGAAAAGCGCGGCGTGTTCAAGAGCTGGACCGTACTGCTGGCCATCGCCGCGTTCTCCCTCAGCCTGCTGGGCACCTTCCTGGTCCGTTCCGGCGTGCTCACCTCGGTGCACGCCTTCGCCTCCGACCCGGAGCGCGGCGTGTTCATCCTCGCCTTCCTGCTGGTGGTGGTCGGTGGCTCGCTGACCCTGTTCGCCATCCGTGCGCCGGTGGTGAAGAGCCAGGTCGGCTTTGCCCTCTGGTCGCGCGAGACCCTGCTGCTGGCCAACAACCTGGTGCTGGTGGTGGTGGCCTCGATGATCCTGCTCGGCACCCTCTATCCGCTGGTGCTGGACGCCACCACCGGCGCCAAGCTGTCGGTCGGCCCGCCGTACTTCAACGCGCTGTTCCTGCCGCTGATGAGCCTGCTCATGCTGGCCCTGGCGGTCGGCGTGCTGGTGCGCTGGAAGGACACCCCGCTGCAATGGCTGCTGCGCATGCTCGCCCCGGTGCTGTTGCTCAGCGTCGCGGTCGGTGTGGTCGGCAGCCTCTTGTCCGGCGATTTCCACTGGGCCGTGCTGGCCGCCTGGCTGCTGGCGGCCTGGGTGGTGCTCGCCGGCGTCCGCGACCTGCTCGACAAGACCCGCCACAAGGGCCTGCTGAACGGCATGCGCAGCCTGTCGCGCAGCTACTGGGGCATGCAACTGGCCCACGCCGGCATCGCCGTTTGTGCGCTGGGCATCGTGCTGTCCAGCCAGGGCAGCGCCGAACGCGACCTGCGCATGGCGCCAGGGGATTCGGTCGAGTTGGCCGGCTACCGTTTCGTCTTCGAGGGTGCCCGGCATGCCGAAGGGCCGAACTTCACCTCCGACCGCGGCACCATCCGCGTGCTGGATGACGGCGAGGAAATCGCCACGCTGCATCCCGAGAAGCGTCTCTACCGCGTGCAGAATTCGATGATGACCGAGGCCGGGATCGACGCCGGCTTCACCCGCGACCTCTACGTCGCCCTCGGCGAGCCGCTGGACAACGGCGCCTGGGCGGTGCGCGTGCACGTCAAACCCTTCGTCCGCTGGATCTGGCTGGGCGGACTGTTGATGGCCCTGGGCGGCATCCTCGCCGCCGCTGACCGTCGCTATCGGGTCAAGGTGAAGACCCGCGTGCGCGAAGCCCTGGGCCTGGCCGGACAAGGAGCCTGA	MIPELGHLAMILALCLALVQATLPLIGAWRGDRQWMSLAQPAAWGQFSFLLFAFLCLTYAFLTDDFSVAYVASNSNSALPWYYKFSAVWGAHEGSLLLWALILGGWTFAVSVFSRQLPEVMLARVLAIMGMISVGFLLFLIITSNPFDRLLPQSPADGRDLNPLLQDFGLIVHPPMLYMGYVGFSVAFAFAIAALLGGRLDAAWARWSRPWTIVAWAFLGIGIVLGSWWAYYELGWGGWWFWDPVENASFMPWLVGTALIHSLAVTEKRGVFKSWTVLLAIAAFSLSLLGTFLVRSGVLTSVHAFASDPERGVFILAFLLVVVGGSLTLFAIRAPVVKSQVGFALWSRETLLLANNLVLVVVASMILLGTLYPLVLDATTGAKLSVGPPYFNALFLPLMSLLMLALAVGVLVRWKDTPLQWLLRMLAPVLLLSVAVGVVGSLLSGDFHWAVLAAWLLAAWVVLAGVRDLLDKTRHKGLLNGMRSLSRSYWGMQLAHAGIAVCALGIVLSSQGSAERDLRMAPGDSVELAGYRFVFEGARHAEGPNFTSDRGTIRVLDDGEEIATLHPEKRLYRVQNSMMTEAGIDAGFTRDLYVALGEPLDNGAWAVRVHVKPFVRWIWLGGLLMALGGILAAADRRYRVKVKTRVREALGLAGQGA	PGPT0000484_45	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000484-nrfE-K04016	NA	NA
BMS010_01604	537	dsbE	COG0526	Thiol:disulfide interchange protein DsbE	GTGAAACGAGCGATCCTCCTGCTGCCGCTGGCGATCTTCCTGATCGTCGCGGTGTTTCTCTACCGGGGCCTGTTCCTCGATCCGTCGGAGCTGCCTTCGGCGCTGATCGGCAAGCCGTTCCCGGCTTTCTCGCTGCCCACCGTGGCCGGCGACGCCACCCTGACCGAGGCCAGCCTCAAGGGCAAGCCGGCGCTGGTCAACGTCTGGGCGACCTGGTGCGTGTCCTGCCGCGTCGAGCATCCAGTGCTGAACGAGCTGGCGAAGCGGGGCGTGGTCATCCATGGCGTCAACTACAAGGACGTCAATGCCGATGCGCAGAAGTGGCTGGCCGAGTTCCATAACCCCTACCAACTGAACATCGACGATGCCAAGGGCACCCTGGGCCTCGACCTGGGTGTCTACGGCGCGCCGGAAACCTTCCTGATCGACAAGGACGGCATCATCCGCCATAAGTTCGTCGGTGTGATCGACGAGCGCGCCTGGCGCGAGCAGCTGGCGCCGCTCTATCAGGAACTGGTGGACGAGGCGGCCCGATGA	MKRAILLLPLAIFLIVAVFLYRGLFLDPSELPSALIGKPFPAFSLPTVAGDATLTEASLKGKPALVNVWATWCVSCRVEHPVLNELAKRGVVIHGVNYKDVNADAQKWLAEFHNPYQLNIDDAKGTLGLDLGVYGAPETFLIDKDGIIRHKFVGVIDERAWREQLAPLYQELVDEAAR	PGPT0004090_7949	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004090-copA|ctpA-K17686	NA	NA
BMS010_01605	492	ccmH	COG3088	Cytochrome c-type biogenesis protein CcmH	ATGACCCGGCGTCTGCTCGCTGCCCTGTGCCTGGGCCTGGCCCTGAGCGGTGCCGCTCATGCGGCCATCGACACCTACGAGTTCGGCAGCGAGGCCGAGCGCGAGCGCTTCCGTGTGTTGACCGAAGAGCTGCGCTGTCCGAAGTGCCAGAACCAGAACATCGCCGACTCCAACGCGCCCATCGCCACCGACCTGCGCCGCGAGATTCATCGCATGCTGGAAGAGGGCAAGAGCGACGACGAGATCGTCGACTACCTGGTGGACCGCTACGGCGACTTCGTGCGCTACAAACCGCCGGTGAACGCCCGCACCTTCTTCCTCTGGTTCGGTCCGGCGCTGCTGCTGGTCGGCGGGCTGGGCATCCTCGGGGTGATCGTGGCGCGTCGGCGCAAGGTGGAGAACGCGCCGCGCGAGGCGTTGCTCTCCGCCGAAGAAAACGCGCGCCTTGCCGCGCTCCTGGAACGTGAATCGCAGGACAAGAAAGACCAATGA	MTRRLLAALCLGLALSGAAHAAIDTYEFGSEAERERFRVLTEELRCPKCQNQNIADSNAPIATDLRREIHRMLEEGKSDDEIVDYLVDRYGDFVRYKPPVNARTFFLWFGPALLLVGGLGILGVIVARRRKVENAPREALLSAEENARLAALLERESQDKKDQ	PGPT0000486_12	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000486-nrfF-K04017	NA	NA
BMS010_01606	1215			hypothetical protein	ATGACTGATTTCTGGCTTGCCGCCGGCCTGCTGCTGCTGGTCGCCCTGGGCTTTCTCCTGCTGCCGGTGGTTCGCGGCCGGCGTGCCCAGGCCGAGGAAGATCGCACCGCCCTCAACGTTGCGCTGTATCAGGAACGCCTGGACGAACTGGAGGTCCAGTTCGCTGCCGGTACCCTGAGTGCCGAGCAGAAGGAAGCCGGCCGCGCCGAAGCCGCCCGCGAGCTGCTGGCCGACACCGAAGGCGCCGAACCCGCCGGCCGTGCCCGTCTGGGCAAGGCCGTGCCGCTGGTCGCCGCGCTGCTGGTGCCGCTGCTGGGCTATGGGCTGTACCTGCACTGGGGTGCCAGCGACAAGCTGGAGCTGGCCCGCGAATTCGCCCAGCAGCCGAAGACCATCGAGGAAATGACCGCGCGCCTGGAGCAGGCGGTGAAGGCCCAGCCGGATTCCGCCGAGGGCTGGTTCTTCCTCGGCCGGACCTACATGGCGCAGAACCGTCCCGCCGAGGCCGCCCAGGCCTTCGAGCGCGCTGTGAACCTCGCCGGGCGCCAGCCCGAACTGCTCGGCCAGTGGGCCCAGGCCCTGTACTTTGCCGGCGACAAGCAGTGGACCGAGCAGATGCAGGCGCTCACCGACGAAGCGCTGAAAGGCGATCCGGAAGAGCTGACCAGCCTCGGCCTGCTGGGCATCGCCGCCTTCGAGGGTGGCCACTTCAAGGAGGCCATCGGCTACTGGGAGCGTCTGGTTGCCTCGCTGCCGCCGGAAGACCCGTCGCGCGCCGCGATCCAGAGCGGCATCGCCCGTGCCCGTCAGCAGATGGGCGAGGCGGACGGCGCCGCCGAGGCGGAAGCACCCGCGCCGGCTGCCGTGGCGGGTGTCGAACTCAAGGTGAAAGTCGATCTGGACCCGGCGCTCAAGGCCAAGGTGCAGCCGGACGACAGCGTGTTCGTCTTCGCTCGCGCCGTGTCCGGTCCGCCGATGCCCCTGGCGGTCAAGCGCCTGACCGTGGCCGAGCTGCCCGCCGAGGTCGCCCTGGGCGATGCAGACGCCATGATGCCGCAGCTCAAGCTTTCCAACTTTCCCGAGGTGCAACTGGTGGCGCGGGTTTCCCGGGCCGGCAACGCCACGGCGGGCGAGTGGATCGGTCGCAGCGAGGCGGTGAAGACGACGGAGACCGGGCCGCAGGCGGTGGTCATCGACCGGCCGGATCAGCGTTGA	MTDFWLAAGLLLLVALGFLLLPVVRGRRAQAEEDRTALNVALYQERLDELEVQFAAGTLSAEQKEAGRAEAARELLADTEGAEPAGRARLGKAVPLVAALLVPLLGYGLYLHWGASDKLELAREFAQQPKTIEEMTARLEQAVKAQPDSAEGWFFLGRTYMAQNRPAEAAQAFERAVNLAGRQPELLGQWAQALYFAGDKQWTEQMQALTDEALKGDPEELTSLGLLGIAAFEGGHFKEAIGYWERLVASLPPEDPSRAAIQSGIARARQQMGEADGAAEAEAPAPAAVAGVELKVKVDLDPALKAKVQPDDSVFVFARAVSGPPMPLAVKRLTVAELPAEVALGDADAMMPQLKLSNFPEVQLVARVSRAGNATAGEWIGRSEAVKTTETGPQAVVIDRPDQR				NA	NA	NA	NA	NA
BMS010_01607	444			hypothetical protein	ATGAGCGTATCCAACCCGTCACCCTCCGCTACGCACCCTCTGGGGCGCCGCGTGCGGTTGCTCGGCGTGCTCGGGCCGATCCTGTTGAGTAGTGCCTGTGCCGTTCATGTCGGCCAGCCGCCGCAACCCCAGCCGCCGGTACAGCAACCTCCTGTGCAGCAGGCCCCCATCGTACGTCCGCCACCGGTCCAGGCGCCGCCGCCGTCGAGTGCGCCGAAGCCGCAGATCAGCAAGACCCATCCACGCTATGCGCCGCCGCCGCACGTCGCTTCTCATTGGGACAACCGCCTGGGGGTCTACGTAGTGGAGGGGCGCGATCTCTACTACCGCGAGCGTCTGTTTTATCGCAAGGAGAGGGGCAACTGGGTCTGCTCCGGCCGCCCCGATGGTCCCTGGGAACCGATTGACATCCCCAACGTCCCGCCGGGCCTGCGCAATCGTTGA	MSVSNPSPSATHPLGRRVRLLGVLGPILLSSACAVHVGQPPQPQPPVQQPPVQQAPIVRPPPVQAPPPSSAPKPQISKTHPRYAPPPHVASHWDNRLGVYVVEGRDLYYRERLFYRKERGNWVCSGRPDGPWEPIDIPNVPPGLRNR				NA	NA	NA	NA	NA
BMS010_01608	903			hypothetical protein	ATGTCGCCGTTCCCCCGTCCCCTTGCCGTTCTGATCCTCGCCAGCCTGGCCTGCGCCTTCGCCGGCAACCACGTCGCCGCCCGCGTCGCCTTCGACGACGGCACTGGTGTGCTGTTGGCCATCCTCTGCCGCTCCGGGGCCACCACCCTGGCCCTGTTCGCCATCGTCCTCTGGCAGCGCCAGGGCTTTCGCCTGCCCGCCGGCAGCGGACGCTGGCAACTACTGCTCGGCCTGCTGATCGCCGTGCAGAGCCTGTGCCTGTACTCGGCGGTGGCGCGCATCCCAGTGGCGCTGGCGCTGCTGGTGGCCAACGTCTTCCCGATCCTGCTGGCGCTGCTCACCTGGCTGCTCGGCGGCCCGGCGCCGACACGGCGCACCGCCAGCCTGATGGGGCTGATCCTGGTCGGCCTGTTCCTCGCCCTGGACGTCCCATCCCGCCTGGCCTCCAGCGAGGCGGCCGGACCGCACTGGTGGCTCGGCGTGGGCCTGGCCTTCTGCGCCGCCAGCGTCTTCGCCGCGGCGCTGTGGATCACCGACCACAAGCTGGCTGCGGTGCGCGGCTCGCTGCGCAGCCTGCTGAGCATGTTGGTGGTGTTCAGCGTCACTTCATTGGCCGGCGCCAGCGGCGCGCTACCGGGCGGCCTGCAAGCACCCGCGCATACCTCCGGCTGGCTGGCCCTGGCCACCCTGGCGCTGCTCTACGGCGTGGGATTCTCCGTGCTGTTCGTCAGCGTGCCACGGCTGAACATGCCGAAGAACGCCCCGGTGATGAACATCGAACCGGTCGCCACCCTGCTGCTCGGCTGGCTGGTACTGGGACAGATGCTCAGCCCCATCCAACTGGTGGGCGGCACCGTGGTGGTGCTCGGTATCGTTTTGCTCACCTACAGGCGGGAGGGGTGA	MSPFPRPLAVLILASLACAFAGNHVAARVAFDDGTGVLLAILCRSGATTLALFAIVLWQRQGFRLPAGSGRWQLLLGLLIAVQSLCLYSAVARIPVALALLVANVFPILLALLTWLLGGPAPTRRTASLMGLILVGLFLALDVPSRLASSEAAGPHWWLGVGLAFCAASVFAAALWITDHKLAAVRGSLRSLLSMLVVFSVTSLAGASGALPGGLQAPAHTSGWLALATLALLYGVGFSVLFVSVPRLNMPKNAPVMNIEPVATLLLGWLVLGQMLSPIQLVGGTVVVLGIVLLTYRREG				NA	NA	NA	NA	NA
BMS010_01609	1281	dctM_1	COG1593	C4-dicarboxylate TRAP transporter large permease protein DctM	ATGGATGCCTTCATTCTCCTGGGCAGCTTCATCCTCCTGATCCTCCTGCGCATGCCCGTCGCCTATGCCCTGGGCCTGTCGGCGCTGATCGGCGCCTGGTGGATCGACATTCCCCTGCACGCGGTGATGATCCAGGTCGCCGGCGGGGTCAACAAATTCTCCCTGCTGGCCATCCCGTTCTTCGTCCTGGCCGGCGCCATCATGGCCGAAGGCGGCATGTCGCGCCGGCTGGTGGCCTTCGCCGGGGTATTGGTGGGCTTCGTGCGCGGCGGCCTGTCGCTGGTCAACATCATGGCCTCGACCTTCTTCGGCGCGATCTCCGGTTCCTCCCTGGCGGATACCGCCTCGGTCGGCTCGGTACTGATCCCGGAAATGGAAAAGAAGGGCTATCCGCGCGAGTTCTCCACCGCAGTCACGGTCAGCGGCTCGGTGCAGGCGCTGCTCACCCCGCCCAGCCACAACTCGGTGCTCTATTCCCTGGCGGCCGGCGGCACCGTGTCCATCGCCTCGCTGTTCATCGCCGGCATCGGCCCGGGCCTGCTGCTCAGCGCGGTGATGATGGGCATGTGCCTATTCTTCGCGAAAAAGCGCAGCTACCCCAAGGGCGAAGTCATCCCGCTGCGCCAGGCGCTGAAGATTTGCGTCGAAGCGCTCTGGGGCCTGATGACCATGGTGATCATCCTCGGCGGCATCCTGTCCGGCGTGTTCACCGCCACCGAATCCGCCTCCGTCGCGGTGGTCTGGGCCTTCTTCGTCACCATGTTCATCTACCGCGACTACAAGTGGCGCGAGCTGCCCAAGCTGATGCACCGCACCGTGCGTACCCTGTCGATCGTGATGATCCTCATCGCCTTCGCCGGCAGCTTCGGCTACATCATGACGCTGATGCAGATCCCGTCGAAGATCACCACGCTGTTCCTGACCCTGTCGGACAACCGCTACGTGATCCTCATGTGCATCAACTTCATGCTGCTGGCCCTGGGCACCTTGATGGACATGGCACCGCTGATCCTGATCCTCACGCCGATCCTGCTGCCGGTGATCACCGGCCTGGGCATCGACCCGGTGCACTTCGGCATGATCATGCTGGTCAACCTGGGCATCGGCCTGATCACCCCGCCGGTGGGCGCGGTGCTGTTCGTCGGCGCGGCGATCGGCAAGGTCAGCATCGAGACCACGGTGAAAGCCCTGCTGCCGTTCTACGTGGCGCTGTTCCTGGTGCTGATGGCGGTCACCTACATTCCGGCGATCTCCCTCTGGCTGCCCAGCGTCCTGTTGTAA	MDAFILLGSFILLILLRMPVAYALGLSALIGAWWIDIPLHAVMIQVAGGVNKFSLLAIPFFVLAGAIMAEGGMSRRLVAFAGVLVGFVRGGLSLVNIMASTFFGAISGSSLADTASVGSVLIPEMEKKGYPREFSTAVTVSGSVQALLTPPSHNSVLYSLAAGGTVSIASLFIAGIGPGLLLSAVMMGMCLFFAKKRSYPKGEVIPLRQALKICVEALWGLMTMVIILGGILSGVFTATESASVAVVWAFFVTMFIYRDYKWRELPKLMHRTVRTLSIVMILIAFAGSFGYIMTLMQIPSKITTLFLTLSDNRYVILMCINFMLLALGTLMDMAPLILILTPILLPVITGLGIDPVHFGMIMLVNLGIGLITPPVGAVLFVGAAIGKVSIETTVKALLPFYVALFLVLMAVTYIPAISLWLPSVLL	PGPT0017335_2576	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017335-dctM-K11690	NA	NA
BMS010_01610	528			hypothetical protein	ATGAAAAACACCCTGCTGCGCTTCAACGACGCCCTCTACACGACCTGCATCTGGGTCGCCGGGCTGGCGGTACTGGCCATGTCGCTGACCATCCCCTGGGGCATCTTCACCCGCTACATGCTCGGTTCCGGCGCCAGTTGGCCCGAGCCGGTGGCGATCCTGCTGATGGTGCTGTTCACCTTCGTCGGCGCCGCCGCCAGCTATCGCGCCGGTGCGCACATGGCGGTCGCCGTGCTGAGCGACCGTCTGCCACCCGCCCTGCAGCGCTACAACGAGCTGCTGGTGCAATTGCTGATGGCCGCCATCGCCCTGTTCATGACCATCTGGGGCGTGAAGCTGTGCATCGCCACCTGGAACCAGTTCGTCAGTGCCCTGCCCAGCCTGCGGGTCGGCATCACCTATGCGCCCATCCCCGTCGGCGGTTTCCTTACCCTGATCTTCATCCTCGAAAGACTTTTCCTCGGCGACCAGAGCCATCGGCGCGCGGTCAATTACGAGCAGGTCGACGACAGCAAAGAGGCCCTGTAG	MKNTLLRFNDALYTTCIWVAGLAVLAMSLTIPWGIFTRYMLGSGASWPEPVAILLMVLFTFVGAAASYRAGAHMAVAVLSDRLPPALQRYNELLVQLLMAAIALFMTIWGVKLCIATWNQFVSALPSLRVGITYAPIPVGGFLTLIFILERLFLGDQSHRRAVNYEQVDDSKEAL				NA	NA	NA	NA	NA
BMS010_01611	975		COG1638	Solute-binding protein	ATGAACTGCAAACGCACCCTGCTCGCCGCCGCCCTCCCCCTGGTCTTCTGCCTGCCCGGCCTGGCCCAGGCCGCCATGACCCTGAAGATGGCCGAGATCCACCCGGCCGGTTATCCCACGGTGGTCGCCCAGGAGCACATGGCGAAGAAGATCGAGGAAGCCACCAACGGCGAACTCAAGTTCCAGATGTTCGCCGGCGGCGTGCTCGGCTCCGAGAAGGAAGTGGTCGAGCAGGTGCAGATCGGCGCCGTGCAGATGACCCGCGTCAGCCTCGGCACCATCGGCCCGGTGGTACCGGACGTCAACGCCTTCAACATGCCGTTCATCTTTCGCGACAACCAGCACATGCGCAAAGTGATCGACGGCGAGATCGGCCAGGAAATCCTCGACAAGATCACCAACTCCGAATTCAACATGGTCGCCCTGGCCTGGATGGACGGCGGTGTGCGCAACCTCTACACCAAGAAGCCGGTGCGCAAGATCGAAGACCTCAAGGGCATGAAGATTCGCGTGATGGGCAACCCGCTGTTCGTCGACACTCTCAACGCCATGGGCGCCAACGGCGTGCCGATGAACACCGGGGAGATCTTCAGCGCGCTGCAGACCGGCGTGATCGACGGTGCCGAGAACAACCCGCCGACCATGCTCGAACACAACCACTACCAGAACGCCAAGTACTACTCCCTGACCGGTCACCTGATCCTCCCGGAGCCGCTGGTAATCTCCAAGACCACCTGGGAAAAGCTCACCCCCGAGCAGCAGGAGCTGGTGAAGAAGTACGCCAAGGAAGCCCAGATGGAGGAGCGCAAGCTGTGGGACGAGAAGTCCGCCAGCAGCGAAGCGAAGCTCAAGGCGGCCGGTGTCGAGTTCATCGAGGTCGACAAGAAGCCGTTCTACGACGCCACCGCCCCGGTTCGCGAGAAGTACGGCGCACCGTTCGCCGAGCTGATCAAGCGCATCGAAGCGGTCCAGTGA	MNCKRTLLAAALPLVFCLPGLAQAAMTLKMAEIHPAGYPTVVAQEHMAKKIEEATNGELKFQMFAGGVLGSEKEVVEQVQIGAVQMTRVSLGTIGPVVPDVNAFNMPFIFRDNQHMRKVIDGEIGQEILDKITNSEFNMVALAWMDGGVRNLYTKKPVRKIEDLKGMKIRVMGNPLFVDTLNAMGANGVPMNTGEIFSALQTGVIDGAENNPPTMLEHNHYQNAKYYSLTGHLILPEPLVISKTTWEKLTPEQQELVKKYAKEAQMEERKLWDEKSASSEAKLKAAGVEFIEVDKKPFYDATAPVREKYGAPFAELIKRIEAVQ				NA	NA	NA	NA	NA
BMS010_01612	879			6-deoxy-6-sulfogluconolactonase	ATGCACGCTGAACTCGTCCTCGACGCCCGCAACGGCACCGGCGAAAGCCCGGTCTGGAGCGTCGCCGAGCAGGCCCTCTACTGGGTCGATATCCCCGCCGGCCGTCTCTACCGCTGGGGCGCACGCGACGAACTGGCGCAGAGCTGGCAGGCGCCGGAGATGCTCGCCTGCATCGCCCGCAGCCGCAGCGGCTGGCTCGCCGGTATGGAGAGCGGCCTGTTCCACCTGCAACCGCAGGCGGACGGCAGCCTCGCACCGCAATTGCTGGCCGCCGTGGAGCATGCCGCCCCGTCAATGCGTTTCAACGATGGCCGCTGCGACCGCCAAGGACGCTTCTGGGCCGGCACCATGCACACCGACATGGGCGCCGGGCATCGCGTCGGCAGGCTCTACCGCTATGCCGACGGCCGCCTGGAATTGCAACTGGAGGGTTTCATCGTGCCCAACGGCCTGGCCTTCAGCCCGGACGGCCGGACGATGTACCTGTCCGACTCGCACCCGAGCGTGCAGCACATCTGGGCCTTCGATTACGACACTGACAGCGGCACCGCGCACAACCGCCGCCTGTTCGTCGACATGAACCAGCACCCCGGCCGCCCCGACGGCGCCGCCGTGGATGAAAGCGGCTGCTACTGGATCTGCGGCAACGATGCCGGCCTGATCCATCGCTTCACCCCAACCGGACGGCTCGACCGCTCCCTCGCCGTCCCGGTGAAGAAACCGGCCATGTGCGCCTTCGGCGGCCCTGGCCTGGACACCCTGTTCGTCACCTCGATCCGCCCACAGGGCACCGACCTCTCCGACCAGCCCCTGGCTGGCGGGGTGTTCGCCCTGAGGCCCGGAGTGAAAGGCCTGGAGGAGCCCGCCTTCGGCGCCTGA	MHAELVLDARNGTGESPVWSVAEQALYWVDIPAGRLYRWGARDELAQSWQAPEMLACIARSRSGWLAGMESGLFHLQPQADGSLAPQLLAAVEHAAPSMRFNDGRCDRQGRFWAGTMHTDMGAGHRVGRLYRYADGRLELQLEGFIVPNGLAFSPDGRTMYLSDSHPSVQHIWAFDYDTDSGTAHNRRLFVDMNQHPGRPDGAAVDESGCYWICGNDAGLIHRFTPTGRLDRSLAVPVKKPAMCAFGGPGLDTLFVTSIRPQGTDLSDQPLAGGVFALRPGVKGLEEPAFGA	PGPT0017460_198	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017460-araB|L_arabinonolactonase-K13874	NA	NA
BMS010_01613	981	udh_1	COG0451	Uronate dehydrogenase	ATGCGCGCGGACACCGGCTCCACGCACACCGCTCCAATGAGCGAAGCGGCCCCGACTTCGACATTCGTCGCGTTGACAAAGGCCCTGAGGCGTGTCGATAATTCGACTCATGTCATACGACAACAGATGACAATTCTAAAAACCAAGGCGAACAAGCCCATGAACACTAGCACTCCAGCCCAGGCTGTCGATCGCGTCCTGCTCACAGGCGCTGCGGGAGGCCTGGGCAAAGTCCTGCGGGAAACCCTGCGCCCCTATGCCAAGGTCCTGCGTCTCTCCGATATCTCCCCCATGGCCCCTGCGGCCGGCCCCCATGAAGAAGTGGTGCCCTGCGATCTCGCCGACAAGGCCGCGGTGAATACCCTCTGCGAAGGCGTCGATGCCATCGTCCACTTCGGCGGCATCTCGGTCGAACGGCCCTTCGAAGAAGTCCTCGACGCCAACATCCGTGGCGTCTTCCACATCTACGAAGCCGCCCGCCGCCACGGCATCAAGCGCGTGGTCTTCGCCAGCTCCAACCACGTGATCGGCTTCTACAAGCAGAGCGAGACCCTCGACGCCAACGCCCGCCGCCGCCCGGACGGCTACTACGGCCTGTCGAAGTCGTTCGGCGAAGACACCGCCAGCTTCTACTACGACCGCTACGGCATCGAGACCGTGAGCATCCGCATCGGCTCGTCGTTTCCGGAGCCACAGAACCGCCGGATGATGTCGACCTGGCTGAGCTACCGCGACCTCACCGAACTGATCGGCCGTTCCCTGTTCACCCCGAACGTAGGCCACACCATCGTCTATGGCATGTCCGCCAATCGCGACGTCTGGTGGGACAACCACCTGGCCGCGCACCTGGGCTTCGTGCCACAGGACAGCTCGGAAGTCTTCCGCGACAAGGTCGAGGCCCAGCCCGCCCCCGCCGCCGACGACCCGGTGGCGGTCTACCAGGGCGGCGCTTTCGTCGCAGCCGGTCCGTTCGAAGATTGA	MRADTGSTHTAPMSEAAPTSTFVALTKALRRVDNSTHVIRQQMTILKTKANKPMNTSTPAQAVDRVLLTGAAGGLGKVLRETLRPYAKVLRLSDISPMAPAAGPHEEVVPCDLADKAAVNTLCEGVDAIVHFGGISVERPFEEVLDANIRGVFHIYEAARRHGIKRVVFASSNHVIGFYKQSETLDANARRRPDGYYGLSKSFGEDTASFYYDRYGIETVSIRIGSSFPEPQNRRMMSTWLSYRDLTELIGRSLFTPNVGHTIVYGMSANRDVWWDNHLAAHLGFVPQDSSEVFRDKVEAQPAPAADDPVAVYQGGAFVAAGPFED	PGPT0018290_348	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLACTURONATE|GLUCURONATE_DEGRADATION,PGPT0018290-udh-K18981	NA	NA
BMS010_01614	912		COG0329	putative 5-dehydro-4-deoxyglucarate dehydratase	ATGAATCCACAAGAACTGAAGTCCATCCTCTCGACCGGCCTGCTGTCGTTCCCGGTGACCGATTTCGATGCGGCGGGTGAATTCAACGCCGCCAGCTATGCGCGCCGCCTGGAATGGCTCGCTCCCTACGGCGCCTCGGCGCTGTTCGCCGCCGGTGGTACCGGCGAGTTCTTCTCCCTGGCACCGGACGAGTACTCCTCGGTGATCAAGACCGCAGTGGACACCTGTGCCGGCAGCGTACCGATCCTCGCCGGCGTCGGCGGCCCGACCCGCCTGGCCATCCAGTACGCCCAGGAGGCCGAGCGCCTCGGCGCCAAAGGCCTGCTGCTGCTGCCGCACTACCTGACCGAAGCCAGCCAGGAGGGCGTCGCCGCTCACGTCGAGCAGGTCTGCAAGTCGGTGAAGATCGGTGTGGTGGTCTACAACCGCAACGTCTGCCGCCTGACCCCGGCGCTGCTGGAGCGCCTGGCCGAGCGCTGCCCGAACCTGGTCGGCTACAAGGATGGCCTCGGCGACATCGAGCTGATGGTGTCCATCCGCCGTCGCCTGGGCGACCGCTTCAGCTACCTCGGCGGCCTGCCGACCGCGGAGGTCTATGCCGCCGCCTACAAGGCGCTGGGCGTGCCGGTGTATTCCTCGGCGGTGTTCAACTTCATTCCGAAGACCGCGATGGCGTTCTACAACGCGATTGCCGCCGACGACCACGCCACCGTCGGCAAGCTGATCGACGAGTTCTTCCTGCCGTACCTGGAAATCCGCAACCGCCGCGCCGGCTACGCGGTCAGCATCGTCAAGGCCGGTGCGCGCATCGTCGGCCATGACGCCGGCCCGGTCCGCGCGCCGCTCACCGACCTGTTGCCGGAAGAGTACGAAAAGCTCGCCGCACTGGTCGAAGCCCAGGGCGCGCAATAA	MNPQELKSILSTGLLSFPVTDFDAAGEFNAASYARRLEWLAPYGASALFAAGGTGEFFSLAPDEYSSVIKTAVDTCAGSVPILAGVGGPTRLAIQYAQEAERLGAKGLLLLPHYLTEASQEGVAAHVEQVCKSVKIGVVVYNRNVCRLTPALLERLAERCPNLVGYKDGLGDIELMVSIRRRLGDRFSYLGGLPTAEVYAAAYKALGVPVYSSAVFNFIPKTAMAFYNAIAADDHATVGKLIDEFFLPYLEIRNRRAGYAVSIVKAGARIVGHDAGPVRAPLTDLLPEEYEKLAALVEAQGAQ	PGPT0018160_600	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLACTURONATE|GLUCURONATE_DEGRADATION,PGPT0018160-kdgD|ycbC-K01707	NA	NA
BMS010_01615	1443	aldHT		Aldehyde dehydrogenase, thermostable	GTGGCAACGCAACGCTTCGACAACTACATCGGCGGGGAGTGGGTGGCAGGCGCCAGCTACTCCACCAACATCAATCCTTCGGACCTGTCCGACAGTCTCGGCGAGTACGCCCAGGCCGACGCGGCCCAGGTGTCCGCTGCCATCGCCGCGGCCCGCGAGGCCTTTCCGGCCTGGTCGGCCTCCGGCATCCAGGCGCGTGCCGACGCGCTGGACAAAGTGGGCAGCGAAATTCTCGCCCGCCGCGAGGAACTGGGCCAATTGCTGGCCCGGGAAGAGGGCAAGACCCTGCCGGAGTCCATCGGCGAAGTGGCCCGCGCCGGCAACATCTTCAAGTTCTTCGCCGGCGAGTGCCTGCGCCAGTCCGGTGAACTGCTGGCTTCGGTGCGCCCGGGCATCGCCGTCGAAGTGACCCGCGAGCCCCTGGGCGTGATCGGCCTGATCACGCCATGGAACTTCCCCATTGCCATCCCGGCCTGGAAGATCGCCCCGGCCCTGGCCTACGGCAATTGCGTGGTGATCAAGCCGGCCGACCTGGTGCCGGGCTGCGCCTGGGCGTTGGCCGAGATCATCTCCCGCGCCGGCTTCCCTGCCGGGGTGTTCAACCTGGTGATGGGCAGCGGCCGGGTGGTGGGCGAGGCGCTGGTCAACGACAAGCGCGTCGATGGCATCAGCTTCACCGGCTCGGTGGGCGTCGGTCGCGGCATCGCCGCCGCCTGCGTGGCCCGCGGTGCCAAGGTGCAGTTGGAGATGGGCGGCAAGAACCCGCAGGTCATCCTCGACGACGCCGATCTCAAGACCGCCGTCGAGCTGTCGGTGCAGAGCGCGTTCTTCTCCACCGGCCAGCGTTGCACGGCGTCCAGCCGCTTGATCGTCACCGCCGGTATCTACGACCGCTACGTCGCCGCCATGGCCGAGCGCGTCGGCCAGCTCAAGGTGGGCCACGCGCTGAAGGCCGGCATCGACATCGGCCCGGTGGTGTCCCAGGCGCAACTGGAACAGGACCTGCGCTACATCGACATCGGCCGCGATGAAGGCGCGCGGTTGGTGACCGGTGGCCAGCGGGTGAGCTGCGAGACCGAGGGCTACTTCCTGGCGCCGACCCTGTTCGCCGACAGCGACGCCGCCATGCGCATCAGCCGCGAGGAAATCTTCGGGCCGGTGGCCAACATCGTCCGCGTGGCGAACTACGAGGAGGCGCTGGCCATGGCCAACGACACCGAGTTCGGTCTGTCCGCCGGCATCGCCACCACCTCGCTGAAGTATGCCCAGCATTTCAAGCGGCACGCCCAGGCGGGGATGGTGATGGTCAACCTGCCCACCGCCGGGGTGGACTACCACGTGCCGTTCGGCGGGCGGAAGGGCTCGTCCTACGGGCCGCGCGAGCAGGGCCGCTATGCCCAGGAGTTCTACACCACGGTAAAGACCAGCTACATCGCGTCCTGA	MATQRFDNYIGGEWVAGASYSTNINPSDLSDSLGEYAQADAAQVSAAIAAAREAFPAWSASGIQARADALDKVGSEILARREELGQLLAREEGKTLPESIGEVARAGNIFKFFAGECLRQSGELLASVRPGIAVEVTREPLGVIGLITPWNFPIAIPAWKIAPALAYGNCVVIKPADLVPGCAWALAEIISRAGFPAGVFNLVMGSGRVVGEALVNDKRVDGISFTGSVGVGRGIAAACVARGAKVQLEMGGKNPQVILDDADLKTAVELSVQSAFFSTGQRCTASSRLIVTAGIYDRYVAAMAERVGQLKVGHALKAGIDIGPVVSQAQLEQDLRYIDIGRDEGARLVTGGQRVSCETEGYFLAPTLFADSDAAMRISREEIFGPVANIVRVANYEEALAMANDTEFGLSAGIATTSLKYAQHFKRHAQAGMVMVNLPTAGVDYHVPFGGRKGSSYGPREQGRYAQEFYTTVKTSYIAS	PGPT0006875_6807	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128	NA	NA
BMS010_01616	1350	gudD_1		Glucarate dehydratase	ATGATCACCCCTAACCAGGCGTCCAGCGACACGCCGGTCATCCAGCAACTGCGGGTCGTCCCGGTGGCCGGGCAGGACAGCATGCTGCTCAACCTCAGCGGCGCCCACGGCCCGTACTTTACCCGCAACATCCTCGTGCTCACCGACAGTGCCGGGCGCACCGGCGTCGGCGAAGTGCCCGGCGGCGAAGGCATCCGCAAGACCCTGGAAGATGCCCGCGACCTGATCGTCGGCCAACCGGTGGGCGACTTCAACGCCATCCTCAACCGCGTGCGGCGGGCCTTCGCCGACCGCGATGCGAGCGGGCGCGGGTTGCAGACCTTCGACCTGCGCATCGCCATCCATGCCGTCACCGCCGTGGAAGCGGCGTTGCTCGACCTGCTTGGCCAGCACCTCGGCGTGCCGGTGGCGGCACTGCTCGGCGAAGGCCAGCAGCGCGACACGGTGGAAATGCTCGGCTACCTGTTCTACATCGGCGACCGCAACAAGACCGACCTCGGCTACCGCAGCGAGGCGGACGCCGACGACGCCTGGTTCCGTGTGCGCAACGAAGAAGCGCTGACCCCCGAGGCAGTAGTTCGTCTCGCCGAAGCGGCCCATGCCCGCTACGGCTTCAACGACTTCAAGCTCAAGGGCGGCGTATTGCGCGGCGCCGAGGAAGTCGAGGCGATCCGCGCCCTGGCCGAACGCTTCCCGCAGGCACGCATCACCCTCGACCCCAACGGTGCCTGGTCGCTGCAGGAAGCCATCGCGCTGTGCCGCGATCTGCACGGCGTGCTGGCTTACGCCGAGGACCCCTGCGGTGCCGAGAACGGCTATTCCGGCCGCGAGGTGATGGCCGAATTCCGCCGCGCCACCGGCCTGCCCACCGCCACCAACATGATCGCCACCGACTGGCGGCAGATGGGCCATGCCATCCAGTTGCAATCGGTGGACATTCCCCTGGCCGATCCGCATTTCTGGACCATGGCCGGCTCGGTGCGGGTGGCGCAGATGTGCCACGATTGGGGCCTGACCTGGGGCTCGCATTCGAACAACCACTTCGACATTTCCCTGGCCATGTTCACCCACGTGGCAGCGGCCGCGCCGGGCAAGATCACCGCCATCGACACCCACTGGATCTGGCAGGATGGCCAGCACCTGACCCGCGAACCGCTGCGGATCGTAGGCGGCAGGGTGGAGGTACCGAAGAAGCCGGGCCTCGGCGTCGAGCTGGACTGGGACGCCCTGTGGCTGGCTCACGAACTGTACAAGCAGAAGGGCCTGGGTGCGCGCGACGATGCCATCGCCATGCAGTACCTGATCAAGGACTGGCGCTTCGACAACAAGCGGCCGTGCATGGTGCGCTGA	MITPNQASSDTPVIQQLRVVPVAGQDSMLLNLSGAHGPYFTRNILVLTDSAGRTGVGEVPGGEGIRKTLEDARDLIVGQPVGDFNAILNRVRRAFADRDASGRGLQTFDLRIAIHAVTAVEAALLDLLGQHLGVPVAALLGEGQQRDTVEMLGYLFYIGDRNKTDLGYRSEADADDAWFRVRNEEALTPEAVVRLAEAAHARYGFNDFKLKGGVLRGAEEVEAIRALAERFPQARITLDPNGAWSLQEAIALCRDLHGVLAYAEDPCGAENGYSGREVMAEFRRATGLPTATNMIATDWRQMGHAIQLQSVDIPLADPHFWTMAGSVRVAQMCHDWGLTWGSHSNNHFDISLAMFTHVAAAAPGKITAIDTHWIWQDGQHLTREPLRIVGGRVEVPKKPGLGVELDWDALWLAHELYKQKGLGARDDAIAMQYLIKDWRFDNKRPCMVR	PGPT0018180_271	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTARATE|GLUCARATE_DEGRADATION,PGPT0018180-gudD-K01706	NA	NA
BMS010_01617	1554	garD_1	COG2721	Galactarate dehydratase (L-threo-forming)	GTGCAACTGATCCAACACCAGGATTCCCCGCGCTACATCCGCCTGCACGCGGAAGACAACGTCGCCGTGGTGGTCAACGACGGCGGCGTGGCGGCCGGCGCGCAGTTCGCCGACGGCCTGGTCACCGTCGAAGCCGTACCGCAAAGCCACAAGGTGGCGCTGACGGATATCGGCGAGGGCCAGGCGATACGCCGCTACGGGCAAGTCATCGGCTATGCCCTGCAACCCATCGCCCGTGGCAGTTGGGTGCGCGAGACCCAACTGCGCATGCCCAGCGCGCCGCCGCTGGACAGCCTGCCGCGCTGCGACGCCGTGCCGGCACCGCTGGCGCCCCTGGAGGGCTACACCTTCGAGGGCTACCGCAACGCCGACGGCACGGTCGGCACGCGCAACATCCTCGGCATCACCACCACCGTGCAATGCGTCACCGGCGTGCTCGAGCACGCGGTGAAGCGCATCCGCGCGGAGTTGCTGCCGAAGTACCCGAACGTCGACGACGTGGTGGCGCTGACCCACAGCTACGGCTGTGGCGTGGCGATCAACGCCCGCGACGCCTACATCCCGATCCGTACCGTACGCAACCTGGCGCGCAACCCCAACCTGGGCGGCGAGGCGCTGGTGATCGGGCTCGGCTGCGAGAAGCTGCAGGCCGAGCAGGTGATGCACGCCGACGATCCCTCGGTGGATCTGCGTGAGCCCTGGCTGTACCGCTTGCAGGATGCCAGCACCGGCTTCGGCGAAATGATCGAGCAGATCATGGCCCTGGCCGAGGACCGCCTGCGCAAGCTCGACCAGCGCCGCCGGGTGACCTGCCCGGCGGCGGACCTGGTGCTCGGCATGCAGTGCGGCGGCAGCGACGCCTTTTCCGGCATCACCGCCAACCCGGCCCTGGGTTTTGCTGCCGACCTTCTGGTACGCGCCGGCGCCACCGTGATGTTCTCGGAGAACACCGAGGTGCGCGACGCCATCTACATGCTCACCTCCCGCGCCGAGACGCCGGAAGTCGCCGACGCGCTGATCCGCGAGATGGACTGGTACGACCGCTACCTGCAGCGCGGCGAGGCCGACCGCAGTGCCAACACCACGCCCGGCAACAAGAAGGGCGGCCTGTCCAATATCGTCGAGAAGGCGCTGGGCTCCATCGTCAAATCCGGCAGCAGCGCCATCAACGGCGTGATCGGTCCGGGCGAGCGCTTCACCTGCAAGGGCCTGCTCTTCTGCGCCACGCCGGCCAGCGATTTCGTCTGCGGCACCCTGCAACTGGCGGCGGGCATGAACCTGCACGTGTTCACCACCGGACGCGGCACGCCCTACGGCCTGGCCATGGCGCCGGTGATCAAGGTCTCGACCCGTACCGAACTGGCCGAGCGCTGGCCGGACCTGATCGACATCGACGCTGGCCGCGTCGCCACCGGCCGCGCAACCCTCGAAGAACTGGGTTGGGAGCTATTCCACTACTACCTGGACGTGGCCAGCGGAAGAAAGCAGACCTGGGCCGAGCGCCACCGGCTGCACAATGACATCGTCCTGTTCAACCCGGCGCCGATTACCTGA	MQLIQHQDSPRYIRLHAEDNVAVVVNDGGVAAGAQFADGLVTVEAVPQSHKVALTDIGEGQAIRRYGQVIGYALQPIARGSWVRETQLRMPSAPPLDSLPRCDAVPAPLAPLEGYTFEGYRNADGTVGTRNILGITTTVQCVTGVLEHAVKRIRAELLPKYPNVDDVVALTHSYGCGVAINARDAYIPIRTVRNLARNPNLGGEALVIGLGCEKLQAEQVMHADDPSVDLREPWLYRLQDASTGFGEMIEQIMALAEDRLRKLDQRRRVTCPAADLVLGMQCGGSDAFSGITANPALGFAADLLVRAGATVMFSENTEVRDAIYMLTSRAETPEVADALIREMDWYDRYLQRGEADRSANTTPGNKKGGLSNIVEKALGSIVKSGSSAINGVIGPGERFTCKGLLFCATPASDFVCGTLQLAAGMNLHVFTTGRGTPYGLAMAPVIKVSTRTELAERWPDLIDIDAGRVATGRATLEELGWELFHYYLDVASGRKQTWAERHRLHNDIVLFNPAPIT	PGPT0018155_419	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTARATE|GLUCARATE_DEGRADATION,PGPT0018155-garD-K01708	NA	NA
BMS010_01618	936		COG1052	2-ketogluconate reductase	ATGAGCATCCCCTGCATCCTCCAGGTCGGTCCGCTCACCGAGCGTTTCAACCGGGGATTGGCCGAGGACTACGAGGTCCATGCGCTCTGGGAGCATGATGCCGAGGCGCTGCTCGCCGAGCAGGGCGAGCGGATCGACATCATGGTCACCTCGTCGCGCTTCGGTTGTAGCGCCGGGCTGATCCAGCGACTGCCCCGGCTGCGGGCCATCTGCAGCTTCGGTGTCGGCTACGACGCCATCGACGTGGAAGCGGCGCGGGCGCGGGGGATTCCGGTGAGCAACACCCCGGACGTGCTCAACGACTGTGTGGCCGACCTGGCGTTCGGTCTGGTCCTCGACACGGCGCGGCAGATGTCCCGCGCCGACCGCTTCGTTCGTGAAGGGGCCTGGCCGGAGCAGGCCTTCCCGCTGGCGCGCAAGGTCAGTGGCAAGCGCCTGGGTATCGTCGGCCTGGGGCGGATCGGCCAGGCCGTGGCGCGCCGCTCCAGTGGCTTCGACATGGCGGTGCGCTACCACAACCGCCGCCCCGTGGCGGGCTGCCCCTACGGCTACGAACCCAGTCTGCTGGCGCTGGCGCATTGGGCGGATGTCCTCGTGCTGACCTGCGTCGGCGGCGCCGACACCCGTCACCTGATCGGGCGCGACGTGCTGGAGGCGCTGGGGCCGGAAGGCATCCTGGTCAACGTCGCCCGTGGCTCGGTGGTGGATGAAGCGGCCTTGGTCGAAGCCCTGCGCGACGGTCGCCTCGGCGGCGCCGGGCTGGACGTCTTCGCCCACGAACCGCACGTCCCGGCGGCCCTGCGCGAGATGCCCCAGGTGGTCCTGCTGCCGCATATCGGCAGCGCCACCCAGGAAACCCGCCTGGCCATGGAACGCCTGCTGCTGGACAACCTCAGCGCCTTCCTCGAACGCGGGGAAATGCTGACGCCGGTGTGA	MSIPCILQVGPLTERFNRGLAEDYEVHALWEHDAEALLAEQGERIDIMVTSSRFGCSAGLIQRLPRLRAICSFGVGYDAIDVEAARARGIPVSNTPDVLNDCVADLAFGLVLDTARQMSRADRFVREGAWPEQAFPLARKVSGKRLGIVGLGRIGQAVARRSSGFDMAVRYHNRRPVAGCPYGYEPSLLALAHWADVLVLTCVGGADTRHLIGRDVLEALGPEGILVNVARGSVVDEAALVEALRDGRLGGAGLDVFAHEPHVPAALREMPQVVLLPHIGSATQETRLAMERLLLDNLSAFLERGEMLTPV	PGPT0001315_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-VITAMIN_C|ASCORBIC_ACID_BIOSYNTHESIS,PGPT0001315-2_ketogluconate_reductase-K22229	NA	NA
BMS010_01619	612	rhtB_3	COG1280	Homoserine/homoserine lactone efflux protein	ATGAAACTCTACCCGCTGTTCCTGCTGGTGGCCGCCGCCACGGTGCTGAGCCCCGGGCCCGGCGTGCTGATGACGCTGACCAACAGCCTGCGCCACGGGTTTGCCAATACCCTCGGCGGCATTCTCGGCATTGCCTTCGGCGCTCTGCTGGTCGCCGCGCTCTCCGCCACCAGCGTTGGACTGATCCTGGCTACCTCGGCAATGGCCTTCACCCTGCTCAAGCTCCTCGGCGCGGCGTACCTGATCTACCTCGGCCTCCGCCTGTGGCGCGCGCCGGCGTTCAGCTTCGAGGCGCAGCCGAGCCGCCGGACCGGCTTCGCCCGGCGCTTCCTCGAAGGGCTGTCGCTGCAACTGACCAACCCCAAGGCGATCTTTTTCTTCCTCTCGGTGTTCCCGCAGTTCATCGATCCGCAGCAGGACTACGCCACACAGTTCACCACCCTGGTCTGCATCTACAGCGCGCTGGTGGTGGCCATTCATTGCCTGTACGCGCTGTTCGCCCACGGCGCCCGCGGCTGGCTCGCCTCCCCGCGCGGCGGCCGGTTGATCAACCGCATCGGCGGCGCGACTTTCATCGGCTTCGGCATCGCCCTGGCCAGCGCCCGGCGTTGA	MKLYPLFLLVAAATVLSPGPGVLMTLTNSLRHGFANTLGGILGIAFGALLVAALSATSVGLILATSAMAFTLLKLLGAAYLIYLGLRLWRAPAFSFEAQPSRRTGFARRFLEGLSLQLTNPKAIFFFLSVFPQFIDPQQDYATQFTTLVCIYSALVVAIHCLYALFAHGARGWLASPRGGRLINRIGGATFIGFGIALASARR	PGPT0021036_1182	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_SENSING_RELATED_GENES	CE-QSR-PUTATIVE_TRANSPORTER,PGPT0021036-rhtB-K05834	NA	NA
BMS010_01620	528			hypothetical protein	ATGTTCAAGACCATCGCTATCGTTTTCGGCGTGCTGATCGCCGCGCTGCTGGCCTACGCCGCGAGCCGGCCGGACAGCTTCCGCATCGAGCGGACCGCGCGCATCGAGGCGCCGGCTTCGGAGGTGTTTCCGCTGATCGTCGATCTGCACAAGTGGCGCGAGTGGTCGCCCTATGAAAAGAAAGACCCGGCGATGAGGCGCCATTTCCGTGGGCCCGCCAGTGGCGAAGGGGCGATCTACGAGTGGGAAGGCGACGAGAACGTCGGCGTCGGGCGGATGGAGATCGTGGAGGCGGCCGAACCGTCGCGGGTGCGCATCCGCCTGGACTTCTTCCGGCCGTTCGAAGCCCATAACACCGCCGACTTCGTGCTGCAGGAGCAGGGCGGTGCGACCCAGGTCACCTGGGCCATGTATGGCCCGAGCCCGTTCATGGCGAAGCTGATGCAGGTGTTCTTCAGCATGGACGGCATGGTCGGGCCGGATTTCGAGGCGGGGCTGGCGAACCTCAAGGCCATGGCCGAGCGCTGA	MFKTIAIVFGVLIAALLAYAASRPDSFRIERTARIEAPASEVFPLIVDLHKWREWSPYEKKDPAMRRHFRGPASGEGAIYEWEGDENVGVGRMEIVEAAEPSRVRIRLDFFRPFEAHNTADFVLQEQGGATQVTWAMYGPSPFMAKLMQVFFSMDGMVGPDFEAGLANLKAMAER				NA	NA	NA	NA	NA
BMS010_01621	720			hypothetical protein	ATGATGACCACTCTTCGGCGGCTCTCGTTGACCGCAATCAGCATTGCGGTGTTTTCCGCCCAGGCCCAGAGCGCCGAACCGGTCCCCACCTTCCCCTTGGTGGACAGCCTCGCCCTGACGGCTCCGACCCTCAATCGCAAGATTCTCCAGCACGCCGTCGCGGCCATGGAATGCGCCATCAACAACGGCGCCCGTCCGGCCCAGCGCCTGGCGATCATCGATTTCTCCCTGCCCTCCACCGAGCGCCGCCTGTGGATCTTCGACCTGGCCAGCCAGACGCTGCTGCTGCGCGACCTGGTGGCCCACGGGCAGAAGTCGGGGGACAACTTCGCCACCCGCTTTTCCAACGATACCGGCAGTCACCAGTCCAGCCTCGGCCTGTTCCGCACGAGCGAGAGCTACATTGGCAAGCATGGCTACTCGCTGCGCATGGATGGCCTGGAGCCCGGTGTGAACGACCGTGCCCGCGAGCGGGCCATCGTCATCCACCCGGCGGACTACGTGAATCCGGCCTGGATCGCCCGCCAGGGCCGCATCGGCCGCAGCCAGGGCTGCCCGGCGGTGCGTCCGGAGGTGGCGAAGATGGTGATCGACAGCCTCAAGGGCGGGCAGTACATCTTTTCCTACTACCCCGACCAGAAATGGCTGCAGTCCTCGGTCTACCTGAACTGCCAGCCCCGCCAGGTGGCGCGCATCCTGGCCAGCGCGGCGAGCGACTGA	MMTTLRRLSLTAISIAVFSAQAQSAEPVPTFPLVDSLALTAPTLNRKILQHAVAAMECAINNGARPAQRLAIIDFSLPSTERRLWIFDLASQTLLLRDLVAHGQKSGDNFATRFSNDTGSHQSSLGLFRTSESYIGKHGYSLRMDGLEPGVNDRARERAIVIHPADYVNPAWIARQGRIGRSQGCPAVRPEVAKMVIDSLKGGQYIFSYYPDQKWLQSSVYLNCQPRQVARILASAASD				NA	NA	NA	NA	NA
BMS010_01622	1665	ycbB	COG2989	putative L,D-transpeptidase YcbB	TTGTTCAAGAAATATACATTCCTGCTGGTCGGGCTGATGGCCCTTGTACAACCGATCCGAGCCGAAACGGCGGACGAGCCGACGGAAGGCATTCGTCAGCAACTGATCGATACCCGCTTGAGTTGCCTGGCCCCGGCCATTCCGCTGGATGCCGCCAGCCTCGATGCCCTGCGAGCCTTTTACCAGCAGCGAGACTTCCTGCCCGCCTGGGACGACGAGCACCTGGAGGCGTTGACCGAGCAACTGGCACGCCTGGCCGACGACGGACTGGACCCGGAGCGCTACTTCGTCACGGCCCTGCGTCAGTTGCGCGCCATCGAAACGCACTCGCCGCGCTTCATCGCCTGTCGCGATGCACTGGCCACGCAGGCTTACTGGCAGGCACTCCATCACCTGCGTTTCGGCCAACTCGACCCGGCCACGGTGGAACCCATCTGGCATGCGGAAGGGACTGCGCCGGTGGTCGACCAGACGGCACTGCTGGCCGATGCCGAGGCCGGGCTCGACGACCTGCCCGCCGCCTTCGAACGGGCGCGGCCCGACTTCAAGCCCTACCGTGAGTTGCGCCGACTGTATGCGGCGCGGCGTGGCCAGCCGCTGCCCGTGTGGCTGCCTATCCCCAGCGGGCCACTGCTCAAGCCGGGGGCGGTGGACGCCCGCGTGCCGATGCTGGAGCAGCGCCTGGTGAGCGAGGGCTACCTGCCGAGGCTGCTGTTGAACACGGAAGCTGGAGAGCATCGGGAAGGCGAGCACCTCTACAGCGAGGAACGGGTGATGGCGGTGAAGACCTTCCAGCGCCATCACCTGCTGAAAGAAGATGGCATCGTCGGGCCGCAGACCATGGCGGCGCTGAACCGCTCACCGGCGGAGCGCATGGAGCAGATTCGCGTCAACCTCGAGCGCTTGCGCTGGCTCTACCGGGAGATCAGCCCGACGGGCGTGGTGGTGGACATCGCCGGGGCGGAGGTGGTGTTCTACCGCGACGGCGAGCCGGTGTGGCGGGCCCGTACCCAGGTTGGACGCCCGACACGGGCGACGCCGGTGTTGAGGTCCGTGATCACTCACCTCACCCTGAACCCGACCTGGACCGTCCCGCCCACCATCCTGCGTGTGGACAAGCTGCCGGAAATCCGTCGCAACCCGGACTACCTCGCAGAGAACCGCATGCGGGTATTCGACCGTGAGGGCAACGAGTTGGACCCGCGCAGCGTGGATTGGTACAACCCCGGTGCCATCCGTCTGCGCCAGGATGCCGGGCCGCACAATGCGCTGGGCCAGGTGGCGATCCGCTTTCCCAACCCGTTCTCCGTGTACCTGCACGACACTCCGAGCCAGCGGTTGTTCGACAACCTGCCGCGTACCTTCAGTTCCGGCTGTGTCCGAGTGGAGAACGTGTCGCAGCTCATCGACCAGCTATTGGCCGACGCCAGCCCGCAGGACCGCGAACGCATCCAGCGCCAGTGGGAGAGCGGTCGTACCCTGCGGGCCGATCTGCCACATCCGGTGCCGGTACTGCTGGCCTACTGGACAGTGCAGGTCGGCGAGCATGGCGAGCTGCTGTTCCGCCCCGACATGTACGGCCACGACGCGCGTATCCTGGCGGCCTTGAACGCGCCCCGGCCGGGCATCGCCTCGGCCGCTCCGGCGCCGGCCGGAGAATCATGA	MFKKYTFLLVGLMALVQPIRAETADEPTEGIRQQLIDTRLSCLAPAIPLDAASLDALRAFYQQRDFLPAWDDEHLEALTEQLARLADDGLDPERYFVTALRQLRAIETHSPRFIACRDALATQAYWQALHHLRFGQLDPATVEPIWHAEGTAPVVDQTALLADAEAGLDDLPAAFERARPDFKPYRELRRLYAARRGQPLPVWLPIPSGPLLKPGAVDARVPMLEQRLVSEGYLPRLLLNTEAGEHREGEHLYSEERVMAVKTFQRHHLLKEDGIVGPQTMAALNRSPAERMEQIRVNLERLRWLYREISPTGVVVDIAGAEVVFYRDGEPVWRARTQVGRPTRATPVLRSVITHLTLNPTWTVPPTILRVDKLPEIRRNPDYLAENRMRVFDREGNELDPRSVDWYNPGAIRLRQDAGPHNALGQVAIRFPNPFSVYLHDTPSQRLFDNLPRTFSSGCVRVENVSQLIDQLLADASPQDRERIQRQWESGRTLRADLPHPVPVLLAYWTVQVGEHGELLFRPDMYGHDARILAALNAPRPGIASAAPAPAGES	PGPT0023755_1051	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-L|D_TRANSPEPTIDASE_ACTIVITY,PGPT0023755-ycbB-K21470	NA	NA
BMS010_01623	639	yieH_2	COG0637	6-phosphogluconate phosphatase	ATGGCGGTGATTGAGGCGGTACTGTTCGATTGCGATGGCACGTTGGTGGACAGCGAAAAGCTGGCCGCTTCGCTGCTGGTGGAACTGCTCGGCGGCTTCGGTATTGCGCTGGGGCTGAGCGAGGTGCTGCGTCTGGTGCGTGGTGTGAAGTTCGAGGCGTTTCTCGCCGGGCTGTGCAGGCGTTATCCGCAACTCGATGCGGAATCCGTGCGCCACGATTATCGTGAGCGCAGCCTGCCGCTGTTCCGCCAACACCTCGAGCCGATGCCGGGGGCGCTGGAGTTCGTCCACGGCCTGGCGCTGAAGAAAGCCGTCGCCTCCAACGGCCCACGGGCGAAGATCGAAACCTGCCTCACCTCGGTCGGCCTGCTCGAATCCTTCGAGGGGCATATCGTGAGTGCCTACGAAGTGGGCTCGTGGAAGCCCGAACCCGGCCTGATCCTGCACGCCGCCGAGCGGCTGGGCGTGAAACCGGAACGCTGCCTGTTGATCGACGACAGCCTGCAGGGCATCGAGGCGGGGCTTGCCGCGGGCGTCCGGGTACTCGGCTTCGATCCCGGCGGCCTGCTCGACCCCGCGAGCTGTCCGGTACCCATCATCGGCCACATGATGGCCGCCCAGGCCTATCTCGAAGCCTGA	MAVIEAVLFDCDGTLVDSEKLAASLLVELLGGFGIALGLSEVLRLVRGVKFEAFLAGLCRRYPQLDAESVRHDYRERSLPLFRQHLEPMPGALEFVHGLALKKAVASNGPRAKIETCLTSVGLLESFEGHIVSAYEVGSWKPEPGLILHAAERLGVKPERCLLIDDSLQGIEAGLAAGVRVLGFDPGGLLDPASCPVPIIGHMMAAQAYLEA				NA	NA	NA	NA	NA
BMS010_01624	309			hypothetical protein	ATGCCTGTGAACAACCAGATCACCGATGCCGTAACCCAATCCAACGTGAAAGTCATCGGCGAAGCGCCGGCCATGGCGATGGGCTCGGTCTACCAGACCATGGCCCACTCCACCGGTATCCTCTTCGAAAATGCCGTCTCGGCCCAGCAACAGCAGAACACGCTGTCCCAGGCCTCCACCACCATGGGCGTGATGCAGATCTACAGCGTCGATACCGCCGCGGACGCGGGGGCGACGGAGAAGATCGGCCAGTTGGGTGTCGCCGACAACCTGACCAGCCTGCTCACCGTCCTCAAGTCCTTCCAGTAA	MPVNNQITDAVTQSNVKVIGEAPAMAMGSVYQTMAHSTGILFENAVSAQQQQNTLSQASTTMGVMQIYSVDTAADAGATEKIGQLGVADNLTSLLTVLKSFQ				NA	NA	NA	NA	NA
BMS010_01625	312			hypothetical protein	ATGGCAAACGTGAATGAAATGATCACCGACGCAGTCACCCAGTCCAACGTGAAAGTGGTCGCCGAAGCGCCGGCCATGGCCATGGGCTCGATCTACCAGACCATGGCCCATTCCACCGGCATCCTGTTCCAGAACGCCGTTTCCGCGCAGCAGCAGCAGAACACGCTGTCCCAGGCCTCCACCACCATGGGCGTGATGCAGATCTACAGCGTCGACACCGCCGCCGATGCGGGAGCGACGGAGAAGATCGGCCAGTTGGGCGTCGCCGACAACCTGACCAGCCTGCTCACCGTCCTCAAGTCCTTCCAGTAA	MANVNEMITDAVTQSNVKVVAEAPAMAMGSIYQTMAHSTGILFQNAVSAQQQQNTLSQASTTMGVMQIYSVDTAADAGATEKIGQLGVADNLTSLLTVLKSFQ				NA	NA	NA	NA	NA
BMS010_01626	438	tadA_3		tRNA-specific adenosine deaminase	ATGGACGCGTTCATGCAGGCGGCAATCGAAGAGGCGCAGCAAGGGCTGGCCGAAGGAGGCATTCCCATCGGCTCGGTGATCGTCCACAAGGGACGGATCATCGGACGCGGCCACAACCGGCGGGTGCAGCAGGGCAGTGCGATCCGGCATGGCGAGATGGATGCCTTCGAAAACGCCGGACGCCAGCCGGCCTGGGTGTACCGGGAGTCGGTGCTCTACACCACTCTGTCGCCCTGTGCGATGTGCAGCGGGGCGATTCTGCTGTATGGCATTCCCAAGGTGATCGTCGGCGAAAACCGCACCTTCCTCGGCGAAGAGGCACTGTTGCGTTCGCGCGGGGTGGAGGTCGAGGTGCTGCAGGACGAAACCTGCATCCGTCTGATGCAGGACTTCATCGCCAACCGGCCGGAGCTGTGGAACGAGGATATCGGCGAATAG	MDAFMQAAIEEAQQGLAEGGIPIGSVIVHKGRIIGRGHNRRVQQGSAIRHGEMDAFENAGRQPAWVYRESVLYTTLSPCAMCSGAILLYGIPKVIVGENRTFLGEEALLRSRGVEVEVLQDETCIRLMQDFIANRPELWNEDIGE	PGPT0021320_520	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021320-codA|cdd-K03365	NA	NA
BMS010_01627	1359			putative protein	ATGAAAACAATAAATCTGCTCCTTGCGACCCTGACCCTGTCTCTCCACTGCAGCCTCCAGGCGGCGGTTTCAACCGCCGAGGCCGAGAAACTAGGAACCGTACTGACACCCGTCGGTGCGGAAAAAGCCGGCAATGCCGACGGCAGCATACCGGCCTGGACTGGCGGCCTGGAGAAGGCTGCCGGAAATCTCGACAGTAGCGGTCGGCTGAGCAACCCCTATGCAAGTGAACAGCCGCTTTTCATCATCGACGCCAAGAACCAGGCCCAGTACGCCGACAAGTTGACCGATGGCCAGCGCGCCATGTTCAAGCGCTATCCGGAGAGCTACCGGTTGCGCGTCTTCCCGACGCACCGCAGCGCGGCGATGCCCGAGTTCGTCTACGAGGCCGCCGCCCACAATGCCGTTAATGCAAAACTGCTGGCAGAGGGCAACGGGCTGGAAAATTTTGAAACTGCCATTCCCTTTCCCGTCCCCCAGAACGCACTGGAAGTGTTGTGGAACCACCTGACCCGCTATCGCGGCGGCAGTGTGCGGCGCACCTACGTCCAGGCGGTGCCACTGGCGAACGGAAACTACACGCCCGTTTACTTCAAGCAGCAACTCACCTACCGCGACCAACTGACCGACTTCGACTCGCAGTCGCCGGGCAATGTACTGTTCTATTACAAGGAACTGATCACTGCCCCTTCACGCCTGGCAGGGGACGTCGTCATGGTTCACGAAACCCTCGATCAGGTGAAGGAACCGCGCAAAGCATGGATTTACAACGCAGGGCAGCGCCGGGTCCGACGTGCTCCACAGATCTCCTATGACGGCCCCTTCCCGGCTTCCGACGGACAACGCGTCGCCGACAACCTCGACATGTACAACGGTGCGCCAGATCGCTACGACTGGCAGTTGCTGGGCAAAAAGGAAATCTACATTCCCTACAACAATTTCCAACTGGAATCGGCCGATCACAAGTACAGCGACATTATCAAACCCGGCCACCTGAACTCTGATTTGGCCCGCTACGAACTGCATCGTGTATGGGTGGTCGAGGCGACGCTTAAACCGGGTCAGCGGCACATCTACGCGAAGCGTGTGTTCTTCATTGACGAGGACACCTGGCAGATCGTATTGGCTGATCATTTCGATGCTCGCGGCACATTGTGGCGAGTGGCCGAAGGCTTCATGACCCCGATCTACGACAAGCAGATTCCCTGGCTGGGAACCGAGACGCTGTACGACCTCGTCAATGGTCGATACATCATCGCCGGCATGCGCAACGAAGAGAAAGAAGCACAGGAGTTTGGCTTTAAAGCTTCCTCTGCCGAATACACTCCAGCCGCTCTGCGCAATGCGGGAGTGCGCTGA	MKTINLLLATLTLSLHCSLQAAVSTAEAEKLGTVLTPVGAEKAGNADGSIPAWTGGLEKAAGNLDSSGRLSNPYASEQPLFIIDAKNQAQYADKLTDGQRAMFKRYPESYRLRVFPTHRSAAMPEFVYEAAAHNAVNAKLLAEGNGLENFETAIPFPVPQNALEVLWNHLTRYRGGSVRRTYVQAVPLANGNYTPVYFKQQLTYRDQLTDFDSQSPGNVLFYYKELITAPSRLAGDVVMVHETLDQVKEPRKAWIYNAGQRRVRRAPQISYDGPFPASDGQRVADNLDMYNGAPDRYDWQLLGKKEIYIPYNNFQLESADHKYSDIIKPGHLNSDLARYELHRVWVVEATLKPGQRHIYAKRVFFIDEDTWQIVLADHFDARGTLWRVAEGFMTPIYDKQIPWLGTETLYDLVNGRYIIAGMRNEEKEAQEFGFKASSAEYTPAALRNAGVR				NA	NA	NA	NA	NA
BMS010_01628	1692			hypothetical protein	ATGACTTCCATACAGCCATTGTGGCGTCGGGCTCGCCTTGCCTTCGCCATGACCCTTGCGACATTCACCAGCGGCATGGCCTCGGCGGTTACCTTCCAGCTTGGCGAGATCGAGGGCCAGTTCGATTCAAATCTGTCCGTGGGCGCGAGCTGGGCACTGCGCAACCCCGACCCGGACCTGTTGCACGACCCGGCATCCGATGATGGCCGACGCAACTTCAAGAAAGGCGAAACCTTCTCCAAGGTGTTCAAGGGTATTCACGATCTCGAACTCAAATATGGAGAGAGCGGCCTATTCTTGCGCGGCAAGTATTGGTACGACTTCGAGCTGAAGGACGAGAGCCGGCTGTTCAAGGACATCGACGATCACAACCGCAAGGAGGCTGCCCAGTCCTCCGGCGCCGAACTGCTGGATGCCTTCATCTACCACAACTACCAGATCGGCGATCTTCCCGGCACTGTTCGCCTGGGTAAGCAGGTGGTGAGCTGGGGCGAGAGCACCTTCATCCAGGGTGGCATCAACACCATCAATCCCATCGATGTCACGGCTTTCCGCAGGCCCGGTGCCGAGGTCAAGGAAGGCCTGATCCCAGTCAACATGCTCTATCTGTCGCAGAGCATCACCGAGGAAGTCTCGCTCGAAGGCTTCTACCAGTTGGAATGGGATCAGACGGTAGTCGACAACTGCGGCACCTTCTTCGCGCCAGTCGATGTCGTTGCCGACGGATGTGAGGGGCTGGACACGCCCTTTGGCATAACCATCCCCCGGGCCGGTGACCGCGATGCTCGAGACAGCGGTCAGTGGGGCGCCGCATTGCGCTGGTTTGCCCCCGGACTGGATAGCGAGTTCGCCGCCTACTTCATCAACTACCATAGCCGGCAGCCCTACTTCAGCACCCAGACTGCGACCACCACTGGAGACCTGAGTACCTCGAAGTATTTCATCGAGTACCCGGAGGATATCCGCCTCTATGGCTTGAGCTTCAGCACCATGCTTCCCACCGGCACCACCCTGGCCGGAGAAATCAGCTACCGACCCAATATGCCGGTGCAGATCAGTCCGGTGGATCTCGTCGCTGTCTCCTCGGGTATACCGGTGCTAACGCCGCTGTTGTCCTCTGGCGCCATTCAGTTCAGCAACGGCATGGACGTCAACGGCTACCGGCGCAAGGAGGTGACCCAGGCGCAGGTAACCGCAACCCATTTCTTCGACCAGGTGATGGGCGCCGACCGCCTGACGCTGGTCGGTGAAGTAGGTGTGACCCATGTAGGTGCGCTGGAAGGCCGAGGAGACGTGAGATATGGCCGCAGTACAGCCTATGGCCAAGGCGCGCTCTATCCGGATAACAACCTGTGCACCGCGTTGACCAATTCAGCGATGCCGAACAACTGCAGCGACGACGGATTCGTCACTAGTACCTCCTGGGGCTATCGCGTGCGAGCCATCTGGGAGTACAGCAACGTCATTCCTGGTGTGGAGCTACGCCCCAATCTGGCCTGGTCCCAGGATATCAATGGCTACGGCCCCGAACCGGGCTTCAACGAGGGCGCCAAGGCGATCAGCCTGGGCATCGATGCCAGCTATCTCCATATCTACAACGCCAGCCTGTCCTACACCGACTACTTCGGTGGCGACTACAACACCAACATCGATCGCGACTTCGTCGCCCTGAGCTTTGGCGTGTCCTTCTGA	MTSIQPLWRRARLAFAMTLATFTSGMASAVTFQLGEIEGQFDSNLSVGASWALRNPDPDLLHDPASDDGRRNFKKGETFSKVFKGIHDLELKYGESGLFLRGKYWYDFELKDESRLFKDIDDHNRKEAAQSSGAELLDAFIYHNYQIGDLPGTVRLGKQVVSWGESTFIQGGINTINPIDVTAFRRPGAEVKEGLIPVNMLYLSQSITEEVSLEGFYQLEWDQTVVDNCGTFFAPVDVVADGCEGLDTPFGITIPRAGDRDARDSGQWGAALRWFAPGLDSEFAAYFINYHSRQPYFSTQTATTTGDLSTSKYFIEYPEDIRLYGLSFSTMLPTGTTLAGEISYRPNMPVQISPVDLVAVSSGIPVLTPLLSSGAIQFSNGMDVNGYRRKEVTQAQVTATHFFDQVMGADRLTLVGEVGVTHVGALEGRGDVRYGRSTAYGQGALYPDNNLCTALTNSAMPNNCSDDGFVTSTSWGYRVRAIWEYSNVIPGVELRPNLAWSQDINGYGPEPGFNEGAKAISLGIDASYLHIYNASLSYTDYFGGDYNTNIDRDFVALSFGVSF				NA	NA	NA	NA	NA
BMS010_01629	1956	lcfB_1	COG0318	Long-chain-fatty-acid--CoA ligase	ATGGCCGTCAGTTCGATTCTCGATATTCACGCCATCGAGCAGGTTCCACTGAGCGAGCGCGGGCTTGCCGCCAACACCTATGCAGCCCTGCAACGCTGCGCGGCGGAGCATGCGGACTCACCAGCCCTGAGTTTCCTTCTCGACGCCAAGAAATTCCAACGCACCCATGACTGGAGCTATGCCGAGCTTTTCGCCGACATCACCCGCGCGGCCAATGCCTTCCATCACCTTGGTATCGGCCCCCGCGACGTAGTCGCCTTCCTGTTGCCCAACCTGCCGGAAACCCACTTCACCATCTGGGGTGGCGAGGCGGCCGGCATCGTCATGGCGATCAATCCCCTGCTCGAAGCGCCGCAGATCGCCGAACTGCTCCGTGCGGCAAAGGCCAAGCTGGTGGTGACTCTGGCGCCAACGCCAGGCAGCGACCTGTGGAACAAACTGGCCAGCCAGCTGGACCGCCTGCCCAGCGTGCAGGATGTGGTATGGGTGAACATGACCCCCTACGTCGGCACGCTTCCAGCCCTGGTCCTGCGCGGGCTGGCCCTGCGCGAGAAACTCCGCCATCGTAAGCTGCGCATTCATGACCTGCGCGCGCTGATGCGTCGACAACCGGGTGATCGCCTGCAGAGCGGCCGGCAAATCCACCCGGAAGAACCCTCCTCGTATTTCTGCACCGGCGGCACCACCGGGCTACCGAAGATCGCCATGCGCACGCACGGCTCCGAGGTCTTCAACGCCTGGGCAATGGCTGCCAATCTGCAGCCGCGGGTTACGAGCCAGGTGATCTTCTGCGGCCTGCCGCTATTTCATGTGAATGGTCAGTTGGTCACCGGCCTGATGCCCTGGACCCAGGGCGACCGGGTGATCATCGGTACGCCCCAGGGCTACCGTGGCGAAGGCGTGATCGCGAACTTCTGGGCCATGGTCCAGCACTTCGGCATCAACTTCTTCTCCGGCGTACCCACGGTCTACTCGGCCCTGCTGCAGCAACCGGCCAGCGGCTATGACATCTCCAGCCTGCAGTATGCCCTGTGCGGTGCGGCGCCCATGCCCGTTGAACTGTTCCGCGAGTTCGAGCAGCGCATCGGTGTGCGCATCCTTGAAGGCTACGGCCTGACCGAAGGCGCTTGCGTTTCATCCGTCAACCCAGCGGATGGCGAACGACGGATCGGCTCCGTCGGCCTGCGCCTGGCCTACCAGGACATGCGCGCAGTGATCCTTGATGAGGCAGGCAACTACCTTCGCGATGCACAAACGGACGAGGCCGGTGTTATCGCCATCCAGGGCCCCAATGTGTTCGCGGGGTATCTGGACGCCATGCACAACAAGGGGGTCTGGATCGATATCGACGGCCAGCGCTGGCTGAACACCGGCGACCTGGGGCGTCAGGATGCCCAGAGCTACTTCTGGCTGACCGGGCGCAAGAAGGAGTTGATCATCCGCGGCGGCCACAACATCGATCCCAAGCAGATCGAGGAAGCCCTGCAGGCTCACCCCTCGGTAGCCCTGGTCGCGGCGGTCGGCAGCCCGGACGCCCATGCCGGCGAGGTACCAGTCGCCTATGTGCAACTGAACCCTGGCGCAAGCTGCGATGAACAGGCCCTACTGGCTTTTGCCGCCCAGCACATTGCCGAGCGGGCCGCCGTGCCGAAGCGCATAGAGATCCTCGATGCGCTGCCGGTGACACCGGTGGGCAAGATCTTCAAGCCGGCCCTGCAGCAGCGGGAAATCGCGCGGGTGGTGCGCCGGGAAGCCCAGGCGCTCGGCCTTGCGCAGCTCGATATCAAGGTCATTCAGGATACCCGCCGCGGAATGGTTGCCCAGATATCGGCAGGCACCCACCAGGAGCCTCTTGCCCTAGCGCTCGGACGCTACAGCTTCCAGATCGAATGGCTCGACTCACCCCACAGGAGGTCATCCGACACCCAGACCGAACGCCAAGCAATGAGCCGTTGA	MAVSSILDIHAIEQVPLSERGLAANTYAALQRCAAEHADSPALSFLLDAKKFQRTHDWSYAELFADITRAANAFHHLGIGPRDVVAFLLPNLPETHFTIWGGEAAGIVMAINPLLEAPQIAELLRAAKAKLVVTLAPTPGSDLWNKLASQLDRLPSVQDVVWVNMTPYVGTLPALVLRGLALREKLRHRKLRIHDLRALMRRQPGDRLQSGRQIHPEEPSSYFCTGGTTGLPKIAMRTHGSEVFNAWAMAANLQPRVTSQVIFCGLPLFHVNGQLVTGLMPWTQGDRVIIGTPQGYRGEGVIANFWAMVQHFGINFFSGVPTVYSALLQQPASGYDISSLQYALCGAAPMPVELFREFEQRIGVRILEGYGLTEGACVSSVNPADGERRIGSVGLRLAYQDMRAVILDEAGNYLRDAQTDEAGVIAIQGPNVFAGYLDAMHNKGVWIDIDGQRWLNTGDLGRQDAQSYFWLTGRKKELIIRGGHNIDPKQIEEALQAHPSVALVAAVGSPDAHAGEVPVAYVQLNPGASCDEQALLAFAAQHIAERAAVPKRIEILDALPVTPVGKIFKPALQQREIARVVRREAQALGLAQLDIKVIQDTRRGMVAQISAGTHQEPLALALGRYSFQIEWLDSPHRRSSDTQTERQAMSR	PGPT0008380_2398	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
BMS010_01630	957			hypothetical protein	ATGCCTGTCCAAGTAGTCCGCTTCGAGCACCAGAACCACGTCCAATGGGGCGTAGTCCGCCAGGGGCGCATTTCACTCATTCCCGGCGAATACGCCAGCACCGGCGATCTGATCCGCCACACCCGGGTGGGCGAACTGGCGGCCTTGCCTGACGGCGATCTGCCGCTCGACACGGTGAAGCTGCTCTCGCCCATCACCCGCGACCAGCAATTCGTCTGCCAGGGCGCCAATTACCGGCAGCACATGATCGAGTCCGGCATGGACCCGGACGTGAAGAACTTCAACATGATCTTCACCAAGGCGACCAGTTGCATCGTCGCGGCGGACAGCGAGCTGATCAAGCCACGCAACGTGCGCTTTCTCGACTACGAGATCGAGTTGGGCCTGGTGCTCCGGCGCGACATCACCGGCCCGGTCCGGGTCACCGACGCCAACCTGCATGAGTTCGTCGCCGGCGTGGTGATTGTCAACGACTACTCGGCACGCGACATCCAGATCCCCCAGATGCAGTTCTACAAGGGCAAGAGCTACCGCACCTTCGGCCCTGTCGGCCCCTATCTCTGCCTACTGGAAGCCAAGGACCTGCCCTACTTGAAGAAGCTGCAGCTGCGCCTGACGGTGAATGGCCAGGTGCGCCAGAGCGACAGCACCGCCAACCTGGTCTACGGCCCTGCGGAAACCCTCACCGAGCTATCCGGCGTGCAGGACTTCATCGCTGGCGACCTGATCGCCACCGGTACCCCGGCAGGCTGTGCACTGACCATCCCTTCGCCGACCAAACAGCGCATTGCGGCCCTGCTGCCAGAGGCCGTGAAGTGGAAAGCCTTCATGAAGGCGCAGGAGGGACGCAGCAGTTACTACCTGAAGAAAGGCGACGTGGTGGAGGCGAGCATCCGTAGCGCGGACGGTGTGATCGATCTGGGCACACAACACAATGTCGTGGTGGAGCAAGCCTGA	MPVQVVRFEHQNHVQWGVVRQGRISLIPGEYASTGDLIRHTRVGELAALPDGDLPLDTVKLLSPITRDQQFVCQGANYRQHMIESGMDPDVKNFNMIFTKATSCIVAADSELIKPRNVRFLDYEIELGLVLRRDITGPVRVTDANLHEFVAGVVIVNDYSARDIQIPQMQFYKGKSYRTFGPVGPYLCLLEAKDLPYLKKLQLRLTVNGQVRQSDSTANLVYGPAETLTELSGVQDFIAGDLIATGTPAGCALTIPSPTKQRIAALLPEAVKWKAFMKAQEGRSSYYLKKGDVVEASIRSADGVIDLGTQHNVVVEQA	PGPT0001745_83	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001745-lra6-K18336	NA	NA
BMS010_01631	1092			hypothetical protein	ATGACCCTACGCTCTGCCTCCCCCGCACTCGCGACTGCCCACCCTTCTCGGCACGTAAAGCCGACAGTCAAGGCGCGAGCTCTCGCCCATCTGATCTTTGAACGTCCAGACCTGGATAAGGCAGAGCAATTTCTCTTGGACTTTGGCCTGAGAATTGCCCGACGAGATGCCAACTGCCTCTACTTGCGCGGCACCGGGGCAGCTCCTTACTGCTATCGCGTGCATCATGCCGAACGGGCCCGCTTCGTGGGATTCGGCCTGACAGTCGAGACGCGAGCGGACCTTGAGCGTGTTTCCCGCCTGCCTGGTGCTTCGCCTATCGAACCCCTGGAAGGCCCTGGCGGTGGCGAACGGGTACGACTGACCGACCCGTCCGGCTTTCTGATCGAGGCCATCCATGGTCAGCACGCAGCGGATGTCATTCCGCATCGATTGCCACTGCCAATGAATTGGGTCGATGAAGCACCTCGCATCAATGCGACTCAGCGCCCTCCGATTGCACCGCCAGAGGTCATCAAGCTGGGCCATGTCGTACTTGAGGTGGCTGATTACCAAGCTACTTGTGCCTGGTACACGCAACACTTCGGCTTCATCCCCAGCGATGTGCAGGTACTGCCGGACGGTTCCCCTGCGGTCACTTTCATGCGTTTGAATCTCGGCGATACCCCCGCGGATCACCACACCCTGGCGATCGCCCAGGGCTTCATGGCTACCTACAGCCACAGCGCCTACGAACTGGTCGATGCCGACGCCGTCGGCATGGGGCAGCGCGTGCTGCGCGAACGCGGCTGGAAACATGCCTGGGGCATCGGTCGGCACATCCTCGGCAGCCAGATCTTCGACTACTGGCAGGACCCCTGGGGCGACAAGCACGAGCACTACTGCGACGGTGATCTGTTCACCGCAGACCACCCAACCGGCGTGCATGCGGTCAGCCCCGAGGCGATGTCGCAGTGGGGCCAGCGCATGCCCAAGAGCTTCACCAAACCCGTAGTCAACCTGGCCAATCTCAAGGCGATGCTGCGCAACCTGCGCCGCAGCCCGGACCTGACCCTGCACAAGCTGATCACGCTGGCACGAATGTTCGGCTAG	MTLRSASPALATAHPSRHVKPTVKARALAHLIFERPDLDKAEQFLLDFGLRIARRDANCLYLRGTGAAPYCYRVHHAERARFVGFGLTVETRADLERVSRLPGASPIEPLEGPGGGERVRLTDPSGFLIEAIHGQHAADVIPHRLPLPMNWVDEAPRINATQRPPIAPPEVIKLGHVVLEVADYQATCAWYTQHFGFIPSDVQVLPDGSPAVTFMRLNLGDTPADHHTLAIAQGFMATYSHSAYELVDADAVGMGQRVLRERGWKHAWGIGRHILGSQIFDYWQDPWGDKHEHYCDGDLFTADHPTGVHAVSPEAMSQWGQRMPKSFTKPVVNLANLKAMLRNLRRSPDLTLHKLITLARMFG				NA	NA	NA	NA	NA
BMS010_01632	1593	mhpA_1	COG0654	3-(3-hydroxy-phenyl)propionate/3-hydroxycinnamic acid hydroxylase	ATGCAAAACAAGAACACGCTTGCGCTGCCGGAGATGGTGGATGTCCTGGTCGTTGGCAATGGTCCAGTGGGGGCGACGCTGGCGGCTTTGTTAGGCCGCTACGGTGTGCAGGCGCTGGTCGTTGACAAGATCCACGACGTCCTGCTGATGCCCCGTGCCATCGCCCTCGACAACGAAGCACTGCGTATCCTGCAGCTGGCTGGTCTCGACGAAGAGGCGTTCGAGAAGATCGTAATACCCGAGGTACGCATGCATTGCCCGATGGTTGGCCAGTTCGGCCGCGCCAATACCAGTGGCAGCATCGATGGGCATCCAAAGCTGGTGACCTTCTACCAGCCGGATTTGGAGCACTCAATGCGCGAGCACTATCGCCGCTTCGACAATATCCGTAGCGTCGGTGGCCTCGAGCTCAAGGAACTTAGCCAGGACGATACCGGCGTCACCGCAACGCTGACCGACGAGGAAGGTGCCAGCCATCAAGTTCGCGCCCGCTATCTGGTGGGTGCCGACGGAGCCAGTTCAAAGGTGCGCGGCCTGATCGGCCAAGACTTCGAGGGGCAAAGCTACAGCGAAGACTGGTTGATCGTGGACGCCGCCGAGCGGGAACGGCAAGCCATTGATCATGTCGAGTTCATCTGCGATCACCGCCGTCCGACACCGCATATGCCGGCTCCGGGGGGGCGAGAGCGCTGGGAGTTCATGCTTCACCCTGGTGAGAGCCGCGAACAGATGGAGAGCGACGAGCACATCGCCTCGTTGCTGGAGCGCTGGGTTGATCGCCGCCAGCTGAAGATCGAGCGCAAGGCGGTCTACCGGTTTCATGCTCGATGCTGCGACAGCTTTCAGCGTGGGCGGGTTTTCCTCATCGGCGATGCTGCGCATATCACCCCGCCTTTCGTCGGTCAGGGCTTGGTCGCGGGGCTACGTGACGCCGCCAATCTGGCCTGGAAACTGGCCTGGGTGCTTGACGGCCGTGCTAAGGCAAGGATTCTCGATACCTATGATCAGGAGCGCCGCCCGCACGCTCGCAAGATGATCGCCTTGGCCAAGTTGATGGGCCGTCTAGTCATGCCAAGCAACGCGCCGATGGCCCTGCTCGGGCATGGGCTGATGCGGATTCTGCGGCTGATCCCGGTACTCAGACGGCAATTTGACGAGTTGGAGGTCAAACCGAGGAATATTTTCCAGGAGGGGCTGTTCATGCGCCGCGCCTGTGGGCGCGGACTACGCCGCGGCGGTCTTTTCCCCCAGGGATTGGTTCGAGAGGCTGGCGGCTCCATTCGCCTAAGCGACGACATCCTGGGCGATAAGTTGACCCTGGTCGGCTTCGGCGTGGACCCTCGCGCGCAACTGGACCTTGAGGCACAACGGCGCTGGGAAAACTGCGGTGGCGGCTATCTGCAGGTTGGGCTGCACGGTCAGAAAGGGGACTCCACAACGCCTTTCGTCGAGGATATCGGTCAGGCCCTGCTCGGCGGCGCTCCGCTTCGCTCTCTGGCGGTAGTGCGGCCGGACCGCATCGTCATGCATGACGGTCCCCAGGAGCGCGCCGCCACGCTGGTTAGCGAAAGCATCGCATTGCTGGGACACTAA	MQNKNTLALPEMVDVLVVGNGPVGATLAALLGRYGVQALVVDKIHDVLLMPRAIALDNEALRILQLAGLDEEAFEKIVIPEVRMHCPMVGQFGRANTSGSIDGHPKLVTFYQPDLEHSMREHYRRFDNIRSVGGLELKELSQDDTGVTATLTDEEGASHQVRARYLVGADGASSKVRGLIGQDFEGQSYSEDWLIVDAAERERQAIDHVEFICDHRRPTPHMPAPGGRERWEFMLHPGESREQMESDEHIASLLERWVDRRQLKIERKAVYRFHARCCDSFQRGRVFLIGDAAHITPPFVGQGLVAGLRDAANLAWKLAWVLDGRAKARILDTYDQERRPHARKMIALAKLMGRLVMPSNAPMALLGHGLMRILRLIPVLRRQFDELEVKPRNIFQEGLFMRRACGRGLRRGGLFPQGLVREAGGSIRLSDDILGDKLTLVGFGVDPRAQLDLEAQRRWENCGGGYLQVGLHGQKGDSTTPFVEDIGQALLGGAPLRSLAVVRPDRIVMHDGPQERAATLVSESIALLGH	PGPT0019755_689	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-3-PHENYLPROPIONIC_ACID|CINNAMIC_ACID_RESISTANCE,PGPT0019755-mhpA-K05712	NA	NA
BMS010_01633	627			hypothetical protein	ATGAGTAAGACCGCCAAACCTGACATCCCCTTGACGCGCGGCCACAAGAAGCGCGAGCGCACGCGTCAAGGCTTGATCGATGCGGCGTTGCGTCTGTTCGCGCGCAAGGAAGTCGGTGAAGTTGCTCTGCTCGAGGTCGCCAGCGAGGCAGAGGTTGCCAGCGGTACCATCTACAACTACTTCCGCACTCGGGACGAGGTTGTCGAGGCGGTGGGCATTGCGCTTGCCAATGAGTTCTCCGAGACGATCTCAAACCTTAGCGCCGAGATAGACAGCGGCTCGCGGCGGCTGGCTATCGGCGTGCGAATGTTCATTCGCCGGGCCTTCGCCGATCCCGACTGGGCCAGCGCGGTGATTCGTGTGGTGCATTTCGATCAGGCAATCCGCTCGACGATTGCCCAGCATGTGCTCAGCGATCTGCGCGCGGGCCATGAAGAAGGTGTGTTCAATTACGAAGACGAAGGTATTGCCCTCGATCTGGTGGTTTCTTGCGGGGTCGGCGGCATGCGCGCCGTGGTGGAGGGCCGTGGTGTCGAGAATCACGACATTAAGGTCGCCGAAATGGTGCTTAAGGCCCTCGGAGCCACCCCGGCTCGAGCCCGTAAGCTCGCCCAGCAGGCCCTGTAG	MSKTAKPDIPLTRGHKKRERTRQGLIDAALRLFARKEVGEVALLEVASEAEVASGTIYNYFRTRDEVVEAVGIALANEFSETISNLSAEIDSGSRRLAIGVRMFIRRAFADPDWASAVIRVVHFDQAIRSTIAQHVLSDLRAGHEEGVFNYEDEGIALDLVVSCGVGGMRAVVEGRGVENHDIKVAEMVLKALGATPARARKLAQQAL				NA	NA	NA	NA	NA
BMS010_01634	621			hypothetical protein	GTGGCTGACACGGCAAAGAGCGGCGCGACGCCGCTGGAAGGCGACGGCAAGCGCATCCTGGTGATTCTCGGTAGTCCCAAGCACGACAGCCTCTGCCATGCCCTGTGCGAAGCCTTCTCCCAGGGGGCGCGGCGCCAGGACCATGTGGTGCGCCACCTGCGGCTCGGCGACCTGGCTTTCGACCCGGTGCTGCATGGCGGCTATGACCAGAGCCAAGTGTTGGAACCCGATTTGCTCGAAGCCCAGCGGCAAATCCACTGGGCCGAGCACCTGGTGTTCGTCTACCCGGTCTGGTGGGGTGGCCTGCCGGCGCTGCTCAAGGGCTTCTTCGACCGGGTCTTCCTGCCCGGCTTCGCCTTCAAGTTTCGTGGACGCTCCCAGGCCTGGGACAAGCTGCTGAGCGGACGCACCGCGGATTTGCTGGTCACCCTGGATACCCCGCGCTGGTACTTCCGCTGGATCTACGGCGCGCCCGCCCATCGCCAGATGGTCCGCACCATCCTCGGCTTCTGCGGCATCCGCACCCGCCGCCTGGTGGAGTTCTCTCCCGTACGGATTTCCTCGGAAGAACAGCGCCAGGGCTGGCTGCGCAAGGCGGAGTTATTGGGGAGTCGGGTGTGA	MADTAKSGATPLEGDGKRILVILGSPKHDSLCHALCEAFSQGARRQDHVVRHLRLGDLAFDPVLHGGYDQSQVLEPDLLEAQRQIHWAEHLVFVYPVWWGGLPALLKGFFDRVFLPGFAFKFRGRSQAWDKLLSGRTADLLVTLDTPRWYFRWIYGAPAHRQMVRTILGFCGIRTRRLVEFSPVRISSEEQRQGWLRKAELLGSRV	PGPT0009455_1087	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009455-kefF|nqo|ywrO-K00355	NA	NA
BMS010_01635	1395	fumC_1	COG0114	Fumarate hydratase class II	ATGAGCCGCATCGAAACCGACAGCCTGGGGCCTGTCGAAGTCCCCGAGGACGCCTACTGGGGCGCCCAGACGCAACGCTCGCTGGTCAATTTCGCCATTGGCGACCAGCGCATGCCGCTGGCCGTCCTGCATGCCCTGGCGCTGATCAAGAAGGCCGCCGCGCGGGTCAACGGCCGCATCGGCGACCTGCCGGCGGATGTCGCCCGGCTGCTCGAGCAGGCCGCCGACGAGGTGCTCGCCGGGCAGCACGATGACCAGTTCCCCCTGGTGGTCTGGCAGACCGGCAGCGGCACTCAGAGCAACATGAATGTCAACGAAGTGATCGCCGGCCGCGCCAACGAACTGGCCGGCGGCCAGCGCGGCGGCAAGAGTCCGGTACACCCGAACGATCACGTCAACCGGGCGCAAAGTTCCAACGATTGCTTTCCCACCGCCATGCATATCGCCGCCGTCAAGGCGGTACAGCAGGACCTGCTGCCGGCCATCGCCGAGCTGTCCGGCGGCCTCGCCGAGCAGGCCGCGCGCCATGGGCATCTGCTGAAGACCGGACGCACCCACCTGATGGACGCCACCCCCATCACCTTCGGCCAGGAACTCTCCGCCTTCGTCGCCCAACTGGACTACGCCGAACGCGCCATCCGCGCCGCCCTGCCGGCCGTCTGCGAACTGGCCCAGGGCGGCACTGCCGTCGGCACCGGCCTGAACGCCCCGCATGGCTTCGCCGAGGCCATGGCCGCCGAACTGGCGGCGCTGTCCGGCCTGCCCTTCGTCTCGGCGCCGAACAAGTTCGCCGCCCTCTCCGGCCATGAACCGCTGGTCACGCTCTCCGGCGCCCTCAAGACCCTGGCCAGTGCGTTGATGAAACTGGCCAACGACCTGCGCCTGCTCGGTTCCGGGCCGCGCGGCGGGCTGGCCGAAGTGCGCCTGCCGGCCAATGAGCCGGGTAGCTCGATCATGCCCGGCAAGGTCAATCCGACCCAGTGCGAAGCGCTGTCGATGCTCGCCTGCCAGGTATTCGGCAACGACGCCGCCATCACCTTCGCCGCCAGCCAGGGCCATCTGCAACTGAACGTGTTCAAGCCGGTGATCATCCACAACCTGCTGCAATCGATCCGCCTGCTGGCCGACGGCTGCCGCAACTTCAACCAGCACTGCATCGCCGGCCTGGAGCCGGATGCCGCGCGCATGGCCGAGCATTTGGAACGGGGATTGATGCTGGTGACGGCGCTCAATCCCCATATCGGCTATGACAAGGCAGCGGAAATCGCCAAGAAGGCCTACGCCGAGGGCACCACCCTGCGGGAAGCGGCCCTGGCCCTCGGCCATCTCACCGAGGAACAGTTCGACGCCTGGGTTCGCCCGGAGACCATGCTGGAGGCGGGACAACGTGGCTGA	MSRIETDSLGPVEVPEDAYWGAQTQRSLVNFAIGDQRMPLAVLHALALIKKAAARVNGRIGDLPADVARLLEQAADEVLAGQHDDQFPLVVWQTGSGTQSNMNVNEVIAGRANELAGGQRGGKSPVHPNDHVNRAQSSNDCFPTAMHIAAVKAVQQDLLPAIAELSGGLAEQAARHGHLLKTGRTHLMDATPITFGQELSAFVAQLDYAERAIRAALPAVCELAQGGTAVGTGLNAPHGFAEAMAAELAALSGLPFVSAPNKFAALSGHEPLVTLSGALKTLASALMKLANDLRLLGSGPRGGLAEVRLPANEPGSSIMPGKVNPTQCEALSMLACQVFGNDAAITFAASQGHLQLNVFKPVIIHNLLQSIRLLADGCRNFNQHCIAGLEPDAARMAEHLERGLMLVTALNPHIGYDKAAEIAKKAYAEGTTLREAALALGHLTEEQFDAWVRPETMLEAGQRG	PGPT0001650_2717	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001650-fumC-K01679	NA	NA
BMS010_01636	1014			hypothetical protein	ATGAACAGTTTCGCCTATCCGCTGGTTTCCCCTCCCTCGCAGCCGCTCTGCGACGCTCGCGGCAAGCTGTGCCCAAAGGCCGTCGGCTGGTCGGCCCGCCCCCATGTCCATTGCGCCCTGCCCGGCCCCATCGGCCGCCGCAAGCGCTGGAACCACTGGTGCATCACCACGCCGCACTGGATGCTGGCCCTGACCGTCGCCGACTTCGACTATGTGGGTTACGGCGCCGCTTATTTCCTCGACCTGGAGACCGGCCAGGGCGCCGCCCACTCGCAGGTCCGCCCCTTCGCCCGGGGCTGCTGGTTGCCGGACACCCCCATCGAGAGCCACGCGTTCGACCATCCCCGCCTGCAATTGAAGGCCGACGAGCAGCCCGGCCGGGTACGCCTCACCGTCGCCGCGCCGGACATCGGCAGCCAGCCCCTGCAGGTTTCCCTGGATATCCAGCGCCCCGCGCACCTGGACTCGGTGAACCTGGTGGTGCCCTTCGCCAGCGGCGGTTTCCATGCCACTAGCCGCCAGCTCGGCCTTCCGGCCAGCGGCAGCGTGCAACTGGGCCAGAAGCACTATCAATGCGTGCCCGGACAGAGCTTCGCCGCACTGGACTTCGGCCGTGGCGTCTGGCCCTTGCACAGCCACTGGACACGCGCCGCCTTCGCCGCGCCCGGCGGCATCGCCGGCAACTTCGGTTCCGGCTGGAACGACGGCAGCGGCCTCAGCGAGAACGCCCTCTGGTTCGGCGGCGAACTGTTGCCGCTGGATTGCCCGGTCGAGATCGAGCGAATCCCCGGCGGCCCCCTGACCTGCTGGCGCCTGACCAGTCCAGACGAACGGGTCGACCTGATCTTCACCCCGCGTCAGCGCCACCATGCCCGGCCGCGCTTCGGCCTGTTCCATGCCGATACCAGCCAGTGGTTCGGCCACTTCGACGGTACGCTGCGCGGCCCCGGCGGCGAGTGCGTGCCGGTCGACGGCGCCCTTGGCTGGCTCGGCGCCACCCACGCGCGCTGGTAG	MNSFAYPLVSPPSQPLCDARGKLCPKAVGWSARPHVHCALPGPIGRRKRWNHWCITTPHWMLALTVADFDYVGYGAAYFLDLETGQGAAHSQVRPFARGCWLPDTPIESHAFDHPRLQLKADEQPGRVRLTVAAPDIGSQPLQVSLDIQRPAHLDSVNLVVPFASGGFHATSRQLGLPASGSVQLGQKHYQCVPGQSFAALDFGRGVWPLHSHWTRAAFAAPGGIAGNFGSGWNDGSGLSENALWFGGELLPLDCPVEIERIPGGPLTCWRLTSPDERVDLIFTPRQRHHARPRFGLFHADTSQWFGHFDGTLRGPGGECVPVDGALGWLGATHARW				NA	NA	NA	NA	NA
BMS010_01637	495			hypothetical protein	ATGACCCGTTTTCGCGCCCTCTGCGCCGCCGCGCTGCTCGCTTGTGCCGGAGGCCAGGCACTGGCCGACGATGCCAGCCACGCCGCCAATGCCGAGCAGTTCCTCAAGCTGGCCCATGCCGACAAACTGACCGTGCCGGTCTACGCCCAGGTACAACAGATGTTCGCCCAGCGCTTCGCCGAGTCGAAGGCTCCGGAGGCGAAAAAGGCCGTGCTGGAAAGCTACCAGGCCAAGGCCAACGCCGCGCTGGACCGCGCCGTGGGCTGGGACAAGCTGAAGCCCGACATGGTCAAGCTCTACACCAGCAATTTCAGCGAGAGCGAGCTGAAGGACCTGATCGCCTTCTACCAGTCGCCGCTCGGCAAGAAGGTCATGGAAAAGATGCCGGCGCTGACCGCGCAATCCGCCCAGTTGACCCAGGCCAAGCTGGAGACCGCCGTCCCGGAAGTGAACAAGCTGCTGGGCGACATGAACAAAGAGCTGGAGGCGAAGTAA	MTRFRALCAAALLACAGGQALADDASHAANAEQFLKLAHADKLTVPVYAQVQQMFAQRFAESKAPEAKKAVLESYQAKANAALDRAVGWDKLKPDMVKLYTSNFSESELKDLIAFYQSPLGKKVMEKMPALTAQSAQLTQAKLETAVPEVNKLLGDMNKELEAK				NA	NA	NA	NA	NA
BMS010_01638	288	bolA_2	COG0271	DNA-binding transcriptional regulator BolA	ATGCGTGAACGTATCCAGACGGCATTGGGCGCCCTGGAGCCCCAGCACCTCGAGGTGCTGGACGAAAGCCATATGCACAGCCGCGGGCTGGAAACCCATTTCAAGGCGGTGGTGGTCAGCCCGGCTTTCGCCGGCCTGAACGCGGTCAAGCGCCACCAGAAGGTCTATGGCACCCTCGGTGAGCTGATGGGGCAGTTCCACGCCCTGGCCCTGCACACCTACACCCCGGACGAGTGGGCGCAGCTGGGCCAGGCGCCGGATTCTCCGACCTGCCGCGGCGGGCACTGA	MRERIQTALGALEPQHLEVLDESHMHSRGLETHFKAVVVSPAFAGLNAVKRHQKVYGTLGELMGQFHALALHTYTPDEWAQLGQAPDSPTCRGGH	PGPT0014930_748	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014930-bolA-K05527	NA	NA
BMS010_01639	936			hypothetical protein	ATGACCGATAAGATCGTCGTGGCGGCGCTGTACAAGTTCGTTTCCCTGCCGGACTACGTCGCGCTCCGCGAACCCCTTCTGCAAACCCTCCTCGACAACGGCGTGAAAGGCACCCTGCTGCTCGCCGAAGAGGGCATCAACGGCACCGTCTCCGGCACCCGTGCCGGCATCGACGCCTTGCTCGGCTGGCTCAGGCGCGATCCGCGTCTGGTCGACGTCGACCACAAGGAGTCCTACTGCGACGAGCAGCCGTTCTACCGCACCAAGGTCAAGCTGAAAAAGGAAATCGTCACCCTCGGCGTGCCCGGGGTGGATCCGAACCAGCGGGTCGGCACCTATGTCGAACCCAAGGACTGGAACGCGCTGATCTCCGACCCCGAAGTGCTGTTGATCGATACGCGCAACGACTACGAGGTGGCCATCGGTACCTTCGAAGGCGCCATCGACCCGAAGACCAAATCGTTCCGCGAGTTTCCCGAGTACGTGAAGGCTCATTTCGACCCGACCCGGCACAAGAAGGTGGCGATGTTCTGCACCGGTGGCATCCGCTGCGAGAAGGCCTCGAGCTTCATGCTGGGCGAGGGCTTCGAAGAGGTCTATCACCTCAAGGGCGGCATTCTCAAATACCTCGAGGAAGTGCCCGAGGCGCAGAGCAAGTGGCAAGGTGACTGTTTCGTCTTCGACAACCGCGTGACGGTGCGCCACGATTTGTCCGAGGGTGATTACGATCAATGCCATGCCTGCCGTAATCCGATTTCCTCTGAGGACCGCCAGTCCGAGCACTACGCGCCGGGCATCAGTTGCCCGCATTGCTGGGACTCGCTCTCCGAGAAGACCCGGGCCAGCGCCCGCGAACGGCAGAAACAGATCGAACTGGCCAAGGCCCGCAACCAGCCTCATCCCATCGGCCGCGATCCGCGCCAGCCGTTGGCGTGA	MTDKIVVAALYKFVSLPDYVALREPLLQTLLDNGVKGTLLLAEEGINGTVSGTRAGIDALLGWLRRDPRLVDVDHKESYCDEQPFYRTKVKLKKEIVTLGVPGVDPNQRVGTYVEPKDWNALISDPEVLLIDTRNDYEVAIGTFEGAIDPKTKSFREFPEYVKAHFDPTRHKKVAMFCTGGIRCEKASSFMLGEGFEEVYHLKGGILKYLEEVPEAQSKWQGDCFVFDNRVTVRHDLSEGDYDQCHACRNPISSEDRQSEHYAPGISCPHCWDSLSEKTRASARERQKQIELAKARNQPHPIGRDPRQPLA	PGPT0013330_1538	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013330-UPF0176_protein-K07146	NA	NA
BMS010_01640	633			hypothetical protein	ATGAGCGCTCGCCTGCTGTACGTGATGGACCCCATGTGTTCCTGGTGCTGGGGCTTCTCCCCGGTGATGGAGGCCCTGGCCGATCAGGCGAAGGCGGCGGGTGTGCCGCTGCACCTGGTGGCCGGCGGACTGCGCCGTGATCGGGTCGCCATCGATGCGGCGGCACGGGTGCGCTACCTGGCTTATTGGCAGGCGGTGAATGCGGCGACCGGCCAGATGTTCGACTTCGACCGCGGCTTGCCGGAAGGGCTGGTGTACGACACCGAGCCGGCCTGCCGAGCCCTGGTCACCGTGCGCAACCTGGACAGCGCCAGTGCCTGGCCGCTGGCCCGGTTGATCCAGCAGGCGTTCTACACCGAGGGGCGCGACGTCACCCAGGCGCCGGTGCTGGTCGAGCTGGCCGAGCGTGCCGGCATTCCCCGCATCGAGTTCGCCGAGGCGTTCGACAGCGTGGCCATGCGCGAGACGACCGCCGCCGACTTCGCCTGGGTGCAGGACCTGGGCATCGCCGGTTTCCCCACACTCCTGGCCGAGCGCGACGGCCAACTCGCATTGCTGACCAACGGCTACCAGCCGCTGGAACAGTTGCAACCGTTGCTGGGACGTTGGCTGGAGCGTGGTGTCCATGCCTGA	MSARLLYVMDPMCSWCWGFSPVMEALADQAKAAGVPLHLVAGGLRRDRVAIDAAARVRYLAYWQAVNAATGQMFDFDRGLPEGLVYDTEPACRALVTVRNLDSASAWPLARLIQQAFYTEGRDVTQAPVLVELAERAGIPRIEFAEAFDSVAMRETTAADFAWVQDLGIAGFPTLLAERDGQLALLTNGYQPLEQLQPLLGRWLERGVHA				NA	NA	NA	NA	NA
BMS010_01641	1779	mdlB	COG1132	Multidrug resistance-like ATP-binding protein MdlB	ATGCCTGATCGCCTGACCTGGACGGAAATCCGCCGACTCGCCCTGCATCATCGCAAGGCGCTGCTGCTGGCCAACCTGATCGCCGTGCTGGCGACATTGTGCAGCGTGCCGATTCCGTTGCTCCTGCCGCTGCTGGTGGACGAAGTCCTGTTGCGCGATGGCGATGCCGCGCTCAAGGTCATGGACAACTTCCTTCCCGCCGGCTGGCAGACCGCGGCCGGCTATATCGGCCTGATGCTGCTGGCGAGCATGTTGCTGCGCGGTTCTTCGCTGGTCTTCAACGTGCTCCAGGCGCGTCTCTTCGCGCGGTTGTCGAAGGACATCGTGTACCGCATCCGCATCCGCTTGATCGAGCGCCTCAAGCGCATTTCCCTCGGCGAGTACGAAACCCTGGGCGGCGGCGCCGTGACCACCCATCTGGTCACCGATCTGGATACCCTGGACAAATTCGTCGGCGAAACGCTGAGCCGTTTCCTGGTGGCGGCGCTGACCCTCACCGGTACCGCCGCCATCCTGCTCTGGATGCACTGGCAACTGGCGTTGCTGATCCTGCTTTTCAATCCGCTGGTGATCTACGCCACGGTGCAGCTGGGCAAGCGGGTGAAGCACCTTAAGAAGCTGGAAAACGACAGCACCTCGCGCTTCACCCAGGCACTGACCGAAACGCTCGAAGCCATTCAGGAAGTCCGGGCCGGCAACCGCCAGGGCTTCTTTCTCGGCCGGCTGGGTTTGCGTGCTCGCGAAGTACGCGACTATGCGGTTGCCTCGCAGTGGAAGAGCGACGCCTCCAACCGCGCCAGCGGCCTGCTGTTCCAGCTCGGTATCGACGTATTCCGTGCCGCGGCGATGCTCACCGTGCTGTTTTCCGACCTGTCCATCGGCCAGATGCTGGCGGTGTTCAACTACCTCTGGTTCATGATCGTTCCGGTGGAGCAACTGCTCAGCCTGCAATATTCCTTCTATGCCGCGGGTGGGGCGTTGGCGCGGATCAACGAGCTGCTGGCCCGGGCGGACGAACCGCAGCATGCCGGTGGCGTCGATCCGTTCAGGAACCGCGACACGGTGGGGATCGAAGTCCGCGGGCTGCGCTTCGCTTATGCGGAAGAGCCGGTGTTGGATGGCCTCGACCTGTCCATCGCGCCGGGGGAGAAGGTGGCTATCGTCGGTGCGTCCGGTGGCGGCAAGAGTACCCTGGTGCAACTCCTGCTCGGCCTCTACACCGCCCAGGCCGGGAGCATCCGCTTCGGCGGTTCGACCCTGGAGGAAATCGGCCTGGAGACCGTGCGCGAGCACGTGGCCGTGGTGCTGCAGCATCCGGCGCTGTTCAACGACACGGTGCGCGCCAACCTGACCATGGGCCGCGAGCGCAGCGACGAAGCCTGCTGGCGTGCCCTGGAGACCGCCCAGTTGGCCGAGACCATCCGCCAGTTGCCGCAGGGCCTGGACAGCATGGTCGGCCGTTCCGGCGTGCGTCTTTCAGGCGGGCAACGCCAGCGCCTGGCTGTTGCCCGCATGGTACTCGCCGAGCCCAAGGTGGTGATCCTCGACGAAGCCACTTCGGCCCTCGACGCCGCCACCGAATATGCCTTGCACCAGGCCATGGCGCGTTTCCTCGAAGGGCGCACCACGCTGATCATTGCCCACCGCCTGTCGGCGGTGAAGCAGGCCGACCGGGTGTTGGTGTTCGACGGCGGCAGCATCGCCGAAGACGGCGACCACCAGCAGCTGATCGCCGAGGGTGGGCTTTACGCCAAGCTTTACGGTCATCTCCAGCAGTAG	MPDRLTWTEIRRLALHHRKALLLANLIAVLATLCSVPIPLLLPLLVDEVLLRDGDAALKVMDNFLPAGWQTAAGYIGLMLLASMLLRGSSLVFNVLQARLFARLSKDIVYRIRIRLIERLKRISLGEYETLGGGAVTTHLVTDLDTLDKFVGETLSRFLVAALTLTGTAAILLWMHWQLALLILLFNPLVIYATVQLGKRVKHLKKLENDSTSRFTQALTETLEAIQEVRAGNRQGFFLGRLGLRAREVRDYAVASQWKSDASNRASGLLFQLGIDVFRAAAMLTVLFSDLSIGQMLAVFNYLWFMIVPVEQLLSLQYSFYAAGGALARINELLARADEPQHAGGVDPFRNRDTVGIEVRGLRFAYAEEPVLDGLDLSIAPGEKVAIVGASGGGKSTLVQLLLGLYTAQAGSIRFGGSTLEEIGLETVREHVAVVLQHPALFNDTVRANLTMGRERSDEACWRALETAQLAETIRQLPQGLDSMVGRSGVRLSGGQRQRLAVARMVLAEPKVVILDEATSALDAATEYALHQAMARFLEGRTTLIIAHRLSAVKQADRVLVFDGGSIAEDGDHQQLIAEGGLYAKLYGHLQQ				NA	NA	NA	NA	NA
BMS010_01642	1080	hpd_1		4-hydroxyphenylpyruvate dioxygenase	ATGAACGCCGTGTCCAAGATCGAACAGCACAATCCCATCGGCACCGACGGTTTCGAGTTCGTCGAGTTCACCGCGCCGACGGCGGAGGGCATCCAGCAGCTGCGCGAACTGTTCACCGTCATGGGCTTCACCGAGACCGCCCGGCACCGTTCCAAGGAAGTCTTCCTGTTCCAGCAGCACGACATCAACTTCGTACTCAACGGCAGCCCCAGCGGGCATGTCCATGCGTTCGCCGAACAGCACGGGCCGAGCGCCTGCGCCATGGCCTTCCGGGTGAAGAACGCGGCCCAGGCCGCCGCCTATGCCGAGGCCCAGGGCGCGACACTGGTTGGCAGCCACGCCAATTTCGGCGAGTTGAACATTCCCTGCGTCGAAGGCATCGGCGGTTCGCTGCTGTACCTGGTCGATCGCTACGGCGAGAAGACCATCTACGACGTCGACTTCGATTTCATTCCGGGGTGTAGCGCCAATGACAATGCCCTCGGTCTGCAACAGATCGACCACCTGACCCACAACGTCCGCCGTGGCCAGATGGACACCTGGGCCGGCTTCTACCAGCGCATCGCCAACTTCCGCGAAATCCGCTACTTCGATATCGAGGGCAAGCTCACTGGCCTGGTCTCCCGCGCCATGACCGCGCCCTGCGGCAAGATCCGTATCCCGATCAACGAGTCGGCGGACGCGAACTCGCAGATCGAGGAATTCATCCGCGAGTACCATGGCGAGGGTATCCAGCACATCGCCCTGTCCACCGACGACATCTACGAGACGGTGCGCCGCCTGCGCGCTAACGGCGTGGCGTTCATGACCACGCCGGATACCTACTACGAGAAAGTGGACAGCCGTGTGCCCGGCCATGGCGAACCGCTGGCGCTGCTGCGCGAGCTGAACATCCTGATCGATGGGGCGCCCGGCGACGACGGCATCCTGCTGCAAATCTTCACCCACACCGTGATCGGGCCGATCTTCTTCGAGATCATCCAGCGCAAGGGCAACCAGGGCTTCGGCGAGGGCAACTTCAAGGCGCTCTTCGAGTCCATCGAGGAAGATCAGATCCGCCGGGGCGTGCTCAAGGGGTGA	MNAVSKIEQHNPIGTDGFEFVEFTAPTAEGIQQLRELFTVMGFTETARHRSKEVFLFQQHDINFVLNGSPSGHVHAFAEQHGPSACAMAFRVKNAAQAAAYAEAQGATLVGSHANFGELNIPCVEGIGGSLLYLVDRYGEKTIYDVDFDFIPGCSANDNALGLQQIDHLTHNVRRGQMDTWAGFYQRIANFREIRYFDIEGKLTGLVSRAMTAPCGKIRIPINESADANSQIEEFIREYHGEGIQHIALSTDDIYETVRRLRANGVAFMTTPDTYYEKVDSRVPGHGEPLALLRELNILIDGAPGDDGILLQIFTHTVIGPIFFEIIQRKGNQGFGEGNFKALFESIEEDQIRRGVLKG	PGPT0009480_1428	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0009480-hppD-K00457	NA	NA
BMS010_01643	657	nagL_1		Maleylpyruvate isomerase	GTGTTGACCTTGTATTCCTACTGGCGCTCCAGCGCCGCCTACCGGGTGCGTATCGCTCTCAATCTCAAGGGTCTGGCCTACCGCCAGGTACCGGTACATCTGGTGAAAGACGGCGGTCAGCAGCACGCCGCCGAGTACCGGGCGCTCAATCCGCAGGAACTGGTGCCGCTTCTGGTGGATGCCGGCTCCGGGGCGGGCGAGGCTCGCATCGCGCAGTCCCTGGCGATCCTCGAATACCTGGAAGAAGTCTTCCCGGTGCCGACGCTGCTGCCGGCCGATCCGGTGCAGCGGGCCCAGGTGCGCGCGCTGGGGTTGCACATCGCTTGCGACATCCATCCGCTGAACAACCTGCGCGTGCTGCAATACCTCAGCGGCCAACTGGGGGCGAGCGACGAGGCCAAGAACGCCTGGTACCGGCATTGGGTGGACACCGGGCTGGCGGCGGTCGAGGAGGGGCTGGCGGCATTCGCCGGTCGTCTGTCTCTCGGCGAGCGGCCGGGCTACCTGGAAGCCTGTCTGATTCCGCAGGTGTACAATGCGCGGCGTTTCGACTGTGACCTCACTGCGTACCCACGCATCCTCGAGATGGTCGCGCGCTGCGAATCCCTTGAGGCGTTCAGGAACGCCGCTCCGGAGGTGCAGCCCGACGCTCAATAA	MLTLYSYWRSSAAYRVRIALNLKGLAYRQVPVHLVKDGGQQHAAEYRALNPQELVPLLVDAGSGAGEARIAQSLAILEYLEEVFPVPTLLPADPVQRAQVRALGLHIACDIHPLNNLRVLQYLSGQLGASDEAKNAWYRHWVDTGLAAVEEGLAAFAGRLSLGERPGYLEACLIPQVYNARRFDCDLTAYPRILEMVARCESLEAFRNAAPEVQPDAQ	PGPT0006040_355	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_STYRENE_OXIDE_DEGRADATION,PGPT0006040-maiA|GSTZ1-K01800	NA	NA
BMS010_01644	1461			hypothetical protein	ATGACCCGTGAAAAACCGAAGAACCTCTGGCTTTCGCGCTGGGGCTTCATCCTCGCTGCAACCGGCTCCGCCGTGGGCCTCGGCAATATCTGGAAATTCCCCTACATCACTGGCGAATACGGCGGCGGCGCCTTCGTCCTGATGTACCTCGCCTGCATCCTCGCCATCGGCATCCCGGTGATGATGACCGAGATCGCCCTCGGCCGGCGCGGCCGTGGCAGCCCCATCGACGCCATCGCCCGGGTGGTCCGGGAGAACGGCAGCAACCCGCTGTGGCGCGGCGTCGGCCTGATGGCCATGCTGGCCGGCTTCATGATTCTCTGCTTCTACGTGGTGGTGGCCGGCTGGGCCTTCGCCTACACCTGGAAAATGCTCGATGGCTCGCTGGCCGCGACCAGCGTCGAGGCGCTCGGCCAGGTCTTCGAGCAGCACAACGCCAACCCCTGGCTGCTCGGCGGCTGGAGCGTGCTGGTGGCGCTGCTGACCCTGTGGATCGTCGCCAAGGGCGTGCAGAAGGGCATCGAGAATTCGGTGCGCTGGATGATGCCGGGCCTGGCCCTGATGCTGCTGATCCTGGTCGGCTACGCCTTCACCAGCGGCAGCTTCTCCGAAGGCTTCGCCTTCCTGTTCAGCTTCGACGCTTCCAAGCTGACCGGCGAAGCGCTGCTGGCCGCCCTCGGCCATGCCTTCTTCACCCTCAGCCTGGCGTCCGGCGCCATCCTCACCTACGGCTCGTACATCCCCGACGGCCAGTCGATCGCCCGCACCACCTTCATGGTGGCCATCGCCGATACCTGCGTGGCGCTGCTAGCCGGCCTGGCGATCTTCCCGGTGATCTTCGCCAACGGCATGAGCCCGGCCGCCGGTCCCGGGCTGATCTTCATGAGCCTGCCGCTGGCCTTCCAGCAGATGCCGTTCGGCACGGCCTTCGGCGTGCTGTTCTTCGCCATGGTGTCCATCGCGGCGCTGACCTCGGCGATCTCCATGATCGAAGCCACCGTGGCCTATCTGAACGAGAAATACGGCATCAGCCGGGTCAAGGCTGCCATCGGCTCCGGCGCCGTGCTGCTGGTGATCAGCCTGCTGGCCATGCTCTCGTTCAACCTGCTGTCCGGCTGGACGCCGCTGGGCAAGAACTTCTTCGACTGGCTGGACTACCTCACCTCGCGCTGGATGATGCCGCTGGGCGGGATTTTCATGGTCGTCCTGGCCGGCTATGCGCTGCGCGGCGAGATCATGCGCGACGAACTGAACCTGCCGCCGGCCGGTTATGCGCTCTGGCTGTTCATGGTGCGCTACGTCAGCCCGGTGCTGATCATGATCGTGTTCCTCCATGCCCTCGGCTGGCTGGGCTTCGATCCGCTGGTCCGCTGGTACTGGATCGCCGGCGCCATCGGCCTGCTGGCGATTCTTGGCGAGTTGTTCGCGCCGCGCGTGAGGCTGGTGCTGGCCAATCGCTGA	MTREKPKNLWLSRWGFILAATGSAVGLGNIWKFPYITGEYGGGAFVLMYLACILAIGIPVMMTEIALGRRGRGSPIDAIARVVRENGSNPLWRGVGLMAMLAGFMILCFYVVVAGWAFAYTWKMLDGSLAATSVEALGQVFEQHNANPWLLGGWSVLVALLTLWIVAKGVQKGIENSVRWMMPGLALMLLILVGYAFTSGSFSEGFAFLFSFDASKLTGEALLAALGHAFFTLSLASGAILTYGSYIPDGQSIARTTFMVAIADTCVALLAGLAIFPVIFANGMSPAAGPGLIFMSLPLAFQQMPFGTAFGVLFFAMVSIAALTSAISMIEATVAYLNEKYGISRVKAAIGSGAVLLVISLLAMLSFNLLSGWTPLGKNFFDWLDYLTSRWMMPLGGIFMVVLAGYALRGEIMRDELNLPPAGYALWLFMVRYVSPVLIMIVFLHALGWLGFDPLVRWYWIAGAIGLLAILGELFAPRVRLVLANR	PGPT0013950_872	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013950-TC_NSS-K03308	NA	NA
BMS010_01645	1956	mcpQ_1	COG0840	Methyl-accepting chemotaxis protein McpQ	ATGTTGCGTTCCGCTTCTCGCGTGTTTGCCGATCTTGCCGTGGGCAAGAAACTGCTGTCCGGCTTCGCGCTGGTCCTGTTGCTGACCATCGCCGTGGCCGGCACCGGGTTCTATGCCGTGAACGCGATCTTGGAGCGTTTCTCTCACAACGCCCTGCTGGCGGAAGTGGATGTGGAGATTGCCCAGGCACGGCGTTTCGAAAAGGATTTCGCGCTGACCGCCAAGTCCGAGTCGGCCCAGCAGGTCCGCGAGCGGCTGGCGACGGTGCGCGAGCGACTGGAGCAGTTGCGGAAAACCACATCGGCAGGCAACCGGGAGCGGGTGCAGCGCATGGACGAAGCCAGCGCCGGCTATCTGAATCAGTTCGAGCGGTTCGTCAAGCTGTTCGACGAAGCCCGTGCGGCACGCACCACCATGGGGGAAGCGGCCGCCGAGGCGCGTGACCAGTTCGAAGTCATCGAGCTGGACATGTACGACGCGGTGCGCGAGCTGCGCCTGCAAGGCGACCGCCTGCGCGGCAGCGATCCGCTGACCCTCGCCGAAACCGCGTCCGGCCTGAGCAAGCGCATGCTCGACCTGCGTGGCAATGAAAGCCTGTACATCATCGACGGCTCGGAAGAAGCGCTGAAGACCTGGGCAGAGGTCTATGACGACCTGAAGAGCGTGGCGAGCAGCCTGAAGGTCTGGCTCGACGACGACCAGAAGCGCTCCATCGATACCGCCCTGGTCGCCCTCGACAGCTACCAGAAGGCTTTCGACAACTACCACCGGCTGCGCGTCGAGAGTCGTACCAGCGAAGCCGCGATGGTCGAGCAGGCACGCGCGGTCATCGGCCTGGTGGACGAGGCCCAGGCCAACGAGCAGGTCGAGATGCTCGGAGAGCGCCGCCAGGTCTACGCCCTGCTCGGTGGCATGAGCCTGGGTGCCGTGCTGCTGGGTCTCTGCGCCGCGCTGCTGATTTCCCGGTTGATCGTCGGCCCGCTGCGGGAGACCGTCGCCTTCGTCCAGCGCGTCGCCCAGGGCGACCTGACCCATGACCTGCGCATGGAACGACGCGACGAACTGGGCCAACTGATGAGCGCCATGCAAAGCATGACGGTGAGCCTGCGCACCCTGGTCGGTCGCATCGGTGGCAGCGTCGGCCAGATCGCCAGTGCCGCCGAGCAGTTGTCGGCGATCACCGCGCAGACCAGCCAGGGCGTACAGACGCAGAAGCTGGAAACCGAACAGACCGCCACCGCCATGCACGAAATGGCGGCCACGGTGCAGGAAGTGGCACGCAACGCCGAACAGGCTTCCCTGGCCGCGCGCGATGCCGACCGCGAGGCGCAGCAGGGCGACCAGGTGGTACGCGAGGCGGTCGGCCAGGTCGGTCGGCTGGCCGACGAAGTGGAGCATTCCGCCGAAGCGCTCCAGCAATTACACCAGGAGAGCAGCCGCATCGGCAGCGTGCTGGAGGTGATTCGCAACGTTGCCGAGCAGACCAACCTGCTGGCCCTCAACGCGGCCATCGAAGCGGCGCGGGCCGGCGAGCAGGGCCGTGGCTTCGCCGTGGTGGCCGACGAAGTGCGTGCCCTGGCCCGGCGCACCCACGACTCCACCCAGGAAATCGAGACGCTGATCGGCACCCTGCAGCAGATGGCCCATCAGGCGGTGGAGCAGATGGATGCCAGCCGCAGTCTGACCCAGCGCACCGTCGACCTCGCCGGCCAGGCCGGCGCCGCGCTCGGTCGGATAACCCAGGCCGTATCGACCATCGAGCAGATGAACCAGCAGATCGCCGCCGCTGCGGAAGAGCAGAGCGCCGTGGCCGAAGCCATCAACGAGAGCGTCACGCGGGTGCGCGATATCGGCGAGCAGAGCGCCTCGGCCAGCGAACAGACCGCCGCCTCCAGTGCCGAACTGGCGCGACTGGGCATCGAACTGCAGGGTCTGGTAGGGCAGTTCCGGACCTGA	MLRSASRVFADLAVGKKLLSGFALVLLLTIAVAGTGFYAVNAILERFSHNALLAEVDVEIAQARRFEKDFALTAKSESAQQVRERLATVRERLEQLRKTTSAGNRERVQRMDEASAGYLNQFERFVKLFDEARAARTTMGEAAAEARDQFEVIELDMYDAVRELRLQGDRLRGSDPLTLAETASGLSKRMLDLRGNESLYIIDGSEEALKTWAEVYDDLKSVASSLKVWLDDDQKRSIDTALVALDSYQKAFDNYHRLRVESRTSEAAMVEQARAVIGLVDEAQANEQVEMLGERRQVYALLGGMSLGAVLLGLCAALLISRLIVGPLRETVAFVQRVAQGDLTHDLRMERRDELGQLMSAMQSMTVSLRTLVGRIGGSVGQIASAAEQLSAITAQTSQGVQTQKLETEQTATAMHEMAATVQEVARNAEQASLAARDADREAQQGDQVVREAVGQVGRLADEVEHSAEALQQLHQESSRIGSVLEVIRNVAEQTNLLALNAAIEAARAGEQGRGFAVVADEVRALARRTHDSTQEIETLIGTLQQMAHQAVEQMDASRSLTQRTVDLAGQAGAALGRITQAVSTIEQMNQQIAAAAEEQSAVAEAINESVTRVRDIGEQSASASEQTAASSAELARLGIELQGLVGQFRT	PGPT0015710_9146	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_01646	993			hypothetical protein	ATGGGTGGTATGAGCATGGAAGCCTTGCGTCAGAACGAAACCGATTTCCACGGCTGGCTGCCGATCCGCATCTGGCCGGAACAGGGGCGTTGGTGGGTCGACTGGTGCTGGTTCGGCAGCGAGGTGCTGTGCGAACCCTTCTTCCGCGACAGCGTGCAGAAGGCCCTGCGCAAGCCGTTCAACCAGGCGCTGCGCCGGTTGACCGGCATCGAGGCCCTGCTCGACTGGCAGGCCCGCTCGCCGGCTCCGGCGCCCCGCGCCTTCATCCATCATGCTTCACGCTGCGGCTCGACGCTGATCGCGCAATTGCTCACGCAACTGGACAGCCACACGGTCCTGTCCGAACCGCCGCCCCTGGATGCGGTGCTGCGTGCGCACTTCTTCGACCCGACCAGCGAGCCGCACCAAGCCGCCTGGACCCGGGCGCTGTTCTGCGCCTATGGCCAGCCCCGGCGTGGCGGCGATAGCGAGCTGGTGATCAAGCTGGATGCCTGGAATGTCTTCGAGGCGGATTTCCTCCGTGCGCTCTACCCGCAGACACCGGCGATCTTTCTTTATCGCGATCCGCTGGAAATCGTCGTCTCGCAACTGCGCCAACCGGGCGCGCACATGGTGCCGGGCATGATCGGCCCGTCGCTGCTGGCGATCCCGGCTGAGGAAGCTTTCGAACTGTCGCCGCTGGAGTTCGCTGCCCGCTGCATCGGCATGATCCTGCAGCGCGGGCTGGAACTCTGTCGCACAGGTGGAGCGGTTCCAGTGAACTACAGCGAGCTGCCGGGGGCTGTGTGGGGACGGCTGGCGGAGATGCTGGGCGTTCCGCAAGAGGCTGCCGACCGCCTGGCCGACGCCGCCGGGAGGGACGCCAAGCAGCCGGGCATGAGCTTCAGCCCGGACAGCGCCCGCAAACGTGCCGAAGCCAGCGCCGAAACCCGCGCCGCGGTGGAGCGCTGGGCCCGCGGGCCGTATGAGGAGCTGGAGCGCTTACGCCTGTAG	MGGMSMEALRQNETDFHGWLPIRIWPEQGRWWVDWCWFGSEVLCEPFFRDSVQKALRKPFNQALRRLTGIEALLDWQARSPAPAPRAFIHHASRCGSTLIAQLLTQLDSHTVLSEPPPLDAVLRAHFFDPTSEPHQAAWTRALFCAYGQPRRGGDSELVIKLDAWNVFEADFLRALYPQTPAIFLYRDPLEIVVSQLRQPGAHMVPGMIGPSLLAIPAEEAFELSPLEFAARCIGMILQRGLELCRTGGAVPVNYSELPGAVWGRLAEMLGVPQEAADRLADAAGRDAKQPGMSFSPDSARKRAEASAETRAAVERWARGPYEELERLRL				NA	NA	NA	NA	NA
BMS010_01647	816			hypothetical protein	ATGACCGCACGGATCGCTGTCCCCGCCGCCCTGCCCGCCTACGCTCGTCTGCCACTGGGCTTTTCCGTCGAACCGCTGCAACGCGCCCTGAGCGACCTGCCGGCGACGGCCTGGCAACCGCACTTCAACCGCGACTACTTCGAAGGCGACTGGAGCGGCATCGCCCTGCTCGCTCCGGCGGACGCACCGGATAGCCTGCTGGCCGGCCATGGCGAACCGGTCGCCACGCCGCTGCTGGAAGCCTCGCCGTTCTGGCAGGACCTGCTGGCGCGGCTGCCCGGCCCGATCCGCAGCGCCCGCCTGCTGCGCCTGGGAGCGGGAGCGCGAATTCGCGAACACCGTGACCCGGACCTCGGCGACGACGACGGCGACCTGCGCCTGCATCTGCCGATCCACAGCCACGAGGCGGTGGAATTCATTCTCGAAGGCCGAGCCATCCCCATGCGTCCTGGCGAACTCTGGTTCCTCGACCTGAGCCGTCCGCACCGGGTGGAAAACCCCAGCCCTCATGCGCGCATCCATCTGGTGCTCGATTGCCGGCGCACGCCCGAGCTGCTGGAGCGGATCGCCGCGGGCCTGGCGGACACCCCGCCCGCGCAGGAGGCACGGGGAACCCGGCAATTCGCCCTGTTCCGCGCGGCGGTGCACCGGGACGCCGAGTTGCAACGGCGGCTACAGGCCATCGACGACGCACAATCCTTCGCCGAAACCGCCGTCGCCCTGGCCGCCGGAATCGGGCTGCATTTCAGCGAGGAAGACGTCCGCGCAGCGATGCAACAGGGCCGTCGGAGCTGGATCGAGCAATGGGTGGTATGA	MTARIAVPAALPAYARLPLGFSVEPLQRALSDLPATAWQPHFNRDYFEGDWSGIALLAPADAPDSLLAGHGEPVATPLLEASPFWQDLLARLPGPIRSARLLRLGAGARIREHRDPDLGDDDGDLRLHLPIHSHEAVEFILEGRAIPMRPGELWFLDLSRPHRVENPSPHARIHLVLDCRRTPELLERIAAGLADTPPAQEARGTRQFALFRAAVHRDAELQRRLQAIDDAQSFAETAVALAAGIGLHFSEEDVRAAMQQGRRSWIEQWVV	PGPT0022350_566	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022350-lpxO-K12979	NA	NA
BMS010_01648	1056			hypothetical protein	ATGGACTCCATCACCCAGGCAGTACTCGGTGCCAGCATCCAGGGCGCGCTGCTCGGCCGCTGGCAGGGGCGAAAGGCGCTGCTGTACGGCGCCGTCCTCGGCACCCTGCCCGATCTCGACGTGGTCATCGACTACGGCGACGCGGTGGCCGAGATGACCTACCACCGTGGTTTCAGCCACTCGCTGTTCGTCCTCAGCGGCCTGGCCTTGCTGCTCACCGCCCTCTGCCGACGATGGCAGCCGAACCCAGGTTATTCGAGCGGGCGCCTGTTCCTCACGCTCTGGCTGGTGCTGGTCACCCACCCGTTGCTGGATTGCTTCACCAGCTACGGCACCCAGCTCTTCTGGCCGCTGGATTTGCCGCCGATCAGCGGGTCCAGCGTGTTCATCATCGACCCGCTGTACACGCTGCCGCTGCTGGTCGCGGTGATCGCCGGCCTGCTGTTCGGCCTGAAGGGTAAGATGGCCCGCTGGCCGGCCGTGGCGCTGGGGCTGTCGACGCTCTACCTGAGCTTCACCCTGGCCGGCAAGCAGATGGCCGAGCAGCGCGTGGAACAGGCCCTGGCCCGCGACGGTATCCACGCGGAGAAAATCTTCAGCACCCCGACACCCTTCAACAGCCTGCTCTGGCGGGTGATCGTGATCGACGGCGAGGATTATCACGAAGCGCTGGTCAGCTGGTTCGACCGCTCGCTGCCGCATCTCGAACGGATTCCCCGCGGAACCCACCTGGCCGCCGCCCTGCGCGACTCGCCGCAACATGCGCGGCTGGCCTGGTTCACCGACGGTGTACTGCGCTACGACGACATCGACGGCCACCTGGTGGTCACCGATCTGCGCCTGGGCATGACCGGCTTCCACCCGTTCCGCTTCGCCATGGCGACCCGCGAAGGGGATGGCTGGCACCTGATAAGGGATGTCGAACTCTGGCCGGTGGAACGCGGCGACCTGAGCCGCCTGCAGGTGCTCTGGCAACGCGTCTGGGAGGAGCGCCAGGTGCCCCTCCTGGCCTGGGCCAACGCGTTGCAGCGCGGGCCCCGGCAAAGCACCCGCTGA	MDSITQAVLGASIQGALLGRWQGRKALLYGAVLGTLPDLDVVIDYGDAVAEMTYHRGFSHSLFVLSGLALLLTALCRRWQPNPGYSSGRLFLTLWLVLVTHPLLDCFTSYGTQLFWPLDLPPISGSSVFIIDPLYTLPLLVAVIAGLLFGLKGKMARWPAVALGLSTLYLSFTLAGKQMAEQRVEQALARDGIHAEKIFSTPTPFNSLLWRVIVIDGEDYHEALVSWFDRSLPHLERIPRGTHLAAALRDSPQHARLAWFTDGVLRYDDIDGHLVVTDLRLGMTGFHPFRFAMATREGDGWHLIRDVELWPVERGDLSRLQVLWQRVWEERQVPLLAWANALQRGPRQSTR				NA	NA	NA	NA	NA
BMS010_01649	447	arfB_1	COG1186	Peptidyl-tRNA hydrolase ArfB	ATGCTGGGCACTCATCTGTCCGGTCGCATGCCCATGCTGGAAATATCCAACAACGTCCATCTGCCCGATGCCGAAATCGAACTGAGCGCTATCCGCGCCCAGGGGGGCGGCGGACAGAACGTCAACAAGGTGTCCAGCGCCGTGCACCTGCGTTTCGACATCCAGGCCTCGTCGTTGCCGCCGTTTTACAAGGAACGCCTGCTGGCGCTGCGCGACAGTCGCATCACCGCCGAGGGGGTGATCGTGATCAAGGCGCAGCAGTACCGCACCCAGGAGCAGAACCGCGCCGACGCCTTGGAACGGCTGGCCGTCCTGATCCGCAGCGTGGCCAAGGTGGAGAAGAAGCGCCGCCCGACCAAACCGACCCTCGGCTCGAAGCAGCGCCGCCTGGAAGGCAAGGCCAAGCGTGCGACGATCAAGGCGGGCAGGGGAAAGGTGGATTATTGA	MLGTHLSGRMPMLEISNNVHLPDAEIELSAIRAQGGGGQNVNKVSSAVHLRFDIQASSLPPFYKERLLALRDSRITAEGVIVIKAQQYRTQEQNRADALERLAVLIRSVAKVEKKRRPTKPTLGSKQRRLEGKAKRATIKAGRGKVDY	PGPT0013740_337	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
BMS010_01650	1200	aspC_1	COG1448	Aspartate aminotransferase	GTGAAGCATTTCAGTGCCGTCGTCCGGGTGCCGGGCGACCCGATCCTCGGCCTGATGGAGGCCTATCGCGCCGACCCGAATCCGGCCAAGCTCGACCTCGGTGTCGGCGTGTACAAGGACGCCCAGGGCCTGACGCCGATCCCGCGCGCAGTGAAGCTCGCCGAGCAGCGCCTGATCGACAGCGAGACCACCAAGACCTATGTCGGCGGCCACGGTGACGCGGCCTTCGGGTCGCTGCTCGCGGCCCTGGTGCTCGGCGAAGGTTCGCCGCTGCTCGCCGACGGCCGCGCCGGCGCCACCCAGACCCCCGGCGGTACCGGTGCGTTGCGCCTGGCCGGCGATTTCATCGCCCACTGCCTGCCGCACCGGACGATCTGGCTGAGCGACCCGACCTGGCCGATCCACGAGACGCTGTTCACCGAATCCGGCCTGCGGGTGAAGCACTACCCCTACGTAGGCCGCGACAACCGCCTCGATGTGGAAGCGATGATCGCCGCCCTCAGCCATGTTCCGGCCGGCGATGTGGTGCTGCTGCACGCCTGCTGCCACAACCCCACCGGGTTCGACCTCGGCCAGGACGACTGGCGCCGGGTGCTGGAAGTGATCAAGGCGCGCGAATTGCTGCCGCTGATCGACTTCGCCTACCAAGGCTTCGGCGACGGACTGGAGGAAGATGCCTTCGCCGTGCGCCTGTTCGCCGAGGCCCTGCCGGAATTGCTGATCACCAGTTCCTGCTCGAAGAACTTCGGTCTCTATCGCGAGCGCACCGGCGCGCTGATCGTCTGCGCCCACGACGCCGAGAAACTCACCGACGTGCGCAGCCAGCTCGCCTCGCTGGCCCGCAACCTCTGGTCCACTCCGCCCGCCCACGGCGCCGCGGTGGTCGCCACCCTCCTCGGTGATGCCGAGCTGAAGGCGCTGTGGCAGGACGAACTGGATGCCATGCGCCGACGCGTCGCCGAGCTGCGCGTGGGCCTGGTCCAGGCGCTGGAACCCCATGGCCTGCACCAGCGCTTCGCCCACATCGCCCGGCAGCGCGGCATGTTCTCCTACACCGGTCTCACCGCCGATCAGGTGGCCCGATTGCGCGACGAGTTCAGCGTCTACCTGGTCGGCAGCGGCCGCGCCAACGTCGCCGGCATCGATGCCAACCGTATCGACGACTTGGCCAAGGCCATCGCCACGGTCTGCGCCACCTGA	MKHFSAVVRVPGDPILGLMEAYRADPNPAKLDLGVGVYKDAQGLTPIPRAVKLAEQRLIDSETTKTYVGGHGDAAFGSLLAALVLGEGSPLLADGRAGATQTPGGTGALRLAGDFIAHCLPHRTIWLSDPTWPIHETLFTESGLRVKHYPYVGRDNRLDVEAMIAALSHVPAGDVVLLHACCHNPTGFDLGQDDWRRVLEVIKARELLPLIDFAYQGFGDGLEEDAFAVRLFAEALPELLITSSCSKNFGLYRERTGALIVCAHDAEKLTDVRSQLASLARNLWSTPPAHGAAVVATLLGDAELKALWQDELDAMRRRVAELRVGLVQALEPHGLHQRFAHIARQRGMFSYTGLTADQVARLRDEFSVYLVGSGRANVAGIDANRIDDLAKAIATVCAT	PGPT0020115_76	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TRYPTOPHANE_DEGRADATION,PGPT0020115-aspC-K00813	NA	NA
BMS010_01651	357			Putative pterin-4-alpha-carbinolamine dehydratase	ATGACCGCACTCTCCCAAGCCCATTGCGAAGCCTGCCGCGCCGACGCGCCGAAAGTCTCCGACGACGAACTGGCCGAGCTGATCCGCCTGATTCCCGACTGGAACATCGAAGTCCGCGACGGAATCATGCAGTTGGAAAAGGTCTTCCTGTTCAAGAACTTCAAGCATGCCCTGGCCTTCACCAATGCCGTCGGCGAGATCGCCGAAGCCGAAGGCCATCACCCCGGCCTGCTCACCGAGTGGGGCAAAGTCACCGTGACCTGGTGGAGCCATTCGATCAAGGGCCTGCACCGCAACGACTTCATCATGGCCGCCCGCACCGATGAAGTGGCCAAGACCGCCGAGGGCCGCAAGTGA	MTALSQAHCEACRADAPKVSDDELAELIRLIPDWNIEVRDGIMQLEKVFLFKNFKHALAFTNAVGEIAEAEGHHPGLLTEWGKVTVTWWSHSIKGLHRNDFIMAARTDEVAKTAEGRK				NA	NA	NA	NA	NA
BMS010_01652	786	phhA	COG3186	Phenylalanine-4-hydroxylase	ATGAAAACCACGCAGTACGTGGCCCGTCAGCCGGACGAGCATGGTTTCATTCACTACCCCGAAGCCGAGCATGCCGTCTGGAACACATTGATCACCCGCCAGTTGAAGGTGATCGAGGGTCGCGCCTGCCAGGAATACCTGGACGGCATCGAGCAGCTCGGCCTGCCGCATGACCGCATTCCCCAGCTCGACGAGATCAACCGTGTGCTTCAGGCCGCCACTGGCTGGCGTGTGGCGCGGGTTCCGGCGCTGATCCCGTTCCAAACTTTCTTCGAACTGCTGGCCAGCCAGCAATTCCCGGTGGCCACCTTCATCCGCACCCCGGAAGAGCTGGACTACCTGCAAGAGCCGGACATCTTCCACGAAATCTTCGGCCACTGCCCGCTGCTGACCAACCCCTGGTTCGCCGAATTCACCCACACCTACGGCAAGCTCGGCCTGAAGGCGACCAAGGAAGAGCGCGTCTTCCTCGCCCGCCTGTACTGGATGACCATCGAGTTCGGCCTGGTCGATACCCCGGCCGGTCGTCGCATCTACGGCGGCGGCATCCTTTCCTCGCCGAAGGAAACCGTCTATTGCCTGTCGAATGACCCCGAGCACCAGCCGTTCGACCCGCTGGAGGCGATGCGCACCCCGTACCGCATCGACATCCTGCAACCGCTGTATTTCGTGCTGCCGGACCTCAAGCGCCTGTTCGACCTGGCCCACGAGGACATCATGGCACTGGTCCACCAGGCCATGGCCCTCGGCCTGCACGCACCGAAATTCCCGCCCAAGGCGGCCTGA	MKTTQYVARQPDEHGFIHYPEAEHAVWNTLITRQLKVIEGRACQEYLDGIEQLGLPHDRIPQLDEINRVLQAATGWRVARVPALIPFQTFFELLASQQFPVATFIRTPEELDYLQEPDIFHEIFGHCPLLTNPWFAEFTHTYGKLGLKATKEERVFLARLYWMTIEFGLVDTPAGRRIYGGGILSSPKETVYCLSNDPEHQPFDPLEAMRTPYRIDILQPLYFVLPDLKRLFDLAHEDIMALVHQAMALGLHAPKFPPKAA	PGPT0020295_1328	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PHENYLALANINE_DEGRADATION,PGPT0020295-phhA-K00500	NA	NA
BMS010_01653	1554	tyrR_1		Transcriptional regulatory protein TyrR	ATGCGCATCAAAGTCCATTGCCAGAACCGCGTCGGCATCCTCCGCGACATCCTCAACCTGCTGGTCGATTACGGCATCAACGTGGCCCGTGGCGAGGTCGGCGGCGAGCAGGGCAACGCCATCTACCTGCATTGCCCGAACCTGATCAATCTCCAGTTCCAGGCCCTGCGCCCGAAGCTGGAAGTCATCCACGGCGTGTTCGGCGTCAAGCGCGTCGGGCTGATGCCCAGCGAGCGCCGCCACCTGGAGCTGAACGCCCTGCTCGGTGCGCTGGATTTCCCCGTGCTGTCCATCGACATGGGCGGCTCCATCGTCGCCGCCAACCGGGCGGCGGCGCAGTTGCTCGGCGTGCGCGTCGACGAGGTGCCGGGCATTCCCTTGTCGCGCTACATCGAGGATTTCGACCTGCCCGAGCTGGTGCGGGCCAACAAGGCGCGGATCAACGGTCTGCGGGTGAAGGTGAAGGGCGACATCTTCCTCGCCGACATCGCCCCGTTGCAGACCGAGCACGACGAGAGCGACGCCCTGGCCGGCGCGGTGCTCACCCTGCACCGGGCGGACCGGGTCGGCGAGCGCATCTACAACGTGCGAAAGCAGGAGCTGCGCGGCTTCGACAGCATCTTCCAGAGCTCGAAGGTGATGGCTGCGGTGGTGCGCGAGGCCCGGCGCATGGCGCCGCTGGACGCGCCGCTGCTGATCGAGGGCGAGACCGGCACCGGCAAGGAATTGCTGGCCCGTGCCTGCCACTTGGCCAGCCCGCGCGGGCAGTCGCCGTTCATGGCGCTGAACTGCGCCGGCCTGCCGGAATCCATGGCCGAGACCGAGCTGTTCGGCTACGGCCCCGGTGCCTTCGAAGGGGCGCGCCCGGAAGGCAAGCTCGGCCTGCTCGAACTCACCGCCGGCGGCACGCTGTTCCTCGACGGGGTCGGCGAAATGAGCCCGCGCCTCCAGGCCAAGCTGTTGCGCTTTTTGCAGGACGGCTGTTTCCGCCGGGTCGGCAGCGACGAGGAGGTCTATCTCGACGTGCGGGTGATCTGCGCCACCCAGCAGGACCTCTCCGAACTCTGTGCCCGCGGCGAATTCCGCCAGGACCTCTACCACCGCCTCAACGTGCTCAGCCTGCACATCCCGCCGTTGCGCGAGTGTCTCGACGGCCTGGCACCGCTGGTGGAGCACTTCCTCGACCAGGCCAGCCGGCAGATCGGCTGCCCGCTGCCGAAGCTGGCGCCGCCGGCGTTCGAGCGGCTCAGCCACTACCACTGGCCGGGCAACGTGCGGCAACTGGAGAACGTATTGTTCCAGGCGGTCTCGCTGTGCGAGGGCGGCACGGTGAAGCCCGAGCACATCCGGCTGCCGGACTACGGCGCACCGCAGCCGCTGGGTGAGTTTTCCACCGAGGGCAGCCTGGACGACATCCTCGGTCGCTTCGAGAAGGCCGTGCTGGAGCGCCTTTACGCCGAGCACCCGAGCAGCCGCCAACTGGGCAAGCGCCTGGGCGTGTCGCACACCACCATCGCCAACAAGCTGCGTCAGCATGGTCTTGGTAAGGAATAG	MRIKVHCQNRVGILRDILNLLVDYGINVARGEVGGEQGNAIYLHCPNLINLQFQALRPKLEVIHGVFGVKRVGLMPSERRHLELNALLGALDFPVLSIDMGGSIVAANRAAAQLLGVRVDEVPGIPLSRYIEDFDLPELVRANKARINGLRVKVKGDIFLADIAPLQTEHDESDALAGAVLTLHRADRVGERIYNVRKQELRGFDSIFQSSKVMAAVVREARRMAPLDAPLLIEGETGTGKELLARACHLASPRGQSPFMALNCAGLPESMAETELFGYGPGAFEGARPEGKLGLLELTAGGTLFLDGVGEMSPRLQAKLLRFLQDGCFRRVGSDEEVYLDVRVICATQQDLSELCARGEFRQDLYHRLNVLSLHIPPLRECLDGLAPLVEHFLDQASRQIGCPLPKLAPPAFERLSHYHWPGNVRQLENVLFQAVSLCEGGTVKPEHIRLPDYGAPQPLGEFSTEGSLDDILGRFEKAVLERLYAEHPSSRQLGKRLGVSHTTIANKLRQHGLGKE				NA	NA	NA	NA	NA
BMS010_01654	900	gltC_1		HTH-type transcriptional regulator GltC	GTGCACTTCGATCTGGCCGACCTGCGCCTGTTCATCCACATTGCCGAAGCACCGAGCCTGACCCAGGGCGCCCGCCGCGCCTTTCTCTCCCCGGCCGCCGCCAGCGCGCGGATCAAGGCCCTCGAAGGCCAGCTCGGCTCGCGCCTGCTGTACCGCGACAACCGCGGCGTCGAGCTGACCCCGGCCGGCCAGCGGCTGCTGCAACACGCCCGGCTGATCATGCGCCAGGTGGATTACCTGAAGAGCGAGTTCACCGACTACGGCGCCGAGGCGGCCGGGCACATCCGCATCTTCGCCAACACCACGGCGGTCACCGAATTCCTCCCCGAGGTCCTAGCCGGCTTTCTCGCCGACCGCCCCGGCGTCACGGTGGACCTGCAGGAGCGGTTGTCGCGTGACATCGTGCGCGGCGTGCTGGATGGCTCCACCGACCTCGGCATCATTGCCGGGCCGGTGCAGGCGCCCGGCCTGCAAGTGCTGCACTTCAGCACCGACCGGCTGGTACTGGCGGTCCCCGTCGGCCATGAACTGGCCGCCCGCGAACGGGTGAAGCTGCACGACACCCTCGCCTTCCAGCACATCGGCCTGCATGAAGGCAGCACCCTGCTCAGCTTCCTGCGCGAACGGGTGGAGCACCTGGGCGAGCAACTGTCGCTGCGCATCCAGGTTTCGAGTTTCGAAGCGGTGTGCCGGATGATCGAGGCCGGCGTGGGCATCGGCATCATCCCGGAATCGGCGGCGCGCCGGCATAGCAGGACCATGCGCCTGGCGGTGGTGGAACTGGACGAGCCTTGGGCGGTGCGCGAACGCAGCATCCTGGTCCGCGAACTGGAGGCGTTGCCGGGCAGCATCCGCGCGCTGATCGCCACCCTGCGCCAGGAGCCCGACCCGGCCCGTTGA	MHFDLADLRLFIHIAEAPSLTQGARRAFLSPAAASARIKALEGQLGSRLLYRDNRGVELTPAGQRLLQHARLIMRQVDYLKSEFTDYGAEAAGHIRIFANTTAVTEFLPEVLAGFLADRPGVTVDLQERLSRDIVRGVLDGSTDLGIIAGPVQAPGLQVLHFSTDRLVLAVPVGHELAARERVKLHDTLAFQHIGLHEGSTLLSFLRERVEHLGEQLSLRIQVSSFEAVCRMIEAGVGIGIIPESAARRHSRTMRLAVVELDEPWAVRERSILVRELEALPGSIRALIATLRQEPDPAR				NA	NA	NA	NA	NA
BMS010_01655	828	meh	COG3777	Mesaconyl-C(4)-CoA hydratase	ATGAGCGACGCTGCGTTCTCCGCCTGGATCGGGCGCACCGAGGAAACCCACGACACGCTGAGCGGTACCTTGCTCGAGCGCATCGCCGCCACCTTCGGCGAGCCGACCCCGGCACCCGGCGAGGCGCTGCCGCCGTTGTGGCACTGGTGCTTCTTCCAGGAGGCCGTGGCCGAGAGCGGCCTGGGCGGCGACGGCCACCCGGCGCGCGGCGGTTTCCTGCCGCCGGCCGAGGGACGCAACCGGATGTGGGCCGGGGGGCGTTTCGAGTTTTTCGAACCGCTGCGGGCCGGGAGCGAGGCCAGCCGCGTGACCAGCATCCTCAACGTCGAGGAAAAGCACGGGCGGACCGGTGCGCTGCTGTTCGTCACCCTGCGTCACGACTACTTCCAGGGTGGCCGGCTGGCTCTGCGCGAGGAGCAGGACATCGTCTACCGCGAGCCCAGTCCGCCGAAGACCTCCAGCGGCGAACCCCTGGTCGCCGGCGACTGGCGCGAGGCGGTGACGCCCAGTTCGACGCTGTTGTTCCGTTATTCGGCGGTGACCTTCAACGGCCATCGCATCCATTACGACTGGCCCTACGCCACCGAGGGCGAGGGCTACGCCGGGCTGGTGGTGCATGGCCCGCTGATCGCCACCCTCAAGCTGCGTGCCTTCTGCCGCGCCAATCCGCAAGCGCGCCTGCGCCACTTCGTCTATCGCGGCCTGCGCCCGCTGATCGCGCCGCAGCCGTTTGAGGTGGGCGGCCGAATCGTCGCCCCCGGCCGCGCCGAGCTGTGGGCCGGCGACCAGGCGGGCCTGGCGCAGCGGGCGGAGGTGGAATTCGAGTGA	MSDAAFSAWIGRTEETHDTLSGTLLERIAATFGEPTPAPGEALPPLWHWCFFQEAVAESGLGGDGHPARGGFLPPAEGRNRMWAGGRFEFFEPLRAGSEASRVTSILNVEEKHGRTGALLFVTLRHDYFQGGRLALREEQDIVYREPSPPKTSSGEPLVAGDWREAVTPSSTLLFRYSAVTFNGHRIHYDWPYATEGEGYAGLVVHGPLIATLKLRAFCRANPQARLRHFVYRGLRPLIAPQPFEVGGRIVAPGRAELWAGDQAGLAQRAEVEFE				NA	NA	NA	NA	NA
BMS010_01656	1182		COG1960	Cyclohex-1-ene-1-carbonyl-CoA dehydrogenase	ATGAAGACGAATCACAACTACCAAGACGCCAGCCACGAAGAACTCAACGCCATCCGCGAAGGCGTGCGCGCCCTCTGTGCGGAATTCCCCGCCGATTACTGGCGCAAGGTCGACGAGCAGAAGGGTTTCCCCGAAGCCTTCATCGAAGCGCTGACCCGTGCCGGCTGGCTGGCGGCGATGATCCCGGCCGAGTACGGCGGCTCCGGCCTGGGCCTGGCGGAGGCTTCGGTGATCCTCGAGGAGGTCAACCGCTGCGGCGGCAATTCCGGCACCGTGCACGGCCAGATGTACAACATGTTCACCCTGTTGCGGAATGGCAGCGAGGCGCAGAAGAGCGAGTACCTGCCGAAGATCGCCGCCGGCGAGCTGCGCCTGCAATCCATGGGTGTCACCGAGCCCACCACCGGCACCGACACCACCCGGATCAAGACCACGGCAGTGAAGAAGGGCGACCGCTACGTCATCAACGGCCAGAAAGTATGGATCTCGCGCATCCAGCATTCCGACCTGATGATCCTGCTGGCGCGCACCACGCCGCTGGCCGAGGTGAAGAAGAAGTCCGAGGGCATGTCGATCTTCCTCGTCGACCTGCGCGAGGCCATCGGCAACGGCCTGACCGTCCAGCCCATCGCCAACATGGTCAACCATGAGACCAACGAGCTGTTCTTCGACAACCTGGAGCTGCCGGCCGAGAGCCTGATCGGCGAGGAGGGCAAGGGTTTTCGCTACATCCTCGACGGCCTCAACGCCGAGCGTACCCTGATCGCCGCCGAGTGCATTGGCGACGGCCGCTGGTTCGTCGACAAGGCCAGTCAGTACGCCCGCGACCGTGTGGTATTCGGCCGGCCTATCGGGCAGAACCAGGGTGTGCAGTTCCCCATCGCCGAGGCGCACATCGAGATCGAGGCGGCCGATCTGATGCGCTGGCGCGCCTGCCGCGAGTACGACGCTGGGCTGAATGCCGGAGCCAGCGCCAACATGGCCAAGTACCTGGCGGCCAAGGCCTCCTGGGAGGCGGCCAACGCCTGCCTGCAGACCCACGGCGGCTTCGGCTTCGCCTGCGAGTACGACGTCGAGCGCAAGTTCCGCGAGACGCGCCTGTACCAGGTGGCGCCCATCTCCACCAACCTGATCCTGTCCTACGTGGCCGAGCACCAGCTCGATCTGCCGCGCAGCTTCTGA	MKTNHNYQDASHEELNAIREGVRALCAEFPADYWRKVDEQKGFPEAFIEALTRAGWLAAMIPAEYGGSGLGLAEASVILEEVNRCGGNSGTVHGQMYNMFTLLRNGSEAQKSEYLPKIAAGELRLQSMGVTEPTTGTDTTRIKTTAVKKGDRYVINGQKVWISRIQHSDLMILLARTTPLAEVKKKSEGMSIFLVDLREAIGNGLTVQPIANMVNHETNELFFDNLELPAESLIGEEGKGFRYILDGLNAERTLIAAECIGDGRWFVDKASQYARDRVVFGRPIGQNQGVQFPIAEAHIEIEAADLMRWRACREYDAGLNAGASANMAKYLAAKASWEAANACLQTHGGFGFACEYDVERKFRETRLYQVAPISTNLILSYVAEHQLDLPRSF	PGPT0008385_5138	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008385-acd-K00249	NA	NA
BMS010_01657	1347			hypothetical protein	ATGTCCCAGACGAACACCTTGGCCGCCTTCCTCGCCGCACTCCGCTACGACGACCTGCCCGAAGACGTGGTGGCCTACACCGAGGAACTGTTCCTCGACTGGCTCGGTTCGGCCCTGGCCGCCCGTGGCCAGCAGCCGATCCCGCTGTTCGAGCGCTATGCCGAGCGCATGGGGCCGGCCGATGGCGCGGCGCGCATCCTGGTCAGCGGGCGCGGCACTTCGGCGTACTTCGCCGCCCTGGTCAACGCCGCCAGCTCGCATCTGCTGGAGCAGGACGACCTGCACAACAGCTCAGTGCTGCACCCGGCCACGGTGGTGTTCCCGGCCGTGCTGGCCGCCGCGCAGGACCTGGGCAAGTCCGGCCGCGAGTTGATCCTGGCGGCGGTGGCCGGCTACGAGGCGGGCATCCGCATCGGCGAGTTCCTCGGCCGCTCGCACTACCGCATCTTCCACACCACGGCGACCGTGGGCACCCTGGCCGCCGCCGTCGCAGTGGGCAAGCTGATGGACTTCGACGCGGCGCGCATGCTGCACCTGCTGGGCAGCGCCGGTACCCAGGCCGCCGGGCTCTGGCAGTTCCTTCGCGACGCCGCCGACTCCAAGCAGCTGCACACCGCCAAGGCTGCCGCCGATGGCCTGCTCGCCGCCTACCTGACGGCGGACGGGCTGACCGGCGCCCAGGACATTCTCGAAGGCGAGCAGGGCATGGCGGCCGGCATGTCCAGCGATGCCGCCCCGAGCCGATTGGCCGACCGCCTCGGCCAACGCTGGGCGATCCTGGAAACCTCCTTCAAATACCACGCCTCCTGCCGCCACACCCACCCGGCCGCCGATGCGCTGCTTGACCTGATGTGGCGAGAGGGGCTGGAGGCCGAGGCCATTTCTGCCGTCACCGCTCATGTCCACCAGGGCGCGCTCGACGTGCTCGGCCGGGTGACGGTGCCGCAGAGCGTGCACCAGGCGAAGTTCTCCATGGGCACCGTGCTCGGCCTGATCGCGGTGCATGGCAAGGCCGGGCTCGCCGAGTTCCAGCGCTTCGCCCTGGGCGACCCCCGGGTGGCGGCGTTCCGCGACAAGGTGCGGATGGTCCTCGACCCTGAGGTGGACCGCGCCTATCCGCGGCATTGGCTGGGCCGTGTCGAGGTGGTCACCGTCGACGGCCGCACCCTGCGCGGGGCCATCGACACGCCCAAGGGCGACCCGGACAACGGCCTGTCGCGCCTGGAGCTGGAAGACAAATTCCGCCGCCTGCTGGCCTTCGGCGGCTACCCCGCGGACGACGCCGGCGTGCTGATCGAGCGGGTCTGGCGCCTGCGTGGAACCGATGATCTGGACAATCTGGTCTGA	MSQTNTLAAFLAALRYDDLPEDVVAYTEELFLDWLGSALAARGQQPIPLFERYAERMGPADGAARILVSGRGTSAYFAALVNAASSHLLEQDDLHNSSVLHPATVVFPAVLAAAQDLGKSGRELILAAVAGYEAGIRIGEFLGRSHYRIFHTTATVGTLAAAVAVGKLMDFDAARMLHLLGSAGTQAAGLWQFLRDAADSKQLHTAKAAADGLLAAYLTADGLTGAQDILEGEQGMAAGMSSDAAPSRLADRLGQRWAILETSFKYHASCRHTHPAADALLDLMWREGLEAEAISAVTAHVHQGALDVLGRVTVPQSVHQAKFSMGTVLGLIAVHGKAGLAEFQRFALGDPRVAAFRDKVRMVLDPEVDRAYPRHWLGRVEVVTVDGRTLRGAIDTPKGDPDNGLSRLELEDKFRRLLAFGGYPADDAGVLIERVWRLRGTDDLDNLV				NA	NA	NA	NA	NA
BMS010_01658	1209	yfdE_2	COG1804	Acetyl-CoA:oxalate CoA-transferase	ATGAAAAGAATGAATGCAAGCGAACAACGCCCCCTCGACGGCATCACCGTGGTCAGCCTGGAACATGCCATCGCCGCGCCGTTCTGCACCCGCCAACTGGCCGACCTCGGCGCGCGGGTGATCAAGGTGGAGCGCCCCGGTTCCGGCGATTTCGCCCGTGGCTACGACGAGCGGGTGAGGGGGCTGGCCTCCCATTTCGTCTGGACCAACCGTTCCAAGGAAAGCCTGACCCTCGATCTCAAGCGCGCCGAAGCCATGGCGGTGCTGGAGCGGCTGCTCGGCGAGGCCGACGTGCTGGTGCAGAACCTCGCACCCGGCGCGGCGGCGCGCATGGGGCTGTCCTTCGAGGCCCTGCATGAGCGCTTTCCGCGACTGATCGTCTGCGACATTTCCGGCTACGGCGAAGGCGGCCCGTACGAGCAGAAGAAGGCCTACGACCTGCTGATCCAGAGCGAGGGCGGCTTCCTCTCCGTGACCGGCGGCCCCGGCGAGGACGAGATGGCCAAGGCCGGCTGCTCCATCGCCGACATCGCCTCCGGCATGTACGCCTACACCGGCGTGCTCTCCGCGCTGATGCTGCGGGAGAAAACCGGGCAGGGCAGCCGGGTGGACGTGTCCATGCTGGAAAGCCTGGTGGAGTGGATGGGCTACCCGCTGTACTACGCCTTCGACGGCGCACCGCCTCCACCGCGTGCCGGCGCCGCCCACGCCACGATCTATCCCTACGGGCCATTCCCCACCGGCGACGGCGGCACCGTGATGCTCGGCCTGCAGAACGAGCGCGAGTGGCACCTGTTCTGCGAGAAGGTCCTGTTGCGGCCGGAACTGGCTGGCGACGAGCGCTTCTCCGCCAATTTCAAGCGTTCGGCCAATCGCGAGGCGTTGCGGGCGCTGATCGTCGAGACCTTCGCCGGGCTCAGCGCCGAGCAGGTGATCGAACGCCTGGAGGCCGCGCAGATCGCCAACGCTCATGTGAATGACATGGCTGGTGTCTGGGCGCATCCCCAGTTGCAGGCACGCGACTGCTGGCGCGAGGTGGACAGCCCGTCCGGCCCCTTGCCTGCGCTGCTGCCACCGGGACGCAACAACGCCTTCGCCCCGCGCATGGACCCGGTACCGGCGCTGGGCCAACACACCGAATCCCTGCTCGCCGAACTGGGCTTCGCCGAGGGCGACATCCGGCAATTGCGCGAGGCCGGTGCGGTGTAG	MKRMNASEQRPLDGITVVSLEHAIAAPFCTRQLADLGARVIKVERPGSGDFARGYDERVRGLASHFVWTNRSKESLTLDLKRAEAMAVLERLLGEADVLVQNLAPGAAARMGLSFEALHERFPRLIVCDISGYGEGGPYEQKKAYDLLIQSEGGFLSVTGGPGEDEMAKAGCSIADIASGMYAYTGVLSALMLREKTGQGSRVDVSMLESLVEWMGYPLYYAFDGAPPPPRAGAAHATIYPYGPFPTGDGGTVMLGLQNEREWHLFCEKVLLRPELAGDERFSANFKRSANREALRALIVETFAGLSAEQVIERLEAAQIANAHVNDMAGVWAHPQLQARDCWREVDSPSGPLPALLPPGRNNAFAPRMDPVPALGQHTESLLAELGFAEGDIRQLREAGAV	PGPT0002130_657	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0002130-frc|yfdW-K07749	NA	NA
BMS010_01659	828	citE	COG2301	Citrate lyase subunit beta-like protein	ATGAACACCACGCTTATCCGCTCCGCGCTGTTCGTCCCGGCGACCCGGCCGGAGCGTATTCCGAAGGCCCTGGCCAGCGGTGCCGACGCGGTCATCGTCGACCTTGAGGACGCCGTACCGGAGGCGCAGAAGGTCGAGGCGCGTGCCCATCTGGATGCGTTCCTCGCCGCCAATCCCGATGCTCGCGTACGGGTGCGGATCAATGCACCGGGCCACCCCGGCCAGGCCGCCGACCTTGAGCTGTGCCGGCGCCATTCCGGTGTGGTTGGCGTGCTCTTGCCCAAGGTGGAAAGCGCCGCCCAGGTGGCCGAGGTGTCGGCCTGCGGCAAGCCGGTCTGGCCGCTGGTGGAAAGCGCGGCGGGGTTGCTGGCGCTGGAGGGGATCGCCCGGGCCGGGGGCGTCGAGCGGCTGTCCTTCGGCGGCCTCGACCTCGGCCTCGACCTGGGACTCTCCAGCGGCAGCGCGGCTGCCGAACGCATCCTCGACCAGGCCCGCTACGCGCTGCTCCTGCACAGCCGCATGGCCGGGCTGGCGGCGCCGCTGGACACCGTGTTCCCCGCCATCGCCGACCGCGACGGGCTCGCCGAGGCCGCGCAAAGGGCCCGCGATATGGGCTTCGGCGGATTGCTGTGCATTCACCCGGGCCAGGTCACGGTGGTCCACGAAGCGCTGATGCCCAGCGCCGAGGAGCTGGCCTGGGCACGCCGGATCATGGCCGCGAACGCCTCGGGTGACGGGGTTTTCGTGGTCGATGGGCAGATGGTCGACGCGCCGGTGATCGGCCGCGCCCGCCGCCTGCTGCAACGCGCCGGGCTTGATCCGGCATAG	MNTTLIRSALFVPATRPERIPKALASGADAVIVDLEDAVPEAQKVEARAHLDAFLAANPDARVRVRINAPGHPGQAADLELCRRHSGVVGVLLPKVESAAQVAEVSACGKPVWPLVESAAGLLALEGIARAGGVERLSFGGLDLGLDLGLSSGSAAAERILDQARYALLLHSRMAGLAAPLDTVFPAIADRDGLAEAAQRARDMGFGGLLCIHPGQVTVVHEALMPSAEELAWARRIMAANASGDGVFVVDGQMVDAPVIGRARRLLQRAGLDPA	PGPT0019480_2982	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_CITRATE_SENSING|UTILIZATION,PGPT0019480-citE-K01644	NA	NA
BMS010_01660	1005	dctP_1	COG1638	C4-dicarboxylate-binding periplasmic protein DctP	ATGCTGAAGTCGATGTCCCGCGCGCTCCTGTGCGCGCTCTCGCTGTCCCTCGCCGGGCTGTCCCAAGCCGGGGTCGAGCCGGGCGCCCCGATCGTCATCAAGTTCTCCCACGTGGTCGCTGACAACACCCCGAAAGGGCAGGGCGCGCTGCTGTTCAAGAAGCTCGCCGAAGAGCGCCTGCCGGGCCGGGTGCAGGTGGAGGTCTATCCGAATTCCCAACTGTTCGGCGACGGCAAGGAGATGGAGGCGCTGCTGCTCGGCGACGTGCACCTGCTGGCGCCGTCGCTGGCCAAGTTCGAGCAGTACGCCAAGCCGATCCAGTTGTTCGACCTGCCGTTCCTGTTCGATGACCTGGGCGCCGTCGATCGCTTCCAGAAGGGCCCGCAGGGCAAGGCGCTGCTCAAGGCCATGGAGGACAAGAACATTCTCGGCCTGGCCTATTGGCACAACGGCATGCGCCAGCTTTCCGCGAACAAGCCGCTGCGCGAGCCGAAGGATGCGCGTGGCCTGAAGTTCCGCGTGCAGGCGTCGCGGGTGCTGGAGGAGCAGTTCAAGGCGGTGCGCGCCAACCCGCGCAAGATGAGTTTCGCCGAGGTCTACCAGGGCCTGCAGACCGGGGTGGTCAACGGTACCGAGAACACTTGGTCGAACTACGAGAGCCAGAAGGTCCATGAGGTGCAGAAGTACCTCACCGAGTCCGACCATGGCGTCATCGACTACATGCTGATCACCAACGCGACCTTCTGGAACGGCCTGCCGGCCGACGTGCGCGACGAGCTGGAGAAGGTCGTCGACGAAGTGACCGTCGAGGTGAACCGCCAGGCCGAGGCGCTCAACCAGGAGGCCCGCGCGCGCATCGCCGCCGCCGGCACCAGCGAAATCCTCGTGCTTACCCCGGCGCAACGTGCCGAATGGCGCGAGGCGATGAAGCCGGTGTGGCAGAAGTTCGAGGGCGAGATCGGCCGCGATCTGATCGAGGCGGCACAGGCGGCCAACCGGCCCTGA	MLKSMSRALLCALSLSLAGLSQAGVEPGAPIVIKFSHVVADNTPKGQGALLFKKLAEERLPGRVQVEVYPNSQLFGDGKEMEALLLGDVHLLAPSLAKFEQYAKPIQLFDLPFLFDDLGAVDRFQKGPQGKALLKAMEDKNILGLAYWHNGMRQLSANKPLREPKDARGLKFRVQASRVLEEQFKAVRANPRKMSFAEVYQGLQTGVVNGTENTWSNYESQKVHEVQKYLTESDHGVIDYMLITNATFWNGLPADVRDELEKVVDEVTVEVNRQAEALNQEARARIAAAGTSEILVLTPAQRAEWREAMKPVWQKFEGEIGRDLIEAAQAANRP	PGPT0017325_841	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017325-dctP-K11688	NA	NA
BMS010_01661	1962	acs_1	COG0365	Acetyl-coenzyme A synthetase	ATGAGCGCTGCTTCCCTCTATCCCGTGCGTCCCGAGGTCGCCGCCCGGTCGCTGACCGACGAGGCCACCTACAAGGCCATGTATCAGCAGTCGGTGATCAACCCCGATGGCTTCTGGCGCGAGCAGGCGAAGCGTCTGGACTGGATCAAGCCTTTCACCAAGGTGAAGCAGACCTCCTTCGACGACCACCACGTGGATATCAAGTGGTTCGCCGACGGCACACTGAACGTCTCCTACAACTGCCTCGACCGTCACCTGGAAGAGCGTGGCGACCAGGTGGCGATCATCTGGGAAGGCGACGACCCGTCCGAGCACAAGCTCATTACCTACCGCGAACTGCACGAGCAGGTCTGCAAGTTCGCCAACGCCCTGCGCGGCCAGGACGTGCACCGTGGCGACGTAGTGACCATCTACATGCCGATGATCCCCGAAGCGGTGGTGGCCATGCTGGCCTGTGCGCGCATCGGCGCCATCCACTCCGTGGTATTCGGCGGCTTCTCGCCGGAAGCCCTGGCCGGTCGCATCATCGACTGCCGCTCGAAGGTGGTGATCACCGCCGACGAAGGCGTGCGCGGCGGCAAGAAGACCCCGCTGAAGGAAAACGTCGACGAGGCGCTGACCAACCCGGAAACTGCCAGCGTGCAGAAGATCATCGTGGTCAAGCGCACCGGTGGGAACATCAAGTGGCACGGCCATCGCGACATCTGGTACGAAGACCTGATGAAGGTCGCCGGCAGCGTCTGCGCGCCGAAGGAAATGGGCGCCGAGGAAGCGCTGTTCATCCTCTACACCTCCGGCTCCACCGGTAAGCCGAAGGGCGTGCTGCACACCTCCGCCGGCTACCTGCTGTACGCCTCCCTGACCCATGAGCGGGTGTTCGACTACCGCCCGGGCGAGGTCTACTGGTGCACCGCCGACGTGGGCTGGGTCACCGGCCACAGCTACATCGTCTACGGCCCGCTGGCCAACGGTGCGACCACCGTGCTGTTCGAAGGCGTGCCGAACTACCCGGATGTCACCCGCGTGGCCAAGGTGGTCGACAAGCACAAGGTCAACATCCTCTACACCGCACCGACCGCGATCCGCGCCATGATGGCCCAGGGCAAGGCAGCGGTGGAGGGCGCCGATGGCTCCAGCCTGCGCCTGCTCGGTTCGGTCGGCGAGCCGATCAACCCCGAAGCCTGGCAGTGGTACTACGAGACCGTCGGCCAGAGCCGCTGCCCGATCGTCGATACCTGGTGGCAGACCGAGACCGGCGGCGTCCTGATCAGCCCGCTGCCCGGCGCCACCGCGCTCAAGCCGGGCTCGGCGACCCGTCCGTTCTTCGGTGTGCAGCCGGCCCTGGTGGACAACCTGGGCAACCTGCTGGAAGGCGCCACCGAGGGCAACCTGGTGATCATCGACTCCTGGCCGGGCCAGGCGCGTACCCTGTACGGCGACCATGACCGCTTCGTCGATACCTACTTCAAGACCTTCAAGGGCATGTACTTCACCGGCGACGGCGCGCGCCGCGACGAGGACGGCTACTACTGGATCACCGGTCGCGTCGACGACGTGCTGAACGTCTCCGGCCACCGCATGGGCACCGCCGAGATCGAAAGCGCCATGGTCGCCCACCCGAAAGTGGCCGAGGCCGCGGTGGTCGGCATGCCGCACGACATCAAGGGGCAGGGCATCTATGTCTACGTCACCCTGAACGCCGGTGAAGAGCCTTCCGAGGCCCTGCGTCTGGAGCTGAAACAGTGGGTCCGCAAGGAAATCGGCCCGATCGCCACGCCGGACGTGATCCAGTGGGCGCCGGGCCTGCCGAAGACCCGCTCGGGCAAGATCATGCGCCGCATCCTGCGCAAGATCGCGGTTGCCGAATACGACTCCCTCGGCGACATCTCCACCCTGGCCGATCCCAGTGTGGTGCAGCACCTCATCGATACGCATCGCAGCATGCAGGCCGCCTGCGCCTGA	MSAASLYPVRPEVAARSLTDEATYKAMYQQSVINPDGFWREQAKRLDWIKPFTKVKQTSFDDHHVDIKWFADGTLNVSYNCLDRHLEERGDQVAIIWEGDDPSEHKLITYRELHEQVCKFANALRGQDVHRGDVVTIYMPMIPEAVVAMLACARIGAIHSVVFGGFSPEALAGRIIDCRSKVVITADEGVRGGKKTPLKENVDEALTNPETASVQKIIVVKRTGGNIKWHGHRDIWYEDLMKVAGSVCAPKEMGAEEALFILYTSGSTGKPKGVLHTSAGYLLYASLTHERVFDYRPGEVYWCTADVGWVTGHSYIVYGPLANGATTVLFEGVPNYPDVTRVAKVVDKHKVNILYTAPTAIRAMMAQGKAAVEGADGSSLRLLGSVGEPINPEAWQWYYETVGQSRCPIVDTWWQTETGGVLISPLPGATALKPGSATRPFFGVQPALVDNLGNLLEGATEGNLVIIDSWPGQARTLYGDHDRFVDTYFKTFKGMYFTGDGARRDEDGYYWITGRVDDVLNVSGHRMGTAEIESAMVAHPKVAEAAVVGMPHDIKGQGIYVYVTLNAGEEPSEALRLELKQWVRKEIGPIATPDVIQWAPGLPKTRSGKIMRRILRKIAVAEYDSLGDISTLADPSVVQHLIDTHRSMQAACA	PGPT0002265_2565	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895	NA	NA
BMS010_01662	774	argT_2	COG0834	Lysine/arginine/ornithine-binding periplasmic protein	ATGAAAAAGATCGTACTTCTCGGCGCCATGGCGCTGTCCGTGCTGTCGCCGCTGGCGATGGCGGAAAAGCCCCTGCGCATCGGCATCGAAGCGGCCTACCCGCCCTTCGCCTACAAGACTCCCGAAGGCAAGATCACCGGCTTCGACTACGACATCGGCAATGCGCTCTGCGAAGAGATGAAAGTGGAGTGCAAATGGATCGAGCAGGAATTCGACGGCCTGATCCCGGCGCTGAAGGTGCGCAAGTTCGACGCGGTGCTGTCGTCCATGTCGATCACCGACGAGCGCCGCAAGTCGGTGGATTTCACCGGCAAGTACTACCACACCCCCGCCAAACTGGCGATGAAGGCCGGTACCGAGATCAAGGACCCGCTGGTCGACCTGAAGGGCAAGAAGGTCGGCGTGCAGCGTGCCTCCATCTATGACCGCTACGCCACCGACGTCTACGTGCCGGCCGGTATCGAAGTGGTCCGCTACAGCTCGCAGAACGAAATCTTCCTCGACCTCGCTGCCGGCCGCCTCGATGCGACCCTGGCCGACGTGGTGAACATCGACGACGGTTTCCTCAAGACCGACGCGGGCAAGGGCTTCGCCCTGGTCGGCCCGGACTACACCGACACGAAGTATTTCGGCGAAGGCGCCGGTATCGCCGTACGCAAGGGCGACAAGGCCCTTGCCGACAAGATCACCGCGGCCATCGCGGCGATCCGTGCCAACGGCAAGTACAAGGAAGTGCAGGACAAGTACTTCGACTTCAACGTCTACGGCGAGTAA	MKKIVLLGAMALSVLSPLAMAEKPLRIGIEAAYPPFAYKTPEGKITGFDYDIGNALCEEMKVECKWIEQEFDGLIPALKVRKFDAVLSSMSITDERRKSVDFTGKYYHTPAKLAMKAGTEIKDPLVDLKGKKVGVQRASIYDRYATDVYVPAGIEVVRYSSQNEIFLDLAAGRLDATLADVVNIDDGFLKTDAGKGFALVGPDYTDTKYFGEGAGIAVRKGDKALADKITAAIAAIRANGKYKEVQDKYFDFNVYGE	PGPT0020680_302	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ARGININE_TRANSPORT,PGPT0020680-aotJ-K10022	NA	NA
BMS010_01663	690	hisQ_2	COG4215	Histidine transport system permease protein HisQ	ATGCTGAACGGCTATGGGTCGACCATCGTCGACGGTGCCTGGCTCACCCTGTTGTTAGCCCTGACTTCCATGGCGGTGGCCATCCTGCTCGGCCTGCTGGGCGCGGCCTTCCGTCTTTCGCCGATCAAGTGGCTGGCGCTGCTCGGCGATGCCTATGCCACGGTGATCCGCGGCATCCCGGACCTGGTGCTGATCCTGCTGATCTTCTACGGCGGCCAGGACATCGTGAACCGCGTAGCGCCGATGCTGGGTTACGAGGACTACATCGAGATCGATGCCTTCGCCGCCGGTGTCGGCACCCTCGGCTTCATCTTCGGCGCCTACCTCTCCGAGACGTTCCGTGGCGCCTTCATGGCGATCCCGAAAGGGCAGGGCGAGGCGGGCGCCGCCTACGGCATGAGCGGGGTCCAGGTGTTCTTCCGCATCCTGGTGCCGCAGATGATCCGCTTCGCCATTCCCGGCTTCACCAACAACTGGCTGGTGCTGACCAAGGCCACCGCGCTGATCTCGGTGGTCGGCCTGCAGGACATGATGTTCAAGGCCAAGAGCGCGGCGGATGCCACCCGCGAACCCTTCACCTTCTACCTGGCCGTGGCGGCTCTCTACCTGGTGCTGACCAGCGTTTCCCTGCTGGCCCTGCGCTTCCTGGAGAAACGCTACAGCGTTGGCGTCAAGGCGGCTGAACTATGA	MLNGYGSTIVDGAWLTLLLALTSMAVAILLGLLGAAFRLSPIKWLALLGDAYATVIRGIPDLVLILLIFYGGQDIVNRVAPMLGYEDYIEIDAFAAGVGTLGFIFGAYLSETFRGAFMAIPKGQGEAGAAYGMSGVQVFFRILVPQMIRFAIPGFTNNWLVLTKATALISVVGLQDMMFKAKSAADATREPFTFYLAVAALYLVLTSVSLLALRFLEKRYSVGVKAAEL	PGPT0020690_249	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ARGININE_TRANSPORT,PGPT0020690-aotQ-K10024	NA	NA
BMS010_01664	699	occM_2		Octopine transport system permease protein OccM	ATGATCCTCGATTTCTCCGTGATCTGGGAAAACCTGCCGCTGTACTTCAACGGCGTGCTGGTCACCCTCAAGCTCCTGCTGATTTCCCTGGCCGTGGGCCTGACCGTGGCGGTACCGCTGGCGCTGATGCGGGTCTCCCGCCAGCCGGCGGTGAACTTCCCGGCCTGGCTCTACACCTACGTCATTCGCGGCACGCCGATGCTGGTGCAGTTGTTCCTGATCTACTACGGACTGGCGCAGTTCGCGGTGGTGCGCGAGAGCTTCCTCTGGCCGTATTTCTCCAACGCGACCTTCTGCGCCTGCCTGGCCTTCGCCATCAACACCAGCGCCTATACCGCGGAAATCCTCGCCGGCAGCCTCAAGGCCACACCCCATGGCGAGATCGAAGCGGCCAAGGCGGTGGGCATGTCGCGCTTCAAGCTGTACCGCCGCATCCTCCTGCCGTCCGCGTTGCGCCGTGCGCTGCCGCAGTACAGCAACGAGGTGATCATGATGCTGCACACCACCAGCCTGGCGTCCATCGTCACCCTGATCGATATCACCGGCGCGGCGCGTACCGTCAGCTCGCAGTACTACCTGCCGTTCGAGGCCTACATCACCGCGGGTGTCTTCTATCTGTGCCTGACCTTCGTGCTGGTGCGCCTGTTCAAGCGCGCCGAACGCCGCTGGCTCGGCTACATGGCGCCGCGCAAAGCCTGA	MILDFSVIWENLPLYFNGVLVTLKLLLISLAVGLTVAVPLALMRVSRQPAVNFPAWLYTYVIRGTPMLVQLFLIYYGLAQFAVVRESFLWPYFSNATFCACLAFAINTSAYTAEILAGSLKATPHGEIEAAKAVGMSRFKLYRRILLPSALRRALPQYSNEVIMMLHTTSLASIVTLIDITGAARTVSSQYYLPFEAYITAGVFYLCLTFVLVRLFKRAERRWLGYMAPRKA	PGPT0020685_198	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ARGININE_TRANSPORT,PGPT0020685-aotM-K10023	NA	NA
BMS010_01665	1113			hypothetical protein	ATGCAACGCATCGATCATTGCCTGCCCTGGATGACCCTGGGCAGCGAGCGCCGTCTCAGCGTGTTCCGCTACGGCCAGGGCGAGCGCAAGGCCTACATCCAGGCCAGCCTGCACGCCGACGAGCTGCCGGGCATGCGCACCGCCTGGTCGCTCAAGCAGCGGCTCGCCGCGCTGGAAGCGGAAGGGCGCCTGAACGGCGTCATCGAGCTGGTGCCGGTGGCCAACCCGATTGGTCTCGCGCAGTTCGTCCAGGGTTTGCATCACGGACGTTTCGAGCAGGCCAGTGGGAAGAACTTCAACCGTGGCTTCGTCGATCTGGAGGCGCTGGTGCGGCCGCGTATCGGTAACGCTCTGGCCGACGACGCCAGCGCCAACGTGCGCCTGATCCGCCAGGCCATGCGCGATGCGCTGGAGGAATTGCCCGCTCCGGCCAGTGAGCTGGAAGGGCTGCAGCGCCTGTTGCTGCGCCATGCCTGCGACGCTGACGTGGTGCTCGATCTGCATTGCGATTTCGATGCGGCTATTCATCTCTACGCCTTGCCGCAGCACTGGCCGCAGTGGCGCTCCCTGGCTGCGCGGCTGGGTGCCGGTGTGGCGCTGCTGGCGGAGGACTCCGGCGGCAGCTCGTTCGACGAATCCTGCTCGCTGCCCTGGCTGCGCCTGTCGCGTGCCTTCCCGCAGGCGGACATTCCGCTGGCCTGCCTGGCCACCACGGTGGAGCTGGCGGGCGTGACCGATACCGCGCCGGAACAGGCGGATGCCCATGCCGAGGCGATCCTCGGTTTCCTCGCCGAGCAAGGGCTGATCGCCGGCGACTGGCCGGCGGCACCGGAGCGCTGCTGCGAGGGCATGCCCTTCGAAGGGACCGAGCTGCTGTTCCCGCCACATACCGGGGTGGTCAGCTTCCTGCGCCGGGCCGGCGAGTGGGTGGAGCGGGGCGACGCGCTGTTCCAGGTCATCGATCCGCTCGACGACCGCTGCACCACGGTGCACGCCTCGGTATCCGGCGTGCTCTTCGCCATCGAGCGCCAACGCTACGCCCGGCCGGGCTACTGGCTGGCCAAGGTGGCTGGCCGCGATCCGATCCGCCAGGGTCGCCTGCTCAACGACTGA	MQRIDHCLPWMTLGSERRLSVFRYGQGERKAYIQASLHADELPGMRTAWSLKQRLAALEAEGRLNGVIELVPVANPIGLAQFVQGLHHGRFEQASGKNFNRGFVDLEALVRPRIGNALADDASANVRLIRQAMRDALEELPAPASELEGLQRLLLRHACDADVVLDLHCDFDAAIHLYALPQHWPQWRSLAARLGAGVALLAEDSGGSSFDESCSLPWLRLSRAFPQADIPLACLATTVELAGVTDTAPEQADAHAEAILGFLAEQGLIAGDWPAAPERCCEGMPFEGTELLFPPHTGVVSFLRRAGEWVERGDALFQVIDPLDDRCTTVHASVSGVLFAIERQRYARPGYWLAKVAGRDPIRQGRLLND				NA	NA	NA	NA	NA
BMS010_01666	765	hisP_1	COG4598	Histidine transport ATP-binding protein HisP	ATGTACAAACTCGAAGTCCAGGACTTGCACAAGCGCTACGGCAGCCATGAAGTGCTCAAGGGCGTCTCCCTGGCGGCCAAGGCGGGCGATGTGATCAGCATCATCGGCTCCAGCGGCTCCGGCAAGAGCACCTTCCTGCGCTGCATCAACCTGCTGGAACAGCCGCACGGCGGCAAGATCCTGCTCAATGGCGAAGAGCTGAAGCTGGTCGCCAACAAGGACGGCGCGCTCAAGGCGGCCGACCCGAAACAGTTGCAGCGCATGCGTTCACGCCTGTCCATGGTGTTCCAGCATTTCAACCTGTGGTCGCACATGACCGCCCTGGAAAACGTCATGGAAGCGCCGGTGCACGTGCTCGGCGTGACCAAGAAGGAAGCCCAGGAAAAGGCCGAGCACTACCTGGCCAAGGTGGGCGTGGCGCACCGCAAGGACGCCTACCCGGGGCACATGTCCGGCGGCGAACAGCAGCGTGTGGCCATCGCCCGTGCCCTGGCGATGGAGCCGGAGGTGATGCTGTTCGACGAGCCGACTTCGGCCCTCGACCCTGAACTGGTCGGCGAAGTGCTCAAGGTGATGCAGGACCTGGCGACCGAAGGTCGCACCATGGTGGTGGTCACCCATGAGATGGGCTTTGCCCGCGAGGTGTCCAACCAATTGGTGTTCCTGCACAAGGGCTTGGTGGAAGAGCGCGGCTGTCCGAAGGAGGTGCTGGTGAATCCTCAGTCCGAGCGATTGAAGCAGTTCCTTTCCGGCAGCTTGAAGTAA	MYKLEVQDLHKRYGSHEVLKGVSLAAKAGDVISIIGSSGSGKSTFLRCINLLEQPHGGKILLNGEELKLVANKDGALKAADPKQLQRMRSRLSMVFQHFNLWSHMTALENVMEAPVHVLGVTKKEAQEKAEHYLAKVGVAHRKDAYPGHMSGGEQQRVAIARALAMEPEVMLFDEPTSALDPELVGEVLKVMQDLATEGRTMVVVTHEMGFAREVSNQLVFLHKGLVEERGCPKEVLVNPQSERLKQFLSGSLK	PGPT0020695_188	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ARGININE_TRANSPORT,PGPT0020695-aotP-K10025	NA	NA
BMS010_01667	981	cdhR_2	COG4977	HTH-type transcriptional regulator CdhR	ATGACCTCACATCGAATCGCCTTCCTGATCTGGCCCGGCACCAAGGCAATGACCCTGGCGCTGGCCGAGGAAGCCTTGCGCGTTGCTCAGCGCGTCCACCCCGACGTGGTATACGAACTCCTGTTTCTCCAGGCCGAGCCGGTTGCCGAGGGCGACTGGCGGCTGCCGGGCGAGCCCTGGGCGGGCAAGCTGGAGGGCTGTCAGAAGCTGTTCCTGGTCGCCGACGAGCCGCCGACCCAACTGGCGCCGGCGCTGGCCAGTGCGTTGCGCCAGGTGGTGCGTGCCGGTTGCGTGGTCGGTGGGCTGTCCGCCGGCATCTATCCGCTGGCGTTGCTCGGACTGCTTGACGGCTACCGGGCGGCGGTGCACTGGCGCTGGCAGGACGACTTCACCGAGCGCTTCCCCAAGGTGATCGCCACCAGCCATTTGTTCGACTGGGACCGCGACCGCCTGACCGCCTGCGGCGGTTTGGCCGTGCTGGACCTGCTGCTGGCGGTGCTGGCCCGCGACCATGGCGCCGAGCTGGCCGGCGCGGTGAGCGAGGAACTGGTGGTCGAGCGCATCCGCGAAGGTGGCGAGCGCCAGCGCATTCCGCTGCAGAACCGCCTTGGCTCCAGCCATCCGAAGCTGACCCAGGCCGTCCTGTTGATGGAGGCCAACATCGAGGAGCCGCTGACCACCGACGAGATCGCCCAGCACGTCTGTGTTTCCCGTCGGCAACTGGAGCGAATCTTCAAGCAATACCTCAATCGCGTACCCAGTCAGTACTACCTGGAGCTGCGCCTGAACAAGGCGCGGCAGATGCTGATGCAGACCAGCAAGTCGATCATCCAGATCGGGCTGTCCTGCGGGTTCAGCTCTGGTCCGCACTTCTCCAGCGCCTACCGCAATTTCTTCGGCGCGACGCCGCGGGAGGATCGCAACCAGCGGCGCAGCAATCATCCGTTCGAGCTGGCGCCCTCGACGGTCGAGCGAGGTTGA	MTSHRIAFLIWPGTKAMTLALAEEALRVAQRVHPDVVYELLFLQAEPVAEGDWRLPGEPWAGKLEGCQKLFLVADEPPTQLAPALASALRQVVRAGCVVGGLSAGIYPLALLGLLDGYRAAVHWRWQDDFTERFPKVIATSHLFDWDRDRLTACGGLAVLDLLLAVLARDHGAELAGAVSEELVVERIREGGERQRIPLQNRLGSSHPKLTQAVLLMEANIEEPLTTDEIAQHVCVSRRQLERIFKQYLNRVPSQYYLELRLNKARQMLMQTSKSIIQIGLSCGFSSGPHFSSAYRNFFGATPREDRNQRRSNHPFELAPSTVERG	PGPT0021945_199	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARNITHINE_USAGE	PLANT_DERIVED_CARNITHINE_DEGRADATION,PGPT0021945-cdhR-K17736	NA	NA
BMS010_01668	1221	aruC_1	COG4992	Succinylornithine transaminase/acetylornithine aminotransferase	ATGTCCGCTGAACATGCGCCGGTAGCACGCGCCGATTTCGACCAGGTGATGGTCCCCAACTATGCCCCCGCCGCTTTCATTCCGGTGCGAGGCCAGGGTTCCCGAGTCTGGGATCAGAACGGGCGCGAGCTGATCGATTTCGCCGGCGGCATCGCAGTGAATGTCCTCGGCCATTGCCACCCGGCCCTGGTCGGCGCCCTGACCGAGCAGGCCAACACGCTGTGGCACGTCTCCAACGTGTTCACCAACGAGCCGGCCTTGCGCCTGGCCCACAAGCTGGTCGACGCCACCTTCGCCGAGCGCGTGTTCTTCTGCAACTCCGGCGCCGAGGCCAACGAGGCCGCGTTCAAGCTGGCCCGCCGTTATGCCCACGACCTGTTCGGTCCGGAGAAGTGCGAGATCATCGCCGCTACCAACAGCTTCCACGGCCGCACCCTGTTCACCGTCAGCGTCGGTGGCCAGCCGAAGTATTCCGACGGCTTCGGGCCGAAAATCCAGGGCATCACCCACGTGCCCTACAACGATCTGGAAGCGCTGAAGGCCGCCATTTCCGACAAGACCTGCGCCGTCGTGCTCGAGCCCATCCAGGGCGAAGGTGGCGTGCTGCCGGCCGACCAAGCCTACCTCGAAGGCGCGCGCAAGCTGTGCGACGAGCACAAGGCGCTGTTGATCTTCGACGAAGTGCAGACTGGCATGGGCCGCACCGGCGAGCTGTTCGGCTACATGCACTACGGCGTGGTGCCGGACATCCTCTCCAGCGCCAAGAGCCTGGGCGGCGGTTTTCCCATCGGCGCCATCCTGACCAAGACCGACATCGCCGCGCATTTCGCCGTTGGCACCCACGGCACCACCTACGGCGGCAACCTGTTGGCCTGTGCGGTGGGCGAGGCGGTGATCGATGTGGTCAACACCCGCGAAGTGCTCGACGGGGTCAAGGCCAAGCATGACCGCTTCAAGACCCGCCTCGAGCAGATCGGCCGCGAATACGGCTTGTTCAGCCAGGTGCGGGGTCTCGGTCTGCTGATCGGCTGCGTGCTGGCCGACGCCTGGAAGGGCAAGGCCAAGGATGTGCTGAACGCCGCCGAAAAAGAGGCGCTGATGGTGCTCCAGGCCAGCCCGGACGTGGTGCGTTTCGCCCCCAGCCTGGTGATCGAGGATGCCGATATCGACGAAGGTCTGGCGCGTTTCGAACGAGCAGTCGCCAATCTGACCCGGGGCTGA	MSAEHAPVARADFDQVMVPNYAPAAFIPVRGQGSRVWDQNGRELIDFAGGIAVNVLGHCHPALVGALTEQANTLWHVSNVFTNEPALRLAHKLVDATFAERVFFCNSGAEANEAAFKLARRYAHDLFGPEKCEIIAATNSFHGRTLFTVSVGGQPKYSDGFGPKIQGITHVPYNDLEALKAAISDKTCAVVLEPIQGEGGVLPADQAYLEGARKLCDEHKALLIFDEVQTGMGRTGELFGYMHYGVVPDILSSAKSLGGGFPIGAILTKTDIAAHFAVGTHGTTYGGNLLACAVGEAVIDVVNTREVLDGVKAKHDRFKTRLEQIGREYGLFSQVRGLGLLIGCVLADAWKGKAKDVLNAAEKEALMVLQASPDVVRFAPSLVIEDADIDEGLARFERAVANLTRG	PGPT0014253_818	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014253-argD|pqqI-K00821	NA	NA
BMS010_01669	1017	astA	COG3138	Arginine N-succinyltransferase subunit alpha	ATGCTGGTGATGCGCCCCGCGCAAATGGCCGATCTGGCCGAGGTTCAGCGTCTGGCCGCGGACAGTCCGGTCGGTGTCACTTCGTTGCCGGACGATACCGAGCGCCTGCGCGACAAGATCGCCGCCTCGGAAGCCTCCTTCGCCGCCGAAGTCAGCTTCAATGGCGAGGAGAGCTACTTCTTCGTCCTCGAAGACAGCGAGAACGGCCATCTGGTGGGCTGCTCCGGCATCGTCGCCTCGGCCGGTTACTCCGAGCCGTTCTACAGTTTCCGCAACGAGACTTTCGTGCACGCCGCGCGCGAGCTGAAGATCCACAACAAGATCCACGTCCTGTCGCTCTGCCACGACCTCACCGGCAACAGCCTGCTCACCAGTTTCTACGTGGAGCCGCCGCTGGTCGGTACCACCGCCTCCGAGCTGAATTCCCGTGGCCGCCTGCTGTTCCTCGCCAACCACCCGGAGCGCTTCGCCGATGCGGTGGTGGTGGAGATCGTCGGCTACAGCGACGAGCACGGCGACTCACCGTTCTGGGACGCCGTCGGGCGCAACTTCTTCGACATCAACTACGCCGAGGCCGAACGCCTGTGCGGCCTGAAGAGCCGCACCTTCCTCGCCGAACTGATGCCGCATTACCCGATCTATGTGCCGCTGCTGCCGGATGCCGCCCAGGAAGCCATGGGCCAGGTGCATCCGCGGGCGCAGATCACCTTCGACATCCTGATGCGCGAAGGCTTCGAGACCGACCACTACATCGACATCTTCGATGGCGGCCCGACCCTGCATGCGCGCACCTCGGGCATCCGTTCCATCGCCCAGAGCCGTGTGGTGCCGGTACGCGTCGGCGAGCCGGGGAAGGGCGGGCGTCCCTACCTGGTCGCCAACGGCCAGTTGCAGGATTACCGCGCCATCGTCGCCGAACTGGACTGGGTGCCCGGCAAGCCGGTGACCCTCTCGGCCGAAGCGGCCGAGGCGCTGGGTGTCGGCGAAGGCTCCAGCGTGCGCCTGGTCGCGGTTTGA	MLVMRPAQMADLAEVQRLAADSPVGVTSLPDDTERLRDKIAASEASFAAEVSFNGEESYFFVLEDSENGHLVGCSGIVASAGYSEPFYSFRNETFVHAARELKIHNKIHVLSLCHDLTGNSLLTSFYVEPPLVGTTASELNSRGRLLFLANHPERFADAVVVEIVGYSDEHGDSPFWDAVGRNFFDINYAEAERLCGLKSRTFLAELMPHYPIYVPLLPDAAQEAMGQVHPRAQITFDILMREGFETDHYIDIFDGGPTLHARTSGIRSIAQSRVVPVRVGEPGKGGRPYLVANGQLQDYRAIVAELDWVPGKPVTLSAEAAEALGVGEGSSVRLVAV	PGPT0020090_1080	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020090-astA-K00673	NA	NA
BMS010_01670	1026	aruG	COG3138	Arginine N-succinyltransferase subunit beta	ATGATCGTTCGTCCCGTACGCAGTGCCGATCTGCCGGCGCTGATCGACCTGGCGCGCAGCACCGGCGCCGGTCTCACCACCCTGCCGGCCAACGAGGAGCGCCTCGCGCACCGGGTCGGCTGGGCGGAGAAGGCGTTCCGCGGCGAGGCCGAGCGTGCCGATGCGGACTACCTGTTCGTCCTCGAGGACGATGACGGCCGGGTGCTGGGCATTTCCGCCGTGGCCGGCGCCGTCGGCCTGCGTGAGCCCTGGTACAACTACCGCGTCGGCCTGACCGTCAGCGCCTCCCAGGAACTGAATGTGCACCGGCAGATTCCGACGCTGTTCCTGGCCAACGACCTCACCGGCAACTCCGAGCTGTGCTCGCTGTTCCTCCATGCCGACCACCGCACCGGCCTGAACGGGCGCCTGCTGTCGAAGGCGCGTTTCATGTTCATCGCCGAGTTCCCGGAACTGTTCGGCGAGAAGATCTTCGCCGAGATGCGTGGCGTGTCCGATGCCGACGGCCGTTCGGCGTTCTGGGAAAGCCTCGGCCGGCATTTCTTCAAGATGGAGTTCAGCCAGGCGGACTACCTGACCGGCGTGGGCAACAAGGCGTTCATCGCCGAGCTGATGCCCAAATTCCCGCTCTATACCTGCTTTCTCTCGGAAGAGGCGCGCAACGTCATCGGCCGCGTCCATCCCGACACCGAACCTGCCCTGGCGATGCTCAAGGCGGAAGGTTTCAGCTACCAAGGCTATGTCGACATCTTCGACGCCGGCCCGGCCATCGAATGCGAGACCAGCAAGATTCGCGCGGTGCGCGACAGCCTGCCGCTGGTGCTGGCGGTGGGGACGCCGGGCGAGGACGCCACGCCGTTCGTGATCCACAACCGCAAGCGCGAGGACTGCCGCATCACTGCCGCTCCGGCGCGGATGGCCGCCGGCACCCTGGTGGTCGATCCGCAGACCGCCAGGCGCCTGCAACTCAGCCCCGGTGCCCAGGTCCGCGCCGTGCCCCTGTCGGCCAAGCCGCTGGCGAACTAA	MIVRPVRSADLPALIDLARSTGAGLTTLPANEERLAHRVGWAEKAFRGEAERADADYLFVLEDDDGRVLGISAVAGAVGLREPWYNYRVGLTVSASQELNVHRQIPTLFLANDLTGNSELCSLFLHADHRTGLNGRLLSKARFMFIAEFPELFGEKIFAEMRGVSDADGRSAFWESLGRHFFKMEFSQADYLTGVGNKAFIAELMPKFPLYTCFLSEEARNVIGRVHPDTEPALAMLKAEGFSYQGYVDIFDAGPAIECETSKIRAVRDSLPLVLAVGTPGEDATPFVIHNRKREDCRITAAPARMAAGTLVVDPQTARRLQLSPGAQVRAVPLSAKPLAN	PGPT0020090_861	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020090-astA-K00673	NA	NA
BMS010_01671	1464	astD	COG1012	N-succinylglutamate 5-semialdehyde dehydrogenase	ATGACTACCCATTACATCGCCGGCGCCTGGCAGGCCGGCGAGGGCGACGCCCTCGAATCCCGCAACCCCGTCGGCCAGGCCGTGCTCTGGCAGGGCTCCGCCGCCAGCCCCGCGCAGGTGGACGCCGCCGTGCAGGCCGCGCGTGCCGCGTTCCCGGCCTGGGCCCATCGTCCGCTGGAAGAGCGCATCGCGATCCTGGAAACCTTCGCCGCCACCCTCAAGGTGCACGGCGACGAACTGGCCCGCGCCATCGGCGAAGAGACCGGCAAGCCGCTGTGGGAAGCCGCCACCGAAGTGACCAGCATGGTCAACAAGGTCGCCATTTCCATCCAGAGCTACCGCGAGCGCACCGGCGAGAAGTCCGGCCCGCTGGCCGACGCCACCGCCGTGCTGCGGCACAAACCGCATGGCGTGGTGGCGGTGTTCGGCCCGTACAATTTCCCAGGCCATCTGCCCAACGGGCACATCGTGCCGGCGCTGCTGGCGGGTAACGCCGTAGTGTTCAAACCCAGCGAGCTGACGCCGAAAGTCGCCGGGCTGACGGTGAAATGCTGGATCGAGGCCGGTATTCCGGCCGGCGTGCTCAACCTCGTCCAAGGTGCCCGCGAAACCGGCATCGCCCTGGCCGGACATGCCGGCATCGATGGGTTGTTCTTCACCGGATCGAGCCGCACCGGCAACCTGTTGCACCAGCAGTTCGCCGGCCGCCCGGACAAGATCCTCGCCCTGGAGATGGGCGGCAACAATCCGCTGATCGTCGATCAGGTCGCCGATGTGGATGCCGCGGTCTACACCATCGTCCAGTCCGCGTTCATTTCCGCCGGCCAGCGCTGCACCTGCGCCCGCCGCCTGCTGGTGCCGCAAGGCGCCTGGGGCGATGCGCTGCTGGCGCGGCTGGTGCAAGTCGCTGCGCAGATCAAGGTCGGCCGCTTCGATGAGCAGCCGGCGCCCTTCATGGGCTCGGTGGTCTCCCTGCTGGCGGCTCGCCAATTGCTCGAAGCCCAGGCCGCGTTGCTGGCCAAGGGCGCCGTTGCCCTGCTGGCGATGACCCAACCGGAGGCGGACGCCGCCCTGCTGACGCCGGGCATCCTCGATGTCACCGCGGTGGCCGAGCGCCCCGACGAAGAGTTCTTCGGCCCGCTGCTGCAAGTGATCCGCTACACCGACTTCGACGCCGCCATCGCCGAAGCCAACGCGACCCAATACGGTCTCGCCGCCGGCCTGCTGTCCGATTCCCGCGAGCGCTACCAGCAGTTCTGGGTGGAAAGCCGCGCCGGCATCGTGAATTGGAACAAGCAGCTCACCGGCGCCGCCAGCAGCGCGCCCTTCGGCGGGGTCGGCGCGTCCGGCAACCATCGTCCGAGCGCCTACTATGCCGCCGATTACTGCGCTTATCCGGTCGCCTCTCTGGAAAGCGAAGCCCTCAGCCTGCCCGCTACCCTGACCCCGGGAGTGAGTTTGTAA	MTTHYIAGAWQAGEGDALESRNPVGQAVLWQGSAASPAQVDAAVQAARAAFPAWAHRPLEERIAILETFAATLKVHGDELARAIGEETGKPLWEAATEVTSMVNKVAISIQSYRERTGEKSGPLADATAVLRHKPHGVVAVFGPYNFPGHLPNGHIVPALLAGNAVVFKPSELTPKVAGLTVKCWIEAGIPAGVLNLVQGARETGIALAGHAGIDGLFFTGSSRTGNLLHQQFAGRPDKILALEMGGNNPLIVDQVADVDAAVYTIVQSAFISAGQRCTCARRLLVPQGAWGDALLARLVQVAAQIKVGRFDEQPAPFMGSVVSLLAARQLLEAQAALLAKGAVALLAMTQPEADAALLTPGILDVTAVAERPDEEFFGPLLQVIRYTDFDAAIAEANATQYGLAAGLLSDSRERYQQFWVESRAGIVNWNKQLTGAASSAPFGGVGASGNHRPSAYYAADYCAYPVASLESEALSLPATLTPGVSL				NA	NA	NA	NA	NA
BMS010_01672	1347	astB	COG3724	N-succinylarginine dihydrolase	ATGAAAGCCTATGAAGTGAATTTCGACGGACTGGTCGGCCCGACCCACAACTACGGCGGCCTGTCCTACGGCAACGTGGCGTCGCAGAGCAACAGCCAGGCGGTCTCCAGTCCGAAGGAAGCCGCCTTGCAGGGCCTGGCGAAGATGAAGGCACTGATGGATATGGGCTTCAAGCAGGGCGTGCTGGCCCCGCAGGAGCGCCCGGATGTCGTCGCGCTGCGTAGCCTGGGCTTTTCCGGCAGCGATGCCGAGGTGATCCAGAAGGCCGCCAAGGAAGCCATGCCACTGCTGGCGGCCTGCAGCTCGGCCTCCAGCATGTGGACGGCCAACGCCTGCACGGTCAGCCCGAGCGCCGACACCGCCGACGGCCGCGTGCATTTCACCGCCGCCAACCTGAACTGCAAGTTCCACCGCTCCATCGAGCACCCCACCACCAGTCGTGTGCTCGGTGCCATGTTCGCTGACCCTCGGCACTTCGCCCACCACGCGGCGCTGCCGACAGTGAGCCAGTTCGGTGACGAAGGGGCGGCCAACCACACCCGTTTCTGCAAGAGCTACGGCGAAGCCGGCGTGGAATTCTTCGTCTTCGGCCGCAGCGCCTTCGACAGCCGCTTCCCGGCGCCGCAGCGTTACCCGGCGCGGCAGACCCTGGAGGCCTGCCAGGCGGTGGCCCGCCTGCACGGGCTCGATGACGAGGGCGTGGTCTATGCCCAGCAGAATCCGGCGGTGATCGACCAGGGAGTGTTCCACAACGACGTGATTTCCGTGGGCAACGGCGAAGTGCTGTTCCACCACGAGGACGCCTTCCTCGAGACTGACCGTGTGCTGGCCGAGCTGCACGACAAGCTGGGCCGCCGCGGCGGCCGCTTCCAGGCGGTCTGCGTGCCGCGCGAGGCGGTCGGCGTCGAGGACGCCGTGCAGTCCTACCTGTTCAACAGCCAACTGCTCACTCGTGCCGACGGCAGCATGCTGCTGATCGTTCCCGAGGAGTGCCGCCTCAACGAGCGCGTCTGGCGCTATCTGCAACGCCTGACGGCCGAGGACGGCCCGATCCGCGAGGTGAAGATCTTCGATCTCAAGCAGAGCATGCAGAACGGCGGCGGTCCGGCCTGCCTGCGTCTGCGCGTGGCGCTCAAGGAAAACGAGCTGAACGCGGTGAACCCGGGCGTGATCCTCACCCCCGCGCTGTACGGGACGCTGACCACCTGGGTCGAGAAGCATTACCGCGATCGCCTCAGCGAAGCCGACCTGGCTGATCCACAATTGCTGGTAGAGTGCAGAACGGCATTGGATGAACTGACGCAGATCCTTAAACTGGGCTCGGTTTATCCCTTCCAGATCGATTGA	MKAYEVNFDGLVGPTHNYGGLSYGNVASQSNSQAVSSPKEAALQGLAKMKALMDMGFKQGVLAPQERPDVVALRSLGFSGSDAEVIQKAAKEAMPLLAACSSASSMWTANACTVSPSADTADGRVHFTAANLNCKFHRSIEHPTTSRVLGAMFADPRHFAHHAALPTVSQFGDEGAANHTRFCKSYGEAGVEFFVFGRSAFDSRFPAPQRYPARQTLEACQAVARLHGLDDEGVVYAQQNPAVIDQGVFHNDVISVGNGEVLFHHEDAFLETDRVLAELHDKLGRRGGRFQAVCVPREAVGVEDAVQSYLFNSQLLTRADGSMLLIVPEECRLNERVWRYLQRLTAEDGPIREVKIFDLKQSMQNGGGPACLRLRVALKENELNAVNPGVILTPALYGTLTTWVEKHYRDRLSEADLADPQLLVECRTALDELTQILKLGSVYPFQID				NA	NA	NA	NA	NA
BMS010_01673	282			hypothetical protein	ATGTCCGATACCCTGCAACTGATCCTCGAAGATACCGACGGCACCCAACTGGAAACGTCCTGCACCCGTTTCGCCGTGGTCTGGCAAGGTCGCGAAGTGTGGATTCAGCAGGCTGGCAACGGCCAGTTGCTGATCGGCGTGGACGTCGAGGACAGTGACACGGAATACGCCAACCTGCTGTTGCGTCCGCTGGCGACCAACCTGGTCAGCCTGCAATTGGAAATGGAGCCGATCGAGGCGGATGACGAGGAACACGTGCACGGGCCGGACTGCGATCACTGA	MSDTLQLILEDTDGTQLETSCTRFAVVWQGREVWIQQAGNGQLLIGVDVEDSDTEYANLLLRPLATNLVSLQLEMEPIEADDEEHVHGPDCDH				NA	NA	NA	NA	NA
BMS010_01674	999	astE	COG2988	Succinylglutamate desuccinylase	ATGCTAGCCCTCGGCAAACTGCTTGACCTGACCCTGGCCGGCCGCGAGCCGACCGAGAAGATCCAGTTGACCGCCGAGGGGACGCGCCTGCACTGGCTGACGGAAGGTGCGCTGGAAATCACTCCGCCCGGAGCCGCCGATTGCGGGCTCGACCTGTTGCTCTCCGCCGGCATCCATGGCAACGAAACCGCTCCCATCGAACTGCTGGACCGCCTGGTCCAGGGCGTCGCCCGTGGCGAGTTGAGGCCGCGCGCGCGCATCCTCTTCCTGCTCGGCAACCCCGATGCCATGCGCCGGGGCGAACGCTACGTCGAGCACGACATCAACCGGCTGTTCTGCGGCCGGCACGAGGAATCCAGTGGTTTCGAAGCGTTGCGTGCCGCCGAGTTGGAGCGCCTGGCGACGTCCTTCTTCAGCAAGCCGGGGCGCACCCGCCTGCACTACGACCTGCACACCGCCATCCGCGGCTCCAAGATCGAACAATTCGCGCTCTATCCCTACCGCGAGGGCCGTGCGCATTCGCAGCGGGAGCTGGCCCGGTTGAAGACGGCGGGCATCGAGGCGGTGCTGCTGCAGAACAAGACCGGCATCACCTTCAGCTCCTTCACCTACGCCCACCTGGAGGCCGAAGCCTTCACCCTGGAGCTGGGCAAGGCACGTCCCTTCGGGCAGAACGGCATCGTCAAGCTGGACCGTCTCGAAACCCTACTGGAGCAACTCATCGAGGGGCGCGAGGCGGAGAGCGAAGAAGGCGGACTGGATGGTATGCAACTGTTCACCGTGGCCCGGGAAATCATCAAGCACAGCGAAGGCTTCCGCCTGCACTTGCCGGACGACATCGAGAACTTCAGCGAGCTGCCGGTGGGCTACCTGCTGGCCGAGGACATCGCCGACACCCGCTGGGTGATCGAGGAGGAGGGTGCGCGCATCATCTTCCCAAATCCCAAGGTGAAGAACGGTCTGCGCGCCGGCATCCTCGTGGTGCCTGCGAATCTCTGA	MLALGKLLDLTLAGREPTEKIQLTAEGTRLHWLTEGALEITPPGAADCGLDLLLSAGIHGNETAPIELLDRLVQGVARGELRPRARILFLLGNPDAMRRGERYVEHDINRLFCGRHEESSGFEALRAAELERLATSFFSKPGRTRLHYDLHTAIRGSKIEQFALYPYREGRAHSQRELARLKTAGIEAVLLQNKTGITFSSFTYAHLEAEAFTLELGKARPFGQNGIVKLDRLETLLEQLIEGREAESEEGGLDGMQLFTVAREIIKHSEGFRLHLPDDIENFSELPVGYLLAEDIADTRWVIEEEGARIIFPNPKVKNGLRAGILVVPANL	PGPT0020091_474	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020091-astE-K05526	NA	NA
BMS010_01675	1002	ltaE_2	COG2008	Low specificity L-threonine aldolase	ATGTCCGTCATCGATCTGCGCAGCGATACCGTCACCCAGCCCACGCCCGGCATGCGCGAAGCGATGCTGCAGGCCGAGCTGGGGGACGATGTCTACGGCGAGGACCCTACCGTCAACCGGCTGGAGGCCTACCTGGCCGGACGTCTCGGTTTCGCCGCCGCGCTTTTCGTCCCCACCGGCACCATGAGCAACCTGCTCGGTCTGCTGGCGCACTGCGAGCGGGGCGACGAATACATCGTTGGGCAGCAGGCGCACACCTATAAATATGAAGGCGGTGGCGCTGCCGTGCTTGGCTCGATCCAGCCGCAGCCGGTGGAAGTGGAGACCGACGGCTCGCTCGATCTGGAACGGGTGGCCGCGGCGATCAAGCCGGATGACTTCCATTTCGCCCGGACCCGCCTGCTGGCGCTGGAAAACACCATGCAGGGCAAGGTGCTGCCGATGTCCTACCTGGCTGCCGCGCGCGATTTCACCCGGCGTCATGGTCTCGCCCTGCATCTGGACGGGGCCCGGCTGTTCAACGCGGCGGTCAGGCTCGGGATCGATGCCCGGGATATCGCCGGGCATTTCGATTCCGTCTCGGTCTGTCTGTCCAAGGGGTTGGGCGCGCCGGTGGGGTCGGTGCTCTGCGGCTCGTCCGAGTTGATCGGCAAGGCGCGGCGCTGGCGCAAGATGGTCGGCGGCGGCATGCGCCAAGCCGGCGTGCTGGCGGCGGCGGGGCTCTATGCACTGGAGCATCAGGTCGAGCGCCTGGCTGAGGATCACGCCAATGCTGCCCGTCTCGGCGAGGGCTTGCGTGCCCTGGGCTTCGAGGTGGAGCCGGTGCAGACCAACATGGTCTACCTGAATGCCGGCGAGCGGGCCCAGGCGTTCAAGGCGGCCGCCGCCGAGCGGGGTATCCGGCTGACCGCGGCGCCACGTCTTCGCATGGTGACCCATATGGATGTGTCCGCCGGGGATATCGAACGGGTGATCGACTTCTTCGCCTCCGTCCGTCGCTGA	MSVIDLRSDTVTQPTPGMREAMLQAELGDDVYGEDPTVNRLEAYLAGRLGFAAALFVPTGTMSNLLGLLAHCERGDEYIVGQQAHTYKYEGGGAAVLGSIQPQPVEVETDGSLDLERVAAAIKPDDFHFARTRLLALENTMQGKVLPMSYLAAARDFTRRHGLALHLDGARLFNAAVRLGIDARDIAGHFDSVSVCLSKGLGAPVGSVLCGSSELIGKARRWRKMVGGGMRQAGVLAAAGLYALEHQVERLAEDHANAARLGEGLRALGFEVEPVQTNMVYLNAGERAQAFKAAAAERGIRLTAAPRLRMVTHMDVSAGDIERVIDFFASVRR	PGPT0020465_3449	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020465-ltaE-K01620	NA	NA
BMS010_01676	2625	alaS_1	COG0013	Alanine--tRNA ligase	ATGAAAAGCGCAGAAATCCGTGAAGCCTTCCTCCGCTTCTTCGAAGAGAAGGGGCACACCCGCGTCGCCTCCAGCTCCCTGATTCCGGGCAACGACCCGACCCTGCTGTTCACCAACGCCGGGATGAACCAGTTCAAGGACTGCTTCCTCGGCCTGGAAAAGCGCGCCTACACCCGCGCCGTCAGCAGCCAGAAGTGCGTTCGCGCCGGCGGCAAGCACAACGACCTGGAGAACGTCGGCTATACCGCGCGCCACCACACCTTCTTCGAAATGCTGGGCAACTTCAGCTTCGGCGATTATTTCAAGCGCGACGCCATCACTTACGCCTGGGAATTCCTGACGTCCGAAAAATGGCTGGGCCTGCCCAAGGACAAGCTCTGGGTCACCGTCTACGCCAGCGACGACGAGGCCTACGACATCTGGACCAAGGAAGTCGGAGTACCGGCCGAGCGCATGGTGCGCATCGGCGACAACAAGGGCGCTCCCTACGCCTCGGACAATTTCTGGGCGATGGGCGACACCGGCCCCTGCGGTCCATGCACCGAGATCTTCTATGACCACGGCCCGGACATCTGGGGCGGCCCGCCCGGTTCCCCGGAAGAAGACGGCGACCGCTACATCGAGATCTGGAACAACGTGTTCATGCAGTTCAACCGCACGGCCGACGGCGTAATGCACCCGCTGCCGGCACCGAGCGTGGACACCGGCATGGGCCTGGAGCGGATCAGCGCCGTGCTCCAGCACGTGCATTCGAACTACGAGATCGACCTGTTCCAGAACCTGCTCAAGGCCGCGTCCGACGCCATCGGTTGCGCCGAGGAAGGCCAGCCGTCGCTGAAGGTGGTGGCCGACCACATCCGCTCCTGCAGCTTCCTCATCGCCGACGGCGTGCTGCCGTCCAACGAAGGCCGTGGCTACGTGCTGCGCCGGATCATCCGTCGCGCCTGCCGCCACGGTAACAAGCTGGGCGCCAAGGGCAGCTTCTTCCACAAGATCGTCGCTGCCCTGGTGGCCGAGATGGGCGAGGCGTTCCCCGAGTTGAAGCAACAGCAGGCGCACATCGAGCGCGTGCTGAAAACCGAGGAAGAGCAATTCGCCAAGACCCTGGAGTTGGGTCTGAAGATTCTCGAACAGGATCTGGCCGAGCTGTCGGGTTCGGTCATTCCCGGCAACGTGGTGTTCAAGCTGTACGACACCTACGGCTTCCCGGTCGACCTGACCAACGACATCGCCCGCGAACGCGACCTGACCCTCGACGAAGAGGGCTTCGAGCGAGAAATGGAGGCCCAGCGCGAGCGTGCCCGCGCCGCCAGCGCCTTCGGCATGGACTACAACGCGCTGGTCAAGGTGGAAGGCGAGACCGTCTTCACCGGCTACCAGGGCACCCAGGGCAGCGGCAAGGTCGTTGCGTTGTTCCGCGATGGTGTGGTCGTCGAGCGCCTGAATGAAGGCGAGCAGGGCGTCGTAGTCCTCGACCGTACCCCGTTCTACGCCGAGTCCGGTGGCCAAGTGGGCGATTGCGGCTACCTGTCGGCCAATGGCCTGCGCTTCGACGTGCGCGACACCACCAAGGCCGGCAACGCCTTCCTCCATCACGGTGTGCTGGACTGCGGCGTGCTGGAAGTCGGTGCGAGCATCGAAGCCACTGTCGACGCCACGGTACGCCAGGCCACCGCACTCAACCACTCCGCGACCCACCTGCTGCACGCGGCGCTGCGCCAAGTGCTCGGCGAGCATGTGCAACAAAAAGGCTCGCTGGTGGACAGCCAGCGCCTGCGCTTCGACTTCAGTCACTTCGAGGCAATCAAGCCGGAGCAACTGAAGGCCCTGGAAGACATCGTCAACGCCGAAATCCGCAAGAACTCCGAGGTCGAGACCGAGGAAACCGATATCGACACCGCCAAGGCCAAGGGCGCCATGGCGCTGTTCGGCGAGAAGTACGGCGATCAGGTGCGCGTCCTGACCATGGGCGGCGGTTTCTCCGTCGAGCTGTGCGGTGGGACCCATGTCTCCCGCACCGGCGACATCGGCCTCTTCAAGATCACCAGCGAAGGCGGCGTGGCGGCCGGCGTGCGCCGGATCGAGGCGGTTACCGGCGCGGCGGCACTGGCCTACCTGAACAATGCCGAAGAGCAGTTGAAGGAAGCGGCGGCGCTGGTCAAGGGCAGCCGCGAGAACCTGCTGGACAAGCTGGCCGGCGTGCTCGAGCGCAACCGTCAGTTGGAAAAGGAGCTGGAACAGCTCAAGGCCAAGGCCGCCAGCGCGGCAGGCGACGACCTGGCCGGCTCGGCGATCGAGGTCAAGGGCGTGAAAGTCCTGGCCGCACGCCTGGATGGTCTGGACGGCGATGCGCTGCTGGCGCTGGTCGACCAATTGAAGAACAAGCTCGGTCGCGCAGTGATCCTGCTCGGCGGGGCGCTGGAGGGCAAGGTGACACTGGTCGCCGGCGTCACCCAGGACCTGACCGGCCAACTCAAAGCCGGCGATCTGATGAAACAGGCCGCGGCGGCAGTCGGCGGCAAGGGCGGCGGACGTCCCGACATGGCCCGCGGCGGCGGCAGCGATGCCGCGGCGCTGGACCAGGCGCTGGCGCTGGCCGTGCCCTTCGTCGAACAGGGGCTCTGA	MKSAEIREAFLRFFEEKGHTRVASSSLIPGNDPTLLFTNAGMNQFKDCFLGLEKRAYTRAVSSQKCVRAGGKHNDLENVGYTARHHTFFEMLGNFSFGDYFKRDAITYAWEFLTSEKWLGLPKDKLWVTVYASDDEAYDIWTKEVGVPAERMVRIGDNKGAPYASDNFWAMGDTGPCGPCTEIFYDHGPDIWGGPPGSPEEDGDRYIEIWNNVFMQFNRTADGVMHPLPAPSVDTGMGLERISAVLQHVHSNYEIDLFQNLLKAASDAIGCAEEGQPSLKVVADHIRSCSFLIADGVLPSNEGRGYVLRRIIRRACRHGNKLGAKGSFFHKIVAALVAEMGEAFPELKQQQAHIERVLKTEEEQFAKTLELGLKILEQDLAELSGSVIPGNVVFKLYDTYGFPVDLTNDIARERDLTLDEEGFEREMEAQRERARAASAFGMDYNALVKVEGETVFTGYQGTQGSGKVVALFRDGVVVERLNEGEQGVVVLDRTPFYAESGGQVGDCGYLSANGLRFDVRDTTKAGNAFLHHGVLDCGVLEVGASIEATVDATVRQATALNHSATHLLHAALRQVLGEHVQQKGSLVDSQRLRFDFSHFEAIKPEQLKALEDIVNAEIRKNSEVETEETDIDTAKAKGAMALFGEKYGDQVRVLTMGGGFSVELCGGTHVSRTGDIGLFKITSEGGVAAGVRRIEAVTGAAALAYLNNAEEQLKEAAALVKGSRENLLDKLAGVLERNRQLEKELEQLKAKAASAAGDDLAGSAIEVKGVKVLAARLDGLDGDALLALVDQLKNKLGRAVILLGGALEGKVTLVAGVTQDLTGQLKAGDLMKQAAAAVGGKGGGRPDMARGGGSDAAALDQALALAVPFVEQGL				NA	NA	NA	NA	NA
BMS010_01677	1236		COG0527	Aspartate kinase	ATGGCTTTGATCGTACAGAAATTTGGGGGCACCTCGGTCGGTAGCGTCGAGCGGATCGAGCAAGTGGCCGAGAAGGTGAAGAAGTTCCACGAGGCGGGCAACGATCTGGTAATCGTGGTCTCCGCCATGAGTGGCGAGACCAACCGCCTGATCGACCTCGCCAAGCAGATCAGCGAACAGCCGGTACCGCGCGAGCTGGACGTGATGGTCTCCACCGGCGAGCAGGTGACCATCGCGCTGCTGGCCATGGCACTGATCAAACGCGGTGTTCCGGCGATTTCCTACACCGGCAACCAGGTCCGCATCCTGACCGACAGCGCGCACAACAAGGCGCGCATCCTGCAGATCGACGACCAGAAGATCCGTGCCGACCTCAAGGCCGGCCGGGTGGTGGTGGTCGCCGGTTTCCAGGGCGTCGACGAGCACGGCAACATCACCACGCTCGGCCGTGGCGGTTCCGACACCACCGGTGTGGCGCTGGCGGCGGCCCTGAAGGCCGACGAATGCCAGATCTACACCGACGTCGACGGTGTCTACACCACCGATCCGCGCGTGGTGCCGCAGGCCCGTCGCCTGGACAAGATCACCTTCGAGGAAATGCTGGAAATGGCCAGCCTCGGCTCCAAGGTGCTGCAGATCCGTTCGGTGGAGTTCGCCGGCAAGTACAATGTTCCGCTGCGCGTGCTGCACAGCTTCCAGGAGGGTCCGGGCACCCTCATTACCCTTGATGAAGAGGAATCCATGGAACAGCCGATCATTTCCGGCATCGCCTTCAACCGCGACGAAGCCAAGCTGACCATCCGTGGCGTGCCGGATACCCCCGGCGTGGCCTTCAAGATCCTCGGCCCGATCAGCGCCGCCAACATCGAAGTGGACATGATCGTGCAGAACGTGGCGCACGATAACACCACCGACTTCACCTTCACCGTGCACCGCAACGACTACCATAACGCGCTGCAGGTGTTGGAAAGCACCGCCCGCGAGATCGGTGCCCGCGAAGTGGTTGGTGACACCAAGATCGCCAAGGTTTCCATCGTCGGCGTCGGCATGCGCTCCCACGCCGGGGTTGCCAGCCGCATGTTCGAGGCGCTGGCCAAGGAAAGCATCAACATCCAGATGATCTCCACCTCCGAAATCAAGGTGTCCGTGGTGATCGAGGAGAAGTACCTGGAGTTGGCGGTGCGCGCGCTGCATACCGCTTTCGAGCTGGACGCTCCGGCCCGACAGGGCGAGTGA	MALIVQKFGGTSVGSVERIEQVAEKVKKFHEAGNDLVIVVSAMSGETNRLIDLAKQISEQPVPRELDVMVSTGEQVTIALLAMALIKRGVPAISYTGNQVRILTDSAHNKARILQIDDQKIRADLKAGRVVVVAGFQGVDEHGNITTLGRGGSDTTGVALAAALKADECQIYTDVDGVYTTDPRVVPQARRLDKITFEEMLEMASLGSKVLQIRSVEFAGKYNVPLRVLHSFQEGPGTLITLDEEESMEQPIISGIAFNRDEAKLTIRGVPDTPGVAFKILGPISAANIEVDMIVQNVAHDNTTDFTFTVHRNDYHNALQVLESTAREIGAREVVGDTKIAKVSIVGVGMRSHAGVASRMFEALAKESINIQMISTSEIKVSVVIEEKYLELAVRALHTAFELDAPARQGE	PGPT0014040_4674	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0014040-lysC-K00928	NA	NA
BMS010_01678	186	csrA	COG1551	Translational regulator CsrA	ATGCTGATTCTGACTCGCCGGGTCGGAGAGACCCTGATGGTTGGTGATGAGGTGACTGTCACCGTGTTGGGAGTGAAAGGCAATCAGGTGCGCATAGGCGTCAATGCCCCGAAGGAGGTGGCCGTGCACCGTGAAGAGATCTACCAGAGAATCCAGAAAGAGAAAGATCAAGAACCAAGCCACTAA	MLILTRRVGETLMVGDEVTVTVLGVKGNQVRIGVNAPKEVAVHREEIYQRIQKEKDQEPSH	PGPT0015065_1660	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ENVELOPE_STRESS_SIGNALLING,PGPT0015065-csrA|zfiA-K03563	NA	NA
BMS010_01682	492			hypothetical protein	ATGCAAGGACTGCTACGCGCCACGCTCTGCGCGGCACTGCTCTACCCTTCTCCCACCCTGTTGGCTTCGACCGTCTTTCGCTGCGTCGATGCGACCGGCCATGTCACCTTCACCCTGAACGGCTGCCCCACCGACCAGGATCAGCAGTTGCAGGATGCCCACAACCCCACCCCAGGCGGAGGCAAGCCGGTTCCGATGGCCAAGCCGGGCAAGGCCGCCCGCCAGGAGAGGCGGGAAACGGGCGCGGTGCTCGTGGTGGGCGAGCGCCAGGATGGCTGCGGCAACCAGGTGACCGGCACTGCCCGCCGGGAAGCGATGGTCAAGCAAGAGATACGCGCCGGTATGACACGGGCAGACGTGGAAAGCGCGTTGGGCAAGCCGGACCGCATCAGCCGGCAGAACGGCCAGACCCGCTACCACTACCGGGATGCGAAGGGAAACAGCCGGCAAGTGAGCTTCGACGAATCCGGCTGCGTGAGAGGAAAGCGCTGA	MQGLLRATLCAALLYPSPTLLASTVFRCVDATGHVTFTLNGCPTDQDQQLQDAHNPTPGGGKPVPMAKPGKAARQERRETGAVLVVGERQDGCGNQVTGTARREAMVKQEIRAGMTRADVESALGKPDRISRQNGQTRYHYRDAKGNSRQVSFDESGCVRGKR				NA	NA	NA	NA	NA
BMS010_01683	1443		COG2239	Magnesium transporter MgtE	ATGACTGAAGTAGAAGCCAAAAAGCCGCAAGAGAGCCTGCAAGACCGTCTGTCGCAGGTGATCGACCTCCTGCACCGGCACAAGCTGGTCGAAGACCTGACCCATCGCCAGGAAGGCCACCATCACGAACTGGTGGAACACCTGGTCCATCGGCAGAACCTCGCCGAGCTGCAACGCAAGCTCGATGAACTGCACCCCGCCGACGTTGCCCATATCCTCGAAGCCCTGCCGCTGAACGACCGCCTGACCGTCTGGCAGTTGGTCAAGGCCGAGCGCGACGGCGACATCCTCCTCGAAGTATCCGACGCCGTGCGGGAGTCGCTGATCGCCGACATGGACGATCACGAGATCCTCGCTGCCGCGAAGGAGATGGATGCCGATGAACTGGCCGACCTGGCGCCCGAACTGCCGCGCGATGTCGTCCATGAGCTCATGGAGTCCCTCGATGCCCAGCAGCGCGAGCGCGTGCGTTCGGCGTTGTCCTACGAGGAGGACCAGGTCGGTGCCCTGATGGACTTCGAGATGGTCACCATCCGCGATGACGTCGCCCTCGAAGTGGTGCTGCGCTACCTGCGCCGTCTGAAGGAACTGCCGGGGCACACCGACAAGCTGTTCGTGGTGGACTACGACGGCATCCTCAAGGGTGTGCTGTCGATCAAGCGCCTGCTGGTCAACGACCCTGAGAAGCTGGTGGCCGAGGTGATGGCCAACGATCCGGTGAGTTTCCATCCGGACGACGATGCCTATGACGCCGCCCAGGCGTTCGAACGCTATGACCTGATTTCCGCACCGGTGGTGGAGAAGAACGGCAAGCTGATCGGCCGTCTGACCATCGACGCCATGGTCGACCTGATCCGTGAGGAGAGCGAAAGCGAAGTCCTCAGCATGGCCGGTCTGCGCGAAGAAGAAGACATCTTCGCCTCGGTCTGGAAATCGGTGCGCAACCGTTGGGCCTGGCTGGCAATCAACCTGATCACTGCCTTCGTCGCCTCGCGGGTGATCGGCATGTTCGAAGGCTCCATCGAGAAGCTGGTGGCCCTCGCGGCGCTGATGCCCATCGTCGCCGGCATCGGCGGCAATTCCGGCAACCAGACCATCACCATGATCGTGCGCGCCATGGCGCTGGATCAGGTCGGCACCGGCAATACCTCGCGGCTGCTGCGCAAGGAACTGGTGGTGGCCTTGATCAACGGCTTGGTCTGGGGTGGTGTCATCGGCGCAGTCGCCTACGGCCTGTACGGCAGTTGGTCGCTGGGTGTGGTGATGACGGCGGCGATGACCCTAAACCTGCTGCTGGCCGCGTTGATGGGAGTGCTGATTCCCATGACCCTGGTACGCCTCGGTCGCGACCCGGCCATGGGCTCCAGTGTCATGATCACGGCGATGACCGACAGCGGCGGCTTCTTCATTTTCCTCGGCCTGGCCACGCTGTTCCTGCTCTAA	MTEVEAKKPQESLQDRLSQVIDLLHRHKLVEDLTHRQEGHHHELVEHLVHRQNLAELQRKLDELHPADVAHILEALPLNDRLTVWQLVKAERDGDILLEVSDAVRESLIADMDDHEILAAAKEMDADELADLAPELPRDVVHELMESLDAQQRERVRSALSYEEDQVGALMDFEMVTIRDDVALEVVLRYLRRLKELPGHTDKLFVVDYDGILKGVLSIKRLLVNDPEKLVAEVMANDPVSFHPDDDAYDAAQAFERYDLISAPVVEKNGKLIGRLTIDAMVDLIREESESEVLSMAGLREEEDIFASVWKSVRNRWAWLAINLITAFVASRVIGMFEGSIEKLVALAALMPIVAGIGGNSGNQTITMIVRAMALDQVGTGNTSRLLRKELVVALINGLVWGGVIGAVAYGLYGSWSLGVVMTAAMTLNLLLAALMGVLIPMTLVRLGRDPAMGSSVMITAMTDSGGFFIFLGLATLFLL	PGPT0013995_416	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0013995-mgtE-K06213	NA	NA
BMS010_01684	255	oadG		oxaloacetate decarboxylase gamma chain	ATGACGTCCAGTCAACTCCTGCTCGAGGGTGTCGAGCTCATGCTGTTCGGCATGGGATTCGTCTTTTTCTTCCTCGCTTTGCTGGTATTCGCCATCCGCCTGATGTCCCGCCTGATCGGGCGCTTCGCGGCGGCCGCCCCGGTTCCTGCCGCCGCTCCTCTGCCGGTCAGGGTTGCCTCCGCACCGGAGCCGGAAGCCGATCTGCTCGCCGCTATCCAGTCCGCCATCCACCAGCACCGCGCCCGCCGCGGTTGA	MTSSQLLLEGVELMLFGMGFVFFFLALLVFAIRLMSRLIGRFAAAAPVPAAAPLPVRVASAPEPEADLLAAIQSAIHQHRARRG	PGPT0001945_422	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001945-oadG-K01573	NA	NA
BMS010_01685	1779	oadA_1	COG0511	Oxaloacetate decarboxylase alpha chain	ATGACTGCCGTTAAACAAGCACTCGGTATCACCGATGTGGTGCTGCGTGATGCCCATCAGTCGATCCTCGCCACGCGCCTGCGCCTGGAAGACATGCTGCCGATCGCGCCGAAGCTCGATCAGGTCGGCTTCTGGTCGGTGGAGTCCTGGGGCGGGGCGACCTTCGATGCCTGCATCCGCTATCTCGGCGAGGACCCGTGGGAGCGCATCCGCGCACTGAAGAAGGCCATGCCCAATACCCGTCAGCAGATGCTGCTGCGCGGGCAGAACCTGCTCGGCTACCGCCACTATGCGGACGACGTGGTGGAAAAATTCGTCGAGCGTGCCGCGGTCAACGGTGTCGACGTGTTCCGCGTGTTCGACGCGATGAACGATCCGCGCAACTTGCAGACCGCCCTGCAGGCGGTGAAACGCCAGGGCAAGCACGCCCAGGGCACCATCTCCTACACCACCAGCCCGGTGCATACCCTGGAAATGTGGGTCGATCTGGCCAAGCAGATCGAAGACATGGGTGCCGACTCGGTGGCGATCAAGGACATGGCGGGTATCCTCACGCCCTATATCGCCTTCGAGCTGGTCTCGCGCCTGAAGGCCAGCCTGTCGATCCCGATCCACATGCAGTGCCACGCCACGGCCGGCCTGTCCACCGCCGCCATCCTCAAGGCCGTCGAGGCGGGCATCGATAACGTCGATACCGCTATCTCCTCCCTGTCCATGACCTACGGCCACTCGCCGACCGAGTCGGTGGTCGCCATCTTCAAAGGGACCGAGCGCGACACCGGCCTTAATCTGGAGCTGCTGGAGGAAATCGCCGCCTACTTCCGTGAGGTGCGCAAGAAGTACGCGAAGTTCGAGGGCAACCTCAAGGGCGTCGACTCGCGCATCCTGGTCGCCCAGGTGCCGGGCGGCATGCTCACCAACATGGAAAGCCAGCTCAAGGAGCAGGGCGCCCAGGACAAGTTCGACCAGGTGCTGGCCGAGATTCCGCGGGTGCGCGAAGACCTCGGCTTCATCCCGCTGGTGACCCCGACTTCGCAGATCGTCGGGACCCAGGCAGTGATCAACGTGCTCACCGGCGAGCGCTACAAGTCGATCACCAAGGAAACCGCCGGCGTGCTCAAGGGCGAATACGGTGCCGCGCCCGCGCCGTTCAACGCTGAGCTGCAGGCCCGCGTGCTCGACGGCGGCGAGGCCATCACCTGCCGTCCGGCCGACCTGCTCGACGCCGAGATGGACAAGCTGACCGCCGAGCTCAAGGGTATCGCTCAGGAGAAAGGCTTCAAGCTGGCCAAGGACGAGATCGACGATGTCCTGACCTATGCGCTGTTCCCCCAGATCGGCCTGAAGTTCCTGGAGAACCGCGGCAACCCGGCGGTCTTCGAACCGGCCCCGACCGGCAAGGAAATGCCTGCCCGCGAAGCCGGCAAGCCCGAGGTCTATACCGTCGACGTCAACGGCAAGTCCTTCGTCGTTCAGGTCAACGAGGGCGGCGACATCACTGGCATCAAGCCGCTGGGCGGTGCATCCGCGGCGTCCTCCGCTCCGGCCAGCGTGCCGGCGGGCGGCGGCGAACCGCAGAGCGCGCCGTTGGCGGGCAACATTTTCAAGGTGCTGGTCCAGCCCGGCCAGGCGGTGCAGGAGGGCGATCTGGTGATCATCCTCGAGGCGATGAAGATGGAAACCGAGATCCGTGCCTTCAAGAGCGGCACTATCGGGAGCGTCAACGTCAAGGTCGGCGACGCGGTGGCGGTGGGCGACAGCCTGCTGACCATCGGCTGA	MTAVKQALGITDVVLRDAHQSILATRLRLEDMLPIAPKLDQVGFWSVESWGGATFDACIRYLGEDPWERIRALKKAMPNTRQQMLLRGQNLLGYRHYADDVVEKFVERAAVNGVDVFRVFDAMNDPRNLQTALQAVKRQGKHAQGTISYTTSPVHTLEMWVDLAKQIEDMGADSVAIKDMAGILTPYIAFELVSRLKASLSIPIHMQCHATAGLSTAAILKAVEAGIDNVDTAISSLSMTYGHSPTESVVAIFKGTERDTGLNLELLEEIAAYFREVRKKYAKFEGNLKGVDSRILVAQVPGGMLTNMESQLKEQGAQDKFDQVLAEIPRVREDLGFIPLVTPTSQIVGTQAVINVLTGERYKSITKETAGVLKGEYGAAPAPFNAELQARVLDGGEAITCRPADLLDAEMDKLTAELKGIAQEKGFKLAKDEIDDVLTYALFPQIGLKFLENRGNPAVFEPAPTGKEMPAREAGKPEVYTVDVNGKSFVVQVNEGGDITGIKPLGGASAASSAPASVPAGGGEPQSAPLAGNIFKVLVQPGQAVQEGDLVIILEAMKMETEIRAFKSGTIGSVNVKVGDAVAVGDSLLTIG	PGPT0001935_368	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001935-oadA-K01571	NA	NA
BMS010_01686	1137	oadB	COG1883	Oxaloacetate decarboxylase beta chain	ATGGAGAAGCTCCTCAAACTCTGGCAGAGCACTGGCCTGTATCACTTGGAACCGGGGCAGGCGCTGATGATCGTTGTCTGCCTGGGGCTGATCTACCTGGCGATCCGCAAGGGCTTCGAACCCTTGCTGCTGATCCCGATCGGCTTCGGCGGCATTCTGTCCAACATCCCGGTGGCCGACATGGCCGAAGGGGCGGGCGTACTGCACCTGTTCTACGAAGTGGGTTTGCCGACCAGTGTGTTCCCGCTCTTGATCTTCATGGGCGTGGGGGCGATGACCGATTTCGGCCCCATGCTGGCGAACCCCAAGACCCTGCTGCTCGGCGCCGCCGCCCAGTTCGGGATCTTCGGTACGTTGATCGGCGCCCTGGCGCTGACCGCGATGGGGATTCCCGGCATGGAGTTCACCCTGAAGGAAGCCGCGTCCATCGCCATCATCGGCGGCGCGGACGGCCCGACCTCGATCTTCGTGACCTCCAAGCTGGCGCCGGACCTGCTCGGTCCCATTGCCGTGGCGGCCTATTCCTACATGGCCCTGGTGCCGCTGATCCAGCCCCCGATCATGCGAGCCCTCACCAGCAAGGAAGAGCGTGCCATCGTCATGCAGCAATTGCGGCATGTCAGCCAGGCCGAGAAGATCGTCTTCCCGCTGGTGCTCTGCCTGCTGGTCGGTCTGTTGCTGCCGGACGCCGCGCCGCTGGTGGGCATGTTCGCCTTCGGCAACCTGCTGCGTGAATGCGGCGTGGTGGAGCGCCTGGCGGATACCTCGCGCAACGCGCTGATCAATATCGTGACCATCGCCCTGGGCCTGACCGTCGGTTCCAAGCTGTCGGCGGATGCCTTCCTGCAGATGAAGACCCTGGGCATCCTGCTGCTCGGCATGGTCGCCTTCTGTGGCGGTACCGCGGCGGGTGTACTGATGGCCAAGCTGATGAACCTGTTCAGCACGCAGAAGATCAACCCGTTGATCGGCTCGGCCGGCGTCTCCGCGGTGCCGATGGCGGCGCGGGTGTCGAACAAGGTCGGCCTGGAGGCCAACCCGCAGAACTTCCTGCTGATGCACGCCATGGGGCCGAACGTGGCCGGTGTGATCGGTTCGGCGGTGGCGGCGGGTGTTCTGCTGAACTTCGTCGGCTGA	MEKLLKLWQSTGLYHLEPGQALMIVVCLGLIYLAIRKGFEPLLLIPIGFGGILSNIPVADMAEGAGVLHLFYEVGLPTSVFPLLIFMGVGAMTDFGPMLANPKTLLLGAAAQFGIFGTLIGALALTAMGIPGMEFTLKEAASIAIIGGADGPTSIFVTSKLAPDLLGPIAVAAYSYMALVPLIQPPIMRALTSKEERAIVMQQLRHVSQAEKIVFPLVLCLLVGLLLPDAAPLVGMFAFGNLLRECGVVERLADTSRNALINIVTIALGLTVGSKLSADAFLQMKTLGILLLGMVAFCGGTAAGVLMAKLMNLFSTQKINPLIGSAGVSAVPMAARVSNKVGLEANPQNFLLMHAMGPNVAGVIGSAVAAGVLLNFVG	PGPT0001940_610	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0001940-madB|oadB|gcdB|mmdB-K20509	NA	NA
BMS010_01687	498			hypothetical protein	ATGCAACGCATCCAAACCATCACCCCCTGCCTATGGTTCGATGACCAGGGCGAAGACGCCGCTCGGTTCTATACCGGCATTTTTCCCAATTCACGGATCGTCACCATCACCCGCTACGGCGAAGCCGGGCGGGAAATCCATGGCCGCCCGGCCGGCGCAGTGATGACCGTAGAGTTCGAACTGGACGGCCAGAGCTTCACGGCACTCAACGGCGGCCCGGTATTCACCTTCAACGAAGCCATTTCGCTGCAAGTGAACTGCCGCAACCAGGAGGAAGTGGATTATTACTGGGAGCGCCTGTCCGCAGGAGGCGACGAACGCGCGCAGCAGTGCGGCTGGCTGAAAGACCGGTTCGGCCTGTCCTGGCAGGTGACGCCTACCGAACTGCTCGACATGATCGCCGACCCGGACGAAGCGAAATCGCAGCAGGCATTCACCGCGATGCTGCAGATGAAGAAAATCGAACTCGAGCCGTTGCGCCGGGCCTATCGCGGGTAG	MQRIQTITPCLWFDDQGEDAARFYTGIFPNSRIVTITRYGEAGREIHGRPAGAVMTVEFELDGQSFTALNGGPVFTFNEAISLQVNCRNQEEVDYYWERLSAGGDERAQQCGWLKDRFGLSWQVTPTELLDMIADPDEAKSQQAFTAMLQMKKIELEPLRRAYRG	PGPT0003920_2	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-POLYMYXIN_RESISTANCE,PGPT0003920-pmrB-K07645	NA	NA
BMS010_01688	1182	phaA_1	COG0183	Acetyl-CoA acetyltransferase	ATGAAAGACGTCGTTATCGTCGCCGCCACCCGTACCGCCATCGGCAGTTTCCAGGGCTCGCTGGCGAACATCCCCGCCCCGGAACTCGGCGCGGCCGTCATCCGTCGCCTGCTGGAACAGACCGGCCTGGACGGCGCGCAGGTGGACGAAGTCATCCTCGGCCAAGTGCTCACCGCCGGCTCGGGTCAGAACCCGGCGCGCCAGGCGGCGATCCAGGCCGGCCTGCCCCATATCGTCCCGGCGCTGACCTTGAACAAGGTCTGCGGCTCCGGCCTCAAGGCACTGCACCTGGCGGCCCAGGCGATCCGCTGCGGCGACGCCGAGGTGATCGTCGCCGGCGGTCAGGAAAACATGAGCCTGTCGCCCTACGTGCTGCCGAAGGCCCGCACCGGGCTGCGCATGGGTCATGCCCAACTGGTTGACAGCATGATCACCGATGGTCTGTGGGACGCCTTCAACGACTACCACATGGGCATCACCGCCGAGAACCTGGTGGACAAATACGGCATCCCCCGTGAAGAACAGGACGCCTTCGCCGCCGCCTCGCAACAAAAAGCGGTAGCCGCCATCGAAGAAGGCCGTTTCAAGGATGAGATCACGCCGATCCTGATTCCTCAGCGCAAGGGTGACCCGTTGGCCTTCGACACCGACGAGCAGCCGCGCCCGGATACCAGCGCAGCCAGCCTCGCCAAGCTGAAGCCGGCCTTCAAGAAGGACGGCAGCGTGACCGCCGGCAACGCCTCCAGCCTCAACGACGGCGCCGCCGCCGTCCTGATGATGAGCGCCGACAAGGCCGCCGCCCTGGGCCTGCCGGTACTGGCGCGGATCAAGGCCTACGCCAACGCGGGCGTCGACCCGGCGATCATGGGTATCGGGCCGGTCTCGGCCACCCGCCGCTGCCTGGAGAAAGCCGGCTGGTCCCTGGACCAACTGGACCTGATCGAAGCCAACGAAGCCTTCGCCGCCCAGTCGCTGGCAGTCGGCAAGGAACTGGGTTGGGACGCCGCCAAGGTCAACGTGAATGGCGGCGCCATCGCCCTCGGCCATCCCATCGGCGCGTCCGGCTGCCGCGTACTGGTGACACTGCTGCATGAAATGATCAAGCGCGACGCGAAGAAGGGTCTGGCCACCCTCTGCATCGGCGGCGGCCAGGGCGTGGCCCTGGCGATCGAGCGCGACTGA	MKDVVIVAATRTAIGSFQGSLANIPAPELGAAVIRRLLEQTGLDGAQVDEVILGQVLTAGSGQNPARQAAIQAGLPHIVPALTLNKVCGSGLKALHLAAQAIRCGDAEVIVAGGQENMSLSPYVLPKARTGLRMGHAQLVDSMITDGLWDAFNDYHMGITAENLVDKYGIPREEQDAFAAASQQKAVAAIEEGRFKDEITPILIPQRKGDPLAFDTDEQPRPDTSAASLAKLKPAFKKDGSVTAGNASSLNDGAAAVLMMSADKAAALGLPVLARIKAYANAGVDPAIMGIGPVSATRRCLEKAGWSLDQLDLIEANEAFAAQSLAVGKELGWDAAKVNVNGGAIALGHPIGASGCRVLVTLLHEMIKRDAKKGLATLCIGGGQGVALAIERD	PGPT0008320_10543	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
BMS010_01689	660	scoB	COG2057	putative succinyl-CoA:3-ketoacid coenzyme A transferase subunit B	ATGGCACTTACCCGCGAACAAATGGCCCAGCGCATCGCCCGCGAACTGCAGGACGGCTACTACGTCAACCTGGGCATCGGTATTCCCACCCTCGTCGCCAACTATGTCCCCGAGGGCATGGAGGTGATGCTGCAATCGGAAAACGGCCTACTCGGCATGGGCGCCTTCCCCACTGAGGACGAAATCGACGCCGACATGATCAACGCCGGCAAACAGACGGTCACCGCCCGTGTCGGCGCTTCCATCTTCAATTCCGCCGAATCCTTCGCCATGATTCGTGGAGGCCACGTAGACCTGACCGTGCTCGGCGCCTTCGAAGTGGACGTGATGGGCAACATCGCGTCCTGGATGATCCCCGGCAAGCTGGTGAAAGGCATGGGCGGCGCCATGGACCTGGTGGCCGGCGCGGAGAACATCATCGTGGTGATGACCCACGCCTCCAAGGACGGCGAGTCGAAGCTGCTGCCACGCTGCACCCTGCCGCTGACCGGCGCCGGCTGCATCAAGCGCGTGCTCACCGACCTCGCCTACCTGGAGATCGAGAACGGCGCCTTCTTCCTCCGGGAGCGCGCGCCAGGTGTTAGTGTGGAGGAAATCCGGGCCAGGACCGCTGGTGAGCTGGTGATCCCCGATCACGTACCGGAAATGCAATTCGACTGA	MALTREQMAQRIARELQDGYYVNLGIGIPTLVANYVPEGMEVMLQSENGLLGMGAFPTEDEIDADMINAGKQTVTARVGASIFNSAESFAMIRGGHVDLTVLGAFEVDVMGNIASWMIPGKLVKGMGGAMDLVAGAENIIVVMTHASKDGESKLLPRCTLPLTGAGCIKRVLTDLAYLEIENGAFFLRERAPGVSVEEIRARTAGELVIPDHVPEMQFD	PGPT0008330_451	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008330-scoB-K01029	NA	NA
BMS010_01690	699	scoA	COG1788	putative succinyl-CoA:3-ketoacid coenzyme A transferase subunit A	ATGGCAGGTTTCGACAAGCGCGTGAGTACCTACGCCGAAGCCCTAGAGGGCCTGGAGGACGGCATGACCGTCCTGGCCGGCGGGTTCGGCCTCTGCGGCATCCCTGAAAACCTCATCGCCGAAATCAAACGCAAAGGCACCCGCGACCTGACCGTGGTCTCCAACAACTGCGGCGTCGATGGCTTCGGTCTCGGCGTGCTGCTGGAAGACCGGCAGATCCGCAAGATGATCGCCTCCTATGTCGGCGAGAACGCCCTGTTCGAGCAGCAGTTGCTCAACGGCGAGCTGGAAGTGGAACTGACGCCGCAAGGCACCCTGGCGGAGAAGATGCGCGCCGGCGGCGCCGGTATCCCGGCCTTCTATACCGCCACCGGCTACGGCACGCCGGTAGCCGAAGGCAAGGAGGTACGTGAGTTCGGCGGCCGTCGCTACATCCTCGAACACGCCATTACCGGCGACTTCGCCATCGTCAAGGGCTGGAAGGCCGATCGCTACGGCAACGTCATCTATCGCCATACCGCGCAGAACTTCAACCCGCTGGCTGCCACCGCCGGGAAGATCACCGTGGTGGAAGTGGAGGAAATCGTCGAGCCCGGCGAACTGGACCCGAGCCAGATCCACACTCCCGGCATCTACGTCGACCGCATCATCTGCGGCACCTTCGAGAAGCGCATCGAAAAGCGCACCGTCCGCAGCTGA	MAGFDKRVSTYAEALEGLEDGMTVLAGGFGLCGIPENLIAEIKRKGTRDLTVVSNNCGVDGFGLGVLLEDRQIRKMIASYVGENALFEQQLLNGELEVELTPQGTLAEKMRAGGAGIPAFYTATGYGTPVAEGKEVREFGGRRYILEHAITGDFAIVKGWKADRYGNVIYRHTAQNFNPLAATAGKITVVEVEEIVEPGELDPSQIHTPGIYVDRIICGTFEKRIEKRTVRS	PGPT0008325_1491	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008325-scoA-K01028	NA	NA
BMS010_01691	918	cynR_1		HTH-type transcriptional regulator CynR	ATGACCGTCAAACAGCTCCGTGCCTTTCTGGCTGTGGCGCAAACCCTCAGCTTCGCCCAGGCCTGCGAGCGGTTGCACCTGTCGCAGTCGGCCCTGAGCCTGACGATCAAGGCGCTGGAAGACAGCCTCGGTGGGCGCCTGTTCAGCCGCACTACCCGTGCCGTCAGCCTGACGCCGGAAGGTGAAGCCCTGATGCCGCTGGCGCGGCGCTTGCTGGCCGAATGGGATAACGCCGAAGACGAACTGCGCCAGCGCTTCACCCTGCGCCAGGGGCGCGTCGCCCTGGCGGCCATGCCGTCCTTCGCCGGTAATTTGTTGCCGCCGATCCTCAAGGCTTTCCGGGCGCGCTATCCACGTATCGGCGTGACGGTCAACGACGTGATCAACGAGCAGGTTATCGAGATGGTTCGCGACCGCCACGTGGAGCTGGGGATCGCCTTCGAGCCGGAGTCGAGCACGCCGCTGAGCTTCATGCCGCTCTACGTTGATCGCTTCGTTGCCGTGGTACCGCTCGATTCCGCTCTCGCGGAGCGCGAGGAGGTGGGCTGGGCAGAGCTGCTGGAGCAGCCGTTCGTCACACTGCAGCGACCTTCCACCGTGCGCGTCATGCTCGAGGAACACCTGCGGGAGAGAGGGTTGAAGTTGCCGGTGGTGTTCGAAAGCCACCAGCTTGCCACGGTTGGACGGATGGTCGGCAGCGGGCTGGGCGTGAGTGCCGTGCCTGCGCTGTGCCGGATGCAGATGCGCGAACTGGGTGCACGTTGTATCCATCTGCGCGACCCGGTGATCGAGCGGCCGGTGGGTATTCTCACCAAACCGGGGCACGAGCTTTCCGTCGCCGCACAGGCGCTCGCCGATACCCTGCTGGCGGCTCGGCTGGATTTGAAGTGGGGCGAGGTTTCTCGAGAGGGCGAATGA	MTVKQLRAFLAVAQTLSFAQACERLHLSQSALSLTIKALEDSLGGRLFSRTTRAVSLTPEGEALMPLARRLLAEWDNAEDELRQRFTLRQGRVALAAMPSFAGNLLPPILKAFRARYPRIGVTVNDVINEQVIEMVRDRHVELGIAFEPESSTPLSFMPLYVDRFVAVVPLDSALAEREEVGWAELLEQPFVTLQRPSTVRVMLEEHLRERGLKLPVVFESHQLATVGRMVGSGLGVSAVPALCRMQMRELGARCIHLRDPVIERPVGILTKPGHELSVAAQALADTLLAARLDLKWGEVSREGE	PGPT0021950_414	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARNITHINE_USAGE	PLANT_DERIVED_CARNITHINE_DEGRADATION,PGPT0021950-dhcR-K17737	NA	NA
BMS010_01692	1077	hpd_2		4-hydroxyphenylpyruvate dioxygenase	ATGGCCGACCTGTTTGAAAATCCCATGGGCCTCATGGGTTTCGAGTTCATCGAATTCGCTTCGCCCACCCCGAATGTCATCGAGCCGGTGCTGGAGCACATGGGCTTCACCCATGTGGCGAACCACCGCTCCAAAGACGTGGCGCTGTACCGCCAGGGTGAGATCAACGCCATCGTCAACCGCGAGCGCAAGAGTCACGCCGCTTACTTCGCGGCCGAGCATGGGCCGTCGGTATGCGGCATGGCGTTCCGCGTCAAGGACGCGCAGAAAGCTTACAACCGTGCCCTGGAGCTGGGCGCCCAGGCCATCGAGATGCCCACCGGGCCGATGGAGTTGCGTCTGCCGGCAATCAAGGGCATCGGCGGTGCGCCGCTGTACCTGATCGACCGCTTCGGCGAAGGCAGCTCCATCTATGACATCGATTTCGTCTACCTCGACGGCGTGGATCGCCATCCGGTGGGTGCCGGCCTGAAGATCATCGATCACTTGACCCACAACGTGTACCGCGGACGTATGGCCTACTGGGCCGATTTCTACGAGAAGCTGTTCAACTTCCGCGAGATTCGCTACTTCGACATCAAGGGCGAGTACACCGGCCTGACCTCCAAGGCGATGACTGCGCCGGACGGCATGATCCGTATCCCGCTGAACGAGGAGTCGTCGAAAGGGGCGGGGCAGATCGAAGAGTTCCTGATGCAGTTCAACGGCGAAGGCATTCAGCACGTGGCTTTCCTCAGCGATGACCTGATCAAGACCTGGGACGCGCTCAAGGCCCGTGGCACCCGCTTCATGACCGCGCCGCCGGAGACTTACTACGAGATGCTCGAAGGCCGCCTGCCGAACCATGGCGAGCCGGTGGACGAGCTGAAGTCGCGCGGCATCCTGCTCGACGGTACCTCCGAAGGCGGTGAGCGCCGGTTGCTGCTGCAGATTTTCTCGGAAACGCTGCTAGGCCCGGTGTTCTTCGAGTTCATCCAACGCAAGGGCGACAGCGGCTTCGGCGAAGGCAACTTCAAGGCGCTGTTCGAATCCATCGAACGCGACCAGATTCGCCGGGGCGTGCTGACCACGCCATGA	MADLFENPMGLMGFEFIEFASPTPNVIEPVLEHMGFTHVANHRSKDVALYRQGEINAIVNRERKSHAAYFAAEHGPSVCGMAFRVKDAQKAYNRALELGAQAIEMPTGPMELRLPAIKGIGGAPLYLIDRFGEGSSIYDIDFVYLDGVDRHPVGAGLKIIDHLTHNVYRGRMAYWADFYEKLFNFREIRYFDIKGEYTGLTSKAMTAPDGMIRIPLNEESSKGAGQIEEFLMQFNGEGIQHVAFLSDDLIKTWDALKARGTRFMTAPPETYYEMLEGRLPNHGEPVDELKSRGILLDGTSEGGERRLLLQIFSETLLGPVFFEFIQRKGDSGFGEGNFKALFESIERDQIRRGVLTTP	PGPT0009480_1462	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0009480-hppD-K00457	NA	NA
BMS010_01693	894	cntI_3		Pseudopaline exporter CntI	ATGATCCTGCGTCTTCCATCCCCGAGCGGTGCTCCGCATCCGCTCCTGGGTATCCTCTTGATCAGCGTGGCGGTATTGCTGTTCGCCGTGCTCGACAGTCTCTCGAAATACCTGTCCGCTTTTCACAGCGTGGTGATGCTGGTGTGGTTCCGTTATGCGGTGCACACCCTGCTGCTGGCCGGCGTGCTGCTACCGCGCCGTGGGCTTGGCCTGTTGCGCAGCAAGCGACCGCTGCTGCAAGGGTTGCGAGGGCTATGTCTGTTCGCCACCAGCATGCTGTTCATCAGCGGGCTGCGCTATCTGCCCCTGGGCGAGGCGACGGCGATCAACTTCCTGGCGCCGTTGCTGGTCACGGTACTGGCGGTGCCGTTGCTGGGCGAGCGGGCGACCCGTGGTCAATGGGTCGCCGTCGGCGCAGGGTTCCTCGGCGTGCTGATCATCGTCCGCCCGGGCGGCGGCCTGATGACGCCGGCGATGTTGTTCCCGCTGGGTTCGGCGACCTGCTTCGGGCTTTACCAACTGATCACCCGGCGGATCGCGGGCACGGACGATGCCGCGACTACCAACCTGATCACCGGAGTGATCGGCACCCTGGGCACCAGCCTGCTGTTGCCGTTTTTCTGGGAGACGGCCTCTCCCGGCCATATTCTCGGCATGGCGGCCCTGGGCGTGATCGGCCTGTCCGGGCACATGCTGCTCACCTGGGCCTTTCTTTATGCCTCGCCGGTGCTGCTGGCGCCGTTCAGCTATGGGCAGATCCTCTTCGCCGGGTTGCTCGGCTACCTGTTGTTCGATCACGTACCGGATGCCGGTGCCTTGCTGGGCATGGCGGTGATCGCCTTGAGCGGCCTTGCCGTGGCGCTGAGGCAGCGGCGTCAGACGGGGCGGGGGTGA	MILRLPSPSGAPHPLLGILLISVAVLLFAVLDSLSKYLSAFHSVVMLVWFRYAVHTLLLAGVLLPRRGLGLLRSKRPLLQGLRGLCLFATSMLFISGLRYLPLGEATAINFLAPLLVTVLAVPLLGERATRGQWVAVGAGFLGVLIIVRPGGGLMTPAMLFPLGSATCFGLYQLITRRIAGTDDAATTNLITGVIGTLGTSLLLPFFWETASPGHILGMAALGVIGLSGHMLLTWAFLYASPVLLAPFSYGQILFAGLLGYLLFDHVPDAGALLGMAVIALSGLAVALRQRRQTGRG	PGPT0023680_142	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-SAM|QUEUOSINE|LIPID_METABOLISM,PGPT0023680-sam-K15270	NA	NA
BMS010_01694	1248	nicP_1		Porin-like protein NicP	ATGCCTTCACTCAACCCCCTGACCGGCGCCCTGCTCGCCGCTGGTGTCCTGACCCTCTCCACCTTGCCCCTCGCAGCCCAGGCCGAAGGCTTCATCGACGACACCAAAGTCAGCCTCAACCTGCGCAACTACTACATCAACCGCGACTTCCGCGACCCTAGCAACAGCCAAAGCCGTGCCGAAGAATGGACCCAGAGCTTCATTCTCAATGTCCAGTCCGGCTATACCCCCGGCCCGGTCGGTTTCGGCGTCGATGCCCTCGGTCTGTTCTCGGTCAAGCTCGATGGCGGCAAGGGCACCCGCGGCACCCAGCTCCTCCCGGTGCATGACGACGGCCGCCCCGCCGATGACTTCGGCCGCCTCGCCGTCGCCGCCAAGGCCAAGCTGAGCAAGACCGAGCTGAAAGTCGGCGAACTGTTCCCGGTGCTGCCGATCCTCCGCGCCGACGATGGTCGCTCGCTACCACAGACCTTCCAGGGCGGCATGCTCACCTCCACCGAGATCGACGGCCTCACCCTGCATGCCGGCCAGATGCGCCAGACCAGCACCCGCAATGACGCCAGCATGGAAGACATGACCGCCTTCGGTGCCGCCTCCGACCGCTTCAACTACCTCGGCGGCGAGTACGCGTTCAACGACAAGCGCACCCTCATCGGGCTCTGGAATGCCGAACTGAAGGACATCTACAGCCAGCAGTATTTCAACGTCGTTCATAGCCAGCCTCTCGGCGACTGGACCCTCGGCGCCAACGTCGGCTATTTCATCGGCCGCGAGGATGGCAGCGAACTGGCCGGCGAACTGGACAACAAGACCCTCTCCGGCCTGTTCTCCGCCAAGGTCGGCAGCCATGCCTTCTACGTCGGCCTGCAGAAGGTCAGCGGCGATAACGGCTGGATGCGCGTCGGCGGCACCAGCGGCGGCACCCTCGGCAACGACAGCTTCAACTCCAGCTTCGACAACGCCGACGAACGCTCCTGGCAGGCGCGCTACGACTACAACTTCGCTGGCGTCGGTATTCCGGGGCTGGTCAGCATGATCCGCTACATCCACGGCGAGGACGTGGATGCCGGCGGCGTCGACGACGGCAAGGAATGGATTCGCGACCTCGAACTGGCCTACACCGTGCAGGCCGGCCCGCTCAAGAACCTCAACGTCCGCTGGCGCAACTCCAGCGTCCGTCGCGATTGGAACAACAGCGACTTCGACGAGAACCGCCTGATCTTCAACTACCCGCTGTCGATTCTGTAA	MPSLNPLTGALLAAGVLTLSTLPLAAQAEGFIDDTKVSLNLRNYYINRDFRDPSNSQSRAEEWTQSFILNVQSGYTPGPVGFGVDALGLFSVKLDGGKGTRGTQLLPVHDDGRPADDFGRLAVAAKAKLSKTELKVGELFPVLPILRADDGRSLPQTFQGGMLTSTEIDGLTLHAGQMRQTSTRNDASMEDMTAFGAASDRFNYLGGEYAFNDKRTLIGLWNAELKDIYSQQYFNVVHSQPLGDWTLGANVGYFIGREDGSELAGELDNKTLSGLFSAKVGSHAFYVGLQKVSGDNGWMRVGGTSGGTLGNDSFNSSFDNADERSWQARYDYNFAGVGIPGLVSMIRYIHGEDVDAGGVDDGKEWIRDLELAYTVQAGPLKNLNVRWRNSSVRRDWNNSDFDENRLIFNYPLSIL	PGPT0023610_3	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-GALLATE_RESISTANCE,PGPT0023610-galP-K16517	NA	NA
BMS010_01695	474	bcp_1	COG1225	Peroxiredoxin Bcp	ATGGCCGTCGCCCTCGACCAAGCCGTCGCCGACTTCACCGCCCAGGCCACCAATGGGCAGCAGGTATCGCTGTCAGCCCTCAAGGGCAAGCAGGTGGTGATCTACTTCTATCCCAAGGACAGCACCCCCGGTTGTACCACCGAAGGCCAGGGCTTCCGCGACCGGCACGCCGAGTTCGCTGCGGCCAATACGGTGATCTTCGGCGTTTCCCGCGACAGCCTGAGGTCTCACGAGAATTTCAAGTGCAAGCAGGAATTTCCGTTCGAGCTGATTTCCGATGCGGATGAATCGCTCTGCCAGTTGTTCGATGTGATCAAGCTGAAAAAGCTCTACGGCAAGGAGTACATGGGTATCGACCGCAGCACTTTCCTGATCGACAAGGAAGGCGTCCTGCGCCAGGAATGGCGCGGGGTGAAAGTCCCCGGCCATGTCGATGCGGTATTCGCGGCCGCCCAGGCGCTGAACAAGGCCTGA	MAVALDQAVADFTAQATNGQQVSLSALKGKQVVIYFYPKDSTPGCTTEGQGFRDRHAEFAAANTVIFGVSRDSLRSHENFKCKQEFPFELISDADESLCQLFDVIKLKKLYGKEYMGIDRSTFLIDKEGVLRQEWRGVKVPGHVDAVFAAAQALNKA	PGPT0013120_2639	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013120-bcp|PRXQ|DOT5-K03564	NA	NA
BMS010_01696	558	gcvR	COG2716	Glycine cleavage system transcriptional repressor	ATGTCCACCCCTCCCGTCCGCGAACAATTTCTCGTCATCAGTGCCCTCGGCGCCAACCCCATGGAGCTGACCAACGTACTGTGCCGCGCCAGCCAGGAGAACCGCTGCGCGGTGGTGAGCAGCCGCCTGACCCGGCACGGTGAGTACAGCGCCCTGATCCTTCAGGTGTCCGGCAGTTGGGATGCACTCGCGCGCCTGGAGACCAGCCTGCCGACCCTGGCCAAGCGTCATTCGCTGACCATCAGCGTGAAGCGCAGCTCGGCGCTGGAAAGCCGCCCGCAATCGCTGCCCTACGTCGCCTACGTGAGCGCCGCCTACCGCCCGGACATCCTCAACGAGCTGTGCCAGTTCTTCATCGATCACCGGGTGGAGCTGGAGAGCCTCACGTGCGACACCTACCAGGCCCCGCAGACCGGCGGCACCATGCTCAACGCCACCCTCACCGTGACCCTGCCGCCGGGCACCCAGATCAGTTGGCTGCGCGATCAGTTCCTGGACTTCGCTGACGCCCTGAACCTGGATGCCCTGATAGAGCCCTGGCGCCCGCAGAACCCATAA	MSTPPVREQFLVISALGANPMELTNVLCRASQENRCAVVSSRLTRHGEYSALILQVSGSWDALARLETSLPTLAKRHSLTISVKRSSALESRPQSLPYVAYVSAAYRPDILNELCQFFIDHRVELESLTCDTYQAPQTGGTMLNATLTVTLPPGTQISWLRDQFLDFADALNLDALIEPWRPQNP	PGPT0026370_288	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026370-gcvR-K03567	NA	NA
BMS010_01697	882	dapA_4	COG0329	4-hydroxy-tetrahydrodipicolinate synthase	ATGATTTCGGGCAGCATGGTGGCACTGGTCACGCCCATGGATGCGCAGGGCGGTCTTGATTGGGACAGCCTGGGCAAACTGGTGGACTTCCATCTGCAAGAGGGCACCAATGCCATCGTCGCGGTCGGCACCACGGGTGAGTCCGCCACGCTGGAAGTGTCCGAGCATGTCGAAGTCATCCGTCGCGTGGTCGACCAGGTCAAAGGCCGGATTCCGGTCATCGCCGGTACGGGTGGCAACTCCACCCGCGAATCGGTCGAACTGACCCGCGCGGCCAAGGACGTCGGCGCCGATGCCTGCCTGCTGGTGACCCCGTACTACAACAAGCCGACCCAGGAAGGCCTGTACCAGCATTTCCGCCACATCGCCGAAGCGGTGGCGATTCCGCAGATTCTCTATAACGTACCCGGCCGTACCGCCTGCGACATGCTGCCGGAGACCGTCGAGCGGCTGTCCAAGGTGGCCAACATCATCGGCATCAAGGAAGCGACCGGCGACCTGCAGCGCGGCCGTGAGGTCCTGGATCGCGTGAGCAAGGACTTCCTCGTCTATTCCGGCGACGACGCCACCGCCGTCGAGCTGATGCTGATGGGCGGCAAGGGCAATATCTCCGTGACCGCCAACGTCGCGCCGCGCGCCATGAGCGAACTCTGTGCCGCCGCCATGCGGGGCGATGCCGCCGCCGCGCGGGCGATCAATGATCGCCTGATGCCGCTGCACAAGGCGCTGTTCATCGAGTCCAACCCGATTCCGGTGAAGTGGGCGCTCCACGAGATGGGGCTGATCCCCGATGGTATCCGTCTGCCGCTGACCTGGCTCAGCCCGCGTTGCCACGAGCCGCTGCGTCAGGCCCTGCGCCAGTCCGGCGTCATGGCTCAATGA	MISGSMVALVTPMDAQGGLDWDSLGKLVDFHLQEGTNAIVAVGTTGESATLEVSEHVEVIRRVVDQVKGRIPVIAGTGGNSTRESVELTRAAKDVGADACLLVTPYYNKPTQEGLYQHFRHIAEAVAIPQILYNVPGRTACDMLPETVERLSKVANIIGIKEATGDLQRGREVLDRVSKDFLVYSGDDATAVELMLMGGKGNISVTANVAPRAMSELCAAAMRGDAAAARAINDRLMPLHKALFIESNPIPVKWALHEMGLIPDGIRLPLTWLSPRCHEPLRQALRQSGVMAQ	PGPT0002080_8078	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
BMS010_01698	1122	bamC		Outer membrane protein assembly factor BamC	ATGAAGCGACTGGCCGGCCTCTCCGCCCTTGCCTTGATCATTTCCGGTACCAGCGGTTGCGGCTGGCTCTGGGGCGACGACGGTTATTTCCGCGATCGCAGCAGCGACTACCTCGAGGCGCGCCAGACCGCGCCCATGCAACTGCCATCGAACGTCGACGCCAAGCGCCTCGATCCGCTGCTGCCGGTCCCGCAGCAGGTCGCCACCAACACTGCGACCGGCGAGTACGAGGTGCCTCGTCCGCAGCCGTTGTCGGTGCGTGGCGAAGCCAGCGAGTTCAGCCTGCAGAAGAGCGGCGACTCGCGCTGGGTCGTGGCACAGCGCGCGCCGGCTGAAGTCTGGCCCGTGGCGCGCCAGTTCTTCGAGGACAACGGCTTCCGCATTGCCGAAGAACATCCGCAGACGGGCGAGTTCGTTACCGCCTGGCAGCGCTTCGACGAACTCTCCGCCACCATGGCGCGTCGCCTGAGCAGCCGCGTTTCCGGCGTGTCGCCGGATAGCGAGACCCGCGTGCGGGTGCGTATCGAGCCGGGCGTACAGCGCAACACCAGCGAGATCTTCGTGGTCAGCGTCGAGCGTTCCGCCGGCAGCACCGCCGATATCGATTTCCCCAGCCGTTCCGTCAACACCAGCCTGGACGGCGCGCTGCTCGACGAGATGATGGCGAGCATGGCACGCAGTGCCGAGCAGGGCGGCTCCGTTTCGCTGCTCGCCGCACGGGACTACGATGCGCCCAGCCGCGTGAGCCTGACCGAGGACGGCAACGGCAACCCGGTGCTGAACCTGGGGGCCGATTTCGACCGCGCCTGGTCCGGGGTCGGCCGTGCCCTGGCGGCGGGCGACGTGTACGTCGACGACCTCAACCGCAGTCTCGGCGTCTACTACATCAACCTGGCCGAAAGCGCCCAGGAACGCGCCGAGCCGCCGGGCTTCTTCAAGCGCCTGTTCGGTGGCGGCGAGCCGGACAAGGAAGAGATCGAAGCGCGTGCCGAGCGCTATCAGGTCCGCCTGACCAGCGTTGGCGACAGCGTGCAGGTCACGGTGGAAAAAGACATCAACACGGTCGCTCCGGCCGATGTGGCACGACGCATCCTGGGGCTCATCCAGGAAAACCTGGGCTGA	MKRLAGLSALALIISGTSGCGWLWGDDGYFRDRSSDYLEARQTAPMQLPSNVDAKRLDPLLPVPQQVATNTATGEYEVPRPQPLSVRGEASEFSLQKSGDSRWVVAQRAPAEVWPVARQFFEDNGFRIAEEHPQTGEFVTAWQRFDELSATMARRLSSRVSGVSPDSETRVRVRIEPGVQRNTSEIFVVSVERSAGSTADIDFPSRSVNTSLDGALLDEMMASMARSAEQGGSVSLLAARDYDAPSRVSLTEDGNGNPVLNLGADFDRAWSGVGRALAAGDVYVDDLNRSLGVYYINLAESAQERAEPPGFFKRLFGGGEPDKEEIEARAERYQVRLTSVGDSVQVTVEKDINTVAPADVARRILGLIQENLG				NA	NA	NA	NA	NA
BMS010_01699	870	purC_1	COG0152	Phosphoribosylaminoimidazole-succinocarboxamide synthase	ATGACCACTCCTACCTCCCTGAGCCTGAAGAAGATCTACTCGGGCAAAGTCCGCGATCTGTACGAGATCGATGCCAAGCGCATGCTGATGGTGGCCAGCGATCGTCTGTCGGCCTTCGACGTCATCCTCGACGAGCCGATCCCGGAGAAGGGCAAGATTCTCACCGCCATCTCGAATTTCTGGTTCGACAAACTCGCCGGCCTGGTGCCGAATCATTTCACCGGCGACAAGGTGGAAGACGTGGTCTCGGCCGAGGAACTGCCCTTGGTCGAAGGGCGGGCCGTGGTGGTCAAGCGCCTCAAGCCGGTGGCGGTGGAAGCCATCGTGCGCGGCTACATCGTGGGTTCGGGTTGGAAGGAATACCAGAAGAGCGGCACCGTCTGCGGCATTCCGTTGCCGGCCGGCCTGAAGGAGGCCGCCAAGCTGCCCCAGCCGATCTTCACGCCGTCCACCAAGGCGGCGGTGGGCGACCATGACGAGAACATCAGCTTCGAGCAGTGCGAAGCGATTATCGGCAAGGAGCTGGCCGCCAAGGTGCGCGACACCTCCATCGCTCTCTACAGCGCGGCGGTGGAGTACGCGGCCACCCGCGGCATCATCATCGCCGACACCAAGTTCGAGTTCGGCCTGGATGAAGACGGCACCCTGACCCTGATGGACGAGGTGCTGACGCCGGACTCCAGCCGCTTCTGGCCGGCCGAGAGCTACGTGGAAGGCAAGAACCCGCCGAGCTTCGACAAGCAGTTCGTCCGCGACTGGCTGGAATCCACCGGCTGGAACAAGCAACCCCCGGCCCCGGCCGTGCCCGCCGAAGTGGCGCAGAAGACCGCCGACAAGTACCGCGAGGCGCTGGTCAAGCTGACGGGCTGA	MTTPTSLSLKKIYSGKVRDLYEIDAKRMLMVASDRLSAFDVILDEPIPEKGKILTAISNFWFDKLAGLVPNHFTGDKVEDVVSAEELPLVEGRAVVVKRLKPVAVEAIVRGYIVGSGWKEYQKSGTVCGIPLPAGLKEAAKLPQPIFTPSTKAAVGDHDENISFEQCEAIIGKELAAKVRDTSIALYSAAVEYAATRGIIIADTKFEFGLDEDGTLTLMDEVLTPDSSRFWPAESYVEGKNPPSFDKQFVRDWLESTGWNKQPPAPAVPAEVAQKTADKYREALVKLTG	PGPT0021565_2400	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021565-purC-K01923	NA	NA
BMS010_01701	195			hypothetical protein	ATGAGCCAGCCGCAGGAACCCCGAAAGCCGACCTCGGAGGCCTCCCAGCCGGACAGCGCCCTCGATGAATCCATTCCCGGGGGTAGCTACAACGTCGATCCGGATACCGCCGACAAGGCCGGCGTGGAGCAGGAAACCCTGGAGGACAAGGACAGCGTGCCGGCACCCGAAGGCGAGGGGACGGAGCGCGAGTGA	MSQPQEPRKPTSEASQPDSALDESIPGGSYNVDPDTADKAGVEQETLEDKDSVPAPEGEGTERE				NA	NA	NA	NA	NA
BMS010_01702	225			hypothetical protein	ATGCAGAACTATCACCTCAGCCCGGCTGACGGCCGTTGGGTGCTCAGGGAAGAGGGATCGGATCGGGCGGTTCTGGAAGCCGCGACCAAGGAGGAGGCGGTGACGCGTATGCGCGAGTACATGCAGCAGCGCACCGGTTCGGTGAAGATTCACGGTCGCGACGGGCGGGTCGAAGAGGAGCGGACCTATCCGCGCGATCTGGATCCCCGCGCCAGCATGGGGTGA	MQNYHLSPADGRWVLREEGSDRAVLEAATKEEAVTRMREYMQQRTGSVKIHGRDGRVEEERTYPRDLDPRASMG				NA	NA	NA	NA	NA
BMS010_01703	1161			hypothetical protein	ATGCTGACGACACTCGCCGTCGCCAACTACCGCTCGATCAACAAACTGGTGGTACCGCTGACCCGCCTGAACCTGATCACCGGGCCGAACGGCAGCGGCAAGTCCAATCTCTACCGGGCCCTGCGCCTGCTCGCCGAAACGGCGCAGGGCGGCGTAGTCAATGCACTGGCGCGGGAAGGCGGCCTGGAATCGACCTTCTGGGCGGGACCGGAACAAATCAGCCGGCGCATGCGCAACCGCGAAGTGCCCATCGAAGGCGGCCCGCGCCAGCAGGCCGTGCGGCTCCGCCTGGGGTTCGCCGGGGAGGATTTCGGCTACGCCATCTCCCTCGGCCTGCCGCCACCCCTGACCAGCGCCTTCTCCCTGGACCCGGAGATCAAGCGTGAAAGTATCTGGGCCGGTCCGTTCTACCGTCCCGCCAGCGCCTTGGTGGAACGCGACGGGCCGCTGGTGAAAGCGCGTGAAGGTCGCAGCTGGGACGTGCTCTGCCAGCAACTGCCCACCTTCGACAGTCTGTTCGCCCAGGTCGGGGGCAGCTCGCCAGAAACCCTGGCGCTGCGCGAAACGATTCGCGGCTGGCGCTTCTACGACCACTTCCGCAGCGACGCCGACGCGCCGGCCCGCCTGCCGCAACTGGGCACGCGAACGCCAGTACTGCACCACGACGGCCGCGACTTGGCCGCCGCCCTGCAGACCATTCGCGAGATCGGCGACAGCGAGGCCCTGGATGCCGCGGTGAGCGATGCTTTTCCGGGGTCCCGGCTGCGCATCGCCTTCCAGGCGGGCGGGCATTTTTCCCTGGAGTTCCATCAGGAAGGCCTGTTACGACCGCTGACCGGCACCGAACTGTCCGACGGCACCTTGCGCTACCTGCTGCTGGTCGCGGCGCTGCTGACGCCACGGCCGCCTTCGCTGATGGTGCTCAACGAACCGGAAACCAGCCTGCACCCCGACCTGCTGCCAGCCCTGGCCCGTCTGATCATCCGTGCGTCCGGGCGCAGCCAGGTCTGGGTGGTCTCCCACGCCAGCCGGTTGATCGCCGCGCTCAACCAGCATCCGGAATGCAACGCCATCGTCTTGGAAAAGCATTTCGGCCAGACCGAGATCGCTGGCCAAGGCATGCTGGACGAGCCCGCCTGGTACTGGCCGGACCAGGGCTGA	MLTTLAVANYRSINKLVVPLTRLNLITGPNGSGKSNLYRALRLLAETAQGGVVNALAREGGLESTFWAGPEQISRRMRNREVPIEGGPRQQAVRLRLGFAGEDFGYAISLGLPPPLTSAFSLDPEIKRESIWAGPFYRPASALVERDGPLVKAREGRSWDVLCQQLPTFDSLFAQVGGSSPETLALRETIRGWRFYDHFRSDADAPARLPQLGTRTPVLHHDGRDLAAALQTIREIGDSEALDAAVSDAFPGSRLRIAFQAGGHFSLEFHQEGLLRPLTGTELSDGTLRYLLLVAALLTPRPPSLMVLNEPETSLHPDLLPALARLIIRASGRSQVWVVSHASRLIAALNQHPECNAIVLEKHFGQTEIAGQGMLDEPAWYWPDQG				NA	NA	NA	NA	NA
BMS010_01704	657	tam_2		Trans-aconitate 2-methyltransferase	ATGACACTCACTCCCGAAGACCTGGAACGGATCGCCTCCCTCACCCTCGCGCACTACGAACAGAGTGCCGAGGGGTTCCGCGAGGGTACCCGCGACCACGACGTGAGCCAGAACATCGCCGCGCTGCTGCGGCATATCCGGGCCGAACCGCCCTACACCCTCCTCGACCTCGGCTGCGGACCGGGCCGCGACCTCAAGGTGTTCCGCGATCTCGGCCATACGGCGGTCGGCCTGGACGGTGCGGCGCCCTTCGTCGAGATGGCACGGGCCGACAGCGGCTGTGAAGTCTGGCAGCAGGATTTTCTCTACCTCGACCTGCCGGCGGAGCGTTTCGACGGCATCTTCGCCAACGCCTCGCTGTTCCACGTCCCCGGCCAGGAGCTACCCCGTGTGCTCAGGCAGCTCCATGCCAGCCTCAAACCGGACGGCGTGCTGTTCAGCTCGAATCCGCGGGGGAACAACGAAGAAGGCTGGAACGGCCCGCGCTACGGCAGCTATCACGACCTCGACGGCTGGCGCCGCTTCATGACCGAAGCCGGGTTCGTCGAACTCGAACACTATTACCGCCCCACCGGCCTGCCGCGCGAACAACAGCCCTGGCTGGCCAGTGTCTGGCGCAAATCCACCTCAGCGACCAATGACCGGCCGACATGCTGA	MTLTPEDLERIASLTLAHYEQSAEGFREGTRDHDVSQNIAALLRHIRAEPPYTLLDLGCGPGRDLKVFRDLGHTAVGLDGAAPFVEMARADSGCEVWQQDFLYLDLPAERFDGIFANASLFHVPGQELPRVLRQLHASLKPDGVLFSSNPRGNNEEGWNGPRYGSYHDLDGWRRFMTEAGFVELEHYYRPTGLPREQQPWLASVWRKSTSATNDRPTC				NA	NA	NA	NA	NA
BMS010_01705	345			hypothetical protein	ATGAGATCGCACATTCGGATCGGAACCCTGCTGCTTGCGCTGTGCCTGAGCCTGCCGGCCCTGGCCATGTCCCTCAACGAAGCCATGTCAGCCCTGGGCTCGGCCAAGGCCAGCGGCCAGTTGGGCGAACAGCCCGACGGTTACCTCGGGGTGATCAAACCCGGCGGCCAGGCGGACGAGATCGCCAAGCTGATCAACCAGGCGCGCCGTACCGAGTACCAGCGGCTGGCCAAGGAGAACGGCATCCAGCTCGGCGACGTCGAAGCCATCGCCGGCCAGAAGGCCATCGAGAAGACCCCGAGCGGGCAGTACATCCAGTTGAACGGTAAATGGATTCGCAAATGA	MRSHIRIGTLLLALCLSLPALAMSLNEAMSALGSAKASGQLGEQPDGYLGVIKPGGQADEIAKLINQARRTEYQRLAKENGIQLGDVEAIAGQKAIEKTPSGQYIQLNGKWIRK				NA	NA	NA	NA	NA
BMS010_01706	192			hypothetical protein	ATGGGGTTGCGCAACCTAACCGCCCTTCTGCTGCTCGGCACACTGTGCGGTGCCTGTACGCCCACCGTGCAACTGGCGATGCCCAACGAGCCGATCAACATCAACCTGAACGTGAAAATCGAGCACGAGATCTATATCAAGGTGGACAAGGCGCTGGACAACATCATCAACGAAGACAGCGGATTGTTCTGA	MGLRNLTALLLLGTLCGACTPTVQLAMPNEPININLNVKIEHEIYIKVDKALDNIINEDSGLF				NA	NA	NA	NA	NA
BMS010_01707	2565			hypothetical protein	ATGGCAGGCCGGCGGAACTGGCTGCGAGTCACGGTAGTCCTGGCGATCACGCTGAGCGTGCTGGCTCTCTGCGTCTGGTATGCCTGGGGCCGCTTCCTCGACGCACAAGGCATCGACCGCCTGGAATGGCAAGGGCTGCGCCCCTCGTCCGGTGGTCTCGCACTGGCTCATCTGGAGCTGGAGCGCCAGGACGCTCAGGGCAGCCGGTTGCGCCTGGAAGCAGAAGGGATCGCGCTGGATTGGAGTCGCGACGAAGGCCTGCATCTGGAACGACTGGACGCCCGCCGACTGGTCCTCGACTGGCAGCCGTCCAGCGCAGTCGCCACCGCCACCTCGGCCCCGTTCGATCCCCAATCGCTGGGCTGGCTGCCACGCCACACACGCATTGACGAGCTGACCGTCGAACTGCCCTGCGCACAGGGTCGCTGCCTGCTCCAGGGCGCCCTGGAGCTGACGCATGCCGGTCCCCGCCTGCTGCCGATACAACTGGAAGCCGAGCTTCAACTCACACCGGAACAGCGGCTGCGGATATTGATCAACCTAGAGGGCACACCGGATAGCCCCAGCCTCGACGCCCGCCTGCTGATTGGCGAGGCGGAGCGCCTGAGCCTGCGCAGCGTGCTGGCGAGCGAAGCCGAGGGACGGACCTGGAGCGGCCAGTTGCTCCTGCCCGCCCTGCCCGAAGCGCCCTGGCTGCTGGAATGGTTGAACGAGTGGGTCGCCCTCCCGAAGAAAGATCTCCCGACGCCCCCGGATGCCCTGCGGTTGACGGCGGACTGGCAACTGCGCCTGCCCGACGGGCCCCTCGCGCCGGCGCTGCTGATCGATGCCGAGGGACAGGCGAACCTTTCCGCCCACCTGCCGGTTCCCTGGCCGCTGCCGGGCGTCGGCCAGATCCAGGGCGATCTGTCGGCCACCGTGCATACCGGCGAGGGACGCTGGTACCCCGACAAGCTGGATGCCGACCTGCAGCTCAGTGCGCTCAGCGGCGACTGGCTGACGGCGATCCCCGAGGCCCTGCGCCCGGAAACGCTCCGGTTGCAGGTACGATCCGCCGCGGTCAACGATGCCGACGCGCTACTTCCGCTGGACATCGATCTGCGCACCACCGGCCCGCTCGCCCTCAATGCGAAGGGCGCGCTGAACCTGGCCACTCAACCACCCTGGCAGGTGCAGTTCGACAAGACCCGCATCGGTGCCAAGGTGGCGCGCCTGTCCCTCGAAGGCATCGAGCTGCGGAGCCTGCAAACCGAGCTGCTGGTGAGCGGCCAAGTCGATGGGCAACAACTCAAGCTCACCTTGGGAGAGTCCTCCCGGATCGCCGTGGGTAGCGCGGCAGAACCCAATCTGCGCCTCGAACGGCTCGACGGCGAACTGGCCGGCCTGCGCGTGGAGGGCGTCTTCTCGGCCCAACCGCTCACCTGGCATATCCAGGGACCCTTGCGCCTCAAGGCGCAGCGCTTGGAGCAGGAACACCTGCACGCACAAGGCTGGCAGTGGCAGGGTGAAATCGACGCCAGCCAGGCCGGGCAGCGACTGGAGGGTGTGCTGCTCAACGACAGCGGCCTCAGCCTCAACCTGACCGGGCGGCAGGCCTCCGGCGAGCCCCTGGTCCTGAATGCCGAGCTGCCGGAAATCTTCCTCCGCGCCGGCAACCCGCTGGCCAAGACCCTGGCCGACTGGCCGGCGCTGCTCGACCTCAACAGCGGCCGCCTGTCGGCACGCGCCACGCTTCGCCTCCCCAGCGGCAGCGCCCCGGAAACCGACCTGAACCTGACCCTGAAAGGGTTGGCCGGCATCTATGACCGCACCGAAATCAGTGGCCTGGATGGCAGCCTGCGTCTGCAACTGCGCCAGCAGCGCCTGCACGTCGACATCCCCGAACTGAGCCTGCGCCAGGCCAACCCCGGCGTGCCCATCGGCCCGCTGCGCGGCCAGGGGCGCTACGTCGCCACCCTGGCGAAAACCCTCGAAGGGAAGCTGGACTGGCAACGCGCGGAAACCGGTTTTCTCGGCGGGCGCGTCTGGCTGGAAGCCGGCAGCCTGGATCTGGCACAACCCGGTGCCAGGTTGCCGCTGAAACTCCAGGGCCTGCAGTTGGAACAACTGTTCAAGGCCTACCCCGCCGAAGACCTGGCCGGCACCGGCACGCTGGACGGCCAGTTGCCGCTGTTGATCGACCCGACGGGCATTCGCGTGGAACGAGGCAGCCTGACGGCCCGCGAACCGGGCGGCCGGCTGCAGCTCCGCTCGGAGCGGATCAAGGCCCTGGGGCGCAGTAACCCGGCCATGCAACTGGTCGCCGATGCCCTCGACGACTTCCATTACAACGTGCTGGCCAGCGGCGTCAGCTACGACGAGCAGGGCCGGCTGCTGCTGGCGCTGCGCCTGGAAGGACGCAACCCCGCCTTGCAGGAGGGCCGGCCGATCCATTTCAACGTCAACCTGGAAGAGAACATTCCGGCTTTGCTGACCAGTCTGCAATTGACCGATCGGGTCAGCGAAACCATCAAACAACGCGTGCAGGAATCCCTGCGTCGAGGCAATACTTCCACATCCCCCTGA	MAGRRNWLRVTVVLAITLSVLALCVWYAWGRFLDAQGIDRLEWQGLRPSSGGLALAHLELERQDAQGSRLRLEAEGIALDWSRDEGLHLERLDARRLVLDWQPSSAVATATSAPFDPQSLGWLPRHTRIDELTVELPCAQGRCLLQGALELTHAGPRLLPIQLEAELQLTPEQRLRILINLEGTPDSPSLDARLLIGEAERLSLRSVLASEAEGRTWSGQLLLPALPEAPWLLEWLNEWVALPKKDLPTPPDALRLTADWQLRLPDGPLAPALLIDAEGQANLSAHLPVPWPLPGVGQIQGDLSATVHTGEGRWYPDKLDADLQLSALSGDWLTAIPEALRPETLRLQVRSAAVNDADALLPLDIDLRTTGPLALNAKGALNLATQPPWQVQFDKTRIGAKVARLSLEGIELRSLQTELLVSGQVDGQQLKLTLGESSRIAVGSAAEPNLRLERLDGELAGLRVEGVFSAQPLTWHIQGPLRLKAQRLEQEHLHAQGWQWQGEIDASQAGQRLEGVLLNDSGLSLNLTGRQASGEPLVLNAELPEIFLRAGNPLAKTLADWPALLDLNSGRLSARATLRLPSGSAPETDLNLTLKGLAGIYDRTEISGLDGSLRLQLRQQRLHVDIPELSLRQANPGVPIGPLRGQGRYVATLAKTLEGKLDWQRAETGFLGGRVWLEAGSLDLAQPGARLPLKLQGLQLEQLFKAYPAEDLAGTGTLDGQLPLLIDPTGIRVERGSLTAREPGGRLQLRSERIKALGRSNPAMQLVADALDDFHYNVLASGVSYDEQGRLLLALRLEGRNPALQEGRPIHFNVNLEENIPALLTSLQLTDRVSETIKQRVQESLRRGNTSTSP				NA	NA	NA	NA	NA
BMS010_01708	327			hypothetical protein	ATGGATGCCGAACACGCTCAAGCCACCCCGAGCCAGATTGCGCTGCTGGCCAACATCCTGGCCCTGTCCACGCGCAACATGACGGCCATCTCCGCCATGCTCGCGCAACTGGCGGCGCTTCTCGCCAAGAGCCGGGACCCTCACTTGCAGAATGCCGCCCAGGGCATGCTCGACCAGATCACCACGCTCGGCGCCGATCTGGATATGCAGTGGGACCTGATCCAGTCGCTGGAACGCTTCTGCCCACTCCTGGCCCGCACACCGCCCGCCCGTACCGCCCTGGTGACGGAAATCACCCTGACCGACCTGCCGAAGCCCCAACGTTGA	MDAEHAQATPSQIALLANILALSTRNMTAISAMLAQLAALLAKSRDPHLQNAAQGMLDQITTLGADLDMQWDLIQSLERFCPLLARTPPARTALVTEITLTDLPKPQR				NA	NA	NA	NA	NA
BMS010_01709	423			hypothetical protein	ATGAAGCCTCGCCCGCTGCCATCCCCGACTCTCGAATCCACCGATGCCCGTCCCGGCTTGCCATTGCGCGTCGCGCTCTGGCTGCTGGACAGTCCGCGCCTGGGCCATGCGCCGCGCGTCAAACGCTTCGCCGGCGAGTTGCTCAAGCAGCCGGCGCGCCAAGGCGTGGTGGTTGCCCAGAGTCGCCTGGGGCAGTTGCTCTGCCGCGACTGCGGCAATGCCCGCGACCGTCGTATCGGCTTCGAACTGCTGCGCCAGGCCGCCCGCGCCGGCGACCGCCGCGCCCAGGTGGAGCTCGGCCGGCTCTGTACCCAGCCCCACGTGAACGAGCCGGAACAGGCGCGTTTCTGGCTGGAACAGGCGGTCGCGCAGGGCTCCCACGAAGCCCGTCGTTTGCTGAACCGCCTGCCAATCCGTACCTGA	MKPRPLPSPTLESTDARPGLPLRVALWLLDSPRLGHAPRVKRFAGELLKQPARQGVVVAQSRLGQLLCRDCGNARDRRIGFELLRQAARAGDRRAQVELGRLCTQPHVNEPEQARFWLEQAVAQGSHEARRLLNRLPIRT	PGPT0000855_6725	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-ACIDITY|NITROGEN_RELATED_REGULATION,PGPT0000855-exoR-K07126	NA	NA
BMS010_01710	1485			hypothetical protein	ATGCCTTTCGATCCCATCCCCCTGCTGATCGGTTTCGCCAGCGCGGCCGTGCCGTTCGGCCTGCTGGCCTGGATGCTGTGGCGTCGCGCTGCCGATCCGGCGGCCAGGGCGTTGCTGGAAGAGCGCCTGGCCAATGCTCAATTGGCGATGGAAGGGCTGACCGCCCAACTGGATGCCGCCCGCGACGAAACCGCCTACCTGAATGAAGTGAAGGCCGGCCAGCAGGCCGAGCTGGCGGCGCTGCGCCGCGAGGTCGAGCTGTTGCAAGTGGAGCGCACCAGCGCACGGGAAGCCTTGCAGGCCTGGAATACCGAGCGCGAGCGCAAGGATGCCGAGCTGCGCCGGCTGGACAGCGAGCGGGCCGCCCTGGCAGCCGAGCTGCGCGAGCAGCAGCAGGCGCACGAGCAGCGCCTGGGAGACTTGCAGGCCGCGCGTGACGACCTGCGGGCGCAGTTCGCCGAACTGGCCGGACGGATCTTCGACGAGCGCGAACAACGTTTCGCCGAGAATAGCCAGCAGCGCCTCGGCCAGTTGCTCGACCCGCTCAAGGAACGCATCCAATCCTTCGAAAAGCGCGTCGAGGAGAGCTATCAGCAGGAAGCGCGCGAGCGTTTCTCCCTGGCCAGGGAACTGGAGCGGCTGCAACAGCTGAACCAGCGCCTGGGCGAGGAGGCGACCAACCTGACCCGCGCCCTGCAAGGGCAGAAGACCCAGGGCAACTGGGGCGAACTGGTGCTGGAGCGGGTCCTCGAACACGCCGGACTGGAGAAGGGCCGCGAGTACCAGACCCAGGTCAGCCTGAAGAGCAGCGAGGGCGAGCGCTTCCAGCCGGACGTGGTGATCCAGTTGCCCGGCGACAAGCAGGTGGTGGTGGACGCCAAGGTCAGCCTGACCGCGTTCCAGGCCCTGACCGCCGCCGAGGATGAGGAAAGCCGCACCCAGGCGCTCCGCCAGCATGTCCTGTCCCTGCGCAACCACCTGCGCGGTCTCTCGGTGAAGGATTACCAGCGCCTGGAAGGATTGCACAGCCTGGATTTCGTCCTGCTCTTCGTGCCCATCGAAGCGGCCTTCGCCGCCGCCTTGCAGGCCGATCCGGGGCTGTTCCAGGAGGCTTACGAAAAGCATGTGGTGATCGTCAGCCCGACCACCCTGCTCGCTACTTTGCGGGTGATCGACAGCCTGTGGCGCCAGGAGCGGCAGAGCCAGAACGCCCGCGAGATCGCCGAGCGTGCCGGGCAGCTCTACGACAAGTTCGTCGCCTTCGTGCAGGACCTCGACGAAATGGGCAGCCGCCTGCAGCAACTGGACCGTGCCTACGCCTCCGCCCGCAACAAGCTAGTGGACGGTCGCGGCAATCTGGTCAGCCGGGTGGAAAACCTCAAGCTGCTCGGCGCCCGTGCCAGCAAGACCTTGCCGGCCGATCTGCTGGAGCGTGCCGCCGGCGTCCTGCCGTTGTTCGACTCTGAGGCGGAGAGGGCGGAGTAA	MPFDPIPLLIGFASAAVPFGLLAWMLWRRAADPAARALLEERLANAQLAMEGLTAQLDAARDETAYLNEVKAGQQAELAALRREVELLQVERTSAREALQAWNTERERKDAELRRLDSERAALAAELREQQQAHEQRLGDLQAARDDLRAQFAELAGRIFDEREQRFAENSQQRLGQLLDPLKERIQSFEKRVEESYQQEARERFSLARELERLQQLNQRLGEEATNLTRALQGQKTQGNWGELVLERVLEHAGLEKGREYQTQVSLKSSEGERFQPDVVIQLPGDKQVVVDAKVSLTAFQALTAAEDEESRTQALRQHVLSLRNHLRGLSVKDYQRLEGLHSLDFVLLFVPIEAAFAAALQADPGLFQEAYEKHVVIVSPTTLLATLRVIDSLWRQERQSQNAREIAERAGQLYDKFVAFVQDLDEMGSRLQQLDRAYASARNKLVDGRGNLVSRVENLKLLGARASKTLPADLLERAAGVLPLFDSEAERAE				NA	NA	NA	NA	NA
BMS010_01711	921	ephD_1	COG1028	putative oxidoreductase EphD	ATGGAGAAAACCCTGTTGCGCGTGCGCGGCGATGGCGTCGAGCTGGCGGTCTACCGCTGGGGCAACCCGCGCGGCGTGCCCGTGCTGCTGGTGCACGGTTACCCGGACAACCACCGCACCTGGCTACCGCTGGTTAACGCACTGGCCGACGAGTTCCAGGTCTTCGCCTACGACGTGCGCGGCTGCGGCGCCTCGGACAAGCCCCGCGGTTACCGCCACTACCGGCTTCGGCATCTGGGCCGCGATCTGGAGGCAGTATTACGGGCGATCAGCCCCAGCCGCCCGGTGCACCTGGTGGCCCACGACTGGGGCTCGATCCAGGCCTGGGAAACAGTGACCGAGCCCCATTGCGCGCCGCTGCTGGCGTCCTACACCAGCATTTCCGGGCCCTGCCTCGACCACGTCGGCCACTGGATGCGCAACGCCCTGCGCCAGCCCGGACGCCGTTGGGCAGCCCTCGGCCAACTGCTGCACTCCTGGTACATCGCCTTCTTTCACCTGCCGTGGCTGCCGGAGCTGAGCTGGCGGCTGGGCATGGCGCGGTTGTGGCCCGGACTGATCCGTCGCCTGGAAGGCGTCACGCCGGACGCCAATCCCTGTCAGCTCGCCGATGGCTGCAACGGCGTGCAGCTCTACCGCGCCAACTTCTTCCGCAGCCTGACCCGACCTCGGCAGCGCGCCACGCAGGTGCCAGTCCAGTTGATCGTGCCGACCCGCGACCTGTTCGTGCGGCCGGCCCTGTTCGAGGAATTGCCGCGCTGGACCGAGCAGCTACAGGTGCGGGAAGTGCCGACCGGCCATTGGCGGCTGCTCATCGAAGGCAAGGCGCTGGCGACGTGGGTACGGGAGTTCGTGAGGCAACGGGAAGGGGCCCTATCAGCGGAGCCTGCCGCCCGGAAACGGGTTGGGCAGGCGGGTTGA	MEKTLLRVRGDGVELAVYRWGNPRGVPVLLVHGYPDNHRTWLPLVNALADEFQVFAYDVRGCGASDKPRGYRHYRLRHLGRDLEAVLRAISPSRPVHLVAHDWGSIQAWETVTEPHCAPLLASYTSISGPCLDHVGHWMRNALRQPGRRWAALGQLLHSWYIAFFHLPWLPELSWRLGMARLWPGLIRRLEGVTPDANPCQLADGCNGVQLYRANFFRSLTRPRQRATQVPVQLIVPTRDLFVRPALFEELPRWTEQLQVREVPTGHWRLLIEGKALATWVREFVRQREGALSAEPAARKRVGQAG				NA	NA	NA	NA	NA
BMS010_01712	813			hypothetical protein	ATGAAGAAGACCCCCGAACGCCTCAAACGCCTGCTGGGCATGGCCGTTGCGCCGGCAACCGCCGCCGCTCAGGAATTCACCGTCGACGAACTGGCCCAGGCTGCGCAGACCACGGTGCGCAATGTGCGCGCCTATCAGGATCGCGGCCTGCTGCCGCCCCCGGAGCGGCGCGGGCGGGTCGGCATCTACGGCAGCGAGCATCTGGCGCGTCTGCGGTTGATTGGCCAGTTGCTCGAGCGCGGCTACACCATCGCCAGCATCCGCGAATTGCTCGATGCCTGGGAACAGGGACGCGACCTGGCCCATGTGCTGGGCCTGGAAAAGGCCATCCTCGGCCCCGGCCAGCCGGAAGCGGCGGACATGCTCGGTTTCGACGAATTGCAGGCGCTGTTCGGCGAGGCATTGACCGAGGAGGTGATGGAGCAGGCGCTGGCCCTGGGGTTGCTGGAGTTCGCCGGGGATCGCTTGCGGGTCCCCAGTCCGCGTCTGTTCGCCGCCGGCCTGCAATTGTTCCGCGCCGGCCTGCCGCTGCCGGTGCTGCTGGCGCAGCTCGGCGAGATTCGCGGGCATGTCGAACAGGTCTCGGCGGGCATCGTGAGAATGATCGTCGGGCAACTGGTCAACCCGCTGCTCAGCGCCTCGCTGCCGCACGTGGACGAACTGGAGCGCCTCAGCGATCAACTGCTGCAACTGCGCCCGCTGGTGGAGCAGGTGGTCGAGGCCGAGCTGGCGCGTGGGCTGCAAGTGGCCGCCAACCGCGAACTGAGCGAGCGGGTCAGTCAGTTGCTGCAGGGTTTTCTCAAACCGGCCTGA	MKKTPERLKRLLGMAVAPATAAAQEFTVDELAQAAQTTVRNVRAYQDRGLLPPPERRGRVGIYGSEHLARLRLIGQLLERGYTIASIRELLDAWEQGRDLAHVLGLEKAILGPGQPEAADMLGFDELQALFGEALTEEVMEQALALGLLEFAGDRLRVPSPRLFAAGLQLFRAGLPLPVLLAQLGEIRGHVEQVSAGIVRMIVGQLVNPLLSASLPHVDELERLSDQLLQLRPLVEQVVEAELARGLQVAANRELSERVSQLLQGFLKPA				NA	NA	NA	NA	NA
BMS010_01713	1260			hypothetical protein	ATGCCGATCACCTCGGAGCTGTTGTTGAACCTGGCCACCGCCCTCGCGCTGGGCCTGCTGATCGGCGCCGAGCGCGGCTGGAGTGCCCGCGAAATCGACGACAACCGACTGGTGGCGGGCATCCGCACCTTCGGCCTGGCCGGCCTGCTCGGCGGCGTGGCGGCCTTGCTCGGTAGCCACTATGGGGCACCGGCCTGGATCGCCGTGCTGGCGGTACTCGGCCTGCTGCTGGTGGCCGGCTACATCGGTGACCTGGTCCTTACCCGCGACCAGGGCATGACCAGCGAAATCGCCCTGCTGCTGACCTTCCTGCTCGGCAGCCTGGCACTGTTCGACCACCGCGCCCTGGCCGCCGGCGGCGCGGTGGTGGTGGCCCTGCTGCTGAGCCTGAAGCAGCCGCTGCACGCGGCGTTGCAACGGTTGTCCGCCGACGAACTGTCCGGTGCGCTCAAGCTGCTGTTCATCTCGCTGGTGTTGTTGCCGGTGCTGCCGGACCGGACCTATGGCCCGTGGGCCGTCTTCAACCCTTACGTGACCTGGTGGATGGTGGTGCTGATCACCGGCATCGGCTTCGCCGCCTACGTGGCGATCCGCCTGGTCGGCACGCGCCAGGGCCTGCTGCTCACCGCCCTGCTCGGTGGCATCGTCTCGTCCACCGCCATGACCCTGACCCTGGCCCGCCTGCATGTGCACCGGCCGTTGAACACGCTGCTGGCGGCCGGGCTGCTGGCGACCTCGGCCCTGATGTTTCCCCGGGTGTTGCTGGAGGTCGGGCTGGTCAACGCCAACCTGCTGCCAACCCTGCTCTGGCCGCTGGGCAGTGCCATGCTGGTCTATGCCGCCGGCGCCCTGCTGTATTTCCGCCACGCCGGCCGGGAAGTTGCCGGGGAAGCCGAACCGCCCTTGAAGAACCCGTTCGAGATCGGCCCGGCCTTGCGCTTCGCCGCGCTGCTGGTGGCGATCCTGTTCCTGGTGGAGGCGGCCCGGCGATTTCTCGGCGAGACCGGGGTGTACATCGTCGCCCTGCTGGCCGGGCTGACCGACGTCGACGCCATTACCCTGTCCCTGGCACGCAATGCCCATCAGGAGTTGGCCGGCGATGTCGCCGTACAGGGCATCTTCCTCGCCGTCCTGAGCAACAGCCTGGTGAAAGGTGGGCTGATCGTCCTGATCGGCGGGCGCCAACTGGCCCTGCGCACCCTGCCGGTGATGGCCGGCGGATTGCTCGCGGGGGTGGTGGCGCTGGTTCTGGTGAACTGA	MPITSELLLNLATALALGLLIGAERGWSAREIDDNRLVAGIRTFGLAGLLGGVAALLGSHYGAPAWIAVLAVLGLLLVAGYIGDLVLTRDQGMTSEIALLLTFLLGSLALFDHRALAAGGAVVVALLLSLKQPLHAALQRLSADELSGALKLLFISLVLLPVLPDRTYGPWAVFNPYVTWWMVVLITGIGFAAYVAIRLVGTRQGLLLTALLGGIVSSTAMTLTLARLHVHRPLNTLLAAGLLATSALMFPRVLLEVGLVNANLLPTLLWPLGSAMLVYAAGALLYFRHAGREVAGEAEPPLKNPFEIGPALRFAALLVAILFLVEAARRFLGETGVYIVALLAGLTDVDAITLSLARNAHQELAGDVAVQGIFLAVLSNSLVKGGLIVLIGGRQLALRTLPVMAGGLLAGVVALVLVN				NA	NA	NA	NA	NA
BMS010_01714	3480	rcsC_3		Sensor histidine kinase RcsC	ATGTCGTTGTCCAGCGGGCTGATCGCCCTGGTCGCCCTGGCCTACATGGCCATCATGTTTTCCATCGCCTTCTATGGCGACCGCCGCCGCGCGCCCATGCCGCCGAAAGTGCGCGCCTGGGTCTACAGTCTTTCGCTGGCGGTGTATTGCACCAGTTGGACCTTCTTCGGCGCGGTGGGCCAGGCCGCCGAACAGCTCTGGGCATTCCTGCCGATCTACCTCGGCCCGGTGCTGTTGTTGCTGTTCGCGCCCTGGGTGCTGCAGAAGATGGTGATGATCAGCAAGCAGGAGAACATCACCTCCATCGCCGACTTCATCGCCGCCCGCTACGGCAAGTCGCAGTCCCTGGCGGTGGTGGTGGCGCTGATCTGCCTGGTCGGGGTGCTGCCCTACATCGCCTTGCAGCTCAAGGGCATCGTCCTCGGGGTGAACCTGCTCACCGGCGCCGGCGCCGACTCCACCGGCACCCGCGCCCAGGACACCGCGCTGATCGTCTCGGTGGTGCTGGCGCTGTTCACCATCCTCTTCGGTACCCGCACGCTGGACGTCACCGAGCACCACCGGGGGATGGTCCTGGCCATCGCTTTCGAATCCTTGGTCAAGCTGCTGGCCTTCCTCGCCGTCGGCGCCTTCGTCACCTACGGTCTCTACGACGGCTTCGACGATCTGCTCAGCCAGGCGCGCAACGCCCCGCAATTGGATGCCTTCTGGGCCGAGGCGGTGAACTGGCCGGCGATGCTGGTGCAGACCGGCATGGCGATGATCGCCATCGTCTGCCTGCCGCGGCAGTTCCACGTGACCGTGGTGGAAAACACCGCGCCCGAAGACCTCAAGCTGGCGCGCTGGGTGTTCCCCACCTACCTGTTGCTGGCCGCGCTGTTCGTCGTACCCATCGCCCTGGCCGGGCAGATGCTGTTGCCGCCGGGGCTGATCCCGGATTCCTTCGTGATCAGCCTGCCGCTGGCCGAAGCCCATCCGGCACTGGCGCTGCTGGCCTTCATCGGCGGCGCCTCGGCGGCCACCGGCATGGTCATCGTCGCCTCGGTGGCGCTGTCCACGATGATCTCCAACGACATGCTGCTGCCCTGGCTGCTGCGCCGGAAGACCACCGAGCAGCCGTTCGAGGCGTTCCGCCACTGGATGCTCACCGCCCGCCGCGTCAGCATCGTGCTGATCCTGCTGCTGGCCTACGTCTGCTACCGCCTGCTGGGTTCCAGCGCCAGCCTGGCGACCATCGGCCAGATCGCCTTCGCCGCCATCGGCCAGTTGGCGCCGGCGATGTTCGGCGCCCTGGTGTGGAAGCAGGCCAACCGCCGTGGCGTGTTCGCCGGCCTGGCCGCCGGCGCTTTCATCTGGGGCTACACCCTGGTGCTGCCGCTGGCCGCGCGCGGTTTCGGCTGGCCGCTGGAAAGCTTCCCCGGCCTGCGGACGATCCTCTACCAGCCGCTGTGGCTGGACATCGACCCGCTGACGCGCGGCGTGGTGCTGTCCCTGGCCGGCAACATCATGCTGTTCACCTGGGTGTCCTACTTCTCCCGCACACGGGTCTCCGAGCACTGGCAGGCCGGACGCTTCATCGGCCAGGAGTTCGGCGTCAAACCCAGCGGGCGCAGCCTGCTGGCGGTGCAGGTGGGCGACCTGCTGACCCTGGCCGCGCGCTTCGTCGGCGAGGAACGGGCACGGGACAGCTTCCAGCGCTTCGCCCAGCGCCAGGGCAAGACCTTCGAACCGCAGCAGAATGCCAACAGCGACTGGATCGCCCATACCGAACGCCTGCTCGCCGGCGTACTCGGCGCCTCCTCCACCCGGGCGGTGGTCAAGGCCGCCATCGAAGGCCGCGAGATGCAGGTCGAGGATGTGGTACGCATCGTCGACGAAGCCTCCGAGGTGTTGCAGTTCAACCGCGCCCTGCTGCAAGGCGCCATCGAGAACATCACCCAGGGCATCAGCGTGGTCGATCAGTCGCTGCGCCTGGTGGCCTGGAACCACCGCTACCTGGAGCTGTTCGCCTATCCCGAGGGCCTGATCTCGGTCGGCCGGCCGATCGCCGACATCATCCGCTACAACGCCGAGCGCGGCCTGTGCGGCCCCGGCGACGTGGAGGGTCATGTCGAGCGCCGCCTGTACTGGATGCGCCAGGGCCGCCCGCACACCTCCGAGCGGCTGTTCCCCAACGGCCGGGTCATCGAGCTGATCGGCAATCCCATGCCGGGCGGCGGCTTCGTCATGAGCTTCACCGACATCACCGCCTTCCGCCAGGCCGAGCAGGCGCTGATCGATGCCAACGAAAGCCTGGAGCAACGCGTCGCCGAGCGGACCCAGGAACTCTCGCAATTGAACCAGGCGCTGATCGAGGCGAAGAGCACGGCGGAGGCGGCCAACCAGTCGAAGACCCGCTTCCTCGCCGCGGTCAGCCACGACCTGATGCAGCCGCTCAACGCCGCACGGCTGTTCTCCGCCGCCCTCTCCCACCAGGAAGACGCCCTGCCGCCAGCGGCCCAGGACCTCGTCCGCCACCTCGACAGTTCGCTGCGCTCGGCGGAAGACCTGATCGCCGACCTGCTGGACATCTCGCGCCTGGAAAGCGGCCGGGTGACGCCGGAGCGCAGCGCCTTCCCGCTCAGTGCACTGTTCGACACCCTCGGCACCGAGTTCAAGGTGCTGGCCCAGGAGCAAGGCATCGACTTCCGTGTGTGCGGCAGCCGGCTGCTGGTGGAGAGCGACATGAAACTGCTGCGCCGGGTGCTGCAGAACTTCCTGACCAACGCCTTCCGCTACGCCAAGGGCCAGGTGCTGCTCGGCGTACGCCGCGAGGGCAAGCAGTTGCGCCTGGAGGTCTGGGACCGCGGTCCCGGTATCCCGGAAGACAAACGCAAGGAAATCTTCGAGGAGTTCAAGCGCCTCGACAGCCACCAGACCCGCGCGGAAAAGGGCCTCGGCCTCGGCCTGGCGATTGCCGACGGCCTGTGCCGGGTGCTCGGCCATCGCCTGGAAGTGCGCTCCTGGCCCGGCCGCGGCAGCGTGTTCAGCGTCAGCGTGCCCCTGGCCCGGAGCCTCTCCGCGCCGGCCGTCGCCAAGGTCGCCCAGGCCATCGACGGCCAGCCCCTCAGCGGCACCCAGGTGCTCTGCATCGACAACGAGGACAGCATCCTCACCGGCATGCACAGCCTGTTGTCGCGTTGGGGCTGCCAGGTCTGGACCGCGCGCAATCGCCTGGAATGCGAGCACCTGCTCGACGAGGACGTGCGTCCGCAACTGGCGTTGGTGGATTACCACCTCGACGAGGGCGAGACCGGCACCGAGCTGATGGCCTGGCTGCGCACCCGCCTCGGCGTACCGCTGCCCGGCGTGGTGATCAGCGCCGATGCCCGTCCCGAGTTGGTCACCGAGGTGCATGCGGCCGGCCTCGACTACCTGAGCAAGCCGGTCAAGCCCGCCGCCCTGCGCGCGCTGCTCAGCCGCCACGTGGCGCTGCGCTGA	MSLSSGLIALVALAYMAIMFSIAFYGDRRRAPMPPKVRAWVYSLSLAVYCTSWTFFGAVGQAAEQLWAFLPIYLGPVLLLLFAPWVLQKMVMISKQENITSIADFIAARYGKSQSLAVVVALICLVGVLPYIALQLKGIVLGVNLLTGAGADSTGTRAQDTALIVSVVLALFTILFGTRTLDVTEHHRGMVLAIAFESLVKLLAFLAVGAFVTYGLYDGFDDLLSQARNAPQLDAFWAEAVNWPAMLVQTGMAMIAIVCLPRQFHVTVVENTAPEDLKLARWVFPTYLLLAALFVVPIALAGQMLLPPGLIPDSFVISLPLAEAHPALALLAFIGGASAATGMVIVASVALSTMISNDMLLPWLLRRKTTEQPFEAFRHWMLTARRVSIVLILLLAYVCYRLLGSSASLATIGQIAFAAIGQLAPAMFGALVWKQANRRGVFAGLAAGAFIWGYTLVLPLAARGFGWPLESFPGLRTILYQPLWLDIDPLTRGVVLSLAGNIMLFTWVSYFSRTRVSEHWQAGRFIGQEFGVKPSGRSLLAVQVGDLLTLAARFVGEERARDSFQRFAQRQGKTFEPQQNANSDWIAHTERLLAGVLGASSTRAVVKAAIEGREMQVEDVVRIVDEASEVLQFNRALLQGAIENITQGISVVDQSLRLVAWNHRYLELFAYPEGLISVGRPIADIIRYNAERGLCGPGDVEGHVERRLYWMRQGRPHTSERLFPNGRVIELIGNPMPGGGFVMSFTDITAFRQAEQALIDANESLEQRVAERTQELSQLNQALIEAKSTAEAANQSKTRFLAAVSHDLMQPLNAARLFSAALSHQEDALPPAAQDLVRHLDSSLRSAEDLIADLLDISRLESGRVTPERSAFPLSALFDTLGTEFKVLAQEQGIDFRVCGSRLLVESDMKLLRRVLQNFLTNAFRYAKGQVLLGVRREGKQLRLEVWDRGPGIPEDKRKEIFEEFKRLDSHQTRAEKGLGLGLAIADGLCRVLGHRLEVRSWPGRGSVFSVSVPLARSLSAPAVAKVAQAIDGQPLSGTQVLCIDNEDSILTGMHSLLSRWGCQVWTARNRLECEHLLDEDVRPQLALVDYHLDEGETGTELMAWLRTRLGVPLPGVVISADARPELVTEVHAAGLDYLSKPVKPAALRALLSRHVALR				NA	NA	NA	NA	NA
BMS010_01715	570			hypothetical protein	ATGTTCAAAGCCAATCCAGTCATCCTGCAGCGTGGCGCGTTGCGCCTGGAGCCGCTGAGCGAATCGGACATTCCGGCGCTGGTGACACTCGCAGAAGCCAATCGCGACCTGCACATCTATATGAACGGCTCGCTGCGGCCGGACTGGTACCGTCAGGGGCTCGCCGAACAACGCGAGGAACGCGCCCTGGTGTTCGCCATCCGCCTGGGGGATGCACTGGTCGGGACCACCCGTTTCGCCGACTTCATGCCGGTGCTGCCGGCCGCCGAGATCGGCTGGACCTGGCTCGACCGCGCCCAGCACGGCAGCGGGCTGAACGCCTCGATCAAGTACCTGATGCTCAGGCACGCCTTCGAGGAATGGGAGCTGGTGCGGGTGCAACTGAAAACCGCGGCGAGCAACCTGCGTGCCCAGCGCTCCATCGAGAAACTCGGCGCGCAGCGCGAAGGGCTGCTGCGCAACCATCGGCGGCTGGCCGACGGCCGCCTGGACGACAGCGTGCTGTACAGCATCACCGACCGCGAATGGCCGGCGGTGAAGGCGCAATTGGAGGCCGGCTTCGTCAGCTGA	MFKANPVILQRGALRLEPLSESDIPALVTLAEANRDLHIYMNGSLRPDWYRQGLAEQREERALVFAIRLGDALVGTTRFADFMPVLPAAEIGWTWLDRAQHGSGLNASIKYLMLRHAFEEWELVRVQLKTAASNLRAQRSIEKLGAQREGLLRNHRRLADGRLDDSVLYSITDREWPAVKAQLEAGFVS				NA	NA	NA	NA	NA
BMS010_01716	849	rhaS_7		HTH-type transcriptional activator RhaS	ATGGAAACGGGCGAGCAGACACGCTTCTGGAGAGCCACCGGGCTCGGCGGTGTCGAACTGCTGCAGGCGCGCTACGTGGAGCAGTGCTTCGCGTCCCATGTGCACGAAGGCTACGTGATCACGGTGCTGGAGGACGGCGCCCAGTCCTTCCGCCATCGCGGCAGCGAGCACCTGGCCCCGGTGGGCAGCATGGTGCTGATCAACCCGGACGAGCTGCACAACGGCCGCAAGGCGGTGGAGCAGGGCTGGCGCTACCGCGGCTTCTATCCCGAATTCGAACACCTGCGCACGGTACTGGACGAACTCGGCCTCGACCGGGGCGGGCTGCCGTCGTTCAACTGCAGCGTTCTCTACGACCCCGAACTGGCCCGCCGCTTCCTCACCCTGCACCGCTTGCTCGAACAGCCGACGGAGACGCTCCAGCAACAGACCCTCTGGCGCGAGACCGTGCTGCTGTTGCTGCAACGCTACGCCAAGGTGCCGGAGGCGCCCGCTGCGGGTAACGAGCCCCGGGCCGTGCAGCGAGCCAAGGAACTGCTGGCCGCGCGGCTGAGCGAGCCGCCGTCGCTGGAAGAGCTGGCGGCTGCGGTGAACCTCTCGCCGTTCCACTTCGCCCGCATCTTCCGCCGCGCCACCGGCCTGCCACCGCATACCTGGTTCACCCAGCGGCGGTTGGAGCAGGCGCGGGCGTTGCTGAAGGAAGGTTGCGCACCAGGCGAAGTGGCCGCCCGCCTGGGCTTCGCCGACCAGAGCCACCTCAACCGGCAGTTCAAGCAGAGCTATGGCGTGGCGCCGGGTGTCTACCGGCAAGCCCATGGCCATGCGGGATCGCGTTCGCGACCGGGATAG	METGEQTRFWRATGLGGVELLQARYVEQCFASHVHEGYVITVLEDGAQSFRHRGSEHLAPVGSMVLINPDELHNGRKAVEQGWRYRGFYPEFEHLRTVLDELGLDRGGLPSFNCSVLYDPELARRFLTLHRLLEQPTETLQQQTLWRETVLLLLQRYAKVPEAPAAGNEPRAVQRAKELLAARLSEPPSLEELAAAVNLSPFHFARIFRRATGLPPHTWFTQRRLEQARALLKEGCAPGEVAARLGFADQSHLNRQFKQSYGVAPGVYRQAHGHAGSRSRPG				NA	NA	NA	NA	NA
BMS010_01717	1875			hypothetical protein	ATGACCGGCACTGCGATTCCCCATGGCTTCTGGCCCAGCGCCTGGACGGCCGAGCGCGCCGCCTCGGCGAGCCGCGATTTCGCCGAACTGCGCGCCGGGCATGGCGGCTTGTTCTGGCTCGAATACCGTCCCGAGGACGGCCGTTGCACCCTCTGGTTCCAGCGCGGCGGGCAGACCCGGTGCCTGACGCCGGAGGGCGTCTCGCTGCGCAGCCGGGTCTATGAGTACGGCGGCGGTGCCTTCTGCCTGACCGGCGACGGCGTGGCCTTCATCGACGAGGCGGACCAACAGGTCTACCGCCAGGCGCTGGATGGCGTACCGCGTGCGCTGACCGCACAGGGCGGCTGCCGCTATGGCGATCTGCATTTCGCCGCGGCCCGCAACGCGCTGCTGGCGGTGGAAGAGAGCCATGAGCCGGGTGGCGTCGTGCATCGTCTGGTGAGCCTGTCCCTGGCCGACGGGCAACGCGAGGTGCTGGGCGAGGGCGCCGACTTCTACGCATCGCCCTGTCTGAGCCCGGATGGCGAGCGGCTGGCCTGGGTCGAATGGAACCGTCCGGAACAACCCTGGACCGCGACCCGCCTGTGCGTGGCGACGCGGGATGCCTCCGGCCGCTGGTCGGCGCCGATCGTCCTGGCGGCCGGGGACGCGTCCGTGCAACAGCCGCGCTTCTCGGCCGAGGGCCGGCTGCATGCGTTGTCCGACCGCCTGGGCTGGTGGCAGCCCTGGTGCGAGCGGGACGGGGGTTGGCAGCCGCTGGACTCGGCACCTGCCGACCACGCGCCGGCGCCCTGGCAACTGGGTACGTGCAGCTACCTGCCGCTGGCGGACGGCGGACTGTTGCTCAGCCGTTTCGAGGACGGCTACGGCGTGCTGGTGGAGCGCGATGCCGATGGACAGGAGCGGCGCCTGGCCGAGTCCTTCAGTCGCTTTCGCCAACTGAGCGCCGATACCGAGTGTTTCTACTGCATCGCCGCGGCTCCCGAGCGCTTGCCGACGTTGCTGGCGATTCGGCGCGACACGGGCGCCGTGCAGATAGTGGCCGGCGGCGAGCAGCCCCTGGCCGAGGTGGAGTTGTCGCGGCCGGAGTCGCTGCGCTTCGCCAGCGGGGATGGGGAGGCGAGCCATGCGTTCTTCTATCCGCCGCGCAATGCCGGCCAGACCGCCGCGCCGGGGGCGAAGCCGCCGCTGGTGGTGTTCCTCCATGGCGGGCCGACTTCCGCCTGTTATCCGGTGTTCGATCCGCGCATCCAATTCTGGACCCAGCGGGGCTTCGCCGTGGCCGACCTCAACTACCGCGGCAGCAGCGGTTTCGGCCGTGCCTACCGGCAGCGTCTGCGGGGCAGTTGGGGTGTGGTGGACGTGGAAGATGCGGTGGCGCTGGTGCGGCATCTGGCCGAACGCGGTGCCATCGATCCGGCGCGGGCGTTCATCCGTGGCTCCAGTGCGGGGGGCTACACCGCGTTATGCGGCCTGGCCTTCACCGATGCTTTCGCCGGTGGCGCGAGCCTCTATGGAGTCAGCGATCCGCTGGCGCTGGGGCGGGTCACCCACAAGTTCGAGGCGGATTACCTCGACTGGCTGATCGGCGATCCCGAGCGTGACCTCGAACGCTACCGGGCCCGCACGCCACTGCTGCATGCCGGGCGTATCCAGGTGCCGGTGATCTTCTTCCAGGGCGGGCTCGACGCGGTGGTGGTGCCGGCGCAGACCGAATCCATGGTCGCCGCCCTGCGCGAGCGCGGCGTGCCGGTGGAATACCACCTCTATCCCGACGAACGCCATGGCTTTCGCCAGGCGGCCCACCTCAGCCATGCGCTGGAGCGAGAGTTTCGTTTTTACCAAAGGGTGTTGGCCGAAGCACCGAGGCAGTAG	MTGTAIPHGFWPSAWTAERAASASRDFAELRAGHGGLFWLEYRPEDGRCTLWFQRGGQTRCLTPEGVSLRSRVYEYGGGAFCLTGDGVAFIDEADQQVYRQALDGVPRALTAQGGCRYGDLHFAAARNALLAVEESHEPGGVVHRLVSLSLADGQREVLGEGADFYASPCLSPDGERLAWVEWNRPEQPWTATRLCVATRDASGRWSAPIVLAAGDASVQQPRFSAEGRLHALSDRLGWWQPWCERDGGWQPLDSAPADHAPAPWQLGTCSYLPLADGGLLLSRFEDGYGVLVERDADGQERRLAESFSRFRQLSADTECFYCIAAAPERLPTLLAIRRDTGAVQIVAGGEQPLAEVELSRPESLRFASGDGEASHAFFYPPRNAGQTAAPGAKPPLVVFLHGGPTSACYPVFDPRIQFWTQRGFAVADLNYRGSSGFGRAYRQRLRGSWGVVDVEDAVALVRHLAERGAIDPARAFIRGSSAGGYTALCGLAFTDAFAGGASLYGVSDPLALGRVTHKFEADYLDWLIGDPERDLERYRARTPLLHAGRIQVPVIFFQGGLDAVVVPAQTESMVAALRERGVPVEYHLYPDERHGFRQAAHLSHALEREFRFYQRVLAEAPRQ				NA	NA	NA	NA	NA
BMS010_01718	822			hypothetical protein	ATGCGTGTGATCGTTGCCGCTGCCCTGCTGGCCCTCAGCCTGCCGGCCTGCGCCCATGGCCTGTTGGAGAGCGTGCGGGGCGAGCGCCTGCCGATCCTCGTCGGCGCCCTGCTGTTCGGCGCGGCCTGGCTGCTCTACGGGCTCGGCGCCCGCCGGGTTCGCCCCCATGGCCGCGAAGCGTTGTGGATGCACGTCGCCATGCTCATCGCCGCGCTCTCCGCCTTCGGCCCGCTGGACGACTGGGCGGAAACCAGCACCAGCCTGCACATGCTGCAGCACATGCTGTTCATGCTGGCAGTGGCCCCGCTCTGGGCCCTGGGCCGGCCGCTGCCGCAATGGCGGGCGATGCTCGGGGTAACGCTGCAACCGCTGTGGAACGGCATCTTGCGGGCCGCCCGCTACCCGGTGGCAACGGCCATGGTGCACGGCGCGCTGATCTGGATCTGGCACACGCCGCGCCTTTATCTGCTGGCGCTGGAACATCCCGGCTGGCACATGATCGAGCACGCCTGCTTCCTGTTCAGCGCCTGGCTGTTCTGGTGGTCGTGCCTGCACGCGCACCCGCGCTTGGTGCCGCAGGCGTTGCTGGCGATGCTGCTGACGCTGATGCACACCGGCCTGCTCGGCGCCCTGCTGACCTTCGGCGACACACCGTTCTATGGCGATGCGCGGGACTTGCAGGACCAGCAGTTGGCCGGTCTGCTCATGTGGGTGCCGGGCGGGTTGGTCTACCTGGCCGGCGCCGGTTGGATCGCCTGGCGCTGGCTCGGCCGCCTGTGGCGACGCCAGCAGCGGGTCGGTAGCAGTCCCTTGGGCGAATGA	MRVIVAAALLALSLPACAHGLLESVRGERLPILVGALLFGAAWLLYGLGARRVRPHGREALWMHVAMLIAALSAFGPLDDWAETSTSLHMLQHMLFMLAVAPLWALGRPLPQWRAMLGVTLQPLWNGILRAARYPVATAMVHGALIWIWHTPRLYLLALEHPGWHMIEHACFLFSAWLFWWSCLHAHPRLVPQALLAMLLTLMHTGLLGALLTFGDTPFYGDARDLQDQQLAGLLMWVPGGLVYLAGAGWIAWRWLGRLWRRQQRVGSSPLGE				NA	NA	NA	NA	NA
BMS010_01719	354			hypothetical protein	ATGCGACCGCTGCGCTCGCCCTATAACCCGATCCACATCGCCCTCGGGCTGGTGATCTGGAGCCTGTGGTTCGTCGCGCTCTATGTCGGGCTGTCTGTGGCCTGCCGGGTGGCGCCGCCGGCCCTCTCGCTGGGGATGTGGAACTGGCTGAACCTGCTGCTGGGCCTGTTTTCGGTCGCCACCGTCGCCTTGCTCCTCGGCTTGGCGAGGTGGTCCTGGCGAGCCGCTTCCCGCGCGGGGAAACGCTCGCCGGAACGTTTCGCCGCCCGCCTCGCCGCCACCGTGCACCTGGTGGGGGCGGTGGCCACGCTGGTCGTCGCCGTGCCGCTGTTGAGGCTGCCGCCATGCGTGTGA	MRPLRSPYNPIHIALGLVIWSLWFVALYVGLSVACRVAPPALSLGMWNWLNLLLGLFSVATVALLLGLARWSWRAASRAGKRSPERFAARLAATVHLVGAVATLVVAVPLLRLPPCV				NA	NA	NA	NA	NA
BMS010_01720	2520			hypothetical protein	ATGAGCCGCGACATGCCCTCCCCCGAAGCCGAACGCCTGCACGAACGCTTCAACGCGGTGTGGGGCAACCCCACAGGCTGGCGCGCACTGACGGTGGTCAACCACACCACGGTGGGGCTGCGCTTCATGGTCACCGGGGCGCTGTTCTTTCTCTTCGGCGGCCTGCTGGCGATGCTGCTGCGCACCCAGTTGGCGCTGCCCGGACGCGATTTCATGGGGCCGGACCTGTACAACCAGGTCTTCACCATGCACGGCACGGTGATGATGTTCCTGTTCGCCGTGCCGATGATGGAAGGACTGGCGGTCTACCTGATCCCGAAGATGATCGGCGCCCGCGACCTGGTGTTCCCGCGCCTGTCGGCCCTGGGCTATTTCTGCTACCTGTTCGGCGGGCTGATCCTGGTGGCCAGCCTGTTTCTCGACATCGCCCCCAAGGCCGGCTGGTTCATGTACACGCCGTTGTCCAGCGCGGCGCATACGCCGGGGCCGAACTCGGACTTCTGGCTGCTGGGCATCACCTTCGTGGAGATTTCCGCGGTAAGCGCCGGGGTGGAGCTGGTGGTGTCGATCCTGCGCACCCGCACCCGGGGCATGACGCTGGATCGCATGCCGCTGTACGCCTGGTACATCCTGGTGATGGCGATGATGATCGTGGTCGGCTTCCCGCCGCTGATCCTCGGCAGCATCCTGCTGGAACTGGAGCGCGCCGCCGGCCTGCCGTTCTTCGAGGTGGCGCGGGGCGGCGACCCGCTGCTCTGGCAGCACCTGTTCTGGCTGTTCGGCCACCCGGAGGTATACATCATCTTCCTGCCGGCGGCGGGCATCGTCTCGACCCTGCTGCCGGTGTTCGCCCAGCGCCCCATCGTGGGCTATCGCTGGGTGGTGCTGGGGGTACTGAGTACCGGCTTCATCAGCTTCGGCCTGTGGGTGCATCACATGTTCACCGTGGGCATCCCGCAACTGGCGCAGGCGTTCTTCTCGGCGGCGAGCATGCTGGTGGCGATCCCCACCGGGGTGCAGATCTTCGCCTGGCTGGCGACGCTCTGGCTGGGGCGGCCGGTGTACCACGTGCCGATGCTCTGGCTGGTGGGCTTCCTGGTGATCTTCGTCGCCGGCGGGCTGACCGGGGTGATGCTGGCGCTGGTGCCGTTCGACTGGCAGGTCCACGACACCCATTTCGTCGTGGCCCACATGCACTACGTGCTGGTGGGCGGAATGTTCTTCCCGCTGATGGCCGGGCTCTACTACTGGCTGCCGCATTTCTCCGGGCGGATGCCTTCGGTGCGCCTCGGCCGCTGGGGGTTCTGGCTGGTGTTCGTCGGCTTCAACCTGACCTTCCTGGTGATGCACTGGACCGGCCTGCTGGGAATGCCCCGGCGCATCTATACCTACCCCACCGGCCTGGGCTGGGATTGGCCGAACCTGATCTCCTCCATCGGCAGCTTCGTGATGGCGATCGGCATCGCCACGGTGCTGCTGGACATCGTGCTGCACTTCCGTTTCGGCCTGCCGGCCAAGGAAAATCCCTGGCACGCGGACACCCTGGAATGGGCCACCAGCCTGCCACCCACGTCCTACAACTTCGCCAGCCTGCCGGAGGTTCGCGGACGCCATCCGCTGTGGGACGACCCGGGCCTGCCGCAGAGCATCGCCCACGGCGAGCACGCATTGGCGGTGATCGACCACGGCCGCCGCGAGACCTGGGGCTCGGACCCGCTGACCGGCCAGGTGCGCGAGATCATCCACCTGCCGGGCAACAGTTGGCTGCCGGTGATCGCCGCCGCGCTGATCGCTGGCGTCTGCCTGAGCCTGCTGACCCGCGCCTACGGGCTGGCGGCGCTGTTCGCGCTGGCCAGCCTCGGCGTGCTGCTGCGTTGGTCCTGGGAGAACGGTGCCCATCCCAAGGCAGCGCCGGACGCCAAGACCCAGCCCGGCGATCCGCCGCTGCATTCGCGTACCTGCGACGGGCCCGGCCTATGGGGGATGGCGGTGACGCTGCTGGCCGACGGTGCGCTCTACCTGTCGTTGCTGTTCGGCTGGTTCTACCTGTGGACGGTGGCGCCGGACTGGCAGGTCCCGGAGCGGGCCGGCTTCGACCAGCGCCTGCTGCTGGCCAGCGCCGTGCTGCTGGCCGTGGCCACCTTCTGGCAGCGGCGGCTGCTGGTGCGGTTGCGCCAGGGCGATGCGCGCGGACTGGCCGGTGGGTTGGCGGGCGTCGCCGGGCTCGGCCTGCTGCATGCAGTGCTGCTGCTCTGGGCGCTGCTCGGCGGCGAGCTGGCGCCACGGCAGACGGCACATGACGCGGTGATCGCCGTGGTGCTCGGCTATAGCCTGGTCCACGGCCTGCTCGCTGCCGTCCTCAGCGCCTTGCAGGGCTGGCGCGTGAGGTGCGGCTACGTCGGCGTCGAGACGCCTTACGAACCGCTGGTGGTGGAGCAGCTCTGGTACTACAACCTCGGCGTGCTGTGGATCGGCTACTTCGCCCTGGTGCTGTTCCCGCCGACCTGGGGGGCCGCCTGA	MSRDMPSPEAERLHERFNAVWGNPTGWRALTVVNHTTVGLRFMVTGALFFLFGGLLAMLLRTQLALPGRDFMGPDLYNQVFTMHGTVMMFLFAVPMMEGLAVYLIPKMIGARDLVFPRLSALGYFCYLFGGLILVASLFLDIAPKAGWFMYTPLSSAAHTPGPNSDFWLLGITFVEISAVSAGVELVVSILRTRTRGMTLDRMPLYAWYILVMAMMIVVGFPPLILGSILLELERAAGLPFFEVARGGDPLLWQHLFWLFGHPEVYIIFLPAAGIVSTLLPVFAQRPIVGYRWVVLGVLSTGFISFGLWVHHMFTVGIPQLAQAFFSAASMLVAIPTGVQIFAWLATLWLGRPVYHVPMLWLVGFLVIFVAGGLTGVMLALVPFDWQVHDTHFVVAHMHYVLVGGMFFPLMAGLYYWLPHFSGRMPSVRLGRWGFWLVFVGFNLTFLVMHWTGLLGMPRRIYTYPTGLGWDWPNLISSIGSFVMAIGIATVLLDIVLHFRFGLPAKENPWHADTLEWATSLPPTSYNFASLPEVRGRHPLWDDPGLPQSIAHGEHALAVIDHGRRETWGSDPLTGQVREIIHLPGNSWLPVIAAALIAGVCLSLLTRAYGLAALFALASLGVLLRWSWENGAHPKAAPDAKTQPGDPPLHSRTCDGPGLWGMAVTLLADGALYLSLLFGWFYLWTVAPDWQVPERAGFDQRLLLASAVLLAVATFWQRRLLVRLRQGDARGLAGGLAGVAGLGLLHAVLLLWALLGGELAPRQTAHDAVIAVVLGYSLVHGLLAAVLSALQGWRVRCGYVGVETPYEPLVVEQLWYYNLGVLWIGYFALVLFPPTWGAA	PGPT0004025_4	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004025-foxA|coxA|ctaD-K02274	NA	NA
BMS010_01721	885	ctaC	COG1622	Cytochrome c oxidase subunit 2	ATGGCGCGCGAAGTGACGTTGCTCTGGTGGGCGATGCTGGGCTTCGCCAGCCTGGTACTGCTGGGCGTGACCGCGCTCTGGCTGTACGCCATGCACCGCGCGCCGCGCGAAACCAGCGCCGAGCAGGCGCGGCGGATCAACCGGCGCTGGATCGTCGGCGGCGGCCTTCTGTTGCCCGGCCTGAGCATCCTTCTGCTGCTGGCCTTCGGCATCCCCGCCGGTCATCGGTTGCTACCGTTGCCGCTGGCCGAACCGCCGCTGCGCATCGAGGTGACCGGCCACCAGTGGTGGTGGGAAGTGCGCTACCCGGACGGCGTGGTCACCGCCAACCAGTTGCATATCCCGGCCGGCCGCCCGGTGGACCTGGCGGTGAGCAGCGCGGACGTCATCCATTCGTTCTGGGTGCCGCGCCTCGGCGGCAAGCTGGACATGATCCCGGGTCGTCGCCATGTGCTGCGCCTGCAGGCCGACCGGCCGGGCACCTATCGCGGCCAGTGTGCGGAGTTCTGCGGCAGCCAGCACGCGCACATGGCGATCCACGTGGTGGCCCACGACGAGCCGGCGTTCCAGGCCTGGCTGGCGGCGCGCCGCGAACGGCGCTTCTCACCGCCCCCAGGGGAGGCCGGCGCGGTGTTCGAGCAGCGCTGCGGGCGCTGCCACCGGGTCGCCGGGGTCAGCGAAGGCGGCCGTGCACCGGACCTGACCGACGTCGGCTCCCGCCCGAGCCTCGGCGCCGGCACTCTCGACAACCGCCCCGGCGCCCTGCGCCGCTGGCTGCGCGAGCACCAGCGGCTCAAGCCGGGCAACGGCATGCCGGCCCACGACGAGGTGGCGCCGGAAACCCTCGACCGGATCGCCGATTGGCTGGAGACGCTCGCCCCATGA	MAREVTLLWWAMLGFASLVLLGVTALWLYAMHRAPRETSAEQARRINRRWIVGGGLLLPGLSILLLLAFGIPAGHRLLPLPLAEPPLRIEVTGHQWWWEVRYPDGVVTANQLHIPAGRPVDLAVSSADVIHSFWVPRLGGKLDMIPGRRHVLRLQADRPGTYRGQCAEFCGSQHAHMAIHVVAHDEPAFQAWLAARRERRFSPPPGEAGAVFEQRCGRCHRVAGVSEGGRAPDLTDVGSRPSLGAGTLDNRPGALRRWLREHQRLKPGNGMPAHDEVAPETLDRIADWLETLAP	PGPT0004030_1839	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004030-foxB|coxB|ctaC-K02275	NA	NA
BMS010_01722	468			hypothetical protein	ATGGCCGGAAACGCCGACCACGAGCCCATCGTCAGCCGCGCCGCCCTCGGCGGCCACCCGCTGCACCCGATGCTGATCCACTTCCCGGTGGCCGCGCTGATCGGCCTGGTCGGCGCCGATTGCGCCTACCTCTTCAGCGGCGACCCGTTCTGGGCGCGCGCCGCGCTCTGGCTGGCCGGCGTCGGCGCGGGAGGCGGCTGGATCGCCAGCAGCATGGGGCTGATCGACCTGCTGTTCGTGCGGCGCATCCGGCAAAAGATCACCGCCTGGTGCCACGCCATCATCGCCGTGATGATGCTCTCGCTGGCCTCGCTGAACTGGTTGCTGCGCTACCGCGAGGATGCCGATTCGGTCGAGCCCTGGGGCCTCTACCTGTCGCTGCTCACCGCGCTGCTCATCGCCCTGGCCTCCTGGCTGGGAGGCCGGCTGGTCTATGAACACGCGGTGGGGGTGGATGTGGACGTCTGA	MAGNADHEPIVSRAALGGHPLHPMLIHFPVAALIGLVGADCAYLFSGDPFWARAALWLAGVGAGGGWIASSMGLIDLLFVRRIRQKITAWCHAIIAVMMLSLASLNWLLRYREDADSVEPWGLYLSLLTALLIALASWLGGRLVYEHAVGVDVDV				NA	NA	NA	NA	NA
BMS010_01723	414			hypothetical protein	ATGGATCTGCTGAAACTTCTGCACTTCGCCAGTCTGCTCGGCTGGTGCGGGACCCTGCTTTATCTGCCGGCGCTGATCGCGGCGGGCACGCGGCGCAGCGAGACGCTGTTCTACCGCGATCACGCGCACCTCACGCGATTGGTTTTCACCCTGGTGGCCACGCCGGCGGCGCTGCTGGCCATCGGGTCGGGGACGGCGCTGTTCCTGCGCGACGGCATCCTCGGCACCTGGCTGATTCTCAAGCTCACCACCGTGGCGGCGCTGGTGCTTTGCCACACGCTCTGCGGCGTGCTGGTGCTGCGCATCGAGCGGGTGCCGGAGCGCAGCGTCGGCCGCGAATGCGTGGGCATCGGCGTGCTGATCACCCTGCTGATCGCCGTCACCCTGTGGCTGGTATTGGCCAAGCCGTTCTGA	MDLLKLLHFASLLGWCGTLLYLPALIAAGTRRSETLFYRDHAHLTRLVFTLVATPAALLAIGSGTALFLRDGILGTWLILKLTTVAALVLCHTLCGVLVLRIERVPERSVGRECVGIGVLITLLIAVTLWLVLAKPF	PGPT0008480_2069	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008480-hemJ-K08973	NA	NA
BMS010_01724	768			hypothetical protein	ATGAAGTTTCGCTTGCTGCTCCTGATGGCGCTGCTGCTGCCGCTGACGGCTTGCACGGTGCACACGGGCGACTACGGAAGCGGCTACGGCCCGCCTTATGGTCCACCTCCCTACGGACGCTGGCGCTGGGACCCGGACCTGCGCGTCTACGTGAGCCTCGGCCATGCCCACCTCTACTTCGGCGATCGCTATTACTACCGCTGGCGTGACGGTGGCTGGTACTGGTCGCCGCACTACGACGGTCCCTGGAATGTCCGCGACTACCGCTACGTACCGCCGGGCCTGTACAAGAAATACCCCGCCCCAAAGGGCGCCCCGGGGTATGGAAACAACCCCGGTAATCGCTACCAGGGAGGCGGCTACGGCAACCAGCCGGGCCAGGGCAATTACAAATACCAGGACAACCGCTACCAGGGTCAGGGCAATTACCAGGGCCAGGGCAATCGCTATCAGGGCCAGGGTAACTACCAAGGCCAAGGCAATGGCTACCAAGGTCAAGGTAACTACCAGGGCCAAGGCAATCGCTATCAAGGCCAGAGCAACTACCAGGGGCAGGGCAACCGCTATCAGGGCCAGGGTAACTATCAAGGCCAAGGCAATCAGTACCAGGGCCAAGGCAAGCAGCAAGGCAACGGCCTGATCAACAGCGCCCCGCAGGGCCAGCCGATGAAGCAGGGGGGCGGCAACAACAAGGGGAACAGCGGCAAATGGCAGCCCCAGCCTCAGCCCCAGGGGCAAGGTCAAGGGCAGGGCAAAGGCCTGTATTGA	MKFRLLLLMALLLPLTACTVHTGDYGSGYGPPYGPPPYGRWRWDPDLRVYVSLGHAHLYFGDRYYYRWRDGGWYWSPHYDGPWNVRDYRYVPPGLYKKYPAPKGAPGYGNNPGNRYQGGGYGNQPGQGNYKYQDNRYQGQGNYQGQGNRYQGQGNYQGQGNGYQGQGNYQGQGNRYQGQSNYQGQGNRYQGQGNYQGQGNQYQGQGKQQGNGLINSAPQGQPMKQGGGNNKGNSGKWQPQPQPQGQGQGQGKGLY				NA	NA	NA	NA	NA
BMS010_01725	5916			hypothetical protein	ATGGACCCCGCGCTCCGGCAATTGCTCGGCGAGACGGATTCAGGCGAGATCGAGGCCATCATCCGCCTGGCCACCCCGCCCCGGACACCGCCCGGCGTGCGCCTCGTCGCACGCTTCGGCGAGACCATCGCCACCTGCCGCATCGCCCATGACCAGGTGGTGGAAACCTGGGCCGACGACGCGGTGGTCAGCCTGAAGGCGGCTCGCCCGTTCAACGACGACGAAGGGACCGCCGAAGGCCACGACGCCCCTCCGGAAGACCCCGCCCCACTGGACCGGCGCCCGGCCGATCTCGACACCACCGGCGAGGGCGTGATCGTCGCGGTGATCGACTGGGGCTTCGATTTCGCCCACGACAACTTCCGCAACGACGATGGCTCGACGCGCATCCTCGCCCTCTGGGACCAGACCAGCCGGACCGGCCCGACGCCCCAGCCCTACGGCTACGGGCATGTGTTCAGCCGCGAGGACATCGACGCCGCGCTGGCATCGCCGCGCCCCTATGCGGCGCTCGGCTATCACCCCGGCGTCGCCGACCGGGGCGGACAGGGCTGCCACGGCACCCACGTGCTGGACATCGCCGCCGGCAACGGCCGGTTGCCCGGCTCCCCCATGGGCGTGGCGCCCCGCGCCGAATTCCTGCTGGTCCACCTGGCGACCCGCGGGACCGACGGCGAAGCCAACCTGGGCGACTCGGTGACCCTGCTCGAAGGGTTGGACTGGATCCGCCGGCAAGCCGGTCGCCGCCCCTGGGTGGTGAACATGAGCGTCGGCCGGCACGGCGGCCCGCACACCGGCCTGACCCTGGTCGAGCTGGGCATCGACGCACTGCTCAACGAAGCACCCGGCCGCTGCGTGGTGCAAAGCGCCGGCAACTACTACGCGTCCAACGTGCACAGCGGCGGGCAGTTGCGCCCCGGCGAGACGCGCCGGCTGCGCTGGCAGGTCGGCGCGGCGGACCGCACGCCGAACGAGCTGGAAATCTGGTATTCGCGCCACGACGGCCTGGGCGTGACCCTGATCCCCCCGGATGGCCGCGGGGCAATGACCGTGCCCCTGGGCGGCGATGCGCCGATCCTGTCCGGTTCGCGGACCGTCGGGCACTTCTACCACCGCGCCCGCGACCCGAGTAACGGCGACAACCACGTCGACATCTTCCTGGAAACCGACGCGCCGCCCGGCGAATGGCAGGTGCGCCTGTACGGCGACGACGTGATCGACGGCCGCTACAACTGCTGGGTGGAGCGCGACTCGGCATGCCGCACCTGCCAGTCGCGCCTGCACCCACAGGATGCCGACCCGCGCAGCACCACCGGCACCATCTGCAACAGCCAGCGCAGCATCGCGGTCGGTGCCTATGACGCCGAGGACCCGGACCGCCCGCTGGCTCGCTTCAGCAGCGCCGGCCCGACGGTGGACGGGCGCATCAAGCCGGATCTGGTCGCACCCGGCGTACAGGTCTGGGCGGCCCGCTCCACGCCCCGGCGCTCCCACACGCCGCGCCCGGCACTGGTGGCCAACTCCGGCACCAGCATGGCGGCGCCCCATGTCACCGGGACCGTCGCCAACATGTTCGAGGCGGCGGGCCGCGCACTGTCCATCGAGGAAACGCGCCGCCTGCTGCTGGGCAGCACCGAGCCGCCCGCGCCCGACGACGACCCGATGCGGATCGGCAGCGGCTACCTGGACCTGTCCCGCGCCGTCGCGGCGACCCGGGCCTGGGTGCGGGCCCATCCGCTGCAGCCCTCCCCCGGCGAACGCCTGACACCCCAGCCCCACCCGCCCGCCGCCAGCGGGTTCCCCACCGCCGATATCCCCATCCGGGCCGGCCTGACCGCACGGCCGCTGGCCGCAGCGGTGGAGGCCACCCGTGAATCTCCCCTGGAGACCGCCATGGCACACGAACGCTTCATCCCCTACGCAGAGAACGAACCCGAAGACGCCGAGGCGCTGATCGAAACGGCACTGGCCGAGGCCATCCCCGGCCAGTCCCTGTACGACGCAACGGGCGCCCCGGCCGGCGTCGCCGACCTCTTCGACAGCCTGGCGGGCTACCACGGCGAGGCCATGCGGCGGCACTACCAGCAGTTCGTCGAGGTGGTCGGTGCGCCCGGCGAGTCGGTCGCCGGCCAGTTGCGCCCTGGCGACATCCTGCTCGAACGCGCCTTCGGCGAGGGTTCGCTGGCCAGCGCCACGCTGATCACCGAGGACGACCTCGACGCATTCGACGAAAGCAGCGACTGCTCCCATCCCGACTGCGAATGCGTCCGCTGCCGCCGCGCCGGCCGCCGTCGGCGCCTGGCGCGCAATCGCCTGGTGGTGCGGCCACGCGCCGCGGCCGACACGGCGATGGAGTACGACGAAGACGTCGAAGCCCTGGAATGGGGCCTGCCCGCGGACGACGAAGAGAGCTACCCCGACGAAGCCGTGCCGGCGCCGCCGATGGCCGTGCCGGCCCGCGACCCGGTGCCCTTCGCCCCGGACCCGCCGGCGGGCAGCTACTGGCCCATCGTCACCAGCCACCCGCGCGGCCGCGAGGTCAACTATCGGGCAGCGGACGGCTCCTATGTCGGCGCCCAGGCGGGCCGGGCGTTCCTCGCCAGCCGCAGCAGCGGCGCGCGCTACCACGTCGGGATCGACCTGTTCGCCAACCTCGGCGACCCGGTGGTGGCCATCGAGGACGGCCGCGTCATCAGCTTCTACGGCTTTTGCTGCGGCAAGCAGATGACCACCAACGCGCTGCTGGTGGAGCACAGCAACGTGGTGGTGAACTACGGCGAGGTCGCCCCCGACTCGCTGCGGCGGGCGGGCCTGGCGATCGGCTCCAGCGTGACGGCGGGCCAGGTCATCGGCTATGTCGGGCGCAACCCCGGCGGCAGCAGCATGATCCACTTCGAGACCTACGTGCCCGGCACCCGGCGCAACAGCCGTTTCCCGGTGGGCAGCCGCCGTCCGGCGCCGCTACTGAACCCCACCTCGTACCTGCTCTGGCTGCAGACTCACGGACGCACGCCCGGCTCGGCCGGCGGGGGTACAGGCAGCGGCGCCACGGGAAGCGCCGGCACCGGCACGGGCTCCAGCTCCAGCTCCAGCTCCAGCTCCAGCTCCAGTGCGACCGGCACCCTCGGCGCCCTGCTCTCCGCCGTCGGCTCGGCGGCTTCCGCCGTCATGGAAGCCCTGAGCAATGGACTCTGGCCGAACGCCGTGCGCCTGGCCATCGCGGGCGGGCAACGCGACCCGAACGCGCTGACCAACATGGTGTTCTTCGCCCGCCACCCGGAACGCAACGGCCGCCCCCTGGCGCAGGGTGAAGCGGACTTCGCCCGGCTGAGCCGGGAGTGGCTGGACATCCGCAACAATCTGGTCCGCCCGGCTCTGGCCGGAAGCGCCAGCGAGGGGCTGAACGACGATGGCGCGGAAGCACTCGAAACCAGCGGCGAGCGCGCGCTGCAACAGGCGCCCAACCAACCGATCGGGGCGACCCCGCTGACCGACGCCGAATGGCACAACCTGGAACTCTGGCTGGGCCGGGGCGAAGTGGGCGTCGAACCGCTGACCGCCGACGCCGACCGCAACGCCCTGATCGTCGCCGAGGCGATCTTCTGCGGGCGCAACCTGACCCGCCTGGTGACCGGCACCGGCGAAGACCCGCTGCTCTGCGTACTCTCCGACGTGACCCGCGCCGATCCACGGGTACGCCAACTGGTGCCGTTCGTTACTGCGCGCGGGCCCATCGTCCACTGGCCGCGGGTGTCGGAGGACGAGCGCATCCTGTACGTGATGAGGCGTCTGGTAGACGAATACCGCTTTCCGGTGAACGGCGCGGCGGGGCTGGTGGGCAACCTGTTCGCCGAGTCGGGGGTGCTGCCGAGCCGCATCGAAGGCAGCGACATAGCCACGCCCCTGACGGCGCGCCACTGCAACGGCACGACCGCCACCTTCACCGCCGAGGAGGTGATGAACCGCACCTGCTCGGTGAGCAAGACGCGTCGCTGCGGGCGGAGCAATCCGGGCCAGGGGCCTTGCATGCCCGGCATCGGTCTCGCCCAATGGACCACCGCCGCACGCCGGCGGGAACTCTTCCAGCACGTCTTCCAGGGCCGGCCGGCGGGCGCCCGCATTCTCTTCGACATGGATGCCCAACTGGACTACCTGAACAGCGAGCTGACCGGCCGGCCTGGCTTCGCCGGCGTCGACCGCTTGCTGCGGCGACCGACGGTGGGGGTGGACGAGGCCAGCGACGAGGTCGTCTACAACTTCGAGATTCCGGGCGCCGTCCTCGACGCGCAGAACCACAAGCTGCCGCGCAGCAACCCGGCCGTGCAGGCGGTCTTCCGCCGGCGCCGGGGCCTGTCGCAACGTGCCCTGCGGGTCTATCGCGCACGGCATCCGGTAGCCGCGGAAGACCTCGATGCCCTCCCCGACTTCGAAGCCGAACTGGACGACGCCCTGCCAGAACAGGCAGACGAATCGCTGGAGCCCAGCGAATCTCCACGCACCGGCGAATGGGCCGAGACCTTCCTACTCGACGAGGAAGTCGCCAGCGCCGCCAGCCAGTTCGTGCGCTGGGTGCAGAGTTCGCTGAACCGGGTCCTCGGGCTCTCCCTGGCGGTGGACGGCGTGGCCGGTACACAGACGCGCCAGGCCATCCGGCAGTTCCAGACACAGGAGGGCCTGACGGTGGACGGCATCGTCGGTCCGCAGACACGCTCGGCGCTGACCCGCGCCGTGCAGCGCCTCGGCACGCCCGGCACTGCTGCGCCGACGGGCGGCTCGAGCGGAAGCACCATCAGCGCCTGCGCCGGCCTGCGCAGCCCGGAAGTGATCGACCGCTTCGAATTCAACCGCTCCGAGGTGCTGCCGAGCCACCAGCCGCAGATCATCCGTATCGCCCGCTGCATCGTCGCCAGCCAGCGCACCGCGAGCCCGATCAGCAACCTCGATGTCGTCGGCCATACCGACCCGGTGGGCACCGACGCGGCCAATCTCGACCTCGGCCGGCGCCGCGCCGAAGCGGTCAAGCGCGAGCTGTTGCGCACCATCGACCGCATCCTGCCGGGCACCGCCGCGCGCATCGTGATCAATGCCTCCTCCCAGGGCGAGACGCGCCCAGTATCGAGCCCGGACCCGGCCGCCAGCCGGCGCGTGGAAGTCTTCATGACCCTGCCCGCGATGCCCCGTCCCACCGTGCCGCCGGTCCCGCCGGTGACGCCGCCCCGGATACCACCGGAGCCGCCGGAAGTCCCGGACAACGTGCGCGACCTGTTACGCCGCGTCCGCGAGGCCCTGGAAAGCGTCCTGCAATGGGTGCCGGACGCCGTGCGCGACACCCTGTGCCCAGGCATCACCGCGCCGAGGAATCTGCGCTTCCTGTCCGCCGCCGAGCAGGCGGAAGCGCGCAGCGTCTACGCCGGTAGCCTGGACTTCAGCCGGATCATCATCACCGACGGGCTGGGTTGCGGCGGCCGGCCGTTCACCGTGGCGTTCCCGGTCGGCTCGGACTGGTGGGTCGCGCTCAACCAGGGCACGGTCGCCAGCTTCGCCACCCGCCCCCGCTCCGACACGCTGATCCACGAACTTGCCCACGCCTGGCAGTCGCAACACCACGGCAGCGACCCGACGGCCTTCATGCGCAACTCGATCATCAACCAGGCGGGCGCCGCCGCACTGACCGCCCTCGGCCTGGAAGCCAGCGCCTACGCCTACATCCCCGGCAAGCCGTTCGCCGAGTACGGTGCTGAGCAGATCGCCGAACAGGTGGAGGACAGCTACAACGGCACCGGCAGCCCGACCCCGGCCGTCGCACGGCATGTCCGCTCGGTGGCGGCGGGCGTAGCCGACCCGGATAACGAAGCGAGCCTGAGCGTGAGCACGGCCTTCGAGCGGCGCTCGACCAGCGGGGTGGTCTGGCCGTGA	MDPALRQLLGETDSGEIEAIIRLATPPRTPPGVRLVARFGETIATCRIAHDQVVETWADDAVVSLKAARPFNDDEGTAEGHDAPPEDPAPLDRRPADLDTTGEGVIVAVIDWGFDFAHDNFRNDDGSTRILALWDQTSRTGPTPQPYGYGHVFSREDIDAALASPRPYAALGYHPGVADRGGQGCHGTHVLDIAAGNGRLPGSPMGVAPRAEFLLVHLATRGTDGEANLGDSVTLLEGLDWIRRQAGRRPWVVNMSVGRHGGPHTGLTLVELGIDALLNEAPGRCVVQSAGNYYASNVHSGGQLRPGETRRLRWQVGAADRTPNELEIWYSRHDGLGVTLIPPDGRGAMTVPLGGDAPILSGSRTVGHFYHRARDPSNGDNHVDIFLETDAPPGEWQVRLYGDDVIDGRYNCWVERDSACRTCQSRLHPQDADPRSTTGTICNSQRSIAVGAYDAEDPDRPLARFSSAGPTVDGRIKPDLVAPGVQVWAARSTPRRSHTPRPALVANSGTSMAAPHVTGTVANMFEAAGRALSIEETRRLLLGSTEPPAPDDDPMRIGSGYLDLSRAVAATRAWVRAHPLQPSPGERLTPQPHPPAASGFPTADIPIRAGLTARPLAAAVEATRESPLETAMAHERFIPYAENEPEDAEALIETALAEAIPGQSLYDATGAPAGVADLFDSLAGYHGEAMRRHYQQFVEVVGAPGESVAGQLRPGDILLERAFGEGSLASATLITEDDLDAFDESSDCSHPDCECVRCRRAGRRRRLARNRLVVRPRAAADTAMEYDEDVEALEWGLPADDEESYPDEAVPAPPMAVPARDPVPFAPDPPAGSYWPIVTSHPRGREVNYRAADGSYVGAQAGRAFLASRSSGARYHVGIDLFANLGDPVVAIEDGRVISFYGFCCGKQMTTNALLVEHSNVVVNYGEVAPDSLRRAGLAIGSSVTAGQVIGYVGRNPGGSSMIHFETYVPGTRRNSRFPVGSRRPAPLLNPTSYLLWLQTHGRTPGSAGGGTGSGATGSAGTGTGSSSSSSSSSSSSATGTLGALLSAVGSAASAVMEALSNGLWPNAVRLAIAGGQRDPNALTNMVFFARHPERNGRPLAQGEADFARLSREWLDIRNNLVRPALAGSASEGLNDDGAEALETSGERALQQAPNQPIGATPLTDAEWHNLELWLGRGEVGVEPLTADADRNALIVAEAIFCGRNLTRLVTGTGEDPLLCVLSDVTRADPRVRQLVPFVTARGPIVHWPRVSEDERILYVMRRLVDEYRFPVNGAAGLVGNLFAESGVLPSRIEGSDIATPLTARHCNGTTATFTAEEVMNRTCSVSKTRRCGRSNPGQGPCMPGIGLAQWTTAARRRELFQHVFQGRPAGARILFDMDAQLDYLNSELTGRPGFAGVDRLLRRPTVGVDEASDEVVYNFEIPGAVLDAQNHKLPRSNPAVQAVFRRRRGLSQRALRVYRARHPVAAEDLDALPDFEAELDDALPEQADESLEPSESPRTGEWAETFLLDEEVASAASQFVRWVQSSLNRVLGLSLAVDGVAGTQTRQAIRQFQTQEGLTVDGIVGPQTRSALTRAVQRLGTPGTAAPTGGSSGSTISACAGLRSPEVIDRFEFNRSEVLPSHQPQIIRIARCIVASQRTASPISNLDVVGHTDPVGTDAANLDLGRRRAEAVKRELLRTIDRILPGTAARIVINASSQGETRPVSSPDPAASRRVEVFMTLPAMPRPTVPPVPPVTPPRIPPEPPEVPDNVRDLLRRVREALESVLQWVPDAVRDTLCPGITAPRNLRFLSAAEQAEARSVYAGSLDFSRIIITDGLGCGGRPFTVAFPVGSDWWVALNQGTVASFATRPRSDTLIHELAHAWQSQHHGSDPTAFMRNSIINQAGAAALTALGLEASAYAYIPGKPFAEYGAEQIAEQVEDSYNGTGSPTPAVARHVRSVAAGVADPDNEASLSVSTAFERRSTSGVVWP				NA	NA	NA	NA	NA
BMS010_01726	456			hypothetical protein	ATGTTCGGACAGATCAACCCCATGAGCTTCATCGTCGCCCACCGCCTGGCGACGAACCAGAACGTCGACTCGAAGACCGCCACCCGCCACGCCCTGGTCGGCTCGCTGCTGGGCGAGGGCATCCTCGGGCCGGTCATCGCCCGCCAGTTGGCGATCCGCGACGCTGCCGCACCGCCCGCGACGAGCGCAGCCACGGGCACACTTACGCGGCGCACAACCAACCCCCTGGAAAACATCAGCCAGACCCTGCGTACCTGGACAGAAGCGGAGTCGCAGCGGGACGCGGAAGACCTCAAGCGGGCCAACGAGCTGATCGCGCAGGCCAACGAGCGCAGGCACCAGCGCACCGAAGCGCTCAGGGCACTCTGCGAAAGCCTGGGCACGCTGAGCACCGGCAGCACCTGCCCGGCGACGGGGACGACAGAGGAGCCCAAGGACACGGCGAGCGCCGCGTAA	MFGQINPMSFIVAHRLATNQNVDSKTATRHALVGSLLGEGILGPVIARQLAIRDAAAPPATSAATGTLTRRTTNPLENISQTLRTWTEAESQRDAEDLKRANELIAQANERRHQRTEALRALCESLGTLSTGSTCPATGTTEEPKDTASAA				NA	NA	NA	NA	NA
BMS010_01727	636			hypothetical protein	ATGAGCATCTACGAGATGGCGGCAGAGGACGACGATGTATTCGTCGAGGAAGACGAATTCCTTGCCGAGGATGTCGACGAAGCCTTTACCGAAGAAGACGAATTCGACGAACGCAAACGCCGCCGGACCCGCCGTCCGCCGCGCATCCGCGCCGGCCGCACCGCCCAGGGCCGTGGTTTCGTCAAGCCCAAGCCCTCGCGCCAGCCGGTGACCACCGCGACCTTGCAGGCCAGCCTGGAACGGGTGGGCCAGGACATCCGCACCAACGCCGCGGCGATCAAGCGCCTGGAAGCGCAGGTGAAGTCCGCCACCAGCAAGCTCAACAGCATCGACAACGTGCAGGACAAGAGCATCGCCGAGCTGCGCAAGGAGTTGAAGAACCAGGGCGGCGCCTCGCAGCAGCAGAACCAGATGAACATGCTGCTGCCCCTGTTGCAGAAGTCGCCGGAGCTGGAGGCCAAGCCTGGAGCGGATATCGAAACGGCCAACGATATTCTCGGCGCCGTGCAGGTCAAGAAACAGGACATCACCCTGCCGCTGATCATGATGATGATGTCCTCCCAGGCCAGCGCGACGGCGGGCGGCACCAACAGCATGAACATGCTCTTGCCGATGGTCCTGCTGCTGGACAAGTAG	MSIYEMAAEDDDVFVEEDEFLAEDVDEAFTEEDEFDERKRRRTRRPPRIRAGRTAQGRGFVKPKPSRQPVTTATLQASLERVGQDIRTNAAAIKRLEAQVKSATSKLNSIDNVQDKSIAELRKELKNQGGASQQQNQMNMLLPLLQKSPELEAKPGADIETANDILGAVQVKKQDITLPLIMMMMSSQASATAGGTNSMNMLLPMVLLLDK				NA	NA	NA	NA	NA
BMS010_01728	525			hypothetical protein	ATGCCAGGCATGCAGGAACTGCTGCAACAGATGCTCAGCGGACAGCAACCCGACCCCGGCGCGATGAGCGCGCTGTTCGCCGAGCACGAGGACCCGCGCATCCGCCTGATGGCCCAGTTCATGAGCCAGGACAGCGGCGCGCCGGAGCCGGAGGACGAGGCGACCGAGGTGGAGGCGGAAATCGTCAGGGACACCCTGCCGCCGCCCTCCGACTCGCTGCGCCTGCGCCGCCGGATACGCCACCTGACCGAAGAACTGCACGCCGCCCAGAGCATCGGCGACACCCTCGCCGCCGCCTTGGGCGCCTGCTACCTGTGCTGGGGCGAAGACGACGACTGCGAACTCTGCGGCGGGCACGGCCAGCCGGGCTGGTGCGAGCCCGACGCGGAGCTGTTCGCCGGCTACGTCGCACCGGCGGTCGCCCGCCTCCAGCAACCGTCACCGGGTTTACCGGAGGGTTCGGAAGAACCCTCTTTCAGCATGCCGCGCGTGAGCGTCGGCCCATCCAACAGGAGTGAGATATGA	MPGMQELLQQMLSGQQPDPGAMSALFAEHEDPRIRLMAQFMSQDSGAPEPEDEATEVEAEIVRDTLPPPSDSLRLRRRIRHLTEELHAAQSIGDTLAAALGACYLCWGEDDDCELCGGHGQPGWCEPDAELFAGYVAPAVARLQQPSPGLPEGSEEPSFSMPRVSVGPSNRSEI				NA	NA	NA	NA	NA
BMS010_01729	870			hypothetical protein	ATGCCGAGATACGCGCAAGCCTGGGTCGAAGACGATGGGGAATACGCCGATCCCTATCCGGCCATTCGCGAGGTGCTGTCGGATGCCTATGCCCACGCGGCTCCGGAGACCATCGAACAGCTCGTGGAAACCACCTATCCCGGCCTCGCCGCGGAGGACCTGGAAAGCTTCTTCAGTACCCTGAGCCAGGCCGGCCAGGCGGTCGGCCAAGTGGCCAAGCGCGCCCTGCCGGGCGTGGTCCAGGGCGCCACCGCCGGGGCCGCCCTGGGCCCCTGGGGCGCGCTGGCCGGCGGGATCGCCGGAGGAGCGCTGAGCGCCGCCACCTCGGGAGGCGCCCGCCGTGCTCCGCGACGCGCGGCCCCGCCACGCCGGCCAACCGCGCCTGCCGCCCCGCCCCGTGCCGCCGGCGCGCCGGCCGCCACCCAACTGCTGCGCACGCTGTCGCGCCCGGAGGTGAGCCAGAGCCTCCGCTCGCTGGCGATGGGCGGTGCCGGCCGGCGCAACGTCAACGTCGGCGGGCAGAGCGTTCCGATCGGCGCCATCACCAATCTGCTCGGCCAATTGCTGGAGCGGGTGCAGGCGGAAATGCATGGTTTCAGCGTGGGCGAGACCAGCGGCACCCCGGCCTACCTGCTGGATGACGCCGGGGAATACGTCGTCGACCCGACCGATCCGGCGCAACGGGCCGACCGGGTCCTCGAGCTGTTCGCCCGCGAAGACGCCGAGGCCGCCGAGTCGCTGCGCCCGGTCGAGGTGGTCTACGTGGAAGCGGACGACGACGCCTGGGACGAAGACGAGGAGGTGGACGACGACGCCCTCTCGCTCTACGAGGGCCTCGATTACGACGCGCTGGACGACGACACCTACTGA	MPRYAQAWVEDDGEYADPYPAIREVLSDAYAHAAPETIEQLVETTYPGLAAEDLESFFSTLSQAGQAVGQVAKRALPGVVQGATAGAALGPWGALAGGIAGGALSAATSGGARRAPRRAAPPRRPTAPAAPPRAAGAPAATQLLRTLSRPEVSQSLRSLAMGGAGRRNVNVGGQSVPIGAITNLLGQLLERVQAEMHGFSVGETSGTPAYLLDDAGEYVVDPTDPAQRADRVLELFAREDAEAAESLRPVEVVYVEADDDAWDEDEEVDDDALSLYEGLDYDALDDDTY				NA	NA	NA	NA	NA
BMS010_01730	1050	atoC_4	COG2204	Regulatory protein AtoC	ATGGACCTTTCTGCCCATTCGCCGAGTCGGTATTCGGACATCGAATTCGTCGGTGCCAGCGCATCGGTATTGAAGTTGTTGAAGATCGCCGACGATGTGTCGGAAACCAACGCTCCCATCCTGATCACCGGCGAATGCGGAACGGGCAAGGAAATTCTCGCCAGACGCATCCACCAGCGCAGCCAACGCCGCAACCGTCCTTATGTCGCCGTCAATTGCGGGGCCATCGCCAGTTCGCTGGAGGAATCAGAACTGTTCGGCTACGTGCCCGGCGCGTTCACCGGTGCCAACAAGCGCAAGCAGGGGCTGTTCGAGGCGGCGAACCACGGCACGGTGTTCCTCGACGAGATCGGCGAATCCAGCCCCGGCCTGCAGGTGAAGCTGCTGCGCGTGCTGCAGGACGGCGACTACGTGCCGGTGGGCTCGGCACAGACCCACCGCTGCGACGTGCGGATGATCGCCGCCACCAACCGGGACCTGTGCGAGGCCCTGGGACGCGGGGCTTTCCGCGCCGACCTGTACTACCGGCTGGACGTGGTGCGCCTGCGGGTCCCGCCGCTGCGCGAGCGCATGGAAGACATCCCCCTCCTCACCCGCCACTTCGTCACCCGCTACGCACGGACCTACGGGCTGTCCACGCCGGAAATCCGCTCGGACTTCTACGCCAAGCTGCTCCAGCAGGACTACCCGGGCAATGTCCGCGAGCTGTCGAACTACGTGCACCGGGCCGTGGTGCTCAGCGGCGGCGCGCCCCTCACCGCCGCGCTGCTGGACCAGCTCCCACCCACCGTCCAGCCGGCCCGACCCGTGGAGCCGGTGCCTCCGCCGCGCCCGTCGGCACCCGCCGCCAATACGGCGGGAATTCCCTTCCACGAAGCCAAGAAGCACCTGATCGAGACCTTCGAGCGCGAGTACCTGATCGCCGTGCTGAACGAATGCGGCGGCATCATCTACCGTGCCGCCAAGCTCGCCGGCATGAGCGAGCGCGGTTTCCACCAGAAGCTCCGCCATTATGGGATCGACGGCACCGGTTTTCGCAGCGGTACCTGA	MDLSAHSPSRYSDIEFVGASASVLKLLKIADDVSETNAPILITGECGTGKEILARRIHQRSQRRNRPYVAVNCGAIASSLEESELFGYVPGAFTGANKRKQGLFEAANHGTVFLDEIGESSPGLQVKLLRVLQDGDYVPVGSAQTHRCDVRMIAATNRDLCEALGRGAFRADLYYRLDVVRLRVPPLRERMEDIPLLTRHFVTRYARTYGLSTPEIRSDFYAKLLQQDYPGNVRELSNYVHRAVVLSGGAPLTAALLDQLPPTVQPARPVEPVPPPRPSAPAANTAGIPFHEAKKHLIETFEREYLIAVLNECGGIIYRAAKLAGMSERGFHQKLRHYGIDGTGFRSGT	PGPT0004315_199	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK_HOMEOSTASIS,PGPT0004315-zraR|hydG-K07713	NA	NA
BMS010_01731	336			hypothetical protein	ATGGATTGTGCTCGTATGGCGCAGCTCGCCCAGACCCTGGTCAGGCAGCATCGACAGACAGCCGATGCACCTCCCGGCATACCCGGCTACCGCTGGTTCCTCGAAGGCGCAGCCGAAACGGGGTTCGCCGAACCCGGCCGTGGCGGCGATCCCAAGTTCGCCAGTCGCTCGCGGGAATGGATATTTTCGGCGGACCTTCCGCAACTGCGACGCTGGATGCACACCATCCTCTATGCCGAACGCTGGACCGAGCACTGGCCTGCGTTCGTCGACCAGGCGTTGCAGAACGGACAACTGGAAGCCTTCGCAGAGCGCCTCGAACAGTTGGAGGGCTAG	MDCARMAQLAQTLVRQHRQTADAPPGIPGYRWFLEGAAETGFAEPGRGGDPKFASRSREWIFSADLPQLRRWMHTILYAERWTEHWPAFVDQALQNGQLEAFAERLEQLEG				NA	NA	NA	NA	NA
BMS010_01732	231			hypothetical protein	ATGAGCGAGGGCCTGGTGTTTTTTCTGATGTTCGTCGCGGTGATCCTCATCTGCTTCGACCTGTGGGCGATCGTCAGCGTTTTCCGCAGCGATGCCGGCACGGATGCCAAGTTCGTCTGGGCATTCCTGATCGCCATGGTGCCGGTGGTCGGGCTGATTCTCTGGGGTATTTCCGGCCCGCAAGGTGTTGCCCGGGGTGGACCTACCTCGAAGGAGCACAGCAAGGGCTGA	MSEGLVFFLMFVAVILICFDLWAIVSVFRSDAGTDAKFVWAFLIAMVPVVGLILWGISGPQGVARGGPTSKEHSKG				NA	NA	NA	NA	NA
BMS010_01733	711	endA	COG2356	Endonuclease-1	ATGCCGTTGCGTTTCTCTCTTCTGCTTGCCGTCGTTCTCTCCCTGCCCGCGCTGGCCGATGCGCCGCGAAGCTTCTCCGAAGCCAAGCGAATCGGCTGGACGCTCTACGAAAAGCAATCCACCGAGTTCTATTGCGGCTGCAAGTACCGGGGCGAACGGGTCGACTTGGCCAGTTGCGGCTACGTGCCGCGCAAGAATCCGAAGCGGGCCCGGCGCGTGGAGTGGGAACACATCGTGCCGGCCTGGGTGATCGGTCATCAGCGTCGCTGCTGGCAGCACGGCGGACGTAGCAATTGCGCGAAGAACGACGAGGCCTATCGCCGGGCCGAAGCCGATCTGCACAACCTGGTGCCGAGCATCGGCGAGGTGAACGGCGATCGCAGCAACTTCAGTTTCGCCTGGTTGCCGCAGCGCCACGGCCAGTACGGCGCCTGCCAGACGGTGGTGGATTTCGATGCACGCAAAGTCATGCCACGCACGGCGATCCGCGGGATGATCGCGCGCACCTATTTCTACATGAGCGAGCGCTACGGCCTGCGCCTGTCCAAGCAGGATCGCCAGTTGTTCACGGTCTGGAGCAAGCAGTATCCGGTCGAGACCTGGGAGCGCCAGCGCAACCAGCGGGTCGGTTGCGTGATGGGCTGGGGCAACCCTTACGTAGGGCCGCTGGATAAATCGCGTTGCCCGGTCCGCAGGGCAGGCAGGCGCTGA	MPLRFSLLLAVVLSLPALADAPRSFSEAKRIGWTLYEKQSTEFYCGCKYRGERVDLASCGYVPRKNPKRARRVEWEHIVPAWVIGHQRRCWQHGGRSNCAKNDEAYRRAEADLHNLVPSIGEVNGDRSNFSFAWLPQRHGQYGACQTVVDFDARKVMPRTAIRGMIARTYFYMSERYGLRLSKQDRQLFTVWSKQYPVETWERQRNQRVGCVMGWGNPYVGPLDKSRCPVRRAGRR				NA	NA	NA	NA	NA
BMS010_01734	435			hypothetical protein	ATGGCAACCGAGAAGAAAAGCAGATTCGAACGCTGGGCCGAGCGGCTATCAGAATGGGCGGGCAGCGCCAGCACCTTCAAGATCGCGGTGCTGGGCCTGGTGATCTGGGCCGCGACGGGGCCGCTGTTCCACTTCAACGACACCTGGCAACTGATCGTCAACACATCCACCACGATCATCACGTTTCTCATGGTGTTCCTCATCCAGAACACCCAGAACCGCGACAACGATGCACTGCACATCAAGCTCGACGAGCTACTGCGGGTCAGTAAGGACGCGCAGACGGCGTTGCTCGACCTCGACGAGCGGGATGCGAAGCAACTGAAGAAAATGCGCAAGCGTTACGTCGAGCTGGGCCGGCAGGCCGAGTGCGACGACAACGAAGTGAAGAACATCATCGATGGCGTCGAAGAACCCGAGTCGCCGGAAAAATGA	MATEKKSRFERWAERLSEWAGSASTFKIAVLGLVIWAATGPLFHFNDTWQLIVNTSTTIITFLMVFLIQNTQNRDNDALHIKLDELLRVSKDAQTALLDLDERDAKQLKKMRKRYVELGRQAECDDNEVKNIIDGVEEPESPEK				NA	NA	NA	NA	NA
BMS010_01735	168			hypothetical protein	ATGCCTAACCGTAATCCCGGCAACTTTGCCAACGACCGTGAAAAAGCGTCCGAAGCCGGCCGCAAAGGCGGCCACAACAGTGGCGGCAATTTCGCCAATGACCGCGAAAGAGCCTCGGAAGCCGGCCGCAAGGGTGGCCAGCACAGCCATGGTGGCGGCCGCAGTTAA	MPNRNPGNFANDREKASEAGRKGGHNSGGNFANDRERASEAGRKGGQHSHGGGRS	PGPT0002680_850	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_INDUCIBLE_PROTEINS,PGPT0002680-yciG|ymdF|gsiB-K06884	NA	NA
BMS010_01736	1269	cypC		Fatty-acid peroxygenase	ATGTCCGATATCCCCCGCGATCGAAGCCTGGACAGCACGCTCGCCCTGTTGCGCGAAGGGTATGGGTTCATCCCGGACCGCTGCCGGCGCTATCGCAGCGATCTGTTCGAGACCCGCTTGTTGTTGCAGCGCACGCTCTGCCTGAGCGGCGAGTCGGCGGCCCGGCTGTTCTACGATCCGGCGCTGTTCACCCGTACGAACGCGGTGCCGCGCTTGCTGCAGAAGACTCTGTTCGGTGTTGGCGGCGTCCAGGGGCTGGACGGCAAGGCGCACCGGCTGCGCAAGCAGATGTTCATGGACCTGATGACTCCGGAGCGCATGCGCGAGCTGCTGCGGCTCAACGAGGCGCATTGGCGCGAGGCTATCGAAACCTGGACGCTCCGCCCGCAGGTGGTATTGCTCCACGAAGTACAGACGATCCTCTGTCGCAGCATCTGCGCCTGGGCCGGAGTCTTGCTGATGCGGGACGAAGTGGAGCGTTGCCGTGCCTGGTTGGCGGCGATGATCGACGGTGCTGGCGGAGCCGGGCTGCGACATTGGCGGGCGCGCCGGGCGCGGGCGGCGGCCGAACGCTGGTGCGCGGAGCAGGTGAGGGCGGTGCGCGAAGGGCGGCTGGCGCCGGCGCCGGGTTCGGCGCTGCAGGTCATCGCCGAACACCGGGAAAACGAGCGGTTGCTCGATCCCGCCGTGGCGGCGGTGGAACTGCTGAACGTGCTGCGTCCCGCCGTGGCGATCGCCCGTTTCGTGATCTTCGCCGCCCTGGAGCTGCATCGTCGGCCGCAGTGGTACGCACGCCTGGCGGAGCGCGACGAGCTGATCGAGCCCTTCGCCCAGGAGGTACGCCGGCTGTATGCCTTCTTCCCCTTCGTGGCGGCACGGGTGCGCGAGGGCTTCCACTGGCGCGGCCATTACTTCGAGGAAGGAACCCGCGTGCTGCTGGACCTGTTCGGCACCAACCGCGACCCGCGCACTTGGGAGCGGCCGGACGATTTCCTGCCGGAGCGCTTCCAGCATTGGGATGGCAGCGCCTTCAACTTCATTACCCAGGGCGGCGGCGAACACCGTCGCGACCATCGCTGCCCGGGGGAGTGGATCACCATCGAACTGCTCAAGCTGGCGCTGCGCGTGCTGACCCGCTGGATGCGCTACGAGGTGCCGGATACCCAGGACCTGAGCGTGAGCCCGGTGCGCATGCCGGCGTTGCCGCGTAGTCGTTTCGTTATCCGTAATGTCCGGCCGGTGGCGGTTACGGCGCGGTTTGGTTCGTAG	MSDIPRDRSLDSTLALLREGYGFIPDRCRRYRSDLFETRLLLQRTLCLSGESAARLFYDPALFTRTNAVPRLLQKTLFGVGGVQGLDGKAHRLRKQMFMDLMTPERMRELLRLNEAHWREAIETWTLRPQVVLLHEVQTILCRSICAWAGVLLMRDEVERCRAWLAAMIDGAGGAGLRHWRARRARAAAERWCAEQVRAVREGRLAPAPGSALQVIAEHRENERLLDPAVAAVELLNVLRPAVAIARFVIFAALELHRRPQWYARLAERDELIEPFAQEVRRLYAFFPFVAARVREGFHWRGHYFEEGTRVLLDLFGTNRDPRTWERPDDFLPERFQHWDGSAFNFITQGGGEHRRDHRCPGEWITIELLKLALRVLTRWMRYEVPDTQDLSVSPVRMPALPRSRFVIRNVRPVAVTARFGS				NA	NA	NA	NA	NA
BMS010_01737	240			hypothetical protein	ATGCTGATCCCCCACCACCTGCTCGAAGCCGACACCCTCACCCGCCTGCTGGAAGACTTCGTGACCCGCGAAGGCACCGACAACGGCGACGACACGCCGCTGGAAACCCGGGTAGCCCGCGCCCACCGCGCCCTGGAGAAAGGCCAGGCGGTGATCGTCTTCGACCCGGACAGCCAGCAATGCCAGTTGATGCTGAAGGAAGAAGTGCCTCGGGAATGGCTGGATGAGGACAGGGGGTGA	MLIPHHLLEADTLTRLLEDFVTREGTDNGDDTPLETRVARAHRALEKGQAVIVFDPDSQQCQLMLKEEVPREWLDEDRG				NA	NA	NA	NA	NA
BMS010_01738	2787	rcsC_4		Sensor histidine kinase RcsC	ATGCCGCGCCTCTGTTGTCTGGCGTTGCTCCTGCTATGCCTGGCCGGGCCGGCCTGGGCGCTGTCGCCCGCGCCGCTCGATCGCGACGACCTGCGCCTCTCCCTCGGGCCCTATATGGGCTACCACGAAGACCGCGACGGCCGGCTCAGCGTCGAGCAGGCCCAGGCACTCCCGGACGCCGCCTTCGAGCCCGTCCGGGGCGACCACGCCAACCTCGGCAAGAACACCTCGGTGTGGTGGTTCAAGGTGCACCTGGCCAACAGCCGGGCGCACCCGCTGGCCGGCTACCTGGAAGTGAACTACCCGTTGCTGGACGACCTGCAGGTCTTCCTGGTCGATCCCACGGGCCAGGTGCGGCACCAGGAGAGCGGCGACCGCTTCGCCTTCGCCCAGCGCCCGGTGCAGGTGCGCAACTTCTGGTTTCCCCTCGAACTGCCCCCCGGCGAGAGCACCCTGCTGGTCCGGGTGGATACCACCAGCACGGTCTTCGTGCCGCTGTTCTTCAGCACCTACGCCGCCAGCGCCGCCGCCCAGGAAAATCTGATGGGGGTGAACGGCGCCTTCTACGGCGTGCTGTTCGCGATGTTCTGCTACAACCTGTTCCTGTTCCTCTCGCTGCGCGAGCGCGCCTACTTCTGGTATGTGGTCTACAGCCTCAACATCGGCCTGTTCACCGCCAGCTTCGACGGCATGCTGTTCAAGCTCCTACCCGAACACGTCGGCCTGCAATCGATCAGCATCTACATCCTGATGTACCTGCACTGCCTGGCGGCGCTTCAGTTCAGCCGGCACTTCCTGCACATCCCCCAGCACTTCCCGCGCCTGGACCTGACCCTGCGGCTGTTCATGCTGGGCACCCTCGGCGCCCTGCTGTCGGTACCGCTGATCGGCCTGCAGAACTGGAACATCCTCGCCAGCCTGACGGTGCTGGCGGTCTCGCTGATGCTGCTGCTCGCCGGCATCCATGCCTGGCGCAAGGGGCTGCGCTACGGCTCCTACTACATCCTCGCCTGGGGCATCCTGCTCGCCTCCTTCATCGTCGCCACCTCCGGCTCGCTGGGCGTCGAGCTGTTCGGCATCTACGGCGCCTCGGTGGTCAAGGTCGGCGTCGCCATCGAGCTGATCACCCTTTCCATCGGCCTCGCCGACCGCATCAACCTGCTCAAGGAAGAAGGCTTCCGCTCGCGCCAGGCGGCCGAACAGGCGCGCATCGAGAACAAGGCCAAGAGCCGCTTCCTCGCCACCATGAGCCATGAGATCCGCACGCCGCTGAACGGCGTGCTGGGCATGCTGCAACTGCTCAAGGAAACCCCGCTGGACCGCAGCCAGCGCTTCTACGTCGAAACCATCGCCAGCTCCGGCAGCTCGCTGATGGCGGTGATCAACGACATCCTCGACTACGCCCGCATCGAGTCCGGCAAGTTGACCCTGGAACGGATCGAGTTCGACCTCGAGCAACTGGTCTCCGACACCCTCAGCCTGTTCACCGCCCAGGCTCTGGACAAGCGCCTGCGGCTCTACGTCAGCCTGGAAGGCGGCGTGCCGCGCACCCTGCACGGCGATCCGACGCGGCTCAAGCAGGTGCTGATGAACCTGCTGAGCAACGCCCTGAAATTCACCTCGGACGGCTACGTGGCGCTGAACGTCAGTCGGCGCAACGACTCACAGGGTGCGCCGCACCTTATCTTCTCGGTCAGCGACAGCGGCATCGGCATTCGCAACGAGGTGCAGCCGCAGCTCTTCGAATCCTTCGCCCAGGGCGATTCCAGCACCACCCGTCGCTACGGCGGCAGCGGCCTGGGCCTGGCCATCAGCCGGGAACTGGTGGAGATGATGGGCGGGCGCATCGAAGTGCAGAGCACCCCCGGCCAGGGCACCCGCTTCGCCTTCGACATCCCCCTGCAGACCGGCGAGACGGAGGAAGACGAACTGCTACGCCTGCTCGCCGGACGGCCCGCGCTGCTGGCCTCGCTGGACGGCCTCGGCCTCGACGCCCTGAGCCGTCTACTAGGCCGCTGGGACATGCGCACCGAACGCTGCCAGAGCCCGGAGCGCCTGGTGGATTGCCTGGAAGACTTCACCAGCCCGCCCCTGCTGATCCTCATGGCGCCCTGGCCCGGCAGCGTCAACCACTGGCTGGAATCGTTGCGCCCGTACCTGGAGCCCAGACAGCGCGTGCTGATGCTCTGTCCGCCCGACCAGTGCCAGTCGCCGAGCGCCGACGGCCTGCGTCTGCTCACCCTACCGCAGCCATTGGCGGTAACCGCGCTGCGCAAGGCCCTGCTGGAACTCTACGAAGAAGGCTCGCCGTCCGTCATGCCGACGTCCCGTCCACCGCGCGATGCCCAGCAGGCGGCGCCGTGCATCCTGGTGGCAGAGGACAATCCGGTGAATCAATTGGTGGTCCAAGGCTTCCTGCGTAAACGCGGCTACCAGGTGCGGGTGGTCGGCACCGGGCTCGCCGCGTTCGACGAATACCAGCGCGCGCCAGCGGCCTGCCAGTTGATCCTGATGGACTGCGAGATGCCGGAAATGGACGGCTTCGAAGCCACCCGCCGGATTCGCCGCCTGGAAAAGCAGCAGCACCTGCCGCCCGTCCCCATCGTCGCCCTGACCGCGCACATCCTCGACGAACACCGCCAGCATGGCAGCGACGCCGGCATGAACGACTTCCTCGGCAAGCCGCTGGACAGCCAACTGCTCTACGCCACCCTGGAGCGCTACCTGGGCTCGCCGGACAGCCCGGAACCCCAGGGCATCGCCGCCCTCCCGGACCCGGAAACCTGA	MPRLCCLALLLLCLAGPAWALSPAPLDRDDLRLSLGPYMGYHEDRDGRLSVEQAQALPDAAFEPVRGDHANLGKNTSVWWFKVHLANSRAHPLAGYLEVNYPLLDDLQVFLVDPTGQVRHQESGDRFAFAQRPVQVRNFWFPLELPPGESTLLVRVDTTSTVFVPLFFSTYAASAAAQENLMGVNGAFYGVLFAMFCYNLFLFLSLRERAYFWYVVYSLNIGLFTASFDGMLFKLLPEHVGLQSISIYILMYLHCLAALQFSRHFLHIPQHFPRLDLTLRLFMLGTLGALLSVPLIGLQNWNILASLTVLAVSLMLLLAGIHAWRKGLRYGSYYILAWGILLASFIVATSGSLGVELFGIYGASVVKVGVAIELITLSIGLADRINLLKEEGFRSRQAAEQARIENKAKSRFLATMSHEIRTPLNGVLGMLQLLKETPLDRSQRFYVETIASSGSSLMAVINDILDYARIESGKLTLERIEFDLEQLVSDTLSLFTAQALDKRLRLYVSLEGGVPRTLHGDPTRLKQVLMNLLSNALKFTSDGYVALNVSRRNDSQGAPHLIFSVSDSGIGIRNEVQPQLFESFAQGDSSTTRRYGGSGLGLAISRELVEMMGGRIEVQSTPGQGTRFAFDIPLQTGETEEDELLRLLAGRPALLASLDGLGLDALSRLLGRWDMRTERCQSPERLVDCLEDFTSPPLLILMAPWPGSVNHWLESLRPYLEPRQRVLMLCPPDQCQSPSADGLRLLTLPQPLAVTALRKALLELYEEGSPSVMPTSRPPRDAQQAAPCILVAEDNPVNQLVVQGFLRKRGYQVRVVGTGLAAFDEYQRAPAACQLILMDCEMPEMDGFEATRRIRRLEKQQHLPPVPIVALTAHILDEHRQHGSDAGMNDFLGKPLDSQLLYATLERYLGSPDSPEPQGIAALPDPET				NA	NA	NA	NA	NA
BMS010_01739	1191			hypothetical protein	ATGGCCGCCAAACTGCCCGAACCCGACCTGGCGTATCTGCAGCGCGTGCTGCTGGAAATGCTCGCCATCCCCAGCCCCACCGGCTTTACCGATACCATCGTGCGCTACGTCGCCGAGCGGCTGAAGGAGTTGGGCATCCCCTTCGAACTGACCCGCCGTGGGACCATCCGCGCGACCCTCAAGGGACGCCGCTACAGCCCGGACCGCGCCGTCTCGGCGCACCTCGACACCATCGGCGCCATCGTCCGCGAAATCCACGCCAACGGCCGCGTCGGCCTGGCGCCGGTGGGCTGCTGGTCGAGCCGCTTCGCCGAGGGCAGCCGGGTCAGCCTGTTCACCGACAGCGGCGTACTGCGCGGCAGCGTGTTGCCGCTGCTGGCCTCGGGGCATGCCTTCAATACCGCGGTGGACCAGTTGCCGATCAGTTGGGACCACGTCGAACTGCGCCTCGACGCCACCACCGCCAGCCGCGCCGACACCCTGGCCCTGGGCGTGGAGGTGGGCGATTTCGTCGCCTTCGATCCGTTGCCGGAATTCACCGAGAGCGGCCATATCAGCGCCCGCCACCTGGACGACAAGGCCGGCGTGGCGGCCCTGCTCACTGCGCTCAAGGCGGTGGTGGAAAGCCGCCAGGAACCGCCGATCGACTGCCACCCGCTGTTCACCATCACCGAGGAAACCGGCTCCGGCGCGGCGGCGGCCCTGCCCTTCGACGTCAGCGAATTCGTCGGCATCGACATCGCCCCGGTGGCCGCCGGCCAGCAATCCAGCGAGCACGCGGTCAGCGTCGCCCTGCAGGACTCCGGCGGGCCCTACGACTTCCATCTGTCGCGGCATCTCCTGCGCCTCGCCGGGCAACACGACATCCCGGTACGCCGCGACCTGTTCCGCTACTACCACAGCGACGCGCAGTCGGCGGTCACCGCCGGCCACGACATCCGTACCGCCCTATTGGCGTTCGGCTGCGACGCCACCCACGGCTACGAGCGCACCCACCTGGACAGCCTGGCCGCCCTCGCCCGGCTGCTCAGCGCCTACCTGCTCAGCCCCCCGGTGTTCGCCAGCGACGCCCAGCCGGCACGCAGTTCGCTGGAACGTTTCAGTCATCAACTGGAGCACGACGCGCAGATGGAAAGCGAAACGCGGGTACCGCCGGTCGACAGCGTGCTGGGCCCACGCCAGGAGGAATGA	MAAKLPEPDLAYLQRVLLEMLAIPSPTGFTDTIVRYVAERLKELGIPFELTRRGTIRATLKGRRYSPDRAVSAHLDTIGAIVREIHANGRVGLAPVGCWSSRFAEGSRVSLFTDSGVLRGSVLPLLASGHAFNTAVDQLPISWDHVELRLDATTASRADTLALGVEVGDFVAFDPLPEFTESGHISARHLDDKAGVAALLTALKAVVESRQEPPIDCHPLFTITEETGSGAAAALPFDVSEFVGIDIAPVAAGQQSSEHAVSVALQDSGGPYDFHLSRHLLRLAGQHDIPVRRDLFRYYHSDAQSAVTAGHDIRTALLAFGCDATHGYERTHLDSLAALARLLSAYLLSPPVFASDAQPARSSLERFSHQLEHDAQMESETRVPPVDSVLGPRQEE				NA	NA	NA	NA	NA
BMS010_01740	1743	gshAB		Glutathione biosynthesis bifunctional protein GshAB	ATGCAGAAATCCCAGGCCTACGGCCAGCGCCTGCTGCGCGGACAGGCACCGTCCTACCAGCGTTTGCAGGCGCGCTTCGCCGAGGACGGCAAGGAAGAACCCCGGCAGCCGGTAGCCCTGCAATGTGGCTGGGGCCGCCTGCTGATCGGCCACACCTACCCGGACGCCGCCCGCCTGGCCGCCGACCTGCTGGAAGAACGGTCCGGCGAACGCGACATCGCGCTCTACGTGGCGGCGCCGCAGCAGGTGCTGGCGCAGGCGCCGCAGCAGTTGTTTCTCGATCCCTCCGACACCCTGCGCCTGTGGTTTTCCGACTACCGCCCGGCGCGCCGCCCGTTCCGCGGCTTCCATATCCGTCGCGCGCAGAGCGAGGGCGACTGGGCCGGGGTCAACCGCCTTTACCAGACGCGCGGCATGCTGCCGGTGGACAGCCGCCGCCTGACCCCGCGCGAGGAAGGCGGTCCGGTCTACTGGCTGGCCGAGGACCTCGACAGCGGCCAGGCGATCGGCGCGGTGATGGGCCTCAACCACGCGGAAGCCTTCGGCGACCCGGAGAACGGCAGCAGCCTCTGGTGCCTGGCGGTGGACCCGCAATGCACCCGCCCCGGTGTCGGCGAAGCGCTGGTCCGCCACCTGATCGAGCATTACCAGTCGCGCGGGCTGTCCTACCTCGACCTGTCGGTGCTGCATGACAACCGCCAGGCCAAGGCGCTCTACGCCAAGCTGGGCTTCCGCGACCTGCCCACCTTCGCCGTGAAACGCAAGAACAGCATCAACCAGCCGCTGTTCATGGGCCCCGGCCCGGAAGCGGAACTCAACCCCTACGCGCGGATCATTGTCGACGAGGCACACCGTCGCGGCATCGAGGTGCAGGTGGACGACGCGGCGGCCGGCATCTTCACGCTGATCCACGGCGGCAGGCGCATCCGCTGCCGGGAATCGCTGTCCGACCTGACCAGCGCGGTGAGCATGACCCTCTGCCAGGACAAGCTGCTCACCCATCGCTACCTGCGTCGCGCCGGGCTCGAACTGCCGGCGCAGCGCCTGGCCGGCAGTGCGAAAGAGAATGCCGCCTTCCTCGCCGAACATGGCCGCATCGTGGTCAAGCCGGTGGATGGCGAGCAGGGCAAGGGCGTCGCCGTGGACCTGCGCGCTGAGGAAGAGGTGGAACACGCCATCGAGGCGGCACGTCGTTTCGACAGCCGGGTGCTGCTGGAAAGTTTCCACGAGGGCCTGGACCTGCGCATCCTGGTGATCGGCTACGAGGTGGTGGCCGCCGCCATCCGCCGTCCGGCCGAGGTCCAGGGCGACGGCCGACACAGCATCGGCGCGTTGATCGAAGCCCAGAGCCGGCGCCGGCAGGCCGCCACCGGTGGCGAAAGCCGCATCCCGCTGGACGAGGAAACCCAGCGCACCCTGCATGGCGCCGGCTACGACTACGACAGCGTGCTGCCGGAAGGCACCCGCCTGGCCGTACGCCGCACCGCCAACCTGCACACCGGCGGCACCCTGGAAGACGTCACCGCGCAGTTGCATCCGACGCTGGCCGACGCCGCCGTGCGCGCCGCCCGCGCCCTGGACATCCCGGTGGTCGGCCTGGACCTGCTGGTGGAAGCCGCCGACCAGCCGCACTACGTGTTCATCGAAGCCAACGAGCGCGCCGGCCTCGCCAACCACGAGCCGCAACCCACCGCCGAAAAATTCGTCGACCTGCTGTTCCCGCTCAGCCAGACACCGAGCTGA	MQKSQAYGQRLLRGQAPSYQRLQARFAEDGKEEPRQPVALQCGWGRLLIGHTYPDAARLAADLLEERSGERDIALYVAAPQQVLAQAPQQLFLDPSDTLRLWFSDYRPARRPFRGFHIRRAQSEGDWAGVNRLYQTRGMLPVDSRRLTPREEGGPVYWLAEDLDSGQAIGAVMGLNHAEAFGDPENGSSLWCLAVDPQCTRPGVGEALVRHLIEHYQSRGLSYLDLSVLHDNRQAKALYAKLGFRDLPTFAVKRKNSINQPLFMGPGPEAELNPYARIIVDEAHRRGIEVQVDDAAAGIFTLIHGGRRIRCRESLSDLTSAVSMTLCQDKLLTHRYLRRAGLELPAQRLAGSAKENAAFLAEHGRIVVKPVDGEQGKGVAVDLRAEEEVEHAIEAARRFDSRVLLESFHEGLDLRILVIGYEVVAAAIRRPAEVQGDGRHSIGALIEAQSRRRQAATGGESRIPLDEETQRTLHGAGYDYDSVLPEGTRLAVRRTANLHTGGTLEDVTAQLHPTLADAAVRAARALDIPVVGLDLLVEAADQPHYVFIEANERAGLANHEPQPTAEKFVDLLFPLSQTPS				NA	NA	NA	NA	NA
BMS010_01741	1773	asnB	COG0367	Asparagine synthetase [glutamine-hydrolyzing] 1	ATGTGCGGTATAGCTGGAGAATTACGTTTCGACGGCCGACCGGCCGATCTGGCCGCGGTCGAACGCATCACCCATCACCTTGCACCGCGTGGCCCCGACGCCTGCGGCTTCCATAGCCAGGGCCCGGTCGCCATGGGCCACCGGCGGCTGAAGATCATGGACCTCGACGAGGCCTCCGGCCAGCCGATGACAGACGCCTTCCTCGGCCTGTCGATGGTCTTCAACGGCGCGATCTACAACTACCCGGAACTGCGCGGCGAGCTGGAGGGCCTGGGTTATCGCTTCTTCTCCGACGGCGATACCGAGGTCCTGCTCAAGGCCTATCACGCCTGGGGCGAAGCCATGCTGCCGAAGCTCAACGGCATGTTCGCCCTGGCGATCTGGGAGCGCGACCGCCGCAGCCTGTTCCTCGCCCGCGACCGGCTCGGCATCAAGCCGCTGTACCTGGCGCGCAACGGCGAGCGGCTGCGCTTCGCCTCGACCCTGCCGGCGCTGCTGCAGGGCGGCGACATCGAGCGCAGCCTGAACCCGGTGGCGCTCAACCACTACCTCAGTTTCCACGCCGTGGTACCCGCCCCGCATACCTTGGTGGCAGGCATCGAGAAGCTGCCGCCGGCCACCTGGATGCGCCTCGACGCCCAGGGCAATGCCGAGCAGCAGTGCTGGTGGCAACTCGACTACGGCCCGCGCGAAGACGAACGCCAGCTCGGTTTCGAGGACTGGCAGGGCCGGGTGCTCGACACCCTGCGCGAGGCCGTGGCGATCCGCCAGCGCGCCGCGGTGGACGTCGGCGTGCTGCTCTCCGGCGGCGTCGATTCCAGCCTGCTGGTCGGTCTGCTGCGCGAGGCCGGCGCGGCGGACAACCTGCTGACCTTTTCCATCGGTTTCGAGGATGCCGGCGGCGAGCGCGGCGACGAGTTCCATTACTCCGACCTGATCGCCCGTCACTACGGCACCCGTCACCACCAGTTGCGCATCGACGAGCGGGAAATCATCGAGCAGTTGCCGGCGGCGTTCCGCGCCATGAGCGAGCCGATGGTCAGCCACGACTGCATCGCCTTCTACCTGCTCTCCCGCGAAGTGTCGCGCCACTGCAAGGTGGTGCAGAGCGGCCAGGGCGCCGACGAGCTGTTCGCCGGCTATCACTGGTACCCGCAGGTGGACGGCGCCGCCGACCCGGTGGCCGCCTACCTGGCGGCGTTCCGCGACCGCGACTTCGCCGACTATGCCGAGACCGTGGCGTCGCGCTGGGTCGAGGGCGACTTTTCCGGCGAGTTCGTCCGCACGCACTTCGCCCGCCCCGGCGCCGACGATGCAGTGGACAAGGCGCTGCGCCTGGACAGCACGGTGATGCTGGTGGACGACCCGGTGAAGCGGGTCGACAACATGACCATGGCCTGGGGCCTGGAGGCCCGCACGCCGTTCCTCGACTACCGCGTGGCGGAGCTGTCGGCGCGTATCCCGGCGCGCTTCAAGCTGCCGGACGGCGGCAAGCACGTGCTCAAGGAAGCCGCGCGACGGGTGATCCCGGGCGAGGTCATCGACCGGCCCAAGGGCTACTTCCCGGTGCCCGGCCTCAAGCATCTGCAAGGTGCCACCCTCGACTGGGTACGCGACCTGCTGCTCGACCCGAGCCAGGACCGCGGCCTGTTCCAGATCGCGGCGATCGACCGGCTGCTCAGCGACCCGCAAGGCCAGTTGACCCCCTTGCGCGGCTCCAAGCTGTGGCAGCTCGCCGCGCTCAACCTGTGGCTCGACGAACACGGGCTTTGA	MCGIAGELRFDGRPADLAAVERITHHLAPRGPDACGFHSQGPVAMGHRRLKIMDLDEASGQPMTDAFLGLSMVFNGAIYNYPELRGELEGLGYRFFSDGDTEVLLKAYHAWGEAMLPKLNGMFALAIWERDRRSLFLARDRLGIKPLYLARNGERLRFASTLPALLQGGDIERSLNPVALNHYLSFHAVVPAPHTLVAGIEKLPPATWMRLDAQGNAEQQCWWQLDYGPREDERQLGFEDWQGRVLDTLREAVAIRQRAAVDVGVLLSGGVDSSLLVGLLREAGAADNLLTFSIGFEDAGGERGDEFHYSDLIARHYGTRHHQLRIDEREIIEQLPAAFRAMSEPMVSHDCIAFYLLSREVSRHCKVVQSGQGADELFAGYHWYPQVDGAADPVAAYLAAFRDRDFADYAETVASRWVEGDFSGEFVRTHFARPGADDAVDKALRLDSTVMLVDDPVKRVDNMTMAWGLEARTPFLDYRVAELSARIPARFKLPDGGKHVLKEAARRVIPGEVIDRPKGYFPVPGLKHLQGATLDWVRDLLLDPSQDRGLFQIAAIDRLLSDPQGQLTPLRGSKLWQLAALNLWLDEHGL	PGPT0020150_4420	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARAGINE_DEGRADATION,PGPT0020150-asnB-K01953	NA	NA
BMS010_01742	495			hypothetical protein	ATGTTGAATGAAGCGTGCTGTATGTCAGAATTAATAGTTTCGACTGAAACTGAATTGTCATCGATCAAGGGCTTCGAACAGTCCTTGTTCCAGGCCCTGCGGCGTTTGCAGCAGGCGGGTGAGGTGCATGCCAAGCGCCTGGCCCGCTACGGTGGCCTGACGCCCATGCAGTTGCTGGTGTTGCAGGTGCTCAACAGCGAAGGGCGGCTGACCGCCAGTTCGCTGTGCGGCAAGGTCAGCCTGAGCGCGGCGACGCTGTCGGGCATGCTCGACCGCCTGGAGGAGCGCGGCCTGTTGCAGCGCCAGCGCGACGACCAGGACCGGCGCAAGCAATGGCTGCACATCAGCGAGGCCGGGCGGGCCCTGTTGCATGAGGCGCCGCCGTTGCTGCCACCGGAATTCCGCGCTCGTTTCGCCGCGCTGCCGGAGTGGGAGAGGCACGGGCTGACCGCGGCGCTGTTGCGCGCCGCGGAGCTGTGCGGGGATGTGGAGTAG	MLNEACCMSELIVSTETELSSIKGFEQSLFQALRRLQQAGEVHAKRLARYGGLTPMQLLVLQVLNSEGRLTASSLCGKVSLSAATLSGMLDRLEERGLLQRQRDDQDRRKQWLHISEAGRALLHEAPPLLPPEFRARFAALPEWERHGLTAALLRAAELCGDVE				NA	NA	NA	NA	NA
BMS010_01743	1374	gltP_2	COG1301	Proton/glutamate-aspartate symporter	ATGAAGGCAGTTTTCTCCGCTTACCTGCGCACTCCCTTGCTGATGCGCATCTTCGCCGGCTTCCTGCTCGGCTCCCTGGTCGGCATCGGGCTGTGGTACGCCGGCACCCAGGACAGCGACCTGACCGCGCGCGTCATCCCCTACGTCCAGCCGTTCGGCAGCCTGCTGGTCAGCCTGCTGAAGATGATCGTGGTTCCGGTGATCCTGCTCTCGCTGATCACCGGCGCCGCCAGCCTGCCGCTGGCGCGCTTCGGCAAGATCGGCGTGAAGGTGATCGCCTGGTACCTGCTCTGCTCGTTCCTCGCCGCCGTCATCGGCACCCTGGTGGCGCTCGCCTTCAACCCCGGCGAAGGCAGCAACCTGGCCGGCTGGGAGCGTCTGGTGGGTGGCGTCAAGGGCGAGGCGGAGAGCCTGGTGGCCCAGGCCGACAGCAACGCCGGGCCGATGGGCCTGCTGCTGAGCATGTTCGAGAACCCCTTCCATGCACTGTCCGAAGGGCACTTCCTGGCCATCATCGTCTTCGCCATCTTCTTCGGCCTGGCCCTGCGCGTACTGCTCGACGGCGACGCCGGCGAAACCCAGAAGGCCGCCGTGCAGCGTCTGCTCGACAGCCTGGAAGCGGCGCGCGATGCGGTGTTCAAAATGGTCGACTGGATTCTCGAATACACCCCGGTCGGCGTCTTCGCCCTGTCGGTGGTGAACTTCGGCCTGTACGGCCCGAGCATCGCCGGCCCCTACGTCAACGTCACCCTGGGCGTGATCACCGGCGTTCTGGTGATGGTGCTGGTGGTCTATCCGGCCCTGCTGTGGGTCTCCACCCGGCGCAATCCGCTGCAGGTCTACAAGTACCTGCAGGAGCCGATGATCACCGCCTTCATCACCCGGTCCAGCGCCGCCACCCTGCCGGTGTCGCTGCGAGTGATCGAGCATGACCTGAAGGTGAAGAACGAACTGGCCTCCTTCTCCCTGCCGCTGGGCGCCACCATCAACATGGACGGCGTCTGCGTGCACCTGCCGATGTTCGCCATCCTCGCCGCCAATATCTTCGGCGTCGACCTCAGCGCCACGCAGTTGCTGATGCTGGTACTCACCACCGTGCTGGCCTCCATCGGCGCCGGTGGCGTGCCGGGCGGCAGCCTGATGCTGCTGTTCATCATTCTCCAGGCGATGGGCCTGGCGCCGGAGCAGATCGCCGTGATCGTCGCCCTGGCCCTCGGCATCAACCCGATCCTCGACATGTTCGAGACTTGCAACAACGTCACCGGCGACCTGGTTTGCACCTATGCCGTGGCCGAGCGCTCGGGCCTGGTGGACCAGCCGAGCCCGTCCTCCGCAGACAGCGCTCCCGCCTTCCGCCCCTCTCCGGCCGAGTAA	MKAVFSAYLRTPLLMRIFAGFLLGSLVGIGLWYAGTQDSDLTARVIPYVQPFGSLLVSLLKMIVVPVILLSLITGAASLPLARFGKIGVKVIAWYLLCSFLAAVIGTLVALAFNPGEGSNLAGWERLVGGVKGEAESLVAQADSNAGPMGLLLSMFENPFHALSEGHFLAIIVFAIFFGLALRVLLDGDAGETQKAAVQRLLDSLEAARDAVFKMVDWILEYTPVGVFALSVVNFGLYGPSIAGPYVNVTLGVITGVLVMVLVVYPALLWVSTRRNPLQVYKYLQEPMITAFITRSSAATLPVSLRVIEHDLKVKNELASFSLPLGATINMDGVCVHLPMFAILAANIFGVDLSATQLLMLVLTTVLASIGAGGVPGGSLMLLFIILQAMGLAPEQIAVIVALALGINPILDMFETCNNVTGDLVCTYAVAERSGLVDQPSPSSADSAPAFRPSPAE				NA	NA	NA	NA	NA
BMS010_01744	480			hypothetical protein	ATGCCTGCCGTCGACCCCAGCGCCCTGCCCGACTCGCCCTTCGTTCATTTCAGCGTACGCGCCGCCAGCCCCGGTGATGCCAACCGGCTGGCCGACCTGCTGCAACAGCTCGGCGAACAGGACCCACGCCCCGATCCGACCCTGCTCGCCCTGCGCCTCGCCGAGCTGCCGGCCAGTCGCGAAGTGCTGGTGGCGGAGCGCGATGGCAAGCTGCTCGGCACCTGCACCCTGAACCTGATCGAGCACTTGGCCCATGACTTCGCCCGCTCGGCGGTGGTGGAGGACGTGGTGGTGGATGCCGGGGCACGGGGGCTCGGCGTCGGCCGGGCGCTGATGGAAAAAGCCGCCGAGCGCGCCCGCGCCTGGGGTTGCTACAAACTGGCACTGTCCACCCACCGCAACCGCGAGGTCGCGCACCGCTTCTACGAGGCCCTGGGCTACCGGCCCCACGGCATCAGCCTGGCGTTGTCGCTGTCCTGA	MPAVDPSALPDSPFVHFSVRAASPGDANRLADLLQQLGEQDPRPDPTLLALRLAELPASREVLVAERDGKLLGTCTLNLIEHLAHDFARSAVVEDVVVDAGARGLGVGRALMEKAAERARAWGCYKLALSTHRNREVAHRFYEALGYRPHGISLALSLS				NA	NA	NA	NA	NA
BMS010_01746	306			hypothetical protein	ATGACCATCAACGGTATGCGCCCCGTTCACCCGGGCGAAGTGTTGCTTGAGGAGTTCTTGCAGCCGTTGGATATCAGCCCTGCGGCGTTGGCAAAGGCTCTCCACGTCTCGGCTCCGACGGTCAACGAGATCGTTCGGGAGCGGCGTGGTATTTCCGCGGACATGGCAGTCCGGCTTGCTCACTATTTCGATACATCGCCGCTTTTCTGGTTGAACCTGCAGAGCGAATACGCCCTTGCCTCGATCGATGTGGAAGTGCTCGAAACGATCAAGCACGATATTCAGCCGCTGGCCGCGACAGCGTGA	MTINGMRPVHPGEVLLEEFLQPLDISPAALAKALHVSAPTVNEIVRERRGISADMAVRLAHYFDTSPLFWLNLQSEYALASIDVEVLETIKHDIQPLAATA	PGPT0027585_113	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HigB-HigA_TOXIN-ANTITOXIN_SYSTEM,PGPT0027585-antitoxin_higA_1-K21498	NA	NA
BMS010_01747	279			hypothetical protein	ATGATCGTTTCTTTCCGATGCGCCGACACCGAAGCGTTGTTCATCACTGGCGTTAATCGCAGATGGCAATCCGTGCATAAGCCGGTTACACGGAAACTGATGATGTTGCATGCGGCAGCGGAGTTACGCGACCTGCGCTCACCGCCGGGAAACCGGCTGGAGGCACTGTCGGGGAACCGGGCCGGGCAACACAGTATCCGAATCAATGACCAATGGCGTATCTGCTTCGTATGGACGAACGCAGGCCCGGAAGATGTAGAAATTGTCGATTACCACTGA	MIVSFRCADTEALFITGVNRRWQSVHKPVTRKLMMLHAAAELRDLRSPPGNRLEALSGNRAGQHSIRINDQWRICFVWTNAGPEDVEIVDYH	PGPT0027575_1167	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HigB-HigA_TOXIN-ANTITOXIN_SYSTEM,PGPT0027575-toxin_higB_like-K07334	NA	NA
BMS010_01748	909	murR_1		HTH-type transcriptional regulator MurR	ATGACCCGCTCCGAACAGTTGCCCGAGTCCCCCGCCCCGGCGGCCGAGCTGCCCACCAGCGTGGAACGGCTGCTGCAGAACATCACCGCCGAATACGATTCGCTGCCCCGCCAGCTCAAGCGCGTAGCCACCTACATCACCCAGCAGAGCGACCGGGTGATGGTCGACCGCATCAGTGACATCGCCCGTGATTGCGAAGTTCAGCCCTCGGCCATCGTGCGCTTCTCCCAGCGCTTCGGTTTCAGCGGCTTCAGCGAGATGCAGGCGATCTTCCGCGAGGCGTACACGCACAAGACCACCCCGGTCCAGAACTACCAGCAACGCATACGCCGGCTGATCGCCGACAAGGCGCAGAAGGTACCGCCGGAAACCCTTGCCCGCGAATGCATCGACGCCACCCGCTCGGGCCTGGACCGGCTGAGCCACGAACTGAACGACGAGACCTTCCGCCAGGCCGTGCAACTGCTGGTGAAGGCCGACAACATCTACGTGGTCGGCGTGCGCCGCTCCTTCGCCGCCGCCCACTACCTGGTCTACAGCCTGCAGCACACCAACAAGCGCATCCACCTGGTCTCAGGCCTCGGCGGCAGCTACCGCGAGCAGATGCGCAGCGTGAAGCCCGACGACCTGGTGGTGGCCATCAGCTTCAGCCCCTACGGCAAGGAAAGCGAACACTGCGTGCGCATCGCCCATCACAAGCAGGCGAAGACCCTGGTCATCACCGACAGCCCACTCTCCCCCCTGGCCAAGCGCGCCAACGCCGTGCTGCTGGTCAACGAAGGCAGCGCCTTCGCCTTCCGCTCCCTCAGCGCCACCCTGTGCCTGTGCCAGGCGCTGTTCATTGCCTTGGCCTACGAGCTGGAACTGAAGATGGACGAGATCCACGAGAATCTGGATTTCGAGGATTGA	MTRSEQLPESPAPAAELPTSVERLLQNITAEYDSLPRQLKRVATYITQQSDRVMVDRISDIARDCEVQPSAIVRFSQRFGFSGFSEMQAIFREAYTHKTTPVQNYQQRIRRLIADKAQKVPPETLARECIDATRSGLDRLSHELNDETFRQAVQLLVKADNIYVVGVRRSFAAAHYLVYSLQHTNKRIHLVSGLGGSYREQMRSVKPDDLVVAISFSPYGKESEHCVRIAHHKQAKTLVITDSPLSPLAKRANAVLLVNEGSAFAFRSLSATLCLCQALFIALAYELELKMDEIHENLDFED				NA	NA	NA	NA	NA
BMS010_01749	1950	iolC_1		5-dehydro-2-deoxygluconokinase	ATGGTCGATACACTCTTTGCCAGTGGGCGCCAGCTCGATGTCATCTGCCTCGGGCGCCTCGGCGTCGACCTCTACGCCCAGCAGGTCGGCGCGCGCCTGGAGGATGTCAGCAGTTTCGCCAAGTACCTCGGCGGCTCCTCCGCCAACATCGCCTTCGGCACCGCCCGCCTGGGGCTGAAGTCGGCCATGCTGACCCGCGTCGGCGACGATCACATGGGGCGCTTCCTGGTGGAATCGCTGCAACGCGAAGGCTGCGATACCCGCGCCATCAAGGTCGATCCGCAGCGCCTCACCGCGCTGGTCCTGCTCGGCATCAAGGACCGCGAGACCTTCCCCCTGGTGTTCTACCGCGAGAACTGCGCCGACATGGCGCTCTGCGAAGAGGACATCGACGAAGGCTACATCGCCTCCAGCAAGGCGTTGCTGATCACCGGCACGCATTTCTCCACCGAGAGCGTCTTCAAGGCCAGTTCGCGCGCCCTGGACTACGCCGAGAAGCATGATGTCCGCCGCGTGCTGGACATCGATTACCGCCCGGTGCTCTGGGGCCTCACCGGCAAGGCCGAGGGCGAGAACCGCTTCGTCGCCAGTGCCGAGGTGAGCGCCCACCTGCAGCGCATCCTGCCGCGCTTCGACCTGATCGTCGGTACCGAGGAGGAATTCCTGATCGCCGGCGGCTGCGAGGACCTGATCGGCGCCCTGCGCAAGGTCCGCGAGCTGAGCGCGGCGACCCTGGTGGTCAAGCTCGGCGCCCTCGGCTGCACGGTGATCCGCGGTGCGATCCCGGCGCGCCTGGACGACGCCGAAGTTCACCGCGGCATTCGCGTCGAGGTGCTCAACGTGCTCGGTGCCGGCGATGCCTTTCTCTCCGGCTTCCTGCGCGGTTGGCTGACTGGCGCCGACGACCGCCGCAGCTGCCAGTTGGCCAATGCCTGCGGCGGGCTGGTGGTGTCGCGCCATGCCTGCGCGCCGGCGATGCCGACCCTGGCTGAGCTGGACTACTTCCTCAACAGCGCAGAACCCATCACCCGGCCCGACCTGGATACCGAGCTGAACCGCCTGCATCAGGTCAGCGTGCCGCGCCGGCACTGGAAGCCGCTGTACATCTTCGCCTTCGACCACCGCGTGCAACTGGTGGAACTGGCCCAGCAGGCCGGTCGTGACCTGGCGGCCCTGGGCACGCTCAAGCAACTGTTCATCCAGGCTATCGAGCGGGTCGAGCGCGACCTTGCCGACCAGGGCATCGCCGGCGATGTCGGGCTGCTGGCCGACGAACGTTTCGGCCAGGACGCCCTGAACGCTGCCAGTGGCCGTGGCTGGTGGGTGGCGCGGCCGGTGGAGCTGCCGGGCTCGCGGCCGCTGGTGTTCGAACCGGGCCGTTCGGTGGGCAGCAATCTGGTGAAGTGGCCCCGCGAGCAGATCATCAAGTGCCTGGTGCAGTTCCATCCCGATGACGAGCCGCTGCTGCGCCTGGAGCAGGAAGCCCAGCTCAAGGCGCTCTACGCCGCGTCCCAGGCCAGCGGGCACGAGCTGCTGCTGGAGGTGATCCCGCCCAAGCAGCACCCGTCGTCGTATCCCGATGCGCTCTACCGGTCGATCAAGCGGCTCTACAACATCGGCATCTACCCGGCCTGGTGGAAGATCGAGTCGCAGCCCGACGAGGTCTGGGCGCGTCTCGACGAGCTGATCACCGAGCGCGACCCGTACTGCCACGGCGTCGTCCTGCTGGGGCTGAACGCCCCGGTGGAAGAACTCGCCGAAGGCTTCCGCCAGGCCAGCGCGAGCAAGGTCTGCCGCGGGTTCGCCGTGGGCCGGACGATCTTCCAGGAACCCAGCCGCGCCTGGCTGGCCGGGGAAATCGACGACGCCACGCTGGTCGACCGGGTGCAGACCACCTTCGAAATGCTGATCCGCGCCTGGCGTTCGGCCCGGACGACGACCACGGCCTGA	MVDTLFASGRQLDVICLGRLGVDLYAQQVGARLEDVSSFAKYLGGSSANIAFGTARLGLKSAMLTRVGDDHMGRFLVESLQREGCDTRAIKVDPQRLTALVLLGIKDRETFPLVFYRENCADMALCEEDIDEGYIASSKALLITGTHFSTESVFKASSRALDYAEKHDVRRVLDIDYRPVLWGLTGKAEGENRFVASAEVSAHLQRILPRFDLIVGTEEEFLIAGGCEDLIGALRKVRELSAATLVVKLGALGCTVIRGAIPARLDDAEVHRGIRVEVLNVLGAGDAFLSGFLRGWLTGADDRRSCQLANACGGLVVSRHACAPAMPTLAELDYFLNSAEPITRPDLDTELNRLHQVSVPRRHWKPLYIFAFDHRVQLVELAQQAGRDLAALGTLKQLFIQAIERVERDLADQGIAGDVGLLADERFGQDALNAASGRGWWVARPVELPGSRPLVFEPGRSVGSNLVKWPREQIIKCLVQFHPDDEPLLRLEQEAQLKALYAASQASGHELLLEVIPPKQHPSSYPDALYRSIKRLYNIGIYPAWWKIESQPDEVWARLDELITERDPYCHGVVLLGLNAPVEELAEGFRQASASKVCRGFAVGRTIFQEPSRAWLAGEIDDATLVDRVQTTFEMLIRAWRSARTTTTA	PGPT0018480_192	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018480-iolC-K03338	NA	NA
BMS010_01750	918	iolE_1	COG1082	Inosose dehydratase	ATGCCCGCGCTGATGAATTCCCCGGTCAGGATTGGCATCAACCCCATCTCCTGGAGCAACGACGACCTGCCGTCCCTCGGTGGCGAGACGCCTCTGAGCGTCGCCCTGAGCGAGGGCAGCCAGATCGGCTACGAAGGCTTCGAGCTGAACGGCAAGTTTCCCAAGGAACCGGCGGCGGTCGACGCGGTGCTCGCCGAGTATGACCTGGCGCTGGTGTCCGGCTGGTACTCCAGCCTGCTGGCGCGGCGCAGCGTGGAGGAAGAGATCGAAGCGATCGGCCCGCACCTGCGCCTGCTCGCCGAGAACGGCGCCACGGTGATGGTCTACGGCGAGGTCGCCGACTCCATCCAGGGCCAGCGCGTCCCGCTCGCCGAGCGGCCGCGTTTCTACCGCCAGGACGACTGGCAACGCTACGCCGACAAGCTCACCCGGCTGGCCCGCTACACCCAGTCCCAGGGCGTGCGCCTGGCCTATCACCACCACATGGGTGCCTACGTGGAATCGCCCGAGGACATCGACACCCTGATGCGCCTGACCGGCGAGGAGGTCGGCCTGTTGTTCGACTCCGGCCATTGCTACATGGGCGGCGGCGAGCCGCTGGAGGTGCTGGAGCGGCACATCGGGCGCATCTGCCATGTGCACTTCAAGGACGTGCGCAAGCCGGTGGTGCAACTGGCGCGCAACAACCACTGGAGTTTTCCCGACTGCATCGTCAACGGCACCTTCACCGTGCCGGGCGACGGCGACATCGATTTCGCCCCGTTGCTCGACCGCCTGCTGGCGGCGGGTTATCGCGGCTGGCTGGTGGTGGAGGCGGAGCAGGACCCGGCCGTCGCCCCCAGCTACGCCTACGCCGAAAAGGGCTACCGACACCTGCGCGACCTGCTGGACCGTGCATTGGCGAAGGAGGGCGCATGA	MPALMNSPVRIGINPISWSNDDLPSLGGETPLSVALSEGSQIGYEGFELNGKFPKEPAAVDAVLAEYDLALVSGWYSSLLARRSVEEEIEAIGPHLRLLAENGATVMVYGEVADSIQGQRVPLAERPRFYRQDDWQRYADKLTRLARYTQSQGVRLAYHHHMGAYVESPEDIDTLMRLTGEEVGLLFDSGHCYMGGGEPLEVLERHIGRICHVHFKDVRKPVVQLARNNHWSFPDCIVNGTFTVPGDGDIDFAPLLDRLLAAGYRGWLVVEAEQDPAVAPSYAYAEKGYRHLRDLLDRALAKEGA	PGPT0016785_1393	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_CATABOLISM,PGPT0016785-mocC-K03335	NA	NA
BMS010_01751	810	iolB_1	COG3718	5-deoxy-glucuronate isomerase	ATGAACCTGTTGTGCAAGGGCGACGCCCAAGGCCGCACCCTGGTGCGGGTGCCGGAGGATGCGCTGACCTACGTCGGCTTCGCCGCCTACCGCCTGGCGGACGGTGACGAACTGCCGCTGGCCGGCGGCGACCGTGAGTTGTGCATCGTGCTGCTCAGCGGCAAGGCCAACGTGCGCGGCAGCCACCCGCGCCACGGCGCTTTCGCCTGGGATGGCATCGGCGAGCGGCGCAGCGTGTTCGAGGACAAATCGCCCTACGCGGTCTACCTGCCGGCCCACGGCGAAGCCTGTGTCACCGCCCTGGGCGGGGCCGAGGTCGCGGTTTGCCTGGCGCCCGGTGCCGCCGACGGCGAGCTGCCGCCGCGCCTGATCGAGCCCGCGACGATGAAGCGTTCGGTGCGTGGCAAGGGTGCCAACACCCGCTATGTCTGCGACATCCTGCCGGACAGCGAACCGGCCCAGTCGCTGCTGGTGGTGGAGGTGGTCACCCCGTCCGGGCATTCCTCCAGCTACCCGCCGCATAAGCACGACACCGACGACCTGCCGGCGCAGAGCTTCCTCGAGGAGACCTACTACCACCGCGTCGATCCGGGCCAGGGCTTCGTCTTCCAGCGCGTCTACACCGACGACCGCAGCATCGACCAGGCCCTGGCGGTGGAGAACCACGACGTGGTGCTGGTGCCGCGCGGCTACCACCCGGTCTGCGTGCCCCATGGCTACCGCTCCTACTACCTGAACGTGATGGCCGGGCCGAAGCGGGTGTGGAAATTCCACAACGATCCCGCGCACGAGTGGCTGCTGAGCCTCTGA	MNLLCKGDAQGRTLVRVPEDALTYVGFAAYRLADGDELPLAGGDRELCIVLLSGKANVRGSHPRHGAFAWDGIGERRSVFEDKSPYAVYLPAHGEACVTALGGAEVAVCLAPGAADGELPPRLIEPATMKRSVRGKGANTRYVCDILPDSEPAQSLLVVEVVTPSGHSSSYPPHKHDTDDLPAQSFLEETYYHRVDPGQGFVFQRVYTDDRSIDQALAVENHDVVLVPRGYHPVCVPHGYRSYYLNVMAGPKRVWKFHNDPAHEWLLSL	PGPT0018475_465	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018475-iolB-K03337	NA	NA
BMS010_01752	1500	bauC_1	COG1012	Putative 3-oxopropanoate dehydrogenase	ATGAGTCAAGCCAGCATCGTCGGCCATTTCATCAACGGACAGGTCCGGGAGGAGGGCGAGCGCTTCGGCGAGGTCTTCAACCCGGCCCTCGGCACGGCCCGGGCGCGCGTCGCGCTGGCCGGCCGGCAAACCGTGGACGAGGCGGTCGCGGCGGCCAAGGCGGCCTTCCCGGCCTGGTCCGAACAATCGGCGCTGCGCCGTTCGCGCATCCTGTTCCGCTTCAAGGAGCTGCTCGACCAGCAGCACAAGGCGCTGGCCGAGGCGATCACCCTCGAGCACGGCAAGGTGCTGTCCGACGCCATGGGCGAAGTCACCCGCGGCATCGAGATCGTCGAGTTCGCCTGCGGCGCGCCGCACCTGCTGAAGACCGCCTTCACCGACAACATCGGCGGTGGCATCGATAACTGGAATATGCGCCAGCCGCTGGGCGTCTGCGCCGGCATCACGCCGTTCAACTTCCCGGTGATGGTGCCGCTGTGGATGATTCCGATGGCCCTGGCCACCGGCAACACCTTCGTCCTCAAGCCCTCCGAGCGCGACCCTTCGGCCAGCCTGTTGATCGCCGACCTGCTGCGCCAGGCCGGTCTGCCGGATGGCGTGTTCAACGTGGTGCAGGGCGACAAGGAAGCGGTGGACGCGCTGCTCCAGCACCCGGACGTGGAAGCGCTGTCCTTCGTCGGCTCCACCCCCATCGCCGAGTACATCCACCAGGAAGGCACCCGTCGCGGCAAGCGCGTGCAGGCCCTGGGCGGCGCCAAGAACCACATGATCGTGATGCCCGACGCCGACCTCGACCAGGCCGCCGACGCGCTGATTGGCGCCGGCTACGGCTCGGCCGGCGAGCGCTGCATGGCGATCTCCATCGCGGTGGCGGTGGGCGACGTCGGCGACCGTCTGATCGAGAAACTGCTGCCGCGCATCGACGCCCTGCGCATCCGCAACGGCATGGAGCCCGACGCCGACATGGGCCCGCTGGTGACCGCCCAGCACAAGGCCAGGGTCGAGGGGTACATCGCCAAGGGCGTGGAAGAGGGCGCCAGGCTTCTGGTGGACGGGCGCGACCTCAAGGTGCCGGGGGTGGAAAACGGTTTCTTCGTCGGCGCCACTCTGTTCGACGGCGTCAGCCCGGACATGACCATCTACAAGGACGAAATCTTCGGCCCGGTACTCGGCATCGTGCGCGTGCCGGACTTCGCCGCGGCGGTGGCGCTGATCAACGCCCACGAATACGGCAACGGCGTGTCCTGCTTCACCCGTGACGGCGGGATCGCCCGCGCCTTCGCCCGCTCCATCCAGGTCGGCATGGTGGGCATCAACGTGCCGATCCCGGTACCCATGGCCTGGCACTCCTTCGGCGGCTGGAAGCGTTCGCTGTTCGGCGACCACCACGCCTACGGGGAAGAGGGCCTTCGTTTCTACACCCGTTACAAGAGCGTCATGCAGCGCTGGCCCGAGAGCATCGCCAAAGGCCCCGAATTCAGCATGCCGACCGCCAAATGA	MSQASIVGHFINGQVREEGERFGEVFNPALGTARARVALAGRQTVDEAVAAAKAAFPAWSEQSALRRSRILFRFKELLDQQHKALAEAITLEHGKVLSDAMGEVTRGIEIVEFACGAPHLLKTAFTDNIGGGIDNWNMRQPLGVCAGITPFNFPVMVPLWMIPMALATGNTFVLKPSERDPSASLLIADLLRQAGLPDGVFNVVQGDKEAVDALLQHPDVEALSFVGSTPIAEYIHQEGTRRGKRVQALGGAKNHMIVMPDADLDQAADALIGAGYGSAGERCMAISIAVAVGDVGDRLIEKLLPRIDALRIRNGMEPDADMGPLVTAQHKARVEGYIAKGVEEGARLLVDGRDLKVPGVENGFFVGATLFDGVSPDMTIYKDEIFGPVLGIVRVPDFAAAVALINAHEYGNGVSCFTRDGGIARAFARSIQVGMVGINVPIPVPMAWHSFGGWKRSLFGDHHAYGEEGLRFYTRYKSVMQRWPESIAKGPEFSMPTAK	PGPT0002295_2120	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0002295-mmsA|iolA-K00140	NA	NA
BMS010_01753	873			hypothetical protein	ATGACCGGTTTTTCCTCGGAGAACGACAACATGAAGCAACCCCTGCGTTTCGCCCTCAACCGCATGGCCGCCCCCCGTCTGCCGCTGGAGGATTTCCTCGATCTGGCCGTACGCCTCGGCGCCGACGCCATCGAGATCCGCAACGACCTCAAGGGCGTCGAGATCGAGGACGGCACCCCGCCCGAGCGCGTGCGCGAGCTGTGCCGGGCCAAGGGTCTGCGGGTGCTGTCGATCAATGCCCTGTACCCCTTCGACGTGTGGAACGAAGAGCGTCGCCAGCAGGCGATGCGGCTGGCCACCTACGCCCGCGACTGCGGTGCCGAGGCACTGGTGATATGCCCGCTGAACGACCGTGCCGACCCGCGCAGCAGCGCCGAGCGCGCCGCCGCCCTGCGCACCGCCCTCGGCGAGCTGGCGCCGATCCTCCGGGGCCACGGCCTGATCGGCCTGGTGGAGCCGCTGGGCTTCTCCGAATGTTCGTTGCGCCGCAAGCGTTCGGCGATGGATGCGATCAAGGCGGTCGGCGGCCTGGATGTGTTCCGCCTGGTGCACGACACCTTCCACCATCACTTGGCCGGCGAGCAGGACATCTTCCCCGAGCAGACCGGGCTGGTGCACATCTCCGGGGTGGAGGACGCCACGCTGCCCCACGACGACATCCGCGACGGCCACCGCGTGCTGGTGGGCGATGCCGACCTGCTCGGCAATGCCGCGCAGATCGAACGCCTGCTCGCGGCGGGCTATACCGGTTACCTGTCCTTCGAGCCGTTCGCCAACAGCGTGCATGGCCTGGATGACATCGAGGCGGCGCTGCGCGCCAGCATGCGCCACCTGGAAGAGCGGGTTTGCCCCCTGGACGGCCGCGCCGCCTGA	MTGFSSENDNMKQPLRFALNRMAAPRLPLEDFLDLAVRLGADAIEIRNDLKGVEIEDGTPPERVRELCRAKGLRVLSINALYPFDVWNEERRQQAMRLATYARDCGAEALVICPLNDRADPRSSAERAAALRTALGELAPILRGHGLIGLVEPLGFSECSLRRKRSAMDAIKAVGGLDVFRLVHDTFHHHLAGEQDIFPEQTGLVHISGVEDATLPHDDIRDGHRVLVGDADLLGNAAQIERLLAAGYTGYLSFEPFANSVHGLDDIEAALRASMRHLEERVCPLDGRAA	PGPT0018495_288	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0018495-iolI-K06606	NA	NA
BMS010_01754	1926	iolD_1	COG3962	3D-(3,5/4)-trihydroxycyclohexane-1,2-dione hydrolase	ATGAGTACCACACGACTGACCATGGCCCAGGCCCTGGTGAAGTTCCTCGACAACCAGTACGTCGAGGTCGATGGCGTCGAGAGCCGGTTCGTCAAAGGCATCTTCACCCTCTTCGGCCACGGCAACGTGCTCGGCCTGGGCCAGGCGCTGGAGGAAGACTGCGGTGGGTTGCGGGTGCATCAGGGCCGCAACGAGCAGGGCATGGCCCACGCCGCCATCGGCTACGCCAAGCAGACGCTGCGCCGGCAGATCTACGCCTGCACCTCGTCGGTGGGGCCGGGCGCGGCGAACATGCTGACCGCCACGGCCAACCGCATCCCGCTGCTGCTCCTGCCCGGCGATGTCTACGCCAGCCGCCAGCCCGACCCGGTGCTGCAACAGATCGAGCAGTTCCACGACCTGTCGATCAGCACCAACGACGCCTTCAGGGCGGTGAGCAAGTACTGGGACCGGATCAACCGCCCGGAACAGCTGATGAGCGCGGCGATCAATGCCATGCGCGTGCTCACCGATCCGGCGGAGACCGGCGCGGTGACCCTGGCGCTGCCGCAGGATGTGCAGGGCGAGGCCTACGATTACCCCGATTATTTCTTCGCCAAACGCGTGCACCGTATCGACCGCCGCCCACCGACGGCGGCGATGCTGGAGGACGCCCTGGCACTGCTGGCCGGCAAGCGCAAGCCGCTGATCGTCTGCGGCGGCGGGGTGAAGTATTCGGGGGCGGCCGAGGCCTTGCAGCGTTTCGCCGAGCGCTTCGGGATTCCCTTCGCCGAAACCCAGGCGGGCAAGAGCGCCATCGTCTCCAGCCATGCGCTGAACGTCGGCGGCATCGGCGAGACCGGCTGCCTCGCCGCCAACCTGCTGGCCAAGGAGGCCGACCTGATCATCGGCGTCGGCACCCGTTACACCGACTTCACCACCTCGTCGAAGTGGCTGTTCCAGAACCCCGGGGTGCGCTTCCTCAACCTCAACGTCTGTGCCTTCGATGCGCTCAAGCTGGACGGCGTGCAGGTGGTGGCCGATGCCCGGCTGGCCCTGGACGCCCTCGGCGAGGGCCTGTCCCGCAGCGGCTACCGCGCCCAGTGGGGCGAGGCGGTGGACGAGGGGCGGGCGGCGCTGGCCGAGGAGGTGGACCGGGTCTACGCGGTGGAATACGACGGCGAGGGCTTCGTCCCGGAAATCGACGACCACCTGCCACGCAGCGTGCTGGAAGAGTTCCGCTCGATCACCGGTTCCAGCTTGACCCAGAGCCGCGTGCTCGGGGCATTGAACACTGCGCTACCCGACGACGCGGTGATCGTCGCCGCCGCCGGCAGCCTGCCCGGCGACCTGCAACGCGCCTGGCGCAGCAAGGGAGTGAACGGCTACCACCTGGAGTACGGCTACTCCTGCATGGGCTACGAGGTGAACGCCGCTCTCGGTGTGAAGCTGGCCGAGCCGCAGCGCGAGGTGTACGCCCTGGTCGGCGACGGCTCCTACCTGATGCTGCACTCGGAGCTGGTCACGGCGATCCAGGAGGGCTGCAAGATCAACGTCGTCCTGTTCGACAACATGGCCTTCGGCTGCATCAACAACCTGCAGATGGAACATGGCATGGACAGCTTCGGCACCGAGTTCCGCTTCCGTAACCCGGAGACCGGGCGGCTCGACGGCGGCCTGGTGCCGGTGGACTTCGCCATGAGCGCGGCGGCCTACGGTTGCAAGACCTACCGGGTGACCGACCTCGACGAACTGCACGCCGCCCTGGAAGACGCCCGCCGGCAGACGGTCTCCACCCTGATCGACATCAAGGTGCTGCCCAAGACCATGATCCACAAGTACCTGTCCTGGTGGCGTGTCGGCGGGGCCGAGGCTTCCCGTAGCGAGCGCATCCTCGCAGTGTCGCGGATGCTCAAGGAGAACATCGCCAAGGCACGCGCCTATTGA	MSTTRLTMAQALVKFLDNQYVEVDGVESRFVKGIFTLFGHGNVLGLGQALEEDCGGLRVHQGRNEQGMAHAAIGYAKQTLRRQIYACTSSVGPGAANMLTATANRIPLLLLPGDVYASRQPDPVLQQIEQFHDLSISTNDAFRAVSKYWDRINRPEQLMSAAINAMRVLTDPAETGAVTLALPQDVQGEAYDYPDYFFAKRVHRIDRRPPTAAMLEDALALLAGKRKPLIVCGGGVKYSGAAEALQRFAERFGIPFAETQAGKSAIVSSHALNVGGIGETGCLAANLLAKEADLIIGVGTRYTDFTTSSKWLFQNPGVRFLNLNVCAFDALKLDGVQVVADARLALDALGEGLSRSGYRAQWGEAVDEGRAALAEEVDRVYAVEYDGEGFVPEIDDHLPRSVLEEFRSITGSSLTQSRVLGALNTALPDDAVIVAAAGSLPGDLQRAWRSKGVNGYHLEYGYSCMGYEVNAALGVKLAEPQREVYALVGDGSYLMLHSELVTAIQEGCKINVVLFDNMAFGCINNLQMEHGMDSFGTEFRFRNPETGRLDGGLVPVDFAMSAAAYGCKTYRVTDLDELHAALEDARRQTVSTLIDIKVLPKTMIHKYLSWWRVGGAEASRSERILAVSRMLKENIAKARAY	PGPT0018485_276	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0018485-iolD-K03336	NA	NA
BMS010_01755	1014	iolG_1	COG0673	Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGACTTTGAATCTCGGTGTCATCGGTACCGGCGCCATCGGCCAGGACCACATCCGTCGCTGCAGCCACGCCCTGGTGGGCAGCCGCGTGGTGGCGGTGAACGACATCAACCAGGACCAGGCCGCCCGGGTGGTCCAGCAGCAGGGCATCGAGGCCGAGGTCTACGCCGACGGCCACCGGCTCGTCGAGTCGCCAACGGTGGACGCGGTGCTGGTCACCTCCTGGGGGCCGAGCCACGAGGAATTCGTCCTCGCCGCCATCGCCGCCGGCAAGCCGGTGTTCTGCGAGAAGCCGCTGGCGGTGACCGCCGAAGGCTGCCGGCGCATCGTCGACGCCGAGATCGCCCATGGCCAACGCCTGGTGCAGGTGGGCTTCATGCGCCCCTACGACCAGGGCTACCGCGCCCTGAAAGAGGTGATCCGCAGCGGCCGCATCGGCGAGCCGCTGATGCTCCACTGCGCCCACCGCAACCCGTCGGTGGGGGAGAACTACACCACCGACATGGCAATCACCGACACCCTGATCCACGAGCTGGACGTATTGCGCTGGCTGCTGGACGACGACTACGTGTCCACCCAGGTGATCTTCCCGCGCAAGGCCAGCGGTGCGCTGGCCCACCTGAAGGACCCGCAGATCGTCCTGCTGGAGACCGCCAAGGGCACCCGCATCGACGTGGAAATCTTCGTCAACTGCCAGTATGGCTATGACATCCAGTGCGAAGTGGTGGGCGACAGCGGCATCGCCAAGCTGCCGGAGCCGTCCGCCGTGCTGCTGCGCCACGAGGCCAGCCTGTCCCAGGCCATCCTCACCGACTGGAAGCAGCGCTTCATCGACGCCTATGACGTGGAGCTGCAGGCGTTCATCGACGGCGTGCGTGCCGGCCGCCTGACCGGCCCGTCGTCCTGGGACGGCTATGCGGCGGCGGTGGCCGCCGACGCTTGTGTCGCGGCCCAGCGCAGCGGCGCCATCGTGCCGATCGAAATGCCCGAGCGTCCGGGCTTCTACGCCCACTGA	MTLNLGVIGTGAIGQDHIRRCSHALVGSRVVAVNDINQDQAARVVQQQGIEAEVYADGHRLVESPTVDAVLVTSWGPSHEEFVLAAIAAGKPVFCEKPLAVTAEGCRRIVDAEIAHGQRLVQVGFMRPYDQGYRALKEVIRSGRIGEPLMLHCAHRNPSVGENYTTDMAITDTLIHELDVLRWLLDDDYVSTQVIFPRKASGALAHLKDPQIVLLETAKGTRIDVEIFVNCQYGYDIQCEVVGDSGIAKLPEPSAVLLRHEASLSQAILTDWKQRFIDAYDVELQAFIDGVRAGRLTGPSSWDGYAAAVAADACVAAQRSGAIVPIEMPERPGFYAH				NA	NA	NA	NA	NA
BMS010_01756	861			hypothetical protein	ATGCGTATCGCCTTCGACCCCTACATGTACCGCCACCTGCCGATCCCCCAGATGGTCGATAAGGTGGCCGAGCTGGGCTACGAGTACATCGAGCTTTCGCCGCGGGAAGACTTCCTGCCGTTCTACAAGTACCCGCGCGTGGACAAAGCGCGCATCCGCGAATTCCGCAAGGCGCTCAATGACACCGGGGTGAAGCTCTCCTCGTTGCTGCCCCTGTACCACTGGGCCGGCCCCGACGAGGAAATGCGCGAGGCCGCCGTGCGCAATTGGAAGCGCGCCATCCAGGTGGCGGTGGAAATGGATTGCGACCTGATCAACACCGAGTTCAGCGGCCATGCGGACAAGGCGCTGCTCTGCGAAAACCAGTTCATGCGTTCCATGGAAGAGCTGCTGCCGATCTTCGAACGCGAGGGCGTCAAGCTGGACATCCAGGCGCACCCCTACGATTTCTGCGAGCGCAACAACGAGGCGGTGGACATCATCCGTGGCCTGGACAAGGGCTTCGTCAACTACCTGTACGCGGCGCCGCACACCTTCTTCTACGACGACGGCAAGGGCGATATCGCACCGATGCTGCGCTACGCCGGCGACAAGCTGACCCACGTGATCATCGCCGACACCTACAACCACCGCGCCTCGTCGAACCTGCGCTACATCGTCAACCCGCCGGGCGTGGTCGCCACCGTGCACCAGCATCTGGACATCGGCCAGGGCGAGGTGGACTGGGACACCTTCTTCTCCACCCTGCGCGACATGAAATTCGACGGCATCGCCACCGTCGCCGTGTTCGCCTGGGAAGACCGCGCCGACGAATCCAGCCGCTTCATGCTGGAGCGGGTGAAGCAGGAGTTGTGTCGGTAA	MRIAFDPYMYRHLPIPQMVDKVAELGYEYIELSPREDFLPFYKYPRVDKARIREFRKALNDTGVKLSSLLPLYHWAGPDEEMREAAVRNWKRAIQVAVEMDCDLINTEFSGHADKALLCENQFMRSMEELLPIFEREGVKLDIQAHPYDFCERNNEAVDIIRGLDKGFVNYLYAAPHTFFYDDGKGDIAPMLRYAGDKLTHVIIADTYNHRASSNLRYIVNPPGVVATVHQHLDIGQGEVDWDTFFSTLRDMKFDGIATVAVFAWEDRADESSRFMLERVKQELCR	PGPT0020845_362	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020845-iolH-K06605	NA	NA
BMS010_01757	936	thpA_1	COG1879	D-threitol-binding protein	ATGAAGATGAAAACCCGCCTCGCCTCGCTGGCCCTGTCGTTGCTGCTCACGAGTACCGCTGCCCTGGCCGACATCAAGATCGGCGTGAGCATGTCCCAGTTCGATGACAACTGGCTGACCTATCTGCGCGAGTCCATGGCCCGGAAGGCCAAGGACGAAGGCGTCCAATTGCAGTTCGAGGATGCCCGCGCCGACGTGGTGAAGCAGCTCAACCAGGTGCAGAGCTTCATCAGCCAGAAGGTCGACGCCATCATCGTCAACCCGGTGGATACCGCCGCGACCCGCAACATCACCCAGGCTGCGGTCGCTGCCGGCATTCCGCTGGTCTACGTCAATCGCCGTCCGGACGAAGAGAAACTACCGGAAGGGGTGGTCACCGTCGCTTCCAACGACTACGAAGCCGGCCGCATGCAGATGGAATACCTGGCGCAGAAGATGGGCGGCAAGGGCACCCTGGCGATCCTGCTCGGCGACCTGGCCAACAACGCCACCCATAACCGCACCAAGGGCGTGAAGGAGGTGCTGGCCAAGTACCCGGACATCAAGATCAAGGAAGAACAGACCGGCATCTGGATGCGCGACAAGGGCATGGACCTGATGAGCAACTGGCTACTCTCCGGTGAAGAGTTCGACGCCGTGGCCTCGAACAACGACGAAATGGCCATCGGTGCCGCCATGGCCCTGCAACAGGCCGGCAAGCAGAAGGGCGACGTGCTCATTGGCGGCGTCGACGGCACTCCCGACGGACTGGCCGCGGTGAGGCGCGACCTGATGACCGTCTCGGTGTTCCAGGATGCCAAGGGACAGGCGAACGGCGCCGTCGAGGCAGCGCTGAAGATGATCCGCAAGGAGCCCATCGAGCAGACCATCTGGGTGCCCTACGAGCTGATCACCGCCGAGAACGTCGAGGCCTTCCAGCAGCGCCTGAAACAGTGA	MKMKTRLASLALSLLLTSTAALADIKIGVSMSQFDDNWLTYLRESMARKAKDEGVQLQFEDARADVVKQLNQVQSFISQKVDAIIVNPVDTAATRNITQAAVAAGIPLVYVNRRPDEEKLPEGVVTVASNDYEAGRMQMEYLAQKMGGKGTLAILLGDLANNATHNRTKGVKEVLAKYPDIKIKEEQTGIWMRDKGMDLMSNWLLSGEEFDAVASNNDEMAIGAAMALQQAGKQKGDVLIGGVDGTPDGLAAVRRDLMTVSVFQDAKGQANGAVEAALKMIRKEPIEQTIWVPYELITAENVEAFQQRLKQ	PGPT0016780_246	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_TRANSPORT,PGPT0016780-rbsB|mocB|mglB-K17213	NA	NA
BMS010_01758	1242	lamB_1	COG4580	Maltoporin	ATGAATCAGATGACCAAACTGGGGCTGGCGGCGGCATTGTCCGGCCTGGTCCTGCCCACGGCACAGGCGCTGGAGTTTTCCGGGTACCTGCGCGGCGGTCTCGGCGGCTCGACCGGCTCGCAGTCGCAGCGCTGCTTCCAGTTGCCCGGCGCCGCGTCGAAATACCGCCTGGGCAACGAGTGCGAGCAACTGGCCGAGCCCGCGCTGTCCCACGATTTCCTGACCCTGGACGACGGCTCGACCGTCGGCCTCTACGGCATGCTGCAGCTCTACAACGAGTACGACCATGCGCCGATCTTCGACGGCGACCACGGCAAGGTGCGGCTGGTGCAGGGCTATGCCTACTGGAAGAACGTCGGCGCGCTGAACGGCGGTTCGCTCTGGGCCGGGCGCCGCTACTACAAGCGTAATGCCATCGATATCTCCGACTTCTTCTACTGGAACCAGAGCGCCACCGGTGGCGGTATCGAGGATGTGCAGATCGGTGACCTGAGGTACAGCTACGCCGTCTCGCGCAAGGATAACTTCGACCAGAAGCGCTACATCAACCGCCATGATTTCAACGTCGCCGGCTTCAAGGTCAACCCGGGCGGCGAGCTGGAAGTGGGGCTGAGCTACATCGACAAGCCGGAGAGCATCGAGAATTCCCACAGCGGCTGGGCGGCGACCTTGCAGCACAAGCAGCAGGACTTCCTCGGCTGGGGCGGGGTGAACACCTTCGCCGTGCAGTACGGCAAGGGGCCGGGGATCGGCCTGGGCTCCACCGGCGACGTCGGGCTCGACACCGATGCCGCCAGCTTCCGCGTGGTGGAGTTCTTCGACTGGCAACCTACGCCGACCTTCGGCGGCCAGTTCCAGGTGGTCTACCAGCGCGACAAGGACACCGACGACGAAAGCACCGCCGAGGCGCGCGACTGGTGGTCGGTTGGCGGCCGCACGGTGTTCGGCCTGGCTCCGCAATTCAAGCTCGCCACCGAGCTGGGCCACGACCGCGTCAAGGCGCCCGGCGGTACCCGAACCTTGACCAAGTTCACCATCGCGCCGACCTGGTCGCCCAACGGCACCACATTCCGCAACGCCAACCCGGAAGTGCGCTTCTATTACACCTACGCGATCTGGAACCGGGCTGCCCAGGAGGCCGCCAACCAGTTCGATCCGGGCTCGGCGCTGTCGGACACCGGCAGCTTCGGCTCGTCGCTGCACGGTTCCAACTTCGGCGTGCAGATCGAGCATTCCTGGTAG	MNQMTKLGLAAALSGLVLPTAQALEFSGYLRGGLGGSTGSQSQRCFQLPGAASKYRLGNECEQLAEPALSHDFLTLDDGSTVGLYGMLQLYNEYDHAPIFDGDHGKVRLVQGYAYWKNVGALNGGSLWAGRRYYKRNAIDISDFFYWNQSATGGGIEDVQIGDLRYSYAVSRKDNFDQKRYINRHDFNVAGFKVNPGGELEVGLSYIDKPESIENSHSGWAATLQHKQQDFLGWGGVNTFAVQYGKGPGIGLGSTGDVGLDTDAASFRVVEFFDWQPTPTFGGQFQVVYQRDKDTDDESTAEARDWWSVGGRTVFGLAPQFKLATELGHDRVKAPGGTRTLTKFTIAPTWSPNGTTFRNANPEVRFYYTYAIWNRAAQEAANQFDPGSALSDTGSFGSSLHGSNFGVQIEHSW	PGPT0016830_722	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MALTODEXTRIN_TRANSPORT,PGPT0016830-lamB-K02024	NA	NA
BMS010_01759	240			hypothetical protein	ATGAATGCCGTAGCCCGTTTCACCTCCGCTCTTCGCGACATGCCGTCGCAAGCCCTGGGATCGCCGCGCCCCAGCCGCCTGGCCCGATTCCGCCGCCACGCCTGCCCAGTCCAGGCGATGCCGCCATGCCTGGATACCTCCACCGCCGTACAGCCGATCGCGAAGCAGGGCCTGCATGGCGACATCCGGAAACCCATCCCTCTGGTCGCGCCCGGGAACTACCCGCAGTCCCTGACATGA	MNAVARFTSALRDMPSQALGSPRPSRLARFRRHACPVQAMPPCLDTSTAVQPIAKQGLHGDIRKPIPLVAPGNYPQSLT				NA	NA	NA	NA	NA
BMS010_01760	1647	mglA_1	COG1129	Galactose/methyl galactoside import ATP-binding protein MglA	ATGACCATCGAAACGCGAATGCCCGGCTCCCGCGCCGGCAACCCGAAACGTTCCGAGGAGAACAAGACCATGCTCGGCTCATCCACCGCCATGCGAACACCCGCCTATCGCCACTCCGTGTCCCCGACCACCCGGGACGAGGCGCCCGCCAGCGAATACCTGCTGGAAATCACCCATGTCAGCAAGCGCTTTCCCGGTGTGGTCGCGCTGGCCGACGTGCAGTTGCGGGTGCGCCCCGGCACCGTGCTGGCGCTGATGGGCGAGAACGGCGCGGGCAAGTCGACGCTGATGAAGATCATCGCCGGCATCCACCAGCCGGACAGCGGCGAACTGCTGCTGCGTGGCAAGCCGGTGTCGTTCGAAACGCCGCTGGAGGCGCTGCAGGCCGGCATCGCGATGATCCATCAGGAACTCAACCTGATGCCGCACATGAGCATCGCCGAGAACATCTGGATCGGCCGCGAGCCGCTCAATTCGCTGCACATGGTCGACCACGGCGAAATGCACCGGCGCACCCGCGAGCTGCTCGGCCGCCTGCGCATCGAACTGGACCCGGAGATGCCGGTGGGCGAGCTGAGCATCGCCGGACGGCAAATGGTGGAAATCGCCAAGGCGGTGTCCTACGACTCGGAAATCCTGATCATGGACGAGCCCACCTCGGCCATCACCGAAACCGAGGTGGCGCACCTGTTCTCGATCATCGCCGACCTCAAGGCGCAGGGTAAGGGCATCATCTACATCACCCACAAGATGGACGAGGTGTTCGCCATCGCCGACGAGGTGGCGGTGTTCCGCGACGGTGCCTTCATCGGCCTGCAACGCGCCGACACCCTGGATGGCGACAGCCTGATCGCGATGATGGTCGGCCGCGAACTGACCCAACTGTTCCCCAAACGCGCCCAGCCTTCCGAGCGGGTCGTGCTGTCGGTGCGCGATCTCACGCTGGACGGCGTGTTCGAGGGCGTGTCCTTCGACCTGCATGCCGGCGAGGTGCTCGGCATCGCCGGGCTGATGGGCTCCGGGCGGACCAACGTCGCCGAGACCCTGTTCGGCGTGACCCCGGCCAGCCGCGGCGAAATCGTCATCGATGGCGAGCCGGTGCGCGTCGCCGATCCGTGCCTGGCGATCCAGAAGGGCCTGGCGCTGCTCACCGAGGATCGCAAGGACAGCGGCCTGTTCCCCTGCCTCTCGGTGCTGGAAAACATGGAAGTGGCCGTGCTGCCGCACTACGCCGGCAAGGGCTTCGTCCACCAGAAGGAGTTGCGCGACCTCTGCGAAGACATGTGCCGCAAGCTGCGGGTGAAGACCCCGTCGCTGGAGCAGTGCATCGGCAACCTGTCCGGCGGCAACCAGCAGAAGGCCCTGTTGGCGCGTTGGCTGATGACCAACCCGCGCATCCTCATCCTCGACGAGCCGACCCGGGGCATCGACGTCGGCGCCAAGGCCGAGATCTACCGCCTGATCGCGCGCCTCACCGAGGAGGGCATGGCGGTGATCATGATCTCCTCGGAAATGCCCGAGGTGCTGGGCATGAGCGATCGGGTGATGGTCATGCACGAGGGGCGGCTGAGCGGCATCCTCGACCGTGGCGAGGCGACCCAGGAGCGGATCATGCACCTGGCTTCCGGCCTTCCTTCGCTTCACTGA	MTIETRMPGSRAGNPKRSEENKTMLGSSTAMRTPAYRHSVSPTTRDEAPASEYLLEITHVSKRFPGVVALADVQLRVRPGTVLALMGENGAGKSTLMKIIAGIHQPDSGELLLRGKPVSFETPLEALQAGIAMIHQELNLMPHMSIAENIWIGREPLNSLHMVDHGEMHRRTRELLGRLRIELDPEMPVGELSIAGRQMVEIAKAVSYDSEILIMDEPTSAITETEVAHLFSIIADLKAQGKGIIYITHKMDEVFAIADEVAVFRDGAFIGLQRADTLDGDSLIAMMVGRELTQLFPKRAQPSERVVLSVRDLTLDGVFEGVSFDLHAGEVLGIAGLMGSGRTNVAETLFGVTPASRGEIVIDGEPVRVADPCLAIQKGLALLTEDRKDSGLFPCLSVLENMEVAVLPHYAGKGFVHQKELRDLCEDMCRKLRVKTPSLEQCIGNLSGGNQQKALLARWLMTNPRILILDEPTRGIDVGAKAEIYRLIARLTEEGMAVIMISSEMPEVLGMSDRVMVMHEGRLSGILDRGEATQERIMHLASGLPSLH	PGPT0016795_239	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_lNOSITOL_TRANSPORT_1,PGPT0016795-rbsA|mglA-K17215	NA	NA
BMS010_01761	1023	rbsC_3	COG1172	Ribose import permease protein RbsC	ATGAGTGCAGTCATCGAAAAGAAAACCGCCCCGGCCACCGTCCGGACCAGCCGGCGCCTGCCCACCGAATTCGGCATCCTGCTGGTGTTGGTCGGCATCGCCCTGATGTTCGAAGCGTTCGGCTGGGCGATCCGCGACCAGAGCTTCCTGATGAATGCCCAGCGGCTGGTGCTGATGATCCTGCAGGTCTCGATCATCGGCCTGCTCGCCATCGGCGTGACCCAGGTGATCATCACCACCGGCATCGATCTGTCCTCCGGCTCGGTGCTGGCACTGTCAGCGATGGTCGCCGCCAGCCTCGCGCAGACGTCCGACTTCGGCCGGGCGATATTCCCTTCGCTGACCGACATGCCGGTCTGGGTGCCTGTGATGGCGGGGCTGGCGGTGGGGCTGCTGGCGGGGGCGATCAACGGCAGTATCATCGCCATCACTGGCATTCCGCCGTTCATCGCCACCCTCGGCATGATGGTCTCGGCCCGCGGCCTGGCCCGCTATTACACCGAAGGCCAGCCGATCAGCATGCTGTCGGACTCCTACACCGCCATCGGCAGCGGTGCCATGCCGGTGATCATCTTCCTGGTGGTGGCGGCGATCTTCCACGTCGCCCTGCGCTACACCAAGTACGGCAAGTACACCTACGCCATCGGCGGCAACATGCAGGCTGCGCGGATCTCCGGGATCAACGTCAAGCGCCACCTGGTGATCGTCTACAGCATCGCCGGCCTGCTGGCGGGGCTGGCCGGGGTCGTCGCCTCGGCCCGCGCCGCCACCGGCCAGGCCGGGATGGGGATGTCCTACGAACTGGATGCCATCGCTGCCGCGGTGATCGGCGGCACCAGCCTGGCCGGCGGGGTAGGGCGCATCACCGGTACCGTGATCGGTGCGCTGATTCTCGGCGTGATGGCCAGCGGCTTCACCTTCCTCGGTGTGGATGCCTACATCCAGGACATCATCAAGGGCCTGATCATCGTCGTCGCGGTGGTCATCGACCAGTACCGCAACCGGCGCAAGGCCAAGCGTTGA	MSAVIEKKTAPATVRTSRRLPTEFGILLVLVGIALMFEAFGWAIRDQSFLMNAQRLVLMILQVSIIGLLAIGVTQVIITTGIDLSSGSVLALSAMVAASLAQTSDFGRAIFPSLTDMPVWVPVMAGLAVGLLAGAINGSIIAITGIPPFIATLGMMVSARGLARYYTEGQPISMLSDSYTAIGSGAMPVIIFLVVAAIFHVALRYTKYGKYTYAIGGNMQAARISGINVKRHLVIVYSIAGLLAGLAGVVASARAATGQAGMGMSYELDAIAAAVIGGTSLAGGVGRITGTVIGALILGVMASGFTFLGVDAYIQDIIKGLIIVVAVVIDQYRNRRKAKR	PGPT0016800_226	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_lNOSITOL_TRANSPORT_1,PGPT0016800-rbsC|mglC-K17214	NA	NA
BMS010_01762	435			hypothetical protein	ATGCGCATGGACCTGTTGCTGCAGCTCCACTTGTTCGCCGTGGCCTTCTGGCTGGGCGTCGTCGCGGTGGAATTCCTCCTCGAGCGGAGCCGCGCACAGAGCCGCTCCCAGGGTTTCAGCGTGGCGCAACTGCACCGGAAGATCGATCTCTGGTTCGAGATGCCGGCGTTCAGCCTGGTGTTGGTCACCGGCATCCTGATGTTCGATTCCAGTCGCTTCGAAGGCGTCTATGCCCTCAAGATCATCGCCGGGAACCTCGCCGTGGCCGGCAACCTCCTCTGCCTCGCCCCAGTGCTGCAACGGCATGTAGCAGCCTCAGGGGACAACCTGTCCGACGTCATCCGCCTGTCGCGCCAGATCGACCTCATTTCCCTGCTGGCCATCCCGGCCGGGCTGGTTGCCCTGGTCTGTGGCCTCTATCTGGCGGTGGGCTGA	MRMDLLLQLHLFAVAFWLGVVAVEFLLERSRAQSRSQGFSVAQLHRKIDLWFEMPAFSLVLVTGILMFDSSRFEGVYALKIIAGNLAVAGNLLCLAPVLQRHVAASGDNLSDVIRLSRQIDLISLLAIPAGLVALVCGLYLAVG				NA	NA	NA	NA	NA
BMS010_01763	834	crt_1	COG1024	Short-chain-enoyl-CoA hydratase	ATGACCTTCACCCAGATCGCCTACGAAGAATACGGCCAGATCCGTGTCATTCGCTTCGACCGGCCGGAGAAGCGCAACTGCATCGGCCCCGTCACCCACCGGGAGCTGATCGAAGCCTGGACCCGCTTCAAGGAGGACGACGACGCCCTGGTGGCGATCATCACGGGCAGCGGGGACCAGGCGTTCTGCGCGGGCGGCGACTTGGACGCGGGCTTCGACCTCGTACCCTCGACGCCCGAGGAGATCGCCGCGCACAACCGCGGAGAACGGCCCGGCATCCTTGGCCCTAGCCGCTGGACCGACGTCTACAAACCGGTCATCGCCGCGGTCAATGGCGCCGCCTACGCCGGTGGCCTGGAGTGGGCCTGCTTCGCCGACATGCGCATCGCCGAGGAGCATGCCTCCTTCGGTGTCACCTGCCGGCGTTGGAACATCGGCCTCGCCGACGGCGGCAGCCAGCGCCTGCCGCGCATCGTCGGGCTGGGACGGGCGATGGAGCTGATTCTCACCGGCCGCGTCATCTCCGCCTCGGAGGCGCAGGCCATCGGTCTGGTGAACGAGGTGGTGCCCAAGGGACAATCCCTGGCACGCGCCCTCGAACTGGCCCGCTTCCTCTGCACCCTCCCCCAACCGGCCCTGCGCTCGGACAAGGAAGCCGCCATCCGTGGCTTCGGGCAGCCGCTGGCCGAAGGGCTGCGCATCGAGGCCGAGTGCTTCAACCGCTCCATCCACCAGCCCGAAACCCAGGAGGGGCTGCGCCGTTTCCGCGAACGCGACCATCCGGACCGCATCCCCGGACAGACTCCGGCCACGCCTGGACTGGTCCGCAACTGA	MTFTQIAYEEYGQIRVIRFDRPEKRNCIGPVTHRELIEAWTRFKEDDDALVAIITGSGDQAFCAGGDLDAGFDLVPSTPEEIAAHNRGERPGILGPSRWTDVYKPVIAAVNGAAYAGGLEWACFADMRIAEEHASFGVTCRRWNIGLADGGSQRLPRIVGLGRAMELILTGRVISASEAQAIGLVNEVVPKGQSLARALELARFLCTLPQPALRSDKEAAIRGFGQPLAEGLRIEAECFNRSIHQPETQEGLRRFRERDHPDRIPGQTPATPGLVRN	PGPT0001860_2249	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0001860-paaF|echA-K01692	NA	NA
BMS010_01764	954			hypothetical protein	ATGAAGCACAGCCTCTCTGAGATCCGGCAGAGCATGCCCCCGGAAAACCTCATCATCCCCGCACGCGACGGCTACCGGCTTTCCGCCTACCGCTACAACGTCTCGGGAAAGGCCAGGGGCAACCTCATCGTGGCCGGCGCGACCGGCGTGCAGCAGCGCTTCTATCGCCGGTTCGCCGAGCATGCGGTACGCCGGGGGCTCAATGTCCTCACCCTGGACTACCGGGGCGTCGGGGAATCCGGCCCTGCCACCTTGAAGGGCTTCCACATGTCCTACCTGGACTGGGCCTATCAGGACCTGGCCGCCGTCGTCGATCTGCTGGGCCAGGAAGACCTGCCGCTCTACTGGGTGGGGCACTCGTTCGGTGGCCATGCCATCGGCCTGCTGCCCAACCACGACCGCCTCACGGCGTGCTACACCTTTGGCAGCGGCGCCGGCTGGAGCGGCTGGATGCCCAGACTCGAGGCAATCAAGGCTCGCCTGCTGTGGACCTTCGTCCTGCCACCGATCGTCTCCTGGAAAGGCTACATGGCCTGGAGCCTGCTGGGCATGGGCGACGACCTGCCGCTCGGGGTCTACAAGGATTGGAAGCGCTGGTGCGTCTACCCGCACTACTACTTCGACGATCCGGACATGGCCCACCTCGCCGGCTTGTACGCGGCGGTTCGTACGCCCTGTGTCTTCGCCACGTCGACGGACGATCCCTGGGCCCCGCCCCGTTCCCGTGATGCCTTCGTCAAGGCCTTCCGCAATGCGCCGCTGATTACCCGGGACATCGAGCCGGCACGCAACGGCGAACCCATTGGGCACATGGGCTACTTCCGCGCCCATGCGCAACCGCTCTGGGACGAGATGCTCAACTGGTTGCTGCGGCACCCGGTACAGAAGGCAAGCCCACGAATACCCGCGCCCACCCTCTGGCACCCAACAGGCAAAACAGGAGAGCAACCATGA	MKHSLSEIRQSMPPENLIIPARDGYRLSAYRYNVSGKARGNLIVAGATGVQQRFYRRFAEHAVRRGLNVLTLDYRGVGESGPATLKGFHMSYLDWAYQDLAAVVDLLGQEDLPLYWVGHSFGGHAIGLLPNHDRLTACYTFGSGAGWSGWMPRLEAIKARLLWTFVLPPIVSWKGYMAWSLLGMGDDLPLGVYKDWKRWCVYPHYYFDDPDMAHLAGLYAAVRTPCVFATSTDDPWAPPRSRDAFVKAFRNAPLITRDIEPARNGEPIGHMGYFRAHAQPLWDEMLNWLLRHPVQKASPRIPAPTLWHPTGKTGEQP				NA	NA	NA	NA	NA
BMS010_01765	798	paaF_1	COG1024	2,3-dehydroadipyl-CoA hydratase	ATGAGCGAAGCCCACAGCGGACCCGGCCGCGTCACCCGCGAACAGCGCGGACATCTCTTTCTGATCGGCCTGGATCGGGCGGGCAAGCGCAATGCCTTTGACAGCGCGATGCTCACCGACCTGTCCCTGGCCATCGGCGAGTACGAACGCAACGACGAACTGCGTTGCGCGGTGCTGTTCGGCCACGGCGAGCACTTCACCGCCGGCCTCGACCTGATGGAACTGACGCCGAAGCTCGCCTCGGGCGGTTTCGCCTACCCGGCGGAGGGCATCGATCCCTGGGGGGTATCGAAGCCGCGCCGGACCAAACCCGTGGTGGTGGCCATCCAGGGCACTTGCTGGACCGCCGGCATCGAGCTGGTGCTGAACGCAGACATCGCCATCGCCGCCCGCAATGCCCGCTTCGCCCATCTGGAAGTGCTGCGCGGCATTCCGCCGTCCGGCGGCTCCACCGTTCGCTTCACCCAGGCGGCCGGCTGGACCAACGCCATGCGCTACATGCTGACCGGCGAAGCCTTCGATGCCGAACAGGCGCTGGCAATGCGCCTGCTCACCGAGGTCGTCGAACCCGGCCAGGAACTGGCCCGTGCCCTCGAATACGCCGAGCGCATCGCCAAGGCCGCTCCCCTGGCGATCAAGGCCACACTGAAGTCGGCCTTCCAGGCCCGCGACGAGGGCGACGACGCAGCCCTGTCACAACTCAACGAACTGCTCTTCACGCTGATTCGCAGCGAAGACGTCCGCGAAGGCGTCATGGCGATGATGCAGAAGCGCGAGCCGGTGTTCCAAGGCCGCTGA	MSEAHSGPGRVTREQRGHLFLIGLDRAGKRNAFDSAMLTDLSLAIGEYERNDELRCAVLFGHGEHFTAGLDLMELTPKLASGGFAYPAEGIDPWGVSKPRRTKPVVVAIQGTCWTAGIELVLNADIAIAARNARFAHLEVLRGIPPSGGSTVRFTQAAGWTNAMRYMLTGEAFDAEQALAMRLLTEVVEPGQELARALEYAERIAKAAPLAIKATLKSAFQARDEGDDAALSQLNELLFTLIRSEDVREGVMAMMQKREPVFQGR	PGPT0001860_3715	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0001860-paaF|echA-K01692	NA	NA
BMS010_01766	561	yxaF		putative HTH-type transcriptional regulator YxaF	GTGCGCCCCCCCAAGATTTCCCGCGACGAGCTGCTGTTGCGCTGCGCCAATACCTTCAAACGCCTCGGCTACCACGGCACCACCATGGATGCGCTGTCGGAGGCGTGCGGGTTGACGAAGGCCTCCTTCTATCACCACTACCCGAACAAGGAATCCCTGCTGCGGGACGTATTGGCGTGGACGCACGAGCGTATTGGCCAATCGCTGTTCTCGATCGCCTTCGACGAAAGCCTCGCCCCTCATGAGCGGCTTTCGAAGATGGGACGCAATGCCGGCAAGCTGTTCCTGGGCGACGCCATCGGTTGCCTGATGGGGGTCGTAGCGGTCGATGCGACCTACGGGAAAAGCGAACTCATGGCGCCGATCCGCCAGTTCCTCGACGACTGGGCCCGCGCCCTCGCGCACCTCTACGTCCCTCGGTTCGGGGAAGAAGAGGCGGCCGAACTGGGACGGCAGCTGGTGGCGGATTACGAGGGCGCCATCCTGCTGGCCCGCATCTATGGCGATCCCGCTCGTATCGACGCCGTTACCCAGCGAGCCCTGAAGCAGCTCGAGTCCTGA	MRPPKISRDELLLRCANTFKRLGYHGTTMDALSEACGLTKASFYHHYPNKESLLRDVLAWTHERIGQSLFSIAFDESLAPHERLSKMGRNAGKLFLGDAIGCLMGVVAVDATYGKSELMAPIRQFLDDWARALAHLYVPRFGEEEAAELGRQLVADYEGAILLARIYGDPARIDAVTQRALKQLES				NA	NA	NA	NA	NA
BMS010_01767	600		COG1309	putative HTH-type transcriptional regulator	ATGATCATCGGCGCCGCCGACCTGCTGCGCCGTTGGGGCCTGCATGCGACCAGCATGCGGGAAGTCGTGCGCCATTCGAACACGCCGCGGGGCTCCATCGCCCATCACTTCCCCGGCGGCAAGCGGCAGTTGCTCGAAGCCGCGGTGCACCACGCCGGCCAGGAGGTCAGCGTTCCCCTGGAGGCGCTGATGCGCGAGTACGGCCCCTTGCCGGGGCTGGAACGCTTCGTCATGCAGTGGCGCCGCGTGCTCGAGGAGAGCGGCTTCGAGGCGGGATGTGCGGTGCTCGCCGTGGCGGTGGAGAAATATGTCTCCGACCAGCGGGAAGCCGATCCGCAGCAGGAGCGGCAGGTCCAGCAACAACTGCTGGACCAGGCCAATGACATCTTCGGGGAATGGCGGCGGATCGTTTCCCACGCATTGCAGGAGGCCGGCAGCTCGCCCGCTCGGGCCGAAAGCCTGGCGCTGCTGACGATTGCCTCGATCGAAGGCTCGGTGGCCTTGTGCCGTGCCGCACGCAGCAGCGAACCACTGGATCGGATCTGGGAAGAGCTGCGCCTGCTCTTGGAGCGCGAACCGGGCCTCTCGCCCCGGGGCTGA	MIIGAADLLRRWGLHATSMREVVRHSNTPRGSIAHHFPGGKRQLLEAAVHHAGQEVSVPLEALMREYGPLPGLERFVMQWRRVLEESGFEAGCAVLAVAVEKYVSDQREADPQQERQVQQQLLDQANDIFGEWRRIVSHALQEAGSSPARAESLALLTIASIEGSVALCRAARSSEPLDRIWEELRLLLEREPGLSPRG				NA	NA	NA	NA	NA
BMS010_01768	393			hypothetical protein	ATGACCACACGCCCCGTGCTCCCCAACCCCATCGACTCCGTCGCCCGCGCATCGCTGGACACACCGGACGGCTGGCTCGAATACCCGTTGGGCGACGACGTGATTTCAGGCAATCCGGAAACCCGGATGAAACTGCTGCGCACGGTGGGTGTGAAGACGCCACACAAGTCCGTTGCGTTCTTTACCTCGCAGCCCGCGAAATTCCATTGGCGCTTCGACAACGACGAAGCCTTCGTACTGCTGGAGGGACATATCGCGATCACCATGGACACCGGGGAGCGAATCGAGATGACGGCGGGCGACGCCGTGTCCATTCCCGCCGGGCATACGGGTATCTGCGAGGTGTATGCGTTCAGCCGCAAGTTCACGGTGGTGAGTGGCGTGTCCGACTAG	MTTRPVLPNPIDSVARASLDTPDGWLEYPLGDDVISGNPETRMKLLRTVGVKTPHKSVAFFTSQPAKFHWRFDNDEAFVLLEGHIAITMDTGERIEMTAGDAVSIPAGHTGICEVYAFSRKFTVVSGVSD				NA	NA	NA	NA	NA
BMS010_01769	651	chaC_2	COG3703	Glutathione-specific gamma-glutamylcyclotransferase	ATGAACGACCACGCCCCCTTCTCCTGTTCGCTCTACCCTCCGGCACTCGGGCTGCCCCGGCAGCTCACCTGCACCGAATTGCAGGCATCCCTGGAAAACACCATGCGCCAACGCGGGGCGGGGCCTGTCTGGCTGTTCGCCTATGGGTCGCTGATCTGGCGTCCCGCCTGCCCCTCGGTGGAAGCCCGGCGCGCACGGGTGCACGGTTATCATCGCGGTCTGTACCTGTGGTCCATGTTGCACCGCGGCACGCCGGAAAACCCCGGCCTGGTGCTCGGTCTGGACCGCGGCGGCTCCTGCTCCGGCTTCGCCTACCGCCTGCCCGAGGCCGGCCTGGAGGAACACCTGCTGGCGCTCTGGCAGCGGGAAATGCCGGATGCCTCCTACCGTCCGGAATGGTTGAACTGCCGCCTGGAAGACGGCAGCCAGGTACGCGCCCTCGGCTTCGTCCTGCAACGGCACCTGCCCAGCTACGCCGGTTTGCTGCCGGACAGCGTGCTCAGCCGGGTCTTCGCCACCGCCTGCGGACATTTCGGCACCACCCGCGACTACGTGGAACAAACCGTCAGCGCCCTGCGCGCCCACGCCATGCCGGACTTCAACCTGGAAGCGACCCTGGCCCGCTGCTGCCCCGAACGCGTCAGCGAGTGA	MNDHAPFSCSLYPPALGLPRQLTCTELQASLENTMRQRGAGPVWLFAYGSLIWRPACPSVEARRARVHGYHRGLYLWSMLHRGTPENPGLVLGLDRGGSCSGFAYRLPEAGLEEHLLALWQREMPDASYRPEWLNCRLEDGSQVRALGFVLQRHLPSYAGLLPDSVLSRVFATACGHFGTTRDYVEQTVSALRAHAMPDFNLEATLARCCPERVSE				NA	NA	NA	NA	NA
BMS010_01770	165			hypothetical protein	ATGCAACTTCCTTATTTCGACATCGAGCGACTGCCTGATCCGTTGTCCCGCGCTGAGCCGGACACACGGCAGAAGCATGCGGCCAACGAACCACGACCGGCGCCGCGGGTAACGACCAAGGCCGATCAGGAGCAACCGGGCACCGGTCGGACACGTCCAGAGTGA	MQLPYFDIERLPDPLSRAEPDTRQKHAANEPRPAPRVTTKADQEQPGTGRTRPE				NA	NA	NA	NA	NA
BMS010_01771	420			hypothetical protein	ATGACCCTGACGGCTTCCTTGCGCCTCGCGCTGCTCTGGATACTGATGCTGACGATGCCTCTCAAGGCCATCGCGGCGGTATCCATGCCGTTCTGCGGAGTGGGTGAGCATCATCGTGACGCTGTCCAGGCGAGCGCCCCGGCCCACGCCCATGGTTCGGAGGCAGGACACGCGCACGAGCACGGCCAGCCCCAGGTGACTTCCGCTCAGCCGGATTCGCCACCGGCGGGACATGATGGCCACTTGGCTGGCAATGCCTCCTGTAGCCTCTGCTCCGCCTGCTGCCACGCCAGCATGACCACCACCACGCTGCACGATTCCCCCATCCTGCCCGACGCCCCCCTGGCGGTTGCTGCCTTCGTGTCCTTCGCCGGCTTCATCGGCGAAGCGCCCGAGCGCCCCCCGAGAACTCTCGCCTGA	MTLTASLRLALLWILMLTMPLKAIAAVSMPFCGVGEHHRDAVQASAPAHAHGSEAGHAHEHGQPQVTSAQPDSPPAGHDGHLAGNASCSLCSACCHASMTTTTLHDSPILPDAPLAVAAFVSFAGFIGEAPERPPRTLA				NA	NA	NA	NA	NA
BMS010_01772	315			hypothetical protein	ATGCTTCGTCATGCCTTACCCGGATTCTGGGCGCTGGCCTGCATTCCGCTGCTCAGCCTGAGCACGTCGGCTCATGCCGAGCCGGACCCGCGCGACGCTGGCGCTGCCGTGCCCGAGGCGGTCTACCGTTCGCCGCTGGCCGACTACCGCCGCTTCGAAGAGCCCGCAGAAGTCGCCGACTGGCGCGCCACCAACGATACCGTCGGCCGCATCGGCGGCTGGCGCACCTACGCCATGGAAGCCTACCAGGAGGATGCCGCCGAGCCCGAGACCGGTGCGGAATCCAGCGGGCATTCCGGCCACATGCAGCACTGA	MLRHALPGFWALACIPLLSLSTSAHAEPDPRDAGAAVPEAVYRSPLADYRRFEEPAEVADWRATNDTVGRIGGWRTYAMEAYQEDAAEPETGAESSGHSGHMQH				NA	NA	NA	NA	NA
BMS010_01773	1416			hypothetical protein	ATGCGTGTATCGAATCCACGCCGCGGCGGCCGCCTTGCGCTGCTCGCCGTGGCCCTGCTTGGCCTCGGAGGCTGCGCCGGCTTCTCGAAGGACGGCGGATTTTCCAGCGTCGAGCGGACCGCCGGCGAGCGGCTCGACAAAGAGGTGGTCTGGGCCCGTTCGGACAGCGAGCGCGAGCAGTTGAAGCAGCGGGTCGGCGAACTGCTGGCCAAGCCCCTGAGCGTCGACGACGCTGTGCAGGTCGCCTTGTTCAATAACCCTGGCTTGCAGGCGTCGTTCCATGAGCTGGGCATTTCCGAGGCCGATCTGGTCCAGGCCGGACGGTTGCCCAATCCCGGTTTCTCCTTCGGCCGCCTGACCAAGGGCGACGAAGTGGAGCTGGAGCGCGGCGTGCACCTGAACGTCGCGCGCCTGATCGCCCTGCCCATGACCCGGCGCGTGGAGGCCCGGCGCTTCGAGCAGGTCCAGCGGGAAACCAGCCTGCGCGTGCTCGAACTTGCCGCGGAGACCCGCAAAGCCTATTACCAGGCCGTCGCCGCCGAAGAGAGCCTGCGCTACATGGGCAAGGTCAAGGAGGCCGCCGACGCCAGTGCCGAACTGGCCCGGCGCATGGCCGAGGCGGGCAACTTCAGCACGTTGCAGCGGGCCCGCGAGCAGAGCTTCTATGCCGACGCCAGTCTCAACCTGGTTCGCGCCGAGCAGGCCCGCACCGCCGCGCGGGAGCGCCTGATCCGGCTGCTCGGGCTGTGGGGCGAGCAGACGGCCTTCCAGTTGCCGGAACGCTTGCCCGACCTGCCGGAAAACGCCGACGATCTGCCGGACATCGAACGTACCGCCATGGCCAGCCGCCTCGACATCGAAGCCGCGAAGCTCGGCGCCGAAAGCCTGGCGAAGAACCTCGGGCTGAGCAGGGCCACCCGTTTCGTCAACGTGCTGGAACTGGGCGCGGTGCACAACTCCTCCAACGAGGAGCCGACCCAGCGCGGCTACGAGATCAGCGTGGAGCTGCCGCTGTTCGACTGGAGCGGTGCGCGTGTGGCCAAGGCCGAGTCGCTGTACCGACAGGCCCTGGAGCGCACCGCCGAGACCGCCATCAATGCCCGTTCGGAAGTGCGCGAAGCCTACTTTGGCTACCGCTCGGCCTACGACATCGCCCGTCATTACCGCGACGAGATCCTGCCGCTGCGCCAGCGCATCGCCGAGGAAAACGTGCTGCGCTACAACGGCATGCTGATCGGCGTGTTCGAACTGCTCGCCGACGCCCGCACGCAGATGGCCAGCGTCAACGGCTACATCGAAGCCTTGCGCGATTTCTGGATCGCCCGCGCCGACCTGGACATGGCCCTGGTCGGCAAACCCAGCCTGTCCGCTTCCTCCGGCGTCGAAATGGCCGCCGAAGCGCCTGCCGGTCATTGA	MRVSNPRRGGRLALLAVALLGLGGCAGFSKDGGFSSVERTAGERLDKEVVWARSDSEREQLKQRVGELLAKPLSVDDAVQVALFNNPGLQASFHELGISEADLVQAGRLPNPGFSFGRLTKGDEVELERGVHLNVARLIALPMTRRVEARRFEQVQRETSLRVLELAAETRKAYYQAVAAEESLRYMGKVKEAADASAELARRMAEAGNFSTLQRAREQSFYADASLNLVRAEQARTAARERLIRLLGLWGEQTAFQLPERLPDLPENADDLPDIERTAMASRLDIEAAKLGAESLAKNLGLSRATRFVNVLELGAVHNSSNEEPTQRGYEISVELPLFDWSGARVAKAESLYRQALERTAETAINARSEVREAYFGYRSAYDIARHYRDEILPLRQRIAEENVLRYNGMLIGVFELLADARTQMASVNGYIEALRDFWIARADLDMALVGKPSLSASSGVEMAAEAPAGH	PGPT0004975_407	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-CUS_TRANSPORT_SYSTEM,PGPT0004975-czcC|cusC|cnrC-K15725	NA	NA
BMS010_01774	1410	ftsP		Cell division protein FtsP	ATGGTTTCACGACGTGATTTCTTCCTCGGTGCCGGCGCCATGACTGCGGCGGTGGCCGCTTCTTCGGTCAGTCGAACGGCGATGGCCGGGCTGCCCGAGATCGTTTCCCAGGGCGGGCCGGACACCCAGCCGCCGCTGCAGCCGGAGAACGGCGCGCCGTACCGCCCGGTGGTCACTCTCAACGGCTGGACGCTGCCCTGGCGGATGAACAACGGGGTCAAGGAGTTCCACCTGGTCGCCGAGCCGGTGGTCCGTGAGATGGCGCCCGGCTTCAAGGCCCACCTGTGGGGCTACAACGGTCAGTCGCCGGGGCCGACCATCGAGGTGGTGGAGGGCGACCGCGTGCGCATCTTCGTTACCAACCGCCTGCCGGAACACACCAGCATCCACTGGCACGGCCAGCGCCTGCCGAACGGCATGGACGGGGTTTCCGGGCTGACGCAGAAGGCCATCCAGCCGGGCAAGACCTTCGTCTACGAGTTCGTCGCGCGGCGGCCCGGCACCTTCATGTATCACCCGCACGCCGACGAAATGACCCAGATGGCCATGGGCATGATGGGCTTCTGGGTGACCCACCCGAAGGAGCCGCACCCGCTGATCGAGGAGGTCGACCGCGACTTCTGCTTCCTGCTCAGCGCCTACGACATCGAGCCGGGCAGCTTCACGCCGAAGATCATGACCATGCTCGACTTCAACCTATGGACCTTCAACAGCCGGATCTTCCCTGGCATCGACCCGCTAGTGGTGCGCAAGGGCGACCGGGTGCGCATCCGCGTCGGCAACCTGACCATGACCAACCACCCGATCCATCTGCATGGCCACGAGTTCGAGGTCACCGGTACCGATGGCGGCCCGGTGCCGAAGAGCGCACGCTGGCCCGAAGTCACCACCGACGTGGCGGTGGGGCAGATGCGCCAGGTCGAGTTCATCGCCGACGAGGAGGGCGACTGGGCGCTGCACTGCCACAAGAGCCACCACACCATGAACGCCATGGGGCATGACGTGCCGACCATGATCGGGGTGGACCATCGCGGCTTGGCGAAGAAGATCACCGGCCTGATTCCCGACTACATGGTGATGGGCGAACGCGGCATGGCCGACATGGCCGAGATGGAAATGCCGCTGCCGGACAACACCGCACCGATGATGACCGGCGAGGGGCCGTTCGGCTCGGTGGAGATGGGCGGCATGTTCACTGTGCTCAAGGTCCGCGCCGACCAGCAGCCCGGCGACTACCGCGACCACGGCTGGTATCGCCATCCCGAAGGCACCGTGGCGTCCGAATGGCGTGGCGCCCTGGCCGAGCCGGCGCGCTCGTCCAGCGCGGGCGGGCAATCGATGCCCCGCCAGCAGGCCTCGCCGGAGGTTGAAGTGAATGTACGCAAGCCCGCCGGGCATACCGATCACTGA	MVSRRDFFLGAGAMTAAVAASSVSRTAMAGLPEIVSQGGPDTQPPLQPENGAPYRPVVTLNGWTLPWRMNNGVKEFHLVAEPVVREMAPGFKAHLWGYNGQSPGPTIEVVEGDRVRIFVTNRLPEHTSIHWHGQRLPNGMDGVSGLTQKAIQPGKTFVYEFVARRPGTFMYHPHADEMTQMAMGMMGFWVTHPKEPHPLIEEVDRDFCFLLSAYDIEPGSFTPKIMTMLDFNLWTFNSRIFPGIDPLVVRKGDRVRIRVGNLTMTNHPIHLHGHEFEVTGTDGGPVPKSARWPEVTTDVAVGQMRQVEFIADEEGDWALHCHKSHHTMNAMGHDVPTMIGVDHRGLAKKITGLIPDYMVMGERGMADMAEMEMPLPDNTAPMMTGEGPFGSVEMGGMFTVLKVRADQQPGDYRDHGWYRHPEGTVASEWRGALAEPARSSSAGGQSMPRQQASPEVEVNVRKPAGHTDH				NA	NA	NA	NA	NA
BMS010_01775	507			hypothetical protein	ATGAAACGAATCCGCAAAATAGTGGCCCCTGCGTTGATGCTGGGGGCTTTGGGCGGTGCCGCCCAGGTCCATGCCCATGGCGATCAGGCCGGCTCCGGCCATGCCAAACCGGTGGTCAAGGAACAGAAGGATTGGGGCATCGCCGGCGAACGCAAGGAGGCCGACCGCACCATCGAGGTGAGCATGTCCGACGCCATGCGCTTCAGCCCCGACTTCATCAAGGTCAAGGCGGGCGAGACGGTACGTTTCGTCCATCACAACGATGGCCAGGTGATGCACGAGTTCGTCATCGGCACCAAACCGGAACTCGACGAGCATGCGGCATTGATGAAGAAGTTTCCCGGCATGGAACACGACGAGCCCTACATGGCCCACGTCGCTCCGGGCAAGCGCGGCGAGATCGTCTGGACCTTCAACCGGCCGGGTGAATTCCACTTCGCCTGCCTGATTCCCGGCCACTACGAGGCGGGCATGGTTGGACGGATCAAGGTCGTGGCTACCAAATGA	MKRIRKIVAPALMLGALGGAAQVHAHGDQAGSGHAKPVVKEQKDWGIAGERKEADRTIEVSMSDAMRFSPDFIKVKAGETVRFVHHNDGQVMHEFVIGTKPELDEHAALMKKFPGMEHDEPYMAHVAPGKRGEIVWTFNRPGEFHFACLIPGHYEAGMVGRIKVVATK				NA	NA	NA	NA	NA
BMS010_01776	345			hypothetical protein	ATGAAAGCACTGATGACTGCCACACTGCTCGCCGTTGGGCTGGTGCAACCGCTCTGGGCCCAGGCCGCCGAGACCGTCGACCACTCGGCTCACGCGGGCCACATGCAGTTGGCGCAGAACGAGGAGATGAACCAGGGCGAAGTACGCAAGGTAGACGCCGCGGCGAAGAAGATCACCCTGCGTCACGGCCCGCTCAAGAGCCTGGGCATGCCGCCCATGACCATGGTCTTCCGCGTTCGCGACGCCGCGCTGCTGGAAGGGCTCAAGCCGGGCGACAAGGTTCTGTTCCAGGCCGAGCAGGAAGGCGGCGCCATCGTCGTCACCGAGATCAAGCCGGCGCAGTGA	MKALMTATLLAVGLVQPLWAQAAETVDHSAHAGHMQLAQNEEMNQGEVRKVDAAAKKITLRHGPLKSLGMPPMTMVFRVRDAALLEGLKPGDKVLFQAEQEGGAIVVTEIKPAQ				NA	NA	NA	NA	NA
BMS010_01777	441	yqaA_1	COG1238	Inner membrane protein YqaA	GTGATAGGCGAGCTGTCCGCTTACGCGGGGCTGTTTCTGCTGGCGCTGGTGGCGGCGACCCTGCTGCCGGCGCAGTCGGAAGCCGCGCTGGTGGTCCTGCTGCTGAGTGGAGATTATTCGACCGCCGGGCTGCTCGCCGCGGCAATCGGCGGCAATACCCTGGGCTCGCTGGTGAACTGGCTGCTCGGCCGCTCCATCGAGCATTACCGCGATCGCCGCTGGTTTCCGGCCAATGCGGAACAATTGGCGCGTGCGCAGCGCTGGTATCACCGCTACGGGCGCTGGTCGCTGCTGCTGAGCTGGCTGCCCATCGTCGGCGACCCGCTGACGCTGATCGCCGGGGTCATGCGCGAGCCGCTGCCGAGCTTCCTTCTGATCGTCGCCCTGGCCAAGGCGGTGCGCTATCTAGTGTTGGCGGCGGTGACGCTGGGGTGGGGATAA	MIGELSAYAGLFLLALVAATLLPAQSEAALVVLLLSGDYSTAGLLAAAIGGNTLGSLVNWLLGRSIEHYRDRRWFPANAEQLARAQRWYHRYGRWSLLLSWLPIVGDPLTLIAGVMREPLPSFLLIVALAKAVRYLVLAAVTLGWG				NA	NA	NA	NA	NA
BMS010_01778	324			hypothetical protein	ATGAAACAGGCTATTTATTCCAGCCGCACGGCTGACAAGTTTGTCGTCCGCTTGCCCGACGGGATGCGTGAGCGCATCGCCGATGTGGCGCGTAACCACCACCGCAGCATGAACTCCGAGATCATCGCTCGCCTCGAACAAAGCCTGATTCAGGAAGGTTCGTTGGGCGATGACCTGAACATGCGCCTGGACAGCCCGGAGCTGTCCCTGCATGAACGCGAGCTTCTGCAGCGCTTCCGTCAGCTTTCGCGTCGACAGCAGAATGCGCTGGTCGCGCTGATCGCCCATGACATGGAAATGGCCGCTGAAGAGGCGACGGCCTGA	MKQAIYSSRTADKFVVRLPDGMRERIADVARNHHRSMNSEIIARLEQSLIQEGSLGDDLNMRLDSPELSLHERELLQRFRQLSRRQQNALVALIAHDMEMAAEEATA				NA	NA	NA	NA	NA
BMS010_01779	555	phnN_1	COG3709	Ribose 1,5-bisphosphate phosphokinase PhnN	ATGAGTCGACTGATTTACCTGATGGGCCCGTCCGGGGCGGGCAAGGACAGCCTGTTGCAGGCCGCGCGCCCGCTGCTGGAAGCACGCGGCGGCCGGATCGCCCGCCGGGTGATTACCCGCTCGGCCGAGGCGGTCGGCGAAGAGGCGCGGTCGGTGACGCCGGAGGCATTCGAACGGCTGGAAGAGCAGGGCGCCTTCGCCATGAGCTGGCGCGCCAACGGCTTGGCCTATGGCATTCCCCGGCAGATCGACGATTGGCTGGCGGCCGGCCACGACGTGCTGGTCAATGGCTCGCGGGCCTACCTGCCGCAGGCCCGAGCCCGCTATCCCGACCTGATGGCGGTGATGCTCTGCGCCGATTCGGCCGTCTTGCGTCAGCGCCTGCTGGCGCGGGGACGGGAATCCTCGGCGGAAATCGAAGCGCGCCTGGCGCGCAACACCACCTTCGCCGTCGGCCTGGAGGATGACGTGGTCCTGCTGGACAACTCCGGCGAACTGGCAACCACCCTCGCGTCGCTTCTCGCCCTGCTCGGCGAGGCACGGGTATGCGCCTGA	MSRLIYLMGPSGAGKDSLLQAARPLLEARGGRIARRVITRSAEAVGEEARSVTPEAFERLEEQGAFAMSWRANGLAYGIPRQIDDWLAAGHDVLVNGSRAYLPQARARYPDLMAVMLCADSAVLRQRLLARGRESSAEIEARLARNTTFAVGLEDDVVLLDNSGELATTLASLLALLGEARVCA	PGPT0002470_475	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002470-phnN-K05774	NA	NA
BMS010_01780	750	phnP	COG1235	Phosphoribosyl 1,2-cyclic phosphate phosphodiesterase	ATGCGCCTGACCCTGCTGGGCACCGGCGATGCCCGCCAAGTGCCGGTGTACAACTGCGCCTGCGTGGCCTGCGATACGGCCAGGGTCTATCCGCAGCGGCGCCGCGGCCCGTGCTGTGCCCTGGTCGAATGCGGTACCCAGCGCTGGTTGATCGACGGCGGGCTCACCGACCTTACCGAACGCTTTCCGCCGCACAGCCTGAGCGGCATCCTGCAGACCCACTATCACGCCGATCATGCCCAAGGGTTGCTGCATCTTCGTTGGGGCCAGGGCTTGCAGATTCCGGTACACGGCCCGACGGACCCGGACGGTTTCGCCGATCTCTACAAGCATCCCGGCATCCTCGACTTCTCCCAGCCGTTCGCGGCCTTCGAGCGGCGCGAGCTGGGAGAGTTAACGGTGACCGCCGTGCCGCTGGTCCATTCCAGGCCGACCTTCGGCTACCTGCTGGAAGGCGGCGGCCGGCGCATCGCCTACCTTACCGATACCATCGGCCTGCCCGACGACAGCCTGGCGCTGCTACGCCGGGACCCGCCGGATGTGCTGGTGCTGGACTGCTCCATGCCGCCGCAACCCCAGGCGCCGCGCAATCACAACGACCTGACCCGCGCCCTGGAGGTAATCGCCCGGGTGCAGCCAGGGGAGGGTGTCCTGACTCATATCGGCCACAGCCTCGACGCCTGGCTGCTGGACCGTCCCGATGCGCTGCCGGCGAATGTCAGCCTGGCACAGGATGGGCGGGTGCTCTGA	MRLTLLGTGDARQVPVYNCACVACDTARVYPQRRRGPCCALVECGTQRWLIDGGLTDLTERFPPHSLSGILQTHYHADHAQGLLHLRWGQGLQIPVHGPTDPDGFADLYKHPGILDFSQPFAAFERRELGELTVTAVPLVHSRPTFGYLLEGGGRRIAYLTDTIGLPDDSLALLRRDPPDVLVLDCSMPPQPQAPRNHNDLTRALEVIARVQPGEGVLTHIGHSLDAWLLDRPDALPANVSLAQDGRVL	PGPT0002480_1690	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002480-phnP-K06167	NA	NA
BMS010_01781	468	decR_2	COG1522	DNA-binding transcriptional activator DecR	ATGCAGGAAAAATTAAGCAGCCTCGACCGCAAGATTCTCCGCCTGCTGCAGCACGACGCCGACCTCTCGGCGGCGGAAATCGCCGAGAAGGTGGAGCTGTCGCAATCGCCCTGCTGGCGGCGCATCCATCGCATGCAGGAAGAAGGGCTGATCGAGCGCAAGGTCGCCCTGCTCAATCCCCAGCGCCTCGGCTTGAGCATGACGGTGTTCGTCAACGTCAAGCTCTCGGCCCATGGCCGCAACAACCTGGACGAGTTCGAGCAGGCCATCGTCGGCTACCCGGAGGTGCTGGAGTGCTACACCATGGCCGGCAGCTCGGACTATTTATTAAAGGTGGTGGCCAAGGACATCGTCGCCTACGAACGCTTCCTCCGCGATCACCTGCTCCAGCGCCCGCACGTGCAGGAAGCGCATTCCAACATCGCCATGAGTGAGGTGAAGCGCACCACGGAATTGCCGCTGGATTGA	MQEKLSSLDRKILRLLQHDADLSAAEIAEKVELSQSPCWRRIHRMQEEGLIERKVALLNPQRLGLSMTVFVNVKLSAHGRNNLDEFEQAIVGYPEVLECYTMAGSSDYLLKVVAKDIVAYERFLRDHLLQRPHVQEAHSNIAMSEVKRTTELPLD				NA	NA	NA	NA	NA
BMS010_01782	3468			hypothetical protein	ATGTCTCTGGCCGAGATCCGCCTGGATGACAAGTACCGCCTCGAAACCGGTCATCTCTATCTCACCGGCACTCAGGCGCTGACCCGCCTGCCGATGCTGCAGAAGCAGCGTGACAAGGCCCACGGCCTGAATACCGCCTGTTTCATCTCCGGCTACCGGGGTTCGCCGCTGGGCAATCTCGACAAGAGTCTCTGGGAAGCCAAGTCCTTCCTCCAGGACAACCACATCCATTTCCAACCCGGCGTCAATGAAGAACTGGCCGCCACTGCCGTCTGGGGCAGCCAGCAGACCAGCCTCTTCCCCGGTGCCCGCTACGACGGCGTGTTCGCCATGTGGTACGGCAAGGGGCCGGGCGTGGACCGCTGCGGCGACGTGTTCAAACACGGCAACTCGGCCGGCGTCTCCCCGCATGGCGGGGTGCTGTTGCTGGCCGGCGACGACCACGGCTGCAAGTCTTCCAGCATCGCCCACCAGAGCGAGCACGCCTTCATTGCCGCGTCGATCCCGGTGCTGAACCCGGCCAATGTCCAGGAAATCCTCGACTACGGCATCATCGGCTGGGAACTGTCGCGCTACAGCGGCTGCTGGGTGGCGCTCAAGACCATTGCCGAGAACGTCGACTCCTCCGCCGTGGTGGACGTCGATCCGCTGCGCGTCGAGGTGAAGATTCCCGAGGACTTCCAACTGCCCGAAGACGGCGTGCACATTCGCTGGCCGGACCCGCCGCTGGCCCAGGAAAAACGCCTCAATACCTACAAGATCTACGCCGCCCGCGCCTTCGCCCGGGCCAACAACCTGAACCAGGTGATGCTCGATTCGCCGAACCCGCGCCTGGGCATCATCACCACCGGCAAGTCCTACCTCGACGTACGCCAGGCACTGGTCGACCTCGGCCTGGACGACGAACTCTGCGCCCGCGTCGGCCTGCGCGTGCTCAAGGTCGGCATGAGCTGGCCGCTGGAACCGGTTTCCGTGCACGAGTTCGCCGAGGGCCTGGACGAGATTCTGGTGGTCGAGGAAAAGCGCAGCATCATCGAAGACCAGCTCACCGGGCAGCTCTACAACTGGCCGGTGGGCAAGCGCCCGCGGGTGGTCGGCGAGTTCGACGAAGACGGCAACTCGCTGCTGCCCAACCTCAGCGAACTGACCCCGGCGATGATCGCCCGGGTCATCGCCAAGCGCCTCGCGCCGATCTACACCAGCGATACCATCCAGGCCCGCCTGGCCTTCCTCGCTGCCAAGGAAAAGGCCCTGGCGGAGCGCAGCTACAACACTGTGCGCACCCCGCACTTTTGCTCCGGCTGCCCGCACAACACCTCCACCAAGGTGCCGGAAGGCAGTCGCGCCCAGGGTGGAATCGGCTGCCACTACATGACCCAGTGGATGGACCGCAACACTGACACTTTCACCCAGATGGGCGGCGAGGGCGCCACCTGGATCGGCCAGGCACCATTCACCGACACCCCGCACATCTTCCAGAACCTCGGCGACGGCACCTACTTCCACTCCGGCCAACTGGCCCTGCGCGCGGCCGTGGCGGCCGGGGTCAATATCACCTACAAGCTGCTCTACAACGACGCTGTGGCCATGACCGGCGGCCAGCCCATCGACGGCGAGTTGCGCGTCGACCAGCTCAGCCAGCAGATCCATGCCGAGGGCGTGCGGCGCATCGCCCTGGTCACCGATGAGCCGGACAAGTACCCGACCCGCGCCACCTTCGCGCCCATCGTCACCTTCCACCACCGCCGCGAGCTGGACGCCGTTCAGCGCGAGCTGCGTGAGTTCAAGGGTGTTTCGGTGATCATCTACGACCAGACCTGCGCCACCGAGAAACGTCGCCGGCGCAAGCGTGGCAAGCTGGCCGACCCGCAGAAGCGCGCTTTCATCAACCCGGCGGTGTGCGAGGGTTGCGGCGATTGCAGCGTGAAATCCAACTGCCTGTCGGTGCTGCCGCTGGAGACTGAACTCGGCCGCAAGCGGCAGATCGACCAGAACGCCTGCAACAAGGACTTCAGTTGCATCGAAGGCTTCTGCCCGAGCTTCGTTACCGTACACGGCGGCAGCCTGCGCCAGCCGGAGGCGGTGGGTTTGAATGCGTTGTTCATTGCCCTGCCAGAACCGACCCAGCCCACCCTGGAGCGTCCCTGGAACATCCTCCTGCCGGGCGTCGGCGGCAGTGGCGTGACCACCGTCGGCGCGCTGCTCGGCATGGCCGCGCACATCGAAGGCAAGGGCTGCAGCGTGCTCGACCAGGCCGGCCTGGCACAGAAGTTCGGCCCGGTGGTCACTCACATCCGCATCGCCGCCAAACAGGATGACATCTACGCCGTGCGCATCGCCGCTGGCGAGACCGACCTGTTGCTCGGCTGCGATCTGGTGGTGGCTGCCAGCGAAGAGGCGCTGGCCAAGCTCAACGACCAGATCGCCCACGCCGTGATCAACAGCCACGAAGCCGCCACTGCCGAGTTCACCCGCAACCCGGACGCCCAGGTGCCCGGTACCGCGATGCGTGAGGCGCTGATCGACGCGGTGGGTGCCGAGAAGACCCACTTCGTCGATGCCACCCGCCTGGCCACCCGTCTGCTCGGCGACAGCATCGCCACCAACCTGTTCATGCTCGGCTACGCCTACCAGAAGGGACTGGTGCCGATCTCCGCCGAGGCATTGAACAAGGCCATCGAACTGAACGGCGTGGCCGTGCAGCTCAACCAGCAGGCCTTCCTCTGGGGGCGCCGCGCCGCCCACGATCTGGCGGCGGTGGAGAAACTCGCCAAGCCGGAAGAGCTGGACGAGCCGATTTGCGAGACCCTCGACGAGATGATCCGTTTCCGCGTCGACTACCTCACCCGCTACCAGGACGCCGCCTACGCCGAGCGTTACCGCGCCCTGGTGGAGCGGGTCAACGAGATCGACCCGGACGCCTCGCGGTCGCTGACCGCAGCGGTGGCCCGCTACTACTTCAAGCTGCTCGCCTACAAGGACGAATACGAAGTGGCGCGCCTGTATAGCGACGGCGCCTTCCTCAAGCAACTGCAGACACAGTTCCAGGGCGACTACCGCCTGGAGTTTCACTTGGCACCATCCTGGCTGGCCAAGCGCGACCCGCTCACCGGTGAGCCGCGCAAGCGCACCTTCGGCCCTTGGATGCTCAAGGCGTTCGCGCTGCTGGCGCGCTTCAAATCGCTGCGCGGCACCGCGCTGGATGTCTTCGGCTACAGCGCCGAGCGCCGTCTGGAGCGCGAGCTGATCGCCGAGTACGAGCGCAGCATTGCCGACCTGCTGACCCACTTGAGCCCGCGCAACTACCGCACGGCCGTGGCCATTGCCGAACTGCCGGAGCAAATCCGCGGCTACGGCCATGTCAAGGAGCGTGCCGTGGCCAAGGTGCGTGAGCAGGAGCGGCAGCTCCAGGCACGCCTGCAGGTCAATGAGTTGAAGGTGGTGCAGCTATTCGAGCCTGCGGCCTGA	MSLAEIRLDDKYRLETGHLYLTGTQALTRLPMLQKQRDKAHGLNTACFISGYRGSPLGNLDKSLWEAKSFLQDNHIHFQPGVNEELAATAVWGSQQTSLFPGARYDGVFAMWYGKGPGVDRCGDVFKHGNSAGVSPHGGVLLLAGDDHGCKSSSIAHQSEHAFIAASIPVLNPANVQEILDYGIIGWELSRYSGCWVALKTIAENVDSSAVVDVDPLRVEVKIPEDFQLPEDGVHIRWPDPPLAQEKRLNTYKIYAARAFARANNLNQVMLDSPNPRLGIITTGKSYLDVRQALVDLGLDDELCARVGLRVLKVGMSWPLEPVSVHEFAEGLDEILVVEEKRSIIEDQLTGQLYNWPVGKRPRVVGEFDEDGNSLLPNLSELTPAMIARVIAKRLAPIYTSDTIQARLAFLAAKEKALAERSYNTVRTPHFCSGCPHNTSTKVPEGSRAQGGIGCHYMTQWMDRNTDTFTQMGGEGATWIGQAPFTDTPHIFQNLGDGTYFHSGQLALRAAVAAGVNITYKLLYNDAVAMTGGQPIDGELRVDQLSQQIHAEGVRRIALVTDEPDKYPTRATFAPIVTFHHRRELDAVQRELREFKGVSVIIYDQTCATEKRRRRKRGKLADPQKRAFINPAVCEGCGDCSVKSNCLSVLPLETELGRKRQIDQNACNKDFSCIEGFCPSFVTVHGGSLRQPEAVGLNALFIALPEPTQPTLERPWNILLPGVGGSGVTTVGALLGMAAHIEGKGCSVLDQAGLAQKFGPVVTHIRIAAKQDDIYAVRIAAGETDLLLGCDLVVAASEEALAKLNDQIAHAVINSHEAATAEFTRNPDAQVPGTAMREALIDAVGAEKTHFVDATRLATRLLGDSIATNLFMLGYAYQKGLVPISAEALNKAIELNGVAVQLNQQAFLWGRRAAHDLAAVEKLAKPEELDEPICETLDEMIRFRVDYLTRYQDAAYAERYRALVERVNEIDPDASRSLTAAVARYYFKLLAYKDEYEVARLYSDGAFLKQLQTQFQGDYRLEFHLAPSWLAKRDPLTGEPRKRTFGPWMLKAFALLARFKSLRGTALDVFGYSAERRLERELIAEYERSIADLLTHLSPRNYRTAVAIAELPEQIRGYGHVKERAVAKVREQERQLQARLQVNELKVVQLFEPAA				NA	NA	NA	NA	NA
BMS010_01783	1059	ldh_1		Leucine dehydrogenase	ATGTCCGTGTTCTCTCACGTCGAATTCGACCGCCACGAGCATGTCGTCTTCGGCCATGACAAAACCACCGGCCTGAAAGCCATCATCGCCATCCACGACACCACCCTCGGCCCGGCCCTGGGCGGTTGCCGCATGTGGCCCTACGCCACCGACGAGGCGGCCCTGCGCGATGTGTTGCGCCTGTCGCGCGGCATGACCTACAAGTCGGCGCTGGCCAACCTGCCGCTGGGCGGCGGCAAGGCGGTGATCATCGGCGATCCGCGCAGCGGCAAGAGCGAAGCGCTGTTCCAGGCCATGGGCGATTTCGTCGACAGCCTCGGCGGGCGCTACATCACCGCCGCGGACTCCGGCACCGGCGTCGCGGAAATGCAGATCATGGCCCAGCGCACCCGCCACGTGGCCGGCGCCGGCCTGCGCGAAGCCTTCGATGGCGGCACCCGTGACGGCGACCCGTCGCCGTCCACCGCCTACGGCGTGTTCATCGGCCTGAAGGCGGCGGTCAAGCACCGTCTCGGTCGCGATGACCTGCGCGGGCTCAAGGTGGCGGTCCAGGGTGTCGGCCAGGTCGGCTTCGACCTTGCCCGCCAGCTCAAGGAAGCGGGCGCCGAGCTGTGGGTCTGCGACGTCTTCGAGGGCAACCTGCGCCGCGCCTCCGAGCAACTGGGCGCCACCGTGGTCGGCCCGAACGATATCTACGGCCTCGACGTGGACGTCTTCGCCCCCTGCGCCCTGGGCGGCATCATCAACCCGCAGACCCTCGAAGCCCTGCGCGCGCCGGTGATCGCCGGGGCGGCCAACAACCAATTGGCCGACGCCGAGCTGGCCGAGGAGCTGCGCCGTCGCGGCTGTCTCTACGCGCCGGACTACGCCATCAATGCCGGCGGCATCATCGACGTCTGCTACGAGCGCACCGGCGATACCCCGGCACAGCTCAAGGCACACATCGAAGGCATCGGCGACACCCTGCGGCAGATCTTCGAGCGCGCCGACGCCGAAGGCGCCACCACCAGCGCCGTGGCTGACCGCCTCGCCCACGAGCGCCTGCGCGCCGGCCGCTGA	MSVFSHVEFDRHEHVVFGHDKTTGLKAIIAIHDTTLGPALGGCRMWPYATDEAALRDVLRLSRGMTYKSALANLPLGGGKAVIIGDPRSGKSEALFQAMGDFVDSLGGRYITAADSGTGVAEMQIMAQRTRHVAGAGLREAFDGGTRDGDPSPSTAYGVFIGLKAAVKHRLGRDDLRGLKVAVQGVGQVGFDLARQLKEAGAELWVCDVFEGNLRRASEQLGATVVGPNDIYGLDVDVFAPCALGGIINPQTLEALRAPVIAGAANNQLADAELAEELRRRGCLYAPDYAINAGGIIDVCYERTGDTPAQLKAHIEGIGDTLRQIFERADAEGATTSAVADRLAHERLRAGR	PGPT0020320_866	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LEUCINE_DEGRADATION,PGPT0020320-ldh|leu-K00263	NA	NA
BMS010_01784	1401			hypothetical protein	GTGAGTCAAGACAGCATCGCCGCCGGCGCCTACGCCGGCCAGGCCGCTTCCAGCGGCGCTTCCCGAGGATTGTGGACCAGCCGCTGGGCATTCTTCCTCGCCGCCACCGGTTCGGCGGTCGGCCTGGGCAATATCTGGAAGTTTCCCTACATCACCGGCGTCCATGGTGGCGGGGCGTTCGTCCTGGTCTACCTGGGCTGCATCCTCGCCATCGGCATTCCGCTGCTGATGGCCGAAGTGATGATCGGTCGCGCCGGCCGCAAGAACCCCTCCGACGCGGTCGCCGCGCTGGCGGAGCAATCCGGGGCCAGCCCGCGCTGGCGCTTGGCCGGCTGGGTCGGCGGCTTCACCGGCTTCCTCATTCTCAGCTTCTACGTGGTGGTGGCTGGGTGGGCGCTGGCCTACGTACCGGCTGCCGCCAGCGGGGGCTTCGTCGGCTTGAACGGGGAGAGCAGCGGCGCGCTGTTCGGCGCCCTGCTGGCCGACCCGCTGAAGCTGGCTGTCTGCGCCAGCCTGGTGCTGCTGGCGACCCTGCTGATCGTCGGCTTCGGCGTGCAGCAGGGGTTGGAACGGGCGGTGCGCTATCTGATGCCGGGGTTGTTCGTGCTGCTGCTGATCCTGGTGGGCTATGCCGCGACGCGCGGTGCGTTCGGCCAAGCGGCGGCGTTTCTCTTCGCTGCGGATTTCTCCAAGCTGACCGGCGAGGCCATCCTCGTCGCCCTGGGCCATGCCTTCTTCACCCTCAGCCTGGGTTGCGGTGCGATGATGGCCTATGGTTCCTACCTGCCGGCCGGTACCTCGATTGCCCGAACCTCGCTGCTGGTGGCCCTGGCGGATACCGCCGTGGCACTGTTGGCCGGCCTGGCGATCTTCCCGCTGGTGTTCGCCAACGGCCTGGAGCCGGGCGCCGGGCCGGGGCTGATCTTTGTCACCCTGCCCATCGCCTTCGGCCAGATGCCGCTGGGACAGGTGGTCGGCGTGTTCTTCTTCGTCATGCTGCTGATCGCCGCGCTGACCTCGGCAATCTCCCTCAGCGAACCCACCATCGCCTGGCTGACCGAACGCTTCCGCATCAGCCGCCTCAAGGCGGTGCTGCTGAGCGGTGCGGCACTCTGGCTGCTCAGCCTGGGCAGCGTGTTCTCGTTCAACCTCTGGGCCGAAGGCACCCTATTCGGCAAGACCTTCTTCGATTGCCTGGACTACCTCACCACCAACCTGCTGATGCCCCTCGGCGGCCTGGCCACGGTGTTCTTCACCGGCTGGGTGCTCAAGCGCAAGAGGGTCAGCGAAGCACTGAACATCGGCCATCCGGCGCTGTTCCAGGCGTGGTGGTGGCTGATCCGCTTCGTTACCCCGCTGGGCATCGTGCTGGTCTTCCTCAACCTCATTGGGGTGATTTGA	MSQDSIAAGAYAGQAASSGASRGLWTSRWAFFLAATGSAVGLGNIWKFPYITGVHGGGAFVLVYLGCILAIGIPLLMAEVMIGRAGRKNPSDAVAALAEQSGASPRWRLAGWVGGFTGFLILSFYVVVAGWALAYVPAAASGGFVGLNGESSGALFGALLADPLKLAVCASLVLLATLLIVGFGVQQGLERAVRYLMPGLFVLLLILVGYAATRGAFGQAAAFLFAADFSKLTGEAILVALGHAFFTLSLGCGAMMAYGSYLPAGTSIARTSLLVALADTAVALLAGLAIFPLVFANGLEPGAGPGLIFVTLPIAFGQMPLGQVVGVFFFVMLLIAALTSAISLSEPTIAWLTERFRISRLKAVLLSGAALWLLSLGSVFSFNLWAEGTLFGKTFFDCLDYLTTNLLMPLGGLATVFFTGWVLKRKRVSEALNIGHPALFQAWWWLIRFVTPLGIVLVFLNLIGVI	PGPT0013950_1146	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013950-TC_NSS-K03308	NA	NA
BMS010_01785	357			hypothetical protein	ATGGCAAAAGTGAATCTCGAACCCTTGCGCGACATTGCCGGATTCATGGCGGCGGCGTTGGTGGATAGCGAAAGCGGCCTGCTGCTCGCCGGTGATGGCGTCCAGGTGGACCTGGAAGCGGCCGCCGCCAGCAATGCCGAGGTGATCCGAGCCAAGCGCAAGGTGATCGAGAGCTTGAACCTGAGCGATTCGACCGAGGACATCCTGATCAGCCTGTCCGGGCAGTACCACCTCCTTCGCCCGCTCGAATGCGACCCGAAGCTGTTTCTTTATCTGGTGCTGGATCGCACCAAGGCCAACCTGGCCATGGCACGCCATGAGTTGCGCTTGTATGAGAGGACTCTTGATTTGGCCTGA	MAKVNLEPLRDIAGFMAAALVDSESGLLLAGDGVQVDLEAAAASNAEVIRAKRKVIESLNLSDSTEDILISLSGQYHLLRPLECDPKLFLYLVLDRTKANLAMARHELRLYERTLDLA				NA	NA	NA	NA	NA
BMS010_01786	1314			hypothetical protein	ATGACTCACTCTCCTCGTTCCCCGTATTCACTTTTGGCAGATGATAATCAGCAAATTTCAATAGACGCGAAATACAAGAAGGCGCTCAAGGCTCACATTATTATCACACTTACGTTCAACGATAGTATGGTGTTTTCGGACAACCAGTTAGTTACATCTCCTAATTTACGAGATTTGATCGCGAGGGATGGTGTCATTCGTGAGCTTTCGAAGGAGAGACTGTTTTCGCTTGCCGCAAGGCAAGGGCACGATGAAAGTGCGCCTTCTCAGATCCAAGCTCTCCAAGAAACTCAGAAACAATTCTTTGCTCAAGGGAAAATCACAAGTGATAGGATCGACGTTGGCCGCGTGAAAGATTTAGATTTTGCGGATCAACATTTCCGAAAAATAGGCTGGAATTATCGCGAAGTTCGGCAGCATTTCACCGACGTTGTCGCAACGTTGCTTGGAAACCAGTTTTCCCCACTCCTATCACCATCAGACTTTCTCATTTTTTCAGAAATACTTTTCGAGGAGAGAGAAAGAGACAGGGGTTTAGGAAGAGAATTTCTTCAAAGAAGATTCCCTTCTCTCGTGATGAAGCATTTGGAAAATCCTCCCGAACATACCCACCAATTGATACACGATTGCACAGAGGGCCCGTATATTTCCAATCTTCCCCGCGTTCTTAGCTTAAATCCAATCTATGCGTCCAGTCACGCACGCTCATTCGAAACAATGCGGGGCTTAAAGCTTGCTCAGCTGGAACCAGCTTTCAGCTTCAAGTCTAAACCAAGGCTCTCGTACGAGCATTATATCGAGGGTCTTTCACGACTGGATGTGGATGACATAATGTGGCTGCGGCAAACTGACGAACTGAAAGAATATCAGTCGTTCGCACACCGTGACCTGAGCAAGTCAGCGGTAGCTCACGATTTAACGGTAAGCTTTCAGAGGATCAACCAACGTATCGTGGACAGGATAATTGATCGGTTTCCGGAGTTGAAGGCGTCGACGAGCGAAGCTCCCGATCAGATTATTAGGAGCCGTTGGGCGAAAGCCGAGTTTGCTGGGGGAATCCTGCTCGAGGCAATTGGAGCGGCAGTGGAGCTTCAGCCTGGATTAGGTCTGGGAATATCGGTTCTGTTTTCCTTAGCGGAGCGCAAGTTCGGCGCATCAAACAAACGCATAAGCCAACACGATAACGCACAGTGGGAAGCGCGAAATAGGCAACTCGGACATCTTCTGGAAGACAAGGGCGTGGACGCGAAAATTGCGTTCGAGATGCCGATTCTTAATCACTTCGAGAAGGAAACGATTGTGCGCGGTCTCTAG	MTHSPRSPYSLLADDNQQISIDAKYKKALKAHIIITLTFNDSMVFSDNQLVTSPNLRDLIARDGVIRELSKERLFSLAARQGHDESAPSQIQALQETQKQFFAQGKITSDRIDVGRVKDLDFADQHFRKIGWNYREVRQHFTDVVATLLGNQFSPLLSPSDFLIFSEILFEERERDRGLGREFLQRRFPSLVMKHLENPPEHTHQLIHDCTEGPYISNLPRVLSLNPIYASSHARSFETMRGLKLAQLEPAFSFKSKPRLSYEHYIEGLSRLDVDDIMWLRQTDELKEYQSFAHRDLSKSAVAHDLTVSFQRINQRIVDRIIDRFPELKASTSEAPDQIIRSRWAKAEFAGGILLEAIGAAVELQPGLGLGISVLFSLAERKFGASNKRISQHDNAQWEARNRQLGHLLEDKGVDAKIAFEMPILNHFEKETIVRGL				NA	NA	NA	NA	NA
BMS010_01787	342			hypothetical protein	ATGAAGGAAGCCCGCACCAAATATAACGACGTGCCGATGCGCCGCTCCTCTGAAATCCTTATGCTTCGCCGCGCTGAATTGGAGAGAAAGATTGAGGAGTTGATTGCGCTCCTCGATCTGCTGGACGGCGACGAAAACCTTGAGCCGTATTTGGCCGATACCGATCCGGAAAACGCAGACCGGGAAGATGACGACGAACGGGAGCCAGAAGAAACCGACCAGAACGGCGACGAGGAGGATTGCTGCCGGTCAGAGGATGAGTGGACGCCGTACAGCGGCAATCTGCAATTCGATGGTTCAGGCGTGGCCCTGGCAAAGCGAACGATGCGGGCTGCACTTTGA	MKEARTKYNDVPMRRSSEILMLRRAELERKIEELIALLDLLDGDENLEPYLADTDPENADREDDDEREPEETDQNGDEEDCCRSEDEWTPYSGNLQFDGSGVALAKRTMRAAL				NA	NA	NA	NA	NA
BMS010_01788	195			hypothetical protein	ATGAGCAATATTTCTCGGAAGCCTGTCCTGCCGTCCGCGCTCTCTTCGCAACTGCTGAATGGGACCACCGCTGCGGAAGAAATCCAACAGGTAGCCGATTATCTGGCTGACCTCATGCGTGGCGTTTACGGCGGTGATTGGCGCGTGTCGGTCAATCATGAAAACCGTTTCGTCATGATTGCGGAGACCTTGTGA	MSNISRKPVLPSALSSQLLNGTTAAEEIQQVADYLADLMRGVYGGDWRVSVNHENRFVMIAETL				NA	NA	NA	NA	NA
BMS010_01789	339			hypothetical protein	ATGAATCCCCTTCAACCATTCCTATTCGATCCCGAGCCGTTTCAGACGCAGCTCATTGAGCTTGAAACACTTCTTGCTCTCATCAGTGAACACCGCGCCACGCTCGATGCCTCCGAAGCCATTACAGCGGAGGAATTCGAAGAGGCCGGCGGTGAGGAGATTGGACAGAAAGAAGTGGCGCTCCTTATGCAGGTTGCGTCGTTCCCGGCAGTGTCAGCCGAAGCCATCCTTTTAAAGGGCCGCTATCTGGCAGCGCTGCATGCCAATCACGCCCTCGGCTTCGAATTTGCGGAGGCTTTCGTTGAAAGCTTTGCTGCTCCTGGGAGGGCTTCCGCATGA	MNPLQPFLFDPEPFQTQLIELETLLALISEHRATLDASEAITAEEFEEAGGEEIGQKEVALLMQVASFPAVSAEAILLKGRYLAALHANHALGFEFAEAFVESFAAPGRASA				NA	NA	NA	NA	NA
BMS010_01790	855			hypothetical protein	ATGCCGAATACGATTCCGGCCGCTGGCGAAGCCATGCCCAAAACCACCCGCCGCGCGTTCCTTTCTACCGTTGCTGTTGCGGCTATTCCTGTTTCGGCGGGAGCCTGCGTTGCCGTTACAGGAACTCAGGCGAAAGCCTCCGCACCTGCGCCCATCGCTGAAAACCCCGATCTGCTGGCCGCATATGCGCGCTTGCAGGGTGCCCAGACCGAACTGCGTGAAGCGAAAGACGCGCTGGAGTGGATCGCGGACGAGTGGCGGCACCTGTGGCCGCTTGCCCCCGAAGAACTGCTTGGAGGGTGGAACGCCGACAGGCATGGACGAGACGACGGAGCGGAGAGAGACATTCTTGGCCGCTATCTGCGCAGGGACACCAGCGTCCTCTGCAAGAGGCTGAGCAAGAAGCATCGGCAAGAAAAATCACACGCATGCTTTTACGTGATGACACCAGAAGAGGCAGAAGAAACCCTTGAGACGCTGCGCAACCGCAAGCCGGGGGGAAAAAGCGAAAAGACGCTGGCCAAGTCGCGTGCAGACTTGGAAGCTGCGATTGCTCGGTTCGAACACAAACTGGTTCTGGCGCAGGAATACGAGACAAATACGGCCATTCTGCGCGAGACCGCCGGCGTTGATGCTGCGAAACAACGCATCAATGAGGCCGAGACCCGGGTGGCTGTTATCAGCTCTAAAATCTCAAAAATGCCGGCGTTCACTCACGAGGGCTTGGTGATTAAGGCCGCCGCCATCCGCGCTAGCGGCATTTTCGAAGCCTTGCGGCGAAGCGAGGGCGTCATTCCTGAGATGGCCCGTTTCATCGAACAGGTGATTGCCATGGGCGGGAGGGTTTCAGCATGA	MPNTIPAAGEAMPKTTRRAFLSTVAVAAIPVSAGACVAVTGTQAKASAPAPIAENPDLLAAYARLQGAQTELREAKDALEWIADEWRHLWPLAPEELLGGWNADRHGRDDGAERDILGRYLRRDTSVLCKRLSKKHRQEKSHACFYVMTPEEAEETLETLRNRKPGGKSEKTLAKSRADLEAAIARFEHKLVLAQEYETNTAILRETAGVDAAKQRINEAETRVAVISSKISKMPAFTHEGLVIKAAAIRASGIFEALRRSEGVIPEMARFIEQVIAMGGRVSA				NA	NA	NA	NA	NA
BMS010_01791	267			hypothetical protein	ATGTCACGCAAAAAGAAAACGCAAACGCCTGCACTGGTTCTCATCGAGGGCGGCCGCAATAAGCCGCATAACCTCGACCGCCTCAATGCCATGATTAACAACCTGACTGTCGAGCAGTTGCGCAACCTCAACTGCTTCCTTGATTGCCTCAGATGCCCGCTGAAGGATTCCTGCATTCCGTTCAGGCGCTATGAGCAACAAGACCCCAACGACCCGATGGAAAAGGCATTCGCCACTTGTCCACGCCGCGGCAAACTGAAGGGCTGA	MSRKKKTQTPALVLIEGGRNKPHNLDRLNAMINNLTVEQLRNLNCFLDCLRCPLKDSCIPFRRYEQQDPNDPMEKAFATCPRRGKLKG				NA	NA	NA	NA	NA
BMS010_01792	369			hypothetical protein	ATGCCGAACACCACCGTTCCGGCCACCGCCGAAGGCATGCCCAAATTCGACCGCGCCGTCATCATGTCGGATGCATGGGAGCGCTATCGTCACATCCGTCGCCAGTATTCCGCCAAGCAGATCGAGCGCGGCATTGTGGAGGCCTCCTTCTCGGCCTGCCTCAAGACCGCATGGCGCGTTACCAAGCAGAACCGGACCAAAGCCGCCTTAGCCACCAAAGTTGCCATGCTGGCCGGAACCCCTTCCGGTGAACGTCTTCGCGCTCTCCGCGCTGCTCTGGCCGATACCGACACACTGTCATTCCGCTACAGCGCCGCCGTCCGTCGCGCTGTCATCAAATCCGAAATCGCTTCTATCGTCGCTCATTGA	MPNTTVPATAEGMPKFDRAVIMSDAWERYRHIRRQYSAKQIERGIVEASFSACLKTAWRVTKQNRTKAALATKVAMLAGTPSGERLRALRAALADTDTLSFRYSAAVRRAVIKSEIASIVAH				NA	NA	NA	NA	NA
BMS010_01793	246			hypothetical protein	ATGCTAACACCTGCACAGTGCCGCGCCGCCCGCGCACTCGTTGAAATCTCGCAAGATCAACTTGCCAGCGCAGCGAGGGTAGGAAATTCGACAGTCCGCAACTTTGAGGCTGGGCGCTCTGTTCCTGTTGCTAATAACCTCGACGCCATCACAAAGGCGCTGGAAGCAGCAGGTGTCATTTTCCTCTCCAATGGAGAGACCAACGACGGCGGCCCCGGCGTTCGCCTCGCGAAGAAGGAAGCTTGA	MLTPAQCRAARALVEISQDQLASAARVGNSTVRNFEAGRSVPVANNLDAITKALEAAGVIFLSNGETNDGGPGVRLAKKEA				NA	NA	NA	NA	NA
BMS010_01794	591			hypothetical protein	ATGCCTCCAGTCTTCAACCCGCGAGACAAAAGTCGCACTTCTGCTGGCAAGACCTACAACATGGTCAAGAAGAATACCCAGCCGCCCGCGGATCAAGGCGGATGGATGGCGATAACCCGTGAATTGCTGGAGTGCGCTGCTTATCGCTCGCTCTCTGTGAATGGTCGCAAGGCGCTGGACCGGCTCATTGTCGAGCACATCTCACATGGCCGCTCCGAGAACGGTAAGCTCATAGTTACACACGACCAGTTTTATGCTTATGGGGTGACCTTCAGCAGCATAGCCGATGCTTTGGACGAACTCGCGTACAAAGGTCTTGTAAAAATGTCGAAAGGCAGGGCGGGTAACGGGACAGCCCACCCTACGATTTACACCCTTACCTTTGACGGCACCCACGATGGCGCGGCAGCAACAAACGAATGGCGGCGCTTCACAATGGCCGAAGCCCGCTTGTGGTCTGAGGTGGTCAGAAAGCAGCTAGCCGACGCGCGCTCGAAACCCGGTAGGAAGAAAAAAAGCTCGCTACGGGATTCCGTAGTCCCCCCGCTACGGGTTCCCGTAGTTCGTCGCCAGAACGGGAGTAGCGGGTGA	MPPVFNPRDKSRTSAGKTYNMVKKNTQPPADQGGWMAITRELLECAAYRSLSVNGRKALDRLIVEHISHGRSENGKLIVTHDQFYAYGVTFSSIADALDELAYKGLVKMSKGRAGNGTAHPTIYTLTFDGTHDGAAATNEWRRFTMAEARLWSEVVRKQLADARSKPGRKKKSSLRDSVVPPLRVPVVRRQNGSSG				NA	NA	NA	NA	NA
BMS010_01795	312			hypothetical protein	ATGAGCAACGACGCCGACAAGCTAACGCTGTTCGCATGGAAGCGGCCCGAATGCAGGCTGATCGCCTTTCCCATGGTCAACCGGATAGGGCGCATTAGGGATATTGCGGCCAAGATGCTCGACAAGCCCACGGAAAAGAGCGCGGAGCATTACCGCCGGCAGGTCGATGAAGCCATGACGGGGCAGTTATCAAAAATCGGCCTGCTGGGCGAAGCGATCGAAGTCGAGCGGGCAGCATTCTGGAGAGCGGTTGGCACTGAGATGACGCGGCAGGCTTATGGATGGCGACACGAGCCGGATGGCGCGGCCTAA	MSNDADKLTLFAWKRPECRLIAFPMVNRIGRIRDIAAKMLDKPTEKSAEHYRRQVDEAMTGQLSKIGLLGEAIEVERAAFWRAVGTEMTRQAYGWRHEPDGAA				NA	NA	NA	NA	NA
BMS010_01796	831			hypothetical protein	ATGAGAGTATATTTTTTAGTATCCATATTAGGTTTGACTGGATGTACGACCGTAAGCCCAACTCCAAGCGACAATCCGAAAGAAATCGCGGAACTGTCAAAAATTGTTTCCTGCAAAATTGAGTCTGCATTTAGTAAATTACCGGATTCCGAAAAGAATAAGTTTTCGGGATGGGTAGCGACTTACCAAATTAAGCAAACGACAACGGACGTTGCTTCCGCAGGCATAAACCCTCTTACTTGGATTACACCGGCCCGTGTCGACAAGTTCCTCGTTGTTGGGGATGCAGGTGCATCGCAGACAGCTTTTCGTAACGGGAAAGCCGAATTCTCGGTGCCTGTTCAAGGCGCTCAGTCATGTGTCGGAGTGAATGAAAAACTACGAGTTACACCTAGCGATTTCCATCTCGATGCGTGGGTTTCGCAAGTGGGGCGCGCAGAACCGCCGCCGCAGAAATTTGATTATTCCGTAACCGTGGAAGTAGAGGCATCGGCAGGGATTGGGCCAGATTTTGCAAATGGTCGCGCGATTGCTACGGGCGGTCTGGCGTTCAAGCGCACGACCAATAGAACGGTGGATTTCGCATTCGCCTCCCGACCAAACACACAGCCGACTGAAGTCGTTATTGTAGAAGATCGACGGCATAAATCCATCGACAAGATTGTCCCACGTTCGGGTAAGAGGCAAGGTCGAGCGGCAGAAACGCTAAGGGACGTGCGCCAAACGCCTCCGTCGCAAAAAATTCCTCAAAGCGTTATTCTTCAAAATCGCCAATCGATCATGGGACTAGAACTCGACCGCATATCGCCCTTCGGCCTGCAAAATCGATGA	MRVYFLVSILGLTGCTTVSPTPSDNPKEIAELSKIVSCKIESAFSKLPDSEKNKFSGWVATYQIKQTTTDVASAGINPLTWITPARVDKFLVVGDAGASQTAFRNGKAEFSVPVQGAQSCVGVNEKLRVTPSDFHLDAWVSQVGRAEPPPQKFDYSVTVEVEASAGIGPDFANGRAIATGGLAFKRTTNRTVDFAFASRPNTQPTEVVIVEDRRHKSIDKIVPRSGKRQGRAAETLRDVRQTPPSQKIPQSVILQNRQSIMGLELDRISPFGLQNR				NA	NA	NA	NA	NA
BMS010_01797	855			hypothetical protein	ATGCAGGATAATGTGAGAGTTATTTCACCCGTTAGTATCGCCGGTCTTACGGCAAACGTACCGACCACGGGTATGCCGATTTTTGAATTGGTCCGGCCATCGGATCTGTACGTTGACCCTACCTACCAGAGAAACGTAAGCGAGAAAGGGATGCGGCAAATCAGGCGGATTATCGAGCATTTCGAGTGGACTAAATACAAGCCGCCAATCTGCGCGTATGCTGAGTGGGAAGGTAAGACCATCCTCAAGGTTCTTGACGGGCAGCATACGGCAATCGCAGCCGCATCCAATCCGAACCTGGGCACAATCCCGGTTATGATTGTGGAGGCTGAAAGCACAGTGGAACAGGCTAAGGCCTTCATCGGTCAAAATACCGATCGGCTTGGGGTGACAAGCCTCCAGCTTCATCAAGCCGCTATTGCTGCCGGTGACGAAGACGCCCAAACTATCGAGCTTGTCTGCGCTCGTGCGAACGTCAAAGTTCTGAAGACGACCAACGCCTACACGGGAACAGGTTCTCGTCAAACCATAGCGATTAAGCAAATCGAAGCGATGATCGGCAGACGCGGGCCGGTCGCCTCACGCGAAATACTAGAGGTTCTAGCTAATGCCGACCGTGGTCCGTTGACTGCGCCACAGATCAAGGCGGTCGAGCTGCTTCTCACGGACCCGCAGTACAGCGACAAAATCACGGGGGACGATCTAACAGAGGCCATCATCGATTTGCTCACGACGGCAGAAGAAGAGGCGAAATTGTTAGCCGTGACCCACAAAATCCAGTTCTGGAAGGCGCTGGCGGTTACGTGGTTTCGAAAATGCAAGAAACGTCGGCAACTTAGCGTAAGAGCAGCATAA	MQDNVRVISPVSIAGLTANVPTTGMPIFELVRPSDLYVDPTYQRNVSEKGMRQIRRIIEHFEWTKYKPPICAYAEWEGKTILKVLDGQHTAIAAASNPNLGTIPVMIVEAESTVEQAKAFIGQNTDRLGVTSLQLHQAAIAAGDEDAQTIELVCARANVKVLKTTNAYTGTGSRQTIAIKQIEAMIGRRGPVASREILEVLANADRGPLTAPQIKAVELLLTDPQYSDKITGDDLTEAIIDLLTTAEEEAKLLAVTHKIQFWKALAVTWFRKCKKRRQLSVRAA				NA	NA	NA	NA	NA
BMS010_01798	243			hypothetical protein	ATGTATTGGTTGGCTTCTGCATTTTATCTTGGGCTCACGGTGTATTTCGGTCGCGCATGGTTTGATCTTGTGGGCGGCTGGGCTGGGCTGGACGGCGCCATGTTTATTCTCGAGGCCATCGCAACTGCTATGTGTGTCGCAGCCGCAGTGCTCGATGACGATAGTTGGGTTTCGAAAGAAACGCTCGGCGCAGCTTTTTTGGCCGGTATCGGATGGTTGGGAGTGCTCAACTTTGCGGGTTAG	MYWLASAFYLGLTVYFGRAWFDLVGGWAGLDGAMFILEAIATAMCVAAAVLDDDSWVSKETLGAAFLAGIGWLGVLNFAG				NA	NA	NA	NA	NA
BMS010_01799	195			hypothetical protein	GTGCGCCCAGAAAGAAGAGAACCGGAGGCCGATCCGGTGGACCACATCATTGCATGGCATGACGGCGATAGCCGTGCTGCGATAGAAACCCTGATGGAAGACATCCAGCATTTGCGGATGCAGCTTGCGCTGGCGACCGCTGCGATGGGCAAGGGATTCACGAGAGGGTGGAAACCCGAGGCCGAGCGGAAATGA	MRPERREPEADPVDHIIAWHDGDSRAAIETLMEDIQHLRMQLALATAAMGKGFTRGWKPEAERK				NA	NA	NA	NA	NA
BMS010_01800	1404			hypothetical protein	ATGCCAAACAAGATTCGGCATAAGTGGCGGCGGCCGTTCAAATGGCCTCCCAGCGAGTGGGAATTCACGGCGGGAACACAACTCGTCGCTGATGCCGTCACGGCTATTTGTCTCCTGTTTGTCATTGGGACGCTTCTAGGCGCCCTCGCTGTTTGGCCAATGCTTTTGTTCCGCACGCTTTGGGCAGTCTCCAGTGGAACTGGCGAAGACGTGCGAAACGTTCTGTTGGCGGTCGGCGCTCTAGTGGGCGTGCCATTTTTGATATGGCGCACTTTGATTGCTTCAAAACAAACGACGATTAACCGCGAAAGTCACTATACAGCGCTGTTCACAAAAGCGGTCGAACAACTCGGAGCTGAGAAGACGGTTAAACGCCGGGAATTCAAAACTTCTTTTGAAACCGACGCTTTGACTGGAAAGCCGGTATTGAAAGCGGGGAAAAAGGTGCCTTTGCTTTCAGAAACCGGAGAGCCGGTAGGGGAATATCAAAGCTACGAGATTACTGTTACAAACTATGAGGTTAGGCTTGGAGCGATTTATGCGTTGGAGCGAATCGCACAAGACAGTGCACGAGACTCGCAACCAATTTTCCTGACTCTTTGCGCATATTTGCAGAACAACTCGCCCCGGACACTGTCAACTTTCCAAGATAGAGAAGCGAACGCTAATAATTCGGACGTCTTGGAGGCGCTGAATGTCGTTGCGCGGTTCTCACATAGGCATAAGGGCGACATAGGTTACGAATTTCTCTCCATTCATTTGCCGGATGTTCACCTTTTTGACGGCTCGCTTCAGAATATTATTTTCCAGAATTGTTCTCAGGAAAATGTGAAGTACTCGTGCGACCTCGTTGGCGTCGCATACAAGGAATGTTTGATTAACAACTTTGAAGTTCACGAGGCGAGTGTTTCCAGTGTAAATTTGATCGGGGGGGCGATTAACTACATTAAAATATTCGCGTCAATGATTGAGGGGGTAAATATTCTTGCGAATGCAGAAACGCTCATTCTACACACGGTAGAGGCTTCTAACTGCGGTTTCGACTTATCTGATAAGTCGGGGATTTACCGTAGCGACTTCGTAGAATGCAACTTTCATGGCAAGGGCCCGAAATTGTACAGTCGCTTCTCTCCCGCGATAGAGGATTGTAAATTCGTCCGCTGCAAATTCATAAAATGTGACTTCTCTTTCTCAACGTTAAGGGACGTTACTTTTGAGGATTGCGAGTTCGAGGGATGTAATTGCGTGCGATCAAGCTTGACGGAGGCTAACGGAAACAAATTTCAGAACTGCCTCATGGATAGTGACGTAGACGAAGAGGATGTGTTTCACGCCAACCAGCGATGGGCTGAATACAGTTACGGCGCGGATGGGAGCCTGGCTGGTGTCACAACGACACTGTGA	MPNKIRHKWRRPFKWPPSEWEFTAGTQLVADAVTAICLLFVIGTLLGALAVWPMLLFRTLWAVSSGTGEDVRNVLLAVGALVGVPFLIWRTLIASKQTTINRESHYTALFTKAVEQLGAEKTVKRREFKTSFETDALTGKPVLKAGKKVPLLSETGEPVGEYQSYEITVTNYEVRLGAIYALERIAQDSARDSQPIFLTLCAYLQNNSPRTLSTFQDREANANNSDVLEALNVVARFSHRHKGDIGYEFLSIHLPDVHLFDGSLQNIIFQNCSQENVKYSCDLVGVAYKECLINNFEVHEASVSSVNLIGGAINYIKIFASMIEGVNILANAETLILHTVEASNCGFDLSDKSGIYRSDFVECNFHGKGPKLYSRFSPAIEDCKFVRCKFIKCDFSFSTLRDVTFEDCEFEGCNCVRSSLTEANGNKFQNCLMDSDVDEEDVFHANQRWAEYSYGADGSLAGVTTTL				NA	NA	NA	NA	NA
BMS010_01801	222			hypothetical protein	ATGAAAAAGCTGCTTCTGTTCGCGATTGTTGCGTTAGCGGGTTGCGATAATAAACCGGCGCATTACCTCGTTCTTTGCGATGAGAAGGATGGCCAAGGATGGACGCTGACTGATACGATGAAGAAAGACGGGTATATCATGTCCTGCACTTATCAGTCTCCCGACAAACTCAGCACTTACGCCCGTGTTTGCGATTCGAGTGGCTGCAACATCAAGAAGTGA	MKKLLLFAIVALAGCDNKPAHYLVLCDEKDGQGWTLTDTMKKDGYIMSCTYQSPDKLSTYARVCDSSGCNIKK				NA	NA	NA	NA	NA
BMS010_01802	1788			hypothetical protein	ATGGCAGACCTAGCCCGGATCAAACGCAATGTTGCGAAGATGGCTTCGCAGAATGCCCCGATAGAGGACATTGACGGCTATATCGCATCGGAAGGCGTTACCATCGATGACGTGAAGAACTTCAAGCCGCAGGCGTCCGAGAAGGCGCCAAAAGAAAGGGGTATGCTTCGCGGCGCTGCCGATAGCGTGGATGCATTCGGGCGCGGCATTGCCAACTCTGCGTCGTTCGGTTTTGCGGATGAAATTGGTGCGGGCGCGCGGTGGCTCGGCGGCAAGGTTCTGCCCTGGCAACCGAACATCACCTATGACGAGGCGTTGGCAGAGGTGCGCGGTTCGGACAAGGTGACCGCCGCCGCTCATCCCGTCGCAGATATCGCCGGCAACGTAACCGGCGCTGTTGGTCTGGGTTCAGGTTTGGTTAAAGCCGGATTGTCGCCTACCGCTGCCGTTGCGAACCGTGGTGGACGCTTGCTTTCCATGTCTGGTGCTTCGGCGCTGGAAAGTGCGGCACTCGGCGCGGCGCAAGGCTTTGGGCAGGGGGAGGGGCTCGGTGACAGACTGGATAAAGCGAAAACAGGATTGCAATGGGGTCTCGGTCTTGGTGCCGCAACGCCGCTTGCTATCTCTGGCGTCACAAATGCCGTTCGCCGTGTCGTCTCCCCCGTGTCGGCGTCACCCGCGCGTCAATCTCTCGTCAACACTCTTGAGCGTGAGGGTGTAGATGTGACCGCAGGACAGGCAACCGGTAGCGACGCCCTGCGATATGCAGAGAGCGAAATCGGAGGCGCAGCGGCTCGGGATTTGGTGGAACGTCAAGGCGAGCAGTTTACCCGCGCCGCTCTCTCCCGCGCCGGAGTGAATGCAGATCGTGCCACGCCTGACGTTATCGACAATGCGTTTACCCGCATCGGGCACCAGTTCGATTCACTGGCGACGCGGAACACACTCAAGCCCGACCGAAAGCTTCAAAATGATTTGGTGGATACCTGGCGCAACTACATGTCAGTGACACCACCCAATGCCCGCGTTCCAATCGTTGCCGACATGATGACGGATATCAACAACGCCCTCAAGAATGGCGGCTCGCTCGATGGGAAAACATATCAGTCTCTACGCTCCCGCCTTGATCGCGTGGCGCGCGGATCTAGTGACCCCGAACTAGCAAACACGCTTCGGGATATCCGCTCGGCGCTTGATGACGGCATGGAGCGCTCAATCGCAGCGACCAACCCGAAAGACCTTGGCGGCTGGCGTAACGCCCGCAAGGAATACCGCAATATGCTTGTGCTTGAGCAAGCAGCAACCGGGGCAGGCGAAAACGCAGCCGCTGGCCTTATCTCACCTTCCGCCCTCCGCAACGCCACAGTGGCGAAGCATGGCCGCAGGAACTATGCACGGGGAAGCGGTGACTTTGCCGAGTTGGCGCGCGCAGGCGAAGGCGTCATGAAGCCAATGCCACAATCAGGTACGGCCCCGCGAACAGCAATTCGCAACATGGGAGCGGCTCTCCCCGCGCTTCTAGGTGCTGGCGCTGGTGGCGCTGCCGGTGGTGGCCCCGGTGCAATGGCTGGTATGGTCGCCGGCGCGGCTTTACCCGCATTTGCTGGCAAGCTGATGATGACACCCGCAGGTCAGGCATATTTGAAAAACCAGCTTTTGAGCGGTTCGATTAGCCCTCAGTTCAGGGCAAAGCTTGCGGCGGCCGTCAACGCGATCGATGCATCTTTCCTGCCGCGCATCATGGAGGAAGGACCGTCACAAGTCCCGGCTGCTGCCGCCGCTCGATAG	MADLARIKRNVAKMASQNAPIEDIDGYIASEGVTIDDVKNFKPQASEKAPKERGMLRGAADSVDAFGRGIANSASFGFADEIGAGARWLGGKVLPWQPNITYDEALAEVRGSDKVTAAAHPVADIAGNVTGAVGLGSGLVKAGLSPTAAVANRGGRLLSMSGASALESAALGAAQGFGQGEGLGDRLDKAKTGLQWGLGLGAATPLAISGVTNAVRRVVSPVSASPARQSLVNTLEREGVDVTAGQATGSDALRYAESEIGGAAARDLVERQGEQFTRAALSRAGVNADRATPDVIDNAFTRIGHQFDSLATRNTLKPDRKLQNDLVDTWRNYMSVTPPNARVPIVADMMTDINNALKNGGSLDGKTYQSLRSRLDRVARGSSDPELANTLRDIRSALDDGMERSIAATNPKDLGGWRNARKEYRNMLVLEQAATGAGENAAAGLISPSALRNATVAKHGRRNYARGSGDFAELARAGEGVMKPMPQSGTAPRTAIRNMGAALPALLGAGAGGAAGGGPGAMAGMVAGAALPAFAGKLMMTPAGQAYLKNQLLSGSISPQFRAKLAAAVNAIDASFLPRIMEEGPSQVPAAAAAR				NA	NA	NA	NA	NA
BMS010_01803	1065			hypothetical protein	ATGATGGCTAGTAATCCACTCTTTGGCGGTCAAGGCTTCGGCAACTGGCTGAACAACAATAGCGACATGCTCTTGCAAAGCGGTATCGGCTTGCTTTCCGGCGCTACGCCGCAGGAACAGATTGCCGGCGCGGCGCTCGGCGTTGCCAATGTTCGCAAGCAGAACAAGACGATGGACTTTTTGCGCAAGATCGACCCCACGCTATCACAGGCGGTGGACAGTGGCGCGATTTCCCCCGGCGATGCCTACAAGCTTTACGCTCAGCAGAAGCTCGAAGCCCAGAAGCCCCGCAACAACTTCATGGCCGTTGGCAAGAACCTCTACGACACCCAGACAGGCCAATGGGTCTCGCCTCCGGCTGGAGCGGCCGCAGAGGCGGCAGAGTATGGGCTTGCCCCGGTATATGGCACTGATGCGCAGGGCCGCACGGTTCTCGGCCAGCTTTCCAAGGATGGCACATTCCGACAGACGCAACTTCCTGATGGTTTCACGCCAACCCCCGGAATCAGCAATATCGACACGGGTACCGGAACGCGCACGATTAACAACAGGACAGGTGCGATTATCTCGGAAACGCCGAAGGATATTGCCGGCGCTGCTGCACAGAAGGAAATCGGACAGGCTTCCGGTGCTGCTGAAGCATCGGCCCCCGGTGACCTTCAGGCGGCCGTGAATGCAAAGGCACTCGTGGCCGATATCCGTAACGACCCGTATCTTGGATGGGGAACCGGCTTTTCTTCGTATGGTAACTCCATCAGGGGAACCGGTGGACACGACTTCCAGAATAAGGTCGATCAAGCCAAGTCCGGTGCATTCCTGACCGCGATCCAGCAGATGCGCGGCCTGGGAGCACTTTCCAACGCCGAAGGCGATGCGGCGACCCGCGCGGTTACACGCCTCAACACGTCAACGAGCGAAAAAGAATTTGTTTCGGCGCTCAATGACTATGAGCGCATTATCGATCAGGCCATGGCCCGCGCTCAAGGCCGTATGGGTGACCGCACATTAAAAGGCCCGCAGCCGCCCGCAGGCCAGAATTATAAATCCCGTTATGGACTGGAATAA	MMASNPLFGGQGFGNWLNNNSDMLLQSGIGLLSGATPQEQIAGAALGVANVRKQNKTMDFLRKIDPTLSQAVDSGAISPGDAYKLYAQQKLEAQKPRNNFMAVGKNLYDTQTGQWVSPPAGAAAEAAEYGLAPVYGTDAQGRTVLGQLSKDGTFRQTQLPDGFTPTPGISNIDTGTGTRTINNRTGAIISETPKDIAGAAAQKEIGQASGAAEASAPGDLQAAVNAKALVADIRNDPYLGWGTGFSSYGNSIRGTGGHDFQNKVDQAKSGAFLTAIQQMRGLGALSNAEGDAATRAVTRLNTSTSEKEFVSALNDYERIIDQAMARAQGRMGDRTLKGPQPPAGQNYKSRYGLE				NA	NA	NA	NA	NA
BMS010_01804	849			hypothetical protein	ATGAGCGGTGGAAGCAAGCAGACAACCACGCAGACGTCCGCGCCATGGACGGGCGCACAGCCGGCGCTTCAGCAAGCGATAGGGCAGGCGCAGAACCTGATGAGTACCGGCGTAGGGCAGCAGATCTATGGTGGCTCTACCGTGGTTCCGTGGGCTTCCCAGACGCAGCAGGCCATGGGCAACATCCAGAATAACGCCAACGCCAACACGGGTAACACGGGTTTGTCCGGCCAACTTCAGGGCGTTATCAATAGCGGTGGCTATAATCAGCCTCAGCAGGATGCGCTCAGCAATACCCGCAACCTTGCCAACTCGCAGTTTTCTGTCACCCCTGAGCTTCAGAAGGTGCTTGATGCACAAGGTTCCAAGGTGAGCGATGCGGTCAATCTGAATGCATCTGCCGCCGGTCGCTATGGCTCTGGTGCAAACCAGACGCTCCTTGCCAAGAACGTGGGCGACCTCGCGAACCAGACGATCTACAACGACTATAACAACTTCGTCGGACGCAGGGACGCCGCCAACTCCAATCTGTTCAACATGGGGCAGCAAGGTTTCAACAATCTCGGTGCAGCGTATACCGGCCTAAATGCGCCCAATCAGGATTTGATGAACATCGGCGCCATGAACGAGGACTTGGCTACCCGTTACAAGAACGACGAGCTGCGCCTGTTTAACGACACCCAGAACAAACCGTGGGAGCAAGTTTCCCGCCTGAACGCCATCGCGTCTGGCGCGGGTTCTCTCGGATCAACCACTACAGAATCCAAGCCGGGGAGCAATCCGTTTCTGACTGCGCTCGGGTATGGGAACACGGGTCTTGGGCTCTTGAGCGGCTTGAAACTTTTCTAG	MSGGSKQTTTQTSAPWTGAQPALQQAIGQAQNLMSTGVGQQIYGGSTVVPWASQTQQAMGNIQNNANANTGNTGLSGQLQGVINSGGYNQPQQDALSNTRNLANSQFSVTPELQKVLDAQGSKVSDAVNLNASAAGRYGSGANQTLLAKNVGDLANQTIYNDYNNFVGRRDAANSNLFNMGQQGFNNLGAAYTGLNAPNQDLMNIGAMNEDLATRYKNDELRLFNDTQNKPWEQVSRLNAIASGAGSLGSTTTESKPGSNPFLTALGYGNTGLGLLSGLKLF				NA	NA	NA	NA	NA
BMS010_01805	237			hypothetical protein	ATGAATGGACAGGATGAGCGGCGCGCCAAAACCGAGATTGTAAATCTCATGCTGCGCGACAACCGCGTGACAGCAGGATTTCGAACGGCCCTATTCGATGCGACACAGCGTGAGGGGCTTTCCGTCAACGAATTCGTATTGCGTGCCGCCGCTGAAAAGCTGCGCGCATCCGGTCGCGATTTTCCCGGCGTCTTTTCGTCTGGCGACCTTACCGAGCAAAACATGAGGAGCGCTTAA	MNGQDERRAKTEIVNLMLRDNRVTAGFRTALFDATQREGLSVNEFVLRAAAEKLRASGRDFPGVFSSGDLTEQNMRSA				NA	NA	NA	NA	NA
BMS010_01806	339			hypothetical protein	ATGTGCGGACATTTCCCCTGTTTTGCCCTAGAGCGGCACGCCTATGCGATCGATATAGCGCCGAACATCAGGATGCGTTCTGTCATTCGCTCGAAGGCGCTCAAGCGCTTCCGTATCGCCCTCCATGACCATTTCGAGGGCAATGACAGAGATTTGCAGGGGGGCGCCGGGGCAAGACTGACGAGCAATCGCGTGGATGCGGTTCCAACGTCTGATAGTGCGACTGCATACGCCGGCGCGGTGTGCGGCTTCTTCGATCCTGATAATTTCATCCGGCAGCATTGGGACTGGTCTCATGCGTTCCCCATCGTTGTCTCTAACAGGAAAACGAGCATCTGA	MCGHFPCFALERHAYAIDIAPNIRMRSVIRSKALKRFRIALHDHFEGNDRDLQGGAGARLTSNRVDAVPTSDSATAYAGAVCGFFDPDNFIRQHWDWSHAFPIVVSNRKTSI				NA	NA	NA	NA	NA
BMS010_01807	276			hypothetical protein	TTGAGTGACAGTGAAAACTCCCTTCTCAGTGAGGTGATTGCTTGCGGTGCGATGTACGCACAAAAACTTGCGAATGACGTAATCCGCGACAGTCTTACCCGTGAACAGATCGACAGGAGGATAAGTCAGGAATCATCCGCATTCGGGCAATGGCTCGGAACAAAAGGATTTGATGAAAGCCAGCAATCCGCCGCCCGCTCGGTATTCCAGACCCGTGTCAGTTCTGAAATTCAGATGCTCGTTTTCCTGTTAGAGACAACGATGGGGAACGCATGA	MSDSENSLLSEVIACGAMYAQKLANDVIRDSLTREQIDRRISQESSAFGQWLGTKGFDESQQSAARSVFQTRVSSEIQMLVFLLETTMGNA				NA	NA	NA	NA	NA
BMS010_01808	285			hypothetical protein	ATGATTGAGAGTGTTCCCCTCGTTGGCACCGTATTTGAAGAAATCGAAATCTTGCCAGCAACCGTCACAGGGATATTCCGCGACAATGAGAGCGACGCCCTGGGCATTCTTCCATTCTTCGTCGCGCCGACACTGTATCTCGTGGAACTGTTGTTCGATGGCGGGGAGCGTCAAGGCTTGTGGATGGGCGACGACCCAAACAAGGCCCGCCAATGCGCCAAAGAATGGGCTGAAAAGCTTCTAGTGCGCGTTGTTGATCATAGCGTCAGGAGGGCATTTCATTGA	MIESVPLVGTVFEEIEILPATVTGIFRDNESDALGILPFFVAPTLYLVELLFDGGERQGLWMGDDPNKARQCAKEWAEKLLVRVVDHSVRRAFH				NA	NA	NA	NA	NA
BMS010_01809	507			hypothetical protein	ATGCGAGATTTCAGCAAGGTTTCCCCGAAGATTTGGCGCAACCGAGATTTTCGCGCCCTGCCGTCCATCGGTTCGCAACTGCTTTTCCTCTACCTGATGACGAGCGAACACCAAAACTCTGCCGGCTGTTTCCACCTGCCGGAAGGATATGCGCAGCATGATTTAGGATGGACGCCTGACGAGTACGCCGAGCGGCTACATGAAGTCGAGGCTTCCGGCCTTGTATTGATCGATCGCGAGACAAGCGAAATGTTCATTCGCGGTTGGTTCGACATGAACGCGGCCATGAATGACCGGCACGCCATGCGCATCACGAAAGCGATTGCCGAGATCGAAAGCGCCACGCTTCGTGAGACTGTTCAATCCGCATTCTACACCACCGACGCCAACCGGAAGCCCGACAAGGTGAAGGTGGCCCGTGCGAAGATGATTGAGGCAATCGAGCGGACAGCCAACACCTCGAATTTAGCTCAAACCGGCTACATGCAACGGAGGGCGCAGCTATGA	MRDFSKVSPKIWRNRDFRALPSIGSQLLFLYLMTSEHQNSAGCFHLPEGYAQHDLGWTPDEYAERLHEVEASGLVLIDRETSEMFIRGWFDMNAAMNDRHAMRITKAIAEIESATLRETVQSAFYTTDANRKPDKVKVARAKMIEAIERTANTSNLAQTGYMQRRAQL				NA	NA	NA	NA	NA
BMS010_01810	177			hypothetical protein	ATGAGGGAACCACATCAAAACCCGAAGGTGACCGTTGCGGCGCAATGGCTTGCCGATCTGCAGGAACCGCCACCCCAGGCGGTTCCAACCCTCAAGGAACGCTTCGGATTATCGGCGCTTGAAACATGCGAGGCTTGCAAGCTGGCCCACGATTTCCGGCTTAATCGCAAGGTGTAG	MREPHQNPKVTVAAQWLADLQEPPPQAVPTLKERFGLSALETCEACKLAHDFRLNRKV				NA	NA	NA	NA	NA
BMS010_01811	306			hypothetical protein	ATGACGAAACGCATCATCACCACCGCCCGTGTTCTCCCCGATGGCAAGCCCTTCAAGCTTATTGGCCGCTACGGCTGGGCTCTGAAGAACCTTGTGGCCGCCGGCAAGCGCGGATGCACCCCGATTGATCACCCCGGCCCACGCTGGAGCGCATACGTATTCAGGCTCCGCAAGGATTACAGCCTTGTCATCGAGACGGTGAATGAAGCCCACGACGGTCCGTTTCCCGGCTCGCATGCCCGCTACGTGCTTCACACGGAAGTCGAGATAATCCCCGACGCCCCAACCGTGCAGGTGGCCGCATGA	MTKRIITTARVLPDGKPFKLIGRYGWALKNLVAAGKRGCTPIDHPGPRWSAYVFRLRKDYSLVIETVNEAHDGPFPGSHARYVLHTEVEIIPDAPTVQVAA				NA	NA	NA	NA	NA
BMS010_01812	216			hypothetical protein	ATGATAACGGAAAACCCGGCAGCGCTGGCAGGCGCAAAACCGGGTTTCAATATCAATGCTTTCACAGGGCTTGATAGTTGGAACCCTACAGAATTCACCCTCGAAAATCAATCTGAATTGCTGGCGGTCAAGTCCGTCATGCGTCGGTGCCGCGTGTCCTTCTGGCATGCGAAGACCATTTGCCAGCTTCACGGCCTTGGAGGTCTGGCAGCATGA	MITENPAALAGAKPGFNINAFTGLDSWNPTEFTLENQSELLAVKSVMRRCRVSFWHAKTICQLHGLGGLAA				NA	NA	NA	NA	NA
BMS010_01813	858			hypothetical protein	ATGGACGAAAGATTTCAGTTCTGGAAAAATCCGGCCTCATGGCCTGACGACGCATACGGTTTTGTATTCTTGGCCCGCGCTATCGAGCGCATCGGAAAAGCAGTCTATACAGACCAGTGGACTGGAAACGAACCTGTAGCACGCCCTCCAATTCTGCCACCAAGCAGCCTTGAATTTAATTCCCTTGCAAAACAGGCGAATGCAAAAGAAATTTTTCAGCGCGAAATCGCGGCCCTTATAACGTCTGTTGATCGAACAAAACTCGCGTGGGAAACCGAGACGGTAAAAATTGCGGGAAGTTTATCAAGTGGCGGCGGCAGGTCTCGTCAAATACAGGTACTTGCGAAAGAATCCATGAGCTTTGGTGTAAGCCTCGTTGCCAACGAGAACAGAAATCGGGCTGAGGCGAGGGGCAGGTGGAAACACGTTCTTACTCTGCTGAAAGATGCATTGCGTGACGGTAGGCTAGAATTTGCCACGTTGCCGATCCACGGCGGCTTTTTCTCAGCGCCACAGCCTAAAGAGTGGTGGAATATTATCGATATCGAAAACCGCGTTACGATGTGCCGAATGAACCCGGCGGTCCCTTTCTGTTTAGGCTCTTTTGGCAATGGCTATGAGTACATTTTTGTTAGGGAAGACAACCTAGATAGCCTCCTGCCTCTGCCGCCAAAGCCAAAGAATAGCGAGGAGGTGAACGCTCTCGAAGACAGAGCGATCGAAATTTATAAACAGATCAAAGCTCGTGACGGGTATATAACTAGCAATATCTTCAAGGATATCTGCCGGAAAGAGCGCCCTAAGATTTCGACTACTATTTCTGGGCGGATATACAAGAAAATGCACAATAATGCGTAG	MDERFQFWKNPASWPDDAYGFVFLARAIERIGKAVYTDQWTGNEPVARPPILPPSSLEFNSLAKQANAKEIFQREIAALITSVDRTKLAWETETVKIAGSLSSGGGRSRQIQVLAKESMSFGVSLVANENRNRAEARGRWKHVLTLLKDALRDGRLEFATLPIHGGFFSAPQPKEWWNIIDIENRVTMCRMNPAVPFCLGSFGNGYEYIFVREDNLDSLLPLPPKPKNSEEVNALEDRAIEIYKQIKARDGYITSNIFKDICRKERPKISTTISGRIYKKMHNNA				NA	NA	NA	NA	NA
BMS010_01814	1197	intA_1	COG0582	Prophage integrase IntA	ATGGCGCGCACTTTGAACAAGCTTTCTGCGCTCGGCGTGAAGAATGCCGGTGCCGGCAAATATGCCGACGGCGGGGGCTTGTGGCTCATCAAGCGTGAGGATGGCGGCGGCCAGTGGGTGCTACGTTTCACGATCCACGGCCGGCGCCGAGAAATGGGCTTAGGCTCCATCAGTGAGGTATCGCTGAAAGAAGCGTGCGAGGAATCGGAACGTTGGCGTGCTGTTGCTCGGTCTGGCCTAGATCCGATTAGCCAGCGCGAGAAACACAAGCGGGAAGCAGTCAAACGCCTTCATCTTCTCAAAGACGTAGCCGCCGATGCATTCGAAAGCCGGAAGGCAGAATTGAAAGGCGACGGTAAAGCTGGGCGATGGTTCAGCCCTCTTGAGCTTCACATACTGCCGAAGCTCGGAAAGACGCCGGTTGCCGAAATCGACCAAACGCAAATCCGCGATGTGCTTTCGCCAATATGGCACACAAAGGCAGAGACAGCCCGCAAAGCGCTCAATCGCCTCGATATCTGCATGCGCCATGCTGCTGCTCTTGGCCTTGAGGTAGATATTCAGGCCGTTGCCAAAGCTCGGGCACTACTAGGCCAGCAGCGACACGAGGCAACCAACATTCCCGCTATGCCCTGGCACGAGGTGCCAGCTTTCTACACGCGTATTTCTGACGGTTCGATAACGCACCTTGCTTTGCGCCTTCTCATCCTCACTGGCGTTCGCTCCCGGCCGCTGCGCTTCCTGCATGTTGACCAGATCGACGGCGACGTGTGGACGATACCAGGGGAGGCGATGAAGGGCAGGAAAGGGAAGACGCCAGATTTCCGCGTGCCGCTCACCACGGAGGCGCTGGACATCATCAAAGCCGCGTTGCCTCTCTCCCGTGATGGCTTCCTATTCCCCAGCATTAAAAAAGGCGTCATCTCTGATGCCACCATGTCGAGGCTGATGGAGCGCGACAAAATCGCATATCGGCCGCACGGCTTTCGTTCCTCCTTGCGCGACTGGATAGCCGAAGCGACGGACACCCCGCACGATATCGCAGAGACCGCGCTCGGGCATACCGTCGGCGGCAAGGTAGAGCGCGCATATAGGCGAACCGATTTCTTGGAGCAGCGCCGCAAGCTTCTTGAGCGCTGGGCAAAGCATGTGACCGGGAAGGGCGGGCAAGTCCTGCGGCTGGTTGCGGAGGGGTAG	MARTLNKLSALGVKNAGAGKYADGGGLWLIKREDGGGQWVLRFTIHGRRREMGLGSISEVSLKEACEESERWRAVARSGLDPISQREKHKREAVKRLHLLKDVAADAFESRKAELKGDGKAGRWFSPLELHILPKLGKTPVAEIDQTQIRDVLSPIWHTKAETARKALNRLDICMRHAAALGLEVDIQAVAKARALLGQQRHEATNIPAMPWHEVPAFYTRISDGSITHLALRLLILTGVRSRPLRFLHVDQIDGDVWTIPGEAMKGRKGKTPDFRVPLTTEALDIIKAALPLSRDGFLFPSIKKGVISDATMSRLMERDKIAYRPHGFRSSLRDWIAEATDTPHDIAETALGHTVGGKVERAYRRTDFLEQRRKLLERWAKHVTGKGGQVLRLVAEG				NA	NA	NA	NA	NA
BMS010_01815	264			hypothetical protein	ATGAAGATTCTAACCGGAGCAATCTGCCTCTTGTCGGTCGGCATCCTGAGCGGATGCGTTGACGATGGCGGTTACCGCACGGGCGGATATTATTCGTCCGGCGTCTATTATCGAGCTTATGACCGAGACAGATATTACCGCGACTACGACCGCCGGAACTGGCGGCAACACAGAGAGTGGCGGGATCGCAGGGAATGGCGCGGCGACTATCGCCACCGCCCCCGCCCACCGTATCACGGTCAGTACGGCGTGATTGTTCGTTAA	MKILTGAICLLSVGILSGCVDDGGYRTGGYYSSGVYYRAYDRDRYYRDYDRRNWRQHREWRDRREWRGDYRHRPRPPYHGQYGVIVR				NA	NA	NA	NA	NA
BMS010_01816	159			hypothetical protein	ATGGACGTCATTCGTATCCTGATCGCCATCATCCTTCCGCCCGTCGGCGTGTTTCTTCAGGTCGGGCTCGGCCTGCATTTCTGGCTGAATATTCTCCTGACGCTGTGCGGTTATGTTCCCGGCATTATCCACGCGATCTGGGTGATCCTGCGAAGGTGA	MDVIRILIAIILPPVGVFLQVGLGLHFWLNILLTLCGYVPGIIHAIWVILRR				NA	NA	NA	NA	NA
BMS010_01817	105			hypothetical protein	ATGGTGATGACACCAGCCAAGGAGAAAATCATGAACCAGATCATCTACATCGTCGGCCTCGTCGTCATCGTTCTGGCGATCCTGTCGTTTTTCGGCTTCCGCTGA	MVMTPAKEKIMNQIIYIVGLVVIVLAILSFFGFR				NA	NA	NA	NA	NA
BMS010_01818	243			hypothetical protein	ATGAAGAACGAGAGATGGACAGAGCCTGTCGAGGTCAATCTCGAGGCGAATGGCAAGAGCGTCATCGCCGGCCCCTTCGAAGCGTTGACATTATTGACCGAAGGCTGGCCCAAAACTGGCGGATTGAGCTTTGTGAGAGCGAGAAGCGCCTGCCGTGCCGCCCTTGACGGACGTAAATCGCCCGAAGAAGCACGCAAGTGCTTCACCGACGCGGTTTCCGAGATGCAGAAAAACCCGCATTGA	MKNERWTEPVEVNLEANGKSVIAGPFEALTLLTEGWPKTGGLSFVRARSACRAALDGRKSPEEARKCFTDAVSEMQKNPH				NA	NA	NA	NA	NA
BMS010_01819	393			hypothetical protein	ATGATGCATCAGGAACCCCGCGCCGGACAGGACCCGTATGTCAAGGATACGCCGAGCCTGATCGCCAGCGACAAGGTGGAAGGCACGCGTGTTTACGGCGCCGACAGCAAGCACATCGGCTCGATCCAGCGCATCATTCTGGAAAAGCGCGGAGGGCGCGTTGCCTATGCGGTCTTGAGCTTTGGCGGCTTCCTCGGCATCGGTGACGACTATTATCCACTGCCCTGGGAAAAGCTGCATTACGACGAAGAACTCGACGGCTACCGCATCGATCTCACCAAAGAAGAGATCGAAAACGCGCCGCACTTCGCCAATCTCGACGATAACGATCTGCTGAACGCCAAGGACAGAAAGGTCTATGATTATTACGGCGTCGCACCCTATTGGATGTAA	MMHQEPRAGQDPYVKDTPSLIASDKVEGTRVYGADSKHIGSIQRIILEKRGGRVAYAVLSFGGFLGIGDDYYPLPWEKLHYDEELDGYRIDLTKEEIENAPHFANLDDNDLLNAKDRKVYDYYGVAPYWM				NA	NA	NA	NA	NA
BMS010_01820	882	rhaR_1		HTH-type transcriptional activator RhaR	ATGGCTTTCCGCGTGCGGATGGAAAATGAGATCGAGGGCTTTGCCGTCATTGGCGGGCCGCGCTCGCGGGTCTGGAACGGCATCGTCGCCGATCTCTGGGATGTGCGTTGCGCCCCGAAGGCCGGCGGCCGTTACGTCGGCAAGGATCCGCGTTTCGTTTTCCTGCTGGATATGGACGGGACGGATGACGGCAGGTTCATGATGAACCGCTGCCGTCGCGACAATTACGGGTCGTCCAAGGCGAACCGTATTTCCTTCGTGCCCGCCGATCTGGATGTGCATGCCGAACTGAGCAACGTCTCCTTCGTGCGCCACCTTGATCTGCATTTCGATGCGGGATTGCTGGGTGCCCGGCTGGTGCAGGGCTTCGACCCGCACAGCCTGCTCGATCCGCATCTGATGTTCGAGGATGAGCGCCTGCTGGCGCTGGCGCGACTGATTGCCGCCGAATGCGACAATCCCGATCCGCTGCATGACCTTTATGGCGAAAGCCTCGTGCTTGCGCTATTGACGGATTTCCTGAAAGTGAAGCGGGAACCGGTCAAAAAGCGCAGCAAGCTCGCCGCCTGGCAGTTAAGGGCGGCGACGGATTACATCCGCGAACATTGCCTGCGGTCGATCCGGCTGGAGGAGCTGGCGGAACTCACCAACCTGTCGCAATCGCATTTCAGCCATGCCTTCAAGGCCTCCACCGGCGTGCCGCCCCACCAATGGCAGATGCAGGCGCGCATTGATCACGTCAAGGAACTGATGATGGGGACCGACATGGCACTGACCGACATCGCCATTGCCGCCGGGTTTTCGGATCAGGCGCATTTCTCCCGTGTCTTTCGCAAGATGGTCGGTGTTTCTCCCTCCGTCTGGCAGAAAATCCGCCAATAA	MAFRVRMENEIEGFAVIGGPRSRVWNGIVADLWDVRCAPKAGGRYVGKDPRFVFLLDMDGTDDGRFMMNRCRRDNYGSSKANRISFVPADLDVHAELSNVSFVRHLDLHFDAGLLGARLVQGFDPHSLLDPHLMFEDERLLALARLIAAECDNPDPLHDLYGESLVLALLTDFLKVKREPVKKRSKLAAWQLRAATDYIREHCLRSIRLEELAELTNLSQSHFSHAFKASTGVPPHQWQMQARIDHVKELMMGTDMALTDIAIAAGFSDQAHFSRVFRKMVGVSPSVWQKIRQ				NA	NA	NA	NA	NA
BMS010_01821	2172	fhuA_1	COG1629	Ferrichrome outer membrane transporter/phage receptor	ATGTTTTTGAGCCGTCTGGCTTTGGGCACGGCCGCCGTTGTTTTGCTGGCGCCAGCGATGGGCCACGCGCAGGACACGACCGTTCTGCAGCAGATTACCGTTGAAGGGCAGGGCGCGGAAAACGCGACGGGTCCGGTCCGGGGTTATGTTGCGAAGAAAAGTGCGACCGGTTCGAAAACCGAGACGGAAACCAGGGATATTCCGCAATCCGTATCGGTCGTCGGCCGCCAGGAAATGGATGACCGCGGCGCGGTGACGAAAATCGATGAGGTACTGCGTTATACCCCCGGTGTGACGGCGGAGCCCTTCGGCACGGACCCGGATACGGACTGGATTTACATCCGCGGTTTTCAGGCCACCCAGACCGGCGTGTTTCTGGATGGTCTGAACCTGTTCAGCTACGGTTTCGGCGGTTTCCAGATGGACGCCTACGGTCTGGAGCGCGTGGAAGTTCTGAAAGGCCCGGCCTCGGTGCTTTATGGCGGCGCCAATCCCGGCGGTATCGTGCAGATGGTCCGCAAGCGCACGCAGGATGAGCCGGTGCGTGAAACGGAAATCGGCATCAATAATTTCGGCAATGCCTTCTTCGGCTTCGATCTCGGCGACAAGGTCGATGGCGAAGGCGTGTGGAAATATCGCGTCACCGGCAAGGTCTCCGGCGGCGATAATTACACCGATTATTCCGAGGATTTGCGAGGCTTCATCATGCCGCAGATCACCTTCGAGCCGGACGCGCAGACAAGCGCCACGCTCTACGGCTATTTCTCGGCGCTCGATCAGGTTCATATCGGCAACGGCTTCCTGCCCTATGTTGGCACCGTGGTCGACGCGCCCTTCGGCAAGCTCGACCGAAAGGCGTTTTATGGCGAGCCGGATATCGACAATGGCCGCGTCTACCAGTCCATGGTGGGTTACGAGGTCAGCCATGAATTCGACAATGGCTGGACGATCAGCCAGAACGCCCGTTATGGTCACCTCTACAAGCACGAAACCGGACCCTATGCCGGCGGCTGGGCCAATACAGATGCAAACGGCCAGCCGATCCTCGATGCCACCACCAACGACTATATGTTGACCCGCTTCGGTTATGATGGCGTGTCGAAAGTCGACAGTTTCGGCGTGGATAATCGGGTCGAAGGCCAGTTTGATACCGGCGCGGTCAACCATTCGTTGCTTTTCGGTCTCGACTATAAATATTACCGCCTGGACCAGGTGCAGGCCTGCTGCGGATCGAATGCAATCGGTGTGCTCAACCCGGTCTATGGCTCGACGCAGGGAACGAATTTCGTTTATGCCGACAATATCGTGACCCAGCAGCAGATCGGCATCTACGCGCAGGACCAGCTGCGTTTCGGCGATGGCTGGCTGGTCACGCTGAATGGCCGTTACGACTATGTCGACACGGAACTGAACAACAGGCTGCCTGCGGGCCTCTCCCGCCGCTCGAATGACGATGCGCTGAGCGGCCGCGCCGGTCTCGCCTATGAATTCGACAATGGCCTGACACCCTATGTCTCGGCCGCCACTTTCTTCAATCCGCTCATCGATACGCTTGCGGATGGCACTCCCGCTTCTCCGGAAGAGGGACACCAGTTCGAGGCCGGTATCAAATATGAGCCGACCTTCTTCGATGGCAGCATCACGGCCTCCGTCTTCAAGCTGGTGAAGGACAATGCCATCGTTTCCTATACGGCTGGCGGGGTCACCACGAGCGGCCAGTTCGGGCAGGTGGAAGCCACTGGCCTCGAGCTGGAGGCCAAGGCCAATCTCACCGACAACTGGAAGGCGATCGCCTCCTATTCCTATACGGATCTGGAGATTACCCGCGATGCCAATCCTAACCTTATCGGCAAATCGCCATGGATCGTGCCCGCCCACACCGCCTCGCTGTGGCTGGACTATGCCTTTACCACAGACGCGCTGGAAGGCCTCAGCCTCGGCGGCGGCGTGCGGTATCAGGGCAAGTCCTGGGCGGATGAGACAAATACGTTGCGCGTTCCGGATGCTGCCGTCTTCGACGCCGCAATCCGCTATGAGAAGAACGACTGGACCGCATCGATCAACGTCGCCAATGTCTTCGACAAGGAATATGTAAAGAGCTGCGCCGGCGTCTCCGTCTGCGGCTGGGGCGATAGCCGCACCATCACCTTCAAGCTTTCCAAGAAGTGGTAA	MFLSRLALGTAAVVLLAPAMGHAQDTTVLQQITVEGQGAENATGPVRGYVAKKSATGSKTETETRDIPQSVSVVGRQEMDDRGAVTKIDEVLRYTPGVTAEPFGTDPDTDWIYIRGFQATQTGVFLDGLNLFSYGFGGFQMDAYGLERVEVLKGPASVLYGGANPGGIVQMVRKRTQDEPVRETEIGINNFGNAFFGFDLGDKVDGEGVWKYRVTGKVSGGDNYTDYSEDLRGFIMPQITFEPDAQTSATLYGYFSALDQVHIGNGFLPYVGTVVDAPFGKLDRKAFYGEPDIDNGRVYQSMVGYEVSHEFDNGWTISQNARYGHLYKHETGPYAGGWANTDANGQPILDATTNDYMLTRFGYDGVSKVDSFGVDNRVEGQFDTGAVNHSLLFGLDYKYYRLDQVQACCGSNAIGVLNPVYGSTQGTNFVYADNIVTQQQIGIYAQDQLRFGDGWLVTLNGRYDYVDTELNNRLPAGLSRRSNDDALSGRAGLAYEFDNGLTPYVSAATFFNPLIDTLADGTPASPEEGHQFEAGIKYEPTFFDGSITASVFKLVKDNAIVSYTAGGVTTSGQFGQVEATGLELEAKANLTDNWKAIASYSYTDLEITRDANPNLIGKSPWIVPAHTASLWLDYAFTTDALEGLSLGGGVRYQGKSWADETNTLRVPDAAVFDAAIRYEKNDWTASINVANVFDKEYVKSCAGVSVCGWGDSRTITFKLSKKW	PGPT0003790_18635	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS010_01822	1677			hypothetical protein	ATGAATCCAGACGCCATCCAGCCACTGACACCTCGTGCCCGAGCCAGGTTTTCATCCTCCTTCTGGTGGCTGTGCCTCTCCGTGCTGGCGGTCTGCGGCGCCATGGTGCCGGTTCTGGCGCTTGTATCGCAGGCATTGCAGGGTTCTGAAGGCCTGTGGGCGCATCTCGGCTCGACCGTGCTCTGGACCGCGCTTCCGGACACGGCGATCCTTCTCGCCGGGGTCGGGCTGCTGGCCGGTGTCGTCGGAACCTATGCCGCCTGGCTGGTCACCGCCTATGATTTTCCCGGCCGCAAAATATTGGAATGGGCGCTGCTGCTGCCGCTGGCCATGCCCACCTATATCGTCGCTTACGCCTATCTGGATATTCTGCATCCCATCGGACCGGTGCAGGGCGCGATCCGCTGGCTGCTCGGTTACTCCAGCCCGCGCGAATTTCGCCTGCCGGACATAAGGTCCATGGCGGGCTGCATCGTCCTTCTCGGCTTCGTGCTGTTTCCTTATGTCTATATTCCCGTGCGCGCCATGTTCCTGACGCAGGCGGGCAACCTGCTGGAAGCGGCACGAACGCTCGGCGTTTCCAGACGCGCGGCCTTCTTCAAGGTCGCGGTGCCGCTGGCGCGCCCGGCGATTGCGGTCGGCATCAGCCTTGCCCTGATGGAAGCGCTCAACGATATAGGCGCATCGGAATTCCTCGGCGTCCGCACGCTCACCGTTTCCGTCTACACCACCTGGGTCACGAAATCCGACCTGCCGGGTGCGGCGCAGATCGCGCTCTCCATGCTGTTCATCGTTGTCGCCCTCGTGGCGCTGGAGCGCTGGGCGCGACGCAAGCAGCGTTATGCGGTTTCGGCGCAGAAAAGCAGGGAACTGGAGCCGCTGCGGCTCAACGGCCTGAAGGGCTGGGCTGCTTTCGTACTCGGCGGCCTGCCGGTCCTGATCGGCTTTGTGGCGCCGGCCAGCTATCTCGTTATCGAGGCATGGAAACGGTTCCGTTTCAGCGGCCTGTCCGCCCGCTTTGCCGATGAGGCTCTGAACACCATCGTCTTTGCCGGCCTGTCGACGGTTATCACCCTTATTCTCGGCCTTGCGGTTGCTTACGCCATGCGCCTTGCACCGGGGCGTCTCTCGCTCTGGTCCTACCGGCTTTCGACGGTCGGATATGCGGCCCCCGGCACGGTCATCGCCATCGGCGTGCTGATCGCGCTTGGCGGCTTCGACCGGTTTGTCGACCAGACCATGCGTGACTGGTTCGGCATCTCTACCGGCCTCATCTTCATCGGCAGCGGTGCCGCGCTGATCTACGCCTACTCGGCGCGTTTCCTCACCATTGCGGCGGGCGGCGTGGATGCCGGCCTCAGCCGCATACCGCAATCCTTCGATCACGCTTCGCGAACGCTCGGGCGATCCGCGACGCAGACATTCCGCCAGATTCATCTGCCGCTATCCAAGGCGTCGCTTGCGGCAGCGGCGCTGCTGATCTTTGTCGATTGCGTCAAGGAGCTTCCCGCCACGCTTCTGTTGAGGCCGCTGAATTTCGAAACCTTCGCTACCCATCTTTATGGCGAAGCGGCGCGCGGCACCTATGAGGAAGCGGCAATCGCAGCGCTGGCAATCGTCGTCATCGGCATGCTTCCGGTCATGCAGCTTGCAAGGATCGGCCGGCGCAAGGGTTGA	MNPDAIQPLTPRARARFSSSFWWLCLSVLAVCGAMVPVLALVSQALQGSEGLWAHLGSTVLWTALPDTAILLAGVGLLAGVVGTYAAWLVTAYDFPGRKILEWALLLPLAMPTYIVAYAYLDILHPIGPVQGAIRWLLGYSSPREFRLPDIRSMAGCIVLLGFVLFPYVYIPVRAMFLTQAGNLLEAARTLGVSRRAAFFKVAVPLARPAIAVGISLALMEALNDIGASEFLGVRTLTVSVYTTWVTKSDLPGAAQIALSMLFIVVALVALERWARRKQRYAVSAQKSRELEPLRLNGLKGWAAFVLGGLPVLIGFVAPASYLVIEAWKRFRFSGLSARFADEALNTIVFAGLSTVITLILGLAVAYAMRLAPGRLSLWSYRLSTVGYAAPGTVIAIGVLIALGGFDRFVDQTMRDWFGISTGLIFIGSGAALIYAYSARFLTIAAGGVDAGLSRIPQSFDHASRTLGRSATQTFRQIHLPLSKASLAAAALLIFVDCVKELPATLLLRPLNFETFATHLYGEAARGTYEEAAIAALAIVVIGMLPVMQLARIGRRKG	PGPT0003730_2384	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003730-afuB|fbpB-K02011	NA	NA
BMS010_01823	1017	idiA	COG1840	Iron deficiency-induced protein A	ATGACGAAATTTACCAGATTTGCCCTGCTTGCCAGCACGGTTGCCTTTGCAGCCGGAACGGCCAGCGCTGCGGAACTCAACATCTACACCACCCGCGAACCGGGCCTGATCCAGCCGCTTCTGGAATCCTTCACCGCCTCGAGCGGCGTCAAGGTCAACACCGTGTTCCTGAAGGACGGTCTTGCCGAGCGCGTTCTGAGCGAGGGCGCAAGCTCGCCTGCCGACGTTCTGATGACGGTGGATGCCGGCAACCTCGTCGATCTCGCTGAAAAGGGTGTCACCCAGGCGGTCGAATCCGAAACGCTGACCAAGGCTATCCCGGCTGAACTTCGCGACGCCAAGGGTCATTGGTTCGCGCTCTCCATGCGCGCCCGCGTTCTTTATGCGGCGAAGGATGTCGATCTCGCCTCCTTCAACTATGAAGATCTTGCGGATGCGAAGTGGAAGGGCAAGGTCTGCATTCGCGCCGGCCAGCACCCCTATAACACGGCGCTCTTTGCCGACTACATCGCCCATTACGGCGCTGCGGACACCGAGAAGTGGCTTGCCGGCGTCAAGGAAAACCTGGCCCGCAAGGCAGGCGGCGGCGACCGCGACGTTGCCAAGGATATCCTCGGCGGCATTTGCGATATCGGCATCGCCAACTCCTATTATGTCGGCCTGATGCGCTCGGGCAAGGGCGGCGAGGAGCAGGTGAAGTGGGGCGACGCCATCAAGGTGGTTCTGCCGACCTTCAAGAATGGCGGCACGCAGGTCAATATCAGCGGCGCGGCCGTGGCCAAGAATGCACCGAACAAGGCGGAAGCCGTGAAGCTGCTGGAATATCTCGTCTCCGACGAAGCCCAGAAAATCTACGCTGAAGCCAACTACGAATATCCGGTCAAGCAGGGTGCGGCTCTCAACGAGATCATCGCTTCCTTCGGCACGCTGAAGATCGATAACAAGCCGCTGACGGAAATCGTCTCGCACCGCAAACAGGCGAGCGAGCTGGTCGACAAGGTCGGTTTCGACAAGTAA	MTKFTRFALLASTVAFAAGTASAAELNIYTTREPGLIQPLLESFTASSGVKVNTVFLKDGLAERVLSEGASSPADVLMTVDAGNLVDLAEKGVTQAVESETLTKAIPAELRDAKGHWFALSMRARVLYAAKDVDLASFNYEDLADAKWKGKVCIRAGQHPYNTALFADYIAHYGAADTEKWLAGVKENLARKAGGGDRDVAKDILGGICDIGIANSYYVGLMRSGKGGEEQVKWGDAIKVVLPTFKNGGTQVNISGAAVAKNAPNKAEAVKLLEYLVSDEAQKIYAEANYEYPVKQGAALNEIIASFGTLKIDNKPLTEIVSHRKQASELVDKVGFDK	PGPT0003725_3659	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003725-afuA|fbpA-K02012	NA	NA
BMS010_01824	1056	fbpC		Fe(3+) ions import ATP-binding protein FbpC	ATGGCAGGCAGGGCAGCGCTTGAACTGAAATCGGTCGGGAAGAGATTCGGCGATACGGAAGTGCTGTCCGATATCGATCTTTCCGTCGAACGCGGCGAAATCATTTGTCTGGTGGGACGCTCCGGCTGTGGAAAATCGACCCTGCTGCGCATTGTAGCGGGCGTGGAGACGCCGGACCATGGCAGCGTTTCCCTGAACGGCGCTGCCGTTGCCGGTCCCGCTGTTTTCGTCGAGCCGGAAAAGCGCAATATCGGTTTTGTCTTTCAGGATTATGCGCTGTTTCCGCATCTGACCGTCGAGCAGAATGTCATGTTCGGTCTTCGGTCTTTGCCGAAAGTGGAAGCCCGCCGCCGCGCCGCCGAGATGATAGAACATGTTCACCTGCAGGAACTGGCGAAACGTTATCCGCATACGCTTTCGGGCGGCGAGCAGCAGCGTGTGGCGCTTGCCCGCGCGCTTGCCCCACAGCCCGGCCTGCTCCTGATGGACGAACCCTTTTCCAATCTGGACAGGGGATTGCGAGACAGCGTGCGCGAGGAAACGCTCGGCCTGTTGCGGCAACTGGGCACGACGGCGATCATGGTGACGCATGATCCGGAGGAGGCGCTTTCGGCAGGCGACCGTGTGGTTTTGATGCAGCGCGGGCGCATCGTGCAGAGCGGCACGGGTTACGAAATCCACGATCATCCCAAAACCCGTTATGCCGCCGATTTTTTCTGCGCCTTCAACAAGATCGAAGGCCGGGTGAGACAGGGCCGCGTCGAAACGCCGCTCGGCCTTCTGGGCGATGCGTCCGATCTGCCTGACGGTCTCGCCGCCATTGCCTATGTTCGCCCAAATGCGATTTCGATCATTGAGGACGGGGCCGCGAAAGAAGGAATTGCCGGCGAAATATCGAGCCGTGTCTTCCTCGGGGAGATCGAGCAGCTTGGCATAGCCGTGCCCGGACTGTCGGCCGATCTGCGTGTCAGGACGATGCAGCGCACACCCGCCCGGACGACGGCGGTGCGCTTCGGTATCGATCCCAAGGGAGTGCTGATATTTACTGCAAGTTGA	MAGRAALELKSVGKRFGDTEVLSDIDLSVERGEIICLVGRSGCGKSTLLRIVAGVETPDHGSVSLNGAAVAGPAVFVEPEKRNIGFVFQDYALFPHLTVEQNVMFGLRSLPKVEARRRAAEMIEHVHLQELAKRYPHTLSGGEQQRVALARALAPQPGLLLMDEPFSNLDRGLRDSVREETLGLLRQLGTTAIMVTHDPEEALSAGDRVVLMQRGRIVQSGTGYEIHDHPKTRYAADFFCAFNKIEGRVRQGRVETPLGLLGDASDLPDGLAAIAYVRPNAISIIEDGAAKEGIAGEISSRVFLGEIEQLGIAVPGLSADLRVRTMQRTPARTTAVRFGIDPKGVLIFTAS	PGPT0003735_2997	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003735-afuC|fbpC-K02010	NA	NA
BMS010_01825	1713	fadD_1	COG0318	Long-chain-fatty-acid--CoA ligase	ATGAGTGAACTGTCCCTGGGACACCCGGAAAACGTCAGCGCAGAGAAGCGTTGGCTGGCATCCTATCCGCCGGGCGTACCCTCCGAAATCCCCGCATCCGCCCATGCCTCCCTTGTCGAACTTCTCGAAAAGAGCTGTGCGCAATTTGCCGACCGCAAGGCCTTTTCCAGCATGGGAAAGTCCCTGACCTATCGGGAACTGGACGCTGAAACCCGCGCGGTCGCTGCCTGGCTGCAATCCAGAGGGCTGGAAAAAGGCGACCGGGTTGCCGTGATGATGCCGAATATCCTGCAAAATCCCGTCGCGGTGTACGGGATTTTGCGGGCGGGCATGATCGTGGTCAATGTCAATCCGCTCTATACCCCGCGCGAGCTGGAACATCAGCTCAAGGATTCCGGCGCAAAGGCGATCTTCGTGCTGGAAAACTTCGCCCATGTGGCGCAGCAGGCGGTGCCGAAAACCGCGGTGCGGCATGTGGTCGTCGCGGCGATGGGCGATCTCCTCGGCCTGAAGGGACATATCGTCAATCTGGTGGTTCGCAAGGTCAAGAAACTGGTGCCCGCCTACACCATTCCCGGTTCCATCAGCTTCAAGGCGATGCTGAAGGAAGGCCAGGGATTTTCGCTGAAGCCGGTCAGCCTCACGGCGCAGGACATCGCCTTCCTGCAATATACCGGCGGCACAACCGGCGTATCCAAGGGTGCGGTTCTCACCCATGCCAATCTTCTGGCCAACAAGCTTCAGATCAGCCTGTGGCTGGACGCCGCTTTCAATGGCCGAAAGGACCGCCCGGAAGTTCTCAACTTCATCTGCGCGCTGCCGCTCTGCCACATCTTCGCATTGACGGTGAATTCGCTGATGGGCATTGCGCTCGGCGGTCATAACCTGCTGATCGCCAATCCGCGCGATATTCCCGGCTTCGTGAAGGAGCTGACCCATTATCAGCCGCATGTTTTCCCTGGCATCAACACGCTTTTCAACGCGCTGATGAACAATGAGGATTTCCGCAAGCTCGATCTGTCGTCGCTTATTCTGGTTCTCGGCGGCGGCATGGCGGTGCAAAGGCCCGTCGCGGAGCGCTGGCTTTCCATCGTCGGTTGCCCGATTGCAGAAGGCTACGGCCTCTCCGAGACATCCCCGGTCGCCACCGTCAACCGCCTCGATTCCACGGAATTCAGCGGCACCATCGGCCTGCCCATCTCCTCGACGGAAATCGATATTCGCGATGAGGACGGCAACAGCCTGCCGACAGGCGAAGTCGGCGAGATCTGCATTCGCGGGCCGCAGGTCATGGCCGGCTATTGGCAGCGGCCGGATGAAACCGCAAAAGCCATGACCGCCGACGGCTTCTTCCGTTCCGGCGACATGGGTTTCATGGACGAGCGCGGTTACACCAAGATCGTTGATCGCAAGAAGGACATGATCCTCGTTTCCGGTTTCAACGTCTATCCGAACGAGGTGGAAGAAGTGGCCGCCAGCCATCCGGGCGTGCTGGAATGCGCCGCAATCGGTGTTCCGGATGAACATTCCGGCGAAACCGTCAAGCTTTTCGTGGTCAAGAAGGACCAGTCGCTCACGGAAGCGGAGCTCAAGGCCTTTTGCGCCAAGAACCTGACGAACTACAAAAGGCCGAAAATCATCGAGTTCCGCACCGAGTTGCCGAAATCGAATGTCGGCAAAATCTTGCGGCGCGAATTGCGCAATCTGAACTGA	MSELSLGHPENVSAEKRWLASYPPGVPSEIPASAHASLVELLEKSCAQFADRKAFSSMGKSLTYRELDAETRAVAAWLQSRGLEKGDRVAVMMPNILQNPVAVYGILRAGMIVVNVNPLYTPRELEHQLKDSGAKAIFVLENFAHVAQQAVPKTAVRHVVVAAMGDLLGLKGHIVNLVVRKVKKLVPAYTIPGSISFKAMLKEGQGFSLKPVSLTAQDIAFLQYTGGTTGVSKGAVLTHANLLANKLQISLWLDAAFNGRKDRPEVLNFICALPLCHIFALTVNSLMGIALGGHNLLIANPRDIPGFVKELTHYQPHVFPGINTLFNALMNNEDFRKLDLSSLILVLGGGMAVQRPVAERWLSIVGCPIAEGYGLSETSPVATVNRLDSTEFSGTIGLPISSTEIDIRDEDGNSLPTGEVGEICIRGPQVMAGYWQRPDETAKAMTADGFFRSGDMGFMDERGYTKIVDRKKDMILVSGFNVYPNEVEEVAASHPGVLECAAIGVPDEHSGETVKLFVVKKDQSLTEAELKAFCAKNLTNYKRPKIIEFRTELPKSNVGKILRRELRNLN	PGPT0008380_8246	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
BMS010_01826	1626	pgi_1	COG0166	Glucose-6-phosphate isomerase	ATGCAGGCCACCATCGAAAAACTGAAAGCAACGGCGAGCAGCACAGCCGCAACCGATCTTCGCGCCGCCTTTGCGGCCGACGACAAGAGATTCAGCCGTTTCAGCGCCAAATTCGATGACCTGCTGATGGACTATTCCAAATGCGCCGTGAACGAGGAAATCGTCACGCTTCTCGAACAGCTCGCACGCGAAGGTGGCGTCGAGGCAAAGCGCGAGGAGATGTTCTCGGGCAAGGCGATCAACTTCACCGAAGACCGCGCCGTGCTGCATACTGCGCTGCGCAATCGCTCCAACACGCCGGTTCTCGTGGAGGGCAAGGATGTGATGCCTGACGTGAACGCCGTTCTCACCGCCATGGGCAAGTTTGCCGAGGCGATCCGTTCCGGTTCGCTGAAGGGTGCGACCGGTAAGAAGATTACCGACGTCATCAATATCGGCATTGGCGGTTCCGACCTCGGCCCCGTGATGGCGACGCTGGCGCTTGCGCCTTTCCATGACGGCCCGCGTGCGCATTTCGTCTCGAACATCGATGGCGCCCATATCGCCGATACTCTGAAGCTTGTCGACCCGGAAACCTCGCTGTTCATCGTCGCGTCGAAGACCTTCACCACCATCGAGACGATGACGAATGCCGCCACTGCGCGCCGCTTCATCGCCGAGAAACTGGGTGAGGCAGCTGTCAAGCATCACTTCGCCGCCGTTTCCACCGCGCTGGACAAGGTTGCCGCCTTCGGCATCGAAAGCGACCGCATCTTCGGTTTCTGGGACTGGGTTGGCGGACGTTATTCGATCTGGTCGGCCATCGGCCTGCCGCTGATGATCGCCATCGGGCCGGATAATTTCGGCAAGTTCCTGGATGGCGCGCATGCCATGGACAGGCACTTCCGCGAAGCGCCGATCCGTGAAAACCTGCCGATGCTGCTCGGCCTCATCGGCTTTTATAACCGCAACGTGCTGAATTATCCGACCCGGGCGATCCTGCCCTATGACCAGCGTCTGTCGCGTTTCCCGGCTTATCTGCAGCAGCTCGACATGGAATCGAACGGCAAGGGCGTCACTATCGACGGCACGCCCGTCGAAGGCCAGTCCGGCCCGGTCGTCTGGGGCGAGCCCGGCACCAATGGCCAGCACGCCTTCTACCAGCTCATCCACCAGGGCACGAGCGTCATTCCGGCCGAATTCATGATCGCCGCCAACGGTTTCGAGCCCGAACTGCGCCACCAGCACCAGCTTCTCATTGCCAATTGCCTGGCGCAATCGGAAGCGCTGATGAAGGGCCGCACGCTGGCTGAGGCAAAAGCCCAGCTCACCTCCAAGGGCATGGAAGACGAACTCGCCGATTTCATCGCGCCGCATCGCGTCTTTACCGGCAACCGCCCCTCCATCACCTTCGTATACGACAAGCTGACGCCGTTCGCGCTTGGCCGTCTGATCGCGCTCTACGAGCACCGCGTTTTCGTCGAAGGCGTGCTGTTCCGCATCAACTCCTTCGACCAATGGGGCGTGGAGCTGGGCAAGGAACTGGCGACCGGCCTGCTGCCGGTCGTGGAAGGCAAGGAAAGCGCTGCCGGCCATGACAGCTCTACGCAGGGACTGGTGAAGGCGCTGGCCGGTCTGGCAGGCTGA	MQATIEKLKATASSTAATDLRAAFAADDKRFSRFSAKFDDLLMDYSKCAVNEEIVTLLEQLAREGGVEAKREEMFSGKAINFTEDRAVLHTALRNRSNTPVLVEGKDVMPDVNAVLTAMGKFAEAIRSGSLKGATGKKITDVINIGIGGSDLGPVMATLALAPFHDGPRAHFVSNIDGAHIADTLKLVDPETSLFIVASKTFTTIETMTNAATARRFIAEKLGEAAVKHHFAAVSTALDKVAAFGIESDRIFGFWDWVGGRYSIWSAIGLPLMIAIGPDNFGKFLDGAHAMDRHFREAPIRENLPMLLGLIGFYNRNVLNYPTRAILPYDQRLSRFPAYLQQLDMESNGKGVTIDGTPVEGQSGPVVWGEPGTNGQHAFYQLIHQGTSVIPAEFMIAANGFEPELRHQHQLLIANCLAQSEALMKGRTLAEAKAQLTSKGMEDELADFIAPHRVFTGNRPSITFVYDKLTPFALGRLIALYEHRVFVEGVLFRINSFDQWGVELGKELATGLLPVVEGKESAAGHDSSTQGLVKALAGLAG	PGPT0017735_3181	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0017735-pgi-K01810	NA	NA
BMS010_01827	729			hypothetical protein	ATGAAACGCGAATATCTCCGCTGGTATAGTCAAAGGCTCCATCGCGACATGGAGCTGTTAATATTCGGACATTCCGGCGCCAGGGTGCTGATGTTTCCCACCCGCGACGGGCGTTTCTTCGAATATGAGGAACTGGGTCTTGTCGGCAGTCTGGCCGACAAGCTGGAGGCGGGCCACCTTCAGCTCTATTGCATAGAGGGGCTTGCCAGAGAGACCTTCTACGCGGCCGGGCATCATCCCGCCGATCGCATTCGCCGCCATGCCGCCTTCGAAGAGTATATTCTGAACGAAGTGCTGCCGCTGATGGCAGAGAAAAACCCGAATAGCGATACGATCGTGCAGGGTTGCAGCCTGGGTGCGTTTCAGGCCGCCAGTCTCGTTTTTCGCCACCCGCATCTTTTTCGCAAGCTCGTCGCCTTTTCCGGCCGTTACGATCTGACGATGAAGGTGGAATTCTTCGGCGATCTGTTCGATGGCTATTACGACGACGACATCTATTTCCACATGCCGAGCCATTTCCTGCCGGGCCTCGCCTGCCCATGGCGGCTTGAACACCTGCGCCACATCGACATGGTTTTCACCATCGGCGATGCTGACCCGTTTCTCCACAACAACCATCATCTGAGCCGGGTTCTATCGGAGAAGCAGGTGGGGCATCAAATGCATGTCTGGGATGGCCGCGCCCACCGGGCCGGAGCGTGGCGCAAGATGGCGGCGCTTTATATTTAA	MKREYLRWYSQRLHRDMELLIFGHSGARVLMFPTRDGRFFEYEELGLVGSLADKLEAGHLQLYCIEGLARETFYAAGHHPADRIRRHAAFEEYILNEVLPLMAEKNPNSDTIVQGCSLGAFQAASLVFRHPHLFRKLVAFSGRYDLTMKVEFFGDLFDGYYDDDIYFHMPSHFLPGLACPWRLEHLRHIDMVFTIGDADPFLHNNHHLSRVLSEKQVGHQMHVWDGRAHRAGAWRKMAALYI				NA	NA	NA	NA	NA
BMS010_01828	966			hypothetical protein	ATGAGCGTTCCCAAGTCCCATCCTTTCGATTTCGACCCGACCTATGGCATGCAGCGCGAGCAGCTGCTGGCCATCACCCCGCCCGAAGCGCCGCCGGGCTTCGATGATTTCTGGAAAAAGCGCTATCGCCGCGCGCTCGCCACGGATCCCCGGCCGGTGCTGCGCAAGAGCAGGCTCAGCGATCCCCGCTGGCATGTCCTCGATATGACCTACACCTCCACCGGCGGTTTTCGCATCGGCGGGTGGCTGCTTTTGCCGCGCGAGGGACAGGTGCGTCGCGGCCTGGTAGTCGGCCATGGTTATGGCGGACGAGGGGAACCCGATTTCGACGTGCCGGTGGAAGAAACGGCCGTGCTGTTTCCCTGCTTTCGCGGGCTGTCGCTGAGCGCCTGTCCGCCGATCTCGTCCGACCCGGCGCTTCATGTTCTCTACAATATCGACAGGAAAGACGATTACATCATCGGCGGCTGCGTCGATGATCTGTGGGTTGCCGTTTCCACGCTAATCAGCCTCTATCCCTGGCTGGAAGGGCAGGTGGGTTATAGCGGCATCAGTTTCGGCGGCGGCATCGGTGCCCTGGCCATCCCTTTCGACGAGCGCATTGATCGCGGCCATCTTGTCGTGCCGACATTCGGACACCGGCCTTTCTGGCTGACGTTGCCCACCGTTGGCAGCGCGGATGCGGTTCAGACCTATCAGAAGACCCATGCCAATGTGCTTGAGACGCTTCGCCTGTTCGATGCCGCCTGCGCCGCCACCCGCATAAAGGTGCCGATGCTGGTCGCGCCCGCGCTTTTCGATCCGGCGGTCGCGCCGCCCTGCCAGTTCGCGGTGGCCAATGCGCTGCCGAAATCAAAATTTAATGAAATATTCATCCTCGACGCCGGGCATTTCGATTACCCTGACAGCGCATCGCAAGATGCGGTCCATAAGGACAAGGTCAGACGGTTTTTCAAGGTGCCATGA	MSVPKSHPFDFDPTYGMQREQLLAITPPEAPPGFDDFWKKRYRRALATDPRPVLRKSRLSDPRWHVLDMTYTSTGGFRIGGWLLLPREGQVRRGLVVGHGYGGRGEPDFDVPVEETAVLFPCFRGLSLSACPPISSDPALHVLYNIDRKDDYIIGGCVDDLWVAVSTLISLYPWLEGQVGYSGISFGGGIGALAIPFDERIDRGHLVVPTFGHRPFWLTLPTVGSADAVQTYQKTHANVLETLRLFDAACAATRIKVPMLVAPALFDPAVAPPCQFAVANALPKSKFNEIFILDAGHFDYPDSASQDAVHKDKVRRFFKVP	PGPT0011020_536	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-CEPHALOPORIN_METABOLISM,PGPT0011020-cah-K01060	NA	NA
BMS010_01829	927	scrK	COG0524	Fructokinase	ATGATCCTGTGTTGTGGTGAAGCCCTGATCGACATGCTGCCCCGGCAGACGACGCTGGGTGAGGCGGGTTTTGCCCCCTATGCAGGCGGAGCGGTCTTCAACACGGCGATTGCGCTGGGGCGTCTCGGCGTTCCATCCGCCTTCTTCACGGGCCTTTCCGATGACATGATGGGCGATATCCTGCGGGAAACCCTGCGCGCCAGCAATGTCGACTTCAGCTATTGCGCCACCCTTTCGCGGCCGACCACCATCGCCTTCGTGAAGCTGGTGGATGGCCATGCGACCTATGCCTTCTATGACGAAAACACCGCCGGGCGGATGATCACCGAAGCGGAGCTTCCGGCACTGGGCGCCGATTGCGAGGCGCTGCATTTCGGTGCGATCAGCCTCATCCCGGAGCCTTGCGGCAGCACCTATGAGGCGCTGATGACGCGCGAGCATGAAAGCCGTGTCATCTCGCTCGATCCGAATATTCGCCCCGGCTTCATCAAGGACAAGCAGTCCCACCTGGCCCGCATCCGCCGCATGGCGGCCATGTCGGATATCGTGAAATTCTCGGATGAGGACCTTGCCTGGTTCGGGCTGGAAGGCGATGAGGACACGCTTGCCCGCCACTGGCTGCACCATGGCGCGAAACTCGTCGTCGTCACCCGTGGCGCCAAGGGCGCGGTGGGGTATAGCGCCAATCTCAAGGTTGAAGTGGCCTCCGAGCGGGTGGAAGTGGTCGACACTGTCGGCGCGGGTGACACCTTCGATGCCGGCATTCTTGCCTCGCTGAAAATGCAGGGTTTGCTGACCAAGGCGCAGGTTGCCTCGCTGACGGAAGAGCAGATCAGGAAGGCTTTGGCGCTGGGCGCGAAAGCGGCCGCTGTCACCGTTTCGCGGGCGGGCGCGAATCCGCCCTTTGCGCATGAAATCGGTTTGTGA	MILCCGEALIDMLPRQTTLGEAGFAPYAGGAVFNTAIALGRLGVPSAFFTGLSDDMMGDILRETLRASNVDFSYCATLSRPTTIAFVKLVDGHATYAFYDENTAGRMITEAELPALGADCEALHFGAISLIPEPCGSTYEALMTREHESRVISLDPNIRPGFIKDKQSHLARIRRMAAMSDIVKFSDEDLAWFGLEGDEDTLARHWLHHGAKLVVVTRGAKGAVGYSANLKVEVASERVEVVDTVGAGDTFDAGILASLKMQGLLTKAQVASLTEEQIRKALALGAKAAAVTVSRAGANPPFAHEIGL	PGPT0017625_2650	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017625-scrK-K00847	NA	NA
BMS010_01830	699	pyrE_1	COG0461	Orotate phosphoribosyltransferase	ATGAACCATTTCACATTCACTGACCCCGCCGTCGTTGCGGAACTGGTTGCGAAGATGTTGTGGGAAATCAAGGCGGTCCATTTTAATTCGGAAAGCCCCTACACCTTCGCTTCGGGCATGAAGAGCCCGGTTTACATCGACATGCGCAAGCTCATCTCCTTCCCGCGCATCCGCTCGGCGGCGATGGATTTTGCGGCGGCGGCGGTGATGCGCGAGGCCGGTTTCGAGAAGTTTGACTGTGTGGCAGGTGGTGAAACGGCGGGCATTCCCTTTGCCGCTTTCCTTGCCGAGCGCCTCGGCCTGCCGATGATCTATTGCCGCAAGAAGCCGAAAGGCCATGGCCGCAACGCTCAGATCGAAGGCCATATGCCGGAGGGAGCCCGCGTTCTTGTCATCGAGGATCTGACGACGGCCGGCGGCTCGATGTTCACCTTCATCGACGCCATCCGAGCGGCGGGCGGCATTGTCGATCACGGCATCGCGCTGTTCTATTACGGCATCTTCGAAGAGGCCGAAGCGCGCTTCGCCAATGGCAATGTCAAGCTGCATTACCTGACCACCTGGCGCGATGTTCTGGCCGTTGCCCGGGCTGAAAAACTGTTCGACGAGAAGACCCTGTCGGAGGTCGAAGCCTTCCTCGATAACCCGCTGCCATGGTCGGCAAAACGCGGCGGTGTCAGCGAATTGCCGCAATCTTAA	MNHFTFTDPAVVAELVAKMLWEIKAVHFNSESPYTFASGMKSPVYIDMRKLISFPRIRSAAMDFAAAAVMREAGFEKFDCVAGGETAGIPFAAFLAERLGLPMIYCRKKPKGHGRNAQIEGHMPEGARVLVIEDLTTAGGSMFTFIDAIRAAGGIVDHGIALFYYGIFEEAEARFANGNVKLHYLTTWRDVLAVARAEKLFDEKTLSEVEAFLDNPLPWSAKRGGVSELPQS	PGPT0021200_265	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021200-pyrE-K00762	NA	NA
BMS010_01831	1038	pyrC_1	COG0418	Dihydroorotase	ATGAAGTCGCTCACCCTGCGCCGCCCTGATGACTGGCACCTGCACCTGCGTGATGGGGCAATGCTGGAAGGGGTGATCGGGGATACGAGCCGCCATTTCGCCCGTGCCATCATCATGCCGAACCTGGTGCCACCGGTTGTCACCACCGCCGATGCCCGCGCCTATCGCGAACGCATCGTCAAGGCCATTCCAGCGGGTGACCGTTTCGAGCCGCTGATGACCCTCTATCTCACCGAGGACACGCAGGCCGACGATGTGGAAGAGGGCAAAAAAAGCGGTCTCATCACGGCCGTAAAGCTCTACCCGGCCGGTGCGACCACCAATTCCCACGGCGGTGTGCGCGATTTCAACAAGGCCATGCCGGTTCTGGAGCGCATGGCGAAGATCGGCCTGCCGCTCTGCGTGCATGGTGAGGTCACGACGCCGGAAGTCGATATTTTCGACCGCGAGAAGGTGTTCATCGATACGGTTCTGGAGCCACTGCGCCAGCGCCTGCCGGAACTCAAGGTAACGATGGAGCACATCACCACCCGCGACGGCGTGGACTATATCAAGTCGTCCAAAGCCAACATCGCTGGCTCCATCACCACCCATCACCTCATCATCAACCGCAATGCCATCCTGGTCGGCGGTATCAAGCCGCATTATTATTGCCTGCCCGTCGCCAAGCGCGAAGAACACCGGCTGGCGCTCCGGGCTGCCGCGACTTCGGGCGATGCACGCTTCTTCCTCGGCACGGATTCCGCTCCGCATGTGGACCCGCTGAAGGAATGCGCCTGCGGCTGCGCCGGCATCTATACCTCCATCAACACCATGAGCTGTCTTGCCCATGTCTTCGAGGATGAAAACGCCCTCGATAAGCTGGAAGCCTTCGCTTCGCTCAACGGCCCGGCCTGGTATGGTCTTGCGCCGAACGAAGAGACGATCACGCTGGTCAAGCGCGAGGAAGCGGTGGCCTTTCCTGAAAAAATCGAGACGGGCGCCGGGCCGGTCACCGTGTTCGATCCGATGTTCCCGCTCCATTGGGATGTGAGTTGA	MKSLTLRRPDDWHLHLRDGAMLEGVIGDTSRHFARAIIMPNLVPPVVTTADARAYRERIVKAIPAGDRFEPLMTLYLTEDTQADDVEEGKKSGLITAVKLYPAGATTNSHGGVRDFNKAMPVLERMAKIGLPLCVHGEVTTPEVDIFDREKVFIDTVLEPLRQRLPELKVTMEHITTRDGVDYIKSSKANIAGSITTHHLIINRNAILVGGIKPHYYCLPVAKREEHRLALRAAATSGDARFFLGTDSAPHVDPLKECACGCAGIYTSINTMSCLAHVFEDENALDKLEAFASLNGPAWYGLAPNEETITLVKREEAVAFPEKIETGAGPVTVFDPMFPLHWDVS	PGPT0021145_7203	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021145-pyrC-K01465	NA	NA
BMS010_01832	1038		COG3938	4-hydroxyproline 2-epimerase	ATGCGTTGGAAACGCACCCTCCAGCTTCTCGATGTCCATTGCGAAGGCGAAATCGGCCGTGTCGTCACCGGCGGCGCGCCGAAAATTCCCGGTAACACGGTGGCCGAACAGCTTCACTGGATGAATACCGATCCGCAGGGTGAGGCGCTTCGTCGCTTTCTGACACTGGAGCCGCGCGGCACGCCGATGGGGTCGGTCAATCTTCTCCTGCCGCCGAAGCACCCGGATGCGCACGCCGCTTTCGTCATTCTCCAGCCGGATCAGGCGCATGCCAGCTCCGGTTCCAATTCCATCTGCGCGACGACGGCGCTGCTGGAAAGCGGCATGGTGGAAATGCAGGAGCCGGAAACCGTCATCATCCTCGAAACGGCCGCCGGTCTGGTCAAGGCAACGGCTACCTGCCACGACGGTCGTTGCGAAAAGGTCAAGCTGACCATGGTGCCGTCCTTCGTGCATGAGCTGGATGTCAGCATCGACACGCCCGAATGGGGCAGGGTGACGATGGATATTTCCTATGGCGGCATCTTTTATGCGCTCGTCGATGTCCGCCAGATCGGCCTGACGATCGAAAAGGCCAATGCGGCCAAACTGGTCTCGGCGGGCATGATCCTGAAAGATCTGGTCAACCGTGAAATGACCGTCGTTCATCCGGAAATCCCGGCCATTTCCGGTGTCGCCTATGTCATGTTCCGCGATGTGGATGCGGATGGCTCCATCCGCACCTGCACCACCATGTGGCCGGGCCGGGCGGATCGCTCGCCCTGTGGCACCGGCAATTCGGCCAATCTCGCCACGCTATATGCGCGCGGCAAGGTGAAGGTGGGAGACGAGTATAAATCCCGCTCGATCATCGGTTCGGAATTCGATGTCGGCCTTTCCGCCGTCACCGAGGTGGCCGGCCGCCCGGCCGTCATTCCCACCATTGCCGGGCGCGGCTTCACCTTCGGCCTGCATCAGGTGGGTCTCGATCCGTTTGATCCGCTGGCCGATGGTTTCGCCATGACCGATGTCTGGGGTCCGGAAGCGGGCAACATCTGA	MRWKRTLQLLDVHCEGEIGRVVTGGAPKIPGNTVAEQLHWMNTDPQGEALRRFLTLEPRGTPMGSVNLLLPPKHPDAHAAFVILQPDQAHASSGSNSICATTALLESGMVEMQEPETVIILETAAGLVKATATCHDGRCEKVKLTMVPSFVHELDVSIDTPEWGRVTMDISYGGIFYALVDVRQIGLTIEKANAAKLVSAGMILKDLVNREMTVVHPEIPAISGVAYVMFRDVDADGSIRTCTTMWPGRADRSPCGTGNSANLATLYARGKVKVGDEYKSRSIIGSEFDVGLSAVTEVAGRPAVIPTIAGRGFTFGLHQVGLDPFDPLADGFAMTDVWGPEAGNI	PGPT0014240_90	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014240-prdF-K01777	NA	NA
BMS010_01833	1323			hypothetical protein	ATGCCCATTCGCTTCGTGGCCATGATCGCCATTGTTGCCCTGCTCGCCGGCTGCGGGGGGCGTCCGATTGGGGTCATGACGCCGACGGGGCAGACCGTGGCGGGAACCACGCCGGTCAACCTTCTGGTCGCCACCACCCGCGCGCCATCGGAAAACGCCGCCGTGCTTTTTGGCGGCGAGCGTGGAACGGGTCTGAAGGTGGATGCGGTGACGGTTTCCATTCCGCCCAATGCCAACCGCAAGGTGGGGCAGGTGCAATGGCCGAAGAAACTGCCGCCGAACCCGCTGAAGGATTTCACCACGGTTGCGGTGGAGCCCATTCGCTCCGAAGCGGAGACACGAAGCTGGATCAGCAAGCATATCCAGAAAGACCGCCGCGTGCTGGTCTTCGTGCATGGTTTCAATAATCGTTACGAAGAATCCGTCTATCGCTTCGCCCAGATCGTACATGATTCCGGCACGGATGTCGTGCCGGTGGTCTTCACCTGGCCGTCGCGGGCGAGCATTTTCGATTATAATTACGACAAGGAAAGCACCAACTACTCCCGTGATGCGCTGGAAGAAGTGCTGACGCGACTCGCCAAGGACAAGTCCATCGGCGAGGTCACGGTCATGGCCCATTCCATGGGCACCTGGCTTGCGGTGGAGGCGCTGCGCCAGATGGCCATACGCAATGGCCGGGTCGATCCGAAGATCGGCAATGTCATTCTCGCCGCGCCGGATCTGGATGTGGACGTGTTCAGCCGGCAGTTCGCAAGCCTCGGCAAAACCCCGCCGAAATTCACTTTGTTCGTTTCGCAGGATGATCGCGCTCTCAGCCTGTCACGCCGCATTTCCGGGAATGTCGATCGCCTCGGCCAGATCGACCCATCCGTCGAACCCTATCGCAGCGAGCTTGAAAAGGCCGGCATCACTGTTCTGGATTTGACCAAGCTGCAATCCGGCGACCGCCTGAACCACGGAAAATTTGCCGAAAGCCCCGAGGTTGTCCGGCTTATCGGCGACCGCCTTATCGCCGGGCAGACGGTGACGGATTCCGATGTCGGTCTGGGTGAGGCACTGGGTGCCGTCAGCATCGGGGCTGCGCAAACCGTCGGAACGGCGGCCAGCGTCGTGGTCAGCGCCCCCATTGCGGTCTTCGATCCGCGCACGCGTGAAAATTACGGCAGGCAGGTGGAACGGCTCGGCCGCTCCGTGGAAAATACCGTCGGATCGGTAGGCGATACGGCGGGTTCCGTGGTGGACGATCAGGCTGTTCAGTCATCGAGAGTGAATTGCGAGGCGACCGCCAATCGAAACCGCGCAGAGTGCCGTAACCGATAG	MPIRFVAMIAIVALLAGCGGRPIGVMTPTGQTVAGTTPVNLLVATTRAPSENAAVLFGGERGTGLKVDAVTVSIPPNANRKVGQVQWPKKLPPNPLKDFTTVAVEPIRSEAETRSWISKHIQKDRRVLVFVHGFNNRYEESVYRFAQIVHDSGTDVVPVVFTWPSRASIFDYNYDKESTNYSRDALEEVLTRLAKDKSIGEVTVMAHSMGTWLAVEALRQMAIRNGRVDPKIGNVILAAPDLDVDVFSRQFASLGKTPPKFTLFVSQDDRALSLSRRISGNVDRLGQIDPSVEPYRSELEKAGITVLDLTKLQSGDRLNHGKFAESPEVVRLIGDRLIAGQTVTDSDVGLGEALGAVSIGAAQTVGTAASVVVSAPIAVFDPRTRENYGRQVERLGRSVENTVGSVGDTAGSVVDDQAVQSSRVNCEATANRNRAECRNR				NA	NA	NA	NA	NA
BMS010_01834	1497	cat1	COG0427	Succinyl-CoA:coenzyme A transferase	ATGCTTGAAAAGCGTATCCGCAACGCGTCCCTCTTGAACAGGATCGTCAGCGCCGAAGAGGCCGCCAGTCTCATTCAGGACGGCATGACGGTGGGCATGAGCGGCTTTACGCGGGCCGGCGAAGCGAAGGCGGTGCCGCTGGCGCTGGCCGAACGCGCCAAGACGAACCCCATGAAAATCACCCTGATGACCGGCGCCTCACTCGGCAACGATCTCGACAAGACCATGGTGGAGGCGGGCATGCTGGCGCGCCGCATGCCGTTCCAGTCCGATCCGGCTTTGCGCAGGGCGATCAATGACGGCAAGGTGATGTTCATCGATCAGCACCTTTCCGAAACGGTTGAGCAATTGCGCGGCGGCCAGATCCACGGGGTCGATATCGCCATTGTCGAGGCGGTGGCGATCACGGCGGAAGGCGGCATCGTGCCCACCACTTCCGTCGGCAATTCCGCAAGCTTCGCCATTCTGGCCGATAAGGTCATCGTCGAAATCAACCTCTCGCAGCCCGAGGTGCTGGAGGGGTTGCACGACATCTTCATTCCCGCCAGACGCCCGACCCGCATGCCCATTCCGGTAGTGGCGACGGATAGCCGTGTCGGCCTGCCATTCATTCCGGTGCCGCCGGAAAAGATCGCCGCCATCGTGCTGAGTGACAAGAGCGACAGTTTTTCAACGGTGCTGCCGCCGGATGACGAGACGAAGGCCATTGCCGGCCATCTCACCGAGTTCCTGCTGAACGAAGTGCGTCACGGCCGCATGACCCATGAACTCCAGCCGCTCCAGGCCGGCATCGGCACCATTGCCAATGCCGTGATGCACGGTTTCATCGATACGCCGTTTCACGATCTCAAAATGTATTCGGAGGTCCTGCAGGATTCGACTTTCGAACTGTTTGATGCGGGCAAGCTGACTTTCGCCTCCGGGTCGTCGATCACGCTGTCTTCTGCCATGAACGAGCAGGTGATGCCGCGACTGGCGGAATATAAGAGCAGGCTTATTCTGCGGCCGCAGGAGGTCAGCAACCACCCGGAAGTCATCCGCCGCCTTGGCATCATCGGCATCAACACGGCGCTGGAATTCGATATCTATGGAAACGTCAATTCCACCCATGTCGGTGGAACGCACATGATGAACGGCATCGGCGGCTCGGGGGATTTCGCCCGCAACGCCTATATGTCCATCTTCGTCACCAAATCGATCGCCAAGGGCGGGGCCATTTCAAGTGTCGTGCCGATGGTCAGCCATGTCGATCATACCGAACATGATGTCGATATTCTCGTCACCGAAACCGGGCTTGCCGATCTGCGTGGGCTGGCGCCTCGCGAGCGCGCGGCGGTCATCATCGCAAACTGCGTGCATCCTGATTATCGCGATGCGCTGACGGATTATTACCGGCGGGCGGCGGCGCGGGGTGGGCACACGCCGCATCTCATCGAAGAAGCGCTATCCTGGCATGCGGCTCTGCGCGAAAGGGGCACGATGCTGCCGCAGAAATAG	MLEKRIRNASLLNRIVSAEEAASLIQDGMTVGMSGFTRAGEAKAVPLALAERAKTNPMKITLMTGASLGNDLDKTMVEAGMLARRMPFQSDPALRRAINDGKVMFIDQHLSETVEQLRGGQIHGVDIAIVEAVAITAEGGIVPTTSVGNSASFAILADKVIVEINLSQPEVLEGLHDIFIPARRPTRMPIPVVATDSRVGLPFIPVPPEKIAAIVLSDKSDSFSTVLPPDDETKAIAGHLTEFLLNEVRHGRMTHELQPLQAGIGTIANAVMHGFIDTPFHDLKMYSEVLQDSTFELFDAGKLTFASGSSITLSSAMNEQVMPRLAEYKSRLILRPQEVSNHPEVIRRLGIIGINTALEFDIYGNVNSTHVGGTHMMNGIGGSGDFARNAYMSIFVTKSIAKGGAISSVVPMVSHVDHTEHDVDILVTETGLADLRGLAPRERAAVIIANCVHPDYRDALTDYYRRAAARGGHTPHLIEEALSWHAALRERGTMLPQK	PGPT0001545_764	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001545-aarC|cat1-K18118	NA	NA
BMS010_01835	801	cpdA_3		3',5'-cyclic adenosine monophosphate phosphodiesterase CpdA	ATGAAGATCATCCAGATCACCGACACCCATCTCGTACCCCCCGGCATTGCTGTAAACGGCGTCGACCCGGAAAAGCAGCTGCGCGCGGCGGTGGCCGATATTGTCGAAAAACATGCCGACGCCGATCTTCTTGTGATGACGGGTGATCTTTGCAATTACGGCGAGCCGGAAGCCTATGAGCTGCTTCGCGATATCCTCGCGCCCGTTTCGATCCCCGTTCAGTTGATGCTCGGCAATCACGACCGCCGCCCGGAATTCGTCGCGGCTTTTCCGGAACAGCCGCGTGACGATAACGGCTACATCCAGTCCTTCATCGATACCGAATTCGGTCGGCTGCTGTTTCTCGACAGCCACGAGGCCGATGTGATCGGCGGCATATATGGTGCGGATCGTCTGGCATGGCTGGAGAGTGCGCTGGAAAGCACGGGCGAATTGCCGGTGACGGTGTTCATTCATCACCCGCCGATGGATTGCGGCATCCGCCATTTCGAACATATCGGCATGCATGATGACGGTGCTGTCATGCGCCGTCTCGCCGCTCATCCGGCCGGTATACGTCATATCATTTTTGGCCATATCCATGTGCCGATGGCAGGCACGACCGCCGAAGGCATCGCCTACAGTTCCGGTCAGGCCTGCGCCCACCGTTTCATCACCGATATCGATGTTGTCGATCCGCTGTGGACGGGCGGTAATCCCTGTTACCGGGTCATAAGCCTCGGCGCATTCGGTCTGCGTGCCTATGATGCGGAAGTGGGGCAGGTTGTGCTCGGTCAGGCGCCTGTCTGCGAAGGCCCCTGA	MKIIQITDTHLVPPGIAVNGVDPEKQLRAAVADIVEKHADADLLVMTGDLCNYGEPEAYELLRDILAPVSIPVQLMLGNHDRRPEFVAAFPEQPRDDNGYIQSFIDTEFGRLLFLDSHEADVIGGIYGADRLAWLESALESTGELPVTVFIHHPPMDCGIRHFEHIGMHDDGAVMRRLAAHPAGIRHIIFGHIHVPMAGTTAEGIAYSSGQACAHRFITDIDVVDPLWTGGNPCYRVISLGAFGLRAYDAEVGQVVLGQAPVCEGP	PGPT0021595_2145	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|VFR_SIGNALLING_PATHWAY,PGPT0021595-cpdA-K03651	NA	NA
BMS010_01836	1293	ugpB_1	COG1653	sn-glycerol-3-phosphate-binding periplasmic protein UgpB	ATGAAACTCAACCGACGCGCTGTGATGGGCGGTCTGGCTCTCGGCATGGCTTTTGCGGGCCTCGCTCAGCCGGTTCTGGCCAATGAAATCACGCTCAACGTTCTTTACAACCTGCCGGGCTTCACCAAGTTCCATCAGCCGCTGGCCGATGAATTCATGAAGAAGAACCCGGACGTGAAGATCAACTTCCTCGCTCCGGCCGCCGGTTATAATGAAGGCCAGCAGCAGGTTCTGCGCTCCGCCGTAACGGGCAATCTGCCGGATGTTTATTTCTCGGGTTACAACCTGACGGCGGAACTCGTTCACACTCTTGCACCGCGCAACCAGATCACCGATCTCGGCCCGTTCATTCAGGCTGAAGGCGGTCAGGCCTTCCTCGACAAGAATTACAGCCCGAAGATGGCTGCACTCGGCCAGATCGACGGCAAGCAGTATGGCCTGCCGGTCAACGCGTCCTCGCCGATCATCTACATCAACTCCGACCTCGTCACCAAGGCTGGCGGCGATCCGGACAAGATGCCGACGACCTTTGCGGAGCTTATTGCTCTCGCAAAGAAGATCAAGGCTCTCGACCCCAAGTTCGCCGGCATGAGCTACGACATCAACGGTTGGCCGGATGACTGGTTATGGCAGGCGCTCATCGTCGAACAGGGCGGCAAGCTCGTTGACGAGAAGGCCAAGACCGTTGGCTTCGACAACGAGATCGGCCTCAACGCCCTGAAGATGACCCGTCAGTTCGTCACCGAAGGCGGCCAGAACCTGCTCGACTGGGATCAGTCGCGCCAGCAGTTCGGTGCAGGCCTCACCGGTTTCATCTTCTCGACGCCTGCCCATGTTCAGACGATCCAGGGTCTGGTCGGCGACCGCTTCAAGCTGAAGACCGCGACCTTCCCGCTCGACAACAAGGAAAAGGGCGGCGTTCCGACCGGCGGCAACTCGGCTGTTATCCTGACCCAGGAAAAGGCCAAGCAGGACGCCGCCTGGAAGTACCTGAAGTGGATCACCGGTCCGGAAGCGCAGAACACCATCGTTCGCATCACCGGTTACCTGCCCACCAACAAGCTGGCCACCGGCCCGGACTTCCTCGCTCCTTATTATGTCGAGAACCCGAATGTGAAGACCGCTTCGCTTCAGGCTGACCGTTCTCTGCCCTGGGCCGGTTATCCGGGTGGCGATTCCGTCCGCATCTGGCGCACCCAGCGCGATATCATCGGCACCGTCATGCGCGGTGAGGTGACGCCGGAAGCCGGTCTCAAGCAGATCGTCGAGCAGACCAACGCCCTGCTGAAGTAA	MKLNRRAVMGGLALGMAFAGLAQPVLANEITLNVLYNLPGFTKFHQPLADEFMKKNPDVKINFLAPAAGYNEGQQQVLRSAVTGNLPDVYFSGYNLTAELVHTLAPRNQITDLGPFIQAEGGQAFLDKNYSPKMAALGQIDGKQYGLPVNASSPIIYINSDLVTKAGGDPDKMPTTFAELIALAKKIKALDPKFAGMSYDINGWPDDWLWQALIVEQGGKLVDEKAKTVGFDNEIGLNALKMTRQFVTEGGQNLLDWDQSRQQFGAGLTGFIFSTPAHVQTIQGLVGDRFKLKTATFPLDNKEKGGVPTGGNSAVILTQEKAKQDAAWKYLKWITGPEAQNTIVRITGYLPTNKLATGPDFLAPYYVENPNVKTASLQADRSLPWAGYPGGDSVRIWRTQRDIIGTVMRGEVTPEAGLKQIVEQTNALLK	PGPT0016545_6711	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
BMS010_01837	822	lacG_2		Lactose transport system permease protein LacG	ATGGCCGCACTCCGCAGATATCTCCCACATCTCGTGCTTGCCCTTGGCGCTTTCGTGATGCTCCTGCCGTTCTACTGGATGGTGTTGACCTCGATCCGCTCACCGGCAGAGATTTTCGATGTCTCGCTTTGGCTGATCCCGCAGAAATTCGACGCGGCCGATAATTACGCCCGGGCGGCGGGTCAGGTGCCGATGGCGCGTTTCATGCTGAACGGCGTCATCGTCTGCGTCGGCATTCTCGTCGTGCAGATCCTGACGTCGGTTCCGGCTGCCTATGCGCTGGCGAAGCTCCGGTTCCCGGGCCGCAAGCTGCTGCTGGGCCTCGTCATTGCGGCGCTCTGCGTTCCCATTCAGGCGCTCGCCCTCCCGCTCTTTGTCGGCCTCGCCAAGACCGAGCTTCTGAATACTTACTTCGCGATGATGATGCCGTTCTTCCTTTCGGTCTTCGCCATCTTCCTGTTCAACCAGTCCTTCCGCAGCTATCCGAATGAGATCATCGAGGCTGCCCGCATGGATGGGTTCTCGGAAATGGAGATTTGCTGGGGGCTGGTCCTTCGCGGATCGCTGCCTTCGCTCGCCGCTTTCTCGATCTTTTCGCTCGTTGCCCACTGGAACGACCTTTATTGGCCGATGATCGTGGTCTCCGACACCAATCTCGCCCCGCCGCCGCTTGGCATGATGCTCTTCGCCGATGTCGAATCCGGCGCGAATTACGGTGCGCTGATGGCGGGCGCCACACTGATTACCGCGCCGATGGTGCTGTGCTTCCTCCTCGCACGGCGGCACTTCATCGCCGGTATTACCATGACCGGCGTCAAGTGA	MAALRRYLPHLVLALGAFVMLLPFYWMVLTSIRSPAEIFDVSLWLIPQKFDAADNYARAAGQVPMARFMLNGVIVCVGILVVQILTSVPAAYALAKLRFPGRKLLLGLVIAALCVPIQALALPLFVGLAKTELLNTYFAMMMPFFLSVFAIFLFNQSFRSYPNEIIEAARMDGFSEMEICWGLVLRGSLPSLAAFSIFSLVAHWNDLYWPMIVVSDTNLAPPPLGMMLFADVESGANYGALMAGATLITAPMVLCFLLARRHFIAGITMTGVK	PGPT0016540_8717	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
BMS010_01838	927	lacF_2		Lactose transport system permease protein LacF	ATGACGGCGGTCGATTTTTCCACGGCCCCGCGCGCGAAGGCTCGCCCGCGGCTGTCAAAGGCGGACCGGCGGATGATCTGGCGCGGCCTGATGTTCGCGGCCCCCGCAAGCCTGCTGCTTCTGGCGATCTATATCGTTCCGATGCTCGTTCTGGCCGGTTTTTCCGTCACCGATTACCAGCTCGGTTCGCTCTCCACCCGCTTTGTCGGCCTTGGAAACTTCGTCAAGGCGTTTCAGGATCCGGTCTTCCTGCGCTCTCTGGCCAATACCGCCATCTATGCGCTCATCGTCATTCCCTTCGGTGTGTTTCTTGCGCTCGGCGTGGCTTTGCTCGTTTATAACCGCAAGCGCAGCCGGGCTTTCTGGGAGGTGGCTTATTTCCTCCCCGTCACGGCAACCCTCGTCGCCATGGCGACCGTGTGGCAGTTCCTGCTGCATCCCTCGCTCGGTCCGGTGAATGCGGCGATCAAATGGCTGGGCTTCGAGCCGGTCGCCTTCCTCTCCAATCCCGTCCTCCTCATTCCCACCATGGCGCTGATGGGCGTCTGGCAGATCCTGGGTTTCAACATGGTGTTGTTCCTCGCGGGCCTCACCGCCATTTCGAAGGATCTGCACGAGGCGGCGCGGCTGGATGGGGCCAAGAACCCGATCGACCGCTTCCTGACCGTGACTTGGCCGATGCTCGGGCCGACGACCATGTTCGTGGTGGTCACCACCTCCATCTCGGCCTTCAAGGTGTTCGAGACTGTGGCTGTGCTCACCAAGGGCCGCTTCGGATCGGAAACTCTGCTGTTCGATCTCTATCTCGAAGGTTTCGAATATTCGAACACCGGTTATGCCGCCGCGCTGACGATTATCTTCCTCGCGATCGTGCTGGTCCTGTCTATCGGCCAGACGCTGCACATGGACCGGAAGGTGCACTACTGA	MTAVDFSTAPRAKARPRLSKADRRMIWRGLMFAAPASLLLLAIYIVPMLVLAGFSVTDYQLGSLSTRFVGLGNFVKAFQDPVFLRSLANTAIYALIVIPFGVFLALGVALLVYNRKRSRAFWEVAYFLPVTATLVAMATVWQFLLHPSLGPVNAAIKWLGFEPVAFLSNPVLLIPTMALMGVWQILGFNMVLFLAGLTAISKDLHEAARLDGAKNPIDRFLTVTWPMLGPTTMFVVVTTSISAFKVFETVAVLTKGRFGSETLLFDLYLEGFEYSNTGYAAALTIIFLAIVLVLSIGQTLHMDRKVHY	PGPT0016535_4680	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
BMS010_01839	1146	malK_1	COG3839	Maltose/maltodextrin import ATP-binding protein MalK	ATGACGCCACAATCACTTGAACTTTCGGGCATCGGCAAAGGCTTCGGGGCTGACGATGTTCTGAAAGAGATCGATCTCTCCATCCGTCCCGGAGAGTTTTTGTCTCTCGTCGGCATGTCGGGCTGCGGCAAGTCCACGCTTCTGCGTATCATTGCGGGGCTGGAAACACCGGATCGCGGTTCGGTCTCCATCGGCGATCAGGATGTGACAGAGGTTGATCCGAGCGATCGCAACCTGGCGATGGTTTTCCAGTCCTACGCCCTTTATCCGCATATGAGCGTGCGCCAGAACATTGCCACACCGCTCAGGATGCGGCGTTTGCCCTTTGCCGCTCGCCTGCCGCTGGTCGGACGGTTTGCGGCCCCGGCAGAAACGCTAAGCCAGATCGACGCCGCCGTCGAACAGGCGGCCGAGACGCTACAGATCGCGCATTTGCTGGATCGCAAGCCGGCGCAGCTTTCCGGCGGCCAGCGTCAGCGCGTGGCGCTCGCCCGGGCGCTGGTGCGTTCGCCCGCTGCCTTCCTGATGGACGAGCCGCTCTCCAACCTCGATGCGAAGCTCCGCGCCCACATGCGTGAGGAACTGGCCGGCCTGCACCGTCGGCTGGGGGCGACCTTCATCTATGTCACCCACGACCAGATCGAAGCCATGACCATGTCAGACCGTATCGCGTTGATGTCGGAAGGCCGCATCGAGCAGCTTGGCACGCCGGACGAGCTTTACCGCAAGCCCGCGACGCTGACGGTCGCGCGTTTCATCGGCACGCCATCGATCAACCTGCTGCCGGTCGAAATCGACACGCAGGGTAAAGTGACGGCCTTTGGACGCGATCTTGGCATCGAGGGTGTGGGCCGCGATGCCGGCCCGGCGACGCTCGGCCTTCGTGCCGAAGATTTGCGCCCGGGCGAAGAAGGTTTTGCCGTGCGCGTGGTGCGCAGTGAAACCCACGGCGCCGACCGCTTCGTGAGCTGCCGCCTGCTGAGCGACGAGACGGTCGCCATCACCCTGCGTCAGGGCGCCGGCGATGCCTTGGGCGCGGATATGAATGGCGTAATGAATCTCGGCTTTGCGCCGGAACGCGCGCATCTTTTCGCGGCCGATGGCCTGCGTCGCAAGGTGACGGTGCGCGAACGGGTGCCGGCATGA	MTPQSLELSGIGKGFGADDVLKEIDLSIRPGEFLSLVGMSGCGKSTLLRIIAGLETPDRGSVSIGDQDVTEVDPSDRNLAMVFQSYALYPHMSVRQNIATPLRMRRLPFAARLPLVGRFAAPAETLSQIDAAVEQAAETLQIAHLLDRKPAQLSGGQRQRVALARALVRSPAAFLMDEPLSNLDAKLRAHMREELAGLHRRLGATFIYVTHDQIEAMTMSDRIALMSEGRIEQLGTPDELYRKPATLTVARFIGTPSINLLPVEIDTQGKVTAFGRDLGIEGVGRDAGPATLGLRAEDLRPGEEGFAVRVVRSETHGADRFVSCRLLSDETVAITLRQGAGDALGADMNGVMNLGFAPERAHLFAADGLRRKVTVRERVPA	PGPT0016310_1276	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0016310-msmX|msmK|malK|sugC|ggtA|msiK-K10112	NA	NA
BMS010_01841	1476	sasA_5		Adaptive-response sensory-kinase SasA	GTGTTTTCTAAAGGCGTAGACAGCTTGGACCGCACGCAAGACGATCCGGTGCATTGCATGCCGGGATTGACCGCCGGTCTTTCGGGACGGCTGCTGCTGCTCACGGTCATCTTCGTGATGATCGCCGAAGTGCTGATCTTCGTGCCTTCCGTCGCCAATATGCGTCTTTCATGGTTGCGGGACCGTCTGAATACGGCTGCGGCCGCCGGTGCTGTCATCGACGGCCTGCAGGCCGAACTGCCGCGAAGCGTGCAGAACGACACGCTGATGGCAACCGGGGCGAAGCTTATCGCGCTGCGCAAGGACGGCACCTCACGCCTGCTCGCCGTGGCGGAAACGCCGCCGGGCGTCGATGAGCAATATGACCTTTCCGACGTTTCGCAGGTGGCTGCGGTGCGGGACGCCTTTTCCACCCTGCTGTTCGGCGGCAACCGCGTCATTCGCGTTTTCGATGTTGTCGGCGACAGCGACACGATCATCGAACTGGTGCTCGGCGAAAACAAGCTGCGGGCGGCAATGCTTGCCTATGCCCGCAACGTTTTCCTGATTTCCATCGTCCTGTCGCTGATCACCGCAGGCCTGATCTTCATCTCCATCAACCGCATCATGATCCGGCCCATACGCCGGCTGACGCTCGGCATGCAGAACTTCTCGGAGGATCCGGGCAATCCCGAGCGGATTTTCGTACCTGATGAGGGAACGGATGAACTATCGGTTGCCGGCCGCCACCTCGCCGACATGCAGACCGAACTGCAGAAGACCCTGCGCCAGCAGAAGAACCTCGTGGATCTTGGTCTCGCGGTCTCGAAGATCAATCACGACATGCGCAACATCCTGTCTTCCGCGCAGCTCATGTCGGACCGTCTGGTGGATGCAAAGGATCCGATGGTCAGGAGCTTCGCGCCGAAACTGCTGCGCACCATCGACCGCGCCGTGGCCTATACCGGCGAGGTGCTTGCCTATGGCCAGGCGACCGAAGGCGCACCGAAACGCAAGATGGTGCAATTGAGCCTCCTGGTGCGGGATGTGCGCGATATTCTGGCGCTCGATCCGGATAGCGGCATCGAGTTTCAGGACAGCGTTCCATCCGACCTCACGGTCGATGCGGATTCCGAGCAGCTTTTCCGGGTCATCCACAATCTCTGTCGCAATGCCGTTCAGGCCCTGCAATCGGATACCGCGAATGCCGGGCTTCGGCATCTCTCCATCTCGGCCCAGAGGGCCGGCAGCGTCGTCAGCATCGTCATCGACGACAATGGGCCGGGCATGCCGCGCAAGGCCAAGGAGAACCTGTTTTCCGCTTTCAGGGGTTCGGCTCGCTCCGGCGGCACGGGCCTCGGGCTGGTCATTGCCCGCGAACTCGTGCTTGCCCATGGCGGCACGATCGCGCTCGTCGAAAAGCCCGGTCCCGGCACGCAGTTCCGCATCGAGATCGCCGACCGCGCCGCCTCCGTACAGGCGGCCAGAACCGCCTGA	MFSKGVDSLDRTQDDPVHCMPGLTAGLSGRLLLLTVIFVMIAEVLIFVPSVANMRLSWLRDRLNTAAAAGAVIDGLQAELPRSVQNDTLMATGAKLIALRKDGTSRLLAVAETPPGVDEQYDLSDVSQVAAVRDAFSTLLFGGNRVIRVFDVVGDSDTIIELVLGENKLRAAMLAYARNVFLISIVLSLITAGLIFISINRIMIRPIRRLTLGMQNFSEDPGNPERIFVPDEGTDELSVAGRHLADMQTELQKTLRQQKNLVDLGLAVSKINHDMRNILSSAQLMSDRLVDAKDPMVRSFAPKLLRTIDRAVAYTGEVLAYGQATEGAPKRKMVQLSLLVRDVRDILALDPDSGIEFQDSVPSDLTVDADSEQLFRVIHNLCRNAVQALQSDTANAGLRHLSISAQRAGSVVSIVIDDNGPGMPRKAKENLFSAFRGSARSGGTGLGLVIARELVLAHGGTIALVEKPGPGTQFRIEIADRAASVQAARTA				NA	NA	NA	NA	NA
BMS010_01842	2010			hypothetical protein	ATGAGCCTCGTCGCCTGTACCATTGGCGGGTTGTCCATCTATGCGATCAACGAATTCTGGGTTCGGTCGCATCATTTCGAGGGAACCGCCGAAAGGGCTTACAAGGGCGAGGCGCTCAACCGTCTGGTAACGGCAGTCGTCATGGAGGCACGCGGTGTCTACGCGGCAGCCGATGTGGCGGCAGCCACCCCCTTTGCCGACGGTATGGTCAAAAACCTCGACGCCATGGAAAAGCTCATTGCCAGCTGGGCGCCGCTCGTGCCGGCGGAACAACAGGCGAGTTTCGACAAGCTTGTCGGCCGCTCCAAGGAATTCCGCACTTTCCGTCTGGAAACCGTGCGGCTGGCGAAGGAAAACGGGCCGCAGGCGGCCAGCCAGCAGGGCAATAACGAGGCGAACCGCGCCAACCGCAAAGCCTATCAGGCGGAGATCGACAGCGTCGTGAAAAACGACCTCGCCGAACTCGAAGTCGTGAAGGCAGGAGTAGATTCTTTCAGCACCGCGATATTCTGGGTGATCGTCGGGGTGACGGTTGCCGGTGTCGGCGCGGGAGCCGCCTTCGGTCTCTACATCGGAACGCGGCAGCTCAGCGCCCCCATCCGCAGGGTTTCGCAGGTGATGAATGCCGTGGCCCATGGAAATCTCGACGCGGACGTTCCCTATCTCGGCCGCAACGACGAAATCGGCGAAATGGCTGCGGCCGTCGAGGTCTTCAAGAAAAACGGCAGCGAAGTGCGCCGCATGAATGCGCAGGAAGCCGCCATGCGCGCCAAGAGCGACGATCTGCAGGCCGGCATGGCCATCGTCGTCGACGCTGCGGCCCAGGGCGATTTCAGCCGCCGCATCAACAAGGACTATGGCGACGACAACCTCAATCGTTTCGCCGCGACGATCAATTCGCTCCTCACCGGTGTCCATAATGGCGTATCCGAGACCAGCCGCGTCATCGAAGGCCTTGCGCGGGGCGATCTGACGGAGAGAATGGATGGCGAGTTCCGGGGCGTATTTGCTGAACTCCAGGGGAACGTCAACCAGACGCTGACCAAGCTGCGCGAGACGATGCGCGAAGTGCGCGGCAGCACGGAGGGCATCAGCGGCAACGCGAACGAATTGCGCTCGGCGGCCGACGACCTGTCGAAGCGGACCGAACAGCAGGCGGCGGCGCTGGAGGAAACCTCCGCCGCTCTGGATGAGATTACCGCCGTCGTCCGCAATTCGACCGACCGTGCGCAGGAAGCCAGCGCCATGGTTGCCGAAACGAAGCAGAAGACGGAAGAGTCCGCCAATGTCGTGCGCGACGCCGTGTCCGCCATGGATCGCATCGAGCATGCCTCGCGCGAAATCAGCCAGATCATCAACGTCATCGACGAAATCGCCTTCCAGACCAACCTGCTGGCGCTGAATGCCGGCGTGGAAGCCGCCCGTGCGGGTGAAGCGGGCAAGGGCTTTGCCGTCGTCGCTCAGGAAGTGCGAGAACTTGCGCAACGATCCGCAACGGCAGCGAAGGACATCAAGGCGCTGATCACAAAATCCGGCGAAGAGGTCGGGCGTGGCGTATCGCTGGTGCAGAGAACCGGCGGCGCACTGAGCGAGATCGAGACCCGCGTTCTGGCAATCAACGAGCACATCCATTCGATTGCCACGGCCGCCAGGGAGCAGTCCACCGGTCTGCATGAGGTGAATACCGCCATCAACCAGATGGACCAGGTAACGCAGCGCAACGCAGCAATGGTGGAGGAAACCTCGGCTGCAACCCATAAGCTGAGCAGCGAGGCCGACCATCTTGTGACGCTCGTGGCGCGCTTCAATGTCGGCGCGGAGAATGTGCAGCGCAGCCCCCGCATCGAGCAGCCCGCGAGGCCGATGACGGTTTCCGCCGGACCGGTGGCAGTGTCTGGCAGGACGCCGGCGGTGGCGTCTCCGGCCCGCAAATTGATGAACAGCGTCAGCCGCGCGCTCAATGCCCAGCCTGCGGCAGCACCCGCACATGGCGACTGGCAGGAGTTCTAG	MSLVACTIGGLSIYAINEFWVRSHHFEGTAERAYKGEALNRLVTAVVMEARGVYAAADVAAATPFADGMVKNLDAMEKLIASWAPLVPAEQQASFDKLVGRSKEFRTFRLETVRLAKENGPQAASQQGNNEANRANRKAYQAEIDSVVKNDLAELEVVKAGVDSFSTAIFWVIVGVTVAGVGAGAAFGLYIGTRQLSAPIRRVSQVMNAVAHGNLDADVPYLGRNDEIGEMAAAVEVFKKNGSEVRRMNAQEAAMRAKSDDLQAGMAIVVDAAAQGDFSRRINKDYGDDNLNRFAATINSLLTGVHNGVSETSRVIEGLARGDLTERMDGEFRGVFAELQGNVNQTLTKLRETMREVRGSTEGISGNANELRSAADDLSKRTEQQAAALEETSAALDEITAVVRNSTDRAQEASAMVAETKQKTEESANVVRDAVSAMDRIEHASREISQIINVIDEIAFQTNLLALNAGVEAARAGEAGKGFAVVAQEVRELAQRSATAAKDIKALITKSGEEVGRGVSLVQRTGGALSEIETRVLAINEHIHSIATAAREQSTGLHEVNTAINQMDQVTQRNAAMVEETSAATHKLSSEADHLVTLVARFNVGAENVQRSPRIEQPARPMTVSAGPVAVSGRTPAVASPARKLMNSVSRALNAQPAAAPAHGDWQEF	PGPT0015710_4915	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_01843	195			hypothetical protein	ATGCGCCGCCGTCTCAAGGAAGCCGTCAGGCTTTCTGCCGGATTCGCAATGAAGCCCGGTCATGACTATGTGATTGTCGCCCGCAGGGACGTGCTCGATACGGCCTTCCCGAAACTTCAGTCTCTCCTTAACGAGCGAATTGAAGGAACGGCGAAACCGAAACGGTCCCAGGAGACCCGCTCCAGGAAAGAATGA	MRRRLKEAVRLSAGFAMKPGHDYVIVARRDVLDTAFPKLQSLLNERIEGTAKPKRSQETRSRKE				NA	NA	NA	NA	NA
BMS010_01844	1803	yidC_1		Membrane protein insertase YidC	ATGGAAAAGAACCGTAATTACTTCATCGCGATAGCCCTTTCGGTTGTCATCGTCCTCGCCTGGCAATTCCTTTACATGAATCCGCGTATCGAGCAGCAGCGCCGCGCCGAAGAGGCCCGCCAGGCGCAGCAGCAGACGACGCAGCAACAGCAGCCGGCGCCGGGCGCCGCACCAGGTGCTGCCGTTGAAGGCGCACCGCCCGCCTCCTCACCGCAGACTGCCGCCACGGCGACCCGCGAAGAGTCGATTGCAAGAACCCAGCGCGTGGCCATCGAGACCAACGCCATCGCCGGCTCGATCAACCTTACCGGCGCCCGCTTCGATGACATCCGGCTCAAGGACTACCATGAGACCGTCGATGACTCGAGCCCGATCATCACGCTGTTCTCGCCCTCCGACACCAAGGACGGTTACTTCACCGAACTCGGTTACGTTGCAGCACAGGAAGTCGGCGGCGTTCCCGGCCCGACCACTGTCTGGACGCTCGCAAGCGGCGAAAAGCTGACGGAAACCACCCCGATCACCCTCACCTACACCAATTCCAAGGGTGTGATTTTCTCCCGTACGGTTTCGATCGACGAGCATTACATGATCTCGGTCGCCGACAAGGTGGAGAACCCCGGACAGGCGGCGATCTCCTTCGCCACCTATGGCCGCGTGACGCGCAACAACAAACCCGCAGTTCCTCCGGTCTTCGTCATCCATGAAGGCTTTCTCGGCGTTTCGGGCAAAGACGGCAGCCTGACGGAAGAAAAATACAAGGACGTCGAAGAAGCACCGGTAACGGTTGCCAAGGCGACCGGCGGCTGGCTCGGCATCACCGACAAATATTGGGCCGCGGCCATCGTTCCGCCGCAGACGACGCCGTTCGAGACCCGTTATTCGCACATCACCGGCAATCAGCCGAGCTATCAGGCCGATTTCAAGAGCGACCCGCTGACGGTCGAGCCCGGCCAGTCGATCGAGCTGAAGAGCCTCGTTTTCGCTGGCGCCAAGGAAGTGCCGCTGGTCGACCGTTACGAGACGACCTACGCCATTCCGAAGTTCGACCTTCTGATCGACTGGGGCTGGTTCTACTTCATCACCAAGCCGATGTTCAAACTGATGGATTTCTTCTTCCGTTATTTTGGTAATTTCGGCGTGGCGATCCTGCTCACCACCATCGTCGTCAAGGCGCTCTTCTTCCCGCTCGCCAGCAAGCAATATGCTTCCATGGCGAACATGAAGCGCGTGCAGCCGAAGATGGAAGAGCTGAAGGCCAAGCATGGCGATGACCGCATGGCCATGCAGCAGGCGATGATGCAGCTCTACAAGGAAGAGAAGATCAATCCTGTTGCCGGCTGCTGGCCGATGCTTTTGCAGATCCCGGTCTTCTTCGCGCTCTACAAGGTCATCTACGTCACCATCGAAATGCGGCATGCGCCGTTCTTCGGCTGGATTCACGACCTTTCCGCGCCGGATCCGACGTCGCTGTTCAACCTCTTCGGCCTTCTGCCCTATGATGTGCCGCACTTCCTGATGATCGGTGTCTGGCCGCTTGTCATGGGCATTACCATGTTCCTGCAGATGCGCATGAACCCGACGCCGCCCGATCCGACGCAGGCGATGATCTTCAACTGGATGCCGCTGATCTTCACCTTCATGCTGGCCTCCTTCCCGGCCGGTCTGGTCATCTACTGGGCATGGAACAATACGCTCTCCATCACCCAGCAGGCCGTCATCATGAAGCGCCAGGGCGCCAAGATCGAGCTGTTCGATAACATCAAGGGGCTGTTCAAGCGAAAGCCGGTGCAATCGAAATGA	MEKNRNYFIAIALSVVIVLAWQFLYMNPRIEQQRRAEEARQAQQQTTQQQQPAPGAAPGAAVEGAPPASSPQTAATATREESIARTQRVAIETNAIAGSINLTGARFDDIRLKDYHETVDDSSPIITLFSPSDTKDGYFTELGYVAAQEVGGVPGPTTVWTLASGEKLTETTPITLTYTNSKGVIFSRTVSIDEHYMISVADKVENPGQAAISFATYGRVTRNNKPAVPPVFVIHEGFLGVSGKDGSLTEEKYKDVEEAPVTVAKATGGWLGITDKYWAAAIVPPQTTPFETRYSHITGNQPSYQADFKSDPLTVEPGQSIELKSLVFAGAKEVPLVDRYETTYAIPKFDLLIDWGWFYFITKPMFKLMDFFFRYFGNFGVAILLTTIVVKALFFPLASKQYASMANMKRVQPKMEELKAKHGDDRMAMQQAMMQLYKEEKINPVAGCWPMLLQIPVFFALYKVIYVTIEMRHAPFFGWIHDLSAPDPTSLFNLFGLLPYDVPHFLMIGVWPLVMGITMFLQMRMNPTPPDPTQAMIFNWMPLIFTFMLASFPAGLVIYWAWNNTLSITQQAVIMKRQGAKIELFDNIKGLFKRKPVQSK	PGPT0024530_851	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0024530-yidC|spoIIIJ|oxaA|ccfA-K03217	NA	NA
BMS010_01845	654	engB_1	COG0218	putative GTP-binding protein EngB	ATGAGTGAGACCGGCACGGCAACCGAAAAGCCCCTGTTCGGGCGACCCTGGATTTTCATTCGCGGCGTTCCCGCAATGAAATTCCTGCCGCCCGAAGGCCCGCCGGAGATTGCCTTCGCCGGTCGTTCGAATGTCGGCAAGTCCTCGCTCATTAATGCGCTGGTGGGCCACAAAGGGCTTGCCCGCACGTCCAATACGCCCGGACGCACGCAGGAACTGAACTATTTCGTTCCGGATGGTTATTCCGGCGAAGCTGGCGATCTGCCGCCGATGGCGCTGGTCGACATGCCCGGTTACGGCTATGCGCAAGCCCCGAAGGATCAGGTCGATGCCTGGACGAAGCTCGTCTTCGATTATCTGCGCGGCCGTGCCACGCTGAAGCGCGTTTATGTGCTGATCGATTCCCGCCACGGCGTGAAAAAGAACGACGAGGAGGTTCTGACCCTGCTCGACAAGGCGGCCGTTTCCTACCAGATCGTGCTGACGAAGACGGACAAGATCAAGGATGCCGGCGTTCCGCGTCTGATCGGCGAAACGCTGGAGAAAATCCGCAAGCGTCCCGCCGCCTATCCGGAAGTTCTCGCCACATCCTCGGAAAAATCATTCGGGCTGGATAGCCTGCGGGCCGAGATCGTCAGAACGATCTCTCTTTGA	MSETGTATEKPLFGRPWIFIRGVPAMKFLPPEGPPEIAFAGRSNVGKSSLINALVGHKGLARTSNTPGRTQELNYFVPDGYSGEAGDLPPMALVDMPGYGYAQAPKDQVDAWTKLVFDYLRGRATLKRVYVLIDSRHGVKKNDEEVLTLLDKAAVSYQIVLTKTDKIKDAGVPRLIGETLEKIRKRPAAYPEVLATSSEKSFGLDSLRAEIVRTISL				NA	NA	NA	NA	NA
BMS010_01846	378			hypothetical protein	ATGACGGCACCCGATAGAGACAAGCAAAGCGGTTTGCGGGATGAAGTCCTCGCGGGCGAATATGTGCTGGGTGCCCTGCCGCCGGAAAGCATGGCGCAGCTTGCCAAGCGCGTCAAACGCGACCGCCAGTTCGCCGCCATGGTCAGGCGCTGGCGGGACAATCTGGCGGAAACCGAACATCGCGAAAACGCGACCGTCGCCGCGCTGCTGGAACGGGAGCCAAGCCGCTCCGGCCTGCCATTCAGGGGCCAGCCGTTACGGGGTGGCAGCATGTTCGCAGCCATGCTTTCGGAGGTCTGGCATTCCGTGCGCTTCTGGCGCCTTCTGGCGTTGACGGCGATGCTCTGGACCGCCGTTCTGCTTTTCACCATCGCCTGA	MTAPDRDKQSGLRDEVLAGEYVLGALPPESMAQLAKRVKRDRQFAAMVRRWRDNLAETEHRENATVAALLEREPSRSGLPFRGQPLRGGSMFAAMLSEVWHSVRFWRLLALTAMLWTAVLLFTIA				NA	NA	NA	NA	NA
BMS010_01847	885	argB_1	COG0548	Acetylglutamate kinase	ATGACGTCTTCCGAAAGCGAAACTCAGGCGCGGCTGCTCGCACAGGCTCTGCCTTTCATGCAGAAATACGAGAACAAGACTATCGTGGTGAAATATGGCGGCCACGCCATGGGGGATTCCACGCTCGGCAAGGCTTTCGCGGAAGACATCGCCCTTTTGAAGCAATCGGGCATCAACCCCATCGTCGTGCATGGCGGCGGCCCGCAGATCGGCGCGATGCTGACCAAGATGGGCATCGAATCGAAATTCGAGGGCGGCCTGCGCGTCACCGACGCCAAGACGGTCGAGATCGTCGAAATGGTTCTGGCCGGCTCGATCAACAAGGAAATCGTCGCCCTCATCAACCAGACGGGCGAATGGGCCATCGGCCTGTGCGGCAAGGACGGCAACATGGTCTTTGCCGAAAAGGCGAAAAAGACCGTCATCGATCCCGACAGCAATATCGAACGTGTGCTCGATCTCGGCTTTGTCGGCGAAGTCACGGAAGTCGACCGCACCCTGCTCGACCTGCTCGCCAAGTCGGAAATGATCCCGGTCATCGCCCCGGTCGCGCCAGGCCGCGATGGTGCCACCTACAATATCAATGCCGATACCTTCGCCGGCGCGATTGCAGGTGCGCTTCACGCCTCGCGTTTGCTGTTTCTCACCGACGTTCCAGGCGTTCTCGACAAGAACAAGGAACTCATCAAGGAACTCACCGTCTCGCAGGCGCGTGCGCTCATCAAGGACGGCACGATTTCCGGCGGTATGATCCCGAAGGTCGAGACTTGCATCGACGCCATCAAGGCCGGTGTTCAGGGTGTGGTGATCCTCAACGGCAAGACGCCGCATTCCGTCCTTCTGGAAATCTTCACGGAAGGCGCCGGCACGCTCATCGTGCCCTGA	MTSSESETQARLLAQALPFMQKYENKTIVVKYGGHAMGDSTLGKAFAEDIALLKQSGINPIVVHGGGPQIGAMLTKMGIESKFEGGLRVTDAKTVEIVEMVLAGSINKEIVALINQTGEWAIGLCGKDGNMVFAEKAKKTVIDPDSNIERVLDLGFVGEVTEVDRTLLDLLAKSEMIPVIAPVAPGRDGATYNINADTFAGAIAGALHASRLLFLTDVPGVLDKNKELIKELTVSQARALIKDGTISGGMIPKVETCIDAIKAGVQGVVILNGKTPHSVLLEIFTEGAGTLIVP	PGPT0014249_2202	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014249-argB-K00930	NA	NA
BMS010_01848	918			hypothetical protein	ATGGAACTCTGGATAGGCATCACTTTCGCAAGCGCGTTCTTGCAGAACCTGCGCTCGACCCTGCAAAAGCACCTCAAGGGCATGATGGGCACCACGGGCGCGACCTTCGTGCGCTTCGTTTTCGGCATGCCTTTCGCTCTCGTCTACCTTGCTTTTCTGCTTTTCGGGCTCGGCCGCCCTCTGCCGGTGCCGAACATGTCCTTCGCCGTGTGGGCGACGGTCGGCGCCATGGCGCAGATTGCCGCCACCTTCCTGCTGGTGCACCTGTTCTCGTTTCGCAACTTCGCGGTTGGAACGGCCTATTCCCGCACCGAGCCGGCGCAGGCGGCGCTGTTTGCGCTTATTTTCATCGGGGAAAGCGTCAATGGCGGCACATTCGCGGCCATCGCCATCTCGGTCGCAGGCGTCATGCTTATTTCGGTGGGGCGCACGGAAGTCACGCCCGCTTCCTTCTTCACGTCGATGTTCAGCCGGACAGCGGGTATCGGCCTTGCCTCGGGAGCTTTCTTCGGCCTGTCATCGGTTGCCTACCGGTCGGCGTCGCTCGCGCTTGCACCGAGCCTTCCCGCTCCGGACGCGATGATACAGGCGGGCTTTACCCTCGTTGTCGTCATCGTCATGCAGACGGTTTCGATGTTCCTGTGGATCGTCTGGCGCGAGCGTGAGGAGTTGCGGCGCATCGCGAAGGTGTGGAAACCGTCGCTTGCGGTCGGTTTCGTGGGCGCTACGGCCTCGTTCGGCTGGTTCACGGCGATGACCCTGCAGCAGGCCGCCGTGGTGAAGGCATTGGCGCAGGTGGAGATGCTTTTCGCCTTCGCCTCGACCGTGCTTTTCTTCAAGGAGAAGATCAACCGGCTCGAACTGTCCGGCTGCCTGCTGATTGTCGTGGGCGTGCTGTCACTTTTGGCATTCGGCTGA	MELWIGITFASAFLQNLRSTLQKHLKGMMGTTGATFVRFVFGMPFALVYLAFLLFGLGRPLPVPNMSFAVWATVGAMAQIAATFLLVHLFSFRNFAVGTAYSRTEPAQAALFALIFIGESVNGGTFAAIAISVAGVMLISVGRTEVTPASFFTSMFSRTAGIGLASGAFFGLSSVAYRSASLALAPSLPAPDAMIQAGFTLVVVIVMQTVSMFLWIVWREREELRRIAKVWKPSLAVGFVGATASFGWFTAMTLQQAAVVKALAQVEMLFAFASTVLFFKEKINRLELSGCLLIVVGVLSLLAFG				NA	NA	NA	NA	NA
BMS010_01849	714			hypothetical protein	ATGGACACAAAGCCGAAAAACCTGCCCGAAGCCGCCGATTTCGACCATGTGAGCGAATGGGTCTTCGATCTCGACAACACGCTCTATCCGCATCACATCAATCTGTTTTCGCAGATCGACCGTAACATGACGGCCTATGTGGCGGAGCTTTTGAAGCTCGATCCCGACGAGGCCCGGGCGCTGCAGAAGCGCTATTATCACGACCACGGCACGACGCTTCAGGGCCTGATGATCCATTACGGCATCAGCCCTGACGAGTTTCTGGAACGCGCCCATGCCATCGATTATTCGGCGCTGAAGCCGCATCCGGAACTCGGCGAGGCGATCAAGGCTTTGCCGGGCCGCAAATTCATCCTTACCAATGGCAACGTCAAACATGCGCAGGCGGCGGCCGGTGCGCTCGGCATTCTCGATCATTTCGAGGATATTTTCGATATCGTTGCCGCAGGCTATCTGCCGAAACCGGCCAGCGCGACCTATGAGAAGTTCGCGGCGCTTGCAAAACTCGACACGCAAAAAGCCGCCATGTTCGAGGATTTGCCGCGCAATCTCGCGGCGCCCAAGGCGCTCGGCATGAAGACCGTTCTGCTCGTCCCCGCCAATCTCGAGGGCATCATCATGGAACGCTGGGAAATCCCCGCCGCCACGGATGCGCATATCGACTACATCACCGACGACCTGACCGGCTTCCTGACAAAAGCCGTTGCAGGCTGA	MDTKPKNLPEAADFDHVSEWVFDLDNTLYPHHINLFSQIDRNMTAYVAELLKLDPDEARALQKRYYHDHGTTLQGLMIHYGISPDEFLERAHAIDYSALKPHPELGEAIKALPGRKFILTNGNVKHAQAAAGALGILDHFEDIFDIVAAGYLPKPASATYEKFAALAKLDTQKAAMFEDLPRNLAAPKALGMKTVLLVPANLEGIIMERWEIPAATDAHIDYITDDLTGFLTKAVAG				NA	NA	NA	NA	NA
BMS010_01850	612			hypothetical protein	ATGACCACACGAAAAATCGCCCTGTCTGCTCTTGGCGCAGCCCTTTTGATCGGCACGGCCGCGACGGCAAGCTTTGCCGCTCCGCCCGCTCCGGGCAAAGGCCATGGCGAGCGCATGCCGATCCGCCAGGAAGCGGCCTTCGTTCACCTGCTGAAGGTGGCCGACAGCAATAAGGACGGCAAGATTTCCAAGGAGGAATTCGCCGCACGTCAGGACGCGCTCTTCACCGAGATCGACAAGGACAAGGACGGCTCGATCACGCCGAAGGAAATGCGTGAGTATCGTCAGGCGAAGATGGAAGCTTTCCGCGCCGCCAATCCGCGCCCCGAGCGTGAAGACGCCAAAGCCGAAGACGGCAAGGGGCCCGAGGGCAAGCGCGCCGAAAGACATGCCGAGCGCGAACATGGCGGCCGTTTCGGCCATAAGGGCTGGGGCAAGCATGGCGGCAAGGGCGCAGGTTTCGCGCTGATCCGCTGGGCCGATACCGACGAGAACGGTCAGGTCAGCAAGGCCGAATTCACCGCCGCCGGCGAAAAGATGTTCGAACGGCTGGACAAGAACAAGGACGGCGTCATCTCCATCGACGACATGCCGGACCGCCCGTTCCTTTAA	MTTRKIALSALGAALLIGTAATASFAAPPAPGKGHGERMPIRQEAAFVHLLKVADSNKDGKISKEEFAARQDALFTEIDKDKDGSITPKEMREYRQAKMEAFRAANPRPEREDAKAEDGKGPEGKRAERHAEREHGGRFGHKGWGKHGGKGAGFALIRWADTDENGQVSKAEFTAAGEKMFERLDKNKDGVISIDDMPDRPFL				NA	NA	NA	NA	NA
BMS010_01851	258			hypothetical protein	ATGCTGTTGAAAGAAGCGCATGCGCGTCTCACCCAATCCCAGCTCGCCCATATCGGCGAAGGAGAAGTGGGATATATCCGCAAGATCCGCGCGGAAGACGTCAGCCGCTGTTTCCCGGAAGCGCCCGATCTCGATCCGCAATTGGACCTTTGGGCGCTGTTCGGTGCAGATGGTACGCCGATCCTCCTGACGGACAACCGGTCCAGTACGTTTTTCAAGGCTGCCGAAGACGATCTCCAGACCGTCAGCCTGCATTGA	MLLKEAHARLTQSQLAHIGEGEVGYIRKIRAEDVSRCFPEAPDLDPQLDLWALFGADGTPILLTDNRSSTFFKAAEDDLQTVSLH				NA	NA	NA	NA	NA
BMS010_01852	426	ibpA_2	COG0071	Small heat shock protein IbpA	ATGAGCCGCATGACGCCATTCACCCACCCGCTTTTGCTGGGTTTTGATGCCATGGAAAAAACGCTGGAGCGCATGGCGAAGGCTAATGACGGCTATCCTCCCTATAATATCGAGCGCCTGCCGGGTAGCGGCGATGTGCCGGAACGCCTGCGCATCACCATCGCGGTTGCCGGTTTTTCGCAGGACGATCTGGATGTGACGACGGCCGATAACCAGCTCGTCATTCGCGGACGCCAGCAGGAACAGGAGAAGCGCGATTTTCTCTATCGCGGCATCGCGGCGCGCCAGTTCCAGCGGGTTTTCGTGCTTGCCGATGGCATGCAGGTCAGGGAAGCGCGCCTGCGCAACGGCCTTCTTTCCATCGATCTGGTCCGGCCGGAAATTTCAAACGTGGTGAAGAAAATTAATATTTCCGTCTCAGAGTAG	MSRMTPFTHPLLLGFDAMEKTLERMAKANDGYPPYNIERLPGSGDVPERLRITIAVAGFSQDDLDVTTADNQLVIRGRQQEQEKRDFLYRGIAARQFQRVFVLADGMQVREARLRNGLLSIDLVRPEISNVVKKINISVSE	PGPT0014641_1330	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014641-ibpA-K04080	NA	NA
BMS010_01853	945	rihA_1	COG1957	Pyrimidine-specific ribonucleoside hydrolase RihA	ATGGCAGAACGCAGAAAAATCATTATCGACACCGATCCGGGCCAGGACGATGCGGCGGCAATCATGCTCGCCTTCGCAAGCCCGGAGGAAATCGACATTCTCGGATTGTGCGCCGTCGCCGGCAACGTTCCGCTGAAGCTGACCAGCCGCAACATCCGCATCATAAGTGAATTGTGCGGCCGCACCGATATTCCCGTCTATGAGGGCGCCGAGAAGCCACTGGTGCGCAAGCCCATCACCGCCGAGCACGTTCACGGCAGCACCGGCCTCGATGGCCCGGTTCTCGATGAGCCGACCATGGAAGCGCAAAAGCAGCACGCGGTCGATTTCATCATCGAAACGCTGATGCGGGAACCCGCCGGCACCGTAACGCTCTGCACGCTCGGCGCGCTGACCAACGTGGCGCTGGCGCTCCTGAAGGCGCCGGAAATCGCCGACCGCGTCAAGGAACTGGTGATGATGGGCGGCGGCTTCTTCGAGGGCGGCAACATCACCCCGGCGGCGGAATTCAACATCTATGTCGACCCGCAGGCCGCCGATATCGTCTTCCGCTCCGGCATGCCGATCGTCATGATGCCGCTCGATGTCACCCATCAATTGCTGACAACCAAGGTTCGGGTCAACCGCATTCGCGACATTGGCACACGGCCGGCCATCGCCATGGCGGAAATGCTGGAATTCTTCGAGCGTTTCGACATCGAAAAATACGGCTCGGATGGCGGCCCACTGCATGATCCGACTGTCATTGCCTATCTCGTCAAACCCGAACTGTTTCAGGGTCGCGAGTGCAATGTCGAAATCGAGGTCCACTCCGAACTCACCATGGGCATGACCGTGGTGGACTGGTGGAAGGTTACCGAACGGCCCGCCAATGCCCGCGTGATGCGCAATGTGGATGCCGACGGCTTCTTCGAATTGCTGACGGAACGTTTCGCCCGTCTCTGA	MAERRKIIIDTDPGQDDAAAIMLAFASPEEIDILGLCAVAGNVPLKLTSRNIRIISELCGRTDIPVYEGAEKPLVRKPITAEHVHGSTGLDGPVLDEPTMEAQKQHAVDFIIETLMREPAGTVTLCTLGALTNVALALLKAPEIADRVKELVMMGGGFFEGGNITPAAEFNIYVDPQAADIVFRSGMPIVMMPLDVTHQLLTTKVRVNRIRDIGTRPAIAMAEMLEFFERFDIEKYGSDGGPLHDPTVIAYLVKPELFQGRECNVEIEVHSELTMGMTVVDWWKVTERPANARVMRNVDADGFFELLTERFARL	PGPT0013465_1719	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013465-iunH-K01239	NA	NA
BMS010_01854	2334			hypothetical protein	ATGTTCAATTTCCAAGTGAAGTCGCTTGCGACCAAGCTGATCCTCGTAACCGGCTGCGCCATCACCACGGTTCTCGTTGCATCGAATTCCTTCCTTATTTCCCAGACGAGTGAGCGCGTGCACGCGCTGACCATGGATCAGGCCAATACCGAAGCGCGCGCCATCGCCAACGTCATCGCCGCCGATGTCGGTGAACTCGGCAGCGCCGCGCGCTCCATGGCCGGCGTTATCGGCCGTGCGCATCAGGCAAAATCGATGGATCGCCCCGGCATCGTCAACATCCTCAAGGCCAATGTCGAGCAGAATGCCTTTGCTTTCGGAAGCTGGTTCTGCGAGCAGCTCGGTCTTTTTGACGGGCAGAGCAAGGAGATTGCGGGCAGGCTCGATCTCGGCACCAATGAAAACGGTGCGTTTGCGCCCTATTGGTCGAAGACCCAGAAGGGCGACATCCAGTTCTCGACCTTCAAGAATGATTATGCGGCGGAATGGTATGCGCTCGCTTCCAAATCCGGTAAGGGCGCCATTACCCAGCCCTATCTCGCAGAGGGCACGGAAGTACCCACAACCATGACCTCGCTTGCCTATCCGGTCATGTCGGACGGCAAGATGATCGGCGTGGCGGGTGTCGATATTTCGCTGGCCTCGCTGTCGCAGAAGCTGCAGGCGCTGCACCCTTTTGAGACCGGCCGCGTAACGCTCGTTTCGCAGGGTGGCCTGTGGCTGGTGCCGCCGACGCCCGCGCAGAACATGAAAGCCTATGACGGAGACGGTGCAAGCACCGTTCAGGCGGCGATCACGTCCGGCAAGCAGGGCCTCATCGAAAATCTCGGCCTCGATACGGACGCGCCCTATAATCGTCTCGTTTATCCCTTCGCCGTTCCGGGTCTCAACGCGACCTGGGTGGTGCTGGTGGATATTCCCCATCAGGCCCTGAACGCACCGGTTCAGGAACAGACCTACATGATGATCATCGGCGCGATCGTCATTCTCGCCGCCGTCATCACCGCGCTTTATTTCGCCGTGCGCCATTTCGTCCGCAATCCGCTTGCCTCCCTGGTGTCCGACGTCAGGACGCTGAGCGACGGTCGCTACGATGTGCCCGTTTCCGGACAGGAGCGCCGGGATGAGACGGGTGCCGTGGCTACTGCGCTTGAAGGTTTCCGCGCGAAGCTTGCCGGCATCCGCGAGATGGAGGCCGAAGCCGAGGCCCAGCGTAGTCACGCGGAAACGGCGCGCCAGCGCTCGGAATCCGAGCGTACTGAAAACAGCCGGATGCAGCAGCACATTGTCGGCGTGCTGGGTGCTGGTCTCAATGCGCTTTCGCAGGGCAATCTCACCTACCGTATCGAGGACGAGTTCCCCGGCGAATATGCGAAGCTGCGCGAAGACTTCAACTCGGCGCTTGCGAGCCTCGAGGAAACCGTTTCCACCGTCAACGCAACCGTCGTCAGCATCGGTAACGGCACGGGCGAGATCACTCGCGCCGCCAGCGATCTTTCGCACCGCACGGAACAGCAGGCCGCAAGCCTGGAAGAAACCGCCGCCGCCCTCAATGAGCTGACGGCGCAGGTCAATTCCAGCGCGGAAAACGCCGCAGAGGCGGCCGGAGCCGTCAGCCATGCCTGCGACGACGCAGGCAAGTCGGGTGAGGTCGTGCAGCAGGCCGTAAACTCCATGGAAGGCATCGCGCAATCCTCGGCCGAAATCTCGCGCATCATCGGGGTTATCGATGAGATCGCTTTCCAGACCAACCTCCTGGCGCTGAATGCGGGCGTCGAGGCAGCCCGCGCCGGTGATGCCGGCAAGGGCTTTGCCGTCGTCGCACAGGAAGTGCGCGAACTGGCGCAGCGGTCCGCAACCGCCGCCAAGGAGATCAAGGGTCTCATCAACACCTCGGCCACCCAGGTGAACGAGGGCGTCCAGCTCGTCGGCAAGGCCGGTGAGACGATGAAAAAAATCGCCGATCAGGTTCTGCAGATCAACCAGTTGATACGGCAGATTTCCGCTTCAGCCAGCGAACAGGCGGTAGGCCTGAAGGAGATCAACTCCGCCGTCACGCAGATGGATCAGGTCACCCAGCAGAATGCGGCGATGGTGGAAGAAACTACGGCGGCCAGCGTGACGCTGAACAGCGAGGCAGAAACGCTGAAGTCGCTCGTTGCCGGTTTCTCCGTTTCCGGCGGCCATTCCAGCCAGCAACTGCGCGCCACGGCGGCGGCAATGCGCGCACCCGTCGCTCCGGCGCAGGCGTCGGCCCGCCCGACCGCGCCCCGCGCCCGTCCGAGAACCAGCGGCGCAAACGCTTTGGCGCAGGATGACTGGACGGAATTCTGA	MFNFQVKSLATKLILVTGCAITTVLVASNSFLISQTSERVHALTMDQANTEARAIANVIAADVGELGSAARSMAGVIGRAHQAKSMDRPGIVNILKANVEQNAFAFGSWFCEQLGLFDGQSKEIAGRLDLGTNENGAFAPYWSKTQKGDIQFSTFKNDYAAEWYALASKSGKGAITQPYLAEGTEVPTTMTSLAYPVMSDGKMIGVAGVDISLASLSQKLQALHPFETGRVTLVSQGGLWLVPPTPAQNMKAYDGDGASTVQAAITSGKQGLIENLGLDTDAPYNRLVYPFAVPGLNATWVVLVDIPHQALNAPVQEQTYMMIIGAIVILAAVITALYFAVRHFVRNPLASLVSDVRTLSDGRYDVPVSGQERRDETGAVATALEGFRAKLAGIREMEAEAEAQRSHAETARQRSESERTENSRMQQHIVGVLGAGLNALSQGNLTYRIEDEFPGEYAKLREDFNSALASLEETVSTVNATVVSIGNGTGEITRAASDLSHRTEQQAASLEETAAALNELTAQVNSSAENAAEAAGAVSHACDDAGKSGEVVQQAVNSMEGIAQSSAEISRIIGVIDEIAFQTNLLALNAGVEAARAGDAGKGFAVVAQEVRELAQRSATAAKEIKGLINTSATQVNEGVQLVGKAGETMKKIADQVLQINQLIRQISASASEQAVGLKEINSAVTQMDQVTQQNAAMVEETTAASVTLNSEAETLKSLVAGFSVSGGHSSQQLRATAAAMRAPVAPAQASARPTAPRARPRTSGANALAQDDWTEF	PGPT0015710_1592	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_01855	861			hypothetical protein	ATGACACGACTGAAAAACGGCAAGTTGCGGCGCAAGGACGGGGTATGGGACCCGTTGAAGCGCAGTGCCGTGGACAAGCAGCAGGCCGAGGTCGTTCAAAAAACACCGCAGTCGGATTCCCCGTCCTATCGCCTCGCCTATGTGGACATGGATTTCCTCTGCCGCGAGGAATTGCGCCCCGTCAGGCTTCAATTGGAACTGCTGAAGACGGAAATGGCGCTGACCGAGCGCGGCATCAAATCCACCGTCGTCATGTTCGGCGGCGCCCGCATTCCCGAACCCGGCGGTGAGGCCTGGGCGGCGCGCAATGAGACGCAGAAGCGCAATCTGGAGCAATCCTCGGTCTATTACGAGGAGGCGCGTAAATTCGCCCGTCTCTGCACCGACTATGCCGCGAAATCCGACCACCTCGAATATGTGGTGGTCACCGGCGGCGGTCCCGGTGTCATGGAAGCGGGCAATCGCGGCGCTGCCGATGCCGGCGGTCCGTCCATCGGCCTCAACATCGTCCTGCCGCACGAGCAGGCGCCGAACCCCTATGTGACGCCGGAGCTGAGCTTCAACTTCCACTATTTCGCCATTCGCAAGATGCATTTCCTGATGCGGGCGAAGGCGGTGGTGATCTTCCCCGGCGGTTTCGGCACGCTGGACGAATTGTTCGAGGCCTTGACGCTCATCCAGACGAAACGCATGGAGCCCATTCCGCTCATCCTGTTCGGCGAGAAATTCTGGCGATCGGTGATCAATTTCGAATTCCTGGCGGATTTCGGCACCATCGCGCCTGAAGACATGAATCTTCTGCATTTCGCGGAAACGGCCGACGATGCATGGAAAATCATCTCGGCCCACTACGAACACTGA	MTRLKNGKLRRKDGVWDPLKRSAVDKQQAEVVQKTPQSDSPSYRLAYVDMDFLCREELRPVRLQLELLKTEMALTERGIKSTVVMFGGARIPEPGGEAWAARNETQKRNLEQSSVYYEEARKFARLCTDYAAKSDHLEYVVVTGGGPGVMEAGNRGAADAGGPSIGLNIVLPHEQAPNPYVTPELSFNFHYFAIRKMHFLMRAKAVVIFPGGFGTLDELFEALTLIQTKRMEPIPLILFGEKFWRSVINFEFLADFGTIAPEDMNLLHFAETADDAWKIISAHYEH				NA	NA	NA	NA	NA
BMS010_01856	855	dapD_1		2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-succinyltransferase	ATGAGCCTTACGGATCTCACCTCCCTCGAAACCATCATCGAAACCGCTTTCGACAACCGCGATGGTGTGAACGTATCGACGAAGGGCGAGGTTCGCGACGCCGTGGACACATCTCTTCAACTTCTCGATAGCGGCAAGGCACGCGTGGCCGAAAAGCAGGCTGACGGAAGCTGGAAGGTGAACCAGTGGCTGAAAAAGGCCGTTCTTCTCTCCTTCCGCCTGAACGACATGGAGATCGTGACCGGCGGACCGGGCGAATCTACCTGGTGGGACAAGGTGCCGTCGAAGTTCGAAAACTGGGGTGAAAACCAGTTCCGCGCCGCCGGTTTCCGCGCCGTGCCGAACGCCGTCGTGCGCCGCTCCGCCTATGTCGCCAAGAACGTGGTGCTGATGCCTTCCTTCGTCAATCTCGGCGCCTATGTCGATGAAGGCACGATGGTAGATACCTGGGCAACCGTCGGCTCCTGCGCGCAGATCGGCAAGAATGTGCACCTCTCCGGCGGCGTCGGCATCGGCGGCGTTCTGGAGCCCTTGCAGGCGGGCCCGACGATCATCGAGGACAATTGCTTTATCGGCGCACGTTCGGAAGTCGTCGAAGGCTGCATCGTGCGTGAAGGCGCCGTTCTCGGCATGGGTGTCTTCATCGGCAAGTCCACCAAGATCGTCGACCGCGCCACCGGTGAGATCACCTATGGCGAAGTGCCGCCCTATTCCGTCGTCGTTGCCGGCACCATGCCGGGCAAGCCTTTCCCGAACGGCGAACCGGGCCCGAGCCTTTATTGCGCCGTCATCGTCAAGCGCGTCGATGAAAAGACCCGCTCCAAGACCGGCATCAATGAGCTTCTGCGCGACTGA	MSLTDLTSLETIIETAFDNRDGVNVSTKGEVRDAVDTSLQLLDSGKARVAEKQADGSWKVNQWLKKAVLLSFRLNDMEIVTGGPGESTWWDKVPSKFENWGENQFRAAGFRAVPNAVVRRSAYVAKNVVLMPSFVNLGAYVDEGTMVDTWATVGSCAQIGKNVHLSGGVGIGGVLEPLQAGPTIIEDNCFIGARSEVVEGCIVREGAVLGMGVFIGKSTKIVDRATGEITYGEVPPYSVVVAGTMPGKPFPNGEPGPSLYCAVIVKRVDEKTRSKTGINELLRD				NA	NA	NA	NA	NA
BMS010_01857	1197	dapE_2	COG0624	Succinyl-diaminopimelate desuccinylase	ATGACCACGACCGATCCCGTTGCCAATCTCGCCGCCCTCATCCGTTGCCCTTCGGTGACGCCTGCGGAAGGCGGCGCGCTTTCCCTGCTCGACACCCTGCTTTCGCCGCTTGGTTTCCAGGTGGACAGGATGGTGGCGAGCGAGGCGGGAACGCCTGACGTGGAGAACCTTTACGCCCGGCTCGGCACCGAAGGTCCGCATCTGATGTTTGCGGGCCATACGGATGTCGTTCCGGTGGGCGACGAGGCCGCATGGAGCCATCCGCCCTTTGCGGCCAAAATCGCCGGCGGCGAAATGTTCGGTCGCGGTGCGGTGGACATGAAGGGCGGCATCGCCTGTTTCGTTGCCGCCATTGCCCGCCATATCGAAAAACATGGCGAACCGAAGGGCTCCGTTTCCTTCCTGATTACAGGCGATGAGGAAGGCCCGTCGATCAACGGCACCTCCAAGCTGCTGGAATGGGCGGCCGCCAAGGGCGAGACATGGGATGCCTGCGTGGTTGGCGAGCCGACCAATCCGGACCAGCTTGGCGACATGATCAAGATCGGCCGCCGGGGATCGCTTTCCGGCCGCATCACGGTCCATGGCGTGCAGGGCCATGCGGCCTATCCGCATCTCGCCGACAACCCCATTCGCGGTCTGCTGCAACTGACCCATGCGCTGATGCATCCGCCCTTCGATCATGGCACCGACAATTTCCAGCCCTCCAATCTGGAAGTAACGACCGTCGATACCGGCAATGCCGCCACCAATGTGATCCCGGCGCGGGCGACGGCCTCCTTCAACATCCGTTTCAACGATACGTGGACTGCAGAGAGCCTGCGCGCGAAAATCATCCGCCGCCTCGATGCCGCCGCGGCGGAAGGCGAGCTTCGCCCCGACCGTGCACCGGTGAAATACGATATCGTCTGGGCCGACCGCCCGGCCCATGTCTTTCTTACCCGGAACAATGCCCTCATCTCGTCGCTTTCCGGCGCGGTGGAAGCCGTGACGGGCAAGGAACCGAAGCTTTCGACCACCGGCGGCACCTCGGATGCGCGTTTCATCAAGGATTATTGCCCGGTGGTGGAATTCGGCCTCGTCGGGCAGACCATGCATATGGTCGATGAGCGTGTGGCGGTTGCCGATCTCGAGACGCTGACGCGCATTTACGAGACCTTTATCGAACGCTGGTTCGCCCATGCCGACGGCAAGTGA	MTTTDPVANLAALIRCPSVTPAEGGALSLLDTLLSPLGFQVDRMVASEAGTPDVENLYARLGTEGPHLMFAGHTDVVPVGDEAAWSHPPFAAKIAGGEMFGRGAVDMKGGIACFVAAIARHIEKHGEPKGSVSFLITGDEEGPSINGTSKLLEWAAAKGETWDACVVGEPTNPDQLGDMIKIGRRGSLSGRITVHGVQGHAAYPHLADNPIRGLLQLTHALMHPPFDHGTDNFQPSNLEVTTVDTGNAATNVIPARATASFNIRFNDTWTAESLRAKIIRRLDAAAAEGELRPDRAPVKYDIVWADRPAHVFLTRNNALISSLSGAVEAVTGKEPKLSTTGGTSDARFIKDYCPVVEFGLVGQTMHMVDERVAVADLETLTRIYETFIERWFAHADGK				NA	NA	NA	NA	NA
BMS010_01858	597			hypothetical protein	ATGCCGACGGCAAGTGAAATAAGGCTCTATCTGACGGGCCTGTGGCTTCTGCTGCTCGGCGACCATAATGGCGCACGTTATCTGGACCTCTCCGAGCGCGGCATGTGGCGGTCCTTCTATTCCGCCCTCTGGTGCCTGCCGGCTATGCTGGTTTCTTGGCTGTGGCTGCGCGCCGCCTTCCTCGCCAGCTATCCGCCCGGCACCGGAACGGGCTTCATCTTCTTCTTTCGTCTGGCAATGGTCGAGGCGATCTGCTGGATCGTGCCGCTGCTGTTGATCGGCATGCTGCTGTTTGCCTTCGGCGCACGGGAAAAATTCGCGCCGCTCGTCACCACCATGAACTGGCTGTCCCTGCCATTTTCCTATGCCTATGCGGTTCTGATCCTGATCGCATTCTTCCTGCCGCCCTTGCAGGGGCTGATCGCCATTCTCTGGCTGGCGCTGCTTCTGTCGCTGGTCTTCGCCTTCTCGCGAATTGTGCGGTTCTTCATCCGCGACCAGTCGCTGCTCGTCTCGGCCATCGTCATGACGCTGCTGGTGCCCGGCATGCTTCTGTCGGAAGCGCTGCAGCGTTTTCTCGGCGTTTATCCGGCCTGA	MPTASEIRLYLTGLWLLLLGDHNGARYLDLSERGMWRSFYSALWCLPAMLVSWLWLRAAFLASYPPGTGTGFIFFFRLAMVEAICWIVPLLLIGMLLFAFGAREKFAPLVTTMNWLSLPFSYAYAVLILIAFFLPPLQGLIAILWLALLLSLVFAFSRIVRFFIRDQSLLVSAIVMTLLVPGMLLSEALQRFLGVYPA				NA	NA	NA	NA	NA
BMS010_01859	804	truA_1	COG0101	tRNA pseudouridine synthase A	ATGCCACGTTTCCGCATGACTGTCGAATATGACGGCACGCCTTATTATGGCTGGCAGAGACAGGATAACGGCCCCTCGGTTCAGGGTGCGCTCGAGGCTGCGGTTCGCTCTCTGACGGGAGAGAGCGTCTCCATTCGCGGCGCCGGCCGCACCGATTCCGGCGTGCATGCCGTCGGGCAGGTCGTCCATGTCGATCTTTCCCGAGACTGGGAGCCCTACAAGCTTCGCAACGCGCTCAATGCGCATCTCGCCATGGCGGGTGAAGCCGTGGCCGTCCTCGATGCTGCTTCCGTGACCGAGGATTTCGACGCCCGGTTTTCCGCCCTTCGTCGGCACTACCTTTACCGCATCATCTGCCGCAAGGCCCGGCTGGCGCTGGAGCACAAGCGAGCATGGTGGGTGTCGAAGGACATGGACCATGAGCGCATGCATGAAGCCGCCCAGATGCTCGTCGGCCGGCATGATTTCACGACCTTCCGCTCCGTGCATTGTCAGGCGAACAGCCCGGTGCGAACGCTCGACCGGCTGGATGTGACCTGCACCGGCGATCTCATCGAAATCCGTGCGACGGCGCAGAGCTTCCTGCATAACCAGATCCGCTCTTTCGCGGGCACGCTGAAACTGGCGGGCGAAGGCACAATGACGCCGGAGGATGTGCGTGCCGCACTGGAGGCGCGGGATCGCAAGGCCTGCGGCCCGGTCGCACCGCCGGACGGTCTCTATTTCATGCAGGTCGATTATCCCGACGTCATTCCGCCGCGTCGCAGGTACCCTGAAGCCGATATGGCTGAGGACGCGGACTGA	MPRFRMTVEYDGTPYYGWQRQDNGPSVQGALEAAVRSLTGESVSIRGAGRTDSGVHAVGQVVHVDLSRDWEPYKLRNALNAHLAMAGEAVAVLDAASVTEDFDARFSALRRHYLYRIICRKARLALEHKRAWWVSKDMDHERMHEAAQMLVGRHDFTTFRSVHCQANSPVRTLDRLDVTCTGDLIEIRATAQSFLHNQIRSFAGTLKLAGEGTMTPEDVRAALEARDRKACGPVAPPDGLYFMQVDYPDVIPPRRRYPEADMAEDAD				NA	NA	NA	NA	NA
BMS010_01860	936	fmt_1	COG0223	Methionyl-tRNA formyltransferase	ATGGCTCTTCGCATCATTTTTATGGGTACGCCGGATTTTTCCGTTCCCACCCTGCGTGCACTGGTGGAGGCCGGCCACGAGATCGTTGCCGTCTACACCCAGCCGCCGCGTCCGGGCGGCCGTCGTGGCCTCGATCTGCAGAAGTCCCCGGTGCATCAGGCCGCCGAACTGTTGGGCCTGCCTGTGCTGACGCCGGTGAACTTCAAGGCAGAGGAAGACCGACAGCAGTTCCGGGATTTCAATGCCGATGTTGCGGTTGTCGTGGCTTACGGGTTGCTGCTGCCTGAAGCGATCCTCAGCGGCACGCGCCTTGGCTGTTATAACGGCCACGCCTCGCTGCTGCCGCGCTGGCGTGGCGCTGCCCCCATCCAGCGGGCCATCATGGCCGGCGATGCCGAGACCGGCATGATGGTCATGAAAATGGAAAAGGGGCTCGATACCGGCCCCGTCGCGCTGACCGCCAAGGTCACGATCGATGAGAACATGACCGCCGGAGAATTGCATGACAGCCTGATGCTGGCCGGCGCGCGGCTGATGCGGCAGGCTATGGACAAGCTGGAAACCGGCGACCTGCCGCTCGTCACGCAGGCGGAAGAAGGCGTGCTCTATGCCGCGAAGATCGACAAGGGCGAGACCCGCATCGATTTTTCGAGGCCGGCGCAGGATGTACACAATCACATTCGCGGCCTTTCGCCGTTTCCCGGCGCATGGCTGGAAATGGACATCGGCGGCAAGGCGGAACGCGTGAAGGTTCTGGCCTCCGAACTGGCGAGCGGCATGGGAGAAGCGGGCGCGGCGCTCGATGACGCCCTTACCATTGCCTGCGGCAGCGGCGCCGTGCGGCTCACCCGTCTCCAGAAGGCGGGCGGCAAGCCGATGTCGGCGGCCGATTTCGTGCGCGGCACACCGGTTCCGGCCACAACGAGGCTCGGCTGA	MALRIIFMGTPDFSVPTLRALVEAGHEIVAVYTQPPRPGGRRGLDLQKSPVHQAAELLGLPVLTPVNFKAEEDRQQFRDFNADVAVVVAYGLLLPEAILSGTRLGCYNGHASLLPRWRGAAPIQRAIMAGDAETGMMVMKMEKGLDTGPVALTAKVTIDENMTAGELHDSLMLAGARLMRQAMDKLETGDLPLVTQAEEGVLYAAKIDKGETRIDFSRPAQDVHNHIRGLSPFPGAWLEMDIGGKAERVKVLASELASGMGEAGAALDDALTIACGSGAVRLTRLQKAGGKPMSAADFVRGTPVPATTRLG	PGPT0008125_3880	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008125-fmt-K00604	NA	NA
BMS010_01861	513	def_1	COG0242	Peptide deformylase	ATGACCATCAAACCGCTTATCATTTTGCCCGATCCCGTGCTGCGCCAGCAATCGAAGCCCATCGAAAAGGTGGATGCCGAGGTGCTGCGTCTTGCCGACGACATGCTGGAAACCATGTATGATGCGCCGGGTATCGGCCTCGCCGCCATTCAGATCGGCGTGGCGCGCCGTATGCTGGTGATCGACGTTGCGCGTGAAGGCGAGGAAAAGACCCCGATCGTCTTCATCAATCCGGAAATCCTTAAGGTGTCGGACGATGTCTCGACCTATGAAGAAGGCTGCCTCTCCATCCCCGATTATTACGCCGAGGTCGAGCGTCCCGCGTCGCTCACGGTGCAATATGTCGGCCGTGACGGCAAGCAGCAGACGGTCGAGGCGGACGGCCTGCTCGCCACCTGCCTGCAGCACGAGATCGATCACCTGAACGGCGTTCTCTTCATCGACCATATTTCGCGGCTGAAGCGCGACATGGTCATCAAGAAATTCACGAAAGCGGCCCGCGCAAAGATCTGA	MTIKPLIILPDPVLRQQSKPIEKVDAEVLRLADDMLETMYDAPGIGLAAIQIGVARRMLVIDVAREGEEKTPIVFINPEILKVSDDVSTYEEGCLSIPDYYAEVERPASLTVQYVGRDGKQQTVEADGLLATCLQHEIDHLNGVLFIDHISRLKRDMVIKKFTKAARAKI	PGPT0008125_24	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008125-fmt-K00604	NA	NA
BMS010_01862	1194			hypothetical protein	ATGAGCATAGATTTCTCCGTTCTCCTCGATCCCGCGTTACGGGCCGGTTCCGTCGACATCAGCTTCGGCGCGCTGCTCGCGGCTCTGGTTTTCGGTCTGGTCACGACCTGGCTGGTGACGGCGAGCCGTGCGAAAAAAGCAGGAGCCGACGGCGAAATCTCCGACCTCCTCAAAACACAGTCCGAACTGCATGGCCGCATCGCCGCCATGGCGGAAACGCTCGGCACCCGCCAGACCGAGATGAGCCAGACGCTGAACCAGCGCCTCGACGGCATGTCGCAGCGCCTTGGCGAAACACTGACGGAGCAGACCCGGTCGACGCATGAGAATCTGAGCCGCCTGCAGGAGCGCCTCGCGGTCATCGATGCCGCGCAGGGCAATATTCAGGATCTGGCCAAGGACGTCGTCGGGTTGCAGGCCATCCTTTCCAACAAGCAGACGCGCGGCGCCTTTGGACAGGCCCGCATGGAGACGCTGATTGCCGATGCGCTTCCGGCCGGGGCCTTCCAGTTGCAGCCGACGCTTTCGAACGGTTATCGGCCGGACTGCACCATCAAGATGCCCAACAATGCCCCGCCGCTCGTCATCGACGCCAAGTTTCCGCTGGAGGCGTGGAACGCCATCAAGGCGGACGAGACGCCCGAAACCAAACGCGCCGCCGTGCAGCAGTTCCGCCGCGATATGGAGGTGCATATTCGCGATGTCGCCGAGAAGTATCTCATTCGCGGCGAAACCCAGGATACGGCCTTCATTTTCGTGCCGTCCGAATCGATCTTCGCCGATATCCACCAGCACTTCGAATATCTGGTGCAGCGCGCTCACCGCGCCCGCGTCGTCATCGTTTCGCCGTCACTTCTGATGCTGTCGGTACAGGTCATCCAGTCCGTGCTCAAGGATCAGCGCATGCGCGAGCAGGCGCATCTCATTCAGGGTGAAGTGGCATTGCTGATGGACGATGTGCGGCGGCTGGACGACCGGACGCGCAAGCTGCAGGCCCATTTTGGATTGGCGCAAAAGGATATCGACATGATGCTGATCTCCTCCGACAAGGTGCTGGCGCGCGGCCAGAAAATCGAAGGTCTCGATTTTTCACCGACGGAAAAAGAAACGTCGCATGGGGAAATCGAGCAGGCTCGACGCTTTGCCGAGAACAGGGCGGGAACGGCAAAGTTGCGGGTGGTTGACGACGAGTGA	MSIDFSVLLDPALRAGSVDISFGALLAALVFGLVTTWLVTASRAKKAGADGEISDLLKTQSELHGRIAAMAETLGTRQTEMSQTLNQRLDGMSQRLGETLTEQTRSTHENLSRLQERLAVIDAAQGNIQDLAKDVVGLQAILSNKQTRGAFGQARMETLIADALPAGAFQLQPTLSNGYRPDCTIKMPNNAPPLVIDAKFPLEAWNAIKADETPETKRAAVQQFRRDMEVHIRDVAEKYLIRGETQDTAFIFVPSESIFADIHQHFEYLVQRAHRARVVIVSPSLLMLSVQVIQSVLKDQRMREQAHLIQGEVALLMDDVRRLDDRTRKLQAHFGLAQKDIDMMLISSDKVLARGQKIEGLDFSPTEKETSHGEIEQARRFAENRAGTAKLRVVDDE				NA	NA	NA	NA	NA
BMS010_01863	957	rbsK	COG0524	Ribokinase	GTGATCCGCTCGGGCAAAGTCGCCGCCTTGCTTGAATTCTATACGGATACGCCCTCCATGATTACTGTTTTCGGCTCCATCAACATGGACCTCGTCGCCACCGCCAAACGCCTGCCCAAGCCGGGTGAAACCGTGACGGGCGAGACCTTCTCAACGGCCGCCGGCGGCAAGGGAGCCAACCAGGCGCTGGCCGCACGGCGTGCGGGCGCCACGGTCAAGATGGCAGGAGCTGCGGGCGATGACACCTTTGCCGCGCCGGCGCTGACATTGCTGCGCGACGCCGGCACCGATCTCTCACTCGTGAAGACCACGCCCGGCCCTACCGGTACGGCAGTGATCCTTATCGGCGAAGGCGGGGAAAACATGATCTCGGTCATTCCCGCCGCCAATGGTGAAGTCTCCGCATCCGACGCCGCGAAAGCCCTGGCGGAAATGTCGGCGGGCGATATTTTGATGCTGCAGTTCGAGATACCCGCGCCCGCTATCGAAGCGGCGCTGACGGCTGCGAAGGCAAAGCGCGTCACCACCGTCATCAATACTGCGCCACTGACCGCCGATGGGCCGCGGCTTGCGGGCCTTGCCGATATCGTCATCGCCAATGAAACCGAGTTCGAATTGCTGATCGGAAAGAACGGCCTTTCCGGTTCTGAGCGGGAAAACGAACTGAAAGCCCTGCATGACAGGACCGGCCAGACATTGATCGTGACGCTCGGTGCCGATGGCGTGATCGCCATGCGCAACGGCAAGGTTTTCCGGGCTTCCGGCCTCAAGATCGAACCGGTCGATACGGTCGGTGCAGGCGACACCTTCTGCGGTTATCTCGCCGCGAGCCTCGATCAGGGGATGGATTTCGAAAGGGCGCTGAAGCGCGCCGCCGTCGCAGGCTCACTTGCCTGCACCCGCGCCGGCGCCCAGCCTTCCATTCCGCTTGCCGCGGAAGTGGATGCGGCACTCTAA	MIRSGKVAALLEFYTDTPSMITVFGSINMDLVATAKRLPKPGETVTGETFSTAAGGKGANQALAARRAGATVKMAGAAGDDTFAAPALTLLRDAGTDLSLVKTTPGPTGTAVILIGEGGENMISVIPAANGEVSASDAAKALAEMSAGDILMLQFEIPAPAIEAALTAAKAKRVTTVINTAPLTADGPRLAGLADIVIANETEFELLIGKNGLSGSERENELKALHDRTGQTLIVTLGADGVIAMRNGKVFRASGLKIEPVDTVGAGDTFCGYLAASLDQGMDFERALKRAAVAGSLACTRAGAQPSIPLAAEVDAAL	PGPT0017405_3768	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_RIBOSE_METABOLISM|DEGRADATION,PGPT0017405-rbsK-K00852	NA	NA
BMS010_01864	699	trmB_1	COG0220	tRNA (guanine-N(7)-)-methyltransferase	ATGACGGAAGAACGGCGTTCGCGCGCGACGGAAGCTTTTTTTGGCAGACGCAAGGGCAAGCCCCTGCGCAATCAGCAGGTCGATACAATCGAGAACCTGTTGCCTTTGCTGAAAATCGATCTGGAAAGCGCCCCGCCGCAAAATCTCGCCGCTCTTTTTCCCGCGGATGTGCGGTCGATCCGTCTGGAGATAGGCTTTGGCGGCGGCGAGCATCTCGCCCACCGCGCGGTTGAAAACCCGGAGACGGGTTTCATCGGCGTGGAGCCCTTCGTCAATTCCATGGCCAAGCTGCTCGCCGCCGTGCGTGAACGCGAGCTGATGAATATCCGCCTTTACGACGATGATGCGACGCAATTGCTGGACTGGCTGCCCGAGGGATCGATCGATCATATCGACCTTCTCTACCCTGACCCGTGGCCGAAGAAGAAGCACTGGAAGCGTCGTTTCGTTTCAGACGTCAACCTTGCCCGCTTCCATCGTGTGCTGAAACCCGGCGGAAAGTTCTGCTTCGCTTCCGATATCGATACCTACGTGAACTGGACGCTGCAGCATTGCGCCCGCCATGGCGGCTTCGAATGGACAGCGACGAGCGCTGATGATTGGCGCACGCCCTACGCCAACTGGCCGGGCACGCGTTACGAGAACAAGGCGAAAAGAGAAGGCCGCAGCTCGGCCTATCTCACCTTCATTCGTCGTTGA	MTEERRSRATEAFFGRRKGKPLRNQQVDTIENLLPLLKIDLESAPPQNLAALFPADVRSIRLEIGFGGGEHLAHRAVENPETGFIGVEPFVNSMAKLLAAVRERELMNIRLYDDDATQLLDWLPEGSIDHIDLLYPDPWPKKKHWKRRFVSDVNLARFHRVLKPGGKFCFASDIDTYVNWTLQHCARHGGFEWTATSADDWRTPYANWPGTRYENKAKREGRSSAYLTFIRR				NA	NA	NA	NA	NA
BMS010_01865	1263	metK_1		S-adenosylmethionine synthase	ATGCGTGCCAATTATCTGTTCACCAGCGAGTCCGTGGCCGAGGGTCATCCGGACAAGGTTTGTGATCGTATTTCCGATGAAATTGTGGATCTCATCTATCGTGAAGCGTCCAAGACCGGCGTTGACCCGTGGACCGTGCGCATTGCCTGCGAAACGCTTGCGACGACCAACCGCGTCGTTATCGCCGGTGAGGTTCGGGTCCCCGATACGCTTCTGAAGAAGGACAAGGACGGCAAGGTCCTCAAGGACGCCGCTGGCCACCCGGTCATCAACCCCTCGAAGTTCAAGTCCGCCGCCCGCAAGGCGATCCGCGACATCGGCTACGAGCAGGATGGTTTCCACTGGAAGACCGCCAAGATCGACGTTCTCCTGCATCCGCAGTCTGCTGATATCGCGCAGGGCGTGGACAACGCCTCCGACAAGCAGGGCGACGAGGGCGCTGGCGACCAGGGCATCATGTTCGGTTACGCCTGCAAGGAAACGCCGGACCTCATGCCGGCTCCGATCTATTATTCCCATCGTATCCTGCAGCTGCTCGCCACCGCCCGTAAAAGCGGCGAAGGCGAGGCGGCCAAGCTCGGCCCCGACGCCAAGAGCCAGGTCACGGTTCGTTACGTCGACGGCAAGGCGGCCGAAGCCGTATCCATCGTTCTGTCCACGCAGCACCTCGATGCAAGCTGGGATTCGAAGAAGGTTCGCGCCGTTGTCGAGCCCTATATTCGCGAAGCTCTGGGCGACCTGAAGATCGCTGACGATTGCCAGTGGTACATCAACCCGACCGGCAAGTTCGTCATCGGCGGTCCCGATGGTGACGCCGGCCTTACGGGTCGCAAGATCATCGTCGACACCTATGGCGGCGCCGCTCCCCATGGCGGCGGTGCATTCTCCGGCAAGGACACGACCAAGGTCGACCGTTCCGCCGCCTACGCCGCCCGTTATCTCGCCAAGAACGTTGTGGCTGCAGGTCTCGCCGAGCGCTGCACGATCCAGATTTCCTACGCAATCGGCATCGCCCAGCCGCTGTCGATCTATGTCGATCTGCATGGCACCGGCAAGGTCAGCGAAGATCAGGTCGAGGCCGCGATCCGCAAGGTCATGGACCTGTCGCCGTCGGGCATCCGCCGTCATCTCGATCTCAACAAGCCGATCTACGCCAAGACGTCTTCCTACGGCCATTTCGGCCGCAAGGCCGGCCGTGACGGCTCCTTCTCATGGGAGAAGCTCGATCTGGTGAAGCCGCTCAAGGAAGCTTTGAGCGCTTGA	MRANYLFTSESVAEGHPDKVCDRISDEIVDLIYREASKTGVDPWTVRIACETLATTNRVVIAGEVRVPDTLLKKDKDGKVLKDAAGHPVINPSKFKSAARKAIRDIGYEQDGFHWKTAKIDVLLHPQSADIAQGVDNASDKQGDEGAGDQGIMFGYACKETPDLMPAPIYYSHRILQLLATARKSGEGEAAKLGPDAKSQVTVRYVDGKAAEAVSIVLSTQHLDASWDSKKVRAVVEPYIREALGDLKIADDCQWYINPTGKFVIGGPDGDAGLTGRKIIVDTYGGAAPHGGGAFSGKDTTKVDRSAAYAARYLAKNVVAAGLAERCTIQISYAIGIAQPLSIYVDLHGTGKVSEDQVEAAIRKVMDLSPSGIRRHLDLNKPIYAKTSSYGHFGRKAGRDGSFSWEKLDLVKPLKEALSA	PGPT0020000_399	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI-2_BIOSYNTHESIS,PGPT0020000-metK-K00789	NA	NA
BMS010_01866	420			hypothetical protein	ATGACCGAGAATAAGAAAAAGCCTAACCCCATCGACATTCATGTCGGAAGCCGAATTCGCCTTCGCAGAACCATGCTCGGAATGAGCCAGGAGAAGCTGGGTGAAAGTCTCGGAATTACCTTTCAGCAAATCCAGAAGTATGAAAAAGGCACGAACCGCGTTGGCGCCAGCCGCCTCCAGAATATTTCCGCGATCCTTAATGTGCCCGTTTCCTTTTTTTTCGAAGATGCACCCGGCGATCAGGCTGGCGGCACACCCGGCATGGCGGAGGCGTCGAGCTCCAACTATGTGGTCGACTTTCTGTCCTCGGCTGAAGGTCTGCAGCTGAACCGCGCCTTCGTGAAGATCGCCGACCCGAAGGTTCGCCGCCGTCTCGTCGATCTCGTCAAGGCGCTCGCCGCCGAAGGTGACGCCGAGTAA	MTENKKKPNPIDIHVGSRIRLRRTMLGMSQEKLGESLGITFQQIQKYEKGTNRVGASRLQNISAILNVPVSFFFEDAPGDQAGGTPGMAEASSSNYVVDFLSSAEGLQLNRAFVKIADPKVRRRLVDLVKALAAEGDAE				NA	NA	NA	NA	NA
BMS010_01867	1590	lnt_1	COG0815	Apolipoprotein N-acyltransferase	ATGGAGCGTCTTGCAGGCAGGGTAATGCTGGCCGGCGGCATGAGCCGCGCAGTTATGGCGATTGCCGCAGGTGCGGTCGGGGCGCTCGCTTTGCCTCCATTCGGCTTTTTCGCGGCGCTGTTTTTCTCTTTCACCCTGCTTGTCTGGCTCGTGGATGGCTGCACCGGCAAGCCGGGCGGCGGCCTCTTCAGCCGCATCCTGCCGGCCTTCGGCATCGGCTGGTGTTTCGGGCTTGGTTACTTCGTCGCTGGCCTTTGGTGGCTCGGCAATGCTCTCCTGCTGGAAGCCGATGAATTCGCCTGGGCGCTGCCGCTCGCCATCCTTGGTCTTCCCGCTTTTCTGGCGTTGTTTTACGGTTTTGCGGTTGCCGCAGCCAATCTCCTCTGGTCGGAGGGCCTCGGCCGTATCGCTGCACTTGCTGCCGCGTTCGGCTTTTCGGAATGGCTGCGCAGCTTCCTGGCCACCGGCTTTCCCTGGAACGCCATCGGTTACGGCATCATGCCCATCCCGATCATGATGCAGTCGGCACATCTGCTTGGTCTTTTCAGCGTGACGACGCTTGCGGTTTTCATATTCGCCTCGCCGGCGCTGATAGGCACGAAAAAAGGAATGTGGTCGGGTCTCGCCGTGGCGGGGCTGCTACTGGCCGGCCATTTCGGTTATGGCTTCTACCGTCTCCAGACGCCGGCGGAGGTGCCCGCAGATGCACTGACCGTTCGGATCGTGCAGCCTTCCATCGATCAGTCACGCAAGATGCTGAACGCGGACAGGGCGGAGATTTTTGGCGAGCACCTGCGGCTCTCGGCTCTGCCGCCCGGCGAAGGGAAAAAGCGCCCTGATATCATCGTCTGGCCGGAAACCTCGGTGCCGTTCATTCTGACGCAAAACCCGGATGCTCTGGCGGAAATCGCCAAAACGCTGGAAGATGGGCAGGTGCTGTTCACCGGCGCCGTCAGAATGGAAGATCAGGGGGCAGGCCGCCCGCCGCGTTATTACAATTCGGTCTATGCGATCGACAGCCAGGGCGAGATCATCGGCGCGACCGATAAGGTGCATCTCACTCCTTTTGGCGAATATGTCCCCTTTGAAGGCATCCTGCGGGAATTCGGCATCGACAATGTCATCGCCCTGCCGGGAGGTTTTTCCGCCGCTTCCTCGCGCACGCCGCTCACGCTTCCTTCGGGCAAGACCTTCTATCCTCTCATCTGTTACGAGATCATTTTCCCGGGTGAGATGACGCCGGGGTTGGCAGGCTCGGCCGCCATCCTGAATGTGACCAATGATGGCTGGTTCGGCGATACGCCCGGCCCCTATCAGCATTTTCTGCAGGCGAGGGTCCGGGCCGTTGAGACGGGCGTGCCGGTGATTCGCGGTGCCAATACTGGAATTTCCGCCGTCATAGACCCCTATGGCCGCATTATTGCGGGGCTCGATTACGGTCGGGTGGGAATTGTTGACGCCACTTTGAGTGGTGGGTCAAACGACGCATTTACTTACGACATACATCGGACGTATTTCTGGTTGATTTTTTCTATCTTGATGATCGTTGCGGTATTTCCCGCCTTGAGTTTCGCTCGGCGCCAGAATTGA	MERLAGRVMLAGGMSRAVMAIAAGAVGALALPPFGFFAALFFSFTLLVWLVDGCTGKPGGGLFSRILPAFGIGWCFGLGYFVAGLWWLGNALLLEADEFAWALPLAILGLPAFLALFYGFAVAAANLLWSEGLGRIAALAAAFGFSEWLRSFLATGFPWNAIGYGIMPIPIMMQSAHLLGLFSVTTLAVFIFASPALIGTKKGMWSGLAVAGLLLAGHFGYGFYRLQTPAEVPADALTVRIVQPSIDQSRKMLNADRAEIFGEHLRLSALPPGEGKKRPDIIVWPETSVPFILTQNPDALAEIAKTLEDGQVLFTGAVRMEDQGAGRPPRYYNSVYAIDSQGEIIGATDKVHLTPFGEYVPFEGILREFGIDNVIALPGGFSAASSRTPLTLPSGKTFYPLICYEIIFPGEMTPGLAGSAAILNVTNDGWFGDTPGPYQHFLQARVRAVETGVPVIRGANTGISAVIDPYGRIIAGLDYGRVGIVDATLSGGSNDAFTYDIHRTYFWLIFSILMIVAVFPALSFARRQN	PGPT0024470_1487	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024470-lnt-K03820	NA	NA
BMS010_01868	1146			hypothetical protein	ATGAACGAACATTCTGCACGACCTGCCAATGAGGGCAGAGAAAACGGCGAGCAGTCCTCTTCGGAGGAGGGCAGTAGTCACTTACGTCACGACTACAACGCCAAGCCGAAATCGACCATCTGGTCACGCATCGCACGGTTGCTGAAACCATCCCAGGGCGAGCGCCTGCGCGAGGATTTGACCGACGCGCTGATGGACGACACCGAAATCGGTGCGGCCTTTTCGCCCGAAGAACGGGCGATGCTCAACAATATCCTACGTTTCCGCGAGATTCGGGTCGAAGATATCATGATCCCGCGTGTGGACATCGACGGTCTCGATGAGAATATGACGATCGGCGATGCGCTGATCCTCTTTGAGGAAACCGGGCGTTCGCGCATGCCGGTCTATGACGAGACGCTGGATAATCCGAAGGGCATGATCCACATTCGCGATCTGCTGGCCTATGTCGCCAAGCAAGCCCGCAACAAACGCCGGGCCGGTTCGCGAAGCGTCGCTTACGGTGAGGTGAAGGCGCCGCGTTCACCGCGGCCGAATTTCGACCTGGCACGTGTCGATCTGGAGCAGACGGTCGCCGCTGCCGGGTTGGTGCGCAAAATTCTTTTCGCACCGCCCTCCATGCTGGCCTCCGACCTTTTGAAGACGATGCAGGCCCAGAGAACCCAGCTTGCGTTGGTGATCGATGAGTATGGCGGCACCGACGGTCTCGTCAGCCATGAGGATATCGTCGAGATGGTCGTGGGTGACATCGATGACGAGCACGACAAGGACGAGGCGATGTTTTCGCGTCTTTCCGCCGATGTGCTTGTCGCGGATGCGCGCGCGGAACTCACCGAACTTGCCGAGGCGATCGGGCCGGAATTCGATGTGCGTGAACATCTGGAGGAAATCGATACGCTCGGCGGTCTCATCTTCTTCGCGCTCGGCCGCATTCCGGCCAAGGGCGAGGTGGTCCGGGCCGTGCCCGGTTTCGAATTCCAGATCCTCGATGCGGATAGCAGGCGCATCAAGGGCGTTCGTATCGTCCGCGATCACGGCTCCGAAGGTGAGGATGATCGCGCTCCGGGCGAAGCGGGCGCCAATGAGGTGATTGCGCTGCCTGCGCCGGATGTTCGCCTTATCACGCACCAGCAGAACGCCGATTAA	MNEHSARPANEGRENGEQSSSEEGSSHLRHDYNAKPKSTIWSRIARLLKPSQGERLREDLTDALMDDTEIGAAFSPEERAMLNNILRFREIRVEDIMIPRVDIDGLDENMTIGDALILFEETGRSRMPVYDETLDNPKGMIHIRDLLAYVAKQARNKRRAGSRSVAYGEVKAPRSPRPNFDLARVDLEQTVAAAGLVRKILFAPPSMLASDLLKTMQAQRTQLALVIDEYGGTDGLVSHEDIVEMVVGDIDDEHDKDEAMFSRLSADVLVADARAELTELAEAIGPEFDVREHLEEIDTLGGLIFFALGRIPAKGEVVRAVPGFEFQILDADSRRIKGVRIVRDHGSEGEDDRAPGEAGANEVIALPAPDVRLITHQQNAD				NA	NA	NA	NA	NA
BMS010_01869	507	ybeY_1	COG0319	Endoribonuclease YbeY	ATGACAGCTCTGGATATTCAAATCAGCGTCGAGGCCGAAGGCTGGTCCTCGGAAGATGACTTGGCTGCCTTCGCCACCAGGGTGCTGGATGCGGCGGTCGATTTCCTGAAGCGGGAAGAGGACCAACCCTTCCCGAAAATGCCGGTGGAACTGTCGCTGGTTTTCACCGACGACGAAAATATTCGCGAAATCAACGCTGAGTGGCGCGACAAGGACAAGGCAACCAATGTCCTGTCTTTCCCCGCTTTTCCGCTGGAGCCGGGCGGAATGCCGGGCCCCATGCTGGGCGATATCGTCATCGCGCGCGAGACGGTTGAACGCGAGGCTCTTGAACTTGAGAAGAGTTTCGGGGATCATCTGACCCATCTGCTCGTTCATGGGTTCCTGCATTTGTTCGGTTACGACCACATGGACGAGGAAGAAGCGGAAGAAATGGAGTCGCTTGAGACTCGCATTTTGGCGGTGCTTGGCCTATCTGATCCTTACGCGGGTCAGGAACCGCTTTAA	MTALDIQISVEAEGWSSEDDLAAFATRVLDAAVDFLKREEDQPFPKMPVELSLVFTDDENIREINAEWRDKDKATNVLSFPAFPLEPGGMPGPMLGDIVIARETVEREALELEKSFGDHLTHLLVHGFLHLFGYDHMDEEEAEEMESLETRILAVLGLSDPYAGQEPL				NA	NA	NA	NA	NA
BMS010_01870	1056	ybeZ_1	COG1702	PhoH-like protein	TTGAACGCACACGAATTGGTATCAAATTCATCGCGCCAGCCACGCCAAGCCGCGACCGACGCCAATCACTTCGTCCTCACGTTCGAGAATAACAGGATAGCGGGAGAGCTATTCGGTCAGTTCGATCAGAACCTGAAGCTTCTGGAACAGCGCCTCAATATCGACGCTCGCCCACGCGGTAATTCCGTTGCCATCACCGGCGATGTCGTTGCCACCAATCAGGCTCGTCGGGCGCTGGATTTCCTCTATGAACGGCTGCTCAAAGGCGGAACCGCCGAGGTCTCCGATGTCGAAGGCGCGATCCGCATGGCCATGGCCGCGGACGACCAGCTGACCTTGCCGACGATGGAACGCAAGGCGAAGATTTCCATGGCACAGATTTCCACCCGCAAGAAGACCATCGCTGCCCGCACGCCGACACAGGATGTCTACATGCGGGCACTGGAGCAGTCCGAACTGGTTTTCGGCGTCGGCCCCGCCGGCACCGGCAAGACCTATCTTGCCGTGGCGCATGCGGCGCAGCTTCTGGAGCGCGGCGCGGTTGACCGCATCATCCTGTCGCGCCCCGCCGTCGAAGCGGGTGAGCGCCTGGGCTTCCTGCCGGGCGACATGAAGGAAAAGGTCGATCCTTATCTGCGTCCGCTTTACGACGCGCTTTATGACATGATGCCGGGTGACAAGGTGGAGCGAGCCATTCAGGCGGGCGTCATCGAAATCGCACCGCTGGCCTTCATGCGCGGCCGCACGCTGGCCAATGCCGCCGTCATTCTGGACGAAGCCCAGAACACCACGACCATGCAGATGAAGATGTTCCTCACCCGCCTTGGTGAGAACGGCCGCATGATCGTGACCGGTGACCCAAGCCAGGTGGATTTGCCGCGCGGCGTGAAATCCGGTCTTGTCGAGGCCCTGCAAATCCTCACCGATGTCGAAGGCGTGTCCGTCGTGCGCTTCAAGGATGTCGATGTCGTTCGTCATCCGATGGTGGCGCGTATCGTCCGGGCTTACGAATCCCACACGGCCGTGCCGGATGAAAGCCTCGTAAAGGGCAGCTGA	MNAHELVSNSSRQPRQAATDANHFVLTFENNRIAGELFGQFDQNLKLLEQRLNIDARPRGNSVAITGDVVATNQARRALDFLYERLLKGGTAEVSDVEGAIRMAMAADDQLTLPTMERKAKISMAQISTRKKTIAARTPTQDVYMRALEQSELVFGVGPAGTGKTYLAVAHAAQLLERGAVDRIILSRPAVEAGERLGFLPGDMKEKVDPYLRPLYDALYDMMPGDKVERAIQAGVIEIAPLAFMRGRTLANAAVILDEAQNTTTMQMKMFLTRLGENGRMIVTGDPSQVDLPRGVKSGLVEALQILTDVEGVSVVRFKDVDVVRHPMVARIVRAYESHTAVPDESLVKGS	PGPT0002700_1111	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-PHOSPHATE_STARVATION_RESPONSE,PGPT0002700-phoH-K06217	NA	NA
BMS010_01871	1404	miaB_1	COG0621	tRNA-2-methylthio-N(6)-dimethylallyladenosine synthase	ATGACCCAGGAAACGCTTGGCCTCGACGCCCCACCCATGATCGCCCGCGAGGGCTCTAACAGCAGAAAGGTCTTCATCAAGACCTATGGCTGTCAGATGAACGTCTACGATTCCGTCCGTATGAGCGATGCGCTGGCGAAGGACGGCTACGTTCAGACGGAAGATATGGGCGAGGCGGATCTGGTTCTGCTGAACACCTGTCATATCCGCGAGAAGGCGGCTGAAAAGGTCTACTCGGCGCTAGGCCGCCTGCGCGACATGAAAAAATCGCGCGAAGAGCAGGGCCGCGAATTCATGATCGGCGTTGCCGGTTGCGTTGCGCAGGCGGAAGGCGAGGAAATCCTTCGCCGTGCGCCCGCCGTTGATGTCGTCATCGGCCCGCAGACCTATCATCGCCTGCCGGACGCCCTGAAGCGGGTGCGCGGCGGCGAGCGTGTCATCGAGACCGAATATGCGGTCGAGGATAAGTTCGAGCACCTGCCTGTCGCCGAAAAGGCGACGCTGCGCACGCGCGGCGTAACGGCGTTTCTGACGGTGCAGGAAGGTTGCGACAAGTTCTGTACCTTCTGTGTCGTGCCCTATACGCGCGGTTCGGAAGTCTCCCGCCCCGTGCGCCAGATCGTCGATGAGGCGATGAAGCTCGTCGATGCCGGCGTGCGCGAGATCACGCTGCTCGGCCAAAACGTCAATGCCTGGCAGGGCGAAGGCCCGAAGGGTGAGAAATGGGGCCTTGCCGAGCTGCTTTACCGGCTGGCGGAAATTCCCGGCCTTGCACGGCTTCGCTACACCACCAGCCATCCGCGCGACATGGACGAGCGCCTGATCGGCGCGCATCGCGATCTGCGCATCCTGATGCCCTATCTGCATCTGCCGGTGCAATCGGGTTCGGACCGCATTCTGAAAGCGATGAACCGTCGCCATACGGGTGAGGAATATATCCAGCTTATCGAAAAAATCCGCGCCGCCCGCCCTGATATTGCCATGTCGGGGGACTTTATTGTCGGTTTCCCCGGTGAGACGGATCGCGATTTCGAAGATACGATGGCGATGGTCGAGACGGTGAAATATGCGCAGGCCTTCTCGTTCAAATATTCCACCCGTCCCGGCACGCCGGGAGCCGATCTCACCGATCAGGTTGCGGAAGAGGTGAAGGCCGAGCGACTGGAAAGATTGCAGGCCCTGTTGCTGCGGCAGCAGAAGGAATTTGCGGAATCGCTGGTCGGAAAAACCATGGATGTGCTGCTGGAAAAGCCCGGCCGCATGCCTGAGCAGTTGATAGGTCGCTCTCCATGGCTGCAATCCGTGAATCTTGATGCAAAGACTTTGAAAATCGGTGACATTGTTAATGTACGAATCACCGCAACGGGTCCAAACAGCTTGTTTGCCGAGGTGGCAGGGAGTTAG	MTQETLGLDAPPMIAREGSNSRKVFIKTYGCQMNVYDSVRMSDALAKDGYVQTEDMGEADLVLLNTCHIREKAAEKVYSALGRLRDMKKSREEQGREFMIGVAGCVAQAEGEEILRRAPAVDVVIGPQTYHRLPDALKRVRGGERVIETEYAVEDKFEHLPVAEKATLRTRGVTAFLTVQEGCDKFCTFCVVPYTRGSEVSRPVRQIVDEAMKLVDAGVREITLLGQNVNAWQGEGPKGEKWGLAELLYRLAEIPGLARLRYTTSHPRDMDERLIGAHRDLRILMPYLHLPVQSGSDRILKAMNRRHTGEEYIQLIEKIRAARPDIAMSGDFIVGFPGETDRDFEDTMAMVETVKYAQAFSFKYSTRPGTPGADLTDQVAEEVKAERLERLQALLLRQQKEFAESLVGKTMDVLLEKPGRMPEQLIGRSPWLQSVNLDAKTLKIGDIVNVRITATGPNSLFAEVAGS	PGPT0007215_2297	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007215-miaB-K06168	NA	NA
BMS010_01872	795			hypothetical protein	ATGATGTGGCTCCGGACAGCCTATATCGCGGTCGTTCTTCTGATCGTCACGCTCATATTGCTGCCGCTGCAACTGTTGGGCCTTGCCTTCGACTGGCGGCTTCGCCGCCGCATTCCGCGCCTCTGGCATCGCATCGCCTGCCATGTTCTCGGCATCCGCGTGCATGTGCATGGCGATGTGGAGCGGGCGAAACCGCTGATGCTTGCGGTCAATCACGCCTCGTGGAAGGACATCCTCGTTTTGGGCAGCATTGCCGACGTGGTGTTCATCGCCAAGACGGAAGTGCGGGACTGGCCGGTGTTCGGCTGGCTTGCCCGCTTGCAGAAAAGCATCTTCGTTCAGCGTGAGCAGAAACGCAGCACCGGCGCGCAGGTGAGCGAGATCGCCAGCCGCATGGCCGATGGCGAGATCGTCGTTCTGTTTCCCGAAGGCACCACCTCGGACGGCAACCGCATGCTTGCCGTCAAATCCTCGCTGTTCGGTGCGGCCTCCACCGCCGCTGAACAGGTGCCGGGCAAGCTGGTTTATGTGCAGCCGGTCGCCATCGCCTATACCAGGGTGCAGGGCATGGCCATGGGGCGCTACCATCGCGTCATCGCCGCCTGGCCGGGCAGCATCACGCTCGTGCCGCATCTTCTCGGCATCATCAGGGCCGGCGCCATCGATGTTGACGTGACCTTCGGTGACAGCGTCCCGTTTCACAGCACGGATAACCGCAAGCGCCTGGCGACCGATATCGCCGCCTCCATCCGCTCCATGCTGGCCTTCAGCCTGCGCGGCGGCTGGCGGAATTAG	MMWLRTAYIAVVLLIVTLILLPLQLLGLAFDWRLRRRIPRLWHRIACHVLGIRVHVHGDVERAKPLMLAVNHASWKDILVLGSIADVVFIAKTEVRDWPVFGWLARLQKSIFVQREQKRSTGAQVSEIASRMADGEIVVLFPEGTTSDGNRMLAVKSSLFGAASTAAEQVPGKLVYVQPVAIAYTRVQGMAMGRYHRVIAAWPGSITLVPHLLGIIRAGAIDVDVTFGDSVPFHSTDNRKRLATDIAASIRSMLAFSLRGGWRN	PGPT0014465_476	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULE-ORNITHINE_LIPIDS_BIOSYNTHESIS,PGPT0014465-olsA-K22617	NA	NA
BMS010_01873	429	fur_1	COG0735	Ferric uptake regulation protein	GTGACAGACCTTTCGAAAACGCTGGAGGAGCTTTGCGCCGAACGCGGCATGCGGATGACGGATCAACGCCGTGTCATCGCCCGCGTCCTTCAGGAGTCAGCCGACCATCCCGATGTCGAGGAGCTTTACCGCCGCTCCTCCGCCGTGGATCCGCGCATCTCGATTTCCACCGTCTATAGAACGGTGAAGCTGTTCGAGGATGCCGGCATCATCGAGCGTCACGATTTTCGCGACGGCCGTTCGCGCTATGAGACCGTGCCCGAGGAACATCACGATCACCTGATCGACTTGAAGAACGGCGTGGTCATCGAATTTCATTCCGCCGAGATAGAGGCACTTCAGGAAAAGATCGCCAGGGAACACGGCTTCAAGCTCGTGGATCACCGGCTGGAACTTTACGGCGTGCCGTTGAAGCCCGGCGAACACTGA	MTDLSKTLEELCAERGMRMTDQRRVIARVLQESADHPDVEELYRRSSAVDPRISISTVYRTVKLFEDAGIIERHDFRDGRSRYETVPEEHHDHLIDLKNGVVIEFHSAEIEALQEKIAREHGFKLVDHRLELYGVPLKPGEH	PGPT0003880_3376	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003880-fur|furB|zur-K03711	NA	NA
BMS010_01874	495	rimI_1	COG0456	[Ribosomal protein S18]-alanine N-acetyltransferase	ATGTTTGACGACTATCTGACCTGGAAGCCCTATTTCGAGATCGTGCCGATGCAGCATGAGGATTGCGCCGCGGTGGCGGAGTTGCATGCGCTGCGCTTTCCGCGCCCGTGGAACGACGGGGAGTTTTCCGGGCTGCTGACGCAAGGGTCGGTTTTCGGTGCTGTCGCACGCCAGACCAACGCCTTTTTCAGCAAGCCGCTCGGTGGTTTCGTGCTGGCGCGGGAAGTGGCGGGTGAGGCGGAAATCCTGACCGTTGCCGTGGCCGACAAGTTCGCACGCGCCGGTCTCGGCTGGCGTCTGATGCAGTCGGCCATCCGCGAGGCGATGATGCGCGGCGCCGAAACCATGTTTCTTGAGGTGGATAATAATAATGCCTCTGCGCTGGGGCTTTACAGGAAGCTCGGCTTCAAAACCGTCGCGGAACGCAAGGCCTATTACACCGCAAAGGATGGAACGAAGTCGACGGCGCTTGTCATGCGCCGCGATCTTCGCTAG	MFDDYLTWKPYFEIVPMQHEDCAAVAELHALRFPRPWNDGEFSGLLTQGSVFGAVARQTNAFFSKPLGGFVLAREVAGEAEILTVAVADKFARAGLGWRLMQSAIREAMMRGAETMFLEVDNNNASALGLYRKLGFKTVAERKAYYTAKDGTKSTALVMRRDLR				NA	NA	NA	NA	NA
BMS010_01875	669	tsaB_1	COG1214	tRNA threonylcarbamoyladenosine biosynthesis protein TsaB	ATGATTGTTCTCGCACTCGACACCTCAGGTGTGGATTGTTCCGCATGCGTTTATGACAGCGCCTCCGACAGGGTGCTCGGCGAGGTATGCGAAACGATCGGCAAGGGCCATGCCGAAAGGTTGATGGCGGTGATCGACGGTGCCCTGGAGCGGGCGCAACTGTCGCTCCAGAACATCGGGCGCATCGCCGTGACCATCGGGCCGGGGTCTTTCACCGGTATCCGCGTCGGGGTCGCCGCCGCGCGCGGCTTTGCCCTGTCGCTCGGCGTCGAGGCCGTGGGCGTCACCACGCTTGAAACGCTGGCGCTTCATCATCTGCTTGCAAATCCCGGCCGGTCCGTGGCCGTTGCGCTGGATGCCAAGCGCGGCGAAGCCTATCTCCAGACATTCGGTGCGGATGGATCGCCGCTGAGCGATGCTGCGCTTCTGCCCCTGGACGACGCCAAAACGGTTACCACCGGTTTTGATGGCGCCGTTATCGGTTCAGCCGCGCCGCTTTTGGCGGGGTTGGAGGCGGGTTCGGGACCGGATCACTTCCCGATTGCCTCGGTCGCGCGTGCTGCTGCGCGCAAGCCAGCTGGCCAGCCGAAACCCGCGCCGCTTTATCTGCGCGGGCCGGATGCCCGGCCGCAGACCGGTTTTGCGCTGGCACGTCAGGGCGTTGCCTGA	MIVLALDTSGVDCSACVYDSASDRVLGEVCETIGKGHAERLMAVIDGALERAQLSLQNIGRIAVTIGPGSFTGIRVGVAAARGFALSLGVEAVGVTTLETLALHHLLANPGRSVAVALDAKRGEAYLQTFGADGSPLSDAALLPLDDAKTVTTGFDGAVIGSAAPLLAGLEAGSGPDHFPIASVARAAARKPAGQPKPAPLYLRGPDARPQTGFALARQGVA				NA	NA	NA	NA	NA
BMS010_01876	561	nfuA_1		Fe/S biogenesis protein NfuA	ATGTTCATTCAGACGGAAGCCACGCCGAACCCGACAACGCTGAAGTTCCTGCCGGGCAAGGTGGTGCTGGAAAGCGGTACGGCTGAGTTTCTCAACCCGTCGCAGGCGCAGGCTTCGCCGCTGGCGGAGCGCCTCTTCACCATTCCGGGCGTGACCGGCGTTTATTTCGGTTTCGATTTCATCACCGTCACCAAGGACGGTGCGGAATGGCAGCACCTGAAGCCTGCTATTCTGGGCTCGATCATGGAACATTTCATGTCCGGCCGCCCGATCATGGGCACGGCTGTTGCGGCTGAAGTGTCGGATGAGGGCGAATTCTTCGAAGAGGGTGACGAAACCATCGTCGCCACCATCAAGGAGTTGCTGGATACCCGCGTTCGCCCCGCCGTGGCGCAGGATGGCGGCGATATCACCTTCCGCGGTTTCCGCGACGGCACGGTGTTCCTGAACATGAAGGGCGCCTGCTCGGGTTGCCCGTCCTCCACCGCCACGCTGAAGCATGGCGTTCAGAATCTGCTTCGCCATTTCGTGCCGGAAGTGCGCGAAGTCGAAGCGGTATAA	MFIQTEATPNPTTLKFLPGKVVLESGTAEFLNPSQAQASPLAERLFTIPGVTGVYFGFDFITVTKDGAEWQHLKPAILGSIMEHFMSGRPIMGTAVAAEVSDEGEFFEEGDETIVATIKELLDTRVRPAVAQDGGDITFRGFRDGTVFLNMKGACSGCPSSTATLKHGVQNLLRHFVPEVREVEAV				NA	NA	NA	NA	NA
BMS010_01877	492			hypothetical protein	ATGGTTTCAAAACGGCTGTCGCGTCTGGAAGGGCATCGTCGCAAATTTCTCGCTGTTATCGATGACACACCGGAATGCGAAAGGGCCGTGCACTATGCCGGTCGTCGTGCCAAGAACTCCAATGGCGGGCTGGTGCTGCTCTACATGATCCCGGAAGGCGATTTCCAGCAATGGCTGGGTGTCGAGCAGATCATGCGGGCCGAAGCGCGTGAGGAGGCGGAAGCCACGCTTGCCAAGATCGCCCAGAAGGTGCGCGAGACCATCGGCATCGAGCCGGAAGCGGTGATCCGCGAAGGCAGCGCCACCGAGCAAATCCACGGGCTGATCGAGGAAGACCGCGATATCGCGATTCTCGTTCTGGCAGCAGGTTCGACGAAGGAAGGGCCGGGACCGCTTGTTTCCTCCATCGCCGGACGTGGGGCAGCCTTTCCCATTCCCGTCACCGTGTTACCGGATACGCTGTCGGACGAGGAAATCGACGCGCTCTGCTGA	MVSKRLSRLEGHRRKFLAVIDDTPECERAVHYAGRRAKNSNGGLVLLYMIPEGDFQQWLGVEQIMRAEAREEAEATLAKIAQKVRETIGIEPEAVIREGSATEQIHGLIEEDRDIAILVLAAGSTKEGPGPLVSSIAGRGAAFPIPVTVLPDTLSDEEIDALC				NA	NA	NA	NA	NA
BMS010_01878	1065	trpS	COG0180	Tryptophan--tRNA ligase	ATGAACGCATTCAAGCCGCTGGTTTTCTCGGGCGTCCAGCCGACCGGCAATCTGCATCTCGGTAATTATCTCGGCGCCATCCGCAAATTCGTGGCGCTGCAGGAAGATAACGACTGCATCTATTGCGTCGTCGATATGCATGCCATCACCGCCCAGCTCGTTCATACGGACCTGAAGGCGCAGACCCGCTCGATTGCGGCCGCCTTCATCGCCTCGGGCATCGACCCTGTAAAACATATCGTCTTCAACCAGTCGGCCGTGCCGCAGCATGCGGAACTCGCATGGGTGTTCAACTGCGTGGCGCGCATCGGCTGGATGGAGCGCATGACGCAGTTCAAGGACAAGTCCGGCAAGAATGCCGAACAGGTCTCGCTCGGCCTGCTGGCCTATCCGAGCCTGATGGCTGCCGACATTCTCGTCTATCGCGCCACGCATGTTCCGGTTGGTGATGACCAGAAGCAGCATCTGGAACTTGCCCGCGATATCGCCCAGAAGTTCAATATCGATTTCGGCGATCATATCCGCAAGGCGGGTCTCGGGCTCGATATCACCGTGGGCGATGAGCCGGTGCACGCCTATTTCCCGATGGTGGAGCCGTTGATCGGCGGCCCGGCGCCGCGCGTGATGTCGCTCAAGGACGGCACCAAGAAAATGTCGAAGTCCGACCCTTCCGATCTTTCGCGCATCAACCTGATGGATGATGTCGATGCCATCTCGAAGAAGATCAAGAAGGCAAAGACCGATCCGGACGCGCTGCCGAGCGAAGTGGAAGGCCTCAAAGGTCGCCCCGAGGCCGAAAACCTCGTCGGCATCTATGCTGCTCTCTCCGACAGGACCAAGGCGGATGTTCTTTCCGAATTCGGCGGACAGCAGTTCTCGGCGTTCAAGCCGGCCCTCGTCGAGCTTGCCGTCAATGTTCTGGCCCCCGTCAACAACGAGATGCGCCGCCTTCTCGATGACCCGACCCATATCGACGCCATCCTCAAACAGGGCGGCGAGCGGGCACGCACCATCGCCGAAAAGACGATGAACGAGGTACGCGACATCATCGGCTTCCTGCGCTGA	MNAFKPLVFSGVQPTGNLHLGNYLGAIRKFVALQEDNDCIYCVVDMHAITAQLVHTDLKAQTRSIAAAFIASGIDPVKHIVFNQSAVPQHAELAWVFNCVARIGWMERMTQFKDKSGKNAEQVSLGLLAYPSLMAADILVYRATHVPVGDDQKQHLELARDIAQKFNIDFGDHIRKAGLGLDITVGDEPVHAYFPMVEPLIGGPAPRVMSLKDGTKKMSKSDPSDLSRINLMDDVDAISKKIKKAKTDPDALPSEVEGLKGRPEAENLVGIYAALSDRTKADVLSEFGGQQFSAFKPALVELAVNVLAPVNNEMRRLLDDPTHIDAILKQGGERARTIAEKTMNEVRDIIGFLR	PGPT0007120_2510	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007120-trpS-K01867	NA	NA
BMS010_01879	405			hypothetical protein	ATGTCATTTTCTGAAAACCGCCGCGTCGCGCTCGTCACGCTTGTCGTGGATGATTACGATCGGGCGAAGGCGTTTTATTGCGACATTCTCGGGTTCGAATGCCTGTCCGATCAGCTGCTTGGCGACGCCAAGCGGTGGCTGGTGGTGAAACCGCAAGGAACCGATGGCGGGGGCCTGCTGCTTGCCGAGGCCGATGGCGAAGAGCAGCGCCTTGCGATCGGCAACCAGACCGGCGGCCGTGTCGGATTTTTCCTGTATACCGACAATTTCCAGCGCGATTACGAGACCATGCTCGTCCGCGGCGTGCGCTTTGTGGAAGCACCGCGCCACGAGGTTTACGGCTCCGTTGCGGTCTTTGCCGATCCTTATGGAAATCGCTGGGATCTTCTGGAGCCGCACGGCTGA	MSFSENRRVALVTLVVDDYDRAKAFYCDILGFECLSDQLLGDAKRWLVVKPQGTDGGGLLLAEADGEEQRLAIGNQTGGRVGFFLYTDNFQRDYETMLVRGVRFVEAPRHEVYGSVAVFADPYGNRWDLLEPHG	PGPT0013300_2823	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BLEOMYCIN_RESISTANCE,PGPT0013300-gloA|ywbC-K01759	NA	NA
BMS010_01880	1590	murJ_1	COG0728	putative lipid II flippase MurJ	ATGAGCCTGATCGGCAAGTTCGCCACAGTCGGCACAGCCACGCTCGGCAGCCGCATCTTCGGCTTCCTGCGCGAAACCCTGATGGCCGCCGCCGTCGGCACCGGCCCGGTGGCGGATGCCTTCAATGCTGCTTTCCGTTTCCCCAATACCTTCCGGCGGCTGTTTGCTGAAGGCGCTTTCAACTCGGCCTTCGTGCCGCTTTTCGCCAAGGAAATCGAGGCGAACGGCATGGAAGGCGCGAGACGCTTTTCCGAGGAAGTCTTCGGCGTCCTGTTCACCGTGCTTTTGGCCCTGACGATCCTGATGGAACTGTCGATGCCATTCATCGTGCGCACGGTGATCGCGCCGGGCTTTCTGGACGACCCGGTGAAATTCGACAACACCGTGCATCTCGCCACCATCATGTTCCCCTATCTCGCCTGCATGTCTCTGGCGGCAATGATGGGCGGCATGCTGAACTCTCTGCACCGTTATTTTGCGGCGGCGATTGCTCCCGTATTCCTTAATATCATTCTCATCGGCGTGCTCGGGCTGGCTTGGTGGAAGAATTACGATCCGCTTCAAGTCGGCTATGCGCTTTCATGGGGTGTGATGGCAGCGGGTCTGGTGCAGCTCGCCATCGTCTGGATTGCGGTGCGCAATGCCGGCATGCGAATTGGTTTTCGCAGACCACGGCTGACGAAGAATGTGCAGCGCCTTCTGGTCCTTGCCCTGCCGGCAGCCATCACCGGCGGTATTACCCAGATCAATCTGCTTATCAACACCAACATCGCTTCCGGCGGCGAAGGCGTTATATCCTCGCTTGCCTATGCGGACCGAATCTATCAACTGCCGCTCGGCGTCGTCGGCATTGCCGTCGCCACGGTCCTTCTGCCGGAATTGGCGCGGGCGCTGCGCGGCGGCCATATGGTGGAAGCCGGAAGCCTGCAGAACCGCTCGGTCGAGTTCGTGCTCTTCCTGACCCTTCCCGCTGCCGCAGCACTTCTCGTCATGGCCGAACCCATCGTTCGTTTCCTTTACGAGCGCGGCAATTTCTCGCCCTCCGCCACCTTCACCGTTGCGCAAATTCTTGGCATCTATGGTCTGGGCCTGCCGGCTTTTGTGCTGATCAAGGCCTTCATTCCGGGCTTCTTCGCCCGTGAGGATACGCGCACACCGATGATCTTCGCGGCGATTTCCGTTGTCGTGAATGTCTCGCTGGCGCTGACGCTGTTTCCGCGTCTTGGAGGCCCCGGCATTGCCATTGCCGAAATCACCGCAGGCTGGGTGAATGCCGCCCTGCTGTTCGGCATGCTTTTGTGGCGTGGTCACTGGCATGTGGATATTCCGCTTCTGACCCGTATCCCGCGCCTGCTGCTTGCAGCAGCACTGATGGCCGTGTTTGTGCATTATGCGCTGACGTGGCTGACCTTCGAGCTGTCTTCCGCCTCCTCCATCTTCGTGCGTGCCGGCACGATCATGGCCCTCGTCTTTGCCGCCATGCTGGTCTATTTCGTCCTGGCTTTCGTGTCTGGAGGCGCCGATATCGGTATGGTGAAGAGGGCCGTACGCAAGCGCGGAAAAAAGAACGTCGAGACGGATGCTGGCTGA	MSLIGKFATVGTATLGSRIFGFLRETLMAAAVGTGPVADAFNAAFRFPNTFRRLFAEGAFNSAFVPLFAKEIEANGMEGARRFSEEVFGVLFTVLLALTILMELSMPFIVRTVIAPGFLDDPVKFDNTVHLATIMFPYLACMSLAAMMGGMLNSLHRYFAAAIAPVFLNIILIGVLGLAWWKNYDPLQVGYALSWGVMAAGLVQLAIVWIAVRNAGMRIGFRRPRLTKNVQRLLVLALPAAITGGITQINLLINTNIASGGEGVISSLAYADRIYQLPLGVVGIAVATVLLPELARALRGGHMVEAGSLQNRSVEFVLFLTLPAAAALLVMAEPIVRFLYERGNFSPSATFTVAQILGIYGLGLPAFVLIKAFIPGFFAREDTRTPMIFAAISVVVNVSLALTLFPRLGGPGIAIAEITAGWVNAALLFGMLLWRGHWHVDIPLLTRIPRLLLAAALMAVFVHYALTWLTFELSSASSIFVRAGTIMALVFAAMLVYFVLAFVSGGADIGMVKRAVRKRGKKNVETDAG	PGPT0024200_1656	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_LIPID_II_FLIPPASE_ACTIVITY,PGPT0024200-murJ|mviN-K03980	NA	NA
BMS010_01881	2829	glnD_1	COG2844	Bifunctional uridylyltransferase/uridylyl-removing enzyme	ATGGCCATCAAGGACCTGGATTTTTCCGACATTCTCGATGTATCGGCGCTGAAGCGCGACTGTGACATCATCTTCAAGGAAGACGGCAAACGCATCGCCGATATCAAGTCCGATCTACTGCCGATCTTCCGCAAGGCCAGTACGGAAGGCCGGGAAAAGGCCAGAGAACTACTGAAAGCCGATGGCAGCGGCATTGACTGCGCCCGGCGCATCTCCTGGCTCCAGGATCGGCTGATCGAAACGCTCTATGATCTCGCCTGCCAATACGTCTATCCGAAAGATGCGCCGCAGATCGCGGTCGCCGCGGTTGGCGGTTACGGACGCGGCACACTGGCGCCGGGATCGGATATCGACCTCCTGTTCCTGTTGCCGGCCAAGAACACGCCCGACATGCACAAGGCCGTGGAATTCGTGCTCTACCTCCTCTGGGACCTCGGTTTCAAGGTCGGCCACGCCACCCGCACGGTGGATGAATGCATTCGCCTCTCCAAATCCGACATGACGATCCGCACGGCGATTCTGGAAGTGCGGGCGATCTGCGGCAAGAAATCCCTGACCGACGATCTCGAAAAACGCTTCGAGTCGGAAGTCGTCACCGGCACAGGCCCGGAATTCATCGCCGCCAAGCTCGCCGAGCGCGACCAGCGTCACCGCAAGGCCGGCGATACGCGTTATCTGGTGGAGCCGAACGTCAAGGAAGGCAAGGGCGGCTTGCGCGACCTGCACACGCTGTTCTGGATCGCCAAATATTATTACCACGTCCGCGACACGGCCGATCTGGTGAAGCTCGGTGTTCTGTCGAGATCCGAACTGAAACTGTTCGAAAAGGCCGACGATTTTCTCTGGGCCGTCCGTTGCCAGATGCATTTCATCACCGGCAAGGCGGAAGAACGCCTTTCCTTCGATATTCAGCGCGAAATTGCCGATGCGCTGAACTATCAGCCGCGCCCCGGCCTCTCCGCCGTCGAACGCTTCATGAAGCACTATTTCCTCGTCGCTAAAGATGTCGGTGATCTGACGCGCATCGTCTGCGCCGCTCTGGAAGACCGGCAGGCGAAGGATGTGCCGGGCCTTTCCGGTGTTCTGAGCCGCTTTGCCCATCGCGTGCGTAAAATCCCCGGCTCGGTGGAATTCGTCGAGGATCGGGGGCGCATCGCGCTTGCCAAACCCGACGTCTTCAAGAACGACCCGGTCAATCTGATCCGGCTGTTCCACATTGCCGATATCAACAATCTCGAACTGCATCCCGATGCGCTGCGTGTCGTCACCCGCTCGCTGTCGCTCATCAATGACGAGCTGCGGGAAAACGAAGAGGCAAACCGGCTCTTCCTGTCGATCCTGACGTCCCGGCGCGATCCGGCGCTGACCCTGCGCCGCATGAACGAGGCAGGCGTGCTCGGCAAGTTCATCCCCGAATTCGGCAAGATCGTCGCGATGATGCAGTTCAACATGTATCATCACTATACGGTGGATGAGCATCTGATCCGCTCTGTCGGCGTGCTGTCGGAAGTGGACAAGGGAACGGCTGTCGATGCCCACCCGCTCGCCAACCAGCTGATGCCGAGCGTCGAGGAACGTGAGGCGCTCTATGTTGCCGTTCTGTTGCATGATGTGGCAAAGGGCCGGCAGGAAGACCACTCGATTGCCGGCGCGCGTGTGGCCCGCAAGCTCTGCCAACGTTTTCGCCTCACCGGCAAGCAGACCGAAACGGTGGTCTGGCTGATCGAGCAGCATCTTTTGATGTCCATGGTCGCCCAGACGCGCGATCTGCATGACCGCAAGACCATCACCGATTTTGCCGACAAGGTGCAGTCCATGGAGCGGCTGAAGATGCTGCTCATCCTGACGGTCTGCGATATCCGCGCCGTCGGTCCGGGCGTGTGGAACGGCTGGAAGGGGCAGCTGCTGCGTTCGCTTTATTACGAGACCGAACTGCTGCTGTCGGGCGGCTTCTCGGAAGTCTCCCGCAAGGAGCGCGCTCAGATCGCCCGGCAGGCGCTCTACGACGCCCTCGACGACTGGGGCCAGAAGGCGCGGCGTAAATATACCAAGCTGCACTACGAGCCCTATCTGCTGACGGTGGCGCTCGAAGACCAGGTGCGCCATACCCGCTTCATCCGTGAGGCCGACAAGCAGGAAAAAGCGCTGTCGACCATGGTGCGCACCCATTCCTTCCACGCCATCACCGAAATCACCGTGCTGGCGCCCGACCATCCGCGTCTGCTGTCCATCATCACCGGCGCCTGTGCTGCCGCCGGCGCCAATATCGCCGATGCGCAGATCTTCACGACGTCCGATGGGCGGGCGCTCGATACGATCCTCATCAACCGCGAATTTCCGATCGATGAGGACGAGACGCGGCGCGGCAACAATGTCGGCAAGCTCATCGAGGAGGTTCTCTCCGGCAAGCAGCGCCTGCCGGAAATGATCGCCACGCGCACCAAGAGCCGCAAGAAGAAGAGCGCCTTCACCATTCCGCCCTCGGTCATCATCTCAAACGGGCTTTCGAACAAGTTCACCGTTATCGAAGTGGAATGCCTCGACCGGCCGGGGCTTCTGGCGGATATGACGGCCGTTATCGCGGATCTGTCGCTCGATATTCACTCCGCCCGCATCACCACCTTCGGCGAAAAGGTCATCGATACATTCTATGTGACGGACCTCTTCGGCCAGAAGGTGACGAATGACAACCGGCAGGCCAGCATCGCCACGCGCCTGAAGGCGGTGATGAGCGAGCAGGAAGACGAATTGCGAGACCGTATGCCGAACGGCATCATCGCCCATCCAGACGTGGCGGCCCTGCCGGCCGCGCGAACGGCAAAGGCTTGA	MAIKDLDFSDILDVSALKRDCDIIFKEDGKRIADIKSDLLPIFRKASTEGREKARELLKADGSGIDCARRISWLQDRLIETLYDLACQYVYPKDAPQIAVAAVGGYGRGTLAPGSDIDLLFLLPAKNTPDMHKAVEFVLYLLWDLGFKVGHATRTVDECIRLSKSDMTIRTAILEVRAICGKKSLTDDLEKRFESEVVTGTGPEFIAAKLAERDQRHRKAGDTRYLVEPNVKEGKGGLRDLHTLFWIAKYYYHVRDTADLVKLGVLSRSELKLFEKADDFLWAVRCQMHFITGKAEERLSFDIQREIADALNYQPRPGLSAVERFMKHYFLVAKDVGDLTRIVCAALEDRQAKDVPGLSGVLSRFAHRVRKIPGSVEFVEDRGRIALAKPDVFKNDPVNLIRLFHIADINNLELHPDALRVVTRSLSLINDELRENEEANRLFLSILTSRRDPALTLRRMNEAGVLGKFIPEFGKIVAMMQFNMYHHYTVDEHLIRSVGVLSEVDKGTAVDAHPLANQLMPSVEEREALYVAVLLHDVAKGRQEDHSIAGARVARKLCQRFRLTGKQTETVVWLIEQHLLMSMVAQTRDLHDRKTITDFADKVQSMERLKMLLILTVCDIRAVGPGVWNGWKGQLLRSLYYETELLLSGGFSEVSRKERAQIARQALYDALDDWGQKARRKYTKLHYEPYLLTVALEDQVRHTRFIREADKQEKALSTMVRTHSFHAITEITVLAPDHPRLLSIITGACAAAGANIADAQIFTTSDGRALDTILINREFPIDEDETRRGNNVGKLIEEVLSGKQRLPEMIATRTKSRKKKSAFTIPPSVIISNGLSNKFTVIEVECLDRPGLLADMTAVIADLSLDIHSARITTFGEKVIDTFYVTDLFGQKVTNDNRQASIATRLKAVMSEQEDELRDRMPNGIIAHPDVAALPAARTAKA	PGPT0000660_154	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	GLN-NITROGEN_REGULATORY_SYSTEM,PGPT0000660-glnD-K00990	NA	NA
BMS010_01882	2715	mutS_1	COG0249	DNA mismatch repair protein MutS	TTGACGGACGTTCTGACAACCGCTTCCCTGATCTCGGAAGAGAGCCGCGCGACGGCCACTCCGATGATGGAGCAATATATCGAGATCAAGGCGAACAATCCCGGTTCGCTGCTGTTTTACCGCATGGGCGATTTTTACGAATTGTTCTTCGACGATGCGGTCGAAGCCTCCCGCGCTCTGGGCATCACGCTGACGAAACGCGGCCAGCATATGGGTCACGATATTCCCATGTGCGGCGTCCCCGTCCATGCGGCGGATGATTATCTGCAGAAACTCATCCTGCGCGGTTATCGCGTTGCCGTCTGCGAACAGGTGGAGGATCCGGCGGAAGCCAAGAAGCGCGGTTCTAAATCCGTGGTCAAGCGTGATGTGGTGCGGCTTGTCACGCCCGGTACGCTGACCGAAGAAAAACTGCTGTCCCCGACGGAATCCAATTATCTGATGGCGCTTGCCCGCATTCGCGGCAGTGCCGAGGCGCAGTTTGCGCTCGCCTGGATCGATATTTCCACCGGCGTCTTCCGTCTGGCGGAAACCACGCTGACGCGGCTTCTGGCCGATATCTGGCGCATCGATCCGCGCGAGTTGATCGTCGCCGACAGCCTCTTCCATGACGAGGAACTGCGGCCGGTCTTCGATGTGCTTGGCCGCGTGGCCGTGCCGCAGCCGGCGATCCTCTTCGACAGCGCCACGGCGGAAGGGCGCATCGCGCGTTATTTCAACGTCTCGACGCTGGACGGCTTCGGCACCTTTTCGCGGGTGGAAATGGCGGCCGCCGCCGCTGCCGTCGCCTATGTCGAGAAAACCCAGATCGCCGAGCGCCCGCCGCTCGGTGCGCCGGAGCGCGAAAGCGCCGCTTCGACCCTTTTCATCGACCCCGCCACCCGCGCCAATCTGGAGCTGGTAAAGACGCTGTCGGGCGAGAGGGACGGATCGCTGCTGCATGCACTGAACCGCACGGTAACAGGCGGTGGCGCGCGGCTTCTGGCCGAGCGGCTGATGTCGCCCTTGACCGACCCGGAAAGGATCAACGCTCGCCTCGATGCCGTGGCCTATCTGATCGATGACGTCTCGCTGTGTGACGGCCTGCGTGATGCGCTGAAACAGGTTGCGGATATGCCGCGTGCGCTCTCCCGTCTTGCGCTGGAGCGCGGCGGCCCGCGCGATCTCGGCGCCATCAGGCAGGGGCTGGCTTCTGCCGAGAAGATTGCCGCCATTCTCGATCAGGGATTGTTGCCGGACGAGCTGGCGGCGGCGCTCGCCGATTTGAAAGCCCTGCCCGGCGGTCTCGAAGCCATGCTCGGCTCGATGCTTGCCGACGATCTCCCGCTTCTGAAGCGTGATGGCGGTTTCCTGCGTGAAGGCGCCAATCCCGAACTCGACGAGGTGCGGGCGCTTCGCGACCAGTCGCGCCGGGTGATTGCCGGGCTGCAACTGAAATATGCCGATGAGACCGGCATCAAGTCGCTCAAGATCAAGCACAACAATGTGCTGGGTTATTTTATCGAGGTCACGGCCGGCAATGCCGATGTAATGATAGCGACGGACGAGGCTAAGGCCCGTTTCATCCACCGCCAGACCATGGCAGGCGCCATGCGCTTCACCACAACCGAGCTTGCCGATCTCGAAAGCCGCATCGCCAATGCCGCTGCGCAGGCTTTGACCATGGAACTGGAAGCCTTCGAACGCATGGTCAGGGCTGTGGTACAGCAGGCGGAAGCGATCAAGGCCGGCGCACTGGCGCTCGCCGTGATCGATGTCGCCTCTAGCCTTGCTTATCTCGCGACCGAACAGGCCTATTGCCGCCCGATTGTTGATGCCTCCATGACCTTTGCGATCAAGGGCGGGCGGCACCCGGTGGTGGAGCAGGCGTTGCGGCGGCAGTCTGCCGGACCCTTCATCGCCAATAATTGCGATCTTTCAGCAGTCAACGGTGGTAAGAACGGCGCGATATGGCTGCTCACCGGCCCAAATATGGGCGGTAAATCGACCTTCCTGCGCCAGAATGCGCTGATCGCCATCCTCGCGCAGATCGGTTCCTTCGTTCCGGCGGAAGCCGCCCATATCGGCGTCGTCGACCGGCTGTTTTCCCGTGTCGGCGCCTCCGACGATCTGGCGCGCGGCCGCTCGACCTTCATGGTTGAAATGGTGGAAACCGCTGCCATCCTCAATCAGGCGACGGATCGCTCGCTGGTCATTCTGGATGAGATCGGCCGGGGTACGGCGACCTTTGACGGTCTTTCCATCGCCTGGGCGGCGGTGGAGCATCTGCACGAGGTCAATCGTTGCCGTGGTCTCTTCGCTACCCACTTCCACGAATTGACCGTGCTGTCGGAAAAGCTCGGCCGCCTTTCCAATGCCACGATGCGGGTGAAGGAGTGGGAAGGTGACGTCATCTTCCTGCACGAGGTCGGACCGGGTGCTGCGGATCGTTCCTATGGTATTCAGGTGGCCCGGCTTGCGGGCTTGCCTGCATCGGTGGTGGAACGCGCCCGCGAGGTGCTGACGAAGCTTGAAGATGCCGACCGCAAGAACCCGGCCAGCCAGTTGATCGACGATCTGCCGCTGTTCCAGATCGCGGTTCGCCGCGAGGAAACCCGCAAGGCCGGACCATCGAAGCTGGAGGAAGCTCTGAAAGGCTTCAACCCCGACGAAATGACGCCGCGTGAGGCATTGGACGCGCTCTATACGTTGAAGAAAGAACTTGGCAAGGCTTAA	MTDVLTTASLISEESRATATPMMEQYIEIKANNPGSLLFYRMGDFYELFFDDAVEASRALGITLTKRGQHMGHDIPMCGVPVHAADDYLQKLILRGYRVAVCEQVEDPAEAKKRGSKSVVKRDVVRLVTPGTLTEEKLLSPTESNYLMALARIRGSAEAQFALAWIDISTGVFRLAETTLTRLLADIWRIDPRELIVADSLFHDEELRPVFDVLGRVAVPQPAILFDSATAEGRIARYFNVSTLDGFGTFSRVEMAAAAAAVAYVEKTQIAERPPLGAPERESAASTLFIDPATRANLELVKTLSGERDGSLLHALNRTVTGGGARLLAERLMSPLTDPERINARLDAVAYLIDDVSLCDGLRDALKQVADMPRALSRLALERGGPRDLGAIRQGLASAEKIAAILDQGLLPDELAAALADLKALPGGLEAMLGSMLADDLPLLKRDGGFLREGANPELDEVRALRDQSRRVIAGLQLKYADETGIKSLKIKHNNVLGYFIEVTAGNADVMIATDEAKARFIHRQTMAGAMRFTTTELADLESRIANAAAQALTMELEAFERMVRAVVQQAEAIKAGALALAVIDVASSLAYLATEQAYCRPIVDASMTFAIKGGRHPVVEQALRRQSAGPFIANNCDLSAVNGGKNGAIWLLTGPNMGGKSTFLRQNALIAILAQIGSFVPAEAAHIGVVDRLFSRVGASDDLARGRSTFMVEMVETAAILNQATDRSLVILDEIGRGTATFDGLSIAWAAVEHLHEVNRCRGLFATHFHELTVLSEKLGRLSNATMRVKEWEGDVIFLHEVGPGAADRSYGIQVARLAGLPASVVERAREVLTKLEDADRKNPASQLIDDLPLFQIAVRREETRKAGPSKLEEALKGFNPDEMTPREALDALYTLKKELGKA				NA	NA	NA	NA	NA
BMS010_01883	882			hypothetical protein	ATGGTTGCCGAAATCCTCAATCACGACATTTGTGAAAACAATGTTGTCATTCATCCTCGTCCCGAGGCAGCTCAGGACAATGAGGGTCTTTTCGGCCGTATCGGCACGCTGGAAACACGGCTCGCCAGAAATGAACGCGAGATCGATGCCGCGCAATCCGTGCGTTACCGTGTTTTCGTCGAGGAAATGAAGGCGCGGCTTCCCGCGGAAGCCATGCGCCGCAAGCGCGACATCGATGCCTGGGACAGCGTCTGCGACCATCTGCTGGTGCTCGACAAGGCGATCGAAGGCGACAGCGAAGACCAGATCGTCGGCACCTATCGCCTGCTGCGGCAGGAAATCGCGCTTGCCAATAACGGTTTTTATTCCGCCAGCGAATTCGATATCGCCGGTCTCGTCGCGCGCCATCCGGGCAAGCGTTTCATGGAGCTTGGCCGTTCCTGCGTGCTGCCGGAATATCGCACCAAACGCACCGTCGAGCTTCTGTGGCAGGGCAACTGGGCCTATGCCGTAAAACACCGCATGGATGCCATGATCGGCTGCGCCTCCTTCCCCGGCGTGCAGCCGGAAGCCCACGCGCTTGCCCTGTCTTTCCTGCACCATAATTGCGTGGCCAAGGGTGAGTGGGAAGCTTCCGCCCTTCCCGAGCTTTATCATGAGATGGACCTTGTGCCGGCAGAGGCGCTCAACGCCCGCAAGGCGCTGAACGCCATGCCGCCGCTGATCAAAGGCTATATGCGCCTCGGCGCCATGTTCGGCTCCGGCGCGGTCGTGGACCATGCCTTCAATACCACAGACGTCCTCGTAGTCCTGCCGGTTTCGTCCATCGCCGGCCGTTACATCAGCTATTATGGCGGCGAGGCCGAGCGCATCAACGGCTGA	MVAEILNHDICENNVVIHPRPEAAQDNEGLFGRIGTLETRLARNEREIDAAQSVRYRVFVEEMKARLPAEAMRRKRDIDAWDSVCDHLLVLDKAIEGDSEDQIVGTYRLLRQEIALANNGFYSASEFDIAGLVARHPGKRFMELGRSCVLPEYRTKRTVELLWQGNWAYAVKHRMDAMIGCASFPGVQPEAHALALSFLHHNCVAKGEWEASALPELYHEMDLVPAEALNARKALNAMPPLIKGYMRLGAMFGSGAVVDHAFNTTDVLVVLPVSSIAGRYISYYGGEAERING	PGPT0014470_144	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULE-ORNITHINE_LIPIDS_BIOSYNTHESIS,PGPT0014470-olsB-K22310	NA	NA
BMS010_01884	2247	rcsC_5		Sensor histidine kinase RcsC	ATGAGCGAACTGGCAAGACTTCGGCAGAAGGTTTCAGACGAGCTGGGCCTGGCCGCGACGGCGGCGCAGCCGGCGGATCGTGTCGAGGCAACAACGCGCCATGCTGATGAAGAACATGCGACCGATACCAGGTCGATTGCGCTCTATGTCGCCGCGTCGTTATCGGTCGGGGCTTTTTCCGCAGCCCTGATCGCGCTTGCGGTGCCTTATGCGGTTACCGTTGCGCTGGCGACCTTCTTTGGCGCGGTTCTCGTCGGTGTGCTGCTCTATGCGCTCTTTGATGAATCTTTCCATCAGCCCACCGTGCGGGCTGCGGATTCCGATCTTCAGCTGCGGCAAACGCAAAACCGCTCGCTGATTGCCGAGATGCAGGAATTCATGGGCGATATCGTCGTGATCCGTGACATGAACCGGCGCATTGTCGAAGCGAACCGGGTCTTTCGCGAAATGACCGGCTGTGCGGCGCCCGAAGGGCTGAGCTGCGAGGAAATCGGCATCGCTTTCCGTCCGGGCGACAAGGTCCATGCCTATGATGTGGAGATCGCAACCCCGTTCGGTCAGCGCATCTTTTCCTGGCATGATGTCGTGACCCGCGATCTGGCAAGCAGCCGTCTTCTCATCAGCAGCATCGCCCGAGACGTGACCGAAGAGCGGCTTGCGCTCGGCGAGCGCGAGGACGCCCGGCTGCGCGCCGAAAAGGCCGATGCCGAAAAGGCGCGGCTGCTTGCCACCGTAAGCCATGAAATTCGCCTGCCGCTTTCCGGCATGCTCGGCATGAACCATCTTCTGTCGCAGACGAGGCTCAACGAGGAGCAGCGAAATTATCTCGATGGCATGCGGCAATCCGGCCAGTCGCTGGTGCAGCTTGTCGAGGATCTGCTGGATTATTCGACCATGGAGGCCGGCCGTTTCAGGCTCAATCCGCGCGCGGAAAACCTGCGCCGGCTGATCGAGAGCATCGTCGAGATGCTGGCCCATCGCGCCCATGAAAAAGGTATAGAAATCACCTCCTTCGTTGCGCCGAATGTGCCCGATCATCTCGATTTCGACCCGGCGAGGCTACGTCAGGTCCTCTTCAATCTCCTCGGCAATGCCGTCAAATTCACGCAGGAAGGCGGCGTCGTCATCCGGGCGCGCATGGCCGACGACGAATTGCACATTGCCGTCGAGGATACCGGCCCGGGCATGAGCCGGGCGGAACAGGCCCGTATTTTTGGGGAATTCGAGCAGGCGGGCCCGTTGTCGCAGCGAAGCGCCGGCACCGGCCTTGGACTTGCGATTTCCGCCCGTATCGTGCGGGAATTCGGCGGCCGCCTCACGGTTTCCAGCCGCAAGGGCAAGGGCAGCACGTTCAAACTGGCGTTTCGCCCGGCGGGCGCCCCTGCCGAAATGGCGGATCCGGGACGGCGTCATTGCCTGCGGCATACAAATGTCCTGCTCATCGCACCGAAGGGCGTGGCGGCGGCGGTGACGATGGAGGCGATCGAGGCTTTCGGCGGTCAATGCACTCTCATCCATCAGCCTGAGGATCTGGAAAAGCTGAGGAAGGGTTCTGCCACGCGAGCGGCCGACCTTACCGATATCATCGTCGACCGGCGCATTTCGCCGCTGTTCAGGGACGCCCTGAGGGATTGGCCGCAACAGAATGTCCGCCGCACGCTGCTGGTCAGCCCCGAAGAGCGGCCGTCGACCATGCATGTGGCCTTCGATGCCTGGTTGATCCGGCCGCTACGGGAAAAATCCCTGATCGACGTCCTGTGCGGCCGTCTGCGCGGCATTGAGAGGCGCGACGCCATCAACGACAACCACCCGGATGTGGGATTTTCCTCGCGGGTGGCGGAAGGGGCGAGCGGTATCGAGATACTCGTGGCCGAAGACGATGCCGTCAATCAGCGCATCATCCGCGCCGTTCTGGAAAAAAGCGGCTATATCGTCCGCGCTGTCGAGGACTTTGAGGCGTTGCGGCAATCTGTGGAGCCGGGCGCAACCCGCCTGCCTGATCTCATCGTCTCCGATCTCAACATGCCGGGCGGCGAGGGGCTGGATGTGCTTCCCGACCTTCTCCATCAGCTGAAGGGCGAAAGAAATATTCCCGTCATCGTACTCAGCGCAGATGCAAGTGACGCGACTGCCGAAATCCTGCTTGGGGCTGGTGTCGGTGCGGTTTTGACCAAGCCTGCCGACCCGCGACGGCTGGTTGAGGAAATTCGCCGTCTGCTGGAGGCGAAACGCCTGTCGCTATCATAA	MSELARLRQKVSDELGLAATAAQPADRVEATTRHADEEHATDTRSIALYVAASLSVGAFSAALIALAVPYAVTVALATFFGAVLVGVLLYALFDESFHQPTVRAADSDLQLRQTQNRSLIAEMQEFMGDIVVIRDMNRRIVEANRVFREMTGCAAPEGLSCEEIGIAFRPGDKVHAYDVEIATPFGQRIFSWHDVVTRDLASSRLLISSIARDVTEERLALGEREDARLRAEKADAEKARLLATVSHEIRLPLSGMLGMNHLLSQTRLNEEQRNYLDGMRQSGQSLVQLVEDLLDYSTMEAGRFRLNPRAENLRRLIESIVEMLAHRAHEKGIEITSFVAPNVPDHLDFDPARLRQVLFNLLGNAVKFTQEGGVVIRARMADDELHIAVEDTGPGMSRAEQARIFGEFEQAGPLSQRSAGTGLGLAISARIVREFGGRLTVSSRKGKGSTFKLAFRPAGAPAEMADPGRRHCLRHTNVLLIAPKGVAAAVTMEAIEAFGGQCTLIHQPEDLEKLRKGSATRAADLTDIIVDRRISPLFRDALRDWPQQNVRRTLLVSPEERPSTMHVAFDAWLIRPLREKSLIDVLCGRLRGIERRDAINDNHPDVGFSSRVAEGASGIEILVAEDDAVNQRIIRAVLEKSGYIVRAVEDFEALRQSVEPGATRLPDLIVSDLNMPGGEGLDVLPDLLHQLKGERNIPVIVLSADASDATAEILLGAGVGAVLTKPADPRRLVEEIRRLLEAKRLSLS				NA	NA	NA	NA	NA
BMS010_01885	489	lspA_1	COG0597	Lipoprotein signal peptidase	ATGCCCAAAGCGGCTTTGTTCTCGAAATTCGGCCCGGCCTTTGCTCTGATCGTCGCCGCACTGGTGCTGGACCAGATCGTCAAGCAGCTGGTCGAAGCCTATCTGCCGCTGCAGGAGATGGTTCCCGTTGCCCCGTTCCTGGCGCTTTACCGCACCTATAATCTCGGCGTGGCCTTTTCGATGCTGGAGGACATGCATGGCTGGTTCATCGTCAGCATGCGGCTCGTCATCGTGGTCTTCGTCTTATGGCTGTGGCGCAAGACGGCGGCGGACCGCACCTTTGCCCATCTCGGCTTTGCCTTCATTATCGCAGGTGCTGCCGGCAATCTGCTCGACCGTTTTTTTTATGGACATGTCATCGACTATATCCTGTTTCATACGCAGACATGGTCTTTCGCGGTCTTCAATCTGGCTGACAGTTTCATAACCATCGGCGCAGCCTGCGTCATTCTCGACGAGTTTTTGCACGCCCGGACGGCTAAAAAGTAA	MPKAALFSKFGPAFALIVAALVLDQIVKQLVEAYLPLQEMVPVAPFLALYRTYNLGVAFSMLEDMHGWFIVSMRLVIVVFVLWLWRKTAADRTFAHLGFAFIIAGAAGNLLDRFFYGHVIDYILFHTQTWSFAVFNLADSFITIGAACVILDEFLHARTAKK	PGPT0004770_3684	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_LEAD_RESISTANCE	LEAD_RESISTANCE-PBR_TRANSPORT_SYSTEM,PGPT0004770-pbrB|pbrC-K03101	NA	NA
BMS010_01886	861	aviRb		23S rRNA (uridine(2479)-2'-O)-methyltransferase	ATGACGAAGGACATGCGCGAAAACACCACGCGCCGGGTTGGCCAGGTCAAGGAAGTGACCAGCCTTGCCAATCCCATCATCAAGGATATCAAGGCGCTCACCCAGAAAAAGGGAAGGGAAGAGACCGGCACCTTCATGGCGGAAGGCCTGAAGCTGATCATCGACGCGCTCGAACTGGGCTGGACGATCAAGACGCTGGTTTATGCCAAGGCCGCCAAGGGCAAGCCGCTGGTGGAGCAGGCGGCGGTGAAGACGGTCGCATCGGGCGGTCTGGTGCTCGAAGTCAGCGAAAAGGTTATCGCCTCGATCACCCGCCGCGACAATCCGCAGATGGTCGTCGGCATTTTCGAACAGAAATGGAAGCCGCTGAAGGATATCCGCCCGGAAAAGGGCGAGACCTATATCGCGCTCGACCGGGTCCGCGATCCCGGCAATCTCGGCACCATCATCCGCACGGCGGATGCGGCAGGCGCTTCGGGTGTCATTCTGGTCGGGGATTGCACCGATCCCTTCTCGCTGGAAACGGTACGCGCCACCATGGGGTCGGTCTTCGCCACGCCCGTCGCCCGCGCTTCGGTCGAGGAATTCCTGTCATGGAAAAAGTCGGCGCAGGTCAGCGTCGTCGCCACCCATCTCGCCGGCTCGGTGGATTACCGAAAGATCGACTATGCCGGAAAGCCGGTCGTGCTCCTGATGGGCAATGAACAATCCGGCCTGCCGCCGGAACTCGCCGGCAAGGCCGACCAGCTCGCGCGCATTCCCCAGCAGGGCCGCGCCGACAGCCTCAATCTCGCCATCGCAACTGCCGTCATGCTGTTTGAAGCACGGCGACATCTCCTCGAACTCGCACCGGTGACGTAA	MTKDMRENTTRRVGQVKEVTSLANPIIKDIKALTQKKGREETGTFMAEGLKLIIDALELGWTIKTLVYAKAAKGKPLVEQAAVKTVASGGLVLEVSEKVIASITRRDNPQMVVGIFEQKWKPLKDIRPEKGETYIALDRVRDPGNLGTIIRTADAAGASGVILVGDCTDPFSLETVRATMGSVFATPVARASVEEFLSWKKSAQVSVVATHLAGSVDYRKIDYAGKPVVLLMGNEQSGLPPELAGKADQLARIPQQGRADSLNLAIATAVMLFEARRHLLELAPVT				NA	NA	NA	NA	NA
BMS010_01887	1134	rlmL_1		Ribosomal RNA large subunit methyltransferase K/L	TTGAAGAAAAAAGACAGCCGGCCGGGCAATCGCGCGCGCGCCGGGAGCGATAAAAAACAGGTCCATGCCGCAAAGCCGGCGCGCCGTGCGGATGCCGCATCGAAAAGGCGCGAGCCCGATGCGGTGCGCAACGTGCAGAAGGCCGCGCCGAAGGAAAAAACCGTTGTAGCGGTCGCTGTTGAACAGGTTCCTGCGCGCGCGCTTATGCAGCGCACCGGTGAACTGCCGGCAGAACAGGTTCCAGTCATTCTGGAATCAAGCGGCGCGGGCGATTTTCATCTGATTGACAGCGGCAACGGCCTGAAGCTCGAACAGTACGGTGACTACCGCGTCGTTCGTCCCGAGGCGCAGGCGCTGTGGCAGCCTTCCGTTCCTGATCGTGTGTGGCAGAATGCCGATGCCGTTTTTACCGGCGACACGGATGAGGACGGTATGGGGCGCTGGCGTTTCCCCAAGGCGGCTCTGGGTGAAACCTGGCCTCTCTCCCTGCTCGGGGTCGACTTTCTTGGCCGTTTCACCGCTTTCCGTCACGTCGGCGTCTTTCCGGAACAGATCGTCCATTGGGAATGGCTGAAAAATGCCGTCGAGACCGCAGACCGTCCGCTGAAAGTGCTGAACCTCTTCGGTTACACCGGCGTCGCGTCGCTGGTCGCGGCGGCCGCAGGCGCTGAAGTCACCCACGTGGATGCCTCCAAGAAGGCGATTGGCTGGGCCAAGGAAAATCAGGCACTTGCCGGGCTTGAACAGGCGCCGATCCGCTGGATTTGCGAAGACGCGATGAAGTTTATCCAGCGCGAGGAACGTCGCGGCAGCACATACGACATTATCCTCACCGACCCGCCGAAATTCGGCCGCGGCACCCATGGCGAGGTCTGGCAATTGTTCGACCATCTGCCGCTGATGCTCGATATCTGCCGGGAAATCCTGTCGCCCAAGGCGCTTGGCCTGGTGCTGACGGCCTATTCGATCAGGGCCAGCTTTTATTCGATGCATGAGCTGATGCGTGAAACCATGCGCGGCGCCGGTGGCGTCGTCGCGTCCGGCGAACTGGTCATTCGTGAGGCCGGGCTAGACGGCAAAACGCCGGGCCGAGTGCTTTCCACATCGCTGTTCAGCCGCTGGGAGCCGAAATGA	MKKKDSRPGNRARAGSDKKQVHAAKPARRADAASKRREPDAVRNVQKAAPKEKTVVAVAVEQVPARALMQRTGELPAEQVPVILESSGAGDFHLIDSGNGLKLEQYGDYRVVRPEAQALWQPSVPDRVWQNADAVFTGDTDEDGMGRWRFPKAALGETWPLSLLGVDFLGRFTAFRHVGVFPEQIVHWEWLKNAVETADRPLKVLNLFGYTGVASLVAAAAGAEVTHVDASKKAIGWAKENQALAGLEQAPIRWICEDAMKFIQREERRGSTYDIILTDPPKFGRGTHGEVWQLFDHLPLMLDICREILSPKALGLVLTAYSIRASFYSMHELMRETMRGAGGVVASGELVIREAGLDGKTPGRVLSTSLFSRWEPK				NA	NA	NA	NA	NA
BMS010_01888	357			hypothetical protein	ATGGAGTATTCTCGGATGTCGAAAAAAATCATCAACCTCATCATCCTGCTTCCGCTGGCGATTATTCTCGTCATCCTGTGCGTGGCCAATCGTCAATCCGTGACGCTGGCGCTCAATCCATTCCGACCGGAAGATGGTGTTCTATCCTTTACCGCGCCGTTTTTCGTTTTCCTCTTTCTGGCGGTCATTTTTGGCGTTCTCCTGGGGTCGGCGGCTACATGGTTCGCTCAGGGCAAACATCGCAAACGCGCTCGTATCGAAGCCAAAGAAGCCGTTCGCTGGCACGATGAGGCGAACCGCCAGAAGGCGGCCGCAACCGGGCAGCTGCCGCATGCGGGCCAACTCCCGGCAAAGTGA	MEYSRMSKKIINLIILLPLAIILVILCVANRQSVTLALNPFRPEDGVLSFTAPFFVFLFLAVIFGVLLGSAATWFAQGKHRKRARIEAKEAVRWHDEANRQKAAATGQLPHAGQLPAK				NA	NA	NA	NA	NA
BMS010_01889	303	ihfB_1	COG0776	Integration host factor subunit beta	GTGATCAAATCTGAACTGGTGCAGATCGTTGCTGCGCGTAACCCGCACCTTTATCACCGCGATGTGGAAAACATCGTCAATGCGGTGCTGGATGAAATCACCGACGCCCTGGCGGCAGGAAATCGTGTCGAGCTTCGTGGTTTCGGCGCATTTTCGGTGAAAAACCGTCCGTCGCGTTCCGGTCGGAACCCGCGCACGGGTGAGTCGGTTTTCGTCGAGGAAAAATGGGTGCCTTTCTTCAAGACGGGCAAGGAACTGCGCGAGCGCCTGAACCCCGGCATGGGTGACGAAGAGGACGATTGA	MIKSELVQIVAARNPHLYHRDVENIVNAVLDEITDALAAGNRVELRGFGAFSVKNRPSRSGRNPRTGESVFVEEKWVPFFKTGKELRERLNPGMGDEEDD				NA	NA	NA	NA	NA
BMS010_01890	954			hypothetical protein	ATGGACAATATGGCGATAGCGGATCGCAGGCGGTTGCGCCGCAAGCTGACTTTCTGGCGGGTTGCCGCCGTTCTCCTGCTTGTCGCCGGCGCTTTCGGTCTTTACCGGTTTTTATGGGATGGACCGCAGCAAAGCGCGAAGCCCCATATTGCCCGCGTCGAGGTCTCCGGCCTGATCACCGACAATACCGAACTTCTCGAGCGGCTCGACAAGATCGCCAAGAGCGAGAATGTCAAAGGGCTGATCGTGTCGATTTCCTCGCCAGGCGGCACCACCTATGGCGGTGAGCGCATCTTCAAGGCCATTCGAGGCGTTGCGGAAAAGAAGCCGGTTGTCTCGGATGTGCGCACGCTCGCTGCTTCGGCAGGTTATATGATCGCATCGGCAGGCGATGTCATCGTCGCCGGCGAGACCTCGATAACCGGCTCGATCGGCGTGATCTTCCAATACCCCCAGCTTGGCCAGTTGATGGAAAAGCTCGGCGTTTCGTTGCAGGAAATCAAGTCGTCGCCGATGAAGGCGGAGCCTTCGCCGTTCCACGAGGCGCCGGAGGAAGCGAAGACGATGATCCGCGCCATGGTAATGGACAGCTACGGCTGGTTCGTCGATCTTGTGGCCGATCGCCGCAAGCTGCCGCGCGAAGACGTGCTGAAACTGGCGGATGGATCGATTTTCACCGGCAGGCAGGCGCTCGCCAACAAGCTGGTCGATACGCTTGGAGGCGAAAAGGAAATTCGCAGCTATTTCGAAACACGCGGTGTTGCCAAGGATTTGCCGATCGTCGAATGGCGCGCGCCGTCATCCCGCTCGCCTTTTGCGGTTCTCAGTGTTGCGCAAATAGCGAAGTTTCTGGGATATGACGATTTAATTCCCTTCGCAGGCCCCGGCCAGCTCGGTACGGACAAGTTGTTTCTTGACGGTCTTGTTTCCGTTTGGCAGGTTGAGCCGCGTTAA	MDNMAIADRRRLRRKLTFWRVAAVLLLVAGAFGLYRFLWDGPQQSAKPHIARVEVSGLITDNTELLERLDKIAKSENVKGLIVSISSPGGTTYGGERIFKAIRGVAEKKPVVSDVRTLAASAGYMIASAGDVIVAGETSITGSIGVIFQYPQLGQLMEKLGVSLQEIKSSPMKAEPSPFHEAPEEAKTMIRAMVMDSYGWFVDLVADRRKLPREDVLKLADGSIFTGRQALANKLVDTLGGEKEIRSYFETRGVAKDLPIVEWRAPSSRSPFAVLSVAQIAKFLGYDDLIPFAGPGQLGTDKLFLDGLVSVWQVEPR	PGPT0030320_3189	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_V_SECRETION_SYSTEMS	CE-T5a_AUTOTRANSPORTER_SECRETION,PGPT0030320-pspA-K04773	NA	NA
BMS010_01891	666			hypothetical protein	ATGCTCGAAAGACTCCGCGAACCCGCGCCAGCATTTTCGCTGCCCAATGACCAGAACGGCGCCTATGACACCGCGCTGCGGCATTCTGCGCGCGTAAAGCGGCTGAAAATCATTCTGCCGCTCGGCGCGGCAATCATTTCGTTCGCCTTCATCGCTGTTTCGGTTATCCGAACCTGGGCGCCCGATGAGGTCTCTCTGGAGAGCGCACGAATTGAAGACGGCAAGATCGTGATGGAAAAACCCGCTGTTGCCGGCCGCAACGAGAAGGGGATCGATTATTCCATGAACGCCGACCGTGCATTGCAGGACATCGCCAACCCCAATCTCATGACGCTTGAGAAGGTTCTGGCGGCAGTGCCGGTGAACGACAGTGTCGCGCAGGTGATCGCCCAGGAAGGCATTTTCGACCGGGCCACCAACAAGCTGAAGATGACCGCCCCTTTTGACATCAATCTCAGCAATGGCATACAAGCGAAGTTCCAGTCTGCTGATGTCGATCTGAAGGCCGGAAAAATGAGCAGCCAGGAGCCGGTTTCGATCAAAACAAACGACGGCTCGATTGTTGCGCAATCGATTGACATCGCCGATAATGGCAAGACAATTACATTTTCGGGGCAGGTACGGGCACGTATCGCTGCATCCAATATCAAGAATGAAGGCAAGTGA	MLERLREPAPAFSLPNDQNGAYDTALRHSARVKRLKIILPLGAAIISFAFIAVSVIRTWAPDEVSLESARIEDGKIVMEKPAVAGRNEKGIDYSMNADRALQDIANPNLMTLEKVLAAVPVNDSVAQVIAQEGIFDRATNKLKMTAPFDINLSNGIQAKFQSADVDLKAGKMSSQEPVSIKTNDGSIVAQSIDIADNGKTITFSGQVRARIAASNIKNEGK	PGPT0023299_300	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023299-lptC|yrbK-K11719	NA	NA
BMS010_01892	564	lptA_1		Lipopolysaccharide export system protein LptA	ATGATGCAAATTTCCCGTCCCGTTTCCCTTGGCAAATCCGCCGGCCTTGCAGCCGCAGGCCTTGTCTTTTCGTGTCTTGCGACTGTGGCTTTCGCCCAGAACACCACCAGCAATATGCAGGGCGTCAAGCTCTCAGGCGACCAGCCGATTGCGATTGAAAGCGATCAGCTCGAGATTCGCGATCAGGAGCGCAAGGCCTATTTCACCGGCAATGTGAAAGTGGTGCAGGGAACGACCACCCTTCAGGCCGGCAAGATGACCGTGAATTACAAGGGCGAGGGTTCTTCGCTCACCAGCGGCGACGCCAATATCGAAAAAATCTTCGTCGACAATAATGTCTACCTGACGTCCGAGACCCAGAAGGCGACGGCCGATCACGGCGAATTCGACATGGCGGCGCAGACCTTCATCCTGACCGGCAAGCAGGTCGTGCTGTCCGAAGGCACGAATGTCTTCACTGGCTGCAAGCTCACCGTTCTGATGAATACGGGACAGGCCAAGCTTGAAAGCTGCGGCGGTCCTGTCCGGATCATGCTCGATCCGAAATCGCAGAAAAAACAGTAG	MMQISRPVSLGKSAGLAAAGLVFSCLATVAFAQNTTSNMQGVKLSGDQPIAIESDQLEIRDQERKAYFTGNVKVVQGTTTLQAGKMTVNYKGEGSSLTSGDANIEKIFVDNNVYLTSETQKATADHGEFDMAAQTFILTGKQVVLSEGTNVFTGCKLTVLMNTGQAKLESCGGPVRIMLDPKSQKKQ	PGPT0023301_880	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023301-lptA|yhbN-K09774	NA	NA
BMS010_01893	810	lptB_1	COG1137	Lipopolysaccharide export system ATP-binding protein LptB	GTGAAGATACCCTCGATCTCAAAGATATTCGGCGGCGGGCGCAGCCGATCCGCGGACGCGGCCTCGCCGGCGGACAAGACCCCCTATCAGGGCACGCTGATCGCGCATGGCCTGACGAAGACCTATAATACGCGCCGTGTCGTCAACGGGGTTTCGCTGGTCGTGCGCCGAGGCGAGGCCGTGGGACTGCTCGGCCCGAACGGTGCGGGCAAAACCACCTGTTTTTACATGATCACGGGCCTGGTGCCCGTGGATACCGGCAAGATCGCCATCAACGGCAATGATGTCACCACCATGCCGATGTATAGACGCGCCCGTCTCGGCGTCGGTTATCTTCCGCAGGAAGCATCGATCTTCCGGGGATTGACGGTCGAGGAAAACATCCGCGCCGTGCTGGAAGTGCATGAGCCGGACGCTGCCAAGCGCAACCGCAAGCTCGATGAGCTGCTGGAAGAGTTTCATATCGCGCAACTGCGAAAGTCGCCTGCCGTGGCGCTTTCGGGTGGCGAGCGGCGGCGTCTGGAAATCGCGCGCGCACTCGCGACCGATCCGACCTTCATGCTGCTCGACGAACCTTTCGCGGGCGTCGATCCGATTTCGGTCAGCGATATCCAGAATCTGGTGAGACACCTGACAGCGCGCGGCATCGGCGTTCTCGTGACCGATCACAATGTCCGTGAAACGCTCGGTCTTATCGACCGCGCCTACATCATCCATGCCGGCGAGGTGCTGACGCATGGACGTCCGGACGATATCGTCAACAATCCGGATGTACGCCGCCTCTATCTCGGCAATAATTTCAGCCTTTGA	MKIPSISKIFGGGRSRSADAASPADKTPYQGTLIAHGLTKTYNTRRVVNGVSLVVRRGEAVGLLGPNGAGKTTCFYMITGLVPVDTGKIAINGNDVTTMPMYRRARLGVGYLPQEASIFRGLTVEENIRAVLEVHEPDAAKRNRKLDELLEEFHIAQLRKSPAVALSGGERRRLEIARALATDPTFMLLDEPFAGVDPISVSDIQNLVRHLTARGIGVLVTDHNVRETLGLIDRAYIIHAGEVLTHGRPDDIVNNPDVRRLYLGNNFSL	PGPT0023300_292	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023300-lptB-K06861	NA	NA
BMS010_01894	1551	rpoN2	COG1508	RNA polymerase sigma-54 factor 2	ATGGCATTGTCTGCCAGCCTTTTGCTGCGTCAAAACCAGTCTCTCGTGATGACACCGCAACTGATGCAGTCCATCCAGCTGCTTCAGATGACGCATTTCGAGCTGACGCAGTTCATTGCGCAGGAGGTGGAGCGCAATCCACTGCTGGAAATTGCGGCAAACGATGGCGATTTGAGCAGCGATGCCCCGGCAGAGACTGAGAGTTTCGGTGACGTGGACGGCGAGGGCCCGGAGAGATCAGCGACGGTGACGTCCGACAGCGACGACTGGTATGGCGACCGCGCCGCAAATCTCGGCGAGCAACTGGACACCAGCTTCGAAAACGTCTTTCCCGACGATGCCGAGCCCAGAAAGGCCGATGCGCCCGAACTGGCCGGCCAATGGAAATCCATGCCCGGCCAGGAGTCGGGGGAAAGTTACGACCTCGACGATTTCGTCGCGGCCAGACAGAGTCTCGGCGACCATCTCAATCAGCAACTGCCGCTCGCCATATCCGCCGCCGAAGACCGGATGATCGCCGATGCGCTGATCGGGCAGCTTGACGAGACCGGCTATATTGCGGCGGATGCCGTCGACGACGTCGCCGAACGGCTGGGGGCGGCCCCGTCAGCGGTCGAGCACGTTCTGAAGACGCTTCAGGGCTTCGACCCACCGGGTGTATTCTCCCGTTCCTTAAGCGAATGTCTGGCAATCCAGCTTGCCCAGAAGGACCGGCTCGACCCGGCAATGCGGGCTTTCGTCGACAATCTGGAACTTCTGGCGAAACGCGACTTCGCCTCCTTGAAAAAAATCTGCGGCGTCGATGAGGAAGATCTTCTCGACATGCTGGCGGAAATCCGCACGCTCAATCCCCGCCCCGGCGCGGGTTACGATTCGATGGTTTCGGAGACCATCGTTCCCGACATTATCGTTCGTCCCTCCTCCACCGGCGGCTGGCTGGTGGAAATCAATCCCGAGACCCTGCCGCGCGTGCTCATCAACCAGAGTTATTTCGCAGAGGTGTCGAAACATAAGGCACGTGCAGGCGAGGATCAGGATTTTCTGGCCGAGTGCATGCAGACGGCGCATTGGCTGACCCGCAGCCTCGATCAGCGCGCCCGGACAATCATGAAGGTAGCGACGGAAATCGTGCGCCAGCAGGACGCCTTTCTCGTCAATGGCGTGGATCATCTGCGCCCGCTGAACCTCAAGACGGTGGCCGACGCCATCAAGATGCACGAATCCACCGTCAGCCGGGTGACGTCCAAAAAATACATGTTGACGCCGCGCGGTCTGTTCGAACTGAAATATTTCTTCAGCGTGTCGATCAGCGCCGTGGAAGGCGGAGACAGCCATTCGGCAGAAGCGGTGCGCCACCGCATCAAGGCCATGATCTCGCAGGAGGCCGCCGAGGCGGTTCTTTCAGACGATGATATCGTCGACAATCTGAAAAAGAGCGGCATCGATATCGCCCGCCGCACCGTCGCTAAATATCGCGAGGCTATGAACATCCCCTCCTCCGTGCAAAGGCGCCGGGAAAAGAAGGCGATGGCCAAGCTGTCCGCCTTCTGA	MALSASLLLRQNQSLVMTPQLMQSIQLLQMTHFELTQFIAQEVERNPLLEIAANDGDLSSDAPAETESFGDVDGEGPERSATVTSDSDDWYGDRAANLGEQLDTSFENVFPDDAEPRKADAPELAGQWKSMPGQESGESYDLDDFVAARQSLGDHLNQQLPLAISAAEDRMIADALIGQLDETGYIAADAVDDVAERLGAAPSAVEHVLKTLQGFDPPGVFSRSLSECLAIQLAQKDRLDPAMRAFVDNLELLAKRDFASLKKICGVDEEDLLDMLAEIRTLNPRPGAGYDSMVSETIVPDIIVRPSSTGGWLVEINPETLPRVLINQSYFAEVSKHKARAGEDQDFLAECMQTAHWLTRSLDQRARTIMKVATEIVRQQDAFLVNGVDHLRPLNLKTVADAIKMHESTVSRVTSKKYMLTPRGLFELKYFFSVSISAVEGGDSHSAEAVRHRIKAMISQEAAEAVLSDDDIVDNLKKSGIDIARRTVAKYREAMNIPSSVQRRREKKAMAKLSAF	PGPT0000795_284	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000795-ntrA|rpoN-K03092	NA	NA
BMS010_01895	573	hpf_1	COG1544	Ribosome hibernation promotion factor	ATGAGTGTGCGTGTATCTGGTAAACATATGGAGATCGGTGAATCTTTCCGTCAGCGGATCGAGGACAATATAGGTCTGGCGGTTACCAAATACTTCGATGGGGGGTATTCAGGCCAGGTGACCGTGGAGAAGTCCGGATCGCGTTTTGCCGCGGACTGCAAGCTGCATCTCGATACCGGCGTTGTATTGCATGCGGCGGGTCAGGCAAACGATCCGCAAGCCAGCTTCGATGCCGCCGCAGAGCGGATCGAGAAGCGCCTGCGCCGCTACAAGCGCAAGCTTAAGGACCACCACAATGGTGCGAATGGCGTGTCGCAGGAAATCGCCTATACGGTGATGGATGCTATTCCCGATGAGGACCACGAGGTTCCTGAGGATTACGCACCCACCATTGTGGCAGAGAGTTCGAAACAGATTAAGACAATGTCCGTCGCCAGCGCCGTGATGGCGCTCGACATGACGGACGAACCCGTTCTGCTGTTCCGCAGCCCGGGCAAGGAATATCTCAACATCGTTTACCGGCGTCATGACGGCAATATTGGCTGGATCGACGCGGAAACGATCAAGAGCTGA	MSVRVSGKHMEIGESFRQRIEDNIGLAVTKYFDGGYSGQVTVEKSGSRFAADCKLHLDTGVVLHAAGQANDPQASFDAAAERIEKRLRRYKRKLKDHHNGANGVSQEIAYTVMDAIPDEDHEVPEDYAPTIVAESSKQIKTMSVASAVMALDMTDEPVLLFRSPGKEYLNIVYRRHDGNIGWIDAETIKS				NA	NA	NA	NA	NA
BMS010_01896	462	ptsN_1	COG1762	Nitrogen regulatory protein	ATGGCGTTGGCAGATTTGCTGCAACAAGATGCGATTATTCCCGCCCTCAAGGTGAATTCCAAAAAGCAGTTGCTTCAGGAGCTGGCCGCAAAGGCAGCCAGAATTACCGGAGTCTCGGAACGGGAAGTTTTCGACGTCATCCTCCAGCGTGAGAAACTCGGCTCCACCGGTGTGGGCCATGGCATCGCCATTCCGCATGGCAAGCTCAACAGCATCCATCAGATCACCGGCGTCTTCGCACGCCTTGAAACACCGGTCGATTTCGAAGCGCTGGACGACCAGCCCGTCGATCTGGTTTTCCTGCTGCTCGCGCCCGAGGGCGCCGGCGCGGATCACCTGAAGGCGTTGTCCAGAATTGCACGCGCACTGCGCGACCCTGAACTGGTCGCCAAGCTGCGCGCCACCGATTCCGACACGGCAATCTACGCTTTCCTCAATCAGGAGCAGGCGACGGCGGCCTGA	MALADLLQQDAIIPALKVNSKKQLLQELAAKAARITGVSEREVFDVILQREKLGSTGVGHGIAIPHGKLNSIHQITGVFARLETPVDFEALDDQPVDLVFLLLAPEGAGADHLKALSRIARALRDPELVAKLRATDSDTAIYAFLNQEQATAA	PGPT0000135_1445	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-OTHER_NITROGEN_FIXATION_REGULATORS,PGPT0000135-ptsN-K02806	NA	NA
BMS010_01897	636	grpE_1		Protein GrpE	ATGACCGACGATACAAAAAAGCCCGGACCTGACGCGGACGTCGCGGAAGAGTTTGTCGATCTTGCTCAGGCAGGTGAAGAACAGGCCGAAACGGCAGAGCCCGATCCGGTGGAGCTGCTCAAGGCTGAGAACGCCGATCTGCGCGATAAATTTCTGCGCCTTGCCGCCGAGATGGACAATCTTCGCCGCCGCACCGAGCGTGATGTCAAGGACGCCAAGGCCTATTCGCTGGCTGCCTTTGCACGCGACATGCTTGCCGTTTCGGATAATCTTCGCCGCGCGCTGGAAGCAATTCCGGATGAACTCAAGACCAATGGCGAAGCCGGTCTCAATGGTTTGATCGAAGGCGTCGAGATGACGGAACGTTCGATGCTGTCGACGCTGGAACGCCACGGCGTGAAGAAGATCGATGCCGAGGGCCAGAAGTTCGACCCGAATTTCCATCAGGCCATGTTCGAAATTCCAAATCCGGCAGTTCCGAACAATACCGTGCTGCAGGTGGTTCAGGCCGGTTTCACCATCGGCGACCGCGTGCTGCGTCCTGCCATGGTCGGCGTCGCCAAAGGCGGCCCGAAGGCGGAAGTTGCCGCATCGGCCGAGCCGGGCACGTCGTCTCTCAACGAAAAAGATGCGTAA	MTDDTKKPGPDADVAEEFVDLAQAGEEQAETAEPDPVELLKAENADLRDKFLRLAAEMDNLRRRTERDVKDAKAYSLAAFARDMLAVSDNLRRALEAIPDELKTNGEAGLNGLIEGVEMTERSMLSTLERHGVKKIDAEGQKFDPNFHQAMFEIPNPAVPNNTVLQVVQAGFTIGDRVLRPAMVGVAKGGPKAEVAASAEPGTSSLNEKDA	PGPT0014650_2237	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0014650-grpE-K03687	NA	NA
BMS010_01898	1092	hrcA	COG1420	Heat-inducible transcription repressor HrcA	ATGGGTTTTTCCGCACCGCTATCAAAAGATCAGGCATCGCTGCTGGATGAACGGTCTCGGGAAATTTTCCGGCGCATCGTCGAAGGTTATCTCGATACGGGCGAGCCGCTCGGATCGCGCAGCCTGTCGCGGCTGTTGCCGATGTCGCTTTCACCCGCCTCCGTTCGCAACGTCATGAGCGATCTCGAGGAACTGGGCCTCATCTATTCGCCGCATATCAGCGCCGGTCGCCTGCCGACCCAGACGGGGCTGCGCTTCTTTGTTGACGCCTTCATGCAGGTGGGTGACCTGCCCGCCGAGGAAAGGGCGACTATCGACCGTCAGATCGGACCGGTCGCCGGCCACGAACAGTCGCTGGAAGGGCTGTTGACGGAGGCGAGCCGCATGCTGTCCGGCATGTCGCGCGGCGCGGGCCTCGTATTGACGGCGAAGAACGACGTCATCCTCAAACATGTCGAATTCATAAGGCTGGAACCCACCAAGGCGCTCGCCGTGCTGGTGGGCGACCACAATCAGGTCGAAAACCGCATCATCGAATTGCCGGCCGGCATTTCCTCATCGCAATTGACCGAAGCGGCGAATTTCATCAATGCCCATCTCTCCGGTCAGACGCTGCACGAGTTGCGGGGTCAGTTCCAGACGCAGCGGGCGGAACTGCAATCGGAACTCGGCATATTGGCGCAGGACCTCGTGGAGCGTGGTCTGGCGGTATGGGCGGGAGACAATGAGGAGGGCAAGCTCGGCCGTCTCATCGTTCGCGGTCGCTCCAACCTGCTCGAAGGTCTCGCCGGTGAGGAAGATATCGATCGGGTGCGCCTGCTGTTCGACGACCTGGAGCGCAAGGAAAATCTCATCGAAATCCTCAATCTCGCCGAAAGTGGCTCGGGGGTCAGGATTTTCATCGGCTCGGAAAACAAGCTGTTTTCCCTGTCCGGTTCGTCGCTGATCGTCGCGCCCTATCGTGACGAGGACAATCGGGTCGTGGGTGCGGTCGGCGTCATTGGCCCGACCCGGCTGAATTACGCCCGTATCGTGCCGATGGTGGATTACACGGCGCAGATCATGGCCCGCCTTTCCCGCAAGCAGAGATAG	MGFSAPLSKDQASLLDERSREIFRRIVEGYLDTGEPLGSRSLSRLLPMSLSPASVRNVMSDLEELGLIYSPHISAGRLPTQTGLRFFVDAFMQVGDLPAEERATIDRQIGPVAGHEQSLEGLLTEASRMLSGMSRGAGLVLTAKNDVILKHVEFIRLEPTKALAVLVGDHNQVENRIIELPAGISSSQLTEAANFINAHLSGQTLHELRGQFQTQRAELQSELGILAQDLVERGLAVWAGDNEEGKLGRLIVRGRSNLLEGLAGEEDIDRVRLLFDDLERKENLIEILNLAESGSGVRIFIGSENKLFSLSGSSLIVAPYRDEDNRVVGAVGVIGPTRLNYARIVPMVDYTAQIMARLSRKQR				NA	NA	NA	NA	NA
BMS010_01899	717	rph_1	COG0689	Ribonuclease PH	ATGCGGCCTTCAGGCAGAAAAACCGACCAGATGCGCAAGGTTTCCTTCGAGCGCAATTTCTCGAAACATGCCGAAGGTTCCTGTCTCGTGAAATTCGGCGACACGCATGTGCTCGTTACCGCCAGTCTTGAAGAAAAGACCCCACCGTGGCTGCGCAACAGCGGCAAGGGATGGGTCACCGCCGAATATGGCATGCTGCCGCGCTCCACCCATGAACGCATGAAGCGCGAGGCCGCTTCCGGCAAGCAGGGCGGTCGCACGCAGGAAATCCAACGCCTCATCGGCCGCTCGCTGCGCGCCGTCGTTGATCTGCAAGCGCTGGGTGAGCGCCAGATCAGCATCGACTGCGACGTGATCCAGGCCGATGGCGGCACCCGCACCGCTTCCATCACCGGCGCATGGATTGCGCTTCACGATTGCCTGAAATGGATGGAAACCCGCAACATGATCAAGGTCGAGAAGGTTCTAAAGGACCATATCGCCGCGATCTCCTGCGGCATCTTCGCCAACCAGCCGGTGATCGATCTCGATTACCTCGAGGATTCCTCCGCCGAGACCGACGCTAATTTCGTCATCACCGGCTCCGGCGGCATCGTCGAGGTTCAGGGCACGGCGGAAGGCGCGCCCTTCTCCGAGGAGGAATTCCTGACGCTGCTCGGTCTTGCCAAGGCCGGTTGCAGCGAACTGGTCGCCCTTCAGAAACAGGCGATCGCCTGA	MRPSGRKTDQMRKVSFERNFSKHAEGSCLVKFGDTHVLVTASLEEKTPPWLRNSGKGWVTAEYGMLPRSTHERMKREAASGKQGGRTQEIQRLIGRSLRAVVDLQALGERQISIDCDVIQADGGTRTASITGAWIALHDCLKWMETRNMIKVEKVLKDHIAAISCGIFANQPVIDLDYLEDSSAETDANFVITGSGGIVEVQGTAEGAPFSEEEFLTLLGLAKAGCSELVALQKQAIA	PGPT0021590_9	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021590-rdgB-K02428	NA	NA
BMS010_01900	645		COG0127	dITP/XTP pyrophosphatase	ATGCGCAAGCTCGATACCAGAACGATCGTCGTCGCCAGCCATAACAAGGGCAAGATCGCCGAAATCGCCGATCTGATCGGGCCTTTCGGCTTTTCCGCCAAATCGGCGGCGGAGCTGAATTTCGAAGAGCCGGATGAGACGGGTACGACCTTCGAGGAAAATGCCGCCATCAAGGCGCTTGCCTCCGCGAAGGCATCCGGCCTTCCGGCTTTGTCCGACGATTCCGGTCTGGTCATCGATGCGCTGGATGGTGCGCCGGGTGTCTATACCGCCAATTGGGCGGAAACGGCCGATGGCACCCGCGACTTTGCCATGGCGATGCAGAAGGTCGAGGATGCGCTGGCCGAGCGAGGCGCATCGAAGCCGGAAGACCGCACCGGCCGCTTCGTCAGCGTGCTGTGCCTCGCCTGGCCGGATGGGCATCTCGAATATTTTCGCGGCGAGGTGGAAGGCACGGTGGTGTGGCCGCCGCGCGGAACGAGCGGTTTCGGGTATGATCCGGTCTTCAAACCGGAGGGATACGACACCACATTCGGCGAGATGAGCGCGGATGAAAAACACGGCTGGAAACATGGTGACGCCTTCGCACTTTCCCACCGTGCCCGGGCGTTTAAAAAATTCGTAGAAACCTGCCTGGAGGCATGA	MRKLDTRTIVVASHNKGKIAEIADLIGPFGFSAKSAAELNFEEPDETGTTFEENAAIKALASAKASGLPALSDDSGLVIDALDGAPGVYTANWAETADGTRDFAMAMQKVEDALAERGASKPEDRTGRFVSVLCLAWPDGHLEYFRGEVEGTVVWPPRGTSGFGYDPVFKPEGYDTTFGEMSADEKHGWKHGDAFALSHRARAFKKFVETCLEA	PGPT0021590_1406	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021590-rdgB-K02428	NA	NA
BMS010_01901	1200	hemW_1	COG0635	Heme chaperone HemW	ATGGTCGGGGAGCATCAACTTTCTGCCCCCGGCGCATCGCTTCTGCCGGATACGGGCGATCCCGGTTTCGGGATCTATCTGCACTGGCCCTTCTGTGCGGCCAAATGTCCCTATTGCGATTTCAACAGCCATGTCCGCCACCGGCCGGTGGATCAGGAACGGTTTACGGCGGCCTTTCTCCGTGAAATGGAACATATGCGGACGCTGAGCGGCCCGCGTGTTGTGACCAGCATTTTCATGGGCGGTGGCACGCCATCATTGATGGACCCGCAGACGGTCGCGGCACTTCTCGATGGTGTCTCGCGCTTCTGGCATGTGCCGGATGGTATCGAGATCACCATGGAAGCCAACCCTTCCAGCGTCGAGGCGGAACGTTTTCGCGGTTACCGCGCGGCGGGCGTCAATCGCGTCTCGCTCGGCGTACAGGCGCTGAACGATCGGGACCTGAAGTTCCTTGGCCGCCTGCATGATGTTGCCGATGCCTTGAAGGCCATCCGGCTGGCGCGGGAGATTTTTCCGCGCATGTCCTTCGATCTCATCTATGCCCGTCCGAACCAGACGGTGGCCGAATGGGACGCCGAACTGAAAGAGGCTGTCTCCTACGCGGTCGACCATCTTTCGCTCTATCAGCTGACCATCGAGGAGGGCACACCCTTCTACGGGCTGCACAAGGCCGGCAAGCTGATCGTGCCGGATGGCGAACATTCGGCTGTGCTTTATGAGGCGACGCAGGAAATCACCGAGCGTTACGGCATGCCGGCCTATGAGGTTTCCAACCATGCCCGGCCGGGTGCTGAAAGCCGCCACAACCTGACCTACTGGCGTTATGGCGATTATGCCGGCATCGGCCCCGGCGCGCATGGACGCCTGACGAGAGGCGCTTCCAAGCTCGCAACCGCCACCGAGCGCCACCCGGAAAACTGGCTCGAAACCGTTGAGCGGGAAGGCCACGGCATGGTCGATCAGGAGTTGCTTGGCGTCGATGAGCAGGCCGATGAATTGCTGCTGATGGGACTTCGCCTGCGCGAAGGTATCGATCTCGCCCGCTGGAGCGACCTTTCCGGCCGCGATCTCGATCCGGAAAAGGAGGAATTCCTCCTCCAGCACGGTTTCGTGGAGAGGCTCGGCAATTCCCGCCTGCGCTGCACGCCGTCCGGCATGCTTATTCTGGACGCGGTGGTGGCCGATCTCGCCTGCTGA	MVGEHQLSAPGASLLPDTGDPGFGIYLHWPFCAAKCPYCDFNSHVRHRPVDQERFTAAFLREMEHMRTLSGPRVVTSIFMGGGTPSLMDPQTVAALLDGVSRFWHVPDGIEITMEANPSSVEAERFRGYRAAGVNRVSLGVQALNDRDLKFLGRLHDVADALKAIRLAREIFPRMSFDLIYARPNQTVAEWDAELKEAVSYAVDHLSLYQLTIEEGTPFYGLHKAGKLIVPDGEHSAVLYEATQEITERYGMPAYEVSNHARPGAESRHNLTYWRYGDYAGIGPGAHGRLTRGASKLATATERHPENWLETVEREGHGMVDQELLGVDEQADELLLMGLRLREGIDLARWSDLSGRDLDPEKEEFLLQHGFVERLGNSRLRCTPSGMLILDAVVADLAC	PGPT0003200_2979	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003200-hemN|hemZ-K02495	NA	NA
BMS010_01902	1461	dnaA_1	COG0593	Chromosomal replication initiator protein DnaA	ATGACGCACGATGCGCTGTTTGAACGTTTTAGCGCGCGGCTCAAGGCACAGGTTGGTCCGGAAGTCTATGCAAGCTGGTTTGCACGGCTCAAACTCCATTCCGTTTCGAAAAGCGTCGTCCGTTTTACCGTTCCGACGACCTTTTTGAAGTCCTGGATCAACAACCGTTACATGGATCTGATCACGAACCTCGTCCAGAGCGAGGATCCGGATGTGCTGAAGGTGGAGATTCTGGTCCGCTCGGCCAGCCGCCCGGTCCGTCCGGCACAGACGGAGGAAAGGGCGCAGCCCGTTCCGGAAGTCGGCGCGGTTCAGCGTAACAAGTCCTTCATTCCGTCGCAGCCCGCGGCGCCTGCCGCACAGCCCGCGGCTTCGCAGGCGACCCTGCGTCAGGGCGGTTCCGGGCCGTTGTTCGGTTCGCCGCTCGACACCCGTTTCACCTTCGATACCTTTGTCGAAGGCTCGTCCAACCGTGTCGCCCTTGCGGCGGCAAAGACGATCGCCGAAGCTGGTGCCGGCGCCGTGCGCTTCAATCCGCTGTTCATCCATGCGGGTGTCGGCCTCGGCAAGACGCATCTTCTGCAGGCAATCGCCAATGCCGCCATAGACAGCCCGCGCAATCCGCGCGTGGTCTATCTGACGGCCGAATATTTCATGTGGCGTTTCGCAACCGCGATCCGCGACAATGACGCGCTGACGCTGAAGGATACGCTGCGCAATATCGACCTGCTCGTCATCGACGACATGCAGTTCCTGCAGGGCAAGATGATCCAGCACGAATTCTGCCATCTGCTGAACATGCTGCTCGACAGCGCCAAGCAGGTCGTGGTCGCGGCTGACCGTGCGCCGTGGGAGCTGGAATCGCTCGATCCGCGTGTCCGTTCCCGTCTTCAGGGCGGCATGGCCATCGAGATCGAAGGTCCCGACTACGACATGCGCTATGAAATGCTCAACCGCCGCCTCGGCTCGGCACGTCAGGACGATCCGTCCTTCGAGATTTCGGATGAAATCCTGACCCACGTGGCCAAGAGCGTGACGGCAAGCGGACGCGAACTGGAAGGCGCCTTCAACCAGCTGATGTTCCGTCGCTCCTTCGAGCCGAACCTTTCGGTTGATCGTGTCGATGAGCTGCTGTCGCATCTCGTCGGGACGGGTGAGGCCAAGCGTGTACGCATCGAGGATATTCAGCGCATCGTCGCCAAGCACTATAATGTGTCGCGACAGGAGCTGGTGTCCAACCGCCGCACCCGCGTCATCGTCAAGCCGCGCCAGATCGCCATGTATCTGGCAAAGATGCTGACGCCGCGGTCTTTCCCCGAGATCGGTCGCCGTTTCGGCGGTCGCGATCACACCACGGTTCTGCATGCCGTGCGCAAGATCGAGGAACTGATTTCCGGCGACACCAAGCTCGGCCATGAGGTTGAGCTGTTGAAACGCCTGATCAACGAAAACAACGCATGA	MTHDALFERFSARLKAQVGPEVYASWFARLKLHSVSKSVVRFTVPTTFLKSWINNRYMDLITNLVQSEDPDVLKVEILVRSASRPVRPAQTEERAQPVPEVGAVQRNKSFIPSQPAAPAAQPAASQATLRQGGSGPLFGSPLDTRFTFDTFVEGSSNRVALAAAKTIAEAGAGAVRFNPLFIHAGVGLGKTHLLQAIANAAIDSPRNPRVVYLTAEYFMWRFATAIRDNDALTLKDTLRNIDLLVIDDMQFLQGKMIQHEFCHLLNMLLDSAKQVVVAADRAPWELESLDPRVRSRLQGGMAIEIEGPDYDMRYEMLNRRLGSARQDDPSFEISDEILTHVAKSVTASGRELEGAFNQLMFRRSFEPNLSVDRVDELLSHLVGTGEAKRVRIEDIQRIVAKHYNVSRQELVSNRRTRVIVKPRQIAMYLAKMLTPRSFPEIGRRFGGRDHTTVLHAVRKIEELISGDTKLGHEVELLKRLINENNA	PGPT0014800_599	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-PILUS|FIMBRIAE_SYSTEM	MOTILITY-PILUS_SYSTEM,PGPT0014800-dnaA-K02313	NA	NA
BMS010_01904	267	rpsT_1	COG0268	30S ribosomal protein S20	ATGGCCAATACAACTTCGGCGAAAAAGGCGACCCGCAAGATCGCTCGCCGTACCGCAGTCAACAAGGCTCGCCGTTCGCGCGTTCGCGGCTTCATCCGCAAGGTCGAGGAAGCCATCGCTTCCGGTGATCTCGCAGTCGCTACCGAAGCTCTGAAGGCGGCTCAGCCCGAGATCCAGCGCGCCGCCACCCGGGGCGTTCTGCACGGCAACACCGCATCCCGCAAGGTGTCGCGTCTCGCACAGCGCGTTAAGGCTCTTTCCGCCTAA	MANTTSAKKATRKIARRTAVNKARRSRVRGFIRKVEEAIASGDLAVATEALKAAQPEIQRAATRGVLHGNTASRKVSRLAQRVKALSA				NA	NA	NA	NA	NA
BMS010_01905	795	echA8	COG1024	putative enoyl-CoA hydratase echA8	GTGCCGGAAGGGGAGATTGCCGTGGACTATGAAACGATACTGGTCGAGAAACGCGATGAGGTGGGTGTCATCACCCTCAACCGCCCCAAGGCGCTCAACGCTCTCAATTCGGTGCTTCTGAAAGAGCTGCGGCACATTCTGTCTTCGTTTTCCGCCGATGATTCCATCGGTGCGATCATTATCACCGGTTCGGAAAAGGCATTTGCTGCAGGCGCCGATATCAAGGAAATGCAGGGGCTGGATTTCGTCGATGCCTATGTCGGCGATTTTCTCGGCGGCTGGGACGAGGTTGCGGCCACCCGCAAGCCGGTCATCGCCGCCGTATCCGGCTTTGCGCTTGGCGGCGGCTGCGAACTGGCGATGATGTGCGATTTCATCATCGCTTCGGACACGGCAAAATTCGGCCAGCCGGAAATCACCCTCGGGGTCATTCCGGGCATGGGCGGCTCGCAGCGGCTGACACGGGCGGTCGGCAAGGCGAAGGCCATGGACCTGGTTCTGACCGGGCGCATGATGGATGCGGCGGAAGCTGAGCGGGCCGGTCTCGTGTCGCGTGTCGTGCCGGCTGCAAATCTCATGGACGAGGCGGTGGAGGCGGCAACCCGCATCGCTTCCCTGTCGCGTGCTTCCGTTCTCATGGCCAAGGAAAGCGTCAATCGCTCCTTCGAGGTGCCGCTTGCGGAAGGACTGAGATATGAAAGACGATCCTTCCAGTCGCTCTTTGCGACAGCGGATCAGAAGGAGGGCATGGCCGCCTTCGTGGAAAAGCGCAAACCCGCTTTCCGGAATCGCTAA	MPEGEIAVDYETILVEKRDEVGVITLNRPKALNALNSVLLKELRHILSSFSADDSIGAIIITGSEKAFAAGADIKEMQGLDFVDAYVGDFLGGWDEVAATRKPVIAAVSGFALGGGCELAMMCDFIIASDTAKFGQPEITLGVIPGMGGSQRLTRAVGKAKAMDLVLTGRMMDAAEAERAGLVSRVVPAANLMDEAVEAATRIASLSRASVLMAKESVNRSFEVPLAEGLRYERRSFQSLFATADQKEGMAAFVEKRKPAFRNR	PGPT0001860_4120	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0001860-paaF|echA-K01692	NA	NA
BMS010_01906	897	mutM_1	COG0266	Formamidopyrimidine-DNA glycosylase	ATGCCAGAATTGCCAGAAGTCGAAACCGTCAGACGTGGCCTTGCGCCCGCCATGGAAGGCGCAAGGGTCCGCAGGCTCCATCTCGGCCGCCCCGATTTGCGCTTTCCATTCCCGCAGGATTTCGCAGCGCTTATCGAAGGCAAGACGATCCTGTCGCTCGGGCGCAGGGCGAAATATCTTCTGATCGAACTGGAGGATGGGCTGACCATCGTTTCCCACCTCGGCATGTCCGGCTCGTTTCGCATCGAGGCGGAGGCGGGTGAGGCCGGCGATGCTCCCGGCGTGTTTCACCATGCCCGTTCCAAAGACGGCAAGCATGACCATGTCGTCTTTCATCTGGATAAAGGAGAAGAGCGCGTCTGCGTCATCTATAATGATCCGCGCCGCTTCGGCTTCATGCATCTGGTGGAGCGCAACAAGCTCGACCTTTACCCCGCTTTTGCCGAGCTCGGTCCGGAGCCGACAGGCAATGCGCTGAGCGCGGATTATCTGGCGAGCCGGTTTGAAGGCAAAAGCCAGCCCCTGAAAAGCACGCTGCTGGACCAAAAGGTCATTGCCGGTCTCGGTAATATCTATGTCTGCGAGGCGCTGTGGCGCGCGCATCTTTCGCCTTTGCGGGCGGCGGGAACGCTGGTGACGAAAGGTGGTAAGCCCAAAGCGCAGCTCGTCGATCTGACGGAGAAAATCCGCGACGTGATCGCGGATGCGATCGCCGCTGGCGGCTCCTCATTGCGAGACCATATACAGACGGACGGAACGCTCGGTTATTTCCAGCATTCCTTTTCGGTTTACGATCAGGAAGGCCAGCCTTGCCGGACGCCCGGCTGCCGGGGTACGGTTGAAAGGGTGGTGCAGGCCGGTCGTTCGACCTTTTATTGCGCCGCCTGCCAGAAGTAA	MPELPEVETVRRGLAPAMEGARVRRLHLGRPDLRFPFPQDFAALIEGKTILSLGRRAKYLLIELEDGLTIVSHLGMSGSFRIEAEAGEAGDAPGVFHHARSKDGKHDHVVFHLDKGEERVCVIYNDPRRFGFMHLVERNKLDLYPAFAELGPEPTGNALSADYLASRFEGKSQPLKSTLLDQKVIAGLGNIYVCEALWRAHLSPLRAAGTLVTKGGKPKAQLVDLTEKIRDVIADAIAAGGSSLRDHIQTDGTLGYFQHSFSVYDQEGQPCRTPGCRGTVERVVQAGRSTFYCAACQK	PGPT0021790_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021790-ECHS1-K07511	NA	NA
BMS010_01907	777	ubiE_1	COG2226	Ubiquinone/menaquinone biosynthesis C-methyltransferase UbiE	ATGACCGACGCCCGTACCACTGCCCAAGGCGGCATGGAAACGTCCTATGGCTTCCACAAGGTGGACGAAGGCAAAAAGCAGGGGCTGGTCAACGAAGTCTTCCACAAGGTGGCCAAACGCTACGACATCATGAACGATGTGATGTCGGCCGGCCTGCACCGGCTGTGGAAAGACGCCATGGTCTCTTCGCTTTCGCCGCGCAAGGACGCGTCCTACAAGGTTCTGGATGTTGCCGGCGGCACCGGCGATATCGCCTTCCGTATCATCGAAGCCTCCAACCGCCTGGCGCATGCCACCGTTCTCGACATCAACGGCTCGATGCTTGCCGTCGGCGAAGAACGCGCGGCAAAAAAGAAGCTTTCCGACAATCTGACCTTCGTGGAGGCCAATGCCGAGGAACTGCCTTTCGAGGCAAACAGTTTCGACGCCTATACGATTGCCTTCGGCATCCGCAACGTGCCGCGCATCGACGTCGCGCTGAAGGAGGCGCATCGCGTGCTGAAGCGCGGCGGACGGCTGCTGGTGCTGGAATTTTCCGAGGTAGAAATGCCGTTGCTTGACCGCGTTTACGACGCCTGGTCGTTCAACGCCATCCCGCAATTCGGCAAGATGATCACGGGTGACGCCGAGCCCTATCAATATCTGGTCGAGTCGATCCGCAAATTCCCCAATCAGGAGGATTTCGCGACGATGATCCGCACCGCCGGCTTCTCCCGCGTCACCTATACCAATTACACCGGCGGCATCGCCGCCCTGCATTCCGGCTGGAAGCTTTAA	MTDARTTAQGGMETSYGFHKVDEGKKQGLVNEVFHKVAKRYDIMNDVMSAGLHRLWKDAMVSSLSPRKDASYKVLDVAGGTGDIAFRIIEASNRLAHATVLDINGSMLAVGEERAAKKKLSDNLTFVEANAEELPFEANSFDAYTIAFGIRNVPRIDVALKEAHRVLKRGGRLLVLEFSEVEMPLLDRVYDAWSFNAIPQFGKMITGDAEPYQYLVESIRKFPNQEDFATMIRTAGFSRVTYTNYTGGIAALHSGWKL	PGPT0009535_470	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009535-ubiE-K03183	NA	NA
BMS010_01908	1575	ubiB_1	COG0661	putative protein kinase UbiB	ATGAGTACTTTGGGCGCATATTTCCGCCTCGCAAGGGTTGGCTGGGTTCTCGTGCGCGAAGGCGTCGTGCTGGCCCTGCCTTCCGATGACCTGCCTGCTCCCGCCCAATTGTTGAAAGCGCTGCTGAAACCGTTCGCCCGCAGCAAGGCGAAAAGGGCGCAGCGCAGCGACCGTCTGGCGGTGGCTGTCGAGCGGCTTGGTCCTTCCTACGTGAAGATGGGCCAGTTTCTCGCCACCCGGCCGGATGTGGTGGGCGCCGACTTCGCCGACGATCTTGCGAGCCTTCAGGACCGCATGGCCTTTTTCCCGGCGGCTGCGGCGAAAGCGAATATCGAAGGCTCGCTCGGCCGTTCGGTGTCCGATCTCTACAGGGAATTCGGCGATCCTATTGCCGCCGCCTCCATTGCCCAGGTTCATCCGGCAATTGTGGATACGCCGAAGGGGCCGCGCAAGGTGGCCGTCAAGGTCATCCGCCCCGGCGTGCGCCAGCGTTTCCAGAACGATCTCGAGGCGATGTATCTGATCGCCGATCTGCAACAGCGTTTCGTCCGCTCCGCCCGTCGCCTGCGCCCCGTCGAAGTGACACGCACGCTGGAACAGACCACCAAGATCGAGATGGATCTGCGGCTCGAGGCCGCCGCCCTCTCCGAACTTGCGGAAAACACCAGGGACGATCCCGGATTCCGAGTGCCCGAGGTCGACTGGGAACGCACCGGGCGCGATGTCGTCACCATGGAGTGGATCGACGGCGTCAAGATGTCGGATATCGAAGGGTTGAAGGCCGCCGGCCACGACCTGAACAAACTTGCCGACACGCTGATCCAGTCCTTCCTGCGGCACACGCTGCGCGATGGCTTCTTCCATGCCGACATGCATCCCGGCAATCTCTTCGTCGATGCTGAGGGCGAGATCGTCGCCGTCGACATGGGCATTGCCGGGCGTCTCGGAAAAAAGGAACGCCGCTTCCTTGCCGAGATCCTCTACGGCTTCATTACCCGCGATTACATGCGGGTGGCGGAAGTGCATTTCGAGGCCGGTTACGTGCCGGGCCATCACGATATAGCAAGCTTCGCCCAGGCGATCCGCGCCATTGGCGAACCGATCCACGGCCAGCCGGCCGAGACGATCTCCATGGGCAAGCTTTTGACGCTGCTGTTCGAAGTGACCGAGCTTTTCGACATGGAAACGCGGCCGGAACTGGTGATGCTGCAAAAGACCATGGTGGTGGTGGAAGGCGTGTCGCGCATGCTCAATCCACGCTTCAACATGTGGAAGGCGGCAGACCCGGTTGTCGGCGGCTGGATCAGGGACAATCTCGGCCCGAAACGCATCGTCACCGATCTGAAGGACGGCGTGAAGGCGGCCCTCAAGCTTGCCGAGGCAGCGCCGGAGATCGCCGCCAAGACCGAAAAGCTGCATTCCGAGTTGATGTATATGAGCGAGAACGGCCTGCGTTTCGACGCGCAGACGGCGGAAGCTATCGGCAAGGCGGAAGCGCGCCACACCAAATGGGGACGGGCGGCACTCTGGGTCATAGCGCTGACGCTTCTTTACATCGCAATCAGGATAAGCTGA	MSTLGAYFRLARVGWVLVREGVVLALPSDDLPAPAQLLKALLKPFARSKAKRAQRSDRLAVAVERLGPSYVKMGQFLATRPDVVGADFADDLASLQDRMAFFPAAAAKANIEGSLGRSVSDLYREFGDPIAAASIAQVHPAIVDTPKGPRKVAVKVIRPGVRQRFQNDLEAMYLIADLQQRFVRSARRLRPVEVTRTLEQTTKIEMDLRLEAAALSELAENTRDDPGFRVPEVDWERTGRDVVTMEWIDGVKMSDIEGLKAAGHDLNKLADTLIQSFLRHTLRDGFFHADMHPGNLFVDAEGEIVAVDMGIAGRLGKKERRFLAEILYGFITRDYMRVAEVHFEAGYVPGHHDIASFAQAIRAIGEPIHGQPAETISMGKLLTLLFEVTELFDMETRPELVMLQKTMVVVEGVSRMLNPRFNMWKAADPVVGGWIRDNLGPKRIVTDLKDGVKAALKLAEAAPEIAAKTEKLHSELMYMSENGLRFDAQTAEAIGKAEARHTKWGRAALWVIALTLLYIAIRIS	PGPT0009520_2538	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009520-ubiB|aarF-K03688	NA	NA
BMS010_01909	915			hypothetical protein	ATGGCAAAAGCGCAAGTACTGAAAGAGGCCCTTTCCTATTCGTCGTGGCCGCTGGTGTTCGTCGGCGGCCTCGTGGGGTCCTATTTCGCTTTCACGAGCAGCCATCCCATCGCGGCCTTTTTGACCGTCTACGCGGGCGCGGTTTTAAGCCTGTTTCTTCTCGAACGTTATATTCCCTACGAAATCCAATGGCTTGAGGGTGATGGCGAGACCGTGAACAGCATCGGCCACACGCTTTTGACGAAAGGGCTCGTCCAGCTCGCAGCCGCCGCAGCGGCAATCTTCCCGATGGTGACCGCCAATGTGCTGCAGCCGCTCGCCGCCATACGGTTCGACCTGTGGCCGTCTCATCTGCCGATGATCGTTCAGGTCGCCCTTGCGGTGACAATTGCCGAATTCGGCCTCTACTGGTCCCACCGTATTGCGCATGAAACCGTATTCTTCTGGCGTTTCCATGCACTGCATCACAGCGTCGTGCGGCTCTGGGTCGTCAATACGGGACGGTTCCATGTGGCCGATTCCCTGTTCAAGATCGCGCTCAGCCAGATTCCGCTCTATTTCATGGGTGCGCCGCTACAGGTTTTCTGGTGGCTGGGCGCCGTTACCGCATTCATCGGTATTTTGACCCATTGCAACGTCGATATGAAAACGGGGCCGCTCGATTACGTATTCAGCACCCCGCGCCTGCACCGCTGGCACCATTCAAAACAGCTTCCGGAAGGAAACACCAATTACGGCGAGAATCTCGTCTTCTTCGATTTGATCTTCGGCTCCTACCATAATCCCGACAGGCCTTCTTCCACCGATATCGGCATCAAGGGCAAGATTGCGAAAGGATTCCTGCCGCAGCTCCTGCAGCCCTTCACCAAGGAAGGCGTCCGCCAGATCATCGGCAAGGACACCAAGATCGACTGA	MAKAQVLKEALSYSSWPLVFVGGLVGSYFAFTSSHPIAAFLTVYAGAVLSLFLLERYIPYEIQWLEGDGETVNSIGHTLLTKGLVQLAAAAAAIFPMVTANVLQPLAAIRFDLWPSHLPMIVQVALAVTIAEFGLYWSHRIAHETVFFWRFHALHHSVVRLWVVNTGRFHVADSLFKIALSQIPLYFMGAPLQVFWWLGAVTAFIGILTHCNVDMKTGPLDYVFSTPRLHRWHHSKQLPEGNTNYGENLVFFDLIFGSYHNPDRPSSTDIGIKGKIAKGFLPQLLQPFTKEGVRQIIGKDTKID	PGPT0014480_20	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULE-ORNITHINE_LIPIDS_BIOSYNTHESIS,PGPT0014480-olsE-K22618	NA	NA
BMS010_01910	375			hypothetical protein	ATGAGCCTGTTCGATCGCAAGACTTTCGACAGGGTGCTCGGCAAATGGCCGGGCGTGCGTTTTGTCGATCAATGGGATTCCCATGTCGCCAAGGTGGGCGACAAGGTCTTTGCCGTGCTTGGCGAGCGGGAGGACTGGCGGCTGGTCGTGAAATGCTCGGAAGAGAGCTTCGAAATATTGACCTCGCTGGAAGGCATAGGGCAGGCGCCCTATTTCGCCAAACGCAAATGGATATCGATTGGCGATCATTCCCCGTTGGAACAGGAAGAACTGGAGCATTATGTGCGCCGCTCCTATGAGCTTGTCGCAGCCGGTCTGACCAAAAAACTGCGGGGCGAACTGGGTATCGTGATCGAGACTGCGCGTGCCCTGTAG	MSLFDRKTFDRVLGKWPGVRFVDQWDSHVAKVGDKVFAVLGEREDWRLVVKCSEESFEILTSLEGIGQAPYFAKRKWISIGDHSPLEQEELEHYVRRSYELVAAGLTKKLRGELGIVIETARAL				NA	NA	NA	NA	NA
BMS010_01911	1206	coaBC_1	COG0452	Coenzyme A biosynthesis bifunctional protein CoaBC	ATGACGCTTTCAGGCAAACATATTCTCCTCATCATCTCCGGTGGCATCGCAGCCTATAAAAGCCTCGATCTCATCCGCCGTCTGAAAGAGCGCGGCGCGAAGGTGACGCCGGTGATGACGAAGGGCGCCCAGGAATTCGTCACGCCGCTTGCCGTCGGTGCACTTTCCGCCACCCATGTCTTCACCGAGCTCTTTTCCCGGCAGGATGAACAGGATGTCGGCCATATCAGGCTGGCGCGTGACTGCGACCTCGTGCTTGTGGCACCCGCCACCGCCGATCTGATGGCGAAGATGGCGCATGGTCTTGCAGACGATCTTGCCTCCACCATTCTTCTCGCGACGGATCGAAAGGTGCTGGTGGCACCGGCGATGAACCCGAAAATGTGGGCGGCAAAGCCCACGCTGCGTAATGTCGAAACGCTGAAAAAAGACGGCGTGTTTTTCATCGGCCCGATGGCCGGCGAGATGGCAGAGAAGGGCGAGGCTGGTTTTGGCCGTATGGCCGAGCCATTGCAGATCGTCGGAGCCGTCGCGGCACTGCTGGATGAGGGGCCAAAGCCCCTGAAGGGCAGAACGGCCATCGTCACCTCCGGCCCCACGCATGAACCGATTGACCCGGTGCGCTACATCGCCAACCGCTCCTCGGGCAAGCAGGGCCATGCCATTGCGGCGGCTATGGCGGAACTGGGGGCAGAGGTTACGCTGGTTTCCGGCCCGGTCACCATCGCCGATCCTGCCGGGGTCACGACGATCCATGTCGAGCGCGCCGAGGAGATGCGCGATGCGGTGATATCGAGACTGCCGGCGGATATCGCCGTCATGGTCGCTGCCGTCGCCGACTGGCGGGTGACGGGCTCGTCGGAGCAGAAGATCAAGAAGCAGCCGGGCGATGCGCCGCCGGCGCTACAACTGACGGAAAATCCCGATATTCTCAAAACCGTCGGCCATCATGAAAAGCGCCCGAGGATTGTGGTGGGCTTCGCCGCCGAAACGCAGGATGTCGAGAAGAACGGCCGGGCGAAGCTGGAGCGCAAAGGGGCGGATTATATCGTCGCAAATGATGTTTCGGCGGAAACCGGCATCATGGGCGGAGACCGCAACAGCGTGAAGATCATTTCCGCAGATGGCATCGACGTCTGGCCGGATCTCGACAAGGCCGACGTTGCAAAACGTCTGGCGGCCCTGATCGCGGAGAAACTCGCATGA	MTLSGKHILLIISGGIAAYKSLDLIRRLKERGAKVTPVMTKGAQEFVTPLAVGALSATHVFTELFSRQDEQDVGHIRLARDCDLVLVAPATADLMAKMAHGLADDLASTILLATDRKVLVAPAMNPKMWAAKPTLRNVETLKKDGVFFIGPMAGEMAEKGEAGFGRMAEPLQIVGAVAALLDEGPKPLKGRTAIVTSGPTHEPIDPVRYIANRSSGKQGHAIAAAMAELGAEVTLVSGPVTIADPAGVTTIHVERAEEMRDAVISRLPADIAVMVAAVADWRVTGSSEQKIKKQPGDAPPALQLTENPDILKTVGHHEKRPRIVVGFAAETQDVEKNGRAKLERKGADYIVANDVSAETGIMGGDRNSVKIISADGIDVWPDLDKADVAKRLAALIAEKLA	PGPT0008815_3047	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0008815-coaBC|dfp-K13038	NA	NA
BMS010_01912	1584	prfC_1	COG4108	Peptide chain release factor RF3	ATGGCCGAAACACTTGCCGAGGCGGTCTCCCGCCGCCGCACCTTTGCTATTATCGCGCACCCGGACGCGGGTAAGACCACGCTCACCGAAAAACTGCTGCTGTTCGGCGGAGCGATCCAGCTTGCCGGTGAGGTGAAGGCGAAGAAGGATCGCATCCAGACCCGTTCGGACTGGATGAAGATCGAGCGCGAGCGCGGCATTTCGGTCGTCACCTCGGTCATGACCTTCGAATATAACGACCGGGTCTTCAACATTCTCGATACGCCCGGCCACGAGGACTTCGCCGACGACACCTACCGCACGCTGACGGCGGTGGATGCGGCGATCATGGTCATCGACGCCGCCAAGGGTATCGAGCCGCGCACGCTGAAGCTGTTCGAAGTCTGCCGCATGCGCGATATTCCGATCATCACCTTCATCAACAAGATGGACCGCGAAAGCCGCGACCCCTTCGAGATTCTGGATGAGGTGGAAGAGAAGCTCGCACTCGATACGGCGCCCATCACCTGGCCGGTCGGTCGGGCAAAGACCTTCTGCGGCGCCTATAATCTCGCCGACAGCACCTTCCGTGGCGTCGATACGCAGGTGGAAGCCATGCCGGTCAACGGTCCGCAGGCGGTTGCCGATCGCCTGCCGGAAAATGAGCGCCATCTTTTCGTCGAAGAAACGGAACTGGCGCTGGAAGCCTGCCGTCCTTTCGATCGTCAGGCATTTCTCGAAGGTCATATGACGCCGGTGTTCTTCGGCTCGGCGCTGCGTAATTTCGGTGTGCGTGATCTCATCAATGCGCTTGGCGATTTCGCACCGCCGCCGCGCGATCAGGTGGCGGACACCCGCACCGTACATGCGGCCGAAGAAAAAATGACGGCCTTCGTCTTCAAGATTCAGGCCAATATGGACCCGAACCATCGCGACCGCATCGCTTTTGCCCGCATCTGCTCCGGCAAGCTGGAGCGCGGCATGAAGGCGCGGCTTGCTCGCACCGGCAAACAGATGGGCCTCACTGCGCCGCAGTTCTTCTTCGCCTCGCAGCGCCAGCTTGCCGATACGGCCTTTGCGGGTGACGTGGTGGGCATCCCGAACCACGGCACGCTGCGCATCGGCGATACGCTGACCGAGGGTGAAAACCTCGTCTTCCAGGGCGTGCCGAACTTTTCGCCGGAAATTCTCCGCCGCGTGCGTCTGGAAGACGCCATGAAGGCGAAGAAGCTGAAGGAAGCCCTGCAGCAGATGGCGGAAGAAGGCGTCGTGCAGCTGTTTTCGCCGGAAGACGGCTCGCCGGCCATCGTCGGTGTTGTCGGTGCGCTGCAGCTCGACGTGTTGAAGGAGCGTCTGATGGGCGAATATGGCCTGCCGGTCTCCTTCGAAATGTCGCGCTTTTCCGTCTGCCGCTGGATTTCTTCCGATCAGCCGGCGGAAATGGACAAGTTCCTCAACGTCAAGCGCGGCGATATCGCCCGCGATCTGGATGGCGATCCGGTGTTTCTGGCGCAGGACGCCTTCTCGCTCCGCTATGAGTCCGAGCGTTTTCCGGCGATCAAGATGGTCGCGATCAAGGAATATCACGTCGCCAAGGCGGCGTGA	MAETLAEAVSRRRTFAIIAHPDAGKTTLTEKLLLFGGAIQLAGEVKAKKDRIQTRSDWMKIERERGISVVTSVMTFEYNDRVFNILDTPGHEDFADDTYRTLTAVDAAIMVIDAAKGIEPRTLKLFEVCRMRDIPIITFINKMDRESRDPFEILDEVEEKLALDTAPITWPVGRAKTFCGAYNLADSTFRGVDTQVEAMPVNGPQAVADRLPENERHLFVEETELALEACRPFDRQAFLEGHMTPVFFGSALRNFGVRDLINALGDFAPPPRDQVADTRTVHAAEEKMTAFVFKIQANMDPNHRDRIAFARICSGKLERGMKARLARTGKQMGLTAPQFFFASQRQLADTAFAGDVVGIPNHGTLRIGDTLTEGENLVFQGVPNFSPEILRRVRLEDAMKAKKLKEALQQMAEEGVVQLFSPEDGSPAIVGVVGALQLDVLKERLMGEYGLPVSFEMSRFSVCRWISSDQPAEMDKFLNVKRGDIARDLDGDPVFLAQDAFSLRYESERFPAIKMVAIKEYHVAKAA				NA	NA	NA	NA	NA
BMS010_01913	471	dut_1		Deoxyuridine 5'-triphosphate nucleotidohydrolase	ATGACCCTTCAAAACGACAATCGCCCCACTCTCCGGCTCGTCCGCCTCGCCAATGGCGCTGACCTCGAATTGCCGTCCTACGAAACCCGTGGCGCTGCCGGCATGGACCTGCGCGCGGCCGTACCTGCCGGTGAACCGCTGACCCTGCAACCGGGCGAACGCGCCTTGGTCCCGACCGGTTTCATCTTCGAGGTTCCGCAGGGATACGAGGCGCAAATCCGCCCCCGCTCCGGCCTCGCCATCAAGAGCGGCATCACCTGCCTCAACTCTCCCGGCACGGTGGACAGCGATTATCGCGGCGAGGTGAAAGTCATCCTCGCCAATCTTGGCCAGGAGGTTTTCGTCATCGAGCGCGGCATGCGCATTGCGCAGATGGTGATTGCGCCGGTAACCCAGGTCGTTGTGAGCGAGGTGACGGAGACCTCTGAGACGGCGCGCGGCGCCGGCGGTTTCGGCTCCACCGGGGTTTAG	MTLQNDNRPTLRLVRLANGADLELPSYETRGAAGMDLRAAVPAGEPLTLQPGERALVPTGFIFEVPQGYEAQIRPRSGLAIKSGITCLNSPGTVDSDYRGEVKVILANLGQEVFVIERGMRIAQMVIAPVTQVVVSEVTETSETARGAGGFGSTGV	PGPT0021355_1677	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021355-dut-K01520	NA	NA
BMS010_01914	618	rhtB_4	COG1280	Homoserine/homoserine lactone efflux protein	ATGACGCTGACGACCCTTTTCGCCTATGCCACCGCCCTCTTCATCGCCGCTGCCATTCCCGGCCCCGGCATGACGGCGATCGTGGCGCGGGCGCTGGGTTCGGGCTTTCGCGAAACCTTCTTCATGGGTCTCGGGCTGGTGCTGGGCGACATGATTTACCTGACCGCTGTGATCCTGGGCCTGGCCTTCGTCGCGCAGACCTTTCAGGAAGCCTTCATGGTGCTGAAATTCGCGGGCGCGGCCTATCTCCTTTATATCGCCTGGAAGCTTTGGACCGCCGGTCTCTTTCCGCAGGACCTGAAGGCGAAGAAGAGCACCAGCATGTCCATGTCCTTCCTGTCCGGCCTGCTGATCACACTCGGCAACCCGAAAACCATGCTGTTTTATGTGGCGCTGGTGCCGACGCTGATCGATATCCGCATGATCGGCCCTTCGGAATATGCGACCCTTCTCGCCATCACCTTCATCGTGCTGATGGCGGTTCTCCTGCCTTACATCCTGCTTGCGGCCAAGGCGCGTAACCTCCTGAAAAGGCCGAGCGCCTTGACGATCCTCAACCGCACGGCGGCGGCTATTCTGGCCGGAACCGCGACCATGATCGCGATCCGCAGCACGTAA	MTLTTLFAYATALFIAAAIPGPGMTAIVARALGSGFRETFFMGLGLVLGDMIYLTAVILGLAFVAQTFQEAFMVLKFAGAAYLLYIAWKLWTAGLFPQDLKAKKSTSMSMSFLSGLLITLGNPKTMLFYVALVPTLIDIRMIGPSEYATLLAITFIVLMAVLLPYILLAAKARNLLKRPSALTILNRTAAAILAGTATMIAIRST				NA	NA	NA	NA	NA
BMS010_01915	969	cysK1	COG0031	O-acetylserine sulfhydrylase	ATGCCCGAAGCCAGAAAGCCCGGACGCGGACGCGTCTATTCCTCGATTACGGAAACAATCGGCGACACACCGATCGTGCGGCTCGACAAGCTGGCGAAGGAGAAGGGCGTGAAGGCCAACCTTCTCGCCAAACTCGAATTTTTCAATCCCATCGCTTCCGTGAAGGACCGCATCGGCGTTGCCATGATCGAAGCTCTGGAAGCGCAGGGCAAGATCACCCCCGGCAAAACCACGCTGGTGGAGCCGACATCCGGCAACACGGGCATCGCGCTTGCCTTCGCCGCCGCCGCGAAGGGCTACAAGCTGATCCTGACCATGCCTGAAACCATGTCGGTTGAACGCCGGAAAATGCTGGCCCTGCTCGGCGCCGAATTGGTGTTGACCGAAGGCCCCAAGGGCATGAAGGGCGCCATCGCCAAGGCGCAGGAACTGGCCGAGACCCTGCCTGACGCCATCATTCCGCAGCAGTTCGAAAACCCCGCCAATCCCGATATTCACCGCAAGACGACGGCTGAAGAAATCTGGAACGACACCGAGGGCACGGTCGATATTCTCGTCTCGGGCATCGGCACCGGCGGCACCATCACCGGCACGGGTCAGGTGCTGAAGTCGCGCAAGCCCGAGGTGAAGGTCATTGCCGTCGAACCTGCCGACAGCCCGGTTCTTTCCGGCGGCAACCCCGGCCCGCACAAGATTCAGGGCATCGGCGCCGGTTTTGCACCCGCTATCCTCGATACCGGCATTTATGACGAGATCGTCACCGTGACCAATGACGAGGCTTTCGAAACCGCACGTCTGGCGGCAAGGCTGGAAGGCGTGCCGGTCGGCATCTCCTCGGGTGCGGCGCTGGCGGCGGCCATCAAGGTTGGCGCGCGGGAAGAAAATGCCGGCAAGAACATCGTCGTCATCATTCCTTCCTTTGCGGAACGCTACCTTTCGACAGCGCTTTTCGAAGGCCTCGGGCTTTAA	MPEARKPGRGRVYSSITETIGDTPIVRLDKLAKEKGVKANLLAKLEFFNPIASVKDRIGVAMIEALEAQGKITPGKTTLVEPTSGNTGIALAFAAAAKGYKLILTMPETMSVERRKMLALLGAELVLTEGPKGMKGAIAKAQELAETLPDAIIPQQFENPANPDIHRKTTAEEIWNDTEGTVDILVSGIGTGGTITGTGQVLKSRKPEVKVIAVEPADSPVLSGGNPGPHKIQGIGAGFAPAILDTGIYDEIVTVTNDEAFETARLAARLEGVPVGISSGAALAAAIKVGAREENAGKNIVVIIPSFAERYLSTALFEGLGL	PGPT0002810_3874	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0002810-cysK-K01738	NA	NA
BMS010_01916	1533	comM_1	COG0606	Competence protein ComM	ATGGTGGCAAGGGTCAATACGGTTGCATTTCAGGGCATAGAGGGTGTGCCCGTCGAGGTGCAGGTCATGGTCGCGCCGGGAAAGGTGGGCATCCAGATTGTCGGCCTGCCCGATAAGGCGGTGGCCGAAAGCCGCGAGCGGGTGCAGGCCGCCCTGCATGCCTCCGGTCTGGCACTGCCGGCAAAAAAAGTCACCGTCAATCTCGCGCCTGCCGATCTGCCCAAGGAAGGATCGCATTTCGATCTTCCCATTGCGCTTGGCCTCATGGCCGCTTTAGGCGCGATACCGGCAGAAATGCTGGCACGTTATGTGGTTCTCGGCGAACTCAATCTCGATGGCACCATCGGTATGGTTTCGGGCGCCCTGCCGGCGGCGATCGGCGCAAATGCGCTTGGCAAGGGGCTGATCTGCCCGGCTGAAAGCGGACCGGAAGCGGCCTGGGCCGGCGCCGGTATCGATATTCTCGCCCCGCGCAGCCTGATTGCGCTGGCCAATCATTTTCGCGGCACCCAGCTTCTCTCGCGCCCGACGCCCGCCATTCGCGCCAACCCGGTCAATCTGCCGGATTTAGCGGATATCAAAGGACAGGAGAGCGCCCGGCGCGCGCTGGAGGTGGCAGCCGCCGGCGGCCACAACCTGCTCATGGTCGGGCCGCCCGGCTCCGGCAAATCCATGCTCGCAGCCCGCCTGCCTTCCATCCTGCCGCCGCTGGAAGCGGCGGAATTGCTGGAAGTGTCGATGGTCCATTCCATCGCCGGCCAATTATCCGGCGGCAAGCTTTCGGACCGCAGGCCGTTCCGCACCCCACATCATTCCGCCACCATGGCGGCGTTGATCGGCGGAGGGCTTCGCGCCAAGCCGGGTGAGGCTTCGCTTGCTCATAACGGCGTTCTGTTTCTGGATGAGTTCCCGGAATTTTCGCCGCAGGTGTTGGATGCGCTGCGCCAGCCGCTGGAAACGGGCGAATGCATCATTGCGCGGGCCAATCATCGCGTCAGCTATCCGGCGGAAATCCAGCTCGTTGCGGCGATGAATCCCTGCCGTTGCGGCATGGCGGGAGAGCCGGGTTTCACCTGCGCCCGAGGCCCGCGTTGTGTGACGGATTATCAGGCCCGCATTTCCGGCCCGCTGCTGGACCGTATCGATATCCGCATCGACGTTCCCGCCGTCTCCGCCGCCGATCTCATCCGCCCCGTCGCGTCCGAGCCGAGTGCCGCGGTGGCCGCCCGTGTCGCCCGGGCACGTCTTGCGCAGCAAGAACGTTACGCGTCGGCGGGATTTGCCGCCATTCGCACCAATGCCCGCTGCACGACGACCCTGATAGAAAAATATGCCGAGCCGGATGCGTCCGGGCTGCAATTGCTGCGCGATGCGGCCGAGCGGCTGAAGTTCTCCGCGCGCGGTTATCATCGCATTCTCAAGGTTGCCCGCACCCTGGCCGATCTGGATGGCAAACAGACGGTCGGCCGTATCCATGTGGCGGAAGCCGTGTCCTATCGTATCGCTGGCGAGAGGCTGACGACGGCGGCATAG	MVARVNTVAFQGIEGVPVEVQVMVAPGKVGIQIVGLPDKAVAESRERVQAALHASGLALPAKKVTVNLAPADLPKEGSHFDLPIALGLMAALGAIPAEMLARYVVLGELNLDGTIGMVSGALPAAIGANALGKGLICPAESGPEAAWAGAGIDILAPRSLIALANHFRGTQLLSRPTPAIRANPVNLPDLADIKGQESARRALEVAAAGGHNLLMVGPPGSGKSMLAARLPSILPPLEAAELLEVSMVHSIAGQLSGGKLSDRRPFRTPHHSATMAALIGGGLRAKPGEASLAHNGVLFLDEFPEFSPQVLDALRQPLETGECIIARANHRVSYPAEIQLVAAMNPCRCGMAGEPGFTCARGPRCVTDYQARISGPLLDRIDIRIDVPAVSAADLIRPVASEPSAAVAARVARARLAQQERYASAGFAAIRTNARCTTTLIEKYAEPDASGLQLLRDAAERLKFSARGYHRILKVARTLADLDGKQTVGRIHVAEAVSYRIAGERLTTAA				NA	NA	NA	NA	NA
BMS010_01917	960	gshB_1	COG0189	Glutathione synthetase	ATGGCGAAGATCAAGAACGTCGCGATCCAGATGGATCATGTCTCCGGCATCAATATCGCCGGTGACTCCACCTTCGCCATGAGCCTTGAGGCGCAGGCGCGCGGATACCGGCTGTTCCATTATACCCCCGAGCGCCTCTCCATGCGCGATGGCAAGATTTACGCCACCGTCGAGCAGATGGAACTGCGCGACATCAAGGGCGACCATTTCTCGCTCTCCGAACCGGAGCGCGTCGATCTGTCGACCATGGACGTCATCCATCTGCGTCAGGATCCGCCATTCGACATGGCTTACATCACCTCGACCCATCTGCTGGAGCGCATTCATCCGAAAACGCTGGTGGTCAACGATCCCGCCTGGGTGCGCAATTCGCCGGAAAAGATTTTCGTCACCGAATTCGCCGATCTGATGCCGAAGACGCTGATCACCAAGGACGCGGAGGAAATCGCCCGCTTCCGCAACGAAATGGGCGATATCATCCTCAAGCCGCTTTACGGCAATGGTGGTGCAGGCGTCTTCCATTCCGCGCGCGACGACCGCAATTTCTCCTCTCTGCTGGAGATGTTCGGCCAGATGTTCCGCGAGCCTTATATCGCCCAACAATATCTGCCTGACGTCCGCAAGGGCGACAAGCGTATCCTGCTGGTGGATGGCGAGCCGGTGGGCGCAATCAACCGTGTGCCGGCGGAAAACGACGCCCGCTCCAACATGCATGCCGGTGGCCGGCCGGAACCGACGGAACTGACGGCGCGCGAGAAGGAAATCTGCCGCCGCATCGGCCCTGCCTTGCGCGAGCGTGGTTTCCTCTTCGTCGGTATCGATGTGATTGGCGACTATATGACGGAAATCAACGTCACCTCGCCGACCGGCATTCGCGAAGTGCGGAAATTCGGCGGTGCCGATGTCGCAAGCCTGCTGTGGGATGCGATCGAGAAAAAGCGCGAAGCCCAGGATTTCTGA	MAKIKNVAIQMDHVSGINIAGDSTFAMSLEAQARGYRLFHYTPERLSMRDGKIYATVEQMELRDIKGDHFSLSEPERVDLSTMDVIHLRQDPPFDMAYITSTHLLERIHPKTLVVNDPAWVRNSPEKIFVTEFADLMPKTLITKDAEEIARFRNEMGDIILKPLYGNGGAGVFHSARDDRNFSSLLEMFGQMFREPYIAQQYLPDVRKGDKRILLVDGEPVGAINRVPAENDARSNMHAGGRPEPTELTAREKEICRRIGPALRERGFLFVGIDVIGDYMTEINVTSPTGIREVRKFGGADVASLLWDAIEKKREAQDF	PGPT0013040_701	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013040-gshB-K01920	NA	NA
BMS010_01918	513			hypothetical protein	ATGTCCTTCAAAATGATGTTCGCTGCCGCAGCAACGATGGCCGTCCGCACCGTGCCGATATTGCCGGCCTATTTGCGCCGGTCAAAAGACGAAGCTGTCGTCAGCGCATCCTGCACCGATCTGCGGCTTCAGCCGGCCCCCATCAATCCGGAGTGGATCATTTCCGGCAACCCGCAGGCGCGCGCGGCGGATCACTCCAGAAGTGGCGACCGTGCCTCCAGCACCGCCATGTGGGATTGCACGGCGGGTGAGTTCCGCTGGTTCTTCGGCTGGGATGAAACCGTCTATATTCTCGAAGGCGAAGTGCATGTGACGGCGGAAGACGGTTCAATCAGCATCCTGCGGGTCGGCGATGTTGCTTATTTCCCTGCGGGAACATGGGCGACCTGGCGGGTGGATGATTATGTCCGCAAGGTCGCTTTCATGCGCCGTCCGTTCCCCAAGGCGCTGGCTTTTGCCTATCGCGTCAAGAACAAGCTGTTTGCCGGCCGTTCCTATAAGCTGGCGGCCTGA	MSFKMMFAAAATMAVRTVPILPAYLRRSKDEAVVSASCTDLRLQPAPINPEWIISGNPQARAADHSRSGDRASSTAMWDCTAGEFRWFFGWDETVYILEGEVHVTAEDGSISILRVGDVAYFPAGTWATWRVDDYVRKVAFMRRPFPKALAFAYRVKNKLFAGRSYKLAA				NA	NA	NA	NA	NA
BMS010_01919	1101	ugpC_3	COG3839	sn-glycerol-3-phosphate import ATP-binding protein UgpC	ATGGCCGCGATAGAAATCAGTCAGGTCTGCAAGGATTATCATGGCGGCGTGCGCGCCGTGCATCACGTCGATATTGACATCAGGGACGGCGAGTTCATCGTTCTCGTTGGCCCTTCCGGCTGCGGCAAATCCACGCTTCTGCGCATGGTCGCAGGTCTTGAGGATATTTCCGAAGGCACTGTGAAGATCGGTGACCGGGTGGTCAATCAGGCCGATCCGGCAGACCGGGATATCGCCATGGTGTTTCAGAACTACGCGCTTTATCCGCATATGTCGGTGCGCCAGAACCTGGAATACGGGTTGAAGAACCGCAAGACGCCGAAGACGGAGATCGATGCGCGTGTGGCCGAAGCCGCGCGTATGCTGCAGCTCGAACCCTATCTGGACCGCAAGCCGCGTGCCCTTTCCGGCGGCCAGCGGCAGCGTGTCGCCATGGGGCGCGCCATCGTTCGCAAACCGGCGGCCTTCCTGTTCGACGAGCCCCTTTCCAATCTCGATGCCAAGCTGCGCGTTTCCATGCGCGGCGAGATCAAGCGTTTGCAAAAGCGTCTCGGCACCACCTCGATCTACGTCACCCACGATCAGCTGGAAGCCATGACGCTCGCCGATCGTCTCGTGGTGCTGAATGGCGGCCGTATCGAACAGATCGGCGCACCGCTGGATGTCTATCATACGCCTGCCTCGACCTTCGTTGCGAGTTTCATCGGCTCTCCCGCCATGAACCTGCTGAACGCCGAGTTGCATGGCGATAGCCTCGCCATCGGTCCGTCGCTCTTTGCGCTCAACGGTTTCGCGCCTGCCTCCGGCCCCGTGACGGTGGGCATGCGGGCGGAAGATTTCCGCCTCGCAGCGGCAGGTGAGCAGAGCTTCCCGCTTCGGGTCGATTACATCGAGGAACTGGGTTCGCAGCGACTTATCCACGGCATGATCGGTGACCAGAGCCTGACAGTTGCTTTCCCGCCGGATGTCGAGGTTCCGTCTGCGCTCTCCGTCACGATCGCGCCGGAGAAACTGCATTTCTTCTCCAGCGAAACCGGCAAGCGCATCGTCGGCAAAGCGGAGCAGCTGGCGGCGCAGCCCGCGCAAATGGCGACAGCCTGA	MAAIEISQVCKDYHGGVRAVHHVDIDIRDGEFIVLVGPSGCGKSTLLRMVAGLEDISEGTVKIGDRVVNQADPADRDIAMVFQNYALYPHMSVRQNLEYGLKNRKTPKTEIDARVAEAARMLQLEPYLDRKPRALSGGQRQRVAMGRAIVRKPAAFLFDEPLSNLDAKLRVSMRGEIKRLQKRLGTTSIYVTHDQLEAMTLADRLVVLNGGRIEQIGAPLDVYHTPASTFVASFIGSPAMNLLNAELHGDSLAIGPSLFALNGFAPASGPVTVGMRAEDFRLAAAGEQSFPLRVDYIEELGSQRLIHGMIGDQSLTVAFPPDVEVPSALSVTIAPEKLHFFSSETGKRIVGKAEQLAAQPAQMATA	PGPT0016850_386	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_sn-GLYCEROL-3P_TRANSPORT,PGPT0016850-ugpC-K05816	NA	NA
BMS010_01920	843	araQ_1	COG0395	L-arabinose transport system permease protein AraQ	ATGTACAAGACAAAACCCCTCGATCATCTGGTGCTGATCATCGGCGCGCTGTTCCTGATCTTGCCGGTCATCGTGGCCTTCATGACCTCCACCCATACCGCTGCGGAAATCCACCGCAGCGGTCTGACGATGGTTCCCGGCGACAATTTCATCGAGACTTATGAAAAGGTTCTGACCCAGAAGGGCGGCTTCACCGGGCAGATCACGGGTCTCAACATGGTGCTGAATTCGTTGATCCTCGGCATCGGTTTTGCCGTCGGCAAGATCGTCCTGTCGATGACGGCGGCCTATGCGATCGTTTATTTCCGGTTCCGGTTCGCAACGCTCGCCTTCTGGATCATTTTCACCACGCTGCTTCTGCCGCTCGAAGTGCGCATCATGCCCTCCTACGAGGTGATGAGCAAACTCGGCCTTCTGAACTCCTATACCGGCCTCATCGTGCCGCTTCTCGCTTCGGCGACAGGCACCTTCTATTTCCGGCAGTTCTTCAAATCCGTGCCGGAGGAGTTGCTGGAGGCTGCCCGCATTGACGGCGCAGGGCCGGTGAAATTCTTCATCGACGTTCTCATCCCGCTGTCCCGCACCATGATGGCGGCGATCTTCATCATCATGTTCGTTTACGGCTGGAACCAGTATCTCTGGCCCATGCTGATGACGACGGATGAGGGCTTCTTCACCCTGATGCGCGGCATCAAGTCGATCCTGCAGGTCTGGGTCGGTTCGCAAATTCCCGATTACAACGAAGCTTTCGCGCTCGCCGTGCTGGCCATGCTGCCGCCGGTGCTGATCGTCGTCATTTTCCAGCGCTGGTTCATCAAGGGCCTGACCGAAAGCGATAAATAA	MYKTKPLDHLVLIIGALFLILPVIVAFMTSTHTAAEIHRSGLTMVPGDNFIETYEKVLTQKGGFTGQITGLNMVLNSLILGIGFAVGKIVLSMTAAYAIVYFRFRFATLAFWIIFTTLLLPLEVRIMPSYEVMSKLGLLNSYTGLIVPLLASATGTFYFRQFFKSVPEELLEAARIDGAGPVKFFIDVLIPLSRTMMAAIFIIMFVYGWNQYLWPMLMTTDEGFFTLMRGIKSILQVWVGSQIPDYNEAFALAVLAMLPPVLIVVIFQRWFIKGLTESDK	PGPT0016845_453	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_sn-GLYCEROL-3P_TRANSPORT,PGPT0016845-ugpE-K05815	NA	NA
BMS010_01921	969	ugpA_1	COG1175	sn-glycerol-3-phosphate transport system permease protein UgpA	GTGGCCTATACATCGTCTCAACCGCGCCGGTTTTTGTCCGGCTGGTCCGCAAAGGCTGGAAAGCCAGCCAAATCTGCCGACGCCGGCATGAAGCGCGTGCAGTTCTCCTCGTCCTACGTACCCTACCTGTTTCTGGCGCCGCAGCTTGCGGTGATTTTCATCTTCTTCTACTGGCCATCGGTTCAGGCCATACATTCGTCCTTCTATATCGAAGACCCGTTCGGTTTCGGCGCTTCCTTCGTCGGACTTGCCAATTATTCGGATGCGATCTTCAGCCCCGAATATCTCAGCATCGCCAAATTCACGGTTGTCTTCACCGTGCTGGTCACCTTCTTTTCGCTGGCGCTCGGCCTGCTGCTCGCCGTCAAGGCCGACGCGGTCATTCGCGGCAGCTCGACATACAAGACGCTGCTGATTTCCGTGTATGCCATCGCGCCGCCGGTCGCCGGTCTCATCGGCATGATGTTTTTCGACCAGCATATCGGCCCCTTCGTGAAGATGGCCGCATTCCTCGGTTGGGACATGAAGGTCGGCCTCAATTATTTCGATACGGCCTTCGCCATGATCGTTGTCGCGGTCTGGAAGCAGATCCCTTACAACTTCATTTTCTTCCTTTCGGGTCTTCAGGGCGTTCCGGTCTCCGTGCGGGAAGCCGCCGCCATCGACTGCCGTTCTGGCTTTCGCCGGTTCTGGACGGTGATCATGCCGCTTCTGGCGCCCACGGCCTTCTTCCTGCTGATCATCAACATCACCTATGCGCTCTTCGACACATTCGGCGTCATCGACGTGATGGTGAAAGACAAGGCCGCCAACAACCCGATCACGCTGGTCTACAAGGTGTTTCTGGATGGTTTCCGCGGCAATGACATCGGTGGCTCCTCGGCCCAGTCCGTCATCCTGATGCTGGTCGTCTTCGTTCTCACCATCATCCAGTTCCGCTTCATCGAAAAGCGCATCCATTACAATTGA	MAYTSSQPRRFLSGWSAKAGKPAKSADAGMKRVQFSSSYVPYLFLAPQLAVIFIFFYWPSVQAIHSSFYIEDPFGFGASFVGLANYSDAIFSPEYLSIAKFTVVFTVLVTFFSLALGLLLAVKADAVIRGSSTYKTLLISVYAIAPPVAGLIGMMFFDQHIGPFVKMAAFLGWDMKVGLNYFDTAFAMIVVAVWKQIPYNFIFFLSGLQGVPVSVREAAAIDCRSGFRRFWTVIMPLLAPTAFFLLIINITYALFDTFGVIDVMVKDKAANNPITLVYKVFLDGFRGNDIGGSSAQSVILMLVVFVLTIIQFRFIEKRIHYN	PGPT0016840_105	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_sn-GLYCEROL-3P_TRANSPORT,PGPT0016840-ugpA-K05814	NA	NA
BMS010_01922	1299	ugpB_2	COG1653	sn-glycerol-3-phosphate-binding periplasmic protein UgpB	ATGTTGAAGAAGATTTCCATGGCCGCAGTGGCCGTCAGCATTTCGGCGACGTCTTCCATGGCTGCTACCAACATCACCTGGTGGCACGGCATGGGCGGCCGCAATGGCGAAGTCATCAACGAAGTCGCCCAGAAGTTCAACGAAGCCCAGAAAGAATGCGCTCTGACGCCGGTTTCCAAGGGCTCCTACGAAGAAGCCCTGGCCAGCGGCATCGCTGCTTTCCGCTCTGGCGAACAGCCGAACATCCTCCAGGTTTTCGATGCTGGCGCCGCCACCATCATCAACGCCAAGGGCGCTGTCATTCCCGCCGAAGATCTCATCAACAAGGCCGGTTACAAGTTCGACCGCGATGCCTTCATCAACGGCGTGCGTTATTTCTACGCTGCCGCTGACGGTAAGTTCGTCGGCATGCCGTTCAACTCCTCCGCTCCCATCATGTACGTCAACGACGAAGCCCTGAAAAAGGCCGGCGTCGAAGCGCCGAAGACTTGGGAAGAGTTCGAGCAGGTTGCGCCGAAGCTGAAGGAAGCCGGCTACATTCCGCTCGTTCAGTCGCAGCTCACCTGGCAGTTCACGGAGAACTTCTTCTCCCGCAACAACATCCAGTTCGCCACCAACAATAACGGCTATGACAGCGTCACCGACACCAAGCTCAAGGTCACCGACCCGAACCTCGTCATGATGTTCGACAAGCTGAAGGACTGGAAGGACAAGGGCCTGTTCGCCTATTACGGCGCCGGCTGGAACGACAACCAGAAGCCCTTTGAAGAAGGCAAGGTCGCGTTCTGGATTGGTTCTTCGGGCTCCTTCGGCGGCCTGCAGAAGACGGCGACCATGCCGTTCTCGGCAACCTTCCTTCCTTACTGGGGCTCCATCAAGGGTGCCGGCACCAACTCCTTCATCGGTGGCGCGGCGCTTTTTGCAATGTCGGGCAAGTCTGAAGCCGAAAACAAGTGCGTGGCCGACTTCTTCCAGTTCCTGACCTCGCCGGAAATCCAGGTCTTCTACCACAAGGCAACCGGTTACGTCGCTATCACCAAGGCCGCTTACGAAAAGGCCAAGGCTGAAGGCTTCTACAAGGAAAAGCCGGTCGCGGAAGTCGGCATCCAGCAGCTCTCGCTGCCGGGCGGCGAATGGTCCAAGGGGTACCGCCTCGGCTTCTACCCGCAGATCCGCGCCGTCATGGAACGCGAATATAACCGCATCTTCTCCGGCGAAGTGACCCCGAAGGACGCCTTCGACATCATCGAGAAGGAAGGCAACGACCTGCTCGCCCGTTTCGCCAAGACGGCCGGCTGA	MLKKISMAAVAVSISATSSMAATNITWWHGMGGRNGEVINEVAQKFNEAQKECALTPVSKGSYEEALASGIAAFRSGEQPNILQVFDAGAATIINAKGAVIPAEDLINKAGYKFDRDAFINGVRYFYAAADGKFVGMPFNSSAPIMYVNDEALKKAGVEAPKTWEEFEQVAPKLKEAGYIPLVQSQLTWQFTENFFSRNNIQFATNNNGYDSVTDTKLKVTDPNLVMMFDKLKDWKDKGLFAYYGAGWNDNQKPFEEGKVAFWIGSSGSFGGLQKTATMPFSATFLPYWGSIKGAGTNSFIGGAALFAMSGKSEAENKCVADFFQFLTSPEIQVFYHKATGYVAITKAAYEKAKAEGFYKEKPVAEVGIQQLSLPGGEWSKGYRLGFYPQIRAVMEREYNRIFSGEVTPKDAFDIIEKEGNDLLARFAKTAG	PGPT0016835_1608	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_sn-GLYCEROL-3P_TRANSPORT,PGPT0016835-ugpB-K05813	NA	NA
BMS010_01923	561	maa	COG0110	Maltose O-acetyltransferase	ATGTTCACCGAGCGGGAAAAAATGGCCGCGGGCGAATGGTACAGCTGCATGGATGCCGAGCTGGATATATTGCGCTGGCGGGCACGAGGGGCCGTCCACCAGCACAATACGATGCCGCCGGATGAGCGCGGGGCAATGGCCCCCTTGCTACGGTCTCTGTTCGCTTCTGTTGGTGAAGGGGCATTTATCGAAGCGCCGTTTCATTGCGCTTACGGCTTCAATATCACACTTGGTAAAAATGTTTATCTCAATGCCGGCTGCACCATTCTGGATTCCGCGAAAGTTACGATAGGCGACGGCGCGATGCTCGGGCCTGCGGTGCAGATCTATTGTGCGGAACACCATCTGGACCCGGTGCCGCGAGCGCAAGGCATTGAAATCGCAAAGCCCGTGACGATCAGCCGTGATGTCTGGATCGGCGGCGGAGCGATCGTTCTGGCTGGCATCACCATTGGTGACGGCGCGATTGTCGGCGCCGGTTCGGTGGTGACGCGCAATGTGCCGCCGGGCGTGACGGTGGTCGGAAATCCGGCTCGGCCGATAAAGCGCATGACCGACTGA	MFTEREKMAAGEWYSCMDAELDILRWRARGAVHQHNTMPPDERGAMAPLLRSLFASVGEGAFIEAPFHCAYGFNITLGKNVYLNAGCTILDSAKVTIGDGAMLGPAVQIYCAEHHLDPVPRAQGIEIAKPVTISRDVWIGGGAIVLAGITIGDGAIVGAGSVVTRNVPPGVTVVGNPARPIKRMTD	PGPT0018611_1318	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_METABOLISM,PGPT0018611-maa|nodL-K00661	NA	NA
BMS010_01924	369			hypothetical protein	ATGGCCGCTGACGGGCGAAGCAATAACAGGCGCAAGGCCGAGCGACGCGGCCATGCCGCAGAATATTGGGCGGCACTTTATCTGATGCTGAAGGGATATCGCATCCTCGCCATTCGTTATCGCACCCGGCTGGGGGAAATCGATCTCATCGCCCGCAAGAAGGACCTCGTCGCCATCGTCGAGGTCAAGGCGCGAACGTCCGGCGAAGGTGCCGTGGATGCCGTTGGTTTCCATTCGCAGCAACGCATTCGGGCGGCGGCCGATCTGTGGCTCGCCCGTCGCAAGGATGCCGCGCGGTTTTCGCTGCGTTTCGATATCATCGCCGTTTTGCCGCGACGCCTGCCGCAGCATTTTATCGACGCCTTTTAA	MAADGRSNNRRKAERRGHAAEYWAALYLMLKGYRILAIRYRTRLGEIDLIARKKDLVAIVEVKARTSGEGAVDAVGFHSQQRIRAAADLWLARRKDAARFSLRFDIIAVLPRRLPQHFIDAF				NA	NA	NA	NA	NA
BMS010_01925	942	rsmI_1	COG0313	Ribosomal RNA small subunit methyltransferase I	ATGATTGGAAGCCGTGTGACGGAAGAAATATCGAACAGCGACTTGAGAGATGCAACAAAGAGCTTCAGGATCGGCACGGCCACCATTCCGGCGCGGCCGCTGGAGCCTGCGCTTTATCTCGTGGCCACGCCCATCGGCAATCTCGGCGATATCACCATCCGCGCGCTGGAAACGCTGGCCTCGGCCGATGTTCTCGCCTGCGAGGATACCCGCGTCACCCGCATCCTGCTCGAACGTTACGGCATCCGCACCCGCCCGCTCGCATATCATGAGCACAACGCAAACGAAGCGGGGCCGAGGCTCATTGCGGCGCTTGAGGCGGGAAAATCCGTGGCGCTGGTCTCGGATGCTGGAACGCCGCTCGTTTCCGATCCCGGTTACCGCCTCGGCCAGCTCGCGCTCGAGGCCGGGCATCGTGTCGTGCCGGTGCCGGGAGCATCCGCGCCGCTCGCTGCCCTCGTGGGGTCTGGAATGCCGAGCGATGCTTTCCTGTTTGCCGGCTTCCTGCCGGTGAAGGATCGGGGCAAGCGCGACCGTTTTGCCGAACTCGCAAAAATCCCGGCCACGTTGATCTTCTTTGAATCGCCGCATCGCATCGGCGCTTCCGTCAAGGTGGCATCGGAAGTTCTTGGCCACGACCGCCGCGCCGTGGTCTGCCGCGAACTGACCAAGACCTTCGAGGAGTTCCGGCGCGGCACGCTGGGCGAGCTTGCGGATTATTACGGTGGCGACCGCGTGGTGAAGGGTGAGATCGTGCTTCTGGTGGAACCGCCCTCCTATGACGAGATTCCCGATATCGAGGATGTCGAGAAGCTGCTGAAGGATCTCGTCGCCACCATGCCCGCCGCCAAGGCGGCAGGCGAAGCCGCCAAGCTGACGGGCCTGCCGCGCAAGGAGCTTTATCAAAGGCTGCTGGATATGAAGGAAACGGATGGCCGCTGA	MIGSRVTEEISNSDLRDATKSFRIGTATIPARPLEPALYLVATPIGNLGDITIRALETLASADVLACEDTRVTRILLERYGIRTRPLAYHEHNANEAGPRLIAALEAGKSVALVSDAGTPLVSDPGYRLGQLALEAGHRVVPVPGASAPLAALVGSGMPSDAFLFAGFLPVKDRGKRDRFAELAKIPATLIFFESPHRIGASVKVASEVLGHDRRAVVCRELTKTFEEFRRGTLGELADYYGGDRVVKGEIVLLVEPPSYDEIPDIEDVEKLLKDLVATMPAAKAAGEAAKLTGLPRKELYQRLLDMKETDGR				NA	NA	NA	NA	NA
BMS010_01926	1119	dnaN_1		Beta sliding clamp	ATGCGTATTACTCTTGAGCGGTCGAACCTTCTGAAATCGCTGAACCACGTCCACCGGGTCGTCGAGCGACGCAACACGATCCCGATCCTGTCCAACGTCCTGCTGCGCGCATCCGGCGCCAATCTGGACATGAAGGCGACCGACCTCGATCTCGAAATCACCGAAGCGACACCGGCCATGGTGGAGCAGGCAGGCGCCACCACCGTGCCGGCGCATCTGCTTTATGAAATCGTGCGCAAGCTGCCGGACGGTTCCGAAGTGCTTCTGGCCACCAATCCGGACGGCTCCTCGATGACGGTTGCCTCCGGCCGTTCGAAATTCTCGCTGCAATGCCTGCCGGAAGGGGACTTCCCCGACCTCACGGCCGGCACCTTCAGCCACACCTTCAAACTGAAGGCGACCGATCTGAAGATGCTGATCGACCGGACGCAATTTGCGATTTCGACCGAAGAAACGCGTTATTACCTGAACGGCATTTTCTTCCATACCATCGAAAGCAATGGCGACCTGAAGCTGCGCGCCGTCGCGACCGATGGCCACCGCCTGGCGCGCGCCGATGTGGATGCGCCTTCCGGTTCAGAAGGCATGCCGGGCATCATCATTCCGCGCAAGACAGTCGGCGAGCTGCAGAAGCTGATGGACAACCCTGAGCTGGAAGTCACCGTCGAAGTTTCGGATGCGAAAATCCGCCTGACCATCGGTTCGGTCGTTCTGACCTCGAAGCTGATCGACGGCACATTCCCGGATTATCAGCGCGTGATCCCGACCGGCAACGACAAGGAAATGCGCGTCGATTGCCAGACCTTCGCGCAGGCTGTCGACCGCGTCTCGACCATTTCTTCCGAGCGCGGCCGCGCCGTGAAGCTCGCGCTCACCAACGGCCAGCTGACGCTGACCGTCAACAACCCGGATTCGGGAAGTGCTACGGAAGAAGTGGCTGTCGGTTACGACAATGATTCGATGGAAATCGGCTTCAACGCCAAATATCTCCTCGACATCACCTCGCAGCTTTCCGGCGACGACGCGATTTTCCTGCTGGCCGACGCCGGCTCGCCGACGCTCGTTCGCGACACCGCTGGCGACGATGCGCTTTATGTTCTGATGCCGATGCGCGTTTGA	MRITLERSNLLKSLNHVHRVVERRNTIPILSNVLLRASGANLDMKATDLDLEITEATPAMVEQAGATTVPAHLLYEIVRKLPDGSEVLLATNPDGSSMTVASGRSKFSLQCLPEGDFPDLTAGTFSHTFKLKATDLKMLIDRTQFAISTEETRYYLNGIFFHTIESNGDLKLRAVATDGHRLARADVDAPSGSEGMPGIIIPRKTVGELQKLMDNPELEVTVEVSDAKIRLTIGSVVLTSKLIDGTFPDYQRVIPTGNDKEMRVDCQTFAQAVDRVSTISSERGRAVKLALTNGQLTLTVNNPDSGSATEEVAVGYDNDSMEIGFNAKYLLDITSQLSGDDAIFLLADAGSPTLVRDTAGDDALYVLMPMRV				NA	NA	NA	NA	NA
BMS010_01927	594			hypothetical protein	ATGGCACTTAACCTGAAGCAACGGCTTGAACAGAAATTTGAAGAAGAAATCCGCTTTTTCAAGGGCATGGTCAGCCAGCCGAAAAAAGTCGGGGCCATTGTACCGACATCGTCCATCACGGCGAAAAAAATGGCGAGTGTCATCAATCCCCATTCCGGCTTGCCGGTTCTCGAACTCGGCCCGGGCACCGGCGTCATCACCAAGGCCATTCTGGCGCGCGGCATCAAGCCGGAGAACCTGACCGCCATCGAATATTCGACCGATTTCTACAATCAGCTCCTCAGGAGCTATCCGGGCGTCAACTTCGTCAATGGCGACGCCTTCGATCTCGATGCGACGCTTGGCGAACACAAGGGCCAGATGTTCGATAGCGTCGTTTCCGCCGTGCCGATGCTGAATTTCCCCATTGCCGCCCGTATCAAGCTTCTCGATGAATTGCTGAAGCGCGTGCCCCCTGGCCGCCCCGTCGTGCAGATATCCTACGGTCCGATTTCCCCCATCGTCGCGCAGCCGCATCTCTACCACATCCGTCATTTCGATTTCATCGTGCGCAATATTCCGCCGGCGCAATTGTGGACCTATACGCGGGCCTGA	MALNLKQRLEQKFEEEIRFFKGMVSQPKKVGAIVPTSSITAKKMASVINPHSGLPVLELGPGTGVITKAILARGIKPENLTAIEYSTDFYNQLLRSYPGVNFVNGDAFDLDATLGEHKGQMFDSVVSAVPMLNFPIAARIKLLDELLKRVPPGRPVVQISYGPISPIVAQPHLYHIRHFDFIVRNIPPAQLWTYTRA	PGPT0007740_872	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_METHYLTRANSFERASE_ACTIVITY,PGPT0007740-pmtA-K00570	NA	NA
BMS010_01928	597			hypothetical protein	ATGCATGCGCTCTACATCACCCATCCCCAGGTCAAGATCGATCCGGCTGTTCCCGTTCCCGAATGGGGGCTTTCGGACAGGGGTGCCGAGCGGACGCGCGAGGCAAGCCGCCTGCCCTGGGCGCGGTCATTGCGCCGCATCGTTTCCAGCGCCGAGACCAAGGCGATCGAAACCGCCCGCATCCTGGCTGAAACCTCCGGGGCGGAAATGGACATCGTCGAGGCAATGCATGAAAACGACCGGTCCGCCACCGGCTTCCTGCCGCCGCCGGAATTCGAAAAGGCGGCGGACTGGTTCTTCGCCCATCCCGAGGAGAGTTTTCACGGCTGGGAGCGTGCAATCGACGCTCAGGCAAGGATCGTCGGGGCAGTCAAAGCCGTTCTCGACCGGCACGACCCGCAGCAGCCAATCGCCTTTGTCGGACATGGTGGCGTAGGTACGCTGCTGAAATGCCATATCGAAGGCCGCGGCATCAGCCGCAGCAAGGACCAGCCGCCCGGCGGCGGCAATCTCTTTCGCTTCTCCATCGCCGACTTTTCACTTGCAGCCGCGTCCCCCACATGCGACTGGACGGCAATGGAAACATGGCAGGGATAA	MHALYITHPQVKIDPAVPVPEWGLSDRGAERTREASRLPWARSLRRIVSSAETKAIETARILAETSGAEMDIVEAMHENDRSATGFLPPPEFEKAADWFFAHPEESFHGWERAIDAQARIVGAVKAVLDRHDPQQPIAFVGHGGVGTLLKCHIEGRGISRSKDQPPGGGNLFRFSIADFSLAAASPTCDWTAMETWQG				NA	NA	NA	NA	NA
BMS010_01929	708	pyrF_1	COG0284	Orotidine 5'-phosphate decarboxylase	ATGACCGCGCGCGAAAAACTCATCGTCGGGCTGGATGTTCCGACTGTGCAGCAGGCCGAAGACATCGTGTCGAAAATCGGCGACGAGGTTCTGTTCTACAAGATCGGTTATCAGCTGGTCTTTGCCGGCGGTCTCGAATTTGCGCGCGACCTTGTCCAGAGCGGCAAGAAGGTCTTTCTCGACATGAAACTGCTCGATATCGACAATACCGTCGCCTCCGGCGTCGAAAACATCGCCCGCATGGGCATGTCGATGCTGACGCTGCATGCCTATCCCAAAGCGATGCGCGCCGCCGTCAAGGCCGCCGAAGGCTCCGGCCTCTGCCTGCTGGGCGTCACCGTGCTGACGTCGATGGACGACGTCGATCTCGCCGAGGCAGGTTATGCCTCTGACGCCCGTTCGCTGGTGCTGCGCCGGGCGGAGCAGGCACGCGAGGCTGGCATGGGCGGCATCGTCTGTTCGGCGGAAGAATCGACCGCCGTGCGCGAAATCCTCGGCCCGGACCTTGCCGTCGTCACCCCCGGCATTCGCCCGGCCGGCGCGGATCTCGGCGATCAGAAGCGGGTGATGACGCCCTACGACGCCATCAAGGCCGGATCGAGCCATCTGGTGGTCGCCCGCCCGATCGTCAGGGCGGAAGACCCGAAAGCGGCGGCCCGCGCCATTCTTGACGACATGCTGCGCGCCAGCTTTCCGGCCAATCAGTAA	MTAREKLIVGLDVPTVQQAEDIVSKIGDEVLFYKIGYQLVFAGGLEFARDLVQSGKKVFLDMKLLDIDNTVASGVENIARMGMSMLTLHAYPKAMRAAVKAAEGSGLCLLGVTVLTSMDDVDLAEAGYASDARSLVLRRAEQAREAGMGGIVCSAEESTAVREILGPDLAVVTPGIRPAGADLGDQKRVMTPYDAIKAGSSHLVVARPIVRAEDPKAAARAILDDMLRASFPANQ	PGPT0014965_3363	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0014965-pyrF-K01591	NA	NA
BMS010_01930	288			hypothetical protein	ATGGCAAAGGGATACTGGATCGCCCGCGTCGATGTGCGCGATAGTGAGCGTTACAAGGACTATGTCACGACGGCTAAGCCCGCTTTCGAGCGGTTCGGCGCCAATTTCCTGGCCCGTGGCGGCGCGCTGACCGAGCTGGAGGGCAAGGCGCGTGCGCGCAACGTCATCATCGAGTTCCCGTCGGTGCAGCACGCCATCGACTGCTATAATTCTCCCGAATATCAGGCCGCGGCCAAAATCCGCCAGGAAGTCGCGGATGCGGAGATGATGATCGTCGAAGGAATTTGA	MAKGYWIARVDVRDSERYKDYVTTAKPAFERFGANFLARGGALTELEGKARARNVIIEFPSVQHAIDCYNSPEYQAAAKIRQEVADAEMMIVEGI				NA	NA	NA	NA	NA
BMS010_01931	981	auaH		Aurachin B dehydrogenase	ATGACCTTGGCCAACCTTCCACCCCTCGTCACCGTTTTCGGCGGTTCGGGTTTTGTCGGGCGGCATGTCGTGCGGATACTTGCGAAGCGCGGTTATCGCATCCGCGTCGCCGTACGCCGCCCGGATCTCGCCGGGTTCCTGCAGCCGCTCGGCAATGTCGGCCAGATTTCCTTCGCCCAGGCGAACCTGCGTTATCGCGATTCCATCGTTAAAGCCGTGGAAGACGCCGACCATGTGGTCAATTGCGTCGGTATCCTGACCGAAAGCGGCCGGAACACCTTTGACGCCGTACAGGAATTCGGCGCGAAAGCCATTGCCGAGGCGGCCCGCGATGCTGGCGCCACGCTGACGCATATTTCCGCCATCGGCGCGGATGCCGGTTCGCCGACCGGTTATGGCCGCACCAAGGGCCGCGCCGAGGCCGCCATCCATTCCATTCTGCCTGGCGCCGTGATCCTGCGCCCGTCGATCATTTTTGGACCGGAAGACGATTTCTTCAACAAGTTCGCAAAAATGGCCCGCAGCATGCCGTTCCTGCCGCTGATCGGTGGCGGGAAAACCAGGTTCCAGCCGGTCTATGTCGAGGATGTCGCGGAAGCCGTCGCCCTTGGCGTCGATGGCAAGCTGAAACCCGGCGCGATCTATGAACTCGGCGGTCAGGATGTCATGACATTCCGTGACTGTCTCGAGGCGGTTCTTGCCGCGACCTACCGGGAGCGTCCCTTCGTCAACCTGCCCTTCGGCGTCGCGTCGATGATTGGCAAGATCGCTTCAATGGTGCCGCTGATTGCGCCGCCGCTGACGCCCGATCAGGTGACCATGCTGAAAAAGGACAATGTCGTTTCCACCGACGCCGAAAAGAACGGCCTGACGCTGGAAGGCATTGGCATCACCCCCATTCGCGTCGCGTCCATTCTGCCTTCCTACATGGTGCAATACCGCCCGCACGGCCAGTTCTCCAATGCCGGAAAAGCGGCCTGA	MTLANLPPLVTVFGGSGFVGRHVVRILAKRGYRIRVAVRRPDLAGFLQPLGNVGQISFAQANLRYRDSIVKAVEDADHVVNCVGILTESGRNTFDAVQEFGAKAIAEAARDAGATLTHISAIGADAGSPTGYGRTKGRAEAAIHSILPGAVILRPSIIFGPEDDFFNKFAKMARSMPFLPLIGGGKTRFQPVYVEDVAEAVALGVDGKLKPGAIYELGGQDVMTFRDCLEAVLAATYRERPFVNLPFGVASMIGKIASMVPLIAPPLTPDQVTMLKKDNVVSTDAEKNGLTLEGIGITPIRVASILPSYMVQYRPHGQFSNAGKAA				NA	NA	NA	NA	NA
BMS010_01932	807	uppP_2	COG1968	Undecaprenyl-diphosphatase	ATGGGTGACCAATCGATCATCAGCGCGCTTCTGCTGGGCATTATCGAGGGTCTGACGGAGTTCATTCCCGTCTCCTCAACGGCGCACGTGCTGCTGGCCGGGCATTTCCTCGGCTTCAAATCACCCGGCAACACCTTTGCCGTTCTCATTCAGCTCGGCGCGATCCTTGCGATCCTTCTTGTTTATTTTCAAAAGCTTGTGTCGATTGCGCTCGCTCTGCCGACAAGCGCGAAAGCGCGCCGTTTCGTGCTGGCCGTCGCTCTCGCTTTCCTGCCGGCGGCGATAATCGGCGCTGTGGCGCATGACTTCATCAAGACCGTGCTGTTTGAAACGCCGATGCTCATCTGCGTGGTGCTGATCATCGGCGGCGTCATTCTGCTCGGCGTCGACCGCATGCCGCTGAAACCGAAATATACCGACATCATGGACTATCCGCCGTCGCTTGCCTTCAAGATCGGCCTCTTCCAATGCATTGCGATGATTCCCGGCACGTCGCGGTCCGGCGCCACAATCGTCGGGTCGTTGCTGATGGGAACGGACAAGCGCTCCGCCGCCGAATTTTCGTTCTTCCTGGCGATGCCGACCATGCTCGGCGCTTTCACGCTCGATCTTTACAAGAACCGCGATGCGCTGAGCTTCGATGACGGTGCGCTGATCGCCGTGGGTTTCATCGCCGCTTTCGTTTCGGGCCTCTTCGTTGTTCGCTCCCTGCTGGATTTCGTATCGCGGCGGGGCTTTGCACCCTTCGCCTGGTGGCGCATCGCCATCGGTTCGCTGGGACTGGTGGCACTTCTGGTTCTGGGTTGA	MGDQSIISALLLGIIEGLTEFIPVSSTAHVLLAGHFLGFKSPGNTFAVLIQLGAILAILLVYFQKLVSIALALPTSAKARRFVLAVALAFLPAAIIGAVAHDFIKTVLFETPMLICVVLIIGGVILLGVDRMPLKPKYTDIMDYPPSLAFKIGLFQCIAMIPGTSRSGATIVGSLLMGTDKRSAAEFSFFLAMPTMLGAFTLDLYKNRDALSFDDGALIAVGFIAAFVSGLFVVRSLLDFVSRRGFAPFAWWRIAIGSLGLVALLVLG	PGPT0024165_3714	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024165-bacA-K06153	NA	NA
BMS010_01933	693	fzlA_1		FtsZ-localized protein A	ATGCCAACTCTCTATCACTCTCCGATGTCGACCGCATCCCGGTTCGTTCGTCTGATCCTCGCGGAATACGGGTTCCAGACCGATCTCGTGGAGGAGCAGCCGTGGGAAAGACGGCGGGAGTTTCTGGCGCTCAATCCGGCCGGCACCCTGCCGGTCTATCTGGACGACAATATGCGCTCGCTGAGCGGGCCCTATGTGCTTGCGGAATTTCTTGACGAAACGCATGGGGTTCTGAAGCGCGACCGTCGGCTTCTCGCCGAAGACCCGTTTCAGCGTGCGGAAATCCGCCGGCTGACGGAATGGTTTCTGCAGAAGATGGAAAACGACGTGACCCGGCCGCTGGTGCGGGAAAGGGTCTATAAATTGCAGATGACGGCGGCGCAGGGTGGCGGACCGCCGGATTCCAAGCTGCTGCGCACGGCCCGCAACAACATTCGCCAGCACATCAAATATCTGGAATGGCTGGCTGGCTCACGCACCTGGCTTGCCGGCGACCGGTTGAGCTATGCCGATCTTGCCGCGGCTGCCGCGGTCTCGGTGCTGGATTATCTCGGTGAGATCAACTGGCTCGAAGCGCCGATTGCCAAGGAATGGTATCAGCGGGTGAAATCCCGTCCTTCCTTTCGGCCGTTCCTCAGCGAACGCATTCCGCGCCTTGCCCCTTCCTCCCACTACGCCGATCTGGACTTCTGA	MPTLYHSPMSTASRFVRLILAEYGFQTDLVEEQPWERRREFLALNPAGTLPVYLDDNMRSLSGPYVLAEFLDETHGVLKRDRRLLAEDPFQRAEIRRLTEWFLQKMENDVTRPLVRERVYKLQMTAAQGGGPPDSKLLRTARNNIRQHIKYLEWLAGSRTWLAGDRLSYADLAAAAAVSVLDYLGEINWLEAPIAKEWYQRVKSRPSFRPFLSERIPRLAPSSHYADLDF	PGPT0013170_4981	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS010_01934	981	queG_1	COG1600	Epoxyqueuosine reductase	ATGGCGTGGATGGAGGAAACCGAGGCCCGCCGGGCAGAGCCGAAAACGCTCTGGGGAGACGTGCGCTCCATCGTCATGTTCGGGCTGAACTACGGCCCCGAGGGAGACCCACGCGGCCTGCTTTCCAAACCCGACAAGGCTGCCATTTCGGTCTATGCCCGCAATCGCGATTATCACGACATCATCAAGGGGCGGCTGAAGGAAATCGCCACCCGTTTTGCCGCGCGCGCCGGCGAGGATGTGAAAGTCTTTGTCGATACCGCACCCGTAATGGAAAAGCCGCTTGCCGCCGCCGCCGGTCTCGGCTGGCAGGGCAAGCACACCAATCTCGTCAGCCGCACCCATGGTTCGTGGCTGTTTCTCGGTAGCATGTTCACCACGGCCGAACTCTGTCTTGACGAGGCTGAGAGGGACCATTGCGGCTCCTGCCGCGCCTGTCTCGATGCCTGTCCGACGGCCGCTTTCCCCGCACCCTATCAACTGGATGCGCGCCGCTGCATCTCCTATCTCACCATCGAGCACAAGGGGCCGATCCCGCACGAATTCCGGCCGATGATCGGCAATCGCATCTATGGCTGCGACGACTGCCTTGCCGCCTGTCCATGGAACAAATTCGCGGCCAGCGCCTCCGAGATGAAATTGCAGGCACGCGAGGATCTGAAGGAACCTTCCATCGCCTTCCTGCTCACGCTCGATGACGCCGCCTTTCGCAGTTTCTTCAGCGGCTCACCTGTCAAGCGCATCGGCCGCAATCGCTTCATCCGCAACGTGCTGATCGCGGCGGGTAACTCCGCAGACCGGCAATTCGTGGAACAATGCAAGGCGCTTGCCGAAGCCGACCCTTCGCCCGAAGTACGCGGCATGGCCGCATGGGCTTTGTCACGGCTTATGGACAGGGACGAATTCCGTACATACTCTGCCGGTCGCGCGCCGGAGCCTGATCCGGAGGCGGAAATGGAATGGCAACTGGCAGAGGCGTGA	MAWMEETEARRAEPKTLWGDVRSIVMFGLNYGPEGDPRGLLSKPDKAAISVYARNRDYHDIIKGRLKEIATRFAARAGEDVKVFVDTAPVMEKPLAAAAGLGWQGKHTNLVSRTHGSWLFLGSMFTTAELCLDEAERDHCGSCRACLDACPTAAFPAPYQLDARRCISYLTIEHKGPIPHEFRPMIGNRIYGCDDCLAACPWNKFAASASEMKLQAREDLKEPSIAFLLTLDDAAFRSFFSGSPVKRIGRNRFIRNVLIAAGNSADRQFVEQCKALAEADPSPEVRGMAAWALSRLMDRDEFRTYSAGRAPEPDPEAEMEWQLAEA				NA	NA	NA	NA	NA
BMS010_01935	873	yeeZ	COG0451	Protein YeeZ	ATGCATGTGATGATTTTCGGCGCGGGATTTTCGGGGAAAGCCATCGCTAACGCGCTGAGGACCGAAGCAGCGAGCGTTTCCGGAACCACACGAAGCCAGGACAAGTTCCCAAACCTCGCCGCCGCAGGCATGACGCCCCTCCTCTTTGACGGCGTTCATCTCAATGACGAACTCGTCGCCGCAATGGGCAACATCACGCATCTCGTACAATCCGTCGCGCCGGGCAAGGATGGCGATCCGCTGCTTGCGCTTCTGGGTGGCGATCTGAAAAAGCTCACGCCCAATCTGAAATGGGTCGCTTATCTTTCCACCGTCGGCGTTTATGGCGACCATGGCGGCGCCTGGGTGGACGAGACAACGCCCTGCCGCCCGGTCTCCGCGCGATCCGTGGAACGGGTGGCTGCGGAAACCGCCTGGACTGCGGCAGCGGAAAAGGCGGATGTGCCGCTTGCCATCCTGCGCCTTTCCGGAATTTATGGCCCCGGACGCAATGCCTTCATGAATTTCGAGAAGGGAACGGCGCGGCGGCTGGTGAAGAAGGACCAGGTTTTCAATCGCATCCGGGTCGAGGATATCGGTGCCGCACTTGCCTTTCTGGCACGGAAAAACGAACGCGGCATCTTCAACGTGACCGACGACGAACCCTGCCCGCCGCAGGATGTGGTGAGTTTTGCAGCAGCATTGATGGGGGTGGAACCGCCACCCGAGCAGGCCTTCGAGACCGCCGATCTGACGCCGATGGCGCGCTCTTTTTATGGCGAGAACAAGCGCGTTTCCAACGCCAGAATACGCAATCTCGGCTTCGATTTCCGCTTCCCGGAGTACAGGTTCTCCCTGAGACAATTGTGGGAAAACGGCCTCTGGCGAGGCTGA	MHVMIFGAGFSGKAIANALRTEAASVSGTTRSQDKFPNLAAAGMTPLLFDGVHLNDELVAAMGNITHLVQSVAPGKDGDPLLALLGGDLKKLTPNLKWVAYLSTVGVYGDHGGAWVDETTPCRPVSARSVERVAAETAWTAAAEKADVPLAILRLSGIYGPGRNAFMNFEKGTARRLVKKDQVFNRIRVEDIGAALAFLARKNERGIFNVTDDEPCPPQDVVSFAAALMGVEPPPEQAFETADLTPMARSFYGENKRVSNARIRNLGFDFRFPEYRFSLRQLWENGLWRG				NA	NA	NA	NA	NA
BMS010_01936	225	rlpA_1		Endolytic peptidoglycan transglycosylase RlpA	ATGAACGCCGCCAACCTGACCGCCGCCCACCGCTCGCTGCGGTTCGGCACCAAGGTCAAGGTGACCAATGCGCGCAATGGCAAGGCCGTTGTGGTGCGCATCAATGACCGTGGGCCGTTCATCAAGGGCCGCGTTCTCGATCTTTCCAAGGCAGCCGCCAAGAACATCGGCATGATCAACTCCGGCACCGCCAAGGTCTGCTACGAGGTCGTCAAGGCCGATTGA	MNAANLTAAHRSLRFGTKVKVTNARNGKAVVVRINDRGPFIKGRVLDLSKAAAKNIGMINSGTAKVCYEVVKAD	PGPT0024465_3420	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024465-rlpA-K03642	NA	NA
BMS010_01937	1290	rsmB_1		Ribosomal RNA small subunit methyltransferase B	ATGCGTTTAGGCGGGCGTTTGGCCGGAGCAATCGAAGTATTGGCGGATATTGAGGGACGCAGGCGTCCCGTCGCCGATGCTCTGAAAGATTGGGGCCTTGCCCATCGTTTCGCCGGCTCCGGCGACAGGGCTGCAATCGGCAACATCGTCTATGACGCGTTGCGCATGAAACTGTCGCACGCCTGGCTGATGGATGACGACAGCGCTGCCTCGCTTGGTTATGCCGTGCTGCTGCGCCAATGGGGCAAAAGCTTTTCGGACCTTTCGGCGGAATTCGACGGCGACAAATTCGCCCCCGCCGCACCGGATGAACAAAGGCAGCAGGCCTTTCTGTCCCGTTCCCTCAGCGATGCACCGGCCCATATTCAGGGCGACATACCCGAATGGGTGCAATCCTCCTTCGAAACCGCCTTTGGCGAGCGCTGGCTCGCCGAGGCGCAGGCCCTGAACGAGCGGCCCACGCTTGATCTGCGCGCCAACACCTTGAAAGCAACGCGCGACAAGGTGCTGAAGGCTCTGGAGGAAAGCGGCGCGGAAGCCACGCATATCGCCCGACAGGGCGTGCGCATTCCCGCCGGCGAAGGTCCTTCTCGCCTGCCGAACGTTACCGCCGAACTTTCCTTCCAGAAGGGCTGGTTCGAAGTACAGGACGAAGGCTCCCAGATCGTTGCCGATCTTGCCGGCGCGCATGAAGGCGAACAGATCCTCGATTATTGCGCGGGCGGCGGCGGCAAGACGCTGGCCATGGCGGCCAGCATGAACAATAAGGGCCAGGTCCACGCCTTTGACGCCGACCGCAAGCGCCTTGCGCCGATCATCGAACGGCTGAAGCGGGCCGGCACGCGCAATGTGCAGGTGCACGACCGCGCCTCCGGCCTTACGCCGTTTCAGGAAAAATTCGACCGCGTTCTGGTCGACGCGCCCTGCACCGGCACCGGGACATGGCGTCGCCGGCCCGACACCAAATGGCGGCTGACGGCCCGCAATCTGGAAGAGCGCGTGCAGCAGCAGGGCGAGGCGCTTTCGCAGGCCAAGGGGTTCGTACGCCCGGGCGGAGAGCTGCTTTATGTCACCTGTTCCGTGCTTCCCGAAGAAAACGAACAGCAGGTAAGGCGTTTCTGCGCGGAAAATCCGGAATTTTCCATCGGCTCCGCACTGGAACGCTGGCAGACGACTTTCGGCGGCAACGTGAATAAACCGCATTCTTCCGACGGCAAGACAGTGACGCTGACGCCTGCAACCACAGATACGGATGGCTTCTTCTTCTGCTTGATGAAACGCAAAGCATAA	MRLGGRLAGAIEVLADIEGRRRPVADALKDWGLAHRFAGSGDRAAIGNIVYDALRMKLSHAWLMDDDSAASLGYAVLLRQWGKSFSDLSAEFDGDKFAPAAPDEQRQQAFLSRSLSDAPAHIQGDIPEWVQSSFETAFGERWLAEAQALNERPTLDLRANTLKATRDKVLKALEESGAEATHIARQGVRIPAGEGPSRLPNVTAELSFQKGWFEVQDEGSQIVADLAGAHEGEQILDYCAGGGGKTLAMAASMNNKGQVHAFDADRKRLAPIIERLKRAGTRNVQVHDRASGLTPFQEKFDRVLVDAPCTGTGTWRRRPDTKWRLTARNLEERVQQQGEALSQAKGFVRPGGELLYVTCSVLPEENEQQVRRFCAENPEFSIGSALERWQTTFGGNVNKPHSSDGKTVTLTPATTDTDGFFFCLMKRKA				NA	NA	NA	NA	NA
BMS010_01938	1278			hypothetical protein	ATGATCCGCAAAACCATTCTCAGCGCTTCTTTTGCGCTTCTTGCCGCATCTGCGGCTTTCACCGCGCTTCCCGCCCGGGCCGCTACAGACGCGGCCGCCGTCGTCAAACATTATGCCGATGTCGCGCATGCGAAATATGAGGATTCGCTGACCACGGCGAAGGCGCTGGACAAGGCCATCGATGCGCTGATCGCAACGCCGAGCGAAGAAACCCTGAAGGCCGCCCGGGAAGCATGGATCAAGGCCCGCGTTCCCTATCAGCAGTCGGAAGTCTATCGTTTCGGCAACCCAATCGTCGACGATTGGGAAGGCAAGGTGAATGCATGGCCACTGGATGAAGGCCTGATCGACTATGTCGACGGTTCTTATGGCACGGAAAGCGACGAGAACGAGCTTTACGTTGCCAACATCATCGCCAATCCGAAGATCAAGATCAGCGGTGAAGAGGTCGACGCCTCCAAGATCACCCCCGAGCTGATCGAAAGCCTGCACGAGGCGGGCGACGTCGAAGCCAATGTGACGACCGGCTACCACGCCATCGAATTCCTGCTCTGGGGCCAGGATCTGAACGGCACCGGACCGGGCGCAGGCAACCGCCCCTACACCGATTACGACAAGGCGAAATGCACGAACGGCAATTGCGACCGCCGCGCCGATTACCTGAAATCCGCCTCGACCCTGCTGATCAAGGATCTTCAGGAGATGGTGGATGCCTGGGCGCCGGAAGGCGAAGCCACGAAAACGGTGGAAGCCGATCCGAAAGCGGGCCTGACCGCCATTCTCACCGGCATGGGTTCGCTTTCCTATGGCGAGCTGGCGGGGGAACGCATGAAACTCGGCCTTCTGCTGCATGATCCGGAAGAGGAGCATGATTGCTTCTCAGACAACACCTACAATTCGCATCTTTACGACGCGATCGGCATCGCCTCGGCCTATACCGGCGACTATACCCGCGTGGACGGAACGAAGATGACGGGCGCCTCGCTCTCGGAACTGGTCGGCGCCAAAGACAAGGCGCTGAACGACGAGATGCTGGCGAAGCTGAACAAGACGCTCGACGCCATGCATGCCATGGAAAAGCGCGCGCAGACCGTCGAGGCCTATGACCAGATGATTGGCGAAGGCAACAAGGAAGGCAACGCCGTGGTTCAGACGGCCATCGACGGCCTTCTCGACCAGACGAAGACCGTCGAACGCGTCATCGCGGCGCTCGATCTCGGCAAGATCGAGCTCGAAGGCTCCGACAGCCTCGACAATCCGAACGCCGTCTTCAAATAA	MIRKTILSASFALLAASAAFTALPARAATDAAAVVKHYADVAHAKYEDSLTTAKALDKAIDALIATPSEETLKAAREAWIKARVPYQQSEVYRFGNPIVDDWEGKVNAWPLDEGLIDYVDGSYGTESDENELYVANIIANPKIKISGEEVDASKITPELIESLHEAGDVEANVTTGYHAIEFLLWGQDLNGTGPGAGNRPYTDYDKAKCTNGNCDRRADYLKSASTLLIKDLQEMVDAWAPEGEATKTVEADPKAGLTAILTGMGSLSYGELAGERMKLGLLLHDPEEEHDCFSDNTYNSHLYDAIGIASAYTGDYTRVDGTKMTGASLSELVGAKDKALNDEMLAKLNKTLDAMHAMEKRAQTVEAYDQMIGEGNKEGNAVVQTAIDGLLDQTKTVERVIAALDLGKIELEGSDSLDNPNAVFK				NA	NA	NA	NA	NA
BMS010_01939	1524			hypothetical protein	ATGCGATTTTTGCTGCCACCGATCCGCAAGCCATTCTTCTTCGCCGGGGCAGCCTGCCTTGTGGCGTCGATGGCGCTTGCCGAACCGCTGCGCAACGATCTGACGGAGAAAGATCGAAGCCGCGTGCTGGCCGTGACTGCGCCAACGGCAGATTTTACCGGGCCGGAAGCTTTCGAAGCCATGTCCGGTGGAGCGACGACCAGCACCAGCAAGGCCGACAGCAGCGCGTTCTCCCATCCTTCCGCCACCATGCCGCTCGAACGGAAGCAGGATTTCAAGCTCGGCAACGCACTGTTCCAGAAGCTCTGGGTCTCCTCTCCGTCCTCCACACAGGCCTCGGACGGGCTCGGGCCGCTCTTCAACGCCCGATCCTGCCAGACCTGCCATGTGAAGGATGGCAGGGGTCGACCGCCTCTTGCCGGAGAAGACGCCGTCTCGCTGTTTCTGCGGCTGGCGCGACCAGCCCGTGATGAAGCCGAACGACAGGCCATTGACAGCCACCAGACCTTAAATTTTCCCGATGAAACCTATGGCCGGCAGCTTCAGAACCTGGCCATTCCCGGCCTCGCCGCCGAAGGCAAGCCGGTCATCACCTATACGGAAGAGCCGGTTCAGCTGGCGGATGGTGAGGTGGTGATGCTGCGCAAGCCCAGCCATACCGTGGCGAACCTGCAATATGGCCCGCTCGGTGCCGACACGACGCTTTCGGCGCGCATTGCCATGCCCACCCTCGGTCTTGGCCTGATCGAGGCCATTGCCGAGGCCGATATTCTGGCCAGGGCCGACCCGGACGACAACAATGGCGACGGCATTGCCGGGCGTCCCGCATGGGTCAAAGACCATCCCACCGGCGAGGTGAAACTCGGTCGGTTTGGCTGGAAAGCGCAGAATGCGAGCGTGCGAGACCAGAGCGCCAGCGCCTTCTCCCACGATATCGGCATTTCCTCACCGGATGCGCCGAATGCCTATGGCGACTGCACGGACGTCCAGAAGGACTGTCTTGCCATGCCGACCGGTGTGCAGCCCCGGCTCGGGCCGGTGGAGGCGCCCGATCCGGTTCTCGATCTCGTGACCTTCTACACCGAAAACCTCGCCGTGCCGCGACGCCGCAACGTCGATGATCCGACGGTTCTGCGGGGAAAGCAGCTTTTCTACGCCTCCGGCTGTACGGCCTGCCACACCCCGAAATTCGTCACACGCCGCGACACCGCCGACCCCATGCATTCTTTCCAGCTGATCTGGCCCTATTCCGATTTTCTGCTGCATGACATGGGCGAAGGACTTGCCGATGGCCAGCAGGTGGGCGAAGCCAGCGGACGGCAGTGGCGAACCCAGCCGCTCTGGGGCATAGGCCTGACGCAAAAGGTCAATGGCAACGGTTTTTACCTGCATGACGGGCGGGCGCGCAGCCTGACGGAAGCGATATTGTGGCACGGCGGCGAAGGGCAAAAAGCGCGCGACGCCTTTGCCGCCTTGCAAAAATCCGACCGGCAGGCTTTGCTGGCCTTTCTGGAGTCCCTTTGA	MRFLLPPIRKPFFFAGAACLVASMALAEPLRNDLTEKDRSRVLAVTAPTADFTGPEAFEAMSGGATTSTSKADSSAFSHPSATMPLERKQDFKLGNALFQKLWVSSPSSTQASDGLGPLFNARSCQTCHVKDGRGRPPLAGEDAVSLFLRLARPARDEAERQAIDSHQTLNFPDETYGRQLQNLAIPGLAAEGKPVITYTEEPVQLADGEVVMLRKPSHTVANLQYGPLGADTTLSARIAMPTLGLGLIEAIAEADILARADPDDNNGDGIAGRPAWVKDHPTGEVKLGRFGWKAQNASVRDQSASAFSHDIGISSPDAPNAYGDCTDVQKDCLAMPTGVQPRLGPVEAPDPVLDLVTFYTENLAVPRRRNVDDPTVLRGKQLFYASGCTACHTPKFVTRRDTADPMHSFQLIWPYSDFLLHDMGEGLADGQQVGEASGRQWRTQPLWGIGLTQKVNGNGFYLHDGRARSLTEAILWHGGEGQKARDAFAALQKSDRQALLAFLESL				NA	NA	NA	NA	NA
BMS010_01940	1122			hypothetical protein	ATGAAAAATGCCATGCGAAAAATTTCCGGCGTCATGTCCGTGCTGCTGCTTCTGACCACGCCGCCGGCAAGGGCGCAGGATGTGGAGCTGATGCCGCCGCCGCCGCTCGACCCGGTTCAGGTGCGGGGCGTGATGGAAAAGGCGGTGAACGGCTTCATCCGTCCCGGCTATGACCGCTTCCGGCAGTCGGCGGAGACGCTGGAAGGCCGCATGAAAGCTTTCTGCACCGCTCCCTCCGAAACGACCGCAGCGGCGGCCAAGGCGGCCTTTGTCGATACGGTGTCAAGCTGGTCGACCATCGAGATCGTGCGTGTCGGCCCTGTCATCGAGAAGAACCGTTTCGAACGCGTGCTTTATTATCCCGACAAGAAGGGTCTCGGGCTGAAGCAGGTGCAGCGTTATCTCACCGAAAAGGATGAAAGCGTCACGAGTGCGGATGGCCTGAGCGGCAAGAGCGTTGCGGCGCAGGGGCTCGGCGCTCTTGAGTTCGTGCTTTACGGAACCGGAGCGGAAGAGTTGCTCGACAGGAAGGGTGATTTCCGCTGCCGCTATGGCGCCGCTATCGCCGGCAATATCGCCAATGTGGCAACGGAACTTTCTGACAGCTGGAATGCGACTGACGGCGCGCAGAAAAACTGGACGCAGCCCGGAGCGGACAACCCCGTCTTTCGTGACGAGCGCGAGGCGCTGGTCGCCCTGCTCGGCATTCTTGTCCATGGCTCCGAAGCCATTCGCGACCAGCGGATCGAAACCTTCTACAAGGGACCGGACAAGGCAAGATTTCCCCGCACCGCCATTTATTGGCGCTCCGGCCTGACATGGCAGAGCATTGCCACCAATATCAAGGCGGTTCAGACCCTGCTGCACACGGCGGATATGGTCGAACTCGTACCGCCCGATCAGCGCTCCATCGTCAACTCCATCGATTTCATCGCCAAATCGATGATCCGCGTTGCCGGGACCATCAATACGGATGTGCAAAAGGCGCTGGATCAGGACGATCAGCGCGCCAAGGTGGATTATCTGCTGCTCAATGGCAAAGACCTGATCTACCGCTTGAACGATCAATATGGCGGCGCGATCGGCCTCAGCTCCGGCTTCTCCTTCGCCGATGGGGACTGA	MKNAMRKISGVMSVLLLLTTPPARAQDVELMPPPPLDPVQVRGVMEKAVNGFIRPGYDRFRQSAETLEGRMKAFCTAPSETTAAAAKAAFVDTVSSWSTIEIVRVGPVIEKNRFERVLYYPDKKGLGLKQVQRYLTEKDESVTSADGLSGKSVAAQGLGALEFVLYGTGAEELLDRKGDFRCRYGAAIAGNIANVATELSDSWNATDGAQKNWTQPGADNPVFRDEREALVALLGILVHGSEAIRDQRIETFYKGPDKARFPRTAIYWRSGLTWQSIATNIKAVQTLLHTADMVELVPPDQRSIVNSIDFIAKSMIRVAGTINTDVQKALDQDDQRAKVDYLLLNGKDLIYRLNDQYGGAIGLSSGFSFADGD				NA	NA	NA	NA	NA
BMS010_01941	1095			hypothetical protein	ATGATCTCCGGCACCAAACGGATGCTGATAGATCGCCGCAGCTTCATCAAAGCGGCGGGAGTTCCCTTCCTCGCCGCGCTGGCTCCCCGTTCACTTTATGCGCTGGAGCGGACGGACGCGGTCTTTGCCTCCGCCTTCCGCGCCCGTGACGGGTCCTACGGCATTGCGACGGTAAGCGAACGCGGCGAGATCATCGACCGCGTCGCGCTTCCTGCCCGCGCCCATGGAATGGCGACGAGCCATGCAACCGGCATGACCGTGGCGTTTGCGCGCCGGCCCGGCACCTTTTTCATGGCCTTCGACCCCGCGCGGCGCGGCGAACCGATCGTGATGCACACGCCGGAAAACCGCCACTTCTACGGCCACGGGCAATTCTCCCCTAACGGGGCAATCCTCTATGCCAGCGAAAACGACTTCGACGGCAATCGCGGCGTTATCGGGCTCTATGACGCCCGCAACGGCTTTACCCGCATCGGCGAATATGATGCACAAGGCATCGGCACACATGACATGACGGTGAGCGATGACGGGCGGCTGATCGTGATCGCCAATGGCGGCATCGAAACCCATCCGGATTTCGGCCGAACCAAGCTCAATATCGACAATATGCAGCCGTCCCTCGTGCTTCTGGATGCGGCGACCGGGCAAGTGATCCAGAAACAAGCCATGCCGGCGCATCTGCGGCAGCTTTCCACCCGCCATGTCGATCTCGGCGATGACGGGCGTATCTGGTTCGCCTGCCAATATGAGGGACCGCGCAACGATCTCCCGCCGCTTGTCGGCCATTTCTCCAGGGGCGAAGCTCTCACCTTCGTCGATTTGCCGGAAGAAACGACGGTGCGCCTTGCCAATTATGTCGGGGCCATTGCCGTCAACCGGCGCGATGGGCTGGTGGGCCTGACATCGCCCAACGGCAACGCCGCCGTGACGCTGGATGCGAAAACCGGGCGCGTCGTTTCAGAGACGACCGTGCGGGAAGCGGCAGGCGTCGCGCCCGCCGCGAGAGGCATTGCGGTTTCTTCCTATGACGGATTTTTCGAGACCCGGCGCAGCGACGTGGCGTGGGATCAGCACATCGTGCGTCTGTCCAGCTAA	MISGTKRMLIDRRSFIKAAGVPFLAALAPRSLYALERTDAVFASAFRARDGSYGIATVSERGEIIDRVALPARAHGMATSHATGMTVAFARRPGTFFMAFDPARRGEPIVMHTPENRHFYGHGQFSPNGAILYASENDFDGNRGVIGLYDARNGFTRIGEYDAQGIGTHDMTVSDDGRLIVIANGGIETHPDFGRTKLNIDNMQPSLVLLDAATGQVIQKQAMPAHLRQLSTRHVDLGDDGRIWFACQYEGPRNDLPPLVGHFSRGEALTFVDLPEETTVRLANYVGAIAVNRRDGLVGLTSPNGNAAVTLDAKTGRVVSETTVREAAGVAPAARGIAVSSYDGFFETRRSDVAWDQHIVRLSS				NA	NA	NA	NA	NA
BMS010_01942	453	tspO	COG3476	Tryptophan-rich sensory protein	ATGAGAAACCTTGCCGTCTATGTCGTTTTTGTGGTTGCTGTTGTTGCCGTGGGGGCGCTGATCGGCGTCAACAATGTGCCCGGCGAATGGTATCAATCGCTGCAGAAGCCTTTCTTCAATCCGCCCAACTGGATTTTCGGGCCCGTCTGGACCGCGCTTTACGTGCTGATCGGCATTGCCGGCGCACGGACATGGATCCGCAAGCCGATGGGAACGCGCATGCGGCTGTGGTTCACGCAGATGGTGCTGAACTTCCTGTGGTCTCCGATTTTTTTCGGAATGCAAAGCCCGGCGGGGGCGCTCGTCATCATCGTTCCGATGCTGATCTGCATCGTCGCCTTTATGGCGCTCACCTACCGTCGTGACCGCATATCCATGTGGCTTTTCGTGCCCTATGCCGTATGGGTCGCCTTTGCCACGGTGCTGAATGCAAGCATCGGCATGTTGAACTAA	MRNLAVYVVFVVAVVAVGALIGVNNVPGEWYQSLQKPFFNPPNWIFGPVWTALYVLIGIAGARTWIRKPMGTRMRLWFTQMVLNFLWSPIFFGMQSPAGALVIIVPMLICIVAFMALTYRRDRISMWLFVPYAVWVAFATVLNASIGMLN	PGPT0014330_2122	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014330-ytaB-K05770	NA	NA
BMS010_01943	450			hypothetical protein	ATGGAGATCACGGATCCCGGCGATTTTCGTCAGCGGATAGAAAGAAGCTTTGCGCGGCAGGGCGTGGTGCAGGCGATTAACGCCGAGATCAGCCGTATCGAACACAGGCTGGTGGAAATCGAGCTTCCTTTTCATGAAAAGCTGACGCAGCAGCACGGCATATTGCATGCGGGCGTCATCGCCGCCGGTCTGGATACGGCCTGCACCTATGCCGCTTATACGATCATCGCGCCGGAAGCCTCGCTGCTGACCATCGAGTTCAAGGTCAACCTCATGTCGCCGGGACGCGGCGAGCGGTTCCTGTTTCGCGGCGAGATCATCAAGCCAGGGAACAACCTGATCGTCGCCGATGGCCGCGCCTATGCGCTGTCCGACGGACCGGCGAAGCTGATCGCCTCCATGACGGGCACGATGATGGTGGTGAAGGGTCGCGAGGATATTACCGGATGA	MEITDPGDFRQRIERSFARQGVVQAINAEISRIEHRLVEIELPFHEKLTQQHGILHAGVIAAGLDTACTYAAYTIIAPEASLLTIEFKVNLMSPGRGERFLFRGEIIKPGNNLIVADGRAYALSDGPAKLIASMTGTMMVVKGREDITG				NA	NA	NA	NA	NA
BMS010_01944	639	mtnN		5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase	ATGAGCTACCGGCTTTTGCATGTCGCGGATAAATCCGTCCTCTTCGTCATGGCGGCTTCCCCCGAATACGGTCCCCATCTTCAGGCACGCATTGCGCCGCTGATGACCGGTATCGGCCCTGTCGAGGCGGCGATTGCCGTCACGGCCGTTCTTGCCGGTCTCGATGCGGCGGATCACCTGCCCGACCTCGTCGTTTCGCTCGGTTCCGCCGGTTCGCGGACGCTGGAGCAAACCGGCATCTATCAGGCGATTTCGGTTTCCTATCGCGACATGGACGCCTCCGCCTTCGGTTTCGAAAAGGGCTGCACGCCGCTGCTCGATCTGCCCGCCGAAGTGGCCTTGCCTTTTCGAATACCTGAAATTGCCGAAGCCCGGCTTTCCACGGGCGCCAATGTCGTTTCGGGTGAGGCCTACGGGCTGATCGACGCCGATATGGTGGAAATGGAAACCTTTGCGGTTTTAAGAGCCTGCCAGCGCTTCGGCGTACCGCTCGTCAGTCTGCGCGGCATTTCCGATGGCAAGGTGGATGTGAACCATGTGGACGACTGGACGGAGTACCTGCACATCATCGATGAAAAGCTGGCGGATGCCGTCCACCGGCTTTGCCGCGCCATCGAGGACAGCGTGATTGCCCTTTAG	MSYRLLHVADKSVLFVMAASPEYGPHLQARIAPLMTGIGPVEAAIAVTAVLAGLDAADHLPDLVVSLGSAGSRTLEQTGIYQAISVSYRDMDASAFGFEKGCTPLLDLPAEVALPFRIPEIAEARLSTGANVVSGEAYGLIDADMVEMETFAVLRACQRFGVPLVSLRGISDGKVDVNHVDDWTEYLHIIDEKLADAVHRLCRAIEDSVIAL	PGPT0014320_2844	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI-2_BIOSYNTHESIS,PGPT0014320-mtnN|pfs|yadA-K01243	NA	NA
BMS010_01945	1578	guaA_1	COG0518	GMP synthase [glutamine-hydrolyzing]	ATGACCCAGATAGCCCATCCCGACAGCATTCTCATCATCGATTTCGGCAGCCAGGTGACGCAGCTGATTGCGCGCCGCATCCGCGAAGCCGGGGTCTATTGCGAAATCCATCCGTTTCAGAATGCCGCAGAGGCGTTCGAGAAGCTTCAGCCCAAGGGCGTGATCTTCTCCGGCGGCCCCGCATCTGTCACGGCGGAAGGAAGCCCGCGCGCACCGCAGGCGGTGTTCGACAGCAAGGTTCCGATCCTCGGCATCTGCTACGGCCAGCAAACGCTCTGCACGCAGCTCGGCGGTGTGGTCGAGGGTGGCCATGCAGCGGAATTCGGCCGCGCCGATATCGACATCAAAAAGGCGAGCCCGCTTTTCGAAGGCTTCTGGGAGCAGGGCAAGAGCTATCCCGTCTGGATGAGCCATGGCGACCGCGTGACGAAGCTGCCGGAAGGTTTCGAGGTCATCGCGACCTCTGAGAACGCACCTTTCGCCATCGCCGCGGACGAGACGCGCCACTATTACACCACCATGTTCCACCCGGAAGTGGTGCATACGCCGGACGGCGGCAAGCTGCTCTCCAACTTCGTGCACAAGATCGTCGGGCTCAAATCCGACTGGACGATGGCGGCCTACCGCGCCGAAATGATCCGCAAGATCCGCGAACAGGTCGGCACCGGCCGCGTGCTCTGCGCGCTTTCCGGCGGCGTCGACTCCTCGGTTGCGGCCATCCTCATCCATGAGGCGATCGGCGACCAGCTCACCTGCGTTTACGTCGATCATGGCCTGATGCGGCTTGGCGAAAGCGAGCAGGTCGTCGGCATGTTCCGCGACCACTACAATATTCCGCTGGTGCATGTGGATGCCGCCGACCTGTTCCTCGGCGAACTGTCGGGCGTTTCCGATCCGGAAGTGAAGCGCAAGACCATCGGCCGCCTGTTCATTGAGGTCTTCGAGGCCGAAGCGGCCAAGATTGCTGCCGATGGCAAGGGTGCACCGAATTTCCTGGCGCAGGGCACGCTTTACCCTGACGTCATCGAAAGCGTCTCCTTCTCCGGCGGCCCCTCGGTCACCATCAAGAGCCACCACAATGTCGGCGGCCTTCCCGAGCGGATGAACATGCAGCTCGTTGAGCCGCTGCGCGAACTCTTCAAGGATGAGGTTCGCGCTCTCGGCCGCGAACTCGGCCTGCCGGACAGCTTCATCGGCCGCCACCCCTTCCCGGGTCCGGGTCTCGCAATCCGCTGCCCCGGCGCGATCACACGCGAGAAGCTCGATATTCTGCGCAAGGCGGATGCGATCTATCTTGATGAAATCCGCAAGGCCGGTCTCTACGACACCATCTGGCAGGCCTTCGCCGTGCTGCTGCCGGTGCAGACCGTGGGCGTCATGGGCGATTACCGTACCTATGACTTCGTCTGCGCGCTTCGCGCCGTGACCTCGGTGGATGGCATGACGGCGGATTTCTATCCCTACGACATGAATTTCCTTGGCCGCGCAGCAACCCGCATCATCAACGAAGTGCGCGGCATCAATCGCGTCGTCTATGACGTGACGAGCAAGCCGCCCGGCACGATCGAGTGGGAATAA	MTQIAHPDSILIIDFGSQVTQLIARRIREAGVYCEIHPFQNAAEAFEKLQPKGVIFSGGPASVTAEGSPRAPQAVFDSKVPILGICYGQQTLCTQLGGVVEGGHAAEFGRADIDIKKASPLFEGFWEQGKSYPVWMSHGDRVTKLPEGFEVIATSENAPFAIAADETRHYYTTMFHPEVVHTPDGGKLLSNFVHKIVGLKSDWTMAAYRAEMIRKIREQVGTGRVLCALSGGVDSSVAAILIHEAIGDQLTCVYVDHGLMRLGESEQVVGMFRDHYNIPLVHVDAADLFLGELSGVSDPEVKRKTIGRLFIEVFEAEAAKIAADGKGAPNFLAQGTLYPDVIESVSFSGGPSVTIKSHHNVGGLPERMNMQLVEPLRELFKDEVRALGRELGLPDSFIGRHPFPGPGLAIRCPGAITREKLDILRKADAIYLDEIRKAGLYDTIWQAFAVLLPVQTVGVMGDYRTYDFVCALRAVTSVDGMTADFYPYDMNFLGRAATRIINEVRGINRVVYDVTSKPPGTIEWE	PGPT0021580_1985	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021580-guaA-K01951	NA	NA
BMS010_01946	489			hypothetical protein	ATGTTCGGAATTTCTCCGCTCGGCTGGATCCATACGCTTGGAAGCCTGCCGGCCATTCCCGCCGCCATTTACATGTTTGCCCGCCACGGCCGAATCGTTCCCCGATCAGCGCCAGGCACTCTTTATCTTGTCTCCATGCTCATTGGCGCTGCGACGGTCTTCCTCGTGGCGCATCAGCCGATCAGTTACGGCGTTGGCGTCCTGACCATCCTGTTCCTGCTCGCAGGTTACGGCATCGAAGGCGTTCTGGGTTCAACGCGCATGGCCAGATATATCGAAACCATCTGTCTCAGCATCAGTGCGTTTCTTTTGATGGTCCCGACGGTGAGCGAAATCCTGCGTCGTGTTCCAGACGGTCACCCTCTGGTTACGGACCTGAAATCGCCGCTGCTTCTCGGCGCTCAGGCAGGGTTGCTGGCGATCCTCGTGGTCGGTCTGACCGCCCAGATCATCTATCTCGCACGGCAAAACAGAAACGCCGCGAACTAG	MFGISPLGWIHTLGSLPAIPAAIYMFARHGRIVPRSAPGTLYLVSMLIGAATVFLVAHQPISYGVGVLTILFLLAGYGIEGVLGSTRMARYIETICLSISAFLLMVPTVSEILRRVPDGHPLVTDLKSPLLLGAQAGLLAILVVGLTAQIIYLARQNRNAAN				NA	NA	NA	NA	NA
BMS010_01947	579			hypothetical protein	ATGAAAAATCCACAGACCAAAGCCGATGAAATCCTCCGTTGCGCACGCTCCCTGATCATAAAGGGCGGCTACAACAGTTTCAGCTATGCCGACGTTTCCGCCGTGGTCGGCATTCGCAATGCGAGCATTCACCATCACTTTCCCAGCAAGTCCGATCTGGTCCAAAAACTCGTTGCGCAATACAGGCAGGAGGCGGAAGCGGGTATCGCCGAACTGGAGCAAAACATTTCCGACCCGCTCGAACAGCTCCGCGCCTATATCGGCTATTGGGAGGGCTGTATCGCCGAGGCCACTCACCCCTTCTGCGTCTGCGCTCTGCTCGCCAGTGAAATTCCGGTTCTTCCTGAAACAGTCGCTCTTGAAGTGCGCACGCATTTTCGAAGTCTCTCCGACTGGCTCACCGCCGCTCTGGAACGTGGCGTTGCCCAGGGGCGCCTCGCGCTGAACGGAACCGCCAGAGCCAATGCTGAAATCTTCATGGCTACCGTGCATGGCGCGATGCTTTCCGCCCGTGCCCATGGTGATGCGACGACTTTTGGCGCAATAACCCGCCCCATGCTGGAGCGCATGGCCGCTTGA	MKNPQTKADEILRCARSLIIKGGYNSFSYADVSAVVGIRNASIHHHFPSKSDLVQKLVAQYRQEAEAGIAELEQNISDPLEQLRAYIGYWEGCIAEATHPFCVCALLASEIPVLPETVALEVRTHFRSLSDWLTAALERGVAQGRLALNGTARANAEIFMATVHGAMLSARAHGDATTFGAITRPMLERMAA				NA	NA	NA	NA	NA
BMS010_01948	717	thpR_1		RNA 2',3'-cyclic phosphodiesterase	ATGGGTTTTGGGTTGGCAAATGAAGGAGGTTTAAGGCAGCTTTTCTTCGAAGGATGGGAGCCGGAGAAAATACGGCGTTTCAATCCGCGATTTAGCAGCAAGCTCTTGATCACGGTGAAACCGCCGGCCGCCCTGGCGGAACGAATTTTTGCCGATGCGGCGCGCCATGCCGCAGGGCGGACGAAGCGTGAGGCCTATCCGCCGGAGCTTCTGCACATAACCCTGCTCTGTATCGGAGGTTTCGAGACCGTGCCTCACGGGCTAGTAGAAAGGCTGAAGGCAGCGCTGGGGGAGATCAAGGCTCGGCCCGTTCCGATCACATTCGATGGAACATCGCTTTTCGGCAATCGCAACAGTTTGGCGCTACACAGCAGCCGCGAGATGCAGGAACTTAGGGCTCTGGCGAAAATGGTGCGCCGCGCCCTGCGGCGGGCAAACCTGCCCTATGTCGCCGCATCGTCGTTTACGCCACATCTCACCGTTATCTACGGCTGCGGGAAAATTGAGTTGATGCCGGCTGACAAACCCTATAGCTGGCTTGCGGGGAGCTTCGAACTCGTTTTCAGCCACAATGGCGAAACACGGCATGAACTGCTCGGGCGCTTCGCACTCTCGCCGAAAGCGGAGCGTTATGAACGGCCTGAAAGCCAGCTCCATTTGCCGGAAAAAGTGATCGGACCTTCGAAACGGCCGACACAAAGGGCGTCAGTGCGATAA	MGFGLANEGGLRQLFFEGWEPEKIRRFNPRFSSKLLITVKPPAALAERIFADAARHAAGRTKREAYPPELLHITLLCIGGFETVPHGLVERLKAALGEIKARPVPITFDGTSLFGNRNSLALHSSREMQELRALAKMVRRALRRANLPYVAASSFTPHLTVIYGCGKIELMPADKPYSWLAGSFELVFSHNGETRHELLGRFALSPKAERYERPESQLHLPEKVIGPSKRPTQRASVR				NA	NA	NA	NA	NA
BMS010_01949	168			hypothetical protein	ATGCGTCAGGTTGCAAAGACATCGCGTAACTTCTTCGGTGAAACTTTCGCCGTTCTCGGTGCAGCGCTCTCGGTTTCGGCCGCTGTTCGCGCACATCGTAAGCCCGCCCGCGCCGATCTCGAAGCCCTCGGCATCGACGGCAAGGCTTTCGACAAGGTACAGCTCTAA	MRQVAKTSRNFFGETFAVLGAALSVSAAVRAHRKPARADLEALGIDGKAFDKVQL				NA	NA	NA	NA	NA
BMS010_01950	348	yffB_1	COG1393	Protein YffB	ATGACGGTCACGATTTACGGCATCAAGAACTGTGACACGATGAAGAAGGCCAGAAGCTGGCTGGAAGCCAACGGTGTCGACTATTCTTTCCATGACTATAAGGCGGCCGGCATTGATCGTGCCCATCTGGAAACATGGTGCGATGCCGCGGGCTGGGAAACGGTTCTCAACCGCGCCGGCACGACCTTCAAAAAACTCAACGACGGCCAGAAGGCCGATCTCACCCGTGAGAAGGCCATCGGGCTGATGCTGGAACAGCCCTCCATGATCAAGCGTCCCGTGCTGGAAGCGAAGGGCAGGATAACCGTCGGTTTCAAGCCTGAAACCTACCAGACCCTTTTTGCGTGA	MTVTIYGIKNCDTMKKARSWLEANGVDYSFHDYKAAGIDRAHLETWCDAAGWETVLNRAGTTFKKLNDGQKADLTREKAIGLMLEQPSMIKRPVLEAKGRITVGFKPETYQTLFA	PGPT0004720_2910	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0004720-arsC1-K00537	NA	NA
BMS010_01951	477	ybaK_1	COG2606	Cys-tRNA(Pro)/Cys-tRNA(Cys) deacylase YbaK	ATGTCCAAAACAACCCGTGCCACCCAAATGCTGACCAAGGCCGGCGTTGCCTTCACCACCGTCACCTATGATTACGACCCGAATGCCGACCGCATCGGCCTGCAGGCGGCCGAGGCGATCGGTGAACCACCGCATCTGGTGCTGAAAACGCTGATGGCGGAACTCGATGGCAAACCGGTCTGCGTCGTCGTCCCTTCGGATCGCGAGGTCAGCATGAAGAAGTTGGCCGCCGCCTTCGGTGGCAAATCCGCCAGCATGATGAAGCCTGCCAATGCGGAACGCGCCACCGGTTATCATGTCGGCGGTATCAGCCCTTTCGGGCAGAAGAAACAGGTGCCGACGGCCATTGAGGCCGGAGCCATGGCGCATAATTATGTCTACATGAATGGCGGACAACGCGGCCTGCAGGTGAGGCTTTCGCCCCGCGATGCCCAAAGCGCGCTGAAGGCCATTGCCGCGCCGCTGGTCGCCGATTGA	MSKTTRATQMLTKAGVAFTTVTYDYDPNADRIGLQAAEAIGEPPHLVLKTLMAELDGKPVCVVVPSDREVSMKKLAAAFGGKSASMMKPANAERATGYHVGGISPFGQKKQVPTAIEAGAMAHNYVYMNGGQRGLQVRLSPRDAQSALKAIAAPLVAD				NA	NA	NA	NA	NA
BMS010_01952	1239		COG2309	Aminopeptidase T	ATGACCGTTTCCCCCATCGATCCCGTCAAACTCGAAAAACTGGCCGAAGTCGCAGTCAAGGTCGGCCTGCAATTGCAGAAGGATCAGGATCTGGTGATTACCGCACCGCTGGCGGCCCTGCCGCTGGTGCGATTTTTGACCAAACACGCCTATATGGCGGGTGGCGGACTGGTCACCACTTTCTATTCCGACGAAGAAACCACGCTTGCCCGCTATCGCCACGCCAGCGACGCCAATTTCGACCGGGCTTCCGGCTGGCTTTATGAAGGCATGGCGAAGGCCTATGCCAATGGCGCGGCGCGGCTGGCGATTGCCGGCGACAATCCCATGCTGCTGGCCGAACAGGACCCCGCCAAGGTAGCCCGCGCCAACAAGGCCAACTCCACGGCCTACAAGCCGGCGCTGGAGAAGATTTCCAATTTCGACATCAACTGGAACATCATCTCCTATCCGAACCCCTCCTGGGCAAAGCAGGTCTTCCCCGGTCTCGCGGAAGACGAAGCGGTCCGCAAGCTCGCGGACGCCATCTTCGCCGCGTCGCGGGTGGATCTGGCCGATCCGGTCGCGGCCTGGGCCGAGCACAATGCCAATCTCGCCAAGCGTTCGGCATGGCTGAACGGTGAGCGCTTCTCTGCGCTGCATTTCACCGGCCCCGGCACGGATGTGAAGATCGGCCTCGCCGACGGCCATGAATGGCATGGCGGCGCCTCCACCGCCAAGAATGGCGTGACCTGCAACCCGAATATCCCAACGGAAGAAGTCTTCACCACCCCGCATGCGCTGCGTGTCGACGGTTACGTCTCCAGCACCAAGCCGCTATCGCATCAGGGAACGCTGATTGACGACATCCAGGTGAAGTTCGAAGCCGGCCGCATCGTCGAAGCCAAGGCTTCGAAGGGCGAAGCGGTGCTGAACAAGGTGCTCGACACCGACGAGGGCGCGCGGCGTCTCGGCGAAGTGGCGCTGGTGCCGCATTCCTCGCCGATCTCTGCAAGCGGCATCCTGTTCTACAATACGCTGTTCGATGAAAACGCCTCCTGCCACATTGCGCTCGGCCAATGCTATTCGAAATGCTTCCTCGACGGTGCTTCGCTGTCGCAGGATGAAATCAAGGCGCAGGGCGGCAACTCAAGCCTGATCCACATTGACTGGATGATCGGCTCCGACAAGGTGGATATTGACGGTGTGAAGCCGGACGGCTCCACGGTTCCGGTGATGCGCGAGGGCGAATGGGCCTGA	MTVSPIDPVKLEKLAEVAVKVGLQLQKDQDLVITAPLAALPLVRFLTKHAYMAGGGLVTTFYSDEETTLARYRHASDANFDRASGWLYEGMAKAYANGAARLAIAGDNPMLLAEQDPAKVARANKANSTAYKPALEKISNFDINWNIISYPNPSWAKQVFPGLAEDEAVRKLADAIFAASRVDLADPVAAWAEHNANLAKRSAWLNGERFSALHFTGPGTDVKIGLADGHEWHGGASTAKNGVTCNPNIPTEEVFTTPHALRVDGYVSSTKPLSHQGTLIDDIQVKFEAGRIVEAKASKGEAVLNKVLDTDEGARRLGEVALVPHSSPISASGILFYNTLFDENASCHIALGQCYSKCFLDGASLSQDEIKAQGGNSSLIHIDWMIGSDKVDIDGVKPDGSTVPVMREGEWA	PGPT0020940_595	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020940-pepS|ampP|ampT-K19689	NA	NA
BMS010_01953	864			hypothetical protein	ATGAAGAAAAATCCGACCTATGCCGCCGATGTGGTGGTGACCGCCCTTGCCCCCGCCATCTGGGGAACCACCTATTTCGTGACGACCGAATTTTTGCCGCACGGCTATCCCTTTCATGTCGCGATGCTGCGCGCATTCCCGGCCGGCGTGCTTTTGCTGCTTTTTGTAAGAAAGCTGCCGCACGGTATCTGGTGGCCGCGCAGCTTCATTCTCGGGGCGCTGAATTTCTCGTTCTTCTGGGCGATGCTTTTTGTGTCGGCCTATCGGCTGCCGGGCGGCGTGGCGGCAACGGTGGGTGCGGTCCAGCCCCTGATCGTGATTGGCCTTTCCCGGCTGTTTCTCGCCGCACCCGTCCGGCCGCTTGCCATCGCGGCCGGTTTTCTGGGCATTGTCGGCGTCGCGCTTCTGGTTCTGGCGCCGGGCGCTGCGCTGGATGGTATCGGTGTGGCGGCAGGTCTTGCCGGTGCCGTCTCCATGGCTTTCGGAACGGTGTTGACCCGCAAATGGCGGCCGCCGGTGTCGAACCTCACATTCACCGCCTGGCAATTGACGGCGGGCGGCCTTCTGTTGCTGCCGGTCGCCTATTTCCTGGAGCCGGCCCCGCCGACGCCGACAGCGGCCAATATTCTCGGCATGGCCTATCTGGGACTTGTCGGTGCTGCCCTGACCTATTTTCTGTGGTTTCGCGGGCTTGCCCGCATCGAACCTTCCGCCGCCGCATCGCTCGGCTTCCTAAGCCCGGTCGTTGCAACCCTGCTCGGCTGGCTGGCGCTCGGCCAAAGCCTCACGCCAGCGCAGATCGTCGGTTTCGTTGCGGTGCTTTTCAGCATCTGGCTCAGTCAGCGCAGCCAGTTGCCGAGATAG	MKKNPTYAADVVVTALAPAIWGTTYFVTTEFLPHGYPFHVAMLRAFPAGVLLLLFVRKLPHGIWWPRSFILGALNFSFFWAMLFVSAYRLPGGVAATVGAVQPLIVIGLSRLFLAAPVRPLAIAAGFLGIVGVALLVLAPGAALDGIGVAAGLAGAVSMAFGTVLTRKWRPPVSNLTFTAWQLTAGGLLLLPVAYFLEPAPPTPTAANILGMAYLGLVGAALTYFLWFRGLARIEPSAAASLGFLSPVVATLLGWLALGQSLTPAQIVGFVAVLFSIWLSQRSQLPR				NA	NA	NA	NA	NA
BMS010_01954	501			hypothetical protein	ATGAGCAAAGAACCGCTGGACCACGTCGATCACATTCTGGCGCAATGGCGCAGGGAGCGGCCCGATCTCGATGTCGGTCCCATGGGGCTGCTCGGGCGCCTGAACCGTCTCGCCACCCATCTCGGCCGGGAGGTGGAGGCGGTGTTGCTGAAGCACGGGCTTTCCTCTTCCGCTTTCGATGTGCTGGCGACATTGCGGCGCTCCGGCTCACCCTACAGGCTCTCCCCTGGCGATCTTTTGGCCATGACGATGGTGAGTTCCGGCACCATGACCAACCGGATCGACCAACTCGAGAAAGCCGGGCTGGTGGAGCGTATCCATAACCCGAACGACCGGCGCAGCGTCCTGATATCGTTGACGGAACGGGGATTTGCCATTGTCGAGGAAGCGGCAGGCGCTCACGTCGAAAACCAGCACCGCCTGGTCACCGGTCTCAGCGAAGAAGAGCGTGCGACGTTGAACCGGCTGCTGAAACGGTTTTTGCGGGATTTCGAAGAATAG	MSKEPLDHVDHILAQWRRERPDLDVGPMGLLGRLNRLATHLGREVEAVLLKHGLSSSAFDVLATLRRSGSPYRLSPGDLLAMTMVSSGTMTNRIDQLEKAGLVERIHNPNDRRSVLISLTERGFAIVEEAAGAHVENQHRLVTGLSEEERATLNRLLKRFLRDFEE				NA	NA	NA	NA	NA
BMS010_01955	708	lutR_4	COG2186	HTH-type transcriptional regulator LutR	ATGTTAACTGCCATTTCGCATGAGTCCGGTCTCGTCAGCAGCACGATCGGCGCTATCACCCGCCATATCCGCGAAAACGAACTTGCACCGGGAGCAAAGCTCCCCAGCGAGCTTTCGCTCTCGCAGCAGCTAGGTGTCTCCCGCACCGTCGTTCGCGAGGCTTTCCGGTCCCTCTCGGCCATGCGGTTGATCGACGTGAGTGCCGGCAAGCGCGCGACGGTGGCGACGCTGGATCACGGTGCAATGTCATTGATGTTCGAACATGGCATTCACACCGAACAGATCAACATCCAGCAGATTTACGACGTGCGCCGCACGATCGAAGTCAGAACCGTGACGCTCGCGGCACTGAGGCGAACGGATGCGGAAGCGCTCACCATTCTCGACCATGCCAACAATATGGAGCGGGATTTCGGTGACAATGACAAGGTCATGGAACACGACCTTGCTTTTCACCTCGCCGTTGCCCGAGCCTCGAAGAACCCGGTTTTCGAACTCATTCTCGGCGCCTTTCAAAACGTGACGCGCCAGACATGGCCGATCGGATGGAAGAGCCGAACATCCGACGCGCAGCGTCATGCAGCCGGGGAACTTCATATCGCCATCGGGCAGGCAATTGCCGCCGGTGACCCGCAAACGGCCTCAACGCTAATGGCGCGTCATTTCGATGAAAGCGTGCATGCGCTTCTGGCCGCCGGCATAGCCTGA	MLTAISHESGLVSSTIGAITRHIRENELAPGAKLPSELSLSQQLGVSRTVVREAFRSLSAMRLIDVSAGKRATVATLDHGAMSLMFEHGIHTEQINIQQIYDVRRTIEVRTVTLAALRRTDAEALTILDHANNMERDFGDNDKVMEHDLAFHLAVARASKNPVFELILGAFQNVTRQTWPIGWKSRTSDAQRHAAGELHIAIGQAIAAGDPQTASTLMARHFDESVHALLAAGIA				NA	NA	NA	NA	NA
BMS010_01956	1203	dgoD_1	COG4948	D-galactonate dehydratase	ATGAAAATCACGAAACTCGAGACCGTTCGTGTGGCGGAACGGGCAAACCTGCTCTGGGTTCTGGTCCACACCGATGAGGGCATTACCGGGCTTGGCGAAACCTTTTATGGCGCCGAGACGGTGGAGACCTATGTTCACGAATATATCGCCCCCCGCGTGATCGGCCGCGACCCGCTGCAGATCGACCTTCTGGCGCAAGACCTCGTCGGTTATCTCGGCTTCCGTTCATCGGGCGCGGAAGTACGCGGCAACTCCGCCTTCGATATTGCGCTGTGGGACATTTTCGGCAAGGCCACAAACCAGCCCATCGCCCAGCTGCTCGGCGGTTTCAGCCGTAAGGAAATCCGCACCTACAACACCTGCGCGGGCACCGAATATATCAAGAAGGCGACCGGGCAGCAGACCGCCAATTATGGCCTTTCCGGCGGCAAGGATTATGACGATCTGAACGGCTTCCTGCACCGGGCGGACGAGCTTGCCCATTCGCTGCTGGAAGACGGCATCACCGCCATGAAGATCTGGCCCTTCGACGCGGCGGCCGAAAAGACGCGCGGGCAATATATCTCGATGCCGGACCTGAAAAGCGCGCTCGAGCCATTTGAAAAAATCCGCAAGGCAGTGGGTGACAAGATGGATATCATGGTGGAGTTTCACTCCATGTGGCAGCTTCTGCCCGCCATGCAGATCGCAAAGGCACTCACCCCCTACCAGACCTTCTGGCATGAAGACCCGATCAAGATGGACAGTCTTTCCAGCCTGACGCGTTATGCCGCCGTTTCGCCCGCGCCCATTTCCGCCTCGGAGACGCTCGGCTCCCGCTGGGCCTTCCGCGATCTGCTCGAGACAGGTGCTGCCGGTGTGGTGATGCTGGACATCAGCTGGTGCGGCGGGCTTTCGGAGGCGCGCAAGATCGCTTCGATGGCGGAAGCCTGGCATCTGCCCGTCGCCCCGCATGATTGCACCGGGCCGGTGGTGCTCTGCGCCTCCACCCATCTGTCGCTCAACGCGCCGAACGCGCTGGTGCAGGAGAGCGTGCGCGCCTTCTACAAGACCTGGTATCGCGATCTCGTCACCGCATTGCCTGAGGTGAAGAACGGCATGATCACCGTGCCGCCGGGCGCCGGCCTTGGCATGGAACTGCATCCCGATATCGAAAAGACCTTCACCGTCAGCCGCCGTTTTTCGGATGCGGCGTCGATCTGA	MKITKLETVRVAERANLLWVLVHTDEGITGLGETFYGAETVETYVHEYIAPRVIGRDPLQIDLLAQDLVGYLGFRSSGAEVRGNSAFDIALWDIFGKATNQPIAQLLGGFSRKEIRTYNTCAGTEYIKKATGQQTANYGLSGGKDYDDLNGFLHRADELAHSLLEDGITAMKIWPFDAAAEKTRGQYISMPDLKSALEPFEKIRKAVGDKMDIMVEFHSMWQLLPAMQIAKALTPYQTFWHEDPIKMDSLSSLTRYAAVSPAPISASETLGSRWAFRDLLETGAAGVVMLDISWCGGLSEARKIASMAEAWHLPVAPHDCTGPVVLCASTHLSLNAPNALVQESVRAFYKTWYRDLVTALPEVKNGMITVPPGAGLGMELHPDIEKTFTVSRRFSDAASI	PGPT0002220_369	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTONATE_DEGRADATION,PGPT0002220-dgoD-K01684	NA	NA
BMS010_01957	1599	xseA_1	COG1570	Exodeoxyribonuclease 7 large subunit	ATGAGCGATATCTTCTCCCACGCAGCATTGAGCAATCTTGCCGAGTTCTCGGTCTCCGAACTGTCGGGTTCCATCAAGCGCACGGTGGAGACGGCTTTCGAACAGGTGCGGGTGCGCGGCGAGATTTCCGGCTATCGCGGTCCGCATTCTTCAGGACATGCCTATTTCTCGCTGAAAGACGACCGCGCCCGTATCGATGCGGTGATCTGGAAAGGCACCTTCTCGCGGCTGAAGTTCCGCCCGGAAGAGGGCATGGAAGTCATCGCCACCGGCAAGGTCACAACTTTTCCCGGCTCGTCGAAATATCAGATCGTCATAGAAAGCCTCGAGCCTGCCGGCGCCGGCGCGCTAATGGCGCTGTTGGAAGATCGCCGCCGGCGTCTGGCGGCGGAAGGGCTGTTTGACGCGGCCCGCAAGCGCCGGCTGCCCTTCATGCCGCATGTCATCGGCGTCGTCACCTCGCCCACAGGCGCTGTCATTCGTGATATTCTTCACCGCATTTCGGATCGCTTTGCGGTCCATGTGGTCGTCTGGCCGGTCAAGGTGCAGGGCGAAGGTTCGGGCGAGGAGGTGGCGAACGCCATTCGCGGTTTCAACGCGCTTCCGCCCGGCGGTGAGATTGCGCGGCCGGATGTGCTGATTGTCGCGCGTGGCGGCGGCAGTCTGGAGGACCTCTGGAGCTTCAACGACGAAATCGTCGTACGCGCCGCTGCCGAAAGCGAAATCCCGCTGATTTCCGCCGTCGGGCATGAAACCGATACGACCTTGATCGACTACGCTGCCGATGTGCGCGCGCCGACCCCGACGGGGGCCGCCGAAATGGCCGTGCCGGTGCGTGCGGAACTGGAAGCGCAGCTCTCCGGCCTTGCTGCGCGTCTTTCAGGCTCGGTATCGCGGCAGATGGACAATCGCCGTCAGGGCGTGCGGGCGCTGGTGCGCGCGCTGCCGTCGCTCGATCAGCTTCTGGCCCTGCCGCGCCGCCGTTTCGACGAGGCCGCGAGCGGTCTCGGGCGTGGACTGGAATTGACAACCCTGAACAAGCGCCGCGCTTTTGAGCGGTCCGCCTCGGGTCTCAGGCCGGAAACCCTGCTGAACGGTCTCAAACAGCACAGGCAACGGTTTACCGAGCGCATGCACCGGGCTGAGACCCTGGTGGAGCGCCGTCTGCTGCAGGGTAAAGGCCGCGTCGATGCCTTCGATTCCGCGCTACGTTCGCTTCCCGCCCGGCTGCTCGGCCAGGTGGAGCGGCAGAAGGAGCGGGTCGTCACCGGCGCGCGCCGGGCCGATACAGCCGTATTGCACCGCATGGCACAGAACCGTGCGGGCCTTGCCGCCCATGACCGCATCCTGCAATCGCTCTCTTATAAAAACGTGCTGAAACGCGGTTATGCCGTGATCCGCGATGAGGAGAACAGGCCGCTGACCCGCGCTGCCGCTATTGCGTCAGGTGCTGTGGTCTCGATGGAATTTGCCGATGGCCGCGTCTCGGCCATCACGACGGGGGAGGGAGCGCCATCCCCGGATAACCCCATAGTGCCAAAAAAGAAGCCGGCGAAACCGGCTTCTTCCGATCCGGGCAATCAGGGCAGCCTGTTCTGA	MSDIFSHAALSNLAEFSVSELSGSIKRTVETAFEQVRVRGEISGYRGPHSSGHAYFSLKDDRARIDAVIWKGTFSRLKFRPEEGMEVIATGKVTTFPGSSKYQIVIESLEPAGAGALMALLEDRRRRLAAEGLFDAARKRRLPFMPHVIGVVTSPTGAVIRDILHRISDRFAVHVVVWPVKVQGEGSGEEVANAIRGFNALPPGGEIARPDVLIVARGGGSLEDLWSFNDEIVVRAAAESEIPLISAVGHETDTTLIDYAADVRAPTPTGAAEMAVPVRAELEAQLSGLAARLSGSVSRQMDNRRQGVRALVRALPSLDQLLALPRRRFDEAASGLGRGLELTTLNKRRAFERSASGLRPETLLNGLKQHRQRFTERMHRAETLVERRLLQGKGRVDAFDSALRSLPARLLGQVERQKERVVTGARRADTAVLHRMAQNRAGLAAHDRILQSLSYKNVLKRGYAVIRDEENRPLTRAAAIASGAVVSMEFADGRVSAITTGEGAPSPDNPIVPKKKPAKPASSDPGNQGSLF				NA	NA	NA	NA	NA
BMS010_01958	243			hypothetical protein	ATGATTTTTCTTACCGCCACAGCACTCGGCGTAACCGCAGTTGCGCTTCGTTCGGTTTTCAGCATCGTTTTCATCTGCATGATGATTATCGGTGCCTATGGCGTGGCGATTGCACTTTCTTCCACGGCCGTGCCCTTGATGTCGCTGCTTCTGGCGCTCGCCGGTTACAATTTCGGTGTCGTGGGTGTCGTCCTCGGCCTTCTGGTGTTGCAGCGCCCGCGTTCCACCCAGCCAACCCTCTAA	MIFLTATALGVTAVALRSVFSIVFICMMIIGAYGVAIALSSTAVPLMSLLLALAGYNFGVVGVVLGLLVLQRPRSTQPTL				NA	NA	NA	NA	NA
BMS010_01959	372			hypothetical protein	TTGAGGCGTCCGCACTTTGCGCTGACCGAGATTTGCGGACTGGCCGCCGACCTTGCCGTTACCTGTCTGCTTATTTTCTATCTCGGCGTCGATCCGCTGGCCGCCCGTTTGCCGGGTGCAGCAACGGGGCTTGCAACAAGCTGGCGGCTGAACCGTGCAAATGGTGCGGCATCAGCCGGGCTGAACAGCTTTCTGATGAATGCCGTCACGCTCACCTCACGTATCGTCAGTGTCGGCCTGTTTGCCCTGCTGCAATGGCGCAATCCTCTCGTGCAGCCGCTCGTCCCGCTTGCCTTTTCAATAATCGCAGCGCTGGCGCTGGCGCTTTACGGCTATTGGCGGCTTCAAAAGCAACGGCAAGATCAGGACTAA	MRRPHFALTEICGLAADLAVTCLLIFYLGVDPLAARLPGAATGLATSWRLNRANGAASAGLNSFLMNAVTLTSRIVSVGLFALLQWRNPLVQPLVPLAFSIIAALALALYGYWRLQKQRQDQD				NA	NA	NA	NA	NA
BMS010_01960	984	iolG_2		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGCTGCGTTTCGGAATAATCTCAACGGCGAAAATCGCTCAGGATCACGTCATTCCGGCGATACAGGATGCGCAGAACTGCGTGGTCAGTGCTATCGCCAGCCGTGACCTCGCCAAGGCGCGCGCGGTGGCGGATCGTTTTTCCGTGCCCCACGCCTTCGGCTCCTATGAGGAGATGCTGGCCTCGGATGTGATCGACGCCGTCTATATCCCGCTTCCGACCTCGCAGCACGTGGAATGGACCATCAAGGCCGCCGATTCCGGCAAGCATGTTCTGTGCGAAAAGCCGATTGCATTGAAGGCTGGGGAGATCGACACCCTCATCGCCGCGCGTGACCGCAACCGTGTTGTCATTTCGGAAGCTTTCATGGTCACCTATGCGCCCGTCTGGGCGAAGGTGAAGGAGTTGCTGGCGTCCGGCGCGATAGGCACACTGAAGCATGTTCAGGGCGCTTTCAGCTATTTCAACCGCGATCCCGGCAATATGCGCAATATTCCCGAACTGGGTGGGGGAGCCTTGCCGGATATCGGCGTTTACCCGACCATCGTGACGCGCTTCGCCACCGGCGCGGAGCCCCGGCGCGTACAGGCCACCGTCGAGCGCGATAAGGAATTCGGCACAGATATCTATTCCAGTGTCAGGGCCGATTTCGGCGATTTCGAACTGAGTTTTTATCTGGCGACACAGCTTGCCGCCCGTCAGGTGATGGTTTTCCATGGCACTGAGGGGTACATTGAGGTCAAATCTCCCTTCAACGCCAATCGCTGGGGTGCGGAAGAGATCGAGCTGACCAATCAGGCCCATAGCCAGTCGCAAATCTTCCGGTTTCAGGACAGCCGCCAATATAAGCTGGAGGCGGAGGCCTTTGCCCGTGCGGCGAAGGGCGAAGGCGACGTCGTGACGCTGGAAAGCTCGAGAAAGAACCAGCTTTTCATCGACGCCATCTACCGGGCAGCGGAAAAGGATGGCTGGGAGACGGTTTAG	MLRFGIISTAKIAQDHVIPAIQDAQNCVVSAIASRDLAKARAVADRFSVPHAFGSYEEMLASDVIDAVYIPLPTSQHVEWTIKAADSGKHVLCEKPIALKAGEIDTLIAARDRNRVVISEAFMVTYAPVWAKVKELLASGAIGTLKHVQGAFSYFNRDPGNMRNIPELGGGALPDIGVYPTIVTRFATGAEPRRVQATVERDKEFGTDIYSSVRADFGDFELSFYLATQLAARQVMVFHGTEGYIEVKSPFNANRWGAEEIELTNQAHSQSQIFRFQDSRQYKLEAEAFARAAKGEGDVVTLESSRKNQLFIDAIYRAAEKDGWETV	PGPT0017545_165	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017545-xdh-K14273	NA	NA
BMS010_01961	561	rutB_1		Peroxyureidoacrylate/ureidoacrylate amidohydrolase RutB	ATGTCCTCTTCTCGTACAGCGCTGCTTGTTATCGACGTTCAGGAGTCCTTTCGGCACGCCCCTTACTTCGAGGAAAGCGAGCTTGCCGACTATCTGGAGAAGCAGCAGGCACTGATCGACGGCGCCAGGGCTGCGGGCATTCCCGTCGTACAAATCTTCCACGTCGATGGCGACAGGGCCTTTTCAAAAGACAGCGGCTATATCCGGGCGCTGGAGGGTGTGCGGATTACCCCTGATGTAACCTTTCACAAAAACCGCCATTCGGCTTTTGCCGGCACCGGCCTCGAAATCTGGCTGACGCAGAAGGGCATCAACCGGCTGATCGTCTCCGGCATCCGCACCGAACAATGCTGCGAAACCACCACCCGGCATGCTTCCGATCTTGGTTACAGCGTCGATTACGTCACCGAAGCGACGCTGACTTTCCCGATGACACATGCTTCCGGCACCGTCTTCAGCCCGGACGATATCCGCAAGCGGACCGAGCTGGTACTGGCCGGCCGCTTCGCGCGCATCGTAACCGTCGATGACGCACTGGCCACCGTCAAAGAGGCCGCCTGA	MSSSRTALLVIDVQESFRHAPYFEESELADYLEKQQALIDGARAAGIPVVQIFHVDGDRAFSKDSGYIRALEGVRITPDVTFHKNRHSAFAGTGLEIWLTQKGINRLIVSGIRTEQCCETTTRHASDLGYSVDYVTEATLTFPMTHASGTVFSPDDIRKRTELVLAGRFARIVTVDDALATVKEAA				NA	NA	NA	NA	NA
BMS010_01962	984	rhaR_2		HTH-type transcriptional activator RhaR	ATGGATAAAGGCGGCACGCGCACCATTCCCTTTTATACGCTTGTCCCGCCACATGCGCTGTTGCTCGATATTGCCGGCCCGCTCGAAGTGATCCGTTATGCCAATGGGGAACAGCGGGACATCCATTTCGACTGCCGCTACATTGCTGCGACTGACAAACAGCAATCTTCCATCGGTCTTGCGCTTTCAGGGCTGGAGAACTTGCCTGCGACCCTGCCGGAAAATGCTTTCCTGCTGATCTCCGGCAGCACATCACGCTTCGACAACGATCCGGAGACAGGGCGAGAGCGGCAAGTGCTGGCGGCATGGCTGCGCCGTGTTGTGCGCCCCGATACGACAGTCATTTCCATCTGTTCCGGCGCGCTGCTGGCGGGCGAAGCCGGGCTTTTCGATGGGCGCAACTGCACGACCCATGCCGATTGCCTTGAAGGGCTGCGTCGCATCGCGCCGCTGTCCCAGGTGGCCGAAAACCGCCTTTTCGTCGAGGATGGCAACCGCTTCTCAAGCGCCGGAATTTCCACCGGCGTCGATCTGATGCTGCATGTGGTTTCCCGGCTGACATCCCCGGCTGTCGCCGCGCGTATTGCCAAAACCATGGTGGTTTATCTCAGACGCAGCGGCAACGATCCGCAAATCTCCCCCTGGATGACCGGCCGCAACCACATCCACCCCGCCATTCACCGGGTTCAGGACCGTGTGATGGCCGAGCCGGCGCAGGACTGGTCGCTGGAGCGGCTGGCCGATATTGCGGCGCTCAGCGAAAGGCATTTGTCGCGACTGTTTCGCGAGCATACCGGCATCAGCGTCATCGACTACGTCAACCTGATGCGGGTCAATCTCGCCCGCGACATTCTCGCCAACAGTCGCCTGGATATGGAAGCCATTGCCGAACGGGCGGGCTTTGCCTCCGCCCGGCATTTACGGCGTGTCTGGCAGCAGCATAATCGTTACCCGCCCAGCCATTATCGCGGTTTTCAGGCCTGA	MDKGGTRTIPFYTLVPPHALLLDIAGPLEVIRYANGEQRDIHFDCRYIAATDKQQSSIGLALSGLENLPATLPENAFLLISGSTSRFDNDPETGRERQVLAAWLRRVVRPDTTVISICSGALLAGEAGLFDGRNCTTHADCLEGLRRIAPLSQVAENRLFVEDGNRFSSAGISTGVDLMLHVVSRLTSPAVAARIAKTMVVYLRRSGNDPQISPWMTGRNHIHPAIHRVQDRVMAEPAQDWSLERLADIAALSERHLSRLFREHTGISVIDYVNLMRVNLARDILANSRLDMEAIAERAGFASARHLRRVWQQHNRYPPSHYRGFQA	PGPT0014658_8	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014658-ypdC-NA	NA	NA
BMS010_01963	951	yajO_1	COG0667	1-deoxyxylulose-5-phosphate synthase YajO	GTGGAAAAACGAAGCCTCGGCCGCACCGGCCTCTCCATCGCCCCGATCGTCTTCGGCGGCAACGTGTTCGGCTGGACAGCGGATGAGAAGACTTCCTTTGCCCTGCTCGACGCCTTTTTCGACGCCGGGTTCAACGCCATCGACACGGCGGATGTCTATTCCGCATGGGTGGACGGACATGTGGGCGGCGAGTCCGAGACGATCATCGGCAAATGGCTGAAGCAGTCGAGCGTGAAGCGCGAAGATGCGGTAATCGTCACCAAGGTCGGTTTTGACAATCGCGGCCAAAAGACAGGCCTCAGCGCCAAGTGGATCGCAGAGGCCGTGGAGGCGTCGCTGAAGCGGCTGCAAACCGACTACATCGACCTTTACCTCGCCCACAAGCCGGATGCGGATGTGCCGCTGGAGGAAACGCTCGCCGCTTTCGGCAAGCTGAAGGAGCAGGGAAAAATCCGCGCCATCGGCTGCTCCAATTATTCCGCAAGCCAGCTTCAGGAAGCGCTGGACACGGCCGCAAAAAACAATCTTCCCCGTTATGACGTGCTGCAGCCGGAGTATAATCTCTATAACCGCAAGGATTTCGAAGGTCCGCTTGCCGAGCTTTGCCAGAAGGAAGAAATCGGCGTCATCAATTATTACAGCCTCGCCGCCGGCTTCCTCACCGGGAAATATCGTGCCAAGGCCGATACGGAAGGCGTCGCCCGCAGCTATCGCGTGGGTGAATATGTCAATACGCGCGGGCTTGCCATTCTGGGCGCCATGGATGCCGTGGCAGTGGAAACCGGGGCCAAACTTGCCGACATCGCACTGGCCTGGCTGTTGCGCAAGAAGGCGATAACCGCGCCGATCGCCAGCGCCACCAGCCTCTCCCAGCTTGAAAGCTTCAAACGCGCCGTCGAGTTAAAGCTGACGGATGAAATGATGACACTGCTCGACAAGGCGGGTGCGTAA	MEKRSLGRTGLSIAPIVFGGNVFGWTADEKTSFALLDAFFDAGFNAIDTADVYSAWVDGHVGGESETIIGKWLKQSSVKREDAVIVTKVGFDNRGQKTGLSAKWIAEAVEASLKRLQTDYIDLYLAHKPDADVPLEETLAAFGKLKEQGKIRAIGCSNYSASQLQEALDTAAKNNLPRYDVLQPEYNLYNRKDFEGPLAELCQKEEIGVINYYSLAAGFLTGKYRAKADTEGVARSYRVGEYVNTRGLAILGAMDAVAVETGAKLADIALAWLLRKKAITAPIASATSLSQLESFKRAVELKLTDEMMTLLDKAGA	PGPT0016784_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_CATABOLISM,PGPT0016784-mocA-NA	NA	NA
BMS010_01964	444			hypothetical protein	ATGGAGCTCAGAATTCGCGATGCGCAGCCGGCTGACCGGAGGGAATGGCTGCGCCTGTGGAACGACTATCTTGCCTTTTATGATGTCGAACTTGCCGATGAGGTGACCGAGCACACCTGGGCACGCATTCTCGATCCCGCATCCCGTGTTTCCATGCGCGTGGCCATGCTCGGCGACCGCATGGCCGGTTTCGCCATTCACCACTTCCATGATTCCACCTGGGTAAAAACGCCAGACTGCTATCTGGAAGACCTATTCGTCGATGGCGAAATCCGCGGCAAGGGAACGGGCCGGGCGCTGATGGACGATCTTGTCGCCATCTGCAAGGACAAGGGCTGGTCACGGCTGTACTGGCACACCGGCGAGGACAATCACCGCGCCCAGAAGCTCTACGACAGCTATGTGAAGAGCGACGGCCATATCCGCTATCGCATCAAGTTCTGA	MELRIRDAQPADRREWLRLWNDYLAFYDVELADEVTEHTWARILDPASRVSMRVAMLGDRMAGFAIHHFHDSTWVKTPDCYLEDLFVDGEIRGKGTGRALMDDLVAICKDKGWSRLYWHTGEDNHRAQKLYDSYVKSDGHIRYRIKF				NA	NA	NA	NA	NA
BMS010_01965	891	pgrR_3		HTH-type transcriptional regulator PgrR	ATGAACCGTGTGCAACTCTCCCAACTGGCTGTTCTCGCTGCCGTTGCCGAAGGCCGCAGCTTTCGCAAGGCCGCCGCCGAACTTGCCATTGCGCCTTCCGCTGTCAGCCATGCGGTGTCGTCGCTGGAGGCGAGCCTTGGCTTGCGTCTGCTTCATCGTACCACCCGCAGCGTTTCACCGACAGAGGAGGGCAAGCGGCTTCTTGAAACACTTGGTCCGGCACTTGCCGATATCGATGCGGTCATCGAGACGCTTGCCGAGCAGGGCGGGAGACCGGCCGGCCCCCTGCGCATCACCCTGCCGCGGCTTGCTGCCGAGGACCTAATCGTGCCCCGGCTGGGTGAGTTCCTGCGGCTCTATCCTGATATTTCCCTCGAAATCTCAACGGATGATCGTTTCGAGGATATTGTCGCGAAAGGTTTCGATGCGGGTTTGCGGCTTGGCGAGCACCTCGATGCGGATATGATTGCGGTAAAAGCCAGCGGCGCATGGCGCGGCGCGATTGTCGGCGCGCCCTCCTATTTCTCAGAAAATCCACCACCGCAGGATCCAAGGGATCTCATCCGGCATCGCTGTATCCGCCGGCGTTTCGCCAGCGGCCTTATCTATCGCTGGGAACTGGAGAAGAATGGCAAGCCATTGGTGGTTGATGTGCAGGGGCCGCTGATCCTGTCGGACCAGAGCCTTATTCGCCGGGCTGCCATCGACGGGGCAGGGCTTGCGTTCGTTTTCGAGCAGCGTGTTGAAGACGATATCCGGGCGGGCAGGCTTATCCGCGTGCTTGACGACTGGTGCGCCCCGTTCGACGGTTTTTACATTTATTATCCCTCGCGCCGGCAGATGAGGCCGGCGCTGAGGGCTTTCGTGGATTTCTTCCGCTTCAGGATTTGA	MNRVQLSQLAVLAAVAEGRSFRKAAAELAIAPSAVSHAVSSLEASLGLRLLHRTTRSVSPTEEGKRLLETLGPALADIDAVIETLAEQGGRPAGPLRITLPRLAAEDLIVPRLGEFLRLYPDISLEISTDDRFEDIVAKGFDAGLRLGEHLDADMIAVKASGAWRGAIVGAPSYFSENPPPQDPRDLIRHRCIRRRFASGLIYRWELEKNGKPLVVDVQGPLILSDQSLIRRAAIDGAGLAFVFEQRVEDDIRAGRLIRVLDDWCAPFDGFYIYYPSRRQMRPALRAFVDFFRFRI				NA	NA	NA	NA	NA
BMS010_01966	1002	yajO_2	COG0667	1-deoxyxylulose-5-phosphate synthase YajO	ATGAAAAAAAGAACCCTTGGAAACAACCTTTCCGTTTCCGCGCTTGGCCTCGGCTGCATGGGCATGACACACGCCTATAGCCCGACCGGCGATGAGAGCAGCGCAATTGCAACGCTGCACCGCGCCGTCGAACTCGGCGTCACCTTTTTCGATACGGCGGAAGTTTATGGGCCTTACAACAACGAAATCCTTGTCGGCAAGGGTTTGAAGCCCTATCGTGACAAGGTGGTCATCGCCACCAAGTTCGGCTTCAAAATCGACACCAGCAAACCCGCTGGCCAGATGATGGTGGGCACCGACAGCCGCCCGGAAAATGTGCGCGCCGTCGCCGAAGCCTCTCTCAAACGCCTCGGCGTCGATGAGATCGACCTGTTCTACCAGCATCGCGTCGATCCGAATGTTCCGATCGAAGACACGATAGGCGCTATGGCCGAGCTCGTCCGGCAGGGCAAAGTGAAGCATCTCGGCCTATCGGAAGCGAGTGCCGAAACGCTTCGCAAAGCGCACGCCGTTCATCCGATTGCGGCAATTCAGAGCGAATATTCGCTGTGGACCCGCGACGTGGAGGAAAACGGCGTGCTGGAAACCTGCCGAGAACTCGGCATCGGTTTCGTCCCCTTCAGCCCACTCGGGCGCGGTGCCTTGACGGGCGCGCTGAAGTCGCTCGACGGCCTTGCATCCGACGACTTCCGCCGCGGCCTGCCGCGCTTCCAGAGCGAAAACTTCGACGCCAATCTGGCGCTCATCAAGCTTCTGGAGGACATGGCAACTGAGAAGGGCGTGACCGCCGGACAACTGGCGCTGGCCTGGGTGCTGGCACAGGGCGACTTCATCGTTCCTATTCCCGGCACGACAAAAATCGCCAATCTGGAGAAGAACGTTGCCGCAGCGGAGGTGTCACTGACGGCAGAAGAAGCCGCCAGCCTCGGCGCGCTGCTTTCGCCGACAAAAGTCGCCGGCGCGCGTTACCCGGAACAGATGTCACGGATGGCCAACCGATAA	MKKRTLGNNLSVSALGLGCMGMTHAYSPTGDESSAIATLHRAVELGVTFFDTAEVYGPYNNEILVGKGLKPYRDKVVIATKFGFKIDTSKPAGQMMVGTDSRPENVRAVAEASLKRLGVDEIDLFYQHRVDPNVPIEDTIGAMAELVRQGKVKHLGLSEASAETLRKAHAVHPIAAIQSEYSLWTRDVEENGVLETCRELGIGFVPFSPLGRGALTGALKSLDGLASDDFRRGLPRFQSENFDANLALIKLLEDMATEKGVTAGQLALAWVLAQGDFIVPIPGTTKIANLEKNVAAAEVSLTAEEAASLGALLSPTKVAGARYPEQMSRMANR	PGPT0009140_363	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009140-ydbC-K05275	NA	NA
BMS010_01967	2424	pheT_1	COG0072	Phenylalanine--tRNA ligase beta subunit	ATGAAATTCACTCTTTCCTGGCTGAAAGAGCATCTCGATACCGATGCGACGCTGGATGAGATTTGCGAGCGGCTGACGGCAATCGGCCTTGAGGTCGAGGACGTTGACGACAAGGCGGCCTACAAGCCTTTCGTCATCGCCAAGGTGCTCTCCGCCGAGAAGCACCCGGAAGCTGACCGCCTGAAGGTTCTCTCCGTCGATGCCGGAGACGGCAAGCCGGTGCAGATCGTCTGCGGCGCGCCGAATGCACGCGCCGGCCTCGTCGGTGCGCTCGCGCGTCCGGGCGTGTATGTTCCGGGCATCGACGTCACCCTTGCCGTCGGCAAGATACGCGGCGTGGAAAGCCACGGCATGATGTGCTCCGAAAAGGAGCTGAACATTTCCGAAGATCACGACGGCATCATCGACCTGCCGGAAGATGCGCCGGTCGGCACCTCCTTCGCCGCCTATGCCGGGCTCGACGATCCGGTCATCGAAATCAACCTGACCCCGAACCGCCCGGACTGCACCTCGATCTACGGTATTGCCCGCGATCTCGCTGCTTCCGGTCTCGGCAAGCTGAAGACGAGACCCGCGCCGTCCTTCAAGGTGGAAGGCGCAACCCCGGTCGACGTGAAGCTTGAGCTGGACGATGCGGCGCTCTGCCCCGGCTTTTCGCTGCGCGTCGTTCGTGGCGTGAAGAACGGCCCCAGCCCGAAATGGATGCAGCAGCGCCTGCTGGCAATCGGCCTGCGTCCCATCAATGCGCTTGTCGACATCACCAACTACATGACCTTCGATCAGGGCCGGCCGATGCACGTCTTCGACGCCGCCAAGGTCAAGGGCGATCTCACGGTTCGCCGCGCAAAAGAGGGCGAGACGATCCTCGCGCTCGACCAGCGTGAATATAAGCTCGGCCCGAACAATGTCGTCATCGCCGATGAGAAAGGTCTCGAATCCATCGGCGGCGTCATGGGTGGCGAACATTCAGGCTGCGATGACAATACTGTCGACGTGCTGATCGAATCCGCTCTCTGGGATCCGATCAACATTGCCAAGACCGGCCGTTCGCTCGGCATCATCACCGATGCGCGTTATCGTTTCGAGCGTGGCGTCGATCCGGAATATATGGTTCCGGGTCTGGAGCGTACCACCGAGCTGGTTCTCGAACTGTGCGGCGGCATTGCCGGCGAGGCGAAGGTCGTTGGTTACAAGGGGCATCAGCCCAAGGTCGTGGATTTCCCGCTCGCGGAAGTAAAGCGCCTGACAGGTCTGGAAGTCTCGGCGGAAGAGAGCCTCGCCATTCTCAAAGGCCTGGGTTTCAGCGTCGAGGGAACGGGCGAGCGCGTCTCCGTCACCGTGCCGTCCTGGCGTCCGGATGTCGATGGCAAGGCCGATCTGGTGGAAGAGGTCATGCGCATCCATGGCGTCGACAACATCAAGCCCGAGCCGTTGGAAAGCTTCGGCGCGGTCAACGGCCGTATCCTGACCACGCTGCAGATCCGCACCCGCACCGCGCGCCGTGCGCTGGCAAGCCGCGGCATGCTCGAGGCCGTCACCTGGTCCTTTATCCCGGAAGCGCAGGCGAAGTTATTCGGCGGCGGTTCGCCGGCCCTGAAGCTTGCCAACCCGATTGCCGCCGATATGTCGGACATGCGGCCTTCGCTGTTGCCGGGCCTGCTGACCGCCGCGCAGCGCAATGCCGACAAGGGTTATGGTGACGTCGCGATCTTCGAGGTCTCCGGCACCTATGAGGGTGATACGCCGGATAAGCAGCGCCGGGTTGCCGGCGGTGTGCGCCGTGGCACGGCCTCGTTGGCGGGCAGCGGCCGCATGTGGTCCAATGCGGCCAAGGGTGGCGGCAAACCGGTGGATGTCTATGACGCCAAGGCCGATGCGCTCTCCGTGCTGGAAGCCTGCGGCCTGCCCATGGCCAATGTGCAGATCGAAGCAGGCGGCCCCGGCTGGTATCATCCCGGCCGCTCCGGAACCATCAAGATGGGTCCGAAGGTCGTGCTCGGCTATTTCGGCGAGTTCCATCCGAAGACGCTGTCCGAACTGGATGTCTCCGGCGCCTATTGCGGTTTCGAGATTTATCTCGACGCCATGCAGGAGCCGAAGAAGAAGGCCACCCGCACCAAGCCTGCGCTCGAGCTTTCGCCCTTCCAGGCAGTCAAGCGCGATTTCGCCTTCGTGGTCGACAAGTCGGTGGAGGCGGGCGCCATCATCAAGGCTGCAACGAGCGCTGACCGCAAGCTGATCACCGGCGTCAATGTCTTCGATATTTTCGAGGGCGCATCGCTCGGTGAAAACCGCAAGTCGGTCGCCATCGAAGTGCAGATCCAGCCGGTCGACAAGACGCTGACGGACGAGGATTTCGAGGCCCTGACGGCCAAGATCGTCGGCAATGTCGAGAAATCCACGGGCGGCGTCCTGCGCGCCTGA	MKFTLSWLKEHLDTDATLDEICERLTAIGLEVEDVDDKAAYKPFVIAKVLSAEKHPEADRLKVLSVDAGDGKPVQIVCGAPNARAGLVGALARPGVYVPGIDVTLAVGKIRGVESHGMMCSEKELNISEDHDGIIDLPEDAPVGTSFAAYAGLDDPVIEINLTPNRPDCTSIYGIARDLAASGLGKLKTRPAPSFKVEGATPVDVKLELDDAALCPGFSLRVVRGVKNGPSPKWMQQRLLAIGLRPINALVDITNYMTFDQGRPMHVFDAAKVKGDLTVRRAKEGETILALDQREYKLGPNNVVIADEKGLESIGGVMGGEHSGCDDNTVDVLIESALWDPINIAKTGRSLGIITDARYRFERGVDPEYMVPGLERTTELVLELCGGIAGEAKVVGYKGHQPKVVDFPLAEVKRLTGLEVSAEESLAILKGLGFSVEGTGERVSVTVPSWRPDVDGKADLVEEVMRIHGVDNIKPEPLESFGAVNGRILTTLQIRTRTARRALASRGMLEAVTWSFIPEAQAKLFGGGSPALKLANPIAADMSDMRPSLLPGLLTAAQRNADKGYGDVAIFEVSGTYEGDTPDKQRRVAGGVRRGTASLAGSGRMWSNAAKGGGKPVDVYDAKADALSVLEACGLPMANVQIEAGGPGWYHPGRSGTIKMGPKVVLGYFGEFHPKTLSELDVSGAYCGFEIYLDAMQEPKKKATRTKPALELSPFQAVKRDFAFVVDKSVEAGAIIKAATSADRKLITGVNVFDIFEGASLGENRKSVAIEVQIQPVDKTLTDEDFEALTAKIVGNVEKSTGGVLRA				NA	NA	NA	NA	NA
BMS010_01968	1083	pheS_1	COG0016	Phenylalanine--tRNA ligase alpha subunit	ATGACTGAACTTGATACCTTGAAATCGCAATTGATGTCGGAGATCGCCACGGCTGCCGATGAGCCGGCCATCGAAGCCGTGCGCCTTTCCGCGCTTGGCAAGAAGGGCTCGGTTTCGGAGCTTCTCAAGACGCTTGGCAGCATGACGCCGGAAGAGCGCCAGACCCGCGGCGCCGCGATTAACCAGCTCAAGACTGAAATCACCGACCTCATCGGCGAGCGCAAGAACGCGCTGAAGGACGCTGCCATCGCCGCCCGGCTGAAAGCGGAAACGGTGGATGTCAGCCTGCCGGTCCGCCAGTCTCCGGCCGAGCGCGGCCGCATTCATCCGATCAGCCAGATCGTCGATGAAATCACCGCGATCTTCGCGGATATGGGTTTCTCTATCGCCGAAGGTCCAGATATCGAAACCGACTATTACAACTTCACGGCGCTGAATTTCCCGGAAGGCCATCCGGCCCGCGAGATGCACGATACCTTCTTCTTCCAGCCGGATGAAAAGGGCGAGCGCAAGGTGCTGCGCACCCACACTTCGCCAGTGCAGATCCGCACCATGGAAAGCCAGAAGCCGCCGATCCGCATCGTCATTCCCGGCAAGACCTATCGCCAGGATTCCGACGCCACCCATTCGCCGATGTTCCATCAGGTCGAAGGCCTTGTCATCGACAAGAAGGCGCATGTCGGCAATCTGCGCTGGATTCTGGAAGAATTCTGCAAGACCTTCTTCGAGGTCGACAGCGTCGTCATGCGCTTCCGCCCCTCCTTCTTCCCCTTCACGGAGCCGAGCTTCGAGGTGGATATCCAGTGCGACCGTTCCGGTCCCATCGTCAAGTTCGGCGAAGGCAAGGACTGGATGGAGATCCTCGGCTGCGGCATGGTGCACCCGAACGTGCTGCGAGCCGGCGGGCTGGACCCGGATGAATATCAGGGCTTTGCCTGGGGCATGGGCCTCGACCGCATCGCCATGCTGAAATACGGCATGCCGGACCTGCGCGATTTCTTCAACGCCGATGTCCGCTGGATGAACCACTACGGCTTCCGTCCGCTCGACATGCCGACGCTGTTCGGCGGTTTGAGCGTTTAA	MTELDTLKSQLMSEIATAADEPAIEAVRLSALGKKGSVSELLKTLGSMTPEERQTRGAAINQLKTEITDLIGERKNALKDAAIAARLKAETVDVSLPVRQSPAERGRIHPISQIVDEITAIFADMGFSIAEGPDIETDYYNFTALNFPEGHPAREMHDTFFFQPDEKGERKVLRTHTSPVQIRTMESQKPPIRIVIPGKTYRQDSDATHSPMFHQVEGLVIDKKAHVGNLRWILEEFCKTFFEVDSVVMRFRPSFFPFTEPSFEVDIQCDRSGPIVKFGEGKDWMEILGCGMVHPNVLRAGGLDPDEYQGFAWGMGLDRIAMLKYGMPDLRDFFNADVRWMNHYGFRPLDMPTLFGGLSV				NA	NA	NA	NA	NA
BMS010_01969	879			hypothetical protein	ATGCTGGTTAATGAAAATCAGGCTGAAACAGCCGAAGGGTTTCGAGTACATCTTGATGATGCAGATATTGCCACTCTCATGCACGCTTTGTTAAAAAGTGAGCGGCGGGTCCAGAAGGTTGAGCTGTCGCAACTGACAGTATGGATCAAGCGCCAGGGCACGGAAACGCCGTCCTGGTGGATAAAGCTGCAGACCTTTCTCGCAAAGCTGCTTCCTTACACCTTCATGCGCCCTTCGCCGCCGCTCGACGGTGCCGGCCTGATGCGTCGCGAACTCGACACGCTGCAGGCCTTCAAGGCCAGTGGTTTTCCGGTCCCGCCCGTGATTTATTCTTCCCGGACCGCAGTTGTGCTGGGCGATGTTGGTCCCACCATCATCGAGCGCATGGACGCGATAAAGGCAGCCGCGCCGGCGGAACATGATGCCCTGCTGGTAAAATCTGCCGAGGCACTCGGCGAATTGCATGCGGCAGGCCTTTGCCATGGGCGCCCGCATGTGCGCGACTTTTTTCTCGAAGACGGCCGCGTCGGTTTCATGGATTTCGAGGAGCGCCCGCAGGAAGTCATGCCGCTCGAGACGGCGCAGGCCCGCGATATCTGGCTGCTGTTTTTACAGGTCGCAACACGCGCCTGCGATGCGCGGAAAACCTGCGATGCCGCCTTCGCCCGCTGGCGCGAAAACGCCCCGCCCCGGGCGCTGGAAGAATTGTGCCGTCTGACCGGCATTCTGGGGCGTTTTTTACCGGTTGCCCGGTTGATCGGGCGCGTGCGGATGGGTAGTGATCTGCGACGCTTTATCATGGCGACCGACTATCTGATGAATGCTGTGAACCCCGAAGCCGCTGTTAAAAAGACCGGCAAGGCAGGAAAAGATGACTGA	MLVNENQAETAEGFRVHLDDADIATLMHALLKSERRVQKVELSQLTVWIKRQGTETPSWWIKLQTFLAKLLPYTFMRPSPPLDGAGLMRRELDTLQAFKASGFPVPPVIYSSRTAVVLGDVGPTIIERMDAIKAAAPAEHDALLVKSAEALGELHAAGLCHGRPHVRDFFLEDGRVGFMDFEERPQEVMPLETAQARDIWLLFLQVATRACDARKTCDAAFARWRENAPPRALEELCRLTGILGRFLPVARLIGRVRMGSDLRRFIMATDYLMNAVNPEAAVKKTGKAGKDD				NA	NA	NA	NA	NA
BMS010_01970	405			hypothetical protein	ATGGCACGCGTAAAACGTGGCGTAACTTCCCGCGCCAAGCACACCAAGACACTCAAGGCAGCCAAGGGCTTCTACGGCCGCCGCAAGAACACCATCCGCGCAGCAAAGGCTGCCGTGGATCGTTCCAAGCAGTACGCTTACCGCGACCGCAAGGTCAACAAGCGCAACTTCCGCGCTCTGTGGATCCAGCGTATCAACGCTGCCGTTCGCGAATTCGGCCTGACCTATGGCCGCTTCATCGACGGCCTGAACAAGGCTGGCATCGAAGTCGACCGCAAGGTTCTGTCCGACATGGCTATCCATGAGCCGGCAGCATTCGGCGCGCTCGTCGAAGCAGCGAAGAAGGCGCTTGAGTACCTCAAGGATGCTGGTACGGCCAACGAGTTTGAAACCGCTGTAAAGTAA	MARVKRGVTSRAKHTKTLKAAKGFYGRRKNTIRAAKAAVDRSKQYAYRDRKVNKRNFRALWIQRINAAVREFGLTYGRFIDGLNKAGIEVDRKVLSDMAIHEPAAFGALVEAAKKALEYLKDAGTANEFETAVK				NA	NA	NA	NA	NA
BMS010_01971	204	rpmI_1	COG0291	50S ribosomal protein L35	ATGCCCAAGATGAAGACGAAGTCCGCTGCAAAGAAGCGGTTCAAGATCACCGCAACCGGCAAGGTTGTTGCAGCCGCCGCCGGCAAGCGCCACGGCATGATCAAGCGTACCAACAAGTTCATTCGCGACGCGCGTGGAACCATGGTTCTCGCCGACGCTGACGGCAAGAAGGTCGTCAAGAACTACCTGCCGAACGGTCTCTGA	MPKMKTKSAAKKRFKITATGKVVAAAAGKRHGMIKRTNKFIRDARGTMVLADADGKKVVKNYLPNGL				NA	NA	NA	NA	NA
BMS010_01972	423	infC_1	COG0290	Translation initiation factor IF-3	ATGCCGACGGATCAGGCTTTGAAACTGGCGGAGGAGGCCGGTCTCGATCTCGTTGAGATTTCGCCGAACGCGGAACCGCCGGTATGCAAGATCCTCGATCTCGGCAAGCTGAAGTACTCGACCCAGAAAAAGGCCGCTGAAGCGCGCAAGAAACAGAAGATCGTCGAAGTTAAAGAAATCAAGATGCGCCCCAACATCGACACGCATGACTATGACGTGAAGATGAAGGCGATGGGCCGTTTCTTTGACGATGGCGACAAGGTGAAGGTAACGCTGAAGTTCCGCGGCCGCGAAATGGCCCACCAGGAACTCGGCATGAAGCTTCTCCTCCAGGTGAAGGAAGACACCCAGGCGATTGCCAAGGTGGAGGCCGAGCCGAAGCTGGAAGGCCGTCAGATGATGATGGTTCTCGCCCCGAAATAA	MPTDQALKLAEEAGLDLVEISPNAEPPVCKILDLGKLKYSTQKKAAEARKKQKIVEVKEIKMRPNIDTHDYDVKMKAMGRFFDDGDKVKVTLKFRGREMAHQELGMKLLLQVKEDTQAIAKVEAEPKLEGRQMMMVLAPK				NA	NA	NA	NA	NA
BMS010_01973	789			hypothetical protein	ATGACCGAACAAGCCGCTGAATTCCTGCGCGTAGGCCCCGACAACGACACTCGCGACATTGCTTTCCTTCATCGCCCGGCAGCTTCGGGCGAGAATATGCCGATGCTGGTATGGCTCGGCGGCTATCGTTCCGACATGACCGGAACCAAGGCGGTTGAACTCGATCGCTTCGCCGCTGAAAACGGTCTTGCCTGCCTGCGGCTCGACTATTCCGGCCATGGCGCCTCCGGCGGCGACTTCAGGAAGGGCACGATTTCCCGCTGGCTGGAAGAGGCGCTTGCCGTGGTGCGCGCAAAAGCGCCGTCACGCGTCGTTCTCATCGGCTCCTCCATGGGCGGATGGATTGCGCTACGCATGGTCGAGGAGCTGCGCAAGGCGGGTGGCGCGCCATCCGTCGCCGGTCTCGTCCTCATTGCGCCAGCGCCGGATTTCACGCAGGAGCTGATAGAGCCCAGCCTTTCGGATGCGGAAAAAACCTCTCTGGCGGAAAAGGGTTATTTCGAGGAACATTCGGAATATAGCCCCGAGCCCAACATCTTCACCCGCGCGCTGATGGAAGACGGGAAGCAGAACCGCGTGCTGCAGGGTATCATCACCACCGGCTGCCCCGTTCACATCCTGCAGGGCATGCGCGACCCGGATGTTCCCTATCAGCATGCACTGAAGCTTATCGAACACCTTCCGTCCGACGACGTCGTGCTGACGCTGATCCGCGACGGCGACCATCGGCTTTCCCGGCCGCAGGATATCGAGCGGATGCTCGCCGCGGTCAAAGCCCTTGCAATATAG	MTEQAAEFLRVGPDNDTRDIAFLHRPAASGENMPMLVWLGGYRSDMTGTKAVELDRFAAENGLACLRLDYSGHGASGGDFRKGTISRWLEEALAVVRAKAPSRVVLIGSSMGGWIALRMVEELRKAGGAPSVAGLVLIAPAPDFTQELIEPSLSDAEKTSLAEKGYFEEHSEYSPEPNIFTRALMEDGKQNRVLQGIITTGCPVHILQGMRDPDVPYQHALKLIEHLPSDDVVLTLIRDGDHRLSRPQDIERMLAAVKALAI	PGPT0005385_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_SYMPORTER,PGPT0005385-benE-K05782	NA	NA
BMS010_01974	615			hypothetical protein	ATGATGAACGCACCGCTGGCGCGTGCGCTGCTGTTTGCAGTTGCCGCCGGGCTAATGACTGCTGCCTCCGCCACGGCGGAAACCAAGGGAAGCCCTTCCATGGTGACGGGGGGGATTACCTCCCAGCCTATCGGCCATTATGAGTTCTGTCAGAAATATGCCGATGAATGCAATATTCGCAGCAAGGCGACGCCGCCGCCGCGCGTCACGGATTATGGCTGGGATGTCATTCGCGAGGTCAATAAGTCCGTCAATACCACCATCGTGGCGATGACCGATCAGGAAATCTACGGCAAGGACGAAGTCTGGGAATATCCGACGACCGCCGGCGACTGCGAAGATTTCGTGCTGCTGAAGCGAAAGAAGCTGGTCGAGCGTGGTTTTTCCGTGGCTGATCTTCTGATCACCGTCGTGCGCAAGCCGGATGGCGAGGGCCATGCCGTGCTGACACTTCGCACCACCGACGGCGATTATATTCTCGATAATCTCACCGACGACGTGAAGCTGTGGACCGACACCAACTACACCTATCTGAAGCGGCAGGCGTCCTTCAATACGGGCCGCTGGGTCTCCATTGAGGATGGCCGCGACGTGCTGGTCGGCGCATTGCGCTAA	MMNAPLARALLFAVAAGLMTAASATAETKGSPSMVTGGITSQPIGHYEFCQKYADECNIRSKATPPPRVTDYGWDVIREVNKSVNTTIVAMTDQEIYGKDEVWEYPTTAGDCEDFVLLKRKKLVERGFSVADLLITVVRKPDGEGHAVLTLRTTDGDYILDNLTDDVKLWTDTNYTYLKRQASFNTGRWVSIEDGRDVLVGALR				NA	NA	NA	NA	NA
BMS010_01975	984			hypothetical protein	ATGTTTCGCAGTCTTTTTTCCCTGTCCAAACGTCCCTTTTCCTCCCTTGGCGAACAGGAAATCCTCGCGCTCGCCATTTCATCCGAGGAGGACGATTCCCGCATCTATCGCTCCTATGCCGATCATCTGCGCGCGCAATATCCGCAATCCGCCAAAGTCTTCGAGGATATGGCCGAGGTCGAGCAGCAGCATCGAAACGTGCTGATCGATATGCATCGCCGCCGCTTCGGAGAAACCATCCCGCTGATCCGCCGCGAACATGTGCGTGGTTTCTATGAGCGCACCCCGGACTGGCTGGTGAAGAACCTGTCGCTCGAAAAAATCCGCGCCCAGGCCGAATTGATGGAAGCGCAGGCGATCCGCTTCTACGATGAGGCCGTCAAGCGTACCAGCGATGCCTCAACACGCAAGCTCCTCGGCGATCTGGCCGAGGCGGAGCGGGGTCACGAAGACATTGCGCAGATGCTGCAAGAAAAACACCTCGATGAAAACGGCAAGACCGAAGAGGCGGAAACCGCAAAACGGCAATTTCTTCTGACCTATATTCAGCCGGGTCTTGCGGGGCTTATGGATGGCTCCGTCTCGACGCTCGCGCCGATTTTCGCGGCCGCCTTTGCCACGCAGGATACCTGGCAGACCTTCCTTATCGGCCTCTCGGCCTCCGTTGGTGCGGGTATTTCCATGGGCTTCACCGAAGCCGCCCATGATGATGGCAAGCTTTCTGGCCGCGGTTCTCCGGCAAAGCGGGGCCTGGCTTCGGGCATCATGACGGCCATAGGCGGCCTCGGCCACGCATTGCCCTATCTCATTCCGCATTTCTGGACGGCGACCGCGATTGCCGCCGTCGTCGTTTTCGTGGAACTCTGGGCCATCGCCTTCATTCAGAACCGCTTCATGGAAACGCCGTTCCTGCGCGCGGTGTTTCAGGTGGTCCTCGGCGGCTCACTGGTGCTTGCGGCCGGCATTATCATCGGCAATGGGTGA	MFRSLFSLSKRPFSSLGEQEILALAISSEEDDSRIYRSYADHLRAQYPQSAKVFEDMAEVEQQHRNVLIDMHRRRFGETIPLIRREHVRGFYERTPDWLVKNLSLEKIRAQAELMEAQAIRFYDEAVKRTSDASTRKLLGDLAEAERGHEDIAQMLQEKHLDENGKTEEAETAKRQFLLTYIQPGLAGLMDGSVSTLAPIFAAAFATQDTWQTFLIGLSASVGAGISMGFTEAAHDDGKLSGRGSPAKRGLASGIMTAIGGLGHALPYLIPHFWTATAIAAVVVFVELWAIAFIQNRFMETPFLRAVFQVVLGGSLVLAAGIIIGNG				NA	NA	NA	NA	NA
BMS010_01976	471			hypothetical protein	ATGCAGGACGACGTTGCGGCCAGAGCCGCTCACAGCGCGGAAATTCAGGACAGGGCGGAAAAAGCCATGGCGGAGATCGGCGTCGATGCCGGTTTCATCGATTTGCTGGTGGAGACATTCTACGGCCGCGTTCTTGCACATCCCACGCTCGGCCCGGTTTTTGATGCGCGGCTTGCCGGGCGCTGGCCGGAGCATATGGCCAGAATGAAACAGTTCTGGGCGGCTGTCGCGTTCAAGAATGGTGGCTATGGCGGCAAACCCGTGCAGGCGCATCTCGGCGTAAAGGGCATGTCGGCGGAGCTTTTCCCGCAATGGCTTGCGCTGTTTTCCGCTACGCTTGATGATATTGCGCCAAGCAAAGAGGCCCACGACTGGTTCATGGAAACGGCGGAACGCATCGCCAGAAGCCTGACGCTTTCACTGTTTTACAATCCCGCAATGGACGACCCGGCGTTGATGCGCAGCAAGTGA	MQDDVAARAAHSAEIQDRAEKAMAEIGVDAGFIDLLVETFYGRVLAHPTLGPVFDARLAGRWPEHMARMKQFWAAVAFKNGGYGGKPVQAHLGVKGMSAELFPQWLALFSATLDDIAPSKEAHDWFMETAERIARSLTLSLFYNPAMDDPALMRSK				NA	NA	NA	NA	NA
BMS010_01977	1104	takP_1	COG4663	Alpha-keto acid-binding periplasmic protein TakP	ATGGATCGCAGATCATTTATCCGCAAGGCGGGCGCTCTCAGCGCCGGTGTTACCGCAACGGCGCTTGCCGCTCCGGCTATTGCGCAGGAAAACCCCAAGATCACCTGGCGCATGACATCGTCCTTCACCAAAGGCCTCGACATTCTTTTCGGCGCGGGCCAGATCGTCGCCGACCATGTCAAGGAAGCCTCCGGCGGCAACTTCGTCATTCAGCACTTTGCCGGCGGTGAAATCGTGCCGGCGCTGCAGGCGGCGGATGCGGTGACGGCCGGCACCGTCGAAATGGCGCATACCTGCTCCTATTATTACGTCGGCAAGGACCCGACCTTCGCGCTCGGAACCTCGGTTCCTTTCGGCCTCAATGCACGCCAGACGAATGCCTGGTTCAACCAGGCCGGCGGCAATGAGCTGCTCAACGAATTCCTTGCCCAGCACAATATTTACTCGATCCTGCTCGGCAATACCGGTGCCCAGATGGGCGGCTGGTTCCGCAAGGAAATCAACACCATCGACGACCTGAAGGGTCTGAAGATGCGTATCGCCGGCCTGACCGGCCAGGTGATGCAGAAGGTCGGCGTGACACCTCAGCAGATCGCCGGCGGCGATGTCTATGCGGCCCTGGAAAAGGGCACGATCGACGCCACCGAATTCGTCGGTCCCTATGACGACCAGAAGCTCGGCTTCTACAAGGTCGCGAAATATTATTACTACCCGGCATGGTGGGAAGGCGGCCCGGCCGTTCATGCCTTCGTCAATCTGCAGAAGTTCAACGAGCTTCCGGAGAACTACAAGCGCATCCTGAAAGACGCCTGCGCCGCCGGCAGCGCCAGCATGCTGGAGCGTTACGACGCCCGCAATCCCAAGGCGCTGAAGGAACTCGTGGCGCAGGGCGCCATCCTGCGCCCCTTCAGCCAGGAAATCCTCGATGTCTGCCACAAGGCGGCACAGGACACCTATGCGGAGATTTCTGCCAAGAACGAGAGCTTCAAGAAAATCTACGAGAGCCAGCAGGCCTTCAAGAAGGACGCCTATCTCTGGGCGCAGATCGCCGAATACACCTATGACACCTACATGATGATCCAGCAGCGCAACGGCACGCTCTGA	MDRRSFIRKAGALSAGVTATALAAPAIAQENPKITWRMTSSFTKGLDILFGAGQIVADHVKEASGGNFVIQHFAGGEIVPALQAADAVTAGTVEMAHTCSYYYVGKDPTFALGTSVPFGLNARQTNAWFNQAGGNELLNEFLAQHNIYSILLGNTGAQMGGWFRKEINTIDDLKGLKMRIAGLTGQVMQKVGVTPQQIAGGDVYAALEKGTIDATEFVGPYDDQKLGFYKVAKYYYYPAWWEGGPAVHAFVNLQKFNELPENYKRILKDACAAGSASMLERYDARNPKALKELVAQGAILRPFSQEILDVCHKAAQDTYAEISAKNESFKKIYESQQAFKKDAYLWAQIAEYTYDTYMMIQQRNGTL				NA	NA	NA	NA	NA
BMS010_01978	1137	rhaR_3		HTH-type transcriptional activator RhaR	ATGAATTGGCAATATAAGCCGTTGTTTCGGGGATATTCATTCGTGCTGTTCATTCCGCTGCCTTTCGTCGTGGCGCTTCTGCTGGTTGTCATGTTCATCGTTTTCTTTCGAGGCGGAGACGATGTGCGAACCAATCGGGCCTTTCTGACGTTGATCGCGCTTTGTGCCCTTCAATCCGTCCTTGTCGGACTGCGCTGGGGGTATGGCGTCAGCGAAGCGCGTTATGTTTTGCCGGTCCTCGCCGCCTGCCTGCCGCCGCTCGTCTACATTGCTTTTCGTGGGCTGATGAGAGTGGCGGCGGAGAGCAGGATAGCGATGCTTGCCAACCTCGCTTTGTCGCCTTTGCTCATCGTCATCATGGAATTCATCTGGCCGATGGCGATCGATCTTGCGCTGATCGTCATCTTTGTCGGCCACGCCATTGCCCTGCTTCTTCTTGGCAGAAAGGGGCCGGATGGGCTGGACGAGGCGCAATTTGCCAGCGTCACCTCGGCGCACCGGGCGCTTATTATCGCTGCAATCGCTCTTTGTGTTTCTGCCCTGTTCGATCTGCTCGTGTTTTTCGATTTCGAATGGGCGCATGGGCGGAATGTTGCAGCGCTGGTCAGCAATGCCAATCTTTTTGGCCTGCTGTTGATTGGCCTCATGGCCGCGCTGGCCGGCAAGAGCAAGGCGCCGCAAACAGGCATAGAACCTGTCGCGGAATTGTCAGCATCGGCGGAGCCATCGGAACAGGACCGCGATATCGTCGCAAGGGTTGATCGGCTGATGGAGACACAGGCGCTTTACCGTGATGAGAATCTCAACCTGTCGCGGCTTGCAAGACGCCTCGGCCTGCCGAGCCGGCAGATATCAGGCGCGATCAACCGCTCGCTCGGCGTCAATGTCTCGCAATATGTCAATCAGTTGCGCATCCGCGAAGCCTGCCGGCTGCTGGAAGAGACGGAGCAATCGGTGACCGCGATCATGCTGTCCTCCGGCTTTCAGACCAAGTCCAATTTCAACCGCGAATTTCGCCGCGTCACCGGCATGAGCCCGGTCGACTGGCGGGAGCGTGAAGTGTGGAAGCTGGTCTCGCCAAACAAAACGGTCACCCGGCAGATGCCGGATGACCGTTTGAAGATCGTCGGGAAATGA	MNWQYKPLFRGYSFVLFIPLPFVVALLLVVMFIVFFRGGDDVRTNRAFLTLIALCALQSVLVGLRWGYGVSEARYVLPVLAACLPPLVYIAFRGLMRVAAESRIAMLANLALSPLLIVIMEFIWPMAIDLALIVIFVGHAIALLLLGRKGPDGLDEAQFASVTSAHRALIIAAIALCVSALFDLLVFFDFEWAHGRNVAALVSNANLFGLLLIGLMAALAGKSKAPQTGIEPVAELSASAEPSEQDRDIVARVDRLMETQALYRDENLNLSRLARRLGLPSRQISGAINRSLGVNVSQYVNQLRIREACRLLEETEQSVTAIMLSSGFQTKSNFNREFRRVTGMSPVDWREREVWKLVSPNKTVTRQMPDDRLKIVGK				NA	NA	NA	NA	NA
BMS010_01979	1074			hypothetical protein	ATGCGCCCTATCGCCACCGTCACGGCCATCCTGTTTTCCGCTCTCGTCACCCAGCCTGTTTTTGCAGGCGAGGCTGTCGGCGTCAGCGAAACCACCATCCATTCGCCGGCACGCGGCAAGGATCTTGCCGTCACCATCTGGTATCCCTCCGACGGAAAGGGCACGCAGACGGTTTCCGGCGATGACCGGATTTTTCAGGGCACGCCCATATTCAAGGACGGTGCTGTGAAATTTGGTCGGCTGCCGCTTGTGCTTCTGTCTCACGGCTCGGGTTCAAGAGTGTCCGGCATGGCATGGATCGCCGCGAAGCTTGCGAGCGAAGGTTTCATTGTGGCAGGAGCCAACCACCCCGGCACCACCAGCGGCGATTCCACACCCGCCGATACACCGAAAATCTGGGAGCGAACGGATGATCTCTCCACGATTGTCACTGTTCTAACGGCAAAGGGCAAATGGTCGAGTGCTATCGACGCGCAGAGGATCGGCGTGCTCGGCTTTTCGCTCGGCGGCAGCGCGGCGATGGAGATTTCGGGCGCGCGCGCCGATCTCGATGCCTATGCGCGCTATTGCGAAGACTATGCCACGATGATGGATTGCCAATGGTTCGCCGGTGCCCGGGGTTATCTCAAGGGCGAGCCGGTCAGCGTGCCGAAGCTCGATCTCAGAACCATCGACAAGGCACGTTTCGAGCAGCAGAACCGCGATCCCCGTATTCGGTCCGGCGTACTGGTCGATCCCGGTCTGGCGCTCGCCTTTCGGCCTGACAGCCTGAAGCAGATCGATATTCCGCTCACCTTCATCAATCTCGGCAGTAAGGGCAAAATTCCACCCGCCGTGCTTGCAGATAAACTCGCGAACGAAGTGCCCGGCGCGACCTATCAGCAAGTGGACGAGGCCAATCATTTCAGCTTCCTGCCGTTGTGCAAACCGGATGCCGACGCCTTTCTCAAATCCGTCGGCGAGCGCGATCCCATCTGCGAACCGGCCGGACCGCGGGACCGCGCGGATATTCACGCACAATTGGAGACGATTATCGCTGCCGCCTTCAACCGTACACTGAAGCCGGGTCAGTAA	MRPIATVTAILFSALVTQPVFAGEAVGVSETTIHSPARGKDLAVTIWYPSDGKGTQTVSGDDRIFQGTPIFKDGAVKFGRLPLVLLSHGSGSRVSGMAWIAAKLASEGFIVAGANHPGTTSGDSTPADTPKIWERTDDLSTIVTVLTAKGKWSSAIDAQRIGVLGFSLGGSAAMEISGARADLDAYARYCEDYATMMDCQWFAGARGYLKGEPVSVPKLDLRTIDKARFEQQNRDPRIRSGVLVDPGLALAFRPDSLKQIDIPLTFINLGSKGKIPPAVLADKLANEVPGATYQQVDEANHFSFLPLCKPDADAFLKSVGERDPICEPAGPRDRADIHAQLETIIAAAFNRTLKPGQ				NA	NA	NA	NA	NA
BMS010_01980	519	ttr_1		Acetyltransferase	ATGGCCACCATCCGCGTGTTGAACCGGGAAGAGACCATCGATGTCTTGCCCGAACTCTGTGAGGTTCTGGCTGCCTGCGTGAACGGCGGCGCATCCGTCGGCTTCATGTTGCCCTTTTCTCCACAGGATGCCGAACCTTTCTGGCGATCCGCAGCGGAAACAGTGGGCGAGGGGGCGACCATTCATGTGGTGGCGGAAGTGGATGGCAAGGTGATGGGCACCGTGCAGGTCGGCCTTGCCTCCAAACCCAACCAGCCGCATCGCGGCGATTTGATGAAGCTTCTGGTGCATCCGTCCGCGCGAGGCCTCGGACTTGCCCGCAAGCTCATGCAAAAAGTGGAGGAGGAGGCGGCAAAACGTGGTCGTACCCTGCTGGTGCTGGATACGGCCACGGGCAGCGATGCCGAGGCGATCTATCCTCGCCTCGGCTGGGAGCGGGTCGGCGTCATCCCCGATTACGCCCTGTTTCCTGATGGACGCTTTTGCGGCACGACCCTTTTCTATAAGCGGATCGGCTAG	MATIRVLNREETIDVLPELCEVLAACVNGGASVGFMLPFSPQDAEPFWRSAAETVGEGATIHVVAEVDGKVMGTVQVGLASKPNQPHRGDLMKLLVHPSARGLGLARKLMQKVEEEAAKRGRTLLVLDTATGSDAEAIYPRLGWERVGVIPDYALFPDGRFCGTTLFYKRIG	PGPT0012925_141	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-TABTOXININE-BETA-LACTAM_RESISTANCE,PGPT0012925-ttr-K19113	NA	NA
BMS010_01981	582	sutR	COG1396	HTH-type transcriptional regulator SutR	ATGATGGAAAACGAAGATCATATTCTTGAGCGCTCTATCGGCGAGCGGATCAAAACATTACGGGCCGAAAACGGTTTGACACTGGACAGGCTCGCCGCCGAATCCGGCGTCAGCCGCGCCATGATTTCCCGGATCGAGCGTGGAGAGGCGAGCCCTACGGCCTCGCTGCTGGCCCGCATCTGCGCAGCCCTTGGCCTTTCGCTTTCCGGTTTCTTCGCCGAAAACGAAGAGGCTGTTTCCCCGCTCATGAAACAGCGTGATCAGCAGCTCTGGAAAGATCCGGAGACCGGTTATGTGCGCCGCGCCATCTCCCCGCCGCGTGTGGGATCCGATGTCGATATCGTCGAAGTCGAATTTCCGCCCGGCGCGCGCGTCGGCTTCCCTCCGCATGCGGCGAGCCGGGGGATGACGCAATATGTCTGGCTTTTCGAAGGTGTGCTGGAAATGACGAGCGGCGGAGACGTTCACCGGCTGGAACCCGGCGATTGCCTTTTCATGCCGGTTGGTGAGGGGCATGTTTTCCACAATCCTACCGAAAAACCTGCCCGTTATGCCGTCGTGCTGGATCAAAGACAGCGCTGA	MMENEDHILERSIGERIKTLRAENGLTLDRLAAESGVSRAMISRIERGEASPTASLLARICAALGLSLSGFFAENEEAVSPLMKQRDQQLWKDPETGYVRRAISPPRVGSDVDIVEVEFPPGARVGFPPHAASRGMTQYVWLFEGVLEMTSGGDVHRLEPGDCLFMPVGEGHVFHNPTEKPARYAVVLDQRQR				NA	NA	NA	NA	NA
BMS010_01982	402			hypothetical protein	ATGACCGCTGCCGAGACCATCCGCGCCTACTACGAAGCCTTCAACCGTCAGGACATGGATGCCTTTCTGGCGCTTCTTCACGATGAGGTGGTGCACGACATCAATCAGGGCGAGCGCCAGACCGGCAAGGCCGCTTTCGCTTCCTTCATGGACCATATGAACCGCTGCTATAAGGAAAATCTCACCGACATGGTCATCATGGCGAGCGAAGATGGCAAGCGTGCTTCCGCGGAATTCATCGTCAATGGCGAATATCTCAAGACCGACGAGGGATTGCCCGAGGCGAATGGCCAGAAATACGTACTGCCGGCCGGTGCCTTTTTCGACCTGAAGGACGGAAAAGTTAGCCGAGTAACGAACTACTATAATCTGAACGACTGGATTGCCCAGGTCGGCGCCTGA	MTAAETIRAYYEAFNRQDMDAFLALLHDEVVHDINQGERQTGKAAFASFMDHMNRCYKENLTDMVIMASEDGKRASAEFIVNGEYLKTDEGLPEANGQKYVLPAGAFFDLKDGKVSRVTNYYNLNDWIAQVGA				NA	NA	NA	NA	NA
BMS010_01983	609			hypothetical protein	ATGACCGTCGAAATCAAGTCTCTTTCCGGCATTGACGCCACACCCTATTTCGATGACCTCGCGCGCCTGCGGATCGAGGTGTTTCGCGCCTTTCCCTATCTCTATGACGGCTCGCTGGACTATGAGCGCAAATATCTCGCGACCTATGCCGATACGGACGGCGCCGTCTTCGTGTTGGCGCTCGACGACGGCAAAGTGGTCGGCATGTCCACCGGCATGCCGATGGCGGCAGAGACCGAGGAGGTAAAGGAGCCTTTCGTCAAGGCGGGTTACGATCCGGACCGGATATTCTACTTCGGTGAAAGTGTACTTCTGCCCGGCTATCGCGGCCACGGCATTGGGGTGCGTTTCTTCGAAGAACGGGAGGCGCATGCAAAGCGGCTCGGTTTCGACAGGTGCACTTTCTGTGCTGTGGAGCGACCCGCAGACCATCCACGGCGCCCGGCGGACTACGTGCCGCTGAACGCCTTCTGGGAAAAGCGTGGTTATAGCCATCACCCGGAACTACGCACCAGCTTCACATGGCAGGACCTCGACGAAAGCGTTGAAAGCCCGAAACCGCTGTCCTTCTGGATGAAGACCATTTTTGCCGGAGACGGAGACAAATGA	MTVEIKSLSGIDATPYFDDLARLRIEVFRAFPYLYDGSLDYERKYLATYADTDGAVFVLALDDGKVVGMSTGMPMAAETEEVKEPFVKAGYDPDRIFYFGESVLLPGYRGHGIGVRFFEEREAHAKRLGFDRCTFCAVERPADHPRRPADYVPLNAFWEKRGYSHHPELRTSFTWQDLDESVESPKPLSFWMKTIFAGDGDK				NA	NA	NA	NA	NA
BMS010_01984	870			hypothetical protein	ATGACACGCCTTGCCGCCAGCCAATATGCCATCGAGCTGATCGAGACATGGGAGGCTTATGCCGCGCATCTCTCCGCCATCGTTCGCGAGGCGAAGGAAAATGGCGCTGAGTTGCTGCTTTTGCCGGAATATTCGGCAATGACGCTGACCGGGCAATTGCCGCCCGCCGCGCGCTCCGATCTGCATCGTTCCATCGAAGAGATACAGCCGTTGATCCCGTCCTGGGTGGAGCTTTGCGAGGAGCTGGCGCGGCAACATCAAATCCTCTTCCAGCCGGGCAGCGCGCCGGTGAAGGACCCGGACGGCAAGTTCCGCAACCGCGCATGGCTGTTCGGCCCGGATGGGCTGATCGGTTATCAGGACAAGCAGATCATGACCCGCTTCGAGCGGGAGCAATGGAACATTCATGCCGGCATCGAGGGCCTGAAAGCCTTCGAGACGCCGATCGGCAGGCTGGGCATCCTCATCTGTTACGACAACGAGTTCCCGATGCTGGGCCGCAGACTGGCGGAGCTCGGCGTCGAACTCGTTCTCGCCCCTAGCTGCACCGACACGCTGGCGGGTGCTTACCGGGTGCGCATCGGCGCGCAGGCCAGGGCATTGGAAAACCAATATGCCATCCTCTCCTCCCCCACCGCGGGCGAGGCCCCTTGGTCTCCTGCGGTTGATGAAAATCGCGGCCGCGCCGCCCTTTACGTGCCTCCGGACTATGGCATGCCGGCATCCGGCGTCATTGCGGAAAGCGAAAGCGATGCGGTGACACAGAGCTCGCTGCTGATCGCCGATATCGATCTTGCCGCCGTCGCAAGGCTCCGCACCGAAGGACAGGTTGCCACCCGGCGCGACTGGCCGGAGCAATTTGCGATCTGA	MTRLAASQYAIELIETWEAYAAHLSAIVREAKENGAELLLLPEYSAMTLTGQLPPAARSDLHRSIEEIQPLIPSWVELCEELARQHQILFQPGSAPVKDPDGKFRNRAWLFGPDGLIGYQDKQIMTRFEREQWNIHAGIEGLKAFETPIGRLGILICYDNEFPMLGRRLAELGVELVLAPSCTDTLAGAYRVRIGAQARALENQYAILSSPTAGEAPWSPAVDENRGRAALYVPPDYGMPASGVIAESESDAVTQSSLLIADIDLAAVARLRTEGQVATRRDWPEQFAI	PGPT0007175_38	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_METABOLISM,PGPT0007175-yhcX-NA	NA	NA
BMS010_01985	1827	lepA_1		Elongation factor 4	ATGAGCACAAATTCGACCCGCACGCCCCTGGACCATATCCGCAACTTCTCGATCGTTGCCCACATCGATCACGGCAAATCGACGCTGGCCGACCGGTTGATCCAGTCGACGGGCGGTCTTGCCGAACGCGACATGTCGGAACAGGTTCTCGATTCGATGGATATCGAGCGCGAGCGTGGCATCACCATCAAGGCCCAGACCGTGCGCCTGCACTACAAGGCGAATAACGGCGAAACCTACGTGCTGAACCTCATCGACACACCCGGCCACGTCGACTTCGCCTACGAAGTGTCCCGCTCGCTGTCGGCCTGTGAAGGTTCGCTGCTGGTGGTCGACGCATCGCAGGGCGTGGAAGCCCAGACGCTCGCCAACGTTTATCAGGCCATCGACAACAATCACGAACTGGTGACGGTGCTCAACAAGATCGACCTGCCGGCGGCCGAACCCGACCGCATCAAGGAGCAGATCGAAGAGGTGATCGGCATCGACGCCTCCGACGCCGTGATGATTTCCGCCAAGACCGGTCTTGGTATTCCCGATGTTCTGGAAGCCATCGTCCACCGTCTGCCGCCGCCGAAGAGCGAAGTCGGCGAAAACGGACCGCTGAAAGCGCTGCTGGTCGATAGCTGGTATGACACCTATCTCGGTGTCATGGTTCTGGTGCGCGTCATCGATGGCGTGCTGAGCAAGGGCCAGCAGATCCGCATGATGGGTTCGGGCGCGAAATACGGCATCGAGCGCGTCGGCGTGCTGACTCCGAAGATGGTCAATGTCGACAGCCTCGGCCCCGGCGAGATCGGCTTCATCACCGCCTCGATCAAGGAAGTTGCCGATACGCGTGTTGGCGATACCATCACCGACGACAAGCGCCCGACGGCGCAGGCCCTGCCCGGCTTCAAGCCCGCGCAGCCCGTGGTGTTCTGCGGCCTCTTCCCGGTCGATGCGGCCGACTTCGAAGATTTGCGCGCGGCGGTGGGCAAGCTTCGCCTCAACGACGCTTCCTTCTCCTTCGAAATGGAGTCCTCCGCCGCCCTCGGTTTCGGTTTCCGCTGCGGCTTCCTTGGCCTGCTGCATCTCGAAATCATTCAGGAACGCCTTGAGCGCGAGTTCAATCTCGATCTCGTCGCGACAGCGCCTTCGGTCGTCTATGAAATGACGCTGACGGACGGCACGGAGAAGGAACTTCACAACCCGGCCGACATGCCCGACGTGGTGAAGATCAAGGAAATCCGCGAGCCGTGGATCAAGGCGACGATCATGACGCCGGACGAATATCTCGGCGGCATCCTGAAACTCTGTCAGGACCGGCGCGGTCTGCAGACGGAACTGACCTATGTCGGCAACCGTGCGATGATCACCTATGAACTGCCGCTCAACGAAGTGGTGTTCGATTTCTACGACCGGCTGAAATCCATCTCCAAGGGTTACGCCTCGTTCGATTACAACATCATCGACTATCGCGAAGGCGATCTCGTCAAGATGTCGATCCTCGTCAACGGCGATCCGGTGGATGCGCTCTCCATGCTCGTTCACCGCTCGGCGGCCGACCGGCGCGGGCGTGGCATGTGCGAAAAGCTCAAGGAACTCATTCCGCCGCACATGTTCCAGATCCCGATCCAGGCGGCCATCGGCGGCAAGGTCATTGCCCGCGAAACCGTGCGTGCGCTGCGCAAGGACGTGACGGCGAAATGCTATGGCGGCGACGCGACGCGCAAACGCAAACTTCTCGACAAGCAGAAGGAAGGCAAAAAGCGCATGCGCCAGTTCGGCAAGGTGGAAATTCCGCAGGAAGCCTTTATCGCTGCGCTGAAGATGAACGACGAATAA	MSTNSTRTPLDHIRNFSIVAHIDHGKSTLADRLIQSTGGLAERDMSEQVLDSMDIERERGITIKAQTVRLHYKANNGETYVLNLIDTPGHVDFAYEVSRSLSACEGSLLVVDASQGVEAQTLANVYQAIDNNHELVTVLNKIDLPAAEPDRIKEQIEEVIGIDASDAVMISAKTGLGIPDVLEAIVHRLPPPKSEVGENGPLKALLVDSWYDTYLGVMVLVRVIDGVLSKGQQIRMMGSGAKYGIERVGVLTPKMVNVDSLGPGEIGFITASIKEVADTRVGDTITDDKRPTAQALPGFKPAQPVVFCGLFPVDAADFEDLRAAVGKLRLNDASFSFEMESSAALGFGFRCGFLGLLHLEIIQERLEREFNLDLVATAPSVVYEMTLTDGTEKELHNPADMPDVVKIKEIREPWIKATIMTPDEYLGGILKLCQDRRGLQTELTYVGNRAMITYELPLNEVVFDFYDRLKSISKGYASFDYNIIDYREGDLVKMSILVNGDPVDALSMLVHRSAADRRGRGMCEKLKELIPPHMFQIPIQAAIGGKVIARETVRALRKDVTAKCYGGDATRKRKLLDKQKEGKKRMRQFGKVEIPQEAFIAALKMNDE	PGPT0015105_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0015105-degP|htrA-K04771	NA	NA
BMS010_01986	408			hypothetical protein	ATGTTTGATACCAAGATCGCCGTCATCCTTCGCGATGACCTTGCCGTGTGGCAAAAACTGAACGTTACCGCATTTCTCATGTCCGGGATCGTCGCCCAGACCAAGGAGATCATTGGAGAACCATACCGCGACGGGGCGGGCAACGTCTATAATCCCCTGTCCATCCAGCCGATTGTCGTCATGGCGACGGATCAGGAGGCGTTGCGCAAAATCCACCAGCGATCCCTCGAGCGCGATGTTACGACATCGCTTTATATCGAGGAAATGTTCGCCACGGGGCACGATGTCGCCAATCGCCAGGTATTTTCGGAGTTTTCACCGGAGAATGCCAAGGTGGTCGGCATGGCGCTGAGGGCCGACAGGAAGATCGTCGACAAGATTACCAAGGGTGCGAAGCTGCACGCGTGA	MFDTKIAVILRDDLAVWQKLNVTAFLMSGIVAQTKEIIGEPYRDGAGNVYNPLSIQPIVVMATDQEALRKIHQRSLERDVTTSLYIEEMFATGHDVANRQVFSEFSPENAKVVGMALRADRKIVDKITKGAKLHA				NA	NA	NA	NA	NA
BMS010_01987	777	rhaS_8		HTH-type transcriptional activator RhaS	GTGCAGGCACCCTCCAGCGAAGGCATAGAACGCATCGAAGCGCGCTTTCATGGCAACGCCTATGCGCCGCACCGTCATGATACCTATGCGCTGGGTGTCACGCTTTCCGGCGTCCAGACCTTTTCCTATCGGGGGAAATCGCATTTCAGCACGCCCGGAAGGGTAATCGTGCTGCATCCGGACGAAGTTCACGATGGCGGCGCAGGCACCGATGAAGGCCTGCGCTACCGTATGCTTTATCTTCCGCCCGAAAAAACGACTGAGGCGGGATATAACGCGCTGCCCTTCGCCCAGAATCCCGTCATCGAGGATGAGGAATTCCGGCAATGCCTCATCGAGGCGCTTGGCAATCTGGAAGGCAAGCCGGACAATCTGCTTCTCACCGACTGGCAGTCGAGACTGGCGGATTTGCTATGGAAACATTCAAACGGAAGCGCCAGAACCATCAAACGGATCGACCGGATCGCCGTTTTACGGTGCCGGGACTATCTGCTGGAGAATAGCGCCGACACCGTCGGTTCCGAAGAGCTGGAGCGGATAAGCGGGCTCGACCGCTTCACGCTCTTTCGGCACTTTCGCTTCCTGTTCGGCACCAGCCCGCACCGTTATCTCATCATGCGCCGGCTGCAAAAATGCAAAGAGATGATGCGTGCGGGTGCGGGCCTTGCGGAAACGGCATTTGCCTGCGGTTTTGCGGATCAGGCGCATTTTACCCGACATTTCAAAAATGCCTTCGGCATGCCGCCGGGCCGCTGGCTCAATCTTGTTTCGCATTGA	MQAPSSEGIERIEARFHGNAYAPHRHDTYALGVTLSGVQTFSYRGKSHFSTPGRVIVLHPDEVHDGGAGTDEGLRYRMLYLPPEKTTEAGYNALPFAQNPVIEDEEFRQCLIEALGNLEGKPDNLLLTDWQSRLADLLWKHSNGSARTIKRIDRIAVLRCRDYLLENSADTVGSEELERISGLDRFTLFRHFRFLFGTSPHRYLIMRRLQKCKEMMRAGAGLAETAFACGFADQAHFTRHFKNAFGMPPGRWLNLVSH				NA	NA	NA	NA	NA
BMS010_01988	888			hypothetical protein	ATGAAATTCGACGTCATCATTATCGGCGGCAGCTATGCCGGCCTCTCGGCCGCCCTGCAGCTTGGACGCGCCAGAAAAAACATTCTGGTGGTGGACGCCGGTGAACGGAGAAACCGTTTCGCCAGCCATTCCCACGGTTTTCTCGGCCAGGATGGAAAGGCGCCGGGTGAAATTATCGCCGAGGCGCGCCGCCAGATCGAACGTTACCCGACCATAGATTGGGTTGAGGGGAGGGTGACCGATGCCGAAGGCTCCTCCGGCGATTTTGTAGTCGAGATCGATGGCAAACGCCGTGAGACAGCGGACCGGCTGATCCTCGCCATGGGCGTCACCGATGAATTGCCTGCTATTGCCGGGCTGAAAGAGCGTTGGGGCTCTTCGGTCTTCCATTGCCCCTATTGCCATGGTTACGAGCTCAATCAGGAAAAGATCGGTGTCATCGCCGCTTCACCTCTGGCCATTCACCACGCATTGATGCTGCCCGACTGGGGCGAGACGACCTTTTTCACCAATGGCGTATTCGAGCCGGATGGGGATCAGCAGGCATTGTTGGCGGCCCGGGGCGTGCGGGTGGAAACAACCCGCATCCGGGAAATTACGGGGCATGCGGATGTCGTTCTGGCGGATGGACGCAGCATCCCATTGGCTGGCCTTTTCACCCAGCCGAAATTGCGTATCGCCTCGAACTGGCTGGAAAAACTTGGCTGCGCCGTGGAGGAGGGGCCGATGGGATCGACCATCGTGACAGATCCCATGAAACAGACCACCGCCCGCGGTATCTTCGCCTGCGGTGATGTGGCAAGGCCTGCCGGCTCAGTCGCCCTTTCGGTGGGAGACGGCGCCATGGCGGGTGCTGCGGCGCACCGGTCAATCCTGTTTCCGGAATGA	MKFDVIIIGGSYAGLSAALQLGRARKNILVVDAGERRNRFASHSHGFLGQDGKAPGEIIAEARRQIERYPTIDWVEGRVTDAEGSSGDFVVEIDGKRRETADRLILAMGVTDELPAIAGLKERWGSSVFHCPYCHGYELNQEKIGVIAASPLAIHHALMLPDWGETTFFTNGVFEPDGDQQALLAARGVRVETTRIREITGHADVVLADGRSIPLAGLFTQPKLRIASNWLEKLGCAVEEGPMGSTIVTDPMKQTTARGIFACGDVARPAGSVALSVGDGAMAGAAAHRSILFPE				NA	NA	NA	NA	NA
BMS010_01989	459			hypothetical protein	ATGAGACACGACACGCGGCTTTCACGGGTGCTGCATATTCTGATCCATATGGAAAATCATAAGGGTGCGGCGACATCCGAGAGCATCGCGGCGATGCTTCACACCAACCCGGTGGTGGTGCGCAGGACGATGGCCGGCTTGCGCGAGCATGGTTATGTCTCGTCGGAAAAGGGCCATGGCGGCGGGTGGGTGCTGGCGCGGCCGCTCAGCGAAATCACGCTGCTCGACATTTACCGGGCGCTTGGCGCACCGGAACTGTTCTCGATAGGGCTGGCGGGCGACAACCCGAATTGCGTTATTGAACAGGCCGTCAATGCAGCACTTTTCGACGCCATGAAAGAGGCGGAAAACATTCTGCTATCCCGTTTCGGGAGCATTGCCCTTTCGCAACTGGCACAGGAATCCATCAGCCGTTGGTCCAGGGTTTCCAACCACCCTTCCGCGATGGAGCAGCTTTAG	MRHDTRLSRVLHILIHMENHKGAATSESIAAMLHTNPVVVRRTMAGLREHGYVSSEKGHGGGWVLARPLSEITLLDIYRALGAPELFSIGLAGDNPNCVIEQAVNAALFDAMKEAENILLSRFGSIALSQLAQESISRWSRVSNHPSAMEQL				NA	NA	NA	NA	NA
BMS010_01990	318			hypothetical protein	ATGACATTCGATCCCAACAACCCGCGTCCGGACCGCGATCTTCGTCCGGAAGTGAATATCAGCAATGAACCGCGTGCCCGCACGTCGTCGTCCTGGGTGCCGTGGTTGGCGATCATCGTCGTCGTATTGGTGGGCGTTTTCGCCTGGTCGCAGATGAGCGGCCCGACCACCGATCCGGCCACGACATCCTCCACCACGCCGCCTGCGGCAACGGATCAGGCGCCGGCGCCCATGGCTCCGACCGCTCCGGCAACACCGCCTGCGAACAACACCGCACCGGCAAGCCCGAATACGGGCGGCACGCAGACCCAGCCGTAA	MTFDPNNPRPDRDLRPEVNISNEPRARTSSSWVPWLAIIVVVLVGVFAWSQMSGPTTDPATTSSTTPPAATDQAPAPMAPTAPATPPANNTAPASPNTGGTQTQP				NA	NA	NA	NA	NA
BMS010_01991	1413	norG_1	COG1167	HTH-type transcriptional regulator NorG	GTGGACGGACAAGTCGCTGCGGGCACGCGCATAGAGAAGGTGATGGCAAGTGTGCGGCAACGCATCGCCTCGCGCAGCCTGGTGCCTGGCGCGCGCCTGCCGTCGGTCAGGGCACTGGCGAAGACCATGCAGGTTTCCACCTCCACCGTTGTCGAGGCCTACGACCGGCTCGTGGCGGATGGTACGATAAGCTCGCGCCCCGGCTCCGGTTTTTTCGTTTCGGGCCCGCTTGCGCCCCTGTCGCTTGCCGATATCGAGCCGCAGCTCGACAGGGCGGTGGATCCCTTGTGGGTCTCGCGGCAGGCGCTGGATGAGGGTTCCGTTCTCGCCAAACCCGGCTGCGGCTGGCTTCCCGCATCGTGGATGCCGCAGGAAGCGTTGAGGCGGGCGATGCGCGGGCTTGCCCGCGCCGAAGCCGCCCTGCTGACGGATTATGGCAGTCCGATGGGGCTGTTGCCGCTGCGCCAGCTTCTGTCGCGCCGGCTGGCCGAACACGGGGTGCAGGCGGGCGCCAGCCAGATCATGCTCACCGATTCAGGCACGCAGGCGATCGATCTTCTGTGCCGTTTCCTGCTGCAACCGGGGGATACGGTTGTTGTCGATGATCCCTGTTATTTCAATTTCCACGCCCTCTTGCGGGCGCATCGGGTGAAGATCGTCGGTGTTCCCTATACGCCGACCGGACCGGATCTGGCACTCTTCGAGCAGGCGCTGAAAGACCATCAGCCCCGGCTTTATATTACCAATTCCGCAATCCATAATCCGACAGGTGCAAGGCTTTCCGCCGTTTCCGCCCATCGCCTGCTGATGCTCGCCGAACAGGTGGGGCTGACCATCATCGAGGATGATATTTTTGCCGATTTCGAAACCCAGGCCGCGTCCCGGCTGGCGGCCTTCGACGGTCTTAACCGCGTCGTCCAGATAGGCAGTTTTTCAAAAACACTGTCGGCCTCCGTGCGGTGCGGTTTCATCGCAGCACCCATGGCTTGGGTGGAAGCCCTGACCGATCTCAAGATCGCCACCACTTTTGGCGGAACGCATTTTTCGGCGGCGCTGATCCTGTCGCTTTTGACCGATGGCAGTTACCGCAAGCATGTCGAGGCGCTGAGGCAGCGTCTTGCGGCAACGATGCCGGAGGTGGCGGCGCGTCTGAGGTCGGTCGGATGTGTGCCGTGGATCGAACCGCAGGCGGGCATGTTTTTATGGTGCCGCCTACCGGACGGGGTTGATGCCGCCGATGTGGCGCGCCGCGCGCTTTCGCGGCAGGTGGTGCTGGCCCCCGGCAATGTGTTCAGTTCCTCGCAGAACGCCTCCGGTTTCATGCGTTTCAATGTGTCGCAAATGGCAGGTCCGCAGGTCATGACGGTGCTGGCGGAGGCGCTTCAGCAAGCGCCCGAACCTCGTCGGTTGTAA	MDGQVAAGTRIEKVMASVRQRIASRSLVPGARLPSVRALAKTMQVSTSTVVEAYDRLVADGTISSRPGSGFFVSGPLAPLSLADIEPQLDRAVDPLWVSRQALDEGSVLAKPGCGWLPASWMPQEALRRAMRGLARAEAALLTDYGSPMGLLPLRQLLSRRLAEHGVQAGASQIMLTDSGTQAIDLLCRFLLQPGDTVVVDDPCYFNFHALLRAHRVKIVGVPYTPTGPDLALFEQALKDHQPRLYITNSAIHNPTGARLSAVSAHRLLMLAEQVGLTIIEDDIFADFETQAASRLAAFDGLNRVVQIGSFSKTLSASVRCGFIAAPMAWVEALTDLKIATTFGGTHFSAALILSLLTDGSYRKHVEALRQRLAATMPEVAARLRSVGCVPWIEPQAGMFLWCRLPDGVDAADVARRALSRQVVLAPGNVFSSSQNASGFMRFNVSQMAGPQVMTVLAEALQQAPEPRRL				NA	NA	NA	NA	NA
BMS010_01992	876			hypothetical protein	ATGGACAAGACGACGAGCGGCTGGCTGAGCGGTCTGACAGGCGTGGTGATATTCAGCGGTTCGCTGCCCGCGACACGCATTGCGGTAACGGGTTTCGATCCGGTGTTCCTGACCGTCGCCCGCGCCAGCATTGCCGGCCTGCTGGCGCTGGCGCTGCTGTTTCTGTTCAGGCAAAAGCGCCCGGCGAGCGATGACCTGACATCGCTTTTCATCGTCTCGCTCGGTGTCGTGGTGGGCTTCCCGTTACTGACCGCACTCGCCCTGCGGCATGTCACCTCGGCGCATTCCATCGTTTTCGTGGGGCTCTTGCCGCTCGCGACAGCAATCTTCGCGGTGCTGCGCGGTGGAGAACGCCCACGCCCCGTCTTCTGGCTCTTTTCCTGTCTTGGAAGCGCGCTTGTTGCGGGGTTTTCGCTGTCGAATTCGTTTGCCGCCGGGATCGAGGCGTCGCTTGCCGGCGATCTTCTGATGCTCGGCGCAATCATCGTCTGCGGGCTTGGCTATGCGGAAGGTGCTGCCCTTTCCCGCAAGCTGGGCGGCTGGCAGGTCATTTCCTGGGCGCTGGTTCTTTCCCTGCCGGTAATGCTGCCGCTTGCTTTCTTCACCGGGCCGGAAACGCTTGCCGGCATCGACCCGCAGGCCTGGGCCGGCCTTGCCTATGTTTCCCTGTTCAGCATGCTGATCGGCTTCATCTTCTGGTATCGCGGACTGGCGCTTGGCGGCATCGCAGCCGTCGGCCAGCTGCAACTGCTTCAGCCCTTCTTCGGGCTGGCACTTGCCGCGACCCTGCTGCATGAGGAGGTGAGCCCGGCCATGATCGCCGTTACGCTTGTGGTGGTGCTCTGTGTTGCAGGCGCGCGAAAATTCGCGCGCTGA	MDKTTSGWLSGLTGVVIFSGSLPATRIAVTGFDPVFLTVARASIAGLLALALLFLFRQKRPASDDLTSLFIVSLGVVVGFPLLTALALRHVTSAHSIVFVGLLPLATAIFAVLRGGERPRPVFWLFSCLGSALVAGFSLSNSFAAGIEASLAGDLLMLGAIIVCGLGYAEGAALSRKLGGWQVISWALVLSLPVMLPLAFFTGPETLAGIDPQAWAGLAYVSLFSMLIGFIFWYRGLALGGIAAVGQLQLLQPFFGLALAATLLHEEVSPAMIAVTLVVVLCVAGARKFAR				NA	NA	NA	NA	NA
BMS010_01993	798			hypothetical protein	ATGGTGCGGCCGGCGGAGCGCCCCACGATCAACCAGATGGAGCGCCCGGTCCAGTTGGCCATGGCTGCGGCGCCGGCGGCGAGCGCCGGTGCGCAGATTCGCTCGCGCATTTTCCGCTCCAGCTTCAGCGATGCCAAGCCGATCAATTTCGGCAGGGTCCAGCCGCGTCATTTCCAGGTCCACGGGGTGGATGTATCCCGCTGGCAGGCCAATATAAACTGGCCGCAGCTGCGCACACGCGGCGCCAATTTCGCCTTCATCAAGGCGACGGATGGCGGCGACCATCTCGATCCGATGTTCCGCACCAACTGGCAGCGCGCGAAGGAGGCGGGCATTCGCCGCGGCGCTTACCACTTCTTCTACTGGTGCCGCAACGCCAGCGAACAGGCGGACTGGTTCATTCGCAATGTACCGCGCGACCCGGAAGCCCTGCCGCCGGTCATCGACGTGGAATATAACGGCGAATCGAGCTGCAAGATGCGCCATTCCCGTGAACGCGTTCTGGAAAAGATGCGCGTCTTCATGGACAAGCTTGAGCGCCATTACGGCCAGCGGCCGATCATTTATACGGCGCCCGATTTTTACAAGGACAACCTCCAGGGCGAATTCCAGGATTATCCCTTCTGGCTGCGCGCCGTCGCCCAGCATCCATCGGTGGTTTATCCCGGCCGCAAGTGGCTGTTCTGGCAATATTCCGGTTCCGGCCTGTCGCACGGCGTCGATGGTCGCATCGATCTCAATGTCTTCAACGGCAGTGAGGATGCATGGCATCGCTGGGTGGACCGCCGTTCGAGCTGA	MVRPAERPTINQMERPVQLAMAAAPAASAGAQIRSRIFRSSFSDAKPINFGRVQPRHFQVHGVDVSRWQANINWPQLRTRGANFAFIKATDGGDHLDPMFRTNWQRAKEAGIRRGAYHFFYWCRNASEQADWFIRNVPRDPEALPPVIDVEYNGESSCKMRHSRERVLEKMRVFMDKLERHYGQRPIIYTAPDFYKDNLQGEFQDYPFWLRAVAQHPSVVYPGRKWLFWQYSGSGLSHGVDGRIDLNVFNGSEDAWHRWVDRRSS	PGPT0019160_274	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_DEGRADATIVE_GLYCOSIDASES|GLYCOSYLHYDROLASES	PLANT_DEGRADATIVE_GS|GH-LYSOZYME,PGPT0019160-acm-K07273	NA	NA
BMS010_01994	189			hypothetical protein	ATGTACAAATTCGAAATCTATCAGGACAAGGCCGGCGAATATCGTTTCCGCTTCAAGGCATCCAACGGGGAGACAATGTTCTCGTCGGAAGGGTACAAGGCGAAGGCGTCGGCTATCCATGCGATCGAATCGATCAAGAGAAACTCCCCCGGCGCCGACACTGTCGATCTGACCGCCATGACGGCCTGA	MYKFEIYQDKAGEYRFRFKASNGETMFSSEGYKAKASAIHAIESIKRNSPGADTVDLTAMTA				NA	NA	NA	NA	NA
BMS010_01995	726			hypothetical protein	ATGCGCGTCGCAATCATAGAAAACATGGCGGGTACGCCGCATGGGCAACTCGGCGTAGCGCTGGAAGAAGCGGCGGCGGAAATCCATGTGATCCGCGCCTATGCGGGTGAGCCTCTCCCAAGGGATGCCGCCGACCATGATGCGCTTGTCGTTCTGGGCGGCGAACAGAACGCGCTTGACGATGCGCTTTATCCCTATCTTGCCGATCTCGCCCTTCTCATGAAAGCCTTTGGCGATGCTGGTAAAGCAGTCATGGGTGTGTGCCTCGGCAGCCAGTTGCTGGCGCGCGCCTATGGCGGAGAGAATATTCTCTCGGGGCCGCCGGAATTCGGCTGGCAGGATGTCTCCCTGACGGAAGAGGGCGTGTCCGATCCGCTATTGGCCGGGCTGAAAAAGACCTTCCCTATTTTTCAGTGGCATTGCGATACATTTACGCTTCCGCCGGGCGCCACGCGGCTTGCGACCAATGGCGCGACACGAAATCAGGCCTTTCGCATCGGCCGGGCGGTCTATGGCACGCAATTCCATTTCGAGGCCTCCACCGCCGTGGTTGATGGTTGGTGTCAGGCGTTTCCTGCTTCCGTCGAAAGAATGTCGCCGGGCTGGCTGGAGAATTATCGTGACCACCGTGGCTTGCGCGCAGAAATGGCCGATGCAGCCGGGCTGGAGATCGCTCGAGCCTGGGTACGGCTCATTGAGATCGGCGATTTTCCGTTGCGAAAGTGA	MRVAIIENMAGTPHGQLGVALEEAAAEIHVIRAYAGEPLPRDAADHDALVVLGGEQNALDDALYPYLADLALLMKAFGDAGKAVMGVCLGSQLLARAYGGENILSGPPEFGWQDVSLTEEGVSDPLLAGLKKTFPIFQWHCDTFTLPPGATRLATNGATRNQAFRIGRAVYGTQFHFEASTAVVDGWCQAFPASVERMSPGWLENYRDHRGLRAEMADAAGLEIARAWVRLIEIGDFPLRK	PGPT0021580_6617	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021580-guaA-K01951	NA	NA
BMS010_01996	450			hypothetical protein	ATGGCCCAGTTCAAGAATAATCGTCAGCGTCTTTTCGTTCCGGCGGTCGCACCGCTTTATAATGCGACACATGATCTGGTGGAGACGATCCTGCGCGTCACGGCCGGGCTTCTTCTTGTCACCCATGGTTTCGGCAAGATCGTCAATCCTTTCGGCGCAGTCGGCATGGTGGAGAGCCTCGGCTTTTATCCCGGCGTCTTCTGGTCGCCGCTGCTTGCCGCCACGGAATTTTTCGGCGGCATTCTGGTCGCCATCGGCCTGTTCACACGGCCGGCATCTTTAGCGGCCATGATCGTTCTTCTGGTAACGGTTTATTTTCACGGCATCGTAAAGGCGGAAGGTCTGGGCGGCGCGGAAAAATCGATTCTGTGGGCTGCGATTTTCCTGTTCTTCGCAGTTCGTGGCGGCAACCGGCATTCCGCAGACGCCAAGCTGGCGCGTGAATTCTAA	MAQFKNNRQRLFVPAVAPLYNATHDLVETILRVTAGLLLVTHGFGKIVNPFGAVGMVESLGFYPGVFWSPLLAATEFFGGILVAIGLFTRPASLAAMIVLLVTVYFHGIVKAEGLGGAEKSILWAAIFLFFAVRGGNRHSADAKLAREF	PGPT0028505_2544	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROQUINONE-DERIVATE_RESISTANCE,PGPT0028505-catD-K15977	NA	NA
BMS010_01997	306			hypothetical protein	ATGACCGAAACCAAACCCCGCATAACCATCCGCTATTGCACGCAATGCAACTGGCTGCTCCGGGCAGGCTGGATGGCGCAGGAAATCCTTCAGACCTTCGCTTACGATGTCGGCGAAGTCAGCCTCGTTCCCTCAACCGGCGGCCTGTTCGAGATCACCGTGGACGGCACCACCATATGGGAACGCAAACGCGATGACGGTTTTCCTGGCCCCAAAGAACTTAAACAGAGAATCCGTGACATCATCGACCCGGAGCGCGACCTCGGTCATGTGGACAGAACGAAGCATGAAGGGCTCGACACCTGA	MTETKPRITIRYCTQCNWLLRAGWMAQEILQTFAYDVGEVSLVPSTGGLFEITVDGTTIWERKRDDGFPGPKELKQRIRDIIDPERDLGHVDRTKHEGLDT				NA	NA	NA	NA	NA
BMS010_01999	411			hypothetical protein	GTGTCATCCGGAAAACTGGCGAAAATTGTGGTCGGCTTGTCCGTCTTTCTATCGGGTTCGCTGCAGCCCGCCTTTGCTGAGGATGACATCTTGCGCGTTTCGATGAATCACGCCCGTGTCCTTCGTCTCGACCGCGCCGTCAGCAAGGTTATCGTCGGCAACTCCAAAGTCGCCGATGCTACCGTTGCCGATGCCACCACGATTGTTCTGACGGGTCGCAGTTTCGGCACGACCAATCTCGTGCTTCTGGATGCCGATGGCAATCCAATCGTGGATGAACGCATTCTCGTCTCCATCGACGAGGGCAATACGGTTCGTGTTTTCCGCCAAACGGAGCGGACGGTTCTGTCCTGTACGCCGAATTGCGAACAGCATTCGCAAAATAGTGGCGATAAAGACGCTCAGCCATAA	MSSGKLAKIVVGLSVFLSGSLQPAFAEDDILRVSMNHARVLRLDRAVSKVIVGNSKVADATVADATTIVLTGRSFGTTNLVLLDADGNPIVDERILVSIDEGNTVRVFRQTERTVLSCTPNCEQHSQNSGDKDAQP				NA	NA	NA	NA	NA
BMS010_02000	186			hypothetical protein	ATGACCAAGATTTTCGCGCGTTTCCTCAAGGATGAATCCGGTGCTACCGCAATCGAATATGGCCTGATTGCTGCTCTGCTTTCAGTGGCAATCGTAGGCGGCGCAGGCATGGTCGGTACGCAGCTCGATGCACTCTTTGACCGTATCGGCACAACGATGCAGACCGCTCGAAACACGACGTTCTAA	MTKIFARFLKDESGATAIEYGLIAALLSVAIVGGAGMVGTQLDALFDRIGTTMQTARNTTF	PGPT0015910_921	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0015910-flp|pilA-K02651	NA	NA
BMS010_02001	513			hypothetical protein	ATGGTTGTAGCCGCCATTTTTCTGACGCTTCCGCTCTGCCTTGCCTTCGCGGCATTCACAGATCTTTTGAGCATGACAATACCCAACCGGATACCGCTCATGTTACTGCTGTCATTCATTGTGACCGCACCTTTTTCCGGTATGGACTGGCAGACTTTTGCAATGAGCCTTGCAGCTGCCGCCGCTGTTTTTTTTGCCTGCTTCGCGCTTTTCGCCGCCAATGTGATGGGCGGAGGAGATGCGAAGTTATTGACCGCCGCAGCGGTGTGGTATGGCTTCAACCTGTCCCTTATAGAATTCCTACTTTCGGTGACCTTTGTTGGCGGCCTGCTAACTCTCGGCGTTCTGCTCTTGCGGTCGCGTTCGCAGGAAATCATGACCAGCGGCATTCCTATCCCTGATTCTCTGCTGGTAGCAAAAAAAATTCCCTATGGGATCGGCATCGCCATTGCCGGTTTTTTGACCTATGGCAACGCACCGATCGTAGAAGCTGCCATCGCCAGTCTTTCGTAA	MVVAAIFLTLPLCLAFAAFTDLLSMTIPNRIPLMLLLSFIVTAPFSGMDWQTFAMSLAAAAAVFFACFALFAANVMGGGDAKLLTAAAVWYGFNLSLIEFLLSVTFVGGLLTLGVLLLRSRSQEIMTSGIPIPDSLLVAKKIPYGIGIAIAGFLTYGNAPIVEAAIASLS	PGPT0016000_644	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016000-cpaA-K02278	NA	NA
BMS010_02002	807			hypothetical protein	ATGAAACCGTCGCGTATCGTCATTCTGTCCGTCGCTTTGATAGCCGCCGGTCTTGCCGGCCTTGTCGCCATGAAAATTTCCGGCACAAAGCAGGTCATCGAAAAAGCGGAAACGATCATCCAGAAAGAACCGACGGTCAACGTTCTCGTTTCGTCGGTCAATCTGCCGGTCGGCAGTCGCCTGAATGATAGTTCGGTACGCTGGACTCCCTGGCCACAGGGCAACGTCGTGGATAGTTTCATAACAGAAACGAAAAGCCCGAACGCGATCATCGAACTTTCCGGCGCCGTTGTGCGGCTGCCATTGTTCGAGGGCGAGCCGATCCGACCGGAAAAAGTCGTCGATTCCAGTACCCGCATCATGTCCTCGCTTTTACCGGCCGGCAAACGCGCCGTTTCGACAGAGATTTCGGTTTCAACCGGAGCAGGTGGTTTCGTACTGCCGAATGACCGTGTTGACGTGATCATGGTCCGCAAAGGCGACAACGGCAATTTTTTGACTGAGAATGTTTTGAACAACGTTCGTGTTCTGGCGATCGATCAGCAGATAAAGGAAGGCGAGGACGGTACGTCGGCGGTGGTTGGCGCAACAGCGACACTGGAACTGACGCCGGAGCAGGCCAAGATCATAACCGTGGCGCAACAGATGGCGGATCGCCTCACACTGGCTCTGCGCTCGGTTGCCGACGCGCAGGAAAACGACACGCTTTCGGCGGATTATCTTCTCAATGGCGGCGCCGGGCAGCCCGAAATTCAGGTGATCAAGTCCGGCTCGATCGTCAAGGGCGGTCAAGGAGCATCACAATGA	MKPSRIVILSVALIAAGLAGLVAMKISGTKQVIEKAETIIQKEPTVNVLVSSVNLPVGSRLNDSSVRWTPWPQGNVVDSFITETKSPNAIIELSGAVVRLPLFEGEPIRPEKVVDSSTRIMSSLLPAGKRAVSTEISVSTGAGGFVLPNDRVDVIMVRKGDNGNFLTENVLNNVRVLAIDQQIKEGEDGTSAVVGATATLELTPEQAKIITVAQQMADRLTLALRSVADAQENDTLSADYLLNGGAGQPEIQVIKSGSIVKGGQGASQ	PGPT0016005_1320	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016005-cpaB-K02279	NA	NA
BMS010_02003	1584	sctC_1		Type 3 secretion system secretin	ATGAGCAGGGGGTTCATGGCAAGGCGTCTCAAACAACACCTGCGTTCGTCGATGTTCGGCGGGCTTGCGTTCTGCGTAGCCTTTTCCGGCATTCCTGGTCAGCATTCACCCGAATTTTTCGGTACTAGCGAAGCCGAAGCACAAAGTGCGAGCATCGTGCGTATTACCGAGAGCGGATCAGGCATTCGCAAACGGCTGAAGCTTGGTCTCAACAAGGCGCTGGTCATCGACCTGCCTGAGGACGCCCATGACATTCTTGTCGCCGATCCCAGCCTCGCCGACGCAGTAACGCGTACATCCAGAAGAATCTATCTCTTCGGAAAAACGGTAGGGCAGACCAATATCTTTATTTTCGGCGATGGTGGGCGTGAAATCGTCAGCCTTGATCTGGAAGTAGAGCGGGACATCGTTGGTCTTGAAGCCAATATTCGTCGCTTCATTCCTGAATCCGACATCAAAGTCGAGATCGTCTCGGATAATATCGTTCTCACCGGATCGGTGCGCACGCCGCAAGATTCGGCGCGTGCGGTTCAGCTTGCTGAAGCCTTCTTGAAAGGTGGTGAAGCCACCACCCGCAATATCTCGCTGACGGGTGGCGACAATGGGGGCGACGCGGCAATTTTTGCCGAAAATCGCCAAGTATCGCAGATCGTCAATATGCTGACGATCGAGGGCGAGGATCAGGTGACCCTGAAGGTGACCGTCGCCGAAGTCAGCAGGCAGGTGCTGAAGCAACTGGGCTTCAACGGCTCGATCAGCAGCTCGACAAGCAACAACGGTTTCGAGTTCGCAAATCCTTCCAACCTCGGGAACGCAATCGACAGCGCCACGCGCATAGCCAGCGGAGCGATAGGCTCCGGCTCACTGCGATTTGCCTCTTACCTCAACGCCATGGAGCAGGCAGGGGTAATGCGGACATTGGCGGAACCGAGCCTCACGGCGATCTCCGGCGAACAGGCCAAATTTTATGTGGGCGGAGATTTTCGAATTGCTGCGGAACAGGATGTTTCGCTCGACAAGGAAACAGGCATCGCAACCGTCAAACGCGAAACGGAAACAGTCGACTACGGCATCACTTTGAACTTCAGGCCCGTTGTGCTTTCACCCGGCAGGATAAGTCTCAAGATCGAGACCAACGTGTCTGAACCGACTTATGAAGGCAATGTCGTCACCGGAAACTACGGGCGCGGCATTCCAGGTTCGACCTACATGTCCGTCCGCAAGCGCGAAACATCCACAACGGTCGAGCTTCCCTCCGGCGGTTCGATCGTGATTGCAGGTCTCGTTCAGGACAATATCCGCCAAGCAATGTCCGGGCTTCCGGGCATGTCGAAAATCCCGATTTTCGGCACGCTTTTCCGCAGCAAGGACTTCCTTCGCAACGAAACCGAACTGGTCATTATCGCAACGCCCTATCTGGTGCGGCCCGTTGCCCGCAATCAGATCGCCCGGCCAGATGATAACTTCAATCCGGAAAACGACGCTGCCATGTATTTCATGAACCGCGTCAACAAGGTCTATGGCCGCAAGGATCAGGTTCAGGCCGCGCCCTATCAGGGGTCAGTGGGGTTCATCTACAAATGA	MSRGFMARRLKQHLRSSMFGGLAFCVAFSGIPGQHSPEFFGTSEAEAQSASIVRITESGSGIRKRLKLGLNKALVIDLPEDAHDILVADPSLADAVTRTSRRIYLFGKTVGQTNIFIFGDGGREIVSLDLEVERDIVGLEANIRRFIPESDIKVEIVSDNIVLTGSVRTPQDSARAVQLAEAFLKGGEATTRNISLTGGDNGGDAAIFAENRQVSQIVNMLTIEGEDQVTLKVTVAEVSRQVLKQLGFNGSISSSTSNNGFEFANPSNLGNAIDSATRIASGAIGSGSLRFASYLNAMEQAGVMRTLAEPSLTAISGEQAKFYVGGDFRIAAEQDVSLDKETGIATVKRETETVDYGITLNFRPVVLSPGRISLKIETNVSEPTYEGNVVTGNYGRGIPGSTYMSVRKRETSTTVELPSGGSIVIAGLVQDNIRQAMSGLPGMSKIPIFGTLFRSKDFLRNETELVIIATPYLVRPVARNQIARPDDNFNPENDAAMYFMNRVNKVYGRKDQVQAAPYQGSVGFIYK	PGPT0016010_297	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016010-cpaC-K02280	NA	NA
BMS010_02004	693			hypothetical protein	ATGAAGGAACCCTATTCCTCCTTTTCCCCCTACCTTTCCGGAAGACGGACCGGCCTCGTCGTCGTTGCCGCGCTTGCCGCCGGCCTGTTGCAGGGCTGCGCACGCGATCCGATGACCACCAACGCCATTCCCGACGATTATCGCACACGCCACCCGATTACCCTGTCGGAAGCGGAGCATTCGCTGGATATTCCGGTCTCGGCCAGCGACAGCCGGCTGACCACAGCGATGGCCGATAATGTTCGCGGTTTTGCCCAGAATTATGCGTCGATGTCGACCGGGATCATCAATATTCAGACCCCGTCGGGATCGGCCAACTCGGCGGCCGCATCGCGAATGGCGAAACAGATTCGCTCGACGCTTTCCGGCGCGGGTGTGGCGCCGGGCAAGATCATGGAGACGCGTTATGCCGCTTCCCCCAATGGCGACGCCTCCCCCATCCGCCTGAGCTATGTCGCCGTTACCGCCATGACCGGTCAGTGCGGGCAATGGCCAGAGGATCTTTCGGACAATACCTTCGCCAACAAGAACTGGTACAATTTCGGGTGCGCTTCCCAAAGCAATCTCGCGGCGCAGATTGCCAATCCCATGGATCTGGTCGGCCCGCGCGGCATGAGCCCGATCGATGCGGAGCGTCGCGCGGTAGTCATCGACAACTATCGCCAAGGCAAGACAACGGCGACGGCTAATTGA	MKEPYSSFSPYLSGRRTGLVVVAALAAGLLQGCARDPMTTNAIPDDYRTRHPITLSEAEHSLDIPVSASDSRLTTAMADNVRGFAQNYASMSTGIINIQTPSGSANSAAASRMAKQIRSTLSGAGVAPGKIMETRYAASPNGDASPIRLSYVAVTAMTGQCGQWPEDLSDNTFANKNWYNFGCASQSNLAAQIANPMDLVGPRGMSPIDAERRAVVIDNYRQGKTTATAN	PGPT0016015_180	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016015-cpaD-K02281	NA	NA
BMS010_02005	1284			hypothetical protein	ATGAGCGCTGTAGAATACGATATCAAGCCAAGCGGCGGCACAGAAGCCGAGCCGCCCGTGCGCGCTTCGGATATGGACCACCTGCGGCCCCTGCCCCGCATTTCCGTTCACGCTTTCTGCGTCAGCGACAATATGCAAGGCGTCATGGACGCATTGTCCAGCGACCGGCGCATGAGCAAGGTTACCCTGCGGGTGACCAAGGGCGATATCAATGCGGCAGCCACGATGTTTTCGACGTCGCCCACGCCCAATCTCATCATTCTCGAAACAGCAAGCTCGCCCTCCTCGCTGCTGGACGATCTCGCGCCTTTGGCAGAAGTTTGCGATCCCTCCACGCGTGTCATCATCGTCGGCCGGCACAACGATATCACGCTCTATCGCGATCTCATTCGCAACGGCATTTCCGAATATCTCGTCGCCCCGGTCAATATGGCCGATCTCCTGGCTTCTATCGCCGCGATCTTCGTCGATCCGGAAGCGGAGCCGCTGGGCCGCAACATCGCCTTCATTGGCGCCAAGGGCGGCGTAGGCTCGTCCACCATCGCGCATAATTGCGCCTTCGGCATTTCGAGTCTTTTCTCCACGGAAACCATTCTGGCGGATATGGATCTTGCCTATGGAACGGCGAATATCGATTTCGATCAGGACCCTGCCCAGGGCATGGCTGAAGCGGTCTTTTCGCCGGAGCGACTGGACGAGGTATTTCTCGACCGTCTTTTGACGAAATGTTCCGATCATCTGTCGCTTTTGGCGGCACCGTCTCTTCTCGACAGAACCTACGATCTCGATCGTCAGGCCTTTCTGCCGATCCTCGAGGTTTTGCAGCGCAGTGCCCCGGTTGCGGTTCTCGATCTTCCACACCAGTGGTGCGACTGGACGCGCGCAGTCCTTGCGGAAGCCGATGAGGTGGTCATAACGGCGGTTCCCGATCTCGCAAATCTGCGCAATACGAAGAATCTTTTCGACGCTCTGATCAAGCTGAGACCGAACGATAAATTGCCGCATCTCGTTCTCAATCAGGTCGGCATGCCCAAGCGTCCGGAAATCGCGCCGGCGGACTTCCTTGAGCCGCTGGAAATCGAGCCGATTGCGATTATCCCATTCGACGCACAATTGTTCGGAAACGCCGCCAATAGCGGACGCATGATCAGCGAGATGGATGAAAAATCCCAGACGGCGGAAACCTTTTCACAAATCGCCCATACCATCACAGGCCGCTCCGTGCTGCGCAAAAGCAGGCGCGGCGGTCTGGAAAAACTGAAGAGTATTCTCAAGCGCAAGTAG	MSAVEYDIKPSGGTEAEPPVRASDMDHLRPLPRISVHAFCVSDNMQGVMDALSSDRRMSKVTLRVTKGDINAAATMFSTSPTPNLIILETASSPSSLLDDLAPLAEVCDPSTRVIIVGRHNDITLYRDLIRNGISEYLVAPVNMADLLASIAAIFVDPEAEPLGRNIAFIGAKGGVGSSTIAHNCAFGISSLFSTETILADMDLAYGTANIDFDQDPAQGMAEAVFSPERLDEVFLDRLLTKCSDHLSLLAAPSLLDRTYDLDRQAFLPILEVLQRSAPVAVLDLPHQWCDWTRAVLAEADEVVITAVPDLANLRNTKNLFDALIKLRPNDKLPHLVLNQVGMPKRPEIAPADFLEPLEIEPIAIIPFDAQLFGNAANSGRMISEMDEKSQTAETFSQIAHTITGRSVLRKSRRGGLEKLKSILKRK	PGPT0016020_310	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016020-cpaE-K02282	NA	NA
BMS010_02006	1335			hypothetical protein	GTGGTGCGTCAAGCAACCGCAAGTGCACCGCTCGCGCAGAGAAAACGCGCCCGCACGGAAGACTACTACAATACCAAGAGCCAGGTATTTTCCGCGCTTATCGATACGATCGACCTTTCGCAGCTCGCCAAGCTTGACGCGGAAAGCGCGCGCGAGGAAATTCGCGATATCGTCAACGACATTATCACGATCAAGAATTTCGCCATGTCGATTGCCGAGCAGGAAGAGCTGCTCGAAGATATCTGCAACGACGTTCTTGGTTACGGACCGCTGGAGCCGCTTCTCGCACGCGACGACATTGCCGATATCATGGTCAACGGTTCCGGCCAGACCTTCATCGAAGTCGGCGGCAAGACCATCGAATCCGATATCCGTTTTCGCGACAATGCGCAGTTGCTTTCCATCTGCCAGCGCATCGTCAGCCAGGTCGGCCGACGCGTGGATGAGTCGAGCCCGATATGCGACGCCCGCCTTCCGGATGGATCGCGCGTCAACGTCATTGCTCCGCCGCTTGCCATCGATGGTCCGGCGCTGACGATCCGAAAATTCAAGAAGGACAAGCTGACACTCGACCAGCTCGTACGTTTCGGAGCGATCACGCCGGAAGGCGCTACATTGCTCAAGATCATCGGTCGCGTCCGCTGCAATGTCGTTATCTCGGGCGGCACCGGCTCGGGTAAGACGACGCTTCTTAACTGCCTGACGAGCTTCATCGACAAGGATGAACGCGTCATCACCTGTGAAGACACCGCCGAACTGCAGCTGCAGCAACCGCATGTGGTGAGGCTCGAAACGCGTCCGCCCAATATCGAAGGGGAAGGCGAGATCACCATGCGCGATCTGGTCAAGAACTGCCTTCGCATGCGGCCCGAACGCATCATCGTCGGCGAAGTGCGCGGACCGGAAGTTTTCGACCTTCTCCAGGCCATGAACACCGGTCACGACGGTTCGATGGGAACGCTGCACGCCAATACGCCACGCGAATGCCTCAGCCGTATCGAATCGATGATCGCCATGGGCGGCTTCACCCTGCCGGCCAAGACCGTGCGTGAAATCATCTCAGGCTCGATCGATGTCGTCATTCAGGCAGCGCGTCTGCGTGACGGCTCACGCCGGATAACCCAGATTACGGAAGTGATCGGTATGGAAGGCGATGTCATCGTCACCCAGGATCTGATGCGATACGAGATCGAAGGCGAAGATGCGAACGGCAAGCTGATTGGCAGGCACGTATCGACCGGCATCAGCAAGCCCAATTTCTGGGATCGTGCACGCTATTACGGCGAAGAGAAACGCCTGGCAGCCGCGCTCGATGAGATGGAAAAGACATCCTAA	MVRQATASAPLAQRKRARTEDYYNTKSQVFSALIDTIDLSQLAKLDAESAREEIRDIVNDIITIKNFAMSIAEQEELLEDICNDVLGYGPLEPLLARDDIADIMVNGSGQTFIEVGGKTIESDIRFRDNAQLLSICQRIVSQVGRRVDESSPICDARLPDGSRVNVIAPPLAIDGPALTIRKFKKDKLTLDQLVRFGAITPEGATLLKIIGRVRCNVVISGGTGSGKTTLLNCLTSFIDKDERVITCEDTAELQLQQPHVVRLETRPPNIEGEGEITMRDLVKNCLRMRPERIIVGEVRGPEVFDLLQAMNTGHDGSMGTLHANTPRECLSRIESMIAMGGFTLPAKTVREIISGSIDVVIQAARLRDGSRRITQITEVIGMEGDVIVTQDLMRYEIEGEDANGKLIGRHVSTGISKPNFWDRARYYGEEKRLAAALDEMEKTS	PGPT0016025_631	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016025-cpaF-K02283	NA	NA
BMS010_02007	1005			hypothetical protein	ATGGACCCGACAATAGCGTTACTGGCCGTACTTGTCGCCATCTCGGCAGGAGCACTCGCCTACGTCTTTCTTTTCCAGCAGATAGAGGTCGAGAAAAAGACCACAAGCCGTTTCAAGCGGGTGCAGGCCGCAGAGACGGATCATACAAACATCAAAGCTGCACGAGACCGCGTCCAGGAACTCAGCAAGCGCCGCAAATCCATGCAGGACAACCTGCGGGAAATGGAAAAGAAACAGAATGAAAAGGCGAAAAAAGCGAAGAACATCGGCCTGCGCGACAAGCTGGTTCAGGCGGGGCTGGTGCTTTCCGCTCGGCAGTTCCATCTGTTAAGCGTCGGCGCGGCTGTTTTTTCCGCCCTCATGGCCCTTCTGTACGGCCTGTCGTCGCTTCTCGCTCTGCTAATAGGAGTTGTCGTGGCGCTGGGCGTACCGCGGTGGGCGCTGGCGTTTGTTCTCAAGCGCAGACAGAAGAAATTTCTGGAAGAGTTTCCGAATGCGTTGGACGTCATGTGCCGGTCGATCAAATCCGGATTGCCGCTGAACGACGCCGTGCGGCTAATCGCGTCGGATGGTCAGGAGCCGGTGAAAACGGAGTTTCAGCGCGTCGTCGATGCCCAACAGGTTGGCATTGGAATTCCGCAGGGGATCGAACGCATGATGCTGACCATGCCGCTTTTCGAGGTAAGCTTCTTCAGCACTGTCATCAATATTCAGGCGCAGGCCGGCGGCAACCTCTCGGAAGCGTTGTCCAATCTTTCAAAAGTTTTGCGTGACCGCAAGAAGATGCGCGCCAAGGTGAGTGCTCTTTCGATGGAAGCGAAGGCCTCAGCAGTCATCATCGGCTCGCTGCCTTTCGTCGTCATGCTGCTGGTGCATTTCACATCGCCTGACTACCTGTCAGTACTCTTCACCGACTTGCGCGGCCACATTATTCTCGGAGCATCCGCGATCTGGATGCTGATCGGAATATTCATCATGCGCCAAATGATCAATTTCGATATCTGA	MDPTIALLAVLVAISAGALAYVFLFQQIEVEKKTTSRFKRVQAAETDHTNIKAARDRVQELSKRRKSMQDNLREMEKKQNEKAKKAKNIGLRDKLVQAGLVLSARQFHLLSVGAAVFSALMALLYGLSSLLALLIGVVVALGVPRWALAFVLKRRQKKFLEEFPNALDVMCRSIKSGLPLNDAVRLIASDGQEPVKTEFQRVVDAQQVGIGIPQGIERMMLTMPLFEVSFFSTVINIQAQAGGNLSEALSNLSKVLRDRKKMRAKVSALSMEAKASAVIIGSLPFVVMLLVHFTSPDYLSVLFTDLRGHIILGASAIWMLIGIFIMRQMINFDI	PGPT0022290_244	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0022290-tadB-K12510	NA	NA
BMS010_02008	987			hypothetical protein	ATGACAGGAAATCTTCTTTCTCGCCTGACTGACCCACAAACGATCATCGCCGTTCTTGTAACGCTCGCTGTTTTCGCGACCTTCTATACCCTCATCATGCCGGTTTTTGAGCGGAAAGATTTCGCCAAGCGCATGAAAGCGGTATCATCGGAACGCGATCTCATCCGTAGCCGCGAGCGCGACCGCATGGCAGCCGTCACCAGAGACGGCAAGACCTCCCTACGAGGCAACAATAACAAATCGGCCCGCCGCATCGTCGAGAAATTCAACCTGCAAGAAGCGCTGGCCGACAAGAACACAATGAACAAGCTACGGGCGGCCGGGCTTCGTTCACAAAACGCGTTCAACACGTTCCTTGCCGCACGGTTCGTCTTGCCGTTCATTTTTCTGGCCATCGCCTTCACTTGGATCTTCGTTCTCGGAAACCTCGCCGACAAAGCGTTTATCATCCGGCTAATGGCTGTGCTTCTTTTCGGTTATATCGGTTTTTACGCTCCCAATATTTACGTATCGAATCGCATGAACAAGCGGCAGGCATCCATCAAGCGTGCCTGGCCGGACGCGCTTGACCTCATGCTGATCTGCATCGAATCCGGCGTATCCATGGAAGCTGCCATGCGCCGTGTGGCGGAAGAAGTGGGCGAGCAGTCACCCGAACTGGCAGAAGAAATGATGCTGACGACAGCGGAACTATCCTTTCTTCAGGACAGGCGTGTCGCTCTTGAGAATTTCGGCACGCGTACCCAGCTCGAAACCGTCAAAAGCGTGGTACAGGCGCTTATTCAGGCGGAGCGATACGGCACACCGCTCGCCCAGGCGCTTCGCGTTCTCGCACAGGAGGGCCGCGACGAACGCATGAATGAAGCCGAAAAAAAGGCCGCCGCGCTGCCGCCGAAACTGACTGTGCCGATGATCGTATTTTTCCTGCCGGTACTCATAGCAGTCATTCTCGGACCGGCTATCATCCGCGTTCTGGACACATTCTGA	MTGNLLSRLTDPQTIIAVLVTLAVFATFYTLIMPVFERKDFAKRMKAVSSERDLIRSRERDRMAAVTRDGKTSLRGNNNKSARRIVEKFNLQEALADKNTMNKLRAAGLRSQNAFNTFLAARFVLPFIFLAIAFTWIFVLGNLADKAFIIRLMAVLLFGYIGFYAPNIYVSNRMNKRQASIKRAWPDALDLMLICIESGVSMEAAMRRVAEEVGEQSPELAEEMMLTTAELSFLQDRRVALENFGTRTQLETVKSVVQALIQAERYGTPLAQALRVLAQEGRDERMNEAEKKAAALPPKLTVPMIVFFLPVLIAVILGPAIIRVLDTF	PGPT0022295_319	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0022295-tadC-K12511	NA	NA
BMS010_02009	711	bepA_1		Beta-barrel assembly-enhancing protease	ATGTCCACCGGCTCCATTCCCGCCGCCACGCGCTCCTATGATCACATGAACATGGAGCAGCTTCGGCAGGCGGAGGAGAGCGCCGGCAAAGCTTATGAACGCAGTCCCAAGGATAAATCGGTCGGCATGAATTATGCCAGCGTGCTGATGATGACCGGCAAGAACACACAGGCTCTCGCCGTCATGCAGCAGATCGCCATCGCCAATCCGGCCGACCGCGATGTCCTTGCCGCCTATGGCAAATCGCAGGCCGCCGCCGGCCAGCTGGAACAGGCGCTTTCGACCATCCAGCGTGCACAGACGCCGGACAGGCCCGACTGGCGGCTTTATTCCGCCGAGGGCGCCGTGCTCGATCAGCTTGGACGCTCGAACGAGGCGCGTTCCCGCTACAGGCAGGCGCTTGACCTGAAGCCGAACGACCCGAGCGTATTGTCCAACCTCGGCATGTCCTATGTTCTGTCGAGCGATCCGCGCACTGCCGAAACATATCTGCAATCCGCCATCGCCCAGCCGGGCGCCGATAGCCGCGTTCGCCAGAACCTCGCGCTTGTGGTCGGTCTACAGGGCCGCTTTGCCGAAGCCGAGCGCATCGCGGTTCAGGAGCTCTCTGCGCAGCAGGCACAGGCAAACCTCACCTATCTGCGTGCCATGCTTTCGCAGCAGAACTCCTGGCAGCAACTGGCAAAAAAGGACGGCAAGCCGGCTGGTTGA	MSTGSIPAATRSYDHMNMEQLRQAEESAGKAYERSPKDKSVGMNYASVLMMTGKNTQALAVMQQIAIANPADRDVLAAYGKSQAAAGQLEQALSTIQRAQTPDRPDWRLYSAEGAVLDQLGRSNEARSRYRQALDLKPNDPSVLSNLGMSYVLSSDPRTAETYLQSAIAQPGADSRVRQNLALVVGLQGRFAEAERIAVQELSAQQAQANLTYLRAMLSQQNSWQQLAKKDGKPAG				NA	NA	NA	NA	NA
BMS010_02010	1395	pepA_2		cytosol aminopeptidase	ATGGCGCCCTATCAGTTCATCGAACGCCCAACCCCTTTCAGCTCCAAGGCCGGCAGCACATTGCCGGTTTTCGCCGTCACACCGGCCCATATCGAACAGGGCGCCATCGACCCTGTCGCTCTGGATTGGGCGAAGAAGGCGGGGTTCAAGGCGGAGGCAGGCGCCATCCTGCTCGTTCCTTCCGCCGATGGCTCGCTGGGTGGCGTGCTTCTCGGCCTCGGCGGCAATCCCTCGGAAATCCCCTTCATCACCGGGAAACTCGCCCGTGAGCTGCCGGAAGGCGAATGGCACATCGAGACCGCACCCCTGACGGCCAATCGCCTCGCTCTCGGTTTCGGTCTCGGCAGCTACCGCTTCGACAAATACAAGACCACCAAGACGAACGGGGCAAAGCTCCTTATTCCGCAGGACGCGGAAGACGGCGAGATCAAGCGCGTACTGGCCGGCGTTTTCCTCGCGCGCGACCTCATCAATGTTCCGGCCAACGATATGGGGCCGGATGAGCTTGAGATTGCCTTTCGCGCGCTTGCCGCCCATTACAAGGCAAAGGTGAAGGTCACCACTGGTGACGATCTGCTCAAGGAAAACTTACCCCTGATCCATGCTGTCGGCCGGGCCAGCGAAAGCGCGCCGCGGCTTCTGGAGATGAACTGGGGCAAGAAGGGCAATCCGCGCCTCACTCTCGTCGGCAAGGGCGTCTGCTTCGATACAGGTGGCCTCGATATTAAACCTGCCGCCTCCATGGCGCTGATGAAGAAGGATATGGGAGGCGCGGCCAATGTGCTCGGCCTTGCGCTGATGATCATGGATGCGAAGCTGCCGGTCGATCTTCGCGTTCTCGTGCCCGCGGTCGAAAACTCCATCTCCTCCAATGCCTTCCGCCCCGGCGATATCTACCGCAGCCGCAAGGGGCTGACGGTGCAGATCGACAATACCGACGCTGAAGGCCGTCTTGTTCTGGCGGATGCGCTGGCCTATGCGGACGAAGATGCGCCGGACCTGATGATCGACATGGCAACGCTGACGGGTGCCGCACGCGTCGCGCTCGGCCCGGATCTGCCGCCGTTCTACACCGATGATGAGGATCTGGCGCATGATATCGCGGAAGCCAGCATCGATACGGACGATCCGCTGTGGCGCATGCCGCTCTATATGGGCTACGACAAGGATATCCGCTCACGCGCAGCCGATATCACCAACGCGCCTTCGGGCGGCATGGGCGGATCGATCACCGCCGCCCTGTTCCTGAAGCGTTTCGTCACCAATACCAGGCGCTGGGCGCATTTCGATATTTACGGCTGGTCTCTGAGCGAGAGACATCACTCATCGATCGGTGGGGAGGCGCAGGGTATCCGCGCACTCTTCCATTACATCGCACACCAGTTCGCGAAGTAA	MAPYQFIERPTPFSSKAGSTLPVFAVTPAHIEQGAIDPVALDWAKKAGFKAEAGAILLVPSADGSLGGVLLGLGGNPSEIPFITGKLARELPEGEWHIETAPLTANRLALGFGLGSYRFDKYKTTKTNGAKLLIPQDAEDGEIKRVLAGVFLARDLINVPANDMGPDELEIAFRALAAHYKAKVKVTTGDDLLKENLPLIHAVGRASESAPRLLEMNWGKKGNPRLTLVGKGVCFDTGGLDIKPAASMALMKKDMGGAANVLGLALMIMDAKLPVDLRVLVPAVENSISSNAFRPGDIYRSRKGLTVQIDNTDAEGRLVLADALAYADEDAPDLMIDMATLTGAARVALGPDLPPFYTDDEDLAHDIAEASIDTDDPLWRMPLYMGYDKDIRSRAADITNAPSGGMGGSITAALFLKRFVTNTRRWAHFDIYGWSLSERHHSSIGGEAQGIRALFHYIAHQFAK				NA	NA	NA	NA	NA
BMS010_02011	1305	pncB	COG1488	Nicotinate phosphoribosyltransferase	ATGACGAAGACCGATATAGCCACCCGTGTCCATAATCATACCTGGAAACTCGACCCTATCGTCCGCAGCCTGATCGATACGGATTTCTACAAGCTCTTGATGTTGCAGATGATCTGGAAGCTCTATCCGGAGGTCGACGCGACGTTTTCGCTTATCAATCGTACAAAGACGGTGCGGCTGGCGGAAGAAATCGACGAGATGGAGCTGCGCGAACAGCTCGATCATGCACGCACCCTGCGTCTTTCCAAGAAGGAAAACATCTGGCTTGCGGGTAACACGTTTTACGGCCGCTCGCAGATTTTCGAGCCGGAATTCCTCTCCTGGCTGTCGAGCTATCAATTGCCGGAATATGAGCTTTTCAAGCGCGACGGGCAATATGAGCTGAATTTTCATGGCCGCTGGATGGATACGACGCTCTGGGAAATTCCGGCGCTCGCCATCATCAACGAGTTGCGCTCGCGCAGCGCCATGCGTTCGCTCGGTTATTTCACGCTCGATGTGCTTTACGCCCGCGCAAAGGCCAAGATGTGGGAGAAGGTCGAGCGTCTGCGGGAACTGCCGGGCCTGCGCATTTCCGATTTCGGCACCCGCCGCCGCCACAGCTTCCTTTGGCAACGCTGGTGCGTCGAAGCGCTGAAGGAAGGCATCGGGCCCGCCTTTACCGGTACGAGTAACGTCCTGCTCGCCATGGATTCCGATCTCGAAGCCGTGGGCACAAACGCGCATGAACTGCCGATGGTGGTCGCGGCGCTGGCGCAGACGGATGAGGAGCTGGCTGCAGCACCCTATCAGGTTCTGAAGGACTGGAACCGGCTTTATGGCGGCAACCTGCTGATCGTGCTGCCGGATGCCTTCGGCACGGCGGCTTTCCTGCGCAATGCGCCGGAATGGGTGGCAGACTGGACGGGTTTCCGTCCCGACAGCGCCCCGCCGATCGAAGGCGGCGAAAAGATCATCGAGTGGTGGCAGAAGATGGGTCGCGATCCGCGCAAGAAGATGTTGATCTTCTCCGACGGTCTCGATGTCGACGCCATCATCGATACCTACAGGCATTTCGAAGGCCGCGTTCGCATGAGTTTCGGCTGGGGCACCAACCTCACCAATGATTTTGCCGGTTGCGCGCCAAAAACCATCGCCAGCCTCAAGCCGATTTCCATCGTCTGCAAGGTGAGCGACGCCAATGGCCGGCCGGCGGTGAAGCTCTCGGACAATCCGCAAAAGGCCACCGGCGACCCGGCCGAAGTGGAGCGCTACCTGAAGTTCTTCGGCGAAGAGGACCACAAGGAACAGAAGGTTCTGGTTTAA	MTKTDIATRVHNHTWKLDPIVRSLIDTDFYKLLMLQMIWKLYPEVDATFSLINRTKTVRLAEEIDEMELREQLDHARTLRLSKKENIWLAGNTFYGRSQIFEPEFLSWLSSYQLPEYELFKRDGQYELNFHGRWMDTTLWEIPALAIINELRSRSAMRSLGYFTLDVLYARAKAKMWEKVERLRELPGLRISDFGTRRRHSFLWQRWCVEALKEGIGPAFTGTSNVLLAMDSDLEAVGTNAHELPMVVAALAQTDEELAAAPYQVLKDWNRLYGGNLLIVLPDAFGTAAFLRNAPEWVADWTGFRPDSAPPIEGGEKIIEWWQKMGRDPRKKMLIFSDGLDVDAIIDTYRHFEGRVRMSFGWGTNLTNDFAGCAPKTIASLKPISIVCKVSDANGRPAVKLSDNPQKATGDPAEVERYLKFFGEEDHKEQKVLV	PGPT0013375_2692	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013375-pncB-K00763	NA	NA
BMS010_02012	360			hypothetical protein	ATGAAGACAAGAACGGCGACACGATTGGCAGCGATCCTCGCGGCGGTTTTGCTGAGCGCGTCGGCGCAGGCGCAAACTGTTTTCCAGAACGGTTTTGCCCCCGCGCCGGATGCCTATGCAAACCTGCCCGGCGTCAAGGATCCACGCACGCTGCAGCCGAAGGTCCGTTACAATTGCCACAGCGCTCTTGGCTCGACCGGATATTCCCGCGGCCCCTACCGGAATGTTTTCGGCAGCCGTGGACTTCCCGTTCAGGGTTACCGTTGCACCGATGAAAACGGAATTTCCAGCTTCGGCGGCAGAAACCCGGTTTCCAAGGACTGGTATCCCGGCATAAACCCCGTAGACCCGACCTTCTGA	MKTRTATRLAAILAAVLLSASAQAQTVFQNGFAPAPDAYANLPGVKDPRTLQPKVRYNCHSALGSTGYSRGPYRNVFGSRGLPVQGYRCTDENGISSFGGRNPVSKDWYPGINPVDPTF				NA	NA	NA	NA	NA
BMS010_02013	852			Dipeptidyl-peptidase 6	ATGATGCTCGACCGCCGCCTGAATGTCTTCCGCTCCGATCTCGCCGATGAAAAGCTGCAGGGCGTGGTGCAGGCCGAACGTTTTGTCAGCGGCTCGCCCGCGCAGATCGCGGTGCCGGTTGTTGGCCTGCGGCCGACGCCGGACCTTGCCGCCGGCATCGATACCGAGCTGCTGTCTGGCGAAACCATCCGTGTTTTCGAGTACGCGAATGGCTGGGCATGGGTGCAGGCGGATGCAGATGGTTATGCCGGCTATGTGCCGGAAACGGCGATCGGCGATGTCGTTGTCGCCACCCATCGGGTGATTGCACCGCGCACTTTTCTCTATCCAGCCGCTGAATTGCGCAAACCGCCGGTCGCAGCGCTGTCCATGGGCAGTCTCATCCGCATCGTCGGTGAGGCGGAGACACGCGGCACCCGTTACCTGCTGACCGAAAAGGGCGAAGGCATCATCGCCGCCCATTGCCGCGCCGTGGATGAGGCGCTTGAAGAGGATTATGTGGCGGTGGCGCTGCGCTTTATCGAGACACCCTATCTCTGGGGCGGCCGTTCCGGTTTCGGTATCGATTGTTCCGGCCTCGTGCAGCTTTCCATGGCCATGACGGGCCGGCGGGTTCTGCGCGACACCGACATGCAGGTGAAGTCGCTCGGCGTCGAAATAGAGCGGGATGAATTGCGCCGCGGCGATCTCGTCTTCTGGAAGGGCCATGTCGGCCTCATGGAAAACGAGGAAGTTCTGCTGCATGCCAATGGCCATACGATGAATGTCGCACGCGAAAATCTCGATGCGGCCATCGAGCGTATCGGCTGGCTTTACGAAAAGCCGACGGCTTTCCGCCGCCTGGAAGACTGA	MMLDRRLNVFRSDLADEKLQGVVQAERFVSGSPAQIAVPVVGLRPTPDLAAGIDTELLSGETIRVFEYANGWAWVQADADGYAGYVPETAIGDVVVATHRVIAPRTFLYPAAELRKPPVAALSMGSLIRIVGEAETRGTRYLLTEKGEGIIAAHCRAVDEALEEDYVAVALRFIETPYLWGGRSGFGIDCSGLVQLSMAMTGRRVLRDTDMQVKSLGVEIERDELRRGDLVFWKGHVGLMENEEVLLHANGHTMNVARENLDAAIERIGWLYEKPTAFRRLED				NA	NA	NA	NA	NA
BMS010_02014	345			hypothetical protein	TTGCCTGCACAATTGTCGCCCACGGAGGCACTGGGTCTCTGGCATCGTGTATCCACGGCGCAGGTCATTGACGATCAGCCGGATTTGACCTTGCGTCAAACCGCCATCCTGCTGCAGATTTATCTTGTGCCGCCGCCGCACACCGTGCGGGGTCTTGCCGCCATGCTGGGTGTGACCAAACCGGTTATCACCCGCGCCCTCGACAGTCTGGGTGCTCTTGGACTGGTCGACCGGGTTCGGGATGAGCGGGACAAGCGCAATGTCGTGATAAAACGCACAGTAGCCGGTGCGCTTTATCTGGAAAAATTCGGCGATCTGATTATTGATCAGGCGCGCAAGATTTAA	MPAQLSPTEALGLWHRVSTAQVIDDQPDLTLRQTAILLQIYLVPPPHTVRGLAAMLGVTKPVITRALDSLGALGLVDRVRDERDKRNVVIKRTVAGALYLEKFGDLIIDQARKI				NA	NA	NA	NA	NA
BMS010_02015	1107			hypothetical protein	ATGAGCGCTGCCCAGAAAAACACGCTTACCTACTTCAAGTGGGCTTTTATCGTCACCGTGGTCGGTTTGATCCTCGGCGGTTATCTCGGTTGGGAAATGACCGGAACGGTCGGCGGTACGGCGACGATCTTCTTCATCTGCGTCGTGCTGGCGGTGCTGGAAATCTCACTTTCCTTCGACAACGCCATCGTCAACGCCAATAAGCTCAAGGATATGACACCGGTCTGGCAGCATCGCTTCCTGACCTGGGGTATCCTGATTGCCGTTTTCGGCATGCGTATCGTCTTCCCGCTGCTCATCGTGGTCGTCGCGGCCAATGTCGGCCCGTGGACGGCGATTGTCATGGCGGCTACGCAGCCAGAACGTTACGCGGAAATCATGCGTGACGCCCATCTGCCGATTGCGGCTTTCGGCGGCACCTTCCTGATGATGGTCGGTCTCAACTTCTTCTTCGACCATGAAAAGGACGTGCACTGGGTGCGCTGGATCGAGGAAAAGGCTGCAACCTATTCCTCCGTGAAGGGCATCGAGATTGCCTTCGTGCTGGTCGTCATGCTGATCTTTTCCCGCATCATCGGTGCTAGCGACAATCCGGAACTTGGTCCGGTCGCGGCCAACACCTTCTTCCATTCGGCGATCTGGGGTCTTTTGACCTTCCTGCTGGTGGAAGTCGTCGGCGGCATTCTCGACCGCAGCCAGGAAATGCTGGAAGGCGCGGCGAAAGGCGGCTTCGGTGCGTTTCTTTATCTCGAAGTGCTGGATGCCAGCTTCTCCTTCGATGGCGTTATCGGCGCTTTTGCGCTGACGCAGAATCTCTTCATCATCGCCATCGGCCTCGGTATCGGCGCCATGTATGTGCGTTCGATGACCATCATGCTGGTCGAGAAGGGAACCCTGGCCGAATATCGCTATCTGGAGCACGGCGCCTTTTATGCAATCCTCATCCTGTCCGTCATCATGTACGTGCAGACCATGGTGCATATTCCGGAGGTCATCACGGGCCTTGGCGGCGCGGGTCTGATCGGCATCTCGCTCTGGTCGTCGATCCGCTATAACCGGCGACAGAGTGCCGATGCGGTCGATGCCGCCCGCGGCGCGGAGATCTGA	MSAAQKNTLTYFKWAFIVTVVGLILGGYLGWEMTGTVGGTATIFFICVVLAVLEISLSFDNAIVNANKLKDMTPVWQHRFLTWGILIAVFGMRIVFPLLIVVVAANVGPWTAIVMAATQPERYAEIMRDAHLPIAAFGGTFLMMVGLNFFFDHEKDVHWVRWIEEKAATYSSVKGIEIAFVLVVMLIFSRIIGASDNPELGPVAANTFFHSAIWGLLTFLLVEVVGGILDRSQEMLEGAAKGGFGAFLYLEVLDASFSFDGVIGAFALTQNLFIIAIGLGIGAMYVRSMTIMLVEKGTLAEYRYLEHGAFYAILILSVIMYVQTMVHIPEVITGLGGAGLIGISLWSSIRYNRRQSADAVDAARGAEI				NA	NA	NA	NA	NA
BMS010_02017	924	ribN_2		Riboflavin transporter	ATGTCTATGATACGTAAGCTTTCGCCGACTGGCCTCGGCGTGGCCGTCATGCTGCTTGGAATGCTGCTTTTCGCACTGAACGACGCCATGGGAAAATGGCTCGTTGCCACCTATAGCCAGGGTCAGGTGATCCTCATTCGCAGTGCGGCGGCGCTTATTATCCTCGTTCCGATCGTCTGGCGTGCCGGCCTCTCCGGCCTTGTCAGAATTGAACGTCCCGGCCTTCAGTTTGCGCGCGTCTTCTTTTCCACCGCAGAGCTTTTCTGTTTCTATTTCGCGGTCGCGGCCCTGCCGCTCGCCGATGTCATGACCTATTGGCTGGCCGCCCCCATCTATGTGGCGGCGCTCTCGCCGTTTCTGCTCGGAGAAAAGGTGGGCTGGCGTCGCTGGACGGCCATCGCCATCGGTTTTGTCGGCGTTCTCATCGCGCTCAAACCCAGTTCGGCAAGCCTCACCTCCGCAGCATTGTTTTCGATCCTCGGCAGCGCCGCCTTTGCTTTCATGATGCTATCCGGTCGCCAGCTGCGCAATACGCCGGATACGGTGCTTGCCTTCTGGCAAATCATCGGTGCGGCGCTTGCGGGCATTGTCGCGGTATTCATCACGCCATCGGGATGGCTGCCGGTTCAGTCCAGTTTCGATCTCGCCTTCCTCGGCCTGCTCGGCGTCGTCGCCATGACGGCCCATGTGCTGGTCAACCGGGCGCTTAAACTCGCCGATGCCGCCACCGTCGCGCCGCTGCAATATACGCTGCTGCTCTGGGCGGTCATTTTCGGCTGGCTGTTCTTCGGCGATGTGCCGCAGACGAGTATCGTCGTCGGCGCGGGTCTGATCGTTCTTTCCGGCCTTTATATCTTCTTCCGCGAAAATACTCTCAAACGCCGCCGCGAAACCGCTGAAGACCTGGCAGCAGAGCAGGTTTGA	MSMIRKLSPTGLGVAVMLLGMLLFALNDAMGKWLVATYSQGQVILIRSAAALIILVPIVWRAGLSGLVRIERPGLQFARVFFSTAELFCFYFAVAALPLADVMTYWLAAPIYVAALSPFLLGEKVGWRRWTAIAIGFVGVLIALKPSSASLTSAALFSILGSAAFAFMMLSGRQLRNTPDTVLAFWQIIGAALAGIVAVFITPSGWLPVQSSFDLAFLGLLGVVAMTAHVLVNRALKLADAATVAPLQYTLLLWAVIFGWLFFGDVPQTSIVVGAGLIVLSGLYIFFRENTLKRRRETAEDLAAEQV	PGPT0023680_58	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-SAM|QUEUOSINE|LIPID_METABOLISM,PGPT0023680-sam-K15270	NA	NA
BMS010_02018	882	dmlR_3		HTH-type transcriptional regulator DmlR	GTGAACTGGGATGATGTGCGTTTGTTTCTAAGCGTGGCGCGAAGCGGCCAGTTTCTTTCGGCGGCCAGAAAGCTTGGCGTCAACCATGCCACCCTTAGCCGGCGCATTTCCGCACTGGAAGCGGCCATCGGCACGCAGCTCTTCCTGCGCAGCACCAATGGCTGCGAGTTGACCGAAGAGGGGCAGCGCCTTCTTGCCGGGGCCGAGCGGATGGAAACCGAAATGCTGAATGCCCAGGCAAATCTCGGCCGTGTCGATACGGCGGTGGCGGGAACGGTGCGCATCGGCGCGCCGGATGGCCTCGGCGTTTCTTTCCTCGCGCCGCGGCTCGGCCGGCTGACGGCGCGTTATCCCGATCTGAAAATCCAGCTCGTGCCGGTGCCGCGTTCCTTCTCACTGTCGCAGCGTGAGGCCGATATAGCCATCACCATCGAAAGACCGGAGCAGGGCAGGCTGATGTTTTCAAAGCTCACCGATTATTCGCTGGGCCTCTATGCCTCGGCGGATTATCTGGCCGATTATGGAACGCCTGATGATGTAGAGGCGCTGAAGCGCCACCGGCGGATCGGTTATGTGGAAGACCTGATCTTTTCGCCTTCACTGAACTTTACCGGTGAGATCATGCGCGACTGGGACGCCGCCTTTGAAATCTCCAGCGCTACCGGGCAAACCGAGGCGGTGCGTTCCGGTGCGGGCATCGGCATCCTGCACAATTACATCGCCGGGCAATATCCCGAACTTCTGCGTATCATGCCGCAACTCACCATCAGCCGGTCCTACTGGACGGCCTATCACGAATCCGCCCGTCAACTGGTCCGCGTCCGCACGGTGGTCGATTTTCTCCAGGAACTGGTTGCCGAAGAACGGCGAATCTTCACCTGA	MNWDDVRLFLSVARSGQFLSAARKLGVNHATLSRRISALEAAIGTQLFLRSTNGCELTEEGQRLLAGAERMETEMLNAQANLGRVDTAVAGTVRIGAPDGLGVSFLAPRLGRLTARYPDLKIQLVPVPRSFSLSQREADIAITIERPEQGRLMFSKLTDYSLGLYASADYLADYGTPDDVEALKRHRRIGYVEDLIFSPSLNFTGEIMRDWDAAFEISSATGQTEAVRSGAGIGILHNYIAGQYPELLRIMPQLTISRSYWTAYHESARQLVRVRTVVDFLQELVAEERRIFT				NA	NA	NA	NA	NA
BMS010_02019	1497	bauC_2	COG1012	Putative 3-oxopropanoate dehydrogenase	ATGAAGGAAATCGGTCATTTCATTAACGGCAAGCATGTGCCGGGCACCAGCGGCCGCACATCGAATGTCTACAACCCGGCCACCGGCGAAGTTCAGGCAACTGTCGCGCTTGCAAGCGACGCCGAACTGCGCGCCGCCGTAGAAAGCGCCAAGGCCGCGCAGCCGAAATGGGCCGCCACCAACCCGCAGCGCCGCGCCCGCGTTTTCTTCAAGTTCGTCGAACTTCTGAACCGCGACATGAACGAGCTGGCGGTGCTGCTCTCCAGCGAGCATGGCAAGACCGTTGAAGATTCCAAGGGCGATATCGTGCGCGGCCTCGAAGTCTGCGAATTCGTCTGCGGCATTCCGCATCTGCAGAAGGGCGAATTCACCGAGGGTGCCGGCCCGGCCATCGACATGTACTCGATCCGCCAGCCGGTTGGCATCGGCGCGGGCATTACGCCGTTCAACTTCCCCGGCATGATCCCGATGTGGATGTTCGCGCCCGCAATTGCCTGCGGCAATGCCTTCATCCTCAAGCCTTCCGAGCGCGACCCGTCGCTGCCGATCCGTCTTGCCGAACTGATGATCGAAGCCGGTCTTCCGGCCGGCATCCTCAACGTCGTCAACGGTGACAAGGGCGCCGTCGACGCCATCCTGACCGATCCCGATATCGGCGCGGTCTCCTTCGTCGGTTCGACGCCGATCGCCCGCTATGTCTATGGCACGGCCGCCATGAACGGCAAGCGCGCGCAGTGCTTCGGCGGTGCGAAGAACCACATGATCATCATGCCGGATGCCGATCTCGACCAGGCGGTAAACGCGCTGATGGGCGCAGGTTACGGTTCGGCCGGCGAGCGCTGCATGGCTGTTTCCGTTGCGGTTCCGGTTGGTGAGGAGACGGCAAACCGTCTCGTCGAAAAGCTCATTCCGCAGATCGAAAGCCTGAGAATCGGCCCCTATACCGACGACAAGGCCGATATGGGTCCGCTCGTCACCAAGGAAGCGCAGACGCGCGTCAAGGGCCTGATCGACAGCGGCGTCGCACAGGGTGCGAAGCTTCTGGTCGATGGCCGCGACTTCAAGCTGCAGGGCTATGAGGACGGCTATTTCGTCGGCGGCTGCCTGTTCGACCACGTGACCCCTGACATGGACATCTACAAGACGGAAATCTTCGGACCCGTTCTCTCCGTTGTTCGCGCCAAGAATTACGAAGACGCGCTGGAACTGCCGATGAAGCATGAATATGGCAACGGCGTTGCCATCTATACCCGCGACGGCGATGCCGCCCGCGACTTCGCAAGCCGCGTCAATATCGGCATGATCGGCGTCAACGTTCCGATCCCGGTTCCGCTTGCCTATCACTCCTTCGGCGGCTGGAAGGCTTCGAGCTTCGGCGACCTCAACCAGCACGGGACGGATTCGATCAAGTTCTGGACAAAGACCAAGACGATCACCTCGCGCTGGCCGTCGGGTATCAAGTCGGGCGCTGAATTCGTGATGCCGACAATGAAGTAA	MKEIGHFINGKHVPGTSGRTSNVYNPATGEVQATVALASDAELRAAVESAKAAQPKWAATNPQRRARVFFKFVELLNRDMNELAVLLSSEHGKTVEDSKGDIVRGLEVCEFVCGIPHLQKGEFTEGAGPAIDMYSIRQPVGIGAGITPFNFPGMIPMWMFAPAIACGNAFILKPSERDPSLPIRLAELMIEAGLPAGILNVVNGDKGAVDAILTDPDIGAVSFVGSTPIARYVYGTAAMNGKRAQCFGGAKNHMIIMPDADLDQAVNALMGAGYGSAGERCMAVSVAVPVGEETANRLVEKLIPQIESLRIGPYTDDKADMGPLVTKEAQTRVKGLIDSGVAQGAKLLVDGRDFKLQGYEDGYFVGGCLFDHVTPDMDIYKTEIFGPVLSVVRAKNYEDALELPMKHEYGNGVAIYTRDGDAARDFASRVNIGMIGVNVPIPVPLAYHSFGGWKASSFGDLNQHGTDSIKFWTKTKTITSRWPSGIKSGAEFVMPTMK	PGPT0002295_2752	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0002295-mmsA|iolA-K00140	NA	NA
BMS010_02020	1050	futA1		Iron uptake protein A1	ATGGCAAGCTTGAAATCATACTTTTCCGCTGCCGTTTTTTCAGGGTTGACGATCCTTGTCGCCGCGCCCGTCGCTCTGGCAGAAGGGGAGGTTAACGTCTATTCCTATCGCCAGCCTGAATTGATCCAGCCGCTGCTCGATGCTTTCACGAAGGAAACCGGGATAGAGGCGAATGTGCTTTTTCTCGATAAGGGGCTGGTGGAGCGCATTCAGGCCGAGGGCGTCAATTCGCCCGCGGATGTGCTGCTGACGGTCGATATCGCCCGTCTCGTCGAGGCGAAGGAGGGCAAGGTTACCCAGCCGGTCCTCAACGATCCCGTCATCGAAAAGGATATCCCCGCCAATCTGCGCGACCCCGAGGGCGAATGGTTTGGTCTCACCACGCGCGGCCGGGTGGTCTATGCGTCGAAGGAGCGGGTGACCCAGAAGGACATTACCTATGAGGAGCTTGCCGATCCGAAATGGAAGGGCAAGATCTGCGTTCGCGACGGCCAGCATTCCTATAATATCGCGCTGATCGCCTCGATGATTGCCCATCACGGCGTCGATTATACCCGCACATGGCTGACCGGCCTGAAGAACAATCTCGCCCGCAAGCCTGACGGAACCGACCGCAGCCAGGCGAAATCGATCTTTTCCGGTGAATGCGATATCGCACTCGGCAACACCTATTATGTCGGCCTGATGCTGACCAATGATCGCGAGCCGGAAGAAAAGGAATGGGCTGGATCGGTGCGGGTGATCTTCCCCAATGCGGGCGATCGCGGCACACATGTGAATATTTCCGGCATGGCGCTGACGAAGTACGCCCCCAACAAAGACAATGCGCTGAAGCTTATGGAATTCCTGGCCTCCCGCGAGGCGCAGGAAATCTATGCCAAGCAGGTCTTCGAATATCCGGTGCTGCCCGGCGCGGAGCCGTCCGATGTCGTGAAGGGCTTCGGCCCCATCAATCCGGACAAGCTGCCGCTGACGGACATAGCCGCCCATCGCAAGCAGGCGTCCGAACTGGTGGATGAAGTGGGTTTCAACGACGGCCCGACCAACTGA	MASLKSYFSAAVFSGLTILVAAPVALAEGEVNVYSYRQPELIQPLLDAFTKETGIEANVLFLDKGLVERIQAEGVNSPADVLLTVDIARLVEAKEGKVTQPVLNDPVIEKDIPANLRDPEGEWFGLTTRGRVVYASKERVTQKDITYEELADPKWKGKICVRDGQHSYNIALIASMIAHHGVDYTRTWLTGLKNNLARKPDGTDRSQAKSIFSGECDIALGNTYYVGLMLTNDREPEEKEWAGSVRVIFPNAGDRGTHVNISGMALTKYAPNKDNALKLMEFLASREAQEIYAKQVFEYPVLPGAEPSDVVKGFGPINPDKLPLTDIAAHRKQASELVDEVGFNDGPTN	PGPT0003725_1330	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003725-afuA|fbpA-K02012	NA	NA
BMS010_02021	471	nsrR	COG1959	HTH-type transcriptional repressor NsrR	ATGCGCTTGACCAAACAGACCAACTATGCCGTTCGCATGTTGATGTATTGCGCCGCCAATGAAGGCCATCTGAGCCGCATTCCCGAGATCGCCAAGGCTTATGGCGTTTCGGAGCTGTTCCTGTTCAAAATCCTGCAGCCGCTCAACAAGGCGGGCCTGGTGGAAACCGTGCGCGGTCGCAACGGCGGCGTGCGCCTTGGCAAACCCGCCGAAAAGATCAGCCTGTTCGACGTGGTGAAGGTGACTGAAGACAGCTTCGCCATGGCCGAATGCTTCGAGGACGGTGCTGTGGAATGTCCGCTCGTGGATAGCTGCGGCCTCAACTCGGCCCTTCGCAAGGCGCTCAATGCCTTTTTCGACGTTCTGGCGGAATATTCGATCGACGATCTCGTCAAGGCTCGGCCCCAGATCAACTTCCTGCTGGGCCTCGATACGGAAATGCCGAAGATCGCCGCCCTTCCGGCTGCCTGA	MRLTKQTNYAVRMLMYCAANEGHLSRIPEIAKAYGVSELFLFKILQPLNKAGLVETVRGRNGGVRLGKPAEKISLFDVVKVTEDSFAMAECFEDGAVECPLVDSCGLNSALRKALNAFFDVLAEYSIDDLVKARPQINFLLGLDTEMPKIAALPAA	PGPT0013005_1322	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITRIC_OXIDE_REDUCTION,PGPT0013005-nsrR|yjeB-K13771	NA	NA
BMS010_02022	1101			hypothetical protein	ATGGAAGCGGCGCATTTGGTCGCGAGCTTTTTCAAGCAACCAATCAGCGTCGCAATGATCATCAAGCCTGAATTCCATACATTTGCACTCACCGCGCTCGTCGGCAGCATAGGGGCGCTACTCGCCAGCCTCATCGATATTCCGGCGCCTTTTCTTTCCGGCCCGGCGCTTGCCGTGACGATCACGGGGCTGGCAGGTGTAAGGCTTGGCGTTCCCGCCTTCATCCGCAATGCCTGTTTCGTCGTCGTCGGCATTTCTATGGGAACGAGCGTGACGCCCTCCGTGATCGACGCGGCAAAGACCTGGCCCGTGAGCTTCGTCGTTGTGCTCGTCGCTGTCGTCATCATGCTCTATGTCGCCTACTGGATCCTGCATTACGGCTTCGGTTACGACCGGACAACGGCGATGCTGGGCGCCTCTCCCGGTCATCTCAGCTATATCATCAGCCTCGGCGCCGAGACGAAAAGCGACCTTGCGACCGTCAGCATCGTGCAAAGCGTGCGGGTGCTGGCGCTGACGCTTTCCGTGCCGCTGATCGTCGAATATTTCGATCTCGTCAGCACGGAACCGCTTGTGGCCAACCCGCCAATGGGCCTTTTCACGCTGGCGCTGACCATCGGCGCATCGCTTCTGACCGGCTGGCTTTTCCTGCGCTGGAAGTTTCCGGCCGCGCTGCTGCTTGGCGGCGTCGCCATTTCCATCGGCACCCACATTACCGGCCTTACCGAAGGCGGCGTTCCCACCTGGCTCAGCCTGCCCGTCTATGTGCTGATCGGCTGCCTTATCGGCACCCGCTTTTCGAATGTCTCACTGATGGACGTGCGGAAAGGCTTTCTGGCCGGCTTCGTCGTTACCATCGCCGTGATGCTGATCGCCGGAAGCATTGCCTGGATGATTTCCGGGGTGACCGGCGTTCCGCTCAATGCCGTCATGATCGCCTATTCGCCGGGCGGCCTGGAGACGATGGCGGCGATGGCGGTGATGATGCATGCCGATACCGCCTATGTCGGCTCCCACCACGTCATCAGGCTCCTGTTTCTTTCGGTTCTAATGCCGCTGGTCATGGGCAAGGATGCGCGCAAGCGCGACGGCGAAACCTGA	MEAAHLVASFFKQPISVAMIIKPEFHTFALTALVGSIGALLASLIDIPAPFLSGPALAVTITGLAGVRLGVPAFIRNACFVVVGISMGTSVTPSVIDAAKTWPVSFVVVLVAVVIMLYVAYWILHYGFGYDRTTAMLGASPGHLSYIISLGAETKSDLATVSIVQSVRVLALTLSVPLIVEYFDLVSTEPLVANPPMGLFTLALTIGASLLTGWLFLRWKFPAALLLGGVAISIGTHITGLTEGGVPTWLSLPVYVLIGCLIGTRFSNVSLMDVRKGFLAGFVVTIAVMLIAGSIAWMISGVTGVPLNAVMIAYSPGGLETMAAMAVMMHADTAYVGSHHVIRLLFLSVLMPLVMGKDARKRDGET	PGPT0027725_1151	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-AbrB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027725-antitoxin_abrB-K07120	NA	NA
BMS010_02023	912	yehZ	COG1732	Glycine betaine-binding protein YehZ	ATGAACCGCTTGATGACGTTGACGGGCGCCGGACTTGCGCTTGCCCTTTCTGTTTCCATCGCTCAGGCGCAGGTGGTCGTGTCGTCGAAGATCGACACGGAAGGCGGTGTTCTCGGCAACATCATCCTCGCCGTCCTTAACCAGAACAAGATCGAAACGACGGATCGCATCCAGCTTGGCGCCACGCCGGTTGTGCGAAAAGCGATCACCGCCGGTGAGATCGACATCTATCCCGAATATACCGGCAACGCCGCGTTCTTTTTCTCCAAGGCGGACGATCCGCTCTGGAAGGATGCAGCCAAGGGGTATGAAGAGGCGAAAACACTCGACTTCGATGCCAATAAAATCGTCTGGCTGACGCCATCGCCGGCAAACAACACCTGGGCGATTGCGCTGCGCAAGGATGTCGCCGACAAGAACAATTTGAAGACGCTTTCCGATTTTGGCAAATATGTTGCCGATGGCGGCGAAGTCGTGCTTGCCGCATCTTCCGAATTCGTCAACTCCGCCGCCGCGCTCCCTGCATTTCAAACCACCTATGGCTTCACCATGAAGCCTGACCAGCTGATCACGCTTTCCGGCGGCGACACCGCGGCCACGATTGCCGCCGCCGCCAACCAGACCAACAATGCCAATGCCGCCATGGTCTATGGCACGGATGGCGGCATCGCGCCCTCCGGTCTTGTGGTGCTGGAGGACGACAAACATGTGCAGCCGGTCTATCAGCCAGCGCCGATCATTCGCGAAGAGGTTCTGAAAAAGCACCCGAATATCGAAGAGCTGCTGAAACCGGTGTTCGAAAAACTCGATCTCGCAACGCTGCAGGATCTGAACGCCCGCGTTCAGGTGGGCGGTGAACAGGCCAAGACCGTGGCGCTCGACTTTCTGACAAAGAACGGCTTCGTCAAGTAA	MNRLMTLTGAGLALALSVSIAQAQVVVSSKIDTEGGVLGNIILAVLNQNKIETTDRIQLGATPVVRKAITAGEIDIYPEYTGNAAFFFSKADDPLWKDAAKGYEEAKTLDFDANKIVWLTPSPANNTWAIALRKDVADKNNLKTLSDFGKYVADGGEVVLAASSEFVNSAAALPAFQTTYGFTMKPDQLITLSGGDTAATIAAAANQTNNANAAMVYGTDGGIAPSGLVVLEDDKHVQPVYQPAPIIREEVLKKHPNIEELLKPVFEKLDLATLQDLNARVQVGGEQAKTVALDFLTKNGFVK	PGPT0013595_2796	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013595-opuC|yehZ-K05845	NA	NA
BMS010_02024	1167	yehY	COG1174	Glycine betaine uptake system permease protein YehY	TTGACGAAATGGCCTGACAAAGTGGGCGTTGTGATTTCGTGCCTGCTTCTTTATGCGCTTTTTGCCTCACCTTTCATCACATTCCGTGCCAACCGGATCGTTCAGGGCGAGACACGAACGGTCTTTGAAGCTCTTCCGGGTTCGGCTGCAACTGTTCTCGTCACCATCGTTCTTCTTTCGGCCTTCATCGCCTTTTTCCGCTTCCCTACGCGATTGAAACTCGCATTCGCGCTCACCGGTCTTGCGGCACTGGCGGTTTTCGTCGGGCAAGCGGCATCTTTCCTCATGCCGGAGGGTAACGGTTTTGCCCGCGTTTCACCTGCCAGCGGCTTCTGGCTGATATTTGCCGGGCTGGCTCTGCTCGCCACGGATTGCATTGCCCGTCTTGAGCCGAAGCCCGCTGCCCGGATTTTGTTGCTGCTGGTGGCCATCGCCGCGCTCGCGGCCGTGCTGACAAGCGGCCTCTGGAACGACCTCTCCATCATCAAGGAATATACCGGCCGGGCCGATACATTCTGGACCGAGGCTTTGCGGCATGTGGAACTTGCCATCGGCTCGCTGATCGCAGCGACCGTGGTGGGCATTCCCCTGGGGATACTCTGTTACAAGGTCGAGCGGTTGCGCGCAGGCGTACTGAACAGCCTCAACATCGTCCAGACCATTCCCTCCATCGCCCTTTTCGGCCTTTTGATCGCCCCGCTCGGGTGGATCGCGGCCACTGTGCCGGGTGCCGCGAAAATCGGCATTGCCGGCATCGGCATGGCGCCCGCTTTCGTGGCGCTTTTTCTTTATTCGCTGCTGCCGGTGGTTTCCAACACGGTGGTCGGTCTTTCGGGTGTTTCGCAAGCGGTACGGGAAGCGGCGCGCGGGCTCGGCATGACCTCGGTGCAACGGCTGCTGCGGGTGGAATTTCCGCTGGCCATGCCGGTCATCCTCACCGGTATCCGCATCGTGCTGGTGCAGAATATCGGCCTGGCGACGATTGCCGCCCTGATCGGCGGCGGCGGCTTTGGCGTTTTCGTATTTCAGGGCATCGGGCAGACAGCGATGGACCTCGTGCTGCTCGGCACCGTGCCGACGGTTCTTCTCGGCTTTGCCGCCGCGATAACACTCGACGCCATCATCGACAGCAATCTCTTCAGCGCAGGCGGAAGGCAAAAGGCATGA	MTKWPDKVGVVISCLLLYALFASPFITFRANRIVQGETRTVFEALPGSAATVLVTIVLLSAFIAFFRFPTRLKLAFALTGLAALAVFVGQAASFLMPEGNGFARVSPASGFWLIFAGLALLATDCIARLEPKPAARILLLLVAIAALAAVLTSGLWNDLSIIKEYTGRADTFWTEALRHVELAIGSLIAATVVGIPLGILCYKVERLRAGVLNSLNIVQTIPSIALFGLLIAPLGWIAATVPGAAKIGIAGIGMAPAFVALFLYSLLPVVSNTVVGLSGVSQAVREAARGLGMTSVQRLLRVEFPLAMPVILTGIRIVLVQNIGLATIAALIGGGGFGVFVFQGIGQTAMDLVLLGTVPTVLLGFAAAITLDAIIDSNLFSAGGRQKA	PGPT0013584_45	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013584-yehY-NA	NA	NA
BMS010_02025	939	yehX	COG1125	Glycine betaine uptake system ATP-binding protein YehX	ATGATCGAAATCGACACCATCACGAAACGATATGGCGATGCAGCCGTCGTGGATCAGGTATCGCTCACTGTGGCGCCGCGCACCGTCACCGTCATCGTCGGTACCTCCGGCTCGGGAAAAACCACTCTGCTGCGCATGATAAACCGGCTGGTGGAGCCGACCTCCGGCACGATCCGTATCGATGGTGAGGATGTCAGTGCGATGCCCGGTTTCAAGCTGCGCCGCCAGATCGGCTACGCCATTCAGGGCCATGGCCTGTTTCCGCACCGGACGGTGGCCGAAAATATCGCGACCGTTCCGCAGCTGATCGGCTGGGATCGCAAGCGGATCGAGGCGAAGATCGACGCGCTGATGCATCTCTTCCAGCTCGATCCCGCGCTTTATGCCGACCGTTTCCCGCATGAGCTCTCAGGCGGTCAGCAGCAGCGTGTCGGCGTGGCGCGTGCGCTGGCCGCCGAGCCCAACATTCTCCTGATGGACGAACCCTTCGGCGCGCTGGACCCGGTGATCCGCGCCAAGGCCCAGAACGATCTTCTCGATATCCAGAAAAAGCTCGGCGTGACCGTCGTTCTCGTCACGCACGATATGGACGAGGCCTTTCATCTGGCGGATCGTATCGCCGTGATGGACAAGGGCCGCATCGTGCAGGACTGCCCGCCGGCCGAACTGGTGCTGAAACCGGCGACGGATTTCGTGCGCACCATGATCGGCGAAAACGAACGGGCGCTGAAACTGCTGTCCGTTCTCTCCGTTGCCGATGTCGTGGAGCCGGGAAACGCAGAGGGCGAACCGCTCACCGAACATACGAGCCAGCGCGACGCCCTGTCGGCTATGTTATGGGCGGGCTGCGATGCCTTGCCGGTCGTCAGGGACAATGGGCAACCCGCCGGCCGGGTTCGGCGTGACGTTCTCCTCCAGCGTGCCGCCGGAGCCCCATGA	MIEIDTITKRYGDAAVVDQVSLTVAPRTVTVIVGTSGSGKTTLLRMINRLVEPTSGTIRIDGEDVSAMPGFKLRRQIGYAIQGHGLFPHRTVAENIATVPQLIGWDRKRIEAKIDALMHLFQLDPALYADRFPHELSGGQQQRVGVARALAAEPNILLMDEPFGALDPVIRAKAQNDLLDIQKKLGVTVVLVTHDMDEAFHLADRIAVMDKGRIVQDCPPAELVLKPATDFVRTMIGENERALKLLSVLSVADVVEPGNAEGEPLTEHTSQRDALSAMLWAGCDALPVVRDNGQPAGRVRRDVLLQRAAGAP	PGPT0013585_2249	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013585-opuA|osmV|yehX-K05847	NA	NA
BMS010_02026	741	yehW	COG1174	Glycine betaine uptake system permease protein YehW	ATGAAAAACGCCTTATCCTTGTTTGCCCTCGGTTTCCTGACGCTGGTGCTGATCATTTTCCTTGCTGTACCGCAGGTCTTCGCGCCGGTGTTCCGCCCTCTCGTGCAGGCCAATGCGCCGGCAATCTACACGCAGGCCAATCTGTTTTCCCTCACGCTGTCGCATCTGACCATTGTGGCGATTGCCACGGGGCTGGCCACGCTCACGGCGGGAGCGCTCGCGGTTCTCGTCACCCGGCCGTTCGGGGCGGATTTCCTGCCGCTGTCGCGCAGCATCGTCAATATCGGCCAGACCTTTCCGCCGGTAGCGGTGCTGGCGCTGGCCGTACCGATGATCGGTTTTGGCGAAAAACCAACGCTCATTGCCCTGTTTCTCTATGCGCTCTTACCGGTATTCGAAAATACGCTGACGGGTCTTACAACCCTGCCCGCCACGGTAATGGATGCCGCGAGAGGCAGCGGCATGACCGGCTGGCAACGCCTTGTCAAAGTGGAGTTGCCGCTTGCCCTTCCAGCCATTCTCGCCGGCATCCGGCTTTCGGCGGTCATCAGCCTTTCGACCGCGACCATCGGCTCGACCGTCGCGGCGCGTACCCTCGGCGAAGTGATCATTGCCGGTCTGCAATCCAACAATCTGGCCTTCATTCTTCAGGGCGGGCTGATCGTTGCGGCGCTGGCGATCCTGATTCACGCTGCCTTTTCCGCGCTGGAGAAGAGTGCGGCGCGCAAAACCGGGCACTGA	MKNALSLFALGFLTLVLIIFLAVPQVFAPVFRPLVQANAPAIYTQANLFSLTLSHLTIVAIATGLATLTAGALAVLVTRPFGADFLPLSRSIVNIGQTFPPVAVLALAVPMIGFGEKPTLIALFLYALLPVFENTLTGLTTLPATVMDAARGSGMTGWQRLVKVELPLALPAILAGIRLSAVISLSTATIGSTVAARTLGEVIIAGLQSNNLAFILQGGLIVAALAILIHAAFSALEKSAARKTGH	PGPT0013590_2258	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013590-opuBD|yehW-K05846	NA	NA
BMS010_02027	510		COG3265	Gluconokinase	GTGACACAGGCAATTGTCGTGATGGGAGTGAGCGGCTCCGGCAAGTCCACGGTCGCGGAAGCAGTGGCGGAGAAACTGGGCGTTGCTTTCATAGAGGGCGACAAGCTTCACCCGAAATCCAACGTCGATAAAATGTCCGAGGGTATTCCGCTGACGGACGAAGACCGCTGGCCCTGGCTCGATCTTATCGGCGCGGAACTGCGCAAGGGCAGCGAAAGCAACGGTGTCGTCGTTTCCTGCTCGGCGCTCAAGAAAATCTATCGCGACCGGCTTCGCAAGGCCACTGGCGGCCCGCTGGCTTTCGTCTATCTGGATGGCAGCCTGGAGCTTCTCAGCAGGCGCATGGGCGAACGCAAGGGCCATTTCATGCCGCTTTCGCTGCTTCAAACCCAGCTTGCCACGCTGGAAGTGCCGACCGGCGAACCGGGTGTCGTGACCGTCAGCATCGATGCCACACCGGAGGATATTGCGAATAACGCACTTTCCGGTTTGAAGACGGTGACGTTCTAA	MTQAIVVMGVSGSGKSTVAEAVAEKLGVAFIEGDKLHPKSNVDKMSEGIPLTDEDRWPWLDLIGAELRKGSESNGVVVSCSALKKIYRDRLRKATGGPLAFVYLDGSLELLSRRMGERKGHFMPLSLLQTQLATLEVPTGEPGVVTVSIDATPEDIANNALSGLKTVTF	PGPT0018055_1747	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_GLUCONIC_ACID_UTILIZATION,PGPT0018055-gntK|idnK-K00851	NA	NA
BMS010_02028	1302	puuB_1		Gamma-glutamylputrescine oxidoreductase	ATGGCTGAGGTAACGAACATTCCCAATCCCGGCCACACATCGTCATGGTATGCGGCCTCCGCGAATGTCAAAACCGTGCGGCCGACGCTCGAAGGCGCGCTGGACGCCGATGTCTGCATCATCGGCGGTGGCTTCACCGGCATTTCCGCCGCGCTGGAACTCAGTGAACGCGGCTATTCCGTCATCGTTCTGGAAGGCGTCCGCGTCGGCTTCGGCGCTTCGGGTCGCAATGGCGGCCAGATCGTCAACGGCTATAGCCGCGATCTCGAGACCATCGCTGGCCGCTATGGGCATGACAAGGCGGTGAAACTCGGCGAAATGTCGCTTGAAGGCGGCGCGATCATCCGCAACCGCATCGCCAAATACGCCATCGATTGTGATCTGGTCGATGGCGGTTTCTTTGCCGCCTTTACCCCGAAACAGATCCGCGAGATGGAGGCCCATAAGGCCCATTGGGAGAAGCACGGCCATGGCGGGCTCGAAATGGTCTCGAAGGCGGATGTCGGCCAGTATGTGAAGACCGATCGATATGCCGGCGGCATGATCGACCGCTTCGGCGGGCATATCCACCCGCTCAATCTGGTGCAGGGCGAAGCGGCGGCGGCGGAAAGCCTCGGTGCGCGCATATTCGAAAATTCGCGGGTCATTGCGGTGGAGCAGGGCGCAAACCCCGTGGTGCGCACGGCAACAGGCAGCGTCAAGACGAAATATGTCCTCGTCTGCGGCAACGCCTATCTCGGCAAACTCTTGCCGGAAATCGGCGACCGGATGATGCCGGTCTCAAGCCAGGTCATGGCGACGGAGCCGCTCGATGCCGACCTGATCGAGGCTCTTCTGCCTGCCGATTATTGCGTTGAGGATGCCAACTACATTCTCGACTATTACCGCCGGACCTCGGATAATCGCCTGCTCTATGGCGGCGGCATCGGTTATGGCGGCAGCGATCCGGCTGACCTCACGGGCGTGATCCGCCCGAACATGCTCAAAACCTTCCCGCAACTGGAAAAAACGAAAATCGACTTTGCCTGGAGCGGAAACTTCGCGCTGACCCTGACGCGCATTCCGCATATGGGCAGGCTGTCGGACAATATCTATTTCTCGCATGGCGACAGCGGCCATGGTGTGACGACAACCCATCTGCTCGGCAAGCTACTGGGCGAGGCCGTTGCCGGCCACGCCGAACGTTTCGATATCTGGAGCTCGCTGCCGAATTATCCGTTCCCCGGCGGCAAGACCTTCCGGGTGCCGCTGACCGTGCTTGGCGCGTGGTGGTACGGCCTGCGCGACAGGCTCGGATTTTAG	MAEVTNIPNPGHTSSWYAASANVKTVRPTLEGALDADVCIIGGGFTGISAALELSERGYSVIVLEGVRVGFGASGRNGGQIVNGYSRDLETIAGRYGHDKAVKLGEMSLEGGAIIRNRIAKYAIDCDLVDGGFFAAFTPKQIREMEAHKAHWEKHGHGGLEMVSKADVGQYVKTDRYAGGMIDRFGGHIHPLNLVQGEAAAAESLGARIFENSRVIAVEQGANPVVRTATGSVKTKYVLVCGNAYLGKLLPEIGDRMMPVSSQVMATEPLDADLIEALLPADYCVEDANYILDYYRRTSDNRLLYGGGIGYGGSDPADLTGVIRPNMLKTFPQLEKTKIDFAWSGNFALTLTRIPHMGRLSDNIYFSHGDSGHGVTTTHLLGKLLGEAVAGHAERFDIWSSLPNYPFPGGKTFRVPLTVLGAWWYGLRDRLGF	PGPT0007637_869	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007637-puuB|ordL-K09471	NA	NA
BMS010_02029	1362	puuA_1	COG0174	Gamma-glutamylputrescine synthetase PuuA	ATGATGGATGATATTGAAAACGCAAAGAAATTTTTCGCCGATAACCCCGATATCGAAATTCTCGAAGCTTTCGTCATAGACGCGAACGGCGTGCCGCGCGGCAAATGGATTCCGCGCGAACGGGCAATCGACGTTCTTGAAAAGGGAATGGCCATTCCCCGGTCGGTCTATGCGCTGGATATCTGGGGCCGGGATGTGCATGCCGCAGGCCTTGCGGAAGGCACGGGCGATCCGGACGGGTTTTGTTTCCCCGTTCCAGGCACACTGTCGCGGGTGACATGGCTTGGCCGCCCGACGGCGCAGGTTCTGCTGGCAATGAAAAATCCGGATGGAACCGGCTTTTATGGCGATCCGCGCCATGTTCTGGCGCAGGTTCTGAACGCTTATAAAAAGGCCGGTCTCACACCGGTCGTTGCCACCGAACTCGAATTTTACTTGATCGATCCCGTCCGCTCCGCGCTCGATCCCGTCCGTCCGCCGCATAGCCGCGAGGGCCGCTGGCACACGGGCCAGACCCAGGTTCTGTCGATTTCCGAACTGCAGGATTTCGAGGACGTCTTCCATGATATTGCCACGGCCTGCCGCGCACAGGGCGTGCTTGCCGATACGACGCTGCGGGAAAACGGTCCCGGCCAATATGAGATCAACCTCAATCATGTGCCGGATGCATTGCAGGCGGCCGATTTCGCGGTCTTTCTGAAACGTATCGTCAAGGGCGTGGCGCGACGGCATGACCTCGACGCCACCTTCATGGCCAAGCCTTACGGGTTGCAGGCCGGCAATGGCATGCATGTGCATTTTTCCGTTCTCGACAGGGACGGCAGGAACATCTACGCCGGAGAGGATGGCCCATCGGATGCCTTGATGCATTCGGTCGGCGGCCTTTTGGAAAACATGGGTGAAAGCATGGCGATCTTCGCCCCCCATGCCAATTCTTATCGACGTCTGACCCCCAGCGAACACGCACCGACCTACGCCTCCTGGGGCATTGACAACCGCTCGGCGGCTGTGCGTGTCATCGTTGCCAGCAAGGCCGCGACCCGTATCGAACACCGGGTCGCCGGCGCCGATACCAATCCCTATCTCGTTGTCGCGATGATCCTGAGCGCCGCATTGGCAGGCATGAAGGAGAAGCGCCAACCGGGCGGCGCAATTGCCGGCGACAGCCATGCGATCAATCACGAGCCGCTGCCCACCAACTGGGACTATGCGTTGCAGCGCTTCACGCGGTCGAGCTTTGCCTATGCGACGCTCGGCCAGAGGTACCGCACGCTGTTTTCCGCCTGCAAGCAGCAGGAGCTTTCCGAATTTTCCCTGCGTGTAACCGACGTCGAATATGACGCCTATATCAGGACGGTGTGA	MMDDIENAKKFFADNPDIEILEAFVIDANGVPRGKWIPRERAIDVLEKGMAIPRSVYALDIWGRDVHAAGLAEGTGDPDGFCFPVPGTLSRVTWLGRPTAQVLLAMKNPDGTGFYGDPRHVLAQVLNAYKKAGLTPVVATELEFYLIDPVRSALDPVRPPHSREGRWHTGQTQVLSISELQDFEDVFHDIATACRAQGVLADTTLRENGPGQYEINLNHVPDALQAADFAVFLKRIVKGVARRHDLDATFMAKPYGLQAGNGMHVHFSVLDRDGRNIYAGEDGPSDALMHSVGGLLENMGESMAIFAPHANSYRRLTPSEHAPTYASWGIDNRSAAVRVIVASKAATRIEHRVAGADTNPYLVVAMILSAALAGMKEKRQPGGAIAGDSHAINHEPLPTNWDYALQRFTRSSFAYATLGQRYRTLFSACKQQELSEFSLRVTDVEYDAYIRTV	PGPT0000645_6054	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMATE_DEGRADATION|CONVERSION,PGPT0000645-glnA-K01915	NA	NA
BMS010_02030	1248	dadA1_1	COG0665	D-amino acid dehydrogenase 1	ATGGCAGCGGATGTGATCGTTTTGGGGGCAGGGATCATCGGAGTCTCCATCGCCCTGCAACTGGCCCGCAGGGGTAAGTCGGTGGTGCTGGTCGACCGGCGCGGACCGGGTGAGGAGACCTCGTTCGGCAATGCCGGGCTAATCCAGAGAGAAGGCGTCGTGCCTTATGCCTTCCCGCAGGATCTCGCCCTGTTGCTGCGCTATTCCCTGAACAACAGCATCGATGCCCGCTATCACCTCTCCGCTTTGCCGAAGATCGCGCCTTTTCTCGGCCGCTACTGGTACAATTCCGCAGCCTCGCGCCACGCGGCAATTGCCCGCGCCTATGCGCCGCTGATCGAGCATTCGGTTTCGGAGCACAATATCCTGATCGAGGAGGCGAAAGCCGGTGATCTGATCGTCAAGAACGGCTGGATGGAGGCCTACAGAACCGCCGCAAGGCGGGATGCCGATTTTGCTTTCGCCGAGCGTCTGGCGCGCGACCATGGCATTTCCCATACGAAACTCGACGCCGAGGAGCTTGCCGCAGCCGAACCGCATCTGAGCCATGATTTCGTCGGCGGCCTGAAATGGAACGATCCCTGGTCGGTACGCGATCCTCATGCGCTGACGCTCGCTTATGTCCGGCTGTTCGAGAGCCTCGGCGGAAGCGTCGTTAGGGGCGACGCTTCCACCCTCAGCCAGACGGTGAGCGGGTGGACGGTGCGCACCGAAACCGGCGCGGTCGAGGCCGAACATGCCGTCGTGGCGCTTGGCCCCTGGGCGGATATCGTTACGGAACGGCTGGGTTATCGCTTTCCACTTGGCGTGAAACGCGGTTACCACATGCATTATGCGCCACAGGAGGGCACGAAGCTCAATAACTGGCTGATCGACGCCGAGCGCGGTTATTTCCTCGCGCCGATGCGAAAGGGCATCCGCCTGACGACAGGCGCGGAATTTGCCGAACGCGATGCACCGAAATTTCCCGTGCAGATCGAGCGGGCAGAGCGGGTGGCGCGCACCGTCTTTCCTCTCGGCGGCCGGCTGGATGCGGAACCGTGGATGGGTGCGCGGCCCTGCACGCCGGATATGATGCCGATCATCGGCAAAGCGCCGCGCCATAAAACATTGTGGTTTGCTTTCGGGCACGCCCACCATGGCCTTACACTTGGGCCGATCACCGGCCGTGTATTGGCGGAAACCATGCTGGGTGAAACGCCGGTTATCGCCATCGACGCCTATCGCCCTGAAAGGTTCAATCCCTGA	MAADVIVLGAGIIGVSIALQLARRGKSVVLVDRRGPGEETSFGNAGLIQREGVVPYAFPQDLALLLRYSLNNSIDARYHLSALPKIAPFLGRYWYNSAASRHAAIARAYAPLIEHSVSEHNILIEEAKAGDLIVKNGWMEAYRTAARRDADFAFAERLARDHGISHTKLDAEELAAAEPHLSHDFVGGLKWNDPWSVRDPHALTLAYVRLFESLGGSVVRGDASTLSQTVSGWTVRTETGAVEAEHAVVALGPWADIVTERLGYRFPLGVKRGYHMHYAPQEGTKLNNWLIDAERGYFLAPMRKGIRLTTGAEFAERDAPKFPVQIERAERVARTVFPLGGRLDAEPWMGARPCTPDMMPIIGKAPRHKTLWFAFGHAHHGLTLGPITGRVLAETMLGETPVIAIDAYRPERFNP	PGPT0020315_2714	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_D-AMINO_ACID_DEGRADATION,PGPT0020315-dadA-K00285	NA	NA
BMS010_02031	1641	yejF_2	COG4172	putative ABC transporter ATP-binding protein YejF	ATGACGGAAACAAAGACCCAACCGCTTCTCTCCGTCCGCGATCTCTCCGTCGCTTTCCACCAGGGCGGCGCGACGAGCATCGCCGTCGACCACGTCTCCTTCGATCTGATGCCGGGCGAAGTCGTCGCTCTCGTCGGCGAGTCCGGTTCCGGCAAATCGGTCACGGCGAATTCCATTCTCAAATTGCTGCCCTATCCGGCGGCAAGCCATCCCTCGGGGAAAATCCTGTTCGACGGCAAGGATATGCTGACTTTGCCGGAACGCTCCCTGCGCGCGGTCCGCGGCAACGACGTCACCATGATTTTCCAGGAGCCGATGACCTCGCTCAACCCGCTCCACACCATCGAGCGGCAGATCGGCGAGATTCTGGAACTGCATCAGGCAATCACCGGAGCGCAGGCACGGGCGCGCACGCTGGAACTGCTGCTGCAGGTGGGTATCCGCGAACCGGAAAAGCGCCTGAAGGCCTATCCGCATGAATTGTCCGGCGGCCAGCGGCAGCGCGTGATGATCGCCATGGCGCTTGCCAACCGGCCGAAACTGCTGATCGCCGATGAGCCGACGACGGCGCTCGACGTGACGGTTCAGGCCCAGATCCTCGAACTTCTGAGCGACCTCAAGACGAAGCACGGCATGTCCATGCTGTTCATCACCCACGATCTCGGCATTGTCCGCAAATTTGCCGACCGCGTCTGCGTCATGACCAAGGGCAAGATTGTCGAGACCGGCACAGTGCAGCAGGTTTTCAACGATCCGCAGCACGCCTATACCCGCCATCTTCTGGCGGCGGAGCCGAAAGGCGAGCCGCCGCATTCCGACGCCAGCAAACCCGTGGTCATGCAGGGTGACGATATCAAGGTCTGGTTCCCCATCAAGGCGGGGCTGATGCGCCGGGTGGTCGACCATGTGAAGGCAGTGGACGGCATCGATATCACCCTGCGCGCCGGGCAGACGGTTGGTGTCGTGGGCGAATCCGGTTCCGGCAAGACGACGCTCGGTCTGGCCCTCTCGCGGTTGATTGCGTCTGAAGGGCGTATCAGCTTCATCGGCCAGTCGATCGACCACTATTCCTATGAAATGATGAAGCCGCTCAGAAACCGGTTGCAGGTGGTGTTTCAGGATCCTTACGGTTCGCTCAGTCCACGAATGTCGGTCGGCGAGATTGTCGCGGAAGGCCTGAAGGTGCATGAGCGGTCTCTGTCTGCCGACGAGCGCGATACGCGTGTCGCCACCGCGCTGGAAGAGGTCGGCCTCGATCCGGCCACCCGCTGGCGGTATCCACATGAATTTTCCGGCGGCCAGCGCCAGCGCATCGCCATTGCCCGCGCTATGGTGCTTAAACCCCGTTTCGTCATGCTGGATGAGCCGACCTCCGCGCTTGACATGAGCGTGCAGGCGCAGGTGGTCGATCTGCTGCGCGATCTGCAGGCGAAACATGAACTCGCCTATCTCTTCATCAGCCACGATCTGAAGGTGGTGAAGGCGCTCGCCAACGACCTGATCGTCATGCGCCATGGCAAGGTGGTGGAGAGCGGCCCGGCGGCGGAAATCTTCGCTGACCCGCAGCAGGACTATACCAAGGCGTTGCTGGCGGCCGCCTTCAACATCGAGGCGATGAAAACGAAGGCGATAAGCCAGTAG	MTETKTQPLLSVRDLSVAFHQGGATSIAVDHVSFDLMPGEVVALVGESGSGKSVTANSILKLLPYPAASHPSGKILFDGKDMLTLPERSLRAVRGNDVTMIFQEPMTSLNPLHTIERQIGEILELHQAITGAQARARTLELLLQVGIREPEKRLKAYPHELSGGQRQRVMIAMALANRPKLLIADEPTTALDVTVQAQILELLSDLKTKHGMSMLFITHDLGIVRKFADRVCVMTKGKIVETGTVQQVFNDPQHAYTRHLLAAEPKGEPPHSDASKPVVMQGDDIKVWFPIKAGLMRRVVDHVKAVDGIDITLRAGQTVGVVGESGSGKTTLGLALSRLIASEGRISFIGQSIDHYSYEMMKPLRNRLQVVFQDPYGSLSPRMSVGEIVAEGLKVHERSLSADERDTRVATALEEVGLDPATRWRYPHEFSGGQRQRIAIARAMVLKPRFVMLDEPTSALDMSVQAQVVDLLRDLQAKHELAYLFISHDLKVVKALANDLIVMRHGKVVESGPAAEIFADPQQDYTKALLAAAFNIEAMKTKAISQ	PGPT0011640_188	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|MICROCINS,PGPT0011640-yejF-K13896	NA	NA
BMS010_02032	1146	yejE_1	COG4239	Inner membrane ABC transporter permease protein YejE	ATGACACTTGCCCATGCCGCCGAAACGGAAACGCTGGTAAAACCGAAGCGCCCGTGGTTTTCGCCGACCACCAAGCGCCGCTGGCAGAATTTCAAGGCAAACCGGCGCGGTTACTGGTCCTTCTGGCTGTTCCTGATCCTGTTTTTCCTGAGCCTGATTGCGGAATTCATCGCCAATGACAAACCCATTCTCGCTTCCTACAAGGGCGAGTTGCTGGTGCCGGTCATGGTGGATTATCCGGAGGAAAAATTCGGCGGGTTCCTTGCCCAGACCGATTACAAATCCTCCTTCATTCAGGATGAGATCAACGCCAATGGCTGGATGATCTGGCCACCGATCCGCTACTCCTATCAGACGGTGAATTCCAATATTCCCCATTCGGCGCCCACTGCGCCCTTCTGGCTGATGGATAAAAAGGATCGCTGCTCGGCTTACCCGCAGGGCGATGCCGATCCCGGCTGCACGCTTGGCAATCTCAACTGGCTCGGAACCGACAATCAGGCCCGCGATGTCACGGCGCGGATGATCTACGGTTTCCGTATTTCCGTGCTGTTCGGCCTGACGCTGACCATCGCGTCGGCCCTTGTCGGCGTCACCGCCGGTGCGATCCAGGGTTATTTCGGCGGTTGGACTGACCTTTTGTTGCAGCGTTTCATCGAAATCTGGTCGTCCATGCCGGTGCTCTACATCCTGCTCATCATCGCGGCCATCCTGCCGCCGGGCTTCTTCGTGCTGCTCGGCATCATGCTGCTCTTTTCATGGGTCGGCTTCGTCGGCATTGTGCGCGCCGAATTCCTGCGCGCCAGAAACTTCGAATATGTCCGCGCCGCCCGCGCACTCGGCGTCGGCAACTGGACGATCATGTTCCGCCACCTTCTGCCAAACGCCATGGTGGCGACGCTGACCTTCCTGCCCTTCATCCTTTCCGGCTCGATCACGACGCTCACCTCGCTCGATTTCCTCGGCTTCGGCATGCCGCCGGGATCGCCGTCGCTGGGCGAGATGATCGCGCAGGGCAAGAACAACCTTCAGGCCCCCTGGCTTGGCCTCACTGCGTTTTTCACCATGTCCATCATGCTGTCACTGTTGATTTTCGTCGGTGAAGCGGTGCGCGACGCCTTCGACCCACGCAAGACGTTCCGGTGA	MTLAHAAETETLVKPKRPWFSPTTKRRWQNFKANRRGYWSFWLFLILFFLSLIAEFIANDKPILASYKGELLVPVMVDYPEEKFGGFLAQTDYKSSFIQDEINANGWMIWPPIRYSYQTVNSNIPHSAPTAPFWLMDKKDRCSAYPQGDADPGCTLGNLNWLGTDNQARDVTARMIYGFRISVLFGLTLTIASALVGVTAGAIQGYFGGWTDLLLQRFIEIWSSMPVLYILLIIAAILPPGFFVLLGIMLLFSWVGFVGIVRAEFLRARNFEYVRAARALGVGNWTIMFRHLLPNAMVATLTFLPFILSGSITTLTSLDFLGFGMPPGSPSLGEMIAQGKNNLQAPWLGLTAFFTMSIMLSLLIFVGEAVRDAFDPRKTFR	PGPT0011635_188	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|MICROCINS,PGPT0011635-yejE-K13895	NA	NA
BMS010_02033	1095	yejB_1	COG4174	Inner membrane ABC transporter permease protein YejB	ATGGGCGCCTATATCCTCAGACGTCTGGCGCTGATGATCCCGACCATCATCGGCATTATGGGCATTTCGTTTCTCGTCATCCAGTTCGCGCCGGGCGGGCCGGTGGAACAGGTCGTCGCGCAATTGACCGGGCAGGGCGACAGCGCCTCCGACCGGTTATCGGGCGGCGGCGATCTCATGGGCCAGTCCGGCGGTTTCGATGACAGCGGTTCGAAATATCGCGGTGCGCAGGGTCTCGATCCGGAACTGATCGCCAAGCTCGAAAAACAGTTCGGTTTCGACAAGCCGCCGCTCACCCGTTTTCTCGAGATGATGTGGAATTACATCCGCTTCGATTTCGGTGACAGCTTCTTCCGCAATTCCTCGGTGATCGATCTCATCATCGATAAGCTGCCGGTGTCCGCGTCGCTCGGCTTCTGGATCCTGATCATTTCCTACATCATCTCCATTCCGCTCGGCATCAAGAAGGCCGTGTCCGACGGCTCGACCTTCGATGTCTGGACCTCCGGCATCATCATCATCGGTTATGCCGTGCCAAGCTTCCTGTTCGGCATCCTGCTCATCGTCCTCTTCGCCGGCGGCTCCTTCTTCGACTGGTTCCCGCTGCGCGGTCTGGTATCGGATAATTTTGATCAGCTGAACTGGTGGCAGAAGATCATCGACTATTTCTGGCATCTGACCCTGCCGCTCATCGCACTGTCGCTTTCGGCCTTCGCTACGACGACGCTTCTGACCAAGAACTCCTTCATCGACGAAATCAAGAAACAATATGTCATCACCGCCCGCGCCAAGGGGCTCACCGAGCGCAGGGTTCTTTATGGTCATGTCTTTCGCAATGCGATGCTGATCGTGATCGCCGGTTTTCCCGGCGCCTTCATCTCGGCCTTCTTCACCGGATCGCTGCTGATCGAGAATATCTTCTCGCTCGATGGCCTCGGCCGCCTCGGTTATCTCTCGGTGGTCAACCGCGATTACCCGATCGTCTTCGGCACGCTCTTCATCTTCTCGTTGATGGGCCTGGTCGTCGGTCTCATTTCCGACCTGATCTATACATGGATCGATCCACGTATCGATTTCGAGCGGAGGGATGTGTGA	MGAYILRRLALMIPTIIGIMGISFLVIQFAPGGPVEQVVAQLTGQGDSASDRLSGGGDLMGQSGGFDDSGSKYRGAQGLDPELIAKLEKQFGFDKPPLTRFLEMMWNYIRFDFGDSFFRNSSVIDLIIDKLPVSASLGFWILIISYIISIPLGIKKAVSDGSTFDVWTSGIIIIGYAVPSFLFGILLIVLFAGGSFFDWFPLRGLVSDNFDQLNWWQKIIDYFWHLTLPLIALSLSAFATTTLLTKNSFIDEIKKQYVITARAKGLTERRVLYGHVFRNAMLIVIAGFPGAFISAFFTGSLLIENIFSLDGLGRLGYLSVVNRDYPIVFGTLFIFSLMGLVVGLISDLIYTWIDPRIDFERRDV	PGPT0011630_386	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|MICROCINS,PGPT0011630-yejB-K13894	NA	NA
BMS010_02034	1845			hypothetical protein	ATGATATTGGCACCACTGAAATCCCGTCTCCTCATTGCTCTTGCGGCATCCGCCCTGCTGATACCGGCGGCGGCCTCCGCACAATCGGCCGACGTGTGGCGGAAGGGGATTTCGACGGTCGGGGAACTGAAACATCCCGATGGCTTCGATCATTTCGACTATGTGAACACCAAGGCGCCGAAAGGCGGCACCCTTCGCCTGTCGACGGCGGGCACTTTCGATACCCTTAATCCGCTGCTTGCCAAGGGGGAGGCGGCGACCGGCCTGTCGCTGGTTTTCGATACATTGATGAAATCGACGGAAGAGGAGCTGTCGGCCTCCTACGGTCTTCTGGCCGAGGGCGTGAGCTACCCGGACGATATTTCGAAAGCCACCTTCCGGCTGCGCGCCGAGGCCAAATGGGCCGATGGCAAGCCGGTGACACCGGAGGATGTCGTTTTCAGCTTCGAAAAGGCCAAGGATTTGAGCCCGCAGCTGGCGACCTATTACACCCATGTCACCAAGGCGGAGGTGAGCGGCGAAAGGGACATCACCTTCACTTTCGATGAAAAGAACAATCGCGAATTGCCGCAGATCGTCGGGCAATTGCTGATCGTTCCCAAGCACTGGTGGGAAGCCAACGGCCCGGACGGCAAGCCGCGCGATATATCGCGCGGCACGCTGGAGCCGGTCATGGGTTCCGGCCCCTACAAGATTGCCTCAGTCTCTCCCGGCTCGACAATCGCTTACGAACGCCGCGACGACTACTGGGGCAAGGACGTCAATGTGAATGTGGGGATGAACAATTTCAAAACCATCGCCTACACCTTCTTCGCCGATCAGGATGTCGAATTCCAGGCCTTCAAGTCCGGCACCGTCGATTTCCGCCAGGAAGCCTCCTCCAGCCGCTGGGTCACGGGTTATGATTTCCCGGCCGTCAAGGAAGGCCGCGTCAAGAAGGAAGAACTGCCGAATATCTATCGTTCCGTCGGCATCATGCAGGCCTTCGTGCCGAATATGCGCCGCGAAAAGTTCCAGAACCCGAACCTGCGCAAGGCGCTCAATTATGCTTTCGATTTCGAGGAGCTGAACCGAACGCTGGCTTACGGCCAGTTCCAGCGCATCAACAGCTTCTTCATGGGCAGCGAGCTGGCCTCTTCCGGCCTGCCGACCGGTCGCGAGCTGGAAATTCTTCAGGAACTGAAGGATCAGGTTCCGCCAGAGGTTTTCACCACCGAATATCGCAATCCGGTCGCGGGTGATCCGGCCAAGCAGCGTGACAATCTGCGCGAGGCGGTCAAGCTGATGAAGGAAGCCGGCTACGAGCTGCGCGGCAACCGCATGGTCAATGCCAAAACCGGACAGCCGCTCGATATGGAGTTTCTGATCGATTCCGCCGGCATGGAAAGAACCATCCTTCCCTATGTGCAGAATCTGAAGAAGATCGGCATCAACGCGACGATCCGGACCGTTGACGCCTCGCAATATACCAACCGCACACGCAGCTTCGATTATGACGTGATCGTCAAGCTCTGGGCGACGTCGGCGAACCCCGGGAACGAACAGGCGGATTTCTGGGGCTCGGCCGCCGCCGACCGGCAGGGGTCCAACAATATTGCCGGAATCAAGAATCCCGCCGTCGATGCGTTGGTCAGGAAGGTCATATTTGCGCCCAACCGGGATGAACAGGTGGCCGCCGCACGCGCGCTCGACCGGGTGCTTCTGGCAAACAGCTACGTCATCCCGCAATTCTACCGCGGCGAGATGTTCATCGCTTACTGGAGCACGCTTATCCGTCCGGAAAACCTGCCCCAATATGGTGTCGGTTTTCCCGATGCATGGTGGTCCAGCCAGGCCGGAAACTGA	MILAPLKSRLLIALAASALLIPAAASAQSADVWRKGISTVGELKHPDGFDHFDYVNTKAPKGGTLRLSTAGTFDTLNPLLAKGEAATGLSLVFDTLMKSTEEELSASYGLLAEGVSYPDDISKATFRLRAEAKWADGKPVTPEDVVFSFEKAKDLSPQLATYYTHVTKAEVSGERDITFTFDEKNNRELPQIVGQLLIVPKHWWEANGPDGKPRDISRGTLEPVMGSGPYKIASVSPGSTIAYERRDDYWGKDVNVNVGMNNFKTIAYTFFADQDVEFQAFKSGTVDFRQEASSSRWVTGYDFPAVKEGRVKKEELPNIYRSVGIMQAFVPNMRREKFQNPNLRKALNYAFDFEELNRTLAYGQFQRINSFFMGSELASSGLPTGRELEILQELKDQVPPEVFTTEYRNPVAGDPAKQRDNLREAVKLMKEAGYELRGNRMVNAKTGQPLDMEFLIDSAGMERTILPYVQNLKKIGINATIRTVDASQYTNRTRSFDYDVIVKLWATSANPGNEQADFWGSAAADRQGSNNIAGIKNPAVDALVRKVIFAPNRDEQVAAARALDRVLLANSYVIPQFYRGEMFIAYWSTLIRPENLPQYGVGFPDAWWSSQAGN	PGPT0011625_874	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|MICROCINS,PGPT0011625-yejA-K13893	NA	NA
BMS010_02035	1014	mepA_1		Penicillin-insensitive murein endopeptidase	ATGCTGGCGATTTCGGTCGTCTCCGCGCTGCAGTTGCAGATGGAAACCGCATCGGCCGAGGACAGGCCCGCGAAAGAAGTGTTCGGCCACATGGCGCTGCCTTCCGCCACGGGCTCGCAGCCGATCGGCTCCTATGCCAAGGGCTGCCAGTCCGGCGCCATCGCCATGCCGACGGACGGTCCCGGCTGGCAGGCCATGCGCCTTTCCCGCAACCGGCGCTGGGGCCAGCCGCAGATGATTTCCTTCCTCGAACAATTTTCGCAGGATGCCCAGAAGATCGGCTGGCCGGGCCTGCTGCTGGGCGATATTTCCCAACCGCGCGGCGGGCCGATGCTGACCGGCCATGCGTCGCACCAGATCGGCCTCGATGTGGACATCTGGTGGCGGCCGATGCCGACCCCGCGGCTCACCGCGGAGCAGCGCGAAACCGTGCCTTTCATCTCCATGCTGGACAAGAGCAAGTTCCTGACGGTCGATGACCGCAAGTGGTCACCGCTCAATGCCCGGCTGGTGATGATGGCGGCGAGCTACCCGCAGGTGGAGCGTGTCTTCGTCAACCCGGCCATCAAGCAGAAACTCTGCCAGACATGGACCGGCGACCGCACCTTTATGGGCAAGATCAGGCCGATCTACGGCCATGACGAGCATTTCCACATCCGTCTCGAATGCCCGCCGGGCGCGCCCAATTGCAAACCGCAGGCGGCCGTGGGCAAAGGCGACGGCTGCGACAAGTCGCTTGCCTGGTGGTTCAGCAAGGAACCATGGGCGCCGCCGAAAAAGGACCCCAATGCCAAGCCGGTGAAACCGCGCCCGGTCATGGTTTCCGATCTGCCCTCGGCCTGCGCCGCCGTGGCCGCTGCCCCTTCCGCCAATCCCGAGGGACTTGCGGCCCAGGCCTATTCGCCTGCTCCGGCAACACGCCAGCAAAGCGTGGAACAGGTCATTCAGGCGGCCCCCGCCCTGCAGCCACCTTCGGATATTCCGCTTCCCACCCAGCGCCCGACATTGAACTGA	MLAISVVSALQLQMETASAEDRPAKEVFGHMALPSATGSQPIGSYAKGCQSGAIAMPTDGPGWQAMRLSRNRRWGQPQMISFLEQFSQDAQKIGWPGLLLGDISQPRGGPMLTGHASHQIGLDVDIWWRPMPTPRLTAEQRETVPFISMLDKSKFLTVDDRKWSPLNARLVMMAASYPQVERVFVNPAIKQKLCQTWTGDRTFMGKIRPIYGHDEHFHIRLECPPGAPNCKPQAAVGKGDGCDKSLAWWFSKEPWAPPKKDPNAKPVKPRPVMVSDLPSACAAVAAAPSANPEGLAAQAYSPAPATRQQSVEQVIQAAPALQPPSDIPLPTQRPTLN	PGPT0023825_86	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_DD-ENDOPEPTIDASE_ACTIVITY,PGPT0023825-mepA-K07261	NA	NA
BMS010_02036	384	mgsA_1	COG1803	Methylglyoxal synthase	ATGGAAGGACAACGCTGTATCGCGCTCATCGCTCACGACGAGAAAAAGGACGATATGGCGGATTTCGCCCGTCATCACCAGAAAGCGCTTGCCGGTTTCAGGATCGTCGCCACCGGCACCACCGGCGGGCGGGTACAGGAAGCCTGTCCGGGTCTTGAAGTCATTCGCCTCAAAAGCGGTCCGCTTGGCGGCGACCAGCAGATCGGCGCGATGATCGCCACCGGCGAGGTGGACATGCTGATCTTCTTCACCGATCCGCTGACGGCCATGCCGCATGATGTTGATGTGAAGGCGCTGACGCGACTTGCTACGGTTTACGATATTCCCATGGCGCTCAACCGCGCCACCGCAGAAAATCTCATCGACTTCCACGTCGCCAACTGA	MEGQRCIALIAHDEKKDDMADFARHHQKALAGFRIVATGTTGGRVQEACPGLEVIRLKSGPLGGDQQIGAMIATGEVDMLIFFTDPLTAMPHDVDVKALTRLATVYDIPMALNRATAENLIDFHVAN	PGPT0001780_1326	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001780-mgsA-K01734	NA	NA
BMS010_02037	1023	glk_1	COG0837	Glucokinase	ATGCCGAAGACGTCCGATACCGAATATCTGTCCTTTCCGATCCTGCTTGGCGACATCGGCGGCACCAATGCCCGCTTTTCCATTCTGATCGATTCCTTTGCCGAACCGGTGCATCTCACCACCGTGAAGACGGCGGAATATCCGACTATCGACGACGCCATTCAGCAGGCGGTTCTGGACAAGACCTCGCTTCAGCCGGTCTCGACCATTCTGGCGATTGCCGGCCCGATCGAAGGTGACGAGATACCGCTCACCAATTGCCATTGGGTCGTCAAGCCAAAGGACATGCTGGCCAATCTTGGCCTGAAGGATGTCATCGTCATCAACGACTTCGAGGCGCAGGCTCTGGCGATTGCAGCGCTTGACGACAACAACCGCGAACCCATCGGCTCCGTCCGTAAGGATGTGCTGGCATCGCGCGTCGTTCTTGGACCCGGCACGGGGCTTGGCGTCGCCGGGCTGGTTTATGCCCGTCATATGTGGTTCCCGGTGCCTGGTGAGGGCGGCCATATCGATATCGGCCCGAGAAGCGCGCGTGACTATGCGGTTTTTCCGCATATCGAAACCATCGAGGGCCGTGTCGCCGGGGAGCAGATTCTGTGCGGGCGCGGGCTGGTCAATCTTTACCGGGCCGTCTGCACCGCCGATGGCATCGAGCCAGTCTTTTCCGATCCGGCCGACATTACCTCGCAGGGGCTTTCGGGTGAGAACCGGCAGGCTAAAGAGACCCTGTCCCTTTTCAGCACCTATCTCGGCCGCGTGGCCGGTGACCTCGCGCTGATCTTCATGGCCAAGGGCGGTGTCTATCTGGCCGGCGGCATTTCGCAGAAGATCATTCCGGCGCTGAGGAGCCCGGAATTCCGGGCTGCCTTCGAAGACAAGGCGCCGCACAGCGCGCTGATGCGGACCATTCCCACCTTCGTCGTCACCCATCCGCAGGCGGCGCTTTCCGGGCTTGCCACCTATTCGAGAACGCCGTCCGATTTCGGCCTGTCGCTGGACGGACGACGCTGGAGGACTTGA	MPKTSDTEYLSFPILLGDIGGTNARFSILIDSFAEPVHLTTVKTAEYPTIDDAIQQAVLDKTSLQPVSTILAIAGPIEGDEIPLTNCHWVVKPKDMLANLGLKDVIVINDFEAQALAIAALDDNNREPIGSVRKDVLASRVVLGPGTGLGVAGLVYARHMWFPVPGEGGHIDIGPRSARDYAVFPHIETIEGRVAGEQILCGRGLVNLYRAVCTADGIEPVFSDPADITSQGLSGENRQAKETLSLFSTYLGRVAGDLALIFMAKGGVYLAGGISQKIIPALRSPEFRAAFEDKAPHSALMRTIPTFVVTHPQAALSGLATYSRTPSDFGLSLDGRRWRT	PGPT0017730_581	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0017730-glk-K00845	NA	NA
BMS010_02038	828	dapB_1	COG0289	4-hydroxy-tetrahydrodipicolinate reductase	ATGGGCAGCAGCGGCATGAAACTGGTGGTGGTCGGCGCGGCGGGCCGCATGGGACAGGCGCTGATCCGCCTCATTCACCAGACCCCCGGCGTCCAGCTGCATGCCGCCGTCGCGCGCGAAGGCTCCGCCTTTGTCGGCCGCGATGCGGGCGAGATTGCGGGTCTTGGCCCGATCGGTGTCGAGATCACCAGCGATCCCCTTCAGGCCTTTCTCCATGCGGAAGGGGTGATCGATTTCACTTCGCCGGCAACCAGCGTCACCTTTGCCGGCCTCGCCGCACAGGCCCGCATCGTGCATATCATCGGCACCACGGGCTGCTCGGCGGAAGACGAGGAAAAATTCAAGGCAGCGTCGCGCCATGCCCGCATCGTCAAGTCGGGCAATATGAGCCTCGGCGTCAACCTGCTCAGTGTTCTCACACAGCAGGCGGCGCAGGCGCTGGATGCGCAGAACTGGGATATCGAAATCCTTGAAATGCACCACAAACACAAGGTGGATGCGCCCTCGGGCACCGCCCTTCTGCTCGGCGAGGCGGCGGCGGCGGGCCGCAAGGTCGATCTCACCACATCGTCCGTTCGCGTGCGCGACGGGCATACGGGTGCGCGTGAAGCGGGGACCATCGGTTTTGCCACGCTGCGTGGCGGCTCGGTGATCGGCGAACATTCTGTGATCTTCGCCGGAGAGGGCGAGCGCGTGGAGCTTTCGCATTATGCCGGCGACCGCTCCATTTTCGCGCGCGGCGCGATTGCTGCAGCCGTCTGGGCCTTCGACAAGAAGCCGGGCTTCTATTCGATGCTGGATGTGCTGGGGCTTTCGCAGGCGGAGTAA	MGSSGMKLVVVGAAGRMGQALIRLIHQTPGVQLHAAVAREGSAFVGRDAGEIAGLGPIGVEITSDPLQAFLHAEGVIDFTSPATSVTFAGLAAQARIVHIIGTTGCSAEDEEKFKAASRHARIVKSGNMSLGVNLLSVLTQQAAQALDAQNWDIEILEMHHKHKVDAPSGTALLLGEAAAAGRKVDLTTSSVRVRDGHTGAREAGTIGFATLRGGSVIGEHSVIFAGEGERVELSHYAGDRSIFARGAIAAAVWAFDKKPGFYSMLDVLGLSQAE				NA	NA	NA	NA	NA
BMS010_02039	738			hypothetical protein	ATGGGCCCTTCGGCAGCGATGAAAAGAAAGAACGGCGTGGCGCTCTGGCGGCAGATCGCCGACAGGATCAGAGGCGAGATCGCGGCGGGCGATCACGATGAAACCGGCATGTTGCCGCCGGAAATGACGCTGGCCGAAAAATTCGGCGTCAACCGTCACACCGTCCGAAGCGCCATTGCCGCACTCGCCAGCGAAGGCATTCTCGAGCCGGTGCAGGGGCGTGGCACGATGATCGCCCGCAAGGAGCGCCTGAGTTTTCCGATTTCGCGGCGCACGCGGTTCACAGCGGGCATTGCCGATCAGGTCAAGGAAATGGAGGCCCTGCTTCTTTCCCACACAACCGAACCGGCCAATGCCGATCTGGCGGCGCGGCTGCAATTGCCGGCGGGTGCGCCGCTCATACGTCTCGAAACGCTGCGCAAGGCCGATAACCGGCCGGTGTCCCGCTCGACCACATGGTTTCCGGCGGATCGTTTCGCCGGAATAGGCGAGGCCTATCTTAAAAGTGGCTCGATTACGGCTGCCTTCAATATGCTGGGCGTGGCGGATTACGTGCGCATTTCCACCGTCATTTCCGCCAGCCATGCGGACACGCAGGATCTGGCCGATCTCGAATTGTCGCCGGGCGCGATCCTGCTTGTTACTCAAGCATTGAACGCCGACATGGATGGCGTACCAGTGCAATATGCCATCAGCCGTTTTTCGGCCGATACGGTCGAATTCACGGTGGAGAATTAA	MGPSAAMKRKNGVALWRQIADRIRGEIAAGDHDETGMLPPEMTLAEKFGVNRHTVRSAIAALASEGILEPVQGRGTMIARKERLSFPISRRTRFTAGIADQVKEMEALLLSHTTEPANADLAARLQLPAGAPLIRLETLRKADNRPVSRSTTWFPADRFAGIGEAYLKSGSITAAFNMLGVADYVRISTVISASHADTQDLADLELSPGAILLVTQALNADMDGVPVQYAISRFSADTVEFTVEN	PGPT0002515_239	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002515-phnF-K02043	NA	NA
BMS010_02040	462	phnG	COG3624	Alpha-D-ribose 1-methylphosphonate 5-triphosphate synthase subunit PhnG	ATGATTCACGAAACTGCAAACTTGCATGCAGACAGAAAGCGGGTGGCGGCGCTTCTTGCCCGCGCCACCGTGCAGGAACTCGAAACCGTCTGGAACCGGCAGGATGAGAGCCCCCGGACGGAAAACGTGCGCGGCCCGGAAACCGGACTCGTCATGGTCAAGGGCCGCATCGGCGGCGGCGGCGCGCCCTTCAATCTGGGTGAGACGACTGTTACCCGGGCAACCGTCAAGCTTGCCTCGGGCACCGTCGGTCACGCGCATGTTCTCGGCACCGGCCGCAAGAAGGCCTGGTATGCCGCCGTTTTCGATGCGCTGTGGCAGGAAAGCCCGACCCGCGGCTTCATCGAAACCGAGCTTCTTTCACCGGTCGAGAAGCGACTGGCCGAGGAGAAGGACAGGAAAACAAAAGAGACCGCCGCCACCCGGGTCGATTTCTTCACCATGGTTCGAGGAGAGGATTGA	MIHETANLHADRKRVAALLARATVQELETVWNRQDESPRTENVRGPETGLVMVKGRIGGGGAPFNLGETTVTRATVKLASGTVGHAHVLGTGRKKAWYAAVFDALWQESPTRGFIETELLSPVEKRLAEEKDRKTKETAATRVDFFTMVRGED	PGPT0002435_303	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002435-phnG-K06166	NA	NA
BMS010_02041	609	phnH	COG3625	Alpha-D-ribose 1-methylphosphonate 5-triphosphate synthase subunit PhnH	ATGAGCGTCAAGGCCGAAGCATTGACGGGCGGTTTTTCCGACGCCGTCTTCGATTCCCAACGGATTTTCAAGAAACTCATGGATGGCATGGCCCGGCCGGGCACGCCGCAGACAATCGAAAACGCAGTCGCCCCGCCATTGCCTCTCGCCCCCGCGACCGGCGCGGTCCTGCTGGCGCTCTGCGATCACGATACGCCGGTCTGGCTGAGCGGCGCGCTACGAAAAACCACCGTCCCTGGTTGGGTCGCATTTCATACCGGCGCGGTCGCGACGGATGAAAAAAATGCGGCGCATTTCGCCGTCATCGAAGCGGGCAGCGCCATAGCTTCCTTCGGTCTCTTCGCCCAGGGAAGTCAGGAATATCCGGACCGCTCCACCACACTCATCATCGAGTTGCCTGATCTGGATGGGGGACGGGAATTGCTGCTCTCCGGCCCCGGTATCCGCCACGTCAACATCATCAGCCCCACCGGCCTGCCGGACATATTCCCGCGGCTGTGGGCAGAGAACAACGCCATTTTCCCGCGCGGCGTCGACGTCATCCTGACATCCGCCGACAGATTTGTCTGCCTGCCGCGCACGACGCGCATTCAACCCGTGGAGGCGTAA	MSVKAEALTGGFSDAVFDSQRIFKKLMDGMARPGTPQTIENAVAPPLPLAPATGAVLLALCDHDTPVWLSGALRKTTVPGWVAFHTGAVATDEKNAAHFAVIEAGSAIASFGLFAQGSQEYPDRSTTLIIELPDLDGGRELLLSGPGIRHVNIISPTGLPDIFPRLWAENNAIFPRGVDVILTSADRFVCLPRTTRIQPVEA	PGPT0002440_177	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002440-phnH-K06165	NA	NA
BMS010_02042	1110	phnI	COG3626	Alpha-D-ribose 1-methylphosphonate 5-triphosphate synthase subunit PhnI	ATGTATGTTGCTGTCAAAGGCGGGGAAACCGCCATTGCCAACGCCCACCGGCTTCTGGCCGACAAGCGGCGCGGAGACCGCCACCTGCCCGCGATGACGGTGTCGCAGATCGTTTCGCAGCTTTCGCTCGCCGTCGACCGGGTGATGGCGGAAGCGTCTCTTTACGATCAGTCGCTTGCAGCCCTTGCCGTCAAGCAGGCCCGTGGCGACATGATCGAGGCCATTTTCCTGCTGCGCGCCTACCGCACGACGCTGCCGCGCTTCGGTTATTCGGTTCCGGTCGATACCGCTGACATGACGGTGCAGCGGCGCGTTTCCGCGACCTATAAGGATTTGCCGGGCGGACAATTGCTGGGGCCGACCTTCGATTACACCCATCGCCTGCTCGATCCTTCGCTTCTTGAGGACGAGGCCGTTGAGACAGCCACCCAGCGCGAAGGCGAGCCGGAACATGTCATGCGCGTTTCAGACATTCTGGCGCAAGAAGGGCTGATCGAAACCGACGGCGATATGCCGGCTGACCATATTGCCGGCGACCTAACGCGAGAACCGATGGAATTTCCAATGCCGCGTGACCTGCGCCTGCAATCGCTGGCACGTGGTGATGAGGGTTTCCTTCTGGCGCTCGCTTATTCGACGCAGCGCGGTTACGGCCGCACCCATCCGTTCGTCGGTGAAATCCGCATCGGCGAGGTGGAGGTCGAACTGGACGTGCCGGAACTCGGCTTTGCCGTCTCGCTGGGCGACATACAGGTCACCGAATGCCAGATGGTCAACCAGTTCAAGGGTTCCGCCAAGGCGCCGCCGCAATTCACGCGCGGCTACGGTCTGGTGTTCGGCCAGAGCGAGCGCAAGGCGATGGCCATGTCGCTGGTCGACCGGGCGCTGCGGGCAGGCGAATTCGGCGAGGACGTCGTGGCCCCCGCGCAGGACGAGGAATTCGTCATTTCACACGCCGACAACGTTCAGGCGACGGGTTTCGTCGAACATCTGAAACTGCCGCATTACGTGGATTTTCAGGCCGAACTCGGTCTTGTCAGGAAAATGCGCACCGATTTCGAGGCGATCAACTCAAATGGCGCGGAGTGGCTGGGCGATGCGGCCGAATAG	MYVAVKGGETAIANAHRLLADKRRGDRHLPAMTVSQIVSQLSLAVDRVMAEASLYDQSLAALAVKQARGDMIEAIFLLRAYRTTLPRFGYSVPVDTADMTVQRRVSATYKDLPGGQLLGPTFDYTHRLLDPSLLEDEAVETATQREGEPEHVMRVSDILAQEGLIETDGDMPADHIAGDLTREPMEFPMPRDLRLQSLARGDEGFLLALAYSTQRGYGRTHPFVGEIRIGEVEVELDVPELGFAVSLGDIQVTECQMVNQFKGSAKAPPQFTRGYGLVFGQSERKAMAMSLVDRALRAGEFGEDVVAPAQDEEFVISHADNVQATGFVEHLKLPHYVDFQAELGLVRKMRTDFEAINSNGAEWLGDAAE	PGPT0002445_264	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002445-phnI-K06164	NA	NA
BMS010_02043	903	phnJ	COG3627	Alpha-D-ribose 1-methylphosphonate 5-phosphate C-P lyase	ATGCTTGAAGAAGTTTCATTTGACGACGGGCTGGCTGCCTACAACTTCGCCTATCTGGACGAACAGACCAAGCGAATGATCCGCCGGGCGATCCTGAAGGCCATCGCCATTCCCGGTTATCAGGTTCCCTTCGCTTCCCGCGAAATGCCCATGCCCTATGGCTGGGGCACCGGCGGTGTGCAGGTAACCGCTTCCATTCTCGGCCCAGACGATGTGCTGAAGGTTATCGATCAGGGTGCGGACGACACGACCAATGCGGTTTCCATCCGCGCCTTTTTCCAGAAGGTGGCGAATGTTGCCGTCACCACCCGCACCAAGGATGCAACTATCATCCAGACGCGGCATCGCATTCCCGAAGAAGAACTGCATTCGGGTCAGGTCCTCGTCTATCAGGTTCCCATTCCCGAGCCCCTGCGCTTCCTCGAGCCGCGCGAGACCGAAACGCGAGTCATGCACGCGCTGGAGGAATACGGCCTGATGCACGTCAAGCTTTACGAGGATATCGCCCGCAACGGCCGTATCTCCACCACCTACGCCTATCCGGTGAAGGTGGCCGGGCGGTATGTGATGGATCCATCGCCTACCCCGAAATTCGACAATCCGAAAATGCATCTCTCGGACGCCCTGCAACTCTTCGGCGCAGGACGCGAAAAGCGCATCTATGCCGTGCCGCCCTATACCGACGTCGTCAGCCTCGATTTCGAGGACCATCCCTTCGAAATCCAGCGCTTCGACAAGCCCTGCGCGCTGTGCGGTGCGGAGAATGTCTATCTGGACGAGGTGGTGCTTGATGATAAGGGCGGGCGGATGTTCGTCTGCTCCGATACCGACCATTGCGAGGACCGCCGCGCCCATGGCCACAAGGGCCACCTGCTGGCGGATGTGAAGGAGGCCGCAGAATGA	MLEEVSFDDGLAAYNFAYLDEQTKRMIRRAILKAIAIPGYQVPFASREMPMPYGWGTGGVQVTASILGPDDVLKVIDQGADDTTNAVSIRAFFQKVANVAVTTRTKDATIIQTRHRIPEEELHSGQVLVYQVPIPEPLRFLEPRETETRVMHALEEYGLMHVKLYEDIARNGRISTTYAYPVKVAGRYVMDPSPTPKFDNPKMHLSDALQLFGAGREKRIYAVPPYTDVVSLDFEDHPFEIQRFDKPCALCGAENVYLDEVVLDDKGGRMFVCSDTDHCEDRRAHGHKGHLLADVKEAAE	PGPT0002450_172	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002450-phnJ-K06163	NA	NA
BMS010_02044	777	phnK	COG4107	Putative phosphonates utilization ATP-binding protein PhnK	ATGAGCGACGCACCGCTTCTGAAAGTCCGGGACGTTTCCAAATATTATGGCGACCGCGCCGGTTGCCGCAATGTCTCCTTCGAGCTTTACCCGGGCGAGGTGCTTGCCATCGTCGGCGAATCCGGTTCCGGCAAGACCACGCTACTCAACTGCATTTCCACCCGGCTGATGCCGACGGCGGGCAGTGTGGAGTATCGCATGCGCGACGGTTCGGTGCGTGACCTCTATCATATGGGCGAGGCCGAACGGCGTTTCCTGATGCGGACCGACTGGGGTTTCGTGCACCAGAACCCGGCGGACGGGCTGCGCATGGCGGTTTCGGCCGGCGCCAATGTCGGCGAGCGGCTGATGGCCGTCGGTAACCGGCATTACGGCAATATCCGGCAATCGGCCAGCGAATGGCTGGAACGGGTGGAAATCGGCACCGACCGCATCGACGACCAACCACGCGCCTTTTCCGGCGGCATGCGACAGCGCCTGCAGATCGCCCGCAACCTCGTCACCTCGCCGCGCCTCGTCTTCATGGACGAACCGACTGGCGGCCTCGATGTTTCCGTGCAGGCACGCCTGCTCGATCTGGTCCGCGGTCTCGTCAACGATCTCGGTCTCGCCGTCGTCGTCGTCACCCATGATCTTGCGGTGGCGCGGCTGCTTTCCCATCGCATGATGGTGATGAAGGGCGGCGATGTCATCGAGCACGGCCTGACCGACCGGGTGCTGGACGATCCGCGCGAGCCATACACGCAATTGCTTGTTTCCTCTATTCTGCAGGTTTGA	MSDAPLLKVRDVSKYYGDRAGCRNVSFELYPGEVLAIVGESGSGKTTLLNCISTRLMPTAGSVEYRMRDGSVRDLYHMGEAERRFLMRTDWGFVHQNPADGLRMAVSAGANVGERLMAVGNRHYGNIRQSASEWLERVEIGTDRIDDQPRAFSGGMRQRLQIARNLVTSPRLVFMDEPTGGLDVSVQARLLDLVRGLVNDLGLAVVVVTHDLAVARLLSHRMMVMKGGDVIEHGLTDRVLDDPREPYTQLLVSSILQV	PGPT0002460_466	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002460-phnL-K05781	NA	NA
BMS010_02045	708	phnL	COG4778	Alpha-D-ribose 1-methylphosphonate 5-triphosphate synthase subunit PhnL	ATGCCGACGCCTCTTATCGTTTCGGAAGTCTTCAAAAGCTTCACCATGCATCTTCGCGACGGTATCGAATTGCCCGTTGTGCGCGATGTCAATTTCTCCGTTTGCGGCGGCGAATGTGTCGTGCTCGGGGGGCCCTCCGGCATCGGCAAAAGCTCGATCCTGAAAATGCTCTATGGCAACTACGCCATCGACAGCGGGCAGATTCTCGTTCGTCATGAGGGCCAGGTCGTCGATATCGGCAACGCCTCGCCGCGCACGATCCTCGATATCCGTCACCGCACCATCGGTTATGTCAGCCAGTTCCTGCGCACCGTGCCGCGTGTCTCTGCCATAGATGTCGTCGCCGAACCGCTTCTGGCGCGCAAGGTTGCCGCCGATGAAGCCCGCGAACACGCAGCCATGCTGCTTTCGAAGCTCAACCTGCCACGGGAACTATGGTCGCTTCCGCCCGCAACCTTTTCGGGCGGCGAGCAGCAGCGCGTGAATATCGCCCGCGGCTTCATCACCGACCATGCGATCCTGCTTCTGGACGAGCCGACGGCCTCGCTGGACGCCCTCAACCGGCGTGTCGTCGTCGATATGATCGTCGAGAAAAAACAGAAGGGCACGGCACTGCTCGGCATTTTCCATGACGAGGAGGTGCGGGAGGCCGTGGCCGACCGCATTCTGGACGTCTCACAGTTTTCTCCCAGGAAAGCAGCGGCATGA	MPTPLIVSEVFKSFTMHLRDGIELPVVRDVNFSVCGGECVVLGGPSGIGKSSILKMLYGNYAIDSGQILVRHEGQVVDIGNASPRTILDIRHRTIGYVSQFLRTVPRVSAIDVVAEPLLARKVAADEAREHAAMLLSKLNLPRELWSLPPATFSGGEQQRVNIARGFITDHAILLLDEPTASLDALNRRVVVDMIVEKKQKGTALLGIFHDEEVREAVADRILDVSQFSPRKAAA	PGPT0002455_352	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002455-phnK-K05780	NA	NA
BMS010_02046	618	dapH_3		2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-acetyltransferase	ATGAGCGTCAAGGTGGGTCTGGAACCGGTCATCCATGAGACCGCCCGTGTCAGCAACTCCGCGATCGGCCGTTATACCGAAATTTCGGAACGCTGCCGCATCGAGGAAGTCGAGATGGGCGACTACTCCTATGTCATGCAGGATGGTGCGATCTGGTGCGCCACCATCGGCAAATTCGTCAACATCGCCGCCTCCGTCCGCATCAATGCCACCAATCACCCGATGCAGCGGGCGACGCTGCATCACTTCACCTATCGTGCCAACAACTATTGGGACGATGCGGAGGATGAGACGGACTTCTTTGCCGCCCGCCGCGCCAAGCGCGTCGTCATCGGCCATGATGTATGGATCGGCCATGGTGCGACGATCCTGCCCGGCGTCACGGTGGGAAACGGCGCTGTGATCGGGGCGGGTGCAGTCGTCTCAAAAGATGTCGCGCCCTATACCATCGTCGGCGGCGTGCCCGCCCGGCTGATTAGGGAGCGCTTCCCGGCGGAACTGGGCCGGCAAATGGATAATCTGAAGTGGTGGGACTGGGATCACGCGGCATTGCGCGTCGCTCTCGACGATTTCCGCAATCTGGACGCCGAGGTTTTCGTCGCGAAATATGGCGGATGA	MSVKVGLEPVIHETARVSNSAIGRYTEISERCRIEEVEMGDYSYVMQDGAIWCATIGKFVNIAASVRINATNHPMQRATLHHFTYRANNYWDDAEDETDFFAARRAKRVVIGHDVWIGHGATILPGVTVGNGAVIGAGAVVSKDVAPYTIVGGVPARLIRERFPAELGRQMDNLKWWDWDHAALRVALDDFRNLDAEVFVAKYGG				NA	NA	NA	NA	NA
BMS010_02047	861	phnC	COG3638	Phosphate-import ATP-binding protein PhnC	ATGAGCTTTCACCTGAAGCAAGTCACGCGCCGTTTCGGCAACCACACTGCGGTCGATTCCGTGAATGTCGAAATTCCGCAGGGCCAGATGGTCGGCGTGATCGGACGCTCGGGTGCGGGAAAATCGACGCTGCTGCGCATGATCAACCGCCTCGTCGATCCGTCCTCGGGTTCCATCCATTTCAACGACACGGAAGTTTCGGCGCTGAAGGGTGCTGCGCTTCGTAGCTGGCAGCGCGACTGCGCCATGATTTTCCAGCAGTTTAATCTGGTGCCGCGTCTCGATGTGCTCACCAATGTCATGCTCGGCCGCCTCAACCACCGCTCGACGGCGCTCAGCCTGTTCAACATCTTCACCAATGACGAGCGCCTGATGGCCATCGCCGCCCTGGAAAGGCTTGGCATCGAACATGTGGCCATGCAGGCGGCCGGCACGCTTTCCGGCGGTCAGCAGCAGCGCGTCGCCATCGCCCGCGCCCTGATGCAGTCTCCGAAGATGGTTCTGGCCGACGAGCCGATCGCTTCCCTCGACCCGCTGAACGCCAAGATCGTAATGGACGCGCTGCGCGACATCAACGAACGCGAAGGCATCACGGTCATCACCAACTTGCACACGCTGGATACGGCACGCAATTATTGCGAACGCATCATCGGCATGTCTCAGGGCCGCGTCGTCTTCGACGGAACGCCGGCAGAGCTGACGGCTGCGGCCGTCACGGAGATTTACGGAACCGATTCTCAAGGGTCCGGCATCGACGAGACCATGACCTCGACCAGCATCAATATTCCCGGCGCGCAGCTTCCCGCGCGTCCGGTGCAGCAATCTGCCGGCCCCGAACCGCTCGCTCTCGCCGGGCTCTGA	MSFHLKQVTRRFGNHTAVDSVNVEIPQGQMVGVIGRSGAGKSTLLRMINRLVDPSSGSIHFNDTEVSALKGAALRSWQRDCAMIFQQFNLVPRLDVLTNVMLGRLNHRSTALSLFNIFTNDERLMAIAALERLGIEHVAMQAAGTLSGGQQQRVAIARALMQSPKMVLADEPIASLDPLNAKIVMDALRDINEREGITVITNLHTLDTARNYCERIIGMSQGRVVFDGTPAELTAAAVTEIYGTDSQGSGIDETMTSTSINIPGAQLPARPVQQSAGPEPLALAGL	PGPT0002520_157	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002520-phnC-K02041	NA	NA
BMS010_02048	906	phnD	COG3221	Phosphate-import protein PhnD	ATGTTGAAGAAAGTCCTTCTTTCGGCAGTCGCGCTTGGCGTTCTGGCCGGTTCCGCCATGGCTCAGGACGTCAAGGTTCTGCGCATCGGTCTCGACGGCTCCGAAAACGAAGCCGACCAGATCCGCAACACCAAGTGCGTTGCCGATGGCCTGAAGGCCGCGACCGGCGTTGCCGAAGTTCAGGTTTTCCCGTCGCCGGACTATAACGGCGTCATCCAGGGTCTTCTCGGCGGCACCATCGACATCGCTTCCATGGGCGCGTCCTCCTACGCCAAGATCGCTCTTGCCGATCCGAAGGCCGTCGATCCGATCCTGACCACGGCCGGCGCTGACGGTTCGACCGGTTATTACACGATCATGGTTGCCCGCAAGGACAGCGGTATCAAGACGCTGGCTGACGCCAAGGGCAAGAAGATCGGCTTTGCCGACCCTGACTCCACCTCCGGCTTCCTCGTTCCGAACGTGGCTATCCCGAAGGAAACCGGTGTTCCGGTCAAGGAATACTTCTCCGAAACCGGCTTCGGCGGCGGCCATGAGAACCTCGTTCTCGCCGTTCTCGACAAGAAATTCGATGTCGGCACCACCTTCGGTTCGGGCGTCGGCAAGTGGGAAGAAGGCTACACCGCCGGCAACCTCTACCAGATGGTCAAGAAGGGCAACCTCGACATGGACGATATCGTCGAAGTCTGGAAGTCGCCCCTGATCCCGAACGGCCCGCTGATGGTCACCAACAAGCTCGGCGACGCGATGAAGCAGAAGGTCGAAGACTTCTTCATGGAACTGCCGAAGAAGGACCTCGCCTGCTTCCAGGGTTTCACCCAGGGCAAAAACACCGCCTACATCAAGGTCGATCCGTCCTTCTACCAGACGATCATCGACGCCCGTAAGTCCGTTATCGGCGGCTGA	MLKKVLLSAVALGVLAGSAMAQDVKVLRIGLDGSENEADQIRNTKCVADGLKAATGVAEVQVFPSPDYNGVIQGLLGGTIDIASMGASSYAKIALADPKAVDPILTTAGADGSTGYYTIMVARKDSGIKTLADAKGKKIGFADPDSTSGFLVPNVAIPKETGVPVKEYFSETGFGGGHENLVLAVLDKKFDVGTTFGSGVGKWEEGYTAGNLYQMVKKGNLDMDDIVEVWKSPLIPNGPLMVTNKLGDAMKQKVEDFFMELPKKDLACFQGFTQGKNTAYIKVDPSFYQTIIDARKSVIGG	PGPT0002525_1889	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002525-phnD-K02044	NA	NA
BMS010_02049	987			hypothetical protein	ATGGCGACCACAATGCATCATGGCACCCTCTCCTCCAAGGGATTGAGCGCATCGTCCCAGACGGTCATGCGTCATTATCAACAGCAGCTTGCGACAAGACGGATCTATACCGTTATTTCGCTTGTGATCTTCCTCGTCATCCTCGCCGCTTCCCTGAATTTTGCCAACGCGGCCAATTCTGGTAAATTCTTCGAGCGCCTGCCCTATTTCTTCGACTTCATGAAAACCTTCGTGCCGGACAGCCCGCTTGAAATTTTCCGGGCGATGTTCGACCTGCCGTCGCCCTATGCGGACGGTTCGCTGAAATATAATTACGTTGCGGATCGTGTTTACATCACTGACAGCTTCTACATCCCGCATTTCATCTATCAGCTGATCATCACGCTCAACATCGCGATGGTTTCGACAATCATCGGCACCAGTTTTGCCTTCGTGCTGTGCTTTTTTGCCTCCACAAATCTCGTCGGTGCCGGGATCGTGCGCTGGGTGGTGCGCCGGGTAATGGAAGTCCTGCGCGCCTTTCCGGAAATCGTCGTCGCCGGGTTGCTCACCGCCATCCTGTCGATCGGCCCGATCGCCGCGATCATCGCGATTTCAGTCCACACGATCGGCGCTCTGGGCAAGCTGTTCTTCGAAGTGGTGGAAAATGCCGACATGAAGCCGGATGAAGGCTTGCGCGCCGCCGGCGCCAACTGGCTGGAACGAGTGCGCTTCGCCATCGTGCCGCAAGTTCTGCCCAATTTCGTCTCTTACGCGCTGCTGCGCGCCGAAATCAACGTGCGCGCCTCCACCATCATCGGTGCCGTGGGCGGCGGCGGTATCGGCGAGGTCTTCCGCCTGTCGATCGGTAACGATCATGCGTCGAAGACCTATGCCATCATCATCCTTCTGCTGATCACCATCATCGCCGTCGACCAGTTTTCCGGCTGGCTGCGCCGCAGGCTGATCGGTCATCAATCCTTCGAATTCGGACGGGGAGCGGCCTGA	MATTMHHGTLSSKGLSASSQTVMRHYQQQLATRRIYTVISLVIFLVILAASLNFANAANSGKFFERLPYFFDFMKTFVPDSPLEIFRAMFDLPSPYADGSLKYNYVADRVYITDSFYIPHFIYQLIITLNIAMVSTIIGTSFAFVLCFFASTNLVGAGIVRWVVRRVMEVLRAFPEIVVAGLLTAILSIGPIAAIIAISVHTIGALGKLFFEVVENADMKPDEGLRAAGANWLERVRFAIVPQVLPNFVSYALLRAEINVRASTIIGAVGGGGIGEVFRLSIGNDHASKTYAIIILLLITIIAVDQFSGWLRRRLIGHQSFEFGRGAA	PGPT0002530_665	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002530-phnE-K02042	NA	NA
BMS010_02050	1350			hypothetical protein	ATGTCGTCCAGCTTCATTCTCAACACCGCCGACCGCGAGAGATTGACGGCCGCGCATCCGCACGTGTTCAATCGCGGTTTCATGCAGCGATATGGTCTGCTCGTCGGCCTTCTCGCCGTCACCGTCTATCTCATCGGCTGCTTTTTCTTCTTCAATGTCGGCCCGGCCTTCATGCAGGGCCGGTGGGATCGTGCCTCGAGCTATATTCAGGACTGGTATTCCTGGCGTGCCCAGCCGCGCCTGCGTTTCGAAGACGGCAAGGTGGAGCCGCAATGGTCCAGCCGCGGGCAATATCCGGTCGATGCAAAGATCGACTGGCTGCAGCCCCTGCCGGATGGCGGCTACAGCGTCGTTTATGCGGGCATGGAAAACCGCCTCGACGTGACCCCGACCCGGGTGGATGTCTATGTCGACGGCAAGAATTACCCCGTCATCATCAATGGAGAACAGGCCCGGGCATCCGAAGACGTGCCGCAGGAAATCCAGCAGGACGGCAACAAGGTTCTCGTGCATTTTGGTTTTGCCGGACAGGCGGAAATCCGCACCAGCCAGGTCTATGTCCAGCGTCGTTTCCTCGGATGGGCGAATTTCCTGTTCGACACCAAATCGGAATTCTGGGGCAAGGGCTATGGTGAACTCGCCGCTCTCGCGCTGTGGGGAGAAAGGCTCGATCCCGAGCGCTCCAATATCGGCCACATGGTGGATGATTTCCTCGACAACAGCGTCTGGCAACATGCCGATATTCTTTCCAAGCTGATGCAGACGCTGGTCATGGCCTTTGTGGGCACGCTGTTCGGCACGCTCGTCGCCCTGCCGCTCGCCTTCATCGCCGCGCGCAACATAACCGCCAACAGAGCCGCAAACTGGGGCATGAAGCGGCTATTCGACTTCCTGCGTTCCATCGACATGCTGATCTGGGCGCTGTTCTTCACCCGCAGCTTCGGGCCCGGACCGATCCCCGGCATTGCCGCGATCTTCTTCACCGATACCGGCGCGCTCGGCAAGGTCTATGCCGAGGCGCTGGAAAATGTCGACGACAAGCAGCGCGAGGGCGTCAAATCGGTCGGCGCTTCCCCGATTGCGGTCAACCGCTTCGGTGTGCTGCCGCAGGTCCTGCCGGTCTTCATTTCGCAGTCACTCTATTTCTGGGAAAGCAATACCCGCTCCGCCACCATCATCGGCGCGGTGGGCGCCGGCGGCATCGGTCTGAAACTGCTGGAAGCGATGGGCACCAATGCCGACTGGGACAAGGTCGCCTATATGGTCCTGCTTATTCTCTTCGTCGTTTTCCTGTTCGACCACATCTCCAATTCGCTGCGTTCACGCCTGATCGGCAAAACACAACACTAG	MSSSFILNTADRERLTAAHPHVFNRGFMQRYGLLVGLLAVTVYLIGCFFFFNVGPAFMQGRWDRASSYIQDWYSWRAQPRLRFEDGKVEPQWSSRGQYPVDAKIDWLQPLPDGGYSVVYAGMENRLDVTPTRVDVYVDGKNYPVIINGEQARASEDVPQEIQQDGNKVLVHFGFAGQAEIRTSQVYVQRRFLGWANFLFDTKSEFWGKGYGELAALALWGERLDPERSNIGHMVDDFLDNSVWQHADILSKLMQTLVMAFVGTLFGTLVALPLAFIAARNITANRAANWGMKRLFDFLRSIDMLIWALFFTRSFGPGPIPGIAAIFFTDTGALGKVYAEALENVDDKQREGVKSVGASPIAVNRFGVLPQVLPVFISQSLYFWESNTRSATIIGAVGAGGIGLKLLEAMGTNADWDKVAYMVLLILFVVFLFDHISNSLRSRLIGKTQH	PGPT0002530_490	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002530-phnE-K02042	NA	NA
BMS010_02051	690			hypothetical protein	GTGCGCTATGCCATCTATTTTTCTCCGGCTAAAGATCACCCGCTGACTGAGGCAGCGTCACGCTGGCTGGGCCGCAACGCATTTTCCGGCACGCTGCATGACGACCACGACGACTATGCCGACGTGACGGAGGAGCCGCGCCGTTACGGTTTCCACGCGACCCTGAAGGCTCCTTTCGAGCTTGCCGAAAAATACAGCGAGGCGGAGCTGCTCACGGCCTTCGAAGATTTTGCGGCCAGCCAGTCTACCTTCGAAATTCCACGTGTCATCGTCGGTGCGCTCGGGCCCTTTTTCGCACTGGTCCCGGACCGCACCTATCAGCCGCTGCAGGATTTTGCCGCCGAGATCGTCGATCATTTCGACCGGTTTCGCGCGCCCCTGTCGGAGACCGATATTGCCCGTCGGCGGCCACAGATGCTGACGGAGAGCCAGCGGCAAAATCTGTCTCTCTGGGGTTATCCGCATGTCATGGATGATTTCCGTTTTCATATGACGCTGACCGGCCGCATCGACGAGAGCGCGCAGCCCGCCATGCACAAGGTGCTTTCGGCGCGGTTTTCCGAATTCACCGATCGACCTCTCAGCATTTCCGGCCTCGCCTTGTTCATTGAAGAAACGCGCGGCGCGCCCTTTACCGTTCATAGCTGGCACCCCCTTGGCCAGCCACCAAAGAAAGATGCGAACCCATGA	MRYAIYFSPAKDHPLTEAASRWLGRNAFSGTLHDDHDDYADVTEEPRRYGFHATLKAPFELAEKYSEAELLTAFEDFAASQSTFEIPRVIVGALGPFFALVPDRTYQPLQDFAAEIVDHFDRFRAPLSETDIARRRPQMLTESQRQNLSLWGYPHVMDDFRFHMTLTGRIDESAQPAMHKVLSARFSEFTDRPLSISGLALFIEETRGAPFTVHSWHPLGQPPKKDANP				NA	NA	NA	NA	NA
BMS010_02052	1137	phnM	COG3454	Alpha-D-ribose 1-methylphosphonate 5-triphosphate diphosphatase	ATGACCGAGCACGCCCTTTCCAATGCCCGTATCGTTCTGGAAGACGATATTATTCTGGGCTCTGTCCTGATCCGTGACGGCAAGATCGCCGATATCAGCGAAGGTGCCTCCAAAACCGGCGAAGATCTGGAAGGTGATTATTTGATCCCGGGTCTGGTGGAACTGCATACCGACCATCTTGAGCAGCATTATTCGCCGCGCCCCGGCGTGATCTGGGACAAGATCGCCGCCATTCAGGCCCATGACGCCCAGGTGGCCGCCTCCGGCATCACCACCGTATTCGACTGCCTCCGGCTCGGCTCGGATGAAGACGGCGGCTTCAAGAAGGGTGAAATGCGCGAAATGGCTGACGCCATCGAGGCCGCGGCAGATCAGAACCGCCTTCGTTCGGATCACCTGCTGCATCTGCGCTGTGAAGTCGCCTCCTCGGATGTGCTGGACCATTTCGAAGACTTCGAAACCGATCCGCGCGTGCGGCTGATTTCCCTGATGGACCACTCCCCGGGGCAGCGCCAGTTCCAGTCGATGGATCAATATATCTTCTACTACCAGAAGAAGCGTGGGCTGAGCGACGAGGCTTTCGCCGAGTTCGTGCGGCGTCGGCAGGCGGCGTCGGCGGAATATTCCGCCAAGCACCGCGATTATCTGGCCGCCCGCTGCGCCGAGCGCGGCATCACCGTCGCAAGCCATGACGACGCCACCGAAGCGCATGTCGGCGAAGCTATCGGCCACGGCGTGAAACTGGCGGAATTCCCCACCAGCGTCGAAGCCGCAAAAGCCTCGCACAGCGCCGGCATGAGCGTGCTGATGGGTGCGCCGAACATCGTTCGCGGCAAGTCCCACTCGGGCAACATCGCCGCCCGCGACCTCGCCGAGATCGGCGTGCTGGATGTTCTTTCTTCCGACTATGTGCCCTTCAGCCTGCTCTTCGCGCCATTCCTGCTCGCCGATCAGGTAGAAGCCATCAGCCTGCCGGAGGCGCTGCGCATGGTCACCGCCACACCGGCGCGCACCGTCGGCCTTCTCGATCGCGGTCGTATCGCCACGGGATTGCGGGCCGATCTGGTCCGGGTTCACCGCGAGGATGGTGTGCCGGTCGCCCGTTCCGTCTGGCGTCAGGGCAAGCGCGTGGCATGA	MTEHALSNARIVLEDDIILGSVLIRDGKIADISEGASKTGEDLEGDYLIPGLVELHTDHLEQHYSPRPGVIWDKIAAIQAHDAQVAASGITTVFDCLRLGSDEDGGFKKGEMREMADAIEAAADQNRLRSDHLLHLRCEVASSDVLDHFEDFETDPRVRLISLMDHSPGQRQFQSMDQYIFYYQKKRGLSDEAFAEFVRRRQAASAEYSAKHRDYLAARCAERGITVASHDDATEAHVGEAIGHGVKLAEFPTSVEAAKASHSAGMSVLMGAPNIVRGKSHSGNIAARDLAEIGVLDVLSSDYVPFSLLFAPFLLADQVEAISLPEALRMVTATPARTVGLLDRGRIATGLRADLVRVHREDGVPVARSVWRQGKRVA	PGPT0002465_894	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002465-phnM-K06162	NA	NA
BMS010_02053	600	phnN_2	COG3709	Ribose 1,5-bisphosphate phosphokinase PhnN	ATGACCGACGATGGGCAGGATAGCCGGCGCGCGGCATCGCCCGGCACGATGATCGTGATTGTCGGCCCGAGCGGGGCCGGCAAGGACACACTGATGGACTATGCCGCAGCGCGATTGTGCGGACGGCCGGGCTTTCACTTCACCCGCCGCGTCATTACCCGCAGCGGCGATGCGGGGGGTGAAAACCACGATGCCGTTTCGATGCACGAGTTCAACCGACTGGAAGATGCGGGCGCCTTCGCGGTGTCCTGGCAGGCGCATGGGCTGAAATATGGCATCCCGGCCGCGGTCTATCGTCACCTCAATGCGGGAGACGTGGTCATCGCCAACGGTTCGCGTTCCGCCCTGCCGCATTTCGGCACCGCCTTTTCCCGTCTCAAGGTCGTGAACATCGTCGCTCGGCCGGAGGTTTTGGCAATGCGCCTGGAGCAGCGCGGGCGGGAAAGCCGGGACGATATTCTCCGGCGGCTGGAACGCAGTTCGTTGACAGTCGCTGGAGACTTCGACGTCACGACCGTCGATAATAGCGGCGCTATCGAAGATGCCGGCCAAGCCATCATGCAGGTGCTGGAGCAAAGCGCAGACATCGGTCGCACTTAA	MTDDGQDSRRAASPGTMIVIVGPSGAGKDTLMDYAAARLCGRPGFHFTRRVITRSGDAGGENHDAVSMHEFNRLEDAGAFAVSWQAHGLKYGIPAAVYRHLNAGDVVIANGSRSALPHFGTAFSRLKVVNIVARPEVLAMRLEQRGRESRDDILRRLERSSLTVAGDFDVTTVDNSGAIEDAGQAIMQVLEQSADIGRT	PGPT0002470_47	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002470-phnN-K05774	NA	NA
BMS010_02054	1041			putative HTH-type transcriptional regulator	ATGCCCGAGAAAAGGGTCAGCGACGAGATAAGTGTGGTGGCCGGCCTGGCTGCCGGCGTCAGCAATTATGCCCGGTCACGGGGCATCGATATCGCACCGATCTGCAAGGCTCTGGACATTGATCCAGCCATATTCAGCAGCCTGACGGAACGCATAAGCCTCGATAGATTTTCCCGGCTGCTCGAAACCTGTGCACTGATTTCCGGCGACGACGCTTTCGGTCTGCAATGTGCTTCCACCTTTCCAGCGGGTGCATCCGGCGCGTTCGGATATGGGCTGATCAGTGCACCGACGGTTAGGGCGTTCCTGCGTTTTCTTCAGGACCATGTTTATTACGCGACCAATAACAGCAATTTCACCATGGTAACGGATGCCACGCAGGTAACCCTGTCATGGTCCTTCGCGCCGGTTATTGCAAAGCGCGATCAATATGTGGATTTGTCGCTCGCCGTCCTGGTACAGCGTCTCCGCGATATTCTCGGAGATCGTATCAACCAGATCGAGATCGGTCTAGAGCGGCCGAAACCGAATAATATTCAGCTATTTAAAGAAAGAATGACCAGGCGCGTCAGTTTTTCCCAGCCGATCCATACCATGCGTCTGCCGGTACCGCTTCTCGATGTGGTCAATCCGAATGCGGATGAGCGGCTGTTCGAGCTGATGAACCTGCAATGCCGCATGTTGCGACCGGAAACATCGGCGGACGCGACCCATTTCATTGACCAGGTGAAGCGGTATATGCAGATGCGGCTCTCGGATGCCGAGCTTTCGCTCGGCGAGATCGCTCCCTATTTCAACCTGTCGGAACGGAGTTTTCAACGGCGGCTCGCAGAGCTCGGCACCAATCTCAACGAGATAAAGGATGCCATTCGCAAAAATGCCGGTTTCAAACTCCTCGTGGAAAGCGATCTTCCGGTATCCGACATCAGTTACAGGCTTGGCTATTCGACACCCGGTGCGTTTTCGCGTTCCGTTTCGCGCTGGTTCGGGGCAACACCGACCGACATTCGCAAGAAACACGCGCATCATTCCGCCGGATGA	MPEKRVSDEISVVAGLAAGVSNYARSRGIDIAPICKALDIDPAIFSSLTERISLDRFSRLLETCALISGDDAFGLQCASTFPAGASGAFGYGLISAPTVRAFLRFLQDHVYYATNNSNFTMVTDATQVTLSWSFAPVIAKRDQYVDLSLAVLVQRLRDILGDRINQIEIGLERPKPNNIQLFKERMTRRVSFSQPIHTMRLPVPLLDVVNPNADERLFELMNLQCRMLRPETSADATHFIDQVKRYMQMRLSDAELSLGEIAPYFNLSERSFQRRLAELGTNLNEIKDAIRKNAGFKLLVESDLPVSDISYRLGYSTPGAFSRSVSRWFGATPTDIRKKHAHHSAG				NA	NA	NA	NA	NA
BMS010_02055	246			hypothetical protein	ATGTCTTCAAACACGCCGCATGAACATCGCCAGACGCGTGAAATCATCCTTTCGGAGCGTGAGCGGCATTATCTGGGGCTGGTCGCGCGGGGCAAGCATCCGTCCCACGTCGCCCTGATAACCGGCGCGGACGAAGCGGACGTGAAGGATACTCTTGAAAGGGTGCGCCACAGATTGGGCGCCACCAATCTGCTGAATGCCGTCAGCATCGCCCTGCTGCGCGGCCTGATAGTGCAGGACGCATAA	MSSNTPHEHRQTREIILSERERHYLGLVARGKHPSHVALITGADEADVKDTLERVRHRLGATNLLNAVSIALLRGLIVQDA				NA	NA	NA	NA	NA
BMS010_02056	990	comC	COG2055	(2R)-3-sulfolactate dehydrogenase (NADP(+))	ATGAAATTCTCAATCGCAGAGGCGGAGGATCTCGTATCCTCTATCTTTGAGCGCAACGGCGTTCTGCCGCAAAACGCCCGTTCGGTGGCAAAGGCGCTCGTCGCCTCCGAAGCGGCCGGCCAGGGTGGTCACGGTTTTCGCCGCATCCCCGTTTATGTCCGGCAGGCGCGGGTTGGAAAGGTCGATGGCAAGGCGCGTCCGGTGGCGACCCGCGTGAAGCCGGGCGTGCTCTCGGTCGACGCCAATCACGGCTATGCCTATCCGGCGATCGATTGCGCCCTTGAGGAATTGCCGGACATGGTGCGGCAGCAGGGCATTGCGCTTGCGGCGATCCACCGCTCCCATCATGCGGGTGTCATGGCGCTGACCGTAGAGCGCCTCGCCGAAATGGGTTTTGTCGCACTCATGTTCGCCAACGCTCCGGCATCCATGGCACCTTGGGGCGGCAGCAAACCGCTTTATGGAACCAATCCAATTGCCTTCGCCACCCCCGTCGGCGGCGCCGATCCGCTGGTCATCGATCTCGCGCTCTCCAAGGTCGCACGCGGAAAGATCATGGCGGCCCGCCAGAAGGGTGAAACCATCCCTGGCGACTGGGCGCTCGACCGAAACGGTCGGCCGACGACCGATCCCGAAGAGGCCATAGAGGGAACCATGGTGCCCGCAGGCGAGGCCAAGGGCGCTGCGCTGGCATTGATGGTGGAGATCATGGCCGCTGCGATTACCGGCGGAAACTTCGCATTCGAGGCATCTTCCCTTCTCGATGACAAGGGAGCACCACCCTCTCTTGGCCACACGATCATCGCCATAGACCCGGTATCGTCAGGCGGTACGGCCTTTACCGAGCGGCTGGGGCTCATAGCCGGCGAGATAGAAAAGCAGGAAAATGTGCGTCTGCCCGGCCGCCGCAGCCAGGGGATTCGCAAGCAGGCGCTGGAAAGCGGCATCGTGATCGAAAGCGATATTCTGGCCGAAATTAAATCGCTCTGA	MKFSIAEAEDLVSSIFERNGVLPQNARSVAKALVASEAAGQGGHGFRRIPVYVRQARVGKVDGKARPVATRVKPGVLSVDANHGYAYPAIDCALEELPDMVRQQGIALAAIHRSHHAGVMALTVERLAEMGFVALMFANAPASMAPWGGSKPLYGTNPIAFATPVGGADPLVIDLALSKVARGKIMAARQKGETIPGDWALDRNGRPTTDPEEAIEGTMVPAGEAKGAALALMVEIMAAAITGGNFAFEASSLLDDKGAPPSLGHTIIAIDPVSSGGTAFTERLGLIAGEIEKQENVRLPGRRSQGIRKQALESGIVIESDILAEIKSL	PGPT0001796_216	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_AQUIRED_RESISTANCE|SAR	SAR-CONDITIONING_COMPOUNDS	SAR-PIPECOLATE_BIOSYNTHESIS,PGPT0001796-dpkA|lhpD-K13609	NA	NA
BMS010_02057	927			hypothetical protein	ATGACTGAAAACGGCTACCCGCAGGCCCGGCATTCCCGTCTCGGGGAAGTAACGCTGTGGTCCGTCGCGGCGCTGCTCATGCTGGGCGTTCACGCTGGTTTTGCCTATTATCTGATGCAGGAGCCCGAAGAGCAGGAAGCCGGCGGGCCGCCTCCTGCTGCGATCATGATCGAAATGGCGGCGATACCGGAGGCCGTAAAGACCGAAGAAACGACGCCCGCGCAAGATGTTGAGGACGCAGAAGAGGTGAAGAGCGACAGCAGCGAACCGGTGGAGGAAGCCGCCCCGGAAGAGCCGCCGCCACCGGAGCCGGTTGCGGAAACGCCGCCGCCGCCAGAGCCTGTGCAGCCGCCTGAACCGCCGGTCGAGGAGATCGTCGAACCGCAGGAAATTCCCGAACCCGTGGAGCCGGTCGATCCCGTTCAGGAGCAGATGATGGCGGAACTCGAAAATGTCGAGGTCCCTCTGCCCGTCATGCGTCCTCCGCCGCCGCCCGTCGAAAAGAAGGTGGAAAAGAAAGAGCCGGAAGAGAAAAAGAAGGTCGAGCGCCAGCGTCCCAAACCGCAGCAGGCATCGGAACTGCGCGAAACGGCGAAGGCTGAAGCCCAGCAGTCCGACCGGACGGCGGCATCGCGCAGCAATGCCGGCTCCTTCTCGTCCTCGTCCATGTCAAATGCCGATTGGGGTGCGAAAGTGCGCTCGGCGATGCAGCGGCGACTGGTGCGTTCGGCTGGAAAATCGGGGATGACCATTACGGTTTCATTCAAGATAGACAGCGGTGGTTCCGTCGGCGGTGCGAGGATTATTTCATCCACCGGTGACTCGGCCATGGATCAGAAGCTTCTGGCCGTCATACAAAGAGCGTCCGTCTCGCCGCCGCCGCCAGGCGCAAATACGAGTTTTACCCTGCCGATTCTTTTCAAGTAG	MTENGYPQARHSRLGEVTLWSVAALLMLGVHAGFAYYLMQEPEEQEAGGPPPAAIMIEMAAIPEAVKTEETTPAQDVEDAEEVKSDSSEPVEEAAPEEPPPPEPVAETPPPPEPVQPPEPPVEEIVEPQEIPEPVEPVDPVQEQMMAELENVEVPLPVMRPPPPPVEKKVEKKEPEEKKKVERQRPKPQQASELRETAKAEAQQSDRTAASRSNAGSFSSSSMSNADWGAKVRSAMQRRLVRSAGKSGMTITVSFKIDSGGSVGGARIISSTGDSAMDQKLLAVIQRASVSPPPPGANTSFTLPILFK	PGPT0003745_600	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003745-tonB-K03832	NA	NA
BMS010_02058	477	exbD_2	COG0848	Biopolymer transport protein ExbD	ATGGCTGGCGGTATTCGCGAAAATAGCGGAGACGATCTCTCCGAAAACCACGAGATCAATGTCACGCCCTTCATCGACGTGATGCTGGTTCTGCTCATCATCTTCATGGTGGCGGCACCGCTCGCCACCGTCGATGTGAATGTCGATCTGCCCGCATCCACCGCAAAGCCGGCGGAACGCCCGGAGGAGCCGCTTTATCTGACGGTCAAGGACGACCTCTCGCTCAATCTCGGCAATGATGCGGTTGCCCGCGAAGCACTGGCCGCCGCCATCGACCGGCAGACGGGCGGCAAGAAGGATACGCGCATCTTCCTGCGGGCCGACAAGGCGGTCGATTACGGCCACTTCATGGAAATCATGAACCTGCTGAGAGATGCCGGTTATCTGAAGATCGCCCTCGTAGGACTGGAAAACGCGGCTGCCGCATCGCAGCCGGCCGCCGTTGGCCAACCCGCAGCGCCGGGAACCACGCCATGA	MAGGIRENSGDDLSENHEINVTPFIDVMLVLLIIFMVAAPLATVDVNVDLPASTAKPAERPEEPLYLTVKDDLSLNLGNDAVAREALAAAIDRQTGGKKDTRIFLRADKAVDYGHFMEIMNLLRDAGYLKIALVGLENAAAASQPAAVGQPAAPGTTP	PGPT0003755_316	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003755-exbD-K03559	NA	NA
BMS010_02059	1182	tolQ_2		Tol-Pal system protein TolQ	ATGACAAGGCATCTCTCCCTTGCCATGACTGTCACCTTGCTGGCCGGCCTGAGTGCTGGCTTGAGTGCTGGCTTGAGTGCCGGCGCGGTTTTCGCTCAGACGGCACCGGAAACCCAGATACAGCCGGCACCGCAAACGGAAGCGGTTCAGCCAGCACAGCCGGCGGCTCCTGCAACGCCGGGCGCTCCGGCCGCCGCGCCCGTCCAGCCTTCCGCGACTGCACCGGAACAGCCGGCCGCCACCGCACCCTCGCAGCCTCAGTCAACTCAGCCCGCATCGGCCCAGGCTGCGCCTGCTCAGCCCGCGACGAACACCGCACCGGGCGCCGAAGGCCTGGCGCCGCAGCCGACGCAGACCGAGCAACCCGCACAGACGGGCCAGATGACCGTGCCAAATGAAGCCGCGACCCCAATAGAGCCTGTCAGCACCGAGCCCGCGAGCGCCGAACATCGTGCGGATATCCCGCACAACCTTTCTCCCTGGGGCATGTTCATGGCGGCCGACTGGGTCGTGAAGGGTGTCATGATCGGTCTTGCCTTCGCATCTCTGGTCACGTGGACGGTCTGGGTCGCGAAGTCTATCGAGCTTGCAGGTGCGCGGGTGCGCGCCGGCTCGACGCTCAAGGTCATTCGCAGGGCAAAAACCCTGACGGAGGCCACCGAGGCCGTCGAAAAGAAGGGCGGGCCGGCAGCACTGATGTTGCGCATGGCGACCCACGAAATGCAGCTTTCCGATGCGGTGGTCGAACACACGGATGGCGGCGGTATCAAGGAGCGTGTCTCGTCGGCGCTTTCGCGTATCGAAACCCATGCGGGTCGCCGCATGTCGCGCGGAACGGGTGTTCTGGCGACCATCGGTTCCACCGCTCCCTTCGTCGGCCTGTTCGGCACCGTCTGGGGCATCATGAACTCCTTCATCAGCATTTCGGAATCGCAGACGACCAATCTTGCCGTCGTCGCGCCGGGCATCGCCGAAGCGCTGCTCGCCACCGCCATCGGCCTTGTCGCCGCTATTCCGGCCGTGGTGATCTACAACGTCTTCGCCCGCTCCATCACCGGGTACCGCCATCTGCTGGCGGATGCCGCAGCCGGTGTGGAACGCCTCGTCAGCCGCGATCTCGATTTCCGCCGTATTCCCCCGGGCAGCACCAGCAAGCCCGCGGTATCGCTGGTAGGACGGTGA	MTRHLSLAMTVTLLAGLSAGLSAGLSAGAVFAQTAPETQIQPAPQTEAVQPAQPAAPATPGAPAAAPVQPSATAPEQPAATAPSQPQSTQPASAQAAPAQPATNTAPGAEGLAPQPTQTEQPAQTGQMTVPNEAATPIEPVSTEPASAEHRADIPHNLSPWGMFMAADWVVKGVMIGLAFASLVTWTVWVAKSIELAGARVRAGSTLKVIRRAKTLTEATEAVEKKGGPAALMLRMATHEMQLSDAVVEHTDGGGIKERVSSALSRIETHAGRRMSRGTGVLATIGSTAPFVGLFGTVWGIMNSFISISESQTTNLAVVAPGIAEALLATAIGLVAAIPAVVIYNVFARSITGYRHLLADAAAGVERLVSRDLDFRRIPPGSTSKPAVSLVGR	PGPT0003750_701	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003750-exbB-K03561	NA	NA
BMS010_02060	738	nagR_3	COG2188	HTH-type transcriptional repressor NagR	ATGAGGAGCACAGGCGCCGATCTTCAGGAAAAATCGCTGCACGAGCGCATCCGCAATGATGTCGAGCGCCACATCATGTCGGGCGAATGGCCGCCGGGTTATCGTATTCCCTTCGAACACGAAATGACCCGGCAATATGCCTGCTCACGCATGACGGTGAACAAGGCTCTCAGCGAACTGGTGCAGCGCGGACTCATCGAAAGACGCCGCCGTCTCGGCACCTTCGTTCGTCAGCCCCATGCGCAATCCGCCGTTCTGGAAATCCACGATATCGAGCGGGAGGTGCAGGCGCTGGGTCTGGTCTACGGTTACCGTCTCGACAAACGACGGCTGCGCCCTGCGGGGGAAGAAGACGGCGCGGCCATGGCGCTTGCCGCCGACGCCCCGGTCCTGGAACTCACCTGCACGCACTTTGCCGGCGGCGTTCCCTTTTGCCTTGAAGAGCGCATCGTCAATGTCACCGCCGTTCCGGAGGCGGAAGCCGCGGATTTTTCACAGATCGGGCCGGGGACATGGCTGCTGAAAATGGTGCCCTGGAGTGCGGCCGAACATCGTATCAGCGCCGTTTCCGCCGACCGTAAAAATGCAGCCGCGCTCGGCATTGCTTCTGGCGCTGCCTGTCTGGTCATCGATCGGCGGACCTGGCATGGGGCGGATTATATCACCCGTGTCCGTGTCACCTATCCCGGTGACCGGCATGCTCTCATTGCGCAGTTTTCGCCCTCGCAAAACGGCTGA	MRSTGADLQEKSLHERIRNDVERHIMSGEWPPGYRIPFEHEMTRQYACSRMTVNKALSELVQRGLIERRRRLGTFVRQPHAQSAVLEIHDIEREVQALGLVYGYRLDKRRLRPAGEEDGAAMALAADAPVLELTCTHFAGGVPFCLEERIVNVTAVPEAEAADFSQIGPGTWLLKMVPWSAAEHRISAVSADRKNAAALGIASGAACLVIDRRTWHGADYITRVRVTYPGDRHALIAQFSPSQNG	PGPT0020245_2	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020245-hutF-K05603	NA	NA
BMS010_02061	786	ssuB_1	COG1116	Aliphatic sulfonates import ATP-binding protein SsuB	ATGAGCGAACTCGTTATCAAGGGCGTCAGCCGCACTTTTCCGGGTGTGCAGGGCGGGCAGCCGACGCTGGCCCTTCAGCCCACCGATCTGGAAATCCCCCGCAATGATTTCGTCACCATCCTCGGCCCGTCGGGATGCGGAAAATCGACCTTGCTGCGCATCATCGCCGGTCTCGACCGTCCAACGACGGGCGAAGTGCTGCTGTCCGGCAAAGCAGTGAGGGGGCCGGGGGCGGATCGCGGCATGGTGTTCCAGTCCTATACGCTGTTTCCCTGGCTGACGATCCGCGAAAACGTCGCCTTCGGCCTGCGCGAACGCGGCGTTGCCGAGAAGGAAAAATGGGAGATTGTCGATAGCTATATCGACAAGGTCGGCCTGCGCGGCTTCGAGAACCATTGGCCGAAACAGCTCTCCGGCGGTATGCAGCAGAGAACGGCCATCGCCCGTGCCCTGGCGAACGGCCCGAAAATCCTGCTGCTCGATGAGCCTTTCGGCGCCCTCGACAACCAGACGCGTGGGCTGATGCAGGAATTGCTGCTCGGTATCTGGGAGCGGGAGCAGAAGACGGTCATTTTCGTCACCCACGATATCGAGGAGGCGGTTTTCATGGCGTCGCGTGTGGTGACCATGTCTGCAAGGCCGGGTCGCATCAAGTCGATCACGCCGGTCGACCTGCCGCATCCGCGTCACTACACCGTCAAGGCCAGTCCGGAATTTTCTGAGCTGCGCGCCAAGCTTACGGAGGAAATCCGCAGCGAGGCGATTGCCGCCGCTGCCCATGGATAG	MSELVIKGVSRTFPGVQGGQPTLALQPTDLEIPRNDFVTILGPSGCGKSTLLRIIAGLDRPTTGEVLLSGKAVRGPGADRGMVFQSYTLFPWLTIRENVAFGLRERGVAEKEKWEIVDSYIDKVGLRGFENHWPKQLSGGMQQRTAIARALANGPKILLLDEPFGALDNQTRGLMQELLLGIWEREQKTVIFVTHDIEEAVFMASRVVTMSARPGRIKSITPVDLPHPRHYTVKASPEFSELRAKLTEEIRSEAIAAAAHG	PGPT0001140_5505	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049	NA	NA
BMS010_02062	774	ssuC_1	COG0600	Putative aliphatic sulfonates transport permease protein SsuC	ATGCAACCTCTTCAACCCATAAGGAACAGCACGAGAATTGCTCTCGGCATCCTGTTCTTCGTGCTGTTTTTTTCCGCCTGGGGCTTTGCCACGCTGGGCGATTTCGTATCGCCGACCTTTCTGGCCGACCCCATCACTATGCTGAAGGACGGCATCTATCTGCTGACCGATCAGGGTTTTGCCAGCGATATCGGCATGACGATCTGGCGCGTGGTGGGCGGTTTCGTGCTGGCATCGCTCATTGCCGTGCCGGTCGGCATCGCCATGGGGGCCTATAAGCCCATCGAGGCGCTGCTGGAGCCCTTCGTCTCCTTCGCGCGCTATCTGCCTGCTTCCGCCTTCGTGCCGCTCCTCATTCTCTGGGCCGGCATCGGCGAGATGCAGAAGCTGCTGGTGATCTTCATCGGCGCTGTGTTCCAGATCATCCTGATGGTGGCCGTGGCTGTCGCCGGCACAAGACGGGATCTGGTAGAGGCGGCCTATACGCTCGGTGCGAAGGACCGGGGCGTTGTTCGCCGTGTTCTCATTCCCGCCAATGCGCCCGATATTGCGGAAATCCTCCGTCTCGTTCTCGGCTGGGCTTGGACCTATGTCATTGTCGCGGAACTGATCGGCGCCTCCTCGGGTATCGGCTATATGATTATCAACAGCCAGGCGCTGATGGCGACCGGGCAGATCATCTTCGGCATCATCGTCATCGGCATTATCGGTCTTATTTCGGACTTCGCGTTCAAATCGCTGAACCGGAAGCTTTTCGCCTGGAGGCTTGCCTGA	MQPLQPIRNSTRIALGILFFVLFFSAWGFATLGDFVSPTFLADPITMLKDGIYLLTDQGFASDIGMTIWRVVGGFVLASLIAVPVGIAMGAYKPIEALLEPFVSFARYLPASAFVPLLILWAGIGEMQKLLVIFIGAVFQIILMVAVAVAGTRRDLVEAAYTLGAKDRGVVRRVLIPANAPDIAEILRLVLGWAWTYVIVAELIGASSGIGYMIINSQALMATGQIIFGIIVIGIIGLISDFAFKSLNRKLFAWRLA	PGPT0001145_7190	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050	NA	NA
BMS010_02063	942			hypothetical protein	ATGAAGAAAACATGGGTACTCGCCACAGTCGCCGCGCTCTTTTCATCCGCTTCCGCCTATGCCGAGACGTCGGTGACGATTGGCATGTCCGGCTGGACCGGTTTTGCACCGTTGACGCTCGCCAAACAGGCCGGCATTTTCGAAAAGAACGGTCTGAAAGTCGATATCAAGAAAATCCCGCAGGCGAGCCGCCATCTGGCCCTTGCTTCCGGTGACATCCAGTGCGCCGCCACCACGGTGGAAACATGGATCGCGTGGAATGCCAATGGCGTGAAATCCACCCAGATTTTCCAGATGGACAAGTCGCATGGCGCGGATGGCATTGCGGTGCGCAGTGATGTTGCCAAGGTCGCGGACCTGAAAGGCAAGACGGTTGCCGCCTCCGCGCCGGGCACCTCCCCTTATTTCTTCCTTGCCTGGATACTCAAGGAAAACGGCCTTACCCTGAAGGATGTCAAGGTCGTCAACCTCGAGCCGGGACCGGCCGCGCAGGCATTCGTTGCCGGTCAAAATGATGCGGCCATGACCTATGAGCCCTATCTGTCCACTGTCCGCGCCGCCCCCGATAAGGGCAAAATCCTCGCCACGACGCTGGATTATCCCGCCGTCATGGATACGTTCGGTTGCACCCCGGATTTCCTGAAGGCCAATCCGCAGGCGGCGAAAGCACTGGCGGACAGCTATTTCCAGGCCCTCGAGCTCATCAAGGCCGATCCCGAAAAGTCCTATGCGACGATGGGCGCGGATGTGAAGCAGACCGGCGAGGCCTTTGCCGCTTCGGCAAAGTTCCTCGAATGGCAGGACAAGGCCGCCAACCAGAAGTTTTTCGAGGGTGAATTCAAGACATTCTCGGAAAAATCGGCGGACCTGCTGCTGGAAATCGGCGTGATAAAGTCGAAACCCGATCTTTCGACCCTCGCGGATACGTCCTTCATTAAGTAA	MKKTWVLATVAALFSSASAYAETSVTIGMSGWTGFAPLTLAKQAGIFEKNGLKVDIKKIPQASRHLALASGDIQCAATTVETWIAWNANGVKSTQIFQMDKSHGADGIAVRSDVAKVADLKGKTVAASAPGTSPYFFLAWILKENGLTLKDVKVVNLEPGPAAQAFVAGQNDAAMTYEPYLSTVRAAPDKGKILATTLDYPAVMDTFGCTPDFLKANPQAAKALADSYFQALELIKADPEKSYATMGADVKQTGEAFAASAKFLEWQDKAANQKFFEGEFKTFSEKSADLLLEIGVIKSKPDLSTLADTSFIK	PGPT0001135_8293	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051	NA	NA
BMS010_02064	711			hypothetical protein	ATGACCAGACAAAGACGTCGCAATATCATCAGGGCAAGGCGAACCGGAACCGGAATTGCGCTGGTTGCCGCCATTTCCTTTATCGCGGGCATGACGGATGCGGTGGGCCTGCATATTTCAGGCGACTTCGTGTCCTTCATGACCGGCAACACCACGCGCGCCGCAGTCTCGATAGAGGCTGGCCTCTATTCCCACGCCGCGAAACTGCTTTTCGCAATCATTGCCTTCGTGGCGGGCAATGCCGGCGGCATCGTGGTCGCGCATAAGTTCGACCGGCGCATCTTCGCCGTTCTGATGGCGGTGGGATTGCTGGTAACAATTGCCGCGCTGCTCGGCGGCGAGACTTCCGCTCTTGCGCAATTTTATCTCGTCGTTTTCGCCATGGGCATGGTCAACGCCGCCGTTGAGCATATTGAGGGACTGCCAATCGGGCTTACCTATGTGACCGGCGCGCTTTCCCGTTTCGGCCGCGGCATCGGTCGTTTTCTTCTCGGCGAACGGAGCCTCGACTGGGGCATTCAGATCGTGCCATGGCTTGGAATGATATGCGGCGCGATCTGCGGCGCTATTCTTGCCGCCACCCTGCAATCGAACGCCCTTTGGGTGGTCGCGGCCACGGTTTTCGTCGTCGCCATCGCCACTTTCATCATTCCGCGCTCGCTTCGCCAGCGCTACAATCAAAGGGTCAAAATCCGGCGGATTACGCCCTGA	MTRQRRRNIIRARRTGTGIALVAAISFIAGMTDAVGLHISGDFVSFMTGNTTRAAVSIEAGLYSHAAKLLFAIIAFVAGNAGGIVVAHKFDRRIFAVLMAVGLLVTIAALLGGETSALAQFYLVVFAMGMVNAAVEHIEGLPIGLTYVTGALSRFGRGIGRFLLGERSLDWGIQIVPWLGMICGAICGAILAATLQSNALWVVAATVFVVAIATFIIPRSLRQRYNQRVKIRRITP				NA	NA	NA	NA	NA
BMS010_02065	519			hypothetical protein	ATGATCGCAACATCCATAACCGAAACGGATGCAAAGGAAAATGCCGTGCGAATCGCTCTCGTTGCCGCTCTTCAGGCGCTGGTTCTCTTGATGTTTCCGGTGGCGCTCTCGGCGCAGCAGCAGCTGGTGAACGACCCCGAGATCTACGAGAAGGACCATTTCCGCAACGAGTGCAAGGTGGCGGCCTTCGGCGACGATTTTGTTACACGGCTGGATATCAACAATGACGGGCTGATGGACGCCGTCGTCAATCACGGTGTTCTCGATTGTGAGGGCGAAAAGGGCCGCAGCTGCGACGACGAGGGATGCCCTTATAATTTCTATGTCCAGGTGAAAGAGGGCGGTTATCTGATGATCGCGACGGCCCGGATTTACGACTATGATTTCATCAAGCGCTTCGGCAACATGGTTTTCGTGCTGAAGATGCATCCGCGTTATTGCGAGCGTACCGACAAGGAACCCTGCCTGATGACGGTGCGGGTGCGCGGCACGAAATTCGTCACCATCTCGCGAAAGTGA	MIATSITETDAKENAVRIALVAALQALVLLMFPVALSAQQQLVNDPEIYEKDHFRNECKVAAFGDDFVTRLDINNDGLMDAVVNHGVLDCEGEKGRSCDDEGCPYNFYVQVKEGGYLMIATARIYDYDFIKRFGNMVFVLKMHPRYCERTDKEPCLMTVRVRGTKFVTISRK				NA	NA	NA	NA	NA
BMS010_02066	639			hypothetical protein	ATGACGCTTCTGGGTTTTCTCGACTATGCCGGGGTCGCCATCTTTGCCGCAACGGGCGCGCTCGCCGCCTCGCGCAAGCAGCTCGACCTGATCGGCTTCCTGTTTTTCGCCGCCGCAACCGGCATCGGCGGCGGCACGGTGCGCGATCTGGTGCTTGGCAGGACGCCGGTATTCTGGGTGGTGAACCCGACCTATATCCTCGTCTGCGTCTCGGTCGCGGTGCTGCTGTTCTTCACCGCGCATCTTTTCGAATCCCGTTACCGCGTACTGATCTGGCTCGATGCACTCGGCCTTTCCGCTTATTGCGTCATGGGAGCAGCCAAGGGGCTTGCCGCCAGCGGCTCCGCAACCGTCGCCATCGTCACCGGCGTTCTGACGGCGACGTTCGGTGGTGTGTTGCGCGATATTCTCGCCGGCGAACCTTCCGTGCTGCTGCGGCCGGAAATCTACATCACCTGTGCGCTCCTGGGCTCCTCCACATTCATTGTCGTCTATTTCCTCGGCGCACCGCTTTATGCCGCATCAGCCGCAGGCGTCCTGACGGCCTTCGCCGTCCGGTCCGGTGCGCTGATCTTCGGCTGGACTTTTCCGCCCTACAAGGCAAAGCCCGGCAGACGGCCGGAAGATGTCATGAAGTGA	MTLLGFLDYAGVAIFAATGALAASRKQLDLIGFLFFAAATGIGGGTVRDLVLGRTPVFWVVNPTYILVCVSVAVLLFFTAHLFESRYRVLIWLDALGLSAYCVMGAAKGLAASGSATVAIVTGVLTATFGGVLRDILAGEPSVLLRPEIYITCALLGSSTFIVVYFLGAPLYAASAAGVLTAFAVRSGALIFGWTFPPYKAKPGRRPEDVMK				NA	NA	NA	NA	NA
BMS010_02067	420	fur_2	COG0735	Ferric uptake regulation protein	ATGGCATTTGACGCCACATTGGATATCGGAACGAGGTTGCGGCGCTCTGGGCTGCGCCCCACGCGACAGCGTGTGGCTTTGGGCGATCTGCTTTTCGCAAAGGGCGATCGCCATCTGACGGTCGAGGAACTGCACGATGAGGCGGTTACCGCCGGCGTGCCCGTTTCTCTCGCCACCGTCTACAATACGCTGCACCAGTTCACCGAAGCCGGCCTCATCCGTGTTCTCGCCGTGGAAGGCGCCCGCACCTATTTCGACACCAACGTCTCGGATCACCACCACTTCTTCGTGGAGGGCGAGAACGAGGTTCTGGATATTCCCGTCAATAACCTCCAGATCGACAATTTGCCGGAAGCGCCCGAGGGCATGGAAATCGCCCATGTGGACGTGGTCATCCGCCTTCGCCGCAAGCGTGGATAA	MAFDATLDIGTRLRRSGLRPTRQRVALGDLLFAKGDRHLTVEELHDEAVTAGVPVSLATVYNTLHQFTEAGLIRVLAVEGARTYFDTNVSDHHHFFVEGENEVLDIPVNNLQIDNLPEAPEGMEIAHVDVVIRLRRKRG	PGPT0003885_342	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003885-irr|perP-K09826	NA	NA
BMS010_02068	516	fabA_1	COG0764	3-hydroxydecanoyl-[acyl-carrier-protein] dehydratase	ATGGCAACGAGGCAATCAAGTTACAATTACGAGGAGATCCTGTCCTGCGGTCGCGGCGAATTGTTCGGCCCGGGAAATGCACAGCTCCCATTGCCCCCTATGCTCATGGTCCATCGCATTACCGAAATTTCCGAAACCGGCGGCGCCTTCGACAAGGGTTTCATCCGCGCCGAATACGATGTCAGCCCGGACGACTGGTATTTCCCCTGCCACTTCCAGGGCAACCCGATCATGCCGGGGTGCCTCGGCCTTGACGGCATGTGGCAGCTGACCGGTTTCTTCCTCGGCTGGCTGGGCGAAGAAGGTCGCGGCATGGCGCTTTCCACCGGCGAAGTGAAGTTCAAGGGCATGGTTCGCCCTCACACGAAGCTCCTTCAATATGGTATTGATTTCAAGCGCGTGATGCGCGGCCGTCTGGTGCTCGGAACCGCCGACGGCTGGCTCAAGGCGGACGGCGAAACCATTTATCAGGCGACGGACCTGCGCGTAGGCCTGTCGAAGGAGAAGGCTGCCTGA	MATRQSSYNYEEILSCGRGELFGPGNAQLPLPPMLMVHRITEISETGGAFDKGFIRAEYDVSPDDWYFPCHFQGNPIMPGCLGLDGMWQLTGFFLGWLGEEGRGMALSTGEVKFKGMVRPHTKLLQYGIDFKRVMRGRLVLGTADGWLKADGETIYQATDLRVGLSKEKAA				NA	NA	NA	NA	NA
BMS010_02069	1224	fabB_1		3-oxoacyl-[acyl-carrier-protein] synthase 1	ATGAGACGAGTTGTTGTCACCGGCCTCGGTATTGTTTCTTCCATCGGCGGTGATGCCGCTGAAGTCACCGCATCGCTGCGCAATGCCAAATCCGGCATTTCATTTTCGCCGGATTTTGCCGAACACGGTTTCAAATGCCAGGTCTGGGGCAAGCCGTCTCTCGACCCGACCGATCTGGTCGACCGCCGCGCCATGCGCTTCCTGTCGCAGGGCGGCGCGTGGAACCATGTCGCCATGAAGCAGGCCATCGCCGATTCCGGTCTCGAAGAGAGCGACATCAGCGGCAATGAGCGCACTGGCATCATCATGGGTTCGGGCGGCCCTTCCACCCGCACCATCGTCGAGGCAGCCGATATCACGCTGAAGAACAACAGCCCGAAGCGCATCGGTCCCTTTGCCGTGCCGAAGGCCATGTCCTCCACCGCATCGGCCACGCTTGCCACCTGGTTCAAGATTCATGGCGTCAACTACTCCATCTCGTCGGCCTGCTCCACCTCGGCGCATTGCATCGGCAACGCTGCAGAAATGATCCAGTGGGGCAAGCAGGACGTGATGTTTGCGGGCGGCCATGAGGATCTCGACTGGTCCATGTCCAACCTCTTCGACGCCATGGGCGCCATGTCGTCCAAATATAACGAGACGCCGAGCGTCGCCTCGCGCGCCTATGACGTCAACCGCGACGGTTTCGTGATTGCCGGCGGGGCGGGCGTGCTGGTTCTCGAAGAGCTGGAACATGCCAAGGCGCGCGGCGCCAAGATTTACGCCGAGATCGTCGGTTACGGCGCGACCTCGGATGGTTACGACATGGTGGCGCCTTCAGGCGAAGGCGCAATCCGCTGCATGCGGCAGGCGCTTTCCACCGTGAAGGGTGACATTGACTACATCAATACCCACGGCACGTCGACGCCGGTTGGCGACAGCAAGGAAATCGGCGCGATCCGGGAAGTCTTCGGCGACAAGATTCCGCATATCCAGTCGACCAAGTCGCTCACCGGCCATTCGCTGGGTGCGGCCGGCGTGCAGGAATCGATCTACGGCCTGCTGATGATGCAGGAACGCTTCATCGGCGAAAGCGCGCATATTTCCGAGCTCGATCCCGAATTTGCGGGCGTTCCGATCGTTCGCAGCCGCATCGACAACGCCAAGATCGACACCATCCTTTCCAATTCCTTCGGCTTCGGCGGCACCAACGCCACGCTCGTCTTCCAGCGTCATAACGGATAA	MRRVVVTGLGIVSSIGGDAAEVTASLRNAKSGISFSPDFAEHGFKCQVWGKPSLDPTDLVDRRAMRFLSQGGAWNHVAMKQAIADSGLEESDISGNERTGIIMGSGGPSTRTIVEAADITLKNNSPKRIGPFAVPKAMSSTASATLATWFKIHGVNYSISSACSTSAHCIGNAAEMIQWGKQDVMFAGGHEDLDWSMSNLFDAMGAMSSKYNETPSVASRAYDVNRDGFVIAGGAGVLVLEELEHAKARGAKIYAEIVGYGATSDGYDMVAPSGEGAIRCMRQALSTVKGDIDYINTHGTSTPVGDSKEIGAIREVFGDKIPHIQSTKSLTGHSLGAAGVQESIYGLLMMQERFIGESAHISELDPEFAGVPIVRSRIDNAKIDTILSNSFGFGGTNATLVFQRHNG	PGPT0013310_679	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0013310-fabB-K00647	NA	NA
BMS010_02070	807	fabI_2	COG0623	Enoyl-[acyl-carrier-protein] reductase [NADH] FabI	ATGAACGGCATCATGCAGGGTAAACGCGGCCTCATCATGGGCGTCGCAAACAATCATTCCATCGCCTGGGGTATCTCCAAGGCGCTTGCGGCACAGGGCGCAGAACTGGCCTTCACCTATCAGGGTGAAGCGCTCGGCAAGCGTGTGAAACCGCTCGCCGCCGAACTCGGATCCGATTTCATCGTGCCTTGCGATGTCGAGGATATCGCGTCGGTCGACGCCCTGTTCGCGACGATCCGCGAAAAATGGGGCTCGCTGGATTTCATCGTCCACGCCATCGGCTTTTCCGACAAGAACGAGCTGAAGGGCCTCTACGCGGATACGACGCGCGAGAATTTCAGCCGTACCATGGTCATTTCCTGTTTCTCCTTCACGGAAATCGCCAAGCGCGCCGCCGAACTGATGACCAATGGCGGCTCCATGCTGACGCTGACCTATAATGGTTCGCAGCGCGTCATTCCGAACTACAACGTCATGGGCGTCGCCAAGGCGGCTCTTGAAGCGTCCGTCCGTTATCTCGCCGCCGATTACGGCCCGCGCGATATTCGCGTCAACGCCATCTCGGCCGGTCCGGTCCGCACGCTGGCGGGCGCCGGCATCTCGGATGCGCGGGCGATCTACGCATGGAACCAGAAAAACGCACCGCTGCGGCGGACGGCGGATATCGACGATATCGGCGGATCGGCGCTTTACCTGCTGTCCAATCTGTCGCGCGGCGTAACCGGCGAATGCCATTATGTGGACTGTGGTTATAACATCACTTCCACACCCACGCTGGAGGTTCTCTCCAAAGCGGATGCGGAATAA	MNGIMQGKRGLIMGVANNHSIAWGISKALAAQGAELAFTYQGEALGKRVKPLAAELGSDFIVPCDVEDIASVDALFATIREKWGSLDFIVHAIGFSDKNELKGLYADTTRENFSRTMVISCFSFTEIAKRAAELMTNGGSMLTLTYNGSQRVIPNYNVMGVAKAALEASVRYLAADYGPRDIRVNAISAGPVRTLAGAGISDARAIYAWNQKNAPLRRTADIDDIGGSALYLLSNLSRGVTGECHYVDCGYNITSTPTLEVLSKADAE	PGPT0008370_1401	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008370-fabI-K00208	NA	NA
BMS010_02071	597			hypothetical protein	ATGCGACTGGCCAGACTGAAGCCATTGCTGGAAAAATTCGGAGTCTCGCGCGACGGGACAGCGGCTATAGAATTCGCGATACTCGCGATCCCCTATTTCCTCGTCGTCTTTGCGATCATAGAGACCTTCATCGCCCTGATGGCGGAACAGGTCGTCGCCAATGCCACCGAGAACATGGCGCGGCGTCTGCGCACCGGGCAGATCAGCAGCTCGATTTCGAAAGAGGATTTCCGCAAGAGCTTCTGCAACGAAGTCTCGGTGATGATCACCTGCTCAGCGGATGAAATTCAAAAAGAACAGAAGCTCTATATCGATCTTCGCTCGTTTACCGCCTTCAAGGATATTCCGACCACGATACCGCTGAAGGCCTATGGCGAATATTACGATCTCGACACCGCCCAATTCGGCTTCAAGCCGGGCGGGCCGGAAACCATCAACATGTTGCGTGTCTATTATCGCTGGCGCGTGGTTGCCGATATCATCCGGCCATACCTGACGAAAATACGTCCGGCCGACGGATCGATGCCCTCACATTTCCTCATCGTCGCGACAAATGCGTTCATGAACGAGAAATACATCACAGGCGGGGGCTCATGA	MRLARLKPLLEKFGVSRDGTAAIEFAILAIPYFLVVFAIIETFIALMAEQVVANATENMARRLRTGQISSSISKEDFRKSFCNEVSVMITCSADEIQKEQKLYIDLRSFTAFKDIPTTIPLKAYGEYYDLDTAQFGFKPGGPETINMLRVYYRWRVVADIIRPYLTKIRPADGSMPSHFLIVATNAFMNEKYITGGGS				NA	NA	NA	NA	NA
BMS010_02072	594			hypothetical protein	ATGATGGCAGGGCTGGTGTCCGTTGCGGCAAACGGCAAACGACGCCTGATGGCGCTCGTTTCACGCTTTGCCAAAGATCGCCGTGGCGTGGGTGCGGTGGAGTTCGCGATCCTCTTTCCGATATTGCTTGCGCTTTATCTGACCTCTTTCGAATTGACGATCGGATACAACACCTACAAGCGGGCAAGCAGCGCCGCAGCCTCCATCAACGATCTGATATCGAAAACAGGGTCCGTCGATAAAACCTATCTCGCGGGCATGCAGGATGTCGCAGCCGCCGTGTTTGCGCCCTACAGCACCAAGGGTCTGCAGCTGAAGATCAGCGGCATCAAGATCGATGCGCAAAAACAGGCGAAAATCACCTGGTCCTGGGATGAGAAAAATCTGAGACCCTACGCGGTGGGGTCACCGGTTGCCGTTCCGACGCGCCTGCTCGTGGAAAACAGCTTTCTCATCCACGTCGAACTTTCCATCCCGCATGAATTGCTGATGTTCATGCCCGATCTTGCCTCGTCCGGGGTGAAGTCGATCACCATCGGCCGGGAGTATTTCTTCAAGCAACGCGACGCCGAGACCGTCTGCACCAATTGCTGA	MMAGLVSVAANGKRRLMALVSRFAKDRRGVGAVEFAILFPILLALYLTSFELTIGYNTYKRASSAAASINDLISKTGSVDKTYLAGMQDVAAAVFAPYSTKGLQLKISGIKIDAQKQAKITWSWDEKNLRPYAVGSPVAVPTRLLVENSFLIHVELSIPHELLMFMPDLASSGVKSITIGREYFFKQRDAETVCTNC				NA	NA	NA	NA	NA
BMS010_02073	1770	cysJ	COG0369	Sulfite reductase [NADPH] flavoprotein alpha-component	ATGATGAAGATACCTTATATTCCTGAAGACGCGCCCTTCAACGGTGATCAGCGCGCATGGCTTTCCGGTTTTCTGGCGGGGCTCCATTCCCGCGCCGCCATCGGCCTGGAGACATCGGTTGCCGCCGCTGCTCCCAGGGCGGCGGCCAGTGTGCTGAATATTCTTTTCGGCACCCAGACCGGCAATGCCGAGGCGCTGGCGATGGATATTGCCGCCGCCGCCCGCGCCCAGGGCATGCAGCCGGTGGTGACGGCACTCGATGATGTCTCGATGGACAGTCTCGGCGCCATGAAGCGCGTCATCGTCGTCACCTCGACCTATGGCGAAGGTGAAATGCCTGATAATGCCCAGCTTTTCTGGGAAGCGCTCGCCGCGGACAGCGCGCCGCGTGTGGACGAGATGAATTTTGCCGTGCTCGCGCTCGGCGATACCGGCTATGACGGCTTCTGCCAGGCGGGCAAGCTTATCGATACGCGGTTCGAACAACTCGGCGGCAAGCGCATGAAGACGCGTATCGATTGCGATATCGACTTCGAGGACGCCGCCGCCGCGTGGATCGGCGAGACCCTGCCGCTCGCGCTTGCTGTCGATGGCGGCAATGCGGCATCTGTCACCATGCCCGACATCGCCGAGCCGCCCGTGCGGGCAAAACAGGGCTGGGGCCGCAAAAATCCCTATTCGGCTGAGGTAAGCGTCAATCGCCGCCTGTCCGGTCCCGGCTCATCCAAGGAAATTCGCCACTACGAATTCGATCTCGGCGAAAGCGGCCTGGACTATGAGGCGGGTGATGCTCTTGGCGTCGTGCCCCTGAACGATCCGAAACTGGCCGGCGCGCTACTGGAACACTTCGGGGCGGCTGCGGACAGCCAAATCGCCGGGCTGGACCGGCCGGTCGGCGATGCGCTTCTCAACATGTTCGAGATATCGACGCCTTCGCGCGAACTCGTCGCCGAAATCGGCAAGCGGGCGGGGCATGACGAACTCATCCACATTCTCGCAAACGGAGACAGGGAGCAACTGGCCGCCTTTCTCTGGAGCAAGGATATTCTCGACCTCATCAATCTCGGCGGAAAGCCGCTATTCGATGTTGCTGAATTTGTAACATTCCTGAAACCCCTGCAACATCGCGCCTATTCCATTTCTTCCAGCCCGCTGGTCGCAAAAAATAGCGTGCATCTGACCATCGCCAGCGTGCGTTATCGCGCCGAGGGCCGTGAGCGTGGGGGCGTGTGCTCCACCTATCTCGCCGACCGCGTGGAGGCCGGACAGAGTGCCGGGATTTTCGTCTCGCCGAATAAGGCGTTTCGTGTGCCGCAGGACAATGACGCGCCTATGATCATGGTGGGACCGGGTACGGGCATCGCGCCCTTCCGGGCTTTTTTGCAGGAACGGCAAGCCCGAGGCGCAAACGGCAAAAACTGGCTGTTTTTCGGCGATCAGCACCGGCAGTCGGATTTCATCTATGAAAACGAGCTTGGCGACATGAGCCGCGATGGTGTGCTCACCCGCCTCGACCTTGCTTTCTCGCGGGATCAGGCGGAGAAGATCTATGTCCAGACCCGCATGCGGCAGAACGGCAAGGCGCTCTATCAATGGCTTGAAGAGGGCGGTTATTTCTACGTCTGCGGCGACGCGACCCGCATGGCGAAGGATGTCGATGATGCCCTGCACGGCATCGTCAGCGAGGAGGCCGGCATCTCCGCTGAGGCTGCGAGCGAGTATGTGAACCGACTGAAGCGCGAAAAACGTTATCTGCGCGACGTCTACTAA	MMKIPYIPEDAPFNGDQRAWLSGFLAGLHSRAAIGLETSVAAAAPRAAASVLNILFGTQTGNAEALAMDIAAAARAQGMQPVVTALDDVSMDSLGAMKRVIVVTSTYGEGEMPDNAQLFWEALAADSAPRVDEMNFAVLALGDTGYDGFCQAGKLIDTRFEQLGGKRMKTRIDCDIDFEDAAAAWIGETLPLALAVDGGNAASVTMPDIAEPPVRAKQGWGRKNPYSAEVSVNRRLSGPGSSKEIRHYEFDLGESGLDYEAGDALGVVPLNDPKLAGALLEHFGAAADSQIAGLDRPVGDALLNMFEISTPSRELVAEIGKRAGHDELIHILANGDREQLAAFLWSKDILDLINLGGKPLFDVAEFVTFLKPLQHRAYSISSSPLVAKNSVHLTIASVRYRAEGRERGGVCSTYLADRVEAGQSAGIFVSPNKAFRVPQDNDAPMIMVGPGTGIAPFRAFLQERQARGANGKNWLFFGDQHRQSDFIYENELGDMSRDGVLTRLDLAFSRDQAEKIYVQTRMRQNGKALYQWLEEGGYFYVCGDATRMAKDVDDALHGIVSEEAGISAEAASEYVNRLKREKRYLRDVY	PGPT0002795_2048	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002795-cysJ-K00380	NA	NA
BMS010_02074	5502			hypothetical protein	TTGAGTGTGACGGAGCAAAAATTCGGCCTTTACGATGCGGCTTTTGAAAAAAGCAGCTGTGGCGTCGGTTTCATCACCCGCAAGGACGGCGTGCAGACGCATGATGTGCTGAAGCGCGGCCACGAGGCTCTCTGTGCCGTGCCGCATCGCGGCGGCATGTCGGCGGAAGGTGTCGGGGATGGCGCGGGCGTATCGCTGGATTTGTCGCTCTCTTTCTTTCGGGAATTGACCGGTGAGGACGGCTTGCAGGCCGGCCGGTTCGGCGTCGGCAATTTTTTCCTGCCGCAAAATCCGGCTTTCCATGGCGAGGCTGTCGGTATCATCGCAAACGCCCTCAAAGAGCAGGGCTTTTTAATCCTGCTCGTTCGCGATGTGCCGGTGAATGATGCGGCCATCCGTCCCGCTGCCATCCCTTACCAGTTGCCGATCCGCCAATGGGTCTTTTCGGCTCCGGCCGAATGCGCAACCCTCGCCGAATTTGATTGGCGCATCCACAAGGCGCTGCTGGCCATCGAGGCGCTGGCCTATACGGTGCCGGAACTCGCCGGCTTTTACCCGCTGTCGCTCAGCGCCCGCACGCAGGTTCTGAAAGGCCGCCTGAACTCCCATGAGGTCATGCCCTATTTCTGCGACCTTACCGATCCGCGCCATGAAGTGCATACGATGTATTTCCACACGCGGTTCTCCACCAATACCGATCCGCATCCTTCCATGGCGCAGCCCTTCCGTCTGATGGCGCATAATGGCGAGCTCAACACCGACAAGAAGAACCGGCTGTCGGAAGCGGCCGTGGCGCTGGCAAAGAATGCCAGCATCATCCGGCCGAAAGGCCAGTCGGACAGCTGCCGTCTGGATCAGACCCTGCAGGCACGGGTGATGGAAGACGGTCTCGACCTCGTCACCGCCGTGGTCTCGATGATGCCGCCAGCCTGGGAAAATGACGATACCCTGTCACCGGGTGTGAAGGCGATGCTGGAATATTTCTCGCTCTATGAGGAGAAGAATGACGGCCCGGCCGCGCTGATCTTCGGCGACGGCACCATCATCGGCGCGCGGCTCGATCGCCTCGGCCTGCGCCCGCTGCGCACCGTCGAGACGGAAGATTATCTCTGCGTCATGTCGGAGGCCGGGCAGATCGCCTTTCCGGCGGAAAGCGTCATCCGCCGCGGCCGCATCGAGGCGGGCGGCATGCTTTATTACGACCATGCAGAACGCCGCGCCTTTTCCACCGTCGAGGCGCTGGAGCTTCTCGCCTCACGCCGCGAATATTCATCCCTGTTGCGCGAAGCCCGTGTCATGCTGGAAGATCTGCCGGAAGTGCCGGCGGAAAAGCAGGGCTCGCCGCTGCGTTACAATGGCGATCTGGAGCGCCACCAGCGTTATGTCGCCTATTCGCACAATCAGGAAAGCTTCAAATTCCTGATGGACCCGATGCTGGCCTCAGGCGCGGAAAAGATTTCGGCGATGGGTTACGGCAATGCCATCAACGCGCTTTCCGATCAGGAAGGCGGCGTCGCGAAGTATTTCTCACAACGTTTCGCGCAGGTCACCAATCCGCCGCTCGACAGTATTCGTGAGGCCGACGGCATGACGTTGCGTGTGGCCCTCGGTGCGAAGCCGAACAGCGGGGCGAAGAAGGCCCGCCAGATCGTCGTGCGCTCTCCGATCCTGACCCATCTCGATATGCTGCGCATTCGCGAGCAGTCGGAGACGCCCCTTCGCCGTTTCGAAATGCTATATTCGCCAGTCTTCGATGTTGCGGAGGCCAATGAAACGGCCCTGCGGCAGGCAATCGATGATCTCTGCGATGAGGTTGTGGCTTTCGCAGCTGAGGAAGGCGGCATCGCCGTCATCACTGACCGGCATGTCTCGGCAGGCCGTGCGGCCTTGCCGATGATCATGGTCGTCTCCGCCATCAATCAGCGGCTGATCGAGGAAGGTCTGCGGCTGCGCATTTCCCTGATCGTGGAAAGTGGCCAGTTTTCTTCCTCGCATCACATAGCAGCCGGCCTCGGCTTCGGCGCTTCTGCCGTCTATCCGCTTGGCGTGCAGTTCCGCGCCGAGGAGAAATTCGGAGCCGATGCCGACAAGGCATTCAAGCGTTTTGCCAAGGCGGCGGAAAAGTCGCTGATGAAGACCATGGGCAAGGTCGGCCTGTGCACGGCGGAAAGCTATATCGGCGGCGAGTTCTTCGAACCGAATTTCCTCGATACAGACGATGCGGTGCTCAAGCGCTATTTCCCCAATGTGAAGACCCCGGTTGGCGGCGTCAACTTCGCCGTCATCGCGCAGGCCGTGGCGGACTGGCACCGCAAGGCGCTGTCCGTGAAGGGCGAAAACGACATTCCGCTGCTCGGTCTCTTCAAGGAGCGTGCGGAAGGCGCCGGCCATTCCTATGGCACGACGGCGGTACGCGGTTTCGTGGACATGACGGAGGAGAAGATCGGTTTCGACAAGGGAACCGAAAACGAGGAGGCTTTGCGCCTGCTGCCGCTCAACCGGCTGGAAGATGCCTTCGGTCTCAACGATGCGGCCTATTATCACAACAGCTTCGACCGGCTGACCCCTGACGCCATCGACAGATTCGAGGTGACGCCCGGTTACCGCGCCTTCGCCCGCATGATGGCCGAGGAAAGGGCGCGCCGCCCGGCCGCTCTGCGCGACGTTCTGGAATTGCCGGCCGACGTCACATTCGCCGGTTCCGCAGAAGAATTCCGCCGGGAAATGGGCCGTTTTTCCCGACAGGGCAATAACAGCTTCATGGTGCGCGGATTGCGCTGCGAAGAGGCGGGAGACGGCGCTTTCCGGCTGCAATTGACCGGCCCGCACGGTCATGAGCTTGCCCGGCTTGCCGCACTCGGCCAGTCGCTGCTTGACCGTTTCGGTGCGGATATTCCCGGCCATTGGCTGGAAGGCGGCGCGCTCATGGTTCAGGCGCAGGGTGAAGCATCCGCCTATCTCTCGCTTATCCGCACCGCACCGGAAAGCATTCCGCTCGATGCCGTTCAGAAGGCGAGCGAGATCACCAAGACCCTGGCATCGGGCGCCATGAGCCACGGCGCGCTGGTTGCTGCGGCCCATGAAGCGGTTGCCCATGGCACCAACATGGTCGGCGGCATGTCGAATTCGGGGGAAGGCGGCGAGCATATTTCCCGTTATGGCACCATCCGTGCCTCGCGCATCAAGCAGTTCGCTTCCGGCCGCTTCGGCGTCTGGGCCGGTTATCTTGCCGATCCGATGCTGGAAGAGATCGAGATCAAGATCGGTCAGGGCGCAAAGCCAGGCGAGGGCGGGCAGTTGCCGTCTCCCAAGGTGACGGTGGAAATCGCCGCCGCGCGTGGCGGCACGCCGGGTGTCGAGCTTGTTTCGCCGCCGCCGCATCACGATACCTATTCGATCGAGGATCTGGCCCAGCTCATCCATGACGCCAAGGCAGCGCGCGTGCGCGTCATCGTCAAGCTGGTCTCGTCGGAAGGCATCGGCACGATTGCGGTCGGCGTCGCCAAGGCGGGGGCGGATGTCATTAATGTCGCAGGCAATACCGGCGGCACGGGTGCGGCGGCTGTCACCAGCCTCAAATACACCGGCCGCGCGGCGGAGATCGGCATTGCCGAGGTGCATCAGGCGCTTTGCGCCACCGGCCTGCGCGCCAAGGTGCTGCTGCGCTGCTCCGGCGCGCACCAGACGGCAAGCGACGTGGTGAAATCGGCACTCCTCGGCGGCGACAGTTTCGAATTCGGCACGACGGCGCTGATGATGCTGAAATGCGTCATGGCCAAGAACTGCAACATCAAGTGCCCGGCCGGTCTCACCACCAATCAGGAAGCCTTCAACGGCGATCCCCGCGCGCTGGCGCAATATCTCATGAACATCGCCCATGAAACGCGCGAGATTTTGGCCGGGCTTGGGGTTGCCTCGCTGCGGGAAGCACGCGGCCGTTCCGATCTTCTTCACCTCCTCGATCATCCGGCGAGCGTCGGCCAGCTTGACCTCCGGGCAATGCTCGCCGTGGTCGAAGAGGTGAAGATCGACAGCCCGGTCTATATGGAAAAGGACTTTGCACTGGACGATGCCTTCATCGAACTCGTGCGCTCGGCCCTGGTCGACAGCCGGCGCGAGAACATCGAACTTGGCGGCAATCGTTTCCTCAACAATTGCAACAAGAGCGTCGGCGGTCAGCTCGCCGTCGATATCGAACGCATGCTGAACCATGAGCTTTCCGACGAAGAGGCGGATGCGCTGCCGGCCGTGAAGCGGGACAGCCGTGGCCGCCGGTTCCTTGAGGCGGGTTCAGTGCGCATCGATACCTCCGGTTCCGCCGGGCAGTCTTTCGGTGCCTTCTGCAATGACGGCATGGTCATGGTCCATACCGGCACCTGCAATGACGGCGTCGGCAAAAGCGCCTGCGGCGGCACCATCGTCGTGCGCTCCCCCGGCGGCGGCTCGGAAGAGACGGGCGGCAACGTGCTGGTCGGCAATTTCGCGCTGTTCGGCGCCACCGGCGGTCGGACCTTCGTGGAAGGGCAGGCGGGCGACCGTTTCGCGGTGCGTAACTCCGGCGCCACTGCCGTCGTCGAAGGCGTGGGTGATTTCGCCTGCGAATACATGACCAACGGCGCGGTCCTGAACCTCGGCAGCTTCGGCAAGGGTTTCGGCAACGGCATGAGCGGCGGCTTCGTATATCAGTATGATCCCTATGGCGATCTGCCGAAGAAAGTCAGCCACGATTCCATCCTGCTCGGTTCAGTCACCGGTGAGGATGAACAGGCCGCCATTCATAATCAGGCCATCCACCAGCTTCTGACTTGGCATGTCGCAGAAACCGGCTCGGCCAAGGCGACATGGCTTCTGGAAAACTGGGAAAGTGAACAGCATAATTTCGTCTATGGCATGCCACGCGCCCTGCTGCTTTATCAGGATAGCGATGAAATTCTGAAGGCGAAGCCCCGCAAGGAATTGCTGGAGGAACTGGCATCCGCGCTTGCCGCTCATCAACTGCGAAAGTTCAAGCTCGCCTATCGCGACCGCAAGGCCGTCCTGAACGGAACGGTGCCGGGTTATGGCGAGACGGATACCGAGGAAATGTATGCGCTGCTCAACAATTATACCGTGTTGAGCATGGCGCAGGCCATCGCCCTGCAGCGGCTGCCGATGGCGTCGGGTCCTTCCGACCCGGCCATTGAAAAAGCCGTGCGCAATCTCATCCTCACGGAAGACTATGCGCTGATGCAGCGGCTGCTGAAATATGCACGCGAGGCGCTTTCGGACCATAGCGATGAACAGCTTGCGGTGATGATCGCCGCCAAGCGTCTCGACGATTACAAGCAGGCGCTGGCCCGCAGGAACATCTGGTCGGTGGACAGCCCCGGCACCTATGGCTGGATCATTCAGCAGAACCGGAAAAACGTCGAGAAGATCGGCCGTCTGCCGGGCTTCGAGGAGCTTTTCGCAGCCCGCGCCATTCCCGACCTCGCCACCGCATCCAGCCACAGGGCAGCATGA	MSVTEQKFGLYDAAFEKSSCGVGFITRKDGVQTHDVLKRGHEALCAVPHRGGMSAEGVGDGAGVSLDLSLSFFRELTGEDGLQAGRFGVGNFFLPQNPAFHGEAVGIIANALKEQGFLILLVRDVPVNDAAIRPAAIPYQLPIRQWVFSAPAECATLAEFDWRIHKALLAIEALAYTVPELAGFYPLSLSARTQVLKGRLNSHEVMPYFCDLTDPRHEVHTMYFHTRFSTNTDPHPSMAQPFRLMAHNGELNTDKKNRLSEAAVALAKNASIIRPKGQSDSCRLDQTLQARVMEDGLDLVTAVVSMMPPAWENDDTLSPGVKAMLEYFSLYEEKNDGPAALIFGDGTIIGARLDRLGLRPLRTVETEDYLCVMSEAGQIAFPAESVIRRGRIEAGGMLYYDHAERRAFSTVEALELLASRREYSSLLREARVMLEDLPEVPAEKQGSPLRYNGDLERHQRYVAYSHNQESFKFLMDPMLASGAEKISAMGYGNAINALSDQEGGVAKYFSQRFAQVTNPPLDSIREADGMTLRVALGAKPNSGAKKARQIVVRSPILTHLDMLRIREQSETPLRRFEMLYSPVFDVAEANETALRQAIDDLCDEVVAFAAEEGGIAVITDRHVSAGRAALPMIMVVSAINQRLIEEGLRLRISLIVESGQFSSSHHIAAGLGFGASAVYPLGVQFRAEEKFGADADKAFKRFAKAAEKSLMKTMGKVGLCTAESYIGGEFFEPNFLDTDDAVLKRYFPNVKTPVGGVNFAVIAQAVADWHRKALSVKGENDIPLLGLFKERAEGAGHSYGTTAVRGFVDMTEEKIGFDKGTENEEALRLLPLNRLEDAFGLNDAAYYHNSFDRLTPDAIDRFEVTPGYRAFARMMAEERARRPAALRDVLELPADVTFAGSAEEFRREMGRFSRQGNNSFMVRGLRCEEAGDGAFRLQLTGPHGHELARLAALGQSLLDRFGADIPGHWLEGGALMVQAQGEASAYLSLIRTAPESIPLDAVQKASEITKTLASGAMSHGALVAAAHEAVAHGTNMVGGMSNSGEGGEHISRYGTIRASRIKQFASGRFGVWAGYLADPMLEEIEIKIGQGAKPGEGGQLPSPKVTVEIAAARGGTPGVELVSPPPHHDTYSIEDLAQLIHDAKAARVRVIVKLVSSEGIGTIAVGVAKAGADVINVAGNTGGTGAAAVTSLKYTGRAAEIGIAEVHQALCATGLRAKVLLRCSGAHQTASDVVKSALLGGDSFEFGTTALMMLKCVMAKNCNIKCPAGLTTNQEAFNGDPRALAQYLMNIAHETREILAGLGVASLREARGRSDLLHLLDHPASVGQLDLRAMLAVVEEVKIDSPVYMEKDFALDDAFIELVRSALVDSRRENIELGGNRFLNNCNKSVGGQLAVDIERMLNHELSDEEADALPAVKRDSRGRRFLEAGSVRIDTSGSAGQSFGAFCNDGMVMVHTGTCNDGVGKSACGGTIVVRSPGGGSEETGGNVLVGNFALFGATGGRTFVEGQAGDRFAVRNSGATAVVEGVGDFACEYMTNGAVLNLGSFGKGFGNGMSGGFVYQYDPYGDLPKKVSHDSILLGSVTGEDEQAAIHNQAIHQLLTWHVAETGSAKATWLLENWESEQHNFVYGMPRALLLYQDSDEILKAKPRKELLEELASALAAHQLRKFKLAYRDRKAVLNGTVPGYGETDTEEMYALLNNYTVLSMAQAIALQRLPMASGPSDPAIEKAVRNLILTEDYALMQRLLKYAREALSDHSDEQLAVMIAAKRLDDYKQALARRNIWSVDSPGTYGWIIQQNRKNVEKIGRLPGFEELFAARAIPDLATASSHRAA	PGPT0000635_35	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0000635-gltB-K00265	NA	NA
BMS010_02075	1329	yhjE_2		Inner membrane metabolite transport protein YhjE	ATGAGTTATACGAATGCTGCTCCATCCTTTGGGCAGGCGCCGGAGGCGAACGGAAATGGGGTAGGTCCCGTCAAGGTCGATCCGGATCGCATCACGATTGCGGTCATTCTTGCGAGAATGACGGAATTCTTCGACTTTTTCATCTATGCCATCGCCTCCGCGCTCGTTTTCCCCCACGTCTTCTTTTCTTTCGTCGACCCGCTGACGGCGACGCTTTATTCCTTCGCGGTTTTCTCACTGGCCTTTATCGCAAGGCCTATCGGCTCGCTGATCTTCCTCCAGATCGACCGCAAATTTGGGCGCGCCGTGAAGCTGATGGCCGCTCTCTTCACGCTCTGTGGTTCCACCATGGCGATCAGCTTTCTTCCGTCCTATGCGGAAGCGGGCATGCTTGCTCCGTGTCTTCTGGCGGTTTTCCGCATCGGCCAAGGCCTTGGGCTTGGCGGCGCATGGGACGGTCTGGTGTCGCTGCTCGCCATGAATGCGCCGCAGAAACAGCGCGGCTGGTACGCCATGATGCCGCAGATCGGTGCGGCCATGGGCTTCGGTCTCGCCAGCGCCTTTTTCATCGTCTTCGTCACACAGCTTTCCAATGCGGAATTCCTCGCCTGGGGCTGGCGTTTCCCGTTCTTCGTGGCGCTGGCGCTGAATGTTCTCGCGCTCTTCGCCCGCCTGCGCATGATCGTGACGCCGGAATTCCAGGCCATGCTGGAACAGCACGAGCTGGAACCGCGCCCCATGTTCAAGATGCTGCGCTCGCAGTTTCCGGTGGTCCTCACGGGAGCGTTCGTGCCGCTGGCAAGCTTTGCGCTCTTCCATCTGGTCACCGTCTTCCCGCTGAGCTGGGTTTCGCTCAACACCAGCCAGCGTGTCTCGGACTTTCTCTTCGTGCAATTCGTCAGCGCCATCATCGCCGGCGGAATGATCGTGGTCTCCGGTATTCTGGCCGACAGGATAGGCCGGCGGAAGCTTCTGGCCATCGCGGCGGTGCTGATCGGCCTTTTCAGTCTGGTTGCACCGGTTCTTCTTGGTTCCGGTGATATTGGCCGTTATCTCTTTGTGCTGATCGGCTTTTCGCTGCTTGGCCTTTCCTTCGGTCAGGCGGGTGGCGCGCTTGCTTCCCGCTTCAGCCGTGAGTACCGCTATACCGGCGCTTCGCTCACGTCGGATATTTCCTGGCTGATCGGCGCCGGTTTCGCACCGCTCGTCGCGCTCGGATTTTCGTCCAAATTCGGCCTTTTCGCGGTCGGCATTTACCTGATGTCGGGTGCGCTCTGCACGCTGATTGCCCTCTGGTTCAGCCGCACGCTGGACATGCCTTCGGAGTGA	MSYTNAAPSFGQAPEANGNGVGPVKVDPDRITIAVILARMTEFFDFFIYAIASALVFPHVFFSFVDPLTATLYSFAVFSLAFIARPIGSLIFLQIDRKFGRAVKLMAALFTLCGSTMAISFLPSYAEAGMLAPCLLAVFRIGQGLGLGGAWDGLVSLLAMNAPQKQRGWYAMMPQIGAAMGFGLASAFFIVFVTQLSNAEFLAWGWRFPFFVALALNVLALFARLRMIVTPEFQAMLEQHELEPRPMFKMLRSQFPVVLTGAFVPLASFALFHLVTVFPLSWVSLNTSQRVSDFLFVQFVSAIIAGGMIVVSGILADRIGRRKLLAIAAVLIGLFSLVAPVLLGSGDIGRYLFVLIGFSLLGLSFGQAGGALASRFSREYRYTGASLTSDISWLIGAGFAPLVALGFSSKFGLFAVGIYLMSGALCTLIALWFSRTLDMPSE				NA	NA	NA	NA	NA
BMS010_02076	1080	cyoA	COG1622	Cytochrome bo(3) ubiquinol oxidase subunit 2	GTGCGCACGATCAAAAAAATCCTATCCGCCCTTCTGGCAATCCCGGCTCTGCTGCTGCTCAGCGGCTGTAACCTCGTGGTGATGAACCCTTCGGGCGACGTCGCCATCCAGCAGCGCGATCTTATCATCACGTCCACGGTCTTGATGCTGCTGATCATCGTCCCCGTCATCGTCCTGACGATTTTCTTCGCATGGAAGTATCGGGAATCGGCAAAGGCCGAGGATTACGATCCCGAGTGGCACCACTCCACGCGCCTTGAAATGGTGATCTGGTCGGCTCCGGTCGCCATCATCCTGATGCTCGGCACGGTGACCTGGATTTCCACTCACCGTCTCGACCCCTATCGTCCGCTGGAGCGTATCGATGAGAACCGTCAGGTGACCGCCGATGTCAAACCGATCACGGTGGAAGTGGTGGCCATGGACTGGAAGTGGCTGTTCTTCTATCCCGAACTCGGCATTGGCAGCGTCAATGAATTCGCCGCTCCGGTCGATGTTCCGATCAATTTCAAGATCACCGGCACGACAGCGATGAACTCCTTCTTCGTGCCCGCGCTCGCTGGCCAGATCTACGCCATGGGCGGCATGCAGACGAAGCTGCACGCGGTCATCAACAAGGAAGGCGTTTATGACGGCTTCTCGGCCAACTTCTCCGGCCCCGGCTTCTCCCACATGCGCTTCAAGTTCCATGGCCTGAGCCAGCAGGGTTTCGACCAGTGGGTTGCCAAGGCGAAAGAGGGGGGCAAGGGCTTCGGCCGTCAGGAATATCTGGAATTCGCCAAGCCTTCCGAGCGCGAGCCGGTACAATATTTCGCTTCGGTCGATCCCGAACTCTACAGCGCCATTCTCAACCGCTGCGTCGAGCCCAACAAGCTCTGCATGCGTGACATGATGCATATCGACGCCAATGGCGGCGGCGGCAAGGAAGGCATCGATATCGCCAAGGCGCTGAATTCCGTCGTCTGCACGCCGCTTGCGCCCTTTGGCGTCGCCAGCGGTCCCCAATCCACTCCGGCTGCGCTCGAAGGACAGACTTTCGAGCCTGCGGCGCTGCCGGAAACGAAACAAGTCGCTGGCTGA	MRTIKKILSALLAIPALLLLSGCNLVVMNPSGDVAIQQRDLIITSTVLMLLIIVPVIVLTIFFAWKYRESAKAEDYDPEWHHSTRLEMVIWSAPVAIILMLGTVTWISTHRLDPYRPLERIDENRQVTADVKPITVEVVAMDWKWLFFYPELGIGSVNEFAAPVDVPINFKITGTTAMNSFFVPALAGQIYAMGGMQTKLHAVINKEGVYDGFSANFSGPGFSHMRFKFHGLSQQGFDQWVAKAKEGGKGFGRQEYLEFAKPSEREPVQYFASVDPELYSAILNRCVEPNKLCMRDMMHIDANGGGGKEGIDIAKALNSVVCTPLAPFGVASGPQSTPAALEGQTFEPAALPETKQVAG				NA	NA	NA	NA	NA
BMS010_02077	2004	cyoB	COG0843	Cytochrome bo(3) ubiquinol oxidase subunit 1	ATGATCGTCAATTCCGATCAAACGTCGTTCCTGTTCGGGAAGCTGACATGGGAGTCCATCCCGCTTCACGAGCCCATTCTTGTCGCAACCTTCGCGGCCGTGGCTCTGGGCGGTATCGCCGTCGTCGGCGCCCTCACCTATTTCCGCCTCTGGGGCTATCTCTGGAATGAATGGTTCACGAGCATCGATCACAAGAAGATCGGTATCATGTACATCATCCTGGCGCTGGTCATGCTGCTGCGCGGTTTCGCCGATGCCATCATGATGCGCGTCCAGCAGGCGATCGCGTCGGGCGGATCGGAAGGTTACCTCCCGCCACACCATTACGACCAGATCTTCACAGCCCACGGCGTCATCATGATCTTCTTCATGGCCATGCCGATGATCACGGGTCTGATGAACTTCGTCGTGCCGCTGCAGATCGGCGCCCGCGACGTTTCGTTCCCCTTCCTCAACAACTTCTCCTTCTGGATGACCACGGCCGGTGCCGTCATCACCATGATCTCTCTGTTCATCGGCGAATATGCGCAGACCGGCTGGCTGGCTTATCCGCCGCTCTCCGGTATCGATGGAAGTCCGGGGGTCGGGGTGGATTATTATATCTGGGGTCTGCAGATCGCCGGTGTGGGAACGACGCTATCGGGCATCAACCTGATCGTGACGATCATCAAGATGCGCGCGCCTGGCATGACCATGATGCGCCTGCCGATCTTCGTCTGGACATCGCTGTGTTCGAACATCCTGATCGTGGCCTCCTTCCCGATCCTGACCGGCACGCTGGCACTTCTCACCCTCGACCGCTACGTTGGCACCAACTTCTTCACCAACGATCTCGGCGGCAACCCGATGATGTATGTCAACCTCATCTGGATCTGGGGCCACCCCGAAGTCTACATCCTGGTTCTGCCGGCATTTGGCGTCTTCTCGGAAATCGTTGCGACGTTCTCCCGCAAGCGTCTCTTCGGTTATGCCTCGATGGTCTACGCCACCGGCGTCATCACCATCCTCGCCTATATCGTGTGGCTGCACCACTTCTTCACCATGGGTTCCGGTGCAAGCGTGAATGCCTTCTTCGGCATCACCACGATGATCATCTCGATCCCGACGGGCGCGAAGATCTTCAACTGGCTCTTCACCATGTATAAGGGCCGCATCAAGTTCGACGTTCCGATGCTGTGGACCATCGGTTTCATGATCACCTTCGTCATCGGCGGCATGACCGGCGTTCTTCTCGCCGTTCCGCCGGCGGACTTCGTGCTTCACAACTCGCTGTTCCTGATCGCCCACTTCCACAACACCATCATCGGTGGCGTGGTGTTCGGTGTGCTTGCGGGTATCGTCTACTGGTTCCCGAAGGCCTTCGGATACCGGCTCGATCCGTTCTGGGGCAAGCTGTCCTTCTGGTTCTGGTTCATCGGTTTCTATTTCGCCTTCATGCCGCTCTATATTCTCGGCCTGATGGGGATTACCCGCCGTATCAGCCAGTTCGAGGATAATTCCCTCCAGATCTGGTTCGTGATCGCCGCCTTCGGCGCCTTCCTGATCGCGCTCGGCATCGCCTCCTTCGTCATCCAGCTCATTGTCAGCTTCCTGAAGCGCGACCAGCTGCGTGACGTGACCGGCGACCCCTATAACGGCCGTACGCTGGAATGGTCGACGTCTTCGCCGCCGCCCGCCTACAACTTCGCCTTCACGCCCGTCATCCACGATGTCGACGCCTGGGCGGATATGAAGAAGCGCGGTTACAGCCGTCCCAAGGAAGGCTTCATCCCGATCCATATGCCGAAGAACACCGGCGCGGGCGTGATCATCAGCGCCATCAGCGTGGTTCTCGGCTTCGCCCTGGTATGGCACATCTGGTGGCTTGCGGCTCTGTCGATGCTCGCCATCATCGCGGTCTCCATCGCCCATACCTTCAACTACAATCGCGATTATTACATTCCGGCTTCCGACGTTTCGACGGTCGAGGCGGAACGTACCAAGCTGCTCGCGGAACAGGCGTAA	MIVNSDQTSFLFGKLTWESIPLHEPILVATFAAVALGGIAVVGALTYFRLWGYLWNEWFTSIDHKKIGIMYIILALVMLLRGFADAIMMRVQQAIASGGSEGYLPPHHYDQIFTAHGVIMIFFMAMPMITGLMNFVVPLQIGARDVSFPFLNNFSFWMTTAGAVITMISLFIGEYAQTGWLAYPPLSGIDGSPGVGVDYYIWGLQIAGVGTTLSGINLIVTIIKMRAPGMTMMRLPIFVWTSLCSNILIVASFPILTGTLALLTLDRYVGTNFFTNDLGGNPMMYVNLIWIWGHPEVYILVLPAFGVFSEIVATFSRKRLFGYASMVYATGVITILAYIVWLHHFFTMGSGASVNAFFGITTMIISIPTGAKIFNWLFTMYKGRIKFDVPMLWTIGFMITFVIGGMTGVLLAVPPADFVLHNSLFLIAHFHNTIIGGVVFGVLAGIVYWFPKAFGYRLDPFWGKLSFWFWFIGFYFAFMPLYILGLMGITRRISQFEDNSLQIWFVIAAFGAFLIALGIASFVIQLIVSFLKRDQLRDVTGDPYNGRTLEWSTSSPPPAYNFAFTPVIHDVDAWADMKKRGYSRPKEGFIPIHMPKNTGAGVIISAISVVLGFALVWHIWWLAALSMLAIIAVSIAHTFNYNRDYYIPASDVSTVEAERTKLLAEQA	PGPT0004025_95	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004025-foxA|coxA|ctaD-K02274	NA	NA
BMS010_02078	627	cyoC_1	COG1845	Cytochrome bo(3) ubiquinol oxidase subunit 3	ATGTCTCATACACCTGCACAAAGCGTCGACGGCGCTGAACCACCGGTCTTCTACCTGAAGGAAGACCACCACCCGGAGAACGGCACCTCGCTGGGCTTCTGGCTCTACCTGATGAGCGACTGCCTTATCTTCGCGACGCTGTTTGCCACCTATGCCGTTGTCGGCCGCAACTATGCGGCCGGCCCTTCCGGTGCCGACCTGTTCGACCTGAAGCTGGTGGCGATCAATACCGGCTTCCTGCTTTTCTCCTCCATCACCTATGGCTTCGCCATGCTGGAAATGGAAAAGCAGAAGGTAAAGGCCACGCTGGTCTGGCTGGGTGTGACCGGCCTCTTCGGCCTCGCCTTCCTCGCGGTCGAACTCTACGAGTTCCATCACCTGATTGCGGAAGGTGCCGGTCCGCAGCGTTCGGCGTTCCTGTCGGCCTTCTTCGCGCTGGTCGGCACGCACGGTCTGCACGTCACCTTCGGCATCATCTGGCTCGTCACGCTCATGTTCCAGGTCGCCAAGCACGGCCTGATCGCGGCAAACAAGCGTCGCCTGATGTGCCTGTCGATGTTCTGGCACTTCCTTGACGTCATCTGGATCGGCGTCTTCTCCTTCGTTTACCTCATGGGAGTTCTTTGA	MSHTPAQSVDGAEPPVFYLKEDHHPENGTSLGFWLYLMSDCLIFATLFATYAVVGRNYAAGPSGADLFDLKLVAINTGFLLFSSITYGFAMLEMEKQKVKATLVWLGVTGLFGLAFLAVELYEFHHLIAEGAGPQRSAFLSAFFALVGTHGLHVTFGIIWLVTLMFQVAKHGLIAANKRRLMCLSMFWHFLDVIWIGVFSFVYLMGVL	PGPT0004035_2584	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004035-coxC|ctaE-K02276	NA	NA
BMS010_02079	396	cyoD	COG3125	Cytochrome bo(3) ubiquinol oxidase subunit 4	ATGAGTTCCGAAGCACACGCACATCACGACGCGCATGGCGACGACCATCATCACCATGATGGCGCGAGCCATGGCACCTTCAAGAGCTACATGATCGGCTTCGTCCTGTCGGTTATACTGACGGCGATCCCCTTCTGGCTGGTCATGGGCGACGTTCTTGAAAACAAGACCCTGCTGGTCATCGCCATCATGGGTCTCGGCGTCATCCAGATTTTTGTGCACATGATCTACTTCCTGCACATGGACACCAAGTCCGAAGGCGGCTGGACCTTCATGGCGCTGATCTTCACCGTCGTGGTTCTCCTGATCACGCTCTCCGGCTCGCTCTGGGTCATGTACAACATGAACAAGAACATGATGCCGCTGCACATCGAGGATGTGAAAAACCTGCCCTGA	MSSEAHAHHDAHGDDHHHHDGASHGTFKSYMIGFVLSVILTAIPFWLVMGDVLENKTLLVIAIMGLGVIQIFVHMIYFLHMDTKSEGGWTFMALIFTVVVLLITLSGSLWVMYNMNKNMMPLHIEDVKNLP				NA	NA	NA	NA	NA
BMS010_02080	762			hypothetical protein	ATGAGCGAAACCACACCCCATAACCGGCGCATCCGCCCTGCGGCCATCGTCGTCCTGTTCCTGACCGTTGTTCTGACGGGTCTGCTGCTCGCGCTCGGCACCTGGCAGGTCAAGCGCCTTTCCTGGAAGCGCGATCTTATCGAGCGGGTCGAAGCCCGCGCGCATGCCGATCCAGTCGACGCCCCTGCCGCCAAAGAATGGCCGGCGCTCGGCGATCCGGCGGAATACGAATATCGCCGTGTGAAACTGTCCGGCACCTTCCTCAATGACAGGGAGGTTCAGGTCTATACGGTCACGGACCTCGGCCCCGGTTACTGGGTGATGACGCCGCTCAAGCGGGACGATGGCTCCAGCATCATCGTCAATCGCGGCTTCGTGCCGTCCGACAGGCGCGACCCGTCCTCCCGCCAGAGAGGCGAACCGACCGGAAACGTCGAGATCGTCGGGCTGATGCGCGCCCCCGAAACCGGCGGGCTTTTCCTGCGCACCAACGATCCGGCAAATGGCCGCTGGTATTCCCGCAACATCCCGCAAATCTCGCAGGCATCCGGCCTTTCCGATGTCGCGCCGTTTTATGTCGATGCCGATGCGACACCCAATCCGGGCGGCCTGCCGGTCGGCGGCAAGACCATGCTCACCTTCCCCAACAACCACCTCTCCTATGCCGTTACGTGGTATATTCTGGCGGCGATGGTGGTGGCTGCGGGCTGGTATGTCCTGCGTAACCTCAACGCCCCCAAACCGAAGCGGGACGAGGATTGA	MSETTPHNRRIRPAAIVVLFLTVVLTGLLLALGTWQVKRLSWKRDLIERVEARAHADPVDAPAAKEWPALGDPAEYEYRRVKLSGTFLNDREVQVYTVTDLGPGYWVMTPLKRDDGSSIIVNRGFVPSDRRDPSSRQRGEPTGNVEIVGLMRAPETGGLFLRTNDPANGRWYSRNIPQISQASGLSDVAPFYVDADATPNPGGLPVGGKTMLTFPNNHLSYAVTWYILAAMVVAAGWYVLRNLNAPKPKRDED				NA	NA	NA	NA	NA
BMS010_02081	1221	deoB_1	COG1015	Phosphopentomutase	ATGGCAAGAGCATTTCTTCTCGTTCTGGATTCCTTCGGCGTCGGCGGCGCACCCGATGCGGAGCGGTATGGCGATCTTGGCGCAAACACGCTCGGCCATATCGCGGAATTCTGTGCAGCGGGCGCTGCCGACAAAGCGGGGCTTCGCTCCGGACCGTTGAAACTGCCGAACATGTGTTCGCTCGGTCTGCTGGAGATTGCGCGACAGGCAAGCGGCGACATTCCCGCCGGCATGGAACCGCCCGAGCGCATTTTCGGCCTGCACGGTTCCGCCGGCGAAATCTCCAAGGGCAAGGACACGCCGTCCGGTCACTGGGAGATCGCCGGTACGCCCGTCACCTTCGACTGGGGATATTTCCCGACGGAAGGCGACGCCTTTTCTCCGGAACTGGTGGAGGCGATCTGCAAGGAGGCTAATATTCCCGGCATCCTCGGCAATTGCCATGCTTCCGGCACCGAGATCATCGCTGCACTCGGCGAGGAGCATATCAGGACCGGTAAACCGATCTGCTACACCTCATCCGATTCCGTTTTCCAGATCGCCGCGCACGAAACGCATTTCGGTCTGAAGCGCCTCATCTCGCTCTGCGAGACGGTGCGCAAGCTGCTCGATCCGCTGAATATCGGCCGCGTCATCGCCCGCCCCTTCATCGGCGAAACGGTGGCGACCTTCGAACGCACCGGCAACCGTCGCGATTTCTCCGTTCTGCCACCGGAACCGACCCTGCTCGACAGGCTTGTGGAGGCCGGCCGAAAAGTGCACGCCATCGGCAAGATCGGCGATATCTACGCCCATCAGGGTGTGACGCGCATCATCAAGGCAAATGGCAACAGCGCCCTGATGGATGCGACATTGCAGGCTATCGATGAGGCCGAAAACGGCGATCTCGTCTTCACCAATTTCGTCGATTTCGACATGCTTTATGGCCATCGCCGGGACGTTGCCGGTTACGCCGCAGCCCTCGAGGCCTTCGATGCGCGAATCCCCGAAATCCATCGCAAGATGGCGCCGGGTGACATCGCCCTTCTGACCGCCGATCACGGTTGCGACCCCACCTGGCGGGGCACGGACCATACACGGGAAAGGGTGCCGATCATGGCATTCGGACCGGGCATTCGCTCACGCGATGTCGGCATCCGTTCAAGCTACGCCGATATCGGCGAAAGCATCGCCCACCATCTTGGCATCGAGGCCGGTTCTCACGGCAGGAGCTTCATTTGA	MARAFLLVLDSFGVGGAPDAERYGDLGANTLGHIAEFCAAGAADKAGLRSGPLKLPNMCSLGLLEIARQASGDIPAGMEPPERIFGLHGSAGEISKGKDTPSGHWEIAGTPVTFDWGYFPTEGDAFSPELVEAICKEANIPGILGNCHASGTEIIAALGEEHIRTGKPICYTSSDSVFQIAAHETHFGLKRLISLCETVRKLLDPLNIGRVIARPFIGETVATFERTGNRRDFSVLPPEPTLLDRLVEAGRKVHAIGKIGDIYAHQGVTRIIKANGNSALMDATLQAIDEAENGDLVFTNFVDFDMLYGHRRDVAGYAAALEAFDARIPEIHRKMAPGDIALLTADHGCDPTWRGTDHTRERVPIMAFGPGIRSRDVGIRSSYADIGESIAHHLGIEAGSHGRSFI	PGPT0017440_636	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0017440-deoB-K01839	NA	NA
BMS010_02082	978	add2	COG1816	Aminodeoxyfutalosine deaminase	TTGACATCGCATTTGCTGAAAGCGGAAATTCACTGCCACCTCGAAGGTGCGGCCCCGCCCGCCCTCGTCGCTAAACAGGCGGAGAAATACGGTATCGACACCAGCGGTTTTCTGCGAGACGGCCAATATGTCTGGTCGGATTTCGCCGAATTCATCCGTTGTTACGATGCGGTGGCGCAGGTGTTCAAGACGGATGAGGATTATGCAGTCCTGACTGAAACCTACCTGACCGAACTTGCGCAAGCCAATACCATCTATAGCGAGCTGATCATTTCGCCCGATCACGGCGACCGCATCGGGCTTGGCGCAGACGCCTATCTAGCCGGTATTGCCGAAGGTATCCGCATCGCAAGGGAAAAGACGGGGATCGAAACCCGCATAATTGTCACCGGCGAGCGCCATTTCGGCCCGGAGCGGGTGATCGCCGCGGCGGAATATGCGGCACGCGCTCAACATCCGCTGGTGACGGGGTTCAACATGGCCGGCGAGGAGCGCATGGGCCGCGTCGCCGATTATGCGCGCGCCTTCGACATCGCCCGCGATGCCGGCCTTGGACTGACCATTCATGCCGGCGAGGTTTGCGGACCGGAAAGCGTTGCCGATGCGCTCGATCTCGTCAAGCCGTCCCGCATCGGGCATGGCGTGCGCGCCATCGAAGATGCCGGTCTCATCGCGCGGCTGGCCGAGGCGGGAACGGTTCTGGAAGTCTGCCCCGGCTCTAATATCGCGCTCAACGTCTATCCCGATTTTGCCAGCCACCCGCTGAAAGCTCTGAGCGACGCCGGGGTGCGCGTCTGCATCAGTTCCGACGACCCGCCATTCTTCTTCACGTCGCTTGCACGGGAATATGCGCTGGCTGCGGATGAGTTCGGCTTCAGCGATGCCGAGATCAACCGCATGACACGGACTGCACTGGAATGCGCCTTCGTGGACGAGGCAACACGTGCGCGACTGCTTGCGAAACTTGATGGCGCCTGA	MTSHLLKAEIHCHLEGAAPPALVAKQAEKYGIDTSGFLRDGQYVWSDFAEFIRCYDAVAQVFKTDEDYAVLTETYLTELAQANTIYSELIISPDHGDRIGLGADAYLAGIAEGIRIAREKTGIETRIIVTGERHFGPERVIAAAEYAARAQHPLVTGFNMAGEERMGRVADYARAFDIARDAGLGLTIHAGEVCGPESVADALDLVKPSRIGHGVRAIEDAGLIARLAEAGTVLEVCPGSNIALNVYPDFASHPLKALSDAGVRVCISSDDPPFFFTSLAREYALAADEFGFSDAEINRMTRTALECAFVDEATRARLLAKLDGA	PGPT0021520_2793	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021520-add-K01488	NA	NA
BMS010_02083	630	upp_1		Uracil phosphoribosyltransferase	ATGGACGGCGTCACAGTCATCGAACATCCGCTGGTGCGGCACAAACTCACCATCATGCGCAAGAAGGAAACTTCCACGGCCGGCTTCCGCCGCCTGCTCAGGGAAATTTCGACGCTGCTCTGCTATGAAGTGACGCGCGACCTTGAGATGACGATGGAAACCATCGATACGCCGCTCGAAACCATCGAAGCCCCCGTGCTCGAAGGCAAGAAGCTGGTTTTCGCCTCCATCCTGCGCGCCGGCAACGGCCTCCTGGAAGGCATGCTCGAGCTCGTGCCTTCGGCGCGTGTTTCCCATATCGGCGTTTATCGCGATCATGACACGCTGGAAGCCGTCGAATATTACTTCAAGGCTCCGGAAAGCCTCGATGCGCGCCTTATCATCGTTGTCGATCCGATGCTGGCAACCGGCAATTCCTCTATCGCCGCCGTTGAGAAGCTGAAGGAGCGCGGTGCGAAGAACATCCGCTTCCTGTGTCTGCTGGCGGCACCCGAAGGCATCAAGAACTTCCGCGAAGCGCATCCCGATGTGCATATCTACACCGCCGCGATCGACAGCCATCTGAACGAGAAGGGTTATATCGTTCCCGGTCTCGGCGATGCTGGAGACCGCATGTACGGCACCAAATAA	MDGVTVIEHPLVRHKLTIMRKKETSTAGFRRLLREISTLLCYEVTRDLEMTMETIDTPLETIEAPVLEGKKLVFASILRAGNGLLEGMLELVPSARVSHIGVYRDHDTLEAVEYYFKAPESLDARLIIVVDPMLATGNSSIAAVEKLKERGAKNIRFLCLLAAPEGIKNFREAHPDVHIYTAAIDSHLNEKGYIVPGLGDAGDRMYGTK	PGPT0021240_2937	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021240-upp-K00761	NA	NA
BMS010_02084	522			hypothetical protein	TTGCTGACGCGCGCGATTTTTCTGCTTGTTGGGCTTTCGGTCGGTGCGACGCAGATTCCGGCTCTGGTGGAAAAATTTCAGCCGCGCCCGGAAGCAAGCATCGAGAAAGCGGAAGCCAGACCCGAAGCGGCCAAACCGGAGTCCGTCTCCCTTGGCGGCGTCAATCTGAAAGCCGATGCGCGCGGCCACTTCAATGCCACCTTCCGCGTCAACGGCAAATCCTTCGACGGACTTGTCGATACCGGCGCTTCCATGGTCGCCATCAACGAGACGATTGCGCGCCGGCTCGGTTACGGCGTCAACAGCCTCGATTATAAATATGCGATTTCAACGGCCAATGGCCAGACCATGGCCGCCTATGTGAAACTCGACCGGGTGGAGATCGGCACTATCCGGGTTCAGAATGTCGACGCCATGGTGCTGAAGGACAATGCGCTCGGCAACATGCTGATCGGCATGAGCTTCCTGAAACAACTATCGTCCTTCAAGGTATCGGGCGGCGAGATGCGGCTGGTCAGGTGA	MLTRAIFLLVGLSVGATQIPALVEKFQPRPEASIEKAEARPEAAKPESVSLGGVNLKADARGHFNATFRVNGKSFDGLVDTGASMVAINETIARRLGYGVNSLDYKYAISTANGQTMAAYVKLDRVEIGTIRVQNVDAMVLKDNALGNMLIGMSFLKQLSSFKVSGGEMRLVR	PGPT0015885_894	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-PILUS|FIMBRIAE_SYSTEM	MOTILITY-PILUS_SYSTEM,PGPT0015885-perP-K06985	NA	NA
BMS010_02085	1317	deoA_1	COG0213	Thymidine phosphorylase	TTGAGCTTGATCCCGCAGGAAATCATCCGCCGCAAACGCGATGGCCTGTCACTTGAGCCTCGGGAGATTGCCGCTTTTATAGAGGCGCTTTCTAAAGACGGCATCTCTGAAGGGCAGGCGGCTGCTTTTGCCATGGCGGTGTTCTTTCGCGGCATGAACCGGGATGAGATGGTGGCGCTGACGCTCGCCATGCGCGACAGCGGTGAGGTCCTGTCCTGGAGCGATCTCGGCAGGCCGGTGGCGGACAAGCATTCCACCGGCGGCGTCGGCGATAATGTCTCCCTGATGCTCGCCCCCATCGTTGCCGCCTGCGGTCTCGCCGTACCGATGATTTCCGGCAGGGGCCTTGGCCATACCGGCGGCACGCTGGACAAGCTGGAAGCGATCCCCGGTTACAACGTCATGCCGGACGAGGTGTTGTTTCGCCGGACGGTAAAGACGATCGGCTGCGCCATCATCGGCCAGACGGGCGATCTCGCTCCCGCCGATAAACGGCTTTATGCCATTCGCGATGTGACCGCGACGGTCGATTCCATACCGCTGATCACGGCCTCCATCCTGTCGAAAAAGCTTGCGGCCGGGCTGCAGACGCTGGTTCTGGATGTGAAGGTCGGCAACGGTGCTTTCATGCAGGGCGTCGAGGATGCCCGCAATCTGGCCCGCGCGCTGGTCGATGTGGCGAATGGCGCAGGCCTGCCGACAACGGCGCTGATAACCGACATGAACCAACCGCTTGGCGATGCCGCCGGCAATGCGGTCGAAATCGTCAATTGCCTGGATTTTCTGGCCGGTCGCAAGGCCGGTACCCGTCTTGAAAAGGTGGTCCTGTCCTTTGCGGCGGAAATGCTGGTGCAGGCGCAAAAGGCGGCCACGCTGGAGGAAGGAGAGGCGCTGGCGTCGGCTGCGCTGTCATCCGGTCGAGCGCTGGAAATCTTTGCGCGGATGGCTTCGGCACTGGGTGGCCCATCGGATTTCGTTGAGCATCCGTCCCGTTATCTGCCCTCTGCGTCGGTCATTCGTCCGGTTCTGGCGGAGCGCAGCGGTTTGCTCGCCTCGTGCGCCACGCGCGATCTTGGCATGGTTGTCGTCGAACTTGGCGGCGGCAGAAGAAAGCCATCAGACACGATCGATCCTTCCGTCGGTATCTCGGATATCCTGCCGCTCGGTACGAAAGTGGAAAAGGGCGCGCCGATCGCCACCGTTCATGCTGCTTCCAGGGACGAGGCGGAACGTGCGGTGAAAAGGGTAGCTGCCTGCTACGGAATTGCCGACAGCTTGCCAGAGATCGATGCGCCCATTCTCGAGCGGATCACCTGA	MSLIPQEIIRRKRDGLSLEPREIAAFIEALSKDGISEGQAAAFAMAVFFRGMNRDEMVALTLAMRDSGEVLSWSDLGRPVADKHSTGGVGDNVSLMLAPIVAACGLAVPMISGRGLGHTGGTLDKLEAIPGYNVMPDEVLFRRTVKTIGCAIIGQTGDLAPADKRLYAIRDVTATVDSIPLITASILSKKLAAGLQTLVLDVKVGNGAFMQGVEDARNLARALVDVANGAGLPTTALITDMNQPLGDAAGNAVEIVNCLDFLAGRKAGTRLEKVVLSFAAEMLVQAQKAATLEEGEALASAALSSGRALEIFARMASALGGPSDFVEHPSRYLPSASVIRPVLAERSGLLASCATRDLGMVVVELGGGRRKPSDTIDPSVGISDILPLGTKVEKGAPIATVHAASRDEAERAVKRVAACYGIADSLPEIDAPILERIT	PGPT0021365_1202	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021365-deoA-K00758	NA	NA
BMS010_02086	774	deoC_1	COG0274	Deoxyribose-phosphate aldolase	ATGGAACTCCAGCGTCCGCGCGAAGCGGCTGCCCTCACCCTGTCCTTGCTGGACCTGACCAATCTCAAGGAAGACTGCACGCCCGAGCAGATCGCCGCTTTGTGCCAGCGGGCGCATACGGAATATGGCAATACGGCCGCAATCTGCATCTGGCCGCGCTTCGTGGCGCAGGCCCGTGCGGCGTTTGGAAAAGACCACGCTATCCGCATCGCCACGGTCGTTAATTTTCCTTCGGGCGATCTCGACATCGCGACCGTGGTTGCGGAAACCGAGGCGGCGATCCGCGACGGCGCTGACGAAATCGATCTCGTCATTCCCTATCGCAAATTCATAGCCGGCGATGAAACGGCGGTGTCCACCATGGTGGCGGCCGTTCGCAAGGCCTGCGTTGCACCCGTGCTGCTCAAGGTCATTCTTGAAACCGGCGAGTTGAAGGACAAGGCGCTCATCCGTCGCGCATCGGAACTCGCCATTGCCGAAGGGGCCGATTTCATCAAGACCTCGACCGGCAAGGTTGCCATCAACGCCACGCTGGAGGCCGCCGACATCATGTTGCAGGCGATCCGCGACAGCCGGCAGAAGGTGGGCTTCAAGCCCGCCGGCGGCATCGGCACGGTGGAGGACGCCACGCTTTACCTCAGGCTTGCGGAAACCATCATGGCGCCCAACTGGGCCATGCCCTCCACCTTCCGTTTCGGCGCTTCCGGTGTTCTCGATGATGTGCTGAACGTGCTGGCCGGCGGCGAGCCCGCCAAGGCCGCCAGCGGGTATTGA	MELQRPREAAALTLSLLDLTNLKEDCTPEQIAALCQRAHTEYGNTAAICIWPRFVAQARAAFGKDHAIRIATVVNFPSGDLDIATVVAETEAAIRDGADEIDLVIPYRKFIAGDETAVSTMVAAVRKACVAPVLLKVILETGELKDKALIRRASELAIAEGADFIKTSTGKVAINATLEAADIMLQAIRDSRQKVGFKPAGGIGTVEDATLYLRLAETIMAPNWAMPSTFRFGASGVLDDVLNVLAGGEPAKAASGY	PGPT0017445_1400	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_RIBOSE_METABOLISM|DEGRADATION,PGPT0017445-deoC-K01619	NA	NA
BMS010_02087	801	punA	COG0005	Purine nucleoside phosphorylase 1	ATGCCGGATACGCTGATCGATATTCTGGTGGAGCGCCTGAACGGCCTGATGCCGCGCGTCGCCATCGTCCTCGGCTCGGGCCTCGGTTCGCTGGTGGAAGAAGTCAGCGACCCGATCCGGGTGCCCTATGCCGAACTTCCCGGTTTTCCCGCAAGCGGCGTTTCCGGCCATGCGGGCGAGCTGGTGGCGGGATATCTTGGCGGGGAGCCGGTCATGATGCTCTCCGGCCGGGTGCATTATTACGAAAAGGGCGATCCGTCCGCCATGCGCGCGATCATCGGGGCGCTGGCCGGTCTCGGCGTGCAGTCGCTCATCCTCACCAATTCGGCAGGTTCGGTCAGGCAGGATATGCCGCCCGGCTCGGTCATGCAGATCACCGATCACATCAACTATTCCGGCATGAACCCGCTAATCGGCGAGGAAAGCGACCGCCGCTTCGTCGGCATGACCACCGCTTACGATCCCGATCTGATGCTTGCCATGCGCAACGCCGCCATCCGTGCCACAGTGCCTTTGTTCGGCGGCGTCTATATGTGGTTTTCCGGCCCGAGCTTCGAAACACCGGCGGAAATCCGCATGGCGCGGCTGCTGGGGGCGGATGCCGTTGGCATGTCCACCGTGCCGGAAGTCATCCTTGCGCGCTTTTTCGGGATGCGCGTCGCCGCCGCATCGGTTATTACCAATTACGGTGCCGGCATGACCGGCGCGGAACTGAGCCATGAAGAAACCAAGGACATGGCTCCCGTGGGTGGCAAGAGGCTTGCCGCCATTCTGAAGGAAATGATCGCAGGAGGAGCGTGA	MPDTLIDILVERLNGLMPRVAIVLGSGLGSLVEEVSDPIRVPYAELPGFPASGVSGHAGELVAGYLGGEPVMMLSGRVHYYEKGDPSAMRAIIGALAGLGVQSLILTNSAGSVRQDMPPGSVMQITDHINYSGMNPLIGEESDRRFVGMTTAYDPDLMLAMRNAAIRATVPLFGGVYMWFSGPSFETPAEIRMARLLGADAVGMSTVPEVILARFFGMRVAAASVITNYGAGMTGAELSHEETKDMAPVGGKRLAAILKEMIAGGA	PGPT0013380_2372	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013380-punA-K03783	NA	NA
BMS010_02088	405	cdd_1	COG0295	Cytidine deaminase	ATGTCCCGAGATCCGATGTCCCATGCCCTGTTCGAGGCAGCGGTGGAGGCCATGGCCTTTGCCCATGCGCCCTATTCGAAATTTCCAGTCGGTGCGGCGATCCGCGCCGAAGACGGCAAGATTTACAAGGGCGCCAATATCGAGAACCTGTCCTTCCCGCAGGGCTGGTGCGCTGAACCTTCCGCCATCAGCGCCATGATCATGGGTGGGGCGAAGAAGATCAGCGAAATCGCGGTTATCGCCGAAAAGCTTGCTCTCTGCCCGCCCTGCGGCGGCTGCCGGCAGAAGATCGCCGAATTCGCGACGCCGGACACGAAAGTCTATCTCTGCGACGAAACCGGCGTGCAGAAGGTCATGACCATGGAGGAGCTTTTGCCCTTCAGCTTCAAGACAGAGCTGCCCTGA	MSRDPMSHALFEAAVEAMAFAHAPYSKFPVGAAIRAEDGKIYKGANIENLSFPQGWCAEPSAISAMIMGGAKKISEIAVIAEKLALCPPCGGCRQKIAEFATPDTKVYLCDETGVQKVMTMEELLPFSFKTELP	PGPT0021360_2891	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021360-cdd-K01489	NA	NA
BMS010_02089	972	rfuD	COG1079	putative riboflavin import permease protein RfuD	ATGGATTTCTTCGATATGCTGGTCAGCATCCTCGGCTCGACCGTCCGTCTCACCATCCCGCTGCTTTTCACCGCGCTCGCCGGGCTCTTTTCCGAACGCGCGGGCGTGTTCGATATCGGCCTTGAAGGCAAGATGTTGGCGGCGGCCTTCGCCTCTGCCTGCGTCGCCTATCTCACGGCAGATCCATGGGCGGGTCTGCTGGCGGGCATCACCGTCTCCATCCTCTTCTCGTTGATCCATGGTTTCGCCGTCATCACCAATCGCGGCAACCAGATCGTGTCGGGCGTGGCGCTGAACTTCATCGCCGCCGGCCTGACGGTGGTTCTGGGGCAAGCCTGGTTCGGGCAGGGCGGCCGCACGCCGCAATTGCCGTCCGAGGGCCGCTTTGCGCCGATCATCCTGCCGGGTGCGGATGCGATGCGCGAGGTGCCCTTCATCGGCCCGCTCTATGCCAATGTCATTTCCGGCAACAATATCCTCACCTATCTCGCCTTTCTGGCGGTGCCGCTCTCCTGGTGGGTGCTTTATCGCACCCGTTTCGGCCTGCGTCTGCGCGCCGTGGGTGAAAACCCGGGCGCGGTGGATACGGCCGGCATTTCGGTGACATGGATGCGCTTCCGCGCCGTAATCGTCGCCGGTTTCCTCTGCGGTTTTTCAGGCGCCTATCTCGCCGTTGCGCAGTCTGCGGCCTTCATCGCCAACATGTCGGCCGGCAAGGGCTATATAGCGCTTGCGGCGCTGATCTTCGCGAAATGGAAGCCGGTGCCGGTCATGTTCGCCTGCCTGCTTTTCGGTTTTCTGGATGCCTTCGCCAACTTCATGCAGGGTAAATCCGTGCCCGGTATCGGCGAGGTGCCGGTGCAGATTTTCCAGGCCATGCCCTATATTCTGACCTGCATCCTGCTTGCCGGTTTCATCGGCGTCGCCAAGCCCCCCAAGGCCGGTGGCGTTGCCTATGCGAAGGAGCGTTAA	MDFFDMLVSILGSTVRLTIPLLFTALAGLFSERAGVFDIGLEGKMLAAAFASACVAYLTADPWAGLLAGITVSILFSLIHGFAVITNRGNQIVSGVALNFIAAGLTVVLGQAWFGQGGRTPQLPSEGRFAPIILPGADAMREVPFIGPLYANVISGNNILTYLAFLAVPLSWWVLYRTRFGLRLRAVGENPGAVDTAGISVTWMRFRAVIVAGFLCGFSGAYLAVAQSAAFIANMSAGKGYIALAALIFAKWKPVPVMFACLLFGFLDAFANFMQGKSVPGIGEVPVQIFQAMPYILTCILLAGFIGVAKPPKAGGVAYAKER	PGPT0021050_689	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021050-nupC|yufQ-K23536	NA	NA
BMS010_02090	1104			hypothetical protein	ATGAGCACCGCTTCCGTACCCCTACCAAACTGGATCAGCTACGGCCTGCTGCCTTTGCTGAACGTTGTTACTGCCTTTCTGATTTCCGGCCTCGTTGTCTGGTCTATCGGTGAAAGCCCGCTGGCGGCGCTGCGCCTGCTTATCGAGGGTGCGCTCGGCCGTGGCGATGCCATCGGCTTCACGCTGTTCTACACGACGAGCTTCATCTTCACCGGCCTTTCGGTCGCCGTGGCCTTCCATGCCGGCCTCTTCAACATCGGTTCGGAAGGTCAGGCCTATATTGGCGGGCTGGGTGCTGCGCTGGTGGCGCTGGCGCTCGACCGTTACGTGCCGTGGTATGTGACGATGCCCTTCGCCGTCATCGGTGCCGCGCTTTTCGGCGCAGCCTGGGCCTTCATTCCGGCATGGCTGCAGGCAAAACGCGGCAGCCACGTCGTCATCACCACCATCATGTTCAACTTCATCGCGGCTGCGCTGATGGTCTATCTGCTGGTGAATGTGCTGATCGTGCCCGGCAAGATGGCGCCGGAAACGCGCACCTTTCTGCCGGGCGGGCAATTGCCGAAGCTTGACTGGTTGATGGCGCTGTTCGGCCTCAAGCTTGGGCCGGCGCCATTCAACGTCTCCTTCATCATCGCGCTGGTCATGTGTTTCCTTGTCTGGGTGCTGATCTGGCGCACCAAGCTCGGTTATGAGATGCGCACGCTCGGCATCAGCCCTTCCGCCGCCATCTATGCCGGCATTCCCTATGCGCGCACGGTCATCATCGCCATGCTCATTTCCGGCGGTCTGGCGGGCATGATGGCGCTGAATCCGGTCATGGGGGCTTCCGCCCGCCTGCAGGTGGAATTCGTCGGCGGTGCTGGCTTCGTCGGCATCGCCGTGTCGCTGATGGGGCGAAGCCATCCGCTTGGCATCATCTTCGCGGCATTGCTGTTCGGTATTCTCTATCAGGGGGGTGCGGATCTTTCTTTCGAGATGCCGAACATTACCCGCGAGATGATAGTGGTCATTCAGGGTCTGGTGATCCTCTTCGCCGGCGCGCTGGAATATATGTACCGGCCGGCGGTCGTCCGCATCTACCAGCGTTTGGCAAAGGGGTGA	MSTASVPLPNWISYGLLPLLNVVTAFLISGLVVWSIGESPLAALRLLIEGALGRGDAIGFTLFYTTSFIFTGLSVAVAFHAGLFNIGSEGQAYIGGLGAALVALALDRYVPWYVTMPFAVIGAALFGAAWAFIPAWLQAKRGSHVVITTIMFNFIAAALMVYLLVNVLIVPGKMAPETRTFLPGGQLPKLDWLMALFGLKLGPAPFNVSFIIALVMCFLVWVLIWRTKLGYEMRTLGISPSAAIYAGIPYARTVIIAMLISGGLAGMMALNPVMGASARLQVEFVGGAGFVGIAVSLMGRSHPLGIIFAALLFGILYQGGADLSFEMPNITREMIVVIQGLVILFAGALEYMYRPAVVRIYQRLAKG	PGPT0021045_1444	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021045-nupB|yufP-K23535	NA	NA
BMS010_02091	1512	mglA_2	COG1129	Galactose/methyl galactoside import ATP-binding protein MglA	TTGAGTATGGACCCTGCAATCGAACTGGTGGGCATCGACAAGAAATTCGGTGCCGTTCACGCCAACAAGAATATCAATCTGACCGTCGCCAAGGGCACGATCCACGGCATTATCGGGGAAAACGGTGCCGGGAAATCGACCCTGATGTCGATCCTCTATGGCTTTTACCAGGCGGACGCCGGTGAAATCCGGGTGAATGGCACGCCCGTCGCGATCCGTGACAGCCAGACGGCCATCAATGCCGGCATCGGCATGGTGCATCAGCACTTCATGTTGGTGGAAAATTTCACCGTGCTGGAAAACGTCATGCTCGGCGCAGAAGGCGGCGCATCGCTCGCCAAGGGCCGGGCGGCGGCCCGCAAGGAGTTGCAGCGCCTAGAGGACGATTACGGTCTGGAAGTCGATCCGGATGCGGTCATCGAGGAATTGCCGGTCGGTCTGCAGCAGCGCGTCGAAATCCTCAAAGCGATGTATCGTGGCGCCGAAATCCTGATCCTCGATGAGCCGACCGGCGTTCTGACGCCGGCCGAGGCCGATCACCTTTTCAAGATACTCGGCGTCCTGCGCGAGCAGGGCAAGACCGTCATCCTCATCACGCACAAGCTGCGCGAAATCATGGCGATCACGGATTCCGTCTCCGTCATGCGCCGCGGTGAAATGGTCGCGACCCGCAAGACCTCCGAAACCAGCGTCGAGGAACTGGCCGAACTGATGGTTGGCCGCCGCGTGCTGCTCAGGGTGGAAAAGGGCGAGACGACGCCCGGCGATGTTCTGCTCTCCATCCGCAATCTGACTGTCAAGGACAGTCGCGGCGTCACCATGGTGGATGATGTCTCGCTCGATGTCCGTGCCGGTGAAATCGTCGGCATTGCCGGCGTGGCGGGCAATGGCCAGTCGGAGCTGCTCGAAGCCATCGCCGGTATCCGCAAGCCCCATTCGGGCGAGATATGGGTGGATGGCCAGAAGGTGGACCACCCCGATCCGGCAATTTTGCGCAGGCTCGGCCTCGCGCATATCCCGGAAGACCGCCACCATATGGGGCTGGTGCTGAAATTCGAGGAATATGAAAACTCCATCCTCGGTTATCACCATGATGAGCGATACGGCAAAGGACCTTTCCTCAACCCCGAGGCCATCCGCAAGGATGCGGTCGAAAAGATCGAGAAATACGATATCCGCCCGCCGAACCCGCAGCTGAAGACCGCCAATTTTTCCGGCGGTAATCAGCAGAAGATCGTCGTTGCCCGCGAAATCGAACGTGACCCGAAGATGCTGATCATCGGCCAGCCGACACGCGGTGTGGATATCGGCGCCATCGAATTCATCCATCGCCGTATCATTGAAATGCGCGATGCCGGAAAGGCGATTTTGCTGGTTTCTGTCGAACTCGATGAAATCCGTTCTCTTTCGGATCGGATCATGGTCATGTTCGCGGGCCGTGTCGTTGGAGAAAAAACGGCGGAAGCCGAAGAACAGACGCTGGGCCTGATGATGGCCGGCATCGCCGCATGA	MSMDPAIELVGIDKKFGAVHANKNINLTVAKGTIHGIIGENGAGKSTLMSILYGFYQADAGEIRVNGTPVAIRDSQTAINAGIGMVHQHFMLVENFTVLENVMLGAEGGASLAKGRAAARKELQRLEDDYGLEVDPDAVIEELPVGLQQRVEILKAMYRGAEILILDEPTGVLTPAEADHLFKILGVLREQGKTVILITHKLREIMAITDSVSVMRRGEMVATRKTSETSVEELAELMVGRRVLLRVEKGETTPGDVLLSIRNLTVKDSRGVTMVDDVSLDVRAGEIVGIAGVAGNGQSELLEAIAGIRKPHSGEIWVDGQKVDHPDPAILRRLGLAHIPEDRHHMGLVLKFEEYENSILGYHHDERYGKGPFLNPEAIRKDAVEKIEKYDIRPPNPQLKTANFSGGNQQKIVVAREIERDPKMLIIGQPTRGVDIGAIEFIHRRIIEMRDAGKAILLVSVELDEIRSLSDRIMVMFAGRVVGEKTAEAEEQTLGLMMAGIAA	PGPT0021040_3204	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021040-nupA|yufO-K23537	NA	NA
BMS010_02092	993			hypothetical protein	ATGAAAAAATCCCTTCTGACGCTTTTTGCGCTTGCCGCAATGTCGGCTTCCGCGCTCGCCGCGGATATCAAGCCGGCGCTGGTCTATGGCACGGGCGGCAAGTTCGACAAGTCGTTCAACGAGGCCGCTGCGGCCGGCGCTGAAAAGTTCAAGGCGGAAACGGGCATCGAGTTCCGCGATTTCGAACCGACCAGCGACACGCAGGGCGAACAGGCCATCCGCAACTTCGCCAGCAAGGGCTTCAACCCGGTCGTTGCCGTGTCTTTTGCCTGGACCTCGGCCATGGAAAAGGTCGCAGCCGAATTCCCCGACACCAAGTTCGTCATCGTCGATTCCGCCGTCGAGCTGCCGAATGTTCGCTCCGTCGTATACAAGGAGCACGAAGGCTCCTATCTCGTCGGTCTTCTGGCCGGCATGGCCTCCAAGACCGGCAAGGTCGGCTTCATCGGCGGCATGGATATTCCGCTGATCCGTAAGTTCGCCTGTGGTTATGCGCAGGGCGCGAAGGCGGCCAACGACAAGATCGAAGTCTTCCAGAACATGACCGGCACCACGGGTGCTGCCTGGAACGATCCGGTGCGCGGCGGCGAACTCACCAAGAACCAGATCGACCAGGGTGCGGACGTGATTTACGCGGCAGCCGGTGCGACCGGTATCGGCGTGCTGCAGACCGCCGCCGACAACAAGAAGTTCTCGATCGGCGTCGATTCCAACCAGAACCACCTGCATCCGGGTTCGGTTCTGACCTCCATGGTCAAGCGCGTCGATCTGGCCGTCTACAATGCCTACAAGGATGCCAAGGACGACAAGTTCACCCCCGGCATCGTTGCGCTCGGCGTCAAGGAAGATGGCGTCGCCTACGCGGTCGACGACAACAACAAGGCCCTGATCACGCCGGAAATGACCGCCGCCGTGGACAAGGCGAAGGCCGATATCATCTCCGGCGCCGTCAAGGTTCATGACTATATGGCGGATAATTCCTGCCCGAAATGA	MKKSLLTLFALAAMSASALAADIKPALVYGTGGKFDKSFNEAAAAGAEKFKAETGIEFRDFEPTSDTQGEQAIRNFASKGFNPVVAVSFAWTSAMEKVAAEFPDTKFVIVDSAVELPNVRSVVYKEHEGSYLVGLLAGMASKTGKVGFIGGMDIPLIRKFACGYAQGAKAANDKIEVFQNMTGTTGAAWNDPVRGGELTKNQIDQGADVIYAAAGATGIGVLQTAADNKKFSIGVDSNQNHLHPGSVLTSMVKRVDLAVYNAYKDAKDDKFTPGIVALGVKEDGVAYAVDDNNKALITPEMTAAVDKAKADIISGAVKVHDYMADNSCPK	PGPT0021055_3881	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021055-bmpA-K07335	NA	NA
BMS010_02093	651	msrA_1	COG0225	Peptide methionine sulfoxide reductase MsrA	ATGTTCCTGTTCGATACGCTTTCAAAAAAAACGACGATGCCGACAGAAGAAACCGCCTTGCCCGGCCGTGAAGAGGCCCTTGCGGTGCCGGAAGCCCATTTCGTCAATGGCCGGCCCTTGAAGGGGCCTTATCCGGACGGACTTGAAACCATCTATCTCGGCATGGGCTGCTTCTGGGGTGCGGAACGGTTGTTCTGGAAAACGCCGGGCGTGTGGGTGACGGCGGTGGGTTATGCCGGCGGCTTCACCCGCAACCCCACCTATCAGGAGACGACCACGGGCCAGACGGGCCACGCCGAAGTGGTCAAGGTTGTCTACGATCCGGCCGTGATCTCGCTCCCGGGCCTGCTGAAGATATTCTTCGAGGAGCATGATCCGACACAAGGGATGCGGCAGGGCAACGATGTCGGCACGACCTACCGTTCCGCTATTTACGCGACGACGGAAGGGCAGTTGCAGCAGGCGCAGAAGGCGAGCGATGCTTTTCAACAGGCTTTGGACGAGGCCGGCCATGGTAGCGCCATCACCACCGAGATCGGGCCGCTTGAAAAGTTTTATTACGCTGAAGACTACCATCAGCAATATCTTGCCAAGAACCCCGGCGGCTACTGCGGCCTGAGGGGAACCGGCGTAAGCTGCAATATCGACTAG	MFLFDTLSKKTTMPTEETALPGREEALAVPEAHFVNGRPLKGPYPDGLETIYLGMGCFWGAERLFWKTPGVWVTAVGYAGGFTRNPTYQETTTGQTGHAEVVKVVYDPAVISLPGLLKIFFEEHDPTQGMRQGNDVGTTYRSAIYATTEGQLQQAQKASDAFQQALDEAGHGSAITTEIGPLEKFYYAEDYHQQYLAKNPGGYCGLRGTGVSCNID	PGPT0013065_2050	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013065-msrA-K07304	NA	NA
BMS010_02094	318			hypothetical protein	ATGAAAGCTTTTTTGCGGTTTTTGAGCTTTCTTTTCCTCGTGGCGGCGGTTTTTCTGGGTGTGCTCGATTCGATCCGCTCGGTTTCCACCTCCTCGGTCAACATCACCGGCATCCTGTCCGTCTGGAACTATCTGCTTCCTGCTTCCCGCACCATGGTGGAAGCGGCCATGGCTCACTATATTCACCCTGAAGCGTGGCGCTTCATTGAAAATGCCCTGTCGGCGGTGCCCGCATTTGCCGTTTCCCTGGCGCTTTCCCTGCTCTGCTGGATGGCGGGTTACAGGAAACACAAGGCGATGAGACGTTTATCGGCCTGA	MKAFLRFLSFLFLVAAVFLGVLDSIRSVSTSSVNITGILSVWNYLLPASRTMVEAAMAHYIHPEAWRFIENALSAVPAFAVSLALSLLCWMAGYRKHKAMRRLSA				NA	NA	NA	NA	NA
BMS010_02096	1902	dnaK_2	COG0443	Chaperone protein DnaK	ATGGCAAAAGTAATCGGTATCGACCTTGGCACGACCAATTCCTGCGTCGCAGTGATGGACGGCAAGGACACGAAAGTAATTGAAAACGCGGAAGGCGCGCGTACCACGCCGTCCATGGTGGCATTTTCCGACGATGGCGAGCGCCTTGTCGGCCAGCCGGCCAAGCGCCAGGCGGTCACCAACCCGACCAACACCCTGTTTGCGGTCAAGCGCCTCATCGGCCGCCGTTATGAAGACCCGACCGTCGAAAAGGACAAGGCTCTGGTCCCCTTTGAAATCGTCAAGGGTGACAATGGCGACGCATGGGTGAAGGCGCAGGACAAGCCCTATTCCCCTTCGCAGATTTCCGCGATGATCCTTCAGAAGATGAAGGAAACGGCTGAATCCTATCTCGGCGAAAAGGTCGAGAAGGCCGTTATCACGGTTCCTGCCTACTTCAACGACGCCCAGCGTCAGGCAACCAAGGATGCCGGCCGCATTGCCGGTCTGGATGTTCTGCGCATCATCAACGAGCCGACTGCGGCGGCACTCGCCTATGGCCTCGACAAGAAGGACGGCAAGACGATTGCCGTTTACGACCTTGGCGGCGGCACCTTCGATATTTCCGTGCTGGAAATCGGCGACGGCGTCTTCGAAGTGAAGTCGACCAACGGCGATACCTTCCTTGGCGGTGAAGACTTCGACATGCGTCTGGTGGAATATCTGGCCGGCGAGTTCAAGAAGGATCAGGGCATCGACCTGAAGAACGACAAGCTTGCCCTGCAGCGCCTGAAGGAAGCTGCCGAAAAGGCGAAGATCGAGCTGTCGTCCTCGCAGCAGACCGAAATCAACCTGCCGTTCATCACGGCCGATGCTTCCGGTCCGAAGCACCTGACGCTGAAGCTGACCCGTGCGAAGTTCGAAAGCCTGGTCGACGATCTGGTGCAGCGCACCGTTGCGCCGTGCAAGGCAGCGCTCAAGGATGCAGGCGTCTCCGCTTCCGAGATCGATGAAGTCGTTCTCGTCGGTGGCATGAGCCGCATGCCGAAGGTGCAGGAAGTCGTCAAGCAGCTGTTCGGCAAGGAGCCGCACAAGGGCGTGAACCCGGATGAAGTGGTCGCCATGGGCGCCGCCATCCAGGCCGGCGTTCTGCAGGGCGACGTCAAGGACGTTCTGCTGCTCGACGTGACCCCGCTGTCGCTCGGCATCGAAACGCTGGGTGGCGTCTTCACCCGTCTGATCGATCGCAACACGACGATCCCGACCAAGAAGAGCCAGACCTTCTCGACCGCCGAAGACAACCAGTCGGCCGTGACCATCCGCGTCTCGCAGGGCGAGCGTGAAATGGCCCAGGACAACAAGCTGCTCGGCCAGTTCGACCTCGTCGGCCTGCCGCCGGCACCGCGTGGCGTTCCGCAGATCGAAGTAACCTTCGATATCGACGCCAACGGCATCGTGCAGGTGTCGGCGAAAGACAAGGGCACCGGCAAGGAACAGCAGATCCGCATCCAGGCTTCCGGCGGTCTCTCCGACGCGGACATCGAGAAGATGGTGAAGGACGCCGAAGCCAATGCCGAAGCCGACAAGAAGCGTCGTGCGGGTGTGGAAGCCAAGAACCAGGCCGAAAGCCTCATCCACTCCACCGAGAAGTCGGTGAAGGAATATGGTGACAAGGTTTCCGAGACCGACCGCAAGGCGATCGAAGACGCCATTGCCGCCCTGAAGACCGCTGTCGAAGCCGCTGAGCCTGACGCAGACGACATTCAGGCGAAGACCCAGACCCTCATGGAAGTCTCCATGAAGCTCGGTCAGGCCATCTACGAAGCGCAGCAGGCCGAGGCCGGCGATGCTTCTGCAGAAGGCAAGGACGACGTCGTCGACGCCGACTATGAAGAAATCAAGGACGATAAGAAGTCCGCATAA	MAKVIGIDLGTTNSCVAVMDGKDTKVIENAEGARTTPSMVAFSDDGERLVGQPAKRQAVTNPTNTLFAVKRLIGRRYEDPTVEKDKALVPFEIVKGDNGDAWVKAQDKPYSPSQISAMILQKMKETAESYLGEKVEKAVITVPAYFNDAQRQATKDAGRIAGLDVLRIINEPTAAALAYGLDKKDGKTIAVYDLGGGTFDISVLEIGDGVFEVKSTNGDTFLGGEDFDMRLVEYLAGEFKKDQGIDLKNDKLALQRLKEAAEKAKIELSSSQQTEINLPFITADASGPKHLTLKLTRAKFESLVDDLVQRTVAPCKAALKDAGVSASEIDEVVLVGGMSRMPKVQEVVKQLFGKEPHKGVNPDEVVAMGAAIQAGVLQGDVKDVLLLDVTPLSLGIETLGGVFTRLIDRNTTIPTKKSQTFSTAEDNQSAVTIRVSQGEREMAQDNKLLGQFDLVGLPPAPRGVPQIEVTFDIDANGIVQVSAKDKGTGKEQQIRIQASGGLSDADIEKMVKDAEANAEADKKRRAGVEAKNQAESLIHSTEKSVKEYGDKVSETDRKAIEDAIAALKTAVEAAEPDADDIQAKTQTLMEVSMKLGQAIYEAQQAEAGDASAEGKDDVVDADYEEIKDDKKSA	PGPT0014555_3885	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014555-dnaK-K04043	NA	NA
BMS010_02097	1137	dnaJ_4	COG0484	Chaperone protein DnaJ	ATGGCGAAAGCAGACTTTTACGAAACACTCGGCGTCAGCAAGACCGCGGACGAAAAAGAGCTGAAAAGCGCCTTCCGCAAACTCGCGATGAAGTACCATCCGGACAAGAACCCGGATAACGCCGAATCCGAGCAGAAATTCAAGGAAATCAACGAAGCCTATGAAACGCTGAAGGACCCGCAGAAGCGCGCGGCCTATGACCGTTTCGGCCACGCCGCATTTGAAAATGGCGGCATGGGCGGCGGGGGCGGCTTTGGCGGCGGCGGTTTCGCCAATGGCGGCTTCTCGGATATTTTCGAAGACATCTTCGGCGAAATGATGGGCGGTGGCCGTGCGCGCCGCTCTTCCGGCGGACGCGAGCGCGGCGCCGACCTTCGCTACAACATGGAAATCACGCTGGAAGAGGCCTTCACCGGCAAGACGGCGCAGATCAGGGTTCCGACCTCGATCACCTGCGATGTCTGTTCCGGTTCGGGCGCCAAACCCGGCACGCAGCCCAAGACCTGCGCCACCTGCCAGGGTTCCGGCCGCGTGCGCGCGGCGCAGGGCTTCTTCTCGGTAGAACGCACCTGCCCCACCTGCCATGGTCGCGGGCAGACGATCTCCGATCCCTGCGGCAAGTGCCACGGTCAGGGCCGTGTAACGGAAGAGCGTTCGCTTTCCGTCAACATTCCCTCGGGCATCGAGGACGGTACCCGCATTCGCCTGCAGGGCGAAGGCGAGGCCGGCATGCGGGGCGGCCCGGCGGGCGATCTCTATATCTTCCTGTCCGTGCGTCCGCATGAATTCTTCCAGCGCGACGGCGCCGACCTTTATTGCACCGTACCGATCTCCATGACGACGGCAGCACTTGGCGGCACCTTCGATGTCACGACGCTCGACGGCACCAAATCGCGCGTTACGGTTCCGGAAGGAACCCAGCCGGGCAAACAGTTCCGTCTGAAGGGTAAGGGCATGCCGGTTCTGCGTTCGGCGCAGACGGGCGACCTCTATATCCAGATTCAGATCGAAACGCCGCAGAAACTCAGCAAGCGTCAGCGCGAGCTGTTGCAGGAGTTCGAGCAGCTCTCCTCCAAGGAGAACAATCCGGAATCCACGGGCTTCTTCGCCCGGATGAAGGAATTCTTCGACGGCTGA	MAKADFYETLGVSKTADEKELKSAFRKLAMKYHPDKNPDNAESEQKFKEINEAYETLKDPQKRAAYDRFGHAAFENGGMGGGGGFGGGGFANGGFSDIFEDIFGEMMGGGRARRSSGGRERGADLRYNMEITLEEAFTGKTAQIRVPTSITCDVCSGSGAKPGTQPKTCATCQGSGRVRAAQGFFSVERTCPTCHGRGQTISDPCGKCHGQGRVTEERSLSVNIPSGIEDGTRIRLQGEGEAGMRGGPAGDLYIFLSVRPHEFFQRDGADLYCTVPISMTTAALGGTFDVTTLDGTKSRVTVPEGTQPGKQFRLKGKGMPVLRSAQTGDLYIQIQIETPQKLSKRQRELLQEFEQLSSKENNPESTGFFARMKEFFDG	PGPT0014545_3588	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014545-dnaJ-K03686	NA	NA
BMS010_02098	552			hypothetical protein	ATGAAAAACGAAACCGCCGCGCTGGCCGCCGATATCGTCGATTTCTGGACGAAGGCCGGACCGGACAAGTGGTTCGACAAGGACGCGGCCTTCGATAACCACTTTCACGACCGTTTCCGCGATGCCCATTTTGCTGCCGCCAGACGCGAATTGGACAAGTGGCTGGAGGGTGCGGAAAGCAGTCTCGCGCTGATGCTTCTGCTGGATCAGTTTCCGCGCAACTGCTTTCGCGGCACCGCGCATATGTATGCAACCGACCCGCTGGCGCGGCTCTTTGCCGATGAGGCCATCCGCCGCGGGCATGACCAGGCGGTGGGCGAGGATTTACGCGTCTTCTTCTACCTGCCCTTTTCCCATGCGGAGGATATCGCCGCCCAGCGGCGTGCCTGCGACCTGAACCAGCCGCTTGGCGGGCTTTATCTTCATCATGCCGAAGAACATCGCGATATCGTCGAACGTTTCGGCCGCTTTCCGCATCGCAACGACATTTTGCTGCGGGAAACGACGCCGGAGGAACGGCAGTATCTTGATGAAGGTGGCTTTTCCGGCTGA	MKNETAALAADIVDFWTKAGPDKWFDKDAAFDNHFHDRFRDAHFAAARRELDKWLEGAESSLALMLLLDQFPRNCFRGTAHMYATDPLARLFADEAIRRGHDQAVGEDLRVFFYLPFSHAEDIAAQRRACDLNQPLGGLYLHHAEEHRDIVERFGRFPHRNDILLRETTPEERQYLDEGGFSG				NA	NA	NA	NA	NA
BMS010_02099	213	slyX_1		Protein SlyX	ATGACGTCGGAAACCGAAAAAAGGATCATCGCGCTCGAGGAAACGGCCGCGCATCAGGCGAAGGTGATAGAGGAGCTGTCCGATCAGCTGGCAGAACAATGGAAGGTGGTGGAGCAGACCCGCGCCAAGCTCGACCGCCTGACGGAGAGGTTCCTGAGCCTGGAGGAGCAATCGCTGGACGCGCCCGCGATCACTCGACCGCCGCATTATTGA	MTSETEKRIIALEETAAHQAKVIEELSDQLAEQWKVVEQTRAKLDRLTERFLSLEEQSLDAPAITRPPHY				NA	NA	NA	NA	NA
BMS010_02100	1506			hypothetical protein	ATGGAGCTGTTCAATAATCTCGCACTCGGTTTTTCGACGGCGTCGTCGCTGGAAAACCTGTTTTTCTGCCTCATTGGTGTGCTGCTCGGCACGCTCATCGGCGTGTTGCCTGGCATCGGCGCAACGGCCACCATCGCCATGCTGTTGCCGATCACCTTCCAGCTGGAGCCAGTCTCTTCGCTGATCATGCTCGCCGGCATCTATTACGGCGCGCAATATGGCGGTTCCACCACCGCAATCCTTATCAACATGCCGGGCGAATCCTCCTCCGCCGTCACGGCCATCGATGGGTATCAGATGGCGCGCAAGGGCAAGGCGGGCGCCGCACTCGCCATTGCCGCCATCGGCTCGTTCTTCGCCGGCACGGTTTCCACCTTCCTCGTGGCGATTTTCGCTCCGCCTCTGACGGCGATTGCGCTTGAATTCGGCGCGGCGGAATATTTCTCGCTAATGGTCGTCGGCCTCGTTTCTTCCATTGCGCTTGCCCATGGCTCCATCGTCAAGGCGCTGGCCATGGTGGTGCTGGGCCTGCTGCTGGGTTTGGTCGGCACCGATATCTATAGCGGCACACCGCGTTTCACCCTCGGCATCCGCGAATATGCCGACGGTCTGAACTTCGTGGCCGTGGCCGTCGGCGTCTTCGGTATCGCCGAAATCCTGCGCAATCTCGAAAATGAGCGCACCCGTTCGGTGCTGATCGCCAAGGTCAGCGGCCTGATGCCGACACGGGAGGATTTCAGGAAAATGATCGCGCCGGTGCTGCGCGGCACGGTCATTGGTTCCGCTCTCGGCATTCTTCCGGGCGGCGGCGCGATCCTTGCGGCCTTCGCTTCCTATACGGTGGAAAAACGCGTCTCCAAGAACCCGGAAGAATTCGGGCATGGCGCGGTTGCCGGCGTGGCCGGTCCGGAATCCGCCAACAATGCCGGCGCCCAGACGTCCTTCATCCCGCTGCTCACGCTGGGCATTCCCGCCAATCCGGTGATGGCGCTGATGATCGGCGCGATGATCATTCAGGGTATCGTGCCAGGTCCGAACGTTGCGACTGAACAGCCGGCGCTGTTCTGGGGCATCATTGCCTCCATGTGGATCGGCAACCTGATGCTCGTCATCCTGAACCTGCCGCTGATCGGGCTATGGGTAAAGCTTCTGACGGTGCCCTATTATGTGCTGTTCCCCATCATCATGGCCTTCTGCGCCATCGGGGTCTACAGCGTCAATTCCAACGTCTTCGATCTCTATGCCGTCGCCTTCTTCGGCTTCATCGGTTACGTGCTGGTGAAACTGCGCTGCGAGCCGGCGCCGCTGCTCCTGGGCTTCGTGCTTGGGCCGCTGCTGGAGGAGAACCTGCGCCGCGCCATGATCCTGTCGCGCGGCGATCCGACCACCTTCGTTACCCGGCCGATCAGCGCCACCCTGCTCTTCATTGCTCTGGCCGTGCTGATCGTCGTCTTCCTGCCCAGCGTGAAGAAGAAGCGTGAGGAGGTTTTCGTAGAAGAAGACTGA	MELFNNLALGFSTASSLENLFFCLIGVLLGTLIGVLPGIGATATIAMLLPITFQLEPVSSLIMLAGIYYGAQYGGSTTAILINMPGESSSAVTAIDGYQMARKGKAGAALAIAAIGSFFAGTVSTFLVAIFAPPLTAIALEFGAAEYFSLMVVGLVSSIALAHGSIVKALAMVVLGLLLGLVGTDIYSGTPRFTLGIREYADGLNFVAVAVGVFGIAEILRNLENERTRSVLIAKVSGLMPTREDFRKMIAPVLRGTVIGSALGILPGGGAILAAFASYTVEKRVSKNPEEFGHGAVAGVAGPESANNAGAQTSFIPLLTLGIPANPVMALMIGAMIIQGIVPGPNVATEQPALFWGIIASMWIGNLMLVILNLPLIGLWVKLLTVPYYVLFPIIMAFCAIGVYSVNSNVFDLYAVAFFGFIGYVLVKLRCEPAPLLLGFVLGPLLEENLRRAMILSRGDPTTFVTRPISATLLFIALAVLIVVFLPSVKKKREEVFVEED	PGPT0017350_2469	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017350-tctA-K07793	NA	NA
BMS010_02101	462			hypothetical protein	ATGAAGTCGTTTTTTATTGACCCTGCCGAAGCAGCCTGCGGGGCAATTTTCATCGGTTTTGGCGCTTTTTTCGCCTTGCAGTCCTACGGGCTTGATTTGGGAACCACATTCCGCATGGGGCCGGGTTACTTTCCGCTCGTTCTCGCCATCGTCTTGATCCTGCTTGGAAGCGTCATATTTCTTCGCGCTACCCGGGTGCAGGGAGACGCCATCGGAGCCATCGCCTGGCGGGGTATTTTTTTCATTCTGCCCGCACCCATCTTTTTCGGCCTCACTGTCCGGGGACTTGGTTTCGTACCGGCACTGTTTTTCAGCGCCCTCATCGCAGCCTTTGCCTCGCACAAGATGAGCCCGCTGATGGCCGTTGCCATTTCCGCGGCCATCACGGTCTTTTCCGTCGCAGTGTTCAACTACGGTCTCGGGCTGCCTTTCCAGCGCTTTGGCCCATGGCTTAACTTTTAA	MKSFFIDPAEAACGAIFIGFGAFFALQSYGLDLGTTFRMGPGYFPLVLAIVLILLGSVIFLRATRVQGDAIGAIAWRGIFFILPAPIFFGLTVRGLGFVPALFFSALIAAFASHKMSPLMAVAISAAITVFSVAVFNYGLGLPFQRFGPWLNF	PGPT0017355_1822	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017355-tctB-K07794	NA	NA
BMS010_02102	984			hypothetical protein	ATGAAAATACTGAAGACAGTCACCGGCCTTGCTGCTGCCGCTGCCGTTTCCCTTTTTGCCCTGTCCGCATCTGCTCAGAACTATCCGGAGCGCAACATCACCATGGTCGTGCCCTTTGCCGCCGGCGGCCCGACGGATACGGTTGCGCGCCTTGTCGCTGAATCCATGTCGAAGGACCTTGGCCAGCAGATCATCGTCGAAAATGTCGGCGGCGCAGGCGGCACGCTGGGTGCTGGTCGTGTTGCATCGTCCGATCCGGACGGCTACACCGTTCTTCTCCACCATATCGGCATGGCCACCAGCGCCACGCTCTACCGCAAGCTCGCCTACGACACGCTGAACGCCTTCGAATATGTCGGCCTCGTTACCGAAGTGCCGATGACCATCCTGTCGCGCAAGAACCTCGAGACGACGGATCTGAAAGGTCTGATCGAATACGCCAAGGCGAACAAGGACAAGGTCACCGTCGCCAATGCCGGCATCGGCGCTGCCTCGCATCTGTGCGGCATGCTGTTCATGAGCGCCATCGAAACCCCGCTCGTCACAGTCCCTTACAAGGGAACGGGTCCGGCCATGACCGATCTGCTCGGCGGCCAGGTTGACATCATGTGCGACCAGACCACTAATACCACCAAGCAGATTCAGGGCGGCACGGTGAAAGCCTATGCCGTGACCACGGCCAAGCGGCTGGACGTGTTGCCGGATGTGCCGACGGTTGTTGAAGCTGGCCTACCGAAGCTCGAAGTGGGTATCTGGCACGGCATCTATACGCCGAAGGGCACGCCTGCCGAAATCAACGAAAAGCTCTCCAAGTCGCTCCAGGCCGCGCTGAAGGACAAGAATGTCGCGGCCCGGTTCGCCGAACTCGGCACGACGCCTTCCCCGGAAAGCGACGCGACGCCTGCGGCGCTGAAGGCCAAGCTCGAAAGCGAAATCGCTCGCTGGAAGCCGGTCATCGAGTCCGCCGGCCAATACGCCGACTGA	MKILKTVTGLAAAAAVSLFALSASAQNYPERNITMVVPFAAGGPTDTVARLVAESMSKDLGQQIIVENVGGAGGTLGAGRVASSDPDGYTVLLHHIGMATSATLYRKLAYDTLNAFEYVGLVTEVPMTILSRKNLETTDLKGLIEYAKANKDKVTVANAGIGAASHLCGMLFMSAIETPLVTVPYKGTGPAMTDLLGGQVDIMCDQTTNTTKQIQGGTVKAYAVTTAKRLDVLPDVPTVVEAGLPKLEVGIWHGIYTPKGTPAEINEKLSKSLQAALKDKNVAARFAELGTTPSPESDATPAALKAKLESEIARWKPVIESAGQYAD	PGPT0017360_1475	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017360-tctC-K07795	NA	NA
BMS010_02103	1347	dctD_1		C4-dicarboxylate transport transcriptional regulatory protein DctD	ATGACCATGTCGCGGGTTCTGTTGATCGATGACGAGGAAGAATTGCGCTTTTCCACCGCGCAGGCGCTGGAGCTTTCCGGTTTTGCCGTCACCATGCTCGCAAGCGCGGAACATGCGCTCGAACTCATCGGCTACAGCTTCGACGGCGTCGTGGTCAGCGATATCAGGATGCCCGGCATGGATGGCATGACGCTGCTGCAGAAGGTGCGGGAGCTCGATCCTGAAATACCTGTCATCCTGATGACGGGCCACGGCGATGTGCAGCTCGCGGTCAACGCCATGCGCAACGGCGCGTATGATTTCATCGAAAAGCCGTTCACGCCGCAATATCTCGCCGGTATCATCAAAAGGGCGAATGATCGGCGGGCGCTGGTACTGGAAAACCGCCGCCTCAAGGCGGTGGCGGGCAAGCATGACGATCTCGAAACGCGTCTGCCCGGCAGAACCCAGATCATGGTCGATCTGCGGTATCGTATCCGCGCCATCGGCGCGACGGACGCCGATACGCTGATCGTCGGTGATACTGGGGCGGGCAAGGAGGTGGTGGCGCGGGCGCTGCACGATATCAGCGCCAGAGCCAACCGGCCCTTCGTGGCGATCAATTGCGCCGCCCTTCCGCAGACACTGATTGAAAGTGAACTATTCGGCCATGAGGCCGGTGCGTTTCCGGGAGCGCTGCGCCCACGCTACGGCAAGTTCGAACATGCTCGCGGCGGCACGATATTGCTGGATGAGATCGGATCCATGCCCTTCGAATTGCAGGGCCGCTTCCTGCGTGTCTTGCAGGAACGGGTGATTACCCGTCTCGGCTCGAATGAAACGGTCGAACTCGATGTCCGTTTCATCGCCACCAGCAAGGTCGATCTGGAACAGGAAGTCGCGGCTGGCCGGTTCCGCGCCGATCTTCTTTATCGGCTCAACGTGGCGACACTTCTCGTGCCATCGCTCTCGCAGCGCAGCGCAGATATACCGCTACTTTTCCTGCATCTCGTGCGGGAAGCCGCTGCCCGTTACGGGCGGGAAGACACTGACGTGCCGCAAAGTCTGCTTTCGGCCGTCTCCCTGCGTGAATGGCCGGGCAATGTTCGTGAATTGCGCAATGCCGCAGACCGCCTCGTTCTCGGTTTGGAAAGCGATGTTTCCGAAGCCTCGCTGCCGTTTCAGGATGACGGAAAAGCGGCCCTTTCCGCACGGGTCGCGGCTTACGAAAAAAGCCTGATCGCACATGCAATCGCCGCACACGGCGGAAATCTGAAATCCGTCTATGAGAATCTCGGCATTTCGCGCAAAACGCTCTACGAAAAAATGCAGAAATACGGGCTGCAGCGGCACATGACCGAGGTCTGA	MTMSRVLLIDDEEELRFSTAQALELSGFAVTMLASAEHALELIGYSFDGVVVSDIRMPGMDGMTLLQKVRELDPEIPVILMTGHGDVQLAVNAMRNGAYDFIEKPFTPQYLAGIIKRANDRRALVLENRRLKAVAGKHDDLETRLPGRTQIMVDLRYRIRAIGATDADTLIVGDTGAGKEVVARALHDISARANRPFVAINCAALPQTLIESELFGHEAGAFPGALRPRYGKFEHARGGTILLDEIGSMPFELQGRFLRVLQERVITRLGSNETVELDVRFIATSKVDLEQEVAAGRFRADLLYRLNVATLLVPSLSQRSADIPLLFLHLVREAAARYGREDTDVPQSLLSAVSLREWPGNVRELRNAADRLVLGLESDVSEASLPFQDDGKAALSARVAAYEKSLIAHAIAAHGGNLKSVYENLGISRKTLYEKMQKYGLQRHMTEV	PGPT0017310_684	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017310-dctD-K10126	NA	NA
BMS010_02104	1827	dctB_1		C4-dicarboxylate transport sensor protein DctB	GTGAAATATCGCTGGATTTTATTGATGCTTCTCAGCCTTGGTCTCGGTTATGGCGCCGTGACGAGAGGTGGCGGCATCATAGCGGAAAGCTATTTCGGCGAAATGTCCGAGCAGGGCCGCACGACGCTGCGGCTGGCCGTTTCCGCGCTCGGTGGGCTTTTGAACCGTTACGAGCCGCTGCCGGCCCTGATTGCCGATCACGACGACATTGAGGAGCTGGTCGCACATCCCAAGGATGCCGAACTGCGCCAGCGCGCCAATATCTACCTCAAATCCATCAACACCCTGCTGGAATCCTCCGATATCTACATCATCACGCTGGATGGGGAGACCATCGCCGCCAGCAACTATGATGGGCCGACGAGTTTCGTCGGTGAGAATTTCAGCTACCGTCCCTATTTTCAGGATGCCGCCAAGGGCTTCCAGTCACGCTTCTTCGCGCTTGGCACCACTTCCCACAAGCGTGGCTATTATTTTTCAGCGCCCATTCTCTTCAACGAGGAGATCAAGGGTGTCATCGTCTTCAAGGTCGATATTGAAGGCATAGAAGCGTCATTCGGCGATGGTGAGAACCGAATTCTGGTATCGGACCCGGAAGGCATCATCTTCATGACCGGAACGCCGCAATGGCTTTATTCCGGCCTGATGCCGCTGACACCCGAAAGGCTGGCGCGAACCGAGGCTTCCCGCCGCTACGCCAATGCCACCCTTAAGGAATTGCCCCTGAAAAACGGCAATTTCGGTTCGCATCAGCTGATGACCATCAGCCAGGATGACGGTGAAAGGGAATATATGGTCCTGTCGCAGCCGATGCCGGACGCGGGCTGGACAGTCAGCGTGCTGATGGACACGGGTTCGCTCCGAACGCAGGTGAAGACGGCGATGATAGCCATCATCCTCTGCCTCTGCCTGGCGGCCGCCCTCATCGCCGCCATGCTGCAAAGGCGTCGTCGCCTGCGGGAACGGCTGACCCATCAGGCGGAGGCGCAGGCGGAGCTGGAACGCCGGGTGGAGGAACGCACGGCCGATCTGGCGCGGGTCAATCAGGAGATCGAGCACGAAATCGCCGAACGCCGCCAGACGGAAAAACAATTGCGCAAGATGCAGAACGATCTGGTGCAGGCGGGCAAGCTAGCAGCGCTCGGGCAGATGTCGGCGGCGCTATCGCATGAGTTCAACCAGCCGCTCGCAGCCGCCAAGAATTACGCCGAAAACGCCTCGCTTCTGGTGGAGCGGGGACGGCTGGAGGAGGTGACGGAAAACCTCAGGCGCATTTCGGGCCTTATCGACCGTATGGCCTCCATCAGCAAGCATCTCAGGAATTTCGCCCGCAAGCCCAATGAAAAAATGGCCGCGGTAAGTCTTGAAGCCGTCCTTCGCGATACGCTTGAAATCGTCGGTGCGCGGCTGAAGGCCGCCGATGCGGTGCTGGATGTGGATCTCGGCCGTGTGCCGCTTGCCGTGAAGGCCGGCCCGGTGCGGCTGCAGCAGGTGCTCGTCAACATCATCTCCAATGCTGCCGATGCGGTGGAGGGGCGGGAGGATCGCCGCATTGCGCTGCGTGCCGTGCAGCATGGCCAGTCGGTGTCGATTTTCATTCGTGATCGCGGTCCGGGCGTGCCGGCGGCAATTTCAGAACGCATTTTCGATCCTTTCTTCACCACCAAGGGCGTGGGACGCGGCCTCGGTCTTGGCCTGTCCATCTCCTATAACATCATCAAGGACTTTGGCGGCCAGCTCCGTGTCAGAAACCATGACGAGGGCGGGGCTGAGTTCGAGATCGAATTGCCGGCCGCCGCCTGGCGCGTGGAGGCTGCTGCGGAATGA	MKYRWILLMLLSLGLGYGAVTRGGGIIAESYFGEMSEQGRTTLRLAVSALGGLLNRYEPLPALIADHDDIEELVAHPKDAELRQRANIYLKSINTLLESSDIYIITLDGETIAASNYDGPTSFVGENFSYRPYFQDAAKGFQSRFFALGTTSHKRGYYFSAPILFNEEIKGVIVFKVDIEGIEASFGDGENRILVSDPEGIIFMTGTPQWLYSGLMPLTPERLARTEASRRYANATLKELPLKNGNFGSHQLMTISQDDGEREYMVLSQPMPDAGWTVSVLMDTGSLRTQVKTAMIAIILCLCLAAALIAAMLQRRRRLRERLTHQAEAQAELERRVEERTADLARVNQEIEHEIAERRQTEKQLRKMQNDLVQAGKLAALGQMSAALSHEFNQPLAAAKNYAENASLLVERGRLEEVTENLRRISGLIDRMASISKHLRNFARKPNEKMAAVSLEAVLRDTLEIVGARLKAADAVLDVDLGRVPLAVKAGPVRLQQVLVNIISNAADAVEGREDRRIALRAVQHGQSVSIFIRDRGPGVPAAISERIFDPFFTTKGVGRGLGLGLSISYNIIKDFGGQLRVRNHDEGGAEFEIELPAAAWRVEAAAE	PGPT0017305_610	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017305-dctB-K10125	NA	NA
BMS010_02105	186	rpmF_1	COG0333	50S ribosomal protein L32	ATGGCTGTACCAAAAAGAAAAACAAGTCCGTCCAAGCGCGGTATGCGCCGCTCGGCTGACGGTCTCAAGTCTGCGACCTACGTTGAAGACAAGAACTCCGGCGAACTGCGCCGTCCGCACCATATCGATCTGAAGACCGGTATGTATCGCGGCCGTCAGGTTCTGACGCCGAAGGAAAGCGCATAA	MAVPKRKTSPSKRGMRRSADGLKSATYVEDKNSGELRRPHHIDLKTGMYRGRQVLTPKESA				NA	NA	NA	NA	NA
BMS010_02106	3009	polA_1	COG0258	DNA polymerase I	ATGCTACCCATGAAAAAAGGCGATCATCTCTTCCTCGTTGACGGTTCCGGTTTCATTTTCCGGGCCTTCCATGCAATCCCGCCGCTGAACCGCAAGTCGGACGGGCTGCCGGTCAACGCCGTCTCCGGTTTCTGCAACATGTTGTGGAAGCTGCTGAAGGATGCGCGCAATACCGATGTCGGCGTGACGCCGACCCATTTTGCGGTGATTTTCGACTATTCGTCGAAGACTTTCCGTAACGAGCTTTATGATCTCTACAAGGCCAATCGCACCGCGCCGCCGGAAGATCTGGTGCCGCAATTCGGCCTGATCCGGGAGGCGACGCGCGCCTTCAACCTTCCCTGCATCGAGACTGAAGGCTTCGAGGCGGACGATATCATCGCCACCTATGCCCGGCAGGCCGAGGCGATCGGCGCCGATGTCACGATCATCTCCTCCGACAAGGATCTGATGCAGCTCGTCACGGCCAATGTACACATGTACGACGCCATGAAGGACAAGCAGATCGGCATTCCGGACGTTGTCGAGAAGTGGGGCGTAGGCCCTGAAAAGATGATCGACCTGCAGGCGATGACCGGCGATTCCACCGATAATGTTCCGGGCATTCCGGGCATCGGCCCGAAGACGGCGGCGCAATTGCTGGAGGAATACGGCGATCTCGATACGCTGCTGGCGCGGGCGGGCGAAATCAAGCAGCAGAAGCGCCGGGAAAATATCATCGCCAATGCGGAGCTTGCCCGTCTTTCCAGACAGCTCGTGGCGCTCAGAACCGATGTGCCGCTGGATCAGTCTCTCGAAGCGCTGGTGCTCGAACCGCAGAACGGCCCGAAACTGATCGCCTTCCTGAAGGCGATGGAATTCACGACTTTGACACGCCGGGTTGCCGAGGCAACCGAAACCGACGCTTCCGCCATCGACCCCGCCAATGTGCCGGTACAATGGGGTGCCGATGCCCATGGTCCCGATCTCGATGCGCCGGCCGTTGCCGTGAAGGCTGGCGAAGTGGCCACTAGCGCCGCCGGCGCTTCGGCTTCGCCTGCCGCTCCGGCAAGGAAAGTAACGGGGGAGGGCAGCGCGCCCGCTGATCTCGCCACAGCGCGACAGGCGCTTTTTTCCGCCGCCAAGATCGATACGACCGCCTATCTGACGATCAGGGATCTTGCGACGCTCGACCGCTGGATCGCGGCCGCCCGGGAAACAGGCGTCGTCGCCTTCGATACGGAAACGACCTCGCTCGACCCGATGCAGGCGGAACTTGTCGGTTTTTCTCTGGCGATTGCCGATAACGGCAAGGATGCCACGGGCACCGATATCCGGGCCGCTTATGTTCCTTTGACGCACAAGACCGGTTCCGGCGGCGATCTCTTCAGCGACGGCATCAAACTGGCCGAAGGGCAGGTGCCCTTTGCCGAGGCGCTGGCGCGTCTGAAGGACCTGCTCGAGGATGAGGCCGTTCTGAAGGTCGCGCAGAACCTGAAATATGACTATCTGCTGATGAAACGCCACGGCGTCATCATGCAGAGCTTCGACGACACGATGCTGATTTCTTATGTCCTCGAGGCCGGCAAGGCCACGCATGGCATGGATTCGCTGTCCGAACGCTGGCTCGGCCACACGCCGATCGCCTATAAGGACGTGGCGGGATCGGGTAAGTCGAGCGTCACCTTCGATTTTGTCGATATCGACAAGGCAACCGCTTATGCTGCGGAAGATGCCGATGTCACCCTGCGGCTCTGGATGGCGCTGAAGCCGAGGCTTGTTTCGGAACGGCTGACCAAGGTTTACGAGCGGCTGGAGCGCCCCCTCGTGCCGGTTCTGGCGCATATGGAAGAGCGCGGCATCACCGTCGACCGGCAGATTCTCTCGCGTCTTTCCGGCGAACTCGCCCAGAAGGCTGCCTCCTTCGAAGAGGAAATCTACGAGCTGGCGGGCGAGCGCTTCAACATCGGATCGCCAAAGCAGCTTGGCGATATTCTGTTTGGCAAGATGGGCCTGCCGGGCGGTTCCAAAACCAAGACCGGGCAATGGTCGACATCAGCGCAGGTTCTCGAAGATCTCGCGGCGGAAGGCGTCGAACTGCCGCGCAAGATCGTCGACTGGCGGCAGCTGACGAAACTGAAATCGACCTATACGGATGCACTGCCCGGATATATCCATCCCGAGACGAAACGGGTGCATACGTCCTATGCGCTCGCCTCCACCACCACGGGGCGTCTGTCCTCCTCGGAGCCGAACCTTCAGAACATCCCGGTTCGCACCGCCGAAGGCCGCAAGATCCGCACGGCTTTCATCTCCACGCCCGGCCACAAGCTACTGTCGGCCGATTACAGCCAGATCGAACTGCGCGTGCTGGCCCATGTTGCCGATATTCCGCAGCTGCGCAACGCCTTCGAAAACGGCATCGACATTCATGCCATGACGGCATCGGAAATGTTCGGCGTGCCGGTGGAAGGCATGCCGTCGGAAGTGCGCCGCCGCGCCAAGGCCATCAACTTCGGCATCATCTACGGCATTTCCGCCTTTGGCCTCGCCAACCAGCTCAGCATCGCCCGCTCCGAAGCCGGCGACTATATCAAGAAATATTTCGAGCGTTTTCCCGGAATTCGCGATTACATGGAGGCGACCAAAGCCTTCGCCCGCGAAAACGGCTATGTCGAAACGATTTTCGGCCGCCGTGCGCATTATCCGGAAATCCGCTCCTCCAACCCTTCGGTAAAAGCCTTTAACGAACGCGCGGCCATCAACGCGCCGATCCAGGGCTCGGCCGCCGATATCATCCGCCGGGCCATGGTCCGCATCGAGCCTGCGCTGGAGGCTGAAAAGCTTTCCGCCCGCATGCTTTTGCAGGTGCATGACGAACTCATCTTCGAAGTCGAGGAAGCGGAAATCGAAAAGACCTTGCCGGTCGTCGTCTCCGTTATGGAAAACGCGGCCATGCCCGCGATTTCCATGAGGGTGCCGCTGAAAGTGGATGCCCGCGCGGCTGACAATTGGGATGAGGCGCACTGA	MLPMKKGDHLFLVDGSGFIFRAFHAIPPLNRKSDGLPVNAVSGFCNMLWKLLKDARNTDVGVTPTHFAVIFDYSSKTFRNELYDLYKANRTAPPEDLVPQFGLIREATRAFNLPCIETEGFEADDIIATYARQAEAIGADVTIISSDKDLMQLVTANVHMYDAMKDKQIGIPDVVEKWGVGPEKMIDLQAMTGDSTDNVPGIPGIGPKTAAQLLEEYGDLDTLLARAGEIKQQKRRENIIANAELARLSRQLVALRTDVPLDQSLEALVLEPQNGPKLIAFLKAMEFTTLTRRVAEATETDASAIDPANVPVQWGADAHGPDLDAPAVAVKAGEVATSAAGASASPAAPARKVTGEGSAPADLATARQALFSAAKIDTTAYLTIRDLATLDRWIAAARETGVVAFDTETTSLDPMQAELVGFSLAIADNGKDATGTDIRAAYVPLTHKTGSGGDLFSDGIKLAEGQVPFAEALARLKDLLEDEAVLKVAQNLKYDYLLMKRHGVIMQSFDDTMLISYVLEAGKATHGMDSLSERWLGHTPIAYKDVAGSGKSSVTFDFVDIDKATAYAAEDADVTLRLWMALKPRLVSERLTKVYERLERPLVPVLAHMEERGITVDRQILSRLSGELAQKAASFEEEIYELAGERFNIGSPKQLGDILFGKMGLPGGSKTKTGQWSTSAQVLEDLAAEGVELPRKIVDWRQLTKLKSTYTDALPGYIHPETKRVHTSYALASTTTGRLSSSEPNLQNIPVRTAEGRKIRTAFISTPGHKLLSADYSQIELRVLAHVADIPQLRNAFENGIDIHAMTASEMFGVPVEGMPSEVRRRAKAINFGIIYGISAFGLANQLSIARSEAGDYIKKYFERFPGIRDYMEATKAFARENGYVETIFGRRAHYPEIRSSNPSVKAFNERAAINAPIQGSAADIIRRAMVRIEPALEAEKLSARMLLQVHDELIFEVEEAEIEKTLPVVVSVMENAAMPAISMRVPLKVDARAADNWDEAH				NA	NA	NA	NA	NA
BMS010_02108	435	mhqR	COG1846	HTH-type transcriptional regulator MhqR	ATGGGTTTTTCCCGGGACGAATCGGCAATCTATCTCGCTTCGAAAATGGCGCGGGAATTCACCATGGCGCTGCAGAAAAGAGCCGCCGCCCTGGGTTTCTCGCCCGGACAATTCCCCATCCTCATCGAACTCTGGCATGAGGACGGCCTGACCCAGCGGCAATTGCTGGATAGAATCGATGTCGAACAGGCGACACTCGCCAATACGCTCTCACGCATGGAGCGCGACGGGCTGATCGTCCGCAAATCCCATCCCAGCGACCGCCGTGCCCAGATCATCGAACTGACCCAGCGCGGCAGGGATCTGGAAGCCAACGCCATTGCCGCCTCCGAAGCCACCGAAGACGCGCTGCTCCAGGATTTCCGGCGTTTCGAGAGGCAGCTTCTGCTGGAATATATGCGCCGGGCGATCGAAAGCGCCAAAAAAGCGAAATAG	MGFSRDESAIYLASKMAREFTMALQKRAAALGFSPGQFPILIELWHEDGLTQRQLLDRIDVEQATLANTLSRMERDGLIVRKSHPSDRRAQIIELTQRGRDLEANAIAASEATEDALLQDFRRFERQLLLEYMRRAIESAKKAK	PGPT0016255_1961	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0016255-sylA-K06075	NA	NA
BMS010_02109	1392	dapE_3		Succinyl-diaminopimelate desuccinylase	ATGACAGACGTTTCCCCCATTCTTTCCACCGCCGACAACAATCTCACCTCCAGCCTTGAGCGACTGTTCGAGCTCGTACGCATTCCGTCGATTTCGACGGACCCCGCTTACAAGGCGGAATGCCGCAAGGCGGCGGAGTGGCTGGTCAGAACGCTTTCGGCGCTCGGCTTTACGGCCTCCGTGCGCGATACCGCCGGCCACCCCATGGTCGTGGCGCATCACGATGCGGCCACCAAGGACGCGCCGCATGTGCTTTTCTACGGCCATTATGACGTCCAGCCAGTCGATCCGCTCGAGCTTTGGGAAAACGATCCGTTCGAACCCGCGGTCAAGGATATCGGCGCCGGCCGGCAGGTGATTACCGGACGCGGAACGGCGGACGACAAGGGCCAGCTGATGACCTTCGTGGAGGCATGCCGGGCGTACAAGGCTGTCAATGGCGGCATGCCGGTGCGCGTCACCATTCTCTTTGAAGGCGAAGAAGAATCCGGCTCGCCGTCGCTGAAGCCTTTCCTCGAAGCCAATGCGGAAGAACTGAAGGCCGATTATGCGCTGGTCTGCGATACCGGCATGTGGGACCGGGATACACCCGCCATTGCCGCAGCCCTTCGCGGCCTGGTCGGCGAAGAAGTCGTCATCACCGCAGCCGACCGCGATCTGCATTCCGGTCTGTTCGGTGGGGCGGCGGCAAACCCCATTCACATCCTCACCGACATTCTCGCCGGCCTGCATGACGAGACCGGCCGGGTGACGCTTTCCGGCTTTTATGACGGCGTGGAAGAAACCCCCGCCAACATAAAGGCCTCTTGGGAAACGCTGGGCCGCACGGCCGAAGCCTTTCTCGGCGAAGTCGGCCTTTCGGTTCCCTCGGGTGAAAAGGGCCGCTCCGTGCTGGAGCAGACCTGGGCGCGGCCGACGGCGGAAGTCAACGGCATTATCGGCGGCTATACCGGCGATGGTTTCAAGACCGTGATCGCCGCCAAGGCCTCCGCCAAGGTGTCTTTCCGCCTCGTCGGCGAGCAGGACCCTGCGGCCATTCGTGAAAGCTTCCGGGCCTATGTGCGCTCGAAGATTCCCGCCGATTGCTCCGTGGAGTTCCACGAACATGGCGGCTCACCCGCCATCCAGCTGTCCTACGATTCGCCCGTGCTGACCAAAGCCAAAAACGCGCTTTCGGAAGAGTGGCCGAAACCAGCCGTCGTCATCGGTATGGGTGGCTCGATCCCGATCGTCGGCGATTTCCAGAAGATGCTGGGAATGGATTCGCTGCTTGTCGGCTTCGGACTTACCGATGACCGTATTCATTCGCCGAATGAAAAATACGACCTGCAGTCCTTCCACAAGGGCATTCGCTCCTGGGTCCGTATTCTCGACGCGCTCGCGGCGAAATAA	MTDVSPILSTADNNLTSSLERLFELVRIPSISTDPAYKAECRKAAEWLVRTLSALGFTASVRDTAGHPMVVAHHDAATKDAPHVLFYGHYDVQPVDPLELWENDPFEPAVKDIGAGRQVITGRGTADDKGQLMTFVEACRAYKAVNGGMPVRVTILFEGEEESGSPSLKPFLEANAEELKADYALVCDTGMWDRDTPAIAAALRGLVGEEVVITAADRDLHSGLFGGAAANPIHILTDILAGLHDETGRVTLSGFYDGVEETPANIKASWETLGRTAEAFLGEVGLSVPSGEKGRSVLEQTWARPTAEVNGIIGGYTGDGFKTVIAAKASAKVSFRLVGEQDPAAIRESFRAYVRSKIPADCSVEFHEHGGSPAIQLSYDSPVLTKAKNALSEEWPKPAVVIGMGGSIPIVGDFQKMLGMDSLLVGFGLTDDRIHSPNEKYDLQSFHKGIRSWVRILDALAAK				NA	NA	NA	NA	NA
BMS010_02111	210	cspA_1	COG1278	Cold shock protein CspA	ATGGCGACTGGTACAGTAAAGTGGTTCAACGCAACCAAGGGCTACGGCTTCATTCAGCCTGACGACGGTTCGCAGGACGTATTCGTTCACATCTCCGCTGTTGAGCGCGCTGGTCTGACCGCCCTCAACGACGGCCAGAAGCTCTCCTACGAGCTGATGCAGGATCGCCGCTCGGGCAAGATGTCCGCAGGCAACCTCGTTGCTGCCTGA	MATGTVKWFNATKGYGFIQPDDGSQDVFVHISAVERAGLTALNDGQKLSYELMQDRRSGKMSAGNLVAA	PGPT0014675_4224	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
BMS010_02114	459			hypothetical protein	ATGTCTATCGAATCCGTCAGAGCCTTTTTCACCGAAAAGTCGCCCGAGGTCGCCGTGATCGAAACCGAAACGAGTTCGGCGACGGTTGCGCTGGCCGCTGAAGCGCATGGTGTCGACCCCGACCAGATTGCGAAAACCATTTGCCTGAAAGCGGGTGAAACCATTCTTCTCGTCGTCGCCGCCGGCACGAAGCGGCTCGACAACCGCAAATTCCGCGATCATTTCGGCGCAAAGCCGCGCATGCTCGGACCGGAAGAGGTGGTGGCGGTAACCAGCCATCCCATAGGCGGCGTGTGCCCTTTCGGCCTGCCCTCCCCGCTTCCGGTGTTTTGCGATGTCTCCCTGAAAAACTATCATGAGGTGGTTCCCGCGGCCGGCGCCACCAATGCGGCGGTGAAGATTTCGCCGGAGGTGATGGCCGAATTGACGGGAGCGGAATGGGTCGACGTCTGCCAATGA	MSIESVRAFFTEKSPEVAVIETETSSATVALAAEAHGVDPDQIAKTICLKAGETILLVVAAGTKRLDNRKFRDHFGAKPRMLGPEEVVAVTSHPIGGVCPFGLPSPLPVFCDVSLKNYHEVVPAAGATNAAVKISPEVMAELTGAEWVDVCQ				NA	NA	NA	NA	NA
BMS010_02115	2295	mtgA_2		Biosynthetic peptidoglycan transglycosylase	ATGGCAGGCAAGGGTAAATCACGCGAACGGGTAGAACCCTCCTTCGGGGATTTCCACGAGTCCGGTGATGACCTGCGCCTCGACGCCAGCGAGCGCATCAGCGGAACCACAAAGCAGCAAGCCGGAAAACCGAAGCCGACATCCGGCCGCACCAAATCCACGAAAAAAGAAAAGCGCACCCGCAGCTCCGGCCGCGGCGCGACGGGCTTCATTCGCTCCCTCGTCTATTGGTGCATCGTACTTGGCATCTGGGGCGGCATCGGTGTTGCAGGTCTCGTTCTCTATTACGGCGCGCGCATGCCGAGCGCCAGCAGCTGGTCCATTCCCGAACGCCCGCCGAATGTGAAGATCGTTTCGGTGAATGGCAGCGTGCTGGCCAATCGCGGCACCACCGGTGGCGAGGCGCTCGCGCTGGAAGATATGTCGCCCTATATTCCGCAGGCCGTCATGGCCATTGAGGACCGGCGGTTTTATTCGCATTTCGGGGTCGACCCGCTCGGTCTCGGACGCGCCATCGTCACGAATGTTCTGACGGGGCGAACCGTGCAGGGCGGCTCGACGCTGACGCAGCAGCTCGCGAAAAACCTGTTCCTCTCGCCGGATCGCACGCTCGAACGCAAGGTTCAGGAAGTGCTGTTGTCCTTCTGGCTGGAGCATGAGTTCACCAAGGACCAGATTCTCGCGATGTATCTCAATCGCGTCTATTTCGGCTCCAATGCCTATGGTGTCGAGGCGGCCTCGCGGCGCTACTTCAACAAATCCGCGCGCGACGTCAATCTGGGCGAGGCGGCGATGCTGGCCGGACTTCTTAAAGCGCCCTCACGCCTTTCGCCGGCACGCGATCCGCAGGCGGCGGAAGAACGGGCGCAGGTCGTGCTGCAATCCATGCGCGATGTCGGCTTCATCACCGACGATGAAATCAAGACCGCCATGTCGCAGCCGCCGACCAAGGCGAAACGATTCTGGTCTGGCGCCGAACACTACGCCGCCGATATGGTGCTGGAAGAAGTGCGCAACCTCGTTGGCGAGGTCAAGCAGGACATTGTCGTCGACACGACCATCGACCCCAATCTCGAGCGTGACGCCGAAAAGGCGCTGACCCACGTGCTGCAGGGTGACGGCAAGAAGCAGGGCGCTTCGCAGGCGGCGCTGGTTTCCATCGATGGCACGGGCGCGATCCGGGCCGTGGTGGGCGGGGCGGATTATGCCGAAAGCCAGTTCAACCGCGCCGCCAAGGCAAAACGGCAACCCGGCTCCGCATTCAAGCCCTTTGTTTACGTCGCCGCACTCGAATCCGGGCTCACGCCCTATACCGTTCGTAACGACGCGCCTGTTCGTATCGGCAACTGGACCCCGGAAAATTACGAGAAGAAATATCGAGGCGAAGTGACGCTCGCCACCGCGCTTGCCAATTCGCTGAACACCATTGCCGCGCAGCTGGTGATGGAAGTGGGTCCGGATCGTGTGACCCAGGTGGCGCATCGCATGGGTATCGAATCCGAGCTGCAGAACAATGCCTCCATCGCGCTCGGCACCTCGGAAGTGTCGCTGATGGAGCTGACGGCCTCCTACGCCCCCTTCATGAATGGCGGCTACAAGGCGACGCCGCATATCGTCAAACGCATCACCGATGCGGATGGCAAGGTGCTTTACGAAAACAAATACGACAACCCGCCGCGCGTTCTAAGCGAAGAGATCGCCGCGACCATGAACAGCATGCTGTCGCGCGTCATCACCGAAGGCACCGGCAAGGCGGCACGGCTACAGGGCTGGCAGGCGGCAGGAAAATCCGGCACGACGCAATCGTTCCGCGACGCCCTTTTTGTCGGCTACACAAGCAACCTGACCACCGGCGTCTGGTTCGGCAATGACGACGGCACGTCGATGAAGAAGGTCACCGGTGGCGGGCTTCCCGCAAAGGCCTGGAAAGATTTCATGACCGCCGCCCATTCAGGGCTTTCGCCCTCACCGCTCTTCGGGCTTGGCGCCGGCGGCGTGCCGCCGCTTGGGGAAATGCAGCAGCCGGCGCCGGAAAGCGCGCCCTCCTCCATCGGCGATATCATTTCCAATGCGCTCGGCGGCGGAACGGTGGATACGCGCGCCTATCCCGAAGCCCCGGTTGCACCAAACCCGAATCAGCCCGGTGTGCCGATACCGCCGGCAAATATCCCTTCCCGCGATATCGAACCCGGCTATTCAGCCGGCAACGGGCCTGTACCACCGGCCGATATCGGCGGTCAGGCACCATCCGGACCGAAGCAGACGACCCTGCTCGATATTCTGATGGGAAACTGA	MAGKGKSRERVEPSFGDFHESGDDLRLDASERISGTTKQQAGKPKPTSGRTKSTKKEKRTRSSGRGATGFIRSLVYWCIVLGIWGGIGVAGLVLYYGARMPSASSWSIPERPPNVKIVSVNGSVLANRGTTGGEALALEDMSPYIPQAVMAIEDRRFYSHFGVDPLGLGRAIVTNVLTGRTVQGGSTLTQQLAKNLFLSPDRTLERKVQEVLLSFWLEHEFTKDQILAMYLNRVYFGSNAYGVEAASRRYFNKSARDVNLGEAAMLAGLLKAPSRLSPARDPQAAEERAQVVLQSMRDVGFITDDEIKTAMSQPPTKAKRFWSGAEHYAADMVLEEVRNLVGEVKQDIVVDTTIDPNLERDAEKALTHVLQGDGKKQGASQAALVSIDGTGAIRAVVGGADYAESQFNRAAKAKRQPGSAFKPFVYVAALESGLTPYTVRNDAPVRIGNWTPENYEKKYRGEVTLATALANSLNTIAAQLVMEVGPDRVTQVAHRMGIESELQNNASIALGTSEVSLMELTASYAPFMNGGYKATPHIVKRITDADGKVLYENKYDNPPRVLSEEIAATMNSMLSRVITEGTGKAARLQGWQAAGKSGTTQSFRDALFVGYTSNLTTGVWFGNDDGTSMKKVTGGGLPAKAWKDFMTAAHSGLSPSPLFGLGAGGVPPLGEMQQPAPESAPSSIGDIISNALGGGTVDTRAYPEAPVAPNPNQPGVPIPPANIPSRDIEPGYSAGNGPVPPADIGGQAPSGPKQTTLLDILMGN	PGPT0023875_4022	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023875-mrcA-K05366	NA	NA
BMS010_02116	729	wcaJ_1	COG2148	UDP-glucose:undecaprenyl-phosphate glucose-1-phosphate transferase	ATGCTGGGTACTAAAGGCTCATCGCATGCCGTTTTTTACGGTGCCTCCTATTCCGCAGCCACCACTTTCGAATCGCCGGAAACGCAACCTCCCTCTTCGGAAAAAACCGTCTCCGCATTCCTGCGCGGCCAGTTCGCGCTCAAAAGAACGATGGATATTGCGGGGGCGTCCATCGCCCTTGTCGCACTCGCACCGGTGCTGCTCACCGTGGCAGTGATGGTCAAACTCGACAGCAAGGGACCGGTCCTGTTTTCGCAGGTCCGCTGGGGCATGAACGGGCGGAAAATCCGTGTCTATAAATTCCGCTCCATGAGGACCGATCTTTGCGACGCTACCGGCGTGGCGCAGACGGTGAAGAACGACCCCAGAATAACCAGGATCGGCGCGGTTCTTCGCCGCACGAATATCGACGAACTACCGCAGCTTCTGAATGTACTGAAAGGCGATATGTCGCTGGTCGGGCCCCGCTGCCATGCCATCGGCATGCTGGCGGCCGGCCGTCTTTATGAGGAGCTGGTGCCGCACTACCACATGCGGCACCGGGTGCGGCCGGGCATTACCGGCCTTGCCCAGATGCGTGGATTGCGTGGCCCGACGGATCGCAGCGACAAGGCGCGCGCCCGAATCGTCTCCGATCTTTATTACGTCGACAATTTTTCGCTCTGGCTGGATATCAAGATCATGGTCGGAACGGTGATTTCCGAGTTGCGCGGCGGCAAGGGATTCTGA	MLGTKGSSHAVFYGASYSAATTFESPETQPPSSEKTVSAFLRGQFALKRTMDIAGASIALVALAPVLLTVAVMVKLDSKGPVLFSQVRWGMNGRKIRVYKFRSMRTDLCDATGVAQTVKNDPRITRIGAVLRRTNIDELPQLLNVLKGDMSLVGPRCHAIGMLAAGRLYEELVPHYHMRHRVRPGITGLAQMRGLRGPTDRSDKARARIVSDLYYVDNFSLWLDIKIMVGTVISELRGGKGF	PGPT0026020_264	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PSL_POLYSACCHARIDE_METABOLISM	CE-EPS-PSL_POLYSACCHARIDES_BIOSYNTHESIS,PGPT0026020-pslA-K20997	NA	NA
BMS010_02117	576	cycM	COG3474	Cytochrome c-552	ATGAATTCTTATGTAAATATGGGCGTTGGGGCGTTGCTTGGCACGGTTTTCGTCCTGATGTCGGTGTCGATTGCGTCTGAGGGCATTTTCCATGCGCCTGCGCCCGAAAAGGAAGGTTACGCCATTGCTGCGGCAGAGGGTGGCGGCGAAGCAGCCGGCGGAGAAACCGCTGCCGCGGCGACGCCGATTGCGCAATTGCTTGCGAGCGCCGATGCAGCCAAGGGCGAGACGGTCTTCAAGAAGTGTACGAGCTGTCATACCGGAGAGAGTGGTGGTGCAAACAAGGTCGGCCCCAATCTCTTCGATATCGTCAACCGGCCGATCGCCAGCCATGAAGGTTTCAGCTACTCCGCAGGGATGAAGGATTTCTCCAAGGGCGGTTCCGTGCATTGGGATTACGATCATCTCAGCTTCTTCCTCGAAGCTCCCAAGAAACACGTTCCCGGCACGGCCATGGGCTTTGCGGGCGTGAAGAAGGAGACGGAACGCGCCGATCTCATCGCCTATCTGCGGACGCTGTCGGCAAACCCGGCACCGCTTCCGGATCCCGCTGCGGCTCCCGCGCCGACAAACTGA	MNSYVNMGVGALLGTVFVLMSVSIASEGIFHAPAPEKEGYAIAAAEGGGEAAGGETAAAATPIAQLLASADAAKGETVFKKCTSCHTGESGGANKVGPNLFDIVNRPIASHEGFSYSAGMKDFSKGGSVHWDYDHLSFFLEAPKKHVPGTAMGFAGVKKETERADLIAYLRTLSANPAPLPDPAAAPAPTN	PGPT0004005_886	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-OTHER_CYTOCHROME-RELATED_PROTEINS,PGPT0004005-cycA|cycM-K08738	NA	NA
BMS010_02118	756	kdsB_1	COG1212	3-deoxy-manno-octulosonate cytidylyltransferase	ATGAAGAATCGGGATTTCGAGAAAGCTGTCGTCCTCATACCGGCGCGGATGGCATCCACGCGCCTGCCGGGCAAGCCGCTCGCCGACATCGGTGGCAAGCCGATGATCGTGCAGGTGGCGCTGCGCGCACGCGAGGCCGGCGCGGAGCGAATCGTTGTGGCCGTCGATGACGAACAGGTGTTTTCGGCCGTCAAAGATGCCGGTTTCGACGTGATGATGACCCGCGATGACCACCAGTCCGGCTCGGACCGCATTTTCGAAGCGCTGCAAAAGGCCGATCCCTATGGCAAGGCGGAATATGTCATCAATGTCCAGGGCGATCTTCCGACCATCGAAGCGGAGACGATCCGCGCTTCGCTGCGTCCGCTGGAAAATGCCGCCGTCGATATTGCGACACTGACGGTCGAAATCACCGACGAGGAAGAAAAAACCAATCCGAACGTGGTAAAAGTGGTGGGCAGCCCGCTTTCCGAATCGCGATTGCGCGCGCTTTATTTTACCCGCACCACCGCCCCTTATGGCGATGGCCCGCTTTATCATCACATCGGACTTTATACCTATCGCCGCGCAGCACTCGAGACATTCGTGAGCCTGCCGCCCTCGCCGCTGGAAAAACGCGAGCGGCTGGAACAGCTGCGCGCGCTGGAAGCGGGGATGCGCATCGACGCCGAAATCGTCAGTTCCGTACCGCTCGGCGTGGACACGCCGCACGATCTGGAAAAAGCCCGCAAAATTCTCGCAAGCAGAACCCTCTAA	MKNRDFEKAVVLIPARMASTRLPGKPLADIGGKPMIVQVALRAREAGAERIVVAVDDEQVFSAVKDAGFDVMMTRDDHQSGSDRIFEALQKADPYGKAEYVINVQGDLPTIEAETIRASLRPLENAAVDIATLTVEITDEEEKTNPNVVKVVGSPLSESRLRALYFTRTTAPYGDGPLYHHIGLYTYRRAALETFVSLPPSPLEKRERLEQLRALEAGMRIDAEIVSSVPLGVDTPHDLEKARKILASRTL	PGPT0023065_1569	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-8-AMINO-3|8-DIDEOXY_D_MANNO-OCTULOSONIC_ACID_MODIFICATION,PGPT0023065-kdsB-K00979	NA	NA
BMS010_02119	864	pheA_1	COG0077	Bifunctional chorismate mutase/prephenate dehydratase	ATGACCTTGAGCACAAATCGCATTGCCTTCCAGGGCGAATTCGGCGCGAATTCCGATATGGCCTGCCGCGACATGTTCCCGGATATGGAGCCTTTGCCGTGCCCGACATTCGAGGATGCCTTCAACGCCATTGAAAACGGCGAAGCCGATCTCGGCATGATCCCGATCGAGAACACGCTGGCCGGCCGCGTTGCGGATATTCATCACCTGCTGCCGGAATCGCGCCTGCACATCATCGGCGAATATTTCATGCCGATCCGCTTCCAGTTGATGGTGATGCCGGGCGTGAAGAAGGACGAGATCCGCACCGTCCACAGCCACATTCACGCGCTTGGCCAGTGCCGGAAAATCATCCGTTCGAACGGCTGGAAGCCCGTCATCGCCGGCGATACGGCGGGATCCGCAAGACTGGTGTCCGAAAAGGGCGACCGCAGCATGGCGGCACTTGCGCCGCGCCTTGCCGCCAATCTCTACGGCCTCGATATTCTCGCTGAAAACGTCGAGGATTCGGAAAACAACGTCACGCGTTTCGTGGTGCTTTCCCGCGATGAAAACTGGGCCAAGCGTCAGTCGAGCGACGAAATTGTCGTCACCACCTTTGTCTTCAACGTCCGTAACATTCCGGCCGCGCTCTACAAGGCCATGGGCGGCTTTGCGACGAACGGCATCAACATGACGAAGCTCGAAAGCTACCAGCTTGGCGGCAAATTCGTGGCGACGCAGTTTTATGCCGATATTGAAGGCCATCCCGATGACGAGCCGGTGCGGCATGCGCTGGACGAGCTGCGCTTCTTCTCCGAAAAAGTTCGCATTCTCGGCGTCTACAAGGGCCATGCGATGCGCGGCAAGCTCAACCAGGGTTGA	MTLSTNRIAFQGEFGANSDMACRDMFPDMEPLPCPTFEDAFNAIENGEADLGMIPIENTLAGRVADIHHLLPESRLHIIGEYFMPIRFQLMVMPGVKKDEIRTVHSHIHALGQCRKIIRSNGWKPVIAGDTAGSARLVSEKGDRSMAALAPRLAANLYGLDILAENVEDSENNVTRFVVLSRDENWAKRQSSDEIVVTTFVFNVRNIPAALYKAMGGFATNGINMTKLESYQLGGKFVATQFYADIEGHPDDEPVRHALDELRFFSEKVRILGVYKGHAMRGKLNQG				NA	NA	NA	NA	NA
BMS010_02120	963	nudC_1		NADH pyrophosphatase	ATGATTTCCACGAAAATTTTTGAAACCACTGCCCCCCATCCCGAAGCAAGCCTGCTGACAGCCTTTTCCAAGAACGCCCTCGACCGTTTCGCTGAAAAGCGGACGGAAGAGTGCGTTGCCGATGCGCTGAAAGTAGACGGCACCCATATTTTTGCCTTTTCGGGCAACCGACTTGTCCTGAAGCATGACGAACAGGTCATCGACCCCCTGTTTTCCGCCTATGAGCTGGCCGAATTGCAGCCGGATTTCGACAATGCCGTGCTTCTCGGATATCGCGAAACCGGCGAGCCGAGAATTGCGGTGCCGGTTGCTGTTGCCGAAGACCAACTGGCGAGCCACTACAAGCTTGCCGACGCCCGCACGCTTTATCGCGACCATCTTCTCGATGAGGAATTGCTGAGCGAGGTTGCCCAGGCCGTCAGCCTTACCCACTGGAACGCCGACAATCGGTTTTGTGGAAAGTGCGGCGGCACCATGGAGCCGCGTATCGGCGGCTACAAGCGTATCTGCGCCGCCTGCAATCACACCATTTTTCCCCGCACCGATCCCGTCGTCATCATGATGACGATCGATATCGAGCGTGATCTTTGCCTGCTTGGTCGTGGCGCTCATTTTGCACCGGGCATGTATTCGTGCCTTGCCGGTTTTGTGGAGCCGGGGGAAACCATCGAGCAGGCCGTACGCCGCGAAACGCATGAGGAATCCGGCGTCGAAATCGGCCGCGTGCGTTACCACGCGTCGCAGCCATGGCCGATGCCGCATACGCTGATGATCGGCTGTTATGCCGAGGCACTGTCTTTCGATATTGCCCGCGATGAGATCGAACTGGAGGATTGCCGCTGGTTCACACGGGCGGAAGTCGCCAAGATGCTGGAGACGGCGACGGGTGAGGGCTTTTCCGCGCCTCCCGGTGGCGCCATCGCGCACCGGCTGATGCGCGATTGGGTGGAATGGGAGAAATAA	MISTKIFETTAPHPEASLLTAFSKNALDRFAEKRTEECVADALKVDGTHIFAFSGNRLVLKHDEQVIDPLFSAYELAELQPDFDNAVLLGYRETGEPRIAVPVAVAEDQLASHYKLADARTLYRDHLLDEELLSEVAQAVSLTHWNADNRFCGKCGGTMEPRIGGYKRICAACNHTIFPRTDPVVIMMTIDIERDLCLLGRGAHFAPGMYSCLAGFVEPGETIEQAVRRETHEESGVEIGRVRYHASQPWPMPHTLMIGCYAEALSFDIARDEIELEDCRWFTRAEVAKMLETATGEGFSAPPGGAIAHRLMRDWVEWEK	PGPT0013440_773	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013440-nudC-K03426	NA	NA
BMS010_02121	405			hypothetical protein	TTGGAGACATTCCGGCTGGACGACAGACTGGCGCGCGACAGCGTGCTTGTGACGCGTTTGGGACTATGTGAACTGCGTTTGCAAAACGACAACCGCTGGCCCTGGCTGGTGCTGGTGCCGCAGCGAGACGGTGTCAGTGAACTATTCGATCTCACCCCGCTTGATCAGGCCGTGCTGACATTCGAGACCAATCTCGTCGCGTCTGCCTTGAAAGAAATCACCGGAGCCACCAAGATCAATGTCGGTGCTTTGGGCAATATCGTCCGGCAGCTTCATGTCCATATAATCGCCCGCAATGAAGGCGACACCTGCTGGCCGGGTCCTATCTGGGGTCACGGAACGCCTGTGCCCTATGCCGCGGGCGAAAAGGAAACTTTGATGAAAAAAATCTCCGGCGCGCTCTGA	METFRLDDRLARDSVLVTRLGLCELRLQNDNRWPWLVLVPQRDGVSELFDLTPLDQAVLTFETNLVASALKEITGATKINVGALGNIVRQLHVHIIARNEGDTCWPGPIWGHGTPVPYAAGEKETLMKKISGAL	PGPT0005685_256	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_CHLOROBENZENE_DEGRADATION,PGPT0005685-catA-K01061	NA	NA
BMS010_02123	1875			hypothetical protein	ATGAGCGACACCGTACCCACCACATCAAGCGAATCCCAGGTCGGGACCGGCTACCGGGTATTGGCGCGCAAATATCGCCCCAAGGATTTTTCCGATCTGATGGTCGGCCAGGAGCCGATGGTCCGCACGCTGACCAATGCCTTCGAGACGGGGCGTATCGCGCAGGCCTATATGCTGACCGGCGTTCGCGGCGTGGGCAAGACGACCACGGCCCGCATTCTCGCCCGCGCGCTGAACTACAAGACCGACACCATCGACAAGCCGACCATCGACCTGCGCATTCCCGGTGAACATTGCCAGGCGATCATGGAAGGCCGGCATGTCGACGTGATCGAGATGGACGCCGCCTCCCATACCGGTATCGACGATATTCGCGAGATCATCGAACAGGTGCGTTACCGCCCGGTTTCGGCGCGCTACAAGGTCTATATCATCGACGAAGTGCACATGCTCTCGACGCAGGCTTTCAACGGTCTTCTGAAGACCTTGGAAGAGCCGCCGGAGCATGTGAAATTCATCTTCGCAACCACCGAAATCCGCAAGGTTCCTATCACCGTTCTGTCGCGGTGCCAGCGCTTCGATCTGCGTCGCATCAGCGCCGCCGATCTGGTCGGCCTGTTCACCGCCATTGCCGGCAAGGAAGGTTTCGAGGCCGACCCGCAGGCGCTTTCGATGATCGCCCGCGCTGCCGAAGGTTCCGCGCGTGACGGCCTTTCCCTGCTCGATCAGGCCATTGCCCATGGCGGCGGGCGCGTGGAAGCCGAAGCGGTGCGGGGCATGCTCGGCCTTGCCGACCGTGCACGTATCGTCGATCTCTTCCAGCATGTCGTCAAAGGCGATGTCGCAGCCGCCCTTTCGGAATTCAACGGGCAATATGAGGCGGGTGCAAACCCCGTTGTCGTATTGAACGATCTTGCCGATTTCACCCATCTCGTCACCCGCATGAAATATGTGCCTGACGCGGCGGAAGATCCCTCGCTTTCCGAGATCGAGCGCGTGCGGGGTGCGGAATTTGCCGAGACGATTGCGGTAACGGCGCTGTCGCGCATCTGGCAGATGTTGCTGAAGGGCATTCCGGAAACGGAAAACGCCTCGCGCCCGGCGGGTGCGGCCGAAATGGTGCTGATCCGGCTTTCGCACGCCGCCAATCTGCCGGCTCCGGAAGACGCTGCCCGGCGCTTGGCGGAGCTTTCGAACGGTGACGGCGGTTACGCCAATGGCGGACCTTCGGGTGGCGGCAATGGCGGCGGTGCGCGCGCCTATTCGTCGGGTCAGGCCGTGGCCGCGGGAAGACCTGTCGATCTTCCCGCCCAGCGCCAGGCGACGCCGCAGACCTCCGCCGTGCTACGCGCCGTTCCGGATAGCCGCCCGCAGGAGATGCAGGTCGCGGCACCGAAAACCGAAGAACGGCCGGAGCCGAAGGTTCCCGTCACTTCGGTGCAGGATATTGCCGATTTGTGCCAGAAGAACCGCGATCCCGTGATGCGGGCGAAGGTGCGCAACTTTGTGCGGCTGGTGCGGCTGGAACCCGGCCGGCTTGATATGCGCCTCGGCGAAGGCGCGCCCGGATCGCTTCCCGGCGAACTTGGCGTCAAGCTCAAGGAATGGACCGGTATCCACTGGATCATCAGCCTCAGCAAGGAACAGGGCGAGCCAACCCTTGTCGAGGCCGAAGGCAACGCCCGGGATGCCCGTCTTGTCGATGCGCGTCAGGATCCTGACGTTGCCGCCATTCTGGCGCAGTTTCCCGGCGCAAAGATCACCGATGTGCGCATCCGCGCCGCCGCACAGGATGAGGCCGAAGAAATCGCGCCGCCATCGGTTGCCGAATCGAGCGAAGGCGACATCCTTCCCGGCGACGACATCGAGTTTTAA	MSDTVPTTSSESQVGTGYRVLARKYRPKDFSDLMVGQEPMVRTLTNAFETGRIAQAYMLTGVRGVGKTTTARILARALNYKTDTIDKPTIDLRIPGEHCQAIMEGRHVDVIEMDAASHTGIDDIREIIEQVRYRPVSARYKVYIIDEVHMLSTQAFNGLLKTLEEPPEHVKFIFATTEIRKVPITVLSRCQRFDLRRISAADLVGLFTAIAGKEGFEADPQALSMIARAAEGSARDGLSLLDQAIAHGGGRVEAEAVRGMLGLADRARIVDLFQHVVKGDVAAALSEFNGQYEAGANPVVVLNDLADFTHLVTRMKYVPDAAEDPSLSEIERVRGAEFAETIAVTALSRIWQMLLKGIPETENASRPAGAAEMVLIRLSHAANLPAPEDAARRLAELSNGDGGYANGGPSGGGNGGGARAYSSGQAVAAGRPVDLPAQRQATPQTSAVLRAVPDSRPQEMQVAAPKTEERPEPKVPVTSVQDIADLCQKNRDPVMRAKVRNFVRLVRLEPGRLDMRLGEGAPGSLPGELGVKLKEWTGIHWIISLSKEQGEPTLVEAEGNARDARLVDARQDPDVAAILAQFPGAKITDVRIRAAAQDEAEEIAPPSVAESSEGDILPGDDIEF				NA	NA	NA	NA	NA
BMS010_02124	324		COG0718	Nucleoid-associated protein	ATGCGTGACATCATGGGCATGATGGGCAAGGTCAAGGAAATGCAGTCCAAGATGGAGAAGGTGCAGGAAGAAATCGCTGCCCTTGAAGTCGAAGGCAGGGCTGGCGGCGGTCTCGTGACCGTCATTCTCAACGGCAAGGGCGAAATGCGCGGCCTGAAAATCGATCCTTCGCTGTTCAAGGAAGACGAGGTGGAAATCCTCGAAGACCTGATCGTGGCTGCTCACAAGGACGCCAAGGAAAAGGGCGAAGCGCAGGCGCAGGAAAAGATGGCCGGCCTGACCGCCGGCCTGCCGCTGCCGCCCGGCATGAAGTTCCCATTCTGA	MRDIMGMMGKVKEMQSKMEKVQEEIAALEVEGRAGGGLVTVILNGKGEMRGLKIDPSLFKEDEVEILEDLIVAAHKDAKEKGEAQAQEKMAGLTAGLPLPPGMKFPF				NA	NA	NA	NA	NA
BMS010_02125	636			hypothetical protein	ATGAAGCGCAAAGGGCAGTCCATGAAAATCAGGGCGGTATGCCGGGGCGAGGCAAAAAGCCTGCCGGGAAAGACGGCGAAGACGGGAATCTTCAAACATGCCGTGCAGGGCCCGGTCATGGTGGATGCCGAAGGTATCGTCAGCGACGCCGTCTGCAATCGCAAACATCACGGCGGTCCGGATCAGGCGATTTACGTTATGGGGTCCGTCGATCTCGATTTCTGGTCACGCACGCTGGGTTTTGTCGTCGAACCCGGATTTTTCGGCGAAAACCTCGTGCTGGAGGGGGTGGACAGCGCGAAACTCCATGTCGGCGACAGGTTCTCGGCCAGCGAAGTCGTGCTGGAGGTAACCGCCGCCCGCATTCCCTGCGCCACCCTGTCGGCCCGCATCGGCGATCCGGACTTCGCACCGCGCTTCCGGCAGGCGGGCCAGCCGGGTTTTTATTGCCGGGTGCTGAAAGGTGGAATGCTCGCCGCCGGGGAGGATATCGCCTTCGCACCCTATCAGGGAACGAAACTGCCGATACCGACTATTCTCCAGCGCTTCCGCCCCATGCAGTTCAATATGGCTGAACGCGCAGCCTATCTCGAAACGCCGCTTGCCACCCGGTTCCGCGCGATGCTGGAAGTCTAG	MKRKGQSMKIRAVCRGEAKSLPGKTAKTGIFKHAVQGPVMVDAEGIVSDAVCNRKHHGGPDQAIYVMGSVDLDFWSRTLGFVVEPGFFGENLVLEGVDSAKLHVGDRFSASEVVLEVTAARIPCATLSARIGDPDFAPRFRQAGQPGFYCRVLKGGMLAAGEDIAFAPYQGTKLPIPTILQRFRPMQFNMAERAAYLETPLATRFRAMLEV				NA	NA	NA	NA	NA
BMS010_02126	606	recR_1	COG0353	Recombination protein RecR	ATGGCAAAACGAGTCACCGGTCCCGAAATCGAAAAACTGATCCAGCTTCTGGCAAAAGTGCCGGGGCTTGGGCCCCGTTCGGCGCGGCGGGCGGCGTTGCATCTGATCAAGAAGAAGGAACAGCTTCTCGGGCCGCTGGGTCATGCCATGGGCGAGGCCTATGACAAGGTGAAGATCTGCTCCTGCTGCGGCAATGTCGATACGATCGATCCCTGCACCGTCTGCACTGACGACCGGCGCGACCAGTCGGTCATCATCGTGGTGGAAGACGTGTCGGATCTTTGGGCGCTGGAGCGGACGGGTGCGATGAACACCGCCTATCACGTGCTGGGCGGCACGCTGTCGCCGCTCGACGGCGTCGGGCCGGAGGATTTGAATATCAAGGGCCTGATCGACCGTGTCAGCGCCGGCGGTATCCGCGAGCTTATCATCGCCGTCAATGCGACGGTGGAGGGGCAGGCAACCGCCCACTACATCACCGACCGCCTTTCCGGTCTCGACATCAAGATCACCCGGCTTGCGCATGGCGTGCCGGTGGGTGGTGAGCTCGATTATCTCGACGAAGGCACATTGACGGCGGCGCTTCGGGCGCGCACGACGATCTGA	MAKRVTGPEIEKLIQLLAKVPGLGPRSARRAALHLIKKKEQLLGPLGHAMGEAYDKVKICSCCGNVDTIDPCTVCTDDRRDQSVIIVVEDVSDLWALERTGAMNTAYHVLGGTLSPLDGVGPEDLNIKGLIDRVSAGGIRELIIAVNATVEGQATAHYITDRLSGLDIKITRLAHGVPVGGELDYLDEGTLTAALRARTTI				NA	NA	NA	NA	NA
BMS010_02127	1266			Tn3 family transposase TnXax1	ATGCGAAACCATTTTGCCCCGAAGGCACTGGCTGCACTTCTTTCCGTTTTTTCAGCAACGACGGCCTTGGCGCAATCGGCACCGACAGGTGCAGCCGCGGCCCGATACGACGCCGAATTTAACGTCTGGCTGAAAAAGGAAATCTGGCCGGAAGCCCGCAAGGCCGGCATATCGCAGAAAACACTTGAGGCCACGCTCAGCGGTCTTTCCATCAGCTGGAACCTGCCTGATCTCGTCATTCCCGGCCAGAAGCCCCCGAAGGAACAGAGCCAGAGTCAGGCGGAATTCTCCTCGCCGGGCGCCTATTTCTCGGAAAAACGGCTGCAGGGATTGGCGGGCACCGGCCGCTCGCTTGCCGCCACCCACGCCGCGACGCTGCGCAGGATCGAGGCGAAATACGGCGTGCCCGGTGATATCGTCGTTGCGATCTGGGGCCGCGAATCCGGCTTCGGCCGGGCAAAACTGCCGCATTCCGTGGTCGATGTTCTGGCCACAAAAGCCTATATGTCGACCCGCAAGGAGATGTTCCGCGCCGAGCTGATCGATGCGCTGAAGATCGTCGAAAGCGGCGATATCGCAGCTTCGCGCATGATGGGCTCCTGGGCCGGCGCGCTCGGCCAGCCGCAATTCATGCCGTCGAGCTATCTCAAATATGCCGTGGATTTCGATGGCGACGGCCATCGCGATATCTGGAACTCCGTGCCGGATGCGCTGGCATCCATAGCAAACTATCTTTCGCAGCGCGGCTGGCAACGTAATCGTGACTGGGGTTTCGAAGTATCGATCCCCGCCAATGTCTCCTGCGCGCAGGAAGGCCCTGATCTTGCCCGGCCGGTGGCCGACTGGGCGAAGATGGGCATTGCCCGCATTTCCGGAAAAGCCTTTCCCGCCAACGACCTGACCGCCGACGGCATGATGCTGGTGCCGGCTGGGCGGCATGGACCGGAATTTGTGGTGACGCCTAATTTTTACGTCATCAAGGAATATAATAACTCCGATCTCTACGCGCTGTTCATCGGCAATCTCGCCGACCGCATCGCCCATGGGGCGGGCCCGTTCAAGGGTGAATGGGGCAATGTCGGGTCGATGCTGCGCTCGGATGTTCTCGCCATGCAGAAGGCGCTTGTGGCCAAGGGTTACGATGTCGGCAAGGCAGATGGGCTGGCCGGTTTCAAGACGCGTCGCTCACTCGGCGACTGGCAGGCGAAAAACGGCTTGGCCCCAACGTGTTTTCCAGACGCCACGCTGAAGACGAAGCTTAAGTAG	MRNHFAPKALAALLSVFSATTALAQSAPTGAAAARYDAEFNVWLKKEIWPEARKAGISQKTLEATLSGLSISWNLPDLVIPGQKPPKEQSQSQAEFSSPGAYFSEKRLQGLAGTGRSLAATHAATLRRIEAKYGVPGDIVVAIWGRESGFGRAKLPHSVVDVLATKAYMSTRKEMFRAELIDALKIVESGDIAASRMMGSWAGALGQPQFMPSSYLKYAVDFDGDGHRDIWNSVPDALASIANYLSQRGWQRNRDWGFEVSIPANVSCAQEGPDLARPVADWAKMGIARISGKAFPANDLTADGMMLVPAGRHGPEFVVTPNFYVIKEYNNSDLYALFIGNLADRIAHGAGPFKGEWGNVGSMLRSDVLAMQKALVAKGYDVGKADGLAGFKTRRSLGDWQAKNGLAPTCFPDATLKTKLK	PGPT0023785_753	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_TRANSGLYCOSYLASE_ACTIVITY,PGPT0023785-mltB-K08305	NA	NA
BMS010_02129	243			hypothetical protein	ATGCAACATCCCTTCGGAACCATCTCCCAACCCTTCCACCCCTGCAGCGACGGCACTCGCCACCTCTTCTTGGTCCAACCCGGCATTCCTCTGACCGCTGCCCTGGAAAGCGCCTGCCACCTGCTGGACGCCGCCGAAGCCTTGGCGAACCTGGAGGGCAGCGAGCATGGCGATGTCTGCGGCTATCTGATCGAGATGGCCAGGGCCACGTTAGTAGCCTGTCTGGAGGGACGAGCGGCGTGA	MQHPFGTISQPFHPCSDGTRHLFLVQPGIPLTAALESACHLLDAAEALANLEGSEHGDVCGYLIEMARATLVACLEGRAA				NA	NA	NA	NA	NA
BMS010_02130	861	ydaD		General stress protein 39	ATGTCTCAAGCCAAGCAAACCATGCCGCCGCAACACCAGGAGAGCACCCCCGGCAAGGAAAGCCTGATGCATCCGCGCCCCGACTATAAGGCCGAGGAGTACAAGGCGGCGGGCAAGCTGGAAGGCAAGGTGGCGATGATCAGTGGGGCGGACAGCGGCATCGGCCGTGCCGTGGCGGTGACCTATGCGAAGGAGGGCGCGGACGTCGTGGTGCTCTATCTCGACCAGCGCGAAGACGCCGAAGAAACCCGCCGCGAGATCGAGAAGCTCGGGCGGCGCTGCCTGACCATCGCCGGCGACATCGGCGACCCTGCCTTCTGCCGCAAGGCGGTTGAGCAGGCGATGAGCACCTTCGGCCACCTCGACATCCTGGTGAACAATGCCGCCGAGCAGCACCCGCAACAGCGCCTGGAAGACATCAGCGACGAGCAGTGGGAGCGCACCTTCCGCACCAACATCTTCGGCATGTTCCTGCTGACCAAGGCGGCGTTGCCGCATTTGCAGTCCGGTGCGGCGATCATCAATACCACCTCGATCACCGCCTACAAGGGTAACCCGACGCTGATCGATTACTCGACCACCAAGGGCGCGATCACCGCCTTCACCCGTTCGCTGTCGCTGAACCTCGTATCGCGCGGTATCCGCGTGAACGCGGTGGCGCCGGGGCCGATCTGGACGCCGCTGATTCCGTCCACCTTCAACGAGAAGACGGTCTCCGAGTTCGGCGCCAATACACCGATGGGCCGCCCCGGCCAGCCGGAAGAACTGGCGCCGGCCTATGTCTACCTGGCCTGCAACGATTCGTCCTACGTCAGCGGCCAGGTGATGCACATCAACGGCGGTTCGGTGGTCAACGGTTGA	MSQAKQTMPPQHQESTPGKESLMHPRPDYKAEEYKAAGKLEGKVAMISGADSGIGRAVAVTYAKEGADVVVLYLDQREDAEETRREIEKLGRRCLTIAGDIGDPAFCRKAVEQAMSTFGHLDILVNNAAEQHPQQRLEDISDEQWERTFRTNIFGMFLLTKAALPHLQSGAAIINTTSITAYKGNPTLIDYSTTKGAITAFTRSLSLNLVSRGIRVNAVAPGPIWTPLIPSTFNEKTVSEFGANTPMGRPGQPEELAPAYVYLACNDSSYVSGQVMHINGGSVVNG	PGPT0014705_836	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0014705-gdh|ycdF-K00034	NA	NA
BMS010_02131	936	ku_1	COG1273	Non-homologous end joining protein Ku	ATGCCTCGTGTGATCTGGAAAGGCGCGGTCAGCTTCGGCCTGGTGCACATTCCGGTGTCGCTGGTGCCGGCGACGACCCGCAAGGGCATCGATTTTGACTGGCTGGACAAGCGCAGCATGGACCCGGTGGGCTACAAGCGGGTCAACAAGATCACCGGGAAGGAAATCGACAAGGAGAACATCGTCAAGGGCATCGAGTACGAGAAGGGGCGCTACGTGGTGATCAGTGAGGAGGAGATCCGCGCGGCGCACCCCAAGGCCACGCAGACGGTGGACATCATTGCCTTCGTCGATGCCGAGACGATTCCCTTCCTGTATATCGACACGCCGTACTACCTGACGCCGGACCGGCGCGGCGAGAAGGTCTATGCGCTGCTGCGCGAGACACTGGAATCCACTGGCAAGGTCGGCCTGGCCAATGTGGTGCTGCGCTCCAAGCAGCACCTGGCGGTGGTGATGCCGCTCGGTCCGGCGCTGGTGCTCAACACCTTGCGCTGGGCCGATGAAGTACGCGGGGTGGAGGCGATCGATCTGAAGGACGAGGCGGTGAACGCCAAGCTGGCGGAGCGGGAGCTGGACATGGCCCGGCGGCTGGTCGAGGACATGAGCGAGGAGTGGAATCCCGAGCAGTACCGCGACAGCTTCGAGGAACAGATCATGGCCCTGGTCGAGCGCAAGGCCACCGAGGGCAAGATCGAGTCGGTACGCGCCGCTGAAGAGCCTGACGAGCGTCGTAGCGCCGATGTCATCGACTTGACCGAGCTACTCAAGCGCAGCCTGGGCGGTAGTGGCAAGGGCGCAGGCAAGGCCGGCGACAAGGCAAGCGGCTCCAGCCGCGCCAAGACGGCATCCAAGGAAGAGAGCAAGAGCAAGCCGGCCGCCAAGCGCACGCGCAAGGCAGCCCCTGCGAAGGGCGAGAAGAAGAAGGCTGGCTGA	MPRVIWKGAVSFGLVHIPVSLVPATTRKGIDFDWLDKRSMDPVGYKRVNKITGKEIDKENIVKGIEYEKGRYVVISEEEIRAAHPKATQTVDIIAFVDAETIPFLYIDTPYYLTPDRRGEKVYALLRETLESTGKVGLANVVLRSKQHLAVVMPLGPALVLNTLRWADEVRGVEAIDLKDEAVNAKLAERELDMARRLVEDMSEEWNPEQYRDSFEEQIMALVERKATEGKIESVRAAEEPDERRSADVIDLTELLKRSLGGSGKGAGKAGDKASGSSRAKTASKEESKSKPAAKRTRKAAPAKGEKKKAG				NA	NA	NA	NA	NA
BMS010_02132	177			hypothetical protein	ATGGCAGAACATCGCGGTGGTCGTGGCAACTTTGCTGAAGATCCGCAACGCGCATCGGAAGCGGGTCAGAAAGGTGGCCAAGTTAGCGGCGGCAACTTCAAGAATGACCCGGAGCGCGCCTCCGAGGCAGGCCGCAAAGGTGGCAAGAACAGCCATGGCGGACGCAACAACAGCTAA	MAEHRGGRGNFAEDPQRASEAGQKGGQVSGGNFKNDPERASEAGRKGGKNSHGGRNNS				NA	NA	NA	NA	NA
BMS010_02133	660			hypothetical protein	ATGAAAGGCATATGGCACAGGAATGGCCTGTCGTTGAGTCTCTTCGGCCTGTTCCTGATATTTCAGATCGGTCTAAGCCTGGTCGGTTTCGAGCAGCACAACCAGGACCAGATCAGCCACCAGCAACCCACGCTCGGCTACCTCGCCTACCTGACCAGCGATCACTTCATGGAAGCGACCATGGAGAATTGGGAGAGCGAGTTCCTGCAGATGTTCGCCTATGTCCTGCTCACCGCTTACCTGTTCCAGAAAGGCTCGGCCGAATCGCGGCCGTTCGGCGACACGCCGCCCTCCAATGTCCCCCCGTACGAGGTCAACCCGGACGCACCATGGCCGGTCCGGCGTGGCGGATGGGTGCTCAGGCTCTACGAGTACTCGCTCAGCATCGCGCTGTTCGTGCTCTTCCTGCTCTCGTTCTTCCTCCATGCCGTCAGCGGGGCCCGCGAGTTCAGCCAGGAGGAGCTGCTCCACGGTGGTACGGCGGTCACCACCCTGGAGTATCTGGGCACCGCCCAGTTCTGGTTCGAATCGCTGCAGAACTGGCAGAGCGAGTTCTTTTCCATCGGCTTCATGGTGGTGCTGAGCATCTTCCTGCGACAGAAAGGCTCGCCGGAGTCGAAAGCCGTCGACGCGCCCCACAGTAAAACCGGGAATGAATGA	MKGIWHRNGLSLSLFGLFLIFQIGLSLVGFEQHNQDQISHQQPTLGYLAYLTSDHFMEATMENWESEFLQMFAYVLLTAYLFQKGSAESRPFGDTPPSNVPPYEVNPDAPWPVRRGGWVLRLYEYSLSIALFVLFLLSFFLHAVSGAREFSQEELLHGGTAVTTLEYLGTAQFWFESLQNWQSEFFSIGFMVVLSIFLRQKGSPESKAVDAPHSKTGNE				NA	NA	NA	NA	NA
BMS010_02134	159			hypothetical protein	ATGTCGCAACACCGTCCTGACGTTCCGCAGCCCGACCCGGTCGTACACGACAACCCGGGCGACGTTCCCCAGGTCCCGGAATACGAACCGCTCGACGACCAGCCAGGCGTGCCGCTGGTCGGCGAAAAGATTCCGGACAGCGAGCCTTCCACCTACTGA	MSQHRPDVPQPDPVVHDNPGDVPQVPEYEPLDDQPGVPLVGEKIPDSEPSTY				NA	NA	NA	NA	NA
BMS010_02135	1998	glgE1	COG0366	Alpha-1,4-glucan:maltose-1-phosphate maltosyltransferase 1	ATGGCCGAAGCCAGATCCCCGTTCGGAACCGATTCCCGGAGCGCGCTGGAAAGGGCCATGGCGGCCCCGCGCATTGCCATCGAGTCCACCTCGCCGGTCATCGAACAGGGGCGTTTCGCGGCCAAGGCCATCGTCGGGCAGCCGGTCGTCGTCTCCAGCAAGATTTTCGCCGACGGCCACGACCAACTGGCCGCCGCGCTGTTCTGGCGCGCCGAAGGCGAGCAGGGCTGGCACCGCACCCGCCTGAAGCATCTGGGCAACGATCTGTGGCAGGCACAGTTCGTCCCGACGAAGATCGGCCCGCACCAGTTCGCCATCGAGGCCTGGTGGGACATTTTCGAAACCTACCGTTACGAGCTGACCAAGAAGCACGCCGCCGGTGTGCCTATCGCCCTGGAGCTGGAAGAGGGGCGGCTGCAGTTCGTCCAGGCCATCGAGCGCAGCCAGGGCGAGACCCGGGCGGTGCTGGTGGAGTTGCTCGAACGCTACAACGCGGCGCCCCACGAGTTGGAAAAGGTGGCGCTGCTGCTCTCCGGTGAAACGATGGCCGCCATGGCTGCCGCCGATCCCCATCGCCACCGGGTGCGCAGCCCGGAATACCCGCTGGATGTCGACCGGCCTCTGGCCCAGTTCGCCAGTTGGTACGAACTCTTTCCGCGTTCGGAGACCGACGACCCAGCCCGTCACGGCACCTTCGACGATGTGATCGCGCGGCTGCCGAAGATTCGCGACATGTGTTTCGACGTGCTGTATTTCCCGCCGATCCACCCCATCGGCCGCAAGCACCGCAAGGGCCGCAACAATTCGCTCCACGCCGGCCCGGACGACCCCGGCAGCCCCTATGCCATCGGCAGCGAAGAGGGCGGCCACGATGCCATCCACCCGCAATTGGGCAGCCGCGAGGACTTTCGCCGCCTGGTGGCCGCCGCGGCGGACCACGGTCTGGAAATCGCCCTGGATTTCGCCATCCAGTGCTCGCCCGATCACCCCTGGCTGAAGCAGCACCCCGGCTGGTTCGCCTGGCGGCCGGACGGCAGCATCCGCTATGCGGAAAACCCGCCGAAGAAATACCAGGACATCGTCAACGTGGATTTCTATGCCAAGGACGCGATGCCCGATCTCTGGCTGGCGTTGCGCGACGTGGTGGTGCACTGGGTGGAAGAGGGGGTCAAGCTGTTCCGCGTGGACAACCCGCATACCAAGCCGCTGCCGTTCTGGGAGTGGCTGATCGCCGATGTGCGGGCCAAGTATCCTGAGGTGATTTTTCTCGCCGAGGCGTTCACCCGCCCAGCGATGATGGCGCGCCTGGGCAAGCTCGGCTTCGCCCAGAGCTACACCTATTTCACCTGGCGCAACAGCAAGACCGAGCTGAGCGAGTACCTCACCGAGCTGAACCGGCCGCCGCTGAGCGAGTGCTACCGGCCGAACTTCTTCGTCAATACGCCGGATATCAATCCGTATTTCCTGCAGACCAGCGGGCGCCCGGGATTCCTCATCCGTGCCGCGCTGGCGACCATGGGCTCCGGCCTGTGGGGCATGTATTCGGGCTTCGAGCTGTGCGAGTCGGCGCCAGTGCCGGGCAAGGAGGAATACCTGGACTCGGAGAAATACGAAATCCGTCCGCGCGACTACCAGGCGCCGGGCAACATCGTCGCCGAGATCGCCCAGCTCAACCGCATCCGCCGGGAGAACGCGGCCCTGCAGACGCACCTGGGGCTGAAGCTCTACAACGCCTGGAACGACCACATTCTCTATTTCGGCAAGCACACGGCCGATTTGAGCAACTTCGTGCTGGTGGTGGTGAACCTCGACCCGCACCACGCCCAGGAGGCGCATTTCGAGATTCCGCTGTGGGAGTTCGGCCTGCCGGACGACGCGGCGATGCACGGCGAGGACCTGATGACCGGGCACCGCTGGACCTGGTACGGCAAGACCCAGTGGATGCGTCTCGAACCGACGATGCCGTTCGGCATCTGGCGTATCCATCCGGCCCGCTGA	MAEARSPFGTDSRSALERAMAAPRIAIESTSPVIEQGRFAAKAIVGQPVVVSSKIFADGHDQLAAALFWRAEGEQGWHRTRLKHLGNDLWQAQFVPTKIGPHQFAIEAWWDIFETYRYELTKKHAAGVPIALELEEGRLQFVQAIERSQGETRAVLVELLERYNAAPHELEKVALLLSGETMAAMAAADPHRHRVRSPEYPLDVDRPLAQFASWYELFPRSETDDPARHGTFDDVIARLPKIRDMCFDVLYFPPIHPIGRKHRKGRNNSLHAGPDDPGSPYAIGSEEGGHDAIHPQLGSREDFRRLVAAAADHGLEIALDFAIQCSPDHPWLKQHPGWFAWRPDGSIRYAENPPKKYQDIVNVDFYAKDAMPDLWLALRDVVVHWVEEGVKLFRVDNPHTKPLPFWEWLIADVRAKYPEVIFLAEAFTRPAMMARLGKLGFAQSYTYFTWRNSKTELSEYLTELNRPPLSECYRPNFFVNTPDINPYFLQTSGRPGFLIRAALATMGSGLWGMYSGFELCESAPVPGKEEYLDSEKYEIRPRDYQAPGNIVAEIAQLNRIRRENAALQTHLGLKLYNAWNDHILYFGKHTADLSNFVLVVVNLDPHHAQEAHFEIPLWEFGLPDDAAMHGEDLMTGHRWTWYGKTQWMRLEPTMPFGIWRIHPAR	PGPT0018610_837	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0018610-glgE-K16147	NA	NA
BMS010_02136	3345			Glucosamine kinase	ATGGCTCAAGCGAAGAAAGCCCGCGCCCGCAAACCGGCTGCCTTTATCGACGATCCACTGTGGTACAAGGACGCGATCATCTACCAGGTGCACGTGAAGTCGTACTTCGATTCCAACAACGACGGGATCGGCGATTTCCCCGGCCTGATCGACAAGCTCGACTACATCGCCCAACTCGGCGTCAACACCATCTGGCTCCTGCCGTTCTACCCGTCGCCACGTCGCGACGATGGCTACGATATCGCCGAGTACCGCGGCATCCACCCGGACTACGGCGGCATGGCCGATGCCAAGCGCTTCATCGCCGAGGCGCACAAGCGTGGGCTGCGCGTGATCACCGAACTGGTCATCAACCACACCTCGGACCAGCACCCCTGGTTCCAGCGGGCGCGCAAGGCCAAGCCGGGGTCGTCGGCGCGCAACTTCTACGTGTGGTCGGACAGCGACCAGAAATACCCGGAAACGCGGATCATCTTCCTCGATACCGAAAAGTCCAACTGGACCTGGGACCCGGTTGCCGGCCAGTACTTCTGGCACCGCTTCTACTCGCACCAGCCGGACCTGAACTTCGATAACCCGCAGGTGTTGCGCGCTGTGCTCAGCATCATGCGCTACTGGCTCGACCTGGGTGTCGACGGCCTGCGCCTGGATGCGATTCCCTATCTGGTGGAGCGCGAAGGCACCAACAACGAGAACTTGCCGGAGACCCATGAGGTCCTGAAGAAGATCCGCGCCGAGATCGATGCCAACTACCCGGACCGCATGCTGCTGGCCGAAGCCAACCAGTGGCCGGAAGACACCCAGTTGTACTTCGGCGGCAAGGAGGGCGGTGGCGGCGACGAATGCCATATGGCCTTCCACTTCCCGCTGATGCCGCGGATGTACATGGCCATCGCCCAGGAGGACCGCTTCCCGGTCACCGACATCCTGCGCCAGACCCCGGACATCCCGGCCAACTGCCAGTGGGCGATCTTCCTGCGCAACCACGATGAGCTGACCCTGGAGATGGTCACCGACAAGGAGCGCGACTACCTCTGGAATTACTACGCCGCCGACCGCCGTGCACGGATCAACTTGGGCATCCGCCGGCGCCTGGCGCCGCTGATGGAGCGCGACCGCCGCCGCATCGAGTTGCTCAACAGCCTGCTGCTGTCGATGCCGGGCACGCCGGTGATCTACTACGGCGACGAAATCGGCATGGGCGACAACATCTTCCTCGGCGACCGCGACGGCGTGCGTACGCCGATGCAGTGGAGCATCGACCGCAACGGCGGTTTCTCCCGTGCCGACCCGGCGAGCCTGGTGCTGCCGCCGATCATGGACCCGCTGTACGGCTTCCAGACCATCAACGTGGAGGCCCAGCTGCGCGACCCGCATTCGCTGCTCAATTGGACGCGGCGGATGCTGTCGATCCGTAAGCAGCAGAAGGCCTTCGGCCGCGGCACGCTGAAGCTGCTGTACCCGGCCAACCGGCGCATCCTCGCTTACTTGCGTGAATTCACCGGGCCCGACGGCAGTAACGAGACCATCCTTTGCGTGGCCAACGTCTCGCGCTCGGCGCAGGCAGTGGAGCTGGACCTCTCGCTGTTCGCCGGCATGGTGCCGGTGGAGATGGTCGGTGGCAGCGCTTTCCCGCCGATTGGCCAGCTCACCTACCTGTTGACCCTGCCGCCCTATGGCTTCTACTGGTTCCTGCTCGCACCGCAGGCGCAGATGCCAGCCTGGCACGCCGAAGCGCCGGAGCCGATGCCGGATTTCAACACGGTGGTGATCAAGCGCGACATGAGCGAGCTGCTGGAAGGTTCGGCGCGGCGCACTCTGGAGCAGGATGCCTTGCCCGCTTACCTGCCGAAGCGCCGCTGGTACGCCGCCAAGGACGAGAAGATTGAGCGCGCCCGGATCGCCTATGGTGTGCCGTTCTGCGCCGGTTCGCAGCCGTGCCTGCTGGCCGAGGTGGAGGTCGAGAACGCCAAGGGGGCGGAGCGCTACTTGCTGCCGTTCGGCACGTTCGGCGAGGACGATCAGGTCGGCGCCTTGCCCCAGCAACTGGCCATGGCCCGCCTGCGCCGGGTGCGCCAGGTGGGCCTGATCACCGATGCCTTCACCCTCAACGGTTTCATCGGCGAGGTGCTCAAGGCGCTGCGCGAGGAGCGGCGCATCGCTTGCCCGGACGGCGAGGTGCAGTTCTTGCCCACTTCGCTGCTCGCCGACCTGGAGCTGCAGGCGGATGCCGAATCGCGCTACCTCACCGCCGAGCAGTCGAACAGTTCGGTGGTGGTGGGCGATGCCCTGGTGATGAAGCTGATCCGCCGGGTCATCGGCGGCGTCCATCCCGAGGCGGAAATGGGCCGCTACCTCACCGAGCACGGTTTCGCCCACATCGCGCCGCTGCTCGGCGAGGTCCGCAGGGTTTCTGCCGACGGCACACCCCATGCGCTGATCATCGTGCAGCGCTACCTGAACAACCAGGGCGATGCCTGGGAATGGACCCAGGACACCCTGGAGCGGGCGATCCGCGACACCATTACCGGCGGTATTTCCGAAGTGGAAAACCAGTTCAGCGCCATGGTGGAGCTGGAAAACTTCGCCCGCATGCTCGGCCAGCGCCTGGGCGAGATGCATAGCCTGCTGGCGCAGGCCAACGACAATCCGGCCTTTGCCGTGGAGGTCAGCGACGAGGCGGATGCCAGGGCCTGGAGCGAGACGGTCGGTGGGCAACTGAGGGGGGCTCTGGAGATTCTCGCCGCGCGGCGTGACAGCCTGCGTGCCGAGGATGGCGTCATCGTCGAGCAACTGATCGGCGAGGGCGATGCCTTGCTGCGGGCCATCGATGGCCTGGCGCGGCGGGCGATCGGCGGTTTGCGCATGCGTGTGCACGGTGACCTGCACCTGGGGCAGGTCCTGGTGGTGCAGGGCGATGCCTATCTCATCGACTTCGAGGGCGAGCCCGCGCGTTCCCTGGACGAGCGCCGGGCGAAGCACAGCCCCTACAAGGACGTCGCCGGCATCCTGCGCTCCATCGAGTACGCCGCCGCCATGGCCATCCGCCGCGCGCAGAGCGCCGACAGTTCGGAAGAGGCCAACCTCGCTCGCAGCCAGACCGCCGCGACCTACCGCGGTACCACCCGCCAGGCCTTCCTCGAGGCCTATCGCCAGGCCGCCGGAGACATCCCGCACCGCTGGCGCGACGAGCGCGGCGAACAGGCGGCCCTGGATCTCTTCACCCTGGAGAAGGCCGCCTACGAAATCGCTTACGAGGCCGCCAACCGGCCGGCCTGGTTGTCCATATCCCTGCAGGGCCTCGCGGCCCTGGCCGATAAGCTCATCGCTGGAGGTAACCCATGA	MAQAKKARARKPAAFIDDPLWYKDAIIYQVHVKSYFDSNNDGIGDFPGLIDKLDYIAQLGVNTIWLLPFYPSPRRDDGYDIAEYRGIHPDYGGMADAKRFIAEAHKRGLRVITELVINHTSDQHPWFQRARKAKPGSSARNFYVWSDSDQKYPETRIIFLDTEKSNWTWDPVAGQYFWHRFYSHQPDLNFDNPQVLRAVLSIMRYWLDLGVDGLRLDAIPYLVEREGTNNENLPETHEVLKKIRAEIDANYPDRMLLAEANQWPEDTQLYFGGKEGGGGDECHMAFHFPLMPRMYMAIAQEDRFPVTDILRQTPDIPANCQWAIFLRNHDELTLEMVTDKERDYLWNYYAADRRARINLGIRRRLAPLMERDRRRIELLNSLLLSMPGTPVIYYGDEIGMGDNIFLGDRDGVRTPMQWSIDRNGGFSRADPASLVLPPIMDPLYGFQTINVEAQLRDPHSLLNWTRRMLSIRKQQKAFGRGTLKLLYPANRRILAYLREFTGPDGSNETILCVANVSRSAQAVELDLSLFAGMVPVEMVGGSAFPPIGQLTYLLTLPPYGFYWFLLAPQAQMPAWHAEAPEPMPDFNTVVIKRDMSELLEGSARRTLEQDALPAYLPKRRWYAAKDEKIERARIAYGVPFCAGSQPCLLAEVEVENAKGAERYLLPFGTFGEDDQVGALPQQLAMARLRRVRQVGLITDAFTLNGFIGEVLKALREERRIACPDGEVQFLPTSLLADLELQADAESRYLTAEQSNSSVVVGDALVMKLIRRVIGGVHPEAEMGRYLTEHGFAHIAPLLGEVRRVSADGTPHALIIVQRYLNNQGDAWEWTQDTLERAIRDTITGGISEVENQFSAMVELENFARMLGQRLGEMHSLLAQANDNPAFAVEVSDEADARAWSETVGGQLRGALEILAARRDSLRAEDGVIVEQLIGEGDALLRAIDGLARRAIGGLRMRVHGDLHLGQVLVVQGDAYLIDFEGEPARSLDERRAKHSPYKDVAGILRSIEYAAAMAIRRAQSADSSEEANLARSQTAATYRGTTRQAFLEAYRQAAGDIPHRWRDERGEQAALDLFTLEKAAYEIAYEAANRPAWLSISLQGLAALADKLIAGGNP	PGPT0014120_353	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-AMYLASE,PGPT0014120-treS-K05343	NA	NA
BMS010_02137	2220	glgB_1	COG0296	1,4-alpha-glucan branching enzyme GlgB	ATGATCGACCGCCTCGCGCAGTCCGCCCGGCAGGACGAGGCGCTGCTGATTTCCACGGCCGTGGTGGATGCGCTGGTCAGCGCCACCCTGGCCGATCCTTTCTCCGTGCTCGGCCCTCATTCGGTACGCGATGGGCTGGTGGTGCGTACTTACCAGCCGGGTGCGCTGGGTGTCACCGCCATCGCCCGCGACAACGGGGAAACCCTGGCTGAGCTGGAGCCTGTGCAGGCGCCGGGCCTGTTCGTCGGTCGTCTGCCGGAGGCCCGGCCGTATCGCCTGCGCGTCCGCTGGGCCGGTGGCGACCACGAGACCGAGGACCCCTACAGCTTCGGCCCGCTGCTCGGCGAGATGGACCTCTATCTGTTCGCCGAAGGCAATCACCGTGACCTGGGCCATTGCCTGGGGGCCCAGCCGATGACCATCGAGGGCGTGGAGGGCGTGCGTTTCGCCGTCTGGGCACCGAATGCCCGGCGCGTGTCGGTGGTTGGCCACTTCAACAGTTGGGATGGTCGTCGGCATCCCATGCGCCTGCGCTATCCGGCGGGCGTGTGGGAACTGTTCATCCCGCGCCTGGGGCCGGGCGAACCCTATCAGTACGAAATCCTCGGCCCCAACGGCCTGCTGCCGCTGAAGGCCGACCCGGTCGCCCTGGCCACCGAAGCGCCGCCCGGCACCTCGTCGGTGGTGGCGCAGCCGCTGGATTTCGCCTGGAACGACCAAGCCTGGATGCAGCAACGCGCCTCGCGCCAGGCGGCCAATTCGCCGATGTCCATCTACGAGCTGCACGCTGGCTCCTGGCGCCGCGAGAGCGGGGAGGTCTACAACTGGCGCGAGCTGGCCGAGCGGCTGATCCCCTACGTCATCGACATGGGCTTCAGCCATATCGAGCTGCTGCCGATCATGGAGCACCCGTTCGGCGGCTCCTGGGGCTACCAGCCGCTCTCGATGTTCGCCCCCAGCGGCCGCTACGGAACGCCGCAGGACTTCGCCGCCTTCATCGACGCCTGCCACGTGGCCGGCATCGGCGTGATCCTCGACTGGGTGCCCGCGCACTTTCCCACCGACGAACACGGCCTGGCGCGTTTCGACGGCACTGCGTTGTACGAATACGAGCACCCGTTCGAGGGCTTCCACCAGGACTGGGATACCTACATCTATAACCTCGGCCGTACCGAGGTGCATGGATTCATGATCGCCTCGGCCTTGCACTGGCTGCGGCAGTTCCACATCGATGGATTACGGGTGGATGCGGTGGCCTCGATGCTCTATCGCGACTATTCGCGCAAGGAAGGCGAGTGGATACCGAATCGCTACGGTGGGCGCGAGAACCTGGAGGCCATCGAATTCCTCCGTCACCTGAACGACGTGGTGGCCCTGGAAACCCCCGGTGCCCTGGTGATCGCCGAGGAGTCTACCGCCTGGCCGGGCGTGACCCAGGCGACCGAGGAGGGCGGGCTGGGCTTCTCCTACAAGTGGAACATGGGTTGGATGCACGACACCCTGAAGTACATGGCCGAAGACCCGGTGCACCGCTCCTATCACCACGACAAGATGACCTTCGGGCTGATCTATGCCTTCTCCGAGCGCTTCATCCTGCCGATCTCCCATGACGAAGTGGTGCACGGCAAACGCTCGCTGCTGGACAAGATGCCCGGCGACCGCTGGCAGAAGTTCGCCAACCTGCGCGCCTACCTGAGCTTCATGTGGACCCAGCCGGGCAAGAAGCTGCTGTTCATGGGCTGCGAGTTCGGCCAGTGGCGCGAGTGGAACCACGACACCGAACTGGACTGGTACCTGCTCAACTACGGCGAGCACCAGGGTGTGCAGCGCCTGCTGCGCGACCTCAACCGGCTCTACAACCAGGAACCGGCGCTGTACGAGCGCGATTGCGAACCCGGCGGCTTCCAGTGGCTGATCGGCGACGACCGCGCCAACAGCGTCTATGCCTGGTTGCGCTGGAGTTCCACGGGGCATCCATTGCTGGTGGTGGCCAACTTCACCCCGGTGGTGCGGCATGGCTACCGGGTCGGCGTGCCGCTGGCGGGGCACTGGATGGAAGTGCTCAACAGCGACGCCGAATGCTACGCCGGCTCCAACGTCGGCAATGCCGGCGGCGTGCTGACCGATACCATCGAAAGCCACGGCGAGTCGGTTTCCCTGTCGCTGAACTTGCCGCCGCTGGGGGTGCTCATCCTGCGACCGACGCCCGTGGGCGGATGA	MIDRLAQSARQDEALLISTAVVDALVSATLADPFSVLGPHSVRDGLVVRTYQPGALGVTAIARDNGETLAELEPVQAPGLFVGRLPEARPYRLRVRWAGGDHETEDPYSFGPLLGEMDLYLFAEGNHRDLGHCLGAQPMTIEGVEGVRFAVWAPNARRVSVVGHFNSWDGRRHPMRLRYPAGVWELFIPRLGPGEPYQYEILGPNGLLPLKADPVALATEAPPGTSSVVAQPLDFAWNDQAWMQQRASRQAANSPMSIYELHAGSWRRESGEVYNWRELAERLIPYVIDMGFSHIELLPIMEHPFGGSWGYQPLSMFAPSGRYGTPQDFAAFIDACHVAGIGVILDWVPAHFPTDEHGLARFDGTALYEYEHPFEGFHQDWDTYIYNLGRTEVHGFMIASALHWLRQFHIDGLRVDAVASMLYRDYSRKEGEWIPNRYGGRENLEAIEFLRHLNDVVALETPGALVIAEESTAWPGVTQATEEGGLGFSYKWNMGWMHDTLKYMAEDPVHRSYHHDKMTFGLIYAFSERFILPISHDEVVHGKRSLLDKMPGDRWQKFANLRAYLSFMWTQPGKKLLFMGCEFGQWREWNHDTELDWYLLNYGEHQGVQRLLRDLNRLYNQEPALYERDCEPGGFQWLIGDDRANSVYAWLRWSSTGHPLLVVANFTPVVRHGYRVGVPLAGHWMEVLNSDAECYAGSNVGNAGGVLTDTIESHGESVSLSLNLPPLGVLILRPTPVGG				NA	NA	NA	NA	NA
BMS010_02138	333			hypothetical protein	ATGAACATGAGCAGAACCTATCCCGCGACCGAACCGACGCGCGCCGCAGTGGAAGCCCTGGAAGAGCCGACCGTCCTCGAGTTCGGTGCTTCCTGGTGTGGACACTGCCAGGCGGCGCAACCCCTTCTCGCCAAGGCTTTCGCCCGGCACCCGGAAATCCGTCATATCAAGATCGAAGACGGCAAGGGGCGTCCGCTGGGGCGGTCGTTCCGAGTGACGCTGTGGCCGACGCTGATTTTCCTCGACCAGGGCAAGGAGGTGGCGCGGCTGGTCCGGCCGACCGATTCGAGCGCCATCGAACGCGCCTTGGCCCGGATCAGCCTGGCGGCGTAA	MNMSRTYPATEPTRAAVEALEEPTVLEFGASWCGHCQAAQPLLAKAFARHPEIRHIKIEDGKGRPLGRSFRVTLWPTLIFLDQGKEVARLVRPTDSSAIERALARISLAA	PGPT0013055_5730	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671	NA	NA
BMS010_02139	1038	rlmN_1	COG0820	Dual-specificity RNA methyltransferase RlmN	ATGCGCATCCCTGAAATCCAACAACGCCTCGCCGATCTCGGCGCCAATCCCCGGCATGCCGGGCGGATCGTCCGTGCCTGGCTGAAGGGCCTGCCCCTCGATAGCGGCCGGCGCCACCAACAGGCGGAAAACTTCCTGCCGCTCAGCGTGCGCGAGGCGCTTCCTGTGCTGTCCGAACAACTCGCCGGGCTGGCGCGGTTGCGCTCGGAACATCCGGCCGCCGACGGTTCCGCCCGGCTGCTCGTTGAGCTGAACGATGGACAGATGGTGGAAAGCGTGCTGCTGCCGCGCGACGGGTTGTGCGTCTCGACCCAGGTGGGTTGCGCGGTGGGCTGCGTATTCTGCATGACCGGCAAGAGCGGCCTGCTGCGCCAGGTGAGCAGCGCCGAGATCGTCGCCCAGGTCGCCCTCGCCCGGCGCTTCCGCCCGGTGAAGAAGGTGGTGTTCATGGGCATGGGCGAGCCGGCGCACAACCTGGATAACGTGCTGGAAGCCATCGACCTGCTCGGTACCGAGGGCGGCATCGGTCACAAGAACCTGGTGTTTTCCACCGTCGGCGACATGCGCGTGTTCGAGCGCCTGCCGCAGCAGCGGGTCAAACCCGGCCTCGCCCTCTCCCTGCACACCACCGACGCCGCGCTGCGCGAGAAGCTGCTGCCGCGCGCACCGAAAATCGCTCCCCAGGAGCTGGTCGAACTGGGCGAGGCCTATGCCCGTCAGGTCGGCTACCCGATCCAGTACCAGTGGACGCTGCTCAAGGGCATCAACGACAGCCAGGAAGAAATGGACGGCATCCTGCGCCTGCTCAAGGGCAGGTATGCGGTGATGAACCTGATCCCCTACAACAGCCTGGAAATGGACGACTACCAGCGCCCGGACGGCGACCGCATCGTGCAAATGGTGCGTTACCTTCACAGCCGTGGCGTGTTGACCAAGGTGCGCAACTCGGCGGGCCAGGATATCGACGGCGGCTGCGGTCAACTGCGCGCCCGCGCGGTGGATGTGGTCAATACGCGGCGGTTGCGGAAGCCTGCCTGA	MRIPEIQQRLADLGANPRHAGRIVRAWLKGLPLDSGRRHQQAENFLPLSVREALPVLSEQLAGLARLRSEHPAADGSARLLVELNDGQMVESVLLPRDGLCVSTQVGCAVGCVFCMTGKSGLLRQVSSAEIVAQVALARRFRPVKKVVFMGMGEPAHNLDNVLEAIDLLGTEGGIGHKNLVFSTVGDMRVFERLPQQRVKPGLALSLHTTDAALREKLLPRAPKIAPQELVELGEAYARQVGYPIQYQWTLLKGINDSQEEMDGILRLLKGRYAVMNLIPYNSLEMDDYQRPDGDRIVQMVRYLHSRGVLTKVRNSAGQDIDGGCGQLRARAVDVVNTRRLRKPA				NA	NA	NA	NA	NA
BMS010_02140	330			hypothetical protein	ATGACAGACGTCCCTCTCTACCTTCTCGACCAACTGGAAACCGCCGACATGCTGGAAATCGACGGTCTGCACGCCTGGCAGTTCAGCCTCGACGAAGACCTGCTGGACCAGGCCGATGCCGCCGCGGAAGCCGACCAGCCCTTCGCAAGCGAGGAAACCATACTCACCATCGAAGCCCTGGACGGCCGCGACCGCCGCACGTGGCGTTTCAGCTACAACCAGGTGATGGAAGCCGAATATCGAGCCGAGGAAGATATGTGGATGCTCGACGGGGGTAAGCATCGGGTGAGGTGTTTGGGTGCTGTTACTGCCGATGACGAGTCGGAATAA	MTDVPLYLLDQLETADMLEIDGLHAWQFSLDEDLLDQADAAAEADQPFASEETILTIEALDGRDRRTWRFSYNQVMEAEYRAEEDMWMLDGGKHRVRCLGAVTADDESE				NA	NA	NA	NA	NA
BMS010_02141	483	nuoE_1	COG1905	NADH-quinone oxidoreductase subunit E	ATGCCTGACGAGACACTTCACCTGCCCCTGATTCTCAGCGTGCTGGAGCGCGAAAAGGACACCCCCGGTGCCCTGTTGCCGATCCTCCATGCCATCCAGGAGGGCGTCGGGTATATCCCGGATGCCGCCGTCCCCGAGATCGCCCATGCCCTCAACCTCAGCCAGGCCGAAGTGCGCGGGGTGATCAGCTTCTACCACGACTTCCGCACCACGCCGCCGGCGCGTCATATCCTGCGCCTGTGCCACGCCGAGTCCTGCCAGAGCATGGGCGGCGCGCAACTGGCCGCGCAGTTGCGTGAGCACCTGGGGCTGGACGACCACGGCACCACGGCCGACGGGCAGGTCAGCCTGCGGCCGGTCTATTGCCTGGGCGCCTGCGCCTGTTCGCCGGCCCTGGAGCTGGATGGCCAACTGCATGCACGGCTCACCCCCGAGGGGCTGCGTGAGCTGGTCAACCGTTGCCTGGAGGATGGGACATGCTGA	MPDETLHLPLILSVLEREKDTPGALLPILHAIQEGVGYIPDAAVPEIAHALNLSQAEVRGVISFYHDFRTTPPARHILRLCHAESCQSMGGAQLAAQLREHLGLDDHGTTADGQVSLRPVYCLGACACSPALELDGQLHARLTPEGLRELVNRCLEDGTC	PGPT0019670_1587	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FORMATE_UTILIZATION,PGPT0019670-fdoI|fdsG-K00127	NA	NA
BMS010_02142	1560			hypothetical protein	ATGCTGACGTTGTGCATTCCCGGCGATTCGATTGCCCGCGCAGTCGGCGCGGATGAAGTGGCCGTGGCGCTGACCCGCGAGGCCGAGCGACGCAACCTGCCGCTGGAACTCAAGCGCACCAGTTCCCGTGGCCTCTATTGGCTGGAGCCGCTGGTGGAGCTTGAAAGCGCCGACGGCCGCCTGGGCTTCGGTCCGGTCGCTTCTCGGGACGTTCCGTCCTTGCTGGACGCCCTGCAGGGCGATGCCAGCGCCCATCCGCTGGCGCTGGGGCCGGTGGAGGAATTGCCCTATCTCAAGAGCCAGCAGCGCCTGATCTTCGCCCGCGCCGGCATCACTCGTCCGTTGTCCCTGGACGACTACCGGGCCCTGGGCGGCTTCGAAGGGCTGACCCGCGCCATCGGCCAGAGCGGCGAGGAAATCGTCGCCTCCGTGCTGGATTCCGGCCTGCGTGGCCGGGGCGGTGCGGCGTTCCCGGCTGGCATCAAGTGGCGCACCGTGCGTGAGGCCAAGGCCGCGCAGAAATACGTGGTATGCAATGCCGACGAAGGCGATTCCGGCACTTTCGCCGACCGCATGTTGATGGAGGGTGATCCCTTCCTGCTGATCGAAGGCATGGCCATCGCCGGCGTCGCGGTCGGTGCCAGCATGGGCTACATCTACGTGCGCTCGGAGTACCCGCAGGCGGCGCAAACCCTGCGTGCGGCCATCGACATCGCCCGCGAGGCCGGCTATCTCGGGGTCGACGTGGCGGGAAGCGGGCGTGCCTTCGAACTGGAGGTGCGGGTCGGTGCCGGTGCCTACATCTGCGGCGAGGAAACCTCCCTGCTGGATTCCCTCGAAGGCAAGCGCGGCACGGTACGCGCTAAGCCGCCGCTGCCGGCCCTGCAAGGCTTGTTCGGCCTGCCGACCCTGGTGCACAACGTGCTCACCCTGGCTTCGGTGCCGATCATCCTGGCTCGTGGCGCGCAGTTCTATCGCGACTTCGGTATGGGCCGCTCGCTGGGCACCATGCCGTTCCAACTGGCCGGCAACATTCGCCATGGCGGCCTGGTGGAGCGGGCCTTCGGCCTGACCCTGCGCGAGTTGGTGGAAGACTACGGTGGCGGTACGGCCACGGGCCGGCCGATCAAGGCCGCCCAGGTGGGCGGGCCGCTGGGTGCCTGGGTGCCGCCGTCGCAATTCGATACCCCACTGGACTACGAGGCCTTCGCCGCCATGGGCGCCATGCTCGGCCACGGCGGTGTGGTGCTGGCCGACGACAGCCTGGACATGGCGCGCATGGCGCGTTTCGCCCTGCAATTCTGCGCCGAGGAGTCCTGTGGCAAGTGCACACCGTGCCGCATTGGCTCCACCCGCGGTGTCGAAGTGGTGGATCGCCTGCTGGCGGCGCCGGATGACGCGGCGCGGGATGAGCAGGTGATCCTGCTCAAGGACCTCTGCGACACCCTGACCTATGGCTCTCTCTGCGCCCTGGGCGGCATGACTGCCTACCCGGTGACCAGCGCGCTCAAGCATTTCCCTGCCGACTTCGGGCTGAAGTCTTCGGAGGCCGACCAATGA	MLTLCIPGDSIARAVGADEVAVALTREAERRNLPLELKRTSSRGLYWLEPLVELESADGRLGFGPVASRDVPSLLDALQGDASAHPLALGPVEELPYLKSQQRLIFARAGITRPLSLDDYRALGGFEGLTRAIGQSGEEIVASVLDSGLRGRGGAAFPAGIKWRTVREAKAAQKYVVCNADEGDSGTFADRMLMEGDPFLLIEGMAIAGVAVGASMGYIYVRSEYPQAAQTLRAAIDIAREAGYLGVDVAGSGRAFELEVRVGAGAYICGEETSLLDSLEGKRGTVRAKPPLPALQGLFGLPTLVHNVLTLASVPIILARGAQFYRDFGMGRSLGTMPFQLAGNIRHGGLVERAFGLTLRELVEDYGGGTATGRPIKAAQVGGPLGAWVPPSQFDTPLDYEAFAAMGAMLGHGGVVLADDSLDMARMARFALQFCAEESCGKCTPCRIGSTRGVEVVDRLLAAPDDAARDEQVILLKDLCDTLTYGSLCALGGMTAYPVTSALKHFPADFGLKSSEADQ	PGPT0019665_326	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FORMATE_UTILIZATION,PGPT0019665-fdoH|fdsB-K00124	NA	NA
BMS010_02143	2877			Putative formate dehydrogenase	ATGATCAACATCTTCGACCCCGCCAGCGATATCGACCTCGGCACCCCGGCCCGCGAAAGCGAGGTGCAGGTCAGCCTGACCATCGATGGCCGCGAAATCAGCGTGCCCGCGGGCACCTCGGTGATGCGCGCCGCCGCGCTGCTGGGTACCACCATCCCCAAACTCTGCGCCACCGAGAGCCTGGAGGCATTCGGCTCCTGTCGCATGTGCCTGGTGGAAATCGACGGCATGCGCGGCTATCCGGCCTCCTGCACTACGCCGGTGAGCGAGGGCATGGTGGTGCGCACCCAGACCTCCAAGCTCGCCACCTTGCGGCGCAACGTGATGGAGCTGTACATCTCCGACCACCCGCTGGATTGCCTGACCTGTTCGGCGAACGGCAACTGCGAACTGCAGACGGTGGCGGGGCAGGTGGGCCTGCGCGAAGTGCGTTACGGCTATGACGGCGCCAACCACCTGGAGGAGGCCAAGGACGTCTCCAATCCCTATTTCGACTACGACCCGAGCAAGTGCATCGTCTGCAACCGCTGCGTGCGCGCCTGCGAGGAAACCCAGGGCACCTTCGCCCTGACCATCAGCGGTCGCGGCTTCGAGTCCCGCGTGGCAGCGGCCGGTGGCGAGAACTTCCTCGACTCCGAATGCGTGTCCTGCGGCGCCTGCGTGCAGGCTTGCCCGACCGCCACGCTGATGGAAAAGAGCGTGGTGGAGAAGGGCCAGCCGGAGCGCAGCATCATCACCACCTGCGCCTACTGCGGCGTGGGCTGCTCCTTCCGTGCCGAGGTGAAGGGCGAGCAACTGGTACGCATGGTGCCGGACAAGAACGGCCGGGCCAACCACGGCCACGCTTGCGTCAAGGGCCGTTTCGCCTGGGGCTATGCCACTCACCCGGACCGCATCACCAAGCCGATGATCCGCAAGCACATCGACGACCCCTGGCAGGAAGTCAGTTGGGACGAGGCGGTGAGCTACGCGGCCAGTGAATTCCGCCGCATCCAGCTCAAGTACGGGCGCGACTCCATCGGCGGCATCACCTCCAGCCGTTGCACCAACGAAGAAGCCTACCTGGTCCAGAAACTGGTACGTGCGGGCTTCGGCAACAACAACGTCGACACCTGCGCGCGGGTCTGCCATTCGCCCACCGGCTACGGTCTCAAGCAGACCCTGGGCGAGTCGGCCGGCACCCAGAGCTTCGATTCGATCATGCAGGCCGATGTGATCCTGGTGATCGGCGCCAACCCCACCGACGCCCATCCCGTCTTCGGCTCCCAGCTCAAGCGCCGCCTGCGCGAGGGTGCGCGGCTGATCGTCATCGACCCGCGCCGCATTGACCTGGTGGATTCTCCCCACGCCCGCGCCGAGTTGCATCTGGCGCTGCGTCCCGGCACCAACGTGGCCATGCTCAATGCCTTGGCCCACGTGATCGTCACCGAAGGGCTGGTCAATCAGGACTTCGTCGATGCTCGTTGCGAAGCGGCGGATTTCGCCCGCTGGCGCGACTTCGTCAGCAAATCGGAGAACTCCCCGGAAATCCTCGGTCCGGTTTGCGGCGTGCCCGCTGCGCAGATTCGCGAAGCCGCGCGGCTCTATGCCACCGGCGGCAACGCGGCGATCTACTATGGCCTCGGTGTGACCGAGCACAGCCAGGGCAGCACCGCGGTGATGGGTATCGCCAACCTCGCCATGGCCACCGGCAACATCGGCCGCGAAGGGGTAGGGGTGAACCCGCTGCGTGGGCAGAACAACGTGCAAGGCTCCTGCGACATGGGTTCCTTCCCCCATGAGCTGCCGGGCTACCGCCACGTCTCCAACGAGGCGGTGCGTGCCCAGTTCGAGCAGGCCTGGGGCGTGACCCTGCAGCCCGATCCCGGCCTGCGTATCCCCAATATGTTCGAGGCAGCCTTGGGCGGCAGCTTCAAGGCGCTGTACTGCCAGGGCGAGGACATCGCCCAGAGCGATCCCAACACCCAGCACGTCACTGCCGCGCTGTCGGCAATGGAATGCGTGGTGGTGCAGGACATCTTCCTCAACGAAACCGCCAAGTTCGCCCATGTGTTCCTGCCGGGCAGCTCCTTCCTGGAAAAGGACGGCACCTTCACCAACGCCGAGCGGCGTATTTCCCGTGTGCGCAAGGTGATGGAGCCGCTGGGCGGCAAGGCCGACTGGGAAGCGACCCAGCTCCTGGCCAATGCCCTGGGCTACAAGATGGACTACAAGCACCCGTCCGAGATCATGGACGAGATCGCCCGTCTGACCCCGACCTTCACCCGCGTCAGCTACGCGGAACTGGACCGCCACGGCAGCCTGCAATGGCCCTGCAACGACTCCGCGCCGGACGGCACGCCGACCATGCACATCGAGGAGTTCGTGCGTGGCAAGGGGCGCTTCATGCTCACCGGCTATGTGCCCACCGAGGAGAAGGTCAATAGCCGCTACCCGCTGCTGCTGACCACCGGCCGCATCCTCAGCCAGTACAACGTCGGCGCCCAGACCCGGCGTACCGACAACGTCGCCTGGCACGGGGAAGACCGACTGGAAATCCACCCGACCGACGCCGAGAGCCGCGGCATCGCCGATGGCGACTGGGTCGGCGTCGGCAGCCGCGCCGGGCAGACCGTGCTGCGCGCCAAGGTCAGCGAGCGGGTGGCACCGGGCGTGGTCTACACCACCTTCCACTTCCCCGAATCGGGGGCCAACGTGATCACCACGGACAACTCCGACTGGGCCACCAACTGCCCGGAATACAAGGTCACGGCGGTGGAAGTCTCGCGGGTCTACCAACCTTCCGAATGGCAAAAACGCTACCAGGCGTTCAGCGACGAACAACGGCGCCTGCTCAACGAGCGCCGCCGCGCCGAGAAAGCAGAGGTACGTAGATGA	MINIFDPASDIDLGTPARESEVQVSLTIDGREISVPAGTSVMRAAALLGTTIPKLCATESLEAFGSCRMCLVEIDGMRGYPASCTTPVSEGMVVRTQTSKLATLRRNVMELYISDHPLDCLTCSANGNCELQTVAGQVGLREVRYGYDGANHLEEAKDVSNPYFDYDPSKCIVCNRCVRACEETQGTFALTISGRGFESRVAAAGGENFLDSECVSCGACVQACPTATLMEKSVVEKGQPERSIITTCAYCGVGCSFRAEVKGEQLVRMVPDKNGRANHGHACVKGRFAWGYATHPDRITKPMIRKHIDDPWQEVSWDEAVSYAASEFRRIQLKYGRDSIGGITSSRCTNEEAYLVQKLVRAGFGNNNVDTCARVCHSPTGYGLKQTLGESAGTQSFDSIMQADVILVIGANPTDAHPVFGSQLKRRLREGARLIVIDPRRIDLVDSPHARAELHLALRPGTNVAMLNALAHVIVTEGLVNQDFVDARCEAADFARWRDFVSKSENSPEILGPVCGVPAAQIREAARLYATGGNAAIYYGLGVTEHSQGSTAVMGIANLAMATGNIGREGVGVNPLRGQNNVQGSCDMGSFPHELPGYRHVSNEAVRAQFEQAWGVTLQPDPGLRIPNMFEAALGGSFKALYCQGEDIAQSDPNTQHVTAALSAMECVVVQDIFLNETAKFAHVFLPGSSFLEKDGTFTNAERRISRVRKVMEPLGGKADWEATQLLANALGYKMDYKHPSEIMDEIARLTPTFTRVSYAELDRHGSLQWPCNDSAPDGTPTMHIEEFVRGKGRFMLTGYVPTEEKVNSRYPLLLTTGRILSQYNVGAQTRRTDNVAWHGEDRLEIHPTDAESRGIADGDWVGVGSRAGQTVLRAKVSERVAPGVVYTTFHFPESGANVITTDNSDWATNCPEYKVTAVEVSRVYQPSEWQKRYQAFSDEQRRLLNERRRAEKAEVRR	PGPT0019635_1697	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FORMATE_UTILIZATION,PGPT0019635-fdoG|fdhF|fdwA-K00123	NA	NA
BMS010_02144	222			hypothetical protein	ATGAGCAGCGAAAACCTGATCAAAATGGCCAACCAGATCGCCCAGTTCTTCGACTCCGAGCCGGACAACGCAGAAGCTGTGCATGGCGTGCGCCAACACCTGCAAAGTTTCTGGACCCCCGCCATGCGCATCGAACTCATGGCCTGGCAGGTAGAACATGGCGGCGCCTCCCTGCATCCCCTGGTGCAGGCGGCACTGGCTGAGGTGGGGAGGGAGGTTTAA	MSSENLIKMANQIAQFFDSEPDNAEAVHGVRQHLQSFWTPAMRIELMAWQVEHGGASLHPLVQAALAEVGREV	PGPT0019675_452	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FORMATE_UTILIZATION,PGPT0019675-fdsD-K00126	NA	NA
BMS010_02145	537			hypothetical protein	ATGATCATCGGCCATCTGCCCGCCGGGTATGCAATCTCAAGACTATTGATTCGCTGCGCAGAGCCATTGGGAATATCTACAACGGCATTTCTCTGGGCCGGCGTCATCGGAGCCCTTGCTCCGGATCTCGATATGTTTTACTTCCACCTCATCGACCAGCGGCAGCACCACCACCATACCTACTTCACTCACTACCCTATTGTTTGGCTTGTACTGCTAGCCATATCAGTGGTTTGGCTTTACGGGGCAAAAGCAAAGCATTACGCCGCATACGCGACGATATTCTCGCTGAATGGTTTTGCTCATATGCTCTTCGACACGATCGTCGGTGACATCTGGTGGCTCGCTCCTTGGGGCATCGAGCCATTCGCCTTCTTCAGCGTCCCGGCTCTCTACAAACCATGGTGGCTGAACTTCGTTCTGCACTGGTCCTTTGCGTTCGAACTAGCCGCCCTCGTTTGGGCTATCCATCTTTGGCGCAAACCACTTCACACCAGATGCACATCATCTGCGTCAGATGATGTTTCTACGTCATAA	MIIGHLPAGYAISRLLIRCAEPLGISTTAFLWAGVIGALAPDLDMFYFHLIDQRQHHHHTYFTHYPIVWLVLLAISVVWLYGAKAKHYAAYATIFSLNGFAHMLFDTIVGDIWWLAPWGIEPFAFFSVPALYKPWWLNFVLHWSFAFELAALVWAIHLWRKPLHTRCTSSASDDVSTS				NA	NA	NA	NA	NA
BMS010_02146	3693	metH_2	COG0646	Methionine synthase	ATGTCCGACCGCAGCGCACGTCTCGCAGCCCTCCAGCAAGCTCTCAAGGAGCGCATCCTGATTCTGGACGGCGGCATGGGAACCATGATCCAGAGCTACAAGCTGGAAGAGTCCGACTACCGTGGCGCCCGCTTCGCCGACTGGCCGAGCGACGTCAAGGGCAACAACGACTTGCTGCTGCTGAGCCGCCCGGACGTGATCCAGGCCATCGAGAAGGCCTACTTGGACGCCGGTGCCGATATCCTCGAAACCAACACCTTCAACGCCACCCGCGTGTCCCAGGCGGACTACGGCATGGAAGAGCTGGTCTATGAGTTGAACGTCGAAGGCGCCCGCCTCGCCCGCCAGGTGGCCGATGCCAAGACCGCCGAGAACCCGGCCAAGCCGCGCTTCGTCGCCGGCGTGCTCGGCCCGACCAGCCGCACCTGCTCCATCTCCCCGGACGTGAACAATCCCGGCTACCGCAACGTCACCTTCGACGAGCTGGTGGAGAACTACACCGAGGCCACCCGTGGCCTGATCGAGGGCGGCGCGGACCTGATCCTGATCGAGACCATCTTCGACACGCTCAACGCCAAGGCGGCGATCTTCGCGGTGCAGGAAGTCTTCGAGCAGCTCGGCGTCGAGCTGCCGATCATGATCTCCGGCACCATCACCGACGCCTCCGGCCGCACCCTGTCCGGCCAGACCACCGAAGCCTTCTGGAACTCGGTGCGCCACGCCCAGCCGATTTCCGTCGGACTGAACTGCGCCCTCGGTGCCAAGGATCTGCGCCCGTACCTCGAAGAGTTGGCGACCAAGGCCGACACCCACGTCTCCGCCCACCCCAACGCCGGCCTGCCCAACGCCTTCGGCGAATACGACGAAACCCCGGCGGAAATGGCCGCGGTGGTCGAGGAATTCGCCGCCTCTGGCTTCCTCAATATCGTCGGCGGCTGCTGCGGCACCACGCCCGCGCACATCCAGGCGATCGCCGAGGCGGTGGCCAAGTACCCGCCACGCGCCATCCCGGAGATTCCCAAGGCGTGCCGCCTGTCCGGCCTGGAGCCCTTCACCATCGACCGCAACTCGCTGTTCGTGAACGTCGGCGAGCGCACCAACATCACCGGCAGCGCCAAGTTCGCCCGCCTGATCCGCGAGGAAAACTACAGCGAAGCCCTCGAAGTCGCCCTGCAGCAGGTGGAAGCCGGAGCCCAGGTGATCGACATCAACATGGACGAGGGCATGCTGGATTCGAAGAAGGCCATGGTGACCTTCCTCAACCTGATCGCCGGCGAGCCGGACATTTCCCGCGTGCCGATCATGATCGACTCCTCCAAGTGGGAAGTGATCGAGGCCGGCCTCAAGTGCATCCAGGGCAAGGGCATCGTCAACTCGATCTCCATGAAGGAAGGCGTCGAAGCCTTCAAGCATCACGCCAAGCTGTGCAAGCGCTACGGCGCCGCCGTGGTGGTGATGGCCTTCGACGAAGCCGGCCAGGCCGACACCCAGGCGCGCAAGGAAGAAATCTGCCAGCGCTCCTACGACATCCTGGTCAACGAAGTCGGCTTCCCGCCGGAAGACATCATCTTCGACCCGAACATCTTCGCCGTGGCCACCGGCATCGAGGAGCACAACAACTACGCGGTCGACTTCATCAACGCCTGCGCCTACATCCGCGACAACCTGCCCTATGCGCTGAGTTCCGGCGGGGTCTCCAACGTGTCCTTCTCGTTCCGCGGCAACAACCCGGTGCGCGAAGCCATCCACTCGGTGTTCCTCTACTACGCGATCCAGAACGGCCTGACCATGGGCATCGTCAACGCCGGCCAACTGGAAATCTACGACGAGATTCCCAAGGAGCTGCGCGACAAGGTCGAGGACGTGGTGCTCAACCGCCACCCCGGCGCCACCGAAGCGCTATTGGCCATCGCCGACCAGTACAAGGGCGACGGCAGCGCCAAGGAAGTGGAAAACGAGGAGTGGCGCAGCCTGCCGGTGGACAAGCGCCTGGAGCACGCGCTGGTCAAGGGCATCACCACCTACATCGTCGAAGACACCGAGGAGTGCCGCCAGCAGTGCGCGCGGCCGATCGAGGTCATCGAAGGGCCGCTGATGGCCGGCATGAACGTGGTCGGCGACCTGTTCGGCTCGGGCAAGATGTTCCTGCCCCAGGTGGTGAAATCCGCCCGCGTGATGAAGCAGGCGGTGGCCCACCTGATCCCCTTCATCGAAGCGGAGAAAGGCGACAAGCCGGAAGCCAAGGGCAAGATCCTCATGGCCACCGTGAAGGGCGACGTGCACGACATCGGCAAGAACATCGTCGGCGTCGTACTGGGGTGCAATGGCTACGACATCGTCGATCTGGGCGTGATGGTGCCGGCGGAAAAGATTCTGCAGACCGCGATTGCCGAGAAGTGCGACATCATCGGCCTGTCTGGCCTGATCACCCCGTCGCTGGACGAAATGGTCCACGTCGCCAAGGAAATGCAGCGCCAGGGCTTCACCCTGCCCCTGATGATCGGCGGCGCCACCACCTCCAAAGCCCATACCGCGGTGAAAATCGACCCGCAGTACAAGAACGACGCGGTGGTCTACGTCACCGACGCCTCCCGTGCCGTGGGCGTGGCAACGCAGTTGCTGTCCAAGGAATTGAAAGCCGGCTTCGTCGAACGCACCCGCGCCGAGTACGTCGAAGTCCGCGAGCGTACCGCCAACCGCAGCGCCCGCACCGAGCGCCTGCCCTACGCCCAGGCCGTGGCCAACAAACCACAGTTCGACTGGGCCGGCTACCAGCCGCCGAAGCCCAGCTTCACCGGCATCCAAGTGCTGGAAGACATCGATCTGAAGGTGCTGGCCGAGTACATCGACTGGACGCCCTTCTTCATCTCCTGGGACCTGGCGGGCAAGTACCCGCGCATCCTCACCGACGAAGTGGTCGGCGAGGCCGCCACCGCGCTGTTCAACGACGCCCAGGCCATGCTGAAGAAGCTGATCGACGAGAAGCTCATTCGCGCCAAGGCGGTGTTCGGCTTCTGGCCAGCCAACCAGGTGGATGACGACGACATCGAAGTCTACGGCGACGACGGCCAGCCACTGGCCCGTCTCCACCACCTGCGCCAGCAAACCATCAAGCCGGACGGCAAGCCCAACTTCTCCCTGGCCGACTTCGTCGCTCCCAAGGCCAGCGGCCTGACCGACTACGTGGGCGGCTTCATCACCACCGCCGGCATCGGCGCCGAGGAAGTCGCCAAAGCCTACGAGGCCAAGGGCGACGACTACAACGCGATCATGGTCAAGGCCCTCGCCGACCGCCTCGCCGAAGCCTGCGCCGAATGGCTGCACGCCGAAGTGCGCAAGCACTGGTGGGGCTACCAGCCGGACGAGCACCTGGATAACGAAGCGCTGATCAAGGAAGAGTACGTCGGCATCCGCCCTGCCCCCGGCTACCCGGCCTGCCCCGATCACACCGAGAAGGGCACCCTGTTCCAACTGCTCGACCCGCAAGGCCAGAGCGGCGTCACCCTGACCGAACACTACGCCATGTTCCCCGCCGCCGCCGTCAGCGGCTGGTACTTCGCCCACCCGCAAGCGCAATACTTCGCCGTGGGCAAGGTGAACAAGGACCAGGTGGAAAGCTACACGAAGCGCAAGGGCCAGGACCTCACCGTGACCGAGCGCTGGCTGGCGCCGAATTTGGGGTATGACGGCTGA	MSDRSARLAALQQALKERILILDGGMGTMIQSYKLEESDYRGARFADWPSDVKGNNDLLLLSRPDVIQAIEKAYLDAGADILETNTFNATRVSQADYGMEELVYELNVEGARLARQVADAKTAENPAKPRFVAGVLGPTSRTCSISPDVNNPGYRNVTFDELVENYTEATRGLIEGGADLILIETIFDTLNAKAAIFAVQEVFEQLGVELPIMISGTITDASGRTLSGQTTEAFWNSVRHAQPISVGLNCALGAKDLRPYLEELATKADTHVSAHPNAGLPNAFGEYDETPAEMAAVVEEFAASGFLNIVGGCCGTTPAHIQAIAEAVAKYPPRAIPEIPKACRLSGLEPFTIDRNSLFVNVGERTNITGSAKFARLIREENYSEALEVALQQVEAGAQVIDINMDEGMLDSKKAMVTFLNLIAGEPDISRVPIMIDSSKWEVIEAGLKCIQGKGIVNSISMKEGVEAFKHHAKLCKRYGAAVVVMAFDEAGQADTQARKEEICQRSYDILVNEVGFPPEDIIFDPNIFAVATGIEEHNNYAVDFINACAYIRDNLPYALSSGGVSNVSFSFRGNNPVREAIHSVFLYYAIQNGLTMGIVNAGQLEIYDEIPKELRDKVEDVVLNRHPGATEALLAIADQYKGDGSAKEVENEEWRSLPVDKRLEHALVKGITTYIVEDTEECRQQCARPIEVIEGPLMAGMNVVGDLFGSGKMFLPQVVKSARVMKQAVAHLIPFIEAEKGDKPEAKGKILMATVKGDVHDIGKNIVGVVLGCNGYDIVDLGVMVPAEKILQTAIAEKCDIIGLSGLITPSLDEMVHVAKEMQRQGFTLPLMIGGATTSKAHTAVKIDPQYKNDAVVYVTDASRAVGVATQLLSKELKAGFVERTRAEYVEVRERTANRSARTERLPYAQAVANKPQFDWAGYQPPKPSFTGIQVLEDIDLKVLAEYIDWTPFFISWDLAGKYPRILTDEVVGEAATALFNDAQAMLKKLIDEKLIRAKAVFGFWPANQVDDDDIEVYGDDGQPLARLHHLRQQTIKPDGKPNFSLADFVAPKASGLTDYVGGFITTAGIGAEEVAKAYEAKGDDYNAIMVKALADRLAEACAEWLHAEVRKHWWGYQPDEHLDNEALIKEEYVGIRPAPGYPACPDHTEKGTLFQLLDPQGQSGVTLTEHYAMFPAAAVSGWYFAHPQAQYFAVGKVNKDQVESYTKRKGQDLTVTERWLAPNLGYDG	PGPT0008135_1019	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008135-metH-K00548	NA	NA
BMS010_02147	2280			hypothetical protein	ATGCCGTACCGCGCGCTCGCCAGCGCTTTCTTTCTGTTCATCTACGGCGCTGCCCAGGCCGAGCCGATTTCCTACACCCGCGACGTCCAGCCGATCTTCACTGCCAAGTGCGTGGCCTGCCATGCCTGCTACGACTCACCGTGCCAGCTCAACCTCGGTAGCGCCGAAGGGGTGAGCCGTGGTGCGAATAAGCAGCCGGTCTACGACGGAACCCGGACCAAGGCGCAGGAAACGACCCGGCTGTTCCTTGATGCCCATGGAGCGGACGCCTGGCGGAACCGGGGTTTTCATTCGGTATTGCAGCCGAAGGACGGCCAGGCCGTCTTGATGGCGCGAATGTTGGAGTTGGGGCACGAGACGCCGTTCGAGGCCAATGCCAAGCTGCCGGATGACCTGGCGATTGGCATCTCCCGGGAAAACCAGTGCCCGTTGCCGGGTGAGTTCGAGCAGTTCGCCAATAAGAATCCACGGGTTGGTATGCCGTTCGCGGTAACCGGCCTGAGCGAGAAGGAATACCGTACCCTGCAGGATTGGCTGGCGCAGGGCGCTCCGGTCGATGAGCAGGCGTGGCAGCCCGGTGCGGCGGAGGCCCGGCAGGTCGCTCTCTGGGAGTCGTTGCTGAATGCGCCGGGCGCGCGCGAGGAGCTGGTTTCCCGCTGGCTCTATGAGCACCTATTCCTGGCCCATCTGTATTTCGAGGGGGGCGAGGCGGGGCACTTCTTCCAAGTGGTACGTTCGCGTACGCCGAGCGGCCAGCCGATCGATCCGATTGCCACGCGGCGACCGAACGACGATCCCGGCATCGATTTCCACTACCGCCTGTGGCCGATCCAGGGGGTGATCGTGCATAAGACGCACATCACCTATCCCCTCAGCGAGAAGAAGCTGGCGCGGGTGCGCGAGCTGTTCTTCCAGGGTGACTGGCAGGTGGAGGCGTTGCCGGGCTACGGGCCGCAGCGGCGCGCCAATCCATTCGAGACCTTCGCGGCGATTCCGGCCCAGGCGCGTTACCAGTTCATGCTGGATAACGCCGAGTATTTCGTGCGCACCTTCATCCGAGGGCCGGTGTGTCGCGGCCAGATCGCGACGGATGTGATCCGCGATAACTTCTGGACCTTCTTCCAGGCGCCCGAACACGACCTCTATATCACCAACGCCGCCTATCGCGAAAAGACCACGCCGTTGCTGGCACTGCCGGGGCAGATCGACGATCTGGGCAGCATGCTCGGGCTGTGGCGGGCGTATCGCGACAAACGCAACCAGTATGAAGACCTGCGCCAGGATGCCTATGCGAAAGCCCCCGCGCCGAGCTGGTCGCATATCTGGGCTGGCAACGACAACGCGCTGCTGTCGATCTTCCGCCAGTACGACAGCGCTTCCGTGCGCAAGGGGCTGCTCGGCGAGATACCGCAGACGCTCTGGTGGATGGACTATCCGCTGCTGGAACGCACCTATTATCAACTGGTGGTCAACTTCGATGTTTACGGCAACGTCTCCCACCAGGCACAGACCCGGCTGTATTTCGACCTGATCCGCAACGGTGCCGAGCAGAACTTCCTGCGTCTGCTGCCGCCGGATGCGCGCACCGCGATGCTCGACGACTGGTACCAGCGCAGCGGCAAGCTGAAGCAATGGCTGGATTACCAACCCATCGACAAGCGCACGCCGACCGGCCTGCAACTCGCCGGCAACGACCCGAAGCGCGCGCTCGCCGAGGCCCTGCTGCAGCGCTATGCCGATCTCAATGCACGCCCCGATCCGATCAACCGCTGCCGCACGGCGCATTGCTACCGCGCCGGGGTCGATTCGGCCCGCCAGGATATCGATCAGACCCTCAGCCGCCTGGCCAGCCGACCCGCCGCTGGATTGCCGGTGATCGGCATGCTGCCGGAGGCGACGCTGTTGCGCGTCGAGCTACCGGACGGCTCGCGCGAGATCTACAGCGTGCTGCGCAATCGCGCCCACAGCAACGTGGCGTTCATGCTCGGAGAATCGCTGCGCTACCAGCCGACCTTGGACACCCTGACGATCTATCCCGGGGTGCTGAGCAGTTATCCCAACTTCGTGTTTAACCTCAAGGCGAGTGAGGTCGGAGGCTTCGTCGCGGCGCTGGAGCAGGCCAAGGATGCCGCGGCCTTCGACAAGGTGGTCGAGCACTGGGGCGTTCGCCGGACACATCCGGAGTTCTGGCGTTACTTCCATGACCTGTCGCGCTACATCCAGGAAACCGAGCCGGTGGAGTACGGCGAGCTGGACATGAACCGCTACATGAATCTGTAG	MPYRALASAFFLFIYGAAQAEPISYTRDVQPIFTAKCVACHACYDSPCQLNLGSAEGVSRGANKQPVYDGTRTKAQETTRLFLDAHGADAWRNRGFHSVLQPKDGQAVLMARMLELGHETPFEANAKLPDDLAIGISRENQCPLPGEFEQFANKNPRVGMPFAVTGLSEKEYRTLQDWLAQGAPVDEQAWQPGAAEARQVALWESLLNAPGAREELVSRWLYEHLFLAHLYFEGGEAGHFFQVVRSRTPSGQPIDPIATRRPNDDPGIDFHYRLWPIQGVIVHKTHITYPLSEKKLARVRELFFQGDWQVEALPGYGPQRRANPFETFAAIPAQARYQFMLDNAEYFVRTFIRGPVCRGQIATDVIRDNFWTFFQAPEHDLYITNAAYREKTTPLLALPGQIDDLGSMLGLWRAYRDKRNQYEDLRQDAYAKAPAPSWSHIWAGNDNALLSIFRQYDSASVRKGLLGEIPQTLWWMDYPLLERTYYQLVVNFDVYGNVSHQAQTRLYFDLIRNGAEQNFLRLLPPDARTAMLDDWYQRSGKLKQWLDYQPIDKRTPTGLQLAGNDPKRALAEALLQRYADLNARPDPINRCRTAHCYRAGVDSARQDIDQTLSRLASRPAAGLPVIGMLPEATLLRVELPDGSREIYSVLRNRAHSNVAFMLGESLRYQPTLDTLTIYPGVLSSYPNFVFNLKASEVGGFVAALEQAKDAAAFDKVVEHWGVRRTHPEFWRYFHDLSRYIQETEPVEYGELDMNRYMNL				NA	NA	NA	NA	NA
BMS010_02148	1029			hypothetical protein	ATGTCGCTGCAAGCGCTCAGGGCACTGGCAGCATGGTTGGTGGTTTTTCATCATTTCATGCAGATTTTTTTCGATTTGCGGTCGGATGGACCGGTTGGCGATTTCTTCTCGGACAAAGGCGCGGTGGGCGTCGACCTGTTCTTCGTCATCAGCGGTACGGTCATCTATCTCTCGACCCAGGGCAAGGACATCGGCGCCGGCCGCTTCCTGCTCAATCGCCTGTTACGCATCGTTCCGGCCTATTGGCTGTATTCGCTGCTGGCGGCCGGGTTGATCCTGTATTTCAACCCGGTCATGCCGACGCAGAAATTCGAGCTTGGCCATTTCCTTCTCTCGCTGCTGTTCATCCCGGCGGAAAACCCGGCGGGTTATGGCGAGTTTCCGACGCTCTATGTGGGCTGGACGCTCAACTACGAAATGTTCTTCTACCTGTTGTTCGCCCTCTCGTTGCTGGTGAGCGAGCGCTTCCGGCCCTGGCTGACGGCGGCGTCGCTGGGCGTTGTGAGCCTGGTGCTGGCGCGTCAGGAGTGGGTGAGCGATTTCTACCGCAACAGCATCGTCTTCGAGTTTCTCCTCGGCCTGATGATCGGCGTGTGCTACCGGCGCGGCTGGATCGTCCAGGGGTTCTGGATACCCATTGCGCTGATCGTCGCGTCATTGCTGGCGATCCAGCATCTGCAGCCGTACCCGCGCCTGTTGCACTGGGGCCTGCCCAGTGCGGTGATCGTTGCGGCCTGCCTGTCGCTGGAGCCGTATTTCCGCAGGAGCGGGTTGCTGAAGATGCTCGGCGACTGCTCCTACTCGGTGTACCTGTTGCACGTCATCGTGCTGTCCCTGGGCTGGTATCTGAGCCAGTGTTTCGCCCTGAACCCTTACGCCGTGCTGGCCGCCTGTGTGCCGCTGATCCTCATCGCCGGCTGGTGCAGCTACGAGCTGATCGAGAAACGCCTGATGCTGGGAATGAAGCTCTGGCTGGCGTCGAGTGGCGCGGTTTCCGAGCGACTGTCATTTTCCCGACAAAAATACTAG	MSLQALRALAAWLVVFHHFMQIFFDLRSDGPVGDFFSDKGAVGVDLFFVISGTVIYLSTQGKDIGAGRFLLNRLLRIVPAYWLYSLLAAGLILYFNPVMPTQKFELGHFLLSLLFIPAENPAGYGEFPTLYVGWTLNYEMFFYLLFALSLLVSERFRPWLTAASLGVVSLVLARQEWVSDFYRNSIVFEFLLGLMIGVCYRRGWIVQGFWIPIALIVASLLAIQHLQPYPRLLHWGLPSAVIVAACLSLEPYFRRSGLLKMLGDCSYSVYLLHVIVLSLGWYLSQCFALNPYAVLAACVPLILIAGWCSYELIEKRLMLGMKLWLASSGAVSERLSFSRQKY	PGPT0026580_496	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-SUCCINOGLYCAN_METABOLIC_PATHWAY,PGPT0026580-exoZ-K16568	NA	NA
BMS010_02149	585	nfuA_2	COG0316	Fe/S biogenesis protein NfuA	ATGAGCGCCATCACCATTACCGACGCGGCCCACGATTACCTGGCTGATCTGCTGGCCAAGCAGAACACACCTGGCATCGGCATCCGCATCTTCATCACCCAGCCGGGCACCCAGTACGCGGAAACCTGCATCGCCTACTGCAAGCCGGGCGAACAGAAACCGGAAGACACCGCTCTGGCCCTGAAAAGCTTCACGGCCTGGATCGATGCGATGAGCGAGCCCTTCCTGGACGATGCCGTGGTGGATTACGCCACCGACCGCATGGGCGGCCAGCTCACCATCAAGGCGCCGAACGCCAAGGTGCCGATGGTCAACGAGGACAGCCCGCTCAACGAGCGGATCAACTACTACCTGCAGACCGAGATCAACCCCGGCCTGGCCAGCCACGGCGGTCAGGTGTCGCTGGTCGATATCGTCGAGGAAGGCATCGCCGTCCTGCAGTTCGGCGGCGGTTGCCAGGGCTGCGGCATGGTCGACGTGACACTGAAGGATGGTGTCGAGAAAACCCTGATGGAGCGTATTCCCGAACTGAAAGGGGTACGTGACGTCACCGACCACAGCAACCGGGAAAATGCCTATTACTGA	MSAITITDAAHDYLADLLAKQNTPGIGIRIFITQPGTQYAETCIAYCKPGEQKPEDTALALKSFTAWIDAMSEPFLDDAVVDYATDRMGGQLTIKAPNAKVPMVNEDSPLNERINYYLQTEINPGLASHGGQVSLVDIVEEGIAVLQFGGGCQGCGMVDVTLKDGVEKTLMERIPELKGVRDVTDHSNRENAYY				NA	NA	NA	NA	NA
BMS010_02150	1173	rfnT_2		Riboflavin transporter RfnT	ATGCTGCTGAGCAATCCCTCGATCCGCCTGCTGTTCACCGGTCAGGCGCTGTACTGGAGTTGCGCCCTGATCGGCATCACCCTCACCTCTCTGGTGGGCATGCAACTGGCGCCATTGAACATCCTGGCCACCCTACCCCTGGCCTTGCTGGTCGTCGGCAACCTGCTGGCAGTGCAACCGCTATCGTTGTTCATGCAGCGCCGCGGACGGCGCGCCGGGCTGATGCTCGGGGCCGGTGGCGGTGTACTGGGTGGCCTGCTCAGTGCGCTGGGCGTATGGCTGGGCGATTTTCTGTTGTTCTGCCTCGGCAGTCTGGCAATCGGCACCTACCAGGCGTCGGCCATGTACTACCGCTTCGCCGCCTTGGAGTCGGTGAGCGAGCAACAGAAAGGCCGGGCGACCGCCTATGTGATCGGCGGCGGGCTGTGTGCCGCCCTGTTCGCCCCGTCGCTGGCGCTGTGGTCGCGCAACGCCCTGGACACTCCCTTCGTTGGCGCCTACCTGGCGATTGCCGTTCTGGCACTGATCGGCCTGCTATTGATGGCGCGGCTACGCGAAGGCGCCGCGCCGCGTCCGGGCAGCGGAGGTCTGGCGATGATCCGGCTGTTGCTGGCGCGCCCGGCAATCCGTACCGCCATGACCATCACCGCCATCGGCCACGGGCTGATGATCCTGGTGATGAACGCCACGCCCCTGGCCATGAGCTTCTGCGGCTTCGGTGTGGAAGTCGGTGCCGAAGTGATCCGCTGGCATCTGGTCGGTATGTTCCTACCCGCCTTCGCTGCCGGCCCACTGGTGGATCGGCTGGGCAGCCGGCGGGTGGCCCTGATCGGCATCGCCCTCTTGATCGCCAGTGCCATCATTGCGCTGAGCGGCATCGCCCAGGCGCACTTCCTGGTCAGCTCGTTCCTCCTGGGTGCCGGCTGGAACCTGATGCTGGTCGCCGGTACCACCCTGCTCGCAGAGGGGCACGAGGCGGAGGAAAAAGGCCATGCGCAAGGCCTGATGGAATTGGGCAACGGCAGCGTGGCGGCCGTCATGTCCCTCGCGTCCGGGGCAATGATCACCAGCATCGGCTGGGGGCCGGTGAATGCCGGCATGCTGCCCTTGCTGGCATTGGCCCTGGCCGTGGTACTGCTCGGCGCACGTCGCCTGGCCCCGCAAGCCTCTTGA	MLLSNPSIRLLFTGQALYWSCALIGITLTSLVGMQLAPLNILATLPLALLVVGNLLAVQPLSLFMQRRGRRAGLMLGAGGGVLGGLLSALGVWLGDFLLFCLGSLAIGTYQASAMYYRFAALESVSEQQKGRATAYVIGGGLCAALFAPSLALWSRNALDTPFVGAYLAIAVLALIGLLLMARLREGAAPRPGSGGLAMIRLLLARPAIRTAMTITAIGHGLMILVMNATPLAMSFCGFGVEVGAEVIRWHLVGMFLPAFAAGPLVDRLGSRRVALIGIALLIASAIIALSGIAQAHFLVSSFLLGAGWNLMLVAGTTLLAEGHEAEEKGHAQGLMELGNGSVAAVMSLASGAMITSIGWGPVNAGMLPLLALALAVVLLGARRLAPQAS				NA	NA	NA	NA	NA
BMS010_02151	231			hypothetical protein	ATGCTTGAACTGCGCCCCAACTGCGAATGCTGCGACCGCGACCTGCCACCGGACAGTGCCGATGCGCTGATCTGCTCCTTCGAATGCACCTTCTGCCGCGATTGCGCGGAAGCAAAGCTGCAGTTGCGCTGCCCGAACTGCGGCGGCGAGCTGGTCAGCCGACCGCGCCGCCCCGCGGGCAAGTTGGAACACTTCCCCGCCACCGCCTCGCGCACTTTCAAGCCCTGCTGA	MLELRPNCECCDRDLPPDSADALICSFECTFCRDCAEAKLQLRCPNCGGELVSRPRRPAGKLEHFPATASRTFKPC	PGPT0019420_221	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_ALGINATE_DEGRADATION,PGPT0019420-putative_alginate_lyase-K09984	NA	NA
BMS010_02152	1026	rhaS_9		HTH-type transcriptional activator RhaS	GTGGAAAGCCAACGCTGGATCGCTTGCCTGATCTACCCCGACGTGATGAGCCTGGACGTGACCGGGCCCATGCAGGTCTTTGCCTCCGCCAATGTCGAACGCCAGCGCCAAGGGCTCCCTCCTGCCTATCGGTTGAACGTGCTCGGCGATGCCGTCGGCCCGGTGGCAACTTCCGCCGGCCTGAGTATTTGCGCCGAACTCAGCTGGCGTGGCCTGGACACTTCGGCCCTGGATACGCTGCTGGTGCCTGGCGGCCTGGGTGTCGAGCGACAATGCGAGGACCAGGCGCTGCTCGACTGGCTACGTCAGGCCGAACCGCAAGTTCGCCGGCTCGGCTCGGTCTGTTCGGGTGCGCTGTTGCTGGCGGCGGCCGGCCTGCTCGACCAGCGCCCCGCCACGACTCACTGGGCGGACCTCGATACCCTGCGGCGCGAGCACCCCGCCGTGCAGGTCCAGGACGACCGCCTGCACACCTACGATCCCCTTGAGCGTGATGGCGATGCCCATGTGTTCACTTCCGCAGGGGTGACCGCCGGGATCGATCTGGCCTTGGCATTGGTGGAGGCCGACCTCGGCCGCTCGCTGGCCCTCGCCGTGGCCCGGCGCCTGGTGATGTTTCTCCGCCGCCCGGGTGGCCAGGCGCAGTTCAGCGCCCTACTCTCCCCGGACCCCAACCGCACCTCGCGGCTAGCGGCCCTGCTCGACTGGATACCGGCCCACCTCGGCGGCGACCTGTCTCTCGAGGCGCTGGCCGAGCAGGCACGCATGGCGCCCCGCACCCTGTCGCGGGTCTTCGTCCAGGAGCTGGGCATGGGCCCCGGTCGCTACGTCGAGCGCGTCCGCCTGGAAGCCGCCCGCGCCCTGTTGCAGGACGCCCAGGCATCGATCGCCACCGTGGCGCGGCTGACCGGCTTTGGCCATCCGGAGAACCTGCGCCGCACCTTCCATAAACACCTGTCCGTCAGCCCGCAGGAATACGCCGAGCGCTTCGGGCTGCGCCCGCTCAAGGAGAGCCGCCATGCTTGA	MESQRWIACLIYPDVMSLDVTGPMQVFASANVERQRQGLPPAYRLNVLGDAVGPVATSAGLSICAELSWRGLDTSALDTLLVPGGLGVERQCEDQALLDWLRQAEPQVRRLGSVCSGALLLAAAGLLDQRPATTHWADLDTLRREHPAVQVQDDRLHTYDPLERDGDAHVFTSAGVTAGIDLALALVEADLGRSLALAVARRLVMFLRRPGGQAQFSALLSPDPNRTSRLAALLDWIPAHLGGDLSLEALAEQARMAPRTLSRVFVQELGMGPGRYVERVRLEAARALLQDAQASIATVARLTGFGHPENLRRTFHKHLSVSPQEYAERFGLRPLKESRHA	PGPT0014658_6	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014658-ypdC-NA	NA	NA
BMS010_02154	2001			hypothetical protein	TTGAACCGCGATAACGAGAACGCCGTGCTGTTCGGCAACGGCGATGAGTTGCCCAGCAACCACTCGCAGAACCCGCATATCAATGAACTGATCGAAGGCCTCGGCCGCCGTCAGGTATTGGCCGGTGGTGCCGCGCTCGGCGCTCTCGCCTTCCTCGGCGTAAGCCTGCCCGGTAGCAGCGAGGCGGCCCAAGCTACCACCCAGGGCCTGGGTATCTTCAAGCCCCGTTCGCGCCTGCCCTTCACCCCGGTGCCGGTGACCCGCGCCGACACCATCACCGTTCCGCAAGGCTACAAGGCCACGGCTTTCATTCCCTGGGGTACCCCGATCACCGGCCGCTACCCGGCGTTCCTAGAAGACGCCAGCAACAGCGCCCAGGACCAGGCAGAGCAGACCGGCATGCACCATGATGGCATGCACTTCTTCCCCATCGACGCCCAATGGGGCTATGGCCGCCGCAGCGACCACGGCCTGCTGGTGCTTAACCACGAGTACATCGACGTCAATCTGCTGCACCCTAACGGGCCGACCGTGGTCAACGGCAAACGCACCAGCGCCGAGGAAGTCCGCAAGGAAATCAACGCCCATGGTGTCTCGGTGGTGGAAGTCCGCCGTAACCAGCAGGGCGAATGGGAAGTCCTGCCGAGCGCACGCAACCGCCGCATCACTGCGGCCACGCCGATGCAGATCCGCGGCCCGGCACGTGGCCACGCACTGATGCGTACCCGCTACAGCCCGGACGGCACTGCCACCCGCGGCACCCAAAACAACTGCGCCAACGGCTACACCCCCTGGGGCACCTACCTGACCTGCGAGGAAAACTGGGCCGGCTACTTCGCCACCCAGGACACCACGCTGCCGCGCGAACTGAGCCGCTATGGCCTGCGCAATACCAGCCGCTTCGGCTGGGATACCCTCGCCGGCGACGAGTTCGAACGCTTCGACGCCACCCGCAAGGCGGCGGATGCCACCGGTGATTACCGCAACGAGCCGAACCACTTCGGCTGGATCGTCGAGATCGATCCGTTCAATCCGGACTCGACGCCGGTCAAGCACACCGCCCTGGGCCGCTTCGCCCACGAAGGACTGGTTTTCGCCCCGACTCGTCCTGGTAAACGCGTGGTCTGCTACTCAGGCGACGACTCGCAGAACGAGTACATCTACAAGTACGTCAGCCGTGGCAAGTTCCGCCCCGGCAGCCGTGCCAACAGCCGCCTGCTCGACGAGGGCACCCTGTACGTCGCTCGCTTCAATGCCGATGGCAGTGGCGACTGGCTGGCCCTGGACATCGACGACCCGGCATTCCAGGCCGCCTGCGCCGCCGCTGGCGTGAGCTTCGCCGACCAGGGCGAAGTGTTGATCAATACCCGTCTGGCCGCCGATGTCGTCGGTGCCACCAAGATGGACCGCCCGGAATGGGGCGCCGCCCATCCGGACACCGGGGAAATCTACTTCACCCTGACCAACAACAGCTCGCGCACCACGGCGGATGCGGCCAACCCTCGCATCGCCAACGCCTACGGCCACATCATCCGCTGGCGCGAACTGAGCCGCGACCATGCCGGCACCCGCTTCGCCTGGAACCTCTTCCTGCTCGCCGGTCCGTCCTCCGACAGCCGTGGCCCGAACGGCCAGCCGTTAAACGCCGACAACATCCTGGCCAGTCCGGACGGTTTGTGGTTCGACGAAGACGGTCGCCTGTGGATCCAGACCGACATGAGCGGCAGCCAGCTCAGCTCGGGTCCATTCGGCAACAACCAGATGCTGGTGGCCGACCCGCGCACCGGCGAACTGAAGCGCTTCCTGGTCGGCCCGTCGGGCTGTGAGGTGACCGGCATCACCGCTACGCCGGACTTCAAGACGCTGTTCGTGAATATCCAGCATCCCGGCGAAGGCTCCACACCCAGCAACCTGCTGAGCACCTGGCCGGATGGCCCCGGCAAGCGTCCGCGCGCGGCGACGGTCATCGTCACCCGCGAGAACGGCAAACGCCTGCTGTAA	MNRDNENAVLFGNGDELPSNHSQNPHINELIEGLGRRQVLAGGAALGALAFLGVSLPGSSEAAQATTQGLGIFKPRSRLPFTPVPVTRADTITVPQGYKATAFIPWGTPITGRYPAFLEDASNSAQDQAEQTGMHHDGMHFFPIDAQWGYGRRSDHGLLVLNHEYIDVNLLHPNGPTVVNGKRTSAEEVRKEINAHGVSVVEVRRNQQGEWEVLPSARNRRITAATPMQIRGPARGHALMRTRYSPDGTATRGTQNNCANGYTPWGTYLTCEENWAGYFATQDTTLPRELSRYGLRNTSRFGWDTLAGDEFERFDATRKAADATGDYRNEPNHFGWIVEIDPFNPDSTPVKHTALGRFAHEGLVFAPTRPGKRVVCYSGDDSQNEYIYKYVSRGKFRPGSRANSRLLDEGTLYVARFNADGSGDWLALDIDDPAFQAACAAAGVSFADQGEVLINTRLAADVVGATKMDRPEWGAAHPDTGEIYFTLTNNSSRTTADAANPRIANAYGHIIRWRELSRDHAGTRFAWNLFLLAGPSSDSRGPNGQPLNADNILASPDGLWFDEDGRLWIQTDMSGSQLSSGPFGNNQMLVADPRTGELKRFLVGPSGCEVTGITATPDFKTLFVNIQHPGEGSTPSNLLSTWPDGPGKRPRAATVIVTRENGKRLL				NA	NA	NA	NA	NA
BMS010_02155	1599		COG2224	Isocitrate lyase	ATGTCCGCATATCAAAACGAGATCAAGGCCGTTGCCGCCCTGAAAGAGAAAAATGGCAGCAGCTGGGGCGCTATCAACCCGGAATACGCCGCTCGCATGCGCATCCAGAACCGCTTCAAGACCGGCCTGGACATCGCCAAATACACCGCGGCCATCATGCGCAAAGACATGGCCGAGTACGATGCCGACTCTTCCGTCTACACCCAGTCCCTGGGCTGCTGGCACGGCTTCATCGGTCAGCAGAAGCTGATCTCCATCAAGAAGCACCTGAAGACCACCAACAAGCGCTACCTCTACCTGTCCGGCTGGATGGTCGCCGCGCTGCGCTCCGACTTCGGCCCGCTGCCGGACCAGTCCATGCACGAGAAGACCGCCGTTTCCGGTCTGATCGAAGAGCTGTACACCTTCCTGCGCCAGGCCGACGCCCGTGAACTGGACCTGCTGTTCACCGCCCTGGACAAGGCCCGCGCCGAAGGCGACAAGGCCAAGGAAGCCGACCTGCTGAGCCAGATCGACAACTTCGAAACCCACGTCGTACCGATCATCGCCGACATCGACGCCGGTTTCGGTAACGCCGAGGCCACCTACCTGCTGGCCAAGAAGATGATCGAAGCCGGTGCCTGCTGCATCCAGATCGAAAACCAGGTTTCCGACGAGAAGCAGTGCGGTCACCAGGACGGCAAAGTAACCGTTCCGCACGAAGACTTCCTCGCCAAGATCAACGCCGTTCGCTACGCCTTCCTCGAGCTGGGCGTTGACGATGGCGTCATCGTTGCCCGTACCGACTCCCTGGGTGCCGGCCTGACCAAGCAGATCGCCGTGACCAAAGAGCCGGGCGACCTGGGCGACCTGTACAACAGCTTCCTCGATGGCGACTACGTAGAGTCCGCCGCCGACATCGCCAACGGCGACGTGGTGGTCAAGGCCAACGGCAAACTGCTCAAGCCGAAGCGCCTGGCTTCCGGCCTGTTCCAGTTCCGCAAGGGCACCGGCGAAGACCGCTGCGTCTTGGACTGCATCACCAGCCTGCAGAACGGTGCCGACCTGCTGTGGATCGAAACCGAGAAACCGCACGTGGGCCAGATCAAGGGCATGGTCGACCGCATCCGTGAGGTCATCCCGAATGCCAAGCTGGTGTACAACAACAGCCCGTCCTTCAACTGGACCCTGAACTTCCGTCAGCAAGTGTTCGATGCCTGGGCTGCCGCCGGCAAGGACGTTTCCGCCTACGACCGCGCTCAGCTGATGAGCGTCGAGTACGACGAAACCGACCTGGCCAAGGAAGCCGACGAGCGCATCCGCACCTTCCAGCGTGACGGTTCCGCTCAGGCCGGTATCTTCCACCACCTGATCACCCTGCCGACCTATCACACCGCCGCGCTGTCCACCGACAACCTGGCCAAGGGCTACTTCGCCGACCAGGGCATGCTGGCCTACGTGAAGGGCGTGCAGCGTCAGGAACTGCGCCAGGGTATCGCCTGCGTCAAGCACCAGAACATGGCTGGCTCCGACATCGGCGACAACCACAAGGAGTACTTCGCTGGCGAAGCGGCTCTGAAGGCGAGCGGTAAAGACAACACCATGAACCAGTTCCACTAA	MSAYQNEIKAVAALKEKNGSSWGAINPEYAARMRIQNRFKTGLDIAKYTAAIMRKDMAEYDADSSVYTQSLGCWHGFIGQQKLISIKKHLKTTNKRYLYLSGWMVAALRSDFGPLPDQSMHEKTAVSGLIEELYTFLRQADARELDLLFTALDKARAEGDKAKEADLLSQIDNFETHVVPIIADIDAGFGNAEATYLLAKKMIEAGACCIQIENQVSDEKQCGHQDGKVTVPHEDFLAKINAVRYAFLELGVDDGVIVARTDSLGAGLTKQIAVTKEPGDLGDLYNSFLDGDYVESAADIANGDVVVKANGKLLKPKRLASGLFQFRKGTGEDRCVLDCITSLQNGADLLWIETEKPHVGQIKGMVDRIREVIPNAKLVYNNSPSFNWTLNFRQQVFDAWAAAGKDVSAYDRAQLMSVEYDETDLAKEADERIRTFQRDGSAQAGIFHHLITLPTYHTAALSTDNLAKGYFADQGMLAYVKGVQRQELRQGIACVKHQNMAGSDIGDNHKEYFAGEAALKASGKDNTMNQFH	PGPT0001550_648	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLYOXYLIC_ACID_BIOSYNTHESIS,PGPT0001550-aceA-K01637	NA	NA
BMS010_02157	810			hypothetical protein	ATGACGCCACGCGCGCTGTTCGCTGCCCTGCTGCTCGCTGTCTGCCTGCCGCTACAGGCTGCGACGGAGGTCATCCCGCTCAACTACCGGACGGCCGAAGACGTCATGCCGGTGGTCCAGTCGGTGCTGGGTGGCGAAGGCAAGGTGACGGCCTACGGCAATCAACTGATCGTCAATGCATCGCCCGCTAAAATCCAAGAGCTTCGTGACCTCCTTTCCCAACTGGATACCCAACCGCGGCGTCTGCTGATCACCGTGGATACCAGCGACTCCAACTACCAAGACGACCGTGGCTATGCCGTCGACGGCACTATCAGCAGCGGCGGCGTGCGCATCGACAGTGGGCGAGGAGAAGTCAACGGCCGCGATCAGGTACGCATTATCCGCCGCAGCACCGACAGCCGCAGCGGAGGCACCCAGCAGGTCCAGGCGACCGAGGGCTACCCGGCGCTGATCCAGATCGGCCAAAGCGTTCCCCTCACCTCCACCAGCGTCGGACCGTACGGCCAGGTCTACCAGGAAACGCACTACCGCAACGTCACCCAGGGCTTCTATGTCACCGCCAGCCTCACCGGCGATATCGTCCATGTGAGCATCAGCAGCAACCGCGACCGTTTGAGCCAGAACATGCCGGGTGCCATCGACATCCAGAGCACCGATACCCGCGTCAGCGGCCGGCTCGGTGAATGGATCACCCTGGGCGGCATCAATGAAAGCAGCCAGGCCGATCAGAGCGGCTTCGTCCGCCGTCACAGCACCCAGGGACGCAACGATATGACCCTCCGCCTGAAAGTCGAAACCCTCGACTGA	MTPRALFAALLLAVCLPLQAATEVIPLNYRTAEDVMPVVQSVLGGEGKVTAYGNQLIVNASPAKIQELRDLLSQLDTQPRRLLITVDTSDSNYQDDRGYAVDGTISSGGVRIDSGRGEVNGRDQVRIIRRSTDSRSGGTQQVQATEGYPALIQIGQSVPLTSTSVGPYGQVYQETHYRNVTQGFYVTASLTGDIVHVSISSNRDRLSQNMPGAIDIQSTDTRVSGRLGEWITLGGINESSQADQSGFVRRHSTQGRNDMTLRLKVETLD				NA	NA	NA	NA	NA
BMS010_02158	636			hypothetical protein	ATGAACGAAGACGCCCCGCAAGGAACCGACCTGCCCGAGGAAGCCGAGCTTCCGGCCATCGAATTCCAGTCGCCGGGGCGCTTCGCCGTGCACAATCCGCAACCCGACCTGCCGGAAGCCGAGGCATGGGAATCCGCGCCCTTTCTGCTGGGCCGCCACGGCTCGCTGGAACGCTTCGCCCAGCCCCATGAAGCCAGGGCCCATGCTCTGGCTCTGCTGAGCCAGGCACAACGCAGCATCAACCTGTACAGCGACGACCTGGAGCCCTGGCTCTATCACCACAGCAGTATCCAGGATATCTGTACCCGCTTTCTCCTGGCCCATCCGCGCAATCGCCTGCGCATACTGGTCCGCGATACCACTCGTGCGGTGAGAGATGGCCATCGCCTGATCACCCTGGCGCGACGGCTGTCGAGCAACTGCCAGATTCGCAAACTTCACCCGGACTACCCCACAGAGGAGTCCGCCTACCTGCTAATCGACGATCGCGGCCTCTTGCTGCGACCGCAGCTCGACCAGTACGCCGGCTATGCGTTGTACAACGACCCCGGACGGGTCCGTCTGCGCCAGGCGCAGTTCAACCAGGCCTGGGATACCAGCATTACCGACCCCGATCTACGGAGCTTCCTGCTATGA	MNEDAPQGTDLPEEAELPAIEFQSPGRFAVHNPQPDLPEAEAWESAPFLLGRHGSLERFAQPHEARAHALALLSQAQRSINLYSDDLEPWLYHHSSIQDICTRFLLAHPRNRLRILVRDTTRAVRDGHRLITLARRLSSNCQIRKLHPDYPTEESAYLLIDDRGLLLRPQLDQYAGYALYNDPGRVRLRQAQFNQAWDTSITDPDLRSFLL				NA	NA	NA	NA	NA
BMS010_02159	426			Acetyltransferase	ATGAGTGATATCCATGTCCGCGTCGCCAGCTGGCAGAAGGATATTGCCGATCTCCGCCGTATCCGCGAGACCGTCTTCATCGCCGAGCAAGCGGTCCCGCCGGAGCTGGAATGGGACTCCGACGACGCCAACGCCGTGCACTTCCTGGCCTTCGAAGGCGACTACGCCATCGGTACTGCCCGCCTGCTGCCGGACGGCCACATCGGCCGGGTCGCCGTGCTCAAGGACTGGCGTGGTTTGAAAGTCGGCGATGCACTGCTGCGCGCGGTGATCGCCGAGGCCGAACGCCAAGGGCTGAAGGCGCAACGGCTGAGTGCCCAGGTCCACGCCACGCCGTTCTACGAAAAACACGGCTTCCGGATCGTCAGTGACGAATTCCTCGAAGCCGGCATTCCCCATGTGGACATGCTGCGCGAAAGCGCCTGA	MSDIHVRVASWQKDIADLRRIRETVFIAEQAVPPELEWDSDDANAVHFLAFEGDYAIGTARLLPDGHIGRVAVLKDWRGLKVGDALLRAVIAEAERQGLKAQRLSAQVHATPFYEKHGFRIVSDEFLEAGIPHVDMLRESA				NA	NA	NA	NA	NA
BMS010_02160	1167	roxA	COG2850	50S ribosomal protein L16 3-hydroxylase	ATGAATCCTGATACTCCCCTGCAACTTCTCGGTGGCCTGACAGCCCGCGAATTCCTGCGCGACTACTGGCAGCAGAAACCCCTCCTGATCCGCCAGGCCCTGCCCGGCTTCGAAAGCCCGATCACGCCGGACGAACTGGCCGGCCTCTCCCTCGAAGAAGAAGTCGAATCGCGATTGGTCATCGAACATGGCGAGCGTCCGTGGGAATTGCGCCGCGGTCCGTTCGCCGAAGACACCTTCAGCCAACTGCCGGAGCGCGAATGGACGCTGCTGGTACAGGCAGTCGATCAGTTCGTTCCCGAAGTCGCCGAATTGCTGGAGCATTTCCGTTTCCTGCCGAGCTGGCGCATCGACGACGTCATGATCAGCTTCGCCGCACCTGGCGGCGGTGTCGGCCCGCACTATGACAATTACGACGTGTTCCTGCTCCAGGCCCACGGTCGTCGCCACTGGCGGATCGGCCAGATGTGCGATGCAGACAGCCCGCTCCTGGAGCACTCGGACCTGCGTATTCTTTCCGACTTTCAGGGCACCGACGAATGGGTACTGGAGCCCGGCGACATGCTTTACCTCCCGCCGCGCCTGGCACATCTGGGTACTGCGGTGGATGACTGCATGACCTACTCGGTCGGCTTCCGCGCGCCCAGCGCCGCCGAAGTACTGACCCACTTCACCGACTTCCTCGCCCAATTCCTGCCGGATGAAGATCGCTACAGCGATGCCGGAATCGAGCCGAGCGGAGACCCGCACCAGATTCAGCTCGACGCGCTGGACCGCCTGAAAGCTTTGCTGCAGGAGCATATGAGCGACGAGCGGCTACTGCTCACCTGGTTCGGCCAGTTCATGACCGAGCCGCGCTATCCCGAACTGGTCGCGGGCGAGGAGCTGCAACTGGACGATTTCATCCAGGCCCTGGAAGACGGCGCCGTCCTGGTACGCAACCCCAGCGCACGCCTGGCATGGAGCGAAGTGGACATCGGCCTGCTGCTGTTCGCCAGCGGTCAGAGCCGGTTGCTGCCGAGCCATTTGCGTGAATTGTTGAAGTCGATCTGCTCGGCCGATGCGTTGCATCTGGATAATCTCGGCCAATGGCTGGCCGATGAGGATGGGCGTAATCTTCTCTGGGAACTGGTCAAGCAAGGTAGTCTGGAGTTTGCCGATGAGTGA	MNPDTPLQLLGGLTAREFLRDYWQQKPLLIRQALPGFESPITPDELAGLSLEEEVESRLVIEHGERPWELRRGPFAEDTFSQLPEREWTLLVQAVDQFVPEVAELLEHFRFLPSWRIDDVMISFAAPGGGVGPHYDNYDVFLLQAHGRRHWRIGQMCDADSPLLEHSDLRILSDFQGTDEWVLEPGDMLYLPPRLAHLGTAVDDCMTYSVGFRAPSAAEVLTHFTDFLAQFLPDEDRYSDAGIEPSGDPHQIQLDALDRLKALLQEHMSDERLLLTWFGQFMTEPRYPELVAGEELQLDDFIQALEDGAVLVRNPSARLAWSEVDIGLLLFASGQSRLLPSHLRELLKSICSADALHLDNLGQWLADEDGRNLLWELVKQGSLEFADE				NA	NA	NA	NA	NA
BMS010_02161	1371	purB_1	COG0015	Adenylosuccinate lyase	ATGCAGCTCTCTTCGCTCACCGCGGTTTCCCCCGTCGATGGCCGCTATGCCGGCAAAACCAGCGCTCTGCGCCCGATCTTCAGCGAATTTGGCCTGGTCCGCTTCCGTATCATGGTGGAAGTCCGTTGGCTCCAGCGCCTCGCCACCCATGCCGGTATTCCTGAAGTCGCGCCCTTCTCCGCCGAAGCCAATGCCTTGCTGAACAGCCTGGCCGACGATTTCCAACTGGAGCATGCCGAGCGCGTCAAGGAAATCGAGCGCACCACCAACCACGACGTCAAGGCCGTCGAGTACCTGCTCAAGGAGCAGGTCGCTGCACTGCCGGAACTGGCCAAGGTCAGCGAATTCATCCATTTCGCCTGCACCTCCGAAGACATCAATAACCTGTCCCACGCCCTGATGCTCCGCGAAGGCCGCGATAATGTCCTGCTGCCGCTGATGCGCCAGATCGCCGGTGCCATTCGCGAACTGGCCGTGCGCTTCGCCGACGTGCCGATGCTTTCGCGCACCCACGGCCAACCGGCCTCACCGACCACCCTAGGCAAGGAACTGGCCAACGTGGTCTACCGCCTGGAGCGCCAGATCGCCCAAGTCGCCGCCGTGCCGCTGCTGGGCAAGATCAACGGTGCCGTGGGCAATTACAATGCCCACCTTTCGGCCTACCCGGACATCGACTGGGAAGCCAATGCCCGCGAATTCATCGAGGGCGACCTGGGCCTGACTTGGAACCCCTACACCACCCAGATCGAGCCGCACGACTACATTGCCGAGCTGTTCGATGCCATCGCCCGCTTCAACACCATCCTGATCGACTTCGATCGCGATGTGTGGGGCTATATATCCCTCGGCTACTTCAAGCAGAAGACCGTCGCGGGCGAGATCGGCTCCTCGACCATGCCGCACAAGGTCAACCCGATCGACTTCGAGAACTCCGAAGGCAACCTGGGCATCGCCAATGCGCTGTTCCAACACCTGGCCAGCAAGCTGCCGATCTCCCGCTGGCAGCGCGACCTGACCGACTCCACCGTTCTGCGCAACCTCGGCGTCGGCTTCGCCCATAGTGTCATTGCTTATGAGGCAACTCTCAAAGGAATCAGCAAGTTGGAGCTGAATGCTCAACGAATCGCTGAAGACCTGGATGCCTGCTGGGAAGTCCTCGCCGAGCCGATCCAGACCGTGATGCGCCGCTACGCCATCGAGAACCCCTACGAGAAGCTAAAGGAACTGACACGCGGCAAGGGCATCAGCCCCGAAGCCCTGAAAGCCTTCATCGATGACCTGGATATTCCGGCTGCCGCCAAGGCCGAGCTGCACAAACTGACACCGGCCAGCTACATCGGTAACGCCTCCGCCCAGGCCAAGCGCATCTGA	MQLSSLTAVSPVDGRYAGKTSALRPIFSEFGLVRFRIMVEVRWLQRLATHAGIPEVAPFSAEANALLNSLADDFQLEHAERVKEIERTTNHDVKAVEYLLKEQVAALPELAKVSEFIHFACTSEDINNLSHALMLREGRDNVLLPLMRQIAGAIRELAVRFADVPMLSRTHGQPASPTTLGKELANVVYRLERQIAQVAAVPLLGKINGAVGNYNAHLSAYPDIDWEANAREFIEGDLGLTWNPYTTQIEPHDYIAELFDAIARFNTILIDFDRDVWGYISLGYFKQKTVAGEIGSSTMPHKVNPIDFENSEGNLGIANALFQHLASKLPISRWQRDLTDSTVLRNLGVGFAHSVIAYEATLKGISKLELNAQRIAEDLDACWEVLAEPIQTVMRRYAIENPYEKLKELTRGKGISPEALKAFIDDLDIPAAAKAELHKLTPASYIGNASAQAKRI	PGPT0021555_2904	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021555-purB-K01756	NA	NA
BMS010_02162	867	cntI_4		Pseudopaline exporter CntI	ATGAGCGAGCCGACCAGCCGCTCCATTCGCCCCGTGCAAGGGGCGTTGCTGCTGGCTCTTTCCGCCCTGCTCTTTTCGCTGATGGGTGTCGCCATCCGCGAAGCATCGAGCACCATCGGCAATGAGTCCGTGGTGTTCTTCCGCAACCTCGTTGGCGTACTGTTTTTCGCTCCCTTGATTCTGCTGCGCGGCATTCGACCGTTGAGAACGAGTCGCCTGAAATCGCACCTGTGGCGAACCACCTTCGGCCTCGCGGCGATGTACTGCTTCTTCTACGCCATCGCCCACCTGCCCCTGGCAGATGCGATGCTTTTCACCTATTCGGCCCCCGTGTTCACGCCGCTGATCGCCTGGCTCTGGCTCAAGGAGCCGATCAACCGGCGCATGTTGGTCGCCACGAGCATCGGCCTCGCCGGGGTACTGCTGGTCTCCAGGCCCTCCACCGCGCTGTTCGGCGGCCAGGCGCTAGTTGGCATGGCTGCCAGCATACTGGCCGCTCTGGCGTTCGTTTCCATCCGAGAGATGAGCGACACCGAGCCGGCCTACCGCATGGTCTTCTACTTCTCGCTGTTCAGCGCGCTGATCTCGGCCATCCCCTTGAGTTGGGCCTGGCAACCTCTCGACAGCCATGAGCTAGGGCTGCTGCTCGTCGCCGGCCTGCTCGCCACCAGCAGCCAGATCGTCATGACCAAGGCATACAGCCTCGCACCACCCGGCATGATCGGCCCGGTCGCCTACCTGGCCATCGTCTTCGCCGGCATCATCGCCTGGCTGCGCTGGGGAGAAACCCCGGAACCGCTCTCGCTGATCGGCGCGGCGCTGATTTTCTCCGCCAGCCTGATCGCGATCCCCCGACGGATACGCTGA	MSEPTSRSIRPVQGALLLALSALLFSLMGVAIREASSTIGNESVVFFRNLVGVLFFAPLILLRGIRPLRTSRLKSHLWRTTFGLAAMYCFFYAIAHLPLADAMLFTYSAPVFTPLIAWLWLKEPINRRMLVATSIGLAGVLLVSRPSTALFGGQALVGMAASILAALAFVSIREMSDTEPAYRMVFYFSLFSALISAIPLSWAWQPLDSHELGLLLVAGLLATSSQIVMTKAYSLAPPGMIGPVAYLAIVFAGIIAWLRWGETPEPLSLIGAALIFSASLIAIPRRIR				NA	NA	NA	NA	NA
BMS010_02163	621	hflD	COG2915	High frequency lysogenization protein HflD	ATGACTCCGACCCAGGAACAACTGGTAGCGCTCGGCGCGGTGTTCAACGCCGCCGCACTGGTGGACAAGGTCGCCAAGACCGGCCAGATCAGCGAAGCGGCCCTGGGCTGCATGCTCGGCAGCCTGTTGGTGCGCGATCCCAAGGACACCCTGGAGGTCTACGGCGGAGACGACCTCAACCTGCGTGAGGGCTACCGCGCCCTGGCCAGCGCCTTGGAGCGCGATCCGACCAGTTTGCAGCGCGAGCCCCTGCGCTATGCGCTGGGCCTGCTCGGCCTGGAGCGCCAACTAGCCAAGCGCGACGACATGCTGCAAGTGATCGGCAGCCGTCTCGATCAGATCCAGCAGCAGGTGCAGCATTTCGGGCTGACGCACGAGAATGTGATCGCGGCCTGCGGCGGACTCTACCAGGACACGCTGAGCACCTTTCGCCAGCGCATCCAGGTCCATGGCGACATGCGCTACCTGCAGCAGGCCGGCAATGCGGCGAAAATCCGCGCCCTGCTCCTGGCCGGCATTCGCTCCGCCCGCCTCTGGCGCCAACTGGGCGGCAACCGCTGGCAACTGGTTTTCGGCCGGCGCAAGCTGCTGACGAACCTCTACCCGCTACTTCGCGGCTGA	MTPTQEQLVALGAVFNAAALVDKVAKTGQISEAALGCMLGSLLVRDPKDTLEVYGGDDLNLREGYRALASALERDPTSLQREPLRYALGLLGLERQLAKRDDMLQVIGSRLDQIQQQVQHFGLTHENVIAACGGLYQDTLSTFRQRIQVHGDMRYLQQAGNAAKIRALLLAGIRSARLWRQLGGNRWQLVFGRRKLLTNLYPLLRG				NA	NA	NA	NA	NA
BMS010_02164	1119	mnmA_2	COG0482	tRNA-specific 2-thiouridylase MnmA	ATGCACGATCCAGCCCAAACCCGCGTCATCGTCGGCATGTCCGGCGGTGTGGACTCGTCCGTTTCCGCCCTCCTGCTGCTCGAGCAGGGATATCAGGTGGAAGGCCTGTTCATGAAGAACTGGGAAGAGGATGACGGCACCGAATACTGCACCGCCAAGGAAGACCTGGCCGACGCACAGGCCGTCTGCGACAAGATCGGCATCAAGCTGCACACCGCCAACTTCGCGGCCGAGTACTGGGATAACGTCTTCGAACACTTCCTCGCAGAATACAAGGCCGGGCGCACACCGAATCCGGACATCCTTTGCAATCGCGAGATCAAATTCAAGGCCTTCCTCGACTATGCATTGATGCTGGGCGCCGACCTGATCGCGACCGGTCATTATGTGCGCCGGCGCGACATCGACGGTCGCACCGAACTCCTCAAGGGGCTGGACCCGAACAAGGACCAGAGCTACTTCCTCCACGCCGTCGGCGGCGAACAGATCGCCCGCACGCTGTTCCCGGTCGGCGAACTGGAAAAACCCGAGGTCCGCGCCATCGCCGAACGCTATGGCCTGGCCACGGCAAAGAAAAAGGATTCCACCGGCATCTGCTTCATCGGTGAGCGCCGCTTCAGCGATTTCCTCAAGCAATACCTGCCAGCCCAACCCGGCGACATCGAAACCACCGACGGCGAAGTCATCGGCCGCCATCACGGCCTGATGTACCACACCATCGGTCAGCGCCAGGGCCTCGGCATTGGCGGCATGAAGGACGCCAGCGATGAGCCCTGGTATGTGCTGGCCAAGGACGTGGCCCGCAATGTCCTGGTCGTCGGCCAGGGCAACGAACATCCCTGGCTGTTCTCCCGCGCACTGTCTGCATCCGAGATTTTCTGGGTCAACCCGGTGGACCTGAACAGCCCGCGCCGCCTGACGGCGAAAGTGCGCTACCGCCAGAGCGACCAGGCCTGCACGTTGGAGCGGACCGCAGACGGCTATCGGGCGATCTTCGACGAGCCGCAGCGGGCCGTCACTCCGGGGCAGTCCGTGGTGTTCTACGACGGCGAGGTATGCCTGGGTGGCGGCGTGATCGAAACGGCCACGCCGTGGGATGACGAGGTGCGCCGTCCATGA	MHDPAQTRVIVGMSGGVDSSVSALLLLEQGYQVEGLFMKNWEEDDGTEYCTAKEDLADAQAVCDKIGIKLHTANFAAEYWDNVFEHFLAEYKAGRTPNPDILCNREIKFKAFLDYALMLGADLIATGHYVRRRDIDGRTELLKGLDPNKDQSYFLHAVGGEQIARTLFPVGELEKPEVRAIAERYGLATAKKKDSTGICFIGERRFSDFLKQYLPAQPGDIETTDGEVIGRHHGLMYHTIGQRQGLGIGGMKDASDEPWYVLAKDVARNVLVVGQGNEHPWLFSRALSASEIFWVNPVDLNSPRRLTAKVRYRQSDQACTLERTADGYRAIFDEPQRAVTPGQSVVFYDGEVCLGGGVIETATPWDDEVRRP				NA	NA	NA	NA	NA
BMS010_02165	447	nudJ	COG0494	Phosphatase NudJ	ATGCGCTTTACCCCCCATGTCACAGTTGCCACCGTGGTGGAAGACCAGGGCCGCTTTCTTCTGGTCGAGGAAGTCGCCGATGGGCGCGCCGTATTTAACCAGCCTGCTGGCCATTTGGAAGCCGACGAAAGTCTCACACAGGCAGCCTTGCGCGAAACCCTCGAAGAAACCGGCTGGGATGTGGAACTGACAGCGGTCACCGGAATCTACCTGTACACCGCCCCCAGCAATGGCGTGACCTACCAGCGTGTCTGCTTCGCGGCCCGCCCGCTGCGCCAGCGCCAGGATCATCCACTGGATGACGGTATCATCGGCCCGCGCTGGCTCACCCGCGAGGAACTCGCTGCACAACCCGAACGCTGGCGGAGCGAACTGGTGCTGCGCTGTATCGATGACTACCTCGCCAAGGAACGTTACCCGCTGGAACTGATCCGGGATTCCGCCTGA	MRFTPHVTVATVVEDQGRFLLVEEVADGRAVFNQPAGHLEADESLTQAALRETLEETGWDVELTAVTGIYLYTAPSNGVTYQRVCFAARPLRQRQDHPLDDGIIGPRWLTREELAAQPERWRSELVLRCIDDYLAKERYPLELIRDSA	PGPT0028060_41	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BACIMETHRIN|CF3-HMP_DETOXIFICATION,PGPT0028060-nudJ|ymfB-K12152	NA	NA
BMS010_02166	1257	icd_1		Isocitrate dehydrogenase [NADP]	ATGGGATACCAAAAGATCCAGGTGCCTGCGAACGGTGACAAAATCACCGTTAATGCCGACATGTCCCTGAACGTGCCGAACAACCCGATCATCCCGTTCATCGAGGGTGACGGCATCGGTGTCGATATCAGCCCGGTGATGATCAAGGTGGTGGATGCCGCCGTCGAGAAAGCCTACGGTGGCGAGCGCAAGATTGCCTGGATGGAAGTCTACGCCGGCGAGAAAGCGACCCAGGTATACGACCAGGATACCTGGCTGCCAAAAGAAACCCTCGAGGCGGTGCGTGACTACGTCGTCTCCATCAAGGGCCCGCTGACCACCCCGGTCGGTGGTGGCATCCGCTCGCTGAACGTGGCCCTGCGCCAGGAGCTGGATCTCTACGTCTGCCTGCGCCCGGTGCGCTGGTTCGAAGGTGTGCCCAGCCCGGTGAAGAAACCCGGCAACGTGGACATGGTGATCTTCCGCGAGAACTCCGAAGACATTTACGCGGGCGTCGAATGGAAAGCCGGCACCCCGGAAGCCGAGAAGATCATCAAGTTCCTCACCGAGGAAATGGGCGTCAAGAAGATCCGCTTCACCGACATGTGCGGTATCGGCATCAAGCCGGTTTCCGAAGCCGGTACCAAGCGTCTGGTTCGCAAGGCCCTGCAGTACGCCGTGGACAATGATCGCAGCTCCGTGACCATCGTTCACAAGGGCAACATCATGAAGTTCACCGAAGGTGCCTTCAAAGAGTGGGGCTACGAAATCGCGCGCGACGAGTTCGGCGCCGAGCTGCTGGACGGTGGTCCGTGGATGCAGTTCAAAAACCCGAAGACTGGCAAGAATATCGTGGTCAAGGACGTGATCGCCGACGCCATGCTGCAGCAGATTCTGCTGCGTCCGGCTGAATACGACGTGATCGCCACCCTCAACCTGAACGGCGACTATCTGTCCGACGCCTTGGCGGCCGAGGTGGGTGGTATCGGTATCGCGCCGGGGGCCAACCTGTCCGACTCCGTGGCTATGTTCGAAGCCACGCATGGCACTGCGCCGAAGTATGCCGGCCAGGACAAGGTCAACCCGGGTTCGGTCATCCTCTCTGCTGAGATGATGCTGCGCCACATGGGTTGGGGCGAAGCCGCCGACCTGATCATCAAGGGCATGAACGGTGCCATCGGTGCGAAGACCGTGACCTACGACTTCGAGCGTCTGATGGACGGCGCCAAGCTGATGTCTTGCTCCGAGTTCGGCGACGCAATGATCTCGCACATGTGA	MGYQKIQVPANGDKITVNADMSLNVPNNPIIPFIEGDGIGVDISPVMIKVVDAAVEKAYGGERKIAWMEVYAGEKATQVYDQDTWLPKETLEAVRDYVVSIKGPLTTPVGGGIRSLNVALRQELDLYVCLRPVRWFEGVPSPVKKPGNVDMVIFRENSEDIYAGVEWKAGTPEAEKIIKFLTEEMGVKKIRFTDMCGIGIKPVSEAGTKRLVRKALQYAVDNDRSSVTIVHKGNIMKFTEGAFKEWGYEIARDEFGAELLDGGPWMQFKNPKTGKNIVVKDVIADAMLQQILLRPAEYDVIATLNLNGDYLSDALAAEVGGIGIAPGANLSDSVAMFEATHGTAPKYAGQDKVNPGSVILSAEMMLRHMGWGEAADLIIKGMNGAIGAKTVTYDFERLMDGAKLMSCSEFGDAMISHM	PGPT0001170_3376	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001170-icd-K00031	NA	NA
BMS010_02167	303			hypothetical protein	ATGATGGAGTCCTTGCAGAGGGATATCAGCATGCTCAGCGGTAAGGTCAAGTGGTTCAACAACGCCAAGGGCTATGGATTCATCCTGGCTGACGGCCGAGATGAGGACCTATTCGCCCACTACTCGGCAATCCAAATGGACGGCTACAAAACCCTTAAAGCCGGTCAACTCGTGCGTTTCGATATCCTGCAAGGTCCGAAGGGCCTGCACGCTATCAACATCTGCGCCGTCAATGCGACCGCCGATGAAACCGCACCCGCAGTGGCCAGTAGCCAGACCCAGAGCAACCCGGTCGAAGCCTAG	MMESLQRDISMLSGKVKWFNNAKGYGFILADGRDEDLFAHYSAIQMDGYKTLKAGQLVRFDILQGPKGLHAINICAVNATADETAPAVASSQTQSNPVEA	PGPT0014675_1736	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
BMS010_02168	363	clpS_1	COG2127	ATP-dependent Clp protease adapter protein ClpS	ATGCGTGCAAGCAGTCAGATTCGACTAACATTCAATCAGGACCGTCCCGATACGCATGAGGACGACTCCTCCGGCCTGGCCGTACAGGAAGCCAAGCCGACGTTGCAGGCGCCGCCGATGTACAAGGTGGTAATGTTCAACGATGACTACACACCCATGGATTTCGTGGTTGAGGTGCTCGAGGTGTTTTTCAACCTGAATCGGGAGCTGGCCACCAAGATCATGTTGACCGTCCATACCGAGGGGCGGGCGGTGTGCGGAGTGTTTACCCGCGATATCGCCGAGACCAAGGCCATGCAGGTCAACCAGTACGCCAGGGAAAGCCAGCATCCGCTACTCTGTGAGATCGAGAAGGACGGTTAA	MRASSQIRLTFNQDRPDTHEDDSSGLAVQEAKPTLQAPPMYKVVMFNDDYTPMDFVVEVLEVFFNLNRELATKIMLTVHTEGRAVCGVFTRDIAETKAMQVNQYARESQHPLLCEIEKDG	PGPT0014575_3	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014575-clpA-K03694	NA	NA
BMS010_02169	2268	clpA_1	COG0542	ATP-dependent Clp protease ATP-binding subunit ClpA	ATGTTGAACCGTGAGCTCGAAGTCACCCTCAATCTTGCCTTCAAGGAGGCTCGCTCCAAGCGCCATGAATTCATGACGGTTGAGCATCTCCTGCTGGCCCTGCTGGATAACGAAGCCGCTGCAACTGTTCTGCGCGCCTGCGGGTCCAACCTGGAGAAGCTGCGGCGCGATCTGCAGGAGTTCATCGATTCCACCACGCCGTTGATTCCGCAACACGATGAGGACCGCGAGACTCAGCCGACCCTGGGATTCCAGAGGGTTCTGCAGCGGGCGGTCTTCCATGTGCAGAGTTCCGGCAAGCGCGAGGTAACCGGCGCCAACGTGCTGGTGGCGATCTTTAGCGAGCAGGAAAGCCAGGCGGTCTTTCTGCTCAAGCAGCAGAGCGTGGCCCGCATCGACGTCGTCAACTACATCGCTCACGGTATTTCCAAGGTGCCAGGCCATAACGAGCAACCCGACAATGAGGACATGCAGGACGAAGAGGGCGGCGAAGCCTCCTCTGCCGGCCATCCTCTGGATGCTTACGCCAGCAACCTGAACGAGCTGGCCAGGCAGGGGCGTATCGATCCGCTGGTCGGGCGCGAATCCGAAGTGGAGCGCGTTGCCCAGATCCTGGCACGTCGTCGCAAGAACAATCCATTACTGGTCGGTGAGGCCGGTGTCGGCAAGACTGCCATTGCCGAAGGTCTCGCCAAGCGGATCGTCGATGGCCAGGTGCCTGATCTGCTTTCCGACAGCGTGGTGTATTCACTCGACCTGGGTGCGTTGCTGGCGGGGACCAAATACCGCGGCGACTTCGAGAAGCGCTTCAAGGCATTGCTCAACGAGCTGCGCAAGCGGCCCCATGCGATTCTCTTCATCGACGAAATTCACACCATCATCGGTGCCGGTGCGGCCTCCGGTGGAGTGATGGATGCGTCGAACCTGCTCAAGCCGCTGCTTTCCTCCGGCGAGATCCGCTGCATTGGCTCGACCACTTTCCAGGAATTCCGCGGCATCTTCGAGAAGGACCGCGCCTTGGCTCGACGCTTCCAGAAAGTCGACGTGACCGAGCCGTCGGTCGATGACACCTATGGAATCCTCAAGGGGCTGAAAGCCCGCTTTGAGCAGCACCATCACATCGAGTACAGCGATGAGGCGCTGCGTGCGGCCGCAGAGCTGGCTGCCCGTTACATCAACGATCGCCACATGCCGGACAAGGCGATCGATGTGATCGACGAGGCCGGTGCCTATCAGCGCCTACAGCCTGAAGACAAACGCCTGAAGCGCATCGAGGTGGCCCAGGTCGAGGATATCGTGGCGAAGATCGCCCGAATTCCGCCGAAGCACGTGAACAGCTCTGACAAAGAGCTGCTGCGTAATCTCGAGCGCGACCTGAAACTTACGGTATTCGGTCAGGATGCGGCTATCGATTCGCTGGCCACGGCCATCAAACTATCCCGCGCTGGTCTCAAGGCACCGGACAAGCCAGTGGGCTCCTTCCTCTTCGCTGGTCCGACCGGTGTCGGTAAGACGGAGGCGGCACGGCAATTGGCCAAGGCACTGGGCATCGAATTGATCCGCTTCGATATGTCCGAGTACATGGAGCGGCATACGGTGTCCCGTCTGATCGGGGCGCCGCCCGGATACGTCGGGTTCGACCAGGGTGGCCTGCTGACCGAGGCGATCACCAAGATGCCGCACTGCGTGCTGCTGCTGGATGAGATCGAGAAGGCGCACCCGGAAGTCTTCAACCTGCTGTTGCAGGTGATGGACCATGGCACCCTGACCGATAACAACGGGCGCAAGGCGGACTTCCGCAACGTCATCCTGATCATGACCACCAATGCCGGGGCAGAAACGGCTGCGCGGGCGTCCATCGGTTTCACCCAGCAGGATCACTCCTCGGATGCGATGGAAGTAATCAAGAAGAGCTTCACGCCGGAATTCCGCAACCGCCTGGATACCATCATCCAATTCGGCCGGTTGAGCCACGAAGTGATCAAGAGCATTGTCGACAAGTTCCTCACCGAGCTGCAGGCGCAGTTGGAGGACAAGCGCGTGCAGCTCGACGTCACCGATTCGGCGCGCGGCTGGCTGGCGGAGCGGGGTTACGATGTGCAGATGGGCGCTCGTCCGATGGCTCGCCTGATCCAGGACAAGATCAAGCGTCCGCTGGCCGAAGAGATCCTGTTCGGCGAATTGGCCGAGCATGGCGGCATTGTGCACATCGATATCAAGGATGGCGAACTGAGCTTCGACTACGAAACGACCGCCGAACTGGCTTGA	MLNRELEVTLNLAFKEARSKRHEFMTVEHLLLALLDNEAAATVLRACGSNLEKLRRDLQEFIDSTTPLIPQHDEDRETQPTLGFQRVLQRAVFHVQSSGKREVTGANVLVAIFSEQESQAVFLLKQQSVARIDVVNYIAHGISKVPGHNEQPDNEDMQDEEGGEASSAGHPLDAYASNLNELARQGRIDPLVGRESEVERVAQILARRRKNNPLLVGEAGVGKTAIAEGLAKRIVDGQVPDLLSDSVVYSLDLGALLAGTKYRGDFEKRFKALLNELRKRPHAILFIDEIHTIIGAGAASGGVMDASNLLKPLLSSGEIRCIGSTTFQEFRGIFEKDRALARRFQKVDVTEPSVDDTYGILKGLKARFEQHHHIEYSDEALRAAAELAARYINDRHMPDKAIDVIDEAGAYQRLQPEDKRLKRIEVAQVEDIVAKIARIPPKHVNSSDKELLRNLERDLKLTVFGQDAAIDSLATAIKLSRAGLKAPDKPVGSFLFAGPTGVGKTEAARQLAKALGIELIRFDMSEYMERHTVSRLIGAPPGYVGFDQGGLLTEAITKMPHCVLLLDEIEKAHPEVFNLLLQVMDHGTLTDNNGRKADFRNVILIMTTNAGAETAARASIGFTQQDHSSDAMEVIKKSFTPEFRNRLDTIIQFGRLSHEVIKSIVDKFLTELQAQLEDKRVQLDVTDSARGWLAERGYDVQMGARPMARLIQDKIKRPLAEEILFGELAEHGGIVHIDIKDGELSFDYETTAELA	PGPT0014575_1554	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014575-clpA-K03694	NA	NA
BMS010_02170	219	infA_1	COG0361	Translation initiation factor IF-1	ATGTCGAAAGAAGACAGCTTCGAAATGGAAGGCACTGTCGTCGACACCCTGCCCAACACCATGTTCCGTGTGGAGTTGGAAAATGGGCACGTCGTTACCGCGCATATCTCTGGCAAAATGCGCAAGAACTACATTCGCATCCTTACTGGCGACAAGGTCCGCGTCGAACTGACGCCCTACGACCTGAGCAAGGGCCGCATCACCTACCGCGCCCGCTAA	MSKEDSFEMEGTVVDTLPNTMFRVELENGHVVTAHISGKMRKNYIRILTGDKVRVELTPYDLSKGRITYRAR				NA	NA	NA	NA	NA
BMS010_02171	708	bpt_2	COG2935	Aspartate/glutamate leucyltransferase	ATGACCGAGCTGGCTCGTCTCAAGTTTTACGCCACTCAGCCCCATCCATGCAGCTACCTGCCCGAAGAACAGGCCACGACCCTGTTCCTCGACCCAAGCCAGCCGATGGATGTGGACGTCTATGCCGAACTTTCGGAAATGGGTTTCCGGCGCAGCGGCGACCACCTCTACCGCCCCCACTGCCAGCGCTGCACGGCTTGCGTACCCGCGCGCATCCCTGTCGACAAGTTCATCCCTAATCGCCAGCAGCGGCGCATTCTCAAGCGCAACATGGACCTGCAGGTTCGCCCGGTACGCCCCAATTTCAATGAAGAGCTCTACGCCCTCTACGTGCGCTACATCGAACAACGCCATGCCGATGGAGACATGTATCCGCCCAGCCGCGACCAGTTCGCCACTTTCCTCGTCCGCGACCTCCCCTTCGCTCGCTTCTACGAGTTCCGACTAGCCGGACGGCTGGTAGCCGTTGCGGTGACGGACGTTCTGCCTAACGGATTATCGGCCGTCTACACCTTCTACGATCCAGACGAAGAGCGTCGCAGCCTGGGTCGTTACGCCATCCTCTGGCAGATCGGCGAGACCGCACGACTCGGCCTCCATGCGGTCTATCTCGGGTACTGGATCAAGAATTGTCGCAAGATGAATTACAAGACCCAGTACCGTCCGATCGAACTGTTCGTCAACCAACGCTGGGTCACTCTGACCTGA	MTELARLKFYATQPHPCSYLPEEQATTLFLDPSQPMDVDVYAELSEMGFRRSGDHLYRPHCQRCTACVPARIPVDKFIPNRQQRRILKRNMDLQVRPVRPNFNEELYALYVRYIEQRHADGDMYPPSRDQFATFLVRDLPFARFYEFRLAGRLVAVAVTDVLPNGLSAVYTFYDPDEERRSLGRYAILWQIGETARLGLHAVYLGYWIKNCRKMNYKTQYRPIELFVNQRWVTLT				NA	NA	NA	NA	NA
BMS010_02172	789	aat_1	COG2360	Leucyl/phenylalanyl-tRNA--protein transferase	ATGACGATCAGGCGGGCGTTCGCGCCCGCCCTCCCCTCCATGCTGACCTGGCTGAAACGCGACGACCTGATCTTTCCGCCCTTGGAACGGGCCTTGCGCGAACCCAACGGGCTGCTCGCTGCCGGCGGCGACCTTTCTGCTGAACGCTTGATCCAGGCCTACCGTCATGGCTGCTTCCCCTGGTACCAGGACGGCCAGCCCATTCTCTGGTGGTCACCCGACCCGAGAACGGTTCTGTTTCCCGACGAATTCCATCTTTCCCGGAGCCTGGCGAAATGTATGCGCCAGGGCCACTACCGGGTGACTTTCGACCGGGACTTCCCTGCCGTCATCCGTGCTTGCGCAGCACCCCGAGACTACGCCGACGGCACCTGGATTACCGAAGCAATGCAGAATGCCTACCTGGCCCTGCATCAACGCGGCATCGCCCATTCGGTCGAAGTCTGGCAAGACGACCAACTGGTCGGCGGGCTCTACGGGCTGGCCATGGGGCAGCTATTTTTCGGCGAATCCATGTTCAGCCGAGCGGATAACGCCTCGAAGGTCGGTTTCGCCACGCTGGTGGCGCACCTGAAGCACTGGGGGTTCGTCCTGATCGATTGCCAGATGCCAACCCAGCACCTGCAGAGCTTTGGCGCTCGCCCTATCTCTAGGACCGAGTTCGCCCGCTATCTGAGGCACCATCTGGATCGACCCAGCGCAGCGGACTGGACTGTCTCGCTGGCTCCCGGCGCAACGAATACCAGCACAGTCAGTCAAAAAAACACACCACCAACCTCGGAGTGGTAG	MTIRRAFAPALPSMLTWLKRDDLIFPPLERALREPNGLLAAGGDLSAERLIQAYRHGCFPWYQDGQPILWWSPDPRTVLFPDEFHLSRSLAKCMRQGHYRVTFDRDFPAVIRACAAPRDYADGTWITEAMQNAYLALHQRGIAHSVEVWQDDQLVGGLYGLAMGQLFFGESMFSRADNASKVGFATLVAHLKHWGFVLIDCQMPTQHLQSFGARPISRTEFARYLRHHLDRPSAADWTVSLAPGATNTSTVSQKNTPPTSEW				NA	NA	NA	NA	NA
BMS010_02173	948		COG0492	Glucosaminate ammonia-lyase	ATGAGTGAAGTCAAGCATTCGCGACTGATAATCCTGGGCTCCGGCCCCGCTGGATACAGCGCCGCCGTCTACGCAGCCCGAGCAAACCTCAAGCCCGTGGTCATCACTGGTATCCAGCCGGGCGGCCAGCTCACCACCACGACCGAAGTGGACAACTGGCCCGGTGACGTCGAAGGGCTGACAGGCCCCGCCCTGATGGAGCGCATGCAGAAGCACGCCGAGCGCTTCGATACCGAGATCGTCTACGACCATATCCATACTGCCGAGTTGCAACAGCGCCCGTTTATCCTCAAGGGCGACAGCGCCACCTATAGCTGTGACGCACTTATCATTGCGACCGGCGCCTCGGCCCAATATCTCGGCCTGCCCTCGGAAGAGGCGTTCGCCGGCAAAGGCGTTTCCGCCTGCGCCACCTGCGATGGCTTTTTCTATCGCAACCAGGTCGTCTGCGTGATCGGCGGCGGCAACACAGCCGTGGAGGAGGCGCTCTACCTCTCCAACATCGCCAAGGAAGTACACCTGATCCATCGCCGCGACAAGCTGCGCGCCGAAAAGATTCTGCAAGACAAACTGTTCGAGAAGGCCGCCAACGGTAATATCCGCCTGCATTGGAACCACACCCTGGAAGAAGTATTGGGTGACGCCAGCGGTGTGACCGGCGTGCGCCTGAAAGACACCCAGAACGGGGAAAACAAGGAACTCCAACTGGCCGGCGTTTTCATCGCTATCGGCCACAAGCCCAACACCGACCTGTTCAAGGGCCAACTGGAAATGCGCGACGGCTATCTGGTCATCCAGGGCGGAAGCGAGGGTAATGCCACCGCCACCAATATCGAAGGCGTCTTCGCGGCGGGCGATGTAGCCGACCACGTTTATCGCCAAGCCATCACCTCCGCCGGTGCCGGCTGCATGGCCGCACTGGATGTCGAGAAATACCTCGACAAATGA	MSEVKHSRLIILGSGPAGYSAAVYAARANLKPVVITGIQPGGQLTTTTEVDNWPGDVEGLTGPALMERMQKHAERFDTEIVYDHIHTAELQQRPFILKGDSATYSCDALIIATGASAQYLGLPSEEAFAGKGVSACATCDGFFYRNQVVCVIGGGNTAVEEALYLSNIAKEVHLIHRRDKLRAEKILQDKLFEKAANGNIRLHWNHTLEEVLGDASGVTGVRLKDTQNGENKELQLAGVFIAIGHKPNTDLFKGQLEMRDGYLVIQGGSEGNATATNIEGVFAAGDVADHVYRQAITSAGAGCMAALDVEKYLDK	PGPT0013060_6334	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
BMS010_02174	2409	ftsK	COG1674	DNA translocase FtsK	TTGAAGAATACCACTACCACCGCCCAAGCCCCCGTCTGGCGTCAGCAACTGCACTACCGTCTGAAGGAAGGTGCGCTGATTGCCCTGGGGGCCCTTTGCCTGTACCTCTGGATGGCCCTGTTGACCTACGATCCGGCCGATCCCGGCTGGACGCATACCAGCCGCGTCGAGCAGGTACAGAATGCGGCCGGCCGTGCGGGTGCCTGGTTTGCCGACATCCTGTTCATGGCCCTGGGCTATTTCGCTTACCTCTTTCCGCTGTTGCTGGCCATCAAGACCTGGCAGGTATTCCGCAGCCGGCATCAACCCTGGCAGTGGAGCGGCTGGTTGTTCTCCTGGCGGCTGATCGGCCTGGTTTTCCTCGTGCTGTCGGGCGCCGGGCTGGCCTTTATCCATTTCCATTCCGGTTCCAACATGCCGGCGTCGGCCGGTGGTGCGCTTGGGGAAAGCCTGGGGCAGCTCGCCATCAACGCTCTCAATGTCCAGGGCAGCACGTTGCTGTTCATTGCATTGTTCTTGTTTGGGCTGACGGTGTTCAGCGACCTGTCCTGGTTCAAGGTCATGGACGTGACCGGCAAGATCACGCTGGATCTCTTCGAGCTGATCCACAACGCCATCAATCGCTGGTGGAGTGCCCGTGTCGAGCGCAAGCAACTGGTGGCCCAGTTGCGCGAGGTGGATGACCGGGTCAACGCCGTGGCCGCACCGGTGCTCCCGGATCGCCGAGAGCAGGCCAAGGTCAAGGAACGCCTGATTGAGCGTGAAGAAGCATTGACCAAGCACATGACCGAGCGGGAAAGCCGGCCCGCGCCGATCATCGCGCCACCGCCACCCCCCAAGGCGGCGGAGCCCAGCAAGCGCGTACTCAAGGAAAAACAGGCCCCGCTGTTCGTCGATACCGCCGTGGAAGGCACTTTGCCGCCGATCTCCATTCTCGACATGGCGGAGAAGAAGCCGAAGAAATACTCCCCCGAATCGCTGGAGGCGATGTCGCGACTGCTGGAGATCAAGCTCAAGGAGTTCGGCGTCGAGGTGCAGGTGGAGTCCGTCCACCCGGGTCCGGTGATCACCCGCTTCGAAATCCAGCCCGCAGCCGGGGTGAAGGTCAGCCGGATTTCCAACTTGGCCAAGGACCTGGCGCGTTCGCTGGCGGTGATCAGCGTGCGCGTCGTGGAGGTCATACCGGGCAAGACCACCGTGGGTATCGAGATACCCAACGAAGACCGCCAGATCGTTCGTTTCTCCGAAGTGCTTTCGTCGCCCGAGTATGACGATGCTAAGTCGCCGGTGACGCTGGCGCTCGGACACGATATTGGCGGCAAGCCGATCATCACTGACCTGGCGAAGATGCCGCACTTGCTGGTCGCCGGTACCACCGGTTCCGGTAAGTCGGTGGGTGTGAATGCCATGATCCTGTCGATCCTGTTCAAGTCCACGCCGGAGCACGCGCGGCTGATCATGATCGACCCGAAAATGTTGGAGTTGTCCATCTACGAGGGTATTCCGCACCTGCTCTGCCCGGTGGTCACCGATATGAAGGAGGCGGCGAATGCCTTGCGTTGGAGCGTCGCCGAGATGGAGCGCCGCTACAAGCTGATGGCAGCAATGGGAGTGCGGAATCTCGCCGGCTTCAACCGTAAGGTGAAGGATGCCGAGGAAGCCGGTACGCCGCTGACCGATCCGCTCTACCGCCGCGAAAGCATGGATGACGAGGCGCCGTTGCTGAAGACCCTGCCGACGATCGTGGTGATCGTCGACGAGTTCGCCGACATGATGATGATCGTCGGCAAGAAGGTCGAAGAGCTGATCGCGCGTATCGCACAGAAGGCCCGTGCGGCGGGTATTCACCTGATCCTGGCGACCCAGCGTCCCTCTGTGGACGTGATCACCGGCCTGATCAAGGCCAACATCCCGACGCGGATGGCCTTCCAGGTGTCCAGCAAGATCGACTCCCGCACCATTCTCGACCAGGGCGGCGCCGAGCAGTTGCTGGGCCACGGTGACATGCTCTACCTGCCGCCGGGCACCGGTTTGCCGATCCGCGTCCATGGCGCCTTCGTCTCTGACGACGAGGTGCATCGCGTCGTAGAAGCCTGGAAGATGCGGGGGGCGCCGGATTACATCGAAGACATCCTTGCTGGCGTGGAGGAAGGCGGCTCGTCCAGTGGCTTTGATGGCGGGGGCGGGGAAGGCGGAGAGGGGAGCGAAGAGGACCCGCTGTACGATGAAGCGGTGCGTTTCGTTACCGAGAGCCGCCGCGCTTCGATTTCCGCGGTCCAGCGCAAGCTCAAGATTGGCTACAACCGCGCCGCCCGCATGATCGAGGCCATGGAGATGGCCGGTGTGGTGACGGCGATGAATACCAACGGCAGCCGCGAAGTGATCGCGCCGGGGCCGGTACGCGACTAA	MKNTTTTAQAPVWRQQLHYRLKEGALIALGALCLYLWMALLTYDPADPGWTHTSRVEQVQNAAGRAGAWFADILFMALGYFAYLFPLLLAIKTWQVFRSRHQPWQWSGWLFSWRLIGLVFLVLSGAGLAFIHFHSGSNMPASAGGALGESLGQLAINALNVQGSTLLFIALFLFGLTVFSDLSWFKVMDVTGKITLDLFELIHNAINRWWSARVERKQLVAQLREVDDRVNAVAAPVLPDRREQAKVKERLIEREEALTKHMTERESRPAPIIAPPPPPKAAEPSKRVLKEKQAPLFVDTAVEGTLPPISILDMAEKKPKKYSPESLEAMSRLLEIKLKEFGVEVQVESVHPGPVITRFEIQPAAGVKVSRISNLAKDLARSLAVISVRVVEVIPGKTTVGIEIPNEDRQIVRFSEVLSSPEYDDAKSPVTLALGHDIGGKPIITDLAKMPHLLVAGTTGSGKSVGVNAMILSILFKSTPEHARLIMIDPKMLELSIYEGIPHLLCPVVTDMKEAANALRWSVAEMERRYKLMAAMGVRNLAGFNRKVKDAEEAGTPLTDPLYRRESMDDEAPLLKTLPTIVVIVDEFADMMMIVGKKVEELIARIAQKARAAGIHLILATQRPSVDVITGLIKANIPTRMAFQVSSKIDSRTILDQGGAEQLLGHGDMLYLPPGTGLPIRVHGAFVSDDEVHRVVEAWKMRGAPDYIEDILAGVEEGGSSSGFDGGGGEGGEGSEEDPLYDEAVRFVTESRRASISAVQRKLKIGYNRAARMIEAMEMAGVVTAMNTNGSREVIAPGPVRD	PGPT0030468_5252	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION-ESS_SYSTEM,PGPT0030468-essC|eccC|ftsK|spoIIIE-K03466	NA	NA
BMS010_02175	624	lolA_1	COG2834	Outer-membrane lipoprotein carrier protein	ATGCGCCTGATCCGCATGTTGCTGTTGGCAGCCCTGAGTTTTGCCGTCGTTCCCGCCCACGCCGAAGACAAGGCGGTCAAGCGCTTAACTCAGTTGCTGAGCCAGGCCCAGACCCTGACGGGGCGATTCTCCCAACTGACGCTGGATGGCAGCGGTACTCAGTTGCAGGAGACGGCCGGCGAACTGGCACTCAAGCGGCCAGGGCTGTTCCGTTGGCATACGGACGCTCCGATGGAGCAGTTGTTGGTATCCAATGGCGAAAAGGTCTGGCTCTACGATCCGGATCTGGAGCAGGTCACCATCCAGACACTCGACCAGCGCCTGACCCATACACCGGCTCTGCTGCTCTCCGGCGATGTTTCGAAGATCAGTGAAAGCTTCGAGATCACTCACAAGGAAGGGGGGGATGTGGTCGACTTCATCCTCAAGCCGAAGGCCAAGGACAGCTTGTTCGACAGCCTGCGCCTGTCCTTCCGTAATGGCGTGGTCAACGACATGCAGCTGATCGACAGCGTCGGACAGCGCACCAATATCCTCTTCCTCGGGGTGAAAATGAACGAGCCGCTGGACTCCAAACAGTTCAGTTTCGACATCCCGGAAGGCGCCGACGTCATTCAGGAATGA	MRLIRMLLLAALSFAVVPAHAEDKAVKRLTQLLSQAQTLTGRFSQLTLDGSGTQLQETAGELALKRPGLFRWHTDAPMEQLLVSNGEKVWLYDPDLEQVTIQTLDQRLTHTPALLLSGDVSKISESFEITHKEGGDVVDFILKPKAKDSLFDSLRLSFRNGVVNDMQLIDSVGQRTNILFLGVKMNEPLDSKQFSFDIPEGADVIQE	PGPT0024475_810	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024475-lolA-K03634	NA	NA
BMS010_02176	1326	rarA_1	COG2256	Replication-associated recombination protein A	ATGGACCTGTTCCGCTCCGAACCCGTTGCCCAGCCTTTGGCCGCGCGCTTGCGCCCGGGCAATCTGGACGAGTATGTCGGACAGGAACACCTGTTGGCCCGGGGCAAACCGTTGCGCGAGGCCCTGGAGCAGGGGGCGCTGCACTCGATGATCTTCTGGGGGCCGCCCGGCGTCGGCAAGACCACCCTGGCGCGTCTGCTCGCGCAAGTTTCCGATGCGCATTTCGAGACCATTTCCGCCGTTCTTTCCGGTGTGAAGGAAATCCGCCAGGCAGTGGAGGTGGCCAAGCAGCAGGCCGCCCAGTATGGCCGGCGGACCATTCTCTTCGTGGATGAAGTGCACCGTTTCAACAAGTCTCAGCAAGACGCCTTCCTGCCCTACGTCGAAGATGGAACGCTGATTTTCATTGGTGCCACGACGGAAAACCCCTCGTTCGAACTGAACAACGCCTTGCTGTCGCGAGCCCGGGTCTATGTGCTGAAGAGCCTGGATGAAGCCGCCCTGCGCAAGTTGGTTCTGCGCGCGCTGGGTGAGGACAAGGGGCTGGGTAAACGCCGCCTGCAGCTCCCGGAGGACAGTTTCAAGATCCTTATGGCTGCCGCCGATGGCGATGGCCGTCGCTTGTTGAACTTCCTGGAGAACGCCGCCGATCTGGTCGAGGATGGTGGCTCGATCGAGGTGGAGCTGCTACAGAATTTGCTGGGCGACAGCCGGCGTCGTTTCGACAAGGGCGGCGAGGCGTTCTACGACCAGATTTCCGCGCTGCACAAATCGGTCCGGGGTTCCAATCCGGATGCGGCACTCTACTGGTTCGCCCGGATGCTCGACGGAGGCTGCGATCCGCTCTATATCGCCCGCCGCGTGGTACGCATGGCCAGTGAAGACATCGGCAATGCCGATCCGCGGGCGTTGAGCCTTTGCCTGGCAGCTTGGGATGTGCAGGAGCGTCTTGGCAGTCCCGAGGGTGAGCTGGCGGTAGCCCAGGCAATCGTCTACCTGGCCTGCGCGCCGAAGAGCAATGCGGTCTACACGGCCTTCAAGGCGGCTATGCGCGATGCGGCGGAAAATGGCTCGCAGGAGGTGCCCCTGCATCTGCGGAATGCGCCGACCAAGCTGATGAAGCAGCTGGGCTATGGCGACGAATACCGCTATGCCCACGACGAGCCGGATGCCTATGCAGCCGGTGAAGACTACTTCCCGGAGGCACTGGAGCCGCGCCATTACTACCAACCGGTTCCGCGGGGCCTGGAATCGAAAATCCGCGACAAGCTGGATCACCTCGCGGCCCTTGACCGCGCCAGTCCGCGGCAACGGAGAAAGCCATGA	MDLFRSEPVAQPLAARLRPGNLDEYVGQEHLLARGKPLREALEQGALHSMIFWGPPGVGKTTLARLLAQVSDAHFETISAVLSGVKEIRQAVEVAKQQAAQYGRRTILFVDEVHRFNKSQQDAFLPYVEDGTLIFIGATTENPSFELNNALLSRARVYVLKSLDEAALRKLVLRALGEDKGLGKRRLQLPEDSFKILMAAADGDGRRLLNFLENAADLVEDGGSIEVELLQNLLGDSRRRFDKGGEAFYDQISALHKSVRGSNPDAALYWFARMLDGGCDPLYIARRVVRMASEDIGNADPRALSLCLAAWDVQERLGSPEGELAVAQAIVYLACAPKSNAVYTAFKAAMRDAAENGSQEVPLHLRNAPTKLMKQLGYGDEYRYAHDEPDAYAAGEDYFPEALEPRHYYQPVPRGLESKIRDKLDHLAALDRASPRQRRKP				NA	NA	NA	NA	NA
BMS010_02177	375	crcB_1		Putative fluoride ion transporter CrcB	ATGATTCGCCTGATCCTGGCCGTAGCCGCCGGCGGCATTGCGGGCACTCTGTTGCGCTTCGCTGTCGCAAGTTGGGTGACGGCCCATTTGCCGAAGTATTTCCCTGTCGCGACGCTGACGGTGAATCTGGTCGGCTGCATGCTAATCGGTTATTTGTATGGCCTGTTTCTAGGGCGTCCGGAGCTGCCGGTCGAAATCCGTAGCGGTTTGCTGCTCGGATTTCTCGGTGCCTTGACGACCTTTTCCTCCTTTTCCCTGGATACGCTGCGCCTGCTGGAAAATGGCGAGCTGCCGATCGCGTTGGGCTATGTGGCTATCAGCGTCGTCGGCGGCCTGCTCGCAACCTGGGCCGGGCTGTCCCTGACCAAGCTCTGA	MIRLILAVAAGGIAGTLLRFAVASWVTAHLPKYFPVATLTVNLVGCMLIGYLYGLFLGRPELPVEIRSGLLLGFLGALTTFSSFSLDTLRLLENGELPIALGYVAISVVGGLLATWAGLSLTKL	PGPT0004985_3903	DIRECT EFFECT	BIO-REMEDIATION	FLUORIDE_DETOXIFICATION	FLUORIDE_RESISTANCE	FLUORIDE_RESISTANCE-FLUORIDE_TRANSPORT,PGPT0004985-crcB-K06199	NA	NA
BMS010_02178	1281	serS_1	COG0172	Serine--tRNA ligase	ATGCTCGACTCCAAACTGGTACGTACCCAACTGCATGAAGTGGCGGAGCGCCTGGCTACCCGCGGCTTCCAACTGGACGTGGCGCGTATTGAAGCGCTGGAGTCCCAGCGCAAGACCGTGCAGACCCGTACCGAACAACTGCAGGCCGAGCGTAACGCCCGCTCCAAGGCCATTGGCCAGGCCAAGCAGCGTGGCGAGGACATCGCTCCTTTACTGGCCGATGTGGACCGCATGGGCAGCGAACTGGAAGCAGGCAAGCGCGAGCTGGATGCGATCCAGGGCGAGCTGGATAGCCTGATGCTGAGCATTCCCAATCTGCCGCACGAGTCCGTGCCGGTGGGCGATGACGAGGAGGGCAACGTCGAGGTCCGTCGTTGGGGTACGCCGCGCGTCTTCGATTTCGACGTCAAGGACCACGTGAGCCTCGGTGAGCAGAATGGCTGGTTGGACTTCGAAACCGCCGCCAAGCTGTCCGGCGCCCGCTTTGCCTTGATGCGCGGGCCGATTGCCCGACTGCATCGTGCCTTGGCGCAGTTCATGATCAACCTGCATACCAGCGAGCATGGCTACGAAGAAGCCTACACGCCCTATCTGGTCCAAGCTCCGGCCTTGCAGGGAACCGGCCAACTGCCGAAGTTCGAGGAAGACCTGTTCAAGATCGGTCGTGAAAACGAGGCAGACCTTTATCTGATCCCGACGGCAGAGGTTTCCCTGACCAACATCGTTGCTGGAGAAATCCTGGATGCGAAACAGCTGCCGCTGAAGTTCGTCGCCCACACGCCGTGCTTCCGTAGCGAAGCCGGTGCATCCGGACGGGATACCCGCGGCATGATTCGCCAGCATCAGTTCGACAAGGTCGAGATGGTGCAGATCGTCGAGCCGGGCAAGTCCTACGAGGCTCTGGAAAGTCTCACGACCAACGCCGAACGCGTTCTGCAGCTGCTCGATCTGCCCTATCGTGTCCTGGCATTGTGCACCGGCGACATGGGCTTCGGCGCAACCAAGACCTACGATCTGGAAGTCTGGATTCCTAGCCAGGACAAGTACCGCGAGATTTCTTCCTGCTCCAATTGCGGCGATTTCCAGGCCCGTCGTATGCAGGCTCGTTACCGCAACCCGGAAACCGGCAAGCCCGAGCTGGTTCATACACTGAACGGTTCCGGTCTGGCCGTTGGGCGGACACTGGTCGCCGTCCTGGAAAACTACCAGCAGGCCGATGGTTCCATTCGCGTGCCCGAGGTGCTCAAGCCTTACATGGGTGGCGTCGAGGTCATCGGCTGA	MLDSKLVRTQLHEVAERLATRGFQLDVARIEALESQRKTVQTRTEQLQAERNARSKAIGQAKQRGEDIAPLLADVDRMGSELEAGKRELDAIQGELDSLMLSIPNLPHESVPVGDDEEGNVEVRRWGTPRVFDFDVKDHVSLGEQNGWLDFETAAKLSGARFALMRGPIARLHRALAQFMINLHTSEHGYEEAYTPYLVQAPALQGTGQLPKFEEDLFKIGRENEADLYLIPTAEVSLTNIVAGEILDAKQLPLKFVAHTPCFRSEAGASGRDTRGMIRQHQFDKVEMVQIVEPGKSYEALESLTTNAERVLQLLDLPYRVLALCTGDMGFGATKTYDLEVWIPSQDKYREISSCSNCGDFQARRMQARYRNPETGKPELVHTLNGSGLAVGRTLVAVLENYQQADGSIRVPEVLKPYMGGVEVIG				NA	NA	NA	NA	NA
BMS010_02179	1395	cysG_2	COG0007	Siroheme synthase	ATGGATTACCTCCCGCTTTTTCACAACCTGCAGAAACGTCAGGTTCTCGTGGTGGGTGGCGGCGAGGTGGCATTGCGCAAAGCCCGCTTGCTGGCATCCGCCGGCGCGGTGCTGCATGTCGTGGCGCCGCTGATAGAGCCTCAGTTGGTCGACCTGGTAGAGCGGACGGGCGGACAAAGTGTCGTGCGCGGCTATCTGGACAGCGACCTGGATGGCTGTGTGTTGGCCATTGCGGCCACCGATGACGAAACCTTGAACGCCCGGGTTTCTCAGGATGCACATGCCAAGGGGGTGCCCGTCAACGTCGTCGATGCGCCGGCGCTGTGCAGCGTGATCTTTCCCGCCATCGTCGATCGTTCGCCCTTGCTCGTTGCGGTATCCAGCGGCGGTGATGCTCCCGTGCTCGCCCGTCTGATTCGTGCACGCATCGAAACCTGGATTCCGGCCGCCTATGGTCGACTGGCTGGTTTGGCGAAGAAGTTTCGCAGCCAGGTGAAGAAGCAGCTTCCTGACGTACAGCAGCGTCGGGTGTTCTGGGAGGATGTCTTTCAGGGCGGCATCGCCGAGCGGGTGTTTGCCGGGCAGGAAAGCGAAGCCGAGCGCCTGCTGGAAGAAAAGCTTGCCGGTGCGCAGACGCAGGCGTTGGGCGAGGTCTACCTGGTTGGGGCCGGGCCGGGCGATCCCGATCTGTTGACTTTCCGAGCGTTGCGTCTGATGCAGCAGGCGGATGTCGTGCTTTACGACCGTTTGGTGGCGCCCGCCATCATCGAGCTGTGTCGACGTGATGCCGAGCGAATCTATGTCGGTAAGCAGCGCGCCGATCATGCGCTTCCCCAAGAGCAGATCAACCAGCAGCTGGTCAGTCTGGCCCGGCAAGGGAAGCGTGTGCTGCGTCTGAAGGGCGGCGACCCGTTCATTTTCGGTCGTGGCGGGGAAGAAATCGAAGAGTTGGCGGCCAACGGTATTCCGTTCCAGGTCGTGCCTGGCATCACGGCTGCCAGCGGCTGTGCCGCTTATGCCGGTATTCCGCTGACCCACCGCGACTATGCCCAGTCGGTACGCTTCGTCACGGGGCACCTAAAGGACGGCAGTTGCGACCTTCCTTGGAGTGACCTGACCGCGCCGGGGCAGACCCTGGTGTTCTATATGGGGCTGGTTGGTCTGCCCTCGATCTGCGAGCAACTGATTCGTCATGGCCGCGCTGCGGATACGCCCGCAGCGTTGGTCCAGCAGGGTACCACTCCTGGCCAACGGGTCTTCACCGGGACTCTAGCCGATCTGCCCCGGCAAGTGGCCGAGCATGAAGTTCATGCTCCCACGCTGGTCATCGTTGGCGAGGTAGTGCGCCTGCGCGACAAACTGGCCTGGTTCGAAGGCGGCCAGCCGCAGAACTAG	MDYLPLFHNLQKRQVLVVGGGEVALRKARLLASAGAVLHVVAPLIEPQLVDLVERTGGQSVVRGYLDSDLDGCVLAIAATDDETLNARVSQDAHAKGVPVNVVDAPALCSVIFPAIVDRSPLLVAVSSGGDAPVLARLIRARIETWIPAAYGRLAGLAKKFRSQVKKQLPDVQQRRVFWEDVFQGGIAERVFAGQESEAERLLEEKLAGAQTQALGEVYLVGAGPGDPDLLTFRALRLMQQADVVLYDRLVAPAIIELCRRDAERIYVGKQRADHALPQEQINQQLVSLARQGKRVLRLKGGDPFIFGRGGEEIEELAANGIPFQVVPGITAASGCAAYAGIPLTHRDYAQSVRFVTGHLKDGSCDLPWSDLTAPGQTLVFYMGLVGLPSICEQLIRHGRAADTPAALVQQGTTPGQRVFTGTLADLPRQVAEHEVHAPTLVIVGEVVRLRDKLAWFEGGQPQN	PGPT0003690_978	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003690-cysG-K02302	NA	NA
BMS010_02180	1005	yqjG_2	COG0435	Glutathionyl-hydroquinone reductase YqjG	ATGGGATTACTGATCGATGGTCAGTGGCACGACCAATGGTACAAGACAGGCAAAGACGGACAGTTCCAGCGTGAACAGGCACAACGCCGCAATTGGATCACTCCCGACGGCAGTGCGGGCCCCAGCGGTGAAGGCGGCTTTCCTGCGGAGAGTGGTCGCTATCACCTGTATGTTTCCCTCGCCTGCCCCTGGGCTCATCGCACCCTGATTTTCCGCAAGCTCAAAGGTCTGGAGACACTCATCGACGTCTCGGTGGTCGGCTGGCTGATGGGCGAGAACGGCTGGACATTCGACTCCGCCACAGGTTCGACTGGCGATGCGCTGGATGAGCTGGATTACCTGTACCAACGCTACAGACAGGACGACCCTCACTACACCGGGCGCGTAACCGTGCCGCTGCTGTGGGACAAAGAACGTCGGCGCATCGTCAGCAACGAGTCGGCCGAAATCATCCGCATGTTCAATTCGGCATTCGATGCACTCACCGGCTCGCGCCTGGACTTCTATCCACAGCCCCTGCGCGAAACCATCGAGCAATTGAACCAGCGCATCTATCCTGCAGTGAACAACGGCGTCTACCGAGCCGGGTTCGCCACTAGCCAAGACGCCTACGAAGAAGCCTTCGACACGTTATTCGCCGAACTGGACCGTTTGGACGAACACCTCGGCACGCACAGATATCTGGCCGGCGAATATCTCACCGAAGCCGATTGGCGCCTGTTCACCACGCTGATCCGTTTCGATGCGGTCTACTTCGGCCACTTCAAGTGCAATCTGCGGCGCATCGAGGATTACCCCAACCTGTCCAACTGGCTACGCGAGCTGTATCAATGGCCCGGCGTCGCCGACACGGTGAACTTCCAGCATATCCAGCACCACTACTACTGCAGCCACAAAACCATCAACCCGAATGGAATCGTGCCGAAAGGTCCACAGCACTCTTTCGAGCGTCCGCATGATCGCGGGCGGCTGCCGGGACGTGGTATCTGGCAACGTTCCGGCTAG	MGLLIDGQWHDQWYKTGKDGQFQREQAQRRNWITPDGSAGPSGEGGFPAESGRYHLYVSLACPWAHRTLIFRKLKGLETLIDVSVVGWLMGENGWTFDSATGSTGDALDELDYLYQRYRQDDPHYTGRVTVPLLWDKERRRIVSNESAEIIRMFNSAFDALTGSRLDFYPQPLRETIEQLNQRIYPAVNNGVYRAGFATSQDAYEEAFDTLFAELDRLDEHLGTHRYLAGEYLTEADWRLFTTLIRFDAVYFGHFKCNLRRIEDYPNLSNWLRELYQWPGVADTVNFQHIQHHYYCSHKTINPNGIVPKGPQHSFERPHDRGRLPGRGIWQRSG	PGPT0013050_1085	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013050-yqjG-K07393	NA	NA
BMS010_02181	984	trpD_2		Anthranilate phosphoribosyltransferase	ATGAACATCGTCACGCCGCCCGAACACCCCTTCGCCCAATTCGTCCGTATCCTCGGCAAGGGTAAGCGTGGCGCACGCAGCCTGAGTCGTGAAGAGGCACGCGATGCCATGGGCATGCTGCTCGATGGCAACGTGGAAGACGCCCAGCTCGGCGCCTTCCTGATGCTGCTGCGGCACAAGGAGGAAAGCGCGGAAGAGCTGGCCGGCTTCACCGAAGCGGTTCGCGCGCGATTGAACGCACCCGCCATTGCCGTGGATATCGATTGGCCCACCTATGCCGGCAAGAAACGCCACCTGCCCTGGTATCTGCTGTCAGTGAAGTGCCTGGCACAGAACGATAGGCGCATTCTGTTGCACGGCGGCGGTGCTCATACTGCCGGTCGGATGTACAGCGAGCAGCTCCTGTCCGAGCTGCACATTCCCCTGTGCCAGAGCTGGGCTGAAGTCGGCGCGGCCCTGGACAGCCAGGGCACGGCGTTCATTCCACTAGGGGCCTGGATGCCGCAGTTACAGCGCATGATCGATCTGCGCAACGTCCTCGGGCTTCGTTCCCCGATCCACTCCCTGGCACGCATCCTCAACCCCTTGCAGGCCCGTTGCGGTCTGCAGAGCATCTTCCACCCGGGGTATCGGGAAGTGCATCGGCAAGCCAGCCAGTTGCTCGGCGACACGGCCATCGTGATCAAGGGCGAAGGGGGCGAAATCGAAATCAACCCGGACGCAACCAGCCACCTTTACGGCACCCGGAACGGCCAGCCGTGGGATGAAGAGTGGCCACCGCTCTCCCCTCTGCGCCAGGTGAAACCGGAGCGGCTCGACCCCGCGCATCTCGCGGCATTCTGGCGTGGCGAAGTCGATGACAACTATGGTTGCCAGGCCGTGACCGCCACCATGGCCCTTGCCTTACGCGGACTCGGCGTGCCACACGAGCAAGCGCTGAGTCAGGCCAATGACTACTGGAATGCCCGCGACATATCGAGGTGA	MNIVTPPEHPFAQFVRILGKGKRGARSLSREEARDAMGMLLDGNVEDAQLGAFLMLLRHKEESAEELAGFTEAVRARLNAPAIAVDIDWPTYAGKKRHLPWYLLSVKCLAQNDRRILLHGGGAHTAGRMYSEQLLSELHIPLCQSWAEVGAALDSQGTAFIPLGAWMPQLQRMIDLRNVLGLRSPIHSLARILNPLQARCGLQSIFHPGYREVHRQASQLLGDTAIVIKGEGGEIEINPDATSHLYGTRNGQPWDEEWPPLSPLRQVKPERLDPAHLAAFWRGEVDDNYGCQAVTATMALALRGLGVPHEQALSQANDYWNARDISR	PGPT0003690_2	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003690-cysG-K02302	NA	NA
BMS010_02182	336	tusE	COG2920	Sulfurtransferase TusE	ATGAGCGAACTGATCATCGACGATCGCACCATCGCACTGGATAAGGATGGTTATCTGGCCGACCTGAGCGACTGGTCCACATTGGTGGCCGAGGCACTGGCGGCCCGGGAGGAGTTGTCGCTGAGCCAGGAGCACTGGGAGATTCTGCATCTGATGCGTGACTTCTACACCGAGTTCCAGCTTTCCCCGGCTACCCGTCCGCTGATCAAGTACGTCGCGCTCAAGCTCGGCCCGGAAAAGGGCAACAGTCTTCACCTGAACCGCCTGTTCAAGGGCACCCCTGCCAAATTGGCCGCCAAGCTGGCGGGCCTGCCCAAACCGACCAATTGCCTATGA	MSELIIDDRTIALDKDGYLADLSDWSTLVAEALAAREELSLSQEHWEILHLMRDFYTEFQLSPATRPLIKYVALKLGPEKGNSLHLNRLFKGTPAKLAAKLAGLPKPTNCL				NA	NA	NA	NA	NA
BMS010_02183	300	tusB	COG2168	Protein TusB	ATGGCCACCTTGCATCTTCTTTCCCATTCGCCTTTTGGCGATAGCCGATTCGCCAGCTGCCTGGCCTTGCTGGGGCGCAACGATGCGCTTCTGCTGACGGGGGATGCGGTACATGCCCTGCGAGCCGGCAGTACGCCTTGGGAGTCCATCCAACAATTGCCCAGGGAGATTGCCGTGTTCGCACTCGACGAGGATCTCGCGGCGCGCGGAATCGCGCCATCGGTACGCGTTCAGCCGGTAAATTATCCAGGCTTCGTCGAGCTCTGCTGTCGCTACGAGAAGGTCAACAGCTGGCTATGA	MATLHLLSHSPFGDSRFASCLALLGRNDALLLTGDAVHALRAGSTPWESIQQLPREIAVFALDEDLAARGIAPSVRVQPVNYPGFVELCCRYEKVNSWL				NA	NA	NA	NA	NA
BMS010_02184	360	dsrF	COG2923	Intracellular sulfur oxidation protein DsrF	ATGGCCAAATCCCTATTGCTCGTCACCCGCCAGGCCCCCTGGTCGGGCCCTGGCGCCCGGGAAGCCTTGGATATCGCCTTGGCGGGTGGTGCATTCGACCTGCCGATCGGCATGCTGTTTCTGGACGACGGGGTCTTTCAATTGGCCCCGACCCAATATCCGGAAGCCATCCAGCAGAAGGACCTGACCGCCAACCTGCAAGCGCTGCCTTTGTTCGGCGTCGATTCGCTCTATGTCGCCCAGCGCAGCTTGGACGAACGCGGCTTGACGGATACCACCCTCGGCTTGCCGGTTCAGTGCTTGGATGATGCAGCGCTACGCGACCTGATTGACCGCTACGACCTGGTGATAACGCTCTGA	MAKSLLLVTRQAPWSGPGAREALDIALAGGAFDLPIGMLFLDDGVFQLAPTQYPEAIQQKDLTANLQALPLFGVDSLYVAQRSLDERGLTDTTLGLPVQCLDDAALRDLIDRYDLVITL				NA	NA	NA	NA	NA
BMS010_02185	393	dsrE	COG1553	Putative sulfurtransferase DsrE	ATGAAATTCGCCATTGCCCTTTTTTCCGCCCCCCATGCGTCCTCCTCGCGCCGTGCATTGCGCTTCGCCGAGGCGGTATTGGCCAGCGGGCATGAGATCGTCCGCCTGTTCTTCTATCAGGATGCCGTGCATAACGCATCCGATGCCGTCGTTCCTCCCCAGGATGAGCTGAACCTGTCTGCGGAATGGGGCGTCTTCGTTCGGCACCATCGACTGGATGCGGTGGTATGCATAGCCGCGGCTCTACGGCGCGGCGTTCTCAATGAAGAAGAGGCCCGGCGCTATGGCCGACCGTCCGCCAACCTGGGCGAACCCTGGGATTTGTCAGGGCTCGGCCAGTTGCATGAAGCTGCGCAGATGGCCGATCGGCTGGTCTGCTTCGGAGGTCCGTGA	MKFAIALFSAPHASSSRRALRFAEAVLASGHEIVRLFFYQDAVHNASDAVVPPQDELNLSAEWGVFVRHHRLDAVVCIAAALRRGVLNEEEARRYGRPSANLGEPWDLSGLGQLHEAAQMADRLVCFGGP				NA	NA	NA	NA	NA
BMS010_02186	666	yccA	COG0670	Modulator of FtsH protease YccA	ATGCACGAACACGATTACGCACTCAGTCATGCTCAGACGGGACAGCTGGAAGTCAGCCGCGTCCTGCGCAATACCTATGGCCTGCTGGCCATGACCCTCGCCTTTAGCGGCCTGGTCGCGTATGTGGCACAGCAGATGAACGCCCCGCGCCCCGGCTTCCTGGTGGTGCTCATCGGCTTCTATGGGTTGTTCTTCCTGACCGCCAAGCTGCGCGACTCGGTGTGGGGCCTAGTTTCCACCTTCGCCCTGACCGGTTTCATGGGTTATACCCTGGGCCCGATCCTCAGCCTCTACCTGAGCATGCCCAACGGCGGCGAGGTGGTCAGCTCTGCCCTAGCCATGACCGCCCTGGTGTTCTTCGGACTGTCGGCCTATGTGCTCACTACCCGCAAGGACATGAGCTTCCTGGCCGGTTTTATCACCGCAGGCTTCTTCGTACTGCTCGGTGCCGTTCTGGTCAGTCTGTTCTTCCAGGTCAGCGGCCTGCAATTGGCAATCAGCGCAGGCTTCGTGCTGTTCTCCTCGGCATGCATCCTGTTCCAGACCAGCGCCATCATTCATGGCGGCGAACGCAACTACATCATGGCGACCATCAGCCTGTACGTTTCGATCTACAATCTGTTCGTCAGCCTGCTGCAGCTCCTGGGCGTTTTCAGCGACGACTGA	MHEHDYALSHAQTGQLEVSRVLRNTYGLLAMTLAFSGLVAYVAQQMNAPRPGFLVVLIGFYGLFFLTAKLRDSVWGLVSTFALTGFMGYTLGPILSLYLSMPNGGEVVSSALAMTALVFFGLSAYVLTTRKDMSFLAGFITAGFFVLLGAVLVSLFFQVSGLQLAISAGFVLFSSACILFQTSAIIHGGERNYIMATISLYVSIYNLFVSLLQLLGVFSDD				NA	NA	NA	NA	NA
BMS010_02188	645	gacA		Response regulator GacA	TTGATTAGGGTGCTGGTGGTCGACGACCACGATCTGGTTCGAACAGGCATCACGCGCATGCTGGCCGATATCGATGGCCTGCAGGTGGTTGGACAGGCCGATTCCGGTGAGGCAGCCCTGAAGAAAGCCCGCGAACTCAAGCCCGACGTCATCCTGATGGACGTCAAGATGCCCGGCATCGGCGGCCTTGAGGCAACCCGTAAACTGCAACGCAGTCACCCCGATATAAAAGTGGTGGCTGTGACCGTATGCGAAGATGACCCATTTCCGACCCGTTTGATGCAGGCGGGGGCTGCCGGCTACCTGACCAAGGGCGCGGCGCTGGAGGAGATGGTTCAGGCCATTCGCATGGCGTTCGCCGGCCAGCGTTATATTAGTCCGCAAATAGCCCAGCAACTCGTGCTCAAATCCTTCGAACCGCGAAATAACGGTTCGCCGTTCGATCTGTTGTCCGAACGGGAAATCCAGATCGCTTTGATGATCGCCAACTGCCAGAAAGTGCAGATCATTTCCGACAAGCTCAATCTTTCGCCGAAAACGGTGAACACTTACCGCTACCGTATTTTCGAGAAACTCTCGATCGACAGCGACGTCGAGCTGGCCTTGCTCGCCGTGCGTCACGGTGTGATCGACGCCAGCAACTGA	MIRVLVVDDHDLVRTGITRMLADIDGLQVVGQADSGEAALKKARELKPDVILMDVKMPGIGGLEATRKLQRSHPDIKVVAVTVCEDDPFPTRLMQAGAAGYLTKGAALEEMVQAIRMAFAGQRYISPQIAQQLVLKSFEPRNNGSPFDLLSEREIQIALMIANCQKVQIISDKLNLSPKTVNTYRYRIFEKLSIDSDVELALLAVRHGVIDASN	PGPT0012935_822	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-VarA|VarS_SIGNALLING_SYSTEM,PGPT0012935-gacA|uvrY|varA-K07689	NA	NA
BMS010_02189	1824	uvrC_2	COG0322	UvrABC system protein C	ATGTCCCAGCCGTTCGATGCCAGCGCCTTCTTGGCCACTTGCAGCGGCCGCCCCGGTGTCTACCGCATGCTAGATGCGGACGGCAAGTTGCTCTATGTCGGTAAGGCCAAGAACCTCAAGAAGCGTCTGTCGAGCTATTTTCGCAAGAATGGATTGGCCCCGAAGACTGCTGCGCTGGTAGGTCGGATCGCCCAGGTCGAAACCACTATCACGGCCAACGAGACAGAGGCGCTGCTGCTCGAGCAGACCCTCATCAAGGAATGGCGACCGCCGTACAACATTCTGTTGCGGGACGATAAGTCCTATCCCTATGTCTATCTTTCCGATAGCGATTTCCCCCGGTTGAGCATTCACCGTGGGGCGAAAAAGGCGAAAGGGCGCTACTTCGGTCCTTATCCCAGCGCCGGGGCTATCCGCGAAAGCCTGGCTCTGTTGCAGAAAGGCTTCCTGGTGCGCCAGTGCGAAGACAGCTACTTCAAGAACCGCACCCGGCCTTGCCTCCAGTACCAGATCAAGCGTTGCAAGGGACCCTGCGTCGGGTTGGTGACGCCGGAGGAATATGCCGAGGACGTCCGGCACTCGATCATGTTCCTCGAGGGGCGCAGTAACGCACTGGCCGAAGAGCTTTCCGCCGAGATGGAGCAGGCTGCGATGCGCCTCGATTTCGAACGGGCCGCTCAACTGCGCGACCAGGTGGCGCTGCTGCGCCGTGTCCAGGATCAGCAAAGCATGGAAGGCGGGAGCGGTGATGTGGACGTGGTCGCTGCCATCGTCACGCCGGGCGGTGCCTGCGTACACCTAATCAGCGTTCGGGGCGGACGCGTGCTGGGTAGCAAAAACTTCTTCCCCCAGGTCGGCATCGAGGAAGAGACGAACGAGGTGCTGCTGGCTTTCCTGGCCCAGTATTACCTGGGAAGCCAGGAACGCGACCTGCCGTCGGAGCTGATCGTCAACACCGTGCATGAAGATTTCGCCACCCTGGCTGCGGCGATCAGCGAGCTTCGGGGCCGGGCTCCGGCGATCAGCCACCGTGTTCGCGGTACGCGTTCGCGCTGGCAACAACTCGCCGTCACCAACGCCGAGCAGGCATTGGGAGCCCGCCTGGCCAACCGTCAGCATCTGGCCGCGCGTTTCGATGCACTGGCCGAAGCCCTGGACCTGGACGAACCGCCCGCGCGCCTCGAATGCTTCGACATCAGCCACTCCAGCGGTGAGGCGACGGTCGCCTCCTGTGTGGTGTTCGGGCCGGAGGGTCCGCTGAAGTCCGATTACCGACGCTACAACATCGAAGGCGTGACGGCGGGGGACGATTACGCGGCCATGCACCAGGCCCTGACCCGTCGTTTCAGCAAGTTGAAGGAGGGGGAGGGCAAGCTGCCCGATATCCTTCTGGTGGACGGCGGCAAGGGGCAGTTGGCGATGGCTCAGGACGTGCTGCAGGAGCTGGCCGTTCCCGACCTGATCCTGCTCGGGGTCGCCAAGGGCGTCACGCGAAAGCCTGGTTTCGAAACGCTGTACCTGAACGATGCGGCCCATGAGTTCACCTTGCCGGCCGACTCGCCCGCCTTGCATCTTATTCAGCAGGTTCGTGACGAGGCGCACCGTTTCGCGATCACCGGACACCGGGCGCGACGCGGCAAGGCGCGGCGTACGTCGACCTTGGAAGATGTGGCTGGGGTGGGGCCCAAGCGCCGGCGCGAGTTGCTCAAACATTTTGGCGGGCTGCAGGAACTGGCAAGGGCCAGTGTCGACGAGATCGCCAAGGCTCCGGGCATCAGCAAAAAACTGGCGGAGTCGATTTATGCCGCCTTGCACAGCGAGTAG	MSQPFDASAFLATCSGRPGVYRMLDADGKLLYVGKAKNLKKRLSSYFRKNGLAPKTAALVGRIAQVETTITANETEALLLEQTLIKEWRPPYNILLRDDKSYPYVYLSDSDFPRLSIHRGAKKAKGRYFGPYPSAGAIRESLALLQKGFLVRQCEDSYFKNRTRPCLQYQIKRCKGPCVGLVTPEEYAEDVRHSIMFLEGRSNALAEELSAEMEQAAMRLDFERAAQLRDQVALLRRVQDQQSMEGGSGDVDVVAAIVTPGGACVHLISVRGGRVLGSKNFFPQVGIEEETNEVLLAFLAQYYLGSQERDLPSELIVNTVHEDFATLAAAISELRGRAPAISHRVRGTRSRWQQLAVTNAEQALGARLANRQHLAARFDALAEALDLDEPPARLECFDISHSSGEATVASCVVFGPEGPLKSDYRRYNIEGVTAGDDYAAMHQALTRRFSKLKEGEGKLPDILLVDGGKGQLAMAQDVLQELAVPDLILLGVAKGVTRKPGFETLYLNDAAHEFTLPADSPALHLIQQVRDEAHRFAITGHRARRGKARRTSTLEDVAGVGPKRRRELLKHFGGLQELARASVDEIAKAPGISKKLAESIYAALHSE	PGPT0014925_3318	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014925-uvrC-K03703	NA	NA
BMS010_02190	561	pgsA_2	COG0558	CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase	ATGAATATCCCCAATCTGCTCACCGTACTGCGCGTCCTACTGATTCCAGTCTTCATTCTGTTCTTTTACCTGCCGTTTTCCTGGAGCTACTGGGCGGCGAGCGCCGTGTTCGCCCTTGCCAGTGTGACGGACTGGCTAGACGGCTACTTGGCGCGGCGGTTGGAGCAGAGCACACCGTTCGGCGCCTTCCTCGATCCGGTAGCGGATAAGCTGATGGTGGCAGTCGCATTGGTTCTGCTGGTAGAGGAGCACGCCAATCTTTGGCTGACGTTGCCGGCCGCGATCATCATCGGCCGTGAGATTGTGGTTTCTGCGCTGCGGGAATGGATGGCGGAGCTGGGAGCCCGTGCGCAGGTGGCGGTTTCCAATCTGGGTAAATGGAAAACCGCGGCGCAAATGGCTGCCTTGATCATCCTGTTGGGCAATCCGCCGGTTCTGACGTTCTGGGTGGGGCTTGGCTACGTGCTTCTGCTGGTTGCAGCGGGGCTCACGCTGTGGTCCATGCTGAATTACCTGATGGCCGCCTGGCCACATCTCAGCACCACGCCGGAAAAGAAATAA	MNIPNLLTVLRVLLIPVFILFFYLPFSWSYWAASAVFALASVTDWLDGYLARRLEQSTPFGAFLDPVADKLMVAVALVLLVEEHANLWLTLPAAIIIGREIVVSALREWMAELGARAQVAVSNLGKWKTAAQMAALIILLGNPPVLTFWVGLGYVLLLVAAGLTLWSMLNYLMAAWPHLSTTPEKK	PGPT0007705_2142	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATIDYLTRANSFERASE_ACTIVITY,PGPT0007705-pgsA|PGS1-K00995	NA	NA
BMS010_02194	1161			Blue-light-activated protein	ATGCTGACGGAGGACGTACAACCGTTCGTCAAAGAGGGCGACACGGCTCTGTCGGAGCATGACCGCGTCTGGACCTTGGTACCGGACATTCTGGCCATTGCCTCGCACGAGGGATGTTTTCGTCGCGTGAATCCGGCATTCAGCGACATCCTCGGGTGGACCGAGAAAGAGGCGACCAGGAATTCCCTGCAGACCCTCGCCCATCCTGAACAAGAGGAAACCCTGGTTGGCCAGCTCGAGAACCTGGGCAGGGGGCTTCCCATGCAGGGCTTCGAGCTACGCCTGCGGCACAAGGCAGGTGGTTATCGCTGGCTCTCCTGGTCGGCGACGCGCAAGGGCGACTGTCTTTATCTCGTCGGGCGCGATGTCACCTGGGAAAAGGAGGCGGCTGCCGCGAAGCATTCTGTCCAGGGCGCGCTGTATCAGGCACAGAAGATGGAAGCCCTCGGCCAGTTGGCCGGGAGGGTTTCCCATGACATCAATAACCTGCTCACCAGCATCGTATTCGGCCTGGACCTGCTGAATCGCCGGCTGGCGTCCGGGCGCGTCCAGGAACTCGACCAGCTCATCGAGGTGGCATTGACGTCCGCACAGCGGGCCACGGACAGGACGCAACAGTTGCTCGCGTTCGCCCGCAAACAGCCGCTGGATATCCGGCCTGTCGATGTCAATCAACTGATCAGCCAGCTTCTGCCCGAATTGGAGCAAAGCCTGGGCACGCAGAACCGCCTGAGCGTGGACACGATGGACGGCCTCTGGCTGGCATCGAGCGATCGCCTGCATCTGGAAAACACGCTCATCCAGCTGATGACCAATGCGCGTGAGGCGATGCCGGAGGGGGGCAGCGTCACCTTGAGCACCGGCAACGTGCACCTGGACGCGGCGGCGACAGAGGGCTGCATCGGTCTCGAACCGGGCGATTACGTCCAGGTCACCCTGAAAGACAATGGCATCGGTATGCCCCAGGCCGTTCTGGAGCGGGTGTTCGATCCGTTCTTCACCACCAAGCCGGCCAGTGGCGATGTGGGGTTGGGGCTGTCGATGATCTATGGCTTCGTACGCCAGGTGAGGGGGCATGTCCGGATCGACAGCGAGCTCGGGCGCGGCACGTTGGTCAGACTCTACTTTCCGAGATGCGACGGTAACGAAGGAGCCCAGTGA	MLTEDVQPFVKEGDTALSEHDRVWTLVPDILAIASHEGCFRRVNPAFSDILGWTEKEATRNSLQTLAHPEQEETLVGQLENLGRGLPMQGFELRLRHKAGGYRWLSWSATRKGDCLYLVGRDVTWEKEAAAAKHSVQGALYQAQKMEALGQLAGRVSHDINNLLTSIVFGLDLLNRRLASGRVQELDQLIEVALTSAQRATDRTQQLLAFARKQPLDIRPVDVNQLISQLLPELEQSLGTQNRLSVDTMDGLWLASSDRLHLENTLIQLMTNAREAMPEGGSVTLSTGNVHLDAAATEGCIGLEPGDYVQVTLKDNGIGMPQAVLERVFDPFFTTKPASGDVGLGLSMIYGFVRQVRGHVRIDSELGRGTLVRLYFPRCDGNEGAQ				NA	NA	NA	NA	NA
BMS010_02195	1836			hypothetical protein	ATGCAGGAAAATTCCGTTGCCCTCGGGCTCCCTCCGAATGGCAGGCATGGCGGGGCGCCGCAGGTGTTCGTCGCCGACGATCGTTTCCTGGATCTCCTGCCGGTTGCCATCTATGTCTGCGATGCCGAGGGATTCATCGTCCGCTATAACCGCAAGGCTTGTGAACTCTGGGGCCGGACGCCACGCCTGGGCGACAAGGACGAGCGTTTCTGTGGGGCCCACCGCTTGTTCTGGCCGGACGGACGCCCGCTGCCCCATGCGGAAACCCCCATGGCGGCGACCTTGCGCAATGGCATTCCCGCCTGCGATCTCGAAGTCCAGATCGAGCAGCCCGACGGGAAAAGGGTCTGGGTGCTGGTCAATATCAACCCGCTGTTCACCGAAAACGGCCAGTTGAACGGTGCGGTCAATTGCTTCCAGGACATCAGCGCGCGGAAGCGGGCCGAGCAGGCGCTGCGTGACAGCCAGGGCTTCCTTCGCTCGGTGGTCGAGGCGAATCCGGAATGCGTGAAGATCGTCTCGTCCGAGGGCGCGCTGTTGCAGATCAACTCAGCGGGGCTGGCCTTGCTCGAGGCGGATGACCTCAACGAAGTCATCGGGCGGCCGATGTGCACCTGGATCGCTGCCGAACACCGCGAACATTGGCAGCAGCACCATGACCAGGTCTGCCAGGGTTTGCAGCGGACCTGGGAGTACGACCAGGTCGGCCTGAAAGGAACGCGTCGGCACATGGAGACCCATGCCGTACCGCTGCGCATGCCGGACGGCAGCCAGGCCCAGCTTGCCGTGACGCGGGACATCACACGGCGCCGGCAGGACGAAAAGGCTTTGCGCCAGAGCGAGCAGCACATGCGCAATCTGCTCGACGGCCTGTCGGCGGCGATCTATACCACCGACGCCTGCGGACGGATCAATTACTTCAACGAGGCGGCGGCCCGGCTTTGGGGATACCGGCCGCCGTTGGGAGAGGCCGAGTGGTGCGGCTCCTGGCTGCTGCGTTGGCCGGACGGTTCGCCGATGGCACATGATGAATGCCCGATGGCGACCACGCTCAAGCAGGGCCGGGCCGTTCAGGGCGAAGCGATCGCCGAGCGCCCCGACGGTACCCAGGTCCCGTTCGCGGCGTATCCCATGCCACTGCGCGACAGCGATGGCGAGTTGATCGGTGCGGTGAACATGCTGGTCGACATCAGCCAGCACAAGCGGGCCGAGGCGCGCCAGTCGTTGCTGATCCATGAACTCAACCATCGGGTGAAGAACACCTTGGCGACGGTCCAATCCATCGCCACGCAGAGCCTTCGTAATGCGAAATCGGTCAGGGAGTTCAGCGCCAGTTTCTCCTCCCGTCTGATCGCCCTGAGCAAGGCCCATGACCTGCTTACCCACAGCCATTGGGAAGGCGCGAGCCTGCGTTCGGTCATGATGCAGGAGTTCGCCCCGTACTGGACGATCGGAACGCCGCGCATCCGCCTGGAGGGCGAGGACATCGGCCTGGGGCCGCGTGCCGCGCTGACCCTGGCGATGGCCTTCCATGAGCTGACCACCAATGCGGCGAAATATGGCGCGCTTTCTTCCCCGGAAGGGAAGCTGGAGGTTTCCTGGCGCATGGAAGACGGCAGCCAGGGGGAAATGCTCGCACTCGAATGGTGTGAACGGGATGGTCCCGAGGTCATACCGCCAAGCCGGCAGGGCTTCGGCACCCGCTTGGTGGAGCGCAGCATCGTGCATGAGCTGAACGGCGATGTTCACTTCACCTATTGCCGCGAGGGGCTTCGTTGCCTCCTCCGCTTCCCCCTCGAGGAAGCCAATGCAGTGGAGGTTCCGGAACTGATATGA	MQENSVALGLPPNGRHGGAPQVFVADDRFLDLLPVAIYVCDAEGFIVRYNRKACELWGRTPRLGDKDERFCGAHRLFWPDGRPLPHAETPMAATLRNGIPACDLEVQIEQPDGKRVWVLVNINPLFTENGQLNGAVNCFQDISARKRAEQALRDSQGFLRSVVEANPECVKIVSSEGALLQINSAGLALLEADDLNEVIGRPMCTWIAAEHREHWQQHHDQVCQGLQRTWEYDQVGLKGTRRHMETHAVPLRMPDGSQAQLAVTRDITRRRQDEKALRQSEQHMRNLLDGLSAAIYTTDACGRINYFNEAAARLWGYRPPLGEAEWCGSWLLRWPDGSPMAHDECPMATTLKQGRAVQGEAIAERPDGTQVPFAAYPMPLRDSDGELIGAVNMLVDISQHKRAEARQSLLIHELNHRVKNTLATVQSIATQSLRNAKSVREFSASFSSRLIALSKAHDLLTHSHWEGASLRSVMMQEFAPYWTIGTPRIRLEGEDIGLGPRAALTLAMAFHELTTNAAKYGALSSPEGKLEVSWRMEDGSQGEMLALEWCERDGPEVIPPSRQGFGTRLVERSIVHELNGDVHFTYCREGLRCLLRFPLEEANAVEVPELI				NA	NA	NA	NA	NA
BMS010_02196	372	pdtaR_2	COG3707	putative transcriptional regulatory protein pdtaR	ATGACGGGGACGGAGATTGATGGCTGTCGGGTGTTGCTCATCGAAGACGAAACCCTTGTGGCCTTTCTTCTTGAAGATATTCTGCTGGAACTCGGCTGTACGCTGGTTGGTCTGGCGGCGTCCGTGGACGAGGGGTTGAGACTGGCCGATAGCGTCGAGGCGGACATTGCGATCCTGGATATCAACGTCGCCGGTGTTCAGGTCTATCCGGTCGCGGAACGGCTGGCCGAGCGCCGGATTCCCTTCGTCTTCTCCACCGGCTACGGTGCCAGCGGCTTGCCCGAGCGCTGGCAGGACCGCCCGGTCCTGAGCAAGCCCTACATGCTGTCCGACCTGGAGTCGGCCCTGCGGATCGCGTTGAACCTTTCCTGA	MTGTEIDGCRVLLIEDETLVAFLLEDILLELGCTLVGLAASVDEGLRLADSVEADIAILDINVAGVQVYPVAERLAERRIPFVFSTGYGASGLPERWQDRPVLSKPYMLSDLESALRIALNLS				NA	NA	NA	NA	NA
BMS010_02197	1362	rkpK_1	COG1004	UDP-glucose 6-dehydrogenase	ATGCGACTGAGCGTGATCGGTGCGGGCTATGTGGGGCTGGTGACGGCGGCCTGTTTCGCCGAGATGGGCAATCGTGTGGTGTGTGTCGAGCGCGATCCCTTTCGTCTTTCCCGGCTCACCCGGGGCGAGGTGCCCATCTACGAGCCGGGGCTAGACGGCATTCTGAAAAGCCAGCTCGCCAGCGGCCGCCTGAGCTTCACGCAGCGGCTCGACGAAGGCGTGCACCAGGCCGAGGTGATTTTCATCGCCGTCGGTACGCCGAGCGGGGAGGACGGCTCTGCGGACCTCTCTCACGTGCTCGCGGTGGCCGACGAACTCGGCGACTGCCTGACCGCTCCCTGCGTGGTGGTGGACAAGTCCACGGTTCCCGTGGGGACCGCCGAGCAGGTCTCGCAGCGTATCCAGGCGCGCTTGTCGGCACGGCGCCAGCGGTTCCGGGTACCCGTGGCGAGCAACCCGGAGTTCCTCAAGGAGGGCTCGGCCGTCGAAGACTTCATGCGCCCGGACCGAGTCATTCTCGGCTGCGACGAGACGGGCACCGCCGAGTTGCTGAAACGGCTTTACGCACCTTTCCTGCGCAACCACGAGCGGGTGCTGTGCATGAGCGTACGGGCGGCGGAATTCAGCAAGTACGCAGCCAACGCCTTTCTCGCCACCAAGATTTCCTTCATGAACGAAATGGCCGGCATCTGTGCCCGGCTTGGCGTGGACATCGAGGATGTGCGCCGGGGCATCGGCAGCGACCGGCGGATCGGTACCCATTTCATCTACGCCGGCTGCGGTTATGGCGGGTCGTGCTTTCCCAAGGACGTACGGGCGCTGATTCGCACGGCCGAGCAGGAAGGTTTCGAGCCGGAAATCCTGCGCGCCGTGGAAGCGCGCAATGCGCTGCAGAAGACCTTGCTGTTCCAGTCCTTGCACGCGCATTTTGGCGGGCGTTTGCAGGGCCGGGTGGTGGCCTTGTGGGGGCTGTCGTTCAAGCCGGGGACGGACGACCTGCGCGAAGCGCCCAGCCTTGTCCTGCTGGAGGCCCTGCTCAAGGCCGGGGCGAGGGTCCAGGCCTACGATCCGGTGGCCAACGCCGGGGTTGCCGCGCGCTATCCCCTCGCAACGGAGAATGGACAGTTGCGCTTCGGCGAGTCACCCTATGCAGCGACCGAAGGCGCCGATGCGCTGGTCCTGCTGACGGAGTGGAAACAGTTCCGCCAGCCCGACTTTCTTCAGGTCCGTGCAGCGATGCGAACCCCGGCGTTGTTCGACGGTCGTAACCTGTACGATCCGGCCCAGATGGCGGAACTGGGATTCATCTACCAGGGTATAGGACGCCCACGGGCCGGACAGCGCAAGGCAAGCGCCGCCTGA	MRLSVIGAGYVGLVTAACFAEMGNRVVCVERDPFRLSRLTRGEVPIYEPGLDGILKSQLASGRLSFTQRLDEGVHQAEVIFIAVGTPSGEDGSADLSHVLAVADELGDCLTAPCVVVDKSTVPVGTAEQVSQRIQARLSARRQRFRVPVASNPEFLKEGSAVEDFMRPDRVILGCDETGTAELLKRLYAPFLRNHERVLCMSVRAAEFSKYAANAFLATKISFMNEMAGICARLGVDIEDVRRGIGSDRRIGTHFIYAGCGYGGSCFPKDVRALIRTAEQEGFEPEILRAVEARNALQKTLLFQSLHAHFGGRLQGRVVALWGLSFKPGTDDLREAPSLVLLEALLKAGARVQAYDPVANAGVAARYPLATENGQLRFGESPYAATEGADALVLLTEWKQFRQPDFLQVRAAMRTPALFDGRNLYDPAQMAELGFIYQGIGRPRAGQRKASAA	PGPT0017855_1731	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-GLUCURONATE_MODIFICATION,PGPT0017855-ugd|tuaD-K00012	NA	NA
BMS010_02198	840	gtaB_2	COG1210	UTP--glucose-1-phosphate uridylyltransferase	ATGATCAAGAAATGCCTGTTTCCCGCTGCCGGTTATGGCACTCGCTTCCTACCTGCCACCAAGGCCATGCCCAAGGAAATGCTCCCAGTGGTGAACAAGCCACTGATCCAGTACGGGGTCGAAGAAGCCTTGCAGGCAGGTTTGTCGCAGATCGCCATGGTCACCGGGCGCGGCAAGCGCTCGCTGGAAGACCACTTCGACATCAGCTATGAGCTGGAACACCAGATTCGCAACACCGACAAGGAAAAGTACCTGGTCGGGATTCGTCGCCTGATCGACGAATGCACCTTCTCCTATACCCGCCAGATCGAAATGAAGGGCCTCGGCCATGCCATCCTCAGCGGCCGTCCGCTGATCGGCGATGAGCCGTTCGCCGTGGTCCTGGCCGACGACCTCTGCTTCAACCTGCACGGCGACGGCGTTCTCAGCCAGATGGTCAAGCTGTACAACCAGTTCCGCTGCTCCATCGTCGCCATCGAGGAAGTGCCGCCGGAAGAGACCAACAAGTACGGCGTGATTGCCGGCGAAATGATCCGCGACGACATCTACCGGGTGAACACCATGGTGGAGAAGCCCAAGCCGGAAGACGCCCCGTCCAACCTGGCGATCATCGGCCGCTACATCCTGACCCCGGATATCTTCGAGCTGATTGAGCAGACCGAGCCGGGCAAGGGCGGTGAAATCCAGATCACCGACGCCCTGATGAAGCAGGCCCAGGATGGCTGCGTGCTGGCCTACAAGTTCAAGGGCCAGCGTTTCGACTGCGGTAGCGCGGAAGGCTACATCGAAGCCACCAACTTCTGTTTCGAGCACTTCTACAAGCCGGGCAAGGCGTTTTAA	MIKKCLFPAAGYGTRFLPATKAMPKEMLPVVNKPLIQYGVEEALQAGLSQIAMVTGRGKRSLEDHFDISYELEHQIRNTDKEKYLVGIRRLIDECTFSYTRQIEMKGLGHAILSGRPLIGDEPFAVVLADDLCFNLHGDGVLSQMVKLYNQFRCSIVAIEEVPPEETNKYGVIAGEMIRDDIYRVNTMVEKPKPEDAPSNLAIIGRYILTPDIFELIEQTEPGKGGEIQITDALMKQAQDGCVLAYKFKGQRFDCGSAEGYIEATNFCFEHFYKPGKAF	PGPT0014875_5460	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0014875-gtaB|UGP2|galU|galF-K00963	NA	NA
BMS010_02199	423			hypothetical protein	ATGCGTCCCACCCTCACCCATCTGGCCTTGCATGTGCCGGACCTGGACGCCTGTATCCGTTTCTATGAAGAGTTCTGCGGCATGCGGGTGTTCCACGAGCGCGCCGGCAAGGGTTCGCGCATCGTGTGGATGGCCGAACCGGGCAAGGAGCACAGCTTCATCTTCGTGATCATGCCGGGAGGACAGGACCGCCACCTGGCCGCGGACGACTACAGTCATTTCGGTTTCGCGCTGGACAGCCGCGAGGCGGTGGATGCCATCGCACAGAAGGCGGACGCTGCCGGCTGCCTGATCTGGCCGCCACGCGACGAGCCCTATCCGGTGGGGTATTACTGCGGCCTGCGCGACCCGGCGGGCAATTACGTCGAGTTCAGCTACGGGCAGCCGCTCGGGCCTGGCTCGGAAGCCATGCCGATCCCCTAG	MRPTLTHLALHVPDLDACIRFYEEFCGMRVFHERAGKGSRIVWMAEPGKEHSFIFVIMPGGQDRHLAADDYSHFGFALDSREAVDAIAQKADAAGCLIWPPRDEPYPVGYYCGLRDPAGNYVEFSYGQPLGPGSEAMPIP				NA	NA	NA	NA	NA
BMS010_02200	1359	garB_1		Glutathione amide reductase	ATGGCTTTTGACTTCGACCTATTCGTGATCGGCGCCGGCTCCGGCGGTGTGCGGGCGGCGCGTTTCTCGGCCGGCTTCGGCGCCCGCGTGGCGGTGGCCGAGAGTCGCTACCTGGGTGGCACCTGCGTCAACGTCGGCTGCGTGCCGAAGAAACTGCTGGTCTACGGCGCCCACTACGCGGAAGACTTCGAACAAGCGCGCGGCTACGGTTGGAGCACGGGGGAGCCGGTGTTCGACTGGCCGAGCCTGATCGCCAACAAGAACCGTGAAATCCAACGCCTCAACGGCATCTACCGTAACCTACTGCTGGATAACGGCGTCACCCTGCTGGAAGGCCACGCCCGTCTGTGCGACGCCCACACCGTCGAAGTCGACGGAAAGCGCTACAGCGCTGCCAACATCCTGATCGCCACCGGTGGCTGGCCGCAGATTCCCGACATTCCCGGACGCGAGCACGCCATCGACTCCAACGATGCCTTCTACCTACCCGAATTGCCGAAGCGTGTGCTGGTGGTGGGCGGGGGATATATCGCGGTGGAGTTCGCTTCCATCTTCAACGGATTGGGCGCCAGCACTTCGCTGCTGTACCGCCGTGACCTGTTTCTGCGTGGCTTCGACAAGGCCGTGCGTGTCCACCTGCGCGACGAGTTGCTGAAGAAAGGCATGGACCTGCAATTCAATGCCGACATCGCCCGCATCGACAAACGGCCCGACGGCAGCCTGGCCGCGACCCTCAAGGACGGCCGGGTGCTGGAAACCGACTGCGTGTTCTACGCCACCGGCCGCCGCCCGATGCTGGACAACCTCGGCCTGGAAAATCTCGACATCCGCCTCGACGAGCGCGGCTTCATCCAAGTGGACGAGGCGTACCGCACCAGCGAGCCTTCGGTGTTCGCCATCGGCGACGTGATCGGCCGGGTGCAATTGACCCCCGTCGCGCTGGCCGAAGGCATGGCGGTCGCGCGGCACTTGTTCAAGCCCGAGGAATACCGCCCGGTGGATTACCAGACGATTCCCACTGCGGTCTTCAGCCTGCCGAACATCGCCACCGTCGGGATGACCGAGGAGCAGGCACGGGAGGCAGGGCATAAGGTGACGGTCTACGAGAGCCGCTTCCGGCCAATGAAGCTGACCCTCACCGACAGCCTCGAACGCACTCTGATGAAGCTGGTGGTGGACGCCGAAAGCGACCGCGTGCTGGGCTGCCACATGGTCGGCCCGGAAGCCGGCGAGATCATCCAGGGGCTGGCCGTGGCGCTGAAGGCCGGCGCCACCAAACGGGTGTTCGACGACACCATCGGCATCCACCCCACGGCGGCCGAAGAGTTCGTCACCATGCGCATCCCGACGGCGATCTGA	MAFDFDLFVIGAGSGGVRAARFSAGFGARVAVAESRYLGGTCVNVGCVPKKLLVYGAHYAEDFEQARGYGWSTGEPVFDWPSLIANKNREIQRLNGIYRNLLLDNGVTLLEGHARLCDAHTVEVDGKRYSAANILIATGGWPQIPDIPGREHAIDSNDAFYLPELPKRVLVVGGGYIAVEFASIFNGLGASTSLLYRRDLFLRGFDKAVRVHLRDELLKKGMDLQFNADIARIDKRPDGSLAATLKDGRVLETDCVFYATGRRPMLDNLGLENLDIRLDERGFIQVDEAYRTSEPSVFAIGDVIGRVQLTPVALAEGMAVARHLFKPEEYRPVDYQTIPTAVFSLPNIATVGMTEEQAREAGHKVTVYESRFRPMKLTLTDSLERTLMKLVVDAESDRVLGCHMVGPEAGEIIQGLAVALKAGATKRVFDDTIGIHPTAAEEFVTMRIPTAI	PGPT0013175_1660	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013175-gor-K00383	NA	NA
BMS010_02201	627			hypothetical protein	ATGGAGAACCTGTTCTATTTCTCCGACCTGTTCGGTGTCGCCGTCTTCGCCATCACGGGGGCGCTGATGGCCGGGCGCAAGTCCATGGACCTGTTCGGCGTGCTGGTGATCGCCATCGTCACCGCCCTGGGCGGCGGCACTTTGCGCGACCTGATCCTCGACAATCACCCGGTCAGTTGGATTCGCGACGACACCTACATTCTGGTCGCCTCCCTGGCGGCGGTCGGGACGGTAGCCTGGGTGCGCCTGACCCGACCGATCCACGAAACCGGCCTGCTGGTGGCCGACGCCTTTGGCCTGGCCGTGTTCACCGTCATCGGTACCGAAGTGGCCCTGCAGCATCAGGTGCCGCTCAGCACGGCGGTGATCATGGGCGTCATGACTGGCGTGGCCGGTGGCGTAATGCGCGATGTGATCTGCAACGAGATTCCGCTGATCTTCCACAAGGAAATCTACGCCACGGCCTGCATCCTTGGCTCCCTGGTGTTCATCGCCCTGCGTGAACTGGGGACGCCGCACTGGCTGGACACCGGCATCGCCATGCTGGTGGTGCTGTTCACCCGCCTGGCGGCGATCCGCTGGCACCTGTCGTTACCCCGTTTCCACCTTCTGGACCGATACACATGA	MENLFYFSDLFGVAVFAITGALMAGRKSMDLFGVLVIAIVTALGGGTLRDLILDNHPVSWIRDDTYILVASLAAVGTVAWVRLTRPIHETGLLVADAFGLAVFTVIGTEVALQHQVPLSTAVIMGVMTGVAGGVMRDVICNEIPLIFHKEIYATACILGSLVFIALRELGTPHWLDTGIAMLVVLFTRLAAIRWHLSLPRFHLLDRYT				NA	NA	NA	NA	NA
BMS010_02202	390		COG0346	Virulence protein	ATGATCGAACGTCTCGACCATCTGGTTCTCACTGTCGCCGACATTCCACGTACCGTTGCGTTCTACGAGCGGGTGCTGGGGATGCGCCACGAAACCTTCGGCCAGGGACGCAGTGCCCTGGTCTTCGGCCAGCAAAAATTCAATCTGCATCAGGTCGGTCGCGAGTTCGAGCCGAAGGCCGCCCGCCCTACGGCTGGGGCGATCGATCTCTGCCTGATCACGCGTTGGCCGCTGGACAGGGTGCTGGCGCACCTGAAGGAGCAGAAGATCGACGTGGAGGAGGGGCCGGTCGCACGGACCGGCGCATTGGGGCCTATCGAGTCGGTGTATTTCCGCGACCCCGATGGCAACCTGATCGAGGTCAGCCGTTACCCGGAGGCGAACGGCTGA	MIERLDHLVLTVADIPRTVAFYERVLGMRHETFGQGRSALVFGQQKFNLHQVGREFEPKAARPTAGAIDLCLITRWPLDRVLAHLKEQKIDVEEGPVARTGALGPIESVYFRDPDGNLIEVSRYPEANG				NA	NA	NA	NA	NA
BMS010_02203	465			hypothetical protein	ATGCGATTTCGTCTATTGGCTACCACGGTGCTGGCACTGTTCTGCGGCGTTGCCCCGGCCCATGAATTCGAAGTGGGCTCACTGGAAATCGATCATCCCTGGTCGCGCGCGCTGCCGCCCAATGCACCGGCGGGCGCCGCTTATTTCACCATCGTCAACAAGGGCGAAGAAAACGACCGGCTGGTTGGCGTGCAGACGCCCAAGGCGGGCAGCGCCATGCTGCACACCACGGTCCAGATCGGTGAAATGATGAAGATGCAGCATCTGGATTCCATCGCCATCCCGGCGGGCGGCAAAGTGGAATTCAAGCCCAACGGCAATCACGTGATGCTGATGGGGCTGAAAGAGCCGCTGGTGGACGGCGAGCGCTTCCCCCTCACCCTGGAATTCGAAAAAGCCGGCAAGGTCGAGGTGGAAGTGGTGGTCGGCCCGGCAGCGGAAGAACAGTCGCCCCACCACCACTGA	MRFRLLATTVLALFCGVAPAHEFEVGSLEIDHPWSRALPPNAPAGAAYFTIVNKGEENDRLVGVQTPKAGSAMLHTTVQIGEMMKMQHLDSIAIPAGGKVEFKPNGNHVMLMGLKEPLVDGERFPLTLEFEKAGKVEVEVVVGPAAEEQSPHHH				NA	NA	NA	NA	NA
BMS010_02204	474			hypothetical protein	ATGCATGCACAGGTGTTGCCGTTCTGGCTGTCTGGACATCGCCTTGCGGTTACCCTGGAAACAGTGGTCAGAGTCCTGCCGGCGCTGGTCGGTACGCCGCTGCCCGGCGCGCCGGCGACGGTCAGCGGATTGGTCAACGTGCGCGGCAGCATCCTGCCGGTGATCGATCTGGCACGGCGTTTCGATTGGGATTCGCCGCCGGCCGCGCTCTGGCAACCCTATCTATGGCTGCAGACCCAGCGGCGCCAACTGGTGGTGCCGGTGGACGCGGTGGAGACGGTCACTGTCTGCGTCGCCGAAGACTTCCAACCTGCCCCGCACCCCAGTGTTCCCAGCGAATTGCTGAGCGGCGTCGTGCGGACCGCCGAAGGGCTCCTGTTGATCCAGGATGTCGAGCGCCTGCTCTCCGAGAGCGACGAAGCCTTGCTGTACAGCGCCTTGCAGAATCGGGAGTCCGCCGATGATTCGCCCTGA	MHAQVLPFWLSGHRLAVTLETVVRVLPALVGTPLPGAPATVSGLVNVRGSILPVIDLARRFDWDSPPAALWQPYLWLQTQRRQLVVPVDAVETVTVCVAEDFQPAPHPSVPSELLSGVVRTAEGLLLIQDVERLLSESDEALLYSALQNRESADDSP	PGPT0015680_3710	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015680-cheW-K03408	NA	NA
BMS010_02205	1506			hypothetical protein	ATGATTCGCCCTGAGTCGCAGGGTTCCGGCATCGTGCTCGATGCCCTGGTGCGCAAGGTTCACCGGCACCTGGGCAGCGACTATGGCGCACGGCCGGACGAACTGCTCAAGCGCCTGCGTCTCCTGGCATTGGAACAGGACATCGACAACCCAGCCGGCTGGCTGGCCGAGCTGGCCGCCAGCGAGTGGGACGACGGCCGGATTCAAAGCCTGACGCCGGCGCTGACCGTCGGCGAAACCTATTTCCGCCGCGACCCGGACGTCTTCGACTGGCTGGCCTACGAGTTCCTGGCACCGCTGCTGATGCGTCGCCGCCAGGAGGGTTCGCGCCACCTGCGGGTCTGGAGCGCGGGCTGCTGTACCGGCGAAGAGGCCTACAGCCTGTTGTTCCTCCTCGACGATCTGCTCGGTGCCGAGCGCACACGCTGGAACCTCGAGTTGATCGCCAGTGACATCAATGCCAGCTTCCTGAACGTGGCGGAGCAGGGCCGTTACGGCCGCAATGCGCTGCGCCACAACGACGAGCTGTTCACCACACGCTTCTTCCAGGCCGAAGGGCGTGGCTGGCGGGTCAAGCCGGCCTGGCGCGGACGCATCCGTTTCGTCCGCTACAACCTGGCCAGCGGCGCCTTGCCCAACCCGAGCCAGGGCTTCGCCGGCCTGGACCTGATTCTCTGCCGCAACGTGCTGATGTATTTCTCCCCGGAACAGGCCACGAAGGCGCTGGAAGGCTTGCTCCGTTGCCTGAGCGACGACGGTCTGCTGTTGCTCAGCGCGGTGGAGGCGGGCATCGCCACCCAGGCCGGACTGCGCGGGCGCTGGGCGGCCAGCAACTACGCCTTGGTACGGCAGCAAGCGAGCAGCCCGCGCGCAGAGGCGACGTACGACGCCCTCACGCCTCGACGTCGCGCTCCAGTCGCCCCGCACACTCCGGTGCCTCGGAGTGAGCCGGAGCGGCAGCCCCTGGCGGCGCCGGCGCAATCGGAGCGTCATTGGGAACAAGCCTGCGCGGCCTATGCCGGCGGCCATTACGACCAGGCCCGGCAACACCTGCTCGGCTACCTGTCGCTACCATCCCTCGGCGTGGCCGAGAAAAGCCGCACCTGCCAACTGATGGCGCGTTGCTGGGCCGACCAGCAACAGGCGGCCGAAGCCGAGAACTGGCTGCAACGTGCCCTGAGCCTGGAGCCGGACTCGGCGACCTGCTATTGGCTGCTGGCCTTGCTCGCACACCAGAACGGCTCCACCAAGGCCGCCCGACAGGCCCTGCAGAAAGCCCTCTACCTGGACCCGGACTTCATCCTCGGGCATTTCCTGCAGGCCCGCCTGATGCGTGAAGCAGGCAACCCGGCCGCTGCCGACAAGGCCTTGCGGGTGTGTCTGGAACTGCTCGTCCGGCTGCCGGAGGACGCCCCGGTTCCCCATGGCGATGGCATGAGCGGCAGCCAGTTGCGGCGCCTCTGCGAACAACTCAGGGAGGAGCAGGGCCGTGGCCAACCCCGATAA	MIRPESQGSGIVLDALVRKVHRHLGSDYGARPDELLKRLRLLALEQDIDNPAGWLAELAASEWDDGRIQSLTPALTVGETYFRRDPDVFDWLAYEFLAPLLMRRRQEGSRHLRVWSAGCCTGEEAYSLLFLLDDLLGAERTRWNLELIASDINASFLNVAEQGRYGRNALRHNDELFTTRFFQAEGRGWRVKPAWRGRIRFVRYNLASGALPNPSQGFAGLDLILCRNVLMYFSPEQATKALEGLLRCLSDDGLLLLSAVEAGIATQAGLRGRWAASNYALVRQQASSPRAEATYDALTPRRRAPVAPHTPVPRSEPERQPLAAPAQSERHWEQACAAYAGGHYDQARQHLLGYLSLPSLGVAEKSRTCQLMARCWADQQQAAEAENWLQRALSLEPDSATCYWLLALLAHQNGSTKAARQALQKALYLDPDFILGHFLQARLMREAGNPAAADKALRVCLELLVRLPEDAPVPHGDGMSGSQLRRLCEQLREEQGRGQPR	PGPT0015670_103	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015670-cheR|pilK-K00575	NA	NA
BMS010_02206	612			hypothetical protein	GTGGCCAACCCCGATAACCGTGATGCGGCGGCCTGGACGCGCATCCGCCAAAGCCTGGACGAGCTGGAGCGGCGCATCGAAAGTGGCTTCGCCCTCAGTGCCGGGGAACGCGAGCAACGTCTGCTGGAGCGAACCCGGGAATGGGCCCGGCGCCCGGAGCAGGAAGTACCGGATGCGTTCCTGGAAGTCCTGGCGTTCAGCCTCGGCGGCGAGACCTATGCCGTGGAGAGCCGGCACGTGGCGGAGGTCCTGCCGCTCGCCCAGTACACCCCGTTACCCGGAACACCCGCCTACGTGCTGGGTATCGTCAACGTGCGTGGCCGCATCGTCTCGGTGCTGGACCTGCGTATCCTCTTCGAACTGCCGGTCAGCGGGCTGGCCGACAAGAACTTCCTCGTCGTGCTGCAGGACGAGTCGATGGAATTCGGTCTGCTGGTCGACCGGGTACTGGGCATCCAGCCCTTGGAGAAAGCCACCTTGCAGAGTGGCATGGCCAGCCTGACCGGCGTTCGGGCCAGCTATCTGCTCGGGGTGACGCCGACGCAATGGACGGTATTGGATGGTGCGCGCTTGCTGGGCGATGCCAGCCTGCGCGTGGAAATCGATGGATAG	MANPDNRDAAAWTRIRQSLDELERRIESGFALSAGEREQRLLERTREWARRPEQEVPDAFLEVLAFSLGGETYAVESRHVAEVLPLAQYTPLPGTPAYVLGIVNVRGRIVSVLDLRILFELPVSGLADKNFLVVLQDESMEFGLLVDRVLGIQPLEKATLQSGMASLTGVRASYLLGVTPTQWTVLDGARLLGDASLRVEIDG	PGPT0015680_827	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015680-cheW-K03408	NA	NA
BMS010_02207	1641			hypothetical protein	ATGCTCGATTACCTGATGAATCTGCGCATCGGCAGCAAGCTGGTTTTCGCTTTCGGTGTGCTGATTCTCGGCTTCGGCACCTTGATGTACAGCACCCTCGAGCGCTTCGTCGGGTTGCAAGAGACGGAGGAGGAGCAATTCAAGCGCAGCTTCGAGCGCATCTCGGCGGTGCAGGAACTGCGCATCAACATCAATGCCCAGCGCGCCGAACTGCTGATGGCCATCAGTCAGGAAAATGGTCCGCAGAATGCCGAATACGAAGCGGAAATCCGTCGTATCACCGCAGAGAACACTCGGGTGGTGGAGCGTCTGCGCGCTGGCCTGAAGGACGACCAGGAAGGCCGCGAACTCCTCGAGCAGATCGAGGAAGCCCGCGCGCTCAACGCCAGTACGCGCGATAACCAGATCATTCCGCTGATTCGCGAAGGCCGTATCGAGGAGGCGCGGGCATTGATCATGGGCATCCAACTGGAGCGGATGAACAAGATCCATGCCCTCGGCCTGAAGCTGACCGCGCTGACCGACCAACGTGTTGCCCAGTCGCTGGAACGTTCTCGCGCCGTCCTCGAGGCACAGCGCGAGCGCGTGCTGATTCTCGGCCTGGCGCTGCTGGTGAGCGGTGCGTTGTTCGCCTGGCTGCTCAGCCAGCACATCGCCCGTCCCTTGTCGCGCCTGACCGGCTGGGCCGAGCAGATCGCCCGTGGCGAAATCCCCCGGGAAATCCCCGACAGCGCCCGCCAGGACGAAGTCGGGCGGCTCGGCCAGGCCTTCGTCAACATGAGCCAGTACCTGCGGGAATTGGTGACCGAGTTGAACGAAAGCACCTCCGTGCTGGCCTCGTCCAGCGAGGAAATCCTCGCGGCCACGGCGCAGACGGCCGCAGGCGCCCAGGAAACCGCGACCGCCATCAGTGAGATCGCCACCACCGTCGAAGAGGTCAAGCAGACCGCCGTGTTGTCCGGCAACAAATCGCAGATGGTGGCGGAGAGCACCGAGCGCACCCGCCAGGTGGCCCAGGATGGGCGCCAGTCGGTGGAGGAAACGTTGCAGGGCATGAGCCAGATCCGCGAGCAGATGCAGGCGGTGGCGGAAAGCATCATGCGTCTCGGCGAGCAGAGCCAGATGATCGGCGAGATCGTCGCGTCGGTGGGCGATCTGGCCGAACAGTCCAACCTGCTGGGGGTCAACGCCTCCATCGAGGCGGTGAAGGCCGGCGAGGCCGGCAAGGGATTCTCCGTGGTCGCCCAGGAGGTCAAGGCGCTGGCCGACCAATCCAAGCAGGCGACGGCCCAGGTCCGGGGCATTCTCGGCGATATCCAGAAGGCCATGACCAAGGCCGTGCTGCTCGCCGAGCAAGGCAGCAAGGCGGTGGAAAGCGGCTACCAGCGCGCCCAGGCGGCGGGCGAGGCGATCCGTGCCCTGAGCCGGAACATCGAGGATTCCAGCGAAGTCGCGATGCAGATCGCCGCCACCAGCCAGCAGCAGATGATCGGCATGGACCAGGTGGTGAGCGCCGTCGAAAGCATCCGCCAGGCCAGCCAGGACAACGTCGGCGGTGCCCGCCAGGTCGACCTGGCGGCGAAGAACCTCCACCAACTGGGCCTGAAGCTGAAAGGTCTGGCCGCCAAGTTCAAACTGTGA	MLDYLMNLRIGSKLVFAFGVLILGFGTLMYSTLERFVGLQETEEEQFKRSFERISAVQELRININAQRAELLMAISQENGPQNAEYEAEIRRITAENTRVVERLRAGLKDDQEGRELLEQIEEARALNASTRDNQIIPLIREGRIEEARALIMGIQLERMNKIHALGLKLTALTDQRVAQSLERSRAVLEAQRERVLILGLALLVSGALFAWLLSQHIARPLSRLTGWAEQIARGEIPREIPDSARQDEVGRLGQAFVNMSQYLRELVTELNESTSVLASSSEEILAATAQTAAGAQETATAISEIATTVEEVKQTAVLSGNKSQMVAESTERTRQVAQDGRQSVEETLQGMSQIREQMQAVAESIMRLGEQSQMIGEIVASVGDLAEQSNLLGVNASIEAVKAGEAGKGFSVVAQEVKALADQSKQATAQVRGILGDIQKAMTKAVLLAEQGSKAVESGYQRAQAAGEAIRALSRNIEDSSEVAMQIAATSQQQMIGMDQVVSAVESIRQASQDNVGGARQVDLAAKNLHQLGLKLKGLAAKFKL				NA	NA	NA	NA	NA
BMS010_02208	2205	rcsC_6		Sensor histidine kinase RcsC	ATGCCCCTTGATCGCGAGGCATTGCGGCAACGCCTACTGGCCAGCTTCCGGGTCGAGGCGGAGGAGCGTCTCGGCGTCCTGGCCGCCGGGCTGGCCAACTGGCGCGAGGCGAGCGCCACCGCCGAGTCCATCGAATCCCTGTTCCGTGAAGTGCACAGCCTCAAGGGCGCCGCCAGAGCTGCCGGATTGGGCGCCATCGAGCGTCTCTGCCATGCCTGGGAAAGCCTGCTCAGCGCGGCCCGGCATGGCCAACTGACGCTGACCCCGGAACGCGTCGAGCTGTGCCGGTATGCTCTGCATGCCGTGCAGGGACTGCAAGCCGGCCAGGAACCAGACGAAGACGATCAGGCCCAGTTGATCGAAAGCCTGGAGGCGGCTGCGGAAGGCGAGGCGGTGGTCCTGCCGGAAAACGCGCCGCCCGTGCAGAGCACCGCCATGCCAGCCGATCCGGCGACCGTGCGGGTCTCCGCCCCGCGCCTGGACGCCTTGCTGTTCCAGAGCGAAACCCTGCTCCAGCACAAGCTCGAGGCGCAGGCCCATGCGCGGGCCCTGAAGGCGCTTGCCGACAGCTTCCAGCCGCAACGCGCCCGGCAACTGCTCGGCCAGGAGACCCTTAAGCCCCTGCGTGCCGGCCTGGACGAGCTGGCCCCCAGCCTGCGCGATGCCCTGAAGAACCTGCTCGACTACGTGGACTGGAGCCTGGCGCAGCTCGACCGCCAGCATTTCGAGGCCGTCGGCCTGGTCAAGGCGGGGCAGCATCTGGCCCTGGGACTGGCGCAGCTCTCGGAGAACCTGCGCGAAGGGCTGGAGGACGTCCTGCTGCTGTCCGGCCGGAGCCTGCTGGAAAGCCTGCCGGCCATGGCCCAGGACCTCGCCGTCCAGGCCGGAAAGCGTCTGGAACTGCACATGCGCGGCGAGACTCTACAGATCGATAAGCGCATCCTCGATGAGCTCCGACCGGTCGTCACCCACCTGCTGCGCAACGCCGTCGACCATGGGATCGAGCCACCCGACGTGCGTACCGCGCAGGGCAAACCGGCAGTGGGGCGGATCGAGATCGAGTTGCTCCAAGAGGCCGCCGACCGCTTCGAACTGCGGATACGCGACGACGGCCAGGGCATCGACGTCGAGCGGCTGAAGAAGCGTGCCGTGGAGCTCGGCCTGATGAGCGACGAACAGGCGGCCGAGTTGTCTACCGGGGAGGCACAGGCGCTGGTGTTCGCCTCGGGCCTGTCGAGCAGCACGATCATTACCGACCTGTCCGGGCGCGGCCTGGGCATGGCCATCGTGGAACAGGCGGTCGAACGGATCGGCGGGCATGTCGAGACGGAGTCCAGGCCGGGGCAGGGGACCTGCTTCCGCCTGCACCTGCCGATCAGCCTGTCGATTTTCCGCGCGGTGATCGTGCGCGTGGCCGAGCGTGTATTTGCCGTCCCGGCCCTGGCTGTGGAGCGCTGTCTGCGCCTGCCGGACACGGCGATGAAGCGCCTGGAGAACCGGCCTTCGCTGGTGGTTGGCGAACAGGTACTGCCGGTCTGGACCCTCGCCGAAGTGCTGGGCCTGGAGCCGACACCGATCAATGGCAGCGAACTGCTGGCCCTGTTGCTCAAGGTGCGCGGAGATCGCTTCACGCTGTTGATCGACGAATTGCTGGGAGATCAGGAAATCAGCGTCAAGAACCTCGGACGGCAACTGATCCGCGTCCCTAACCTGCTGGGCGCCACGGTGCTGGGCGACGGCCGGCTGGTGCCCATCCTGCATCCCCAAGACCTCTACCAGAGTGCCCTGGGCACGACCAGCAGCGGTCCGGCCCTGGCCTCGCGGGAGGCTGCGGAGAAAAAGGTCCAGCGCCTCCTGATCGCCGAAGACTCCTTCACCTCCCGGGGCCTGCTGAAAACCATCCTGGAGGCGGCCGGCTATCAGGTCGCGACGGCCAACGATGGCCTGGAAGCCTGGAACGCCCTCAAGCAGGGCCAGTTCGACCTGCTGGTCTCGGATGTCGAAATGCCCCGCATGGACGGCTTCAGCCTGACCGCCCGGATTCGTGCCGACCGCGAGCTGTCCGAGCTGCCGGTGGTCCTGGTGACCGCCCTGCATTCCGCCGAAGACCGAGCCCGCGGGCTCGAAGCGGGCGCCAACGCCTACCTGGTGAAGAGTGGTTTCGAGCAGGAAACCTTGCTCGATGCCATTCGCCGGTTGATCTGA	MPLDREALRQRLLASFRVEAEERLGVLAAGLANWREASATAESIESLFREVHSLKGAARAAGLGAIERLCHAWESLLSAARHGQLTLTPERVELCRYALHAVQGLQAGQEPDEDDQAQLIESLEAAAEGEAVVLPENAPPVQSTAMPADPATVRVSAPRLDALLFQSETLLQHKLEAQAHARALKALADSFQPQRARQLLGQETLKPLRAGLDELAPSLRDALKNLLDYVDWSLAQLDRQHFEAVGLVKAGQHLALGLAQLSENLREGLEDVLLLSGRSLLESLPAMAQDLAVQAGKRLELHMRGETLQIDKRILDELRPVVTHLLRNAVDHGIEPPDVRTAQGKPAVGRIEIELLQEAADRFELRIRDDGQGIDVERLKKRAVELGLMSDEQAAELSTGEAQALVFASGLSSSTIITDLSGRGLGMAIVEQAVERIGGHVETESRPGQGTCFRLHLPISLSIFRAVIVRVAERVFAVPALAVERCLRLPDTAMKRLENRPSLVVGEQVLPVWTLAEVLGLEPTPINGSELLALLLKVRGDRFTLLIDELLGDQEISVKNLGRQLIRVPNLLGATVLGDGRLVPILHPQDLYQSALGTTSSGPALASREAAEKKVQRLLIAEDSFTSRGLLKTILEAAGYQVATANDGLEAWNALKQGQFDLLVSDVEMPRMDGFSLTARIRADRELSELPVVLVTALHSAEDRARGLEAGANAYLVKSGFEQETLLDAIRRLI	PGPT0015645_1919	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015645-cheA|wspE-K03407	NA	NA
BMS010_02209	1056	cheB_5	COG2201	Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGCGTGTGCTGATCGTGGACGATTCACCGGTGTTGCGCCAACTGTTGCGGGCCATTCTCGAAAACGAAGGCTGCGAGGTGATGGAGGCGGCCGATGGCGAGCAGGCCCTGGCGGTGCTGGCGCGTTTCACGCCCGACATCGTCACCATGGATGTGCACATGCCGGGTATGGACGGCTACGAAACCACGGCGCAGATACTCGAGCGCTATGCCTTGCCGGTGGTGGTCATCACCGCCAGTGCCAATCCCAAGGACTCGGAAACCGCCATCCGCGCCCTGGAGGCGGGGGCCCTGGCCGTGTTGGAAAAACCCGGCGGCCCCAGCGTCGAGGGCTTCCAGGAGCGCGTCGACGAACTGCTGCGCACCCTGCGTAGCATGTCCAAGGTCAAGATCGTTCGCCGCTCACGGCTCGCCGGCAAGGTCCGCAGAAAGCCGGCGTCGGAGAAGGGCGACGAGGTGGCCATGGTTCCCGCGCTGATCGTCGCCATCGCCGCTTCCGCCGGCGGGCCGGTGGCACTCAAGTCCCTGCTGCAGGCCGTACAGCCGCCGTGGCCCTGGCCCGTGGTGATCGTCCAGCACATCGCCGCGGGCTTCATGCCCAGCTTCCGCGACTGGCTGGCGGGCTTCACGCCGATACCGGTCAGCCTCGCCGAGCAGGACCAGGCGCTGGCGCCGAACCAGGTGTACCTGGTGCCCGACGGTTTCCATCTCGGTTTCAACGCGAATCGTCGCGTATTCCTGGACGATGCGCCCCCCGAGGATTACATCCGGCCTTCGGCGAACTATCTTTTCCGTTCGTTGGCCCGGCATTTCGGCCGGCACACGATTGCCATCCAACTGTCGGGAATGGGACGGGACGGTGCGGATGGGTTGGCGGAATTGTTCCGGGCCGGGGCCCTGACCCTGGTCCAGGAACCTTCCAGCGCGGTGATCGACTCCATGCCCCGGGCGGCGCTGGCAGTCGCGCGGCACGTGCTTCCCCCCAAGGAAATCGCCGAGAGGTTGAACCGGCTCGCGGCGCAGACAAGTCCGGTTGTCCAGGGCAACAAGGAGTAA	MRVLIVDDSPVLRQLLRAILENEGCEVMEAADGEQALAVLARFTPDIVTMDVHMPGMDGYETTAQILERYALPVVVITASANPKDSETAIRALEAGALAVLEKPGGPSVEGFQERVDELLRTLRSMSKVKIVRRSRLAGKVRRKPASEKGDEVAMVPALIVAIAASAGGPVALKSLLQAVQPPWPWPVVIVQHIAAGFMPSFRDWLAGFTPIPVSLAEQDQALAPNQVYLVPDGFHLGFNANRRVFLDDAPPEDYIRPSANYLFRSLARHFGRHTIAIQLSGMGRDGADGLAELFRAGALTLVQEPSSAVIDSMPRAALAVARHVLPPKEIAERLNRLAAQTSPVVQGNKE	PGPT0015650_2508	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015650-cheB|chpB|wspF-K03412	NA	NA
BMS010_02210	3579	rcsC_7		Sensor histidine kinase RcsC	ATGTACAGCAACGCGGAAATCCTCGTCGTCGAGGACAGCCCGACCCAGGCGACGGAGCTGCAGTACCTGCTGGAGTCCGCCGGCTGCACGGTGAGGGTCGCGCATAACGGCGTCGAAGCCCTGGCCAGCATCGCCGAACGCCGCCCGACCATCGTCATCAGCGACATCGTGATGCCGGAAATGGACGGCTACGAACTCTGCCGCCGCCTCAAGAGCCAGCCCGAAACCCAGTTCATCCCGGTGATCCTGGTGACCTCGCTGGCGGATGCCCGCGACGTCGTGCACGGTCTGGCCTCGGGCGCCGACAACTTCATCGTCAAGCCTTTCGACGAGAAGTATCTGATGTCGCGCATCCGCTATTTCCTGGTCAACCTCGAACTGCGGACCCACGAGCGGGTACAGATGGGCGTCGAGGTGGTGCTGGAGGGCGAGCGGCATTTCATCACCGCCAGCCGGCAACAGATTCTCGACCTGCTGATTTCCACCTATGAGCAGGGCGTGCGGCTGAATCATGAACTGCAGGCCAAGCACGACGAACTGGCGAAGACCAACTCGGTGCTCAACAGCCTGTTCCACTTCACCACCGGCCTGACCGACGCGCAGAGCGAGCAGAGCGTCATCGAGGCCGCGCTCAAGCGCATTCTCAGCTTCCCGGATGCCAAGGGCGCCTGGCTGCTGCTCTGCGACCCCAAGGACCCACGCGAAACCGTGCGGGTCGGCGGAGCCTACGGCAAGGGGCGCGACTACTCGCTCGAAAACCTGGCGCGCTGCGCCGCCAACTGCCCCTGCCGGCACGCCTGGTTCAGCGACCGGCTCAACACGCCGAGCAACATCCTCGGCTGCCCGGCGCTGGAGCGGGTGGGCGATGGGTACCATGCCAGCATCCCGCTGGTGCTCGGCAGCGAGACCATCGGCATGCTCAACGTGGTCCACAGCGGGGCCCAGGAATGGCCGCAGGATGCGCTGAACGCCCTGGCCTCGATCGGTCGCCAACTGGCCATGGCATTGGGGCGGGCGCGGTTGTTCGAAAGCATGGAGCAACTGGTCGAGCAGCGCACCCTGGCCCTGCAACAGAGCGAGGCGTTGCTGCGCAAGATCCTCGACAGCCTGCCGGTGGGCGTCTTCGTCGCCGACAAGGAAGGCCGGCTGATCATGAGCAACCCGGAGAGCAGCCTGATCTGGGGCGGCAACCTCCCGGCCGGGCTGGAAGGCTATGGACAATACAAGGGCCGCTGGGCCGAAACCGGTGAACCGCTGTCCGGCGACGACTGGGCCATGGTCCGCGCCGTGCACAACGGCGAAGTCTCGCGCAACGAAGTCATCGACATCGAAACCTTCAACGGCGAGCACAAGACCATCCTCAACTCGGCGGTACCCTTCCTCGACAGTGGCGGCGTGATCCAGGGTGCCATCGTCGTCATCCAGGACATCACCGCCCAGCGCCAGCGCGACCTGGACATCCGCATCCGCACCCGAGCCATCGAAGCCAGCGTCAATGCCATCGTCATCACCGATAACGAGCAGCCGGACCAGCCGATCGTCTACGTCAACCCGGCGTTCGAACGCATCACCGGCTACAGCGCCGAAGAAGTGGTGGGGCGCAACTGCCGCTTCCTGCAGGGCGAGAACCGGCAGCAGCCGGAACTGGAAAGCATCCGCCGGGCGCTGCGCGCCGAGGAGGAGGGCGGCAGCCTGTTGCGCAACTACCGCAAGGACGGCTCCGAATTCTGGAACGACCTCAAGGTGGCGCCGGTGGTCAACGACCGGGGCAAGGTCAGCCATTTCGTCGGCATCCTCGACGACGTCACCGCCGGCAAGCGCTACCAGGAAGAGCTGGAGCACCAAGCCAACCACGACAGCCTCACCGGGCTGCCCAACCGCAACCTGCTGCACGACCGCATCCGCCAGGCCATCGCCTTCGCCAGCCGCGACGGCACTTCCTTCACCCTGGCCTTCCTCGACATCGACCATTTCAAGCTGATCAACGACGGCATGGGCCATAACGCCGGCGACCAACTGCTGCGCATGGTCGCCGCCCGCCTGCTGGAAAACGTCGGCGAGGTGGATACCGTCGCGCGCCTGGGCGGCGACGAGTTCATCATCCTGCTGGCCCATACCGACCAGCTCGACAAGCAAATCGCCTGGCTCGAACACCTCAAGGAGCGCATCGCCGAGCCCATGGAGCTGGAAGGCCAGGAACTGGTGGTGAGTTGCAGCATCGGCTTCTGCTGCTTCCCCAGCGACGGGCGGGACGCCGGCACACTGCTGCGCAACGCCGACACCGCCATGTACCAGGCCAAGCACCAGGGGCGGAACCGCATTTGCGCCTTCATGCCGGAGATGAACGCCCAGGTGCAGAAGCGCCTCGAGCTGGAGCGGGATGTCCGCTACGCCCTCCAGCACAGCGAATACCTGGTCGTTTACCAGCCCCAGCTCGACCTGCACAACGGCCGTCTATGCGGTTTCGAGGCCCTGGTGCGCTGGAGCCGCAAGGGAAAGACCGTGCCGCCAATGGACTTCATCCCGTTGGCGGAGGAAACCGGCTGGATCGTCGCCATCGACTTCTACGTGCTCGAAGCGGTGTGCCACCAGTTGCACCAGTGGCGCAGCGATCTGCCGCGTGATCTCGCCATCGCGGTGAACTTCTCGGCGATCAGCTTCATGGAAGCCAACTACGTCGCCCGGGTAGCGGAAATCCTCACCCGGACCGGCACCTCGCCGCGGCTGATCAAGATCGAGATGACCGAAAGCATCCTGATGAACAACGCCGAGGACGTGCTGCTCAAGATGCAGCAGCTCAGTGCCCTGGGCATCCGCTTCTCCATCGATGACTTCGGGACCGGCTACTCCTCGCTGGGCTACCTCAAGCGCTTCCCCTTCGCCCAGCTGAAGATCGATCGCAGCTTCGTCGCCGACGTGCTGACCGAGCCGGACAGCGCCTCGCTGACCCGCTCGATGATCTCCATCGGCCACAACTTCGGTATCCGGGTGATCGCCGAGGGGGTGGAGAACGCCGAGCAGCTCAGCTTCCTGCGTCGTGCCGGCTGCGACGAGCTGCAAGGCTACTTTTACTCACCGCCGCTGCCGGCCCAGGCCTGCCTGCAATTCCTGCAGAACGGCGGCTTGCTCTCGCTGCCGGAGCGTATCCTCGACAGCACCGAGCACTACCTGCTGATCGTCGGCAACGAGGCTAACAGCCTGTCGATCCTGCAACGCGAGCTGGGCCTGGAAAGCTACCGGTTGCTCATCGCCGGCAGCGGCATGGAAGCCTTCCGCCTGCTGGCCACCAACCCGGTCGACGTGATCCTGACCGACCTGCGCCTGACCGACACCAACGGCGTCGACCTGCTGCGTCGGGTGCGTGTCATCTACCCCGACATCGTACGCATGGCCCTGAGTCACAGCAGCGAAGTGCCGAGCATCCTCAAGGCCATCAACTCCGGCATCATCCACCGCTTCATCAGCAAACCCTGGGAGCCGGACGACCTGCGCCACCAACTGCGCGACGCCTTCCACCTGCGCGAACTGCAGCGGGAAAACCAGCGGATGCGCCAGCAGTTGAGGATTTCCAACGAGTGA	MYSNAEILVVEDSPTQATELQYLLESAGCTVRVAHNGVEALASIAERRPTIVISDIVMPEMDGYELCRRLKSQPETQFIPVILVTSLADARDVVHGLASGADNFIVKPFDEKYLMSRIRYFLVNLELRTHERVQMGVEVVLEGERHFITASRQQILDLLISTYEQGVRLNHELQAKHDELAKTNSVLNSLFHFTTGLTDAQSEQSVIEAALKRILSFPDAKGAWLLLCDPKDPRETVRVGGAYGKGRDYSLENLARCAANCPCRHAWFSDRLNTPSNILGCPALERVGDGYHASIPLVLGSETIGMLNVVHSGAQEWPQDALNALASIGRQLAMALGRARLFESMEQLVEQRTLALQQSEALLRKILDSLPVGVFVADKEGRLIMSNPESSLIWGGNLPAGLEGYGQYKGRWAETGEPLSGDDWAMVRAVHNGEVSRNEVIDIETFNGEHKTILNSAVPFLDSGGVIQGAIVVIQDITAQRQRDLDIRIRTRAIEASVNAIVITDNEQPDQPIVYVNPAFERITGYSAEEVVGRNCRFLQGENRQQPELESIRRALRAEEEGGSLLRNYRKDGSEFWNDLKVAPVVNDRGKVSHFVGILDDVTAGKRYQEELEHQANHDSLTGLPNRNLLHDRIRQAIAFASRDGTSFTLAFLDIDHFKLINDGMGHNAGDQLLRMVAARLLENVGEVDTVARLGGDEFIILLAHTDQLDKQIAWLEHLKERIAEPMELEGQELVVSCSIGFCCFPSDGRDAGTLLRNADTAMYQAKHQGRNRICAFMPEMNAQVQKRLELERDVRYALQHSEYLVVYQPQLDLHNGRLCGFEALVRWSRKGKTVPPMDFIPLAEETGWIVAIDFYVLEAVCHQLHQWRSDLPRDLAIAVNFSAISFMEANYVARVAEILTRTGTSPRLIKIEMTESILMNNAEDVLLKMQQLSALGIRFSIDDFGTGYSSLGYLKRFPFAQLKIDRSFVADVLTEPDSASLTRSMISIGHNFGIRVIAEGVENAEQLSFLRRAGCDELQGYFYSPPLPAQACLQFLQNGGLLSLPERILDSTEHYLLIVGNEANSLSILQRELGLESYRLLIAGSGMEAFRLLATNPVDVILTDLRLTDTNGVDLLRRVRVIYPDIVRMALSHSSEVPSILKAINSGIIHRFISKPWEPDDLRHQLRDAFHLRELQRENQRMRQQLRISNE	PGPT0023624_117	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-GGDEF|EAL|PAC|PAS-DOMAIN-CONTAINING_PROTEIN,PGPT0023624-GGDEF|EAL|PAC|PAS_domain_containing_protein-NA	NA	NA
BMS010_02211	393			hypothetical protein	ATGGGATGCCCGCACGTGTGTTCCGGCGCCACGCTGCAATGCAGCTTCGGCGCCGCGCCCGCGACGCTCAACGTGCTGCCCGTGAACCGGACGCTGATCGGCGGCATGCCGGCGGCGAACATCATGGATTACATCCCGCTGGTCAATATCACCACCTTCGGCATGTGCCAGAGCCTCGCCAATCCCACCGTTGCCTCGGCGACCGCCGCAGCCATGGGCGCGTTGACCCCCATGCCTTGCATTCCCGCTACCGCCACGCCCTGGATTCCGGGGGCGCCGACCCTGCTGCTCGGCAACATGCCGGCGCTGGATGCCAACTGCACGCTGATGTGTACCTGGGCCGGGGTAATCAAGGTCGTCTACCCCGGGCAGGTGCAGATGCTGATTCCCTAG	MGCPHVCSGATLQCSFGAAPATLNVLPVNRTLIGGMPAANIMDYIPLVNITTFGMCQSLANPTVASATAAAMGALTPMPCIPATATPWIPGAPTLLLGNMPALDANCTLMCTWAGVIKVVYPGQVQMLIP				NA	NA	NA	NA	NA
BMS010_02212	495			hypothetical protein	ATGGATCGAGCGTTTACTCCCCTCACCTTTCTTCGCTACAACCGTCCTCTGCGCGGCGTGATGATCGACAACCAACCCTGGTTCGATGCCCAGGATTTCTGCCGCCTCATCGGCCATCGCCATCCCCAGCGAATTACCCGGATGATGGAGGACGACCAGATTCGTACCGTGCGTTTCCTCTACGCCAGCGGCGGCGAAGAAGACGCACAGGTCATCAACGAATCCGGTATCTATCGGGCTCTCGGTCGATACCCCCACCCGGAAAACCGCAGCCTGCGTCGCTGGCTCAATGTCGAGGTGATCCCGGCGCTGCGCGATGCCTTCTCGACCGAGACACAACAGCCTCGCCGCACCCAGATGACCTGGGCCTCGCAGCGGGTGAGTCTGCTGGAATGGCAAGGCAAACTGTGGGTGCCGCTGGACAGCCTGCCGTGGTTTGGAACGCGGCCGATGGAGGAGGCTGGAGGCGGTTTGTTGAAGCGCTGGTTGCGCTGA	MDRAFTPLTFLRYNRPLRGVMIDNQPWFDAQDFCRLIGHRHPQRITRMMEDDQIRTVRFLYASGGEEDAQVINESGIYRALGRYPHPENRSLRRWLNVEVIPALRDAFSTETQQPRRTQMTWASQRVSLLEWQGKLWVPLDSLPWFGTRPMEEAGGGLLKRWLR				NA	NA	NA	NA	NA
BMS010_02214	555			hypothetical protein	ATGCACGACGGCAAACCCTCCGGAAATGTCACCCTGCGCCGGGGCGACGCGCAGTTGAACGGCATGCTCATGGACGGCGCGCTGGACGGCCCGGTGCGCATCGACGACAGCGGCCGGCCGCTGGCCACCCTCAGCTACCGCCAGGGTAGCCTGCATGGCCCGCTGGTGATGCTCCACCCCAACGGCAAACCCTCGGCGCGCCTGAACTACGCCAACGACCGCCTGCACGGCCCGGCCAGCTTCTACGCCGAACAGGGTTGGCTGCTGCGCCAGGCCAACTACCGCGACGGGCTGCTCCACGGCGAAGTGAAAACCTACTTCAGCGACGGCACCCTGGCCGAGCTGGAGCACTATCACGCCGGGCAGTTGCACGGGCTTTACCAGCGCTTCCACGCCAACGGCCGCACGGCATTGCGCTGCACCTATCGGCAAGGCGTGCTGGCCGAGCCGAAACAAGGTTTCGCCGAAGACGGCCGCCCGCTGGACGACGACGGCAAGCCGGTGTCCCGCCTCACCTGGTGGTGGCGGCGTTGGGGCGAGGCCTCCGAGGTGTAG	MHDGKPSGNVTLRRGDAQLNGMLMDGALDGPVRIDDSGRPLATLSYRQGSLHGPLVMLHPNGKPSARLNYANDRLHGPASFYAEQGWLLRQANYRDGLLHGEVKTYFSDGTLAELEHYHAGQLHGLYQRFHANGRTALRCTYRQGVLAEPKQGFAEDGRPLDDDGKPVSRLTWWWRRWGEASEV				NA	NA	NA	NA	NA
BMS010_02215	2007			hypothetical protein	ATGCCCCGCCCCACCGATACCACTACCAGCCTGTCCCTCACCGCCTCGGCGCTGGCCGACCTGTACCCGGAAACGCTTTCCGGCAGCGAATTGCTGAACACCCTCGCTGGCCTGGCATTGGGCGGTTACAGCGCCACGGCACTCACCCTGGCAGATGCCATTGCCACCCATGCCACGGCCACCCTCCACAACGACGCCAACCAACGCCCCCTCGACGCCCTGGTCGCCGAAATCCACCAGCTCCCCGCCGATGCCACCGCCGACCGCTACCAGTTGGTCCTGCGTCCCTGGCTCTGGTGGCTGACGCTCGCCAGTAACAATCGGGTGTTCCAGAACAAGACCACCGGCGAGATCGTCACCGCCGTGTTCGATGTCCATGGTTTCAGCGATTACGAATTGAAGCTGACCGGCAGCTACAGCCCGCGTGAATACTGCGTGCAGTACGGCGAGACGGACTTTGCCTTCGTCTCGCGGCTGCTGGAGGAGGAAGGCATTTTCTGGTTCTTCACCCACGAGGCGGGCAAGCACACGCTGGTGCTGGGCGATAGCAACGACGCCTTCCCGCCCTGCCCCAACACCACCACGGTGAACTACGTCGGCCAGCGACCGGGGGAGCGCGAGCTGCATGGCATCCGCTCCGGGCAGGTGTGTTTGCAGGCGGTGGCCGGCGGGTATCGGGCGACAGATTATGAATTCACTACGCCGACCACTTCGCTGTACGGCCAGGCCGAGGCGGTAGCCGGGAGTTTTTCTGTCTACGAACACCCTGGTGGCTACTCCGCGAAGGCGCGGGGCGATGCCTTGGGCAAGCTGCGGATCGATGCGCTGCGTACCCAGGAAAAGCGCTTCATCGGGGAAAGCGATTGCCGCTGGCTGGTGCCGGGCCATTGGTTCACCCTCGCCGGGCATGACGATGCGACGCTGAACATCGACTGGGTGGTGACTTCGGTGACTCACGACGCCAGCCACCAGCACTACCGCAACCGCTTCGAAGCCATCCCCAAGGCCACCGCCTACCGTCCGCCGCGCACCACACCCAAACCACGTATGCACACCCAGACCGCCATCGTGGTGGGCAAGGCCGGGGAGGAAATCTGGACCGACGAACACGGCCGCATCAAGATCCAGTTCCCCTGGGATCGCGACGGCCAGAATGACGAGACCGCCTCCTGTTGGGTGCGCGTTGTGCTGCCTTGGAGCGGCAAGGGCTTCGGCATGCAGTTCATCCCGCGCATCGGCCAGGAGGTGATCGTCACCTTCATCGACGGCGACCCGGACCGGCCGCTGGTGACCGGCTGCGTCTACAACGGCGACAACGCCCTGCCCTATGCCCTGCCGGCGAACCAGACCCAGTCCGGCATCAAGACCAACTCGAGCAAGGGTGGCGGCGGCTTCAACGAGCTGCGTTTCGAAGACAAGAAGGACAGCGAGGAAGTCTTTCTCCAGGCGCAGAAGGACCTCAAGGTCAATGTGCTCAACGACAGCACCGCCACCATCGGCCACGACGAGACCCAGACCGTGCAGAACGCCCGCACCCGCACGGTGAAGGAAGGCGACGAAACCATCACCCTGGAAAAAGGCAAGCGCACCGTCACTCTCCAGACCGGCAGCGACACCCTGGAGGTGAAGGACACCCGCACCGTCAAGGTGGGCGGGGACCAGACCCACAGCACCGGCGGCAACTACAGCCACACGGTGACCGGCGACTACAGCCTGACCGTGGACGGCAACCTGACCATCAAGGTGACCGGCACCCTCACCCTGCAAAGCGGCGGCGACCTTACCGCGAAGAGCGATGCCAACCTCACCACCCAGGCCGGCATGGCGCTCACCGACAAGGCCGGGACATCCCTCACCAACCAGGCGGGGACCTCGCTGGACAACAAGGCCGGCACCACGCTGACCAACGACGCCGGCGTCAGCCTGACCAACAAGGGCGGCGCCGAGCAGACGGTGGACGGCGGCGGCATGCTGACCATCAAGGGCGGGCTGATCAAGGTGAACTGA	MPRPTDTTTSLSLTASALADLYPETLSGSELLNTLAGLALGGYSATALTLADAIATHATATLHNDANQRPLDALVAEIHQLPADATADRYQLVLRPWLWWLTLASNNRVFQNKTTGEIVTAVFDVHGFSDYELKLTGSYSPREYCVQYGETDFAFVSRLLEEEGIFWFFTHEAGKHTLVLGDSNDAFPPCPNTTTVNYVGQRPGERELHGIRSGQVCLQAVAGGYRATDYEFTTPTTSLYGQAEAVAGSFSVYEHPGGYSAKARGDALGKLRIDALRTQEKRFIGESDCRWLVPGHWFTLAGHDDATLNIDWVVTSVTHDASHQHYRNRFEAIPKATAYRPPRTTPKPRMHTQTAIVVGKAGEEIWTDEHGRIKIQFPWDRDGQNDETASCWVRVVLPWSGKGFGMQFIPRIGQEVIVTFIDGDPDRPLVTGCVYNGDNALPYALPANQTQSGIKTNSSKGGGGFNELRFEDKKDSEEVFLQAQKDLKVNVLNDSTATIGHDETQTVQNARTRTVKEGDETITLEKGKRTVTLQTGSDTLEVKDTRTVKVGGDQTHSTGGNYSHTVTGDYSLTVDGNLTIKVTGTLTLQSGGDLTAKSDANLTTQAGMALTDKAGTSLTNQAGTSLDNKAGTTLTNDAGVSLTNKGGAEQTVDGGGMLTIKGGLIKVN	PGPT0030410_3465	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0030410-vgrG-K11904	NA	NA
BMS010_02216	669			hypothetical protein	ATGAAAATAGGCAGCTTTAACGTTGAGAAGAACGGGCTTTCCTCCACCGATATCAAGCAGAGCCAGGTCGACACGTTTATCGACAACTGCTGCTCCAATAAATGTTGGGACGCGGACCTCGTCTTTATTTGCGAAGTGCACTCGGGGCAGCTTGAAAATTATCGGTCGAACTTGAGTGATAGATATCCAACCTACAACGTTTCAGCCTTTGCGGGAGGTTACTCGAATGGCTACATCGTGATGACAAAGGCTTTCAAACAGATTGAGGTCGTTGCCCAAGGAAACCTGAAGGGCCTCAATAGAGAACTCATCGCGGTGTATGCAACCGGGGTCGATGGGTATACCGGATATGTATTTCTGGCACATTTCAAATCCGGGCAGACCACCTTGACCAAAAGCCAATTGATGAACTGCACGGCCTTGGATGGGAATTGGGTCGTCACCGGTGATTTGAATTACGAGTATGCCAATCTCAAGAAGCTCAACCCGCCGGGTATTGGCTACGAGTGCTGGAATGGTCAAGCCACTCAAGCAAAGGGAGGCATCCTCGATTGGGTTCTCGCCTCACCCAACGTCCAAGTGAAACCTGTCGACATAACCGGTATGGGCAATGAATTCGACATGAGCGGACCAGATCACCGCCCCATTCTTTTCGAGGTCAAATCCTGA	MKIGSFNVEKNGLSSTDIKQSQVDTFIDNCCSNKCWDADLVFICEVHSGQLENYRSNLSDRYPTYNVSAFAGGYSNGYIVMTKAFKQIEVVAQGNLKGLNRELIAVYATGVDGYTGYVFLAHFKSGQTTLTKSQLMNCTALDGNWVVTGDLNYEYANLKKLNPPGIGYECWNGQATQAKGGILDWVLASPNVQVKPVDITGMGNEFDMSGPDHRPILFEVKS				NA	NA	NA	NA	NA
BMS010_02217	2550	clpV1_1	COG0542	Protein ClpV1	ATGGAACTCGGCACCCTGATCGGCCGGCTCAACGCCGATTGCCGCCGCGCCCTGGAACGGGCCGCCCAGCGCTGTATGCAGCGCACCCACCACTACGTCGAAATCGAACATCTGCTGCTGGAACTGCTGGACATCGAAGGCGGGGACTTCGCCTGCCTGCTGCCACGCTTCGGCCTGGAGCGCGACGCGGTGGAGACGGAGATCAACCAGGCGCTCGAGCTGTTCAAGGCCGGCAGCACGCGCACGCCGGCGCTCTCCACCCAGACCATCGGACTGTTGGAAGACGCCGTGGTCCAGGCCAGCGTGCTCGGCCAGGGCAGCATCCGTTCCGGCTTGCTGCTGCTCGCCCTGCTCGACCGCGAGGAACGCCGCACCCTGCTGCTGAACAGCGCCTCCTCGCTGCTGCGGATATCTCGGGAGGCGCTGCGTGCCAACCTGCTGGAATGGACCGAACTCTCCCGCGAAGCACCGGCCGGGGCGCGCAAAGTGCCGGCGGGCAAACGCACGGAGGCGCCGGCCGAAGACTCGGTGCTCGACCAGTACACCCAAGACCTCACCGAAGACGCCCGCAATGGCCACATCGACCCCATCGTCGGCCGAGACAACGAGATTCGCCAGACCATCGACATTCTCCTGCGGCGCCGACAGAACAACCCGATCCTGGTAGGCGCCCCCGGCGTGGGCAAGACCGCGGTCGTCGAGGGCCTGGCCCTGCGCATCGCCGCCGGCGATGTGCCGCCGCCGTTGAAGGAGGTCAGCGTGCGGGTGCTCGACCTCGGCCTGCTGCAAGCCGGCGCCGGGGTGAAAGGCGAATTCGAACAGCGGCTGAAAGGTGTGATCGATGCGGTACGCAACGCGGAGAAGCCGATCATCCTGTTCATCGACGAAGCCCACACCATGATCGGCGCCGGTGCCGCCGAGGGCCAGAGCGACGCCGCCAACCTGCTCAAACCCGCACTGGCGCGGGGCGAGCTGCGCACCATCGCCGCCACCACCTGGCTGGAATACAAGAAGTATTTCGAGAAGGACCCGGCCCTGGCCCGGCGCTTCCAACTGGTGCAGGTGGAGGAGCCGGACGAAGCCACGGCGGTGGAGATGCTGCGCGGCGTCGCCGCCAAGCTGGAACAGCACCACGGCGTGCAGGTGCTGGACGCGGCCATCCATGACGCAGTGAAGCTGTCGCACCGCTACATCTCCGGGCGGCAACTGCCGGACAAGGCCATCAGCGTGCTGGATACCGCCTGCGCGCGGGTCTCCCTCGGCCAGCACGATGTACCGCCACCGCTGGAAAGCCTGCGCCACCGCCAGCAAGCCCTGAAGGAAGAACTGGAGCGCCTGCGCCGCGAGCAGACCACCGGCCAGGACCACCGCGAACGCATCACCACGCTGGAAACCGAGTCAGCCGGCAACCTCACCGCCATCCGCGAGTTGGAAATCCGCTGGGCGGAAGAGCGCGAAGCCGTCCGCGAGTTGCTGGAGGCCCGCCGCGAACTGCTCTCCCTCAGCGAAACCGCCGACGCCGACAAGCCCGACGAAGAGCTCGACGGTCGTATCGACCACCTGGCCGCCGAACTTCTGCGCCTGGAAGCCGGCCTCGACGCCATCCGCCAGGACGAACCGTTGGTCCCGGAACGGGTGGACTCCAAGACCGTCGCCGCCGTGATCGCCGGCTGGACCGGCATCCCGGTGGGCAAGATGCTCGCCGACGAAGCCCACGCCGTGCGCACCCTCGGCCAGCGCCTCGGGCAACGGGTGATGGGCCAGGACAACGCGCTGAATACCATCGCCCAGCGCATCCAGGCCTACCGTGCCGGTCTCACCGACCCGGCCAAGCCGGTGGGCGTGTTTCTCCTGCCCGGCCCCACCGGGGTCGGCAAGACGGAAACCGCCTATGCCCTGGCCGACGCGCTGTATGGCGGCGAGCGCAACCTCATCGCCATCAACCTTTCGGAATACCAGGAAGCCCACACCGTCAGCCAACTCAAGGGCGCCCCGCCCGGCTATGTCGGATACGGCTCTGGCGGTGTACTCACCGAAGCCGTGCGCCGCCGGCCCTATTCCGTGGTGCTGCTCGACGAAATCGAAAAAGCCCACCCCGATGTACTGGAAGCCTTCTACAACGTCTTCGACAAAGGCGTGATGGAAGACGGCACCGGCCTGGTGGTGGACTTCAAGAACACCGTGATGCTCGCCACCAGCAACGTCGGCGCCGAGCTCATCCTCGATACCCCGCTCGAGCAACTGGGCAGCGACGCCTTCAACCAGCGCCTGCACCAGACCCTGCTCAAAGCCTTCCGCCCCGCCTTCCTCGCCCGCATGACCGTCGTGCCCTACCGCCCGCTGGACGAAGCGACGCTGGAAGGCATCGTCCTGACCAAGCTGGAAAAACTCCGGACGCGCTACAAGGCGGCGACGGGCAAGCACTTCGACTTCGACCCCGACATCGTCAAGGCGGTGTTGGCCAAGTGCAGCTCGGCGGGCGCGCGGGATATCGAGAATGTGCTGATGGCGGAAGTGACGGGGAAGTTGGCGGAGTGGGTGTTGGAGTAA	MELGTLIGRLNADCRRALERAAQRCMQRTHHYVEIEHLLLELLDIEGGDFACLLPRFGLERDAVETEINQALELFKAGSTRTPALSTQTIGLLEDAVVQASVLGQGSIRSGLLLLALLDREERRTLLLNSASSLLRISREALRANLLEWTELSREAPAGARKVPAGKRTEAPAEDSVLDQYTQDLTEDARNGHIDPIVGRDNEIRQTIDILLRRRQNNPILVGAPGVGKTAVVEGLALRIAAGDVPPPLKEVSVRVLDLGLLQAGAGVKGEFEQRLKGVIDAVRNAEKPIILFIDEAHTMIGAGAAEGQSDAANLLKPALARGELRTIAATTWLEYKKYFEKDPALARRFQLVQVEEPDEATAVEMLRGVAAKLEQHHGVQVLDAAIHDAVKLSHRYISGRQLPDKAISVLDTACARVSLGQHDVPPPLESLRHRQQALKEELERLRREQTTGQDHRERITTLETESAGNLTAIRELEIRWAEEREAVRELLEARRELLSLSETADADKPDEELDGRIDHLAAELLRLEAGLDAIRQDEPLVPERVDSKTVAAVIAGWTGIPVGKMLADEAHAVRTLGQRLGQRVMGQDNALNTIAQRIQAYRAGLTDPAKPVGVFLLPGPTGVGKTETAYALADALYGGERNLIAINLSEYQEAHTVSQLKGAPPGYVGYGSGGVLTEAVRRRPYSVVLLDEIEKAHPDVLEAFYNVFDKGVMEDGTGLVVDFKNTVMLATSNVGAELILDTPLEQLGSDAFNQRLHQTLLKAFRPAFLARMTVVPYRPLDEATLEGIVLTKLEKLRTRYKAATGKHFDFDPDIVKAVLAKCSSAGARDIENVLMAEVTGKLAEWVLE	PGPT0025985_1511	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025985-vasG|clpV-K11907	NA	NA
BMS010_02218	1020			hypothetical protein	GTGGGAGCCACAGGCCGGAATGCCCCTCTCGCTCTGAGCGCGCGCCTGCGCCGCCAGCCGCAGGCGTTCGAACTGATGCAGGCGTTGCTGCTGCTCGAACGCGAGCGACCGGATGCAATGCCACTGGGCAGCAGTACCGTCCCGAGCGGCGAGGCCGTGCGCCTGCGCGGCCCGTTGACGCCGCTGTTCGCCTCCAGCCAGGTGGAGCGGCTGGTGGAAGACGGCGAGCCCGTGCCAGTGCTGACCACGCCGGTGTTCGGCCTCGGCGGCCCGGACGGCCCCCTGCCCTACGCCTATCAGGAATGGCTGCAACAACGCGCCCGCCGCAAGGACCACGCCCCGGCGGAATTCCTCGACCTGTTCCAGCATCGCCTGCTCAGCCTGCTCTACCGCGTGCTGCGCAAGCACCGTGTCGCCCTGGGCTTCACCGCACCGGCGGACAGCCCCGTGCAGGCGCAGTTGCGCGCCCTGACCGGGCTGCTACCGCGTCACGTGCGCCAGCGCCAGGCGGTACCCGACGAAGCCTTCCTGGCGCGCGCCGCACTGTTCGCCGGGCAGCGCCGCTCGCTGGCCGGGTTCGCCAGCATCGTCCGCTGCCACTTCGGCGTGGCGGCCCGCCTGTCCGCCTACGAAGGCGCCTGGCGCAGCATTCCGTCCGCCTCGCGCAGCCGTTTGGGCCGCTCGGGGCGCAACCTGCAACTGGGTCGCAACGCCGTGGGCGGCACCCACGTCTGGGACGAGCATGCCGGCATCCGCTTGACCCTTGGCCCGTTGTCGCCTCGGCAGGCATCGTCATTCCTGCCCAACGGTGCCCATCACCGGCAACTCGCCAGCCTGGCCGCGATGTACTTCGGCCCCGATCTCGACGTGTCGCTCACCCTCTTGGTGGATAGCGCCGGGCCCATGGTCCTGGATCGTCAGTCGCCGCCGCTGCTGGGCTGGAACGGTGGCCTGCAACGCCAGGCCAACCCCGCGCAGCAGCGCATCGATATCCGTTTGCAGCAGCCGGAGGCGGCCTGA	MGATGRNAPLALSARLRRQPQAFELMQALLLLERERPDAMPLGSSTVPSGEAVRLRGPLTPLFASSQVERLVEDGEPVPVLTTPVFGLGGPDGPLPYAYQEWLQQRARRKDHAPAEFLDLFQHRLLSLLYRVLRKHRVALGFTAPADSPVQAQLRALTGLLPRHVRQRQAVPDEAFLARAALFAGQRRSLAGFASIVRCHFGVAARLSAYEGAWRSIPSASRSRLGRSGRNLQLGRNAVGGTHVWDEHAGIRLTLGPLSPRQASSFLPNGAHHRQLASLAAMYFGPDLDVSLTLLVDSAGPMVLDRQSPPLLGWNGGLQRQANPAQQRIDIRLQQPEAA	PGPT0025940_1106	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025940-impH|vasB-K11895	NA	NA
BMS010_02219	1794			hypothetical protein	ATGAGCGATTCGATTGACCAGGAGCTACTGGACTATTACCAGCGTGAGCTGACCTGGCTGCGGCATGCCGGCGCCCGTTTCGCCGAGCGCTACCCCAAGGTCGCCCGGCGCCTGGAACTGGCCCCCGGCGAGTGCCCGGATCCGCATGTGGAGCGGCTGCTGGAAGGCTTTTCGCTGCTCGCCGCACGCCTGCAACGTCGCCTCGACGATGACTACGCCGAGTTCAGCGACGCCCTGCTGGAACAGCTTTACCCACTGGCCCTGCGGCCGCTGCCGTCCGCTGCCATCGTCCAGTTCGAGCCGGACCCGACCAAGGGCAACCTCGCCGAAGGCTATGCGCTGCCACGGGACACACCGCTGTTCGTCACCACCCGCAGCGGCGAGAGCATCCATTTCCGCACCACCGCCGACGTTACCCTCTGGCCGCTGGAAATCAGCGACGCCGTGCTGCTCTGCGCGGAAGAAGCCCAGGCCCTGACCGGCGTGCCACAGGCCCGCTCGGCGCTGCGCCTGACCCTGCGCAGCCTCGGCGAAACGCCTTGTGCCGAACTGCCCATCCGACAGCTGCGGCTGCACCTGGCCGCCTCGCCAGTGGTCAACGCGACACTGTACGACCTGATCGGCGCCCACACCGTGCAGCTTCTTCGCGGCCCTGCCGGAACACCGCCGAAGCGTCAGGCAGGTTCGCCCGCACCGGTCGGATTCGCTGCCGACGAGGCCCTGTTGCCCGACGAGGATGGCCTGCATCCCGGATTGCGCCTGCTGGCGGAATACTTCGCCTACCCGGACAAGTTCGCCTTCTTCGACGTGCCCCTGGACATGCCGGAGGATGTGAACGAGGCGCTGGACCTCTATCTGGTTTTCGACCGCGCCCCGGCGGCGCGCCTCAATCTGCAACGCACCGACCTCGCCCTCGGCTGCGCCCCGGCGATCAACCTGTTTCCCCGTACCTCCGAGCCGCTGCGCCCGGATGGCACCCGCAGCGAGTATCGGCTGGTCGCCGACAGCCACCGGGAAAACTCGGTGGAGATCCACAGCATCCGCACCCTGCGCGCCAGCTCGACGCGCGGCGTGCAGAAGGTGCCGGCCTATTACGGCTACCAGCACGGCATGGGCGACAGCCCGCTGTATTGGCATGCGCGGCGCATCAACGGGCTGACGCCCAACCGGCTCGGCTCCGACCTGCTGCTGAGCCTGGTGGACACCGCCTTCGACCCTCTCCGCGACGCCCCCGAATACAGCCTGACCGCCGAGCTGCTGTGCACCAACCGGCATCTGGCGGAAAGCCTCGACGCGGGCACCCGGCTGGCTTTCGAACGCCCCGGCCCGGTAGCGCGCGCCAGCCTGCGCAACATGCCCAGCCCACAGAGCCTGCCCCGCCTGGGCGGCGAATCGCGCTGGAAGCTGGTCTCGCAGTTGACGCTCAACCACCTCTCCCTGGTGGAGGGCGAGCAGGCCCTGGGCGCGCTCAAGGAAATGCTCCACCTGCACAACCTGCGCGAGGAGAGCAGCGCCCGCAGGCAGATCGACGGGCTGGTCCGGCTCGGCTGCGAACGGGTCGTCGCCCGTGTCGGCACCGATGCCTGGCGCGGTTGGCGCAATGGGTTGGAAGTGCGCATCGCGGTCGATCCGCAGCATTTCGTCGGCACCAGTGCCGTGCTGTTTTCCGGGGTGATGGCGCAGTTCTTCTCGCTCTACGCCAACGCCAACCGCTTCGTCCGCACGGTGCTGGTCCAGGCCGACAAGGAGATCAAGACGTGGGAGCCACAGGCCGGAATGCCCCTCTCGCTCTGA	MSDSIDQELLDYYQRELTWLRHAGARFAERYPKVARRLELAPGECPDPHVERLLEGFSLLAARLQRRLDDDYAEFSDALLEQLYPLALRPLPSAAIVQFEPDPTKGNLAEGYALPRDTPLFVTTRSGESIHFRTTADVTLWPLEISDAVLLCAEEAQALTGVPQARSALRLTLRSLGETPCAELPIRQLRLHLAASPVVNATLYDLIGAHTVQLLRGPAGTPPKRQAGSPAPVGFAADEALLPDEDGLHPGLRLLAEYFAYPDKFAFFDVPLDMPEDVNEALDLYLVFDRAPAARLNLQRTDLALGCAPAINLFPRTSEPLRPDGTRSEYRLVADSHRENSVEIHSIRTLRASSTRGVQKVPAYYGYQHGMGDSPLYWHARRINGLTPNRLGSDLLLSLVDTAFDPLRDAPEYSLTAELLCTNRHLAESLDAGTRLAFERPGPVARASLRNMPSPQSLPRLGGESRWKLVSQLTLNHLSLVEGEQALGALKEMLHLHNLREESSARRQIDGLVRLGCERVVARVGTDAWRGWRNGLEVRIAVDPQHFVGTSAVLFSGVMAQFFSLYANANRFVRTVLVQADKEIKTWEPQAGMPLSL	PGPT0025935_1095	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025935-impG|vasA-K11896	NA	NA
BMS010_02220	456			hypothetical protein	ATGGCCGTATACGGGGCAGGAAGTCAGCCGCCGCTGTTCGAGCGGCTGGCCTCGGAAGACGAAGAGGACCACGCGTCGCCGGTCTATGACCGGCACGCGCTGGCGGAATCGGTGCGCAACGAGTTGCAGCGCCTGCTCAACACCCGTCGCGCCAGCCGGCGGCGCTTGCCGCAGTTGAGCATCATCGACTACGGCATTCCCGACTGGAGCGCCCTGCATGGCGAGCGCGGCGACGACCGCCGTCTGCTCGCCCGCGAGATACGCGACGCCATCGCTCGCTTCGAGCCGCGCCTGTCGCTCGACACGGTGGAGGCGATCCCCCTGCCCAACCAGCTCCAGACGCTGAGCATCAAACTGACCGGCAGCCTGCGCGAAGGCGATCGGCGCTGGCCGGTGGCCTTCGTGATCGATACGGCGACGGATGGACTCGAGGTGCGCCATGAGCGATTCGATTGA	MAVYGAGSQPPLFERLASEDEEDHASPVYDRHALAESVRNELQRLLNTRRASRRRLPQLSIIDYGIPDWSALHGERGDDRRLLAREIRDAIARFEPRLSLDTVEAIPLPNQLQTLSIKLTGSLREGDRRWPVAFVIDTATDGLEVRHERFD	PGPT0030415_9	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_RELATED_PROTEINS,PGPT0030415-hsiF3-K11919	NA	NA
BMS010_02221	498	hcp1_1	COG3157	Protein hcp1	ATGGATGCAATCATTCTCGACCTCGGCGGCGACATCAAAGGTGACTGCCTGCTGGAAGGCTACCAGGACAAGATCGAGCTGATGTCCTACAGCCACAACGTGGCCATGCAGGTCACCAACGATGTCAGCAACTCGGAACGGACTTCGGGCAAGCCGCACATCGGCGAGTTCACCGTCACCAAGTTCGTCGACAGCTCCACCCCCTCCCTCAACGAATACTGCTGCGCCGGCAAACCCCTGCCGGAGGTGAAAATCCTCGTCGGGCGCAACGCCGCCGAGGGCGACGGCAAGGTGCTGCCGTTCATCATCTACACCCTGAACAACGTGGTGTTCTCCAACGTCAGCGTCAGTGGCGGCGCGGGCGGCAAGCCGGTGGAAACGCTCTCCATGAACTTCACCAAGATCAAGTGGGAGCTGACCGCACAGAAAGACGACGGCACCAAGGAAGGCACCGCCGCTTCCACCTGGGACCTGGCCGCCAACAAGCTCGTCAAGTAA	MDAIILDLGGDIKGDCLLEGYQDKIELMSYSHNVAMQVTNDVSNSERTSGKPHIGEFTVTKFVDSSTPSLNEYCCAGKPLPEVKILVGRNAAEGDGKVLPFIIYTLNNVVFSNVSVSGGAGGKPVETLSMNFTKIKWELTAQKDDGTKEGTAASTWDLAANKLVK	PGPT0025980_641	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0025980-hcp-K11903	NA	NA
BMS010_02222	1479			hypothetical protein	ATGGCCACCGCCAGCGAACAAACCAGCGAGAGCACGACCCAGACGTTATCCCTGCTCGACCGCATCATCGCCGAGGGCCGCATGGCTCACGATGACAGCCAGCAGGACTATGCCCGCGATATGCTCGCGGAATTCGCCACCCAGGTCCTCGACGAAGGCATGGCCATCGACAAGGACACCGTGGCCATGATCAACGACCGCATCGGCCAGATCGACGAACTGATCAGTGCCCAGCTCAACCAAATCCTGCATCACCCCGACATGCAGAAGCTGGAAGCCACCTGGCGCGGGCTGCACATGCTGGTGCAGAACACCGAGACCAGCACCCGTCTCAAGCTGCGCCTGCTCAACGTGACGCAGAAGGAGCTGCAGACCGACCTGGAAAAGGCCGTCGAATTCGACCAGAGCGCACTGTTCAAGAAAATCTACGAGGAAGAATACGGCACCTTCGGCGGCCACCCCTTCAGCCTGCTGGTGGGCGACTATGCCTTCGGCCGGCACCCGCAGGACATTGGCCTGCTGGAGAAACTCTCCAACGTCGCCGCTGCCGCCCATGCCCCCTTCATTGCCGCCGCCAGTCCGCGCCTGTTCGACATGGACAGCTTCACCGAACTGGCCGTGCCGCGTGACTTGGCGAAAATTTTCGAGAGCCTGGAGCTGATCAAGTGGCGCTCGTTCCGCGAGAGCGAGGATTCGCGCTACGTCTCCCTGGTGCTGCCGCGCTTCCTGCTGCGCCTGCCCTACGGGCCGGATACCTGCCCGGTGGAAGGCATGAACTACGTCGAGGACGTCACCGGCACCGACCACAGCAAGTACCTCTGGGGCAACGCCGCCTGGGCGCTCGCCCAGCGCATCACCGAAGCCTTTGCCCGCTACGGCTGGTGTGCCGCGATCCGCGGTGCGGAAGGCGGTGGCGCGGTGGAGGGGCTGCCGGCGCACACCTTCCGCACCAGTTCCGGCGACCTGTCGTTGAAATGCCCGACGGAAGTGGCGATCACCGACCGCCGCGAGAAAGAGCTGAACGACCTGGGCTTCATCTCCCTATGCCACAAGAAGAACACCGACATGGCCGTGTTCTTCGGCGGGCAGACCGCCAACAAGGCCAAGGTCTACAACACCAACGAGGCGAACGCCAACGCGCGGATTTCGGCGATGCTGCCCTACGTGCTCGCGGCGTCGCGCTTCGCGCACTACCTCAAGGTGATCATGCGCGACAAGATCGGCAGCTTCATGACCCGTGACAATGTGCAGAGTTACCTGAACAACTGGATCGCCGACTACGTGCTGATCAACGACAACGCCCCGCAGGAGATCAAGGCGCAGTACCCGCTGCGCGAGGCGCGGGTGGATGTCACTGAGGTGGCCGGCAAGCCGGGCTGCTACCGCGCCACGGTGTTCCTGCGCCCGCACTTCCAACTGGAGGAGCTGACGGCGTCGATCCGCCTGGTCGCCACCCTGCCGCCGCCGGTCGCGGCCTGA	MATASEQTSESTTQTLSLLDRIIAEGRMAHDDSQQDYARDMLAEFATQVLDEGMAIDKDTVAMINDRIGQIDELISAQLNQILHHPDMQKLEATWRGLHMLVQNTETSTRLKLRLLNVTQKELQTDLEKAVEFDQSALFKKIYEEEYGTFGGHPFSLLVGDYAFGRHPQDIGLLEKLSNVAAAAHAPFIAAASPRLFDMDSFTELAVPRDLAKIFESLELIKWRSFRESEDSRYVSLVLPRFLLRLPYGPDTCPVEGMNYVEDVTGTDHSKYLWGNAAWALAQRITEAFARYGWCAAIRGAEGGGAVEGLPAHTFRTSSGDLSLKCPTEVAITDRREKELNDLGFISLCHKKNTDMAVFFGGQTANKAKVYNTNEANANARISAMLPYVLAASRFAHYLKVIMRDKIGSFMTRDNVQSYLNNWIADYVLINDNAPQEIKAQYPLREARVDVTEVAGKPGCYRATVFLRPHFQLEELTASIRLVATLPPPVAA	PGPT0025920_1187	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025920-impC-K11900	NA	NA
BMS010_02223	558			hypothetical protein	ATGGCCGAAAGTACTCAGCACAAGCTCGACAGGGTCCGCCCGCCCCGCGTGCAGATCACCTACGACGTCGAGATCGGTGATGCCATCGAGAAGAAGGAGCTGCCGCTGGTGGTCGGGATCCTCGCCGACCTCTCCGGCAAGCCGGAGGTGCCGCTGCCCAAGCTCGGCGAGCGCCGCTTCGTCGAGATCGATCGCGACAACTTCAACCAGGTCCTCGCCTCGGTCGCGCCCCGCGCCGCCATCCAGGTCGACAACACCCTCAGCAACGACGGCAGCAAGCTGAATGTCGCGCTGCAGTTCGACCACATCGACGCCTTCGACCCGGTCAACATCGTCAAGCAGGTCACCCCGCTGCGCCGCCTGTTCGAGGCCCGCCAGCGCCTGCGTGACCTGCTGACCAAGCTGGACGGCAACGACGACCTCGACAAGCTGCTCCAGGAAGTCGTGGCCAATACCGAAGGGCTTCAGGAAATCAAATCGGCCCGTCCGGATGCCGAGCCCGCGGCCACCGACGCCGCGCCGGCCGACGGCGAAGCACCCGCCGAACCCCAAGCCTGA	MAESTQHKLDRVRPPRVQITYDVEIGDAIEKKELPLVVGILADLSGKPEVPLPKLGERRFVEIDRDNFNQVLASVAPRAAIQVDNTLSNDGSKLNVALQFDHIDAFDPVNIVKQVTPLRRLFEARQRLRDLLTKLDGNDDLDKLLQEVVANTEGLQEIKSARPDAEPAATDAAPADGEAPAEPQA	PGPT0025915_169	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025915-impB-K11901	NA	NA
BMS010_02224	471			hypothetical protein	ATGAGGCAGGGAAGTCCGTTTTTCGTATGTGTTCTTCCGGTTCTGGCTGCGTTTCTGGCACTGTCCGGCTGTTCTCTGTTCGCCCCCAAGGTGGAGTTGGACACGCTGCGGCTGGACGTGGCGGCGCGTGCCAACGACAACACGCCGATCGCCGTGGACTTCATCGCGGTGCGCGATGCCGAGCTGCTCAAGCAGTTGTCCGGCATCCCCGCCCGGCAGTGGTTCGCCGAGCGCGAGCAGTTCCGGCGCGATTACCGCACGCAGCTCTCGGTCTGGAGCCTGGAGCTGGTGCCGGGCCAATTCATGGAATCCAACGACTTTCCGCTGGCCGGCGAACCATCGGCTGGACTTTTGGTCTTTGCCGGCTATAACACACCCGGGGTCCACCGACTGCGTCTGGATGACCAGCGCATGGTCTGGTTGAAGTTCGAGAGCAGGGACATGCGGCTGCTGAGCGGCGAAGAACGCTGA	MRQGSPFFVCVLPVLAAFLALSGCSLFAPKVELDTLRLDVAARANDNTPIAVDFIAVRDAELLKQLSGIPARQWFAEREQFRRDYRTQLSVWSLELVPGQFMESNDFPLAGEPSAGLLVFAGYNTPGVHRLRLDDQRMVWLKFESRDMRLLSGEER	PGPT0030445_37	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0030445-lip3-K11918	NA	NA
BMS010_02225	1332			hypothetical protein	ATGAGCGCGTTACCGGACGTGGTGTGTTGGCATGAAGGCATGCAGTTGCTGCCCCAGCACTTCCAGTTGCAAGGACTGCGCGCCGAGGCGCTCGCAGCTCACTTCGCCAAGGCCTGCAACCCCTGGTTCTGGGGTGTCGAGCAGTTCGAGATCGATCCCTCCGCGCTCTGCGCCGGCAAGGTCCGGGTGACCGCCGTCGATGCGATCTTGCCCGATGGTTTGCCGGTCCACCTGAACCTCGCCAGCGACGGTGCGCTGGAGCTGGATGTGGCCGACGCGATCGCCGCCTCCGGCCACCCCTCGGTCACCGTGTATCTGTCCGTCAGCCCGTTGTGGCGGGGCGGGCAATTGCTTCCGCTGAACGGGCGCCTCACCTCGGCGGTGGGCGATGCGGTGCCCGACCTGGCCAGCGGCGAACACCCCGAACCCATCGTCGTCTGGCGCCCGAATGCGCGCCTGACCACCGATGCCAACAAGGCCGATTCGATCTGCCTGCCGCTGCTCAAGGTCGGCAAGCAGGGTGGCGGTTACGTGCAGCTTTCCTATGTCCCGCCGACCCCGCGAATCCTGCCTGAGTCCCCGCTCGGCCAGCAGGTCGCCGCGCTATGCGGGCGCGCACGGGAGAAATGCCTGTTCCTCGCCGGCCGCCTGCGGAACGCGCAGCAAGCCGGCAACCGCGACGATGCCGACGAAATCCGCCGCCAACTGGCCGCGCTCTGGGCGCGCCTGCCCGAAGTGGAGGCGGCACTGAACAGCCGGGTCGCCACGCCGGCTAGCCTGCATGCGCTGCTGGCCGGCATGGCCGGTTCCTGGTCTGCGCTCGATCCGATTGCCGGTGTGCCCGCATTCGCCCCACTGGACTTCCTGGAGTTGCAGCGCGGCTACACGGAGGTCCTGAACTGGCTCGGGGTGACGCTGGAACGGGTCCGTGCCGGTTATCGCAGCATCCCGTTCGAACAGGACGGCCAGGGCTTCCACCTCCAACTGCCGGACCGAGACCAGCCGCGCCAGCGCTTGGTGATCGGCCTGAGGATGCCGGCGGGAGCCAGCGACCATGTCGCCGCGGAATGGCTGGGGCGGGCGATCATCGCTTCCGAAGCGCATATCGCCACCCTCGCGCGGCAGCGCATGAGCGGTCTGCCGCAACAGGCCATGAGCCGGCAGGAGCAAGTGGCCTACAGCGTCGGCGAAGACACCCGGCTGTTCGTCGTGCAGGCGGCAGGGGAGTGGTTCGATCCGCAGCAGAAACTGCGCATCGTCCAACCGGGCAGCAGCGGGGGTATCGGGCCCTGGCAGGTGGTGCTGTTCATGGCAGCGGACGATACCGTCTAG	MSALPDVVCWHEGMQLLPQHFQLQGLRAEALAAHFAKACNPWFWGVEQFEIDPSALCAGKVRVTAVDAILPDGLPVHLNLASDGALELDVADAIAASGHPSVTVYLSVSPLWRGGQLLPLNGRLTSAVGDAVPDLASGEHPEPIVVWRPNARLTTDANKADSICLPLLKVGKQGGGYVQLSYVPPTPRILPESPLGQQVAALCGRAREKCLFLAGRLRNAQQAGNRDDADEIRRQLAALWARLPEVEAALNSRVATPASLHALLAGMAGSWSALDPIAGVPAFAPLDFLELQRGYTEVLNWLGVTLERVRAGYRSIPFEQDGQGFHLQLPDRDQPRQRLVIGLRMPAGASDHVAAEWLGRAIIASEAHIATLARQRMSGLPQQAMSRQEQVAYSVGEDTRLFVVQAAGEWFDPQQKLRIVQPGSSGGIGPWQVVLFMAADDTV	PGPT0025950_1447	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025950-impJ|vasE-K11893	NA	NA
BMS010_02226	768			hypothetical protein	ATGACGGGAGGGAAGATTGGCCAGGGCATGGGTGGGCTCGATGAGTCCTCGTTGAGTGCGGCCTTCAGGCAGGCCTGGCGCGAGTGGCGCGAGGTCTGGCACGAGCTGGAGAAGGACGACGACAGCGACGGGCAATTGGTAGCACGCACCGCCGAGCAGGCGACCCGGGCGACCCGTCGCCTGTGGCGCAGCGCCTTTGCCAAGGTGGGCGACTCCGCCGGCGACCAGGTGAAAGCGATGGTCTACGCGTTCGTCGCGCTGCTCGACGAGACGCTGGTCTTCACCCCCTGGGCCGGGCAGGCGGGCTGGCAGGAAAAGCCGCTGGAAGCGCGCCTGTACCGCAGCCGTAACGCCGGCGAGCGGCTGCCGGTCGCCATCAAGAAGATCCTCGACGAGCGCGCACCGGCCACCCGCGATCTCGCCAACGTCTACCTGCAATGCCTGATCCTCGGTTTCCATGGCCGCTTACGTGGCGAGCGCGGCCAGGCGCTGCACGAGAAATGGCGGCATGCGCTGTTCGCCTTCGCCTGGCAGCGCGACCCGGATTTCGCCGATGTCTCCGACCTGTTGGAACGGCCAGTGGCGGTGGAGCCGAAACGCCTGCCGGTGCGCCGCTCATTGCCGGACGGCTTTCGCCTGGGGCTCGGCATCCTGGGGCTGGTGGTGGTGCTGACCCTGGTCGGCCATTTGTTCTGGCGTGACATCGCCGGCGAACTGGAACCCGTGCTGCATCTGGCCGACACCCTGATGGCGGAGAAAAGCGCATGA	MTGGKIGQGMGGLDESSLSAAFRQAWREWREVWHELEKDDDSDGQLVARTAEQATRATRRLWRSAFAKVGDSAGDQVKAMVYAFVALLDETLVFTPWAGQAGWQEKPLEARLYRSRNAGERLPVAIKKILDERAPATRDLANVYLQCLILGFHGRLRGERGQALHEKWRHALFAFAWQRDPDFADVSDLLERPVAVEPKRLPVRRSLPDGFRLGLGILGLVVVLTLVGHLFWRDIAGELEPVLHLADTLMAEKSA	PGPT0025955_1074	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025955-impK|ompA|vasF|dotU-K11892	NA	NA
BMS010_02227	3834			hypothetical protein	ATGAGCCTGCCGGCGATCGTCATGCTGGTGGTCGGCGTACTCCTGCTGCTGATCGCACTGGGCGCGCTGGTCTGGTGGTTGCGTACCCAGGCGGGCTCCGCTACTCGCAGCTTCTACAGTGCGGTACGTAGCATGGAGCACGACCAGGGCCTGCATGACCGTTACCAGAATCCCTGGCTGCTGATGCTCGGCGACGAGCGCCAAGGCGCGGAGCTGTGCGCCGGCTGGCACCTGAGCCCGACCGGCAAGGCCGGCTGGTTCGGCCGCTGGTGGGCGGACAGCGACGGCTCCGTACTGGTGGTGCCGGATGCGCTGTTCATGCCCGGCGAAGGGCTGGCGGGGCAGGCGACGGCCTGGTGGCGCCTGCTCGGCCTGTTGCTGCGACTGCGTGCGCGGCGTCCGCTGGATGGAGTGATCTGGTGCGTTCCCGCCACGCTGTTGCACAGCGGCGAGCAAGCATCGGCCCAGGGGCTGGTGGCCCGGCGCAAGTTCATCGACCTGTTGCAGCGGCTCGGGCTGAGCCTGCCGGTCTACGTGGTGGTGACCGATATGGAAGAGGTCGCCGGTTTCCAGGAGCTGCTCGCGGCCCTGCCCAAGGATGCGGCGGAACGGATGCTCGGCTGGTCGTCGCCCTTCGCCCTGGACGCCGTCTGGCAATCGCACTGGAGCGACATGGCGGTGGATGCGGTGAGCCGTTCGCTGTCCGAGGCGGTGATCGAGATTGGCGCGTTGTCCGGGCAAGTGAGCGAAGACCTGTATGACCTGCCGCAGCAGTTCGAGGCGATGCGCGGGAACCTGCAGGCATTGCTCGACCCGGTGTTCCAGGGCAACGCCCTGGGCGAATCGCCGCGTCTGCGCGGTCTGTATTTCACTGCCAGCCTGTCGCCGGCCGACGACGATCCAGCGGCACCGATTGGCCCCGATACGGTTGTCCATCCGGGGCAGGCCCGCTTCGCCCGGCCGCTCTGGCGCCATCGGATTCTCGCCGAACAGGGATTGGCCCAGGCCGTCCCGCGGATTCTCCGGCTGCGGCAGCGCTGGCATCGCGTCGCGGGCGCCAGTGCGGCGCTGTTCGGAGTGCTCTGGCTGGTCGCCATGCTCTGGGTCTGGCACGACGCTTCGCGGGATGCCGACGCTCTGGCCGATCTGCTGGAGCAGACGCAGAACGGCTACCTGGCCATCGAAGGCGATGCCAACCGCGAGGCCATGACCCGGCACAACGTCCAGACCTTCTGGAACCTCCTGCAACGGGCGCCACGCTGGCACTACCGCTCGCTGGCCTATCCCACCTCCTGGTTCTCCGGCCTGGACGGGCGCCTGGACGACGTGCTGAAAAGCACCGCCCGCCATCATCTCTACCAGCCGTTGCGCGATGTGCTGGTCGCCGATCTGCGCGCGTTGGTGCAAATCCGCAACAGCGGACGACGCTCCAACATCGACGGCGACGATCCCGAGAGCTGGGAGACCTACGTCAAGGCCAACGCTTTGCTGCAAGGCGCCTTGCAGATCGAACAGCAGAACAAATGGCTCGCCCAGGCCCTGGGCAACCGCAAGAACCCGCTGGACGACCTCGCCCAACTGGCCAACAGCGCCCTGAGCCTGGACCTCGATGCCCGCACCTTGCCGAAGGAGGCCTTCTACAACCGCCTGCTGAGCGAAGCGCCTCCCGCCGGCATGACGCCGCTGAACCTCCAGGCCAAGCGCGGCGACATCACCGAGCATTTCGAGCAGCTCATGCGGCTCTGGCTGACCCGCTACTTCGTCGCCGACAACTTCAGCCGTCCGGCCGGCTACCTACGCCAGTACACCCGCAACCTGCAAGCCGGCTCCGGCAATTCGCTGGAAGAGCTGGAAGAGATCAACAGCCTGATCGACAACCTGCACAGCCTGATCGCCGTGACCAACTCGACCTGGAGCCGGGGCTCCGGGGGCGATCTGGTGCCCGGCTACCGGGCGATGCTGGACAGTGTCCGGCAGAGCGTCCTGCTCGGCCCGCAGGTGGAACAGGCGATCAACCAGGAAGCCGCCCACCTGCAAAAGAGCTTCCGCGACCAGTGGGTCGCCCAGGCCGGCATGGACGACAACCTGCTGGTCCAGCAAGGCAACGGCACGGTGGACCTGGAAGACGGGATCAAGGGGCTGGACAAGGCCATCGAAGGGCTGTTCCGCCACGACTTCGTGGCCAGCGCGCTGCGCAAGGAGCGTGAGGAAGGCGCGCGCTACGGTTTGACCATCGATGGCGACGGCATGGGCGCCGCGCTGCGCTATTTCGACAGCTACAAGGGCTACGTCGACCAGGAGCTGCCGCAGATACCGCCGGAGTACCGTAACGCCTTGCTCGATGCCGCCAAGAATGCCGCCGCCATGGCCATGTGGAGCCGCCTCGAACCCTCCACGCCGACTGTGGCACGCTCCGGTTACGAACAAACCTTCGACATTCCGGCGGACAAGGCCCTGCAACTGCAGAAGGCGTTCGCCGAACTGCGCCGCCCGGACCTGTCGGATGCGCTGCTGCGCAACCTCAACCAGCGCGCCCTGGCCGACCTGCGTCGTGCCCAGAACGAAATCGAGGCGCAGCCGGTCCTGCGCCAGCGCTTCGACCTGAGCGCCTGGGACGGCACGAAGAACCTCGGCCTGCAACTGTTCCGCGCCAGTGATCCGCAGGACCTCAAGCAGAGCCTGGCGCAACAGTTCGCCGTCATGCAGAAGACCACCCAGGACCACGCGGCCGCGCTGGACTGGCTGAAAATGCAGCGGCAGTCGTTGTCCCTGGCGGACTACGAGGTGGTATCCCGGCTCGTCGCCCTCAGCGAGGAAATGGTCAAGTACAAGGCGCAGAATCCAGCCAGCTCACCCGCGGCCCTGGAGCAACTGGCCAGCCGCGATCTGGTCGAGATGGATGCCGGCTCCTGCGCCACCGTGCTCCGGGGGGCCAACCTGATCCCCGGCGTCGACGACCTGTCCCGACTCGGCCAGGACCTCCATGGACAGGCCATGCAGCGCTGCGGAATTCTTCAGCGCCAACGCGCGGCCCTGGCCTGGAACCGGCTGGCGGACTATTTCGACCAGTACCTGGCCGGGCGCTTCCCGTTCTCCTACAGCACCGAAGCGGCCGACGCCGACCCCGAGCGGGTGCGCTACCTGCTGCGGCTGATCGATGAAAACCTGGCCCCGGCGGAGGAGGGGTTGCGCCTCAGCCAGTCGATGGACGTGCTGGCGGCGCAGGACTTTCTCGCCCGCCTGAAACAAGCCCGCGACTGGCTGGCGCCGCTGCTGGTGCGCGATCAGGAAGGCATGCTCGGCTTCGACATGGAAGCCCGCTGGCGCACCGACCGCGCCGAAGAGCGGGGCGCCGACCAGGTGATCGCCTGGGAGCTGCAATCCGGCAGCCAAGCCATCGTCTACCCGCGTGACGACAACCAGCGCCTGCGCTGGGCCATCGGCGAGCCAGTCAAGCTGGTCCTGCGCTGGGCGAAGAATGGCTCGCAGCGTCCGGCGAACGACCCGCTGCAACCGAACCTGGCGGTTGCCGACCTGGAGGCCGGCTGGGAATACACCGGCCACTGGGCACTGTTGCGGCTGGTGCGATCACACATCTCGGTACAGCGCCAGCCGAGCGTCGACTACACCGACTTCCCCCTGACCCTGCAATTGCCGGTCTACGCCCCGTACAGCACCGATACCTATGCGCAGATGTTCATGCGCGTCTCGCTGATGGCCCAGGGCGGCAAGGCGCCGCTCTCCGTGCAGCCGCTACCGGTGCGGGCGCCGCGCTCGCCCTTCGTCGACTCCACCCTGTCGGCCCCATTGGCCCGTTCCGAGGTGATGCCATGA	MSLPAIVMLVVGVLLLLIALGALVWWLRTQAGSATRSFYSAVRSMEHDQGLHDRYQNPWLLMLGDERQGAELCAGWHLSPTGKAGWFGRWWADSDGSVLVVPDALFMPGEGLAGQATAWWRLLGLLLRLRARRPLDGVIWCVPATLLHSGEQASAQGLVARRKFIDLLQRLGLSLPVYVVVTDMEEVAGFQELLAALPKDAAERMLGWSSPFALDAVWQSHWSDMAVDAVSRSLSEAVIEIGALSGQVSEDLYDLPQQFEAMRGNLQALLDPVFQGNALGESPRLRGLYFTASLSPADDDPAAPIGPDTVVHPGQARFARPLWRHRILAEQGLAQAVPRILRLRQRWHRVAGASAALFGVLWLVAMLWVWHDASRDADALADLLEQTQNGYLAIEGDANREAMTRHNVQTFWNLLQRAPRWHYRSLAYPTSWFSGLDGRLDDVLKSTARHHLYQPLRDVLVADLRALVQIRNSGRRSNIDGDDPESWETYVKANALLQGALQIEQQNKWLAQALGNRKNPLDDLAQLANSALSLDLDARTLPKEAFYNRLLSEAPPAGMTPLNLQAKRGDITEHFEQLMRLWLTRYFVADNFSRPAGYLRQYTRNLQAGSGNSLEELEEINSLIDNLHSLIAVTNSTWSRGSGGDLVPGYRAMLDSVRQSVLLGPQVEQAINQEAAHLQKSFRDQWVAQAGMDDNLLVQQGNGTVDLEDGIKGLDKAIEGLFRHDFVASALRKEREEGARYGLTIDGDGMGAALRYFDSYKGYVDQELPQIPPEYRNALLDAAKNAAAMAMWSRLEPSTPTVARSGYEQTFDIPADKALQLQKAFAELRRPDLSDALLRNLNQRALADLRRAQNEIEAQPVLRQRFDLSAWDGTKNLGLQLFRASDPQDLKQSLAQQFAVMQKTTQDHAAALDWLKMQRQSLSLADYEVVSRLVALSEEMVKYKAQNPASSPAALEQLASRDLVEMDAGSCATVLRGANLIPGVDDLSRLGQDLHGQAMQRCGILQRQRAALAWNRLADYFDQYLAGRFPFSYSTEAADADPERVRYLLRLIDENLAPAEEGLRLSQSMDVLAAQDFLARLKQARDWLAPLLVRDQEGMLGFDMEARWRTDRAEERGADQVIAWELQSGSQAIVYPRDDNQRLRWAIGEPVKLVLRWAKNGSQRPANDPLQPNLAVADLEAGWEYTGHWALLRLVRSHISVQRQPSVDYTDFPLTLQLPVYAPYSTDTYAQMFMRVSLMAQGGKAPLSVQPLPVRAPRSPFVDSTLSAPLARSEVMP	PGPT0025960_339	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025960-impL|vasK|icmF-K11891	NA	NA
BMS010_02228	1092			hypothetical protein	ATGAGTCTGCCCATGCACCCGCCGCAGCCGTCGCTCGACGACCTGCTGCAACCGCTGTCGGACGCCGCGCCCTGCGGCATCAACCCACGCTATGAAGTGGACTACGACCGCCTGCGCCAAGCCCGCCGCGAAGACGACGCCAGCCTGCCGACCGGCGTCTGGCAGGCGGAAATCAAGCGCGGCGACTGGCCGCTGGTGGAACAACTGGCCAGCGACCTCCTGCTCAAGCGCAGCAAGGACCTGATGGTCGCCGCCTGGTTGGGCGAAGCCTGGCTGCACCGACGCGGGCTGGAAGGGCTGGAGCAGGCGCTGATGCTGCTGGTCGGTCTGTGTGAACGCTACCCGGACGACCTGCATCCCCAGGCGGAGGAGGGTGACCAATCGTGGCGGGCCACGCCGCTCGACTGGCTGTACCGCCGCTATGCGGAAATCCTCCACACGCGGCTGCGCCTGTTCGAGGTCGCCAGCGACGAATTCGGCAGCTACACCCTCAACGACTGGCAGCAGCTCCAGCACCGGCAGGTCCTCAGCGGCGACAACAAGGCCGCCAAGGCCGACGCCGAAGCCGCCCGGCACGCCCAGCAGAAACTCGACGAACGGGTGCGCGGTGCTCCGTTGGCATACTTCCAGCGCTGCCGGGCCAACCTGGAGTCCGCCACCCACTCGCTGCAACGTCTCGAAGCGTGGAGCGACACCCATCTGGGCGACAGCTCGCCCACCTGCAGCCCCTTGCGCGACGTCATCGTGCAGTTGACCGCGCTCATGGAGGAGTTCATCGCCATGCACCCGCAACCGATCCTGCCCGTCGTCACCGAACAACCGGAAAACACGGAAGCCGGTACGCAGCAAAGCGGGGTGGTCATCGCCGCCCCGATGGTCCTGGCCGCCCCCAGTAGCCGCGAAGACGCCTATCGCCAGTTGATGCTGATCGCCGACTACCTGGCCAAGACCGAGCCCCACAGCCCGGTGCCCTACCTGATCAAACGTGCCGTGGAGTGGGGCAACAAACCCCTCAGCGAACTGCTCGGCGAACTGATCACTGCGGATTCGGAATCGCGCAGGGTGTGGGCGTTGTTGGGGGTGTTGCCGTAA	MSLPMHPPQPSLDDLLQPLSDAAPCGINPRYEVDYDRLRQARREDDASLPTGVWQAEIKRGDWPLVEQLASDLLLKRSKDLMVAAWLGEAWLHRRGLEGLEQALMLLVGLCERYPDDLHPQAEEGDQSWRATPLDWLYRRYAEILHTRLRLFEVASDEFGSYTLNDWQQLQHRQVLSGDNKAAKADAEAARHAQQKLDERVRGAPLAYFQRCRANLESATHSLQRLEAWSDTHLGDSSPTCSPLRDVIVQLTALMEEFIAMHPQPILPVVTEQPENTEAGTQQSGVVIAAPMVLAAPSSREDAYRQLMLIADYLAKTEPHSPVPYLIKRAVEWGNKPLSELLGELITADSESRRVWALLGVLP	PGPT0025910_361	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025910-impA-K11902	NA	NA
BMS010_02229	384			hypothetical protein	ATGCCGTGCCGTGGTTGCCCCTGTGATGGGACCGTGGCGACGGAGCTTGAGCATCAGGACAACGCCATGCAACGCACTTTCCTTTCACGCCTCGAATCCCTGCATTCCTCCCTCAATACACTTCGCGGCGCCGACAGCGCACTCCTCAAAGCCAACTACTTCGACACCCACCTCAACGAACTCGCCGCCCTCATCGGCGAAATCCAAAAACTCCAAGACACCCAACAAATCCTCAACGACCTCGGCGGCGCCCTGAGCGTACTGCTCGAACTCCTGTTCTGCTCAGACGACCATAAATTCCGCGGCTGCCTGCTGCACTGTCTGCTGCAACCGTTTCAGGACAAGCTGAATCAGGCGATGGATGGGTTGGAGAGGGTGGTGTAG	MPCRGCPCDGTVATELEHQDNAMQRTFLSRLESLHSSLNTLRGADSALLKANYFDTHLNELAALIGEIQKLQDTQQILNDLGGALSVLLELLFCSDDHKFRGCLLHCLLQPFQDKLNQAMDGLERVV				NA	NA	NA	NA	NA
BMS010_02230	840	hcaB_4		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGAAAAGCTACTCGCTGAACGAGCGCGTCATCGCCATCACCGGTGCCACCGGCGGCCTCGGCAGGGCCGCCGCGCAGGCCCTGCGCGACAAAGGCGCGAAGCTGGTCTTGCTGGACCTCGATCTGGATAGCCTGAGCACCATGGCCGCCACCCTGGGCGGGCCTGACGTCGCTGCCGGTTGGGTGGCCAACGTGCGCTCGATTGAGAGTCTGGAAACGGCGCTGAAGGAGGCCGCGCAGCACTTCGGCGGAATCGATGTGGTGGTCGCCGGTGCTGGCGTCAGCTCGGTGGTCGCCCTGGAGTACATCGACCCCGCCACGTTCGACCGGGTCATCGATATCAACCTCAACGGCGTGGCGCGCACCTTCCGCGCTGCACTGCCCTACGTGAAGGCGCGCCGGGGCTATCTACTGGCCATCTCGTCCATGGCGGCTTTCGTCCATTCGCCGTTGAACACGGCCTACACCGCCAGCAAGGCCGGAGTCTGGGCCCTGTGTAACAGCTTGCGCCTGGAGCTTCGTCAGCACGGTGTGGGCGTTGGCTCGTTCCACCCGACCTTCTTCCAGACGCCGATGATGGAGGCGGTCATCGATGGGCCTTCCTCCACCCTGGTATGGAACAACCATCAGGGGGTCTGGCAGTTCGTCGCGCTGGAGCAGGTGGTAGCCGCCCTGGTGGACTGCATCGAGCAGCGGCATGACCTGGTGACCGTGCCACGCAGCCAAGGGCTGGTGGCGAAAGCGCCAGGCTTGCTGCGCCGGCTTATCGAGTGGATCGGTTTCGACGCTGGAAAAGTCGCCGAAGCGGTAAGGCTCAGCGATGAAGGCAAGGCATCATGA	MKSYSLNERVIAITGATGGLGRAAAQALRDKGAKLVLLDLDLDSLSTMAATLGGPDVAAGWVANVRSIESLETALKEAAQHFGGIDVVVAGAGVSSVVALEYIDPATFDRVIDINLNGVARTFRAALPYVKARRGYLLAISSMAAFVHSPLNTAYTASKAGVWALCNSLRLELRQHGVGVGSFHPTFFQTPMMEAVIDGPSSTLVWNNHQGVWQFVALEQVVAALVDCIEQRHDLVTVPRSQGLVAKAPGLLRRLIEWIGFDAGKVAEAVRLSDEGKAS				NA	NA	NA	NA	NA
BMS010_02231	864	sadH_1		Putative oxidoreductase SadH	ATGTACGACCTTCAAGGCAAAGTGGTGCTGATCACCGGTGCGGCTGGCGGTATCGGCGCCGCCAGTGCCCGCGAACTCTATGCGCAGGGCGCCAGCCTGGTGCTGACCGATACCTCGCAGGAGGCGGTGGACACGCTGGCCCAAGAGTTCAACAGCCAACGCGTGTTGCCGCTGGCGTTCGACGTCACCGACGCCGAGGCGGCGAAGGCGGTGGTGCGGCAGGCGGTCGAGCGCTTCGGCCGTCTCGATGTGGCCTTCGCCAATGCCGGCATCTCCTGGCGGGGCGTACCGGCGACCCTACGCACCTGCGACGAAGCGGAGTTCCGCCGCATCATCGAGGTGGATCTGTTTGGGGTGTGGCATACCATGCGCGCCGCACTGCCGGAGGTCGTACGCAACCGGGGCCAGGTGCTGGTCACGTCATCTGCCTATGCCTACTTGAACGGCATGGCCAACGCGCCCTATGCCGCGAGCAAGGCGGCGGTGGAGTCGCTGACCCGTTCGCTGCGCGCCGAGTTGAGTGCGACCGGGGCCAGCGCCAGCGTGCTCTATCCCGGCTGGACGGCGACCGCCATCGCCAAGGTCGCCTTCGGTGGCAACGCCATCGCCACCCAGATGAACGAGACCCTGTTGCCGGCCTTCCTGCACCGAGCGATTGCGCCGGAACAGGTGGCACGTGGCGTGGTGCGCGGGCTGCAAAAGCGCCAGCCGCGCATCGTTGTACCGGCTCGTTGGGCGCCCATCTCCCTGATGCGCGGCCTGTTCAACGTTCTCACCGACTGGCATCTAGCACGCCATGCCCGCCTGCACCGGTTGCTCCACCAGTTGGAAGAAGAAACCGTTCGCAGTCAGACCCCAGGTTGA	MYDLQGKVVLITGAAGGIGAASARELYAQGASLVLTDTSQEAVDTLAQEFNSQRVLPLAFDVTDAEAAKAVVRQAVERFGRLDVAFANAGISWRGVPATLRTCDEAEFRRIIEVDLFGVWHTMRAALPEVVRNRGQVLVTSSAYAYLNGMANAPYAASKAAVESLTRSLRAELSATGASASVLYPGWTATAIAKVAFGGNAIATQMNETLLPAFLHRAIAPEQVARGVVRGLQKRQPRIVVPARWAPISLMRGLFNVLTDWHLARHARLHRLLHQLEEETVRSQTPG				NA	NA	NA	NA	NA
BMS010_02232	921	aidA		Quorum-quenching protein AidA	ATGAACACGTTCACCGACCATCTGGCACCAGCGACAATCCAGTTCGTCTCCAACGGCTCGCGTTGCGTTGCCGACTTTTACCGCCCACTGGGCGCCGGACCTTTCCCGGTGGTGGTGATGGCGCATGGGCTTGGCGGGACGCGCAAGATGCGCTTGCCGGCCTTCGCCGAGCGCTTCGCCGACGCCGGCTACGCCTGCCTGGTGTTCGACTACCGCCACTTCGGCGACAGCGAGGGCGAGCCGCGCCAACTGCTGGATATCGACCGCCAGCTCGACGACTGGAAAGCCGCGATAGCTCACGCCCGCAGCCTCGCGGATGTGGACCCGCAGCGGGTGGTTATCTGGGGCACCTCGTTCGGTGGCGGCCATGTGCTGGCCACCGCCGCCGACGATGCCGAGGTGGCCGCCGTCATCTCCCAATGTCCCTTCACCGACGGCCTGAGCTCCATTCTTGCCACCGAACCCCTGGTGTCACTTCGCCTCACCGTGCTGGCCCTGGCCGACCGTATCGGCTCATGGTTCGGCGCCAAACCCATTCTGGTACCGCTCGCCGGTCAACCTGGCGATACGGCATTCATGACTTCGCCGGACGCCTGGAGTGGCTATAACGGGCTGATCCCGTCAGGTGCGCATATCCGCAAAGAGGCCGCTGCGCGCTTTGCCCTGGACATCATTCGCTACTACCCCGGGCGCAGTACACCTCGTATCCAGGCCCCGGTGCTGTTTTGCGTGTGCGATCCCGACAGCGTGGCACCGGCGAAGCAGACGCTGCGTCACGCCCGGCGCACGCCACGTCATGAGATCAAGCGCTATGCCCATGGGCACTTCGATATCTATGTGGGCGAAGCCTTCGAGCAGGTGGTGGATGATCAACTCGACTTCCTCCAGCGCAACGTGCCAAGCATCCCAACGAAGAGATAA	MNTFTDHLAPATIQFVSNGSRCVADFYRPLGAGPFPVVVMAHGLGGTRKMRLPAFAERFADAGYACLVFDYRHFGDSEGEPRQLLDIDRQLDDWKAAIAHARSLADVDPQRVVIWGTSFGGGHVLATAADDAEVAAVISQCPFTDGLSSILATEPLVSLRLTVLALADRIGSWFGAKPILVPLAGQPGDTAFMTSPDAWSGYNGLIPSGAHIRKEAAARFALDIIRYYPGRSTPRIQAPVLFCVCDPDSVAPAKQTLRHARRTPRHEIKRYAHGHFDIYVGEAFEQVVDDQLDFLQRNVPSIPTKR	PGPT0026245_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_QUENCHING	CE-QUORUM_QUENCHING-AHL-DEGRADATION,PGPT0026245-aidA-K24084	NA	NA
BMS010_02233	1017	virS_1		HTH-type transcriptional regulator VirS	ATGAGCCAGCCCTTGTATAGGCGCGTGGTGCCCGAGACCTACGTGCAACTGCTCTATGAATACCTGGAGGCGCATGGCCATGAGCCCGAATCGGTGCTTGGCCAGCCCTGGCCCACACCTGCCCAGGAGGGTGTCGGCGGCGTTGACGTGGAGTGCTGGGATCGCCTGCTGGTGACAGCGGCGCAGGCACTGGACGATCCGCTGCTGGGCCTACACGTCGGTCAAACCATCAGCGCCCGGCATATCGGTGTGCTCGGCTCGGTGCTGCTGGCCTGCGGCAATCTCGGTACGGCTCTGCAACGCCTGGAGCGCTACATTCGCCTGGTGTACGACGTCATCCCCATGACTCGCCGCGACGGCGACGGCTGGTTCGAACTGGTCTGGGATGTCAGCCAGTACCAGCCAGGGCCATTGGTGAACGAAACCGGTATGGTTGCCATAGTGCAGTTCTGCCGCGCCCTCGTGCGCGGCACGGCCAACCCGTTGCGGGTCGATTTCAATCATTCCGGCCCCCTCGACACCAGCCCGTACGAAGCCTTCTTCAGCTGTCCGGTACGCTTCGGCCAGGCCGAGGCGGTCCTGCGTTTCTCCGCGCAACTGCTCGAACTGCCCCTCAAGAGCCCCGACCCGGTGCTGGTCTCCCTGTTGGAACAACATGCGGATCGCCTGCTGGCTCAGTTGCCACAGCAGGATGAGTTCGTGGAACAGCTACGCAAGGCCATCAGCCATGCCTTGCACGAAGGTGAGCCGAGCATCGAGCGGATAAGCCCCCAGCTGCGCATCTCGTCACGCACGCTACAGCGCCGTCTGAAAGAGGCCGGCACCAGCTTTCGCCATGAGCTGAACCTGGTCCGCCACGAACTGGCGCTGTCGTACCTGCGCGATCCACGCCTGCAAATCGTGGATATCGCCATGCTGCTGGGCTATTCGGAGCACAGCGCCTTCACTCGCGCCTTCAAGGAGTGGAGCGGAAGGTCGCCCCATGAGGCCAGGCAACTCAACTCGGAGAGTTGCTGA	MSQPLYRRVVPETYVQLLYEYLEAHGHEPESVLGQPWPTPAQEGVGGVDVECWDRLLVTAAQALDDPLLGLHVGQTISARHIGVLGSVLLACGNLGTALQRLERYIRLVYDVIPMTRRDGDGWFELVWDVSQYQPGPLVNETGMVAIVQFCRALVRGTANPLRVDFNHSGPLDTSPYEAFFSCPVRFGQAEAVLRFSAQLLELPLKSPDPVLVSLLEQHADRLLAQLPQQDEFVEQLRKAISHALHEGEPSIERISPQLRISSRTLQRRLKEAGTSFRHELNLVRHELALSYLRDPRLQIVDIAMLLGYSEHSAFTRAFKEWSGRSPHEARQLNSESC				NA	NA	NA	NA	NA
BMS010_02234	546			hypothetical protein	ATGAAAGCCCACGAACGAGACGAACTGCTCAACCTGTTGAAAGCCCGCTTCGAACAGAACATGCAGCGCCACCCAGGCATCGCCTGGAGCGACGTCCAGGCCCGACTCGAAAACAATCCCGGCGCCCTGAAATCGCTCCAGGCCATGGAAGCCACCGGCGGCGAACCGGACGTGATCGGCCACGACACGGAAACCGGACGCTTCACCTTCTGCGACTGCGCCCCGGAAAGCCCGACAGGCCGCCGAAGCCTCTGCTACGACAACGCCGCCCTGGAAGCACGAAAGGAACACAAACCACAAAACAGCGCCGTCGGGATGTCCAACGAAATGGGTATCGAACTGCTGACCGAAGACCAATACCGCGCGCTACAAACCCTGGGCGAGTTCGACCAGAAGACCTCCACCTGGCTCGACACCCCACCCGACGTCCGCTCCCTCGGCGGCGCCCTCTTCGGCGACCGGCGTTATGGGCGGGTGTTCGTGTACCACAACGGGGTGCAGTCGTATTACGCGGCGAGGGGGTTTCGGGGAGTGGTTGGGGTGTGA	MKAHERDELLNLLKARFEQNMQRHPGIAWSDVQARLENNPGALKSLQAMEATGGEPDVIGHDTETGRFTFCDCAPESPTGRRSLCYDNAALEARKEHKPQNSAVGMSNEMGIELLTEDQYRALQTLGEFDQKTSTWLDTPPDVRSLGGALFGDRRYGRVFVYHNGVQSYYAARGFRGVVGV				NA	NA	NA	NA	NA
BMS010_02235	411			hypothetical protein	ATGAACCTCTCCATCCACTCGACCTTCCTTCCCCACGACGACCCGGAAGCGTCGCTGGCGTTCTACCGCGACCTCCTCGGCTTCGAGGTGCGTAACGATGTGGCCTATGGCCGGATGCGCTGGATCACGCTTGGCCCTGCTGGCCAACCCGGTACCTCCCTCGTCCTGGCTCCGCCAGCCGCCACGCCGGGCATCACCGACGAAGAGCGCCGCACCATCGCGGAAATGATGGCCAAGGGCACCTACGCCATGATCATCTTCGCCACCCCGGACCTGGATGGCACCTTCGACCGCCTGCAGGCCCGCGATGTCGATATCATCCAGGAGCCGATGGACCAGCCTTATGGCGTTCGCGACTGCGCAGTGCGCGACCCGGCCGGCAACCTGATACGGATTCAGCAAGTGCGCTGA	MNLSIHSTFLPHDDPEASLAFYRDLLGFEVRNDVAYGRMRWITLGPAGQPGTSLVLAPPAATPGITDEERRTIAEMMAKGTYAMIIFATPDLDGTFDRLQARDVDIIQEPMDQPYGVRDCAVRDPAGNLIRIQQVR				NA	NA	NA	NA	NA
BMS010_02236	462	rhaR_4		HTH-type transcriptional activator RhaR	ATGACGCAAGGAACGGCCCCATCGCAGCGCCTGGGCGAACTGGTCAGGTTGCGCCGCGCGCGGGATCGCATCGACCGCGACTACGCCCAGCCGCTCGACGTCGAAGCGCTGGCCCGCGGCGCGCACATGTCCGCCGGGCATTTCAGTCGCCAGTTCCGCCTGGCCTATGGCGAATCGCCCTACCCCTACCTGATGACCCGCCGAATCGAGCGTGCCATGGCGCTGCTGCGCCGGGGCGACCTCAGCGTGACCGACGTGTGTTTCGAAGTGGGCTGCTCGTCGCTGGGCACCTTCAGCACCCGTTTTACGGAGTTGGTGGGTGTGGCGCCGAGCGTCTACCGCAGCCAGTCCGCACTCGCCACCGAAGGCATGCCGCCTTGCGTGGCCAGGCAAGTCACCAGACCGATCAGGAATCGAGAAGCGCCGGCACACAAACGCAGCCAAGCTGTCGCCTCCCCCTAA	MTQGTAPSQRLGELVRLRRARDRIDRDYAQPLDVEALARGAHMSAGHFSRQFRLAYGESPYPYLMTRRIERAMALLRRGDLSVTDVCFEVGCSSLGTFSTRFTELVGVAPSVYRSQSALATEGMPPCVARQVTRPIRNREAPAHKRSQAVASP				NA	NA	NA	NA	NA
BMS010_02237	213			hypothetical protein	ATGGTCGATGACAGCGAAATCCGCCAACGTGCCTATGCACTTTGGGAAAAACAGGGCCGCCCCGAGGGTTCGGCCGAACGCTTCTGGGAGCAGGCTCGCGAGCAATTGCAGGCCGAGCGGCAACAACCGCTGGGCGATGCGTCGGAGTCGTTCAGCGGTGGCATCGAATCCAACGTCGCGCCGCCCATGCCCAAGCGGGGCTCACGCTCTTAA	MVDDSEIRQRAYALWEKQGRPEGSAERFWEQAREQLQAERQQPLGDASESFSGGIESNVAPPMPKRGSRS				NA	NA	NA	NA	NA
BMS010_02238	1941	mcpA	COG0840	Methyl-accepting chemotaxis protein McpA	ATGAACATAAAACAAAAACTGACCTGGGCCTTTGCGACAATCGCCTGTATTCCCGTGATCCTGGTTTCGGCCATCGTCATTTACAGCCTGCGAACGCAGGCCGAAGAGCAGTTCCTGGATGGCAGCGGGCGGGAAATCCGCCAGATCGAAAACGCCATGCGGATGTTCTTCGACGCCATCAGCGAGAACGTCGAGTACCTGTCCAAACTCCCGGAAATCGTGGCGGCTCCCGCCCTGAAGAACTACACATCCGCCGACGCGGCGGCGACACCGCTTCCCGAGAGCAACCAGGCGATGCTGGCCCTCTTCACCCGGTATGCCAGCGCTCACCCCACGACGGCCTACCTTTCCTATGGCCGGGTGGATGGCGGCTACGCCATCTGGCCGGACGACCCGAAGCTGAACAGCTATGACCCCCGCGTTCGCCCCTGGTACAAGACGGCCATTGCCGCGCCTGGCCAGACGGTTCGCAGCGGCGCTTATTACTGGCCGGCGGACGATGCCGTACTGATCGGCACCGTCCGCACCGTGAACGATGCCCAAGGCAACCTGGCCGGCGTCGTCGGCGTCGACGTCTCGCTCAAGCAACTGACCGACCTGATCAAGCAGATCAAACTGGGCGAGAGCGGCTACATCATGCTGGTGGAAAATGGCGGCAACGTGCTCGTGGACCCCAGCAACACGGAGCACAACTTCAAGTCCATCGCGGATCTCGGCCCCGGCTACGACCGGCTGGCAAACGCGGAAGGACGGGTGGACGTCGAACTGGGCGGCAAGCGCTACATGGCCAACGTCTGGCCATCGGCAGCCCTGGGGTGGCGCTTCATCGGGCTCATCGAGCGCGACGAAGTCATGGCCAAGGCGAACGGCCTGACCTGGCAGATCGGCCTCGTCACCCTGCTGCTCGCAATCTGCTTCGCGGCGGTCGGTGCGGTCTTCGCCCGCATCATCGTCGGGCCGATCCGCAGCGTGGCGAACGGACTGGAAAATGTCGCGCAGGGCGAAGGCGATCTGACCCGCAGCCTGGAGGTGCGCGGCAACGATGAAACCTCCCTGCTCGCCAAATGGTTCAACCAGTTCCAGGGCGCCATCCGCCAACTGGTGCAACGCATCGTCGAGGCATCGGCCGCGCTACGGCAGACCTCGGATACCACCGCCCGCGTCGCAGAAGACATGAGCGGCACGGCGGAACGCCAGCGGGAAGCCGTCGAGATGGTCTCGACTGCCTTCAACGAGATGGTCGCCACCGCCAACGAAGTGGCCCGCTCCTGCAGCGAAGCCGCCGCATCGGCGGATGCGGGCCAACGTCAGGCACACACCGGCCAGACCCAGATCGAAGAGGCTACCGGCAGCGTCTCCCGGCTCAGCGAAAACCTCTTGCAGTCCACCCAGGCCATGCAAGTGCTGGAACAGGACAGCCAGAACATCAACGCCATCCTCGACACCATTCGTTCGATTGCCGAGCAGACGAACCTGCTGGCGCTGAACGCTGCGATCGAGGCAGCCCGCGCCGGCGAACAGGGCCGCGGGTTCGCGGTGGTGGCCGATGAAGTGCGGGCCCTGGCCAAACGCACCGCCGACTCGACGGGCGAGATCGACGGCCTGCTGGGCGGGCTCGCGAGACGCACCCAGGACGTGACCCGGCAGATGCAAAGCAGCCTGGAAATGTCGCAGGCGTGTGTGGACCGGATTCGCATGGCGAGCGAGAGCTTCGAGCAGATTCGCCTGTCGGTCGACCACATCCGCGACCAGAACACGCAGATCGCCGCCGCGGCAGAGGAACAGCACCAGGTCGCCGAGGATATCAACCGGCATATTGCGCAGATCCAGGACAACGCGCTGTTGGTCGAACAGCTCGCCCAATCGGCGCACCGCGACTCCCAGCACCTCTCCAGCCTTTCCAGCGAGCTGCACGGTCTGGTCGGACGCTTCCGGACCTGA	MNIKQKLTWAFATIACIPVILVSAIVIYSLRTQAEEQFLDGSGREIRQIENAMRMFFDAISENVEYLSKLPEIVAAPALKNYTSADAAATPLPESNQAMLALFTRYASAHPTTAYLSYGRVDGGYAIWPDDPKLNSYDPRVRPWYKTAIAAPGQTVRSGAYYWPADDAVLIGTVRTVNDAQGNLAGVVGVDVSLKQLTDLIKQIKLGESGYIMLVENGGNVLVDPSNTEHNFKSIADLGPGYDRLANAEGRVDVELGGKRYMANVWPSAALGWRFIGLIERDEVMAKANGLTWQIGLVTLLLAICFAAVGAVFARIIVGPIRSVANGLENVAQGEGDLTRSLEVRGNDETSLLAKWFNQFQGAIRQLVQRIVEASAALRQTSDTTARVAEDMSGTAERQREAVEMVSTAFNEMVATANEVARSCSEAAASADAGQRQAHTGQTQIEEATGSVSRLSENLLQSTQAMQVLEQDSQNINAILDTIRSIAEQTNLLALNAAIEAARAGEQGRGFAVVADEVRALAKRTADSTGEIDGLLGGLARRTQDVTRQMQSSLEMSQACVDRIRMASESFEQIRLSVDHIRDQNTQIAAAAEEQHQVAEDINRHIAQIQDNALLVEQLAQSAHRDSQHLSSLSSELHGLVGRFRT	PGPT0015710_9510	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_02239	1503	puuC_1	COG1012	NADP/NAD-dependent aldehyde dehydrogenase PuuC	ATGACCGATGCTCTTACTCGCAGCGCCATCGACCAGATGATCGAGCGCCTCGAATTCCGCAATCAGGCGTTCATCGATGGCCGCTTCGTCGCCGCCCGCTCGGGGGCGACATTCGAAACACTGAACCCGGCGACGGGCCAGGTCCTGGCCGAGGTCGCTGCCTGCGACGCAGAGGATGTCGACCTCGCCGTGCAGGCCGCCCGCGCCGCCTTCGAATCCGGTGTCTGGTCGAAACGGGCGCCTGCCGAAAGAAAAGCCACCCTGCAGCGCTTCGCCGATCTGATCGACGCCCATCGCCTCGAACTGGCCGTGCTGGAGTCCCTCGAATCCGGCAAGCCGGTCGGCGAGTGCTTCGCCGTGGACATCCCCGATACCGCCGCGACCATCCGCTGGCACGCCGAAGCCGGCGACAAATTGTACGACGCGATCTCTCCGTCCAATCCCAGCAACATCGGCATGATCGTGCGCGAGCCGGTGGGCGTGGTGGGCGCGGTGCTGCCCTGGAACTTCCCCTGCATGATGGCCGGCTGGAAACTCGGGCCATCGCTGATCACCGGCAACAGCGTGATCCTCAAGCCCGCCGAACTGACTTCCCTGGCCACCCTGCGCCTGGCGGAGCTGGCCTACGAAGCGGGCATTCCCGCCGGCGTGCTCAACGTGGTGCCCGGCTACGGACATACGGCCGGCAAGGCCATCGGCCTGCACCCGGACATCGACCTCGCAGCCTTCACCGGGTCCACCGAAGTGGGCCGCCTGTTCCTCGAATACGCCGCCAAGAGCAACCTCAAGCGAGTGGTCCTCGAGTGCGGCGGCAAGAACCCGCAGGTGGTCATGGCCGATGCCGGCGACCTCCAGGTGGTGGCGAGCAACGTGCTCAACGCCGCGTTCTGGAACATGGGCGAGAACTGCTCGGCCGGCTCGCGCCTGATCGTCCATCACTCCCTCAAGGACGCCTTGGTCGAAGAGCTCCTGCGTCAACTCGAAGGCTGGAAAACCGGCGACCCGCTGGACCCCAGCGTTCGCCTCGGCGCCCTGGTCGAACAGGCGCACATGGAGAAGGTGCTGGACCATATCGAACGGGCGAAGGCAGAGGGGGCCCGACTCCTGACCGGCGGCATGCGCCTCTTCCCGGAAAGCGGTGGCTACTTTGTCGCCCCCACCCTTTTCGATAACGTGACCAATGCCTCTTCCGTAGCCCGCGAGGAAATCTTCGGGCCCGTCCTGGCGGTGATCACCTTCGATACCGAAGAGGAAGCCATCGCCATCGCAAACGACACCTGCTATGGCCTGGCAGCATCGCTCTGGACCAGCAACATCAACACCGCCCACCGCGTGGCATCGGCGATCCGGGCCGGTACCGTGTCGGTCAACTGCTTCTCCGAAGGCGACATTTGCACGCCGTTCGGCGGCTACAAGCAATCGGGGTTCGGTGGCCGCGACAAATCGGTCTACGCCCACGACCAATACTGCGAACTCAAGACCACCTGGATTCAACTCTCCTGA	MTDALTRSAIDQMIERLEFRNQAFIDGRFVAARSGATFETLNPATGQVLAEVAACDAEDVDLAVQAARAAFESGVWSKRAPAERKATLQRFADLIDAHRLELAVLESLESGKPVGECFAVDIPDTAATIRWHAEAGDKLYDAISPSNPSNIGMIVREPVGVVGAVLPWNFPCMMAGWKLGPSLITGNSVILKPAELTSLATLRLAELAYEAGIPAGVLNVVPGYGHTAGKAIGLHPDIDLAAFTGSTEVGRLFLEYAAKSNLKRVVLECGGKNPQVVMADAGDLQVVASNVLNAAFWNMGENCSAGSRLIVHHSLKDALVEELLRQLEGWKTGDPLDPSVRLGALVEQAHMEKVLDHIERAKAEGARLLTGGMRLFPESGGYFVAPTLFDNVTNASSVAREEIFGPVLAVITFDTEEEAIAIANDTCYGLAASLWTSNINTAHRVASAIRAGTVSVNCFSEGDICTPFGGYKQSGFGGRDKSVYAHDQYCELKTTWIQLS	PGPT0007638_125	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007638-puuC|ordL-K09472	NA	NA
BMS010_02240	1329	puuB_2		Gamma-glutamylputrescine oxidoreductase	ATGCAACTGCAATGCAATTTCCTGCCCCAGGCAGACGGTCACTGCGGCTGGTACGAAACCCTGCCACCGCCGCCACCCAGCACACCGCTGCGCGGCGCCGTGCAGGCGGATTGGGTGGTGCTGGGCGCGGGCTATGCCGGTCTGGCCGCGGCCCGGCGTCTGGCGGAACTGCAGCCGGAGGCGTCCATCGCCCTCATCGATGCCCGACGTGTCGGCTTCGGCGCGGCAGGACGCAACTCCGGCTTCATGGTCGACCTGCCCCACGACCTCAACTCGCACAGCTACACCAGCAGCCAGGAAGCCGACCGGAAGATCATCCAGCTCTGCCGGAGCGCGATCGACTACGTGCGCGGGATCGTCCAGGAGCACGCGATCGATTGCGACTGGCGCGAGCAAGGCAAGTTGCACGGTGCGGCCAACGAACGCGGTGCACACTCGCTCGAAGCATTCGCCAAGGGCCTCTCGGCACTCGGCGAGCCCTATCGTCTGCTGGATGCGAAAGAGATGAAGACCGTCACCGGCACCGATTTCTACACGGCAGGCCTGCATGCACCAGGTGCCGTTCTGGTGCAGCCGGCAGCGCTGTCCCGTGGCCTAGGGCAAACCTTGCCGAAGAACGTACGCCTGTTCGAAGACAGCCCGGTCCTTACCATAGATGTCGGCAAGCCGCATGTCCTGACCACAGCGCAAGGCACCCTCAGTGCCCCGCGCCTGGTACTGGCCAACAACGCCTACGCCTCCAGCTTCAGCCAGTTGGGACTGAAGGGGCGCCTCCTGCCCGTCTACACCTACGCGAGCATGACGCGCCCACTCAACCCCGAGGAACTTGCGCGGCTGGGCGGCGAGGAAAGTTGGGGGCTGATCCCGGCCGATCCGCTGGGTACCACCGTCCGCCGCCTGGCGAACGGACGCATCTGCATTCGCAACTCCTTCACCTACAACCCGCAGGTCCATGCCGACCGGAGCGTGCTGGAGCGAGTACGCCGCGCCCATCGCAAGTCGTTCGAGAACCGCTTCCCGATGCTGCCCGGCGTCGAGTTCGAATACACCTGGGGCGGTGCCTTGTGCCTCGCCCGCAACTCCGGCTCGGTATTCGGCGAAATCGTCCCTGGGGTATACAGCGCCGTGGGCTGCAACGGCCTGGGCCTCACCCGCGGAACCAGTCTCGGAAAACTGATCGCCGAATACGCGTTGGGCATGGACAGCGACCTGCTGCGCATCATGCTGGAACAACCCCAACCCTGCCGTAACCCGCCCGAACCCTTCCTCGGACTCGGCGTGCGCTCTTCCATTGCCTGGAAGGAATGGACCGCCGGCGTAGAACTTTGA	MQLQCNFLPQADGHCGWYETLPPPPPSTPLRGAVQADWVVLGAGYAGLAAARRLAELQPEASIALIDARRVGFGAAGRNSGFMVDLPHDLNSHSYTSSQEADRKIIQLCRSAIDYVRGIVQEHAIDCDWREQGKLHGAANERGAHSLEAFAKGLSALGEPYRLLDAKEMKTVTGTDFYTAGLHAPGAVLVQPAALSRGLGQTLPKNVRLFEDSPVLTIDVGKPHVLTTAQGTLSAPRLVLANNAYASSFSQLGLKGRLLPVYTYASMTRPLNPEELARLGGEESWGLIPADPLGTTVRRLANGRICIRNSFTYNPQVHADRSVLERVRRAHRKSFENRFPMLPGVEFEYTWGGALCLARNSGSVFGEIVPGVYSAVGCNGLGLTRGTSLGKLIAEYALGMDSDLLRIMLEQPQPCRNPPEPFLGLGVRSSIAWKEWTAGVEL				NA	NA	NA	NA	NA
BMS010_02241	891	dapA_5	COG0329	4-hydroxy-tetrahydrodipicolinate synthase	ATGAACTTTGACGGTATTTGGACTCCACTCGTAACACCCTTCAACCAGGACGGAAGTATCGAATTCGCCGCCCTGACGCCGGTAATCGATAGCCTTATCGAGCATGAGGTAAACGGTCTGATCGTCGGCGGCACGACCGGCGAGTACTATGCGCTGAGCAATGCGGAGCGCAAGAAGCTGTTCGATGTCGTCGCCGAGCAGGCCAAGGGCCGCATCAGCCTGATGGCCGGCATCAACTCCACCAGCACGGACGAAACCCTCGACCTCGGCCGCTATGCCAAGGCCACCGGCTTCGAAAGCATCCTCCTGGCCGCCCCGTATTATTGCCAGCCCACCCAGGGCGAGCTGCTCGTCCATGCGTATACCGTAGATGACGCGCTGGACATGCCGGTCATGCTCTATAACTTCCCGGCGCGTACCGGTACCGAGATGAGCTTCGACTTCATCGATGGCCTCAAGCAGCGCCCGAACTTCCAGGCCATCAAGGAAAGCACCGGCTCGATCGAGCGCATGCACACCCTGACCCAGGACTATGCCGACCAACTGCAGATCGGTTGCGGCATGGACGACCAGGTCCTCGAGTTCTTCACCTGGGGCGCACGCAGCTGGGTCGCCGGCGCCTCCAACTTCCTCGCTCTCGAGCACGTTGCCCTGTACCGGACCTGCGTGGTCGAGCAGGACATGATTGCCGGACGTGAATTGGCCAGCCGCCTGCTGCCGCTGCTCAACCTGCTGGAGCAAGGCGGCAAGTTCTGCCAGTACGTGAAATACGGCTGCGAGCTGGCTGGCCTGCCCGTCGGCCCCACCCGCCGCCCCCTGCTGCCTCTGAGCGAGACGGAGAAAACCACCTTCGCCCGCGCCTACGAGCAGTTGGTCGCGCATCGCGGCTGA	MNFDGIWTPLVTPFNQDGSIEFAALTPVIDSLIEHEVNGLIVGGTTGEYYALSNAERKKLFDVVAEQAKGRISLMAGINSTSTDETLDLGRYAKATGFESILLAAPYYCQPTQGELLVHAYTVDDALDMPVMLYNFPARTGTEMSFDFIDGLKQRPNFQAIKESTGSIERMHTLTQDYADQLQIGCGMDDQVLEFFTWGARSWVAGASNFLALEHVALYRTCVVEQDMIAGRELASRLLPLLNLLEQGGKFCQYVKYGCELAGLPVGPTRRPLLPLSETEKTTFARAYEQLVAHRG	PGPT0002080_5243	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
BMS010_02242	957	gcvA_3		Glycine cleavage system transcriptional activator	ATGGTTAAGCACACCGAGCCCGATCAGACTCTGATCAAGATGCCGTCGCTTCGAGCCGTGAAATCGTTCGTGGCGGCTGCCAAATACCAGAACTTCACCCGTGCGGCGGAGGCCTTGTGCGTCACCCAGGCGGCGATCAGCCGGCAGATTCGCGAACTGGAGGATTATCTCGGCGCGGAACTGTTCAAACGTGCCGGACGTGCCGTTGAACTGACCACGGCAGGCTCGATCTTCTTCGATGCGGTGCAGTTGTCCTTCATCAACATTTCCCAGGCGGCCGAACGCATCCGCAAGCAGAACACCGGCAAGCGTGTCCTGACGCTTTGCTGTTCGCCGGCCTTTTCCGCACTCTGGCTGTCCCACCGGTTACCGAGCTTTTTCAGCGCCAACCCCGACGTGGACCTCAACCTGGTCACCACCCAGAACTTCCTGGCGATGGAACCCGGGGTACGCCCGGACATCTTCATCACCAAGATGACCGAGATTCATCAGGGCTACCGGAGCGTTCCGATGTTCCATGACGTCATCTATCCGATATGCACCCCGCGCTATCTCAGCGAGCACCCGGAACTGAAGACCCTAGAGGGGCTGCGGGACAGCGTGCTGCTCAACCTGAGCCCTTATGGCCGCTCCCAGGTCGCCGAGCACGTCGACTGGAGCGTCTGGCTTGGTTTTCACTACATCGACATCGAAACGCGTCCCCCGGAAAGCCCGCATTTCTTCAATGCCAACGACTACAACCTGCTGGTGCAGATGGTGCTCAGTCATCAGGGCATAGCGCTCGGCTGGCATCACCTGGTGGGGCATCTGGTCGAACAGGGACTCCTGGTCCGGCCGGTCGAACAGGAAGTGGTGCTCAAGGACGCCCAGCACTACCTCGCTTTCAATGAAGCCAAAGAAGAGGACGACGCCTGCTGCCGGCTGCGCGACTGGCTGATAGCGCAGGTGGCAACTTGA	MVKHTEPDQTLIKMPSLRAVKSFVAAAKYQNFTRAAEALCVTQAAISRQIRELEDYLGAELFKRAGRAVELTTAGSIFFDAVQLSFINISQAAERIRKQNTGKRVLTLCCSPAFSALWLSHRLPSFFSANPDVDLNLVTTQNFLAMEPGVRPDIFITKMTEIHQGYRSVPMFHDVIYPICTPRYLSEHPELKTLEGLRDSVLLNLSPYGRSQVAEHVDWSVWLGFHYIDIETRPPESPHFFNANDYNLLVQMVLSHQGIALGWHHLVGHLVEQGLLVRPVEQEVVLKDAQHYLAFNEAKEEDDACCRLRDWLIAQVAT	PGPT0026360_920	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
BMS010_02243	1212			Carnitine monooxygenase oxygenase subunit	GTGGATAGCAAATCAGCAGTACTGGCCTTGATTCGCCAACGCAAAGAGCGCCATGCGCTTCCGCGCCCGCTTTACACCGATCTCGAGGTGTATCGTCAGGATCTGGAACAGATCTGGCACAAGGAATGGATTTTTGCCGGGCATACCTTCGAAGTGGAGAAGCCCGGCCAATATTTCACCCTGCAAGTCGGCGACTACCCGGTTGCCGTGGTTCGCGGGGGCGACGGCCAAGTCCGGGCCTTTCACAATGCCTGCCGGCATCGCGGCTCGAAAGTGTGCGGCGAGGCCAGCGGCAAGGTGGCCAGACTGGTCTGCCCCTATCACAAGTGGGCGTTCGACCTGGACGGCCAATTGTTGTTCGCGCGCAACATGGGTGCCGATTTCAACAAGGCGGACTACGGTCTGAAACCGGCCCACTGTGAGATCGTCAACAGCTACATCTATGTCTGCGTGGCCGAGCAGGCACCGGATTTCAGCCGTTTCCGCCACGACCTGTCTCCCTTCATCGCGCCGCACAATCTCGACGATTGCAAGGTCGCGTTCGAATCCAACCTGGTGGAGAAGGGCAACTGGAAGCTGGTCTTCGAGAACAACCGCGAGTGCTACCACTGCGACGGTTCCCACCCGGAGCTCCTCAATTCCTTCGTCGAGAATCTCTCGGTTGCCGGCGTAGGCGGGGATGACGACCCTGAATTGGTGGCGCACTGGGATCGCTGCGAAGCGGCGGGGCTGCCGAGCCGCCTGGTGATGGATGCGGACGGGCAGTACCGCATGACGCGCATTCCGCTTTCCGCCGGTGCGCTGAGCTACACGATGGATGGCCGGCCCGCGGTGTCCAGGCGCCTGGATCGGAGCGGGGAGCAGAACATCGGTGCCTTGCTGTACTTCAATTACCCGTCCACCTGGAATCACTTCCTGGGCGACCACGCCCTGAGCTTCCGGGTATTGCCGCAGGGGCCGCATGAAACGCTGGTGACGACCAAATGGCTGGTGCCGAAGGATGCCCAGGAAGGCATCGATTACGATCTGGAGCACCTGACCCGGGTCTGGCTCGCCACCAACGATCAGGACCGCCGCTTGGTCGAGGGCACCCAGCTCGGGGTGAGTTCGCCAGCTTATGAGCCGGGGCCGTATTCCTCGATTGCGGAAAATGGCGTTTGTCAGTTCGTCGATTGGTATTGCACGACCATGGCCAAGCGCTTGGTCGACTGA	MDSKSAVLALIRQRKERHALPRPLYTDLEVYRQDLEQIWHKEWIFAGHTFEVEKPGQYFTLQVGDYPVAVVRGGDGQVRAFHNACRHRGSKVCGEASGKVARLVCPYHKWAFDLDGQLLFARNMGADFNKADYGLKPAHCEIVNSYIYVCVAEQAPDFSRFRHDLSPFIAPHNLDDCKVAFESNLVEKGNWKLVFENNRECYHCDGSHPELLNSFVENLSVAGVGGDDDPELVAHWDRCEAAGLPSRLVMDADGQYRMTRIPLSAGALSYTMDGRPAVSRRLDRSGEQNIGALLYFNYPSTWNHFLGDHALSFRVLPQGPHETLVTTKWLVPKDAQEGIDYDLEHLTRVWLATNDQDRRLVEGTQLGVSSPAYEPGPYSSIAENGVCQFVDWYCTTMAKRLVD	PGPT0013680_564	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013680-gbcA-K00479	NA	NA
BMS010_02244	1173	proV	COG4175	Glycine betaine/proline betaine transport system ATP-binding protein ProV	ATGAGTCAGGCAGAAGAAATACTGTCGGTGCAAAACATCTTCAAAGTGTTCGGGCCTCATCCGGACACGGCGATGGAGATGTTGCGCAAAGGTGCCGATAAAAACGAAATATTCCAGAAGACCGGCCAGGTGGTCGGGGTGTTCGACGCCAGTTTCTCCGTCAAGCGGGGAGAAATCTTCGTCATCATGGGACTGTCCGGTTCCGGCAAGTCGACCATGGTCCGGTTGTTCAACCGGCTGATCGAGCCCACCTCGGGCAGCATCCATCTCAAGGGCCGTGAAATCACCGGGCTATCCGACAAGGACCTGCTTGATGTCCGGCGCAAGGAGATGGGCATGGTCTTCCAGTCCTTCGCGCTGATGCCCCATATGAGCGTTTTGGAAAACACCGCCTTCGGCCTGGAAATCTCCGGTGTCGGCGAACGCGATCGCCATGCGCGGGCAATCGAGGCGTTGCGGCAGGTAGGGTTGGCCGGGCACGAGAACAGCTACCCGCACCAACTCTCCGGCGGCATGCAGCAGCGTGTTGGCCTGGCGCGTGCGCTCGCCAACGATCCCACCATCCTGTTGATGGACGAAGCGTTTTCCGCGCTCGATCCGCTGATCCGCAGCGAAATGCAGGGCGAGCTGATGCGCCTCCAGGCCGAGCAGCAGCGCACCATCATCTTCATTTCCCACGATATCGAGGAAGCCATCCGCATCGGCCACCGCATCGCGATCATGGAAGGCGGGCGGGTGGTCCAGATCGGCACGCCCCAGGAACTGTTGCAGAACCCCGCCAACGACTATGTCGCGACCTTCTTCAAGGGTTTCGACAGCTCGCGGGTGCTCACAGCCGGAGACGTCGCTCAGTTCGACGCGGAGTCGGTATGCCGGGTCAATGGCCAGGTGCCGAAGCTGAAAGCCGGTGTGCCCTATGGCTATGTCGTCAACGAGCGTAACCATCTGCTGGCGGTGGTCGATGCCGGCGAGCTCAACGATGTCCGGGAGCCCGCGCAGATCGCCCGCTTCGGGCTCGACAGCCATGGACCGATCTACATCGACACGCCTTTGCACGACGTGCTGGATATCGTCGCTGCCGCGCCTTATCCGGTGCCGGTTCTCGATCGTAGCGGTGAGCTCAAGGGCACCATTTCCAAGAACCTGCTGCTGCAAACCTTGAGTCGCCATTGA	MSQAEEILSVQNIFKVFGPHPDTAMEMLRKGADKNEIFQKTGQVVGVFDASFSVKRGEIFVIMGLSGSGKSTMVRLFNRLIEPTSGSIHLKGREITGLSDKDLLDVRRKEMGMVFQSFALMPHMSVLENTAFGLEISGVGERDRHARAIEALRQVGLAGHENSYPHQLSGGMQQRVGLARALANDPTILLMDEAFSALDPLIRSEMQGELMRLQAEQQRTIIFISHDIEEAIRIGHRIAIMEGGRVVQIGTPQELLQNPANDYVATFFKGFDSSRVLTAGDVAQFDAESVCRVNGQVPKLKAGVPYGYVVNERNHLLAVVDAGELNDVREPAQIARFGLDSHGPIYIDTPLHDVLDIVAAAPYPVPVLDRSGELKGTISKNLLLQTLSRH	PGPT0013630_1504	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013630-gbuA|proV-K02000	NA	NA
BMS010_02245	951	ousW_3	COG4176	Glycine betaine/choline transport system permease protein OusW	ATGTCCGAGTTCAGTATCCTCGACCCGTTTCAAGCCATGACCATTCCGCTGGGTGACTGGGTGGAAAGCACCCTGAATTACCTGGTTCACAATTACCGCGGCTTCTTCCGCGCCGTCCGCTGGCCGATCGACCAGGTGCTTGGGGGTATCGAGTACACCCTGCAAAGCATCCCACCGACAATCGGCATCCTGCTGTCGTCCCTGCTCGGCTGGCAGCTCGCTGGGCCGCGCATGGGCTGGCTCTGCGCGGTGACCCTGAGCCTGCTCGGGGTGATCGGGGTCTGGTCCGAATCGATGACCACCCTGGCCCTGGTCCTGACCTCGGTGTTCTTCTGCGCCGTGATCGGTATTCCGCTGGGCATCCTTTGTTCACGCAGCGACCGTCTGGAGCGGATGGTCCGGCCTGCGCTCGACGCCATGCAAACCCTGCCGGCCTTCGTCTACCTGGTGCCGGTGGTGATGCTCTTCGGCATCGGCAACGTCCCGGGCGTTCTGGTGACCATCGTCTTCGCCGTTCCGCCGCTGGTGCGCCTGACCAATCTAGGCATCCGCCAGGTGCCGGAGGACAAGATCGAAGCGGCACGCGCCTTCGGCTGCACCCGTCGGCAGATGCTCATGCGCGTCCAGCTTCCCCTCGCCACGTCGACGATCATGGCCGGCGTCAACCAGACCCTGATGCTCTCGCTGTCCATGGTGGTCATCGCCTCCATGATCTCCGTTGGCGGCCTGGGCCAGATGGTCTTGCGCGGCATCGGCCGCCTGGACATGGGCCTGGCCACCGTCGGCGGCATCGGTCTGGTGTTGCTGGCGATCTTCCTCGACCGGCTGACCCAGGCGCTGGGCGAACGCACCCGCAGCGACCCCAGCCTGCACTGGTATCACAGTGGTCCCGTCGGCTTGCTGTTGCGTCTCTGCGGCCGTCGTCCGCTGAGCGCGAAAGCCAGTTGCTGA	MSEFSILDPFQAMTIPLGDWVESTLNYLVHNYRGFFRAVRWPIDQVLGGIEYTLQSIPPTIGILLSSLLGWQLAGPRMGWLCAVTLSLLGVIGVWSESMTTLALVLTSVFFCAVIGIPLGILCSRSDRLERMVRPALDAMQTLPAFVYLVPVVMLFGIGNVPGVLVTIVFAVPPLVRLTNLGIRQVPEDKIEAARAFGCTRRQMLMRVQLPLATSTIMAGVNQTLMLSLSMVVIASMISVGGLGQMVLRGIGRLDMGLATVGGIGLVLLAIFLDRLTQALGERTRSDPSLHWYHSGPVGLLLRLCGRRPLSAKASC	PGPT0013635_1130	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013635-gbuB|proW-K02001	NA	NA
BMS010_02246	1026	ousX_2	COG2113	Glycine betaine-binding periplasmic protein OusX	ATGTTTTCGTTTAAGCATGGATTCACTCAGACGCTGCTGCACTGTGCCGCAGTCGTATCCTTGGGCCTGGCGCCGCTCTATGGCCAAGCTGCTTCGGCCGAGAAGCCCGGGGAGGGTGTATCGGTAACCCCGATCTTCCCGAGCATTGCCGAGGAACGCTTCCGTGGCGAGCTGGCGATGGCTGGCCTTCGTGAGCTGGGTTACGACGTGAAGGAGCCCAAGGAGACCGAATACCCCACGATGATGGTGGCGCTGGCCTATGGCGATGCGGATTTCACCGTGCACCTGTGGGACAAGCTGCACGACACCTTCTACCAGAAGGTTGGCGGCGACGATGTCCTGGTCAAGGCCGGCGATGTGATCCCCGGCGTGCTGCAGGGCTACCTGATCGACAAGAAGACGGCCGAGGCCCACAACATCAAGTACCTAACCGACTTGAAGAAGCCGGAAATCGCCAAGCTGTTCGACACCAATGGCGATGGCAAGGCCGACCTGACGGGCTGCAACCCGGGTTGGGGATGCGAGCTGATCATCGACCATCACCTCAAGGCCTATGACCTGGAGAAGACCGTCAGCCACAACCGCGGGTCCTACTTCGCCCTGATGGCTGACACCATCGCCCGCTACAAGGAAGGCCAACCGATTCTTTACTTCACCTGGGTACCGCAATGGATTGCCGGCGTGCTGGTCGAGGGCAAGGATGTGGTCTGGCTGGAGGTGCCGTATACCGACCTGCCGGGCGGCGATAACACGGTCGATACCAACTTCAACGGCAAGAACCTGGGCTTTGCCGTGGACACGGTGAAGGCCGTGCTGAACAAGGACTTCGCCGAGAAGAACCCCGCAGCGCTCGCCTTCCTCTCGAAGCTGCAGATCAGCACCGTCGATGAGAGCGTACAGAACCTGAAGATGCAGAAGGGCGAGAACACCCCCGCCGACATCAAGCGCCATGCCGACGAATGGATCGCTGCGCACCGCAATCGCTTCGACCGCTGGCTGGAACAGGCCCGCGCCGCCGCGAAGTAA	MFSFKHGFTQTLLHCAAVVSLGLAPLYGQAASAEKPGEGVSVTPIFPSIAEERFRGELAMAGLRELGYDVKEPKETEYPTMMVALAYGDADFTVHLWDKLHDTFYQKVGGDDVLVKAGDVIPGVLQGYLIDKKTAEAHNIKYLTDLKKPEIAKLFDTNGDGKADLTGCNPGWGCELIIDHHLKAYDLEKTVSHNRGSYFALMADTIARYKEGQPILYFTWVPQWIAGVLVEGKDVVWLEVPYTDLPGGDNTVDTNFNGKNLGFAVDTVKAVLNKDFAEKNPAALAFLSKLQISTVDESVQNLKMQKGENTPADIKRHADEWIAAHRNRFDRWLEQARAAAK	PGPT0013640_565	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013640-gbuC|proX-K02002	NA	NA
BMS010_02247	1335			hypothetical protein	ATGTCGCTCTATTCGTTCGTCCGCGATTTCAACTTCAATCAAGCCCCGCTGCATACCCGCACGTTGTTGCAGAGGTGTCTGCTGGACATCCTCGGAGTTGCCGCCGGTGCGCGAGACAATGCCACCAGCCAGACGCTCAGGCACTATGCGATAACGCATTATCCGCCCGGTACCCTGACCAGCCGCCTGTTGTTCGATGGGCGTCCGGTGCATCCGCTGGGTGCGGCCTGGGCTGGCGGTTTCACCGTCGACAGCCTGGATGCCCATGAGGGCCACTTCACGTCCAAAGGCCATGCCGGTGCCACGGTGGTGCCGGCCGTGCTGGCGCTGGTCGATGCCTGTCGCGAGCAGGGTCGCGCCATCAGCGGCGAGGAGCTGCTCAGCGCCCTGTGCATCGGCTACGAAACGGCCTTGCGCGCCGGTGCCGCGCTGATGGCGACCGCGCCTGAGTACCATGCCTCCGGCGCTTTTTCTGGCATCGGTGTGGTGTGTGCCGGTGCCCGACTGCTGGATTTGGACGAGCAATGCTTCCGCCATGCCCTGGGGATTGCTGAATACTTCGGTCCGCGCTGTCCGATGATGCGTCTGGTCGATCACCCGTCGATGCTGCGCGACGCCCATGGCGCGGGTGCTTATGCCGGCCTCAATGCCCTGTTCCTCGCCCAGGCAGGCGTCACTGGCGCGCCGGCCGAGACGATCGAGGCCTTGGCGGTGGCGGCCCATTGGCACGACCTCGGCCAACGTTGGGAAATCGATGCCCAGTACTTCAAACCCTGGCCGGTATGCCGCTGGGCACAGCCGGCGCTGACAGCGATGACCGCGCTGATGGCCGAGCATCCGCAAATTGGCGGCGAGGCCATCGAACAGATCCAGGTGCAGACCTTCCATGAGTCCATGCGCCTGCAAGGGCACACGCCAAGCAACGCGGACGAAGCGCAATACGCCTTGGCTTTCCCGTTGGCTGCGCTGGTCGCTCGTGGCCGGCTGGGGCCGAAGGAGGTGACCGGCGCGGCGATCCACGCCCCCGACATTCTCGCGGTCAGCCACCGCATCGAGATCGTCGAGGCGGACGATCTTTCCGGGCGCTTCCCCGGTGAAATGCTGTCGCGGGTGTCGGTGCTGCTGAAAAACGGCGAGCGCTTCGACAGCCCGGCCACCGCCGCCAAGGGCGACCCGGCCACCGCCATGACGGCGGAGGAGTTCAATGCCAAGTTCCATCTCCTGGCGAGCGCCAGCCTCGATGGCGAGCGGTGCGAGGCCATCGAGCAAGCGATCGCCGAACTGCCCGGTAGTCGCAGTTGCGAGCCGCTGTTCCGGCTGCTTTTTGCGTGCTGA	MSLYSFVRDFNFNQAPLHTRTLLQRCLLDILGVAAGARDNATSQTLRHYAITHYPPGTLTSRLLFDGRPVHPLGAAWAGGFTVDSLDAHEGHFTSKGHAGATVVPAVLALVDACREQGRAISGEELLSALCIGYETALRAGAALMATAPEYHASGAFSGIGVVCAGARLLDLDEQCFRHALGIAEYFGPRCPMMRLVDHPSMLRDAHGAGAYAGLNALFLAQAGVTGAPAETIEALAVAAHWHDLGQRWEIDAQYFKPWPVCRWAQPALTAMTALMAEHPQIGGEAIEQIQVQTFHESMRLQGHTPSNADEAQYALAFPLAALVARGRLGPKEVTGAAIHAPDILAVSHRIEIVEADDLSGRFPGEMLSRVSVLLKNGERFDSPATAAKGDPATAMTAEEFNAKFHLLASASLDGERCEAIEQAIAELPGSRSCEPLFRLLFAC				NA	NA	NA	NA	NA
BMS010_02248	1032	cdhR_3	COG4977	HTH-type transcriptional regulator CdhR	ATGGAATCGTCTTTCGAAAGTGTGTTGAAGCTGAAGAACCTGGCTCATCTGGAAAAAGCCCGGCGAGCCGGTCTCACGGTGTCGGTGCGCCGGGTTGCGTTCGTCCTGCGGGAAAACTTCTCGATGATGGCCTTCACGGGGGCGGTGGATGCGCTCGTCACGGCCAATCTCATGAGCTCCGCTCCGCTATTCGAAATTCGGGTCGTCGGGGGCAGGGATAACCTGGTTGTCAGCGACCTGGGTATCGCCATTTCCACCGACTGTTCCCTCGCCGAACTCAAGGAAAAGGAGCAGGACATCATCGTGGTGTGCGGCGGCTTTCGCGTGCGTCTCGAAGGCGATCCGTTACTGCGCTCGAAGTTACGCTCGGCGGATGCGGCGGGAGCCATTCTCGGCGGCCTCTGGAACGGAAGCTATTTCCTCGCCGAGGCGGGGCTGCTGGATGGCTATGACTGCGCGTTCCACCCGGATGGGCGGGCGATGATGTCCGAGCTGTTCCCAGGCGTGAATATTACGCGTCGTTCTTATGTGCTCGACCGTACCCGCATCAGTTGTGCGGGGGCGAACAGTTCGCTGGGCATGATGCTGGAAGTGGTTCGTGCGATTGCAGGTCAGGAGTTGGTCAATGCGGTGGAGGAGGTCCTGAACTGCGACAAGATGCGGGACATCGTCGATGTGTCCGTCGTGTCCATCGATCTCGACCCAACCCTGCCATCGACGCTCAAGGCGGCGCTGGAACTCATGCACAGCAATATCGAAGAGCCCATCGAGGTGAGTGAGATCGCACGGTACGTGGGTATTTCCCGTCGGCAGCTCGAACGCCAGTTCTGCCATCACGTGAACGCGACGCCGACGCGATACTATCTGGAGCTGCGCCTGACCTACGCGCGCCAGTTGTTGCAACACACCAACAAGCCTATCGCCGAGGTGTCCGTCGCGAGCGGATTCGTCACGGCGTCCCACTTTTACCGACGCTTCCGCAGCCTGTTCGGTATCACTCCCCGGCAATTCCGTTCGCACGCCCCCGGCTGA	MESSFESVLKLKNLAHLEKARRAGLTVSVRRVAFVLRENFSMMAFTGAVDALVTANLMSSAPLFEIRVVGGRDNLVVSDLGIAISTDCSLAELKEKEQDIIVVCGGFRVRLEGDPLLRSKLRSADAAGAILGGLWNGSYFLAEAGLLDGYDCAFHPDGRAMMSELFPGVNITRRSYVLDRTRISCAGANSSLGMMLEVVRAIAGQELVNAVEEVLNCDKMRDIVDVSVVSIDLDPTLPSTLKAALELMHSNIEEPIEVSEIARYVGISRRQLERQFCHHVNATPTRYYLELRLTYARQLLQHTNKPIAEVSVASGFVTASHFYRRFRSLFGITPRQFRSHAPG				NA	NA	NA	NA	NA
BMS010_02249	402			hypothetical protein	TTGTTCGGATTGACCCGCGCCTTTGGCGCTCTCTACATGGCCAGCCTGCTGACACAGCTTGGCTCGACCTTGTTGATGACCTATCTCGCATTGCGCCTGACGGCCAATGGCATCGCCGAATTCTGGGCCGGCGCGCTGATGGCGGCTCATGCCTCGGGCATGGTGCTGGGCAGCAGGATCGGTCAGTTGCTGATCGAGCGGGTCGGGCATATCCGTACCTACGTCGCCAGCTCCGGGATGATCTGTGCGGCTGTGTTGCTCCATGCCTTCAGCGACGCGCTACCGCTCTGGCTGTTGCTGCGGGCGCGATGGTGGTGGAGAGCTGGCTCAACGATCGAGCGCAGAGCGATCAACGGGGGAGGGTGTTGGGTATCTACATGGTCGCTGTCTATATCGGCATGA	MFGLTRAFGALYMASLLTQLGSTLLMTYLALRLTANGIAEFWAGALMAAHASGMVLGSRIGQLLIERVGHIRTYVASSGMICAAVLLHAFSDALPLWLLLRARWWWRAGSTIERRAINGGGCWVSTWSLSISA				NA	NA	NA	NA	NA
BMS010_02250	894	ycaD_3		putative MFS-type transporter YcaD	ATGGTCGCTGTCTATATCGGCATGACGTTGGGTCAGTTGGCCCTGAGCATCGACGCCGATCTCGGTATCCATGCGTTGCTCGGCGTAGCCATTGCCTTCGCCCTGAGCCAGGTGCCCGTAGCACTCACACGCAGCGCACATCCTGCTGCGTTGCGCCCTGAGCCGATCGATATCCGGTTGTTCGTGCGGCGGATTCCGCAGTCGCTGATGACCGTGCTGGCATCGGGAATGACCACCGGCTGCTTCTATGGGCTGGCCTCGATCTATGCCAGCCGGCAAGGACTGGGTACACGCGAAGTAGGGCAGTTCATGGCCCTGGCCATCGCCGCGGGCCTGCTCGCCCAGCTCCCCCTGGGCTGGCTCTCCGACCGTTTGCCCCGTGCCAGCCTGATTCGCGGGATGGCCGTGCTGCTTGTCCTGGCCAGCCTGCCGCTGGGTATCTTTCAGGGATTGCCGTTCGATGCCTTGTTGCTGTTCAGCGCCTGCATAGGTTTTCTGCAGTTCTGCCTGTATCCCCTCGGCGTGGCCCTGGCCAACGACAACATCGAAGCGCAACTGCGGGTATCGCTGGCGGGCCTGCTGCTGGCGACCTTCGGTGTCGGTGCCTGTATCGGCCCGCTGCTGGCCGGTGCCTTGATGGAGCGGTTCGGTGCCGCCAGCCTGTATTACTTCTTTGCAGCCATCGCCGCCGTGCTGGCGGCGTCAGTCAGCCAAAAGCGTGTCAGCGGAGCGCATAACCAACCGGGTGCGCCGCTGCATCACCAAGCCACACCCAACGGTCTGGCCTGCGCCAATCTGGCGACGGTGATCGAGCCAACGGCTACCGCGCCGTCCTGCTCGCCGCCATTCCCGCACGATCCATCGATCTCGGAGGGGTGCGAAAGAACCGTATGA	MVAVYIGMTLGQLALSIDADLGIHALLGVAIAFALSQVPVALTRSAHPAALRPEPIDIRLFVRRIPQSLMTVLASGMTTGCFYGLASIYASRQGLGTREVGQFMALAIAAGLLAQLPLGWLSDRLPRASLIRGMAVLLVLASLPLGIFQGLPFDALLLFSACIGFLQFCLYPLGVALANDNIEAQLRVSLAGLLLATFGVGACIGPLLAGALMERFGAASLYYFFAAIAAVLAASVSQKRVSGAHNQPGAPLHHQATPNGLACANLATVIEPTATAPSCSPPFPHDPSISEGCERTV				NA	NA	NA	NA	NA
BMS010_02251	1554		COG1292	Glycine betaine transporter 1	ATGAAGCCTGTAGCCGCAGAAAGCTCTATCGGCCAGGAATTCAATATCCGGATAATGGGTTTGAATTTTCATCGCGTCATATTTCCGGTTTCGTTCTTCTCCATCTTTGTCCTGGTTCTATTGGCGCTGAGTAATCCGGCCTTTTTCGGCCAGGCGCTGGAAGGTGTGAAAGGCTGGGTCCTGACGAACTTCGACTGGTTCATCATGATCATGGGGAACATGGCCGTTCTGTTCTGCGCAGGGGTGGCTTTTTCGCCGCTGGGCAAGATTCGTTTAGGCGGAGAGAATGCCAAACCCGAATTCAGCACGCTTTCCTGGTTTTCCATGATGTTTGCGGCTGGCATGGGAGTAGGGCTCCTATATTGGGGCGTCGCCGAACCCGTCGCGCAATATACCGGCTGGTGGAAAACACCCCTTGCCGTATTACCCAATACACCGCAAGCCGCGGATATGGCGCTGGGAGCAACCGTCTTCCACTGGGGCTTTCACCCTTGGGCAATCTATCTGACCAGTGCCTTGGTCGTCGGTTACTTTTCCTACAATAAAGGCCTGCCGCTTTCCCTGAGTTCCGGCCTGAAACCCTTGATCGGCGACGCCCATAAAGGTCTGCCCGGACAATTGGTCGACGTGTTCACCGTAGTCCTGACCGTCTTCGGCCTGTCCGCATCCCTCGGTCTCGGTGCCATGCAGGCGACCGCCGGCATCAGTCATGTCCTGGGTATTCCGAACACCTTTGCCTTCCAGTTGCTGTTCATTGTCGCAGTGACCGGAATAGCGGCGTTCTCCTTGTGGCGAGGCCTGGATGCCGGGGTCAAGTTGCTGAGCAACATCAATATGGCCTTGGCCCTGGGCTTGTTCCTACTGGTCGTCGTCGGTATTGGCCTGCTGCAGTTCTTCTTCGGCGTTTTCAATGCAGCGTCCGACTACGTGCAATTTTTCCTGCCGCTGAGCAACTGGATCGATCGTCCGGACCAGGACTGGCTCCAGGGCTGGACGGTGTTCTATTGGGCCTGGTGGTGCACCTGGGGGCCGCTGGTAGGGATATTCGTGGCGCGTGTATCGCGCGGGCGCACCCTGCGGCAGATGGTCCTGATGGTGATGCTGGCGCCGACCATCGTCACCGTGCTCTGGTTTGCCGCATTCGGTGGCGGCGCCATTGCCCAGATCACAGGAGGAAGCAGCCCGCTGGCGGCAGGTTTGACCGATGTCAGCATGGCCATCTTCCAGTTCCTCGATGTATTGCCGATGGGGGGCATTGCCTCGCTGTTGGTCGTGGTCCTGCTGGTGATCTTCATGGTCACGTCAGTGGATTCCGGTGCCCTGGTAGTCGACAACCTGTCCGCCGGCGGCGATACCGAAACCTTGCCCCCTCAGCGCGTGCTCTGGCTGGTGATGATCGGCCTGGTAACGATCACGCTTTTCGTGGTTGGCGGCGATACCGCGCTCAAGGGTATCCAGGCGGGGACCATCGCCATGGGCCTACCGTTCATGGGCTTGATGCTGTTGCTCATGATTGGGCTGGTCAAGGCGCTGATCAAGGATTGCCGCTGCTGA	MKPVAAESSIGQEFNIRIMGLNFHRVIFPVSFFSIFVLVLLALSNPAFFGQALEGVKGWVLTNFDWFIMIMGNMAVLFCAGVAFSPLGKIRLGGENAKPEFSTLSWFSMMFAAGMGVGLLYWGVAEPVAQYTGWWKTPLAVLPNTPQAADMALGATVFHWGFHPWAIYLTSALVVGYFSYNKGLPLSLSSGLKPLIGDAHKGLPGQLVDVFTVVLTVFGLSASLGLGAMQATAGISHVLGIPNTFAFQLLFIVAVTGIAAFSLWRGLDAGVKLLSNINMALALGLFLLVVVGIGLLQFFFGVFNAASDYVQFFLPLSNWIDRPDQDWLQGWTVFYWAWWCTWGPLVGIFVARVSRGRTLRQMVLMVMLAPTIVTVLWFAAFGGGAIAQITGGSSPLAAGLTDVSMAIFQFLDVLPMGGIASLLVVVLLVIFMVTSVDSGALVVDNLSAGGDTETLPPQRVLWLVMIGLVTITLFVVGGDTALKGIQAGTIAMGLPFMGLMLLLMIGLVKALIKDCRC	PGPT0021960_800	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARNITHINE_USAGE	PLANT_DERIVED_CARNITHINE_DEGRADATION,PGPT0021960-TC_BCT-K03451	NA	NA
BMS010_02252	1413	dat_1	COG0160	Diaminobutyrate--2-oxoglutarate aminotransferase	ATGAGTGTGATCAACCCGACAACGAACAGCAAAATCGATTTTCAGCGCCGACATACGGGACTCAGCGAGAGTTACTGCCTGGACACCACGCCCGTTCTTCAGCGCCAGATGGCGCAAGAGTCGAACGCCCGCAGTTACCCGCGGCGCATTCCCTTGGAGCTCAAGCGTGCCCGGGGAGTCTACGTCGAAGACTCGCGAGGGCAGGTGTACATAGACTGCCTGGCGGGAGCCGGCACCTTGGCGCTGGGGCACAACCACCCGGTGGTCATAGAGGCGATCCAACGAGCCCTTAGTTCGGAGGTTCCTCTACATACGCTCGATTTGAGTACACCGATCAAGGACGCCTTCGTCCAAACGCTATTCGATTTGTTGCCTGGCGACTTCGCCAGAAATGCCCGGATCCAATTCTGCGGACCCAGTGGCGCGGACGCGGTCGAGGCGGCAATCAAATTATCCCGCACGGCGACGGGCCAGCAGACCGTCCTGGCGTTTCATGGTGCCTACCATGGCATGACCCTCGGCACGCTCTCGCTCAGCGGCAACCTCGGTCCGAAGAAATCGCTGGGCGGGTTACTGGCGGGTGTCCAATTCCTGCCTTATCCGTATGGCTACCGTTGCCCCTTTGGCCTGTCCGGGGAACAGTCGATCGACGCCAGCCTCCATTACATCCGCCATATGCTGAGCGATCCCGAAAGCGGCATCACCCAGCCTGCGGCCATGATTCTCGAAACGGTCCAGGGGGAGGGTGGGGTGATTCCTGCTCCAGACCGTTGGCTACAGGGTCTCCGCAGCATCACGAAGGAACATAGCATTCCCCTGATCCTCGATGAGATTCAATGTGGCATCGGCCGTACGGGGGATATCTTCGCGTTTGAAAACAGTGGGATCACACCCGATGTCCTGACGCTGTCCAAGGCTATTGGCGGTGGTTTGCCGCTTTCCGTGGTGGTCTACCAAGGAGAGCTGGATCAGTGGCAGCCCGGCGCGCATGCCGGCACGTTCCGAGGCAACCAATTGGCTATGGCGGCAGGGAACGCCACGCTACGGTTCATCCAGCAGGAGCAGTTGACGAACCATGTGCGCAGCGTAGGCAGCCAACTGCATCGCTCGCTGCTGGGGCTGCAGGCCGAGTTCGACTGGATCGGTGATGTCCGTGGTCGGGGCTTGATGCTGGGTATGGAAATCGTGAGTCCGACGAGTTTCGATTCCCTGGGGCGTCCTGCAGCAGATGGCGACAGAGCACGCAAACTCCAACGCGCCTGCCTGGAACGCGGGCTGATTGTGGAGCTGGGAGGACGACATGGCGCAACCGTGAGATTCCTGCCACCACTGATCATCAGTGAAGCGGAAGTCGAGCATGTCGGACAGATTCTTTACGAGGCAGCTCAAGCTGTTAATGGGCTCTCCAACTGA	MSVINPTTNSKIDFQRRHTGLSESYCLDTTPVLQRQMAQESNARSYPRRIPLELKRARGVYVEDSRGQVYIDCLAGAGTLALGHNHPVVIEAIQRALSSEVPLHTLDLSTPIKDAFVQTLFDLLPGDFARNARIQFCGPSGADAVEAAIKLSRTATGQQTVLAFHGAYHGMTLGTLSLSGNLGPKKSLGGLLAGVQFLPYPYGYRCPFGLSGEQSIDASLHYIRHMLSDPESGITQPAAMILETVQGEGGVIPAPDRWLQGLRSITKEHSIPLILDEIQCGIGRTGDIFAFENSGITPDVLTLSKAIGGGLPLSVVVYQGELDQWQPGAHAGTFRGNQLAMAAGNATLRFIQQEQLTNHVRSVGSQLHRSLLGLQAEFDWIGDVRGRGLMLGMEIVSPTSFDSLGRPAADGDRARKLQRACLERGLIVELGGRHGATVRFLPPLIISEAEVEHVGQILYEAAQAVNGLSN	PGPT0014050_149	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014050-ectB|dat-K00836	NA	NA
BMS010_02253	2085	fyuA_1	COG1629	Pesticin receptor	ATGAATAATTTCAAGAAGAACACGCTGGCATTGGCAGTTGCGTCCGGCCTGATGGCCGCGACCGCCGCGCTGGCAGCCGAGGAAGCCAAGAAAGAGGAAGCGCTGCAGCTCAAAGAGGCGGTCGTCACGGGCGAGAAGATTCAGCGCAGTGAAGATAGAACGCTGTCCAGCGTCGCAGTGGTAACCAGCGAGGACATCCGCATTCACGGCGACCAGGACCTGCAGGGCGTGCTGGATCGCACTCCCGGCGTATACGCCCAGTCGGGTAACGAGAACTGGGGTATTCGCGGCATTCCGGTAAGTGGCTTCGACGACCAGGGGCCCGCTGCAATGAACGGCGCCGTATCCGTCTATGTAGACGATGCGTTGCAGGTCAACCGTCTACTGACCCTCAATCCACTGCCGCTCTGGGACATGGAGCAGGTGGAAATCTACCGCGGTGCCCAATCGACCACCCAGGGGCGTAACTCCCTGGCCGGCGCCATCATCATGCGCACCAAGAACCCGACTTTCGATCCGGAATTCTCCGTCCGCAGCAATGTCGGCAAGTATGGCGAGCGGGGCGCGTCGGCGGTAGCCAACGGCTCGCTGGTCGACGGCGTGATGGCCGCCAGGCTGGCCGTCGATTACCAGACCGCCGATGGCTACATCGAGAACGAGACGCTGGACATGGACGCCAACCAGCTGCGTTCGTCCAACGTCCGCGGCAAGCTTCTCATCCTGCCGTCCGACGACCTGGATGTGCTGCTCACCTTCGCCCGCACCAAGCAACGCAGCGGGGTCAACGCCGTGGCCGCGACCAACGGCCGGCCGGACTACTACAGCGTCTTCGAGAACACCGAGACCCACAACACCCTGGACCAGGACACGGCGACCGCCAAGCTGGACTATCGCCTGGACGATTTCTGGACGCTGACCAGCGTGACCTCTGGAACCTGGTCCGAATATCACTCGATCCTCGATTTCGACCGCCTTCCAAATAGAACCCAGACTGCTCCCCGTCATCATGAACAGACCCTGGCCAGCCAGGAGCTGCGCCTGGGATATTCGTCTGATCGGGTAACCGGCGTCATGGGTGTTTACCTGGGGCATTTCACCGGCGATATCGACGATCAACTGGTCAACAATGGCACCGTGCTGTTGGATCAGCAGGGCGATACCGAGATCAATAGCCAGGCGGTGTTTGGTGAGCTCAATTGGGAGTTCGTTGATGGCTGGCAACTGATCACGGGCTTGCGCTGGGATCATGAGAAGAACACCACCAAGATCGAGTACCCCACCGACGTGCTGGGCATCGCTACCGATCCTTCGGCGGACGAAGACATCAGCTCCAGCGTACTGCTACCGAAGATCGGTATCAGCTATGACCTGACCGATAATCAGGTGCTTGGCCTGACCTGGCAGCGTGGCTATCGCAGTGGTGGGGTAAACGTCCGGACTCGCGCACGACACGAGACCTATGATCCGGAATTCACCAGCACCTACGAGCTGGCTTGGCGCGGCAATTGGCTGGACAAGCGCCTGCGGACCAGCGCCAACCTGTACCACACCACTTGGAAAGACCAGCAGGTGTCCTTCCTCAATCTCAGCGACAACACCGTGCAGGTGGCCAATGCCGCCGAAAGCCGCATGATCGGCCTGGAGTTCTCAGCCGAGTACCTGGTGACCTCGCAGCTGCTGGTGAACGCCGGCTTCGCCTACAACGACACCAAGTACGAAGACTTCGTGCGTGATGGTGTCGACCTCAGCGGCCGCGAGTTCGTTTTCGCGCCGAAGAAAATGGCCAATGTCGGCGTCAACTACACCTTCGATAGCGGCTTGATGATTGGTGGCGACGTTGTTTACCAAGGCAACAGCATCTCCAACTTCGACACGAACTCCGCACGTGAGGTGACCGGCGAGCGGCGCAACGACAGCGTCACGCTGGTGAACCTGAATGCCGAGTACCCCATCGGCAACCTGACCCTCAGCGGCTACGTGCGCAACCTGTTCGACGAGGAATACATCACCAACAACCAGAGCGACAGCCTGGTGGACGTCGGCGCGCCGATGACCCTTGGCGTGGCCGCTCGCTACGACTTCTGA	MNNFKKNTLALAVASGLMAATAALAAEEAKKEEALQLKEAVVTGEKIQRSEDRTLSSVAVVTSEDIRIHGDQDLQGVLDRTPGVYAQSGNENWGIRGIPVSGFDDQGPAAMNGAVSVYVDDALQVNRLLTLNPLPLWDMEQVEIYRGAQSTTQGRNSLAGAIIMRTKNPTFDPEFSVRSNVGKYGERGASAVANGSLVDGVMAARLAVDYQTADGYIENETLDMDANQLRSSNVRGKLLILPSDDLDVLLTFARTKQRSGVNAVAATNGRPDYYSVFENTETHNTLDQDTATAKLDYRLDDFWTLTSVTSGTWSEYHSILDFDRLPNRTQTAPRHHEQTLASQELRLGYSSDRVTGVMGVYLGHFTGDIDDQLVNNGTVLLDQQGDTEINSQAVFGELNWEFVDGWQLITGLRWDHEKNTTKIEYPTDVLGIATDPSADEDISSSVLLPKIGISYDLTDNQVLGLTWQRGYRSGGVNVRTRARHETYDPEFTSTYELAWRGNWLDKRLRTSANLYHTTWKDQQVSFLNLSDNTVQVANAAESRMIGLEFSAEYLVTSQLLVNAGFAYNDTKYEDFVRDGVDLSGREFVFAPKKMANVGVNYTFDSGLMIGGDVVYQGNSISNFDTNSAREVTGERRNDSVTLVNLNAEYPIGNLTLSGYVRNLFDEEYITNNQSDSLVDVGAPMTLGVAARYDF	PGPT0003790_24850	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS010_02254	999			hypothetical protein	ATGAATCAAGCTGCCGAAGTGAGCACGGCTGCCACCCGCCTTTTGCCCGTAGAGCAAGACGGCTGCGTTATCGCCCCCTTGCTGGACGGCCAGCCTCTCCCCCTCCTCATCGATAGCCAGCAGCGGCAGTCGATTCATACGCTGAGCGACGAGGTCCGGGCGATTGCCCTGGATGCGCTGGGTACGACCGGCGGCGTCCTGTTCCGCAATTTCAAAGTGCCGACGCCGCTGGACTTCAAGCGCTTCGCCGCTAGCTTCGGCATGCCGCTGGGCACCTACGAGTTCGGCTCGACACCGCGCAGCAAGGTGTTCGCCGGCGTCTACAGTTCCACCGAATACCCCGCGCACCAGAGCATCCCCCTGCACAACGAGCAGTCCTACACGCGCCAATGGCCGTCGCGCATCTGGTTCCACTGCATGACGGCGAGCCAGACCGGCGGAGAAACCCCCATCGCCGACAGCCGCCTGGTGTATCGGGCGATCGATCCGGCCATTCGCGAGGAATTCATCGCCAAGGGGCTGCTTTACGTGCGCAACTACAGCAGCGCGCTCGACGTGCCCTGGCAGCAGGTGTTCAACACCGACGAGCGGAGCAAGGTCGAGCAGTACTGCCGGGCCCAGGGCATCGACTGGAGCTGGTCCGTCGATGGCGAGCTGAGCACCCGCCAGCTATGCCAAGCGGCCGTCCGGCATCCGGTCACTCAGGAATGGGTGTGGTTCAACCAGGCGCACCTGTTCCATATCTCCGCCATGGCGCAGGACCTGCGCCAGACCCTGATCGCAGCGGTAGGCGAGGCGCAACTGCCGCGCAATGTCTACTTCGGCGACGGCACGCCGATCCCGGATGCCACGCTGGATGCCATTCGCGCGGTCTACGCCGACACCTGCGTGGCTTTCCCCTGGCAGGCCGGCGATGTGCTGATGCTAGACAACCTGCTGGTCGCCCATGGCCGCAACCCGTTCAGCGGCGACCGCAAGGTCATCGTGGCGATGGCCTAG	MNQAAEVSTAATRLLPVEQDGCVIAPLLDGQPLPLLIDSQQRQSIHTLSDEVRAIALDALGTTGGVLFRNFKVPTPLDFKRFAASFGMPLGTYEFGSTPRSKVFAGVYSSTEYPAHQSIPLHNEQSYTRQWPSRIWFHCMTASQTGGETPIADSRLVYRAIDPAIREEFIAKGLLYVRNYSSALDVPWQQVFNTDERSKVEQYCRAQGIDWSWSVDGELSTRQLCQAAVRHPVTQEWVWFNQAHLFHISAMAQDLRQTLIAAVGEAQLPRNVYFGDGTPIPDATLDAIRAVYADTCVAFPWQAGDVLMLDNLLVAHGRNPFSGDRKVIVAMA	PGPT0031670_4	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-MALLEOBACTIN_METABOLISM,PGPT0031670-mbaH-NA	NA	NA
BMS010_02255	1455	lgrB_1		Linear gramicidin synthase subunit B	ATGGAAAAGCCCTTTTCGCCCCTGCTGCCGTTGGGCGAGGCGGCCGCCCGCCGCGTTCGCCAGTCCTTCGCCCAGAGCCGTCTGTGGTTCCTCCACCAGTTGGAGCCCGGACGCGCCCAGCACAACATCCTGATCTGCATGGCGCTCGAAGGGCCCCGCGTGCAGACGGATCGGCTCAAGCACGCGCTGGATGCGCTATGCCTGCGCCATTCGGTCCTGCGTGCCTGCTACCGCACCACGGCGACAGGCCCCGAGCAATGGCTCGCCGAGCGGCAATCCATCGAGGTGAAGACCCTGGACCTGAGCGGCCTGCCTGCGGATGAGCGCCGCCGCGCACGCGACCGCCTGCTGCACGACGAACAGATCACCCCGTTCGATCTGGAGGCCGGTCCGGTGATGCGCGCCGCCCTGCTCGACCTCGGCGGCAACGAACAAGAACTGGTCGTCACCATCCACCACATCGCCTTCGACGGCCGTTCAGGCGAAATCCTCCTGCAAGACCTCGCTCACTACTATGCCACCCAGGAACCCGGCGCCCCGCTGCCCGGCCGCCTGCAGTACGCCGACTTCGCGGCCTGGGAGCCCGGCTACGTGACCGCCGAGTTGATCGAGAGCGAGACCGCGTTCTGGCGCGACCACCTGGCCGGCATGCCGCTGCAACTGGAATTCGCCCGACGGGTGCGCCGCGAGGGGCCGGCGCAGGGCGGCCGGCATCATTTCATCATTCCCGAGCAGCAGGTCGAGCACCTCAAGCGGGCGTCGCGACGCCTGCGTCTGCCGCTGTTCGTGACGCTGACCGGGCTGTTCCAGTTGTGGCTGCACTATCTCAGCGGGCAGCGCCGCTTCCTCATCGGTACCGATGTGCACGGCCGCGATCTGCCGGAACTGCAGGACATCTTCGGCTTCTTCGTCAACCAGCTCACCCTCAAGTGCGAGCTGGAGGACGACCTGAGCCTTGGCGAACTGCTGGCGCGCACCCGCCAGGCCATCCGCCTGGCTCATGCCCACCGCCAGTTGCCCTTCGACCTGCTGGTGTCCCAGTTGGCGCCACAGCGCAAGGCCGACCGCTCGCCGCTGTTCCAGGCCAAGTTCAACTACCAGCGCGACCGCTTCAGCATCGATGCGCTCGGCGCGGCCCGCCTCGTCAGCACCCAAGTGATCCAGGACCTGGCCGGCTTCGACCTAGTGCTCGACCTGATGCACCGCCACGCCAGCATCGAAGCCACCCTGGAATACGACCGCCGGCTGTTCAGCCCCGATGAGATCGCGCGCTTCGCCAGTCTCTGGCAGGACCTGCTGCGCCAGCTCGACGATCTGCTCGATCTGCCGCTCAGCACCCTGCGTGAGCGGCTGCAGAGCTGGGACCAGACCCACCTGCAGCGGCAACAGCACGCGCTCAACGATCAAGGACGCGCACGCCTGGGTACCACCCCGCGCCGTGCCGTCAGCCTGTAG	MEKPFSPLLPLGEAAARRVRQSFAQSRLWFLHQLEPGRAQHNILICMALEGPRVQTDRLKHALDALCLRHSVLRACYRTTATGPEQWLAERQSIEVKTLDLSGLPADERRRARDRLLHDEQITPFDLEAGPVMRAALLDLGGNEQELVVTIHHIAFDGRSGEILLQDLAHYYATQEPGAPLPGRLQYADFAAWEPGYVTAELIESETAFWRDHLAGMPLQLEFARRVRREGPAQGGRHHFIIPEQQVEHLKRASRRLRLPLFVTLTGLFQLWLHYLSGQRRFLIGTDVHGRDLPELQDIFGFFVNQLTLKCELEDDLSLGELLARTRQAIRLAHAHRQLPFDLLVSQLAPQRKADRSPLFQAKFNYQRDRFSIDALGAARLVSTQVIQDLAGFDLVLDLMHRHASIEATLEYDRRLFSPDEIARFASLWQDLLRQLDDLLDLPLSTLRERLQSWDQTHLQRQQHALNDQGRARLGTTPRRAVSL				NA	NA	NA	NA	NA
BMS010_02256	1053			hypothetical protein	ATGACCGCCATTCCTCCGTCCGGCAACCGCCCCGTCGCCGGCGCAGCCCGCCGCAAACCCATCGTGCTCTCGCAGCAGAGCATCGTCAGCGAGCGCCTGCTGGACCCGGCCTGGGACCTGCCCTGGCTGGTCGAACCGAACCTGGCCGGCGTCGATCTGGTGCAATGGGCCGCGCAGAACCGCGACGTGCTGGAGCAGAAGCTGCTGCAGCATGGCGCCATTCTGTTCCGTGGCTTCGACGTGCAATCGGTCGAGCATTTCAACGCCGTCATCGGTTCGCTGTCGTCTGGTGCGCTGGAGTACATGTTCCGCGCCTCGCCGCGTACCCGGGTGGGCGGCAACATCTATACCTCGACGGATTATCCGGCCGACCAGGTGATCTTCCCGCACAACGAGCACTCCTACTCGCCGCGCTTCCCGCTGCGGCTGTTCTTCTATTGCCATCAGCCGTCGGAAACCGGCGGCGAGACGCCCATCGGCTCGGTGCGCCGGGTCAAGTCGCTGATTCCGGCGGAGATCGTCGAGACCTTCCGGCGTAAGAAGATTCTCTACGTGCGCAACTACGGCGACGGCTTCGGCCTGCCCTGGCCGTCGGTGTTCCAGACCGACGACCGCGCCGAGGTGGCGGCCTACTGCGCCTCCGTGGGGATCGAGGTGGAGTGGAAGGACGGCAACCGCCTGCGCACCCGCCAGGTCGGCGCCGCACTGGCCCGCCATCCGCGTACCGGCGAGGAGGTCTGGTTCAACCACGGCACCTTCTTCCACGTCAGCACCCTGCCCGCCGCCATCCGCGACTCGCTCGGCGCCGGTTTCTCGCCAATGGACCTGCCGACCAACACCTTCTACGGCGACGGTAGCCCCATCGAGCAGGACGTCCTGGAAACGCTGCGTGCCGCCTACCTGGATTCTCTGGTGAAGTTCCGCTGGCAACGCGGCGATGTGCTGCTGCTCGACAACATGCTCGCGGTGCATGGCCGCGAGCCCTACGGCGGCCCGCGCAAGATCTACACCGGCATGGCCGAAGCCACCGCCGGCAGCGACGTACAGCTCTGA	MTAIPPSGNRPVAGAARRKPIVLSQQSIVSERLLDPAWDLPWLVEPNLAGVDLVQWAAQNRDVLEQKLLQHGAILFRGFDVQSVEHFNAVIGSLSSGALEYMFRASPRTRVGGNIYTSTDYPADQVIFPHNEHSYSPRFPLRLFFYCHQPSETGGETPIGSVRRVKSLIPAEIVETFRRKKILYVRNYGDGFGLPWPSVFQTDDRAEVAAYCASVGIEVEWKDGNRLRTRQVGAALARHPRTGEEVWFNHGTFFHVSTLPAAIRDSLGAGFSPMDLPTNTFYGDGSPIEQDVLETLRAAYLDSLVKFRWQRGDVLLLDNMLAVHGREPYGGPRKIYTGMAEATAGSDVQL	PGPT0031670_4	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-MALLEOBACTIN_METABOLISM,PGPT0031670-mbaH-NA	NA	NA
BMS010_02257	3135	lgrD_1		Linear gramicidin synthase subunit D	ATGTCGGCTCTGACAGGATTTCGCATCTCTCCACAACAGGCCCGGGCCTGGCGCGACGCCCAACACGGGGCGCCAAGCCACGCCGGCAGCCGGCTGGTCATCGATGTAGCCCGGGCCCCCTCGACCGCCGAGATCGAGGCGCGCCTGAGCGACCTGGCCCAGCGCGAGGAAATCCTGCGCACCGCGCTACACGCCGTGCCCGGCATGGCCCTGCCGATCCAGGTGATCGAGGACCAGCCGCGCGTTACCTTCGCCGCCGAAGACTGGCGCGGCTTCGATGTGGCTCAGCGCGATGCTCGTCTGGCCGAAGCCACATTGGCGCCGGGCAGCGTGCTCTCGGTACGCTACGTCCGGATCGCCGAGGAGCGCTGGCTGCTGTGCCTGGAGGGCGCGGCCAACGCCCTGGACCTCGCCAGCCTGGCGTTGATTGCCGCCGAGCTGCTTGGCGCGCCTATCGAGGAGCGCCTGCAATACGTCGATTACGCGGAGTGGAAGAACGGCCTGCTGGAAGACGAAGCCGACAGCCAGGCCGTGCGTTTCTGGCAGCAGGCGCGCACGGAAAACGCCCCCCTCGAGCTGCACGGGCTGCAGGCGGCCAGCGCCACGAATTGCCAGCCCGCCCTGCGCGAGCTGGGTGGCGTACCGCCACGCTCCGAACTGCAACGGGTGGCCACGCAGGCCGGGCTGAGCCTGGACGAATTGCTGTTCGCCGCCTGGTGCGTGCTGCTGGCGCGGATCAGCGGCCAGCAGCGCATCCAGCTCGGCTGGCACGACAGCGGCCGGGGCGAGGGACTGGAACAGGCCCTGGGGTTGTTCGAACAATTTCTGCCGGTGCAGGCCGATGTCGACTTGCAGGCACCGCTGGCGCCCCAGGCCACGGCGCTGCTCGGCCCCCTGCGCCAGGCCAGGGGCTGGCGCGATCACTACGACAGTGCACAAGCCTGCGCCCTGTATTTCGCCTGGCGCGAACTCGATCTGCCCGCGCAATTGGGCACCGCGGTCGCCGCCAGCGGCTTCAACGCGCCGTTCGCCCTCGGCCTGGAATGCCGCACGGCCAATGACGCGACGCTGGAACTGCGCCTGGCCTACGACCAAGCGCGCTTCGATGCCAATGCCATTGCCTGCCTCGAGGAGCAATGGACGCTGTTGCTGCAGGGCCTGTGCGCGGACGGCCAGGCGCTCGGCGCGCTGCCCCTGCTCGGCCCGCGCCAGGAACAGGCGTTGCAGGCCGGCATCGCCCCGGTAGAAGTACGCGACGTCGGCGTGCTCGCGCTGATCGAGGAGCGTGCCCTGGCCAATCCCGATGCCCCGGCGCTGGCCGACGGCAGCGGCGTGACCGGCTACGGCGAACTGCTCGCCCAGGTCGATGCCCTGGCCCGGCGCCTGCGCGCCGAGGGCGTACAGACTGGCGACGTGGTCGGCATCCTCATGCGTCGCGAGCGCCAGGCCATCGTCGCCATGCTGGCCGCATTGAAAGCGGGCGCGGCTTACCTGCCCCTCGACCCGGCCTATCCGGACGAACGCCTGAGCTACATGATCGACAACAGCGCGGCGCGCCTGCTGCTCAGTACCTCCGAGCTGCAAGACAGCGTCGCCAGCAGCGTGCCGACCCTGCTGTTGGACGCCGCTGGCGAGGTCGCGGACGCAGACATGGCGCTGCCGAGCGTGGCCGGCGAACAGACCGCCTACCTGATCTACACCTCCGGCTCCTCCGGCCAGCCCAAGGGCGTGCCGATCAGCCACGCCGCCCTGAGCCGCTCGACCCAGGTACGCATGGCCTTCTACCGCGAGCCGGTGCGGGCCTACCTGCTGCTCTCGTCGCTGTCCTTCGACAGTTCGGTGGCCGGCATCTACTGGACGCTGTGCCAGGGCGGCCTGCTGGTGCTGCCGGCCAGCGGCGAGGAACTCGACCTGGAGGTGCTGGGCGGCCTGATCGAGCGCCACCGGGTCAGCCACGGCCTGTCGCTGCCGTCGCTGTACGAGACGCTGCTAGACTACTGCCCCCCTGCCACCCTGGCCCACCTGCGCACCTGGATCGTGGCCGGCGAACCCTGCACGCCACGCGTGCTGGACAAGCACCGCGGCAAGGCAGCGCAGGCGCAATTGGTCAACGAATACGGGCCGACCGAAGCCACCGTCTGGGCTACCGCCGAGGTGCTCAGCGACACGGCGCCCGACGAACGCGCGATCAGCATCGGCCGGCCGATTCCCGGCATGGGCCTGTGGCTGCTGAACGAGCACGGCCAGCCGGCCGCCATCGGCGAACCCGGCGAGATCCACCTCGGCGGGCCGACCCTGGCCAGCGGCTACCTGGGCCTGCCCGAGCAGACCGCCAGCGCCTTCGTGCATTATCCGCACATCGCCCAGGGCCAGCGCCTGTACCGCACCGGCGACCTCGCCCGACGCCGCGCCGACGGCCGCCTGGACTTCCTCGGCCGCCGCGACCAGCAGATCAAGATCCGTGGTCACCGCGTCGAGCGCGGCGAGATCGAACGCATGCTGCAGAGCCATTCCGAAGTGCGTGAGACGGTGGTGGTCGCCCAGCAGCACGAAGGCAGCGCGCGCCTGATCGCCTACTTCACCGATCGCCACGGCTACGTGCCCGAGGCCCAGGCGTTGCGCAGCTTCCTCCACGACCGCCTGCCGAGCTACATGGTGCCGGCGGCCTTCGTCCACCTCGCGGCCCTGCCGCACACGCCCAACGGCAAGCTCGACCTCAACGCCCTGCCCGACCCGGATCGGCTGGTCGCCGCCAGCGCCGCCTACGTCGCGCCGCGCAACGAACTGGAGGCGGCCCTGGCGGACATCTGCCAGCAGGTGCTCAAGCGCGAGCGCATCGGTGTGCAGGACAACTTCTTCCAGATCGGCGGCGACTCGATCCTCAGCCTGCAGATCGTCTCGCGCGCCAACCAGCAAGGCATCCGCCTCAGCGCCAAGCAGATCTTCGAGAGCGAAACCATCGAGCGCATGGCCCAGGTCGCCACCCGTGGCGTGCCCGCGAGCGAAGCGCCTGCGGCCTGCGTCACCGCCCCCGAGGACGCCAGAACGACGCGCACGGCTGCGGACTTCCCCCTGGCCGCGCTCGACGACGAAGCCTTCGGCGACCTGCTGGCGGAGCTCAACGCGACCGACTGA	MSALTGFRISPQQARAWRDAQHGAPSHAGSRLVIDVARAPSTAEIEARLSDLAQREEILRTALHAVPGMALPIQVIEDQPRVTFAAEDWRGFDVAQRDARLAEATLAPGSVLSVRYVRIAEERWLLCLEGAANALDLASLALIAAELLGAPIEERLQYVDYAEWKNGLLEDEADSQAVRFWQQARTENAPLELHGLQAASATNCQPALRELGGVPPRSELQRVATQAGLSLDELLFAAWCVLLARISGQQRIQLGWHDSGRGEGLEQALGLFEQFLPVQADVDLQAPLAPQATALLGPLRQARGWRDHYDSAQACALYFAWRELDLPAQLGTAVAASGFNAPFALGLECRTANDATLELRLAYDQARFDANAIACLEEQWTLLLQGLCADGQALGALPLLGPRQEQALQAGIAPVEVRDVGVLALIEERALANPDAPALADGSGVTGYGELLAQVDALARRLRAEGVQTGDVVGILMRRERQAIVAMLAALKAGAAYLPLDPAYPDERLSYMIDNSAARLLLSTSELQDSVASSVPTLLLDAAGEVADADMALPSVAGEQTAYLIYTSGSSGQPKGVPISHAALSRSTQVRMAFYREPVRAYLLLSSLSFDSSVAGIYWTLCQGGLLVLPASGEELDLEVLGGLIERHRVSHGLSLPSLYETLLDYCPPATLAHLRTWIVAGEPCTPRVLDKHRGKAAQAQLVNEYGPTEATVWATAEVLSDTAPDERAISIGRPIPGMGLWLLNEHGQPAAIGEPGEIHLGGPTLASGYLGLPEQTASAFVHYPHIAQGQRLYRTGDLARRRADGRLDFLGRRDQQIKIRGHRVERGEIERMLQSHSEVRETVVVAQQHEGSARLIAYFTDRHGYVPEAQALRSFLHDRLPSYMVPAAFVHLAALPHTPNGKLDLNALPDPDRLVAASAAYVAPRNELEAALADICQQVLKRERIGVQDNFFQIGGDSILSLQIVSRANQQGIRLSAKQIFESETIERMAQVATRGVPASEAPAACVTAPEDARTTRTAADFPLAALDDEAFGDLLAELNATD				NA	NA	NA	NA	NA
BMS010_02258	14052	tycC_1		Tyrocidine synthase 3	ATGACGAACAAGACCGCACACCACCTCGAAGACGTCTACCCTCTTTCCCCGTTGCAGCAGGGCATGCTGTTCCAGAGCCTGCTGCACCAGGAATCCGGGGTCTACCTGATGCAGGATCGCTACCGCATCGGCGGCGACCTGTCGGTGAAGGCGTTCCTCGAGGCCTGGCGGCAGGTGATCGCCGCCCACCCGGCGCTGCGCACCAGTTTCCTCTGGAAGACCCAGAAACAGCCGTTGCAGGTGGTGCATCGTGAAGTCGGCGATCCGGTCGAATTCATCGACCTGGAAGGCCTTGCTCCCGAGCAGCAGGAAGCGCATATCCAGGCGCTGCTGGAACAGGAGCAACGCAACGGCTTCAACCTGGCCAAGCCGCCGCTGATCCGCGTGCGCCTGGTGCGCCTGGGCGCAGGGCGGCACGAGATGATCCGCAGCTTCCACCACATCCTGATGGACGCCTGGTGCATCTCGCTGATCATGGTGGACTTCATCGACGCCTACGCCGCCCTGCGCCAGGGCCGTACGCCGAGCATGCGCAAGCCGCGCCCCTACCGCGACTACATCGCCTGGCTGCAGCAGCAAAGCCTGCCCGAAGCGCAGGCGTTCTGGCAGGAGCAACTGCAGGGCTTGGACGCACCGACGCCACTGGTGATCGAGCGCCACACCCGGCAGAGCCAGTACCGCGAAGCGGTGCTGGTCGACGACAGCCAGATCCGTTTCGACGCGCGCCAGACCCGCGAGCTGACCGCCTTCTGCCAGACCCGGCGGATCACTCCCAATACACTGTTCCAGGGCGCCTGGGCCTTGCTGCTGTCGCGTTACAGCGGCCTGCGCGACGTGCTCTTCGGCGTCACCGTGTCCGGTCGCCCGCCGCAACTGGCCGGCGTCGAGGAAATGATCGGGCTGTTCATCAACACCCTGCCGCTGCGCGTGCGCATCGACGAGCAGCAAGACCGCACGTCCTGGCTGCAGGCGCTGCAGCGCCACAACCTGGCGCTGCGCGAGTTCGAGCACAGCGCCCTGGTGGACATCCAGGGCTGGAGCGATTTCCCGCGCGGCGAGGAGCTGTTCGACAGCATCCTGGTCTACGAGAACGCGCCCATCGACGACAAACTGTTCAGCGGCGAGCTGAGCTTCAACCTCGACGACATGGAACACAGCGTGCACACCCACTACGGCCTCACCGTGGTGGTCATGCCGGGCGAGCGCCTGGCCGTGCGCATCTCCTACGACCGCCGGCGCTTCGCCCGCGACAGCATCGAGCGCCTGCTCGGCCACCTGCGCCAGATCGTCCTCGGCATCCTAGCCGAGCCCGACGCCAGCCTCGCCTCGCTGGAGCTGCTGAGCGAGCAGGAACGCCAACTGCTGCTGGTGGACTGGAACCGCACCCAGCAACCCTTCCCTCTGGATCGCACCTACGCCAGCCTGTTCGCGGATCAGGTGGCGCGCCAGCCGGACAAGGCCGCGGTGGTCTGCGCGGGCGAGACGCTCAGCTATGCCGAACTGGACGCCCGCGCCAGCCGCCTCGCCGCCGCGCTGATCGAAGCCGGTGCCGGGCCCGACCGCACCGTGGCCCTGCTCGCCGAGCGCGGCCTGGCCCACCTCACCGCGTTGATCGCCATTTTCAAGGCCGGCGCCTGCTACCTGCCGCTGGAGGTCAAGCACCCGGCGCAGCGACTGGCGGAAATCCTCGAACTGAGCCAGGCGCCGCTGATGCTGGTCGGCGACAGCCAGTGCGCGCTGGCCGGCGAGCTGTGCGCCCGCCTCGGCGCCGCCGCGCCGCAACGCGTCGGTATCGAGCCGCTCTGGCTGCACGGCGCGGCGCCGGCCATCGCGCCGCGCGGCTCGGCCGACGACCTGGCCTACATGATCTTCACCTCCGGCTCCACCGGCACGCCCAAGGGTGCCCTGGTGGAACAGCGCGGCATGCTCAACAACATCTTCGGCAAGGTGCCGACCCTCGGCCTCGGCGAGCACGACCGCATCGCCCAGACCGCTTCGGTGGCCTTCGACATCTCGGTCTGGCAGTTACTCGCCGCGCCGCTGGTCGGCGCCACCGTGCACATCCTGCCGGATACCGTCAGCCAGGACCCCGAGCGCCTGCTGCAGGCTCTGCAGGACGAGCGGCTGACGCTGTGGGAAGCGGTGCCGGCGATGATCCGCGGTGTGCTGGCCGCCAGTACGCCGGCCACCGACCTCGGCGCCCTGCGCTGGCTGCTGCCGACCGGCGAGGCGCTGCCGCCGGCCCTGTGCCGCGACTGGTTCGCCCGCTTCGCCCACGTGCCGCTGATGAACGCCTACGGCCCGGCGGAATGCGCCGATGACGTGGCCTTCCATGCCATCGCCGCGCCATCCGACGAACAGGCGCAGGCCATGCCCATCGGCCGGCCGACGCCGAATACCGAGCTGTACGTGCTCGACGACGCCCTGCGTCCGCTGCCGGTGGGCGTGCCCGGCGAAATCTGCGTGGCCGGCGCCGGCGTCGGCCGTGGCTATTTGAACGACGCCGAACGCACCCGCGCGGCTTTCGTCGAGCACCCCCTGCGTCCCGGCGCGCGTTTCTACCGCACCGGCGACCTGGGCCGTTACCGCGCCGATGGGGTGATCGAATTCCTTGGCCGCCGCGACCAGCAGGTGAAGATTCGCGGCCACCGCATCGAACTCGGCGAGATCGAGGCCAGGCTGCAGCAACACCCGGCCGTGAAAGCCGCCGCGGTGGTGGTGCATCGGGACATCCGCGGCGACGCGCAACTGGTGGGCTACTGGGTCGCCCGCGAGGCCGCCGCCGACGCGGCGGAACTGAAGCTGGCCCTGGGCGGCCAACTGCCGGCCTACATGGTGCCGCAGCACCTGATCGAACTCGACGCCCTGCCGCTCAACGCCAACGGCAAGGTCGACCGCAAGCGCCTGGCCCAGCGTGAACTGGACTGGAGCGTGGCGGCCGGCGAGGTCGTTGCGCCGGCCAGCGAAACCGAACAAACCCTGCATGGCATCTGGAAGGACATCCTGGCGCTGGAGCACTTCGGCGTCACCGACAGCTTCTTCGCCCTCGGCGGCCATTCGCTGCTGGCCACCCAGATGCTGTCGCGCATTCGCGCCGCCTTCGCTACCGAGCTGCCGCTCAAGACCCTGTTCGAGTGCCCCAGCGTGCGTCAGTTGGCCCAGGCCATCGACCGGCAGCTGGGTGCCCCCGGCAGCGAACAGGCAGAGGCCGAACGCATCGTCGCGCCGCCGCGCCCCGAACGCCTGCCGCTGTCGTTCGCCCAGCAGCGCCTGTGGTTCGTCGAGCAGCTGAACCCCGGCAGCGCCCATTTCAACATTCCCTTCGCCTTGCGCCTGAGCGGCGACCTGGACGTCGAGTCCCTGCGCGCCAGCTTCCAATGGCTGATCGAGCGCCACGAGGTGCTGCGCACCGCCTTCCCCGGCGACAATGGCCAGCCCTACCAGCGCATCGTCGAAGCGCTGAGCTTCGAGCTGCCGCTGACCGACTTCGAAGGTGCCGGCGACGATGCCGTCCAGGCCGAGCTGCAAGACTGGTTCGCCCACCCCTTCGACCTGACCAGCCCTCCGCTGCTGCGGGCGCGCCTGCTACGCCTGGGCGCGCGCCAGCACGTGCTGGCCATCACCCTGCACCACCTGGTCTCCGATGCCTGGTCGGCCACCCTCGCCCTGCGCGAGCTGACCCAGCTCTATGCCGCCTTACACGCCGGCCAGGCCCCGCAGTTGGCGCCGCTGCCGATCCAATACGCCGACTACAGCCTGTGGCAGCAGCAGCGCCTGCAACCGGCGGCGCTGCAACCGCACCTGGACTACTGGCAGACGCAACTGGCCCGCGACGACAACGACTACCTGCTGGAACTGCCCACCGACCGCCCGCGCCCGGCCACCCAGTCGAACCGCGCCGGCATGCTCGCTGCGCGTCTTTCGCCGCAGGCCAGCGAGCGCGCCCGCAGCCTCGCGGCGAGTCTGCAGCAGTCCACCTATAGCTTGGTGTTCGCCGCCTTCGCCGGTTTCCTACAACGCATGAGCGGCCAGGACGACCTGATCCTCGGCACCCCGGTGTCCAATCGCGACCGTGCGGAAACCCAGGCGCTGCTCGGCATCCTGCTCAACAACCTGCCGGTGCGCGTGCGTTTACACGGCCAGCCGAGCTTCGCCGAGCTGGCCCGCCAGGTCAGCGAGACGCTGCTCGACGCCCAGCGCCACCAGGACCTGCCCTTCGAGCGACTGGTCGACCACCTGGCGCTGCCGCGCCGCCTCAGCCACGCGCCACTGTTCCAGGTGATGGTCGCGCAGCAACTGCCGATGGAACGCCGCGTGCGCTTCCCGGGCCTCGACTTCGAGGTGCTGGACACGCCGCTGAGCCATTCGCAATACGATCTGGAATGCCATATCGTCACGCCGCCGCAGGGGCCCATCGAACTCAACCTGATGTTCGCCCACGACCTGTTCGAGCAGGCCACCGCCGAGCGCTGGCTGCAGCGTTTCGTGCAACTGTTCGAGGCCATGTTGGACGCGCCCGAGCGACCGCTGAGCGAGCACCGCCTGCTCGACGCGCAGGAGTGGCAGCGCACCGTGCAGGAGTGGAACGCCACCGAGCGCCACTACCCCGGCCCGGCGACCCTGGGCGAGGCCCTGGCCCTCCAGGCGCAGCACACCCCCGAAGCGCCGGCACTGGTGTTCGAGGGCGAAACCCTCAGCTACGCCGACCTGCATCGGCGCGCCGACCGCCTGGCGCAGGCCCTGGCTGCCCAGGGCATTGGCCGCGAACAGGTGGTCGCGGTGTGCCTGGAGCGCAGCGTCGAGCTGGTGGTGGCCCTGCTGGGCATCGTCAAGGCCGGCGCCGCCTACCTGCCGCTCGATCCGCACCTGCCGCCGGCTCGGCTGGCCTTCCTGCTGGAGGATGCCGCCTGCCCGCTGGTACTGACCCACAGCCAATGGCGCGAGCGCCTGCCCGAGACGCGGCCGAGCTGGTGTCTGGACCAGCCGTTGCCCGATACGCTCGGCGAGGTTCGTCTTGTGACTAACCAGCCCGGCGACCTGCTCTATGTCCTCTACACCTCCGGTTCCACCGGCCAACCCAAAGGTGTATTGAACGAGCACGGTGCACTGATGAACCGTCTGCACTGGATGCAGGAGGCTTTCCCCATCGGTGCTGGCGACCGTGTGCTGCAGAAGACGCCCTACGGTTTCGACGTGTCGGTGTGGGAGTTCTTCTGGCCGCTGATCACCGGCGCCTGCCTGGTACTGGCTCGCCCCGGCGGGCATCAGGACAGCGGCTATCTGGTGGAGCTGATCCAGCGCGAACGCATCACCACCCTGCACTTCGTGCCCTCGATGCTGCAGGCCTTCGTCGCCGAGCCCGGCCTGGAAGCCTGCACCTCGCTACGTCAGGTCTTCGCCAGCGGCGAGGCCCTGCCGCTGGCCTTGCAGCAGCGCTTCCAGGCGCGCCACCCGGCAACGCTGGTCAACCTGTACGGCCCCACCGAGGCGGCTATCGACGTCAGCTGCTGGGTCTGCGATCCGGCCTCGACCCTGAGCTTCGTGCCCATCGGCAAGCCCATCGCCAACCTGCGCCTCTATATCCTCGACCCGCACCTCAACCCGCTGCCGGTGGGTGCAGTCGGCGAGTTGTACATCGGCGGCGTCGGACTCGCCCGTGGCTACCTGAACCGGCCGGAGCTGACCGCGGCGGCCTTCGTCGACAGCCCCTTCGAGCCCGACCAGCGCCTGTACCGCACCGGCGACCGCTGCCGCTTCCTGGCCGACGGCAACATCCAGTACCTGGGCCGTCTCGACCATCAGGTCAAGCTGCGCGGCCAACGCATCGAACTGGGCGAGATCGACGCCGCCCTGCTCGCCCAACCCGGCGTACGCGAGGCTGTCACCCTGCTGCGCGACGACCTGGGCACGCCACAACTGGTGGCCTATCTGGTGGCGGACGAAGCCGGGCTGGATGTCGCCCAATTGCAGGCCAATCTGACCCAGACCCTGCCGGCCCATATGGTGCCGAGCACGCTGGTGGAACTGGCTGCGTTGCCGCTCAACACGAACGGCAAGCTGGATCGCAAGCAACTGCCGCGCCCGCAACTGGAGCAGGTCGAGGACCGCCACGAGGAACCCCAGGGCGAGGCCGAGCGGCGCATGGCCGAACGCTGGGCCGAGCTGCTGGAAATACCGGTCGAGCTGATCGGCCGCGACAGCCACTTCTTCCGCCTGGGCGGCCACTCGCTGCTGGCCACCGTGTTGCTCGCACGGCTGCGCCAGGAGTACGGCCAGGCACCGGCCCTGCGCCAACTGTTCGAACAGCCGACGCTGCGCGCCTTCAGCGCCCTGCTCGGCACGCCGGCAGGCAGCGCCGCCGCCGAGCTGACGCCGCAGCCGCGCCCCGAGCGCCTGCCGCTGTCCTACGAGCAGCAGCGCCTGTGGTTCCTCGAACAACTGGCGCCGGGCTCGGGCGAATACAGCATCAATACCGCGCTGACGCTCACTGGTGAACTCGATGTCGAGGCGCTGCGCCAGGCCTTCGAGACGCTGGTCGAACGCCACGCCATCCTGCGCAGCCGCCTGCAGGACGACGACCAGGGCGGACAGTTGGTGATCGACGCCCCGGCCACCTTCCACCTGCCGGTGGAAGAGCATGCCAGCGACCCGGTCCAGTGGGCCGAGTACCAGCGCCAGGTTGCCGAGGCCGAGTCCCGGCGCGCGTTCGACCTGTCGCACGAGCATCCGCTGCGGGTGCGCCTGGTACGTTCCGCCGGCGCCGACCAGACCCTCCTGCTGCTCAGCCTGCACCACTGCGCCGCCGACGGCTGGTCGCTGCAGGTGCTGTTGGACGAGCTGGCCGCCGGCTATCGCGCCGCCCTGGAGGGGCGCCGCGTCGAGTTGCCGACGCTGCCGGTGCAGTACGTCGACTATGCCCTGTGGCAACGCAGCGAGGCGCGCCAGCAGGTCTATCGCCAGCAACTGGAGTACTGGCAGAACCGCCTGGAGAACGGCGACTACCGTCTCGAGCTACCCACCGACCTGCCGCGTCCGGCCAGCCTCGACAACCGCGCCGGCACCTGCTTCGCCCAGGTGCCGGCAGCGCTGGCCGAGCGCCTGCGGCGCTTCGCCCGCGAGCGCGAGGTCACCCCGTTCATGCTCCTGCTGGCCGGTCTCAAGTTGTTCCTCGGCCGCTACAGCGGCCAGCAGGACCTGCGTATCGGCACGCCGGTGGCCAACCGTCGCCTGCAAGCCGTGCAGCCGCTGATCGGCTGCTTCGTCAATACAGTGGTGATCCGCTCCGACCTCGCCCCCGAGCAGCGCTTCGGCGACTATCTGGTCCAGGTCAGACAGGCCGTGCTGGACGCCCAGGAGCACCAGGACGTGCCCTTCGAACAGGTGGTCGAACACCTGGCACCGGAGCGCGATCTGGCGCACACGCCGCTGTTCCAGGTGGCCTTCGTCATGCAGAACAGCACGCGTGCCGCGCTGCAATGGCCAGGACTGCGCCTGCAACCGCTGGATATCCGCTCACCGGCGGCCAAGTTCGACCAGAACTGGGAAGTGCACGACGACGGCGAAAACCTGTCGGTGATGCTGGAATACCGCGCCAGTCTGTTCCACGAAACCACCATGCAGGCCTGGTTGGAGCAATGGCTGGCTTTCCTCGAATGCTTGCCGGAGGCCGTTGACACCCCGCTCGCCCGGCTCACGCCGCTGAGCGAGGCGGATCGCCAGCTTCAGGTGCGGCAATGGAACGCCACCGAGCGGCACTACCCCGGCCCGGCGACCCTGGACGAGGCCCTGGCCCTCCAGGCGCAGCACAGCCCCAAAGCGCCGGCTCTGGCGTTCGAGGGCGAAACCCTCAGCTACGCCGACCTGCACCAGCGCGCCGATCAACTGGCACAGGCCCTGGCTGCCCAGGGCATTGGTCGCGAACAGGTGGTCGCGGTCTGCCTGGAGCGCAGCGTCGAGCTGGTGGTGGCCCTGCTGGGCATCGTCAAGGCCGGTGCCGCCTACCTGCCGCTCGATCCGCACCTGCCGCCGGCTCGGCTGGCCTTCCTGCTGGAGGATGCCGCCTGCCCGCTGGTACTGACCCATAGCCAATGGCGCGAGCGCCTGCCCGAGACGCGGCCGAGCTGGTGTCTGGACCAGCCGTTGCCCGATACGCTCGGCGAGGTTCGTCTTGTGGCTAACCAGCCTGGCGACCTGCTCTATGTGCTCTACACCTCCGGTTCCACCGGCCAACCCAAGGGCGTGCTCAACGAGCACGGCGCCCTGATGAACCGCCTGCACTGGATGCAGGAGTCCTTCCCCATCGGTGCCGGCGACCGTGTGCTGCAAAAGACGCCCTACGGCTTCGACGTGTCGGTGTGGGAGTTCTTCTGGCCGCTGATCACCGGCGCCTGCCTGGTACTGGCTCGTCCCGGCGGGCATCAGGACAGCGGTTATCTGGTGGAGCTGATCCAGCGCGAGCGCATCACCACCCTGCACTTCGTGCCCTCGATGCTGCAGGCCTTCGTCGCCGAGCCCGGCCTGGAAGCCTGCACCTCGCTGCGTCAGGTCTTCGCCAGCGGCGAGGCCCTGCCGCTGGCCTTGCAGCAGCGCTTCCAGGCGCGCCATCCGGCAACGCTGGTCAACCTCTACGGCCCCACCGAGGCAGCCATCGATGTCAGTTGCTGGGTCTGCGACCCGGCTTCGACCCTGGGTTTCGTACCCATCGGCAAACCCATCGCCAACCTCAAGCTGTATATCCTCGACCCGCACCTCAATCCGCTGCCGGTGGGTGCGGTCGGCGAGTTGTACATCGGCGGCGCCGGACTCGCCCGTGGCTACCTGAATCGCCCCGAGCTGACCGCGGCGGCCTTCGTCGACAGCCCGTTCGAGCCCGGCCAGCGCCTGTACCGTACCGGCGACCGTTGCCGCTTCCTCATCGACGGCAACATCCAGTACCTGGGCCGTCTCGACCATCAGGTCAAGCTGCGCGGCCAGCGTATCGAACTGGGCGAAATCGACGCCGCCCTGCTCGCCCAACCCGGCGTGCGCGAGGCCGTCACCCTGCTGCGCGACGACCTGGGCACGCCACAACTGGTGGCCTATCTGGTGGCGGACGAAATCGGGCTGGATATCGCCCAATTGCAGACCAATCTGACCCAGACCCTGCCCGCGCATATGCTGCCGAGCACGTTGGTGGAGCTGGCCGCGTTGCCGCTCAACCCGAACGGCAAGCTGGATCGCAAGCAACTGCCGCGCCCGCAACTGGAGCAGGTCGAGGACCGCCTCGAAGCCCCCCAGGGCGAGGCCGAGCGGCGCATGGCCGAACGCTGGGCCGAGCTGCTGGAAATACCGCTCGAGCTGATCGGCCGCGACAGCCACTTCTTCCGCCTGGGCGGCCACTCGCTGCTGGCCACCGTTCTGCTCGCACGGCTGCGCCAGGAGTACGGCCAGGCACCGGCCCTGCGCCAGTTGTTCGAACAGCCGACGTTGCGCGCCTTCAGCGCCCTGCTCGGCACGCCGGCGGGCAGCGCCGCCGCCGAGCTGACGCCGCAGCCGCGCCCCGAGCGCCTGCCGCTGTCCTATGCGCAGCAGCGTCTGTGGTTCCTCGACCAGCTCAACCCGCAAGCCGCCGAGTACAACATCACCTCGGCCGTGGAACTCAGCGGCCCGGTGCGCCTCGACTGGCTGCAGCAGGGTCTGACCGAGATCGTCGCCCGCCACGAAGTGCTGCGCGGCCGTCTGCTGGAGCGTGGCCAGGGGGCCGAGTTGCTGATCGACGCCGAGAGCCGCGCGCACCTGCCCATCGAGCCGCTGGCCGAGACGGACTGGGACACCCGGGTCGCCCAGCGCCTCGAAGAAGAATCCCGGCGCCCCTTCGACCTGGCGGCCGGCCCACTGGTCCGTGGCTGTCTGCTGCACAACGAGCGGCGCACCCTGCTGCTCCTGACCCTGCACCATACGGTGGCCGACGACTGGTCGATGCAGTGCCTGATCGACGAACTGGCCGAGCTCTACCGCGCCCGCGGCGAGCAGCGCGAGGCACGTCTGCCAGCCCTGCCGGTGCAATACGTCGACTATGCCCTCTGGCAGCGTATGCCGGCCCAGGCCGAGCGCTACCGCCAACAGTTGCAGTACTGGCGCGACACCCTCGGCGATGGCGACTACCAATTGGAGCTACCCACCGACCATCCGCGCCGAGCCGAACCCGACACCGCCAGCGGCTTCCACGATCTGCTGCTGCCCGAGGCTCTCGCCCAGCGCCTGCGCCAGACCGCGCAGCGCCAGGGCGTGACCCTCTACGTGCTGCTGCTGGCAGCTACCCAGGTGCTGCTCGGCCGCCTGGCCGGCCAGCGCGACGTGCGCATCGGCACCGCCGTGGCCAACCGCGATCTGGCGGAAACCCAGGCGCTGATCGGTTGTTTCGTCAACACCCTGGTGATTCGCGCCGAGGTCGACCCGCAGTTGGCCTTCGAGGCCTTCCTGAAGCAGGTCGGCGAGCGCGTGCTGAACGCCCAGGAGCACCAGGAGGTGCCCTTCGAGCAGGTGGTCGATGCCCTGGTCAGCGCGCGTGACATGACCCGCACGCCGCTGTTCCAGGTGCTGTTCGCCATGCAGAACGCCCGCCTGCGCGCCGATGCCTGGGCGCCGCTGACGCTGCGCGAAGTGGAGGTACCGTCCAGCGCCTCGAGTTTCGACCTGGGCTGGGAGGTGCATGACGACGGCCGACGCCTGTCGCTGCGCCTGAAATACAAGCGCCAGCTGTTCGAGGCCGACACCATCGCGCGCTGGGCAGACGCCTGGCAGCGCCTGCTGGCCGATATCGCCGAGCGGCCGCTGGCGAAACTGGGCGAACTGGACCTGCTCGGCAGCGCCGAGCGCAGCCGCCAACTGCAGCAGTGGAATGCCACGACCAAGGCCTACCCCGGTCCGCACGACTTGGCCCAGGCACTGGCCGAACAAGCTGCGCGCACCCCGCACGCGCCGGCGCTGGTCTATGCCGAGCAGCGCCTCAGCTATGCCGAGCTGCACGCCCGCACGGGCGCCGTGGCCAGGCAACTGCGCGAGCGCGGGGTGGGCCGCGAGCAGGTGGTCGCCGTGTGCATGCAGCGCTCGGTGGAAATGGTGGTCGCCCTGCTCGGCATCGTCCGCGCCGGCGCCGCCTACCTGCCGCTCGATCCGGAGCTGCCGCCGGCACGCCTGGCCCTGATGCTGGAGGATGCCGCTCCGGCCCTGACCCTGGCCCAGCCGGCCACCGCTGCCTGCCTGCCGGCCGGCACACCGCTGTGGTGCCTGGATGCCTCGGCGCTGGAAGACGGCCCGCAGCCCGAGCCGATCAACCAGCCCGGCGACCTCGCCTACGTCATCTACACCTCCGGCTCCACCGGCCAGCCCAAGGGCGTGCTCAACGAGCACGGCGCGCTGATGAACCGCCTGTACTGGATGCAGGAGGCCTTTCCCATCGGCACCGACGACCGTGTGCTGCAAAAGACCCCCTACAGCTTCGACGTGTCGGTATGGGAGTTCTTCTGGCCATTGATCACTGGCGCCTGCCTGGTGGTCGCCAAGCCCGACGGTCATCGCGACAGCCATTACCTGGCCGAGCTGATCCAGCGCGAACGCATCACCACCCTGCACTTCGTGCCCTCGATGCTGCAGGCCTTCGTCGGCGAACCGGCCCTGCCGCGCTGCACCTCGCTGCGCCAGGTCTTCGCCAGCGGCGAGGCCCTGCCGCTGGAACTGCAGCAGCGCTTCCAGGCGCGCCACCCGGCTAAGCTGATCAACCTCTACGGCCCCACCGAGGCGGCCATCGACGTCAGTTGCTGGGTCTGCGATCCGGCCTCGACCCTGGGCTTCGTGCCCATTGGCAAGCCGATCGCCAACCTGCAGCTGTACATCCTCGACGAGGCGCTCGCCCCGCTGCCCATCGGCGCGGTCGGCGAGCTGTACATCGGCGGCGCCGGCCTGGCCCGTGGCTACCTGAACCGGCCGGAACTGACCCACGAACGCTTCGTGGCGAGTCCGTTCGACGCCGGCCAGCGCCTGTACCGCACCGGCGACCGTTGCCGCTTCCTCGCCGACGGCAACATCCAGTACCTGGGACGCCTCGACCATCAGGTCAAGCTGCGCGGTCTGCGCATCGAACTGGGCGAGATCGACGCCACCCTGCTCGACCAGCCCGGCATCGACGCCGCGGTCACCGTCCTGCGCGAAGATCTGGCCACGCCGCAACTGGTCGCCTACCTGAGCGCCCCCGAGGCCGTGGACGTCGAAGCCATCAAGCAGCACCTGGGCCAGCAGCTGCCGGCGCATATGGTCCCGGCGTTCATCGTGCAACTACCGGCCCTGCCGCTGAGCAGCAACGGCAAGATCGACCGCAAGGCATTGCCCAAGCCTGAAATCGAGGGCCAGGCGCGCACGCAGCGGGCGCCGAGCAACGCCACCGAGGAGGTGCTGTGCCGGCTGCTCGGCGGACTGCTCGGTGTAGAACGGCCGAGCGTCGACGACAACTTCTTCGCCCTCGGCGGCGACTCGATCCTCGGCCTGCAATTCATCGCCCAGGCGCGCGCCCAGGGCATTGGCCTGACGCCTCGCCAGTTGTTCCAGCAACGCACCCTGGCCGACCTCGCGCAGGTCGCCAGCCAAGTCGAGCAGTGCCAGGCGGAACAGGGCCTGCTGGAGGGCGAGGCACCGTTGCTGCCGATCCAGCACTGGCTGCTGGAACGAGCGCTGGCCGAGCCCGGCCATTGGAACCAGTCGGTGCTGCTCAAGCCCAGCCGCCCGCTGCACGCCGATGCCCTGCAAGCCACGCTGCAGGCCCTGGTCGAGCAGCACGACGCCCTGCGCCTGCGTTTCACCCACGAAGGCGATCAGTGGCGCCAGGCCTATGCCGATGCCAGCCAGGCAGTGGCATTCGCCCAGGTCCGTCTGGCCGTGCCCTGCACGCCGGAGGCCCTGCGCGCCTGCATCGCCGAACAGGTCGAGGCGAGCTTCGACCTGGCCGGCGGGCCGCTGATCCGCGCCCTGCTGATCGACCTGGCCGAGGGTGAGCAGCGCCTCTACCTGGTTGCCCATCACCTGGTGGTGGATGCGGTGTCCTGGCGCCTGTTGCTGGAAGACTTCAACACGCTCTACCCACGACTGGCCGCCGGCCAGAACGCCACGCTGCCAGCCAAGACCAGCTCCTACCGCCAGTGGGGCCAGCGCCTCTGGCAGCAGGCCGCCAGCCCGGCCGTGCAGGCGCAGCGCGACTACTGGCTGCAACAGACGCTGCCCGGCGAGCTGCCGGTGGACCAGCCCCAGGCCGACAACCGCGTGGCCGACGAGGTCAGCCTGAGCGCGGCGTTGAGCATCGAGGAAACCCAGGCGCTGCAGCAGGCGCAGGGCAGCTATCGCACCCAGGGCCATGAACTGCTGATCGCCGCCCTGGCTGGCGCGCTGCAGCAATGGTCGGGCGCGAGTGCCATCGGCATCGACCTGGAAGGCCACGGCCGCGACGCGCCGTTCGCCGAGCTGGACGTCAGCCGCACGGTGGGCTGGTTCACCCAGCTCTATCCGGTGCGTCTGGACCTGCCGCAGGGCGGCGACACCGGCGCGCTGATCGTCGCGGTCAAGGAGCAACTGCGCGCCGCGGCCGACAAGGCCCTGGGCTACGGCCTGCTGCGTCACCAGACCGGGGTGCCGCTGCCGGCGCACCGCCATCCCGTGCTGTTCAACTACCTGGGCCAGATCGATGGCGTCGGCGGCGAGGGGCTGCTGCAACTGGTGGATGAGCCGCTGCCGCCCACCGTCGCCGCCGACACCCCGCGCAGCCATGAGTTGGAGGTGGTGTTGGCGGTGCTTGGCGGGCGTCTGCAGGTGGAGATGAAGTTCGCCGGCCTGCGCCTTGCGCCGGCCACCCGCGAGCGCCTGTTGCAGGCCTACCTCGCCCATTTGCGCGGCGTCATCCGCCACTGCCAGGGCAACCAGACGGGGCAACTGTCGCCGACCGACTTCCCCCTGGCCAAGGCCCTGAACCAGAAGAACCTGGACACCCTGCTGAGCAAACTCAAGAGCAAACCGATCTCGCAGAGCTAG	MTNKTAHHLEDVYPLSPLQQGMLFQSLLHQESGVYLMQDRYRIGGDLSVKAFLEAWRQVIAAHPALRTSFLWKTQKQPLQVVHREVGDPVEFIDLEGLAPEQQEAHIQALLEQEQRNGFNLAKPPLIRVRLVRLGAGRHEMIRSFHHILMDAWCISLIMVDFIDAYAALRQGRTPSMRKPRPYRDYIAWLQQQSLPEAQAFWQEQLQGLDAPTPLVIERHTRQSQYREAVLVDDSQIRFDARQTRELTAFCQTRRITPNTLFQGAWALLLSRYSGLRDVLFGVTVSGRPPQLAGVEEMIGLFINTLPLRVRIDEQQDRTSWLQALQRHNLALREFEHSALVDIQGWSDFPRGEELFDSILVYENAPIDDKLFSGELSFNLDDMEHSVHTHYGLTVVVMPGERLAVRISYDRRRFARDSIERLLGHLRQIVLGILAEPDASLASLELLSEQERQLLLVDWNRTQQPFPLDRTYASLFADQVARQPDKAAVVCAGETLSYAELDARASRLAAALIEAGAGPDRTVALLAERGLAHLTALIAIFKAGACYLPLEVKHPAQRLAEILELSQAPLMLVGDSQCALAGELCARLGAAAPQRVGIEPLWLHGAAPAIAPRGSADDLAYMIFTSGSTGTPKGALVEQRGMLNNIFGKVPTLGLGEHDRIAQTASVAFDISVWQLLAAPLVGATVHILPDTVSQDPERLLQALQDERLTLWEAVPAMIRGVLAASTPATDLGALRWLLPTGEALPPALCRDWFARFAHVPLMNAYGPAECADDVAFHAIAAPSDEQAQAMPIGRPTPNTELYVLDDALRPLPVGVPGEICVAGAGVGRGYLNDAERTRAAFVEHPLRPGARFYRTGDLGRYRADGVIEFLGRRDQQVKIRGHRIELGEIEARLQQHPAVKAAAVVVHRDIRGDAQLVGYWVAREAAADAAELKLALGGQLPAYMVPQHLIELDALPLNANGKVDRKRLAQRELDWSVAAGEVVAPASETEQTLHGIWKDILALEHFGVTDSFFALGGHSLLATQMLSRIRAAFATELPLKTLFECPSVRQLAQAIDRQLGAPGSEQAEAERIVAPPRPERLPLSFAQQRLWFVEQLNPGSAHFNIPFALRLSGDLDVESLRASFQWLIERHEVLRTAFPGDNGQPYQRIVEALSFELPLTDFEGAGDDAVQAELQDWFAHPFDLTSPPLLRARLLRLGARQHVLAITLHHLVSDAWSATLALRELTQLYAALHAGQAPQLAPLPIQYADYSLWQQQRLQPAALQPHLDYWQTQLARDDNDYLLELPTDRPRPATQSNRAGMLAARLSPQASERARSLAASLQQSTYSLVFAAFAGFLQRMSGQDDLILGTPVSNRDRAETQALLGILLNNLPVRVRLHGQPSFAELARQVSETLLDAQRHQDLPFERLVDHLALPRRLSHAPLFQVMVAQQLPMERRVRFPGLDFEVLDTPLSHSQYDLECHIVTPPQGPIELNLMFAHDLFEQATAERWLQRFVQLFEAMLDAPERPLSEHRLLDAQEWQRTVQEWNATERHYPGPATLGEALALQAQHTPEAPALVFEGETLSYADLHRRADRLAQALAAQGIGREQVVAVCLERSVELVVALLGIVKAGAAYLPLDPHLPPARLAFLLEDAACPLVLTHSQWRERLPETRPSWCLDQPLPDTLGEVRLVTNQPGDLLYVLYTSGSTGQPKGVLNEHGALMNRLHWMQEAFPIGAGDRVLQKTPYGFDVSVWEFFWPLITGACLVLARPGGHQDSGYLVELIQRERITTLHFVPSMLQAFVAEPGLEACTSLRQVFASGEALPLALQQRFQARHPATLVNLYGPTEAAIDVSCWVCDPASTLSFVPIGKPIANLRLYILDPHLNPLPVGAVGELYIGGVGLARGYLNRPELTAAAFVDSPFEPDQRLYRTGDRCRFLADGNIQYLGRLDHQVKLRGQRIELGEIDAALLAQPGVREAVTLLRDDLGTPQLVAYLVADEAGLDVAQLQANLTQTLPAHMVPSTLVELAALPLNTNGKLDRKQLPRPQLEQVEDRHEEPQGEAERRMAERWAELLEIPVELIGRDSHFFRLGGHSLLATVLLARLRQEYGQAPALRQLFEQPTLRAFSALLGTPAGSAAAELTPQPRPERLPLSYEQQRLWFLEQLAPGSGEYSINTALTLTGELDVEALRQAFETLVERHAILRSRLQDDDQGGQLVIDAPATFHLPVEEHASDPVQWAEYQRQVAEAESRRAFDLSHEHPLRVRLVRSAGADQTLLLLSLHHCAADGWSLQVLLDELAAGYRAALEGRRVELPTLPVQYVDYALWQRSEARQQVYRQQLEYWQNRLENGDYRLELPTDLPRPASLDNRAGTCFAQVPAALAERLRRFAREREVTPFMLLLAGLKLFLGRYSGQQDLRIGTPVANRRLQAVQPLIGCFVNTVVIRSDLAPEQRFGDYLVQVRQAVLDAQEHQDVPFEQVVEHLAPERDLAHTPLFQVAFVMQNSTRAALQWPGLRLQPLDIRSPAAKFDQNWEVHDDGENLSVMLEYRASLFHETTMQAWLEQWLAFLECLPEAVDTPLARLTPLSEADRQLQVRQWNATERHYPGPATLDEALALQAQHSPKAPALAFEGETLSYADLHQRADQLAQALAAQGIGREQVVAVCLERSVELVVALLGIVKAGAAYLPLDPHLPPARLAFLLEDAACPLVLTHSQWRERLPETRPSWCLDQPLPDTLGEVRLVANQPGDLLYVLYTSGSTGQPKGVLNEHGALMNRLHWMQESFPIGAGDRVLQKTPYGFDVSVWEFFWPLITGACLVLARPGGHQDSGYLVELIQRERITTLHFVPSMLQAFVAEPGLEACTSLRQVFASGEALPLALQQRFQARHPATLVNLYGPTEAAIDVSCWVCDPASTLGFVPIGKPIANLKLYILDPHLNPLPVGAVGELYIGGAGLARGYLNRPELTAAAFVDSPFEPGQRLYRTGDRCRFLIDGNIQYLGRLDHQVKLRGQRIELGEIDAALLAQPGVREAVTLLRDDLGTPQLVAYLVADEIGLDIAQLQTNLTQTLPAHMLPSTLVELAALPLNPNGKLDRKQLPRPQLEQVEDRLEAPQGEAERRMAERWAELLEIPLELIGRDSHFFRLGGHSLLATVLLARLRQEYGQAPALRQLFEQPTLRAFSALLGTPAGSAAAELTPQPRPERLPLSYAQQRLWFLDQLNPQAAEYNITSAVELSGPVRLDWLQQGLTEIVARHEVLRGRLLERGQGAELLIDAESRAHLPIEPLAETDWDTRVAQRLEEESRRPFDLAAGPLVRGCLLHNERRTLLLLTLHHTVADDWSMQCLIDELAELYRARGEQREARLPALPVQYVDYALWQRMPAQAERYRQQLQYWRDTLGDGDYQLELPTDHPRRAEPDTASGFHDLLLPEALAQRLRQTAQRQGVTLYVLLLAATQVLLGRLAGQRDVRIGTAVANRDLAETQALIGCFVNTLVIRAEVDPQLAFEAFLKQVGERVLNAQEHQEVPFEQVVDALVSARDMTRTPLFQVLFAMQNARLRADAWAPLTLREVEVPSSASSFDLGWEVHDDGRRLSLRLKYKRQLFEADTIARWADAWQRLLADIAERPLAKLGELDLLGSAERSRQLQQWNATTKAYPGPHDLAQALAEQAARTPHAPALVYAEQRLSYAELHARTGAVARQLRERGVGREQVVAVCMQRSVEMVVALLGIVRAGAAYLPLDPELPPARLALMLEDAAPALTLAQPATAACLPAGTPLWCLDASALEDGPQPEPINQPGDLAYVIYTSGSTGQPKGVLNEHGALMNRLYWMQEAFPIGTDDRVLQKTPYSFDVSVWEFFWPLITGACLVVAKPDGHRDSHYLAELIQRERITTLHFVPSMLQAFVGEPALPRCTSLRQVFASGEALPLELQQRFQARHPAKLINLYGPTEAAIDVSCWVCDPASTLGFVPIGKPIANLQLYILDEALAPLPIGAVGELYIGGAGLARGYLNRPELTHERFVASPFDAGQRLYRTGDRCRFLADGNIQYLGRLDHQVKLRGLRIELGEIDATLLDQPGIDAAVTVLREDLATPQLVAYLSAPEAVDVEAIKQHLGQQLPAHMVPAFIVQLPALPLSSNGKIDRKALPKPEIEGQARTQRAPSNATEEVLCRLLGGLLGVERPSVDDNFFALGGDSILGLQFIAQARAQGIGLTPRQLFQQRTLADLAQVASQVEQCQAEQGLLEGEAPLLPIQHWLLERALAEPGHWNQSVLLKPSRPLHADALQATLQALVEQHDALRLRFTHEGDQWRQAYADASQAVAFAQVRLAVPCTPEALRACIAEQVEASFDLAGGPLIRALLIDLAEGEQRLYLVAHHLVVDAVSWRLLLEDFNTLYPRLAAGQNATLPAKTSSYRQWGQRLWQQAASPAVQAQRDYWLQQTLPGELPVDQPQADNRVADEVSLSAALSIEETQALQQAQGSYRTQGHELLIAALAGALQQWSGASAIGIDLEGHGRDAPFAELDVSRTVGWFTQLYPVRLDLPQGGDTGALIVAVKEQLRAAADKALGYGLLRHQTGVPLPAHRHPVLFNYLGQIDGVGGEGLLQLVDEPLPPTVAADTPRSHELEVVLAVLGGRLQVEMKFAGLRLAPATRERLLQAYLAHLRGVIRHCQGNQTGQLSPTDFPLAKALNQKNLDTLLSKLKSKPISQS				NA	NA	NA	NA	NA
BMS010_02259	10155	lgrB_2		Linear gramicidin synthase subunit B	ATGAGCAACATCGAGGACATCTACTCCCTCTCGCCCACCCAGCAGGGTCTGCTGTTCCACAGCGTCTACGAGCCGGATTCGCGCGTGTACTACCAGCAGCTCAGCCTGGACATGACCGGCCCGCTCGACAGCGGCGCCTTCCGCCGCGCCTGGCAGGCGCTGATGCAGCGTCATGCCGTGTTGCGCACCGCCTTTCTCTGGGAAGACCTGGACGACGCCTACCAGGTGGTACAGCATGAGGTGCCGCTGCCGCTGAGCGAACTGGACTGGCGCGACCGCGACGAGGCCGAGGAGGCGCTGCGCCAGCGCGCGCGGCAGGAACGCGACCAGGCGCTGGAACTGAACGAGGCGCCGCTGATGCGTCTGTGCCTGGTGCGCCTGCCCGGGCAACGCTGGCACCTGATCTGGACCTTCCATCACATCCTCATGGACGGCTGGAGCGTCGGCGTGGCCATCCAGGAATGGCTGGCCCTGTACTACCAGCAGGTGCGCGGCGACGCCCCCGGCCTGCCGCCGAGCCCTGGCTACCGCGACTACATCGCCTGGCTGGCCGAGCAGGACGTTCAGACCACCGAGGACTTCTGGCGCGAGCAGCTGCTGGACTTCAGCGACCCCACCCCGCTGCCCTGCTTCGCCCCGCCGCCCGAGGCGCCGCAGACGCATCCCTACGCGGAACGCGAGACGCGCCTGGACGCCGCCGAGACCGAACGCCTGAACCGGTTCGCCCGCAGCCAGCACCTGACCGTCAACACTCTGATCCAGGGCGCTTGGGCACTGCTGCTGGGACAGCACGCCGGGCGTGACGAGGTGGTCTACGGCGTCACCGTCGCCGGTCGCCCGGACGGGCTGGCCGGGGTGGATGCCATGGTCGGCCTGTTCATCAACACCCTGCCGCTGCGCGTGCGCCTGGACGACGCCCGCCCGCTCGGCGACTGGCTGCAGGACCTGCAGCAACGCAACAGCGATCTGCGCCAGCACGCCTACCTGCCGCTGAGCCGGCTCAAGCCGCTGAGCCAGGTGCCGGCCGAGCGCGCGCTGTTCGATTCGATTCTGGTGTTCGAGAACTTCCCCGTTACCGACGCGCTCAACCAGGACGCCGGAGGACTGAGCTTCAGCGCCCCAGCGGAGCTGCGGCGCGAAGACGGCATCCGCCTGACCCAGGGCCGCAACCACTTCCCGCTGTCGCTGATCGTGATACCCGGCGAGCGCCTGGAATACCTGTTCAGCTACGACCGCAGCCGCTTCAGCGACGCCGAGATCGCTATCCTCAGTGCCCAGCTGCGGGCGATCCTGCTGGCCATGGCCGAACAGCCGCAGGCGCGCGTGCAGATGCTGGACTGGCTGAGCGACGAGGAACGTCAGCGCCTGGAGGCCCATGGCCAGGGCGCACGCCTCGCGGTGCCCGCCGCCACCCTGCAGCAGCGCTTCATCCAGGGCGCGCAGGCCCATCCCGAGCGCCTGGCCGTGCAGGATCGCCAGCGCTCGCTGAGCTATGCCGAATTGGACGCCGAGTCCAACCGTCTGGCCCACCGCCTGCAGGCCCAGGGCATCGGACGTGGCCGGTTGCTCGCGCTGGCCCTGGAACGCAGCGTCGACTTCGTGGTGGCGCTGCTGGCCACCCTCAAGAGCGGTGCCGCCTACCTGCCTCTGGACCTCAAGCAGCCGGCCGGGCGCCTGGCGGACATCCTCGAGGACAGCCGCGCCGATCTGCTGCTCAGCCGCCGTGCGCTGGAGTCGCGCCTGCCGCGCAGCGAAGGCCCGGCCCGACTGTGGCTGGACGACGAGGCGAACGCCCTCGCCGACCTGCCGGCCCACCCGGTGATGGCGAGCGACGACCCGGACGCCCCCGCCTACGTCATCTACACCTCCGGTTCCACCGGCACGCCCAAGGGCGTGGTGGTCGAGCACCGCGCCATCGTCGGCTATCTCGCCGCCGTCGCCGAACTGCTCGACCCACCGCCTGCGGCGCGCTACGGCCTGCTCTCGACGGTGGCGGCCGACCTCGGCCACACCCAACTGTTCGGCGCGCTGTGCAACGGCGGCAGCCTGATCCTGGTCGACGAGGACACCAGCTTCGATCCACTGGCGCTGGCCGACTTTTTCGGCGAACACCCGGTGGACGTGTTGAAGATCACCCCCGGCCACCTGCACGGCCTGCTCCAGGCCTACCCTGACCCACGCCTGCTGCCGCGCGAGCGCGTGGTATTCGGCGGCGACGCGCTCAAGCCCGACCTGCTGCGCCAGGTCGGTGCCCTGGCGCCGACGTTGCGCCTGTTCAACCATTACGGCCCGAGCGAGGCCACGGTGGGCGCGCTGGCCACGCCGCTGGCAGCCGACACCGGCCTGGTGGCCCTGGGCCGCCCGCTGGCCAACCGCCACCTGCGCGTGGTCGACGGCAGCGGCCGCCAGGTGGCTATCGGCGTTCCCGGCGAATTGTGGATCGCCGGCGACCTGGCACGCGGCTACCTGCACCGCGCCGACCTGACCGCCGAGCGCTTCGTCGAAGCCAACCGGCAGCGCTGGTACCGCACCGGCGACCGCGTGCGCTGGCTGGCCGACGGTCAACTGGCGTTCCTCGGCCGGATCGACAACCAGGTCAAGATCCGCGGCAACCGCATCGAGCTGGGCGAGGTGGAAGCGCAGATCCGCCGCCTCTCGCCGCTGATCGAGCAGGCCCTGGTGCGCATGCTGGAGGTGGATGGCATGCCGCGCCTGGTGGCCTACGTGGTGGCGCGCCAGTCGCTGTCGGCGAGCAAGCTGTGCGACGACCTCGGCCGCCGCGTGCCGGACTATATGGTCCCGGCGCACGTCATCACCCTCGACGCCATCCCGCTGACCGCCAACGGCAAGCCGGACCTGCGCCAACTGCCGCTGCCCAGTGCGCCGGCAGCCGACAGCGCCAGCCACGTCGCCCCGCGCAACGAGGTCGAGGCGGTGCTGGCGCGCATCTGGCAGGACGTGCTGAAGGTGGAGCGGGTCGGCGTGCACGACAACTTCTTCAGCCTCGGCGGCGACTCGATCCTCAACCTGCAGATCATCGCCCGCGCCAACCAGCAGGGACTGAAGCTGACGCCCAAGCAACTGTTCGAGAACCGCACCATCGCCGATATCGCCCAGGTGCTCGGCGCCGGCGCCGAAAGCGCGGCGGCCCGGCAACAGGGCGATGGCTTCGTCATACCGCTGAGCGCCGGCCAGCATTCCCGCCTCGAAGCCGATGCCCTGAAGCCCAGTTGGCGCTGCCTGGCCATCGACGGCGAGCTGCCTGCCGCCCACCTGGCCCAGGCACTGGCCGCCCTGCAAGGGCATCACCAGGCGCTGCGCCTGGCCGTGCAGCGCACCCCGGAAGGCGAGTGGCAACAACGCGTGCTGGCCACTGCCGCGCCCGTTGCAGTGAGCGAGCAGCCGCGCACCGACGAGCCGCTGCAAACCCTGGCCGAAGCGGCCTTCGCCCGCCTCGACCTCGCCGCCGGACAGGGCTTGCATGCCAGCCTGCTGCGCGGCGAAACGGGTGATCGGCTGCTGCTGGTCGCCCATCCGCTGTGCCTCGACGAAGCGGCCTGGCCACTGCTGCTTTCCGACCTCAACCTGGCGCTGTCGCAGTTGCGCCATCAGCGGCCGATTCGCCTGTCCTACACGGGCGGCGAGCTCGGCGCCTGGTGCGAACATCAGCAGCGGGACGCCGGCAGCGATCGCCTGGACGAGGTATGGGAGCACTGGCTGCAATTCGCCGGCCTGGAGCTGCCCCCGCTGCTCCTGCCTGAGCAGACCGGGCAGGCCGAGCAGCGCCTGGACGACGCCACCTCGGCGCGGCTGAAGCGTCTGGTCGACACCCTGCAACTGGACTGGAATGCCCTGCTGGCGGCCAGCCTGGTCGAACGCCTGCGTGGCGAAGACGGCGCGCCGGTCGCGCTGACCCTGCTGGCCGGTCGCCCGGAGGCCACGCGCCTGCCACTGCAAGCACCAATCGCCCAGGCCGATCTGGACCCGGCGCGTCTGCTCGGCGCCCTGGCCCTGCCGGTACCTTTCTATCTGCAGGCTCCGGCTGGTGACACCCTGGCCCGCCTGCAGGACGTGGCCGCGCAATTGCGCGCCTACCCGCAGCAGGGCACGGACTACGGCACCCTGCGCCACCTGGCCGACAACCCCTACCTGCTGGAGCCGTTGCGCGAGTTGCCGACGCCGGCGCTGGCCCTGCGCTGGCTCGGCGACTGGGATGCGCACCGCGAGGCGCAGGCGGTACTCGCCGGCGTCCAGGCTGCCAGCCGCGAACCGGCCCTGGCCAAGGCGCTGACCCTGGACGCCTGCTGGCACGACGGCACCCTGCACCTGCACGCCGAAGGGCCGCTGGCCAGTGCCTGGCTGCCCGCCCTGGTGGAACAGTTGCAGACCCTGGCGGCATTGGCGGACAGCCCCGAGCTACGCCCAGCCAGCGAGGCGTTCCCGCTGTGCCACGCGCAGGCCGCGACCCTGGCCAGCGAGCCGCTGCCCTGGGCGCGCCTGGAGGACCTCTACCCGCTCTCGCCCATGCAACAGGGCATGCTGCTACACACCTTGCTGCAACCGCACAGCGGCATCTATCTGATGCAGCAGCGCTACAGCTGGGACGGCGCGTTGCAGCGTCCGGCCATGGAACGTGCCTGGCGCCTGCTGCTCGAGCGCCACCCGATGCTGCGCACCGCCTTCTGGTGGCAGGAGGATCATGCCCCGCTGCAGTGCGTGTACCGCGACACCGAGCTGGCCTTCGAGTGGTACGACTGGCGTCACCTCGACGCCGAACGCCAGCGCGAGGCGATGGACGCCGTGCTGGCCGACGAGCGCCAGCGCGGCTTCGACATGAGCCGCGCGCCGCTTACCCACCTGCGCGTGTTCCAGTTGGCGGACCAACGTTTCAGTCTGGTGCGCAGCTTCCATCACATCCTCACCGATGCCTGGTGCTTCGGCCTGCTGATGGAAGACCTGCTGGCCATCTACCAGGCCGTGGCGCGCGGCGAAGCGGTGGCGCGCCCGCGCCTACGTCCGTTCCGTGGCTACATGAGCTGGCTCGCCCGCCAGGACATGGACAGCGCGCAGGCCTTCTGGCGCGGCGAACTGGCCGGCTTCGAGGCGCCGACGCCGCTGCAGGTCGATCTGCCCGTGGCCCAGCCGGACCGCGCGCCGGAGGTGGTCGGCGACTGCGACCTGACCCTCAGCGTCGCCCGCACCCAGCGCCTGCAGCAGCTCTGCCAGGCGCACCAGCTCACCCCCAACACCTGGATCCAGGGCGCCTGGGCCCTGCTGCTATCGCGCTACAGCGGCAACCGCGACGTGCTCTTCGGCGTCACCGTGGCCGGCCGCCCCACCGCGCTGGCCGGGGTCGAGGAGATGGTCGGTCTGTTCATCAACAGTCTGCCGCTGCGTGTCGACGTCGACCCCGAGCGCCCGGTGATCGGCTGGTTGCAGGCGTTGCTGTCGCATAACGCCGAGCTGCGCGATCACGAATATGCGCCGCTGGTGGACATCCAGCGCTGCAGCGAAGTCCCCCGTGGCCGCCAGTTGTTCGACAGCTTGGTGGTATTCGAGAACGCCCCGCTGGACGTCGCCAGCGTCAGGCTCGACGGCTTCAGCATCGACATCTACGAAGATCGCGTGCACACCAACTTCCCGATGACGGTGGTGCTCTACCCCGGCGACCGCCTGGGTATCCGCCTGTCCTACGACCAGAGCCGGTTCACCGCTGACAGCGTGCAGCGCATGCTGGGCCACCTGGTGCAACTGCTCGGCGAGATGCTCGACCAGCCCGAGGCGCCGCTCGGCAGCCTGCAGATGCTGCCCGAGGCCGAGCGCCGGCAACTGCTGGTGGAATGGAACCGCAGTGCCGTCGACTTCCCGCTGGAACGCGGCTATGCGGCGCTGTTCGCCGAGCGGGTGCAGGCGCATCCGCAACGCCTCGCCGCAGTCTGCGCCGGTGAAACGCTCAGCTACGCCGAACTCGACCGACGCAGCAATGCCATCGCCCATGCCCTGCAGCAGGCCGGCGCCGGCCCGGACACCCTGGTCGCCCTGGCCGCCGAGCGCGGCCTGGCCCCGCTGTGCATGATGATCGCCACGCTCAAGGCCGGCGCCGCCTTCCAGGCGCTGGACATCCAGCACCCGCCGCAGCGCCTGGGCGAACTGCTGAGCCTGAGCGGCGCGCCGCTGCTGCTGGCGGACGAGAACGCCAGCGGGCTGCTCGATGCGGTACTGGCCGGCGTCGCGCGGCAGCCCACCTGCCTGGTGGCCCAGGAGCTGTGGCAGGCCGACGCCGCGCCGGTGCGCTACGTCCATCGCGCCGACCAGCTCGCCTACGTGATCTTCACCTCCGGCTCCACCGGCACGCCCAAGGGCGCCCTGGTGGAACAGCGCGGCATGCTCAACAACATCTTCGGCAAAGTGCCGAGCCTCGGACTTTGTGGCGAGGATCGTATCGCCCAGACCGCCTCGCCGGCGTTCGACATTTCGGTCTGGCAGTTCCTCGCCGCGCCACTCGTCGGCGCCACCGTGCATATCCTGCCGGACAGCGTCGCGCACGATCCCGCCGCGTTGCTCGACGCCATCGAAACGCAGCGCCTGAGCCTGCTCGAGGCGGTGCCCGCGCTGATCCGCGGCCTGCTCCAGGAGGCCGGCCCGCAGCATGAACTGGCCAGCCTGCGCTGGCTGCTGCCGACCGGCGAGGCGCTGCCGCCGGCGCTCGCCCGCGACTGGCGGCGGCGCTTCCCCGGCACCCCGCTGATGAATGCCTACGGCCCGGCCGAGTGCTCCGACGACGTCGCCTTCCACGCCATCCACGACGCGCCGCAGGACGACTGCGCGCACATGCCGATCGGCCGCCCCACCGCCAACAACCAACTGTTCATCCTCGACGACGCCCTGCGCCCGCTGCCCATCGGCGTACCGGGCGAGCTGTGCGTCGGCGGCGTAGGTGTCGGCCGCGGCTATCTGGGCGACGCCGAGCGCACCCGCGCGGCGTTCGTCGAGCACCCGTTCGAGCCCGGCGCACGCTTCTACCGTACCGGCGACATCGGCCGCTACCGCGCCGACGGCGTCATCGAGTACCTCGGCCGCCGCGACCAGCAGGTGAAGATTCGTGGCCACCGCATCGAACTGGGCGAGATCGAGAACCGACTGATGCGCCACCCGCAGGTCGACAGCGCCGCGGTACTGGCCCTGCCCGACGCCCGTGGCGACCTGCAACTGCTGGCCTGCTACGTGACCTGCGACGCGGCGCTGGACGATGTCACGGCGCAGGCACTGCTGGCCGAGCATCTGCGTGGACAACTGGCGGCCTACATGGTCCCCGGCCACTGGCGCCGCCTGGAGCGGCTGCCGCTGAACGCCAACGGCAAGGTCGACCGCCGCGCCCTGGCCGCCCTCGGCCTGCCCGGCGAAGCAGCCGCGCAGGCCCGGGTGGCGCCGCGCACGCCCACCGAGCAGACCCTGGCCGAGCTCTGGCAAGACCTGCTCGGCCTGAACTCGCTGAGCGTCGACGACGATTTCTTCTCCCTCGGCGGCCATTCCCTGCTGGCCACCCAGGTCGTTGCGCGCATCCGCCGACGGCTCGCCGTCGACCTGCCGCTGCGCGCCCTGTTCGAGCACCGCACGGTGGCCGAACTGGCCAAGGTGGTGGACGCCCAGGCACCCGACGAATCGGCAGTCGAGGAGATCGTGCCGGTGTCGCGCGACCAGTTGCTGCCGCTGTCCTACGCCCAGCAGCGCCTGTGGTTCCTCGACAAGCTGGAAGGCCCCAGCGCCGCCTACAACCTCTCCACCGCGGTACGCCTGGAGGGCGAGCTGGACGTCGAGGCGCTGCGCGCCGCGCTGCAACACGTGCTCGACCGCCACGAGTCGCTGCGCACCGGTTTCAGCCTGGACGGCGATACGCCGCGACAAGTGATCGCGGAGGACGTGCGCGTCGAACTGGCGCTGCAGCCGCTCAGTTCGGACGAAGACGTCCAGCGGTGGATCGACGACGAAGCCGCGCGCCCCTTCGACCTGCAGCGCCCGCCAATGCTGCGCGCGCGTCTGCTGCGCCTGGGCCAGGCGCGCCATGTGCTGCAGTTCACTCTGCACCATATCGCCACCGATGCCTGGTCCATGGGCATCCTGGTCGAGGAAGCCATCGCCGCCTACAGCGCCTATCGCGCCGGCCGGCAACCGGCGCTGGAGCCACTGCCAATCCAGTACGCCGACTACGCCCACTGGCAACGCAGCGCCCCGCAGCAGCGCCGCCTGGCACGCGACATCGACTTCTGGCGCAGTCAACTCCAGGGCGCACCGATGCTGCTGCGCCTGCCGCTGGACAAGCCGCGCCCGGCGCAGGCCGACTATCAGGGTGCGGCACTGCGCCAGACCCTGCCGCGAGCCCAGGCCGAGCACTTGAAAGCCTATGCGCAGACGCAGCGCGCGACGCTGTTCATGGTTCTGCTCAATGCCTTCAACTGCCTGCTGCAACGGGTCACCGGCGACGATGATTTCCTGGTCGGCACCGACCTGGCCAACCGCGAGCACCCGGCGCTGGAACGGCTGATCGGTTTCTTCGTCAACGTGCTGCCACTTCGCGCGCGCCTCGACCCGGCGCAGGACTTTGCCGCCCGTCTGCAGCGCCTGCGCGACGACACCCTGGCCGCCTTCCAGCATCAGCAGGTGCCGTTCGACAAGCTGGTCGAGACCCTACAGCCGCCGCGTCAGGCTGGCGTCAACCCGCTGGTACAGGCGCTGTTCGTCCTGCAGAACACGCCGCGCTCCTCCGCCGAGATGCCCGGCCTGCACGTCGAGCAACTGGCCCCGCGCCAGGAAACCAGCAAGTTCGATCTGGCGCTGTTCGCCGAGGAAGACGAACAGGGCCTGACCCTGCGCTGGGTATACCGCACCAGCCTGTTCCAGCAGCGAACCATCGAGCAGTTGCAGCGCGGCTTCGACGATCTGTTGCAACGGGTCATCGAGGCCCCCGAACACGCCTTGCAAGGTTGGGACTGGCGCCTGTCCAGCCCGGCCGCCACGGAGAATGCCCCCATGTACGATGCATCCGCCAGCGACGAGGCGAGCCGCGCCTCGCGCAAGCTGTCCAAACTGAGCAAGCTCAAGCAGACCCGTGCCACCGCCGTCAGCCAGCGCCCCGAGGAGCAGGTGCGCACCGCCACCCTGGCCACCGGGCGTTCGCTGCCCCTGGTGATCGAGCCGCGCCTCGGCGAGCTGGACCCGGTGAGCTGGGCGCAGCAGGCCCGTGGCTGGATCGGCGAACAGTTGCGCCATCACGGCGGTCTGCTGTTCCGTGGCTTCGACCTGCCCGACGCCAGCGCCTTCGAGCAGTTCGCTCAGGCCATCGAGCCCGACCTCTATGGCACCTACGGCGACCTGCCGAAGAACAACTCGGGCAAGAACATCTACCACTCCACGCCCTACCCGGAGCAGCACATGATCCTGTTCCACAACGAGAGTTCGCACCTCGCGCAGTGGCCGCGCAAGCAGTGGTTCTATTGCGAGACGCCGGCACCGCGCGGCGGCTGCACGCCCATCGTCGACTGCCGCGACGTGCTCACGCGCCTGCCGCGGCCGATCGTGGAGACGCTGCGGGCCAAGGGCCTGCTCTATGTCCGCCATTTCACCGACAAGCTGGACGTGCGCTGGCAGGACTTCTTCAAGACCGAACGGCGCGAGGAGGTCGAGCAGCGCTGCCGCGAGGCCGGCACCCAATGGCAATGGCTCGGTGAGGACGGCCTGCGCATCGCCCAGCGCTGCCCGGCCATCGTCAGCCACCCGGACACCGGCGAGGCATCCTTCTTCAACCAGGTGCAGCTGCACCATCCGGCGTGCCTGGAGCCGGAGGTGCGGCGCAACCTGATCGAGCTGTTCGGCCCCGAGCAACTGCCACGCAACGTCTGCTACGGCGACGGCAGCCCCATCGAGGACGAGGTGATGGCAGAGATCGGCCGCGCCTACGAGGCTTGCGCCGTGCGTTTCGCCTGGCAGAAAGGCGACGTGGTGATGCTCGACAACATGCTGGTCGCCCACGCCCGCGATCCCTTCGAGGGCGAGCGCAAGATTTGCGTCGCCATGGGCCAGATGATGCGCCGCGACGAACTCGACGCGTCCACCGGCGCGGTGGCGCGTCACCATCTGGCGCTGGAGGAGAGCCTGTGA	MSNIEDIYSLSPTQQGLLFHSVYEPDSRVYYQQLSLDMTGPLDSGAFRRAWQALMQRHAVLRTAFLWEDLDDAYQVVQHEVPLPLSELDWRDRDEAEEALRQRARQERDQALELNEAPLMRLCLVRLPGQRWHLIWTFHHILMDGWSVGVAIQEWLALYYQQVRGDAPGLPPSPGYRDYIAWLAEQDVQTTEDFWREQLLDFSDPTPLPCFAPPPEAPQTHPYAERETRLDAAETERLNRFARSQHLTVNTLIQGAWALLLGQHAGRDEVVYGVTVAGRPDGLAGVDAMVGLFINTLPLRVRLDDARPLGDWLQDLQQRNSDLRQHAYLPLSRLKPLSQVPAERALFDSILVFENFPVTDALNQDAGGLSFSAPAELRREDGIRLTQGRNHFPLSLIVIPGERLEYLFSYDRSRFSDAEIAILSAQLRAILLAMAEQPQARVQMLDWLSDEERQRLEAHGQGARLAVPAATLQQRFIQGAQAHPERLAVQDRQRSLSYAELDAESNRLAHRLQAQGIGRGRLLALALERSVDFVVALLATLKSGAAYLPLDLKQPAGRLADILEDSRADLLLSRRALESRLPRSEGPARLWLDDEANALADLPAHPVMASDDPDAPAYVIYTSGSTGTPKGVVVEHRAIVGYLAAVAELLDPPPAARYGLLSTVAADLGHTQLFGALCNGGSLILVDEDTSFDPLALADFFGEHPVDVLKITPGHLHGLLQAYPDPRLLPRERVVFGGDALKPDLLRQVGALAPTLRLFNHYGPSEATVGALATPLAADTGLVALGRPLANRHLRVVDGSGRQVAIGVPGELWIAGDLARGYLHRADLTAERFVEANRQRWYRTGDRVRWLADGQLAFLGRIDNQVKIRGNRIELGEVEAQIRRLSPLIEQALVRMLEVDGMPRLVAYVVARQSLSASKLCDDLGRRVPDYMVPAHVITLDAIPLTANGKPDLRQLPLPSAPAADSASHVAPRNEVEAVLARIWQDVLKVERVGVHDNFFSLGGDSILNLQIIARANQQGLKLTPKQLFENRTIADIAQVLGAGAESAAARQQGDGFVIPLSAGQHSRLEADALKPSWRCLAIDGELPAAHLAQALAALQGHHQALRLAVQRTPEGEWQQRVLATAAPVAVSEQPRTDEPLQTLAEAAFARLDLAAGQGLHASLLRGETGDRLLLVAHPLCLDEAAWPLLLSDLNLALSQLRHQRPIRLSYTGGELGAWCEHQQRDAGSDRLDEVWEHWLQFAGLELPPLLLPEQTGQAEQRLDDATSARLKRLVDTLQLDWNALLAASLVERLRGEDGAPVALTLLAGRPEATRLPLQAPIAQADLDPARLLGALALPVPFYLQAPAGDTLARLQDVAAQLRAYPQQGTDYGTLRHLADNPYLLEPLRELPTPALALRWLGDWDAHREAQAVLAGVQAASREPALAKALTLDACWHDGTLHLHAEGPLASAWLPALVEQLQTLAALADSPELRPASEAFPLCHAQAATLASEPLPWARLEDLYPLSPMQQGMLLHTLLQPHSGIYLMQQRYSWDGALQRPAMERAWRLLLERHPMLRTAFWWQEDHAPLQCVYRDTELAFEWYDWRHLDAERQREAMDAVLADERQRGFDMSRAPLTHLRVFQLADQRFSLVRSFHHILTDAWCFGLLMEDLLAIYQAVARGEAVARPRLRPFRGYMSWLARQDMDSAQAFWRGELAGFEAPTPLQVDLPVAQPDRAPEVVGDCDLTLSVARTQRLQQLCQAHQLTPNTWIQGAWALLLSRYSGNRDVLFGVTVAGRPTALAGVEEMVGLFINSLPLRVDVDPERPVIGWLQALLSHNAELRDHEYAPLVDIQRCSEVPRGRQLFDSLVVFENAPLDVASVRLDGFSIDIYEDRVHTNFPMTVVLYPGDRLGIRLSYDQSRFTADSVQRMLGHLVQLLGEMLDQPEAPLGSLQMLPEAERRQLLVEWNRSAVDFPLERGYAALFAERVQAHPQRLAAVCAGETLSYAELDRRSNAIAHALQQAGAGPDTLVALAAERGLAPLCMMIATLKAGAAFQALDIQHPPQRLGELLSLSGAPLLLADENASGLLDAVLAGVARQPTCLVAQELWQADAAPVRYVHRADQLAYVIFTSGSTGTPKGALVEQRGMLNNIFGKVPSLGLCGEDRIAQTASPAFDISVWQFLAAPLVGATVHILPDSVAHDPAALLDAIETQRLSLLEAVPALIRGLLQEAGPQHELASLRWLLPTGEALPPALARDWRRRFPGTPLMNAYGPAECSDDVAFHAIHDAPQDDCAHMPIGRPTANNQLFILDDALRPLPIGVPGELCVGGVGVGRGYLGDAERTRAAFVEHPFEPGARFYRTGDIGRYRADGVIEYLGRRDQQVKIRGHRIELGEIENRLMRHPQVDSAAVLALPDARGDLQLLACYVTCDAALDDVTAQALLAEHLRGQLAAYMVPGHWRRLERLPLNANGKVDRRALAALGLPGEAAAQARVAPRTPTEQTLAELWQDLLGLNSLSVDDDFFSLGGHSLLATQVVARIRRRLAVDLPLRALFEHRTVAELAKVVDAQAPDESAVEEIVPVSRDQLLPLSYAQQRLWFLDKLEGPSAAYNLSTAVRLEGELDVEALRAALQHVLDRHESLRTGFSLDGDTPRQVIAEDVRVELALQPLSSDEDVQRWIDDEAARPFDLQRPPMLRARLLRLGQARHVLQFTLHHIATDAWSMGILVEEAIAAYSAYRAGRQPALEPLPIQYADYAHWQRSAPQQRRLARDIDFWRSQLQGAPMLLRLPLDKPRPAQADYQGAALRQTLPRAQAEHLKAYAQTQRATLFMVLLNAFNCLLQRVTGDDDFLVGTDLANREHPALERLIGFFVNVLPLRARLDPAQDFAARLQRLRDDTLAAFQHQQVPFDKLVETLQPPRQAGVNPLVQALFVLQNTPRSSAEMPGLHVEQLAPRQETSKFDLALFAEEDEQGLTLRWVYRTSLFQQRTIEQLQRGFDDLLQRVIEAPEHALQGWDWRLSSPAATENAPMYDASASDEASRASRKLSKLSKLKQTRATAVSQRPEEQVRTATLATGRSLPLVIEPRLGELDPVSWAQQARGWIGEQLRHHGGLLFRGFDLPDASAFEQFAQAIEPDLYGTYGDLPKNNSGKNIYHSTPYPEQHMILFHNESSHLAQWPRKQWFYCETPAPRGGCTPIVDCRDVLTRLPRPIVETLRAKGLLYVRHFTDKLDVRWQDFFKTERREEVEQRCREAGTQWQWLGEDGLRIAQRCPAIVSHPDTGEASFFNQVQLHHPACLEPEVRRNLIELFGPEQLPRNVCYGDGSPIEDEVMAEIGRAYEACAVRFAWQKGDVVMLDNMLVAHARDPFEGERKICVAMGQMMRRDELDASTGAVARHHLALEESL				NA	NA	NA	NA	NA
BMS010_02260	3846	dhbF	COG1020	Dimodular nonribosomal peptide synthase	ATGGAGCAGTTCCAGCTTTCACCGCAACAGCGCCTGCGCTGGCAGTCGGGCCTGCCGGCCGCCTCATTGACCCTTGACCTGCACGGCACGGTCGAGCCAGCCGACCTGCGCCGGCGCCTGCAGGCCCTGGTGGCACGGCACGAGGCCTTGCGCCTGCGGCTGTGCCCCTCGCCCGGTCTGCGCGTGCCGCTGCAGCAGGTCGTGCCGCCCAACGAGGCGATGCAGGTCGAAGACGGCGTGCGCCTGGACGGCCAGGCGCTGGCCGCCGATCGCCAGCGCCTGCACCTGCAACTGCCGGCACTGAGCGCCGACCGTGGCACCCTGCTGCGCCTCGCCAGGGCCCTGGCCGGCGAGGTGCAGCCGGACGACGAGGACATGAGCTACACCCAGTACAGCGCTTGGCTGTACGAGCTGCAGGGCGAGGACGACGCCGAGCTGGGCCGCCGCTACTGGCGCGAGCAGGCCCTCGGCGAACACGAACAGGTCGAACTGACGTACCGCGAAGCACGTGTTCGGGCCGAGCCCGGGCACCTGAACGCGCAACTGGATGGCACGCCGGAGCTGGCCGCCAAGCTCGATGCCTTCTGCCAGCGGCACCAGGTCACGCCCGCCGAGGTGCTGCTGACGGCCTGGTGCGCCCTGCTGCAACGCCTGAGCCCGGGCGAGGCGCCGGTCCTGACGATGAACTGGGTGCATGACTGCCGCGACGATTACGAGGAGCTGGCCGGCTGCTGGGGCGCGTTCGCCAAACCCCTGCCCCTGGCCTGGCGCTTCCCGTTGCAGAGCCGCTTCGGCGAGGCGCTCGACGGCGTGCAACGCCTGTGCGACCGCGCCCGCGAATGGCAGGAATACTGCGCCATTGTCAGCGACCCCTCCCCCTCGGCCAGCCGCTACGGCTTCGAATGGGGCGGTGTGCTGCCCCAGGCGCTGCCCATGGCCGGTGCGCCTGGCGCAACGCTCTCGGTGCTGGAACTCGATTCGCCGGCCCAGGCCTTCGAGCTACTGCTCACGGCCGAAGCCCTGACCGACGAGCACGGCACCATCGCCTATCGCTTCAACCTCGCCTTCGAGACCGCCAGTTACAGCCTGCAGACTGCCCTGGTGCTGCTGGAACAGTACCGCTCGCTGCTGCTTGCCGCCCTCGACGATCCCGAGCAGGCGCTCGCAGCCCTGCCGCTGCACAGCCCGAGCTTCGACGCCACCCTGGCCGCCGTGCAGGGCACGCGGACCGAGGCGTCCTCGACGCCCTTCGTCGCCTTCCCCCGGCGCTTCAGCCAGCAGGCGGCGCGTTTCGCTAAACGCCTGGCGCTGTGCGATGCGACCCGCCAACTGACTTACGCCGAGCTGGAGGCGCGCAGCAATCAACTGGCCCGCTACTTGAACGCGCGCGGGATCGGTACCGAGGACCGCGTCGCCCTGCATCTGGAGCGCAACGCCGATGCCATCGTCGCCATGCTCGGTGTGCTCAAATGCGGCGCGGCCTTCCTGCCGCTGGACGTGCAGCAGCCGCTGGCACGCAACCAGGCGATCATCGAAGCCGCCCGCCCCGCTTTCCTGATCGTCGATGGCAGCGCCACGCCACCTGCGCTACCGGGTCTGGAGAGTCTCGACCTGGGCGATGCCCAGCGCTGGCAGGATCGACCGGACAGCCCGCTGACACTGCCAATCGCCGCGCACAGCGCCGCCTATGTGCTGCATACCTCCGGCAGTACGGGCACGCCCAAGGGCGTGGTGATCGAACACCGCCAGCTCGGCAGCTATGTGGACAGCCTGCTGCGTCGCCTGGCCCTGGCCCCCGGCGAGCGCAGCGCACTGGTCACCTCGCTGGCCGCCGACCTCAGCTATACCCTGCTGTTCCCGGCGCTGCTGAGCGGCGGCGAACTGCATGTGGTGGACAAGGCCACCAGCCTCGACGCCGCAGCCTGGGCGGCTTACCAGGCGCGTCACCCGATCGACCACCTGAAGACCGTGCCGTCGTTGCTCGACGCCTGGCTCGGACACAGCGCGGCCGCCGCCACCCTGCCGCGCCGGCAACTGATCCTGGGCGGCGAGCACAGCCCGCAGCGCCTGCTGCAGAGCCTGCGCCGCCTCGCACCGGACCTCGCCGTCTACAACCACTACGGGCCGACCGAAACCACCATCGGCGTACTCATGCATCGCCTCGACCCGGCCATCGAGTACCGCCACCTGCCGCTCGACGACCGCCTGGACGGCATGCGCACCTATCTGCTCGACGAACAGGGCAACCCCGTGGCGCCGGGCCAGGCCGCCGAACTCTACCTGGCCGGGCCGCAACTGGCCCGCGGCTACCTCGACGACCAGCAGACCCGGGAGCGCTTTCGCGACCATCCACAACGCCCCGGCGAGCGCCTCTACCGCACCGGGGATCGCGCGCGCTACCGCCCGGACGGCAGCCTGCAGATCATCGGCCGTGCCGACCGCCAGGTGAAAGTCCGTGGTTTCCGCGTCGAACTCGACGACATCGAGGCGCAGCTCGCCCGCCTGCCCGGCGTGGCCCAGGTGGCCGTCACCTGCGTGGCGCGCGGCCCGTTCGATCAGCAGTTGTTCGCCTTCCTCACCCTCGAACACGGCCAGGCCGGTACGCTCGCCCGGCTTCAAGCCCTGGCCCAGGAGCGACTGCCGGAGCACATGCTGCCGACCCTGCGGCTGGTCGACGCCCTGCCCCTGCTGGGCAACGGCAAGCTGGACCGCAAGACGCTCGCGCAATGGGCCGAGCAGGTGCTCGAGCATGTCGGCGACAGCCTGCCGAGCACGCCGCTCGAGCAGTTGCTGGCCGAGGTCTGGGCCAGCGTGCTGGGCCTGGAGCGGGTCGGCATCGAGGATGACTTCTTCGCCCTGGGCGGACACTCGCTGGCCGCGGTCAAGCTGGCCAGCCGCCTGCAGAACGCGCTCGGCGCGCCGGTGCCGGTCAACGCCGTGTTCGATGCACCGAGCGTGGCGCGCTTCGCCGAGCTGGTGCAGGCCCGGTTGCAGCTCTCGCCGCTGGTGCAGCTGTCCCGGACGGAGGCGACGAAGGGCAACCTGTTCTGCTTCCACCCCTCCACCGGCCACGTGCAGGACTACCGCGCCCTGGCCGAGCCGCTGGCGGACTGGAGTCTCTGGGGTCTGCAAGCCACCTACCTGGCCGAGGGCAGCCCGCTGCCGGGCCGCGACAGCCTCGATGCCCTGGCCGCGGTGTATGTCGAGCAGTTGCGCCGGCAACAGCCGCAGGGTCCCTACCACCTGCTCGGCTGGTCGCTCGGCGGCCTGCTCGCCTTCTGCGCCGCGGCGCAGCTGGAGGAAGCCGGCCAGGAGGTGGCGTTCCTCGGCATCGTCGATTCGCAGACACAGCGCAGCGCACCGGCGGAAACCTTCGAACAGTTGCTGCAAGCCGCCGCCGAACGGCTCGACACCGACAGCCAGCGACGCCTGTCGGCGCTGACCGAGGCGGCACGCGCGCACCTGCTCGAGCGGACACGCGACGAATGGCCACTCGCCCTGGCGCAATGGGCCCGGCAGCAGGGCCTGCAATTGGCAGGCGACAGCTGGGAGCAACTGGAATACCGTTTGCGCCAGCACGGCCACACCCAGGCGCTGATCGGCACCTTCCGCCCCGTCACGCTGCGCTGTCCGCTGCACCTCTGGTGGGCCAGCGCGACCCTGGAGGCCGAGGATTTCAGCGCGCCGGACTGGAGCCGCCTCAGCCAGGGCCCGATCAACGAACGGGTCATCCCCGCGCAGCACCTGGACATCCTGCGCCAGGATGAATGGCAACAGAGCCTGGTCGAGAGCCTGGCCGCCCTGGGCACGAACCGACGCGAACCTTCGAACGACGAGACGATTTGA	MEQFQLSPQQRLRWQSGLPAASLTLDLHGTVEPADLRRRLQALVARHEALRLRLCPSPGLRVPLQQVVPPNEAMQVEDGVRLDGQALAADRQRLHLQLPALSADRGTLLRLARALAGEVQPDDEDMSYTQYSAWLYELQGEDDAELGRRYWREQALGEHEQVELTYREARVRAEPGHLNAQLDGTPELAAKLDAFCQRHQVTPAEVLLTAWCALLQRLSPGEAPVLTMNWVHDCRDDYEELAGCWGAFAKPLPLAWRFPLQSRFGEALDGVQRLCDRAREWQEYCAIVSDPSPSASRYGFEWGGVLPQALPMAGAPGATLSVLELDSPAQAFELLLTAEALTDEHGTIAYRFNLAFETASYSLQTALVLLEQYRSLLLAALDDPEQALAALPLHSPSFDATLAAVQGTRTEASSTPFVAFPRRFSQQAARFAKRLALCDATRQLTYAELEARSNQLARYLNARGIGTEDRVALHLERNADAIVAMLGVLKCGAAFLPLDVQQPLARNQAIIEAARPAFLIVDGSATPPALPGLESLDLGDAQRWQDRPDSPLTLPIAAHSAAYVLHTSGSTGTPKGVVIEHRQLGSYVDSLLRRLALAPGERSALVTSLAADLSYTLLFPALLSGGELHVVDKATSLDAAAWAAYQARHPIDHLKTVPSLLDAWLGHSAAAATLPRRQLILGGEHSPQRLLQSLRRLAPDLAVYNHYGPTETTIGVLMHRLDPAIEYRHLPLDDRLDGMRTYLLDEQGNPVAPGQAAELYLAGPQLARGYLDDQQTRERFRDHPQRPGERLYRTGDRARYRPDGSLQIIGRADRQVKVRGFRVELDDIEAQLARLPGVAQVAVTCVARGPFDQQLFAFLTLEHGQAGTLARLQALAQERLPEHMLPTLRLVDALPLLGNGKLDRKTLAQWAEQVLEHVGDSLPSTPLEQLLAEVWASVLGLERVGIEDDFFALGGHSLAAVKLASRLQNALGAPVPVNAVFDAPSVARFAELVQARLQLSPLVQLSRTEATKGNLFCFHPSTGHVQDYRALAEPLADWSLWGLQATYLAEGSPLPGRDSLDALAAVYVEQLRRQQPQGPYHLLGWSLGGLLAFCAAAQLEEAGQEVAFLGIVDSQTQRSAPAETFEQLLQAAAERLDTDSQRRLSALTEAARAHLLERTRDEWPLALAQWARQQGLQLAGDSWEQLEYRLRQHGHTQALIGTFRPVTLRCPLHLWWASATLEAEDFSAPDWSRLSQGPINERVIPAQHLDILRQDEWQQSLVESLAALGTNRREPSNDETI				NA	NA	NA	NA	NA
BMS010_02261	1638	yojI	COG4615	ABC transporter ATP-binding/permease protein YojI	ATGGATCTGTTACTGCTACTGGCACGCCGTTCCTGGCTCACCCTGCTGATCGCCACCGCCACCGGCCTGGTCTGCGGCCTGTCGGCCGCCGGCCTGATCGCCAACATCAACCACTCGCTGGCCGACTTCGGTCAGTTGCGCCCGGTCGATGGCCTGCCGTTCGCCGGCCTGGTGGCGCTGGTGGTGGCCTCGCGCGTCGTCTCCGACATCAGCCTGCTGCGCCTGGGGCAGACCGCAGTCAGCGACATGCGCCTGCATCTGAGCGGCAAGCTGATCGACACGCCCTACCCGCGCCTGCAGCGCCTGGGCAAGCACCGCCTGCTGGCGATGCTCACCGACGACACCCAGGCCATCAGCCAGGCCGTCGAGCTGGTGCCGATCCTGCTGGTCAACAGCGGCATCGTGCTGGCCTGCCTCGGCTACCTGGGCTGGCTCAGCCTGCCGTTGCTGGGCCTCACCGCGGCACTGATCCTGCTCGGCGCGGCCAGCTTCCACTGGCCGCAGCGCAAGGCGCTGACCTCCATCGGCAAGGCCCGCGAACTGAAGGACCAACTGTTCGACCAGTACCGCCTGCTCACCGACGGCAGCAAGGAACTGCAACTCAACCACTCGCGGCGCCTGCAGTTTTTCGAGCGCCTGCTCTACCCCATCAGCCAGCAGTATCGCCGCGACTTCGTGCGCGGCATGAGCATCTACGCCCTGGTGCTCAACTGGGGTAACGGCATCTTCTACCTGCTGATCGGCACGGTGCTGTTCCTCGCGCCGCAGTTCATCGAGCTCGGTGCGACGCTGGTGACCGGTTACATCCTCACCCTGCTGTACATGATCACGCCGTTGTCGGAGCTGATGAACGCCCTGCCGACCCTGGGCAAGGCCAGCGTCTCGCTGCGCAAGATCCGCACCCTGGAAGGCCAGCTGGAAGTCGCCGGCACGGCCGAGGACGCCCTGGCGCCGGCCCGCCAGGTGACCGGGCTGAGCTGCCGCCAGGTGCGCCACACCTACTATCGCGAAGGCGAAGACGGCCGCTTCACCCTCGGCCCGTTCGATCTCGACCTGCGGGCCGGCGAAGTGGTGTTCATCACCGGCGGCAATGGCAGCGGCAAGACCACCCTGGCCTTGCTGCTGACCGGCCTCTACCAGCCCGAAGGCGGCGACCTGCTGCTCGACGGCAAGGTCGCCTCCAGCAGCCAGAATCACCTCTACCGCCAACACTTCTCGGCGATCTTCACCGACTTTTGCCTGTTCGAGCACCTGCTCGACGGCGACGATCCCCACCTGATGCAGCAGGCCCGCGACTACCTGGCGCATCTGCAACTGGCGCACAAGGTCAGCATCGACGGCGGCCGCCTGTCCACGCTCGATCTCTCCACCGGCCAGCGCAAGCGCCTGGCGCTGCTGGCCGCCTATCTCGACGACCGCCCCTGCTACCTGTTCGACGAGTGGGCAGCGGACCAGGACCCGGTGTTCAAGCGCTTCTTCTACACCAAGATCCTTCCGGACCTGCGCCAGCGCGGCAAACTGGTGATCGTGATTTCCCACGACGATGCCTACTTCCCGCTGGCCGACCGGATGATCAAGGTGGACCAGGGCCGCGTGTTCGAAGCCAGCCCCGAAGCCCTCGCGGCTACGGCGTCCTGA	MDLLLLLARRSWLTLLIATATGLVCGLSAAGLIANINHSLADFGQLRPVDGLPFAGLVALVVASRVVSDISLLRLGQTAVSDMRLHLSGKLIDTPYPRLQRLGKHRLLAMLTDDTQAISQAVELVPILLVNSGIVLACLGYLGWLSLPLLGLTAALILLGAASFHWPQRKALTSIGKARELKDQLFDQYRLLTDGSKELQLNHSRRLQFFERLLYPISQQYRRDFVRGMSIYALVLNWGNGIFYLLIGTVLFLAPQFIELGATLVTGYILTLLYMITPLSELMNALPTLGKASVSLRKIRTLEGQLEVAGTAEDALAPARQVTGLSCRQVRHTYYREGEDGRFTLGPFDLDLRAGEVVFITGGNGSGKTTLALLLTGLYQPEGGDLLLDGKVASSSQNHLYRQHFSAIFTDFCLFEHLLDGDDPHLMQQARDYLAHLQLAHKVSIDGGRLSTLDLSTGQRKRLALLAAYLDDRPCYLFDEWAADQDPVFKRFFYTKILPDLRQRGKLVIVISHDDAYFPLADRMIKVDQGRVFEASPEALAATAS	PGPT0003400_330	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-PYOVERDIN_TRANSPORT,PGPT0003400-pvdE-K06160	NA	NA
BMS010_02262	777	lgrE		Linear gramicidin dehydrogenase LgrE	ATGCACGCTCCGCTTTCGCCCATCGTTCATTGCTTGCAGGACTCGCCGTGGGTCCAGACCCGACCGCTGCCCGGCGCGCGCCTGCGCCTGTTCTGCTTCCCCTTCGCCGGTGGCAGCGTCGGCAGCTTCATGCCCTGGTTCCCGGCCCTGGCGCCGGATATCCAGCTCTGCGCCATCCAGTTGCCGGGGCGCGGCGCACGCTTCGGCGAGCCAGCCATCCACGACTTCGCCACGCTGATCGAACACCTGGGCCAGGTCATCGCCCGTCACGACGACCTGCCCCACGCGTTCTTCGGCCACAGCCTCGGCGCCCTGGTGGCCTTCGAACTGGCGCACCATTGCGTCAGGCGCGGCCTGGCACGTCCGCGTCATCTGTTCGTCTCGGCCAGCGGCGCACCGCGCCACCGTGCCGGCGCGCCACGCTACGACCTGCTGAGCGACGGCGAACTCGTGGCCAAGCTGCGCGACTATGCCGGCACCCCGCTCGAGGTGCTGGCGAACCAGGAACTGATGGCGCTGCTACTGCCAGCCATCCGCGCCGATTTCGCCCTGCTGCGCCACTACCGCTACCAGCCGCGCCCACGCCTCGATGTTCCCATGAGCGTGCTCGCCGGGTACGACGATGCCCATGTAGGCGAGGAAACGCTGCGCGACTGGCAGACGGAAACCTCGGCCGGTTGCGAGCTGCACGGCTTCGACGGCGGGCATTTCTTCCCGTTCGAGCGGCCGGATGAGGTGCTGGAATTGGTGAGGCGTCGGTTGGGCCAGGGGCTGTAG	MHAPLSPIVHCLQDSPWVQTRPLPGARLRLFCFPFAGGSVGSFMPWFPALAPDIQLCAIQLPGRGARFGEPAIHDFATLIEHLGQVIARHDDLPHAFFGHSLGALVAFELAHHCVRRGLARPRHLFVSASGAPRHRAGAPRYDLLSDGELVAKLRDYAGTPLEVLANQELMALLLPAIRADFALLRHYRYQPRPRLDVPMSVLAGYDDAHVGEETLRDWQTETSAGCELHGFDGGHFFPFERPDEVLELVRRRLGQGL	PGPT0003085_59	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_AQUIRED_RESISTANCE|SAR	SAR-SALICYLIC_ACID_METABOLISM	SAR-SALICYLIC_ACID_BIOSYNTHESIS,PGPT0003085-pchC-K12242	NA	NA
BMS010_02263	813			hypothetical protein	TTGTTTTTATGCCTTGGGCTTTGGAGGCTGGCCATCGAACTACCGGACTGGCTGTGCCACGCATGGCCACCCATCCAGCGCGTGATCCAGGTCGAAAGCGATGGTCGTGCAGGGGTGCCGCTGACCAGCTTGGCCGATGCGAGCGTGCTGCATCCCTTGCTTGACCGTTTCGCCGAACTCTATCCCGGCATCAAGCGTCCTCCCGTCGCGTCCCAGTGGTCGATGAACTACCTCAGCGTGCTGCTGCCGGCCACCCTCGCGGCTGTGCTGACGCGCGATCGGGCCATCGCCTTCTGGGAGCGGGACGTGGCGCTGCTGCATGACGCCGGCCAGCCGTCGGCGTTACGGTTGCCCTCGCCGCAGCCGGCGCTCGCCGCCCGGCAGCGTGACGACTACTGGACGCGCCTGCTGCGCGAGCACCTGGAGCCGCTGTTCGCCAGCCTCGCCGCCTGGGGCGGGCTGGCGCCGAAGGTGCTGTGGGGCAACCTGGCGGCGGTCTGGGATGGCGCATTCGCGCGGATTGACGCCAACCTGGAACGTGAAGGATTCGCCGAGGCCCACCGCTGGCTGGAGCAGGCCGTCGTCGCGGACGGCCGTCTGAAGCCGAGAAGTCTGCAATGGATGGTCGACTCGCCCGCGCCGGAGGTCTGCGCGCGCATCCCGTTGCGCCGCCATTGCTGCCTGCACTACCAGTTGCACGCCCCGGTGCCCGGCAAGCCGCAGGTGCTCTGTGAGTCCTGTCCCAAGCTGCATCGCCTGCCGCAGGCGGAGCAGGCGAGCTACCTGCGTTATATCTATCTCGGCGAATCCTAG	MFLCLGLWRLAIELPDWLCHAWPPIQRVIQVESDGRAGVPLTSLADASVLHPLLDRFAELYPGIKRPPVASQWSMNYLSVLLPATLAAVLTRDRAIAFWERDVALLHDAGQPSALRLPSPQPALAARQRDDYWTRLLREHLEPLFASLAAWGGLAPKVLWGNLAAVWDGAFARIDANLEREGFAEAHRWLEQAVVADGRLKPRSLQWMVDSPAPEVCARIPLRRHCCLHYQLHAPVPGKPQVLCESCPKLHRLPQAEQASYLRYIYLGES	PGPT0003315_506	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FERRICHROME|FERRIOXAMINE_METABOLISM,PGPT0003315-fhuF-K13255	NA	NA
BMS010_02264	1698	bacA	COG4178	Vitamin B12 transport ATP-binding protein BacA	ATGCAGACACTCCGTGATTTCTGGTCGCTCGCCCGGCCGTTCTGGTCCTCTTCCGAAAGACGTCCCGCCCTCCTGCTGTTGTTCGGCACGATCCTGATGAACCTGTGCCTGGTGGGCGTAAACATCCTCTACAACCTGTGGAACCTGCATTTCTACAACGCCCTCCAGGCCCTCGACTACGACGCCTTCCTGATGGGCGGCGGCTATTTCATCCTGCTGCAGGCGGGACTGGCCACCTTCACCGTGGCCGCCTTCCACTTCCAGCAGAAGCTCACCCTGCGCTGGCGCCGCTGGTCCACCGAGAACATCCTGCAGCTGTGGCTGCAGCGCCAGCGCTACCTCAAGTTGCAACTCACCTCGCCGGAAACGGATAACCCCGATCAACGCATCGCCGACGACATCAACCTGTTCATCGGCATGTCGCTGAAGCTCAGCCTGGGCCTGATGACCGCCCTGGTGTCGCTGTTCTCCTTCCTGCATATCCTCTGGCAGGCCTCGAGCCTGGTGCGAATTCCCATCGCCGGGGAAGAGCTGGTGATCCCCGGCCTGCTGGTCTGGGCGGCCCTGCTGTACTCCATCCTCGGCACTGGCGGCGCCTTCTGGCTGGGACGCACGCTGCCGCGGCTGAACTTCCTCCAGCAGCGCCGCGAGGCCGACTTTCGCTTCTCCCTGATGCGCCTGCGCGAGAACGCCGAAGCCGTTGCCCAATACCGCGGCGAGAGCGAAGAGCACGCCCGCTTCAGCCAGCGCCTGGGCGCCGCGCTGGAGAACTTCTGGGCCCTGGTGAAGCAGCAGAAGGTCGTGCTCGGCTACTCCACGTTCTACATGCGCAGCGCCATGATCATTCCCATGTTCGTCATGGCGCCGCAGTTCTTCGCCGGCGCCTTCCCGCTCGGACGGCTCACCCAGCTCAGCGCCGCCTTCGGCGAGGTCCACGAGGCGATGGCCTATCTGGTCAAGGTGTTCCCGGAGATCGCCGAATGGAAATCGATCATCGACCGCCTGACGGGCTTCCAACAGCGCCTGGCCAGTGTCGGCGACGAGACCGGCGTACGCCTCGAACACAACGCCGACGTCTTCGAGGTACAGGACTTGTCGCTCTGGCTGCCGGGCGGCAAACCGCTGCTCAGCGGCCTAAACCTGTACCTGCAGCCGGGCGAGAGCTTGCTGATCCAGGCCCCGTCCGGTTATGGGAAATCCACATTGATCCGCGCGCTTACCGGTATCTGGAGCCATGCGTCCGGCAAGGCACGATACGATCTGGGCAACGTCCTCACCTTGGCGCAAAAACCCTATCTGCCGCTCGGCAGCCTGCGCGACATGCTCTGGTATCCCGCCACTCCCCGCCCCGAGGACGATCCGGCGCTACAGCGCATCATGCGCCAGTTCGGCCTTGGGCATTTGATCGAGCAGTTGGACGCCGAACTCGACTGGTCGCAGACCCTGAGCATCGGCGAACAACAGCGCTGTGCCTTCGCCCGCGCCCTGTTGATGCGTCCCAAGGTCCTGCTTCTCGACGAAACCAGCTCGGCGCTGGACGAAGCGACGGAGCGAACCTGCTACACCCAACTGAAACAGTCGCTGCCACACTCGATCATCATCAGCGTGGGACATCGGGCCTCCTTGGAACTCCTGCACACCCGGACATTGAATTTGCAACATTGCCGACTGCCCGAGCCGAAACTGGATTACTCATGA	MQTLRDFWSLARPFWSSSERRPALLLLFGTILMNLCLVGVNILYNLWNLHFYNALQALDYDAFLMGGGYFILLQAGLATFTVAAFHFQQKLTLRWRRWSTENILQLWLQRQRYLKLQLTSPETDNPDQRIADDINLFIGMSLKLSLGLMTALVSLFSFLHILWQASSLVRIPIAGEELVIPGLLVWAALLYSILGTGGAFWLGRTLPRLNFLQQRREADFRFSLMRLRENAEAVAQYRGESEEHARFSQRLGAALENFWALVKQQKVVLGYSTFYMRSAMIIPMFVMAPQFFAGAFPLGRLTQLSAAFGEVHEAMAYLVKVFPEIAEWKSIIDRLTGFQQRLASVGDETGVRLEHNADVFEVQDLSLWLPGGKPLLSGLNLYLQPGESLLIQAPSGYGKSTLIRALTGIWSHASGKARYDLGNVLTLAQKPYLPLGSLRDMLWYPATPRPEDDPALQRIMRQFGLGHLIEQLDAELDWSQTLSIGEQQRCAFARALLMRPKVLLLDETSSALDEATERTCYTQLKQSLPHSIIISVGHRASLELLHTRTLNLQHCRLPEPKLDYS	PGPT0009345_1274	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES|BLEOMYCIN,PGPT0009345-bacA|yddA-K02471	NA	NA
BMS010_02265	1005			hypothetical protein	ATGAACACTAAGTTCACCGAGACACTAGGCAGTTATCCACGCACCACCATCGATGGGACTGCCATATCCGATTCCCCTTCTCTCATCCTGCCCTCCAACCCTGTCCTGCTCGGCGGCGAAAACCGTTCCGGCACCACGTTGCTCAGCGTCCTGCTCGACTCGCATCCCGATCTGGTCGTCGGCCCTGAAATCGATTTCACCGAGCCCGTCGATCTCGGCCCGCACATCCTCGCGATATGCGATCTGATGGATCGCCACAGCTCACAGCTCGCCGATGCGACGAAGGACAGCATCGATCCGGAGCTATACGACGGCGCGCACTTCGTTGTGCAGTGCGAGCGCTTCGGCCTCGGCCGTGACGACCTGCGAAAGCTGGTGAGCCGCGTGATGGCCGAGCGCGGAACCGACTTGTCCGCCCTGGAGGACCGTTGCCAGCTCATCGATGCCATCGGCGAATTCCGCCGCGAGCAGATGGGCGCCAAACGATGGGGCCTGAAGCTCCAGCGGAAGATCCGGAACGTCGGAACCTATGCTGCAATCTGGCCGCAGGCCCACTTCATCCACATCATCCGCGACGGTCGCGACATGGCCGCCTCTCATCTCAAGACCGTCCCCGACTGGGGCTACCGAACTGTCGCGGAAGCCGCGCGAGGTTGGCTGGAAGTCGTCAGCCAGCCCCGCCAGGCTGCGCCAGAGGGCCGCTACCTTGAGGTGCGCTACGAGGATTTGATCACCCGACCCCGCGAAACCGCCGAGAGGATGCTGGCTCACCTCGGGCTGCCCTGGAGCGAGGCGGTCCTGCACCACGCAGAGCAGAAGCACGCGCTGTTCGACAACCCCTGGGGCCATCCCGCAGCGGAAGCCGCGGGTAAGCCGCTCTACACCGGGCGTAATGGGCGCTATCTGCAGGACCTCTCCCGCGGGGAAATCGAGGAGTTCGAGCGGATCGCCGGAAAGGAACTGGAACACCTGGGCTATGAGCTGGCGACCGGGGGCGTGGCCTGA	MNTKFTETLGSYPRTTIDGTAISDSPSLILPSNPVLLGGENRSGTTLLSVLLDSHPDLVVGPEIDFTEPVDLGPHILAICDLMDRHSSQLADATKDSIDPELYDGAHFVVQCERFGLGRDDLRKLVSRVMAERGTDLSALEDRCQLIDAIGEFRREQMGAKRWGLKLQRKIRNVGTYAAIWPQAHFIHIIRDGRDMAASHLKTVPDWGYRTVAEAARGWLEVVSQPRQAAPEGRYLEVRYEDLITRPRETAERMLAHLGLPWSEAVLHHAEQKHALFDNPWGHPAAEAAGKPLYTGRNGRYLQDLSRGEIEEFERIAGKELEHLGYELATGGVA				NA	NA	NA	NA	NA
BMS010_02266	1359			hypothetical protein	ATGCAGGGAGCATCCGAGGTGTCCCGACGCCGTCTGCCGCGCAGCTTCTATCTCCTTCTGACAGGGCAGACGGTCTCGCTCGTCGGTTCCCAGGTGACGCTTCTCGCCCTTCCCCTGATCGCGATCGAACAGCTCGCTGCAAGCCCGTTCGAGACCGGTGTGTTGCTCGCCTGCGGACGGGCCCCTTATCTGCTGCTGGGATTGCTCACCGGCGTTCTCGTCGACCGTCTCCCGCACCGTGTCCTCCTGATGACGGCGAACATGGCGATGGCCGTCACCCTGGCCACTGTGCCGCTGGCCGCTCTCCTGACCGGACAGGTCGCCATGCCTCATCTGTACGCTGTCGCCACCCTGGTAGGCGCAGCCACGGTGATCGCCGATGTGGCTTTCCTGGCCTGTATGCCAACCGTGGTGCGCTCTCCCCAACGGGTACAGGCGCAGAGCAGACTGGAGCTGGGACAGTCGGCGGCATTGGTGCTGGGTCTGCCGCTCGCAGGCTGGCTCATCGCCACATTCTCTGCGCCTGTCGCGATACTCGCGGACGCGGCATCGTTCCTGCTGGTGACCATGCTGCTCCCCTATGTGGTGATGCAGCCGACACGCGACAGGTCCGGCGCATGGGAGCAGCGGAGCGGCGGAATCGTCCGCCGAGTCTTCTCGGAAGCAGCAGAAGGTGCGCTGTTCGTGCTGCGCGACCTCCAGCTGCGCGCAGTCACGCTCGCCACCGGCACCCTCGTCTTTTTTCATAGCGCCTACTCCGCTGTCCTCCTGTTGTACCTGACCGCAGAGCTGGGTCTGAATGCCACGGCAATCGGCATCGTCACGGGTATCGCTGCGACGGGAGCTGCCGTCGGTGCGCTGTTGGCCCGTTCGGTGGCGCAAGTGTTGGGGTTGGGCCATGTGCTGATTGCGGCTCTGCTCGTCAGTGCTATCGGTGCGGTACTCACCCCTGCGCTTCAGGTGTCGGGATGGTGGGTGTGGCCGGTGATAGGGCTTTCACAGTTTCTGTTGTGGGCTGGCCAGCAGCTCTACAACGTCCATCAAGTCCCGATCCGTTATGCCCTGGCACCACCCGAGCTGCACGGCCGGGTGAACGCGAGCATCCGCACCGTCGTCTGGGGGCTCGCCCCCCTGGGAGCCCTGCTGGGGGGTGTCTGTGGAAGCTGGCTCGGCGCCCGCACGACGCTCCTGCTCAGTGGTGCCCTGATCGCACTAGCCACCGGGTGGCTCATGGCATCGCCCCTGCGGAACGTCCGGACAACGCAACTCGAAGAGACCTCCCCGGAACCGACATCCCCCTTCCCCGCCCGCCGTTCGCCGGACGGGACTCCACCCACCGTTTCCGTTTCTCGAGGATAA	MQGASEVSRRRLPRSFYLLLTGQTVSLVGSQVTLLALPLIAIEQLAASPFETGVLLACGRAPYLLLGLLTGVLVDRLPHRVLLMTANMAMAVTLATVPLAALLTGQVAMPHLYAVATLVGAATVIADVAFLACMPTVVRSPQRVQAQSRLELGQSAALVLGLPLAGWLIATFSAPVAILADAASFLLVTMLLPYVVMQPTRDRSGAWEQRSGGIVRRVFSEAAEGALFVLRDLQLRAVTLATGTLVFFHSAYSAVLLLYLTAELGLNATAIGIVTGIAATGAAVGALLARSVAQVLGLGHVLIAALLVSAIGAVLTPALQVSGWWVWPVIGLSQFLLWAGQQLYNVHQVPIRYALAPPELHGRVNASIRTVVWGLAPLGALLGGVCGSWLGARTTLLLSGALIALATGWLMASPLRNVRTTQLEETSPEPTSPFPARRSPDGTPPTVSVSRG				NA	NA	NA	NA	NA
BMS010_02267	1473	papA3	COG1020	Acyltransferase papA3	ATGAAGTTCTTGGACATACCATCGTTCGGTCTGTCGCCGGGGCGCCTTACCGTCTGGCGGGCCAGCGCACCGCCCGCTTTCGATGCTCCCTGGGCAGACGATCCGCGTCCGGCCTCCTATGGCCAGGAAGCGCTCATCACCTACGCCCTGGAGGCGGCTAGCGAAGGCTCCCTGCCACCGTCCTGGCTGGGCGGCGTATTCGACCTGCCCGCCGAACTCGATGCAGACGCCTTTGCTGCGGCCTTGCGCAGTTGGATAGACCGCCACGAAACCCTGCGCAGCCGTCTCATTCTTTCGTTGCCCATCACCACGGGCGGCTACTTGCGTCGCATGACACTACCCACCGGCGTCGTGACGATCCAACCCGATGCGACGCGCGACATTACTGACGGCCGGGAGCTGGCTCGTTATCTCGAAGCGCTGTTCGACAGCGACGCCGGCCCCCTCGGCTGGCCCGGATATGTCTGCGCCACCATCAGCCACCCGGGGGCAACCACCGTCTGCCTCGCCGCCGACCACACTCTGATGGATGGCTACTCCATTCTCCTGACCGCATACGAGATTCGAACCCTGTACGCCGCAGCCCTCGCTGCCCCCACCGGCAAGCCCGTACCGCCCCCTCTCCCGCCCACGGCCAGCTATCTCGACTTCGCGGAGGCCGAACGGAGCGCCGCCGACACCCTGACCGCCGACCACGAATCCATCGTCCGCTGGCGACAGTTCGTCACCGAGGCCGGCGGGCGTCTACCGGAGTTCCCTGTACCGGTTGGCGACACGAGCGGCAGCCCATCCGCCCAACCTGGCGGATATGCCGAGCTTCTCGATGCCTCCACTGCGCATGCCTTCGACCGCGCCTGCCGCGCGGCGGGTGGTGACTCCTTCTCCGGGTTGCTCGCCTGCCTGGCCAAGGTCGGCCAGGAAATCACCGGTTCGGACAGTTTTCGCACCATGGCCCCTTTTCATACGAGAACTGGCCTCTCGCGCTCCGCCATCGGCTTTTACGTGGGAATGAGTCCGATCGCCTTCTCCCTGGGTGCAGCCGGCTCCTTCGCTGAGGCCGTGCGCTCTGCGGCCTCCGGCCTCGACGGCGTGAAAGAACTGGCCCAGATCCCCTTTCCCCGCGTGACGGAGCTTCTCGGCCAACCGCTCCGCGACCCCTTCATGGTTTCGTACGGCGACCTTCGCCGCGCCCCTGGCGCCCGCAGTTGGAATACCTGGCGGACCGCAATGCTCCGCAGCCGCAGCACCGACCCGGACGACGTGTACTTCTGGTTCATACGCACCCACGGCGGCCTTTCCGTCAGTTATCGCCACCCCGCCACCGACGCGGCAGAAATCGCGGTTCCCCGCTACGTGGCCCGTACCAGGCACCTTCTGGCCTCCGTTGCGAGCACCGGCTGCTGGTCCACCCCCATCCCACAGGAAACTATTGCCCATGACGGACTTCAGGCACATCGCAGCGGCCTCTTGTGA	MKFLDIPSFGLSPGRLTVWRASAPPAFDAPWADDPRPASYGQEALITYALEAASEGSLPPSWLGGVFDLPAELDADAFAAALRSWIDRHETLRSRLILSLPITTGGYLRRMTLPTGVVTIQPDATRDITDGRELARYLEALFDSDAGPLGWPGYVCATISHPGATTVCLAADHTLMDGYSILLTAYEIRTLYAAALAAPTGKPVPPPLPPTASYLDFAEAERSAADTLTADHESIVRWRQFVTEAGGRLPEFPVPVGDTSGSPSAQPGGYAELLDASTAHAFDRACRAAGGDSFSGLLACLAKVGQEITGSDSFRTMAPFHTRTGLSRSAIGFYVGMSPIAFSLGAAGSFAEAVRSAASGLDGVKELAQIPFPRVTELLGQPLRDPFMVSYGDLRRAPGARSWNTWRTAMLRSRSTDPDDVYFWFIRTHGGLSVSYRHPATDAAEIAVPRYVARTRHLLASVASTGCWSTPIPQETIAHDGLQAHRSGLL				NA	NA	NA	NA	NA
BMS010_02268	1479	livQ		6'''-hydroxyparomomycin C oxidase	ATGACGGACTTCAGGCACATCGCAGCGGCCTCTTGTGATTACACTCACTTCGATGCGGTTATCGTCGGCTCCGGGCCATCCGGATCGATCGTCGCCCGAACACTTGCGGAAAAAGGCTGCCATGTAGCCGTTCTGGAGTATGGCGGCCTGGTTTCTCCAGGTGCGCTGCACGGGCCCCATCAAGCGGCCTACAGCACGGCACTCACCTCCAGCGGTTCCGCCGATGGCAAGCCCTGGACAGCATGCTGCGTCGGTGGCGGCATGCAGTTCTACAACGCGATCACGTTCAGATACCGGCAAGCCGATCTGTCGGCCTCCCGGTATCTGACGACGGACTTGGAAATCGATTGGCCAATCACCCTCCAGGATCTCGATCCGTACTACACCGAGATCGAGCACCTCCTGGGCATCAGTGGCGCGAATGGATTTCCCTCGTACCCAGCCAGCTCGCGTGGGTTGATGCTCTCCAATGCGATGCAGTCGCTCGGCATACGCCCCAAGAACATCCCGTTGGCGATCCGACCGCCAGGAACGAGCAAGGGGTGTATCGAATGCTCCGCTTGCGACGAACTGGCATGCCCTACGGATGCAAGGGCCTCGGTGCTGGCGAGAAACATTCTGGATGACTCCGCCCTGCCGGGGACGATCACGGTGTTGTACGGCTGTTTCGTCAACCGGATCGAGACCCGCAGCGACGGCCGGGCCGAAGCCCTCGAGTGCTATGTGCCACTCTCCTCGGAGCGAATCCGGATTCCGGTCGAAAGGGTCATCGTCTGTGCGAACGCCATACAGACGGCGGCACTGATGCTGCGGTCGAAGAGCAGGCATGCGCCGAGAGGAATCGGCAACGAATCCTGTCTGGTCGGTCGCGGGCTCTCCTTCAAGATCAGCGGCTACTCCGTCGGCCACATGGAGCTGACCTGCTCCAACGCTTTCGTGCCGCACTGGGGGCCGCATGCGACCGTGTATACGGACGAGTTCTACGAGCATACCGACGTGCCATGCCGATTCGGCGGGCTCATTTATGAAGCGAATTTCCCCTTGCCGGACGAGAACGTCGGCCTTGTGCGCCTGCATTACATCGCCGGCGAAGAGCCGTGGTCGCACAACCGCGTCGTACTGGACGAGGCCGTCGACCGGTACGGAATCCCTTACATCCGCTTCGAATACCGGAACTCGGAAAACGACCGCGCCCGGATAAGTTTTCTCGCCGACCGCGCGGACGACATTCTTCGCCACCTGGGCGCCTTTCGCATCGAGCGGGAACCTTTCGCCCATGCCAAGGGGAGTGCCCACCTGCACGGCACGATGCGTGCCGGGCACGACCCCGGAACGTCGGTCGTGGACAGCTACGGCAAGGTCCATGGATTCACCAACATCCATGTCATGGATGGCTCCGTCATGAATTTCGCAGGGAACAGCAATCCGACACACACCATCATGGCCAATGCGAGGCGCATGGCCCTGTCGCTCGAGTGA	MTDFRHIAAASCDYTHFDAVIVGSGPSGSIVARTLAEKGCHVAVLEYGGLVSPGALHGPHQAAYSTALTSSGSADGKPWTACCVGGGMQFYNAITFRYRQADLSASRYLTTDLEIDWPITLQDLDPYYTEIEHLLGISGANGFPSYPASSRGLMLSNAMQSLGIRPKNIPLAIRPPGTSKGCIECSACDELACPTDARASVLARNILDDSALPGTITVLYGCFVNRIETRSDGRAEALECYVPLSSERIRIPVERVIVCANAIQTAALMLRSKSRHAPRGIGNESCLVGRGLSFKISGYSVGHMELTCSNAFVPHWGPHATVYTDEFYEHTDVPCRFGGLIYEANFPLPDENVGLVRLHYIAGEEPWSHNRVVLDEAVDRYGIPYIRFEYRNSENDRARISFLADRADDILRHLGAFRIEREPFAHAKGSAHLHGTMRAGHDPGTSVVDSYGKVHGFTNIHVMDGSVMNFAGNSNPTHTIMANARRMALSLE				NA	NA	NA	NA	NA
BMS010_02269	1248	argD_1		Acetylornithine/succinyldiaminopimelate aminotransferase	ATGCTCGATCCTGTAGTTACCGGCTATCTGACCGAATGGGAGCGGGAAACCCGCTCGTCCATCGTATTCCGCTCCGCCAAAGGCGCGATGGCGGAGGACATCGACGGCAAGACCTACCTGGACATGACGTCCTGCAGCGGGGCTTCGCCCTTGGGCAGCAACGACTCCGTGTTCAAGGCCAGGCTTGCGCAGGCGATGGAGCGGGAAACCGACGTCCTGCCATCGCCGGTGAGCGAGCAACGCCAGCACCTGGCCGGAAAAATGGCGGCGATGTTCCCGGACCATCCCCGCGTGTTCTTTCTGAGGACCGGCTCCTGTGCGACGGAGGCGGCAGTCCGGATCGCCCGGCACCGGACTGGCCGGCCGGTGATTCTGACGGCGGGCTTCCATGGCTGGCACGATCTCTTCCAACAGCACCCCTGGTCCGACAACCCGCCGGCCGAGGATCGGCACATCCAGGATTTCCAATACGACCTCGACATCCTGGAACGACAGTTGATCGAGAACCAAGGCAGGGTCGCGGGCATTTTCTTCACGCCCGAGCCCTCGGTCTTTCCCTCGGAATTGCTCCAGAAAATCTCCCGCATGGCCAAGCTGCATGGCGTATTGCTGATGGTCGATGAAGTCCTGTGCGGGCTTCGCTACGCCAAGGGTGGCTACTGCCAGCAACACGGTGTGAAAGCCGACCTCATTACCTTGGCCAAGGGGATCGCGCAAGGCGTCGGCCTGTCCGCGGTCGTCGGCACCGCCGATGCCATGGAAGGCGCCGACAGGGCCTATCTCGGCAATACCTACCTGCGCGAGAACCGGGCCTTCGTGGCCGGCAACCTGACACAGGAACTCTTCGAAGAAGGCCAAATCGTCGCGCGCCTCGCCGAGAGCGGCGCCGCACTCAAGGAACTGTTCCTGCTCTCGTTCGAGCGCAACGCAATACCGGCGCGCATCCTCGGCAGCGACAGCATGTTCGACATCGTCCTGCCCTCGCTCAGCCATGGGCGAGCCTTCGCTCAGAGCTGCCTGCAGCACGGCATCTACATTGGCTACCCAGGCAAGTACATGAGCAATGCGGCCATGGACGACGCATTCTTCAGTGCCCTACAGCCGGCATTGGAACGAGCGCTCGCGGACTACCGCAAGGACCAGGACATGACGGTCCAGGTCACCGAGGCATCCGTCGTCGAGTACTGCGCGAAAGCATTCCATGCCACAGAGCACGCATGCCTCTCCAACAAGCATCACTGGGCCTGA	MLDPVVTGYLTEWERETRSSIVFRSAKGAMAEDIDGKTYLDMTSCSGASPLGSNDSVFKARLAQAMERETDVLPSPVSEQRQHLAGKMAAMFPDHPRVFFLRTGSCATEAAVRIARHRTGRPVILTAGFHGWHDLFQQHPWSDNPPAEDRHIQDFQYDLDILERQLIENQGRVAGIFFTPEPSVFPSELLQKISRMAKLHGVLLMVDEVLCGLRYAKGGYCQQHGVKADLITLAKGIAQGVGLSAVVGTADAMEGADRAYLGNTYLRENRAFVAGNLTQELFEEGQIVARLAESGAALKELFLLSFERNAIPARILGSDSMFDIVLPSLSHGRAFAQSCLQHGIYIGYPGKYMSNAAMDDAFFSALQPALERALADYRKDQDMTVQVTEASVVEYCAKAFHATEHACLSNKHHWA				NA	NA	NA	NA	NA
BMS010_02270	732	gph_2		Phosphoglycolate phosphatase	GTGAAGAATCGAATGGAAACGGCAACTGCCTATTCGCACAAGGGATGGGGGCTCCGGGAAGAAGATTTCATCGGTATTCAGCTCAAGGGTTACGACCACATAGCCTTCGATCTGGACGGAGTCCTCGTGGATTCCGAGGCCGTGGTCGAAACCGCACTCCGTCGCTGGGCGCAGGAAGAAGGCATCTGCCCGGATTACACGGTGCGCATGTCGGCCGCCCGCCGGGATATCGAACTGGTGGCAGCGATTGCACCCGGTCTCTGTCCGGAGCGCGAAGCGGCTCGCATTGCGGATTACGAAATCCAGGCGATGAAGCTGCTGCAACCGATCCAGGGTGCTGCCGAGTTCTATGGATCGATCCCCTTCGGCCGAAGATCCATCGTTACCTCGTCGGCGAGGATTTCAGCCCTTGCCCGCCTCGATGCGGCGGGAATCCCCCACCCGAAAATCCTGATTGCAGCGGAGGATGTCAGCCAGGGAAAGCCGAATCCGCAACCCTATCGAACGCTGCTGCGCATGCTGGGTATTACCCCGGAAAGATGCCTGGTTTTTGAGGACTCCCTGACCGGTATCGAAGCCGCAACCGCCGCCGGTTGCGACTGCATAGGTGTTGGCCTCAATGCCAAAGGCCACCCCGAAACCAAAGGCTGGATAGAGCACTTTCGCGAGATTTTCTTTCCGGCCGGCCTCGCTGAGCCTGCTTTCCAGATCGAACGAAGGGACACGCCATGA	MKNRMETATAYSHKGWGLREEDFIGIQLKGYDHIAFDLDGVLVDSEAVVETALRRWAQEEGICPDYTVRMSAARRDIELVAAIAPGLCPEREAARIADYEIQAMKLLQPIQGAAEFYGSIPFGRRSIVTSSARISALARLDAAGIPHPKILIAAEDVSQGKPNPQPYRTLLRMLGITPERCLVFEDSLTGIEAATAAGCDCIGVGLNAKGHPETKGWIEHFREIFFPAGLAEPAFQIERRDTP	PGPT0018405_254	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_SORBITOL_DEGRADATION,PGPT0018405-hxpB-K19270	NA	NA
BMS010_02271	1455	treT		Trehalose synthase	ATGAAAGTATCCACGGAACGACGCACACCGCTATTCGATGAAGTACTGGTGGAGGGCTCGGTACTCGAGCATTACACCGCAGAGCGGGAAGAGTATGGGCCCCTTCTCGATCACTTGCTCCGCTCGTCTCGCGCAATGCGTGACACGTTCGGCCACCGTCGTATCTGGCACATGAACTCCACTGCGTTCGGCGGTGGAGTCGCCGAGATGCTTCCCCACCATATATGCCTCCTCCGGGAACTGGGCTTCGATGTGCGCTGGCTCATCTTCAAGCCGAAGGAAGAGCAGTTTTTCCAGTTCACCAAAGGGCTTCACAACGCTCTTCATGACGCCACCGTCGCTGGTCTGGATGCCTTGCTGCCGCAGTATCTGGAAACATCGATGCAAGGGGCCGCGGAATTGGAGCGAATCATCGGGCCGGACGACTTCCTGGTCATCCATGATCCGCAGCCGCTCTGCGCCGCTGCCCAGTTTCTCGAGGCTTACCCGCATCCCGCCATCTGGCGATGCCACATCGGTTATCCCGAGCGCACCCCGAGGGTCGACAACGTCTGGCGGCTCCTGGGGAACTACCTGCGGCCTTTCCAGCGCATTGTCCTGAGCGCAAAGGAATATGCCTTCGATACCGACCGCCCCATCGATATCATCCAGCCGTCGATCAGCCCGTTCTCGAGCAAGAACCGCAACCATGTGGAGCCGGCGAACCGGACGCTGGAGGACTCGGTTTCGTTCAATGCCCACGAGGTTGAAGCCGCTCCCTCACTGAACAAGATTCTCGGCTCGCGATATTTCCTGCATGTCTCCCGATGGGATGGGTTGAAAGGCATTGACCGGGTCATCGCCGCTTTCGAGCGTTTCGCCAGAACGCCGCTCGACGAGGCAGACGATATCCGCCTGGTCATCGCCGGGCCGGACCCGTTGGGTGTGGCTGATGATCCCGAAGGGCGTGCGTATTTCGAGAAATGTGTAGAGCTGCACGCCCAACTGCCCAAGGAAGTACGGCAGCGCGTGTATCTCGCCTGTATCTCGATGAAGAACCATGACGTAAATGCCGAGATCGTCGGCCGGCTGCAACAGAACGCCCACGCCGTGTTTCAACTCTCCCGCGAAGAGGGCTTCGGCCTGACGGCAACGGAGGCCCTCTTCCGAGGCAGGCCCGTCATCGTGTCATCCGCCTTCGGCCTGAAAAGGCAGGTCGTGAGCGGGCTGAACGGCATCGTTCTCGACGAGCCGGACATCGAGGCCAAGGCAGCAGGAATCATGCAGCGCCTGGCGACCGATTATCGTGACTTCGAGGATATGGCCAGAGCCGCGCGTGAGAGCTGCCTGCGCTCCAGTACGCAAATCTCGCAACTTCCCAGGTGGTATGCGTCGATGCAGTCAGCTCTATTCAGCTTTGAGGGAGTGCACGGCAAGGAGCCCTCGAATCGCACAGCGTATGAGCCAAGCGTATGA	MKVSTERRTPLFDEVLVEGSVLEHYTAEREEYGPLLDHLLRSSRAMRDTFGHRRIWHMNSTAFGGGVAEMLPHHICLLRELGFDVRWLIFKPKEEQFFQFTKGLHNALHDATVAGLDALLPQYLETSMQGAAELERIIGPDDFLVIHDPQPLCAAAQFLEAYPHPAIWRCHIGYPERTPRVDNVWRLLGNYLRPFQRIVLSAKEYAFDTDRPIDIIQPSISPFSSKNRNHVEPANRTLEDSVSFNAHEVEAAPSLNKILGSRYFLHVSRWDGLKGIDRVIAAFERFARTPLDEADDIRLVIAGPDPLGVADDPEGRAYFEKCVELHAQLPKEVRQRVYLACISMKNHDVNAEIVGRLQQNAHAVFQLSREEGFGLTATEALFRGRPVIVSSAFGLKRQVVSGLNGIVLDEPDIEAKAAGIMQRLATDYRDFEDMARAARESCLRSSTQISQLPRWYASMQSALFSFEGVHGKEPSNRTAYEPSV	PGPT0014115_42	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TREHALOSE_METABOLISM,PGPT0014115-treT-K13057	NA	NA
BMS010_02272	615	cysC_1	COG0529	Adenylyl-sulfate kinase	ATGATCGATTTTGCTTTCTGGCTCAGCCATGACGTGCATTGGCAGGCAATGGAGGTCGACCGCAAGGCAAGATCGGCTCTCAAGCAGCAAAAAGCTGTCGTCGTCTGGTTCACCGGGCTGTCGGGCTCCGGCAAATCGACGATCGCCAACCGGTTGGAAAAACTCCTCCACTCCCGAGGCCGCCACACCTATCTGCTGGACGGCGACAATGTTCGCCACGGACTCAACAAAGACCTCGGTTTCACCGACAAGGATCGCGTCGAGAATGTCCGTCGGGTTGCCGAGGTCGCCAGGCTGATGGCCGACGCGGGCCTGATCGTCCTGGTGTCGCTCATTTCCCCCTTCCGTTCGGAACGCCAGCTCGCGCGCGAACTCATGGCCGACGGTGAGTTCATCGAAGTCTTCGTCGATACGCCCATCGAGGAGTGCGCCCGACGGGACCCGAAGGGGTTGTACAAGAAGGCAATGCGCGGCGAGCTTCGCAACTTCACGGGCATCAGTTCGCCCTATGAACCGCCCGCACATCCGGAAGTGCATCTCGAAACGGTCGGGACGATTCCCGATGAGCTGGCGATGCGAATCCATGCCCTGCTGGAAAGCCGAATAACGTGCTGA	MIDFAFWLSHDVHWQAMEVDRKARSALKQQKAVVVWFTGLSGSGKSTIANRLEKLLHSRGRHTYLLDGDNVRHGLNKDLGFTDKDRVENVRRVAEVARLMADAGLIVLVSLISPFRSERQLARELMADGEFIEVFVDTPIEECARRDPKGLYKKAMRGELRNFTGISSPYEPPAHPEVHLETVGTIPDELAMRIHALLESRITC	PGPT0002395_476	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-INHIBITION_OF_SALICYLIC_ACID|JASMONIC_ACID	ADAPTION_TO_PIS_REGULATION_BY_Nod_FACTORS,PGPT0002395-cysNC-K00955	NA	NA
BMS010_02273	3183			hypothetical protein	ATGCCTTGCCTCCCCCCGAAGCGGGTTTCTCGCCCGGCCGCCCGTCATCCGTCTGGATACCTGCCACAAGCAACCGGGCCGGAGGCTAGCACCTATCCGCGCAAGACATTGACCCAGTCGATCTCCGTCGCATTGCTGGCGGGATTGGCGACTTGGCCTTCGGTGAGCGGCGCCGTGATCTACGACGAGCCCATTACCGGCGTGGCCGATAACGACAAGTCTGGCGGCACTGGTGGCTACGATCCGGCCTATGCCCTCACCGAGATCGACGGTGTTCTGCATTACACCTTTGCCAACGGCGATAGCGTGGCCCTGGAGGGAACGGGTACCGATATATTTGCCGTCTCCCTGACCTCCGCCTCGGCACCGGTCGCGCTGGATACCGGCGCAAGCCAGCCCTTGAGCATTTCTGCCGTCAGGAAACAGAGCGGTGCCTGGGGCCTGGCGGTCGGCATCAACGATGTCGGCACCGCACTTACCATCAACGGCGACAGCACCATTCGTGCGCAAGCGGACGATCCCAAGTCCAGCGGCGGCGGTAGTGCCGCCATCGGTGTACGGGCCACGTCCGGCGCGAACATCATGTTCAACGGATCGACCACTATCAACGCTTACTCACCTGCCTGGGCCCAGGGCATCTATACCTCGGGAAGCAGCCGCATCACGTTCAACGGCCCGACCTACATCCTTGCCCAGAGCCGGGAAACGCTGGAAGGCGTGTATAACTCCAACCTGAGCACCATCATCTTCAACGGCGATACCACCGTTCTGGCTCATTCCATCTGGCCGAGCGACAACGCCCATGGCATTTACAACGATGGCATCAACAGCCGGCTCACAGTGAACGGGAATCTAACTCTGGAGAGCATTGCCCAAGGCTCCACAGCCTTCGGTATCCGTAACCAGGGCATCCTGACGGTCACCGGCGATTCCACCGTCAATGTCTCCAGCCCGCGCTCAGCCTTCGGGGTCGCCAATACCCATTGGCGGGCCAGGATGAATTGGGACGGCGATCTGCAAATCACAGTGCGCGGCGGTTCCTACGTACCCTTCGGCAACCCCTCCGGGATCAGCAACGACCGCACGCCGGGTGCGCAGATGGATTACAACGGCGCGGTCTCGGCCGATGTGCTGTCCGCCGCGGTGACCTACGGCATCACTAACACCGGTGACATTCGCTTCAATTCGACGTCCGACCCGGTGTCCTTCACGGTCGCCTCCACCTGCAGCACGTGCGACGTCTACGGCTTCCGCAACCTGGGGAGCATTTCCGTCGCCGGCGACCTGAACATCACGACGTCGCCGAGCGGGACGGGGAATGCCTATTCGCTCTGGAGCGTGCCGCTGGACACGCAAAACGCCAGCATCACCGTCAATCAGAACGGTGGGCACAGCGTCCAGTTGGATGGCCATATCGTCACCGCCACGAGCGATAACGGCAGTTTCCTGGGCTCGGTGGACGTCAACTTCGATACCGCCAACTCGTTCCTGGCTGGCCTGGCCGGTGGCTGGCAGTCCTCGACGGCCTATTCGATAGGCCGCACCACACTGGCGTTCAGCAACGGTGCACGCTGGATTCCGCAGGGAACGGGCACGATGAGTACCGATTTCGGCTCGGGTTCGCTCACCCTGGGTGACGCCGGCATGATCGATATGGCCAGTTACTGGGGGACTTTCGCCCCTTCGTCCATTCCCAGCTATTCCTATCGCACGCTGCTGATCAACAGTACGAAAGGCGCTACGGTCTCGCTGAACGATGACGCGCGCTTCCGCTTGCTCAGCGACATCACGGGCGCGTCCGGCACGGTCACGGCGGACAAGATCGTCTTCGGCAGCGGTATCACCGGTTTCTCCGCCACCGGCACCCAGGGCATCAGCATCGCCTATGACCCGGTACTGGATGATGTCTCCTGGGTGAACGCCTCGACCATCAGTTCGGGAACGACCATTCAGGCCGCATCGCCCATCACCATCGTCGATGCCAGTGCGGCCGCGGGCGGTACGGCCACGTTCGCCGCCGCCACGGGCCTGGCGAGGGCCTGGAGCGGGACCTATGAAAACAATCTGGTGAGTTTCAGCTACGCCCCGCAGGTCAGCCTCAGTGCCGATGGCCGCAGAATCCTGCTGACCGGGATCGTCATCGGTTCGGGGGGCAGCATTGCCACGCTCGCGGACAACGGGGCCGAGGGCAGCGTGAGTTCGGCGGTGGGTACCGTCGCCACGGGAGGAAGCGTTGCCGTCGCCGTTGCCGCTATGCGTCCGGCGGAGACGGTTTTGACCGCCGCCGATGCCGCCGACAGCCTGGTCAATCTCTGGAGCCAGGACGGCCAAGCCTCCGCTCAGCATGCGCGTACCCAACTGCGCAGCTCGGATGCCGAGGATACCGCTGTATGGGTCAGAGGCGACGCGGGCGAGCTGGACGCGAAGACCGCCTATTCACGTGACCACAGCCAGCGTTACAACGGCGTCACCGCCGGGGCGGATCGCCGTTTCACCCGCGATGGTGCGTCCAGTGCCGTCGGCGTCAGCTTCGGCCAGACGCGTTCGAACGCCAACTACGAGCAGGGCAAGGGCGAACTGAGCGAAACCACTTTGGGGCTGTACAGCGGTTGGGCCGCGGACGGCGGCCCCTATGTAGTCCTCGGCGCCGACGCGTCGATGCTGGAGAACCGCTACACCGCACGCGACTCGGTCGGGCGCCATATCGCCGGGAAATACCGGACACCCGCAGCCCGTGTGTATGCCGATAGCGGCTATCCGTTCAGGTTCAGTGAGGGTTACTACATCGAGCCCCAGCTCGGCTTGTCCGTCGGCGCCATTCGCGGCAGCGAGCACACCACGCGTAACGGCGTGAAAATCGAGCAGGACGGACAGGTCAACTCCGTTGCCCGGGCCGGCGTGGAAGTGGGCAGAACGCTACAGGGCCTCGGCGTGAACGGGGGCCTGTATGCACGGGCTTCGGCATTGCGCTATATGGGTGATGACCTGGAAATCGAGGCTTCCCAGGATGGCGCTACGGTCATTCCCGATACAGCGGACCGCAACGGTACGGGCAGCGAATTCGTGCTCGGCGGCGACATCGGTTTCGGCCTCACCAGCCTCTATCTCGAAGCGTCCGAAGCCACGGGCGTGGATACCAAGCGCAACTGGGCCGTCCAGGCGGGGCTGCGGCATAGCTGGTAA	MPCLPPKRVSRPAARHPSGYLPQATGPEASTYPRKTLTQSISVALLAGLATWPSVSGAVIYDEPITGVADNDKSGGTGGYDPAYALTEIDGVLHYTFANGDSVALEGTGTDIFAVSLTSASAPVALDTGASQPLSISAVRKQSGAWGLAVGINDVGTALTINGDSTIRAQADDPKSSGGGSAAIGVRATSGANIMFNGSTTINAYSPAWAQGIYTSGSSRITFNGPTYILAQSRETLEGVYNSNLSTIIFNGDTTVLAHSIWPSDNAHGIYNDGINSRLTVNGNLTLESIAQGSTAFGIRNQGILTVTGDSTVNVSSPRSAFGVANTHWRARMNWDGDLQITVRGGSYVPFGNPSGISNDRTPGAQMDYNGAVSADVLSAAVTYGITNTGDIRFNSTSDPVSFTVASTCSTCDVYGFRNLGSISVAGDLNITTSPSGTGNAYSLWSVPLDTQNASITVNQNGGHSVQLDGHIVTATSDNGSFLGSVDVNFDTANSFLAGLAGGWQSSTAYSIGRTTLAFSNGARWIPQGTGTMSTDFGSGSLTLGDAGMIDMASYWGTFAPSSIPSYSYRTLLINSTKGATVSLNDDARFRLLSDITGASGTVTADKIVFGSGITGFSATGTQGISIAYDPVLDDVSWVNASTISSGTTIQAASPITIVDASAAAGGTATFAAATGLARAWSGTYENNLVSFSYAPQVSLSADGRRILLTGIVIGSGGSIATLADNGAEGSVSSAVGTVATGGSVAVAVAAMRPAETVLTAADAADSLVNLWSQDGQASAQHARTQLRSSDAEDTAVWVRGDAGELDAKTAYSRDHSQRYNGVTAGADRRFTRDGASSAVGVSFGQTRSNANYEQGKGELSETTLGLYSGWAADGGPYVVLGADASMLENRYTARDSVGRHIAGKYRTPAARVYADSGYPFRFSEGYYIEPQLGLSVGAIRGSEHTTRNGVKIEQDGQVNSVARAGVEVGRTLQGLGVNGGLYARASALRYMGDDLEIEASQDGATVIPDTADRNGTGSEFVLGGDIGFGLTSLYLEASEATGVDTKRNWAVQAGLRHSW				NA	NA	NA	NA	NA
BMS010_02274	891			hypothetical protein	ATGGAAAATCATCGCAATACTGTGTCTGTCTGTGCCCGCTTCGCCATCGGAGCGGTCTGTACCAGCCTCTTCCTCAGCGGATGCGCCAGCGTCGGCGGCGGAGCGAGTTCCAAAGTGGCGGCCACCACCCGAGCGGAGTATTACCCGAGCTGCTACGAGCCGGTCAGCCATCTGCGCAGTTCCGATGCCGCCATGCAGAAATCCGTGGCCACCGGTGCCGTGGCGGGCGGCTTGCTGGGCGGCCTGACCGGCGCCCTGGCCGGTGGCGGCGACCACACCGCGCGCAACGCCTTGATCGGCGCGGCCACCGGCGCGCTGGTCGGCGGGGCGGTCGGCTACTACACCGAGCGGCAGAAACAGATCACCGACGACCAGGCCCGCATCGCCTCCTATGGCGCCGATATCGACGCCAGCGTCGGCGATATGGACCGCAGCATCGCTTATGCCTCGGCGGCGCAGGACTGCTACCAGCGCGAATTCACCAACCTGCAGGCGGCGCACAAGAGCGGCAAGATCACCGAGGCGGAGGGGAAAAAGCGTTTCGCCGAGATCGTCAGCGGCCTGAAGGAGACCAACGCGCTGTTGGCCGCGGTGGATGGCCGTGCCGGCGAAAACATCGACACCTACACCCAGGCCTATGAGAAGGACCTCCAGCAAATTGGCGTGCAGCGCCAGACCGTGTCCCAGGTCGCCAAGGCGGAAACCAAGAAACCGGTAGTCGCCTCGACGGTGCCGAAAGCGGCGGTGGACACCGAGAAGAAGTTGCAACAGGCCGACACCAAGCGCACCCAGATCAAGCAGGTGACCTCGCGCGGCACCAGCCTGATCTCCAGCGCCTGCAACAACCCGGACGTGGGTGACTGGGGCGCCGAGCAGTGCTCGAACGTTTGA	MENHRNTVSVCARFAIGAVCTSLFLSGCASVGGGASSKVAATTRAEYYPSCYEPVSHLRSSDAAMQKSVATGAVAGGLLGGLTGALAGGGDHTARNALIGAATGALVGGAVGYYTERQKQITDDQARIASYGADIDASVGDMDRSIAYASAAQDCYQREFTNLQAAHKSGKITEAEGKKRFAEIVSGLKETNALLAAVDGRAGENIDTYTQAYEKDLQQIGVQRQTVSQVAKAETKKPVVASTVPKAAVDTEKKLQQADTKRTQIKQVTSRGTSLISSACNNPDVGDWGAEQCSNV				NA	NA	NA	NA	NA
BMS010_02275	1710			hypothetical protein	ATGTCTAGTCCTGTCGTTTACAGCCTGGCCGTACTCGCCTTGCTGGTCGGAAGCAACGTCGCATGGGCCGAGGAAACCGCCACGCCGGACAATCCGAAGCCGATGGCGGACGACCTCAGCCTGCCGCTGCCCTGCGACGGCGAAATGGTGTTCCGCTATGTCTACATCCTGGCGCGAGGCGCACTGGACGATCGCGAGGTGAGCCTCGGCTACCCGTTCAGCGAAGGGGAGACGGGCTACCAGCAGTCCTTCATTTCCGGTTACCGGCGCGACTACATCAATGGCCAGTTCGTACTCGACGACCTGCCGACCGACTGGCGCCCACGCATCGAGCCGAACCTGCCCAAGGTCGAGGCCGATACGCTGCTCAAGCCGATGTTCTATTTCGTCGGCAAGTACGAAGTGACCCAGCGCCAGTACGATCTGGTCATGGCCCAGGCTCCGGCGCTGGAGGGGCAGGGCGAGCCTCCCGCCTGCGAGCCGCCGGCCACTGGCATGCAGGCACGTTTGCCGAAAGTGAAGCTCTCGCGCCTGGAGGCGGAGCGCTTCACCTCGGTCTACAGCGCCTGGCTGATGAAACATCATCGTGACCGTCTGCCGGTGAGCGGACGCCAAGGCAATGGCGACGACGGTGGCATCGGCTTCGTCCGTTTGCCCACCGAAGTGGAGTGGGAGTTCGCCGCCCGCGGTGCCCATGCGGTGAGCCGGCAGGAGCTGGAAGCCCGGCTGTTCCCGCGCAAGGTGGCGGGCAGCGACAACGACGGCCCGTTGAGCGACTGGGCGGTATTCAACCAGGTCGCCGGCGGCACCGGGCAGGGGGCTCGGCTGTTGCCGGTCGGGTTGAAGAAGCCCAACCCCATCGGCCTGTTCGACGTGATCGGCAACGCCGCCGAAATGGTCGAGGAACCCTTCCAACTGGTTCATGCCGGACGCCGTCAGGGGACCTACGGCGGTTTTGTGGTCAAGGGCGGCAACTACCTGGAAGGCGAGATGACCCTGTTCACCGGTATGCGCCGGGAATACCCGTTGTTCGCCGCCGACGGCAGTGAGCAACGCAACGAAACCACCGGTTTCCGGGTGGCCTTGGGCGCGCTGTCGGCGCCGCGTTCGCGTTACAAGGAGCTGTTCGAGCAATGGCAGGCCGAAGGCCGACTGGCCGGGCTCACCGATGAAATCCAGGACACCGAGGACCCGACCAAGCTGCTCGACGACATCATCGCCGGCAGTACCGACCCGAATCTGCAGGCGCGCCTGTCGCAGGTGAACGAAGAACTCAAGCGCAACGTTTCGCTGATCGCCCGCCAACGGGAGGAGGCTGCCGGCAACCTGATCCAGTCGGCCGCGCTGGTGGCCGAGACCATCAACAACTACAACATCCGCCTGACCAATCTGAAGAAAAGCCTGCAACAGGCCCAGGCGGCCAAGGATACGGCCGCCGCCAAGCTCTACGAAACCGCCATCGGCAACGGCCGCAGTGCGCTCAATGGCGCCGTGGCGATCTACATCGACAACCTGGCGACCGGTACGCGCTATACCGATGCGGTCATCCAGGCGCAGTTCCAGCGCACCCGGGAAGAACTCAGTCGCAAGCCGGTACTGGGCGAAAGCCTGGTCAAACGCGCCACCCTGTTCGTTCGCCATATCGATCGATATCGCAAGGAACAGCGCGCCGAGCCGGAGGCGATCCTGAAGGAACTGCTCGCTCCCTGA	MSSPVVYSLAVLALLVGSNVAWAEETATPDNPKPMADDLSLPLPCDGEMVFRYVYILARGALDDREVSLGYPFSEGETGYQQSFISGYRRDYINGQFVLDDLPTDWRPRIEPNLPKVEADTLLKPMFYFVGKYEVTQRQYDLVMAQAPALEGQGEPPACEPPATGMQARLPKVKLSRLEAERFTSVYSAWLMKHHRDRLPVSGRQGNGDDGGIGFVRLPTEVEWEFAARGAHAVSRQELEARLFPRKVAGSDNDGPLSDWAVFNQVAGGTGQGARLLPVGLKKPNPIGLFDVIGNAAEMVEEPFQLVHAGRRQGTYGGFVVKGGNYLEGEMTLFTGMRREYPLFAADGSEQRNETTGFRVALGALSAPRSRYKELFEQWQAEGRLAGLTDEIQDTEDPTKLLDDIIAGSTDPNLQARLSQVNEELKRNVSLIARQREEAAGNLIQSAALVAETINNYNIRLTNLKKSLQQAQAAKDTAAAKLYETAIGNGRSALNGAVAIYIDNLATGTRYTDAVIQAQFQRTREELSRKPVLGESLVKRATLFVRHIDRYRKEQRAEPEAILKELLAP				NA	NA	NA	NA	NA
BMS010_02276	1188			hypothetical protein	ATGAGACCGGGGCTGATGGCCCAGCTCGCCTGGCAAGACTACCGGGCCGAGGCACGCCTGTCGGTGTGTGCGGTGCTGGCGCTGGTCGCCGTCCTGGCACCGCTGCTGGTGTTGTTCGGCCTCAAGTTCGGGCTGGTCACCACCCTCACCACGCGCCTCGAACACGATCCTGGCGTGCGCGAGATCATCCCGCTGGCTGGCGGTCGTTTCAGCGCCCGGGATGTCGACGAACTGGCGTCCCGTCGCGACGTCGCCTTCGCCTTGCCGCGCACTCGCCAGATCGCCGCCACCGCCGATCTCTATCCGAACGGCAACGGCCAGGCGCTGACCGTGGAAATGCAGCCTACCGCCGAAGGCGATCCGCTCGTTCCGCCGATGCAACTGCCGGAAGCACCCGACGAGGTCACCCTCAGCCAGCGAGCGGCGGAAAAACTCGGCCTGCATACCGGCGACACGTTCACCGCCGCTTTCGGCCGCCAGCGCAACGGCCGGCAGGAATACCAGCGCATTCCGTTGCGGGTGAAGGGCGTGCTGCCGCTGGAAGCCTTCCCTCGCGATGCGCTGTTCTCCCGGACCGGCCTGCTGGAGGCGGCCGAGGATTACCGGGACGGCAAGGACTGGCCCGGCTACCAGCCGGCCGCCAATCCCAACCGGGTCTATCCCGGCTTCCGGCTCTATGCCCGCGACCTGGACAGCGTCGAGCGGTTGCGGCAACTGTTCGCCAAGCGAGGTTTGGAAGTGGCGACCCAGGCGGCGGCCATTGCCCAGGTCCGCTCGCTCAGTCGCAACCTGTCGCTGGTGTTCTGGATCATCGCCAGCCTGGCGTTGCTCGGTGCGTTCGCCGCGATGACCGCCAGCGCCTTGGCTGCCGTGGAGCGCAAGCGGCGGGCGTTGGCCGTCCTGCGCCTGCTGGGATTTTCCACGGCGGCGCTGATCGCCTTCGTGGTGCTGCAATCGCTCTATACCGGCCTGTTCGGTGTGTTGCTGGCCTCCGGGCTGTACGGCGTCGCCCAGATGGGGCTGAACCGGCTGTTCGAGACGGCTGCCGGCGAATACGCCTGCCGCCTGTTGTTCAGCCATTACCTGACGGCACTGCTGGCAACCCTGTCCTGCTGCGCACTGGCCTCGGCGTCGGGAGGCTGGCGAGCGGCGCAGATCGAAGCCTCGGAAGGATTGCGCGATGTCTAG	MRPGLMAQLAWQDYRAEARLSVCAVLALVAVLAPLLVLFGLKFGLVTTLTTRLEHDPGVREIIPLAGGRFSARDVDELASRRDVAFALPRTRQIAATADLYPNGNGQALTVEMQPTAEGDPLVPPMQLPEAPDEVTLSQRAAEKLGLHTGDTFTAAFGRQRNGRQEYQRIPLRVKGVLPLEAFPRDALFSRTGLLEAAEDYRDGKDWPGYQPAANPNRVYPGFRLYARDLDSVERLRQLFAKRGLEVATQAAAIAQVRSLSRNLSLVFWIIASLALLGAFAAMTASALAAVERKRRALAVLRLLGFSTAALIAFVVLQSLYTGLFGVLLASGLYGVAQMGLNRLFETAAGEYACRLLFSHYLTALLATLSCCALASASGGWRAAQIEASEGLRDV	PGPT0013350_19286	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
BMS010_02277	717	btuD_6		Vitamin B12 import ATP-binding protein BtuD	ATGCTGACCCTCAGGGATGTCCGCAAGACCCGTGGGGAGGGGCGCCAGCGCTACAGCCTGGTGGTCCCCCGGTTCGACCTGGAGCCGGGGCAGCGAATTGCCCTGGTCGGGCCCAGCGGCAGTGGCAAGAGCACCCTGCTGGACCTGCTGGCCCTGGTGCTTTCGCCGGACCCGGGCAGCCGCATCGAACTCACCGCCAACGGCCGCAACCACGACATCGCCGCACTCTGGCGTAGTGGTCGGCAGAACGTCCTGGCGGATCTGCGCAGCCATCTGGTGGGCTATGTGCTGCAGACCGGCGGCTTGCTGGGTTTCCTCAATGTCGAACGCAACATCGGCCTGTCGCGCGCCTTGCTCGGCCTGCCGACCGACCCCGCGGTGCAGCGCCTGGCCGAGCGACTGGAGATCGCCGATCAACTGAGCAAGAAGCCGTCGGCCCTGTCCGTCGGGCAGCGCCAGCGGGTCGGTATCGCGAGGGCGTTGGCCCACGATCCGCCCATCGTCCTGGCCGACGAGCCGACCGCCTCGCTGGACCCGCTGAATGCCGAGCGGGTCATGCGCTTGCTGGTGGCCCAGGCCGAGGAACGGGGCGTATGCATCGTGGTAGCCACCCACGATGCCAGCCTGGCACGCCGCGCCGGGCTCCAGCCGTGGGAGCTGCAAGTACGACCGGGCGACGACGGCGGGGTGACCGCCACCCTGGGAGCGGCGCCATGA	MLTLRDVRKTRGEGRQRYSLVVPRFDLEPGQRIALVGPSGSGKSTLLDLLALVLSPDPGSRIELTANGRNHDIAALWRSGRQNVLADLRSHLVGYVLQTGGLLGFLNVERNIGLSRALLGLPTDPAVQRLAERLEIADQLSKKPSALSVGQRQRVGIARALAHDPPIVLADEPTASLDPLNAERVMRLLVAQAEERGVCIVVATHDASLARRAGLQPWELQVRPGDDGGVTATLGAAP	PGPT0013345_6999	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
BMS010_02278	3045	pknD_1		Serine/threonine-protein kinase PknD	ATGGACATAGAGATTCCGGGGTACCAGATCGAGCGCGAGCTCGGCGACGGCGCGATGGCCACGGTCTACCTGGCGACCCAGCGCTCGCTGGAGCGCAAGGTGGCGCTGAAGGTCATGGCGGCAGCGCTGGCGGCCGACCCGAGCTTCTGCGAGCGCTTCCTGCGCGAAGGCAAGACCCTGGCGCGTCTCAGCCATCCGCACACCGTCACCATCCATGACATCGGCAACGTCGGCCATCACTACTACATGGCCATGGAGTACCTGCCCAACGGCACCCTCAAGGACCGCATCGCCGAGGGCGTGAGTCCGGAGCAGGGCATCCTCTGGCTGCGCCAGATCGCCTCGGCGCTCGGCTACGCCCATGCCCAGGGGCTGGTCCACCGCGACGTGAAGCCGGCCAACATCCTGTTCCGTGCCAACGGCTCGGCGGTGCTTTCGGACTTCGGCATCGCCAAGTCGCTGGAGGACCGCACCCAGTTCACCCAGGCCGGCTTCGCTGTCGGCACCCCCAGCTACATGAGTCCGGAGCAGGCGCGCGGCCAGCAGGTCGACGGCCGTGCCGACCTCTACGCCCTCGGCGTGGTGCTCTACGAAATCCTCACCGGCAAGCTGCCCTACAGTGGCAGCGACTCGCTCTCCACCGCACTGGCCCACCTCACCGAGCCGCTGCCCGAGCTGCCCATCGAGCAGGGCCGCTACCAGGGCATCCTGCGCAAGCTGCTGGCCAAGGACCCCACCGACCGTTTCCCCAACGCCGACGCCCTGATCGCGGCGCTGGACGGGCTGAACGCCAGCGTGCCGGTGGACGACAACCAGGCCACCCAGGTCCGCCCGGTCGATCTGTCCGCGCTTTCGGCAGCGGTACAGGCAGAGCCGGTCAGCGTGACGCCGGCGCTGGATACTGCCGTGCCGCATCCCACCGTGGCCGAGCTGCGTGTGCCGGACCCGGCGGCCAACCGCGACGACGGCCCGCGCAAACCCTGGATGGCGCTGCTCGCCCTGGTGCTGCTCGCCGTCGTGGTCGCGGGTGGCGTGGGTTACTGGCTCCTGCGTCCGGAGGCGCCGCCACAGCCGGACACCGCCCAGACCGACGGTATGCGCGAGCCCGTGACGGACACAGATCGCGAGACCCCGGATCGAACGGTCGACGAGACGCAGGCGCCGGGGGACGTCGCCGTGGTCGGCGATGGCGGCGATCGGCCGCTGCTCATGGCCGGGAAGAAGACCCTGTTCCAGCGTGTGTTGAGCAAGCCCGAGGCGCGCTTCGCCCGCGAGCCCGGTGCGCCGGCCGAGGGCGCAGAAATCCCGGCGTTCTCGGTGTTCTACGTCTATCGGCGCCAGGAGGTCGATGGCCGCCCGTGGGTCGAGGTCGGCGCTTCCAGCGACGGTCAGCGCGACGGCTGGCTGCCGACCGAACAGGTCAGCGACTGGAAACAGAGCCTGGTGTTGAGGTTCACCGAACGCTCCGGCCGCTCGCCGGTGATGTTCCTGCAGGACGTTGCCGCAGTGGAACGCCTGCTCGCCGATCCGGCGCAGGCGCGCGACACCCTGCACAAGGCGCGTTTCGAACAGGCCGATCCGCAGATCGTGGCGCTGGAGCCCGGCGATACGGCCGTTCCCCATGAGGCCTTCTACCTGCTGCCGATCTTCGAGTCGCGGGAGAGCTTCGACGCCAGCGGCCAGCCCGTGCAATTGCTCAACGTGGCCTCCATCGATCCCGGTGACACACCGCAGGTCCGGGGCGGGGACCGTGCGCCGGTAGCCGCCAGCGGCAGCTTCCGTACCGGCATCGTGCTGGTGGTGGATACCTCGGTTTCGATGCAGCCCTACATCGACCGGGTCAATCGGGTGGTGCAGGGCTTGCAGCAACAGATCGCCAGCCAGGGCGACCTGGATAACGTGAGCTTCGGGCTGGTCGGTTTCCGCAGCAACGTGGAAAAGACGCCGGGACTGGAATATGTGGCGAAGACGCTGGTCACTCTGGAAGAGGGACGCAATCCCCAGCGTTTCGCCGAGCTGGCCAGCCAGGTGAAGGCCACCGACGTCTCCAGCCATGCCTTCAACGAAGATGCCTTCGCCGGCGTGATGGAGGCAGTGGAGAACATGGACTGGACGCCCTACGCCGGACGCATGATTCTGCTGATCACCGACGCCGGCGCCCTGCGCAAGAACGACCCGCTGGGCCGCACCCAGATGAACGAGGCGGAAGTGCGCGAAGCCGCCCAGGCCAAGCAGATCCGTATCTTCGCCCTGCACTTGCGTACCCCGGCCGGGCGCAACAACCACGGTTTCGCCGAGCAGCAGTACCGCAGCCTGACCGCCGACCCCAACCCGCAGATCGCCGACCTCTACGTGCCGGTGGCGGATGGCGGCGTGGACCGCTTCGGCGATACCGTCGCCGAGATCGGCTCGGTGATCGCCAACCTCGTCCATGAGGCCGGCAATGACCGGTTACCCAGCCCGCCACCGCTGCATGACGGAGCCAGCGTCGCGGCCAAGACCACCGCCGTGGGCTACGCCATGCACATGGACTTCCTCGGCCGCCGCTCCGCCACCCGTGCGCCGCAACTGGTCACCGCCTGGACCGCCGACCGCGACCTGACGAATCCGTCGCTGCCGGCCTTCCAGGTCTGCGTGCTGTTGAGCAAGCTGCAACTCAACGAGCTGCAGCAATCGCTGAAGCTGATCGTCGAAGCCGCACGCCGCACCCAGACCTCGCCGAAGGACTTCTTCCAGGAGATCGCCAGCGCCAGCGCCCACATGAGCCGCGACCCGACCCGGCTGACCCGTGGCAGCAACCTGCTGCAGAGCGGTGTGCTCGGCGAATACCTGGAAGGGCTGCCGTACCGCAGCAAGTCGCTGAACATGACCCAGGAACTCTGGCTCTCGCTCAGCGTGGCGGAGCAGGAAGACTTCATCGATGAGCTGGAGTCGAAGATTCGCCTGTACGAAACCTTCCACAACGACATCGCCAACTGGGTGCGTTTCGGCGATGCCCAGCCCGGCGATGCGCTGTACCGCGTGCCGCTGGCGACGCTGCCGTGA	MDIEIPGYQIERELGDGAMATVYLATQRSLERKVALKVMAAALAADPSFCERFLREGKTLARLSHPHTVTIHDIGNVGHHYYMAMEYLPNGTLKDRIAEGVSPEQGILWLRQIASALGYAHAQGLVHRDVKPANILFRANGSAVLSDFGIAKSLEDRTQFTQAGFAVGTPSYMSPEQARGQQVDGRADLYALGVVLYEILTGKLPYSGSDSLSTALAHLTEPLPELPIEQGRYQGILRKLLAKDPTDRFPNADALIAALDGLNASVPVDDNQATQVRPVDLSALSAAVQAEPVSVTPALDTAVPHPTVAELRVPDPAANRDDGPRKPWMALLALVLLAVVVAGGVGYWLLRPEAPPQPDTAQTDGMREPVTDTDRETPDRTVDETQAPGDVAVVGDGGDRPLLMAGKKTLFQRVLSKPEARFAREPGAPAEGAEIPAFSVFYVYRRQEVDGRPWVEVGASSDGQRDGWLPTEQVSDWKQSLVLRFTERSGRSPVMFLQDVAAVERLLADPAQARDTLHKARFEQADPQIVALEPGDTAVPHEAFYLLPIFESRESFDASGQPVQLLNVASIDPGDTPQVRGGDRAPVAASGSFRTGIVLVVDTSVSMQPYIDRVNRVVQGLQQQIASQGDLDNVSFGLVGFRSNVEKTPGLEYVAKTLVTLEEGRNPQRFAELASQVKATDVSSHAFNEDAFAGVMEAVENMDWTPYAGRMILLITDAGALRKNDPLGRTQMNEAEVREAAQAKQIRIFALHLRTPAGRNNHGFAEQQYRSLTADPNPQIADLYVPVADGGVDRFGDTVAEIGSVIANLVHEAGNDRLPSPPPLHDGASVAAKTTAVGYAMHMDFLGRRSATRAPQLVTAWTADRDLTNPSLPAFQVCVLLSKLQLNELQQSLKLIVEAARRTQTSPKDFFQEIASASAHMSRDPTRLTRGSNLLQSGVLGEYLEGLPYRSKSLNMTQELWLSLSVAEQEDFIDELESKIRLYETFHNDIANWVRFGDAQPGDALYRVPLATLP	PGPT0025905_30	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_REGULATION,PGPT0025905-ppkA-K11912	NA	NA
BMS010_02279	729	prpC_1	COG0631	Protein phosphatase PrpC	ATGGTCCCGATATCCATCGATCATTACGAATCCGCCAGCCACACCCATGTCGGCATGGTGCGTCAGGTCAACGAAGATGCCTGCCTGGACGCAACGGACGCCGGCCTGTGGGTGGTGGCCGATGGCATGGGCGGCCACGCGGCCGGCGATTTCGTCAGCAGCCTGATTGTCGACACCCTGCGCGGCATTCCGCCGGAGCCGGATCTGGAAGGCTACGTCCAGGCCCTGCGGGTCGCCCTGGAGCAGATCAACGCAGCGGTGCGCGATGAGGCTGTGCGACGCGGCGTGAGCATGATGGGCAGCACCCTGGTCCTGCTCGTCGCCCGAGGTTCCCGCGCCATCTGCCTGTGGGCCGGCGACAGCCGCATGTACCGCCTGCGTGGCGGCCAGTTGGAGGCCATCACCCACGACCACAGCTACGTCCAGGAACTGGTGGACAGCACCCTGCTCAGCGAAGCCGAGGCCCGCAGCCATCCGCTGGCCAACATCGTCACCCGGGCGGTGGGCGCCCAGGAGCAACTGGATCTGGCCAGCGTCGAGCTGGATGTGTTGCCCGAAGACTGCTTCCTGCTGTGCAGCGACGGCTTGAACAAGACCGTCGAGGATGACGAGCTGCGCGAAGTGCTGGGCTACGCAGCGCCCTACGAAATGGTTCGCAGCCTGGTCCACCTGGGGTTGACCCGGGGGGCGCCGGACAACATCACGGCGGTGGTCGTCAAGGCCTGTTGA	MVPISIDHYESASHTHVGMVRQVNEDACLDATDAGLWVVADGMGGHAAGDFVSSLIVDTLRGIPPEPDLEGYVQALRVALEQINAAVRDEAVRRGVSMMGSTLVLLVARGSRAICLWAGDSRMYRLRGGQLEAITHDHSYVQELVDSTLLSEAEARSHPLANIVTRAVGAQEQLDLASVELDVLPEDCFLLCSDGLNKTVEDDELREVLGYAAPYEMVRSLVHLGLTRGAPDNITAVVVKAC	PGPT0002605_36	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_REGULATION,PGPT0002605-stp1|pppA-K11915	NA	NA
BMS010_02280	696			hypothetical protein	ATGACGACACCCGGTTTCTACGGAAAGCTGGCCGGTCGTGGCGACTTCATGCACCGCGACCTGCCACCGACCTTCATCGAAGCCTGGGACGCCTGGCTGGCGGCGGGCATGGCGGCGAGCCAGGCGGAACTCGGCGCTGGCTGGCTGGACGCCTATCTGGTCAGTCCGCTGTGGCGTTTCGCCGTGGCACCGGGCCTGCTCGGCGGCGAGGCGGTGACCGGCGTGATGATGCCCAGCATCGACCGGGTCGGACGCTACTTTCCGCTGACCATCGCCGTGCTGCTGCCGGCGGACAGCGACCTGGCGGCCCTGGTGAGCGGGCCGGACGACTGGTACGAACGGGCCGAGGCGCTGTTGCTCTCGACCTTGGGCGACGAAGCCGATGTCGAGGCGTTCGAGGCGGCGGTGACGCGCCTCGGCACGCCGCCCTGTGCTGCCGGGCCTGCCTGGCGGGAAGGGCGGGACGGTCATTGGCAGGTCGCCGCCACCACGCCCCAGGCGCGTGGCGCCGCGCTGGGCCAACTGGCCTGCGAGGGCGTGAGTTTCTGGTGGGGCAAGGGGTCCGAGCGGGTACCCGCAGGCCTGCTGCGCTATCGAGGCTTGCCGGGTCCGCAGGGTTTCGTGGGGTTTCTGGTGGGAGAGGGCGGCCAGCCGTCCGTCCCGGAAAGCATTCAGTCCGAGTTTGGAATCCTTTGA	MTTPGFYGKLAGRGDFMHRDLPPTFIEAWDAWLAAGMAASQAELGAGWLDAYLVSPLWRFAVAPGLLGGEAVTGVMMPSIDRVGRYFPLTIAVLLPADSDLAALVSGPDDWYERAEALLLSTLGDEADVEAFEAAVTRLGTPPCAAGPAWREGRDGHWQVAATTPQARGAALGQLACEGVSFWWGKGSERVPAGLLRYRGLPGPQGFVGFLVGEGGQPSVPESIQSEFGIL	PGPT0025965_511	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025965-impM-K11890	NA	NA
BMS010_02281	3510			hypothetical protein	GTGAAGGCGTTCTTCAATTTCTTCGTTCGCTGGGTGGTGCCGGTACTCGGCCTGATCGCCCTCAGCCTGGTCATCTGGTTCCTCGGCCCGCTGATCGCCTTCGGCGAGTACGAACCCCTGGCCTCGGCCACGGCTCGCTGGGTACTGATCGCCCTGGTGTTCGCGATCTGGATCGGTTTTCGCGTGTTGCGCGTCATCCAGGCGCGGCGCAACGCGGCGAAAGTCATGCAGGGCCTGGTGGCGGTGGCGCCGGACGCGACCAGCGTCGCCACCGCCGAAGAACTGGCGACCCTCAAGCAGCGCATGGACGAGGCGCTGGCCCTGCTCAAGCGGGCCAAGCTGGGCGGCAACGAACGGCGCAACCTCTATGAGCTGCCCTGGTACGTCATCATCGGCCCGCCGGGTTCGGGCAAGACCACCGCGCTGATCAACTCCGGGCTGAACTTCCCGCTGGCGGCGCAGATGGGCAGCGGCGCCATCCGTGGGGTCGGGGGCACGCGCAACTGCGACTGGTGGTTCACCGACGAAGCCGTGCTTCTCGACACCGCCGGCCGCTACACCACCCAGGACAGTCATGCGGCTGTGGACAAGGCGGCCTGGCTGGGCTTCCTCGATCTGTTGCGTAACCAACGCAAGCGTCGGCCCATCGATGGCGCTTTCATTGCCATCAGCCTGTCCGACTTGCTGCTCGGCAGCGACGCGGAGCGCGCCGCCCACGCCCAGGCTATCCGTGCCCGGGTGCAGGAGCTGTATACCCAGCTCGGGGTGCGCTTTCCGATCTACGTCATGCTCACCAAGCTCGACCTGGTGCCGGGCTTCATGGAGTTCTTCGACAACCTGAACAAGGAAGACCGCGCCCAGGTCTGGGGCACCACCTTCGCCCTCGATGACGGCAAGAGTGCGCAAGGTCCCCTGGCGACCTTCCCGGCGGAGTTCGCCGCCCTCGAACAGCGCCTCACCGAACGCCTGGTGGAACGCCTTCAACAGGAGCGCGACCCGGCGCGGCGCGACCTGATCTATGGCTTCCCGCAGCAGTTCGCGGCGATCCGCGACAACCTGACCAGCTTCCTCGACGCGGTGTTCAAGCCGAACCCTTACGAGGAGCGGCCACTGTTGCGCGGCGTGTACTTCACCAGCGGCACCCAGGAAGGCAGTCCGATTGACCGGCTGATCGGTGCCATGGCGCAGAGCATGAACCTCGACCGCCAGCACCTGGCACGGCAGACCGGCACCGGGCGCAGCTATTTCATCGAGCGGCTGTTCCGCGACGTGGCGTTCGGGGAGCGCGGGCTGGTCGGCACCAACCCGAAGGTGGAGCGCCGGCGCAAGTGGATCACACGCGGCGCGTTGGCGGCGACGGCGGTGCTGTTCCTTGGCGTCTGCCTGGTGTGGATCGCCAGCTACCGGGCCAACCAGAACTACATCGCGGCAGTCGATGGACGGGTCCAGCCACTCAAGGATCAGGTCGAAGCCATCAGCCCGGCTCAACGCGACGTACTGGCGGTGCTGCCGGTACTCAATGCGATCCGCAACGTGGCTGCCAATCCGCCGTCCTGGGCGGAGGGCTATGGCCTGTTCCAGGGCGACATGCTCGGCGCCGAGGCCAGCAGCGTCTACCGCAAGCTGCTGATTGCGGTACTCGCGCCGCGCCTGCTCACTCGCATCGAGGAGCAATTGCGCAACGGCGGCAATTCCGACTTCCTCTACGAAGGGCTGAAGGCCTACCTGATGCTGGCCAGCGCCGAGCATTACGACCCGGACTTCATCAAGGCCTGGATCAACCTCGACTGGGACCACAGCCTGCCCCGCGATCTCGCGCCCGGGCAGCGCCAGGCCCTGGGCGAGCATCTGGATGCGTTGTTCGAGCGCAAGCCGCCGCCGGCCCGCCTGGACGAGGCGCTGATCGCCGACCTGCGGCGGCAGTTGCAGCAGATGTCGGTGGCCCAGCGGGTCTACAACCGGGTGAAGCGGCAGAAACTGCCGGAAGGCGTGAAGGACTTCCGCATCAGCGAAGCCGCCGGCCGCGATGCGCCGTTGGTGTTCGCGCGCAAGAGCGGGCGGCCGCTGAACGATCCGCTGAACGGCTTCTTCACCCAGCGCGGCTACCGTGAAGGGTTCCTGGCTGCCAGCCTGACTCAATCCGGAGCCCTGGCCGAAGAGCAGTGGGTGCTCGGCCGCACCCTGGAGGATAACCAGGACGTCGCCAGCCTGGCGGTGGACGTACGCCAGTTGTACTTCCAGGACTATCTGAACCACTGGGAAGCCTTGCTCGCCGACCTGGATTTCGTGCCCATCACCAACGTGGCCCAGGCCGCCGACGTGTTGCGGGTGCTCTCCGGGCCGAACTCGCCGCTGAAAAAGCTGCTCGTGGCGGTGGCTAAGGAAACCGACCTGCAACAGGAGGAACGCCTGCTGGCCCAAAAAGCCAAAGAGGGCGGTACCGTGGACAAGCTCAAGCAGCAGCTCGGCTCGCTGGTGGGGCAGTCCGGCGCCGGCGATAACCGCCCGGCAACGGTGGAAGACCCGATCAGCGCGCGCTTCGCCGAGCTGAACAGCCTGGTGGCGAAAGAGGGGGACGAGCAGGCGCCGATCGACAGCCTGCTGGCCGACCTCAACGAACTCTACGTACAGGTCAGCGGCATGAGCGGTGCCAGCGGCGAGGCACTGCTCGGCGAGGCGAAGAACCAGGCGTCGGCCGCCGCGAACCGGGTCGCCCTCAACGCCGAGCGCCAGCCGCCGGTGGTGCAGAATCTGGTGAAGTCCGTGGTCAGCGCCACAACCAACAGCATGATGGGCGGCATTCGCAACCAACTGAACGCTGCCTGGCTCAGCGAAGTGGTGAGCGTCTACCGGCAGTCCCTGGCCGGCCGCTACCCGCTCGACCGGAGCAGCAGCCGCGACGCGACCCTGGAGGATTTCGGCCACTTCTTCGGCGTCGGCGGTGTGCTCGACAGCTACTTCCGCAAGTACCTGCAACCCTACGTCGACACCTCCGCCAGCACCTGGCGCTGGCAGCCGGGCGCGGCGGAGAAGCTCGGCATCGGCTCCGGCGTGCTGCAGACCTTCCAACGCGCGGCGAACATCCGCGATGCCTTCTTCCGGGCGGGCGGCACCCAGCCGACGGTGCGCTTCGAACTCAAGCCGGTGACCATGGACGCCTCGGTCAACCAGTTCATGCTCGACCTGGATGGTCAGCAGCTCAGCTACGACCACGGGCCGAGCCGGCCGGTGGCGATGCAATGGCCCAGCCCCAATGCCTTGGGCATGGTCCGCGTCTCCGTCACGCCGCCCACCAGCAGCGGGCGTTCGGGGATGACCGTGGAAGGTCCCTGGGCCTGGTTCCGTCTGCTGGAACAGTCCGACCTGACCCAGGGCAGCTCGCCGGATCGTTTCACCCTGCGCATGCGTGTCGACAACGCCAGCATTTCCTACGAGCTGCGCGCCAGCAGCGCGTTCAACCCGTTCCGTAGCCGTGTGGTGTCCGGCTTCAGTTTGCCGGAGCGCCTATGA	MKAFFNFFVRWVVPVLGLIALSLVIWFLGPLIAFGEYEPLASATARWVLIALVFAIWIGFRVLRVIQARRNAAKVMQGLVAVAPDATSVATAEELATLKQRMDEALALLKRAKLGGNERRNLYELPWYVIIGPPGSGKTTALINSGLNFPLAAQMGSGAIRGVGGTRNCDWWFTDEAVLLDTAGRYTTQDSHAAVDKAAWLGFLDLLRNQRKRRPIDGAFIAISLSDLLLGSDAERAAHAQAIRARVQELYTQLGVRFPIYVMLTKLDLVPGFMEFFDNLNKEDRAQVWGTTFALDDGKSAQGPLATFPAEFAALEQRLTERLVERLQQERDPARRDLIYGFPQQFAAIRDNLTSFLDAVFKPNPYEERPLLRGVYFTSGTQEGSPIDRLIGAMAQSMNLDRQHLARQTGTGRSYFIERLFRDVAFGERGLVGTNPKVERRRKWITRGALAATAVLFLGVCLVWIASYRANQNYIAAVDGRVQPLKDQVEAISPAQRDVLAVLPVLNAIRNVAANPPSWAEGYGLFQGDMLGAEASSVYRKLLIAVLAPRLLTRIEEQLRNGGNSDFLYEGLKAYLMLASAEHYDPDFIKAWINLDWDHSLPRDLAPGQRQALGEHLDALFERKPPPARLDEALIADLRRQLQQMSVAQRVYNRVKRQKLPEGVKDFRISEAAGRDAPLVFARKSGRPLNDPLNGFFTQRGYREGFLAASLTQSGALAEEQWVLGRTLEDNQDVASLAVDVRQLYFQDYLNHWEALLADLDFVPITNVAQAADVLRVLSGPNSPLKKLLVAVAKETDLQQEERLLAQKAKEGGTVDKLKQQLGSLVGQSGAGDNRPATVEDPISARFAELNSLVAKEGDEQAPIDSLLADLNELYVQVSGMSGASGEALLGEAKNQASAAANRVALNAERQPPVVQNLVKSVVSATTNSMMGGIRNQLNAAWLSEVVSVYRQSLAGRYPLDRSSSRDATLEDFGHFFGVGGVLDSYFRKYLQPYVDTSASTWRWQPGAAEKLGIGSGVLQTFQRAANIRDAFFRAGGTQPTVRFELKPVTMDASVNQFMLDLDGQQLSYDHGPSRPVAMQWPSPNALGMVRVSVTPPTSSGRSGMTVEGPWAWFRLLEQSDLTQGSSPDRFTLRMRVDNASISYELRASSAFNPFRSRVVSGFSLPERL	PGPT0025960_1132	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025960-impL|vasK|icmF-K11891	NA	NA
BMS010_02282	1356	ompA_2		Outer membrane protein A	ATGCATCCGATAGAAGACCCTTTCGGCGGAGCGCCTGTCGGCAGCGGTTCCGGGGGTGCCAGCGACCGCACCATGATCATGCCCCGGCCCGGCGGACGAGGCCCCGACCCACAGCCGGCTCGCCCGGATGCCGGCCAGGCCGCCGGGCCTGCTCCGCAGATGCCCAGTGCGCCGCTGACCCATATCCGTGGCCAGGGCCTCAACCCGCTGGAGCGTGCGTCCGGCCCGTTGCTGGCCTTGCTGACCCGCTTGCGCAGGACGCTGTCCCACCCGATGCCCGCCAGCCTGCGGGCCCAGTTGCTGGCCTACCTGCGGCAGTTCGAGGAGCAGGCCCGCGAGGCGGGCGTGCCGCAGGACGAAGTGATGCTCAGCCGTTACGTGCTTTGCACCGCATTGGACGAGGCCGTGCTCAGCACGCCATGGGGCAGCAGCAGCGAGTGGGGCAAGCAAAGCCTGCTGATCACCTTGCACAACGAGGCCTGGGGTGGCGAGAAGGTCTTCCAGTTGCTCGACCATTGCCTGCAGAACCCCCGCCAGCGCTTGCATCTGCTGGAGTTGCTGTATCTGTGCCTGTGCCTGGGCTTCGAAGGCCGCTACCGGGTGATGAACGACGGCCGCAGCCAGCTCGAAGCGCTGCGTGAGCGCACCGGGGCGACGATCCGCACCGTGCGTGGCGAGATCGAGCGCGAGCTGTCGCCGCACTGGCGCGGACTGACGGTGGTCCGCGACCGCCTCACCCAGTACCTGCCGCCCTGGGTCGGGTTTGCCGTCTGCGCCGCTTTGCTGCTGTTGCTCCTGCTCGGCCTGCGCCTGAAGCTGGCCTCGGATGCCGAGCCGGTGTTCAAGAATATCCATGCCCTGGGCGAAATCCCGGTGCAGACCATCGACCGCCCGCCGGTGCAGCCCAAGCTGATCGAACGGCCACGCCTGGCGCGCTTCCTCGCCGAGGACATCAAGGCTCAGCGGGTCGCCGTGGAGGACGCCGTGGACCGCTCGGTGGTGACCATTCGCGGCGACGAGCTGTTCGCTTCCGGCAGCGCGTCGATCTCCGACGAGCTGCAACCCTTGCTGCTGCGCATCGCCGACGCCATCCGCAAGGTCAACGGCGAAGTACTGGTGGCCGGCCACAGCGACAACCGGCCGATCAAGACCTTGCGCTACCCGTCGAACTGGAAGCTTTCCCAGGACCGTGCCCAGCAGGTGCTCGACATCCTCGCCGCGCGTACCGGCCAGCCCGCGCGCTTCACCGCCGAAGGGCGCAGCGACACCGAGCCGGTGGCATCCAACGACACCAGCGAAGGACGGGCGCGTAACCGTCGGGTCGAAATCACGGTTTTCGCGGAGGGTGCGCAGTGA	MHPIEDPFGGAPVGSGSGGASDRTMIMPRPGGRGPDPQPARPDAGQAAGPAPQMPSAPLTHIRGQGLNPLERASGPLLALLTRLRRTLSHPMPASLRAQLLAYLRQFEEQAREAGVPQDEVMLSRYVLCTALDEAVLSTPWGSSSEWGKQSLLITLHNEAWGGEKVFQLLDHCLQNPRQRLHLLELLYLCLCLGFEGRYRVMNDGRSQLEALRERTGATIRTVRGEIERELSPHWRGLTVVRDRLTQYLPPWVGFAVCAALLLLLLLGLRLKLASDAEPVFKNIHALGEIPVQTIDRPPVQPKLIERPRLARFLAEDIKAQRVAVEDAVDRSVVTIRGDELFASGSASISDELQPLLLRIADAIRKVNGEVLVAGHSDNRPIKTLRYPSNWKLSQDRAQQVLDILAARTGQPARFTAEGRSDTEPVASNDTSEGRARNRRVEITVFAEGAQ	PGPT0025955_167	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025955-impK|ompA|vasF|dotU-K11892	NA	NA
BMS010_02283	1335			hypothetical protein	ATGTCCTGGAATAACCGAGTGGTGTGGTCCGAGGGAATGTTTCTCCGGCCCCAACACTTTCAGCAACACGATCGTTTCATGGAAACCCTGCTCGACGGCCGTTGCCGCAGCCTGATCGCCGGCGGCTGGGGCTTCTCCGAGCTGCGCATCGACGACGCCCTGCTGACCCAGGGCAAGCTGGCCATCGTGTCCGCCCGCGGCGTGCTGCCCGACGGCACGCCGTTCCACATTCCCGGCGACGATCCGGCGCCGCCGCCGCTGGCTGTCGACGACAACCTGCGCGATGGGCTGGTCTACCTGGCCCTGCCGCTCAAGCGCGCCGGGACCCGCGACACGGCGGGCGAGGGCGAGCCGCTGGGTGGCGCGCGCTATGTGAGCCAGGTCCGCGAGGTACGTGACGACAACGCACCGTTCGAGAGCCGCGCACCGGTAGCGGTGGGTTCCCGTGCCTTCCGCCTGCTCACCGAGCGGGATGGCCTCGGCGAATACGCCTGCGTGGGCGTGGTGCGGGTGGTGGAGAAGCGCAACGACGGAGCTTTGCAACTGGACGAAACCTACATTCCGCCGTTGCTGGACGTCGCCGCGTCGCACACCTTGTCCGGCTTTCGCAGTGAGCTACAGGGACTACTGCACCAACGCGGCGAGGCGCTGGCCGGACGGGTGGTGGCCTCGGGGGCCGGTGGTGCCTCGGAAATCGCCGACTTCCTCCTGCTGCAACTGGTCAACCGCGCCGAGCCCTTGCTCGCCCATCTGGCCCGGCTCAGCCCGTTGCACCCGGAATCCTTGTACCGCGAGCTGGTTGCTCTGGCCGGGGAGTTCTGTACCTTTTCTTCCAATGCGCGCCGGCCGGCCGACTATCCGGCTTACCAGCACGACGATCTCGACGCCACCTTCGCCCCGGTGATGCTCGCCTTGCGCCAGGCTTTGTCGATGGTGATCGACAGCCGCGCCATCCCGATTCCCATCATCGAGAAATCCTACGGCGTACATGTGGCGATGCTGCCGGACCGAACGCTCATCGACGCCGCCAGCTTCGTCTTGGTGGTGCGTGCCGATGTGCCAGCCGAGCACCTGCGCAGCCTGTTCCCGCAGCAGGCGAAAGTGGGGTCGGTGGAGCACATCCGCGACCTGGTCAACCTGCAACTGCCGGGCATCGCGCTGCTGCCGATGCCCGTCGCGCCCAGGCAGATTCCCTATCACGCCGGCTCCACCTACTTCGAACTGGATCGCGGTAGCGACCACTGGAAGCAACTGACCCATTCGGGTGGTTTCGCCTTCCACGTCGCCGGCCAGTTCCCCGGCCTGAACCTGGCCTTCTGGGCCATTCGAGGATAA	MSWNNRVVWSEGMFLRPQHFQQHDRFMETLLDGRCRSLIAGGWGFSELRIDDALLTQGKLAIVSARGVLPDGTPFHIPGDDPAPPPLAVDDNLRDGLVYLALPLKRAGTRDTAGEGEPLGGARYVSQVREVRDDNAPFESRAPVAVGSRAFRLLTERDGLGEYACVGVVRVVEKRNDGALQLDETYIPPLLDVAASHTLSGFRSELQGLLHQRGEALAGRVVASGAGGASEIADFLLLQLVNRAEPLLAHLARLSPLHPESLYRELVALAGEFCTFSSNARRPADYPAYQHDDLDATFAPVMLALRQALSMVIDSRAIPIPIIEKSYGVHVAMLPDRTLIDAASFVLVVRADVPAEHLRSLFPQQAKVGSVEHIRDLVNLQLPGIALLPMPVAPRQIPYHAGSTYFELDRGSDHWKQLTHSGGFAFHVAGQFPGLNLAFWAIRG	PGPT0025950_1216	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025950-impJ|vasE-K11893	NA	NA
BMS010_02284	459			hypothetical protein	ATGCCAAGGACATTATGGATAACAGTGGCTGCGTTATTACTGGCCGCTTGTGCATCCGAACCTCCACCGACCCGGGTCCTGCTGCAGTTCCAGGCCTCCGCTGATCTCAACCCCTCCGCCAGTGGGCAGGCGGCACCCGTCCGTGTCCGGCTCTACGAATTGAAGAGTGGCGCCGCGTTCAGCCGGGCCGACTATTTCTCCCTGGTCGAGTCCCCCCAGGCCACGCTCGCGGCCGACCTGATCGAGCAGGATGAACTGCTGATCCAGCCGGGCGACCGCCAGGAACTGGAACGGACCCTCGATGCCTCGACCCGCCTGCTCGGCATCGTGGTCGCCTACCGCGACCTGGACAGCGCCGTGTGGCGGCAGCTCGTCAGCATACCGGCCAACGAGGAGAGCCGGTTCGACATCACCCTCGGGGCCCGCGTCGTGAGCGCCATGCCCGCGGAAGAGAAATAG	MPRTLWITVAALLLAACASEPPPTRVLLQFQASADLNPSASGQAAPVRVRLYELKSGAAFSRADYFSLVESPQATLAADLIEQDELLIQPGDRQELERTLDASTRLLGIVVAYRDLDSAVWRQLVSIPANEESRFDITLGARVVSAMPAEEK	PGPT0030425_1052	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0030425-vasD|lip-K11906	NA	NA
BMS010_02285	1434			hypothetical protein	ATGCCGCTGCGTTTGACCATCACCAGTTATCACAAACTCACACCGGGACAGTGTGCGGAAATGACGCTCGATCAAGGCGAGCTGAGGATAGGGCGGGGCACGGATAACGACTGGGTGCTGCCCGATCCGGAGCGTCTGGTGTCGAGCCAGCACTGCACCATCCAGTTCCGCGACGGGACCTACTACCTGACCGATACCAGCACCAACGGAGTGCTGCTGGTGAGTTCGGGGGTTCGCATGCGGCGCGGCAACAGCGAACCGCTGCAGGACCGCGAGGTGCTGCGCCTGGGCGAATACGAGATCCTGGTGCAGCTCGAGGCCATGAGCCCCGGCGTGGTGACGGCCGACCCCTTCACCAGTTTCGATGCCCTCATGAGCCGGCAGACCGGCGCATCGGAAATCGCCCCGGCCGTCCAGCCGGCGACCCCCAGCGTGCCGATCAGCGCGCATTTCCAGGGGCGCTCATCCCTCGATACCAAGCCCGACCTGTTCGATTTCCTCGCCGCGCCGGCGGTGCCGCCAGCCCCTCGGCCGGACCACGTCCCCGCCGACCGGCATGACTTCCGGCCGCCGGAGCCCGTGCTGCCGGAGCCGGCCATTCCTGAGACGTCCTCGCCGCAGCCGGCGATTCCCATGGATTGGGACCCGTTCGCCGACCTGAGCACGCCCGCATCGGGCACTGCCGTGCCGTCGCTCCCACCAGTCGAGCCGGCTCCACCGGTCATGCCGAGCGAGCCTGTCGCGGAAACGCCAATCGTCCCCGAGCCTGAGCCGAGCCGGATGCCGCCGCCGAAACCGACGCCGGTACCGCCGCGCGCCGAGCGGAGCGGCGCTCCGGCCGGCCACAGCGAAGCCCTGGAAGCCTTCCTGCGGGGCGCCGGTATGGATCAGGTGAACGTCGACCGCGACGAGGCGGCTGCGCAGATGGAGGCCATCGGCCGCAGTTATCGGCTCATGGTGGAAGGGTTGCTGGATGTGCTGCGTGCCCGTAGCAGCCTGAAGGGCGAGTTCCGCATGTCCCAGACCATGATCCGCCCGGTGGAGAACAATCCGCTGAAATTCGCGCCCAATGCCGACGAGGCCATGCTGCTGTTGCTGCGGCATGGCAACCAGGCCTTCATGGCACCGGACCGGGCCATCGCGGAAAGTTTCGAGGACCTCAAGGCTCACCAACTGGCTGTCATGGCCGGTGTACAAGCGGCCATCAAACATTTGTTGAAGCGATTCGAACCGGCAGAACTCGAAGCGCGCCTGAGTAAACCTTCCGGACTTGCTGGCTTATTGCCGGGAGGTCGACAGGCGCAATACTGGGCGTTGTTCACCGAACTCTATGCCAATATTTCGAAGGAGGCCGAAGACGATTTTCAGGATCTGTTCGGACGCGAATTCAGTCGCGCCTACGAAGAACAAAGTCTCAGGCTAAGACGCAATTAA	MPLRLTITSYHKLTPGQCAEMTLDQGELRIGRGTDNDWVLPDPERLVSSQHCTIQFRDGTYYLTDTSTNGVLLVSSGVRMRRGNSEPLQDREVLRLGEYEILVQLEAMSPGVVTADPFTSFDALMSRQTGASEIAPAVQPATPSVPISAHFQGRSSLDTKPDLFDFLAAPAVPPAPRPDHVPADRHDFRPPEPVLPEPAIPETSSPQPAIPMDWDPFADLSTPASGTAVPSLPPVEPAPPVMPSEPVAETPIVPEPEPSRMPPPKPTPVPPRAERSGAPAGHSEALEAFLRGAGMDQVNVDRDEAAAQMEAIGRSYRLMVEGLLDVLRARSSLKGEFRMSQTMIRPVENNPLKFAPNADEAMLLLLRHGNQAFMAPDRAIAESFEDLKAHQLAVMAGVQAAIKHLLKRFEPAELEARLSKPSGLAGLLPGGRQAQYWALFTELYANISKEAEDDFQDLFGREFSRAYEEQSLRLRRN	PGPT0030440_76	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0030440-fha1-K11913	NA	NA
BMS010_02286	1032			hypothetical protein	GTGGTGGACTTACCACTGTTGATTACGGCTGTCAGCGCAGACTCGCCCTGTGGCGACGACCTGGAATACGATGCCTCCTTTCTCGAGCTGGAGCGTGCCGCACAGGGCTTGCCCGAGCGGCAGATGGGTGATGCCGTACTGGCCGCCGAGCCCCCCGAGTGGCGCAAGGTCCGCGACCTGGCCACGAGCCTGTTCGGGCGCAGCAAGGACCTGCGCATCGCCAACTACCTGGTGCAAAGCACCGTCGCCCTGGATGGTCTCCCCGGCCTGAGCCAAGGCCTCGCTCTGGTTCGCGAACTGCTCGAACGCTACTGGGACGGCCTCCATCCCCGCCTGGACAGCGAAGACGACAACGATCCCACCTTCCGCCTCAATGCCCTGCGCGGGCTGATCGACGAAACCCTGCTGCAACTGCTTCGCGATGCGCCCCTTGTGCGCTCGCGCGCCTTCGGCACGGTCAGCCTGAGAGCGGCGCTGAACGCGTCGGGGTTGCAGCGTTTCGCCTCGGAGACGTTGAACCTGGAACAGGTCTCCGGCGCCTTCCAGAACAGCGAAGCCGAGGAACTGGAAAGCACCCGGGCGGCGCTCGCCGAAGCCCAGACCCACCTGGCCGCCATCGAAAGCGAAGTGAGCAACCGCGTCGATGCGGCCGAAGGCATCGACCTCGCGCCGCTCAAGCAGTTGCTCCGCCTGGCATTGCAGTTGATCAACGAGCACGCACCGCACGTCAATGGAGCACCGGTCGACATGCCCGCAGCAGAATCCGCCGCGAACGATCCGCTGCCCCAGGGCGCCGGCAACGCTCCCGCAGCGCCTCGCGCATCGGCTGAAATCACCAGCCGGGAGGACGTGCTGAAGACCCTCGACCGCATCCTGGCGTACTACGCCACGCACGAACCCTCCAGCCCGGTGCCCGTCCTGTTGACCCGCGCCAAGACGCTGGTGACCGCCGATTTCGCCGCCATCGTGCGCAACCTGATCCCGGACGGCCTTTCGCAATTCGAAAACCTGCGAGGCCCCGGTTCCGAATAG	MVDLPLLITAVSADSPCGDDLEYDASFLELERAAQGLPERQMGDAVLAAEPPEWRKVRDLATSLFGRSKDLRIANYLVQSTVALDGLPGLSQGLALVRELLERYWDGLHPRLDSEDDNDPTFRLNALRGLIDETLLQLLRDAPLVRSRAFGTVSLRAALNASGLQRFASETLNLEQVSGAFQNSEAEELESTRAALAEAQTHLAAIESEVSNRVDAAEGIDLAPLKQLLRLALQLINEHAPHVNGAPVDMPAAESAANDPLPQGAGNAPAAPRASAEITSREDVLKTLDRILAYYATHEPSSPVPVLLTRAKTLVTADFAAIVRNLIPDGLSQFENLRGPGSE	PGPT0025910_746	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025910-impA-K11902	NA	NA
BMS010_02287	516			hypothetical protein	ATGGCTAGCACCAGCAGTCAGAAGTTCATCGCGCGAAATCGCGCACCCCGCGTCCAGATCGAGTACGACGTGGAACTCTACGGCGCGGAGAAGAAGGTCCAGCTGCCCTTCGTCATGGGCGTCATGGCCGATCTCGCCGGCAAGCCCGCCGAACCGTTGCCGGCGGTCGCCGACCGCAAGTTCCTGGAGATCGACGTCGACAACTTCGACTCCCGTCTCAAGGCCATGAAGCCGCGCGTGGCCTTCAACGTGCCGAACGCACTCACCGGCGAAGGCAACCTGAGCCTGGACATCACCTTCGAGAGCATGGACGACTTCAGCCCGGCGGCCATCGCCCGCAAGGTCGACTCGCTCAACCAGTTGCTCGAAGCCCGCACCCAGTTGGCCAACCTGCTGACGTACATGGACGGCAAGACCGGCGCCGAGGAAATGATCCTGAAAGCGATCAAGGACCCAGCGCTGCTGCAGGCACTCGCCAGCGCACCCAAGCCGACCGATTCCGAGCCGCAAGCGTAA	MASTSSQKFIARNRAPRVQIEYDVELYGAEKKVQLPFVMGVMADLAGKPAEPLPAVADRKFLEIDVDNFDSRLKAMKPRVAFNVPNALTGEGNLSLDITFESMDDFSPAAIARKVDSLNQLLEARTQLANLLTYMDGKTGAEEMILKAIKDPALLQALASAPKPTDSEPQA	PGPT0025915_571	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025915-impB-K11901	NA	NA
BMS010_02288	1497			hypothetical protein	ATGGCCGAACCGATGAGCAACGAAGCGCTGCAGCCCGAAGCCGCCACCGAGCAGACCAGCGAGTTCGCGAGCCTGCTGCTGCAGGAGTTCAAACCCAAGACCGAGCGTGCCCGCGAGGCGGTGGAAACCGCCGTGCGTACCCTGGCCGAACATGCGCTGTCGCGCACCGACCTGATCTCCAATGACGCGATCACCTCCATCGAATCGATCATCGCCGCGATCGACGCGAAGCTGACCGCCCAGGTCAACCTGATCCTGCACCACCCGGACTTCCAACAACTGGAAAGCGCCTGGCGCGGCCTGCATTACTTGGTGAACAACACCGAGACCGACGAGCAATTGAAAATCCGCGTGATGAGCATCTCCAAGAGCGAGCTGCACAAGACGCTGAAGAAATTCAAGGGCACCGCCTGGGACCAGAGCCCGATCTTCAAGAAGATGTACGAGGAAGAGTACGGCCAGTTCGGCGGCGAACCCTACGGCTGCCTGGTGGGCGACTACTACTTCGACCAGTCGCCCCCGGACGTGGAGCTGCTCGGCGAAATGTCGAAGATCTGCGCGGCCATGCACGCGCCCTTCATCGCCGCCGCCTCGCCCACGGTGATGGGCATGGGCTCCTGGCAGGAGCTGTCCAACCCGCGCGACCTGACCAAGATTTTCACCACGCCGGAATACGCGGCCTGGCGCTCTCTGCGCGAATCGGAAGACTCCCGCTACATCGGCCTGACCATGCCGCGCTTCCTCGCCCGCCTGCCCTACGGCGCGAAGACCGATCCGGTGGATGCCTTCGCCTTCGAGGAAGAAACCACCGGCGCGGACAGCGCCAAATACGCCTGGGCCAACTCGGCCTATGCGATGGCGGTCAACATCAACCGTTCCTTCAAACTCTATGGCTGGTGCTCGCGGATTCGCGGCGTGGAGTCCGGCGGCGAGGTGCCGAACCTGCCGACCCACACCTTCCCCACCGACGACGGCGGCGTGGACATGAAGTGCCCGACCGAGATCGCCATCTCCGACCGCCGTGAAGCGGAGCTGGCGAAGAACGGCTTCATGCCCCTGCTGCACAAGAAGAATACCGACCTGGCGGCCTTCATCGGTGCCCAGTCGCTGCAGAAACCGGCCGAATACGACGACCCGGACGCCACCGCCAACGCCAACCTGGCCGCGCGCCTGCCGTACCTGTTCGCCACCTGCCGCTTCGCGCATTACTTGAAGTGCATCGTTCGCGACAAGATCGGCTCGTTCAAGGAGAAGGACGACATGCAGCGCTGGCTGCAGGACTGGATTCTCAACTACGTGGACGGCGACCCGGCGCATTCCACCGAGACCACCAAGGCCCAGCACCCGCTGGCCGCGGCCGAGGTGGTGGTGGAAGAAGTCGAGGGCAACCCCGGTTACTACAACTCGAAGTTCTTCCTACGCCCGCATTACCAGTTGGAAGGGCTGACGGTATCGCTGCGCCTGGTATCCAAGCTGCCTTCGGCGAAGGCGGCCTGA	MAEPMSNEALQPEAATEQTSEFASLLLQEFKPKTERAREAVETAVRTLAEHALSRTDLISNDAITSIESIIAAIDAKLTAQVNLILHHPDFQQLESAWRGLHYLVNNTETDEQLKIRVMSISKSELHKTLKKFKGTAWDQSPIFKKMYEEEYGQFGGEPYGCLVGDYYFDQSPPDVELLGEMSKICAAMHAPFIAAASPTVMGMGSWQELSNPRDLTKIFTTPEYAAWRSLRESEDSRYIGLTMPRFLARLPYGAKTDPVDAFAFEEETTGADSAKYAWANSAYAMAVNINRSFKLYGWCSRIRGVESGGEVPNLPTHTFPTDDGGVDMKCPTEIAISDRREAELAKNGFMPLLHKKNTDLAAFIGAQSLQKPAEYDDPDATANANLAARLPYLFATCRFAHYLKCIVRDKIGSFKEKDDMQRWLQDWILNYVDGDPAHSTETTKAQHPLAAAEVVVEEVEGNPGYYNSKFFLRPHYQLEGLTVSLRLVSKLPSAKAA	PGPT0025920_705	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025920-impC-K11900	NA	NA
BMS010_02289	489	hcp1_2	COG3157	Protein hcp1	ATGGCTGTTGATATGTTTATCAAGATCGGGGACGTCAAGGGCGAATCCAGGGACAAGGCACACGCCGACGAAATCGACGTCCTGGCCTGGAGCTGGGGTATGGCCCAGTCCGGCTCGATGCACATGGGCGGTGGCGGCGGTGCCGGCAAGGTCAACATCAACGACCTGTCGTTCACCAAGTACGTCGACAAGGCATCGCCCAACCTGATGATGGCCTGCTCCAGTGGCAAGCATTACCCCGAGGCGAAGCTGACGATTCGCAAGGCTGGCGGCGACAACCCGGTCGAGTACCTGGTGATCACTCTGAAGGAGGTCCTGGTCTCCTCGCTGAGCACGGGCGGCAGCGGTGGCGAAGACCGCCTGACCGAGAACGTCAGCCTCAACTTCGCCCAGGTACTGGTCGACTACCAACCGCAGAAAGAAGACGGCGCGAAGGACGGCGGGCCGATCAAGTACGGCTGGAATATCCGCGAGAACGTCAAGGTGTAA	MAVDMFIKIGDVKGESRDKAHADEIDVLAWSWGMAQSGSMHMGGGGGAGKVNINDLSFTKYVDKASPNLMMACSSGKHYPEAKLTIRKAGGDNPVEYLVITLKEVLVSSLSTGGSGGEDRLTENVSLNFAQVLVDYQPQKEDGAKDGGPIKYGWNIRENVKV	PGPT0025980_1050	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0025980-hcp-K11903	NA	NA
BMS010_02290	432			hypothetical protein	ATGGCAACGCCGGCATTCATCAATCTCTGGAACAACTACCCGAGCGAGAACCACCCCTGCGACGGTGGCTGGGATAACCAGTGCGCGATCCGCATGAGCATCACCCTGAATGCCGAGCGCACCATCCACGTGGACCGCAACACCTACTCCGAACCCAAGTGCAGCCATGGTCATGCCCGTGGCGCTGAATCCCTCGCCAACTGGCTCTGGCGGCGCCACCTCGGGCGGCCGCGCATCTATACCGATGGGGCGGCAGCCAAGCGCACCCTCAACGACAAGACCGGAATCATCTTCTTCAAGGATTGCTTCACCCGACGAGGTGAAAGTCGCGCCGTGGGCGACCACATCGACCTATGGAACCGAGGGTTCACCAAGACCTACGACGATCCGTCCAACCTGTCCGCCCAGGTTTGGTTCTGGGAGCTGTCATGA	MATPAFINLWNNYPSENHPCDGGWDNQCAIRMSITLNAERTIHVDRNTYSEPKCSHGHARGAESLANWLWRRHLGRPRIYTDGAAAKRTLNDKTGIIFFKDCFTRRGESRAVGDHIDLWNRGFTKTYDDPSNLSAQVWFWELS				NA	NA	NA	NA	NA
BMS010_02291	435			hypothetical protein	ATGACGCGAGCACTCAACGCCCTGCTCTGCTCCGCCCTGTGCATCGCCCTGCCCGCCTGCGCGCAGAGCAGCGCGGATACCGCCACGCAGGCCCGCCTGGGCGAGCGGCAACTGACGCTGGAAGAACACGACGGACGCTGCGCGCTGGTGGAGCCCGGCCAGGCCAACCTCGACCTGCAACTCAAGTGGCCCTGCCAGTTCCACCGCGACCGCGAAGGCGGTCTACGCACGCGACAGGTGGGGGAAAACCGCGTGCTGCTCGTGGAGAGCAGCGAACAGGTACCGGACAGCCAGGACTGCCGCACCGAAATCCAGGCGGTCAGGACCCTCGGCGCCGGGCTCGAACCCTCGGAGGCGGTCAGCCGGGTGGCGGCCTGCCCGCCGATCCAATGGGACGACAAGGTCTTCATCGGCCTGTTCGAATCCCGTCCCTGA	MTRALNALLCSALCIALPACAQSSADTATQARLGERQLTLEEHDGRCALVEPGQANLDLQLKWPCQFHRDREGGLRTRQVGENRVLLVESSEQVPDSQDCRTEIQAVRTLGAGLEPSEAVSRVAACPPIQWDDKVFIGLFESRP				NA	NA	NA	NA	NA
BMS010_02292	783			hypothetical protein	ATGAATGCCGATGAATTACTCCGTGCCGGACGCATCGACGATGCCCTGAACACACTTCAGGAGCAGGTGCGCAGCCAGCCGGGCAATGCCGATCTGCGGGTCTTCCTGTTCCAGTTGCTCGCCGTCATGGGGCAATGGTCGCGCGCGCAGAAGCAGCTTACGGTGGCCGGCGAGCTGGAAGCCAAGGCCCTGGCCATGGTGCAGATCTACCGCGCCGCGCTGGACTGCGAAGCGCTGCGGGCCGAGGTGTTCGCCGGCCGGGTGACGCCGGTACTGCTCGGCGAGCCTGCTGACTGGGTCGCGCTGCTGGTCCAGGCGCTGCGCCTCGATGGCGAAGGTCAGGCCGAAGCCGCAGCCCGTTTGCGCGATCAAGCGTTCGAAGCCGCTCCGGCGGTGACCGGCCAAGCGAATGGCGAGGCTTTCGCCTGGTTCGCCGATGCCGACCCGCGCCTCGGCCCGGTGCTGGAAGTGATCGTCAACGGCCGCTACGCCTGGTTGCCGATGCAGAACCTGCGCAGCCTCAAGACCGAAGCGCCGGAGGACCTGCGCGATCTCGTCTGGCTGCCCGCCGAACTGACCCTGATCAACGGAGGCACCACCGTCGCACTAATCCCCAGTCGCTACCCGGAAACCCCCACCCAGGGCGACGATGCCGCGCGTCTCGCGCGCAAGACCGACTGGGACGGCGACCGGCCGCTCGGACAACGCCTGTTCGCCACCGATAATGGCGACTACCCGCTGTTCGAACTGCGCAGCCTCGACTTCGACCCGGTGGAAGGTTGA	MNADELLRAGRIDDALNTLQEQVRSQPGNADLRVFLFQLLAVMGQWSRAQKQLTVAGELEAKALAMVQIYRAALDCEALRAEVFAGRVTPVLLGEPADWVALLVQALRLDGEGQAEAAARLRDQAFEAAPAVTGQANGEAFAWFADADPRLGPVLEVIVNGRYAWLPMQNLRSLKTEAPEDLRDLVWLPAELTLINGGTTVALIPSRYPETPTQGDDAARLARKTDWDGDRPLGQRLFATDNGDYPLFELRSLDFDPVEG	PGPT0025975_375	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025975-impE-K11898	NA	NA
BMS010_02293	516			hypothetical protein	ATGGCCGAACTGACGCCCCAGGAACGCCTGCAGCCGTCCTTGCTGGACCGCCTGACCGACGAAGAACCCGGCAACCCACGGGAAGGCGCCGACCGCCGGATCATGTCGCTGAACCAGCTCAAGGCATCGGTGCTGCGTGACCTGGCCTGGCTGTTCAACACCACCGCCCTGTTCGATCCGGACACCGGCATGCAGATCCCTGCCGGCAGCTCGGTGCTCAACTACGGCCTGCCAGCGCTGGCTGGCCATACCGCGTCGAGCGTGGATGTCCATGCGGTGGAAGAACTCCTCGCCGAGACCATCGCCGCCTATGAGCCGCGCATCCTACGTAGTTCCCTGAAAGTACGCGCACAACTGCGACCGGAAGAAATGGACCACAACGCCCTGAGCTTCGAGATCGAGGGCGACCTCTGGGCCGAGCCGGTGCCCCTGCGCATGCTGCTCACCACCAACCTCGACCTCGAGACCGGCCACGTGCGCGTGATGCCGGCCGAACAGCAGCGGAGGCCGCGATGA	MAELTPQERLQPSLLDRLTDEEPGNPREGADRRIMSLNQLKASVLRDLAWLFNTTALFDPDTGMQIPAGSSVLNYGLPALAGHTASSVDVHAVEELLAETIAAYEPRILRSSLKVRAQLRPEEMDHNALSFEIEGDLWAEPVPLRMLLTTNLDLETGHVRVMPAEQQRRPR	PGPT0025930_325	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025930-impF-K11897	NA	NA
BMS010_02294	1860			hypothetical protein	ATGAACCCTCGCCTGCTGGATTACTACAACCAGGAACTGCTGCACATCCGCGAAAGCGCGGCGGAGTTCGCCAGCGAATACCCGAAGATCGCCAGCCGCCTGAGCCTGTCCGGTATCGACTGTGCCGACCCCTATGTCGAGCGCCTGCTGGAGGGCTTCGCCTACCTGACCGCGCGGGTGCAACTGAAGCTGGATGCGGAATACCCGACCTTCACCCATAACCTGCTGGAAATCGCCTATCCGCACTACCTGGCGCCCACCCCGTCGATGGTGATGGTGCAACTCCAGGCCGATCCCAACGAGGGCTCGCTGACCGGTGGTTTCACCGTCAAGCGCGACTCGGCGCTGCGTGGGCTGCTCGGTCACGAAGAGCAGACCGCCTGCGAATACCGCACGGCCCACCCAGTCACGCTCTGGCCCCTGGAGGTTGCCCGTGTCGAATATTTCGGCACCCCGGCAGCGACCCTCGGGCGCCTGGCCGCCAGCGAGCCCCGCGCCAAGGCCGGCCTGCGCCTGCGCCTGCGTACCGGCGCCGGGCTGCCCTTCAACAGCCTGGGCCTGGACAGCTTGCCGTTCTACCTGCACGGCGCCGACGAACAACCCTTCCGCCTTTACGAGCAACTGTTCGGCAAGGCATGCGCGCTGTTCGTGAAGAGCCCGCAGGATGACTGGGTGGAACGCCTGCCGCTGAAAGCGCTGCGCCCCCGCGGGCTGGATGACGAAGATGCCCTGCTGCCGGTGGTGCCGCGAGCCTTCCAGGGCTACCGGCTGTTGCAGGAATACTTCGCCCTGCCTCATCGCTACCTGTTCGCCGAGTTCACCGGGTTGGGCCCGGCCGTCCGCCGCTGTGCCGGCCAGGAGCTGGAACTGATCGTCCTGTTCGAGCAACTGGACCCGACCCTGGAAGGCACGCTAGGCGTCGAGCAATTCGTGCTTTTCTGTACGCCGGCGATCAACCTGTTCCCACGGCGCGCGGACCGCATCCACCTGTCCGAGCGGGTGCACGAACATCACGTGATCGCCGACCGTACCCGCCCGCTGGATTTCGAAATCCACTCGCTGCAACAGGTCACCGGCTACGGCAGCGGCCCGGAGCAGCCGTTCCAGCCGTTCTATGCCGTGCGCGACCCGGCCCGCTACGGTCGCGAGCAGGCCTACTACATCGTCCGCCGCGAGCCGCGCCGGTTGTCCAGCCAGCGTCGGCGGCGCGGGCCGCGGGCCAGCTACGTCGGCAGCGAGACGTTCGTCTCCCTGGTGGACGCCAACCAGGCGCCCTATCGCCACGATCTGCGCCAACTGGGCGTCAAGGCGCTGTGCACCAACCGCGACCTGCCGCTGCTGATGCCGGTGGGCACGGCGAAAAGCGACTTCACCCTGGAAGACAGCGCCCCCGTGCTGGCCGTGCGCTGCCTGGCAGGGCCGAGCCGGCCGCGCGCCAGCCGTGCCCACGATGCCAGCGCCTGGCGCCTGATCAGCCAGCTCTCGCTGAATTACCTGTCGCTGACCGAGCATGGACAAGGGGCGGCGGCCCTGCGCGAGTTGCTGCGCCTGTACGGCGACCCCGGCGACCCGGCCATTCAATTGCAGATCGAGGGGCTGCGCGAAGTACGCAGCCGGCCTTGCACCCGTCGCCTGCCGATGCCAGGCCCGATCGTCTTCGGCCGTGGCCTGGAGATCAGCCTGGAATTCGACGAAAACGCCTTCCGCGGCACCGGGGTCTTCCTCCTCGGCAGTGTGTTCGAGCGTTTCCTGACCCGTTATGTGTCGATCAACAGCTTTACCGAAACGGTGCTGCGCACCACGGAACGAGGCGAGGTGATGCGATGGCCGGCGAACCCCGGACGCCGTCCGAACCTTTGA	MNPRLLDYYNQELLHIRESAAEFASEYPKIASRLSLSGIDCADPYVERLLEGFAYLTARVQLKLDAEYPTFTHNLLEIAYPHYLAPTPSMVMVQLQADPNEGSLTGGFTVKRDSALRGLLGHEEQTACEYRTAHPVTLWPLEVARVEYFGTPAATLGRLAASEPRAKAGLRLRLRTGAGLPFNSLGLDSLPFYLHGADEQPFRLYEQLFGKACALFVKSPQDDWVERLPLKALRPRGLDDEDALLPVVPRAFQGYRLLQEYFALPHRYLFAEFTGLGPAVRRCAGQELELIVLFEQLDPTLEGTLGVEQFVLFCTPAINLFPRRADRIHLSERVHEHHVIADRTRPLDFEIHSLQQVTGYGSGPEQPFQPFYAVRDPARYGREQAYYIVRREPRRLSSQRRRRGPRASYVGSETFVSLVDANQAPYRHDLRQLGVKALCTNRDLPLLMPVGTAKSDFTLEDSAPVLAVRCLAGPSRPRASRAHDASAWRLISQLSLNYLSLTEHGQGAAALRELLRLYGDPGDPAIQLQIEGLREVRSRPCTRRLPMPGPIVFGRGLEISLEFDENAFRGTGVFLLGSVFERFLTRYVSINSFTETVLRTTERGEVMRWPANPGRRPNL	PGPT0025935_548	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025935-impG|vasA-K11896	NA	NA
BMS010_02295	1050			hypothetical protein	ATGGCCGGCGAACCCCGGACGCCGTCCGAACCTTTGAACACCCTCGCCGAGATGGCGACCGAGCCCTGGAGCTACGACTTCTTCCAGGCGCTACGGCGCATCGAGTGCGAGTTACCGGAACGCCCGCGTATCGGCCACTCGGTACGCCTGGGCGAAGACCCGTTACGCCTCGGCCAACGCCCGGACTGTGGCTTCGCCCCTTCGACCCTGGCCGCCGTGGACCCCGGAACCGACGGCCGGCCGCCGCGCCTCGAACAATTCTTCTTCGGCCTGACCGGACCGAACGGCCCGCTGCCCCTGCACCTCACCGAATACGCCCGGGAACGCGCGCGGCATCACAGCGATCTGACCTTCAAGCGCTTCCTGGACGTGTTCAACCACCGCCTGCTCACCCTCTTCTACCGCGCCTGGGCCGAGTCGCGGCCGACGGTCAGCCACGACCGTCCGGACGACGACTACTGGGCCGCGCGCCTGGGTGCGCTATCCGGTCGCGGCATGGAAAGCCTGCTCGGCCAGGGGCCGATCTCCGACAACGCGCGCTACCACTACACCGGCCACCTGGCGGCGCAGACCCGCTACCCGGACGGCCTGAGCGCCATTCTCTCCACCTACTTCGAGCTGCCGGTGAGCATCGAGGAATACATCGGGCAGTGGCTGGAACTCCCCGAGTGCAGCCGGCTCGGCCACAGCGCCAGCTCGCTCGGCGAAGACCTTTGCCTGGGCAGTCACGTCTGGGACCGGCAGCACAAGTTCCGCATTCGCCTGGGCCCGCTGGACCTCTCCCATTACCAGCGCCTGCTGCCCGACGGCGAGCTGTTCGGCGAACTTGCCGCCTGGGTCGCTGAATACCAGGGCGAGGAGCTGGATTGGGAAGTGAATCTGGTACTGCGCCAGGAAGACGTGCCGCCCATCAACCTCGACGGCGGCGACCGGCTCGGCTTCAACACCTGGCTGGGCACGCCGGAAACGGACCCCGCAGACCTCTCGCTAGGTCGCCATTACGCCTTGGAAAGCCCCTCCACCCCACGGACAGAGGAGACAACAACATGA	MAGEPRTPSEPLNTLAEMATEPWSYDFFQALRRIECELPERPRIGHSVRLGEDPLRLGQRPDCGFAPSTLAAVDPGTDGRPPRLEQFFFGLTGPNGPLPLHLTEYARERARHHSDLTFKRFLDVFNHRLLTLFYRAWAESRPTVSHDRPDDDYWAARLGALSGRGMESLLGQGPISDNARYHYTGHLAAQTRYPDGLSAILSTYFELPVSIEEYIGQWLELPECSRLGHSASSLGEDLCLGSHVWDRQHKFRIRLGPLDLSHYQRLLPDGELFGELAAWVAEYQGEELDWEVNLVLRQEDVPPINLDGGDRLGFNTWLGTPETDPADLSLGRHYALESPSTPRTEETTT	PGPT0025940_918	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025940-impH|vasB-K11895	NA	NA
BMS010_02296	2718	clpV1_2	COG0542	Protein ClpV1	ATGAGCGAAATCAGCCGCGCCGCGCTGTTCGGCAAATTGAACAGCCTCGCCTACAAGGCCATCGAAGCCGCCACGGTGTTCTGCAAGCTGCGGGGCAACCCCTACGTCGAACTGGTCCACTGGCTCCACCAGATTCTTCAGTTGCCGGATTCCGACCTGCACCAGTTGATCCGCCAGTTCAACGTGGAGCCGGCCAGGCTGGCCAAGGACATGAGCGATGCGCTGGACCGCTTGCCGCGCGGCTCCACCTCGATCACCGACCTCTCCTCCCACGTCGAGGAAGCGGTGGAACGCGGCTGGGTCTACGGCAGCCTGATGTTCGGCGAGAGTCAGGTGCGCACCGGCTACCTGATCGTCGGCATTCTCAAGACGCCGAGCCTGCGCCATGCCCTGCTGGCGATCTCCCGCGAGTTCGACAAGTTCAAGATGGAGACGCTGACCGAACGCTTCGACGAATACGTGGGCAACTCGCCGGAGAACGGTCTGTCCGCCACCGACGGCTTCAACGCTGCCGCCGCGCCCGGCGAAGCCAGCGGCGCCATGGCGCCCAGCGCCCTGGGCAAGCAGGAAGCACTCAAGCGCTTCACCGTCGACCTCACCGAACAGGCCCGCAACGGCAAGCTCGACCCTATCGTCGGCCGCGACGAGGAAATCCGCCAACTGGTGGACATCCTCATGCGGCGACGGCAGAACAACCCGATCCTCACCGGTGAAGCCGGGGTGGGCAAGACGGCGGTGGTGGAAGGCTTCGCCCTGCGCATCGTCACCGGCGACGTGCCGCCCGCGCTCAAGGACGTGGAACTGCGTAGCTTGGACGTCGGCCTGCTGCAAGCCGGCGCGAGCATGAAGGGCGAGTTCGAGCAACGCCTGCGCCAAGTGATCGAGGACGTCCAGAGTTCACCCAAGCCGATCATCCTGTTCATCGACGAAGCCCATACCCTGGTCGGCGCCGGCGGCGCGGCGGGTACCGGCGATGCGGCCAACCTGCTCAAACCGGCCCTGGCCCGCGGCACCCTGCGTACCGTGGCGGCCACCACCTGGGCGGAATACAAGAAGCACATCGAGAAGGACCCGGCCCTGACCCGGCGTTTCCAGGTCGTGCAAGTGGACGAGCCGTCCGAACAGAAAGCGATCCTGATGATGCGCGGCGTCGCCTCCCCCATGGAGCAGCACCACAAGGTGCAGATTCTCGACGAGGCGCTGGAGGCGGCGGTGAAGCTGTCCCACCGCTACATCCCGGCGCGGCAGTTGCCGGACAAGTCGGTCAGCCTGCTGGACACCGCCTGCGCGCGGGTCGCCATCAGCCTGCATGCGGTGCCCGCCGAGGTGGACGACAGCCGCCGGCGCATCGAAGCCCTGACCACCGAACTGGCGATCATCGAGCGCGAGCAGGCCATCGGTATCGACATCCGCAGCCGCCGCGCCGACGCCGAAGCGGCGCTGGCCGACGAGCGCGAGCGTCTGGCTGCGCTGGAGGCCCGTTGGAGTGAAGAGAAGGCGCTGGTGGACGAGCTGCTCGCCGTGCGCGCCCAATTGCGTGGCGCGGCAGAAGCGGTCGACGACACCGGCTCCGCTTCGGACGCACCGGCCGGCCGCCTCGACGATGCCGAGCGCCAGTCCCTGCGCGACAGGCTCGGCGAATTGCAGGAGCGCTTGAGCACGCTGCAGGGTGAGTCGCCATTGATCCTGCCGAGCGTGGACTACCAGGCCGTGGCCTCGGTGGTGGCGGACTGGACCGGCATCCCGGTCGGCCGCATGGCGCGCAACGAGATCGAGACCGTCCTCAACCTCGACCGGCAACTGAAGAAGCGCATCATCGGCCAGGACCATGCCCTGGAGATGATCGCCAAGCGCATCCAGACCTCCCGCGCCGGCCTCGACAACCCGAGCAAGCCGATCGGTGTATTCCTCCTCGCCGGCACCTCCGGCGTCGGCAAGACGGAAACCGCCCTGGCCCTGGCCGAAGCCCTGTATGGCGGCGAGCAGAACGTCATCACCATTAACATGAGCGAGTTCCAGGAAGCGCACACTGTCTCCACCCTCAAGGGCGCCCCGCCCGGCTACGTGGGCTACGGCGAAGGCGGCGTGCTGACCGAGGCCGTGCGGCGCAAGCCCTACAGCGTGGTGCTGCTCGACGAGGTGGAGAAAGCCCACCCGGACGTCCACGAGATTTTCTTCCAAGTGTTCGACAAGGGCATGATGGAAGACGGCGAAGGCCGCCTGATCGACTTCAAGAACACCCTCATCCTGCTCACCACCAACGCCGGCACCGAGCTGATTTCCAACCTGTGCAGCGACCCGGAACTGATGCCCGACCCGGAAGGCATCGCCAAGGCCCTGCGCGAACCGCTGCTCAAGGTCTTCCCGGCCGCCCTGCTCGGCCGCCTGGTGACCATCCCCTACTACCCGTTGAGCGATGAAATGCTGAAGAGCATCACACGCTTGCAACTCGACCGGATCAAACGCCGTGTCGAAGCCGGCCACAAGGTGCCGTTCGACTACGATCCGGAGGTGGTCGATCTGATCGTTTCGCGCTGCACCGAGACCGAAAGCGGCGGCCGGATGATCGACGCCATCCTCACCAACACGCTGCTGCCCGACCTGAGCCGGGAGTTCCTCACCCGGATGCTGGAGGGCCGGCCGCTGGCCGGGGTGCATATCAGCGGCCGCGACAACGCGCTGCACTACGATTTCGAACGCGGGGCGGCTAGCGCCTGA	MSEISRAALFGKLNSLAYKAIEAATVFCKLRGNPYVELVHWLHQILQLPDSDLHQLIRQFNVEPARLAKDMSDALDRLPRGSTSITDLSSHVEEAVERGWVYGSLMFGESQVRTGYLIVGILKTPSLRHALLAISREFDKFKMETLTERFDEYVGNSPENGLSATDGFNAAAAPGEASGAMAPSALGKQEALKRFTVDLTEQARNGKLDPIVGRDEEIRQLVDILMRRRQNNPILTGEAGVGKTAVVEGFALRIVTGDVPPALKDVELRSLDVGLLQAGASMKGEFEQRLRQVIEDVQSSPKPIILFIDEAHTLVGAGGAAGTGDAANLLKPALARGTLRTVAATTWAEYKKHIEKDPALTRRFQVVQVDEPSEQKAILMMRGVASPMEQHHKVQILDEALEAAVKLSHRYIPARQLPDKSVSLLDTACARVAISLHAVPAEVDDSRRRIEALTTELAIIEREQAIGIDIRSRRADAEAALADERERLAALEARWSEEKALVDELLAVRAQLRGAAEAVDDTGSASDAPAGRLDDAERQSLRDRLGELQERLSTLQGESPLILPSVDYQAVASVVADWTGIPVGRMARNEIETVLNLDRQLKKRIIGQDHALEMIAKRIQTSRAGLDNPSKPIGVFLLAGTSGVGKTETALALAEALYGGEQNVITINMSEFQEAHTVSTLKGAPPGYVGYGEGGVLTEAVRRKPYSVVLLDEVEKAHPDVHEIFFQVFDKGMMEDGEGRLIDFKNTLILLTTNAGTELISNLCSDPELMPDPEGIAKALREPLLKVFPAALLGRLVTIPYYPLSDEMLKSITRLQLDRIKRRVEAGHKVPFDYDPEVVDLIVSRCTETESGGRMIDAILTNTLLPDLSREFLTRMLEGRPLAGVHISGRDNALHYDFERGAASA	PGPT0025985_427	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025985-vasG|clpV-K11907	NA	NA
BMS010_02297	2250			hypothetical protein	ATGGCGATCACACAGAACACGCGACTGGTACAGGTCACCAGCCCCCTCGGGGAGAACGTGCTGGTCCTGCAGAGCCTGGATGGCAGCGAAGAACTCGGGCGGATCTTCCAGTACGAACTGGAGCTGATTTCCGAAGACCCATCCGTCAAGTTCGACCAACTGCTGGGCAAGCCCATGACCCTGACGCTGGAGCTGCACGACGGCGGCAAGCGTTATTTCCACGGCATCGTCAGCCGGTGCAGCCAGGGCGCCGGCAACGGCCAGTTCGCCGGCTACCACGTCAGCCTGCGGCCCTGGCTGTGGCTGCTCAGCCGCACCTCCGATTGCCGGATTTTCCAGAACCGCACCGTGCCGGACATCATCAAGCAGGTGTTCCGCGACCTCGGTTTTTCCGATTTCGAGGACTCGCTGAGCCAAACCTACCGCGAGTGGGAATACTGCGTGCAGTACCGTGAGACCAGCTTCGACTTCGTCAGCCGGCTGATGGAACAGGAAGGCATCTACTACTACTTCCGCCACGAGAAAAGCCGCCACGTGCTGGTGCTGGCCGACGCCTACGGCGCACATTCGACGGTGAGCAACTACGCCAGCGTGCCCTACTACCCACCGACCGACGAGCAGCGCGAACGCGACCACTTCTTCGACTGGCGCCTGGCCCGCGAAGTCCAGCCTGGCTCCCTGGCACTCAACGACTACGACTTCCAGCGACCCGGCGCGCGCCTGGAGGTCCGCTCCAGCGTGTCGCGCAGCCACGCCCACGGCGACTATCCGCTCTACGACTACCCGGGCGAGTACGTACAGAGCAAGGACGGCGAGCATTACGCCCGCACCCGCATCGAAGCCATCCAGGCGCAGTTCGAGCGCGTGCAACTGCGCGGCAAGGCGCGCGGCCTGGGCTCCGGCCATCTGTTCAAACTGACCAACTACCCCCGCGACGACCAGAACCGCGAATACCTGGTGGTGGGCGCACGCTACCGCATCACCCAGGAAAGTTACGAATCGGGCCACATGGAAGGCATGCTGCAATACGAGAGCGACCTCGACTGCATGGACGCCAGCCAGACCTTCCGCCCTCTGCCGCTCACCCCGCTGCCCATCGTCCAGGGGCCGCAGACCGCTCTGGTGGTGGGCCCCGGCGGCGAAGAGATCTGGACCGACCAATACGGCCGGGTGAAGGTGCACTTCTACTGGGACCGCCACGACCAGTCCAACGAGAACAGCTCCTGCTGGATGCGCGTATCCCAGGCCTGGGCCGGCAAGAACTGGGGCGCGATCCAGATTCCGCGCATCGGCCAGGAAGTCATCGTCAGCTTCCTCGAAGGCGACCCGGACCGGCCGATCATCACCGGCCGGGTCTACAACGCCGAACAGACGGTGCCCTACGACCTGCCGGCCAACGCCACCCAGAGCGGCGTGAAGAGCCGCTCCAGCAAGGGCGGCTCGCCGGCGAACTTCAACGAAATCCGCATGGAGGATAAGAAAGGCGCGGAGCAGCTCTTCATCCACGCGGAGAAGAACCAGGACATCGAGGTCGAGAACGACGAGACCCACTGGGTCGGCCACGACCGCAGCAAGACCATCGACAACGACGAGACCGTCCTCGTCCAGCATGACCGCACCGAGACGGTGGGCAACAACGAAACCATCACCATCGGCGTAAACCGCACCGAGAGCGTCGGCAACAACGAGACCATCACCATTGGGGTGAACCGCACGGAAGTCGTCGGCAGCAACGAAACCATCACCATCGGCAGCAACCGCACGATCACCGTCGGCGCCAACGAGACCGCCGCCGTGGCCCTGCAACGCACCCATGCGGTGGGCCTCAACGAGACGATCACCGTCGGCGCCGCCCAGGAAGTCGCCATTGGTGCCTACCAGACCGTCAACGTGGGTGCCAACCAGGACATCAACGTGGGCCGCAACCAATCGACCAACGTAGGCTCCAACCGCTCGGTGGATGTCGGCTCCAATCTGTCGACCACGGTGAAATCGAACGAATCGCGCAAGGTCGACGGCGGGCGCACCACCGGCATCGACAAGGACGACTCCCTGAAGGTGGGCAAGAACCTGGTCATCGACGCCGGCGACTCGATAACCATCAGAACGGGCAGTGCCAGCATCACGATGAAGAAGGACGGCACCATTCAGATCAAGGGTAAGGACATCACCATCGATGGCTCCGGCGCGATCAACGTCAAGGCCAACAAGAACGTGGTGATCAAGGGACGAAAGATCCTGCAGAACTAG	MAITQNTRLVQVTSPLGENVLVLQSLDGSEELGRIFQYELELISEDPSVKFDQLLGKPMTLTLELHDGGKRYFHGIVSRCSQGAGNGQFAGYHVSLRPWLWLLSRTSDCRIFQNRTVPDIIKQVFRDLGFSDFEDSLSQTYREWEYCVQYRETSFDFVSRLMEQEGIYYYFRHEKSRHVLVLADAYGAHSTVSNYASVPYYPPTDEQRERDHFFDWRLAREVQPGSLALNDYDFQRPGARLEVRSSVSRSHAHGDYPLYDYPGEYVQSKDGEHYARTRIEAIQAQFERVQLRGKARGLGSGHLFKLTNYPRDDQNREYLVVGARYRITQESYESGHMEGMLQYESDLDCMDASQTFRPLPLTPLPIVQGPQTALVVGPGGEEIWTDQYGRVKVHFYWDRHDQSNENSSCWMRVSQAWAGKNWGAIQIPRIGQEVIVSFLEGDPDRPIITGRVYNAEQTVPYDLPANATQSGVKSRSSKGGSPANFNEIRMEDKKGAEQLFIHAEKNQDIEVENDETHWVGHDRSKTIDNDETVLVQHDRTETVGNNETITIGVNRTESVGNNETITIGVNRTEVVGSNETITIGSNRTITVGANETAAVALQRTHAVGLNETITVGAAQEVAIGAYQTVNVGANQDINVGRNQSTNVGSNRSVDVGSNLSTTVKSNESRKVDGGRTTGIDKDDSLKVGKNLVIDAGDSITIRTGSASITMKKDGTIQIKGKDITIDGSGAINVKANKNVVIKGRKILQN	PGPT0030410_2455	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0030410-vgrG-K11904	NA	NA
BMS010_02298	447			hypothetical protein	ATGACGGTTCAATACGCGCTACCCAGCCAGGCCCGCATCGACGGCGTGGTCATCGGCGTCCTACTCGACCTGCCGCAGGCCGGTACGCCCGTGGTGACCTACCCTGGCTGCGCCGAGCAGCAAGGCATCGCCGCCCGCACCACCGCCCTGCTGGCTCCCCAGGACATCGGCACCCAGGTCGCGTTGATGTTCGAAGACGGCGACCCGACCCGCCCCTTGGTGATTGGCCGCCTGCTCGGCCAAGCCGTTACGCCCGCTCCGGTCGCCCAAGTGCAACTGGACGACCAGCGCCTGGAGCTGCATGCCGAACGCGAGATCGTCCTGCGTTGCGGCAAGGCCAGTATCACCCTCACCCGTGAAGGCAAGGTGCTGATCCGCGGCGCATACCTGTCGAGTCGATCGTCCGGTGCGAATCGCATCAAGGGTGGTTCGGTGCAGATCAACTGA	MTVQYALPSQARIDGVVIGVLLDLPQAGTPVVTYPGCAEQQGIAARTTALLAPQDIGTQVALMFEDGDPTRPLVIGRLLGQAVTPAPVAQVQLDDQRLELHAEREIVLRCGKASITLTREGKVLIRGAYLSSRSSGANRIKGGSVQIN				NA	NA	NA	NA	NA
BMS010_02299	1113			hypothetical protein	ATGGAATTGCTCAACGCCACGCGCCTCACTGCTGCCTACACCCAGGGTCTCGCCCCGGACGGGCGCGAATCCCTGGTGGTGGTCGCCAAAGGCACCTTCGACATGCCGCTGGACGGCAACGAGGCGCGCCTCGCCGAACGGCAACGTCCGCTGCTGATGGCCGATACCTTCTTCGGCGAGCCGGGTCTGTCCGCACCGCGCCAGGAAATGGACTTCGCCCCGGTCAAACCCTTCTGCGACGTGCTCGTGCTGGGCAAGGCCCACGCTCCCGACGGCCGCCCGGCCACACGCGTCACCGCCGGCATCCGCGTCGGCAAGGTCAGCAAGGCATTTGCGGTGGTCGGTCCGCGTCACTGGCAACATGCGTTGCTCGGCATCGGTCCCAGCTTGCCCCAGCCGTTCACCGAACTGGAGATTTCCTACGCCCAGGCCTTCGGCGGCAACCATCCCATGGAAAACGAACCGGAGATGCGCCACTGCTACCTGGACAACCCGGGCGGATGCGGCTGGTATCCCCGTGCGATTGCCGCCGCCGATATCGTCGGCATGCCGCTGCCCAGCACCGAAGCGCTGAACCAGCCCATCGAGAGCCCCAGCGGCGACTACCGCCCCATGGCCCTTGGCCCCATCGGTCGTAGCTGGCCGCAACGCGCCGCCTTCGCCGGCACCTACGACGACGCCTGGCTCGCCGATTGCTTCCCGTTCCTGCCCCCCGACTTCGATAACCGCTACTTCCAGGCAGCCCCGGCCGACCAGCAGACCGATCACCTGAAGGGGGGCGAGGACGTGCTGCTGCTCAACCTCACGCCGCAGGAACACGCTGGCTTCAAGGTGCCGACGATGCAGGTGCCAGTGACCTTCTTCCTGAAAAAAGGCGGCCACGAGACCGTACAGGCGGTGATCGATACCCTGGCCATCGACACCGACAGCCGCACCGTCGAAGTCACCTGGCGCACCAGCCGCCCACTCAAACGCAACATGTTCGAGATCGCCCAGGTGCTGGTGGGCACCATGTCCACCGCCTGGTGGCGCGCTCGCGAGCTGGGTAAGGACTACTACCCGTCCCTCTCGGCGCTAGTGAAGTCCAAGCGCGTGCCGGAGGAAAGCGATTGA	MELLNATRLTAAYTQGLAPDGRESLVVVAKGTFDMPLDGNEARLAERQRPLLMADTFFGEPGLSAPRQEMDFAPVKPFCDVLVLGKAHAPDGRPATRVTAGIRVGKVSKAFAVVGPRHWQHALLGIGPSLPQPFTELEISYAQAFGGNHPMENEPEMRHCYLDNPGGCGWYPRAIAAADIVGMPLPSTEALNQPIESPSGDYRPMALGPIGRSWPQRAAFAGTYDDAWLADCFPFLPPDFDNRYFQAAPADQQTDHLKGGEDVLLLNLTPQEHAGFKVPTMQVPVTFFLKKGGHETVQAVIDTLAIDTDSRTVEVTWRTSRPLKRNMFEIAQVLVGTMSTAWWRARELGKDYYPSLSALVKSKRVPEESD				NA	NA	NA	NA	NA
BMS010_02300	1038			hypothetical protein	ATGTCAGCCATCTGCATACTCGGCTCCGGCATGGTCAGCGCGGTCGGCCTCGATGCGCCGTCCAGCTGCGCCGCCATCCGCTGCGCCCTCGACAACTTCCAGGAGACCCGCTTCATCGACCGCGGCGGCGAATGGCAGATCGCAGCCACGGTGCCGCTGGAACAACCCTGGCGTGGTCGCACCAAGCTGATCAAGATGGCCGCCCGTGCCATCGCCGAAGCCCTGCGCAACGTACCGGGCTGCGCCCCGGAGAAAATGCCCCTGCTCCTCGGTGTAGCCGAAGCCGAGCGCCCTGGCCGGCTGGATGGGCTGGACATCAGCCTGTTGCATGACATCGAGCGGGAGTTGGGCGTCCGTTTCCATGACAGTTCCAACGTCATTCCCCGTGGCCGAGTCAGTGGCGCAGTGGCACTGCTCAATGCGCGCAAACTGATCTACAAAGGCGGCCATCGCCACGTGCTGATCGCCGGGGTCGACTCCTTCCTCGCCGCTCCCACCCTGGCCGCCTACGAAGAGCGCGAACGCCTGCTCACCAGCCAGAACTCCAATGGTTTCATCCCAGGCGAAGGCGCCGCCGCCGTAGTGATAGGCGCACCGGTGGCCAGCAAGGAACCGCAACTGGCCTGCATTGGTCTCGGTTTCGGCATCGAAAAGGCCACGGTGGAAGCCGAAGACATCCCCCTGCGGGCCGACGGCCTGACCCAGGCCGTCCGCACCGCCCTGGCCGAAGCCGGCTGCGGGCTGGAAACGATGGACTATCGACTGACCGACATCTCCGGCGAGCAGTACTACTTCAAGGAAGCCTCCCTCGCCTTGAGCCGCACCCTGCGTGTGCGCAAGGAGTTCTTCCACCTCTGGCACCCGGCCGACTGCATCGGCGAAACCGGCGCCGCCATCGGCCCCGCCATGCTCACCGTCGCCCTCGCCGCATGCCGCAAGAACTACGGCGAAGGACCGAACATTTTCTGCCACCTCGGCAACGACGCCGGCCAACGCGCCGCCGCCCTGCTCAGCTACCAGACAGTGAGGGCTGCCTGA	MSAICILGSGMVSAVGLDAPSSCAAIRCALDNFQETRFIDRGGEWQIAATVPLEQPWRGRTKLIKMAARAIAEALRNVPGCAPEKMPLLLGVAEAERPGRLDGLDISLLHDIERELGVRFHDSSNVIPRGRVSGAVALLNARKLIYKGGHRHVLIAGVDSFLAAPTLAAYEERERLLTSQNSNGFIPGEGAAAVVIGAPVASKEPQLACIGLGFGIEKATVEAEDIPLRADGLTQAVRTALAEAGCGLETMDYRLTDISGEQYYFKEASLALSRTLRVRKEFFHLWHPADCIGETGAAIGPAMLTVALAACRKNYGEGPNIFCHLGNDAGQRAAALLSYQTVRAA	PGPT0013310_2645	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0013310-fabB-K00647	NA	NA
BMS010_02301	1164			hypothetical protein	ATGGCCAACGATGTTTTCGCCAACAACATGGAGATTTCCTGCAAAGCGGCGGATGGCAAATCCATCGCCTGCTTTCCAGACGTCTGCTTCACCCCGCCCCAGGCGCCGCCGACACCGCCGGGTGTGCCCATTCCCTACCCCAACACCGGCATGGCCAAGGACACGACCAAGGGCAGCAAGACGGTGAAGATCAGCGGCAAGGAAGTGATGCTCAAGGACAAGAGTTACTTCAAGACCAGCTATGGGGACGAGGCAGGTAACGCGCCGAAGAAGGGCATCGTCACCAGCAAGATCAAGGGAAAAGTGTATTTCACCTCCTGGTCGATGGACGTGAAGTACGAAGGGAAGAACGTCGTCCGGCATATGGACCTGACCACACATAACCACGCATCCCAGCCCGGCAACACCATGCCTTGGACCTATGCGGACCGCATGGCCTTCGCCAAGGACCTGTCCCAATGCGACGGAGAAAGAAGCCGGGCGGAAACCGCTTGCGGGGACACCAGCCAGAAGATGGTCTGCCCGGACATTACTCCGCTGCGGGATGCGACCAAGGCCAGAAAGGCGGCCAAGGATGCCGCAGGGGATGGCTTCGAAACCGACCCCACCTATATGCAGAAGCACGCCGAAGTTCAGGCGAAGTACTCCGCCTTGGCCACGACGATCAATAACGACGCATGCCAGAAAGCCATGCGCTGTTTCCTGGCGCCGTACAAGCCCAACAGATGTTGCCCCGGTCAAACCGGGGATCACCTCGTCGATGCGGCCTCGTTCGGCCCCCGGAATGGCGCCAAGATCGACGGCTGGAGCAAATACAAGACCAACAAGGCCCCGGTGATGTGCGCCGAAGGGCCCAACCAGACCACCGCCACCCACGGCCAGATGCATACCCGGCGTGGCGTGGTGGCCTTGCACGAGGCCGATGCGAAAGGTGAATGGCCACGATCCAAAGCAACCCAGACAGGGGCCAAGGCGGCCAGGAAAACCTTCCCGGATTCCAACTGCTCCCAGGAATGCCTGGAGGCCCAGCTGAACAAGTACCACGACAAAGCCAAGGATGACGGCACGGAGAAACCGATCAAAGCCAACGCGACCATGACCAGCGACCCACAGGAGCGCGGCAAGGCCGTGGCCGAGATGTTCGCCAACGAGTCCGGCCGCTAA	MANDVFANNMEISCKAADGKSIACFPDVCFTPPQAPPTPPGVPIPYPNTGMAKDTTKGSKTVKISGKEVMLKDKSYFKTSYGDEAGNAPKKGIVTSKIKGKVYFTSWSMDVKYEGKNVVRHMDLTTHNHASQPGNTMPWTYADRMAFAKDLSQCDGERSRAETACGDTSQKMVCPDITPLRDATKARKAAKDAAGDGFETDPTYMQKHAEVQAKYSALATTINNDACQKAMRCFLAPYKPNRCCPGQTGDHLVDAASFGPRNGAKIDGWSKYKTNKAPVMCAEGPNQTTATHGQMHTRRGVVALHEADAKGEWPRSKATQTGAKAARKTFPDSNCSQECLEAQLNKYHDKAKDDGTEKPIKANATMTSDPQERGKAVAEMFANESGR				NA	NA	NA	NA	NA
BMS010_02302	927			hypothetical protein	ATGGACACTCGAGACCCGCGGTTCAGCGGATTCAGTATTGGCACCGGAACCGTGCGCTATTCCGACCTCGGTTACCTCGTCACCACCAACGATGCCGCCATCAGCGAAGGTCATACGGGCTCGCTACTGTTCACGCTGGATCGGGGAACCTGGGGCGCCGGTACCGTTGAATGGCTGGCCTGCTCGGGCACCGTTTGCCATGTGCCGGCCGAACGCTATCTGGTGCTCGGAACGGACGGTTCGGTACGCGCGAGCGGCGGCGGTGCGGTGAAGGAAGAAGTCCCGATCGGGAGTTGCGGTGTCGATCCCCGCAAGCGCGGCCCGCTTCGGGAAATCCGCGGTATCGCCAAGGGCCGTGCTTATGCAGTGGGCACTTGTCGACAAGCCTATGTACGAGACGGTGAAGGACAATGGAAGTGCATCGACCAATCCGCGCAGGTCGGTGATGTGCCTATTACCGACACCAGTTTCGAATCCATCGACGGGTTCGACGAGCAGGAGATCTACACCGTGGGTTGGGAGGGAGAAATCTGGCAGTACGACGGCGCCCGCTTCACTCAGCGAACCAGCCCGACCAACCTGGCGCTGTACAAGGTTCGGTGCGCAGACGACGGTTATGTCTATGCCTGCGGACAGCTGGGCACTCTCTTGCGGGGGCGCAATGACCAATGGGAGATCATCGAGCATGACAGCACCCGGGAAGACCTCTGGGGCATGGAATTCTTCAATGATCATCTCTACGTCGCGTCGACCCACTTCGTCTATCGCCTGGAAAACGGAAAGTTGAAGCCCGTCGATTTCGGCGATGACCTCCCCGAGTCCTGTTACCACCTGAGCGCGGCCGACGGAATCATGTGGTCGATTGGGGCTAAGGACCTTATGGAATTCGATGGAAGCGCATGGAAGCGAATACTGCGTATCGATTGA	MDTRDPRFSGFSIGTGTVRYSDLGYLVTTNDAAISEGHTGSLLFTLDRGTWGAGTVEWLACSGTVCHVPAERYLVLGTDGSVRASGGGAVKEEVPIGSCGVDPRKRGPLREIRGIAKGRAYAVGTCRQAYVRDGEGQWKCIDQSAQVGDVPITDTSFESIDGFDEQEIYTVGWEGEIWQYDGARFTQRTSPTNLALYKVRCADDGYVYACGQLGTLLRGRNDQWEIIEHDSTREDLWGMEFFNDHLYVASTHFVYRLENGKLKPVDFGDDLPESCYHLSAADGIMWSIGAKDLMEFDGSAWKRILRID				NA	NA	NA	NA	NA
BMS010_02303	1248			hypothetical protein	ATGGCAGCGATCGTGACAATGGTCGAGCAGCACGCCGAAGAAGCCGGCTTCCTCGCCGTCCTGCGTGACTACGCCCTACGCGCGCCACATTACGACCTGGACGACCTCGACAAACTCGACGACCGCCTCGACGCCCATCTCGACGGCCTGCGCATCGCTGGCTCCAGCGGCCTGGAAACCTTGCTGGCCCAGCTCGGCCCGCATGCCATCGGCGAGATGTTCGCCAGTGTGGTGCTGGCCTTCGAGTCGGGTAATGCAGAGGTCTTGGCACGGCTCAGCGAGCATTTGCGCAGTGCCGGGGAAACGGAGCGCGGCTATCTGATGGCCTTGGGTTGGCTCGACTGGGATCGGGTATCGCCCTGGATCGAGCGCATGCTCGCCTCTCCCGAGCCGCTGTTCCGACGTCTCGGCCTCGCTGCGTGCGGCATGCACCGGCACGATCCCGGCCCAGCGTTGCTCGCGGGGTTGTCTCATGCCGACTCCGGCGTGCTGGCTCGTTCGGCGCGGACGGCCGGGGAGCTGCGGCGGCGTGACCTGATGGCTGCCATTCGCGCGCACCGCCTGCATGCCGACGAAAACGTGCGCTTCTGGGCCAATTGGGCGACGGCACAGATGGGTGATGAGGAAGCGCTGGGGCCGCTCCGACATTTCGCCGAGCGGCCGGGTGAGCACCAAGACCGCGCCCTAAACGTGTTGCTCAGCTGGCAGAAGCGCGAGGCATCCATGGCCTGGTTGCGCAGTCTCGCGCCGAATGCCGAGCAACGCCGATTGGTGATCCAGGGTACCGGCCTGATCGGCGACCCGGTGAGTATTCCCTGGCTGATCCAGCAGATGGGCGACCTGTCCCATGCGCGGGTGGCTGGCGAGGCATTCAGCCTGATCACCGGGGCCGATCTGGCCTTGCTGGACCTGGAGTTGGTCGATACCCCCGACTACGACGCCGGCCCCACGGACGACCCACACGATCCCAACGTGGCCATGGACCCGGACCAGGACCTGCCCTGGCCCGACCCGCAGTTGGTGCAGGCCTGGTGGCAGACGAACCAGGGCAGTTTCCGGGCGGGAACGCCCTACCTGCTCGGCTCCCCCCTGAGTGAGCACCAATGCCTGCACGTACTGCACAAGGGCCAGCAGCGCCAACGCATTGCAGCGGCCTGCGCGTTGGCGCGGTTACGGCCGACCGAAGCGCTCTTTCCCACCAGCGCCCCGGCGAGACGGCAACAACGACTGCTGGCGGGGATGAGTTGA	MAAIVTMVEQHAEEAGFLAVLRDYALRAPHYDLDDLDKLDDRLDAHLDGLRIAGSSGLETLLAQLGPHAIGEMFASVVLAFESGNAEVLARLSEHLRSAGETERGYLMALGWLDWDRVSPWIERMLASPEPLFRRLGLAACGMHRHDPGPALLAGLSHADSGVLARSARTAGELRRRDLMAAIRAHRLHADENVRFWANWATAQMGDEEALGPLRHFAERPGEHQDRALNVLLSWQKREASMAWLRSLAPNAEQRRLVIQGTGLIGDPVSIPWLIQQMGDLSHARVAGEAFSLITGADLALLDLELVDTPDYDAGPTDDPHDPNVAMDPDQDLPWPDPQLVQAWWQTNQGSFRAGTPYLLGSPLSEHQCLHVLHKGQQRQRIAAACALARLRPTEALFPTSAPARRQQRLLAGMS				NA	NA	NA	NA	NA
BMS010_02304	171			hypothetical protein	ATGTTCGAGCCGAAGAACCTGTTCCCCCTGATCGCCCTATGCTTTGCCCTTGCGGCGGCGTGGCGATTGCTGCGATCAGGGGGAGACAGGCGTGATCCCGCGGCCCGGACTTGGCTGCTGATGGCGGTGATCTTCGGAGCCGTATCGCTGGTGTTGCGTTATTTTCTTTGA	MFEPKNLFPLIALCFALAAAWRLLRSGGDRRDPAARTWLLMAVIFGAVSLVLRYFL				NA	NA	NA	NA	NA
BMS010_02305	474			hypothetical protein	ATGGCCAGATACTGGCACATTATCTGCGGCGTGCTTGCGCTGATGTTCCTGGTGGGCTGTGCGCAAGCCGGCGCCGAGCGGGCGTCGACACCCGAAGCCAGTGCATCCGACCAGACCCTGGGCGAAGACTTCCGTACCTTGCGTGCCCGCCAGGGCCATTTCTCTGGCGGCAGTTGGAACCGCGACCTGGACCAATGGCAAGGGCAGAAACACCGGACGATGCAGGAGCTGTTGAAGCGGATTCTGGCGGGAGGCTACGACGCAACCCGCATGAGCGCCTTGCTGGGAGAGCCGGACCGAATTCTGCAACCTGCGGACCCGGACTACGGCTACCCCCTCGAACAGACGCAGTGGCAGGGCCAGCCCGAGGGCGACCTATGGCTCTATCACTGGCGAGGGGCACACGACCAACTGGTGTTCGCGGTGAAGGATGGTCGGGTTTTGGCCGGTGGATGGTTGTATGCCAGTGAGTGA	MARYWHIICGVLALMFLVGCAQAGAERASTPEASASDQTLGEDFRTLRARQGHFSGGSWNRDLDQWQGQKHRTMQELLKRILAGGYDATRMSALLGEPDRILQPADPDYGYPLEQTQWQGQPEGDLWLYHWRGAHDQLVFAVKDGRVLAGGWLYASE				NA	NA	NA	NA	NA
BMS010_02306	2175			hypothetical protein	ATGAAAGCCACAACGACCGCTCTCCCCTTGATGGCTCTTTTGGCCATGTCGATCGCCAGTGCAAACCTCCAGGCGCAGCCTGACAAGGCACGGGAACATGCACTCTTGCTGGAACAGGAAAAAGCCGTCACGAATATCTATAAAGTGCATTTTCCCAACCAGAAAATCGCCCGCAAGGCTGCAATTAGCTTCCACGAACAGTTGCTCGAATCGCATTACGAAGATGGCTATCTGGTCATGCAACTCGAACCCGAGGAAATGAAGAAGCTGGAAGTCTTCGGCTTTACCTTCTCTCCAGCCACGGAGTTCATGCAGAAGCGCAACGAGGTCCTCGACCAGCTCCAGCAGCGTGCCCAACTGGCGGCAGCCGGCGACGCCACCATCGCCGCCAAGCCGGGCATCACCGGCATTCCCGGCTACAGCTGCTACGAAACCGTCGAAGAGACCTTCGCTGCCGCCGAAGCCATGGCGGCGGAGCACCCGGACCTGGCGGAGTGGATCGACGTCGGCGACTCCTGGGAGAAGAGCCAGGGCCTGGGCGGCTACGACATCAAGGTGCTCAAGCTGACCAACAAGGCCACCGGCGGCGATAAGCCGAAGCTGTTCGCCAACAGCGCGATCCATGCCCGCGAATACACCACCGCACCGCTGAACCTCGCCTTCGCACGCTGGCTGATCGACGGTTACGGCAAGAACGCCGACGCCACCTGGATTCTCGACCACCACGAAGTGCACCTGATGCTGCACACCAACCCGGACGGCCGCAAGAAAGCCGAATCGGGCCTCTCCTGGCGCAAGAACACCAACCAGAACTATTGCGGTGCCACCAGCAACACCCGCGGCGCGGACCTCAACCGGAACTTCACATTCGGTTGGAACAGCACCAACGGCGAAGGCTCCAGCGGCGACGAATGCAACCTGACCTACCGCGGCCCCAGTGCCGGTTCCGAGCCGGAAATCCAGGCCATCGAAAACTATGTGCGCAGCATCTGGCCGGACCGCCGTGGCCCGAACCGGGGCGATGCGGCCCCTGCCGACACCAGCGGCATCCACCTCGACATCCACAGCTACAGCCGCCTGGTGCTGTGGCCCTGGGGCGACACCACCGAGCCGGCGCCCAATGCCACCGCGCTGCAGACCCTCGGGCGCAAGTTCGCCTTTTTCAACGGCTACAGCCCCGAACAGTCGGTCGGCCTCTACCCCACCGACGGCACCAGCGACGGCGTGAGCTACGGCGAGCTGGGCGTGGCGGCCTATACCTTCGAGCTGGGCACGCAGTTCTTCCAGAGCTGCTCGACCTACGAGAAGACCATCAAGCCGGATAACCTGCCGGCGCTGATCTACGCCGCCAAAGTGGTGCGTACGCCCTACCTGACCCCCGCCGGGCCCGACGTGACCACCGTCGCGGTGAGCGCCGAAGGGCCAGTGTCGGCCGGCGAGACCGTCACCTTGACCGCCCAGGTCACCGACAGCCGCTTCAACAACAGCAACGGCACCGAGCCGACCCAGAACATCGCCGCCGCCGAGTACTACATCGACAAGGCACCCTGGGAAGACGGCGCCATGCCGGTAGCCATGGCCGCGCAGGACGGCAGCTTCGACGCCAAGACCGAGACGGTCGATGCCAGCATCGATACCACCGGGATGACCGAAGGCAAGCACCTCGTCTATGTGCGTAGCCGCGATGTCGACGGCAACTGGGGTGCGGTTTCCGCCGTGTTCCTCGAAGTCGGCGCCGGTGGCGGGCCCGTCGAATACTGCGCGGCAGGCAGCAGCAACGCCGACAGCGAGTGGATCGCCAATGTCAGCGTGGGCGGCCTGAGCAACAGTTCGGGCGCAAGCCGCTACTCCGACTTCACCAGCCAGACCGCCACCCTGCAACGCGGCACCAACGCCCTGCGCCTAACCCCACAGTTCTCCGGTCGGGCCTACGGGGAGTACTGGAAGGTGTGGATCGACCTCAACCAGGACGGTGACTTCTCCGACCAGGGCGAGCAGGTGTTCAGCTCGGCGCGGGCGTCGTCGACGGTCGTCACCGGCAACCTGGTGGTGCCGGCCAACGCCACCAAGGGCAAGACCCGGATGCGCGTTGCCATGCGCTACAACAACGCCCCCGCGGCCTGCGGAACCTTCAACTACGGCGAGGTGGAGGACTACAGCGTCACCATCCAGTGA	MKATTTALPLMALLAMSIASANLQAQPDKAREHALLLEQEKAVTNIYKVHFPNQKIARKAAISFHEQLLESHYEDGYLVMQLEPEEMKKLEVFGFTFSPATEFMQKRNEVLDQLQQRAQLAAAGDATIAAKPGITGIPGYSCYETVEETFAAAEAMAAEHPDLAEWIDVGDSWEKSQGLGGYDIKVLKLTNKATGGDKPKLFANSAIHAREYTTAPLNLAFARWLIDGYGKNADATWILDHHEVHLMLHTNPDGRKKAESGLSWRKNTNQNYCGATSNTRGADLNRNFTFGWNSTNGEGSSGDECNLTYRGPSAGSEPEIQAIENYVRSIWPDRRGPNRGDAAPADTSGIHLDIHSYSRLVLWPWGDTTEPAPNATALQTLGRKFAFFNGYSPEQSVGLYPTDGTSDGVSYGELGVAAYTFELGTQFFQSCSTYEKTIKPDNLPALIYAAKVVRTPYLTPAGPDVTTVAVSAEGPVSAGETVTLTAQVTDSRFNNSNGTEPTQNIAAAEYYIDKAPWEDGAMPVAMAAQDGSFDAKTETVDASIDTTGMTEGKHLVYVRSRDVDGNWGAVSAVFLEVGAGGGPVEYCAAGSSNADSEWIANVSVGGLSNSSGASRYSDFTSQTATLQRGTNALRLTPQFSGRAYGEYWKVWIDLNQDGDFSDQGEQVFSSARASSTVVTGNLVVPANATKGKTRMRVAMRYNNAPAACGTFNYGEVEDYSVTIQ				NA	NA	NA	NA	NA
BMS010_02307	354			hypothetical protein	ATGATGGAGGACGACCAGATTCGTGCCGTGCGTTTTCTTCACGCCAGCGGCGGCGAAGATGACGCACAGGTCATCAACGAATCCGGTATCTATCGGGCTCTCGGTCGATACCCGCATCCGGAAAACCGCAGCCTGCGCCATTGGCTCAATGTCGAGGTGATCCCGGCGCTGCGCGATGCCTTTTCGGCCGATACGCAACAGCCTCGCCGTACCCAGATGACTTGGGCCTCGCAACGGGTGAGTCTGCTGGAATGGCAAGGCAAGCTGTGGATACCGCTGGACAGCCTGCCGTGGTTCGGGACACGGCCCATGGAGGAGGCTGGCGGCGGTTTGTTGAAGCGCTGGTTGCGCTAG	MMEDDQIRAVRFLHASGGEDDAQVINESGIYRALGRYPHPENRSLRHWLNVEVIPALRDAFSADTQQPRRTQMTWASQRVSLLEWQGKLWIPLDSLPWFGTRPMEEAGGGLLKRWLR				NA	NA	NA	NA	NA
BMS010_02308	144			hypothetical protein	ATGCACGACGCTCTCACCCCTCACATCTTCCTTCGCTACAACCGCCCTCTGCGCGGCGTGATGATCGACAACCAACCCTGGTTCGACGCCCAGGATTTCTGCCGCCTTATCGGCATCGCCATCCCCAGCGGATCACCCGGATGA	MHDALTPHIFLRYNRPLRGVMIDNQPWFDAQDFCRLIGIAIPSGSPG				NA	NA	NA	NA	NA
BMS010_02310	1332	rcsC_8		Sensor histidine kinase RcsC	ATGAGTACGCTCAGTGAGGTCGGGCCTCAGGAACATACCATCCTCATCGTCGACGATACGCCGGCGAACGTCGGCGTTCTAGCGGATTACCTGGAGGACCAGGGTTTTCGCGTGGTGGTCGCCCAGGACGGCGAGGAAGGCTTGAAACGCGCCGAGTTCGTACGGCCCGATCTGGTCCTGCTGGACGTGATGATGCCCGGCATCGACGGGTTCGAAACCTGCCGCCGCCTCAAGGCCGCCGAGCAAACGCGGGAGATACCGGTGATCTTCATGACCGCGCTGACCGACACCGGCAGCGTGGTGACCGGCTTCGGCGTCGGCGGAGTGGATTACGTCACCAAGCCGCTGCAGGTGGAAGAGGTGCTGGTGCGCGTCACCACCCACTTGAGCCTGCGCAACCTGCACAAGCAACTGACGGCGCAGAACCTGCGCCTGCAACAGGAAGTCGAGGACCGCCAGCGCGCGGAAGAGGCCCTGCGCAAGGTGGGGGAAGAACAGCAATCGCTGATCCGCAAGCTGCAGGAGGCCCATGACCAGTTGCTGCAATCGGAGAAGATGGCCTCCATCGGCCAACTGGCCGCCGGCATCGCCCACGAGATCAACAACCCGGTCGGCTTCGTCAGCTCCAACATGGGTGCGTTGCAGGACTACATCCAGACGCTGCTGGACCTGATCGACCGCTATGACGATGTGGTTGCCCAGGTGCCGGAGGGACGAGGCGTGCTGCATGACCTCGCACGGATGAAGCAGGACGCCGATATCGAGTTTCTCAAGAGCGACATCGTTGCCCTGATGGCGGAATCCAAGGAGGGGCTGAAACGGGTCAAGGACATCGTCCAGGCGCTCAAGGACTTCTCCCACGTGGGCGAGTCAGACTGGCTGGAAGCCGACCTGCACCACGGCCTCGACAGCACACTCAACATCGCCAACAACGAGATCAAGTACAAGGCGCGGGTGGTCAAGGAATATGGCGACTTGCCCAAGGTCACCTGCCTGGCCTCGCAGCTCAACCAGGTGTTCATGAACCTGCTGGTCAATGCCGCCCACGCCATCCAGGGCGAGGGCGTCATCACCATCCGCACCGGTGCTTCCGACGGCTGGGTGTGGGTCTCCATCCGCGACAACGGCGCCGGCATCTCCCCGGAGAACATGAACCGCATCTTCGAACCCTTCTTCACCACCAAACCCATCGGCAGCGGCACGGGGCTGGGCCTGTCGCTGTCCTACAGCATCGTGAAGAAGCACGGCGGGCGAATCGACGTGGAAAGCGAGTCAGGCAAAGGCACCTGCTTCACCGTGCACCTGCCGGTGCATCCGGAAACGGAGTCGTAG	MSTLSEVGPQEHTILIVDDTPANVGVLADYLEDQGFRVVVAQDGEEGLKRAEFVRPDLVLLDVMMPGIDGFETCRRLKAAEQTREIPVIFMTALTDTGSVVTGFGVGGVDYVTKPLQVEEVLVRVTTHLSLRNLHKQLTAQNLRLQQEVEDRQRAEEALRKVGEEQQSLIRKLQEAHDQLLQSEKMASIGQLAAGIAHEINNPVGFVSSNMGALQDYIQTLLDLIDRYDDVVAQVPEGRGVLHDLARMKQDADIEFLKSDIVALMAESKEGLKRVKDIVQALKDFSHVGESDWLEADLHHGLDSTLNIANNEIKYKARVVKEYGDLPKVTCLASQLNQVFMNLLVNAAHAIQGEGVITIRTGASDGWVWVSIRDNGAGISPENMNRIFEPFFTTKPIGSGTGLGLSLSYSIVKKHGGRIDVESESGKGTCFTVHLPVHPETES				NA	NA	NA	NA	NA
BMS010_02311	2214	rcsC_9		Sensor histidine kinase RcsC	ATGGCGTCAAAGGAAACCGGCCGGGCGATGCACCTGGGCTTGCGCGCCTCGATCGTGCTTTCCGTCATCGTCGGGCTGACGATCCCGGCCACGGTCAGCAGCTTCCTCACCCTGGGCTACCGCGAACAGGCTCTTAGCGAAAGTTTCACCGCCGAGCACCAGCGCCTCACCGAAATCCTCGCCCTGGGCATGCAGGAACCCCTGTGGAACCTCAACGACGAAGGCGGACGACCGCTATTCGAATCGCTGCTGGGCGACCCGCGCATCGTCTCCATCAGCGTCCGTGACGAGAACGGTATCGACTTCCTCAGTCGCGCCTATCCGGAGCGCCGTACCGGCCGGCAGTTCACCCTGGACCGCGACGTGACCAACGACGACAAGCTCATCGGCCACGTCAGCCTGGAAATGGACACCGGCATGCTCGACAGCCAGACTCGCATCGACCGCCGCATCCTGGCCTGGACGGTGACCGGGCAGTTGCTGCTCAGCCTGATCTTGATCGTCATCCTCCTCCAGCGACGTTTGCTGGCGCCGATCAAGCGCTTGATGGACGAGTCGGAGCGCCTGGCCCGTCGCGACCTGTCCCGGCCCTTCATCTGGCAGCGCCGCGACGAACTGGGCAGCCTCGGCGTCAGCCTGGAATCCACGCGCCAGGCGCTGCAGGCGCTGTTCAGCGAACTGGAAACGAAGAACCAGGCGTTGCAACAGGACATCGAGCGGCGTGCCCTGATCGAGCAGGAACTGCAAAGCCACCGGGCCCACCTGGAAGAGCTGGTGCAGAAGCGCACCGAAGAGCTGCTCGCCGCCAAAGAGCGGGCCGAGGTGGCGAATCAGGCAAAAAGTACCTTCCTCGCCAGCATGACCCACGAATTGCGCACACCGTTGAACGCCATCCTCGGCTACGCTCAATTGCTCAAGCGCGACAAGGCCCTGACCGAGCGGCAGGCGGTGGGTTTGCAGACCATCCAGCAGAGCGGCGAACACCTGCTGATGCTGATCACCGACCTGCTGGACCTGGCCAAGATAGAGGCGGGCAAGTTCGAGCTCTTCCCCAGCGCAGTCAGCCTCAACGTCTTCCTCATGGGCATCGCCGACATCATCCGGGTTAAATCAGAGCAAAAGGGCCTGAATTTCAACCTTCATCTGGCGCCGAACCTGCCAGCGGTGGTGCTGTTGGATGAAAAACGCGTGCGTCAGGTCCTGTTGAACCTGCTGGGCAACGCGGTGAAATTCACCGACAGCGGCTACGTCAGCCTGCGCGTGGAGGTGAAGCAGCAGGACGAAGCGACCTGCCGGTTGTGCTTCGAGGTACAGGACAGCGGCATCGGCATGGATGACAGTCAGTTGGAAAGCATCTTCCAGCCCTTCGAGCAGGTCGGCGAGTCGCAGCGCCGTTTCGGCGGCACCGGCCTGGGGCTGTCCATCAGCCGCCAACTGGTGCGCCTGATGGACAGCGACATCCAGGTCTCGAGCACAGCCGGCAGGGGCAGCACCTTCTGGTTCGAACTGAGCGTGCCGCTGAGTGACGATGCGGTGATGACTCCGCAGACGGAGCTGAGCGTGATCGGTTACCGGGGCGAGCCGAAGACCATTCTGGTGGTCGACGACATCGCGGCGAACCGTGAACTGCTCAAGGACCTGCTCGGCTCCCTGGGCTTCCACATTCACCTGGCGGAAAACGGCGAAGAGGGCGTGGCCCGCGCCCGTGAGATCAGGCCCGATGCGATTCTCATGGATATCGTGATGCCCGTGATGAACGGCCTGGAGGCGACACGGCACATCCGTGAGCTGGCCGGGCTTGAACATGTACCGATCATCGCCATTTCCGCCAGCGTCACCCCGGAGGACCAGAATCAAAGCCTGGTTGCGGGAGCCAACGTGTTCATGACCAAGCCGGTGCAACAGAATCGCCTGCTGCATGTGATCGGCGAACTGCTGGGCTTGGAGCTGATCCATGACGACACGCCCGAGGCCGTCGAGGAGGAAACCACCGCAGCGGCATTCGTGGCGCCCCCGCAGAGCGAACTGAATGTGCTGTACGAACTGGCGCTGGTGGGCAACATGCGTGATATCCGGCGCCACGCCGATCACATCGAACAGGTGGATGCCGCGTTGAAACCGTTCGCCGAGAAACTGCGTCAACTGGCGAAGGAATATCGCTCCAAGGCGATTCTCGAGCTGGTCGAAGCCTGTGTGGAACGGAGTAGCCAATGA	MASKETGRAMHLGLRASIVLSVIVGLTIPATVSSFLTLGYREQALSESFTAEHQRLTEILALGMQEPLWNLNDEGGRPLFESLLGDPRIVSISVRDENGIDFLSRAYPERRTGRQFTLDRDVTNDDKLIGHVSLEMDTGMLDSQTRIDRRILAWTVTGQLLLSLILIVILLQRRLLAPIKRLMDESERLARRDLSRPFIWQRRDELGSLGVSLESTRQALQALFSELETKNQALQQDIERRALIEQELQSHRAHLEELVQKRTEELLAAKERAEVANQAKSTFLASMTHELRTPLNAILGYAQLLKRDKALTERQAVGLQTIQQSGEHLLMLITDLLDLAKIEAGKFELFPSAVSLNVFLMGIADIIRVKSEQKGLNFNLHLAPNLPAVVLLDEKRVRQVLLNLLGNAVKFTDSGYVSLRVEVKQQDEATCRLCFEVQDSGIGMDDSQLESIFQPFEQVGESQRRFGGTGLGLSISRQLVRLMDSDIQVSSTAGRGSTFWFELSVPLSDDAVMTPQTELSVIGYRGEPKTILVVDDIAANRELLKDLLGSLGFHIHLAENGEEGVARAREIRPDAILMDIVMPVMNGLEATRHIRELAGLEHVPIIAISASVTPEDQNQSLVAGANVFMTKPVQQNRLLHVIGELLGLELIHDDTPEAVEEETTAAAFVAPPQSELNVLYELALVGNMRDIRRHADHIEQVDAALKPFAEKLRQLAKEYRSKAILELVEACVERSSQ				NA	NA	NA	NA	NA
BMS010_02312	963	paoD	COG1975	Molybdenum cofactor insertion chaperone PaoD	ATGGACAGTGCCGACCTCGAGGTTCTGCGCAGCATCCTGGCCTGGCGGCGCGATGGCCGGCGCGTGCTGCTCTACAACGTGGTGGAGACCTGGGGCAGTGCGCCCCGGCCTCCGGGCGCGATGCTGGCCATGCGCGGCGATGGCCGGTTGGTGGGCTCGGTGTCGGGCGGCTGCATCGAGGACGATCTGGTCGCCCGTCTGCATGACGGGCGCCTGCCGCCAGGCAAGGTGGGTGCCGAGCTGCTTACCTACGGCGTGACCCGCGAGGAGGCCGCCCGCTTCGGCCTGCCGTGCGGCGGTACCCTGCGCCTGACCGAGGAGGAGGTGGCCGATCCCGCCTGGGTCGCCGAACTGCTGGAGCGCTGCGAAGGGCATGAAGTGGTCGTCCGCGAGCTGCATCTGGCCAGTGGCACGACCCGCCTGCGTCCGGCGGACCGCGACGAGGCGCTGAGCTTCGACGGCGAAACCCTGCGGGCGCTCTACGGGCCGCGTTGGCGGTTATTGCTGATCGGCGCGGGGCAGCTGTCGCGCTACGTCTGCGAAATGGCGCGGATGCTCGACTTCGACGTGCTGGTCTGCGATCCGCGCGAAGAGTTCGCCCATGGCTGGGAGGACCTGCGCGCCCGCTTCGTCGCCGGCATGCCGGACGATGCCGTACTGGCCATCGAACCGGACGAACGCACCGCCATCGTTGCGCTCACCCATGACCCACGCCTCGACGACATGGCGCTGCTCACCGCGCTGACGTCGCGCGCCTTCTACGTCGGGGCACTGGGTTCGCGGGTGAATAACCGCAAACGCCGCGAACGTCTGGCATCGCTCGGCCTCACAGGAGGTGAAATCGCACGCCTGCACGGCCCGGTCGGCCTGCCCATCGGCAGCCATACCCCGGCGGAAATCGCGTTGTCGCTGCTGGCGGAAATCGTTGCACTGAAGAATGGTGCGGGGGATGCCTTCCTGTAG	MDSADLEVLRSILAWRRDGRRVLLYNVVETWGSAPRPPGAMLAMRGDGRLVGSVSGGCIEDDLVARLHDGRLPPGKVGAELLTYGVTREEAARFGLPCGGTLRLTEEEVADPAWVAELLERCEGHEVVVRELHLASGTTRLRPADRDEALSFDGETLRALYGPRWRLLLIGAGQLSRYVCEMARMLDFDVLVCDPREEFAHGWEDLRARFVAGMPDDAVLAIEPDERTAIVALTHDPRLDDMALLTALTSRAFYVGALGSRVNNRKRRERLASLGLTGGEIARLHGPVGLPIGSHTPAEIALSLLAEIVALKNGAGDAFL	PGPT0007280_2079	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-XANTHINE_METABOLISM	PHYTOHORMONE-XANTHINE_BIOSYNTHESIS,PGPT0007280-xdhC|paod|ygeB|pucA-K07402	NA	NA
BMS010_02313	2319	iorB_1		Isoquinoline 1-oxidoreductase subunit beta	ATGAGCACGCTGCCCATGGATGATTTCGCCGTCGCCAACCTCAGCCGTCGCGGTTTTCTCAAAGGCTTGGGGGTGACTGCCGGCGCACTGGTGATCGCAGCCAACTGGGGCTGGCGCGATGCCTTCGCCGAAGAAAAGAAAAGCTACGGCGCCGATGGCATGCCCAACGGCTGGCGCGACGATCCCAAGGTATTCCTCAGCATCGCCGCCGATGGCGTAGTGACCTTCGTTTGCAGCCGTTCGGAAATGGGGCAGGGCGTGCGTACCAGCCTGGCCATGGTGGTGGCCGACGAGCTGGAGGCCGACTGGGCGTTCATGCGGGTGATCCAGGCGCCGGGCGACGAACAGCGTTTCGGTAACCAGGACACCGACGGCTCGCGCAGCATGCGCCACTGGTACGAACCGATGCGCCGCTGCGGGGCGGCGGCACGGGCCATGCTGGAACAGGCGGCCGCCAATCGGTGGCAGGTTCCGCTGGCGGAATGCCAGGCACGTGAACATCGCGTCGTCCACCAGCCGAGCGGGCGTAGCCTGGGCTTCGGCGAGCTGGCCGAGGCAGCATCGAAATTGGATGTCCCGCCACGCGACAGCCTGAAACTCAAGTCACCGGAGCAGTTCCGCTTCATCGGCAAGGAATCGACACGTGCCATCGACGGCGCCGACATCGTCAACGGCCGCGCCGTCTACGGGCTGGACCCGCGCTTCGAGGGGATGCTCTACGCCGTGGTCGCACGGCCGCCGGTATACGGCGGCAAGGTGGTGCGCTACGACGACAGCGCCACCTTGAAGGTCCCCGGTGTGGTCAAGGTGATCGAAATCGCCGGCTCGCCGCTGCCCTCCGAGTATCAGCCCCTGGGCGGTGTGGCGGTGGTGGCGCGCAATACCTGGGCGGCGATCAAGGGCCGCGAGGCGCTGAAGGTCGAGTGGAACGACGGCCCCAACGCCGCCTACGAGTCGCGCGCCTACCGCGACAGCCTGAGCAAGGCTGCCCATGCGCCGGGCAAGGTGGTGCGCGACCTCGGTAACGTCCAGGCGGTTTTCGATCAAGCCAGCCAAGTGCTGGAGGCCGAATACTACATCCCGCACCTGGCCCAGGCGCCCATGGAGCCGCCGGTGGCCACGGCGATCGTCAACGACGGGACCTGCGAGGTCTGGGCGCCGACCCAGGCGCCGCAGGCCACCCGCGAGCGACTCGCCGACCGATTGGGCATTCCCTTCGACAAGGTCACTGTCAACGTGACCCTGCTCGGCGGCGGCTTCGGCCGCAAATCCAAGCCGGACTTCGTGATCGAGGCGGCGCTGCTGGCTAAGGAATTCCCCGGAACCCATCTGCGGGTGCAGTGGACCCGTGAGGATGACCTGCACTGCTCCTATTTCCACACCGTGTCGGTGGAGTACCTGCGTGCCGTATTGGGCAAGGAGGGGCGTCCCGAAGCCTGGCTGCACCGCAGTGTGGCGCCGAGCATCTCGGCCTTGTTCGGCCCTGATCCTAAGCACGAGTCGCCCATCGAGTTGGGCATGGGCGTTCTCAACCTGCCGTTCGCCATTCCCAATCTGCGCCTGGAAAACCCCGAGGCCGCTGCCCATACCCGGGTCGGTTGGTTCCGTTCGGTCTCCAACATCCCCCATGCCTTTGCCATCCAGAGCTTCATCGCCGAGCTGGCGGCCAGCGCCGGCGTGGATCACAAGGCGTACCTGCTGCAACTGCTCGGCCCGGACCGCAAGATCGACCCGCGCAGCCTCGGCGACGAGTGGAACCATGGCGAATCGCCCGAGCTGTACCCCATCGACACCGCCCGCCTGCGCGGCGTGATCGAAAAGGCCACCCAGGAAGCCGGCTGGGGCAAGAAGCAGGAGAAGGGGCGCGGGCTCGGCCTGGCAGTGCACTACAGCTTCGTCACCTACGTGGCCGCCGTGCTGGACGTGGAGGTGAAGGACGACGGCGCACTGCTGGTCCACCGCGCCACCATCGCCGTGGACTGCGGCCCGCAGATCAACCCCGAGCGCATCCGTTCGCAGATGGAGGGCGCCTGCGTGATGGGCATTGGCAATGCGGCGCTCGGCGAGATCAGCTTCGCCAATGGCCGGGTCCAGCAGGACAACCTGCACATGTTCGAAGTGGCGCGCATGCCCCTGGCGCCAAAGGACGTCGCCGTGCACCTGGTGCGCCCGGCCGGTGAGGTGCCGCTTGGCGGCGTCGGCGAGCCGGGCGTGCCGCCGATTGCGCCGGCGCTGTGCAACGCTATCTTCAACGCCACCGGCAAGCGCATCCGCGACCTGCCGATCCGTGCGCAGTTGAAAGACTGGCGGAGCGCCTGA	MSTLPMDDFAVANLSRRGFLKGLGVTAGALVIAANWGWRDAFAEEKKSYGADGMPNGWRDDPKVFLSIAADGVVTFVCSRSEMGQGVRTSLAMVVADELEADWAFMRVIQAPGDEQRFGNQDTDGSRSMRHWYEPMRRCGAAARAMLEQAAANRWQVPLAECQAREHRVVHQPSGRSLGFGELAEAASKLDVPPRDSLKLKSPEQFRFIGKESTRAIDGADIVNGRAVYGLDPRFEGMLYAVVARPPVYGGKVVRYDDSATLKVPGVVKVIEIAGSPLPSEYQPLGGVAVVARNTWAAIKGREALKVEWNDGPNAAYESRAYRDSLSKAAHAPGKVVRDLGNVQAVFDQASQVLEAEYYIPHLAQAPMEPPVATAIVNDGTCEVWAPTQAPQATRERLADRLGIPFDKVTVNVTLLGGGFGRKSKPDFVIEAALLAKEFPGTHLRVQWTREDDLHCSYFHTVSVEYLRAVLGKEGRPEAWLHRSVAPSISALFGPDPKHESPIELGMGVLNLPFAIPNLRLENPEAAAHTRVGWFRSVSNIPHAFAIQSFIAELAASAGVDHKAYLLQLLGPDRKIDPRSLGDEWNHGESPELYPIDTARLRGVIEKATQEAGWGKKQEKGRGLGLAVHYSFVTYVAAVLDVEVKDDGALLVHRATIAVDCGPQINPERIRSQMEGACVMGIGNAALGEISFANGRVQQDNLHMFEVARMPLAPKDVAVHLVRPAGEVPLGGVGEPGVPPIAPALCNAIFNATGKRIRDLPIRAQLKDWRSA	PGPT0009811_265	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-QUINOLINE_RESISTANCE,PGPT0009811-iorB-K07303	NA	NA
BMS010_02314	468	iorA_1		Isoquinoline 1-oxidoreductase subunit alpha	ATGATTACCCTGAACCTGAACGGCAAGGATCACGAACTCGATGTCCCGGACGATATGCCCCTGCTGTGGGCCATTCGTGACGTGGTGGGTTACAGCGGCACCAAATTCGGCTGTGGCATGGGCCTCTGCGGCGCCTGCACCATTCATATCGACGGCCAGGCCATGCGCTCCTGCATCACCCCGGTGGGGCAGGCGGTCGGCAAGGCGGTGACCACCATCGACGCACTCCATGGCGATCCGGTCGGCCAGGCGGTCCAGCAGGCCTGGCTGGACGTCGGCGTGGCGCAATGCGGCTACTGCCAGGGCGGGCAGATCATGTCCGCCACCGCGCTGCTGAGGAGCAACCGCAACCCGGACGACGCACAGATCGAAGCGGCCATGGCCGGCAACATCTGCCGCTGCGGGACCTACAACCGCATCAAGACGGCGATCCATAGCGCCGCCGGCAAACTGGAGGCCAAGGCATGA	MITLNLNGKDHELDVPDDMPLLWAIRDVVGYSGTKFGCGMGLCGACTIHIDGQAMRSCITPVGQAVGKAVTTIDALHGDPVGQAVQQAWLDVGVAQCGYCQGGQIMSATALLRSNRNPDDAQIEAAMAGNICRCGTYNRIKTAIHSAAGKLEAKA	PGPT0009812_645	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-QUINOLINE_RESISTANCE,PGPT0009812-iorA-K07302	NA	NA
BMS010_02315	891	pgrR_4		HTH-type transcriptional regulator PgrR	ATGAAGTTCACCCGCGCGGACGTTTCCGACCTCACCACCTTCTCCACCATCGCCCGCCACCGCAGCTTCCGCCGCGCGGCGCTGGAACTCGGCGTCTCCACATCGGCGCTGAGCCACAGCATCCGTGCCCTGGAGGAACGCCTGGGGGTGCGCCTGCTCAACCGCACCACCCGCAGCGTGGTGCCGACGGAGATCGGCGAACGCCTGCTGAGCCGCCTGGAGCCCGCCTTTCGCGACATCGCCGAGGCCCTGGAGGAGGTGAACGAGGCCCGCGGCGAACCGGCCGGCACCTTGCGCCTGAATGTACCCCGGCTCGCCGCCCAGTTCCTGCTGGCGCCGCGGATGTCCGAATTCCTGCGGCGCTACCCGCTGATCAAGTTGGAAATCATCGCCGAGGACCGCCTGATCGACGTGGTGGAAGGCGGCTACGACGCGGGCATCCGCTTCGGCGACAGCCTGCCGAAGGACATGGTGGCCATCCCGGTCAGCCCCGAGCAGCGCTTCCTGGTGGTGGGTTCGCCCGAGTATTTCGCCGACCATCCCCGTCCGCTACACCCGCAGGACCTGCGCCAGCATGCCTGCATCCGCTGGCGACTCTCCCTCGGCGGCAACTATCGCTGGGAATTCGCCAAGGACGGCCAGGCGCTGGAAATGGAGCTGGATGGCCCATTGGTGATCAACGATACCCAGCTCAACAGCCAGGCGGCGCTGGAAGGCATCGGCCTCGCCTATTGCATGGAAACCGAAGTCGCGGAGCACCTGGCCACGGGCCGCCTGATCGCCGTGCTGGAAGACTGGTGCCCGACGATTCCCGGCTTCTTCCTCTACTACCCCAGCCGCCGCCAAGTGCCGGCCGGTCTGCGTGCGCTGATCGAGCTGCTGCGCGTCTGA	MKFTRADVSDLTTFSTIARHRSFRRAALELGVSTSALSHSIRALEERLGVRLLNRTTRSVVPTEIGERLLSRLEPAFRDIAEALEEVNEARGEPAGTLRLNVPRLAAQFLLAPRMSEFLRRYPLIKLEIIAEDRLIDVVEGGYDAGIRFGDSLPKDMVAIPVSPEQRFLVVGSPEYFADHPRPLHPQDLRQHACIRWRLSLGGNYRWEFAKDGQALEMELDGPLVINDTQLNSQAALEGIGLAYCMETEVAEHLATGRLIAVLEDWCPTIPGFFLYYPSRRQVPAGLRALIELLRV				NA	NA	NA	NA	NA
BMS010_02316	1836	ftsH4		ATP-dependent zinc metalloprotease FtsH 4	ATGAACAAGCAGCATCAATGGAACGTTGGCTACTTCCTGATCGCCTTCGCGGTGCTCCTGATGTTCCAGGAATGGTGGGCATCGCGTAACGCCGTCGAGGCCCTGCCCTACAGCGAATTCGTGCGTCTGCTGAAGCAGGACAAGCTCACCGAGCTGGTGGTCGAGCAGCGGCAGATCAGCGGCAAGCTCAAGGAGCCGGTCAACGGCCGCAACTACTTCATCACCGAGCGGGTCGAGCCCGACCTGGCGGACGAACTGGCGGCAACCGGCGTGACCTTCCGCGGCAAGGCGGAAAACACCGTGCTCGCCAGCATCCTCGGCTGGGTGCTGCCGTTCATCCTGATCGTCGCGCTGTGGAGCTTCTTCTTCCGCGGTATCGCCGAGAAGCAAGGCTTCGGCGGGTTGGTCAACGTCGGCAAGTCCAAGGCCAAGGTGTTCGTCCAGCGCGATACCGGCGTGACCTTCGCCGATGTCGCCGGTATCGACGAGGCCAAGGCCGAGCTGGAGGAGGTGGTGTCCTTCCTCAAGGACCAACCCAGATACAGTCGCCTCGGCGCGCGGATTCCCAAGGGCATCCTGCTGGTCGGCCCGCCCGGCACCGGCAAGACGCTGGTGGCCAAGGCCGTCGCCGGAGAGGCCGGTGTGCCGTTCTTTTCCATCTCCGGTTCGGAGTTCGTCGAGATGTTCGTCGGGGTCGGTGCCGCGCGGGTCCGCGATCTGTTCGAGCAGGCTCGCAAGGCGGCGCCCTGCATCATCTTCATCGATGAGCTGGACGCCCTCGGCAAGATGCGTGGCGTCGGTGCCTTTGGCGGCAACGACGAGAAAGAGCAGACCCTCAACCAGTTGCTCGCCGAGCTGGACGGGTTCGACCCACGCGAAGGCGTGGTGCTGCTGGCCGCCACCAACCGCCCGGAAATCCTCGACCCCGCCCTGCTCCGCGCCGGCCGCTTCGACCGCCAGATCGTGGTCGACCGACCGGACCACAAGGGCCGGGCGGCGATCCTCCAGGTACACATGAAACGCATCAGCGCCAGCCAGGACGTGGATGTCGATCGGATTGCCGGAATCACCATCGGCTTCACCGGTGCCGATCTCGCCAACCTGGTCAACGAAGCGGCGATCACCGCGACCCGCCGAGGCGCGGAAACGGTCGGCATGGCCGATTTCACGGCGGCGGTGGAACGCCTGGTCGCCGGTGCCGAGCGCAAGGGCCGCCTGTTGCAGCCCCACGAACGCGAGGTGGTGGCGCATCACGAAATGGGCCATGCCCTGGCGGCGGCATTGCTGCCCGGCATGGACCCGGTGCACAAGGTTTCGATCATCCCGCGCTCCATCGGAGCCCTGGGCTACACCCTGCAACGGCCCACCGAGGACCGCTTCCTGATCACCCTGCAGGAGCTGAAGAGCCGCATGGTGGTACTGCTCGCCGGCCGCGCCGCCGAAGAACTGGTATTCGCCGAGGTTTCCACCGGCGCCGCCGACGATCTGGCCAAGGTTACCGATATCGCCCGGCAGATCGTCACCCGCTTCGGCATGAGCGAGCTGCTCGGCCAAGCGGTGCTGGAACGGCAGAGCGCCAGCTACCTCGGCGATCACATGATCGGTGTACGCGAGAAGGACTTTTCCGAGCAGACCGCGCGGGAGATCGATCTGGCCGTCAAAGGGCTGATCGACGAAGCCTATGCACAGGCCAAGGAATTGCTCGCCACCCACCGGGACGACCTGGGACGCGGCGCCCGCCTGCTCCTGGAGAAAGAAACCCTGACTCCGGACGACTTTCCACCGTTGCGCCCGGCGATAAGCAACGTGAAGTTGGCGGCGATCCGGCAGGCTTAG	MNKQHQWNVGYFLIAFAVLLMFQEWWASRNAVEALPYSEFVRLLKQDKLTELVVEQRQISGKLKEPVNGRNYFITERVEPDLADELAATGVTFRGKAENTVLASILGWVLPFILIVALWSFFFRGIAEKQGFGGLVNVGKSKAKVFVQRDTGVTFADVAGIDEAKAELEEVVSFLKDQPRYSRLGARIPKGILLVGPPGTGKTLVAKAVAGEAGVPFFSISGSEFVEMFVGVGAARVRDLFEQARKAAPCIIFIDELDALGKMRGVGAFGGNDEKEQTLNQLLAELDGFDPREGVVLLAATNRPEILDPALLRAGRFDRQIVVDRPDHKGRAAILQVHMKRISASQDVDVDRIAGITIGFTGADLANLVNEAAITATRRGAETVGMADFTAAVERLVAGAERKGRLLQPHEREVVAHHEMGHALAAALLPGMDPVHKVSIIPRSIGALGYTLQRPTEDRFLITLQELKSRMVVLLAGRAAEELVFAEVSTGAADDLAKVTDIARQIVTRFGMSELLGQAVLERQSASYLGDHMIGVREKDFSEQTAREIDLAVKGLIDEAYAQAKELLATHRDDLGRGARLLLEKETLTPDDFPPLRPAISNVKLAAIRQA				NA	NA	NA	NA	NA
BMS010_02317	480	srpB_1	COG1285	Protein SrpB	ATGAGCTGGTGGCAGACGGTCGCGGCGACGCTGGCGGAAGAATTTTCCGATTTGACCGATGCGGCTCAACTCACGCGTTTCAGCGTGCGCATGCTGCTGGCCGCGCTGTTGGGTGGCCTGCTCGGCTGGGAGCGCGAGCAGAAGGGCAAGGCGGCAGGGCTGCGGACCCACATGCTGGTCGCCGTGGGGGCCGCGTTGTTCGTGATGGTGCCGCAGCAGGCCGGCACTTCGGCGGCGGACCTGAGCCGGGTGATCCAGGGCGTCATCGCCGGCATCGGCTTTCTCGGCGCCGGCAGCATTCTCAAGGGCAGCGACGAAGAACACGTGAAAGGGCTGACCACCGCCGCCAACATCTGGCTGACCGCAGCCATCGGCGTGGCCGTGGGGCTGGGGCGGGAAACCTCGGCGATCCTCGCCACGCTGCTGGCCCTGGTCGTCCTGGTGTTCCTGAGCAGGGTGGAGCAGAGCGGCAAGGACTGA	MSWWQTVAATLAEEFSDLTDAAQLTRFSVRMLLAALLGGLLGWEREQKGKAAGLRTHMLVAVGAALFVMVPQQAGTSAADLSRVIQGVIAGIGFLGAGSILKGSDEEHVKGLTTAANIWLTAAIGVAVGLGRETSAILATLLALVVLVFLSRVEQSGKD	PGPT0014005_2553	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014005-mgtC-K07507	NA	NA
BMS010_02318	225			hypothetical protein	ATGGCGGTCGAAATCGACATCGACAATGCTTCCTGTCGTTTCAGCGTGGAAGGCATCGAATACCACAAGCCGCTCTCCGAGGTGCGCATCGCCACCGATTCGCAGGCGCGCATGTCGGTATTGGAAAGCGGCGCGGCCCGCCTGCTGATTTCCGAGGACGAAGCCCAGCGCCTGGTGGCGGCCGGCGCGGCGGACGAGCGTCGGAACCTGATCGAGGATGCGTGA	MAVEIDIDNASCRFSVEGIEYHKPLSEVRIATDSQARMSVLESGAARLLISEDEAQRLVAAGAADERRNLIEDA				NA	NA	NA	NA	NA
BMS010_02319	1470	ttgC_1	COG1538	putative efflux pump outer membrane protein TtgC	ATGAACGCTTTTCTCCTTGATCGATTCAATGCCTGTCGGCAGCTCGCGCAGGCCGGCGGTGCGGTGCTTTTTGCCGTGCTGCTCGCCGGTTGCACCCTCGGTCCGGACTACCAGCGGCCTGAGCTGACGGTGCCCGCACAGTACCGCGAGACCGAAGGCTGGAAGCCAGCGCAACCGGCCGATGCCGTGGAGCGGGGGGCCTGGTGGTCGCTGTACGGCGATGCCGAGCTGGACGCATTGGTCCAGCGGCTCAATCTGAACAACCAGAACGTCGCTTCCGCCGAGGCGCAGTACCGCCAGGCCCGCGCTCTGGTGCGCAGTGCGCGGGCCGGATTCTTCCCGACGCTCTCCGGCAACGCCGGTGTGACCCGTTCCGGTCGAGGTGGCGGCGACAGCAGCGTGACCACGGCGAACGGCCAGACCTTCAGCACCTCCAGCGGCGGCGTTTCGAAGAATTACGACGCCAGTCTGGGCGTGAGCTGGGAGCTGGATCTGTGGGGCAAGCTGCGCCGCAACCTGGAGGCCAACCGCGCCAGCGCCGCGGCCAGCGAAGCCGACCTTGCGGCGATGCGCCTGAGCATGCAGTCCGAACTGGTGCAGAACTACCTGCAACTGCGCGTGCTGGATGAGCAGAAGCGCCTGCTGGATGCCACGGTCACGGCCTACGAGCGCTCCCTGCGACTCACCGAAAACCAGTACCGCGCGGGCATCGTGCCGAAGTCCGACGTCACCCAGGCGCAGACCCAACTGAAGAGCACCCAGGCCGAGGCCATCGACCTGGAATGGCAGCGCGCCCAGCTCGAACATGCGCTGGCGGTGCTGATCGGCGTTCCGCCGGCGGAGTTCGCCATAGCGCCGCGCGAGGCGGTGCCGAACCTCCCGGCGCTGCCCGCGGGCGTGCCGTCGCAACTGCTGGAACGCCGCCCGGACATCGCCGCCGCCGAGCGCCGAGTGATGGCCGCCAATGCGCAGATCGGCGTCGCCGAGGCCGCCTGGTTCCCGGACCTCACTCTGTCCGCCAGTGGCGGCTACAGCGGCAGCAGCTTCGCCGACTGGTTCGAGGTGCCGAACCGTTACTGGTCGCTGGGGCCGCAACTGGCCCTGACCCTGTTCGACGGCGGTGCTCGCCGTGCCGAGCTGGAGCGTAGCGAAGCCAGCTACGACCAGACCGTGGCCGAATACCGCCAGGCCGTGCTCGATGGCTTCCGCGAGGTGGAGGACTATCTGGTGCAATTGCGTGTGCTGGAGCGCGAGGCTCAAGTCCGCCAGGACGCCCTGGACGCTGCCCGCGAGTCGCTGCGCCTGATCGAGAACCAGTACCGCGCCGGTACCGTGGACTACAACAGCGTGGTCACCGTCCAGGCCACGACCCTGAACAACGAACGCACCGCCCTGAGCCTGCTGGGCAGCCGCCTCACCGCCAGCGTACAACTGATCACCGCAATGGGTGGAGCATGGGGCGAACACTGA	MNAFLLDRFNACRQLAQAGGAVLFAVLLAGCTLGPDYQRPELTVPAQYRETEGWKPAQPADAVERGAWWSLYGDAELDALVQRLNLNNQNVASAEAQYRQARALVRSARAGFFPTLSGNAGVTRSGRGGGDSSVTTANGQTFSTSSGGVSKNYDASLGVSWELDLWGKLRRNLEANRASAAASEADLAAMRLSMQSELVQNYLQLRVLDEQKRLLDATVTAYERSLRLTENQYRAGIVPKSDVTQAQTQLKSTQAEAIDLEWQRAQLEHALAVLIGVPPAEFAIAPREAVPNLPALPAGVPSQLLERRPDIAAAERRVMAANAQIGVAEAAWFPDLTLSASGGYSGSSFADWFEVPNRYWSLGPQLALTLFDGGARRAELERSEASYDQTVAEYRQAVLDGFREVEDYLVQLRVLEREAQVRQDALDAARESLRLIENQYRAGTVDYNSVVTVQATTLNNERTALSLLGSRLTASVQLITAMGGAWGEH	PGPT0028955_625	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-CHLORAMPHENICOL|TRIMETHOPRIN_EFFLUX_PUMP_BpeEF-OprC,PGPT0028955-oprC|opcM-K18903	NA	NA
BMS010_02320	3105	mdtC_2	COG0841	Multidrug resistance protein MdtC	ATGAACCTGTCCGCGCCCTTCATCCTCCGTCCGGTCGCGACGCTGCTGCTGAGCCTGGCGATCCTCCTGCTCGGCGGGCTGAGCTTCGGGCTGCTGCCGGTGGCGCCGTTGCCGAAGATGGATTTCCCGGCCATCACCGTGCAGGCCAACCTGCCGGGGGCCAGTCCGCAGATCATGGCGGCGACGGTGGCGACGCCGCTGGAGCGGGCCCTCGGCACCATCGCCGGGATCAGCGAGATGACCAGCCGCAGCAGCCAGGGCTCGACGCGGATCATCATCCTCTTCGATATCGACCGCGACATCGACGCCGCCGCCCGTGAGGTGCAGGCGGCGATCAACGCAGCGCGCAATCTGCTGCCCAGCGGCATGCGCAGCATGCCCACCTACCGCAAGGTCAACCCATCGCAGGCGCCGATCATGGTGCTCTCGCTGACCAGTGATGTGCTCAGCAAGGGCCAGCTCTACGATGTCGCCTCCACCCTGGTAGCGCAGAAGCTGTCCCAGGTGGCGGGGGTCGGCGAGGTGCAGATCGGCGGCAGTTCGCTGCCGGCGGTGCGGGTGTCGTTGGAGCCGCGCTTGCTGGATCAATACGGCATCGCTCTGGACGACGTGCGCCAGGCGATCACTTCGGCTAGCGCGCAACGGCCGAAGGGGGAGGTAGAGGATGACCAACGCCACTGGCAGGTGCAGGCCAACGACCAGCTTGACCGCGCCGCCGACTATGCACCGCTGATCATCCGCCAGCAGAGCGGCGCCAGCGTGCGCCTGGGCGACGTGGCGACGGTGGTGGACGGGGTGGAGGACCGCTACAACAGCGGCTTCTACAACGACGAACAGGCCGTGCTGGTGGTGATCAACCGCCAGGCCGGCGCCAACATCATCGAGACCATCTCGGACATCCGCGCCCAACTGCCAGCGTTGCGCGAAGTGATCCCCGCCAGCGTCGAGCTGGAAGTGGCAATGGACCGCTCACCGGTGATCCGCGCCACCCTGCACGAGGCGGAACGCACCCTGCTGATCGCCGTGGCCCTGGTGATCCTGGTGGTGTTCGCCTTCCTTGGCCGCTGGCGCGCGGCGCTGATCCCGGCACTGGCGGTGCCGGTGTCGCTGGTCGGCACCTTCGCCGCGATGTACCTGATGGATTTCTCCCTGAACAACCTGTCGCTGATGGCACTGATCATCGCCACCGGCCTGGTGGTGGACGACGCCATCGTGGTGCTGGAGAACATTTCGCGGCACATCGAGAACGGCGAGCCGCCGTTGCAGGCAGCGCTGAAAGGCTCACGGGAAGTGGGTTTCACCCTGTTGTCGATGAACCTGTCGCTGGTGGTGGTGTTCGTCTCCATCCTGTTCATGAGCGGCATCGTCGAGCGGCTGTTCCGCGAGTTCTCCCTGACCCTGGCGGTGGCCATCCTGATCTCGCTGCTGGTCTCGCTGACGCTGACGCCGATGCTCTGCGCCCGTTGGCTGCGCGAGGAAGAACAGCGCGAGCCGGGCCGCCTGCGGCGTTTCGGCCAGCGCCTGCAGGAGCGGGTATTGGAGGGCTATCGGCGCAGCCTGGACTGGGGGCTGGCTCATTCGCGGCTGACGTTGTTCAGCCTGATCGCCACCATCGGACTGAACGTCTACCTGTACGTTGCGGTGCCAAAGACCTTCATGCCGCAGCAGGACACCGGCCAGTTGATCGGCATGGTCCGCGGCGACGACGGCCTGTCCTTCCAGGTCATGCAGCCGAAGATGGAAACCTATCGCCGGGCGGTGCTGGCCGACCCGGCGGTGGAAAGCGTGGCCGGCTTCATCGGCGGCAACGGCGGGATCAACAATGCCTTTCTGATCGTGCGGCTGAAACCCATGGGCGAGCGCACGGACTCCGCCCAGGCGGTGATCGACCGGCTGCGCGAGACCGTACCCAAGGTGCCCGGCGGACGTATGTTCCTGATGCCCGACCAGGACCTGCAGTTCGGTGGGCGGGAGGGGCGAAGCACCTCGAACGAATACGTGCTGCTGGCCAGCGACCTGGACGACCTGCGCATCTGGCTGCCCAAGGTCCGTGATGCGCTCGCGGCACTGCCCGAGCTGACCGATATCGACGCCAACGAAGGCGAGGGCGCCCAGCAAATCCGCCTGGTGATCGATCGCGAAACGGCCAAGCGCCTCGGGGTCGATATGGCGATGGTCACGGCGGTGCTGAACAACGCCTTCAGCCAGCGGCAGATTTCCACCATCTACGACAGCCTCAACCAGTACAGCGTGGTGATGGAGGTCGACCCGAAATACGCCCAGAGCCCCGAGGTACTGGAGCAGGTCCAAGTGATCACGGCGGACGGCGCGCGCGTGCCGCTGTCCACCTTCACCCACTGGGAGCGCAGCCTGGAAGAGGACCGGGTCAACCACCAGGGCCAGTTCGCCGCGGAGAGCATCGGTTTCTCCCTGGCCCCCGGCATCAGCATGGAACAGGCCACCGCCGCCATCGAACGGGCGGTGGCCCGGGTCGGCCTGCCCACCGACGTGCAGGGCATGCTGGGCGGTACCGGTGGGGTATTCCAGAAGGCCCAGCAGGCGCAGCCGCTGATGCTGCTGGGCGCGCTGCTGGTGGTCTACATCGTGCTCGGCGTGCTCTACGAGAGCTACGTCCACCCGTTGACCATCCTCTCGACACTGCCTTCGGCCGGGGTCGGTGCTCTGCTGGCGATCCAGTTGTTCGGCCAGCAGTTCAGCCTGATCTCGCTGCTCGGACTGTTCCTGCTGATCGGCGTGGTGAAGAAGAACGCCATCCTGATGATCGACCTCGCCTTGCAACTGGAGCGGCATGAGCGTCTCAGCCCCGAGGCCTCGATCCGCCAGGCCTGCCTGCTGCGCTTCCGGCCGATCCTGATGACCACCCTGGCGGCGATCCTCGGCGCACTGCCGTTGATCCTGTTCAGCGCCGAGGGCTCGGAAATGCGTAAGCCGCTGGGTATCGCCATCGTCGGCGGCCTGGTGCTCAGCCAGTTGCTCACCCTCTACACCACCCCGGTGGTCTACTTGTACTTCGACCGCCTGCGTCACCGCGTCAACCGCTGGCGCGGCGTGCGGACGGACGCCTCGTTGGAAACTCCGCTATGA	MNLSAPFILRPVATLLLSLAILLLGGLSFGLLPVAPLPKMDFPAITVQANLPGASPQIMAATVATPLERALGTIAGISEMTSRSSQGSTRIIILFDIDRDIDAAAREVQAAINAARNLLPSGMRSMPTYRKVNPSQAPIMVLSLTSDVLSKGQLYDVASTLVAQKLSQVAGVGEVQIGGSSLPAVRVSLEPRLLDQYGIALDDVRQAITSASAQRPKGEVEDDQRHWQVQANDQLDRAADYAPLIIRQQSGASVRLGDVATVVDGVEDRYNSGFYNDEQAVLVVINRQAGANIIETISDIRAQLPALREVIPASVELEVAMDRSPVIRATLHEAERTLLIAVALVILVVFAFLGRWRAALIPALAVPVSLVGTFAAMYLMDFSLNNLSLMALIIATGLVVDDAIVVLENISRHIENGEPPLQAALKGSREVGFTLLSMNLSLVVVFVSILFMSGIVERLFREFSLTLAVAILISLLVSLTLTPMLCARWLREEEQREPGRLRRFGQRLQERVLEGYRRSLDWGLAHSRLTLFSLIATIGLNVYLYVAVPKTFMPQQDTGQLIGMVRGDDGLSFQVMQPKMETYRRAVLADPAVESVAGFIGGNGGINNAFLIVRLKPMGERTDSAQAVIDRLRETVPKVPGGRMFLMPDQDLQFGGREGRSTSNEYVLLASDLDDLRIWLPKVRDALAALPELTDIDANEGEGAQQIRLVIDRETAKRLGVDMAMVTAVLNNAFSQRQISTIYDSLNQYSVVMEVDPKYAQSPEVLEQVQVITADGARVPLSTFTHWERSLEEDRVNHQGQFAAESIGFSLAPGISMEQATAAIERAVARVGLPTDVQGMLGGTGGVFQKAQQAQPLMLLGALLVVYIVLGVLYESYVHPLTILSTLPSAGVGALLAIQLFGQQFSLISLLGLFLLIGVVKKNAILMIDLALQLERHERLSPEASIRQACLLRFRPILMTTLAAILGALPLILFSAEGSEMRKPLGIAIVGGLVLSQLLTLYTTPVVYLYFDRLRHRVNRWRGVRTDASLETPL	PGPT0003595_631	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0003595-mdtC-K07789	NA	NA
BMS010_02321	570			hypothetical protein	ATGAGTTTCAAGCGGCAAGGGGGGAGCGGCAAGCATCGCTGGCGTGGGCTGGGTGGATGGTTGGGGGAGTTTTGCGTGGTTAGGTGTATGCCGAAGCTCCGCCCCCTCACCCCGACCCTCTCCCCAAAGGGGCGAGGGGGTATTCGAGTCGCCTGCAGCTACGGTGGAAAACCGAAGCTCGGTCCTGCACGAATCGCTCCCTCTACCCTCTGGGGAGAGGGCTGGGGTGAGGGGGCGATCTTCAGCCGAATACAAGACCGCCTGGACTCTCCAAGCGCATTGCCGTTTGGTGTTTCCCATAAGAGCAAGCTGGTCGGTTGCTCAGGAGAGCTGCTCGGGCAAGCTCACAGGGGGTGTGAGTGGATACTTCGTTCTCTCCCCCCAGCGGGGAGAGGGAGTGGTCCATACACGCCGATGTATCGGTTATGCACCTCAGTTCCAGGCACCTCGGATACCCCCTCGCCCCTCTGGGGAGAGGGCTGGGGTGAGGGGGCGGTCTCTCGCCGGACAACAAACCCTCCCACCCCCACAAACCCCCTTGAAGCGCTCCCGGCTGCTTTCCCGCTATGA	MSFKRQGGSGKHRWRGLGGWLGEFCVVRCMPKLRPLTPTLSPKGRGGIRVACSYGGKPKLGPARIAPSTLWGEGWGEGAIFSRIQDRLDSPSALPFGVSHKSKLVGCSGELLGQAHRGCEWILRSLPPAGRGSGPYTPMYRLCTSVPGTSDTPSPLWGEGWGEGAVSRRTTNPPTPTNPLEALPAAFPL				NA	NA	NA	NA	NA
BMS010_02322	3093	mdtB_1	COG0841	Multidrug resistance protein MdtB	ATGAACCTGTCCCGTCCGTTCATCCTGCGGCCGGTCGCCACCACGCTGCTGATGGTGGCGATTTTCCTCGCCGGGATCATCGCTTACCGGATGCTGCCGGTCTCCGCGCTGCCCGAGGTGGATTACCCGACCATCCGCGTGCTGACGCTCTATCCCGGCGCCAGCCCGGAGGTGATGACCAGCGCGGTGACGGCACCGCTGGAGCGCCAGTTCGGCCAGATGCCGGGCTTGAAGCAGATGTCCTCGACCAGTTCCGGCGGCGCCTCGGTGATCACCCTGCGCTTCAACCTGGAAATGTCCCTGGACGTCGCCGAGCAGGAGGTCCAGGCGGCGATCAACGCGGCCACCAACCTGCTGCCCAACGACCTCCCGGCGCCGCCGGTGTACAACAAGGTCAACCCGGCCGACACCCCGGTACTGACCCTGGCGATCAGCTCGAAGACCATGGGCCTGCCGCAGGTCCATGACCTGGTGGATACCCGCATGGCGCAGAAGATCGCCCAGATCAGCGGCGTCGGCCTGGTCACCCTGGCCGGCGGCCAGCGCCCGGCGGTGCGCATCCGCGTCAACCCCGAGGCATTGGCGTCCTACGGGCTGAACCTGTCCGACGTGCGCAGCCTGATCACCGCCTCCAACGTCAACCAGCCCAAGGGCAACTTCGATGGCCCGACCCGCGTTTCCCAGCTCGATGCCAATGACCAGCTCAAGTCCGCCGACGAATACCGTGACCTGATCCTTACCTACCAGAACGGCGCGGCGTTGCGCCTGAAAGACGTCGCCACCATCGTCGACGGTGCCGAGAACGAACGCCTGGCCGCCTGGGCCAACCGGCAGGAAGCGGTGCTGCTGAACATCCAGCGCCAGCCCGGCGCCAACGTCATCGACGTGGTGGACCGTATCCAGATGCTGTTGCCGCAGATCACCGCCGGGCTGCCGGCCAGCCTCGACGTGGTGACGCTCACCGACCGCACCCAGACCATCCGCGCCGCCGTCAGCGACGTGCAGCACGAGCTGTTGCTGGCGGTGATCCTGGTGGTGCTGGTGACCTTCCTGTTCCTGCGCAAGCTGGCGGCCACGGTGATCCCCTCCATCGCCGTGCCGCTGTCGCTGATCGGCACCTTCGTGGTCATGCACCTGGCCGGATTCTCGGTCAACAACCTGACCCTGATGGCCCTGACCATCGCCACCGGTTTCGTGGTGGACGATGCCATCGTCATGCTGGAGAACATCGCCCGCCACCTGGAGGAGGGCGAGACGCCGCTGAACGCGGCGCTCAAGGGCGCGCGGCAGATCGGCTTCACCCTGGTGTCGCTGACCTTCTCGCTGATCGCCGTGCTGATCCCGCTGCTGTTCATGGCCGACGTGGTGGGGCGCCTGTTCCGCGAGTTCGCCATCACCCTGGCGGTGGCCATCCTGATTTCCCTGGTGGTGTCCCTGACCCTCACGCCAATGATGTGCGCGCGTCTGCTCAAGCCGGAGAAGACCGGCGAAGAAGGGCGTTTCTACCGGGCGGCGGGTGCCTTCATCGACGGCATGATCGAGCGCTATTCCCACGGCCTGAAATGGGTGTTGCGCCACCAGCCGCTGACCCTGCTGGTGGCGGTGATCACCCTCGGCCTGACCGTACTGCTCTACCTGGCGGTGCCCAAGGGCTTCTTCCCGGTGCAGGACACCGGGGTGATCCAAGGCATCTCCGAAGGCCCGCAGACCATTTCCTTCCGCGCCATGAGCGAGCGCCAACAGGCCCTGGCGGAGGCGATCCTGCGTGATCCGGCGGTGGCCAGTCTGTCGTCCTACATCGGGGTCGACGGCGACAACCCGACGCTGAACAGCGGGCGCCTGCTGATCAACCTCAAGCCGCACGCGGAGCGCGACGTCACCGCCAGCGAGGTGATCGAGCGGTTGCGTCCGGAGCTGGCACGCTTGCCGGGCATCCAGGTCTATCTCCAGCCGGTGCAGGACCTGACCATCGAGGACCGGGTCAGCCGTACCCAATTCCAGCTCAGCCTGGAATCCCCGGACGCGGCGCTGCTTGAGGAGTGGGCCCCCAGGCTGGTGGACGCCTTGCGCCAGCAGCCGGAGTTGACCGATGTCACCAGCGACCTGCAGAACCGTGGCCTGCAAGTGTTCCTGGAAATCGACCGCGATGCCGCCAGCCGCCTCGGCGTCAGCGTCACCGACATCGACGACGCGCTCTACGATGCCTTCGGCCAGCGGCAGATCTCCACCATCTTCACCCAGGCCAGCCAGTACCGCGTGGTGCTCGAGACCCAGGCCGCCGACCGTCTCGGCCCGGCGGCGCTGCGCCAGATCCATGTGGCCACGGCGGAGGGCGGGCAGGTACCGCTGTCGTCGCTGGCGCGCATCACCGAGCGGCCGACCGCGCTGCTGATCAACCACATCGGCCAGTTTCCGGCGGTGACCCTGTCGTTCAACCTGGCGCCCGGCGTGGCCCTGGGCGAGGCGGTGCAAGTCATCGAACGGGTGGAACAGGAGATCGGCCTGCCGGGCGCTATCCAGACCGAATTCCAGGGCGCCGCCGAAGCCTTCCGCGCCTCGCTGTCGAGCACGCTGCTGCTGATCCTCGCGGCGGTGGTGACCATGTACATCGTGCTCGGCGTGCTCTACGAGAGCTACATCCACCCGATCACTATCCTCTCCACCTTGCCGTCGGCCGGTGTCGGCGCGTTGCTGGCGCTGCTGCTGACCGGCAACGACCTCGGCCTGATCGCCATCATCGGCATCATCCTGCTGATCGGCATCGTCAAGAAGAACGCGATCATGATGATCGACTTCGCCCTGGACGCCGAACGCCACCAGGGGATGAGCCCGGAAGAGGCGATCTACCAGGCGGCACTGCTGCGTTTCCGACCGATCCTGATGACCACCCTGGCGGCCCTGTTCGGCGCCATCCCGCTGATGCTCGCCACCGGCTCCGGCGCCGAACTGCGCCAGCCGCTGGGCCTGGTGATGGTGGGTGGGCTGCTGGTCAGCCAGGTGCTGACCCTGTTCACCACACCGGTGATCTACCTCTGGTTCGACCGCCAGTCGCGGCGCTTCATGCGCCGTAGTGCGGCGGGGGTGGCCCTATGA	MNLSRPFILRPVATTLLMVAIFLAGIIAYRMLPVSALPEVDYPTIRVLTLYPGASPEVMTSAVTAPLERQFGQMPGLKQMSSTSSGGASVITLRFNLEMSLDVAEQEVQAAINAATNLLPNDLPAPPVYNKVNPADTPVLTLAISSKTMGLPQVHDLVDTRMAQKIAQISGVGLVTLAGGQRPAVRIRVNPEALASYGLNLSDVRSLITASNVNQPKGNFDGPTRVSQLDANDQLKSADEYRDLILTYQNGAALRLKDVATIVDGAENERLAAWANRQEAVLLNIQRQPGANVIDVVDRIQMLLPQITAGLPASLDVVTLTDRTQTIRAAVSDVQHELLLAVILVVLVTFLFLRKLAATVIPSIAVPLSLIGTFVVMHLAGFSVNNLTLMALTIATGFVVDDAIVMLENIARHLEEGETPLNAALKGARQIGFTLVSLTFSLIAVLIPLLFMADVVGRLFREFAITLAVAILISLVVSLTLTPMMCARLLKPEKTGEEGRFYRAAGAFIDGMIERYSHGLKWVLRHQPLTLLVAVITLGLTVLLYLAVPKGFFPVQDTGVIQGISEGPQTISFRAMSERQQALAEAILRDPAVASLSSYIGVDGDNPTLNSGRLLINLKPHAERDVTASEVIERLRPELARLPGIQVYLQPVQDLTIEDRVSRTQFQLSLESPDAALLEEWAPRLVDALRQQPELTDVTSDLQNRGLQVFLEIDRDAASRLGVSVTDIDDALYDAFGQRQISTIFTQASQYRVVLETQAADRLGPAALRQIHVATAEGGQVPLSSLARITERPTALLINHIGQFPAVTLSFNLAPGVALGEAVQVIERVEQEIGLPGAIQTEFQGAAEAFRASLSSTLLLILAAVVTMYIVLGVLYESYIHPITILSTLPSAGVGALLALLLTGNDLGLIAIIGIILLIGIVKKNAIMMIDFALDAERHQGMSPEEAIYQAALLRFRPILMTTLAALFGAIPLMLATGSGAELRQPLGLVMVGGLLVSQVLTLFTTPVIYLWFDRQSRRFMRRSAAGVAL	PGPT0003590_998	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0003590-mdtB-K07788	NA	NA
BMS010_02323	1224	mdtA_5		Multidrug resistance protein MdtA	ATGTCCGACACGCAGACCTCTCCCCGCTTTTCCCGCCGTTGGTTGTTTCCGGCCCTCGGCCTGCTCGTCATCGTCCTGCTGCTCTGGTGGTTCTGGCCCAGCCCGCCTGCGGAACAGAAAGGTCGCGGCCCCTGGGGACGCGGCGACGGCGGCCCGGTGCCGGTGCGCGTAGCGCCGGTGGAGCAGGGCGACTTCGCCATCCAGTTGAAGGCGCTGGGCACCGTCACCGCCTACAACACGGTCAACGTGCGCAGCCGGGTGGACGGCGAGCTGGTCAAGGTGCTCTTCGAGGAGGGGCAGATGGTCAAGGCCGGCGATCTGCTGGCGGTGATCGACCCGCGGCCCTATGAAGTGGCCCTGCAACAGGCCGAAGGCACCCTCCAGGAAAACCGCGCCCAGTTGCAGAACGCCGAGATCGATCTCAAGCGCTACCAGGGCCTCTACGCTGAAGACTCCATCGCCAAGCAGACCCTGGATACCCAACTGGCCCTGGTGAATCAATACCGGGGCACCTTGCAGGCCAACCAGGCGGCAGTCAACGAAGCCAAGCTCAACCTCCAGTTCACCCAGATACGCGCGCCGATCTCCGGACGCCTCGGCCTGCGCCAGGTGGACGTCGGCAACCTGATCAGCAGCGGCGACACCACGCCGCTGGTGGTGATCACCCAGACCCTGCCGATCGCCGTCAGCTTCACCTTGCCCGAAGGGGACCTGCCGCAGGTGCTCAAGGCGCGCGCCAGCGGCGGCGAGCCGCTGGTGGTCGAGGCCTGGGATCGCAGTGAGCGCCAGTTGCTGGCCACCGGCGAACTGGAAAGCCTGGACAACCAGATCGACACCACCACCGGCACGGTCCGGATGAAGGCGCGGTTCGCCAATGCCGACGAAATCCTCTTCCCCAACCAGTTCGTCAACGTGCGCCTGCGCGTGGAAACCCGCCGGCAGGCCAGCCTGATACCCGCTGCGGCGCTACAATACGGTTCGCGCGGGACCTTCGTGTTCGTCGTCGGTGCGGATGACAAGGTCTCGGTGCGTAGCGTCCAGGCCGGCCCGAGCGATGGCGAGCGCACCCTGATCGAAGAGGGCGTGGCCCTGGGCGAACGACTGGTGCTGGAAGGGACCGACCGCCTGCGCGACGGCGCCAAGGTGGAAGTGATCACCGACCCGCCAGCCACCCCGTTGCCGGCCATGACCAGCGAAGGCGACGAGAAGAAGCGCGACGCATGA	MSDTQTSPRFSRRWLFPALGLLVIVLLLWWFWPSPPAEQKGRGPWGRGDGGPVPVRVAPVEQGDFAIQLKALGTVTAYNTVNVRSRVDGELVKVLFEEGQMVKAGDLLAVIDPRPYEVALQQAEGTLQENRAQLQNAEIDLKRYQGLYAEDSIAKQTLDTQLALVNQYRGTLQANQAAVNEAKLNLQFTQIRAPISGRLGLRQVDVGNLISSGDTTPLVVITQTLPIAVSFTLPEGDLPQVLKARASGGEPLVVEAWDRSERQLLATGELESLDNQIDTTTGTVRMKARFANADEILFPNQFVNVRLRVETRRQASLIPAAALQYGSRGTFVFVVGADDKVSVRSVQAGPSDGERTLIEEGVALGERLVLEGTDRLRDGAKVEVITDPPATPLPAMTSEGDEKKRDA	PGPT0003585_1215	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0003585-mdtA-K07799	NA	NA
BMS010_02324	501	tpx	COG2077	Thiol peroxidase	ATGGCTCAAGTGACCCTCAAGGGCAATCCGGTGCAAGTCGAAGGCCAACTGCCGCAACCCGGCCAGCAGGCGCCAGCCTTCACCCTGGTCGGTGCCGGTCTGGCCGACGTGAGCCTGGCCAGCCTGGCCGGCAAGCGCAAGGTGCTGAACATCTTCCCCAGCATCGACACCCCGACCTGTGCCACCTCGGTACGCAAGTTCAACGCCGAGGCGAGCACGCTGGAGAACACCGTGGTGCTGTGCATCTCCGCCGACCTGCCGTTCGCCCAAGCCCGCTTCTGTGGTGCCGAGGGGCTGGAAAACGTACAGAACCTGTCCACCATGCGTGGCCGCGAATTCCTGCAGAACTACGGCGTCGCCATTGCCAGCGGTCCGCTGACCGGGGTCGCCGCCCGCGCCGTGGTGGTGCTGGATGAGAACGACAAGGTGCTGCACAGCGAGCTGGTCGCCGAGATCGGCAGCGAGCCGAACTACGAGGCCGCCCTCGCAGCCCTCGAGTAA	MAQVTLKGNPVQVEGQLPQPGQQAPAFTLVGAGLADVSLASLAGKRKVLNIFPSIDTPTCATSVRKFNAEASTLENTVVLCISADLPFAQARFCGAEGLENVQNLSTMRGREFLQNYGVAIASGPLTGVAARAVVVLDENDKVLHSELVAEIGSEPNYEAALAALE	PGPT0013105_1243	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013105-tpx-K11065	NA	NA
BMS010_02325	1344	alsT_1	COG1115	Amino-acid carrier protein AlsT	ATGGAATCCCTCAACAATCTGGTCAACGCCATCAACGGCATCGTCTGGGGCCCACCCATGCTGGTGCTGATCCTCGGCACCGGCCTGATCCTGATGCTCATGCTCAAGTTCATGCCCCTGGCCAAGATCCCGGCCGGCTTCCGCCTCATGTGGCAGGGCCGGACCAAGGGTGACGACGAGTCCGGCGAGATCAGCCCGTTCCAGGCGCTGATGACGTGCCTGGCGGCAACCGTGGGGACCGGCAACATCGCCGGCGTGGCCACCGCGATCTTCCTCGGCGGCCCGGGGGCGCTGTTCTGGATGTGGTGTACCGCGCTGGTGGGCATGGCCACCAAGTACGCCGAGGTGACGCTGGCGGTGCACTACCGCGAGAAGGATGACCGCGGCGAGCACGTCGGCGGACCGATGTACGCGATCAAGAACGGCCTGGGCAAGAAGTGGCTGTGGCTGGGCACCGCCTTCGCCATCTTCGGCGGGCTGGCCGGCTTCGGCATCGGCAACATGGTCCAGGTCAACAGCATGGCGCACGCCCTGCAAACCACCTTCAACGTACCGCTGTGGATCACCGGCCTGGTGTCGATGATCTTCGTCGGCCTGGTCATCCTCGGCGGCATCCAGCGTATCGGCAAGGTCGCCGCGACCCTGGTGCCGTTCATGTGCGTGGCCTACATCGTGGCCGCCATCGTTGTGCTGGTGGTGCATGCCGACGCCATCCCGGCCGCCTTCTCGCTGATCTTCACCCACGCCTTCACGCCTGTCGCCGCCACCGGTGGCTTCGCCGGCGCGGCGGTGATGGCGGCGATCCGCTTCGGTGTCGCCCGCGGCATCTTCTCCAATGAGGCCGGCCTCGGGACCGCCGGTATCGCCCAGGCCGCCGGCACCACCAACAGCCCGGTGCGCTCCGGCCTGATCGGCATGCTCGGGACTTTCATCGACACCCTGATCATCTGCTCGCTGACCGGCCTGGCGATCATCTGCTCCGGCGTCTGGACCGGCGGCGCCAGCGGCGCGGCACTCTCCGCGGCGGCCTTCGAGGCGGCCATGCCGGGCGTCGGCGGTTCGATCCTGACCGTGGCCCTGGTGATCTTCGCCTTCACCACCATCCTCGGTTGGAGCTACTACGGTGAGAAGTGCTGGGAGTTCCTGGTGGGCACCAAGGCGATCTGGCCGTTCCGCATCGTCTGGGTGCTGGCCGTGCCGTTCGGTGCCATCGCCCAGCTCGATTTCGCCTGGCTGGTGGCGGACACCCTCAATGGCCTGATGGCGATTCCGAACCTGCTGTCGCTGTTGCTGCTCAGCCCGGTGGTGGTGAAGCTGACCCGGGATTACTTCGCGAAAAACTGA	MESLNNLVNAINGIVWGPPMLVLILGTGLILMLMLKFMPLAKIPAGFRLMWQGRTKGDDESGEISPFQALMTCLAATVGTGNIAGVATAIFLGGPGALFWMWCTALVGMATKYAEVTLAVHYREKDDRGEHVGGPMYAIKNGLGKKWLWLGTAFAIFGGLAGFGIGNMVQVNSMAHALQTTFNVPLWITGLVSMIFVGLVILGGIQRIGKVAATLVPFMCVAYIVAAIVVLVVHADAIPAAFSLIFTHAFTPVAATGGFAGAAVMAAIRFGVARGIFSNEAGLGTAGIAQAAGTTNSPVRSGLIGMLGTFIDTLIICSLTGLAIICSGVWTGGASGAALSAAAFEAAMPGVGGSILTVALVIFAFTTILGWSYYGEKCWEFLVGTKAIWPFRIVWVLAVPFGAIAQLDFAWLVADTLNGLMAIPNLLSLLLLSPVVVKLTRDYFAKN	PGPT0014405_4139	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLYCINE_TRANSPORT,PGPT0014405-yflA|TC_AGCS-K03310	NA	NA
BMS010_02326	942	dmlR_4		HTH-type transcriptional regulator DmlR	ATGGACCGATTCATTGCCATGCGGGTGTTCACTCGCATCGTGGAGCTGGGCGGATTCGGCAAGGCAGCCGACAGCCTGCACATGCCGCGGGCTTCCGTGACAACCCTGATCAAACAATTGGAAGCGCACCTGGGCGTGCAGCTCCTGCAACGCACCACGCGCCAGGTCAGCCCGACCCTGGACGGTGCCGCCTACTACGAACGCTGCGTGCGGCTGCTGGCGGACCTGGAGGAAACCGAGTCGCTGTTCTCCGAGGCACGTCGCAATCCGCAGGGCAAGCTGCGTGTCGATATGCCCGGCTCCCTCGGCCGGCTGGTGATCGTGCCCGCGTTGCCATCGTTCTGCCAGCGCTACCCGCGCCTCGAGCTGGAGCTGAGCACCAACGACCGCCCGGTGGACCTGATTCGCGAGGGCGTGGATTGCGTGCTGCGTGGCGGCGACGTGCTCGACGACAGCCTGGTGGCCCGGCCGCTGGCCCGGCTCACCCAGGTCACCTGTGCCAGCCGGGCCTATCTGGACGAGCATGGCACGCCGCAGGACCCGGACGATCTGCAAGGGCATTTCGCGGTCAACTACCTGTCCGCGGTCACCGGTCGGCCGTTCGCGCTGGAGTTCATGGACGGCGCTACCTTGATAACCCGCGCCTTGCCCGGACAACTGGCGGTGAACGGTGCCGACGGCTACGTGGCTGCCTGCGAGGCCGGGCTCGGGTTGATCCAGGCACCGTACTACCACGTCGCGGCGCAGATCGCCCGCGGCGACCTGTGCGAGGTCCTGGCGCGCTGGCGCCCGCCGCCGTTGCCGCTGACCGCGCTGTATCCGCCGCATCGCCAGTTGTCACGGCGGGTCAGGGTCTTCGTCGATTGGCTGGCGGAGTTGTTCGGTAACCAGAATTGGGACGGTGGCAATGACAGTATGCCGAGTCGAATCCGCGGCGAATGA	MDRFIAMRVFTRIVELGGFGKAADSLHMPRASVTTLIKQLEAHLGVQLLQRTTRQVSPTLDGAAYYERCVRLLADLEETESLFSEARRNPQGKLRVDMPGSLGRLVIVPALPSFCQRYPRLELELSTNDRPVDLIREGVDCVLRGGDVLDDSLVARPLARLTQVTCASRAYLDEHGTPQDPDDLQGHFAVNYLSAVTGRPFALEFMDGATLITRALPGQLAVNGADGYVAACEAGLGLIQAPYYHVAAQIARGDLCEVLARWRPPPLPLTALYPPHRQLSRRVRVFVDWLAELFGNQNWDGGNDSMPSRIRGE	PGPT0028940_435	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-CHLORAMPHENICOL|TRIMETHOPRIN_EFFLUX_PUMP_BpeEF-OprC,PGPT0028940-bpeT-K18900	NA	NA
BMS010_02327	996	iolS	COG0667	Aldo-keto reductase IolS	ATGAAAACCCGACGACTTGGCCGCAACGGCCCGGAAGTGTCCGCCATCGGCCTGGGCTGCATGGGCATGAGCGATTTCTATGTCGCCGGCCGCGACGACCAGGAATCCGTCGCCACCCTGCACCGCGCCCTGGAGCTGGGGCTGAATTTCTTCGATACCGCCGACATGTACGGCCCGTTCACCAACGAGGAACTGGTCGGCCGTGCCATCCGGGGCAAGCGCGATCAGGTGTTCCTGGCCAGCAAGTTCGGCATTCTGCGCGATCCGAACGATCCGTCGGTGCGTGGCGTCAGCGGGCGTCCCGAGTACGTGCGCCAAGCCATCGAAGGCAGCCTGAAACGCCTCGGCGTGGACCATCTGGACCTCTACTACCAGCACCGTATCGATCCGCAGGTGCCCATCGAGGAAACCGTCGGTGCCATGGCCGAGCTGGTTCGGGCCGGCAAGATCCGCTACCTGGGGCTGAGCGAAGCGTCCGCAAACACCCTGGAGCGGGCATGCGCGGTGCATCCGATCAGCGCCTTGCAGAGCGAATATTCGCTGTGGACCCGCGACCCGGAAACCAACGGCACCCTGGAAGCCTGCCGCCGCCTGGGCATCGCCTTCATTCCCTACAGTCCCTTGGGCCGGGGCTTCCTCACGGGATCGATCACCTCGCCGGCCGACTTCGCCGAGGACGACTATCGCCGCTCCAGCCCGCGCTTCCAGGGCGAGAACTTCGCCCGCAACCTGCGGCTGGTGGAACAGGTGAAGGCCCTGGCGGAGGAAAAGGGCGTCAAGCCGTCACAGCTTGCCCTGGCCTGGGTGCTAGCCCAGGGCGACGACGTGATCCCGATCCCCGGCACCAAGCGCCGTCAGTACCTGGAAGAAAACATCGGCGCCCTCGACGTGCAGCTCACGGCCGACGAACTGGCACGGATCGACGCCATCTTCCCGGTCGACGCCGCCGCCGGCACGCGCTACCCGGAGGCGGTCATGCACATGGTGAATGTCTGA	MKTRRLGRNGPEVSAIGLGCMGMSDFYVAGRDDQESVATLHRALELGLNFFDTADMYGPFTNEELVGRAIRGKRDQVFLASKFGILRDPNDPSVRGVSGRPEYVRQAIEGSLKRLGVDHLDLYYQHRIDPQVPIEETVGAMAELVRAGKIRYLGLSEASANTLERACAVHPISALQSEYSLWTRDPETNGTLEACRRLGIAFIPYSPLGRGFLTGSITSPADFAEDDYRRSSPRFQGENFARNLRLVEQVKALAEEKGVKPSQLALAWVLAQGDDVIPIPGTKRRQYLEENIGALDVQLTADELARIDAIFPVDAAAGTRYPEAVMHMVNV	PGPT0009140_221	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009140-ydbC-K05275	NA	NA
BMS010_02328	3690	tamB	COG2911	Translocation and assembly module subunit TamB	ATGAGACGGCGGACGCGGATCGTTCTCGGCAGCGTCCTGGCGCTGGTCGCAGTGCCGGTGCTGGCGCTCGTCGTGCTGCTCGGCAGCGAGACGGGGAGCCGCTGGCTGCTCGGGCGGATACCGGGCGTGCAGGTGGATGCCTTCACCGGGCGTCTGGGCGGGAGCTGGCAGGCCGAACGCCTGCTCTGGCAGCAGGGCGAGCGCCGTGTCGAGCTGGAGGCGCCGCAACTCGCCTGGTCCCCTGGGTGCCTGCTGAGCCTGACCCTGTGCCTGGATCGCGTCATCGCCGAACGGGTGATCCTGACGTTCCCACCTTCGCCGGAGGAGGAAACGGCGCCGGCACCTCTCCAGCTTCCCGAGCTGAATCTGCCGTTGGCGCTGCGGCTCGGCGAGGTGCGCGTCGACAGCCTGTCGTTGAATGGCAGCGAGCAGGCGAGCGGCCTGCAATTACAGGCGCAATGGGCCGGCGAGGGCCTGCGAATCGAACGCCTCAGCGCACGGCGCGGCGACCTGGCGGTGGAGCTGAGGGGGAGCCTGATGCCTAGTGGCAACTGGCCGCTGGTTGCCGAGGGCAACGTGGCCCTGCCGGAAGTCGGCGAACAACCTTGGGTGCTGGCGCTACGGGCCGACGGCGATCTGGCAGGACGATTGAAACTGATCGCCGACAGCAGCGGCTATCTGGTCGCGCACTTGGAAGGCGACCTGCAACCCCTGGCGGAGAACCTGCCGCTGCGGGCGCGGCTCACTGCCGACGGTTTCAAGCCGACCGCCGACCTGCCGGGCACCCTGGTGCTCAATGCCGTGGAACTGACCGCCGATGGCAGTCTGGACGAGGGCTACGAGATTCTCGGTACCGCCAGCTTGCCGGCGGAGCAGTCGCCGATCGACCTCGCCTTGCAAGGCCGGGTCGATGGCAATGGCGCGCAGATCGCCGCACTGGAGCTGCTGGCGACGAAAACCCAACGCTTGTCCTTGAGCGGTTCGGTGGACTGGCGGGAAGCCTTGCAGGCGGAGGCCCAGGTGGACTGGCGCGACCTCCCCTGGCGTCGGCTCTATCCGGTCGTTGACGAGCCTCCGGTGGCGCTGAAGACCCTCAAGGCCGAGGTGAGCTATCGCGAGGGCAGCTACCTGGGCAATTTCGACGCGTCGATGGAGGGGCCGGCAGGCTCGTTCACTCTGGCCAGCCCGGTGAGCGGCGATCTCCAGCAAGTCCACTTGCCTTCGTTGCGGCTGGTCGCCGGCCAGGGCAGAGCGGAAGGGCAACTGAGCCTGGGCTTTGCCGATGGCATTCGCTGGAAGACCGACCTGACGCTCGACGATCTCGATCCCGCCTACTGGCTCGCGGAGCTGCCCGGACGACTGGCGGGCCCCTTGCGCAGCCAGGGCCAGTGGCGCGACGGGCGTCTCGGGCTGGACGCCGAACTGCGCCTGGACGGCACTCTGCGCGGCCAGCCGGCGCAGCTTCAACTGACCGCCACCGGTGAGGGCGAGCGCTGGACCCTGGGTGCGCTGGATGTGCGCCTGGGACCGAACCGAATCCAGGGCGCGGGGCAACTGGAACAGCGTCTGCAAGGCTACCTGAAGCTGGACATGCCGCGCCTCGGGTCGCTCTGGCCGGGCCTGAGCGGTGCCCTGAACGGCCGTCTCGACGTCGCCGGCACGCTCGACAAGCCGCAAGGGCAACTGCACCTGAAAGGGCAAACGCTGGCGTTCGAAGACAAGCGTCTGAAGGCACTGTCAGTCGATGCCCGTCTCGATGCCTCTCAGCACGGCGTCCTGGCGGCGGACCTGCAAGGCATCCGCCTGGGCGACAACGAGCTGGGCCAGTTGCTGCTCAGCGGGCAGGGCGACCGTCAACGCCAGCAGCTTGAACTCAGCCTGGACGGGCCGAAGCTGCGCACCCATCTGGCCCTGGCCGGCGACTGGCAAACCCAGGCCCAAGGCTGGAGTTGGCGCGGGCAGATTCGCGACGGTCTGGTGGAAACCGGCGGGCAGCGCTGGAACCTGCGGCGACCGGCGCGATTGGAGCGGCTGGCGAGTGGGCGCATCGATCTCGGCGCCCATTGCTGGCAATCCGGCGCGGCCAGCCTGTGCGGCGAAGACCAGCGCCTGATGCCGGACCCGCGCATCCGCTATCGACTGCGCGGCTTCCCGCTGGACAGCTTGGCCCAGTGGTGGCCGCAGGACTTCGCCTGGCAAGGCGAGCTGAACGCCGACCTCGAACTGGACCTGCCGGCCTCGGGGCCCAACGGGCGCATCCAGGTCGACGCCAGCGGCGGCACCTTCCGCCTGCGTGAGGCGGGCGAATGGCTGGAGTTCCCCTACGGCCAGCTCCGCCTGGACAGCCAGTTGCGTCCGCAACGGGTCGATACGCGGCTGGACTTCATCGGCCAGCGCTTGGGCGACCTGACCCTGGAGGCACGGATCGATCCGCGTCCTGCCACCAAACCCTTGTCCGGGAGCTTCCAACTGCGCGGGCTGGACCTGTCCGTGGCGCGTCCCTTCGTGCCGATGGTCGAGCAATTGGAGGGCCACCTGAACGGCAACGGCACGCTGAGCGGCAGCCTGCAGCAGCCGCAGATCGACGGCCGTATCCTGCTCGATGGCGGGCAGTTCGGCGGAGGCGACTTGCCGACCCGTTTCGATGACTTGCGTCTGCAGGCGCTGATCGCCGGCGAAAGCCTGCAACTCAGCGGCGACTGGAAGAGCGGAGAGCATGGCCAGGGCTCCCTCAGCGGCGAAATGGCCTGGAGCGACGGCCTGGCGCTGGACCTGCGTGTGCGCGGCAACCGCCTGGCGGTGGTCGTCGATCCCTACGCCGAGCTGGAAGTGGAGCCGGACATGCACATCGGCATGGCCGGCGATCGGTTGTCCCTGACCGGCAAGGTCCTGGTGCCGCGCGGGGCGATCACCGTGCGCGAGCTGCCGCCGTCCACGGTGAAAGTCTCGCCGGATGCGGTGATCGTCGGCGCGGAGAAACCGGAGGCGGGGCAGGCGATGTCGGTGGCCATGGATATCGACGTGGAAGTGGGGCAGGACAAGCTGACCTTCTCCGGTTTCGGCCTGAACGCCGACCTCGCCGGCTACATGCACATCGGCGACAACCTGGATGCCCGCGGCGAGCTGAACCTGAACAACGGCCGCTACCGCGCCTATGGCCAGCGCCTCACCATTCGCCGGGCGCGCCTGTTGTTCGCCGGGCCGATCGACCAGCCGTACCTGGACGTGGAGGCGATCCGTCGGGTCGAAGACGTGGTGGCCGGCCTGCGCCTGACCGGTAACGCCGCCGCGCCGCGCACCGAAGTGTTTTCCGAGCCGGCGATGAGCCAGGAGCAAGCGCTGTCCTACCTGGTCCTCGGCCGTCCGCTGGGCGGCGACCAGGGCGACAACAACATGCTGGCCCAGGCCGCCCTCGGGCTCGGCCTGGCCGGCAGCTCCTCGATCACCGGTGGGCTGGCGAAGAACCTCGGCATCGAGAATTTCCAGCTCGAGGCCGAAGGCAGCGGCAACGCCACCAGCGTGGTCGCCAGCGGCAGCCTGACCGAGCGCCTGAGCCTGCGTTACGGCGTCGGCGTGTTCGAACCCGCCAACACCATCGCGCTGCGCTACCAACTGACCAAACGCGTCTTCCTCGAAGCCGCCAGCGGCCTGGCCAGCTCGCTGGACATCTTCTACAAGCGGGATTTTTAG	MRRRTRIVLGSVLALVAVPVLALVVLLGSETGSRWLLGRIPGVQVDAFTGRLGGSWQAERLLWQQGERRVELEAPQLAWSPGCLLSLTLCLDRVIAERVILTFPPSPEEETAPAPLQLPELNLPLALRLGEVRVDSLSLNGSEQASGLQLQAQWAGEGLRIERLSARRGDLAVELRGSLMPSGNWPLVAEGNVALPEVGEQPWVLALRADGDLAGRLKLIADSSGYLVAHLEGDLQPLAENLPLRARLTADGFKPTADLPGTLVLNAVELTADGSLDEGYEILGTASLPAEQSPIDLALQGRVDGNGAQIAALELLATKTQRLSLSGSVDWREALQAEAQVDWRDLPWRRLYPVVDEPPVALKTLKAEVSYREGSYLGNFDASMEGPAGSFTLASPVSGDLQQVHLPSLRLVAGQGRAEGQLSLGFADGIRWKTDLTLDDLDPAYWLAELPGRLAGPLRSQGQWRDGRLGLDAELRLDGTLRGQPAQLQLTATGEGERWTLGALDVRLGPNRIQGAGQLEQRLQGYLKLDMPRLGSLWPGLSGALNGRLDVAGTLDKPQGQLHLKGQTLAFEDKRLKALSVDARLDASQHGVLAADLQGIRLGDNELGQLLLSGQGDRQRQQLELSLDGPKLRTHLALAGDWQTQAQGWSWRGQIRDGLVETGGQRWNLRRPARLERLASGRIDLGAHCWQSGAASLCGEDQRLMPDPRIRYRLRGFPLDSLAQWWPQDFAWQGELNADLELDLPASGPNGRIQVDASGGTFRLREAGEWLEFPYGQLRLDSQLRPQRVDTRLDFIGQRLGDLTLEARIDPRPATKPLSGSFQLRGLDLSVARPFVPMVEQLEGHLNGNGTLSGSLQQPQIDGRILLDGGQFGGGDLPTRFDDLRLQALIAGESLQLSGDWKSGEHGQGSLSGEMAWSDGLALDLRVRGNRLAVVVDPYAELEVEPDMHIGMAGDRLSLTGKVLVPRGAITVRELPPSTVKVSPDAVIVGAEKPEAGQAMSVAMDIDVEVGQDKLTFSGFGLNADLAGYMHIGDNLDARGELNLNNGRYRAYGQRLTIRRARLLFAGPIDQPYLDVEAIRRVEDVVAGLRLTGNAAAPRTEVFSEPAMSQEQALSYLVLGRPLGGDQGDNNMLAQAALGLGLAGSSSITGGLAKNLGIENFQLEAEGSGNATSVVASGSLTERLSLRYGVGVFEPANTIALRYQLTKRVFLEAASGLASSLDIFYKRDF				NA	NA	NA	NA	NA
BMS010_02329	1728	tamA	COG0729	Translocation and assembly module subunit TamA	ATGATGTTTCGTACCTGCCTCTGCCTGTTGCTTTCGACCCTGTCGATCAGCGCATCCGTGTTGGCCCAGAGCCAGCTCAGGGTGCGGGTCGATCCCGCCAATGCCGCCCTCAAGACCAATGTGGAAGCCCATATCGGCAACCTCGGCGAGCGCGACGAAGACGACCTGCGGCGCCTGGCGCGGGTCGCCGAGGGGCAGGCGCGCCAGGCTGCGGAGGCGCTGGGCTATTACCACGCGCAGATATCCAGCGAAGTGAGTGGCGGCCCGCCGCCGCGCCTGACCCTGACCCTCCTGCCCGGCGAGCCGGTGCGGCTGCGCAACGTGACGGTGCGGATCGAGGGCGAGGCGACCCAACTGCGCGGGTTCCGTCTTCCCGACAGCAAGGTGCTGAAGCCGGGCGCGCCGCTCAACCACGGCCATTACGAGGACGCCAAGAAGCTGATCGAGAACCAGGCCTCGCGCTATGGCTTCTTCAGCGGGCGCTTCGTCCGCAGCCGGCTGGCCGTCGACCCCGCCGCCGGGGTCGCCGATATCGAACTGATCTACGACAGCGGGCCGCGTTACCGCCTCGGCGCCGTGACCTTCAGCGGCGATTCCGTCCTCGATGAAGACCTCCTTCGGCGGATGGTGCCGTTCCAGGCGGGCGCGCCCTATGACTCCGAACTGATCGCCGACCTGCACCAGGCGCTGCAATCCAGTGGCTATTTCGAGGGGGTACGGGTGAACGCCATCCCGACCCAGGCCACGGCCGAGGAAATCCCGGTGGATGTCCACCTGACCATGCGCAAACCGCGTTCCTTTGGGCTTGGGCTCGGTTTTTCCACGGACGTCGGCCCCCGCGGACGAGCCAACTGGACGCGCCACTGGGCCAACCCCCAAGGGCATAGCTACGGCACCGAGCTGGAGCTCTCGGCCCCTCGGCAGAACGTCGGGGTCTGGTACGACATCCCGCTGGACCCGCCGCTCACCGACAAGTTGCGTTTCGTCGGCGGCTACCAGTACGAAGAACTGGCCGATACCGACTCCCTCAGCCGCCTGCTCACGGTCGGCCCCGAATGGCACAGCCAGTTGCCCAGCGGCTGGCAACGGGTGTTGTCGCTGAAATGGCGCCACGAGGAATACCGCCTGGGCGACGATTCCGGGCTCAGCACCTTGCTGATGCCGGGGATCGCCTACTCCTACCTGCGCAGCGACAGCCGCCTCGATCCCAGCCAGGGCTACCGGCTGCAATGGGAACTGTCCGCCGCCAAGGATGGCGTGCTCTCCGACGCCAACCTGGTACACACCGCGGCCATGGCCAAGGGGCTGATCACCCTGGCGGGCAAGCATCGCTTCCTCGGCCGGGTCCAGGTGGGGGGCAATCTCACCGACAGCTACAAGGGCATTCCACCGTCGTTGCGCTTCTTCGCCGGCGGCGACCAGAGCGTGCGCGGCTACGACTACCAAAGCCTGTCGCCGACCAACTCCGACGGCGACCGCATCGGCGGCCGCTACAGCGTCTCCGGTAGCGCCGAATACCAGTACAGCATCGCCGAACGCTGGCGCATCGCGACCTTCATCGACCAGGGCAACGCCTTCAACTCGCTGGACTTCCCCACCTTGAAGACCGGGGTCGGCTTCGGTGTGCGCTGGGTCTCCCCGGTGGGCCCATTGCGCCTGGACCTCGCCCATCCGCTGGACGGTGAGGGCGGCATCCGCCTGCACTTCTCCATGGGGCCGGAGTTATGA	MMFRTCLCLLLSTLSISASVLAQSQLRVRVDPANAALKTNVEAHIGNLGERDEDDLRRLARVAEGQARQAAEALGYYHAQISSEVSGGPPPRLTLTLLPGEPVRLRNVTVRIEGEATQLRGFRLPDSKVLKPGAPLNHGHYEDAKKLIENQASRYGFFSGRFVRSRLAVDPAAGVADIELIYDSGPRYRLGAVTFSGDSVLDEDLLRRMVPFQAGAPYDSELIADLHQALQSSGYFEGVRVNAIPTQATAEEIPVDVHLTMRKPRSFGLGLGFSTDVGPRGRANWTRHWANPQGHSYGTELELSAPRQNVGVWYDIPLDPPLTDKLRFVGGYQYEELADTDSLSRLLTVGPEWHSQLPSGWQRVLSLKWRHEEYRLGDDSGLSTLLMPGIAYSYLRSDSRLDPSQGYRLQWELSAAKDGVLSDANLVHTAAMAKGLITLAGKHRFLGRVQVGGNLTDSYKGIPPSLRFFAGGDQSVRGYDYQSLSPTNSDGDRIGGRYSVSGSAEYQYSIAERWRIATFIDQGNAFNSLDFPTLKTGVGFGVRWVSPVGPLRLDLAHPLDGEGGIRLHFSMGPEL				NA	NA	NA	NA	NA
BMS010_02330	642			hypothetical protein	ATGCCAGAAACCCACGCCGAAGTCCGACTGCTCGATGGCGGCTATGCCCGCGAAGCACGCTCGCTGCTGTACCACGCTTATCGTCACGAACCCACCTTCGCCTATCTCTTCGAGGCCGAACGGCCGGGCTACGATCAGCGCGTGCGCGCCACGGTGCGCGAACTGGTCCAACAGCACTTCAACGAAGAGCAGCCGGCCATCGGCTTGTTGATCGACGACCGCCTGGTGGGGGTGGCGCTGATCGCACCGCCGCAGCGGCGCCTGGATATCACCGAGAGCTGGGCCTGGCGACTGCGCATGCTGCTCACCACCGGCTTTCGCTGCACCCGGCGCTATCTGGACTACCATGATGCGGTCCTGAGCTGCCTGCCGCCGGGCCCGTACCACGTGCTGCCGCTGCTGGGCGTCCACCCCGAATTCCAGGGCAAGCACCTGGGCGAACAACTGTTGGAGGCGCTGCACAACTGGTGCGCAGAGGATGCCGGCTCCCAGGGCATCGTCCTGGATACCGGCAACAGCCGTTACCTGGACTTCTACAAGCGACAGGGCTACGAGGAAATCGGCGAAGTGGCGGTCGGGCCGATCCGTGAGCACGTGTTCTTCCATCCGAACCCGCAGCCGGCGTTGACGGCGCAGGGATAG	MPETHAEVRLLDGGYAREARSLLYHAYRHEPTFAYLFEAERPGYDQRVRATVRELVQQHFNEEQPAIGLLIDDRLVGVALIAPPQRRLDITESWAWRLRMLLTTGFRCTRRYLDYHDAVLSCLPPGPYHVLPLLGVHPEFQGKHLGEQLLEALHNWCAEDAGSQGIVLDTGNSRYLDFYKRQGYEEIGEVAVGPIREHVFFHPNPQPALTAQG				NA	NA	NA	NA	NA
BMS010_02331	813	xthA_1	COG0708	Exodeoxyribonuclease III	ATGAAGATCGTTTCTTTCAATATCAACGGCCTGCGCGCCCGCCCTCATCAACTGGCGGCGCTGATCGAGAAGCACCAGCCGGACGTGATCGGTCTGCAGGAGACCAAGGTATCCGACGACCAGTTCCCGGAAGCGGAAATCCGCCAGCTCGGCTACCACGTGCATTATCACGGGCAGAAGGGCCATTACGGCGTCGCCCTGCTTTCGCGGCAGGCACCGCTGGCCTTGCACAAGGGTTTCCCCAGCGACGGCGAGGACTCGCAGAAGCGTTTCATCTGGGGCACCTTCGCCGATGCCAATGGCCAACCGATCACCGTGATGAACGGTTATTTCCCGCAAGGGGAAAGCCGTGAGCATCCGGTCAAGTTCCCGGCCAAGACGCGCTTCTACGCCGACCTGCAGGAGCTGCTGGCCACCCGCTTCAGCCCGGACCAGCCACTGGCGATCATGGGCGACTTCAACATCTCGCCGGAAGATTGCGACATCGGCATCGGCGCGGAGAACGCCAAGCGCTGGCTGCGCACCGGCAAATGCAGCTTCCTCCCGGAGGAACGCGAATGGATGGGCCGGTTGAAGGCCTGGGGCCTGCTGGACAGCTTCCGCCACCTGTATCCCGAGGTGAACGACCGCTTCAGTTGGTTCGATTACCGCAGCCGGGGCTTCGAGGACGAACCCAAGCGCGGCCTGCGCATCGACCTGATCCTCACCTCCCTCGCCCTGCAGCCTCGGCTGAAGGCCGCCGGCGTCGACTACGACCTGCGCGGCATGGAGAAGCCGTCGGATCACGCCCCCATCTGGCTCGAGCTGCACTGA	MKIVSFNINGLRARPHQLAALIEKHQPDVIGLQETKVSDDQFPEAEIRQLGYHVHYHGQKGHYGVALLSRQAPLALHKGFPSDGEDSQKRFIWGTFADANGQPITVMNGYFPQGESREHPVKFPAKTRFYADLQELLATRFSPDQPLAIMGDFNISPEDCDIGIGAENAKRWLRTGKCSFLPEEREWMGRLKAWGLLDSFRHLYPEVNDRFSWFDYRSRGFEDEPKRGLRIDLILTSLALQPRLKAAGVDYDLRGMEKPSDHAPIWLELH				NA	NA	NA	NA	NA
BMS010_02332	1380			hypothetical protein	ATGTCGCGCGATCTCGCAGTTCGTGAACGCGATACCTGGAGCCGTACCGGCGCCCTGCTGTTGCTCGGATTCGTCTGCTACGCCCTGCCTTGGTCGGTCTTCGCCGCCCTGCCCCTGCCGAAGGACGACCAGCCGGTCCTGCGCATCCAGGGCTCCAATACCATTGGCGCCAAGCTGGGCCCGGCGCTGGTGAAAGGACTGATGGAAGAACAGGGGCTGCAACAGATCCGCATCGAAGCCGGCTCCGCGGAGAACGAGCAACGTGTCGTGGCCCGTAGCGCCGACGGCCGCAGCGTCCAGGTGGCAGTCGCCGCACACGGCTCCGGCACCGGCTTCACCGCCTTGCAGGACGGCAGCGCCGACCTGGCCGCCTCGTCGCGACCGATCAAGGACAGCGAAGCGGCGGCCCTGGCAGGGCTGGGCGACATGCGCAGCCGCGACAACGAGCAGGTGATCGCCCTGGACGGGCTGGCCATCATCCTTCACCCGGGCAATCCGCTGAACGCCGTCAGCATCGAGCAACTGGCGCGCATCTTTTCCGGGGAAACCAAGACCTGGGAGGAGTTGGGCAGCCGCGGCGGCCCCATCCATCTCTACGCCCGCGACGACAAGTCCGGCACATACGACACCTTCAAGGAACTGGTGCTCGGCAGCCAGGGCAAGAGCCTGGCCGCTGGCGCCCAGCGCTTCGAATCCAGCGAGCAGCTCTCCGATGCGGTCAGCCAGGACCCGGCGGCCATCGGCTTCATCGGCCTACCCTACATCCGCCACGCCAAGGCGCTGGCCATCTCTTCCGGCGACTCGCTGCCGATGCAGCCGGATGCCGCGCTGATCGCTACCGAGGATTATCCGCTGTCGCGCCGGCTGTTCTTCTATCGGCAACCGCAGGCGAACAATCCCTGGGTCGAGGCCCTGGTGCACTTCGCCCAGGGGCCGCGCGGCCAGGCGATCGTCGGACAGAACGGCTTCATCGCCCAGACCGTCACGGCCATGCGCGTGGAGCCGAACGAGGCGATGCCGGCCGCCTATCGGCAGTTGGCCGGCGAGGCGCAACGACTGTCGGTGAACTTCCGCTTCCAGGAAGACAGCGCCAGCCTGGACAACAAGGCGCTGCGTGACGTCGAGCGGGTGCTCGACTACCTCAAGGCGCAGAACAAGCTGCAGCACGCGGTGGTCCTGGTCGGTTTCGGCGACCCCAAGGGCAGCCCGTCGCGCACGGCGCTGCTGTCCAAGCTGCGGGCCATGGCGGTGCGCCGCGAACTGGCCAAGGGCGGCGTGATCTTCCGCGACATCGTCGGCCTCGGCGACGAGTTGTCGGTGGCCGGCAACGACGACGAAGGGCGGTTGAAGAACCGTCGGGTGGAAGTCTGGGTCTACTGA	MSRDLAVRERDTWSRTGALLLLGFVCYALPWSVFAALPLPKDDQPVLRIQGSNTIGAKLGPALVKGLMEEQGLQQIRIEAGSAENEQRVVARSADGRSVQVAVAAHGSGTGFTALQDGSADLAASSRPIKDSEAAALAGLGDMRSRDNEQVIALDGLAIILHPGNPLNAVSIEQLARIFSGETKTWEELGSRGGPIHLYARDDKSGTYDTFKELVLGSQGKSLAAGAQRFESSEQLSDAVSQDPAAIGFIGLPYIRHAKALAISSGDSLPMQPDAALIATEDYPLSRRLFFYRQPQANNPWVEALVHFAQGPRGQAIVGQNGFIAQTVTAMRVEPNEAMPAAYRQLAGEAQRLSVNFRFQEDSASLDNKALRDVERVLDYLKAQNKLQHAVVLVGFGDPKGSPSRTALLSKLRAMAVRRELAKGGVIFRDIVGLGDELSVAGNDDEGRLKNRRVEVWVY	PGPT0002625_382	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE-PUTATIVE_PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002625-pstS|phoS-K02040	NA	NA
BMS010_02333	189			hypothetical protein	ATGGACGTGTTGATCGAGCCGGTTGAACACAGCGGACGCCCGCAATGGCAGGTGCGCCTGGGTGTCCGTGGCATCACCTTCGACGAAGAACTCGCCGCCCGCCAATTCGCTGCCCAGTTGCGCCAGCGCAAGCTCTGGCTGCAAGAGCGGGCCCGCACCGAAGAACCCTCCGAATTGCAGCCTCACTGA	MDVLIEPVEHSGRPQWQVRLGVRGITFDEELAARQFAAQLRQRKLWLQERARTEEPSELQPH				NA	NA	NA	NA	NA
BMS010_02334	948	RBKS		Ribokinase	ATGTATCTGGTCTGCGGCGAAGCCTTGTTCGATGTTTTTGCCGAATCCTCTTCCGGTGCGGCCGGCAACCGGCTTGCCCTCGATGCCGTGGCCGGCGGCTCGCCGTTCAACGTCGCCCTCGGCCTGTGCCGGCTCGGCGCGGCGGCCGGGTTGTTCACCGGTCTGTCGCGCGACTATCTCGGCCAACGTCTGCGCCGCGTGCTCGGCGACGAAGGCGTGACCACGGCATTCCTGGTCGAACTGGATGCCCCCACCACACTGGCGATGGTCGCCCTGGACGACGAAGGCACACCGCATTACAGCTTTCGCGGCGAAGGTTGCGCCGACCGGTTGCTCGGCCCGGAACACCTGCCGACGCTGGACAACGGCATTCGCGGTATCCATCTCGGCTCCTACTCCCTGGTGGTGCAGCCCACTGCCGATACCCTGCTCGCCCTGGTCCGCCGCGAAAGCGGTCGGCGGCTCATCAGCCTCGACCCCAACGTGCGGCTGAGCGTCGAGCCGGATATCCAGCGCTGGCTCACGCGCCTCGACGAGTTGGTGGATCATGCCGACCTGATCAAAGTCAGCGAGGAAGACCTGGCTCTGCTGTACCCGGATCAGGATGCCGAGCGAATCGCCGTCGACTGGCTGGAACGCGGCTGCCGGCTGGTGTTCCTGACCCGCGGCGGCAACGGTGCCTGCGTGTTCAGCCAGCGGCACGGCCGCCTGTGCGTACCGGCACGCCCTGTGGAGGTGCGCGATAGCGTGGGGGCCGGCGATAGCTTCCAGGCCGCCCTGCTCGCCTGGCTGGCCGAGCGCGGATTCGATACCCGGGAAGCGCTGGACGACCTGTCGCGCGACGATCTTGAGGCCTTGCTCGTCTTCGCCGTGAAAGCCGCAGCCATCACCTGCACCCGCACCGGCCCGGATCTGCCGTATCGGCGGGAGTTGGACATTCGGGATTGA	MYLVCGEALFDVFAESSSGAAGNRLALDAVAGGSPFNVALGLCRLGAAAGLFTGLSRDYLGQRLRRVLGDEGVTTAFLVELDAPTTLAMVALDDEGTPHYSFRGEGCADRLLGPEHLPTLDNGIRGIHLGSYSLVVQPTADTLLALVRRESGRRLISLDPNVRLSVEPDIQRWLTRLDELVDHADLIKVSEEDLALLYPDQDAERIAVDWLERGCRLVFLTRGGNGACVFSQRHGRLCVPARPVEVRDSVGAGDSFQAALLAWLAERGFDTREALDDLSRDDLEALLVFAVKAAAITCTRTGPDLPYRRELDIRD	PGPT0017625_1972	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017625-scrK-K00847	NA	NA
BMS010_02335	903	rhaS_10		HTH-type transcriptional activator RhaS	ATGAAAGCCAGCAGAATTACAGACCCGTCCTACGAGCTGATGGACGACCACAACGGGAAGTCGCTGATCTACCGCGAGCATGGTTTCCCCTGCCCGCTGGTGCGCTGGCACAACCACAAGGAATACGAACTGCACCTGATCGTCGCCAGCTCGGGCAAGGTGTTCATCGGCGACTACATCGGCAACTTCGGCCCGGACACGCTGTTCCTCACCGGCCCGCACCTGCCACACAACTGGATCAGCCAGGTCGACGAGGGCGAGGTGGTGCCCAAGCGCGACATGCTGGTGAATTTCACCGACAAGCTGTTCGATGCCGCCACCACGGTGTTCTCCGAACTCAAGGGTCTGGCGCCGCTGTTCGAGCGGGCGCGCTATGGCATCCAGTTCCATGACCCGCAGACGATCCGCCAGGCCAAGGTGCTGATGCAGTTGATCGCCGACAGCGACGGCATCCCCCGCCTCGGCCATTTCCTCACCCTGCTGGGATTGCTGGCGGCCACCGACGACTACCAGTTGCTCTCCGGCTCCACGTCGGCGCAGCTCGGCGACGACAATCACGTCGACCGCACCAACCTGGCGGTGAACTACATCTTCGCGCACTACATGCGCGAGCTGCCGCTGGAGGAAGTGGCCGAGCACCTGGGTATGAAGCCCACCTATTTCTCGCGCTTCTTCAAGCAGGCCACCGGGCGCGGCTTCGTCGAATTCGTCAACAGCCTGCGCATCAGCAAGTCCTGCGAGCTGCTGGCGGACAGCGACAAGCCGGTCACCGACGTCTGTTTCGAGTCCGGCTTCAACAACCTGTCCAACTTCAACCGACGCTTCCAGCAGATCAAGGGCATGACGCCTTCCCGCTACCGACGGCTGGTGGTGCAGCGGCTCACCGAACAGAACCTCGCCTGA	MKASRITDPSYELMDDHNGKSLIYREHGFPCPLVRWHNHKEYELHLIVASSGKVFIGDYIGNFGPDTLFLTGPHLPHNWISQVDEGEVVPKRDMLVNFTDKLFDAATTVFSELKGLAPLFERARYGIQFHDPQTIRQAKVLMQLIADSDGIPRLGHFLTLLGLLAATDDYQLLSGSTSAQLGDDNHVDRTNLAVNYIFAHYMRELPLEEVAEHLGMKPTYFSRFFKQATGRGFVEFVNSLRISKSCELLADSDKPVTDVCFESGFNNLSNFNRRFQQIKGMTPSRYRRLVVQRLTEQNLA				NA	NA	NA	NA	NA
BMS010_02336	1410			hypothetical protein	ATGCCTCCCGACACTCTTCCCCGTTTTCTGGTTCGCCAAGGCGGGAAGGACAAAAACAATAACGAGTTTCTGCTGCCGCGTGCGGCGGAACAGGAGTGCGAAATGACCCCCGCGAAAGCTCTGCTCGCCGCCGCCAGCCTCACCCTCGGCAATCTCGCCCTGGCGGCCCAGACCGTCACCATCGCCACCGTCAACAACAGCGACATGATCCGCATGCAGCGGCTGTCGAAGACCTTCGAGCAGCAGCACCCGGACATCGCCCTCAACTGGGTGGTGCTGGAAGAGAACGTGCTGCGCCAGCGACTGACCACCGACATCGCCACCCAGGGCGGGCAGTTCGACGTGCTCACCATCGGCATGTACGAAGCGTCCCTGTGGGGCAGCAAGGGCTGGTTGGAGCCGATGAAGAACCTGCCCGCTGATTACGATCTCGACGATGTGTTCCCCTCCGTTCGCGAGGGACTGTCGGCCAACGGCACGCTTTACGCCCTGCCGTTCTATGCCGAAAGCTCGCTCACCTACTACCGTACCGATCTGTTCGAGCAGGCCGGCCTGAAGATGCCCGAGCAGCCGACCTGGGAGCAGATGGCCGGGTTCGCCGCCAAGCTGCACAAGCCTGCCGAGGAGCAGTACGGCATCTGCCTGCGCGGCAAGGCCGGCTGGGGCGAGAACATGGCGCTGATCACCACCCTGGCGAACGCCTACGGCGCACGCTGGTTCGACGAGAAATGGCAGCCGGAATTCACCGGCCCCGAATGGTCCCAGGCGCTGAACTTCTATGTCGACACGATGAAGCAGTACGGCCCGCCCGGCGCCTCCAGCAACGGTTTCAACGAAAACCTCGCGCTGTTCAACAGCGGCAAGTGCGCCATGTGGGTCGATGCCAGCGTGGCCGGCTCCTTCGTCACCGATGCCTCGCAGAGCAAAGTGGCCGACAAGGTCGGCTTCGCCTTCGCCCCACAGCAGGTCACCGACAAGGGTGCGGCCTGGATGTATTCCTGGGCGCTGGCGATCCCCACCAGTTCCAAGGCCCAGGACGCGGCGAAGACCTTCATCACCTGGGCCACTTCGAAGGATTACGCCGCCCTGGTGGCGAAGACCGACGGCGTCGCCAACGTGCCGCCGGGCACCCGCGCCTCCACCTACAGCGACGCCTACATGCAGGCCGCGCCGTTCGCGAAGCTGACCCTGGAAGCCTTGAAGAAGGCGGACCCGGCCAACCCGACCCTGAAGCCGGTGCCCTACGTCGGCATCCAGTTGGTCACCATTCCCGAGTTCCAGGCCATCGGCACCCAGGTCGGCAAGCTGTTCTCCGCCGCCCTCACCGGGCAAATGCCGGTGGAGCAGGTGCTAGCCGCCGCGCAGCAATCCACAGCCCGCGAGATGAAACGCGCCGGTTATCCGAAGTAG	MPPDTLPRFLVRQGGKDKNNNEFLLPRAAEQECEMTPAKALLAAASLTLGNLALAAQTVTIATVNNSDMIRMQRLSKTFEQQHPDIALNWVVLEENVLRQRLTTDIATQGGQFDVLTIGMYEASLWGSKGWLEPMKNLPADYDLDDVFPSVREGLSANGTLYALPFYAESSLTYYRTDLFEQAGLKMPEQPTWEQMAGFAAKLHKPAEEQYGICLRGKAGWGENMALITTLANAYGARWFDEKWQPEFTGPEWSQALNFYVDTMKQYGPPGASSNGFNENLALFNSGKCAMWVDASVAGSFVTDASQSKVADKVGFAFAPQQVTDKGAAWMYSWALAIPTSSKAQDAAKTFITWATSKDYAALVAKTDGVANVPPGTRASTYSDAYMQAAPFAKLTLEALKKADPANPTLKPVPYVGIQLVTIPEFQAIGTQVGKLFSAALTGQMPVEQVLAAAQQSTAREMKRAGYPK	PGPT0016380_611	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MANNITOL|SORBITOL_TRANSPORT,PGPT0016380-smoE|mtlE-K10227	NA	NA
BMS010_02337	933	sugA_1	COG1175	Trehalose transport system permease protein SugA	ATGAACACCTCTGTGATGAAATCCGCCACCACCCTGCCCGCGCTGCCGGCAGCCGCCCCCCGGCGCCGACGCTCGCCCGACTGGCTGCTGGTCAGCCCGTCGGTCGCCGTCCTGCTGCTGTGGATGATCGTACCGCTGGGCATGACCCTGTACTTCTCGCTGATCCGCTACAACCTGCTCTATCCGGGCGAGAATGCCTTCGTCGGCCTGGAGAACTTCGAGTTCTTCATCACCGACGCCGGCTTCATGCCCGGCGCCATCAACACGCTGATCCTGGTCGGCAGCGTACTGGCGATCAGCGTGGTGTTCGGCGTGCTCATCTCGGCGCTGCTGGAAGCCGCCGACTTCGCCGGGCGCGGGATCGTCCGGGTACTGCTGATCTCGCCGTTCTTCATCATGCCGACGGTCTCGGCGCTGGTCTGGAAGAACCTGATCTTCCATCCGGTCTCGGGCATCCTCGCAGCGCTCTGGAAACTCTTCGGCGCGCAGCCGGTGGACTGGCTGGCCCAGCACCCGCTGCTGTCCATCGTGATCATCGTGTCCTGGCAGTGGCTGCCGTTCGCCATCCTGATCCTGATGACCGCCATGCAGTCGCTCGACCAGGAGCAGAAGGAAGCCGCCCGCCTCGACGGCGCCGGCCCGCTGGCGATCTTCTGGCACCTGACCCTGCCGCACCTGGCGCGGCCGATCGCCGTGGTGGTGATGATCGAGACGATCTTCCTGCTCTCGGTGTTCGCCGAAATCTACACCACCACCAGCGGCGGCCCCGGCTATGCGTCCACCAACCTGGCCTACCTGATCTACAACCAGGCGCTGCTGCAGTTCGACGTCGGCATGGCCTCGGCGGGCGGGCTGATCGCCGTGCTCATCGCCAACGTCGCCGCGATCATGCTGGTGCGCATGCTCGGCAAGAACCTCACAGACAAGTCCTGA	MNTSVMKSATTLPALPAAAPRRRRSPDWLLVSPSVAVLLLWMIVPLGMTLYFSLIRYNLLYPGENAFVGLENFEFFITDAGFMPGAINTLILVGSVLAISVVFGVLISALLEAADFAGRGIVRVLLISPFFIMPTVSALVWKNLIFHPVSGILAALWKLFGAQPVDWLAQHPLLSIVIIVSWQWLPFAILILMTAMQSLDQEQKEAARLDGAGPLAIFWHLTLPHLARPIAVVVMIETIFLLSVFAEIYTTTSGGPGYASTNLAYLIYNQALLQFDVGMASAGGLIAVLIANVAAIMLVRMLGKNLTDKS	PGPT0016385_329	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MANNITOL|SORBITOL_TRANSPORT,PGPT0016385-smoF|mtlF-K10228	NA	NA
BMS010_02338	834	dasC_2	COG0395	Diacetylchitobiose uptake system permease protein DasC	ATGCTGACCCTCAAGCAATCCCGCCGTCTCACTACCTGGCTGGTCGGGCTGGCGGCCTGGAGTGTGGCGCTGCTGCTGTTCTTCCCGATCTTCTGGATGCTGCTGACCAGCTTCAAGACCGAGATCGACGCCTTCGCCACACCGCCGCAGTTCTTCTTCGTGCCGACGCTGGACAACTACCTGCACATCCAGGAACGCAGCGGCTACTTCAAGTACGCCTGGAACTCGGTGACCATCGCCTTCGGCGCCACCGGCCTGGGGCTGTTGTTCGCCATCCCGGCGGCCTACTCCATGGCCTTCTTCGAAACCCGCCGGACCCGCGGCACGCTGCTGTGGATGCTGTCCACCAAGATGCTCCCGGCGGTCGGCGTGCTGGTGCCCATCTACCTGCTGGCCAAATCCCTCGGCCTGCTGGATACGCGGCTGGTGCTGGTGCTGATCTACACCCTGATCAACCTGCCGATCATGGTCTGGATGGTGTACACCTACTTCAAGGACATCCCCCGGGAAATCCTCGAAGCCTCGCGCATGGACGGCGCCGGTACCCTGCAGGAGATCGTCCGGGTGCTGCTGCCGATCAGCAAGGGCGGCATCGCCTCCACCGTGCTGCTGTCGCTGATCCTGTGCTGGAACGAGGCGTTCTGGTCACTCAACCTGACCTCGGCGAAAGCCGCGCCGCTGACCGCGCTGATCGCCTCCTACTCGAGCCCGGAAGGGCTGTTCTGGGCCAAGCTCTCCGCGGTTTCCACCCTTGCCTGCGCGCCCATCCTGATCTTCGGCTGGATCAGCCAGAAGCAACTGGTGCGCGGCCTCTCCTTCGGCGCCGTCAAATAA	MLTLKQSRRLTTWLVGLAAWSVALLLFFPIFWMLLTSFKTEIDAFATPPQFFFVPTLDNYLHIQERSGYFKYAWNSVTIAFGATGLGLLFAIPAAYSMAFFETRRTRGTLLWMLSTKMLPAVGVLVPIYLLAKSLGLLDTRLVLVLIYTLINLPIMVWMVYTYFKDIPREILEASRMDGAGTLQEIVRVLLPISKGGIASTVLLSLILCWNEAFWSLNLTSAKAAPLTALIASYSSPEGLFWAKLSAVSTLACAPILIFGWISQKQLVRGLSFGAVK	PGPT0016390_305	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MANNITOL|SORBITOL_TRANSPORT,PGPT0016390-smoG|mtlG-K10229	NA	NA
BMS010_02339	1101	malK_2	COG3839	Maltose/maltodextrin import ATP-binding protein MalK	ATGGCAGACCTGAAGATTCGCAACCTGCAAAAAGGCTTCGATGGCCACGCCATCATCAAGGGCATCGACCTGGATATCCGCAACCGCGAATTCGTCGTCTTCGTCGGCCCGTCCGGCTGCGGAAAATCGACCCTGCTGCGGCTGATCGCCGGGCTGGAAGAAGTCAGCAGCGGCAGCATCGAACTGGACGGCCGCGAGATCACCGACGAGAGCCCGGCCAGGCGCGACCTGGCCATGGTGTTCCAGACCTATGCGCTGTATCCGCACATGACCGTGCGCAAGAACATGTCTTTCGCTCTCGACCTGGCCGGCACCGACAAGCAGGAGGTCGAGCGCAAGGTCAGCGAAGCCGCGCGCATCCTTGAACTGGAACCCCTGCTCGAACGCAAACCGCGTCAGCTTTCCGGTGGCCAGCGCCAGCGCGTGGCGATCGGGCGGGCCATCGTGCGCAACCCGAAGATTTTCCTCTTCGACGAACCGCTGTCCAACCTCGATGCCGCCCTGCGCGTGCAGATGCGCCTGGAGCTGGCACGCCTGCACAAGGAATTGCAGGCCACGATGATCTACGTGACCCACGATCAGGTCGAAGCCATGACCCTGGCCGACAAGGTGGTGGTGCTCAACGGTGGGCGGATCGAACAGGTCGGCTCGCCGCTGGAGCTGTACAACCATCCGGCCAACCTGTTCGTCGCCGGTTTCCTCGGCACGCCGAAGATGGGCTTCCTCCGGGGCCGGGTCAGCGCCCTGCACGCCGATGGCTGCGAGGTCGCCCTGGATGCCGGTTGCACCCTGCGGTTGCCGGCGGCCGGAACGCTGGACGTCGGCAGCCCGGTGACCCTCGGCATCCGCCCGGAACATCTCCACCGCGCGCCACCGGAGCAGGCGCAGCTCATGGTCGGCACCGACGTCAGCGAGCGCCTGGGCAGCGACACCTATTGCCACGTGCGCACCGACTCGGAGGAAAACCTCACCCTGCGCGTACGCGGCGACTTCACCTGCGGCTATGGCGAACGCATCGGCCTGACGCTGGACCTCGACCATTGCCATCTGTTCGACGCGGATGGATTGGCCGTCGCACGCGCGGTTCGCCAGGCCGCCTGA	MADLKIRNLQKGFDGHAIIKGIDLDIRNREFVVFVGPSGCGKSTLLRLIAGLEEVSSGSIELDGREITDESPARRDLAMVFQTYALYPHMTVRKNMSFALDLAGTDKQEVERKVSEAARILELEPLLERKPRQLSGGQRQRVAIGRAIVRNPKIFLFDEPLSNLDAALRVQMRLELARLHKELQATMIYVTHDQVEAMTLADKVVVLNGGRIEQVGSPLELYNHPANLFVAGFLGTPKMGFLRGRVSALHADGCEVALDAGCTLRLPAAGTLDVGSPVTLGIRPEHLHRAPPEQAQLMVGTDVSERLGSDTYCHVRTDSEENLTLRVRGDFTCGYGERIGLTLDLDHCHLFDADGLAVARAVRQAA	PGPT0014160_1063	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0014160-malK|mtlK|thuK-K10111	NA	NA
BMS010_02340	1476	por	COG0246	Polyol:NADP oxidoreductase	ATGAAACTCGACCGGCACACCCTTTCCGACTTGCCGCCCCGCGTCGCCCGCCCAACCTACGATTTGTCCCAGCTCCGCCAGGGCATCGTCCATATCGGCGTCGGCGGCTTCCACCGCGCCCATCAGGCGGCGTATACCGATGCCCTGATGAACCGCGGCGAAGCGCTCGACTGGGCGATCTGCGGTGCCGGGCTGCGCCGGGAAGACCGCACCATGCGCGACGCGCTGGCCGAGCAGGACTATCTCTTCACCCTGGTGGAGCTGGCCGACACTGCCGATACCGAAGTACGGGTAATCGGTGCGCTCAACGACATGCTGCTGGCCGAGGAGTCACCCCAGGCACTGCTCGACAAACTGGCCGATCCGGCGATACGCATCGTGTCCCTCACCGTTACCGAAGGCGGTTATTGCATCGACGAGGGCACGGGGGAGTTCAACCCCGCACTGCCGCAGATCCGGCACGACCTGGCCCACCCCGATGCGCCGCAAAGCCTGTTCGGCTTCCTCACCGCCGGCCTCGTCCGTCGCCGCGCCGCCGGTACACCGCCGTTCACAGTGATGTCCTGCGATAACCTGCCGCACAACGGCGATGTAACGCGCAAGGCGTTGCTGGCCTTCGCCCGGCTGCGCGATCCGGAATTAGCTGACTGGATCGCCGGGCACGTGACTTTCCCCAACGCCATGGTGGACCGCATCACGCCGATGACCAGCACTCGGCACCGCCTCGACCTGCATGACCGGCACGGCATCGACGATGCCTGGCCGGTGGTCTGCGAGCCTTTCGTGCAATGGGTGCTGGAAGACAAGTTCGTCAGCGGCCGGCCGGCTTGGGAAAAGGTCGGGGTGCAATTCATCGACGATGTCACGCCCTACGAAGAGATGAAGATCAAGTTGCTCAACGGCAGCCATCTGGCGCTCACCTACCTGGGCTTCCTGCGTGGCTACCGCTACGTCCACGAGACCATGCAGGACCCGTTGTTCGTGCACTTCGTCCGCGGCTGGATGGACAAGGACGTAACCCCGCAATTGGCGCCCGTCCCCGGCATCGACCTCGACGCCTACAAACGCACCCTGATCGAGCGCTTCTCCAACCGCGCCATCGCCGACCAACTGGAGCGGGTCTGCTCGGACGGCTCGTCGAAGCTCTCCAAGTTCAGCGTCCCCACCATCAACCGGCTGATCGACGAAGGACGTCCGCTGGAGCGTGCGGCGCTGGTGGTCGCGGCCTGGGCGTTGTATCTGCGCGGCATCGACGAACGTGGCGAACGCTACCGGATTCCCGACCCGAACGCGGAATTCTGCCAGGCGCTGGTGGCCGATGACGAAGGGCTCAGCGCCCGGCTGCTCGGCGTGGAGCAGATCTTCGGGCCGAAGATTTCGCGCTCGGCGGCGTTCATCGACGCCTTCGAACGCAACCTGCACAGTCTGAAAACCCTCGGCGTCAGCCGCACGCTGGAACGGTTGCTGGCGCAATGA	MKLDRHTLSDLPPRVARPTYDLSQLRQGIVHIGVGGFHRAHQAAYTDALMNRGEALDWAICGAGLRREDRTMRDALAEQDYLFTLVELADTADTEVRVIGALNDMLLAEESPQALLDKLADPAIRIVSLTVTEGGYCIDEGTGEFNPALPQIRHDLAHPDAPQSLFGFLTAGLVRRRAAGTPPFTVMSCDNLPHNGDVTRKALLAFARLRDPELADWIAGHVTFPNAMVDRITPMTSTRHRLDLHDRHGIDDAWPVVCEPFVQWVLEDKFVSGRPAWEKVGVQFIDDVTPYEEMKIKLLNGSHLALTYLGFLRGYRYVHETMQDPLFVHFVRGWMDKDVTPQLAPVPGIDLDAYKRTLIERFSNRAIADQLERVCSDGSSKLSKFSVPTINRLIDEGRPLERAALVVAAWALYLRGIDERGERYRIPDPNAEFCQALVADDEGLSARLLGVEQIFGPKISRSAAFIDAFERNLHSLKTLGVSRTLERLLAQ	PGPT0018400_530	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_MANNITOL_DEGRADATION,PGPT0018400-mtlK-K00045	NA	NA
BMS010_02341	1509	xylB_2	COG1070	Xylulose kinase	ATGAGCGGGCACGGCGACCTCTTCCTCGGCATCGATTGCGGCACCCAGGGCACCAAGGCCCTGCTGCTCGACGCCCACAGCGGCCGGGTGCTTGGCCAGGGCGCGGCGACCCATCGGCTGATCGAAGGACCGAACGGCCGCCGCGAACAGGAGCCGTCGGAGTGGCTGGCCGCCCTCGCCCAGTCGTGCCGGGCCGCCCTGGACGAAGCCGGGGTGGATGGTCATGAGGTGCGGGGCATCGGGGTCTCCGGCCAGCAGCATGGGCTGGTCCTGCTGGATGAACGGGGCGACGTGCTGCGACCGGCAAAGCTCTGGTGCGACACGGAAAGCCAGGCGGAGAACCAGCGGTTGCTGGACTACCTGGGCGGTGTCGAAGGCTCGCTCCGCCGCCTGGGCGTGGCCTTGGCGCCGGGCTATACGCTGTCCAAGCTGCTCTGGACACGCGAGCGGCATCCGCACGTTTTCGAGCGCATCGCCCACATCCTGCTGCCCCACGACTACCTGAACTTCTGGCTGACCGGATGTTGCTGCAGCGAACATGGCGATGCCTCCGGCACCGGCTATTTCGATGTGCGCGGACGCACCTGGGATGTCGAACTGTTGCGTCATATCGACTCGACCGGCCGCCTGGCTGCTGCGGTGCCTACGTTAATGGCCGCCGACGAATCTGTCGGCACGCTACGCCCGGAAGTGGCCCGGCAGCTCGGCCTATCCGACGACGTCCTGGTGTCCAGCGGTGGCGGCGACAACATGATGGGCGCCATCGGCACCGGCAATATCCAGCCCGGCATCCTCACCATGAGCCTGGGTACGTCCGGCACCCTCTACGCCTGGACGGACCGGCCACGGATAGGCAGCCGACCGGAGATCGCCTCGTTCTGCGCATCCTCGGGTGGCTGGTTGTCGCTGATCTGCACCATGAACCTGACCAACGCCAACGCGTTGGTCCGCGAGCTGCTGAACATCGATCTGGACAGCTTTTCCCAGCTCGCCGCCCAGGCACCCATCGGTGCCGAAGGCCTCACCCTGCTGCCCTTCTTCAACGGCGAGCGGGTGCCACCGCTGCCCGAGGCCAGCGCCAGCCTGCTGGGCATGACCGGCGCGAACATGACCCGTGCCAACCTGTGCCGCGCCGTGCTGGAAGGCACCACCTTCGGCTTGCGACGCGGGCTCGATCTGCTGCAGGAAAACGGCATACGGAGCGACAACATCCGCCTGATCGGTGGCGGCGCGAAGAGCGCGGTGTGGCGTCAGTTGATTGCCGACAGCATGGATATGCCGGTGATCGGTGCCGAACAGAACGAGGCAGCGGCATTGGGCGCGGCGATCCAGGCAGCTTGGTGCCATGCCCGGCAGCGCAAACCGGAGGCGTCCCTGGAAGAGCTGTGCGCGCGTTGCGTCAGGCTGGATGAAACGACAGCGACGCAGCCGCTGACGGGCAACGTCCGAGCCTACGAAACGGCTTACCGGCGTTATCGCCGGCATCTCGAGGATATGTACTGGATATAG	MSGHGDLFLGIDCGTQGTKALLLDAHSGRVLGQGAATHRLIEGPNGRREQEPSEWLAALAQSCRAALDEAGVDGHEVRGIGVSGQQHGLVLLDERGDVLRPAKLWCDTESQAENQRLLDYLGGVEGSLRRLGVALAPGYTLSKLLWTRERHPHVFERIAHILLPHDYLNFWLTGCCCSEHGDASGTGYFDVRGRTWDVELLRHIDSTGRLAAAVPTLMAADESVGTLRPEVARQLGLSDDVLVSSGGGDNMMGAIGTGNIQPGILTMSLGTSGTLYAWTDRPRIGSRPEIASFCASSGGWLSLICTMNLTNANALVRELLNIDLDSFSQLAAQAPIGAEGLTLLPFFNGERVPPLPEASASLLGMTGANMTRANLCRAVLEGTTFGLRRGLDLLQENGIRSDNIRLIGGGAKSAVWRQLIADSMDMPVIGAEQNEAAALGAAIQAAWCHARQRKPEASLEELCARCVRLDETTATQPLTGNVRAYETAYRRYRRHLEDMYWI	PGPT0017535_1715	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017535-xylB-K00854	NA	NA
BMS010_02342	1230	bbsG		(R)-benzylsuccinyl-CoA dehydrogenase	ATGGATTTCGCCTATTCCCCCAAGGTCCAGGAACTGCGTGAACGCGTCACCGCGTTCATGGAGGCCCATGTCTATCCGGCCGAGCCGGTGTTCGATCAGCAGGTGGCCGAAGGCGACCGCTGGCAGCCGACCGCGATCATCGAAGAGCTGAAGACCAAGGCCAAGGCCGAAGGCCTGTGGAACCTGTTCCTCCCCGAGTCCGAATACGGTGCCGGCCTGACCAACACCGAATATGCCCCGCTGGCTGAGATCATGGGCCGTTCGCTGATCGGTTCCGAGCCGTTCAACTGCTCCGCGCCGGACACCGGCAACATGGAGGTGCTGGTGCGCTACGGCTCCGAAGAGCAGAAGCGTACCTGGCTGGAACCCCTGCTGCGTGGCGAAATCCGTTCGGCGTTCGGCATGACCGAGCCGGGCGTCGCATCCTCCGATGCCACCAACATGGAAGCCCGCGCCGTACGCGAAGGCGACGAGTGGGTGATCAACGGCCGCAAATGGTGGACCTCCGGCGCCTGCGACCCGCGCTGCAAGATCATGATCTTCATGGGCCTGACCAACCCGGACGCCCCGCGCCACCAGCAGCATTCGATGATCCTGGTGCCGCTGGACACCCCCGGCGTGAAGGTCATCCGGCCGCTGCCGGTGTTCGGTTACGACGATGCGCCCCACGGCCATGCCGAAGTGCTGCTGGAGAACGTTCGCGTACCCTATGAGAACGTCATCCTCGGTGAAGGGCGCGGCTTCGAGATCGCCCAGGGCCGTCTCGGCCCGGGCCGTATCCACCACTGCATGCGCTCCATCGGCATGGCCGAGCGGGCCCTCGAATTGATGTGCAAGCGTGCCGTCAGCCGCACCGCCTTCGGCAAGCCACTGGCCCGCCTGGGCGGCAACATCGATCACATCGCCAACTCGCGGATGGAAATCAACATGGCGCGCCTGCTGACGCTGAACGCGGCCTACATGATGGATACCGTCGGCAATAAGATCGCCGCCAGCGAGATCGCCCAGATCAAGGTGGTGGCGCCGAACGTCGCGCTGAAGGTGATCGACCGCGCCATCCAGATCCATGGCGGTGCCGGGGTCTCCAACGACTTCCCGCTGGCCTACTGGTACGCCATGCAGCGCACCCTGCGCCTGGCGGACGGTCCGGACGAGGTGCACCGCGCGGCGATCGGCAAGTTCGAGATCGGCAAGTACGTACCCAAGGACATGCTGCGCTCCAGCCGCTGA	MDFAYSPKVQELRERVTAFMEAHVYPAEPVFDQQVAEGDRWQPTAIIEELKTKAKAEGLWNLFLPESEYGAGLTNTEYAPLAEIMGRSLIGSEPFNCSAPDTGNMEVLVRYGSEEQKRTWLEPLLRGEIRSAFGMTEPGVASSDATNMEARAVREGDEWVINGRKWWTSGACDPRCKIMIFMGLTNPDAPRHQQHSMILVPLDTPGVKVIRPLPVFGYDDAPHGHAEVLLENVRVPYENVILGEGRGFEIAQGRLGPGRIHHCMRSIGMAERALELMCKRAVSRTAFGKPLARLGGNIDHIANSRMEINMARLLTLNAAYMMDTVGNKIAASEIAQIKVVAPNVALKVIDRAIQIHGGAGVSNDFPLAYWYAMQRTLRLADGPDEVHRAAIGKFEIGKYVPKDMLRSSR	PGPT0008385_2995	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008385-acd-K00249	NA	NA
BMS010_02343	927	pcpR		PCP degradation transcriptional activation protein	ATGAACCTGAACAAGGTCGACCTCAACCTCTTCATCGTGTTCGACGCTATCTATACCGAGGCCAACCTGACCCGTGCAGGGCAGATCGTCGGCATCACCCAACCCGCGGTTTCCAACGCCCTCGCCCGTCTGCGCGAAACCTTCAACGACCCGCTCTTCGTGCGCACCGCCCAGGGCATGGTGCCGACCCCGATGGCGCAAAACATCATCGGCCCGGTGCGCAACGCCTTGCAGTTGCTGCGCGTCTCGGTCCAGGAAAGCCGTACCTTCAACCCGCAGCAGGCGAACAAGACCTACCGCATCAGCATGACCGATCTCACCGAGGCCGTGGTGCTGCCGCCGCTGTTCCAGCGCCTGCGCCGGCTGGCGCCGACCGTGCAGATCGAAAGCTTCCTCGCCAAGCGCCGGGAAACCACCAAGGAACTGGCCGCCGGCCGCCTCGACTTCGCCGTCGACGCCCCACTCAATACCGACCCGCAGGTCCGCCACGTCAAGCTGCTGGAAGACCGCTACGTCTGCGCCTTGCGCAAGGGCCATCCGATGGCCAAGGACAAACTCAGCCTCGACGAATACCTGGCGCTGACCCACATCCATATCTCCAGCCGGCGCAGCGGCCTGGGCTTCGTCGACCTGGCCCTGGGCAAGATGGGCATCCAGCGCCGGATCGCTCTACGCTCGCAGCATTACCTGATGGCTTCGCTGGTGATGCAGCAGACCGACATGGCCATGACCGTGCCGGAACGCTTCGCGCGGCGCCACGGCCTCCATTACGTCGACCTGCCGGTCAAGGACGTGCCCGCGCTGGAGACGCACCTCTATTGGCACGAAAGTACCGACCAGGACCCGGCCAACCGCTGGATGCGCGAGCAGATCATCGAAATCTGCCAACAGGTGACCCGTCAGGAAAGAAGCGCGGAAGACGCCTGA	MNLNKVDLNLFIVFDAIYTEANLTRAGQIVGITQPAVSNALARLRETFNDPLFVRTAQGMVPTPMAQNIIGPVRNALQLLRVSVQESRTFNPQQANKTYRISMTDLTEAVVLPPLFQRLRRLAPTVQIESFLAKRRETTKELAAGRLDFAVDAPLNTDPQVRHVKLLEDRYVCALRKGHPMAKDKLSLDEYLALTHIHISSRRSGLGFVDLALGKMGIQRRIALRSQHYLMASLVMQQTDMAMTVPERFARRHGLHYVDLPVKDVPALETHLYWHESTDQDPANRWMREQIIEICQQVTRQERSAEDA				NA	NA	NA	NA	NA
BMS010_02344	867			hypothetical protein	ATGGAAAGCCTGGGTCCTTCATATGCAACGGGCTCGGCCCAATATGCCGCCTTCTCAGGCGTAACTTCTGGGTTCGACTGGGGCACGGATTGCGACTGTTGTGGCGAGTGGCCGGCAGGCGACTCCAGCGGTGGCAATGCGAGCTGCGGTTGCGCGTGCGACTGTGGAGGTTCGGCCGAAGGCTGCGGCTGCGGCGAAGCGGCAAAAGGCGGTTGCTGCGGTGGTGCGGTGAAATGCTGCGGCTGCGGCGGTGCGAAAAAAGGCGGTTGCTGCGGTGGTGCGGCGAAGTGCTGCGGCTGCGGCGGAGCGGCAAAAGGCGGTTGCTGCGATGGTGCGGCGAAATGCTGCGGCTGCGGCGGTGCGAAAAAAGGCGGTTGCTGCGGTGGTGCGGCGAAGTGCTGCGGCTGCGGCGGAGCGGCAAAAGGCGGTTGCTGTGGTGGCGCGGCGAAGTGTTGCGGCTGCGGTCTGATGAATTCATGTTTTGGCGGTTCGGCCAGTTGTTGCGCTGCGGTTTGCAGTTTTGGTCTGGGGAACAAATACATTTTTTCTTCAGCAGGCTGTTGTGCGGAAAACTGCGGCTGTAGTTTGGAGGGGGAATGTGTCGTTTGCTCAGCCAGTTGTTGCGCTGCGGTTTGCAGTTTTGGCCTGGGGAACAAATACATTTTTTCTTCGGCAGGCTGTTGTGCGGAAAACTGTGACTGTAGTTTGGAAGGGGAGTGTGTTGTCTGCTCGGCCAGCTGTTGTGCTGCAGATTGCAGTTGGGGTCTGGGGGACAAATACATTGTTGGTTCGGAATGCTGCCCCGACGGTTTGTTTTGCATCATCTGCGCTACTACTTGCTTCAGCAGCTCAAGCCCAATTTGCTGA	MESLGPSYATGSAQYAAFSGVTSGFDWGTDCDCCGEWPAGDSSGGNASCGCACDCGGSAEGCGCGEAAKGGCCGGAVKCCGCGGAKKGGCCGGAAKCCGCGGAAKGGCCDGAAKCCGCGGAKKGGCCGGAAKCCGCGGAAKGGCCGGAAKCCGCGLMNSCFGGSASCCAAVCSFGLGNKYIFSSAGCCAENCGCSLEGECVVCSASCCAAVCSFGLGNKYIFSSAGCCAENCDCSLEGECVVCSASCCAADCSWGLGDKYIVGSECCPDGLFCIICATTCFSSSSPIC				NA	NA	NA	NA	NA
BMS010_02345	306			hypothetical protein	ATGACAAACACAACCAACGATATCTTGCTTAAGGTGGAAACGCTGCTCAAAGAGGCGGCATTGCAATTGAAAATGCTCCTTAAGGAAGAAAACCCCGGAATACCTGTTTCTCTTGATCAAGAGATGTCGCTTCAAGACGCACAGATGCGTAGCAAGGCGACCCAAATAAAACACCAAATTCTTAATGAGTTGGTTATTGCCGCTTATTACAACGCCAGCAATCCGGACTGGGATCCGGAACAGGCTGCGACCTATTGGACGGAGTTGCCCGAAGGCGACCCATTGCGCCCGTTATTAAGCACATAA	MTNTTNDILLKVETLLKEAALQLKMLLKEENPGIPVSLDQEMSLQDAQMRSKATQIKHQILNELVIAAYYNASNPDWDPEQAATYWTELPEGDPLRPLLST				NA	NA	NA	NA	NA
BMS010_02346	981			hypothetical protein	ATGAAAGAGGGAAAAGATGTCACTCGCAGAGAGGTGCTCGGCGTAATCGGCGCACTTGGCGCATCGGCGGCGGTAGTAGGCAGTCCGGCAGTCATGGCCTCGTCTTTGAGTACCACAGACAGCCTTGGCGCGAAGCCGGGGCAGGGTGGTTGCTTGCGTAGTTTGGAGTTACCTCATACAGCATCGACGACCATCGATGCTGTAGCGGCCTTGACCACAGCGTCACTTACCAATGACGCTGATATCGTAACCGCGACGACCAGTTCCTGGGATCAGAACTTCGTATTTCTAGGATCGAATGCGGAAGGGGGTGTCAGCTTTTTCAGAACCCTCTTCAGCTTGGAAGAGATCTGGCAGTTTTTTTCCAACAGCTATACCAGGGTCGCCAATCAGGGTGGTGAGCAGCGTTTCAATGAGCATGCGGGCAAGTGGTACGACCTCAGCGATTCGCGCTATAGCCAATTCGTCTTGCCGGATGGCCCCACGGTTACGCAACGGGGTGTATTCCTTTTCACGACATGGACCGATGGTATTGTTGGCCACTTCTTCTGGGGTGAACCGGTGTGGGCTCAACGTTTCGATCTCGACGTCGAAGCGCCGAAAAAAATGACCAATAAGCTGATCGCCTACGAGGAGGCATGGCGATCGGGGGATGTCGAAGCGAGGCTGGACTTGATCGAAGACGAGCTGACGCGCAGTTGCGCGCGCGTCGCCGATCTGACCGGCACCCGGCGCAGCCGCTTCGTCGCTGAGACCAAGGAGGAACTGCGGGCGGCGTGGAGTTTGCCAAGCGCTGGAAAAGTCGTCGAACTCGAGCGACTCCATCACGTGGTCTCTACCTTCTACGTCTTTGCTGCGTACAAGTTGGTGCTCATCGTCGATGGCGAGAAGGTCATCAGGGAGACGGCGCTCCTTCTTCCCATTGGCCCCAACCGAAAATTCATCGGCGAGTTGAGCTACTCGTTCGAATCCACCCTGTAA	MKEGKDVTRREVLGVIGALGASAAVVGSPAVMASSLSTTDSLGAKPGQGGCLRSLELPHTASTTIDAVAALTTASLTNDADIVTATTSSWDQNFVFLGSNAEGGVSFFRTLFSLEEIWQFFSNSYTRVANQGGEQRFNEHAGKWYDLSDSRYSQFVLPDGPTVTQRGVFLFTTWTDGIVGHFFWGEPVWAQRFDLDVEAPKKMTNKLIAYEEAWRSGDVEARLDLIEDELTRSCARVADLTGTRRSRFVAETKEELRAAWSLPSAGKVVELERLHHVVSTFYVFAAYKLVLIVDGEKVIRETALLLPIGPNRKFIGELSYSFESTL				NA	NA	NA	NA	NA
BMS010_02347	1509			hypothetical protein	ATGAAGTACAAGGTATTGATCGGCTGTTGTCTCTATTTGCTTGGCACATCGCTTTCGTTCGCCGCTCCCAAGGTGGCCTTGAAGCTTTCCCAAAGCGCATCGACCGTCAGCCTCAACTGGACGGCCAGCGGCGAGTTCGTCGCCCAGGAGATCTACCGCAACACCCAATCCGGCTCCAGCGGTCGCCAACTCGTCGCCAAACTCGACGTCAACAAGCGCAGCTACACCGATAAACCAGACCTGAGCCAACAGTACTGGTACTGGGTGAAAGTCATCGACGCCAACAAGAAGTCGAAACTGTCCAACTCCGCCAGCACCAAGGTTGTTGCAACGTCGACAGCTTCGAGCTCTGCCAGTGCGACAAATGCCCAACAAACGACGACCTTGATCATCACCCCTCCGGCACCGGTCACGAACACAGTCGCCCCCACGCCGTACTCCCCCTCATCATCCTCCAGCTCGCGGGCGTTGCTGATGACGCTCAAGAGCGTCGATTCGGTGAACCTGAGCTGGTCGGCCGATGGGCAATTCGTTCGCCAGGTCGTCTATCGCAGCACCAAGGCGGACAAATCCGACGCGGTCGAAGTCGCCGTCCTGGACGACTGCGAAGAACGAACCTTCATCGATACCCCGGCCAACCTGAACCAGGACTACTGGTACTGGGTCGTCTTCGTTTCCGCCGACGGCAGCACGAGCGAATCCAATCTCGCCGGCACCTCTACCGCTGCCCAGGCCAAGGCTGTCAGGAAAGCCGATGCGGCCTGCTACGCCGGTGCCGTGGTAGAAAACGCCACCATCGATTGTGGCGGCATTACCCTGGGTACCAGTTGCCCCAGCGACAGCGACAAGCAGCAGCCCATCATTACTTTGAAGAACGCCACCGTTAAGAACCTGCGCATTGCCGCCAGCGGTGGTGCCGACGGTATCCACTGTGTGGCCGGCGACTGCCGTCTCGAGAACATCGTCTGGGAAGACGTCTGCGAGGATGCGGCTTCCAACCTCAAGCAGGCCCGCTCCATGTCCATCGTCGGCGGCATCGCCAACAATGTGAAGAATGGCTACGGCGGCAAGCCCGACAAGATTTTCCAGCACAACTCGCTGAACAGCTCCACCATCATCGAAGGCGGTTTTATCGCCTCCGGCGACAACGGGAAAATCTGGCGCTCCTGCGGGAACTGTGACAAGAACGGCGGCCCCCGCAATCTCCTGATCAAGAATGCGAAGGTCAATGGCAGCATCAAGGCCATCGCCGGGGCTAACCGCAACTACAAGGATGTCGTCTCGATCATCAAGCTGAAAATCAAAGGCTACCAGTACACTCCGCCGGTCCTAGGCCTACTGATGGCAACCGATACGAGCTCCCAGTACAAGCATGACAGCTCTTCCGTGCCGGTCTGCGAAGAGTACGAGGGCGTCCAAAAGCGCGATAAGAAAGAGTCGCCCAAGTACGGAACAGCCTGGGGAACGGCAACCTGCAACGTCAAACCCAGCAGCGTCAGCGCGCTCTGA	MKYKVLIGCCLYLLGTSLSFAAPKVALKLSQSASTVSLNWTASGEFVAQEIYRNTQSGSSGRQLVAKLDVNKRSYTDKPDLSQQYWYWVKVIDANKKSKLSNSASTKVVATSTASSSASATNAQQTTTLIITPPAPVTNTVAPTPYSPSSSSSSRALLMTLKSVDSVNLSWSADGQFVRQVVYRSTKADKSDAVEVAVLDDCEERTFIDTPANLNQDYWYWVVFVSADGSTSESNLAGTSTAAQAKAVRKADAACYAGAVVENATIDCGGITLGTSCPSDSDKQQPIITLKNATVKNLRIAASGGADGIHCVAGDCRLENIVWEDVCEDAASNLKQARSMSIVGGIANNVKNGYGGKPDKIFQHNSLNSSTIIEGGFIASGDNGKIWRSCGNCDKNGGPRNLLIKNAKVNGSIKAIAGANRNYKDVVSIIKLKIKGYQYTPPVLGLLMATDTSSQYKHDSSSVPVCEEYEGVQKRDKKESPKYGTAWGTATCNVKPSSVSAL				NA	NA	NA	NA	NA
BMS010_02348	2391	xcpQ_1	COG1450	Secretin XcpQ	ATGCCATTCACTTTTCTTCGCCTTACCGTCCTTCTCATCGCCAGCGGTCTTATCGCCGCGCCCGTGGTGCATGCCGCCTCGACACCTTCTGCCGCCCCGGCAGCCCAGCAGCAGGGAGAACGCTGGACCATCAACCTCCAGGGTGCGGACATCCGCGACTTCATCGGTCAGATCGCCGAAATAACCGGCGAGACCTTCGTCGTCGATCCACGGGTCAAGGGCCAGGTCACGGTGGTATCGAATGCCAGCCTGACCCTGCCCGAAGTCTATCAACTGTTCCTCTCGGTACTGGCCACCTACGGCTATACCGTACTGCCGCAAGGCGACCAGGCCCGCATCATCCCGAACGCCGAAGCCAAGGCCGAGGCCACCAAGGGCGGCCTCTCCGGGGCGGACAGCCTGGAAACGCGAGTGATCCAGGTCCAGCACAACGCCGTTGCCGAACTGATTCCGCTGATCCGTCCGCTGGTCCCGCAGTACGGACACCTGGCGGCAGTCACCTCGGCCAACGCGATGATCATCAGCGACCGCAAGGCCAACATCGCCCGTATCGAAGAAATCGTCCGCCAACTGGACCAGGCGAACCAACGCGACTACACCGTGTACGACATGCGCCATGCCTGGGTGACCGATGCCGCGGAAATCCTTAACAACACCATCAACGGCGGGGGCCAGGCGAAAGGTGGCGGCACCCAGGTGATCGCCGACACACGGACCAATCGACTGATCTTCATGGGCCCAGCGGAAGCCCGCGCGAAGCTGGTGAACCTCGCCCAATCGCTGGATACCCCCTCCTCTCGCTCGGCCAATACCCGGGTGATCCGTCTTCGCCATAACGATGCCAAGACCCTGGCTGAGACCCTCGGGCAGATCAGCGAGACCTTGAAGACCGGCACCGGCGACGGCTCCGGCAAACCGCAGCAACTGATGATCCGTGCCGACGAAAGCCTCAACGCTTTGGTCATCCTGGCCGAGCCGGATACCGTGAACATGCTCGAGGACATCGTTCGCCAGCTCGATGTGCCCCGCGCCCAAGTGTTGGTCGAAGCGGCGATCGTCGAGGTGTCGGGCGACATCAGCGATGCCCTCGGCGTGCAGTGGGCCAGCGATGGACGTGGCTCAGGCACTGTGGGGATCGGCGGCGTCAACTTCAGCAATACCGGGCTGTCCGTCGGTACGCTGCTCGGTGCCATCGCCAACAACCAGGTACCGACCAGCCTGCCCAATGGCGCCATCGTCGGTGTCGGTACCAGCAACTTCGGTGCCCTGATCACCGCGCTGTCCTCGAACAGCAAGAGCAACCTGCTCTCCACCCCGACCCTGCTGACCCTGGACAATCAGAAGGCCGAAATCCTGGTGGGCCAGAACGTGCCGTTCCAGACCGGCTCCTACGCCACCACCAACGACGGCGCCAGCAATCCGTTCACCACCATCGAGCGCAAGGACATCGGCGTGACACTCAAGGTCACGCCTCACCTCAACGAGGGCGCCACGCTGCGCCTGGAGATCGAGCAGGAGATTTCCTCCATCGCACCCAGTGCGTCGCTGTCTGCCCAGGCAGTCGACCTGGTGACCAACAAGCGCTCGATCAAGAGCACCATCCTGGCCGACGACGGCCAGGTCATCGTACTCGGCGGACTGATCCAGGACGACATCACCCACAGCAACTCCAAGGTTCCCCTGCTGGGTGACATTCCGCTGCTCGGGCGGCTGTTCCGCTCCACCCAGGACAGCCACGTCAAGCGCAACCTGATGGTATTCCTGCACCCCACCGTGGTCCGCGACTCGGCAGGCCTGAACGCTCTCAGCGGCCGCAAGTACAGCGACATGCGCCTGCTGAGCCAGGCGAGTGCCGAAGCGGCGAATACCCTCCCGGTGGAGCCGCAACGGCTGTTCGATCGCTCCCAGTCGCCAGGCGTGGAAATCGACCTGCGCCCCCACACTGCGCCTCAGCCACAGAGCGAGCCCGCTCCGGAGGCAGCCATTCCCTCGCCGGCGCCGGTCACCACCCTGCTGGAGACACCCAAGCCGGTCGACCCGAAACAGCTCGGGAACGGGAAAGGCGGCGAAGACGCAACCCCGATGCCAACGGCTACGCCGCCTCAGCCCCCCCGCGAAGCGGAAAAGCCGCAGCGTTATGCGATTCAATTGGTCGGCGGCAGCAGCCTGCCCTTCATGCAGGCGGTTCTCCAGCAGCACCCTGGCGAACCCTTGCGGATACAGGAAACGAAACGGGACAACGAGCCCTGGTTCGTGTTGTTGTACGGTGACTATGACGATTCGACCAAGGCGCGCCTGGCGATGGCCCGGCTACCCAAGCAGTTGCCGCAACGTGATGCCTTCATCTTCGCCAGCCCCGTGGAGGGAACGCAGGTTTCGCGAGTTCCCTGA	MPFTFLRLTVLLIASGLIAAPVVHAASTPSAAPAAQQQGERWTINLQGADIRDFIGQIAEITGETFVVDPRVKGQVTVVSNASLTLPEVYQLFLSVLATYGYTVLPQGDQARIIPNAEAKAEATKGGLSGADSLETRVIQVQHNAVAELIPLIRPLVPQYGHLAAVTSANAMIISDRKANIARIEEIVRQLDQANQRDYTVYDMRHAWVTDAAEILNNTINGGGQAKGGGTQVIADTRTNRLIFMGPAEARAKLVNLAQSLDTPSSRSANTRVIRLRHNDAKTLAETLGQISETLKTGTGDGSGKPQQLMIRADESLNALVILAEPDTVNMLEDIVRQLDVPRAQVLVEAAIVEVSGDISDALGVQWASDGRGSGTVGIGGVNFSNTGLSVGTLLGAIANNQVPTSLPNGAIVGVGTSNFGALITALSSNSKSNLLSTPTLLTLDNQKAEILVGQNVPFQTGSYATTNDGASNPFTTIERKDIGVTLKVTPHLNEGATLRLEIEQEISSIAPSASLSAQAVDLVTNKRSIKSTILADDGQVIVLGGLIQDDITHSNSKVPLLGDIPLLGRLFRSTQDSHVKRNLMVFLHPTVVRDSAGLNALSGRKYSDMRLLSQASAEAANTLPVEPQRLFDRSQSPGVEIDLRPHTAPQPQSEPAPEAAIPSPAPVTTLLETPKPVDPKQLGNGKGGEDATPMPTATPPQPPREAEKPQRYAIQLVGGSSLPFMQAVLQQHPGEPLRIQETKRDNEPWFVLLYGDYDDSTKARLAMARLPKQLPQRDAFIFASPVEGTQVSRVP	PGPT0026425_1710	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026425-gspD|epsD-K02453	NA	NA
BMS010_02349	4278			hypothetical protein	ATGTCGTCCGGCGTAACGAACGAAGTAGCACAAGCCATGCAAGGCTCCGAATGGCTTCAGGACGCCTTGGAGGGGATGTCCACGGGGGTTGCCCTCCTCGCCGGGAATGGCTCGTTCGTCCGGGCGAACCCGGCTCTCTGTGCCATCACCGGCTTTTCCGAAGCCGAACTGGCCGGACGGAATATCCAGGACCTGCTGGCGCCAGAGGACGTCGAGGCGTTCCATAAGGAATGGGAGCAGGCGCTGCGTAGCGGGGCCACACGTATCCAGGTGGAATCCAACTACCTGGACAAGCAAGGGCGGACTCTTCGCGGCCTGACCCACCTCAGTTTCCAGCGCCACGACGGGCAGGTGCGACGCATCGTCCTGGAAATCACCGAAACGACCGAACGCCGCAAGGCGGAGGCCCAGCGCCTACGGGAGCGCCTCGAGCAGAACCAGTGGCTGGAAAAGGTGACGGAAACCGCTCCGGGCGTCATCGGCATCTACCGCCAGGGGGCCGACGGCCGGCATAGCGTTCCGTCCTGGTCGACCCGGGGATACGAAAAGCTCTTCGGCCTGAACCCCGCCGAACTGGTGAATGACGTCTCCCCTCTCTTCAAGCAGGTCCATCCCGGCGATTACGAGCGGGTCATGGCGACCATCGCCGAGTCGGCCCGTACGCTCGAACCCTGGCGCTGCGAGTACCGAATTCGTCACCCCGAGCGGGGTATCGTCTGGATCGAAGGGCGCTCCCAACCCACGATCGAGAGCGATGGCAGCATCATCTGGTACGGCTTCCTGCACGATGTCACCGAGCGTAAGCAGATCGAGCAGGCCCTGCGAGAGAGCGAGGAGCGCTTTCGCAAGGCATTCGAGTGCGCCGGTATCGGTATGGCCCTGCTCTCCATGGAGGGCCGCTGGCTCAGCGCCAATCGCACCCTCTGCGACATGCTCGGCTACACGGAAGCGGAGTTGCTGCAGACGACTTCGCAGGCTCTGACGCACCCCGACGATCAGGACAAGGGCCGCGAACTGTTGCGCCAGATCGCGAACGAAGCCTCTCTTCCACAGCATATCGAGAAGCGCTACCGTCATCGGGACGGCCACTTCGTCTGGGTGCGCCTGGCGGCCAACGTCGTGACTTCACCGCACGATACCCCGCCCTACTACGTTTCCTTCTTCGAGGACATCACCCAGGACAAGGCCGCCCAGGAACGTCTCGCCCTGCTGGATTTTGCCCTCGACCACGTGCATGAAGCCGCCTATGTGCTCGATATGCAGGCCCGCTTCCATTACGTGAATCACGAAGCCTGCCGCAGCCTGGGTTATAGCGAGAAGGACCTGCTGGGCATGTCCATACCGGACATCGCGCCTGACTATTCGCTCGCGGCGGCCATCGAAAAGCTGATAGCCATTCGCGAGGACGGCACCGGCACCTTCGAAACGGTCCACAGGACTCGCGCCGGCGATATCTTTCCCGTTGAAGTCACCGTCAGTTACTTCACGTTCAACGGTAAGGAATACAACCTGGCGCTGGCCAGGGACATTTCGCGAAGGAAGCGCCTGGAAGCGGAACGCCAGGAGCGCGAACGCCACTATCGCGAAGTCTTCGAGAACTCCTCGGACTGCCTGTATCTGCTGGAGGTGACAGAGGACGAGCGATTCCGTTACCTGGAAATCAACGCCGCCTTCGAGCGGGTTTCCGGCTGGCCCCGCAGCCAGCTCATCGGCAGATTCCTGGGTGAGTTCGCGGAGGAGTCCACCTCGAGCTTCGTTCTTGGCGAACTCCGCCGTGCCTTGCGCAGCGGCGCCAGCGTGGAGTGGGAGTCCGAACTGGTGCTGGGTGCCGGCCCGCGCACCATAGCGGGCACGATGATTCCGGTACGGGACGAACACGGCCGGATCTACCGAGTCGTCGGTGTCAGCCGCGACATCACCGAAAGCAAGCATATGGAGGAACTGCTCCGGGCCAGGGAACAGCAGTTCCGCACGCTGGCTGAGAATTCCCCCCATATCATCGTCCGTTACGATCGCGACCTTCGGCGCATTTATGTCAACAAGATGCATGAGCGGGAGCTCGGCGTGTCGCGTGAGAAGACCATGAATGCACCGGTCGAGGTGGGCTGGGGCGCCATTACACCGATCGAAACCTACAAGGCGATCCTTACCGGCGTCCTGCAAACCGGCCAGCCCGCCGAAGCGATCATCGAATGGCCGTCCATCGAGACCGGCGAAATCATCAGTTACGCCACTCAGTTCGTCGCGGAAAAAGGCCTGAACGGCGAGATCGTGAGCGTCCTCGCCAAGGGCTACAACGTCACCGCCATGAAGAAACATGAGCGCCAGGAAGAGGCGCGACTGCGGATTTTCGAGCACCTCGCTCATGGTGGTTCCCTACCGGAAGTGCTCACCCTGGTCGCCGAATACATGGAAAAAACCCGGCCCGATTTCCTGGCCGCGATCATGCTCATGGACGACGACAAGAAGCACCTTGTCTTCGGCGCAGCACCCAGCCTGCCCGAGAGTTACAACAGCAAGCTCGGCAGGATTCCGATCGGTGAGGGCATCGGCACCTGTGGAACCTGCGCCTGGCGCAAGGAAACCGTGATCACGGAGGACATCAGCGCCGATCCCAATTGGCGCACTTTCAGCCCCTCGGCCGTCGATGCCGGCCTGATGGCCTGCTGGTCAGAGCCCATTCTCGACTCGTCGGGCGAGGTGCTGGGCACCTTCTGCATCTATCTCCCGAAACCGGGACGACCGACCGAAGAAGACCTGCGGCAGGTGCACCAGGTCACCCACTTGGCGGCCATCGCAATCCAGCGCAAGCGGGACGAGACCCGGCTGAAAGAGAGCGAGCAACGCTACCGGGAAATATTCGACAACTCCATGGACGCCCTCTTCCTGCTGGAGGTGACGCAGGGCGGTGAGTTCCGCAGTATCGAGGTCAACCCCGCCGGAGCGAAGTTCCTCGGTATTCCCCATGCCGGTCTGATCGGCCAGACCTTGGAAGAGGCGCTCCCGGGCCAACTGGCACAACGAGCCATCGCCAAGTACCACACCTGCCTGAAAACGGGTACGCCCATTGATGAAGAGATACGGCTGCACCTGCCCATTGGAACGCGTGACTTCCACTTGACGCTGATCCCTCTGCACCATGAGTCAGGCCATGTATACCGGGTCATCGGTATCGCCCGGGACATCACCGAACGCAAGCGTGCGGAACAGATCCTTCACCGGCGCGAGGAGGAGTTCCGTGCGCTGGTCGAGAACGCCCCCGATTTCATTTCCCGCTATGACACGAAGGCGCGCTGCCTCTATGCCAATCCGGCCTTCGAAAACCTGCTCGGCGTCACGCTCGCCGACCTGCGCGGCAAACGCCTCAATGCCATTCCAGATACCTTCGTCACAAGTTCGCAGATGTCGGACGAGATCATGAGGGTAGCCAGCAGCGGCATTCCCGCAGAGGCTGAGCTGTTGTTCGACGGGCTGCATATCGAGCAGCAACACCCCATCGTCCAGCACGTGCGGCTCGTTCCGGAATGCGATCGCAGCGGCTCCGTTACGTCCATCCTGGCGATTGGCCGTGATATTTCGGCGATCCGTGCCGCCGAGCGCAGCCTGGAAGAATCGCACGCACGATTGCGGGACCTCTCCCGCCGCCGCGAGACCGCACGCGAGGAAGAACGCAAACGCATCGCCCGGGAGATTCACGACGAATTGGGCCAGCACCTGACGGCATTGCGTATGGGGATTTCCCTGCTGCGCTTCCAGTTCGGCAAGAACAACCCGCTCCTGGTAAAGCGCATCCAGGGCCTGATGACTCTGGTCGACAAAACCATCCGCGTCGTCCGAAACGTCGCCTCCAGCCTACGCCCGGCCGCGCTCAATATGGGGCTTCCCTTGGCCCTCGAATGGCTGGTGACGGAGTTCACCGAGCACACCGGTCTGGAGTGCCATCTGGAAATTCCGAAGGAGCCCCTGCAGATCGACGACGAACACGCCACCGCTGCCTTCCGCGTCGTCCAGGAATCGCTCACCAACATCGCCCGCCATGCCGCCGCGAGCCGGGTCGATATCTCCCTCTCCTGCAACAGCGGCAGCTACTTGCTGGAAATTGCCGACAACGGCAGGGGCTTCGATACGACAGCGCCGCGCAAGAAGACGTTCGGCCTGGCGGGCATGCAGGAGCGAGGGCTCATGCTGGGGGGCAAGGTGAGCATCATCAGCTCTCCGGGCAACGGCACGACCATCAGATTGCAGATGCCCGTCAACATCGCACAGGAAACCCCATGA	MSSGVTNEVAQAMQGSEWLQDALEGMSTGVALLAGNGSFVRANPALCAITGFSEAELAGRNIQDLLAPEDVEAFHKEWEQALRSGATRIQVESNYLDKQGRTLRGLTHLSFQRHDGQVRRIVLEITETTERRKAEAQRLRERLEQNQWLEKVTETAPGVIGIYRQGADGRHSVPSWSTRGYEKLFGLNPAELVNDVSPLFKQVHPGDYERVMATIAESARTLEPWRCEYRIRHPERGIVWIEGRSQPTIESDGSIIWYGFLHDVTERKQIEQALRESEERFRKAFECAGIGMALLSMEGRWLSANRTLCDMLGYTEAELLQTTSQALTHPDDQDKGRELLRQIANEASLPQHIEKRYRHRDGHFVWVRLAANVVTSPHDTPPYYVSFFEDITQDKAAQERLALLDFALDHVHEAAYVLDMQARFHYVNHEACRSLGYSEKDLLGMSIPDIAPDYSLAAAIEKLIAIREDGTGTFETVHRTRAGDIFPVEVTVSYFTFNGKEYNLALARDISRRKRLEAERQERERHYREVFENSSDCLYLLEVTEDERFRYLEINAAFERVSGWPRSQLIGRFLGEFAEESTSSFVLGELRRALRSGASVEWESELVLGAGPRTIAGTMIPVRDEHGRIYRVVGVSRDITESKHMEELLRAREQQFRTLAENSPHIIVRYDRDLRRIYVNKMHERELGVSREKTMNAPVEVGWGAITPIETYKAILTGVLQTGQPAEAIIEWPSIETGEIISYATQFVAEKGLNGEIVSVLAKGYNVTAMKKHERQEEARLRIFEHLAHGGSLPEVLTLVAEYMEKTRPDFLAAIMLMDDDKKHLVFGAAPSLPESYNSKLGRIPIGEGIGTCGTCAWRKETVITEDISADPNWRTFSPSAVDAGLMACWSEPILDSSGEVLGTFCIYLPKPGRPTEEDLRQVHQVTHLAAIAIQRKRDETRLKESEQRYREIFDNSMDALFLLEVTQGGEFRSIEVNPAGAKFLGIPHAGLIGQTLEEALPGQLAQRAIAKYHTCLKTGTPIDEEIRLHLPIGTRDFHLTLIPLHHESGHVYRVIGIARDITERKRAEQILHRREEEFRALVENAPDFISRYDTKARCLYANPAFENLLGVTLADLRGKRLNAIPDTFVTSSQMSDEIMRVASSGIPAEAELLFDGLHIEQQHPIVQHVRLVPECDRSGSVTSILAIGRDISAIRAAERSLEESHARLRDLSRRRETAREEERKRIAREIHDELGQHLTALRMGISLLRFQFGKNNPLLVKRIQGLMTLVDKTIRVVRNVASSLRPAALNMGLPLALEWLVTEFTEHTGLECHLEIPKEPLQIDDEHATAAFRVVQESLTNIARHAAASRVDISLSCNSGSYLLEIADNGRGFDTTAPRKKTFGLAGMQERGLMLGGKVSIISSPGNGTTIRLQMPVNIAQETP				NA	NA	NA	NA	NA
BMS010_02350	630	uvrY_1	COG2197	Response regulator UvrY	ATGATTCGCGTACTCATAGCCGATGACCATGCCATCATGCGTGAAGGTCTGAAGCAGCTCTTCGCCCTGGTCGACGACCTGATCGTGGTTGGCGAAGCCGAAAGCGGCATCGAAGTGCTCGATCAACTGAGAGCCGGTGGCATCGACCTGCTCCTGCTCGACATGAGCATGCCGGGGATCGCCGGCGAGGACCTGATCGCCCGCGTTCATACACACTATCCTCTGCTGCCCATCCTGGTGCTCAGCATGCACAACGAAACCCAGATCGCCCAACGTGCACTCAAGGCGGGAGCTCTGGGCTACCTGACCAAAGACCGCGACCCCGAGGCCCTGCTCACTGCCATCCGCCGCGTCGTTGCCGGCGCGCCCTTCATCGATCCGCAACTTGCCGAACAGATGGCTTTGGAAGCGAGCGGCTTCGGCCAACGCGCCGATCACGACGACCTCACCCGCCGGGAACTGCAGATTCTGCGGCTGCTCGCGCGCGGTCTGAGCGTCAACCAGATTGCGACTGAGCTTGCAATCAGCAACAAGACCGTGAGCACTCACAAGGCACGCCTGATGGAAAAAATGGGCTTCTCCAGCAATGCCGATCTGATCCGGTACAGCATCGCGCACAAGATTGTCTGA	MIRVLIADDHAIMREGLKQLFALVDDLIVVGEAESGIEVLDQLRAGGIDLLLLDMSMPGIAGEDLIARVHTHYPLLPILVLSMHNETQIAQRALKAGALGYLTKDRDPEALLTAIRRVVAGAPFIDPQLAEQMALEASGFGQRADHDDLTRRELQILRLLARGLSVNQIATELAISNKTVSTHKARLMEKMGFSSNADLIRYSIAHKIV	PGPT0017180_34	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_HEXOSE_PHOSPHATE_UPTAKE_SENSING,PGPT0017180-uhpA-K07686	NA	NA
BMS010_02351	792	vfr_1	COG0664	Cyclic AMP receptor-like protein	ATGCCACTGACAACTCTCGCTCCAAAGATCAAGAATCTTGAAAAGTTTCTCACTCATTGCCATCACCGGCGCTATCCCGCCAAAAGCACCGTAATCTGCCCAGGCGATCGTTGCGAAACCCTGTATCTGATCATCAAGGGATCGATGAGTGTATTGATCGATGACGACACTGGGCGTGAACTCATCATTACCTATCTGAAATCCGGGGAATTCTTCGGTGAGATGGGCCTGTTCGATCGCGAAGGGCCAAAGCAGACGCGTAGCGCCTGGGTCATCGCGAAAACCGAATGCGAAGTGGCGGAAGTCAGTTACGAACGTTTCCGGGAACTGGCCAAACAGGACCCCGAACTGCTCTACGCGGTCATCAAGCAAATGGCCGAACGTCTTCGCAACACCACACGCAAAGCCTTCGACCTGACTTTCCTCGACATTACGCACCGCGTCGCTCGCACGCTGTTCGACCTCTGCACACAACCCGGCGCGATGACCCATCCGGATGGCATCCAGGTCAAGATCACGCGCCAGGAAATCGCCCGGATCATCAGCTGTTCGCGGGAGATGGTCGGTCGAGTACTGAAGAATCTGGAAAACCAGGGGCTGGTTCAGGTCAAAGGCAAGACCATGGTGGTTTTCAATCCGCCCGCCGACTCCCAGAGTCTTTATGCCCTGGAACAAAAAGAAGCCCTCGAAGAGTCTCGCCTACTATCCGCGCAGTCCAGTCATATAAACGAAAGTATTGGCAACACCAAGCCAGCCCAATTCTTTCGTACACCTGCACAGCAAATTGCCTGA	MPLTTLAPKIKNLEKFLTHCHHRRYPAKSTVICPGDRCETLYLIIKGSMSVLIDDDTGRELIITYLKSGEFFGEMGLFDREGPKQTRSAWVIAKTECEVAEVSYERFRELAKQDPELLYAVIKQMAERLRNTTRKAFDLTFLDITHRVARTLFDLCTQPGAMTHPDGIQVKITRQEIARIISCSREMVGRVLKNLENQGLVQVKGKTMVVFNPPADSQSLYALEQKEALEESRLLSAQSSHINESIGNTKPAQFFRTPAQQIA	PGPT0015075_3980	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-CARBOHYDRATE_LIMITATION_SIGNALLING,PGPT0015075-clp|crp-K10914	NA	NA
BMS010_02352	465			hypothetical protein	ATGCCCTGGGGAAAGACCTCATCGGGGTTCACCTTGGTAGAACTCATGATCATCGTCGTTATTCTTGGCATCTTCGCCGGAATCGCGGTGCCGAGCTTTACCGACCTGATAAGACGCAACCGCCTTCAGAGCGCCAGCGAAGAGTTCTACGGTTTGCTGCAATACGCACGCACCGAAGCGGTATCGCGTGGCCGCTCCATTACGGTCACCCAAAACAAAGATGGTGCCTGGCTCGTCAAGACGAAGGACAAGGTACTTCGCCAGCAACGCTTCACAGCCGTCGATCTACAGGCCAGCCGCGACACCTTGACCTTTCACCAGAACGGCACGGCGGATGCGGCGCTCGCCATCGCCGTCTGCGCTCAGAGCACGCCGGCTCTGGTCCGCACCCTAAGCGTGGAAAACAGCGGCAGGGTCAGCCTTTCCAGCAAGACCCAGGAGAAAAAAGCATGCGCCACCTCGTGA	MPWGKTSSGFTLVELMIIVVILGIFAGIAVPSFTDLIRRNRLQSASEEFYGLLQYARTEAVSRGRSITVTQNKDGAWLVKTKDKVLRQQRFTAVDLQASRDTLTFHQNGTADAALAIAVCAQSTPALVRTLSVENSGRVSLSSKTQEKKACATS	PGPT0016070_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0016070-fimU-K08085	NA	NA
BMS010_02353	546			hypothetical protein	ATGCGCCACCTCGTGATGACGCAAGGCCTTCGCGCACCCCGCCGCCAGCGGGGTTTCAGCATGATCGAGGTTCTGATCGCCCTGTTGCTGATCGTCATCGGCGTGCTCGGCATGGTCGCCATGCAGGCGCGGACGATCCAGTACACCCAGGACTCCGTCCAGCGAAACACCGCCGCCATGCTGGCAAACGATCTGCTGGAACTGATCCGCAGCAATGCCGATGCCGAAGAGAACTATCGCAAAGCCCCTGGCTCGGCGTTCCCCACGGTGGATGCCAAGGATTGCCAGGCTACCACCCTGTCCGTCGACCGCCAGCTCGGTTGCTGGGCACTGCAGGCCAGCAACCGCCTACCCGGCGTCACCGACGACCTGCTCACGAAAGAATTCCATGTCTGCCATACCCGAACTCCCGGCGGTACCTGCGGACAAGGCTCGACCGTGGAAATCCAGTTGGCCTGGAAGGTGAAGGCGGGCGAATGCCTGGATGCCAGCGACACCACCGAGGGCCCGAAGGTGTGCCGCTACCGCCTGCGTGCGGAAATCTGA	MRHLVMTQGLRAPRRQRGFSMIEVLIALLLIVIGVLGMVAMQARTIQYTQDSVQRNTAAMLANDLLELIRSNADAEENYRKAPGSAFPTVDAKDCQATTLSVDRQLGCWALQASNRLPGVTDDLLTKEFHVCHTRTPGGTCGQGSTVEIQLAWKVKAGECLDASDTTEGPKVCRYRLRAEI	PGPT0015975_234	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015975-pilV-K02671	NA	NA
BMS010_02354	786			hypothetical protein	ATGTTTCTTTCCCATCACGCACAACGTGGCCTTTCCCTGATCGAACTGATGATCGCCATGCTTATCGGTTGCTTCCTGATACTCGGCGTCACGCAGATCTTCATCGACAACAAACGCAATTACCTCTTCCAGCAAAGCCAGGCCGCCAACCAGGAGAACAGCCGATTCACTCTGCTCGTTCTGGATCAGGAGCTGACGAAAACCGGCTATCGGCGGACACCAAGTACTCCTTTCGAAACGGCCTTCGTTGCCGCAGCCGCCAGCAAGGAATGCCCGGCGTTCAGTGCTGGGCAGACGGTACAACTCAGTGGAGACAACGGCATCTGTCTGCGTTACCAACCCCGCTATCCGGGCGACACCGATTGTCTGGGCAACAAGGCCAGCAATGTCCCCGCCACGCCCTATACCAATGCCGATCCCATCACCGAAAAACTGGCGCTCAATGACAGTGGCGAGCTGGTGTGCTCGCGTAACGGCCAGTCCGCGGTTCTGGTGCAAGGTATCGCTGATATCCGCTTCGAACTGGGCACTGGGCCTGAGGAAGAACGCGTCATCAAAGGTTATTCCACCAAACCCTCCAGCGACGCGACCATTCGCTCGGTTCGCTACAAGGCACTCATGGGCAGCGAACAGGCGCGCTTGCGCACGGACGACGCCAGCAAGGTCCTTGACGACTGGAAGGCGCTTCTCTCCAAGGAAGAACAAGGCAGCCTGGCCAAAGCCGACCAAGGCCGCCTCTACCAGATCGCCATCGGCAACATCACCCTGAGGAATCTGATGCCATGA	MFLSHHAQRGLSLIELMIAMLIGCFLILGVTQIFIDNKRNYLFQQSQAANQENSRFTLLVLDQELTKTGYRRTPSTPFETAFVAAAASKECPAFSAGQTVQLSGDNGICLRYQPRYPGDTDCLGNKASNVPATPYTNADPITEKLALNDSGELVCSRNGQSAVLVQGIADIRFELGTGPEEERVIKGYSTKPSSDATIRSVRYKALMGSEQARLRTDDASKVLDDWKALLSKEEQGSLAKADQGRLYQIAIGNITLRNLMP	PGPT0015980_931	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015980-pilW-K02672	NA	NA
BMS010_02355	525			hypothetical protein	ATGACCATCCTCCCCCGTAAGCAACACGGTGCGACCCTGCTGATCGCTCTGGTCATGCTGCTAATCGTCACGTTGCTGGCCATTTCCAGCATGCGCGAAACCACGCTGGAAAGCCGGATGACTGGGAGCGTTCTGGAGCAGAAGCGTTTGTTCAACTCGGCGGAATCGGGACTGCGCGATGGAGAAAAGCGCTTCACCAAACTGATGAAGGCTCCCGAGCGCTGCAGCAATGAGATGGAAACGTCGCCGCTCTGCATTCTCGATCGAACCCCATCCTATGTTCCGAGCTTCACCGGTGCCGTGGCCTATCAAGGCTCGGACGGCAAGACCGAGCCCGACCGCGACACCCTCTGGTATGCCATTCAAGCCCCTTCGGGTGAAGCGGAAGGTACGACCGAAAACCCGGAGTACGGCAACATGCTGATGGGTATCGGGACCTTCTATTACGAGATCAATAGCAACGCTCAGAACAAGAAAGGCGGGGAAAGCAACCTCAGGTCGGTTGTGGCCCGAGTCTTCAACTAA	MTILPRKQHGATLLIALVMLLIVTLLAISSMRETTLESRMTGSVLEQKRLFNSAESGLRDGEKRFTKLMKAPERCSNEMETSPLCILDRTPSYVPSFTGAVAYQGSDGKTEPDRDTLWYAIQAPSGEAEGTTENPEYGNMLMGIGTFYYEINSNAQNKKGGESNLRSVVARVFN	PGPT0015985_562	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015985-pilX-K02673	NA	NA
BMS010_02356	4431	pilY1_1		Type IV pilus biogenesis factor PilY1	ATGAACGTGCCCTCTACTCCACTCAGGTTCGTGCTTGCCACATGCCTCGTCGCCATTGCCATCAGCCAGGCGGCAATGGCCAAGGATGCCGATATATCCCAAGCCCCCCTCTTCGTCAGCAATGCCGCGCCGCCTCTGAACATGCTGGTCATGGGGCGGGATCACAAGCTGTACTACGAAGCCTATAACGACGCCTCGGACCTCAACGGAGACGGTGTGATCGATGTGGGCTACAAGGGATATTTATCGGCCGATAACGGGGGGATCGATTACTACGGCTATTTCGACTCCCATCGTTGCTATGTCTATGACGAGGGTAGCCGTCAGTTCAATCCTGACGAGGAGGCACCAGACAAGACCTGTAATGGCAAGTGGAGCGGCGACTTTCTGAACTACCTGAGCACCTCGCGCATGGATGCCATGCGCAAGGTGTTCTACGGTGGCTACCGAGCCATCGACAGCGAAAGCGAAACCGTTCTGGAGCGTTCCCATATTCCCCAGGATGCTCATAGCTGGGGCAAGGAATACACCAGTGTCGCAGTCGACGGCTATGACATTGCCAAGTACGCTCCACTCAGTGCTCCCACCCAAAATTCGCGGCACCTATTCGCCAATACAACCCTGAGTTCCGCCGAGGCCTGGGGGCCCCGTCTGCGAGTGTTGAAAAACTCGCCTTACCGCATCTGGGAATGGGTATCCAAGGAACGCCCCGTCGCCGACACCGAATGCAGATCGAGCGGCCACAGATGCGGCACGATCATCGACTATCGCGTTCGTGTCCGCGTATGCGAAAGCGGCAAATTGGAGGCGAACTGCCAAGCCTACCCATCAGGCGTGAACAAACCCACCGGCATCCTGCATGATTACGGGGCGACGGACCGGATGTACTTCGGCCTGTTGACCGGCTCGTACAGAAAGAACACCCAAGGCGGCGTCCTGCGCAGCAACATCGAAAGCTTCGCTCGCGAATTCAACGCTCAGACCGGTCAATTCTGTCTGAACGACAACTGCGGCGCCGATGGCAATGTCCGGGGGGTGGTGGACACGCTGAACCGATTGAAAACCGTAGGTTTCAACGGGGATATCTATAACTGCGGCTGGATTTCGACACGCGCCATCAAGGATGGTGAATGCGAAATGTGGGGTAACCCCATCGCCGAAATGATGTATGAGTCCTTGCGCTATTTCTCAGGTGCCAAGGCTCCTCGGCCCGAATTCGATTACGACCCCTGGTGGGGGGGAGACGTGAGCCTCGAACTCGCCAAACCTCAATGGAGCCCACCCTACTTGCCTAAAACAGGCGGCGGCAGTGGCTATTTCGCCTGTTCCATGCCGGTGATGACGGTGGTCAGCGACATCAACCCCTCTTATGACACCGACCTCCCCGGCAGCCATTGGAGTCCCTTGGGTAATTCCAGTGACCCGGAATCCATCTCGACATTGAACGTTTCCAAACAGGTCGATGCCATCTGGGACTCGGAGAAGAACAAGCCCGCCCAGATCATCATCGGTGAGTCGAACGGCTCCGTCGACAACGCCCCGACGCCCAAGAAGTTCGCCAACTTCTCCACGATCCGCGGACTTGCCCCGGAAGAACCCACCAAGCAGGGCTCCTACTATGCAGCAGGCATCTCCCGCTTCGGAGCGCTTAACAAGATTGGGGGTGACAAGGCGCTCAGAACCTACTCGGTTGCACTGACGTCTCCGTTGCCAAAGTTCGAGATTCCTGTTGGGAACCACCAGATCACTCTGGTGCCATATGCCAAGTCCGTAGCGGGATTCGGTATCGACGCAACCGCGGCCTTTCAGCCCACCAACCAGATCGTCGACTTCTACGTCCAGAAGATCGCCAATATGGCTGAAGACGGTAGCGACGCTGACAAATCCGTCAATGAGGGCCGCCCTTACGCTGAGTTCCGCATCAACTTCGAAGATGTGGAACAAGGGGCCGACCATGACATGGACATGATCGTGCTCTATACGGTCGAGGTTACGAAAAATAACGAGCTCAACATCAAGCTGTATTCTGAATATGCCGCCGGCGGTATGGACCAGCATGCCGGTTACGTGATTTCAGGCAGTACGGCCGACGGAACCTACCTGGAAGTCTGCGACCTGACAGGTAGCCATAACGATGGCACACGCAACAGTTGCGCCGGTCAGGTGGCCTATAAGCTGAATACGCCTCCCAAGCGTCCTGCCGGTTGGTGTGCCATAGAGGCAAACCTCAAAAGTGCCGAGTGTGCCGGTCTTCCTCCTGTAGCGGAACGAACCTTCAAGCCCGGCGACAGCAAGGGCGCCAAATTGCTCAAGGACCCACTCTGGTACGCTGCCAAATATGGCGATCCCGATACGGTGAAGTCGCCAAGCAATTCGAACAAGGATCCGTCGAACTACTTCCTGGTCACCAACGCTCTGACCCTCAAGGAGCAATTGAACAAGGCCTTCAGCGATATCCTGCAGAAGAACGCATCGATCAGCCGCCCTTCCGTCATGCCCGAAGGAACGAGCCTGAGCGACGGTCGCTCGGTCTACAAGACTTCGTTTTCAGCGGAGGGTTGGATAGGTGACTTGACCAAGGAAAGCCAGGACCCCGTCACTAAGCTCCAGACCTTGGAGTGGAACGCCCAGGTTCCAGTCAGCCGCACGATCAAAATGGCGGGCAGAAGCGGTCTGGTGGATTTTCAATGGAGCAATTTGAGCGATCAGCAAAAGGCCGCGCTCAATAACTCCCCCGCCGGTATTGCCGATGGCGAGGGCGAGAAGCGCCTGGACTTCATCAAAGGTGACAGGAGCGAGGAAGGCAAACTGTTCCGCACCCGCAAGTCCCTGCTGGGCGACATCATCAACTCCGGCCCGGTGGTGGTAGCTGGTGCGCAATACCTGGCCTATCTGGCCGATGCCATCGAAGGCTCCGGCAGCGGCGGTTATGGCCAGTTCCAGAGCGCCCAGAGCGCCCGGCGCCAGCAAGTGTATATCGGGGCCAACGACGGCATGCTGCACGCCTTCGATGCCAAGACTGGAACCGAGACCTTCGCCTTTGTCCCGACTGCCGTGTTCAATCACCTGAACCAATTGACCGCCACCGAATACAACCATCGCTTCTATGTCGATGGCTCGCTGGTCGTACGGGATGTCTATTTCAAGGGAGGCTGGCACACCGTGTTGATCGGCACCTTGCGCGCCGGTGGACGTTCGCTGTTCGCGCTGGATGTCACCGATCCGGACAGCATTGAGCTGTTGTGGGAATTCAGCGACGAGAACCCCGCCACGCTGGATGAAAAAACCAAACTCAGCGACTTGGGTTACAGCTTCCCTGTACCGGCCATCGCTCGCCTGCACAGCGGCCACTGGGGAGTGCTAATGGGCAATGGCTACAACAGTGCCAACAGCGCCAGTGGCAAGGCTGTCCTGTTCGTGCTGGATATCGAAACCGGCAAACTGATCAGCAAGTTGGACGCACAAGGCAGGGAAAACGAGAACAATGGTCTCTCCAGCATTCGTGCGGCCGACAACAATGGTGACGGCGTGGCTGACTACGCATATGCCGGCGACTTGCAAGGCAATCTCTGGCGGTTCGATCTTCTTGGAGCACACAGCGAAACAGCACCTTTCAGTCGGGAGAACGATGGTCCCACGGCCGCCAGCAACTTTGCAGTCTCGTTCTCCGGCAAGCCGCTTTATACGGCCGTTGCGGAAGACGGTACGGCACAATCCATTACTGCGCCGCCTTCCCTCGTGCGTCATCCCAGCCAGAAAGGCTATCTGGTGCTCGTCGGAACCGGTCGCTACATGGGGGACACCGACAAGAGCAACAAGGAGCTGCAAACGATCTATGGGATCTGGGACACCCAGACTCGCGGCGAGGCGGCTAGCACCACCCAAAGCCTGAGCCGTAAAGCGCTCCAGAAACAGACCATCGAGGTGCAGACCGTCTCCTCCTTCGGCCAGGTTAGCCGTACTGTCCGCCTAGTCAGCGACAATCCGGTCGACTGGTTCGATAGCAATGGCAACATCCAGAAATGGGGTTGGTACCTGGATCTCAAAGTCGATAAAGGAAAATCCCTCGGCGAACGGATGGTGGACGAGATGGCTGCTCGCGGCCAGGTACTCTTCTTCGCCACCCGTACCCCAGTCGAAGACCCTTGCAAAGCCGGACTGGATGGTTGGACTTACGGCATCAGCCCGTTCACCGGAGGCCGTACCCACTTCCACGTCTTTGACCTCGACAAGAACAACAGCATCGACGTTTCGGATGGATATAGCCGGAACGGGGCAGACGTTACCGTATCCGGCTTCGGTTCCGCAGGTGGTGGTTTCACCGTAAATGGCTCGACTTTGACCAATCCGGAAAGCTCCACCGAAGTCAACTTCGGCCCCAACGCCACCGGCCGCCAGAGCTGGCAAGTCGTCCCGACGGAACAGGAGTAA	MNVPSTPLRFVLATCLVAIAISQAAMAKDADISQAPLFVSNAAPPLNMLVMGRDHKLYYEAYNDASDLNGDGVIDVGYKGYLSADNGGIDYYGYFDSHRCYVYDEGSRQFNPDEEAPDKTCNGKWSGDFLNYLSTSRMDAMRKVFYGGYRAIDSESETVLERSHIPQDAHSWGKEYTSVAVDGYDIAKYAPLSAPTQNSRHLFANTTLSSAEAWGPRLRVLKNSPYRIWEWVSKERPVADTECRSSGHRCGTIIDYRVRVRVCESGKLEANCQAYPSGVNKPTGILHDYGATDRMYFGLLTGSYRKNTQGGVLRSNIESFAREFNAQTGQFCLNDNCGADGNVRGVVDTLNRLKTVGFNGDIYNCGWISTRAIKDGECEMWGNPIAEMMYESLRYFSGAKAPRPEFDYDPWWGGDVSLELAKPQWSPPYLPKTGGGSGYFACSMPVMTVVSDINPSYDTDLPGSHWSPLGNSSDPESISTLNVSKQVDAIWDSEKNKPAQIIIGESNGSVDNAPTPKKFANFSTIRGLAPEEPTKQGSYYAAGISRFGALNKIGGDKALRTYSVALTSPLPKFEIPVGNHQITLVPYAKSVAGFGIDATAAFQPTNQIVDFYVQKIANMAEDGSDADKSVNEGRPYAEFRINFEDVEQGADHDMDMIVLYTVEVTKNNELNIKLYSEYAAGGMDQHAGYVISGSTADGTYLEVCDLTGSHNDGTRNSCAGQVAYKLNTPPKRPAGWCAIEANLKSAECAGLPPVAERTFKPGDSKGAKLLKDPLWYAAKYGDPDTVKSPSNSNKDPSNYFLVTNALTLKEQLNKAFSDILQKNASISRPSVMPEGTSLSDGRSVYKTSFSAEGWIGDLTKESQDPVTKLQTLEWNAQVPVSRTIKMAGRSGLVDFQWSNLSDQQKAALNNSPAGIADGEGEKRLDFIKGDRSEEGKLFRTRKSLLGDIINSGPVVVAGAQYLAYLADAIEGSGSGGYGQFQSAQSARRQQVYIGANDGMLHAFDAKTGTETFAFVPTAVFNHLNQLTATEYNHRFYVDGSLVVRDVYFKGGWHTVLIGTLRAGGRSLFALDVTDPDSIELLWEFSDENPATLDEKTKLSDLGYSFPVPAIARLHSGHWGVLMGNGYNSANSASGKAVLFVLDIETGKLISKLDAQGRENENNGLSSIRAADNNGDGVADYAYAGDLQGNLWRFDLLGAHSETAPFSRENDGPTAASNFAVSFSGKPLYTAVAEDGTAQSITAPPSLVRHPSQKGYLVLVGTGRYMGDTDKSNKELQTIYGIWDTQTRGEAASTTQSLSRKALQKQTIEVQTVSSFGQVSRTVRLVSDNPVDWFDSNGNIQKWGWYLDLKVDKGKSLGERMVDEMAARGQVLFFATRTPVEDPCKAGLDGWTYGISPFTGGRTHFHVFDLDKNNSIDVSDGYSRNGADVTVSGFGSAGGGFTVNGSTLTNPESSTEVNFGPNATGRQSWQVVPTEQE	PGPT0015990_50	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015990-pilY1-K02674	NA	NA
BMS010_02357	399	fimA		Fimbrial protein	ATGCATCAGGCTCGCGGTTTCACCCTGATCGAACTGATGATCGTCGTGGTGATCATCGGCATCCTCGCCGCCATCGCCATTCCGAACTATCAGCAGTACGTGATCCGCGGCAACCGGACGGAGGGCATGGCCCTCCTGAACGATGCCGCGGCGCGGCAGGAGCGCTACTTTTCGCAGAACAATGAATATGCCGACACCGCCAAGAAGCTCGGCTTGTCGGAGTTTTCTGCGAACAGGCTTTACCAGTTGACGATTGCGGTCGATGGCGACGGTTATACGCTCAACGCCATACCGCAGAATGCGCAGACGAGAGATACCACTTGCCGCACGCTGACCCTGGACGCCATGGGCGTTCGCGGAGAGACCGGTAGCGGCGACGTATCGGACTGCTGGCGGTAA	MHQARGFTLIELMIVVVIIGILAAIAIPNYQQYVIRGNRTEGMALLNDAAARQERYFSQNNEYADTAKKLGLSEFSANRLYQLTIAVDGDGYTLNAIPQNAQTRDTTCRTLTLDAMGVRGETGSGDVSDCWR	PGPT0015930_700	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015930-pilE-K02655	NA	NA
BMS010_02358	1119			hypothetical protein	ATGTCGATCAGCAAAGCCGGTATTCCTTCCCGTGTCAGGATGCTCTTGCAACCCCTCTCGCTCGCCACGGCGGGTATCGCAACGGGCGCCTGGCTGTTGTGGGACGATGCCTTCTCGCCACTGTCCCTGGAGCTCGCCGCATCGGCCGTCTCCATTGGCCTGGTATCGGCGATCTGGTCCGCTGCGCGTGCCGATGCCACGTTACGGTCGTATCGCCATGGCGAGCCGGCCGGCAAGCCTGCGCAAATGGTGATCGCGGCAAACCTGGATGAGGTGCTGCCGGCCTGCAGTCGGCAGCTCGAAATCGCCCGGCACTATAGCGAGAGGACGACCAGCACCCTGGCCACCTGTTTCACCGATCTGGCTACGCGAACCGAGCGGTTGGTGCTTTTTTACGAAGGAACCGACGGTGGCCTGCCCAGCCTGTTCGAACTCAATCGTTGCGCTCTGGGTAGGCTAAAAAGATCGTTGGAGACGGCCGGCAAGGAATCGCTGGCGCAGGAAACCCGGGAACTGCTGACATTGCTGGTCCGTTTGCAGGATCAAACGAAGAGCCTCAGCGATACGACCCGGCAAAACAAGCTATTGATTCTCGATGCGTCGATTTCGCTTGCGGCGTCTCAATCCGAAAAAGGGAAACTGACATCGGTCGCAGCAGAGCTGCGTCAGCGTCAGGAGATCATCGCTGACCAGGAAGGCCGAATTCGGGAAACCGTGGCCGCGATTCACCAGGGAATCGCCAGTACCCAGGCGATCGCTCAACAGTATCTTCAATTCAGCCGATCCCCCGACAAGGTGCAGGACCGGATATTCGAAGAGCTCGATATGGCCGCTTTGAAAGTACTGGATGCCAGCATGGAGCTGCGGCAGGCCAACGACGCCATCGCCAATGAGGTGGCACTTCTACTGCTCGCCTTGCAGTTTCAGGAACGCACCGCCGATGCGCTCGAACGCATCGACAATTCCTTTGCCTCTCTGATGCCTCGCTCGAAAGCTGACGATGCAGTTCAAACAATCGACGCTCCCGTGAGCGAATCCGGCCCAGCTCAAAGCGCCACCGTCACACCGATGGAACGAGAAAGCCCGGAATACTCCGGGCTTCGCTCGTGTACAGGTTAA	MSISKAGIPSRVRMLLQPLSLATAGIATGAWLLWDDAFSPLSLELAASAVSIGLVSAIWSAARADATLRSYRHGEPAGKPAQMVIAANLDEVLPACSRQLEIARHYSERTTSTLATCFTDLATRTERLVLFYEGTDGGLPSLFELNRCALGRLKRSLETAGKESLAQETRELLTLLVRLQDQTKSLSDTTRQNKLLILDASISLAASQSEKGKLTSVAAELRQRQEIIADQEGRIRETVAAIHQGIASTQAIAQQYLQFSRSPDKVQDRIFEELDMAALKVLDASMELRQANDAIANEVALLLLALQFQERTADALERIDNSFASLMPRSKADDAVQTIDAPVSESGPAQSATVTPMERESPEYSGLRSCTG				NA	NA	NA	NA	NA
BMS010_02359	1155			hypothetical protein	ATGCATGTCGGTAATCCACAACATCATCTCGCAATTACAATGCACGACTCGGCGCCACTCACACCCCCGCCGAGCGGCCCTCAGACCAAAGGCGAAAAGATCAACTCCTGGCTGGGCTCCGCCGGCCAGCAGGCCATCGTCAGCGGTGTGGCCTGGGGCTTCGCCAACAAGCTGGCTCCTGCTGTAGGGAAGAAAGTGGGCGAATCGATCGCGGGACCTGAAGGCGCTACCGCAGGTGTTGCGATCGGCAACCTGATTGGCGGTGCCTGCCTGGGCATTGCCCACTACTCCGCGGAAGTCGCCTGTACGAAGCTACGGACCAAGCTGGGGCATGGCTTCCAGTACCAGCCGGATATCAATGGCGCCAAGGGTAAAAAGTTCACCTATAACACCTTCATCGCCACCTTCAGTTCGGTAGGGGCACTCAAGGGTTTGGTTAAGGAGAAGCTCGGCATCGGCAAAGGTTGGGGAGACGTCTTCAAGGGCGTCGGGCTGGATGTTGCGTCCTCCGCTATCGGAGGAGGCATCGCCCAGTCGATCATCAACCTGCGCAAGCCGCTGGTGGGTGGGGGCGGGTTCCATGGCGAACTCAAGTACAAAGAGATCAAGGACGGCCCCTACAACTGGCGCGAAGCGAAGAACCGCATCGCAGGCGGTACGGTTTCAGGGATGTCCGGAGCCATGCTGGACGCCGTCACCGAGATGACGGATGCGAAAGGTGGCTTCAAGATTGCCACCAGCATGGTGATGGGCGGTGCGAAGTCCTGGATGATGCTGCACACCTGGTTCAACGCCCGAGAGACGGTTGGTGCGATGTTTCCGAAGCCACCGACACCGACACCGCCTGAGGTCACGACGACCTCGACGCCGCCTGCTCCGCCAACGCAAGAGCAAGTCGCACCACCCGAGGACAGTACGCTCGAGGTCGAGCTGACGACCCAGACGGGTGAATCATCCCATACCCCTACGCCGTCGCTCCTGAAAGATACGGTGGAGTCGCAGCGCTACTACGGTGGGGAGCAGTCGGAGATCGCTGAACATTCAGACACGAATGAGGATGAGACAACTCCCATCTCTTCCAAGCGGCATGAAGAGAACAAGTTGACGAGTGTGTTTGACGAGTCGTCGAAACGATGGGTAGGGCCCCGACCTTAA	MHVGNPQHHLAITMHDSAPLTPPPSGPQTKGEKINSWLGSAGQQAIVSGVAWGFANKLAPAVGKKVGESIAGPEGATAGVAIGNLIGGACLGIAHYSAEVACTKLRTKLGHGFQYQPDINGAKGKKFTYNTFIATFSSVGALKGLVKEKLGIGKGWGDVFKGVGLDVASSAIGGGIAQSIINLRKPLVGGGGFHGELKYKEIKDGPYNWREAKNRIAGGTVSGMSGAMLDAVTEMTDAKGGFKIATSMVMGGAKSWMMLHTWFNARETVGAMFPKPPTPTPPEVTTTSTPPAPPTQEQVAPPEDSTLEVELTTQTGESSHTPTPSLLKDTVESQRYYGGEQSEIAEHSDTNEDETTPISSKRHEENKLTSVFDESSKRWVGPRP				NA	NA	NA	NA	NA
BMS010_02360	483			hypothetical protein	ATGACGAAAGAAGAAGAAACCCTGCAGGCTGCCCACGAAGAGCATTACGGCCGGTTGATCACTGAACTGGCAGACGCCTTCGGCGTCGACGCAGCCGCGCTCAAGGAGACCGGTCACCTGGTGGTCGGCGGCATCGATATCGGTTTGCTGAACTACAAGATGTGGGACCAGGGCCGGATCACGGTGTTCTTCGATTTGGGCACCATTCCGCCAGCCCGGCAGGCCGAGGTGTACCGCAAGCTGCTGGAGCAGAACCTGCTGTTGCCGCGCACCTTCGGCACCTACGCGATCATCCCCGGGACCGATCATGGCGCCCTGGCTTACACCTTCGACATCGACGGTCTCGATGGCTACGGGTTGGCCAAGAACATCTGTGAAACCCTGACCCAGTACCGGAGCCTCGAAAAGTCCCTGCAGGACGCCAGCGAAAGCGGCCGACTGCGGATGGGGACCTCCCTGAAATCGTCCGGGATCGGTCTTTAG	MTKEEETLQAAHEEHYGRLITELADAFGVDAAALKETGHLVVGGIDIGLLNYKMWDQGRITVFFDLGTIPPARQAEVYRKLLEQNLLLPRTFGTYAIIPGTDHGALAYTFDIDGLDGYGLAKNICETLTQYRSLEKSLQDASESGRLRMGTSLKSSGIGL				NA	NA	NA	NA	NA
BMS010_02361	528	rpoE_1		ECF RNA polymerase sigma-E factor	ATGGAAAATATTGCGATCCAACACCCTGAACTGACTCAAGTGGATTGGGGTGAGCTGGCCAAGAGCTGTGAACAGAAACTTCGTCGCTTCATTCGCAAGCGGGTTTTGAATCAGGACGATGCCGAGGACTTGATGCAGATGACGTATCTCGAAGCATTGCGTAATCAGCATAAGTTCTCCGGTACTTCCAAGCCGGAAACCTGGTTGTTCGGTATCGCGGTGAACTTGGTGCGCAACCATTTCAAATGCCTGTATGGCCAGCCGCAGTGCAGCGATCTGGACGATGTGATCGGCACGCTGGAATACGACATGGACCCGGGCGCGCTTGCCGAGCAGCACCACACCCTGGCGCGCACGGCGGAGGCCATCGAGGCATTGCCCAGCGACATGCGCACCCTGTTGGATCTGATCGTGGAAAGCGACCTGAGCTACCAGGACGCCGCGGAGGCGTTGGGTATTCCGGTCGGTACGGTCCGCTCGCGCCTGTCCCGTGCCCGCGAGCAATTGAAAAACACGGTTTTCAGCTGA	MENIAIQHPELTQVDWGELAKSCEQKLRRFIRKRVLNQDDAEDLMQMTYLEALRNQHKFSGTSKPETWLFGIAVNLVRNHFKCLYGQPQCSDLDDVIGTLEYDMDPGALAEQHHTLARTAEAIEALPSDMRTLLDLIVESDLSYQDAAEALGIPVGTVRSRLSRAREQLKNTVFS				NA	NA	NA	NA	NA
BMS010_02362	984			hypothetical protein	ATGGCGTTCAGCGAAAGCATCGAGCGTCACAGCAAAACGCTGCACAACCGGGAGATTGCAGGTCGAAAATCGGCACGCGCCGTGGAGCGCGTGGAAAAGCTGGCCGAGCTTTATCGCCTGCTGGACCAACCCTCACTGACGCAGATGAGCAAACAGGCCGAGCAGATGCGCGGCCTGCTGAGCAAGAATCCGTCCGTGGACGATCTGCTGGAGCAGGTCGACAAAGACCCGGCCCGCGCCAGCCTGCTGTTGCAGCAGATACAGCGCCAAGCCAAGGCGGAAGGTAATCTCACCGACACCCAGACGGCCGAGCGCTACCTGCAGGCGCTGGAGAAGGACTACGGCGAGCAGATTCGCGCCGGCTTCAACACCGCGGCCGCCATCGCCGACTTCAGTTCGGACCCGCAGCAGAAGCAGGCCATGCGCCAGCTCTATTACCAGGCGGTGGTGAACCAGCAATCCGCAAGCGGTCTTCTCGACTCCCTGCTCGAGCGTTTCGACGAGAAAGATTTCAATCGTGGCCTGCACGCCATGCAACGCGCCCTGGCCGACGATATCGGCGCCCTGGCCCCCTCGCTCACCCCCAAGGCGCTACGCGACCTGCTCGGCCAGCTCAACGCCTCCAGCCAACTGAGCCATACCCTGAAAAGCAGCCGCGATCTGCTCGAGCGCGTCGGCAGCGAAGACAACCCACCCGGCATGAGCGCCATCCAACTGACCCGGCGCCTGCTGCGCCTGGCCAATGCCGGCGTGTTCGTCCGCGACTTCCAGAACCTCAGCCATGAGGTGATCGGCAAGGAACCCCTGAAGCAGGCGCCATTCCTGAATGCCTTGTACCCCGTGGTCAATGAGCTGCCCGTCGCCCTCTGGAAAGACGCCAAGAGCCGCCAGAGCGGGCTGGGCATCCTGCGCGCCCTGATGGACGAACAGGCCCGCGTCGAGCGGCAACTGCGCACGGAACCGAACAGGAAGGCGAGCGCATGA	MAFSESIERHSKTLHNREIAGRKSARAVERVEKLAELYRLLDQPSLTQMSKQAEQMRGLLSKNPSVDDLLEQVDKDPARASLLLQQIQRQAKAEGNLTDTQTAERYLQALEKDYGEQIRAGFNTAAAIADFSSDPQQKQAMRQLYYQAVVNQQSASGLLDSLLERFDEKDFNRGLHAMQRALADDIGALAPSLTPKALRDLLGQLNASSQLSHTLKSSRDLLERVGSEDNPPGMSAIQLTRRLLRLANAGVFVRDFQNLSHEVIGKEPLKQAPFLNALYPVVNELPVALWKDAKSRQSGLGILRALMDEQARVERQLRTEPNRKASA	PGPT0029715_142	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-TYPE_III_SECRETION_CORE_APPARATUS,PGPT0029715-yscW|sctW-K04058	NA	NA
BMS010_02363	2088	mxiA	COG4789	Protein MxiA	ATGAATGGCCTAATCGTATTGTTGAACCGCATCGCCATCAGCGCGATGCGGCGTTCCGAGGTGGTCGGTGCCGTCATGGTCATGGCCATTGTGTTCATGTTCATCCTGCCGCTGCCGACCCAGGTGGTGGACGTGCTGATCGCGGTGAACATCAGCTTGTCCTCCCTGCTGATCATGCTGGCCATGTACCTGCCGACACCGCTGGCGTTCTCCACCTTCCCCGCGGTGCTGCTGCTCACCACCATGTTCCGCCTGGCGCTGTCCATCGCCACTACGCGGCTGATCCTCCTGCAGCATGACGCTGGCCACATCGTCGAGGCGTTCGGCAACTTCGTGGTGGGCGGCAACCTGGCGGTGGGCCTGGTGATCTTCCTGATCCTCACCATTGTGAACTTCCTGGTCATCACCAAGGGTTCCGAACGGGTCGCCGAGGTCGCGGCCCGCTTCACCCTCGATGCCATGCCCGGCAAGCAGATGTCCATCGACAGCGACTTGCGCGCCGGCCTGATCGACGGCACCGAGGCACGCATCCGCCGCGAGCGTCTCGGTAAGGAAAGCCAGTTGTTCGGCGCGATGGATGGCGCCATGAAGTTCGTCAAGGGCGACGCCATCGCCAGCTTGATCATCGTCTTCATCAACATGCTGGGCGGCTTCGCCATCGGCGTGCTGCAAAACGGCATGGCCGCCGGCGACTCCATGCGCCTGTATTCGGTCCTGACCATCGGCGACGGCCTGATCGCCCAGATTCCCGCGCTGCTCATCTCCCTGACCGCGGGCATGATCATCACCCGCGTCTCCGGCAGCCAGACGGTGGATGCCAACATCGGCCAGGAAATCGCCGAGCAGCTCACCAGCCAGCCCAAGGCCTGGATCATCGCCTCCGTCGCCATGCTCGGCTTCGCCGCGATCCCCGGCATGCCCGGTGCGGTGTTCGTGACCATCAGCATCGTCTGCCTGGGCAGTGGGCTGCTGCAATTGTGGAGGGCCAAGCAGAACGGCCTGAGCAACCAGAACACGGCCGTGCAATGCGAGCCGGAACAGAACGGCCACGAAGACCTACGCCGCTTCATCCCTACCCGTCCCTACCTGTTGCAATTCCACAGTCAGCACCTGGGGCAGCCGCTGGCGGAATCGGTCATCCACGGCATTCGCCAGCAACGCAATACCCTCGTCTATCGTTTCGGCTTCACCCTGCCCTCCTTCGAGATCGAGTACAGCGAGCGGGTGGCGCCGGACGAATTCCGCTTCTGCATCCACGAAGTCCCGGTGCTCAAGGCCAGTTTCGCCAACGGCAAACTGGCGGTCGAACGCAACCTGCTGGGCGAACACGCCGAGGGCATCCCGCCCGGCGACCCGGACCGCGAAGAGGCGGCGTGGGTCTGGCTCGACCCGGACCACCCGGCGCTGCAGAACGGCGAGTTGACCGGCATTCCCGCCGAGGCGCTGATCCAGGAACGGATGAGCAAGGCCCTGCACAGCACCAGCGCGCAATTCATCGGCCTGCAGGAAACCAAGGCGATCCTCGGCTGGCTGGAAAGCGAGCAATCCGAACTCGCCCAGGAACTGCAGCGCGTGCTGCCCCTGTCGCGCTTCTCCGCCGTGCTCCAGCGCCTGGCGGCCGAACGCATCCCGGTGCGCGCCATCCGCCCCATCGCCGAGGCGCTGATCGAACACGGCCAGCACGAACGCGACGTCGGCATTCTCACCGACTACGTGCGCATCGCCCTGCGTACGCAAATCTGCCACCAGCACTGCGACAGCGAAGGCCTGCACGTCTGGCTGCTGACTCCGGAGACCGAAGTGCTGCTACGCGACTCCCTTCGCCAGATGCAGACCGGCACCTTCTTCGCCCTCTCCCCCGAACTCGGCAACGTACTGATGGAACAGTTGCGCGCCGCTTTCCCACTCAGAGGCAGGAAGAACGCATTGCTCCTGGTGGCCCAGGATCTGCGCAGCCCGCTACGGACCCTGCTGCAGGACGAATTCAACCAGGTGCCGGTGCTTTCTTTCGCCGAGTTGCAGAGCTCCATACCAGTCAACGTACTGGGCCGGATCAACCTCGACGACTCGCACATGATGCTTGCCTGA	MNGLIVLLNRIAISAMRRSEVVGAVMVMAIVFMFILPLPTQVVDVLIAVNISLSSLLIMLAMYLPTPLAFSTFPAVLLLTTMFRLALSIATTRLILLQHDAGHIVEAFGNFVVGGNLAVGLVIFLILTIVNFLVITKGSERVAEVAARFTLDAMPGKQMSIDSDLRAGLIDGTEARIRRERLGKESQLFGAMDGAMKFVKGDAIASLIIVFINMLGGFAIGVLQNGMAAGDSMRLYSVLTIGDGLIAQIPALLISLTAGMIITRVSGSQTVDANIGQEIAEQLTSQPKAWIIASVAMLGFAAIPGMPGAVFVTISIVCLGSGLLQLWRAKQNGLSNQNTAVQCEPEQNGHEDLRRFIPTRPYLLQFHSQHLGQPLAESVIHGIRQQRNTLVYRFGFTLPSFEIEYSERVAPDEFRFCIHEVPVLKASFANGKLAVERNLLGEHAEGIPPGDPDREEAAWVWLDPDHPALQNGELTGIPAEALIQERMSKALHSTSAQFIGLQETKAILGWLESEQSELAQELQRVLPLSRFSAVLQRLAAERIPVRAIRPIAEALIEHGQHERDVGILTDYVRIALRTQICHQHCDSEGLHVWLLTPETEVLLRDSLRQMQTGTFFALSPELGNVLMEQLRAAFPLRGRKNALLLVAQDLRSPLRTLLQDEFNQVPVLSFAELQSSIPVNVLGRINLDDSHMMLA	PGPT0029690_280	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-TYPE_III_SECRETION_CORE_APPARATUS,PGPT0029690-yscV|sctV|hrcV|ssaV|invA|rhcV-K03230	NA	NA
BMS010_02364	930			hypothetical protein	ATGTACGAACTACGCGTATTGACCGGCTTGCACCGCGGCGCCGCCTTGCCGCTCAGCGGTGGCCAGTGGCGCATCGGTTCCTCTTCCGAAGCCGACCTGGCGCTCTATGACCCCGGCATCCAGACCGAACACTGCCTGCTGGAACGACGCGGCGACGCCTGGGCCCTGTCCGCCTGCGAAGGACAGATCGGCGATGGCGAAGGCCACCGCGTCAGCGAGATCGACCCGCTGCAGCCGGATACCCTGTTCGCCCTCGGTGGCGTATGGCTGACCCTGGTCAGCGCCGACAAGGAATGGCCCGCGGAAGAGCAGGAAGACAGCGCCGCCGAAACCGAGCAGCAGGAGCTGGTCGAAAGCGACGCCGCTCCGGCCACCACCGAACTGGCCGCACCGAGCGAAGACCGCCCGCCCGTACCGCGCCGCTCGCGCAACTGGCCCGGCATGCTGACCCTGGGCGCCAGCGTGACCCTGGCGATCGCCACCGGCTGGATCATGACCGGCCAGGCCGCCATCCCGGAAAAGCCACAGGTCACCCGCCCACGGCCATCGCTGGAAGCGGGCAAGACCACCCTGCTGAAGATGATCCGGGACCGCGAACTGAACCGTCAGCTCAGCCTCACCGTCGAGGGCGACAACCTGGTCCTGCACGGCAGCATCGGTGAGAGCGAACAGGAAATGGTGCAGCGCATGCTGGTGCGCTTCGACCGGCAGTACAACGGCGAACTCAAGGTGATCGACCGCACCACCCCCCTGGTCTCGGCGCTGCCCTTCACCATCGTCCAGATCAACGGCGGCCCGCGTGCGCACATCGTCACCACCACCGGACGCCGGATCTTCGTCGGCGACGAAATCGACGGTCTGCGCCTGGTGCTGCTGGACAACAAGCACCTCAAGTTCGAGGGCAACCAGCAGATCGAGGTGACCTGGTGA	MYELRVLTGLHRGAALPLSGGQWRIGSSSEADLALYDPGIQTEHCLLERRGDAWALSACEGQIGDGEGHRVSEIDPLQPDTLFALGGVWLTLVSADKEWPAEEQEDSAAETEQQELVESDAAPATTELAAPSEDRPPVPRRSRNWPGMLTLGASVTLAIATGWIMTGQAAIPEKPQVTRPRPSLEAGKTTLLKMIRDRELNRQLSLTVEGDNLVLHGSIGESEQEMVQRMLVRFDRQYNGELKVIDRTTPLVSALPFTIVQINGGPRAHIVTTTGRRIFVGDEIDGLRLVLLDNKHLKFEGNQQIEVTW	PGPT0029640_311	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-TYPE_III_SECRETION_CORE_APPARATUS,PGPT0029640-yscD|sctD|ssaD-K03220	NA	NA
BMS010_02365	1359	hrcN	COG1157	Type III secretion ATP synthase HrcN	ATGGAAGCCGCGCTGCAGAACCTGGAAGCCTGGTGCCAGGCCGAGCGTGCGCGCCTGCGCCGCTACGCGCCAGTGAGCACCTTCGGCCGCATCAGCGGCGTCAGCGGCATCCTCCTGGAAAGCCGCCTGCCACGCGCCAAGATCGGCGACCTGTGCCGCATCCAGCGCGACGACGGGGAAATGGTCCTCGCCGAGATCGTCGGCTTCAACCAGGAAATCACCCTGCTCTCCGCCCTCGGCGCGCTGGACGGCATCGCCATCGGCGCTCGTGTGATCCCGTTGTTCCGCCCGCACAGCATCGTGGTCAGCGACGACCTGCTGGGCAGCGTACTCGACGGCTTCGGCCGTGCCATCGACAGCGAAAGCCGCAGCGCCTTCGCCAACCCGGAGGATTCCGAGCACGCCCTCCCGGTGATCAGCGACGCGCCGGCACCGACCGACCGCCCACGCATCGATACCCCGCTGCCTACCGGCATGCGCGCCATCGACGGCCTGCTGACCATCGGCGAAGGCCAGCGCGTCGGCCTGTTCGCCGGCGCCGGTTGCGGCAAGACCACCCTGCTCGCCGAACTGGCGCGCAACACCCCGTGCGACGCCATCGTCTTCGGTCTGATCGGCGAACGTGGCCGCGAACTGCGCGAATTCCTCGACCACGAACTGGACGACGAACTGCGCCGTCGCACCGTGCTGGTCTGCTCCACCTCCGACCGCAGCAGCATGGAGCGCGCCCGCGCGGCCTTCACCGCCACCGCCATCGCCGAAGGCTACCGGCGCAAGGGCTGCAAGGTGCTGCTGGTGATCGACTCGCTCACCCGCTTCGCCCGTGCCCAGCGCGAGATCGGCCTGGCCAGCGGCGAGCCGCCAGGACGCGGAGGCCTGCCACCCTCGGTCTACACGCTGCTCCCGCGCCTGGTGGAGCGCGCCGGCAAGACCAACGACGGCGCCATCACTGCGCTCTACTCGGTGCTCATCGAGCAGGACTCGATGAACGACCCGGTCGCCGATGAAGTGCGCTCCCTGCTCGACGGCCACATCGTCCTGGCCCGCCGCCTGGCGGAGAAAGGCCACTACCCGGCCATCGACGTGCTCGCCAGCCTGAGCCGGACCATGAGCAACGTGGTCGAGCGCGACCATATCCGCCAGGCCACCACCCTGCGCCGGCTGATGGCCGCCTACCAGCAGGTGGAAATGCTCATCAAGCTCGGCGAATACCAGCAGGGTCACGACCCGCTCACCGACTACGCGGTGGAAGCACAGGACGCCATCAACGCCTTCCTGCGCCAGGAAATGCGCGACCCCACCGACCTCATCGAAACCCTCGAACAGCTGACCGGAGTGACCGCCCATGCGCCACGCTAA	MEAALQNLEAWCQAERARLRRYAPVSTFGRISGVSGILLESRLPRAKIGDLCRIQRDDGEMVLAEIVGFNQEITLLSALGALDGIAIGARVIPLFRPHSIVVSDDLLGSVLDGFGRAIDSESRSAFANPEDSEHALPVISDAPAPTDRPRIDTPLPTGMRAIDGLLTIGEGQRVGLFAGAGCGKTTLLAELARNTPCDAIVFGLIGERGRELREFLDHELDDELRRRTVLVCSTSDRSSMERARAAFTATAIAEGYRRKGCKVLLVIDSLTRFARAQREIGLASGEPPGRGGLPPSVYTLLPRLVERAGKTNDGAITALYSVLIEQDSMNDPVADEVRSLLDGHIVLARRLAEKGHYPAIDVLASLSRTMSNVVERDHIRQATTLRRLMAAYQQVEMLIKLGEYQQGHDPLTDYAVEAQDAINAFLRQEMRDPTDLIETLEQLTGVTAHAPR	PGPT0029660_109	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-TYPE_III_SECRETION_CORE_APPARATUS,PGPT0029660-yscN|sctN|hrcN|ssaN-K03224	NA	NA
BMS010_02366	468			hypothetical protein	ATGCGCCACGCTAAGTTCATGCCGGAAGAGCCGCTGGCCGAAGACCCGGCCATGGCCGACCTGAGCCGCACCCTGGCCATCCTCAAGCCCATCCGCCGCCAGCGCCTCAGCCGCGCCGAACGCGAACTGCGCGAGGAACAGGCCCGCCTGGCCGAACTGGCCGCGCGCCTCGAAAGCGACCGCGCGGCGCTGCAAGAGCATCGCCAGGCGCATTGGCGCGAGCGCGCCGACCTGCTCGCCGAATACCAGGCCGAAGCCAAGCCGGTCGCCAAGCTGCAGGACTGGAGCAATCGCGAGAAAGGCATGATCGGTGCCCTCGCCCAGCGCGAACAGCAACTGGACGAGCTGAAGAACAACCATGGCCGCCAGGAACAACGCATCGACAGTGCCCGCCACACCGTGATCGTCAGCCAGCGCGACGTGGAAAAGCTCGACTACCTGACCAAGAACCTGGGGACCGGCCTGTGA	MRHAKFMPEEPLAEDPAMADLSRTLAILKPIRRQRLSRAERELREEQARLAELAARLESDRAALQEHRQAHWRERADLLAEYQAEAKPVAKLQDWSNREKGMIGALAQREQQLDELKNNHGRQEQRIDSARHTVIVSQRDVEKLDYLTKNLGTGL				NA	NA	NA	NA	NA
BMS010_02367	531			hypothetical protein	GTGAACCAGATCCAGCGTACCCAGCAACAGCCCCCTCGCAGCGCCGCTGCCCAGCCACGGGAAACACCGCGAGAAGTGCAGCGGGACAGGTCGGAACGCGCCAGCGAACACCACCGTGCCGAGACCGACCGCGACCTGTTCCTCGACCTGCTCGGCGGCGACATCGACTGGCTGCCCCAGGCCGGCGCCGGCCATACAGGAAGCGCCTTGCCGGAAGCGGACAGCGCCCAGGCCGGCGGCGCGTCGCCCGCCTGGGACGACATACAGGCACAGCTCACCGGGCTGCTCGCCGACCGCCCCGAGCAGGCCGGCGAACCGTTCAACGCCACCCTGATGCTGCCCAACCTCGGTGAGGTCGGCGTGGCACTCAAGCAACAGGCCGGGCAAGGCTGGAACATCACCCTGCGCTTCGCCCGCCGCAGCCTCGTCGAGCGCTTCCGCGACAGCCGCGGGCACTGCCAGCAAAGCCTGGCGAACGCCATCGGCCGGCCGGTGCAACTGGAATTCCAGGAGCAGGAGGACTGGGCATGA	MNQIQRTQQQPPRSAAAQPRETPREVQRDRSERASEHHRAETDRDLFLDLLGGDIDWLPQAGAGHTGSALPEADSAQAGGASPAWDDIQAQLTGLLADRPEQAGEPFNATLMLPNLGEVGVALKQQAGQGWNITLRFARRSLVERFRDSRGHCQQSLANAIGRPVQLEFQEQEDWA				NA	NA	NA	NA	NA
BMS010_02368	1035			hypothetical protein	ATGACCGCCAAGCTGCTCAAACTGCGGCCGCTGCCCCAGGCGCAAGCCGAGATCCGCCGGCGCATCGGCCAGGGCCTGGTGCTGGACTTCCAGCTCGCCGACCGCCAGGGCACCCTCACGTTGTACCAAGCCACCGAGAAGGCGGCCGGCAACGGCGTCACCTTCGCCACCGACCTCGGCCCGCTGCGGTTGCACCAGGCTTCGCCCCTGCTCAGCCTGCTGGCCACCTGCCCGGCGCTGCTGGACGACAACGACACGCTCGAGCCCGACGAAGGCCATTGGTATTGGCCTTTCTACAACCAGTGCCTGAGCCCGCGGCTACACCAGTTGTTCGGCCAAATCGTGCCGCGACGCCTCGAATTGGACGACGGGCTGCCCTGCGTCTTCGAAGCCCAGTTGGACGGCCAGACCGTGCGCAGCGACGCCCTGCTGCCGCTGGACACCGCCCGACGGCTGCTCGCCCAGCCGGGCTGGCGTCCGCTGACCAACACCACCGGCCCCGGCTGGCGCCTGTCGCCGCCGCTCCTGCTCGGGCGGACCGCCCTCACCATGGGCCAACTGCGCTCATTGCGAGCCGGCGACATCGTGCTGCCACAACAGGCCTACTTCCAACCCGACGGCACCGGCCACCTGGTGCTCGGCCGCCTGCGCCTGCACGGCCAGCTCGACAACCACCCCAACCCGCACTTCGTCATCACCGACCTGGAGGAAATCCCCATGAACGCCTACGCCAGCGAGTTCACCCCCGACCTCACCGTCCCGGGCCTTTCCCCGGAGATGGGCCTGGAAGACGACCACGACAGCGGCGCCACCTTCGACGACCTGCCGCTGTCCCTGACCCTCAACTGCGGGCGCCTGACCCTCACCCTGGGCGAACTGAGAACCCTGGGTGCGGGCTCCGTGCTCACCCTCACCCAGGGCACTCCGGGCCTCGCCATGCTCTGCCATGACGATCGTCCGCTGGCCCACGGGGAACTGGTCGACGTGGATGGCCACATAGGGTTACAGATCACCCGCCTGGAACTCGGTAGATGA	MTAKLLKLRPLPQAQAEIRRRIGQGLVLDFQLADRQGTLTLYQATEKAAGNGVTFATDLGPLRLHQASPLLSLLATCPALLDDNDTLEPDEGHWYWPFYNQCLSPRLHQLFGQIVPRRLELDDGLPCVFEAQLDGQTVRSDALLPLDTARRLLAQPGWRPLTNTTGPGWRLSPPLLLGRTALTMGQLRSLRAGDIVLPQQAYFQPDGTGHLVLGRLRLHGQLDNHPNPHFVITDLEEIPMNAYASEFTPDLTVPGLSPEMGLEDDHDSGATFDDLPLSLTLNCGRLTLTLGELRTLGAGSVLTLTQGTPGLAMLCHDDRPLAHGELVDVDGHIGLQITRLELGR	PGPT0029665_214	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-TYPE_III_SECRETION_CORE_APPARATUS,PGPT0029665-yscQ|sctQ|hrcQ|ssaQ|spaO-K03225	NA	NA
BMS010_02369	654	fliP_2	COG1338	Flagellar biosynthetic protein FliP	ATGAATATCGGACACGTCGACCCCTTGCTGCTCGCGCTCTTTCTCGGAGCGCTCTCCCTACTGCCGTTGCTGATGATCATCTGCACCTGTTTCCTGAAGATATCCATGGTGCTCCTGATCACCCGCAACGCCATCGGGGTGCAGCAGGTGCCGCCGAACATGGCGGTCTATGGCATCGCCCTGGCCGCCACCATCTTCATCATGGCCCCCGTGTTCAGTGACATGAACCAGCGCCTCAAGGAGGAAAAGATCGACTTTTCCTCCATGGACACCATCCAGGCCGGCACCACGCGGGTCATCGAACCCCTGCAGAACTTCATGTCGCGCAATACCGACCCGGACATCCTCACCCACCTGATGGACAACAGCGCCCGCATGTGGCCGAAAGACATGGCTGCCAAGGTCAAGCGCGACGACCTCCTGGTGATCGTGCCGGCCTTCGTCCTCTCCGAACTGCAGGCGGGCTTCCAGATCGGCTTCCTCGTCTACATCCCGCTCATCGTCATCGACCTGATCGTCTCCAACATCCTGCTCGCCCTCGGCATGCAGATGGTCTCGCCCATGACCCTGGCGCTGCCCCTGAAGATTCTCCTGTTCGTCCTGGCCAGTGGCTGGACGCGCCTGCTCGACGGCCTGTTCTACAGCTACCTCTGA	MNIGHVDPLLLALFLGALSLLPLLMIICTCFLKISMVLLITRNAIGVQQVPPNMAVYGIALAATIFIMAPVFSDMNQRLKEEKIDFSSMDTIQAGTTRVIEPLQNFMSRNTDPDILTHLMDNSARMWPKDMAAKVKRDDLLVIVPAFVLSELQAGFQIGFLVYIPLIVIDLIVSNILLALGMQMVSPMTLALPLKILLFVLASGWTRLLDGLFYSYL	PGPT0029670_274	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-TYPE_III_SECRETION_CORE_APPARATUS,PGPT0029670-yscR|sctR|hrcR|ssaR-K03226	NA	NA
BMS010_02370	261			hypothetical protein	ATGGAAATCCTGACCCTGTTCAAGCAGGCCATGCTGCTGGTGGTCATGCTCTCCGCGCCGCCGCTCATCGTCGCCGTGATCGTCGGCGTGATCATCTCGCTGCTGCAGGCCGTGATGCAGTTGCAGGACCAGACCCTGCCCTTCGCCGTCAAGCTGGTCGCCGTCGGCATGACCCTGGCACTGACCGGGCGCTGGGTCGGCGTGGAGCTGATCGAGTTGACCACCCTAGCCTTCAACATGATCGCGCAGACAGGCGCCTGA	MEILTLFKQAMLLVVMLSAPPLIVAVIVGVIISLLQAVMQLQDQTLPFAVKLVAVGMTLALTGRWVGVELIELTTLAFNMIAQTGA	PGPT0029675_352	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-TYPE_III_SECRETION_CORE_APPARATUS,PGPT0029675-yscS|sctS|hrcS|ssaS-K03227	NA	NA
BMS010_02371	795	spaR	COG4791	Surface presentation of antigens protein SpaR	ATGCTTCCCGTCATCGACCAACTCGTCGATACCATCCTCGCCCTGACCCTGGGCATGGCGCGTCTCTACCCCTGTCTGTTCCTGGTGCCGATCTTTGCCTTCAAGGAAATGAAAGGCATGCTGCGCCACGCCATCGTCCTGGCCCTGGCGCTGGTGCCCATGCCCGGCATCCGCGCCACCCTCGCCGACACCGAACACACCTGGCTCTGGCTCGGCGGCCTGTTCTTCAAGGAAATCGTCCTCGGCATCCTGCTCGGGCTCTTGCTGTCCATGCCGTTCTGGCTGTTTTCCTCGGTCGGTGCGCTGTTCGACAACCAGCGCGGCGCCCTCACCGGCGGCCAGCTCAACCCGGCCCTCGGCCAGGACGTCACCCCCCTCGGCCACCTGATGCAGGAAGTGCTCATCCTCCTGCTGGTCATCGGCCTCGGCTACGCCGCCATCACCCAGGTCATCTGGGACAGCTACCTGGTGTGGCCGCCGACCGAATGGCTGCCGCAGCCGACGGCGGACGGCTTCGACGTCTACCTCGGCCTGCTCGCCGACGCCTTCAGCCACATGGTGCTCTACGCCGCACCGCTGGTGGGCCTGCTGCTGATGCTGGACTTCTCCGTGGCGATCCTCAGCCTCTACAGCCCTCACCTGCAGGTTTCCTCGCTGTCCATGCCGGCCAAGTGCCTGGTCGGCATGGCCTTCGTCCTGATCTACATGCCCATGATCGAGTACCTCGCCAACGAGCGCCTCCTCGACCTGCGCGACCTCTCCCACCTGCTGCCCCTGATGTTGAGCCAGCCATGA	MLPVIDQLVDTILALTLGMARLYPCLFLVPIFAFKEMKGMLRHAIVLALALVPMPGIRATLADTEHTWLWLGGLFFKEIVLGILLGLLLSMPFWLFSSVGALFDNQRGALTGGQLNPALGQDVTPLGHLMQEVLILLLVIGLGYAAITQVIWDSYLVWPPTEWLPQPTADGFDVYLGLLADAFSHMVLYAAPLVGLLLMLDFSVAILSLYSPHLQVSSLSMPAKCLVGMAFVLIYMPMIEYLANERLLDLRDLSHLLPLMLSQP	PGPT0029680_279	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-TYPE_III_SECRETION_CORE_APPARATUS,PGPT0029680-yscT|sctT|hrcT|ssaT-K03228	NA	NA
BMS010_02372	1125	yscU		Yop proteins translocation protein U	ATGAGCGGAGAAAAGACAGAGAAGGCAACACCCCACAAACTGCAGGAAGCGCGTAAGAAGGGCGAAGTCAGCCAGAGCCAGGACGTCCACAAACTGGCTATCTGCGCCGGGCTGATCGAAGTCATCCTCGGCCTCGCCGACACCGGCATGCGCGAACTCCAGGCCCTGGTCGCACTGCCGCTGCAACGCATGGATCAGCCCTTCGTACGCGCCTTCGAAGAGCTGCTCGTGCATGCCCTCTGGACACTCGCGTCCTTTTCCATCGTCAGCGTTTCCGTCGCGGTGCTGCTGCGGGTGATCGGCGGCTGGATTCAGATCGGCCCCATGTTCGCGCCGGCGGCCTTCAAGCTCGACTTCAACCGGCTGAACCCGGTCAACCATATCAAGCAGATGTTTTCCGCCCAGAAGATGACGGAAATGCTGACCAACGTGCTGAAGGCGGCGGCCATCTGCTCGGTGCTCTACATCGTGGTGAAACCGGCGCTGGGCGTGTTGGTCAAGCTGGCGCTGACCGACCTGGACCAGTACTGGCACACCCTCACCGACCTCTTCGCCAAGATCGCCCACGCCACCCTGGGCACCCTGGTGGCCATCGCCGCCATCGACTTCGGCCTGCAGAAATACTTCTTCCTCAAGCGCCAGCGCATGAGCAAGGAAGACATCCACAACGAATACAAACAGATGGAAGGCGACCCGCACACCAAGGGCCACCGCAAGTCGGTGGCACGGGAGCTGGTCATGAGCGGTCCCGATGCCCCGAAGAAGCCCAAGCCGGTACCCACGGACGAAAAGCCGGACATGCTGCTGGTCAACCCGACCCACTACGCGGTGGCGCTGTACTACCGCCCGGAAGAAACGCCCCTGCCCGTCATTCTCTACAAGGGCGAAGAGGCCGACGCCCGCGACCTGATCGAAGACGCCCACGAACGGGAGATCCCGGTCATCCGCTACATCTGGTTGACCCGGACCCTGTACAAGACCGAGGTCGGAAGCTACATCCCCCGCGAAACCCTCCAGGCCGTCGCCCAGGTCTACCGCCTGCTGCGCGAGTTGGACGAACAGCTCGGCGACGACGACGAAGCCAGCGGCGAAGTGATCGAAATGCCACCGGACCGCATGGCCTGA	MSGEKTEKATPHKLQEARKKGEVSQSQDVHKLAICAGLIEVILGLADTGMRELQALVALPLQRMDQPFVRAFEELLVHALWTLASFSIVSVSVAVLLRVIGGWIQIGPMFAPAAFKLDFNRLNPVNHIKQMFSAQKMTEMLTNVLKAAAICSVLYIVVKPALGVLVKLALTDLDQYWHTLTDLFAKIAHATLGTLVAIAAIDFGLQKYFFLKRQRMSKEDIHNEYKQMEGDPHTKGHRKSVARELVMSGPDAPKKPKPVPTDEKPDMLLVNPTHYAVALYYRPEETPLPVILYKGEEADARDLIEDAHEREIPVIRYIWLTRTLYKTEVGSYIPRETLQAVAQVYRLLRELDEQLGDDDEASGEVIEMPPDRMA	PGPT0029685_124	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-TYPE_III_SECRETION_CORE_APPARATUS,PGPT0029685-yscU|sctU|hrcU|ssaU-K03229	NA	NA
BMS010_02373	1947			hypothetical protein	ATGACTGCGGATCGCAATGTGATCCGGTCGCTAGGCACGGAACCGCCAATTCTGGCGGAAGGGCGACGTGCACCCGATCGTCGCGAAATTTCGCTCCGATGGCTGTCCGGCACGTTCCTCACCGGCATTACCTCTTCCATATTGATGGGCGTGGCGCTGTTTGCCGCTCTTGATGGTCGCCAGCAGCTTGCCATTCCCGCCGAAGCCTTCGCCAAGGCGGATATGGGCAACAATGCCACGGAAGCCGCACGTCGCGGAACGCGCCTCGTCGCACCGAATATCGCGGCTCGGCCCTCCGACCGGTCGATCATGGAAGTTTCCACCGTCATCAATGAAGGCGACAAGGAAGTGGTCCGCAAGGTCCCCTTCTCCCATGTCAAGATTCCGCTGGCGTCAAATTACGCCAAGCAGGATGACTATCCCGCCTTCGATCCCCTGAATATTTTTGCCAGCAACGAGGACAAGGACGCATCGGCACCCGCGCCTAGCCGGACGGGAACGATCTATGGTTCCGAAGTTGAATCCGAAGTCAGCCTGAAGACTGTCGCTTTTCCCGTCCAGCACTCCAAATATGCCTTCGCCGGCTCATTGAGCTTCGACGAGGTCGAGGAGGCGGTGCGCTCGAACGGTTCGATCCTGACGGATGGCAACGAGCAGCTGGCCGCGCTCTATTACATCGACCCACGCCGTTTCGATAATGATGACGGCGATGTCGACATTACCGCTGGCCTTGCCGCCCGTGTCGTCGAACAGAACATGTCGGTCTCGACCCCACAGTCCGCCTCGGTGCCTGTCAAGGAATATGCCGACGACGTGATCCCTGCCCGCCAGACAGAGACCATCGAAGCCGCCCTCTTCGGCGCCGGCTATTCGAAGGCGCAGTCGTCGGAAATCGCCGGGCTGCTATCGCCGCAAATCCAGTCGAACAATGTCGAAAGCGGCGATGTGCTGCGCGTCGGCATTATTCAGGAAGACGAGAAAAGCGATATCGTGCGCGTCAGCCTTTACCGCAAGGGCCGCCACATGGTCACCATGGCCATCGATGACAGCAAGCGTTTCATCAAGGCCAGCGAACCGCCGAAGCTCGATGCCGTGGCGACCGCCTTCGACAGCACCCCCGCGCCTGCCGCCGGACGCGATCTGCCGAGCGTTTATGACGGGGTCTACCGTGCGGCTCTGGCTTACGGCATGAACCAAGGCATGGTTTCGCAGCTCATCAAGCTTCTGGCCAGCAGCGTCGATTTTCAGGCGCAGCTCAAGCCGGCAGATACGCTCGAAGCCTTCTTCTCCGTGGAAGACGCGGATGGCAAGGCAACGGACAAGTCGGAACTGCTCTACGTCAACGCCAAATTCGGCGACAACGAGACACGTTTTTACCGATTCCAGAACCCGGACGACAACAGCATCGATTATTTCGACGAGAACGGCAAAAGCATCCGGCAATTCCTGTTGCGCAACCCGGTTCCGAACGGCCGCATGACATCCGGTTTCGGCATGCGCCGCCATCCGGTTTTGAAATTCAGCCGCATGCATACCGGCACCGACTGGGCCGCCGCCCGCGGCACGCCGATCATCGCGACGGGCAATGGCACCGTCGAAAAGGCCGGATGGGCCTCCGGTTACGGCAACCAGACGCTGATCCGCCACGCCAATGGCTATGTCTCTTCCTATAACCACCAGAGCGCCATCGCCAAGGGTGTCACCGAAGGCGCAAAGGTCCGGCAGGGCCAGGTCATCGGTTATGTGGGATCGACCGGTCTTTCGACCGGCGCGCATCTGCATTACGAACTGATCGTCAACGGCACCAAGGTGGACGCGATGAAAGTGCGCCTGCCGGGTGGCAAGTCGCTTTCCGGCGAGGCGCTGGCGCGTTTCTCCGACGAGAGAAAGCGCATCGACAATCTGCTGAATATTGACGAAAAGCCCAATCAGGTGGCGAGCCGCTGA	MTADRNVIRSLGTEPPILAEGRRAPDRREISLRWLSGTFLTGITSSILMGVALFAALDGRQQLAIPAEAFAKADMGNNATEAARRGTRLVAPNIAARPSDRSIMEVSTVINEGDKEVVRKVPFSHVKIPLASNYAKQDDYPAFDPLNIFASNEDKDASAPAPSRTGTIYGSEVESEVSLKTVAFPVQHSKYAFAGSLSFDEVEEAVRSNGSILTDGNEQLAALYYIDPRRFDNDDGDVDITAGLAARVVEQNMSVSTPQSASVPVKEYADDVIPARQTETIEAALFGAGYSKAQSSEIAGLLSPQIQSNNVESGDVLRVGIIQEDEKSDIVRVSLYRKGRHMVTMAIDDSKRFIKASEPPKLDAVATAFDSTPAPAAGRDLPSVYDGVYRAALAYGMNQGMVSQLIKLLASSVDFQAQLKPADTLEAFFSVEDADGKATDKSELLYVNAKFGDNETRFYRFQNPDDNSIDYFDENGKSIRQFLLRNPVPNGRMTSGFGMRRHPVLKFSRMHTGTDWAAARGTPIIATGNGTVEKAGWASGYGNQTLIRHANGYVSSYNHQSAIAKGVTEGAKVRQGQVIGYVGSTGLSTGAHLHYELIVNGTKVDAMKVRLPGGKSLSGEALARFSDERKRIDNLLNIDEKPNQVASR				NA	NA	NA	NA	NA
BMS010_02374	2625	clpB_1		Chaperone protein ClpB	ATGAATATTGAAAAATACTCCGAGCGCGTTCGCGGTTTTCTGCAATCGGCACAGACCTTTGCGCTGGCCGAAAACCATCAGCAGTTTTCGCCCGAACACGTTCTGAAAGTTCTGCTCGATGACGAGCAGGGCATGGCGGCATCGTTGATCGAGCGCGCCGGCGGCAACGCCAAGGAAGCGCGTCTTGCCAATGATGCGGCGCTTGCCAAATTGCCCAAGGTTTCCGGCGGCAATGGCGGCCTTTCGCTCACCGCGCCGCTCGCCAAAGTGTTCTCGACCGCGGAAGATCTCGCCAAGAAGGCCGGCGACAGTTTTGTCACTGTCGAGCGTCTGCTTCAGGCGCTTGCGATTGAAAGCTCCGCCACCACCTCGGCTTCTCTGAAGAAGGCCGGCGCAACGGCGCAGGCGCTCAATCAGGTCATCAACGATATCCGCAAGGGCCGCACCGCCGATAGCGCCAATGCCGAACAGGGCTTCGATGCGCTGAAGAAATTCGCGCGCGACCTGACGGAAGAGGCTCGTGAAGGCAAGCTCGACCCGGTGATCGGCCGCGACGACGAAATCCGCCGCACCATCCAGGTGCTGTCACGCCGCACCAAGAACAATCCCGTGCTGATCGGTGAACCCGGCGTCGGTAAAACGGCGATTGCCGAAGGCCTTGCGTTGCGCATCGTCAATGGCGACGTGCCGGAAAGTCTGAAGGACAAGAAGCTGATGGCGCTCGATATGGGCGCGCTGATCGCCGGTGCGAAATATCGCGGTGAGTTCGAAGAACGTCTGAAGGCTGTGCTCAATGAAGTGCAGGCCGAAAATGGCGGCATCATCCTGTTCATCGATGAGATGCACACGCTGGTCGGCGCTGGCAAGGCCGATGGTGCGATGGATGCGTCCAACCTCCTGAAGCCCGCGCTTGCCCGTGGGGAGTTGCACTGCGTCGGCGCCACCACGCTCGATGAGTACCGCAAGCATGTGGAAAAGGACCCGGCCCTTGCCCGCCGTTTCCAGCCCGTTCTTGTGGATGAGCCGACCGTGGAAGACACGATCTCGATCCTGCGCGGCCTGAAGGAAAAATACGAACAGCATCACAAGGTCCGCATCTCGGATTCGGCCCTGGTTGCGGCTGCAACGCTTTCCAACCGTTATATCACCGACCGCTTCCTGCCCGACAAGGCAATCGACCTAATGGATGAGGCCGCTTCGCGTCTTCGCATGCAGGTGGATTCCAAGCCGGAGGAACTGGACGAACTGGATCGCCGCATCATTCAGCTCAAGATCGAGCGCGAAGCCCTGAAGCAGGAAACGGACCAGTCGTCCGCCGACCGCCTCAAGAAGCTCGAGGACGAGTTGGCCGATACGGAAGAAAAGGCGGATGCGCTTACGGCCCGCTGGCAGGCGGAAAAGCAGAAGCTCGGCCATGCCGCAGACCTCAAGAAGCGGCTGGACGAAGCCCGCAACGAATTGGCGATTGCCCAGCGCAACGGCCAGTTTCAGCGCGCCGGCGAGCTGACCTATGGCATCATTCCGGGTCTCGAAAAGGAACTGGCTGCGGCGGAAGCCCGCGATAGCAGCGGCGCCGGCTCGATGGTTCAGGAAGTGGTGACGGCGGACAATATCGCCCATGTCGTTTCCCGCTGGACCGGTATTCCGGTCGACAAGATGCTGGAAGGCCAGCGCGAAAAGCTGCTGCGCATGGAAGACGAGCTTGCCAAGTCCGTTGTCGGGCAAGGCGAGGCCGTTCAGGCGGTTTCCAAGGCGGTTCGCCGTTCGCGCGCCGGCCTTCAGGATCCCAACCGGCCGATCGGTTCGTTCATCTTCCTCGGCCCGACGGGCGTGGGCAAGACCGAGCTGACCAAGTCGCTCGCCCGCTTCCTGTTCGACGACGAAACCGCGATGGTTCGCCTCGACATGTCGGAATATATGGAGAAACACTCCGTTGCCCGGCTGATCGGTGCGCCTCCCGGCTATGTCGGTTACGAAGAAGGCGGGGCGCTCACGGAAGCGGTTCGCCGCCGGCCCTATCAGGTCGTGCTGTTCGACGAGATCGAGAAAGCGCATCCGGACGTGTTCAACGTCCTCTTGCAGGTGCTGGATGATGGCCGCCTCACGGATGGCCAGGGCCGCACCGTCGATTTCAAGAACACCATCATCATCATGACCTCGAACCTCGGTTCGGAATTCATGACGCAGATGGGCGACAATGACGATGTGGATTCCGTTCGTGATCTGGTTATGGAGCGGGTCCGGTCGCATTTCCGGCCGGAATTCCTCAACCGTATCGACGATATCATCCTCTTTCACCGCCTGCGGCGCGACGAAATGGGTGCAATTGTCGAAATCCAGCTGAAGCGCCTCATCTCGCTGCTCGGCGATCGCAAGATTTCGCTCGAACTGGATGAGGATGCCCGCAACTGGCTTGCCAATAAGGGTTACGATCCGGCTTACGGCGCGCGTCCGCTGAAGCGGGTGATCCAGAAGGCGGTTCAGGACAGGCTTGCCGAAATGATCCTCGGCGGCGAAGTCCCGGATGGATCGCGGGTCAAGGTGACCTCGGGCACGGACCGGCTGCTGTTCAAGGTCAAGCCCGCCAAGGGTGAGGCCGAAGCTGAAACGGCCGATGCCGCATAA	MNIEKYSERVRGFLQSAQTFALAENHQQFSPEHVLKVLLDDEQGMAASLIERAGGNAKEARLANDAALAKLPKVSGGNGGLSLTAPLAKVFSTAEDLAKKAGDSFVTVERLLQALAIESSATTSASLKKAGATAQALNQVINDIRKGRTADSANAEQGFDALKKFARDLTEEAREGKLDPVIGRDDEIRRTIQVLSRRTKNNPVLIGEPGVGKTAIAEGLALRIVNGDVPESLKDKKLMALDMGALIAGAKYRGEFEERLKAVLNEVQAENGGIILFIDEMHTLVGAGKADGAMDASNLLKPALARGELHCVGATTLDEYRKHVEKDPALARRFQPVLVDEPTVEDTISILRGLKEKYEQHHKVRISDSALVAAATLSNRYITDRFLPDKAIDLMDEAASRLRMQVDSKPEELDELDRRIIQLKIEREALKQETDQSSADRLKKLEDELADTEEKADALTARWQAEKQKLGHAADLKKRLDEARNELAIAQRNGQFQRAGELTYGIIPGLEKELAAAEARDSSGAGSMVQEVVTADNIAHVVSRWTGIPVDKMLEGQREKLLRMEDELAKSVVGQGEAVQAVSKAVRRSRAGLQDPNRPIGSFIFLGPTGVGKTELTKSLARFLFDDETAMVRLDMSEYMEKHSVARLIGAPPGYVGYEEGGALTEAVRRRPYQVVLFDEIEKAHPDVFNVLLQVLDDGRLTDGQGRTVDFKNTIIIMTSNLGSEFMTQMGDNDDVDSVRDLVMERVRSHFRPEFLNRIDDIILFHRLRRDEMGAIVEIQLKRLISLLGDRKISLELDEDARNWLANKGYDPAYGARPLKRVIQKAVQDRLAEMILGGEVPDGSRVKVTSGTDRLLFKVKPAKGEAEAETADAA	PGPT0014580_1191	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014580-clpB-K03695	NA	NA
BMS010_02375	789			hypothetical protein	ATGAGGCCAGGACAGCAAAACAAGCGCGGCCGGGGGCGTGGAAACAACAACAATAACAATGGTGGCGGTAACAACAACTTCAACCGCAAGGGCGGCAACCCGCTCACCAGGACTTATGACAGTTCCGGCCCCGATGTTAAAATCCGTGGCACAGCCCAGCACATAGCGGAAAAATACGCGGCTCTGGCGCGCGACGCGCAGAGTTCCGGCGACCGCGTGATCGCTGAGAACTATCTGCAGCACGCTGAACACTATAACCGCATCATCGCTTCGGCTCAGGCCCAGATGCAGGAACGCTTCCAGCGCGACGACCGCGGCGAGTACAATGCTGCCGACGGCGACGATATGGATGTGAACGACGGCGATGAAGGCGTCATTGCACCGCAGCAGCAGGCCGAACAGGCCGAGCGCGCGCAGCAGCCGGAACGTCAGGAGCGTACTGAGCGGAACGAACAGCGCCAGGAGCGTCGTGAGCGCCCGGACCGCCGCGAGCGGCAGGAGCGTCAGCCGCGCCAGCCGCAGGTAGCCGCCGAACAGCAGCCGCCGGTATACGACGCCAGCCAGGCGCCGCAGCCCGTCATCGAAGGCACACCCATGGAAGTCGCCGTCGAAGAAGAGCAGCAGCAGGCGGAAGCTCCGGCGGGCGAACGCGCACCGAAGGCACGCCGTGCAACCGGACCGCGCCAGCGCCGCCCGCGCCGCACCGCCGCTGCGGAAGGCGCCGAAGGCGAAGATGCGCCGGCCGGTGAAGAGGCGGCACCCGCCACGCTGGAGAACGCTGCCGAATAA	MRPGQQNKRGRGRGNNNNNNGGGNNNFNRKGGNPLTRTYDSSGPDVKIRGTAQHIAEKYAALARDAQSSGDRVIAENYLQHAEHYNRIIASAQAQMQERFQRDDRGEYNAADGDDMDVNDGDEGVIAPQQQAEQAERAQQPERQERTERNEQRQERRERPDRRERQERQPRQPQVAAEQQPPVYDASQAPQPVIEGTPMEVAVEEEQQQAEAPAGERAPKARRATGPRQRRPRRTAAAEGAEGEDAPAGEEAAPATLENAAE				NA	NA	NA	NA	NA
BMS010_02376	870	prmC_2	COG2890	Release factor glutamine methyltransferase	TTGAGCACGGCCGCTGAAGCGAGTGTTGCGAGTGCGCTTGCCGCAGCCCGCAAAAGGCTGCAGACGGCGGGGATCGCCGATCCGCTTCTCGATGCGCGGCTTTTGATTGCGGAGGTTGTCGGTTTTTCATTGACCGATTTCGTGATGAAACCTGATCGTGCCGTTACGCCGAAAGAAAGGGCCCGTATCGCGGCCATGATCGAAAGGCGGGCGAATGGCGAGCCTGTGCACCGCATTCTCGGCCACCGGGAATTTCATGGCCTCGACCTTCTTTTGTCTAAGGAGACGCTCGAGCCCCGGCCGGATACGGAAGTTCTTGTCGATACCCTGTTGCCGGCGCTGAAAAAAGCCGTTTCCGCCAAGGGCAGCGCCCGCATTCTGGATATGGGCACCGGGACCGGCGCGATCTGTCTGGCGCTGTTGAAGGAGTGCCCCGAAGCAACCGGTATCGGCAGCGATATTTCCGCCGATGCGCTCGAAACGGCGGTCCGGAATGCGGCCCGAAACGATCTCGGCGGGCGCTTCGAGGCCATACGCAGCGACTGGTTTGAAAAAATCTCCGGCCGCTTTGACATAATTGTGTCGAATCCGCCTTATATAAGGACTGATATCGTCGCAACGCTTGACCAGGAGGTTCGTAACCACGACCCGGTGGCGGCGCTGGATGGAGGTCAGGACGGCCTTGCACCGTACCGCCTCATCGCTGCCGATGCAGGCCGCTTTCTTGTGGAAAACGGGATTGTCGGTGTGGAGATCGGTTTCGATCAAAGGCTTGATGTTTCCGCTATATTTGCTTCCCACGGCTTCTCTCTTCTGGACGCCGTGAAGGATTATGGCGGTAACGACAGAGTTTTGACCTTCCGGAGATAG	MSTAAEASVASALAAARKRLQTAGIADPLLDARLLIAEVVGFSLTDFVMKPDRAVTPKERARIAAMIERRANGEPVHRILGHREFHGLDLLLSKETLEPRPDTEVLVDTLLPALKKAVSAKGSARILDMGTGTGAICLALLKECPEATGIGSDISADALETAVRNAARNDLGGRFEAIRSDWFEKISGRFDIIVSNPPYIRTDIVATLDQEVRNHDPVAALDGGQDGLAPYRLIAADAGRFLVENGIVGVEIGFDQRLDVSAIFASHGFSLLDAVKDYGGNDRVLTFRR				NA	NA	NA	NA	NA
BMS010_02377	1080	prfA_1	COG0216	Peptide chain release factor RF1	GTGGCGAAGCTTCCCGTCGAAAAAATGCGCGAGTTGGAAAGGCGTTTCGGTGAGATCGAAGCGCGTATGTCGGCCGGGCCCGCTGCGGATGTCTATGTGAAACTGGCTTCGGAATATTCCGAACTCGAGCCGGTGGTGAAGAAAATCCGCGACTACGAGAAGGCGGTTTCCGAAGCCGCCGATCTGGAGGCGCTGCTGGCCGACAAGTCGACCGACAAGGATATGCGCGACCTGGCGGAAATGGAGCTGCCGGATGTCGAGGTCCGCATCGGTGAGCTTGAAAAGGACATGCAGGTTCTGCTGCTACCGAAGGATGCGGCGGACGAAAAAAGCGCGATTCTCGAAATTCGCGCAGGCACTGGTGGCTCCGAGGCAGCCCTTTTCGCCGGCGATCTGTTCCGCATGTATGAGCGCTTCGCCTCGACCAAGGGCTGGAAGGTTGAAGTGCTTTCCGCAAGCGAGGGCGAAGCGGGCGGTTACAAGGAAATCATCGCGACGATCAGCGGGCGAGGGGTGTTCTCCAAGCTGAAATTCGAATCCGGCGTGCACCGGGTGCAGCGCGTGCCGGAAACGGAAGCGAGCGGCCGCATCCATACGTCTGCCGCCACCGTTGCGGTCCTGCCGGAAGCGGAAGATATCGATATCGAAATCCGGCCGGAAGACATTCGCATCGACACGATGCGTGCTTCGGGTGCAGGCGGCCAGCACGTCAACACCACCGACTCTGCCGTTCGCATCACCCATCTGCCGACGGGCCTGATCGTTACCAGCTCGGAGAAATCGCAGCATCAGAACCGCGCCAAGGCCATGCAGGTCCTGCGCTCGCGTCTCTACGACATCGAGCGCCAGAAGGTGGAGAGCGAACGTTCGGCCGACCGCAAGAGCCAGGTTGGTTCCGGCGACCGTTCCGAGCGCATCCGCACCTATAACTTCCCGCAGGGCCGCGTTACCGATCACCGCATCAACCTCACGCTCTACAAGCTGGACCGGATGATCGAAGGCGAGATCGATGAGCTGGTGGATGCGCTGATCGCCGATTATCAGGCCGGACAGCTTGCACAGCTCGGCGAACAGCTTTGA	MAKLPVEKMRELERRFGEIEARMSAGPAADVYVKLASEYSELEPVVKKIRDYEKAVSEAADLEALLADKSTDKDMRDLAEMELPDVEVRIGELEKDMQVLLLPKDAADEKSAILEIRAGTGGSEAALFAGDLFRMYERFASTKGWKVEVLSASEGEAGGYKEIIATISGRGVFSKLKFESGVHRVQRVPETEASGRIHTSAATVAVLPEAEDIDIEIRPEDIRIDTMRASGAGGQHVNTTDSAVRITHLPTGLIVTSSEKSQHQNRAKAMQVLRSRLYDIERQKVESERSADRKSQVGSGDRSERIRTYNFPQGRVTDHRINLTLYKLDRMIEGEIDELVDALIADYQAGQLAQLGEQL				NA	NA	NA	NA	NA
BMS010_02378	2268	ptsP_1	COG3605	Phosphoenolpyruvate-dependent phosphotransferase system	ATGAGAGACCTTTCCGCAGGTCCGCGCGTCCTGCTCAAGCGGCTGCGCGAAATGATGGCGGAGCACCTTGAACCGCAGGACCGTCTGGACCAGATCGTCCGTCAGATTGCCAGCAACATGGTGGCGGAGGTTTGCTCGGTCTATGTGCTGCGCTCCGACAGCGTGCTCGAGCTTTACGCGACCGAAGGTCTGAACAAGGATGCCGTGCATCTTGCCCAGCTGAAAATGGGGCAAGGTCTTGTCGGCACCATTGCCGCTTCCGCCCAACCTCTCAATCTTTCCGATGCGCAGGCGCATCCCGCTTTCCGCTATCTTCCTGAAACCGGTGAGGAAATTTATCATTCCTTCCTCGGCGTGCCGATTTTGCGTTCCGGTCGCACTCTTGGCGTTCTTGTGGTCCAGAACAAGGCCAGCCGAACATACCGGGAGGATGAAGTGGAAGCGCTTGAGACAACCGCGATGCTCATTGCCGAAATAGTGGCGAGCGGCGAGTTGAAGAAGATCACCCGCCCCGGGGTGGAGCTGGATCTGACGCGCGCCGTCTCCATCGATGGCGACGGCTATGGCGAAGGCATCGGTCTTGGCCATGTCGTGCTGCACGATCCGCGCATCGTCGTCACCAACCTGCTCAATGAAGATGCCGATACGGAAATCCGGCGTCTTGCCGATGCCATCGGCTCGCTGCGTCTGTCCATCGACGACATGCTGCAGCGTCGCGACGTGCCGACCGAGGGTGAGCACCGCGAGGTTCTGGAAACCTACCGCATGTTCGCTCACGACCAGGGCTGGGTGCGGCGCATGGAAGAGGCGATCCGAAACGGCCTGACGGCGGAGGCGGCGGTCGAGAAGGTGCAGAGCGACACCAAGGCGCGCATGATGCGCCTGACCGATCCCTATCTGCGCGAGCGCATGCATGATTTCGACGATCTCGCCAACCGGCTGCTGCGGCAGTTGATCGGTTTTGGCGGTCGTGGGCCGGAGCAGGATTTCCCGCTCGACGCCATCGTTCTGGCGCGCGCCATGGGTGCTGCCGAACTGCTGGATTACCCGCGTGAAAAACTGCGTGGTCTGGTGCTGGAAGATGGCGCGGTGACGAGCCATGTCGTCATTGTGGCCCGTGCCATGGGCATTCCGATCATCGGACAGGCGACCGGTATCGTCGCTCTGGCGGAAAACAACGATCCCATCATTATCGATGGCGATGACGGCCAGGTGCATCTGCGCCCGATGTCGGATTTGCAGCGTGCTTATGAAGAAAAGGTGCGCCTGCGGGCCCGGCGGCAGGAGCAGTTCCGGGCGCTGCGCAATGTCGAGCCGATCACCAAGGATGGCCAGAAGGTCAATCTGAAGATGAATGCGGGCCTTCTGGTGGACCTGCCGCAGCTCGACGAATCCGGCGCCGACGGAATTGGCCTGTTCCGCACCGAGCTGCAATTCATGATCGCCTCCAACATGCCGAAGGGCGAGGAGCAGGAGGCGTTCTACCGCTCCGTTCTGCGGCAGGCGAAGGGCAAGAGCGTCACCTTCCGCACGCTCGATATCGGCGGCGACAAGGTCGTTTCTTATATGCGCGGCCAGGAAGAGGAAAATCCGGCGCTGGGCTGGCGGGCGATCCGCCTGTCGCTGGACCGGCCGGGCCTGATGCGAACGCAGATGCGCGCGCTGCTGCGCGCCGCCTCGGGTGCCGAACTGCGCATGATGCTGCCGATGGTGACGGAAGTGTCGGAAATCCGCGCCGCTCGCGACCTTTTGCAGAAGGAAGTGCAGCATCTTTCGAAATTCAGCCATGCGTTGCCGAAAAAGCTGCAATTCGGCGCCATGCTGGAAGTGCCATCGCTGATGTGGCAGCTCGATGAGCTGATGCAGGAGGTGGATTTCGTGTCCGTCGGTTCGAACGACCTGTTCCAGTTCTCGATGGCGGTAGACCGCGGCAATGCGCGTGTTTCGGATCGTTTCGACAATCTCGGCAAGCCGTTTCTGCGCATTCTGCGCGATATCGTCCGCGCTGGCGAAAGGCACCACACCTCGGTCACGCTGTGCGGCGAAATGGCGGGCAAGCCGCTTTCGGCCATGGCTTTGATCGGCCTCGGTTTCCGTTCTGTTTCCATGTCGCCGACGGCCATCGGTCCGGTCAAGGCCATGCTTCTCGGGCTCGATGCCGCGCGCCTCGCCGAAGAGCTGAACGCGGCGCTGGACGACCATAATTCGCTGGAAAGCGCGCGCGAGGTGTTGTTACGCTTTGCCGCGACGCATTCCATTCCCATTTAG	MRDLSAGPRVLLKRLREMMAEHLEPQDRLDQIVRQIASNMVAEVCSVYVLRSDSVLELYATEGLNKDAVHLAQLKMGQGLVGTIAASAQPLNLSDAQAHPAFRYLPETGEEIYHSFLGVPILRSGRTLGVLVVQNKASRTYREDEVEALETTAMLIAEIVASGELKKITRPGVELDLTRAVSIDGDGYGEGIGLGHVVLHDPRIVVTNLLNEDADTEIRRLADAIGSLRLSIDDMLQRRDVPTEGEHREVLETYRMFAHDQGWVRRMEEAIRNGLTAEAAVEKVQSDTKARMMRLTDPYLRERMHDFDDLANRLLRQLIGFGGRGPEQDFPLDAIVLARAMGAAELLDYPREKLRGLVLEDGAVTSHVVIVARAMGIPIIGQATGIVALAENNDPIIIDGDDGQVHLRPMSDLQRAYEEKVRLRARRQEQFRALRNVEPITKDGQKVNLKMNAGLLVDLPQLDESGADGIGLFRTELQFMIASNMPKGEEQEAFYRSVLRQAKGKSVTFRTLDIGGDKVVSYMRGQEEENPALGWRAIRLSLDRPGLMRTQMRALLRAASGAELRMMLPMVTEVSEIRAARDLLQKEVQHLSKFSHALPKKLQFGAMLEVPSLMWQLDELMQEVDFVSVGSNDLFQFSMAVDRGNARVSDRFDNLGKPFLRILRDIVRAGERHHTSVTLCGEMAGKPLSAMALIGLGFRSVSMSPTAIGPVKAMLLGLDAARLAEELNAALDDHNSLESAREVLLRFAATHSIPI	PGPT0002030_633	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0002030-ptsP-K08484	NA	NA
BMS010_02379	1296		COG0527	Aspartate kinase	ATGGTACTGGTCAAGGCTATGGCTCGCATTGTCATGAAATTCGGCGGCACGTCCGTCGCGAACCTCGAACGCATTCACAATGTCGCACGGCATGTGAAACGCGAAGTGGATGCCGGCCATGAAGTGGCCGTGGTCGTTTCCGCCATGTCCGGCAAAACCAATGAGCTGGTGGACTGGGTGCAGAACGCCGCGAAGGTGGCCGGCGCCAATGCCGCCTCCTTTTTCGATGCGCGCGAATATGACGCGGTTGTTGCATCCGGCGAGCAGGTGACGTCAGGCCTTCTGGCGATCACGCTGCAATCCATGGGCATCAATGCGCGCTCCTGGCAGGGCTGGCAGATCCCGATCCGCACCGACAATGCGCATGGCGCCGCCCGCATTCTTGAAATCGACGGTTCAGATATCATCCATCGCATGGGTGAAGGTCAGGTTGCCGTTGTCGCCGGTTTCCAGGGCATCGGCCCGGACAATCGCATCGCGACGCTCGGACGCGGCGGTTCGGATACGTCCGCCGTTGCAATTGCCGCTGCCGTCAAGGCGGATCGTTGCGACATCTATACCGATGTCGACGGCGTTTATACGACCGATCCGCGCATCGAGCCCAAGGCTCGCCGCATGAAGAAGATCGCCTTCGAGGAAATGCTCGAAATGGCGTCTCTTGGCGCGAAGGTTCTGCAGGTTCGCTCGGTCGAGCTTGCCATGGTACACAAGGTGCGCACCTTCGTTCGCTCCAGTTTCGAGGATCCCGATGCGCCGGGCATGGGCGACCTCATCAACCCGCCCGGTACTTTGATTTGTGACGAGGATGAAATCGTGGAACAGGAAGTCGTAACCGGCATCGCCTATGCCAAGGATGAAGCACAGATCTCGCTGCGCCGCGTGGCCGACCGTCCGGGCGTTTCCGCCGCGATCTTCGGGCCGCTCGCCGAAGCGCATATCAACGTCGACATGATCGTGCAGAACATCTCCGAAGACGGTTCGCGCACCGACATGACCTTCACCGTTCCTTCGGGCGACGTTGCCAAGGCGATCAAGCTTCTGGAAGACAACAAGGCCCAGATCGGCTTCGACGTCGCGCAGAACGAGACCGGTCTCGCCAAGGTTTCGGTCATCGGTATCGGCATGCGCAGCCACGCCGGCGTTGCCGCCAGCGCGTTTAAGGCGCTTGCCGAGAAGAACATCAACATCAAGGCGATCACCACCTCCGAGATCAAGATTTCGATCCTGATCGACGGCGCCTATGCCGAACTTGCGGTTCGCACTTTGCATTCCGCCTACGGTCTCGATAAGAGCTAA	MVLVKAMARIVMKFGGTSVANLERIHNVARHVKREVDAGHEVAVVVSAMSGKTNELVDWVQNAAKVAGANAASFFDAREYDAVVASGEQVTSGLLAITLQSMGINARSWQGWQIPIRTDNAHGAARILEIDGSDIIHRMGEGQVAVVAGFQGIGPDNRIATLGRGGSDTSAVAIAAAVKADRCDIYTDVDGVYTTDPRIEPKARRMKKIAFEEMLEMASLGAKVLQVRSVELAMVHKVRTFVRSSFEDPDAPGMGDLINPPGTLICDEDEIVEQEVVTGIAYAKDEAQISLRRVADRPGVSAAIFGPLAEAHINVDMIVQNISEDGSRTDMTFTVPSGDVAKAIKLLEDNKAQIGFDVAQNETGLAKVSVIGIGMRSHAGVAASAFKALAEKNINIKAITTSEIKISILIDGAYAELAVRTLHSAYGLDKS	PGPT0014040_2611	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0014040-lysC-K00928	NA	NA
BMS010_02380	1848	deaD_1		ATP-dependent RNA helicase DeaD	ATGACAGACACCCAGGGTATCGCCCCGGCGATCGCGCAGGCGTTGGAAAAACGCGGCTATAAAGATTTGACCCCCGTGCAGCAGGCGATGCTTGCACCCGAACTGGCCGACAAGGATGCGCTGGTTTCCGCACAGACCGGTTCCGGCAAGACGGTTGCCTTCGGCATTGCACTGGCGCCGACGCTGCTGCCGGAGAGCGGCCGCTTCGGTCAGGCTTCCGCACCCTTGGCGCTCGCCATCGCGCCGACCCGCGAACTGGCCATGCAGGTCAAGCGGGAGCTGGAGTGGCTCTATGAATTCGCAGGTGTCTCGATTGCCTCCTGCGTCGGTGGCATGGATGTGCGCAACGAGCGCCGGGCGCTCGAACGCGGCGCTCACATCGTCGTCGGCACGCCCGGGCGTCTTTGCGACCACATCAAGCGTGGCGCGCTCGATCTGTCGTCCATCCGCGCCGTGGTGCTGGATGAAGCCGACGAGATGCTCGATCTCGGTTTCCGTGAAGATCTGGAATTCATTCTGGAAGAATCGCCGGAAACCCGCCGCACGCTGATGTTCTCGGCCACCGTTCCGCGCAGCATCGCCAAGCTTGCGGAAAGCTACCAGAAGAACGCCGTGCGCATCGCCACCGCTTCCGAACAGAAGCAGCACGTCGATATCGAATACCGCGCCATGCTGGTGACGCCGGCCGACCGCGAGAACGCCATCATCAATGCGCTGCGCTTTTATGAAGCCCGCAATGCCATCGTCTTCTGCTCCACCCGTGCGGCGGTGAACCATCTGACGGCGCGCCTGAACAATCGCGGCTTTGCCGTGGTGGCCCTTTCCGGCGAACTGACCCAGAACGAACGCACCCATGCGCTGCAGGCCATGCGCGACGGCCGCGCCCGCGTCTGTGTGGCAACCGACGTTGCCGCCCGTGGTATCGACCTGCCGGGTCTCGAACTCGTCATCCACGCCGACCTGCCGACCAATTCCGAAACGCTTCTGCATCGCTCCGGCCGCACCGGCCGCGCCGGTCAGAAGGGTGTTAGCGCCATCGTGGTGCCGATCAACCAGCGCCGCAAGGCGGAACGCCTGCTGGAAGGCGCCAAGGTCAGCCCGGCATGGGTTCGTCCGCCTTCCGCCGAAGAGATCGTTGAGCGCGACGGCGCCCGGCTTCTGGCCGACCCGTCGCTGACCGAGGCCGTGGCCGAGGACGAGCGCGATTTCGTCACCAGGCTGCTCGAACAGCACGGCGCTGAAAAGGTCGCCGCCGCTTTCGTGCGCCTGTACCACGCCGGACGTTCCGCGCCCGAAGACATCGCCGAAGTCTCGCTGGACAACAATCGCAAGCCGCGCCGCGACAGTTTCGAAACGGTCGAGAACAATGCGCCGCGCCGCGAACGCTCCGACTTCGCCGACAGCGCCTGGTTCTCGCTGTCCGTCGGCCGCAAGCAGAGCGCCGAACCGCGCTGGCTGATCCCCATGCTCTGCCGTTTCGGCAAGATCACCCGCCAGGATATCGGCGCGATCCGCATGCAGCAGACGGAAACCTTCGTGGAACTGGCGGCCGATGCTGTCGACCGTTTCACCTCCGCCATCGGCAAGGACATGACGCTCGAAAAGGGCATCCGTCTGAAGGCACTGGAAGGCAAGCCGGAAATGACCGGCGGTTTCCGCGAAGACACACGCCCGGCCAAGGCGCAGCGGAAATTCAGCAAATCGGACAATGCAAGCGACCCCCGCGATGACCGCAAGGGCGACGACAAGCCCTGGAAAAAGAAAAAGCCCTTTGGCGACAAGCCGAAATACGAGGGCAAGAAGGACAAGCCCTTCGAAAAGCGTGGGCCGAAGCCGACGAAGGGCTGA	MTDTQGIAPAIAQALEKRGYKDLTPVQQAMLAPELADKDALVSAQTGSGKTVAFGIALAPTLLPESGRFGQASAPLALAIAPTRELAMQVKRELEWLYEFAGVSIASCVGGMDVRNERRALERGAHIVVGTPGRLCDHIKRGALDLSSIRAVVLDEADEMLDLGFREDLEFILEESPETRRTLMFSATVPRSIAKLAESYQKNAVRIATASEQKQHVDIEYRAMLVTPADRENAIINALRFYEARNAIVFCSTRAAVNHLTARLNNRGFAVVALSGELTQNERTHALQAMRDGRARVCVATDVAARGIDLPGLELVIHADLPTNSETLLHRSGRTGRAGQKGVSAIVVPINQRRKAERLLEGAKVSPAWVRPPSAEEIVERDGARLLADPSLTEAVAEDERDFVTRLLEQHGAEKVAAAFVRLYHAGRSAPEDIAEVSLDNNRKPRRDSFETVENNAPRRERSDFADSAWFSLSVGRKQSAEPRWLIPMLCRFGKITRQDIGAIRMQQTETFVELAADAVDRFTSAIGKDMTLEKGIRLKALEGKPEMTGGFREDTRPAKAQRKFSKSDNASDPRDDRKGDDKPWKKKKPFGDKPKYEGKKDKPFEKRGPKPTKG				NA	NA	NA	NA	NA
BMS010_02381	1239			Carboxynorspermidine synthase	ATGAAGAAGAACGTTCTGATCATCGGCGCCGGTGGCGTAGCACAGGTCGTGGCGCATAAATGCGCCCAGAACAGCGATGTATTGGGAGACATTCATATTGCGTCACGGACTTTGGGAAAGTGCCGCAAGATTGTCGAGTCCGTACGCGAAAAGAAGAGCCTCAAGACAGATGTAAAACTTGAGGCCCATGCGCTTGACGCGATGGATATCGAGGCGACGAAAGCCTTGATTAAACAGACCGGTGTTGAAATCGTCATCAATGTCGGTTCGGCTTTCGTCAACATGTCCGTTCTTCGTGCCTGCATGGACACGGGTGTTGCCTATATGGATACGGCGATCCACGAGGATCCGACCAAGATCTGCGAGACGCCGCCGTGGTACGGAAACTACGAGTGGAAGCGCGCTGAAGAGTGCAAGGAAAAGGGCATTACCGCCATTCTTGGCGTCGGTTTCGATCCGGGCGTGGTCAACGCCTATGCGCGTCTCGCCAAGGATGACTATTTCGACAAGGTCACCTCGGTCGATATCGTCGATATCAATGCCGGCAGCCACGGTCGCTGGTTCTCCACCAACTTCGACCCGGAGATCAACTTCCGCGAATTCACCGGTGTTGTCTATTCCTGGCAGAATGGCCAGTGGCAGACGAACCAGATGTTCGAAGTCGGCCAGGAATTTGACCTGCCGGTCGTCGGCAAGCAGAAGGCCTATATGACCGGCCATGACGAAGTGCATTCGCTGTCCAAGAACATGGACGGTGCCGATGTGCGCTTCTGGATGGGTTTCGGCGATCACTATATCAACGTCTTCACCGTGCTGAAGAACCTCGGCCTCCTGTCTGAAAAGCCGGTCAAGACCGCCGAAGGCTTGGAAGTCGTGCCGCTGAAGGTGGTCAAGGCCGTGCTGCCCGATCCGTCTTCGCTGGCGCCCGATTATGTCGGCAAGACCTGCATCGGCGATATCGTCAAGGGCATCAAGGACGGCAAGGAGCGCGAAGTCTTCATCTACAACGTGGCCGACCACAAGGAAGCCTATGAAGAAGTCGGCTCGCAGGGCATTTCCTACACCGCCGGCGTTCCGCCGGTCGCCGCCGCCATGCTCATCGCCACTGGCGAATGGGACGTGAAGCAGATGGCCAATGTGGAAGAACTGCCGCCGAAGCCGTTCCTGAACATTCTGAACAAGATCGGCCTTCCGAACCGCATCAAGGACGAAAACGGCGATCGCGCGCTGGAGTTCTGA	MKKNVLIIGAGGVAQVVAHKCAQNSDVLGDIHIASRTLGKCRKIVESVREKKSLKTDVKLEAHALDAMDIEATKALIKQTGVEIVINVGSAFVNMSVLRACMDTGVAYMDTAIHEDPTKICETPPWYGNYEWKRAEECKEKGITAILGVGFDPGVVNAYARLAKDDYFDKVTSVDIVDINAGSHGRWFSTNFDPEINFREFTGVVYSWQNGQWQTNQMFEVGQEFDLPVVGKQKAYMTGHDEVHSLSKNMDGADVRFWMGFGDHYINVFTVLKNLGLLSEKPVKTAEGLEVVPLKVVKAVLPDPSSLAPDYVGKTCIGDIVKGIKDGKEREVFIYNVADHKEAYEEVGSQGISYTAGVPPVAAAMLIATGEWDVKQMANVEELPPKPFLNILNKIGLPNRIKDENGDRALEF	PGPT0020905_5	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020905-putative_saccharopine_dehydrogenase-K13746	NA	NA
BMS010_02382	1098	nspC	COG0019	Carboxynorspermidine/carboxyspermidine decarboxylase	ATGCTCCAGACGCCCTATTACCTGATCGACAAGACAAAACTTCTTCGCAACATGGAGAAGATTGCCTATGTGCGGGAAAAATCCGGCGCCAAGGCGCTCTTGGCGCTGAAGTGCTTCGCCACATGGTCGGTGTTCGATTTCATGTCGCAATATATGGACGGCACCACCTCGTCCTCGCTTTATGAAGTGCGCCTCGGCCGCGAGAAATTCGGCGGCGAGACCCATGCCTATTCCGTCGCCTATGCCGATTATGAAATCGACGAGGTGATTGCGAATGCGGACAAGATCATCTTCAATTCCATCGGTCAGCTCGAGCGTTTCGCCGACAAGGCTGCCGGCATCACACGCGGTCTGCGCCTCAACCCGCAGGTCAGCTCCTCGAGCTTCGATCTTGCCGATCCTGCGCGCCCCTTCAGCCGGCTGGGCGAATGGGATGTCGCCAAGGTCGACAAGGTCATGGACCGTATCTCCGGCTTCATGATCCATAATAATTGCGAAAACAGCGATTTTTCCCTGTTCGACCGCATGTTGACGCAGATCGAGGAGAAATTCGGATCGCTGCTGTCGCGTGCGGAGTGGGTCAGCCTCGGCGGCGGCATCCACTTTACCGGCGGCAATTATCCGCTCGACCAGTTCTGCGACCGTCTGCGCGCCTTCTCGGAAAAATACGGCGTGCAGGTCTATCTGGAACCGGGCGAAGCCTCGATCACCAAAAGCACGACCCTGGAAGTGACGGTTCTCGACACGCTGTTCAACGGCAAGAACCTCGCCATCGTCGACAGCTCCATCGAAGCGCATATGCTCGATCTGCTGATCTATCGTGAGAGTGCCAAGGTTTCACCGAACGAAGGCGAGCACCCCTACATGGTCTGCGGCAAATCCTGCCTTGCAGGCGATATCTTCGGCGATTTCCGCTTCGACAGGGAATTGAAGGTCGGCGACCGTATCTCCTTCCAGGACGCGGCCGGCTACACCATGGTCAAGAAGAACTGGTTCAACGGCGTCAAGATGCCGACCATCGCCATCAAGGAACTGGACGGCACCGTGCGCGCCGTTCGTGAATTCGACTTTGCCGATTTCGAGCAAAGCCTGTCTTAA	MLQTPYYLIDKTKLLRNMEKIAYVREKSGAKALLALKCFATWSVFDFMSQYMDGTTSSSLYEVRLGREKFGGETHAYSVAYADYEIDEVIANADKIIFNSIGQLERFADKAAGITRGLRLNPQVSSSSFDLADPARPFSRLGEWDVAKVDKVMDRISGFMIHNNCENSDFSLFDRMLTQIEEKFGSLLSRAEWVSLGGGIHFTGGNYPLDQFCDRLRAFSEKYGVQVYLEPGEASITKSTTLEVTVLDTLFNGKNLAIVDSSIEAHMLDLLIYRESAKVSPNEGEHPYMVCGKSCLAGDIFGDFRFDRELKVGDRISFQDAAGYTMVKKNWFNGVKMPTIAIKELDGTVRAVREFDFADFEQSLS				NA	NA	NA	NA	NA
BMS010_02383	345			hypothetical protein	ATGGCAAGCGTGCGTAGCAGCGTCAGCGACAAGATCCAGCAATCCCTCGAAAACGGCGATGCGGCCGATGTGGCAGCGCAGCTCGCCCAGCTTCGCGAAGATCTGGCTAGTCTTGCCAAAAGCGTGAAGGCGCTCGGCGTCGGCGCTTCGCATGAGCTGAAGGCGCAGGCCGCCCGCGTGGCCGATGACGCCCTCACCGCATCCGGAGAAATGGCCGACAGCGTTCGCAATGAAATCTCCACGCTCAACGACAACCTCACCGACCACGTCCAGAAGAACCCGCTCCAGTCCCTCGGCATCGCCGTCGGCGTCGGTTTCGTGCTCGCCCTTCTGACGCGTCGATAA	MASVRSSVSDKIQQSLENGDAADVAAQLAQLREDLASLAKSVKALGVGASHELKAQAARVADDALTASGEMADSVRNEISTLNDNLTDHVQKNPLQSLGIAVGVGFVLALLTRR				NA	NA	NA	NA	NA
BMS010_02384	438			hypothetical protein	ATGCTTGAGGCATTGCTGGTCTATCTGGGGGAGACCCAGCGCGAGGGGCGTGTCGTGACACGGCGATTGCGCGCGACCATAATCCTGTCGGTCCTGACAGGGATATTTTTTCTGATCGCCTTCATCGCCGCCGTGGTGGCGGGGTCAATCTATCTTGCCCGACATGTGGGTGCAGGCCCAGCGGCGCTCGTCGTCGCCGGGACGGCGTTCCTGCTCGGCGTCATCATGCTGGTGGCGCTGGCGATCGTCAAACGTCCGAGGGTCTATGCAGCACGTCCCGCTGTCACTCCTTTGACGGCGGCGCCGCTTGCCGCAGCGCCGCTCGCCCTGCAATCGCTGCTGACGCTGGCGATCCAGGCACGTCCCTATGCGACGCTCGCCGTGGCTGTCGCGGCCGGTTTCCTGGCCACAAGGGTCAATACGAAAAAGTCCAAGTAA	MLEALLVYLGETQREGRVVTRRLRATIILSVLTGIFFLIAFIAAVVAGSIYLARHVGAGPAALVVAGTAFLLGVIMLVALAIVKRPRVYAARPAVTPLTAAPLAAAPLALQSLLTLAIQARPYATLAVAVAAGFLATRVNTKKSK				NA	NA	NA	NA	NA
BMS010_02385	984	galE_1	COG1087	UDP-glucose 4-epimerase	ATGAAGAAGAAAGTCCTTGTCGTCGGCGGTGCCGGCTATATCGGTTCGCACACCTGCCTTCTCCTGTCTGAGCGAGGATATGAACCGGTCGTTTTCGACAATCTGTCCAACGGGCATGAGGAATTCGTCCGCTGGGGACCATTCGAACAGGGCGATATTCGCGACCGGGCGCGGCTGGATGAGGTCTTCGCCAAACACCGGCCGGTAGCCGTTCTGCATTTCGCAGCGCTGATCGAAGTCGGTGAATCGGTCAAGCAGCCCGTGGCTTTCTACGACAACAATGTCATCGGCTCGCTCAACCTGCTCTCCGCCGCCATCGATGCCGGCGTCACGGCATTCGTTTTTTCGTCCACCTGCGCAACTTACGGGTTGCCGGAACAGGTGCCGATCGACGAGACGCACCGGCAGGCGCCGATCAACCCCTATGGCCGCACCAAATGGGTGGTGGAGCAGGCGCTGAAGGACTACAGCACCTATAAGGGGCTGCGCTCCGTGATGCTGCGCTACTTCAATGCCGCCGGCGCGGATTTCGAAGGCCGCATCGGCGAATGGCACAAGCCGGAAACCCACGCGATCCCGCTGGCCATCGAGGCCGCACTCGGCCGGCGTCAGGGCTTCAAGGTGTTCGGCACGGATTACGACACGCGCGACGGCACCTGCGTGCGCGACTATATCCACATTCTCGATCTCGCCGATGCGCATGTGCGGGCCGTGGATTATCTGCTGGCCGGCGGAGAGACCGTCGAACTCAACCTCGGCACCGGCACCGGCACCACGGTGAAAGAATTGCTGGCGGCGATTTCGGAGGTTTCCGGCCGCCCCTTCCCCGTCGAATATACCGGGCGGCGCGACGGCGATTCCACGACGCTGGTCGCCAATAACGACAAGGCGAAGGAGGTTCTCGGCTGGGAGCCGCGTTATTCCCTGTCGGACATCATAAAATCCGCCTGGGCATGGCATTCCTCCCGCAATGCCGGGGACTGA	MKKKVLVVGGAGYIGSHTCLLLSERGYEPVVFDNLSNGHEEFVRWGPFEQGDIRDRARLDEVFAKHRPVAVLHFAALIEVGESVKQPVAFYDNNVIGSLNLLSAAIDAGVTAFVFSSTCATYGLPEQVPIDETHRQAPINPYGRTKWVVEQALKDYSTYKGLRSVMLRYFNAAGADFEGRIGEWHKPETHAIPLAIEAALGRRQGFKVFGTDYDTRDGTCVRDYIHILDLADAHVRAVDYLLAGGETVELNLGTGTGTTVKELLAAISEVSGRPFPVEYTGRRDGDSTTLVANNDKAKEVLGWEPRYSLSDIIKSAWAWHSSRNAGD	PGPT0019010_330	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_UDP-ARBINOSE-XYLOSE_POOL,PGPT0019010-uxe-K12448	NA	NA
BMS010_02386	576			hypothetical protein	ATGGCAAAGAAACTTACAATCCTCGTCACTGTCGCTCTGATGGGCACGACGGCTTTCGCGCCGCTGGCCATCGCTCAGGGCACGACCCAGCCTGCGCCGGCAAATCCGAGTGCGCAGACGGAGCCTGCAACCCCGCCCGCCACACCGATGACGCCTGCTGCTCCTTCGACCAATGACAGCGCGGCTACAACGACAGGCGGCGCTTATCTCACCGAACAGGGCGAAACGCAGGTCAGCGCCAACGATTATATCGGCAAGGCGGTCTATACCGCTGCCGATGAAAGCATCGGTAACGTCACCAACCTGATCATGGAAGAAGACGGTGGTCTGGTTGCGGCCGTGATCGGCGTCGGCGGCTTCCTGGGTATCGGCGCAAAGGACGTCGCCGTTCCGATGGACAAGGTAACGATGACGCGCAACGCGCAGGACGGCACCATCCGCCTGACCACGACCGAAACGGCGGAAACGCTGAAGGCGGCTCCCGAATTCAAGACGCTGGAACAGAAGGCCAGCGAAAAGAATGCGGCAACGCCGGCGGCTCCTGACAGCACGACGACGTCCGCCACCAAGCCCTAA	MAKKLTILVTVALMGTTAFAPLAIAQGTTQPAPANPSAQTEPATPPATPMTPAAPSTNDSAATTTGGAYLTEQGETQVSANDYIGKAVYTAADESIGNVTNLIMEEDGGLVAAVIGVGGFLGIGAKDVAVPMDKVTMTRNAQDGTIRLTTTETAETLKAAPEFKTLEQKASEKNAATPAAPDSTTTSATKP				NA	NA	NA	NA	NA
BMS010_02387	1725			hypothetical protein	ATGCCTCGACCCGGCGACAGACTGAAAGACATGATCTCGGCTTTGCGTCGGCGCAGTGCGAATTTTTTCCCGACCGCCTCCATCGGCACCTATCTGGTGGTGATGGCTACCGTCATTACCCTGCCGCTCATTCTTTTCGGCGGCTATCTGATGCTGCGCCTCGAGGCGGAAAAACGCGACGACCTGCAACGGGAAACCATCGAGGATGTACGGGTGGTCTCCCGCAACATCGACCGCCGCCTGCAGGAAATCGCCACCTCGCTCAATCTCCTGTCGCAATTCCCGGAACTTGAGAGCGGCAACCTCGCCGCGTTTCAGGGGCGCGTCGCCGACAGTCTGAAGCGGGAGGGCCTTTATGCCATTCTCGCCACCAAAGATGGTCAGCAGCGTCTCAATACGCGCGTGCCCTATGGCCAGCCGCTCGGCAAGGTGTCGGCGGAAGCCAATCTGGCCAAGGCGATCGACTCCCGCCGCATCACCGTCTCGGACATGTTTTTCGGCTCGACCAGCAAGGAATGGGTGTTCAACGTCACCATGCCGCTAGGCCCGGACCTGGACCCCGCCGGAGACGCCCTGATCTTGACGCAGAATACCAGCGACCTGAGCAGGCTCATCCCCACGGAAAACCTGCCGCGCCACTGGGCGGTCGCCATCATTGACGGCAATAACCGCGTTGTCGTCTCAAGCGCGCCCGAAGAGGCGGAAGTGGGCAAGCCCTTTGTCACCCCCGATGTCCTTTCGGAAATGCAGGCCTTCAGCGGCAATTTTTTCGACGGCAAGGGTAATCTCTACGCCTATGCTCAATTGCCGGGCTGGCAATGGAAGACGGTGATGTGGGGTCCGCTCGCCGCAAGCCAGGCGGCGCTGATAGACACCTGGCGGCAGATGATGATCGGCAGCCTGATGCTGGTGCTGATTGCCATTGGCGGCGCCTATCTGGTCGGCCGGCAATTGCGCAGCTCCATCCGTGACCTGACCCTGATGGCCGAGCGCATCGGCGAGGGCGAGATCGTCGCACCCGTCGATACCAAGATAAAGGAGGCCAACCAGGTCGCCATCGCTCTCTCCAACGCATCCTTCGACAGAAGCCAGTCGGAAGAGCGCCTGCAATTGCTGCTGCACGAGTTGGTTCACCGTTCCAAGAACATTCTGACGCTGGTTCAGGCGATGATACGCCAATTGGGACGCGAAAATAAAAGCATTCCGGAATTCCAGAAGGAGGTCGATCACCGCCTGCGCGGCCTTGGAATGTCGATCCGGGCCCTGGCGGAGGTTCAATGGCAGGGTCTGCCGATTCGCAAGCTGATTGAAACCCACCTCGATGTTTTCGGAACCGTGGCGCAGCGCATCGTGCTGGTGGGAGAGGATTTCATGCTTTCCCCGGAAGCGGCACAGAATTTCGGTCTGGTGGTCCATGAGCTGACGACGAATTCCATCAAATACGGCTCATTGTCGGCTCCAGCGGGAAAAATTACCCTGCGCTGGCAGTCGCGTGAAAAAGACGGGCGGCAGATGATCCATCTCGTCTGGACCGAAACGGGCGGACCGCCCGCCAGAGAACCGAGCCGCAAAGGCTTCGGCACCACGGTCATCAAAAGGCATGCGGAAGGCGCCTTCGGTGGGCAGGTGCTGACGGAATATCGTGAATCCGGCTTCGAGTGGTCGCTGGAAGCGCCGATGCGTTACTTCACGCCCAAACGATCGGAACAGACAGGCACGCATTAA	MPRPGDRLKDMISALRRRSANFFPTASIGTYLVVMATVITLPLILFGGYLMLRLEAEKRDDLQRETIEDVRVVSRNIDRRLQEIATSLNLLSQFPELESGNLAAFQGRVADSLKREGLYAILATKDGQQRLNTRVPYGQPLGKVSAEANLAKAIDSRRITVSDMFFGSTSKEWVFNVTMPLGPDLDPAGDALILTQNTSDLSRLIPTENLPRHWAVAIIDGNNRVVVSSAPEEAEVGKPFVTPDVLSEMQAFSGNFFDGKGNLYAYAQLPGWQWKTVMWGPLAASQAALIDTWRQMMIGSLMLVLIAIGGAYLVGRQLRSSIRDLTLMAERIGEGEIVAPVDTKIKEANQVAIALSNASFDRSQSEERLQLLLHELVHRSKNILTLVQAMIRQLGRENKSIPEFQKEVDHRLRGLGMSIRALAEVQWQGLPIRKLIETHLDVFGTVAQRIVLVGEDFMLSPEAAQNFGLVVHELTTNSIKYGSLSAPAGKITLRWQSREKDGRQMIHLVWTETGGPPAREPSRKGFGTTVIKRHAEGAFGGQVLTEYRESGFEWSLEAPMRYFTPKRSEQTGTH				NA	NA	NA	NA	NA
BMS010_02388	984			hypothetical protein	TTGCATCGGCTGGCATGGCATAACGCGGAGAGGGACGAAAGCGAACTTCACGATTCGCTCGTCCTCGCCTTGCTCGATTCGGGTGAGACAGTCATGCTGCAGGACTGGAACCGCGACTATATATTCGTGGCCAATCTGCCGGATGTCTGGAAAATTCCGGCAGAATCCCGTCCCACAGATGAAAATCTGTTCGGTAACGATCTCTCCGCCCGACTGGCCGATCTCAAGAAGGACATGAACACGGCGGGCAGCCGCGGCATGCTGGAAGTCAATGCCGGCAATGATCGCGTCTTCCAGTTTCAGGTTCATTCCACTCTCAACCAGACGAACCAGGTGGTGATGAAAACCACCATTCGCGAGGTGACGGCGGAAAGGCGGCGCGAGCAGCTTCTGCGCTCGCTGCTGCGCGAGGTCAGCCACCGTTCCAAGAACCTCCTGGCGATCATCCAGAGCCTTGCCGGCCAGACTGCCCGGTTCAGCCTGACCAAGGATGATTTTCTGCGCAAGTTCCGCGGCAGACTACACGCTCTCGCCCAGAGTCAGGATCTCATTACGGATTCGGACTGGCGGGGCGCGCGCATATTCGAGTTGTTGCGCCAGCAATTCGATCTTTATGTGCCGGAATATCCGAACCTCATCCGTATGGAAGGCGAAAACCTGCTGCTCAATCCGAATGGCGCGCTTTATATCGGGCTCGCCTTCCATGAGCTGGTCGTCAACACCGTCAGCCACAGCGGCAATCTCGCCTATCACCCGCCCATATCCCTGCAATGCCGTCAGGAGGGTGATTTTTATATCGTGGAATGGAATGAGCCGATGATGCCGTCGAAAGAGCCGGCGGAGACCCGGCGCGGCAGCTTCGGCAGCGTGGTGCTGGAAAAGGTGGTTCCCTCCGCATTGGGGGGAAGTGCCGAATACGAGTTGACGCCCGAACGGATCGTCTACCGGCTGAAATTTCCCTCCGGCGACGGCGCGGATGCCTGA	MHRLAWHNAERDESELHDSLVLALLDSGETVMLQDWNRDYIFVANLPDVWKIPAESRPTDENLFGNDLSARLADLKKDMNTAGSRGMLEVNAGNDRVFQFQVHSTLNQTNQVVMKTTIREVTAERRREQLLRSLLREVSHRSKNLLAIIQSLAGQTARFSLTKDDFLRKFRGRLHALAQSQDLITDSDWRGARIFELLRQQFDLYVPEYPNLIRMEGENLLLNPNGALYIGLAFHELVVNTVSHSGNLAYHPPISLQCRQEGDFYIVEWNEPMMPSKEPAETRRGSFGSVVLEKVVPSALGGSAEYELTPERIVYRLKFPSGDGADA				NA	NA	NA	NA	NA
BMS010_02389	795	phyR		Phyllosphere-induced regulator PhyR	ATGTCAGTTTCTACACGCATCGCACCGCACCTGCCATATCTGCGCAGGTTCGCGCGTGCCGTTTGCGGCTCACAATCGACGGGCGATGCCTATGTTGCGGCAACACTCGAAGCTCTGATCGCCGATATCAGCATTTTTCCGCAGACAAGCAGCGATCGCGTTTCGCTCTATCAATTGTTCGTATCGATCTTTAGTTCCGTCACGATCAATATTAAGACCGACGAAAACCTGTCGGGATGGGAAAAACGCGCCTCGGCCAACCTCTCCGCCGTGCCGGCGCTGGCCCGCCAGGCGTTCCTTTTGACCACGGTCGAAGAATTCACACCTTCGGAAACCGCAGAGGTTCTGAAAGTCTCCGAAGATCAGGTTGGCAAGCTGATCGATGAGGCAGCGTCTGAAATCGCCCGCCAGGTGGCAACCGATATCATGATCATCGAGGACGAACCTCTGATCGCCATGGATATCGAGCAGATGGTCACCGATCTCGGCCACCGCGTCACGGGCATCGCCCGCACCCACACGGAAGCGCTCGATCTCTTCCATCGCACCCAGCCGAAGATGATCCTTGCCGATATTCAGCTCGCCGATGGCAGTTCCGGTCTCGATGCAATGAAGGACATCCTGCAGATGACCACGCTGCCGGTAATCTTCATCACCGCCTTCCCCGAGCGTCTTCTGACGGGCGAGCGGCCGGAGCCGACCTTCCTTGTGACGAAGCCGTTTAATCCGGACATGGTGAAAGCGCTTATCAGCCAGGCCCTGTTTTTCAACGAAAGCTCACGCGTCGCGGCGTGA	MSVSTRIAPHLPYLRRFARAVCGSQSTGDAYVAATLEALIADISIFPQTSSDRVSLYQLFVSIFSSVTINIKTDENLSGWEKRASANLSAVPALARQAFLLTTVEEFTPSETAEVLKVSEDQVGKLIDEAASEIARQVATDIMIIEDEPLIAMDIEQMVTDLGHRVTGIARTHTEALDLFHRTQPKMILADIQLADGSSGLDAMKDILQMTTLPVIFITAFPERLLTGERPEPTFLVTKPFNPDMVKALISQALFFNESSRVAA	PGPT0015031_14	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015031-rsiB1|phyR-NA	NA	NA
BMS010_02390	207			hypothetical protein	ATGAGCATATTTCAATCGGACCAAGATCAGCCGGACAATTCGGCCGCCCCCCAGGTTCCACACTCCGGGCGGGCGGTGATTTCCCGTAAGCTCAGGGAGCTTTATGATGCCGTTCAGGATGAAGGCATCCCTGACAAATTCCTCGACCTTCTCGAAAAACTCGATGAAGCCGAAAGCAGAGCCAAAATGAAGGCTTCGGAGGAATGA	MSIFQSDQDQPDNSAAPQVPHSGRAVISRKLRELYDAVQDEGIPDKFLDLLEKLDEAESRAKMKASEE				NA	NA	NA	NA	NA
BMS010_02391	567	ecfG_1		ECF RNA polymerase sigma factor EcfG	ATGGCGAAAGAGCCGGAGCTGACAGAATACAACTTCAAACGGGAAATGCTGGCGGCGCTGCCGAACCTTCGCGCCTTCGCTATTTCGCTCATCCGCTCGCGGGACCGTGCCGACGACCTCGTGCAGGACACGATCATGAAGGCATGGGCGAAACAGGACAGCTACCAGCCGGGCACCAATATGCGGGCATGGCTGGTAACGATCCTGCGCAACGAGTTCTACAGCCAGATCCGCAAATCCGGCCGTGAAGTGCAGGATACGGACGGGGTCTATACCTCGCGCCTGTCGGTACCGCCCGAACAGCATGGTTCGGTCGACCTTCAGGATTTCCGCGCGGCACTCGCAAAGCTGCCGGACGACCAGCGTGAAGCGATCCTGCTGATCGGAGCTTCGGGCTTTGCCTACGAGGAGGCCGCCGAAATTTGCGGTTGCCCCGTCGGCACCATCAAGAGCCGTGTCAGCCGCGCAAGGCTGCGGCTGCAGGAGCTGCTCGGCATCGAAAACGAAAACGAGTTCGGCCCGGACGCGCAGATGACCGCGGTGACCGCCGCCGCCACGGCGCGCTGA	MAKEPELTEYNFKREMLAALPNLRAFAISLIRSRDRADDLVQDTIMKAWAKQDSYQPGTNMRAWLVTILRNEFYSQIRKSGREVQDTDGVYTSRLSVPPEQHGSVDLQDFRAALAKLPDDQREAILLIGASGFAYEEAAEICGCPVGTIKSRVSRARLRLQELLGIENENEFGPDAQMTAVTAAATAR	PGPT0014960_7580	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
BMS010_02392	471	lrp_4	COG1522	Leucine-responsive regulatory protein	ATGGCAAATAGTCAAAAAACAGACGATCTGGATCATTTCGATCTCAAGATTCTGGAGGCGCTGAGCGAAGACGGGCGCATGTCCGTGCTGCAGCTCTCGAAAAGGGTCGGTCTTTCCAAGACGCCCTGCCAGACACGGCTGAAACGGCTGGTGGATGAGGGCTATATTCTCGGCTTCCGCGCCATGCTCAATCCGCAGAAGCTCGGTGTCGATCACATCGCTTTCGCCGAGGTAAAGCTCTCCGATACGCGCGAAAAGGCGCTGGAGGAATTCAACGCGGCGGTGCGCAAGATCAAGGAAGTGGAGGAGTGCCACATGATCGCCGGCGCCTTCGATTATCTTCTGAAGGTGCGCACCAGCGATATCCGCAAGTATCGAAGGGTACTCGGCGAGAAAATCTCAAGCCTGCCATCCGTCGCCAACACCTCGACCTTCGTGGTTATGCAATCGGTCAAGGAAACCGGCATCTGA	MANSQKTDDLDHFDLKILEALSEDGRMSVLQLSKRVGLSKTPCQTRLKRLVDEGYILGFRAMLNPQKLGVDHIAFAEVKLSDTREKALEEFNAAVRKIKEVEECHMIAGAFDYLLKVRTSDIRKYRRVLGEKISSLPSVANTSTFVVMQSVKETGI				NA	NA	NA	NA	NA
BMS010_02393	3675	putA_1	COG0506	Bifunctional protein PutA	ATGGCCGATGGTGCAAGCAACGCCGGTGTAGTGGCGAACGGTATCTTCCAGAATTTTGCGCCGCCGGTGCGCGAGCAAAGCCTGCTGCGCAAGGCGATCACCGCCGCCTATCGTCGCCCGGAGGAAGAATGCCTGGCGCCGCTGATCGAGGCGGCAACGGTGACGGCGGAAGAAACGAAAGCCATTCGCGACACGGCCCGCAAACTGATCGAGGCATTGCGCGCCAAGACCAAGGGCACCGGCGTCGAGGGGCTGGTGCAGGAATATTCGCTCTCCAGCCACGAGGGCGTGGCGCTGATGTGCCTTGCCGAAGCGCTGCTGCGCATTCCCGACACAGCCACCCGCGACGCGCTGATCCGCGACAAGATCGCCCGCGGAGACTGGAAGTCCCATATTGGCGGCGGGCGCTCGCTCTTCGTCAACGCCGCCACCTGGGGTCTCGTCATCACCGGCAAGCTGACCTCGACGGTAAACGACAGCGGCCTTTCGGCGGCGCTGACCAAGCTGATCGCCCGCGCTGGCGAACCCGTCATCCGCCGTGGCGTCGATATGGCCATGCGCATGATGGGCGAACAATTCGTGACCGGCGAAACGATCGGCGAAGCGATCAAGCGTTCGAAGCCGCTGGAAGAACAGGGCTTCCAATATTCCTACGACATGCTGGGCGAAGCCGCGACCACCGCCAAGGATGCGGAGCGTTATTACAAGGACTACGAAAACGCCATCCACGCCATCGGCAAGGCATCGGCCGGGCGCGGCATCTATGGCGGTCCGGGCATTTCCATCAAGCTTTCGGCGCTGCATCCGCGTTACGCCCGCGCGCAGGCGGAGCGGGTGATGGCGGAGCTTCTTCCGCGCGTCAAATCGCTGATGCTGCTCAGCAAGAAATACGACATCGGCCTAAACATCGATGCCGAAGAAGCAGACCGGCTGGAACTGTCGCTCGATCTTCTGGAGGAACTGGCGCTCGACAGGGACCTCGCCGGCTGGAATGGCCTCGGTTTCGTCGTGCAGGCCTATGGCCGCCGCTGCCCCTTCGTTCTGGACTACATCATCGATCTCGCCCGCCGCTCGGGCCGCCGCATCATGGTGCGTCTCGTCAAGGGCGCCTATTGGGATGCGGAAATCAAGCGCGCGCAGGTGGAGGGGCTGGAGGACTTCCCGGTCTTCACCCGCAAGGTCCACACGGATGTCTCCTACATTGCCTGCGCCCGCAAGCTGCTCGCCGCGCGCGATCTGGTCTTTCCCCAATTTGCGACCCACAATGCGCAGTCCATGGCGACGATCTACCATCTCGCCGGCCCCGGCTTCAAACTCGGCGACTATGAGTTCCAGTGCCTGCATGGCATGGGCGAACCGCTTTACAGCGAAGTCGTCGGCAAGAAGAAACTCGACCGGCCCTGCCGTTTCTATGCCCCCGTCGGCACCCATGAGACGCTGCTCGCCTATCTCGTCCGCCGCCTTTTGGAAAACGGTGCGAACTCTTCCTTCGTCAACCGCATTGCCGACCCCGCCGTGCCGGTGGATTCCCTGCTGGAAGACCCGGTCGCGGTGGTCAAGGCCTATCCCGTTCCCGGCGCGCGTCACGACCGCATCGCCGCCCCCGAAGGCCTGTTCGGCCCAGAACGCAAAAATTCCGCCGGCCTCGATCTTTCCAGTGAAACGACGCTCGCCGCGCTGGACAAAACCCTGAAGGCGGGTGCTACGACCGAATGGAAAGCGTCGGCACCGCAGGCGGGCGGAAACACGCGCCCGGTTCTCAATCCCGGCGACCATAATGATATCGTCGGCCATGTGACGGAGCCCACCGAATCCGATGTCGAAGCCGCCATGCAGCGGGCGGCGGCCTCAAGCTGGCCCTCCACCCCGGTGGACGAACGCGCCGCCTGCCTGGAGCGCGCCGCCGATGCCATGCAGGCTGAAATGCCTGCCCTTCTCGGCCTCATCATGCGCGAAGCGGGAAAATCCATGCCCAACGCGATTGCCGAGGTGCGCGAGGCGATCGACTTCCTGCGTTATTACGCAGCGGAAGCCCGCAGGAACTTCAAGACCGGCGAGACGCCGCTCGGCCCGGTCGTCTGCATCAGCCCGTGGAACTTCCCGCTCGCCATCTTCATCGGTCAGGTCACGGCGGCGCTGGTTGCCGGCAATCCGGTTCTGGCAAAGCCCGCCGAAGAAACGCCGTTGATTGCGGCCCAAGGCGTGCGCCTGCTGCATGAGGCCGGCGTTCCGCAGGATGCCGTGCAGCTTCTGCCGGGCGACGGCAAGACGGGTGCCGCACTTGTTGGCTCACCCCTTACAGCCGGTGTAATGTTCACAGGCTCGACGGAAGTGGCGCGGCTCATTCAGGGTCAGCTTGCCGGCCGGGTTCTGGCCAATGGCCAGCCGGTTCCGCTGATTGCCGAGACCGGCGGTCAGAACGCCATGATCGTCGATTCCTCCGCGCTTGCCGAGCAGGTGGTCGCCGATGTCATCGCATCCGCTTTCGACAGCGCCGGCCAGCGCTGCTCGGCACTGCGCATCCTCTGCCTGCAGGAAGATGTGGCGGACCGCACGCTCAACATGCTGAAAGGCGCGCTGCACGAATTGCGGATCGGCCGCACCGACAAGCTTTCCGTCGATGTCGGCCCCGTGATTACCGCCGAGGCGAAGGGCATCATCGAAAAGCACATCGAGGGCATGCGCGGGCTCGGCCACCGGATCGAACAGATCACGCTTGCCGGCGAAACCGGCAAGGGCACCTTCGTGCCGCCAACCATCATCGAAATGAAATCGCTCGCCGATCTTAAACGCGAAGTCTTCGGCCCGGTGCTGCACGTCATCCGCTTCAAGCGCGACAATCTCGACCGGCTGATCGATGAAATCAACGCGACCGGTTACGGCCTGACCTTCGGCCTGCATACCCGTCTCGACGATACGATCCAGCACGTTCTGTCCCGCGTCGCGGCCGGCAATCTTTATGTGAACCGCAACATCATCGGCGCGGTGGTCGGCGTGCAGCCCTTTGGCGGACGCGGCCTTTCCGGCACCGGTCCAAAGGCCGGCGGGCCGCTCTATCTCGGCCGCATGACGCAGACCGCACCGAAGATCGACCGCATCGCCAGCCAGCAGGATCAGGCCGCCGTCGATCTCGCCCGCTGGCTGGATGAAAACGGCGAGACAGTCGCGGCCGAAGCCGCACGGCAGGCGGCGGCACTTTCCGGCCTCGGCTTCGAAACCGAGCTGGCCGGTCCCGTCGGCGAGCGCAATGTCTATGCACTGCATCCGCGTGGAAAGGTTCTGCTGGTTCCGGCAACCGAACAGGGGCTTTACCGCCAGCTTGCGGCAGCGCTTGCAACCGGAAACGCGGTTGTCATCGACAATGCTTCGGGACTGGAGAAATCCATTTACGGACTGCCGGCAAGCGTGACTTCGCGCATCGTCTGGGCGGATGACTGGGAAAAATCGGCGCCCTTCGCCGGCGCGCTGGTCGAGGGCGATGCGGAGCGTATCGTGGCCGTCAATAAAAAGATCGCCGCCCTGCCCGGCCCGCTGGTTCTCGTTCAGGCCGCGGCAACGGAAGCGCTTTCCGGGGAAAGCCAGCCCTATACTCTCGACTGGCTGGTGGAAGAAGTCTCCGTCAGCGTCAACACCACGGCCGCCGGCGGCAATGCCAGCCTGATGAGCATTGGTTAA	MADGASNAGVVANGIFQNFAPPVREQSLLRKAITAAYRRPEEECLAPLIEAATVTAEETKAIRDTARKLIEALRAKTKGTGVEGLVQEYSLSSHEGVALMCLAEALLRIPDTATRDALIRDKIARGDWKSHIGGGRSLFVNAATWGLVITGKLTSTVNDSGLSAALTKLIARAGEPVIRRGVDMAMRMMGEQFVTGETIGEAIKRSKPLEEQGFQYSYDMLGEAATTAKDAERYYKDYENAIHAIGKASAGRGIYGGPGISIKLSALHPRYARAQAERVMAELLPRVKSLMLLSKKYDIGLNIDAEEADRLELSLDLLEELALDRDLAGWNGLGFVVQAYGRRCPFVLDYIIDLARRSGRRIMVRLVKGAYWDAEIKRAQVEGLEDFPVFTRKVHTDVSYIACARKLLAARDLVFPQFATHNAQSMATIYHLAGPGFKLGDYEFQCLHGMGEPLYSEVVGKKKLDRPCRFYAPVGTHETLLAYLVRRLLENGANSSFVNRIADPAVPVDSLLEDPVAVVKAYPVPGARHDRIAAPEGLFGPERKNSAGLDLSSETTLAALDKTLKAGATTEWKASAPQAGGNTRPVLNPGDHNDIVGHVTEPTESDVEAAMQRAAASSWPSTPVDERAACLERAADAMQAEMPALLGLIMREAGKSMPNAIAEVREAIDFLRYYAAEARRNFKTGETPLGPVVCISPWNFPLAIFIGQVTAALVAGNPVLAKPAEETPLIAAQGVRLLHEAGVPQDAVQLLPGDGKTGAALVGSPLTAGVMFTGSTEVARLIQGQLAGRVLANGQPVPLIAETGGQNAMIVDSSALAEQVVADVIASAFDSAGQRCSALRILCLQEDVADRTLNMLKGALHELRIGRTDKLSVDVGPVITAEAKGIIEKHIEGMRGLGHRIEQITLAGETGKGTFVPPTIIEMKSLADLKREVFGPVLHVIRFKRDNLDRLIDEINATGYGLTFGLHTRLDDTIQHVLSRVAAGNLYVNRNIIGAVVGVQPFGGRGLSGTGPKAGGPLYLGRMTQTAPKIDRIASQQDQAAVDLARWLDENGETVAAEAARQAAALSGLGFETELAGPVGERNVYALHPRGKVLLVPATEQGLYRQLAAALATGNAVVIDNASGLEKSIYGLPASVTSRIVWADDWEKSAPFAGALVEGDAERIVAVNKKIAALPGPLVLVQAAATEALSGESQPYTLDWLVEEVSVSVNTTAAGGNASLMSIG	PGPT0020210_997	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0020210-putA-K13821	NA	NA
BMS010_02394	822	ssuB_2	COG1116	Aliphatic sulfonates import ATP-binding protein SsuB	ATGTCGACCGGCAATGTGACGACGCTGAGACGCCCGGATGCCCCGCCATCCCTCCCGTCCCAGGGGAAAATCGAACAACGCGAGAAGACGAGCGAAGGCAAGGTTGCCTTCAGCTTCCGCAATGTGGCGAAGAGCTTTGGCGATAAACCGGTTCTGCGCGGCATCGATCTCGATGTGCGGGAAGGCGAGTTTCTGGCCATCATCGGCAAGAGCGGCTGTGGCAAGAGCACGCTCCTGCGCATTCTGGCCGGCCTCGACACGCCGACCACCGGAACCGTCTCGAAAGATGCATCGAGCCGCACCCGCATGATGTTTCAGGAGCCGCGTCTTCTGCCGTGGGAACGTATCGCGAGCAACGTCTCCGTGGGGCTGACCGGCATCGCCAAGGGCGAGGCGGCGCAGGAGCAGACGCTTACAATTCTCGAAGAGGTCGGGCTGAAAGACCGGGCTGGCGAATGGCCCTATGTGCTTTCCGGCGGCCAGAAGCAGCGCGTGGCGCTGGCGCGCGCCTTGGTGGCCCATCCGCAGATTCTGGCGCTGGATGAGCCGCTTGGCGCGCTTGATGCGCTCACCCGCATTGAAATGCAGCTTCTGCTGGAGCGCATCTGGCGCAAGCAGAAATTCACCGCCGTGCTCGTCACGCATGATGTATCGGAGGCCGTCGCACTTGCGGATCGCATCGTCGTCATTGATGAGGGGCGCATCGCGCTCGATCTCGATGTGAAACTGCCGCGTCCGCGCCGTCATGGCACGGCGGAATTCGCAAGGCTGGAAGAGCAGGTTCTGAACCAGCTCTTCGGCCGTGGCGAGACCAACGGATAA	MSTGNVTTLRRPDAPPSLPSQGKIEQREKTSEGKVAFSFRNVAKSFGDKPVLRGIDLDVREGEFLAIIGKSGCGKSTLLRILAGLDTPTTGTVSKDASSRTRMMFQEPRLLPWERIASNVSVGLTGIAKGEAAQEQTLTILEEVGLKDRAGEWPYVLSGGQKQRVALARALVAHPQILALDEPLGALDALTRIEMQLLLERIWRKQKFTAVLVTHDVSEAVALADRIVVIDEGRIALDLDVKLPRPRRHGTAEFARLEEQVLNQLFGRGETNG	PGPT0003035_468	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_TRANSPORT,PGPT0003035-ssuC-K15555	NA	NA
BMS010_02395	780	ssuC_2	COG0600	Putative aliphatic sulfonates transport permease protein SsuC	ATGAGCACCGGAAAGCGTATCGAGATTGGCGGCATCACAGGCTGGCTGCTCCCCGCACTCATTCTTGCAGGCTGGGAGGCGGCGGCGCGGGCCGGTCTGATTTCCGCCAATGTGCTGCCGGCCCCTTCGGCTGTCGCGGAAGCCTTCTGGCGGCTTCTGCTCTCGGGTGAGCTTGTCGCCAATATCGGCGTCAGTTCCGCCCGCGCACTCGCCGGTTTCGCCATTGGCGGCTCCATCGGCTTCATCTTCGGCCTGGCCAATGGCCTCTCCAAGTTCTCCCGCAGCTTCACCGATACGACGCTGCAGATGATCCGCAACATTCCGCATCTGGCGCTCATTCCGCTGGTCATCCTGTGGTTCGGCATCGATGAGGAGGCGAAGCTTTTCCTCGTCGCGCTCGGGGTGTTTTTCCCGATTTACATCAACACGCTGCTCGGCATTCAGGGTGTCGATCCGCAACTGGTGGAAATGGGCCGCACCTATGGCATGTCGCCCTTCACGCTGTTCCGGCGGGTCATTCTGCCCGGCGCGCTGCCCGCCATTTTCACCGGCCTGCGTTATGCGCTCGGCATCATGTGGCTGACGCTCATCGTCGCCGAAACCATCTCTTCCTCGTCCGGCCTCGGCTATATGGCCATGCAGGCGCGCGAGTTCCTGCTGATCGACGTCGTGGTTCTGTCGATCCTCATCTATGCGCTTCTCGGCAAGCTGGCCGACAGTTTCGCCCGCTTCCTCGAAAGCATCTTCCTGCAATGGCATCCAGCCTTCAAGAAAGTCTGA	MSTGKRIEIGGITGWLLPALILAGWEAAARAGLISANVLPAPSAVAEAFWRLLLSGELVANIGVSSARALAGFAIGGSIGFIFGLANGLSKFSRSFTDTTLQMIRNIPHLALIPLVILWFGIDEEAKLFLVALGVFFPIYINTLLGIQGVDPQLVEMGRTYGMSPFTLFRRVILPGALPAIFTGLRYALGIMWLTLIVAETISSSSGLGYMAMQAREFLLIDVVVLSILIYALLGKLADSFARFLESIFLQWHPAFKKV	PGPT0003030_1991	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_TRANSPORT,PGPT0003030-ssuB-K15554	NA	NA
BMS010_02396	954	ssuA_1		Putative aliphatic sulfonates-binding protein	ATGCCAGCCATCACCCGCCGCGCGCTTTCCGCCAGCCTTTTTGTTGCCGCCGCATTCTCGGTCCTGCCGCTGCAGGTGCAGGCGGCGGAAGAGCTGAAGATCGGTTATCAGAAAACCGGCCTGCCGGTGATCGCCCGCCAGCAGGGTGTCATCGAAAAGGCGCTGGAGGCCAAGGGCGTGAAGGTTTCCTGGGTCGAATTCACGGCGGGCCCGCCGCTGGTGGAAGCCCTGAATGTCGGCTCCATCAATGTCGGCTGGACGGGCGACGCGCCGCCGATCTTCGGGCAGGCGGCAGGTTCCGCCATCGTTTATCTCGCGGCCCTTCCTTCGAACGGCAAGGGTGAGGCGATCTTCACCAAGCCTGAGAGCGGCATCAAATCGGTTGCCGATCTCAAAGGCAAGAAGGTCGGCGTCGGCAAGGGCACCAGCGCGCACAATCTGCTGGTGGCGGCGCTGGAGAAGAACGGCCTGAAATTCAGCGATATCGAGGTGGTCTATCTCAGCCCTGCCGATGCCGCGGCAGCCTTCGCCAGCGACAAGATCGACGCCTGGGCCGTCTGGGATCCCTTCTATGCGATTGCCGAAACCCGCTACAAGCCGGTCACTCTGGCTCGCACCAGCGATGTGCTCGCCGTCAGCACCTATTTCCTCGCCAATCGCGATTACGCCAAATCCAATGCGGATACGATCAACATCACCATCGATGCTCTGGGCGAGGCGGCGAAATGGTCCGCCGCCAACCGCGACAAGGTCGCCGCAGCTTTGCATGAGGTGACGGGTGTGCCGCTGGAAGCGCAGACGCTGGCCGCGAACCGCTCGGAATTCGGCATTACCAGGATCGACGACAAGATCGTCGCCAGCCAGCAGGAAACCGCCGACCGCTTTTATCGCCTCGGCCTGATCCCGAAACAGATCAGCATCAAGGATGCCGTCTGGTCGGGCGCGACGAACTGA	MPAITRRALSASLFVAAAFSVLPLQVQAAEELKIGYQKTGLPVIARQQGVIEKALEAKGVKVSWVEFTAGPPLVEALNVGSINVGWTGDAPPIFGQAAGSAIVYLAALPSNGKGEAIFTKPESGIKSVADLKGKKVGVGKGTSAHNLLVAALEKNGLKFSDIEVVYLSPADAAAAFASDKIDAWAVWDPFYAIAETRYKPVTLARTSDVLAVSTYFLANRDYAKSNADTINITIDALGEAAKWSAANRDKVAAALHEVTGVPLEAQTLAANRSEFGITRIDDKIVASQQETADRFYRLGLIPKQISIKDAVWSGATN	PGPT0003025_2892	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_TRANSPORT,PGPT0003025-ssuA-K15553	NA	NA
BMS010_02397	1530	davD_2	COG1012	Glutarate-semialdehyde dehydrogenase	ATGGATGCGACCACGAAGCTCGACGTGAAACAGGAAGCCGCGGCCCTGCTCGACAGGATGGGCGTTGCCCGCGATCTTTATACCGGCGGCGATATGGCCTCCTTCAGCCCGGTGACGGGTGAACAGGTCGCAAGCCTCAAGACCGTTTCGGTCGAGGGTGTAGCAGCCGTGATCGACCGGGCCGATGCCGCCTTCAAGGCATGGCGCAATGTGCCGGCGCCCCGTCGCGGTGAGCTGATCCGGCTGCTCGGCGAAGAGCTGCGCGCCTTCAAGGCGGATCTCGGCCGTCTCGTGTCGCTCGAAGCCGGCAAGGTTCCCTCCGAGGGCCTCGGCGAAGTGCAGGAAATGATCGATATCTGCGATTTCGCGGTCGGCCTTTCCCGCCAGCTTTATGGTCTCACCATCGCCACCGAACGCCCCGGCCATCGCATGATGGAAACCTGGCATCCGCTCGGCGTCGTCGGCGTCATCTCCGCCTTCAACTTCCCGGTCGCCGTCTGGTCGTGGAATGCGGCGCTTGCCATCGTCTGCGGCAATTCGGTTGTCTGGAAGCCTTCGGAAAAGACGCCGCTCACGGCGCTTGCCGTTCAGGGCATCTTCGAGCGCGCGGCCGCTCGTTTCGGCGATGCGCCGGAAGGTCTTTCGCAGCTTCTGATCGGCGACCGCGCGGTGGGTGAAGCTCTGGTGGACAATCCCAAGGTGCCGCTCGTCTCCGCCACTGGCTCCACCCGCATGGGCCGCGATGTCGGCCCGCGTCTGGCGAAACGCTTTGCCCGCGCCATTCTGGAACTCGGCGGCAACAATGCCGGCATCGTCTGCCCTTCCGCCGATCTCGACATGGCGCTGCGCGCCATCGCCTTCGGCGCCATGGGCACGGCCGGCCAGCGCTGCACCACGCTTCGCCGTCTCTTCGTGCATGACAGCGTCTATGACCAGCTCGTGCCGCGTCTGAAAAAGGCCTATGCCTCCGTTTCCGTCGGCAACCCGCTGGAAACCTCCGCACTCGTCGGCCCGCTGGTCGACAAGGCGGCTTTCGACGGCATGCAGAAGGCCCTCGAAGCGGCGAAAGCCCATGATGGCGTGGTGAATGGCGGCGGGCGTGTGGATACGGGTGCGCCGGATGCCTATTACGTCAAGCCTGCTCTGGTCGAAATGCCGAAGCAGGCTGGACCGGTGCTGGAAGAAACCTTCGCGCCGATCCTCTATGTCATGAAATATAGCGATCTCGATCAGGCGATAGAAGACCATAACGCTGTCGCTGCTGGTCTTTCCTCATCGATCTTCACCCGCGACATGCAGGAATCGGAACGGTTCCTGTCGTCGGAAGGCTCCGATTGCGGCATTGCCAACGTCAATATCGGCACCTCGGGTGCGGAAATCGGCGGCGCCTTTGGCGGTGAGAAGGAAACCGGCGGCGGCCGTGAATCCGGTTCGGATGCGTGGAAGGCCTATATGCGCCGCGCCACCAACACCATCAACTACTCCAAGGCGCTGCCGCTGGCGCAGGGCGTTTCCTTCGATATCGAATAA	MDATTKLDVKQEAAALLDRMGVARDLYTGGDMASFSPVTGEQVASLKTVSVEGVAAVIDRADAAFKAWRNVPAPRRGELIRLLGEELRAFKADLGRLVSLEAGKVPSEGLGEVQEMIDICDFAVGLSRQLYGLTIATERPGHRMMETWHPLGVVGVISAFNFPVAVWSWNAALAIVCGNSVVWKPSEKTPLTALAVQGIFERAAARFGDAPEGLSQLLIGDRAVGEALVDNPKVPLVSATGSTRMGRDVGPRLAKRFARAILELGGNNAGIVCPSADLDMALRAIAFGAMGTAGQRCTTLRRLFVHDSVYDQLVPRLKKAYASVSVGNPLETSALVGPLVDKAAFDGMQKALEAAKAHDGVVNGGGRVDTGAPDAYYVKPALVEMPKQAGPVLEETFAPILYVMKYSDLDQAIEDHNAVAAGLSSSIFTRDMQESERFLSSEGSDCGIANVNIGTSGAEIGGAFGGEKETGGGRESGSDAWKAYMRRATNTINYSKALPLAQGVSFDIE	PGPT0006875_1892	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128	NA	NA
BMS010_02398	903	gcvA_4		Glycine cleavage system transcriptional activator	ATGGATCCGCGCAGAAGACTGGTCCCTGACATCGTTACCCTGCAGGCGTTCGAATGCGCGGCACGGCATGGCAATTTTACGCGTGCGGCGGAAGAACTCAACCTCACGCAGAGCGCGGTGAGCCGGCAGATCGGCGAACTGGAAGCGCAGACGGGAATGCAGCTTTTCGAGCGCATCCGCAGGCGGGTGGTGCTTTCGGAGGCGGGGCGTAAATTCCTGCCCGATGTGCGGCGCCTGTTGCAGCAATCCGAACAGTTGATGGTGCGCGCGGTCTCGGCCGGAACTTCACACGCATCGCTTTCCGTCGCGACGCTGCCGACATTCGGCAGCCGCTGGCTGATGCCGCGCCTCCACCGCTTCATCGACGACAATCCGGAAATAACGATCACCATCGGCTCGCGCTCGCATCCCTTCGATTTTGATGAAGAAGGTTTCGATCTCGCCATTCACTACGGCCAGCCGGTCTGGGCGCATGGCACCTGCACATTTTTGTGCAACGAAGTCATTGTGCCAGTCGCAAGCCCCGCCCTGCTGCGCCGCGCCAGCGTGAGCAAGCCGCAGGATCTGACCGGGCAGCCGCTGCTGCATGTGACGACGCGGCCGAAACTATGGACGGAATGGCTGGAGATGAACGGGGTGACAGCCGAGAATGCCTATCAGGGCAGCCGTTTCGACCAGTTCTCGATGATCATTGAGGCCGCCGCAAGCGACATCGGCTTTGCCCTTCTGCCGAAATATCTCATCGAGGCGGAGATCGCCTCCGGCCGCCTCGAAATCGTCTTCGACATTCCCCTGCAGACCGACAAGAGCTATTACGTCGCCCTGCCGGAAGGACGGCAGGAAAATGCACTGGCCCGCGCCTTTCAGGCATGGCTGCTCGATCAGGTCGGCAAACCGGTGTAA	MDPRRRLVPDIVTLQAFECAARHGNFTRAAEELNLTQSAVSRQIGELEAQTGMQLFERIRRRVVLSEAGRKFLPDVRRLLQQSEQLMVRAVSAGTSHASLSVATLPTFGSRWLMPRLHRFIDDNPEITITIGSRSHPFDFDEEGFDLAIHYGQPVWAHGTCTFLCNEVIVPVASPALLRRASVSKPQDLTGQPLLHVTTRPKLWTEWLEMNGVTAENAYQGSRFDQFSMIIEAAASDIGFALLPKYLIEAEIASGRLEIVFDIPLQTDKSYYVALPEGRQENALARAFQAWLLDQVGKPV	PGPT0026360_4347	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
BMS010_02399	981	yqjG_3	COG0435	Glutathionyl-hydroquinone reductase YqjG	ATGCTCGTGGATGGAAAATGGACTGCCGAATGGCATCCGGTGCAGGCAACCGACAAGAAGGGCGGCTTCGTTCGCCAGACCTCCGGTTTCCGCAACTGGGTAACGCCTGACGGTTCGGCGGGGCCGACGGGTGAGGGCGGTTTTGCGGCCGAAAGCGGCCGTTATCATCTTTACGTCGCGCTGATCTGCCCATGGGCATCGCGCACGCTGATCGGCCGAAAGCTCAAGAAGCTGGAGGAGGTGATTTCCGTTTCCGTGGTTGAGCCCGCCCTTTCCGACGAGGGCTGGAAATTCGGCGACTATCCGGGTTCGGACCGCGACACGCTCAACGGCTTCACTTATATGCACGAGGTCTATACCAGCGCGGATCCGCATTATACCGGCCGGGCCACCGTGCCCGTGCTTTGGGACAAAAAGACGAAAACCATCGTCAACAACGAATCCGCCGATATTCTGCGCATGCTGAATTCCGGTTTCGGCGATCTGGCCGATAATAGCGTGGACCTCTATCCGGAAGCGCTGCGCGATGAGATCGATGCTCTCAATGACCACATCTATCCGCGCCTCAACAACGGCGTTTACAGAACCGGTTTCGCCACCACGCAGGTCGCCTATGAAGAGGCCTTTGCCGATGTGTTCGCGACGCTTCAGGAGCTCGAAAGCCGCCTGGTCTCAGGCGGACCTTTCCTTTTCGGCGATCACCTGACCGAAACGGATGTCCGGCTCTTCGTGACGCTGGTTCGTTTCGATGCCGCCTATTATGGCCTGTTCAAATGCAATCTTCGCCGCATCGCCGATTATCCCGCGCTGCAGGCCTATATGATGCGGGTGCTGACCATTCCGGGCGTGCGCGATACGGTCAATATCGACCATATCAAGCGCGGTTATTATTCCATCAAGGCGCTCAACCCGACCCGCATCGTGCCCGTCGGCCCCGATCTTCCGGGGCTGTATGACGTTTCCCTCCGCCCTTCGAACTGA	MLVDGKWTAEWHPVQATDKKGGFVRQTSGFRNWVTPDGSAGPTGEGGFAAESGRYHLYVALICPWASRTLIGRKLKKLEEVISVSVVEPALSDEGWKFGDYPGSDRDTLNGFTYMHEVYTSADPHYTGRATVPVLWDKKTKTIVNNESADILRMLNSGFGDLADNSVDLYPEALRDEIDALNDHIYPRLNNGVYRTGFATTQVAYEEAFADVFATLQELESRLVSGGPFLFGDHLTETDVRLFVTLVRFDAAYYGLFKCNLRRIADYPALQAYMMRVLTIPGVRDTVNIDHIKRGYYSIKALNPTRIVPVGPDLPGLYDVSLRPSN	PGPT0013050_1699	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013050-yqjG-K07393	NA	NA
BMS010_02400	888			hypothetical protein	ATGCAAAAGGGTTTTCTGCTCGGTCTGTTCGCTTATGCGACCTTTTCCATGGGCGATGCCACCATCAAGTCGCTTGGATCGCAGATCAGCGTTTTCGAAATCGGCTTCTTCAGCATTCTGTTTTCCGGCATCTTCATTTTTTTCAGCAAGCCGCGTGAGGAAAGGTGGCGTGAATTCTGGCGTATGAGCCGGCCCTTCGCGGTGCACGGGCGCGCGATCTCCGGCCTTTTCGCCGGTATTTTCGGCATCTATGCCTTCACCACCATTCCGCTGGCGGAAGCCTATGCGCTGATCTTCCTGTCGCCGCTCTTCGTCACCGTGCTTTCCGCCGTCGTGCTGAAGGAGAATATCGGTCCATGGCGATGGACGGCGGTTCTGGCGGGTATCGTCGGTGTCATCCTCGTCGTGCGGCCGGGCTTCAAGACGCTGGAACTCGGGCATTTTGCCGCCATCGGCGTCGCTTTTCTGGCGGCGATGACCATCGTTTTGCTGCGCTCGCTTGCGGGCAAGGAAAAGCGCACTTCGATCATGGGCGTGCTGCTGATTTACGGCCTGACCTTCAACGGCATTGCCTCCATCCCCGAATTCGTCATGCCCACCCTGCACCAGCTATTGGCCTTCGCCTTCATCGGCCTTTGCACGGCAACGGGGCAGATCACCCTTCTGGTCGCAACCCGCATCGCGCCAGCGAGCCAGATCGCGCCATCGCATTATTCGCAAATCCTCTGGGCGGTGGCGATCGGCATGGCCTTCTTCCACGAATATCCGGATGCGGTCGCCGTGCTGGGTCTGGCCGTCATCGCCGCATCGGGACTGCTGACGATGATCCGCGAAAAGGTGAGGCTTGGCACCGTGCGCTGGAACCCGTTTTTCCGCAATCGCCTGTGA	MQKGFLLGLFAYATFSMGDATIKSLGSQISVFEIGFFSILFSGIFIFFSKPREERWREFWRMSRPFAVHGRAISGLFAGIFGIYAFTTIPLAEAYALIFLSPLFVTVLSAVVLKENIGPWRWTAVLAGIVGVILVVRPGFKTLELGHFAAIGVAFLAAMTIVLLRSLAGKEKRTSIMGVLLIYGLTFNGIASIPEFVMPTLHQLLAFAFIGLCTATGQITLLVATRIAPASQIAPSHYSQILWAVAIGMAFFHEYPDAVAVLGLAVIAASGLLTMIREKVRLGTVRWNPFFRNRL	PGPT0023680_126	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-SAM|QUEUOSINE|LIPID_METABOLISM,PGPT0023680-sam-K15270	NA	NA
BMS010_02401	1332	rkpK_2	COG1004	UDP-glucose 6-dehydrogenase	ATGCGGATTGTGATGATCGGTTCGGGTTATGTCGGCCTCGTGTCCGGCGCGTGTTTTGCAGATTTCGGCCATGACGTGGTCTGCGTCGACAAGATGCCGGAGAAGATCGAGGCCCTGAAAAACGGCCATATTCCGATCTTCGAACCGGGTCTCGAGACCATTGTCGCCAACAATGCGAAGGCCGGGCGGTTGAGCTTCACCACCGATCTTTCCGCAGCCGTTGCCAATGCCGATGTCGTTTTCATCGCGGTCGGCACGCCCTCGCGGCGCGGCGATGGCCATGCCGATCTTGGTTATGTCTATGCGGCGGCAAAAGAGATCGCCCATGCGCTGGACGGTTTCACTGTCATCGTCACCAAATCCACCGTTCCAGTCGGCACCGGCGACGAGGTGGAACGCATCATCCACGAGGAAAACCCCTCGGCGGATTTTGCCGTGGTCTCCAATCCGGAATTCCTGCGCGAAGGTGCGGCCATCGAGGATTTCAAGCGGCCGGACCGCATCGTCGTCGGCCTTTCGGATGAGCGTGCGCGCCCCGTCATGACCGAGGTTTATCGCCCGCTCTATCTCAACCAGTCGCCGCTGCTCTTCACCACAAGGCGCGCTTCCGAACTCATCAAATATGCCGCCAACGCCTTTCTGGCGATGAAGATCACCTTCATCAACGAGATGGCTGATCTCTGCGAAAAGGTCGGCGCCAATGTGCAGGATGTCTCGCGCGGCATCGGTCTCGATGGCCGCATCGGTTCGAAGTTCCTGCATGCCGGCCCCGGTTATGGCGGCTCCTGTTTCCCGAAGGACACGCTGGCGCTTGCCAAGACCGCGCAGGATTATGATGCGCCGGTTCGGCTGATCGAGACCACCATCGCCATCAACGACAATCGCAAGCGCGCCATGGGCCGCAAGGTCATCAATGCGGTGGGCGGCGATGTGCGCGGCAAGAAGATCGCCGTGCTTGGCCTCACCTTCAAGCCGAATACCGACGACATGCGCGACAGCCCGGCAATCGCCATCATCCAGACCCTGCAGGATGGCGGTGCGAAAGTGGTCGGTTACGACCCGGAAGGCATGGCGAATGCCCGCCACCTGATGGAAGACATCGACTATGCAGCCGGCCCCTACGAGGCGGCGGAAGATGCCGACGCCGTGGTGATCGTGACGGAATGGAACCAGTTCCGCGCGCTCGACCTTCCGCGCCTGAAGGCGATCATGAAACATCCGGTGCTGGTGGATCTGCGCAATATCTACCGCACCGATGAGGTCGCCGCGCATGGTTTCATCTATGCCGCCGTCGGTCGCCCGCATGAAGGCGGTTCCGACAAGGGCGCATAG	MRIVMIGSGYVGLVSGACFADFGHDVVCVDKMPEKIEALKNGHIPIFEPGLETIVANNAKAGRLSFTTDLSAAVANADVVFIAVGTPSRRGDGHADLGYVYAAAKEIAHALDGFTVIVTKSTVPVGTGDEVERIIHEENPSADFAVVSNPEFLREGAAIEDFKRPDRIVVGLSDERARPVMTEVYRPLYLNQSPLLFTTRRASELIKYAANAFLAMKITFINEMADLCEKVGANVQDVSRGIGLDGRIGSKFLHAGPGYGGSCFPKDTLALAKTAQDYDAPVRLIETTIAINDNRKRAMGRKVINAVGGDVRGKKIAVLGLTFKPNTDDMRDSPAIAIIQTLQDGGAKVVGYDPEGMANARHLMEDIDYAAGPYEAAEDADAVVIVTEWNQFRALDLPRLKAIMKHPVLVDLRNIYRTDEVAAHGFIYAAVGRPHEGGSDKGA	PGPT0017855_2791	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-GLUCURONATE_MODIFICATION,PGPT0017855-ugd|tuaD-K00012	NA	NA
BMS010_02402	1023	galE1	COG1088	UDP-glucose 4-epimerase	ATGCGTTATCTGGTTACCGGCACGGCTGGCTTCATCGGCTTTTATGTTGCCAAGCGGCTGTTGGACGCCGGCCACTTCGTGACCGGCTTCGACGGCATGACGAAATATTACGATGTCAGCCTCAAGGAAAAACGCCACGCCATTCTTTCCCGCTCCAACGGCTTCCGTGCCGAAATCGGCATGCTGGAAGATACGGATGCGCTGAAGCGCGCGGCAGAGGCCGCCGAGCCTGAGATCATCATCCACCTCGCGGCACAGGCAGGCGTTCGTTACAGCCTTGAAAATCCGCGCGCCTATATCGATTCCAACCTCATCGGCTCGTTCAACATGCTGGAGCTCGCCAGAAGCCTTGAGGTCAAGCACCTGATGCTGGCATCGACCTCCTCCATCTACGGCGCCAACGAGAAAATCCCCTTCGCTGAGAGCGACAAGGCCGACGAGCCTATGACGCTTTACGCCGCCACCAAAAAATCGATGGAGCTGATGGCGCACAGCTATGCCCATCTGCACAAGCTGCCCACCACCGCCTTCCGTTTCTTCACGGTCTACGGCCCGTGGGGGCGGCCGGACATGGCGCCGATCAAATTCGTCGACGCCGTTTCCAACGGTCGGCCGATCGATATTTACGGGCAAGGCAATATGAGCCGCGATTTCACCTATATCGACGATCTGGTGGAGGGCATCGTCCGGCTGAGCACGGTCATCCCGTCCGAGGAAAACCGTGTTACGCAGGAAGGTGTCACCGACACGCTCTCGCACCACGCGCCCTTCCGCGTGGTCAATATCGGCGGCGGCCAGCCGGTGGAGCTGATGCATTTCGTCGAAACGGTCGAAAAGGCGGTCGGGAAACCCGCGATCCGCAATATGCTGCCGATGCAGCAGGGCGATGTTCCCCGCACCTTCGCCTCTCCCGATCTTCTGAGGGCATTGACCGGTTACGTGCCGCAAACCCCGGTCGAAGAGGGCATCAAGGCCCTCGTCGCCTGGTATCGCGAGATGCACCCGGCCGAATTACGGGAATAA	MRYLVTGTAGFIGFYVAKRLLDAGHFVTGFDGMTKYYDVSLKEKRHAILSRSNGFRAEIGMLEDTDALKRAAEAAEPEIIIHLAAQAGVRYSLENPRAYIDSNLIGSFNMLELARSLEVKHLMLASTSSIYGANEKIPFAESDKADEPMTLYAATKKSMELMAHSYAHLHKLPTTAFRFFTVYGPWGRPDMAPIKFVDAVSNGRPIDIYGQGNMSRDFTYIDDLVEGIVRLSTVIPSEENRVTQEGVTDTLSHHAPFRVVNIGGGQPVELMHFVETVEKAVGKPAIRNMLPMQQGDVPRTFASPDLLRALTGYVPQTPVEEGIKALVAWYREMHPAELRE	PGPT0019020_1251	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-UDP-GALACTOSE-GLUCURONATE_POOL_MODIFICATION,PGPT0019020-cap1J|wbgU-K08679	NA	NA
BMS010_02403	1047	gshB_2	COG0189	Glutathione synthetase	ATGCGTATCGCATTTTTCGTCAATTCCATCGAAACAGAGGGACCGAACTACGCGACCGGGCTGCTTGCCATGGCGGCGCTCAATCGCGGCCACGAGGTGGTCTATCTGACGCCCGGCGATTTCACATTACGCTCGGACGACAGCCTGACCATTCACGCCACCGTGCTGCCGAAGGGCAAAATCAAGAAAGGCGAGACGTTCCATTCCACGCTTCAGGACAAGGCGCTGGAGCGGCGAACCATGGATGTGGAGGAAATCGATGCGCTGATGCTGCGCAACGATCCCTCGCTCGACCAGACGACGCGGCCATGGGCGGTGCATGCCGGTATCCTGTTCGGGCGGCTTGCCGAACAGCGGGGCGTCGTCGTGCTGAACGATCCCGAAGGTCTGGCGCTCGCGCAGAACAAGCTCTATTTCCAGAGTTTTCCCGAAATCGTCCGCCCGACCACGATCATTTCGCGCAATGTCGAGGAGATCCGCGCCTTTGCCGACGCGCACCCCAAGGGTGTCATCGTCAAGCCGCTGCAGGGCTCGGGCGGCAAGAACGTCTTCAAGATCGGCTCCAGCAAAGAGACCAATCTCAACCAGATTTTCGAGGCGGTGAGCCTTGAGGGATATCTGATCGCGCAAGCTTATCTGCCGGCCGCCAAGGATGGCGACATCCGCTTCTTCATGATGAATGGCCGGCCGCTGATGCGTGAAGGCAAATATGCCGCCCTTCGCCGTGTGCCCGCCAAGGGCGACCTGCGCTCCAATATCCATGCCCATGGCACGGCGGAAGCCGTGAAGGTGACGGATGAGATCGTGGCGCTTGCCGAAATGGTGCGGCCGAAGCTGGTGGAGGACGGCATGTTCCTCGTCGGGCTCGATATCGTTGGCGACAAGATACTGGAAGTGAACGTGTTTTCCCCGGGTGGCCTTTCCAATATCCGCGATCTCACGGAGATGGATTTCAGCGACACGATCATCGAGGCCGTGGAAACCAAGATCACCATGCAGAGCGCTTCCGGCGGCACCATCTCCAACCGCCTGCTGGCGACGCTGTGA	MRIAFFVNSIETEGPNYATGLLAMAALNRGHEVVYLTPGDFTLRSDDSLTIHATVLPKGKIKKGETFHSTLQDKALERRTMDVEEIDALMLRNDPSLDQTTRPWAVHAGILFGRLAEQRGVVVLNDPEGLALAQNKLYFQSFPEIVRPTTIISRNVEEIRAFADAHPKGVIVKPLQGSGGKNVFKIGSSKETNLNQIFEAVSLEGYLIAQAYLPAAKDGDIRFFMMNGRPLMREGKYAALRRVPAKGDLRSNIHAHGTAEAVKVTDEIVALAEMVRPKLVEDGMFLVGLDIVGDKILEVNVFSPGGLSNIRDLTEMDFSDTIIEAVETKITMQSASGGTISNRLLATL	PGPT0013040_85	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013040-gshB-K01920	NA	NA
BMS010_02404	1878			hypothetical protein	ATGAACCTCTCTCCCGCCCGCAGCGCACCGTCTCCCATCGCCGATCTGGTCGATGATGTCGTGTCCTGCCTCGAGGCCGGCAAGGCCATCCGCCGCGATGTCGGCAAAGACGGTCGTCTGCATATCGACCGGCCGCTGCCGTTCCTCTGCCTGCATCTGACGGGCGGCACGAAAAATCTCGCCGCCCGCGATATCGCCGCCGCCCACGCCTCCTATCTGATCGCGTCGACCATTCAGGAGGCAGCGCCGCTGATCGAGGCCGTTGGCACGGTCATGCGGCAGCGCTTCGGCGCATTCATCGTCCTCGATATCGGTGAGCTGGAGCATGACATTCTGCTGGCCGACGATTCGCCTTTCCTGCCGCATTATGAGGTTTCCGTCTCGGCGACGGCTGAGCCAGAAACGCAGAATGCCCGCCGGGTCTTCATCAAGGCGGTTTGCGATGCCGAAGTGCGTTTTCGCACGCCGCGCATCACCCGGCCGGAATCGGATGCCGATCCCGTTCTGCGGTTCAAGAAAGCGGGCCTCGATTTTCCCTGTATCAGCGTGCGTTTTGCGCCGATCTACCGCCAGCCGGAATCCGGTGCGGATTATCCGGGCCTGCGGGTGACGATGATCGCCGATCTTTTCGATGCCGGTCTGCAGGCTTTTTCATCCTTCGCTTCGGGCAAGGACGCGCTCAAGGTTACCAGCCACCGTGCGCTGGGGCGCAAGGCCTTCGTCGACGCCGTCAGGCGCGCCGACCGGTCCGTCGACGATATTGTTTCATCCTTCGATTTTCTGCTTTCCGTCACGCCCATCAATGCCCGCCGGGCCTTCGAGGAGTTTCGCGATGGCGGCTTTCAGTTCGCGCCGCGCCTGCTCTACCGGCCGCTCGGCGTCGATGTCGAGGAGCAGAAACGCAAGCTTTATTCCGTCGTGTTCGATCATCTGGAAGACCCGGTGCTTTATAATCTCTACCGGGAGAAACAGCAGGAGATCGATCTGCAACTGACGATGCTCGCCAATCTGCACCACCGCACCTTCACCGATTTCTCACGCGCCCTTTATGGCGCTGTCGAACCGGCTCTCCTTCATCTGGCGCTGCGGGTGCTTGCGGATTGCCCGCGCAGGGAGGAGACCAGTGAAATCGCCATGGTCGATTGTTACGCGGTCGCCAAGAAGTCGCGGGAGATGGTCGAGACCTATCTTGCGGAAGCCCCGGAATTCAAGGCGCGCGTTGAAATCCGCGACGACCTGCCGCCGGGCCTGATGGTGACGGGTGAGAAACTTTTGATTTCCCGCCACACTGTCATGGAACAGCGCCGTGTCGAGGCACTGCTGTCGCATGAGATCGGCGTGCATCTTCTGACCTATTTCAACGGCTCGTTTCAGGGGCTGCGTCTCTTCCGCACCGGCCTTTCCGGTTATGAGGGCGTGCAGGAAGGGCTGGCGGTGCTGGCAGAACATCTGGCCGGCGGCATGACGCGTGAGCGCCTGCGGCTGATCGCCGGCCGCGTTATCGGCTGCGCCGCCATGCTGGATGGGGCGAGCTTCGTGGAGACCTTCCGCACCATGACCCGCGATCACGGTTTCGATGAAGCCGGGGCCTTCAACATGGTGCTGCGCATCTATCGCGGCGGCGGTCTTTCCAAGGATGCAATTTATCTACGCGGGCTGGCGGAGGTGCTGGACCATCTGCGCAGGGGCGGAGCGCTCGATCCGTTCTGGATGGGCAAGATCGCTGCCGCCCATTTTCCGGTGATGCAGGAGCTTGCCCTGCGCGGCCTGTTGCGGCCGCCGGGCGTCAGGCCCGCATTTCTGCTGCCCGCCAAGGCCAATGAACGGCTGGAAAAAATACGGGCGGGATTATCCATTGCCGAACTGGCGACATTATAG	MNLSPARSAPSPIADLVDDVVSCLEAGKAIRRDVGKDGRLHIDRPLPFLCLHLTGGTKNLAARDIAAAHASYLIASTIQEAAPLIEAVGTVMRQRFGAFIVLDIGELEHDILLADDSPFLPHYEVSVSATAEPETQNARRVFIKAVCDAEVRFRTPRITRPESDADPVLRFKKAGLDFPCISVRFAPIYRQPESGADYPGLRVTMIADLFDAGLQAFSSFASGKDALKVTSHRALGRKAFVDAVRRADRSVDDIVSSFDFLLSVTPINARRAFEEFRDGGFQFAPRLLYRPLGVDVEEQKRKLYSVVFDHLEDPVLYNLYREKQQEIDLQLTMLANLHHRTFTDFSRALYGAVEPALLHLALRVLADCPRREETSEIAMVDCYAVAKKSREMVETYLAEAPEFKARVEIRDDLPPGLMVTGEKLLISRHTVMEQRRVEALLSHEIGVHLLTYFNGSFQGLRLFRTGLSGYEGVQEGLAVLAEHLAGGMTRERLRLIAGRVIGCAAMLDGASFVETFRTMTRDHGFDEAGAFNMVLRIYRGGGLSKDAIYLRGLAEVLDHLRRGGALDPFWMGKIAAAHFPVMQELALRGLLRPPGVRPAFLLPAKANERLEKIRAGLSIAELATL				NA	NA	NA	NA	NA
BMS010_02405	831			hypothetical protein	ATGGCAGCCAGACAGAGCGACGACGAATACCGCGGTGACAACGACAACAAGGGTTTCTGGTCGATCGATTTCGGCAACTCACCGGTTATAGGCACGGCCATTCACGACGGTCATCGCATTAGACCGGACGTATCCGGGCTCATCGCCCTTTCCCCGGAACAGCGGCTGCGGGAGGAAGACCCTTTCACCGGTGAAATGATCGCCGGATTGACGAACCGTCTCGTCGTTCACCATTCGCGTTTCGAAATCGATCTCAACCGTGCGGCCGATCAGGCGATCTATCTGAAGCCGGAACAATCCTGGGGGCTTGAGGTCTGGAAAGAGGAGCCGGCGCAGGAGGCTATCCGGCAATCGCTCGATTTTCATGCCGACTATTATGCGATGCTGGAGACCGTGCTCTCTGCAATCGAAAGGCGGCACGGCGCCTTCGTCGTGCTGGATGTACACAGCTATAATCATCGCCGGCAGGGCGCCGCTGCGCCGCCGACGGCGCAGGCGGAGGCGCCCGATATTAATATCGGCACCTTTTCCATGGATCGCAGCCGCTGGGGCGATATCGTGAGCGCGGTCGGGCACCATTTCGCGTCAGCGACCATCGGCGGACGCCGCCTCGATGTTCGCGAGAACGTGGCGTTTCAGGGCAAAGGGGAGCAGACCCGTTTCATCCACGAAAGGTTCGCCGAAAATGGCTGCGCCATCGCAATCGAGTTCAAGAAATTCTTCATGGACGAGTGGACGGGAAAGCCGGATGCGCGTGTGGTGGCGGATATTCGCCAAGCGATAACAGCACTCCAGTCGGTGCTCGAAGAGTGCCTGAGGTCGCGGCGATGA	MAARQSDDEYRGDNDNKGFWSIDFGNSPVIGTAIHDGHRIRPDVSGLIALSPEQRLREEDPFTGEMIAGLTNRLVVHHSRFEIDLNRAADQAIYLKPEQSWGLEVWKEEPAQEAIRQSLDFHADYYAMLETVLSAIERRHGAFVVLDVHSYNHRRQGAAAPPTAQAEAPDINIGTFSMDRSRWGDIVSAVGHHFASATIGGRRLDVRENVAFQGKGEQTRFIHERFAENGCAIAIEFKKFFMDEWTGKPDARVVADIRQAITALQSVLEECLRSRR				NA	NA	NA	NA	NA
BMS010_02407	222			hypothetical protein	ATGGAAAAGACCGAAACACGCAAACTTGCGGAAGAATATTTGCGTCTCGGCGGCACGCGTCAGGTGATGATCGACGACAACAAGACCTTCGTGCGCCAATGGCAGCACGAACCGGCGGAAGCCGAACGGTTCTGGCAAACTCATATCGAAAATCTCGACGCGGACCGGCTCAAGGACGTGGAATTTTTCCTGCCCTCCATCAATTCCGACAAGGAAGACTGA	MEKTETRKLAEEYLRLGGTRQVMIDDNKTFVRQWQHEPAEAERFWQTHIENLDADRLKDVEFFLPSINSDKED				NA	NA	NA	NA	NA
BMS010_02408	561	yhbO_1	COG0693	Protein/nucleic acid deglycase 2	ATGACTGCCATCAACGCTGCAAAAATCCTCATTCTCGCAACGGACGGCTATGAGCGTTCCGAATTGCGCGTGCCCTATGACCAGCTGAAGGCCAAAGGTGCAGACGTAAAGGTCGCCTCAATCAAGGAGGGCGAGATCAAGAGCTGGGACAAGAAAGACTGGGGTGACAGCATCGCCGTCGATCTATCCGCCAAGGCCGTAAAAACTGAAGATTTTGACGCGCTGGTTCTACCCGGCGGCCAGATCAATCCGGACGTTCTGCGCCATGACGAGGATGCGATGCGGGTGGTGCGTGATTTCATCAAATCCGGCAAGGTGGTGGCCGCCATCTGCCACGCACCCTGGCTGCTTGTAGAAGCCGACGCCCTGCGTGGCCGCGACGCCACCTCCTATTGGTCGATCAAGACCGACCTCAAGAACGCCGGCGCAAACTGGAAGGATGAAAAGGTGGTGACCGACAAGGGGATCATTACCTCCCGCAGCCCTGACGATCTTGACGCCTTCGTCGCCAAGATCGTGGAAGAGGTCGAGGAAGGCCGCCACGAACGCCGCGCCGCTTAA	MTAINAAKILILATDGYERSELRVPYDQLKAKGADVKVASIKEGEIKSWDKKDWGDSIAVDLSAKAVKTEDFDALVLPGGQINPDVLRHDEDAMRVVRDFIKSGKVVAAICHAPWLLVEADALRGRDATSYWSIKTDLKNAGANWKDEKVVTDKGIITSRSPDDLDAFVAKIVEEVEEGRHERRAA	PGPT0015010_1710	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-METHYLGLYOXAL_DETOXIFICATION,PGPT0015010-yfkM|pfpI|yraA-K05520	NA	NA
BMS010_02409	441			hypothetical protein	ATGAAAAGCAGATTGCTGGCAAGCGGCGCGGAGCGCACCTTCATCCTCGTCATCGATCCCGAGGAAGAAGCCTTCGAGGCCATCAGGCGCTTTGCCAGGGCCGAGAATATCAACGCTGCCTCGGTGAGCGCGATCGGCGCCTTCGCCACGGCAACACTCGCCTTTTTCGATCTTTCGACGCAGGACTATAAGGAAATACCGGTCACCGACCAGAGCGAGGTCCTAAGCCTGCTTGGCGATATCACCCTTGACGAGAACGATACGCCCAATCCGCACCTGCATGTGGTTCTGGGCTTTGCCGATGGCTCCACCAGGGGCGGCCATTTTCTAAAAGGGGTGGTGCGGCCGACGCTGGAAGTCGTCATTCGCGAAACACCGGCGGAATTGCGGCGCAGCTATCGCCCGGAATTCGGCATCGCTCTCATCGATCCCGCGAAATAA	MKSRLLASGAERTFILVIDPEEEAFEAIRRFARAENINAASVSAIGAFATATLAFFDLSTQDYKEIPVTDQSEVLSLLGDITLDENDTPNPHLHVVLGFADGSTRGGHFLKGVVRPTLEVVIRETPAELRRSYRPEFGIALIDPAK				NA	NA	NA	NA	NA
BMS010_02410	861			hypothetical protein	ATGGTGACAGCGATCAATCGAAGAGATGCGGACGATGACGAGGTCGGGCAATTTCTGATCGGCCTCGCGCGCGGCACGGCGGGTGCATTGCTGTTTGCCCTGCCCATGCTGATGACTATGGAAATGTGGTTTCTCGGTCTTTACGTCAATTCCTGGCGGCTTCTCCTGCTCTGCATCCTCAACCTGCCGCTGCTACTTCTTCTCGCCCGCCGCATCGGCTTCGAGAATATTCACTCCTGGAACCAGGCGCTGCGCGATGCGATAACGGCCTATGGGCTGGGCATTGCTGTCAGCGCCGCCGTGCTGCTGCTGTTCGGCATTCTGAACGACCAGATCACCGCCTCCAACATCGTCGCCAAGATTGCGCTGCAATCCGTTCCAGCCAGCATCGGCGCACTGCTTGGGCGCAGCCAGCTCGGTCAGCATTCCGACGCGGAGGATGAAGAGGAGGGCGAATATTCCGGCGAGACGGGTTATCTGCACGAACTGTTCATGATGGTGGTCGGCGCGCTTTTCCTCAGCCTCAATGTTGCGCCGACGGAAGAAATGATCCTGATCGCCTATAAGGTGACGCCCTATCACATTCTGGCGCTCTGCCTGCTGTCGGTCGCCATCATGCATGGCTTTGTCTACGCGCTTCACTTCAAGGGCTCGCACCAGCTGCACGAAGGGCAGAAGTGGTGGCAATCCTTCATCCGCTTCACCCTGCCCGGCTACGTGATCGCCATCGCCATCAGCGTCTATACGCTCTGGACCTTCGAGCGCCTCGACCACACATCGCTGTCGCAGATCATGAATGCCGCCGTCATTCTCGGCGTTCCCGCCTCGATCGGCGCGGCCTCTGCCCGACTGATCCTGTGA	MVTAINRRDADDDEVGQFLIGLARGTAGALLFALPMLMTMEMWFLGLYVNSWRLLLLCILNLPLLLLLARRIGFENIHSWNQALRDAITAYGLGIAVSAAVLLLFGILNDQITASNIVAKIALQSVPASIGALLGRSQLGQHSDAEDEEEGEYSGETGYLHELFMMVVGALFLSLNVAPTEEMILIAYKVTPYHILALCLLSVAIMHGFVYALHFKGSHQLHEGQKWWQSFIRFTLPGYVIAIAISVYTLWTFERLDHTSLSQIMNAAVILGVPASIGAASARLIL				NA	NA	NA	NA	NA
BMS010_02411	411			hypothetical protein	ATGACGATATCCAAGGGCCGCAAACACACGGAAAGCCTCGAGCCCCATTGGGTGGAATGGCTGACGGGCGCCATCTGCACGCTCCTTGTCGCCGCCATGCTGGGGTGGATCGGCTATGACATCTATCGCTACAGGCCGGAGGATGCCCGCTTCGAAATCGCCGTTACCGGCGTAGAGGCGCAGGCCGGGCAATACCGGGTGCGGTTCGACATCCGCAACCTGTCCATGACGACGGCGGCGCAGGTGCAGGTGCGCGGCGACCTGCAGCAAAACGGCGCGACGCTGGAGAGCGCCGATGTGACATTCGATTACGTCGCCTCGGAGTCTCGCGATACCGGCACGCTTTTCTTCCGCAACGATCCCCGCAGCGCAACGCTCACCATCAATGTCGCCGGCTATACCGAGCCGTGA	MTISKGRKHTESLEPHWVEWLTGAICTLLVAAMLGWIGYDIYRYRPEDARFEIAVTGVEAQAGQYRVRFDIRNLSMTTAAQVQVRGDLQQNGATLESADVTFDYVASESRDTGTLFFRNDPRSATLTINVAGYTEP				NA	NA	NA	NA	NA
BMS010_02412	1227	mnmC_4		tRNA 5-methylaminomethyl-2-thiouridine biosynthesis bifunctional protein MnmC	ATGCAGACATCGGAACTGACGAAAGAACGCGACCTCAGGGATTCAAAGCCCGTGTGGGCGGATACACCGCGCATTGGCGTCCGCAGCAGGCGCACGCCGGAGGCCGGCCATTACGACACGATCGTCGTCGGCGCCGGTATCAGTGGCGCGCTGGTGTCCCACGCCCTGCAACGGACAGGTCAATCCATGTTGATCGTCGACCGGCGCGAACCGGTCATGGGCAGCAGCGTCGCCAGCACCGCGATGATCCAGCACGAAATCGACACGCCGCTGACGCAGCTTCGAAAGATGATCGGCAGGGACGCGGCTGACAGGGCATGGCAGCGTTCCGCCCGCGCCGTCCTGCGGCTGGAGGAAATCGTTTCTTCGCTCGACATCTCCTGCAGCATGAGGCGCAAACAGGCCCTTTATCTGGCTGGAGACGAAATGGGATCGCGCGCATTGAAGGCTGAAGCAGAAGCCCGCAAAGAAGCGGGCATCGAGGCCCGCCTCCTCACCGCCGCGGAACTGAGAGAGCAATACGGCTTGCACCGGACCGGGGCCATCCTCAGCGATATTTCGGCCTCCGCCAATCCCGCACAGCTGACGGCCGGCCTGCTGCGCCACACGGCGGGCGCCGGCGCCGAAATCGTCTCCCAGCTTGAGATCACCGATCTCAGGAACCTCGGCGACGAGGTTGTCCTTGCCACCGCCGGCGGCAAAATCCTTTCAGCGCGCAATGTCGTTTTCTGCACCGGCTATGAATTCCTGAAAGTGCTGGAGAGCCCGAAACACCAGATCATTTCCACCTGGGCGCTGGCGAGCCGAAAGGGGCTCGACCTACCCGACTGGCTGGAGAACCATATCGTCTGGGAGGCCTCCGATCCCTATCTCTACCTGCGCACCGACCGGGAGGGGCGGATGATCGCCGGAGGCGAGGACGAGGAAAACCCCACCGCATACCAGTCGGAGCGCAAGCTCGCCGCCAAGGCGGAGACGATCTGCCGCAAGATCGAAAAGCTTCTCGGCATCGACATGGGAAAGCCGGAATATCGCTGGGCGGCGGCCTTCGGCACGACCACCACCGGCCTGCCGCTGATTGGCGCGTTGCCCGGCATGAACAACGTCTATGCCGTGATGGGTTTCGGCGGCAACGGCATCACCTTCAGCCAGATCGCCGCTGAAATCGTGGCCGCCGCCATCGATGGCGGCAAGGACCCCGACGCCGATCTTTTCCGCTTCGGCTGA	MQTSELTKERDLRDSKPVWADTPRIGVRSRRTPEAGHYDTIVVGAGISGALVSHALQRTGQSMLIVDRREPVMGSSVASTAMIQHEIDTPLTQLRKMIGRDAADRAWQRSARAVLRLEEIVSSLDISCSMRRKQALYLAGDEMGSRALKAEAEARKEAGIEARLLTAAELREQYGLHRTGAILSDISASANPAQLTAGLLRHTAGAGAEIVSQLEITDLRNLGDEVVLATAGGKILSARNVVFCTGYEFLKVLESPKHQIISTWALASRKGLDLPDWLENHIVWEASDPYLYLRTDREGRMIAGGEDEENPTAYQSERKLAAKAETICRKIEKLLGIDMGKPEYRWAAAFGTTTTGLPLIGALPGMNNVYAVMGFGGNGITFSQIAAEIVAAAIDGGKDPDADLFRFG				NA	NA	NA	NA	NA
BMS010_02413	486	srpB_2	COG1285	Protein SrpB	GTGCCCCAGAGCCTTGCAGAAGAATTTTCCATGAATATTTCCATCCCCTTCGAGGTGCTGCTGGTGCGTGTGTTCGGCGCAGTCATCCTGTGCGGCCTGATCGGTCTGGAACGTGAGTTTCACAAGAACACCGCCGGCCTGCGCACCAACATGCTGATCGGCCTTGCCGCCGCCACCTTCTGCGTCATCACCATTCACATGATGGAGACGATGGCGGAAGGCCATGAGGCCGCGCGGCTCGATCCTATCCGGCTGGTGGAGGCCGTGACGGCGGGCATCGCCTTTCTCGCGGCGGGTGTGGTCGTTTATACGAGAGGCGATGTCAAAGGCCTGACGACGGGCGCCAGCATGTGGCTTTCGGCGGCAATCGGCCTCTCGGCCGGCCTTGGCATGTGGCCGCTTGCTCTTCTTGCTTCGGGAATGGGCATTGTCGTCCTGTGGACGCTGCGCCGCTTACAGGTGGCGGCGGGCATCAAAGAGGAATGA	MPQSLAEEFSMNISIPFEVLLVRVFGAVILCGLIGLEREFHKNTAGLRTNMLIGLAAATFCVITIHMMETMAEGHEAARLDPIRLVEAVTAGIAFLAAGVVVYTRGDVKGLTTGASMWLSAAIGLSAGLGMWPLALLASGMGIVVLWTLRRLQVAAGIKEE	PGPT0014005_2818	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014005-mgtC-K07507	NA	NA
BMS010_02414	501	yciF_1	COG3685	Protein YciF	ATGGCCGAGAAGAAACTCGACGACCTGTTTTACGATACGCTGAAGGATATCTACTACGCCGAAAGGCAGATCCTGAAAGCCCTGCCGAAAATGGCGCGGGCGGCGACCGATCCGAAGCTGAAACAGGCTTTTGAAAAACATAAGGAAGAAACCCAGGGGCACGTCGAGCGCCTGCAGGAGGTGTTCGAGATCATCGGTAAGCGGGCGCAGGGCAAGACCTGCGAAGCCATTCAGGGCATCATCGCCGAGGGCGAGGAAATCATGGAGGACTTCAAGGGCACGCCCGCCCTCGACGCCGGTCTGGTTTCCTCGGCACAGGCGGTTGAGCACTATGAGATCGCCCGTTACGGCACGCTGAAGGCATGGGCGGAAAAGCTGGGACACACGAAAGCGGTTTCGTTGCTGGATGCCACGCTCAAGGAAGAAGCGAAAACCGATGATGCGCTGACCGCGCTCGCCAAAACTTCGGTCAACGCCGCCGCCGAGAAAAAAGCGGCTTGA	MAEKKLDDLFYDTLKDIYYAERQILKALPKMARAATDPKLKQAFEKHKEETQGHVERLQEVFEIIGKRAQGKTCEAIQGIIAEGEEIMEDFKGTPALDAGLVSSAQAVEHYEIARYGTLKAWAEKLGHTKAVSLLDATLKEEAKTDDALTALAKTSVNAAAEKKAA	PGPT0013240_11	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013240-katN|ctjC|ydbD|yjqC-K07217	NA	NA
BMS010_02415	2337	gcd_1	COG4993	Quinoprotein glucose dehydrogenase	ATGGCAGTCACCGTCACTGCAGTTGTTCTCACGCTGATCGGTCTTGCGCTGTTCGGTTTCGGCTCTCAGCTCGTCATGCTGGGCGGGAGCTTCTATTATGTACTTTCCGGCCTGGCGTTTCTGTTGACGGCCGTTCTGCTGTTCAAGCGCAATCGTGCAGCCCTTCACGTCTATGCCGTCTTCATTGTCGCGACGCTCGCCTGGGCCATATGGGAAGTCGGCTTCGACTGGTGGCAGCTTGGCCCGCGCGGCGGCGTCATCATTCTCATCGGCCTCTGGCTTCTGGTTCCCTGGGTAAGAAAGCCGCTCGGTTTTTCGAGTCCGACCGGGCTTAGCTACGGGCCGAATGCCTGGCCGCTTGCGCTGTCCGTCCTCGCCTCGATCGTCGTCGCCGGATATTCCATGGCGCAGGATCCGCACGATACGGCAGGTTCCCTGCCTCAGGAAACGGCCTCGGCCACGCCCGCCTATGGCGGCAATGTGCCTGACGGTGACTGGCATCAATATGGCCGCACGCCCTATGGCCAGCGTTATTCGCCGCTCACCCAGGTCAATGTCGACAATGTCTCGCAGCTCAAGGAAGCCTGGCGTTACCAGACGGGCGATGTGAAGCTGCCCGATGATGTGGGGGAAACCACCTATCAGGTGACGCCGCTGAAGATCGGGAACACGCTTTATATCTGCACGCCGCATAATTGGGCGATTGCCATCGATGCCGCCACCGGCAAGGAAAAATGGAAATACGACCCCAATGTCGGTCTCAATCCGGATCGCCAGCACCAGACATGCCGCGGCGTTTCCTATTATGCCGAGCCGAATGCCGCGCAGGGCACGGCCTGCGCAGAGCGCGTCTACCTGCCGACCTCGGATGCGCGGCTGATCGCGCTTGACGCCGCCACCGGTCAGGTCTGCACGTCCTTTGCCGATCAGGGTGTGCTGCATCTCGAGCAGGGCATGAAATACAATCCCGCCGGTTATTATTATTCGACCTCGCCGCCCGTCATCGTGGCGGGCAAGATCATCATCGGCGGCGCGGTGAACGACAACTATTCCACGCAGGAACAGTCCGGCGTCATCCGCGCTTTCGATGTGAACAGCGGCGCGCTCGTCTGGAACTGGGATTCCGGCAACCCGGCGAAAACCGAACCGATTGCGGCGGGTGAAACCTACACCACCAATTCGCCCAACAGCTGGTCGGTCTTCAGTTACGACGAAGGCCTTGGCCTCGTTTATATCCCGCTCGGCAATCAGGTGCCGGATCAGCTCGGCATGGGCCGCAGCGAGAATGTGGAGAAATATTCCTCCTCCATCGTCGCGCTGGATATAAACACCGGCAAGGATCGCTGGGTGCGCCAGACGGTTCATCACGATCTCTGGGACATGGACGTGCCGGCCCAGCCGGTGCTGCTCGACATCACCAAGGACGGCCAGACCGTGCCGGCTCTCGTCGGCCCCACCAAGCAGGGCGATATCTACGTTCTCGACCGGCGCACCGGCGAGCCGCTTCTGCCTATCACCGAAGAGCCCGCGCCGGGCGGCGCCATACCGGAGGACTTCACCTCCCCGACGCAGCCGACGACGGCCCTGTCCTTCAAGCCGGAGCCATTGCAGGAAAAGGACATGTGGGGCGTCTCCATGTTCGATCAGCTCGCCTGCCGCATCCGCTTCCATCAGCTGAACTACAAGGGTCGCTACACGCCGCCTTCGCTGACCGGCTCGATCATCTATCCCGGCAATTTCGGCACCTTCAACTGGGGCAGCGTGGCGGTCGATCCCGAGCGTCAGGTCATGTTCGGCATGCCGACCTATCTCGCCTTCACCTCGCAGCTCGTGCCGCGCGCCGACATTCCGCCGAAGGGTCAGGACGAAAAGGGTAGCGAACAGGGCCTCAACCGCAATGACGGCGCACCCTATGGCGTGTTCATGGGTCCGTTCCTCGGTCCGTTGCAGATTCCCTGCCAGGCCCCGCCATGGGGTTATGTCGCGGGTGCTGATCTGCGCACCGGCGATATCGCTTACAAGCACAAGAACGGCACGGTCCATGACATGACGCCGCTGCCGCTGCCCTTCAAGGTGGGTGTGCCGGGCATTGGCGGGCCGATGATCACCAAGGGCGGCGTCGCCTTCCTCGGTGCTGCCGTCGACAACTACCTGCGCGCCTATGATCTGACCACCGGCAGGCAGCTTTGGGAAGCGCGCCTGCCGGCCGGCGGTCAGGCAACGCCGATGACCTATGCGCTGGATGGCGGCAAGCAATATGTGGTGATGGTTGCGGGTGGCCACGGCTCCGTCGGAACCAAACCGGGCGACTATGTGATCGCCTATACCCTGCCGTAA	MAVTVTAVVLTLIGLALFGFGSQLVMLGGSFYYVLSGLAFLLTAVLLFKRNRAALHVYAVFIVATLAWAIWEVGFDWWQLGPRGGVIILIGLWLLVPWVRKPLGFSSPTGLSYGPNAWPLALSVLASIVVAGYSMAQDPHDTAGSLPQETASATPAYGGNVPDGDWHQYGRTPYGQRYSPLTQVNVDNVSQLKEAWRYQTGDVKLPDDVGETTYQVTPLKIGNTLYICTPHNWAIAIDAATGKEKWKYDPNVGLNPDRQHQTCRGVSYYAEPNAAQGTACAERVYLPTSDARLIALDAATGQVCTSFADQGVLHLEQGMKYNPAGYYYSTSPPVIVAGKIIIGGAVNDNYSTQEQSGVIRAFDVNSGALVWNWDSGNPAKTEPIAAGETYTTNSPNSWSVFSYDEGLGLVYIPLGNQVPDQLGMGRSENVEKYSSSIVALDINTGKDRWVRQTVHHDLWDMDVPAQPVLLDITKDGQTVPALVGPTKQGDIYVLDRRTGEPLLPITEEPAPGGAIPEDFTSPTQPTTALSFKPEPLQEKDMWGVSMFDQLACRIRFHQLNYKGRYTPPSLTGSIIYPGNFGTFNWGSVAVDPERQVMFGMPTYLAFTSQLVPRADIPPKGQDEKGSEQGLNRNDGAPYGVFMGPFLGPLQIPCQAPPWGYVAGADLRTGDIAYKHKNGTVHDMTPLPLPFKVGVPGIGGPMITKGGVAFLGAAVDNYLRAYDLTTGRQLWEARLPAGGQATPMTYALDGGKQYVVMVAGGHGSVGTKPGDYVIAYTLP	PGPT0001290_885	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION_D_GLUCONATE_BIOSYNTHESIS,PGPT0001290-gcd|gdhAB-K00117	NA	NA
BMS010_02416	342			hypothetical protein	ATGGCCAGAGAAAATACCAGCTATCTCGACGGTCGGGATGCGCCGAAAAGCGAAACAGCAACGCGCGCGCGGCAGGGATCGCGCGGACGTCCCGTGCTTGTCATTCTGATCGTCAGCGTGCTTCTTGCATTGGTGGTTTGGGCCGTTGTCGAATATTCGGTTTTCGAACCCGACGAGAACCTGCCGCAAAACCCGCAGACCGAGACTGCACCCGTGCCGCAGCAGCCGTCGGGCTCCGGAAGCTTCGACAACAATCCGGCGAATGGCCGCCCCCAGCCGCCGTCATCGACAGAGACAAATCCCACGCCGCAGGATTCGACCGGCGCGCCGCAGAACCCGTGA	MARENTSYLDGRDAPKSETATRARQGSRGRPVLVILIVSVLLALVVWAVVEYSVFEPDENLPQNPQTETAPVPQQPSGSGSFDNNPANGRPQPPSSTETNPTPQDSTGAPQNP				NA	NA	NA	NA	NA
BMS010_02417	786	bdhA_2		D-beta-hydroxybutyrate dehydrogenase	ATGGAGGATCAACCGAAAACCGTGCTTGTCACGGGTTCCACCAGCGGCATCGGGCTTGCCATCGCCAAGCGTTTCGCCGAGGCGGGGTATCTGGTCGGGGTGCATGGCATAGAGACGGCGGAGGAGGCGACGCAGGCGCTGGAGGCGGTCGCGAAGGTGGCGCGGCACAGGCCGGTCTATTTTGCCGCCAACCTCGCCAATTATGATGAAAGCGCGCATCTCCCGGAGACCGTCATCGCCGAATTCGGTCATATCGACGTCCTCGTCAACAATGCCGGCATTCAGAAGGTCGCGCCGATCGATGCGTTCGGTTTCGCCGATTTCTCCCGTATCGTCGCCATCTCGCTCGACAGCGCGTTTCACACCATCCATGCGGCCCTGCCGGGCATGAAGGAAAGGGGTTGGGGCCGCATCGTCAACATCGCTTCCGCGCACGGCCTGCGCGCCTCGCCCTTCAAGGGGCCTTATGTCGCGACCAAACATGCGGTGGTGGGGTTGACGAAAAGCGTGGCGCTGGAAGTGGCCGAACTCGGCATCACCTGCAACGCCATCTGCCCCGGTTATGTCTGGACGCCGCTCGTCGCCGCCCAGGTCGCCGATCAGGCGCGCGTGCATGGCATGAGCGAGGAGGATGTGGTGAAGAAGGTGATGCTTGCGCCGCAGCCGACCAGACGGTTCGTGCAACCGGAAGAAGTGGCGGAAATGGCGCTTTATCTCGCGGGCGACATGGCCCGCTCCATCACCGGCACCACCATCTCGATCGATGGCGGCTGGACCGCGAAATAA	MEDQPKTVLVTGSTSGIGLAIAKRFAEAGYLVGVHGIETAEEATQALEAVAKVARHRPVYFAANLANYDESAHLPETVIAEFGHIDVLVNNAGIQKVAPIDAFGFADFSRIVAISLDSAFHTIHAALPGMKERGWGRIVNIASAHGLRASPFKGPYVATKHAVVGLTKSVALEVAELGITCNAICPGYVWTPLVAAQVADQARVHGMSEEDVVKKVMLAPQPTRRFVQPEEVAEMALYLAGDMARSITGTTISIDGGWTAK	PGPT0008310_1347	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008310-bdh-K00019	NA	NA
BMS010_02418	1956	acs_2	COG0365	Acetyl-coenzyme A synthetase	ATGACGGACGCCGCGCCATCCGACATCTTATGGGTGCCGCCGGAGAAGAGGCTGGAACGCTCGGCGCTTTTCGCCTTCGCGACGAAAACGGCAAAGCTGCACGGGCAGGCCGCCGATGACTATGCCGGCCTGCTGCGCTGGTCCATCAACGCGCCGGATGAATTCTACAATGAACTGTGGGACGAACTCGGCATTATCGGCACGCGCGGCGATACGGCATTCAAGCCCGGCAAGACCATACGGGAGGCCGAGTTCTATCCGGGTGCAAGGCTCAATTACGCCGAAAACCTGCTGCGCGATGCCGACGCGCGGCTGGCCATCATCGCCCATCGCGACGATGGCACACGGCGTGAAATTAGCCGCAGAGAGCTTTACGACGAGGTGTCCCGCATGGTGCAGGCGCTTGCTGATGCGGGTGTGAGCGAAGGCGACCGCGTCGGGGCCATCGTCACCCATGATATTGAGGCGATCGTGAGTTATCTGGCCGCGAGCGCCATCGGCGCGATCTGGTCGTCCTGCTCGCCGGATTTCGGGCCGGCGGGCGCCTCCGACCGCCTGTCGCAGATCGGTCCGAAAATCCTCATCGCCGTGCCGGAATATGGTTATGCCGGCAAGCGCATCGATGTCGGCCCGACCATCCGCGCCGTCGCGGAAAGTGCGACGCCTGAGAAGATCGTGCTGATCGGCGACGCCGTGCCCGAAAGCCTTGCCGATCTCGGCTGCGTGACGCTTACGGATTTCGTCGCGCCTTATGCGGCGGGCGAGATTGCCTTCAACCGTCTGCCCGTCAAGGCGCCGCTGGCGATCCTTTATTCGTCCGGCACCACCGGCAAGCCGAAATGCATCACCCATTCCGGCGGCGGTTTGCTTCTTCAGCACATGAAGGAGCTGAAGCTGCAATGCGATATTCAGGAAGGGGAGCGCTTCTTCTATTTCACCACCTGCGGCTGGATGATGTGGAACTGGCAGGTCTCCGGTCTGGCGCTCGGCGCTACGCTCGTCACCTATGACGGCAATCCCGGTTATCCCAACCCTGCGCGGCTAATCGACCTCATCGACGCCGAACGGATCGCCACTTTCGGCACGTCGGCGAAGTTTATCGACGCCTGCCTGAAGGCCGGGCTGAAGCCGCGTGAAAGCCACGATCTTTCATCGCTGCGGACCATTCTTTCCACCGGCTCGCCGCTCATCCCGCAATCCTTCGATTATATCTATCGCGACTGGAAAGCCGATGTGCACCTCGCCTCCATTTCCGGCGGCACGGATATCTGCGCCTGTTTCCTTGGCGGCAACCCTTTGCAGCCGGTGCATCGCGGTGAATTGCAGGGTGCGATGCTCGGCATGGATATCGACACGCTGGACGATGAGGGCCGTTCCGTTCGCGGCGTCGCCGGCGAACTCGTCTGCCGCAATGCGCATCTGTCCATGCCGGTGAAGTTCTGGGGCGATGAGGACGGTTCGCGCTATCAGGCCGCCTATTTCGACCGGTTCCCCGGCATCTGGGCGCATGGCGATTTCGCCGAAATGCGCCCCTCCGGCGGCTATGTCATCCATGGGCGTTCGGATACGACGCTCAATCCCGGCGGGGTGCGCATCGGGACTGCGGAAATCTACCGCCAGGTGGAAACCGTGCCCGAAGTCGAAGAGGCCATTGCCGTGGGGCAGGATATCGACGGCGACCAGCGGGTCATCCTCTTCCTGCGCATGAAGGGCGGCGCAGCGCTGACGGAAGAGCTGGAAAAGACTATCCGCAGCCGCATCCGTTCGGGCGCCACGCCGCGGCATGTGCCGGCAAGGATCATTGCCGTCAGCGCCATTCCCCGCACCCGTTCCGGCAAGATTTCCGAAATCGCGGTGCGCGACACGATTCATGGCCGGCCGGTGAAGAATGCCGATGCGCTCGCCAATCCCGAAGCGCTTGAACTTTTCCGCAACCTGCCGCAGCTGAAGGACTAG	MTDAAPSDILWVPPEKRLERSALFAFATKTAKLHGQAADDYAGLLRWSINAPDEFYNELWDELGIIGTRGDTAFKPGKTIREAEFYPGARLNYAENLLRDADARLAIIAHRDDGTRREISRRELYDEVSRMVQALADAGVSEGDRVGAIVTHDIEAIVSYLAASAIGAIWSSCSPDFGPAGASDRLSQIGPKILIAVPEYGYAGKRIDVGPTIRAVAESATPEKIVLIGDAVPESLADLGCVTLTDFVAPYAAGEIAFNRLPVKAPLAILYSSGTTGKPKCITHSGGGLLLQHMKELKLQCDIQEGERFFYFTTCGWMMWNWQVSGLALGATLVTYDGNPGYPNPARLIDLIDAERIATFGTSAKFIDACLKAGLKPRESHDLSSLRTILSTGSPLIPQSFDYIYRDWKADVHLASISGGTDICACFLGGNPLQPVHRGELQGAMLGMDIDTLDDEGRSVRGVAGELVCRNAHLSMPVKFWGDEDGSRYQAAYFDRFPGIWAHGDFAEMRPSGGYVIHGRSDTTLNPGGVRIGTAEIYRQVETVPEVEEAIAVGQDIDGDQRVILFLRMKGGAALTEELEKTIRSRIRSGATPRHVPARIIAVSAIPRTRSGKISEIAVRDTIHGRPVKNADALANPEALELFRNLPQLKD				NA	NA	NA	NA	NA
BMS010_02419	885	mmsB	COG2084	putative 3-hydroxyisobutyrate dehydrogenase	ATGAAGACCGTCGCTTTTATCGGGCTGGGACATATGGGCCTGCCCATGGCCGCCAATCTCGTCAAGGCCGGATATGCCGTCAGGGGTCACGATCTTTCCGAAGCCTGCCGCGCGGCGGCGAGAGAGGCCGGTGTTCCCGTTGCTGCGGGTTCTGCCGAGGCTATCGAAGCCGCTGACGTCATCATCACCATGCTGCCGAAGGGCGAACATGTCGTTTCGGTCTATGGCGATCTGGTTCGGAAAATCCCTGCCGGAACGCTTCTCATCGACTGCTCGACGGTGGATATGGAAAGCGCACTTAAGGCGCATGATCTGGCCGCTTCCGCCGGTTGCCCCTCGGTCGATGCGCCCGTATCGGGCGGAACGGGCGGGGCTGCCGCCGGCACCCTGACCTTCATGTGCGGCGGCGAGGCTGCGGCCTTCTCTGCGGCAAAGCCGGTGCTGGAGGCGATGGGCAAGAAAATCGTGCATTGCGGCAAGGGCGGTAACGGCCAGGCGGCCAAGATCTGCAACAACATGATCCTCGGCATTTCTATGATCGCCGTTTCGGAAGCTTTTGTTCTGGGCGAAAAACTCGGCCTCTCACATCAGGCGCTGTTCGACGTCGCCTCCACCTCTTCCGGGCAATGCTGGTCGCTCACCACCTATTGCCCGGTGCCGGGACCGGTGCCGACATCGCCCGCCAACAAGGATTACCAGCCCGGATTTGCGGCGGCCCTGATGCTGAAGGATCTGAAGCTTTCGCAGGAGGCCGCCAATGGAGCCGGGGCTTCCACCCCGCTCGGTGCGGCGGCGGCGGCGCTTTACGAGAACTTCGTCGATGAGGGGAGCGGCGGGCGCGATTTTTCCGCCATTGTCGAAATGCTGCGCGGGAGCGAAGCATGA	MKTVAFIGLGHMGLPMAANLVKAGYAVRGHDLSEACRAAAREAGVPVAAGSAEAIEAADVIITMLPKGEHVVSVYGDLVRKIPAGTLLIDCSTVDMESALKAHDLAASAGCPSVDAPVSGGTGGAAAGTLTFMCGGEAAAFSAAKPVLEAMGKKIVHCGKGGNGQAAKICNNMILGISMIAVSEAFVLGEKLGLSHQALFDVASTSSGQCWSLTTYCPVPGPVPTSPANKDYQPGFAAALMLKDLKLSQEAANGAGASTPLGAAAAALYENFVDEGSGGRDFSAIVEMLRGSEA				NA	NA	NA	NA	NA
BMS010_02420	1596	alkJ_1		Alcohol dehydrogenase [acceptor]	ATGGGCGAATATGACTATATCGTCATCGGAGCGGGAAGTGCCGGATGCGTTCTCGCCAACCGCCTTTCGAAAGATCCGAACAACCGCGTGCTGCTGCTGGAAGCGGGCGGCAACGATAATTACCACTGGATCCATATTCCAGTCGGTTATCTCTATTGCATCAACAATCCGCGCACCGACTGGTGTTTCAAGACGGCGGAAGAGCCGGGGCTCAACGGCCGCTCGCTGATCTATCCGCGCGGCAAGGTTCTTGGCGGCTGCTCCTCCATCAACGGCATGATCTATATGCGCGGCCAGGCGCGGGACTACGACGTCTGGCGTCAACTCGGCTGCGAGGGCTGGGGGTGGAACGACATCCTGCCCTATTTCCTGAAATCGGAAGACTTTTATCGGGGAAAAAGCGATCTGCACTCCGCCGGCGGCGAGTGGCGCGTGGAAAAGGCCCGTGTGCGCTGGGATGTGCTGGATGCTTTCCAGAAGGCGGCGGGCGAAGCCGGCATTCCCGCAACCGACGATTTCAACCGGGGCGACAATGAGGGGGCCGGTTATTTCGATGTGAACCAGCGCTCCGGCTGGCGCTGGAATACGGCCAAGGCATTTCTGAAGCCGGCGCTTGGCCGCAAGAACCTGACGGTTCTGACCAAGGCCCATGTCAAGCGTCTCATCATCGAAGAAGGCCATGTTACGGGGGTGGAGTTCCAGCATGACGGCGTCTTGAAAAAGATGCGGGCGCGGCGCGAGACGGTGCTGTCCGCCGGTGCCATCGGCTCGCCGCATGTTCTGGAGCTTTCCGGCGTCGGCCGTGGTGATGTGTTGCAGGCCGCGGGCATCGACACAGTAGCGGAGGTTCAGGGTGTGGGCGAGAACCTGCAGGACCATCTGCAACTGCGCATGGTCTACAAGGTCTCCGGTGTCCTGACGCTGAATGAAAGGGCCTCCACCCTGTTCGGCAAGGCGCGGATCGGCCTCGAATATGCGCTGACGCGCTCCGGGCCGATGTCTATGGCGCCGAGCCAGCTCGGTGTTTTCACCCGTTCTTCACCCGAGAAGGAAACCGCCGATCTGGAATATCATGTCCAGCCGGTTTCACTCGACAAGTTCGGCGATCCGGTTCACACTTTTCCGGCCATTACCGCAAGTGTCTGCAATCTGCGGCCGGAAAGCCGGGGCTCAGTGCATGTGAAAGGACCGGATTTCGCCATGCAGCCGGAAATCCGCCCGAACTATCTTTCCACCGAAGGCGACCGCCAGGTGGCCATCGACGCCATGCGGCTGACGCGCCGCATCGTCGCCCAACCGGCCTTCGCGCGCTTCAAGCCGCAGGAATACAAGCCGGGTCCCTCCTTCGAAAACGACAATGATCTTGCCAAGGCGGCGGGCGATATCGGCACCACCATCTTCCACCCCGTCGGCACGCTGCGCATGGGGTCGGATATGGAAAGCGTGGTCGATGCGCGGCTGAAATTCCGCCGGCTCGCCGGGCTGCGCGTCGCCGACGCATCGGTGATGCCGCGCATCACATCCGGAAATACCAATTCCCCGACGATCATGATTGCCGAAAAGGCCGCCGACATGATCCTTGCGGATAATCGCTGA	MGEYDYIVIGAGSAGCVLANRLSKDPNNRVLLLEAGGNDNYHWIHIPVGYLYCINNPRTDWCFKTAEEPGLNGRSLIYPRGKVLGGCSSINGMIYMRGQARDYDVWRQLGCEGWGWNDILPYFLKSEDFYRGKSDLHSAGGEWRVEKARVRWDVLDAFQKAAGEAGIPATDDFNRGDNEGAGYFDVNQRSGWRWNTAKAFLKPALGRKNLTVLTKAHVKRLIIEEGHVTGVEFQHDGVLKKMRARRETVLSAGAIGSPHVLELSGVGRGDVLQAAGIDTVAEVQGVGENLQDHLQLRMVYKVSGVLTLNERASTLFGKARIGLEYALTRSGPMSMAPSQLGVFTRSSPEKETADLEYHVQPVSLDKFGDPVHTFPAITASVCNLRPESRGSVHVKGPDFAMQPEIRPNYLSTEGDRQVAIDAMRLTRRIVAQPAFARFKPQEYKPGPSFENDNDLAKAAGDIGTTIFHPVGTLRMGSDMESVVDARLKFRRLAGLRVADASVMPRITSGNTNSPTIMIAEKAADMILADNR	PGPT0013615_3867	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013615-betA|CHDH-K00108	NA	NA
BMS010_02421	1008			hypothetical protein	ATGTCCAAAGCCACCCATAGCCCCACCGCCGGAGCAATGCCGCAGACCGAGGTTTCGACGACTGCCGGCACCATCAAGACCGTGCTTATTCTTGCAGGGCTTGCCGTGCTCATCGCCGCACCGATGTTCGTTTATCCGATCTTTCTGATGAAGCTGCTGTGCTTTGCGCTGTTTGCCTGCGCCTTCAACCTCCTGATCGGTTATACGGGCCTTCTGTCCTTCGGCCATGCGGCGTTTTTCGGCGGTGCAGCCTATTTCACCGCCTATTCGGTGAAGGAATGGGGCGTGACGCCCGAGATCGGCCTTGTCATCGGCATGGCGGGTGCGGCGCTGCTCGGTCTGGTCATCGGCTTCTTCGCCATTCGCCGCCAGGGCATCTATTTCGCCATGATTACGCTCGCGCTGTCGCAGATGTTTTATTTCTTCTGCCTTCAGGCGCCCTTCACCCATGGTGAGGATGGCTTGCAGGGCGTGCCGCGCGGCCATCTCTTCGGCCTTCTCGACCTCAATGCGCCACTCAATATCTATTATACGGTGCTTGTCGCCTTTGTGCTCGCACTTCTGGTCATCTGGCGTTTCGTCAACTCGCCCTTCGGCATGATCCTGAAATCCATCCGCGAAAACGAGCAGCGCGCCATTTCGCTGGGCTATAGCGTCCAGCGCTACAAGCTCGGTGCTTTCGTCATGTCGGCGACGCTGGCCGGTCTTGCGGGTGGCCTGAAAGCGCTGGTCTTCCAGTTTGCGACGCTCACCGACGTCACCTGGCAGATGTCGGGCGAAGTGATCCTGATGACCCTGCTCGGCGGTATCGGCACCATGATTGGCCCGATCTTCGGTGCGGGTCTCGTCGTCACCCTGCAGAACTATCTCGCGACGTCCGATTTCCCGGTCACCATCATCACCGGTCTCGTGTTCATGGCCTGCGTTCTGGTGTTCCGGCGTGGTTTGATCGGCGAATTTTACGCGTCGCGGCTCGGGAGAAAACTCGGCTTTCAGCACCGCAGCTAG	MSKATHSPTAGAMPQTEVSTTAGTIKTVLILAGLAVLIAAPMFVYPIFLMKLLCFALFACAFNLLIGYTGLLSFGHAAFFGGAAYFTAYSVKEWGVTPEIGLVIGMAGAALLGLVIGFFAIRRQGIYFAMITLALSQMFYFFCLQAPFTHGEDGLQGVPRGHLFGLLDLNAPLNIYYTVLVAFVLALLVIWRFVNSPFGMILKSIRENEQRAISLGYSVQRYKLGAFVMSATLAGLAGGLKALVFQFATLTDVTWQMSGEVILMTLLGGIGTMIGPIFGAGLVVTLQNYLATSDFPVTIITGLVFMACVLVFRRGLIGEFYASRLGRKLGFQHRS	PGPT0020775_6505	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020775-livM-K01998	NA	NA
BMS010_02422	888	livH_2	COG0559	High-affinity branched-chain amino acid transport system permease protein LivH	ATGACGATGATCTTCGGCGTTCCAATTCAGGCACTGCTCGGGCAATTGCTGGTGGGCCTTATCAACGGGTCGTTTTATGCGCTGCTGTCGCTTGGCCTTGCCGTCATTTTCGGCCTGCTGCGCGTCATCAATTTTGCCCATGGCGCGCAATATATGCTCGGCGCTTTCGTCGCCTTCCTCGGCCTGCAATATTTCGGCATCAATTTCTGGGTGGCGCTCATCGTCACACCTTTCGTCGTGGCGCTGTTCGGTGCGATTGTCGAACGCTTCCTGCTGTCGCGGCTTTACGATCTCGATCCGCTTTATGGGCTACTCTTCACCTTCGGTCTCGCGCTGGTGGTGGAAGGCACGTTCCGCTGGCTTTATGGCGCTGCTGGCCAGCCCTATTCCGTTCCGCCGCAGCTTGCCGGCGGCACCAATCTCGGCTTCATGTTCCTGCCGAATTACCGCGCTTTTGTCGTCGTCATTTCGCTCATCGTCTGCATCGCCACCTGGGCGTTGATCGAAAAGACGCGGCTTGGCTCCTATCTGCGCGCTGCGACGGAAAACCCGACGCTGGTGCAGGCTTTCGGCATCAACGTGCCTGTTCTCCTGACGCTGACCTACGCGCTGGGTGCCGGCCTTGCCGGTTTCACCGGGGTTCTCGCCGCGCCGATCTATCAGGTCTCGCCGCTGATGGGCACGAACCTCATCATCGTCGTCTTTGCCGTGGTCGTGGTCGGCGGCATGGGTTCGATCATGGGGGCCATCGTCACCGGCTATATGCTCGGCATTGCCGAAGGGCTGACGAAGGTGTTCTACCCGGAGGCCTCCAACATCGTCATCTTCGTCATCATGGCCTTTGTGCTGCTCATCCGCCCCGCCGGACTTTTCGGAAAGGACGCCTGA	MTMIFGVPIQALLGQLLVGLINGSFYALLSLGLAVIFGLLRVINFAHGAQYMLGAFVAFLGLQYFGINFWVALIVTPFVVALFGAIVERFLLSRLYDLDPLYGLLFTFGLALVVEGTFRWLYGAAGQPYSVPPQLAGGTNLGFMFLPNYRAFVVVISLIVCIATWALIEKTRLGSYLRAATENPTLVQAFGINVPVLLTLTYALGAGLAGFTGVLAAPIYQVSPLMGTNLIIVVFAVVVVGGMGSIMGAIVTGYMLGIAEGLTKVFYPEASNIVIFVIMAFVLLIRPAGLFGKDA	PGPT0020770_5299	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020770-livH-K01997	NA	NA
BMS010_02423	702	livF_1	COG0410	High-affinity branched-chain amino acid transport ATP-binding protein LivF	ATGGCGGCAATGCTCGAAGTCTCCAACCTGAAATCCTGGTATGGCGAAAGCCAGGCGCTGCACGGTGTCGACCTCACCGTCGGCGAGGGCGAAACCATAACCATTCTCGGCCGCAACGGTGTGGGCAAGACCACGACGCTGCGCACCATCATGGGCATTATCCGCAACCGCAAGGGCGTCATCAAGCTGGGCGGCAAGGATCTGATGCCGGTGCCGCTGCATCGCACGGCGAAATACGGCCTTGGTTTCGTGCCGGAAGAGCGCGGCATCTTCGCGACGCTGAGCGTCGAGGAGAACCTGAAGCTGCCGCCCGTCGTCGCATCCGGCGGCATGACGCTCGATGAGATATACGAGCTGTTTCCCAATCTTTACGAACGCCGCACCAGCCCCGGCACCAAGCTTTCCGGCGGCGAGCAGCAGATGCTGGCCATGGCGCGCATCCTGCGCACCGGGGTCAAGGTGCTGCTGCTTGACGAACCGACCGAAGGGCTTGCCCCGGTTATTGTGCAGCGCATTGGCGAGGTGCTGCAGAAACTGAAGAGCCGCGGCATGACCGTTGTTCTGGTCGAACAGAATTTCCGTTTTGCCAGCCGTATCGCCGACCGTTTCTACCTGATGGATCACGGCCAGATGGTCAGCAATTTTCCGGTCAGCGAGCTTTCCGGCCGCATGGGCGAGCTCAACAAGGTGCTGGGGGTTTAA	MAAMLEVSNLKSWYGESQALHGVDLTVGEGETITILGRNGVGKTTTLRTIMGIIRNRKGVIKLGGKDLMPVPLHRTAKYGLGFVPEERGIFATLSVEENLKLPPVVASGGMTLDEIYELFPNLYERRTSPGTKLSGGEQQMLAMARILRTGVKVLLLDEPTEGLAPVIVQRIGEVLQKLKSRGMTVVLVEQNFRFASRIADRFYLMDHGQMVSNFPVSELSGRMGELNKVLGV	PGPT0020785_8576	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020785-livF-K01996	NA	NA
BMS010_02424	786	lptB_2	COG1137	Lipopolysaccharide export system ATP-binding protein LptB	ATGACGATCGCTCCCGCCCTTGCCGGGCAGGCCGAACCCCGCGTCGTTCTTTCGGCGCGCGGTCTCTCCAAGACCTTCGGCGCATTCGCGGCCGTGAAAAACGTCGATCTCGACGTCCACCATGCCCGCGTGCATGCGCTTATCGGTCCGAACGGCGCCGGCAAAACCACGGTCTTCAACCTGTTGACCAAGTTTCTCCAGCCGACAGGCGGGGCGATCACCTTCATGGGAACGGACATAACAAGGACGCCGCCGGACAAGGTGGCGCGTCTCGGCCTCGTCAGGTCTTTCCAGATATCGGCGGTGTTTCCGCATCTGACGGTTCTGGAAAACGTGCGGGTGGCGTTGCAGCGGCCGAACAGCCTTGCAACGCAGTTCTGGCTGCCGCTCTCCTCGCTCGACAGGCTGAACGCCCGCGCCGAGGAGCTGATCGCCATGGTCGGCCTGACACGGGAAAAACATGCGCTTGCGGCTGATCTTTCTTACGGCCGCAAGCGGGTTCTCGAAATCGCCACCACGCTGGCGCTCGATCCGAAGGTTCTGCTGCTGGATGAACCGATGGCCGGCATGGGCGGCGAGGATGTCGCCCACGTCGCCGAACTCATCCGCGAGGTGGCAAAGACACGCGCGGTGCTGATGGTCGAACATAATCTGAAAGTCGTGGCCGATATCTGCCACCACGTTACGGTCTTGCAACGCGGTGAAATTCTGGCGGAGGGCGATTATGCCACCGTTGCCGCCGATCCGCGCGTGCGCACGGCCTATATGGGCACGGAGGAGGCTTGA	MTIAPALAGQAEPRVVLSARGLSKTFGAFAAVKNVDLDVHHARVHALIGPNGAGKTTVFNLLTKFLQPTGGAITFMGTDITRTPPDKVARLGLVRSFQISAVFPHLTVLENVRVALQRPNSLATQFWLPLSSLDRLNARAEELIAMVGLTREKHALAADLSYGRKRVLEIATTLALDPKVLLLDEPMAGMGGEDVAHVAELIREVAKTRAVLMVEHNLKVVADICHHVTVLQRGEILAEGDYATVAADPRVRTAYMGTEEA	PGPT0020780_3976	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020780-livG-K01995	NA	NA
BMS010_02425	1209			hypothetical protein	ATGCGCAAGAGTATCGTTTTATCCACGGCCATGGCGCTGGCCGCTGGCACCGCCGCTTATGCCGCCGAGATTTCGGACGGCAAGGTCAAGATCGGCATCTTGAACGACCAGTCGGGCGTCTACGCCAATTTCGGCGGCAAATACTCTTATGAAGCCGCGAAGATGGCGGTCGAGGATTTCGGCGGCAAGGTGCTGGACGCGCCAGTGGAAGTGGTGACCGCCGACCACCAGAACAAGGCGGACGTCGCCTCCAATATCGCCCGCCAATGGTACGATACCGAACAGGTCGATTCGATCATGGAACTGACCTCGTCGTCGGTCGGCCTTGCCGTGCAGGCGCTGTCGAAGGACAAGAAGAAGATCACCATCAATACGGGCGCGGCAACCACCGAGCTGACCGGCAAGCAGTGCAGCCCCTATGGTTTCCACTGGGCCTATGACACCTATTCGCTGGCGGTCGGCACCGGCGGGGCGCTCGTCAAGCAGGGCGGCGACAGCTGGTTCTTCCTGACCGCCGACTATGCCTTCGGTTATTCGCTGGAAGAAAATACGTCGAATTTCGTCAAGTCCAATGGCGGTAAGGTTCTGGGTTCCGTGCGCCATCCGCTTGCCACGACGGACTATTCCTCCTTCCTGCTGCAGGCGCAGTCCTCGGGCGCGAAGGTCATCGGCCTTGCCAATGCCGGTCTCGATACCTCCAACGCCATCAAGCAGGCGGCCGAATTCGGCATCGTCGCCGGCGGCCAGCGGCTTGCGGCGCTTCTCTTCACGCTTGCAGAAGTCCACGGCCTCGGTCTCGAAGCGGCTCAAGGGTTGACGCTGACGGAAGGTTTTTATTGGGACCGCGACGATGAATCGCGCAAGTTCGGCGAACGCTTCAAGGAACGCACCGGCGCCATGCCGAACATGGTGCATGCCGGCACCTATTCCGCCGTGCTACACTACCTGAAGGCCATCGAAAAGGCCGGCACAGACGATGCCGATGCCGTCGCCAAGGCCATGAAGGAAATGCCGGTCAACGACGTCTTTTCGAAGGACGGCCATGTGGCCGCCAACGGCCGCATGATCCACGACATGTATCTCATGGAAGTGAAGAAGCCGGACGAAAGCAAGCAGCCGTGGGATTATTACAAGGTACTGGCCACCATCCCCGGCAAGGAAGCCTTCATGGACCCCGCAAAAAGCGGTTGCCCGCTGGTAACGCAGTAA	MRKSIVLSTAMALAAGTAAYAAEISDGKVKIGILNDQSGVYANFGGKYSYEAAKMAVEDFGGKVLDAPVEVVTADHQNKADVASNIARQWYDTEQVDSIMELTSSSVGLAVQALSKDKKKITINTGAATTELTGKQCSPYGFHWAYDTYSLAVGTGGALVKQGGDSWFFLTADYAFGYSLEENTSNFVKSNGGKVLGSVRHPLATTDYSSFLLQAQSSGAKVIGLANAGLDTSNAIKQAAEFGIVAGGQRLAALLFTLAEVHGLGLEAAQGLTLTEGFYWDRDDESRKFGERFKERTGAMPNMVHAGTYSAVLHYLKAIEKAGTDDADAVAKAMKEMPVNDVFSKDGHVAANGRMIHDMYLMEVKKPDESKQPWDYYKVLATIPGKEAFMDPAKSGCPLVTQ	PGPT0020765_5747	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020765-livK-K01999	NA	NA
BMS010_02426	918	hdfR_1		HTH-type transcriptional regulator HdfR	ATGGCCACCCCTTTCACCTGGGACGACCTGCAATATTTTCTGGCCGTGGCCCGCACCGGACAGCTCTCATCGGCGGCCCGAAGCCTGCGCACCAGCCACGCCACCGTCTCCCGCCATATCGACCGGCTGGAATTCTCGCTTAAAACCAAGCTGTTCGAGCGAAACCCGCGCGGTTATGAACTGACGACCGTCGGGCGGCGGCTGGTGGATACGGTCGAGCGTATCGAGGCGGAAGCCGAAAGGCTGCAATCGGATATTTCCGAAAGCGGCAGCCTGCTGCGCGGCGTGGTGCGCCTTAGCGCGCCTGAAGGTTTTTCCAATTTTTTCTTCGTGGAAAGGCTGAAAGACTTCGCCATCACGCATCCCCACATCATGGTGGAAATGGTGACGATCCAGCAGATCATGGCGCTTTCCAGAAAGGAGGCGGATGTGGCCGTCACGCTCGATCCGCCGAAGGCCGGTCCCTATATCAATGAACAGATCATCGATTATACGCTGCATATCTATGCCTCGCGTTCCTATCTCGCCGGACGGCCGAGAATCACCAAGCGCGAGGACCTGCTCGATCACTTCTTCATCGGTTACGTACAGGACCTGATCTTCTCACCCGGCCTTGATTATATGCGCGATGTGCTGCCCGGCCTGCGTCCGGGCTTTCAGTCCTCGAGTATTTTCGCGCAGCTGACGGCCACGCTGAGCGGCCGGGGCCTGTGCATCCTGCCGAATTTCATCGCCGCGCGCTTCCCGGATTTGCAGATGGTGCTTGCCGGCGAAGTGGAACTGCGGCGCGGCTACTGGCTGACGAGCCATCAGGACCTTGCCAATGTGCCGCGTGTGCGCTCGCTGATGGACTTCATTCTCACCACGGCGCGCGCGCATGAAAAACTCTTCATCCTCGACCGCCGGATGATGGTCTGA	MATPFTWDDLQYFLAVARTGQLSSAARSLRTSHATVSRHIDRLEFSLKTKLFERNPRGYELTTVGRRLVDTVERIEAEAERLQSDISESGSLLRGVVRLSAPEGFSNFFFVERLKDFAITHPHIMVEMVTIQQIMALSRKEADVAVTLDPPKAGPYINEQIIDYTLHIYASRSYLAGRPRITKREDLLDHFFIGYVQDLIFSPGLDYMRDVLPGLRPGFQSSSIFAQLTATLSGRGLCILPNFIAARFPDLQMVLAGEVELRRGYWLTSHQDLANVPRVRSLMDFILTTARAHEKLFILDRRMMV				NA	NA	NA	NA	NA
BMS010_02427	1023			hypothetical protein	ATGAAAAAGATCGGATTCCTGTCCTTCGGCCACTGGACGCCCTCGCCCCAGTCGCAAACCCGCTCGGCTGCGGACACACTGCTGCAATCGATAGACCTCGCCGTCGCGGCGGAAGAGCTGGGCGCCGACGGCGCTTATTTCCGCGTGCACCATTTCGCCCGCCAGCTTGCCTCGCCCTTTCCGCTGCTGGCTGCCGTCGGCGCGCGCACGAAAAAGATCGAGATCGGCACCGGCGTCATCGACATGCGTTATGAAAACCCGTTCTACATGGCGGAGGACGCCGGTTCGGCCGACCTCATCGCCGGCGGACGCCTGCAGCTCGGCATCAGCCGCGGCTCGCCGGAACAGGTGATCGATGGCTGGCGTTATTTCGGTTACCGCCCGGCCGAAGGCCAGAGCGAAGAAGACATGGCGCGTCAGCACACCGAAGTCTTTCTCGAGCTTCTGAAAGGTGAAGGTTTCGCTGAACCGAATCCGCGCCCGATGTTCCCCAACCCGCCCGGCCTTTTGCGGTTGGAGCCGCATTCCGAAGGGCTGCGCGAGCGCATCTGGTGGGGTTCGAGTTCCAATGCAACGGCAGTCTGGGCGGCAAAGCTCGGCATGAACCTGCAAAGCTCCACGCTGAAAACCGATGAAACGGGCGAGCCTTTCCATGTCCAGCAGGCGCAGCAGATCCGCACCTTCCGGGAAGCATGGAAGGAAGCGGGCCACACCCGCGAGCCGCGTGTGTCGGTCAGCCGCAGCATCTTCGCTCTCGTCAACGACCGCGACCGGTCCTATTTCGGTTACGGCAACGAAGGCGATGACAAGATCGGTTATATCGACGACAAGACACGCGCGATCTTCGGGCGCAGCTATGCCGCCGAGCCGGAAAAACTGATCGAACAGCTGAAAGCCGACGAGGCCATCGCCGAGGCCGACACGCTGCTCCTGACCGTGCCGAACCAGCTGGGCGTCGATTACAACGCCCATGTGATCGAGACGATCCTCAAGCAAGTGGCGCCGGCTCTCGGCTGGCGCTAA	MKKIGFLSFGHWTPSPQSQTRSAADTLLQSIDLAVAAEELGADGAYFRVHHFARQLASPFPLLAAVGARTKKIEIGTGVIDMRYENPFYMAEDAGSADLIAGGRLQLGISRGSPEQVIDGWRYFGYRPAEGQSEEDMARQHTEVFLELLKGEGFAEPNPRPMFPNPPGLLRLEPHSEGLRERIWWGSSSNATAVWAAKLGMNLQSSTLKTDETGEPFHVQQAQQIRTFREAWKEAGHTREPRVSVSRSIFALVNDRDRSYFGYGNEGDDKIGYIDDKTRAIFGRSYAAEPEKLIEQLKADEAIAEADTLLLTVPNQLGVDYNAHVIETILKQVAPALGWR				NA	NA	NA	NA	NA
BMS010_02428	1119		COG4948	L-talarate/galactarate dehydratase	ATGAAAATTACCGCCGTCGAACCTTTCATCCTGCACCTGCCGCTGACATCGGAATCCATTTCCGATTCCACCCACAGCATCACCCATTGGGGTGTCGTCGGTGCAAAGATCACCACCAGCGATGGCCTTGAGGGCTTTGGTTTTACCGGCACCCACGCGCATCTGCCGTCGGACAGGCTGATCACATCCTGCATCAGCGATTGTTACGCGCCCTTGCTGGTGGGGGAGGATGCGTCGGACCATTCGAGGCTGTGGACGAAACTGGCCCGTTATCCGGCGCTGCAATGGGTCGGCAGGGCGGGCATCACCCATCTGGCGCTGGCCGCAGTTGACGTTGCGCTCTGGGACCTGAAGGCGAAAAAGGCGGGCGTGCCGCTCTGGCACTATCTCGGCGGCGCGCGCACTGCGGCGGTGGAAGCCTATAATACCGATATCGGCTGGCTTTCCTTCACGCTGGAGGATTTGCTGACGGGTAGCGCGAGAGCGGTGGAGGAGGATGGGTTTACCCGGCTGAAGATCAAGGTCGGGCATGACGATCCGAATATCGATATTGCCCGCCTCGCCGCCGTCCGTAAGCGTGTCGGTTCGTCCATCCGCATCGCCATTGACGGCAACGGCAAGTGGGATTTGCCCACATGCCAGCGTTTCTGCGCGGCGGCGAAAGATCTGGACATTTACTGGTTCGAGGAGCCGCTCTGGTATGACGATGTGACGAGCCATGCACGGCTGGCGCGCAATACGTCCATTCCGATTGCGCTCGGGGAGCAGCTTTACACGGTGGATGCGTTCCGCTCATTCATCGATGCCGGTGCGGTTGCCTATGTCCAGCCGGATGTGACCCGGCTTGGCGGCATCACCGAATATATTCAGGTTGCCGATCTCGCGCTCGCCCATCGCCTGCCCGTGGTGCCGCATGCCGGCGAGATGAGCCAGGTGCATGTGCATCTGAGCTACTGGCACCCGGCTTCGACCATTCTCGAATATATTCCCTGGATCAAGGATCACTTCGAAGAGCCGATCCATGTGCGGGACGGTGTCTACAAACGTCCGGAGCGCCCCGGCGCCAGCACGACGCCGCTGGCGGAAAGCTTCGCCCGTTACGGCAAGGCGGTGAAATGA	MKITAVEPFILHLPLTSESISDSTHSITHWGVVGAKITTSDGLEGFGFTGTHAHLPSDRLITSCISDCYAPLLVGEDASDHSRLWTKLARYPALQWVGRAGITHLALAAVDVALWDLKAKKAGVPLWHYLGGARTAAVEAYNTDIGWLSFTLEDLLTGSARAVEEDGFTRLKIKVGHDDPNIDIARLAAVRKRVGSSIRIAIDGNGKWDLPTCQRFCAAAKDLDIYWFEEPLWYDDVTSHARLARNTSIPIALGEQLYTVDAFRSFIDAGAVAYVQPDVTRLGGITEYIQVADLALAHRLPVVPHAGEMSQVHVHLSYWHPASTILEYIPWIKDHFEEPIHVRDGVYKRPERPGASTTPLAESFARYGKAVK				NA	NA	NA	NA	NA
BMS010_02429	675			hypothetical protein	ATGAACTCGCTGGTCAAAGTCACGCTCGCCGAACAGGCGCATCAGGAACTGCGCGCGCGCATCGTCAGCGGCAGATTGCGCGGCGGCGAACGCCTGCTGCCCAATGAGCTTGCCGCCGATCTCGGCATCAGCCCGACGCCGGTGAAGGAAGCCTGCCTGAAACTCGAGGCCGATGGGCTGGTGGTCAATTCCTCCCGTCGCGGCATGGTGGTGCGCGATTTCACCGTGGAGGATGTGGAGGAACTTTACGCCGCCAGAATGCTGCTCGAAAAAGGCGCCGTGGAAGTGGCCTTCGACGCCGGGCAACTGGATGGAGCGCTGCACGCGGAACTGCTGGAAAGCCTTGCGAAACATCGTAAATTCGCCAAAGGCTCAACGCTCGACGAATTATCGAAAGCGCTTTTTTACGACCGCAGCTTCCATACGACCCTTGTGTCGGCGGCGCGCATTCCGGTCATTTCCGGCTCGCATGAGCGCATTCTCGACCAGACCCACACGGTTTTCGTCTCGATCCTCGGCGACTACGCCCGCTCGGTCGAAGAGCACCAGAATATCGCCGATGCCATCGCCGCCGGCAGCAAGGCCCAGATCGTCGATGCCCTGTGGCGGCATCTCGAGCGCAGCCGCCAGAATACGCTGCGCCAGGTCCGGCTGCTCAAAGAGGCCGGCGCCTGA	MNSLVKVTLAEQAHQELRARIVSGRLRGGERLLPNELAADLGISPTPVKEACLKLEADGLVVNSSRRGMVVRDFTVEDVEELYAARMLLEKGAVEVAFDAGQLDGALHAELLESLAKHRKFAKGSTLDELSKALFYDRSFHTTLVSAARIPVISGSHERILDQTHTVFVSILGDYARSVEEHQNIADAIAAGSKAQIVDALWRHLERSRQNTLRQVRLLKEAGA				NA	NA	NA	NA	NA
BMS010_02430	1470	mtlK_1	COG0246	Mannitol 2-dehydrogenase	ATGACAGACCGGCTTTCCGCTGCAACCCTGCCCCGCCTGCCGCAATCCGTCACGACACCCGTCTATGACCGCCAAAGCGTCACGCCCGGCATCGTCCACCTCGGCGTCGGGGCCTTTCATCGGGCTCATCAGGCGGTCTTCATCGACGATTGCCTTAATCGCGGCGAAACCCGATGGGGCATCGTTGCGGCATCGCTGCGCAGCCCGGATACGCGCGACGCCATCGAGCCGCAGGATAATCTCTACACCTTTTGCCTGCGAGACGGGGAGAGCGAGCGCCTGCGCATCATCGGCTCGATTCTCGAAACCATCGTCGCCCCGGAAGAGCCCGAACGGCTGGTGGAGCGGATGGCCGATCCGCGCGTCCTCATCGTCACACTGACCGTGACGGAGAAGGGTTACCTGACCAATCTCGCCTCCCGCAGCCTGCTGCGCGATCATCCCGATATCGTCCATGATCTCGAAAACCCGGAGCGGCCGCGCTCCATCTTCGGCTTCATCCTTGCCGCCACTCGGCGCAGGCGCAGGCAAGGTTCTCAGCCCCTGACGCTCCTTTCCTGCGACAACCTGCCCGCAAACGGCCATGTGCTGCAAAAGCTGCTGCTGGAATTTGCGGAACTGGCCGATCCGGAACTGGCATCCTTCATCGAAACCAATATTGCCTGCCCCTGCTCGATGGTGGACCGGATCGTTCCCGCCACCACGGATGCGGACCGTGAGGCGATTTCGACCGCACTCGGCCTCAGCGATGCCTGGCCGGTAGTGGCCGAACCCTATTTCCGTTTTGTCATTGAAGATCGTTTTCCGCATGGAAGGCCGGCGCTCGAGAAATCGGGCGTGGAATTCGTCGGCAATGTCGAGCCATACGAGCATATGAAGCTCAGAATGCTGAACGGCTCCCACAGCGCCATCGCCGCCATCGGCCAGATTGCCGGCCTTGCGACGGTGGCGGATGCATGGGGTGAAAAGCCCGTGCGCGATTTCATCGACGCCTATTGGCGCGAGATCGAACGGACGCTCGATCCCGCCGTCGACGGGGCGGAATTCGCAGCCGGCCTGCGGGATCGTTTCGCCAATCCCTCATTGCAGCACAAGACCATGCAGATCGCCTCCGATGCATCGCAGAAAGTGCCGCTACGCATTCTTGGCCCCTTGCGCGAGCTGCTGGAGGAGAAGGCTGAAAGCCGGACGGTTATTTTCGCCGTCGCGCTCTGGATCAGGTCCTGCGCGGACAAGAATGAAAAGGGGCAGCCGATCACCATTCTCGATCCCGCTTTCAAGGAGTGGGATGCGCCGGATCAACTGACAATGGCGCCGGATGCAGTCGCCGACCGTTTTCTGACTTTCGAACGCACATTTGGCAGCGACCTGCCCGGGAACGAAACCTTCGTCCCAGCCCTGAAAGCCGCCTATCGAGACATTCGGGAACACGGCGCGCTTGCGGCAATCGCGCGTTTCCTGAAGTCCTGA	MTDRLSAATLPRLPQSVTTPVYDRQSVTPGIVHLGVGAFHRAHQAVFIDDCLNRGETRWGIVAASLRSPDTRDAIEPQDNLYTFCLRDGESERLRIIGSILETIVAPEEPERLVERMADPRVLIVTLTVTEKGYLTNLASRSLLRDHPDIVHDLENPERPRSIFGFILAATRRRRRQGSQPLTLLSCDNLPANGHVLQKLLLEFAELADPELASFIETNIACPCSMVDRIVPATTDADREAISTALGLSDAWPVVAEPYFRFVIEDRFPHGRPALEKSGVEFVGNVEPYEHMKLRMLNGSHSAIAAIGQIAGLATVADAWGEKPVRDFIDAYWREIERTLDPAVDGAEFAAGLRDRFANPSLQHKTMQIASDASQKVPLRILGPLRELLEEKAESRTVIFAVALWIRSCADKNEKGQPITILDPAFKEWDAPDQLTMAPDAVADRFLTFERTFGSDLPGNETFVPALKAAYRDIREHGALAAIARFLKS	PGPT0018275_714	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GULONATE|FRUCTURONATE|MANNONATE_DEGRADATION,PGPT0018275-uxuB-K00040	NA	NA
BMS010_02431	846	oppF_1	COG4608	Oligopeptide transport ATP-binding protein OppF	ATGAGTATCGTTGTCGAAGGCAAGGGCATTACCCGCGACTATCACGTTCCCGGCGGCCTGTTCGGCGGCGCCAAGACGGTGCATGCCCTGAAGGGCATCGACTTTACCGTCGAGCGCGGCAAGACGCTCGCCATCGTCGGTGAATCCGGCTCCGGTAAATCGACGCTGGCCCGCATCATCGCGCTGATCGATCCGGCATCCGGCGGCGAACTGAAGATCGAAGGCAAACCGGTCGATATCGCCAGACGCCGTCCGGACACGCAGATGCGCTCCAAGGTGCAAATGGTGTTCCAGAACCCCTATGGCAGCCTCAATCCGCGCCAGAAGGTGGGCGACGTGCTGATGGAACCGCTGGTCATCAACACCAAGATACCGGCTTCCGAGCGCCGCGAGCGGGCCGAAGCCATGCTGGTGAAGGTCGGTCTCGGTCCTGAGCATTTCAACCGTTATCCGCACATGTTTTCCGGCGGCCAGCGCCAGCGCATCGCCATTGCGCGCGCACTGATGCTGAACCCGGCGCTGCTGGTGCTGGACGAGCCGGTCTCCGCGCTCGATCTTTCCGTGCAGGCGCAGGTTCTGAACCTGCTGCGCGATCTGCAGGAAGAGTTTGAACTGACCTATGTTTTCGTCAGCCACGATCTTTCGGTGGTGCGTTACATCGCCGATGATGTGATGGTCATTTCGAAGGGTGTGGCGGTGGAGCAGGGCACGCGCGAGGAACTCTTCGCCGATCCGAAGCATCCCTATACCCGCCAGCTTTTCGCCGCGACACCGATCACGGATGTCGATGCCATCCGCGCCCGCGTGGAACGCCGCAAGGCGGCACGGCTGGCGGCGACCGCCTGA	MSIVVEGKGITRDYHVPGGLFGGAKTVHALKGIDFTVERGKTLAIVGESGSGKSTLARIIALIDPASGGELKIEGKPVDIARRRPDTQMRSKVQMVFQNPYGSLNPRQKVGDVLMEPLVINTKIPASERRERAEAMLVKVGLGPEHFNRYPHMFSGGQRQRIAIARALMLNPALLVLDEPVSALDLSVQAQVLNLLRDLQEEFELTYVFVSHDLSVVRYIADDVMVISKGVAVEQGTREELFADPKHPYTRQLFAATPITDVDAIRARVERRKAARLAATA	PGPT0004520_684	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004520-dppF-K12372	NA	NA
BMS010_02432	840	dppD_1	COG0444	Dipeptide transport ATP-binding protein DppD	ATGAGCCTGCTGAAAATCAAGAACCTCACCGTCAAATTCGCCACCGCCACCGGCGCCTTCACGGCCGTCAACCGCATCGATGTTTCCGTCGACAAACACGAGGTGCTGGCCATCGTCGGCGAGTCCGGTTCCGGCAAGTCGGTATCGATGCTCGCCGTCATGGGGCTTCTGCCCGATACGGCGACGATTACCGCCGACGAGATGACCTTCGACGGCAAGAACCTTTTGGCCATGTCACCGCAGGAACGCCGCCGGGTGATCGGTCGCGAGATCACCATGATCTTCCAGGAGCCGGTCGCCTCGCTCAACCCGTCCTTCACGGTCGGTTTCCAGATCGAGGAGGTTCTGCGCCTCAATCTCGGCATGAGCGGCGCTGCCGCGCGCGCCCGCGCTCTGGAACTGTTCCGGGCTGTCGGTATTCCCGAGCCGGAAACCAAGCTCAAGGCCTATCCGCACCAGATGTCGGGCGGCCAGTGCCAGCGCGTGATGATCGCGATTGCGATCGCTTCCAAGCCGCGCCTGCTGATCGCCGACGAGCCGACCACTGCGCTCGATGTGACGATCCAAAAGCAGATTCTCGATCTGCTGATGAACCTGCAGGCGGAATATGGCATGGCGCTGATCCTCATCACCCATGACATGGGTGTGGTGGCGGAAACCGCCGACCGCGTCGTCGTGCAATATAAGGGCCGCAAGATGGAAGAGGCGGATGTCTTGAGCCTGTTCGAGGCCCCGCAGCATCCCTATACCAAGGCACTGCTTTCGGCCCTGCCGGAAAATGCCACCGGCGACCGTTTGCCCACGGTTTCCGATTTCTTCGGCAAGGAGGGCGTTCAATGA	MSLLKIKNLTVKFATATGAFTAVNRIDVSVDKHEVLAIVGESGSGKSVSMLAVMGLLPDTATITADEMTFDGKNLLAMSPQERRRVIGREITMIFQEPVASLNPSFTVGFQIEEVLRLNLGMSGAAARARALELFRAVGIPEPETKLKAYPHQMSGGQCQRVMIAIAIASKPRLLIADEPTTALDVTIQKQILDLLMNLQAEYGMALILITHDMGVVAETADRVVVQYKGRKMEEADVLSLFEAPQHPYTKALLSALPENATGDRLPTVSDFFGKEGVQ	PGPT0004515_740	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004515-dppD-K12371	NA	NA
BMS010_02433	915	dppC_1	COG1173	Dipeptide transport system permease protein DppC	ATGACCGATGTGACCACAACTCCCGGCATCCGCCTTTCGGACGCCGCCATCCGCCGCCGGATGCTTGCCGATTTCTGGTTCTATTTCCGCCAGAACCGCGGCGCCGTCATCGGCCTTGCCGTCTTCATCCTTCTGGTGCTGTTGGCAGTCTTCGCGCCGTTGATCGCGCCGCATGATCCCACCCAGCAATATCGTGATGCTCTTCTCGTCCCGCCGGTCTGGCAGGAAGGCGGCCGTGCCGGCTTCTTCTTCGGCACCGATGCGGTGGGTCGCGACATGCTGTCCCGCCTGATCTACGGCGCGCAATATTCGCTATTTATCGGCGTCGTCGTCGTCTCCATCGCCCTTGTGGGCGGCATCGTCATCGGTCTCGTTGCCGGTTTCTTCGGCGGCTGGATTGATACCGTCATCATGCGCGTAATGGACATCATTCTCGCAGTTCCATCGCTGCTCTTGGCGTTGGTGCTGGTCGCGATACTTGGACCTGGCCTCACCAACGCCATGATTGCCATCGCCATCGCCTATCAGCCGCATTTCGCGCGTCTGGCACGTGCTGCCGTCATGAGCGAACTCCGGCGTGACTATGTCACTGCTGCCCGGGTGGCCGGCGCCGGCAATTTCCGGCTGATGTTCAAGACTATCCTGCCGAACTGCCTTGCGCCGCTGATCGTTCAGGCGACGCTTTCCTTTTCGTCCGCGGTTCTCGATGCCGCCGCTCTCGGCTTCCTCGGCATGGGCGCGCAGCCGCCCGCCTCCGAATGGGGCACGATGCTGGCGGACGCGCGTGAATTCATGCTGCGCGCCTGGTGGGTCGTGACCCTTCCGGGCCTGACGATCCTGATCTCGGTGCTCGCCATCAACCTCATGGGTGACGGCCTGCGCGATGCGCTCGATCCCAAACTGAAGCGGAGCTGA	MTDVTTTPGIRLSDAAIRRRMLADFWFYFRQNRGAVIGLAVFILLVLLAVFAPLIAPHDPTQQYRDALLVPPVWQEGGRAGFFFGTDAVGRDMLSRLIYGAQYSLFIGVVVVSIALVGGIVIGLVAGFFGGWIDTVIMRVMDIILAVPSLLLALVLVAILGPGLTNAMIAIAIAYQPHFARLARAAVMSELRRDYVTAARVAGAGNFRLMFKTILPNCLAPLIVQATLSFSSAVLDAAALGFLGMGAQPPASEWGTMLADAREFMLRAWWVVTLPGLTILISVLAINLMGDGLRDALDPKLKRS	PGPT0004510_197	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004510-dppC-K12370	NA	NA
BMS010_02434	1008	dppB_1	COG0601	Dipeptide transport system permease protein DppB	ATGATCCGGTTCATTCTCGGCAAACTTCTCTATCTCGTTCCGACCTTCCTCGGGATTACCATCGTCGCCTTCGCCTTCGTGCGCGTCCTGCCGGGCGATCCCGTGCTGTTGATGGCGGGCGAGCGTGGCATTTCGCCCGAAAGGCATGCGCAGCTTGCCGAACAGCTCGGTTTTGCTCAGCCCATCTGGCAGCAATATCTCCATTTCCTCGGACGGCTGCTTCAGGGCGATCTCGGCAATTCGCTGGTCACCAAGAAGCCGGTTCTCACCGAGTTCCTGTCGCTCTTTCCCGCGACAGTCGAGCTTGGTCTCGTCGCCATCATCATCGCAACCTTGATCGGCGTTCCTATCGGTGCCCTTGCCGCCATTCGTCGCGGTTCCTGGTTAGATCAGATCGTCATGACGACTGCGCTGGTCGGTTTCTCCATGCCGATCTTCTGGTGGGGTTTACAGCTCATCGTCCTCTTCTCCGGTGCTTTGCAGTGGACGCCTGTCACGGGGCGAATCTCGCTGATGTATTTCTTTCCTTCCGTTACCGGTTTCATGCTGATCGACAGCTTAATTTCGGGACAGAAGGGAGCGTTCGCGTCGGCTGTGTCTCATCTCGTCCTTCCTTCCGTTGTGCTTGCCACAATTCCGCTAGCTGTGATTGCCCGACAGACACGATCGGCGATGCTGGAGGTTCTGGGCGAGGACTATGTCCGTACGGCTCGAGCCAAAGGCATGTCACCTGCGCGCGTCGTCGGCATCCATGCATTAAGAAATGCGATGATTCCGGTTATAACTACCATAGGCCTGCAGACTGGTGTGCTGATGGCCGGCGCTATTCTGACCGAAACCATCTTTTCCTGGCCGGGCATCGGCAAGTGGATGATCGATTCCATCATGCGCCGTGACTATCCGTCTGTGCAGAGCGGTCTGCTCCTGATCACAGGTCTGGTGATGATCATTAATCTGCTCGTCGATCTGACCTACGGCCTAATCAATCCAAGGATCCGTCACAAATGA	MIRFILGKLLYLVPTFLGITIVAFAFVRVLPGDPVLLMAGERGISPERHAQLAEQLGFAQPIWQQYLHFLGRLLQGDLGNSLVTKKPVLTEFLSLFPATVELGLVAIIIATLIGVPIGALAAIRRGSWLDQIVMTTALVGFSMPIFWWGLQLIVLFSGALQWTPVTGRISLMYFFPSVTGFMLIDSLISGQKGAFASAVSHLVLPSVVLATIPLAVIARQTRSAMLEVLGEDYVRTARAKGMSPARVVGIHALRNAMIPVITTIGLQTGVLMAGAILTETIFSWPGIGKWMIDSIMRRDYPSVQSGLLLITGLVMIINLLVDLTYGLINPRIRHK	PGPT0004505_630	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004505-dppB-K12369	NA	NA
BMS010_02435	1605	dppA_2	COG0747	Periplasmic dipeptide transport protein	ATGAAAACGCTGACCCGCAGTTTGCTTATCGCCTCTGCGATTGCGATCACTTCCGCCATGCCCGCCATGGCGAAGACCTTCGTTTATTGCTCCGAGGCATCGCCGGAAGGCTTCGATCCGTCGCCTTATACCGCAGGCGGCACCTTCGATGCCTCCGCGCATCCGGTCTATAACCGTCTGACCGAGTTCAAGAAGGGCACGACCGAAGTAGAGCCCGGCCTTGCGGAAAAATGGGACGTTTCCAAGGATGGTCTCGAATACACTTTCCACCTCCGCAAGGGCGTCAAGTGGCACTCCAACGACAAGTTCACGCCGAGCCGCGAATTCAACGCTGACGACGTGATCTTCAGCTACAACCGCCAGGGCGACGCGAAGAACCCGTGGAACCAGTACATCGCAGGCATCACCTACGAATATTACAACTCCATGGAAATGCCGTCCCTGATCAAGGAAATCGTCAAGGTCGACGATTACACGGTCAAGTTCGTGCTGACCCGCCCGGAAGCGCCGTTCCTCGCCAACATCGCCATGCCTTTCGCTTCGATCGTGTCGAAGGAATATGCCGATACGCTTGAGAAGGCCGGCACTAAGGAAGACTTCAACAACCTGCCGATCGGCACCGGCCCGTTCAAGTTCGTCGCCTATCAGAAGGACGCGGTCATCCGCTACCAGAAGAATGCCGACTATTGGGGTGAAGCTCCGAAGATCGACGACCTGATCTTCGCGATCACGCCTGACGCCGCCGTTCGCCTGCAGAAGCTGAAAGCTGGCGAATGCCACCTGATGCCATACCCGGCTCCGGCTGATCTGGCGACCATCCGCGCCGACAAGAACCTCAAGCTCGATGAGCAGCCGGGGCTGAACGTCGCTTACTTCGCCTACAACACGACCGTTGCACCTTTCGACAAGCCGGAAGTGCGCAAGGCGCTGAACATGGCGATGAACAAGCAGGCGATCATCGACGCCGTGTTCCAGGGTGCCGGCCAGGTTGCCAAGAACCCGATCCCACCGACAATGTGGTCCTACAACGACAGCATCAAGGACGATGCTTACGATCCGGAAGCGGCCAAGAAGGCTCTCGAAGCCGCTGGCGTCAAGGACCTGTCGATGAAGATCTGGGCGATGCCGGTGCAGCGTCCCTACATGCCGAACGCCCGTCGCACCGCCGAGCTGATCCAGTCGGATTTCGCAAAGGTTGGCGTCAAGGCCGAGATCGTCTCCTTCGAATGGGGTGAATATCTCAAGAAGTCCACCGAAGTGAAGCGCGACGGCGCCGTCATCCTCGGCTGGACCGGCGACAATGGTGACCCGGACAACTTCCTCAGCGTTCTCCTGTCCTGCGCCGCAACCGGTGAAGGCGGTGCGAACCGTGCACAGTGGTGCAACAAGGAGTTCTCGGACCTGTTGGCCAAGGCAAAGCAGACCACCGACGTTGCCGAGCGCACCAAGCTTTATGAGCAGGCACAGGTGATCTTCAAGGAACAGGCTCCGTGGGCGACGCTTGCGCACTCCACGCAGTTCGTTCCCATGTCCGCCAAGGTTTCCGGCTTCACCATGAGCCCGCTTGGCGACTTCACCTTCGAAAACGTCGACATCGCGGAGTAA	MKTLTRSLLIASAIAITSAMPAMAKTFVYCSEASPEGFDPSPYTAGGTFDASAHPVYNRLTEFKKGTTEVEPGLAEKWDVSKDGLEYTFHLRKGVKWHSNDKFTPSREFNADDVIFSYNRQGDAKNPWNQYIAGITYEYYNSMEMPSLIKEIVKVDDYTVKFVLTRPEAPFLANIAMPFASIVSKEYADTLEKAGTKEDFNNLPIGTGPFKFVAYQKDAVIRYQKNADYWGEAPKIDDLIFAITPDAAVRLQKLKAGECHLMPYPAPADLATIRADKNLKLDEQPGLNVAYFAYNTTVAPFDKPEVRKALNMAMNKQAIIDAVFQGAGQVAKNPIPPTMWSYNDSIKDDAYDPEAAKKALEAAGVKDLSMKIWAMPVQRPYMPNARRTAELIQSDFAKVGVKAEIVSFEWGEYLKKSTEVKRDGAVILGWTGDNGDPDNFLSVLLSCAATGEGGANRAQWCNKEFSDLLAKAKQTTDVAERTKLYEQAQVIFKEQAPWATLAHSTQFVPMSAKVSGFTMSPLGDFTFENVDIAE	PGPT0004500_665	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004500-dppA-K12368	NA	NA
BMS010_02436	1086	pepE	COG0006	putative dipeptidase PepE	ATGATCCAGCAAAATATTAAGGCGGTCTGGCTCGATGCATCATCGTCGCTGACCTATTATACCGGCCTGTCGCTTGGTCTTTCCGAGCGCATTCACGGCGCCCTGGTGCCGGCGGAAGGCGTGCCGGTCTATGTCAGCCCGACCTTCGAGGAGCCGAAGCTTCAGACGCTCATCCGCATTGCGGGTGAGGTTGCCGTCTGGGAAGAGGATGAAAGCCCCTTCGACCTGATGGCAAGGCGCATTGAGGCGCTGGCCTGTCCCGGTCATCTTGTCGCCATCGATCCCGCTACCCCCTTCGTCTTCGCATCGGCCCTCATGCAGCGTCTTGAAGGGCGCATCATTTCCGCCCAGCCGATGATCGTCGCCCAGCGGCAGGTCAAATCCGCAGCCGAGATCGCCATCATCCAGACGGCGATGGACGCGAGTTACGGCGTGCAGAAGGCCGTGTTCGAAGGTCTGCGTCCCGGCGTTTCCACCACGGAAGTCGCTGATTTCGTTAATGCGGCGCATATTGCCCTTGGCCTGAAGCCGCTTTTCGTGGCGGTGCAGTTTGGCGAGGCGACGGCCTATCCGCATGGCGTGCCCCATGCGCAGACGCTCAGCCAAGGCGATATGGTGCTGGTCGATCTTGGCGGCATTCTTCATGGCTATCGTTCCGATATCACCCGCACCTATGTCTTTGGCAAACCGACGGAACGGCAGTGTTTCCTCTGGAACGCCGAGCGCGACGCGCAGGCGGCGGCCTTTGCCGCAGCCAAAGTCGGCGCTGCCTGCTCGGATGTGGACAGGGCCGCGCGCGACAGCCTGAAAGCGGCCGGTTTCGGCCCGGATTATCAGCTTCCTGGCCTGCCGCACCGCACCGGCCACGGGCTTGGGCTGGATATTCACGAAGAACCCTATATCGTTGCAGGAAATGCCACGGCGCTGGAGCCGGGCATGTGTTTTTCCATCGAGCCGATGCTGTGCGTTTATGGCGAATGCGGCGTCCGTCTCGAGGATATAGCCTATATGACGGAGGCGGGACCGCGCTGGTTCTGCCCACCGGAGAAGAACCTCGACCGGTTGTTTCAGCCGGTCGCCGGGTAA	MIQQNIKAVWLDASSSLTYYTGLSLGLSERIHGALVPAEGVPVYVSPTFEEPKLQTLIRIAGEVAVWEEDESPFDLMARRIEALACPGHLVAIDPATPFVFASALMQRLEGRIISAQPMIVAQRQVKSAAEIAIIQTAMDASYGVQKAVFEGLRPGVSTTEVADFVNAAHIALGLKPLFVAVQFGEATAYPHGVPHAQTLSQGDMVLVDLGGILHGYRSDITRTYVFGKPTERQCFLWNAERDAQAAAFAAAKVGAACSDVDRAARDSLKAAGFGPDYQLPGLPHRTGHGLGLDIHEEPYIVAGNATALEPGMCFSIEPMLCVYGECGVRLEDIAYMTEAGPRWFCPPEKNLDRLFQPVAG	PGPT0006760_1424	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0006760-opaA|pepQ-K01271	NA	NA
BMS010_02438	750	sdh		Serine 3-dehydrogenase	ATGAGCGGAACCATCCTCATCACCGGCGCGACATCCGGCTTCGGACAGGCCACGGCGCGGCGCTTCGTCAAGGAGGGCTGGAAGGTCATCGGCACGGGCCGGCGGGCGGAACGGCTGGAGGCGCTTTCAGCCGAGCTCGGTTCCGCCTTTCATGGCCTCGCCTTCGACATCACCGACGAGGAGGCGACAGGCAAGGCGCTGTCCGGATTGCCGGAAAGCTTCCGGGATATCGACGTTCTCGTCAACAATGCCGGCCTCGCACTCGGCACCGCGCCCGCACCGCAGGTGCCCTTGAAAGACTGGCAGACCATGGTGGACACCAACATCACCGGTCTCCTGAACATTACCCACCATTTGCTGCCGACGCTGATCGGGCGCAAGGGTATTGTCGTCAACCTCTCGTCTGTGGCTGCGCATTATCCCTATACGGGCGGCAATGTGTATGGCGGTACCAAAGCGTTCCTGCGGCAGTTTTCGCTCGGCCTGCGTTCCGACCTGCATGGCAAGGGCGTGCGGGTGACATCCATCGAGCCCGGCATGTGCGAAACGGAATTTACGCTGGTGCGCACCGGCGGCAATCAGGAAGCCTCGGACAATCTCTACAAGGGCGTCAATCCGATCACGGCGGACGATATTGCCAACACCATCCACTGGGTCGCCTCGCAGCCCAAGCATATCAACATCAACAGCCTCGAACTCATGCCGGTCAACCAGTCCTTCGCCGGCTTCCAGGTCTATCGGGAAAGCTGA	MSGTILITGATSGFGQATARRFVKEGWKVIGTGRRAERLEALSAELGSAFHGLAFDITDEEATGKALSGLPESFRDIDVLVNNAGLALGTAPAPQVPLKDWQTMVDTNITGLLNITHHLLPTLIGRKGIVVNLSSVAAHYPYTGGNVYGGTKAFLRQFSLGLRSDLHGKGVRVTSIEPGMCETEFTLVRTGGNQEASDNLYKGVNPITADDIANTIHWVASQPKHININSLELMPVNQSFAGFQVYRES	PGPT0021285_501	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021285-ydfG-K16066	NA	NA
BMS010_02439	615			hypothetical protein	ATGACAAAGAAAATCTATCTCGCCGGACCGGAAGTATTCCTCCCGAACGCGCGCGAAATGCTCGACCTCAAGGCCTCGCTGGCGCGGGAAGCCGGTTTCACGCCGCTTTCGCCGGGCGATCTGCAAATTCCGCCGTCGGACACCAGGGTCGGTCACGGCTGCAACATCAATGCCGTCGATGAGCGGATGATGCTCGAAGCGGATGCGGTGATTGCCAATCTCACGCCGTTTCGCGGCATCGCCGCCGATACGGGAACCAGCTATGAGCTGGGCTTCATGTGCGCGCTGGGCAAGCCGGTTTTCGCCTATACCAATGTCGCGGCCAATCACTTCACCCGCATCAAGGCGCATTATGGCGGCGTCGCCACCCTGGATGAAACGGGCCGTTATCGCGGGCCGGACGGGCTGTCGATCGAGAATTTCGACATGGTCGACAATCTCATGCTGCATGGCGGGATTTTGCGGCGCGGCGGCGTCATCATCGTTGGCAATGCTCCCGAAGAGGCTTTGTATACGGATCTCGAGGCCTACAGGCGCTGTCTTACGGCGGCGGCCGAAAAGTTACTGACACCGATTGACCCTGAAAAAACGACTAGAGTGGAGGCATCATCATGA	MTKKIYLAGPEVFLPNAREMLDLKASLAREAGFTPLSPGDLQIPPSDTRVGHGCNINAVDERMMLEADAVIANLTPFRGIAADTGTSYELGFMCALGKPVFAYTNVAANHFTRIKAHYGGVATLDETGRYRGPDGLSIENFDMVDNLMLHGGILRRGGVIIVGNAPEEALYTDLEAYRRCLTAAAEKLLTPIDPEKTTRVEASS				NA	NA	NA	NA	NA
BMS010_02440	627	rnd_2	COG0349	Ribonuclease D	ATGGCAGCACCCATCCGTTACCACGAAGGCGATATTTCCGCCGAAGATGCCGCGCGTTACACCGGCGCCATCGCAATCGATACGGAAACGCTGGGACTGGTGCCGCGCCGCGACCGCCTCTGCGTCGTTCAGCTTTCGCCGGGCGACGGCACGGCGGACGTCATTCGCATTGCCGCCGGTCAAAAGGAAGCGCCAAACCTCGTCCGGATGCTTGCCGACCCTGCCCGCCAGAAGATTTTTCACTATGGCCGTTTCGATATCGCCGTTCTGTTCCACACCTTCGGCGTGACGACCACACCGGTCTTCTGCACCAAGATCGCCTCGCGGCTGACCCGTACCTATACGGACCGGCACGGGCTGAAGGATAACCTCAAGGAAATGCTGGAAGTCGATATTTCCAAGGCCCAGCAATCTTCCGACTGGGCGGCAGAGACCCTGTCGCCGGCGCAACTCGAATATGCCGCCTCCGATGTGCTGCACCTGCACGCGCTGCGCGACAAGCTAACGGGTCGTCTCGTGCGTGACGGCCGCCTCGACCATGCCGACGCCTGTTTCGCCTTTCTGCCGACCCGCGCAAAGCTCGACCTCCTCGGCTGGGAAGAAACCGATATTTTCGCCCATAGCTGA	MAAPIRYHEGDISAEDAARYTGAIAIDTETLGLVPRRDRLCVVQLSPGDGTADVIRIAAGQKEAPNLVRMLADPARQKIFHYGRFDIAVLFHTFGVTTTPVFCTKIASRLTRTYTDRHGLKDNLKEMLEVDISKAQQSSDWAAETLSPAQLEYAASDVLHLHALRDKLTGRLVRDGRLDHADACFAFLPTRAKLDLLGWEETDIFAHS				NA	NA	NA	NA	NA
BMS010_02441	1230			hypothetical protein	ATGATTACTCCGCTACAGCAGACGGCGGGCATTGCAGTCAGCGACCTCATGCGCTCGATGGTCCAAACCATCGAGGAACGCCAGCGCGAAGAGCAGGAAAAGGCCAACGGCACCAAAAAGGACGATGCGGTCAAGACAAACCCGCAGCCGGACGAAAGCCAGCGCGCCGCCAATGAGAAGATAAGCGCCTATCTCTTCGGCGTCATGAAACCCGATGCCGATGCCTTCGCCTCGCTCGTCTCCCGTTTTTCCTCCGCGCTGGGCATCACACAGGAAAAGGACGAATCGAGCTTTTCCTTCGCACGAAGACTTCAGGATGCGCTGACCCTGACCGACAGCTTCGAAAAAACCGATGCGCAGGGGAAAGCCACGAAAATTTCCCTGAAATCCTTCGGCGTTTCGGAGGCTGAGGTCGTGGACGTGCTGAACAATGGCGTCAACAGCAAGACCGATCCAATGGCCGCCCTTGCCGCCCGCATCGCAAAGGGCGCAGGCCTCACAGGCACGGAAGAGGATTTCGGCGAGCAGATGTCGAAAGCCATCATGGCGGCGCGCGCGACCCTGCCGAAAAGCGTCGACGATCTGGAAGAATCGACCGGCCTCAAACAACTCGGCGTCTCCGCCCGGCAGATGATCTCCGCCATCGCCAACCCCTATGGCGATGAGGCGCGCGCCGTGAAGGAGGCCTTGGACGAACAGGCGCAGGGCACCCGCTTCATGACGCGTGAAACCCTGAAGGTCATTCAGCGTCTCGAAGATGTCGCCGATCCCAAAACCAGGGAAGAGTTGCAGGCCGAACGCGGCAAGGATCGTATCGGCGAAATCAACGATGCCGAGGTGAAGGCCGAGCGGGAACAGGATATCCAGGCGCGCGATGCGCAGGGCAAGCTTGAAGACGTGCAGGAGCTTCAGGACGTCGTGAAGGAGCATATCGATGCTTCCGGCGACGAAAAAACGGAAAGCGTCGACCCTCAGGCGCTAGCCGGCACATCGTCGGAAACGGCGCTGATCGCCGTGCTTGCGGCTGCGCCGGCTGAGCAAGCCGCCCCGGCGGAAAACGAAAATGAGCCGGCGGAGACAGACGCGGTCACCAATCCGGCCGATGCGGAAGACGACGGCGAAAAACTGCTCGATGCGCAGGCGCTTCTCGAAGACACCCGCAACGCCATTTTGCCGATCTCGATCGACGACAATGGCCTTTATGAACTGCTGAAGAAAAAGGCGGCATGA	MITPLQQTAGIAVSDLMRSMVQTIEERQREEQEKANGTKKDDAVKTNPQPDESQRAANEKISAYLFGVMKPDADAFASLVSRFSSALGITQEKDESSFSFARRLQDALTLTDSFEKTDAQGKATKISLKSFGVSEAEVVDVLNNGVNSKTDPMAALAARIAKGAGLTGTEEDFGEQMSKAIMAARATLPKSVDDLEESTGLKQLGVSARQMISAIANPYGDEARAVKEALDEQAQGTRFMTRETLKVIQRLEDVADPKTREELQAERGKDRIGEINDAEVKAEREQDIQARDAQGKLEDVQELQDVVKEHIDASGDEKTESVDPQALAGTSSETALIAVLAAAPAEQAAPAENENEPAETDAVTNPADAEDDGEKLLDAQALLEDTRNAILPISIDDNGLYELLKKKAA				NA	NA	NA	NA	NA
BMS010_02442	309			hypothetical protein	ATGACCGATATTTCCGGCCTATCCGGCAGCGCCGTTTACGACACAGAACCCAATGCCGCGCAGGCGCTGCTATCCATGGCCGCCCCGTCGCTCGTTCCGGATGATGCGGCCTTCACCACGCCCGCTGAGGAAGACAGCCTCATCGAACCCGTCAACATTCAACCGGAACGAAATCTTCCCAAGGCAAGCTGGCTCGATGCCATGCCGCCGGAAGCTTTTGAGACGGCGCCCAGCGATCCCGACCATATTTCCTCGGTCAATTCCGACGATAACGGTCTTTATCGCATGTTCATCGGCATTTCGCCCTGA	MTDISGLSGSAVYDTEPNAAQALLSMAAPSLVPDDAAFTTPAEEDSLIEPVNIQPERNLPKASWLDAMPPEAFETAPSDPDHISSVNSDDNGLYRMFIGISP				NA	NA	NA	NA	NA
BMS010_02443	1548			hypothetical protein	ATGTTACCGCCTGTACCGAAAATTGCGGCAACCGATGCCGCCTATGGAACCACGGTTTCACTGACACCGCGCGAGCAGGTGAAAGAGGCTGCACCGCCGCAACCGAACATTCCCGCCCCTGAAAACAGCAGCCTTTTTGCCCGCGCGGCAATCGCCTCCCTCACCAGCGAATTTCAGCTCTCGCGCAGCACCGCCGTTCTGGCGGAAGCGCTCGGCAAGCTGATGAACCTGCCCCGGCGGGATGGCGAAGCCATAGAGACCTATGTGACGCGGCTGACGGAGGCGCTCCGCACCCTGCCGGCGCCACAACGCCTGGCGCTGGAACAGCAGGTCGGCAAGGCCCTGCAGGGCCTGACCCTTTCGATGCTTGCCGAAATCCTGAAACAGCCGACCGGGCCGGATGCTGCCCGCCTCGCGTTGTTGATCGAGCTTTCCCGTTACAAGGGAACGGACCTTGCGGCAAAGGCGGTGGTTTCCTCCTATCAGCAGAACAATTCCTCCAACCCCGCCCCCGCACAATCGGCCCAGCCGAAACAGCAGAACGCACAGAGCCAGAATGCGGAAGCGCGCCCTTCTTCGGCCGCGACAGCGCAGGCGGCAAATTCCGCCACCGTCAGCCGGCTCCTGCCGCTGCTCATCGGGCCGCTTGCCCTCAGTGGCGCAGCGATGAAAGCAACGGTGGCGGTGCTAACGGCGCAACTGGACCCCCGGCCCACGCTTTCCACCCCGCCTGCCGACACACATGAGACGCCGACCGTTGCCGCAAAACCGGATGGAAGAGCCGAAAACACGGCACGTCCGCTTCCGACACAAACCGGCAGCGTGATGAAGGAAGTATCGGCCGAGGCCCGCCCGGCAAATCCGCCCCGCGCCGAAACGGGCGAAGCCCGCCCTGCCCCTCCGCATCGGGAGACGATGAAGCCGGAGCAGAAAGAAATCCGCACGGGCCTTACCCCGCCATCCGGTTTGTTCGCAGACGACGCGGAGACCGTGAACAGCCTGCTGCTTGCCGCCACCGCCGGCAAACTTCCGCTCAAGCCGACCGGCACGCAAGAGCCTCCGCCCACGCCGCAGGCTGTTGCGCAGCAACCGTCCGACGATCAGCCCGCCGAAAAATCGACCCTCGCAACAGCCGCAGCCCGCCCCTCGGGTGAGGAAACGGAAACGGCGACCCATCGCCCCGAAGCCCAGCCGCTGCCTCGGGCCATGCTGGACCCGGAAGCGAGGATGGCGATGCTGGAGCAATCGGCTTCGCAATCGTTGATCGCCGCGGCTCTGGTAAAAGACGGCACACCGCTGCCGCTCGTCGCCTATCCGCCGGCGGATGAGGACTATGAATCGGAAACGCCGCCGCGCGGCGGCGGCCCGTTTTCCGATGATGAGGCAAATGACGAGGCCGAAGCCGGTGCTGATAATTCCGACGGTCAGGACGAAAAAGAAGAGCGCATCGCCGCCAATGACGGGATCGACACGCAGGAAAGCCCGACGGCGGTGGCTTCCGACGACAGCGCGGAAAATTATTATCTGAAGATGAGCGGCATGCTCTGA	MLPPVPKIAATDAAYGTTVSLTPREQVKEAAPPQPNIPAPENSSLFARAAIASLTSEFQLSRSTAVLAEALGKLMNLPRRDGEAIETYVTRLTEALRTLPAPQRLALEQQVGKALQGLTLSMLAEILKQPTGPDAARLALLIELSRYKGTDLAAKAVVSSYQQNNSSNPAPAQSAQPKQQNAQSQNAEARPSSAATAQAANSATVSRLLPLLIGPLALSGAAMKATVAVLTAQLDPRPTLSTPPADTHETPTVAAKPDGRAENTARPLPTQTGSVMKEVSAEARPANPPRAETGEARPAPPHRETMKPEQKEIRTGLTPPSGLFADDAETVNSLLLAATAGKLPLKPTGTQEPPPTPQAVAQQPSDDQPAEKSTLATAAARPSGEETETATHRPEAQPLPRAMLDPEARMAMLEQSASQSLIAAALVKDGTPLPLVAYPPADEDYESETPPRGGGPFSDDEANDEAEAGADNSDGQDEKEERIAANDGIDTQESPTAVASDDSAENYYLKMSGML				NA	NA	NA	NA	NA
BMS010_02444	1701	rpsA_1	COG0539	30S ribosomal protein S1	ATGTCAGTATCTACCCCCACGCGCGAAGATTTCGCAGCGCTTCTCGAAGAATCATTTGCCTCCAACGATCTTGCCGAAGGCTATGTTGCCAAGGGTATCGTAACGGCAATCGAGAAGGACGTTGCCATCGTCGACGTCGGCCTCAAGGTTGAAGGCCGCGTACCGTTGAAGGAATTCGGCGCGAAGTCCAAGGACGGCACGCTGAAGGTCGGCGACGAAGTCGAAGTTTACGTCGAGCGCATCGAAAACGCCCTCGGCGAAGCCGTTCTGTCGCGCGAGAAGGCTCGCCGCGAAGAAAGCTGGGTCAAGCTCGAAGCCAAGTTCGAAGCTGGCGAGCGCGTCGAAGGCGTTATCTTCAACCAGGTCAAGGGTGGTTTCACCGTCGATCTGGACGGCGCTGTTGCGTTCCTGCCGCGTTCGCAGGTGGACATTCGTCCGATCCGCGACGTTACCCCGCTGATGCACAACCCGCAGCCCTTCGAAATCCTCAAGATGGACAAGCGTCGCGGCAACATCGTTGTTTCGCGCCGCACGGTTCTCGAAGAGTCGCGTGCCGAGCAGCGTTCTGAAATCGTTCAGAACCTCGAAGAAGGCCAGGTTGTTGACGGCGTCGTCAAGAACATCACCGATTACGGTGCGTTCGTTGACCTCGGCGGCATCGACGGCCTGCTGCACGTTACCGACATGGCATGGCGCCGCGTCAACCATCCTTCGGAAATCCTCAACATTGGCCAGCAGGTCAAGGTTCAGATCATCCGCATCAACCAGGAAACCCACCGTATCTCGCTCGGCATGAAGCAGCTCGAGTCGGATCCGTGGGATGGCATCTCCGCCAAGTACCCGGTTGGCAAGAAGATCTCCGGTACGGTCACGAACATCACCGACTACGGTGCATTCGTTGAGCTGGAGCCGGGCATCGAAGGCCTGATCCACATTTCCGAAATGTCCTGGACCAAGAAGAACGTACACCCCGGCAAGATCCTGTCCACGAGCCAGGAAGTTGACGTTGTCGTTCTCGAAGTCGATCCGTCCAAGCGCCGTATCTCGCTCGGTCTCAAGCAGACGCTTGAAAACCCGTGGCAGGCATTTGCCTACAGCCACCCGGCCGGCACTGAAGTTGAAGGCGAAGTCAAGAACAAGACCGAATTCGGTCTGTTCATCGGCCTCGAAGGCGATGTCGACGGCATGGTTCACCTGTCGGACCTCGACTGGAACCGCCCGGGCGAGCAGGTCATCGAAGAGTACAACAAGGGTGACGTCGTCAAGGCTGTCGTTCTCGACGTTGACGTTGAGAAGGAACGCATCTCGCTCGGCATCAAGCAGCTCGGCAAGGATGCTGTCGGCGAAGCCGCTTCTTCCGGCGACCTGCGCAAGAACGCAGTCGTTTCCGCTGAAGTCACTGCGGTCAACGATGGCGGCATCGAAGTGAAGCTCGTCAACCACGAAGACCTCACCTCGTTCATCCGTCGCGCTGACCTCTCCCGTGACCGCGACGAGCAGCGCCCCGAGCGCTTCTCGGTTGGCCAGGTTGTCGACGCCCGCGTGGTCAACTTCTCGAAGAAGGACCGCAAGGTCATGCTTTCGATCAAGGCTCTGGAAATCGCTGAAGAGAAGGAAGCCGTCGCACAGTTCGGTTCATCCGACTCGGGCGCTTCGCTCGGCGACATTCTCGGCGCGGCTCTGAAGAACCGCGGCGAATAA	MSVSTPTREDFAALLEESFASNDLAEGYVAKGIVTAIEKDVAIVDVGLKVEGRVPLKEFGAKSKDGTLKVGDEVEVYVERIENALGEAVLSREKARREESWVKLEAKFEAGERVEGVIFNQVKGGFTVDLDGAVAFLPRSQVDIRPIRDVTPLMHNPQPFEILKMDKRRGNIVVSRRTVLEESRAEQRSEIVQNLEEGQVVDGVVKNITDYGAFVDLGGIDGLLHVTDMAWRRVNHPSEILNIGQQVKVQIIRINQETHRISLGMKQLESDPWDGISAKYPVGKKISGTVTNITDYGAFVELEPGIEGLIHISEMSWTKKNVHPGKILSTSQEVDVVVLEVDPSKRRISLGLKQTLENPWQAFAYSHPAGTEVEGEVKNKTEFGLFIGLEGDVDGMVHLSDLDWNRPGEQVIEEYNKGDVVKAVVLDVDVEKERISLGIKQLGKDAVGEAASSGDLRKNAVVSAEVTAVNDGGIEVKLVNHEDLTSFIRRADLSRDRDEQRPERFSVGQVVDARVVNFSKKDRKVMLSIKALEIAEEKEAVAQFGSSDSGASLGDILGAALKNRGE				NA	NA	NA	NA	NA
BMS010_02445	633	cmk_1	COG0283	Cytidylate kinase	ATGACCTTCACGATCGCCATAGACGGGCCGGCTGCGGCGGGCAAAGGAACCCTGTCGCGCAGGATTGCCGAGACCTATGGTTTCCACCATCTCGATACCGGGCTGACCTACAGGGCGACCGCCAAGGCGCTTCTGGATGCCGGCCTGCCGCTCGACGATGAGGCTGTGGCGGAGAAGATCGCGCTGGAAGTCGATCTTGCGGGGCTCGATCGCGCCGTTCTTTCCCGGCACGATATTGGCGAGGCCGCATCCAAAATCGCGGTGATGACGCCGGTGAGGCGCGCGCTCGTGAAGGCGCAGCAGCGTTTTGCCGCAAAGGAACCGGGCACGGTGCTTGACGGGCGTGACATCGGCACGGTGGTGTGCCCGCAGGCGCCGGTGAAGCTTTACGTCACGGCCTCCGCGGACGTGCGGGCGCGCCGCCGTTACGATGAAATTCTGGCCAATGGCGGCAGCGGCGATTATGATGCCATTTTCGCTGAAGTGAAAAAACGCGACGAGCGCGACATGGGCCGCGCCGACAGCCCGTTGAAGCCGGCTGAAGACGCGCACTTGCTAGATACGTCGGAAATGAGTATAGAGGCGGCGTTTCAGGCCGCGCGGACGATCATCGACGCCGCCCTGAAGAGATAG	MTFTIAIDGPAAAGKGTLSRRIAETYGFHHLDTGLTYRATAKALLDAGLPLDDEAVAEKIALEVDLAGLDRAVLSRHDIGEAASKIAVMTPVRRALVKAQQRFAAKEPGTVLDGRDIGTVVCPQAPVKLYVTASADVRARRRYDEILANGGSGDYDAIFAEVKKRDERDMGRADSPLKPAEDAHLLDTSEMSIEAAFQAARTIIDAALKR	PGPT0021220_3972	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021220-cmk-K00945	NA	NA
BMS010_02446	387			hypothetical protein	GTGGCAAAAGCGGAACTTGGTACCAAGCGCACAGACCCCGATACCGGCAAGAAGTTCTACGATCTGAACCGCGATCCGGTCGTTTCTCCCTACACCGGCAAGTCCTGGCCGCTCTCCTTCTTCGAGGAAAGCACCGCCCAGGCCAAGATGGAGCAGGCTGAAGAAGAGGAAGTGGCGGAAGTCGATACCGAAAACACGGAAGTCGAACTCGTCTCGCTGGAAGATGCCGATGGCGACAACAACGGCGACGATATCCCCGATCTCGGCGACGACGATGACGTCGAAATCGATGACGACGACGACACCTTCCTCGAAACCGACGACGAAGATGACGACGACGACATGTCCGGCATCATCGGCGTATCGGGCGACGACGAAGAAGCTTGA	MAKAELGTKRTDPDTGKKFYDLNRDPVVSPYTGKSWPLSFFEESTAQAKMEQAEEEEVAEVDTENTEVELVSLEDADGDNNGDDIPDLGDDDDVEIDDDDDTFLETDDEDDDDDMSGIIGVSGDDEEA				NA	NA	NA	NA	NA
BMS010_02448	501			hypothetical protein	ATGGTCCGGCAGATCGCAATTTTGCTGTTTCAGATCGTCCTGGCCATTGGCTTCGGCATAGCCGGCATCCGCATCGCCTCGCTCGTCAATGGCGAGGCAACATCGACGCGAGCAGGCCTTGCGGCCAATACGGAACTACTTTGGACGACCTCACCGGTGCGGGTCGATCCGCGTAGCCAAAATTACGAGCGCATTCCGACGCCTCCCGATCTTTATCCGCTGAAAATGCATGCGGACCAGCGCCTGCGCGTCATCTCCAGCAGCCGCTTCACTTTCAAGGGCCAGGAATTCCGCCTCGCCGGCGTGGAGGATGTCGAGCGTAACCGCGTCTGCACCGGCCCCGACGGCCGCCGTTACGCCTGCGGCCTCAACGCCTTCAAGGCGCTGGAGAACCGGCTGCGCGGCAGATATCTGGAATGTCGGACGGTGGAGGAAGGTGGTGCCGGCAGTTCCGTGGAGTGCCGGATCAACGGGCAGGATGTGCGAGCGCTGCTGCAATAG	MVRQIAILLFQIVLAIGFGIAGIRIASLVNGEATSTRAGLAANTELLWTTSPVRVDPRSQNYERIPTPPDLYPLKMHADQRLRVISSSRFTFKGQEFRLAGVEDVERNRVCTGPDGRRYACGLNAFKALENRLRGRYLECRTVEEGGAGSSVECRINGQDVRALLQ				NA	NA	NA	NA	NA
BMS010_02449	375			hypothetical protein	ATGTTGGAGAATATATCTCTCGAAGAGACACTTGTGGGTTATTACACCTGGAACATCGGGCAAAACCTGATTTACCTCGATGCCGTGGCGGCCCGCCTGCGCGAATTCTCCCCGGAAAAAGCCGCTCGCGGCATTCCGGTCGAGGATTTCATCGCGCAGATAGAAAGCGGCTCGCGCGCACGCGTCGCCAAAGCGGTCTACAATTCGCTGACAAACGGCGTGTTCTATGATCAGGAATATCGCATTCAGCTCAAATCTGGCGGCTTCCGCTGGTTGCGGACAACGGGACGGGTGATCCTCGACAGCGACCAGCTTCCGATCATGGCCATGGGCACGGTGCGGGATGTCAGTGCCGGCAAGATTTTATTGATGTGA	MLENISLEETLVGYYTWNIGQNLIYLDAVAARLREFSPEKAARGIPVEDFIAQIESGSRARVAKAVYNSLTNGVFYDQEYRIQLKSGGFRWLRTTGRVILDSDQLPIMAMGTVRDVSAGKILLM				NA	NA	NA	NA	NA
BMS010_02450	903			hypothetical protein	GTGACCATCGGGCTTGCCCATGCCGAACTCATCGCCGTCGTCACCGCCATCACCACGGATGAGCCGCGGGTCATGACCGTTCGGGAAGGCGCAGCGCTTCCGTCGGGACCGTTCGAATTCGGACACAGAACCCTCCAGAGCGGCTTGCGGGAATGGATTCACGAACAGACCCATCACCCCGTCGGTTATCTCGAACAGCTCTATACTTTCGCCGATCGCGACCGCAACAACGACATTTTAGGCGGCAGAACCATCTCCATCGGTTATCTCGGACTGGTTCGCGAACAGGAGGCCTCCGGCGGCAAACGCCCGCTCTGGCACGGCTGGTACGAATATTTCCCCTGGGAGGATCACCGTCAGGGACGCCCGGAAGTTCTGGACAGCATCATCGACAGGCTGCGCGCCTGGGCGGATTCCGATCCCGCCTCCAAAAGCCAGCGCCATTTGCGGGCCGATTTCACCTTCGGCCTCGATGGCGGGGGCTGGAACGAGGAATTGACCCTGCAGCGTTACGAGTTGCTGTATGAAGCCGGGCTTGTCGAAGAGGCGCAGAGCGAACCGCGGATCAATTTCGGCAGGCCGATGTTTGCCGATCACCGCCGCATCCTTGCCACCGGCATCGCGCGTCTGCGGGCCAAGATCAAATATCGCCCGGTGGTGTTCGAACTGATGGCCGACGCCTTCACACTCCTGCAGCTACAGCGCGCCATCGAGGCACTGGCCGGGCTGACGTTGCACAAGCAGAACTTCCGCCGGCTTATCGAACAGCAGCAACTGGTGGAAGAGACCGGCGAGATGGCGACCGAAACCGGCGGCCGCCCGGCAAAGCTCTTCCGCTTCCGCCAAACCGTTCTCGATGAACGCGCCCTTTCCGGAACGAAACTGCCACTCTCCCGCAATTGA	MTIGLAHAELIAVVTAITTDEPRVMTVREGAALPSGPFEFGHRTLQSGLREWIHEQTHHPVGYLEQLYTFADRDRNNDILGGRTISIGYLGLVREQEASGGKRPLWHGWYEYFPWEDHRQGRPEVLDSIIDRLRAWADSDPASKSQRHLRADFTFGLDGGGWNEELTLQRYELLYEAGLVEEAQSEPRINFGRPMFADHRRILATGIARLRAKIKYRPVVFELMADAFTLLQLQRAIEALAGLTLHKQNFRRLIEQQQLVEETGEMATETGGRPAKLFRFRQTVLDERALSGTKLPLSRN				NA	NA	NA	NA	NA
BMS010_02451	972	nadA_1	COG0379	Quinolinate synthase A	GTGAACGAGCAGATTTCCGCCGCAAGCCTTTACGACCGCGTTGCCCGCGTCATTCCCAAGGCCGAATGGATGAGCTTTCAGGACGATGTGGAGGCGATCCTCGAGCTGAAGCGCAAGCGCAATGCCGTTATCCTCGCCCATAATTATCAGACACCGGAAATCTTCCACGGCGTCGCCGATATCGTTGGCGACAGCCTTGCCCTTGCCCGCAAGGCGATGGAGGTGGAAGCGGATGTCATCGTTCTGGCCGGCGTGCATTTCATGGCCGAGACGGCAAAGCTGCTCAATCCGGAGAAAACCGTGCTCATTCCGGATATGGCCGCCGGTTGTTCGCTGGCCGATTCCATCACGCCCGAGGACATCGCGCTCCTGCGCAAGGCCTATCCCGGCGTTCCGGTCGTGACCTACGTGAACACCTCCGCCGCGGTGAAGGCGGCATCCGATATCTGCTGCACCTCCGGCAATGCCCGTCAGGTGGTGGAATCGCTCGGCGTGCCGCGCGTGCTGATGTTGCCGGATGAATATCTGGCGAAAAACGTAGCGCGGGAAACCGATGTCGAACTGATCGCCTGGCGCGGCCATTGCGAGGTACACGAGCTTTTCACCGCCGATGATATTCGCGAATTGCGCGAAAGCCATCCGGGTGTCACCGTACTCGCGCATCCGGAATGTCCGCCCGATGTCGTCGAGGCTGCGGATTTTTCCGGCTCCACCGCCGTCATGTCGGATTATGTCGGACGGGAACGACCGGCCCGCGTGGTGCTTTTGACGGAATGCTCGATGAGCGACAATGTCGCCGTGCATCACCCCGATGTCGAATTCATCCGCCCCTGCAATCTCTGCCCGCATATGAAGCGCATCACGCTTGGCAATATCCGCACGGCGCTGGAGGAAAACCGCCACGAAGTGACGGTCGACCCGGCCATCGCTGTCGCCGCCCGCCGCGCCGTGGAAAGGATGCTGGAAGTATGA	MNEQISAASLYDRVARVIPKAEWMSFQDDVEAILELKRKRNAVILAHNYQTPEIFHGVADIVGDSLALARKAMEVEADVIVLAGVHFMAETAKLLNPEKTVLIPDMAAGCSLADSITPEDIALLRKAYPGVPVVTYVNTSAAVKAASDICCTSGNARQVVESLGVPRVLMLPDEYLAKNVARETDVELIAWRGHCEVHELFTADDIRELRESHPGVTVLAHPECPPDVVEAADFSGSTAVMSDYVGRERPARVVLLTECSMSDNVAVHHPDVEFIRPCNLCPHMKRITLGNIRTALEENRHEVTVDPAIAVAARRAVERMLEV	PGPT0013365_3058	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013365-nadA-K03517	NA	NA
BMS010_02452	1572	nadB_1	COG0029	L-aspartate oxidase	ATGAGCGAACGCCTCCCGTCGCATACGGGCTGGACGGTCATTGTCGGCAGCGGCATTGCGGGCCTGATGGCGGCGCTGACGCTTGCGCCGCAGCCCGTGCTGCTTCTCACACGCGGCGTTCTGGGCGGCGAGACCTCCAGCGCCTGGGCGCAGGGCGGCATTGCCGCCAGCCTCGGTCCGGACGATAGCGCCGCGCTGCATCTTGCCGATACGCTCGCCGCAGGCGACGGCCTCTGCGACGCGGAAATGGCCGCAGAGATCGTTTCCGCCGCCCCCGCCGTCATCGAGGCGCTGGAGCGGGCCGGAGTGCGCTTCGACCGGGATGTCGAAGGCAGGCTCGTTTTCGGGCTGGAGGCCGCCCATGGCAGAAGGCGCATCCTGCATGCCGAAGGGGACGGGTCAGGCGCGGCCATCGTCAGGGCTCTCGCCGCCGCCGTTCTTCGCACGCCGTCCATAACCGTTCTGGAAGGCACGGAGGTTCGCCGCCTGCTGACGGAAGACGGCGTCGTCGTTGGTCTCGCCTGCATCGGGCCAAAAGGCTGCTTCACTTTGCCGGCAAGCCAGGTCGTTCTCGCCACCGGCGGCCTCGGCGGGCTTTATGAGGCGACGACCAATCCCGCCGGCAATTTCGGGCAGGGCATCGTGCTCGCCGCCCGCGCCGGCGCCATCCTCGCCGATATGGAATTCGTGCAATTCCACCCAACGGCGCTTTCCTCGCCCCGACGGCCGCTGGCGCTGGTGAGCGAAGCGGTGCGGGGTGAAGGCGCGCTGCTTCTCAATGAAAACGGCGAACGTTTCATGGCGGCCGTTCCGGGTGCGGAACTCGCCTCCCGCGATATTGTCGCCCGCGCCATCGACCGCGAAATACTGCGTGGCGGCAAGGTCTTTCTCGATGCCCGCAAGGCGCTCGGCTCCGGCTTTTCCGCTCGCTTCCCCTCGATCGACCTGCTCTGCCGCGAAGCCGGGATAGACCCGGCCCGTGAACTCGTGCCGGTGCGCCCGGCGGTGCATTACCATATGGGCGGCGTCGCCACCGATGGCAGAGGCCGAAGCTCGGTGCCGGGCCTGTGGGTCGCCGGCGAAACCGCCTGCACGGGTCTGCATGGCGCGAACCGGCTTGCCAGCAATTCCCTGCTGGAAGCGGCGGCCATGGGCATGCGTGCCGCAGAAGACATTGCAGGCAGGCAGGCATATGCGGAAAAACGGGCAGTGGATATCGCAACACTCCCGATGCCCGATGTCCCGGCAGCCGACCTCTCACCCGTCCGGCACATCGTTTCCCGCCATCTCGGCATCGCAAGACATGCGGAAGGGCTGACGGGCGCGATCCGCGATCTTCTGCCACTGGCTGAGCGGAACGGCCCGGCATGCGATCCTGCCCTTGTCGCGCTGGCCATCGCCGTCTTTGCGGCGCTGCGCACGGAATCGCGCGGCGCGCATTTCCGCGACGATTTCCCTGAAAAACATGCGACGGCCACGAGGCGCAGGCTGAACCTCAGCGACGTTCTCACCATCGCCCATGAATTTTCCTCTTCCAGCCATTCTTCGGCCAGCCTTGCGCGGAGCGCCTGA	MSERLPSHTGWTVIVGSGIAGLMAALTLAPQPVLLLTRGVLGGETSSAWAQGGIAASLGPDDSAALHLADTLAAGDGLCDAEMAAEIVSAAPAVIEALERAGVRFDRDVEGRLVFGLEAAHGRRRILHAEGDGSGAAIVRALAAAVLRTPSITVLEGTEVRRLLTEDGVVVGLACIGPKGCFTLPASQVVLATGGLGGLYEATTNPAGNFGQGIVLAARAGAILADMEFVQFHPTALSSPRRPLALVSEAVRGEGALLLNENGERFMAAVPGAELASRDIVARAIDREILRGGKVFLDARKALGSGFSARFPSIDLLCREAGIDPARELVPVRPAVHYHMGGVATDGRGRSSVPGLWVAGETACTGLHGANRLASNSLLEAAAMGMRAAEDIAGRQAYAEKRAVDIATLPMPDVPAADLSPVRHIVSRHLGIARHAEGLTGAIRDLLPLAERNGPACDPALVALAIAVFAALRTESRGAHFRDDFPEKHATATRRRLNLSDVLTIAHEFSSSSHSSASLARSA	PGPT0013355_2639	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013355-nadB-K00278	NA	NA
BMS010_02453	858	nadC_1	COG0157	Nicotinate-nucleotide pyrophosphorylase [carboxylating]	ATGATCCTTTCACCCCTGCCACGCCTCATCATCGAACCGCTCGTGCGCAATGCTCTTCTGGAAGACCTCGGACTGGCGGGCGACATCACGTCCGTCGCCGTCATTCCCGCCGATCATCGCTCGGTCGTCGTCATGGCCGCGCGCGAACCGGGCGTTATCGCCGGTCTCGACGCGGCAGAACTCGCTTTCCAGCTCGTGGATCCGGCCATCGCGATGAAACGGCATGTGCAGGATGGGGCCGCCGTGACGCCTGGCGATATCATCGCAACGATCGAAGGTCCCTCACGCGGCCTTCTGACGGCGGAGCGCACGGCGCTGAATTTCCTCGGCCACCTGTCGGGCATCGCTTCCGTCACCGCAAAAATCGCTGCCGCCATTGCCGGCACCAAGGCCTCGGTCGCCTGCACCCGCAAGACGACGCCGGGGCTGAGAGCGCTTGAAAAATATGCCGTGCGCGCCGGCGGCGGCATGAACCACCGTTTTGCGCTTTATGACGCCGTTCTCATCAAGGACAACCATATTGCCGTGGCGGGCGGCGTGCGCGACGCCATCCGCCGGGCCCGGCAGGGCGTGGGACATCTCGTCAAGATCGAGGTGGAGGTCGATACGCTAGCGCAGTTGCGCGAGGTCATGGATGAGGGCGTCGATGCGGTCCTTCTCGACAATATGACACCCGAACAGCTGCGCGAGGCGGTGGGAATCGTCGCCGGTCGCGCCATTACCGAAGCGTCCGGCCGCATCAATCCGCAGACGGCCGCAGCCATCGCCGCAACCGGCATCGATCTCATCTCCGTCGGCTGGCTGACCCACAGCGCGCCGGTTCTCGATATCGGCCTCGACTTTCAAAGCCAGAGCTAA	MILSPLPRLIIEPLVRNALLEDLGLAGDITSVAVIPADHRSVVVMAAREPGVIAGLDAAELAFQLVDPAIAMKRHVQDGAAVTPGDIIATIEGPSRGLLTAERTALNFLGHLSGIASVTAKIAAAIAGTKASVACTRKTTPGLRALEKYAVRAGGGMNHRFALYDAVLIKDNHIAVAGGVRDAIRRARQGVGHLVKIEVEVDTLAQLREVMDEGVDAVLLDNMTPEQLREAVGIVAGRAITEASGRINPQTAAAIAATGIDLISVGWLTHSAPVLDIGLDFQSQS	PGPT0013370_2565	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013370-nadC-K00767	NA	NA
BMS010_02454	252			hypothetical protein	ATGGAAGACGCACAAGTTGGCTGGATTGCAGCAATCATCATCGGCGGCGTAGCCGGTTGGCTGGCCGAACAGTTCATGAAAAGCAATATGGGTCTTTTCATGAACATTATCCTCGGCATTGTCGGCGCCATCGTCGCCAATTTCCTTCTGGGGCTCGTGGGCATTTCGCTCGGAGGCTGGATTGGCTATCTCATCGCCGGCTTCATCGGCGCCTGCATTCTCATCGCCGTCGGGCGGGCATTTCGCCGCTAA	MEDAQVGWIAAIIIGGVAGWLAEQFMKSNMGLFMNIILGIVGAIVANFLLGLVGISLGGWIGYLIAGFIGACILIAVGRAFRR				NA	NA	NA	NA	NA
BMS010_02455	411			hypothetical protein	ATGAGCTTTTTCGACAAGATCAAGAACGCTATTTTCGGCAAGGCCGAGGCCGCACCGCAGACTTCGGCTCCGGCCGGCACGCCGGCAGCCACGGCAAGCCCGGCCGCACCGGCCGCACCCGCTCCGACAGCCGCGGCTCCGGCCCCCGCCGGCAATGTCGACGTCGCTTCGATCCTGGATGCGGCGGTCAAGCAGAACGGCCAGAAACTCGACTGGAAACATTCGATCGTCGACCTTCTGAAAGCGCTCAATCTGGACAGCAGCCTCAGCGCCCGGAAGGAACTGGCCGGCGAACTCGGCTATACCGGCGACACCTCGGATTCGGCGACCATGAACATCTGGCTGCACAAGGCCGTCATCAAGAAACTGTCCGAAAACGGCGGCAAGGTTCCAGCCGACCTTCTGGATTGA	MSFFDKIKNAIFGKAEAAPQTSAPAGTPAATASPAAPAAPAPTAAAPAPAGNVDVASILDAAVKQNGQKLDWKHSIVDLLKALNLDSSLSARKELAGELGYTGDTSDSATMNIWLHKAVIKKLSENGGKVPADLLD				NA	NA	NA	NA	NA
BMS010_02456	189			hypothetical protein	ATGGACGACTATTCCAGCCTTCGAGAGCAGATCGGCCAGGACCTCGACACCCTGCACAGGACCGAGAATCCGAAATCGATCTTCGAGATCGCCGACGACTATCTTCTTGGAAATCCAAATCTCAAGAGGGCCATCGTCGAAGACATCATCAAGGAAGAAGCGGACAAGCGCGGCATCGCGATCCACTGA	MDDYSSLREQIGQDLDTLHRTENPKSIFEIADDYLLGNPNLKRAIVEDIIKEEADKRGIAIH				NA	NA	NA	NA	NA
BMS010_02457	123	cydX		Cytochrome bd ubiquinol oxidase subunit X	ATGTGGTATTTCGCCTGGCTGCTCGGCCTGCCTCTCGCCGCCATCTTCGCCGTCATGAACGCCATGTGGTATGAGTTGATGGAAGAAAACGCGAAAAAGGCCGAAGCGAAGCTGGATAAATAG	MWYFAWLLGLPLAAIFAVMNAMWYELMEENAKKAEAKLDK				NA	NA	NA	NA	NA
BMS010_02458	1158	cydB_1	COG1294	Cytochrome bd-I ubiquinol oxidase subunit 2	ATGATATTGCACCAACTCATCGACTACGAAATCCTCCGCGTCATCTGGTGGCTGCTGCTTGGCGTGGTGCTGATCGGTTTTGCCGTGACCGGCGGTTTCGATCTCGGTACCGGCGCGTTGCTGCCCTTCGTGGCGAAAACGGATATCGAGCGGCGTGTCGTCATCAATTCCATCGGCCCCGTCTGGGAAGGCAATCAGGTCTGGCTCATCCTTGGCGGCGGCGCGATCTTCGCCGCGTGGCCGCCGCTTTATGCAGTGTCGTTTTCAGGGTTTTACCTGGCGATGTTCGCCACCCTGTTTGCGCTGATCCTGCGGCCGGTCGGTTTCAAATATCGCTCCAAGCGGGAAAGCGCCGCCTGGCGCACCGGCTGGGACTGGGCGCTCTTCATCGGCGGCTTCGTTCCGGCGCTAATCTTCGGCGTGGCCATCGGCAATGTGCTGCAGGGCGTTCCCTTCCACCTCAATGACGACCTCAGGATTTTCTACGATGGCACGACGCTGTTCGAGCTTCTGAACCCTTACGCCATCCTCTGCGGCCTCGTATCCGTCGCCATGCTCGTCATGCACGGTGCCGCATGGCTGGTGCTGAAGACGGATGGTCCAGTCGCGGCCCGTGCTCGCGGTTTCGGCAGCATCGCGGCGCTTGCCACCACCGTTCTTTTTGCGCTCGGCGGCGTCTTTCTGTGGCTCGGTGTCGATGGTTATCGCTTCACCTCGGAGGTCGTCACCGACGGTCCGTCCAATCCGCTGTCGAAGACGGTAGAGGTTGCGGGCGGTGTCTGGTTTGCCAATTATGCGGCGCATCCCTGGATGATGCTGGCGCCGGCGCTCGGTCTTGTCTTCCCACTCGTCGCTTTCGTCTTGCTCCGGGTCCGTAGGGAAGTGCTGGCACTGCTTTCCAGCTCGCTCGCCATTTTCGGCATCATCGCAACGGTGGGGCTGACGATGTTTCCCTTCATCCTGCCGTCTTCGGTCGATCCGAAATCGAGCCTGACGGTCTGGGATGCATCTTCCAGCCATATGACGCTGTTCATCATGCTGGTCGTCGCCCTCATCTTCATCCCGATCATCGTCGCCTATACGTCATGGGTCTATCGCGTGCTGTGGGGCAAGGTGGATGAAAAGGCGATCCGCGACGATAGCGGTCATGCTTATTGA	MILHQLIDYEILRVIWWLLLGVVLIGFAVTGGFDLGTGALLPFVAKTDIERRVVINSIGPVWEGNQVWLILGGGAIFAAWPPLYAVSFSGFYLAMFATLFALILRPVGFKYRSKRESAAWRTGWDWALFIGGFVPALIFGVAIGNVLQGVPFHLNDDLRIFYDGTTLFELLNPYAILCGLVSVAMLVMHGAAWLVLKTDGPVAARARGFGSIAALATTVLFALGGVFLWLGVDGYRFTSEVVTDGPSNPLSKTVEVAGGVWFANYAAHPWMMLAPALGLVFPLVAFVLLRVRREVLALLSSSLAIFGIIATVGLTMFPFILPSSVDPKSSLTVWDASSSHMTLFIMLVVALIFIPIIVAYTSWVYRVLWGKVDEKAIRDDSGHAY	PGPT0026705_101	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026705-cydB-K00426	NA	NA
BMS010_02459	1578	cydA_1	COG1271	Cytochrome bd ubiquinol oxidase subunit 1	ATGGAACTCGACATAGTGGCGCTGTCGCGCCTGCAATTTGCAGTGACGGCTTTATATCACTTTCTGTTCGTTCCCCTGACGATCGGACTATCGGTGGTGATCGCCATCATGGAAACGGTCTATGTCATGACCGGCCGCACGGTCTGGCGGCAGATGACGAAATTCTGGGGCACCCTGTTCGGCATCAACTTCGTGCTCGGCGTTTCCACCGGCATCGTCATGGAATTCCAGTTCGGCATGAACTGGAGTTACTACAGCCACTATGTAGGCGATATTTTCGGTGCGCCGCTGGCCATCGAGGGCATGATGGCCTTCTTCCTGGAAGCCACCTTCGTCGGCCTGTTCTTTTTCGGCTGGGACAAGCTGTCGAAACTCGGCCATCTCGTCGCGACATGGTGCGTGGCGCTCGGTTCGAATTTTTCGGCGCTATGGATATTGATCGCCAATGGCTGGATGCAGAACCCGACGGGATCGGCCTTCAATCCCCAGACCATGCGCATGGAAGTGACTGACTTCTTCGAGGTCCTGTTCAACCCGGTGGCGCAGGCGAAGTTCGTCCACACGGTGTCTGCGGGTTATGTCACGGCCTCCATCTTCGTCCTCGGTGTTTCGGCCTGGTATGTGCTGAAAGGCCGTCATGTCGATCTTGCCAAGCGCTCGATGACGGTTGCCGCCTCCTTCGGTCTGGCGTCCGCGCTGTCGGTCGTCGTGCTGGGTGATGAAAGCGGCTATCTCTCCACCGAACACCAGAAGATGAAGCTCGCCTCCATCGAGGCCATGTGGGAAACCGAGCCGGCCCCGGCACCCTTCACGGCCATTGGTTTTCCCGATCAGGAAGCACGCGAAACGCATTTCGCGGTGAAGATCCCGTGGGTGATGGGCCTCATCGGCACCCGCTCGCTCGACACGCAAATTCCGGGCATCAACGATCTGGTGGAGCAGGCCAAGACCCGCATCCGCGACGGTATCAAGGCCTATGACGCGCTGATGCAGATACGGGCCACCGGTAAGGGCGCGGAGTTGCCGGAAGAGGTGCGCGGCACCTTTGCCGAACTCGGCCATGAGCTCGGTTATGCCCTGCTGCTGAAACGATATGTCGACGATCCGCGCCAGGCGAATGAAGAGCAGATCGCCAAGGCGGCGGCGGATACGATTCCGCATGTGCCGACCCTGTTCTGGTCGTTCCGCATCATGGTCGGCCTCGGTATGTTCTTCATCCTGCTGACGGCGACTTTCTTCTATCTCTCGGCCCGCCGCCGGCTGGATCATTACCCACTGCTGCTGAAAGTGGCGGTCTTCGCCATTCCTTCGCCGTGGATCGCGGCGGAAATGGGCTGGGTGGTGGCCGAATTCGGCCGCCAGCCATGGATCATCGAGGGCGTGCTGCCCACGGCCGCGGCCGTCTCCAGCCTCAGCGCCTCCACGGTCCTCATCACGCTCCTGTGTTTCATCGCCATCTACACGGTGCTGTTCATCGTCGAAATGGGGCTGATGCTGAAGGCGATCCGCAAGGGGCCCGAGCCGGACCATGAGCCGGAAGCGCCGCTCGTTCCTGAAAAACTCGTCGCTGCGGAGTAA	MELDIVALSRLQFAVTALYHFLFVPLTIGLSVVIAIMETVYVMTGRTVWRQMTKFWGTLFGINFVLGVSTGIVMEFQFGMNWSYYSHYVGDIFGAPLAIEGMMAFFLEATFVGLFFFGWDKLSKLGHLVATWCVALGSNFSALWILIANGWMQNPTGSAFNPQTMRMEVTDFFEVLFNPVAQAKFVHTVSAGYVTASIFVLGVSAWYVLKGRHVDLAKRSMTVAASFGLASALSVVVLGDESGYLSTEHQKMKLASIEAMWETEPAPAPFTAIGFPDQEARETHFAVKIPWVMGLIGTRSLDTQIPGINDLVEQAKTRIRDGIKAYDALMQIRATGKGAELPEEVRGTFAELGHELGYALLLKRYVDDPRQANEEQIAKAAADTIPHVPTLFWSFRIMVGLGMFFILLTATFFYLSARRRLDHYPLLLKVAVFAIPSPWIAAEMGWVVAEFGRQPWIIEGVLPTAAAVSSLSASTVLITLLCFIAIYTVLFIVEMGLMLKAIRKGPEPDHEPEAPLVPEKLVAAE	PGPT0026700_695	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026700-cydA-K00425	NA	NA
BMS010_02460	1692		COG1132	putative ABC transporter ATP-binding/permease protein	ATGATCGCGCGTTTTGCGATATTGAAACCCATTATCGGCCTGTTCTGGTCGGCGCGGCGCGGCATGCTCCTGGCGGGCGCGGCTCTTGCGGTAACGACGGTGCTGGCGGGCATCGGCCTTCTCGGCGTTTCCGGCTGGTTCATCACCGCAACGGCAATTGCCGGTCTTCTGCCGGTGACTGCCTATGCCTTCGATGTCTTTGCGCCTTCGGCCGCCATTCGTCTTCTGGCGCTTGCGCGCACCGCCGCCCGTTACGGCGAACGCATGACGACCCATGACGCCACGCTTTCCGTGCTTGCAGCACTTCGGGAAAAGCTGTTTCGCGGCTTTGCCGCGCCGCAGGCCGCGAAATCCCTGGAGGCGAGGCCTGCGCGCCTGCTGAACCGGCTGACGGCGGATATCGATGCGCTGGATTCGCTTTATCTGCGCGTGCTGGTTCCCGCCGCCGTCGCGGTCCTTGCTGCAATCGCGACAGGCCTCGGGCTTGCTTTTCTCCATCCTCTGGCGGGCATTCTGGCGGCGGTTTTCCTCGTCGCGGCGGGGCTTGGAATTTCGGTTCGCGCCGCCTTGCGGGCGGAAACATTCTCGCGCCGCCGGGCAATCGGGCTGGAAGCCCTTCGGGCCCGCACGGCCGATCTCGTGAGCGGGCAGACGGAGCTCTTGACCACCGGCCGCCTTTCCGCGCAGGTCGCGGCGGTGAAACGGGCGGATGGCTACCTCTCTGCCTGCGATGACACCCTGAACCGTATCGAAACCAGTGCCGGTTTTTCCTTCGGGGTTTCCGCGGCCGTTCTTTTGAGCGCCGCCCTTCTCGGCATGGCCTGGCTTGCGGAACAGGGGGCGGTGAACGCGCCGACCGCGGCTCTCGGGCTGCTCGTCTGTTTTGCCGCGCTGGAGCCTTTTACGGCGCTGCGTCGTGGCGCGATGGAACTTGGGCGCACGCTGTTTTCCGCAAGGCGCATCGCGCCGCGTCTTTCGGCAACGGCTGAAGGCCGCTGTCCCGTCTCGCCGGTCAAGGGCATGGCGGCAGAGCTCAAAAATGTGCGTTTGGAGCGTGAAGGGAACGACAATCCGGTCCTGACGAATATCAACATTGCAATCGCCTCCGGGGAACGGATTGCCATCATCGGCCAGAGCGGTGCGGGCAAGACAAGCCTCATCCAGCTTCTGGCGGGTGAATTGCGGCCGGCGGCGGGCACGGTCAGCGCCCTGCCGTCCACCCTGATGACGCAGCGAAGCCAGCTTTTCCGCGACAGCATCGCCGACAATCTGCGGCTGGCGAAACCCACCGCAACCGGGGCCGAATTATGGGACGCGCTCGAGGCGGCAGGCCTTGCCGAACACGTCAAAACCTTGGCCGCCGGGCTGGAGACAAGGCTTGGCGAGGCGGGCCAGGGGCTTTCCGGCGGCCAGTCGCGCCGGCTGGCGCTCGCCCGTTTCCTGCTCGCCGACCGGCCGCTCTGGCTTCTTGACGAGGTGACGGAAGGGCTGGATGGCGAGACCGCCCGCGACGTGCTCACCCGGCTGTTTGCGAGGGCAGAGGAAAAGACTGTCGTGATGATCACCCATAATCGCCGCGAGGCGGAATTTGCCGATCGCATCATCGTGCTGAAAGAGGGACGTCAATTTGATGAATGTCAAAGCGGCACCCCGGAATACGGCGTAGTGCTGGAGACGCTGCGCCCGGACTGA	MIARFAILKPIIGLFWSARRGMLLAGAALAVTTVLAGIGLLGVSGWFITATAIAGLLPVTAYAFDVFAPSAAIRLLALARTAARYGERMTTHDATLSVLAALREKLFRGFAAPQAAKSLEARPARLLNRLTADIDALDSLYLRVLVPAAVAVLAAIATGLGLAFLHPLAGILAAVFLVAAGLGISVRAALRAETFSRRRAIGLEALRARTADLVSGQTELLTTGRLSAQVAAVKRADGYLSACDDTLNRIETSAGFSFGVSAAVLLSAALLGMAWLAEQGAVNAPTAALGLLVCFAALEPFTALRRGAMELGRTLFSARRIAPRLSATAEGRCPVSPVKGMAAELKNVRLEREGNDNPVLTNINIAIASGERIAIIGQSGAGKTSLIQLLAGELRPAAGTVSALPSTLMTQRSQLFRDSIADNLRLAKPTATGAELWDALEAAGLAEHVKTLAAGLETRLGEAGQGLSGGQSRRLALARFLLADRPLWLLDEVTEGLDGETARDVLTRLFARAEEKTVVMITHNRREAEFADRIIVLKEGRQFDECQSGTPEYGVVLETLRPD				NA	NA	NA	NA	NA
BMS010_02461	1803	cydD	COG4988	ATP-binding/permease protein CydD	GTGAGCATGTCCGTGGAAATCCGTCAGGGGGCCGATGGTGATGGCGCAGTCTGTCCCGCTCCGGTTGGAGTCTCGCCCGATGCGACGCGTCGGCGCTTCTTCAGCAATGCCAATCGCAAAATCTCTCGCGACAGAGCCGCCGGGCGGGCGAAAATGACAGGCGTGCCGGCGGTTGGAAAATCCGTTGCCTTGCTACATGTGCTGGCGGCTTTGCTCTGGGTGCCGCAGGCAGGTTTGCTTGCCTTTTCAGTCGGAAGAATTGCCGATGGCGCGCCGATGATGGCGATTGTGCCGGCTGCGGCCGCGGTTCTCATCCTCGGCCTCATCAAGGCATGGCTGGAAAAGATCGCGGCGCGGCTGTCGTTTCGTGCCGCTCGCGCGGCGCTGTCGCAGCGGCGGCTGGAAGCACTGCAGGCTGTGGCGAGGGTTTCTCCGCTCGATCTGTCGCGCACCGCCTCCGGTGAGGCGGCAGGTGTCGTGGCCGAGGCGGTGGAAGCGCTGGTGCCTTATCTTTCCCGTTTCCAGCCGGCGCGGATGAAGGCGACCATCGTGCCGCTGGTTTTCGTGCTGGCGATCCTGCCCTTTACCTGGATTGCGGCGCTGGTGCTGCTGCTCGCCATGCCAACCATCCCGCTTTTCATGGCGCTCATCGGCTGGCAGGCCAAGGCCGCCAGCGAAAAGCAGCTTGCCGAGACGGGTAATATGAATGCCTTCCTGCTCGACCGCCTGCGCGGGCTGGAAACGATCCGCACGCTTAAAGCCGTCGATCTGACGGCGGAGCGTCTCAGCGCCGATGCGCAAAACCTGAAGAAGCGGACGATGGCGGTGCTCAGGATCGCCTTTCTCTCCTCGGCGGTGCTGGAGCTTTTCGCAGCGCTCGGCGTTGCCATGACCGCCGTCTATATCGGATTCCATCTGCTCGGATTTCTCGATTTCGGCGCCTGGGGCCACAAGCTGACGCTTGCCGAAGGCCTTTTCATCCTGCTGCTGGCGCCGGCCTTTTTCGAGCCGCTGCGGGAACTCTCCGCCGTCTGGCACGACCGCGCAGCCGGTGAAGCAGCGCTTGATGCGCTCGGCAAATTGACGGCCGGCGGTGCGGCAATCGCCGGCGAGGGCGCGGATGTGGCGTCTGTCCCATCCCCGATGCCCGGCCTGCTGGAGATCGACAATCTCTCCTTCGCTTATCCAAGCAACCCACCTGTCATCCAAAATCTCAACCTGACCGTTCAGCAGGGTGAGCGGGTAGCAATTCTTGGGCCTTCCGGTTGTGGCAAATCCACTGTACTCTCCTTGATTGCCGGGCTGGCCGAGGCTGGAGAGGGATCGATCAGGATCGGTGGCGTCAAGCTCGATAATGCGACGGCCGATGGGCTGCGCAGGACGATTGGCTGGGTCAGCCAGAAGCCGTTCTTTTTTGCCGGTTCGCTAAAGGCGAATATTCGCTTCGGCCGTTCGGTTGTCAGCAATGGCATGGTGGAAGAGACGCTGTGCCGCACCGGGCTCGATGGCTTGTCGCAGGCGCGCCGGGATCTGCAGATCGGCGATGGCGGATATGGAATTTCGGGCGGGGAGGCGGTGCGGCTTGCCATTGCGCGTGCTTTCGCAGACCCCGCAACGCAGCTTGTTCTGGCCGATGAGCCGACAGCCCATCTCGACCGGGAAACGGCTGCCCTTGTCACGGAAAACCTGCTGCAACTGGCAAATGGCAGGACATTGATCGTCGCGACCCATGATCCGGTGCTTGCGGCGCGCATGGACAGGATCGTGGATATGACGGCGATCCATTCGAGGGGGCAGCCATGA	MSMSVEIRQGADGDGAVCPAPVGVSPDATRRRFFSNANRKISRDRAAGRAKMTGVPAVGKSVALLHVLAALLWVPQAGLLAFSVGRIADGAPMMAIVPAAAAVLILGLIKAWLEKIAARLSFRAARAALSQRRLEALQAVARVSPLDLSRTASGEAAGVVAEAVEALVPYLSRFQPARMKATIVPLVFVLAILPFTWIAALVLLLAMPTIPLFMALIGWQAKAASEKQLAETGNMNAFLLDRLRGLETIRTLKAVDLTAERLSADAQNLKKRTMAVLRIAFLSSAVLELFAALGVAMTAVYIGFHLLGFLDFGAWGHKLTLAEGLFILLLAPAFFEPLRELSAVWHDRAAGEAALDALGKLTAGGAAIAGEGADVASVPSPMPGLLEIDNLSFAYPSNPPVIQNLNLTVQQGERVAILGPSGCGKSTVLSLIAGLAEAGEGSIRIGGVKLDNATADGLRRTIGWVSQKPFFFAGSLKANIRFGRSVVSNGMVEETLCRTGLDGLSQARRDLQIGDGGYGISGGEAVRLAIARAFADPATQLVLADEPTAHLDRETAALVTENLLQLANGRTLIVATHDPVLAARMDRIVDMTAIHSRGQP				NA	NA	NA	NA	NA
BMS010_02462	579			hypothetical protein	ATGCCAACCAGCCTGTCCCCGCTCGTTCAGTCCTTCGTGCTGCATTTCGGTGAGATGGGCAGCCGCTGGGGCATCAACCGCACTGTCGGCCAAGTCTATGCTTTGCTTTATATTTCGCCGCAGCCATTGTGTGCGGACGAGATTGTGGAGGCGCTTGGCATTTCCCGTTCCAACGTGTCGATGAGCCTGAAGGAGTTGCAGGCTTGGAACCTTGCAATTCTCAAGCATTTTCCCGGCGACCGGCGCGATTTTTTCACGACTCCTGACGATGTCTGGCAAATTCTCCGCACGCTTGCCGAAGAGCGCAAGAAACGCGAGATCGATCCCACGCTCAGCGTGCTGCGCGAAATTCTGATGGAGACGCCGGAAAACGAAGATGAGCGGCATGCGCAAAAGCGCATCGACGAGATGAAGACGCTGATCGAGCAGCTGACCGGCTGGTATGACGATGTGAAGCGGCTGGAGACGGAAAGGCTGGCTTCGCTTCTGGCGCTCGGTTCGAAGGTTACGAAGCTTCTGGAGGCCAAGGACAAGATCGTCTCCCTCGCAAGACCCCGTGGCGCGAAGAAGGACGGGTGA	MPTSLSPLVQSFVLHFGEMGSRWGINRTVGQVYALLYISPQPLCADEIVEALGISRSNVSMSLKELQAWNLAILKHFPGDRRDFFTTPDDVWQILRTLAEERKKREIDPTLSVLREILMETPENEDERHAQKRIDEMKTLIEQLTGWYDDVKRLETERLASLLALGSKVTKLLEAKDKIVSLARPRGAKKDG				NA	NA	NA	NA	NA
BMS010_02463	1032	idnD_2	COG1063	L-idonate 5-dehydrogenase (NAD(P)(+))	ATGAGAGCGATTGTTGCCCATGGGGCAAAGGATGTGCGCATCGAGGAGCGGCCCGAGGAAGCGCCGGGACCGGGAGAAGTGCGGCTTCGTCTGGTCCGGGGCGGAATTTGCGGCAGCGATCTGCATTATTACAACCATGGCGGCTTCGGCGCGGTGCGGCTTCGTGAACCTATGGTGCTCGGCCATGAGGTCTCCGCCGTCATCGAAGAACTGGGCGAGGGCGTGGAAGGGTTGAAGGTCGGCGGTCTGGTTGCCGTTTCGCCTTCCCGCCCATGCCGAACCTGCCGCTTCTGCCAGGAAGGCCTGCACAACCAGTGCCTCAACATGCGCTTTTACGGCAGCGCCATGCCTTTCCCGCATATTCAGGGCGCTTTCCGTGAGGTTCTGGTGGCTGACGCCCTGCAATGCGTGCCGGCCGATGGGCTCAGCGCCGGCGAGGCGGCCATGGCGGAGCCGCTGGCGGTAACGCTGCATGCCACGCGCCGCGCCGGGGATTTGTTGGGAAAACGTGTGCTCGTCACGGGTTGCGGCCCGATCGGCATCCTGTCCATTCTGGCGGCCCGCCGCGCCGGCGCGGCCGAGATCGTCGCGACCGATCTTTCCGATTTCACGCTTGCCAAGGCGCGTGAAGCCGGTGCGGATCGTGTCATCAACAGCAAGGATGAGCCCGACGCACTTGCCGCCTATGGCGCGAACAAGGGAACCTTCGATGTTCTCTATGAATGCTCTGGCGCCGCCGTGGCGCTTGCCGGCGGCATTGCGGCGCTTCGTCCGCGCGGCATCATCGTCCAGCTCGGCCTTGGCGGCGATATGAGCCTGCCGATGATGGCGATCACCGCCAAGGAACTGGATCTGCGCGGCTCTTTCCGCTTCCACGAGGAATTCGCCACCGGGGTCGAATTGATGCGCAAGGGCCTGATCGACGTCAAGCCGTTCATCACCCAGACCGTCGATCTCACCGACGCCATCTCGGCCTTCGAATTCGCCTCGGACCGCAGCCGTGCGATGAAGGTGCAGATCGCTTTTTCGTAA	MRAIVAHGAKDVRIEERPEEAPGPGEVRLRLVRGGICGSDLHYYNHGGFGAVRLREPMVLGHEVSAVIEELGEGVEGLKVGGLVAVSPSRPCRTCRFCQEGLHNQCLNMRFYGSAMPFPHIQGAFREVLVADALQCVPADGLSAGEAAMAEPLAVTLHATRRAGDLLGKRVLVTGCGPIGILSILAARRAGAAEIVATDLSDFTLAKAREAGADRVINSKDEPDALAAYGANKGTFDVLYECSGAAVALAGGIAALRPRGIIVQLGLGGDMSLPMMAITAKELDLRGSFRFHEEFATGVELMRKGLIDVKPFITQTVDLTDAISAFEFASDRSRAMKVQIAFS	PGPT0018190_443	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_IDONATE_DEGRADATION,PGPT0018190-idnD-K00098	NA	NA
BMS010_02464	816	gno_1		Gluconate 5-dehydrogenase	ATGAATGTTATCGATAACATAAACCTGTACGAATGCAATGTCGAGAGACTGGAGGAAACAGTGGGCCTTAAATTGTTCGATCTTTCCGGCCGCCGCGCCCTGATCACGGGTTCGTCCCAGGGCATCGGCTTCGCGCTGGCGCAAGGGCTGGCGGAAGCAGGAGCGGAAGTGGTGCTGAACGGGCGCGACGAGGCGAAGCTGAAAGCTGCCGCAGCCGGCATCAAGAGCGCGAAAACGCTTGCCTTCGACGCCACCGATCATGAAGCGGTGCGCAAGGCCATCGACGGTTTCGAGGCGGAAGTGGGTCCCATCGATATTCTGGTCAACAATGCCGGCATGCAGCACCGCACGCCGCTCGAGGATTTTCCGGCAGATGCCTTCGAGCGCCTGTTGCAGACCAACATCGCCTCGGTGTTCCATGCCGGACAGGCGGCCGCGCGCCACATGATCAGCCGCGGCCGTGGCAAGATCATCAACATCGCCAGCGTTCAGACCGCCCTTGCCCGCCCCGGCATCGCGCCCTACACCGCCACCAAGGGCGCCGTCGGCAACCTGACGAAAGGCATGGCGACGGACTGGGCCAAATACGGCCTGCAATGCAACGCCATCGCACCCGGTTATTTCGACACGCCGCTCAACGCGGCACTGGTGGCGGACGAGACCTTCTCGGCATGGCTTGAAAAGCGCACGCCCGCCGGTCGCTGGGGCAAGGTCGAAGAGCTTGTCGGCGCCTGCATCTTCCTGTCGTCCGATGCCTCATCCTTCGTGAACGGACATATTCTCTATGTCGACGGCGGCATCACCGCTTCGCTTTAA	MNVIDNINLYECNVERLEETVGLKLFDLSGRRALITGSSQGIGFALAQGLAEAGAEVVLNGRDEAKLKAAAAGIKSAKTLAFDATDHEAVRKAIDGFEAEVGPIDILVNNAGMQHRTPLEDFPADAFERLLQTNIASVFHAGQAAARHMISRGRGKIINIASVQTALARPGIAPYTATKGAVGNLTKGMATDWAKYGLQCNAIAPGYFDTPLNAALVADETFSAWLEKRTPAGRWGKVEELVGACIFLSSDASSFVNGHILYVDGGITASL	PGPT0018070_54	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_IDONATE_DEGRADATION,PGPT0018070-idnO-K00046	NA	NA
BMS010_02465	894	garR_1	COG2084	2-hydroxy-3-oxopropionate reductase	ATGACCGAGAAGAACAAAGTCGCCCTGATCGGCGCCGGCGCCATGGGCGGGGCAATCGGCACACGGCTCATCGAGACCGGAAATCAGCTGACGGTTTTCGATCTGGATGCGGAAAAGGTGGCGGCGCTGACGAGCCTTGGCGCACAGAGCGCGGGTACGGCGGCGGAAGCGGCTTCGGTTTCCGATGTGGTCATCCTCAGCCTCAATTCGCCGAAAATCGTTCGCATCGCCGTCTTCGGCAAGGATGGCGTCGCGGCGGGGGCGAAGCCCGGCACGCTCATCATCGACATGTCCTCCATCGATCCGGAAGCGACGAAGGAACTGGCTGCCGATGCCGCGGAAAAAGGCCTGCGCTGGGTGGACAGCCCGCTTTCGGGCGGCGCGCCCAAGGCGCTCATCGGGCAATTGACGCTGATGGCCGGCGGCAGCGAAACGGATGTGGCCGATGCGCACCGCGTGCTGCGGCATGTGGCCAGCAATTACACTCATATGGGACCCTGCGGCGCGGGGCAGACGACGAAACTCATCAACCAGGTTCTGTGCGGGCTGAACTTCCTTGCGGTGGCGGAAGCAACGCAGCTGGCGCTGGATGCCGGCGTCGATGCCGCCAAAATCCCGCAGGCGCTGAAGGGCGGCCGCGCCGACAGCGCTATCCTGCAGGAATATATGCCGCGCTACGTGGCGAAGGATTACCGCCGCACCGGCCGCATCGACAATATGGTAAAAGACCTCAACGGCGCGCAGGATCTCGCCCGGCGCACCAACACTGCCATGCCGCTGACGGCGGTTTGCGCCGAGGTGCACCGCATGCTGACGGCGGCCGGGCTGGGTGGGGAGGATCAGGCCGCGCTGATGGAATATTTCACCGGCGCGAAACGCACCTTTCCCGACTGA	MTEKNKVALIGAGAMGGAIGTRLIETGNQLTVFDLDAEKVAALTSLGAQSAGTAAEAASVSDVVILSLNSPKIVRIAVFGKDGVAAGAKPGTLIIDMSSIDPEATKELAADAAEKGLRWVDSPLSGGAPKALIGQLTLMAGGSETDVADAHRVLRHVASNYTHMGPCGAGQTTKLINQVLCGLNFLAVAEATQLALDAGVDAAKIPQALKGGRADSAILQEYMPRYVAKDYRRTGRIDNMVKDLNGAQDLARRTNTAMPLTAVCAEVHRMLTAAGLGGEDQAALMEYFTGAKRTFPD	PGPT0018170_21	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTARATE|GLUCARATE_DEGRADATION,PGPT0018170-garR|glxR-K00042	NA	NA
BMS010_02466	984			hypothetical protein	ATGACACCCTCCACCACAGGCACGGGGATTGCCGGTCTGACCGTTTCTGGAAACGGTTTCACTGCCGAAATCGCTTACGAGGGCGCGACGCTTTTAAGCTGGCGGCCGGTCTCTGCCGATGGCGGCAAAAGTGAAAATCTTGTCGACGGATATTCGACGCCTGCCGAAATGCAGTCGCAAAATGGCGTGAGAAACGGCATTCTCGCCCCCTTTACCAATCGCATCCCGGATGGTCGGTTCAGTTTTGGCGGGCAGATGCACCACATTGAACCGGTGCTTGCCCATGAAGCCCTCGTCTTCCACGGATTTGCCAGAGCCCTGCCCTTCGCACTTGCCGAGTCTTTCGAGGAAACCGGCGCTCACATTCTCGTCTTCCGCGCCGAAATAGCGCCTGCGGATTTCAAGAGTTATCCCTATCGGCTTGCCATCGAGGTGGAATATCGTTTCGCCGGCCATGGGGTCACCATCGACATACGCGGCATCAATCGCGATGACCGGCCCCTGCCTTTCGCCGCCGGCTGGCATCCCTATTTCCGGCTGCCCGGCACCACGTCTATCGATGATCTTCTCCTCACGCTGCCCTCGCGAACGGCAATTGAAACAGACGAGGATCTGATCCCCCTGCAGGACCCACAGGGCGGGATGATCAAACGGGACGACACCCGCTTTCTCCATACGCCGCTGGCCGGCCATGTGCTCGATGTCTGCTTCACCGACCTCATCGCATCCGAAAACGGGCTTTACGAGACGAGGCTGGAAAACCGGCACGACGGTTCGAGCCTGACGGTATGGCAGGAGCGCGGGCACATGCATGTCTTCACCGGCGATACGCTCGCCCGCGACAGGCGCCAATCTATCGCGCTCGAACCGGTGGAAACGCCGACCAACGCCTTCAACCAGCCGGAACTCTCGGATGCGATTACACTGCAACCGGGCGAGACGCGAAGCTTCCGCTTCGGTGTTCGTTTCGAGACGGGGCGCTGA	MTPSTTGTGIAGLTVSGNGFTAEIAYEGATLLSWRPVSADGGKSENLVDGYSTPAEMQSQNGVRNGILAPFTNRIPDGRFSFGGQMHHIEPVLAHEALVFHGFARALPFALAESFEETGAHILVFRAEIAPADFKSYPYRLAIEVEYRFAGHGVTIDIRGINRDDRPLPFAAGWHPYFRLPGTTSIDDLLLTLPSRTAIETDEDLIPLQDPQGGMIKRDDTRFLHTPLAGHVLDVCFTDLIASENGLYETRLENRHDGSSLTVWQERGHMHVFTGDTLARDRRQSIALEPVETPTNAFNQPELSDAITLQPGETRSFRFGVRFETGR	PGPT0017825_4052	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GALACOTOSE_METABOLISM|DEGRADATION,PGPT0017825-galK-K01785	NA	NA
BMS010_02467	462	decR_3	COG1522	DNA-binding transcriptional activator DecR	ATGATTGATGACCGTGACCGCCGAATCCTTGCGATTCTCCAGGAGAATGCAGAAACGCCGCTTGCAGATATTGCGGAGGAAGTGTCGCTGTCGCTGTCCGCCTGTTCGCGGCGCATTACGCGGTTGCGGGCGGAAGGTTATGTGACGGGTACGATGGCGCTGCTCGACCGGCGCAAGATCAACCTGCCGACCACGGTTTTCCTGCTGGTGAGAACCGGCCTGCATGCGGAGGACTGGCTGGACCGGTTCCATGCCGCCGTCAGCACCATACCGGAAATTGTCGAGGTTCACCGGCTGACCGGCAATTTCGACTATATTCTGAAACTCGTGCTGCCGAATGTTGAATATTACGACACGATCTACAAACAGATCCTGCGCCGCGTCGAGCTTTACGACATGTCCGCCTATATCTCGATGGAAACGGTGAAGCTGTCGTCTTCGCTGCCGACGACACATATCTGA	MIDDRDRRILAILQENAETPLADIAEEVSLSLSACSRRITRLRAEGYVTGTMALLDRRKINLPTTVFLLVRTGLHAEDWLDRFHAAVSTIPEIVEVHRLTGNFDYILKLVLPNVEYYDTIYKQILRRVELYDMSAYISMETVKLSSSLPTTHI				NA	NA	NA	NA	NA
BMS010_02468	714	ygeA_1		L-aspartate/glutamate-specific racemase	ATGAAACGGATCGGCCTGATTGGCGGCATGAGCTGGGAATCCACCGCAACCTATTACCGCATGATCAACGAGGCCGTGCGTGACAACCGCGGCGGGCTGGTTTCGGCCGACATCGTCATGCATTCGCTCGATTTTTCAGAGGTCGTCGCCCTTCAGAAGGCCGATCGCTGGGATGAGGCCGGTGCCCTTCTGGGCGCTGCCGGCGCGCGACTTGCCAATGCGGGCGCCGATTGCGTGCTGATCTGTACCAACACCATGCATCTGGTCGCGGACACCGTGGAGAAGATGTCCGGCGTGGCGCTGATCGATATCATCGATGAAACCGCCGCAGCCCTGAAGGCGGACGGACGCCGCAAGCCGCTTTTGCTCGCCACCCGCTACACTATGGAACATGGTTTCTACACCGACCGCATGCGCCGCCATGGCGTAGAGGTGGTCGTGCCCGATGCGGAAGACCGGGCTGCAATTCACGACATCATCTTCGGTGAACTTTGCCAGGGCGAAATCAAGTCCTGCTCGCGAGAGCGTTATCTCGCGGTCATCGAGAAGGCCCGCGCACTCGGCGTCGATTCCGTCATTCTCGGCTGCACCGAGATTTCGCTGCTGATCGATCCCGATGCCCTGCCGCTGCCGGGTTACGATTCGACCGCCATTCACGCGAAGGCCGCCGTCGGTTTCGCCCTCGGAAACAAGGCCCTGAACAGAGCCGCATGA	MKRIGLIGGMSWESTATYYRMINEAVRDNRGGLVSADIVMHSLDFSEVVALQKADRWDEAGALLGAAGARLANAGADCVLICTNTMHLVADTVEKMSGVALIDIIDETAAALKADGRRKPLLLATRYTMEHGFYTDRMRRHGVEVVVPDAEDRAAIHDIIFGELCQGEIKSCSRERYLAVIEKARALGVDSVILGCTEISLLIDPDALPLPGYDSTAIHAKAAVGFALGNKALNRAA				NA	NA	NA	NA	NA
BMS010_02469	771	egtC	COG0121	Gamma-glutamyl-hercynylcysteine sulfoxide hydrolase	ATGTGTCGCCTCTTTGCCTATTCCGGTAAGCCGGTCTGGCTCGACAGTCTGCTGATCGAGCCGGAAGCATCGCTGGTCAGCCAGTCCATGGCCGCAAGGGAAGCGAAAACCGTCGTCAATGGCGATGGCTGCGGTCTTGGCTGGTATGGCGAACGCGGAACGCCCGGCGTTTTTCGCGATACAAGGCCCGCCTGGTCCGACGCCAATCTGGCAGCGCTTTGCCACCAGCTCCGCTCGGGCATGTTCATGGCCCATGTCCGCTCCGCCACGTCAGGCGAAGTGTCCCGCGCCAACTGCCATCCCTTTGCGCATGGGCGATACCTGTTCATGCATAACGGCCAGATCGGCGGTTACGAGCAGATCAGGCGCGACATCGATTCCCTCATCCCCGACGATATCTATGCGTCGCGACGCGGCACCGGCGACAGCGAAGCGATCTTCCTCATCGCCGCCGGGCATGGCCTCGATGCCGAGCCGGTTCGCGCCATTTCCACCGCGCTGCGGCTCTGCCAGGAAAAGATGATGGCGGCAGGTGTTTCTTCCGCGCTGCGATTCAGCGCCGTGCTGATGGATGGCGATTGCCTGCATGCCTTCCGCTGGTCAAGCGACGACAAGCCGCCGACACTCTACTGGCGCGGGCTCGACGACGGCATCGCATTGAGTTCCGAACCCTTTTCCTTCGATTGCGCGCCCTGGTGCGCCGTTCCCCCCAATACCAGGGTGACGATCCGCGCCGGCGAGATGGCGATGGAGCCTTTTCTCCTGCCGTAA	MCRLFAYSGKPVWLDSLLIEPEASLVSQSMAAREAKTVVNGDGCGLGWYGERGTPGVFRDTRPAWSDANLAALCHQLRSGMFMAHVRSATSGEVSRANCHPFAHGRYLFMHNGQIGGYEQIRRDIDSLIPDDIYASRRGTGDSEAIFLIAAGHGLDAEPVRAISTALRLCQEKMMAAGVSSALRFSAVLMDGDCLHAFRWSSDDKPPTLYWRGLDDGIALSSEPFSFDCAPWCAVPPNTRVTIRAGEMAMEPFLLP				NA	NA	NA	NA	NA
BMS010_02470	2463	malP_1	COG0058	Maltodextrin phosphorylase	ATGATCAATAATCTTAACGCCGCCGATCTTCCCCGTCCCGCCCCGCGCAGTTCCAACCCGGAAATCATGGCGTCGGAAATCATCGAACGCCTCACCTACCGTATCGGCAAAGACGTCAAGGTTGCCAAGCCGCATGACTGGCTGACCGCAACCATCCTCGTCGTGCGCGACCGCATCATCGACAAGTGGATGGAATCCACCCGCAAGGCCTATGCCAATAATTCCAAGCGCGTTTATTATCTGTCGCTCGAATTCCTGATCGGCCGCCTGATGCGCGACGCCATCTCCAATATCGGCCTGATGCACGAAATCCGCGATGCCCTGTCCTCGCTCGGCGTCGATCTGGATGTCATCGCCGGGCTGGAGCCGGATGCGGCGCTCGGCAATGGCGGCCTCGGCCGGCTTGCGGCCTGTTTCATGGAATCCATGGCGACCGTCGACATTCCCGCCTATGGCTACGGCATCCGTTACGTGCATGGCCTCTTCCGCCAGCAGATGGCGGATGGCTGGCAGGTGGAACTGCCGGAAACCTGGCTGGCGCACGGCAACCCCTGGGAATTCGAGCGCCGCGAAAGCTCCTATGAGATTGGCTTCGGCGGCTCGGTGGAAACCATCGGCGGTTATGAAGATCCGCAGCGTTTCGTCTGGAAACCGGCAGAACGCGTGATCGCCATGGCTTACGACACGCCGGTCGTCGGCTGGCGCGGCACCCGCGTCAATACGCTTCGCCTGTGGTCGGCGCAGCCGATCGACCCCATTCTGCTAGCCGCCTTCAATGCCGGCGACCATATCGGTGCATTGCGCGAAAGCAACAAGGCGGAAAGCCTGACGCGGGTTCTCTATCCTGCGGACGCGACGCCCGCCGGTCAGGAACTGCGCCTGCGCCAGGAGTTCTTCTTCTCCTCCGCCTCGCTGCAGGACATTCTGCGCCGCCATTTGCAGCAATATCCCGATTTCACCTCGCTGCCCGAGAAGGTCTCGATCCAGCTCAACGATACGCATCCGGCCATTTCCATCGCCGAAATGATGCGTCTTCTGTGCGATGTGCACGGTCTGGAATTCGAGGAAGCGTGGAAGATCACGCAGGGCACGTTCTCCTATACCAACCACACGCTTCTGCCGGAGGCGCTGGAAAGCTGGCCGGTGCCGCTGCTCGAGCGTCTTCTGCCAAGACATATGCAGATCGTCTATGCGATCAACGCCAACACGCTGGTCTACGCCCGCAAGGAAAAGAAGATGGCGGATCAGCAGATCCGTTCGATCTCACTGATCGATGAAGGCGGCGAACGTCGCGTGCGCATGGGCAACCTCGCCTTTATCGGCTCGCATTCCATCAACGGCGTTTCCGCCCTTCATACCGACCTGATGAAGGAAACGGTCTTTGCCGACCTGCATAGCCTTTATCCTGAGCGTATCAACAACAAGACCAATGGCATCACACCGCGCCGCTGGCTGATGCAGTGCAATCCGGGCCTGACCAGCCTGCTGCGCGAAGCGATCGGCGACGATTTCCTCGACGATGCGGAAAAACTCACCGCGCTCGACCGTTTTGCCGACGATGCCGGTTTCCGCGAAAAATTCGCCGAGGTGAAGCGTCTGAACAAGGTGCGGCTTGCCAATACGGTGGCGCAGCGCATGGGCATCCGCGTCGATCCCTCGGCCATGTTCGACATCCAGATCAAGCGTATCCATGAATATAAGCGCCAGCTTCTGAACCTCGTGGAGACGGTCGCGCTTTATGACCAGATCCGTTCTCACCCGGAACTGGATTGGGTGCCGCGCGTTAAGTTCTTCGCAGGCAAGGCGGCGCCGAGTTATCACAACGCGAAGCTGATCATAAAGCTTGCCAACGATATTGCCCGGGTCATCAACAACGATCCGGCCGTGCGCGGGCTTCTGAAAGTGGTGTTTGTTCCGAACTATAACGTCTCGCTTGCGGAAATCATGGTTCCCGCCGCCGATCTTTCCGAACAGATATCGACGGCCGGCATGGAAGCTTCCGGCACCGGCAACATGAAATTCGCGCTCAACGGCGCGCTCACCATCGGCACGCTCGATGGCGCCAATGTCGAAATGCGCGATCATGTCGGCGCGGAGAATATCGTCATCTTCGGAATGACGGCGGATGAAGTGGCCAAGGCGCGCGCCGAAGGCCACAATCCACGCGCGATCATCGAAGGATCGGCCGAGCTGTCGCAGGCGCTGTCTTCCATCGCCTCCGGCGTCTTTTCGCCGGATGACCGCTCACGTTTCGCCGGCCTGATCGACGGTATTTACAACAGCGACTGGTTCATGGTCGCCGCCGACTTCGACGCCTATGCCAATGCACAGCGCGAAGTGGACGCGATCTGGAGCGATCCGGATAGCTGGTATGCCAAGACAGTACGCAACACGGCGCGTATGGGCTGGTTCTCGTCCGACAGGACGATCCGCCAATATGCCACCGAGATCTGGAGAGCCTGA	MINNLNAADLPRPAPRSSNPEIMASEIIERLTYRIGKDVKVAKPHDWLTATILVVRDRIIDKWMESTRKAYANNSKRVYYLSLEFLIGRLMRDAISNIGLMHEIRDALSSLGVDLDVIAGLEPDAALGNGGLGRLAACFMESMATVDIPAYGYGIRYVHGLFRQQMADGWQVELPETWLAHGNPWEFERRESSYEIGFGGSVETIGGYEDPQRFVWKPAERVIAMAYDTPVVGWRGTRVNTLRLWSAQPIDPILLAAFNAGDHIGALRESNKAESLTRVLYPADATPAGQELRLRQEFFFSSASLQDILRRHLQQYPDFTSLPEKVSIQLNDTHPAISIAEMMRLLCDVHGLEFEEAWKITQGTFSYTNHTLLPEALESWPVPLLERLLPRHMQIVYAINANTLVYARKEKKMADQQIRSISLIDEGGERRVRMGNLAFIGSHSINGVSALHTDLMKETVFADLHSLYPERINNKTNGITPRRWLMQCNPGLTSLLREAIGDDFLDDAEKLTALDRFADDAGFREKFAEVKRLNKVRLANTVAQRMGIRVDPSAMFDIQIKRIHEYKRQLLNLVETVALYDQIRSHPELDWVPRVKFFAGKAAPSYHNAKLIIKLANDIARVINNDPAVRGLLKVVFVPNYNVSLAEIMVPAADLSEQISTAGMEASGTGNMKFALNGALTIGTLDGANVEMRDHVGAENIVIFGMTADEVAKARAEGHNPRAIIEGSAELSQALSSIASGVFSPDDRSRFAGLIDGIYNSDWFMVAADFDAYANAQREVDAIWSDPDSWYAKTVRNTARMGWFSSDRTIRQYATEIWRA	PGPT0018545_2783	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENVIROMENTAL_SURRIVAL	CE-BACTERIAL_FITNESS-ENVIRONMENTAL_SURRIVAL-GLYCOGEN_BIOSYNTHESIS,PGPT0018545-glgP-K00688	NA	NA
BMS010_02471	2208	glgB_2	COG0296	1,4-alpha-glucan branching enzyme GlgB	ATGAAAAAACCGCTCAATTCGGCCGAAGAGAAAAAGACTGGCGACATCACGAAGGCTGAAATCGAGGCGATCAAGAGCGGTTTGCATTCCAATCCCTTTGCCCTTCTCGGCGTGCACGAAACGCCGGAAGGGTTTTCCGCCCGCTGTTTCATTCCCGGCGCCGAGGAGGTTTCCGTCCTGACACTGGACGGAAATTTCGTGGGCGAATTGAAGCGGCTCGATCCGGACGGCTTTTTCGAAGGCCGGATCGATCTTTCGAAGCGACAGCCGGTGCGGTATCGCGCCAGCCGCGACGATGCCGAATGGGCGGTGACCGATCCTTACAGCTTCGGCCCGGTTCTCGGCCCCATGGACGATTATTTCGTCCGCGAAGGATCGCATCTGCGGCTCTTCGACAGGATGGGCGCGCATCCGCTGAAGCTCGAGGGCGTCGAGGGCTTCCACTTCGCCGTCTGGGCTCCCAATGCGCGGCGCGTTTCCGTCGTCGGCGATTTCAACAATTGGGATGGCCGCCGGCATGTCATGCGGTTCCGCAAGGATACCGGCATCTGGGAAATCTTCGCGCCTGACGTCTATGCCGGCTGTGCTTACAAGTTCGAAATCCTCGGCGCAAACGGCGAGCTTCTGCCCCTCAAAGCCGACCCCTATGCGCGGCGCGCCGAGTTGCGGCCGAAGAACGCCTCCGTTACCGCGCCGGAACTTACCCAGAAATGGGAAGACCAGGCCCACCGGGAACATTGGGCGCAGGTGGACCAGCGCCGCCAGCCGATCAGCATTTACGAAGTGCATGCCGGCTCCTGGCGGCGGCGCGAGGACGGCACGTTCCTGAGCTGGGACGAACTGGCCGCCCAGCTCATTCCCTATTGCACGGATATGGGCTTCACCCATATCGAGTTCCTGCCCATCACCGAACATCCCTATGACCCTTCCTGGGGTTACCAGACGACCGGGCTTTATGCGCCGTCCGCCCGTTTCGGCGATCCGGAGGGCTTTGCGCGTTTCGTCAATGGCGCTCACAAGGTCGGCATCGGCATCTTGCTCGATTGGGTTCCGGCGCATTTTCCAACCGACGAGCACGGCTTGCGCTGGTTCGACGGAACGGCGCTTTACGAACATGCCGATCCGCGTCAGGGTTTTCACCCCGACTGGAACACGGCCATCTATAATTTCGGCCGCATCGAGGTGATGTCCTACCTCATCAACAATGCGCTTTATTGGGCCGAAAAATTCCATCTAGACGGCCTGCGCGTGGATGCGGTCGCCTCGATGCTCTATCTCGATTATTCCCGCAAGGAAGGCGAGTGGATCCCCAACGAATATGGCGGACGGGAAAATCTCGAATCCGTCCGCTTCCTGCAGAAGATGAATTCCCTCGTCTACGGCACCCATCCGGGCGTCATGACCATTGCCGAGGAATCCACCTCCTGGCCGAAAGTGTCGCAGCCCGTCCACGAGGGCGGCCTCGGCTTCGGCTTCAAATGGAATATGGGCTTCATGCACGATACGCTGAGTTATTTCTCGCGCGAGCCGGTGCATCGCAAGTTCCACCATCAGGAGCTGACCTTCGGCCTGCTTTACGCCTTCAGCGAAAATTTCGTGCTGCCGCTTTCCCATGACGAGGTGGTGCACGGCAAGGGATCGCTGATCGCCAAGATGTCCGGCGACGACTGGCAGAAATTCGCCAATCTGCGGTCCTATTACGCCTTCATGTGGGGCTATCCCGGCAAGAAGCTGCTGTTCATGGGGCAGGAATTCGCACAATGGAGCGAATGGAGCGAAAAGGGCTCGCTCGACTGGAACCTGCGCCAATATCCGATGCATGAGGGCATGCGCCGCCTCGTGCGCGATCTCAACCTCACCTACCGTTCAAAACCCGCTTTGCACGCCCGCGACTGCGAACCGGAAGGTTTCCGCTGGCTTGTGGTGGATGACCACGACAATTCCGTCTTCGCCTGGCTGCGCATGGCGCCGGGTGAAAAGCCGGTGGCGGTCATCTGCAATCTCACGCCGGTCTATCGGGAAAACTATTATGTGCCGCTTCCGCTTGCGGGGCGGTGGAGGGAGATTCTCAACACCGACGCCGAAATTTATGGCGGCAGCGGCAAGGGAAATGGCGGACGCGTTCAGGCGGTCGATGCCGGGGGAGACATCGGGACAATGCTCGTCCTGCCGCCACTCGCAACGATCATGCTCGAGCCGGAAAACTGA	MKKPLNSAEEKKTGDITKAEIEAIKSGLHSNPFALLGVHETPEGFSARCFIPGAEEVSVLTLDGNFVGELKRLDPDGFFEGRIDLSKRQPVRYRASRDDAEWAVTDPYSFGPVLGPMDDYFVREGSHLRLFDRMGAHPLKLEGVEGFHFAVWAPNARRVSVVGDFNNWDGRRHVMRFRKDTGIWEIFAPDVYAGCAYKFEILGANGELLPLKADPYARRAELRPKNASVTAPELTQKWEDQAHREHWAQVDQRRQPISIYEVHAGSWRRREDGTFLSWDELAAQLIPYCTDMGFTHIEFLPITEHPYDPSWGYQTTGLYAPSARFGDPEGFARFVNGAHKVGIGILLDWVPAHFPTDEHGLRWFDGTALYEHADPRQGFHPDWNTAIYNFGRIEVMSYLINNALYWAEKFHLDGLRVDAVASMLYLDYSRKEGEWIPNEYGGRENLESVRFLQKMNSLVYGTHPGVMTIAEESTSWPKVSQPVHEGGLGFGFKWNMGFMHDTLSYFSREPVHRKFHHQELTFGLLYAFSENFVLPLSHDEVVHGKGSLIAKMSGDDWQKFANLRSYYAFMWGYPGKKLLFMGQEFAQWSEWSEKGSLDWNLRQYPMHEGMRRLVRDLNLTYRSKPALHARDCEPEGFRWLVVDDHDNSVFAWLRMAPGEKPVAVICNLTPVYRENYYVPLPLAGRWREILNTDAEIYGGSGKGNGGRVQAVDAGGDIGTMLVLPPLATIMLEPEN				NA	NA	NA	NA	NA
BMS010_02472	1263	glgC	COG0448	Glucose-1-phosphate adenylyltransferase	ATGTCGGAAAAAAGAGTTCAGCCTTTGGCACGCGATGCAATGGCCTATGTCCTCGCAGGCGGCAGAGGAAGCCGCCTGAAGGAATTGACGGACCGCCGGGCAAAACCCGCCGTCTATTTCGGCGGCAAGGCGCGCATCATTGATTTTGCGCTCTCCAACGCGCTCAATTCCGGCATTCGCCGCATCGGCGTCGCCACGCAATACAAGGCGCATTCCCTCATTCGGCACCTGCAGCGCGGCTGGGACTTCTTCCGCCCTGAACGTAACGAGAGCTTCGATATTCTGCCGGCCTCCCAGCGCGTTTCCGAAACGCAATGGTATGAAGGCACGGCCGACGCCGTCTACCAGAACATCGACATCATCGAGCCCTATGCGCCGGAATATATGGTCATCCTCGCCGGCGACCATATTTACAAAATGGACTACGAATACATGCTGCAGCAGCATGTCGATTCCGGCGCCGACGTGACGATCGGTTGCCTTGAAGTGCCGCGCATGGAAGCGACCGGCTTCGGCGTGATGCATGTGAATGAAAAAGACGAGATCATCGACTTCATCGAAAAGCCGGCCGATCCGCCGGGCATTCCCGGCAATGAAGGCTTCGCTCTCGCCTCCATGGGTATCTATGTCTTCCACACGAAATTCCTGATGGAAGCCCTGCGCCGCGACGCCGCCGACCCGACTTCCAGCCGCGACTTCGGCAAGGACATCATTCCCTATATCGTCGAACACGGCAAAGCCGTCGCCCATCGCTTCGCCGATAGTTGCGTTCGTTCGGATTTCGAGCATGGCCCTTACTGGCGCGATGTCGGCACCATCGACGCCTATTGGCAGGCCAATATCGACCTGACGGATGTGGTGCCGGACCTCGATATCTACGACAAGTCCTGGCCGATCTGGACCTATGCGGAAATCACCCCGCCGGCGAAATTCGTGCACGATGACGAGAACCGCCGCGGCTCGGCCGTGTCTTCGGTCGTCTCCGGCGATTGCATCATTTCCGGCGCCTCCCTGCAACGCAGCCTGCTGTTTACCGGGGTGCGCGCAAATTCATACTCCCGCCTTGAGAATGCCGTAGTACTGCCGAGTGTGAAGATCGGGCGTCACGCCCAGCTCAGCAATGTCGTCATCGACCATGGCGTGGTCATTCCGGAAGGACTGATTGTAGGAGAAGACCCAGAACTGGATGCCAAACGTTTCCGCCGTACCGAAAACGGCATCTGCCTTATCACCCAATCGATGATCGACAAGCTGGACCTGTAG	MSEKRVQPLARDAMAYVLAGGRGSRLKELTDRRAKPAVYFGGKARIIDFALSNALNSGIRRIGVATQYKAHSLIRHLQRGWDFFRPERNESFDILPASQRVSETQWYEGTADAVYQNIDIIEPYAPEYMVILAGDHIYKMDYEYMLQQHVDSGADVTIGCLEVPRMEATGFGVMHVNEKDEIIDFIEKPADPPGIPGNEGFALASMGIYVFHTKFLMEALRRDAADPTSSRDFGKDIIPYIVEHGKAVAHRFADSCVRSDFEHGPYWRDVGTIDAYWQANIDLTDVVPDLDIYDKSWPIWTYAEITPPAKFVHDDENRRGSAVSSVVSGDCIISGASLQRSLLFTGVRANSYSRLENAVVLPSVKIGRHAQLSNVVIDHGVVIPEGLIVGEDPELDAKRFRRTENGICLITQSMIDKLDL	PGPT0025885_2009	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENVIROMENTAL_SURRIVAL	CE-BACTERIAL_FITNESS-ENVIRONMENTAL_SURRIVAL-GLYCOGEN_BIOSYNTHESIS,PGPT0025885-glgC-K00975	NA	NA
BMS010_02473	1443	glgA1_1	COG0297	Glycogen synthase 1	ATGAATGTCCTTTCGGTTTCATCCGAAATCTATCCCCTGATCAAGACCGGAGGGCTCGCCGACGTTGCCGGCGCGCTCCCCATAGCGCTGGAAGCCCATGGCGTCACGACGCGCACATTGATACCCGGATATCCGGCGGTGAAAGCCGCCGTGACGGACCCCGTCAAATGTTTCGAATTTACCGATCTGCTCGGCGAAAAAGCCGATGTGCTCGAAGTGCGGCATGAGGGGCTCGACCTCCTCATTCTCGATGCGCCCGCCTATTACGAGCGCTCCGGCGGCCCCTATCTCGACCAGACCGGCAAGGATTACCCTGACAACTGGAAGCGTTTCGCGGCGCTCTCGCTGGCTGCGGCCCGCATTGCCGCCGGCGCGCTTCCCGGCTGGCGGCCGGATATGGTGCATGCCCATGACTGGCAGGCCGCCATGGCGCCGGTCTATATGCGTTATGCCGAAACGCCGGAGATTCCGAGCCTTCTCACCATCCACAACATCGCTTTTCAGGGCCAGTTCGGCGCGAATATCTTCAGCAAGCTTGCATTACCCGCCCATGCCTTCGGCATGGAGGGCATCGAATATTACAACGATGTGAGCTTCCTGAAGGGCGGGCTGCAGACGGCAACGGCGCTCAGCACCGTCAGCCCGTCCTATGCCGAGGAAATCCTCACCCCGCAATTCGGCATGGGCCTGCACGGCGTCATCGGCAGCCGCGCCCATGTGTTGCACGGCATCGTCAACGGCATCGATGCCGATGTCTGGAACCCGGCGACGGACCATCTGATCCACGACAATTATTCGGCCACCAATCTCAAGAACCGCGCGCTGAACAAGAAGGCTGTCGCCGAACATTTCCGCATCGACGATGATGACAGCCCGCTTTTCTGCATCATCTCCCGCCTCACCTGGCAGAAGGGCATCGACCTCATGGCGGAAGCCGTGGACGAGATCGTTTCCCTCGGCGGCCGTCTGGTGGTGCTGGGCGCCGGCGAAGTGGCGCTGGAAGGCGCGCTTCTGGCGGCGGCATCCCGCCACCATGGCCGCGTCGGCGTTGCTGTCGGTTACAACGAGCCGCTGTCGCATCTGATGCAGGCGGGCTGCGATGCGATCATCATTCCCTCGCGTTTCGAACCCTGCGGCCTCACCCAGCTTTATGCGCTACGCTATGGCTGCATTCCGGTCGTCGCCCGCACCGGCGGCCTTGCCGACACGGTGATCGACGCCAACCACGCCGCCATCGCCAATAAATCGGCGACCGGCGTGCAGTTTTCACCCGTTACGCTCGATGGTCTGAAACAGGCGATCCGCCGGACCGTCCGTTATTACCACGACCCGAAACTATGGACACAAATGCAGAAACTCGGAATGAAATCCGATGTTTCCTGGGAAAAGAGCGCCGGTCTTTACGCCGCGCTTTACAGCCAGCTTATTTCGAAAGGCCATTGA	MNVLSVSSEIYPLIKTGGLADVAGALPIALEAHGVTTRTLIPGYPAVKAAVTDPVKCFEFTDLLGEKADVLEVRHEGLDLLILDAPAYYERSGGPYLDQTGKDYPDNWKRFAALSLAAARIAAGALPGWRPDMVHAHDWQAAMAPVYMRYAETPEIPSLLTIHNIAFQGQFGANIFSKLALPAHAFGMEGIEYYNDVSFLKGGLQTATALSTVSPSYAEEILTPQFGMGLHGVIGSRAHVLHGIVNGIDADVWNPATDHLIHDNYSATNLKNRALNKKAVAEHFRIDDDDSPLFCIISRLTWQKGIDLMAEAVDEIVSLGGRLVVLGAGEVALEGALLAAASRHHGRVGVAVGYNEPLSHLMQAGCDAIIIPSRFEPCGLTQLYALRYGCIPVVARTGGLADTVIDANHAAIANKSATGVQFSPVTLDGLKQAIRRTVRYYHDPKLWTQMQKLGMKSDVSWEKSAGLYAALYSQLISKGH	PGPT0025880_2300	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENVIROMENTAL_SURRIVAL	CE-BACTERIAL_FITNESS-ENVIRONMENTAL_SURRIVAL-GLYCOGEN_BIOSYNTHESIS,PGPT0025880-glgA-K00703	NA	NA
BMS010_02474	1629	pgm	COG0033	Phosphoglucomutase	ATGATCAAGACCGTTCAGACGAAGCCCTATCAGGACCAGAAGCCGGGCACATCCGGCCTGCGCAAGAAGGTGCCAGTCTTCGCACAGGAAAATTACGCCGAGAATTTCATCCAGTCGATCTTCGACGCGCTTGAGGGCTTTCAGGGCCAGACGCTGGTGATCGGCGGCGACGGCCGTTATTACAACCGCGAAGTCATCCAGAAGGCGATCAAAATGGCCGCCGCTGCCGGTTTCGGCAAGGTTCTGGTCGGTCAGGGTGGCATTCTCTCGACGCCTGCCGCCTCCAACGTCATCCGCAAATACAAGGCGTTTGGCGGCATCGTGCTTTCCGCCAGCCACAATCCCGGCGGCCCGAACGAAGATTTCGGCATCAAATACAATATCGGCAATGGCGGCCCCGCACCGGAAAAGATCACCGATGCGATCTATGCCCGCTCGAAGGTCATCGACAGCTACAAGATTTCCGACGCCGCCGATATCGATCTCGACAAGGTGGGCAGCTTCAAGGTGGACGAACTGACGGTCGAGGTGATCGATCCGGTTGCCGATTACGCCGCCCTGATGGAAGAACTGTTCGATTTCGCCGCCATCCGCGCGCTGATCGCCGGCGGTTTCAAGGTCGTGGTCGATTCCATGAGCGCCGTCACCGGGCCCTATGCCGTGGAAATCATCGAAAAGCGCCTCGGCGCGCCGAAGGGCTCCGTCCGCAACGCAACGCCGCTGCCGGATTTCGGCGGCCATCATCCCGACCCGAACCTTGTCCACGCCAAGGAGCTTTATGACGACGTCATGAGCCCGGAAGGCCCCGATTTCGGCGCGGCCTCCGATGGCGATGGCGACCGCAACATGGTGGTCGGCAAGGGCATGTTCGTCACCCCGTCCGATAGCCTCGCCATCATCGCGGCCAATGCCAAACTGGCTCCCGGTTATGCCGCCGGCATTTCCGGCATTGCCCGTTCGATGCCGACGAGTGCGGCAGCGGACCGTGTGGCCGAAAAGCTTGGCCTTGGCATGTATGAAACGCCGACCGGCTGGAAATTCTTTGGCAATCTCATGGATGCCGGCAAGGTGACGATCTGCGGCGAAGAAAGCTTCGGCACAGGCTCCAACCATGTGCGCGAAAAGGACGGCCTATGGGCCGTGCTCTACTGGCTGAACATTGTCGCCGCGCGCAAGGAAAGCGTGAAGGACATCGTCACAAAGCACTGGGCCGAATATGGCCGCAACTATTATTCCCGCCATGACTATGAGGAAGTGGATTCGGACGCCGCCAACACCTTGGTCGCAACCCTGCGCGAAAAACTCGCCACGCTTCCCGGCACCAGCTACGGCAATCTGAAGGTCGCGGCGGCGGATGATTTTGCCTATCACGATCCGGTCGATCAGTCGGTCAGCAAAAATCAGGGCATCCGCATCCTGTTCGAAGGCGGTTCGCGCATCGTGCTGCGCCTTTCCGGCACGGGTACTGCGGGCGCCACACTTCGCCTTTATGTCGAGCGTTACGAGGCGGATGCGGCCCGTCACGGCATCGAAACGCAGGAGGCGCTTGCCGACCTGATTTCCGTTGCCGATACGATCGCCGGCATCAAGGCCCATACCGGCCGTAGCGAGCCGAGCGTTATTACCTGA	MIKTVQTKPYQDQKPGTSGLRKKVPVFAQENYAENFIQSIFDALEGFQGQTLVIGGDGRYYNREVIQKAIKMAAAAGFGKVLVGQGGILSTPAASNVIRKYKAFGGIVLSASHNPGGPNEDFGIKYNIGNGGPAPEKITDAIYARSKVIDSYKISDAADIDLDKVGSFKVDELTVEVIDPVADYAALMEELFDFAAIRALIAGGFKVVVDSMSAVTGPYAVEIIEKRLGAPKGSVRNATPLPDFGGHHPDPNLVHAKELYDDVMSPEGPDFGAASDGDGDRNMVVGKGMFVTPSDSLAIIAANAKLAPGYAAGISGIARSMPTSAAADRVAEKLGLGMYETPTGWKFFGNLMDAGKVTICGEESFGTGSNHVREKDGLWAVLYWLNIVAARKESVKDIVTKHWAEYGRNYYSRHDYEEVDSDAANTLVATLREKLATLPGTSYGNLKVAAADDFAYHDPVDQSVSKNQGIRILFEGGSRIVLRLSGTGTAGATLRLYVERYEADAARHGIETQEALADLISVADTIAGIKAHTGRSEPSVIT	PGPT0017710_4262	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0017710-pgm-K01835	NA	NA
BMS010_02475	1956	glgX_1	COG1523	Glycogen debranching enzyme	ATGCAGACACCTTCCGTTTTCCCCAAAGGCGCAATCCAGACGGAAAACGGAACGGAATTCACGGTCTATTCCCGGCACGCCTCGCAGGTCGATCTCTGCCTTTTCGATGCGAACGGCGAGAAAGAAACGGCGCGTTTGCCGATGGCGCGCGGTGAAGATGACGTTCACCGGTTGACCGTCTCCGATGCCGGCCCCGGCACGCGATATGGCTTTCGCGCTCACGGCATTTACGCTCCCGAACACGGCCTCTGGTTCGATCCTGCAAAGCTGCTGCTCGACCCCTATGCCACGGAGATCGACCGCCCCTTCCGGCACGATCCCGCGCTTTACGCCTTTGGTGCGGATACCGGCGGGATCATGCCGAAGGCGATCCTTTCGCAGCATGAGCCGGTCCGGCGTCAACCGCCGTTTTTTGCCGAAGGCGGGCTGATTTACGAACTCGCCGTCAAATCCTTCACCCAGCTGCATCCTGAAGTGCCGGAAGAGATCAGGGGCACCGTTGCCGCACTTGCCCATCCCGCCATTATCGCGCACCTGAAAAAGATCGGCGTCGACGCGGTGGAATTGATGCCGATCACCGCCTGGATCGATGAGCGCCACCTGTCGCCGCTCGGCCTTTCCAATGCCTGGGGTTATAATCCCGTCGGCTTCATGGCGCTCGATCCGCGCCTCTGCCCCGGCGCCGTGCGGGAATTGCGGGATACGGTTGCGGCGCTGCATGCGCAAGGCATCGGCGTCATTCTCGATCTGGTCTTCAACCATACCGGCGAAAGCGATATCGAAGGGTCGATCCTGTCGTTGCGCGGGCTCGATAACCTCACTGCCTTTCGCCACCCGCCGGGAAAACCGGGCGTGCTGGTCAACGATACCGGCACCGGAAATACGGTCGCCTGCGATCATCCCTATATTCGCCAGCTCATCGTCGATTCTCTCAGGCATTTCGTTCTGAATGCCGGCGTGGATGGCTTCCGTTTCGACCTCGCGCCCGTGCTCGGGCGAACGGCCAATGGCTTCGACATGGCGAGCGAAACGCTTGCAGCCATGCATTCGGACCCGGCACTTTACGACCGCCTGCTGATCGCCGAACCATGGGATATCGGCCCCGGCGGATATCAGCTCGGCAATTTCCCCGAGAGCTTTCTGGAGTGGAACGACCGCGCCCGCGACGATATGCGCCGCTTCTGGCGCGGCGACGCCGGCACCACCGGGGCGCTGGCCGATGCGCTTTCCGGGTCTTCGCCGATCTTTTCCCGCCATGGCCGCTTAAACAGCCGCAGCGTCAACTTTCTCGCCGCCCATGACGGTTTCACCCTGTTCGATCTCGTCAGCCACGAACACAAGCACAATGAGAAAAACGGCGAGAACAATCGCGACGGCCACAATGAAAACCACTCCTGGAACAATGGTTTCGAAGGCCTGACGGATGATCCTGCCATTGTCGCCGCCCGCATTGCCGATGTGAAGGCGCTGCTTTCCACCCTGTTCGTCAGCCGCGGCGTCTTGATGTTGACCGCCGGCGATGAGGGCGGCCGCAGCCAGCATGGCAACAACAACGCCTATTGTCAGGACAATGACATCACCTGGGTCGACTGGTCTTCGCTTGTGCCCGAACTGATCGATCACACGGCATTTCTCGCAGCGCTTCGCAAACGCTTCGGCGTCTTTTCCGAGACCGGCTTCTTTTCCGGCAGCGGCGATGTGACATGGCTTGCCCCGGGCGGGGAGCCCATGACGATTGCGGACTGGGAAAGCCCGAATGGACCCGCCTTCGCCATGGTGCTTTCAACGTCTGACCGCGAAACGGGCGTCGAGGTCGAGCTTGCGGTTCTCATCAATCGCGGTCGCGAGATCGTTCCTTTCACGCTGCCCGGCGATGGCTGGCATGCGATCGGCACGGATTTCGGCAATCCCGCCTTCCTGCCCGCCCGTTCCGTGGTGTTTTATCTGCGCAGTTGA	MQTPSVFPKGAIQTENGTEFTVYSRHASQVDLCLFDANGEKETARLPMARGEDDVHRLTVSDAGPGTRYGFRAHGIYAPEHGLWFDPAKLLLDPYATEIDRPFRHDPALYAFGADTGGIMPKAILSQHEPVRRQPPFFAEGGLIYELAVKSFTQLHPEVPEEIRGTVAALAHPAIIAHLKKIGVDAVELMPITAWIDERHLSPLGLSNAWGYNPVGFMALDPRLCPGAVRELRDTVAALHAQGIGVILDLVFNHTGESDIEGSILSLRGLDNLTAFRHPPGKPGVLVNDTGTGNTVACDHPYIRQLIVDSLRHFVLNAGVDGFRFDLAPVLGRTANGFDMASETLAAMHSDPALYDRLLIAEPWDIGPGGYQLGNFPESFLEWNDRARDDMRRFWRGDAGTTGALADALSGSSPIFSRHGRLNSRSVNFLAAHDGFTLFDLVSHEHKHNEKNGENNRDGHNENHSWNNGFEGLTDDPAIVAARIADVKALLSTLFVSRGVLMLTAGDEGGRSQHGNNNAYCQDNDITWVDWSSLVPELIDHTAFLAALRKRFGVFSETGFFSGSGDVTWLAPGGEPMTIADWESPNGPAFAMVLSTSDRETGVEVELAVLINRGREIVPFTLPGDGWHAIGTDFGNPAFLPARSVVFYLRS	PGPT0018555_597	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-HYDROLASE,PGPT0018555-glgX-K02438	NA	NA
BMS010_02476	489		COG2030	putative enoyl-CoA hydratase 1	ATGACAAAAGAAATTGCGCTGGCGGAGATGAAAAATCTGGTCGGCACGGAAATGGGCGTCTCCGACTGGATCACCGTCGATCAGACGATGATTGACGCTTTCGGAAAGGCGACGCTGGACGAACAATTCATCCACACTGACCCGGAGCGCGCCAAAGCGGAAAGCCCCTTTGGCGGCACCATCGCGCATGGATTCCTGACGCTGTCTCTGCTTTCGGCGCTGAATTACGATGCCCTGCCCCGCATCCGCGAACAGACCATGGGCATCAATTACGGCTTCGATGCCGTTCGTTTCGTTACGCCGGTCAAAAGCGGTGCGCGGGTGCGCGGCCGCTTCACGCTGGCGGAGGCGCGTTTTCGCGGCGCGGCCATGTTGATGACGACCTATGACGTGACGGTGGACATCGAAAACGAGAAAAAGCCGGCGCTTACCGCGCGCTGGACCACCATCAGCCAGTTCAACCCGGAGGACAGGCCGGAAGACGCCTGA	MTKEIALAEMKNLVGTEMGVSDWITVDQTMIDAFGKATLDEQFIHTDPERAKAESPFGGTIAHGFLTLSLLSALNYDALPRIREQTMGINYGFDAVRFVTPVKSGARVRGRFTLAEARFRGAAMLMTTYDVTVDIENEKKPALTARWTTISQFNPEDRPEDA	PGPT0015281_17	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_METABOLISM,PGPT0015281-nodN-NA	NA	NA
BMS010_02477	1044			hypothetical protein	ATGCATGACGAAGCCGTAAGGAATGCGTTTCTCGTGCAGGCAAGAGCCTGCGACAGCCTCGGCTCGCCCTTTACCGCGCGGCTCTGCCGCACCATGGCAGCAAGGCTCGACCGCCATACCGAGGTGGGCGAGCGTATTTTATCCTGGCCCGGCGAGGTCGGCCCCTCGGGCGATTCCGTTCCCCTGCGGCTGGCGGGCGCCCTGCATGCGCTCGCCATCGAGGAAAAGATCGCGCCGCTTGCCGATATCCCGCCGGAAGACGAAGAAGCGCTCTGGCAGGCCTGCGCCAGCGCCCTGCGTTTTCATTCCCCCTTCATCCTCGAAAGGTTGAAATCACCGCCGCAGACCAACGAGGTTCGGCGTTCCGCCGTTCTGCTGCCGGGCTTTCTTTCGATTGCGGCACTGACCGGCAAGCCGCTGGTGCTTTCCGAAGTTGGAGCCAGCGCTGGCCTCAACCTGCAATTCGACCGTTACCGATATCGCCTCGGCGATCTCGCCTGGGGTGAGCAATCCGATGTTTTCCTGTCACCGGAATGGCGCGGCGACACGCCCGCCCATGAGCGGATCGAGGTTATCGAGCGCGCCGGCTGCGATCTCAACCCGCTCGACCCGTCATCCGCCGAAGATCGCCTGCGGCTGATGTCCTATGTCTGGGCCGACCAGACAGACAGGCTGGAGCGAACCGCCGCCGCCCTGCGGATAGCGGTGGAGCATGGTCTGCATGTCGAGAAGGCGGACGCGGTCGACTGGCTGAAATGCCGCCTTGCCACGCAATATGCGGGTGCTGTCCATGTCGTCTATCACTCGGTCGCCTGGCAATATCTGCCCGATGGACTGAAACAGGAAGGCGAGGTTGTGATTGCCGAAGCTGGAACCCGCGCCACGCCGGATGCCCCGCTTGCCCGGCTGCAAATGGAGGCGGATGCGACGCCGGGCGGTGCCGCCATTACCCTGCAGATCTGGCCGACCGGCGAGAAACAGGAAATCGGCCGAGCCGATTTCCATGGGCGATGGGTGGAATGGCGGGGCTGGATGGTAGGTTAA	MHDEAVRNAFLVQARACDSLGSPFTARLCRTMAARLDRHTEVGERILSWPGEVGPSGDSVPLRLAGALHALAIEEKIAPLADIPPEDEEALWQACASALRFHSPFILERLKSPPQTNEVRRSAVLLPGFLSIAALTGKPLVLSEVGASAGLNLQFDRYRYRLGDLAWGEQSDVFLSPEWRGDTPAHERIEVIERAGCDLNPLDPSSAEDRLRLMSYVWADQTDRLERTAAALRIAVEHGLHVEKADAVDWLKCRLATQYAGAVHVVYHSVAWQYLPDGLKQEGEVVIAEAGTRATPDAPLARLQMEADATPGGAAITLQIWPTGEKQEIGRADFHGRWVEWRGWMVG				NA	NA	NA	NA	NA
BMS010_02478	555			hypothetical protein	ATGGCTGACAAACTTCACGCAAAACGCAAATCCGTGCTCGAGGATTTTCACGGCGGCTCTCCCTTCGTTTCGCTGAAACCCGCTGCTTCCGCCTCGCGGCTCTCGCTGCGCGCCCGGGAAAGCGCCCTGCCGGCACTTTCGGAAGCGCTCGGTCTTGCCCTGCCGGCCCGCCCGAAAAGCTCCGTCACCTCGGGCCTGCGGTCCGCTTTGTGGCTCGGCCCGGATGAATGGCTGGTGATCGATCAGGGCGAGAGCGACCTGATGGCGGCTCTCGTCGGCGTCTCCGGCCTGTTTTCTGCAACCGATGTTTCCCACCGCAATACGGCCGTCATCGTCTCCGGTGCCGGTGCGGAAGCGGCACTCAATGCCGGTTGCCCGCAGGATCTTTCTCTCGCAAAGTTCCCGGTCGGCGCGTGCTCGCGCACCGTTTTTGGCAAGGCGGAAGTGGTGCTGCTGCGCACGGCGGACGATACGTTCCGGGTGGAATGCTGGCGTTCCTTTGCGGAATATGTCGGCGGGCTGTTGCAGGAGGCGGCTGAGGACGTGGCGGTTTAA	MADKLHAKRKSVLEDFHGGSPFVSLKPAASASRLSLRARESALPALSEALGLALPARPKSSVTSGLRSALWLGPDEWLVIDQGESDLMAALVGVSGLFSATDVSHRNTAVIVSGAGAEAALNAGCPQDLSLAKFPVGACSRTVFGKAEVVLLRTADDTFRVECWRSFAEYVGGLLQEAAEDVAV	PGPT0013525_618	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013525-soxG-K00305	NA	NA
BMS010_02479	2961	soxA_4		Sarcosine oxidase subunit alpha	ATGAGCGGCGATTATCGTATCAAGGGGGCCGGTCGTCTCACCCCGGCCAGAACCGCGCGCTTCACCTTCGATGGCAAGATTTATCAGGCGCTGGAGGGGGACACGGTCGCCTCCGCGCTTCTGGCGAATGGCGTGCATCTGATCGGCCGCTCGTTCAAATATCACCGGCCGCGCGGCTTCCTTTCCGCCGGGCCGGAAGAGCCGAATGCGCTGATCGACGTTTCCCGCGACAGTCTGCGCAAGCAGCCCAATGTGCGTGCCACGGTGCAGGAAGTGTTCGACGGCGCGATCATCGCCTCGCAGAACCGCTTTCCGTCGCTATCCTTCGATCTGAGCGCCATCAACGATCTCCTGTCGCCGATGTTCGCGGCCGGTTTTTATTATAAGACCTTCATGTGGCCGAAGGCCGCCTGGCACAGGGTTTACGAACCGCTGATCCGCCGCGCCGCCGGTCTTGGCAAGGCGCCGAGCGAGCCGGATGCGGATCATTATTCCGGTCGTTATGCCCATTGCGATGTGCTGGTGGCCGGTGCCGGCGTCGCTGGTCTGACGGCGGCGCTTGCTGCCGCGAAAACCGGCGTCAGCGTCATTATGGTCGATGAAAATGCCGAAGTCGGCGGCGCGCTGCGTTTCGACACTGGCACGGTTATCGACGGTCTGCCCGGTTACGAATGGGCGCAGAAGGTTTTTGCCGAACTGAAGTCCCTGCCCAATGTGCGGGTTCTCACCCGCACCACCGCTTTTGGTTATTACAACCACAATTTCGTGGCGCTGGCCGAGCGGGTGACCGATCATCTCGCCACGCCCGCCAGACACCAGCCGCGCGAGCGGCTGTGGCAGGTGCGCGCCAAAAAGGTCGTGCTGGCGGCGGGTGCGATCGAACGTCACATGGTCTTTGCCAATAATGACCGCCCCGGCATCATGCTGGCCTCGGCCGCACGTACCTATCTCAACCATTACGGCGTCGCCGTGGGTCAAAATGTCGGGGTCTACACCGCCCATGATTCGGCCTATGAGACGGCCTTCGATCTGAAGAAGGCCGGGGTGAAAATCGCCGCCATCGTCGATTGCCGCGAGAACCCGCATCAGCGCCTGCTGGATGAGGCGCGGGCGCTCGGCATCGAAGTGCTGGCGGGCCATAGCGTTTACAATACCGCCGGCCGCCTGCGTGTGTCTTCCATGACAGTTGGCCGCAATGGCGGTTCCAACAAGCGCAAGATCGCCATCGATGCGCTGGTGGTTTCGGCCGGATGGACGCCATCAGTGCATCTCTTCTCGCAATCGCGCGGCAAGCTGAAGTTTGACGCGGCTAACCAGCGTTTCCTGCCAGATATCCATGTGCAGAACGGTGTTTCCATCGGCGCCTGCAACGGCACGGACGATCTTTCCGCGTTGATCGCCGAGGCTGCGGCTGCCGGTGGCGGCGGCGTGGAGTTTTCCGGTGAGAATGCAAGGATTTGGACCGGTGGCATGATCGGTGCGGCCGAAGGCGCGGGTGAGGGCACCGGCGTCAAGGCCTTCATCGATTTCCAGCACGATGTCTGCGCCAAGGATATCCGCCTTGCCGTGCGCGAGGGCATGCATTCCGTCGAGCATATCAAGCGCTTCACCACCAATGGCATGGCGTCCGATCAGGGCAAGATGTCCAATATGCACGGCCTTGCCATCGCATCGGAGGCGCTTGGCCGGGATTTGCCCAAGGTCGGTCTCACCACCTTCCGTCAGCCCTATACGCCGGTCACCTTCGGCACGCTCATCAATCATTCGCGCGGCGCGCTGTTCGACCCGGCCCGCAAGACGCCGATGCAGGAGGAAGAACTGGCGGCCGGTGCGGTGTTCGAGGATGTCGGCAACTGGAAGCGCGCCTGGTTCTTCCCGCGGGCGGGCGAGGACATGCATGAGGCGATCAACCGCGAATGCAAGACGGTTCGGACAAGCGTCGGCGTGTTCGATGCCTCCACACTCGGCAAGATCGAAGTGGTCGGCCCGGATGCGGCGAAGTTCCTGAACCTCATCTACACCAATGCCTGGGACACGCTGAAACCCGGCCGCTGCCGTTACGGCATCATTACCCGCGAAGACGGTTTCGTTTACGACGACGGCGTCGTCGGGCGTCTTGCCGAAGACCGTTTCCATGTGACGACCACCACGGGCGGCGCGCCGCGCGTTCTCCAGCACATGGAAGATTATCTCCAGACCGAATTCCCCGATCTCAATGTCTGGCTCACCTCGGCCACCGAACAATGGGCCGTGATTGCCGTGCAGGGGCCAAAGGCGCGCGAGGTTATCGCTCCCTTCGTCGAGGGCATCGATCTCTCGCCGGAGGCCTTCCCGCATATGGCGGTGGCCGAAGGCACCTTCTGCGGCGTGCCGACGCGGCTCTTCCGCGTGTCATTCACCGGCGAACTCGGTTTCGAAATCAACGTTCCGGCCGATTATGGCGCAGCCGTCTGGTCGGCGATCCGCGAAAGGGCGGAAGCCGTCGGCGGCTGCCTTTATGGCACCGAGACCATGCATATCCTGCGTGCGGAAAAGGGCTATATCATCGTCGGGCAGGATACGGACGGCACGGTGACGCCTGACGATGCCGGGCTTGCCTGGGCCGTTTCCAAGAAGAAGACGGATTTCGTCGGCATTCGCGGTCTGAAACGCACCGATCTCACGCGCTCCGGCCGCAAACAGCTTGTCGGCCTGAAGACGAAAGACCGGCTTACCGTTCCGGACGAGGGCGGCCAGATCGTTGTCGATCCGAACCAGCCGAAACCCATGACCATGCTCGGCCATGTCACCTCCGCCTACTGGTCGGAAAATCTCGGCCATTCCATCGCTTTCGCGCTGGTGGCGGATGGCAGGGCGCGCATGGGCGAAACGCTCTATATTCCGCTCGCCGATAAAACCATTGCCGTCGAAGTGACCGACATGGTCTTCCTCGACAAGGAAGGAGCCCGTCTCAATGGCTGA	MSGDYRIKGAGRLTPARTARFTFDGKIYQALEGDTVASALLANGVHLIGRSFKYHRPRGFLSAGPEEPNALIDVSRDSLRKQPNVRATVQEVFDGAIIASQNRFPSLSFDLSAINDLLSPMFAAGFYYKTFMWPKAAWHRVYEPLIRRAAGLGKAPSEPDADHYSGRYAHCDVLVAGAGVAGLTAALAAAKTGVSVIMVDENAEVGGALRFDTGTVIDGLPGYEWAQKVFAELKSLPNVRVLTRTTAFGYYNHNFVALAERVTDHLATPARHQPRERLWQVRAKKVVLAAGAIERHMVFANNDRPGIMLASAARTYLNHYGVAVGQNVGVYTAHDSAYETAFDLKKAGVKIAAIVDCRENPHQRLLDEARALGIEVLAGHSVYNTAGRLRVSSMTVGRNGGSNKRKIAIDALVVSAGWTPSVHLFSQSRGKLKFDAANQRFLPDIHVQNGVSIGACNGTDDLSALIAEAAAAGGGGVEFSGENARIWTGGMIGAAEGAGEGTGVKAFIDFQHDVCAKDIRLAVREGMHSVEHIKRFTTNGMASDQGKMSNMHGLAIASEALGRDLPKVGLTTFRQPYTPVTFGTLINHSRGALFDPARKTPMQEEELAAGAVFEDVGNWKRAWFFPRAGEDMHEAINRECKTVRTSVGVFDASTLGKIEVVGPDAAKFLNLIYTNAWDTLKPGRCRYGIITREDGFVYDDGVVGRLAEDRFHVTTTTGGAPRVLQHMEDYLQTEFPDLNVWLTSATEQWAVIAVQGPKAREVIAPFVEGIDLSPEAFPHMAVAEGTFCGVPTRLFRVSFTGELGFEINVPADYGAAVWSAIRERAEAVGGCLYGTETMHILRAEKGYIIVGQDTDGTVTPDDAGLAWAVSKKKTDFVGIRGLKRTDLTRSGRKQLVGLKTKDRLTVPDEGGQIVVDPNQPKPMTMLGHVTSAYWSENLGHSIAFALVADGRARMGETLYIPLADKTIAVEVTDMVFLDKEGARLNG	PGPT0013515_574	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0013515-soxA-K00302	NA	NA
BMS010_02480	315	soxD_2		Sarcosine oxidase subunit delta	ATGCTTCTGATCCATTGCCCCTATTGCGGGGAAGACCGTTCCGAACTGGAATTCCGCTGGGCGGGCGAAGCCCATATCGCCCGGCCGGAAAACATCGCCGATATTTCCGACGAGGCCTTCGCCGAATATTTCTTCATTCGCGACAATGACAAGGGCCTCGTTTTCGAGCGCTGGCGTCACATTCACGGCTGCGGCCGCTTCTTCAACGCCGCCCGCGATTCGGTCAGCGACAAATTCCTGATGACCTACAAGGCGGGTGAGCCGAAACCCGATACTGAGACGGTCCTTTCCGCAGAAAAGGGAGCCGGGCAATGA	MLLIHCPYCGEDRSELEFRWAGEAHIARPENIADISDEAFAEYFFIRDNDKGLVFERWRHIHGCGRFFNAARDSVSDKFLMTYKAGEPKPDTETVLSAEKGAGQ	PGPT0013520_309	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013520-soxD-K00304	NA	NA
BMS010_02481	411			hypothetical protein	ATGCTGGCGGCGGCCATGCTTGCGATTAACATATCAGGCGCGGCCGTGCCCGTGCCCGCCGGCAGCGTCATTCCCGAGGCCAGGGATTTTCGCAGCCAGAAGATTGCGAAGATGCAGGGTGAGAAAGACTGGCCCTTCATGGCGGAAAAAGGCCTGCTTCTCTGTGCTCCAAGTCTCGCGAACAAGATGGTTTATTTTGTCGGTGAGAAGGAGGATGGCGGGCAGGATTACCCCTTCGCAATCGATACCGACATGATGGCGGTTGCCATCGTCAATATGGGCCGGGCCTCGGCGCTACGCCCTTTCGATAATTTCGAGCAGCTTTTAAAGCGGCTTTCCCCTTTCGTAGCCATGGGAAAGCGGCTGTGTGACCAACCCGCCGGAACGATCCTTCCGGAAAATTCTCTCTAG	MLAAAMLAINISGAAVPVPAGSVIPEARDFRSQKIAKMQGEKDWPFMAEKGLLLCAPSLANKMVYFVGEKEDGGQDYPFAIDTDMMAVAIVNMGRASALRPFDNFEQLLKRLSPFVAMGKRLCDQPAGTILPENSL				NA	NA	NA	NA	NA
BMS010_02482	1254	soxB_2		Sarcosine oxidase subunit beta	ATGCGCAAATATTCCGTTTTTGCCGTGGCGCGTGAGGCGCTCAGGGGTCATAAGGGGTGGGATGCGCAATGGGCCTCGCCCGAGCCGCGCAAGGATTACGATGTCATCATCATCGGCGGCGGCGGCCATGGGCTGGGGGCTGCCTATTATCTTGCCAAGGAACACGGCATTACCAATGTCGCGGTTCTGGAAAAAGGCTGGCTTGGCGGCGGCAATACCGGCCGCAACACCACCATCATCCGCTCCAACTATCTCTATGAAGAGAGCATGGATATTTACGAGCATTCCCTGAAACTGTGGGAAGGCCTGAGCCAGGATCTCAATTACAACGTCATGTATTCGGCGCGCGGCGTGATGATGCTGTCGCACAATATTCATGACCGGCAGTCCTTCAGCCGCCATATCAATGCCAACCGTCTTTACGGCATCGACAATGAGTGGCTGACGCCGGAGCAGGCGAAAGCCTATTGCCCGCCACTCGATATATCAGGCAATGCGCGTTATCCGATCAACGGCGCTGCCCTCCAGCGCCGCGGCGGTACGGCGCGCCACGATGCGGTGGCCTGGGGTTATGCCCGCGCGGCCTCCGACCGCGGCGTGCACATCATTCAGAACTGCGAGGTTACGGGCATTCGCCGCGGGCCGGACGGGGCGGTGACGGGTGTGGAAACCAATCGCGGTTTCATCGGCGCGAAGAAGATCGGCGTTTCCGCCGCCGGTCATTCCTCCGTCATCATGAAAATGGCGGATGTGCGCGTTCCGCTGCATTCCAACCCGCTGCAGGCGCTGGTTTCGGAACCGCTGAAGCCGATTTTCCCCTGCGTGGTGATGTCCAACACGGTCCACGCCTATATTTCGCAATCCGACAAGGGCGAGCTGGTCATCGGCGCGGGCACCGATCAATATAACTCCTATTCCCAGACCGGCGGCCTGCAGATCATCACCCACACGCTCGACGCGATCTGCGAGCTGTTCCCGATCTTCCGCCGCGTCAAGATGATGCGCCAATGGGGCGGCATTACCGACAATACGCCCGACCGCTCGGCGATCCAGAGCGGGACGCCGGTGCAGAACCTCTTCGTCAATTGCGGCTGGGGCACGGGCGGCTTCAAGGCGACGCCGGGTTCGGCCAATCTTTTCGCGCATCTCATCGCGCGGGGCGAACCGCATCGTCTGGCGGCGGGGCTGACGCTCGACCGATTCCGCACCGGCCGTCTTATCGATGAGGCTGCCGCTGCCGCGGTGGCGCATTGA	MRKYSVFAVAREALRGHKGWDAQWASPEPRKDYDVIIIGGGGHGLGAAYYLAKEHGITNVAVLEKGWLGGGNTGRNTTIIRSNYLYEESMDIYEHSLKLWEGLSQDLNYNVMYSARGVMMLSHNIHDRQSFSRHINANRLYGIDNEWLTPEQAKAYCPPLDISGNARYPINGAALQRRGGTARHDAVAWGYARAASDRGVHIIQNCEVTGIRRGPDGAVTGVETNRGFIGAKKIGVSAAGHSSVIMKMADVRVPLHSNPLQALVSEPLKPIFPCVVMSNTVHAYISQSDKGELVIGAGTDQYNSYSQTGGLQIITHTLDAICELFPIFRRVKMMRQWGGITDNTPDRSAIQSGTPVQNLFVNCGWGTGGFKATPGSANLFAHLIARGEPHRLAAGLTLDRFRTGRLIDEAAAAAVAH	PGPT0013510_312	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013510-soxB_-K00303	NA	NA
BMS010_02483	228	rpsU_1	COG0828	30S ribosomal protein S21	GTGCAGGTACTAGTCCGCGACAATAACGTTGATCAGGCGCTCCGCGCCCTGAAGAAAAAGATGCAGCGCGAAGGCATTTTCCGTGAAATGAAAATGCGCGATTACTACGAAAAGCCCTCCCAGAAGCGCGCTCGCGAAAAGGCTGAAGCCGTTCGCCGCGTTCGCAAGCTGGCACGCAAGCGTGCACAGCGCGAAGGTCTGGTTGCAGGCCCCCGCGCAGGCCGTTAA	MQVLVRDNNVDQALRALKKKMQREGIFREMKMRDYYEKPSQKRAREKAEAVRRVRKLARKRAQREGLVAGPRAGR				NA	NA	NA	NA	NA
BMS010_02484	897	ycf3		Photosystem I assembly protein Ycf3	ATGATCGCTGTCGACGCCTGTGTTGTGAAAAACTCCGATGCCTCCACGCGCCGGGTGCCATTGAAAAACAACAGAGGGTTCCGCGCTTCTCTGGTCGTCTGTACCGTCCTTGCCGGTCTTTCCGGCTGCGCGACATCCAACCAGACGGAAGATGTATTCAGGATCGACCGTGCCCAGGGTTCGCAGGAAAACATCGCCTCGCTCACCTCGGTCATCAACGCCAATCCGCAGGATCCCGAAGGCTATAACGTCCGTGGTTCGGCTTACGGCCGCGCCGGCGATTCGCGCCGCGCCATCGAGGATTTCAACAAGGCGCTGCAGCTCAACCCGCGCTTTTATCAGGCCTATGCCAACCGCGCGCTGGTCTATCGCAACTCCGGGCAGCAGCAGCAGGCCCTGCAGGACTACAACGCCGCCCTGCAGATCAATCCGAGCTACGATGTGGCGCTGATCGGCCGCGGTAATCTTTACCGCCAGTCCGGGCGTGTGAACGAAGCCTTCAACGATTTCTCCCGCGCCATCGAGCTTGAAACCACCGATGGACGCGCCTGGCACAATCGCGGCCTGATCTACCAGCTGCGCAACCAGCATGCCCAGGCCATCGAGGACTTCTCCAAGGCAATCTCGCTGTCGTCGACCTCGCCGGAGCCCTATAACGGCCGCGGCCTTTCCTATGTCGCCTTGAACGACGATGAAAACGCTTTCGCCGATTTCAACCACGCCATTTCGCTGGATGGCAATGTGGCGGAATCCTGGGCCAACCAGGCGCTTGTTTATGAGCGTCGCGGCGAGATGGCCAAGGCCGCCAAGTCCTATGGACATGCGGCCCGGCTCGACCCGAAATACAAGCCCGCACTTGACGGCGTTGCCCGCACACGCGGCGCCGGCGCTTCCTGA	MIAVDACVVKNSDASTRRVPLKNNRGFRASLVVCTVLAGLSGCATSNQTEDVFRIDRAQGSQENIASLTSVINANPQDPEGYNVRGSAYGRAGDSRRAIEDFNKALQLNPRFYQAYANRALVYRNSGQQQQALQDYNAALQINPSYDVALIGRGNLYRQSGRVNEAFNDFSRAIELETTDGRAWHNRGLIYQLRNQHAQAIEDFSKAISLSSTSPEPYNGRGLSYVALNDDENAFADFNHAISLDGNVAESWANQALVYERRGEMAKAAKSYGHAARLDPKYKPALDGVARTRGAGAS				NA	NA	NA	NA	NA
BMS010_02485	252			hypothetical protein	ATGGCTGTCGCGGCGTGCCTCTTGCGTGGCATCGCCCGCCCACAATTCAGCCTGCACGGCGTTTTGAAATTCCATGACCTCGCGCCGCATGGCGGCGTCCTCATAGCCAAGCGCCATCAGACGGGCGGCCAGTTCACGGCACTCCCTGCGCCAGAAATCATTCGCCTCCACACCATGCAGCCGGTCGAGCATGGTTGCACATCTTTTTACGTCGGCAATACGGTTCTTTGCCGGAAAGGCGATTACTTCTGA	MAVAACLLRGIARPQFSLHGVLKFHDLAPHGGVLIAKRHQTGGQFTALPAPEIIRLHTMQPVEHGCTSFYVGNTVLCRKGDYF				NA	NA	NA	NA	NA
BMS010_02487	279			hypothetical protein	ATGTATGCACCTCGTGTTTTTTTCAGCATGATCGGTGCATTACTTACCTTTGCGGTTGCGACATATTTCATCCACGGCTCGTTCTATACGGCATTCATCCAGACCCTCATCTGCGCGGTCATTCTGCAAGTCGGTTATTTCATTGGGATTGTCGTCCTGGTCGCCCGGGAAAAGCGGCGGCTGCGCGAAACCTTCGCGCGGGATCGTGGTGCCGAGGCAATGCAGGCGGACGCCGTAAAAAGCCCGCCGCCGCACGGTGCAAAACTGACCGATATGTGA	MYAPRVFFSMIGALLTFAVATYFIHGSFYTAFIQTLICAVILQVGYFIGIVVLVAREKRRLRETFARDRGAEAMQADAVKSPPPHGAKLTDM	PGPT0026570_42	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-SUCCINOGLYCAN_METABOLIC_PATHWAY,PGPT0026570-exoX-K16565	NA	NA
BMS010_02488	990			hypothetical protein	ATGGTGAGCGGTTCACAGCCCATTTGCGTCATCATCGCTGCGAAAAATGCATCCGAAACGATCGATATCGCCATACGTTCCGCCCTCGGGGAGCCGGAGGTCGGCGAAGTGGTGGTGATCGACGATGGTTCCACCGACACGACGAGCGATGTGGCGCATGCGGCGGATGACGGCACGGGCCGTCTGCGGGTCGTGCGATTCGAGGTCAACCGAGGCCCTTCGGCTGCGCGCAACCACGCCATCTCTATTTCATCGGCGCCGCTCATCAGCATTCTCGATGCGGACGACTTCTTTTTCCGCGGCCGATTTGCCGCCATGCTGGCCGACGATGACTGGGATCTGGTGGCCGACAATATCGCCTTCATCCAGCAATCGGTCCCCGGCGCATCCTCCATGCAGCCGGCCCGATTCGAACCGCAGGCGCGGTTTCTGTCGCTGACGGAATTCGTGGAAGGCAATATTTCCAGGCCCGGCGTTGAACGCGGGGAAACCGGGTTTCTGAAGCCGGTCATACGCCGCGCTTTTCTTGACAAACATGCACTGCGTTACGATGACGGCCTGCGGCTCGGCGAAGATTACGAGCTTTACGTGCGGGCGCTGGCCGCCGGCGCGCGTTACAAGGTCATCCGTCATTGCGGTTACGGCGCGATCGTGCGCGGCAACTCGCTGAGCGGCCGCCATCGCACCGAAGATCTTCGCCGCTTATACGAGGCGGACAAGGCCATTCTCGCCGGCTGCCGGCTTTCGGCAGAGGAAACGGCGATCATGCGGGAACACGAAAAACACATCCGCGCCAAATTCGAGCTTCGCCATTTTCTCGATGCGAAAAAGCAGAAGGGAATGGGCGGCGCGCTGAGCCATGCCCTTGCGCGGCTCCCCGCCCTGCCCGCCATCACGCGCGGCATCTGGAGCGACAAGACCGCCCGATTCCGTAAATCGCCGCCGGTGCGGGACGTGCGTTATCTGCTGGACGGTACGCCGGTTTCGTAG	MVSGSQPICVIIAAKNASETIDIAIRSALGEPEVGEVVVIDDGSTDTTSDVAHAADDGTGRLRVVRFEVNRGPSAARNHAISISSAPLISILDADDFFFRGRFAAMLADDDWDLVADNIAFIQQSVPGASSMQPARFEPQARFLSLTEFVEGNISRPGVERGETGFLKPVIRRAFLDKHALRYDDGLRLGEDYELYVRALAAGARYKVIRHCGYGAIVRGNSLSGRHRTEDLRRLYEADKAILAGCRLSAEETAIMREHEKHIRAKFELRHFLDAKKQKGMGGALSHALARLPALPAITRGIWSDKTARFRKSPPVRDVRYLLDGTPVS	PGPT0026600_71	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-SUCCINOGLYCAN_METABOLIC_PATHWAY,PGPT0026600-exoU-K16564	NA	NA
BMS010_02489	969	pssM		Exopolysaccharide glucosyl ketal-pyruvate-transferase	ATGAAACCTTACCACTGGGAATCTCATCACGGAAATTTCGGTGACGATCTCAACCTGTGGCTGTGGGATTTTCTGCTTCCGGGCCTGCGCGATGTGCATGACGACGTCATGCTCGTTGGCGTCGGCACCGTGCTGAACGACGTTCTTTTGCCCGCAAAGCAGCGCAAGCTGGTGATCGGCAGCGGCTATGGTTATGGCGCGGTGCCGGATACCAGCACCGAGTTCTGGGATATTCGCTGCGTGCGCGGCGAAAAAACCGCCGCCAAGCTGGGGCTCGCGCCCGAAAAGGGCATTGTCGATCCGGCCGTCATGGTGACCGAGATGCCCGATTTCAAAGGCCTGCCGAAGCTCTACAAGAAAACCTTCGTTCCGCACTGGGAATCGGCGGAATTCGGCATGTGGGAAACCGTCTGCGAACCGGCGGGGCTGACCTATCTCGACCCGCGCGGCGAGGCGAAAGCGGTAATCCGCGCCATCGCCCAGTCGGAATTCATCGTGGCCGAATCCATGCATGGCGCAATTCTTGCCGATGCCTTCCGCGTGCCATGGGTCGCGGTCAACACCTCGCCGTCGATCAACAGCTTCAAATGGAGCGACTGGGCCGGCAGCGTGGGTGTCGAATATCAGCCGCGCTATGTGCCCGTTTCAACCCGCGCCGAGGCGGCGAAAAAGGGCTCGCGCTTCTGGGGCATGAGCTTCCCGCCGCCGCCCGGCCCCGTCATTGCCGAGACCGGTTCCGTTCCGGCACATGAAGGCCCGGCGCATGAGGGCGACGTGCTGGTGCGGCCGCAGGAAACGCAGCCTCGGTCATTGCGCAAATTGGCCAAGCAGGTGCTGGCAGCACCTTCCACGCTGGCGCTCTGGCAGGCAAGCCGCGCGGAGCCGCGTCTCAGCCCGGATGGCCGGCTGGAAGAGCGCAAGGAGCGTTTCGCCGCCGTTCTGGAAACGGTGAAGCGGGATTATCTCTGA	MKPYHWESHHGNFGDDLNLWLWDFLLPGLRDVHDDVMLVGVGTVLNDVLLPAKQRKLVIGSGYGYGAVPDTSTEFWDIRCVRGEKTAAKLGLAPEKGIVDPAVMVTEMPDFKGLPKLYKKTFVPHWESAEFGMWETVCEPAGLTYLDPRGEAKAVIRAIAQSEFIVAESMHGAILADAFRVPWVAVNTSPSINSFKWSDWAGSVGVEYQPRYVPVSTRAEAAKKGSRFWGMSFPPPPGPVIAETGSVPAHEGPAHEGDVLVRPQETQPRSLRKLAKQVLAAPSTLALWQASRAEPRLSPDGRLEERKERFAAVLETVKRDYL	PGPT0026595_9	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-SUCCINOGLYCAN_METABOLIC_PATHWAY,PGPT0026595-exoV-K16563	NA	NA
BMS010_02490	966			hypothetical protein	ATGGCAAGATTTACTGTCGTCATTCCCTACTACCAAAAGCAGCACGGTGTCTTGGGACGTGCACTCGCATCGGTTTTTGCGCAGACTTACCAGGATTTCGATCTTGTCATCGTCGATGACGAATCGCCATACCCGATCGATCAGGAACTTGCGGAACTTTCGCAGGGTGAGAAAGACCGGATTCTCGTCATTAAACAGGCCAATGCCGGCCCGGGCGGCGCCCGCAACACCGGTTTGGACAATGTGCCTGACGGCACCGACTATGTCGCCTTTCTTGATTCCGACGATATCTGGACACCCGATCATCTGCAGAATGCGGCCTTTGCGCTTCAGACCTATGGCGGCGAGTGCTACTGGGCATCCATGCAGGCAAGTGACGAATTTTATTATCATTTCGCCATTTCCGAGCTGGAGAAAAATGAGGGTGCGGCAAGGCTTTCCGAGAAGCCGCTGGTGATCGAACTGCCGGATCTGGCAAGTGTGATGCTGCGCAACTGGAGCTTCCTGCATCTCTCCTGCATGGTGATCGGCCGTCCTCTTTTTGAGAAAATCCGCTTTGACCCGGCGCTTCGTCTGGCGGCGGAAGACGTGCTGTTTTTCTGCGATTCCATCCTGGCATCGAAGCGCACGCTTCTGTGTGACGACGCCGGCGCGATGCGCGGAATGGGGGTCAATATCTTCCACAGCATCGACAATACCTCGCCGGAATTCCTGCGCCAGCAGTTCAATACCTGGGTGGCGCTCGATACGCTGGAGGGGCGTTTTTCACGCCGGCCGGACGATGTCGCCTCCATCGCTTCCTATAAAAACACGGCGCGCAAACAGGCGCTGTGGAGCCAGGCGGGCAATCTGAAACGGCGCAAGGCACCCGAATTCGGACTGCTCCTGAAATGGGCGATGCGCGATCCGGCACTGCTGCGCGCCGCGTTCGAGCTCGGTGCTGGAAAAATCGTCCGCTCCAGATGA	MARFTVVIPYYQKQHGVLGRALASVFAQTYQDFDLVIVDDESPYPIDQELAELSQGEKDRILVIKQANAGPGGARNTGLDNVPDGTDYVAFLDSDDIWTPDHLQNAAFALQTYGGECYWASMQASDEFYYHFAISELEKNEGAARLSEKPLVIELPDLASVMLRNWSFLHLSCMVIGRPLFEKIRFDPALRLAAEDVLFFCDSILASKRTLLCDDAGAMRGMGVNIFHSIDNTSPEFLRQQFNTWVALDTLEGRFSRRPDDVASIASYKNTARKQALWSQAGNLKRRKAPEFGLLLKWAMRDPALLRAAFELGAGKIVRSR	PGPT0026565_40	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-SUCCINOGLYCAN_METABOLIC_PATHWAY,PGPT0026565-exoW-K16562	NA	NA
BMS010_02491	1479			hypothetical protein	ATGCCCCCAGCGCCAAATGTAAAGACCATCACCACGAATGTCGGCTGGAGCGTTTTATCAAAAACAGGGACATTCGGGCTTAAATTTGTCACGGTCCCAATTCTCGCAAGACTGCTTTCCCCGGAGGAATTCGGGGTGGTGGCGGTAGGACTAACGGTTGTACAGTTTCTGACGATGATCGCCGGCGCGGGGCTGACCTCTGCCCTGATCGTCGAAAAGGAAGAGGATATGGAAACGATCCATACCGTCTTCTGGGCCAATCTCGCCATCTCCTGCACCATGGCCGCCGTCCTCTACATCTGGGCAGAATTTTTCGGCGGACTTCTGGGTGCTGTTGAAAGCGCCTATCTGCTGCGCATCATGGCATTCCTCATCCCGCTGCAGCTTGCCGGCGATGTCGCCTATTCGCTGCTGGCGCGACGGATGAATTTCAGCAAGGACGCGCTGTGGAGCATGGCGTCGGAAAGCATCGCGGCCATCGTCGCGGTCGCGCTCGCCTTCATGGGCTTCGGCGTCTGGGCGCTGATCATCCAGCTTTTTGCCGCGGCCCTCATCCGGCTTGTCGGGCTTTATGCCGTTTCGCGCTATTGCCCGCGTTTCGTCATGAAACCGCGCCGGCTGGTGCCGCTTCTCGGCTTCAGTTCGGGGCTGATGGGCTCGGAAATCGCCAATTTCGTTACCTTCCAGTCACCGATGGTGGTCATTGCCCGACACCTGGGTCTGGCCGATGCCGGCGCCTATTCCGCCTCCAACCGCTTTGCCAGCATTCCCAATCAGGTAGTTCTGTCGGCCGTCATGGGTGTCCTGTTTCCCGCCTTCAGCCGCATGATGGACGACCCACAACGCCGGCGCGATGCGCTGATGTTCAGTACGCAGGTGCTGACCGTGCTCCTGGCGCCGATGATGTTCGGCCTCTGGGCCGTGGCGGAGCCGGCCATGCTTGTCATCTTCGGGCAGAACTGGGCCTATGCCTGGCCGGTCCTCGGTCTGCTCGCCCTGTCGAAGGCCATTCTGACGCCATGCAGCACCTTCATCCCCTATCTGAAGGGGGCAGGTTACGGCCGCGTGCTGTTCTGGTCGGCAACGATCCGCGCCATCGTCACCACCGTCGCGGTCTGGCTTGCCGCGCTTTATGGCACCCTGATCGACGCGATGGTGTGGCTCTGCATCGTCAATGCGGTAACGCTGGTCGCCTATTCCTGGGCCGTCTTCAAGGCGAGCGATACCCCCTTCTTCCGCGGCCTTTATGTCAGCAGCCGGCCGATGATCGCGGCGCTGGTGATGGCCGTTGCGGTGCGTTATCTGCTTCACCTTCTGGCTGAACGCGTTCCCAATGCCACGCTTCAGGTTCTCATCGGCGCTGCCGTCGGCGGCGTCATCTATGCGGTGCTGATCCTGCTGACCGAACGGGCGCTGCTCGGGAAAATTCTCGGAATGGTCAAATCGCGGCGTATGCGGGATACCGCAACTCAGGGTTAG	MPPAPNVKTITTNVGWSVLSKTGTFGLKFVTVPILARLLSPEEFGVVAVGLTVVQFLTMIAGAGLTSALIVEKEEDMETIHTVFWANLAISCTMAAVLYIWAEFFGGLLGAVESAYLLRIMAFLIPLQLAGDVAYSLLARRMNFSKDALWSMASESIAAIVAVALAFMGFGVWALIIQLFAAALIRLVGLYAVSRYCPRFVMKPRRLVPLLGFSSGLMGSEIANFVTFQSPMVVIARHLGLADAGAYSASNRFASIPNQVVLSAVMGVLFPAFSRMMDDPQRRRDALMFSTQVLTVLLAPMMFGLWAVAEPAMLVIFGQNWAYAWPVLGLLALSKAILTPCSTFIPYLKGAGYGRVLFWSATIRAIVTTVAVWLAALYGTLIDAMVWLCIVNAVTLVAYSWAVFKASDTPFFRGLYVSSRPMIAALVMAVAVRYLLHLLAERVPNATLQVLIGAAVGGVIYAVLILLTERALLGKILGMVKSRRMRDTATQG	PGPT0026590_24	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-SUCCINOGLYCAN_METABOLIC_PATHWAY,PGPT0026590-exoT-K16553	NA	NA
BMS010_02492	1311			hypothetical protein	ATGACCGGAACGCCAGACATTCACCCGCAAAATCTAAGCTTGTGTTTTTCCCGCGTCGCCACATTTTATCCCAAAGTCGAAACCAGACTTTCCAGTGCGGGCTTAAGTTCGCTCTGGTTGCAACGCGGCGTGGGTGGACGCCGCCCAATAGGGGTGACTGATGTGACTGTCGATCAGAACCTATCCTCCCGTATCAATTTGATGCGCATATTGCTGATCTCCGGGATCGTGTTCGTCCATGTGCCGCACGATGCCGAAACCAGCCCTTTTCTCGGCCTTTACGGTTTCTTCGACTGGCTGCGGGTTTTCCTCGGCGATGCGCTGTTTCGCATCGGCGTGCCCTGTCTCAGCGCCATTTCCGGTTATCTGCTGTTTCGCCGCGGCATGAGCGGTTTCGATTATCCGGCGACGATCCGTTCCAAGTCGAAAACCGTGCTGCTGCCTTTCCTTCTGTGGAACGGCGCGCTGTTTGCCGCGGTGCTGCTTATCCAGCTGTTCGACCTTGGCGTCGGCTATTTCCCTGATCTGTGGAATGCCAGCCCGCGGGAAATCATCAGTCACGGAACGGCGCTTGAAGAGCTGCCGGTCAACGTGCCGCTATATTTCCTGCGTGATCTCTTTGTCTGCATCCTGCTGTCGCCGGTGCTTGCCTTTCTGATGCGCCGTTTCGCGCTGCCGACGCTCGCGATCCTGCTCATCATCACCGCCATGCCTGATTTGACGATTTTCATCGTCCAGAAGAAATCCATTCTTTTCAGCTTCTCGCTCGGCATTGCGCTGGCGCTTCATCGTATCGACGTCAAGGCGCTGGACCCCTACGCCGTGCCGATCATGGCGCTGACCTTTGCCGCCTCGGCCATATTGGCGACGGGACTTTATTTCACCGGCCCGGAATTCACCTTCTGGCTCAACATGTCGCGCAATCTGCTTGCCGTTTTCGGCGCGCTCGGTTTCTGGGCGTCTTCCGCCCTGTTGATCCGCAGTCGGCTTGGCCAGCGGCTTGCCGAAACCGGCAGCCTGAGCTTCTGGATTTTCTGCGCCCATTATCCGCTGCTCGTCATCATGTGGATGGTATGGAACAAGGGCGGGCCGGATTTCTACCCCGCCTTTTATATCAGCGCGACGCTTTCCGCCTTCGTCATTCTGGTGATCAGCAATTCCCAGACCCGCAAATACCTGCCGACCGTCTATGCCGTGCTGACCGGAAGCCGCAGCGGCAAAGGCAAGACGAAGGCCGACTTTGCGGCAAAACGGGCCGCCATGATCGGCCCGCCGACATCCGAAACGCTTTATTCGCAACGACAGAGGTGA	MTGTPDIHPQNLSLCFSRVATFYPKVETRLSSAGLSSLWLQRGVGGRRPIGVTDVTVDQNLSSRINLMRILLISGIVFVHVPHDAETSPFLGLYGFFDWLRVFLGDALFRIGVPCLSAISGYLLFRRGMSGFDYPATIRSKSKTVLLPFLLWNGALFAAVLLIQLFDLGVGYFPDLWNASPREIISHGTALEELPVNVPLYFLRDLFVCILLSPVLAFLMRRFALPTLAILLIITAMPDLTIFIVQKKSILFSFSLGIALALHRIDVKALDPYAVPIMALTFAASAILATGLYFTGPEFTFWLNMSRNLLAVFGALGFWASSALLIRSRLGQRLAETGSLSFWIFCAHYPLLVIMWMVWNKGGPDFYPAFYISATLSAFVILVISNSQTRKYLPTVYAVLTGSRSGKGKTKADFAAKRAAMIGPPTSETLYSQRQR	PGPT0026535_6	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-SUCCINOGLYCAN_METABOLIC_PATHWAY,PGPT0026535-exoH-K16560	NA	NA
BMS010_02493	792	exoK		Endo-1,3-1,4-beta-glycanase ExoK	ATGACAACATTTGTCACCCGCGTTCAGACACGCATTCTTCTCGCCGCGGCCCTTCTGGCTGCTCCCTTTGCGACGCCGGGCCAGGCGCAGGAAGGCAATGGCGCATCCTTCATCGAGAACTTCGATTCCATGGACAGAAGCTTCTGGTACGTTTCCGACGGCTGGAACAATGGCGCGCATCAGAACTGCACCTGGTCGAAGAAACTGGCGACGGTGGAAAACGGCCAGCTGACACTCGGTTTTGAAGAAGCCAAGGCCGGCGACCGCAAATTCGCCTGCGGTGAAATCCAGACCAAGGGGCGCTATCGTTACGGCACCTATGAGGCACGCATGAAGGCTGCCACCGGCTCGGGCCTCAACTCCGCCTTCTTCACCTATATCGGCCCGACCGACAAGAAGCCGCACGATGAAATCGACTTCGAGGTTCTGGGCAGGAATACGGGCCAGGTGCAGCTAAACCAGTATATTTCCGCCAAGGGCGGCAATGAGAAGCTGGTGCCGGTGGAAGGCGGAGCCGATGCCGGCTTCAACGATTACGCCTTCGTCTGGGAACCGCAGCGCCTGCGTTATTACGTCAACGGCAAGCTCGTCCATGAAGTGACGGATGAGTCGAAAATCCCGCAAAACGCCCAGAAGATTTTCTTCAGCCTGTGGGGCACCGATATGCTGAAGGACTGGATGGGCAAGTTTTCCTATTCCGGCGCGACGCAGATGGTCGTTGATCGTTTTGCCTTCACGGCGCTCGGCGACAAATGTCAGTTCCCGGAATCCATTGCCTGCGCCCTCAACTGA	MTTFVTRVQTRILLAAALLAAPFATPGQAQEGNGASFIENFDSMDRSFWYVSDGWNNGAHQNCTWSKKLATVENGQLTLGFEEAKAGDRKFACGEIQTKGRYRYGTYEARMKAATGSGLNSAFFTYIGPTDKKPHDEIDFEVLGRNTGQVQLNQYISAKGGNEKLVPVEGGADAGFNDYAFVWEPQRLRYYVNGKLVHEVTDESKIPQNAQKIFFSLWGTDMLKDWMGKFSYSGATQMVVDRFAFTALGDKCQFPESIACALN	PGPT0019405_92	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-OTHER_GLYCOSIDASES,PGPT0019405-exoK-K16559	NA	NA
BMS010_02494	1182			hypothetical protein	ATGACCCATGTTCTATATCTCGCGCATGATCTGTCGGACCCCGCCATTCGTCGGCGGGTGCTGACCCTGCTTGCGGGCGGGGCGCGGGTGACGCTGGCGGGCTTCCGGCGCGGACAGAACCGACTGGCGGAGATCGAAGGCGTCGTACCCGTCGTGCTCGGGGAGACCGCCGACGGGCAGTTTCTGCAGCGCATGGCGGCGGTGGCGAAAGCCAGCCTTTCGCTCGGCAAGACATTGAGCGGCATCCCCACCCCCGACGTCATTCTTGCCAGAAATCTGGAAATGCTGGCGCTGGCAAAGCGGGCCATGTCGATCTATGCCGGACAGCCGGCGCTGGTTTACGAGTGTCTCGACATTCACCGCCTGCTTCTTAACAAGGGAAAGCCCGGGCAAATGCTGAATGCCGCGCAGCGTTATTTCGCACGCGACGCCAAGCTGCTGATCACCAGCTCTCCCGCCTTCGTGGAGCATTATTTCAAGCCCGTGTCGGGCCTCGATCTTCCCGTCCTGCTGCAGGAAAACAAGGTGCTGGCGCTCGATGCGGCCGTTGCCGCCACGCCGCAGCCACGCGCTCCCGCCCAAGGCGAACCATGGAAAATCGGCTGGTTCGGCGCGCTGCGCTGCCGCAAATCGCTGGAAATCCTTGCCGAATTTGCCCGTCGAATGGAGGGCAAAGTCGAAATCATCCTGCGCGGCCGGCCGGCCTATTCGGAATTTGCCGATTTCGACGGCTTCGTGGCCACTGCCCCGCATGTGCATTTCCATGGGCCTTACAAGAACCCCGAGGAACTTGCCGCCATCTATAACGAGGTGCAATTCACCTGGGCGATAGACTTTTTCGAGGAAGGCCAGAATTCCAGCTGGCTGCTGCCCAACCGGCTTTACGAGGGTTGCCTTTATGGCACCCTGCCGATTGCGCTGGCCGGCACGGAAACCGCCCGCTTCATCGAAAAGCGCGATATCGGCTTCGTCCTGCAACATGCGGGCGCTGACGATCTCACCGCACTGTTTAACCGGATGAATCCGCAAACCTATGCGGACGCCTTCAACGCCCTCTCGGCACTCGACAGGAAACAATGGCTGACCGACCGCGACGATTGCCGTCTGCTGGTGCAGCAATTGTCCTCTCTCGCCAAATCCGCTTCCGGCCATGCCCGTGAAGCGCAGTTTTCACCCGTGTAG	MTHVLYLAHDLSDPAIRRRVLTLLAGGARVTLAGFRRGQNRLAEIEGVVPVVLGETADGQFLQRMAAVAKASLSLGKTLSGIPTPDVILARNLEMLALAKRAMSIYAGQPALVYECLDIHRLLLNKGKPGQMLNAAQRYFARDAKLLITSSPAFVEHYFKPVSGLDLPVLLQENKVLALDAAVAATPQPRAPAQGEPWKIGWFGALRCRKSLEILAEFARRMEGKVEIILRGRPAYSEFADFDGFVATAPHVHFHGPYKNPEELAAIYNEVQFTWAIDFFEEGQNSSWLLPNRLYEGCLYGTLPIALAGTETARFIEKRDIGFVLQHAGADDLTALFNRMNPQTYADAFNALSALDRKQWLTDRDDCRLLVQQLSSLAKSASGHAREAQFSPV	PGPT0026545_45	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-SUCCINOGLYCAN_METABOLIC_PATHWAY,PGPT0026545-exoL-K16558	NA	NA
BMS010_02495	999			hypothetical protein	ATGGAAGGTCTTGGTCATTCCGGCATCAGAACGCTGATCGTCATTCCCTGCCTCAATGAGGCGAAGACGATCAAAGGGCTGCTTGTCAAATTCACCGGCGCGATGCAGGGGCGTCTTTTCCGCATCGTGGTTGCCGATGGCGGCAGCACGGATGGAACCCCCAATATCGTTTCCGCCTTTGCGGCGGCGGATGACCGCGTGACGCTTCTTCCCAATCCGAAGCGCATCCAGAGCGCCGGCATCAACCTTGCCGTCGCCACCTTCGGCGAGGATTTCGATTACCTCATCCGCATCGACGCCCATGGCGATTATCCCGATGATTATTGCCAGCGGCTGATCGAGGATGCCGAGCGCACAGGTGCTGATTCCGTCGTCGTCGCCATGGATACGGTCGGCCACGGCCTGTTCCAGAAGGCGACGGCCATCGCCCAGAATTCCAAGCTCGGCAATGGCGGCTCCAAGCACCGCGAAGGCGCGAAAGGCCACTGGATCGACCATGGCCACCACGCGCTGATGCGGATCGCCGCTTTCGATGCGGTGGGCGGTTATGATGAAAGCTTCAGCCATAATGAGGATGCCGAGCTGGATTTCCGCCTGCGCAAATCCGGTTTCCGCATCTGGATGACCGACAAGACCCGCATGACCTATTATCCGCGCGCCAGCGTCATGCCGCTGTTCCGGCAATATCTCGCCTATGGCCGCGGCCGGGCGAAGAACCTCCTGAAACATCGCTCGATCCCGAAAATCCGCCAGATGATCCCGCTCGCCGTGCTGCCGGTTTTCATCCTCGCGCTGCTGTCGCTTGTGCATTGGGCGGCACTTATTCCGCTCGGCCTCTGGATCGCCGCATGTGTGGGGTATGGCTTGTGGATGGCAATAGGTCAGAAAAACCCATACGGCCCGCTCGCCGCCTTTTCGGCGATGGTGATGCATCTGGCCTGGTCCACCGGCTTCTGGCTGGAACTCCTGAAATTCCGGGGAAGAAAGGCTGTCTCATGA	MEGLGHSGIRTLIVIPCLNEAKTIKGLLVKFTGAMQGRLFRIVVADGGSTDGTPNIVSAFAAADDRVTLLPNPKRIQSAGINLAVATFGEDFDYLIRIDAHGDYPDDYCQRLIEDAERTGADSVVVAMDTVGHGLFQKATAIAQNSKLGNGGSKHREGAKGHWIDHGHHALMRIAAFDAVGGYDESFSHNEDAELDFRLRKSGFRIWMTDKTRMTYYPRASVMPLFRQYLAYGRGRAKNLLKHRSIPKIRQMIPLAVLPVFILALLSLVHWAALIPLGLWIAACVGYGLWMAIGQKNPYGPLAAFSAMVMHLAWSTGFWLELLKFRGRKAVS	PGPT0026525_239	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-SUCCINOGLYCAN_METABOLIC_PATHWAY,PGPT0026525-exoA-K16557	NA	NA
BMS010_02496	945			hypothetical protein	ATGACCGACAACACCGTCACCCGCACAGATGATTCGAAAACCGTCGATATCGGCATCTGCACCTACAGACGCCCGGCACTTATCGCCACACTTCTGTCACTCTTCGAGCTGGATGTGCCGGAAGGCGTGAAAGTTCGGCTGATTGTTGCCGATAATGACGAGGAGCCGAGCGCCAGGGCAAGCGTCGATCGCCTGCGCGAAACCGCGCCCTTCGAGATCACCTATGTGCATTGCCCGAAATCGAATATTTCGATTGCCCGCAATGCCTGCCTGTCGGAATGCAAGGCGGATTATCTGGCCTTCATCGATGATGACGAGACCGCCCCGCCGAACTGGCTGGCTGCCCTTCTGGAAAAGGCCGATGAAACCGGTGCGGAGGCCGTTCTCGGCCCCGTAACGGCGGTTTACCGGGACAATGCGCCGGGCTGGATGAAACGCGGCGATTTCCACTCGACAGTTCCGGTCTGGGTGAACGGCGAGATCATCACCGGCTATACCTGCAACACATTGCTCAAGATGGATGCGCCATCGGTGAAGGGCCGGCGCTTCGCGCTGGCGCTCGGCCAGAGCGGCGGTGAGGACACCCATTTCTTTTCGCATCTTCACGCCGCGGGCGGCCGCATCGTTTTTGCGGAAGACGCCATGCTGTCCGAACCGGTGCCGGAAAATCGCGCAAGCTTCATGTGGCTTGCCAAACGCCGCTTCCGCTCCGGCCAAACCCATGGCCGCGTGCTGGCGGACAGGAAACCCGGTATACGCCGCGTGGTGCAGGTGCTGAAAGCGGGATCGAAAGTGGTGTATTGCGCCGTCTTCGCCGCCTTGAACGGCTTCAACGCCGTGCGCCGCAACCGTTATGCGCTGCGTGGCGCACTGCATATGGGCTCGATGAGCGGCGCCTTCGGCGTGCGTGAAATCCGCCAGTATGGCGTGGTGGAGGCGACCTGA	MTDNTVTRTDDSKTVDIGICTYRRPALIATLLSLFELDVPEGVKVRLIVADNDEEPSARASVDRLRETAPFEITYVHCPKSNISIARNACLSECKADYLAFIDDDETAPPNWLAALLEKADETGAEAVLGPVTAVYRDNAPGWMKRGDFHSTVPVWVNGEIITGYTCNTLLKMDAPSVKGRRFALALGQSGGEDTHFFSHLHAAGGRIVFAEDAMLSEPVPENRASFMWLAKRRFRSGQTHGRVLADRKPGIRRVVQVLKAGSKVVYCAVFAALNGFNAVRRNRYALRGALHMGSMSGAFGVREIRQYGVVEAT	PGPT0026550_130	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-SUCCINOGLYCAN_METABOLIC_PATHWAY,PGPT0026550-exoM-K16556	NA	NA
BMS010_02497	996			hypothetical protein	ATGGAGAACCTTGCCTCGCCGCCCGATATCAGCTTCGTCATCGCCGCCTATAATGCCGCCGATACGATCGAAGCCGCCATTCAAAGCGCACTCGACCAGCAGGGTGTGACGCTGGAAGTGATCGTCGTCGACGACCGCTCCGCCGATGACACCATTGCGCTCGTGGAAGCTATCGCCATCATCGATCCGCGCGTCCGCCTGCTTGCTCTTGCCGAAAACCTCGGTCCGGGCGGGGCGCGCAATGCCGGTATCGAAGCCGCGACCGGACGCTGGATCGCCGTGCTCGATTCCGACGATGTCATTCGCCCGGAGCGCTCCGCCTGCATGATGTGCCGGGCGGAAGCCGCCAATGCGGCGATTGCGGTCGATAATCTCGATGTCGTCTATACCGACGGCAGGCCCATGGAGACGATGTTTCCGGAAGAATTTCTGGAGGAACGGCCGGTTCTCACACTCGAGGATTTCATTTCCTCCAACATCCTGTTCCGCGCCACCTTCAACTTCGGCTACATGAAACCGATGTTCCGGCGTGATTTCCTCAATGTCGAGGGACTGCGCTTCCGCGAGGACATCCGCATCGGCGAGGATTATATCCTGCTCGCCTCGGCGCTCGCCGCCGGCGGTCTTTGCGTCATCGAACCGAAGCCGGGTTATGTCTACAATATTCGCGAAGGCTCGATTTCGCGCGTGCTCGAGCTACATCACGTCGAAGCGATGATGCGGGCGGATCAGGAATTCCTGAGCCATTACACATTGCTGCCCGCCGCCATGGATGCGCAGCAGGCGAGAGCCCGCAGCCTGCGGCTGGCGCATAATTTTTTGACATTGGTGGAAAACATCAAGAGCCGCTCGGTACTCGGCGCCTTGAAGACCACGATAAGGGATCCTGCCGTGCTGGGGCACTTGAGAATGCCGATAGCGGTGCGGCTGAGGAGGCTGCGGGACGCCATGTTTGCACCCGCGGCGAATACTGGGGTGAAAAGACAGATTTCGTGA	MENLASPPDISFVIAAYNAADTIEAAIQSALDQQGVTLEVIVVDDRSADDTIALVEAIAIIDPRVRLLALAENLGPGGARNAGIEAATGRWIAVLDSDDVIRPERSACMMCRAEAANAAIAVDNLDVVYTDGRPMETMFPEEFLEERPVLTLEDFISSNILFRATFNFGYMKPMFRRDFLNVEGLRFREDIRIGEDYILLASALAAGGLCVIEPKPGYVYNIREGSISRVLELHHVEAMMRADQEFLSHYTLLPAAMDAQQARARSLRLAHNFLTLVENIKSRSVLGALKTTIRDPAVLGHLRMPIAVRLRRLRDAMFAPAANTGVKRQIS	PGPT0026555_89	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-SUCCINOGLYCAN_METABOLIC_PATHWAY,PGPT0026555-exoO-K16555	NA	NA
BMS010_02498	906	gtaB_3	COG1210	UTP--glucose-1-phosphate uridylyltransferase	ATGGACCTGAACAAAACTGTCAGAAAAGCCGTCATTCCCGTAGCTGGCAACGGCACACGGTTTTTGCCCGCCACCAAGGCGATGCCGAAGGAAATGCTGACGATCGTGGATCGTCCGGTCGTGCAATATGCCGTTGACGAGGCCATGCAGGCCGGCATCGAGCACATTATTTTCGTGACGAGCCGCAACAAGACCGCCATCGAAGACTATTTCGACAGCGCGCCGGAACTCATCAACACGCTCACCCGCTCCGGCAAGACCGTGCAGGTATTGCAGCTGGAAAAGATGCTGCCCGTTGCCGGCACCGTCAGCTATACGCGCCAGCAGGTGCCGCTCGGTCTCGGCCACGCCGTCTGGTGTGCACGCGAACTGGTGGGCAAGGAGCCTTTCGCCCTGCTTCTGCCTGACATGGTTTCCTACGGTGCACGTGGCTGCATTGCCGGGCTGATGGAACTTTACGATGAAGTCGGCGGCAATATTCTCGGCGTAGAGGAATGCCTGCCGGAAGAAGTGTCGTCCTATGGCGTCGTCGGCGTCGGCCAGAAGGTCAATCACGGCTTCGCCGTCACCGAAATGGTCGAAAAGCCGGAACCTTCGAGGGCGCCTTCGAATTATTACCTGAATGGCCGTTACATCCTCCAGCCGGAAATCTTCGATATTCTCGCCAGGCAGGAACGCGGTGCGGGCAATGAAATCCAGCTGACCGACGGTATGAAGCGGCTTGCCGAAAAGCAGTCTTTCCATGCGCAGAAATATAGCGGCCGTACTTTCGACTGCGGCAGCAAGCAGGGCTTCATCGCCGCCAACGTCGCCTTCTCGCTGCTGCGCGCGGACATGGAAGCCCAGGTTCTCGCTTCGGTGAAGGAACTGGTGGCGAACCACGAAAGCCGCGTCCAGGCGGCGTGA	MDLNKTVRKAVIPVAGNGTRFLPATKAMPKEMLTIVDRPVVQYAVDEAMQAGIEHIIFVTSRNKTAIEDYFDSAPELINTLTRSGKTVQVLQLEKMLPVAGTVSYTRQQVPLGLGHAVWCARELVGKEPFALLLPDMVSYGARGCIAGLMELYDEVGGNILGVEECLPEEVSSYGVVGVGQKVNHGFAVTEMVEKPEPSRAPSNYYLNGRYILQPEIFDILARQERGAGNEIQLTDGMKRLAEKQSFHAQKYSGRTFDCGSKQGFIAANVAFSLLRADMEAQVLASVKELVANHESRVQAA	PGPT0014875_1963	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0014875-gtaB|UGP2|galU|galF-K00963	NA	NA
BMS010_02499	2349			hypothetical protein	ATGCACCACAAGACCTTTAAATCCAACATCGGTTTTCCGGAGTCCGGCAAGGATTCCGATACGTTCATCGACCTCGACCGCCTGTGGGCCGCCGTGGTGCGTCGCGCCAATGTCATTGCCGCTTCGGTCATCGCCGCCGTGGTTCTGGCCGGCCTTTATCTGGTGCTTGCGACCCCCGTTTACACCGCGATGACGCAGGTGCTACTGGATGAAAGCCTTTCCCGTTATGCGGAAGAGGAATCGCCGGTGCCAGCGGCGCAGATCGTCGACAACCGCATCGCCAGCGCCGTGGAAATCTTGAAATCCAAGGAAATGGCGCTGACGGTGGTCGACAAGGCCAAGCTCGATGAGAACGACACCATCGTCAATCCGCCGATGTCCCCGGTCGAACTCGTCAAATCCTCCGTGCGCGGCATTCTCGACCTAGTGCTGCCGGGCGACCCACCGGTCTCCGAAGCCGCAATCCGCGCCGGACGCCGCGAAAAGGCCGCCGCCGTGCTGCAGCAGTCGCTGACGGTGGAACGTGTCGGCCGCAGCTCGGTCATCGCCATCTCCACCCGCTCGACCGACCGCCAGCTGGCCGCGCAGATCGCCAAGACCTATGCGCAGGCTTACCTTACCGAACAGCTGAACGCCAATTTCGACGCCAGCGAGCGCGCCTCGGTATGGTTGCAGGAACGCATGACGGACCTCAACCAACGCGCCCAGGCGGCTGAACTGGCGGTGCAGAAATTCAAGTCGGACAACAACATCGTCTCCTCGCGCGGCGAGCTGATGTCCGAAGGCCAGCTTGCCGACCTGAACGGCCAGCTGATTGCCGCGCAGGCCGATGCCGCGACGGCCTCTGCCCGTTACAACCAGTATAAATCGATCATCGACAGGGGGCCGGATGCGGCCGTCGACAATGCCGTCGTTTCGGCCCGTGATACCGATAATTCGGTCATTCAGGATCTGCGCAAACGCTACATCACCATTTCCGACCGGCAGCAGGGCATCGTCCAGCAATTCGGCGCCGACCACCCGCAGGCGGTCGCGCTGGACGCAGAGAAGAAAGAGGTTTCGCGGCAGATCTATCAGGAACTGCAGCAGCTTACCGGCAGCCTGAAGAACGAATACGACGTCACAAATTCCCGCGTTCAGTCGCTGCGCGACAATATCGACCGGGTGGCTGGCCGCAATTCCGAAGCCAACATCACCATGGTCCAGCTGCGCGAACTCGAGCAGCGGGCAACCGCGCTGCGCACCCTCTACCAGTCCTATCTCGGCCGCTTCGAGGAGGCTTCCCAGAAGCAGTCGCTGCCAATCGCCAAGGCCCGCATCATCTCCGAAGCCGGCCTGCCGACATCGCCTTCCAGCCCGAAAAAGACCATGACCATGGCGCTTTCGGTCGTTCTCGGCCTGATGCTGGGCGGCGGTATCGCAGCGCTTCTCGAATTCCGGGATCGCTTCTTTCACACCGGCAATGATGTGCGTGACAATCTGCGCATGCGTTTTCTCGGTTACCTGCCCTTCATCGGTGAACGGGGCGTGGAAAACGCCAAGCCGGGCAACAGCGCCGCCACCCCCGGCGGCGAGAATGCGACGCTTGACGAAAGCGGACAGGTCTCGTTCCAGAAAATGCTGCGCCTTGCCGTCGACAGCCCGCGTTCCAGCTTTGCGGAGACGCTGCGTAACGTGAAACTCACGGCGGATGTCGTCATTCAGGAGCGCCAATGCCGGGTCATCGGCGTCATTTCCTGCCTGCCGAACGAAGGCAAGTCGGTCGTGGCGCTCAATCTCGCCGGTCTCATCGCCTCCACCGGCAAGCGCACGCTGGTGGTGGATGCGGATATCCGCAATCCCGGCCTCAGCCGCATGCTGACGACACGGCAATCCGCCGGCCTCGTCGAAGTGGTGCTCGATGAAGTTCCGTGGACGCAGGCGGTGAAGGTGGATACGCGCACGAAAATGGGCATCCTGCCGGTTTCGACCAGCAACCAGTTCGCCCATTCAAGCGAGCTTCTGTCTTCCTCCGGCATGCGCAAGTTCATCGACTCCGCGCGAGAGGCCTGCGATTACATCATCGTCGACCTTGCACCCGTGGTTCCCGTCATCGACGCCAAGGCCTTTGCGCCGCAGGTGGACGGTTTCGTCTTCGTCACCGAATGGGGCAAGACGCCGATCCAGATGGTGCAGAACCTGATGGCCAACGAACCGCAGATCGCCAACAAGACGCTCGGCATCGTGCTGAACAAGACCGACATGACGGAATTGCAGCGTTATGCCGGCCCCGGCGGTTCGGAGCATTATCACGAGAAATTCTCGGCCTATTACGGCGATGCGAAGCCGCCGGTAAAGGAAGATGCGTAA	MHHKTFKSNIGFPESGKDSDTFIDLDRLWAAVVRRANVIAASVIAAVVLAGLYLVLATPVYTAMTQVLLDESLSRYAEEESPVPAAQIVDNRIASAVEILKSKEMALTVVDKAKLDENDTIVNPPMSPVELVKSSVRGILDLVLPGDPPVSEAAIRAGRREKAAAVLQQSLTVERVGRSSVIAISTRSTDRQLAAQIAKTYAQAYLTEQLNANFDASERASVWLQERMTDLNQRAQAAELAVQKFKSDNNIVSSRGELMSEGQLADLNGQLIAAQADAATASARYNQYKSIIDRGPDAAVDNAVVSARDTDNSVIQDLRKRYITISDRQQGIVQQFGADHPQAVALDAEKKEVSRQIYQELQQLTGSLKNEYDVTNSRVQSLRDNIDRVAGRNSEANITMVQLRELEQRATALRTLYQSYLGRFEEASQKQSLPIAKARIISEAGLPTSPSSPKKTMTMALSVVLGLMLGGGIAALLEFRDRFFHTGNDVRDNLRMRFLGYLPFIGERGVENAKPGNSAATPGGENATLDESGQVSFQKMLRLAVDSPRSSFAETLRNVKLTADVVIQERQCRVIGVISCLPNEGKSVVALNLAGLIASTGKRTLVVDADIRNPGLSRMLTTRQSAGLVEVVLDEVPWTQAVKVDTRTKMGILPVSTSNQFAHSSELLSSSGMRKFIDSAREACDYIIVDLAPVVPVIDAKAFAPQVDGFVFVTEWGKTPIQMVQNLMANEPQIANKTLGIVLNKTDMTELQRYAGPGGSEHYHEKFSAYYGDAKPPVKEDA	PGPT0026560_253	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT-1,PGPT0026560-exoP|vpsO-K16554	NA	NA
BMS010_02500	945	ghrA_1	COG0111	Glyoxylate/hydroxypyruvate reductase A	ATGCCATCACCCATTGCCTTTGTTTCACGGATGAATGCGGAAACGGAAGCCGTCTGGAAAGAGGCGCTGCGCGCCGCAATGCCCCAGGAGGAAATCCTTTCCTTTTCCGAATTGACGGGCGAACAGCGCCGGGCAGTGGATTTCGCCATCGTCGCCAATCCCGATCCGGCCGATATCGCGGCACTTCCGGGCCTCAAATGGATCCACAGCCTGTGGGCGGGTGTCGAGCGACTGGTGCTGGAACTGGGCGATAAGGCACCCCCCATCGTTCGGCTGAAGGACCCGGAGCTTTCCCGCGTGATGGCCGAAGCCGTGCTGGCATGGACCTATTATCTGCAGCGCGACATGCCCGCCTATCGCGAAAACCAAAAAAAGGCGCTCTGGCAGGAGCTAAACTATCGCCACCCCGGCGAGATGACCGTCGGTCTCCTCGGCCTCGGAGCCCTCGGCACAACTGCGGCGGAGCGCCTCATCCATGCCGGTTTCAACGTTGCAGGCTGGAGCCGTTCGGCCAAGGCGATAGAGGGCGTGGAAACGCTGACCGGCGATGCCGGGCTGCAGGCATTGCTGGAAAAGAGCGACATTCTCGTCTGCCTCGTGCCCCTGACCGATGCGACGCGCGGTCTTCTTGATGCCAACCGTCTCGCCGAAATGAAACAGGGGGCGGCACTCATCAATTTCGCCCGCGGCGCGGTCATCGTCGCCGATGACCTGATTGCGGCGCTTGATTCCGGCAGGCTTTCGCACGCCGTTCTCGATGTCTTCGAGCAGGAGCCGCTGCCCGCCACTTCCGCCTTCTGGCAGCATCCCAAAGTTACGGTCCTGCCGCATATTTCCGCGCCGACAAGCCGGGAAAGTTCGGCCCGGATTGTGGCCGGCAATGTCCGCACGTGGCGGGAAACGGGCGGGCTGCCGGAGACGGTCGACATGGCCCGCGGTTACTGA	MPSPIAFVSRMNAETEAVWKEALRAAMPQEEILSFSELTGEQRRAVDFAIVANPDPADIAALPGLKWIHSLWAGVERLVLELGDKAPPIVRLKDPELSRVMAEAVLAWTYYLQRDMPAYRENQKKALWQELNYRHPGEMTVGLLGLGALGTTAAERLIHAGFNVAGWSRSAKAIEGVETLTGDAGLQALLEKSDILVCLVPLTDATRGLLDANRLAEMKQGAALINFARGAVIVADDLIAALDSGRLSHAVLDVFEQEPLPATSAFWQHPKVTVLPHISAPTSRESSARIVAGNVRTWRETGGLPETVDMARGY	PGPT0019465_267	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-METHYLGLYOXAL_DETOXIFICATION,PGPT0019465-ghrA-K12972	NA	NA
BMS010_02501	2976	rcsC_10		Sensor histidine kinase RcsC	ATGACCAATCTTGTTGCTGCGCCGGTATGGCCGATCGGTGGCGGTGAAACGGGTGAGCTTGTGCGCCGCTTCGACTGGTCGAAGACATCGCTCGGTCCTATTTGCGACTGGCCGCAAAATCTGAGGCAGAAAGCCAATTCCGTCGTCAATTCCCCCATTCCGCAGGTGCTGATGTGGGGCAGGGATCATGTGATGATCTATAATGACGGCTATGCGGAGATCGCCGGCAATTATCACCCGCAGGCGCTGGGCGGAACCGTGCCCGGCATCTGGCCGGAAATATGGGACTGGAACAGCCGCATTCTCGAAGCCGGTTTTCGCGGTGAGGTCATGGCCTATCGCGACCAGCCGATGACGCTGATGCGGCACGGCCTGCCGGAAGAGGTGATCTTCGACCTGTTCTACACGCCGATCTATAATGAGGGCGGCACGGTGGACGGCGTTTTATGCACCGTGCTTGAAAATACCGACAAGGTGAAGGCCGTGGAGGCGCTGGAACAGAGCCGCGAGGAACTGAGCCGGCTTACCAATGCCCTGCCCATTCTGGTCGGATATGTCGACCGTGATTACGTTTATAAATTCGCCAATGACGGCTATCTGGAATGGTTCGGTCGCCGCGCCGAAGAAGTGATCGGCCGCAGCGTTCCCGAAATCGTCGGCGAGGCGTTTTTCGAGGCCCGCAGGGCCTATCTCGACCGCGCACTCGGCGGCGAAAAGATCGTTTCGGATACCGTGATCAGCAGACCGGACGGCAGCACGCGCGCCGCCGAAATCCGCTATGTTCCGCGTTACATTGCCGATGGCTCCATCGACGGCATCTATGTGCTGATCATCGATATCGAGGAGCGCAAGCGCTCGGAGCGGGAAATCCTCATCAGCAACAATCGCTTCCGTGCTGCGGTGGATGCCGTGCACGGCGTGCTGTGGACCAACAGCGCCGAAGGAATGATGCTGGGCGAGCAACCCGCCTGGAGCGCTTTGACGGGCCAGACTCCGGAAGAATATCAGGGTTTTGGCTGGGCGGAAGCGGTTCATCCCGACGACAGGCAGGGGTCTGTCGACAGCTGGAACAAAGCGGTCGCGGAGAAGTCGACCTATATCTGGGAACATCGGGTCCGTCGCCATGACGGCGTCTACCGCACTTTCGCGATCCGTGGAGTGCCGATTTTCGACAAGACCGGCGCCATTGCCGAATGGGTCGGTGTCCATACGGATGTCACCGAACAGCGGCGGGCCGAAAACACCCTCAAGGAACATGCGAGCAATCTCGAGCGCGAAATTCGCCACCGCATCCGGGCTGAAGAGCAGCTTCGGCAATTGAACGAGAGCCTCGAGGCGCGTGTCGAGGCGGAAATCGCCGAGCGTCGCCAGACTGAAAAGGCGCTACAGCAGGCGCAGAAAATGGAATCCATCGGCCAGCTCACCGGCGGCGTGGCGCATGATTTCAACAATCTGCTACAGGTGATCGCCGGCAATCTGCAATTGCTGTCAAAGGATGTGATGGGCAATGAACGTGCGGAGCGGCGGCTGGAAAACGCGCTTGCCGGCGTTCATCGCGGCGCAAAGCTGGCCAGCCAGCTTCTGGCCTTCGGCCGCCGCCAGGCGCTGGAGCCGCGTGTCATCAATATCGCCCGTTTCGTGACCGGCATGGACGACCTGCTTCGCCGCTCGCTTGGCGAGGCGATCGAGGTGGAGGTCATCACCTCGGGCGGTCTCTGGAACACCTATGCCGACCCCAACCAGGTGGAGAATGCTCTTCTCAATCTGGCCATCAATGCGCGCGACGCCATGGAAGGACAGGGCAAGCTGACCATCGAGGTCGGAAATGCGGTTCTCGACCGCGATTATGCCCGCAAGCACTCGGAAGTTTCGGCGGGGCAATATGTGATGCTCGCCGTCACCGATACGGGTTCGGGCATGTCGCCGGAAATTCTCGAAAAGGTCTTCGAGCCGTTCTTCTCGACAAAACCGGAAGGCAAGGGCACCGGCCTCGGGCTTTCGATGGTTTATGGTTTTGCGAAACAGTCCAGCGGCCACGTCAACATCTATAGCGAGGTGGGGCAGGGCACGACGGTGAAGATGTATCTGCCGCGCTCCGCCGCCGATGAGGACAGGGAAGTGGTGATGCCGACCGGCCCCGTGGAGGGCGGCACGGAAACCATTCTTGTGGTGGAAGATGACGAGGAAGTGCGCAACACCGTCGTCGAGACCTTGAGCGATCTCGGCTACCGCGTGCTGACCGCCCGCGATGCACAGGCCGGTTTGACGGTGGTGGAAAGCGGCATTCCGATCGATGTCATCTTCACTGACGTGGTGATGCCTGGACCGTTGAAAAGCCGGGAAATGGCGCGCCGCGCGCAGGAACGGCTGCCCAATCTCGCCGTTCTCTTCACCTCGGGTTACACCGAAAACTCCATCGTGCATGGCGGCAAGCTGGATGCCGGGGTGGAGCTGCTTTCCAAACCCTATACGCGCGAAGCGCTGGCGCGGCGCATCCGCCACGTCATCGCCAACCGCAAGCAGGTTTCGCTGTCGAGAGCGCGGCCGACATCGGCTCCGGGTTCTTCCAAACTTTCTGAGCCGGTCAGGGCGGTCGAAAATCAAAACCGGTCCATACGCGTTCTTCTGGTCGAGGATGACGAGTTGATCCGGATGAATTCGACGGAGATGCTGTCGGAGAGCGGCTTTGCCGTCGTCGAGGCCGGAAATGCGGCGCAGGCGCTGAAAGCTATCGAAGCGGATCAGATCGACGTTCTCGTCACCGACATCGGCCTGCCCGACATGAAGGGCGGCCAACTGGCGGTGGAGGCCCTGCGCCGCAAGCCGGGGCTTGCCATTGTGTTTGCGACGGGCGACAGCCATTTGCCGGAAGGAGCGCCGGCAAGCGCGGTTCTCTTGACCAAGCCCTATGACGAACAGCAGATCGTCTCCGCCGTTGAACAGGCCCATACGGGCAAGTCGGTGGCGGCCGAATAG	MTNLVAAPVWPIGGGETGELVRRFDWSKTSLGPICDWPQNLRQKANSVVNSPIPQVLMWGRDHVMIYNDGYAEIAGNYHPQALGGTVPGIWPEIWDWNSRILEAGFRGEVMAYRDQPMTLMRHGLPEEVIFDLFYTPIYNEGGTVDGVLCTVLENTDKVKAVEALEQSREELSRLTNALPILVGYVDRDYVYKFANDGYLEWFGRRAEEVIGRSVPEIVGEAFFEARRAYLDRALGGEKIVSDTVISRPDGSTRAAEIRYVPRYIADGSIDGIYVLIIDIEERKRSEREILISNNRFRAAVDAVHGVLWTNSAEGMMLGEQPAWSALTGQTPEEYQGFGWAEAVHPDDRQGSVDSWNKAVAEKSTYIWEHRVRRHDGVYRTFAIRGVPIFDKTGAIAEWVGVHTDVTEQRRAENTLKEHASNLEREIRHRIRAEEQLRQLNESLEARVEAEIAERRQTEKALQQAQKMESIGQLTGGVAHDFNNLLQVIAGNLQLLSKDVMGNERAERRLENALAGVHRGAKLASQLLAFGRRQALEPRVINIARFVTGMDDLLRRSLGEAIEVEVITSGGLWNTYADPNQVENALLNLAINARDAMEGQGKLTIEVGNAVLDRDYARKHSEVSAGQYVMLAVTDTGSGMSPEILEKVFEPFFSTKPEGKGTGLGLSMVYGFAKQSSGHVNIYSEVGQGTTVKMYLPRSAADEDREVVMPTGPVEGGTETILVVEDDEEVRNTVVETLSDLGYRVLTARDAQAGLTVVESGIPIDVIFTDVVMPGPLKSREMARRAQERLPNLAVLFTSGYTENSIVHGGKLDAGVELLSKPYTREALARRIRHVIANRKQVSLSRARPTSAPGSSKLSEPVRAVENQNRSIRVLLVEDDELIRMNSTEMLSESGFAVVEAGNAAQALKAIEADQIDVLVTDIGLPDMKGGQLAVEALRRKPGLAIVFATGDSHLPEGAPASAVLLTKPYDEQQIVSAVEQAHTGKSVAAE				NA	NA	NA	NA	NA
BMS010_02502	999			hypothetical protein	ATGAAAATACTTTTGGGTGCCACAATTCTTTCCGCCGGCTTCGCCTTTTCAGGCGGTGCGGCCTATGCCGCCGACTGTGGAAACGTGACGATCGCCAGCATGAACTGGCAATCCGCCGAAGTCGCCGCCAATCTGGACAAGCTCATTCTCGAAAAGGGCTACGGATGCTCCGCCGAAATCGTCACCGGCGACACTGTGCCGACTTTGACCTCCATGGCCGAAAAAGGCCAGCCGGATATCGCGCCTGAGGCATGGGTCAGCCTGCAGCCGGAAATCGTCAAGCAGGGGCTGGAGGGCGGCAAGGTCGTTGCGGCCGCCAAGATCCTCTCGGATGGCGCGGTCCAGGGCTGGTGGATTCCGAAATATGTCGCCGACGCCAATCCCGATCTCAAGACCATTCCTGATCTCTTCAAACATCCCGAACTCTTCCCCTCGCCCGAAGACAAGTCCAAGGGCGCCGTGTTCAACGGCCCGCAGGGCTGGGGCGGCACTGTCGTCACCGCACAGCTCTTCAAGGCTTTCGGCGGTGAAAAGGCCGGCTTCACCCTCGTCGACACCGGCTCCGCCGCAGGTCTCGACGGTTCCATCGCCAAGGCTTATGAAGCCAAGCAGCCATGGGTCGGTTATTATTGGGCGCCCACCTCGCTGCTCGGCAAATACGAGATGGTAAAGCTCGAATTCGGAACGGACTATGATGCGGCCGAATGGAAGCGCTGCACATCCGTCGCCGACTGCGCCGACCCCAAGCCGAACGCATGGCAGGTGGACGACGTGCAGACGCTGGTCAGCAAGTCCTTTGCCGATCGTGCCGGCCCCGCCATGGACTATCTCAACAAACGCGCATGGACCAACGCGACCGTCAACAAGCTGATCGCCTGGATGACGGATAACCAGGCGACCGGTGAAGACGGCGCCAAGCACTTCCTGAAGGAAAACGAAGCGCTGTGGACGGGCTGGGTATCTCCCGACGTCGCGGAAAAGATAAAGGCCGCCCTTTAA	MKILLGATILSAGFAFSGGAAYAADCGNVTIASMNWQSAEVAANLDKLILEKGYGCSAEIVTGDTVPTLTSMAEKGQPDIAPEAWVSLQPEIVKQGLEGGKVVAAAKILSDGAVQGWWIPKYVADANPDLKTIPDLFKHPELFPSPEDKSKGAVFNGPQGWGGTVVTAQLFKAFGGEKAGFTLVDTGSAAGLDGSIAKAYEAKQPWVGYYWAPTSLLGKYEMVKLEFGTDYDAAEWKRCTSVADCADPKPNAWQVDDVQTLVSKSFADRAGPAMDYLNKRAWTNATVNKLIAWMTDNQATGEDGAKHFLKENEALWTGWVSPDVAEKIKAAL	PGPT0013640_1146	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013640-gbuC|proX-K02002	NA	NA
BMS010_02503	888	ousW_4	COG4176	Glycine betaine/choline transport system permease protein OusW	ATGGAATGGCTTTTCAAATTTCCGACCATGAATGACGATGCTCTGCGCGCGCTGAAAAAAGTCATCGACGAGGGGTTCCGGGCTTTCACCCGAACCTATGGCGGCGCAATCGAGGGGTTGTTTACCCCCCTTCAGAGCTTCCTCATCTGGGCGGAAAGGCTTTTGATCGGCGCACCCTGGCCGGTCGTTATTCTTATTGTCGGCGCGCTTGCCTGGTTCGGCAGCCGCAGCGCCACCATTGTTTCGCTCTGTTGCGGCATTCTCTTCGCCATCGGCTGGTTCGGCATGTGGGAAGACACGATGAAGACGGTCTCGATGATCTTCGTCTGCGCCGTGCTGTCCATCGTCGTCGGCCTGCCCATCGGCATCGCCATGGCGCGCTCCAACCGCCTCCAGAGCGTGGTCAATCCCGTTCTCGACGTGATGCAGACGATGCCGAGTTTCGTCTATCTCATTCCCGTCGTCATGCTGCTCGGCATCGGCCGCGTGCCCGGCGTCATCGCCGTCGTCATCTACGCCATTCCGCCGATGATCCGGCTTACCAATCTCGGCATCCGCATGGTCGACCGCGACGTGCTGGAGGCTGCCGATGCCTTCGGCTCTTCGAAGCGCCAGAAGCTTTTCAAGGTGCAGCTGCCGCTGGCGCTGCCCACCATCATGGCCGGCATCAACCAGACCATCATGATGGCGCTCGCCATGGTCGTCATCGCCTCCATGATCGGCGTTCAGGGCCTCGGTCAGCCGGTGCTGAAGGCCATTGCCAACCAATATTTCACGCTCGGCGTGTTCAACGGGCTTGCCATCGTCGGCATCGCCATCATCTTCGACCGCATCAGCCAGGCCTATGGCCTTCGCCTGCAAAAACATCGGGAAGTGGCGCATGGCTAG	MEWLFKFPTMNDDALRALKKVIDEGFRAFTRTYGGAIEGLFTPLQSFLIWAERLLIGAPWPVVILIVGALAWFGSRSATIVSLCCGILFAIGWFGMWEDTMKTVSMIFVCAVLSIVVGLPIGIAMARSNRLQSVVNPVLDVMQTMPSFVYLIPVVMLLGIGRVPGVIAVVIYAIPPMIRLTNLGIRMVDRDVLEAADAFGSSKRQKLFKVQLPLALPTIMAGINQTIMMALAMVVIASMIGVQGLGQPVLKAIANQYFTLGVFNGLAIVGIAIIFDRISQAYGLRLQKHREVAHG	PGPT0013635_1435	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013635-gbuB|proW-K02001	NA	NA
BMS010_02504	1062	btuD_7		Vitamin B12 import ATP-binding protein BtuD	ATGGCTAGTCAATCGATCGAAATTCGCAGCCTCTACAAGATTTTCGGCCCCAAGGCGGGAGACTATGTCGAACCCGTCAAGGCCGGCATGTCCAAGTCCGATCTCAACGCCAAACATGGCCACGTGCTCGGCCTGCGCGATATCAACATCACCATGCCGGGCGGGCAGATCACCGTTATCATGGGCCTTTCCGGCTCGGGCAAATCGACGCTGATCCGCCACGTCAACCGGCTGATCGACCCGACAGCCGGCGAAATCCTCTATGGCGGCACGGACGTGTGTCGCCTCAACGAAGCGGATCTGCTGGAATTCCGCCGCCACAAGACGGCGATGGTGTTCCAGAAATTCGGGCTGCTGCCACACCGCAACGTGCTGCAAAACGTCGTCTATGGCCTCGAGGTGCAGGGCGTCGACAAACGCGAGCGCGAAGAAAGGGCAGAGGTCTGGATCAGACGCGTGGGGCTGGAAGGTTTCTCCAACCATTATCCCAACCAGCTCTCAGGCGGCATGCAGCAGCGTGTTGGTCTGGCGCGGGCGCTCACCAACAATGCCGAAATCCTGTTGATGGACGAGGCCTATTCGGCGCTCGATCCGCTCATTCGCGTCGATATGCAGACGGTGCTGCTGGAACTGCAGAAGGAACTGAAAAAAACCGTGGTCTTCATCACCCACGATCTCGATGAGGCCCTGCGGCTGGGCGACAAGATCGCCATTCTGCGCGACGGCGAGATCATCCAGCAGGGCACGGCGGCCGAAATCGTCATGTCTCCGGCCGACAGCTATATCGAAGCCTTCGTGGAAGAGGTCAATCGCGGCCGCGTCATTCGCCTTGGCGCCGTGGTGCAGCCGGAATTTGCCGGCCAGTCCCGCCTTCAGCTCGATGCGGATATGACGGTTGAAGAGGGCCTGCGCGCCCTCGTCCGGGAAAATGTCAGCAGCGCCACAGTCGTCGGGGAAAACGGCAAATCGCTCGGCGCCGTCACCACCGATGCCATCATGCGCTGCCTCGTCAGAACCGCACATGGTGAGGAAGCAGGCACGGCTGAACGTTTGTCAGGCTGA	MASQSIEIRSLYKIFGPKAGDYVEPVKAGMSKSDLNAKHGHVLGLRDINITMPGGQITVIMGLSGSGKSTLIRHVNRLIDPTAGEILYGGTDVCRLNEADLLEFRRHKTAMVFQKFGLLPHRNVLQNVVYGLEVQGVDKREREERAEVWIRRVGLEGFSNHYPNQLSGGMQQRVGLARALTNNAEILLMDEAYSALDPLIRVDMQTVLLELQKELKKTVVFITHDLDEALRLGDKIAILRDGEIIQQGTAAEIVMSPADSYIEAFVEEVNRGRVIRLGAVVQPEFAGQSRLQLDADMTVEEGLRALVRENVSSATVVGENGKSLGAVTTDAIMRCLVRTAHGEEAGTAERLSG	PGPT0013630_1978	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013630-gbuA|proV-K02000	NA	NA
BMS010_02505	1245	baiN_1	COG2081	3-dehydro-bile acid delta(4,6)-reductase	ATGGCGAAGATGGCGATGGAGAGGGTTTTGAGCGAGGCGAGGCAGGTCGCGATTATCGGCGGCGGACCGGCGGGGCTGATGGCGGCCGAGATGCTTTCGGCCGCAGGCCATGCCGTAACGGTGTTCGAGGCGATGCCGACCGTGGCGCGTAAATTGTTGATGGCCGGAAAATCCGGCCTCAACATCACCCATGCCGAAGATTACGACAGCTTCCGTCACCGGTTCGGCGATGCGGAACCGAGGCTGCGCGCCGCTCTCGATGATTCTACGCCGGACATGCTGCGCGACTGGGCGCAGGGGCTGGGGCAGGAAACGTTCGTCGGCACCTCGGGCCGGGTCTTTCCCACCGTCATGAAGGCCTCGCCGCTGCTGCGGGCATGGCTTGCCCGGCTGGAGGCGCAGGGGGTGACCATCAGGACGCGACATCGCTGGATGGGTTTTTCCAGTGAGCATCTGGTTTTCGCGACACCGGAGGGCGAGATCACCATCAAGGCCGATGCCGTTCTTCTGGCGCTCGGCGGCGCAAGCTGGCCGCGTCTCGGCTCCGATGCCGCATGGGTTCCGGCGCTGGCGGAGAAAGGCGTGGCGCTTTCCCCGTTCCGCCCCGCCAATTGCGGTTTCGACGTTGACTGGAGCGATATCTTCCGCGCGCGTTTTGCCGGTGAAGCGGTGAAATCCACTATCACCATTTCGCCAGCCGGAGCCTTTCAGGGCGAATTCGTCATCACGAAGCATGGTATTGAGGGCAGCGTGATCTATGCCCATTCCGCCGCGCTGCGCGACCGGCTGGAAGAGGCGGGCAAAGTGTCGCTCGCAATCGATCTTGCGCCGGGACGTACGGTGGAACGCCTCAGCCGCGATCTGGCGAAGCACGGGCGGAAGGAGAGTTTTGCAAACCGCATGCGCAAGGCGGCCGGCTTATCGGCGGTGAAGGTCGGGCTTCTGCGGGAAATCTTTCCCGATATCGCGGCCATGCCGGATGAGTTCGTCGCCGCGAGAATAAAACATGCGGAGATTCCGCTTTTGCGGACGAGACCGATTGCCGAGGCAATTTCGTCCGCCGGCGGTATCGCGTGGAGCGACCTTGATGAGAACTACATGCTGGAAAAGCTCCCCGGCATATTTGCTGCCGGGGAAATGCTGGATTGGGAAGCGCCGACCGGCGGTTATCTCTTGACCGCCTGTTTCGCCACCGGCAGGGCCGCCGCACAGGGCATGGCCGCGTGGCTTGAAGGCTCAGCCTGA	MAKMAMERVLSEARQVAIIGGGPAGLMAAEMLSAAGHAVTVFEAMPTVARKLLMAGKSGLNITHAEDYDSFRHRFGDAEPRLRAALDDSTPDMLRDWAQGLGQETFVGTSGRVFPTVMKASPLLRAWLARLEAQGVTIRTRHRWMGFSSEHLVFATPEGEITIKADAVLLALGGASWPRLGSDAAWVPALAEKGVALSPFRPANCGFDVDWSDIFRARFAGEAVKSTITISPAGAFQGEFVITKHGIEGSVIYAHSAALRDRLEEAGKVSLAIDLAPGRTVERLSRDLAKHGRKESFANRMRKAAGLSAVKVGLLREIFPDIAAMPDEFVAARIKHAEIPLLRTRPIAEAISSAGGIAWSDLDENYMLEKLPGIFAAGEMLDWEAPTGGYLLTACFATGRAAAQGMAAWLEGSA				NA	NA	NA	NA	NA
BMS010_02506	588	yigZ_1	COG1739	IMPACT family member YigZ	ATGTTCACGCTCGACCGCCCCGTCACCTTTTCGCAGGATATCAAGAAAAGCCGCTTCATCGCCTTTGCCGCGCCGGTGACGGGCGAAGAGGATGCGAAAAACTTTCTTGCGGCGCATTCCGATCCCGATGCAAACCATAATTGCTGGGCCTGGCGAAGCGGCCAGACCTATCGTTTCAGCGATGACGGCGAGCCTTCGGGCACGGCCGGGAAACCGATCCTTCAGGCCATAGACGGCCAGGCGCTGGACAATGTCGCCGTTCTCGTCATCCGCTGGTTCGGCGGCATTCTCCTCGGCAGCGGCGGCCTGATGCGCGCCTATGGCGGCACGGCGGCCGCCTGCCTGCGGCTTGGCGAAACCTCGCCGGTCATCGCCTATGTCAGCGCGACGCTCAGTTGCCCCTTCTCCGATCTGGCGCTTGTGAAATCACGCCTTTCCGCCACACAGAACCTGCGGGTGGAAAAGGAAGATTTCACCGGCACCGGCGCGGATATGCTGCTTTCGGTTCCGGCGGAGGAAGCCGAACGGCTCACCCGGCTTTTAAGCGACCTGACCAGCGGTCGCGTCAATTTGTATATTCCCGACTAG	MFTLDRPVTFSQDIKKSRFIAFAAPVTGEEDAKNFLAAHSDPDANHNCWAWRSGQTYRFSDDGEPSGTAGKPILQAIDGQALDNVAVLVIRWFGGILLGSGGLMRAYGGTAAACLRLGETSPVIAYVSATLSCPFSDLALVKSRLSATQNLRVEKEDFTGTGADMLLSVPAEEAERLTRLLSDLTSGRVNLYIPD				NA	NA	NA	NA	NA
BMS010_02507	669	rluA_1	COG0564	Dual-specificity RNA pseudouridine synthase RluA	ATGTCTCCAGAGCTTTCCAACCCCGTCTATCTTCCGCCACTCGACCCCTGGCTCACCATCGTGCACCGCGACGACGATCTGCTGGTGCTGGATAAGCCAAGCGGGCTTTTATCGGTGCCGGGTCGCGATCCGGCGCTTTCGGACAGCCTGATGACGCGGGTACAGAAACAGTTTCCGAAAGCGCTGATGATCAACCGGCTGGACAAGGACACCTCCGGCATCGTGCTGATGTCCCTGAACCGCAAGGCGCATGCGGCGATTGCGTCGCAGTTTGAAAACCGCCAGACGCGCAAATCCTATGTCGCCATTGTCTGGGGAGAGGTTGTGGGAGAAGCGGGGGAAGTGGACCTGCCGCTTGCCATCGATCCCGAAAACAAGCCACGCCACCGGGTCGACCGCGAGAACGGCAAGCCGGCGCAGAGCCTTTGGCGGGTGCTGGAACGATTGCCGCTTCCGGCAACGCGACTGGCGCTAAACCCGCTTACCGGCCGCACCCACCAATTGCGGGTGCATATGAAGGCGCTCGGCCATCCGATCCTCGGCGATGAATTTTACGCCGAAGGCGAAGCGCTCGCCGCCGCGCCGCGCCTGATGCTGCATGCACAGGAGGTCGGGTTCCGCCATCCCGATGGCCGTGACGTCACCTATACCGTACCCTGCCCCTTCTGA	MSPELSNPVYLPPLDPWLTIVHRDDDLLVLDKPSGLLSVPGRDPALSDSLMTRVQKQFPKALMINRLDKDTSGIVLMSLNRKAHAAIASQFENRQTRKSYVAIVWGEVVGEAGEVDLPLAIDPENKPRHRVDRENGKPAQSLWRVLERLPLPATRLALNPLTGRTHQLRVHMKALGHPILGDEFYAEGEALAAAPRLMLHAQEVGFRHPDGRDVTYTVPCPF				NA	NA	NA	NA	NA
BMS010_02508	627	rsmJ_1		Ribosomal RNA small subunit methyltransferase J	ATGAAGGAACAAAACGAAAGCTTCGTGGTGGATTTTGTCGGCGGTGCGGTCGGGCACCGTTTCCGTTCCGGCGAAGGGCGCGGGCAGGCCTTGCCGAAAGCCGCGGGTTTCACCAAAGGCCGCACGCCAAAAATCGTCGATGCCACGGCCGGGCTCGGGCGGGATGCCTTTCTGCTTGCCTCACTCGGCGCGGAAGTGACCCTCATCGAACGCTCGCCGGACATGCATGCGCACCTCGCCGATGGCATTCGCCGTGCGCTGGACGCGGGCGGCGCCTACGCCGAGGCGGCGGCGCGCATGACGCTGCTTCACGGAGATTCACGCCAGTTGCTGCAAGAGCTTTCACCGGAGGTGGTGATTGTCGACCCCATGCACCCACCGCGCCACAATACGGCGCTGGTGAAAAAGGAGATGCGGGTGCTCAGAGAACTGGTTGGCTCCGACCCGGATCAGGTGGAGTTGATGGAGGCTGCACTGGAGAATGCGACGAAACGGGTGGTTCTGAAATGGCCGCTCCGCGCCGAGCCGATGCCGGGCATTCGCAAGCCTTCGCATCAGATAATGGGCAAGAACACCCGTTACGATGTCTTCATGATCTTCGGGAAATCTCTCGACCCGGAGGAATGA	MKEQNESFVVDFVGGAVGHRFRSGEGRGQALPKAAGFTKGRTPKIVDATAGLGRDAFLLASLGAEVTLIERSPDMHAHLADGIRRALDAGGAYAEAAARMTLLHGDSRQLLQELSPEVVIVDPMHPPRHNTALVKKEMRVLRELVGSDPDQVELMEAALENATKRVVLKWPLRAEPMPGIRKPSHQIMGKNTRYDVFMIFGKSLDPEE				NA	NA	NA	NA	NA
BMS010_02509	186			hypothetical protein	ATGCAGATCATCGACAACAAGACCATTGACGGGAACAGAACCAAGCCGATTCTCAACGTTGCGGAATTCTGCCGGCGTTACCGGCTGGACAAGGCCGAGGAAACCCGGCTCAGAAAGCTGTTTGGCGAGTTCGCCTCGCGGCACGAGCTTTTGATGAATGCGCAGCGCAAGCCGAGCTTCCGCTGA	MQIIDNKTIDGNRTKPILNVAEFCRRYRLDKAEETRLRKLFGEFASRHELLMNAQRKPSFR				NA	NA	NA	NA	NA
BMS010_02510	1227	yliI_1	COG2133	Aldose sugar dehydrogenase YliI	ATGTTCCAAACCAACCGATTTCTGAGTTCGACGATCCTGTGTGCGCTGCTCGCCGTGCCGCTTGCCGGTGTTGCCCAGGCCCAGGCCCCGGCCGCCGAAACGAAACGGCCGAATGCGCCGGATCAGAAACCGGCCTTTGAGGGTCAGACCCGCGCGCCGCAGGCCGCCACCCAGCCAAGCGTCGAAAAAACCGTGATCGCGGACGGCCTGCCGCATCTGTGGTCGATGGAGTTTCTGCCCGATGGCCGCATGATCGTCGCGGCCAAGGAAGGCGCGATGCATATCGTCGCCGACGGCAAGGCCGGCCCGGCGATCGCGGGCGTGCCTAAGGTGGCATCCGACGGACAGGGCGGCCTTCTCGACATCGCGCTGGCTCCGGATTTCGAAACATCGCGCACCATCTTCTTCTCCTTCTCCGAACCGCGCGATGGCGGCAACGGCACGTCGGTGGCCTCGGCGAAACTGACCGAGGAGGGCGGCGCGGCAAAGCTGGACAATGTCTCGGTGATTTTCCGCCAGATGCCGACCTATGACGGCGACAAACATTTCGGCTCCCGCCTCGTCTTCGGGCCGAACAACGAGCTTTATGTCACCGTGGGAGAACGTTCGGATTCAAAGCCGCGCGTGCAGGCGCAGGACCTTTCGAGCGGGCTTGGCAAGGTCTTCCGCATCGATACGCAGGGCAAGGCCTTTGAAGGCAATCCCTTCGCCAGCCAGCAGAACGCCCTCCCCGAAATCTGGAGCTATGGCCACCGCAACCTGCAGGCTGCGGCACTGGATGGTGAGGGCAGGCTCTGGACGGTGGAGCACGGGCCAAAGGGCGGCGATGAGCTGAACCTGCCGAAAGCCGGCCTGAACTACGGTTGGCCGGTCATCACCTATGGCGTCGAATATAGCGGAAGGTCGGTTGGCGAAGGCGTTACCGCAAAGGAAGGCATGGAACAGCCGGTCTATTATTGGGACCCGGTCATCGGCCCCTCCGGCATGGCCTATTATGACGGCGACCAAATCCCCGAATGGAAGGGCGCCTTCATCGTCGGCGGTCTGGTGAGCCAGGGTCTCGTCATCCTGCATATCGATGGCGACAGGGTTGCCACCGAAAGCCGGCTGCCGCTGGAAGCGCGCATTCGCGACGTAAAGGTCGGTCCGGATGGCGCGATCTATGCCGTGACCGAAGAGCGCGGCGGCGGTGAATCGCAAATTCTGCGGATCGCCAAGGCCGGCTGA	MFQTNRFLSSTILCALLAVPLAGVAQAQAPAAETKRPNAPDQKPAFEGQTRAPQAATQPSVEKTVIADGLPHLWSMEFLPDGRMIVAAKEGAMHIVADGKAGPAIAGVPKVASDGQGGLLDIALAPDFETSRTIFFSFSEPRDGGNGTSVASAKLTEEGGAAKLDNVSVIFRQMPTYDGDKHFGSRLVFGPNNELYVTVGERSDSKPRVQAQDLSSGLGKVFRIDTQGKAFEGNPFASQQNALPEIWSYGHRNLQAAALDGEGRLWTVEHGPKGGDELNLPKAGLNYGWPVITYGVEYSGRSVGEGVTAKEGMEQPVYYWDPVIGPSGMAYYDGDQIPEWKGAFIVGGLVSQGLVILHIDGDRVATESRLPLEARIRDVKVGPDGAIYAVTEERGGGESQILRIAKAG	PGPT0017700_440	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_ALDOSE_DEGRADATION,PGPT0017700-yliI-K21430	NA	NA
BMS010_02511	1017			hypothetical protein	ATGCCACAACCGCCCACCCGCCTTCTTGCCAAAATCGGACTTGCCTATGTTAACGATCAGGAGCCGGGTATTTCCCGCGAAAAACGCGGACGCGGTTTCTGTTACCGCCTTCCGGGCGGCGAACTTCTCTCCGACAGCGTCGAACTGAAGCGCATCAAGGCGCTCGGCGTGCCGCCCGCCTATAAAGACGTCTGGATATGCATCGATCCATCAGGGCATCTGCAGGCTACGGGTTTCGATGCCCGCGGGCGAAAACAGTATCGGTATCATCCCGACTGGCATGCGCTCCGGGGTGAGACGAAATTCTTCCAGCTCAAAAGCTTCGGCAAGGCGCTGCCCGCCATTCGCCGCCGCGCCATCGCCGATATCGAAAAACAGGATCATGGGCAGGAAATGACGCTCGCAGCACTCACGCTGCTGCTCGATGCCGCCTATCTGCGCGTCGGCAACCGCTCCTATCTCGAAACCAACGGCACCTATGGCGCAACGACATTGCTCAAGCGACACGTCTCTTTCGGTGAAACCATCGAGCTGCGGTTTGCCGCCAAGGGCGGACAGAAGGTGAAACGGCAATTGCGCCACCCTCGCCTTCAGAAAATCCTTGAGGAAATCGCCGATCTGCCCGGCAAGGAACTCTTCGTCTGGCAGGATAGTGAGAACCGCGTGCATTCGGTCGATTCCAGCGATCTCAACGCTTATCTCTCCCGTATCGGCGGTCAGGGTATTTCAGCCAAGACCTTCCGCACCTGGGGCGGAACGCTCGCCGCCTTCTGCAACGCGATGGAACATGTGGCGGCGGGTGAAAAACCGAGCATAAAAGGCATGTGCGAGGCAGCGGCGGCGGAGCTTTCCAACACACCCGCCATCTGCCGCAAGAGCTATGTGCACCCGGCTGTCCTCGATATAGCCACGGAAGAGAAAGCGCAGAAAAAGCTTGGCCGTATTCTGAAGGTCGGGGCAAAGCCCGTCTCCGGCCTCAGGGCGGATGAAAGACGGCTGCTTGCCTTCCTGCCCTGA	MPQPPTRLLAKIGLAYVNDQEPGISREKRGRGFCYRLPGGELLSDSVELKRIKALGVPPAYKDVWICIDPSGHLQATGFDARGRKQYRYHPDWHALRGETKFFQLKSFGKALPAIRRRAIADIEKQDHGQEMTLAALTLLLDAAYLRVGNRSYLETNGTYGATTLLKRHVSFGETIELRFAAKGGQKVKRQLRHPRLQKILEEIADLPGKELFVWQDSENRVHSVDSSDLNAYLSRIGGQGISAKTFRTWGGTLAAFCNAMEHVAAGEKPSIKGMCEAAAAELSNTPAICRKSYVHPAVLDIATEEKAQKKLGRILKVGAKPVSGLRADERRLLAFLP				NA	NA	NA	NA	NA
BMS010_02512	723	cheB_6		Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGGACGTGCTAATCGTTGAGGACGATGCGCTGCACCGCGCCTATCTGAACGAGGCGGTGCGTGCCGCGCTGCCGGAATGCGACAAGGTTCTGGAGGCGGCAAACGGCAGAACCGGCGAAAAGCTCGCGCGGGAAAATCGCGCCGCCCATATCGTCATGGATTTGCAGATGAACGAGCGCAACGGCATCGAGGCGGCACGCACCATCTGGAAGGAAAGGCCGGATACCCGCATCCTGTTCTGGTCCAACTATTCCGACGAGGCCTATGTGCGCGGCGTTTCCCGCATCGTGCCGGAAGGGGCCGCCTATGGCTACGTGCTGAAATCGGCGTCCGACGACCGCCTGCGGCTGGCGCTGCGCAGCATCTTCATCGAGGCGCAATGTGTGATAGACCGGGAAGTGCGCGGCCTGCAGGAAAAGAGCCTCGGCAAGGCGCATGGCTTTACCGATTCCGAATATGAAATCCTTGTCGATGTCGCGCTCGGCCTCACCGACAAGGCGATTGCGCGCCGCCGCAACCTGTCGCTGCGCAGCGTGCAGAACCGGCTGCAAAGCCTCTATGAGAAACTGAATGTGCATCAGGCAGCCGGCGATGACGAGGCGGAAGGCCGGTATAATCTTCGCACCCGCGCCGTTACCGTCGCTTTCCTGCGCAAGCTGCTGAATTACAGCGCGCTGGAAAGGGCCGAGCGGGAACTGGCGGAATGGGCCGGTAGCCGCTGA	MDVLIVEDDALHRAYLNEAVRAALPECDKVLEAANGRTGEKLARENRAAHIVMDLQMNERNGIEAARTIWKERPDTRILFWSNYSDEAYVRGVSRIVPEGAAYGYVLKSASDDRLRLALRSIFIEAQCVIDREVRGLQEKSLGKAHGFTDSEYEILVDVALGLTDKAIARRRNLSLRSVQNRLQSLYEKLNVHQAAGDDEAEGRYNLRTRAVTVAFLRKLLNYSALERAERELAEWAGSR				NA	NA	NA	NA	NA
BMS010_02513	1236			hypothetical protein	ATGCTGGATACGCCGAAAAGCGCTCTTTTTCATCATTATATGGGCATTTCGCGGCTGCTTGCCGGGCAGCTGGAATTTAATGCCATCATCCAGGCGGTCGCCACCGAGATCAGCCATATCATCCCGCATGACCATATGGATGTCTGCATCAAGCAGCTGGATGACAAATATCACATCGCCTATGAGAGCGGTCTCGTCAGCGCCTGGAGCCGGCAGCCGCCCGCCCTTCTGACCGGCAGCCCGATCCGTTCGCTGCTGTCAGGCGAGGTGGAATATCTCTTGAGCGGCGACGCCTGTTCCGATCCGCGCTTTCATTTCGAAGGGTCGTTTTCAAGCCCGATCATCGAACTCAACCTGCATAGCCGGCTGCATGTGCCGATGAAGGTGCATGGCGATATCATCGGCGCGCTGAGTTGCTCCTCCCACCAGTCGGATGCCTACACGATGGAGGATGTGGCAAATGCCCGCGCCGTCGCGGATTTGCTGGCGCCTTATTTCTACGCCATCCGTGCCGCCGAGCAGGCCAAACGCTCCGCCATCGAGGAAGCGCGCGCCAATGCCCGCGAGGAGGGACTGCGGCTGGGCGCGCTGCAATTGACCGAGGCGCTGGAGGCCGAGCGGCAACGTATCGGCATGGATCTGCACGACCAGACGCTGGCGGATCTGACGCGGCTGGCGCGGCGCATCGAGCGCATGAGCCATACCCCCGACCTGTCGGGCGAGATGCTGGAGCCGGTGGTGCGCAGCCTGCAGCATTGCATGCAGGATTTGCGCGAGATCATCGAGGAGGCGAAACCCTCGATCCTGCAATTGTTCGGCGTCGTTGAGGCCATCGAGACCTATGTGGACCGTTCCGTGCGCGACAGCGGGTCGGCAATCGACTGGTCGGTGACGGATGAGACGGATGGGCTGGTGGAAAGGCTGGACAAGACGGTGGCCATCTCGCTGTTCCGCATCGTGCAGGAGGCGGTGAACAATGCCATTCGCCATGCACAGCCCGAAGCGATTGCCGTGAAACTGACCGCAATCGACGGCGGCTTGCGGGTGACGGTCAGCGACGATGGCAGCGGCGGCGGCGAAGGCGGGGCCTCCGGCGGCCTCGGCATCGGCAATATGAAGACGCGGGCGCGGCTGATTTCGGCGAAATTCGATATTGGCGGCAATGGCACGGGAGCGGGAACCCGCATCACCGTCACCTTGCCGGCAGGCGCTTTCGACCGGGGGGATGAGTTGTGA	MLDTPKSALFHHYMGISRLLAGQLEFNAIIQAVATEISHIIPHDHMDVCIKQLDDKYHIAYESGLVSAWSRQPPALLTGSPIRSLLSGEVEYLLSGDACSDPRFHFEGSFSSPIIELNLHSRLHVPMKVHGDIIGALSCSSHQSDAYTMEDVANARAVADLLAPYFYAIRAAEQAKRSAIEEARANAREEGLRLGALQLTEALEAERQRIGMDLHDQTLADLTRLARRIERMSHTPDLSGEMLEPVVRSLQHCMQDLREIIEEAKPSILQLFGVVEAIETYVDRSVRDSGSAIDWSVTDETDGLVERLDKTVAISLFRIVQEAVNNAIRHAQPEAIAVKLTAIDGGLRVTVSDDGSGGGEGGASGGLGIGNMKTRARLISAKFDIGGNGTGAGTRITVTLPAGAFDRGDEL				NA	NA	NA	NA	NA
BMS010_02514	1017			hypothetical protein	ATGGCTTTCAGGAAGATGCTTCTGGCATCGGCCGCTGTCGCATGCGCAGCTCTGCCGATCACCGCTCATGCCGATACGTCGGCCAAAAAAATCGCGCTTTCAAACAATTATGCCGGTAATTCCTGGCGTCAGGCGATGCTGACGAGCTGGGACAAGATCACCAAGCAGGCAGTTGCCGACAAGCAGGTCGCCGCCGCTGACGCCTTCACCACAGCCGAAAACCAGGCGACCGAACAGGCCGCGCAGATCCAGAACCTCATTCTTCAGGGTTACGACGCCATCGTCATCAACGCCGCTTCGCCGACCGCCCTTAACGGCGCGGTGAAGGAAGCCTGCGATGCCGGCATCACCGTCGTGTCCTTCGACGGCATCGTCACGGAGCCCTGCGCATGGCGCATCGCGGTCGATTTCAAGGCGATGGGCGAAAGCCAGATCGACTATCTCGCCAAGGCCATGCCGAAGGGCGGCAACCTGCTTGAAATCCGCGGTCTCGCCGGCGTTTCGGTGGACGATGAAATCCACGCCGGCATCGCCGCCGGCGTCGCCAAGAACCCGCAGTTCAAGATCGTCGGTTCCGTCAACGGCGACTGGGCGCAGGATGTGGCGCAGCGCGCCGTCGCCGGCATTCTGCCGAGTCTTCCAGAAGTCGCGGCCGTCGTGACGCAGGGCGGCGACGGTTACGGCGCGGCACAGGCTTTCGCCGCCGCCAAGCGCCCGACACCCACCATCGTCATGGGCAACCGTGAAGACGAGCTGCAATGGTGGAAACAGCAGAAGGACGCAAGCGGCTACGAGACCATGTCCGTCTCCATCGCTCCCGGCGTCTCGACGCTCGCTTTCTGGGTGGCGCAGCAAATCCTCGACGGCAAGGATGTGAAGAAGGACCTGACCGTGCCCTTCCTGCGCATCGACCAGGCCAATCTCGAGGAAAACCTGAAGACGACCCAGAAGGGCGGCGTGGCGAATGTGGAATATTCGCAGGAAGACGCCCAGAAGGCCATCGCATCGGCCAAATAG	MAFRKMLLASAAVACAALPITAHADTSAKKIALSNNYAGNSWRQAMLTSWDKITKQAVADKQVAAADAFTTAENQATEQAAQIQNLILQGYDAIVINAASPTALNGAVKEACDAGITVVSFDGIVTEPCAWRIAVDFKAMGESQIDYLAKAMPKGGNLLEIRGLAGVSVDDEIHAGIAAGVAKNPQFKIVGSVNGDWAQDVAQRAVAGILPSLPEVAAVVTQGGDGYGAAQAFAAAKRPTPTIVMGNREDELQWWKQQKDASGYETMSVSIAPGVSTLAFWVAQQILDGKDVKKDLTVPFLRIDQANLEENLKTTQKGGVANVEYSQEDAQKAIASAK	PGPT0015740_2400	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0015740-rbsB-K10439	NA	NA
BMS010_02515	1464	rbsA_3	COG1129	Ribose import ATP-binding protein RbsA	ATGAATGACATCATCGAGGCGGAAGAAGTCGTCGCTGCGCGCGGCGTGAAGGTCGTGTTCGGCGCGGTAAGAGCGCTGGATGGGGCCGATCTCGTCATCCGCACGGGGGAATGCCTCGGGCTCGTCGGCCATAACGGCGCGGGAAAGTCCACCATCGTCAACGTCATCAATGGCGGGCTGACGCCGCATGAGGGTTCCGTTTCTTATGGCGGCAACGAAAACCGCCACGGCATTGCCGCCGCGCGCGCGAGCGGCGTTCGCTGCGTGTTTCAGGAACTGTCGCTTTGCCCGAACCTGACGATCAGCGAAAATGTCCGCATCATGCATGCCGCCACGGGTGGGCGAAACTGGCGCGGCCGTGCGCTGACGACGATCCGCCAGACACTGGACGAGATTTTTCCCGGCCACGGCATCGATTGCGAGCTGACCATCGCCGAACTTTCCATCGCCGAACGGCAGATGGTGGAAATCGCCATCAATTTTTGCCGCATACCGAACGCGCCGAGACTGGTGATCCTCGATGAACCCACCTCTTCGCTGGATGCCGGTCTCGCCGAGCAGCTGATGGATTATGTCCGCCGTTTCGTGCGTGAGGGCGGGTCGGTTCTGCTGATCTCGCATATTCTCGGCGAAATTCTTTCGACGGCCACCCGTATCGTGGTGATGAAGGATGGCCGGGTGGTGGCCGACCGGAAGGCCACCGACTTCACCACCCGCTCGTTGGTTGAGGCCATGGGCAGTGTCGTCAAGGAACAGGACAGGCGGCGGGGTGAAAGCCGCAAGGCAGGCGAGAAGGTGCTTTCCATGCCGGCACGGCGCGGCGAAGGCCTTGCCTTCGAGGCCTTTCGCGGTGAGATCGTCGGCCTTGCCGGCCTCGGCGGTCATGGCCAGACCGAAGCGCTGCTCGATCTTTATCTTGCCCGCAACAATAGCTGGCTGCCCGCGCGCAAGACCGATATCGCCTTCGTGGCGGGGGATCGCAGCCTGAACGGCACTTTTCCGCTGTGGAGCATCCTCAAAAACCTGTCCATCGCCTCGCTCAGGGATATTTCAGCCGCAGGCATGGTGGACAGAGCCAAGGAAACCGAGCTTGGGGCGCAATGGAAAAAGCGCATCGAAATCCGCACGCCCGACATGGGCAACAAGATCCTTTCGCTTTCCGGCGGCAACCAGCAGAAGGTGCTTTTTGCCCGCGCGCTTGCCACCACCGCCAGCACGGTTTTGATGGACGACCCGATGCGCGGCGTCGATATCGGCACCAAACAGGAGGTCTATGACATCTTGAGAACCGAAGCCTCCCACGGCCGCACCTTCATCTGGTACTCCACCGAAATGGACGAAATCCGCCTCTGCGACCGGGTCTATGTGTTCCGCGACGGCGCCATCCAGGCGGAACTCGTCGGCGACGATATTACCGAGCAGAATGTGCTGGCGGCCTCCTTTGCCGGAGAAGACCACGCATGA	MNDIIEAEEVVAARGVKVVFGAVRALDGADLVIRTGECLGLVGHNGAGKSTIVNVINGGLTPHEGSVSYGGNENRHGIAAARASGVRCVFQELSLCPNLTISENVRIMHAATGGRNWRGRALTTIRQTLDEIFPGHGIDCELTIAELSIAERQMVEIAINFCRIPNAPRLVILDEPTSSLDAGLAEQLMDYVRRFVREGGSVLLISHILGEILSTATRIVVMKDGRVVADRKATDFTTRSLVEAMGSVVKEQDRRRGESRKAGEKVLSMPARRGEGLAFEAFRGEIVGLAGLGGHGQTEALLDLYLARNNSWLPARKTDIAFVAGDRSLNGTFPLWSILKNLSIASLRDISAAGMVDRAKETELGAQWKKRIEIRTPDMGNKILSLSGGNQQKVLFARALATTASTVLMDDPMRGVDIGTKQEVYDILRTEASHGRTFIWYSTEMDEIRLCDRVYVFRDGAIQAELVGDDITEQNVLAASFAGEDHA	PGPT0016600_5054	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0016600-rbsA-K10441	NA	NA
BMS010_02516	942			hypothetical protein	ATGAAACTCTCGGCAAACGCGCTCCGCCTCATCATTCCCGCCGCCTCGCTCGCCTTCCTGCTCGCCGCCGTCTTCTACATGCAGCCGCGCGCCATGAGCTATACCGGCATGAACCTGCTGTTCAATCTGGCGGTGCCGATTGCGCTCGCCACCATTGCGCAGATGCTGATCATGTCGGTCAACGATCTCGATCTGTCGATGGGTACCTTCGTCAGTTTCTGCGCCTGTGTGACCGCCACTTTCCTGCAAACCACGCCACTCCTCGGAATTGCGATTTTTGCCGGTGCGATTGCGGTCTATGCATTGCTGGGCGCCATCATCCATATCCGCGCCCTGCCCTCCATCGTGGTCACGCTCGGCATGAGCTTCGTCTGGGGCGGCCTCGCCGTTCTCATTCTTCCCTCGCCAGGCGGCCAGGCCCCCGCCTTCATTCGCACGCTGATGACGGCAAAACCGCCTTTCGCGCCGATCGCCATCGTCGCCAGCATCCTGATCGCGGTCGTCGCCCATTACATCGTCATGCGCTCTTCTTTCGGCGTGCTGATGCGCGGCGTCGGCGGCAATTTCCGCTCGGTCGAGCGCTCCGGCTGGTCGGTCGTCGGCATTCGCGCCGCCACCTTTGCGCTGGCCGGTTTCTTTGCGGTGCTGTCCGGTATCGCCCTTGTCGGGCTGACGACATCGGCCGACGCCAATATCGCGCTGCGTTACACGCTGCTCTCGATTGCCGGTGTCATTCTCGGCGGCGGCGAATTCGTCGGCGGCCGGGTATCGCCCATCGGCGCGGTCATCGGCGCGCTGACGCTGACGCTCGCCGGTTCGTTCCTCTCCTTCATGCGCATTTCGCCGGACTGGCAGATCGGCGCGCAGGGGGCGATCCTCATCATCGTGCTGGCGCTGCGGATTCTGCTCAACCGTCTTGAAAAGCGGGAGAAAAACCAATGA	MKLSANALRLIIPAASLAFLLAAVFYMQPRAMSYTGMNLLFNLAVPIALATIAQMLIMSVNDLDLSMGTFVSFCACVTATFLQTTPLLGIAIFAGAIAVYALLGAIIHIRALPSIVVTLGMSFVWGGLAVLILPSPGGQAPAFIRTLMTAKPPFAPIAIVASILIAVVAHYIVMRSSFGVLMRGVGGNFRSVERSGWSVVGIRAATFALAGFFAVLSGIALVGLTTSADANIALRYTLLSIAGVILGGGEFVGGRVSPIGAVIGALTLTLAGSFLSFMRISPDWQIGAQGAILIIVLALRILLNRLEKREKNQ	PGPT0016590_5897	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0016590-rbsC-K10440	NA	NA
BMS010_02517	948			hypothetical protein	ATGAACGGGCTCTCTTCCCTCACCAGAAAACCATGGATCTGGTCTTTTGCCGCAACGGCGGTCGTCTGGATCGTCACCGTGCTCTTCACCGGCGGTGCAAGCTCCTTCGGCCTGTCGCACGCCGCACTCACCTTTGCGGCCTTTTCGGTCATCGTCGGCATCGGCCAGATGTTCGTCATCACGCTCGGACCGGGCAATATCGACCTCTGCGTACCCGCCACGATGACGCTGTCAGGCACGCTGGCGCTCAAATTCATGGATGTGTCCGACGGTCTCATCCTGCCCGGACTGCTGATCGCCATCCTGATCGGCATCGCCATCGGCATCGGAAATTATGCGCTGATCAAGCTCCTGCGCATCCCACCGATCATCGCGACGCTCTCCATGAGCTTCATCGTGCAATCCATCGCCATCTGGTCGAACCGCGGCCTGCGCATCAAGCCGCCGGAAACATTGGCCACATTCGCCACGTCAAGTTTCTTCGGCATTCCGAACGTCGCCCTCGTGGCCCTGCTGCTCTCGGTCATCGCCTGGCTGCTGCTCGACCGCTCGTTTTACGGACGCTGGATTTCCGCCATCGGCCAGAGCACCTTCGCCGCCCGCATGACCGGCATTCCCGTGGACGGCGCACGTTTCGTCACCTATGTGCTCTGCGCGGTGCTGGCGGCGATTGCCGGTTACCTGCTCGCCAGCTTCTCCGGCGGTGCTGCGCTCAACATGGGCTCGGAATATCTGCTGATGTCCATCGCTGTCGTCGTCATCGGCGGCACGGCGGTGGCGGGCGGCGATTCCAATGTGCCCGGCATCTGGGGCGCTTCGCTCTTCATGTTCCTGGTGGTGTCGATGCTGAATACCTATGGTTTCGGCGCCGGCATCCGCCTCATCCTCACCGGCCTCATCATCATCTCCGTCATTCTTCTGGCAAGCGGCCCCAAGGCCACGCGCTGA	MNGLSSLTRKPWIWSFAATAVVWIVTVLFTGGASSFGLSHAALTFAAFSVIVGIGQMFVITLGPGNIDLCVPATMTLSGTLALKFMDVSDGLILPGLLIAILIGIAIGIGNYALIKLLRIPPIIATLSMSFIVQSIAIWSNRGLRIKPPETLATFATSSFFGIPNVALVALLLSVIAWLLLDRSFYGRWISAIGQSTFAARMTGIPVDGARFVTYVLCAVLAAIAGYLLASFSGGAALNMGSEYLLMSIAVVVIGGTAVAGGDSNVPGIWGASLFMFLVVSMLNTYGFGAGIRLILTGLIIISVILLASGPKATR	PGPT0016590_5687	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0016590-rbsC-K10440	NA	NA
BMS010_02518	921	gnl_1		Gluconolactonase	ATGACCACAGACAAGACCTCCCCTTACGAAATCCACGACGACCGCTTTCGCCATCTGATCGTCGGCAATGCCGAGTTGGAAGAGCTTTATTCCGGTTGCCGCTGGGCCGAAGGCCCGGTGTGGTTTGCCGATCTGAACTGCCTGCTGTTCAGCGATATTCCCAATGAGCGCATGTTGCGCTGGGTGCCGGATGGCGGGATCTCGGTATTCCGCCAGCCCTCCAACTTCACCAACGGCAATACGCGCGACCGGCAGGGGCGGCTCGTTTCCTGTGAACATGGCGGCCGCCGCGTCACCCGCACCGAAGTCGACGGCTCGATCACCGTTCTTGCCGACAGCTACGGCGGCAAGCGGCTGAACTCACCCAATGACGTGGTGGTGAAATCCGATGGCAGCGTCTGGTTCACCGATCCAACCTACGGCATTCTGTCCGATTACGAGGGCTACAAGGCGGAACCCGAACAGAAGACGCGCAATGTCTACCGGCTCGATCCCGCAACCGGAAAAATCGACATCGCCATCGACGACTTCGTGCAGCCGAACGGCCTTGCTTTTTCGCCGGATGAGACGAAGCTTTACGTTGCCGACAGTTCCTATAGCCACGACGTCACCCGCCCGCGCCATATCCGCGTCTTCGACGTGGTAGATGGCGTAAAGCTCACCAACGGCCGGGAATTCTGCAATCTCGACAATGGCCTGCCGGACGGCTTCCGTCTGGACACGGCCGGCAACCTGTGGACCAGCGCCGGCGATGGTGTTCACTGCTTTTCCCCCGAAGGTACGCTCCTCGGCAAGATCAAGGTGCCGCAGACAGTCGCGAACCTCACTTTCGGCGGCCCGAAAAAGAACCGCCTGTTCATCACCGCGACGAAGTCGCTTTATTCGGTCTATGTCGCCGCAACCGGCGCGCAAACGCCTTGA	MTTDKTSPYEIHDDRFRHLIVGNAELEELYSGCRWAEGPVWFADLNCLLFSDIPNERMLRWVPDGGISVFRQPSNFTNGNTRDRQGRLVSCEHGGRRVTRTEVDGSITVLADSYGGKRLNSPNDVVVKSDGSVWFTDPTYGILSDYEGYKAEPEQKTRNVYRLDPATGKIDIAIDDFVQPNGLAFSPDETKLYVADSSYSHDVTRPRHIRVFDVVDGVKLTNGREFCNLDNGLPDGFRLDTAGNLWTSAGDGVHCFSPEGTLLGKIKVPQTVANLTFGGPKKNRLFITATKSLYSVYVAATGAQTP	PGPT0001285_1486	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION_D_GLUCONATE_BIOSYNTHESIS,PGPT0001285-gnl-K01053	NA	NA
BMS010_02519	591	recX_1		Regulatory protein RecX	ATGAACGACGATTCCAGCCCCTTCCTGGCCGACGACATGGCGATGGACGGCGACACGCCGGCCATTGAACCCACCAGCCGGATGCTGTCCTGGGCGCGCAATTCTGCGCTCTACCGGCTGGAACAGCGCATGATGACGGAAAAGCAGCTGCGCGACGCCATCATGCGCAAGGCGCGGGAAAAATTCGATGATATCAGCCCGGCGCAGGTCAGGGCGCTTGGCGAATTTGCCGTAACCTTCGCTTATGGCATCAAGGCGCTCGACGACACGGCCTTCGCGGAAATTACCGTGCGGAGCGGCCAGCGCAGCGGCAAGTCGAAACGCGGGCTCGCGCAGAAACTTCAGGTCAAGGGCATCGCCCGGGAAACGGCAGCCGTCGCGCTTCAGGAAACAAACGATCTCGTCGCAGCCGTCATCTTCGCCCGCAAGCGCGCCTTCGGGCCGTTTCGCCGTGTCGAACTGGACGAGAAGCGCAAGGCCAAGGAATTCTCCGCTTTCGCCCGCAACGGCTTCGGCTTTGAGATCGGCTCGAAAGTCATGGCGATGACCTTCGAAGAGGCGGAAGAGATTATCGCCGAAGCGCCGCTCTGA	MNDDSSPFLADDMAMDGDTPAIEPTSRMLSWARNSALYRLEQRMMTEKQLRDAIMRKAREKFDDISPAQVRALGEFAVTFAYGIKALDDTAFAEITVRSGQRSGKSKRGLAQKLQVKGIARETAAVALQETNDLVAAVIFARKRAFGPFRRVELDEKRKAKEFSAFARNGFGFEIGSKVMAMTFEEAEEIIAEAPL	PGPT0007240_1554	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007240-recX-K03565	NA	NA
BMS010_02520	249			Cytochrome c2	ATGGGGCCGCATCTCATGGGTGTCGTCGGCAGGCCGATGGCTTCCGTCACCGATTACGGCCACTATTCTCAGGCCCTGAAGGATGCCGGCGCGGCTGGCCGGGTGTGGTCGGAGGAGGAGCTGCAAAAATTCCTCTCCAGCCCGAAAAAGGCGATCCCGGGAAATGCCATGCGCTTTTTCGGGCTGTGGAGCGAAACCGATATAGCGGATCTGATCGCCTATCTGAAAACGCATCCCATGCCGCAATAG	MGPHLMGVVGRPMASVTDYGHYSQALKDAGAAGRVWSEEELQKFLSSPKKAIPGNAMRFFGLWSETDIADLIAYLKTHPMPQ	PGPT0004005_1955	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-OTHER_CYTOCHROME-RELATED_PROTEINS,PGPT0004005-cycA|cycM-K08738	NA	NA
BMS010_02521	528			hypothetical protein	ATGAAAAAGGCTGTTGCCGTAACTTTTGCCGCATTGACGATGGGCCTCGGCGGAACCGCATCCGCCCTCGCTGCCGACCTCGCGAGATATGAGCCGGCTCCGCAGGAGCAGGACGATCGCAACGGCGTCAAGATCGGTTACCTCACCTGCGATATCGGCGGCGGCGTCGGTTATGTTCTCGGCTCGGCCAAGGAACTGGATTGCACCTTCCAGTCCACCATGGGCGCCCGTCGCACCGACCATTACACCGGCGCCATCCGCAAGATGGGTGTCGACCTCGGCTTCACCACGCAGGGCCGTCTGGTCTGGGCCGTTTTCGCCCCGACCGCCGGTTACCACCGCGGTTCGCTCGGCGGCCTTTATCAGGGCGCAACGGCTGAAGTCACCGTCGGTCTCGGCGTCGGCACCAACGTTCTCGTTGGCGGCACGTCCGGCTCCATCCAGCTGCAGACGGTCAGCGTGACGGGTCAGGTTGGTCTCAACCTCGCCGCCACCGGCACCTCCGTGACGCTCACGGCCATGAACTGA	MKKAVAVTFAALTMGLGGTASALAADLARYEPAPQEQDDRNGVKIGYLTCDIGGGVGYVLGSAKELDCTFQSTMGARRTDHYTGAIRKMGVDLGFTTQGRLVWAVFAPTAGYHRGSLGGLYQGATAEVTVGLGVGTNVLVGGTSGSIQLQTVSVTGQVGLNLAATGTSVTLTAMN				NA	NA	NA	NA	NA
BMS010_02522	810	fhuC	COG1120	Iron(3+)-hydroxamate import ATP-binding protein FhuC	ATGGGTCAGGCAGCACTTGCCGTCGATTATGACGATATTCCGCTTTTTTCTCTCGACGGCGTGACCATGGAAGTGCCGGGCAGGACATTGCTGCAGCCGCTGACGGCCAGTTTTGCGATCGGCAAGACCATCGGCTTGATCGGTCATAACGGTTCGGGAAAATCCACGTTGCTCAAGATTCTCGCGCGGATTCAGGAGCCGACGGCGGGCAGGGTCTCATTCGAAGGTAAGGCGCTCGGCGCCTGGGGCAATCGTGAATTTGCGCGAAAGCTCGCCTATCTGCCGCAATACACGCCGGCCGCCTCCGGCATGCTGGCCAAGGAACTGGTGGCGCTCGGCCGTTATCCCTGGCACGGCGCGCTTGGGCAGTTCACCAAAGCCGATCAGGAGAAGGTGGACGAAGCCATCGAACTTACCGACACTGTCGCCTTCCGCGACCGGCTGGTGGATACGCTTTCAGGCGGCGAGCGCCAGCGCGTGTGGCTTGCCATGCTGGTGGCCCAGAACGCCGAGAGCCTGCTTCTCGATGAACCCATCTCCGCGCTCGACATGGCGCACCAGATCGAAGTGCTTTCGCTGGTGCAGAGACTGTCGCGCGAAAAGGGTCTCGGCGTCATCGTCGTGCTGCACGACGTCAACATGGCGGCGCGCTTCTGCGATGAGATCGTCGCGCTTCATTCCGGCCAGCTTATCGCGCGGGGAACGCCGCAGGAGATCATGACGCCGGAGACGCTGCAGCGCATCTATGGTGTCCGCATGGATGTCATGACCCATGCCGCCACCGGCTTTCCCGTCGCCCTGCCGCTTTGA	MGQAALAVDYDDIPLFSLDGVTMEVPGRTLLQPLTASFAIGKTIGLIGHNGSGKSTLLKILARIQEPTAGRVSFEGKALGAWGNREFARKLAYLPQYTPAASGMLAKELVALGRYPWHGALGQFTKADQEKVDEAIELTDTVAFRDRLVDTLSGGERQRVWLAMLVAQNAESLLLDEPISALDMAHQIEVLSLVQRLSREKGLGVIVVLHDVNMAARFCDEIVALHSGQLIARGTPQEIMTPETLQRIYGVRMDVMTHAATGFPVALPL	PGPT0003325_271	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|ALBOMYCINS,PGPT0003325-fhuC-K10829	NA	NA
BMS010_02523	1965	fhuB	COG0609	Iron(3+)-hydroxamate import system permease protein FhuB	GTGACGGCGCGGCCTCTTCAGCTTTTCTTCGGGCTGCTGTTCGTTCTGGCCTGCGGGCTTTCCCTGCATGCCGGGCTGTTACGGCTGCCTTTCGGTGCATGGCCCGGCCTGCCGTTCGATGCTGCCACCATGTCGATGGATCAGGTGATTTTCGCCTTCAGCCTGATGCCGCGTGTGGCGGTCGCCATTCTGGCGGGCGCGATGCTCGGCCTGTCGGGCGCGTTGTTCCAGCAATTGCTGCGCAATCCGATTGCCGATCCTTCGACGCTCGGCATCTCGGCCGGCGCGCAACTGGCCATCGTCGTCGCCACGCTGTTCTTTCCTTCGGTGCTGGATGGCAACCGCGCCTTGGTGGCGCTTGCCGGCGCGGCCGGTGCCGCCGGCATCGTGTTTCTTCTCGGCTGGCGACGCTCCTTCGAGCCGGTGACCATGGTGGTGTCGGGGCTGCTGGTCGGCATCACCGCCGCGTCCGTTTCCGCCGCGCTGACGCTGGCACAGGGCGAATATCTGATGTCGCTGGTCGTCTGGAACGGCGGCTCGCTCAGCCAGCAGGACTGGTCGAACGCCTTGTCCCTCGCGTTTCAGCTTGTTGCCGGGCTCGTTCTGACCGGCCTGCTGATTAAGCCGCTGACGGTCCTCGGTCTCGGCGATGCCGGTGCGCGATCGCTCGGCGTCTCGCTGTTTTCGATCAGGCTGGCGGTTGCCGCCGTCGCGGTCATGCTGGCCGCCTTCGTTGCTTCGGCGGTCGGTCTCGTCAGCTTCATCGGCCTTGCAGCACCTGCGCTCACCCGGGCGCTCGGTGTGCGGCGTTCGTCTTCGGTGCTCCTGGTTTCCCCGCTTCTGGGCGGACTGCTGCTGTGGTTCTGCGACGGTCTCGTGCAGCTTCTGGCAAGCACGACGGCCGAAGTTTTCCCGACCGGCGCGGTAACGGCCCTGATCGGCGGCCCGCTGCTTCTGTGGCTGCTGCCGAAAATCCGGCCGTCCGATGTGCATCGCGGTGAAGGCGTCGAGCTGGCGACAAGACGCCGGCTTACGGCCCTGCTGCCGGTACTGGCGGTCATGGCGGGACTTGTTTTTGCAGCGCTCGCCATCGGCAAGGGGCCCGATGGCTGGACGGTGCTGAAGGCTGACGATCTGCAAAGCCTGCTGCCGTTCCGCTGGCCGCGGCTGGTGGCGGCCGTGGCCGCAGGCGGTCTTCTGGCCATGGCGGGCGCGCTTCTCCAGCGGCTTACCGGCAATCCCATGGCAAGCCCGGAGGTGATCGGCGTCAGCGGCGGTGCCGGCCTCGGTTTTGCCGCCGCCATCACGATTTTTCCGGCCGCCGGTCTTTTCGAACTGTTTTGCGGCGCAGGCATCGGCTCTGCGGCCGTCATGATCCTCGTCCTGCTGTTTTCCATGCGCCGGCACCTGGCGCCGGAAAAAATCCTGCTCGCGGGCATTGCCATCAGTTCGCTCTGCTCGGCCGTTCTCTCGGCGCTGCTTGCCATTGGCGACCAGCGGGCATGGCAGATCCTCGCCTGGCTCAGCGGCTCGGGTTCGACGGCGACGCCGGCTTCGGCGATTTTTCTCGCCATTCTTTCCGTCGTGCTGCTGGCGGGGGCGTTATCGGTCACGCGCTGGCTGACGATCCTGCCGCTCGGACGCGATGTGCCGCTCTCCCTCGGCCTGCCGCTCGGCGCGGCCCGCATCGCCGTCATCGCGGTCGCGGGCATTGCCACCGGGGCTGCCTCGCTGCTCGTCGGTCCTTTGAGTTTCGTCGGATTGATGGCGCCGCATATTGCGCTTCGCGCCGGTTTCACCACGCCGCGCGACCACCTCTTCGCTTCCTTCCTGTTCGGCGCGGTGCTGATGGCGCTTTCCGATCTTGGCGCACGGACAGTCACCTTTCCCTATGAACTGCCGCTCGGGCTTTTTGCGGCGCTTGCCGGCGCGCCCTATCTGATCTGGCTTTCAGGCAGGCGATGA	MTARPLQLFFGLLFVLACGLSLHAGLLRLPFGAWPGLPFDAATMSMDQVIFAFSLMPRVAVAILAGAMLGLSGALFQQLLRNPIADPSTLGISAGAQLAIVVATLFFPSVLDGNRALVALAGAAGAAGIVFLLGWRRSFEPVTMVVSGLLVGITAASVSAALTLAQGEYLMSLVVWNGGSLSQQDWSNALSLAFQLVAGLVLTGLLIKPLTVLGLGDAGARSLGVSLFSIRLAVAAVAVMLAAFVASAVGLVSFIGLAAPALTRALGVRRSSSVLLVSPLLGGLLLWFCDGLVQLLASTTAEVFPTGAVTALIGGPLLLWLLPKIRPSDVHRGEGVELATRRRLTALLPVLAVMAGLVFAALAIGKGPDGWTVLKADDLQSLLPFRWPRLVAAVAAGGLLAMAGALLQRLTGNPMASPEVIGVSGGAGLGFAAAITIFPAAGLFELFCGAGIGSAAVMILVLLFSMRRHLAPEKILLAGIAISSLCSAVLSALLAIGDQRAWQILAWLSGSGSTATPASAIFLAILSVVLLAGALSVTRWLTILPLGRDVPLSLGLPLGAARIAVIAVAGIATGAASLLVGPLSFVGLMAPHIALRAGFTTPRDHLFASFLFGAVLMALSDLGARTVTFPYELPLGLFAALAGAPYLIWLSGRR	PGPT0003320_875	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|ALBOMYCINS,PGPT0003320-fhuB-K23228	NA	NA
BMS010_02524	882	fhuD	COG0614	Iron(3+)-hydroxamate-binding protein FhuD	ATGTCCCCCCTTTGGGGGCGGCGGGAATTTTTAGGCCTGCTCGCTGCTTCGGCTCTTGCTGGCAAGGCGCAGGCGGCGGTCACGCCACGCCTTGCCGCCATCGACTGGGCCATGCTGGAAACCGCCGTTGCGCTCGGCGTCATGCCGGTGGCGGCGACCGAGCTCGTCCAGTTTCGGGCGGACGCGGTCGAGCCGGAAATCCCCGCAACCGTCGCCGATCTCGGCCTGCGCGGCGCGCCGAATTTCGAGCTTCTGCAACTGACCCGGCCCGATCTCATTCTGATTTCGCCCTTCTACACCCGCTATACCGGCAGGCTGGAAGCGATTGCCCCGGTCTTCTCGCTGCCCTTTTACGTGAAGGGCGAGCCGCCTTTCGCAAAGGCGCTGGCGGCGGTCTCCGCCCTTGGCGAAAAGCTTGGCAGGGCCGATGAGGCGCGCAGGGTTCTGGGCGAAACGGAAGCGACGCTGCAAGCCATGCGGACCCGCCTTGCCGGTTTTGCGGCGCGGCCGACTTATGTGATCAATATCGGCGACGCCCGGCATTTTCGCGCTTTCGGTGCGGATAGCATGTTCGGGGATGTTCTTGGCCGGCTGGGGCTCGCCAATGCCTGGGTGGATCGTTCGCAATTCACCTTCGCGGCCCCGGTGCCGCTTGAAAACCTCGCCGCTTCGCCCGATGCGCGCATCGTCATCGTCTCCGATATTCCGGTCGAGGCGCGGGAAACCCTGCGCAGCAGCGCCATATGGCGTGCGCTGCCCGCCGTGCGGGAAAACCGGGTGGTCACGCTCGGCAATGTCGGCCCCTATGGCGGCATCACCGCCGGCATGCGCTTTGCGCGGCTTCTGACCGAAGCGCTCTCGGCGCAGGGAGAAGCCCTGTGA	MSPLWGRREFLGLLAASALAGKAQAAVTPRLAAIDWAMLETAVALGVMPVAATELVQFRADAVEPEIPATVADLGLRGAPNFELLQLTRPDLILISPFYTRYTGRLEAIAPVFSLPFYVKGEPPFAKALAAVSALGEKLGRADEARRVLGETEATLQAMRTRLAGFAARPTYVINIGDARHFRAFGADSMFGDVLGRLGLANAWVDRSQFTFAAPVPLENLAASPDARIVIVSDIPVEARETLRSSAIWRALPAVRENRVVTLGNVGPYGGITAGMRFARLLTEALSAQGEAL	PGPT0003330_810	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|ALBOMYCINS,PGPT0003330-fhuD-K23227	NA	NA
BMS010_02525	2163	fhuA_2	COG1629	Ferrichrome outer membrane transporter/phage receptor	ATGGTGGCGCAGGTGACGAAGGGTCTTGGGGTGCAGGGAAAAACCAAACACATTTCCATTCTGGCTGGCGGTTGCGCCGTCATCGCTTATGTGGCGTTTTTGGCCTCGGCTTCCGCCCTTGCGCAGGAGGCCGGTACGACGGTGCTGCAGACCATCACCGTGGAGGGCGCCAAAAATCAGGATCCCAAGGCCCCGGTGAAAGGCTATGTGGCGAAAACCAGCGCCAGCGCCACCAAGACGGGGCGATCCCTGATCGAGACGCCGCAATCCGTATCCGTCATCACCAAGGACCAGATGGATGCTCAGAACGTCCGCAATCTCAGCGAGGCGCTGAACTATGTTCCGGGTGTCGTCGCGCAGCCGTTTGGGGCGGATCCGCGTTTCGATGCACCGCGCATTCGCGGGTTCCAGGGAAACCAGTTGCAGTTCCTGAACGGTCTGCGGCTGATGCGCACCGCCGGTGCGCCCTCCTATGAGGTTTACGGTCTGGAGCGCGTGGAAGTCATTCGCGGGCCTGCTTCCGTTCTTTTCGGTCAGGGCAATCCCGGCGGCCTCATCAATCTCATCAGCAAGCGGCCGACCTTCGAACGGTTCGGCGAAGTCGGTGTGCAGATCGGCAGCTTCGACTATTACCAGTCGATGTTCGATATTGGTGGCCCGGTGGCGGATAGCGACAGTTTCGCCTATCGCCTGACAGGCCTTGCGCGCAACGCCCATGCCCAGACGGACAACTTGCAGAACGACCGTTATTTCATCGCGCCGGCGCTCACCTGGCAGCCGGACGAGGATACGAAGCTGACGGTTCTTGCCTCCTATCAGCACGACAATCCGAGTTCGCCCTCCGGCCTGCCGCCGGCGCTGACCTATCTCAGACCCGGCAATATGCTGGATCGCAGCTTTTATGTCGGCGATCCGTCCTTCGATACGTCGAGCCGCAAATTCACCAATATCGGTTATGAATTCGAGCACCGTTTCGACGAGACCTTCACCTTCCGGCAGAATGCGCGTTATTCCAATTTCGACTGGTCCTACCGCGCGCTCGGCATGTCCTCGACCAGCGGCGGCATGATCGGCAATCTCATCCGCCGCAATGCGACGTTTCAGGACGAGTTGCTGAACACTTTCAACATCGACAACAGCCTGCAGGCGGAGTTCTCCACGGGGCCAATCGACCACACCCTGCTTGTCGGGCTGGACTACCGTTATTTCGACAATAACGTCAAAACCGAATTCTGGGCCGCGACGCCGCTCAATCCCGTCAATCCGGTCTATGGCGGGCCGATCAGCCTCACCTCGCGCACGCTTTATGCCGATGTGAAGACGGATATTTCCCAGATCGGCCTTTATGCGCAGGACGAGATGGCTTTTGAGAACTGGCGCGTTACCGCCGGCCTGCGGCAGGACTGGGCAAGCACCAGCGGTACGACCTTCAACGGCACCACCTACCGTTCGCTCGACAAGGACGATCACAAGCTGACCGGCCGCGTCGGCGTTAGCTATCTGTTCGATGGCGGCATCGCGCCCTATGTCAGCTACGCGACCTCCTTCGAACCGGTGCCGCAGCCGGCTGTCGGCGATGCGCCGAAACCGACCACCGGCGAACAATGGGAGGCGGGCGTCAAATACCAGCCCGAGGGTTTCGACGGTTTCTTCTCCGCCGCGATCTACGATCTGACACAGAAAAACGTCACGACGACGGTGGGCGGGGTGACGCAGCAGATGGACGAGGCGCATGTGAAAGGCCTCGAGCTTGAAGGCGTCGCAAGCCTTGCCGACGGGCTCGACCTGCGCGCGGCCTATACCTACATGGACAGCGAGGTCTCCGGCCGTGTCAATAACGGCAAGGAGCTGGACAGCACGCCGCGGCACGCCGCAAGCCTCTGGCTGGATTACACTTTCCCGGAAGATACCGCCCTTGAGGGTTTCGGCATCGGCGGCGGTGTGCGTTATGTCGGAAAACGCTATGGCGATGCCGCCAATACCTTCGAGATGAAGGGCCTCGCCCTGCTCGATCTCGGCGTGCATTACGAGAAGAACGGCTACCGCGCCTCGCTTCTGGTGCAAAACTTGACTGATAAAGAATATATTTCTAGTTGCTCCACTTTCGGATGCTATTACGGTGACGGAAGAACGGTTATGGGCAAGCTGACCTATCGTTGGTGA	MVAQVTKGLGVQGKTKHISILAGGCAVIAYVAFLASASALAQEAGTTVLQTITVEGAKNQDPKAPVKGYVAKTSASATKTGRSLIETPQSVSVITKDQMDAQNVRNLSEALNYVPGVVAQPFGADPRFDAPRIRGFQGNQLQFLNGLRLMRTAGAPSYEVYGLERVEVIRGPASVLFGQGNPGGLINLISKRPTFERFGEVGVQIGSFDYYQSMFDIGGPVADSDSFAYRLTGLARNAHAQTDNLQNDRYFIAPALTWQPDEDTKLTVLASYQHDNPSSPSGLPPALTYLRPGNMLDRSFYVGDPSFDTSSRKFTNIGYEFEHRFDETFTFRQNARYSNFDWSYRALGMSSTSGGMIGNLIRRNATFQDELLNTFNIDNSLQAEFSTGPIDHTLLVGLDYRYFDNNVKTEFWAATPLNPVNPVYGGPISLTSRTLYADVKTDISQIGLYAQDEMAFENWRVTAGLRQDWASTSGTTFNGTTYRSLDKDDHKLTGRVGVSYLFDGGIAPYVSYATSFEPVPQPAVGDAPKPTTGEQWEAGVKYQPEGFDGFFSAAIYDLTQKNVTTTVGGVTQQMDEAHVKGLELEGVASLADGLDLRAAYTYMDSEVSGRVNNGKELDSTPRHAASLWLDYTFPEDTALEGFGIGGGVRYVGKRYGDAANTFEMKGLALLDLGVHYEKNGYRASLLVQNLTDKEYISSCSTFGCYYGDGRTVMGKLTYRW	PGPT0003790_20150	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS010_02526	912	hcaR_1		Hca operon transcriptional activator HcaR	ATGGGCAGGAAACCGGCAAGCCGGGCAGAAACATTCGAATTGCGCCACCTGCGCTATTTCACCACGCTGGTGGATGAGCGCAATTTCGAGCGCGCCGCCGCCCGCCTCGGTATCGCCCAGCCGGGCTTGAGCCAGCAGATCATGGCGCTCGAACAGATTGTCGGCATGCCGCTTCTCGACCGAACGCGCCGCTCGGTGAAGTTGACCACGCCCGGACAGCTTCTCTACGAGGACGCCCGGAAGATCCTCGCCAATGCCGAGGCGACGCTTGCGGCGCTCAAACGTGTCGACCGCGGCGAAACCGGGCGCATTTCCATCGGTTATGTCGCCTCGGCCGCCTATTCCGGCCTGATGATCCGGTCCATCGCCAGTTTCCGCGCTTCCCATCCCGATGTGGAACTGCAATTGATCGAGATGGAGATGCGGCTGCAACTGGCCAAGATTGCCGACGGCAATCTGGACTTCGCCTTCATCCGCCCGCCCGCGCCTGTTCCGGAAGGTGTGACAACCCATGTGGTGCTGCGCGAACCGCTGATGGCCGCACTTCCTGAAAACCATCCCCTGGCGTTTGCGCTGCAGGTCGATCTGAAAAACCTTGCCGGCGAGACCTTCATTACCCCGCGGCAACCGCCGGATGTCGGCTTTCACTACAATACGATTGAAGCCTGCAATGAAGCCGGGTTCCAGCCGGCGATCAACCCGGAAGGCAGGGACTACACCACGATTACCAGCATGGTGGCCATCGGCCTCGGCGTCGCGCTGGTGCCGCGCTCGCTTAATTGCCTGAGGTTGCCCGGTGTGCGCTATGTGCCGCTTGCGGCCAGTTCCACGACCTCGGACCTCGCTATAGCCCACCGGAAAACGGAAGCCTCTCCCGCCGTCAGGGCCTTCATTCTCCATATGCGCAATTGA	MGRKPASRAETFELRHLRYFTTLVDERNFERAAARLGIAQPGLSQQIMALEQIVGMPLLDRTRRSVKLTTPGQLLYEDARKILANAEATLAALKRVDRGETGRISIGYVASAAYSGLMIRSIASFRASHPDVELQLIEMEMRLQLAKIADGNLDFAFIRPPAPVPEGVTTHVVLREPLMAALPENHPLAFALQVDLKNLAGETFITPRQPPDVGFHYNTIEACNEAGFQPAINPEGRDYTTITSMVAIGLGVALVPRSLNCLRLPGVRYVPLAASSTTSDLAIAHRKTEASPAVRAFILHMRN				NA	NA	NA	NA	NA
BMS010_02527	264			hypothetical protein	ATGGCTGAGACTTACGAACACCACGCCGCCGGCCTCGAATCGCCGGCATCCCACGCTTTCGACGTGGTTCCGGACGATACGAACCCGCTTCCTTCCCCCACCCGCGCCATCTATGTGGGCAATGGCGGCCATCTCTGCCTGACCCTGCTTTCCGGGGCGACGGCGACCTTCCAGAACCTGCCCGCAGGCAGCCTGCTACCGGTCAGGGCCACGCGCATATTTGCAACGCGCACCACCGCCACAGGCATCGTGGGCCTCAATTAA	MAETYEHHAAGLESPASHAFDVVPDDTNPLPSPTRAIYVGNGGHLCLTLLSGATATFQNLPAGSLLPVRATRIFATRTTATGIVGLN				NA	NA	NA	NA	NA
BMS010_02528	1668	eptA_1	COG2194	Phosphoethanolamine transferase EptA	GTGGATCTGACAGTGGCTCTTTTTACCGCGAAAGCGACGGGAACAGTAACATATCGTCCGGAAATCGGCAGCGTGCCGCTCAGCCTGCTGACGGCGGCCTATCTGCTGTTTTTCATGAACCGGACATTCTGGTCGAAGGTTCACACCTATCTTTCCGCCTATCCGGTCGCCATTGTCGCGCTTTATGCCGCCATGGCCGCCCTTCTCGGCGCCCTCATCATCATTTTTTCCGCCAAATATCTCATCAAGCCGTTTTTGATCTTCCTGGTCTTCGCGGCGGCCGCCGCTTCCTGGTTCATGGATCGCTACGGCATCGTCATCGACAGCGACATGATCCGCAACGCCATGGAGACGACGCAGGCGGAAGCCGGCAATCTGATCACGCCCGGCTTTCTCTGGCACATGGCGATTTACGGACTGGTGCCGTCCCTCCTCATCGCCGCCGTGCGTGTGCGCCACCGCCCAATCCTCGACAAGCTTTTGTGGAACACGATCAGCATCCTGATCTGTCTTTCCATCGCCGGCATCATCAGCTTCGCCAATTCCAAGACCTTCACCACCGCCGTGCGCCAGCACAAGGATATCGTCAAAAGCGTCAATCCACTGTCGCCGATCATGTCGGCCATTCATTATTTCACGCTGGCGGGCAAGGAAGTCGATATTCAGGTCAGCCCGGTCGGCGGGGATGCGAAGGTCCTGCCTTCATTGGGCGGCGTCCGCAAACCCCGTATCACCGTCATCGTGGCGGGCGAGACGGCGCGGGCCGCGAACTTTTCCCTGAATGGCTATGGGCGCGATACCAATCCCGAGCTTACAAAACGCGGTGTGGTCTATTTTCCGAACACGACCAGCTGCGGCACCGCGACGGCGATTTCCATTCCCTGCATGTTCTCGAAGTTCCCGCGTTCGCAATATAGCCACAAAAAGGCGCTCGCCAATGAAAACGTCATGGATGTTCTCGTCCATGCCGGGGTAAGCGCGACATGGCTGGACAACAATACCGGCAGCAAGAACGTGGCCGACCGCATCCCCTATTTCGACCTGCCCTCCACCAATGACAGCCGCTTCTGCACCGGCGGGGAATGCCGCGACGATATCTTCTTCGACAAGCTCGACTCCTGGCTCAACAACGTCACCAGGGACAGCGTCATCGTGCTGCACCAGATGGGCAGCCACGGGCCGACCTATTATCTGCGCTATACCGACGAATTCCGTAAATTCGCCCCGGATTGCCGCACGGCCGAGCTTGGCAACTGCTCCGACGCGGAGATCGTCAACTCCTACGACAACACGCTTCTTTACACCGATCATTTCCTCTCCACCGTGATCGACAAGCTGAAGGCCCGTTCCGACAGGCTGGCGACGGGCATGATCTATGCGTCTGACCACGGCGAGTCGCTTGGCGAGAACGGCGTCTACCTGCATGGCGCGCCCTATCTGCTGGCGCCCGACCAGCAGACCCATGTGCCGTTTCTCGTCTGGTTCGACGACGACTTTGCGAAATCCATGGGGCTCAACAAAGCCTGCCTCGCAAAAACCGCGGCGGAGGGCGGGCGCTCGCACGACAATTATTTCCACAGCATCCTTGGCATGATGAATGTCTCCACTTCGGTCTACGATCCCTCGCTCGATGTCTTCGGCGGCTGCACCCAGCGCCAGAACAGCTGA	MDLTVALFTAKATGTVTYRPEIGSVPLSLLTAAYLLFFMNRTFWSKVHTYLSAYPVAIVALYAAMAALLGALIIIFSAKYLIKPFLIFLVFAAAAASWFMDRYGIVIDSDMIRNAMETTQAEAGNLITPGFLWHMAIYGLVPSLLIAAVRVRHRPILDKLLWNTISILICLSIAGIISFANSKTFTTAVRQHKDIVKSVNPLSPIMSAIHYFTLAGKEVDIQVSPVGGDAKVLPSLGGVRKPRITVIVAGETARAANFSLNGYGRDTNPELTKRGVVYFPNTTSCGTATAISIPCMFSKFPRSQYSHKKALANENVMDVLVHAGVSATWLDNNTGSKNVADRIPYFDLPSTNDSRFCTGGECRDDIFFDKLDSWLNNVTRDSVIVLHQMGSHGPTYYLRYTDEFRKFAPDCRTAELGNCSDAEIVNSYDNTLLYTDHFLSTVIDKLKARSDRLATGMIYASDHGESLGENGVYLHGAPYLLAPDQQTHVPFLVWFDDDFAKSMGLNKACLAKTAAEGGRSHDNYFHSILGMMNVSTSVYDPSLDVFGGCTQRQNS	PGPT0022420_257	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0022420-eptA-K03760	NA	NA
BMS010_02529	654	qseB_1		Transcriptional regulatory protein QseB	TTGCGGGTTCTGCTTGTTGAAGACGATCATGTGCTGGGCGAAGCGCTGCGGGATCATGTCGCGGCGGCGGGTCATGCCGTCGACTGGTTCAAGACGCTGGGCGACGCCATGGCGGCGACGCTGACGATGGGTTACGGCCTCATCCTGCTCGACATGCGCCTGCCGGATGGCGAGGGCATCACCCTTCTGCAAAGCCTGCGCCAGCGCGATGACGCGACGCCGGTGATCATTCTGACAGCCCATGACCAGGTTTCCGACCGGATCGCCGGGCTGAATGCCGGTGCGGACGATTATCTCGTCAAACCTTTCGATCTCAACGAGCTTTCGGCCCGCATGCTGGCGGTCTCGCGCCGTTACGAAGGGCGTTCCGCTCCCGTCATCCGCCTGCCCGGCATCGAGATCAACCAGGTGGCGCGCAATATCACGGTCGATGGAACGGCGCAGACGCTGAGCGCCCGGGAATGGGCCGTTCTGGAAAAACTCGTCGAACATCCCGGCGCGGTCGTCTCGAAAGCGCAATTGCACGACACGCTCTATGAATTCGGCGCGGAAATAGAAAGCAACACGGTCGAGGTCTATATCAGCCGGCTGCGCAAGAAAATCGGCCATGACCGCGTCGAAACCGTGCGCGGCGTCGGCTACACCATCCGATAG	MRVLLVEDDHVLGEALRDHVAAAGHAVDWFKTLGDAMAATLTMGYGLILLDMRLPDGEGITLLQSLRQRDDATPVIILTAHDQVSDRIAGLNAGADDYLVKPFDLNELSARMLAVSRRYEGRSAPVIRLPGIEINQVARNITVDGTAQTLSAREWAVLEKLVEHPGAVVSKAQLHDTLYEFGAEIESNTVEVYISRLRKKIGHDRVETVRGVGYTIR	PGPT0017365_1046	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-GENTAMICIN|TOBRAMYCIN|KANAMYCIN_RESISTENCE,PGPT0017365-tctD-K07774	NA	NA
BMS010_02530	1338	qseC_1		Sensor protein QseC	ATGGCCAGACCGACCAGCATGACCCGCAAGCTCGTGACGGCGCTGACCAGCGTTGTCGCCATATCCTGGCTTCTCGCCTGCGGGCTGGGCGTCATGGTGATGCAGGATGAGTTCGCCGAGATTTTCGACGCCGGCGTTGAGGAAACCGCCGAAAGACTGCTGCCGCTATTGGTGGACGACCTGAGGGAAAACAACACCGCGCCTGCCGCGCAAAAACTCAACCGGACGTCGGAACGGGCGGAATATCTGACCTATCAGGTCCGCGACCGGGAAGGACAGGTGGTGCTGCATTCGCATGACAGTTCGACGGAACCTTTCGAGGTCTCGCTCGAGCCCGGCTTTTCCGAAACCGCGACCCAGCGCATCTTTACGGTTGCGACACCGGACGGAAACTATTTCCTGCAGGTTGCCGATGCCTTCGCCAATCGCCGCGAGGCGATCGAAGAGGCAGGCACCGCGCTGCTGCTTCCCGTTCTCATCCTCATTCCCGCCAGCATTTTCGCCGTCATTGTCGTGGTGCGCAGAACGCTGCGACCGATACAGACCCTGCGCGACGACATCGGCAAAAAGGACGGCGGCAATCTCGCGCCGCTGCCGACGCAACCCTTTCCGGGCGAGCTCCATCCCATTGCCCGTTCGGTCAATCTGCTGCTCGGACGATTGCGATCGGCAATCGAGGCGGAACGGGAATTCACCGCCAACAGCGCCCATGAATTGCGCACGCCGATTGCCGGCGCGCTGGCGCAGGCGCAGCGGCTGCATGCCGACATACCGCCGGAACTTGCACCGCGCGTGGAAAACATCGAAAAATCCCTGCAGCATCTCGCACACCTGGCCGAAAAACTGCTTCAGATGTCGCGCGCGGAAGCGAGGATCGGGGTCACCGACGCGGCAAACGATCTCATTCCCGTTCTCGAACTGGTTATCGATGACATGATGAGAACGGCCATCGGTTCATCCCGCATCCGCTTCACCAATCGCTGTGAAGGCGGCCTGTCCTGCAGGATCGGCGCGGATGCCTTTGGCATCATCATCCGTAACCTCCTCGAAAATGCGCTGATCCACAGCCCGGCGGAAAGCCCGGTGCAGGTCGTCGCCGAAGCGGACGGCACGATCCGCATCGTCAATTCCGGGGCGACAATCGACGCGGCTCTCCTGCCCAAGCTGACGACGCGTTTTACCAGGGGCCAGACCACGGCGGACGGAACCGGGCTTGGCCTTGCCATCGTCAAGAGCCTGGTGGAGCAAGCCGGCGGAGAGCTGGTGCTTTCCTCGCCGGCGCCGGGCCGGCAGGACGGTTTTGAGGCCCGCATCGTCCTTCCCACCGAAGCCGCCTGA	MARPTSMTRKLVTALTSVVAISWLLACGLGVMVMQDEFAEIFDAGVEETAERLLPLLVDDLRENNTAPAAQKLNRTSERAEYLTYQVRDREGQVVLHSHDSSTEPFEVSLEPGFSETATQRIFTVATPDGNYFLQVADAFANRREAIEEAGTALLLPVLILIPASIFAVIVVVRRTLRPIQTLRDDIGKKDGGNLAPLPTQPFPGELHPIARSVNLLLGRLRSAIEAEREFTANSAHELRTPIAGALAQAQRLHADIPPELAPRVENIEKSLQHLAHLAEKLLQMSRAEARIGVTDAANDLIPVLELVIDDMMRTAIGSSRIRFTNRCEGGLSCRIGADAFGIIIRNLLENALIHSPAESPVQVVAEADGTIRIVNSGATIDAALLPKLTTRFTRGQTTADGTGLGLAIVKSLVEQAGGELVLSSPAPGRQDGFEARIVLPTEAA	PGPT0004100_3384	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-CUS_TRANSPORT_SYSTEM,PGPT0004100-cusS|copS|silS-K02484	NA	NA
BMS010_02531	1314	kgtP_1		Alpha-ketoglutarate permease	GTGAATATTATGGCAAATGGTCCCGCTGCCGCGCCGGACCAGAAAACCCGTTTGAAATCCATTATCGGCGGATCGGCGGGCAACCTCGTCGAATGGTACGACTGGTACGTTTATTCGGCCTTCACCCTTTATTTCGCGCCGGTGTTTTTCCCTTCCGGAAACCAGACCGCCGAGCTTCTGAGTGCAGCCGCCGTTTTCGCCGTCGGATTTCTGATGCGGCCCATCGGGGCCTGGTTCATGGGCACCTATGCCGACCGCAAGGGCCGCAAGGCCGGTCTCACCTTATCCGTCACGCTGATGTGCCTCGGCTCGCTGCTGATCGCGATTACGCCAGGCCATGAGGCGATCGGCATTGCCGCGCCGGCCATTCTGGTTTTCGCAAGGCTTCTGCAGGGCATCAGCGTCGGCGGCGAATATGGCGCCAGCGCAACCTATCTCAGCGAAATGGCCGGCAAGAACCGCCGCGGTTTCTTCTCCAGTTTCCAGTATGTGACGCTTATTTCCGGTCAGCTTCTGGCGCTGGCGGTGCTTCTGGTACTGCAGCGGGTTCTGACGCCGGAACAGCTCGGCTCCTGGGGCTGGCGCATTCCCTTCTTCATTGGCGGCCTTCTGGCGATTGCGGTGTTTTATATCCGCCGCGGCCTTGTCGAGACGCAGTCCTTCGAAAATGCCAAGACCGGCGCTGCCGACAAGCCGAAGTCCAGCGGATGGGCGTTGTTCAAGCACTATCCAAGGGAAGCGCTGATGGTCATGGCGCTCACCTCCGGCGGCACGCTCGCCTTTTATGCCTATACGACATATCTGCAGAAATTCCTCGTCAACACCTCCGGCTTCAGCAAGGAAAGCGCCACGGAAATCACCACGGCGGCGCTCTTCGTCTTCATGCTGTGCCAGCCGATTGCGGGTGCGCTGTCCGACAGGATCGGCCGCAAGCCGCTGATGGTCGGCTTCGGCATTCTCGGAACGCTGTTCACCTATGCGATCTTCAGCGCGCTTTCGACGACGAACGATCCCATCATGGCTTTCGCCCTCGTTCTGGTCGGCCTATTGATCGTCACCGGCTATACCTCCATCAATGCGGTGGTGAAGGCGGAAATGTTCCCTGCCCATATCCGCGCGCTTGGCGTGGCTCTGCCCTATGCGCTGGCGAACACCATATTCGGCGGAACGGCGGAATTCGTGGCCCTGAAGTTCAAGCAGATCGGCCACGAAAACTGGTTCTTCTGGTATGTGACGATCATGATCGCCCTGTCGCTGGTGGTTTATGTGAAGATGCGCGATACGCGCGATCACAGCCATATCCACGAGGATTGA	MNIMANGPAAAPDQKTRLKSIIGGSAGNLVEWYDWYVYSAFTLYFAPVFFPSGNQTAELLSAAAVFAVGFLMRPIGAWFMGTYADRKGRKAGLTLSVTLMCLGSLLIAITPGHEAIGIAAPAILVFARLLQGISVGGEYGASATYLSEMAGKNRRGFFSSFQYVTLISGQLLALAVLLVLQRVLTPEQLGSWGWRIPFFIGGLLAIAVFYIRRGLVETQSFENAKTGAADKPKSSGWALFKHYPREALMVMALTSGGTLAFYAYTTYLQKFLVNTSGFSKESATEITTAALFVFMLCQPIAGALSDRIGRKPLMVGFGILGTLFTYAIFSALSTTNDPIMAFALVLVGLLIVTGYTSINAVVKAEMFPAHIRALGVALPYALANTIFGGTAEFVALKFKQIGHENWFFWYVTIMIALSLVVYVKMRDTRDHSHIHED	PGPT0001525_634	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_KETO-|OXOGLUTARATE_TRANSPORT,PGPT0001525-kgtP-K03761	NA	NA
BMS010_02532	1113			hypothetical protein	ATGATTTACGATATATCGGACGTTCAGATTGAAAAGCTTCTCATTGCCGCCGCCCGTGCCGGCGAGGCGCTGGCGCGGCTGGACGAGCGGATCGACCGGTCACCGATGAAACACGGCTTCAGCGAAAGACAGGATTTCACCGATGCGATTTCCTCCATGTGGGTGGATGGCGAACTCGTTCACATGGAAGATCTGGTGCTGCATGACGCACATATGGATGTGCGCGCGCCAACCCATGAAATGACGGCGGCGCACCGGATTCTCCGCTCGAGACGGCTGATCTTTTCCAATCCCCCCGGCTGGGCCTTTACCGCGCCGGGCCTTTCAAGGCTACGCGGCAGGGCGGCACTTGCCCAAGCGCCAGAGCCTTCCAGACAAACGCTCGACCACGCCCGCGATGAAGACACCGACGCTGAGGAGGAGGAAACATCGCTGGATGGCGCTTTTTCCGAGCTCGATGCGCTTCTGGCGCGAAGCGCCGCAACGCTCGACGCGATCACCACCGGTAGCGCGCTTCCGCCAATGCACAGGGAGGAAAGCCATGCGATCATCAACGAACCCGACTGGGACGAGGATGAGCGGCTGAAAGAATGGTGGAACGTCCATGCGCGGACGGAGGAACTGCCGGCGATTCTTCGCACCGCCATCCTGCTCGACGCCTGGAACATGATCGAGGTGCTGCAACGCAGCCCCTGGCTTGGCCGGCTTCTGGCCTCCGCCTTTCTGCGCGACGGCGCCGTCACGCCCGATCACCTGCCGGCCCTCAGCGCCGGTCTCCGCGCGGTCCCGCGGGAGCGTCGCCACGCCCGAAACCAGACACAGCGGGTTCTCGCACTTCTCGACAGCTTTTACGAAGCGGCGCAGGTCGGCATGAAGGAACATGACCGGCTGGCCCATGCGCGTGAACGCATGATGCGCAAGCTGGCAGGCCGGCGTTCCTCCTCGCGCCTGCCGGAACTCGTGGAACTTGTCGTCTCCCGACCGGTGGTTTCCGCAGCGATGATCGTCAAGGAACTCGGCACCACACCGCAGGGCGCGATCGGGCTCGCCAACCAGCTGGAACTGCGGGAAGTGACCGGTCGCGGCCGGTTTCGCGCCTGGGGCATGCTCTAG	MIYDISDVQIEKLLIAAARAGEALARLDERIDRSPMKHGFSERQDFTDAISSMWVDGELVHMEDLVLHDAHMDVRAPTHEMTAAHRILRSRRLIFSNPPGWAFTAPGLSRLRGRAALAQAPEPSRQTLDHARDEDTDAEEEETSLDGAFSELDALLARSAATLDAITTGSALPPMHREESHAIINEPDWDEDERLKEWWNVHARTEELPAILRTAILLDAWNMIEVLQRSPWLGRLLASAFLRDGAVTPDHLPALSAGLRAVPRERRHARNQTQRVLALLDSFYEAAQVGMKEHDRLAHARERMMRKLAGRRSSSRLPELVELVVSRPVVSAAMIVKELGTTPQGAIGLANQLELREVTGRGRFRAWGML				NA	NA	NA	NA	NA
BMS010_02533	231			hypothetical protein	ATGACAATTTCAATCTCACAACCCGATTCCGATCACGAAACAGATGCTCCTTTTGCCAAAAAGGTTCTGACCGCGCGCAATCTCGCCGGATATACGGTCGAACAGCTTGCCGTGACCTGCGGCCTGACGACCAGCGAAATACGCGCGCTCGAAGACGGCACGGACAGCGATCCGCTGCGCATCAGACGCGTTGCCGCAGCTCTTCATATTCCTGTCGAAACCGTTATCTGA	MTISISQPDSDHETDAPFAKKVLTARNLAGYTVEQLAVTCGLTTSEIRALEDGTDSDPLRIRRVAAALHIPVETVI				NA	NA	NA	NA	NA
BMS010_02534	1251			hypothetical protein	ATGACACTAAGTCTCGACACCGAAGAACGGGTTTCTTCAGCATTGGATGAATTGTGGCCAGCGGAAAAGACGGAAATTCTCGACTGGTTGATCACCGGCACCAAGGACGAACGCTTTATCGACGAGATATTCGTCGAGCTCTGCAACAGGCTGCGGGCGAGCGGAATTTCCGTGGCGCGGGGCGTGCTCGCTTTCCGCATTCGCCATCCCCAATGGCTTGGCGCGCGCATTCTGTGGAAAGCCGGCCTGTCCTCCGCCGAGATCGCCACCTATGGCTATGGGTCTGAAAATACACCCGAATATCTGAACAGCCCTATCAACGACATTCATCAGGGCGCCACCGAAGTCCGCCACCGGCTGAACGGAGAGGACATCGATGAGCCCGGCTATACGATCTACGAAGACCTGCGGGCCGAGGGGCTGACCGATTATTGCGCATGGCCGATCGAGCACACCTTCGGCAAGCGCCATGTCGCCAGCTTCTCCAGCGACCGGCCCGGCGGTTTTTCCGACAGTGAAATCCTCGCCTTGAAAAACCTGCTTCCGGCGCTGGCGCTCGTCAGCGAAATACGCCTGAAAAACCGCATGACGCGCACCCTTCTGGAGACCTATGTGGGGCCGCATGCGGGCGAAAAAATCCTCAATGGCGCCACCACGCGCGGCAGCGGCATGACGGTGGGTGCGGCGATCCTGATCTGCGACCTGCGCAATTTCACCCATATTTCCGACCTTTGGCCGCGTGACGATGTCATCGAGCTTCTCAACGGTTATTTCGACGCCATGTGCGATCCCATTGAGGAATTCGGCGGCGAAATCCTGAAATTCATGGGCGACGGGCTGCTGGCGATTTTCCCGCTCAGCAACCCGCAGGCCTGCGAAAACCTGCTGAAAGCCATCGCCAGCGCCCAGAAGAGCCTCGTCGCGCTGAATGAAATCAATTGCCGCAAGGGCCACGATCCCCTGGGTTATGGCATCGGCGTGCATGTCGGCGATGTCATGTATGGCAATATCGGCTCGAAAACCCGCCTCGATTTCACCGTCATCGGCCCCGCCGTCAATATCGCCTCGCGGCTGGAAACGCTGACCAAGGAGACCGGACGCAATGTGCTTTTCTCCGAAGAATTCGTGCGTATGGCCGGATATCAGGGAAAGCTGGAAAGTCTCGGTCCATGGCTGCTGCGCGGCCTCGAAACCCCGGTCGAGGTATATGCCCTGCCCCACAATGCAGCCCTGACAGCTTCGGCCGATTGA	MTLSLDTEERVSSALDELWPAEKTEILDWLITGTKDERFIDEIFVELCNRLRASGISVARGVLAFRIRHPQWLGARILWKAGLSSAEIATYGYGSENTPEYLNSPINDIHQGATEVRHRLNGEDIDEPGYTIYEDLRAEGLTDYCAWPIEHTFGKRHVASFSSDRPGGFSDSEILALKNLLPALALVSEIRLKNRMTRTLLETYVGPHAGEKILNGATTRGSGMTVGAAILICDLRNFTHISDLWPRDDVIELLNGYFDAMCDPIEEFGGEILKFMGDGLLAIFPLSNPQACENLLKAIASAQKSLVALNEINCRKGHDPLGYGIGVHVGDVMYGNIGSKTRLDFTVIGPAVNIASRLETLTKETGRNVLFSEEFVRMAGYQGKLESLGPWLLRGLETPVEVYALPHNAALTASAD	PGPT0021560_5003	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|VFR_SIGNALLING_PATHWAY,PGPT0021560-cyaB|gidA-K01768	NA	NA
BMS010_02535	993	idhA		Inositol 2-dehydrogenase	ATGGTTACGAAATTGGCACTGCTCGGCGCTGGACGGATCGGCAAGGTCCACGCCAAGGCGATCACCACCGACAGCCGTGCGCAGCTGGTGGCCGTTGTGGACGCCATGGCCGGTGCTGCGGAAGCAATCGCCCGCGAGGCGCAGTGCAAGGTCAGCACGATCGATGAGGTTCTGGCCGACGAGACGATCGATGCCGTTATCATCTGCACCCCGACCAACACCCATGCCGACCTGATCGAGCGTTTCGCCCGCGCCGGCAAGGCGATCTTCTGCGAAAAGCCCGTCGATCTCGATGTCGCCCGCGCGGAAGCTTGCGCCAAGGTGGTCGAGGAAACCGGCGCGAAGGTGATGCTCGGTTTCAACCGCCGTTTCGACCCGCATTTCCAGGCCGTTCACAAGGCAATCGATGATGGCCGCATCGGCAAGGTGGAAATGGTGACCATCACCAGCCGCGACCCCGGCCCGCCGCCGGCCGAATATATCAAGGTCTCCGGCGGCATTTTCCGCGACATGACCATTCATGATTTCGATATGGCCCGTTTCCTGCTCGGCGAGGAAGTGGAAAGCGTGTTTGCCACCGGTTCCGTCCTCGTCAATCCGGAGATCGGCGCGCTGGGTGATTTCGACAGCGCCAGCATCATCCTGACGACAAAAAGCGGCAGACAGGCGATCATTTCGAATTCCCGCCGCGCGACCTATGGTTACGACCAGCGCATCGAAGTGCACGGTTCGCTCGGTTCGGCCGCGGCCGAAAACCAGCGTCCGGTTTCCATCGAAATCGCCAATGCGGACGGCTACACCCGCCCGCCGCTGCATGATTTCTTCATGACGCGTTATACGGCCGCCTATGCCGCGGAAATCACCGCCTTTATCGACAGCATCGAAAACAACGTCGCGCCGTCGCCCTCCATCAAGGACGGTCTGATCGCGCTGAAACTGGCCGATGCCGCACTGAAATCCGCGACCTCGAAGACGGCCGTGAAGATCGGCTGA	MVTKLALLGAGRIGKVHAKAITTDSRAQLVAVVDAMAGAAEAIAREAQCKVSTIDEVLADETIDAVIICTPTNTHADLIERFARAGKAIFCEKPVDLDVARAEACAKVVEETGAKVMLGFNRRFDPHFQAVHKAIDDGRIGKVEMVTITSRDPGPPPAEYIKVSGGIFRDMTIHDFDMARFLLGEEVESVFATGSVLVNPEIGALGDFDSASIILTTKSGRQAIISNSRRATYGYDQRIEVHGSLGSAAAENQRPVSIEIANADGYTRPPLHDFFMTRYTAAYAAEITAFIDSIENNVAPSPSIKDGLIALKLADAALKSATSKTAVKIG	PGPT0018525_44	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018525-iolX-K16043	NA	NA
BMS010_02536	885	ribN_3		Riboflavin transporter	ATGCCATCACCCCGGACCGGCTTTCTTTATGCGCTTGTCGCTTTCACGATCTTTGCGGCGCAGGATGGCATATCGAAACATCTGGGCAGCGCCTATCCGCCGGTTTTTATCGCCATGCTGCGATACTGGGCCTTTGCCGTCTTCGTTCTTTTGATGGCCGCAAGGTCGGCGGGCGGCATTCGGGGCGCCGTCATGGCCAACCGTCCCTGGCTGCAGATCGGCCGCGGCGTGCTTCTCGCCGTACAGATCGTCATTTCGATCTTTTCTTTCGCCGTCGTCGGGCTGGCGCACAGCCATTCCATCCTTGCCTCCGCACCGCTGATCGTTGCGGCGCTGTCCATGCCTTTGCTGGGAGAACATGTGGGCTGGCGGCGCTGGAGCGCCATTTTTGTCGGCTTCATCGGCGTTCTCGTCATCCTCAAGCCGGAGGGAGACGGTTTCGACAACCGGCTGATGATCACCTTCGTGGCGACCTTCATGCTGGCTCTCTATAGCGTCCTGACCCGCCTCGGCAGCAAAAGCGATTCGTCGATGACAAGCTTCTTCTACACCGGCGTGGCCGGTGCAGCGGCCCTGACGCTGGTCGGTCCGTTTTATTGGGTCAGCATCGAGCCGCAGGATTGGGGCTGGATGCTGGCGCTGTGCATTACCGGCATGAGCGGCCATTATTGCCTGATAAAGGCGTTCGAACTGGCGGATGCGGCCTCAGTGCAGCCCTTTTCCTATTATCAGCTGGTGCTCGTCTCCATCATCGGCGTCACCGTCTATGGCGAGGTAGTGACGTCCAACATGGTCATCGGTGCGGCGATCGTCATTGCCGCCGGCCTCTTCACTATCTGGCGTGAGCATGTGGTTTCCCGCAAGAACCGCCGGGAGACGAAATAG	MPSPRTGFLYALVAFTIFAAQDGISKHLGSAYPPVFIAMLRYWAFAVFVLLMAARSAGGIRGAVMANRPWLQIGRGVLLAVQIVISIFSFAVVGLAHSHSILASAPLIVAALSMPLLGEHVGWRRWSAIFVGFIGVLVILKPEGDGFDNRLMITFVATFMLALYSVLTRLGSKSDSSMTSFFYTGVAGAAALTLVGPFYWVSIEPQDWGWMLALCITGMSGHYCLIKAFELADAASVQPFSYYQLVLVSIIGVTVYGEVVTSNMVIGAAIVIAAGLFTIWREHVVSRKNRRETK				NA	NA	NA	NA	NA
BMS010_02537	1056	ocd		Ornithine cyclodeaminase	ATGAACGTGATACCGAACCTCAATATCGTGCCCTTCGTCAGCGTCGATCACATGATGAAACTCGTGCTGCGCGTGGGCATCGATACGTTCCTGCGCGAGCTTGCCGATGCGGTGGAAGAGGATTTCCGCCGCTGGGAAAGCTTCGACAAGACGCCGCGCATCGCCTCGCATTCGAAGGAAGGCGTCATTGAGCTGATGCCGACCAGCGATGGCACGCTTTACGGCTTCAAATATGTCAACGGCCATCCGAAGAACATGAAGGAAGGCCGCCAGACAGTAACGGCTTTCGGCGTGCTTTCCGATGTCGGTAACGGTTATCCGCTGCTTCTGACCGAGATGACCATCCTGACGGCGCTGCGCACCGCCGCAACATCGGCCGTCGCGGCAAAATATCTCGCCCGCAAAAATTCCTGCTCCATGGCCATCATCGGCAATGGCGCGCAGAGCGAATTCCAGGCGCGCGCCTTCAAGGCGATTCTCGGCATAGACACGCTGCGACTATTCGATATCGACCCGTCCGCCAGCGAAAAATGCGCCCGCAATCTCGCGGGGCAGGGTTTTGCCATCAAGATCTGTGAAAGCGCACAGGAAGCGGTCGAAGGGGCGGATATCATCACCACCGTCACCGCCGACAAGCAATATGCGACGATCCTGACCGACAACATGGTTGGGCCCGGCATTCACATCAACGCGGTTGGCGGCGATTGCCCCGGCAAGACGGAGTTGCACCGGGATATTCTGCTTCGATCCGATATTTTCGTCGAATATCCGCCGCAGACGCGCATTGAAGGTGAAATCCAGCAATTGCCGGCGGATTATCCCGTCACCGAGCTTTGGCAGGTCATAACCGGTGAAAAGCAGGGGCGGGCAAGCGACCGGCAGATCACGCTGTTCGACAGCGTCGGCTTCGCGACGGAAGATTTTTCGGCTCTGCGTTACGTGCGCTCGAAGCTGCCATCCACCGGGCTTTATACGGAGCTCGATCTGCTGGCCGACCCGGATGAGCCGCGTGACCTGTTCGGTATGCTGCTGCGGTGTGAGGCGGCTCTCGTCTAG	MNVIPNLNIVPFVSVDHMMKLVLRVGIDTFLRELADAVEEDFRRWESFDKTPRIASHSKEGVIELMPTSDGTLYGFKYVNGHPKNMKEGRQTVTAFGVLSDVGNGYPLLLTEMTILTALRTAATSAVAAKYLARKNSCSMAIIGNGAQSEFQARAFKAILGIDTLRLFDIDPSASEKCARNLAGQGFAIKICESAQEAVEGADIITTVTADKQYATILTDNMVGPGIHINAVGGDCPGKTELHRDILLRSDIFVEYPPQTRIEGEIQQLPADYPVTELWQVITGEKQGRASDRQITLFDSVGFATEDFSALRYVRSKLPSTGLYTELDLLADPDEPRDLFGMLLRCEAALV	PGPT0014250_280	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014250-ocd-K01750	NA	NA
BMS010_02538	921	arcA_1		Arginase	ATGGAAATCAGGTTGATCGGTGCGCCGCTGCAGATCGGGGCCGGGCAACTGGGATGCGAGATGGGGCCGAGCGCCTATCGCGTCGCGGGGCTTGCTCGTGCCCTTGAAGAACTGGGGCATCGCGTTGTCGATACCGGCAATGTGACGCCGGCGACCTTCCGCGAATTTAATCATCCCAATCCCGCCGTGCATCATCTGTCTGAAACCGTGGCCTGGACCGAGGCGCTGACGGAGGCTGCCTATCGTGAAAGCGCGGATGCCGTGCCGATCTTTCTCGGAGGCGACCATGCGATTTCCGCGGGGACAGTCGCCGGCATGGCGCGCCGGGTGGCAGAGACCGGCCGGCCGTTTTTCGTGCTCTGGCTCGATGCCCATACCGATTATCATACGCTTGAGACGACGCGCAGCGGCAATCTGCACGGCACGCCGGTCGCCTATTTCAGTGGGCGAGAGGGATTTGCCGGGTATTTCCCGCCGCTTTCCCATGCGGTTCCGGAAGACAATATCGGCATGATCGGCATCCGCAGCGTGGATCCGGCCGAAAGGGCCGCACTGGAAAAGAGCGGCATCACCGTGCACGACATGCGCTCGATAGACGAGCATGGCGTCGCCGTTCTGCTGCGGGCGTTTCTGGCGCGGGTTCAGGCGGCAAACGGGCTTTTGCATGTCAGTCTCGATGTCGATTTTCTCGAGCCGTCCATCGCGCCGGCCGTCGGCACCACGGTTCCGGGCGGTGCGACGTTCCGCGAGGCGCATCTGGTCATGGAAATGCTGCATGATAGCGGGCTGGTCTGCAGTCTCGATCTGGTGGAGCTTAACCCGTTTCTCGACGAGCGCGGCAGAACCGCGACGCTGATGGTGGATCTCGCCACCAGCCTGATGGGCAAGCGGGTCATGGACCGCCCGACACGGGCCGGCTGA	MEIRLIGAPLQIGAGQLGCEMGPSAYRVAGLARALEELGHRVVDTGNVTPATFREFNHPNPAVHHLSETVAWTEALTEAAYRESADAVPIFLGGDHAISAGTVAGMARRVAETGRPFFVLWLDAHTDYHTLETTRSGNLHGTPVAYFSGREGFAGYFPPLSHAVPEDNIGMIGIRSVDPAERAALEKSGITVHDMRSIDEHGVAVLLRAFLARVQAANGLLHVSLDVDFLEPSIAPAVGTTVPGGATFREAHLVMEMLHDSGLVCSLDLVELNPFLDERGRTATLMVDLATSLMGKRVMDRPTRAG	PGPT0020100_1329	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020100-rocF-K01476	NA	NA
BMS010_02539	438	decR_4	COG1522	DNA-binding transcriptional activator DecR	ATGGATAATCTCGACGAACGGCTCATCACCCTTTTGCGACACAATGGCAGGCGCAGCATTTCCGATCTCGCAATCGAGACGGAAACCTCTCGCGCCACGGTGCGCTCACGCATCGAAAGAATGGAGAACGACGGCACCATCATCGGTTACACCGTCATTTTGCGCGCCGATGCGGTGGAGGCCGCGATCCGCGGCATCATGATGATCGAGATTGAAGGCCATGTGACGGACCGCGTCATCCGCACCCTTGGCGGTTTTCCGGAAATCTCCGAAATCCACAGCACCAACGGCCGCTGGGACCTGATTGTGGAACTCAACGCCGCCACGCTCAGCGATTTCGACGCGGTACTGCGCCGCATCCGCCTGGTGCCCGGCATCACCGGCAGCGAGACCAGCCTTTTGCTCTCCACCCCACGCTCCACCCGGGCACGGCTCTGA	MDNLDERLITLLRHNGRRSISDLAIETETSRATVRSRIERMENDGTIIGYTVILRADAVEAAIRGIMMIEIEGHVTDRVIRTLGGFPEISEIHSTNGRWDLIVELNAATLSDFDAVLRRIRLVPGITGSETSLLLSTPRSTRARL				NA	NA	NA	NA	NA
BMS010_02541	987	fabH_2		3-oxoacyl-[acyl-carrier-protein] synthase 3	ATGCAGACCCGTTCTTCCCGCATGGCCGGTTTTGGTCATGCCGTTCCGTCACGATGCGTCGACAATGCCGAGATAGAGACCAGTCTCGGGCTGGAAGCCGGCTGGATCGAGCGGCGCACCGGCATCCGCACGCGTTATTGGGCGCAAGAGGGCGACACTCTGAGCGGCCTTGCCGCGAGCGCCGGCCGCATGGCGCTGGAAGACGCCGAAATCGGCTCCGACGACATTGCTCTGACGCTGCTTGCGACCTCCACGCCGGATCACCTCTTGCCGCCCTCGGCGCCGCTGCTCGCCCACAGGCTGGGCCTCGCCCGATCCGGCGCGATCGATCTCGCCGGGGCCTGTTCCGGCTTTCTTTATGCGCTTACTCTTGCGGATGGCTTTGTCCGCGCCCACGGCCGCGCCGTCCTTATCGTTGCTGCCAATATATTGAGCCGCCGTATCAATCCGGCGGAAAGGGCAAGCGCGGTCCTGTTCGCCGATGCCGCCGGCGCCGTCGTCCTCAAGCCCTGCCGCGAGGCGCAGCGTGGGCTTTTGTCAGCCGATCTCGTTGCGGATGGCGACGGTTACGATCTGATCCAGATAGCGGCGGGAGGCAGCAGCCAGCCCTTCTCTGCCGATACATCCACTGAGGAGGTGCTGATGACGATGCGTGACGGCCGCGAAGTCTTCTCCCGTGCCGTGGCGCTGATGACCGCGACCTCGCAACGGGTGCTGCATCAAGCCGGAATGACAGCAACCGATATCGACCGTTTCGTACCCCATCAGGCCAATGCCCGCATGTTCGACGCCGTCTGCGGCAATCTCGGCATTGGCAGGCAAAAGACGGTTCGCACCATAGAAAGCTTCGGCAATTCCTCCGCCGCAACCATTCCGCTTTCGCTCTCCGTCACCAATGCCGAAAGGCCTCTCGCGGAAGACGAAACCCTGCTTCTGACGGCTGCCGGTGCCGGTATGACGGGTGGAGCGGTGGTTTATCGCGGGTGA	MQTRSSRMAGFGHAVPSRCVDNAEIETSLGLEAGWIERRTGIRTRYWAQEGDTLSGLAASAGRMALEDAEIGSDDIALTLLATSTPDHLLPPSAPLLAHRLGLARSGAIDLAGACSGFLYALTLADGFVRAHGRAVLIVAANILSRRINPAERASAVLFADAAGAVVLKPCREAQRGLLSADLVADGDGYDLIQIAAGGSSQPFSADTSTEEVLMTMRDGREVFSRAVALMTATSQRVLHQAGMTATDIDRFVPHQANARMFDAVCGNLGIGRQKTVRTIESFGNSSAATIPLSLSVTNAERPLAEDETLLLTAAGAGMTGGAVVYRG	PGPT0008355_4109	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008355-fabH-K00648	NA	NA
BMS010_02542	1296	bioA_1		Adenosylmethionine-8-amino-7-oxononanoate aminotransferase	ATGAGCCGTTCCCCTGTCTGGCATCCCTTCACCCAGCATGGGCTGGAACCGCCGATGAAACGCGTCGTATCAGCGGAAGGCGCATTTCTCGTCGATGAAGACGGCAATCACCTGTTTGACGCCATTTCCTCCTGGTGGGTCATCACCCACGGGCACCGGCATCCGGCGATCATGGCGGCCATCCGCGCCGCGACAGAGGCCTTCGACCAGGTCATTTTCGCCGAGTTCTCCCATGAACCCGCCGAAACGCTGGCGCGCGGGCTGATCGAGCTTGCGCCCGCCGGGCTAAGCCATGTGTTTTATTCCGATAGCGGCTCGACGGCGGTTGAGGTGGCGCTGAAAATGGCGCTGGGATATTTCCACAATCGCGGAGAAAAGCGCGACCGTATCGTGGTGATGGAGCATGGCTATCACGGCGATACCATCGGCACCATGTCGACCGGTGAGCGCGGTGTCTTCAATGCCGCTTACGAACCGCTGCTCTTCGGCGTCGACCGGCTGGCTTTTCCGGAAGCGGGCGGTGAACAGTACACGCTGGACATGTTCGAAGACTTCTGCCGTTCAGGCCGCATCGCCGCCCTGTTGGTCGAGCCGCTGGTGCTCGGGGCGGGCGGCATGAGGATTTACGGCGCGGATGTTCTGGCCGGGCTGAAACAGATCGCCGAACGCCATGGCTGCCTCGTCATTGTAGACGAGGTGATGACGGGCTGGGGCAGAACCGGAACCATGTTCGCCTGCGAACAGGCCGGCATTTCACCGGATATTCTCTGCACCTCCAAGGGCCTGACCGGCGGCTCCCTGCCGCTGGCGGCAACGCTGTGCAGTGCGGAGATTTTCGACGCGCATTTTTCGACGGATCGCCGCAAGACCTTTTTCCATTCCAGTTCCTATACGGCCAATCCGATTGCCTGCGCCGCGGCCGTCGCCAATCTTCAGGTCTGGCGGGATGAGCCCGTGCTTCAACGCATCGGGCAATTGCAACGGGTGCTGCGCGACAATCTCCGGCGATTTGCGGATGACCGGCGTTTCACCGGCATCCGGCAGATGGGGACCATCGCGGCCCTCGATCTCGTGGTGCCCACCGGCGGGTATCTCGCCGAGGCGGGGCCGCGCATGCGGCAACTGTTCCGCGAGCGCGGGTTCGTCATCCGCCCGCTCGGTAATGTGCTTTACCTGATGCCGCCCTATTGTTCGACGGCGGAAGATCTGGCCAGCGCCTTTGACGCCATTGATGAGGTGGCCGGGATCGTCACCGAAACCGCTTCGCTAAAATCGCGCGCGCTCGGCATCGCGTGA	MSRSPVWHPFTQHGLEPPMKRVVSAEGAFLVDEDGNHLFDAISSWWVITHGHRHPAIMAAIRAATEAFDQVIFAEFSHEPAETLARGLIELAPAGLSHVFYSDSGSTAVEVALKMALGYFHNRGEKRDRIVVMEHGYHGDTIGTMSTGERGVFNAAYEPLLFGVDRLAFPEAGGEQYTLDMFEDFCRSGRIAALLVEPLVLGAGGMRIYGADVLAGLKQIAERHGCLVIVDEVMTGWGRTGTMFACEQAGISPDILCTSKGLTGGSLPLAATLCSAEIFDAHFSTDRRKTFFHSSSYTANPIACAAAVANLQVWRDEPVLQRIGQLQRVLRDNLRRFADDRRFTGIRQMGTIAALDLVVPTGGYLAEAGPRMRQLFRERGFVIRPLGNVLYLMPPYCSTAEDLASAFDAIDEVAGIVTETASLKSRALGIA	PGPT0022100_1843	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022100-bioA-K00833	NA	NA
BMS010_02543	639	bioD1_1	COG0132	ATP-dependent dethiobiotin synthetase BioD 1	ATGAGCCATCGTTTCGTTATCTCCGGCACCGATACGGGCATCGGCAAGACGGTTTTTTCCGCAGCGCTGACCCATGCCCTGCAGGCTTGTTACTGGAAACCCGTGCAATCCGGGCTGGAGGAAGAAACAGACAGTGAGACGGTGGAGCGGCTGGGTGGCGTGCCGCGCGCGCGTATTCTACCGGAGGCCTATCGCCTGAAAATGCCGGCTTCGCCGCATCTGTCGGCCCGCCTCGAAAATGTAACGATCGACCCCACGCTGCTGCTGCCGCCGCAAACGGATGGACCGCTGGTGATCGAGGGGGCGGGCGGGCTTCTGGTGCCGCTGACGGACACGGTGCTCTTCGCCGATATCTTCGCCCGCTGGCAAATTCCGCTTGTGCTGTGCGCAAGAACGTCGCTTGGCACCATCAACCACACGCTGCTCTCGCTCGAGGCGTTGCGGCACCGCGCCATTCCCGTGCAGGGCGTGGTCTTCATTGGCGATGAGAACCGGGAAAATGAGCGCGTCATCGCCAATATCGGCGCCGTTCGCCGGCTCGGCCGTCTGCCGCTTCTGCCGGAGATGACATCAGAGGCGCTGCATCGGGCATTTGCCCGACACTTCAATCTTGCTGATTTTCTGGAGGCGTCGGCATGA	MSHRFVISGTDTGIGKTVFSAALTHALQACYWKPVQSGLEEETDSETVERLGGVPRARILPEAYRLKMPASPHLSARLENVTIDPTLLLPPQTDGPLVIEGAGGLLVPLTDTVLFADIFARWQIPLVLCARTSLGTINHTLLSLEALRHRAIPVQGVVFIGDENRENERVIANIGAVRRLGRLPLLPEMTSEALHRAFARHFNLADFLEASA	PGPT0022115_3033	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022115-bioD-K01935	NA	NA
BMS010_02544	1152	bioF_1		8-amino-7-oxononanoate synthase	GTGCCGGTGAACCTCGCGGCCCTCTCTCCCTATGAGGCGAAGCTTGCAGGCCTGGAGCGCAAATCGCGGCTGCGCGCGCTCGCTCCTCAACAGGGGATCGATTTCACCTCCAATGACTATCTTGGCCTTGCCGATTCGCCCCGGCTGAAGGCGGCATTTCCCGACGCCATCGGAAGGGGCGTGCCGGTGGGGGCCGGCGGCTCGCGGCTGCTGCGTGGCAACCACCGCGAACATGAGGCGCTGGAAGCGGAAGCAGCGGCATTTTTCCGAGCGGAAAAAGCGATCTATTTCGGCAACGGTTTTGCCGCCAATGTCGCACTATTCTCCACATTGCCGCTGCGGGAAGACCTCGTTCTTCACGACGCCCTGATCCATGCCAGCGTCCATGACGGTATTGCGGCCGGCAAGGCGAAGGCGATTGCCGTGCCGCATAATCAGGTCGAGGCATTCGAACGGGAAATTATCCGCTGGCGGCAGGAGGGCGGCCGGGGCCGTCCGTGGATCGCCGTCGAAAGCCTTTATTCCATGGATGGCGACCGTGCGCCCCTTTCGGCCCTGGCTGATCTTGCCGCGCAACACGGAGGCTTCCTTGTCGTCGATGAGGCCCATGCCACCGGCGTGTTCGGGCCTGGCGGGCGCGGCCTTGCCGTGGAGCTGGAAGGCCGGGGCAATGTGGTGGCATTGCACACCTGCGGCAAGGCGCTCGGTCTTTCCGGCGCTCTTTTGAGCCTGCCGGCGGTGCTTGCCGATTACCTCGTTAACCGCGCCCGCGGTTTCATCTATTCGACCGCGCCTTCGCCGCTGATGGCGGCGGCGGTGCGGGAAGCCCTGCGCATCGTCGCCGATGAACCATGGCGACGCCTGCGGCTGGCGGAGCTGGTAAATTTTGCCGGCGAAGAGCTTCGCTCCCGGCTCGGCGTAGCGCCCAGCGGGTCGCAGATATTACCGGTGATGATCGGTGACAACGCCCGTTCGCTTCGTGTCGCCGCGCATCTGCGGGAGGGCGGTTTCGATGTACGCGCGATCCGCCCGCCGACGGTGCCGGATGGCACTGCGCGCCTGCGCATCGCCATCACGCTCAATGTGGATGAGAGCCAGATCGCCGATATGATCGGGCTGCTTGCCCTTTCCTTGGCGGAGGAGCGAAGATGA	MPVNLAALSPYEAKLAGLERKSRLRALAPQQGIDFTSNDYLGLADSPRLKAAFPDAIGRGVPVGAGGSRLLRGNHREHEALEAEAAAFFRAEKAIYFGNGFAANVALFSTLPLREDLVLHDALIHASVHDGIAAGKAKAIAVPHNQVEAFEREIIRWRQEGGRGRPWIAVESLYSMDGDRAPLSALADLAAQHGGFLVVDEAHATGVFGPGGRGLAVELEGRGNVVALHTCGKALGLSGALLSLPAVLADYLVNRARGFIYSTAPSPLMAAAVREALRIVADEPWRRLRLAELVNFAGEELRSRLGVAPSGSQILPVMIGDNARSLRVAAHLREGGFDVRAIRPPTVPDGTARLRIAITLNVDESQIADMIGLLALSLAEERR	PGPT0022095_3224	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022095-bioF-K00652	NA	NA
BMS010_02545	1035	bioB_1	COG0502	Biotin synthase	ATGGACCAGATCGTCACGCAAATCGACAGAAATCCAGCTCCGGCTGGGGGTTTCGGCAATGACTTGTCGCTTGAAGAAGCCAAAATTATCTATAATTTACCTTTTAACGATCTTCTGTTCCGCGCTCAACAGGTGCATCGCTGTCATTTCGATCCCAATGCCATCCAGATGAGCCGGCTCTTATCCATCAAGACAGGCGGCTGCCCGGAGGATTGCAGCTATTGCAGCCAGTCCGCCCGCAACCCCACCGGCCTTAAGGCCTCCAAACTCATGGAAGTGGAGCGGGTGCTGGTCGAGGCGCGCAAGGCGAAGGAAGGCGGCGCGACGCGTTATTGCATGGGTGCTGCCTGGCGCAATCCCAAGGAGCGCGACATGGAAGCCGTGGTGGCCATGGTCGAGGGCGTGAAGGCGCTCGGCATGGAAACCTGCATGACGCTCGGCATGCTGACGCCGGAGCAATCCGAGCGGCTGGCCGATGCCGGTCTCGACTACTACAACCACAACGTCGACACTTCCGAGCGGTTCTATTCGCAGATCATCACCACCCGCACCTTCGAGGACCGGCTGGAAACGCTTGCCAATGTCCGTGATGCCGGCATCAAGGTCTGCGCGGGCGGCATTCTCGGCATGGGGGAAACGGTGGAAGACCGGATCTCGATGCTGGTGACGCTTGCCAACCTGCCGGTGCCGCCGGAAAGCGTGCCGATCAACATGCTGATCCCGATCCCCGGCTCGAAGCTGGCCAAGGCCGATCCCGTCGATCCTATCGATTTCGTCCGCACCATCGCGCTGGCGCGCATCCTCATGCCGCGTTCGCATGTGCGGCTTTCGGCCGGGCGCACGGAGATGAGCGATGAGACGCAGGCGCTCTGTTTCCTGGCCGGCGCCAATTCCATCTTCATCGGCGAGACGTTGCTGACGGCGGATAATCCGGGTGAGGACCACGACACGGCGCTTTTCCGCCGTCTTGGCCTGAAGCCGATGGAACTGCAGTCCACGGAATTGCAGTCTGGGGAGGCGGGAGGGTGCCGGTGA	MDQIVTQIDRNPAPAGGFGNDLSLEEAKIIYNLPFNDLLFRAQQVHRCHFDPNAIQMSRLLSIKTGGCPEDCSYCSQSARNPTGLKASKLMEVERVLVEARKAKEGGATRYCMGAAWRNPKERDMEAVVAMVEGVKALGMETCMTLGMLTPEQSERLADAGLDYYNHNVDTSERFYSQIITTRTFEDRLETLANVRDAGIKVCAGGILGMGETVEDRISMLVTLANLPVPPESVPINMLIPIPGSKLAKADPVDPIDFVRTIALARILMPRSHVRLSAGRTEMSDETQALCFLAGANSIFIGETLLTADNPGEDHDTALFRRLGLKPMELQSTELQSGEAGGCR	PGPT0022120_2315	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022120-bioB-K01012	NA	NA
BMS010_02546	447	yjaB	COG0454	Peptidyl-lysine N-acetyltransferase YjaB	ATGATCACACTTCGTCCCTCCGAGAGCCACGACGCTTCCCGCATCCTCGACATATGGAGCAAAGCAGTCGACGCCACCCACGGGTTCCTTCTGCCGGCGGATCGCGTCGCGATCGGGGAGGAAGTCGAAGCTTTTCTGCCGCAGGCGCCGCTCACGCTGGCGGTCGATGTTTCTGACCGCCCCCTCGGTTTCATGTTTCTGCATGAAGGGCACATGGAGGCGCTTTTCATCGATCCGGACCATCACGGCCAGGGCATCGGCAAGGTTCTGGTTCAGCGGGCGCTTGCGCTCCACCCCGCACTAACCACGGACGTCAATGAACAGAACGCCGCGGCCATGGGGTTTTACCGCCGGCTGGGATTCGAACCGACGGGACGCTCCGATCTCGACGGACAGGGGCGACACTATCCGCTCGTTCATCTTCGATTTCGCGCAACGGAAAAATAG	MITLRPSESHDASRILDIWSKAVDATHGFLLPADRVAIGEEVEAFLPQAPLTLAVDVSDRPLGFMFLHEGHMEALFIDPDHHGQGIGKVLVQRALALHPALTTDVNEQNAAAMGFYRRLGFEPTGRSDLDGQGRHYPLVHLRFRATEK				NA	NA	NA	NA	NA
BMS010_02547	900			hypothetical protein	GTGCGCGGCAAAAGCCTGTTTGGCGTGACAATCGAGCTTGCGCGGGACCTTCGCCACAGCTTCCAGGGTTCGTTTCAGGCGCGCGCCGTCGCCGGCGCCGTGGTGACCGAGATGCGCGCCTCCTCTTACCGGGTGAACCGCACCGAAGCCGATATTGCCCGCATTGCCGGCGACAGCCTCTGCATCGGCCTGCAGGTCAGGGGCTCCGGCTTTCTGCATGCCGGTAAAAATCAGGTTCACGCGGTTGGCGGTGGCGATATCACCATCAACTATTCCGACTTGCCCTATGATGCGATACCGGGAAACGAGGCGGATTTTCACTACAGGATGCTGAAGATCCCCGTGGATTACCAGGTCATGCTCGGTCAGGCCACCGATGACCTGTTTGCGACGCGTTATGCGGAAAACAACAGTTTCTCCCTGCCCTTCCGGGCCCTCTTCAATGCGCTGAACGCCGACCACGGCAGGCTCATCGATCCCGCCCGCGATGTCACCCATATCGCCCGGCTTGCCATGACGGCGCGCGGGCGGCTTTCACCCGCCATGCCGGAGGTGCGCGCCGCGCTCAGGACCGGGCTCTGTTATGCGGCACAGGACATCATGATACGGAAAAAATCCCGGCAGAACCTCACCCCTGCCGCCGTCGCAAGGGAACTGGGCATTTCGCTTCGGCAATTGCATGTGGTTTTCGAGGGTGCCGAACTGTCGTTTTCCCGCACGCTCTCCTCCATGCGGATAGAGGAGGCGAGACGGTTGCTGCTGGCATTCCCCGCCTTGCCGGTCACGCAGATCGCCTATGGCTGCGGCTTCGACAGCCTCGCTACTTTCTACAGGGTATTTGCCGGCACCTATGGCATGACGCCCGGCGACGCCCGCGCTGCGGATATGCCGCCGGCTTAA	MRGKSLFGVTIELARDLRHSFQGSFQARAVAGAVVTEMRASSYRVNRTEADIARIAGDSLCIGLQVRGSGFLHAGKNQVHAVGGGDITINYSDLPYDAIPGNEADFHYRMLKIPVDYQVMLGQATDDLFATRYAENNSFSLPFRALFNALNADHGRLIDPARDVTHIARLAMTARGRLSPAMPEVRAALRTGLCYAAQDIMIRKKSRQNLTPAAVARELGISLRQLHVVFEGAELSFSRTLSSMRIEEARRLLLAFPALPVTQIAYGCGFDSLATFYRVFAGTYGMTPGDARAADMPPA				NA	NA	NA	NA	NA
BMS010_02548	957			hypothetical protein	ATGACCAATTTTTTCGACTTTGCGATCTCCCGGTTGCCGACCGCGACAGCCGATTGCCGCAGGCCAGCGCCGGGCGAAATAGAGGCGATGCTGCAAAAAGAACCCTTCGCGGCGGCGCTGCGTCTGCTGGCGGGAAGTTTCATCGCCCTTTACGAAGGCTCGCCCGAGATGACCGCGCTTTTTGCCACGCGCCAGAGTCGGCTTCTATGTCACGCGCTTCTGGCGCTCTATTTTCAGAAATGCAGCGCCCGTGAAACAGGAGAGGGAGAAGCCGCGCTGACGCGGGAAGATTTCGGCCATCTGGCGCTTCGGCATGGGCTCGCCAGCCATAGTGTCGCTTATGCCTTCTTCAAGGAGGCGCTGAAACGCGGAATGACACGCCCGGCAGACCGGTCCAGCGACGGACCAGACGATGGGCCTGGCAATGGGCCCGGCAAAGGGATAGTGCCTTCAGCCCCGGCGCTGGCGATGCTTGCGCAATGGTACGACGTGCATTTTCAGGCGCTGGATCTGCTGGATGAGGGCTTCAGGGCATCACGTTTCATCAAGCGGTCGGAGGCCCTGCTTCCCCATATCCACCCCCGCGTATCGCAGGCGTTTCTGTCGCATCCGGAGGTGCGCTGCCCCGGCCCGCTCTCCATCATCTTCAACTGGTTCGATGCCGGCGGACTGCTGATGGACCGCCTTATCGCCGGCATCGACTGGGAAAGGCCGACCGAACAGGGCAGGCGCCTGACCGATGTGGAAACCGTGACGCAACTGGCGACATCCCTCTCCCTGTCGCGTATCCACATCGGCCGTAAGCTAGCGGCGGCCGAACTGATCGGCGGCATCGGCTGGAGCGGACGACGCGGCCGTTCCGCGCTCTGGATTTCGCAGGGTTTTTACGAGGAATATGCCCGCATGCAGGCCCGCAAGCTCCTTATTCTCGATGAAGCCTTCATCGACTCCGTGTGA	MTNFFDFAISRLPTATADCRRPAPGEIEAMLQKEPFAAALRLLAGSFIALYEGSPEMTALFATRQSRLLCHALLALYFQKCSARETGEGEAALTREDFGHLALRHGLASHSVAYAFFKEALKRGMTRPADRSSDGPDDGPGNGPGKGIVPSAPALAMLAQWYDVHFQALDLLDEGFRASRFIKRSEALLPHIHPRVSQAFLSHPEVRCPGPLSIIFNWFDAGGLLMDRLIAGIDWERPTEQGRRLTDVETVTQLATSLSLSRIHIGRKLAAAELIGGIGWSGRRGRSALWISQGFYEEYARMQARKLLILDEAFIDSV				NA	NA	NA	NA	NA
BMS010_02549	411			hypothetical protein	ATGCGTGAGATGTTGCGAGCATCGAAATTGCTGGCCCTGTTGTTTAGACTGGTGATGATACTGTCACTGGCTGGCTATAGTGTTTCCACCGTCAATGCCGCAATGCATCCTGCCGAAGCCGGTGGAATGCAGCACGACCAGTCCGCCATGATGGATCACGGCGCGACGATGGACCATGGCGCCTCGGCCATGATGTCCGACAGTCACGATCATAACGATATGGCCGAACAGGACGGCGGCGTCAAAAAGCCCGTCAAGCCGCAATGCTGCGGCGATTTCTGTCTCGGCATGGCGGTTCTGATCAGCCACGACACCATTGGCAGACCCGTCGTCAACAGCATCCGTTCCTTCCTCGACGACGGCAAGGCGCTGGGCCAGACCCCGCTGCTTCACCGCCCCCCGAATATCTGA	MREMLRASKLLALLFRLVMILSLAGYSVSTVNAAMHPAEAGGMQHDQSAMMDHGATMDHGASAMMSDSHDHNDMAEQDGGVKKPVKPQCCGDFCLGMAVLISHDTIGRPVVNSIRSFLDDGKALGQTPLLHRPPNI				NA	NA	NA	NA	NA
BMS010_02550	231			hypothetical protein	ATGAACCCAATTTACATTGTGGTTGCGGCGCCCCTGCTTCTGGGCGGCTGCACAGCCACATCCATGATGAACGACGCCGCCTCCTATGACGACGCGGCAAACCCGTCGCTCGGCGCGGCCCCCATCCGCTATCAGACCCCGGTCGCAGGTTACACACACCGCGCGCCGGCGGACCCGAAGCCCTGGCGTAACCAGAACGATGCGCAGGCTCCGAAAGGAGACGCATCATGA	MNPIYIVVAAPLLLGGCTATSMMNDAASYDDAANPSLGAAPIRYQTPVAGYTHRAPADPKPWRNQNDAQAPKGDAS				NA	NA	NA	NA	NA
BMS010_02551	1479			hypothetical protein	ATGACGATACTTACCTTCAAACTCGCAGCGAAACTCGCGACCGCCCTTTGCCTGCCGTTTCTTCTCGGCGGCTGTGTCACGGCCGCCCAATATGCGTCGCGTGACGCCGGTTTCACCAATGTTTCGGCCAGGGCATCCGAGGCGACAGGCAAGCAGGCGGTCTGGGTGCAGAACCGGGCCGAGGCGCAGGCGACGCAGGCCCGCGTCAAATCGCTGATGGCCGCCGGCAAAAGTCTCGATGTCGAGACGGCGGTGCAGATTGCGCTCCTGAACAACAAGGGCCTTCAGGCAGCCTATGCCGATCTCGGCGAATCCGCCGCCACCGCATGGCAATCGACCATGCTGGTCAATCCGCGGGTCGGCATCGGGCTGACGGGGATCGGCACCCCGGGGCTCAGGGCCTATCAGGCGATCGAGGGTGTCGTCGTCACCAATATTCTGGCGCTGGCCACCCTCAAGAAAAATGTCGAGATCGCCGATACCGGCTTCCGCAAGGCGCAGCTTGGCGCCGCGCTGAAGACGCTGCAACTGGCGGCCGATACCCGCCGCGCCTGGATTACCGCGGTGGCGGCATGGGAAAATGTCGGCCAGCTGGCGCAGGCACAGACCGCGGCGGATGCCGCCTCCGAACTTGCCGTGAAACTCGGCGAGGCGGGTTCGCTCAACAAGGAGGGCCAGGCCCGCGAACAGGTATTTTACGCCGAGTTGACGGGCCAGATTGCCCGAACGCGGCTTGAGGCCCGTCTTGCCAAGGAGGAACTGACCCGGCTGATGGGACTGTGGGGAGCAGATATCGAATATACCATTCCCAACCGCCTGCCCCCGCTTCCGAAGGCGCTTACCAAACGGGACATGATCGAGGCCGAAGCGCTGCAGCGCCGCGTGGATCTGCAGATGGCAAAGCTCGATCTGGAGGCGACCGCCCGGTCGTTCAAGCTCACGGAGGCCACCCGATACGTGACCGATCTCGAAATCCGTTCCGGCTTCGAGACCGAGCGCGAGCTGGAAGACGGCGAAATTCACAAGCAGACCACCGGCAATGCCGAGCTGGAATTCGTCATTCCGATCTTCGATTCCGGTCAGGCGCGCATGCGGGAATCCGAACTCGCCTATATGCGCGCGGCGAACCTGCTGGCGGAAAAGGCGGTCAATGTCCGCTCGGAAGCCCGCTCCGCCTATCAGGCCTATCGCTCGAACTATGACATCGCCCGGCATTACCGCAACAGCGTGGTGCCGCTGCGCACCAAAATCGAGGAGCAGTCGCTGCTGACCTATAACGGCATGATCACCAACACCTTCGAGCTTCTGGCCGACAGCCGGGAAAAGGTCAATTCAAGCCTGCTCGCCATCAATGCGAAACGTGACTTCTGGCTCGCCGAGGCCAGCCTCGCTCCCTCCATTTACGGCGGCGGCACGGGTGCTGCGGCGGGCGCGGAGACCGAGGTTGCCGCCGCTGGCGGCGGCGGTGGCGGACACTGA	MTILTFKLAAKLATALCLPFLLGGCVTAAQYASRDAGFTNVSARASEATGKQAVWVQNRAEAQATQARVKSLMAAGKSLDVETAVQIALLNNKGLQAAYADLGESAATAWQSTMLVNPRVGIGLTGIGTPGLRAYQAIEGVVVTNILALATLKKNVEIADTGFRKAQLGAALKTLQLAADTRRAWITAVAAWENVGQLAQAQTAADAASELAVKLGEAGSLNKEGQAREQVFYAELTGQIARTRLEARLAKEELTRLMGLWGADIEYTIPNRLPPLPKALTKRDMIEAEALQRRVDLQMAKLDLEATARSFKLTEATRYVTDLEIRSGFETERELEDGEIHKQTTGNAELEFVIPIFDSGQARMRESELAYMRAANLLAEKAVNVRSEARSAYQAYRSNYDIARHYRNSVVPLRTKIEEQSLLTYNGMITNTFELLADSREKVNSSLLAINAKRDFWLAEASLAPSIYGGGTGAAAGAETEVAAAGGGGGGH				NA	NA	NA	NA	NA
BMS010_02552	1350			hypothetical protein	ATGTTTAACAGAAGAAACTTTCTGGGTGTCGGCGCCGCAATGGTCTCCTCGGCGGCCTGGGCGAAAACATCCAACACCGGCCTGCCGGAAGCGGCCGTGATGGAAACGGCCGCGACCCAGGCCCCGGTCAAGCCCACCACCGGCCCGGATTACAACCCCGTCGTCACCCTCAACGGCTGGACCCTGCCCTTCCGGATGAACAACGGCGTCAAGGAATTCCACCTTGTCGCCGAGCCGGTGGAACGTGAAATGGCGGAGGGCATGACAGCCCGCCTCTGGGGTTATAACGGCCAGTCGCCCGGCCCGACCATCGAGGCCGTCGAAGGCGACCGGGTGCGTATTTTCGTCACCAACAAGCTGCCGGAACATACGACGATCCACTGGCACGGCATGATCCTGCCGTCCGGCATGGATGGTGTGGGCGGGTTGTCGCAGCCGCATATCCCGGTTGGCAAAACCTTCGTCTACGAGTTCGATCTCGTGAAATCCGGCACCTTCATGTACCACCCGCATTCGGACGAGATGGTGCAGATGGCGATGGGCATGATGGGCTTCTTCGTGATCCATCCGAAGGACCCGGCCTTCATGCCGGTGGACCGCGATTTCGTGTTCCTCATCAATGCCTTCGACATCGATCCCGGTTCCTATGTGCCGAAGATCATGACCATGACCGACTTCAATCTGTGGTCATGGAACAGCCGGGTGTTTCCGGGCATCGATCCGCTGGTGGTTTCCAAGGACGACCGGGTGCGCGTGCGCGTCGGCAACCTCACCATGACCAACCATCCGATCCACATGCACGGTTACGATTTCGAGGTGACCTGCACGGACGGCGGCTGGGTGCGTCCCGAGGCGCGCTGGCCGGAGGTCAGCATCGATATCCCCGTGGGTGCGATGCGGGCCTATGAATTCGACGCCAAATATGTCGGCGACTGGGCGATCCATTGCCACAAGTCGCACCATACGATGAATGCGATGGGACATGATGTCCCGACCTTCATCGGCGTCGACAAGAAGAGCGTCGCAGAGAAAATCCGCAAGGTGCGGCCGGAATATATGCCGATGGGCACCGCCGGCATGGCCGATATGGGCGCGATGGAAATGGAAATCCCTGAGAATACCGTACCCATGATGACGGGTTGGGGTCCGCACGGCCCCATCGAGATGGGCGGCATGTTCTCCGTGGTGAAGGTCCGCGAAGACATCTCCGCAGGCGATTACTCAGATCCCGGCTGGTACGAAAACCCGCCCGGAACCCAGGCCTGGGAATGGACCGGCGAGTTGCCGGATACGACCAAGACCAATGACCCCAAAACGCAGATCACGCCGAAACCGATGAAACACGGCTGA	MFNRRNFLGVGAAMVSSAAWAKTSNTGLPEAAVMETAATQAPVKPTTGPDYNPVVTLNGWTLPFRMNNGVKEFHLVAEPVEREMAEGMTARLWGYNGQSPGPTIEAVEGDRVRIFVTNKLPEHTTIHWHGMILPSGMDGVGGLSQPHIPVGKTFVYEFDLVKSGTFMYHPHSDEMVQMAMGMMGFFVIHPKDPAFMPVDRDFVFLINAFDIDPGSYVPKIMTMTDFNLWSWNSRVFPGIDPLVVSKDDRVRVRVGNLTMTNHPIHMHGYDFEVTCTDGGWVRPEARWPEVSIDIPVGAMRAYEFDAKYVGDWAIHCHKSHHTMNAMGHDVPTFIGVDKKSVAEKIRKVRPEYMPMGTAGMADMGAMEMEIPENTVPMMTGWGPHGPIEMGGMFSVVKVREDISAGDYSDPGWYENPPGTQAWEWTGELPDTTKTNDPKTQITPKPMKHG				NA	NA	NA	NA	NA
BMS010_02553	477	petE		Plastocyanin	ATGACCAAACTGAAAATTGCACTGCTTCTTGCCGCTCTCGCCACGCCCGCCCTTGCGTCCGGCACTCACGGCGGCGGCCATGAAGCGATGGCGATCGGCGAACCGGGCGACAAGGCCAAGGTGACCCAGACCATTCAGGTGACGATGAAGGAAACGCCGGACGGCAAGATGCTCTTCACCCCCGCCAAGTTCGACTTCAAGAAGGGCAAGACAGTCCGCTTTGTCGTGAAGAACGTCGGCGAACTGGACCATGAATTCATTCTCGACGAACAGAAGGCCAATCTGGAGCACAAGGCCGCCATGGAGAAGGCTCCGGAGATGGAGCACGACAATCCGAACGCGATCAGCCTCGCGCCCGGCGAAAGCGGCGAAATCATCTGGAAATTCACCAATGACGGCATGTTCGAATTCGCCTGCCTGAAACCCGGACATTACGAGGCCGGCATGCGCGGCGATCTCAAAGTTTCTGCAAAGTAA	MTKLKIALLLAALATPALASGTHGGGHEAMAIGEPGDKAKVTQTIQVTMKETPDGKMLFTPAKFDFKKGKTVRFVVKNVGELDHEFILDEQKANLEHKAAMEKAPEMEHDNPNAISLAPGESGEIIWKFTNDGMFEFACLKPGHYEAGMRGDLKVSAK				NA	NA	NA	NA	NA
BMS010_02554	285			hypothetical protein	ATGAAGACCATCGTTAAAATCACCGTTGCAGCAGCACTCCTGCTCACCGCTCCCCTCAGTGCATTCGCAGAGGAATTCACCAAGGGAACGGTAAAGAAGGTCGATGCCGCGACCAAGAAGGTCACTATCATCCATGAAGAACTGAAGAACCTCGACATGCCGGCCATGACGATGGTGTTCCGCGTCAAGGACGATGCGATCCTCGCCAAACTCAAGGAAGGCGCCAATATCGAGTTCGTCGCCGAACGCGCCGACGGCAAGCTGGTCGTCGCCCAGGTGAAATAA	MKTIVKITVAAALLLTAPLSAFAEEFTKGTVKKVDAATKKVTIIHEELKNLDMPAMTMVFRVKDDAILAKLKEGANIEFVAERADGKLVVAQVK	PGPT0004075_223	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SILVER_RESISTANCE	SILVER_RESISTANCE-SILVER_TRANSPORT,PGPT0004075-cusF-K07810	NA	NA
BMS010_02555	837			hypothetical protein	ATGCACCAGCCTCTCGCCAGTAAAACCGACAGGAAAAAGCGGAATTGGACCCGGAGGTCGAAATTTCGCGCAGGCGCCGTCCATGTCGCCTGTCAGGCTTTTTCGCGTGCCGCCGGCAGTTCCTCCCTGCTGGCTCTTCTGGTCGCTCTTGCGATGATGATTGTCTTCACGATCAGGTCGGATATCGATCTTGAGGTGAGCCGGCAATTCTGGACGGACCGTTTCCACCTTGGCGAGGATGAGTTCCTGGTTTCCGTCCGAGATCTGAACCGCATGCTTCCGCCAGTTTTGTTGTCGGGGCTGGTGTGCATGCTTGTCCTCATGCCATTTTCGGGCGGCCTGCCTCGGGTTTTACCACCGCACAAGCTGCTGCTTATTGCCGTCTTTTTTGCTCTGGGCCCGGGTGCCACGGTTCATATACTGAAAAACGCGTTTGGCAGGGCAAGACCTCGCCATCTCGGCGAGTTCGGGGGAGACCTGTTGTTTACACCGGTTCTTTCCCTTGACGGTGGTTGTGTCCGAAATTGCTCTTTTCCTTCCGGTGAAAGCGCTTCCGCAGCCGCTCTTCTTGCCTTCACCATTCTCCTGCCAGAGAAATTTCGCCTGATCGGCATCGCGATACTGGCGCCATTCATCGTGATTGTCTCCCTGAACAGGGTGGCAATGGGCGCTCACTTCCTCTCCGATGTCCTGATTGCTTGGCCCTTGATGCTTGCGGTGTTCCTTCTGCTCCAGCGACCGTTCATGAACAACCGGCAGGCGATAGACGCCGCCTTTTCCCGCAGGGTCGAAGGGGCACGGCCCGCCGCGGAAACAAGGCCATTTGCGGAACTATAA	MHQPLASKTDRKKRNWTRRSKFRAGAVHVACQAFSRAAGSSSLLALLVALAMMIVFTIRSDIDLEVSRQFWTDRFHLGEDEFLVSVRDLNRMLPPVLLSGLVCMLVLMPFSGGLPRVLPPHKLLLIAVFFALGPGATVHILKNAFGRARPRHLGEFGGDLLFTPVLSLDGGCVRNCSFPSGESASAAALLAFTILLPEKFRLIGIAILAPFIVIVSLNRVAMGAHFLSDVLIAWPLMLAVFLLLQRPFMNNRQAIDAAFSRRVEGARPAAETRPFAEL	PGPT0022355_42	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022355-lpxF-K12978	NA	NA
BMS010_02556	765	regX3	COG0745	Sensory transduction protein regX3	ATGTTTCGCATCCGCTTAGCGTCCCGGCGTTACCACGGTTTACAAAAGCAGATTTGCGGATCGAGTATGGACAAAGGGCTTATTCTGATCGTCGAAGACGACCCCGATATTATTCAGATTCTGGACGCCTATCTTATTCGCGAAGGATACAGAACCGTCAGGGCGAGCGACGGAGAAATAGCGCTGACGCATTTCTCCATGTTGAGACCGGATCTGGTTCTCCTCGACATTCGCCTGCCGAAGTTCGATGGCATCGAGGTGTTGAATCGCATCCGGCGGGAACGGGATACGCCTGTCATCATGGTGACCTCCCTTGCGGAGGATATGGACAAGCTGACCGGCCTTCGCCTTGGCGCGGACGATTACATCGTCAAACCTTTCAATCCCCACGAATTGATCGCGCGGGTGAATGCCGTGCTGAAACGCACGCGACAGCCGGCCGCCGGTGGGGTCTTGCGCTTCGGGGCCATTGAAGTAGACACCGAAGCCTATGTCGCGGCCGTTTGCGGCGATGGGGGACGGACCGTTCTACCCCTGACGCTGAGCGAGTTCAGGATACTCGCCCATATGACGCGCCGCCCCACCCACGCCTTTCAGCGCGCCGATATTCTGGATGCCTGCCTGCCGGAAAGCGATGCGCTGGCGCGCACCATCGACACGCACATCGCCAATCTGCGCAAGAAACTGGCGGATCATGGCGCCTGCGGTTATCTGGTCTCGGTGCGCAGCGTCGGTTATCGGCTGGCCGGGGAGCAGAAACCATGA	MFRIRLASRRYHGLQKQICGSSMDKGLILIVEDDPDIIQILDAYLIREGYRTVRASDGEIALTHFSMLRPDLVLLDIRLPKFDGIEVLNRIRRERDTPVIMVTSLAEDMDKLTGLRLGADDYIVKPFNPHELIARVNAVLKRTRQPAAGGVLRFGAIEVDTEAYVAAVCGDGGRTVLPLTLSEFRILAHMTRRPTHAFQRADILDACLPESDALARTIDTHIANLRKKLADHGACGYLVSVRSVGYRLAGEQKP	PGPT0028840_233	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_AdeABC,PGPT0028840-adeR-K18144	NA	NA
BMS010_02557	1158	sasA_6		Adaptive-response sensory-kinase SasA	ATGAAACTCTGGCGACTGCGCCTGCGCACGATGACGGCGATCACGATCACCACGATGCTCATCTTTGCCGTCGCGTTGGTCTATTTCGGCGTTTCCTGGTATGCGGACAATATTGAAGAACGCATCATCGCCCAGCTGTCGCCCGATGCCTCCAGGGCCTTCTCGGATATCGACCGGGGCGTGATGCCGGATCAGCGCCAGCTTCAGGCCCTTATCGAGGTTTTGCCGGGCCTGGAGGATGAGGCGGATAACGAGCTTATCAAATCGGTATTCCTCTTCGGATTGCTCGCTGTCCTTCTGTGCAGCCTGCTCGGTTACTTCATCTCGCGGCGCATTGCAGCACCTCTCGGCGAACTTGCAGACGCGGCGCGGCGCATGGCGACCGGCGATTTCAGCGGAGGTGCAAAGATCAAGGCGAACCCCATCGCCGAAGTCGCATTTCTGGTCGACAGTTTCGAGAGTCTGACGCGGGAACTTCAGATGATGGAGCGCCGGCTGAAGTTCAACACGATGGCGGTGGCCCATGAATTGCGCACACCGCTGACGATCCTCCAGGGCCGTTTGCACGGCATCGCGGATGATGTCTTTCCCCTCGACAAGCAGGCCATTCGCCACCTCATCGTCCATGTGGAGGGGCTGGCGCGTCTTGTCGATGATTTGCGCACACTTTCCCTGGCAGAAACCAACAGCCTCGTCAAAGACACCGAGCCGCTTGATCTTGCCGCCGAATGCGCGGCCGTGGCTGAAGCGGCGCGGCCGCTGATGGATGAGGCCGGCATCGATATCGATATGTCGCTGGAGCCCGCACCCATTTGCGGCGACCGCCAACGCCTTCGGCAGCTATTGCTGATCCTGATGGACAATGTGCGCCGCTATGCGGCGAGCGGCAAATTTCTGCGCTGTTCGACCGGGCTTCAGGATGGGCGGCCCTTCGTCGCGATCGAGGATAAGGGGCCGGGCTTTCCCCCCGGCGTCGAGGCACACGGCATCGAACTCTTCTGGCGGATGGAACCGTCACGCGCGCGCAAAACCGGCGGCACGGGGCTTGGCCTGTCGATTGCCCGCGCAATCGCTCGGGCGCATGACAGCGATCTGCAGATAAAGACACGACCGGACGGCGGAGCCATCGTGACGGTTGTCTTTGGGAAAACCTCCTGA	MKLWRLRLRTMTAITITTMLIFAVALVYFGVSWYADNIEERIIAQLSPDASRAFSDIDRGVMPDQRQLQALIEVLPGLEDEADNELIKSVFLFGLLAVLLCSLLGYFISRRIAAPLGELADAARRMATGDFSGGAKIKANPIAEVAFLVDSFESLTRELQMMERRLKFNTMAVAHELRTPLTILQGRLHGIADDVFPLDKQAIRHLIVHVEGLARLVDDLRTLSLAETNSLVKDTEPLDLAAECAAVAEAARPLMDEAGIDIDMSLEPAPICGDRQRLRQLLLILMDNVRRYAASGKFLRCSTGLQDGRPFVAIEDKGPGFPPGVEAHGIELFWRMEPSRARKTGGTGLGLSIARAIARAHDSDLQIKTRPDGGAIVTVVFGKTS	PGPT0028835_52	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_AdeABC,PGPT0028835-adeS-K18143	NA	NA
BMS010_02558	954			hypothetical protein	ATGTCGCGCATTCAAGATGCTGCCGTTCTGGCAGAGAAACTCCCGGTCACGGATGATGTGGCCCAGACGGTTTCGGAAACACCCCGTTTTTTGTTGCTCTGGAGAATTATGACATTTGCCCGGCGCGCCTACTGGAAGCGGGCGGTCCTTTTCTGGCTGCGTTTTGCGGCCAATCCATTGGTCACCTTTCGGTGGTGGCGGTTTCTGGCGGATTTTTCAGCAGAGCGAAAATTGCCGCTCCCGCATGACGACCTTCTCCAGAAACCCCTGTCGAAACTGCTCATCAATAAAGTTTCCCGGAAGAGACGGCTGGTTTTTCTCATGGACAATTTCGCAATTGCGGACCGGCATTTTTCCAGGAGCGTCATGGCCGGGCTGTGGGCGGGAAAAACCATTGATATGGGCACGGTTCGCGGCCGGAATGATGAATATCGATGCATACTGGCGCTCGCGGATTGCTGCGGCGGCCGGCACGAGGGTGCTTTTTCCGTCAGACTCATTCGCAGCCATGACAACACCATTCTCTGGACAGCAACATTCACCTTCGTTGAAGGGCGCGAGACACAGAACCACACGATTGTCGTTGGCGGCATGCAGGGTCCGCGCGCCGCGAAAGAGCAAATGGTGTCGATGACGCGCGACCTCTCGGGGCTTCGTCCGAAGGAGGCTGCACTCATGGTTCTGCAAGGCCTCGCCGCCGAGGGTGCACATGACTATTTCGCTGTCGCCCATTCCAGGCACCCCATCCGTTACCGGCGCGCCCGGCGGCAAAAAATGATGGTTTCGGACATCGATGCTTTCTGGCGGGAACGCTCTGGCGAGCCGGATGAAATATTCGGTTTCAAAGTACCCTTCTCCAGCCTAGAGGGTGGAGATAAACGCAGCCATATGAAGCTCACTTTTTTCAACCTCGGCAAACGTCTCGCCGAGGCCAGAATAAACGAAAGCGCCTGA	MSRIQDAAVLAEKLPVTDDVAQTVSETPRFLLLWRIMTFARRAYWKRAVLFWLRFAANPLVTFRWWRFLADFSAERKLPLPHDDLLQKPLSKLLINKVSRKRRLVFLMDNFAIADRHFSRSVMAGLWAGKTIDMGTVRGRNDEYRCILALADCCGGRHEGAFSVRLIRSHDNTILWTATFTFVEGRETQNHTIVVGGMQGPRAAKEQMVSMTRDLSGLRPKEAALMVLQGLAAEGAHDYFAVAHSRHPIRYRRARRQKMMVSDIDAFWRERSGEPDEIFGFKVPFSSLEGGDKRSHMKLTFFNLGKRLAEARINESA				NA	NA	NA	NA	NA
BMS010_02559	1479	stp		Multidrug resistance protein Stp	ATGGCGCTTGCTGCCGTTTGTCTCTCCGCCCTGATGTTCGGACTGGAAATCTCCAGCGTTCCGGCGATCCTGCCAACACTCGAACAGGTGCTGCATGCGGATTTCCGTCAGCTTCAGTGGATCATGAACGCCTATACCATCGGCGTGACGATGGTGCTGATGGCGACGGGGGCGCTGGCAGATCGCTTCGGCCGCAAACGTGTCTTTATCGCCAGCATCGTCGCTTTCGCGCTTTCCTCTCTGGCCTGCGGAATGACGGAAAACGTCTCGGTGCTGATCGGCGCCCGTTTCCTTCAGGGGCTGAGCGGCGGGGCGATGCTGGTGTGCCAGATCGCCATCCTGTCGCATCAGTTCCGCACGGCCCGCGAACGCGGGATGGCGTTCGGCTGGTGGGGCATCGTCTCGGGCGTGGGGCTGGGCTTCGGCCCGATCATCGGCGGCGCCATCGTTGCGCTGTGGAGCTGGGAATGGGTGTTCCTCGTTCACGTCGTGCTTGGCGCGGGAACATGGCTGCTTGCCACGGGCGGCGTCGGAGAATCGCGTGATCCGGAGGCGGCGCGTCTCGATCTTGCCGGCATGGTCACCCTTTCGGTCGCCGTTTTTTGCCTTGCCTTTTTCATCACTCAGGGGCCCGCGCTCGGTTTTGTGAGCCCGGCGGCGCTTCTGATCCTCGGTGTCGCGGCTGCGAGCTTCATTGCCTTCGTGATTGCTGAAAAGCTTAGTTCAAGACCGATGTTCGACTTCTCCGTGTTCCGCATTCGGCCTTTTTCCGGGGCGATCATCGGTTCTGCGGCGATGAATATCAGCTTCTGGCCGTTCATGATCTATCTGCCGATCTGGTTTCAGGCGGGCCTCGGTTATGACAGCGTCACCGCTGGCCTCGGCCTGCTTGCCTATACGCTGCCGGCGCTGGTGGTGCCGCCGCTGGCGGAGCGCCTGTCGCTGCGCTACCAGCCGCGCCTCGTCATTCCGGCCGGGCTGTTCACCATCGGCCTCGGTTTCATGCTGATGAAATTTGGAAGCGGCATCGAAAATGCGAGCTGGCTCACCATGCTGCCCGGCTGCATCCTCGCCGGTATCGGGCTCGGGCTGACCAATACGCCTGTTACCAACACCACCACGGGAGCGGTTTCCCCCGCCCGTTCCGGCATGGCCTCGGGCATCGACATGAGTGCGCGCATGATCTCGCTCGCCATCAATATCCCGATCATGGGTTTCATTCTGGTCGAGGGCGTCCGGGCTTCGCTTCGGGCAAACCTGCCATCCGCTGCGGATATCGAGGCGTTGCAGTCGCTTGCGGAAAAGATCGCGGCGGGCACCGCCGGCACTTCTGCGCAGGGCGTTTCGGAAGAACTCGTCCATCGGGCGCTTGCAGATGGGTTCGGCCTCGTCATGCTTTATGCCGGCATCAGCGTCTGGTTCCTTGCCGCCATCAGTTTCATGATCTTCGGTCTGGCGCGAAAACCTGCTCATGACTAG	MALAAVCLSALMFGLEISSVPAILPTLEQVLHADFRQLQWIMNAYTIGVTMVLMATGALADRFGRKRVFIASIVAFALSSLACGMTENVSVLIGARFLQGLSGGAMLVCQIAILSHQFRTARERGMAFGWWGIVSGVGLGFGPIIGGAIVALWSWEWVFLVHVVLGAGTWLLATGGVGESRDPEAARLDLAGMVTLSVAVFCLAFFITQGPALGFVSPAALLILGVAAASFIAFVIAEKLSSRPMFDFSVFRIRPFSGAIIGSAAMNISFWPFMIYLPIWFQAGLGYDSVTAGLGLLAYTLPALVVPPLAERLSLRYQPRLVIPAGLFTIGLGFMLMKFGSGIENASWLTMLPGCILAGIGLGLTNTPVTNTTTGAVSPARSGMASGIDMSARMISLAINIPIMGFILVEGVRASLRANLPSAADIEALQSLAEKIAAGTAGTSAQGVSEELVHRALADGFGLVMLYAGISVWFLAAISFMIFGLARKPAHD	PGPT0031720_2	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-MALLEOBACTIN_TRANSPORT,PGPT0031720-mbaO-NA	NA	NA
BMS010_02560	855	hdfR_2		HTH-type transcriptional regulator HdfR	ATGAGCACGCTGGATGTGGAGGCCGTCGAAGCCTTCGTTACCATCGCTGATATGCAGAGCTTCACCCGTGCTGCCGAATCGCTCGGCACCACCCAGGGCGCCATCAGCGTCAAGCTCAAGCGGCTGGAAGACAGGCTCGGCCAGCGGCTGCTCGAACGCACACCGCGCTCAGTGCGGCTTTCGGCGCAGGGTGCGGTGTTTCTGGCACCCGCCCGCGAGTTTCTCGCCGCGCATGACCGGGCGCTGGCGGGTCTTTCCTCCCCGCGCCGCCGTTTCGGCCTTGGCATTGCCGCCCATGTGGCGGGACCGGAGGTTCCGACCCTTCTTGCACGCCTCAACGACCATGACCCCGGGCTTACGATTGAAGTGCGCATGGATCATTCCCGATCCCTGCTGGACGCATTCGACCGTGGGGAGATCGATGCGGCAATCATCCGGCGCGAGGATGATCGGCGGGACGGCGAGGTGCTCGGGCCGGAACATTTCGGCTGGTATGCAACCCCGCAATTCGAACACCGTCAGGGTGAACCGCTGCGGCTGGCGGCGCTCTCGCCCGCCTGTGGCGTGCGTGACATCGCCACCCGTGCCTTGGACGCGGCTGCGATTGCGTGGACGGAGGTGTTTCTTGGCGGCACATCGTCGATGGTGACCGCCGCCGTCTCGGCCGGGCTCGCGGTTTCCGCCTTCTCCTCCCGCCTCGCACCGCCCGGCACGGTGGAGGTCAGCCAGCGTTTTGGCCTGCCGCCCCTGCCCTCCACGGAAATCATCATGTTTTCCACCCTCACGGACAGCAGATCCCGGGAAGCCTTACGCACGCTTGCCGCCGCCTTTCGCGAACATCGGCCGGGATCGTGA	MSTLDVEAVEAFVTIADMQSFTRAAESLGTTQGAISVKLKRLEDRLGQRLLERTPRSVRLSAQGAVFLAPAREFLAAHDRALAGLSSPRRRFGLGIAAHVAGPEVPTLLARLNDHDPGLTIEVRMDHSRSLLDAFDRGEIDAAIIRREDDRRDGEVLGPEHFGWYATPQFEHRQGEPLRLAALSPACGVRDIATRALDAAAIAWTEVFLGGTSSMVTAAVSAGLAVSAFSSRLAPPGTVEVSQRFGLPPLPSTEIIMFSTLTDSRSREALRTLAAAFREHRPGS				NA	NA	NA	NA	NA
BMS010_02561	564			hypothetical protein	ATGCTAATTTTTCCGTCCGGAATTGTCGACAAGCAGAGGGGGAAATTTGCGGTCGAGGCTGAGGCGGGACCCGTCGAATGCCGGCTTTTTCCGCTTCTGGGGACCTATAAGGCCTATATATGTCCGGTCGACCGTCATGGCGAAAGATATGCGATCGATCTATTCTTCACCCGGCTGACGGGTATCACCGGGGAGATCATCGATGCGGAAGGCGTTCCATTGCAGGAGGCCCTTTCAAGCTTCGACAGTTTCTCGGAAGGTGCCCAGTGCTGGTCATGGGGTAAGGACGAGCTGAATATGGTGGCGATCAGCTGTTATGTCGCCGGCATCCAGCCACCCATCCCTGCCAACCGTTTCGACAATGCCGTCAAACTTCTGCTTGCAGTGGGAATGCCGTTGGAGGATCTGGCAAAAACGCCGAGCAACAGGCTGGCCGATTATTACGGTGTCGAGCATCCGCCATTGCAGGGGCACGATGCGCTCGATGATGCGCTTTCAGTTTCATATACGCTGCAACATCTGCTGAAGGGCGGAAAACTGACGCCGGAGGTGTTCGGCGTTTAG	MLIFPSGIVDKQRGKFAVEAEAGPVECRLFPLLGTYKAYICPVDRHGERYAIDLFFTRLTGITGEIIDAEGVPLQEALSSFDSFSEGAQCWSWGKDELNMVAISCYVAGIQPPIPANRFDNAVKLLLAVGMPLEDLAKTPSNRLADYYGVEHPPLQGHDALDDALSVSYTLQHLLKGGKLTPEVFGV				NA	NA	NA	NA	NA
BMS010_02562	783	proC_2	COG0345	Pyrroline-5-carboxylate reductase	ATGTCACTTCCTCAGAAAATCGGTTTTATCGGAACGGGAGCCATCACCGATGCAATGGTCAGGGGCCTGCTCGCCAGACCTGCCGCCGTGCCGCATGTCATGGTGTCCCAGCGCAGTGCCGATATCTCGGCGAGACTTGCCGCCGATTTCCCGCAGGTGATCGTCTCCGGCGACAATCAGGCAATCGTCGATGGCTGCGATACCGTCATGCTGGCTATCCGGCCGCAGATCGCTGAAGAAGTCATCCGGCCCTTGCGGTTCCGGGACGGGCAGAAGATCGTCAGCGTCGTTGCCGCGACCGGCCGTGAGGCGCTTCTGGAGTGGATCGGCGCGGATGTGCGTCTCAGCCAGGCGATCCCGCTGCCCTTCGTTGCCCGGCGCAAGGGCGTGACCGCCATTTATCCTGCCGATACGGATACGGCTGCTATCTTCAACGTGCTCGGCAATGCGGTGGAATGCGAGACCAAGGCGGAATATGATCTTTTGGCCGCCGCCAGCGCTCTGATGGCCACCTATTTCGGCATCATGCAAACCACGACGGAATGGCTTGCCGAGAACGGTCTGCCGGAAGAAAAGGCGCGCGCCTATCTCGCGCCCCTCTTTGCCGGCCTGTCCGAGGTGGCCATGCTTGCCGGCAGCAGGACGGATTTCATCGATCTCAGCCGTGAATTCGCCACCAAGGGCGGCCTCAACGAGCAGGTTCTGCTGGATTTCGACAACAAGGGCGGTTCAGGGGCCCTGAAAGATGCACTGAGCCGTGTGCTGGAGCGGATCACGCAATAA	MSLPQKIGFIGTGAITDAMVRGLLARPAAVPHVMVSQRSADISARLAADFPQVIVSGDNQAIVDGCDTVMLAIRPQIAEEVIRPLRFRDGQKIVSVVAATGREALLEWIGADVRLSQAIPLPFVARRKGVTAIYPADTDTAAIFNVLGNAVECETKAEYDLLAAASALMATYFGIMQTTTEWLAENGLPEEKARAYLAPLFAGLSEVAMLAGSRTDFIDLSREFATKGGLNEQVLLDFDNKGGSGALKDALSRVLERITQ	PGPT0014225_5658	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014225-proC-K00286	NA	NA
BMS010_02563	1599	entS_1		Enterobactin exporter EntS	ATGAGTGCCGCAAAAACCTCCGCGAGCAGCTTTGCTCCCCTTGCACAACCGGTTTTCGCGGTCCTCTGGGCGGCGACGGTGCTCGGCAATACCGGCAGCTTCATGCGCGATGTCGCCAGTTCATGGTTGATGACCGATCTTTCCGCCTCGCCGGCGGCCGTCGCCATGGTTCAGGCGGCCGGAACCCTGCCGATCTTTCTTCTGGCGATCCCGGCCGGCGTGCTGACCGACATTCTCGACCGCCGCAAGTTCCTGATCGCGGTGCAGCTTCTGCTGGCCTCGGTCAGCGTCACCCTCATGGTTCTTTCCCATACCGGCCTTTTGTCCGTCAGCGCGCTGATCGGGCTCACCTTCCTCGGCGGCATCGGTGCGGCGCTGATGGGGCCGACCTGGCAGGCAATCGTGCCGGAACTGGTGAAACGTGAGGATATCAAAAGCGCCGTGGCGCTGAACTCGCTGGGCATCAACATCGCCCGTTCCATCGGTCCCGCCGCCGGCGGCATCCTTCTTGCGGCCTTCGGGGCGGCCTTCACCTATGGCGCCGATGTCGCAAGCTATTTCGTGGTCATCGCCGCGCTTCTATGGTGGCCGCGGGCAAAGAACGCCAATGATGCACTGGCCGAAGGTTTCTTCGGCGCATTCCGGGCGGGCCTTCGTTATACCCGCGCCAGCCGGCCGCTGCATGTCGTCCTGCTGCGGGCTGCGATCTTCTTTGCATTCGCCAGTGCCGTCTGGGCGCTGTTGCCTCTGGTCGCCCGGCAATTGCTCGGCGGAGATGCAAGCTTCTACGGTATCCTGCTCGGCGCGGTCGGGGCAGGCGCCATCGGCGGTGCGTTGGTCATGCCGAAGCTGCGCGAACGTTTCGATGCCGATGCCCTGCTTCTCGGTGCTGCCGTCATTACCGCACTGGTCATGGCCGCGCTTTCGCTCGCACCGCCGAAGTGGCTTGCCATCATCGTCCTGCTGTTCCTCGGCGGCGCATGGATCACCGCTCTGACGACGCTGAACGGGGCAGCCCAGGCAGTTCTGCCAAACTGGGTGCGTGGCCGTGGCCTTGCTGTCTATCTCACTGTCTTCAACGGCGCGATGACGGCCGGCAGCCTTGGCTGGGGTGCTGTTGGTGAAGCCACAGGTGTGCCGGGTGCGTTGCTGATCGGCGCTGCGGGATTGCTGGTTGCGGGCCTCGTCATGCACCGCCTGAAACTGCCTGCAGGTGATGCGGATATGGTGCCGTCCAACCATTGGCCCGAACCGCTCGTGGCCGAGCCGGTGGCCCATGATCGCGGCCCGGTTCTGATCCTCATCGAATATAATGTCGAAAAGCATCACCGCTCCGCTTTCCTGCATGCACTGGACGAGCTTTCCCAGGAACGTCGCCGCGATGGCGCCTATGGCTGGGGCGTGACGGAGGACTCCGCCGATCCGCAGAAGATCGTCGAATGGTTTATGGTGGAAGCCTGGGCCGAGCATCTGCGTCAGCACAAGCGGGTTTCCCACGCGGATGCGGATTTGCAGGGCAAGGTGCTGGCTTATCATTCCGGGCTGGAAAAGCCGGTGGTGCGGCACTTCCTCACAATCAACCGCCCGGGGAAGGCGTAA	MSAAKTSASSFAPLAQPVFAVLWAATVLGNTGSFMRDVASSWLMTDLSASPAAVAMVQAAGTLPIFLLAIPAGVLTDILDRRKFLIAVQLLLASVSVTLMVLSHTGLLSVSALIGLTFLGGIGAALMGPTWQAIVPELVKREDIKSAVALNSLGINIARSIGPAAGGILLAAFGAAFTYGADVASYFVVIAALLWWPRAKNANDALAEGFFGAFRAGLRYTRASRPLHVVLLRAAIFFAFASAVWALLPLVARQLLGGDASFYGILLGAVGAGAIGGALVMPKLRERFDADALLLGAAVITALVMAALSLAPPKWLAIIVLLFLGGAWITALTTLNGAAQAVLPNWVRGRGLAVYLTVFNGAMTAGSLGWGAVGEATGVPGALLIGAAGLLVAGLVMHRLKLPAGDADMVPSNHWPEPLVAEPVAHDRGPVLILIEYNVEKHHRSAFLHALDELSQERRRDGAYGWGVTEDSADPQKIVEWFMVEAWAEHLRQHKRVSHADADLQGKVLAYHSGLEKPVVRHFLTINRPGKA				NA	NA	NA	NA	NA
BMS010_02564	441			hypothetical protein	GTGACCGAGCCGTCTTCAACCTTTCGCCTTCGCGGGCTTCTCGCGGATATCGTTGCCGCACCCACCACAAAAACCCTAGCGCTTCTGGCGCTCTGCTCGGCCTATATTCAGGGGCCGCTGACCAAGATCTTCGACTTTCCCGGCGCGATTGCGGAGATGAACCATTTTGGCCTTCAGCCGGCGGTCGCATTCGCTGTCGTCGTCATCCTGTTCGAGCTTACCGCCTCCGCACTGGTGGTGTCGGGCTTCCTGCGCTGGGCCGGTGCGCTGGCGCTTGCAGGCTTCACGCTTCTCGCCACCTTCATCGCTCTCCGCTTCTGGGAAATGGCGCCCGGCATGGACCGCATGATGGCCACCAACGCCTTCTTCGAACATCTTGGCCTTGCCGGCGCCTTTATCATCGTCGCCGCAATCGATCTCACGAAAGGAACAGGCAAATGA	MTEPSSTFRLRGLLADIVAAPTTKTLALLALCSAYIQGPLTKIFDFPGAIAEMNHFGLQPAVAFAVVVILFELTASALVVSGFLRWAGALALAGFTLLATFIALRFWEMAPGMDRMMATNAFFEHLGLAGAFIIVAAIDLTKGTGK				NA	NA	NA	NA	NA
BMS010_02565	1878	nfdA		N-substituted formamide deformylase	ATGCATCCAGATACGATCCTTCACAACGGCCGCGTCACGACGCTTGATCGCGGCAATCCCAATGCAACGGCAGTGGCCATCAAGGATGGCCTGTTCCTGGAAGTCGGAAGCGATGCCGAGGTCATGGCCCTTGCCGGGCCGGATACGAAGATCGTCGACCTGAAGGGCAAGCGGGTTCTGCCCGGCCTGATCGACAACCACACCCACGTCGTGCGTGGCGGCCTGAATTTCAACATGGAACTTCGCTGGGACGGCGTGCGCTCGCTTGCTGACGCCATGGATATGCTTAAGCGGCAGGTGGCGATCACGCCGGCCCCGCAATGGGTGCGCGTCGTTGGCGGTTTCACCGAGCATCAATTCGTTGAAAAGCGCCTGCCGACCATCGAGGAGATCAATGCGGTGGCGCCGGATACGCCGGTCTTCCTGCTGCATCTTTACGACCGGGCATTGCTGAACGGCGCAGCGCTTCGCGCCGTCGGTTACACCAGGGATACGCCGAACCCGCCCGGCGGCGAGATCACCCGCGATGCGAACGGCAATCCGACCGGCCTGCTGCTCGCCAAGCCGAATGCCGGCATCCTCTATTCGACGCTTGCCAAGGGGCCGAAGCTGCCGCTCGACTATCAGGTCAATTCCACCCGCCACTTCATGCGCGAGCTGAACCGGCTGGGCGTGACCGGCGTGATCGATGCCGGCGGCGGCTTCCAGAATTATCCTGACGATTACGAGGTGATCCAGAAGCTGTCGGATGAGAACCAGATGACGGTTCGGCTGGCCTACAACCTCTTCACGCAGAAGCCGAAACAGGAGAAGGAGGATTTCCTCAACTGGACGCAATCGGTCGAATACAAGCAGGGCAACGACTATTTCCGGCACAATGGTGCGGGCGAAATGCTGGTCTTTTCCGCTGCCGATTTCGAGGATTTCCGTCAGCCGCGGCCCGATATGCCACCGGAGATGGAAGGCGAGCTTGAAGACGTTGTCCGTATTCTGGCGGAAAACCGCTGGCCCTGGCGTCTGCATGCCACCTATGACGAGACGATTTCGCGGGCGCTGGATGTCTTCGAAAAGGTCAACCGGGATATCCCGCTCGAAGGGTTGAACTGGTTCTTCGACCATGCCGAAACCATCTCCGACCGCTCCATCGACCGTATCGCAGCCCTTGGCGGCGGTATCGCCACCCAGCACCGCATGGCCTATCAGGGCGAATATTTCGTCGAGCGTTATGGTCAGGGCGTGGCGGAAGCCACACCGCCGATTGCGAGAATGCTGGAAAAGGGCGTGAACGTTTCGGCCGGTACGGACGCAACGCGTGTCGCCTCCTATAATCCCTGGGTGTCGCTGTTCTGGATGGTGACGGGCAAGACGGTCGGCGGCATGCAGCTTTATCCGCGCGCCAATTGCCTCGACCGCGAGACGGCGCTGCGCATGTGGACCGAAAAAGTCACCTGGTTCTCGAACGAGGAGGGCAAGAAGGGCCGCATTGAAAAAGGCCAGTTCGCCGATCTCGTGGTGCCGGACAAGGATTATTTCTCCTGCGCGGAAGATGAAATTTCCTTCCTCACCTCGGAACTGACCATGGTGGGCGGCAAGATCGTCTATGGCGCCGGTGACTTCAGAACGCTGGACGAAAGCAATATTCCGCCGGCCATGCCCGACTGGTCGCCTGTGCGAACCTTCGGCGGTTATGCCGCCTGGGGTGAGCCGCAGGGCGCTGGAAAGAATTCACTCAGGCGGGCTGCTATCTCCTCCTGCGGCTGCGCCAATGATTGCGGCGTTCATGGCCACGACCACGCCGGCGCATGGACGTCGAAATTGCCGATTGCCGATCTGAAGGGCTTTTTCGGAGCGCTGGGTTGCTCCTGCTGGGCAGTCTGA	MHPDTILHNGRVTTLDRGNPNATAVAIKDGLFLEVGSDAEVMALAGPDTKIVDLKGKRVLPGLIDNHTHVVRGGLNFNMELRWDGVRSLADAMDMLKRQVAITPAPQWVRVVGGFTEHQFVEKRLPTIEEINAVAPDTPVFLLHLYDRALLNGAALRAVGYTRDTPNPPGGEITRDANGNPTGLLLAKPNAGILYSTLAKGPKLPLDYQVNSTRHFMRELNRLGVTGVIDAGGGFQNYPDDYEVIQKLSDENQMTVRLAYNLFTQKPKQEKEDFLNWTQSVEYKQGNDYFRHNGAGEMLVFSAADFEDFRQPRPDMPPEMEGELEDVVRILAENRWPWRLHATYDETISRALDVFEKVNRDIPLEGLNWFFDHAETISDRSIDRIAALGGGIATQHRMAYQGEYFVERYGQGVAEATPPIARMLEKGVNVSAGTDATRVASYNPWVSLFWMVTGKTVGGMQLYPRANCLDRETALRMWTEKVTWFSNEEGKKGRIEKGQFADLVVPDKDYFSCAEDEISFLTSELTMVGGKIVYGAGDFRTLDESNIPPAMPDWSPVRTFGGYAAWGEPQGAGKNSLRRAAISSCGCANDCGVHGHDHAGAWTSKLPIADLKGFFGALGCSCWAV				NA	NA	NA	NA	NA
BMS010_02566	291			hypothetical protein	ATGAAAGTCTATCTTCTGTCCCTTGGCGCCGGTCTGCTGGTCGGTATCGTTTACAGCCTGCTCAATGTGCGTTCTCCCGCACCGCCCGTCATCGCTCTCGTCGGTCTGCTCGGCATCCTGGTTGGAGAGCAGATCATTCCTTTCGCAAAGACGATTGCCGGCAAGGAACCGGCCGTCGTTTCGTGGATCAACCAGATCAAGCCGCACATGTTCGGCCATATGCCGAAGGGTGGCGCTGAAACCACGGGTCTCGCCGAAGTTAAACAGCCTATCAACCGGGAGAGAAGCTGA	MKVYLLSLGAGLLVGIVYSLLNVRSPAPPVIALVGLLGILVGEQIIPFAKTIAGKEPAVVSWINQIKPHMFGHMPKGGAETTGLAEVKQPINRERS				NA	NA	NA	NA	NA
BMS010_02567	693	ycaC	COG1335	putative hydrolase YcaC	ATGTCCAAGCTCGAAGTCCTTACCCCCGCCAACAGCCAGCTCATCTTCATCGACCAGCAGCCGCAGATGGCTTTCGGTGTGCAGTCCATCGACCGGCAGACCCTGAAGAACAATGTCGTCGGCCTCGCCAAGGCGGCAAAGATTTTCAATATCCCGACGACCATCACCACGGTCGAAACGGAAAGCTTCTCCGGTAACACCTTCCCGGAACTACTCGCGGTCTTCCCAGAGAATGATATCCTCGAACGCACTTCGATGAATTCCTGGGATGACCAGAATGTCCGCGATGCGCTGGCGAAGAACGCCGCCGGTGGCCGCAAGAAGATCGTCGTCTCCGGCCTGTGGACGGAAGTGTGCAACACCACCTTTGCGCTCTCCGCACTCCATGATGTCGCAGATTACGAGATCTACATGGTGGCGGACGCTTCCGGCGGCACCTCTGTCGATGCGCATAAATATGCCATGGACCGCATGGTGCAGGCCGGCATCATTCCCGTCACCTGGCAGCAGGTGCTGCTCGAATGGCAGCGCGACTGGGCCCGCAAGGAAACCTATGACGCCGTCACCTCGCTGGTGAAGGAACATTCCGGCGCTTACGGCATGGGCATCGACTATGCCGTCACCCATGTCCATGGCGGTGAAGAACGCGTCAAGCACGGCAAGCGCATCGGCCCCAACCCGGCCAAGAAATAA	MSKLEVLTPANSQLIFIDQQPQMAFGVQSIDRQTLKNNVVGLAKAAKIFNIPTTITTVETESFSGNTFPELLAVFPENDILERTSMNSWDDQNVRDALAKNAAGGRKKIVVSGLWTEVCNTTFALSALHDVADYEIYMVADASGGTSVDAHKYAMDRMVQAGIIPVTWQQVLLEWQRDWARKETYDAVTSLVKEHSGAYGMGIDYAVTHVHGGEERVKHGKRIGPNPAKK				NA	NA	NA	NA	NA
BMS010_02568	933	mhqO_1	COG0346	Putative ring-cleaving dioxygenase MhqO	ATGATCAAGGATATCAAGGGCCTGCACCACGTCACCTCCATGGCGTCGGACGCGCGGCAGAACAACAGTTTCTTCACCGATACGCTCGGCCTGCGCCGGGTGAAGAAAACCGTCAACTTCGACGAGCCCAGCGTCTATCACCTTTATTACGGCGACGAAAAGGGAACGCCCGGCACGGTCATGACCTATTTTCCCTTCGCCAACATGATGGCCGGCCGTCCCGGCGTCGGTGAGGTGGGCGAGACGCAGTTTTCCATTCCGAAGGGTTCGCTGGGTTTCTGGAAAGAGCGTCTCCTTGCCAAGGGCGCTGCCGGCATTCAGGCCGACACGGTCTTCGGCGCCAATCGCCTGCGCTTCACCGGCCCCGATGGCGATGGTCTTGCTCTGATCGAAACAGGCGACGACGCCCGTGCTGCCTGGCTGGCCGAGGGAATTTCCGAAGACAACGCCATACGCGGTTTCACCGGCGCACGGTTCAATTTACACGACACTGCCGCAACCGAAGAACTGCTGCGTTTCATGGGTTATGAGCGGACTGACGTTGAAGGCAATGTGACGCGTTTCGTCATTCCCGGCGGCAACGGGGCAGATACGATCGATCTTGTGGCCCTGCCCAAGACACCCTTTGCCCGTTCGGGAGCGGGCTCGGTCCACCATATCGCCTTCGCAGTCGAAAACCGCGAGAAGCAGCTGGAAGTGCGCAAGGCGCTGATGGATACGGGTTATCAGGTCACGCCCGTCATCGACCGTGATTATTTCTGGGCGATCTATTTCCGCACGCCGGGCGGCATCCTGTTCGAGGTCGCCACCAATGAGCCCGGTTTCGATCGCGACGAGGATACCGCGCATCTGGGCGAAGCGCTCAAGCTGCCGAGCCGCTACGAGCCTTTCCGCAACCAGATCGAGGCGAACCTCGCTCCGCTTGCAGCGTAA	MIKDIKGLHHVTSMASDARQNNSFFTDTLGLRRVKKTVNFDEPSVYHLYYGDEKGTPGTVMTYFPFANMMAGRPGVGEVGETQFSIPKGSLGFWKERLLAKGAAGIQADTVFGANRLRFTGPDGDGLALIETGDDARAAWLAEGISEDNAIRGFTGARFNLHDTAATEELLRFMGYERTDVEGNVTRFVIPGGNGADTIDLVALPKTPFARSGAGSVHHIAFAVENREKQLEVRKALMDTGYQVTPVIDRDYFWAIYFRTPGGILFEVATNEPGFDRDEDTAHLGEALKLPSRYEPFRNQIEANLAPLAA	PGPT0028510_1451	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROQUINONE-DERIVATE_RESISTANCE,PGPT0028510-mhqA|mhqE|mhqO|yaiA-K15975	NA	NA
BMS010_02569	906	dmlR_5		HTH-type transcriptional regulator DmlR	ATGGCGATGAACGATCATAAAGCTCTCAAAACCTTTCTGATGGCGGCCGAAAAGCGCAACTTCGCGCAGGTCGCCCGCGAACTGGGCATGACGGCAGCCGCCGTCACCCGTGCTATTGCCGCGCTTGAAGACGATCTCGGTGTGCAATTATTCGTCCGCACCACCCGGCAGGTTTCCTTGACGACGGACGGGGCTATCTTCGCCGCACAGATCCAGCCCGCGGTCGAGGCGCTGGAGAATGCAAGGCGCGATGTCCGCAACGCCCACAAGGCCGATGAGGGGCGTCTGAGGATCAGCGCGCCGACATGGCTCGGCAAAACCGTGCTGCCGCCGATCCTGTCCGGCTTCCGGGAACTCTATCCGAAAATGTGCTTCGAGATTTCGCTCTCGGACGGCCTGATCAATATCGTGGATGACGACTACGATCTGGCGATCCGCATTTCGTCGGCCCCATCGGACAAATTCACCATCTGGCGCAAGATCAGGGCCGTGCCGAGAATATTGGTGGCGGCCCCAGGCAGCCGGTTTACGCAGATGGAACATCCGGGCGAGCTGACCCCTGACGATTGCCTTGCCTATAGCGGTGAAAGCCGGCGGGAAAACTGGGTCCTGTCGGACGGCGGATCGAGCATCGCCATATCGGCCGGCCGGGCATTCAGCGCCAATAGCGGCGAGGTTCTGGCCGATATGGCAGCGGAAGGCGCCGGTGTGGCCCTGCTGCCGGGATTTAATATCGCCGAACATATCCATAGCGGCCGGCTCGTTCATGTGCTGCCCGGCTGGGTGCCACCCGAACTCTGGCTGACGCTTTATTATCCGCCCTATCAGGCGCTGCCACCCCGTATTGCGACTTTCTCGAAATTTTTCGAAGAGCAGTTGCCGGCACATATGGTGATGCTGGACTAG	MAMNDHKALKTFLMAAEKRNFAQVARELGMTAAAVTRAIAALEDDLGVQLFVRTTRQVSLTTDGAIFAAQIQPAVEALENARRDVRNAHKADEGRLRISAPTWLGKTVLPPILSGFRELYPKMCFEISLSDGLINIVDDDYDLAIRISSAPSDKFTIWRKIRAVPRILVAAPGSRFTQMEHPGELTPDDCLAYSGESRRENWVLSDGGSSIAISAGRAFSANSGEVLADMAAEGAGVALLPGFNIAEHIHSGRLVHVLPGWVPPELWLTLYYPPYQALPPRIATFSKFFEEQLPAHMVMLD				NA	NA	NA	NA	NA
BMS010_02570	1080		COG1073	putative protein	ATGAGCAAGCCAATCGAAACGAGTGAAACCTGCAATACCGGCAGGCGCAACCTGATGAAGGCAACGGGCATCGCCGTCGCCGCAATGGGAATGGTGCAGGTGGCGGGTGCGACGCAGGCCTTCGCCCAAACCTCTTCGTGGGACAAGGTCTTCGCGAAGAGCGACAATGTCGACCACCAGAAGGTCTCGTTCAGGAACCGATACGGCATTACTCTCGTAGGCGATCTTTACCTGCCAAAGAACCGTGGAGCTGCGCCTTTGGCTGCTCTTGTCATCAGCGGTCCCTTTGGTGCGGTGAAGGAACAGTCGTCCGGCCTTTATGCACAGACCATGGCGGAGCGCGGATTTGCCGCGCTGGCGTTCGATCCGTCCTATACCGGAGAAAGCGGCGGTGAGCCCCGGAACGTCGCGTCGCCGGATATCAATACCGAGGATTTCAGTGCCGCGGTCGACTATATCGGGCTGCAATCCTACGTGGATCGCGAGCGCATCGGTGTTATCGGCATCTGCGGCTGGGGCGGCATGGCGCTGAATGCCGTGGCGGTGGACAAGCGCGTGAAGGCAGTCGTGGCCAGCACCATGTATGACATGACGCGGGTGATGTCCAAAGGCTACAACGACAGCGTTACCCTCGAACAGCGCACGCAGGCGCTGGAGCAGATGAGCCGGCAGCGCTGGCAGGATGCGGAAAAGGGAAGCCCCGCCTATCAACCCCCTTATAACGATCTCAAGGGTGGCGAAGCGCAGTTCCTGATTGATTATCACGACTATTACCGGACACCGCGCGGTTACCATGCGCGTGCCGTCAACTCCGGCAATGCCTGGACGCAGACGACACCGCTGTCATTCATGAACATGCCAATCCTGACCTATATCGCCGAAATATCGCCGCGCCCGGTGATGTTGATCCATGGGGAAAAAGCGCATTCCCGCTATTTCAGCGAGACCGCTTTCGCCGCGGCTGCCGAACCGAAGGAGCTGGTGATCATTCCGGACGCCAACCACACGGACCTTTATGACCGCGCCGACAAGATCCCGTTCGACCGGATCGCCGCCTTCTTCAATCAGCATCTCGCGTAG	MSKPIETSETCNTGRRNLMKATGIAVAAMGMVQVAGATQAFAQTSSWDKVFAKSDNVDHQKVSFRNRYGITLVGDLYLPKNRGAAPLAALVISGPFGAVKEQSSGLYAQTMAERGFAALAFDPSYTGESGGEPRNVASPDINTEDFSAAVDYIGLQSYVDRERIGVIGICGWGGMALNAVAVDKRVKAVVASTMYDMTRVMSKGYNDSVTLEQRTQALEQMSRQRWQDAEKGSPAYQPPYNDLKGGEAQFLIDYHDYYRTPRGYHARAVNSGNAWTQTTPLSFMNMPILTYIAEISPRPVMLIHGEKAHSRYFSETAFAAAAEPKELVIIPDANHTDLYDRADKIPFDRIAAFFNQHLA				NA	NA	NA	NA	NA
BMS010_02571	465			hypothetical protein	ATGAAGGTGCGCCCGATGGTTCCTGCCCGACGCATCCTGCTGGCGATGGCCGCCGCGTTCATCCTGCCCGGGCGAGCCCTCAGCAAAAGCGGCGCTGACAATCAGGAGAAGACCGATTTGAAGATCAAGCTGACTTTCGGAGAAAACACAATGATGGCGACGCTCTACGACAATCCGTCGGCGCGCGATTTTGCATCCATGCTTCCGCTCGATCTCAGGATCGCCGACTTCGGCTCCAATGAGAAGATCGCCTATCTCCCTCGAAAGTTGACAGTCGAAGGCCATGGTCCGTTCGACAATGAGCGGCCTTACGACCTTTGTTATTACATGCCCTGGGGCAATCTCGCGATGTTCTATGCCGACTACAGGCATCCCGGCCTCATCCGGCTGGGACGCTTCGATCAAGGCTATGAAGCGCTTCATATCCCTGGGGAATTTCCGCTGCGTATTGAACGCGTCCAATGA	MKVRPMVPARRILLAMAAAFILPGRALSKSGADNQEKTDLKIKLTFGENTMMATLYDNPSARDFASMLPLDLRIADFGSNEKIAYLPRKLTVEGHGPFDNERPYDLCYYMPWGNLAMFYADYRHPGLIRLGRFDQGYEALHIPGEFPLRIERVQ				NA	NA	NA	NA	NA
BMS010_02572	1188	nepI_1	COG2814	Purine ribonucleoside efflux pump NepI	ATGGCACTCACTTATGACGAAGAGATGGGCAGCAGGCGCGCGGCATGGAGCGCCGTGCTTTGCATGACGCTCTGCGCCTTCGTATTGATCGCTTCGGAATTCATGCCCGTCAGCCTGCTGACGCCGATCGCCGCCGATCTCGGTGTTTCGGAAGGCAATACGGGGCAGGCGATCTCCGTCTCCGGCATCTTTGCGGTCATCACCAGCCTGTTCATTGCCGGCCTGACCCGGCGGCTCGACCGGCGCCTTGTCGTGCTCGGCCTGACGGCGCTGCTGATGTTGTCCGGAATCGTGGTCACCCTTGCACCGTCTTTCCCGGTTTTGATGCTTGGCCGCGCCTTGCTCGGCATTTCGATCGGCGGCTTCTGGTCGATGTCCACCGCCATCGTGATGCGTCTTGTCTCCCATGCCCAGGTGCCGAAGGCGCTTGCCCTGCTGAATGCCGGCAATGCGGTTGCGGCAACGGTTTCCGCCCCGCTCGGCAGCCTGCTGGGCGCCTATATCGGTTGGCGCGGCGCCTTCTTTCTTGTCGTGCCGATCGGCCTGCTTGCACTCCTGTGGCAATGGATCGTCCTGCCGGAACTCCCGCCGCGGCGCGACCGCGCATCCACGAATGTCTTCAGGCTGCTTGGACGTCCAGCCGTCGCAGCTGGCATGATCGCGATCCTGCTGTTATTCATGGGCCAGTTCGCACTTTTCACCTATCTGCGGCCCTTTCTCGAACAGGTCACGCGGGTCGAAATCACGGTGCTGTCACTGTTGTTTCTGATCATGGGACTGGCCGGGGCGGTCGGAACATGGGTCATCGGTCGACTGCTGCAACGCCGTCTCTTCAGCATTCTTGTGGTCATTCCGATGATGATGGCCGGTATCGCGCTCTCCATGGTCGTCTTTGGCGAAGCGGAACGTCCAGTCATCGCCGCCCTTGTCGGCTGGGGTTTTCTTGGAACCGCCGCACCGGTTGGCTGGGGCACCTGGCTGAGCCGCATTCTGCCCGACGATGCCGAGGCCGGCGGCGGGCTTCAGGTTGCCGTCATTCAACTGGCGATCACGGCGGGGGCCTCGGTCGGTGGAATTTTATTCGACAGTTTCGGTTGGTGGTCCGCCTTCACTTTGAGCGCATTGCTGCTCTGCTGCTCCTCGCTCGCGTCTTTTGTCGCCTGGCGGCTGGCGCGGAAGCCGTCATGA	MALTYDEEMGSRRAAWSAVLCMTLCAFVLIASEFMPVSLLTPIAADLGVSEGNTGQAISVSGIFAVITSLFIAGLTRRLDRRLVVLGLTALLMLSGIVVTLAPSFPVLMLGRALLGISIGGFWSMSTAIVMRLVSHAQVPKALALLNAGNAVAATVSAPLGSLLGAYIGWRGAFFLVVPIGLLALLWQWIVLPELPPRRDRASTNVFRLLGRPAVAAGMIAILLLFMGQFALFTYLRPFLEQVTRVEITVLSLLFLIMGLAGAVGTWVIGRLLQRRLFSILVVIPMMMAGIALSMVVFGEAERPVIAALVGWGFLGTAAPVGWGTWLSRILPDDAEAGGGLQVAVIQLAITAGASVGGILFDSFGWWSAFTLSALLLCCSSLASFVAWRLARKPS	PGPT0021090_142	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021090-nepI-K03445	NA	NA
BMS010_02573	894	pgrR_5		HTH-type transcriptional regulator PgrR	ATGCAGCGAGAGGACATGAAGGATCTCCTCTGGTTCATGGAAGTTGCTAAGGAGCGGAGCTTCACAAAGGCTGCGGCGACGCTTGGAACATCGCAGTCGACATTGAGCTACACAATCAAGCAGCTGGAAGCCCGGCTGGGCGTGCGGCTCCTGACGCGGACGACACGCAGCGTGGCCACCACGGAAGCCGGCGAGCGCCTGTTTTTGTCCATCGCTCCGCGATTTCAGGGGATCGAGACGGATTTGGCGGACCTCGTCGCCTTTCGTGAAAAACCCTCAGGCACCGTGCGCCTCACCTTGTCCGATCACGCCCTGCAAACGACCGTCTGGCCGAAGCTGAGCCGCGTACTCACCAACTATCCTGACATCCATGTCGAACTCTATAGCGACAATGGCATGCGCAATATTGTCGAGGAACGCTTCGATGCCGGCGTGCGACTGGGCGAGAGCGTCGACAGGGACATGATTGCCGTCAGGATCGGTCCGGACTGGCGGCTCCGGGCCGTGGCTTCGCCGGACTACTTCGCCAGACACGGCATCCCTGCCACACCCCAGGATCTGGTCGGCCATGTCTGCATCAACACGCGTCAGGCCACCTGGGGTGGATTTTACACCTGGGAGTTTGAAAAGGACGGGCGAGAACTGCGGGTCAGAGTTGACGGGCAACTCAGCTTCAACTCATCGATCTCCCAGATCGACGCGGCGATTAAAGGCTACGGGATCGCATATATTCCCGAAGACCTTGTCGAGGAGCACATCGCCGAAGGGAGATTGCAGGCGGTTCTGGACAATTGGAGCGCACCCTTCACCGGCTATCACCTCTATTACGCCAGCAGGCGCCAGATGTCTCCGGCGATGAAGGTAATCATCGATGCCCTGCGCCATCATGCCTGA	MQREDMKDLLWFMEVAKERSFTKAAATLGTSQSTLSYTIKQLEARLGVRLLTRTTRSVATTEAGERLFLSIAPRFQGIETDLADLVAFREKPSGTVRLTLSDHALQTTVWPKLSRVLTNYPDIHVELYSDNGMRNIVEERFDAGVRLGESVDRDMIAVRIGPDWRLRAVASPDYFARHGIPATPQDLVGHVCINTRQATWGGFYTWEFEKDGRELRVRVDGQLSFNSSISQIDAAIKGYGIAYIPEDLVEEHIAEGRLQAVLDNWSAPFTGYHLYYASRRQMSPAMKVIIDALRHHA				NA	NA	NA	NA	NA
BMS010_02574	2970			hypothetical protein	ATGACTTCGATCCTCTCCTCATTGTCTGCTGTGCAGATTTCCAAGCTTTCGACGTCCACCATTGCCAGCCTGACGTCGGAAGACGTGAATGCTCTTGATAGCACCAAAATCAAGGCTCTTTCGTCATCTCAGATCGCGTCTTTGAGCACGGATAACCTTGCTCTTTTCAGCTCTGAGGACCTGCGCGCCATTTCCGTGACGGCAGTCAAGGGTCTGACCCTCACCCAGATGGCGAAACTGAGCTCCGCTCAGGTCAGCAGCCTGTCGTCCTCTCAGGTTACCGCCCTTTATGCCAGCCAGATTGACGCCCTTTCGACCGACCAGATCAAGGCACTCAACTCGTCTCAGGTCGCAGGCCTCAGCTCCGCTCAGGTTGCAACACTGAGCAGCGACGAACTGGCCCTCTTCTCTACCGACGAGATCAAGGCGATCAGCGCCACTGCCATCGCTGGTCTTTCCACAGCAGCCATCGCCGCTCTCAGCACCGACAATGCAGCCGCGCTGACAAAGACGCAGATCGCCGCCTTGTCTTCCACGCAGTTCAATGCGCTCAGCTCCGGCAGCCTTGCAACCTTCTCGGCAGACGAAGTCAAGGCGATCAGCACCAAGATCCTTGCTGGTCTCGATGTGACCAAGCTCAGCACCGGCAATATCGCAGCACTCAGCAAGGCGCAGGTTTCGGCGCTCTCCACTGCGCAGTTTGCGGCCATGTCGACTGATCAGATCAAGGCGCTGACATCCGAGCAGGTCTCTGGCCTCAGCTCTGCTCAGGTCGCGACGCTCAGCAGCGACGAACTGGCTCTCTTCTCGACAGACGAGATCAAGGCGATCGCCGCCAACGCCGTTGCCGGCCTTTCGTCCGCAGCCCTCGCTGCCCTCACGACCGACAATGCATCTGCCCTGACGAAGACCCAGATTGCTGGCCTTTCGTCCACGCAGCTCAACGCATTGACCTCCGCAAACCTTGCCACCTTTACGGCAGACGAGATCAAGGCGATCACCACCAAGGCGCTCTCCGGTCTCGATGTGACCAAGCTCAGCACCGACAACATCGCCGCGCTGACCAAGGCTCAGGTAACGTCGCTTTCCTCGACGCAGTTCGCCGCCATGTCGACTGATCAGATCAAGGCGCTGACCTCCGAGCAGGTCTCTGGCCTCAGCTCCGCCCAGGTCGGCACACTGAGCAGCGACGAACTGGCCCTCTTCTCCACGGCAGAGATCGGCGCCTTGAGCGCCAATGCGGTCGCTGGCCTTTCCACGGCGGCTCTGGCTGCCCTTACGACCGACAATGCCACGGCCCTGACGAAGACGCAGATCGCCGGCCTCTCGTCCACGCAGCTCAACGCCCTGACCTCGGCTAGCCTCGCCACCTTCACGGCAGACGAAGTCAAGGCAATCACAACCAAAGCGCTCGCTGGCCTTGATGTCTCCAAGCTCAGCACCGGCAATATCGCCGCACTCAGCAAGGCACAGGTTTCGGCCCTCTCGACGGCACAGTTTACCGCCATGTCGACCGACCAGATCAAGGCGCTGACCTCCGATCAGGTTTCCGGCCTCAGCTCCGCTCAGGTCGCGACACTCAGCAGCGACGAACTGGCTCTCTTCTCCACCGATGAGATCAAGGCCATCGGCGCCAACGCCGTTGCCGGCCTTTCGTCCGCAGCCCTCGCTGCCCTTACGACCGACAATGCATCTGCCCTGACGAAGACCCAGATTGCCGGCCTTTCGTCCACGCAGCTCAACGCACTGACCTCCGCAAACCTCGCCACCTTTACGGCAGACGAGATCAAGGCGATCACCACCAAGGCGCTCTCCGGTCTCGATGTGACCAAGCTCAGCACCGGCAACATCGCCGCACTGACCAAGGCTCAGGTAACGTCGCTTTCCTCGACGCAGTTCGCGGCGCTCTCGACCGACCAGATCAAGGCTCTCACCTCCGATCAGGTCGCTGGCCTCAGCTCCACTCAGGTCGGCACGCTCAGCAGCGACGAGCTGGCTCTCTTCTCCACGGATGAGATCAAGGCTATCGCCGCCAACGCCGTTGCCGGTCTTTCTACCGCTGCCCTGGCCGCCCTCAGCACCGATAATGCAGCAGCCCTGACGAAGACCCAGATTGCGGGCCTCTCGTCCACGCAGCTCAACGCGCTGACCTCGGGTAGCCTCGCCACCTTCGCGGCAGACGAAGTCAAGGCAATCACTACCAAGGCGCTCGCTGGCCTTGATGTCTCCAAGCTCAGCACCGGCAATATCGCCGCACTCAGCAAGGCACAGGTTTCGGCTCTCTCAACGGCACAGTTTGCCGCCATGTCGACCGACCAGATCAAGGCGCTGACCTCCGATCAGGTGTCCGGTCTCAGCTCCGCTCAGGTCGCGACGCTCAGCAGCGACGAACTGGCCCTCTTCTCCACCGATGAGATCAAGGCCATCGCCGCCACTGCCGTCTCCGGTCTGACGACTGCGGCTATTACGTCGCTTACCACCGACAACGCCGCAGCACTGACCAAGACCCAGATTGCGGGCCTGTCTTCGACGCAGCTCAACGCCTTCAACTCCGCGAACCTTGCCACCTTCACGGCGGACGAAGTCAAGTCGATCACCGCCAAGGCTCTCGGCGGTCTCGACGCCACCAAGCTCAGCACCGGCAATATCGCCGCACTTAGCAAGGCTCAGGCCGCAGCACTGTCCTCGACGCAGTTCGCAGCCCTCTCGACCGATCAGATCGCGGCACTGACCTCCGAACAGGTGTCTGGTCTGAATTCTGCTCAGGTCGCTACGCTCAACAGCACCGAGCTGGCGCTGTTCTCGACAGACGAGATCAAGGCTATCAGCGCCAATGCTGTCGCCGGTCTTTCCACCGCGGCTATCGGCGGCCTCAGCACCGCCCAGGCTGGAGCTCTTTCGGCCCAGCAGCTGAAAGTCATGAACGACGCACAGGTTGAAGCGGTCATCAAGGCTTACAAGGGTGTGTAA	MTSILSSLSAVQISKLSTSTIASLTSEDVNALDSTKIKALSSSQIASLSTDNLALFSSEDLRAISVTAVKGLTLTQMAKLSSAQVSSLSSSQVTALYASQIDALSTDQIKALNSSQVAGLSSAQVATLSSDELALFSTDEIKAISATAIAGLSTAAIAALSTDNAAALTKTQIAALSSTQFNALSSGSLATFSADEVKAISTKILAGLDVTKLSTGNIAALSKAQVSALSTAQFAAMSTDQIKALTSEQVSGLSSAQVATLSSDELALFSTDEIKAIAANAVAGLSSAALAALTTDNASALTKTQIAGLSSTQLNALTSANLATFTADEIKAITTKALSGLDVTKLSTDNIAALTKAQVTSLSSTQFAAMSTDQIKALTSEQVSGLSSAQVGTLSSDELALFSTAEIGALSANAVAGLSTAALAALTTDNATALTKTQIAGLSSTQLNALTSASLATFTADEVKAITTKALAGLDVSKLSTGNIAALSKAQVSALSTAQFTAMSTDQIKALTSDQVSGLSSAQVATLSSDELALFSTDEIKAIGANAVAGLSSAALAALTTDNASALTKTQIAGLSSTQLNALTSANLATFTADEIKAITTKALSGLDVTKLSTGNIAALTKAQVTSLSSTQFAALSTDQIKALTSDQVAGLSSTQVGTLSSDELALFSTDEIKAIAANAVAGLSTAALAALSTDNAAALTKTQIAGLSSTQLNALTSGSLATFAADEVKAITTKALAGLDVSKLSTGNIAALSKAQVSALSTAQFAAMSTDQIKALTSDQVSGLSSAQVATLSSDELALFSTDEIKAIAATAVSGLTTAAITSLTTDNAAALTKTQIAGLSSTQLNAFNSANLATFTADEVKSITAKALGGLDATKLSTGNIAALSKAQAAALSSTQFAALSTDQIAALTSEQVSGLNSAQVATLNSTELALFSTDEIKAISANAVAGLSTAAIGGLSTAQAGALSAQQLKVMNDAQVEAVIKAYKGV				NA	NA	NA	NA	NA
BMS010_02575	2046			hypothetical protein	ATGACCGCCAACCAAGTCTCCCCATCAAATGACGACACCGCTCCGAGCGCACTCGATCTTGCGCGGAACCAGCGGCTGAGCCTCATGGATCTGCTGAGCATATCAGAGGCGCTCAATGCCGCCGGGCAACAGGCGGCGGCGGCGGAACTTTACAAGACCTGGGTCGCATTCAACGACAACAACCCGACGATCCATCTCGCCTATTTCAACTATGCCGTCATGCTCAACCAGCTGGGCGACCGGGCCGGCGCTGTACAGGCGTTTCGCGCCTGCCTGAAGGCCAACCCGGAATTCGCGCCCGGCCATATCAATCTCGGCCGCGCGCTTGAAGATGCCGGGCTGATCGGCCACGCGGTGGAGCAATGGTCGCATTATGCCGAAGCGACGAAAAGCGTCGACGCCGAGACAATCGGCCATCGGCATATGACCCTGCAGAATATGGGCAGGGTTCTAGAAGGCGCCGGAAAGCTCGAAGAGGCCGAGACCGCCTTGCTACAGGCATTCGAACTGCGGCCGGAACTGCCGGAGGCCGGCCAGCACTGGGCATCGTTGCGGCAGCGCCAGTGCAAATGGCCCATACTTGCCCCTTCGAGCCATATTCCCGTGCGCAAGATGCTCGATGCGATGTCGTCGCTGACGCTGAGCTGTTACGCCGACGACCCGATGTTCCAGCTCGCCAAGGCATATCGCCTCAGCAAGATGCTGGTCGGTGCGCGTCCAGACCTCAGCCGGTTCCCGCGCAGATCACCCAAGCAGAAATCCGGCACCGGCCAGCGTCTGCGCGTCGGCTATCTTTCGTCGGATCTTCGCGATCATGCCGTCGGCTTCGCACTCTGCGAAGTTCTGGAACTGCATGACAAAGATAGCATCGAGGTCTTCGCCTATTATTGCGGCAATGTCCGCGGCACTGACAGCACGCAGGCACGCATCAAGGCCGCGGTTCATTGCTGGCGTGATATTCACGGCATGGATGACGCCACCGCGGCATCTCAAATCATTGCCGACGAGATCGATATATTGATCGACGTGAATGGCTACACCAAGGATGCCCGCACGAAAATTTTCGCCTATCGCCCCGCACCGGTCATCGTCAGTTTCTGCGGTTACCCGGGATCGATGGGAAGTCCGTTCCATCAATATCTGATCTCGGATGGTTACATGATCCCGCCGGAGAACGAGATCTATTATTCCGAGAAGGTGCTCCGCATCGCCTGCGACCAGCCCCTCGACCGGAAGCGGTCCATCGCCCCCCGGCCGACCCGGGCAGAGGTCGGACTGCCGGAGGATGCATTCGTTTATGCCAGCTTCAACGGCATGCAGAAGATCACGGAAAACTGCTTCGCCCGCTGGATGACGATCCTGTCTGAGACGCCCGGCAGCCTGTTATGGCTGCTGGCGGGTGATGACGACGTCAATCAACGGCTGCGAGACCTTGCGGAAAAGAGCGGCGTCGCGTCCGACAGGCTCATCTTCGCACCGAAGGCCCAGAACCCGCAGCATATTGCGCGCATCGGCCTTGCCGATCTGTTTCTCGACACGTTCCCCTATGGCGCGCATTCCACGGCGTCGGATGCGATAACCTCGGGCCTGCCGGTTCTCACCATGTCCGGCAAGACCTTTGCCGCACGCTTCTGCGGCAGCATCGTCACCGCGGCGGGCGTGCCGGAGATGATCTGCTCCTCACCGGAAGATTATGTCGCCCGCGCCATCGGTTTCGAACGCGACCGCAAAAGCCTTCTGGAGGTCAGGGAATCGATCGCCCGGCAGCGCGACACCAGCGTCCTGCGCGATATTCCCGCCCTGGCGCGGCGTCTCGAAGAACTCTTCTGGCAAATGCAGGGTGAATGCGAGCGTGGCGAGACCCCGGTGCCCGACCTCAGCAATCTCGATATTTATTACGAAGCAGGTGCAGAAGCGCTGCAGGAAAACATCGAGTTCGAGGACGAACAGAGTTACCGCGAGCGCTACCTGAAGAAGCTGAGGCAATGGCACGACTATGCGCCAATCCCCTATGACCGCCGCCTCTGGCAGAAACCGGACAATTGA	MTANQVSPSNDDTAPSALDLARNQRLSLMDLLSISEALNAAGQQAAAAELYKTWVAFNDNNPTIHLAYFNYAVMLNQLGDRAGAVQAFRACLKANPEFAPGHINLGRALEDAGLIGHAVEQWSHYAEATKSVDAETIGHRHMTLQNMGRVLEGAGKLEEAETALLQAFELRPELPEAGQHWASLRQRQCKWPILAPSSHIPVRKMLDAMSSLTLSCYADDPMFQLAKAYRLSKMLVGARPDLSRFPRRSPKQKSGTGQRLRVGYLSSDLRDHAVGFALCEVLELHDKDSIEVFAYYCGNVRGTDSTQARIKAAVHCWRDIHGMDDATAASQIIADEIDILIDVNGYTKDARTKIFAYRPAPVIVSFCGYPGSMGSPFHQYLISDGYMIPPENEIYYSEKVLRIACDQPLDRKRSIAPRPTRAEVGLPEDAFVYASFNGMQKITENCFARWMTILSETPGSLLWLLAGDDDVNQRLRDLAEKSGVASDRLIFAPKAQNPQHIARIGLADLFLDTFPYGAHSTASDAITSGLPVLTMSGKTFAARFCGSIVTAAGVPEMICSSPEDYVARAIGFERDRKSLLEVRESIARQRDTSVLRDIPALARRLEELFWQMQGECERGETPVPDLSNLDIYYEAGAEALQENIEFEDEQSYRERYLKKLRQWHDYAPIPYDRRLWQKPDN				NA	NA	NA	NA	NA
BMS010_02576	1158	rfbD_1		UDP-galactopyranose mutase	ATGTTCGCGGACGAAAGAATTGTCATTGTGGGCGCCGGGCTTTCCGGCGCGGTCATTGGCCGGGAGCTGGCGCTGGCAGGCCACAGGGTCGATATCGTCGATGCCCGCGATCACATTGCCGGCAATTGCCACACCGAACGCGACGGTGAGACCGGCGTTATGGTGCATGTTTACGGTCCGCATATTTTCCATACCGACGACAGGGAAGTCTGGGACTATGTGAACGGCTTTCAGACATTCATGCCTTACAAGAACCGGGTCAAAACGACGAGCGGCGAGCGCGTCTATTCGCTGCCGGTCAATCTGCACACGATCAACCAGTTCTTCGGCAAGAATTTCCGGCCCGATGAAGCCAGAGCCTTCATCGAGGAAAAGGCCGACAAGTCGATTACCGATCCGCAGACCTTCGAGGAGCAGGCGCTGCGCTTCGTCGGCCGCGATCTCTATGAAGCCTTCTTCAAGGGATACACCGAGAAACAATGGGGCTGCTCGCCGACGGAACTGCCGGCCTCGATCCTGAAACGCCTGCCCGTGCGCTTCAACTATGACGACAACTACTTCTTCCACAAATATCAGGGCATGCCGGAAACCGGCTATACGGACATGATCGAACGCATCCTCGATCATCCGAATATCAGCGTCAAACTTGGCACCCATTTCCAGCGCGCCGAAGCGCCGGCCTCCGCACACGTCTTCTATTCCGGTCCGCTCGACGGCTATTTCGACTTCGAATTCGGCCGTCTGGCGTACCGGACGCTCAATTTCGAACGTTTCACCTATGACGGCGACTATCAGGGCTGCGCGGTGATGAATTATGGCGACGTTTCGGTGCCCTTTACCCGCATCACCGAACACAAGCACTTTTCTCCGTGGGAAGACCATGCCGGCTCAGTCTGCTACAGGGAATTCTCCCATGAATGCGGCCCGCAGGACATTCCCTATTATCCCATCCGGCTGGTCGAGGACAAAGAACAACTCGCCGAATATGTGGCGCGCGCCGAACGGGAAGCGTCGGTCACCTTCGTTGGGCGGCTCGGGACCTACCGTTATCTCGACATGGATGCGACCATTCGCGAGGCGCTCGACACCGCCCGGCTCTATCTCGCCCGGCGAGCGGAGGGCGCTCCCATGCCGGCATTTCTGCATTCACCCCTTTGA	MFADERIVIVGAGLSGAVIGRELALAGHRVDIVDARDHIAGNCHTERDGETGVMVHVYGPHIFHTDDREVWDYVNGFQTFMPYKNRVKTTSGERVYSLPVNLHTINQFFGKNFRPDEARAFIEEKADKSITDPQTFEEQALRFVGRDLYEAFFKGYTEKQWGCSPTELPASILKRLPVRFNYDDNYFFHKYQGMPETGYTDMIERILDHPNISVKLGTHFQRAEAPASAHVFYSGPLDGYFDFEFGRLAYRTLNFERFTYDGDYQGCAVMNYGDVSVPFTRITEHKHFSPWEDHAGSVCYREFSHECGPQDIPYYPIRLVEDKEQLAEYVARAEREASVTFVGRLGTYRYLDMDATIREALDTARLYLARRAEGAPMPAFLHSPL	PGPT0022675_686	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GLYCAN_BIOSYNTHESIS,PGPT0022675-glf-K01854	NA	NA
BMS010_02577	5187			hypothetical protein	ATGACGTCGATCATTTCTTCCCTGAACGTCAATCAGATCAGATATCTCTCGACAGAGGCGGTCGCGGCCTGGACAACCGAGGACGTCGCGTCGCTCTCTACAACGCAGATCAAGGCGCTCTCCTCGGATCAGATCGCGGCACTGGATGTGGAGGATGTGAAAGTCCTCAACTCACAACAGTTGAGCGCCATTTCGCAGGGCGCCATCGTTGGCCTGACACTGGATCAGCTCAACATTCTCGATCAATACGCCATCAAAAGCCTGAATTCGAGCCAGATTTCTGCGCTCACCACCACCCAGCTCCATGCCCTGACGACGGAACAGGCGGAGGCTTTGACCTCATCTCAGGTGCGCGCCCTCAATGCGACGCAAATTGCCGCCCTGAGCGCTGAAGATATAGCGACGTTCTCAACCGCCGATATCGCAGCGCTCACGAGCAAAGCCATGCCGGGCCTGAGCACCGAGGTGATCGCAGGGCTGACCCCGGATCAGATCGCGGCCCTGAGCACGAGCGCCGTTGCGAGCCTGACGACCGACCAGATCGCCGTCCTGAGCCCGGAACAGGCCGAAGCCCTGTCGCCGGCGCAGGTCAAAGTGCTGAGCTCGATGCAACTCGCTGCCCTCGGCACAGACGACATAGCGACATTCTCGACCGCCGACATCGCGGCGATCACCGTCAAGGCCATGCCGGGCCTCAGCACCGAGGCAATCGCAGCGTTTAGCCCGGATCGGATCGCCGCCCTCAGCGCAAGCACGATTGCCGGCCTGATGATCGACCAGATCGAAACCCTGAGCACCGCCCAGATCGCCGCATTGACGACGGCCCAGATTGCCGCACTCAAGACGACGCACATCGCCGCCTTAAGCACCAGCCAGGTCGAAGCCCTGTCGCCGGAACAGGTGAGGTCGCTGAGCGCGGCGCAATTCGTGGCGCTGAGCGCGGAAGACATCGCGACATTCTCTACCGCCGATATAGCGGAGATCACCGGCAAAGCCATGCCCCGTCTGGGCACGGAGACGATCAGCACGCTGACCAAAGAGCAGATCGCCGCATTGACGACGGCCCAGATGAACGCCCTCGGCGTAGCGCAGTTCCAGGCCTTGAGCGCGGCTCAGATCGAGGCCCTGTCAACCGCTCAGATTGCCGCCCTCAGCACCGGCGTGGTCGCAAACCTGATAGCCGACCAGATCGAAGCCTTCAGCACCCAGCAGGTCGAGGCCCTGTCCTCGGCACAGGTGAAGTTGCTGAGCTCGATCCAGCTTGCGGCCCTGAGCGCGGAGGACATAGCAACATTCTCGACCGCCGATATCGCGGCAATCACCGGCAAAGCCATGTCCGGCCTGAGCGCGGACGCAATCGCGGCGCTGTCCACCGCCCAGATCGCCGCCCTGACCACCAGCGCCATTGCCGGCCTGACGGCCGATCAGATCGAAGTTCTGAGCACCGAGCAGGTTGAGGCGCTGTCTCCCACGCAGGTGAAGTCCCTGAGCTCAGCGCAGCTTGCAGCCCTGAGCATCGAGGATCTGGCGACATTCTCGACCGCCGATATCGCAGCGATCACGAATAAAGCCATGTCGGGCTTGAACACCGATGTTATCGCGGCCTTCACCACGGCTCAGATCGGCGCCCTCACCACCAGCGCCATTACCGGCCTCACCTCCGATCAGATCGAAGCCTTGAGCGGCAATCAGGTCAGCCTTCTATCCACCGCGCAGATCAAGGCCTTGAGTTCGGTTCAGGTCGCCGCCCTGGGCAACGATGTGGCCGCCCTGTCCACCAGCCAAACCGCCGTGTTGAGCACATCGGGCATCAAGGGTCTGACCAGCGATCAGGTTGCGGCCCTCAGCATCGATCAGATCGCGGCCCTGACCACAGCCCAGATCGCGGCTTTCGGCTCGGGGCAGATTGCGGCCTTGAGCACGGACAATATAGCATCGCTTTCCGTGGCCCAGCTTGCGGCAATGAGCACCTCCGGCATCCTCGGACTTTCGACCGGCCAGATCGCCGCCCTCAGCACCGATCAGGTTTCCAGGCTGTCGACCAAGCAGATGGCGCGGTTGAGCGCGGCACAAATTGCCACCCTCGGCACAGACGACATAGCCGCTCTTTCAACGGCCCAGATCGCCTCCCTGAGCGCTGCGGGCGTTACGGGACTAAGCGCGCAACAGCTGGCGACCCTCACCACCAGCCAGGCCGAAGCCTTGACGAGCGCGCAGATCGTCAATCTCGGCTCCACACAGATTTCGCAGCTGGGGACGGACGATCTGGCGAAATTCACGACCAAGGACATCGCCGCGATCACGTCCAGCGCAATCGCAGGACTGTCGGCAGAGACCCTCGCCTCCCTGACGACAGCCCAGATTGCCGCCCTGAATGTACAAAGCATCGGTGCGTTGAGCACCGCGCAGATCGCCGCCTTGAGTATCGCCCAGGTCGAGGCCTTGACCACCGCCCAGGTCGGCGCTCTCAGCTCGAAACAGATCGCCGCCTTGAGCGCGGATAACATTGCGACATTCTCGACCAAGGATATCGCCGCGATCAGTTCCAGTGCGATCTCCGGATTGTCGGCAGAGACCATCGCCTCCCTGACGACAGCCCAGATTGCCGCCCTGAACGTGCAAAGCATCGGTGCGTTGAACACCGCGCAGATCGCCGCCCTCAGCACCGCGCAGGTCGAGGCCTTGACCAGCGCTCAGGTAAGCGCTCTCAGTTCGACGCAGATAGCGGCCCTGAGCGCGGAGGATATGGCGACGTTCTCGACCAAGGACATTGCCGCCCTCAGCTCGAATGCAATCCCGGGCCTCTCCACCCAAACCATAGCGTCGCTGACGACAGCACAGATCGCAGCGCTGAGTACGGCTGGCATTGGCGGGTTGAGCACCGGACAGGTTGCAGCGCTTACTGGCGATCAGGTGGACGTCCTGACCAGTACCCAAATCGCGGCACTCACCTCCAAACAGGTTGCGGCCTTGAGCGTGGCTGACATCGCCTCGCTTTCAGCAGCCCAGATAGCCTCCCTCAGCACTGCGGGCATAACGGGCCTGACCACTGACCAGATCGCGGCCCTCGACACCGCGCAGGTCGAGGCTTTGACCGATACACAGGTCGGTGCTCTCAGCTCGAAACAGATTGCGGTCTTGGGCACGGACGACATGGCAACGTTCTCGACCAAGGACATTGCCGCGATCAGTTCAAGTGCCATCCCGGGCTTGTCGACGGAGACCATAGCGTGGCTGACCACGGCCCAGGTCGCAGCCTTGAGTGCGGCTGGCGTTGGAGGGTTGAACACCGGGCAGGTCGCAGTCCTGACGAGCGATCAAGTCGACGCCCTGATCAGTATCCAGGTCGGCGCCCTCACCTCCAGACAGGTTGCCGCCCTCAGCGTGGCCAGCATCGCTTCGCTTTCGGCAACCCAGATAGCCGCTCTCAGCACGGCGGGCATAGCGGGCTTGACCACCGATCAGATCGCCGCTCTCAACACCGCTCAGCTCGAGGCCCTCACCAGTGCTCAGATCGGCGTCCTCAGCGCAAAACAAATAGCGGCCCTCAGCGCCGGTGGCCTTGATACATTCACCGCCGCCGAGCTGGCTATCATCAGCTCGAGTGCGATCTCGGGCCTGTCGACAGCGGCAATCGCTTCGCTGACGACGGCGCAGATCGCAGCCCTCGGCGCGGCGGCAGTACCCGGCCTGACCACCGCCCAGATCGCGGCCCTCGGCACCGGTCAGGTGGATGCCCTCACCAGCGCCCAGATCGCCGCCCTCACCTCCAGACAGGTTGCGGCTCTGAGCGTGGCCAGTATCGCCTCGCTCTCGGCAGCCCAGATCGCCGCCCTCAGCACGGCGGGCACGGCGGGCCTGACCACCGATCAGATCACGGCCCTCGACACCCTTCAGGTCGAGGCCCTGACCAGTGGTCAGATCGGCACTCTCAGTTCGAAACAGATCGCGGCCCTCAGCGCCGGCGATCTCGATACATTCACTGCCGCCGAGCTGGCTGCCATCAGTTCGAATGCGGTCGCGGGCCTGTCGACAGCCACGATCGCCTCGTTGACGACCGCTCAGATCGCCGCACTCGGCGCGGCGGCAATACCGGGCCTCACCACGGATCAGATCGCGGCTCTCGGCACCGGTCAGGTGAGCGCGCTGACCAATGCGCAGATCGGCGCCCTCACCTCCAAACAGGTTGCGGCCCTGAATACGGCCGACATCGCCTCCCTTTCCGTCAGCCAGATAGCGGCTCTGGACGCCAAGGCGATTGCGGGCCTTGGCAGCGCGCAGACCGGCGCGTTGAGCATTGAACAGGTCCAGACATTATCCACCCGGCAGATAGCATCGCTGAATTCGGACGCGCTCAAAGGCCTGTCTGCCGAGATGCTGGAAACCTTCTCGACAGAGGAACTCGCGGCTATCGGCTCAACCGCGATAAAGGGACTGTCCACGGACTTTATCGCCACTCTTTCCACCGCCGAGGTTGCAGCCCTGAGCACGGCTGGCGTCGCCGGATTGACCAGCGATCAGATCAATGCCCTCGGCAAGGACCAGATCGAAGCACTCTCCACCAGCCAGATCGCCGCATTGAGTTCGGCCGGACTTGCGGGATTGACGGCGGACGATCTGGATACATTCTCGACCGGCGAACTTGCCGCCATCAGTTCGACGGCGATAAAGGGACTGTCCGCCACCGTCGTGGCCTCCCTGTCTTCTCAGGAGATCGCCGCTTTGACGACGGGCCAGGTGGCTGCACTGAGCTACGGTCAGGTCGCGGCGATGGGGTCTGCGCAAATCGGAGCGCTGTCACTGTCACAGGTCAGCGTCCTCAACGCGCTGCAGGCAGCCGCGCTTGGCGGCGACGACCTGACGGCATTTTCCACCGAGCAGATCATCAGCCTGAGTTCGAGCGCGATCTCGGGATTGGGCACCGGTACGCTCGCTGCCCTGACGGCCTCCCAGGCGGCGGCCTTCACACCAGGCCAGGTCGCCGCCATGACATCGGCGCAGGTTACGGCCTTGAACAGCGCCAAGACCACCAACAGCTCTGTCCAGGATATCGCCTCCCTGATCTCAACCACCAACGAGACGACTTCGACCCAGGGCAGCGCGACCAGCACATCAGTGGCGGCTTCGAGTGAAACGCAGGAGACGTCTGACGTCGCTGCAACCATTTTGTCTTATCTGGACGTCTGA	MTSIISSLNVNQIRYLSTEAVAAWTTEDVASLSTTQIKALSSDQIAALDVEDVKVLNSQQLSAISQGAIVGLTLDQLNILDQYAIKSLNSSQISALTTTQLHALTTEQAEALTSSQVRALNATQIAALSAEDIATFSTADIAALTSKAMPGLSTEVIAGLTPDQIAALSTSAVASLTTDQIAVLSPEQAEALSPAQVKVLSSMQLAALGTDDIATFSTADIAAITVKAMPGLSTEAIAAFSPDRIAALSASTIAGLMIDQIETLSTAQIAALTTAQIAALKTTHIAALSTSQVEALSPEQVRSLSAAQFVALSAEDIATFSTADIAEITGKAMPRLGTETISTLTKEQIAALTTAQMNALGVAQFQALSAAQIEALSTAQIAALSTGVVANLIADQIEAFSTQQVEALSSAQVKLLSSIQLAALSAEDIATFSTADIAAITGKAMSGLSADAIAALSTAQIAALTTSAIAGLTADQIEVLSTEQVEALSPTQVKSLSSAQLAALSIEDLATFSTADIAAITNKAMSGLNTDVIAAFTTAQIGALTTSAITGLTSDQIEALSGNQVSLLSTAQIKALSSVQVAALGNDVAALSTSQTAVLSTSGIKGLTSDQVAALSIDQIAALTTAQIAAFGSGQIAALSTDNIASLSVAQLAAMSTSGILGLSTGQIAALSTDQVSRLSTKQMARLSAAQIATLGTDDIAALSTAQIASLSAAGVTGLSAQQLATLTTSQAEALTSAQIVNLGSTQISQLGTDDLAKFTTKDIAAITSSAIAGLSAETLASLTTAQIAALNVQSIGALSTAQIAALSIAQVEALTTAQVGALSSKQIAALSADNIATFSTKDIAAISSSAISGLSAETIASLTTAQIAALNVQSIGALNTAQIAALSTAQVEALTSAQVSALSSTQIAALSAEDMATFSTKDIAALSSNAIPGLSTQTIASLTTAQIAALSTAGIGGLSTGQVAALTGDQVDVLTSTQIAALTSKQVAALSVADIASLSAAQIASLSTAGITGLTTDQIAALDTAQVEALTDTQVGALSSKQIAVLGTDDMATFSTKDIAAISSSAIPGLSTETIAWLTTAQVAALSAAGVGGLNTGQVAVLTSDQVDALISIQVGALTSRQVAALSVASIASLSATQIAALSTAGIAGLTTDQIAALNTAQLEALTSAQIGVLSAKQIAALSAGGLDTFTAAELAIISSSAISGLSTAAIASLTTAQIAALGAAAVPGLTTAQIAALGTGQVDALTSAQIAALTSRQVAALSVASIASLSAAQIAALSTAGTAGLTTDQITALDTLQVEALTSGQIGTLSSKQIAALSAGDLDTFTAAELAAISSNAVAGLSTATIASLTTAQIAALGAAAIPGLTTDQIAALGTGQVSALTNAQIGALTSKQVAALNTADIASLSVSQIAALDAKAIAGLGSAQTGALSIEQVQTLSTRQIASLNSDALKGLSAEMLETFSTEELAAIGSTAIKGLSTDFIATLSTAEVAALSTAGVAGLTSDQINALGKDQIEALSTSQIAALSSAGLAGLTADDLDTFSTGELAAISSTAIKGLSATVVASLSSQEIAALTTGQVAALSYGQVAAMGSAQIGALSLSQVSVLNALQAAALGGDDLTAFSTEQIISLSSSAISGLGTGTLAALTASQAAAFTPGQVAAMTSAQVTALNSAKTTNSSVQDIASLISTTNETTSTQGSATSTSVAASSETQETSDVAATILSYLDV				NA	NA	NA	NA	NA
BMS010_02578	1428			hypothetical protein	ATGTCAGTGAGCCGGAAGAATGCCATTGTCGCTATCATAGGCGGTGGATTTAGCGGGGCAGCGATTGCCCTTCATCTCCACCGAGCCGCTGGGGCGTTCGAAAATGTGCGGATCGTCGTGTTCGAGCCGAGAGCGGCGTTGGGTGCGGGGCTTGCCTATTCCACACCGGAGCCGGCCAACCGGATCAACGTGCCGGCCGGGCGCATGACGCTTTATCCTGATGATCCGGATAATTTCCTCCACTATCTCGACAGGTCGAACGCGCTTGCGGGCGATGCAGCAGCGGTGTTGCCCGATGGGCAGGCCTATCCGCAACGCAGGGTCTTCGGCGCCTATGTCGCGGCCGAGATCGCGCCTTTGCTGGATGCGGGCATTGTTGAGCACAGGCGCAGCACGGTGAAGCATGTGGCTCGCCATGCGGATGGTTGGGAGCTGAAAACCGCAGAGGGCGACAGCCACTTCGCGGACATCGTGGTGGTTGCGACGAGCCATCCGCCGCCAGCGCTTCCGCAGGTGTTGAAACCGCTTGCCGGCCATCCGAAACTGGTGGCGGACTTGAATGCGGACGCTGCGCTGGAAAATATCGCCGCGGGTGACCGCATTCTAATCGTCGGCAATGGCTTGACCGCGGCTGATGCCTTTGCCGCGCTCCACCGGCGCGGCCATCACGCGCGGGTCGTTTCGCTGTCGCGCCGCGGTTTGCGGTCGCGTGGCCATCCGGCCTTGCCGCAGGAACCCTACGGCGATTTTGTCGATCCGCCGTCCAAAAGCGCGTCGGAACTATTGCGGCGGATTCGAGAGGCTGTGCGAGTGTCGCAAGCGGGCGGTGCGAGCTGGCACGGCGTTCTGGACGCCGTTCGCCTGCAGGGACGCGACATATGGCGGAACCTTCCGCTGATCGAAAAGCGCAGGGTGGTGCGGTGGCTGCGGCCCTTCTGGGACGCGCACCGGTTCAGGATCGCGCCGCAGGTGGAGAAACTTCTGGATGAGGCCATAATTTCGGGCCAGCTACAGATCGTCGCCGGGTCGCTTGTTTCCGCAAAGGCTGGCGAAGACGGTTCGTTGCATGTCGATCTGCGGTTTCGCGGCAAAAGGGAAATCGCGCGGCTCGACGTCGATGCTATCGTCGTGACAACCGGTCCCGCCCATGGTGGAATTCTGAAATCGCAGGCTTTTCTTTCCGGTCTGGAGCAGGCGGGTCTTCTGACCTTTTGCCCGACGGGGCTGGGCATCCACTGCGACGAGCGATCCCGCGCCATCGACAGCCGCGGCCAGGCCATTGAAACGCTGCTGATCGGCGGTCCGCTGGCGCGCGGAACCTTCGGTGAACTGATGGGCCTGCCCCAGGTTACCGAGCACGCGATCTTCGTTGCCGGAGAGATCGCACGGAACCTTGCGCCAGCGGCGAGCAGCCCGGCCCCGGTCTGA	MSVSRKNAIVAIIGGGFSGAAIALHLHRAAGAFENVRIVVFEPRAALGAGLAYSTPEPANRINVPAGRMTLYPDDPDNFLHYLDRSNALAGDAAAVLPDGQAYPQRRVFGAYVAAEIAPLLDAGIVEHRRSTVKHVARHADGWELKTAEGDSHFADIVVVATSHPPPALPQVLKPLAGHPKLVADLNADAALENIAAGDRILIVGNGLTAADAFAALHRRGHHARVVSLSRRGLRSRGHPALPQEPYGDFVDPPSKSASELLRRIREAVRVSQAGGASWHGVLDAVRLQGRDIWRNLPLIEKRRVVRWLRPFWDAHRFRIAPQVEKLLDEAIISGQLQIVAGSLVSAKAGEDGSLHVDLRFRGKREIARLDVDAIVVTTGPAHGGILKSQAFLSGLEQAGLLTFCPTGLGIHCDERSRAIDSRGQAIETLLIGGPLARGTFGELMGLPQVTEHAIFVAGEIARNLAPAASSPAPV				NA	NA	NA	NA	NA
BMS010_02579	1104	sfnG_1		FMNH(2)-dependent dimethylsulfone monooxygenase	ATGACCGCACGCACAGCCGAGCCCGTTAAATTCGCCTATTGGGTGCCGAATGTTTCCGGTGGCCTCGTCATCTCGAATATCGAGCAACGCACCAGCTGGACCATCGACTATAACCGCAAGCTCGCGCAGATCGCGGAAGCGAGCGGTTTTGATTATGCGCTGAGCCAGATTCGATTCACGGCCGGTTACGGCGCCGAGTTCCAGCATGAATCCGTGTCTTTCAGCCATTCCCTGCTGGAGTCGACAAAGACGCTGAAGGTCATAGCCGCCATTCTGCCGGGGCCGTGGAACCCGGCGCTCGCTGCAAAACAGATCGCCACGATTAACCACCTCACCAATGGCCGCGTTGCGGTCAACATTGTCAGCGGCTGGTTTCGCGGCGAGTTCCATGCCATCGGCGAACCGTGGCTCGACCACGATGAGCGCTATCGCCGCTCGGAGGAGTTCATCCGTGCATTGCGCGGCATCTGGACGGAAGACAGCTTCACCTTCCGCGGCGATTTCTATCGCTTCAACAATTATTCCCTGAAGCCGAAACCGATCGATCCGCAGCCTGAAATCTTTCAGGGCGGTTCTTCGCGCGCAGCCCGCGATATGGCGGCTCGCGTTTCCGACTGGTACTTCACCAACGGTAATACCCCGGAAGAGATTGCAAGGCAGGTCGATGACATCCGTGCCAAGGCGGCTGAGAACAATCATTCGGTCAAGGTTGGCGTAAATGCTTTCGCCATCGTGCGTGAGACGGAGGAAGAGGCAAAGGCCGTGCTTGCCGAAATCATCGAGAAGGCCAATCCGGAAGCGGTCAACGCTTTTGGCCATGAGGTGAAGAATGCCGGTAAGGCCTCCCCGGAAGGACAGGGCAACTGGGCGAAATCCAGCTTCGAGGATCTCGTTCAGTACAATGACGGTTTCCGCTCAAACCTCATCGGCACCCCCCAACAGGTGGCGGAGCGCATCGTGCGCCTGAAGCGCGCCGGCGCCGATCTCATCCTGCTCGGTTTCCTGCATTTCCAGGAGGAGGTCGAGTATTTCGGCAAGCACGTCATTCCGCTGGTGCGCGCGCTCGAAGAGGCCGAAGAAAGCGCGGCGATTGCAGCCGAATAA	MTARTAEPVKFAYWVPNVSGGLVISNIEQRTSWTIDYNRKLAQIAEASGFDYALSQIRFTAGYGAEFQHESVSFSHSLLESTKTLKVIAAILPGPWNPALAAKQIATINHLTNGRVAVNIVSGWFRGEFHAIGEPWLDHDERYRRSEEFIRALRGIWTEDSFTFRGDFYRFNNYSLKPKPIDPQPEIFQGGSSRAARDMAARVSDWYFTNGNTPEEIARQVDDIRAKAAENNHSVKVGVNAFAIVRETEEEAKAVLAEIIEKANPEAVNAFGHEVKNAGKASPEGQGNWAKSSFEDLVQYNDGFRSNLIGTPQQVAERIVRLKRAGADLILLGFLHFQEEVEYFGKHVIPLVRALEEAEESAAIAAE	PGPT0002830_439	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-SULFONE_DEGRADATION,PGPT0002830-sfnG-K17228	NA	NA
BMS010_02580	591	sfnF	COG0431	NADH-dependent FMN reductase SfnF	ATGAAGATCCTTGGCATTTCCGGTAGTGTGAAGCGGCCGTCCCGCACGGCGCACGTCGTTGAACGAATTGTTGCCGCGATCGGGCGGACGGCGAAGGTTGAAACCGACCTCATCGATCTTGCCGATGCCGCCCCGGTTCTATTTCGGGCATTGCGCGCAGATGAGCTCGACGAGGCCGGGCGTGCGATTGTTGATGCCGTGGAGGCTGCCGATGTGCTCGTCGTCGGTTCGCCGGTCTATCGCGCGTCCTATACGGGCGCGCTCAAGCATTTATTCGATCTCGTTGATTTCCGTGCCCTGCAGGGTCGACGCGTGATCCTTGCTGCGACCGGCGGCTCGCCGCTGCATGGCCTGATGCTGGAACACCAGTTCCGTCCGCTGTTCGGCTTCTTCGGCACTGTCACCGTGCCGACCACGGTTTATGCCATCGAGGCGGATTTTACCGGATACACGCTTTCAAACCCGGCCGTCGAAGCGCGCATTGAGCGCGCCGTCGCCGATCTGTTCGAGCTTTTACCCGCCAAAGCGTTTGGCGGCGGCGATCACCATCCGACCCTTTCCGTCGTTTCACGCGAAGCGGCTGCCAACTGA	MKILGISGSVKRPSRTAHVVERIVAAIGRTAKVETDLIDLADAAPVLFRALRADELDEAGRAIVDAVEAADVLVVGSPVYRASYTGALKHLFDLVDFRALQGRRVILAATGGSPLHGLMLEHQFRPLFGFFGTVTVPTTVYAIEADFTGYTLSNPAVEARIERAVADLFELLPAKAFGGGDHHPTLSVVSREAAAN	PGPT0003045_659	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0003045-ssuE-K00299	NA	NA
BMS010_02581	1944			hypothetical protein	ATGTCTTTCCTGAACAATACCAAGATAAAAACGAAGGTCGTTTTTGTCATCTCGTTGATGAGCCTGATGTCGCTTTCCGGAATAAGCTACGTCAGCCTGCAATATAAAGGCACCGACAGCGTCTATAGCGATTTCATCGGCCATGAGGCCCTTGCTGCAGTTCTGAACGCCAGAACCAGCGGGAACCTCAATGCACTTGGCATGCAGATGCTTCGCGCCAGCCTTAACGACCCGGCCAGCGCTGATTTCGAAGCTGCCGTCAAAACCTTCCGAGCCGACCGTAAGCAGCTCGAGGAACGCCAGAACAAGATCATGGAACTGGTGCCGGCGCGCACGGATGCCGCCCGCGATATCCTCAAGGGTGTTGTCGAAGTCGAGGAGATCGGCAATCAGGTCATCGCCCTCATGCAGGCAGGGCAACGCGCCGAAGCGCAGCAGATGGCGCTCAACGTGCTTCGGAAAATTGCCGAAGTCTCGCCAAAGATCAGCGCCGGCAATGAGCAGCTCATCCAGGTGATGAATGAGGGGAGAGAACGCCTTACAGCCAGCACCAATACGACGATCTGGACGGGTCTGATTACGCTCGCGCTCGTTTCGCTGGCCGTGATCGCACTTGGCCTGCTCATTTCCTCCCGGGGTATCACCACCCCGATTGCGCGGCTTCGTGCGCGCATGGAATCGCTGGCGGCCGGTGATACGGCAAGCGAAATTTCCGGAATGGATCGCAGGGATGAAGTCGGCCAGATGGCCGCTGCGGTTCAGGCGTTTCGCGAAAGCGCAATCGAACGCTTCCGGCTTGAGAATGAAACGGAGGCCAACCGGTCGACTTCTGAAAAGGACCGGATCGAGCGCGAGAAACAGAAGGCCAGGGAAGCTGCCGACGTACAGTTTGCCGTCGACAATCTTGCCACGGCCCTTTCGAAGATCGCGCAGGGCGACGTTACTTACCGGATCGTTCAGCCTTTCGTCTCCGGTCTTGACGGTATCCGCGGCGATTTCAACCGGGCTGCGGAACAGTTGCAGTCGACCTTGAGCCAGGTGGCGCAGAACGCGCGCGGCATCGACGCCGGCGCCAACGAGATAAGGTCTGCGGCGGACGATCTGGCGAGGCGCACGGAGCAGCAGGCTGCCGCCGTTGAAGAGACTGCGGCTGCGCTGGAAGAGATCACCACGACGGTGAAGGACGCCACGAAACGGGCGCAGGAAGCGGGTCACCTTGTCGGCCGTGCAAAAGTCGGCGCTGAAAAATCCGGAGAGGTGGTGCAGCAGGCCGTCGCTGCAATGGAGCAGATCGCGACATCCGCCAATGAGATTTCCAACATCATCGGCGTGATCGACGAGATCGCGTTCCAGACAAACCTTCTGGCGCTGAATGCGGGCGTTGAAGCTGCCCGTGCGGGTGAGGCGGGCAAGGGCTTTGCCGTTGTCGCGCAGGAAGTTCGCGAACTGGCGCAACGCTCTGCCGGTGCGGCCAAGGAGATCAAGAACCTGATCACGACTTCCAACGGTCAGGTTCAGCAGGGCGTGCAGCTGGTTGGTGAAACCGGCAAGGCGCTGGAACTGATCGTGACGGAGGTGCAGGAAATCAACCGGCACGTTGCCGCCATCGCGGAATCAGCACAGGAGCAATCCTCCGGCCTTCAGCAGATCAATACGGCCGTGAACCAGATGGATCAGGACACCCAGAAGAACGCCGCCATGGTGGAAGAAAGCACCGCCGCCAGCCACGGGCTTGCACGCGAGGCCTCTTCGCTGAACGGGCTGATCGCGCAGTTCAAACTGTCCGAAGGCGGTTATGGCGAGGCCTCCGCGCCCCTGCGCACGGCATCGGTCGCTGACAGGCCCGCAGCCTCTCCCGCGCGTGCGCTTGGCGGCAGGATAAGGGTCGCGTTTTCAGGCAATGCCGCGTTGAATACTGCCCCCGACAACTGGGAAGAGTTTTGA	MSFLNNTKIKTKVVFVISLMSLMSLSGISYVSLQYKGTDSVYSDFIGHEALAAVLNARTSGNLNALGMQMLRASLNDPASADFEAAVKTFRADRKQLEERQNKIMELVPARTDAARDILKGVVEVEEIGNQVIALMQAGQRAEAQQMALNVLRKIAEVSPKISAGNEQLIQVMNEGRERLTASTNTTIWTGLITLALVSLAVIALGLLISSRGITTPIARLRARMESLAAGDTASEISGMDRRDEVGQMAAAVQAFRESAIERFRLENETEANRSTSEKDRIEREKQKAREAADVQFAVDNLATALSKIAQGDVTYRIVQPFVSGLDGIRGDFNRAAEQLQSTLSQVAQNARGIDAGANEIRSAADDLARRTEQQAAAVEETAAALEEITTTVKDATKRAQEAGHLVGRAKVGAEKSGEVVQQAVAAMEQIATSANEISNIIGVIDEIAFQTNLLALNAGVEAARAGEAGKGFAVVAQEVRELAQRSAGAAKEIKNLITTSNGQVQQGVQLVGETGKALELIVTEVQEINRHVAAIAESAQEQSSGLQQINTAVNQMDQDTQKNAAMVEESTAASHGLAREASSLNGLIAQFKLSEGGYGEASAPLRTASVADRPAASPARALGGRIRVAFSGNAALNTAPDNWEEF	PGPT0015710_9437	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_02582	777	ribX_3		Riboflavin transport system permease protein RibX	ATGCAAGCCGTTAATGTTCGTATCATCCAGATCGCTCTTCTGGTCGTGCTTTTGGGCGGGTGGCAGCTCGGTGTGACCTCGGGCGCCATCGACCGCTTCTTCTTTCCGGCACCCTATGACATCGTCAAACAGGTGATTGACTGGGTTGCCGATGCCGGTTTTTACAAACATGTCGGCATCACGCTGAGCGAAACCGTGCTGGGCTATCTCATCGGTACAGGTCTCGGTGTCGGCGCCGGCGTCTGGCTGGGCCTCAGCCCCTTCGTCGCGCGGGTGCTCGATCCGTTCATCAAGGCCGTGAACGCCATTCCGCGTGTCGTTCTGGCTCCGATCTTCGTGCTCTGGCTCGGTCTTGGCCTGTGGTCCAAGGTTGCGCTTGCGGTTACGCTCGTCTTCTTCGTCACCTTCTTCAACGCCATGCAGGGCGTGCGTGAAGTGAACCCGGTCGTGCTTTCCAATACCCGCATTCTGGGCGCCAAGCGTTCGGATCTGCTGCGTCACGTCTATTTCCCGGCGGCGGCGAGCTGGATTCTATCGTCGCTGCGCACCTCCGTCGGATTTGCAGTGGTCGGCGCAATCATCGGTGAATATCTGGGAGCTTCCGCCGGTCTCGGCTACCTGATCGCCCGCTCGGAAGGCAACTTCGATGCGGTCGGCGTCTTCGCAGGCATCATCATTCTGGCGGTGTTCGTTCTTGTTATTGACCTCATTCTGGATTTTGCGGAGAAGAGGTTGATTACCTGGCGACCCAATGCAGGCGAGGAGCGTCCCGCGTAA	MQAVNVRIIQIALLVVLLGGWQLGVTSGAIDRFFFPAPYDIVKQVIDWVADAGFYKHVGITLSETVLGYLIGTGLGVGAGVWLGLSPFVARVLDPFIKAVNAIPRVVLAPIFVLWLGLGLWSKVALAVTLVFFVTFFNAMQGVREVNPVVLSNTRILGAKRSDLLRHVYFPAAASWILSSLRTSVGFAVVGAIIGEYLGASAGLGYLIARSEGNFDAVGVFAGIIILAVFVLVIDLILDFAEKRLITWRPNAGEERPA	PGPT0001145_6799	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050	NA	NA
BMS010_02583	822	tauB_2	COG4525	Taurine import ATP-binding protein TauB	ATGTCTTCGCCAGCCAGAAAGCTAGAACCCGTGACAGAACTCGAACCCCAGCCGATGGTGGCAATCGACGACGTGACCATGGCGTTCGGTTCGTTTGTTGCGGTTCAAAACGTCAATCTCAAGGTCGGCGATGGCGAGTTTCTCTCCATCGTTGGGCCGACGGGATGCGGAAAGTCCACCATTCTCAACGCCATCGCAGGCCTGCTGAAGCCAGCGCAGGGCAAGGTTTCCATCGACGGTTCGCTCGTTAAGGGCGTACAGAACAACATCGGATATCTGTTCCAGCAGGACGCGCTTCTTCCCTGGAAGACAGCGTTTCAGAATGTCGAGCTTGGCTTGATGTTCCGGGGCGTTCCCGAAAATGAGCGGCGCGCCAAGGTTCAGGCCTGGCTTGAAAAGGTCGGCCTCAAGGGCTTCGGAGACCGCTTTCCGCATCAGCTCTCCGGCGGACAGCGCAAACGCGTGCAGATGGCGCAGGCGCTCATCACCGAGCCGAAGGTCATCCTGATGGATGAACCCTTCTCCGCTTTGGATATCCACACCCGCCACCTCATGCAGAACGAGTTACTGCGCCTGTGGCAGGAGGACCGCCGTGCGGTGGTCATGATCACCCATGATCTGGAAGAAGCGATTGCGCTCGGAGACCGGGTTGTCGTTCTCGCTGCCGGCCCGAAGAGCCGCGTCATCGAGAGCTTCCCTGTCGATCTTGAGCGGCCCCGCAACGTCGCGGAAATCAAACTCGATCCAAAATTCATGACGCTCTATCGCGATATATGGGCGTCCCTGCGTGGCGAAGTGGAGAAAAGCTATGCAAGCCGTTAA	MSSPARKLEPVTELEPQPMVAIDDVTMAFGSFVAVQNVNLKVGDGEFLSIVGPTGCGKSTILNAIAGLLKPAQGKVSIDGSLVKGVQNNIGYLFQQDALLPWKTAFQNVELGLMFRGVPENERRAKVQAWLEKVGLKGFGDRFPHQLSGGQRKRVQMAQALITEPKVILMDEPFSALDIHTRHLMQNELLRLWQEDRRAVVMITHDLEEAIALGDRVVVLAAGPKSRVIESFPVDLERPRNVAEIKLDPKFMTLYRDIWASLRGEVEKSYASR	PGPT0001140_2811	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049	NA	NA
BMS010_02584	1002			hypothetical protein	ATGCGTAAATATCTGCTTGCAACCGCGGCGCTCTGTGCGCTGGCGGCATCTGCCAATGCCGAATCCGTCAGGATGAGCGTTGGCTCGTACAACCTCAACAACCTGCCTTTCCCCGTGGCGGCGAGCCTTGGCTTCTACAAGGAGGAGGGCCTTGATGTAACGACCGAGAACTTTGCCCAGGGCGGATCGAAGGTTCTGCAGGCGCTTGTCGCGGGTTCCACGGACGTTGCCGTGGGCTTCTACGATCATACGATCCAGATGCAGTCGCAGAACAAGCACGTGGTAGGCTTTGTGCAGCTTGCCCGCAACTCGGGCCTGGTTCTCGCCGGCAAGAACGACACGGATTTCGATCCGGCCAAGCCCGAGACGATCAAGGGCAAGAAGGTCGGCATCACGTCGCCCGGCTCCTCTTCGGACTTCTTCATTCGCTATTACATGAAGCAGCATAATCTCAGCGACAACGCCATCTCCATCATCGGCGTCGGTTCGGGCGCTGCGGCCGTTGCAGCCCTGCAGCAGGGCAAGATCGATCTGCTCGTCAATTACGACCCTGCCGCAACCATCGTCGTGGAGCGCGGGCTGGGCAAGATCCTCATCGATGCCCGTAGCGATCAGGGCGCAAGGGATGTCTATGGCGGCATCTATCCCACCTCGGTCCTTTACGCCACGCAGGACTATATCAACGCCAATCCCGAAGTGATCCAGAAGGTCACCAATGCGACCGTTCGGGCGCTGCACTGGATGAAGCAGCATTCTGCGGAGGAAATCGTCGCAAAGCTTCCCGATGATTTCGTGTCCGGCGACAAGCAGACCTACATCAAGGCCGTTGAAGCGGCCAAGGCGATCTTCTCCGAAGATGGCAAGTTTGAGCCTGCGGATCTCGAAACACCGCTGGCCGTTCTGAAAAGCTTCAATGATGCGGTCGCCAAGGCGACGATCGATCTCAACACCACCTACACCAACAAGTTCGTCGAGGCTGCGGCCTCGAAGGCCGCAAACTGA	MRKYLLATAALCALAASANAESVRMSVGSYNLNNLPFPVAASLGFYKEEGLDVTTENFAQGGSKVLQALVAGSTDVAVGFYDHTIQMQSQNKHVVGFVQLARNSGLVLAGKNDTDFDPAKPETIKGKKVGITSPGSSSDFFIRYYMKQHNLSDNAISIIGVGSGAAAVAALQQGKIDLLVNYDPAATIVVERGLGKILIDARSDQGARDVYGGIYPTSVLYATQDYINANPEVIQKVTNATVRALHWMKQHSAEEIVAKLPDDFVSGDKQTYIKAVEAAKAIFSEDGKFEPADLETPLAVLKSFNDAVAKATIDLNTTYTNKFVEAAASKAAN	PGPT0001135_5667	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051	NA	NA
BMS010_02585	1083	ybhH	COG2828	Putative isomerase YbhH	ATGAACGATCTGCTGAAGATACCCTGTGTGCTGATGCGCGGTGGAACGTCGCGTGGACCGTTCTTTCTCGCATCCGATCTTCCCCGTGATCGAGCAGACCGGGACGCGGCCCTTCTTTCCATCATGGGATCTGGCCATCCGTTGCAGATCGACGGCATTGGCGGGGGCAATCCGGTCACGTCCAAAGTTGCGATTATCGGCCCTTCCACGGTCAGGGGCGCTGACATCGACTATCTGTTTGCGCAGGTTCGGACCGACAGGCAGTATGTCGACTATTCGCCCAACTGCGGAAACATGCTGGCCGCCGTTGGGCCCTTTGCCATCGAAGCGGGGCTTGTCGAAGCGCAGGGCAAGGATACTCTTGTGCGAATCCATAACGTGAATACCGGCAAGCTGATCGAGGCGAAGGTTCCAACACGCGGCCGCGAGGTTATTTATCTCGGCGACGCCTCGATCGACGGAGTTCCGGGTCTGGCGGCGCCCATCGCATTGACATTCATGGATGCGGCAGGTGCGAAAACCGGCAAGCTTCTGCCCACCGGAAAGCCGGTCGATCTGATCGATGGCGTCAACGTGACGGCCATAGACTGCGCCATTCCGATGGTTCTCATCCGCGCAGCCGATCTCGGCGTGACGGGGTACGAGGATCCGCAAACCCTGAGCGCTAACAAGGATCTCATCGCACGGATGACCCGCATCCGCATCGAGGCCGGAAAGTTGATGGGAATGGGTGATGTGAAAGACATGGTCATTCCGAAACCGGTGCTCATTGCACCTGCCCGCAGAGGCGGCACTCTTTCGGTACGGTATTTCATGCCCAACGAGTGTCATCCTGCACTGGCGACGACCGGTGCCGTTGGCATCGCAACCGCGGCTGTCACCAAAGGCTCCATCGCTTATGATGTGGCCGGAGGCCTTTCGGTGCCGACCCAGATCCGCATCGAACATCCCGCCGGCCGCCTCGACGTGCAACTGGAGATGCGAAACGGCGCAATAACGGCCGGCCTCGTAAGAACGGCCCGCAGGCTTTTTGAAGGCTTTGCCTTCGCCAAACCAACTGCTGCGATTGAAGACGCAGCCTAG	MNDLLKIPCVLMRGGTSRGPFFLASDLPRDRADRDAALLSIMGSGHPLQIDGIGGGNPVTSKVAIIGPSTVRGADIDYLFAQVRTDRQYVDYSPNCGNMLAAVGPFAIEAGLVEAQGKDTLVRIHNVNTGKLIEAKVPTRGREVIYLGDASIDGVPGLAAPIALTFMDAAGAKTGKLLPTGKPVDLIDGVNVTAIDCAIPMVLIRAADLGVTGYEDPQTLSANKDLIARMTRIRIEAGKLMGMGDVKDMVIPKPVLIAPARRGGTLSVRYFMPNECHPALATTGAVGIATAAVTKGSIAYDVAGGLSVPTQIRIEHPAGRLDVQLEMRNGAITAGLVRTARRLFEGFAFAKPTAAIEDAA	PGPT0005280_144	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-GALLATE_RESISTANCE,PGPT0005280-galD-K16514	NA	NA
BMS010_02586	897	cynR_2		HTH-type transcriptional regulator CynR	ATGAGCATCAATTGTGAAATTCTGGATTTGCGGGCGTTTCAAGCTGTGGTTGAATTGGCCAGTTTCCACAGGGCCGCCGAGGCGCTGCATATCTCGCAACCGGCGCTTACCCGCCGTATCCAGAAGCTGGAGCAGGCCATCGGCGCGCCACTTCTGGAAAGAACGACGCGCCACGTTGCCCCCACCGCCATGGGACAGGAAGTCATGCCGCTCGTTCGGCGCATGCTCGAGGAGTTTGACGGATCGCTTTTTGCCATGAAGGACGGCGCGCAACGGCGCGGGCTTATCACCATGGCCTGCGTTCCCACCGCCGCCTTTTACTTTCTTCCCACCGTCATCAAGACCTTCAGCCAGCAATATCCCCATATAAGGCTACGGATCAGGGATCTGACAGCCAACGAGGGTCTGCAGGCGGTCGCCAGAGGCGAGGTGGAATTCGGCATCAACCTGATGGGCAATTCCGATCCCGAGCTTTCATTCGAGCCGCTCATCGATGACCCCTTCGTGCTGGCAATGAGGAAAGACCACCCTCTGGCAGCCTTCGAAACGATTGAGTGGGATCAGCTGGAGGCCTATCCGCTGGTCGTCGTGGACCGTTCGAGCGGCAACAGGACGCTTCTCGACAGCGCGCTTGCACGACACAATCTAAAATTGAATTGGTTTTATGAGGTGACGCACCTCAACACGTCGCTCGGTCTCGTCGAAGCCGGACTTGGCATTTCTGTCCTGCCACGGCTGGCAACGCCGCAGGACGATCACCCATTCCTTATCACCCGGCCAATCGTCAACCCCGTGGTCTCCCGTACGATAGGCATCGTGCAAAGACGAAGCAGCGCTCTTTCCCCAGCCGCCGAAAAATTTGTGAGGATGCTGCTCGAGACCTGGAAAACACAGTGA	MSINCEILDLRAFQAVVELASFHRAAEALHISQPALTRRIQKLEQAIGAPLLERTTRHVAPTAMGQEVMPLVRRMLEEFDGSLFAMKDGAQRRGLITMACVPTAAFYFLPTVIKTFSQQYPHIRLRIRDLTANEGLQAVARGEVEFGINLMGNSDPELSFEPLIDDPFVLAMRKDHPLAAFETIEWDQLEAYPLVVVDRSSGNRTLLDSALARHNLKLNWFYEVTHLNTSLGLVEAGLGISVLPRLATPQDDHPFLITRPIVNPVVSRTIGIVQRRSSALSPAAEKFVRMLLETWKTQ				NA	NA	NA	NA	NA
BMS010_02587	519			hypothetical protein	ATGGATCGGACGATGGAAGCTGACAGGGAAGATCATGTCGACCGTCTCCGTGGCCAGTGGGCGCGGGAACTGCCTGATATCGACACGGAACCGATGGCCATCTTCGGGCGCGCCAAGCGGCTCAGCAACCTTCTGGCGCCATCAATCGAGGAGACATTTGCCGGTTTCGGTCTCGACCGCGGCGAGTTCGATGTCATCGCAACATTGCGCCGGTCAGGACCGCCCTACCAGCTGACGCCGACGGAAATGTATACGACGCTGATGCTGTCCTCAGGCGGCCTGACGCACCGGCTTGATCGACTGGAAAAGGCCGGGCTTATCGAGCGCAGAAAATCGAAGCTCGATGGGCGCAGTGTCGTTGTCTGCCTCATGCCGGCGGGCATAGAGCTGGCGGAAAAGGCGTTTCGTAAGGACATGAAAAGCGAACTGAGTTTCCTGCAAGGGCTCACTCCGGACGAGCGCGACAACCTCGCGGCGCTGCTGAAAAAGCTGGTGCTGGATATCGAGGCCCGTCTTTAG	MDRTMEADREDHVDRLRGQWARELPDIDTEPMAIFGRAKRLSNLLAPSIEETFAGFGLDRGEFDVIATLRRSGPPYQLTPTEMYTTLMLSSGGLTHRLDRLEKAGLIERRKSKLDGRSVVVCLMPAGIELAEKAFRKDMKSELSFLQGLTPDERDNLAALLKKLVLDIEARL				NA	NA	NA	NA	NA
BMS010_02588	336			hypothetical protein	ATGTTTTCCATCCGCCGTCATCAGGAACCGAACCCCGGCCAGAGCCGGACGGTGCGTTATGAAGGATGCGAATACGGAAGCGCCGTATCCATCTTTCTCGTCAATGCCGATCCGGGTCGCGGCCCTGATCTGCATGTTCATCCCTATGCCGAAACCTGGGTGGTGCGCAAAGGCGAGGCCGAGTTCACAATCGGCGATCAGCGGGCGCGCGGCTCGTCGGGAGACATCGTCGTTGGGCCTGCCAATATCCCCCATCGCTTCGAAAATATCGGCACTGACCGGCTGGAGATCATCTGCATCCATCCGAGCGAGACCTTTCAGCAGGCTTTTCTGTAA	MFSIRRHQEPNPGQSRTVRYEGCEYGSAVSIFLVNADPGRGPDLHVHPYAETWVVRKGEAEFTIGDQRARGSSGDIVVGPANIPHRFENIGTDRLEIICIHPSETFQQAFL				NA	NA	NA	NA	NA
BMS010_02589	405			hypothetical protein	ATGGCCAAAATGATTTTCCTGAACCTGCCGGTGAAAGACCTGACCGTTTCGACCGCCTTCTATGAGGCAATCGGCTGCGTGAAGAACGAAGAGTTTTCCAACGAAGACGCAAGCTCGATGGTGTGGTCGGAGACCATCACCTTCCAGCTTCTGCGGCACGATTATTACAAGACCTTCACCGCCAAACCGCTCGCCGATGCCCATACAACAAGCGGCATGCTGATCGCTCTTTCGCGCGACAGCCGCGAAGAGGTTGACGCCATGGTTGACGCCGCGGCAAAAGCGGGCGGGCAAGCGGATGTCCGCGAACCCCAGGATCTGGGTTTCATGTATCTCCGCACCTTCGCCGATCCCGATGGCCACGAATTTGAACCCGCTTACATGGATTTAAGCAATGCGGGCTGA	MAKMIFLNLPVKDLTVSTAFYEAIGCVKNEEFSNEDASSMVWSETITFQLLRHDYYKTFTAKPLADAHTTSGMLIALSRDSREEVDAMVDAAAKAGGQADVREPQDLGFMYLRTFADPDGHEFEPAYMDLSNAG	PGPT0028555_1710	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-FOSFOMYCIN_RESISTANCE,PGPT0028555-putative_fosB-K07032	NA	NA
BMS010_02590	1359			hypothetical protein	ATGAGAACGGCCTCCCGTCACAAGCTTGTCCTTGGCTTTCTCGCGATCCTGCCGCTTACGGGATATGCAAACGAGAATTCACTGACGGCCCGGCAGATGCGGGAGGATTTGTCGGCGCTTAAACAACAATGGGCGCCCCTCGATAAAAGCTTCAGCCCGGATCAACGCCAGGCATTCGAGCGCCATGTCAGCTCTATCGAAAGCGAAGTTGATCGCTTGAGCCCGGAAGCTTTCGCAATGGAGATCATGCGATCTGTCGCGATTGCCCGGAACGGCCATACGAACGCCAATATCGGCGCTTTTCTGGGCGGCGACCTGCCCATTCGCCTGTGGTGGTTCGCCGACGGCCTCTATGTCGTAAAGGCCCATCCGTACTATGCGCATCTGCTCGGTGCACGTATAGAAAAGATCGGCTCGCTCACGGCAGCAGAGGCGGAAAACCGACTCAAGCCCTATCTTGCGGGCACAGATCAGAGAATCCACTTTCTCAGTCCCGGTTATCTGGTAACGCCGAGGGTGCTGCGGCATATAGGCGCCATTGACGACACCGCGAAAACACCGCTGACGCTGAATCTGGGCTCCGGAACGCTGGAGACGGTGGATTTGCCTGTTGTAGCGAAAGACCCGGGCGATGAGCGCAGCGCCGGGCTAAACAGAGGCTATGCGGTTCTCATCCCGGATGCGGAAGGGACCGCACGGCGCTGGCCGCATGTGCTCGATCAGCTAAAAGAAAGGCCTCGCTTATACAGCAAACGAAGCGATGTAACCGCGTCTTTTCTCGATGACGGAAAAACCACGCTCTACATTCGAAACGATACGGCGCGGAGTGTCGACGATAGACCGCTCGTCGAAAAATTCGGCGGCATCATTCACAAAGACATCCTGCCTTTCCAGCCGAGGCACATCGTCGTCGATCTCCGCTTCAACAACGGCGGCGATTTCTTCAACAGCATTCTCTTTGCACAGGCACTGCCCCGCCTTCTCCCTGATAAGGGGCGGATTTCTGTCCTTGTGGGACGCGCGACCTTCTCCGCAGGCATCGTCACCGCAGCCTTGATAAAGGGAAGCGGAGGCGAGCGGGTATCTCTGATCGGCGAAAAAATGGGGGATGGCGGCAGGTTCTGGGCGGAAGGCGATAAAATAACGCTGCCAAACTCAGGGATAAGCGTCCGATATAGCTCCGAATTCGAAGACTACGAGCAAGGCTGCAGCGATGTCCGAACCTGCTACTGGGCGACCGTCGCATTTGGGCCCCGCAATATCTCCCTTTCACCCGAAATCTCTGTTGATCTCAGCTTCGACGATTATATGCGCGGTCGGGATCCGGTGCTGGAAAAGGCATTAAAGCCAACGCGATAG	MRTASRHKLVLGFLAILPLTGYANENSLTARQMREDLSALKQQWAPLDKSFSPDQRQAFERHVSSIESEVDRLSPEAFAMEIMRSVAIARNGHTNANIGAFLGGDLPIRLWWFADGLYVVKAHPYYAHLLGARIEKIGSLTAAEAENRLKPYLAGTDQRIHFLSPGYLVTPRVLRHIGAIDDTAKTPLTLNLGSGTLETVDLPVVAKDPGDERSAGLNRGYAVLIPDAEGTARRWPHVLDQLKERPRLYSKRSDVTASFLDDGKTTLYIRNDTARSVDDRPLVEKFGGIIHKDILPFQPRHIVVDLRFNNGGDFFNSILFAQALPRLLPDKGRISVLVGRATFSAGIVTAALIKGSGGERVSLIGEKMGDGGRFWAEGDKITLPNSGISVRYSSEFEDYEQGCSDVRTCYWATVAFGPRNISLSPEISVDLSFDDYMRGRDPVLEKALKPTR				NA	NA	NA	NA	NA
BMS010_02591	843			hypothetical protein	ATGATTGATCTCGAAAGCATTCGCCTGTTCATTTTCTCCGTAGAGCTCGGCAGCCTGACAAAGGCGGCGGAGGCGGCAGGAACCGTGCAACCGGTCGTCAGCCAAAAATTGAAGATGCTGGAGCAGCGTGTCGGCCGGCGGCTGATCGATCGTTCGCCGCGGCATCTGCGGCTCACGGAGGATGGCCAGGTGTTCCTGCCGAAGGCTCGCGAGCTGCTCGCCAAACACGAGGAAGCACTGACCTTCGGTCATGAGTCGCCGCTGCACTTTAGCTTGGCCGCCAGTGACCACGCGATCGGGGGCCGCCTTTCGACGGCCATACGGGCGATGCGCGCGGCACTCCCAGCCAATGCGGTGATTGACGTGAATATCGGCTTTTCCCGGCACGTGAAGGAAAGTTTCGCGTCCGGACAGGCCGACGCGGCCATTATCCGGCGTAACGGCGGTGGCTCAGACGGCGAAATCCTGCGTACCGACAGGCTGGGATGGCGGGTCGCCCCGGGCTGGCGGCCACGCTCCAACGGTGCCATTCCGCTGGTGTCGCTGGGGTCCGGGTGCGGTGTGCGGGAAATTGCGGTGTCGGAGCTTAGAAGAGCCGGCGTCGAGTGGCGCGATGCTTTCACCGCCGGAAGCTGTTCGGTGCTCCATGAAGGAATTCTTGCAGGTGCGGGTGTCGCGCCGATGGGCGATATTAGTGCCCGTGGCCTGCCCGACAGGGGTGTGGAACTTGGGCTGCCTTCGTTGCCGCCTTCCGATATCGTTCTTCTTTCCCGCGCAAGAACGCCCGCACATGCATCGGCGATCAGAGCCCTGGCCGCAGCGGTATCGGGCACCGGCGACTAG	MIDLESIRLFIFSVELGSLTKAAEAAGTVQPVVSQKLKMLEQRVGRRLIDRSPRHLRLTEDGQVFLPKARELLAKHEEALTFGHESPLHFSLAASDHAIGGRLSTAIRAMRAALPANAVIDVNIGFSRHVKESFASGQADAAIIRRNGGGSDGEILRTDRLGWRVAPGWRPRSNGAIPLVSLGSGCGVREIAVSELRRAGVEWRDAFTAGSCSVLHEGILAGAGVAPMGDISARGLPDRGVELGLPSLPPSDIVLLSRARTPAHASAIRALAAAVSGTGD				NA	NA	NA	NA	NA
BMS010_02592	402			hypothetical protein	ATGCCCATGATCAAAGCGCGCTACACCAAACCCCGGAACGGACGCGACCCAAAGCTGGAAGTCGCGGCTCTTCTTTCTCGCCTCACGGCGGAAATCCTGCACAAGGACCCGGCTGTCACCGCGGTTCTCGTCGAGAGCGCCGATCCCGATAACTGGATCATCGCCGGATCGAGCGTCGCCGACCAGAAGGTCGGAAGCTTCGATGTCGAGGTTTCGATTACGGAACACACCAACATAAAGGACGAGACGACCGAATGGGTCCGGCGGGTCTATAACGATATGAACGCTCTGCTGGGCCCCGTGCACGAGGCGAGCTATGTGCTGGTTCACGCCGTCGATGGCGATGCCTATGGTTATGGCGGGCAAACCCAGAATCTGCGGTGGGCGCGCAAGCACGGCTAG	MPMIKARYTKPRNGRDPKLEVAALLSRLTAEILHKDPAVTAVLVESADPDNWIIAGSSVADQKVGSFDVEVSITEHTNIKDETTEWVRRVYNDMNALLGPVHEASYVLVHAVDGDAYGYGGQTQNLRWARKHG	PGPT0005210_125	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_CATECHOL_DERIVATE_UTILIZATION,PGPT0005210-praC|xylH-K01821	NA	NA
BMS010_02593	774		COG1028	Glucose 1-dehydrogenase	ATGTCTCAGAAACTATCGAACAAAGTCGCCCTCATAACGGGCAGTTCCCGCGGTATCGGCCGTGCGGTGGCCCTGGCGTTTGCGAAAGAGGGCGCCGGTCTTATCGGCGTCCATTATGGTGCGAACCCCGATGCGGCGCAGGCAACGATCCGCGAGATCGAGGCTCTCGGTTCGAAGGCGGTCGCTCTCAATGCCGATCTGCGGGCCGGGAAAGCGGCGACGGACAGCTTGTGGGAGCAGTTCAGGGAAGCCGCTGTCGCTTTCACCGGCTCGCCATCGCTTGATATTCTCGTCAATAATGCGGGCATTGCCCCGGCGACACCGTTGAAAGAAACAACGGAAGCCGCGTTCGACGCGTTGATGACGATCAACTTCAAGGCGCCATTCTTTCTCATTCAAGCCGTTGCCGATCATCTCCGCGACAATGGCCGCATCATCAATGTCTCGACCGGTTTCACGCGCATCGCGGCGCCGACGCACCCCGCCTATGCGGCGTCCAAGGGTGCGCTTGAGACATTGACGCTGGCGCTCGCCCCGGAATTCGGCCGACGCGGAATTACGGTCAATTCGGTGCTGCCGGGTGTCACTGAAACCGACATGAACGCCGAATGGCTGGCAGCGCCGGAGGCCCGTGCCGGTGCGGAAGCCCTGTCTGTCTTCTCGCGCGTCGGACGCGCCGACGATATTGCGGACGTCATCACATTCCTTGCCTCGAACGATGCCCGCTGGACGACTGGACAGATGATTGATGCGACAGGCGGTGCGCGGATTTGA	MSQKLSNKVALITGSSRGIGRAVALAFAKEGAGLIGVHYGANPDAAQATIREIEALGSKAVALNADLRAGKAATDSLWEQFREAAVAFTGSPSLDILVNNAGIAPATPLKETTEAAFDALMTINFKAPFFLIQAVADHLRDNGRIINVSTGFTRIAAPTHPAYAASKGALETLTLALAPEFGRRGITVNSVLPGVTETDMNAEWLAAPEARAGAEALSVFSRVGRADDIADVITFLASNDARWTTGQMIDATGGARI	PGPT0003180_6564	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0003180-ymfI|fabG|efpI-K00059	NA	NA
BMS010_02594	630	comR_2		HTH-type transcriptional repressor ComR	ATGTCTGAAACGACGCGAAAACAACGCGGTAGACCGCGCCTGCTTGATCGGAATGCCGGGCTCGATGTCGCAGCCCGGCTGTTCTGGGAACACGGCTATGAGGGAACCTCGATAGCGGACCTCACCCAGGCGATGGGCATCACCCCGCCGTCCCTCTACGCGACCTTCGGTTCAAAGGAAGAATTATTCCGGCTGGCGCTCGATCATAGCATTGCACAGCAAAGTGAACGCCGCGCCGAGGTGCTGCAGGCGCAAATACCCGCCTACGAGGCGCTCGCCTCTTACCTTTACGATATTGCTGAAGGACATACCCAGCCCGACAAACCGCGCGGATGCATCGTTTCCACCGCCGTTCTCCAGCATTCGGAAGCAAACGCCTCCGTCGCCCGCACAACGGCAGGACTGCGCGAGGCGGCAATACAGATTCTCAAGACGCGGTTCGACCGCGCCGTCAGCGAGGGCGAACTACCCACGCAAATCGACACGGATACGCTCGCCCGCTTTTACGGCGCCATCATTCAGGGCATGTCTGCGCAGGCTTGCGATGGCGCATGTACGGCCAGGTTAAAAGCTTTGGTCGACGTCGCGCTGACAGCCTGGCCCGGAAAGCGTGGGGCCGCCGGCCCTTAA	MSETTRKQRGRPRLLDRNAGLDVAARLFWEHGYEGTSIADLTQAMGITPPSLYATFGSKEELFRLALDHSIAQQSERRAEVLQAQIPAYEALASYLYDIAEGHTQPDKPRGCIVSTAVLQHSEANASVARTTAGLREAAIQILKTRFDRAVSEGELPTQIDTDTLARFYGAIIQGMSAQACDGACTARLKALVDVALTAWPGKRGAAGP	PGPT0004136_19	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004136-comR|ycfQ-K22041	NA	NA
BMS010_02595	678			hypothetical protein	ATGCCCGCTCTCGCCTTCGATATCGGCGAGATCGCCCCGACGGGGTCGATACGCGCGGCTGTGAACATCGCAAATGCCGCTCTGGTTCGTTTCGAGGAGCGAACCGGCGAACTGACAGGACCAAGCGTCGATCTTGCGAAATCGTTGGCGGCCGAAATCGGCTGCCAGCTTTTGGTCAAAGCGTACCCGTCTGCCGCGGCGATCATGGCGGCATACGAACGGAACGACTGGGATATAGCATTCATTGCGGCTGATCCATCGCGCGCAGACCGCTTTGATTTCTCGCCGCCGTACGCGTTCGTCGCCGCAACCTATCTTGTCCTACGAGATTCTCATATTTACTCGGTCGCTGAAGTCGACGTTCCCGGCTGCCGAATCTCGGCGGCAGGGGAGGCGGCGTATACCAAGCAGCTTGAAAGGCTGCTTAAGCATGCCGCAATCGTTTATACTGAAAGCCCAACCGCTGCGATTGAAATGCTTAAGACTGGAGGATGCGATGCGGCTGCGGGATTAAGAGATTTCCTCCAGGACGCTGCAGCGCAAGGTGAGCGATTGCGCACATTAGAGGACACGTTTCTTGAGATTCCACAAACTGTTGCTATCCGGAAAGGGACGAAAGCAGCGCCGTTCGTGTCGGATTTTGTGGGCACGTACGTCAAGAATTCTTTCGTCCCATAA	MPALAFDIGEIAPTGSIRAAVNIANAALVRFEERTGELTGPSVDLAKSLAAEIGCQLLVKAYPSAAAIMAAYERNDWDIAFIAADPSRADRFDFSPPYAFVAATYLVLRDSHIYSVAEVDVPGCRISAAGEAAYTKQLERLLKHAAIVYTESPTAAIEMLKTGGCDAAAGLRDFLQDAAAQGERLRTLEDTFLEIPQTVAIRKGTKAAPFVSDFVGTYVKNSFVP	PGPT0020800_17212	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_02596	771	hpcH_2	COG3836	4-hydroxy-2-oxo-heptane-1,7-dioate aldolase	ATGGAACTTCCTGTCAATCAGTTTAAAGCGAAGCTGCGCGCAGGCAAAAGTCAAATCGGACTGTGGTGCGGGCTCCCAGGAAGCTACGCGGCAGAGATCGTCGCACCGGCCGGCTTCGACTGGCTCCTCTTCGATACCGAGCACTCCCCCAGCGACGTACTGACGGTGCTTCCCCAGTTGCAGGCGGTGGCACCCTATCAGGTATCGCCGGTGGTGCGGCCCGCGGTCAACGATCCGGTGCTGATCAAGCGCTTCCTCGATATCGGCGTCCAGACGCTCCTGATCCCTTATATTCAGAACGCGGAGGAAGCTAGGGCCGCCGTGGATAGCACGCGCTATCCGCCTGCGGGTATTCGTGGCGTCTCGGCTCTAACGCGAGCAACGCGTTTTGGGCGGGTCAAGAATTACGCGCAGAATGCCGTCCAGGAGCTGTGTGTTCTTGTGCAGGTTGAAACACGGGAAGCCTTGGCGCATGTCGAGGCCATAGCCTCGGTTGACGGCATCGATGGCGTATTCATCGGCCCGGCCGATCTCGCGGCGAGCTTTGGGTACCCGGGCCAACCCGGTCACCCGGAAGTGGTCGCTGCGATCGAAGCGACGATCGCCAAGCTGAAGCGCCTCGGGGTCCCGGCCGGTATTCTCACGCCTGATGAGACCTTTGCAGCCCGCTGCATCGAGTTGGGAACGCTGTTCACCGCAGTCGGGGTCGACGTCGCCCTCCTTGCTCGCGGTGCGGAGAAGCTGGCGGGCCGGTTTGTGGGGACAACGTAA	MELPVNQFKAKLRAGKSQIGLWCGLPGSYAAEIVAPAGFDWLLFDTEHSPSDVLTVLPQLQAVAPYQVSPVVRPAVNDPVLIKRFLDIGVQTLLIPYIQNAEEARAAVDSTRYPPAGIRGVSALTRATRFGRVKNYAQNAVQELCVLVQVETREALAHVEAIASVDGIDGVFIGPADLAASFGYPGQPGHPEVVAAIEATIAKLKRLGVPAGILTPDETFAARCIELGTLFTAVGVDVALLARGAEKLAGRFVGTT	PGPT0001575_1453	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-SUCCINIC_ACID_ACID_BIOSYNTHESIS,PGPT0001575-hpaI|hpcH-K02510	NA	NA
BMS010_02597	783	hpcG		2-oxo-hept-4-ene-1,7-dioate hydratase	ATGATCAGCGAAGACCTGCGCCAGGCGGCGGCAGATGCCATATTGAAGGCAGAGACCGATCGCAAGCCGATCGTCCAGCCGAGCAAGACCTATCCTGACCTCGATCTGGAAGATGCTTACCGCATCCAGGCGCTCTGGGCACAGTCGCGTGTCTCTCGCGGCGCACGCATTATTGGTCATAAGATAGGTCTGACTTCGCGCGCCATGCAGATGGCGTCGAAGATGACCGAACCCGATTATGGTGTCATTCTAGACGACGCGCTTTACAACGACGGATCTCAAATCAGGTCCGACCTGTTCATTAAGCCGCGTCTGGAGGTCGAGCTGGCGTTCATCATGGGTGAAGACCTTGAAGGCACGGGCACCCGTATCTACGACGTCATGCGGGCAACGGAGTTCATCGTGCCGGCGCTTGAGATTATCGACTACCGGACTGAGGTGCCGCGCGCCATCACCGATACGATCGCCGACAATGCCGCCTTTGGAGCAATTGTCGTCGGCGGGCGCGTGATACGCCCCATGGATATCGATATCCGTTGGGTCGGGGCAACGCTTTCAAAAAACGGGATCATTGAAGAGTCCGGAGTGTCGGCGGCGATCATGGGTCATCCTGCCGCGGGTGTCGCTTGGCTGGTCAACAAATTGCACGCCGTTGGCGGCGGCTTGAAAAAGGGGCAAATCGTCCTTGCGGGTTCGTTTACCCGGCCGGTCGATATCCTCAAGGGTGATGTCATCCAGGCCGACTATGGTCCTGTTGGCTCAATCGGTGTTTCTTTCGTGTGA	MISEDLRQAAADAILKAETDRKPIVQPSKTYPDLDLEDAYRIQALWAQSRVSRGARIIGHKIGLTSRAMQMASKMTEPDYGVILDDALYNDGSQIRSDLFIKPRLEVELAFIMGEDLEGTGTRIYDVMRATEFIVPALEIIDYRTEVPRAITDTIADNAAFGAIVVGGRVIRPMDIDIRWVGATLSKNGIIEESGVSAAIMGHPAAGVAWLVNKLHAVGGGLKKGQIVLAGSFTRPVDILKGDVIQADYGPVGSIGVSFV	PGPT0005055_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_CATECHOL_DERIVATE_UTILIZATION,PGPT0005055-dmpB|xylE-K00446	NA	NA
BMS010_02598	894	npcC_1		Hydroxyquinol 1,2-dioxygenase	ATGGTAATCAAGACTGAGAGCGACGTGACTCCTGCCGTGCTGGCAGTAATGGAACAGACATCCAATCCGCGGGCCCGGGAAATCCTGACGGCGCTGGTGAAACATCTCCATGCGTTTGTGCGGGAAGTGCGGCTGACCGAAGTTGAATTCCGGGAGGCAACCGCCATCCTGAACGAGATCGGTCAGCTGCAGACCGATAGCCATAACGAATTCGTTTTGATGTCCGGCTCTCTTGGCGTGTCTTCTCTTGTTTGCCTTCTTAACAACGGCGACAGGGGGCAGACCGAAACCTCGCAATCGCTTCTCGGCCCGTTCTGGCGCCTTAATTCTCCTCGGGTCGAAAATGGCGGGACCATTATTCGCTCCGCCACGCCCGGCGCACCGCTGTTTGTCAGAGCGAACGTGATTGATCACGAAGGCAGGCCGATTCCGGGAGCGGAGGTCGATGTGTGGCATGCGTCTCCAGTCGGCCTCTATGAAAACCAGGATCCCGACCAGGCGGAGATGAATCTTCGCGGAAAGTTTATGACCGACGAACGAGGACGGTTCTGGTTCAGAACCGTGAAGATGGTCGGTTATCCGATCCCGGTGGACGGCGTCGTCGGGCGTCTTCTCAAGGCTCAGGGTCGCCATCCTTATCGACCGGCGCATCTGCATGCACTGATTTTCAAGCACGGTTACAAAACGCTGATCTCGCAGGTCTTCGATCCGAGCGACCCCAACATCGAGTCCGACGTTCAGTTCGGGGTCACCTCGGCGCTGACAGGTGATTTCGTCCGCCATGACGAACCGCATCCCACGGATGAAGACATTGAGAGGCCGTGGTTCTCGCTCGACTACACCTATGTGATGGAGCCCGGTGAAGCTGTCTTGCCGCGCCCACCGATCAAATAG	MVIKTESDVTPAVLAVMEQTSNPRAREILTALVKHLHAFVREVRLTEVEFREATAILNEIGQLQTDSHNEFVLMSGSLGVSSLVCLLNNGDRGQTETSQSLLGPFWRLNSPRVENGGTIIRSATPGAPLFVRANVIDHEGRPIPGAEVDVWHASPVGLYENQDPDQAEMNLRGKFMTDERGRFWFRTVKMVGYPIPVDGVVGRLLKAQGRHPYRPAHLHALIFKHGYKTLISQVFDPSDPNIESDVQFGVTSALTGDFVRHDEPHPTDEDIERPWFSLDYTYVMEPGEAVLPRPPIK	PGPT0005035_595	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_CATECHOL_DERIVATE_UTILIZATION,PGPT0005035-catA-K03381	NA	NA
BMS010_02599	732	glaR_1	COG1802	HTH-type transcriptional repressor GlaR	ATGACGCAGGCTGAGGCCCCAAATTCGCTAAACGAGCAGTCTGGAAACGGTGGCTTTTCCGATGACGGGAAGAACACGATCGGCAGCCAGCTGGCTTTTCGATTGCGGGAAGCGATCATCTCGGGTGAACTTGAAGCCGGCAGCAAGATCCATCTCGACAGGGCTCGACAGTCGTTCAACGTCAGTCTTAGCCCTCTGCGCGAAGGTCTTGCCCGGTTGATTTCCGACGGCCTTGTCGAGTTCGAGGACAATCGCGGTTATCGCGTGTCGCCGATTTCGCTGGCCAATCTCGAGGAGATCACCAGCCTGCGCGAAGAGCTGGAGGTGTTCGCCCTGAGGGAATCAATACGGGTCGGCGACGTGGCGTGGGAAAGCAATGTCATGCGTGTGCTCCACAAGCTCAACCGCACGGAACGAGATGCCAGCAGACCGGAGACGCTGGAGCATTGGGAGGCGGCCCATCGCGAATTCCACCTCGCCCTTATTTCAGGGTGCGGGAAGCCTCTTCTGCTGCACTTCTGCAAAACGCTCCTCAACCTTAACGACCGCTATCGCCGAATATTCCTGACGCAGACGTCGGGCGACCGAAACGTCGGCCAGGAACACAGCGAAATCGCCCAGGGCGCGGTCGCGAGGGACCTGGATTATGCCACGGACAAGCTCCGCCAGCACATCCATCGCACCGGTAAAAACCTGCTTGAGCATCTCGCGCGGACGGGGGTCGTGCGATGA	MTQAEAPNSLNEQSGNGGFSDDGKNTIGSQLAFRLREAIISGELEAGSKIHLDRARQSFNVSLSPLREGLARLISDGLVEFEDNRGYRVSPISLANLEEITSLREELEVFALRESIRVGDVAWESNVMRVLHKLNRTERDASRPETLEHWEAAHREFHLALISGCGKPLLLHFCKTLLNLNDRYRRIFLTQTSGDRNVGQEHSEIAQGAVARDLDYATDKLRQHIHRTGKNLLEHLARTGVVR				NA	NA	NA	NA	NA
BMS010_02600	816			hypothetical protein	ATGAAAAATCTTTCCGACATGGAAAGAGCTCCAATCGGGGTCGCGCACTTTTCCGCGATTCAACTGCCTCCGGTGCAATTCGTGGAGCAGGCTGCAGCAGCAGGTTTCAACGCGGTCGGGCTTCGGCTTCACCCCGCCTTTCCCGGGGCACCTTTTTATGAATTGCCGCAAGGCAGTAGGGCCGCATCAGAATTTCGGGCCGTACTCGACGGCGAAGGCATGAAAGTCTTCGATATCGAATTCTTTATTCTCGGGGCGGATTTTAACGCGGCCTCGGTCGAACACATCGTTGCGGCTGCGGCCGATATCGGAGCCAAGCGCTTGAGTGCTTGTGGCGACGATGATGACCACGAACGTTTGATCGGCAACCTCGTCGCGTTGTGCCAACTGGCCGCCCGTTACGGCATGGGGGTCGATATCGAAAACATGGGCTGGCGCACGATCAATACATATGCTCGCAGCGCTGCACTGGTCGACGGTTGCGAGCAAGCAAACGCAGGTGTTTTAGTTGATGCCATCCACTTTTTCCGGAACGGTGGGAACGTCAGCGAAATCAAGGCTGACATCGTGAACCACCTGCAGCTCTGCGACGTGACGGGTCCAGTCCCCTCGCGGCCCGAAGACATGGTGAATGAAGCACGGACGGGTCGGCTGGCTCCAGGCGACGGCATTCTTGCGCTCAAAGACCTGCTCGCCAAACTTGCCGGCAAGGCTGCGATATCAGTGGAGGTTCCGCTCGTCGGCGACGTCACTCCGCTGGCACATCTGAGAGATCTGAACTTGAAGACGCGGAGAGTTCTGCAGTCGGCAGACTAG	MKNLSDMERAPIGVAHFSAIQLPPVQFVEQAAAAGFNAVGLRLHPAFPGAPFYELPQGSRAASEFRAVLDGEGMKVFDIEFFILGADFNAASVEHIVAAAADIGAKRLSACGDDDDHERLIGNLVALCQLAARYGMGVDIENMGWRTINTYARSAALVDGCEQANAGVLVDAIHFFRNGGNVSEIKADIVNHLQLCDVTGPVPSRPEDMVNEARTGRLAPGDGILALKDLLAKLAGKAAISVEVPLVGDVTPLAHLRDLNLKTRRVLQSAD				NA	NA	NA	NA	NA
BMS010_02601	264	glnP_1	COG0765	Glutamine transport system permease protein GlnP	ATGGCGCTCGCCCTGGCGATCGGCATCCTGGGTGTCATCGCCCGGACCTCGAACAGGCGGATCGTGCGCGCGCCGGTCATCGCCTTCGTAGAAGTCGTCCGCAACACGCCTTTTCTGGTACAGATCTTTTATATCTACTTCGCCTTACCCCTGAAGGGCATTCGCTTTAGCCCAACAACAACGGCGATCATCGCGCTTGGCATCAATGGTGACCACATTTTACGAGGCTTGGCGGACTGTCATCCAACGTTACGGCATCTATAA	MALALAIGILGVIARTSNRRIVRAPVIAFVEVVRNTPFLVQIFYIYFALPLKGIRFSPTTTAIIALGINGDHILRGLADCHPTLRHL	PGPT0020795_8051	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
BMS010_02602	288			hypothetical protein	ATGGTGACCACATTTTACGAGGCTTGGCGGACTGTCATCCAACGTTACGGCATCTATAATCCCTATACCGGACGGGGTGCGATCAAGGGCCTGCTGCCGCAGGGACCCCATAACCTGCGGGACATTCTTGCGACGCATATTCTGAAGCAGACCGGATCCTACAAGCAGGCAAGCTATACCATTCAAGATACGCCCGATGTCGTGCGGCAGCACTACGGTCGCTTCTTACCTCAAGACAAGGCGGCCTTAGCTGCCAAAATCCTCAATCAGGTTTGGGAAGCTGCGTAA	MVTTFYEAWRTVIQRYGIYNPYTGRGAIKGLLPQGPHNLRDILATHILKQTGSYKQASYTIQDTPDVVRQHYGRFLPQDKAALAAKILNQVWEAA				NA	NA	NA	NA	NA
BMS010_02603	468			hypothetical protein	TTGGGACTGCAGGATGAGGATTTTTTCGCCAGCCTGCGGTATGTTTCGCGCCGCCTGCATCCCGGCGCGGCGGCGCAACGTGAAGGCAACGGGCTAGTGAGAAGCTGCCGGTGCGTTCCCGGTTGTGACCGTTTGCACGCGGTGCTTCACGCTTGCAACGTCACCATTTATGACGAGATCCGTGAGTTCCCTGAGGCTGGGCTGTTTGGGAACTCGGGCAAGGTCCGCGACCATTTTGTTGACGCCGCCCTCTTGGAGAAGATGCGCGACGTCTGCTTCTTCCGCAGCTCTGTCGTACAAGACCAGTACGGTTTTCGTTATGGATTTCGGGTCGTTCATATCGCAGAGAAACGGGATGACAGATTCATGATGATGCATCGGCAGGGGCAGGAGATGAGCTCCGATAAGCCGGTTGGCCTTTCTGCAATCGCAGGCGTTGTCGGCGCCGACAATACAGAAGACAGTTAG	MGLQDEDFFASLRYVSRRLHPGAAAQREGNGLVRSCRCVPGCDRLHAVLHACNVTIYDEIREFPEAGLFGNSGKVRDHFVDAALLEKMRDVCFFRSSVVQDQYGFRYGFRVVHIAEKRDDRFMMMHRQGQEMSSDKPVGLSAIAGVVGADNTEDS				NA	NA	NA	NA	NA
BMS010_02604	441			hypothetical protein	ATGTATTTTACGCGCAAGACCGAGACTGTGCTTACCGTTCTTGCCACGTGCGCTGGCAGAGCCGGTTGTTCGCTTGCCCTTTGGGAAATCTCCCAGGCGGGCAGCGTCGGCGCGGAGGAGATCAAAAGAAGCGTTTCGCTGCTGCTGCGGCATGGGCTGCTGGAACGGGGGCTGGATGGGCGCGTCACGCTCACCATCGATCCCGACGCGGTAACGCTCGGCACTATTTTGCACCTTACTCAGCCCAATCTTGCGCGGCCGAGACGTCGTGGCATCCGCCCTATGAATAACGGCGTCTTCGCACTCGTCGTGGACGCAGCCTCATCTAATTTTCTAAGGATTGCCGAGCAGTTCACCGTTGCCGATTTCCTGGCAGATAGGAGGTCTGCCGAACACTACGCAGGCGATTGTTACAGCACGGCGCACAACGCACGTCCGTAA	MYFTRKTETVLTVLATCAGRAGCSLALWEISQAGSVGAEEIKRSVSLLLRHGLLERGLDGRVTLTIDPDAVTLGTILHLTQPNLARPRRRGIRPMNNGVFALVVDAASSNFLRIAEQFTVADFLADRRSAEHYAGDCYSTAHNARP				NA	NA	NA	NA	NA
BMS010_02605	516			hypothetical protein	ATGCGCTTAAAACGGCAATCCGAGATTGCGATCGGCATATTGACAGTCTTCGCCAGAAGTCCATCAACGAAGTTTTCCGCCCAGCAACTGGCCCAGGAGGTCGGTGCAACCAGAGATAACGCCTATCAGGTTCTCGCCCTTTTGGTGCGCAACGGCTTCCTCAGCAGTGATCGCGGCCCGGGTGGCGGCGTTCGCCTCGCCCGCGACCCGTCCGACATCAGGCTCGTTGACGTGCTGCTCGTCACCCAGCCGGAGCTTGACGCCAGCGCCGAAGAAACGGGACCCGGCAAATTCACCGGCCAGCCGCTGCTGGACAACATCGTCGCTGCGGCCTCGTCGTTCTTCGTTCGCCTGCTCGACCGGTTCACCGTTGCAGACCTCGTTGCCTCACCAGATGGTTCTGGCATAGCCTGTCTCGATTGCCACCTGATGAAGGCTCTTCCTGCTCGTGAACGTTTGATGCAGTCACCGCCGCCGCCGCTGATCGTGGACGACGGTTTCGAAACAGGCAGCTGA	MRLKRQSEIAIGILTVFARSPSTKFSAQQLAQEVGATRDNAYQVLALLVRNGFLSSDRGPGGGVRLARDPSDIRLVDVLLVTQPELDASAEETGPGKFTGQPLLDNIVAAASSFFVRLLDRFTVADLVASPDGSGIACLDCHLMKALPARERLMQSPPPPLIVDDGFETGS	PGPT0013005_68	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITRIC_OXIDE_REDUCTION,PGPT0013005-nsrR|yjeB-K13771	NA	NA
BMS010_02606	807			hypothetical protein	ATGCAATCGTCTGATCTTCTCCCGTCTGACGAAATCCATCTTCACGTCACGGACGATCCGGCGATCACCGATCCGGCTCTCCTTGCAGGCTACGAGGCTCTGCTGACCACTGAGGAAGCGGAGCGGCGGGATCGTTTCCATTTCCCGCGTGACCGCCACCAGTTCCTTGTTGCACGCGCGCTGGTGCGCACGACATTGACACGCTACTGTCCGGAGATCCGCCCAGCCGACTGGCGTTTCGCAGCCAATGATTACGGCCGACCGTATATCGTCGGCGCCGGCGCCGGTCTTTTCGATTTCAACCTGTCCCATACAAAGGGGCGGATGGTGCTTGCCGTCTGCCGATCCGCGTCGCCGGGCGTCGACATTGAACGCACGGACGCGCCGGACGGCTTTCTCGACATTGCCGGTCGCTTCTTTGCCGCAAGCGAGGTCAGAGCCCTCAACCTGCTGCCCACAGCCGAGCACGAGGGCCGCTTTTTTGCGCTCTGGACGATGAAGGAAGCCTATATCAAGGCGCGCGGCATGGGGCTTTCGATCCCGTTGGAGGATTTCGCCATTGCCTTCGGACCTGGAGGGCCGTCGATCCGGTTTGCTGAAGGCGTTGCCGATGATCCCCGACGCTGGCAGCTTTTTGAGCTCGATGGTGGGCAGGGCTATGCCCTGTCGCTGGCGTTGCCCGACGCGGCGGCGGTCCGTCCGCAGCTTTTCCGGGCAACGCCTCTCCTCTCGGTCGAGCCTATTCAGTCACGCCAGACCGATCTTGCTACATTTTCCCATGGCCACCCCAGGTCTAGTATGCGATGA	MQSSDLLPSDEIHLHVTDDPAITDPALLAGYEALLTTEEAERRDRFHFPRDRHQFLVARALVRTTLTRYCPEIRPADWRFAANDYGRPYIVGAGAGLFDFNLSHTKGRMVLAVCRSASPGVDIERTDAPDGFLDIAGRFFAASEVRALNLLPTAEHEGRFFALWTMKEAYIKARGMGLSIPLEDFAIAFGPGGPSIRFAEGVADDPRRWQLFELDGGQGYALSLALPDAAAVRPQLFRATPLLSVEPIQSRQTDLATFSHGHPRSSMR	PGPT0008845_881	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0008845-LYS5|acpT-K06133	NA	NA
BMS010_02607	1284	yeeO_1	COG0534	putative FMN/FAD exporter YeeO	ATGTTCGTGCATTCGTTGCTGACCTTCTCGGTCATGCTGGCTGAAATGCTGATCATGAGCGCCTATTCCGCCGATGCGGTCGCAGCAGTGTCTGTGGCGCGACAGGTTTTGCAGATCGTCTTCGAGATGTCGGGCATGCTAGGAATTGGCGCGGTCATCCTGATATCGCACAGCCTCGGGCGCGGTGACGAGGAGGGCGCGCGCCGGATCGCGGCGGTGGCGGTCTCGGCCAATACGATCTTCGGCCTGGCGGCGGGAGGCCTGCTTTACCTGTGCGGCCCGATCGTGCTGCTGCTCCTCGACGTTCCCGCGTCCATCGTCAGCGACACCAGCCTCTACCTTTCGGTTGCCGCCGCCGCCATGGCTTTCAATGCGCTGGCCACGGCTGCGATTTCCTGCCTGAGGGCTTTCGGCAGTACGCGGGTGATCGTGACAACAGGCCTTACTTTGTCCGTTCTCTATATTGCCGCGACGTACGTTCTCGTGCTCGGGGTCGGGCTGATCCCGCCTCTTGGCGTCACCGGTGCGGCCTATGCAACACTTGCCTCAAGGATGGCAATGGCCCTGATGTTCGGGCTTGCGCTTTACCGCGCGCTCGGCCTCCGCTTCGCGTTCGGGGAGATCAAGGCGCGCCTTTTTCTTGTGCGGCGCATGGTCTTCCTCGCTTTTCCGAGCGTCTGCGACTATATTGGCTATGGGTTCTACCAGGTGGTGCTCCTCGGCTTTGTTGCGAGCTTCGGCGTCGAAAGCGTTCTGAGTCGGACCTACGTTATGCTCGCCATGTCCTTTCTCGTTCTCGTAGTCATGGCTGTCAGCCAGGGCAACGAGGTGTTGGTGGGGTATCACTCCGGCGAAGGCCGCCCGCTGAATGCTCATCGCCAGGCGCTGCGCTCCGGCTTTGCAGCGGCGCTCGCCTCGACGGTGATCGCCTTCCTGTTTTGGTTCTTTTCAAGCCAGTTCCTCGGGTTGTTTGGACGGAGCGGCGAGATTCTGGACCTCTCGACGCGCCTCCTGCTGCTGACGATCTTCATCCAGCCGGGCTTTGCCTTCAATACCGTGTTGCTACAATCGCTCCGCGCCGTCGGCGACGTGCGAGTGCCGGTCATTGCCAGCGTCGGGCTCACCTGGGGTCTTGGCTTGCCGCTCGCATGGCTCTTCTGCGTGGAGGCCGGCTACGGCGTGGAAGGGATTTGGTACGCGCTCATCATCGAGGAAGCGCTTAAAGCATGTTTCATGCTTTGGCGCTGGCACGCCCGCGGGTGGATGCGCAATGCAATCGTCTGA	MFVHSLLTFSVMLAEMLIMSAYSADAVAAVSVARQVLQIVFEMSGMLGIGAVILISHSLGRGDEEGARRIAAVAVSANTIFGLAAGGLLYLCGPIVLLLLDVPASIVSDTSLYLSVAAAAMAFNALATAAISCLRAFGSTRVIVTTGLTLSVLYIAATYVLVLGVGLIPPLGVTGAAYATLASRMAMALMFGLALYRALGLRFAFGEIKARLFLVRRMVFLAFPSVCDYIGYGFYQVVLLGFVASFGVESVLSRTYVMLAMSFLVLVVMAVSQGNEVLVGYHSGEGRPLNAHRQALRSGFAAALASTVIAFLFWFFSSQFLGLFGRSGEILDLSTRLLLLTIFIQPGFAFNTVLLQSLRAVGDVRVPVIASVGLTWGLGLPLAWLFCVEAGYGVEGIWYALIIEEALKACFMLWRWHARGWMRNAIV				NA	NA	NA	NA	NA
BMS010_02608	6522	tycC_2		Tyrocidine synthase 3	GTGAACTCTGCCGATCCGATCCTGGCCCTGCGCGCCCGCGTTGCGGCGCTCGCTCCCGCCGAGCGTGAGGCTTTCCGACGCCAGCTCGAAGCGCGTGGGATCGCCTGGGAGCGGGTTGCGCCGGATGAGGCGTTTGCCGTGGCGGCGCGCCCGTCGCGTTTGCCGCTGACGCCTGGCCAGATGCATTTCTGGATCCAGCAGAGCCTTTACCCAGACAGTTCCGCCTATCATGTTGCCTATCGCTGGCGCTTCGAGGGTCCGCTCGACCGGGGGGCCCTCGAGCGCAGCCTCGCGATGATCGTCTCGCGCCATGCGCCGCTCAGGACGGCGTTTCTCGCAGAGGCGGGCGATGCGTGGCAGGAGGTTCATGAGGACCTTGTCTTCACGATGGGGTTCACCAATCTCGAGGCGACCGGGAAGGATGGAGAGGCGCTCGCGCTTGCCGTTGCAACCGAGCCTTTCGATCTTGCGCGGGCGCCGCTCATTCGGGCGCACCTCTTCCGGAGCGATGAGAGCGACCATCTGCTCGCGATCACCCTCCATCACATCGTCGCGGACGGCTGGTCTCGCGGTGTCCTGTTGCGGGAGCTGACGGCCTGCTACCGTGCCTATTGCGCGGGAACGACGCCGGCGCTTGCGGATATCGTGCACGACTTCGGCGATCTGGTGCTCGATCAAAAGGCCTGGCTCGATGGCCCGGAATGCGGTCGCGAACGCGACTACTGGAAACAGACCCTCGCCGGTCTGAAATTGCTTGAGTTGCCGGTGGATCGGTCCCGCAGCAGCAGCATCGACATGACGTCCGCCATCACGACGCGCGTTATTCCCCTGTCGTTGTCGTCGGCGGTTGCCGGGCTGGCAAATCGCCTCGGCACAACGCCCTTCGTCGTTCTGGCCGCGGCCTTCAAACTGTTGCTCCACCGTTACAGCGGAGAGCGGGATCTGTCGATTTGCGTTCCCGTGGCTGGACGGAGCGATCCGGATGCTGCCGGGCTCGTGGGCCTCTTTACAAACACGCTGGTCCTTCGTGCGGTGCTGGACCCGCGCATGACGTTTGCGCAATGGGTCGTAACCGTTCAGGAGCGATTCTCCGACGCGCTCGATCATCAGACCTTACCATTTCCGCTGATCGCGGAGACACTGGGCATGAGCCGCGACCAGCGGCAAAATCCGCTCTCTCAGGTCATGTTCCAACTGCAATCGGAAAGTTACCGTGCGCAGAACGCGGAGCGGATCGATTTCGCCGTCGACGGGCTCTTTGCCCGGCAGGAGCCAGCCCGGCTGACGGAGACCAAGGTCGATCTCAGCTGGTATGTCATGGAGCGGGAGTCCGGTTATCTGCTGAACATCGAATATCGTGCAGCAATCTTCGACGCGTGGCGGATCGAGCGCATGGCCGCGCATTTCGAGACGTTGCTTTGCTCCATCCTGCAATCGCCCGATGCGCTGCTCCCGACGCTTGCCTATCTCACGCAGGGCGAGCGCGCCGCCGTCATTGCGCTCGGGACGCCCGGCGCACGGCCGCTGCCTGAGATGACGGTGCATGACGCGATCGCGGCCGTCGCTTTGCGCCAACCCGATACGACCGCGCTCGAATGCCAGGGCCGCAGCTGGACCTATCGGGCCTTGCAGCAGGATGTGGATGCGCTTGCCACCGTGCTCACCGGCCTTTCAGTTTCTCCCGGCGACCGGGTTGCCGTGTCGCTGCCTGGCAGGGGGCAATCCATCGTCGCCTTCCTTGCCATTCTGAAGGCGGGCGCGGTCTATGTCCCGCTCGATCCTGATCATCCGGCCGACCGGGTTGCCTATGTGCTTGAGGATTCCGGCGTCAGTCTCGTGCTGACGGACAGGGCCGAGCTCTATCCGGGCCATCGCTCGCTTGATCCAACGCTTGCGCTCCCCGAAAATAATGGCGCGGATACTCTGCCGCCATCCGATCCGGGCCGCATCGCTTATCTTCTTTATACGAGCGGCAGCACGGGCCGGCCAAACGGGGTTCCGATCGGCCATCTGAGCCTGCTCAACCATCTCCGTTCCATGGCGGTTTCTCCTGGCCTTGAGCCCGGTGACCGGCTGCTGGCGATCACCACGCCGACCTTCGATATCTCCATCCTCGAAATGCTCCTGCCGCTTAGCGTCGGTGCGACCACCGTGCTCTACGGTCAGGACCTTCTGCTCGCTCCGCAGCGGCTCGCCGACGTTCTCATCACGGACCGTATCTCGCATCTGCAGGCAACCCCCGCCTACTGGCGTATGCTGATAGACAGCGGCTGGGAAGGCCTACCACATCTGACGGCGCTTTGCGGCGGCGAGGCCCTGGATGCGCCGCTCGCGCGCAAGCTCATGGGCCGCACGAAAGAGCTGTGGAACGTGTATGGCCCGACCGAGGCAACGATCTGGGCGAGTGCGCTCAAGGTCACTGCTCGCCACGCCGAAAGCGGCAAGGTGCCGGTCGGTGGGTTGCTCGACAATACTCATCTTCACGTTCTCGATCCCTATATGGAGCCGTTGCCGCGAGGTATTCCGGGCGAACTTTATATTGGCGGTCCCTGCCTCAGCCCAGGCTATTGGAACCGCCCGGCGCTTGCCGCCGCCCGCTTCGCGCCAAACCCGTTCCATGACGATAACAGCCCCGCGCTTAGGCTCTATCGAACAGGCGACGCAGTCGTTCGCCAGGCGGACGGCGAGATCGAGTTCATCGGACGCACTGATTTTCAGGTGAAGCTGCGGGGCTATCGCATCGAGATCGGCGAGATCGAGGACAAGCTGCTGCGCGAAAGCGCCGTCGAACAGGCGATCGTCACGCTTGACGCGGAAAACGAGCGGCTGATCGCCTATGTGCTGATGCGCGATCTGCCGCCCAACGACAACGGCGCGACGGAGCGGAGGCTTCGCCAGGCGCTTTCGGCGCAATTGCCCCGCTACATGGTGCCGACAGCCTTTGTGCTGATGGACGAATTTCCGCTTAACCCGAACGGCAAGGTGGACCGCAAGCAGTTGCCCATGCCGCAGGTCTCCACCATGCGCGCCGCCCTGGTTCTCGCCCGCAACGACACCGAGGCGACCTTGCTGGCAATCTGGAAGATGGTGCTCCAGAGGGAGGATATCGGCGTCGAGGATAATTTCTTCGATCTTGGCGGCGATTCCATTATTGGCGTCCAGATCGTCGCCAAAGCGCAGGCCAAGGGGTTGAAACTCGAGCCAACCCAGATATTCGAGCTTCAGACCGTCGCAGCCCAAGCGGCTGCGGCAACCACCGTTGCAAAAAGCGGGGTTCCTGCAATCGCGGCCGCAGAAACCGGGACGAGCTTTGAGATGACGCCGGTTCAAGCGGGCATGCTGTTCCATACCCTCAAGGCGCCAGCCTCCGGAACCTATTTCGAGCAATGCTGGTGCGTGCTGGAAGGGCCGCTTGACCTCGATGCCTTTAAACTGGCCTGGGAGAAGGTGATTGCCCGCCATGAGGTTCTGCGTGGAGCCTGCCGTTGGTCGGATGTCGAGCGGCCGATCATGATCATCATGGATCGCGTTGCGCCGGAATGGCAGGAAGCGGACTGGTCGGAGAGGGACGCAATGGAACATGAGCGGACCTTCGCCGCATGGCTGGAGGCGGATCGTCGCCGCGGCTTCGCGCTCGACGCAGCGCCCCTTTTGCGGTTTGCACTCATCCGGCTCGCGGAGGGGCGACATCGTTTCGTCTGGAGTTTCCACCACCTGTTGATGGACGGCTGGTGCGGCTCCATTCTTGTCGGTGAAGTGCTGAAGATTTACGTCGGAAGAGAGCTGCCGGCTCCGCCGCCGTCCTATCGCCATTTCGTTGCATGGCGCGAGCGGCAGGATGGCGACGCGGCGCAGGCCTACTGGAGACAAGCTCTGGCCGACTTGCCGGAAAGCGGGCTTTTCGCAAGGATGAAAGCCGGCGACAGCGCTGCGGAGGGAATCGTCGAGATTCGCAGGAGCCTCGACGCCCGTGTCGCGACGCGGCTTGTGGAGATGGCGCGCCTGAAGCGGCTGACGCTTGCGACCGTGCTGCAGGGCGTCTGGGCGCTGCTTCTGTCGCGGTACGGAGCCGAGGATGACGTACTCTTCGGAACGGTGCTTTCGGGTCGTCCGCCGGACTTGCCGGATGCCGACCGCATGGTCGGCCTGTTCCTGAATACGGTGCCGTTCCGCGCCCGCACGCAACCGGACCAAACCGTGGCCAGCTGGCTTTCAGTCCTGCAGACCGAACATCGCCAACGGGAGAAGCACGGGCACGCCGCGCTTGCGGATATCCAGCGCTGGGCGGGCATAACCGCTAATCAGCCGCTTTTCGACACGCTTCTTATTATCGAGAACCTGCCGCTTTCGATACAGGCTGCCTTTGAGGACGGGACACGGACGCTCACGCTCAGCGATCCCGGCAGCTACGAGCGTACGCATTACCCCTTGTCGCTGAGGATATTTCCCGGCGCCGAGACCGAGATCGCCCTGTCGGCGGACCCGTCAAGAATCTCGCCCGCCGAGGCGGATCGTCTGCTCCGGCACTATGAGGCGTTGCTTTCGTCGGTCGCGGACCATCCCGATGCACATCTCGGATCAATCGAAATGCTCGATCCCGAAGAGCGCGAATTCCTGCTTCAGGCTGGCTGCGGCCCGCTGACGGAGCCATGCCCCGCAATCCACGAGCAGATCTCCGCAAGAGCGTATGGCGAACCGGACAAGGCCGCAATCGTCCATGTGGGTGAGGATAACGACAGCGTCACATCCTATGGCGAACTTGTAGGTAAGGCGGATAAGCTTGCGCTGAGGCTTCGCGACCACGGGATTGGCCGTGGCGCGGTTGTTGCCGTCTATTTGCGGCGCGGAAGCGTGCTCCTGCCGTCGCTGCTCGCCGTCATGTGCACCGGAGCGGCCTATCTGCCGATCGACCCCGACTATCCGCAGGATCGTATCGCTTACATGCTGGCCGATTCCGGCGCAGCGCTGGTGTTGACGGATCTGGCCGACGACGAGCGGGCCGCCATTCCGGAGGATGTTCCGGTGATCGATCCCGGACAGGTGGCGAGTGTCGCTCGCAGTAGCTTTGCTCCCGCCGAGGTACGGACCGACGACCTCGCCTATATCCTTTACACAAGCGGCAGCACTGGCCGTCCCAAGGGCGTAGCGATCACCCATGGCGCGCTTGCCAATTTCATCGCTGCCATGGCCGAAAAACCGGGTATCGGTGCAAATGATCGCCTGCTGGCGCTGACGACGATCGGCTTCGACATTGCCGGGCTGGAACTGTTCGCGCCGCTTACGCAGGGTGGGACGGTGCTGCTTGCTGAAAGCGCAATCGCTCGTGACGGCCGCCGTCTCGCCGCGCTTGTCGATCGTGTGGGGCCAACCGTCATGCAGGCGACCCCAGCCGGGTGGCGTATGCTGCTGGAGGCGGGGTGGAGAGGCGACAAGGCCCTTCGCATGCTTTGCGGCGGTGAAGCGCTCGATAGCCGCCTCGCGGGCGATCTGCTCGACTGCGGCGGCACTCTCTGGAATCTCTACGGTCCGACCGAGACGACCATCTGGTCTGCGGCCGCTGAGGTAAAGCGTGATTGCCTCGACGGTGCCGGTGTTCCGGTCGCCGGCGCCATCGGACGAACGCAGCTCTACGTTCTCGATCGGCGCGGAGAGCCTGTGCCAGCCGGTACGCCCGGCGAACTCCACATCGGCGGTGCGGGACTGAGCCCCGGTTACTGGGGAAAGCCGACATTGACGGCGGAGAAGTTCGTACCGAACCCCTTCCGGCGTTCGCCGGAAGACGGCTACCATCTCTATCGTACGGGCGACCTTGTGCGCATGCGTGAAGACGGCGCATTCGATTTTCTCGGCCGCATCGACAACCAGGTGAAGCTGCGCGGCTACCGCATCGAGCTTGGCGAGGTCGAGGCGAGGCTTGCGGCCCATCCCCGCATTGCCGAAGCGGCGGTCCTCGTCGAGGATGGCGGGGCCGGCAAGCAGCTCGTCGCTTACCTGCGCTGGCGCGAGCCAAATGCGCGGGAGACCGCAGAACTCGGCGCGCATATGGCCGAGACCCTGCCGGCCTACATGCTTCCATCGGCCTATGTGGCGCTCGATGCATTTCCGCTCACGCCAAACGGCAAGATTGATCGTGGGGCGCTTCCGGCATATCGGCCCAAATCCATCGCGCAGCGGTCGACCGTGCCAATATCCGGTGAACCCGCCGCCACGCTCGCCGCTATCTGGTGCGAGGCGCTGAAGATCGACCATGTCGGTCTCGGTGAGAACTTCTTTGAACGGGGCGGGCATTCGTTGCTCGTCGTTTCGCTGCAGGGCGTTATCGGCAAGCGCTTTGGTGTCCAGATCGATATCACTGCCTTTTTCCGCTTCCCGACGCTCGAAACCATGGCCGCACACATCGCTTCGCTCCAAGGCGGTGGCGAGGCGGATCGGTTGGACGACAACAGGAGCAGCTCGCATCTCGCCGGGCGTGATCGGCTTGCCGGCCGGCGCAGCCTGCGGGCCGAACGCACGGTCGCCTAA	MNSADPILALRARVAALAPAEREAFRRQLEARGIAWERVAPDEAFAVAARPSRLPLTPGQMHFWIQQSLYPDSSAYHVAYRWRFEGPLDRGALERSLAMIVSRHAPLRTAFLAEAGDAWQEVHEDLVFTMGFTNLEATGKDGEALALAVATEPFDLARAPLIRAHLFRSDESDHLLAITLHHIVADGWSRGVLLRELTACYRAYCAGTTPALADIVHDFGDLVLDQKAWLDGPECGRERDYWKQTLAGLKLLELPVDRSRSSSIDMTSAITTRVIPLSLSSAVAGLANRLGTTPFVVLAAAFKLLLHRYSGERDLSICVPVAGRSDPDAAGLVGLFTNTLVLRAVLDPRMTFAQWVVTVQERFSDALDHQTLPFPLIAETLGMSRDQRQNPLSQVMFQLQSESYRAQNAERIDFAVDGLFARQEPARLTETKVDLSWYVMERESGYLLNIEYRAAIFDAWRIERMAAHFETLLCSILQSPDALLPTLAYLTQGERAAVIALGTPGARPLPEMTVHDAIAAVALRQPDTTALECQGRSWTYRALQQDVDALATVLTGLSVSPGDRVAVSLPGRGQSIVAFLAILKAGAVYVPLDPDHPADRVAYVLEDSGVSLVLTDRAELYPGHRSLDPTLALPENNGADTLPPSDPGRIAYLLYTSGSTGRPNGVPIGHLSLLNHLRSMAVSPGLEPGDRLLAITTPTFDISILEMLLPLSVGATTVLYGQDLLLAPQRLADVLITDRISHLQATPAYWRMLIDSGWEGLPHLTALCGGEALDAPLARKLMGRTKELWNVYGPTEATIWASALKVTARHAESGKVPVGGLLDNTHLHVLDPYMEPLPRGIPGELYIGGPCLSPGYWNRPALAAARFAPNPFHDDNSPALRLYRTGDAVVRQADGEIEFIGRTDFQVKLRGYRIEIGEIEDKLLRESAVEQAIVTLDAENERLIAYVLMRDLPPNDNGATERRLRQALSAQLPRYMVPTAFVLMDEFPLNPNGKVDRKQLPMPQVSTMRAALVLARNDTEATLLAIWKMVLQREDIGVEDNFFDLGGDSIIGVQIVAKAQAKGLKLEPTQIFELQTVAAQAAAATTVAKSGVPAIAAAETGTSFEMTPVQAGMLFHTLKAPASGTYFEQCWCVLEGPLDLDAFKLAWEKVIARHEVLRGACRWSDVERPIMIIMDRVAPEWQEADWSERDAMEHERTFAAWLEADRRRGFALDAAPLLRFALIRLAEGRHRFVWSFHHLLMDGWCGSILVGEVLKIYVGRELPAPPPSYRHFVAWRERQDGDAAQAYWRQALADLPESGLFARMKAGDSAAEGIVEIRRSLDARVATRLVEMARLKRLTLATVLQGVWALLLSRYGAEDDVLFGTVLSGRPPDLPDADRMVGLFLNTVPFRARTQPDQTVASWLSVLQTEHRQREKHGHAALADIQRWAGITANQPLFDTLLIIENLPLSIQAAFEDGTRTLTLSDPGSYERTHYPLSLRIFPGAETEIALSADPSRISPAEADRLLRHYEALLSSVADHPDAHLGSIEMLDPEEREFLLQAGCGPLTEPCPAIHEQISARAYGEPDKAAIVHVGEDNDSVTSYGELVGKADKLALRLRDHGIGRGAVVAVYLRRGSVLLPSLLAVMCTGAAYLPIDPDYPQDRIAYMLADSGAALVLTDLADDERAAIPEDVPVIDPGQVASVARSSFAPAEVRTDDLAYILYTSGSTGRPKGVAITHGALANFIAAMAEKPGIGANDRLLALTTIGFDIAGLELFAPLTQGGTVLLAESAIARDGRRLAALVDRVGPTVMQATPAGWRMLLEAGWRGDKALRMLCGGEALDSRLAGDLLDCGGTLWNLYGPTETTIWSAAAEVKRDCLDGAGVPVAGAIGRTQLYVLDRRGEPVPAGTPGELHIGGAGLSPGYWGKPTLTAEKFVPNPFRRSPEDGYHLYRTGDLVRMREDGAFDFLGRIDNQVKLRGYRIELGEVEARLAAHPRIAEAAVLVEDGGAGKQLVAYLRWREPNARETAELGAHMAETLPAYMLPSAYVALDAFPLTPNGKIDRGALPAYRPKSIAQRSTVPISGEPAATLAAIWCEALKIDHVGLGENFFERGGHSLLVVSLQGVIGKRFGVQIDITAFFRFPTLETMAAHIASLQGGGEADRLDDNRSSSHLAGRDRLAGRRSLRAERTVA				NA	NA	NA	NA	NA
BMS010_02609	1068			hypothetical protein	ATGAAATTCAGCCTTTTCTATTTCGATGGTGACGGGTCGGCAGCAGGCGGCGACGGTTACAGGCTGTTGATGGACAGCGCACGGTTTGCCGATGACAACGGTCTGACCGCGCTATGGGTGCCGGAGCGCCATTTCCACGCCTTCGGCGGGCTCTATCCGAACCCCTCGACAATCCACGCCGCTCTTGCCGTTTTGACGAAGAGGGTGCAGCTGCGATCAGGCAGCATTGTCCTGCCGCTTCATCACCCCGTGCGCGTCGCCGAGGAAATCGCTGTCGTGGACAATCTCTCGCGCGGCCGGGCAGGGGTGGCGATCGCCTCGGGCTGGACGCGCAATGAATTCGTACTTTCGCGCGAACCGCATGGTAGCCGACGCAGCCTGATGTGGCGAAGCTACGATCAGGTGACGAGGCTGCTCGCCGGTGAGACACTTGCCTTCGAGGATGCGGATGGTAACGCCGTCGAGGCGAAGACGCTTCCCCGCCCGGTGCAGCCGCGCGTTCCCTTCTGGGTAGCGTGCCAGTCCACGGAGACCTTTGTCGAGGCCGGCCGCCGCGGCATCAACGTATTGACCGCGCTGCTAGGAGAGACATTGGAAAGCCTCGCGCCAAAGATCTCCGCCTATCGCCGGTCGCTGGAAAAGAACGGGTTCGACCCGGCCGCCGGGACGGTCACCATTATGGTGCACACCTATCTCGGCTCGGATGTCGAGACGGTGAAGGCAGATGTGAAGGGTCCTTTCAGCGACTATCTCAGGACGCATTACCATCTGCTTGAAGGCCTTGCGCGCAGCATGGGCCTCGACATCGCGCTTGAGAATTTCAGCCAGGACGATCTCGACAGCCTCATCCAGTTCGGCGTCGAGGGTTTCATCAAGGGTCGTTCTTTGATCGGCACGCCGGAAAGCACCGCAGAAACGGTGCAGGCGCTGGGCAACGCCGGCATAGACGAAATCGCGTGCCTGATCGACTTCGTACAGGACTACGACCTCGTGATGGGCGGTCTTCCGCATCTTGCGCGGCTTACGCGCCTTCATGCGCCCAAGCAGGCGATTGCCGAAGCTGTATAA	MKFSLFYFDGDGSAAGGDGYRLLMDSARFADDNGLTALWVPERHFHAFGGLYPNPSTIHAALAVLTKRVQLRSGSIVLPLHHPVRVAEEIAVVDNLSRGRAGVAIASGWTRNEFVLSREPHGSRRSLMWRSYDQVTRLLAGETLAFEDADGNAVEAKTLPRPVQPRVPFWVACQSTETFVEAGRRGINVLTALLGETLESLAPKISAYRRSLEKNGFDPAAGTVTIMVHTYLGSDVETVKADVKGPFSDYLRTHYHLLEGLARSMGLDIALENFSQDDLDSLIQFGVEGFIKGRSLIGTPESTAETVQALGNAGIDEIACLIDFVQDYDLVMGGLPHLARLTRLHAPKQAIAEAV	PGPT0000910_238	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0000910-tgnB-K23464	NA	NA
BMS010_02610	4590			hypothetical protein	ATGACCGACACGCAGAGGCCAGCCCCCGATATCGTCAACCAAGATCAGGTGTCCGCGATCCTGAAGGAGGCGCGGCAGCGCCTCGAGGCGGTGCAAAGGGAGAAGGACGAGCGTGTCGCGATCGTCGGTATGGCGGGGCGCTTTCCCGGTGCGGACGATATCGAAAAGTTCTGGCATCTTCTTGAGCAAGGCCGGAGCGGCCTTCGTCCGGTCACGGATGACGAGCTTGAAGAGGCGGGGGTCGACCCACAGACCGCTGCCCGGCCGGACTATGTGCGGGTCTGGGGCGGGTTCGATGATCCAACGGCCTTTGACGCCGGCTTCTTTGGCTATTCGCCGCGCGATGCGGAATTGCTCGATCCGCAACATCGCGTCTTCCTCGAATGCGCAGCCAGCGCTCTCGATCACGCCGGTTACGACAGCCGCGCCTATCCAGGTCGTGTCGGGGTTTATGCAGGCGGTGCGCTCACCTATCATTTTAGCCATATACAGGCCAATCGGGCGCTTCGCGAGGCGACGGATCCGATCCATGTCGGCCTCAGCAACGTACTTGGCATGATCGCGTCGCGCGTGGCCTATCACCTCGACCTGACAGGCCCGACCGTGAGCGTGCAGGCCACCTGCGCCACGGCGCTGGTAGCCCTTCATCTCGCGGCGCGTGGCTTGCTGGCGCGCGAGGCGGATATGGCTCTTGCGGGCGCGGTTGCCATCGGCCAGCCGCTTCCAGAAGGCTACCTGTACAAGAGCGAAGGGGTCGGTTCCCCTGACGGCGTCTGCCGTCCCTTTGACATGAATGCCAAGGGTACTGTCTTCACCAATGGCGCGGGCGTCCTCGTCCTCAAACGACTGAGTGATGCAATAGCCGATGGCGATACGATCCATGCCGTTCTCAGCGGATCGGCGATTGGCAACGATGGTGCGGCAAAGGTAGGCCTGACGGCGCCGAGCGTTACCGGGCAGACGGCGGTGCTTGCGGCCGCCCTTGAAAATGCCCGCCTCGATCCATCGGCGGTGGACTACGTCGAAGCCCATGGAACGGCTACGGCGCTTGGTGATCCCATCGAGCTTCAGTCGCTGAACCGCGTTTATGGCGGCGCGCTGACGCGGGAAGGACGCAGCTGCGGGCTCGGTTCCGTCAAGGGCAATCTTGGCCATATGGATGTCGCAGCCGGTATGGGCGGTCTTATCAAGACTATTCTGTCGATGAAGCACGAGATTTTCCCCGCTACTATCAACTTCAATGCTCCTAGCCCGGCTCTTGACCTGCCGGCGAGCCCTTTCGAGATCGTCGCCGAGCAGCGGCCCTGGCCGGCGCGGACTGACCGCAAACGCCGTGCGGCCGTGAGTGCCTTCGGCATGGGCGGAATGAATGCGCATGTCATTTTGGAAGAGCCTCCGGTCCGTGCGTATGAGCCGGAGCAGGCGGGTCCCCATCTTTTGCCGCTCTCCGCCAGGACCGCCGAGGCCCTGGCGGCGATGCGAAACGCACTCGCCGGCTATCTTGAAGCGGATGACGGCGCGCCGCTCGCGGATATCGCCTACACGCTTCGAAAGGGTCGCCGTCCGTTGGAACAGCGCTTTGTCGCACTCGCCCGGAACCGAGGAGAGGCCGCGCGCTCAGTTGGCGCTGCCGAGGGTCCGGATTGCATGGCGGGCGAGGCGCTCTCCGGCGATCCTAGCTTGATCTTCCTGTTTCCAGGCCAGGGGTCGCAGTATCCCGGCATGGCGCGGGCGCTCTATGAGACCGAAACGACGTTCCGTGGGGCGTTCGACGCCTGCCTTGCTTTCATGCCGGACGAAATTGACCTTGCGACCGTCGTTTTCGGTGACGGCGCAATGGCCGGTCGCCTCACGCGCACGGAGGTGACGCAGCCAGCTCTTTTTGCGGTGGAATATGCGCTGGCGCAGATGTGGCTTGCCAAGGGCGTGCGACCGAAGGCAATGGTCGGCCACAGCATCGGGGAATATGTTGCGGCCTGCATCGCCGGTGTTTTTTCGCTGGAAGACGCCGTGAAGCTCGTCATCGCACGCGGGAGGCTGATGCAGGCCTGCCCGGAAGGGGCGATGCTTTCCGTGATGCTTTCGGAAAGCGAGGCGCGCGCATCGCTCTCTGGCGAGATGGAAATCGCCGCCGTCAACAGCCCGCGTAGCACGGTTCTCGCAGGCACGGCGAAGGCGATCGCGGAACTTGCGGCCCGCCTGGGCCGTAGCGGCATCGGTTGCCGCGAACTCAAGACCTCCCACGCCTTCCACAGCTTCATGATGGAGCCGGCGCTGGAGGCGTTCTCTCAGCTGCTTGCGACAGTGAATCTCAACCCGCCCCAGATAGATATCCTGTCGAACCTGACTGGCAACTGGCTGACGGCTGCCGAGGCGACGGATGCGGCTTATTGGGTCGCGCATCTGCGGCGTACGGTTCTCTTCGGCCCAGGCCTTGCGCGGGCGCTCGAATTGCCGAATCCCGTTCTCCTCGAGGTCGGCCCGGGTTCCACGCTGACCCGCCTCGCGAGGCAGCAGGCGAGCTCAGAGCTTCGCACCGTAACCTCACTGCCGGACGCAACGACGGACGAGGATGCGCGTGACCACGCGCTGCTCGCACTGGCCGGGCTCTGGATTGCCGGTGCCGACGTCGAACTGGCTGTCAGCGGCGATACGTCGCCTCGCCGCCGTGTACCGCTCCCGACCTATCCTTTCCAGCGCAGTCCCTACCGCATCCCGGTTATCGCGCCGGGCGGCTCGGTGCAGGACGTCGCGGCGCGGCTGACGGCGATCCCGGACTGGTTCCACCAGCCGGTCTGGCAACGCGCGCCTTTCGACGGTGCGACGCCAAGCGGTGACGCGCACTGGCTTGTTCTCGGCGATGAGAAAACCTTGTCTGCCATCGGCCCTGTGCCGGATGGGGTTCATGTGACAAGGGTCAGGCCTGCCGGTGCTTACACTATCCATACCGGCCACTACGAAATCGACCCCGCAGACGTGGAACACTACAGCGCCCTTCTTGCCGATCTAAAGGCGAAGGGCGTCACACCATCCCAGATCGTCAATGGTTTCGCCCTTGATGCCGACGCGCAGCCGGAGGTGGGTTTTGACAGCACCTTCGCGCTTGCGAAGGCGCTTACCGCAACCAGGACACCTGTGCCACTGCTCACCGTGCTTGCACGCAGCCTGCATTCGGTGACCGGCGCGGAGGTTATCGACCCACAAAGGGCAAAGATTCTCGGCCTTCTCCGCGTCTTGCCGCAGGAAATTCTGGGCCTTTCGTGTCGGAGCATCGATTTTCAGGAGAAACTCGACGCTCCGGTTCCCGGCCTTGGGCAAGCGCTGTTGCGCCCCTGGCGTGAAGACCAGGTCGTGACGGCGCTGCGCAACGGTTACGTCTGGTTCGAGCATCATGTGCAGGTTTCACTGACCGAGCCATCGGAAATCCCGGCGCTTGCCCGCGATGCGACCTACCTCGTCGCGGGTGATCTCCTTGAAGGTCTCGCTCTCGTTTACGCGCAGGCGCTTGTTCAAACCGTAGGCGCGAAGGTGGTGCTTGCAGGGCCGAGCGGGCTGCCGGCCGTTGCCGATTGGGAGCACTGGCTCGTCTCGCATGGGCCGAAGCACCCGGTCAGCCAGTTCATCCGCGCCTTGCGCGGCATCGGCACGCCGGGCGAAGACTATGTGCTGTTTAGCGGGGATATTGCAGATCCTGCCTGGCTTGCCGAAAGCATCGGCGCGCTTCGCGCACCCTTCGGCCCGATCCGCGGTGTTTTCCAGACGGCGGGCATGGGCGACGTCTATCATTGCCCCCTCACGGAAGCGACCGGAGAGCGCAATAAGGCGCTGTTCAAGACTAAGGTTGGCGGCCTTGAAGCCTTGAGCAAGGTTCTCGCCGGTCACGCTCCCGATTTCGTTCTTGTGCAGTCTTCTCTCTCGACGCTGGTTGGCGGCGCGGGCCTCTCCAGCTATGCGGGCGCCAACAGTTTTCTCGACGCCTTCGTGGATGAGCGACGTTGCGGCGATCCGTCGGTCTGGCAGGCGATCGCCTGGGATACATGCCTTCCCCATGGCGCGACGCGGGAAGACGCGACCGGCTTCCTTTCCGGTGCGATGGACGCCGACGAGGTCTGGCGCGTCACCCGGTCTGTCCTCGCCAACCCTGATATCGCCCGGGTCGTCGTCACCCCCATGCAGCTCCAGCATCGCATGACCACGGCACGACAGGGTCCGCCTGTGGTTGCGGGCGCGGCGACAGAGGAAAACGCCGGTCGCGAGCGCGTCAAGGCGAGCTTCGTTGCCCCGCGTGATCCGGTCGAGAGGGATGTCGCGACCGTAATGGAAGACCTTCTCGGCATTTCCCGCGTCGGGATAGACGACAATTTTTTCGAGCTCGGCGGTCATTCGCTCCTGGCCGTTCAGGTCGTGACGCGGTTGCGCAAGCAATTTTCAACCGAACTGCCGATGCGTGCGCTGCTTTTCGAAGCGCCCACGGTGAGGGGTATTGCGGCCTCCATTCGTGAGCGCCTGGATGCCGCACAAAAGGAACACGAGGAGCTTGCCGCACTCCTCGACGATATCGAGGCGGGCGCGCTCCGCACGGAAGCCTGA	MTDTQRPAPDIVNQDQVSAILKEARQRLEAVQREKDERVAIVGMAGRFPGADDIEKFWHLLEQGRSGLRPVTDDELEEAGVDPQTAARPDYVRVWGGFDDPTAFDAGFFGYSPRDAELLDPQHRVFLECAASALDHAGYDSRAYPGRVGVYAGGALTYHFSHIQANRALREATDPIHVGLSNVLGMIASRVAYHLDLTGPTVSVQATCATALVALHLAARGLLAREADMALAGAVAIGQPLPEGYLYKSEGVGSPDGVCRPFDMNAKGTVFTNGAGVLVLKRLSDAIADGDTIHAVLSGSAIGNDGAAKVGLTAPSVTGQTAVLAAALENARLDPSAVDYVEAHGTATALGDPIELQSLNRVYGGALTREGRSCGLGSVKGNLGHMDVAAGMGGLIKTILSMKHEIFPATINFNAPSPALDLPASPFEIVAEQRPWPARTDRKRRAAVSAFGMGGMNAHVILEEPPVRAYEPEQAGPHLLPLSARTAEALAAMRNALAGYLEADDGAPLADIAYTLRKGRRPLEQRFVALARNRGEAARSVGAAEGPDCMAGEALSGDPSLIFLFPGQGSQYPGMARALYETETTFRGAFDACLAFMPDEIDLATVVFGDGAMAGRLTRTEVTQPALFAVEYALAQMWLAKGVRPKAMVGHSIGEYVAACIAGVFSLEDAVKLVIARGRLMQACPEGAMLSVMLSESEARASLSGEMEIAAVNSPRSTVLAGTAKAIAELAARLGRSGIGCRELKTSHAFHSFMMEPALEAFSQLLATVNLNPPQIDILSNLTGNWLTAAEATDAAYWVAHLRRTVLFGPGLARALELPNPVLLEVGPGSTLTRLARQQASSELRTVTSLPDATTDEDARDHALLALAGLWIAGADVELAVSGDTSPRRRVPLPTYPFQRSPYRIPVIAPGGSVQDVAARLTAIPDWFHQPVWQRAPFDGATPSGDAHWLVLGDEKTLSAIGPVPDGVHVTRVRPAGAYTIHTGHYEIDPADVEHYSALLADLKAKGVTPSQIVNGFALDADAQPEVGFDSTFALAKALTATRTPVPLLTVLARSLHSVTGAEVIDPQRAKILGLLRVLPQEILGLSCRSIDFQEKLDAPVPGLGQALLRPWREDQVVTALRNGYVWFEHHVQVSLTEPSEIPALARDATYLVAGDLLEGLALVYAQALVQTVGAKVVLAGPSGLPAVADWEHWLVSHGPKHPVSQFIRALRGIGTPGEDYVLFSGDIADPAWLAESIGALRAPFGPIRGVFQTAGMGDVYHCPLTEATGERNKALFKTKVGGLEALSKVLAGHAPDFVLVQSSLSTLVGGAGLSSYAGANSFLDAFVDERRCGDPSVWQAIAWDTCLPHGATREDATGFLSGAMDADEVWRVTRSVLANPDIARVVVTPMQLQHRMTTARQGPPVVAGAATEENAGRERVKASFVAPRDPVERDVATVMEDLLGISRVGIDDNFFELGGHSLLAVQVVTRLRKQFSTELPMRALLFEAPTVRGIAASIRERLDAAQKEHEELAALLDDIEAGALRTEA				NA	NA	NA	NA	NA
BMS010_02611	2145	menE_1		2-succinylbenzoate--CoA ligase	ATGGCGAACGAGGTCGCCATGCGCTTCTTCCATGACGACGCCGTCGCGGCGGCGGAGGCAAGGCCAGATTGCTGGACCTGGCGCATGTTGCGCGACCGTGCGCGGCTCGTGGCTCTCGAGATCGCCGAGACGGGTCATGTCGCCCCCGGTTCGCGTCTTCTCGTGGTCTATCCGCCGGGCCTGCCCTTCATTGCGAGCTTTCTCGGCTGCCTTTATGCAGGCGCAGTACCCGTCCCGGTTCCAGCCCCGAGGCGCGCGGATGGAATCAATCGATGGTTGCACGTAGCGCGCGACGCCGGCATTTCCGGAATTGTTTGCGCGGAGGAACTCGTCGATTCCCTTTTGCCCCTGCAGAGCGCGGTCGGACACGGCTTCGCGCTCGCGCCGAAGGCGGCCGATCCGGAGCGATCCGTAGTCTTCGAGGATGATGGAAGCACGTTTCTCGCACCGGAGGCGAAACACGTCGCGTTCCTGCAATATACGTCGGGCTCGACCAGCGATCCGAAGGGGGTCATGGTTACCCACGGCAACCTCATGGCCAATCTGCGGCAGATCAGCGTGGCCTTCGAATACGGCCCGTCTGACCGTTCTGCATGCTGGTTGCCGCACTATCATGACATGGGTCTGATCGACGGGATTCTGTCGCCCGTCTTCAACGGGTTTCCCGTTTCGTTGATGGCGCCTGCCTCGTTTCTTCGCAGACCGCTGCGCTTTCTCGAACTCGCGAGCCATACGCGCGCCACTGTCATCGGCGGCCCGAACTTTTCCTATGAGCATTGCGTCGACAAGTTTACGCCGGAGGCTGCCGCAGGCCTCGATCTTTCAGAGGTCCGCATCGCCTATAACGGCGCGGAGCCGATAAGGACGAAGACGCTGGAACGTTTCACCACGACGTTCGGACCCTACGGTTTCCGTTGGAGGGCGTTTTATTGCTGCTACGGTCAAGCGGAGGCTACGCTTTTCCAGTCAGGCAATGGCCCTGACGATCCGCCGCTCGTTCTGTCCGTCAGCCGCGATGAGCTTGTCCGAAACGGTGCCGTGATCGAAGCGAATGGCGGCGAAGATCACGACACGCTGACACTTGCCGCCTGCGGTCGTCCGGCTCAGGGGCTCGACCTCGTCATCGTCAATCCCGAAGCGGGCCAGCGTGTGGCCGATGGAACGGTCGGCGAAATCTGGATCCGCGGTCTGAACGTGACGCCCGGTTACTGGGGGCGCGCGCGGCTGAACGCCGAGACCTTCGATCAGGCGCTCGACGGGTCGCGCGGCTGGCGTCGCACCGGCGATCTCGGCTTTTTCCGCGACGGACAGCTTTATATTACCGGTCGGCTGAAGGATCTGATCATCATCCGCGGGCAGAACCATCACCCGGAAGATATCGAGCAATCCGTATTTTCAAGCCATCCGGCGCTGGCACAGGGCCGGGCGGGCGTCTTCGCAATCGAGGTCGATGGCGAGGAGCAGGTCGGTATCGTTTGTGAGCTGACCCGCGAGGGATTGCGCGATATCGACGGCGATGACGTTATCCGCTCCGTGCGCGGCGCCGTCTCGCGCAATCACAACGTCAAGGCTGCCGTCATTGCGCTGCTGCGTCCGAGCAGCCTGCCGCGCACACCTAGCGGAAAAGTCCGCCGTTTCGCCTGCCATCAGGGCATCGTGGCGGGTGATCTCCGTATCGTGGCGCGGTGGGACGCAAAGCCGGACAGTGGGCTCGCCGCTCCCAAAATAGCCCGGCAACAGAGCTGGCGCGAAGAGCTTCAGCAATCGCCCAAGGCGCTTCGCAAGGAAGCATTGCGCCGGTTGCTGCGGCAGGAAATAGCTTTGCTCGCCCGGTTGGGCGAAGGGGATTTGCCGGATATTTCCGCAGGATTTTTCGATCTCGGTCTCGACTCCGTGGCGCTTGTCAACATCGGCGCAACGGTTGAGCGGGAACTCGGCGTGCACATCCGGCCGACGCTGATCTTCGAGCACCCGACGATAGCGGCCCTTTCCGATCATCTTCACAGCCTTCTCGAAGGCGAGCGACCCGAGGCGGCGACGACGCAGGACAATGTGCCCGATGACGCTGGTCCAGGGCCTGCGGAGCCGGTTGCCGCCCAGACAGTAGCCTCGGAGCTTGCCGCCCTAAAGGCGCTGCTCGGCTAA	MANEVAMRFFHDDAVAAAEARPDCWTWRMLRDRARLVALEIAETGHVAPGSRLLVVYPPGLPFIASFLGCLYAGAVPVPVPAPRRADGINRWLHVARDAGISGIVCAEELVDSLLPLQSAVGHGFALAPKAADPERSVVFEDDGSTFLAPEAKHVAFLQYTSGSTSDPKGVMVTHGNLMANLRQISVAFEYGPSDRSACWLPHYHDMGLIDGILSPVFNGFPVSLMAPASFLRRPLRFLELASHTRATVIGGPNFSYEHCVDKFTPEAAAGLDLSEVRIAYNGAEPIRTKTLERFTTTFGPYGFRWRAFYCCYGQAEATLFQSGNGPDDPPLVLSVSRDELVRNGAVIEANGGEDHDTLTLAACGRPAQGLDLVIVNPEAGQRVADGTVGEIWIRGLNVTPGYWGRARLNAETFDQALDGSRGWRRTGDLGFFRDGQLYITGRLKDLIIIRGQNHHPEDIEQSVFSSHPALAQGRAGVFAIEVDGEEQVGIVCELTREGLRDIDGDDVIRSVRGAVSRNHNVKAAVIALLRPSSLPRTPSGKVRRFACHQGIVAGDLRIVARWDAKPDSGLAAPKIARQQSWREELQQSPKALRKEALRRLLRQEIALLARLGEGDLPDISAGFFDLGLDSVALVNIGATVERELGVHIRPTLIFEHPTIAALSDHLHSLLEGERPEAATTQDNVPDDAGPGPAEPVAAQTVASELAALKALLG				NA	NA	NA	NA	NA
BMS010_02612	4506	lgrD_2		Linear gramicidin synthase subunit D	ATGACGGCGCGTGAGACGGTAGAAGCACTGCTCGCACGGCTGGCCGAAAGCGGCGTACAGATCGCAAGCAGCGAAGGCCGTCTGCGGCTTTCCGGCCCTGAGACGGCGCTGACGCCGGACCTCGCCGACGTCATCCGGGCTCGCAAAACGGAGATCATGGCGGCCCTTTCCGGTGGTGCGGCGAAAAGCGAAACGATCACCGCCCGGCATGCGGACACGCCGCCGCTCTCATTTGCCCAGCAGCGCCTCTGGTTTGTCGATCAGATGATGCCGGATGCGGGCCTGCACCACATGCCGCTCGCCGTCGAGGCGCGCGGGAAGATCGATCTCGCAGCGCTCGAATCAGCCCTCCAATCCGTGGCGACGCGCCATGAAATCCTGCGCACCCGCATCGCCACGCGGGACGGTCTGCCGTCGCAACAGGTCGTAGCCGACAGCCGCATTCCGCTGCGGTTGATCGACCGGCGAGACGACATGCCGGATGAGCAGGAACTCAACCGGATTGTGCGAGACGAGGCCCGGCATCCGTTTAATCTCGCCCTCGAGCCGCCGCTCCGTCTTACGGCCATCCGCCTTGGTGAAGAGCAGACCCTCCTTCTCCTGACACTGCACCACATCGCCGGTGACGGCTGGTCGATGGAGGTGCTGCTTGGAGAACTTTCTGCGATCTATGCAGCAACGATATCGGGCGTAGACCCGAATCTGCCTGCGCTTCCCATTCAATATGGCGACTTCGCCGCATGGCAGCGTGACTATCTGGCAGGCCCCGCCTTCGACACATCGCTCGCCTTCTGGAGCAGCCACCTCGAAACCCCGCCCCCCGCGACGCAGCTGCCGGGCGATTTTCCACGACCGCCAGTGCAGGCCAATGCAGGCGCTTTGCATGCGATTACCGTCGATGTCGATACCACGGCGCGGCTGAGAGCGCTCGCCAAGGCGGAAGGCGCGACGCTTTTCACCACACTTTTTGCCGCCTTCAACATTCTCGTCTATCGCTATACCCGGCAAAAGGATTTGGTGATCGGCACGCCCGTTGCCAATCGTCGTCACCGTGAGACGGAGGGACTGATCGGCCTCTTCGTCAACCCGCTGCCGGTCCGCACACGGCTCCATCCCGCAGCGAGCTTCCGCGAGACGCTGCGCCGGACCCAGTCAACGCTCTGGTCGGTGCTCGATCACCAAGACCTACCGTTCGAGCAACTCGTACAGGCGCTGAAGCCGGAGCGCGATCCGAGCCAGCACCCGCTCTTCCAGATGAAATTCCAGCTCGACTCCACGCCCGCGCAGAAGGTCGGTCTTTCCGGTCTAGAGATCGTCCGTCTGCCGCAACGCGCCGGTATCGCGAAACTCGATCTCAGCCTCAACCTCGTCGATGCCGGCAAAACGATCCACGGCAACTTTGAATATGATACCGCCCTGTTTCGTCCTGAGACGATCGCGGCGCTAACTGCTCATTTCGATGTACTTGTCGAAGCGATCGCCGCCGCACCCGAGACGGCCATTGCGGCCTTGCCCCTGCTCGGCTCCGATGAGCGCCGACGCCAGATCAGAGACTGGAATGCGACGGCGACGCCCTATGACGAGACGGCGTTTTTCCACACCCTTTTTGAAACACACGCGGCCGGAACGCCGGAGGCTATCGCTCTCGTTCAGCTGGCCGACGGTGAGCGCAGCGCTGTTACCTACGGCGACCTCAACCGGCGCGCCAATCAGATCGCGCATCATCTGCGTAGTCTTGGCGCAGGTCCGGAAACCGTGGTCGCCATCGCGCTTGAGCGCGGCCCGGACATGATCGCAGCCTGGCTCGGCGTTCTGAAGGCTGGCGCGGCCTACCTGCCGCTCGACCCCATCTATCCGCCAGAACGGATCGCGATGATGCTTTCGGATTCGGGCGCTCCCTTCGTGCTGACGAAACGCGGCAGGGTGCTGCCGGAAACGGCGATCCGCATCGATCTCGATACGGACTGGCCGCACGATGCCCCGAAAGACAATCCCGTTCAGATCAGCCGGCCGGAGCACCTTGCCTATATGATCTACACATCGGGATCGACGGGGAGGCCGAAAGGTGTGCTCGTCGAGCACGGGGGCGTCGTTAACCTGACGGAACACAAGATTCGGGCGGGCGCCGTAAGTCCGGGCGATTGCGTTCTCCAGTTCTTCTCCTTTTCCTTCGACGCCTCCATCCCGGAACTGGTAATGGCGCTCGGCGCAGGCGCATCGCTACTGCTATTGCCTGCCGACGATCTTCTGCCCGGACCCAGACTTGCCGAACACATGAAGGCCGAGGCCGTGACCCATATCACGATGACACCCTCGGCGCTTCTGGCGTTGCCGGCCGGCGACTACCCCGCTTTGCGCATGGTGTTGACTGGCGGCGAAGCCCCGACACCGGAATTGATCGAACGCTGGGGAACCGGCCGGCTTTTCATCAATGCCTATGGACCGACGGAAACGACGGTCAACGCCAGCATGGTCCTTTGCGAAAGCGGTGGCCCGCCGGAGGCTACCTTGCTGCCCGCCGCCAACAAGCAGCTTTATGTGCTTGACGAAAATCTGGAGCCGGTTCCGGTCGGCCAACCCGGCGAACTGCATATTGGCGGGCTCGGCATAGCGCGCGGCTACCATGGTCGCCCGGCACTTACGGCCGAACGTTTCGTACCCGATCCGTTTTCCGCGACGGGCGGTGTGCTCTATCGAACGGGCGATCGGGCCTGCCAGCTTATCGACGGGCGCATCAGGGTCCTCGGCCGCCTTGACGATCAGGTGAAGGTTCGCGGCTACCGCATTGAGCCCGGCGAAATCGAAGCGACGGTCCTCGCTCATCCCGCCACGGCGGCGGCGGCGGTAGCCATCCACGAGATCGACGGTGAAAAACGCATCGTAGCCTATTGCGTCGCAAGAGACGCGGCCGTTGTCGGTGCGGCGGAAATGAAGATATTCCTCGCCGGGCGGCTGCCTCGCCATCTCGTTCCGGACGCTTTCCTCTGGCTTGAGCGGTTGCCGCTAACCGTCAACGGCAAGGTGGATACCAGCGCGTTGCCGCCTCCGGATCTTAAGCGTGAGGGCGGCCGTGCGCCGAAGGGCGAGACAGAAAAGGCAATTGCTGCAATCTTCGGTCAGATTCTCGGGCGTTCGGATGTCGCCGCCTCGGATGATTTCTTCACAATAGGCGGCCATTCGCTGCTCGCCACTAGGCTTTCGGCGCTCGCCAAATCGACATATGGCCTCGACATAGCCATCACGGACCTGTTCGAAGCGCCGACGGTCGAGTCACTGGCGTCGAGATTGAACGGCCGAAACACAATCCGCGTGCCCGCAAAAGAAAACTGCCGGGCCCATATCGCGCTCGATCCCACCATACGCCCCGCAGCGGCGGTCGTGTCGACCCATCTTCCGCGCCATGTGTTTTTAACCGGCGCGACCGGTTTTCTCGGCGCCTACCTGCTCGGCGCGTTGCTCGAAGACCCGTCTCGCCGGGTCTCCTGCCTGGTCCGGGGCATCGCTGGAATAGATCGCCTGCGGCGGGTTCTTCAGTCTTATGGCCTCTGGCGCGACGGACTTGAAGAGCGCATCGATATCCTGGTGGGCGACCTCTCCAAGCCGAAGTTCGGTCTTTCCGACGCCGGCTACGATGCGCTTGCAGAAAACGTGGATTGCGTCCTGCATAATGGTGCGGAGGTCCACCATCTCCATCCGTTTGAGCGCCTGAACGCAGCCAATGTCGGCGGCACGGTCGAGGCTATCCGTCTGGCCGCAGCGGGCCGGGCACGGCCATTCCATCTCGTCTCCTCGCTCAGCGCACTGACACGACGCGGAACCGGCGGGGGCATTGACGAAAGCGCAGCGATCCAAGACTTTTCGCCACCCTCAGGCGGATACAACCAGACCAAATGGGTGGCCGAAAATCTCGCCGAAGCGGCGCGGGAGCGAGGACTTCCGGTAACCATCTACCGGCCCGGCGCGATTTCGGGCGATAGCCGTACAGGCGCCTTTAACAAAGCCGACATCCTTTGCCGGGTGATGCAGGGTTACATGCGCTCGGGCATCGCACCGGAGGGCGATACACCACTTGAGATGCTGCCAGTCGATACGGTCGCCCGCGCTATCACCGCCTTGATGGACAGCGACCCCTGCGCCGGGCGTCGCTGGCATCTCGTCCATTCCACGCCCGTCTCCTCCGCCCTGCTTTTCGAAGCGGCTGCGGCTGAAGGCCTGAAGCTGCAACGCGTTTCACGAGCCGCGTGGCGTGCAGAACTCGATCGTATAGCGGAGGAAGAAACAGATCATCCGCTCTACGCCCTCATGGGGCTCTTCGAACCGGTGGCGAGCTCAGAGGCGTCCACCAGCACGCGCCCGGTCGAACGCGGCGAGACGCTTGCCGCGCTCGCGGCGGCCTCGATCAACGAGCCACCGCTCGACCTTTCCCTTTTCCGCTCCTATTTGCGCGCCTTCATTGCCGCCGGCGCACTCCAAACTTCTAAAGAAGATGGGCAAAGATATGCTTGA	MTARETVEALLARLAESGVQIASSEGRLRLSGPETALTPDLADVIRARKTEIMAALSGGAAKSETITARHADTPPLSFAQQRLWFVDQMMPDAGLHHMPLAVEARGKIDLAALESALQSVATRHEILRTRIATRDGLPSQQVVADSRIPLRLIDRRDDMPDEQELNRIVRDEARHPFNLALEPPLRLTAIRLGEEQTLLLLTLHHIAGDGWSMEVLLGELSAIYAATISGVDPNLPALPIQYGDFAAWQRDYLAGPAFDTSLAFWSSHLETPPPATQLPGDFPRPPVQANAGALHAITVDVDTTARLRALAKAEGATLFTTLFAAFNILVYRYTRQKDLVIGTPVANRRHRETEGLIGLFVNPLPVRTRLHPAASFRETLRRTQSTLWSVLDHQDLPFEQLVQALKPERDPSQHPLFQMKFQLDSTPAQKVGLSGLEIVRLPQRAGIAKLDLSLNLVDAGKTIHGNFEYDTALFRPETIAALTAHFDVLVEAIAAAPETAIAALPLLGSDERRRQIRDWNATATPYDETAFFHTLFETHAAGTPEAIALVQLADGERSAVTYGDLNRRANQIAHHLRSLGAGPETVVAIALERGPDMIAAWLGVLKAGAAYLPLDPIYPPERIAMMLSDSGAPFVLTKRGRVLPETAIRIDLDTDWPHDAPKDNPVQISRPEHLAYMIYTSGSTGRPKGVLVEHGGVVNLTEHKIRAGAVSPGDCVLQFFSFSFDASIPELVMALGAGASLLLLPADDLLPGPRLAEHMKAEAVTHITMTPSALLALPAGDYPALRMVLTGGEAPTPELIERWGTGRLFINAYGPTETTVNASMVLCESGGPPEATLLPAANKQLYVLDENLEPVPVGQPGELHIGGLGIARGYHGRPALTAERFVPDPFSATGGVLYRTGDRACQLIDGRIRVLGRLDDQVKVRGYRIEPGEIEATVLAHPATAAAAVAIHEIDGEKRIVAYCVARDAAVVGAAEMKIFLAGRLPRHLVPDAFLWLERLPLTVNGKVDTSALPPPDLKREGGRAPKGETEKAIAAIFGQILGRSDVAASDDFFTIGGHSLLATRLSALAKSTYGLDIAITDLFEAPTVESLASRLNGRNTIRVPAKENCRAHIALDPTIRPAAAVVSTHLPRHVFLTGATGFLGAYLLGALLEDPSRRVSCLVRGIAGIDRLRRVLQSYGLWRDGLEERIDILVGDLSKPKFGLSDAGYDALAENVDCVLHNGAEVHHLHPFERLNAANVGGTVEAIRLAAAGRARPFHLVSSLSALTRRGTGGGIDESAAIQDFSPPSGGYNQTKWVAENLAEAARERGLPVTIYRPGAISGDSRTGAFNKADILCRVMQGYMRSGIAPEGDTPLEMLPVDTVARAITALMDSDPCAGRRWHLVHSTPVSSALLFEAAAAEGLKLQRVSRAAWRAELDRIAEEETDHPLYALMGLFEPVASSEASTSTRPVERGETLAALAAASINEPPLDLSLFRSYLRAFIAAGALQTSKEDGQRYA				NA	NA	NA	NA	NA
BMS010_02613	891	tam_3		Trans-aconitate 2-methyltransferase	ATGCTTGAACAAGCCAGCAAATACGACCACTGGGCATGGCTCTATAACAAGACGCTTGGGCCTCGTTACGGCGCACACAAGATCGGACCGATCGAACGGGTGGTGCTGCCTCATCTTCCCGCCGGCGGCGCGATCCTGGACCTGTGCTGCGGCACCGGTCAGCTCGCAGCCGCTCTTATTGAACGCGGCTTTGTCGTGACTGGGCTCGACGGCTCCGCCGACATGCTCCGCCACGCGCGCGAAAACGCGCCATCGGCGACCTTCACGGAAGGCGATGCGTGCGATTTTGCATTTGGCCATCCCTTTGACGCCGTCCTCTGCACCAGCGCCTCGCTCAATCACATACAGCGCATTGACGATCTTGCCGCCGTCTTTTCCAGTGTCAGCAGCGCGCTGCGACCGGGCGGTATATTTGTCTTCGACGTAAACCATCCCGCGCAGATGGCGCGCTACTGGCATGGCAAGGCGACGGAGGGCGAAATCAACAGCGATTTCGCGTGGCTGATCACACCCCAATACGACCTCGGCACGGGCAATGGCACTTTCACCGTCGATATCTATCACCGCCCCCATGAACGCCCCTCCTCGGCACTCGACCGGCTGGCCGGCAGGCTGACCCGGTCTCACCGCATGCGTCGTATCCGCCTCGCGCTTCTTTCCAGTTTCCGCCGTTTGCGGCCGCATTGGGAGCATCACTCCGTCATCAACCGCGTCTGGGGCCACGATCTCGACGCCGTCCTGCTGGCGCTCCGTAAAAGCGGTTTTTCCGCCGAAGTGCGCAGCACGCAGGGCGGGGCCGTCGACGACAGCCATGCCGCCTATTTCTTCTGCCGAAAAGCGGCCGCCACTGAAGCGCAGGCCGAGACCGAGACACTAGAGGCCTCCCGATGA	MLEQASKYDHWAWLYNKTLGPRYGAHKIGPIERVVLPHLPAGGAILDLCCGTGQLAAALIERGFVVTGLDGSADMLRHARENAPSATFTEGDACDFAFGHPFDAVLCTSASLNHIQRIDDLAAVFSSVSSALRPGGIFVFDVNHPAQMARYWHGKATEGEINSDFAWLITPQYDLGTGNGTFTVDIYHRPHERPSSALDRLAGRLTRSHRMRRIRLALLSSFRRLRPHWEHHSVINRVWGHDLDAVLLALRKSGFSAEVRSTQGGAVDDSHAAYFFCRKAAATEAQAETETLEASR				NA	NA	NA	NA	NA
BMS010_02614	1404	hemL_1		Glutamate-1-semialdehyde 2,1-aminomutase	ATGAACACGTTCCCTGGCAGCCCAACATCATCGGCGGCGGCAGCGGCCGCCATCATCACCGCCTTCAACCGCAAGACGGAAAAATCCAAGGCGGCAAGCGCTCGCAACCAACGCGTACTCTCCGACAAATCGTCGATCGGGGCACCCTTCTCGCTGCTCGCCAAGGAGGCGTTTTATCCGATCGTGGTGCAAAATGCGGAAGGCGCGTACCTGCGCGATATCGACGGCAATCGCTACGTCGATGTCCTGATGGGCATGGGCATCAACCTTTTCGGTCACAATCCGCCCTTTATCCGCGCGGCGATCGAGGCGCAGCTCGACCGGGGCTTTGCACTCGGGCCGCAATCCGATCTTGCGGGCGAGACGGCCGAACTGTTCTGCAAGCTCACGGGCAAGGACCGCGTGACTTTTACCAATACCGGCACAGAGGCCGTCATGACCGCGCTGCGGATTTCGCGGGCGGCAACCGGGCGGCGCAGGGTCGCAATGTTCATCGGCTCGTATCACGGCCATTCGGATCAGGTCTTAAACCGCATCGCCGGGCCGGACGATCCGCGCGCGGTGCCTGCCTTCCCCGGCATCTCCCCCGCCTCCGCCGAAGATGTCCTATTGCTTCCCTATGATGATCAGTGCGCGCTGGAAACTCTCGAACGGGAGGGCGAAACATTGGCGGCCGTGCTGGTCGAACCCGTACAAAGCCGCAATATCGACGTCCAGCCGCGCGCATTCCTGCACATGTTGCGCGACGTGACGCAACGGACCGGCGCTGTCCTTCTCTTCGATGAGATGATCAGCGGTTTCCGTGTCGCGCCGGGCGGCGCGCAGGCGCATTTCGGCATCGAAGCGGATCTCGCGACCTATGGCAAGATTGCCGGCGGCGGACTGCCGCTGGCGTTGATTGCCGGCAACACCCGGCTGATGAACCATATAGACGGCGGCCCCTGGTCGTTCGGGGACGATTCCGTTCCGCCCGTGCAGCCGACCTTCTTTGCCGGAACCTATTGCCGCCATCCGCTGGCGCTCGCAGCCGCCCGCGCGGCGGCAGTCCACATGCTGGAGCAGGGACCGGCGCTGCAGGAGGGTCTCAATGCGCGAACACGCGCCCTGGTAGACCGTCTCAATAAATCTCTCGCAGCAGCACAGCTTCCCGTCGTTTTCACCCAGTTCGGCTCCTTTTTCTCGGTCGCGGTCAACCGCAGCCGCATCCCGCCGCTCGCGCTCGGGCTGCTCTCGCTCGAACTCCTGACCGCTGGAATCCACCTGCGGGGCGGCGACAAGGGCGGTTTTCTTTCCACTGCGCATTCGGACGACGACATCGCCGCCATTCACGACGCCATCCTGACCGGCCTGCAATCGCTCGCAGGTTTCGGCCTTTTCCCCCTCACCGACGGAACAACGCCATGA	MNTFPGSPTSSAAAAAAIITAFNRKTEKSKAASARNQRVLSDKSSIGAPFSLLAKEAFYPIVVQNAEGAYLRDIDGNRYVDVLMGMGINLFGHNPPFIRAAIEAQLDRGFALGPQSDLAGETAELFCKLTGKDRVTFTNTGTEAVMTALRISRAATGRRRVAMFIGSYHGHSDQVLNRIAGPDDPRAVPAFPGISPASAEDVLLLPYDDQCALETLEREGETLAAVLVEPVQSRNIDVQPRAFLHMLRDVTQRTGAVLLFDEMISGFRVAPGGAQAHFGIEADLATYGKIAGGGLPLALIAGNTRLMNHIDGGPWSFGDDSVPPVQPTFFAGTYCRHPLALAAARAAAVHMLEQGPALQEGLNARTRALVDRLNKSLAAAQLPVVFTQFGSFFSVAVNRSRIPPLALGLLSLELLTAGIHLRGGDKGGFLSTAHSDDDIAAIHDAILTGLQSLAGFGLFPLTDGTTP	PGPT0003680_431	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003680-hemL-K01845	NA	NA
BMS010_02615	228			hypothetical protein	ATGAGCAACCAGGACCAAACCACCGACTTCCCGCATCGCGTCGTCATTAGCGACGAGGAACGATACTCGATCTGGCCAACCTACAAGCCCATTCCCCACGGCTGGCGCGACGGCGGTTTCGAGGGGCCGAAACAAGCCTGCCTCGATCACATCGCGGTGGTCTGGACCGATATGCGTCCGCTCTCGCTGCGCCGCCAGATGGACGGCGATGCGTCCGCCAACCGATAA	MSNQDQTTDFPHRVVISDEERYSIWPTYKPIPHGWRDGGFEGPKQACLDHIAVVWTDMRPLSLRRQMDGDASANR	PGPT0003370_183	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-NOCARDICIN_A-D_METABOLISM,PGPT0003370-mbtH|nocI-K05375	NA	NA
BMS010_02616	579			hypothetical protein	TTGAGCCAGCATCAACGCGCCCTTACTGCTGAGATTGCGAGTGAAGAGACCCGTTCCGTCGAGCAATCGGCCGCCGGTAAGATCACGCTGACGGAGGTAAAGACCTCCGAGCGGATGGAGGAGCCTGCGGAAGACGGCTGGCTGGACCTTCCGCTTCCCGACATGCTGCCCGCCGAAACTCCGCTGAGCGATGTCGAGAAACGCCGCATGCACGGCGTTCTTTCCGGCCTCCTCGAGGCGCTCGCGCTTGATCACCCCGCGAACATCGGCCGGCTGGACGCGCTCCTTGTTGATCTCGGCAAGGCGGCGGGCGAACGGCCGGAAATCGACACGACGGGACTGCCGATCACGTCTTTCCAGGCAACGGATTACGACCGCTATTTCCGCGTCAACCGCCAATCCGCCGGCGAACCCGCCGTCGCGATGGTGAGGAGCCTGGTTCAGACCGTGCGCGCCATCATGCAGCTCTTTGCCCGCAGCAAGGGCCTTCCCGCGATCCACGTCGATCGTCAGGTGGAAGGCTTTGAAAGTCATACGCATTTGCTTGCCAGGAGCTTCGGATTGGAACCGCTTCGATGA	MSQHQRALTAEIASEETRSVEQSAAGKITLTEVKTSERMEEPAEDGWLDLPLPDMLPAETPLSDVEKRRMHGVLSGLLEALALDHPANIGRLDALLVDLGKAAGERPEIDTTGLPITSFQATDYDRYFRVNRQSAGEPAVAMVRSLVQTVRAIMQLFARSKGLPAIHVDRQVEGFESHTHLLARSFGLEPLR				NA	NA	NA	NA	NA
BMS010_02617	561			hypothetical protein	ATGATGGCTGTCACTCCGCCCTCTCCATACGCGATATGGCGTGAGTTTCACTGGGCGTTCTTTCTGAATGTGCAGGGGCTCATCGTTTCGCTCCGCCGGTTCCGGCTGGCGCTGGAGCGCGGCCTCATGACCTCGGCCGAACTGGAGCTCAACACCGCATCGACCCTGCTTGTTTCCTCGGCCGCCTCGATGGAACTTGCCGCAAGTTTCCCGAAGGACGTCTACGAAAAAACGGTCCGTGTCTCCATGACGCAGCCGAATGTGGAATCCGACGATTTCAGCGGCCTCATGTCGTGGGAACACGCCGTGCTTGTCGGTGTGTGGCGGGATCTTCGCCCGATCTTCGAGACCCTGCCGGACGACCTCGCCGTCGCCCATTCCGGTTTCATTGCCGCCTACAAATATCTCGCCGAAAGCCATGTGGGCGTTTGCTCACGCTTCGTCGACAGCGGCAGTCTCCGCTTCGATGATCGCAATGCCGTCGACACGCTGCGCCGCTTCGAGCGCGGCAGGCTCGGCCTCATCGACCCAAAAGGCAAAGGTTGCCCATTCCATTCCTGA	MMAVTPPSPYAIWREFHWAFFLNVQGLIVSLRRFRLALERGLMTSAELELNTASTLLVSSAASMELAASFPKDVYEKTVRVSMTQPNVESDDFSGLMSWEHAVLVGVWRDLRPIFETLPDDLAVAHSGFIAAYKYLAESHVGVCSRFVDSGSLRFDDRNAVDTLRRFERGRLGLIDPKGKGCPFHS				NA	NA	NA	NA	NA
BMS010_02618	4404			hypothetical protein	ATGAACGACCTGTCCTCAACCCCTGTTTCCGGTGACAACGGGCATCATATCGCCGTCATTGGCATGGCCGGCCGCTTCCCCGGCGCGCCTGATGTCGAGCAGTTCTGGCAGAACCTGGTCGATGGCGTGGAATCGATAGAGCGTCTCACACCCGAGATGCTGAGGGAACGACGCGTTCCCGCGGAAACCGCAGTGCTTCCGGATTTCGTCGCCGCCAGCGCGCCGCTGGCGGGTGCGGATCGTTTCGATGCGGCCTTTTTCGGCTACAGCCCGGCTGAAGCGGAAATCCTCGACCCTCAGCAGCGCGTATTTCTGGAATGCGCCTGGCAGGCGCTGGAGGCCGCCGGTTACGTGGGTGATCGTTACAAGGGGGCGATCGGCGTCTTTGCTGCGGCGGGCATCAACACCTATCTCCTCAACCTGCATGACAATCGCCGTATTCGCGAGACCGTCAGCCCCTATGAAATCTTCGTCGGCAATGACAAGGACTTCCTGGCGACCCGCACGGCCTTCAAACTTAACCTGCGGGGCCCGGCAATCACGGTCCAAACCGCCTGCTCGTCCTCGCTCGTCGCCGTGCACATGGCCGTCCAGAGCCTGCTTGCCGGCGATTGCGACATGGCGCTTGCCGGCGGCATCGCTCTCTCGCAGGCCTCCGGTTACCGCGCCCGCGAGGGAGGCATTCTGTCGCCCGACGGCCATTGCCGTGCCTTCGATGCAGCCTCGGCCGGCACCGTGCCGGGCAGCGGCGTCGGCATCATCGTCCTGAAGCGATTGGAAGACGCGCTTGCCGATGGCGACACGATCGACGCAGTCATTCTTGGCTCCGCCATCAACAATGACGGCGCGCTGAAGGCAAGCTTCACGGCCCCGCAGGTCGATAGCCAGGCAGCGGTCATCGCCGATGCCCAGACGATTGCAGGCGCACGCGCCGAGACGATCGGCTACATCGAGGCGCACGGCACCGGCACGAGGCTCGGCGACCCGATCGAGGTCGCCGCGCTTACCAAGGCTTTCCGTCGCGATACGGAACGAGAGGGCTTCTGCGCGCTCGGCTCCGTCAAGTCCAACATCGGCCATCTCGACACTGCCGCAGGCATTGCGGGCTTCATCAAGGCGGTGCTGGCGCTGAAACACAGACGGATTCCGGCGAGCCTGCACTACGAGAACCCAAACCCGCAGATCGACTTCAAGACGAGCCCCTTCTTCGTCAACCAGCGTCTCCGCGACTGGGACAACCAGATCGGCGCGCGGCGCGCTGGCGTTAGCTCCTTCGGCATCGGAGGAACAAATGCCCATGTGGTGCTGGAAGAAGCTCCGGTCCGCCCTGCGCACCGGACAGACGCCGGCGCGCAATTGCTGCTCGTTTCGGGACGGACTGACGAACAGCTTGCGGCTAACGCCAGGGCGCTCGCGACGTACCTTGATGGTGAAAACGTCGCGGCCTTGGCCGACATTGCACACACGCTCCGGCACGGCCGCCGCGATTTCGCCAAACGCCGCTTCGTTGTGGCGCGAGATGCGAAAGCGGCTGCGATACAGCTGCGCACCGTTTCCCACGCCGGCACGGCGGGCGGTGAAGCGGCCGAGGCCGTCTTTCTCTTTCCCGGCCAAGGCAGCTCCTACCCGGCAATGGGCAAGGCGCTTTATGCAGAGGTGCCGGCCTTTCGCGCCAGCCTCGACGCCTGCGCAGCCGAACTTGACCTCCTCATGGGCCTCGACTTCAAAACCCGCCTGTTTTCGGATGCGGACGATCTTCACAGCACTGATTTTGCCCAGCCCGCGCTTTTCGCCGTCGAATATGCGCTCGCCGAGGCATTGAAAAGCAGCGGCGTAAAACCAAAGGCCTTGCATGGCCACAGTATCGGCGAATATGTCGCCGCCTGCCTTGCTGGTATCGTTGATTTAAAAACTGCGCTCCAGCTCGTTGTCACACGCGGGCGTCTGATGCAGGCCGCAGCGCCGGGGGCCATGCTTGCGGTCATGCACGCCCAGCAACCGATAACATCCTGGCTCGACGGCAATATCGCGCTTGCTGCGGCCAATGCCCCAGGGCTCAGCGTGCTCTCCGGTCCCTCGCAGGCGATCGCCGATCTACAGGCGCGACTGAAGGAAAGGGGTATAGCCAGCCGGCTGCTGAAAACATCACACGCCTTCCATTCGCCCATGATGGCGCAAGCGGCTGCGGCGTTCCGCTCCGTCCTCACCGGCGTTCGCCTGTCCGCGCCGAAGCTTCCCATCATCTCCAACGTGACCGGAAGCTGGCTTACCGCAGAGGACGCGACAGATCCCGATTACTGGGTGCGCCACCTGCTACAGCCTGTCCGTTTCGAGGATGGCACCCGCACGCTGCAATCGCTGTCCGCATCCGTCTTCATCGAGGTCGGGCCGGGCCGGGCGCTTGGGACGCTTACGGCAGCAACGGGGATTGACGGCGCACGCATCGTCACAGCCCTCGGCGACGGCGTGGACGAGGCCGAACAGTTCCTCTCCGCCATCGGCCGGTTCTGGCAACTGAACGGCGTGCTGGATTCCAGCGAGACGCCGGGCCGGCGACGCGTACCGCTGCCGACCTATTCTTTCCAGAGTGAACGACACTGGGTGGATGCCGATAGCGGCAAGGCCCCTGGAAAGGCAGCTTCAACCCATGCCAACGGTCCCGGACTGTACAGCAAAGTATGGCGGCGGACGCAGCCGGGCGGCCAGGGTGCGGGCAGGTTGAAGGGCCGTTTCCTCGTGTTCGACGACGGCCAGTTCGGAGCGGCGATCGCCGCCGAACTCGAGCGGCATGGAGCAGAGCCTTACCGGGCAATCGCAGGTCCGGCCTTCGATGAACCAGACTTCCGCTGCTTCAGCCTGCGCCCTGACGCAGTCGAGGATCACGAGACATTGCTTGACGCGCTTGGTGAGCGAGGGGCAAGCCCGGACCATATCGTCTTCGGCTGGCCGCTCACAACTGACGCAGCCCCGAAGGCGCACACCCATACGCAAGCCCTCTTTGCTCTCGTGCGGGCGCTTGCGAAGAATGACAGCGTTTTGACGCTGACGTTGCTGACACGATCGGCCGCCGACGTGACCGGTCTAGAAACCCTCGACATCGCGCAGACACTGGTGGCCGGCAGCCTGCTGGTCATCGGCCAGGAACATTCCTCCCTCCAGTGCCGTAATATCGACATCGACGCGGCTGAGCCCATCGACATCGCAAAACGCGTCCGCGACGTGCTTTCAAGGAAGGACGATATCGTCGCGATCCGCGGCGCCCATCGCTGGCTCCCGAAGACGGACCATTTCGAGGCGCCGGAAAGCAGCCAGACCTTCAAGGCAAATGGGACCTACGTCGTCGTTGGCAATGTCGCGGACGGTCTCGGCCGGACATGGGTCGACGCGCTGTCCGGTCTCGGTGCTAGGATCGCTCTGCTTCATGAAACCTTGGCGCCGGCTTTCGAACACGCCGCACAATTCGAGCGCCGGCTCGACTGCGGCGACGAGGCGGCGCTTGCGAGCGCACTTGATGACGCTTCCGCAGATCTCGGCCGGATCGACGGCATCTTCCTCAGCCTGCCGCAGTCAAACCACCAGTCTGCCGCACTGACCGGCGAGCTTGGGGAGGCGCACTGGGCATACAATATTTCGAGCAAACTCCGCCCGGTCCAAGCGCTGGTGGCAGCCACCGCCAGACGCAAGATCGGCTTCTGCTGCGTTCAGTCTTCGCTATCGACGTTGGTCGGCGGCATCGGCCTTGCCGCCTATGCCGCGACACACCACGCCATCGACCGGATCGTCGCTGAACAGAACAAGGCCGGGACAATTCCCTGGTTTGCGATCGGCTATCCGCTGGTCGAGGTAAAGCCCGGTACGAGCTTGCACGCGACCGGCCGTACAAACGCCTTCGCGATATCGGCGGAGACGGCCTGGGATTTCACCCGTCGCCTCATCGAACAGGGCGCGGCCGGGCAGACGGTGCTTTCGGGTGGGGCTATCCCACCGGTCGCTGCAACCATCGAAGCTCCGGAGACGCCCACTCAGAATGGCGGCCGCGGTCGACCCGAGATCGGCGTCGCTTATCGCGCGCCCGGCAATGACGCCGAGGCGACGATTGTCGGCATTTTCGAAGAACTACTCGGACTATCGCCGATCGGCGCCGACGACGGCTTCTACGAACTCGGCGGCCATTCGCTCTTGGCGATCCGCGCCGTCGCCAAACTCCGCGAAGCCTTTCCTGTGGATGTCGCCATGCGCGAACTGCTCTTCGACAACCCGACCGCTGCGGCAATCGCCAAAACCATTTCCGAGCGCATGGGCGACAAGACCGATCTCGCCTCCATCGCTGATCTTCTTGAGGAGGTCGGCAATCTGTCCGACGCCGATGTGAGCGAGCTTCTTGCCGGAGGAACCGCACGATGA	MNDLSSTPVSGDNGHHIAVIGMAGRFPGAPDVEQFWQNLVDGVESIERLTPEMLRERRVPAETAVLPDFVAASAPLAGADRFDAAFFGYSPAEAEILDPQQRVFLECAWQALEAAGYVGDRYKGAIGVFAAAGINTYLLNLHDNRRIRETVSPYEIFVGNDKDFLATRTAFKLNLRGPAITVQTACSSSLVAVHMAVQSLLAGDCDMALAGGIALSQASGYRAREGGILSPDGHCRAFDAASAGTVPGSGVGIIVLKRLEDALADGDTIDAVILGSAINNDGALKASFTAPQVDSQAAVIADAQTIAGARAETIGYIEAHGTGTRLGDPIEVAALTKAFRRDTEREGFCALGSVKSNIGHLDTAAGIAGFIKAVLALKHRRIPASLHYENPNPQIDFKTSPFFVNQRLRDWDNQIGARRAGVSSFGIGGTNAHVVLEEAPVRPAHRTDAGAQLLLVSGRTDEQLAANARALATYLDGENVAALADIAHTLRHGRRDFAKRRFVVARDAKAAAIQLRTVSHAGTAGGEAAEAVFLFPGQGSSYPAMGKALYAEVPAFRASLDACAAELDLLMGLDFKTRLFSDADDLHSTDFAQPALFAVEYALAEALKSSGVKPKALHGHSIGEYVAACLAGIVDLKTALQLVVTRGRLMQAAAPGAMLAVMHAQQPITSWLDGNIALAAANAPGLSVLSGPSQAIADLQARLKERGIASRLLKTSHAFHSPMMAQAAAAFRSVLTGVRLSAPKLPIISNVTGSWLTAEDATDPDYWVRHLLQPVRFEDGTRTLQSLSASVFIEVGPGRALGTLTAATGIDGARIVTALGDGVDEAEQFLSAIGRFWQLNGVLDSSETPGRRRVPLPTYSFQSERHWVDADSGKAPGKAASTHANGPGLYSKVWRRTQPGGQGAGRLKGRFLVFDDGQFGAAIAAELERHGAEPYRAIAGPAFDEPDFRCFSLRPDAVEDHETLLDALGERGASPDHIVFGWPLTTDAAPKAHTHTQALFALVRALAKNDSVLTLTLLTRSAADVTGLETLDIAQTLVAGSLLVIGQEHSSLQCRNIDIDAAEPIDIAKRVRDVLSRKDDIVAIRGAHRWLPKTDHFEAPESSQTFKANGTYVVVGNVADGLGRTWVDALSGLGARIALLHETLAPAFEHAAQFERRLDCGDEAALASALDDASADLGRIDGIFLSLPQSNHQSAALTGELGEAHWAYNISSKLRPVQALVAATARRKIGFCCVQSSLSTLVGGIGLAAYAATHHAIDRIVAEQNKAGTIPWFAIGYPLVEVKPGTSLHATGRTNAFAISAETAWDFTRRLIEQGAAGQTVLSGGAIPPVAATIEAPETPTQNGGRGRPEIGVAYRAPGNDAEATIVGIFEELLGLSPIGADDGFYELGGHSLLAIRAVAKLREAFPVDVAMRELLFDNPTAAAIAKTISERMGDKTDLASIADLLEEVGNLSDADVSELLAGGTAR	PGPT0004147_1	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_GOLD_RESISTANCE	GOLD_RESISTANCE-DELFTIBACTIN_METABOLISM,PGPT0004147-delF-NA	NA	NA
BMS010_02619	7722	lgrB_3		Linear gramicidin synthase subunit B	ATGAACGAGCTTTTCACGAAAATCGCGGCCCTGTCTCCGGAGCGTCGGCAACTGCTCGAAAAGAAGCTGAAAGCCCAGGGCATCGCGGTTCCCGCGCCCTCGGGCATCCCGCGGCGCGCAGACCAGGACGCGGCGGTCCCCCTCTCGTCAGCCCAACAACGCCTGTGGTTCATGCAGCAGCTCGAACCCGAAACCGTCGCTTATAACATGAACCTCGCGTTGAGGCTGAAAGGCCCGCTTGACCGTGCGGCCCTCTCGCGCGCCTATGCAGCCCTCGTTGCCCGCCACGAACCCCTGCGTACCAGATTTCCAATCGGCGCAGACGGTCAGCCGCGCCAGTTCGTCGAAGCGCAAGGTGCGACTGAAATGGGCTATCACGACTGCCGGCAGCAACCTGAGCCGGAAGAGGCCGCCCGTCGTCATGTCGAGGCAATGGTCGAAACGCCCTATGACCTCAGCCGTCCTCCCATCCGCGCGACGCTGACAAGGGTTTATGACAGCGAGCATGTACTCGCGCTCGGTATGCATCACATCATCAGTGACCGATGGTCGATGGGCGTCTTCACGCGGGATCTCTCAGCGCTCTATCACGCCGAAGTAACGGGTAAGAACGCCGGGCTAGCAGCTCTGCCGGTGCAGTTTGCCGACTGGACGCTCTGGCAGCGCGGCCTGCTGGAGGGCCCGGCGCTTGCCGAACAGCTTTCCTACTGGACAGGCAACCTTGCCGGCGATCTTCCCGTTCTCGAACTGCCGCTCGACCGGCCCCATAGCCTGACCGCGAGCTTCAGCGGAGCGCACTTTCCCGTCCGCATCGATCGAGAACTCTCTCTGAAGTTGCGCGCGCTCGCCGTCGAGCAGAATATCAGCCTTTTCACCTTGCTGCTTGCCGCCTTCAACGTGCTTTTGCATCTCTATACCGACAGCGACGATATCGTCGTCGGCAGCGAAATCGCAAACCGCGACAGGCCCGAGACGCAGAACATGATGGGCCCGCTCGTCAACACGCTAGTTTTCCGCAACGACCTCTCGGGCGATCCGACCTTCATGGGGCTGCTCCGCGCCGTCGCCACGACCGTTCGTCAGGGTCTCGCGCATCAGGAAATCCCCTTCGAGCGTCTCGTGGAAGCGATCAATCCGGAACGCTCGCTCTCGGACCTCAACCCGCTCTTCAACGTGAAATTCGATATCCAGCACAGCATCGCCCCGCCACCTGGCCTGCATGGCATTTCGATCGAGCTTTATCCGCTACGCGAAGTGGCGACGAAATACGACCTGCGCTTCAATCTTGAGGACGACCATCCCGATATCAAGGGCAAGATCGAATATTCCAGCCAGATATTCGACGAGAGCAGCATCGCCACGATGCTCACCCGCTTCGAGCGCCTGCTGGACCTGATCGTGCGCGACCCGTCACGCAGGCTTTCGTCGCTTTCGCTGTTAACGCCGCAGGAAGAAACCGCGATCATCTCAGCCGGCGCAGGTCCGGTGAGGAATTATCCGACACAGGAATGCCTACACGATCTTTTCCTCAAACAGGCGGCAGAAACACCGGATACGGACGCCGTGACCGATGGCGATCTGACCTGGTCCTATCGCGAACTCGAAGCCCAATCCTCACGCGTTGCGGCGAGCCTCATCGCAGCCGGCGTAAAGACGGGGGACCGGGTTGGTATCTGCATGCGCCGCTCGTCGCGGATGATCGCTGGTATCCTCGGTATCATGCGCGCGGGGGCGGCCTATGTGCCGCTCGATGCCGACTATCCGGCAAACCGCCTCGCCTTCATCGCCGAGGACAGCGCCATCACAACCCTTCTCGTCGACCATCAGCCGGTCTTCGCCAGCGAAGCCCAGACGCTCGTCGACATCAACACCCTGCCCGAGATCCGGCTCAAGGCGCGGCCCGCCGCATCACCGAGCGATCTCGCCTACATCATCTACACGTCCGGCTCTACCGGGCGGCCAAAGGGTGTCGCTATCGAGCATCGCTCGGTCGTCGCCTTCATGTACTGGGCGCGTGAGCGGTTTACACGCGAAGAGGTGGCGCGCATGTTCGTGCCGACCTCAATCAGCTTCGATCTGTCGATTTTCGAACTCTATGCGCCTCTCATCCTCGGCGGCACGCTTGTCGTCGCCGATCATTTTCTGGCGCTGCCGCAGATCGCGCGCACGGTGGACGTCACCTTCATCAACACCGTCCCGAGCCTCCTGCAGGAGATGCTACAGGAACATCGGCTGCCGGCGAGCGTTCGCACCGCGACCTTCTGCGGAGAACCGCTGCCGGCCGCACTCGTCGCGATCCTGAAACGAGACTATCCCGAACTGCGCATCCTCAATCTCTACGGCCCTTCCGAGGACACGTGCTTTTCGACGGAAGTGCCGCTCCACGGTGACCATTATGAAGGCGGCGTCGTGCCGATCGGCAAACCCCTGCCAAACACGCAAGGCTATATTCTCGACCGCGTCGGCCGCCTTCGCCCGCCAAGCCTTTCGGGTGAGCTTTACCTTGCAGGCACGGGCCTTGCGCGCGGGTACTTCGGCCGGCCCGAGCAGACAGCCGAGCGCTTCATAGCCGATCCGTTCTCGGCCGTGCCAGGTTCCCGTCTTTACAGGACCGGTGATCGCATTCGCCGGCGGGCGGATGGCAATCTCGAATTCTGCGGACGGCTTGACCATCAGGTAAAAGTCCGTGGCCTGCGCATCGAGACCGGCGAGATCGAGTATAATATCGAAACGCTGGAGGGTGTCGAAAAGGCAGTGATCGCAGTAACGGACGGCGTCGACCGACAGCTTGCCGCCTTCATCGAGCCGAAGGAGGGCATGAGGCTTGACGAGACGCAGTTGCGCCGCACGCTCTCCGACACCCTCCCCGTTCATATGATACCCACTCTCTGGTACTTCCTGCCGCGCCTGCCGCAGCAGCCGAACGGCAAGGTTGATCGCGCTGCGCTGCCCGCGCTCGCCGCGACAGCCACCATCAGTTCCAGCCCGCCGCAGACGGCGACCGAACGGCGTGTGGCGGATGCATGGGCCGATGTACTTGCCGTCGAAACGATCGGCCGAGACGACAATTTCTTCCGGCTTGGAGGTCACTCGCTGCTGGCAATGCGGATGATCGCCCGACTCTCGTCAGCGGCGCCGACAAAGGCCGTGCTGCGGAAGCTTTTCGAATTTCCGCGCCTGAAGGATTTCGCCGCCGCGCTGGAGCTTGCCGAGACGCCATCGGCGACGCCGGCAGCCGGGATCGCCCCTCTTCCCGACGGCGCACCGGTACCGCTTTCTTTCGCCCAGCAGCGGCTCTGGACCCTTGCCGAACTGGAACCCGAAAGCGCGGCCTACAATGTTCCGGCCGCCGTTCGCTTTCATGGCCCGCTGGATATCGACACGCTGGAGAAGGCGTTCGCAGCCCTTACGGAACGCCATGCAGCATTGCGCACACGGATCGTCACCCGGGCCGGCCAACCCGCCGTCGAGATCGATGCAACCGGCATTCTAGACATCGATATCGTTGATCTGGATGAGGTTGCCGTGACGCAGGCGCTCGTCGCCGCATCCGCGCAGCCGTTCGACCTAGCAACGGGGCCGCTCTTCAGAGTCCGCATCTTCCGCCTCTCGCCCGAGGAGCATGTCGTTCTCGTCGTCATCCATCACATCGTTTCCGATGCCCAATCCGTCCAATTGATCTTGAGGGATCTGACGCGGCTCTACGACGCGGTCCGGCAGGAGAGAAAAGCGGACATCCCGCCACTCGCTCTGACCTATGGCGATTTCGCAGCCTGGCAGCGGGAGCAGCCGCTCGTCGAGCAGATCGACTATTGGCGCCGGTTGCTGGAAAATGCTCCGCCCCTACTCGAGCTGCCGACTGATTTTCCGCGCGGCGCGCGACAGAGTTTCAAGGGCGGAAGTGTCCGCTTCAATCTTGATGCAAAACTGTCGGCGGACATCGTTAGTTTCGCCCATGAACGGGACGCAACACCCTTCATGGTCGTTCTTTCCGCTTTTTCGACCCTGCTGGCGCGCTATTCCGGCGCCTCGGAGGTGGTCGTCGGAACGCCGGTGTCCGAGCGCCCCAACCGGGCGTTGGAGGACGTCATTGGGCTTTTCGTGAACACGCTGGCGCTGAAAATGACGCACGACGCTTCGACCAGCTTTGCGCAGCAGGTCGATGCTACGCGCACGCTAGTTCTCGAGGCGTTCCGCCATCAGGACGCGCCTTTCGAATGCGTGGTGGACGCCCTGTCGGTCGAGCGGAACTGGAGCCATAACCCGGTATTTCAGACGATGTTCACCTGGCAGGCCGACGATGCGCGCAGTGCACGCCCAGACGGCTTGACGAGCAGCTCGATCACGATCGCGCAGGAAACCTCGAAGGTGGATCTGACGCTCGATATCCGCCATCGCGGCGATCGGCTCGCCTGCACCTTCATTTACCGCAGCGACCTCTTCCGGGGACAGACGATCGCCCACATGGCCGACGCCTTCGCGACCCTCATTGAGGGTCTCATATCGACGCCCGAACGACCCCAGCGCGAGATCGCCTTCCTGCCGCGGTCGCAGCGGCAGCAGATAGCCCTGTGGAATGCAACCGCAAAAACCTACGATGCGACGCCGAAAAGCCTGCATGGCTTCTTCACGCACTCGGCCAGCCGCACACCGGATGCCATCGCAGTCACTGACCGGGACAGCAATCTTACCTATGCCGAGCTCGATCGGCGGTCCGATACGCTCGCCCGGCATCTCGCATGCCTCGGCATCGGACGCGGCAGCGCCGTCGGCATCTGCCTCGAGCGCAATGTCGACCTTATCGCGGCCATGCTCGCCGTCCTGAAGACAGGCGCGATGTACGTACCACTCGATCCGAAATATCCGGAAGAGCGGATCGCCTTCGTCGCAAGGGACGCAGGTCTTTCCCTTCTTCTTACCTGCGAAAAGCGTGATGACTTCGCCAATATCAACACTTTCGATCCCGCAGCGATTTGGAACGGAAAGACGGACATCCCGGACGCTGCCTTCCCCCATGTGACCGAAGGAAGCGATCTCGCTTATCTCATTTATACGTCCGGTTCGACGGGCCTGCCCAAAGGCGTCGCAATCGAACACCGTAACGCCGTCGCCTTCACCCACTGGGCGCTCGAGCAGTTTCCGGCCTCGAGTTTTGCCGGGGTGCTGGCGTCAACGTCCGTCTGCTTCGACCTCTCGATCTTCGAAATCTTCGTGACGCTGGCGGCGGGCGGACGGATTTTCGTCGTCGACGACCTTTTCGAACTGCCGGACGTATCGTTCTCCGATGAGATTACCTTCATCAATACCGTACCGACACCGATGACGGAGCTGCTGCGTTTCGGCCCGCTGCCCGTCAAGGTAAAGACGGTCTGCCTCGCGGGCGAACCGCTGCCGCCAAGCCTTGCGCGGATGGTGCTCGAAAGCGGCAGCGTCGAGGCGCTCCACAATTTGTACGGCCCCTCCGAAGACACGACCTATTCAACGGGATGCCGGATCGAAAATCCCGACTTGCCGATCCATATCGGCAAGCCGATCGCCAACACCACCGCGCATGTCCTCGACGCCGCGCTCAACGAAGTGCCGATCGGCATGCCGGGTGAGCTTTATCTCGCGGGCGAAGGCATCGCACGCGGTTATCACAATCGCCCGGACCTGACGGCTGAGCGCTTTCTGCCGAACCCGTTCGACGCGACCGGCAACGCTCCCGTGCTCTACAAGACCGGCGATCGCGTGCGCCGCTCGGCGGATGGTAATATCGATTACCTCGGCCGCGCCGACCGCCAGATGAAGATCAGCGGTTTCCGGATCGAGCCCGGCGAAATCGAGGCCGTGCTGATGCGTTATCCCGGCGTGACGGGTTCGGCTGTAGATGCGTGGCGCGACGAGACTGGTTATGCCCGCCTCGCCGCCTGGGTCGAGACGGCAGAGCCGATCGGCAAAGCAGAACTGTCGGCCCATCTCGCACGGGAGTTGCCGCGCCATTTCGTGCCAACGCTGTTTGCGATGCTCGACAAGCTCCCGCGCCTGCCGAACGGCAAGCTCGACCGCAAGGCCCTGCCCGATCCCTCCGGTGAAGCCGCGGTGGCTGCGCAAGACGAAACACCACACGACGGCTTCGAGACGACGATCGCAGCAATCTGGTCGAAGCTGCTCGACCGCCAGACGATCGGGCGCAACGACAACTTCTTCGCGCTGGGCGGGGATTCGATCCTTGCGATCCAGGTCGTGGCGGCGGTGCGACGCGTCGGCATCGCGATCACGCCGCGCGATCTCTTTCAGTACTCGACGCTTGCAGCGCTTGCCGCATCCCTGTCGGCTCCGGCCACAGAAGCGCCCGCAGCGGGGCCCGTGACGGGCGAAATTCCGCTCGGCCCCGCCCAGCACTGGTTCTTCGAGCAGGATTACCCGCAGCCTGACCACTGGAACCAGGCGGTGCTCCTCAAGCCGGCACGGCCAGTCGACAGAGAGGCGCTTCAGCACGCGATGGATCTCCTCCACGAAGCCCATGATGTGCTGCGCAGCCGGTTTCAAAAGCATGACGGCCGCTGGAGCCAGGCGGTAACCGAGGTGGAAGCAGCGCCCCCACTGCGCATCGTCTCATGTGCTGCGATCGATGCAGAGGCCGTTCTGGCGGCGGAAACGAATGCTTTGCAACGCAGCTTCGACCTCACGGCGGGACCCGTCTGGGGCGCAATGCTCGTGACGATCGACGGGCGCGAACAACGGCTAGCGATCGCGGCGCATCACCTCGTCATCGACGGTGTGTCCTGGCGCATCCTGCTCGACGACCTGCAAGTGTGCCTGACGGCCGCCGAAGCCGGTGTGAAGATGATTTTACCGGCCCGCACGACCGGGATCGACACCTGGGTACGGATGCTGGAAAGCAGCGATATCTTCGATGGCGAGAAGGATGGCTGGCTCACCATCGCGGAGGCAGCGACAGCGCCGATACCGACCGATCGACGGGGCAGCAATCTCGTAAGTGATACTGCGATTGTCGATATCGCAATCAATCCCAACCTCACCGCGCGCCTCATCCGCGACGTGCCGTCAGCCTACCCGATCAATGTCGAGGAAGTCATGCTTGCGGCACTCTATAGTGCGGTCCGCGACTGGACGGGTCGCGATCGGCTCCGGTTGATTCTCGAAAGCCACGGAAGACCGGACCTGTTTGACGGCTTCGATCTTACCCGAACCGTTGGATGGTTCACGGGCCTTTATCCCGTTCTCTTCGATGCGGCAGGGGGCGACACGCGCACGATGTTGCTCGCCGTCAAAGAAAGCCTGCGCCGTATTGCGAACGACGGCATCGGCTATGGGGTCCTGAAATATCTGAAGGGCGCGGCCTTGCCGGAACTGGAAGACATCGCCGACATACGGTTCAACTACCTTGGCCAGACGGACATGCTGTTTTCCGGTGACGCCCTGCTGTCGCGCGCGGCGGAGCCGGCGGGCGCTCCCCGTGGATCGCGCAATTCTCGCGGCGTGCTCCTCGATATCAATGCGATCGTCATCGGCGGGCAGATGCGCATTCGTCTGGCCTATTCCGACGAAATCCATGACCGAGCGACGATCGAGAGCCTTGCGGCAGGGTTCCGCAACCATCTCGAAAACCTTGTCGACTTCTGCCTGACATCCACCGAGGCCGGCTATACGCCTGCCGACTTCAAACACATGACACTCGATCAGGATGATCTCGAAGCCATCCTGCGCAATCTCTGA	MNELFTKIAALSPERRQLLEKKLKAQGIAVPAPSGIPRRADQDAAVPLSSAQQRLWFMQQLEPETVAYNMNLALRLKGPLDRAALSRAYAALVARHEPLRTRFPIGADGQPRQFVEAQGATEMGYHDCRQQPEPEEAARRHVEAMVETPYDLSRPPIRATLTRVYDSEHVLALGMHHIISDRWSMGVFTRDLSALYHAEVTGKNAGLAALPVQFADWTLWQRGLLEGPALAEQLSYWTGNLAGDLPVLELPLDRPHSLTASFSGAHFPVRIDRELSLKLRALAVEQNISLFTLLLAAFNVLLHLYTDSDDIVVGSEIANRDRPETQNMMGPLVNTLVFRNDLSGDPTFMGLLRAVATTVRQGLAHQEIPFERLVEAINPERSLSDLNPLFNVKFDIQHSIAPPPGLHGISIELYPLREVATKYDLRFNLEDDHPDIKGKIEYSSQIFDESSIATMLTRFERLLDLIVRDPSRRLSSLSLLTPQEETAIISAGAGPVRNYPTQECLHDLFLKQAAETPDTDAVTDGDLTWSYRELEAQSSRVAASLIAAGVKTGDRVGICMRRSSRMIAGILGIMRAGAAYVPLDADYPANRLAFIAEDSAITTLLVDHQPVFASEAQTLVDINTLPEIRLKARPAASPSDLAYIIYTSGSTGRPKGVAIEHRSVVAFMYWARERFTREEVARMFVPTSISFDLSIFELYAPLILGGTLVVADHFLALPQIARTVDVTFINTVPSLLQEMLQEHRLPASVRTATFCGEPLPAALVAILKRDYPELRILNLYGPSEDTCFSTEVPLHGDHYEGGVVPIGKPLPNTQGYILDRVGRLRPPSLSGELYLAGTGLARGYFGRPEQTAERFIADPFSAVPGSRLYRTGDRIRRRADGNLEFCGRLDHQVKVRGLRIETGEIEYNIETLEGVEKAVIAVTDGVDRQLAAFIEPKEGMRLDETQLRRTLSDTLPVHMIPTLWYFLPRLPQQPNGKVDRAALPALAATATISSSPPQTATERRVADAWADVLAVETIGRDDNFFRLGGHSLLAMRMIARLSSAAPTKAVLRKLFEFPRLKDFAAALELAETPSATPAAGIAPLPDGAPVPLSFAQQRLWTLAELEPESAAYNVPAAVRFHGPLDIDTLEKAFAALTERHAALRTRIVTRAGQPAVEIDATGILDIDIVDLDEVAVTQALVAASAQPFDLATGPLFRVRIFRLSPEEHVVLVVIHHIVSDAQSVQLILRDLTRLYDAVRQERKADIPPLALTYGDFAAWQREQPLVEQIDYWRRLLENAPPLLELPTDFPRGARQSFKGGSVRFNLDAKLSADIVSFAHERDATPFMVVLSAFSTLLARYSGASEVVVGTPVSERPNRALEDVIGLFVNTLALKMTHDASTSFAQQVDATRTLVLEAFRHQDAPFECVVDALSVERNWSHNPVFQTMFTWQADDARSARPDGLTSSSITIAQETSKVDLTLDIRHRGDRLACTFIYRSDLFRGQTIAHMADAFATLIEGLISTPERPQREIAFLPRSQRQQIALWNATAKTYDATPKSLHGFFTHSASRTPDAIAVTDRDSNLTYAELDRRSDTLARHLACLGIGRGSAVGICLERNVDLIAAMLAVLKTGAMYVPLDPKYPEERIAFVARDAGLSLLLTCEKRDDFANINTFDPAAIWNGKTDIPDAAFPHVTEGSDLAYLIYTSGSTGLPKGVAIEHRNAVAFTHWALEQFPASSFAGVLASTSVCFDLSIFEIFVTLAAGGRIFVVDDLFELPDVSFSDEITFINTVPTPMTELLRFGPLPVKVKTVCLAGEPLPPSLARMVLESGSVEALHNLYGPSEDTTYSTGCRIENPDLPIHIGKPIANTTAHVLDAALNEVPIGMPGELYLAGEGIARGYHNRPDLTAERFLPNPFDATGNAPVLYKTGDRVRRSADGNIDYLGRADRQMKISGFRIEPGEIEAVLMRYPGVTGSAVDAWRDETGYARLAAWVETAEPIGKAELSAHLARELPRHFVPTLFAMLDKLPRLPNGKLDRKALPDPSGEAAVAAQDETPHDGFETTIAAIWSKLLDRQTIGRNDNFFALGGDSILAIQVVAAVRRVGIAITPRDLFQYSTLAALAASLSAPATEAPAAGPVTGEIPLGPAQHWFFEQDYPQPDHWNQAVLLKPARPVDREALQHAMDLLHEAHDVLRSRFQKHDGRWSQAVTEVEAAPPLRIVSCAAIDAEAVLAAETNALQRSFDLTAGPVWGAMLVTIDGREQRLAIAAHHLVIDGVSWRILLDDLQVCLTAAEAGVKMILPARTTGIDTWVRMLESSDIFDGEKDGWLTIAEAATAPIPTDRRGSNLVSDTAIVDIAINPNLTARLIRDVPSAYPINVEEVMLAALYSAVRDWTGRDRLRLILESHGRPDLFDGFDLTRTVGWFTGLYPVLFDAAGGDTRTMLLAVKESLRRIANDGIGYGVLKYLKGAALPELEDIADIRFNYLGQTDMLFSGDALLSRAAEPAGAPRGSRNSRGVLLDINAIVIGGQMRIRLAYSDEIHDRATIESLAAGFRNHLENLVDFCLTSTEAGYTPADFKHMTLDQDDLEAILRNL				NA	NA	NA	NA	NA
BMS010_02620	1692			hypothetical protein	ATGCAGAACGGGAGCCAGCGCCTCGAGCGCAACAACATTGCCGATATCTACCCGCTCGCCCCCATGCAGGAGGGCATACTTTTCCATTCGGTTTCTTCACCGGGCGACGGCCTTTATATGCCGCAGACAGCGCTGCGCATTATCGGCTCCGTTGATGCAGCCGCACTGAAGACCGCGTGGCAGAGCGCCATCGACCGTCATCCGATCCTGCGCTCCGGCTTTTTCTGGGAGGAGCGCGATGAGCCGTTCCAGATCGCGTTTCGCAGCATTCCGGTGGACTTCACCACGCTCGATTGGACCGGCGCCGATCCCAGGACCGAGCGGGACCGCCTTTCGGCGCTTTTTTCCACGAACAGGGCGAAGGCCTTCGACCTTCGCCGCCCGCCACTCATTCGCATCCAGTGGATACGAATGGGTGAGGAACAGTCGATTATGGTCGTCTGCTACCACCATATCATCCTCGACGGCTGGTCTATTCGCCAGCTGCTCGACGAGCTGCTTTCGCTCTATCGATCTGTAACCGGCCGCACCGGCGTCGCCCTTTCGCCAGCCCGTCCTTACGGCGATTACATAGGCTGGCTCAAGACCCGCGAACGAGAAGGGTCTATCCGCTTCTGGCATGATCGGCTGGAGGGGTTTACGAGGCCGGCGCGGCTGCTCGCCGGCGAATCGACGAGCCGCTTCGAGCGGCAGCGATGGGAATTGCCGCAGCCCCTCCATCAGGCAGTGCTGGCCTATTGCGCCACCTCCGGCCTCACGCTCAACACGCTGCTGCAAGCTGCGCTCGCCCTGCTGACCGCCCGGCAGCTTGACAGGCGTGACATTATCTTCGGTACGACGACCGCGGGCCGTCCCGCGACGCTCAAGGACGCGACGACGATGATTGGCCTCTTCATCAATACGCTGCCAGTCCGCATCCGTATCCCGCAGGGACAGTCCCTGCACGACTGGCTCTGCGACCTCCAGATCGCCCATGCGGAGACGGGCGAGCATGACCACGTACCGCTCGCCGCAATCCAGGGGGCCGGCGCCTCACTCTTCGATACGCTGCTCGTCGTAGAGAATTTCGCGACGCAGATAAAGCAGCCAGACGCAGGCGCGACATTGAGGACGGAGGGCATCGACTTCGATGAGCGAACGCATTTCCCCCTCACGCTGTGGGCGACACCGCACTCGGCTGGCCTGACGCTGATGGCGGGCTTCAGCCGCGATGTCCTCTCACCAGAAACCGCCATGGCCCTGCTTGAACGCTTGGGTAACATTGTCTCCATCGTGATCCGTTCGTCCTCTTCCGATATGTGCGCACTTCTCGAGGAACTTCCTTCGCCCGTGATAAGTGACGGATTGCTCGGGCACGGTTCCAATGAAACGCCGCATTCGGAAGCGCCGGAAAAGGCGCCCTTGAACACGCCGCGATCCGGGACGCACCCCGAGACGGAAGCAACGCTTACGCGCATCTGGGCAGAGGTGCTCAAACGCACGCCCCTTGACGGCCGCGCCAATTTCTTCGAACTTGGCGGCCATTCGCTGCTTGCCGCGCGTGTCGTCAGCCGGCTTCGCGCAGAGCTTGGCGTGCCGCTGCCGGTGCGCGCCCTTTTCGAACGCCCCGTCCTTGCAGAGCTTGCCGCCCATATTGATGGGATGCGCGTGCGGGAAACCCCAGCCCCTGGCCATGTAGAGATCGAAATATGA	MQNGSQRLERNNIADIYPLAPMQEGILFHSVSSPGDGLYMPQTALRIIGSVDAAALKTAWQSAIDRHPILRSGFFWEERDEPFQIAFRSIPVDFTTLDWTGADPRTERDRLSALFSTNRAKAFDLRRPPLIRIQWIRMGEEQSIMVVCYHHIILDGWSIRQLLDELLSLYRSVTGRTGVALSPARPYGDYIGWLKTREREGSIRFWHDRLEGFTRPARLLAGESTSRFERQRWELPQPLHQAVLAYCATSGLTLNTLLQAALALLTARQLDRRDIIFGTTTAGRPATLKDATTMIGLFINTLPVRIRIPQGQSLHDWLCDLQIAHAETGEHDHVPLAAIQGAGASLFDTLLVVENFATQIKQPDAGATLRTEGIDFDERTHFPLTLWATPHSAGLTLMAGFSRDVLSPETAMALLERLGNIVSIVIRSSSSDMCALLEELPSPVISDGLLGHGSNETPHSEAPEKAPLNTPRSGTHPETEATLTRIWAEVLKRTPLDGRANFFELGGHSLLAARVVSRLRAELGVPLPVRALFERPVLAELAAHIDGMRVRETPAPGHVEIEI				NA	NA	NA	NA	NA
BMS010_02621	747	pikAV		Thioesterase PikA5	ATGAATGCAACGCCATCCCGACCCGTTCTTCTCTGCCTGCCGCCGGCCGGCACCGGAGCAGGTCTTTTCCGCAACTGGGCGCGGATTGTGCCCAACACGATGACGGTGCATCCGGTCGCGCTGCCGGGCCGCGAAAAGCGTTACAACGAACCGCCGCCGCGATCGATCGACGCGCTTGCCGACCAGCTTGCAATAGAACTGGAACCCTATGTCGGCAGTCGGTACGCGATCTTCGGTTACTCGATGGGCGCCCTCCTCGGCTATGAAATCGCCCGTCGCTTTTCGGGCGCTGGTCTGCGACAACCGGACGCGTTTTTCGTGCTCGGCTGCAATGCGCCGGATCGCATGGTCTATGAGCGCGAGCCCTTTCACACGATGGAGCCCGCCGCCTTTCACCAGGCGCTTGTCGATCTCGGTGGAACAGATGCCGAAATCCTCAACAATCCCGAGGCGATGGAGCTTTTCGAGCCGGTGCTGCGCAATGATTTCCGCATCTGTGAGACCCATGTGCACGACGCCGCACGCGGCACACTGGATTGTCCCGCGCACGTCTTTCTCTCCGATGCGGACGCTTTCGTGAACGAATACGCAGCCGCCGCCTGGTCCGATTTCGTGACGGGTGGCACGAGCCTGCATCGGGTCTCGGGACCGCATATGCTTGAACGCCCCGTTCTGGACACTCTGCCGGCAAGACTTGAGGCGCTCTGGTTTGGAGCGGCCGAAAGCCGCCCGCGTCGTCAGGCTTGA	MNATPSRPVLLCLPPAGTGAGLFRNWARIVPNTMTVHPVALPGREKRYNEPPPRSIDALADQLAIELEPYVGSRYAIFGYSMGALLGYEIARRFSGAGLRQPDAFFVLGCNAPDRMVYEREPFHTMEPAAFHQALVDLGGTDAEILNNPEAMELFEPVLRNDFRICETHVHDAARGTLDCPAHVFLSDADAFVNEYAAAAWSDFVTGGTSLHRVSGPHMLERPVLDTLPARLEALWFGAAESRPRRQA				NA	NA	NA	NA	NA
BMS010_02622	837			hypothetical protein	ATGCCAAGGGCGGAAGAAGAAGCGATCCAGCGCGCACTCGAAGGGCAGGCGGCCTACATGCCGGATGTGCGCGCGGACGTCGGCCCAGCCGAGGAGGATTGGACGACAGTTCAGGATTTCTTTTCCAGCGAGGCGGCCACTGGCGAATTTCTTGCATTTGAGCAATCACTGAACAAAGGCACTGATCTCAAGACCGCCGGGGCCCTGATGATGACCGACTATGGCTACATCCTGGCTGCAGCGGCCGTTCCGTTGTTTGCCGGTTTTGGCATCATTCCGGAACTATCGCCAGCCTCCCTCGCGCTTTCCTTCTATGTGACCGAGGAGCTGCATGACGGGAAGATGCACCGAGTGAGGCGCGCCCATGTCCGTTTTCTGGAACCGGTATTCTGGCAAGGCCAACTGGACGATGCCGCCGCCGGAGAACGGTTTCGAACCGAAATCGAGCAGCATTTCCACCCCGTCATCGATACGATCCACGCACAAACACGTCTCTCCCGCGCAGCGCTCTGGAGACTGGCGGCCGATGCGATCGCCAGCCGCTTTCTGGATTCCGGCCGCCGGTTCGGCACGGTCGAGGCGGCAAAGGCGGCGGCGATGCGGATTCTCAAAGTTGCCGGCTCGCCGCTTGCCAATCGCGAACTTCACTATTTCGACCTGATGGTTCTCGACAAACATCGGAAGGAGTTTTCCTACACCTTCCGCCAGCGCGGCGGCTGCTGCCGGTTTTATCTGGTCGAAGGCGGCGAATACTGTCCCACCTGTGTGCTGGAGGCGCCCGCAGACAGGGATGAAAAACTCCGTCTCGCCATGCGCAAACACCTCGGCGTTGCCTGA	MPRAEEEAIQRALEGQAAYMPDVRADVGPAEEDWTTVQDFFSSEAATGEFLAFEQSLNKGTDLKTAGALMMTDYGYILAAAAVPLFAGFGIIPELSPASLALSFYVTEELHDGKMHRVRRAHVRFLEPVFWQGQLDDAAAGERFRTEIEQHFHPVIDTIHAQTRLSRAALWRLAADAIASRFLDSGRRFGTVEAAKAAAMRILKVAGSPLANRELHYFDLMVLDKHRKEFSYTFRQRGGCCRFYLVEGGEYCPTCVLEAPADRDEKLRLAMRKHLGVA				NA	NA	NA	NA	NA
BMS010_02623	2412	fpvA_1	COG4773	Ferripyoverdine receptor	ATGACTAAGACTAAATCCGTCTCGCGCGGGGCTGGGGCGAGCCTCAAGGCGGCATTTCTGGCGGGGACAGCGCTCATAATGCTGAGCCCCATGTTGCCGGTGATGGTGCGGCAGGCTGCAGCACAGACGTCCGAGCGGGCGATCTCGGTGCGACCGGGCCCGCTAACGACGGCGCTGAACAACCTTGCAGCCCAGACCGGCCTGCAAATCCTGTTCGATGCATCGGTCGCCGAGGGGAAGACGACCCGGGGGGTGAACGGGACGCTGACGCCAGAACAGGCGCTGAGGACCGTGCTTGCCGGCACCGGTGTTGACGCCCGCTTCGCAGGAAGTAACCAGGTGACGCTTCAGAACGGCCCTGCCGCTTCCGGCGCGACAGCTGACGGCACCACGCAACTTGAGGCTATAACGATTTACGGCGCCCGCAACGCGTCGACGTTGGGCGCCACGACCAGCAGTGTTGCCATCGTGAACGCCGAAACCCTCGCAGAAAGCCAGATCCGCACGACGCAGGACACCTACCGCCGCATGGCAAACGTGCTGGATAGCGCCACAGTCAATGCCGGTTTCGTCATCCGCGGCATGAGTTCCGAGGGCCTTGTCCCGTCCGGCGGGCCCGCCGGCTCGGTCTATGTCGACGGCATCGTCCAGACACGTTACAATGCCCGCTTCGGCGCACGCAATCTCTGGGACGTAGAACAGGTCGAGGTATATCGCGGCCCCCAATCGACGCTTTCCGGCCGTGCGGCCATGACGGGCGCCATCTATATCAAGTCGAAAGATCCGACCTTCGACAAGGAAGTCGAACTTTCCGGCACCGTCGGCAGCGACGATCTCGCCGGCACGGCCTTCATGGTGAATACGCCTGTCGTTGAGGATCAGATTGCATTGCGCCTCTCAGGCGCTTTCGAGCGCTCGCATGCCCAGCCCAATTATTCAAATTTCAGTATTTTTGACAATTTTGATGACCTGACAACTGACATTAGCGGCGTGCTTCGCGCCAAGGTGCTGATCACGCCTTCGGAAATGCCGGACACCCGCGCACTGCTCACCTACTCCTACTCGAAGGACCGGCCCAACGACGCGCTTGTCGGCCTCGACACACTCCGCGGCGACTTCAACGATTCCCCGGTTACCTATACGGAATATCGCTGGACGGAAGCTCACAATGTAGGCCTGGAGATCACACATGATTTCTCCAATGCGTTGCGCTTCACGTCGCAGACCGGTTATCAATATGGCATCAATAACCGGCGCTCTATCGACTACGGCACGCCCGGCACCATCTATGGAAGCGCTGGCGAAGACGACAATTCTATCTTCACGCAGGAGTTCCGACTCAATTACGAGGAGGACCGCTGGAAATGGGTTGCCGGCCTTTATGGCAGCCGTGAGGTCTGGGACGGCGCGACAACCTTTATCGTGGACTATCCTGGCTACGGACCGGTGCAACTTAGCGACACCCAGAATCGCAAAACCTCAAACTTTGCCATCTTCGGTGAGGCGACCTATGAATTTGCACCTACGTGGTTCGCAACGGCCGGTGGTCGTCTCGACTACCTTAAAGACAGAGACGACCAGCGAAACTATTTTGGCCTGATCGATCCGTCTGCCGTCCTGACGGGCGACCCGACATCTTTGAGCGAATTGAACTTCGTACCCAAGCTTGCTCTTTCCAAGGAGCTCAGCGATACCCAGACGGTCGCCCTGACCTATACGCAGGGATTCCGCTCAGGAGGTTCTTATATAGACCGTCTGGACCCCAAGAATTACAAGGTGGCCACATACGACCCGGAGTTTTCACAGAACGTAGAATTATCCTACAAGGGTACGCTGCTCGACGACCGGCTGACGCTCAATGCAAATGTGTTTTATACAAAATATGACGATCAACAGATAGAAATTCGGCCGATCGCGACCATTCCAGGCTATCGCATCACCTCTAATGCTGCAACGTCGAGAGCCTGGGGTTTCGAGATCGAACCTACCTTCCAGGTTACGGATCAATTCACCGCGTTCACGTCTATCGGGTACCTCAATACGCGGTTCTTGGAATTCAACCACGCCGCTATCGGCGATCAGTCAGGCAAAGCCTTCCCTGAAGCACCGGAATTGAGCTGGGCCTTTGGTGGACGCTACGAGTTTGACAACGGCGTCTTCGTCGGCGCCGACGCAAAATATACGACAAGCTACAATTCGCGCTTCGGTACGAAGGGTATGTACAATATCGACCCACGCTTCATCGTGAATGCGCAGACGGGCTTCAAAAAGGACAACTGGGAAGTGACCGCTTTCGTGGAAAATCTGACGGACGAGCAGTATTTCACGATCGTGGATCGCGACGCGGCAAAGCCGTTTGGCCAGCTGGGCAAAGGTCGGTCCTACGGCCTGAACGTCCGTGTGAAGTTCTGA	MTKTKSVSRGAGASLKAAFLAGTALIMLSPMLPVMVRQAAAQTSERAISVRPGPLTTALNNLAAQTGLQILFDASVAEGKTTRGVNGTLTPEQALRTVLAGTGVDARFAGSNQVTLQNGPAASGATADGTTQLEAITIYGARNASTLGATTSSVAIVNAETLAESQIRTTQDTYRRMANVLDSATVNAGFVIRGMSSEGLVPSGGPAGSVYVDGIVQTRYNARFGARNLWDVEQVEVYRGPQSTLSGRAAMTGAIYIKSKDPTFDKEVELSGTVGSDDLAGTAFMVNTPVVEDQIALRLSGAFERSHAQPNYSNFSIFDNFDDLTTDISGVLRAKVLITPSEMPDTRALLTYSYSKDRPNDALVGLDTLRGDFNDSPVTYTEYRWTEAHNVGLEITHDFSNALRFTSQTGYQYGINNRRSIDYGTPGTIYGSAGEDDNSIFTQEFRLNYEEDRWKWVAGLYGSREVWDGATTFIVDYPGYGPVQLSDTQNRKTSNFAIFGEATYEFAPTWFATAGGRLDYLKDRDDQRNYFGLIDPSAVLTGDPTSLSELNFVPKLALSKELSDTQTVALTYTQGFRSGGSYIDRLDPKNYKVATYDPEFSQNVELSYKGTLLDDRLTLNANVFYTKYDDQQIEIRPIATIPGYRITSNAATSRAWGFEIEPTFQVTDQFTAFTSIGYLNTRFLEFNHAAIGDQSGKAFPEAPELSWAFGGRYEFDNGVFVGADAKYTTSYNSRFGTKGMYNIDPRFIVNAQTGFKKDNWEVTAFVENLTDEQYFTIVDRDAAKPFGQLGKGRSYGLNVRVKF	PGPT0003790_7323	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS010_02624	936	yfiY	COG0614	putative siderophore-binding lipoprotein YfiY	ATGATATCTCTCTTGCGCTTCTGTCTCGCTCTTCTCGCTTTCCTTCTTCCAGCATCTTTTTCGCAGGCCGCCTGCGAAGGAAAGGCTATAACCGAGGGGGTCTACAATCCGCCCTTCTGTATTCCGGCAAAAGCAAAACGGATCGTGACCCTCGATCCGCTGATCACGCTTGGATTGCTGATCGAACTCAAGGCGCCCGTCGTTGCGACGCCCTATATGGCGATTACGGAGGACGAGGTACTCAGCGTGGTGAAGGCCCAGAAGATGGTCGATCTCGGCAATCCCAAGGAACCAAGCCTCGAGCGCGTGGCGGCACTGAAGCCGGATCTCATCATCGGATCGGCGGAAGTTCATTCGGCGATTTACGAGCAAGCTGCACAGATCGCGCCGACTGTGCTCTTCAAGCATATGGACTGGAAGGCATATCTTCAGCGCCTATCAGAAGTGACCGGCAAGGAAGGCGTGGCAAACGATGCACTCAAGGCTTACGACAGCCGCGTCGCCGGGATCCGCGCGCGGATGAAGGACCAGAACCTGACGGTCTCGACCGTCCGTTTCGCCCCAGATCGTTTTGTCGTCTTTGTGGATGGCCCCAACGCCTATGCCCCCTTTTCCGTGCTGCGCGAGGCAGGTGTGAAGCGCTCCGCTTACGAGACTGTCACCGACGGAACGATCGTCAAACGGCCGGACTGGGAGGAACTCGCCAATCTCGATGGTAACGTGCTGCTCTACGTTTCCGCCAGCGGTTTTGAAAGCGGCCCGGACGATGCGCTCGAAAAGCAGGTGACCGAGAACCCGCTATGGCAATTGCTGCCAGCCGTTCAGGCCGGACGCGCCCATCGGGTCGATCGCGGTCACTGGCAGAGCTTCCACGGTATCGGTTCGGCAAATCGCATACTCGACGACGTCGAACGTTACGTGCTGGCAGGGCAATGA	MISLLRFCLALLAFLLPASFSQAACEGKAITEGVYNPPFCIPAKAKRIVTLDPLITLGLLIELKAPVVATPYMAITEDEVLSVVKAQKMVDLGNPKEPSLERVAALKPDLIIGSAEVHSAIYEQAAQIAPTVLFKHMDWKAYLQRLSEVTGKEGVANDALKAYDSRVAGIRARMKDQNLTVSTVRFAPDRFVVFVDGPNAYAPFSVLREAGVKRSAYETVTDGTIVKRPDWEELANLDGNVLLYVSASGFESGPDDALEKQVTENPLWQLLPAVQAGRAHRVDRGHWQSFHGIGSANRILDDVERYVLAGQ	PGPT0003765_9138	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003765-feuA|yvrC|ABC_FEV_S|fatB-K02016	NA	NA
BMS010_02625	1029	yfiZ_1	COG0609	putative siderophore transport system permease protein YfiZ	ATGATCGACCGAAACGCCGCCCGGCCATCCACGGCCTATAGCCTGCGGCCGCTCGCGCTCGCTGTACTCCTCTGTCTGCTCGTTCTTGCCGCCATGAACGCGGTTGCACTCGGCACATCTGCCATATCGTTTTCCACGATAACGGCCGCGATCTTCCAGTTCGATGGCTCTCGCGACCATCTTCTCGTCACCACCCTCCGTCTGCCCCGCGTCATTGCCGCACTGCTTTCCGGTGGTTCACTCGCTGTTTCCGGCGCCATCATGCAGGCGGTCACCAACAACCCGCTCGCCTCTCCCGGCCTGCTCGGCATCAACGCCGGCGCGTCATTTGCCGTCGTTTTGGTGATGACACTCTTCGGCACGGGCGTCGGCGATCTCTATATCTGGTTCGCCTTCATCGGCGCAGGTATCGCCGCGATCGTTGTCTATGGGCTGGGTTCAATTGGCGCTGTCAGACACTCCCCGCTCGGGCTCGTGCTGGCGGGGGCGATCGTTGCAACCTTCCTGACCTCGCTCACCACCGCGATCCTGATCTTCGACCAGAGCACACTCGATGCAGTTCGCCTGTGGACCGCAGGCTCGGTGACGGGGAGAACCATGGCGCAGGCCAAAACCGTTGCGCCCTATATCCTCACCGGCCTCGTCGCCGCTCTCTTTCTTGGCCGTCATCTCACGACGCTCAGCCTCGGCGCGGATGCCTCGCGTGCACTCGGGCAGAACCCGGTGATTTGGCGCGGCGCATCTGTGGTCACTGTCATCTTGCTTGCGGGCGGTGCCGTGGCACTTGCCGGACCGATTGGGTTCGTCGGCCTCGTCGTTCCGCATATGGTGCGAATGATTGCCGGTGTTGACTATCGCTGGGTTATCCCTTTTTCGGCACTCGGCGGCGCGCTATTGGTTGTCGTCTCCGATACGGCCGGACGGCTTGTGTTCGGAAGCCAAAGTTTTCCCGTCGGCGTGACGATCGCGCTCATCGGTGCGCCGTTCTTCCTGTATCTCGCCCGAACGCGGCTGAGAGGCGCGGCATGA	MIDRNAARPSTAYSLRPLALAVLLCLLVLAAMNAVALGTSAISFSTITAAIFQFDGSRDHLLVTTLRLPRVIAALLSGGSLAVSGAIMQAVTNNPLASPGLLGINAGASFAVVLVMTLFGTGVGDLYIWFAFIGAGIAAIVVYGLGSIGAVRHSPLGLVLAGAIVATFLTSLTTAILIFDQSTLDAVRLWTAGSVTGRTMAQAKTVAPYILTGLVAALFLGRHLTTLSLGADASRALGQNPVIWRGASVVTVILLAGGAVALAGPIGFVGLVVPHMVRMIAGVDYRWVIPFSALGGALLVVVSDTAGRLVFGSQSFPVGVTIALIGAPFFLYLARTRLRGAA	PGPT0003770_5383	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_TRANSPORT,PGPT0003770-feuB|feuC|chuU|yfhA|hmuU|ABC_FEV_P|fatC|fatD-K02015	NA	NA
BMS010_02626	990	yfhA_1	COG0609	putative siderophore transport system permease protein YfhA	ATGATCCGGCTTCTCATCATCCTCACCCTTCTGCTCGCCATCCTTGTCGCAGCAAGTCTCGCTTTTGGCGATGTTCCTTTGACCTGGCAGGAACTCTACAATGTCATCGCCGGAATGGGCGAGCCTGCTCCACAGAGCACGATGATCGTCTTCGATCTGCGTTTGCCGCGCGCACTTCTCGCGCTTCTCGTCGGCGTGGCGCTTGCGACCGCAGGCACGATCACGCTCGCAATAATGCGCAATCCTTTGGCCGAGCCCGGCGTTCTCGGCATAAACAGTGGCGCTGCAGCGGCGGCCATGGCCATCATCGTTCTGGTGCAGGACCCGTCTATCGCGCTTATACAGACAGCCAGTTTCCTGGGCGCCGCGGTGATGGCGCTGGCGGTCTATGCTCTTTCATGGCGCGGCGGAACCTCCTCTCTCCGCATCATCCTCATCGGCATCGGCCTCTCCTCGCTCGCAACGGCGGGAACGACCTTTCTATCCGCATTCGGCGACATCGGCGATGTACAGCGCGCCATGATCTGGCTTGCCGGAAGCGTCTACGATGCCAACATGATGAAGGTACAATTTCTGGGCTTCTCACTCGTCGTTCCCATTGCACTTGCCTTTCTCGCCGTGCGCGAACTCGATCTGATCCGCTTCGGCGATCACTCTGCTAAGAGCCTTGGCCAGCCGGTCGATCGCATCCGAGGCCTGATGATCGTCCTCGTTACTGTGCTTTCGGGTGCAGCCGTGGCCGCCTCCGGCCTCATCGGCTTCGTCGGCCTCGTCGCGCCGCACATCGCCCGGCGGCTGACCGGGGCGTCGTCGCATGCCCGGATATTGCCTGTCGCTGTACTCGTCGGCGCATGCCTCGTCGTTGCCGCCGATCTCATTGGTCGCATCATCCTGCCGCCGGCGCAACTTCCGGCCGGCATTGTGACCAGTCTCATTGGTGCACCTTTCTTTGCCTATCTTCTCTGGGGACGCCGCCATGACCGAGGATAA	MIRLLIILTLLLAILVAASLAFGDVPLTWQELYNVIAGMGEPAPQSTMIVFDLRLPRALLALLVGVALATAGTITLAIMRNPLAEPGVLGINSGAAAAAMAIIVLVQDPSIALIQTASFLGAAVMALAVYALSWRGGTSSLRIILIGIGLSSLATAGTTFLSAFGDIGDVQRAMIWLAGSVYDANMMKVQFLGFSLVVPIALAFLAVRELDLIRFGDHSAKSLGQPVDRIRGLMIVLVTVLSGAAVAASGLIGFVGLVAPHIARRLTGASSHARILPVAVLVGACLVVAADLIGRIILPPAQLPAGIVTSLIGAPFFAYLLWGRRHDRG	PGPT0003770_9313	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_TRANSPORT,PGPT0003770-feuB|feuC|chuU|yfhA|hmuU|ABC_FEV_P|fatC|fatD-K02015	NA	NA
BMS010_02627	795	yusV_1	COG1120	putative siderophore transport system ATP-binding protein YusV	ATGACCGAGGATAATCAACGGCCTGCCAAGATCGCGGGCAAGGGCATAGACATCGCCTACGGCCAGCGCCGCATCATAGAGCGGCTCGACCTCGCCATCCCCGAACGATGCTTCACGGCCCTGATCGGCCCGAACGGCAGCGGCAAATCCACGCTCCTGCGCACTTTCGCCGGACTTATGAAGCCCTCCGGCGGCAGCATTCTTCTCGACGGCAAGGATCTGAACGGCCTCTCGCCCCGTGATGTCGCCCGCAAGGTAGGCGTTCTGCTCCAGGGTCCCATTGCGCCAGAGGGTCTAACGGTCGGCGATCTCGTGCGGCAGGGCCGCTATCCGCATCGCTCGCTTTTCAGCCGCTGGTCGGCGCAGGATCAGGAGGCATGCGACGAGGCGCTCATGCTGACAGGCACGACGGATCTTTCCGACCGGGCGCTGGACAGCCTTTCCGGCGGTCAGCGCCAGCGCGCGTGGATCGCAATGACGCTGGCGCAGCAAGGCGAAGCGATCCTTCTTGATGAGCCCACGACATATCTCGATCTGGAACACCAGGTCGAACTGATGAACCTTATCACCACGTTGGTCTCCAGGCACGGAAAGACGGTCGTCGCCGTCCTGCACGATATCAACCAGGCGGCGCGCTACGCCCAGCATATCGTTATACTCCATGACGGCAGGGTGACGGCGGCCGGGACGCCCGATATGGTGATCTCCTCGCAGACGATCGCCGATGTCTTCAAGGTGAAGACGGTCGTGATCCGCGATCCCGTAGCCGGAACGCCGCTCTGCATTCCGCTTTAA	MTEDNQRPAKIAGKGIDIAYGQRRIIERLDLAIPERCFTALIGPNGSGKSTLLRTFAGLMKPSGGSILLDGKDLNGLSPRDVARKVGVLLQGPIAPEGLTVGDLVRQGRYPHRSLFSRWSAQDQEACDEALMLTGTTDLSDRALDSLSGGQRQRAWIAMTLAQQGEAILLDEPTTYLDLEHQVELMNLITTLVSRHGKTVVAVLHDINQAARYAQHIVILHDGRVTAAGTPDMVISSQTIADVFKVKTVVIRDPVAGTPLCIPL	PGPT0003760_3879	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003760-yusV|ABC_FEV_A|feuD-K02013	NA	NA
BMS010_02628	543	fecI_1	COG1595	putative RNA polymerase sigma factor FecI	ATGTCGAGCTCTTCGCCCTCACCCCTTGTATGGGACAGTCTTGACAGCAACGAATTGCTGAACCGGGCTATGGAAGCGCACTACGCCGACATTACGAGCGCGGTGCGCAGGCGCGGCCATCCATCCTCCACCGCCCGGGATGTGGTGCACGATCTCTATCTGAAACTTGCTTCCAAGCCTGAGGTACTGCAGAAAAAGCGTTCGATAAAATCGTTTCTCTGCCGGGCCGCCATCAATCTAGGCATTGACCGGCAGCGCCGGGAGACGAAAGAAGCTCGGCTCTTCTCCGGCTCGGAGCGTGAAGCCCTCTGCGTGGCAAGCAGCGGGCCCGCGCCGGATCAGGCGTTGGAAATCGAGGCGCGGCTTGCGGCCCTGCGCGAGGCGATCGCCGAACTACCGGAACGGCGTCGCCTCGTTTTCATCCTGCACCGTCTGCACGGTCTGACACCGGACCAGATCTGCGTCAGGCTCAACATCTCCAGGAACATGGTGGACCGGCACCTGCGTCGCGCCTTCGCCCACTGCCTTGATCGTATTCTCTAG	MSSSSPSPLVWDSLDSNELLNRAMEAHYADITSAVRRRGHPSSTARDVVHDLYLKLASKPEVLQKKRSIKSFLCRAAINLGIDRQRRETKEARLFSGSEREALCVASSGPAPDQALEIEARLAALREAIAELPERRRLVFILHRLHGLTPDQICVRLNISRNMVDRHLRRAFAHCLDRIL				NA	NA	NA	NA	NA
BMS010_02629	957	fecR_1	COG3712	Protein FecR	ATGTCGGCCCAAGGAGCGGAGAACGCGCAGAAAAAACGCAACCGCGAAGCGGCCAACTGGATTCTGCGCAATAGCGACCCCGACCAATCACAAAGCGACAGGGCGCGCTTTCAGGAGTGGCTTGACCGCGACCCGGAAAACCGTCGGACCTACACGGCCGCAGAACGCCTGTTGGATGATGCGAGCCGGGCTATACAATCCGATTCCGTGCTCTCCGACATCAAGGTCAGGCCCAGGAGCCTAGTCAAACCAGTCATCGCAACTTTAATGGTCTTAGCGCTCGCAACTGGCAGCTTTTTTGCGCTAGACGGCCCGATGCGTCTGCAGGCTGATGTCATAGCCGGAACTGGCGAGATGCGAACGATTTCGCTTGAGGACGGATCCGAGGTGCAACTGAATTCGTCTTCAGCAATCGCTGTGGACTTTACCGACAGCCACCGCACTATCCGCCTTCTTCAAGGCCAAGCTTTTTTCCAGGTCGCTCACGACGTCGGACGACCCTTTACGGTTGTTGCGGGGGCGGCCAAGGTTACTGCACTCGGCACGGCATTCGCTATTCGCTACGGTAATGACAACACTGAAGTGGCCGTCAACGAAAATGCGGTCCAGATCGACATCGACGGAAGCCGCACAGGCCCTGTCCGCGTCAGTGAAGGAGAGCAAGCAATCTATGACTACGCTAAAGGGCAAATGGCCATCGCGCCGGTCGATAGTCTCGTCGCATTTGCTTGGAGGCGCGGCCAGATCGTCCTCGACAATACACCGCTTTCCTACGTTATCAAGGAGATGAACAGGCATTTTTACGGCCGCATCATGGTTGCGGATTCTCGTATCGCCAATCGACGGGTCAGCGGCACGATGAAGATCACCGATACCGACGTTGCGCTTGCTTTCGTAACGCAGGCCCTACATGTGAAAGCAATGCACTTCGGCCCACTGATCGTCATTCGCGAGTGA	MSAQGAENAQKKRNREAANWILRNSDPDQSQSDRARFQEWLDRDPENRRTYTAAERLLDDASRAIQSDSVLSDIKVRPRSLVKPVIATLMVLALATGSFFALDGPMRLQADVIAGTGEMRTISLEDGSEVQLNSSSAIAVDFTDSHRTIRLLQGQAFFQVAHDVGRPFTVVAGAAKVTALGTAFAIRYGNDNTEVAVNENAVQIDIDGSRTGPVRVSEGEQAIYDYAKGQMAIAPVDSLVAFAWRRGQIVLDNTPLSYVIKEMNRHFYGRIMVADSRIANRRVSGTMKITDTDVALAFVTQALHVKAMHFGPLIVIRE	PGPT0003910_5138	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0003910-prhR|fecR-K07165	NA	NA
BMS010_02630	219			IS3 family transposase ISAtu4	ATGCGCCTGAATGCGCTCAGGGCCAGGCCAAGACGGCGTGGTTTGCCAAAGGATGCCGGTGACCGTGCAGTCATCATGCCGAACGTCCTCGACCGCCAGTTCATGGCAGACCGTCCGAACCAGAAATGGGTGGCCGACTTCACTTACATCTGGACCGCAGAAGGCTGGCTGTATGTCGTAGTCGTCATTGACCTGTTCACACGCCGTGTCGTCGGGTAG	MRLNALRARPRRRGLPKDAGDRAVIMPNVLDRQFMADRPNQKWVADFTYIWTAEGWLYVVVVIDLFTRRVVG				NA	NA	NA	NA	NA
BMS010_02631	1638	fan1		Fanconi-associated nuclease 1	ATGCTCCGCACCCTCGACGATCCCTTTTACTACCTGAACAACTTCCAGCAGGTACTGCTGTGGATCGAGGCCCGCTACGACGATCTGCTGAACGCGGAAGAACGCCTCTTCATCTCTACCTTCCCCACCCTGCCGCAAGCGGCCCGGGCTCTGCTGGTGCGCATGGTGATGCGCAAGGGCACGCTGTTCCGCGCCGGCAAGCTGGTCTATCCGGAAATCGGCCCGGCGCCGGAAGCTGTCCAACCGCTGGTGGACCTGGGTTGGGTGGATGCGTCTCCGTCGCTGGACCTGCCGCAACTGTTCGCCCTGCTGACCAAACCCGAAATCCGCGCCCATTTCGCCGTGCGGCCGGACCTGCGCAAGGCCGAGCAGCTCCAGGCCCTTCTGTCGGACCACCCGCACGCACGCGCCTTCGAGGATTGGTGCCCCGGCAGCGACGACCGCGTCTACGCACTGACGATCATGGACCTCTGCGACCGCCTGCGCCTGATGTTCTTCGGCAACCTGCACCAGGACTGGTCGGAGTTCGTCCTCGCCGACCTGGGTATCTACCTCTACGAAAAGATCGAGCTGGACGCCGGCTCCCGCGGCTTTCGCGAGCGCCGCGACCTGGACGACTGCCTGCATCTGCACCGTTGCCGCGAGCGCTTCGAGCGGGGCGAAGCGCTCGCCGAGGTGCTTGCCGACATCCCCCGCGAGGCCTGCCCCAACCCCTGGATCGAACAGCGCCGCGCCAAGCTGCTGTTCCTCATCGCCCAGCACTGCGAACGGCTCGGCGAGTTCGATGCGGCGCTGGCGCTGTACGCCGAATGCGCCTACCCCGGCGCGCGGGGGCGACGCATCCGCGTACTGGAACGCAACGAGCGTTTCGCCGAAGCCCTGGCGCTGGCCCGCCAGGTCGAACAGGCGCCGGAAAGCGAAGCCGAGCGCCAGCACCTGCAACGCATCCTGCCGCGCCTGCAACGCCAGCTCGGCCTGCCCAAGGCCTCCAGGGCCACCCGCCCGGCGGTGGAACGGCTCGACTTGAGCCTCCCCCGCCCCGAGGCCCTGTCGGTGGAAGGCGCGGTGTTGCTGCATCTGCACCACAGCGATGGCCCGGTGCACTACGTCGAGAACACCCTGATCAACGCCCTGTTCGGCCTGCTCTGCTGGGAAGCGATCTTCGTCGCACTGCCCGGCGCATTCTTCCACCCGTTCCACATCGGCCCGGCGGACCTGCACGCTCCCGACTTCCGCCAGCGCCGCGCCGCCCTGTTCGACGCCTGCCTGGCACAACTGGGCAGCGACGCCTACAAGGACACCATCCGCCGCCACTACCGGGCCAAGCAGGGCATCCTCTCGCCGTTCGTGCACTGGGGCGCCCTCGATGACGCGCTGCTGGAACTGGCCCTGCACTGCCTGCCGGCCACGCACCTGCGACACTGGTTCGAGCGCATCCTGCTGGACATCAAGGCCAACCGTGCCGGGCTGCCGGACCTGATCCAGTTCTGGCCCGCGCAACGGCGCTACCGGATGATCGAAGTGAAGGGCCCCGGCGATCGCCTGCAGGACAACCAGTTGCGCTGGCTGGACTTCTGCGCCCGGCACGACATGCCGGTGGCGGTCTGCTACGTGCAATGGGCGGACGCGGTCAATTGA	MLRTLDDPFYYLNNFQQVLLWIEARYDDLLNAEERLFISTFPTLPQAARALLVRMVMRKGTLFRAGKLVYPEIGPAPEAVQPLVDLGWVDASPSLDLPQLFALLTKPEIRAHFAVRPDLRKAEQLQALLSDHPHARAFEDWCPGSDDRVYALTIMDLCDRLRLMFFGNLHQDWSEFVLADLGIYLYEKIELDAGSRGFRERRDLDDCLHLHRCRERFERGEALAEVLADIPREACPNPWIEQRRAKLLFLIAQHCERLGEFDAALALYAECAYPGARGRRIRVLERNERFAEALALARQVEQAPESEAERQHLQRILPRLQRQLGLPKASRATRPAVERLDLSLPRPEALSVEGAVLLHLHHSDGPVHYVENTLINALFGLLCWEAIFVALPGAFFHPFHIGPADLHAPDFRQRRAALFDACLAQLGSDAYKDTIRRHYRAKQGILSPFVHWGALDDALLELALHCLPATHLRHWFERILLDIKANRAGLPDLIQFWPAQRRYRMIEVKGPGDRLQDNQLRWLDFCARHDMPVAVCYVQWADAVN				NA	NA	NA	NA	NA
BMS010_02632	2298	dinG_2		3'-5' exonuclease DinG	TTGAGCTACATCGTCGCCGTCCGCGCGCTCTGCGAGTTCACCGCCAAGGCGGGTGATCTCGACCTGCGCTTCACCCCCTCGCCCAGTGCCCAGGAAGGCATGGCCGGCCACGCCCTGGTGGCCTCCCGGCGCAACGCCGAATACCTGGCCGAACTGCCGCTGGCCGGCGACTACAAGCAGCTGCACGTGCGCGGCCGGGCCGATGGCTACAACCCCACGCTCAACCGTTTGGAAGAGGTGAAGACCTACCGCGGCGACCTCGCCCGGATGCCGGCCAACCACCGCGCCCTGCACTGGGCCCAGGCCAAGGTCTATGGCTGGCTGCTGTGCCAGGAGCGGGGCCTGGCCGAGGTGGACGTGGCGCTGGTCTACTTCGATATCCACAGCCAGAAGGAAACCGTGCTGGTGGAGCGCTGCTCCGCCGATGCGCTGCGGGATTTCTTCGAAACGCACTGCGAACGCTTCCTGCAATGGGCCGTGCAGGAACTCGCCCACCGTGCCGAACGCGACCGGGCGCTGGAGGCCCTGCGCTTCCCCCATGCGGACTTCCGCAGCGGCCAACGCGAACTGGCGGAAGCCGTGTACAAGGCCGCCAGCACCGGCTGCTGCCTGATGGCCCAGGCGCCCACCGGAATCGGCAAGACCCTCGGCACCCTGTTCCCGCTGCTCAAGGCGGCCCCGCGCCAGGGCCTGGACCGGCTGTTCTTTCTTGCCGCCAAGACCCCCGGCCGCCAGCTCGCCCTGGATGCCGCGCGCCTGCTGGAGGCGAACGCGCCGGGCCTGCCGCTGCGGGTGCTGGAACTGACCGCCCGCGACAAGGCCTGCGAACACCCGGACAAGGCCTGCCACGGCGAATCCTGTCCGCTCGCCCAAGGCTTCTACGACCGCCTGCCCGCCGCCCGGAAGGCTGCGCTGGAGCGCGTCTGGCTGGACCGCGACAGCGTGCGCGAGGTAGCGCTCGAGCACGCCGTCTGCCCCTATTACCTCGCCCAGGAACTGGCGCGCTGGGCCGACCTGCAAGTGGGCGACTACAACTACTACTTCGACGTCAGCGCCCTGCTCCATGGCCTGACCCAAGCCAACCAGTGGCGCGTCGGCGTGCTGGTGGACGAGGCGCACAACCTGCTGGAACGGGCCCGGCGCATGTACAGCGCCGAACTGGACCAGGCCGGTTTCGACACCCTGCGCCGCGAGGCTCCAGCTGCGCTGAAGAAGCCGCTGGAACGGATCAACCGAACCTGGCGCGAGCTGAGCAAGGACGACGACGCCCCCTACCAGGCCTTGCCGACCCTGCCCGGAAAGTTCATCGCCAGCCTGCAATCGGCCATTACCGACATCACCGATCACTTCGGCGAGCACCCCACCCAGGTGCATGGCGCGCTGCTGGACTTCTACTTCGAGGCTATGCACTTCTGCCGCATGGCCGACACCTTCGACAGCCACACCCTGTTCGACATCAGCCGCCGGCCGGGTACGCGCGGCCGCAGCCTGTCCACCCTGTGCCTGCGCAACCTGGTGCCGGCCCCCTACCTGCAACCGCGCTTCGCCGTCACCCGCAGCACCGTGCTGTTCTCTGCCACCCTGAGCCCCCGGCATTTCCATGGCGACCTGCTCGGACTGCCGGAAAACACGCCCTGGGTGGACGTGCAGTCGCCGTTCAGCGCGGGACAACTGGCGGTCCGCGTGGTGGGCTCCATCTCCACCCGTTTCCAGCACCGCGCCGCCTCCCTGGAACCCATCGCGGAACTGATGGCGCGCCAATTCGAGGAGCGGCCAGGCAACTACCTGGCGTTCTTCAGCAGCTTCGACTACTTGCAGCAGACACTGGAACGCTTCGCTGCGCGCTTCCCGCATATCCCGCTGTGGACGCAATCGCGACGCATGGACGAACCGGCGCGCCAGGCCTTTCTCGAACGCTTCGTCGAAGGCGGCCAGGGCATCGGCTTCGCCGTACTCGGCGGCGCTTTCGGCGAGGGCATCGACCTGCCCGGCGAACGCCTGATCGGCGCCTTCGTCGCCACCCTCGGCCTGCCGCAACTCAACCCGGTGAACGAACAGATCCGACAACGCATGGACCAGTTGTTCGGCGCCGGCTACGACTACACCTATCTCTACCCCGGTCTGCAGAAAGTGGTACAGGCCGCCGGCCGGGTGATCCGCACCCGCGAGGACCGCGGCGTGCTCTACCTGATCGACGACCGCTTCGCCCGCCGCGAGGTGATGCGGTTGCTACCGGGGTGGTGGAAGGTTGAGCGTAGCGATAGTCATGAGAGTGCCGCTATCCGCTTGGGCGAATAA	MSYIVAVRALCEFTAKAGDLDLRFTPSPSAQEGMAGHALVASRRNAEYLAELPLAGDYKQLHVRGRADGYNPTLNRLEEVKTYRGDLARMPANHRALHWAQAKVYGWLLCQERGLAEVDVALVYFDIHSQKETVLVERCSADALRDFFETHCERFLQWAVQELAHRAERDRALEALRFPHADFRSGQRELAEAVYKAASTGCCLMAQAPTGIGKTLGTLFPLLKAAPRQGLDRLFFLAAKTPGRQLALDAARLLEANAPGLPLRVLELTARDKACEHPDKACHGESCPLAQGFYDRLPAARKAALERVWLDRDSVREVALEHAVCPYYLAQELARWADLQVGDYNYYFDVSALLHGLTQANQWRVGVLVDEAHNLLERARRMYSAELDQAGFDTLRREAPAALKKPLERINRTWRELSKDDDAPYQALPTLPGKFIASLQSAITDITDHFGEHPTQVHGALLDFYFEAMHFCRMADTFDSHTLFDISRRPGTRGRSLSTLCLRNLVPAPYLQPRFAVTRSTVLFSATLSPRHFHGDLLGLPENTPWVDVQSPFSAGQLAVRVVGSISTRFQHRAASLEPIAELMARQFEERPGNYLAFFSSFDYLQQTLERFAARFPHIPLWTQSRRMDEPARQAFLERFVEGGQGIGFAVLGGAFGEGIDLPGERLIGAFVATLGLPQLNPVNEQIRQRMDQLFGAGYDYTYLYPGLQKVVQAAGRVIRTREDRGVLYLIDDRFARREVMRLLPGWWKVERSDSHESAAIRLGE				NA	NA	NA	NA	NA
BMS010_02633	555	nosL		Copper-binding lipoprotein NosL	ATGTTCCCGATCCCCACCGGCGGCTTGCTCCACCTCACCGCCATCCTGCTCTGCCTGGGCCTGGCGGCCTGCAACGAACCGGCGGCGGAAGCCCCGGCCGGCCCCGTGGCTTTCCACCCGGACGACGAATGCCACGTCTGCGGCATGGTCATCAGCGAACTGCCGGGGCCCAAGGGTGAGGCGGTGGAGGCCTCCGGCGCGGTGAAGAAATTCTGCTCGGTGCAGGAGATGTTCGTCTGGTGGCTACAGCCGGAGAACCGCAACCTGAACGTGACCCTCTACGTGCACGACATGACCCGCAGCGAGTGGAACCGTCCCGACGACAGCCACCTGATCGACGCGAAAAAGGCCTACTACGTGGTCGGCTCGGACCTCAAGGGCGCCATGGGCGTCACCCTGGCTTCCTTCGCCGACCGCCTCGCCGCCGAAGGCATGGCCACTGCCCGCGGCGGCCAGGTATTGCGCTGGGACGAAATCGGCCTGGAACAGTTGCAGATGATGCACACCGGGAATGATGGGCACGCCGGGCACAGTGGGCATGGCACGGCGCATTGA	MFPIPTGGLLHLTAILLCLGLAACNEPAAEAPAGPVAFHPDDECHVCGMVISELPGPKGEAVEASGAVKKFCSVQEMFVWWLQPENRNLNVTLYVHDMTRSEWNRPDDSHLIDAKKAYYVVGSDLKGAMGVTLASFADRLAAEGMATARGGQVLRWDEIGLEQLQMMHTGNDGHAGHSGHGTAH	PGPT0000420_528	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000420-nosL-K19342	NA	NA
BMS010_02634	831	nosY	COG1277	putative ABC transporter permease protein NosY	ATGAACCCGATCTGGACCATCGCCCGCAAGGAACTCCGCGACGGCCTGCGCAACCGCTGGCTGCTCGCCATCAGCCTGTTGTTCGCCGTGCTCGCCGTGGGCATCGCCTGGTTCGGCGCGGCGGCGTCGGGGCAGGTGGGCTTCACCTCGATCCCGGCGACCATCGCCAGTCTGGCCAGCCTGGCCACCTTCCTCATGCCGCTGATCGCGCTGCTGCTGGCCTACGACGCCATCGTTGGCGAGGACGAGGGCGGCACCCTGCTGTTGCTGCTGACCTACCCGCTGGGGCGGGGCCATATCCTGCTCGGCAAGTTCCTCGGCCATGGCCTGATCCTCGCCCTCGCCACCCTGATCGGCTTCGGCGGCGCGGCGCTGGCCATCGGCCTGCTGGTCGATCAGGTGGACATCGCTCTGCTGGCCTGGGCCTTCGGCCGCTTCATGCTGTCGTCGCTGCTGCTGGGGCTGGTGTTCCTCGCCCTGGCCTACGCGCTCAGCGCCAGGGTGACGGAAAAATCCAGCGCCGCCGGGCTGGCGCTGGGGGTGTGGTTCCTCTTCGTGCTGGTCTTCGATCTGGTGTTGCTGGCGCTGCTGGTGCTCGGCCAGGGCCGCTTCGACCCCGAATGGCTGCCCTGGCTGCTGCTGTTCAACCCGGCCGATCTCTATCGGCTGATCAACCTCTCCGGTTTCGACGCCGTCGGCAGCGGCATGGGCGTGATGAGCCTGGGTAGCGAGCTGCCACTGGGCAACACGCTCCTGTGGCTGGCCCTGGTGGCCTGGGCCGGCACGGCGCTGGCGCTGGCCGGGAGGTCGTTCGCCCGCCGCCAGGTATGA	MNPIWTIARKELRDGLRNRWLLAISLLFAVLAVGIAWFGAAASGQVGFTSIPATIASLASLATFLMPLIALLLAYDAIVGEDEGGTLLLLLTYPLGRGHILLGKFLGHGLILALATLIGFGGAALAIGLLVDQVDIALLAWAFGRFMLSSLLLGLVFLALAYALSARVTEKSSAAGLALGVWFLFVLVFDLVLLALLVLGQGRFDPEWLPWLLLFNPADLYRLINLSGFDAVGSGMGVMSLGSELPLGNTLLWLALVAWAGTALALAGRSFARRQV	PGPT0000435_286	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000435-nosY-K19341	NA	NA
BMS010_02635	912	nosF	COG1131	putative ABC transporter ATP-binding protein NosF	ATGAATGCCGTGGATATCGAAGGCGTGAGCCAGCGCTTCGGCGCGCTCACCGTGCTCGACGACCTCTACCTCCGCCTGGCGCCGGGCGAAGTGCTCGGCCTGTTTGGCCACAACGGCGCCGGCAAGACCACCACCATGAAGCTGATCCTCGGCCTGCTGCGCCCGAGCGAGGGGCGGGTGACGGTGCTCGGCGAGCGCGCCGAGAGCCTGGCGGTACGCCGCCAGCTCGGCTATCTGCCGGAGAACGTGACCTTCTACCCCCAGCTCAGCGGGCGCGAGACACTTCACCACTTCGCCCGCCTCAAGGGCGCGGCGACCGACCAGGCGGATGCGCTGCTCGACGAGGTGGGGCTCGCCGCGGCGGCGGACCGGCGGGTGAAAACCTATTCCAAAGGCATGCGCCAGCGCCTCGGCTTGGCCCAGGCGCTGCTCGGCGCACCGCGCCTGCTGCTGCTCGACGAACCCACCGTCGGCCTCGACCCCATCGCCACCCAGTCGCTCTACCGGCTGGTGGACCGTCTGCGTGAGCAGGGCACCAGCATCATCCTCTGCTCCCATGTGCTGCCCGGCGTGGAGGCGCATATCGACCGCGCCGCCATCCTCGCCGGGGGGCGCCTGCAGGCCATGGGCACCCTGGCTGCCCTGCGCCTGGAAGCCGGCCTGCCGGTGCGCATCCGTGCCGCCGGCCTGGACGATCCGCAGCCCTGGCTGCAACGGCTGACCTCGGCCGGGCACGCGGCGCGGCGGCTCAACGGCCACAGCCTGGAAATCGATACCCCGGCCGCCGGCAAGCTCGGCCTGCTGCGGCAACTGCTGGAGGAGGGCGGGGTGGCCGATATCGAAGTCCATCAGCCGTCCCTGGAAGACCTCTATCGCCACTTCATGGGCGCGGTACGGAGCGAACACGCATGA	MNAVDIEGVSQRFGALTVLDDLYLRLAPGEVLGLFGHNGAGKTTTMKLILGLLRPSEGRVTVLGERAESLAVRRQLGYLPENVTFYPQLSGRETLHHFARLKGAATDQADALLDEVGLAAAADRRVKTYSKGMRQRLGLAQALLGAPRLLLLDEPTVGLDPIATQSLYRLVDRLREQGTSIILCSHVLPGVEAHIDRAAILAGGRLQAMGTLAALRLEAGLPVRIRAAGLDDPQPWLQRLTSAGHAARRLNGHSLEIDTPAAGKLGLLRQLLEEGGVADIEVHQPSLEDLYRHFMGAVRSEHA	PGPT0000415_155	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000415-nosF-K19340	NA	NA
BMS010_02636	1272	nosD		putative ABC transporter binding protein NosD	ATGCTGCGCATCTTGATCTTCCTTCCGCTCTGCGCCTGTCTTGGCCAAGCTCTGGCAGATACCCGGCCGATCGATGAGTTGCCCTTGAAGTCGGTGGCCGACCAGCACTGGGAACTCCCGGCCGGCGAATACCACGGCAACTTCCGCATCGACCGCCCGCTGACCCTGCGCTGTGCCGAGGGCGCCATACTGGACGCCGATGGAACCGGCAGCGCGCTGATCCTGGCCGCATCGGACGTGACCGTCAGCGGCTGCACCCTGCGCAACTGGGGCCGCGACCTCGGCGCCATGGACTCGGGCATATTCGTCGAACGCCAGGCCGCCAACGCGCATATCGAACACAACCGCTTGAGCGGGCCGGGCTTCGGCATCTGGGTCGATGCCAGCCGCGGGACGCTGATCCGCGATAACGACATCGAAGGCGACACCCGCCTGCGCTCCCAGGACCGCGGCAACGGCGTGCACCTCTACGCCGTGAGCGGCGCCCAGGTGATCGACAACCGCATCTGGGACGTACGCGACGGCATCTACATCGACACCTCCAACGACAACCTGCTGCAAGGCAACCGCCTGCGCGACCTGCGCTATGGCATCCATTACATGTTCTCCCACAACAACCGCATCATCGGGAACGCCACCCTGCGCACCCGCACCGGCTACGCGCTGATGCAGAGCCGCCAGCTCACCGTGATCGGCAACCACTCGGAGCAGGACGGCAACTACGGCATCCTGATGAACTACATCACCTACTCGACGCTGCGCGATAACCAGGTCATCGACGTGCGCCCCGGCGGCGACGGCGATGCGATGATCTCCGGCGCCGAAGGCAAGGCCCTGTTCATCTACAACTCGCTGTTCAACCAGATCGAGGGCAACCGCTTCGAGGGCAGCGCCCTGGGCATCCACCTCACCGCCGGCTCCGAGGACAACCGCATCGCCGGCAACGCCTTCGTCAACAACCGTCAGCAGGTCAAGTACGTCGCCACCCGCCGCCAGGAGTGGTCCCACGAGGGACGCGGCAACTACTGGAGCGACTACCTGGGCTGGGACCGCAACGGCGATGGCCTCGGCGACGTCGCCTACGAACCGAACGACAACGTCGACCGCCTGCTCTGGACCTACCCCCAGGTGCGCCTGCTGATGCACAGCCCCGGCATCGAACTGCTGCGCTGGGTGCAGCGGGCCTTTCCGGTGATCCGCTCGCCGGGCGTCGAAGACAGCCACCCCCTGATGCGCTGGTCGCCACCGGCGGCCACGGAGGACACCCCATGA	MLRILIFLPLCACLGQALADTRPIDELPLKSVADQHWELPAGEYHGNFRIDRPLTLRCAEGAILDADGTGSALILAASDVTVSGCTLRNWGRDLGAMDSGIFVERQAANAHIEHNRLSGPGFGIWVDASRGTLIRDNDIEGDTRLRSQDRGNGVHLYAVSGAQVIDNRIWDVRDGIYIDTSNDNLLQGNRLRDLRYGIHYMFSHNNRIIGNATLRTRTGYALMQSRQLTVIGNHSEQDGNYGILMNYITYSTLRDNQVIDVRPGGDGDAMISGAEGKALFIYNSLFNQIEGNRFEGSALGIHLTAGSEDNRIAGNAFVNNRQQVKYVATRRQEWSHEGRGNYWSDYLGWDRNGDGLGDVAYEPNDNVDRLLWTYPQVRLLMHSPGIELLRWVQRAFPVIRSPGVEDSHPLMRWSPPAATEDTP	PGPT0000410_239	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000410-nosD-K07218	NA	NA
BMS010_02637	1905	nosZ		Nitrous-oxide reductase	ATGAGTGATAGAAAGACGGAGCGGGACGACGAAAAACTCGGCCTGAGTCGCCGCGGCTTTCTCGGCGCCACCGCCGCCACCGGCCTCACCGCCCTGGCCGGCGCCACCGCCCTCGGCGGCGCGGTGATGAGCCGCGAATCCTGGGCCGCGGCGGTGAAGGACGCACAGCAGAAGATCCACATCGAGCCCGGCGAACTGGACGAGTACTACGGCTTCTGGAGCGGCGGCCACTCCGGCGAGGTCCGGGTGCTGGGCGTGCCGTCCATGCGCGAGCTGATGCGTATCCCGGTGTTCAACGTCGACTCGGCCACCGGCTGGGGCCTGACTGACGAAAGCCGGCGGGTGCTGGGCGACAGCGCGCGTTTCCTCAACGGTGACAGCCACCACCCGCACATCTCCATGACCGACGGGCGCTACGACGGCAAGTACCTGTTCATCAACGACAAGGCCAACAGCCGCGTCGCGCGCATCCGCCTGGACATCATGAAGTGCGACAAGATGGTGACCGTCCCCAATGTCCAGGCCATCCACGGCCTGCGGCTGCAGAAGGTGCCGCGCACGCAGTACGTGTTCTGCAACGGCGAGTTCGTCATCCCGCATCCGAACGACGGCAGCAACCTGAAGAACCTCGATGCCGCCGAGCGCTACACGATGTTCAACGCGGTCAACGCCGACACCATGGAAGTGGCCTTCCAGGTGATCGTCGACGGCAACCTGGATAACACCGACGCCGACTACAGCGGCAAGTACGCCGCCGCCACCTGCTACAACTCGGAGAAGGCCAACGACCTGGCCGGCATGATGCGCAACGAGCGCGACTGGGTGGTAGTGTTCAACATCCCGCGCATCGAGGCGGCGATCAAGGCGGGCCGCTTCAAGACCCTCGGCGATTCCAAGGTGCCGGTGGTGGACGGCCGCGAAGGTTCCGAATTGACCCGCTACATCCCGGTGCCGAAGAACCCGCACGGCCTCAACACCTCGCCGGACGGCCGTTTCTTCATCGCCAACGGCAAGCTCTCGCCCACCGTGTCGATGATTGAGATCGCGCGCCTGGACGACCTCTTCGACAACAAGCTGAAGGACCCGCGCGACGTGGTGATCGCCGAGCCGGAACTCGGCCTCGGCCCGCTGCACACCACCTTCGACAACCGCGGTAACGCCTACACCACGCTGTTCATCGACAGCCAGGTGGTGAAGTGGAACCTGGACGACGCCATCCGCGCCTACAAGGGCGAGAAGGTCGCCTACATCCGCCAGAAGCTCGACGTGCAATACCAGCCGGGCCACAACCACGCGTCGCTCACCGAGTCCCGCGATGCCGATGGCAAGTGGCTGGTGGTGCTTTGCAAGTTCTCCAAGGACCGCTTCCTGCCGGTCGGCCCGCTGCATGCCGAGAACGACCAGCTCATCGACATCTCCGGCGAGGAAATGCGCCTGGTGCACGACGGCCCCACCTTCGCCGAGCCGCACGACTGCATCCTGGCCCACCGCGACCAGATCCGGACGAAGAAAATCTGGAGCCGCGACGACCCGTTCTTCGCCGACACCGTGGCCATGGCCGCCAAGGACGGGGTGAAGCTGGAGACCGACAACAAGGTCATCCGCGACGGCAACAAGGTCCGCGTCTACATGACCTCCACCGCGCCCACCTACGGCATCACCGAGTTCAACGTGAAGCAGGGCGACCAGGTCACCGTGGTGATCACCAACATGGACATGATCGAAGACGTCACCCACGGCTTCTGCATGGTCAACCACGGCGTGAGCATGGAGATCAGCCCGCAGCAGACCTCGTCCATCACCTTCACCGCCGACAAGCCGGGGGTGCACTGGTACTACTGCAACTGGTTCTGCCACGCCCTGCACATGGAGATGGTGGGCCGGATGATCGTCGAGCCGGCTTGA	MSDRKTERDDEKLGLSRRGFLGATAATGLTALAGATALGGAVMSRESWAAAVKDAQQKIHIEPGELDEYYGFWSGGHSGEVRVLGVPSMRELMRIPVFNVDSATGWGLTDESRRVLGDSARFLNGDSHHPHISMTDGRYDGKYLFINDKANSRVARIRLDIMKCDKMVTVPNVQAIHGLRLQKVPRTQYVFCNGEFVIPHPNDGSNLKNLDAAERYTMFNAVNADTMEVAFQVIVDGNLDNTDADYSGKYAAATCYNSEKANDLAGMMRNERDWVVVFNIPRIEAAIKAGRFKTLGDSKVPVVDGREGSELTRYIPVPKNPHGLNTSPDGRFFIANGKLSPTVSMIEIARLDDLFDNKLKDPRDVVIAEPELGLGPLHTTFDNRGNAYTTLFIDSQVVKWNLDDAIRAYKGEKVAYIRQKLDVQYQPGHNHASLTESRDADGKWLVVLCKFSKDRFLPVGPLHAENDQLIDISGEEMRLVHDGPTFAEPHDCILAHRDQIRTKKIWSRDDPFFADTVAMAAKDGVKLETDNKVIRDGNKVRVYMTSTAPTYGITEFNVKQGDQVTVVITNMDMIEDVTHGFCMVNHGVSMEISPQQTSSITFTADKPGVHWYYCNWFCHALHMEMVGRMIVEPA	PGPT0000440_422	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000440-nosZ-K00376	NA	NA
BMS010_02638	2181			hypothetical protein	ATGCCCCTGTCGCGCCTCCGTTCCCTCGACGTTCCGCTCCTACCGTTCTGGTTGTTGCTGCTGGCCTGCCTCCTGTCCGTTCCGCTGCACGCCGCCGCCAATGACGGCGACCGCGAGTGGCAGCGCATTCGCACGGTGTTCCCGCAGGCCGAGGCGCTGTCCGAGCCGGCCGGCGACTTCCAGGTGCGCACCGTCACGGCGGGCGGCAAGACGCTCGCCTATGCCTTTCAGACCCGCCAGGTGGTGGACATCCCGGCCTACTCCGGCAAGCCGGTCAACCTGCAGGTGCTGCTCGGCCCCGACGGGGTGATCCGTGATGCCTACGTCTTGGAGCACCACGAGCCGATCCTGCTGGTGGGCATTCCCGAGCAGAAGCTGCACGACTTCACCGATAAGTACCGCGGCGTCGAGGTGAGCCGGCGGGTGGTGGTCGGTCATTCCAGCGACCCCGAGACCATCACCGTGGATGCCGTCACCGGCGCCACCGTGACCGTGATGGTGGTGAACGAAACGATCATGCGCGCGGCGCACAAGGTGGCGGTCTCGCTGGGGCTGGTCGATGAGGCGGCGGCCCGGAAGCAGAAGCCGGCGCTGATCCGGCGCGACCTGTTCCAGCCGGCGGACTGGACGGCCCTGACCGGCAATGGCGCGATCCGCCGCCTGCACCTGACCCGCGGCCAGGTGGACGACGCCTTCGTCGGCAGCCCCGCCGAAGGGGTGGAAGCCGCCCCCGCCGACCACCGCGACGACACCTTCATCGACCTCTACGTGGCACAGCTCGACGTGCCCGGCATCGGCCGCAACCTGCTCGGGGAAAACCAGTTCGACTGGCTGACCGGCGAACTGAAACCCGGCGAGCACGCCATCGTCCTGTTGGGCAACGGCCTGTATTCCTTCAAGGGCTCGGGCTATGTGCGCGGCGGCATCTTCGACCGCATCCAGATGCGCCAGGGTGGCGAGACCATCAGCTTCCGCGACCTCGACTTCCAGCGCCTCGGCGGCCTGCGCATCGAGGGGGCGCCGGACTTCGCCGAGCTGGGGATGTTCATCGTCCGCGACCATCATGAATTCGACCCGGGCAACCCCTGGGGCCTGGAATTGCTGGTGCGCCGCCAGACCGGGCCGACCAGCGGCGAATTCGCCAGCTTCCAATTGGACTACCAGCTCCCCGACGCCTACTTCGAGCGTCCGGCGCCCACCGCCGAGGAACTGGCGGCGGCGGAAGAGGCGGCGCGGCCGATGTGGGTGTCGATCTGGTACGGCCGCGCGTTCCAGATCGGCGTGCTCGGTGTCGGCCTCGGCGTGCTGCTGGTGATCCTGTTCCTCCAGGACTACTTCGTGCGCTTCCCGCGCCTGCTGCACAACCTGCGCCGCGCCTATCTGGTGTTCACCGTCGGCTTCATCGGCTGGTACGCCCTGGGGCAGCTTTCCATCGTCAACGTGCTGACCTTCGTCCATGCGCTGATGGAGGGGTTCCGCTGGGAGCTGTTCCTCAGCGATCCGATCCTGTTCATCCTCTGGACCTTCACCGCAGCGAGCATCCTGCTCTGGGGCCGTGGCGTGTTCTGCGGCTGGCTGTGTCCGTTCGGCGCCCTGCAGGAGCTGATCAACGAAGTCGCGCGCAAGCTGAAGGTCCGCCAGTTCGAGTTGCCCTTCGCCGTGCACGAGCGGCTGTGGGCGGTGAAGTACCTGATCCTCCTGGCGCTGTTCGGCCTCTCCCTGGAGTCCATGGCTACCGCCGAACGCTTCGCCGAGGTGGAGCCGTTCAAGACCGCCATCACCCTGAAGTTCGACCGCCAGTGGTGGTTCGTGCTGTACGTCGTGATCCTGCTGGTGATCAACGTGTTCACCCGCAAGGTCTATTGCCGCTACATCTGCCCGCTGGGCGCGGCCCTGGCGATCCCCAGCCGCCTGCGCCTGTTCGACTGGCTCAAGCGGCGCAAGGAGTGCGGCACCCCCTGCCAGCTCTGCGCCCACGAGTGCGAGATCCAGGCCATCCACCCGGACGGGCGGATCGACGCCAACGAATGCCACCACTGCCTGGACTGCCAGGTCACCTATCACAACGCCAGCAAGTGCCCGCCGCTGATCGCCAAGCGCAAGCGTCGCCAGCGCGACAAGACGGCACCGGTCGCGGCCATGGAAACCATCGCCGTGGTGCAGCTGGACATCGCCGACTGA	MPLSRLRSLDVPLLPFWLLLLACLLSVPLHAAANDGDREWQRIRTVFPQAEALSEPAGDFQVRTVTAGGKTLAYAFQTRQVVDIPAYSGKPVNLQVLLGPDGVIRDAYVLEHHEPILLVGIPEQKLHDFTDKYRGVEVSRRVVVGHSSDPETITVDAVTGATVTVMVVNETIMRAAHKVAVSLGLVDEAAARKQKPALIRRDLFQPADWTALTGNGAIRRLHLTRGQVDDAFVGSPAEGVEAAPADHRDDTFIDLYVAQLDVPGIGRNLLGENQFDWLTGELKPGEHAIVLLGNGLYSFKGSGYVRGGIFDRIQMRQGGETISFRDLDFQRLGGLRIEGAPDFAELGMFIVRDHHEFDPGNPWGLELLVRRQTGPTSGEFASFQLDYQLPDAYFERPAPTAEELAAAEEAARPMWVSIWYGRAFQIGVLGVGLGVLLVILFLQDYFVRFPRLLHNLRRAYLVFTVGFIGWYALGQLSIVNVLTFVHALMEGFRWELFLSDPILFILWTFTAASILLWGRGVFCGWLCPFGALQELINEVARKLKVRQFELPFAVHERLWAVKYLILLALFGLSLESMATAERFAEVEPFKTAITLKFDRQWWFVLYVVILLVINVFTRKVYCRYICPLGAALAIPSRLRLFDWLKRRKECGTPCQLCAHECEIQAIHPDGRIDANECHHCLDCQVTYHNASKCPPLIAKRKRRQRDKTAPVAAMETIAVVQLDIAD	PGPT0000425_212	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000425-nosR-K19339	NA	NA
BMS010_02639	315	nirM		Cytochrome c-551	ATGAAGAGATTTGCCCTTCCGCTGCTGGCCGGCGCGCTGCTGCTGCCCGCCCAGTCCCTGCTCGCCGCCGATGGCGAAGCCCTGTTCAAGAGCAAGCCCTGCGTAGGCTGCCATACCGTCGACAGCAAGCTGGTCGGCCCGGCGCTCAAGGAGGTCGCGGCGAAATACGCCGGTCAGGCCGACGCGGCGGCCACCCTCGCCCTGCACATCAAGAACGGTACCCAGGGCAACTGGGGCCCCATCCCGATGCCGCCAAACGCAGTGACCGAAGAGGAAGCCTCGGTCCTGGCCAACTGGGTACTGACCCTCAAATGA	MKRFALPLLAGALLLPAQSLLAADGEALFKSKPCVGCHTVDSKLVGPALKEVAAKYAGQADAAATLALHIKNGTQGNWGPIPMPPNAVTEEEASVLANWVLTLK	PGPT0004005_4176	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-OTHER_CYTOCHROME-RELATED_PROTEINS,PGPT0004005-cycA|cycM-K08738	NA	NA
BMS010_02640	1191			hypothetical protein	GTGCTCATTGTTGATCGCCGCCGGGCGATGGCGATTCCGCCCGTGTTGCGCCTGGGGTTCCGGCCGTTCTTTCTCGGCGGCGCGGCTTACGCGCTGATTGCCGTGCCGCTTTGGCTACTGGCCCTGGGCGGCCTGTTGCCCGGCTGGCAGCCGGCGGGCGGCTGGCTGGCGTGGCACCGTCACGAAATGCTGTTCGGTTTCGGCGTGGCCATCGTCGCCGGCTTCCTGCTCACCGCAGTGCAGACCTGGACCGGCCGGCCCGGCCTGTCCGGCCGGCCGCTGGGGCTGCTCGCCGGACTCTGGCTGGCGGGCCGCCTGGCCTGGCTGAGCGGTGCGCCGGTGCAGGCGGTGATCCTGCTGGATGCGTTGTTCCTGCCGGCGGTGGCGGTGGTCATGGCGCGCATGCTCTGGGCGGCACGGCAGAAGCGCAACTACCCCATCGTGCTGGTGCTCGGCCTGATGGCGGCAGCCAACCTGCTCAGCCTCGCCGGGCTCGGCCTGGGCGACGACGGCCTGCAACGCCGCGGTGTCCTCGCCGGACTCTGGTTGATCGCGGCCTTGATGGGCATGATCGGCGGGCGGGTGATCCCGTTCTTCACCCAGCGCGGTCTCGGTCGGGTGGAGATGGTGCAGCCGATCCTCTGGCTCGACCTGTCGCTGCTGGCCGGCGGCATCCTGGTTGCGCTGCTCACCGCCGCCGGGCCGCTGCTGCAACTGGGGCCGCTCGGTGCGGTGCTGTTCCTGGCTCTCGGTGCCGGTCATCTCTGGCGGCTGTTGCGCTGGCACGACACGGCCTATTGGCGCGTGCCGCTGCTCTGGTCGTTGCACCTGGCCTATGCCTGGCTGGTGCTGGCGCTGGTCGGCATGGCTGTTTGGCATCTCGGCCTGCTGGGCAATGCCAGCCAGGCCCTACATGCGCTCACCGTGGGCGCCATGGCCGGGTTGATCCTGGCGATGCTCGCCCGTGTCACCCTCGGCCATACCGGCCGCGCGCTGGAGCTGCCGAGTGGCGTCGCCACGGCATTCGCCCTGCTGCACGTCGGGACCTTCTCGCGGGTGGTGTTGGTGAGTGTCTGGCCGCTGTCGGCGCTATGGCTGGCGGGAATCTGCTGGGCGCTGGCGTTCGCGATCTACCTGTGGCGCTACGCGCCGATGCTGTGTCAGATGCGGGTGGATGGGCATCCGGGTTAA	MLIVDRRRAMAIPPVLRLGFRPFFLGGAAYALIAVPLWLLALGGLLPGWQPAGGWLAWHRHEMLFGFGVAIVAGFLLTAVQTWTGRPGLSGRPLGLLAGLWLAGRLAWLSGAPVQAVILLDALFLPAVAVVMARMLWAARQKRNYPIVLVLGLMAAANLLSLAGLGLGDDGLQRRGVLAGLWLIAALMGMIGGRVIPFFTQRGLGRVEMVQPILWLDLSLLAGGILVALLTAAGPLLQLGPLGAVLFLALGAGHLWRLLRWHDTAYWRVPLLWSLHLAYAWLVLALVGMAVWHLGLLGNASQALHALTVGAMAGLILAMLARVTLGHTGRALELPSGVATAFALLHVGTFSRVVLVSVWPLSALWLAGICWALAFAIYLWRYAPMLCQMRVDGHPG	PGPT0001070_830	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITRIC_OXIDE_REDUCTION,PGPT0001070-nnrS-K07234	NA	NA
BMS010_02641	243			hypothetical protein	ATGGTTTCGTGGTTCGAATGTCCGTGGCGTCTTCGGCGGCTGGCCGACTCCCTCCTGCTGGGCGGTCTGCTGCTGTTGCTGGTGGGGTTGGCCGGTGCCTATCTGTTCGAGGCCCGGCTGGCGCTCGGTGTGCTGGTCGGTGCGCATGCGCTGACGGTGCTGGGCCCGGCCCTGCTGAAGATCGGTTATGTGATGCGTCTGCTGGCTCAGCAGAAGAAGGAGAGTCGTTGTGCTCATTGTTGA	MVSWFECPWRLRRLADSLLLGGLLLLLVGLAGAYLFEARLALGVLVGAHALTVLGPALLKIGYVMRLLAQQKKESRCAHC				NA	NA	NA	NA	NA
BMS010_02642	1182	hmp_1		Flavohemoprotein	ATGCTATCCGCTCAACACCGTGCCCTTGTGAAAGCCACCGTTCCCCTGCTGGAAACCGGCGGCGAAGCCCTGACCCGGCATTTCTACCGGATCATGCTCGGCGAACACCCGGAAGTACGACCGCTGTTCAACCAGGCGCACCAGGCCAGCGGCGACCAGCCGCGGGCCCTGGCCAACGGCGTGCTGATGTATGCGCGCCATATCGATCGGCTCGAAGCCCTCGGCCCGCTGGTCGGGCAGATCGTGCAGAAGCATGTGTCGCTGCAGGTGCTGCCCGAGCAGTATCCCATCGTCGGTGCCTGCCTGTTGCGGGCGATCCGCGAGGTGCTCGGCAAGGAGATCGCCACCGACGAGGTGATCGCCGCCTGGGCTGCTGCCTACCAGCAACTGGCCGACCTGCTGATCGGGGCGGAAGAGGAAGTCTATGCCGCCAGTGCCAGCCAACCCGGCGGCTGGCGCGGGACGCGGTCGTTCGAGGTGGCGCGGCGGGTGCCTGAGAGCGACGAGATCGTTTCCTTCCACCTGCGTCCGGCCGATGGCGGCGCCCTGGCGGATTTCCTGCCGGGCCAGTACATCGGCCTGCGCCTGGTGATCGATGGCGAGGAAGTGCGCCGTAACTACTCGCTGTCTGCCGCACCGAATGGCCGCGACTACCGCATCAGCGTCAAGCGCGAGGCGGGCGGCAAGGTGTCCGGTTACCTGCACGAACAGGTGAAGGCAGGCGACCGCCTGGAACTGTTCCCGCCGGCGGGCGAGTTCGTCCTGCGTCCGTCGCGCAAGCCGCTGGCGCTGATCACCGCCGGGGTCGGCATCACCCCGGCGTTGAGCATGCTGGAGGCGGCACTGCCAAGCGGGCGGCCGGTGCACTTCATCCACTGCGCCCGGCATGCCGGCGTGCATGCCTTCCGCGACTGGCTCGACGAGCAGGCGGCAAAGCATCCGCAACTCAGGCACTACGTCTGCTACAACGAGCCTCGCCCTGACGACCGGGCGGACGCCATCGGTCTGCTGAGCCGCGAGAGCCTGGCCGACTGGCTGCCGGCGGAGCGCGACCTCGATGCCTACTTCCTCGGGCCCAAGCCATTCATGGCCCTGGTGAAGCGGCATCTGCGCGAGCTGGGCGTGCCGGAGGGGCAATGCCATTACGAGTTCTTCGGGCCGGCCTCGGCACTGGATAACTGA	MLSAQHRALVKATVPLLETGGEALTRHFYRIMLGEHPEVRPLFNQAHQASGDQPRALANGVLMYARHIDRLEALGPLVGQIVQKHVSLQVLPEQYPIVGACLLRAIREVLGKEIATDEVIAAWAAAYQQLADLLIGAEEEVYAASASQPGGWRGTRSFEVARRVPESDEIVSFHLRPADGGALADFLPGQYIGLRLVIDGEEVRRNYSLSAAPNGRDYRISVKREAGGKVSGYLHEQVKAGDRLELFPPAGEFVLRPSRKPLALITAGVGITPALSMLEAALPSGRPVHFIHCARHAGVHAFRDWLDEQAAKHPQLRHYVCYNEPRPDDRADAIGLLSRESLADWLPAERDLDAYFLGPKPFMALVKRHLRELGVPEGQCHYEFFGPASALDN	PGPT0013000_1548			NA	NA	NA	NA	NA
BMS010_02643	348			hypothetical protein	ATGAAGTTTTCCCTCTCTTTCATCGTCGCGGCCAGCCTGCTGGCCAGCGCATCCATCCAGGCCGACGAAGTGCTGGCCGTCCAGCACGACAACACGGCGGGTGCCGTGTATGGCGGGCTCAGCGGCGTACTGATCGGCGGTGCGGCTGGCGGTCCGATCGGTGCCCTGGTGGGTGGCGGTCTCGGATTGTTCGCCGGGCGCACCGTCCAGGACGCCAGCGGCCTGAGCCAGACCGGTTACCGGGTGAAGACCGCGACCGGTGAAGTCGACGTGCGTTCTCCCAACGCCGAATTCTCCGTGGGCCAGCAGGTCCGCCGCGAGAACGGGCGTCTCCACCCCTCCCAATAA	MKFSLSFIVAASLLASASIQADEVLAVQHDNTAGAVYGGLSGVLIGGAAGGPIGALVGGGLGLFAGRTVQDASGLSQTGYRVKTATGEVDVRSPNAEFSVGQQVRRENGRLHPSQ				NA	NA	NA	NA	NA
BMS010_02644	1557	norR2_1	COG3604	Nitric oxide reductase transcription regulator NorR2	ATGACTACGAACCCCTTGCTCAGTGCCCTGCTCCCCCTGGTCGACGACCTGACCCGCGATCTGCCCGACGGCGAGCGCTATCGCCGGCTGCTGCAATCCCTGCGCGAACTGATGCCGTGCGACGCGGCGGCGTTGCTGCGCCTGGAAGACGACCAACTGGTCCCGCTGGCGGTGGACGGCCTGAGCACCGACACCCTCGGGCGCCGCTTCAAGCTGGCCGAGCACCCGCGTTTCACCGCCCTGCTGGCGCGCAATGGGCCGACCCGTTTCGCCGCCGACAGTGACCTGCCCGACCCTTACGACGGCCTGGTCGAGGGTCATCGCGGTCACCTCGAGGTGCACGACTGCATGGGTTGCCCGCTGTTCATCGACGACCGCCCCTGGGGCCTGCTCACCCTGGACGCCCTCGATCCGTCCCGCTTCGGCCGGATCGACCTGGATAACCTGGAAACCTTCGCCCGCCTCGCCGCCGCCACGGTGAAGGCCACCGAACGCCTGAGCAGCCTGGCGCTGCGAGCGGAGAACGAGCACCAGCTCGCGGAGACCTACCGTCAGGCCGCCAGCCAGGCGCAGAGCCGCGAACTCATCGGCCAGAGCCCAGCCCACCGGCGGCTGCTGGAAGAAATCGAACTGGTGGCGGGCAGCGACCTGACCGTGCTGATCAGCGGCGAAACCGGGGTCGGCAAGGAGTTGGTGGCCCAGGCCATCCATGACCGCTCCAGCCGTGCCAACCGCCCTCTCATCAGCCTGAACTGCGCCGCCCTGCCGGAAACCCTGGTGGAAAGCGAACTGTTCGGCCACGTGCGCGGCGCCTTCTCCGGCGCGGTGGGCGACCGCAGCGGCAAGTTCGAACTGGCGGACGGCGGCAGCCTGTTTCTCGATGAGGTCGGCGAGTTGCCGCTGAGCGTCCAGGCCAAGCTGCTGCGGGTGTTGCAGAGCGGGCAGTTGCAGCGAGTCGGTTCCGATCGCGAACACCGGGTGGACGTCCGGGTGCTGGCCGCGACCAACCGCAACCTCGCCGACGAAGTGCGCGCCGGGCGCTTCCGTGCCGATCTCTATCATCGGCTCAGCGTCTACCCACTGCAGGTCCCGCCGCTACGCGAACGCGGCCGCGACATCCTGTTGCTGGCCGGCTACTTCCTCGAACAGAACCGCCCGCGCCTGCGGGTACGCAGCCTGCGTCTGGCGGCGGACGCACAGGCTGCACTGCTGGCCTACGATTGGCCGGGCAACGTGCGTGAACTGGAGCACCTGATCGGCCGCGCCGCCCTCAAGGCCATGGCTGCCAATGGCGAGCGACCACGCATCCTCAGCATCGGCACCGCCGACCTGGACCTGCAGCCACGCCGCCCTGCTGAGCGGCAGGCCGATGTCGTCGCCGCTCCCGGCGCCGCCGTGGACCTGCGCCAGGCCCTGGACGACTACCAGCGCCAACTGATCGCCGCCGCCTTGCAACGCAACCAGGACAACTGGGCCGCCGCCGCCCGCGACCTCGGCCTGGACCGCGCCAACCTGCATCGCCTGGCGCGCCGTCTCGGTCTCAAAAGCGCCACCTGA	MTTNPLLSALLPLVDDLTRDLPDGERYRRLLQSLRELMPCDAAALLRLEDDQLVPLAVDGLSTDTLGRRFKLAEHPRFTALLARNGPTRFAADSDLPDPYDGLVEGHRGHLEVHDCMGCPLFIDDRPWGLLTLDALDPSRFGRIDLDNLETFARLAAATVKATERLSSLALRAENEHQLAETYRQAASQAQSRELIGQSPAHRRLLEEIELVAGSDLTVLISGETGVGKELVAQAIHDRSSRANRPLISLNCAALPETLVESELFGHVRGAFSGAVGDRSGKFELADGGSLFLDEVGELPLSVQAKLLRVLQSGQLQRVGSDREHRVDVRVLAATNRNLADEVRAGRFRADLYHRLSVYPLQVPPLRERGRDILLLAGYFLEQNRPRLRVRSLRLAADAQAALLAYDWPGNVRELEHLIGRAALKAMAANGERPRILSIGTADLDLQPRRPAERQADVVAAPGAAVDLRQALDDYQRQLIAAALQRNQDNWAAAARDLGLDRANLHRLARRLGLKSAT	PGPT0000375_204	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0000375-norR-K12266	NA	NA
BMS010_02645	222			hypothetical protein	GTGACGAAAGACGAACTGCGCGCCGAACTGGAGCGTCAGGCGAAGCGTTATAAGGATATTTACGGCGGAGAAGTCACCACCTACGCCGCTCAACCGGACCCCGAGCGCAAGCCGTGGCGCAAGCGATCCAACCTTCTCGACCAGGCCTTCCAGAAAGAACTGGAGCGCATCGAGAAAGAAAAAGCCAAGAAAGAAGCCTCCGCGACCGACAATCCGGACTGA	MTKDELRAELERQAKRYKDIYGGEVTTYAAQPDPERKPWRKRSNLLDQAFQKELERIEKEKAKKEASATDNPD				NA	NA	NA	NA	NA
BMS010_02646	1497			hypothetical protein	ATGCCCATGCTTGACAGGCTCCTGCTCGGAGCCGACCCGGCCGGCCAACCCGTTGGCCAGGCCTTGAAACTGGCCAACCGCCACGGTCTGATCGCCGGCGCCACCGGTACCGGCAAGACGGTGACCCTGCAACGGCTCGCGGAAGCGTTCAGCGACGCCGGGGTGGCTGTGTTCGCCGCCGACATCAAGGGTGACCTCTGCGGCCTCGGTGCCGCCGGAGCCCCTCAAGGCAAGGTGGCCGAACGCATCGCTGGCATGCCCTGGCTGAATCACCAGCCGCAGGCCTACCCGGTGACGCTGTGGGACGTTCACGGGCAGAGCGGCCATCCGTTGCGCACCACCCTGAGCGAGATGGGACCGTTGCTGCTGGGCAATCTGCTCGGCCTCACCGACAGCCAGCAGGCGGCGCTTTATGCGACCTTCCAGGTGGCCGATCGCGAAGGTCTGCTGCTGCTCGACCTGAAAGACTTGAAAGCACTACTCAATCACCTGAAGGACGACGACAGCCTGCTCGGCGACGACAGCGCCCTGTTCACCTCGGCGTCGGCCCAGGCGTTGTTGCGGCGGCTGGCGACCCTGGAGCAGCAGGGTGCCGAGGCGCTGTTCGGCGAGCCGGCCCTGCAACTGGAGGACATTCTCCAGCCGACGGCGGAGGGTCGGGGCCGTATCCATCTGCTCGACGCCAGCCGCCTCGTGCACGAAGCGCCGAAGGTCTACGCCACCTTCCTGCTCTGGCTGCTGGCCGAGCTGTTCGAGCAACTGCCGGAGCGCGGCGATGCGGATAAACCGCTGCTGGCGCTGTTCTTCGACGAAGCGCACCTGCTCTTCGCCGACACGCCGAAAGCGTTGCAGGATCGCCTGGAACAGGTGGTGCGGCTGGTTCGCTCGAAGGGCGTCGGCGTCTATTTCGTTACCCAGTCGCCCGCCGACCTGCCGGACCCGATCCTCGCCCAGCTTGGCCTGCGCATCCAGCACGGCCTGCGCGCCTTCACCGCCAGGGAGCAGAAATCCCTGCGCGCGGTGGCCGAAGGTTTCCGGCCGAATCCGGCGTTCGACGCCTTGAGCGTGCTCACCGAGCTGGGCATCGGCGAAGCGCTGGTCGGGACCCTGGAAGAGAAGGGCACGCCGGCCATGGTCGAGCGGGTTGCCATCGCGCCGCCGCAATCGCGGATCGGTCCGTTGAGCGAGGTCGAGCGCGCAGCAGTCATCCGCCAGTCACCCTTGGGTGGGCGGTACGACAAACCGGTGGATCGCGAATCGGCTTATGAAATGCTCACCGCCCGTGCGGCGAAGGCGAGTGAAGCCCCGGCCGCTCCGGCGTCGAAGCCTTCGGCCGGCACGGGAGCGAGCGGCGGTTTCGGCGAAATGGCCGGCGACCTGATCGGCAGCCTCGCCGGCCAGGTGATGAAGACCGCCTTGCGCCAAGCGGCCAATCAACTGGGGCGGCAGTTGGCGCGAGGGCTGATGGGCTCGCTGCTGGGCGGCAAGCGGCGTTGA	MPMLDRLLLGADPAGQPVGQALKLANRHGLIAGATGTGKTVTLQRLAEAFSDAGVAVFAADIKGDLCGLGAAGAPQGKVAERIAGMPWLNHQPQAYPVTLWDVHGQSGHPLRTTLSEMGPLLLGNLLGLTDSQQAALYATFQVADREGLLLLDLKDLKALLNHLKDDDSLLGDDSALFTSASAQALLRRLATLEQQGAEALFGEPALQLEDILQPTAEGRGRIHLLDASRLVHEAPKVYATFLLWLLAELFEQLPERGDADKPLLALFFDEAHLLFADTPKALQDRLEQVVRLVRSKGVGVYFVTQSPADLPDPILAQLGLRIQHGLRAFTAREQKSLRAVAEGFRPNPAFDALSVLTELGIGEALVGTLEEKGTPAMVERVAIAPPQSRIGPLSEVERAAVIRQSPLGGRYDKPVDRESAYEMLTARAAKASEAPAAPASKPSAGTGASGGFGEMAGDLIGSLAGQVMKTALRQAANQLGRQLARGLMGSLLGGKRR				NA	NA	NA	NA	NA
BMS010_02647	1890	pctA_2	COG0840	Methyl-accepting chemotaxis protein PctA	ATGACCAATACCCTGAAGTTCAGCCACAAGATCCTACTCGCCGCCTCCCTGGTGGTCATCGCTGCCTTCACACTGTTCACGCTGTACAACGATTACCTCCAGCGCAACGCCATCCGCGAGGACCTCGAGGGCTACCTCCACGAGATGGGCGAAGTGACCGCCAGCAACATTCAGAACTGGCTGTCCGGGCGCATCCTCTTGGTGGAAAGCACCGCCGAGACGATCGCCAGCGACAGCGAGCCGGGCAAGGTCGTCAGCCTGCTGGAGCGCAAGTCGCTGACTTCCACCTTCAATTACACCTACCTCGGCACCGAAGACGGCAGCTTCACCATGCGTCCGGACGACCAGATGCCGGAAGGCTACGACCCGCGTACCCGCCCCTGGTACAAGGATGCGGTGGCCGCCGGCGGTTCGACCCTCACCGAGCCCTACGTGGACGCCGCTTCCGGCAAGCTGATCATCACCATCGCCACGCCGGCACGGCAGGGCAGCAGCTCGGTCGGCGTGGTCGGCGGCGACCTCAGCCTGGAAACCCTGGTGAAGATCATCAACTCCCTGGATTTCGACGGCATCGGCTATGCCTTCCTGGTCAGCGCCGACGGCAAGGTCCTGGTCCACCCGGACAAGGCCATGGTGATGAAGACGCTGCGCGATGTATTCCCGCAGAACACGCCGCGCATCAGCACCGACTTCAGCGAAGTCGAGCTGAACGGCGAGACGCGTATCCTCACCTTCACCCCGATCGAAGGCCTGCCGTCGGTGCGCTGGTACATCGGCCTGTCCGTGGACAAGGCCAAGGCCTACTCCATGCTCAGCGAATTCCGCGCCTCGGCGATCGTCGCCACGGTGATCGCGGTGATCATCATCATCGCTCTGCTCGGCATGCTGATCCGCGTGCTGATGCAGCCGCTGCACGCCATGGGCCGCGCCATGCAGGACATCGCCCAGGGCGAGGGCGACCTGACCAAGCGCCTGTCCATCCAGTCGCAGGATGAGTTCGGCGAGCTGGCCACCGCATTCAACCGCTTCGTCGAACGTATCCACGCGTCCATTCGCGAAGTCGCGGCCGCCACCGGCCAACTCAACCAGGTAGCCAAGCTGGTGGTGAACGCCTCCAACTCGTCGATGGCCAACTCCGATGAGCAGGCCAACCGCACCAACAGCGTCGCCGCGGCGATCAACGAGCTGGGCGCCGCCGCCCAGGAGATCGCGCGCAATGCCGCGGACGCCTCGCACCAGGCGTCCGACGCCCGCCACCAGGCCGAAGACGGCCGTCAGGTGGTGGAAAAGACCATCAAGGCGATGAACGAGCTGTCGGCCAAGATCAGTGCGTCCTGCGCCAACATCGAGGCGCTGAACAGCAAGACCGTGAACATCGGCCAGATCCTCGAAGTCATCAAGGGCATCTCCGAGCAGACCAACCTGCTGGCGCTCAACGCGGCCATCGAGGCGGCGCGTGCCGGGGAGGCCGGCCGTGGCTTCGCGGTGGTCGCCGACGAAGTACGCAACCTGGCGCACCGCACCCAGGAATCGGCCCAGGAAATCCAGAAGATGATCGAGGAGCTGCAGGTCGGCGCCCGCGAATCGGTTTCCACCATGACCGAGAGCCAGCACTACAGCGAAGAGAGCGTGCAGATCGCCAACCAGGCCGGCGAGCGCCTGGGCAGCGTGACCCAGCGTATCGGCGAGATCGACGGCATGAACCAGTCGGTGGCCACCGCCACCGAAGAGCAGACCGCGGTGATCGACTCGCTGAACATGGACATCACCGAGATCAACACGCTGAACCAGGAAGGCGTGGAAAACCTCCAGGCCACCCTGCGTGCCTGTGGCGATCTGGAACAGCAGGCCACCCGCCTGAAGCATCTGGTGGACAGCTTCCGTATCTGA	MTNTLKFSHKILLAASLVVIAAFTLFTLYNDYLQRNAIREDLEGYLHEMGEVTASNIQNWLSGRILLVESTAETIASDSEPGKVVSLLERKSLTSTFNYTYLGTEDGSFTMRPDDQMPEGYDPRTRPWYKDAVAAGGSTLTEPYVDAASGKLIITIATPARQGSSSVGVVGGDLSLETLVKIINSLDFDGIGYAFLVSADGKVLVHPDKAMVMKTLRDVFPQNTPRISTDFSEVELNGETRILTFTPIEGLPSVRWYIGLSVDKAKAYSMLSEFRASAIVATVIAVIIIIALLGMLIRVLMQPLHAMGRAMQDIAQGEGDLTKRLSIQSQDEFGELATAFNRFVERIHASIREVAAATGQLNQVAKLVVNASNSSMANSDEQANRTNSVAAAINELGAAAQEIARNAADASHQASDARHQAEDGRQVVEKTIKAMNELSAKISASCANIEALNSKTVNIGQILEVIKGISEQTNLLALNAAIEAARAGEAGRGFAVVADEVRNLAHRTQESAQEIQKMIEELQVGARESVSTMTESQHYSEESVQIANQAGERLGSVTQRIGEIDGMNQSVATATEEQTAVIDSLNMDITEINTLNQEGVENLQATLRACGDLEQQATRLKHLVDSFRI	PGPT0015710_11758	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_02648	1116	pimC		GDP-mannose-dependent alpha-(1-6)-phosphatidylinositol dimannoside mannosyltransferase	GTGCACATCGCTGATATGACCATGTTCTACGCCCCGGCCAGCGGAGGGGTGCGCACTTATCTGGATGCCAAACACCGCCGCCTGTGGCGCTATCCGAATGTCCGCCACAGTGTGCTGATTCCCGGCGCACGGTACTGCCAGCATGGCGGTATCCATGAAGTGCCTGCCCCGGCCCTGCCCTTCGGCCACGGCTATCGTTTTCCGATCCGTCGCGGCCCCTGGCGCAAGGTATTGCGTACCCTGCGGCCGGATCTCATCGAGGTGGGCGACCCCTACCTTACCGCCTGGGCCGCCCTGGACGCACGCCGGCACCTGGACGTCCCGGTGATCGGCTTCTACCACTCGGACCTGCCGCTTCTGGTAAGCAACCGCATGGGCGTCTGGTTCGGCAACAATGTGGACGCCTATGTCGGCAAGCTGTACGGCCATTTCGACCGGGTGCTCGCGCCCAGCCGGGTCATGGCGGAGAAACTGCTTCGCCTCGGCGTCCGCGATGTCCATGTCCAACCCCTTGGCGTGGATTTGGAGACCTTCCAGCCGAGCCGCCGTGACCCGCAACTGAAGCGCGAACTGGGCCTTGCGGACGACAGCCGCCTGCTGATCTTCGCCGGCCGCGGTTCGCGGGAAAAGAACCTGCCGGTGTTGCTCGATTGCGCCCGCCGCCTGGGCGAGCCGTACCACCTGCTGCTGGTCGGCTCGCACATGCCGACGCGCGTACCGCGCAACGTCTCGGTGATCGACCACTTCTGCAACGCCGACGAAGTCTCGCGGCTGATGGCGAGCAGCGATGCCCTGCTCCATGCCGGCGACCAGGAAACTTTCGGCCTGGTGGTCCTCGAGGCCATGGCCAGCGGCATCCCAGTGGTCGCGGTACGCGCCGGGGCGCTGGCGGAGATCGTCCCGGAAAGCTGTGGCGAGCTGTGCAAGCCCAACGACGGTGCTGCGATGGCCAACGCCGTGCGGGCGCTGTTCGAACGAGACGTGGCACAACTCGGCTGCCAGGCCCGCCAGCATGTCGAACGCCAGCACGGCTGGGATACCGTGGTGCATGGCCTGCTCGGGCATTACCAGGCTGTGCTCGGCGTTACTCCCGAGCGGATCGCCCGCCATGCCTGA	MHIADMTMFYAPASGGVRTYLDAKHRRLWRYPNVRHSVLIPGARYCQHGGIHEVPAPALPFGHGYRFPIRRGPWRKVLRTLRPDLIEVGDPYLTAWAALDARRHLDVPVIGFYHSDLPLLVSNRMGVWFGNNVDAYVGKLYGHFDRVLAPSRVMAEKLLRLGVRDVHVQPLGVDLETFQPSRRDPQLKRELGLADDSRLLIFAGRGSREKNLPVLLDCARRLGEPYHLLLVGSHMPTRVPRNVSVIDHFCNADEVSRLMASSDALLHAGDQETFGLVVLEAMASGIPVVAVRAGALAEIVPESCGELCKPNDGAAMANAVRALFERDVAQLGCQARQHVERQHGWDTVVHGLLGHYQAVLGVTPERIARHA	PGPT0024305_334	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PHOSPHATIDYLINOSITOL_MANNOSIDE_REMODELLING	CE-REMODELLINGPHOSPHATIDYLINOSITOL_MANNOSIDE_BIOSYNTHESIS,PGPT0024305-pimC-K14335	NA	NA
BMS010_02649	756			hypothetical protein	ATGCCTGAACGCAGCCTGCAACTGGTCCTGCACGATGTCGCACCGGAAACCTGGCCGGATTACCGCGGCTTCGTCGAGGCGGTGGACCGACTGGGCCAAGTCCCCATCACGTGGCTGGTGGTGCCGAATTTCCATCGGCGCAATCCGCTGGAGCGGGACGACGGCTTTCGCCGCTTGCTGGACGAACGCCTGGCACGCGGAGACGAACTGGTGCTGCACGGCTATTTCCACTGCGACGACGGGCCACCTCCGCGCACGCCGCGGCAATACGTCATGCGCCGCCTGTACACCTGGGAGGGCGAGTTCTATGCGCTGGACCACACCCAGGCCCGTGCCCGCCTGGAAGCCGGCGTCGAGCTGTTCCAGCGCTTCGACTGGCCGTTGCGAGGCTTCGTTGCGCCGGCCTGGCTGATGAGCCAGGGCACCCGCCAGGCACTCCGTGAGCTGGGTTTCAGCTACACCAGCACGCCCAACCACCTCTACCGGTTGCCGGACTTCACCCCGATCGAAGCCCCCGGCCTGGTCTGGAGTGCCCGTAGCGCTTGGCGGCGCCGGTTATCCTGGGCGGTCAACCGGAGCCGCGAACAGGTGTTGCAACAGGCCGAAACACTGCGCCTCGGCCTGCATCCGGTGGACATGCGCCATGGGTTGTCGCGGCAGTATTGGCTGGATGCCCTCGAGCGCCTGCTGGAGAGCGGGCGCGAACCGCTGACCAAGTCGGTCTGGCTGGCACGACGCTGGTTGGCGACCCCATGA	MPERSLQLVLHDVAPETWPDYRGFVEAVDRLGQVPITWLVVPNFHRRNPLERDDGFRRLLDERLARGDELVLHGYFHCDDGPPPRTPRQYVMRRLYTWEGEFYALDHTQARARLEAGVELFQRFDWPLRGFVAPAWLMSQGTRQALRELGFSYTSTPNHLYRLPDFTPIEAPGLVWSARSAWRRRLSWAVNRSREQVLQQAETLRLGLHPVDMRHGLSRQYWLDALERLLESGREPLTKSVWLARRWLATP				NA	NA	NA	NA	NA
BMS010_02650	996			hypothetical protein	ATGAAGCGCCTGCTCTGGCTGCTGCCCTGCCTGCTGATCGCCCTGCTGATTCCGTTTCTGCTGGGGGGCAGCGACATGTGGCAGCGGCTGGCCAGCTTTCCCTCGCAACTGCTGCTGGCCATGCTCGGGATGATCCTGCTCTGCTGGCTGCTCAACGCCATGCGCCTGCGCCTGCTGCTGGCCGAACGCGCCCGGCAACTGGGCCGGATAAAGAGCATCGGCGTGGTCATGGCCACCGAATTCGCCATCTGCGCCACGCCCGGCGGAACCGGCGGACCTCTGACCCTGATGGCGCTGCTGGCGCGCAACGGCATCCGCCCGGCACGCAGCAGCGCGCTGTTCGCCATCGACCAGTTGAACGACCTGCTGTTTTTCTTCTGCGCCTTCGCCGGCATCCTGCTGTATGGCCTGTTCCACCGGCTGACACCCAATCTGGAGAACATGCTCGGCCTCAGCGCCGTACTGTTGCTGGCTGGCTTCGCCGCGATCATCGCTTTGGCTCGCTATCACCGTGCCCTGATCCGCGGGAGCGGACACCTGCTGGCACGCTTGAAAGTACGCCGGGCGCGGCGCATTCATCTGGCGCGCAAGCTGCTGCATTTCCGCGATGCCTTGCGCGACAGCCTCAACCTGCCGCGCCGACGGCTGGCGCTGATCTTCCTGCTCACCTCCGCGCATTGGGGGCTGCGCTTCAGCGTGCTGTACCTGGCGCTCTACGGGCTGGGCGCCGATATCCAATGGGCCTGGACCTTCCTGATCCAGATGCTCGCACTCAGCGCCGGCCAGCTGAGCCTGCTGCCCGGCGGCGTGGGTGGGACGGAGCTGACCTCGGCCGCCCTGCTCGCCCCGCTGGTGGGCAAGTCCACCGCCGCCGCGGCGATCCTGATCTGGCGGGCGATCACCTACTACTTTTATCTGCTGGCCGGCGGGCCGGCGTTCCTGCTGCTCGCCGGACGTCCCTTCCTGCGCCGCCTGATGCGTTTACGCGGCGGTTGA	MKRLLWLLPCLLIALLIPFLLGGSDMWQRLASFPSQLLLAMLGMILLCWLLNAMRLRLLLAERARQLGRIKSIGVVMATEFAICATPGGTGGPLTLMALLARNGIRPARSSALFAIDQLNDLLFFFCAFAGILLYGLFHRLTPNLENMLGLSAVLLLAGFAAIIALARYHRALIRGSGHLLARLKVRRARRIHLARKLLHFRDALRDSLNLPRRRLALIFLLTSAHWGLRFSVLYLALYGLGADIQWAWTFLIQMLALSAGQLSLLPGGVGGTELTSAALLAPLVGKSTAAAAILIWRAITYYFYLLAGGPAFLLLAGRPFLRRLMRLRGG				NA	NA	NA	NA	NA
BMS010_02651	210			hypothetical protein	ATGAAGGATCCATTGGATCGCGCCACTTCGCGCCCACCGCCAACCTTGGGCGAAGGCTGTGTCCGCCGCTACGACCCGGAAGCGCTACGCGACGAGGACGGCACCGAATTCCCCGGTGCCGAGGCGCTGTGGCGCTCCCTCCATCCTGACGAACCGCCTGCCGAGCCAGACGGGAAAACGGACGGCGATCCGCCTTCAACCGCCGCGTAA	MKDPLDRATSRPPPTLGEGCVRRYDPEALRDEDGTEFPGAEALWRSLHPDEPPAEPDGKTDGDPPSTAA				NA	NA	NA	NA	NA
BMS010_02652	432			A-adding tRNA nucleotidyltransferase	ATGCTCAAGTCAATCAAGGTCCGGGACTACATGACCCGTCACTTGGTGACCTTCCGTTCCGATACGGATTTGTTCACCGCCATCAATCGTCTGCTGGAGCACCGCATTTCCGGCGCGCCGGTGGTCGACTCACAGGGGCACCTGATCGGCCTGTTGTCGGAGGGCGACTGCCTGCGCGGCATCCTCTCCGGCGCCTACTACGAGTCCGTGGGCGGGACGGTCACGGTCAGCGGCTATATGACCACCGAGGTGGAGACCATCTCCCCCGAGGCGGACATCATCGAAGTGTCCGAGCGCTTCCTGCGCGGTCGTCGGCGCCGCTTCCCGGTGGTGGAGGACGGCCGGCTGGTCGGGCAGATCAGCCGGCACGACGTGCTCCGCGCGGTGAAGGAGTTCGCCCAGCATGACCAGGGCGAACAGATCGCCAGCTGA	MLKSIKVRDYMTRHLVTFRSDTDLFTAINRLLEHRISGAPVVDSQGHLIGLLSEGDCLRGILSGAYYESVGGTVTVSGYMTTEVETISPEADIIEVSERFLRGRRRRFPVVEDGRLVGQISRHDVLRAVKEFAQHDQGEQIAS				NA	NA	NA	NA	NA
BMS010_02653	852	purU_2	COG0788	Formyltetrahydrofolate deformylase	ATGCGCACTTTTCGGCTGGTCATCGCCTGTCCGGACGGCGTCGGTATCGTCGCCAAGGTCAGTAACTTCCTGGCCACCTATAACGGCTGGATCACCGAGGCCAGTCATCACTCGGACAACCAGAGCGGGTGGTTCTTCATGCGCCACGAAATCCGCGCAGACTCCCTGCCTTTCGATCTCGATGGTTTCCGCCAGGCGTTCTCGCCCATTGCCCGGGAGTTTTCCATGGAATGGCGGATCACCGATTCGGCGGTGAAAAAGCGCGTGGTGCTGATGGCCAGCCGCGAATCCCATTGCCTGGCCGATCTGCTGCACCGCTGGCACAGCGGCGAGCTGGATTGCGAGATTCCCTGCGTCATTGCCAACCATGACGACCTGCGCAGCATGGTGGAGTGGCATGGCATTCCCTATCACCATATCCCGGTGGTGCCGCACGACAAGGAGACGGCGTTCGCCGAGGTGTCGCGGCTGGTCGGCGAATATCGCGCGGATGCGGTGGTGCTGGCCCGCTATATGCAAATCCTGCCGCCGCAACTGTGCCGTGAGTTCGCCCACCGGGTGATCAACATCCACCACAGCTTCCTGCCGTCCTTCGTCGGCGCAAAACCCTATCACCAAGCCTCCCTGCGGGGTGTGAAACTGATCGGCGCCACCTGCCACTACGTTACCGAGGAGCTGGACGCCGGCCCGATCATCGAGCAGGACGTGGTGCGCGTGACCCACCGCGACAGCGTCGAGGACATGGTTCGCCTCGGCAAGGATGTGGAGAAGATGGTGCTCTCCCGTGGGCTACGCTATCACTTGGAAGACCGGGTTCTGGTGCACGACAACAAGACGGTGGTTTTCGACTGA	MRTFRLVIACPDGVGIVAKVSNFLATYNGWITEASHHSDNQSGWFFMRHEIRADSLPFDLDGFRQAFSPIAREFSMEWRITDSAVKKRVVLMASRESHCLADLLHRWHSGELDCEIPCVIANHDDLRSMVEWHGIPYHHIPVVPHDKETAFAEVSRLVGEYRADAVVLARYMQILPPQLCREFAHRVINIHHSFLPSFVGAKPYHQASLRGVKLIGATCHYVTEELDAGPIIEQDVVRVTHRDSVEDMVRLGKDVEKMVLSRGLRYHLEDRVLVHDNKTVVFD	PGPT0008155_2750	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008155-purU-K01433	NA	NA
BMS010_02654	381			hypothetical protein	ATGTCGCTGATCAATGAATACCGCGCAACAGAAGAAGCCATCAAGGAACTCCAAGAGCGCCTGAAAAGCCTGTCGCAAGACGACAAACTGAAAAAGGAACTGGAGTTCGAAAGCAAACTCCGCGACCTGATGGGCGAGTATCAGAAATCCCTGCGCGATATCATCGCCCTGCTCGACCCAGATGCCAAACTGAGCAAAGCGCCGCGCGCCGGCAAAGCAGCGCCCACCGGCGGCAAGCGCGCCCGCAAGGTCAAGCAATACAAGAACCCGCACACCGGTGAAGTCATCGAAACCAAAGGCGGCAACCACAAGACCCTGAAAGAGTGGAAAGCCAAGTGGGGCGCCGATGAAGTGGAAAGCTGGGCCACCCTGCTCGGCTGA	MSLINEYRATEEAIKELQERLKSLSQDDKLKKELEFESKLRDLMGEYQKSLRDIIALLDPDAKLSKAPRAGKAAPTGGKRARKVKQYKNPHTGEVIETKGGNHKTLKEWKAKWGADEVESWATLLG				NA	NA	NA	NA	NA
BMS010_02655	1467	sbcB	COG2925	Exodeoxyribonuclease I	GTGACTTCCAGCATCTTCTGGTACGACTACGAAACCACTGGCATCGACCCGCGTCGCGATCGTCCGTTGCAGGTTGCGGGTATTCGTACCGACGAAGCGCTCAATGAAATCGGCGAACCGCTCAACCTTTACTGCCGTCTGAGTGACGACATCCTGCCGCATCCGGCGGCTTGCCTGGTGACTGGGATCACCCCCGCCCGGCTGGCGGACAAGGGGCTCTGCGAGGCCGAGTTCATGGCCCGCATACATGCCGAGCTGGCCACCCCCGGGACCTGCGGTGCCGGCTATAACACCCTGCGCTTCGACGACGAAGTCACCCGCTACAGTCTCTATCGCAATTTTTTCGACCCCTATGGGCGCGAATGGCAAAGCGGTAACAGCCGCTGGGACCTCATCGATCTGGTGCGGACGGCCTATGCCCTGCGTCCGGAAGGTATCGCCTGGCCTGAAGAAGACGGGCGGGTGACGCTCAAACTGGAGCGTCTGACCGCAGCCAACGGCATCGAGCATGGGCAGGCCCACGATGCGCTTTCCGATGTCCGCGCGACCATCGCACTGGCGCGGCTGCTGCGAGAGCGGCAACCGAAGCTGTATGACTATCTCTATCGGCTGCGCAGCAAACACCAAGTACTTGAGCAGGTTCGCCTGCTGCAACCGCTGGTGCATATATCCGGACGTTTTTCCATGAGCCGCCATTGTCTGGCAGTGGTGCTACCGCTGGCCTGGCATCCACGCAATCGCAATGCGCTGATCGTCTGCGACCTCCAGGCCGATCCGCAGCCGTTGCTGGAACTGGATGCGGAGAGCCTGCGCCAGCGGCTCTACACCCGTCGCGAAGAGTTGGCCGATGGCGAACTTCCGATACCGCTGAAGTTATTGCATGTGAATCGCTGCCCGGTCGTTGCCCCGTTGAATGTATTGCGCGAGCAAGACAAGGAACGATTGCAACTGGACATGGAGTTATGTTCGTCCCGTGCCGAAATGCTGAAGGAAAAGCAGGCGGTCTGGCGCGACAAGTTGTTATCGCTGTATGGCACGGAAGATTTCGCTCCCTGCGAGGACCCGGAACAGCAGTTATATTCGGGGTTTCTTGCCGACCGCGATCGGCGACTCTGCGAACAAGTGCGTTGTGCCGATCCGCAAAGACTGGCCAGGGAAGGGTGGCCATTCGACGATAGCCGCCTGCCCGAGTTGCTGTTCCGTTACCGTGCACGCAACTTTCCTGAAACTTTGTCGGCGGATGAGCAAGTGCGCTGGCGGAATTTCTGCTGGCAGCGTCTGAACCACCCCGAATTCGGAGCACCCAATACCCTGGAGAATTTCGAGACGGCATTGCAGCAGTGCTGGGATAACTGCGCTCCGACGCAGCAGCAGGTGCTGGCGGAGTGGCGTGAATATGTCCGAAAACTACGCGAGCGTTATGTCGCCGTCGGTTTGGACGACCCGCTAGGTATGTCGGTCGGATAA	MTSSIFWYDYETTGIDPRRDRPLQVAGIRTDEALNEIGEPLNLYCRLSDDILPHPAACLVTGITPARLADKGLCEAEFMARIHAELATPGTCGAGYNTLRFDDEVTRYSLYRNFFDPYGREWQSGNSRWDLIDLVRTAYALRPEGIAWPEEDGRVTLKLERLTAANGIEHGQAHDALSDVRATIALARLLRERQPKLYDYLYRLRSKHQVLEQVRLLQPLVHISGRFSMSRHCLAVVLPLAWHPRNRNALIVCDLQADPQPLLELDAESLRQRLYTRREELADGELPIPLKLLHVNRCPVVAPLNVLREQDKERLQLDMELCSSRAEMLKEKQAVWRDKLLSLYGTEDFAPCEDPEQQLYSGFLADRDRRLCEQVRCADPQRLAREGWPFDDSRLPELLFRYRARNFPETLSADEQVRWRNFCWQRLNHPEFGAPNTLENFETALQQCWDNCAPTQQQVLAEWREYVRKLRERYVAVGLDDPLGMSVG				NA	NA	NA	NA	NA
BMS010_02656	762			hypothetical protein	ATGAGCGACACTCTCGCACAAAATCCCTACGCATCTCCCTCCAGCAACCTGCAGGAAATCCCGGCCAACGGGCAGGTCCCCACCGTCGAAGAAGCCCTGCGCCGCGGCTACGACTTCAGCATCGGCGACCTGCTGAGCGAAGCCTGGCAACGCACCAAAGGCACCAAGGGCATCATTCTCGGCGGTTTCATCATTTTCTACGTCGTGATGTTCGTGGCTATGACCGTCGTCGGCTTCGTCTTCGGCCTCGTGGGCATGATGAACCCAGACAGCCTGGGCGCCATGATCGTTGGGCAACTGATAGTGACCATCATTGCCACTGCCGCAACCTATCCGTTCCTGGCGGGTATCAACATGGTCGGCATTCGCCGTGCCGCCGACCAGCCGGTGACGTTCAACGAGATCTTCAGCCACTTCGGCCGTACCGTCCCGCTGATCGTCGCAGGTCTCCTCATGTTGCTGCTCATCTATGTCGGCATGTTCCTGCTGATCATTCCGGGCATCTACCTGAGCGTTGCCTACATGCTCGCCCTGCCGCTGGTGGTGGAGCGCGGCCTGTCACCCTGGCAGGCGCTGGAAGCCTCCCGCAAGGCGATCAGCCAGCATTGGTTCAAATGTTTCGGCCTGTTCCTGCTTCTCGGCCTGATCCTCAGCCTGAGCGCCATCCCACTGGGTATCGGCCTGATCTGGACCATTCCGCTTTTCGTAGTGAGCATCGGGGTCCTGTATCGCACCATCTTCGGTGTGCTGCCGGTCAAATAA	MSDTLAQNPYASPSSNLQEIPANGQVPTVEEALRRGYDFSIGDLLSEAWQRTKGTKGIILGGFIIFYVVMFVAMTVVGFVFGLVGMMNPDSLGAMIVGQLIVTIIATAATYPFLAGINMVGIRRAADQPVTFNEIFSHFGRTVPLIVAGLLMLLLIYVGMFLLIIPGIYLSVAYMLALPLVVERGLSPWQALEASRKAISQHWFKCFGLFLLLGLILSLSAIPLGIGLIWTIPLFVVSIGVLYRTIFGVLPVK				NA	NA	NA	NA	NA
BMS010_02657	729			hypothetical protein	ATGCCCCTTACCCCCTCCGTCGCCAGCTCAACACCAGCGCGAGACGAACCCCTGGATACCCGTTTCCATGTGGAAACCCCGGAAGGCATCGATCTGGTCCTGCGTCCCGCCAGCCTGGTTCCACGCGCCCTCGCCTTCACCATCGACCTGGGCATCCGCGGCGTCATCCTGCTGGTCATGTTCGTGGTGCTCGGCCTGTTCGGCCAACTCGGCATGGGCCTCGGGACCATCCTGCTATTCCTGGTCACCTGGTGGTACATGGTGCTGTTCGAAGTGCTCAACCAGGGACGCTCACCGGGCAAACAGTTGCTCGGCCTGCGCGTGGTGCACGACGACGGGACGCCGGTCGGTTGGGCGGCTTCGCTGACACGCAATCTGCTGCGCTTCGTGGACATTCTGCCGTTCGGTTACACCCTGGGCATCCTCAGTTGCCTGAATCACCCTGCCTTCAAACGTCTCGGCGACATGGCTGCCGGCACCCTGGTGGTCTACCGGGAAGAAATGCCGGCCCGCCCGCAATTGCCGGAAGCTTCGCCGCTGCGTGCGCCCTTCCCGCTCAGCCTGGCCGAGCAACGTGCAATGCTCGGTTTTGCCGAGCGCCAGGCCGGTCTCTCCGCCGCTCGCCGCACGGAGCTGGCCAGCCTCCTGGCCGAGCCGTTGGATGTGCCCGCCGAGCAGGCAGAAGCGCAGATCAACGGTATCGCCCGCGGTCTGCTGGGGCCGGTATGA	MPLTPSVASSTPARDEPLDTRFHVETPEGIDLVLRPASLVPRALAFTIDLGIRGVILLVMFVVLGLFGQLGMGLGTILLFLVTWWYMVLFEVLNQGRSPGKQLLGLRVVHDDGTPVGWAASLTRNLLRFVDILPFGYTLGILSCLNHPAFKRLGDMAAGTLVVYREEMPARPQLPEASPLRAPFPLSLAEQRAMLGFAERQAGLSAARRTELASLLAEPLDVPAEQAEAQINGIARGLLGPV				NA	NA	NA	NA	NA
BMS010_02658	978			hypothetical protein	ATGAAACAGAGCCTGTTCGAAAAAAGGTACGAAGCCGACTGGCAGCGCTTTGCCAGCCTTTTGGAAGCGCTCGAACGCGGCAAGGCCGACGGCCAGACGAGCCTTGGCTTTTCCGCCGAGTACCGACGTATCTGCCAGCACCTCGCCCTGGCCCAGGCAAGGGGCTACAGCAGCCACCTCATCGATCACTTGCAGCAGATGGCCATGCGTGGTCACCAGCAGTTCTACCGGCACCGCAGCCATCTCGGTGCCAGCATCCTCAGCTTCCTGCTCGGTGGATTTCCACGCCTCGTCAGGGCCGAATGGCGCAGCGTGACCATCGCCAGCCTGTTGTTCTTCGGCAGCCTGATCGCCATGGGCGTGCTGGTCTATCTGTTCCCGGACCTGATCTACAGCCTGGTGGACCCGGCCCAGGTCAGCGAAATGGAATCCATGTACGACCCCGATGCCCGCCGGCTCGGCCGCTTCGGCGAACGGGACTCCGGAGACGACTGGATGATGTTCGGCTTCTACATCATGAACAACATCGGCATCGCCTTTCAGACGTTCGCCAGCGGCCTTCTGTTCTGCCTCGGCAGCGTCTTCTTCCTGCTGTTCAACGGGCTGACCATCGGTGCGGTAGCCGGACGGCTGAGCGAAATCGGCTATGGCGAGACATTCTGGTCGTTCGTCATCGGTCATGGCGCCTTCGAGCTGACCGCCATCGCCCTGGCCGGGGCCGCCGGCCTCAAGCTCGGCTGGGCGCTGCTGGCTCCGGGGCGCCTGCCACGCGGGGAAGCCTTGCGCCTTGCCGCCGGCAAGAGCATCCAACTGGTCGCCGGCGTGATCCTGCTGCTGCTCATCGCCGCCTTCATCGAAGCCTATTGGTCATCGATGACCTACACCACACCCTTGATCAAGTACCTGGTCGGTACCGGGCTGTGGCTGCTGGTCCTCGGTTATTTCCTCTTTGCCGGACGCCAGCATGCGCCTGACTGA	MKQSLFEKRYEADWQRFASLLEALERGKADGQTSLGFSAEYRRICQHLALAQARGYSSHLIDHLQQMAMRGHQQFYRHRSHLGASILSFLLGGFPRLVRAEWRSVTIASLLFFGSLIAMGVLVYLFPDLIYSLVDPAQVSEMESMYDPDARRLGRFGERDSGDDWMMFGFYIMNNIGIAFQTFASGLLFCLGSVFFLLFNGLTIGAVAGRLSEIGYGETFWSFVIGHGAFELTAIALAGAAGLKLGWALLAPGRLPRGEALRLAAGKSIQLVAGVILLLLIAAFIEAYWSSMTYTTPLIKYLVGTGLWLLVLGYFLFAGRQHAPD				NA	NA	NA	NA	NA
BMS010_02659	1581			hypothetical protein	ATGCGCCTGACTGATGCCAGCGTCGCCATTCGCCCCCGTAGTGCCTGGGAAGCGCTGGACCTCGGCGTTCTGCTGGCGCGCCGGCATGCCGGCCTGCTCATGGTCAGCTGGGCACTGTTCACCCTGCCGATATTCCTCCTGCTCAGCCTCGCACTGTGGCGATATCCCGGTTGGGCGATCTTCCTCTTCTGGCTGTTCAAGCCCGCCTACGAACGGCTGCCGCTGCACATTCTTTCCCGCGCATTGTTCGGCGACACGCCTACGCTCAAGGAAGCGCTGAAGGCCCTGCCGCGCCTGTTGAAACCGCAACTGCTGGCCAGCGTCACCTGGCGCCGTTTCAGCCCGACCCGCAGCTTCGACCTGCCGGTGCTCCAACTCGAAGGATTGTCCGGCCAGGCACGCAGCCAGCGCCTGGTGGTGCTCGGCCAGCGCGACGCCGGCGCCGCGAGCTGGCTGACCGTCGTCGGCATGCACCTGGAAGGTGCCCTCTGTTTCGGCCTCATCGCCCTGCTCTACATGCTGCTACCCCAGCAGTTGGTCGTGGACATGGACTGGCAGAAACTGGTCGAGGCCGCCTCCGGCGACTGGCTCTGGCTGGACCACCTGTCCAACCTGATCTACGCCCTGGTGCTGATCGCCTGGGAACCGGTCTATGTCGCCTGCGGCTTCACCCTCTACCTGAACCGCCGCACCGCGCTGGAAGCCTGGGACATCGAGCTGGTATTCCGCCGCTTGCGCCAGCGCTTGACGGGCATCGCCTACGCTGTGCTGCTGGCCTTCGGCGTTCTGCTCGTCCAGCCCTCCGAGCGCGCCTGGGCGGCACCCGACCAGGCACCGTCAACCGAGGAGAAGGACCCGCAGGGGCCGGAAGCGGATCGCCTGCTTCTCCAGCCGTTGACCAGCAAGGCCGCCCAGGAAAGCATCCATGCCCTGCTCGACCAGCCGCCCTTCGAAAACCGCGAAACCGTTACCCGCTGGCGTTTCGGCGAAGAAAAGAAACCCGAGAAGCTGACCAAGCAGGACGTCGAGGGCTTCGCGAAGCTACTCAAAGGGCTCCTCAACCTGGCCGAATTCTGGAAGAGCCTCGACACCGTGGCGCTAGTTTTCGAGGTCCTGCTCTGGACAGCCGTCATCAGCCTGCTCGCCTGGATAGTCTGGCGTTATCGCGATTGGCTGGCGGCCTTTGCCGGGCGTGTCGGCCTGCCCGTACGCCTCGAACGGCAGATACCGAACCAGTTGTTCGGCCTGGAAATCGCCCCCGAGAGCCTGCCGGACGACGTCGCCCGCGAAGCCGAACGGCTCTGGGCCGAACAACCGCGAGCGGCCCTGGGCCTGTTGTACCGCGCACTGCTCAGCCAACTGCTGCACGTCTATCGCCTGCCACTCAAGGCTTCCCATACCGAAAGCGAAGTGCTCAGGCTCGTGGGGCAGCTGGAACAGTCCGAGCTGGAGTCATACAGCCAACTCCTGACCGCGCAATGGTTGAATCTCGCCTATGGCCATCGATTGCCCGAGCAGACCCTGTGCGAAAGACTCTGCGGCGGCTGGCGCCAGTTGTTCGGCCAGGAGGTCAAGGCATGA	MRLTDASVAIRPRSAWEALDLGVLLARRHAGLLMVSWALFTLPIFLLLSLALWRYPGWAIFLFWLFKPAYERLPLHILSRALFGDTPTLKEALKALPRLLKPQLLASVTWRRFSPTRSFDLPVLQLEGLSGQARSQRLVVLGQRDAGAASWLTVVGMHLEGALCFGLIALLYMLLPQQLVVDMDWQKLVEAASGDWLWLDHLSNLIYALVLIAWEPVYVACGFTLYLNRRTALEAWDIELVFRRLRQRLTGIAYAVLLAFGVLLVQPSERAWAAPDQAPSTEEKDPQGPEADRLLLQPLTSKAAQESIHALLDQPPFENRETVTRWRFGEEKKPEKLTKQDVEGFAKLLKGLLNLAEFWKSLDTVALVFEVLLWTAVISLLAWIVWRYRDWLAAFAGRVGLPVRLERQIPNQLFGLEIAPESLPDDVAREAERLWAEQPRAALGLLYRALLSQLLHVYRLPLKASHTESEVLRLVGQLEQSELESYSQLLTAQWLNLAYGHRLPEQTLCERLCGGWRQLFGQEVKA				NA	NA	NA	NA	NA
BMS010_02660	1221			hypothetical protein	ATGAGCCGGCGCGGGACCTTCATCCTCGGCACAATTCTGTTGTTCCTGCTGGGCTTGCTGGCCATCTACCTGCTTGGCAAGGCCGAGCCCTACGAGGAAACCATCAAGCACGGGCCGTCGCCCGAGGTGAAAGCCAACCCCTATCTCGCGGCCGAGCACTTTCTTCGCCGTCAGGGCATCACAGTGAACCGCGCCGACGGCCTGGAGGGGCTCGCAACCCTGCCCAGCCAGGGTCAGACCCTGCTGTTCCTCGGCGATCGCGAAAACATGACGCCCCGCCAGGCCGAACGCCTGCTGCAATGGACGGCCAAGGGCGGTCATCTGCTATTCGTCGCCGAGCGGCTTTATGACGAGGATGACAGCAAGAGCGGCGACCTGCTGCTCGATCAACTGGGTATCCAGCAGTACCTCGCCGAGGACCTCGACGAAGAGGGCGAAGGCAACGAAACGCCGAAGTCTCCGGACGCCGAAGACGAAACGCCCGAGACTGCCGAAGCGCCAGACGAAGAACCCTATCCGGAGCTGACCAAGCTGTATCTGGAAAACGAGGAAGCTCCCGCCTATCTCTCGTTCGATACCGACTACCATCTCTACGACTCGCAGAACCGTGCCCATGCCTGGGCCAACAGCGGCAATGCGACGCACATGTTGCAGCTCTACCATGGGGACGGCCTGATCACGGTCCTGACCGACAGCTGGATCTGGCAGACCCGTGACATCGACAAATACGACAACGCCTGGTTGCTCTGGTACCTGACCCAGGACAGCGACGTCACGCTGATCTACAGTACCGACCGCACCGATCTGTTCAGCCTGCTGCTGCGCCATTTCCCGGAAGCACTGGCGGCACTGGCCCTGCTCATCGGCTTCGGCCTGTGGTCCGCCGGCCTGCGCCAGGGTCCCCTGCTCGCGCCGCTCAGCCGTTCGCGCCGGCAGTTGGAGGAACACTTGCGCGGCAGCGCCGATTTCCTGCTCCGCCGCAACGGCCAGCAAAGCCTGCTGCAAGGCTTGCAGCAGGACATCCTGCGCCGCGCACGACGTCGGCACCCGGGTTTCGAACGGCTCGCCGTGGCCGATCAGTGGCAGGTCCTGGGCCGCCTGACCCGCCTGCCGTCCAGCACCATCAGTCAAGCCATGCGACCGCTGCCGGCCCAACGGTTGAGCGCCGCCGATTTCACCCGCCAGGTCGCCCACCTGCAAAATCTCAGGAATGCCCTATGA	MSRRGTFILGTILLFLLGLLAIYLLGKAEPYEETIKHGPSPEVKANPYLAAEHFLRRQGITVNRADGLEGLATLPSQGQTLLFLGDRENMTPRQAERLLQWTAKGGHLLFVAERLYDEDDSKSGDLLLDQLGIQQYLAEDLDEEGEGNETPKSPDAEDETPETAEAPDEEPYPELTKLYLENEEAPAYLSFDTDYHLYDSQNRAHAWANSGNATHMLQLYHGDGLITVLTDSWIWQTRDIDKYDNAWLLWYLTQDSDVTLIYSTDRTDLFSLLLRHFPEALAALALLIGFGLWSAGLRQGPLLAPLSRSRRQLEEHLRGSADFLLRRNGQQSLLQGLQQDILRRARRRHPGFERLAVADQWQVLGRLTRLPSSTISQAMRPLPAQRLSAADFTRQVAHLQNLRNAL				NA	NA	NA	NA	NA
BMS010_02661	1026			hypothetical protein	ATGAGCGAACAAACGCCCGAACAAGCCAATAGCGCCCCTGCCAGCCCCGCCGCACCCAATGTAGCCTCTCAGCGTCAGCGTGCCAGCCAGTTGGCCCAGGCCCTGCGCCAGGAACTGCAGAAGGCGGTGATCGGCCAGCAGGCGGTGATCGACGATGTGCTGACGGCGCTGATCGCCAGCGGACATGTGCTGGTCGAGGGCGTACCGGGGCTCGGCAAAACGTTGCTGGTACGCGCCCTGGCCCGCTGCTTCGGAGGCGAGTTCGCCCGCATCCAGTTCACTCCTGACCTGATGCCCAGCGATGTCACCGGCCATGCCGTCTACGACCTGCAGAGCGAACAGTTCAAGCTGCGCAAGGGGCCAGTGTTCACCAACCTGCTGCTGGCCGACGAGATCAACCGCGCGCCGGCCAAGACCCAGGCGGCCCTGCTCGAAGTCATGCAGGAACGCCAAGTGACCCTGGAGGGCCGTGCCCTGGCGGTGCCGCAACCATTCCTGGTACTGGCCACGCAGAACCCGATCGAGCAGGAAGGCACCTACCCGCTGCCCGAGGCCGAACTCGATCGCTTCATGCTCAAACTGCGCATGGACTACCCGGAAGCCAGCGAAGAACTCGCCCTGGTTCGTCAGGTCACCCGCTCGGCCAAGGCTGACATGTTGGAAGTGACACCCCTACGTACTTTGTTGCAGGCCAAGGATGTCCTGGCCTTGCAGAAGATCGCCAGCGACCTGCCCCTCGACGAACAGGTGCTGGACTACGCCGTGCGCTTGACCCGGGCGACCCGCAGCTGGCCTGGCCTGGCCATGGGCGCCGGGCCACGGGCCTCCATTGCCCTCGTTCGCGGCGGACGCGCCCGCGCCCTGCTGCGCGGTGGCGAGTTCGTGATCCCGGACGATATCAAGGGCTGCGCCCTGGCCGTGCTGCGCCATCGCGTACGGCTGGCACCGGAGCTGGATATCGAGGGGCTCTCGGTGGATCAGGTCCTGCAGCAGCTTCTCGATCAGGTACCGGCACCGCGTCTATGA	MSEQTPEQANSAPASPAAPNVASQRQRASQLAQALRQELQKAVIGQQAVIDDVLTALIASGHVLVEGVPGLGKTLLVRALARCFGGEFARIQFTPDLMPSDVTGHAVYDLQSEQFKLRKGPVFTNLLLADEINRAPAKTQAALLEVMQERQVTLEGRALAVPQPFLVLATQNPIEQEGTYPLPEAELDRFMLKLRMDYPEASEELALVRQVTRSAKADMLEVTPLRTLLQAKDVLALQKIASDLPLDEQVLDYAVRLTRATRSWPGLAMGAGPRASIALVRGGRARALLRGGEFVIPDDIKGCALAVLRHRVRLAPELDIEGLSVDQVLQQLLDQVPAPRL				NA	NA	NA	NA	NA
BMS010_02662	1332			hypothetical protein	ATGAAGCCATCACGCACATTGCTGGTGCTGCTCGGTGCGCTGCTGGCGCTCGCCATCCTGCTCGGCACGCTGCATGCCCTGGCCATCAAGCTACCGCAGACGCTGGCCCTGATCTGGTGGGGCGCCCTCTGCGCACTGCTGCTGGCGGCCGTCGCCGATGCGCTCTGGCTACGCCGGTTGCCCATTCCCCGGGCTGAACGCCTGCTGCCCGGCAACCTGCCGCTGGGTCGCTGGAGCGAAGTACGGCTGAGCCTGCATCATGATTTTTCACAGCCCACCGTCATCGAAGTGTTCGATCACGTCCCCGACGGCATGGCCCTCGAATACCTGCCGCAGCGCGTCGAGCTACGCCCCGGCGAACGGACCGACTTCGGCTATCGCGTCCGCCCCTTGGCGCGTGGTCATTTCCACTTCCCCCGCTGCGAGCTGCTGCTTCCCAGCCCGCTGCGCCTCTGGCATGGCCGCCGCTACTTGGAGCTGCCCGGCGAGACCCGCGTCTACCCGGACTTTGCCCGCCTCTATGGCGCCCAGCTGATGGCCGTGGACGACTGGCTGAGCCAGCTCGGTGTCCGTCAGCGGCCACGGCGCGGCCTGGGCCTGGAGTTCCATCAGTTACGCGAATTCCGCGATGGCGACAGCCTGCGGCAGATCGACTGGAAGGCCACGGCGCGGAAACGCATGCCGATCGCCCGGGAATACCAAGACGAACGCGACCAGCAGATCGTCTTCCTGATCGACTGCGGCCGGCGCATGCGCAGCCAGGATGGCGAACTGGCGCATTTCGACCACGCGCTCAACGCCTGCCTGCTGCTGAGCTATGTGGCTCTCCGCCAGGGCGACGCCGTGGGGCTGGCCACCTTCGCCGGCGTCCAGGATCGCTACCTGGCTCCGGTGAAAGGCCCGGCCCAACTGAATGTCTTGTTGAATGCGGTCTATGACCTGCAGAGCACCCGACTTCCGGCGGACTTCTCCGCGGCCGTCGACAAACTGCTCGCCCGACAGCGACGGCGGGCCCTGGTCGTGCTGGTGACCAACCTGCGGGACGAGGATGACGAAGAACTGCTCAACGCGGTCAAGCGGCTCGGTCGTCAGCACCGCGTGCTGATCGCCAGCCTGCGCGAGGAAGTGCTCGACAGCCTGCGCCAAACGCCGGTGCAACACTACGAGCAGGCGTTGGACTACTGCGGTGCCGTGGATTACCTGAACGCCCGCGCCAGCCTGCACGAGCGCCTCATGGCACATGGCATGCCGGTTCTGGATGCGCGACCGAACCAGCTCGGTCCCGAACTGGTCAGCCGTTACCTGGCCTGGAAGAAGGCCGGCGTCCTGTAG	MKPSRTLLVLLGALLALAILLGTLHALAIKLPQTLALIWWGALCALLLAAVADALWLRRLPIPRAERLLPGNLPLGRWSEVRLSLHHDFSQPTVIEVFDHVPDGMALEYLPQRVELRPGERTDFGYRVRPLARGHFHFPRCELLLPSPLRLWHGRRYLELPGETRVYPDFARLYGAQLMAVDDWLSQLGVRQRPRRGLGLEFHQLREFRDGDSLRQIDWKATARKRMPIAREYQDERDQQIVFLIDCGRRMRSQDGELAHFDHALNACLLLSYVALRQGDAVGLATFAGVQDRYLAPVKGPAQLNVLLNAVYDLQSTRLPADFSAAVDKLLARQRRRALVVLVTNLRDEDDEELLNAVKRLGRQHRVLIASLREEVLDSLRQTPVQHYEQALDYCGAVDYLNARASLHERLMAHGMPVLDARPNQLGPELVSRYLAWKKAGVL				NA	NA	NA	NA	NA
BMS010_02663	360			hypothetical protein	ATGCGCACTCAACGACGAATCGAGCGCCATCAGTTGCCTTACTACCTGAAGGTGTTCAACCGCATCACCGATAAACCGATGGGCTACATCGGGAATGTTTCGATTGACGGCATGATGCTGATCAGTCAGTTGCCCATGCTCGTGGGCGCGCGTTTCGACATGCGCCTGAAGATTCCAGGGCAGGATGGGCAAGTTCACCACATCGACTTCTTCGCTACCTGCCAGTGGAGCCGCGAAGACGTCAATCCCGGGCATTATGATTCAGGCTTTTCCCTGGTGGTCCCGCCACCGGAGTATGTCGAACTGGTCGAAGCCCTGCGTTATTACTTCACCTTTCGTCCGCTAGCCGCTTCGGCCTGA	MRTQRRIERHQLPYYLKVFNRITDKPMGYIGNVSIDGMMLISQLPMLVGARFDMRLKIPGQDGQVHHIDFFATCQWSREDVNPGHYDSGFSLVVPPPEYVELVEALRYYFTFRPLAASA				NA	NA	NA	NA	NA
BMS010_02664	423			hypothetical protein	ATGCGTCACCTACTGTTCTGCGTTCTGTTGCTGCCGGGGTTGGCGGCCGCAGAGATTTATCGGTGGACCGATGCCCAGGGGCGTGTGCATTTCGGTGAGCGTCCGCCGGCCGGTGCCGAGCAGATCGAAGTCAAGCCGCAGGTAGTCGAGCGCGACGATGCGACGCGCGAGCGCGAGGCCCGCGCCGCGAAGGTTTTCGATGCCCGCCGGCAGGAGCAGGCCCAGGCCACATCCGAAGCGGCCGAGCAGCGTGCCCGGCGCGACAAGGAGTGTCGGCGATTGCGCAGCGACCTGGCGCAGATTGAGCGAGGTGGGCGCTACTTCACTGAAACCGCACAAGGTGAAAGGGTTTACTACAGCGACGACGAGATCGCTACCGCTCGTCGTCGTCTTCAGGCCCAGATAACAGAACGTTGCGGTTAA	MRHLLFCVLLLPGLAAAEIYRWTDAQGRVHFGERPPAGAEQIEVKPQVVERDDATREREARAAKVFDARRQEQAQATSEAAEQRARRDKECRRLRSDLAQIERGGRYFTETAQGERVYYSDDEIATARRRLQAQITERCG				NA	NA	NA	NA	NA
BMS010_02665	387			hypothetical protein	ATGCGAACCCTGATCATTCTGGCCTTGCTGGCGTCCGGTGCCGGTTGCACCCGCTGGTCTCTGGATCACCATCTGAACAATGCGTATCGCTATTACGAAGATGACGATTGCGAGCGCGTGATGCTGGAGCTGTCCCAGGCCGAACGCCGCAGCCGCTCGCGCAGCTACCTGCAGCCGGAAATCTCGCTGCTGCGCGGCCAGTGTCTCGAGCGGCAGAAACTGTTCGTCGACGCCGCTCAGACCTACCAGTTCATCATCGCCCGCTATCCGACCAGCGAATATGCCTACCGCGCCCGCGCGCGCCTGGAGACATTGAGGCAGCTCGGCCATTATCATGCGGACGAGCCGGTCAGGGCGGTACCCGCTGCTGCCGCGCCGCGTTCCTGA	MRTLIILALLASGAGCTRWSLDHHLNNAYRYYEDDDCERVMLELSQAERRSRSRSYLQPEISLLRGQCLERQKLFVDAAQTYQFIIARYPTSEYAYRARARLETLRQLGHYHADEPVRAVPAAAAPRS				NA	NA	NA	NA	NA
BMS010_02666	801			hypothetical protein	ATGCGTCCAGCCCGACTCAGCCTCTTCGTCCTCGCCCTGCTCGCCGGCTGCTCGCCCACCACGCCGCTGTTCATCGCCCAGATCACCACCCAGGAAATGGTCGAGTACAAGAATCTGAAGACCAACCGCATGACGGCTGCCATCGAGGAGGAAGGTGATCTGTTCACCTACAGCGCCATGGCCATCCGCGACGCCAAGAGCGCACAAGCGGAGTCGCTTTACCTCAGCGGTTACCACGACGAGAAACTCAGCCTCGAAGTCAGGGCCATCGCCCTCTACCAGATCGGCCTGATTTATATGAACCGTTATAACGACGAGCGGGACGACAACAAGGCGCTGACATACCTGCATCGCGTGCTGAACGAATTCCCGAGCACGCGGGCGGCAGAGCGAGCCGAAGCGCGCATCTTGGTCATCCGCACGCGCGCCGAAGAGCCGGTGCAGAAGACCTCCCGCGAATTGCTCGCCCACTGGCAGCCACAACAGAACCTGGACCTCAACAAACCCAGCCTGGACCCGGACATGACGTTGCTCTCCCGTCGCGCCGTTCTCAAGGACCGGGTCGCCGAGGCCGAGGAGCTTTATTTGCTGGCCCTGGGCGACCCCGGCGTACCGCGCGACATCAAGGAGCGGGCGCTGTACCAGTTGGGGCTGATGTATCAGGCGCCGGACAATCCCAAGGCCAGCCGCGACAAGGCGATCGCCTACTTTCGACGGCTCCTGGTGCAGTTCCCCGACAGCAACCTGGCCGGCAAGGCCTCCCGCCACCTGGACCAGGCGTTGAACCAGACTACGCCCTGA	MRPARLSLFVLALLAGCSPTTPLFIAQITTQEMVEYKNLKTNRMTAAIEEEGDLFTYSAMAIRDAKSAQAESLYLSGYHDEKLSLEVRAIALYQIGLIYMNRYNDERDDNKALTYLHRVLNEFPSTRAAERAEARILVIRTRAEEPVQKTSRELLAHWQPQQNLDLNKPSLDPDMTLLSRRAVLKDRVAEAEELYLLALGDPGVPRDIKERALYQLGLMYQAPDNPKASRDKAIAYFRRLLVQFPDSNLAGKASRHLDQALNQTTP				NA	NA	NA	NA	NA
BMS010_02667	927	uspE_1	COG0589	Universal stress protein E	ATGAAACTACGCCAGTTGCTGGTCGTCATCGACCCCTCCCAGGACGCCCAGCCGGCACTGGAACGCGCCACGATGCTGGCCCGGGAAAGCGGCGCCTCGATGGAGCTGCTGCTCTGCGAATTCAACGCCACCTTGGATAGCGGCCTGTGGTTCGACGGTTCGTCGCTGGAGAAAAATCGCACCTCCTTCCTCGAACATCGCCGCCAATGGTTGGAGCAACTGGCCGCGCCGCTGCGTAGCACGGGTATCGACATCGCGCTGGAAGTCCGCTGGGGTAAACCACTGCACCGTATGATCCTGACGCGCATCGCCGAACTGAAGCCCGACCTGGTCTTCAAGTCCGCCCGCAACCAAGGTCTGTTCAAACGCCTGTTCCTGACCAACACCTGCTGGCAACTGATTCGCCACAGTTCATCGCCGCTCTGGCTCGTGCACCAGGGCGAATGGCAGGGACGGCGCCTGTGCGCCGCTCTCGATCCGCTGCACAGCGCCGACAAACCGGCCAACCTCGACCACCGGCTGATCGCCGCCGCCCGCGAACTCGGCGAACAGCTCGATCTCGAGGCGCACTACCTGCACAGCTACGCCCCGCTGCCACGGACCCTGGTCTTCGATGCCGAACTGGTCGCCGATTACGAACATTATGTCGAGCGCTGTGCCACCCAGCATCGCGAAGCGTTCGAACAGCTCCTCAGCCAATACCCCGTCCCGCTGCCCAATACCCACCTGCTGGAAGGCTTTGCCGAAGAGGTGATCCCACGCTTCGTTCGCGAGCAGGAGATCGACCTGCTGATGATGGGGGCGGTCGCTCGCGGCAGCCTGGATACCGCCTTGATCGGGAACACTGCCGAGCGGGTTCTGGAGGCCGTGGAATGCGATCTGCTGGTGCTTAGAGCCGAAAACGAAGGTAGTGCAGAGGAACAATGA	MKLRQLLVVIDPSQDAQPALERATMLARESGASMELLLCEFNATLDSGLWFDGSSLEKNRTSFLEHRRQWLEQLAAPLRSTGIDIALEVRWGKPLHRMILTRIAELKPDLVFKSARNQGLFKRLFLTNTCWQLIRHSSSPLWLVHQGEWQGRRLCAALDPLHSADKPANLDHRLIAAARELGEQLDLEAHYLHSYAPLPRTLVFDAELVADYEHYVERCATQHREAFEQLLSQYPVPLPNTHLLEGFAEEVIPRFVREQEIDLLMMGAVARGSLDTALIGNTAERVLEAVECDLLVLRAENEGSAEEQ	PGPT0014995_529	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014995-uspE-K14055	NA	NA
BMS010_02668	1452	pykA	COG0469	Pyruvate kinase II	ATGACCCTGCGCCGTACCAAGATCGTCGCCACTCTAGGCCCTGCCAGCAATTCCCAGGAAGTGCTGGAAAAGCTGATTCTCGCCGGCATCGATGTCGCTCGCCTGAACTTCTCCCACGGCACTCCGGACGAACACAAGGCGCGCGCCCGCCTGGTGCGCGAACTGGCCGCCAAGCACGGTCGCTTCGTCGCGCTGCTCGGTGATCTGCAAGGGCCGAAGATCCGCATCGCCAAGTTCGCCGACAAACGCATCGAGCTGGCCGAAGGCGATCGCTTCCGCTTCTCCGTCACTCATCCGCGCGATGCCGGTACCCAGGACGTGGTGGGTATCGATTACCCCGATCTGATCAACGACTGCGGCGTCGGCGATGAGCTGCTGCTGGACGATGGTCGCGTGGTCATGCGCGTCGACGACAAGACAGCGGATGAGTTGATCTGCACCGTTCTGATCGGCGGCCCGCTGTCCGATCACAAGGGTATCAACCGTCGCGGTGGCGGCCTGACCGCTCCCGCGTTGACGCCCAAGGACAAGGCCGATATCAAGCTGGCTGCGGAAATGGATCTGGATTATCTCGCCGTATCCTTCCCCCGCGATGCGGCCGACATGGAGCTCGCCCGTCGTCTGCGCGACGAGGCCGGCGGCACCGCCTGGCTGGTGGCGAAGATCGAACGCGCCGAAGCGGTGGCCGACGACGAAACCCTCGACGGGCTGATTCGCGCCAGCGACGCCGTGATGGTGGCACGTGGTGACCTCGGCGTGGAAATCGGTGACGCCGAGCTGGTCGGCATCCAGAAAAAGATCATTCTGCATGCCCGCCGCAACAACAAGGCCGTGATCACCGCCACTCAGATGATGGAGTCGATGATCACCAACCCGATGCCCACTCGCGCCGAGGTCTCCGACGTAGCCAACGCTGCCCTGGACTACACGGATGCGGTGATGCTCTCCGCCGAAAGCGCCGCCGGTGCCTATCCGGTGGAGGCGGTGAAAGCCATGGCGCGTGTCTGCGTCGGTGCGGAAAAACACCCCACCAGCCAGAAATCCAGCCATCGCCTGGGCCAGCGCTTCCAGCGCTGCGACGAAAGCGTGGCCCTGGCGGCGATGTACACCGCCAACCACTTCCCCGGCGTGAAGGCCATCATCAGCCTGACGGAAAGCGGCTACAGCCCGCTGATCATGTCGCGTATCCGTTCCGCCGTACCGATCTTCGCCTTCACCCCGCACCGGGAGGCCCAGGCCCGGGTGGCACTGTTCCGTGGCGTCTACACCGTTCCCTTCGATCCGGCCTCGCTACCGGCCGACAAGGTCAGCCAGGCGGCGGTCGACGAACTGCTCAAGCGCGGCGTGGTAGAACCGGGGGACTGGGTAGTACTGACCAAAGGCGACCGTTATCACGGTACCGGCGGCACCAACACCATGAAGATCCTGCATGTCGGCGACCCACTCGTCTGA	MTLRRTKIVATLGPASNSQEVLEKLILAGIDVARLNFSHGTPDEHKARARLVRELAAKHGRFVALLGDLQGPKIRIAKFADKRIELAEGDRFRFSVTHPRDAGTQDVVGIDYPDLINDCGVGDELLLDDGRVVMRVDDKTADELICTVLIGGPLSDHKGINRRGGGLTAPALTPKDKADIKLAAEMDLDYLAVSFPRDAADMELARRLRDEAGGTAWLVAKIERAEAVADDETLDGLIRASDAVMVARGDLGVEIGDAELVGIQKKIILHARRNNKAVITATQMMESMITNPMPTRAEVSDVANAALDYTDAVMLSAESAAGAYPVEAVKAMARVCVGAEKHPTSQKSSHRLGQRFQRCDESVALAAMYTANHFPGVKAIISLTESGYSPLIMSRIRSAVPIFAFTPHREAQARVALFRGVYTVPFDPASLPADKVSQAAVDELLKRGVVEPGDWVVLTKGDRYHGTGGTNTMKILHVGDPLV	PGPT0002020_3902	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002020-pyk-K00873	NA	NA
BMS010_02669	1071			hypothetical protein	ATGGTCAAGGTGCTCCGTGATTGGGTGCAGCGCTACTTCTCCGATGAGGAGGCGGTGGTGCTGGCCGTACTGTTGGTTCTGGGTTTTACCGCCGTGCTGACGCTGGGCGATATGCTGGCGCCGGTATTGGCCGGTCTGGTGCTGGCGTTCCTGATGCAGGGACTGGTGAATGCGCTGGAGCGCCTGCATCTGCCGCAGATCGCTGCGGTCTGGCTGGTGTTTGCGTTGTTCATCGGTGTGCTGGTGCTGTTCATGCTGGTGCTCGTGCCGCTGCTCTGGCAGCAATTGATCACGCTGTTCAATGAATTGCCGCGCATGCTCGGCGAATGGCAGTCGCTCCTGTTGCTGTTGCCGGAGCGTTATCCCCATCTGGTCACGAACGAACAGGTGCTGCAGGCCATCGAGGCGGCGCGTGGCGAAATCGGCAAGTTCGGCCAGTGGCTACTGACGTTTTCCCTGTCGAGTCTGCCGATACTGGTCAACGTCATGATCTACCTGGTCCTGGTGCCGATCCTGGTGTTCTTCTTCCTCAAGGATCGCGCCCTGATCGCTGGTTGGTTCAGCGGCTACCTGCCGCGCGAGCGAGCCTTGATGACCCAGGTCGCCCGTGAGATGAACCAGCAGATCGCCAACTACATCCGCGGCAAGGTCATCGAGATCATCATCTGCGGTGTGGTGACCTACATCGCCTTCGCTGCCCTCGGCCTGAACTATGCCGCATTGCTGGCGCTGCTGGTGGGGTTCTCGGTGATCGTGCCCTATATCGGCGCGGTGGTGGTCACCGTGCCGGTTGCCCTCATTGCATTGTTCCAGTGGGGCTGGGGCGATCAGTTCATCTATCTGATGGTGGTCTATGGCGTGATCCAGGCATTGGATGGCAACGTGCTGGTCCCTCTGTTGTTCTCCGAGGCGGTGAACCTGCACCCGGTGGCCATCATCTGCGCGGTTCTGCTGTTCGGAGGCCTCTGGGGCTTCTGGGGCGTGTTTTTCGCCATCCCGCTGGCCACCCTGTTCAAGGCGGTTCTGGATGCCTGGCCGCGCACGGTTGCGTCTCCGAACGCTAGCGTCTGA	MVKVLRDWVQRYFSDEEAVVLAVLLVLGFTAVLTLGDMLAPVLAGLVLAFLMQGLVNALERLHLPQIAAVWLVFALFIGVLVLFMLVLVPLLWQQLITLFNELPRMLGEWQSLLLLLPERYPHLVTNEQVLQAIEAARGEIGKFGQWLLTFSLSSLPILVNVMIYLVLVPILVFFFLKDRALIAGWFSGYLPRERALMTQVAREMNQQIANYIRGKVIEIIICGVVTYIAFAALGLNYAALLALLVGFSVIVPYIGAVVVTVPVALIALFQWGWGDQFIYLMVVYGVIQALDGNVLVPLLFSEAVNLHPVAIICAVLLFGGLWGFWGVFFAIPLATLFKAVLDAWPRTVASPNASV				NA	NA	NA	NA	NA
BMS010_02670	252	tusA_2	COG0425	Sulfur carrier protein TusA	ATGAACGACGCTGTAGAGCGGGCCGTCGCCTGCGATGCCGAGCTGGATGCCAGCGGGCTGAATTGTCCGCTGCCCCTGCTCAAGGCCAAGCTGGAACTCAATCGCCTGCCGAGTGGAGCGGTACTGAAGGTAACGGCGACCGATGCCGGTTCGCAGCGCGACTTCCGCGCGTTCGCCAAACTGGCCGGGCATGAGCTGTTGCGTGAGGAAGTCGAAGGCGAGGTCTATCGCTACTGGCTGCGCAAGGCCTGA	MNDAVERAVACDAELDASGLNCPLPLLKAKLELNRLPSGAVLKVTATDAGSQRDFRAFAKLAGHELLREEVEGEVYRYWLRKA				NA	NA	NA	NA	NA
BMS010_02671	1434	bepA_2	COG4783	Beta-barrel assembly-enhancing protease	ATGAATTTTCTGCGCCCCACTCTGCTGTCGCTCGCCTGCCTGCTTGCTCTGCCCGCCCCCGCCAGCGACCTGCCGTCGCTCGGCGATGCCAGTTCGGCCATCGTCTCGCCGGAGCAGGAACATCAGCTCGGCCGGGCCTGGCTGAGCCTTCTGCGCGGGCAGGTCGATCAACTGTCCGACCCTCAGCTCAAGGATTTCGTCGAAACCAGCGTCTACCGCCTGGCCGAAACCAGCCAGCTGCAGGACCGCCGCCTGGAGTTCGTCCTGCTCAACAGCCCCCAGTTGAACGCCTTCGCCGCACCCGGCGGGATTATCGGCGTCAACGGCGGCCTGTTCCTCTATGCCCAAACCGAAGCCGAATACGCGTCGGTTCTCGCCCACGAACTAGCGCACCTGTCGCAACGGCACTTCGCCCGTAACCTGGAAGCGCAGAAGCGCATGCAGGTCCCGATGATGGCCGCCATGCTGGCGGGCATCGTGGCAGCGGCTGCCGGTGCCGGCGATGCGGGGATCGCCGCCATTGCCTCGACCCAGGCGGCGGCCATTCAGGAGCAGCGACGTTTCTCCCGGCAGAACGAACAGGAAGCCGACCGCATCGGTATTCTCAATCTGGAAAAGGCCGGCTACGACCCACGGGCCATGCCGAGCATGTTCGAGCGACTGATGCGCCAGTATCGCTACGACCGCAAGCCGCCAGAGTTCCTGCTGACCCACCCGGTGACCGAGTCGCGTATCGCCGACACCCGCAACCGCGCCGAGCAATACCAGGCCGGTGGCGCCGAAGACAGCCTGCGCTACCAATTGATGCGCGCTCGCGTGCAGTTGAGCTACGAAGAAACGCCGGGCATGGCCGCCAAGCGCTTCCGCACCATGCTCGACGAGAACCCCAAGCTGGATGCCGCCCGCTACGGCCTGGCGATCGCCCAGACCAAGGCCGGGCAACTCAACGAAGCGCGCACCAACCTCGAAGCGCTTCTGCAGAAGGCCCCGGAGGACATCGTCTACAACCTGGCGATGGTCGACCTGGATATCACCGCCAATCGCCTAGCCGACGCCCAGAAGCGCGTGGATCACCTGCTCGGCCTCTTCCCCGGTAACTATCCCTTGAAACAGGCGCGGATCGATCTGCTGCTCAAGCAGAACCAGCCGCAACAGGCGGAGAAGGCGCTGGATGAGCTCCTGAAGAGCCGGCCACACGACCCGGACATCTGGTATCTGGTTGCCGAAACCCGTGGATTGTCCGGCAATATCGTCGGCCTGCACCAGGCCCGGGCGGAATTCTTCGCCCTGGTTGGCGATTACGACCAAGCCATCGAGCAACTCGACTTCGCCAAACGGCGGAGCAATGGCAACTTCCAGCTCGCCTCGCGGATCGATGCCCGGCAGAAGGAGCTGATGGAGGAACAGAAGATGGTGAAGGATATGATGCGCTGA	MNFLRPTLLSLACLLALPAPASDLPSLGDASSAIVSPEQEHQLGRAWLSLLRGQVDQLSDPQLKDFVETSVYRLAETSQLQDRRLEFVLLNSPQLNAFAAPGGIIGVNGGLFLYAQTEAEYASVLAHELAHLSQRHFARNLEAQKRMQVPMMAAMLAGIVAAAAGAGDAGIAAIASTQAAAIQEQRRFSRQNEQEADRIGILNLEKAGYDPRAMPSMFERLMRQYRYDRKPPEFLLTHPVTESRIADTRNRAEQYQAGGAEDSLRYQLMRARVQLSYEETPGMAAKRFRTMLDENPKLDAARYGLAIAQTKAGQLNEARTNLEALLQKAPEDIVYNLAMVDLDITANRLADAQKRVDHLLGLFPGNYPLKQARIDLLLKQNQPQQAEKALDELLKSRPHDPDIWYLVAETRGLSGNIVGLHQARAEFFALVGDYDQAIEQLDFAKRRSNGNFQLASRIDARQKELMEEQKMVKDMMR				NA	NA	NA	NA	NA
BMS010_02672	1059	nadA_2	COG0379	Quinolinate synthase A	ATGACGCAGATTTCCGAACGCCTTTTGGTACAGGCCCACCTTGCCGCCAAGCAGCCCAAGCCGCTGACTCCCGAGGAGGAGGCCCATTACCGCAGCGAGATCGCCGCTGAGCTGAAAAAGCAGAACGCGGTCCTGGTTGCGCACTATTACTGCGATCCGGTGATCCAGGCTCTGGCGGAAGAGACTGGCGGCTGTGTTTCCGATTCCCTGGAGATGGCCCGCTTCGGCAGCCAGAATTCGGCACAAACCTTGGTGGTGGCCGGTGTCAAGTTCATGGGCGAGACCGCGAAAATCCTCAATCCGGAAAAGCGCATTCTCATGCCGACCCTGGAGGCGACCTGTTCGCTCGACCTGGGCTGCCCGGTGGAGGAGTTCTCGGCGTTCTGCGACCAGCATCCCGAACGTACCGTGGTTGTCTATGCCAATACCTCGGCGGCGGTGAAGGCGCGCGCGGACTGGGTGGTGACCTCCAGTTGCGCCCTGGAAATCGTCGAAAGCCTGATGGATAACGGCGAAAAGATCATCTGGGCGCCGGATAAGCACCTGGGGCGCTATATCCAACGTGAAACCGGTGCGGACATGCTGCTCTGGGACGGTGCCTGCATCGTCCACGAGGAGTTCAAGGCCAAGCAGCTCGAGGACATGAAGGCGCTCTATCCGGACGCTGCCGTACTGGTGCACCCCGAGTCGCCTGAAGCCGTGATCGAACTGGCTGACGCGGTGGGCTCCACCAGCCAATTGATCAAGGCTGCGCAGACGCTGCCGAACCCGACCTTCATCGTCGCCACCGACCGCGGCATTTTCTATAAGATGCAGCAGCTCTGTCCGGACAAGACGTTCATCGAGGCACCCACTGCCGGCAACGGCGCCGCCTGTCGGAGCTGTGCCCACTGCCCCTGGATGGCCATGAACACCCTGGAGCGCGTCCTGAAATCGTTGCGCGAAGGCAGCAACGAAATCCTGGTCGACCCGGCACTGATTCCCAAGGCGGTGAAACCGCTCAAACGCATGCTGGACTTCACCCAGGCGGCGCGGATGAAATTGGCGGGTAACGCCTGA	MTQISERLLVQAHLAAKQPKPLTPEEEAHYRSEIAAELKKQNAVLVAHYYCDPVIQALAEETGGCVSDSLEMARFGSQNSAQTLVVAGVKFMGETAKILNPEKRILMPTLEATCSLDLGCPVEEFSAFCDQHPERTVVVYANTSAAVKARADWVVTSSCALEIVESLMDNGEKIIWAPDKHLGRYIQRETGADMLLWDGACIVHEEFKAKQLEDMKALYPDAAVLVHPESPEAVIELADAVGSTSQLIKAAQTLPNPTFIVATDRGIFYKMQQLCPDKTFIEAPTAGNGAACRSCAHCPWMAMNTLERVLKSLREGSNEILVDPALIPKAVKPLKRMLDFTQAARMKLAGNA	PGPT0013365_1692	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013365-nadA-K03517	NA	NA
BMS010_02673	543	mltC_2		Membrane-bound lytic murein transglycosylase C	ATGTCGGCAGGCACAATCAGGCGATCGGTCTTATGTAGGCTTCTCGGCCGAACGCTGACACTGATATTGCTTCTGCCCGGCGTGGCGGGGGCGTCATTGATGGACCAGGCTGCGAGCAGGGGGCGAATCGAAGAGATCGTCGACATGCTGGCGGAGATCTACGAGGTCGATCCGATGCTGGTCATGGCGGTGATAGAAGCGGAATCCTCGTTCGATCAACGCGCTGTATCGCCGAAAGGGGCGGTTGGTCTGATGCAGGTAATTCCTTCGACGGCGGAGCGTTTCGGTATCGAGCGGCATCGTGGGCAGACCATGGCTCAGACACTGACCGATCCGTTCGCCAATATCCTGGCCGGGACGCTCTACCTGGCCTACCTGAACGAGAAGTTCGAGGAGGACCCGGAGCTGGTCCTCGCGGCCTATAACGCCGGTGAAGGTGCGGTGATGAAATATCAGTACCAGGTACCGCCGTATCCCGAGACGCAGCATTACGTGAGAAAGGTCATGCGGCGCTATTCACTGCTCGCCGGCCTGGACGAATGA	MSAGTIRRSVLCRLLGRTLTLILLLPGVAGASLMDQAASRGRIEEIVDMLAEIYEVDPMLVMAVIEAESSFDQRAVSPKGAVGLMQVIPSTAERFGIERHRGQTMAQTLTDPFANILAGTLYLAYLNEKFEEDPELVLAAYNAGEGAVMKYQYQVPPYPETQHYVRKVMRRYSLLAGLDE				NA	NA	NA	NA	NA
BMS010_02675	675	queC_1	COG0603	7-cyano-7-deazaguanine synthase	ATGAATGAAAAGAAGGCGGTCATTCTTCTGTCCGGTGGCCTCGATTCGGCGACGGTCGTCGCCCTGGCACGTGCCCAGGGGTACGCCTGCTACAGCATGAGCTTCGACTATGGCCAACGGCACCGCGCCGAGTTGAAGGCGGCCGAGCGTGTGGCGCGGCAGCTCGGCGTGATCGAGCACAAGGTCGTCGGCCTCAACCTCAATGGTATCGGCGGTTCGGCCCTGACCGACGAGTCCATCGCCGTACCGGAAAGCCCGACCGAAGGCATCCCGGTGACCTATGTGCCGGCGCGCAATACGGTGTTCCTGGCGCTCGCGCTGGGTTGGGCCGAAGTATTGGGAGCGAGGGATATCTTCATCGGGGTCAATGCGGTCGATTATTCGGGGTATCCCGATTGCCGTCCCGAGTTCATCGAGGCCTTCGAGCGGATGGCCAACCTGGCGACCAAGGCTGGAGTGGAGGGGCAGGGCTTTCGCATCCAGGCTCCGCTGCAGAATCTGAGCAAGGCCGACATCATCCAGGCCGGTGTTCGACACGGCGTCGACTATGCTCTTACGGTGTCCTGCTACCAGGCCGACGAAGCGGGTAATGCCTGTGGCAAATGCGACAGTTGCCGCCTGCGCGCGGCAGGTTTTTCGGCGGCTGGTGTGGCCGATCCGACCCGTTATCGCTAA	MNEKKAVILLSGGLDSATVVALARAQGYACYSMSFDYGQRHRAELKAAERVARQLGVIEHKVVGLNLNGIGGSALTDESIAVPESPTEGIPVTYVPARNTVFLALALGWAEVLGARDIFIGVNAVDYSGYPDCRPEFIEAFERMANLATKAGVEGQGFRIQAPLQNLSKADIIQAGVRHGVDYALTVSCYQADEAGNACGKCDSCRLRAAGFSAAGVADPTRYR				NA	NA	NA	NA	NA
BMS010_02676	681	queE_1		7-carboxy-7-deazaguanine synthase	ATGGCCTGTTTCGCCGTCACGCCCGTGGCTGATATGCAAGAAACCCTGCGAATTACCGAGATTTTCTACTCGCTGCAGGGCGAGACGCGCACCGCCGGTTTGCCGACGGTGTTCGTCCGCCTGACCGGCTGTCCCCTGCGCTGCCAATATTGCGATACCGCCTACGCGTTCAGCGGCGGCGAAATCATGACCCTCGATGCCATTCTCGAGCGCGTTGCCAGTCATAAACCGCGTTATGTCTGCGTGACCGGTGGCGAGCCGTTGGCCCAACCCAACTGTATCCCGCTGCTCGAGCGGCTCTGCGATGCCGGCTACGAGGTTTCCCTGGAAACCAGCGGGGCTTTGGATATCGCCGGCGTGGATTCGCGGGTCAGCCGGGTCGTCGATCTGAAGACGCCGGGTTCGGCTGAGGTCGCTCGCAACCGCTACGAGAATCTCGGCCTGATCAACCGTAACGACCAAGTGAAGTTCGTGCTCTGCTCGCGAGAGGATTACGACTGGGCGGTTTCCAAACTGATCGAGTATCGCTTGGATCAGCGTGCCGGTGAGGTGCTGTTCTCGCCCAGTCACCATGAACTGGATGCGCGTTCGCTGGCCGATTGGATCGTCAGCGATAACCTGCCGGTACGCTTGCAACTGCAACTGCACAAACTTCTCTGGAACGATGAGCCTGGGCACTGA	MACFAVTPVADMQETLRITEIFYSLQGETRTAGLPTVFVRLTGCPLRCQYCDTAYAFSGGEIMTLDAILERVASHKPRYVCVTGGEPLAQPNCIPLLERLCDAGYEVSLETSGALDIAGVDSRVSRVVDLKTPGSAEVARNRYENLGLINRNDQVKFVLCSREDYDWAVSKLIEYRLDQRAGEVLFSPSHHELDARSLADWIVSDNLPVRLQLQLHKLLWNDEPGH				NA	NA	NA	NA	NA
BMS010_02677	816	cpoB_2		Cell division coordinator CpoB	ATGCGTAAGTGCTGCCGTGCTTTGACCTTGTTGGCGCTCAGCCTGCCGCTCGCGGCAATGGCCGAGGTTCCTGTGGTGGATAACGATACCGGTTACGGTAGCAGTTCTTATCCTCCGGCCGGGTATGGTACGAGCGGCGCTTACGCCGCAACCGCAGCCGGGGCTTCGGCCCCGGTTTCGGCGCAAGGCGAGATGTACATGCAGATGCAGCAACTGCAGGAGGAAGTCGCCCAGTTGCGAGGCATGCTGGAAGAGCAGCAAAACGAAATCAGGAACCTCAAGCGCGAGAACCTGGAACGTTACCAGGACCTCGATCGCCGCCTTTCGAGCGGTGGTGCGCAAGGTGCCCCGAATACTCCTGCCGATGGCGCCATCAACGCTGGCGGCACACCGACTCCGCCCCCCAGTCAGACTCCGGCAAGCAACGAGCCAGCGGACCCGGCGAAAGAGAAGTTGTACTACGAAGCGGCCTTCGACCTGATCAAGGCCAAGGACTTCGACAAGGCCAGTCAGGCATTCACCGCCTTCCTGCGCAAGTATCCGAATAGCCAGTACGCCGGGAATGCCCAGTATTGGCTGGGCGAGGTCAATCTCGCCAAGGGCGACCTGCAAGGTGCCGGACAGGCGTTCGCGAGGGTCAGCCAGGCGTATCCACAGCACGCCAAGGTGCCCGATTCGCTGTACAAGCTGGCCGATGTAGAGCGCCGTCTGGGTAATAACGACAAGGCCCGCGGCATTCTTCAGCAAGTCATTTCCCAGTATCCGGGCAGCTCGGCAGCCCAATTGGCCCAGCGCGACCTGCAGAACCTGCGTTGA	MRKCCRALTLLALSLPLAAMAEVPVVDNDTGYGSSSYPPAGYGTSGAYAATAAGASAPVSAQGEMYMQMQQLQEEVAQLRGMLEEQQNEIRNLKRENLERYQDLDRRLSSGGAQGAPNTPADGAINAGGTPTPPPSQTPASNEPADPAKEKLYYEAAFDLIKAKDFDKASQAFTAFLRKYPNSQYAGNAQYWLGEVNLAKGDLQGAGQAFARVSQAYPQHAKVPDSLYKLADVERRLGNNDKARGILQQVISQYPGSSAAQLAQRDLQNLR				NA	NA	NA	NA	NA
BMS010_02678	498	pal_2	COG2885	Peptidoglycan-associated lipoprotein	ATGGAAATGCTGAAATTCGGTAAGTTCGCTGCGCTGTCCCTGGCTTTGGCCGTTGCCGTCGGCTGTTCTTCCAAAGGCGGCGACGCCTCCGGCGAAGGCGCTGTCGACCCGAACGCCGGCTACGGTGCCAACACCGGTGCCGTCGATGGCAGCCTGAGCGAAGAAGCCGCTCTGCGCGCCATCACCACCTTCTATTTCGAGTACGACAGCTCCGACCTGAAGCCGGAAGCCATGCGCGCTCTGGACGTACACGCCAAGGACCTGAAGGGCAATGGCGCTCGCGTCGTCCTGGAAGGCCACGCTGACGAGCGCGGCACCCGTGAGTACAACATGGCTCTGGGCGAGCGTCGTGCCAAGGCCGTTCAGCGCTACCTGGTACTGCAGGGCGTTTCCCCGGCTCAGCTGGAACTGGTTTCCTACGGCGAAGAGCGTCCGGTTGCCACTGGCAACGACGAGCAGTCCTGGGCCCAGAACCGTCGCGTCGAACTGCGTAAGTAA	MEMLKFGKFAALSLALAVAVGCSSKGGDASGEGAVDPNAGYGANTGAVDGSLSEEAALRAITTFYFEYDSSDLKPEAMRALDVHAKDLKGNGARVVLEGHADERGTREYNMALGERRAKAVQRYLVLQGVSPAQLELVSYGEERPVATGNDEQSWAQNRRVELRK				NA	NA	NA	NA	NA
BMS010_02679	1299	tolB_2	COG0823	Tol-Pal system protein TolB	GTGAACACCTTGATTCGTATTGCCCTGCTGGGCCTGGCCATGCTGGTCGGCAGCGTGCAGGCGGCTGACCCGCTGGTGGTTACCAGCGGTACGGACCGCGCCACGCCGATCGCCGTCGTTCCGTTCGGCTGGCAGGGTGGTTCGGTGCTGCCCGAGGACATGGCCGAGATCATCGGCAATGACCTGCGCAACTCCGGCAGCTTCGAGCCGATTCCGCGACAGAACATGATCAGCCTGCCCACCCAGGCCAGCGAAGTCATCTACCGTGACTGGAAAGCGCTGGGTGCTCAGTATGTTCTGGTCGGCAGCATTGTCCCGGCGGGTGGGCGCTTGCAGGTGCAGTTCGCGCTGTTCAACGTGGCGACCGAGCAGCAGGTTCTTACCGGTAGCGTAGGTGGTGGTGTCGATCAGTTGCGCGACATGGCGCACCACATTGCCGATCAATCGTTCGAGAAGCTCACCGGCATCAAGGGCGCCTTCTCGACTCGCCTGCTGTACGTCACGGCCGAGCGTTTCGCGGTGAATAACACCCGCTATACCCTGCAGCGTTCGGACTATGACGGCGCCCGGGCGGTTACGCTGTTGCAATCGCGTGAGCCGATCCTATCGCCGCGCTTTGCTCCGGATGGTCGTCGTATCGCCTACGTTTCCTTCGAGCAGAAGCGTCCACGCATCTTCATCCAGCACATCGATACCGGCCGCCGCGAGCAGATCACCAACTTCGAAGGGCTGAACGGCGCGCCGGCCTGGTCGCCGGAGGGCAACCGCCTGGCGTTCGTGCTGTCCCGTGATGGCAACCCGGAAATCTATGTCATGGATCTCGGCAGCCGTCAGCTGCGTCGGGTGACCAACAATGCCTCGATCGATACCGAGCCGTTTTGGGGCAAGGATGGGCAGACCATCTATTTCACCTCCGACCGTGGTGGCAAGCCGCAGATTTACAAGATGAACATCAACGGCGGTGCCGCGGAGCGGGTGACTTTCATCGGCAACTACAATGCCAACCCGAAGCTGTCGGCTGACGAAAAGACGCTGGTGATGGTGCATCGTCAGGAAGGCTTCACGGTATTCCGTGTGGCTGCCCAGGACCTGCAGCGCGGCAATCTGCGTGTTCTCTCCGAGACCAGTCTCGACGAGTCACCCACTGTTGCGCCTAATGGCACCATGCTAATCTACGCAACCCGCCAGCAGGGCCGGGGAGTCTTGATGCTCGTATCCATCAACGGCCGAGTCAGGCTCCCTCTTCCTACCGCTCAAGGCGAAGTTCGAGAGCCGTCCTGGTCCCCTTACCTGAACTGA	MNTLIRIALLGLAMLVGSVQAADPLVVTSGTDRATPIAVVPFGWQGGSVLPEDMAEIIGNDLRNSGSFEPIPRQNMISLPTQASEVIYRDWKALGAQYVLVGSIVPAGGRLQVQFALFNVATEQQVLTGSVGGGVDQLRDMAHHIADQSFEKLTGIKGAFSTRLLYVTAERFAVNNTRYTLQRSDYDGARAVTLLQSREPILSPRFAPDGRRIAYVSFEQKRPRIFIQHIDTGRREQITNFEGLNGAPAWSPEGNRLAFVLSRDGNPEIYVMDLGSRQLRRVTNNASIDTEPFWGKDGQTIYFTSDRGGKPQIYKMNINGGAAERVTFIGNYNANPKLSADEKTLVMVHRQEGFTVFRVAAQDLQRGNLRVLSETSLDESPTVAPNGTMLIYATRQQGRGVLMLVSINGRVRLPLPTAQGEVREPSWSPYLN				NA	NA	NA	NA	NA
BMS010_02680	987			hypothetical protein	ATGCGTCAGTTCGAACGCTCTCCTTCGGAAAGCTATTTCTGGCCCACCTTGTGGGCCATTGCACTGCACGTGCTGGTGTTCGCCCTGCTGTTCGTCAGTTTTGCGATGACGCCGGACCTGCCGCCAGCCAAGCCGATCGTCCAGGCGACTCTCTATCAATTGAAGTCGCAGAGCCAGGCTACGACCCAGATCAACCAGAAGATCGCCGGCGAAGCGAAGAAGACCGCTGCCCGACAGTACGAAGTCGAGCAGATGGAGCAGCGCAAGGTCGAGCAAGAGCGGCAGGCCGCGGCCAAGGCGGCGGAACAAAAGAAAGCCGACGAGGCTCGAAAGGCCGAAGCCGTGAAGAAGGCGGAAGAAGCCAAGAAAGCCGAGGCGGCGAAGAAGGCCGAGGAAGCCAAGAAGGCGGCTGAGCAAAAGCAACTGGCCGATATCGCCAAGAAAAAGGCTGAGGAAGAGGCCAAGAAGAAAGCCGCCGAAGAGGCGAAAAAGAAAGCAGCGGCCGAAGCAGCCAAGAAAAAGGCTGCCGAAGAAGCCAAGAAGAAGGCGGCCGCCGAGGTGGCGAAGAAGAAAGCGGCGGCTGAAGCGGCGCGCAAATCGGCTGAGGATAAGAAGGCCCAGGCCCTTGCCGAACTGCTGTCGGAAACGACCGAGCGCCAGCAGACGATCGCGGATACCCAAGGCGATCAAGTGGCCGGCAGCCTGGACGATCTGATCGTCAAGCTGGTCAGCGAGCAGTGGCGCCGTCCGCCGTCGGCGCGGAACGGCATGAGTGTCGAGGTGCTGATCGAAATGCTGCCCGATGGCACCATTACCAACGCGAGCGTTACCCGTTCCAGTGGCGACTCGCCATTCGATAATTCAGCTGTGGCAGCGGTGCGCAACGTCGGCCGCATACCTGAGATGCAACAGCTCGATCGCGCTACCTTCGACCGGCTTTACCGGCAGCGTCGCGTCATCTTCAAACCGGAGGATCTGGATCTGTGA	MRQFERSPSESYFWPTLWAIALHVLVFALLFVSFAMTPDLPPAKPIVQATLYQLKSQSQATTQINQKIAGEAKKTAARQYEVEQMEQRKVEQERQAAAKAAEQKKADEARKAEAVKKAEEAKKAEAAKKAEEAKKAAEQKQLADIAKKKAEEEAKKKAAEEAKKKAAAEAAKKKAAEEAKKKAAAEVAKKKAAAEAARKSAEDKKAQALAELLSETTERQQTIADTQGDQVAGSLDDLIVKLVSEQWRRPPSARNGMSVEVLIEMLPDGTITNASVTRSSGDSPFDNSAVAAVRNVGRIPEMQQLDRATFDRLYRQRRVIFKPEDLDL				NA	NA	NA	NA	NA
BMS010_02681	453	exbD_3	COG0848	Biopolymer transport protein ExbD	ATGGCTCGCATTCGCCAGAAACGCAAACCGGTCGCCGAAATGAACGTGGTGCCCTACATCGATGTGATGTTGGTGCTGCTGGTCATCTTCATGGTGACCGCGCCGATGCTCAACCAGGGCGTAAAGGTCGACCTGCCTAAAGTGAGCAGCGAAGCGCTGCCACAGGATAACAACGCCCAGGTACTGACTATCTCGATCAAGGCCGACAAGACCTATTACTGGAACATGGGCTCCGAGGTGGACACCGACACCGTACAGGACAAGGCGCTCACTCTCGAGGAAATGACCCGTGCTGTTACCGCGATCATGAATCAGGGGCGTAGCCAGGGTAAGCAGATCCAGGTATTCGTCCGTGGCGACAAGGCGGTCGACTACGGTGCGGTAATGGCTGCCATGGGCGGTCTGCAGCAGGCCGGCGTGGGCAACGTCGGGCTGATCACTGAGGCGCCCTGA	MARIRQKRKPVAEMNVVPYIDVMLVLLVIFMVTAPMLNQGVKVDLPKVSSEALPQDNNAQVLTISIKADKTYYWNMGSEVDTDTVQDKALTLEEMTRAVTAIMNQGRSQGKQIQVFVRGDKAVDYGAVMAAMGGLQQAGVGNVGLITEAP				NA	NA	NA	NA	NA
BMS010_02682	693	tolQ_3	COG0811	Tol-Pal system protein TolQ	GTGGAAACCAACGTCGATCATACGTCCATGTGGAGCCTGGTCAGCAACGCCAGCATCCTGGTGCAGTTGGTCATGCTCATCCTGGTGGCCGCCTCGGTCACCTCGTGGATCATGATTTTCCAGCGTGGCAATGCCATCCGTGCCGCGCGACGTGCCCTCGATGTGTTCGAGGAGCGGTTCTGGTCGGGCATCGACCTATCCAAGCTCTACCGTCAGGCCGGCAGCAACCCCGATCCGGATTCTGGCGTGGAGCAGATTTTCCGAGCCGGCTTCAAGGAATTCTCGCGCTTGCGCCAGCAACCGGGCGTCGATCCCGATGCCGTAATGGATGGTGTGGCTCGTGCCATGCGCGTCGCTATCTCGCGGGAAGAAGAGAAGCTCGAGCAGAGCCTGCCGTTCCTGGCAACGGTCGGCTCCACCAGTCCGTATATCGGCCTGTTCGGAACCGTCTGGGGCATCATGAACTCGTTCCGCGGTCTGGCGCAGGTGCAGCAGGCAACCCTGGCTACCGTGGCTCCGGGTATCGCCGAGGCGCTGATTGCCACGGCCATCGGCCTGTTCGCCGCGATTCCGGCCGTGATCGCCTACAACCGTTTCTCCGCACGCAGCGAAACCCTGATCGGCCGCTACTACACCTTCGCCGACGAGTTCCAGGCCATCCTGCACCGCAAGGTGCATGCAAGCGACGACTGA	METNVDHTSMWSLVSNASILVQLVMLILVAASVTSWIMIFQRGNAIRAARRALDVFEERFWSGIDLSKLYRQAGSNPDPDSGVEQIFRAGFKEFSRLRQQPGVDPDAVMDGVARAMRVAISREEEKLEQSLPFLATVGSTSPYIGLFGTVWGIMNSFRGLAQVQQATLATVAPGIAEALIATAIGLFAAIPAVIAYNRFSARSETLIGRYYTFADEFQAILHRKVHASDD	PGPT0003750_3582	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003750-exbB-K03561	NA	NA
BMS010_02683	444	ybgC_2	COG0824	Acyl-CoA thioester hydrolase YbgC	ATGCGCTCGCAAAACGGAGCTCAGCCGTTCGCCCATCGCTGTCGTGTCTACTATGAAGACACCGATGCCGGCGGCATCGTCTATTACGTCAATTACCTCAAATTCATGGAGCGGGCTCGCACCGAACGTCTGCGTGATCTGGGTTTCGCCCAGTCCGCGCTGGTGGGGGAGAACCTGCTGTTCGTCGTGCATTCCAGCGAAGCGCGTTATCACGCGCCGGCGCGTCTGGACGACGAACTGACGGTGAGCGCCGAAATAATCGAATTGAACCGTGCCAGCCTGCGCTTTCGTCAACAGGTGCGGCGGGTTGCGGATGATGCACTGCTCTGTGAAGGGCAGTTTCTGGTGGCCTGTGTGCGCGCCGACAGTCTGAAACCCCGGGCCATCCCCGAAGCGCTGCGCGCAGCCTTCGCCGGCACCGGTCTAGCCCTTGCAGGAGAGTAA	MRSQNGAQPFAHRCRVYYEDTDAGGIVYYVNYLKFMERARTERLRDLGFAQSALVGENLLFVVHSSEARYHAPARLDDELTVSAEIIELNRASLRFRQQVRRVADDALLCEGQFLVACVRADSLKPRAIPEALRAAFAGTGLALAGE	PGPT0009505_157	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009505-ybgC|fcbC1-K01075	NA	NA
BMS010_02684	1053	ruvB_2	COG2255	Holliday junction ATP-dependent DNA helicase RuvB	GTGATCGAAGCCGACCGCCTGATAACCGCCAGCAGTCGTGACCGCGACGAGCAAGTGGACCGCGCCATCCGGCCGTTGCAACTGGCCGAATACATCGGCCAGCCAGTGGTCCGCGAGCAGATGGAGCTGTTCATCCAGGCGGCCAAGGGACGCAAGGAGTCCCTGGATCACACGCTCATCTTCGGTCCGCCGGGCTTGGGTAAGACGACCCTGGCCAACATCATCGCCCAGGAAATGGGCGTGGCGATCAAGAGTACTTCCGGCCCCGTACTGGAGCGCCCTGGTGATCTCGCCGCGTTGCTGACCAACCTCGAACCCGGCGACGTGCTGTTCGTCGACGAAATCCATCGCCTGTCGCCCATCGTCGAGGAAGTGCTCTACCCCGCGATGGAAGATTTCCAGCTCGACATCATGATCGGCGAAGGCCCTGCCGCGCGGTCGATCAAACTGGACTTGCCGCCATTCACCTTGGTTGGCGCCACCACCCGAGCTGGCATGTTGACCAATCCGTTGCGCGACCGCTTTGGCATCGTCCAGCGCTTGGAGTTCTACTCGACGCAGGATCTGGCGACCATCGTCGACCGCGCCGCCGGCATCCTCGGTTTGCCCATCGAGCCGGAAGGGGCCTTCGAGATCGCTCGGCGCGCCCGTGGCACGCCGCGGATCGCCAATCGCCTGTTGCGTCGCGTCCGGGACTTTGCCGAAGTGCGCGGGGAAGGGCGCATCACCCGTGCGATCGCCGACCGGGCGCTGAATCTGCTGGATGTGGATGAGCGGGGATTCGATCACCAGGATCGCCGCCTGTTGCTGACCATGATCGACAAGTTCGATGGCGGTCCTGTCGGTATCGATAGCCTGGCTGCGGCCATCAGCGAAGAACGGCACACCATCGAGGACGTACTGGAGCCCTACCTGATTCAGCAGGGGTTCATCATGCGCACGCCCCGTGGACGGGTCGTGACGCGCCATGCCTACCTGCATTTCGGCCTGAACCTGCCCAAGCGTCTTAACGATGCGCCGACTGCCGACCTGTTCGGCGACGGCGGGGAGTGA	MIEADRLITASSRDRDEQVDRAIRPLQLAEYIGQPVVREQMELFIQAAKGRKESLDHTLIFGPPGLGKTTLANIIAQEMGVAIKSTSGPVLERPGDLAALLTNLEPGDVLFVDEIHRLSPIVEEVLYPAMEDFQLDIMIGEGPAARSIKLDLPPFTLVGATTRAGMLTNPLRDRFGIVQRLEFYSTQDLATIVDRAAGILGLPIEPEGAFEIARRARGTPRIANRLLRRVRDFAEVRGEGRITRAIADRALNLLDVDERGFDHQDRRLLLTMIDKFDGGPVGIDSLAAAISEERHTIEDVLEPYLIQQGFIMRTPRGRVVTRHAYLHFGLNLPKRLNDAPTADLFGDGGE				NA	NA	NA	NA	NA
BMS010_02685	606	ruvA_2	COG0632	Holliday junction ATP-dependent DNA helicase RuvA	GTGATCGGACGCCTGCGCGGCACCCTGGCGGAAAAACAGCCGCCACACCTGATCCTGGACGTGGGAGGTATCGGCTATGAATTGGAAGTGCCGATGACCACCCTGTATCGCCTGCCGTCCGTCGGAGAGCCGGTTACGCTGCACACGCATCTCGTCGTGAGGGAAGATGCCCAGCTGCTTTATGGCTTCTTCGAAAAGCGCGACCGAGAGCTGTTCCGTGAGCTGATCCGGCTCAATGGCGTCGGACCCAAGCTGGCGTTGGCCCTGATGTCCGGCCTGGAGGTCGATGAGCTGGTACGCTGTGTCCAGGCGCAAGATACCTCGACTCTGGTGAAGATTCCTGGGGTCGGCAAGAAAACCGCGGAGCGTCTGCTGGTCGAGTTGAAGGATCGCTTCAAAGCGTGGGAAACCATGCCCGGTATCGCTCCGTTGGTGGTTGAACCTCATGCCGGTGCGGCAGTCTCAAACGCCGGCAACGATGCTGTCAGCGCGCTGATTTCCCTTGGCTTCAAACCTCAGGAGGCGAGCCGAGCGGTAGCCGCGGTGCAGGAGGAAGGTTTGAGCAGTGAAGAATTGATCCGGCGTGCCCTGAAAGGAATGGTCTAA	MIGRLRGTLAEKQPPHLILDVGGIGYELEVPMTTLYRLPSVGEPVTLHTHLVVREDAQLLYGFFEKRDRELFRELIRLNGVGPKLALALMSGLEVDELVRCVQAQDTSTLVKIPGVGKKTAERLLVELKDRFKAWETMPGIAPLVVEPHAGAAVSNAGNDAVSALISLGFKPQEASRAVAAVQEEGLSSEELIRRALKGMV				NA	NA	NA	NA	NA
BMS010_02686	525	ruvC_2	COG0817	Crossover junction endodeoxyribonuclease RuvC	ATGACGCTGATCCTGGGGATTGACCCTGGTTCGAGAATCACCGGATTCGGTGTGGTACGCGATACCGGTCGTGGCTGCGAATATGTCGCGTCGGGCTGTATCCGTACCGGGAATGGTGCGTTGCACGAACGTCTGCAGATCGTCTATCGCGGTGTGCGCGAGATCATCCAGAGCTATGGCCCGGTGATGATGGGCATCGAACAGGTGTTCATGGCACGCAATGCGGACTCTGCGCTCAAGCTTGGCCAGGCACGTGGCGCCGCCATCGTGGCGGCAGCGGAAGAAGGGCTGGAAATTAGCGAATACACTGCGACTCAGGTCAAGCAGGCCATCGTCGGGACGGGAGCGGCTGACAAGCAACAAGTGCAGATGATGGTCATGCATCTCCTGAAACTGACCCAGAAGCCACAGATCGACGCTTCCGACGCCCTGGCCATTGCACTTTGCCATGCCCATAACCGACAAAGCCTGATTCCCCATGGACTGGTGGGCGCCAAGCGGCGCGGCGGCCGGTTGCGTTTATGA	MTLILGIDPGSRITGFGVVRDTGRGCEYVASGCIRTGNGALHERLQIVYRGVREIIQSYGPVMMGIEQVFMARNADSALKLGQARGAAIVAAAEEGLEISEYTATQVKQAIVGTGAADKQQVQMMVMHLLKLTQKPQIDASDALAIALCHAHNRQSLIPHGLVGAKRRGGRLRL				NA	NA	NA	NA	NA
BMS010_02687	750	pmpR	COG0217	Transcriptional regulatory protein PmpR	ATGGCTGGTCATTCCAAATGGGCCAACATCAAGCACCGCAAGGAACGTCAGGACGCCAAGCGCGGCAAGATCTTCACCAAGATTATTCGCGAGCTGACCGTCGCGGCCAAGCATGGCGGCGGCAACCCGGCGGACAACCCGCGTCTGCGCCTGGCCGTGGACAAGGCGCTGACCGCCAACATGACTCGTGACACCATCGATCGCGCCATTGCCCGTGGGGCCGGTTCGAACGATGCCGACAACATGGTCGAACTGAGCTATGAAGGCTATGCGCCGAGCGGCGTTGCGATCATCGTCGAGGCCATGACTGACAACCGTAATCGCACCGCGGCGGAAGTGCGTCACGCCTTCAGCAAGTGCGGCGGCAACCTGGGTACCGACGGTTCGGTGGCCTACATGTTCGATCGCAAGGGGCAGATCAGCTACGCGCCGGGCGTCGACGAGGACGCATTGATGGAAGCGGCGCTGGAAGCGGGCGCCGACGACGTGGTAGCCGCAGAGGACGGTTCGGTCGAGGTCTACACGTCCTTCGGCGACTTCCTGTCGGTGAACGAGGCGTTGACCGCTGCGGGATTCAAGGGCGATGAGGCGGAGGTGGCGATGATTCCTTCGATCACTGCGCCGATTGCCGACCTGGAAACCGCGCAGAAGGTCATGAAGCTGATCGATATGCTGGAAGATCTGGACGACGTGCAGAACGTCTACCACAACGCCGAAATTCCTGACGAGATCATGGAACAGCTGGGCTGA	MAGHSKWANIKHRKERQDAKRGKIFTKIIRELTVAAKHGGGNPADNPRLRLAVDKALTANMTRDTIDRAIARGAGSNDADNMVELSYEGYAPSGVAIIVEAMTDNRNRTAAEVRHAFSKCGGNLGTDGSVAYMFDRKGQISYAPGVDEDALMEAALEAGADDVVAAEDGSVEVYTSFGDFLSVNEALTAAGFKGDEAEVAMIPSITAPIADLETAQKVMKLIDMLEDLDDVQNVYHNAEIPDEIMEQLG				NA	NA	NA	NA	NA
BMS010_02688	1776	aspS_2	COG0173	Aspartate--tRNA(Asp/Asn) ligase	ATGATGCGCAGCCACTATTGCGGCCAACTGAACGAGAGCCTGGATGGGCAGGAAGTCACCCTTTGCGGTTGGGTACACCGCCGTCGCGACCATGGCGGGGTGATCTTCCTCGACATTCGTGACCGCGAAGGCCTGGCCCAGGTGGTATTCGATCCGGATCGCGCGGATACCTTCGCCACCGCCGACCGGGTGCGCAGCGAATACGTGGTCAAGATCACCGGCAAGGTGCGTCTGCGTCCGGCTGGAGCGGTCAACCCGAACATGGCTTCCGGCGCCATCGAAGTATTGGGCTACGAGCTGGAAGTGCTGAACCAGGCGGAAACGCCGCCGTTCCCGCTGGACGAGTATTCCGATGTCGGTGAAGAAACGCGTCTGCGTTATCGCTTCATCGATCTTCGCCGGCCGGAAATGGCCGCCAAGCTGAAGCTGCGCTCGCGCATCACCAGCAGCATCCGTCGTTACCTGGACGAAAACGGCTTCCTCGACGTGGAAACGCCGATCTTGACCCGGGCGACACCGGAAGGCGCGCGCGATTATCTGGTGCCGAGTCGCACCCATGCCGGCAGCTTCTTCGCTTTGCCGCAGTCCCCTCAGCTGTTCAAGCAGCTCCTGATGGTGGCCGGCTTCGATCGCTACTACCAGATCGCCAAGTGCTTCCGCGACGAGGACCTGCGTGCCGATCGCCAGCCGGAATTCACCCAGATCGACATCGAAACCAGCTTCCTCGATGAAAGCGACATCATGGGCATCACCGAGAGCATGATTCGCAAGTTGTTCAAGGAAGTGCTCGACCTGGAATTCGATGCCTTCCCGCACATGACCTTCGAAGAAGCCATGCGCCGCTACGGCTCGGACAAGCCGGACCTGCGTATTCCGCTGGAGTTGGTAGATGTCGCCGATCAGCTCAAGGAAGTGGAGTTCAAGGTGTTCAGCGGTCCGGCCAACGATGCGAAAGGGCGTGTCGCTGCACTGCGCGTACCGGGTGCTGCGAGCATGCCGCGCAGTCAGATCGATGACTACACCAAGTTCGTCGGAATCTACGGCGCCAAGGGCCTGGCCTACATCAAGGTCAACGAGCGCGCCAAGGGTGTCGAGGGGCTGCAGTCGCCGATCGTCAAGTTCATACCGGAAGCCAATCTCAATGTGATCCTCGATCGCGTCGGCGCGGTGGACGGGGATATCGTGTTCTTCGGCGCTGACAAGGCGAAGATCGTCAGCGAAGCCCTGGGTGCTCTGCGTATTCGCCTGGGCCATGACCTCAACCTGCTCACCTGCGAGTGGGCGCCGCTGTGGGTCGTGGATTTCCCGATGTTCGAAGAGAACGACGACGGCTCGCTCTCCGCGTTGCACCACCCGTTCACCTCGCCGAAGTGCACGCCGGCGGAGCTGGAGGCGAATCCGGCCGCAGCCCTGTCGCGCGCTTACGACATGGTCCTGAACGGTACCGAGCTGGGTGGTGGGTCCATCCGCATCCATAACAAGGAGATGCAGCAGGCGGTCTTCCGCGTACTGGGCATCAGCGAAGACGAGCAGCAGGAAAAATTCGGCTTCCTCCTCGACGCCCTGAAATTCGGTGCGCCGCCACATGGCGGACTGGCGTTCGGTCTGGACCGCCTGGTGATGTTGATGACTGGCGCTCAGTCGATCCGCGAAGTCATCGCTTTCCCGAAAACCCAGAGCGCGGCCTGCGTCATGACCCAGGCGCCGGGTGCGGTGGATGCGAAAGCACTGCGCGAGTTGCACATCCGCCTGCGCGAGCAGCCGAAAGCGGAATAA	MMRSHYCGQLNESLDGQEVTLCGWVHRRRDHGGVIFLDIRDREGLAQVVFDPDRADTFATADRVRSEYVVKITGKVRLRPAGAVNPNMASGAIEVLGYELEVLNQAETPPFPLDEYSDVGEETRLRYRFIDLRRPEMAAKLKLRSRITSSIRRYLDENGFLDVETPILTRATPEGARDYLVPSRTHAGSFFALPQSPQLFKQLLMVAGFDRYYQIAKCFRDEDLRADRQPEFTQIDIETSFLDESDIMGITESMIRKLFKEVLDLEFDAFPHMTFEEAMRRYGSDKPDLRIPLELVDVADQLKEVEFKVFSGPANDAKGRVAALRVPGAASMPRSQIDDYTKFVGIYGAKGLAYIKVNERAKGVEGLQSPIVKFIPEANLNVILDRVGAVDGDIVFFGADKAKIVSEALGALRIRLGHDLNLLTCEWAPLWVVDFPMFEENDDGSLSALHHPFTSPKCTPAELEANPAAALSRAYDMVLNGTELGGGSIRIHNKEMQQAVFRVLGISEDEQQEKFGFLLDALKFGAPPHGGLAFGLDRLVMLMTGAQSIREVIAFPKTQSAACVMTQAPGAVDAKALRELHIRLREQPKAE				NA	NA	NA	NA	NA
BMS010_02689	270			hypothetical protein	ATGCCTATTTATGAGTATCAGTGCGGGTCCTGTGGCCATCAGCTGGAAGCCATTCAGAAATTCAGCGATGCGCCATTGGTCGATTGTCCGACCTGCGATAAGCCTGAATTGAAGAAAATGCTTTCGATGCCTGGATTCCGCTTGAAGGGCGGGGGCTGGTACGAGACCGATTTCAAGACTGGCGCGAAGAAGAATCTGGCCGCTGGCGATAGCGCTCCAGCCTGCTCCGGCAATGGCTGTGGCGCCTCCGGTTGCTCCGCCGCCGATTGA	MPIYEYQCGSCGHQLEAIQKFSDAPLVDCPTCDKPELKKMLSMPGFRLKGGGWYETDFKTGAKKNLAAGDSAPACSGNGCGASGCSAAD				NA	NA	NA	NA	NA
BMS010_02690	819	sadH_2		Putative oxidoreductase SadH	ATGCACACACTTTCCGGCAAGGTAGCCGTGATCACCGGCGCCGCCTCGGGTATCGGCCGGGCATTGGCCGAACGCCTGGCCGGTGAAGGATGTCACCTAGCCCTTGCCGATATCGATGCACGAGGATTGGACGCCGCCGCAGCAGCGGTTCGAGCCCACGCACCGGCCGTCAGCCTGCATGTCCTGGATGTCTCCGACCGGAGTGCCGTCTACGCATTCGCTGACGACGTGCTGAATCAGCATGGCCGCGCCCATCTGATCATCAACAATGCCGGGGTCGCGGTAACGCAAACCATCGCGGAATTGAGCTACGACGATTTCGAATGGTTGATGGGCATCAACTTCTGGGGAGTTGTACATGGCACCAAGGCCTTCCTACCCCATCTGCTGAAAAACGGCGACGGTCACATCGTCAATCTTTCCAGCATCTTCGGCATCATCGGTATCCCGACCCAGGGTGCCTATAACGCCAGCAAATTCGCCGTTCGCGGCTTTACCGAAGCCTTGCGCCAGGAAATCCATGGCTCCGGTGTCTCCGTCAGTTGCGTCCACCCCGGCGGCATCAAGACCAACATCGCCCGCGCCGCGCGTTTCTACCAGAGCGTGGACGGCTGCCGGGACGCCAGCCAGGCCGCAGACCGCTTCGAGCGGCTGGCTCGCACTACCGCCTCACAGGCAGCCGAAGCCATCGTCAAAGGCATAAAGACGGGCAATCCCCGCATCCTCATCGGTGCCGATGCCCGCCTGCTCGACCGCATGCAGCGGCTGCTTCCCGCCGCCTACCCTCGCCTGCTTGCCAGATTGCTGCCCAAGCGATGA	MHTLSGKVAVITGAASGIGRALAERLAGEGCHLALADIDARGLDAAAAAVRAHAPAVSLHVLDVSDRSAVYAFADDVLNQHGRAHLIINNAGVAVTQTIAELSYDDFEWLMGINFWGVVHGTKAFLPHLLKNGDGHIVNLSSIFGIIGIPTQGAYNASKFAVRGFTEALRQEIHGSGVSVSCVHPGGIKTNIARAARFYQSVDGCRDASQAADRFERLARTTASQAAEAIVKGIKTGNPRILIGADARLLDRMQRLLPAAYPRLLARLLPKR				NA	NA	NA	NA	NA
BMS010_02691	471	dps2	COG0783	DNA protection during starvation protein 2	ATGGAAATCAACATCGGTATTGCCGAACAGGACCGCAAAGCCATCGCCGAAGGCCTGTCCCGACTGCTCGCGGACACCTATACCCTGTACCTGAAGACTCATAACTTCCACTGGAACGTCACCGGCCCGATGTTCAACACCCTGCACCTGATGTTCGAAGGCCAGTACAACGAACTGGCACTGGCCGTGGACTCCATCGCCGAACGTATCCGCGCCCTCGGCTTCCCCGCCCCCGGAACCTATGCTGCCTATGCCCGCCTGTCCTCCATCAAGGAAGAAGAGGAAGTGCCCTCCGCCCAGGACATGATCAAGCAGCTCGTTCAAGGCCAGGAAGCGGTAATCCGCACAGCCCGCGGCATTTTCCCGCTGCTCGAGAAGGTCAGCGACGAACCCACCGCCGACCTGCTGACCCAACGCATGCAAATCCATGAAAAGACCGCCTGGATGCTGCGCAGCCTGCTCGACGCCTAA	MEINIGIAEQDRKAIAEGLSRLLADTYTLYLKTHNFHWNVTGPMFNTLHLMFEGQYNELALAVDSIAERIRALGFPAPGTYAAYARLSSIKEEEEVPSAQDMIKQLVQGQEAVIRTARGIFPLLEKVSDEPTADLLTQRMQIHEKTAWMLRSLLDA	PGPT0004055_3269	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0004055-dps|dpsA-K04047	NA	NA
BMS010_02692	1065	vdcA		Diguanylate cyclase VdcA	ATGAGCCAGCCGAAAGCCCCCTCCATCCTTGAGCTGTATCCGGAAGAGACCCGAGAGGCGGCGGAACTCCTGAAACAGGCGGTACCGCACATGGTGCGTCACGATATTCCGCCGAATCCGATTCATTACGCGCTCTGGTATACCTACTGCAAAGGCCAGGAGCCCGAACTGAACAGGCGCCTGGACAAGATCGTCAAGGATTTCGCCAGTTTCCCCCCGGAAACCGCCGCCAAGCTCTTCCGCGATTACATCATCCGAGGAGAATTGGAAGAGGCTCGCGCGGGACAGCAGCAAGTTCTCGAACTGGTCGACGATATCGAGGGTGATGTTTCGCGCAGCGTGGTCGGCAGCCAAGCCTATCAGGCAAGTTTGAGCCAAGGTCTCGCCGCCCTGCATGAGCCGATCATCGATGACCTGCCCAACGTGCTCAATGAACTGCAACAAAGCACGCAGTTGATGCAGGAGCAGCAGGAAAAATTCCTCTACCGCTTACGCGCAGCCCAGACGGAAATCCAGAACCTGCGCAACCAACTGGAGCGCGCCCAAAGGGCCGCGACACTCGACAGCCTGACCCATGTCTTCAACCGGCATGCCTTCACCCGCCTGCTCGAACAGGCACTGAACACCGACCACCACGGGCTGGCGCTGGTAATGCTCGATATCGATCACTTCAAGCAGTTCAATGACCAGTACGGCCACCCCCTGGGCGATCGCGTTCTCCAGCATGTCGGCCAACTGTTGCGCGACCTGCTTCCTCCGCGTGCCATGGCAGCCCGTTACGGCGGCGAAGAGTTCTGCGTCATCCTACGCGACTGCTTCGACATGGAAACCGCCCAGCACTTCGCCGAGCAGCTACGCCTCAAGATCCAGGCCTTGCGTGTCAAGGTCCGCCGCACCGATCAGATACTGGACACCATTACGGCATCCTTCGGTATCACCTTGGCGGAATCCGGCGACGATCTGGAAAGCCTTATCACCCGCGCCGACGATGCGCTCTACCAAGCCAAGCGGAACGGTCGCAACCAGATCCATCCTCCCGTACCGGAAGCCGCGCTTAGCGCATGA	MSQPKAPSILELYPEETREAAELLKQAVPHMVRHDIPPNPIHYALWYTYCKGQEPELNRRLDKIVKDFASFPPETAAKLFRDYIIRGELEEARAGQQQVLELVDDIEGDVSRSVVGSQAYQASLSQGLAALHEPIIDDLPNVLNELQQSTQLMQEQQEKFLYRLRAAQTEIQNLRNQLERAQRAATLDSLTHVFNRHAFTRLLEQALNTDHHGLALVMLDIDHFKQFNDQYGHPLGDRVLQHVGQLLRDLLPPRAMAARYGGEEFCVILRDCFDMETAQHFAEQLRLKIQALRVKVRRTDQILDTITASFGITLAESGDDLESLITRADDALYQAKRNGRNQIHPPVPEAALSA				NA	NA	NA	NA	NA
BMS010_02693	606			hypothetical protein	ATGTTGAAAATCGTCCATCTCCTGACGGGCGCAGTTGCCTTGCTGCTGTCCTTTATTCCCAGCCTGCGCAGCGAAGCCCTGCCGTACCTGCAGCAACCCGATGCGATCTACCTGGCGCTGTTCGGCCTGCTCAATCTGCTGATCGTCCCAGCGCAACCCTCGACCAACCAACCCGCTCCTACACCCTGGCATATCCTGACCTCTCTCCTGCTGGTCCTGGCGGTGGTGCTGCAGACAATCGTCCTGCTCGTACCATTCCCTTATATCGCCGGCCAACCCGCCATCCTCTTCGGCCTGGCGTCGGCGATTGCAGCAGTACTGCTGAATCTTGCCATCACCTTCAAGCCGAGCCCCGTTCACCGACAGGACAGCCCCATCGCCGATGGCAATCGGGAAACCGGCACCGTCAAGTGGTTCAATACCTCCAAGGGTTTCGGCTTCATTTCGCGGGATAACGGCGAAGATATCTTCGTTCACTTCCGCGCCATTCGCGGCGAGGGCCACCGGGTCCTGGTAGAAGGCCAGCGCGTGGAGTTCTCCGTCATGCAAAGAGACAAAGGCCTGCAGGCAGAGGACGTAATCGCAGCCCTGCCCAGTCGTCGCTAA	MLKIVHLLTGAVALLLSFIPSLRSEALPYLQQPDAIYLALFGLLNLLIVPAQPSTNQPAPTPWHILTSLLLVLAVVLQTIVLLVPFPYIAGQPAILFGLASAIAAVLLNLAITFKPSPVHRQDSPIADGNRETGTVKWFNTSKGFGFISRDNGEDIFVHFRAIRGEGHRVLVEGQRVEFSVMQRDKGLQAEDVIAALPSRR	PGPT0014675_329	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
BMS010_02694	207	slyX_2		Protein SlyX	ATGAGTCTCGAAATACGAATCACCGACTTGGAAACCCGGTTGGCGTTCCAGGATGACACCATCCAGGCACTCAATGATGTGCTGGTCGCTCAGCAGCGTGTGCTCGAGCGCCTGCAGTTGCAGGTCGAAATGTTGTCGAAGCGTCAGGACGAATTGCAGGGGCAGTTCGGTATCGATGAAGACGAGGCGCCACCGCCTCATTATTGA	MSLEIRITDLETRLAFQDDTIQALNDVLVAQQRVLERLQLQVEMLSKRQDELQGQFGIDEDEAPPPHY				NA	NA	NA	NA	NA
BMS010_02695	429			hypothetical protein	ATGTTCGTCTTGGATTCACGCTTACAGCAGGACACTGTCTCGATTGGCGATTTCCCCTTGTGTCGCCTGCTGCTGATGAATGACGCCAATTATCCCTGGTTCATCCTCGTTCCTCGGCGGGAAGAGGTCAGTGAGCTGTTCCAGTTGGATGCTGCCGACCAATTGGCGTTGTGGCAGGAAACCACTGCCCTGGCGGAGACGCTGAAAGATACCTTTCGTGCCGATAAGATGAATATCGCTGCATTGGGTAACGTGGTCAGTCAGTTGCACATGCATGTGATTGTCCGCCGTCGAGACGATGCGGCATGGCCTGCCCCTGTCTGGGGACGGCATCCTGCGAAACCGTACGATGCGAAACAGATCGATGAGATCCGTGCCAAGCTCCGTCTGGTCTTGACGGAGGATTTCCATTTTGGGGGTGAGTCATGA	MFVLDSRLQQDTVSIGDFPLCRLLLMNDANYPWFILVPRREEVSELFQLDAADQLALWQETTALAETLKDTFRADKMNIAALGNVVSQLHMHVIVRRRDDAAWPAPVWGRHPAKPYDAKQIDEIRAKLRLVLTEDFHFGGES	PGPT0005685_256	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_CHLOROBENZENE_DEGRADATION,PGPT0005685-catA-K01061	NA	NA
BMS010_02696	1281	oprD_1		Porin D	ATGCAAGTGATGAAGTGGAGCGTAATCGCCCTGGCCGTGGCCGTGGGCACCACTCAAATGGCAGTAGCGTCCAGCCAATCCGAATCCAAGGGATTTATCGAGGACAGCAGCTTCGATATCTTTAACCGTGTTCTGTATCAGAACCGCGATTTCAAAAACGGAGCAAGCAACGGCGCAAGCGACTCCGCTAACCCTGCCGGCTATCGCGAAGAGACTGGTCTGGGCATCCGCCTGCTGTTCGAGTCCGGTTTCACCCAGGGTACTGTTGGTGTTGGTTTCGACGCTCACTCCCTCTCCAGCATCAAGCTTGACAGCGGTCGTGGCCGCGTTGGCACAGGCCAATTCGATAAAGATAGCGATGGTCGCGGCGAAGACACCCAGACTGAAGTCGGCGGAGCCATCAAGTTCCGCATCTCTGACACCGTACTGAAGTATGGCAATCAGTTCGTCGCCAGCCCGGTATTCAGCACAGACGATAGCCGTATCCTTCCGGAAACCGCTACCGGCACCTACTTGGTCAGCAATGAGATTGAAGGTCTTGAACTGAGCGCTGGTCGCTTTACCGCTCTGAGCAGCCAGACCAGCACTGATCGCGACACTTTTGGCCTGAAGTCTGCCAACATTGTAGGCGCTAGCTATAGCTTTACCGATAACTTCAGTGGCTCCGTACATGCTTCCGATGTCGAAGATTTCTGGAAGAAGTACTATGCAAACTTGAATTACAACCTGCCGCTGGCCGAAGAACAGGCACTGAACTTCGACTTCAACATCTACAAGACTGATTACGACGACAAGTACTCCAACGACGAGTTCGACAAAAACACTCTTTGGAGCTTGGCAACTGCCTATAGCCTGGGGGCCCACAAGTTCACCCTGGCCTACCAGCGCTCGAGTGGCGATCATGCCTACGATTATGGCGTTGACGGTAACGGCACCATTTTCGTGGCCAACTCGGTCCAGTTCTCCGACTACAACGGCGAGGACGAGAGATCTTGGCAGGCTCGCTACGACCTGAACATGGCTTCCTATGGTGTGCCGGGCCTGAGCTTTATGACCCGTTACATTACTGGCGACAATATCACCACCTCCTCCGGCACCGAAGGTAAGGAGCACGAGTGGAACGTCGAAGCCAAATACGTAATCCAGGAGGGCGCAGCCAAAGACCTGTCCTTCCGTGTCCGTCATGCAGTATGGCGCGCCAACGACGCCTATAACGCGGACTATTCCTCCGACCTGAACGATACTCGTCTGATCGTTGAGTACCCGCTGGACGTGCTGTGA	MQVMKWSVIALAVAVGTTQMAVASSQSESKGFIEDSSFDIFNRVLYQNRDFKNGASNGASDSANPAGYREETGLGIRLLFESGFTQGTVGVGFDAHSLSSIKLDSGRGRVGTGQFDKDSDGRGEDTQTEVGGAIKFRISDTVLKYGNQFVASPVFSTDDSRILPETATGTYLVSNEIEGLELSAGRFTALSSQTSTDRDTFGLKSANIVGASYSFTDNFSGSVHASDVEDFWKKYYANLNYNLPLAEEQALNFDFNIYKTDYDDKYSNDEFDKNTLWSLATAYSLGAHKFTLAYQRSSGDHAYDYGVDGNGTIFVANSVQFSDYNGEDERSWQARYDLNMASYGVPGLSFMTRYITGDNITTSSGTEGKEHEWNVEAKYVIQEGAAKDLSFRVRHAVWRANDAYNADYSSDLNDTRLIVEYPLDVL	PGPT0028135_216	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028135-oprD-K18093	NA	NA
BMS010_02697	417			hypothetical protein	GTGACGGTATTGACTGCTGAGCAAGTACAGGCCCTGATCCGCGCGGGACTGCCGATGGCCGAGGATATCAACCTGTACATCGACCGATTGGATGCACAGGGCGTGCTGGCGCGGGTTCCATTCAGCGCCAAGTTGGTGCGCCCCGGTGGCACTCTTTCCGGGCCGACCATCATGGCGTTGGCGGATGCCGCCATGTACGCGGTAGTGCTGGGTCGTCTGGGGCGGGTAGAAATGGCGGTGACTTCGAACCTGAATATCAACTTTCTGGTCAAGCCGAAGCCGGTGGATTTGTTGGCTGAAGCCACGATCCTACGGCTGAGTCGGCGCCAGGCGGTGTGTGAGGTGTCGTTGTATTCGGCGGGTAATGAGGAGGAGTTGGTGGCGCATGTAACGGGTACTTATGCGTTGCCGATTTAA	MTVLTAEQVQALIRAGLPMAEDINLYIDRLDAQGVLARVPFSAKLVRPGGTLSGPTIMALADAAMYAVVLGRLGRVEMAVTSNLNINFLVKPKPVDLLAEATILRLSRRQAVCEVSLYSAGNEEELVAHVTGTYALPI				NA	NA	NA	NA	NA
BMS010_02698	1716	proS_1	COG0442	Proline--tRNA ligase	ATGCGTACCAGTCAGTACCTGCTCTCGACTCTCAAAGAAACGCCTTCCGACGCCGTGGTGATCAGCCATCAACTGATGCTGCGCGCCGGCATGATCCGCAAACTTGCCTCGGGCCTCTATACGTGGCTGCCGATGGGCTTACGGGTTCTCCGCAAGGTCGAGACCATCGTTCGCGAGGAAATGAATGCCGCCGGCGCGCTCGAAGTGTTGATGCCGGCCATCCAACCCGCCGAACTCTGGCAGGAATCGGGGCGCTGGGAGCAGTATGGTCCCGAGTTGCTGCGATTGAAGGACCGCCATGAGCGCGACTTCTGCGTCGGCCCGACCCACGAAGAGGTCATTACCGACCTGATGCGCAACGAACTGAACAGCTACAAGCAGTTGCCGCTCAACGTTTACCAGATCCAGACCAAATTCCGTGACGAAATTCGTCCGCGCTTCGGTTTGATGCGCGGACGCGAGTTCGTCATGAAGGATGCCTACTCCTTCCATTTGAGCCAGGAATCCTTGCAGGAAACCTATGACCGCATGCACCAGGCGTATTGCAATGTCTTCACTCGCCTCGGTCTGAATTTCCGCCCGGTGCAAGCCGATACCGGCTCCATCGGCGGTACGGGCTCCCACGAATTCCACGTACTGGCCGAGTCCGGCGAAGACGACATCGCCTTCAGCGACAGCTCGGACTACGCCGCCAACATCGAAAAGGCCGAAGCGCTGCCCCGGGAGACGGAACGCCCGGCGCCGAGCGAAGAACTGCGTCTGGTCGACACACCGAACACCAAGACCATCGCCGACCTGGTGGAAAAATTCGGCCTGCCGATCGAAAAGACCATCAAGACCCTGGTGGTTCGCGGCGCCGAAGAAGGCACCTTGATCGCCCTGATCGTTCGTGGCGACCATGAGCTGAACGAGATCAAGGCGGCCAATCTGGAACAGGTAGCCAGCCCGCTAGTGTTCGCCTCGGAAGCCGAACTGCGTGCCGCTATCGGCGCTGGTGCCGGCTCTCTTGGCCCACTGAACCTGCCCTTGCCCTGCATCGTCGACCGCTCCGTCGCCCTGATGAGCGATTTCGCCATCGGTGCCAACATCGACGACAAACACTACTTTGGCGTCAACTGGGAGCGCGACCTGCCGCTGCCGACTGTCGCCGACCTGCGCAACGTGATCGCCGGCGACCCCAGCCCGGACGGCAAGGGGACCCTGGTGATCAAGCGCGGCATCGAAGTCGGGCATATCTTCCAGCTCGGTACCAAGTACAGCGAGGCCATGAAGCTCAACGTCCTCAGCGAGCAGGGCAAGCCCACCACGCTGATCATGGGCTGCTACGGTATCGGCGTCTCCCGTGTGGTCGCGGCGGCCATCGAGCAGAATTACGACGAGCGCGGCATTCTCTGGCCGGACGCCCTGTCGCCGTTCCAAATCGCCTTGGTGCCCTTGAAGTACGAGACCGCAGAAGTGAAGCAGGTTACCGACAAGCTTTACGCGGACCTGACTGCCGCCGGCTTCGAAGTCCTGCTGGACGACCGCGACAAGAAAACCAGCCCCGGCATCAAATTTGCCGACATGGAGCTGATCGGCATCCCGCACCGCATTGTGGTGAGCGATCGAGGGCTGGCCGAAGGTAAGCTGGAGTACAAGAACCGCCGCGAAGCCGACGCCCACTCGGTCCCGGTCGATGAAGTGCTGTCGTTCCTCTCCGCCCGTATTCGTCGCTGA	MRTSQYLLSTLKETPSDAVVISHQLMLRAGMIRKLASGLYTWLPMGLRVLRKVETIVREEMNAAGALEVLMPAIQPAELWQESGRWEQYGPELLRLKDRHERDFCVGPTHEEVITDLMRNELNSYKQLPLNVYQIQTKFRDEIRPRFGLMRGREFVMKDAYSFHLSQESLQETYDRMHQAYCNVFTRLGLNFRPVQADTGSIGGTGSHEFHVLAESGEDDIAFSDSSDYAANIEKAEALPRETERPAPSEELRLVDTPNTKTIADLVEKFGLPIEKTIKTLVVRGAEEGTLIALIVRGDHELNEIKAANLEQVASPLVFASEAELRAAIGAGAGSLGPLNLPLPCIVDRSVALMSDFAIGANIDDKHYFGVNWERDLPLPTVADLRNVIAGDPSPDGKGTLVIKRGIEVGHIFQLGTKYSEAMKLNVLSEQGKPTTLIMGCYGIGVSRVVAAAIEQNYDERGILWPDALSPFQIALVPLKYETAEVKQVTDKLYADLTAAGFEVLLDDRDKKTSPGIKFADMELIGIPHRIVVSDRGLAEGKLEYKNRREADAHSVPVDEVLSFLSARIRR				NA	NA	NA	NA	NA
BMS010_02699	954			hypothetical protein	ATGTTCAAGCGAAGTCCCTTACGCCTTGCTGGTGCCGCGCTGTGCGGCACCCTCTTCCTGAGCGGCTGCGCCAATCATCTTCCCCAGCGCAGCGAGCATGAAGAACGAGTCGAACGCAAGTTGCTGGACCACAGCCTGCAGATCGATGTCGGCGAGCCACGCGTGCTCGAATTGCCGCAGCGGCGGATTCGCATCCACGAACAGAAGACATTCGAAGTCACCGCTTTCGAAGTTACGCGCCGTTACGATCGCTATACGCCTTATCAACCCTGGCGTGAGATCTACGAGATTCCCCTGGGCGCGGTTGCCGTCGTAGCGGGCATCGGTGCCAATGCGCTCAACGTGGTCATGCTCGGCAGCCTGCCGGATACCGCGACCAAGGATTGGATCAGCTACGGTTTTGCCGGGCTCAACCCGTTCATGAACGTGGAGTCCAACGGACGCTCCCAGCAGAATCTGGCCGATCTGGACGAAAAGCAGCAGGACAAGCGCATGGAGTACTCGAGCCTGCCCTGGGCAGAACGCCCTGTGCTGATCAAGGCCGGGGAACAGACCCATGAGCTGTTGACGGACCGTAACGGCGTTCTGCGCCTCAATCTGCTCGATGGCCCTTTCGCTGAGCACGACGTGAACCGCCTGGGTACCCTGCTGCTCAGCGTCGAGGACCCTCAGGACGGAGTTCGCGCGGAAGCCACGTTATTGGTCAGCCGAACCTTGCGCGGCAAGTTGCAGGAAGCTCATGCGCTGATCTTCGACGATCTGGAAGACGATGACGTCGACCAGTGGGTACACCGAGTCCGACGTCTTTCCGAACTGGGCCTTGAAGAAGAAGCCAGCGAACTGGAGCAGAGTCTCATCGAGCTGACCCGGAACGATCCAGAGCTGCAACAGGAATTCCTGAAGGCCCTGACCAAAGACGGCCGCTTGGTGGCCGACCCCGGCGAAGATCAGTGA	MFKRSPLRLAGAALCGTLFLSGCANHLPQRSEHEERVERKLLDHSLQIDVGEPRVLELPQRRIRIHEQKTFEVTAFEVTRRYDRYTPYQPWREIYEIPLGAVAVVAGIGANALNVVMLGSLPDTATKDWISYGFAGLNPFMNVESNGRSQQNLADLDEKQQDKRMEYSSLPWAERPVLIKAGEQTHELLTDRNGVLRLNLLDGPFAEHDVNRLGTLLLSVEDPQDGVRAEATLLVSRTLRGKLQEAHALIFDDLEDDDVDQWVHRVRRLSELGLEEEASELEQSLIELTRNDPELQQEFLKALTKDGRLVADPGEDQ				NA	NA	NA	NA	NA
BMS010_02700	276	yccX	COG1254	Acylphosphatase	ATGGCACGCATCTGTTTACATGGTTTCGTCAGCGGCCGAGTACAGGGCGTCAGTTATCGGCAGGCGACTGCGAGTCAGGCTGAACGCCTGGACCTCGATGGTTGGGTGCGCAACGTGGCTGACGGGCGGGTAGAGGTGTTGGTCGAAGGAGAAGAGAATGCTGTCCAGGAGTTGGTTTCCTGGTTGGAGAAAGGACCGGCGAAGGCCAAGGTCGAGGCGGTCGAGCTGGAGCAGCAACCGTTGCAGGGCATCGTCGGTTTTATCGTGCGCGCGTGA	MARICLHGFVSGRVQGVSYRQATASQAERLDLDGWVRNVADGRVEVLVEGEENAVQELVSWLEKGPAKAKVEAVELEQQPLQGIVGFIVRA	PGPT0001372_2816	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-ACETIC_ACID_BIOSYNTHESIS,PGPT0001372-acyP|yccX-K01512	NA	NA
BMS010_02701	468	resA	COG0526	Thiol-disulfide oxidoreductase ResA	ATGGGAACGCAACTTCGGGTTTTCATGGGAATAGTCGCCGGGTTGCTTCTGAGCGGTTGTGCCGAGGACCTGGGTCTCGATCAGCATGGGCGAAAGGTAACGGCTGCCGAACTGGATGGCCAGTGGTTGGTGATCAATTACTGGGCGGAATGGTGCAAGCCCTGCCGTAGTGAAATTCCTCAGTTGAACCTGCTGGCCGAACGGATGAAAAACCAGGGGGTCGTTGTACTGGGGGTCAACTTCGATGGGTTGCAGGGTACCGAGCTGACCCGGTCCAGCGATACGATGAAGATCGATTTCCGTGTTCTGGAGAAGGACCCATCCGAACGCTTCCAACTGCCACGCAATGAAGTACTGCCGGTGACCTATCTCGTCGATGGGCAAGGGCGAATGCGTGAGCGCTTGTTGGGCGAGCAGACTGCGGCTGGGCTCATCGCTCGGCTGAAAGACTTACGAGATGAGGGTTGA	MGTQLRVFMGIVAGLLLSGCAEDLGLDQHGRKVTAAELDGQWLVINYWAEWCKPCRSEIPQLNLLAERMKNQGVVVLGVNFDGLQGTELTRSSDTMKIDFRVLEKDPSERFQLPRNEVLPVTYLVDGQGRMRERLLGEQTAAGLIARLKDLRDEG				NA	NA	NA	NA	NA
BMS010_02702	1377			hypothetical protein	TTGCGTATCGAGGTACCGGACCTCCTCGAGGAAAACTGCGTCCCGCTGGCCCACCTCAACGCAGCACTCATCGAGGCCCGTCAGCAACGCCCCGAGCAGGGCCTACGGCAGGTATTGGATCTGCTATCGCGGCATAACCGCAGCGCCATGACCTTACTTGAAAGGCAGCGGGGCCTGCAAAGCATCAGCGAAGAATATCGTCATTATGCATCTGCGGCGGGATCTTCCCCCTGCCCCTTGCTCGTCGGTCTTTGCAACGAACTGGCGACAGGCTTCAAGCGTCTGCTCCTGCAGATGCTGCAAGGCCGAGCGCCATCGCGACCCCATCTGGCCTGGTGCCTGTACACGGCCCAGTATTTTCTTGGGCAAAGCCAGCTTCGTCATTACGAACGCTACCAGGAGCCCTCCCCAACGTCATGGCGCGACAGCCACCAGCTCTACTGCCTGGCTGAACGCCACGAGTGCCTGGATGAGCAGGTTGCCGCCGCTTTCCAGCCGACCGCTGCCAGCAGCCTGCGTGGTCTCTATCAGCAGGGACTGCTGCTCGCCTTGAGCAATCCCTTCCACCTGGCCGAAGGCGAATGCCTCTTGCTGTTCAAGGCTCTCGCGCCCCTCGCCGATCTCGCTCGCCTGCTGCCCTGGGACGAGGAAGCCGAAGGACCGACTATCGATCTGCGCGAGGCACACCCCTTCGTCATGGACGACCATCCGCCACAGGACAGCAGCTTTCTTCGTCGATTCGAGCCCGGTGCGCTGGCAGTGGCATTGAATGAAGCGGCCCCGTTGCGCAGCTCGGCGGAACACGCATTGCTCGAACGGGTAAGACCCCATTGGCTGGGACGTCCGCAACGCCGGCATCCCCGCACCGAGAACCAAGGGTCATGCGATCTGGCCATCGGCTTGGCCGCCATCCATGCGCAACTGCTGGAACAACGACCGTCCCTATCTTCAGCCCGTCTCGTCGATTCGAGCGTAGGCGGCGCGCGCTTGCTCTGTCAGGCAGCGCAAGCCGCACAGATTCCCGTAGGGCAACTCGTCCTGCTGTTGGGCAGCAGCGGAACGAGCAGCTTGGCCTTGGTGCGCTGGCGCCACATCAACGATGAAGGCTTGCATCTGGGGTTACGCTATTTGAAAGGACTGGCACGGCCGGTCTGGTTGCGCCGCACGCCCAGCGCACAAACGCATCCGGGCATATTGCAAAGCACCCCTGTGGGCAGCGCCTGGCATCATGGCTTATGGCTATGCAGCGGACAGTTCTCGGAAGGGGAGCAGCTCTGGCTTCAACTCAGTAGCGCTCCGAGTCAGGCGACCCTGGCTTTACCGACATCGAACCTGTCGACGCCGCTGGTCGAAAGGCACCCGTTGCGCCTCGCTTGA	MRIEVPDLLEENCVPLAHLNAALIEARQQRPEQGLRQVLDLLSRHNRSAMTLLERQRGLQSISEEYRHYASAAGSSPCPLLVGLCNELATGFKRLLLQMLQGRAPSRPHLAWCLYTAQYFLGQSQLRHYERYQEPSPTSWRDSHQLYCLAERHECLDEQVAAAFQPTAASSLRGLYQQGLLLALSNPFHLAEGECLLLFKALAPLADLARLLPWDEEAEGPTIDLREAHPFVMDDHPPQDSSFLRRFEPGALAVALNEAAPLRSSAEHALLERVRPHWLGRPQRRHPRTENQGSCDLAIGLAAIHAQLLEQRPSLSSARLVDSSVGGARLLCQAAQAAQIPVGQLVLLLGSSGTSSLALVRWRHINDEGLHLGLRYLKGLARPVWLRRTPSAQTHPGILQSTPVGSAWHHGLWLCSGQFSEGEQLWLQLSSAPSQATLALPTSNLSTPLVERHPLRLA	PGPT0016080_364	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-c-di-GMP_SIGNALLING_PATHWAY,PGPT0016080-fimW-K23127	NA	NA
BMS010_02703	393			hypothetical protein	ATGTCCAAAGCCCATGACAAGCTGATCGGCCCCGTGCCGTCCCGAATCGTCAATGCCGCTCGCCTGATAGTCACGGCCTACGAAGGCCGCGTCGCCGAATACAACGTTGCCTCCTGGTTGCAACTGCCCGGCCTGGCCAACCTGCCAGTCTCCCTGATGGTGACCTACCGCGACGGCGACAAGCAGCGTGAAGTCAATGTCGACCATGGCACAACCAATGCCCATGGCAAGATCCTGCTCTCCGGCATCGGTCGGTTGCCGGTGAAAGTGAAGATCGAAGATATGCAGGTAAAACTGCGCTCGGCAGTACCCGTGCAAAGCCTCATCGTCGAGGAACTTTTTGTCCAGGCCGTGGAAATGGCCGAAGCGGACAATCGCCAAGCCCTCGCCTGA	MSKAHDKLIGPVPSRIVNAARLIVTAYEGRVAEYNVASWLQLPGLANLPVSLMVTYRDGDKQREVNVDHGTTNAHGKILLSGIGRLPVKVKIEDMQVKLRSAVPVQSLIVEELFVQAVEMAEADNRQALA				NA	NA	NA	NA	NA
BMS010_02704	282			hypothetical protein	ATGCTGGCACGCTTCTGGCAAAACCCGATTGGGTTTGCGATCGTTCTGCTGGCGGGGCAGGGATTAGCTGAGGAATTTCGGTTTATGAGTGGTGCCAAGGACAAAGTGATTCATCTGCATCGGAGAGATCCTCAGGAGGCGCTGGAGCGGCTCAATCGGATCACCGGGCTGAAATTCGTCCATTGGCCTGAGTCTTTGGCCGGGTTGGCGGTGCAGGAGTTTGAGACAACACTCGACGATCAGCCCTCACCGCCGCCAGTGGTGAGTATTTCGAGGGGCTGA	MLARFWQNPIGFAIVLLAGQGLAEEFRFMSGAKDKVIHLHRRDPQEALERLNRITGLKFVHWPESLAGLAVQEFETTLDDQPSPPPVVSISRG				NA	NA	NA	NA	NA
BMS010_02705	1221			hypothetical protein	ATGCGCCAACGCTTCGACGATTTTCTGGAATTCTGGCGCTATCTGGTTCAGCGTTTCCTGACCGACCGCGGTGCTCATAGTGCGGCGGCGCTGACCTATACCACGCTATTCGCGGTCGTCCCGATGATGACCGTGACCTTCGCCATGCTGTCGGCCATCCCGGCATTCCAGGGCATGAGCGAGGAAATCCAGGGGTTCATCTTCCGCAATTTCGTGCCGTCCACGGGCGTGACGGTGCAAGAGTATCTGCGCGCTTTCACCGCACAGGCCCGGCAACTGACCTGGATCGGCGTGGGCTTTCTGATGGTTACGGCGTTGATGATGCTGCTGACCATCGAGAAGGCCTTCAACACCATCTGGCGGGTTCGTCAGCCACGCCGTGGCGTGTCCAGTTTTCTTCTTTACTGGGCGATCCTCAGCCTTGGGCCGTTGCTACTGGGAGCGGGATTCGCGGTGAGTACCTACGTGACTTCGCTGTCGCTGCTGTCCGGGCCCGATGCGCTGGTCGGGGCGAAGACGGCGCTGAGCTTCATGCCGCTGGTGTTCAGTGTCGCGGCCTTTACCCTGCTGTATGCGGCAGTGCCGAATGCTCGGGTGCCGGTCCGCCATGCGCTGCTCGGCGGCCTGTTCACGGCGGTCCTGTTCGAGGCTGCGAAAGGGTTGTTCAGCCTCTATGTCAGCCTGTTTCCGGGCTATCAGCTGATCTATGGCGCTTTCGCCACGGTGCCGTTGTTCCTGCTGTGGATCTATCTGTCCTGGCTGATCGTGCTGTTCGGTGCGGAGCTGGTCTGCAACCTGTCCTCGTCGCGCCAATGGCGACGGCGTGCCCTGCCGCGACTGCTGGTGGTGTTGGGCATCCTCAGGGTTTTCCTTCAGCGACAGCAGCGCGGCCATCCGGTGCGTCATGCGGATGTGCAGCGCGAAGGTTGGCCACTGCCCGAAGACGAATGGGAGGAGATCATCGATTTCCTGGAGCGCGAGAAGTTGGTCTGTCGTACCAGCGCGGGTGCCTGGGTATTGTGTCGCGACCTGACTCATTACAGTATGGCGCAGCTCCTGCGTCATAGCCCGTGGCCATTACCCAGGCCGGAACAACTCCAGGCACACTTGAACGAAGACTGGTATCAGCCCTTGAAGGAGGCGTTGCAACGTTTGCACGAGGTGCAGGGAGAGTTGTTCGGTACCAGTCTGAGCGAGTGGTTGCACGCTCCCGGTGAGTGA	MRQRFDDFLEFWRYLVQRFLTDRGAHSAAALTYTTLFAVVPMMTVTFAMLSAIPAFQGMSEEIQGFIFRNFVPSTGVTVQEYLRAFTAQARQLTWIGVGFLMVTALMMLLTIEKAFNTIWRVRQPRRGVSSFLLYWAILSLGPLLLGAGFAVSTYVTSLSLLSGPDALVGAKTALSFMPLVFSVAAFTLLYAAVPNARVPVRHALLGGLFTAVLFEAAKGLFSLYVSLFPGYQLIYGAFATVPLFLLWIYLSWLIVLFGAELVCNLSSSRQWRRRALPRLLVVLGILRVFLQRQQRGHPVRHADVQREGWPLPEDEWEEIIDFLEREKLVCRTSAGAWVLCRDLTHYSMAQLLRHSPWPLPRPEQLQAHLNEDWYQPLKEALQRLHEVQGELFGTSLSEWLHAPGE	PGPT0014525_1145	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014525-yfkH-K07058	NA	NA
BMS010_02706	354	yfgD	COG1393	putative protein YfgD	ATGACCGATCTGACGCTCTATCACAATCCGCGCTGCTCGAAATCCCGTGGCGCACTGGAATTGCTCGAAGCCCGGGGCCTGGCTCCGGCGGTCGTGCGCTATCTGGAAACCCCGCCCGACGAAGCGCAACTGCGCGAACTGCTGCGCAAGCTCGGCCTGCCTGCCCGACAACTGCTGCGCAGTGGTGAAGACGAATACAAGACGCTTGGCCTGGCTGATCCCGCACTCGGCGAAGATGCCCTGATCGCAGCGATGGTGGCCCATCCCAAGCTTATCGAACGTCCGATCCTGGTGGTCGGAGACAAGGCCGTGATCGGTCGGCCGCCGGAAAAGGTGCTGGAGATCCTTCCGTGA	MTDLTLYHNPRCSKSRGALELLEARGLAPAVVRYLETPPDEAQLRELLRKLGLPARQLLRSGEDEYKTLGLADPALGEDALIAAMVAHPKLIERPILVVGDKAVIGRPPEKVLEILP	PGPT0004720_2875	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0004720-arsC1-K00537	NA	NA
BMS010_02707	606		COG0655	NAD(P)H dehydrogenase (quinone)	GTGAGCCAGCCTTATATCCTGGTCCTGTATTACAGCCGCCACGGCGCCACTGCGGAGATGGCCCGGCAGATCGCCCGCGGCGTGGAGCAAGGCGGCCTGGAAGCGCGCCTGCGCACGGTGCCCGCCGTTTCGACGGAATGCGAAGCCGTCGCACCCGATATTCCTGCCGAGGGCGCCCTCTATGCCAGCCTGGACGACCTGAAGGGATGCGCCGGACTGGCGCTGGGCAGTCCCACCCGCTTCGGTAACATGGCAGCCCCGCTGAAATACTTCCTCGACGGTACCAGCAGCCTATGGTTGACCGGCGAGTTGGTCGGCAAACCGGCGGCCGTCTTCACCTCCACCGCCAGCCTTCATGGTGGTCAGGAAACCACCTTGTTATCCATGCTGCTGCCGCTGCTCCACCACGGCATGCTGGCCATGGGTATCCCCTATAGCGAACCCGCCTTGCTGGAAACCCGTGGCGGCGGCACGCCCTATGGCGCCAGCCACCATGCCGGAGCGGACGGCAAACGCCCGCTGGACGAACAGGAAATCGCACTCTGCCGCGCCCTTGGCCAACGTCTCGCACAAACCGCGGCACTGCTGGAGAAAGGCCGTGGCTAG	MSQPYILVLYYSRHGATAEMARQIARGVEQGGLEARLRTVPAVSTECEAVAPDIPAEGALYASLDDLKGCAGLALGSPTRFGNMAAPLKYFLDGTSSLWLTGELVGKPAAVFTSTASLHGGQETTLLSMLLPLLHHGMLAMGIPYSEPALLETRGGGTPYGASHHAGADGKRPLDEQEIALCRALGQRLAQTAALLEKGRG	PGPT0009460_1596	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009460-wrbA-K03809	NA	NA
BMS010_02708	411			hypothetical protein	GTGGCTAGAAAAGCGAAACCATTGCCGTCCCTGGAATGGCTGCAACCACGCCTCACCTTCAGTCGTGCAATGAGCCTGGCGAGCCTGGTCGCCCTGGCTGCGCTGCTGCTTCTGTGGAACCTGCTGTTCGCCGACCTTCATGGCGCCAGGACCTGGGTCGTACTGAGCATTCAGCTTCTGCCGCTGCTGCTGGTCGCGCCGGGCGTACTGCTCGGTAATGCCCGTGCGCATGCCTGGACCTGTTTCGTGGTCAACATCTACTTCATCCAAGGCGTGCTCGCCGCAATCGATCCGGGCCGAATGCTGTTCGGTTGGCTGGAAGCGCTGTTCAGCCTGAGCCTGTTCTGTGCGGCGCTGCTCTATACGCGTTGGCGTTTCCAGTACGACCGTCGGCTGGCGGGAGAAAGCTGA	MARKAKPLPSLEWLQPRLTFSRAMSLASLVALAALLLLWNLLFADLHGARTWVVLSIQLLPLLLVAPGVLLGNARAHAWTCFVVNIYFIQGVLAAIDPGRMLFGWLEALFSLSLFCAALLYTRWRFQYDRRLAGES				NA	NA	NA	NA	NA
BMS010_02709	705	hda	COG0593	DnaA regulatory inactivator Hda	ATGAAACCGACCCAGCTTTCCCTAGGGGTGCGTCTGCGCGACGACGCCACCTTTGCCAATTACTACCCCGGTGCCAACGCTGCGGCGCTCGGCTATGTCGAGCGCCTTTGCGAGGCGGATGCCGGCTGGACGGAAAGCCTGATCTACCTTTGGGGCGGTGAGGGCGTCGGGCGCAGCCATCTGCTCCAGGCCGCGTGCCTGCGCTTCGAGCAGCGTGGCGAGCCGGCGGTCTATTTGCCGTTGGCCGAGGTGGTTCAGTACGGTCCCGAGATTCTCGATAACCTGGAACAGTGCGAGTTGGTGGGGCTCGATGATCTCGACGCCGTGGCCGGTCGTGCGGATTGGGAGGAGGCGCTGTTCCACCTGTTCAACCGACTGCGCGACAGTGGACGCAAGCTGTTGCTCGCGGCTTCGGCGTCGCCGCGGGAGTTGCCGGTGCAACTGCCGGATCTGAAATCCCGGTTGACCCTGGCGCTGGTATTCCAGCTCCATTCCCTGTCCGACGAAGACAAGCTGCGCGCCTTGCAGTTACGCGCATCGCGCCGTGGCCTGCACCTGACCGACGAAGTCGGCCGTTTTATCCTGACCCGTGGTACGCGCAGCATGAGTGCGCTTTTCGAGCTGCTCGAGCAGCTCGATCAGGCCTCTCTTCAGGCCCAACGCAAACTCACCATCCCGTTCCTGAAGGAAACCCTCGGCTGGTAA	MKPTQLSLGVRLRDDATFANYYPGANAAALGYVERLCEADAGWTESLIYLWGGEGVGRSHLLQAACLRFEQRGEPAVYLPLAEVVQYGPEILDNLEQCELVGLDDLDAVAGRADWEEALFHLFNRLRDSGRKLLLAASASPRELPVQLPDLKSRLTLALVFQLHSLSDEDKLRALQLRASRRGLHLTDEVGRFILTRGTRSMSALFELLEQLDQASLQAQRKLTIPFLKETLGW				NA	NA	NA	NA	NA
BMS010_02710	1095			Sodium-lithium/proton antiporter	ATGACTGCATCGAACCGCTGGCTCTGGCTGGCCGGACTGTTTTTTCTCGGCTGGCTGGTCTACCTGCTCACGCCGATTCTTTCGCCGTTCCTAGTGGGCATCCTGCTGGCCTATCTGGGCGATCCGCTGGTGGATCGCCTGGAACGCTGGAAACTTTCCCGTACCTGGGGTGTGGTGCTGGTATTCGTGTTGTTCAGCCTGGCCCTGCTGATCGGGCTGCTGGTGCTGGTGCCCATGCTGGGCAAGCAGTTGGTGCGCCTCTATCAGCTCACGCCGCAGATGCTCGACTGGCTGCAGAATGCGGCGCTGCCCTGGGTCCAGGCGAAGGCGGGGCTGCCCGAGGGCTTCTGGCGTTTCGACCGGCTCAAGGCCGCGTTATCCGGCCATCTGGACAAGACCACCGATCTTCTCGGGGTGGTGGTAGCCCAGGCCACGGCCTCCAGCCTCGCGTTGCTGGGGTGGTTGGGCAACCTGCTGCTCATTCCGGTGGTCAGCTTCTATCTGCTGCGGGACTGGGACCTGATGATGGCGCGGTTGCGCGGGCTCCTGCCACGCCGCCAGGAGGGGCTGGTGGTGCGCCTGATGGGCGAGTGTCACGAAGTACTCGGTGCATTCCTGCGGGGGCAGATGCTGGTGATGCTCGCGCTGGCCGTGATCTACTCGGTGGGGTTGATGGCGATCGGATTGGAGCTGGGCCTGCTGATCGGCGTGCTCGCCGGCCTCGCCAGTATCGTGCCCTACATGGGCTTCGTCGTCGGTATCGGTGCGGCGATTGCGGCGGCGCTGTTCCAGTTCGGAGGGGAGGCACTCTACCCGTTGATCGGTGTGGGCGCGGTGTTCATGGTAGGGCAGTTGCTCGAAGGTATGCTGCTGACGCCGCTGCTGGTGGGGGACCGGATCGGTCTGCATCCGGTGGCGGTGATCTTCGCGATTCTCGCCGGTGGCCAGTTGTTCGGCTTCACCGGCGTGCTGCTGGCGCTGCCGGTTGCTGCCGTGATCATGGTTTTGCTGCGTCATGTCCATGATTTGTATAAACTTTCGGAACTTTACGGAGAGTCCCCCAGCGGTTCCGAGGAGCCGCCTACCCCGGCATGA	MTASNRWLWLAGLFFLGWLVYLLTPILSPFLVGILLAYLGDPLVDRLERWKLSRTWGVVLVFVLFSLALLIGLLVLVPMLGKQLVRLYQLTPQMLDWLQNAALPWVQAKAGLPEGFWRFDRLKAALSGHLDKTTDLLGVVVAQATASSLALLGWLGNLLLIPVVSFYLLRDWDLMMARLRGLLPRRQEGLVVRLMGECHEVLGAFLRGQMLVMLALAVIYSVGLMAIGLELGLLIGVLAGLASIVPYMGFVVGIGAAIAAALFQFGGEALYPLIGVGAVFMVGQLLEGMLLTPLLVGDRIGLHPVAVIFAILAGGQLFGFTGVLLALPVAAVIMVLLRHVHDLYKLSELYGESPSGSEEPPTPA				NA	NA	NA	NA	NA
BMS010_02711	555	pgsA_3		CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase	ATGCGCCAATTGCCGAATCTGCTGACGACGCTTCGCCTGTTGCTGACTGTGCCGATCGCTCTGCTGCTCTTGGCGGAGCGTTACGGGCAGGCTCTCTCACTGTTTGCCGTCGCCGGATTTTCCGATGCGTTGGATGGTTTCCTCGCGCGGCGATTCGGCTGGACCAGTCGAATCGGCTCGATGCTCGATCCCATCGCCGACAAGTTGCTGCTGGTCACCAGCTATCTTTGCCTGAGCATCACCCAGGTTTTTCCCTGGTGGCTGGCGGCCGTGGTGCTCTTGCGCGACGCAGTGATCGTCGGCGGCGCGACGCTCTACCGCCTGCTGGTCGGCCCCTTCGAATTCCGTCCCACCTGGCTGGGCAAACTGTCCACGTTGCTGCAGATCGTTCTGGTGCTGGTCGTATTGCTGGAGCTCAGCCTGCTTCCCGCTTTCGCGCCGCTGCGTTGGCCACTGATCGTGCTGGCGTTGGCCGTCAGTCTGGCCAGCGGTCTGCATTACGTCTGGGTGTGGGCCTGTAAATTTCACTCCGCAAGAAACGGACCTCTGGCATGA	MRQLPNLLTTLRLLLTVPIALLLLAERYGQALSLFAVAGFSDALDGFLARRFGWTSRIGSMLDPIADKLLLVTSYLCLSITQVFPWWLAAVVLLRDAVIVGGATLYRLLVGPFEFRPTWLGKLSTLLQIVLVLVVLLELSLLPAFAPLRWPLIVLALAVSLASGLHYVWVWACKFHSARNGPLA	PGPT0007735_2360	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_CARDIOLIPIN_SYNTHASE_ACTIVITY,PGPT0007735-pgsA-K08744	NA	NA
BMS010_02712	1020			hypothetical protein	ATGCGCGTGATCCGCCTGCTTGTTCTTTGCCTGTCGCTGTTCAGCCTGCCGACCTTCGCCGAAACGGTCGGCGATCTCTATCAGGTACGCGAACCTGTCGCCAGCCAGCAACCCGAGGAGCGCAACCAGGCGCTGCAGCGGGCATTGGATACGCTGGTGCTGCGTCTGACCGGCGATCCGGCGGCCTTGAAGAATCCGGCCGTGGCCGAGTTGCGCAAGGACCCGCAACAACTGATCAGCCAGTACGGTTATGAAGGCGACGCTCTGGTGGTGGACTTCGATCCGGCCACCAGCGAGCGGTCCCTTCGTCAGGCTGGCCTGGCCTTGTGGAGCGCCAATCGTCCCGCGATTCTCGCCTGGTGGCTGAACGAAGCCGCCGGGGGCGCCAACCTGGTCGGGGACGGGCAGGACAGCGCCGCACCGGTGCGCCGCGCCGCGCAACACCGGGGATTGCCGTTGCGCCTGCCGCTGGCCGATCTGAACGAGCAAATCGTCGGGACGGCGGACAATCTCACCGCGGCCCGGCCCGATGCGTTGCGCGAGGCTTCGGATCGCTACGCAGCCGACGCACTGCTGGCAGTCAGGGCACGCGAAGACGGCGGCAAGTGGCAGGCCAACTGGCGTCTGTGGCTGGGCGATTCGCTGGAGCAGGGCTCGGCGGAGGGCGCCGACAGCGCCGCGCTGGCCGATGCCGTGATGCTCGCGGTAAGCGAGCGCCTGGCACCGCGTTTCGTTGCGGCGCCGGGGGCGGCCAACGACTTGACCCTGGAGATCCACAAGTCCGACCTGACGCGCTATGCGGAACTGGAGCGGTTACTCGAACCCTTCGGTGCGCGGCTGAAAAAGGTCGAGGGGGATCGCCTGGTCTATCAGGTGCGCTCCAGCCCCGAGCAACTGCGTGCGCAACTGGCTCTGTCCGGTTTGCAAGAGGTCCAGGCGGCCGACGCTCCGGTGGATGCCGGCCAGCCGGTAGCGCCGATTCAGCAGCCTGCGGCCCAGGTGCTGCGTTTCAGCTGGTAG	MRVIRLLVLCLSLFSLPTFAETVGDLYQVREPVASQQPEERNQALQRALDTLVLRLTGDPAALKNPAVAELRKDPQQLISQYGYEGDALVVDFDPATSERSLRQAGLALWSANRPAILAWWLNEAAGGANLVGDGQDSAAPVRRAAQHRGLPLRLPLADLNEQIVGTADNLTAARPDALREASDRYAADALLAVRAREDGGKWQANWRLWLGDSLEQGSAEGADSAALADAVMLAVSERLAPRFVAAPGAANDLTLEIHKSDLTRYAELERLLEPFGARLKKVEGDRLVYQVRSSPEQLRAQLALSGLQEVQAADAPVDAGQPVAPIQQPAAQVLRFSW				NA	NA	NA	NA	NA
BMS010_02713	1059	purM_2	COG0150	Phosphoribosylformylglycinamidine cyclo-ligase	ATGAGCAAGCAACCCTCCATTAGCTACAAGGACGCCGGTGTGGACATCGACGCCGGTGAAGCGCTGGTCGAACGCATCAAGGGCGTGGCCAAGCGCACCGCACGTCCGGAAGTGATGGGCGGCCTGGGCGGTTTCGGCGCCCTCTGCGAGATCCCGGCCGGCTACAAGCAGCCGGTACTGGTATCCGGTACCGACGGCGTCGGCACCAAGCTGCGTCTGGCGCTGAACCTGAACAAGCACGACAGCATCGGCCAGGACCTGGTCGCGATGTGCGTCAACGACCTGGTGGTCTGCGGTGCCGAGCCGCTGTTTTTCCTCGACTATTACGCCACCGGCAAGCTCAACGTCGACGTGGCTGCCACCGTGGTCACCGGCATCGGCGCCGGCTGCGAGCTGGCTGGTTGCTCGCTGGTCGGTGGCGAAACCGCCGAGATGCCCGGCATGTACGAGGGCGAGGACTATGACTTGGCCGGCTTCTGCGTCGGCGTAGTGGAAAAGAGCGAAATCATAGACGGCTCCAAGGTGGTCACCGGCGACGCGCTGATCGCCCTGCCCTCCTCCGGCCCGCACTCCAATGGCTACTCGCTGATCCGCAAGATCATCGAGGTCGCCGGTGCCGATATCGAAAAAGTGCAGCTCGACGGCAAGCCGCTGGCCGACCTGCTGATGGCGCCGACCCGCATCTACGTCAAGCCGCTGCTCAAGCTGATCAAGGATACCGGTGCAGTGAAGGCCATGGCCCACATCACTGGCGGCGGCCTGCTGGACAATATCCCGCGCGTCCTGCCGGAAGGCGCCCAGGCCGTGATCGATGTCGCCAGTTGGACCCGTCCGGCCGTCTTCGACTGGCTGCAGCAGCACGGCAACGTCGATGAGCATGAGATGCACCGCGTACTCAACTGCGGCGTCGGCATGGTCATCTGCGTGGCCCAGGACCAGGTGGAAACCGCTCTGGCAAGCCTGCGCGCCTCGGGCGAGCAACCGTGGGTGATCGGCCAGATCGCCCAAGCCGCCGAAGGCGCCGCCCAGGTCGTGCTGAACAACCTGAAAGCTCACTGA	MSKQPSISYKDAGVDIDAGEALVERIKGVAKRTARPEVMGGLGGFGALCEIPAGYKQPVLVSGTDGVGTKLRLALNLNKHDSIGQDLVAMCVNDLVVCGAEPLFFLDYYATGKLNVDVAATVVTGIGAGCELAGCSLVGGETAEMPGMYEGEDYDLAGFCVGVVEKSEIIDGSKVVTGDALIALPSSGPHSNGYSLIRKIIEVAGADIEKVQLDGKPLADLLMAPTRIYVKPLLKLIKDTGAVKAMAHITGGGLLDNIPRVLPEGAQAVIDVASWTRPAVFDWLQQHGNVDEHEMHRVLNCGVGMVICVAQDQVETALASLRASGEQPWVIGQIAQAAEGAAQVVLNNLKAH	PGPT0021570_1966	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021570-purM-K01933	NA	NA
BMS010_02714	651	purN_2	COG0299	Phosphoribosylglycinamide formyltransferase	ATGACGGCACGCTGCGATGTCGTGGTGCTGATATCGGGGTCCGGCAGCAACCTGCAGGCCCTGATCGACAGCACCCGTAGCGACGACAACCCGGCCCGCATCCGCGCGGTGATTTCCAACCGCGCCGATGCCTATGGACTGACCCGCGCCCAGAACGCCGGTATCGCCACCCAAGTGCTCGACCACAAGGCCTTCGATGGCCGCGAGGCGTTCGACGCGGCGCTGATCGAGGCCATCGATACGTTCTCCCCGCATCTGGTGGTGCTGGCCGGCTTCATGCGCATCCTCACCCCCACCTTCGTCCGTCACTATGCGGGCCGCCTGCTGAACATCCATCCCTCGTTGCTACCCCTCTACAAGGGCCTGCACACTCATCAGCGGGCGCTGGAAGCCGGCGATGCCGAGCATGGCTGCAGCGTGCATTTCGTGACTGAGGAACTCGATGGTGGCCCTTTGGTCGTACAGGCGATAGTTCCGGTTCAAGCGGGTGACACACCGGAAAGCCTGGCCATGCGGGTGCATGCCCAGGAACACCGGATTTACCCCCTGGCCGTGCGCTGGTTCGCCGAAGGCCGCTTGTGCCTGGGCGAGCACGGCGCAATGCTGGATGGCCAGCCTCTGCCGGCCACCGGCCATCTGATTCGAACCTAG	MTARCDVVVLISGSGSNLQALIDSTRSDDNPARIRAVISNRADAYGLTRAQNAGIATQVLDHKAFDGREAFDAALIEAIDTFSPHLVVLAGFMRILTPTFVRHYAGRLLNIHPSLLPLYKGLHTHQRALEAGDAEHGCSVHFVTEELDGGPLVVQAIVPVQAGDTPESLAMRVHAQEHRIYPLAVRWFAEGRLCLGEHGAMLDGQPLPATGHLIRT	PGPT0008095_1126	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0008095-purN-K11175	NA	NA
BMS010_02715	717			hypothetical protein	ATGCGTCGTGCCCTGCTGTTCGTTTGTGCGCTCCTCGCGCTGCCCGTCCAGGCTTTCGAGCTGAAGCCGTTCTCCGCCAGCTATACCGCCGATTGGAAGCAACTGCCCATCAGCGGGACCGCGGAACGCAGCCTGAAGCGCCTCGACGATGGCCGTTGGCAGCTCGGCTTCGAGGCCGCCATGCTGGTGGCCAGCCTCACCGAGCAAAGCACCTTCCGCGTCGAGAACGACACCTTCCTGCCCCTCAACTACCGCTTCAACCGCAGCGGCCTCGGCAAGGCCAAGCAGGTCGAGCTGGACTTCGACTGGACCGAGAAGCAGGTGCTCGGCAGCGATCGCGGTGATCCGGTGCGGTTGCTGCTCAACCGCGGCCTGCAGGACAAGTCGACCTATCAGTTGGTCCTGCAGCACGACGTGGCCGACGGCAAGAAGAGCATGAGCTACCAAGTGGTCGATGGCGACGAAATCGAAACCTACGATTTCCGGGTCCTCGGCGAAGAGCAGGTGGAAACCAAGGCCGGCACTGTCGATGCGCTCAAGGTCGAGCGCGTGCGCGACCCGACCCAGAGCAACCGCAAGACCATCCTCTGGTTCGCCAAGGACTGGGACTACCTGCTGGTTCGCCTGCATCAGGTCGAGAAGGACGGCAAGGAATACCAGATCATGCTCGAAGAGGGCACGGTCGACGGCAAGCCCGTCAAAGGTCGCGGCAAGTAA	MRRALLFVCALLALPVQAFELKPFSASYTADWKQLPISGTAERSLKRLDDGRWQLGFEAAMLVASLTEQSTFRVENDTFLPLNYRFNRSGLGKAKQVELDFDWTEKQVLGSDRGDPVRLLLNRGLQDKSTYQLVLQHDVADGKKSMSYQVVDGDEIETYDFRVLGEEQVETKAGTVDALKVERVRDPTQSNRKTILWFAKDWDYLLVRLHQVEKDGKEYQIMLEEGTVDGKPVKGRGK				NA	NA	NA	NA	NA
BMS010_02716	558			hypothetical protein	ATGCCCGGCAATGCCCTGTATGACTATCTGGAACGCCTGACCAGCCTGATGCGGGCCTGGTCTCGTGAGCACCCGTTGCTGGCCGAATTGCAGCCGGTGCAGGTGAGCGCCCTGCATTATCTTTCCCGCTGCAACGGCTACTCGAATACGCCGATGGCGGTCACCGAATACCTGGGGTTGACCAAGGGCACGGTGTCGCAATCGTTGAAAGTGCTGGAACACAAGGGGTTGATCCGCAAGCAGCCGGACCCCCAAGACAAGCGCAGCGTTCATCTGGAGCTGACCGAGGAAGGGACGGCACTGCTCGAGGCGCTGACCCCGCCGGCATTCCTGCAACAGGCGGCCGAGGCCCTGGGACCGCGAGGGGAAATGCTGGGGGCTTTGCTGAGGGAGTTGCTGGTGACCATCCAGCGGCAGCAGGATGTGCCGAGCTTCGGTCTATGCGGCAGTTGCCGTTTCCATGAGCGACGCGAGGAGGGGCCGTTCTGTGGTCTGACGCGTCAACCGTTGGCGTCGGGAGCGGAGCGGCTGATCTGCCGGGAACACGAATCCGCTTGA	MPGNALYDYLERLTSLMRAWSREHPLLAELQPVQVSALHYLSRCNGYSNTPMAVTEYLGLTKGTVSQSLKVLEHKGLIRKQPDPQDKRSVHLELTEEGTALLEALTPPAFLQQAAEALGPRGEMLGALLRELLVTIQRQQDVPSFGLCGSCRFHERREEGPFCGLTRQPLASGAERLICREHESA	PGPT0013155_141	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
BMS010_02717	234			hypothetical protein	ATGTCCCATGCGCGTTACTACCATGCCGGGTGCCCTGTCTGCGTGGAGGCCGAGCGGAGCCTGTTGCCGCTGCTGGATACAGGCAAGGTCGATGTGGAGATCGTTCATCTTGGCCAGCAGCCGGAACGCGTGGCCGAGGCTGAACAAGCAGGCGTGCAATCCGTGCCGGCGCTGGTCGTCGATGGACAGGTGCTGCACCTGAACTTCGGCGCTACCCTCGCTGCGCTGAAGTAA	MSHARYYHAGCPVCVEAERSLLPLLDTGKVDVEIVHLGQQPERVAEAEQAGVQSVPALVVDGQVLHLNFGATLAALK	PGPT0013201_4784	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CHAPERONES,PGPT0013201-grxC-K03676	NA	NA
BMS010_02718	261	rof	COG4568	Protein rof	GTGAGCGATTACCGACCGCTGGCCTGCGACCTTCACGACTACCTGGAGATCGCCTGCCTGTACCGCTATTGGCTACGTATCGAACTGCACGACGGCGAGCCGTTCGAAGCCGAAGCAGTGACGACGGAAACCACGGCGAGCAAGGAGGAGTTTCTGGTGGTTCAGGTCGAAGGCGCCTCCCACCGGCTGCGGCTGGATCGCCTGCGGGCAATCACGCCGTGCGGCACGGGCGCGCGTTTCGGCCGGGTCGAACTGGAATAA	MSDYRPLACDLHDYLEIACLYRYWLRIELHDGEPFEAEAVTTETTASKEEFLVVQVEGASHRLRLDRLRAITPCGTGARFGRVELE				NA	NA	NA	NA	NA
BMS010_02719	540			hypothetical protein	ATGAGTCTTTCCCTACGCGACCAGCTGCTGAAAGCCGGGCTGGTCAGTGAAAAACAGGCCAAGCAGGCCGGCAAGCAGAAGCAGAAACAGGAACGCCTGGAGAAAAAAGGCCAGGTCGAAAAGGACGATTCGCAGCGCCAGGCCGCATTGGCCGCCCAGGCCGAGAAGATCGAGCGCGACCGCGAGTTGAATCGCCAGCAGCAGGAAAAAGCGGAGCAGAAAGCCCGCACCGCCCAGATCAAGCAACTGATCGAGCGCTCCCGTCTGCCGAAGCTGACCACCGACGACTACTACAACTTCGTCGATGACAAGAAGGTCAAGCGCATCTCCGTGAACGACCTGATGCGCGACAAGCTCAGCCGCGGCTCGCTGGCCATCGTTCGCCATGGCGGTGCCTACGAGATCATCCCGCGCGACGCAGCGGTGAAAATCCAGGAGCGCGACCCGCGCCGCATCGTCCTGCTCAACACCCCCACCGAGGAAGCGGACGAGGACGATCCGTACGCCGCCTACAAGGTGCCGGATGATCTGATGTGGTGA	MSLSLRDQLLKAGLVSEKQAKQAGKQKQKQERLEKKGQVEKDDSQRQAALAAQAEKIERDRELNRQQQEKAEQKARTAQIKQLIERSRLPKLTTDDYYNFVDDKKVKRISVNDLMRDKLSRGSLAIVRHGGAYEIIPRDAAVKIQERDPRRIVLLNTPTEEADEDDPYAAYKVPDDLMW				NA	NA	NA	NA	NA
BMS010_02720	834	mazG_1	COG1694	Nucleoside triphosphate pyrophosphohydrolase	ATGTACTCATTACCCGATCTGCTGTACCTGATGGCCCGCCTGCGCGACCCGCGCCACGGCTGCCCCTGGGACCTCAAGCAGTCCTACGCGACCATCGTTCCCTACACCATCGAAGAGGCCTACGAAGTCGCCGATACCATCGAGCGCGGTGATTTCGAACACCTGCAGGGTGAACTCGGCGACCTGCTGTTCCAGGTCGTCTACTACTGCCAACTGGCCCGGGAAGAGGGCCGTTTCGGCTTCGATGCGGTGGTCGATGGCATCACCCGCAAGCTGGTTCGGCGCCATCCCCATGTGTTCCCGGATGGCGACCTTTACGGTGTGGCGGACCGGCACAGCCTGGAGGAGGCAGCGGTCAAGCAGCGCTGGGAAGCCCTGAAGGCGGAGGAACGCGCGGAAAAGGCCGAGGTGCCGGAGCAGTTGTCGTTGCTGGACGATGTGCCGGCGGCGCTGCCAGCCCTGTCGCGGGCGGTCAAACTGCAGAAACGTGCAGCCCAGGTGGGGTTCGACTGGCCTGAAGCCTTGCCGGTGGTGGACAAGCTGCGCGAAGAACTGGACGAAGTGCTGGAGGCCATGAGTGAAAACGACCCGGAAGCGGTGGCCGAGGAAATCGGCGATCTGCTCTTCGTGGTCACCAACCTGGCGCGTCACCTCAAGGTCGATCCGGAGACCGCACTGCGCAGCGCCAACGGCAAGTTCGAGCGGCGTTTCCGTTTTATCGAACAGGCATTGCGCGAAGCGGGTCGGCCCATCGAAGATTGCACCCTCGAAGAACTGGATACCCTGTGGAGCGAGGCCAAGCGGCAGGAGAAGGACGCACTGGGCTGCGGCTGA	MYSLPDLLYLMARLRDPRHGCPWDLKQSYATIVPYTIEEAYEVADTIERGDFEHLQGELGDLLFQVVYYCQLAREEGRFGFDAVVDGITRKLVRRHPHVFPDGDLYGVADRHSLEEAAVKQRWEALKAEERAEKAEVPEQLSLLDDVPAALPALSRAVKLQKRAAQVGFDWPEALPVVDKLREELDEVLEAMSENDPEAVAEEIGDLLFVVTNLARHLKVDPETALRSANGKFERRFRFIEQALREAGRPIEDCTLEELDTLWSEAKRQEKDALGCG	PGPT0008820_526	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0008820-mazG-K04765	NA	NA
BMS010_02721	2244	relA	COG0317	GTP pyrophosphokinase	ATGGTACAGGTGAGAGCGCACCAGCCGATCAACACTGACGGCAGTATCAACCTCGAGTCCTGGCTGGATCATGTCCTCAGCCTGGACCCGGCGCTGGAGCGTGAGGCGTTGAAGGACGCCTGCGAGTTCGCCCGCGAAGCCGAGCAGCAGGCCAATGCCGCGCAGAACCTCTGGGTCGAGGGCACCTCCAGCTTCCAGACCGGCCTGGAGATTGCGGAAATCCTCGCTGACCTCAAGCTCGACCAGGACTCCCTGGTCGCCGCGGTGATCTACCGTGGCGTGCGCGAGGGCAAGATCACCCTGGCTGCGGTGCACCAGCGTTTCGGCCCTGTGGTGGCCAAGCTGATCGAGGGCGTGCTGCGCATGGCGGCGATCAGCGCCAGTCTCAACCCACGTCAGTCCATGGTGCTCGGTGCCCAGGCCCAGGTGGAGAACCTGCGCAAGATGCTGGTGGCCATGGTCGACGACGTACGCGTCGCCCTGATCAAACTGGCCGAGCGCACCTGCGCGATTCGCGCGGTCAAGCACGCCAGCGAGGAGAAGCGCCACCGCGTCGCCCGCGAAGTCTTCGATATCTATGCACCCCTGGCCCACCGGCTGGGCATCGGCCATATCAAATGGGAGCTGGAGGACCTGTCCTTCCGCTACCTGGAGCCCGAACAGTACAAGCAGATCGCCAAGCTGCTGCACGAACGCCGGCTGGATCGCGAGCAGTACATCACCAATGTCGTCCAGCAACTGCGCGACGAACTGGACGCCACCGGCATCAAGGCCGACATCAGCGGGCGGGCCAAGCACATCTATTCCATCTGGCGGAAGATGCAGCGCAAAGGGCTGGAGTTCAGCCAGATCTACGATGTGCGCGCGGTCCGGGTACTGGTCCCGGAAGTGCGCGATTGCTACACGGCGCTCGGCATCGTCCACACCCTGTGGCGGCATATTCCCAAGGAATTCGACGATTACATCGCCAACCCCAAGGAGAACGGCTACCGCTCCCTGCACACCGCGGTGATCGGCCCGGATGGCAAAGTGCTGGAAGTGCAGATACGCACCCATTCCATGCACGAGGAAGCCGAGCTGGGGGTGTGTGCGCATTGGCGCTACAAGGGCACCGACGTCAAATCCGGTTCCAGCCATTACGAAGAGAAAATCTCCTGGCTGCGCCAGGTACTCGAGTGGCACGAGGAACTGGGCGATATCGGTGGGCTGGCCGAACAACTGCGGGTGGATATCGAGCCGGACCGGGTTTATGTGTTCACCCCGGACGGCCATGCCATCGACCTGCCCAAGGGCGCCACCCCGCTGGACTTCGCCTACCGCGTGCATACCGAGATCGGCCACAACTGCCGGGGGGCGAAGGTCAACGGCCGCATCGTGCCGCTCAACTACAGCCTGCAGACCGGCGAGCAGGTAGAGATCATCACCAGCAAGCAGGGCTCGCCGAGCCGTGACTGGCTGAACTCCAACCTGGGCTACATCACCACCTCGCGGGCGCGGGCGAAGATCGTCCACTGGTTCAAGCTGCAGGCCCGCGACCAGAACGTCGCCGCCGGCAAGGCGCTGCTGGAGCGCGAGCTGAACCGGGTCGGCCTGCCGCCGGTGGATTTCGACCGGCTGGCGGAAAAGGCCAATCTCAAGACGGCAGAGGACCTGTTCGCCGCCCTTGGCGCCGGCGACCTGCGCCTGGCCCATCTGGTCAACATGGCGCAACAGTTGGTCGAGCCGGAGCGCGGCAACGAACAATTGGAGCTGATTCCGCGCAAACACGGCCCGCACAAGCCCGGCAAGCGGGGCGACATCCAGATCCAGGGGGTCGGCAACCTGCTGACGCAAATGGCCGGCTGCTGCCAGCCGCTGCCGGGCGACCCGATCGTCGGCTACATCACCCAGGGACGTGGCGTGACCATCCACCGGCAGGATTGCGCCACCGCGCTGCAACTGGCCGGGCGCGAGCCGGAGCGGATCATCCAGGTGAGCTGGGGACCGGTGCCGGTGCAGACCTATCCGGTGGATATCGTCATCCGCGCCTACGACCGTTCCGGCCTGTTGCGCGATGTCTCCCAGGTGCTGCTCAACGAGCGCATCAACGTGCTGGCGGTGAACACCCGCTCGAACAAGGAGGACAGCACGGCGCTGATGTCGCTGACCATCGAAATCCCTGGGCTGGATTCCCTGGGCCGGTTACTGGCGAAGATTTCCCAGTTGCCGAACATCATCGAGGCGAAACGCAACCGCGCCTCCTGA	MVQVRAHQPINTDGSINLESWLDHVLSLDPALEREALKDACEFAREAEQQANAAQNLWVEGTSSFQTGLEIAEILADLKLDQDSLVAAVIYRGVREGKITLAAVHQRFGPVVAKLIEGVLRMAAISASLNPRQSMVLGAQAQVENLRKMLVAMVDDVRVALIKLAERTCAIRAVKHASEEKRHRVAREVFDIYAPLAHRLGIGHIKWELEDLSFRYLEPEQYKQIAKLLHERRLDREQYITNVVQQLRDELDATGIKADISGRAKHIYSIWRKMQRKGLEFSQIYDVRAVRVLVPEVRDCYTALGIVHTLWRHIPKEFDDYIANPKENGYRSLHTAVIGPDGKVLEVQIRTHSMHEEAELGVCAHWRYKGTDVKSGSSHYEEKISWLRQVLEWHEELGDIGGLAEQLRVDIEPDRVYVFTPDGHAIDLPKGATPLDFAYRVHTEIGHNCRGAKVNGRIVPLNYSLQTGEQVEIITSKQGSPSRDWLNSNLGYITTSRARAKIVHWFKLQARDQNVAAGKALLERELNRVGLPPVDFDRLAEKANLKTAEDLFAALGAGDLRLAHLVNMAQQLVEPERGNEQLELIPRKHGPHKPGKRGDIQIQGVGNLLTQMAGCCQPLPGDPIVGYITQGRGVTIHRQDCATALQLAGREPERIIQVSWGPVPVQTYPVDIVIRAYDRSGLLRDVSQVLLNERINVLAVNTRSNKEDSTALMSLTIEIPGLDSLGRLLAKISQLPNIIEAKRNRAS	PGPT0014820_407	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0014820-relA-K00951	NA	NA
BMS010_02722	1353	rlmD_2	COG2265	23S rRNA (uracil(1939)-C(5))-methyltransferase RlmD	ATGGCTAAGCGCAATGCCGGGCTGCGCTTCCAGCCGAGCGGCGGGGCGCGTACCCCGCAGGTCCCGGTGGGCAAGAAGCAGGTCCTGATCATCGAGCGCCTGGCCCATGACGGCCGTGGCATTGCCTTCGTCGACGGGCGGACTTGGTTCGTCGCCGGTGCCTTGCCGCAGGAGCGTGTCGAGGCCCGTGCGCTTTCGGCTCGCAGCCAGATTGTCGACGCGCGCGCCGAGCGCATCCTGGACGCGGCACCGCAGCGTCGCCCCGAGCCCTGCGTGCATGCCGGGCGCTGCGGTGGCTGCACGCTCCAGCACCTGTCTCACGAAGAACAGCTCGCCCTGAAACAGCGCACCCTCGCCGAACAGCTCGCGCGTTTCGCCGCGTTACAACCCGACGAGTGGGCGCTACCGTTGGTCGGCCCGGAATTCGGCTACCGGCGCCGTGCTCGGATTGCCGTGCGCTGGGACGCCAAGGCCCGTCGACTGGAGGTCGGCTTCCGTGCCGCCGCCAGCCAGGACATCGTTGCGATCAGCGAATGCCCGGTGCTGGTACAGCCCTTGCAGCCGATCGTGCGCGCGTTACCGCAGCTGCTGCGCCAGCTTGAAAAAACCCAGGCAGTAGGCCACGTGGAAGTATTCAGCGGCACCGCGGAAGCCGTGTTGCTGAGGCATACCGCGCCGTTGCCGGACGCCGATCTGGTCCGTCTGCGGAGTTTCTGCGACGAGCACCGCGCCCAGCTGTGGCTGCACGGCGCCGGCGAGCCGCAGCCGGTCGAGCCAGGGCAATCCCTCGGCTATCGGCTGGAGTCGTGGGGGCTGCGGTTGGAATACCGGCCGGGCGATTTCGTCCAGGTCAACGCGCCGGTCAACGAAGCGATGGTCAACCAGGCGCTAGACTGGATGGCACCGAAAGACGACGAGCGGGTACTGGATCTGTTCTGCGGCCTGGGCAATTTCGCCCTGCCGCTGGCCCGCCGAACACGCGAAGTGGTGGCGGTGGAAGGCGTGGAGGCAATGGTCGAACGCGCGCGTGGCAACGCTGCGGCCAACGGCCTGGAGAACCTGCACTTTTTCCAGGCCGATCTGTCGAAGCCGCTGACCGGCCAGCGCTGGGTCGAGCGAGGCTTCTCCGCCGCGTTGCTCGACCCGCCGCGGGACGGTGCGCTGGAGGTGGTGCGGCAGATCGGTGACCTGGAAATCGGGCGCCTGCTGTACGTGTCCTGCAACCCGGCGACCCTGGCGCGCGATGCCGCAGAGCTGGCGCGGCAGGGCTACCGGTTGAAGCGGGCCGGCATCCTCGACATGTTTCCGCAGACCGCGCATGTCGAGGCGATGGCGTTATTCGAGAGGGGCTAG	MAKRNAGLRFQPSGGARTPQVPVGKKQVLIIERLAHDGRGIAFVDGRTWFVAGALPQERVEARALSARSQIVDARAERILDAAPQRRPEPCVHAGRCGGCTLQHLSHEEQLALKQRTLAEQLARFAALQPDEWALPLVGPEFGYRRRARIAVRWDAKARRLEVGFRAAASQDIVAISECPVLVQPLQPIVRALPQLLRQLEKTQAVGHVEVFSGTAEAVLLRHTAPLPDADLVRLRSFCDEHRAQLWLHGAGEPQPVEPGQSLGYRLESWGLRLEYRPGDFVQVNAPVNEAMVNQALDWMAPKDDERVLDLFCGLGNFALPLARRTREVVAVEGVEAMVERARGNAAANGLENLHFFQADLSKPLTGQRWVERGFSAALLDPPRDGALEVVRQIGDLEIGRLLYVSCNPATLARDAAELARQGYRLKRAGILDMFPQTAHVEAMALFERG				NA	NA	NA	NA	NA
BMS010_02723	906	cysM_1	COG0031	Cysteine synthase B	ATGACCCTGCAGTTTCCCACCATCGCCGATTGCGTCGGCAATACCCCGCTGGTCCGCCTGCAACGCCTGCCCGGGGAGACCTCCAACACCCTGCTGGTGAAGCTGGAAGGCAACAACCCGGCGGGATCGGTGAAGGACCGGCCGGCGCTGTCGATGATCACCCGCGCCGAACTGCGCGGCGACATCAAGCCCGGCGACACCCTGATCGAAGCCACCTCCGGCAATACCGGCATCGCCCTGGCGATGGCGGCGGCGATCAAGGGCTACAAGATGATCCTGATCATGCCGGACAACATGAGTGCCGAGCGCAAGGCGGCGATGACCGCCTACGGCGCCGAGCTGGTGCTGGTCAGCCGCGAAGAGGGCATGGAAGGTGCCCGCGACCTGGCGGAAAGCCTGCAACGCGGCGGCAAGGGCAAGGTGCTCGACCAGTTCGCCAACGGCGACAACCCGGAGGCGCACTACCGGGGCACCGGCCCGGAGATCTGGCAGCAGACCCAGGGCTGCATCACCCATTTCGTCAGTTCCATGGGTACCACCGGCACCATCATGGGCGTGTCGCGTTACCTCAAGGAGCAGAACCCGGACGTGCAGATCGTCGGCCTGCAGCCGCAGGAAGGGGCGTCGATCCCCGGCATCCGTCGCTGGCCGCACGAGTACCTGCCGAAAATCTACCAGGCCGAGCGCGTGGACCGCATCGTCGACATGGCGCAAGGCGAGGCCGAGGACGTGATGCGCCGGCTGGCGCGGGAAGAGGGCATCTTCTGCGGCGTTTCCTCCGGCGGCGCGGTGGCGGCGGCCCTGCGGCTGTCTAAGGAACTGGAGAGCGCGGTGATCGTGGCGATCATCTGCGATCGAGGCGACCGCTACCTGTCCACCGGCATCTACGACATTCCCGAGCATTGA	MTLQFPTIADCVGNTPLVRLQRLPGETSNTLLVKLEGNNPAGSVKDRPALSMITRAELRGDIKPGDTLIEATSGNTGIALAMAAAIKGYKMILIMPDNMSAERKAAMTAYGAELVLVSREEGMEGARDLAESLQRGGKGKVLDQFANGDNPEAHYRGTGPEIWQQTQGCITHFVSSMGTTGTIMGVSRYLKEQNPDVQIVGLQPQEGASIPGIRRWPHEYLPKIYQAERVDRIVDMAQGEAEDVMRRLAREEGIFCGVSSGGAVAAALRLSKELESAVIVAIICDRGDRYLSTGIYDIPEH	PGPT0002820_373	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0002820-cysM-K12339	NA	NA
BMS010_02724	2760	barA	COG0784	Signal transduction histidine-protein kinase BarA	GTGTTCAAGGATCTCGGCATCAAAGGCCGCGTGCTGATGCTCACCCTGCTGCCCACCAGCCTGCTGGCGCTGGTCCTCGGCGGCTATTTCACCTGGGTGCAGCTCTCCGACCTGCAGGCGCAACTGTTGCAGCGCGGGGAAATGATCGTCGAGCAACTGGCACCCCTCGCCGCTCCGGCCCTGGCACATGGCGACAACCGCGTGCTGCAGCGGATCGCCGCCGACGCGCTGGAGCAACCCGACGTACGGGCGGTGTCCTTCCTCACCCCGGAGCGCCAGCGCCTGGCGCATGCCGGCCCGAACATGCTCAACGACACCCCCAGCGGCGACAGCAGCCGCCTGCTGATGCGCAGCGACCAGGACGCCACGCGCTTCCTCCTGCCGGTCTATGGCCGCCATAGCATGGTGGCCGGACAGGAGGCCGCCGACAGCGAACAGTTGCTCGGCTGGGTCGAGGTGGAGATGTCCCACCACGGTACCCTGCTGCGGGGCTACCGCAGCCTGCTCACCAGCCTGCTGCTGATCATCGCCGGGCTGGCGGTCACCGCGCTCCTGGCACTGCGCATGAGCCGCTCGATCAACGAGCCGTTGCGGCGTATCCAGCAGGGCGTCGCCCAGCTCAAGGACGGTCGCCTGGAGACCCGCCTGCCGCTGCTCGGCAGCCACGAGCTGGACGAACTGGCGTCCGGCATCAACCGCATGGCCGAAGCGCTGCAGAATGCCCAGGAAGAACTCCAGCACAGCATCGACCAGGCCACCGAGGATGTTCGCCAGAACCTGGAAACCATCGAGATCCAGAACATCGAACTGGACCTGGCGCGCAAGGAAGCCCTGGAAGCGAGCCGGATCAAATCCGAATTCCTCGCCAACATGAGCCATGAGATCCGCACGCCGCTGAACGGCATCCTCGGCTTCACCAACCTGCTGCTGAAAAGCGACCTGACGCCGCGCCAGCAGGACTACCTGACCACCATCGAAAAATCCGCCGACAGCCTGCTCGGCATCATCAACGAAATCCTCGACTTCTCGAAGATCGAAGCCGGCAAGCTGGTCCTGGAAAGCATCCCCTTCAACCTGCGCGACCTGCTGCAGGACTGCCTGACCATCCTCGCCCCCGCCGCCCACGACAAGCAGCTGGAACTGGTCAGCCTGGTCTACCGCGACACACCGCTGTCGCTGATCGGCGATCCGCTGCGGCTCAAGCAGGTGCTGACCAACCTGATCAGCAACGCGATCAAGTTCACCCGCGAAGGCACCATCGCCGTCCGCGCCATGCTGGAGGACGACAGCGACGACCGCGCCCAACTTCGCATCAGCGTGCAGGACACCGGCATCGGCCTGTCCGAGGAGGACCTGCGCACCCTGTTCCAGGCTTTCAGCCAGGCGGACAACTCGCTCAGCCGCCAGGCCGGCGGCACCGGTCTGGGCCTGGTGATCTCCAAGCGCCTGATCGAACAGATGGGCGGCGAGATCGGCGTGGAAAGCACACCGGGAGAAGGTTCGGAATTCTGGATCACCCTGAGCCTGCCTAAGGGCCGCGAAGACGTCGAGGACCATCCTCGCGCACCGCTGCTGGGCCGCCACGTGGCAGTGCTGGAAAGCCACGAGCTGGCCTGCCAGGCCCTGCAACATCAATTGGAAGACTGCGGCCTGCAAGTGCAGGTCTTCGCCGACATGGACAGCCTGATCGACGGCGTGGCCGCTCAGCGTCACGGCAATGCACCCCTCGACTTGGCGGTGCTCGGCGTTAGCCTGCGCGAGTTGCCGCCGGAACGGCTGAGCCAGCGCATCCGCGACCTCGAACGGCTCGGCTGCAAATGCCTGGCACTTTGCCCGACCAACGAACAGGCGATCTACCACGAGGCGCTGCCGGACGGCTATGCGCAATTGCAGGCCAAGCCGGCCTACACACGCAAGCTGCAGCGGGCGTTGTCCGACCTCATCAGCCCGCGCCAATCGGTACGCCATGAACCCACCTCGATCCCGAGCAACCGGGCTCCGCGCCTGCTCTGCGTCGACGACAACCCGGCCAACCTGTTGCTGGTACAGACCCTCCTCAGCGACATGGGCGCCGAAGCCACCGCCGTGGACAGCGGCTATGCCGCGCTGGACGCGGTGAAGCAGGAACGCTTCGACCTGATCTTCATGGACGTGCAGATGCCCGGCATGGACGGACGCCAGACCACCGAGGCGATCCGTGCCTGGGAAGCCGAGCACGGCCACGGCCAGGTGCCGATCATCGCCCTGACCGCCCATGCCCTCGCCAACGAAAAGCGCGCCCTGCTACAGAGCGGCCTGGACGATTACCTGACCAAGCCGATCAGCGAGCGCCAACTGGCCCAGGTCGTGCTCAAGTGGACCGGCCTCGCCCTGCGCAACCAGGGCCAGGAGCGCCCCGTGGAGCCGCCGCCCAAGGTGGAAACCACCCTCAGCGTGCTGGATGCCGAAGAGGGCTTGCGCCTGGCCGCCGGCAAGGCCGATCTGGCCGCCGACATGCTGGCCATGCTGCTCGCCTCCCTGGACGCCGACCGCCAGGCGATCCGCCAGGCCCGCGACGCCGGCGACCGCGCCACCCTGATCGAGCGCGTCCATCGCCTGCACGGCGCCACCCGCTACTGCGGCGTGCCGCAATTGCGCGAAGCCTGCCAGCGCAGCGAAACCCTGCTGAAACAGGACGACCCGGCCTACAAGACCGCCCTCGACGATCTCGATGCTGCCATCGTGCGGCTGGCCAAGGAGGCGGCGCAGATCGGTGTCTGA	MFKDLGIKGRVLMLTLLPTSLLALVLGGYFTWVQLSDLQAQLLQRGEMIVEQLAPLAAPALAHGDNRVLQRIAADALEQPDVRAVSFLTPERQRLAHAGPNMLNDTPSGDSSRLLMRSDQDATRFLLPVYGRHSMVAGQEAADSEQLLGWVEVEMSHHGTLLRGYRSLLTSLLLIIAGLAVTALLALRMSRSINEPLRRIQQGVAQLKDGRLETRLPLLGSHELDELASGINRMAEALQNAQEELQHSIDQATEDVRQNLETIEIQNIELDLARKEALEASRIKSEFLANMSHEIRTPLNGILGFTNLLLKSDLTPRQQDYLTTIEKSADSLLGIINEILDFSKIEAGKLVLESIPFNLRDLLQDCLTILAPAAHDKQLELVSLVYRDTPLSLIGDPLRLKQVLTNLISNAIKFTREGTIAVRAMLEDDSDDRAQLRISVQDTGIGLSEEDLRTLFQAFSQADNSLSRQAGGTGLGLVISKRLIEQMGGEIGVESTPGEGSEFWITLSLPKGREDVEDHPRAPLLGRHVAVLESHELACQALQHQLEDCGLQVQVFADMDSLIDGVAAQRHGNAPLDLAVLGVSLRELPPERLSQRIRDLERLGCKCLALCPTNEQAIYHEALPDGYAQLQAKPAYTRKLQRALSDLISPRQSVRHEPTSIPSNRAPRLLCVDDNPANLLLVQTLLSDMGAEATAVDSGYAALDAVKQERFDLIFMDVQMPGMDGRQTTEAIRAWEAEHGHGQVPIIALTAHALANEKRALLQSGLDDYLTKPISERQLAQVVLKWTGLALRNQGQERPVEPPPKVETTLSVLDAEEGLRLAAGKADLAADMLAMLLASLDADRQAIRQARDAGDRATLIERVHRLHGATRYCGVPQLREACQRSETLLKQDDPAYKTALDDLDAAIVRLAKEAAQIGV	PGPT0012930_586	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-VarA|VarS_SIGNALLING_SYSTEM,PGPT0012930-gacS|barA|varS-K07678	NA	NA
BMS010_02725	990	ldhA_2	COG1052	D-lactate dehydrogenase	ATGCGCATCCTTTTGTTCAGCACCCAGCCTTATGACCGCGACAGTTTCCTCGCCATAGCGCGCCCGGAGGACTATCGCCTGGACTTCCAGCCCTCGCGCCTGACGCCTGCCACCGCGATGCTGGCCGAAGGTTGCGACGTGGTCTGCGCCTTCATCAACGACGATCTTTCCGCTCCAGTGTTGCAGCGCCTCGCCACCGGCGGCACCCGGCTGATCGCCCTGCGCTCGGCGGGCTACAACCATGTCGACCTGTCGGCTGCCCGTCAGTTAGGGCTGGAGGTGGTCCATGTGCCGGCCTATTCGCCCCATGCGGTCGCCGAGCACGCGGTGGGTCTCATCCTCGCCCTCAACCGCCGCCTGCACCGCGCCTTCAACCGGACCCGGGAAGGCGACTTCAGCCTGCACGGGCTGATTGGCTTCGATCTGGCCGGCAAGCAGGTCGGCGTCGTCGGCACCGGCCAGATCGGTACGGTGTTCGCCCGCATCATGCTCGGCTTCGGCTGCCAGGTACTGGCTCACGATCCTGTCCCGAACCCGAACCTGCAGGATGTAGGCGTCCGTTACGTCTCCTTCGAGGCGTTGCTGGACGAAGCCCATATCATCAGCCTGCACTGTCCCTTGACCGAAGCCACCCATCATCTGATCGATACCGCTGCCCTGGCGCGGATACGTCATGGCGCGATGCTGATCAACACCGGCCGTGGCGCCCTGATCGATACCCCGGCGCTGATCGGCGCACTGAAGAGCGGGCAGCTGGGCTACCTCGGCCTGGATGTCTATGAGGAAGAAGCAGACCTGTTCTTCGAGGACCGTTCCGACCTGCCGCTGCAGGACGATGTACTGGCACGTCTGCTGACTTTCCCCAACGTCATCGTTACCGCCCACCAAGCCTTCCTGACCCATGAAGCGCTGACGGCGATCGCCGCCACCACGCTGGATAATATCGCCGCCTGGGCAGCCGGCCAGCCGAGGAACCGCGTCGAAACCTGA	MRILLFSTQPYDRDSFLAIARPEDYRLDFQPSRLTPATAMLAEGCDVVCAFINDDLSAPVLQRLATGGTRLIALRSAGYNHVDLSAARQLGLEVVHVPAYSPHAVAEHAVGLILALNRRLHRAFNRTREGDFSLHGLIGFDLAGKQVGVVGTGQIGTVFARIMLGFGCQVLAHDPVPNPNLQDVGVRYVSFEALLDEAHIISLHCPLTEATHHLIDTAALARIRHGAMLINTGRGALIDTPALIGALKSGQLGYLGLDVYEEEADLFFEDRSDLPLQDDVLARLLTFPNVIVTAHQAFLTHEALTAIAATTLDNIAAWAAGQPRNRVET	PGPT0001755_995	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001755-ldhA-K03778	NA	NA
BMS010_02726	438			hypothetical protein	ATGGCCGAACACGATTTCCGCTATACCCTGCTCAACCCCGCCCACACCCTGAACGAATGCCGCGCGCTGGCGCCGGGCCGCTACCAGGTCACCGGTACCGGAGGCTCCATCCAGGCGGGCGACACCCTGCTGGTCACGCTCAAGGGCAGCCGCGATCTCTGCCTGCACCTCGACGTGGAAAAGGTCCGCCACCTGATCAACCCGCCGGGACAATGGATGGCTGTGGCCAGGGGCCCCGCCTTCCGCGAGCTGGCCATCCTCAATTGGCAGGTCGATTGCGACGGCTGCGGTGCGCGGCTGGATTTCGAATTCGCCGTCGATGCGGCGCTCGGCGACAAGGCCCGTGCGCCGGCCGCCGAAGCGCGCATCGCCGAGCTGGGCTGGCGGAGCGACGCCGGCCGTCATCTCTGCCCGAACTGTCAGGAGGACCAGGCATGA	MAEHDFRYTLLNPAHTLNECRALAPGRYQVTGTGGSIQAGDTLLVTLKGSRDLCLHLDVEKVRHLINPPGQWMAVARGPAFRELAILNWQVDCDGCGARLDFEFAVDAALGDKARAPAAEARIAELGWRSDAGRHLCPNCQEDQA				NA	NA	NA	NA	NA
BMS010_02727	402			hypothetical protein	ATGAAACACATGATCGCGCTCGGCCTGATCGGTGCCAGCCTGCTGGGCTGCGCCGCCGACCCGGTGAAACTGGAGCAGGAACGCAACTACCGGGTGGAGTGGATCGGCGACCGCCCGCTGCTCGACCGCAGCTACCTGACCCTGACCCTCGGCGAAGATGGCCGCGCCTTCGGCAATGCCGGTTGCAACCATTGGTTCGGCAGCTATCGGCTGGAAGGCTCGGCCATCAGCTTCGGCGCCCCGGGCAGCACCCGCAAGCTCTGTGCGCCCGCCCTGATGGAGCAGGAACAGCGCTTTCTGGACGCCCTCGGCAAGATCGAACGCTGGGATGTCTCGCCGCTCGGCCAACTGCGCCTGTGGCCGGCGGAAGGCAAGCCGATCCGGCTGCTGCCGGAGAACTGA	MKHMIALGLIGASLLGCAADPVKLEQERNYRVEWIGDRPLLDRSYLTLTLGEDGRAFGNAGCNHWFGSYRLEGSAISFGAPGSTRKLCAPALMEQEQRFLDALGKIERWDVSPLGQLRLWPAEGKPIRLLPEN	PGPT0014615_807	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014615-hslJ-K03668	NA	NA
BMS010_02728	1326	rimO	COG0621	Ribosomal protein S12 methylthiotransferase RimO	ATGTCCACCCCCGCCACGCCGAAAGTCGGTTTCGTCAGCCTCGGTTGCCCCAAGGCCCTGGTCGATTCCGAACGCATCCTGACCCAGTTGCGCATGGAGGGCTACGAGGTCGTACCCACCTACCAGGATGCCGACGTGGTGGTGGTCAACACCTGTGGTTTCATCGACAGCGCCAAGGCGGAGTCGCTGGAAGCGATCGGCGAGGCCATCGCCGAGAACGGCAAGGTGATCGTCACCGGCTGCATGGGTGTGGAAGAGTCGGCGATCCGCGAGGTGCATCCGAGCGTGCTGGCCGTGACTGGCCCGCAGCAATACGAGCAGGTGGTCACCGCCGTGCATGAGGTGGTGCCGCCGAAGGCCGAGCACAACCCGCTGATCGACTTGGTGCCGCCGCAGGGCATCAAGCTCACCCCGCGCCACTACGCCTACCTGAAGATTTCCGAAGGCTGCAACCACAGCTGTAGCTTCTGCATCATTCCGTCCATGCGCGGCAAGCTGGTCAGCCGTCCGGTGGGCGATGTGCTCAGCGAGGCCGAGCGCCTGGTCAAGGCCGGGGTCAAGGAGCTGCTGGTGATCTCCCAGGACACCAGCGCCTACGGCGTGGACCTGAAGTACAAGACTGATTTCTGGAACGGCCAGCCGGTGAAGACCCGCATGAAGGAGTTGTGCGAGGCGCTGTCCGGCATGGGCGTCTGGGTGCGCCTGCACTACGTCTACCCGTACCCGAACGTCGACGACGTGATCCCGCTGATGGCCGAAGGCAAGCTGCTGCCCTACCTGGACATCCCCTTCCAGCACGCCAGTCCGAAGGTGCTCAAGGCCATGAAGCGCCCGGCGTTCGAGGACAAGACCCTGGCGCGCATCAAGCAGTGGCGCGAAATCTGCCCGGACCTGACCATCCGCTCCACCTTCATCGTCGGCTTCCCCGGCGAAACCGAGGAAGACTTCCAGTACCTGCTCGACTGGCTGACCGAGGCGCAGCTCGACCGCGTCGGTTGCTTCCAGTATTCCCCGGTGGACGGCGCGCCGGCCAACGAACTGGCCGATCCGGTGCCGGACGAGGTCAAGCAGGAGCGTTGGGAACGCTTCATGGCCCACCAGCAGGCGATCAGCGCCGAGCGCCTGCAGCGCAAGATCGGCCGGGAAATCGAAGTGCTGATCGACGAGGTGGACGAGCAGGGCGCCATCGGCCGTTCCTGGGCCGACGCGCCGGAAATCGACGGCAACGTCTACGTGGACAGCGACGTCGAGCTCAAGCCGGGCGACAAGGTCCGCGTACGCGTGACCGCGGCGGACGAATATGATCTCTGGGCGGAAACCCTGTAA	MSTPATPKVGFVSLGCPKALVDSERILTQLRMEGYEVVPTYQDADVVVVNTCGFIDSAKAESLEAIGEAIAENGKVIVTGCMGVEESAIREVHPSVLAVTGPQQYEQVVTAVHEVVPPKAEHNPLIDLVPPQGIKLTPRHYAYLKISEGCNHSCSFCIIPSMRGKLVSRPVGDVLSEAERLVKAGVKELLVISQDTSAYGVDLKYKTDFWNGQPVKTRMKELCEALSGMGVWVRLHYVYPYPNVDDVIPLMAEGKLLPYLDIPFQHASPKVLKAMKRPAFEDKTLARIKQWREICPDLTIRSTFIVGFPGETEEDFQYLLDWLTEAQLDRVGCFQYSPVDGAPANELADPVPDEVKQERWERFMAHQQAISAERLQRKIGREIEVLIDEVDEQGAIGRSWADAPEIDGNVYVDSDVELKPGDKVRVRVTAADEYDLWAETL				NA	NA	NA	NA	NA
BMS010_02729	1263			hypothetical protein	ATGCTCAAGCGCTATCGACATCACATTCTGGCGGCTGGCGTTCTGCTCGTAGTGGCCGCCGTGTTGCTACTCTGGAGCCGGACGCTGCCGACCGCCCGTCTGCAGCACCTGAAAATGGACGACGGTACTGCCCTGGTGCAGGCCGATGCCGGCCGTAGCCCGCAGACGCGTGTGCTGCTTGCCGTGCCTGAAGGCCAGACGCTGGACGATACGCGCCTGTTGGCCCTGGCGCAGGACAGTGCCGCGCGGATCGTCCAGGTGACGCTGCCGGAGAATGATTGCGCGACTCAGCAGCGCCGCTTGCAAGCGGCGCTGAAGCGACTGGACGGCGCGCCGACGCTGGTCGCCGGCATCGGCCCCGGTGCAGCCTTGGCCTGGCGCTGGCTGGCCGGGCAGGACGACGACAAGGCACGGGCGTTGTCGGTGGGCTTTTCCCTGGAGCACCCGGACTGTGCCGAGCCGCTGCCGGAGAAGGCCGCGCACGGCCACTGGCTGGCCGCCTGGAACGACAACCCGGACGACGCCAGCGCGCGTTTCGTCCGAGGCCAGGGCAATGCCGAGACGCTGATCGGCGACTACGACATGGCCCTGCCGCAACTGTTGGAGGCGCAGCTTCGCCGTCTGCTGCAAGGGCAGGGTAACGAACTGCCCGTCGTGGAGGTTCCCGCCGCGCAGTCTTCCGACACGCTGACCCTGTTCTATTCCGGCGATGGCGGTTGGCGCGATCTGGACCGGGCCGTGGCCGAGGAAATGGCGAAGGGCGGCTATCCGGTGCTCGGCATCGACAGCCTGCGCTATTTCTGGGAGCACAAGTCGCCCGAGCAGGGGGCTGCCGATCTGGCCCGGCTGATGCGGCAGCACCGCCAGGCCGGCGTGCGCCACTTCGTGCTGATCGGCTATTCCTTCGGCGCCGATGTGCTGCCGGCGATCTACAATCGCCTGCCCGCCGCCGAGCGGGAGCAGGTGGATGCCGTGGTGCTGCTCGCCCTGGCCCGCAGCGGCAGCTTCGAGATCGAGGTGCAGGGCTGGCTGGGCAGCGCCGGGCAGGAAGCGGCGACCGTCCCCGAGCTGGCCCGCCTGCCGCCGGCCCGGGTGCTCTGTGTGTACGGGCGCGAAGAAGCCGGGGAGAGCGGCTGCACCGATCCGGCCTACCAGGGGGAACGTCTGGCGCTGCCTGGCGGTCATCATTTCGATGAGAACTATCCGGCCCTCGCCGAGCGTCTGATCCGGGCCATTCGGGCACGGACGGCCGGGGCGGACTGA	MLKRYRHHILAAGVLLVVAAVLLLWSRTLPTARLQHLKMDDGTALVQADAGRSPQTRVLLAVPEGQTLDDTRLLALAQDSAARIVQVTLPENDCATQQRRLQAALKRLDGAPTLVAGIGPGAALAWRWLAGQDDDKARALSVGFSLEHPDCAEPLPEKAAHGHWLAAWNDNPDDASARFVRGQGNAETLIGDYDMALPQLLEAQLRRLLQGQGNELPVVEVPAAQSSDTLTLFYSGDGGWRDLDRAVAEEMAKGGYPVLGIDSLRYFWEHKSPEQGAADLARLMRQHRQAGVRHFVLIGYSFGADVLPAIYNRLPAAEREQVDAVVLLALARSGSFEIEVQGWLGSAGQEAATVPELARLPPARVLCVYGREEAGESGCTDPAYQGERLALPGGHHFDENYPALAERLIRAIRARTAGAD				NA	NA	NA	NA	NA
BMS010_02730	2637	mprF_1		Phosphatidylglycerol lysyltransferase	ATGCGCGTCAATCCAGCCTCTTCGCAACAGCTCCCCCTCGATTCTCCCATTCCCCCTTCCTTGCCCCAGCGTGGCTGGCGGCGCCTGGCGGCGTACCGGCAGCCGCTGGGGCTGGCGTTCACGCTGCTGTTGTTCGGCCTGGCGCTGGTCGCCTGTTATCACTTGCTGGGCGAGGTGGACCCGCAGGCGTTGCGCGGCGCCTTGGCGGAGGTGCCCGGTACGGCGTTGGCCGGGGCCTTTGCCGCGACGGCGGTGGGCTTCCTGGCCTTGCTGGGCTACGAATGGTCGGCGGCGCGTTACGCCGGGGTGCGCTTGCCGGTCGGCAGCCTCGCCCTGGGGGGCTTCAGTGCCTTCGCCATTGGCAATGCGATCGGTTTCTCGATGCTCTCCGGCGGTTCGGTGCGCTATCGCCTGTATGCCCGCCAGGGGGCCGGGGCGGCGGATGTGGCTCGGATGTCCGTGTTCGCCAGCCTGTCGCTGGGCTGTGCCTTGCCGGTGCTGGCGGCCATCGCGGCACTGGTCGATCTGCCGGATGCGGCCGCGGCCCTGCGTCTGCCCGAGCCGGTGCTGGCGACGCTGGCGATCGCCGTGCTAGTGGTACCCGGCTCGTTGTTGCTGGCGATGCGGCGTTATCGTCTGCCCGAACGGCCGAACCCGGACAGCCTGCTGATCGGCATCGGCCGACGGACCTTGCGCCTGCCCGGCCTGCGCCTGACCCTGCTGCAACTGGCGATCACCGTGCTGGACGTCTCCGCCGCTGCTGCGGTGCTCTATCTGCTGTTGCCGGAGGCTCCGCCGTTCGGTGCCTTCCTGGCGGTTTATCTGCTGGCGCTGGCAGCCGGGGTGCTCAGCCATGTGCCCGGTGGCGTCGGGGTGTTCGAGGCGGTGCTGCTGGCGGCGTTCGCCGGAACCCTGGGCTCGGCGCCGCTGGCGGCGGCCCTGCTGTTGTACCGGCTGATCTATGTCTTGCTGCCGCTGCTGTTGGCCTGCCTGCTGCTGTTGCTCAACGAGGCGCGCCGGCTGACCCCGGCCCGCCAGGCCATACGGATCGCCTCCGGGATGGCGGCGCCGGTGCTGGCGTTGCTGGTGTTTCTGGCCGGCGTGGTGCTGTTGTTCTCCGGGGCGACGCCGGCCATCGATACACGGCTGGAGCATCTGGGATTTTTGATTCCGCACCGTCTGATCGACGCGTCCCACCTCGGCGCCAGCCTGATCGGCGTGCTCTGCCTGCTCCTCGCCCAGGGCTTGCGCAGGCGCCTGTCCGCGGCCTGGGCCCTGACCCTGGTGCTGCTGCTGGCCGGTGCGGTGTTGTCGTTGTTGAAAGGTTTCGATTGGGAAGAGGCCAGCCTGCTGGCCATGACGGCAGCTCTACTGGCTACGTTCCGGCGCTCGTTCTACCGGCCGAGCCGGCTGCTGGAATTGCCGTTTTCGCCTATCTACCTGGCCGCCAGCCTGTGCGTGCTGGCGGCGTCGGTGTGGCTGCTGCTGTTCGCCTATCAGGACGTCCCCTACAGCCATGAACTCTGGTGGCAGTTCGCCCTGGATGCCGATGCACCGCGTGCCCTGCGTTCGGCGCTGGGCAGCGCCTTGCTGCTGCTGGTGGTGGCGTTGACCTGGCTGTTGCGCGCGGCGCCGCCAGCGATCCGGCTGCCGGACGCGGAAGAACTGGCCCGCGCCGCTGCCATCGTCAAAGCCTCCGACCAGCCGGATGGCGGCCTGGCCTTGAGCGGCGACAAGGCCCTGCTGTTCCACCCGGACGGCAACGCCTTCCTGATGTACGCCCGGCGCGGGCGCAGCCTGGTCGCGCTGTTCGATCCGATCGGCCCGGCGCAGCAGCGCGCCGAGCTGATCTGGCAGTTCCGTGACCTCTGCGATCGCCATCACGCGCGACCGGTGTTCTACCAAGTGCGGGCAGAGAATCTACCTTTCTATATGGACATCGGGCTGAGCGCCCTGAAGCTGGGGGAGGAAGCGCGCGTCGACCTGGCTCGCTTCGATCTCGACAGCAAGGGCATGAAGGACTTGCGCTATACCTGGAACCGCAGCCAGCGCGACGGGCTCGCCCTGGAAATCCATGAGCCGGGGCAGGCACCGCTGGAGGCGCTGCAGGTGATTTCCGATGCCTGGTTGGGTGGCAAGCAGGGCCGCGAGAAGGGCTTTTCCCTGGGGCGGTTCAGTCCGGCGTACCTGCAGCATTTCCGCATTGCGCTGATCCGCTACCAGGGCCAGCCGGTGGCCTTCGCCAACCTGCTGGAGACCGACCGTCGCGAACTGGCCAGCCTGGACTTGATGCGCGTGCATCCCGAGGCGCCCAAGTCGACCATGGAGTTCCTCATGCTCGGCCTGATCCTGCATTACAAGGCCAGCGGCCACGCCCGCTTCAGCCTGGGCATGGTGCCGCTGGCAGGGCTCCAGCCTCGGCGCGGCGCGCCCATGGCCCAGCGGCTGGGTGCCCTGGTGTTCCGTCGCGGCCGATTGTTCTACAACTTTCAAGGACTGCGCCGTTTCAAGGACAAGTTCCAGCCGGACTGGGAGCCCCGTTACCTGGCCGTGCCGGCAGGGCTCGATCCGCTGGTGGCGCTGGCCGACACCGCCGCCCTGATTGCCGGCGGCCTGACTGGATTGGTGAAACGCTGA	MRVNPASSQQLPLDSPIPPSLPQRGWRRLAAYRQPLGLAFTLLLFGLALVACYHLLGEVDPQALRGALAEVPGTALAGAFAATAVGFLALLGYEWSAARYAGVRLPVGSLALGGFSAFAIGNAIGFSMLSGGSVRYRLYARQGAGAADVARMSVFASLSLGCALPVLAAIAALVDLPDAAAALRLPEPVLATLAIAVLVVPGSLLLAMRRYRLPERPNPDSLLIGIGRRTLRLPGLRLTLLQLAITVLDVSAAAAVLYLLLPEAPPFGAFLAVYLLALAAGVLSHVPGGVGVFEAVLLAAFAGTLGSAPLAAALLLYRLIYVLLPLLLACLLLLLNEARRLTPARQAIRIASGMAAPVLALLVFLAGVVLLFSGATPAIDTRLEHLGFLIPHRLIDASHLGASLIGVLCLLLAQGLRRRLSAAWALTLVLLLAGAVLSLLKGFDWEEASLLAMTAALLATFRRSFYRPSRLLELPFSPIYLAASLCVLAASVWLLLFAYQDVPYSHELWWQFALDADAPRALRSALGSALLLLVVALTWLLRAAPPAIRLPDAEELARAAAIVKASDQPDGGLALSGDKALLFHPDGNAFLMYARRGRSLVALFDPIGPAQQRAELIWQFRDLCDRHHARPVFYQVRAENLPFYMDIGLSALKLGEEARVDLARFDLDSKGMKDLRYTWNRSQRDGLALEIHEPGQAPLEALQVISDAWLGGKQGREKGFSLGRFSPAYLQHFRIALIRYQGQPVAFANLLETDRRELASLDLMRVHPEAPKSTMEFLMLGLILHYKASGHARFSLGMVPLAGLQPRRGAPMAQRLGALVFRRGRLFYNFQGLRRFKDKFQPDWEPRYLAVPAGLDPLVALADTAALIAGGLTGLVKR	PGPT0024390_124	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATIDYLGLYCEROL_LYSYLTRANSFERASE,PGPT0024390-mprF|fmtC-K14205	NA	NA
BMS010_02732	1056	dinB_1	COG0389	DNA polymerase IV	GTGCGCAAGATCATCCACGTCGACTGCGACTGTTTCTACGCCGCCATCGAGATGCGTGACGACCCGCGCCTGGCTGATCGCCCCCTCGCCGTTGGCGGCTCGGCCGACCGCCGCGGAGTGATCGCCACCTGCAACTACGAAGCCCGCGCCTATGGCGTGCGCTCGGCGATGTCGTCGCGGCATGCGCTCAAGCTCTGTCCCGACCTGCTGATCGTCAAGCCACGCTTCGACGCCTACCGGGCCGCCTCCCGGGAAATCCAGCGGATATTCCGCGATTACACGGACATCATCGAGCCGCTATCGCTGGACGAAGCCTATCTCGACGTGTCCGACAGCACCCACTTCTCCGGCAGCGCCACCCGTATTGCCCAGGCCATCCGCCAACGCGTCCAGGAGGAGCTGCATATCACGGTGTCCGCCGGGGTGGCGCCAAACAAGTTCCTCGCCAAGATCGCCAGCGACTGGCGCAAGCCCAACGGGCTCTACGTGATCACCCCGGACCAGGTGGAAGACTTCGTCGCCGCCCTGCCGGTGAGCAAGCTGCATGGCGTCGGCAAGGTCACGGCGGACAAACTGGGCCGCCTCGGCATCGGCACCTGCGCGGATTTGCGCGAATGGAGCAAGCTGGCCCTGGCGCGCGAGTTCGGCAGTTTCGGCGAACGCCTGTGGAACCTGGCGCGCGGCATCGATAACCGGCCGGTCCAAGTGGACAGCCGCCGCCAGTCGCTGAGCGTGGAGAACACCTACGACCACGACCTGCCGGACCTGGTCGCCTGCCTCGAACAACTGCCCGGCCTGGTGGAGGAACTGCATGGCCGGCTGGCGCGGCTGGACAGCAGCTACCGGCCGGACAAGCCCTTCGTGAAGGTGAAGTTCCATGACTTCACCCAGACTACCCTGGAGCAGGCCGGCGCCGGCCGCGATCTGGAGAGCTTCAAACTGCTGCTCAGTGCCGCCTTTGCCCGCGGCGCCCGGCCGGTGCGCCTGCTCGGCGTCGGCGTGCGGCTGATCGACCTGCGCGGCCGTCACGAACAACTGGAACTGTTCGAGCGCTGA	MRKIIHVDCDCFYAAIEMRDDPRLADRPLAVGGSADRRGVIATCNYEARAYGVRSAMSSRHALKLCPDLLIVKPRFDAYRAASREIQRIFRDYTDIIEPLSLDEAYLDVSDSTHFSGSATRIAQAIRQRVQEELHITVSAGVAPNKFLAKIASDWRKPNGLYVITPDQVEDFVAALPVSKLHGVGKVTADKLGRLGIGTCADLREWSKLALAREFGSFGERLWNLARGIDNRPVQVDSRRQSLSVENTYDHDLPDLVACLEQLPGLVEELHGRLARLDSSYRPDKPFVKVKFHDFTQTTLEQAGAGRDLESFKLLLSAAFARGARPVRLLGVGVRLIDLRGRHEQLELFER	PGPT0014881_4974	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ADAPTIVE_MUTATION	CE-BACTERIAL_FITNESS-ENVIRONMENT-INDUCIBLE_DNA_POLYMERASES,PGPT0014881-dinB-K02346	NA	NA
BMS010_02733	1215	yfcJ_1		putative MFS-type transporter YfcJ	ATGGACCCTCGCCTCGCCACCCCGGCCCGAACCGCCTCCTGGCGCGCCTTGCCACCGGGCATCTGGGCGCTGGGCTTCGCCTCGATGTTCATGGATATCTCGTCCGAGCTGATCCACAGCCTCCTGCCGATCTTCATGGTCAGTGTGCTCGGCACCTCGATGGTCACCGTCGGCCTGATCGAAGGCATCGCCGAAGCGACGGCCGCCATCAGCAAGGTGTTCTCCGGCACCCTCAGCGACTACCTCGGGCGGCGCAAACCCTTGGTGGTGCTGGGATACGCCCTGGCGGCCTTCACCAAACCGGTGTTTCCGCTGGCCGGCTCGATCGGCTGGGTATTCGCTGCGCGCTTCGTCGACCGGATCGGCAAGGGCATCCGCGGCGCGCCGCGCGATGCGCTGATCGCCGACCTGGTCCCGGCCCGTCTGCGCGGTGCGGCCTATGGCCTGCGCCAGGGGCTCGATTCGCTGGGGGCGCTGCTCGGTCCGCTGCTGGCGATGCTGTTCATGCTCTGGCTGAACGATTTGCAGGCGGTGATGTGGATCGCCGTGCTGCCCGCCTTCGTCGCGGTCGGCCTGCTGCTGGCCTATGTGCGGGAGCCGGAGCGGGCCTCGACGGCGGAGACGGCCGCGCCCCGGTTGCACCTGACGGATGCGAAGCGCCTGCCGCTGCGCTTCTGGCTGGTGGTCCTGCTCGGCGCCCTGTTCACCCTGGCCCGCTTCAGCGAGGCCTTCCTGCTGCTCCGCGCCCAGGATGTCGGCCTGTCGATCGGCTTCGTACCGTTGACGATGATCGTGATGAATCTGTTCTACGCCGCCTGCTCCTATCCGGCCGGCGCCGCCGCCGATCGCTTCGGCCCGCTCGGGCTGCTGCTGGCGGGGCTGGGCCTGCTGATCGTCGCCGACCTGCTGCTGGCCTTCGCCACCGGGGTCTCGCAGGTGTTGCTCGGCGCAGCGCTCTGGGGCCTGCACATGGCCCTCACACAGGGGCTGCTGGCCAAGCTGGTGGCCGATACCGCGCCCGAGGACCTGCGCGGCACGGCCTTCGGGCTGTTCAACCTGGTCAGCGGCGGCGCCTTGCTGCTCGCCAGTCTGATTGCCGGCGCGCTGTGGAGTGCCTTTGGCCCGGCCGTCACTTTCTTCGCCGGCGCGGCATTCTCGGCCGTGGCGGCGCTCGGTTTGCTGGCTTACCGGCTATCCAATCACCACCGAGACTGA	MDPRLATPARTASWRALPPGIWALGFASMFMDISSELIHSLLPIFMVSVLGTSMVTVGLIEGIAEATAAISKVFSGTLSDYLGRRKPLVVLGYALAAFTKPVFPLAGSIGWVFAARFVDRIGKGIRGAPRDALIADLVPARLRGAAYGLRQGLDSLGALLGPLLAMLFMLWLNDLQAVMWIAVLPAFVAVGLLLAYVREPERASTAETAAPRLHLTDAKRLPLRFWLVVLLGALFTLARFSEAFLLLRAQDVGLSIGFVPLTMIVMNLFYAACSYPAGAAADRFGPLGLLLAGLGLLIVADLLLAFATGVSQVLLGAALWGLHMALTQGLLAKLVADTAPEDLRGTAFGLFNLVSGGALLLASLIAGALWSAFGPAVTFFAGAAFSAVAALGLLAYRLSNHHRD	PGPT0027480_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HipA-HipB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027480-toxin_hipA-K07154	NA	NA
BMS010_02734	771	rhlG		Rhamnolipids biosynthesis 3-oxoacyl-[acyl-carrier-protein] reductase	ATGCACCCGTATTTCAGCCTCGAAGGGCGTACCGCCCTGGTTACCGGCGGCAGCCGCGGCATCGGCCGGATGATCGCCCAGGGCTTTCTCGAAGCCGGCGCGCGGGTGTTCATCTGCGCGCGTCATGCCGAGGACTGCGCCGCCACCGCGGAAGAACTGAGCCGCTACGGCGACTGCATCGGCCTCGCTGCCGACCTCTCCAGCGAAGACGGCGCCAAGGCCCTGGCCGCCGAACTGGCGAGCCGTGTCGAGCGCCTGGACATCCTGGTGAACAACGCCGGCACCACCTGGGGCGCGCCGCTGGAAAGCTACCCGGCGAAGGGCTGGGAGAAGGTCATGCAGCTCAACGTCACCTCGGTCTTCAGCTGCATCCAGCAACTGCTGCCGCTGCTGCGCCGGGCCGCCACCGACGCCAATCCGGCGCGGGTGATCAACATCGGTTCGGTGGCGGGCATCACCGCCATGGGCGAGCAAGCCTATGCCTACGGGCCGAGCAAGGCGGCGCTGCATCAGTTGTCGCGCATGCTGGCGCGGGAACTGGTCGGCGAGCACATCAACATCAACGTGATCGCTCCGGGGCGCTTCCCCAGCAAGATGACCCGACACATCGCCAACGACGCCGACGCGCTGGCCGAAGACACCGCCGTGATTCCGATGAAGCGCTGGGGCCGCGAGGAGGAGATGGCCGCGCTGGCGATCAGCCTGGCGAGTTGCGCCGGCGCCTACATGACCGGCGCGATCATCCCCATCGACGGTGGATTCCACCTGTAG	MHPYFSLEGRTALVTGGSRGIGRMIAQGFLEAGARVFICARHAEDCAATAEELSRYGDCIGLAADLSSEDGAKALAAELASRVERLDILVNNAGTTWGAPLESYPAKGWEKVMQLNVTSVFSCIQQLLPLLRRAATDANPARVINIGSVAGITAMGEQAYAYGPSKAALHQLSRMLARELVGEHININVIAPGRFPSKMTRHIANDADALAEDTAVIPMKRWGREEEMAALAISLASCAGAYMTGAIIPIDGGFHL				NA	NA	NA	NA	NA
BMS010_02735	636			hypothetical protein	ATGAGCATTGCGGACTGGCGCCTGCAGGGCGTCGAGTTTGCTTCCTGCAACTGTAACTGGGGCTGCCCCTGCCAATTCAGTGCACGCCCCACCCACGGCCACTGCCAGGCCGTGGTGGCCATGCGCATCGAGCAGGGCCATTTCCGCGACACCCACCTGGACGGCCTGTGCTGGGCCGGCACCTTCGCCTGGCCGGGCGCCATCCACGAAGGCAACGGCAGTTGCCAGGCGTTCGTCGACGAACGTGCCGACGAGGCGCAGCGCCAAGCCTTGCTGACCATCCTGTCCGGCCAGGAAAGCGAGCCTGGCGCCAACGTGTTCCAGATCTTCAGTACCACCATCAGCGAAATGTTCGAGCCGCAGTTCGTGCCCATCGAGCTGAGCATCGACGTGGACGAGCGCCTGGCCCGGCTGCGTATTCCGGGCGTCCTGGAAGCCAGCGGCGAGCCGATCCGCAGTCCGGTGACGGGAGCGCCGCAGCGGGCACGCCTGGTGCTGCCGGACGGCTTCGAGTTCATCGAGGCGGAAATGGCCAGCGGCAGCTACCAGACCCACGCGGCCATGCAGTACCAGTCGCAAGGCAGCCACAGCCACTTGGCGCGGGTCCACTTCACCGGCCACGGCCTGGTGCGCTGA	MSIADWRLQGVEFASCNCNWGCPCQFSARPTHGHCQAVVAMRIEQGHFRDTHLDGLCWAGTFAWPGAIHEGNGSCQAFVDERADEAQRQALLTILSGQESEPGANVFQIFSTTISEMFEPQFVPIELSIDVDERLARLRIPGVLEASGEPIRSPVTGAPQRARLVLPDGFEFIEAEMASGSYQTHAAMQYQSQGSHSHLARVHFTGHGLVR				NA	NA	NA	NA	NA
BMS010_02736	789			hypothetical protein	ATGGCCTGGCAGCCGGCCGCGATGCCGGCCAGGGGGATGTCGAAGGAACAGTTGGTGTTCGTCGCCTGCCTGTTCCTGCTGCTCGCCCTGGCCTGGCTGATCCTGCAACGGATGACCGAGGTCATGGCGGCCCCTGGCGGGATGGCCGATATGGCGATGGCCGGCATGCCGATGCCGTGGAGCTTCGGCGACGCCGCGCTGATGTTCGCCATGTGGGCGGTGATGATGGTGGGGATGATGCTGCCCAGCGCCCTGCCCATGTTCCTGCTCTACCAGATGCTGTTGCGCCGGCGCATGCCGTCGCCGCAGCGGCACTGGGCGCTGGTTTTGTTCTGCGCCGCCTATCTCGTGGTATGGGGTGGTTTCAGCCTGATCGCCACCCTGCTGCAATGGGGTCTCGATCATCTCGCGCTGCTGGACGTGCAGATGCGCAGCGCCAGCACGCCCCTGGCCGCCGTGTTGCTGATTGCCGCCGGTGTATGGCAATGGCTGCCGGCCAAATCCGCCTGCCTGGAACGCTGCCGGGGGCCGATGCAGTTCCTGCTGACCGGCTGGCGGCCCGGCGTGACCGGTGGCTGGCATCTCGGTCTGGCGCATGGCGCCTGGTGCCTGGGTTGCTGCTGGGCGCTGATGGGGTTGTTGTTTGTCGTCGGCGTGATGAACCTGCTGTGGGTCGCGCTGATCGGCGCCTTCGTCCTGTTCGAGAAGACCTTGCCCCTGGGGCTCTGGCTCAGTCGCGCCGGCGGGCTGCTGTTGGTCGGCTGGGGCGCGGCGCTCTTGCTCCCCTAG	MAWQPAAMPARGMSKEQLVFVACLFLLLALAWLILQRMTEVMAAPGGMADMAMAGMPMPWSFGDAALMFAMWAVMMVGMMLPSALPMFLLYQMLLRRRMPSPQRHWALVLFCAAYLVVWGGFSLIATLLQWGLDHLALLDVQMRSASTPLAAVLLIAAGVWQWLPAKSACLERCRGPMQFLLTGWRPGVTGGWHLGLAHGAWCLGCCWALMGLLFVVGVMNLLWVALIGAFVLFEKTLPLGLWLSRAGGLLLVGWGAALLLP				NA	NA	NA	NA	NA
BMS010_02737	198			hypothetical protein	ATGTTCCGCCCGCTCCGCCTCGCCCTGCCGATCGCCGCCCTGCTCGCCCTGCCGCAGCCCGGCAATGCCGCGCCGGCTCCCTGGTATCAGTGGCGCAGCCTGGTGAACGGTGCGCTGTTCTGTGCCCAGACCAGCCCTGGCCCCGGTTGGGAACAGGTCGCCGGCCCGTTCCGCAATCCGCGCTGCCAGCCGCACTGA	MFRPLRLALPIAALLALPQPGNAAPAPWYQWRSLVNGALFCAQTSPGPGWEQVAGPFRNPRCQPH				NA	NA	NA	NA	NA
BMS010_02738	723	trmO	COG1720	tRNA (adenine(37)-N6)-methyltransferase	ATGGCGGCGTTTCCCGCCATTAGCCTAACCATGTCCTACTCCGTCACGCCCATCGGTTTCGTTCGCTCCTGTTTCAAGGAGAAATTCGCCATTCCGCGCCAACCGCAACTGGCCCCCGCCGCCCGCGGCGTGCTGGAGCTGGTGCCGCCGTTCGACCAGGCCGACGCCGTGCAGGGTCTGGAGCAGGTCAGCCACGTCTGGCTGCTGTTCCTCTTCCACCAGGCGCTGGAAGACAAGCCACGCTTGAAGGTGCGCCCGCCGCGCCTGGGCGGCAATCAGTCGCTCGGGGTGTTCGCCACCCGCTCGACGCATCGCCCGAACGGCATCGGCCAGTCGGTGGTGCGTTTGGAAAAGGTCGAAGCGGGCCACCTGTGGCTGTCCGGTATCGACCTGCTGGACGGCACTCCGGTACTGGATATCAAACCCTACGTGCCCTACGCCGACCGGGTGGCGGACGCCAGTAACCGCATCGCCGAGGCCGCGCCGGCGCTGATCCCGGTGGAGTGGGAAGACGCGGCGCTGATCCAGGCGCGGGAACATCAGGCCCGCCTGGAGCAGCCGCTGGTGGCGCTGATCGAGCAATGCCTCGCCCAGGACCCGCGGCCTGCCTACCAGGAGCCCGGCCCGGAGCGGCGCTACGGCGCCCGTCTCTGGGATGTGGATGTGCACTGGCACTATCCCCGGCCGGGGCTGATCCGGGTACTCGATGTGATAAAAGCCTGA	MAAFPAISLTMSYSVTPIGFVRSCFKEKFAIPRQPQLAPAARGVLELVPPFDQADAVQGLEQVSHVWLLFLFHQALEDKPRLKVRPPRLGGNQSLGVFATRSTHRPNGIGQSVVRLEKVEAGHLWLSGIDLLDGTPVLDIKPYVPYADRVADASNRIAEAAPALIPVEWEDAALIQAREHQARLEQPLVALIEQCLAQDPRPAYQEPGPERRYGARLWDVDVHWHYPRPGLIRVLDVIKA				NA	NA	NA	NA	NA
BMS010_02739	777	fpr_1	COG1018	Ferredoxin--NADP reductase	ATGAGCAACCTGAACGTCGAGCGTGTCCTCAGTGTGCACCACTGGAACGACACCCTGTTCAGCTTCAAGACCACCCGCAACCCCGGCCTGCGTTTCGAGAACGGCCAGTTCGTGATGATCGGTCTGGAAGTCAACGGTCGCCCGCTGATGCGTGCCTACAGCATCGCCAGCCCGAACTACGAAGAACACCTGGAGTTCTTCAGCATCAAGGTGCCGGACGGCCCGCTGACCTCGCGCCTGCAGCATCTCAAGGAGGGCGACGAGCTGATGATCAGCCGCAAGCCCACCGGCACTCTGGTGCTGGACGACCTGTTGCCCGGCAAGCACCTTTACCTGCTCAGTACCGGCACCGGCCTAGCGCCCTTCATGAGCGTGATCCAGGACCCGGAAACCTATGAGCGCTACGAAAAGGTAGTGCTGGTGCATGGCGTCCGCTACGTCAATGAAGTCGCCTACCGTGAATTCATCACCGAACACCTGCCGAAGAACGAGTACTTCGGCGAGGCGCTGAGCCAGAAGCTGATCTACTACCCCACGGTGACCCGCGAGCCGTTCGAGAACCAGGGTCGCCTGACCGACCTGATGCGCAGCGGCAAGCTGTTCGCCGACATCGGCCTGCCGCCGATCAACCCGCAGGACGACCGCGCGATGATCTGCGGCAGCCCGAGCATGCTGGACGAGACCAGCCAGGTGCTGGACGGCTTCGGCCTGAAGATTTCCCCGCGCATGGGCGAGCCGGGCGACTACCTGATCGAGCGTGCCTTCGTCGAGAAATAA	MSNLNVERVLSVHHWNDTLFSFKTTRNPGLRFENGQFVMIGLEVNGRPLMRAYSIASPNYEEHLEFFSIKVPDGPLTSRLQHLKEGDELMISRKPTGTLVLDDLLPGKHLYLLSTGTGLAPFMSVIQDPETYERYEKVVLVHGVRYVNEVAYREFITEHLPKNEYFGEALSQKLIYYPTVTREPFENQGRLTDLMRSGKLFADIGLPPINPQDDRAMICGSPSMLDETSQVLDGFGLKISPRMGEPGDYLIERAFVEK	PGPT0013215_2786	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013215-fpr-K00528	NA	NA
BMS010_02740	927	cmpR_3		HTH-type transcriptional activator CmpR	ATGCGATTCACGCTGCGCCAACTCCAGGTATTCGTCGCCGTCGCCCAGCAGGAAAGCGTGTCCCGCGCCGCGGAATCGCTCGCCCTGTCGCAGTCGGCCGCCAGCACCTCGCTGACCGAACTGGAGCGGCAGTCGGATTGCCAGTTGTTCGACCGTGCCGGCAAACGCCTGAGTCTGAACGCCCTGGGCCGGCAACTATTGCCCCAGGCCGTGGCCCTGCTCGACCAGGCCAAGGAAATCGAGGACCTGCTCAACGGCAAGAGCGGCTTCGGCTCCCTGGCGGTCGGCGCCACCCTGACGGTGGGCAACTACCTCGCCACCCTGCTGATCGGCAACTTCATGCAGCGGCACCCGGAGTGCCGGGTAAAACTGCACGTGCACAACACTGCCCACGTGGTCCACCAGGTGGCGCATTACGAACTGGACCTGGGCCTGATCGAAGGCGACTGCCAGCACCCGGACATCGACGTCCAGCGCTGGGTGGAAGATGAACTGGTGGTGTTCTGCGCGCCCCAGCACCCGTTGGCCAGCCGCGGCCAGGCGAGCCTCGACGAACTGACCCGCGAGGCCTGGATTCTCCGCGAACAGGGCTCCGGCACCCGCCTGACCTTCGACCAGGCCATGCGCCACCACCCCACCGCGCTGAACATCCGTCTGGAGTTGGAACACACCGAAGCGATCAAGCGGGCCGTGGAGTCGGGCCTGGGGATCGGCTGCATCTCGCGCCTGGCGCTGCGCGACGCCTTCCGCCGCGGCAGCCTGGTGCCGGTGGAAACGCCGGAACTGGACCTCACCCGCCAGTTCTACTTCATCTGGCATCGGCAGAAGTACCAGACCGCGGCCATGCGCGAATTTCTCGACCAGTGCCGCCAGCTCACCGCCGGAGTTAAACGTAGCGATCAGATCGTGCTGCCGACCATCGCCTGA	MRFTLRQLQVFVAVAQQESVSRAAESLALSQSAASTSLTELERQSDCQLFDRAGKRLSLNALGRQLLPQAVALLDQAKEIEDLLNGKSGFGSLAVGATLTVGNYLATLLIGNFMQRHPECRVKLHVHNTAHVVHQVAHYELDLGLIEGDCQHPDIDVQRWVEDELVVFCAPQHPLASRGQASLDELTREAWILREQGSGTRLTFDQAMRHHPTALNIRLELEHTEAIKRAVESGLGIGCISRLALRDAFRRGSLVPVETPELDLTRQFYFIWHRQKYQTAAMREFLDQCRQLTAGVKRSDQIVLPTIA				NA	NA	NA	NA	NA
BMS010_02741	366	dgkA	COG0818	Diacylglycerol kinase	ATGTCGCCATTCAAGGGCCAGACCGGCCTCAAACGCATCTTCAATGCCACTGGTTATTCGCTGGACGGCCTGCGCGCTGCGTTCCAGGGCGAAGCGGCCTTCCGCCAACTGGTGCTGCTCAATCTGGTGCTGATCCCGTTTTCCTTCGTCGTCGAGGTCAGCCGTGGCGAGCGTGCGCTGCTGATCGCCGTGTGCCTGTTGGCACTGATCGTGGAACTGTTCAATTCGGCGGTGGAGGCGGCCATCGACCGGATTTCCCTGGAGCGCCATCCGTTGTCGAAGAACGCCAAGGATATGGGCAGCGCCGCGCAACTGATGACCCTGGGATTGATCGCGGCGGTCTGGTCGGTGATTTTGCTGGGATAA	MSPFKGQTGLKRIFNATGYSLDGLRAAFQGEAAFRQLVLLNLVLIPFSFVVEVSRGERALLIAVCLLALIVELFNSAVEAAIDRISLERHPLSKNAKDMGSAAQLMTLGLIAAVWSVILLG	PGPT0024340_4596	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024340-dgkA|DGK-K00901	NA	NA
BMS010_02742	654	degU_1	COG2197	Transcriptional regulatory protein DegU	ATGGCTGCTTACGAAATCCTGATTGCCGACGATCACCCGTTGTTCCGCAGCGCCTTGCAACAGGCGCTCACCCTGGGCCTGGGGCCTGATGTCCGTCTGGTCGAGGCTGCCAGCATCGCCGAGCTGGAGGCGCGCCTGGCGGAAAAGACCGATTGGGATCTGGTCCTGCTCGACCTGAACATGCCCGGTGCCTATGGCTTCTCCGGCCTGGTGCTGTTGCGCGGCCAATACCCGCAGATTCCGGTGGTGATGATCTCGGCCCAGGAAGAGGCGGCGGTGGTCGCCCGGGCGCGGGAATTCGGCGCCAGTGGTTTCATCCCCAAGTCCAGCCCGCTGGAAACCATCCAGCAGGCGGTGCGCGCGGTGCTCGACGGCGACGCCTGGTGGCCGCCACAGGCCCAGGAGGAGGTGCGTGTGCCGGACGAAGCGAAGGCCGCCAGCGCCGGCCTGGCCAGTCTGACGCCGCAGCAGTTCCGCGTACTGACCATGGTCTGCGAGGGGCTGCTGAACAAGCAGATCGCCTATGAGCTGAGCGTGTCCGAGGCCACGGTGAAAGCCCACGTCACGGCGATCTTCCGCAAGCTCGGCGTACGCACCCGGACCCAGGCCGCGCTGCTGCTGCAACAGATGGAATCGATTCCCCCCGCCGGTTGA	MAAYEILIADDHPLFRSALQQALTLGLGPDVRLVEAASIAELEARLAEKTDWDLVLLDLNMPGAYGFSGLVLLRGQYPQIPVVMISAQEEAAVVARAREFGASGFIPKSSPLETIQQAVRAVLDGDAWWPPQAQEEVRVPDEAKAASAGLASLTPQQFRVLTMVCEGLLNKQIAYELSVSEATVKAHVTAIFRKLGVRTRTQAALLLQQMESIPPAG	PGPT0000550_1377	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	N-AQUISITION-NITRATE|NITRITE_SENSING,PGPT0000550-narL-K07684	NA	NA
BMS010_02743	927			hypothetical protein	ATGCGAAACCCAGCCCTGCGCGCCGACCTCCTGATGTTGCTGACCGCCATGATCTGGGGCAGCGCCTTCGTCGCCCAGCGCCTGGGCATGGAGGCCATCGGCCCGTTCCTTTATTCCGGCCTGCGCTTCGCCCTCGGGGCCCTGGTGCTGGTCCCGCTGCTGCTCCTGGCCCGTCGCGGCTCAGGCGGACGCCTGGCATTCAGCCGCCCGCTGCTGTGGAACGGCATGCTGCTCGGCGTGGTGCTGGCCATCGGCATCAACCTGCAGCAAGTGGGCCTGCTGTTCACCAGCGTGACCAACTCCGGCTTCATCACCGGCCTCTACGTGATCATGGTGCCTCTGCTCGGCCTGCTGATCGGCCAGCGCACCGGCCTCGGCACCTGGCTCGGCGCCTGCCTGGCGGTGGTCGGCATGGCCCTGCTGAGCATCGGCGAAGGCTTCAGCGTGGCGTCCGGCGACTGGCTGCAACTGGCCGGCGCGCTGGTCTGGGGCGTGCATGTGCTGCTGGTCAGCGCGCTGGCCAGCCGGCACGACCCGATCAGCCTGGCCTTCCTGCAATTCCTCACCTGCTCGCTGCTCAGCCTGCCGCTGGCACTGGTCTTCGAGGCTTTCGACCTGGCGGCCATCGGCCAGGCCATGCCGGCGATCCTCTACGGCGGCATCCTCGCCGTCGGCGTCGGTTTCACCCTGCAGGTGGTGGCGCAGAAGCACGCCATCGCGTCCCACGCGGCGATCATCCTGTCCCTCGAAGCCGTTTTCGCCGCCCTCGCCGGGGCGCTGATCCTCGGCGAGAGCTTGCCGCTGAAAGGCTATGTCGGCTGCGCCCTGATGTTCGCCGGCATGCTGCTGGCCCAGCTGTGGCCGAAGCAGGCCGCACCGCAACCTGCGCAAGCCGGTGCCCTGCCGCTGAGCGAGGAGCCCCGCTAG	MRNPALRADLLMLLTAMIWGSAFVAQRLGMEAIGPFLYSGLRFALGALVLVPLLLLARRGSGGRLAFSRPLLWNGMLLGVVLAIGINLQQVGLLFTSVTNSGFITGLYVIMVPLLGLLIGQRTGLGTWLGACLAVVGMALLSIGEGFSVASGDWLQLAGALVWGVHVLLVSALASRHDPISLAFLQFLTCSLLSLPLALVFEAFDLAAIGQAMPAILYGGILAVGVGFTLQVVAQKHAIASHAAIILSLEAVFAALAGALILGESLPLKGYVGCALMFAGMLLAQLWPKQAAPQPAQAGALPLSEEPR				NA	NA	NA	NA	NA
BMS010_02744	906			hypothetical protein	ATGCTCAGGACAGGCACGTTGCTCCCCTCTTCCGTTTACGGGAGAGGGGCTGGGGGAGAGGGACAGATCGCGTCTGGTCGGTGCTCCAGTGAACAGCATCAGGTGCCGAAAGGGCCTCTGGTAGACTGTCGGCTTTTCCTCTCCGTGGTTTTGCCGATGTCCGCCGTGCTCCCCGATCGCTCCAGGGCCCATGCCGTTGCGCGCTTGCGCGCCGAGCGCCTGGCCCGTGCCAGTAAACCCTTCCTGGCGCGCGGCTCGCGAGGGGAGCGCTGTCCGGGCTGCCGGGTGCCGTTCAGCCATTGCTTGTGCGCCTGGCGACCGGAGGTGCCGGCGCGTTCCGGCGTCTGTTTGCTGATGCATGACGTGGAACCACTGAAGCCGAGCAATACGGGCTGGCTGATCGCCGACGTGGTGGTCGATACCGAGGCGTTCGGCTGGCTGCGCACGGCCGTCGATCCGGCCTTGCCGAGCCTGCTCGCCGACCCGCGCTGGCAGCCGTTCCTGGTGTTTCCCGGCGAGTATGCGGCGCCGGAGCGGGTGGTGAGCGAGGTAGTGGTGGAAGAGGGGCGGCGGCCGTTGTTCGTCCTGCTCGACGCCACCTGGACCGAAGCGCGCAAGATGTTCCGCAAGAGCCCCTATCTCGACGGCCTGCCAGTCCTGAGCCTGCAGCCGGAGCAGTTGTCGCGCTACCGGTTACGGCGTTCGAAGCGCGACGATCATCTGTGCACCGCCGAAGTCGCCGCGCTCTGCCTCGATCTCGCCGGCGACCGGGACGCGGCCGAGGCGCTGGACGCCTATCTCGATGTGTTCACCGATCATTACCTGGGGGCCAAGCATCGCTGGCCGGTCGATGCCGGTGACGAGGCGCACCGGCGGCTGTCCGCTTTCCTGCCGGCAGGCGACTAG	MLRTGTLLPSSVYGRGAGGEGQIASGRCSSEQHQVPKGPLVDCRLFLSVVLPMSAVLPDRSRAHAVARLRAERLARASKPFLARGSRGERCPGCRVPFSHCLCAWRPEVPARSGVCLLMHDVEPLKPSNTGWLIADVVVDTEAFGWLRTAVDPALPSLLADPRWQPFLVFPGEYAAPERVVSEVVVEEGRRPLFVLLDATWTEARKMFRKSPYLDGLPVLSLQPEQLSRYRLRRSKRDDHLCTAEVAALCLDLAGDRDAAEALDAYLDVFTDHYLGAKHRWPVDAGDEAHRRLSAFLPAGD				NA	NA	NA	NA	NA
BMS010_02745	1668		COG2067	Putative outer membrane protein	ATGACAATAGCTCTCCAACCCCGTTCGCTGGCTTTCCTCGCTGGTGCCTTGCTGGTACTGCCTGCCTCCCAGTCACTGGCATCGGGTTACCACTTCGGATCGCAATCGGTATCGGCACAGGGCACCGCCCATGCCAACGGCGCCGAGGCCGCGGACCCTTCGACGATCTTCTACAACCCCGCCGGCCTGGCGCGCCTGCCCGGCACCCAGGTGACCGGCGGCATGAGCATCCTGCTGCCGCGCGGCGATTACGAGGATGGCGGCAGCACCGATGTGTTCGGCAATCCGGTGGAGGGCGATGCGGGCTCCTACCTGCCGGACGCCGCTGCCGCGCCGAATTTCTACTTCTCCCGCCAGCTCAACGACAACATCACCGTTGGCCTGGGTATCTTCGTGCCGTTCGGTGCCAAGCTGGATTACAAGGAGGACTGGAGTGGCCGATACGGCATCCAGTCGGCCAGCCTGGAGACAGTCAACTTCAACCCCAGCATCGCCTACCGCTTCAACGAGCATCACAGCATCGGCTTCGGTGTCTCGGCGCAGTACATTCGCTCCATCCAGCGCGGCGCGGCAGACGTGAAAGGCGCCTCGCGCCAACTGGCCGGCCAGTTCGTCGACGAAAACTACGATCAGACCCGGCTGGCCGCGACGGTGCCCGGCCTGGTGGAACTGATCTACGGCGTGCCAGTGCCGGAGCAGATCACCGACTGCCAGGGCGTGGCCGACCGCGATGGTTTCGTCGACTGCGTGGCGAGCAATTTCGCCGACAACGTGGAGGGCGACGGCTATTTCCGCGCCAAGGGTGACGACTGGGGCTTCGGCTGGAACATCGGCTACCTCTGGGAACCCACCGAAAACACCCGCTTCGGCATCTCGTACCGCTCGAACATCCGCCACACCCTGGAGGGCAAGACCAAGTGGAGTTTCGCCGACGTGAACGGCAGGGTGCCGTCGCCGGATGTCGATCTGGGGGACGGCCCCTTGCCTGATCGTGACGCCATCCATGAAATCTTCGATCCGGACAATTGGATCAACCCCGGCGATTTCGCCGCGGCGCGCCTGCATCCCAACTCCAACGGCAAGACTGCCATCGATACGCCGGAAATGCTCTCGATCAGCGCCTTCCACCAGCTCAACCGCAAGGTGGCGCTGATGGCGGATGTCACCTGGACCCGTCATTCGCGGTTGGACGAGGTACGGATCGGTATCGATCAGGTCGATGGCTATCCCTACTTCAACGGTGTCACCGAGGGCGACCTGGCGGTCCAGCAGGACTGGAAGGACACCTACAAGATTTCCCTCGGCATGAACTACCAGTACAGCGACGACCTGCTGCTTCGTACCGGGGTGGCCTACGACAAGTCGCCGGTCAGCAGCACACAGCTACGCCACCCGGCCTTCCCGGATGCCGACCGTTACTGGTTGTCGTTCGGCGCCAATTACAAGCTGACCCCGGACACCTCGGTGGACCTGGCCTACAGCTTCGTGCAGTTCGACAGCGGCAAGATGGAGTACACCGATAACTGTTCGCCGGCCGGCTGGGTGCCTGGCAGCGGCGGGCTGTACGAAGACAGCGGCGTGCGTTGCACCGGTAACGGCGGCACCTACAAGGGCGAATACAAGACGCATATCCACTTCTTCGGGCTGGCGCTCAACCACAGCTTCTGA	MTIALQPRSLAFLAGALLVLPASQSLASGYHFGSQSVSAQGTAHANGAEAADPSTIFYNPAGLARLPGTQVTGGMSILLPRGDYEDGGSTDVFGNPVEGDAGSYLPDAAAAPNFYFSRQLNDNITVGLGIFVPFGAKLDYKEDWSGRYGIQSASLETVNFNPSIAYRFNEHHSIGFGVSAQYIRSIQRGAADVKGASRQLAGQFVDENYDQTRLAATVPGLVELIYGVPVPEQITDCQGVADRDGFVDCVASNFADNVEGDGYFRAKGDDWGFGWNIGYLWEPTENTRFGISYRSNIRHTLEGKTKWSFADVNGRVPSPDVDLGDGPLPDRDAIHEIFDPDNWINPGDFAAARLHPNSNGKTAIDTPEMLSISAFHQLNRKVALMADVTWTRHSRLDEVRIGIDQVDGYPYFNGVTEGDLAVQQDWKDTYKISLGMNYQYSDDLLLRTGVAYDKSPVSSTQLRHPAFPDADRYWLSFGANYKLTPDTSVDLAYSFVQFDSGKMEYTDNCSPAGWVPGSGGLYEDSGVRCTGNGGTYKGEYKTHIHFFGLALNHSF				NA	NA	NA	NA	NA
BMS010_02746	402			hypothetical protein	ATGCGTCGCTTTACCACCCTCGCCCTCTGCCTCGCCCTGCCGTTCGGCGTCCAGGCCGCCTCGCTCAAGGATTTCGAGCTGAACAGCATGCTCGAGAAGGTGGCGCAGGAAAGCAGCGTCGGCACGCCGCGAGCGATCAACGAGGACATCCTCGACCAGGGTTACACCGTGGAAGGCAGCGAACTGATCAACCACCTGAGCGTGCGCGCCAGCCACGCCGAGCAGATGCGCGCCAACCCGGAAGCGGTCCGCAAGCAGCTCGCCGCCAGCGTCTGCCGCAACACCGGGTACCGCCAGTTGCTGGCGAGGGGGGCGGTGCTGCGTTATCAGTTCAGTGAGTACAAGAGCAATCGCCCGGTGGCCACCGAGCGCTTCGACAAGGCGGATTGCGGGTTGCAGTGA	MRRFTTLALCLALPFGVQAASLKDFELNSMLEKVAQESSVGTPRAINEDILDQGYTVEGSELINHLSVRASHAEQMRANPEAVRKQLAASVCRNTGYRQLLARGAVLRYQFSEYKSNRPVATERFDKADCGLQ				NA	NA	NA	NA	NA
BMS010_02747	192			hypothetical protein	ATGCCGAAGATCACACTGGAGATCGATGTGCAGCTCTATCGCCTGCTGCAGCAGGCGGCGCGAGGAAGCGGCCACAGCCTGGAGGAGGAGTGCATCCGCCGCCTCGAGAGCGAGGGGCGGCGCTCCCGTCATATCGAAGCCCTGCTCGCCGACCTGCGCGCACAAGCCGAACCGCGGCGCTCGCGAGGCTGA	MPKITLEIDVQLYRLLQQAARGSGHSLEEECIRRLESEGRRSRHIEALLADLRAQAEPRRSRG				NA	NA	NA	NA	NA
BMS010_02748	2406			phosphoketolase	ATGCATCAGATACTGCCGAGCCAGGCCGAGCTGGCCGAACATGCCCGGGCCGAACCGACTTTCGCCGAGTGGCAGGCGGGGTACGGTCCTTTTCAGCATAGTGCCGAGACCCAGGCCTCGGTGTTCCGCTTCGCTCACCAACTGGTGCAGGCCGGCCGCCAGCCGGACCTGGCCAGCGTCTACCGCACCCTGCATGCCCTCGACCGGCTGTGTGCCGCCGGCCTCTGGCTGGTGGTGCACATGACCTACGCCCGGCGAGTACGGCGGGATGGCGAGCCGCTGGCGATGGAGGATTTCAAGCCGAGTCCGGAGGGGCACACCGGCGGGGCGTTGAACATGGTGCCGGCCTATGCCGGCTACCTCGCGCTCAACGCGCTCAGCGGCGACACCCGCGGCTGGCTGATGGGCCAGGGCCACTGCGTGGCGGCCATCGAGGCGCTCAACCTGCTTACCGGCAATCAGCATCCGGAACAGGCCGAGCGCTATGGCTTCGACGACGAGGGGCTGAACCGGTTGGTGCAGGACTTCTATAGCTACGCCCAGGCGCCGGACGGGGCGCCCGGCGTGCCGCTGGGCAGCCACGTCAACCCGCACACCGCCGGCGGGATCGCCGAGGGCGGTTACCTCGGCTTTGCCGAGCTGCAGTACGCCCACCTGCCACTGCCCGGCGAGACCCTGGTGGCCTTCCTCTCCGATGGCGCCGCCGAGGAGCAGCGCGGCAGCGACTGGATGCCGCGCTGGTGGCGGGCCGAGGATTGCGGCACGGCGCTGCCGGTGATGATCGCCAACGGCCGGCGCATCGAACAGCGCACCGAGCTGGGCACCCACGAGGGGCTGGAAGGTTTCCGTCAGCACCTGCGGCGTTGCGGATTCGACCCGATCACCTTCGACGGTCGCGATCCGGCGGCCTTTGTCTGCACCCTGTGGGAAATGGAGCAACGACTGGCGCGAAGGGTCCAGGAGAAGAACAGCGGCATCCTGCATTACCCCTTGCCGATCCCCTACGCCATCGCCGAGACGGAAAAGGGCTTCGGCTTCTACGGTGCCGGCAGCAACGCCGCCCACAACCTGCCGCTGCCGGGCAATCCCTCGCGCGATGCCGAGGCCTGTCGCCTGTTCAACGAACACGCCGCACCGCTGCATGTGCCGATGGCGGAACTGGACAGCGCCCGCCAATGCTTCGCGGCCTTGTGCCAGGGGCGCCCGCTGGAACGCGACAACCCGCTGGCGGTACGCCGGCCGGCGGAGCCGGTGATGCCGGAGTTGCACTACCGGGACGACGCCTGTTCGCCGATGGCGGCGCTGGACCGTTTCTTCGTCGACCTGGTGAAGGCGAATCCGGAGTTGCGGCCACGGGTGGGCAATCCCGACGAACTGGCCAGCAACCGGCTGGGCGGGGTGCTCGACGCACTGAAACATCGCGTCTGCGAACCGGAAAACGCCCACGAAGCGCTGGACGGCAAGGTGATCACCGCGCTCAACGAGGAAGCGGTGGTCTCCGCCTGCCTGGCCAACCAGGGCGGGCTGAACCTGGTGGCCAGCTACGAAGCCTTCTGCGTGAAAATGCTCGGGGCGGTGCGCCAGGCACTGATCTTCGCCCGCCAGCAGAAGGAAGCCGGACGTCCGGCGGGTTGGCTCGGCTGGCCGCTGGTGGCCACCTCGCATACCTGGGAAAACGGCAAGAACCAGCAGTCCCATCAGGACACCACTTTCTGCGAAGCCCTGCTCGGCGAGATGAGCGATGCGGTGCGGGTGCTGTTCCCGGCCGACCACAACAGCCTGCTGGCCTTGCTGCCGTCGATCTACCGGGCGCGTGGCCAACTGGCTTGCGTGGTGGCGCCCAAGCGCGAACGGCCGGCGGTGTTCGATCGCGCCCAGGCCGAGCAACTGGCCTGCGACGGGGCGCTGGTGGTGGAGGAACAGTCCGGCAGCGAGCCGCTGCTGCTGATCGCCAACGGCAGTTATCAACTGGCGGAAATGCGTCGCGCCGCGGTGCGCCTGCGCGAGGCCGGTTATCCGTATCGGCTGGTCTATCTGCAGGAGCCGGGGCGTTTTCGGGCTCCGCGCGACCGTCTGGAGCTGGAAACGGTGGCCGAGCAGTCACTGACCGAGCGGTTGTTCCCGGATAGTCACGTCCGCCGCGTGCTGCTCACCCACATGCGCCCGGAAGTGGCGCGCGGGCACCTCTGGCCGATCCTGCCGGATGCCGCCAACAGCGCGGTCCTGGGCTATCGCAACCGGGGCGGTACCTTCGACGAGGCGGGCATGCAATTCGTCAATCGCGCCACCTGGGCCAATGTCCTGGCGGCCTGCGCACGGCTGATGGATGTACCGCGTACCGCGCTGCTGACACCGGACGAAGCGGCCGCTGTGGCCGGCAAGGGCGATCCTCGGGTGTTGCGCTGA	MHQILPSQAELAEHARAEPTFAEWQAGYGPFQHSAETQASVFRFAHQLVQAGRQPDLASVYRTLHALDRLCAAGLWLVVHMTYARRVRRDGEPLAMEDFKPSPEGHTGGALNMVPAYAGYLALNALSGDTRGWLMGQGHCVAAIEALNLLTGNQHPEQAERYGFDDEGLNRLVQDFYSYAQAPDGAPGVPLGSHVNPHTAGGIAEGGYLGFAELQYAHLPLPGETLVAFLSDGAAEEQRGSDWMPRWWRAEDCGTALPVMIANGRRIEQRTELGTHEGLEGFRQHLRRCGFDPITFDGRDPAAFVCTLWEMEQRLARRVQEKNSGILHYPLPIPYAIAETEKGFGFYGAGSNAAHNLPLPGNPSRDAEACRLFNEHAAPLHVPMAELDSARQCFAALCQGRPLERDNPLAVRRPAEPVMPELHYRDDACSPMAALDRFFVDLVKANPELRPRVGNPDELASNRLGGVLDALKHRVCEPENAHEALDGKVITALNEEAVVSACLANQGGLNLVASYEAFCVKMLGAVRQALIFARQQKEAGRPAGWLGWPLVATSHTWENGKNQQSHQDTTFCEALLGEMSDAVRVLFPADHNSLLALLPSIYRARGQLACVVAPKRERPAVFDRAQAEQLACDGALVVEEQSGSEPLLLIANGSYQLAEMRRAAVRLREAGYPYRLVYLQEPGRFRAPRDRLELETVAEQSLTERLFPDSHVRRVLLTHMRPEVARGHLWPILPDAANSAVLGYRNRGGTFDEAGMQFVNRATWANVLAACARLMDVPRTALLTPDEAAAVAGKGDPRVLR				NA	NA	NA	NA	NA
BMS010_02749	1404		COG1236	Ribonuclease	ATGGCCTTGCTCAGTTTCCTCGGTGCCATCCAACAGGTCACCGGTTCCTGCTACCTGATCGAAAGCCGCGACGGCGCGCGGGTACTGCTCGATTGCGGCATGCGCCAGGGACGCCGCGAAGAAGAGGAAGGCAACCGCGCGCCCTTCGCCTTCGATCCGAAGACCCTGGACGCCGTGGTGATCTCCCACGCCCACCTCGACCACACCGGGCTGCTGCCCAAGCTGGTCGCCAAGGGCTATCGCGGCCCGATCTTCGCCACCGAGGCGACCTGCGACCTGATGGAGCTGATGCTGCTGGACGCCGCCAATATCCAGGAGAAGGACGCCGAGTGGGAAAGCAAGTGGCGCGCCCGCCTGGGCAAGCCGCCGGTCAATCCGCTCTATACCGTGGCCGACACCGAGAACACCCTGAAGCGTCTCCACCCTCTGCCCTACGGTCAGCCCCACGAGGTGGCGAAGGGCGTGAGCGTGACCTACCACGACGCCGGCCACATCCTCGGCTCGGCCATCGTCGAACTGGCGGTGCAGGACCACCACATCACCCGCCACCTGGTGTTCTCCGGCGACCTGGGCAACACCTGCTCGCCCCTGATGAAGGACCCGGCCATCCTCACCCGCGCCGACGTGGTGCTGCTCGAATCCACCTATGGCGACCGCGACCACCGCTGCAGCGCGGACACCCTGGACGAACTGGCCGACATCCTCCAGGCCGCCCACCGCGACGGCGGCAACGTGCTGATCCCGGCCTTCGCCGTCGGCCGCACCCAGGACCTCATCTACTACCTCGGCCGCTTCTACCAGGAAGGCCGGCTACCCCAGCAGGCGGTGTTCCTCGACAGCCCCATGGCGATCCGCGCCAACGCCATCTACTCGCGCTACCACGGTTCCTTCGATCCGGCCGACCGCGCCGAACTCCAGGCCCATGGGGTCAAGCGCGTGGAAGACTGGCTGCCGATCCTGCGCACCACCCCGACGCCGGAAGAATCCATGGCGATCAACCGCATCAAGCGCGGCGCCATTATCATCGCCGGTAGCGGCATGTGCACCGGCGGGCGGATCGTCCAGCACTTCAAGCACAACCTCTGGCGCGAGGAATGCCACATCGTGTTCCCCGGCTTCCAGGCCAAGGGCACCCTCGGCCGCGCCATCGTCGAAGGCGCCAGCACCGTGCGCGTGCTGCACCAGCGCATCGCGGTGAAAGCCAAGGTGCACACCCTCGGCGGCTTCTCGGCGCATGCCGGGCAATCGCAACTGCTCGATTGGGTGAAACACTTCGATCACCATCCTGAGCTTTACTTGGTACATGGGGAACTCGAAAAGATGCAGGCCCTGCAAGCCGCCCTGCGCGAGCGCCTCGATTGGATCGCCAACATTCCGGAACCAGGAGAACAGATAGCCCTCTGA	MALLSFLGAIQQVTGSCYLIESRDGARVLLDCGMRQGRREEEEGNRAPFAFDPKTLDAVVISHAHLDHTGLLPKLVAKGYRGPIFATEATCDLMELMLLDAANIQEKDAEWESKWRARLGKPPVNPLYTVADTENTLKRLHPLPYGQPHEVAKGVSVTYHDAGHILGSAIVELAVQDHHITRHLVFSGDLGNTCSPLMKDPAILTRADVVLLESTYGDRDHRCSADTLDELADILQAAHRDGGNVLIPAFAVGRTQDLIYYLGRFYQEGRLPQQAVFLDSPMAIRANAIYSRYHGSFDPADRAELQAHGVKRVEDWLPILRTTPTPEESMAINRIKRGAIIIAGSGMCTGGRIVQHFKHNLWREECHIVFPGFQAKGTLGRAIVEGASTVRVLHQRIAVKAKVHTLGGFSAHAGQSQLLDWVKHFDHHPELYLVHGELEKMQALQAALRERLDWIANIPEPGEQIAL				NA	NA	NA	NA	NA
BMS010_02750	1077			hypothetical protein	ATGCCCTACGAACCGGACGATTACCTTTCCCGCCACTTCCAGACCAGCGGGGTCGATCTCGCCAGCAAGATCGACGAATTGGTCACCCTGTCCGTCCCCGATACCAGCCCCAACCTGCCGCTTTACCGCGAAATGCTGCTCACCGTGATCCGCATGGCCCAGGCCGACCGCAACCGCTGGGACGCCAAGATCATGCTGCAGACCCTGCGCGAGATGGAGCACGCCTTCAGCCGCCTCGAACAGTTCAAGCGGCGCCGCAAGGTCACCGTGTTCGGCTCGGCGCGTACGCCGCTGGAACATCCGCTGTACGCCCTGGCCCGCGAACTGGGCGCCACCCTGGCGCGCTACGACATGATGGTCATCACCGGCGCCGGCGGCGGGATCATGGCCGCCGCCCATGAAGGCGCCGGCCTGAACAACAGCCTCGGCTTCAACATCACCCTGCCCTTCGAGCAGCACGCCAACCCCACGGTGGACGGCACGGAGAACCTGCTGTCGTTCCACTTCTTCTTCGTGCGCAAGCTGTTCTTCGTCAAGGAGGCCGACGCCCTGGTGCTCTGCCCCGGCGGCTTCGGCACCCTGGACGAAGCGCTGGAAGTGCTGACCCTGATCCAGACCGGCAAGAGCCCGCTGGTCCCGGTGGTCCTGCTGGACGAACCCGGCGGCACCTACTGGACGCATGCCCTGGAATTCATGCGTGCCCAGCTGGAGGAAAACCGCTACATCCTGCCCAGCGACATGCACCTGATCCGCCTGGTACACAGCGCCGAGGATGCCGCGGCGGAAATCGCCCAGTTCTATCGCAACTTCCACTCCAGCCGCTGGGTCAAGGACCTGTTCGTCGTGCGCATGAACCATCCGCTGAGCGACGCAGCACTGGCGGAACTGCGAGAGAGCTTCGCCGACCTCTGCCTCAGCGGCAGCTTCGAACAGCAGCCCTCCTGCGAAACCGAGCAGGACGAACCGGAACTCTGCCACCTGGCCCGCCTGGCCTTCACCTTCAACGGCCGCGACCACGGCCGCCTGCGCGAACTGCTCGACTTCATCAACCTCTCCCAGCACTGGGCCAAGGCCTGA	MPYEPDDYLSRHFQTSGVDLASKIDELVTLSVPDTSPNLPLYREMLLTVIRMAQADRNRWDAKIMLQTLREMEHAFSRLEQFKRRRKVTVFGSARTPLEHPLYALARELGATLARYDMMVITGAGGGIMAAAHEGAGLNNSLGFNITLPFEQHANPTVDGTENLLSFHFFFVRKLFFVKEADALVLCPGGFGTLDEALEVLTLIQTGKSPLVPVVLLDEPGGTYWTHALEFMRAQLEENRYILPSDMHLIRLVHSAEDAAAEIAQFYRNFHSSRWVKDLFVVRMNHPLSDAALAELRESFADLCLSGSFEQQPSCETEQDEPELCHLARLAFTFNGRDHGRLRELLDFINLSQHWAKA				NA	NA	NA	NA	NA
BMS010_02751	1197			D-threonine aldolase	ATGTCCCTGTCTTTCCCCGAAAAGGGGTTGCCGCTGGGCGGGCGCAGCCTCGTGAGCGACGTCAGCCTGCCGGCCCTGGTCATCCACAACGATGCCCTGGAACACAACTTGCGCTGGATGCAGCGCTATGCCGAGCAGCACGGCCTGCTGCTGGCGCCCCACGGCAAGACCACCATGACCCCGGCGCTGTTCCAGCGGCAACTCGACCAGGGTGCCTGGGGCATCACCCTGGCCACCGCCGTGCAATGCCGCGCCGCCCATGCCCATGGGGTACGCCGCCTGCTGCTGGCGAACCAGTTGGTCGGCGCGCCCAACATGGCGCTGGTGGCCGAGCTGCTGGGCGATCCTGGGGTGGATTTCCACTGCCTGGTCGACCACCCGGACAACGTCGCCGAGTTGGGGCGCTTCTTCGGCGAGCGCGGGCTGCGCCTGAACGTGATGATCGAGGTCGGTGTGCCCGGCGGTCGTTGCGGCTGCCGCAGTGCTGAGGAGGCGGAGCGCCTGGCCGAGGCGGTGGCGGCCCAGCCGGCGTTGGCCCTGACCGGCATCGAAGGCTACGAGGGCGTGATCCATGGCGAGGACAGTGCCGACGATGTTCGCGATTACGCCGAGCGACTGGTGGCCATCGCCGTCGGCCTGCTGGAGCGCGGCCTGTTCTCCCCCGAGCGGCCCATCGTCACGGCTTCCGGTTCGGCCTGGTATGACCTGATCGCCGAGGCCTTCGACCGTCGCGACGTGCGCGAGCGTTTTACCGGTGTGTTGCGTCCGGGCTGCTACGTGGTGCACGACCATGGTCTCTACCGCGAGGCGCAGACGGCGGTGCAGGCGCGCCATCCGGATTGGGGCGCGCCGCTGCGCCCGGCGATGGAGGTCTGGGCCCATGTGCAGTCGCTGCTGGAGCCGGGGCGTGCCATCGTCGCCCTGGGCAAGCGCGACATCGCCTCCGATGCCATGCCGCAACCGCTGCAGCGCTACCGCCCCGGCAGCACGGTGGCCGAGGACGTCAGCGCCTGGCGGGTGAGCAAGCTGATGGACCAACATGCCTTCATGGACATTCCTGTCGGTGCGGCGCTGCAGGTTGGCGACATCATCGCCTTCGGCGCCTCCCATCCCTGCCTGACCTTCGACAAGTGGCGGCAAATCTGCCTGGTGGACGCGGAGTTGCAAGTCATCGAGACCTTGCCCACGTTCTTTTGA	MSLSFPEKGLPLGGRSLVSDVSLPALVIHNDALEHNLRWMQRYAEQHGLLLAPHGKTTMTPALFQRQLDQGAWGITLATAVQCRAAHAHGVRRLLLANQLVGAPNMALVAELLGDPGVDFHCLVDHPDNVAELGRFFGERGLRLNVMIEVGVPGGRCGCRSAEEAERLAEAVAAQPALALTGIEGYEGVIHGEDSADDVRDYAERLVAIAVGLLERGLFSPERPIVTASGSAWYDLIAEAFDRRDVRERFTGVLRPGCYVVHDHGLYREAQTAVQARHPDWGAPLRPAMEVWAHVQSLLEPGRAIVALGKRDIASDAMPQPLQRYRPGSTVAEDVSAWRVSKLMDQHAFMDIPVGAALQVGDIIAFGASHPCLTFDKWRQICLVDAELQVIETLPTFF	PGPT0001970_1205	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0001970-dsdA-K01753	NA	NA
BMS010_02752	900	pgrR_6		HTH-type transcriptional regulator PgrR	ATGCGTGGAACCGAATTCGCCGAATTGCAAGCCTTCGTCACCGTTGCGGGACGCGGCAGCTTCGTACGCGCAGCGGAAGAGCTGCAGATTTCGCCATCGGCCCTGAGCCAGGTCATCCGTAACCTCGAACGGCGCATGGGAGTCCGCCTGCTCAACCGCACCACTCGCCGGGTCGCTCTTACCGAAGCGGGGGCGCGCCTGCTGGCGCGGCTGCAACCCGCGCTGGCGGAGATCGGTGCCGCCGTCGCCGACGCCGCCAGCCTGAGCGACCGCCCGAGCGGACGCCTCAAGGTGCATGCCCAGCGCCAAGCATCGCGGCAGTTCCTCGAACCCTACTATCGTGAGTTCTCCGACCGCTATCCGGAGGTGCAACTCGACGTGGTGGCGGACGATACCGTCGTGGAGCTGGTCGCCGGCGGCTTCGACGTGGCCATCCGGCTCGGCGAACTGCTGGAACAGGATATGGTGGGCCTCAGACTCGGCCCGGCACTGCGCCAGATTGCTGCCGCATCACCCGACTACATCGCACGCTTCGGCAAACCGGAAACACCGGCCGACCTGCATGCGCATCGCTGCATCAACTGGCGCTGGCCGGGCCAGATCCATCCCTACCGCTGGGAATTCAGCCGCGAGGGCCGCTGGTTCTCCGTCGCGGTCGACGGTCCGCTCATCGTCAACGACCAGCGCATCGCCCTGGAAGCCGCGCTCGACGGTGTCGGCATCACCTTCTGGTTGGAAGACCAGATCCAACCCTATGTCCGCGCGGGCAAGCTAGTACCGCTATTGGAAGACTGGTGCGAGACCTTTCCCGGATTTTTTCTCTGCTACCCGCGCCAGCGAGAAACCCTCGCTTCGCTTCGGGCCTTCGTCGACTTCCTGCGGGAGCGTTGCGCCAGCTAG	MRGTEFAELQAFVTVAGRGSFVRAAEELQISPSALSQVIRNLERRMGVRLLNRTTRRVALTEAGARLLARLQPALAEIGAAVADAASLSDRPSGRLKVHAQRQASRQFLEPYYREFSDRYPEVQLDVVADDTVVELVAGGFDVAIRLGELLEQDMVGLRLGPALRQIAAASPDYIARFGKPETPADLHAHRCINWRWPGQIHPYRWEFSREGRWFSVAVDGPLIVNDQRIALEAALDGVGITFWLEDQIQPYVRAGKLVPLLEDWCETFPGFFLCYPRQRETLASLRAFVDFLRERCAS				NA	NA	NA	NA	NA
BMS010_02753	750	bacC_1		Dihydroanticapsin 7-dehydrogenase	ATGAACAACGCACACCCCCTCGAGCTGGACGGCAAGGTCGCCATCGTGACCGGTGCCGCCGGCGGACTCGGCCAAGCCGTGGCCATGCTTTTCGCCGAACGCGGGGCCTTCGTCGTCGCGGAGGACATTAAGCCCGGCGTCGCCGAACTGGAAAGCGGGCGCATCGCCACGCTGGTCGGCAACGTCGCCGAGGAAGAGACCGCCCGCCGCGCCGTCGCGCTGGCACAAAAGCGTTTCGGCCGGGTGGATATCCTGGTCAATAACGCCGCCATCATCATCAACAAGCAGGTGGTGGACATGAGCCTCGACGACTGGGAGTCGATCATGGCGGTCAACGCGCGCGGCATGTTCCTGCACTCGCGCGAAGCCATGCGCGCCATGCTGCCGAACCGGCGCGGCTCGATCGTCAACATCGGTTCCTATGCCTGCCAAGTCGCCTTTCCCAGCATCGCAGCCTACGCGGCGTCGAAAGGTGCGATCGCCCAGCTGACCAAGGTGCTCGCCCTCGAAGGTGCGCCGCAGGGTATCCGTGCCAACGTCGTCGCCCCGGGGGACATCGAGACCGGCATTCTCGACGAGCTGATGCCCAACGGCCGCGAGTTCCTCCGCGAACATGGCGCCGGTTCGCCCATCGGCCGTGTCGCCCAGGCACGGGAGATTGCCGAAGTGGTCGCCTTCGTCGCCTCCGACCGGGCCAGTTACATGACCGGCTCGGTGATCTTGGCGGACGGCGGTTACACCGCGGTCTGA	MNNAHPLELDGKVAIVTGAAGGLGQAVAMLFAERGAFVVAEDIKPGVAELESGRIATLVGNVAEEETARRAVALAQKRFGRVDILVNNAAIIINKQVVDMSLDDWESIMAVNARGMFLHSREAMRAMLPNRRGSIVNIGSYACQVAFPSIAAYAASKGAIAQLTKVLALEGAPQGIRANVVAPGDIETGILDELMPNGREFLREHGAGSPIGRVAQAREIAEVVAFVASDRASYMTGSVILADGGYTAV	PGPT0014705_1052	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0014705-gdh|ycdF-K00034	NA	NA
BMS010_02754	4422			hypothetical protein	ATGACAGAACTCAACCAAACCCCCGCGATCGGGCGCCTGCTCGACGGGCTGGGCCGGCTGAGCGAGGCCAAGGCCCGCCGCCGGACGCCGAAGGCCCCGGCGGTCGATGTCACCGTGGCGGTGATGTCCTACAACAACGCCGCCTACCTGGCGCAGACCATCGATTCGGTGCTGGCCCAGGAGGGGGTGCGCTTCGAGTTGCTGGTGTTCGACGACTGCTCGCCGGACAACAGCGTGGAGGTGCTGGAGCGCTACCGCCAGGACCCGCGTTTCCGCTACCAGGTCAACCCGCGCAACCTGGGCATGATCGGCAACTACAACCAGTGCCTGCGCGCCGGGTCCGGCCGCTACGTGGTGGTGCTGGGCTCCGACGACCTGATCTACCCCGATCACCTGCGCAGCCTGGTCGAGGCCATGGATCGGCATCCGCATGTCGCCCTGGGCTACACCCAGTGCATGTGGATCGACGAGCAGGGCAAGGTGATCAAGCACGCTGTGCATCCTGGCCACCGCGCCGGCAGTTACGTCGGCGGCCGCGACGAACTGGTCGACCTGCTGCGCTACGACAACTACATCACCCCGTCGGCGGCGATTCTGCGGCGTAGCATCCTGCCCAGCCTGACCCTGCCGGACGGCGGCATCCACCGCGCCGACATGCTGGCCGGCGATTGGGAACTCTGGACCCGCATGGCCCAGGTGGCGCCGGAGTTCCTCTTCCTGCATCAGGCGACGGTGGGCTATCGCGTCCACGGCGGACAGATTTCCAAGGGCTTCTACGCATCCGACAAGCCATTGGCCGAGCACACCGAAATCCTCGAGCTGAACCTTGCCGCGCCGGGCTCGCGCCAGCGCATGCGCCAGGGCGCGGCGGGCATCTGGGAGCTCTATCTGCGCCGCTTCGCCGCCTACCCGGCCGACGTGCAGGCGCGCTTCGAGGAGCGCAAGGAGCGTATCCGCCAGGCGCTGTTCGAGGCTGCGCTGGGTCAGGAAGCCGAGTCCGAGGTGCTGTTCTCCGTCATCCTGACCACCTTCAACCGTCCCGAACTGTTGGTGGATGCCCTGGCCAGCCTGGCGCGGCAGACCCTGAAGGACTTCGAAGTCATTCTGGTCAACGACCACGGCACACCGGTGGAGTCGCTGCTCACCGGTTTCGACTTCCCGATCACCTATCTCTACCAGGGGCGCAACCGTGGCCTGTCCGCGGCGCGTAACGCGGGGCTGAAACAGGCCCGGGGGCGTTACATTGCCTACCTCGACGACGACGATATCTACCTGCCCGAGCACCTGGCGAAGCTGGCCGCGGTGCTGGAGCGCAACCCCAACGCCGTGGCCTACAGCGGCGTGGTCTACGTCCGCGAGCGCCTGGAAGAGGGCGCCCGCATCGAGCTGGACCGCTCCACGCCGTTCCTGCACAGCCAGTTCGACCGGGAGAAGCTGTTCGTCCAGAACTACATCCCGGTCAACACCTGGGTGCACCCGCGCGCGATGCTGGCGACGGTCGGCGAGTTCGACACCGGCCTTACCGCGTTCGAGGACTGGGACATGCTGCTGCGCCTGGCGGCGCGCTACCCGGTGGTGCACATGCCGGAGATCACCGCGGAGGTCCGGGTTCGCGAGGGCGCCGGGGCGTCCGGCGACCACATGCTCGGTCGTGAGCGGAAGAACTTCGGTGCGCTCTATCAGGAAATGTATCGCCGCCACTCCGATCTCGGCAGCGAGCGCGTGAGGGCGGGCCGGCGCCAACTGCTGCAGCAGATGGGCGTTGGCGACGGCGGGCGCAGCCGCCAGGCACCGAGCCTGGAGGACTGGCTGAAGCGCCGTGCGCTGACCCCGGTCCAGCGGCGCCTGATCGAACAGCGTCTGGCCGAGCAGGGCGATGGACCGGGCTTCGGCCTGGTGCTGCTCGATCTAGAGGGCGACCGTGCCCGGCTGGGGGCGACGCTTGGTTCGCTGGAGGCGGGTTTCTACCGCAACGTCCAGGTCGTGGTGCTGTCCGTCGCCAGTGCCGACGATCTCGCCTTCAGTGGCGGCGACGTACTGACCGTCACCCCGGAAAATTGGGTCGACGGGCTGAACCAGGCCCTGCTCGGTATGAGCACCGATTGGATCGGCCTGGCCCGCGCCGGCGACGAGTTCACCCCGGGCGGCCTGCTGATGGCCGGGCTGGAGCTGCTCAATGCACCCGAGTGCCGGGCCATCTATTGCGACGAGCTGTACCGCCAGGGCGACGGCACCCTGGGGGCGGCCTTCCGCCCGGCGTTCAACCTGGATTACCTGCTCGGCTTCCCGGCCGGCATGAGCCGCCACTGGCTGTTCCGCCGCGATGTGGCGGTCGGGGCGGGGGGATTCGATCCGGCGTTCTGCGACGCGCCGGAATTCGAACTGATCCTGCGCCTGATCAACCTGGGCGGGCTGGATGGGCTAGGCCATGTGCCCGAGCCGCTGTTGATCGGCACGCCGCCGGCGCTCAGCGACGTGGAGGCCGAGAAGCAGGCCATCGTCCGGCACCTCGAACTGCGTGGCTACCAGGCCGCCCAGGTCACGTCGCCGCAGCCGGGGCGTTACCGCATCGACTACGGTCATGCCGAGCGTCCGCTGGTTTCGCTGCTGATCGAGGCCGGCGAGCGCCTGCCGCAGTTGCAGCGGTGCGTGGAGAGCGTGCTGGAGACCACCGGCTACTCGCCCTACGAAATCCTGCTGCTGGAGAGCCACCCGCAGGCCGAGGCGGTGAGCGCCTGGCTGATCGCCCTGGCCGGGCTGGGCGAGGAGCGCATCCGCGTCGTGCGCAGCGCCGACGGCTCGGCCGGCCTGGCGGACCTGTTCAACCTGGCGGCCGGGCAGGCGCGCGGCGGCTACCTGCTGCTGCTGTCCCCGGACACCGCGGTGGTGGAGGGCGACTGGCTGGACGAGCTGGTCAACCATGCCCAGCGTCCCGAGGTCGGCATCGTCGGCGGCAAGCTGCTCGGTGCCGACGGCAAGATCGCCCAGGCCTGTTCGATCCTCGGCCTGGAAGGGCCGGTGGGGCGCCCGTTCGTGGGCGAGCCGCTGGATGCGCCCGGCTACCTGCATCGCCTGCAGGTGGCGCAGAACTGCAGCGCCGTCAGCCGCGACTGCCTGATGATCCCGGCCGATCTCTATGCGGAGCTGGGTGGGCTCAGCGAGGCGGACGTTCCGCTGCGCTACGTCGATGCGGACCTCTGCCTGCGCGCGCGCCAGGCCGGCTACCTGACGGTCTGGACGCCCTACGCCAAGCTGATGCTGGACCGCGCCGACGAAACCCCCGCGATGCCGGAGGAGCAGGACGCCATGTACGCCAAGTGGCTGCCGCTGCTGGCGCGCGACCCGGCCTACAACCCCAACCTGTCGCTGGCGCAGCCGGGCGGGTTCAAACTGGCCGATACCCAGCTTTCCTGGCGGCCGCTGTCGTCCTGGCGACCGCTGCCGGTGGTGCTGGCGCACCCGGCGGACCCGTTCGGCTGCGGCCATTACCGGGTCATGCAACCCTTCCAGGCCCAGCACCAGGCGGGCCTGATCGAGGGCGCGCTGTCCATGGGGCTGATGCACGTCACCGACCTCGAACGCTACGACCCCGATGTGATCCTGCTGCAACGGCAGATCGGCGAAGAGCGCCTCGACGCCATGCGGCGGATGCAGATTTTCTCCAAGGCCTTCAAGGTCTACGAGCTGGACGACTACCTGCCCAACCTGCCGATCAAGAGCGTGCACCGGGAGAAGATGCCCAAGGACATCCTCCGTTCGCTGCGCCGCGGCCTGGGCTACGTCGACCGCTTCGTGGTCTCCACCGAGGCGCTGGCCGAAGCGTTCGCCGGCCTGCACCCGCAGATGCGGGTCATCGAGAACCGCCTGCCGGTGCCCTGGTGGGGCGGGCTGAAAGCCGAGCGGCGGGTCGGCGAGCGGCCCCGGGTCGGCTGGGCTGGCGGTTCGAGCCATACCGGCGACCTGGAAATGATCGCCGACGTGGTCAAGGAGCTGGCGGGCGAGGTCGACTGGGTATTCTTTGGCATGTGCCCCGAGGCGATCCGTCCCTACGTGAAGGAAATCCACAAAGGCGTCGCCATCGAGCAATACCCGGCGATGCTTGCCAGTCTGAACCTGGACCTGGCCATCGCCCCGGTGGAAGAGAACCTGTTCAACGAATGCAAGAGCAACCTGCGCCTTCTGGAGTACGGTGCATGTGGCTTTCCGGTGGTGTGCAGCGACCTGCGCTGCTACCGGGGCGACCTGCCGGTGACGCGGGTGAAGAACCGCTTCCGCGACTGGGTCGAGGCGATCCGCATGCACCTTGCCGACATGGACGCCACCGCCAAGGCCGGCGATGCGCTGCGCAGCGTGGTGCTTTCCGAGTGGATGCTGGAGGGCCGTAACCTGGAAGCCTGGCGTTCCGCCTGGTTGCCGGACTGA	MTELNQTPAIGRLLDGLGRLSEAKARRRTPKAPAVDVTVAVMSYNNAAYLAQTIDSVLAQEGVRFELLVFDDCSPDNSVEVLERYRQDPRFRYQVNPRNLGMIGNYNQCLRAGSGRYVVVLGSDDLIYPDHLRSLVEAMDRHPHVALGYTQCMWIDEQGKVIKHAVHPGHRAGSYVGGRDELVDLLRYDNYITPSAAILRRSILPSLTLPDGGIHRADMLAGDWELWTRMAQVAPEFLFLHQATVGYRVHGGQISKGFYASDKPLAEHTEILELNLAAPGSRQRMRQGAAGIWELYLRRFAAYPADVQARFEERKERIRQALFEAALGQEAESEVLFSVILTTFNRPELLVDALASLARQTLKDFEVILVNDHGTPVESLLTGFDFPITYLYQGRNRGLSAARNAGLKQARGRYIAYLDDDDIYLPEHLAKLAAVLERNPNAVAYSGVVYVRERLEEGARIELDRSTPFLHSQFDREKLFVQNYIPVNTWVHPRAMLATVGEFDTGLTAFEDWDMLLRLAARYPVVHMPEITAEVRVREGAGASGDHMLGRERKNFGALYQEMYRRHSDLGSERVRAGRRQLLQQMGVGDGGRSRQAPSLEDWLKRRALTPVQRRLIEQRLAEQGDGPGFGLVLLDLEGDRARLGATLGSLEAGFYRNVQVVVLSVASADDLAFSGGDVLTVTPENWVDGLNQALLGMSTDWIGLARAGDEFTPGGLLMAGLELLNAPECRAIYCDELYRQGDGTLGAAFRPAFNLDYLLGFPAGMSRHWLFRRDVAVGAGGFDPAFCDAPEFELILRLINLGGLDGLGHVPEPLLIGTPPALSDVEAEKQAIVRHLELRGYQAAQVTSPQPGRYRIDYGHAERPLVSLLIEAGERLPQLQRCVESVLETTGYSPYEILLLESHPQAEAVSAWLIALAGLGEERIRVVRSADGSAGLADLFNLAAGQARGGYLLLLSPDTAVVEGDWLDELVNHAQRPEVGIVGGKLLGADGKIAQACSILGLEGPVGRPFVGEPLDAPGYLHRLQVAQNCSAVSRDCLMIPADLYAELGGLSEADVPLRYVDADLCLRARQAGYLTVWTPYAKLMLDRADETPAMPEEQDAMYAKWLPLLARDPAYNPNLSLAQPGGFKLADTQLSWRPLSSWRPLPVVLAHPADPFGCGHYRVMQPFQAQHQAGLIEGALSMGLMHVTDLERYDPDVILLQRQIGEERLDAMRRMQIFSKAFKVYELDDYLPNLPIKSVHREKMPKDILRSLRRGLGYVDRFVVSTEALAEAFAGLHPQMRVIENRLPVPWWGGLKAERRVGERPRVGWAGGSSHTGDLEMIADVVKELAGEVDWVFFGMCPEAIRPYVKEIHKGVAIEQYPAMLASLNLDLAIAPVEENLFNECKSNLRLLEYGACGFPVVCSDLRCYRGDLPVTRVKNRFRDWVEAIRMHLADMDATAKAGDALRSVVLSEWMLEGRNLEAWRSAWLPD				NA	NA	NA	NA	NA
BMS010_02755	417	fdtA		TDP-4-oxo-6-deoxy-alpha-D-glucose-3,4-oxoisomerase	ATGTCACTGAAAGACTGCAAGATCATCGACTTGCCGAAGATCGAGGACCCCCGCGGCAACCTCACCTTCATCGAGGCCAATCACCATGTGCCGTTCGGCATCGAGCGGGTCTACTACCTGTACGACGTACCGGGCGGCTCGCACCGCGGCGGTCACGCGCACAAGGGGCTGCACCAGTTGCTCATCGCCATGTCCGGCAGCTTCGACATCCTCCTCGACGACGGCCGGACCCGCTTCAAGTACCACATGAACCGCTCCTACTACGGGCTCTACATCCCGCCGATGATCTGGCGGGAGATCGACAACTTTTCCAGCGGTTCGGTGTGCATGGTCCTTGCGTCCGAACACTATGACGAAGATGACTACTACCGGGACTACGAGACGTTCCGGACCGTGGTAACGGGGTCCCCTGCATGA	MSLKDCKIIDLPKIEDPRGNLTFIEANHHVPFGIERVYYLYDVPGGSHRGGHAHKGLHQLLIAMSGSFDILLDDGRTRFKYHMNRSYYGLYIPPMIWREIDNFSSGSVCMVLASEHYDEDDYYRDYETFRTVVTGSPA	PGPT0022705_49	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_D_MANNURONIC_ACID_MODIFICATION,PGPT0022705-wbpD|wlbB-K13018	NA	NA
BMS010_02756	1149	fdtB		dTDP-3-amino-3,6-dideoxy-alpha-D-galactopyranose transaminase	ATGCATCGCTTTCTTGATCTGCAGGCCCTCAACGCACGCGACGAGGTGGAGTTGACCGACGCCTTCGTGCGGGTGCTGCGCTCCGGCTGGTACGTGCTGGGCCCGGAAGTGGACGCCTTCGAACGCGAATTCGCCGAGGCGTGCCGGGTCGCCCATGCCATCGGCGTGGGCAACGGCCTGGATGCCCTGACCCTGATCCTCAAGGCCTACCGCCAACTGGGCCGGCTGGCCGAGGGAACGGAGGTGATCGTGCCCGACAACAGTTTCGTGGCCACCGCCCTGGCCGTGACAGAGGCCGGCTGCGTGCCGGTGCCGGTGGAGCCGGAGGAAGACAGCTTCCTCATCGATCCGCAGCGGGTGGAAGCGGCCATCGGCCCGCGCACCGGGGCGATCATCGCCGTGCACCTCTACGGGCGGCTGGCCGACATGGACCGGCTGCGTAGCCTCGCCGATCGCCACGGCCTGCTGCTCATCGAGGACGCCGCCCAGGCGCATGGCGCCTTCGATGCCGCCGGCCGCTCGGTGGGCACGCTAGGCGATGCGGCGGGCTTCAGCTTCTTCCCGGTGAAGAACCTCGGCGCCCTGGGCGATGCCGGCGCGGTGACCACCCAGGACGCGCAACTGGCCGAGGCGGTGCGCCGCCTGCGCAACTACGGCTCCAGCGAGAAATACGTGCATGCGGTGAAGGGCGTGAACTCGCGCCTGGACGAACTGCAGGCGGCGTTGCTGCGGGTCAAGCTGCGGCGCATGGCCGACGATGCCGAACAACGCCGGGCCCTGGCGGAGCGCTACCGGGCGGGCATCCGCAACCCGCTGATCGGCCTGCCGCAGGCGGGCGAGCCGGCGGCATCCCACGTCTGGCACCTGTTCGTGGTGCGCTGCGGCCAGCGCGATGCGCTGCAGGCACATCTACATGCCTGCGGCATTCCGACCCTGATTCACTACCCGATCCCGATCCACCGACAGGCCGCCTACTCGGAGCTGGCCGCCCATGCCTTGCCCATCGCCGACCGGCTGGCCGGGGAAGTCCTCAGCCTGCCGCTGTACCCGGGCATGCCCGAGCCCCTCGTCGAGGCGGTGATCGATGCCTGCAACCGTTTCGCCGGCCACGCCTCACAGGCCGAGTCCAAGGAGCCGACATGTCACTGA	MHRFLDLQALNARDEVELTDAFVRVLRSGWYVLGPEVDAFEREFAEACRVAHAIGVGNGLDALTLILKAYRQLGRLAEGTEVIVPDNSFVATALAVTEAGCVPVPVEPEEDSFLIDPQRVEAAIGPRTGAIIAVHLYGRLADMDRLRSLADRHGLLLIEDAAQAHGAFDAAGRSVGTLGDAAGFSFFPVKNLGALGDAGAVTTQDAQLAEAVRRLRNYGSSEKYVHAVKGVNSRLDELQAALLRVKLRRMADDAEQRRALAERYRAGIRNPLIGLPQAGEPAASHVWHLFVVRCGQRDALQAHLHACGIPTLIHYPIPIHRQAAYSELAAHALPIADRLAGEVLSLPLYPGMPEPLVEAVIDACNRFAGHASQAESKEPTCH	PGPT0010900_11	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-ERYTHROMYCIN_METABOLISM,PGPT0010900-erCI|desV-K13310	NA	NA
BMS010_02757	483	fdtC		dTDP-3-amino-3,6-dideoxy-alpha-D-galactopyranose 3-N-acetyltransferase	ATGACGATGCGCCACCCCTTGGCGGACGTGCAGAGCCCGTCGATCGGCGAGGGCACGCGGATCTGGCAGTTCGTGGTGATCCTGGCGGGCGCCCGCATCGGCCGTGATTGCAACATCGCCGCGCACTGCTTCATCGAGAACGATGTGGTGGTGGGCGACCGGGTCACGGTGAAGTGCGGCGTGCAGTTGTGGGATGGGCTGCGGGTCGCCGACGACGTGTTCATCGGGCCGAACGCCACCTTCACCAACGACCGTTTCCCGCGCTCCCGGCAGTGGCCGGAACGCTTCCCCGAGACGCGCATCGAGCGCGGTGCCTCCATCGGCGCCGGCGCGGTGATCCTGCCCGGGCTGACCATCGGCGAGCGGGCCATGGTCGGGGCCGGCGCGGTGGTGACCCGGGACGTGCCGGCGCGGGCGCTGGTGGTTGGCAACCCTGCACGGATCGTGCGCTACCTGGATGACGACGATGCATCGCTTTCTTGA	MTMRHPLADVQSPSIGEGTRIWQFVVILAGARIGRDCNIAAHCFIENDVVVGDRVTVKCGVQLWDGLRVADDVFIGPNATFTNDRFPRSRQWPERFPETRIERGASIGAGAVILPGLTIGERAMVGAGAVVTRDVPARALVVGNPARIVRYLDDDDASLS	PGPT0022705_830	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_D_MANNURONIC_ACID_MODIFICATION,PGPT0022705-wbpD|wlbB-K13018	NA	NA
BMS010_02758	1149			hypothetical protein	ATGCGTAACGGCCAAAGCGTACCCGCCAAGCGCCGTCTGGCGATCCTCTATCAACTGCCCGAATCCTGGGCCAACGTGCGCAGCGTCTGGGAGGCCGCCCGCGACGATGCGGACCTCGACGTCATCGTGGTGATGCTGCCGTTCATCCACAAGGACTACCAGTGGCGCCGCGAGGTGTCGGAAGCGCACCTGAACGACATGGGCGTGCCGTTCGTGGCCTGGGATGCCTTCGACCTGGACAAGGCGGGGCTGGACGCCGTGCTCTATACCTCGCCCTACGACGAGACGCGCCCGGAGGCCTATCGCTTCGCCAGGCTCCGCCAGCGCGTGCGCTGCACGGCCTATATCCCCTATGGCCTGGAAGTGGGCGGCGGCGAGCACAACTACGTGTACCAGTACGGCCAGCCGGTGACGGCAGGGGCCAGCGCGGTGTTCGTGCGCTCGGAAGGCGTGCGCGAGATGTTCGTCCGCCACTGCCCGAGCGGGGCCCGGCATGTCCACGTCACCGGCCATCCGCGCATGGATGGTCTGGTGGACCTCGCGCACTTCCCGGTGGACCCGGCGCTGCGCGAGGCCATCGGCGGGCGTCGCGCGGTGCTGTGGAACGCGCACTTCTCCTTCGATGGCGATCTCTGGTCCACCTTCGACCGGCTGGCCGGTGACATCCTCGACGCCTTCGCCAGCCGCCCCGACCTGGCGCTGCTGTTCCGTCCGCATCCGCTGCTGTGGAAGAAGCTGACCAACCTGAATATCCTCGACGAGGCGGGTATCGCCGCGCTCAAGAACGAACTGCGCGAGCGCGGCGTGGTGGTCGACGAACGCTCCGACCATCGACATGCCTTCGCTGCCAGCGAGGCGATGATGAGCGATGTCGGCTCCTTCCTGATGGAATACCTGGCCACCGGCAAGCCGGTGCTCTACCTCTGCAACCCGGATGGCCTGGGCCTCAACGAGGAGGGCGCCGCGGTGGTCCGCCATTACCAGTCGGCCAGCGATGCCGCTGGCATCGGCGCGTTCCTCGACCAGGTCCGTCGGGGCGAGGACCCGCTGGGCGCGGACCGGCGTGCGGCGATCGACGAGTTCTTCCACGCGTTCGATGGCCAGGCCGGGCGGCGCGTGGTCGAGGTGCTCAAGGAGCTGATGGCATGA	MRNGQSVPAKRRLAILYQLPESWANVRSVWEAARDDADLDVIVVMLPFIHKDYQWRREVSEAHLNDMGVPFVAWDAFDLDKAGLDAVLYTSPYDETRPEAYRFARLRQRVRCTAYIPYGLEVGGGEHNYVYQYGQPVTAGASAVFVRSEGVREMFVRHCPSGARHVHVTGHPRMDGLVDLAHFPVDPALREAIGGRRAVLWNAHFSFDGDLWSTFDRLAGDILDAFASRPDLALLFRPHPLLWKKLTNLNILDEAGIAALKNELRERGVVVDERSDHRHAFAASEAMMSDVGSFLMEYLATGKPVLYLCNPDGLGLNEEGAAVVRHYQSASDAAGIGAFLDQVRRGEDPLGADRRAAIDEFFHAFDGQAGRRVVEVLKELMA				NA	NA	NA	NA	NA
BMS010_02759	672	ispD_1		2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase	ATGTCGCCTATTAAACATGTTGTGATCAGCGCCGCCGGCATCGGCTCGCGCCTGGGGCTGAACAAGCCCAAGTGCATGGTCGAGGTGGGTGGCCGCACATTGCTCGACTACCACCTGGAGCGCCTGGCCTGGGCGGAAACCATCTGGCTGGTGGTGGGCTTCCAGGAGGAGGACGTGATCGAGCACGCCATGTCCCTGCGGCGCGACCTGATCGTCGTGCGCAACCCCGACTATGCCCGCACCAACACCCTGCAGAGCATTCACCGCGTGTCGCGGCACCTGAAGGAGCGCTTCCTGGTGATCGATGCCGACACCGTGGTGGAAGAGGAATCCTTCCGCGCCTTCATGGCGGCGGCCGACGAACATGCGCAACTGATCGGCATTTCCCGCTACACCACCAGCGACGGGGTGCGTGTGCTGCTGGACGACACCGGCGAGGCGGTCACCGGCTTCACCCGCGAACCGCAGCACGCCTGGGAATGGACCGGCATCGCCGTCATCGAGCCGCGCCTGGTGGTGGACAAGCCGATCTACGTCTACCAGGCGATCGAGCCGTACCTGCCGATCCGCGCGGCCGAGCTGAAGGCCTTCGACATCGATACCACCGCCGACCTGGACATGGCGCGCCAGGTCATTGCCGGTGGCTGGGAAGAGCGGGGTGAACATGCGTAA	MSPIKHVVISAAGIGSRLGLNKPKCMVEVGGRTLLDYHLERLAWAETIWLVVGFQEEDVIEHAMSLRRDLIVVRNPDYARTNTLQSIHRVSRHLKERFLVIDADTVVEEESFRAFMAAADEHAQLIGISRYTTSDGVRVLLDDTGEAVTGFTREPQHAWEWTGIAVIEPRLVVDKPIYVYQAIEPYLPIRAAELKAFDIDTTADLDMARQVIAGGWEERGEHA				NA	NA	NA	NA	NA
BMS010_02760	603	serB2_1	COG0560	Phosphoserine phosphatase SerB2	ATGACCACTGCCTACTGCTTCGACCTCGACGGAACCCTGACCCGTCAGGAGCTGCTGCCGTTGATCGCGTCCTCCGTCGGGCTCGAAGACGAGATATCCGTTCTCACCGAAGCCACGATCAGCGGCGTGCTGCCTTTCGACAAATCCTTCAAGCTGCGTGTCCGCCTGCTGCGCGATGCCAAGCTGGACTGGATCCACGCCGCGCTGTCCGAACAGGTGGAATTCGACCGCCATATCCTCGACTTCATCGCCAGCCGGCCGGAGCAGTGCTTCGTGGTCACCGGCAACCTGGACATCTGGGTCAAGCCGGTACTCGACCGCCTCGGTATCCAGAGCTTCACCTCCACCGCGCGCCTGGACGACGGCCGCCTCGACGGCATCGCGCACATCCTGCACAAGGGCGATGCCGTCAGCAGCCTGCGCGACCGCTTCGAGCGGATCATCGCCGTCGGCGACGGCATGAACGACGTGCCCATGTTCGAAGCCGCCGACTGGCGCATCGCCTTCGGCGGTACCCACTCGCCCAATCGCCTGCTGGTCAAGCTGAGCGATTTCGTGATCAACGACGGGAATGCCCTATGTCGCCTATTAAACATGTTGTGA	MTTAYCFDLDGTLTRQELLPLIASSVGLEDEISVLTEATISGVLPFDKSFKLRVRLLRDAKLDWIHAALSEQVEFDRHILDFIASRPEQCFVVTGNLDIWVKPVLDRLGIQSFTSTARLDDGRLDGIAHILHKGDAVSSLRDRFERIIAVGDGMNDVPMFEAADWRIAFGGTHSPNRLLVKLSDFVINDGNALCRLLNML				NA	NA	NA	NA	NA
BMS010_02761	759			hypothetical protein	ATGAGCACCCGGGGCCGAGTGAAAGGGGCGCGGATCGATATCGATTACAGCGCGACCCAAGCCTTCTTCGATGCGCGCGGAAAGCGGGAATACGCGTCCGCGCTCAGCACGACCATGTATCAGGACAACGATCCGGCGCTGGTCGAACAACGCGACCAGGCGGAGAAGCGGGTGCTGGCGCCGCAACTGCGCCTGGCTGCCGGCAGCCGCATCCTCGACATCGGCTGCGGCATCGGTCGCTGGGGTTGGTTCCTCCACGACCACACCCCCGACGCCGAATACCTGGGCATCGACTTCGCCGCCTCGCTGATCGAGAAGGCGCAAGCCGAGGCGGTGCGGCGTGGCAAGCCCGACCTGCGCTTCCAGGTGATGTCCGCTATCGCCATCGAGCCGGACGCCCTGGTCGTCCCGCCGCCCTACGACCTGGTGATCATCTCCGGGTTGCTGATCTACCTGAACGACGAAGACTGCGTGAAGGTCCTGGCCGACGCCGGGCGCCTCTGCGCGCCGGGCGGGCGCATCTACCTGCGCGAGCCGGTCGGGGTGAGCGAGCGCTTCACCCTGGATCGCTTCTACTCCAACGAGCTGGGGCAGGAATATTCGGCGATCTACCGGACCATCGACGAACTCGACCGGTTGCTGGAACAGGCCCTGGAGCCCGGCCGCTTCAGCGTCCGGATCGCCGAGTTCCTGTTCCCGGACAACCTGGAAAAGCGTGCCGAGACGCGCCAGTACTACACCATCCTGCAAAAGGGCTGA	MSTRGRVKGARIDIDYSATQAFFDARGKREYASALSTTMYQDNDPALVEQRDQAEKRVLAPQLRLAAGSRILDIGCGIGRWGWFLHDHTPDAEYLGIDFAASLIEKAQAEAVRRGKPDLRFQVMSAIAIEPDALVVPPPYDLVIISGLLIYLNDEDCVKVLADAGRLCAPGGRIYLREPVGVSERFTLDRFYSNELGQEYSAIYRTIDELDRLLEQALEPGRFSVRIAEFLFPDNLEKRAETRQYYTILQKG				NA	NA	NA	NA	NA
BMS010_02762	1545			hypothetical protein	ATGCGCATCTCGACCATCCAGGCGTTCAACAACGGCGTCAGCGGCATCCAGCGCAACTATTCGAACATCACCCGGACCCAGGAACAGATCAGTTCGGGCAAGAAGATTCTCACCCCGGCGGACGACCCGGTGGCGGCGGTGCGCCTGCTGCAACTGGAGCAGGAACAGGCCGCGCTGAAGCAGTACGCCGGAAACCTGACGGCGGCGAAGAATAGCCTGACCCAGGAAGAAAGCGTGCTGAACAGCGTCGGCGTGGTCATGGACCGGGTCCGCGAACTGGCCGTGCAGGCCGGCAACGGCGCCCTGGGCATGAACGAGCGCCAGGCGATCGCCGCCGAGCTGAAGGAGCGCGAGGAAGAGCTGCTCAGCCTGATGAACAGCAAGAACGCCCGGGGCGAGTACCTGTTCGGCGGCTTCCAGGGCAAGACCCAGCCGTTCATCCGCAATGCCGACGGCGGCTACAGCTACGTCGGCGACGAAGGCCAGCGCAAGATCCAGATCGCCGGTTCGCAGCAGATCGCGATCACCGACAACGGCAAGGCGATCTTCGACAACGTCACCAACGCCGCCCGCCTGCAGACCAGCAGCCAGACCGTGGCTGGCTCGACCCTGAGCATCGGCGAGGCGGTGGTGGCCGACGAGATCGCGTACAACGCCTTCCAGCAGAGCAACCCCTCCGGCGCCATCGAAGTGGTGTTCGACACCGCCGAGCGTGACGTCTACCGCGTCTATGCCCACCCCTGGGACGGCACTGCCGCGCCGCTGCTGGAAGGGCGCATGGACGGCGACCCCGGCGAAGGCGACCGCATCGTCGTTGCCGGCCTGAGCTTCTACCTGGACGGCCAGGCGGCGGAAACGCCCAAGGCCACCGGCGAACGCTTTACCGTCATGCCGACCCGCCAGGCGGTTGCCGTGCAAACCACCAGCTCCGCCCTGGGCGCCGTCGCCATCAGCGACCTATCCACCTGGCAGGGCCTGACCAACGGCACCGGCACGATCAGCGTGAGCAACGTGGTGGGCGGCTCGCCGTCCAGCTTCGACCTCACCTTGACCCCGTCGGGCACCACCCAGACGGTGAGCGGCAACCTGCCGCTGGTGGCCGATGCCTTCGGCCTCAGCCTGCGTTTCGACAGCCTGCCGGCCGACGGCGACAACTTCGATATGAGCGGCGGCGGCTCCAGCGAGAAGCAGGGCATCCTCAACACCATCGCCGCCCTGCGCAAGGTGCTGGAAAGCGCGCCCGACTCGCCCCAGGGCAGCCTCGACGTGCGCGACGCGGTAGCCGCCTCGCTGATCAACCTGGACAACGGCCAGGCCACGGTGCTCAAGGCGCGCGGCGAGATCGGCGCGCGCCTGAACGTGGTCGACTCCACGGAAACCAGCAACGAAGACCTGAGCCTGATCAACACCGGCATCAAGTCCGGCCTGCAGGACCTCGACTATGCCGAAGCTCTGTCGCGGCTGTCGTTGCAGTCGGTGGTGCTGGAGGCGGCGCAGCAGAGCTACGTGAGGATTTCCTCGCTGTCGCTGTTCAACAAGATGTAG	MRISTIQAFNNGVSGIQRNYSNITRTQEQISSGKKILTPADDPVAAVRLLQLEQEQAALKQYAGNLTAAKNSLTQEESVLNSVGVVMDRVRELAVQAGNGALGMNERQAIAAELKEREEELLSLMNSKNARGEYLFGGFQGKTQPFIRNADGGYSYVGDEGQRKIQIAGSQQIAITDNGKAIFDNVTNAARLQTSSQTVAGSTLSIGEAVVADEIAYNAFQQSNPSGAIEVVFDTAERDVYRVYAHPWDGTAAPLLEGRMDGDPGEGDRIVVAGLSFYLDGQAAETPKATGERFTVMPTRQAVAVQTTSSALGAVAISDLSTWQGLTNGTGTISVSNVVGGSPSSFDLTLTPSGTTQTVSGNLPLVADAFGLSLRFDSLPADGDNFDMSGGGSSEKQGILNTIAALRKVLESAPDSPQGSLDVRDAVAASLINLDNGQATVLKARGEIGARLNVVDSTETSNEDLSLINTGIKSGLQDLDYAEALSRLSLQSVVLEAAQQSYVRISSLSLFNKM	PGPT0015505_639	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015505-flgL-K02397	NA	NA
BMS010_02763	2016			hypothetical protein	ATGGCTGACTTGCTGAACATCGGTCTGTCCGGGCTGCGTACCAGCCAGACCTCGCTGACGGTCACCGGTCACAACATCAGTAACGTGAACACGGCCGGCTATTCGCGCCAGGAAACCGTCCAGGGTACCCGTGTGCCGCAATTCAGCGGTGCCGGCTACATCGGTTCGGGCGCGACGGTGAACGACGTGCGCCGCCTGGCCAGCGAATTCCTCACCGCCCAAGTGCGCAACAACACCGTGGTGGCCAGCGACGTGGCCGCTTATAAGAGCCAGATCGACCAGATGGACGCGCTGCTGGCCGGCACCGTGACCGGCATCAGCCCGTCGCTGCAGAAATTCTTCGCCGCCCTGCAGACCTCCGTCGAGTCGCCCGCCGACGTGCCGGCTCGGCAGCTGGTGCTGTCCGAGGCCGAGGGCCTGGCCAAGCGCTTCAACACCGTCTACGAGCGCATCGACCAGCAGAACCAGTACATCAACAAGCAAATGGGCTCGATCGCCGACCAGGTCAACCGCCTGGCGACCTCAGTCGCCCAGTACAACGATGCGATCAGCTCGATGAAGGCCACCGGCCAGGAGCCCAACGACCTGCTCGACGCCCGTGAAGAGGTGGTGCGCCAGTTGTCCACCCTGATCGGGGTGCAGGTGGTGGAGCAGGATGGCGGCTCGCTGAACGTTTTCGTCGGCACCGGCCAGCCGTTGGTGGTGGGCGCCAAGGCCAACACCCTGGCGGTGACCCCCAGCCCCCAGGACCCGCTGCGCATGCAGGTGGAGTTCGTCAGCGGCGGCTCGCGCCAGTCGATCACCTCGCAGATCAGCGGCGGCGAGATGGGCGGCCTGCTGCGCTATCGCAGCGAAGTCCTCGACCCGACCTTCAACTCCCTCGGCCGCCTGGCGCTGTCCATCAGCGATGAGGTCAACAAGCAGCTCGGCCAGGGCATCGACCTGAAGGGCAACGTCGGCACCAACCTGTTCAAGGACATCAACTCGCCGGACCTGATGGCCCTGCGCAGCTATCCCACCGGCGCCGACGTGCGCATCGACGATACTTCGCGGCTGACCACCAGCGACTACCGCCTGGATTACGACGGCACCAACTACAGCGTGCGCCGGCTTTCCGACAACGCAGTGATCCCGGTGACCGGCAGCGGCACCGCAGCGGACCCGCTGGTGATCGGCGACGAGGGCTTCTCGGTGAGCTTTGCCGTTGCGCCGGCGGCCGGCAGCAGCGTGACCCTGATGCCCACCCGGCGCGGCGCGGCGAGCATCGAGAAGGTGCTCGACCAGGCCGACCAACTGGCGTTCGCCGCCTCGGCCCGCGCGGCCATCAACACCCAGAACCGCGGTACCGGCGCCATCGGCCAGCCGAGCCTGAGCAGCGGCCCGTCGCCGATTCTCACGGCGGACCTGAACCGCCTGTTCGGCAGCAGCGGCCTGACCCTGACCTACGACGGCACCAGCGGCACCCTGACCGGCACGCTGCCGGCGGGGGCCACGCTCAGCTACGTGTCGCCCTCGACCACCGGCCTGACCAGCGGGCAGACCAACAACCTGCGCCTGGACTACACCGATCCGGTGAGCAACGAGACCTACAGCTACGAATTCACCGTCAGCGGCGTGCCCTCGACCGGCGACACCTTCACCCTGGCCTACAACCAGAGCGGGGTCTCGGACAACCGCAACGGCCTGAAACTGGTGGACCTGCAGAACAAGGCGGTGGTGGGGGTGAGCTACGACACCGCCGGCAACCCGATCGCCAACTCCGGGGCGTCGTTCAGCGACGGCTACGGCGAGCTGGTCGAGCGGGTCGGCACCCTGACCGCGCAATCGCGGGTCGACAGCGAAGCGACCATCGCGCTGCTCAAGCAGGCCCAGGACAACCGCGATTCGCTGTCCGGCGTGAGCCTGGACGAAGAGGCGGCCAAGCTGATCCAGTTCGAGCAGTACTACAACGCTTCGGCCCAGGTCATTCAAGTTGCGCGGTCTTTGTTCGATACCCTGATCAGTACATTCCGGTAA	MADLLNIGLSGLRTSQTSLTVTGHNISNVNTAGYSRQETVQGTRVPQFSGAGYIGSGATVNDVRRLASEFLTAQVRNNTVVASDVAAYKSQIDQMDALLAGTVTGISPSLQKFFAALQTSVESPADVPARQLVLSEAEGLAKRFNTVYERIDQQNQYINKQMGSIADQVNRLATSVAQYNDAISSMKATGQEPNDLLDAREEVVRQLSTLIGVQVVEQDGGSLNVFVGTGQPLVVGAKANTLAVTPSPQDPLRMQVEFVSGGSRQSITSQISGGEMGGLLRYRSEVLDPTFNSLGRLALSISDEVNKQLGQGIDLKGNVGTNLFKDINSPDLMALRSYPTGADVRIDDTSRLTTSDYRLDYDGTNYSVRRLSDNAVIPVTGSGTAADPLVIGDEGFSVSFAVAPAAGSSVTLMPTRRGAASIEKVLDQADQLAFAASARAAINTQNRGTGAIGQPSLSSGPSPILTADLNRLFGSSGLTLTYDGTSGTLTGTLPAGATLSYVSPSTTGLTSGQTNNLRLDYTDPVSNETYSYEFTVSGVPSTGDTFTLAYNQSGVSDNRNGLKLVDLQNKAVVGVSYDTAGNPIANSGASFSDGYGELVERVGTLTAQSRVDSEATIALLKQAQDNRDSLSGVSLDEEAAKLIQFEQYYNASAQVIQVARSLFDTLISTFR	PGPT0015195_264	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015195-flgK-K02396	NA	NA
BMS010_02764	1170	flgJ	COG1705	Peptidoglycan hydrolase FlgJ	ATGGACACTCGACTCTTCGCCCCGGGCTCGACGCCCGACAGCGGCTCCTACACCGACCTGAACCGCCTCAATCAGTTGAAGGTGGGGAAGGATCGTGACAGCGAGGGCAACATCCGCAAGGTGGCCCAGGAGTTCGAGTCGCTGTTCCTCAACCAGATGCTCAAAGCCATGCGCTCGGCGAACGAAGTGTTCGCCGAGGGCAACTACATGAACAGCAGCGAGACCAAGACCTACCAGGACATGCACGACCAGCAGTTGGCCGTGACCCTGTCCAAGGAACAGGGCATCGGCCTGGCCGACGTGCTGGTGCGCCAGTTGTCGAAGACCCGGCAGGCCGACGCACGCCCCAATCCGTTCGCCCAGACCGGCGAGGCGACGGCCGCCACCTCGGCCAGGAACGTCAACCTTCCGGCGGTGGACAGCAAGCGCGACGATTCCTCGCTGCTCAACCAGCGCCGCCTGGCACTGCCGGGCAAGCTCACCGACCGCCTGCTGGCCGGCATCGTGCCGTCCGCCACCGCCGCGGAAGGGCAGCCGCTGGCCGGCGCCGATTGGGTTCCGGCCCAGGCATTCGCCGCGCCCGCGGACAAGAGCCTGAGCGTGAACGGCAGCGATGCCTTCGCCGGCCGCCGCCTGGCCCAGCCGCCGCTGGCACCGGGCAAGGCGGCGTTCTCCTCGCCCGAGGAGTTCGTCGCCACCATGCTGCCGATGGCGCAGGAAGCCGCCGAGAAGATCGGCGTCGACCCGCGCTACCTCGTGGCCCAGGCCGCGCTGGAAACCGGCTGGGGCAAGTCGATCATCCGCCAGCAGGATGGCTCCAGCAGCCACAACCTGTTCGGCATCAAGGCCCATGGCAGCTGGGACGGCGAGTCGGCACGGGTGGTGACCCGCGAGTACTACAACGGCAAGCCGGTGAAGGAGGTCGCGGCGTTCCGCGCTTACGACTCCTTCGAGCACAGCTTCAACGATTACGTGAGCTTCCTGCAGAGCAACGGCCGCTACGAAAAGGCCCTGAACGCCGCGGACAACTCCGACCAGTACGTGCGTGAGCTGCAGCGCGCCGGTTACGCCACCGACCCGCAGTACGCCCGCAAGATTTCCCAGATCGCCCGGCAGATGCAGACCTACCAGACCATCGCGGCTGCCGACGGCGGCGTCACCAGGAGCTGA	MDTRLFAPGSTPDSGSYTDLNRLNQLKVGKDRDSEGNIRKVAQEFESLFLNQMLKAMRSANEVFAEGNYMNSSETKTYQDMHDQQLAVTLSKEQGIGLADVLVRQLSKTRQADARPNPFAQTGEATAATSARNVNLPAVDSKRDDSSLLNQRRLALPGKLTDRLLAGIVPSATAAEGQPLAGADWVPAQAFAAPADKSLSVNGSDAFAGRRLAQPPLAPGKAAFSSPEEFVATMLPMAQEAAEKIGVDPRYLVAQAALETGWGKSIIRQQDGSSSHNLFGIKAHGSWDGESARVVTREYYNGKPVKEVAAFRAYDSFEHSFNDYVSFLQSNGRYEKALNAADNSDQYVRELQRAGYATDPQYARKISQIARQMQTYQTIAAADGGVTRS	PGPT0015500_112	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015500-flgJ-K02395	NA	NA
BMS010_02765	1140	flgI_1		Flagellar P-ring protein	ATGCGCGGATTTTCTCTCCTGCCGACTCTCCTGCTGAAACCGGTGGCGGCCTTCGCCGCGCTGCTGGCGCTGGCCTTCGCCGTTCCGGCCCAGGCCGAGCGCCTGAAGGACCTGGCGAGCATCCAGGGCGTTCGCTCCAACCAGTTGATCGGCTACGGCCTGGTGGTCGGCCTCAACGGCAGCGGCGACCAGACCACGCAGACCCCGTTCACCCTGCAAACCTTCAACAACATGCTGGCGCAGTTCGGCATCAAGGTGCCGGCCGGTTCCGGCAACGTGCAGTTGAAGAACGTCGCGGCGGTGTCCGTGCACGCCGAGCTGCCACCGTTCGCCAAGCCGGGCCAGACCATCGACGTGACCATTTCCTCCATCGGCAACGCCAAGAGCCTGCGCGGCGGCAGCCTGCTGATGACCCCGCTGAAGGGGATCGACGGCAACGTCTACGCCATCGCCCAGGGCAACCTGGTGGTGGGCGGCTTCGATGCCTCGGGCGCCGACGGCTCGCGGATCACCGTCAACGTCCCGTCGGCCGGGCGCATTCCTTCCGGTGCCACCGTCGAGCGGCCGGTGCCGAGCGGTTTCGACCAGGGCAACTACCTGACCCTGAACCTCAACCGCCCGGACTTCACCACCGCGAAGAACATCGTCGACAAGCTCAACGAGCTGCTCGGCCCCGGCGTGGCCCAGGCTCTCGACGGCGGCTCGGTGCGCGTCAGCGCGCCGCTGGACCCGAGCCAGCGCGTGGACTACCTGTCGGTGCTGGAAAACCTCGAGATCGAGGCCGGCCAGGCGGTGGCGAAGGTCATCATCAACTCACGCACCGGGACCATCGTCATCGGCCAGAACGTGCGCGTGCAGCCGGCCGCCGTCACCCATGGCAGCCTGACCGTGACCATCACCGAAGACCCCATCGTCAGCCAGCCGGAAGCGCTGTCCGGCGGCGAGACGGCGGTGGTGCCGCGTTCGCGTGTGAGTGCGGAGGAAGAGGCCAAGCCGATGTTCAAGTTCGGCCCGGGCACCACCCTCGACGAGATCGTCCGCGCCGTGAACCAGGTGGGCGCCGCGCCGTCCGACTTGATGGCGATCCTCGAGGCGCTCAAGCAAGCCGGCGCCCTCCAGGCCGACCTCATCGTCATCTAA	MRGFSLLPTLLLKPVAAFAALLALAFAVPAQAERLKDLASIQGVRSNQLIGYGLVVGLNGSGDQTTQTPFTLQTFNNMLAQFGIKVPAGSGNVQLKNVAAVSVHAELPPFAKPGQTIDVTISSIGNAKSLRGGSLLMTPLKGIDGNVYAIAQGNLVVGGFDASGADGSRITVNVPSAGRIPSGATVERPVPSGFDQGNYLTLNLNRPDFTTAKNIVDKLNELLGPGVAQALDGGSVRVSAPLDPSQRVDYLSVLENLEIEAGQAVAKVIINSRTGTIVIGQNVRVQPAAVTHGSLTVTITEDPIVSQPEALSGGETAVVPRSRVSAEEEAKPMFKFGPGTTLDEIVRAVNQVGAAPSDLMAILEALKQAGALQADLIVI	PGPT0015425_1395	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_M|S|P|L-RINGS,PGPT0015425-flgI-K02394	NA	NA
BMS010_02766	693	flgH_1		Flagellar L-ring protein	ATGAACCGGCTGATTATTCTCCTTCCGCTGCTCGGTGCCGCCTTGACCGGCTGCATGTCGCCGCCGCCGAAGCCGAATGACCCCTATTACGCGCCGGTGCTGCCGCGCACGCCGCTGCCGGCTGCGCAGAACAACGGGGCCATCTACCAGGCCGGTTTCGAGACCAACCTCTACGACGACCGCAAGGCTTACCGGGTGGGCGACATCATCACCATCACCCTCAACGAGCGGACCCAGGCCAGCAAGAACGCCAACTCCAAGCTGCAGAAGGACAGCAGCGCGAACATCGGCCTGACTTCGCTGCTCGGCGGCGCGGTGTCCATGGCCAACCCGCTGACCGGCAACTCCATGAACCTCGGCGCCGAATACGACGCCTCCCGCGAGACCGATGGCTCCGGCCAGGCCGCGCAGAGCAACAGCCTGCAGGGTTCGATCACCGTCACCGTGGCCGAAGTGCTGCCCAACGGCATTCTCTCCGTGCGCGGCGAGAAGTGGATGACCCTGAACACCGGCGACGAGCTGGTGCGCATCGCCGGTCTGGTCCGTGCCGACGACATCGGCACCGACAACACCGTGCCGTCGACCCGCATCGCCGACGCGCGCATCACCTATTCCGGTACCGGCGCCTTCGCCGACGCCAGTCAGCCCGGCTGGCTGGACCGCTTCTTCATGAGCCCGATGTGGCCGTTCTGA	MNRLIILLPLLGAALTGCMSPPPKPNDPYYAPVLPRTPLPAAQNNGAIYQAGFETNLYDDRKAYRVGDIITITLNERTQASKNANSKLQKDSSANIGLTSLLGGAVSMANPLTGNSMNLGAEYDASRETDGSGQAAQSNSLQGSITVTVAEVLPNGILSVRGEKWMTLNTGDELVRIAGLVRADDIGTDNTVPSTRIADARITYSGTGAFADASQPGWLDRFFMSPMWPF	PGPT0015420_1217	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_M|S|P|L-RINGS,PGPT0015420-flgH-K02393	NA	NA
BMS010_02767	786	flgG_1	COG4786	Flagellar basal-body rod protein FlgG	ATGCTTCCGGCACTGTGGGTCAGCAAGACCGGTCTGTCCGCCCAGGACATGAACCTGACCACCATTTCCAACAACCTGGCCAACGTCTCGACCACCGGCTTCAAGCGCGACCGCGCCGAGTTCGAGGACCTGCTGTACCAGATCCGCCGCCAGCCGGGCGGTCAGTCCAGCCAGGACAGCCAGTTGCCCTCCGGCCTGCAGCTGGGTACCGGTGTGCGCATCGTCGGCACCCAGAAGATCTTCACCGCCGGCAGCCTGCAGACCACCGAGCAGCCGCTGGACATGGCCATCAACGGCCGCGGCTTCTTCCAGGTCCTGATGCCGGACGGCACCGTGTCCTACACCCGCGACGGCAGCTTCCACCTGAACTCCGACGGGCAGATCGTCACCTCCCAGGGGTTCGCCCTGGAGCCGGCCATCGTCCTGCCGAACGAAGTGAAGACCTTCACCGTCGGCGAGGACGGCACCGTCTCGGTGACCACCACCGGCAACCCGCAACCGCAGATCCTCGGCAACATCCAAGTCGCCGACTTCATCAACCCGGCGGGCCTGGAAGCGATCGGCAACAACCTGTTCCTGGAGACCGCCTCCAGCGGCGCGCCGCAGGTCGGCACCCCGGGCCTCAACGGCCTCGGCACCACCCTGCAGAACACCCTGGAAAACTCCAACGTCAGCGTGGTCGAGGAGCTGGTGAACATGATCACCACCCAGCGCGCCTACGAGATGAACTCCAAGGTCATCTCCACCGCCGACCAGATGCTGGGCTTCGTCTCGCAGAACCTGTAA	MLPALWVSKTGLSAQDMNLTTISNNLANVSTTGFKRDRAEFEDLLYQIRRQPGGQSSQDSQLPSGLQLGTGVRIVGTQKIFTAGSLQTTEQPLDMAINGRGFFQVLMPDGTVSYTRDGSFHLNSDGQIVTSQGFALEPAIVLPNEVKTFTVGEDGTVSVTTTGNPQPQILGNIQVADFINPAGLEAIGNNLFLETASSGAPQVGTPGLNGLGTTLQNTLENSNVSVVEELVNMITTQRAYEMNSKVISTADQMLGFVSQNL	PGPT0015495_1423	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015495-flgG-K02392	NA	NA
BMS010_02768	741	flgF_1	COG4787	Flagellar basal-body rod protein FlgF	ATGGACAAGATGCTGTACGTCTCCATGACCGGAGCCAGCCAGAACACCCTGGCCCAACGGGCCCACGCCAACAACCTGGCGAACATTTCCACCAACGGATTCCGCCGCGACTTCGAGCAGGCGCGTTCGATGCCGGTGTTCGGCGAGAGCTATCCATCCCGCGTGTACGCCATGAGCGAGCGGCCGGGAACCGATTTCACCCCCGGCACCCTGCAGGAAACCGGCCGCGACCTCGACGTGGCGGTCAGCGGTGAAGGCTGGCTCGCGGTACAGGCGCCGGACGGCGGCGAAGCCTATGTGCGTACCGCCAGCCTGCGCATCGATGCCCTCGGCATGCTGCGCACCGGCAACGGTTTGCCGGTGATGGGCAATGCCGGGCCGATTGCCGTGCCGCCGGAGCAGAAGGTGGAGATCGGCCAGGACGGCACCATCAGCATCCGTGCCCTCGGCGAAGCGCCGAACGTGATGGCCGAGGTGGACCGCCTGAAGCTGGTCAATCCCGATCTCAAGCAGATGGAGAAGGGCACCGACGGCCTGATCCGGGTCAAGGGCGGCCAGCCCGCGGAGGCCGACGCCAACGTGCGGGTGACCTCCGGCTTCCTCGAGGCGAGCAACGTGAATGCCGTCGAGGAGATGACCGCGATCCTGTCGCTGTCCCGCCAATTCGAACTGCAAGTGAAGATGATGCGTACCGCCGAAGACAACTCCTCGGCCATGGCGCGTGTTTTGCAAATCAGCTGA	MDKMLYVSMTGASQNTLAQRAHANNLANISTNGFRRDFEQARSMPVFGESYPSRVYAMSERPGTDFTPGTLQETGRDLDVAVSGEGWLAVQAPDGGEAYVRTASLRIDALGMLRTGNGLPVMGNAGPIAVPPEQKVEIGQDGTISIRALGEAPNVMAEVDRLKLVNPDLKQMEKGTDGLIRVKGGQPAEADANVRVTSGFLEASNVNAVEEMTAILSLSRQFELQVKMMRTAEDNSSAMARVLQIS	PGPT0015490_1385	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015490-flgF-K02391	NA	NA
BMS010_02769	1308	flgE_1	COG1749	Flagellar hook protein FlgE	ATGGCGTTCAACATCGGCCTGAGCGGTCTGCGCGCGGCGAGCAGTGACCTCAACGTCACCGGCAACAACATTTCCAACGCGGGCACCGCCGGCTTCAAGCAGTCCCGTGCCGAGTTCTCCGACGTTTATGCGGCGTCGGTGCTGGGGACCGGTTCCAACCCGCAGGGCAGTGGCGTGCTGCTGTCCAACGTGTCGCAACTGTTCAACCAGGGCAACATCAACTACACCCAGAACGCCCTGGACCTGGCGATCAACGGCAACGGCTTCTTCGTCACCAGCAACAACGGCGACGTCAGCTATACCCGCGCCGGTTACTTCGGAACCGACCGCGAAGGCTACGTGGTCAACAACTTCGGCTACCGCCTGCAGGGCTATGCGGTGGATGCCAACGGCAACCTGCAGAATGGCGTGGTCAGCGACCTGCGCATCGAGACCAGCAGCCAGGCGCCCAAGGCCACCACCCAGATCGCCCAGACCTACAACCTGAACTCCACCAACACGGTGCCGACCACCACGCCGTTCGACCCGGCGGACCCGACCACCTACAACTCGTCGACCTCGGTGAACATTTACGACTCGCAGGGCAACGCCCACGTGCTCACCCAGTACTTCGTCAAGACCGGCGCCAACACCTGGTCGATGAATACGCTGATCGACGGGCGCAATCCGAACGACCCGACCTCCACCACACCCTACGCGGTGGACCTGACCTTCAACTCCGCCGGCCAGCTCGACCTGACCGCGCTGAGTTCCACCGATTTCACGGTGAACGCCGACGGCACGCTGAGCCTGACCAACTGGGTGCCGGCCGTTTCCAACGGCGCCACGCCGCCGGTCTGGAGCGCCAACGGTGCCACCGCCAATGCCGGCGGGATCAGCCTGGACATGCGCCAGTCGACCCAGTTCGCCAGCGCGTTCGCGGTCAGCAGCATCAGCCAGGACGGCTACACCACCGGCCAGTTGTCCGGCCTGGAAATCGACGACACCGGCGTGGTCTTCGCCCGTTACACCAACGGCCAGTCCAAGGTGCAGGGGCAGATCGTCCTGGCCAACTTCGCCAACGTCCAGGGCCTGACCCCGGTGGGCAAGACATCCTGGGTGCAGTCGTTCCAGTCCGGCGAGCCGGTCATCGGCACGCCGCGCTCCGGCACCATGGGCGCCTTGCAGGCCGGTGCGCTGGAAGACTCCAACGTCGAGCTGTCGGACCAGTTGGTGAACCTGATCGTCGCCCAGCGCAACTACCAGGCCAACGCCAAGACCATCGAAACCGAGAGCGCCATCACCCAGACCATCATCAACCTGCGTTGA	MAFNIGLSGLRAASSDLNVTGNNISNAGTAGFKQSRAEFSDVYAASVLGTGSNPQGSGVLLSNVSQLFNQGNINYTQNALDLAINGNGFFVTSNNGDVSYTRAGYFGTDREGYVVNNFGYRLQGYAVDANGNLQNGVVSDLRIETSSQAPKATTQIAQTYNLNSTNTVPTTTPFDPADPTTYNSSTSVNIYDSQGNAHVLTQYFVKTGANTWSMNTLIDGRNPNDPTSTTPYAVDLTFNSAGQLDLTALSSTDFTVNADGTLSLTNWVPAVSNGATPPVWSANGATANAGGISLDMRQSTQFASAFAVSSISQDGYTTGQLSGLEIDDTGVVFARYTNGQSKVQGQIVLANFANVQGLTPVGKTSWVQSFQSGEPVIGTPRSGTMGALQAGALEDSNVELSDQLVNLIVAQRNYQANAKTIETESAITQTIINLR	PGPT0015485_1336	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015485-flgE-K02390	NA	NA
BMS010_02770	684	flgD	COG1843	Basal-body rod modification protein FlgD	ATGAGCATCGAAAGCAGCAGCCTCGGCGCGACCAGTTCGGTTCTGGACAAGTACCAGATCCAGAACGACACCTCGTCCAGCAAGGAACTCGGCAAGAACGAATTCCTCAACCTGTTGGTGGCCCAGTTGAACAACCAGAACCCGCTCGAACCCCAGGAAAACGGCGAATTCATCGCCCAGCTGGCGCAGTTCAGCACCGTGGAAGGGGTGGAGAAACTCAATACCAGCATGGAGTCGATCCTCTCCGGCTACCAGTCGTCCCAGGCGCTGCAGGCGTCCTCGCTGGTCGGTCGCAAGGTGATCGTGCCCACCGAGAAAGCGGTGGTGGACACCAGCGAGACCTTCAAGGCCAGCCTGGTGCTGCCGGCGAGCAGCAGCAACGTGTTCGTCAACGTCTACGACAGCAGCGGCGCCCTGGTGAACCGGGTCAACCTCGGCGAGCAGGCCGCCGGCAACGTCAGCTTCATGTGGGACGGCAAGAACAGCAGCGGCGAGCTGATGCCGCCCGGCACCTACAAGTTCGAAGCGCAGGCGATGTATGGCAACGAGACCAAGGGGCTCTACACCATGCTGCCGGCCAACGTCGACAGCGTCACCCTGGGCCAGAACGGCGGCGAGCTGATGCTCAACCTCGCCGGGCTCGGCAGCGTCGCACTTTCCCAAGTACAGGTCATCGGTCAGTAA	MSIESSSLGATSSVLDKYQIQNDTSSSKELGKNEFLNLLVAQLNNQNPLEPQENGEFIAQLAQFSTVEGVEKLNTSMESILSGYQSSQALQASSLVGRKVIVPTEKAVVDTSETFKASLVLPASSSNVFVNVYDSSGALVNRVNLGEQAAGNVSFMWDGKNSSGELMPPGTYKFEAQAMYGNETKGLYTMLPANVDSVTLGQNGGELMLNLAGLGSVALSQVQVIGQ	PGPT0015480_1142	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015480-flgD-K02389	NA	NA
BMS010_02771	450	flgC_1	COG1558	Flagellar basal-body rod protein FlgC	ATGTCACTCAGCAGTGTTTTCCATATCGCCGGTACCGGCATGAGCGCCCAGAGCACTCGCCTGAACACCATCTCCAGCAACATCGCCAACGCCGAGACGGTGTCGTCCAGCATCGACCAGACCTACCGCGCCCGGCATCCGGTGTTTGCCACCGTGTTCCAGCAGCAGGCCGCCGAGGGTGGTGATCGCGGTTCGCTGTTCGCCGACCAGGACCAGTCCGGCGCCGGCGTCCAGGTGCTCGGCGTGATCGAGGACCAGAGCAGCCTCACGCCGCGCTACGAGCCGAACCATCCGGCCGCCGACGCCAACGGCTACGTGTACTACCCGAACGTCAACGTGGTCGAGGAAATGGCGGACATGATCTCCGCCAGCCGTGCCTTCCAGACCAACGTCGAAATGATGAACACCGCCAAGCAGATGATGCAGCGCGTGCTGACCCTGGGTCAGTGA	MSLSSVFHIAGTGMSAQSTRLNTISSNIANAETVSSSIDQTYRARHPVFATVFQQQAAEGGDRGSLFADQDQSGAGVQVLGVIEDQSSLTPRYEPNHPAADANGYVYYPNVNVVEEMADMISASRAFQTNVEMMNTAKQMMQRVLTLGQ	PGPT0015475_601	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015475-flgC-K02388	NA	NA
BMS010_02772	408	flgB_1	COG1815	Flagellar basal body rod protein FlgB	ATGAGCATCAGCTTCGACAACGCCCTCGGCATCCATGAAAAAGCGCTCGGCTTCCGCTCGCAGCGTGCCGAGGTGCTGGCCAACAACATCGCCAACGCCGACACGCCGAACTACAAGGCGCGCGACCTGGACTTCGCCTCGGTGCTCGCCGAGCAGAATGCCAAGGCCAAGGGCGGCGCACTCGGGTTGAGCCGGACCAACAGCCAGCACATCGCTGCAGAAGGCGTGCCCATGGGCGATCCGGCGTTGCGCTATCGCATTCCGACCCAGCCGTCGATCGACCAGAACACCGTCGACCTTCAGCTCGAACAATCCAACTACGCGGAAAACTCCGTGCAGTTCCAGGCCAGCTTCACCTTTCTCAACAGCAAGTTCAAAGGGCTGATGAGCGCCCTTCGCGGTGAATGA	MSISFDNALGIHEKALGFRSQRAEVLANNIANADTPNYKARDLDFASVLAEQNAKAKGGALGLSRTNSQHIAAEGVPMGDPALRYRIPTQPSIDQNTVDLQLEQSNYAENSVQFQASFTFLNSKFKGLMSALRGE	PGPT0015470_1065	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015470-flgB-K02387	NA	NA
BMS010_02773	828	cheR2_1		Chemotaxis protein methyltransferase Cher2	GTGTCTTCAGGTAATTTGGATTTCGAGCAGTTCCGGACGTTTCTGGAAAAGAGTTGCGGCATTCTGCTGGGGAGCAACAAGCAGTACCTGGTTTCCAGCCGCCTCAACAAGCTGATGGAGCAGCACGGCATCAAGACGCTGGGCGAACTGGTGCAGCGGGTCCAGGGGCAGCCGCGCGGAGGATTGCGCGAGCAGGTGGTGGATGCCATGACCACCAACGAGACCCTCTGGTTTCGCGATACCTATCCGTTCGAGGTGCTCAAGAGCCGTGTGCTACCCGAGATGATCAAGGCCAGCCCCGGCCAGCGCTTGCGCATCTGGTCGGCGGCCTGCTCGTCGGGGCAGGAGCCCTATTCGTTGTCCATGGCCATCGACGAGTTCGAGCGGAGCAACCTCGGCCAGCTCAGGGCCGGTATACAGATCGTCGCCACCGACCTGTCCGGCTCCATGCTCAATGCCTGCAAGGCCGGCGAATACGACAGCCTGGCGATGGGCCGCGGCCTGTCGCAGGAGCGCCTGCAGCGTTATTTCGATCCGAAGGGGCCGGGCCGCTGGGCGGTCAAGGCACCGATCAAAAGCCGCGTCGAGTTCCGCGCGCTGAACCTGCTGGACAGCTATGCCAGCCTCGGCAAGTTCGACATCGTGTTCTGCCGCAACGTGCTGATCTACTTCTCCGCCGAGGTGAAGAAGGACATCCTCACCCGCATCCACGCGACCCTGAAGCCCGGCGGCTACTTGTTCCTCGGCGCTTCCGAGGCGCTCAACGGCTTGCCGGAGCTGTATCAGATGGTCCAGTGCAGTCCGGGGATCATCTACAAGGTGAAGTGA	MSSGNLDFEQFRTFLEKSCGILLGSNKQYLVSSRLNKLMEQHGIKTLGELVQRVQGQPRGGLREQVVDAMTTNETLWFRDTYPFEVLKSRVLPEMIKASPGQRLRIWSAACSSGQEPYSLSMAIDEFERSNLGQLRAGIQIVATDLSGSMLNACKAGEYDSLAMGRGLSQERLQRYFDPKGPGRWAVKAPIKSRVEFRALNLLDSYASLGKFDIVFCRNVLIYFSAEVKKDILTRIHATLKPGGYLFLGASEALNGLPELYQMVQCSPGIIYKVK	PGPT0015670_2963	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015670-cheR|pilK-K00575	NA	NA
BMS010_02774	933	cheV_1	COG0784	Chemotaxis protein CheV	ATGGCCGGTGTGTTGGATTCGGTTAACCAGCGTACTCAACTGGTAGGGCAGAACCGCCTCGAACTGCTGTTGTTCCGTCTGGACGGCAAGCAGCTCTATGGGATCAACGTGTTCAAGGTGAAGGAGGTGCTGCAATGCCCCCGTCTCACCATCATGCCCAAGGCCAGTCCGGTGGTGCGCGGGGTCGCCAATATCCGTGGGGGTACCATTCCCATTCTTGACCTGTCCATGGCCACGGGCCGGTCGGGTCTCGACGATCTGAAGAACAGCTTCGTCATCATCACCGAATACAACACCAAGGTGCAGGGATTCCTGGTGCGGTCGGTCGAGCGCATCGTCAACATGAACTGGGAGGAGATCCATCCGCCACCCAAGGGGACCGGTCGCGAGCACTACCTGACGGCGGTGACGCGGGTGGACAAGCAGCTGGTGGAGATCATCGACGTGGAGAAGATCCTCGCCGAGGTGGCGCCGATGTCGGAAGCCATCTCCGAGGGTGTCATCGATGTCGAGACCCAGAGCAAGGCGGTGTCCAAGCGCGTGCTGATCGTCGACGACTCCTCCGTGGCACGCAAGCAGGTGTCGCGCTGCCTGCAGACGGTAGGGGTGGAAGTGGTCGCCTTGAACGACGGCCGCGAAGCGCTGGACTACCTGCGCAAGATGGTGGAGGAGGGGCGTCATCCGGAGCAGGAGCTGCTGATGATGATCTCCGACATCGAGATGCCGGAGATGGATGGCTACACCCTCACGGCCGAGGTTCGTGGCGATCCGCGCATGCAGAAACTGCATATCCTCCTGCATACTTCGCTGTCGGGTGTGTTCAACCAGGCGATGGTGAAGAAGGTCGGCGCGGATGACTTCCTCGCCAAGTTCCGTCCGGACGATCTGGCCGCGCGGGTGATCGAACGCATCAAATCAACGGAAGAGGGCTGA	MAGVLDSVNQRTQLVGQNRLELLLFRLDGKQLYGINVFKVKEVLQCPRLTIMPKASPVVRGVANIRGGTIPILDLSMATGRSGLDDLKNSFVIITEYNTKVQGFLVRSVERIVNMNWEEIHPPPKGTGREHYLTAVTRVDKQLVEIIDVEKILAEVAPMSEAISEGVIDVETQSKAVSKRVLIVDDSSVARKQVSRCLQTVGVEVVALNDGREALDYLRKMVEEGRHPEQELLMMISDIEMPEMDGYTLTAEVRGDPRMQKLHILLHTSLSGVFNQAMVKKVGADDFLAKFRPDDLAARVIERIKSTEEG	PGPT0015675_1164	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015675-cheV-K03415	NA	NA
BMS010_02775	648			hypothetical protein	ATGACCCTGCCCGATGAGCTTATCGGCACCACCCAGCGCTTTCTTGAGCAGGCCGTGGACGAGTACCTGCGCCGCAGCGAAATCCAGGGCCGCCACGAAGTCCAGGTCAACCGCCTCGACCCGCGCCTGCGCCTGCCGCAGTGCGACGAGCCGCTGACGGCCTCCCTGGAAAGCCCCGCGCAGCCGCTGGGACGGGTCACCGTGCGGGTTCGCTGCGAAGGCAGCGCGCCCTGGACGGTGTTCGTGCCAGCCCAGGTCCGCCTGTTCCGACAGGTGGTCGTCATCAGTCGACCGCTCAAGCGCGAAAATGTGCTGACGGAGCAGGACCTGTCCCTGGTCGAGCGCGACGTCGGGCTGCTCAACCAGGGCTATCTCACCGATCCCGGCCAGGCCATCGGCAAGAAACTGACGCGGCCCATGCTGCCCGACCAGATTCTGGCGCCCGTTCATCTGCAACAGGCCGAGGTGATCCGCAAGGGCGACCAAGTGGTGATCACCGCGCGCGGCGCCGCCGTGAGCGTGCGGATGCCGGGCGAGGCGCTGTCCGACGGCGCGCCGGGCCAGCAAATCCGCGTGAGGAACCAACGTTCCCAGCGGGTGATCAAAGCTCGAGTGGTGGGACCGGGCCAGGTGGAAGTCGCCATGTAG	MTLPDELIGTTQRFLEQAVDEYLRRSEIQGRHEVQVNRLDPRLRLPQCDEPLTASLESPAQPLGRVTVRVRCEGSAPWTVFVPAQVRLFRQVVVISRPLKRENVLTEQDLSLVERDVGLLNQGYLTDPGQAIGKKLTRPMLPDQILAPVHLQQAEVIRKGDQVVITARGAAVSVRMPGEALSDGAPGQQIRVRNQRSQRVIKARVVGPGQVEVAM	PGPT0015415_635	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_M|S|P|L-RINGS,PGPT0015415-flgA-K02386	NA	NA
BMS010_02776	333			hypothetical protein	ATGGTCATCGATTTCAACCGGCCCAACAGCGCCGCTACGCCAGCCAACTCGGGGCGTGTCGGCAACACCCAATCCAGCCGTGGCGAAGCCGTTTCGGGCAATCCGTCCGCCCCGGCCCCGGCATCCGCCGAAACCACCGCCAAGAGCGGCGAATCCGTGCAGCTCAGCCAGGAAGCCCAGCGCCTGCAGCAAGTGACGGACAGCCTGCGCGACCTGCCTGAAGTCGATCAGGAGCGTGTCGCGCGGATCAAGCAGGCCATCGCCGACGGCAGCTATCAGGTCGATAGCAAGCGCGTCGCCAGCAAGCTGCTCGACTTCGAATCCCAGCGCTAG	MVIDFNRPNSAATPANSGRVGNTQSSRGEAVSGNPSAPAPASAETTAKSGESVQLSQEAQRLQQVTDSLRDLPEVDQERVARIKQAIADGSYQVDSKRVASKLLDFESQR	PGPT0015530_80	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0015530-flgM-K02398	NA	NA
BMS010_02777	468			hypothetical protein	ATGCACGACACGACCCTGCTTCAGCTGTTCACCGACGATATCGGCCAGGCCGAACGCCTGCTTGAGCTGATCGACGAAGAATTCCAGGCACTCAACGACCGCGATCTGCCCCGCCTGGAAGGCATCCTGGCGGCCAAGCAGCCGCTGCTGGCGCAGCTCGACCAGCACGGCGCACAGCGCAGCCAACTGCTCGCCAGCCAGCACCTGAGCGCCGACAAGGCCGGCCTGCAGGCATTGGCGGCCCGTTCGCCGCAGGGCCCGGAACTGCTCGAACATGCCGACCGCCTGGGCGAGCTGCTGGAACGCTGCCAGGCCGCGAACCTGCGCAACGGCCGCCTGATCCGCGCCAACCAGGCCTCGGTGGGCAAGCTGCTCGGCATCCTCCGCGGCGGCGATACCCCAAGCCTTTACGACAGCCGCGGCAGCGCCGCGAGAACCGGGCAACAGCGACCACTCAGCCAAGCCTGA	MHDTTLLQLFTDDIGQAERLLELIDEEFQALNDRDLPRLEGILAAKQPLLAQLDQHGAQRSQLLASQHLSADKAGLQALAARSPQGPELLEHADRLGELLERCQAANLRNGRLIRANQASVGKLLGILRGGDTPSLYDSRGSAARTGQQRPLSQA	PGPT0015535_278	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_REGULATION,PGPT0015535-flgN-K02399	NA	NA
BMS010_02778	750	ycgR	COG5581	Flagellar brake protein YcgR	GTGTCCAACCCATTCATCCAAGAAGAAGGACCGCAACCACCCAAGGTGCTCAAGGCGCCCCTGGAAGTGTTCGCCAACCTTCGCCAGTTGCAACAGAACCACGATCCCCTGGTTATCACCTTTCGCGACCGCAACCAGCGTTTCCAGAGCTACCTGGTCGAGATCGACCGCGAGCGCGGCCTGCTGGCCCTGGATGAGATGATCCCGAACGACGGCGAGCGCTTCCTGAAAGCCGGCGAGGCCTTCGCCATCGAAGGCTTCCATGAAGGCGTGCGGATCGCCTGGGAATGCACCCGTCCGGTCCAGATCGGCGAACTGGAAGGCGCCCGCTGCTACTGGACCGCCCTCCCCGGCGAAGTCACCTACCACCAGCGCCGCAATGCCTACCGCGCCTCGCTCAAGCAGACCCAACTGGTCAACATCCAGTTGGCCGGCGACAAGTTGAGCACACCGATCAAGGGGCAGTTGCTGGACATCTCGGCCACCGGCTGCAAGGTACGCTTCCCCGGCGACATCACCAGCCGTCTGCAACCCGGCCAGGTCTATGAACGCTTCACCGCGGAATTGCCGTTCGGCGCCATGACCACGCCGGTGGAATTGCGCCATCTGTATTTCGAGGAAAAGCTCGGCATGAGCTTCGCCGGTCTGCGCTTCTATCGGATGAACGGCCTGGAGCAGCGCCAGGTCGAGCGCTTCGTCTACCAGTTGCAGCGCGAAGCCCGTCGCTTCGAGAAAGACGACCCGTTCTGA	MSNPFIQEEGPQPPKVLKAPLEVFANLRQLQQNHDPLVITFRDRNQRFQSYLVEIDRERGLLALDEMIPNDGERFLKAGEAFAIEGFHEGVRIAWECTRPVQIGELEGARCYWTALPGEVTYHQRRNAYRASLKQTQLVNIQLAGDKLSTPIKGQLLDISATGCKVRFPGDITSRLQPGQVYERFTAELPFGAMTTPVELRHLYFEEKLGMSFAGLRFYRMNGLEQRQVERFVYQLQREARRFEKDDPF				NA	NA	NA	NA	NA
BMS010_02779	621			hypothetical protein	ATGACTCAGTCCATCTCGCTGCACCTGCTGGCCCGCACCCCGGAGCCCGGCAGGGTCAAGACCCGTCTGATACCGGCCCTGGGCGACGAGGGGGCCTGCGATCTGCAGCGCCTGCTGGTCGAACGGGCGCTGGAACTCCCCGCGGATACCTTCAGTGAACGCTTTTTCTGGCTCGACGATGGCCCGGACGACTCGCTCGTCGAGCTCGCCGAGGCGCATGGCTGGACGGTGATGGAACAGCCCGCCGGCGATCTCGGCGAACGCATGCGGCGCATCGCTGCGTTGGGGCTAGCGGAAAGCGATGGGGTGGTGCTGATCGGCAACGATTGCCCGGCGCTCGACGGCGACTACCTGGCGGCGGCCTGCGAGGCGCTGCGCGAGCAGGAGGTGGTGTTGGGACCGGCGGAAGACGGCGGCTATGTGTTGCTGGGTTTACGCCGGATCGATCCGCTGCTATTCGAATCCTTGCCCTGGGGCAGCGATCGCCTCCTGGCCTTGACCTGCGAGCGTCTGCAGCAATTGGGTTGGGCCTACGGGTTACTGCCGGTGCTATGGGATGTGGATCGCCCCGAGGACCTTCCGCGCCTGGCCAGCCTGGGCATCCGGCTGGGAATGCATTGA	MTQSISLHLLARTPEPGRVKTRLIPALGDEGACDLQRLLVERALELPADTFSERFFWLDDGPDDSLVELAEAHGWTVMEQPAGDLGERMRRIAALGLAESDGVVLIGNDCPALDGDYLAAACEALREQEVVLGPAEDGGYVLLGLRRIDPLLFESLPWGSDRLLALTCERLQQLGWAYGLLPVLWDVDRPEDLPRLASLGIRLGMH				NA	NA	NA	NA	NA
BMS010_02780	696			hypothetical protein	ATGAGCGCGCCACCGCTCAGCGTCGTCATTCCGGCGCGCGACGAGGCGCAGGCCTTGCCGCTGTTGCTGGAAGATTTGGCGCCGTTGCGGGCGATGGGCGCGGAACTGATCCTGGTGGACGGCGGGAGCCACGACGGCACGCCGCAATTGGCGGAGGCGGGCGTCGACCGGGTGATCCACAGCGAGCCGGGGCGGGCACGGCAGATGAATGCCGGGGCCCGGGTCGCCTCGGGTCGCTATCTCTGGTTCCTGCATGCCGACACGCGTGTGCCGGCGACGTCCTGGCGGCGTTTGCTGGATGTTCTTGCGGTCCAGCCCGCCTGGGGGCGCTTCGATGTGCACCTTTCCGGTAATGGCCCTTCGCTACGATTGATCGGCAGCATGATCAGCCTGCGCTCGCGGCTGACTGGTGTGGCCAGTGGCGACCAGGGCATCTTCATCTCCCGCGACCTGTTCGTGGAGCTGGGCGGCTATGCCGACATGCCGCTGATGGAGGACCTGGAACTGTGTCGGCGGCTCAAGCGGCTGGCACCTCCGCGTTGCCTGCGGCCCCCGCTGGTCACCTCCAGCCGCCGCTGGGAACAGCGGGGAATCTGGCGTACCGTGTGGTTGATGTGGCGTTTGCGCCTTTCCTATTACTTCGGCGCCAGCCCGGAACGGTTGGCGCAACGGTATTACGGAGGACCGCGGTCATGA	MSAPPLSVVIPARDEAQALPLLLEDLAPLRAMGAELILVDGGSHDGTPQLAEAGVDRVIHSEPGRARQMNAGARVASGRYLWFLHADTRVPATSWRRLLDVLAVQPAWGRFDVHLSGNGPSLRLIGSMISLRSRLTGVASGDQGIFISRDLFVELGGYADMPLMEDLELCRRLKRLAPPRCLRPPLVTSSRRWEQRGIWRTVWLMWRLRLSYYFGASPERLAQRYYGGPRS				NA	NA	NA	NA	NA
BMS010_02781	1308	ycaD_4		putative MFS-type transporter YcaD	ATGCGCAGAATCTGGAAGTCCTTTCGGGCGTTGTATTTCGCCACCCTGTTGATGCTGCTCGGCTCCGGCCTGTTGAGTACCTATCTGGCGTTGCGTCTGGCTGCGGACAAGGTGGACGGTCTCTGGGTCGGTGCGTTGATGGCCGCCAACTACATCGGCCTGGTGCTCGGCGGCAAGCAGGGCCACCGGTTGATCGCCCGGGTCGGGCACATCCGTGCCTACGTCGCCTGCGCCGGTGCGGTGACGGCGGCGGTGCTCGGCCACGGCCTGATCGACTGGCTGCCGGCCTGGCTGTTCCTGCGCATGCTGGTCGGCCTCGGCATGATGTGCCAGTACATGGTGATCGAGAGTTGGCTGAACGAGCAGGCCGCGGCCAGCCAGCGCGGCCAGGTGTTCGCCGGCTACATGACGGCGTCGTATCTGGGGCTGATCCTCGGCCAGTTGGTGCTGGTGGTCCACCCGACCCTCGGGCTGGAATTGCTGATGCTGGTGGCGCTGTGCTTCGCCCTGTGCCTGGTGCCGGTGGCGGTGACTCGCAAGATCCACCCCGCGCCGCTGCATCCCGCGCCGCTCGAGCCGCGTTTCTTCCTCCAGCGGGTGCCGCAATCGCTGACCACCACCCTGGTCTCCGGCCTGCTGATCGGCGCTTTCTACGGCCTCGCACCGCTCTATGCCACCCGCCAGGGGCTGTCGACGGAGCAGGTTGGTCTGTTCATGGGCGCCTGCATTCTCGCCGGCCTGGTGGTGCAATGGCCGCTGGGCTGGCTGTCGGATCGCAGCGATCGCGCCGTGCTGATTCGCGGCTGCGCGCTGTTGCTGACGCTGATCGCACTGCCGCTGGCGATCATGCCGTCGGTGGCCCTGGCGTTACTGCTGCCCCTGGGTTTCCTGGTGTGCCTGTTGCAGTTCAGCCTGTATCCGTTGGCGGTGGCTTTCTCCAACGACCATGTCGAAGGCGAGCGGCGGGTGTCGCTGACCGCCATGCTGCTGGTCACCTTCGGCGTGGGGGCAAGTATCGGCCCGCTGCTGGCCGGGGTGCTGATGAAGTACTTCGGCGCCAACATGCTCTATGCGTTCTTCAGCTTCTGCGCGTTGATCCTGGTCTGGCGCATCCGTCCCGACAAGGTCACCCATCAGCATCAGGTGGAGGACGCACCGCTGCATCACATCCCCATGCCGGACATCGCCAGCTCGCCGCTGGTGGCGGCCCTCGACCCGCGGGTGGACGAGCAGGTGGTGCAGGAGCAGATGCAGAGCGCTCCCGAGCCGCAGGAACCGCCTGTGCCGGAACCTGACACGCCGCGATGA	MRRIWKSFRALYFATLLMLLGSGLLSTYLALRLAADKVDGLWVGALMAANYIGLVLGGKQGHRLIARVGHIRAYVACAGAVTAAVLGHGLIDWLPAWLFLRMLVGLGMMCQYMVIESWLNEQAAASQRGQVFAGYMTASYLGLILGQLVLVVHPTLGLELLMLVALCFALCLVPVAVTRKIHPAPLHPAPLEPRFFLQRVPQSLTTTLVSGLLIGAFYGLAPLYATRQGLSTEQVGLFMGACILAGLVVQWPLGWLSDRSDRAVLIRGCALLLTLIALPLAIMPSVALALLLPLGFLVCLLQFSLYPLAVAFSNDHVEGERRVSLTAMLLVTFGVGASIGPLLAGVLMKYFGANMLYAFFSFCALILVWRIRPDKVTHQHQVEDAPLHHIPMPDIASSPLVAALDPRVDEQVVQEQMQSAPEPQEPPVPEPDTPR				NA	NA	NA	NA	NA
BMS010_02782	1344	ipuC_2		Glutamate--isopropylamine ligase	ATGAGCAGCAACGGCCGTAGTCCACTCGCTGAGCGTCTGGCCGGCATCGAAGAAATCGAATGCGTCACCCCCGACCTGAACGGGGTGCCGCGCGGGAAGGTGATGACCGCCGAGGGCTTCCTTGAAGGGCGGCGGCTGCAACTGGCCAGGGGCGTGTTGTTGCAATGCATCATGGGCGGCTATCCGCCGGCGCGTTTCTACGGTAGCGACGACGGCGACGTGGCGTTGTGCGCCGATCCCCGGCAGATTCATCGCCTGCCGTGGAGTGAGCGGCCTCGTGCGTTGGCGATCTGCGATGCCGAGGAGCTGGACGGCCGCGACTGCGGTCTTTCCACCCGCGCCTTGCTCAAGCGCGTGCTGGCGCGCTACGCCGAGCACGGCTGGCAGCCGGTGGTGGCCACCGAGCTGGAGTTCTTCGTCTTCGCACCCAATAACGATCCACACCAGCCGTTCCAGCCGCCGGTCGGCCTGGATGGCCGGCGCGAGGCGGGTTTCTCGGCTTTCAGCGTGTCGTCGAACAACGGGCTGCGGCCGTTTTTCGAGGAGGTTTATGCCTGCATGGCGACGCTCGGCCTGCCGCGCGACACCTTCATGCACGAGATGGGCGTCAGCCAGTTCGAGATCAACCTGTTGCACGGCGATGCCTTGCTGCTCGCCGACCAGACCTTCCTGTTCAAGCACCTGCTCAAGGAAGTGGCGCTCAAGCATGGCCTGACCGTGGTGTGCATGGCCAAGCCGCTGCCGAAGACGCCGGGCAGCTCGATGCACATCCACCAGAGCGTGGTGGAGCAGAGCAGCGGGCGGAATATCTTCAGCGACGAGCAGGGCGCGCCGACTCCGGCGTTCCGCCATTTCATCGGCGGGCAGCAGGCGGCGCTGGGGGATTTCACCCTGTTGTTCGCGCCGAACGTCAATTCCTACCAGCGTTTGTGCCATCCTTACGCCTCGCCGAACAACGCCTGCTGGTCCCATGACAACCGTGCGGCCGGCCTGCGTATTCCGGCCAGCTCGCCAGTGGCGCGGCGGGTGGAGAACCGATTGCCGGGGGCCGATGCCAACCCGTACCTGGCCATCGCCGCCAGCCTGGCGGCGGGCCTGCATGGGCTGGAACGCGAACTGGAGCCGAGCGAGCCGATCCAGGGCGAGTTCGAAACCCCGGATGAATTGCGTCTGCCCTGTACCTTGCATGCCGCCCTGGAGCGTCTGAAGCGCAGCCGGCTGGCGCGGGAACTGTTCGATGCGGAGTTCATCGAAGGCTACATTGCCAGCAAGACGATGGAGCTCACCAGCTTCCTCGAAGAAATCACGCCCTGGGAGCGCCGGATACTCGCTGCGCAGGCGTGA	MSSNGRSPLAERLAGIEEIECVTPDLNGVPRGKVMTAEGFLEGRRLQLARGVLLQCIMGGYPPARFYGSDDGDVALCADPRQIHRLPWSERPRALAICDAEELDGRDCGLSTRALLKRVLARYAEHGWQPVVATELEFFVFAPNNDPHQPFQPPVGLDGRREAGFSAFSVSSNNGLRPFFEEVYACMATLGLPRDTFMHEMGVSQFEINLLHGDALLLADQTFLFKHLLKEVALKHGLTVVCMAKPLPKTPGSSMHIHQSVVEQSSGRNIFSDEQGAPTPAFRHFIGGQQAALGDFTLLFAPNVNSYQRLCHPYASPNNACWSHDNRAAGLRIPASSPVARRVENRLPGADANPYLAIAASLAAGLHGLERELEPSEPIQGEFETPDELRLPCTLHAALERLKRSRLARELFDAEFIEGYIASKTMELTSFLEEITPWERRILAAQA	PGPT0000645_7515	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMATE_DEGRADATION|CONVERSION,PGPT0000645-glnA-K01915	NA	NA
BMS010_02784	336			hypothetical protein	ATGCGACTGCGCCTGATCCTGTTCCTCATCCTGACCATCGCCTTCCCGGCGTACGCCAGCCTGCCGGCCGGCGAACCGCCGTGTCCGATGCTGGAGATGGACATGACCGCCGCCGCGGACGCCACCGATGAGAACCCCTGCTGCCAGGACGACGGCAAGGGCAGCCAGTTGATGTCCTGCAAGTCCGGCCAGGAATGCAAGACCGGCGGCACCTTGCGCAGCGCCTTCCCACGCGGTGCCGTGATTCAGACCGCTGCCCGCCCTCTCTCCCTGCCGGACCCGGCGGCGATTCCTCCCGAGCCCGGCTCCGTCTGGCGCCCACCCCGTTTCCTCTGA	MRLRLILFLILTIAFPAYASLPAGEPPCPMLEMDMTAAADATDENPCCQDDGKGSQLMSCKSGQECKTGGTLRSAFPRGAVIQTAARPLSLPDPAAIPPEPGSVWRPPRFL				NA	NA	NA	NA	NA
BMS010_02785	1254			hypothetical protein	ATGATTGCCTTCCTTCCTCGACGGCACTGCGCCGTCCTGCTGGCCGCCGCCTGGATCGCTGCCGGGCCGGCAGCCGCCGCCCCCCTGACCTTTCAGCAGGCGCTGTCCATCGCCGAACGCTCGGCCCCAGAAAACCTGGCGCAGACCGCCCAGCTCGACGCCGCCCGCGCCGCGGTGATACCGGCCGATGCCCTGCCCGATCCGAAGCTCAGCCTGGGGGTGGACAACCTGCCCCTGGAAGGCCCGGATCGCTACCGCCTCGACCGCGACTTCATGACCATGCGCCGCATCGGCCTGATGCAGGAAGTACCCAACGGCGACAAGCGCCAGGCCCGGCGCCAACTGGCCGAGGCCGGTGTGGTCCGCTCCGAGGCCGAGCAGGTGGCGATGCGCCTGGAAACCCGCCGGCAGACCGCCGTGGCCTGGCTGGAGGTGTTCCACCTCGAACGCGGCCTGCAGGTGCTGAGCGAACTGGACCGGGAGGTCGCGCGGTTGCGCGGGCTGGTCCAGGCACAGATCGCCGGGGGCGGCGCCCGCTCGGGCGACCTGCTGCTGGCCGACCGCGACGCCCTGGCCCTGGAGGAACGCCGCGACGAACTGGAACGCGACCGCCAGCAGGCCCGCGCCGGCCTGCGCCGCTGGCTGGGCGACGCCGCCGATGCGCCCCTGGCCGGAGAACCGCCGCGTTTCGCCCTGGACAGCCAGCGTCTGCACCAGCATTTGTTCGACCACCCCGAATTGCAGACCGCCTCGGCGCGCATCGGCGAAGCCCAGGCCGAACTCGCCGAAGCCCTCGCCGAGAAGAAGCCCGACTGGGGCGTGGAGGTTGCCTACAGCAACCGCGACAGCCGCTTCGGCGACATGCTCTCGCTGCAATTCAGCTTCGATCTGCCGCTGTTCACCGGCACCCGCCAGGGCCCGCGCATCGATGCCCGGCAGAAAGGCCTGGCCCAGCGCGAGGCGGAGCAGGAGGCCCTGCAACGCGCACATCGGGCGGAGCTGGAAAGCGGCTTGGCCAGCCTCGACCAATTGAGCCGCGCCCTGGAACGCAGCGAGCGCTCGCTGGTCCCCCTCGCCCGCCAGCGCGCCGACCTGGAACTGGCCGCCTACCGCGCCGGCACCGGTGAGTTGCCGGCGGTGATCGAGGCGCGTCGCGAATTGATCGAAGCCCGCCTGCGCCAGATCGAGCTGGAGAAAAAGCGCGACCAACTCGCTGCCAGCCTGCATTACGCCTATTCGGAGAACCGCCCATGA	MIAFLPRRHCAVLLAAAWIAAGPAAAAPLTFQQALSIAERSAPENLAQTAQLDAARAAVIPADALPDPKLSLGVDNLPLEGPDRYRLDRDFMTMRRIGLMQEVPNGDKRQARRQLAEAGVVRSEAEQVAMRLETRRQTAVAWLEVFHLERGLQVLSELDREVARLRGLVQAQIAGGGARSGDLLLADRDALALEERRDELERDRQQARAGLRRWLGDAADAPLAGEPPRFALDSQRLHQHLFDHPELQTASARIGEAQAELAEALAEKKPDWGVEVAYSNRDSRFGDMLSLQFSFDLPLFTGTRQGPRIDARQKGLAQREAEQEALQRAHRAELESGLASLDQLSRALERSERSLVPLARQRADLELAAYRAGTGELPAVIEARRELIEARLRQIELEKKRDQLAASLHYAYSENRP	PGPT0004975_1705	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-CUS_TRANSPORT_SYSTEM,PGPT0004975-czcC|cusC|cnrC-K15725	NA	NA
BMS010_02786	1455	cusB_1		Cation efflux system protein CusB	ATGAAAGGCTCCCCCTTCACCCCGGCCCTTCTGGCCCTGGCCGTGCTGGCCTCCGCCGCCGGCGGCTACTGGTTCGGCCAGCGGCAGGTCCATCCCCAATCCGCCCAGGCCGCCGCGACGCCGGTTGCGGAACGCCCGGTGCTCTACTGGTACGACCCCATGTACCCGGACCAGCGCTTCGATCAGCCGGGCAAATCGCCGTTCATGGACATGGACCTGATCCCCAAGTACGCCGACCAGGGCGATGCCGGCAGTGGCCTGAGCATTCCCGCGCAGACCGTGCAGAACCTCGGCATGCGTACCGCCCCCGTGCTTCGCGGCGCGCTGCCGGCCAGCCTCGACGCGGTCGGCAGCCTGGCCTACAACCAGCGCGAGATCGCCAACCTGCAAGCCCGCGCCGCCGGTTTCGTCGAGCGGGTCTACGGACGCGCACCCGGCGATGTAGTGCCGGCCGGCGCTCCCTTGGTCGATCTGCTGATTCCCGAGTGGTCGGCGGCGCAGTTGGAATTCATCGCCGTCCTGGCCGACGGCGACCCACGCCTGATCGCCGCTGGCCGCGAACGCCTGCGCCTGCTCGGCATGCCGCCCGCGCTGATCGAACAGGTCGCTCGCGAGCGCCGCGCTCGCCCAGTGCAGACCCTGCACGCGCCGATTGCCGGCGAGCTGCTGGAACTGCCGGTGCGCGCCGGCATGACCGTCTCCACTGGCCAGGACTTGGCACGCATCAACGGTCTGTCCACGGTCTGGCTCGACTTGGCCATTCCCGAGGCCCAGGCGGCGCTAGCGCGGCCCGGCGCGGAGGTCCGGGTGCAGTTGAGCGCCTACCCCGGCGAGGAGATCCAGGGCAAGGTGATCGCCCTGCTGCCAAGCACCGACCCGCAGACCCGCACCCTCACCCTGCGCAGCGAACTGCCCAACCCCGACAGTCGCCTCAAGCCCGGCATGTTCGCCCGCGCACGGCTGAACGACGCGCCGAGCCAGTCCGCGTTGCTGATCCCCAGCGAAGCCTTGATCCGCACCGGCAAGCGCAGCCTGGTGATGCTCGCCGACGGCGACGGCCGCTTCCAGCCGCAGGAAATCCGCACCGGCCGGGAAACCGCCGGTCAGGTCGAAGTGCTCGCCGGCTTGGAGGAAGGCCAGCAGGTGGTGGTGTCCGGCCAATTCCTGCTCGACTCCGAGGCCAGCCTGCGCTCGGTGCTGACCCGCGCCGTGCCGGCCGAAGAACCGCTGCACCGGTCCGAAGGCATCATCCGCAAGTTCGAAGACGGCTACGTCACCCTGGAGCACGGCCCGTTCCCCAGTCTGGACATGCCGGGCATGACCATGGAATTCCCGCTGGCCTCGACCCGGGTCGCTGCAGACCTGAAGGAAGGCGACAAGGTGCGCATCGCCGCGCGCCAGACCGATGACGGTCTGGTGATCGAGCAGTTGGAAAAGCAGGGAGACGCGCCATGA	MKGSPFTPALLALAVLASAAGGYWFGQRQVHPQSAQAAATPVAERPVLYWYDPMYPDQRFDQPGKSPFMDMDLIPKYADQGDAGSGLSIPAQTVQNLGMRTAPVLRGALPASLDAVGSLAYNQREIANLQARAAGFVERVYGRAPGDVVPAGAPLVDLLIPEWSAAQLEFIAVLADGDPRLIAAGRERLRLLGMPPALIEQVARERRARPVQTLHAPIAGELLELPVRAGMTVSTGQDLARINGLSTVWLDLAIPEAQAALARPGAEVRVQLSAYPGEEIQGKVIALLPSTDPQTRTLTLRSELPNPDSRLKPGMFARARLNDAPSQSALLIPSEALIRTGKRSLVMLADGDGRFQPQEIRTGRETAGQVEVLAGLEEGQQVVVSGQFLLDSEASLRSVLTRAVPAEEPLHRSEGIIRKFEDGYVTLEHGPFPSLDMPGMTMEFPLASTRVAADLKEGDKVRIAARQTDDGLVIEQLEKQGDAP	PGPT0004065_888	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SILVER_RESISTANCE	SILVER_RESISTANCE-SILVER_TRANSPORT,PGPT0004065-cusB|silB-K07798	NA	NA
BMS010_02787	3129	cusA_1	COG3696	Cation efflux system protein CusA	ATGATCGAACGCCTGATCCACTGGTCGATCGGCAACCGCTTCCTGGTCCTGCTGGCCACCCTGTTCGTCACCGCCTGGGGCATCTGGTCGGTACGCAGCACACCGCTGGATGCCCTGCCGGATCTCTCCGACACCCAGGTGATCATCCGCACCAGCTACCCCGGCCAGGCGCCGCAGATTGTGGAAAACCAGGTCACCTACCCGCTGGCCACCACCATGCTCTCGGTACCCGGCGCGAAGACGGTGCGCGGCTATTCGTTCTTCGGCGACTCCTTCGTCTATGTGCTGTTCGAGGACGGCACCGACCTCTACTGGGCCCGCGCACGGGTGCTGGAATACCTCAACCAGGCCCAGGAGCGCCTGCCGGAAGGCGTTACCACCACCCTCGGCCCGGACGCCACCGGGGTCGGTTGGATCTACCAGTACGCCCTGGTCGACCGCAGCGGCCGGCACGACCTCGCCCAGCTCCGTGCCTTGCAGGACTGGTTCCTGAAGTACGAACTGAAAAGCCTGGCGAACGTCGCCGAAGTCGCCAGCATCGGCGGCATGGTCAAGCAGTACCAAGTGCTGCTCGACCCGCTGAAACTGGTGTCCTACGGCGTCACCCAGCAGGACGTCATCGCCGCGCTACGCGCCGCCAACCAGGAGACCGGCGGCGCCATTCTCGAACTGGCCGAGCGCGAGTACATGGTCCGCGCCTCGGGCTATCTGCAAAGCCTCGACGATTTCCGTGCAGTGCCGCTGAAGGTCTCGCCACGCGGGGTGCCGGTCACCCTCGGCGACGTCGCCCAAGTTCAACTGGGGCCGGAAATGCGCCGCGGCATCGCCGAGCTGGATGGCGAAGGCGAGACGGTCGGCGGCGTGGTCATCCTGCGCTCGGGCAAGAACGCCCGCGACGCCATCGCCGCGGTCAAGGCGCGCCTCGACAGCCTGCGTGGCAGCCTGCCGCCGGGCGTCGAACTGGTGACCACCTACGACCGCTCGCAACTCATCGAACGCGCCATCGACAACCTCAGCTTCAAGCTGCTGGAAGAATTCATCGTGGTCGCGCTGATCTGCCTGCTGTTCCTCGGCCACCTGCGCTCCTCGCTGGTCGCCATCATCACCCTGCCGCTGGGCGTGCTGATGGCCTTCATTGTCATGCGCCACCAGGGCATCAACGCCAACATCATGTCCCTCGGCGGGATCGCCATCGCCATCGGCGCCATGGTGGACGCCGCAGTGGTGATGATCGAGAACGCCCACAAGCGCCTGGAAGCCTGGCAGCACCGCCATCCGGGCGAGACCCTGAAGGGCGAGGCACATTGGCGGGTCATCGGCGAAGCGGCCGCCGAGGTCGGACCGGCGCTGTTCTTCAGCCTGCTGATCATCACCCTGTCGTTCCTCCCGGTGTTCACCCTGGAAGCCCAGGAAGGCCGCCTGTTCGGCCCGCTGGCGTTCACCAAGACCTACGCCATGGCGGCGGCGGCCGGCCTGTCGGTGACCCTGGTGCCAGTGTTGATGGGCTACTGGATTCGCGGGCGGATTCCCAGCGAGGAACGCAACCCGCTCAACCGCTGGCTGATCGCCGCCTACCGGCCGCTGCTGGAAGCCGTGCTGGCCTGGCCGAAGACGACGCTGGCGGTGGCGGCACTGGTGTTCCTCACCAGCCTCTGGCCGCTGAGCCGGCTGGGCGGCGAATTCATGCCGCCGCTGGACGAAGGCGACCTCCTCTATATGCCCTCGGCCCTGCCCGGCCTGACCGCCACCAGCGCCTCGCACCTGTTGCAGCAGACCAACCGGATGATCCGCAGCGTGCCGGAAGTGGCGCGGGTATTCGGCAAGGCCGGCCGCGCGGAAAGCGCCACCGATCCGGCGCCGCTGGAGATGTTCGAGACCACCATCCAGTTCAAGCCGCGCCATCAGTGGCGCCCCGGCATGACGCCGGACAAGCTGGTGGAAGAACTCGACCGCGCCGTGCAAGTGCCGGGGCTGGCCAACCTTTGGGTGCCGCCGATCCGCAACCGCATCGATATGCTTGCCACCGGCATCAAGAGCCCCATCGGGGTGAAGGTTTCGGGCACCTCGCTGGCCGACATCGAGCGGGTCGCGCGGGACGTCGAGAAGGTGGCCAAGCAAGTCCCCGGCGTCAGCTCGGCCCTGGCCGAACGCCTCAGTGGCGGCCGTTACCTAGACATCGACATCGACCGCCGCGCCGCTGCCCGCTACGGGCTGAACATCGCCGACGTGCAGGACGTGGTGGCCAGTGCCATCGGCGGGCGCAACATCGGCGAGACGGTGGAAGGGCTGGCGCGCTTCCCGATCAACCTGCGCTACCCGCGCGAATGGCGCGACAGCCCCGAAGCCCTGCGCCAGTTGCCGATCTTCACCCCGGCCGGCCAGCAACTCACCCTGGGCGATGTCGCCGCCATCCGCCTGAACGATGGGCCGCCGATGCTGCGCAGCGAGAACGGTAGGTTGTCCGGCTGGGTCTACGTGGACGTGCGCGGCCGCGATCTGGCCTCCACCGTGCGCGAACTGCAACGGCAGGTGGCGGAACAGGTGCAACTGACCCCGGGCATGACCCTGGCCTACTCCGGCCAGTTCGAATACCTGGAGCGCGCCAACGCCCGCCTGGCCTGGGTGGTGCCCGCAACCTTGCTGATCATCTTCGTGCTGCTCTACCTGACCTTCGGCCGTGTCGGCGAGGCCCTGCTGATCATGGCCACCCTGCCCTTCGCGCTCACCGGCGGGGTCTGGATGCTGCATGGGTTCGGCTTCAACCTCTCGGTGGCCACCGGCGTCGGCTTCATCGCCCTGGCCGGGGTGTCGGCGGAGTTCGGCGTGATCATGCTGATCTACCTGAAGAACGCCTGGCTCGACCGCCAGCGCAATGGCCACGGCGACGCCGCCGCCCTGCGCGACGCCATCCGCGAAGGCGCGGTGCTGCGGGTCCGGCCGAAGGTGATGACGGTGGCGGTGATCGTCGCCGGCCTGCTGCCGATCCTCTGGGACAGCGGCACCGGCTCGGAAGTGATGCAGCGCATCGCCGTCCCCATGGTTGGCGGCATGCTCACCGCGCCGCTGCTGTCCATGCTGGTCCTGCCGGCGGCGTATTGGTTGATGCGGCGGCGGGAGGCCAAGGTGTAA	MIERLIHWSIGNRFLVLLATLFVTAWGIWSVRSTPLDALPDLSDTQVIIRTSYPGQAPQIVENQVTYPLATTMLSVPGAKTVRGYSFFGDSFVYVLFEDGTDLYWARARVLEYLNQAQERLPEGVTTTLGPDATGVGWIYQYALVDRSGRHDLAQLRALQDWFLKYELKSLANVAEVASIGGMVKQYQVLLDPLKLVSYGVTQQDVIAALRAANQETGGAILELAEREYMVRASGYLQSLDDFRAVPLKVSPRGVPVTLGDVAQVQLGPEMRRGIAELDGEGETVGGVVILRSGKNARDAIAAVKARLDSLRGSLPPGVELVTTYDRSQLIERAIDNLSFKLLEEFIVVALICLLFLGHLRSSLVAIITLPLGVLMAFIVMRHQGINANIMSLGGIAIAIGAMVDAAVVMIENAHKRLEAWQHRHPGETLKGEAHWRVIGEAAAEVGPALFFSLLIITLSFLPVFTLEAQEGRLFGPLAFTKTYAMAAAAGLSVTLVPVLMGYWIRGRIPSEERNPLNRWLIAAYRPLLEAVLAWPKTTLAVAALVFLTSLWPLSRLGGEFMPPLDEGDLLYMPSALPGLTATSASHLLQQTNRMIRSVPEVARVFGKAGRAESATDPAPLEMFETTIQFKPRHQWRPGMTPDKLVEELDRAVQVPGLANLWVPPIRNRIDMLATGIKSPIGVKVSGTSLADIERVARDVEKVAKQVPGVSSALAERLSGGRYLDIDIDRRAAARYGLNIADVQDVVASAIGGRNIGETVEGLARFPINLRYPREWRDSPEALRQLPIFTPAGQQLTLGDVAAIRLNDGPPMLRSENGRLSGWVYVDVRGRDLASTVRELQRQVAEQVQLTPGMTLAYSGQFEYLERANARLAWVVPATLLIIFVLLYLTFGRVGEALLIMATLPFALTGGVWMLHGFGFNLSVATGVGFIALAGVSAEFGVIMLIYLKNAWLDRQRNGHGDAAALRDAIREGAVLRVRPKVMTVAVIVAGLLPILWDSGTGSEVMQRIAVPMVGGMLTAPLLSMLVLPAAYWLMRRREAKV	PGPT0004060_1092	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SILVER_RESISTANCE	SILVER_RESISTANCE-SILVER_TRANSPORT,PGPT0004060-cusA|silA-K07787	NA	NA
BMS010_02788	1749	rcsC_11		Sensor histidine kinase RcsC	ATGCAGAAGCCCTATGAAGACCCCGGCCAGGCCGTTGCCGAGCTGCTTGGCCTGGGCTCCCACTCCGCCCGCAAGAGTCACTATCCCGAACTGATCGCGCGCCTGGAGGAGCTGGAGGCCGAGCGCAACCGCTACAAATGGCTGTTCGAGCACGCCGTCTATGGCATCTTCCAGGCCAGCCTGGACGAAGGGCTGCGCGCGGCCAACCCGGCGCTGGCGCGGATGCTCGGCTACAGCGACCCGCAGGAGCTGCTCGGCTCGCTCACCGAACGCGCCGAGCAGTTGTTCGTCGGCGGCCTGGCCGAGTTGCAGCGCATCCGTGAGGTGCTGCGCCGACAGACCGGCCTGTTCGGCTATGAAACCCAGTTGCGCCGACAGGATGGCCAGGTCATCGACGTGCTGGTCAACCTGTTGCTCAAGCCAGGGGAAGAGGATGGCCTGATCGAGGGCTTCGTTGCCGACATCACCGAACGCAAGCTGGCCCGCGTCCGCCTGCAACAGTTGAACGACGAACTGGAGCAACGTGTCGAGGCACGAACCCGCGAATTGCAGGCGCTGAACCGGGACCTGCAATTGCAAATCGCCGAGCGCGAGCGCATCGAGTGCCAGTTGCGCGAGGCCCGCGACGCCGCCGAAGCCGCCAACCTGAGCAAGGACAAGTACCTCGCCGCCGCCAGCCATGACCTGCTGCAACCGTTGAACGCCGCGCGCCTGCTGGTCTCGACCTTGCGCGAGCGCAACCTGCCGGGCGCCGAGCACACGTTGGTGGAACGCACCCACCAGGCGCTGGAAGGCGCCGAGGACCTGCTCACCGATCTGCTGGAAATCTCCAAGCTGGACCAAGCGGCGATCAAGCCGGATATCGATGTCTACCGCCTGGACGACCTGCTCGCGCCGCTGGCCTCGGAATTCCAGCCGGTGGCCCAGGCAGCCGGCCTGGAGCTGCGGGCGCATATCCCGCAGCTGGCGATCCGCACCGACGCACGTCTGCTCAGCCGCATCCTGCGCAACTTCCTCAGTAATGCCTGCCGCTACACCGAGCGGGGCCGCATCCTGCTCGGTTGCCGTCGGCAGGGGAACACCCTGCGCCTCGAGGTGTGGGACACCGGGCGCGGCATTCCGGCCGACAAGCTCGATGCGATCTTCCTCGAGTTCAACCAGCTCAGCGCGGGTCGTGCCGCGGAGCGCAAGGGTGTTGGCCTGGGGCTGGCCATCGTCGATCGCATTGCCGCGATGCTCGGCTATCCGGTACGGGTCCGCTCGCAACTGGGGCGCGGCTCGGTGTTCAGCATCGAGGTGCCGATGGCGGCGGACATGCCGGTGGCTTTGGAAGAGGTGCCGGCGAGCCTGCCGGTCACCGGCGACCCGCTGCCGGGGCGCCGCCTGCTGGTGCTGGATAACGAGGTGAGCATCCTCGACAGCATGGCCGCGTTGCTCGGCCAGTGGGGTTGCCAGGTGCTTACCGCCACCGACCACGCCATGGCGTTGGACGTGCTGCAGGGCCGGGCGCCGGAACTCATCCTCGCCGACTACCACCTGGACGATGGTGTGCTCGGCTGCGAGGTGGTTCGCGATCTGCGTGGCCATTTCGGCCGTGAGATTCCCTGCGTGATGATCACCGCCGACCGCAGCGACGACTGCCGCCGGCAGCTCCAGAGCCTCGGTATGCTGCTGCTCAACAAACCGGTGAAGCCCGGCAAGCTGCGCGCCGTGTTGAGCCAATTGTTGCGCGACGAGGCAGCGTCGTAA	MQKPYEDPGQAVAELLGLGSHSARKSHYPELIARLEELEAERNRYKWLFEHAVYGIFQASLDEGLRAANPALARMLGYSDPQELLGSLTERAEQLFVGGLAELQRIREVLRRQTGLFGYETQLRRQDGQVIDVLVNLLLKPGEEDGLIEGFVADITERKLARVRLQQLNDELEQRVEARTRELQALNRDLQLQIAERERIECQLREARDAAEAANLSKDKYLAAASHDLLQPLNAARLLVSTLRERNLPGAEHTLVERTHQALEGAEDLLTDLLEISKLDQAAIKPDIDVYRLDDLLAPLASEFQPVAQAAGLELRAHIPQLAIRTDARLLSRILRNFLSNACRYTERGRILLGCRRQGNTLRLEVWDTGRGIPADKLDAIFLEFNQLSAGRAAERKGVGLGLAIVDRIAAMLGYPVRVRSQLGRGSVFSIEVPMAADMPVALEEVPASLPVTGDPLPGRRLLVLDNEVSILDSMAALLGQWGCQVLTATDHAMALDVLQGRAPELILADYHLDDGVLGCEVVRDLRGHFGREIPCVMITADRSDDCRRQLQSLGMLLLNKPVKPGKLRAVLSQLLRDEAAS	PGPT0025850_302	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_SENSING_REGULATORS	CE-QSR-QUORUM_SENSING_REGULATED_FLS,PGPT0025850-PA1979-K20975	NA	NA
BMS010_02789	1164	adhB		Alcohol dehydrogenase 2	ATGCGCCACGATATCAGCCAACTGCGCAAGTTCGTCTCACCGGAAATCATCTTCGGCGCCGGTTCCCGGCATGCCGTCGGCAATTACGCCACCACCTTCGGTGCGCGCAAGGTGCTGGTGGTTTCCGACCCCGGCGTGCAGGCCGCCGGTTGGGTGGCCGACGTCGAGGCCAGCCTGCAGGCCCAGGGCCTGGACTACTGCCTCTATACCAACGTCTCGCCCAATCCGCGCTCGGAAGAGGTGATGCAGGGCGCGGAGTTCTACCGCGAGCAGGGCTGCAACCTGATCGTCGCGGTGGGCGGCGGTAGCCCGATGGACTGCGCCAAGGGCATCGGCATCGTGGTTGCCCATGGCCGCAGCATTCTCGAGTTCGAGGGGGTGGACAAGCTGCGCGTGCCCAGCCCGCCGCTGATCCTGATCCCCACCACCGCCGGCACCTCGGCGGACGTCTCGCAGTTCGTGATCATTTCCAACCAGCTCGAGCGGGTGAAGTTTTCCATCGTCAGCAAGGCGGTGGTGCCGGATGTGTCGCTGATCGACCCGGAAACCACCCTGAGCATGGACCCGTTCCTCTCCGCCTGTACCGGTATCGATGCCCTGGTGCATGCCATCGAGGCGTTCGTTTCCACCGGCAGCGGGCCGCTCACCGATTCCCATGCCCTGGAGGCCATACGCCTGATCAACGGCAATCTGGTGGACATGATCGCCAATCCCAACGACATGCTGCTGCGCGAGCGGGTCATGCTCGGCAGCATGGAGGCCGGCCTGGCGTTCTCCAACGCCATCCTCGGCGCGGTGCACGCCATGTCCCACAGCCTCGGCGGTTTCCTCGACCTGCCCCATGGTTTATGCAACGCGGTGCTGATCGAGCACGTGGTGGCGTTCAACTACAGTGCCGCGCCGGAGCGCTTCCGCATGGTCGCCGAGACCCTCGGCATCGACGTGCGCGGCCTCAATCACGCGCAAATCCGCCAGCGCCTGGTGGACTACCTGATCCGCTTCAAGCAGTCGGTGGGTTTCCGCGAAACCCTCGGCCCGCATGGCGTCGGTACGTCGGATATCCCGTTCCTCTCGCGCCACGCCATGGAAGATCCCTGCATCCTTACCAATCCGCGCGAATCCACGGTGCGGGACGTCGAAGTCGTGTATGCAGAAGCCCTATGA	MRHDISQLRKFVSPEIIFGAGSRHAVGNYATTFGARKVLVVSDPGVQAAGWVADVEASLQAQGLDYCLYTNVSPNPRSEEVMQGAEFYREQGCNLIVAVGGGSPMDCAKGIGIVVAHGRSILEFEGVDKLRVPSPPLILIPTTAGTSADVSQFVIISNQLERVKFSIVSKAVVPDVSLIDPETTLSMDPFLSACTGIDALVHAIEAFVSTGSGPLTDSHALEAIRLINGNLVDMIANPNDMLLRERVMLGSMEAGLAFSNAILGAVHAMSHSLGGFLDLPHGLCNAVLIEHVVAFNYSAAPERFRMVAETLGIDVRGLNHAQIRQRLVDYLIRFKQSVGFRETLGPHGVGTSDIPFLSRHAMEDPCILTNPRESTVRDVEVVYAEAL	PGPT0006370_402	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006370-yiaY-K13954	NA	NA
BMS010_02790	750	lutR_5	COG2186	HTH-type transcriptional regulator LutR	ATGGACAATCAGAGCAGTCAGCCGCGTCCCCGCCGTAAACATCGTAGTCTGGCGCAGGAACTGGTGGCGGAGCTTTCCCAGCAGATCAGCGACGGTGTGATCAAGCGTGGGCAGAAGCTGCCCACCGAGTCGGCGATCATGGAGGCCCAGGGCGTCAGCCGGACCGTGGTGCGCGAGGCGATCTCCCGCCTGCAGGCCGCGGGGCTGGTGGAAACCCGCCACGGCATCGGCACCTTCGTGCTGGACACGCCGAGCCCTAGCGGCTTTCGCATCGACCCGGCGACTATCGTCACGCTGCGCGACGTGCTGGCCATTCTCGAACTGCGTATCAGCCTCGAAGTGGAGTCGGCCGGCCTCGCTGCGCAGCGCCGCACCGACGAGCAACTGGCGGCCATGCGGGCCGCGCTGGACGCGATGAAGCAGAGCGCAGCCCATGCCAGCGATGCGGTGTCGTCAGACTTCCAGTTCCACCTGCAGATCGCCAAGTCCACCGGCAACCGCTATTTCACCGACATCATGACCCATCTGGGTACCAGCATCATTCCGCGGACCCGGGTCAATTCGGCGCGCATCAGCCACGACGACCAGCCGAGCTACCTGGCGCGTCTGACCCGCGAGCACGAGGAAATCTACGAGGCCATCGCCCGCCAGGATTCCGATGCCGCCCGCGCGGCCATGCGCCTGCACCTGACCAACAGCCGCGAGCGGCTGCGCCAGGCACATGAGGAAGCTGAATCGCAGCAGGCGTGA	MDNQSSQPRPRRKHRSLAQELVAELSQQISDGVIKRGQKLPTESAIMEAQGVSRTVVREAISRLQAAGLVETRHGIGTFVLDTPSPSGFRIDPATIVTLRDVLAILELRISLEVESAGLAAQRRTDEQLAAMRAALDAMKQSAAHASDAVSSDFQFHLQIAKSTGNRYFTDIMTHLGTSIIPRTRVNSARISHDDQPSYLARLTREHEEIYEAIARQDSDAARAAMRLHLTNSRERLRQAHEEAESQQA				NA	NA	NA	NA	NA
BMS010_02791	870	yphB	COG2017	putative protein YphB	ATGAGCTTGCAACTGCTGACCCTGGAAGACGAGCTGAGCCGCGTGGCCCTGGCCCCGGAAATCGGCGGCAGCCTGGTCAACTGGACCCTGCGCGCCAATGGCCGGCCGCTGTTGCGGCCGAGCGTGGAAGACCGGCTGGACGGCGTCACGCCAAGGCAACTGGCCTGCTACCCGCTGGCGCCCTGGTCCAACCGCATCGCCGAGGGGGGATTCGACAATCCCGACGGCTGGCTGGCGCTGGCGCCCAACACCCCCCACGATCCCTACCCGATCCATGGCAGCGCCTGGCAGCAACCCTGGCGCGCCATCGAATGCCTGTCGCGCCAGGCCCTGCTGCGGTTGGATAGCCACGAGCCGTTCCCCTATCGGGCGGAGCTGCGCGTGCAACTGATCGACGGCAGCCTGAACCTTACCCTGAGCGTCACCCACCAGGGCGAACATCCCGCCTGGTATGGCCTCGGCCTGCATCCATACTTCCCGCGCGGTGCACAGACCCAGTTGCAGGCCAGCGCGCAGCAGGTCTGGATCGGCTCAGCGGATCGTCTGCCCGACCACCAGGAAGACGTTCCACCGACCTGGCGCTTCGACCAACCACGCGCCCTGCCCGGCGAACGCATCGACCACGCCTTCTCCGGCTGGGACGGCCGCTTCCGCCTGCTGGAACCCGAAGCCGGTTACCAGCTCGAAGGCCGCGTCAGCGGCTGCGACCACTTCCTGCTCTACACCCCACCGCAGCAGGACTTCTTCTGCATCGAACCGGTGACCCACCCGATCAACGCCCACCACTTGCCCGGCCGACCGGGGCTGAGGCTGTTGGCCAGGGGCGAAACGATGAAGATGGGATTGACGTTGACGTATCGGGAGGTGTGA	MSLQLLTLEDELSRVALAPEIGGSLVNWTLRANGRPLLRPSVEDRLDGVTPRQLACYPLAPWSNRIAEGGFDNPDGWLALAPNTPHDPYPIHGSAWQQPWRAIECLSRQALLRLDSHEPFPYRAELRVQLIDGSLNLTLSVTHQGEHPAWYGLGLHPYFPRGAQTQLQASAQQVWIGSADRLPDHQEDVPPTWRFDQPRALPGERIDHAFSGWDGRFRLLEPEAGYQLEGRVSGCDHFLLYTPPQQDFFCIEPVTHPINAHHLPGRPGLRLLARGETMKMGLTLTYREV	PGPT0017825_4920	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GALACOTOSE_METABOLISM|DEGRADATION,PGPT0017825-galK-K01785	NA	NA
BMS010_02792	903			hypothetical protein	ATGACCGATCGCCTTCACCCCGCCAATGGCCTCCGCCCCAGCACCCTGCACCTGCCGCAAGGCCCGTGGGCGACGGTGCTGGAGTGCCTGTGCGCGCACTTCCACGCCATCGGCCGTGACGTCTGGCTCGATCGCATGGCACGTGGGCGGGTGCTGGATAGTGACGGACAACCGATCGGTCCCGACCATCCCTACCGGGTGGGGCTGCGTGTGCACTATTTCCGCGAGGTGCCGACGGAAACGCCGATCCCCTTCGAGGAACGGGTGTTGTTCGTCGACGAACATCTGGTGGTGGCGGACAAACCGCACTTCCTGCCGGTGATGCCCTCCGGCGAATACGTCGAGGAAACCCTGTTGGCGCGCTTGATTCGCCGGCTCGGCAACCCGCACCTGTCGCCGCTGCATCGCATCGACCGGCTGACTGCCGGGCTGGTGTTGTTCTCCGCCAACCCGGCGAGCCGCGCGGCTTATCAGGCACTGTTCCGCGACCGGCGGATCGACAAGACCTATGAAGCCATCGCCCCGGCGCTACCCGGCCTTGACTTCCCTCGGGCGCACCGCAGCCGGATGGTCGCCGGCGAACCTTTCTTCCGTATGCGCGAAGCGGAGGAGGGGCCGGCCAACAGCGAGACTCACATCGACGTGCTCGAACGCAATGGCGCGCTGTGGCGTTATGCGCTGCACCCGATCAGCGGGAAAAAGCACCAACTGCGCCTGCACATGGCCGCCCTCGGTGCCGGGCTATGCAACGACCCCTTCTACCCGGAACTGACCGAACGCGTCCCGCGCAGCCAGGACGATTACAGCCGCCCGCTGAAGCTGTTGGCCCGCAGTTTGGCCTTCGACGATCCCGTGACCGGCGAGGCACGTCGTTTCGAAAGCCGGTTGCGGTTGGAATGGTGA	MTDRLHPANGLRPSTLHLPQGPWATVLECLCAHFHAIGRDVWLDRMARGRVLDSDGQPIGPDHPYRVGLRVHYFREVPTETPIPFEERVLFVDEHLVVADKPHFLPVMPSGEYVEETLLARLIRRLGNPHLSPLHRIDRLTAGLVLFSANPASRAAYQALFRDRRIDKTYEAIAPALPGLDFPRAHRSRMVAGEPFFRMREAEEGPANSETHIDVLERNGALWRYALHPISGKKHQLRLHMAALGAGLCNDPFYPELTERVPRSQDDYSRPLKLLARSLAFDDPVTGEARRFESRLRLEW				NA	NA	NA	NA	NA
BMS010_02793	576	yecD	COG1335	Isochorismatase family protein YecD	ATGCATACCGCCTTTATCGGTCTGGACTACATCGTCGACATCATGCACCCGAACGGCAAGATCGCCCGCGCCGCCAGCCAGGCGAGCGAGCGCGACGTCGTTGGCAAGGCCAACCGCGTGCTGGCCATTGCCCGGGAGAGGGATTGGCTGCGGGTGCTGGTCAAGGTCGGCTTCGCGCCCAGCTATCTGGACCAGCCGAAAGCCTCGCCGATGTTCGGCAAGGCCCATGAGATCGGTGCCCTGGCGCTGGGCGCCAAAGGCACAGAGTTCCACCCGCAGCTGGATGTCGGCAACGATTGCCTGGTCGTAATCAAGCCGCGCGTCAGCGGCTTCTATGGCACCTCGCTGGACGCGATCCTGCGCGCCAACCACATCCAGCGCTTGGTGATCGCCGGGGTCAGCAGCACTTGGGCAGTACAGAGCACCGTGCGCGACGGACATGACCGCGATTACGAAGTCATCGTGGTGGAGGATGCCTGCGCTGCGGCCAGCGAGGAGGAACACGACGCGTCGATGCAGATGCTCGGCACCATCGCCAGAGTGGTGACAAGCGAAGCGCTGGTGGAGTTGATGTAG	MHTAFIGLDYIVDIMHPNGKIARAASQASERDVVGKANRVLAIARERDWLRVLVKVGFAPSYLDQPKASPMFGKAHEIGALALGAKGTEFHPQLDVGNDCLVVIKPRVSGFYGTSLDAILRANHIQRLVIAGVSSTWAVQSTVRDGHDRDYEVIVVEDACAAASEEEHDASMQMLGTIARVVTSEALVELM	PGPT0006170_791	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_ATRAZINE|DERIVATE_DEGRADATION	XENOBIOTIC_BIURET_DEGRADATION,PGPT0006170-biuH-K23359	NA	NA
BMS010_02794	429			hypothetical protein	GTGGAGTCCGAATCCATTGTCTATGGCTGCATCCGTGACTGGCCGTCCGATAACCCGGACCAGCGCATCCTGCGCCGCGAAACCAACCATCGGATACTGGCCAGCCTGCCCGGCGGCGAAGCCTGGCCGTTCCTCGGTCGGGAAATGTTCTCCTTCTGCGACCTCCCCGGCGCGGGTCTCTACCGGACCCAGGTGATCCACTTCGGCGCCAGCTACCAGACGGTAGAGTACGAGTGGAAGCTCTGGGTGCAGGAGTTCGAGGCGCTGCTCAAGCAGCTCTACTGGGCCAGTGCGGTGGTGCACCTGGAAACCGAACTGAACGGCAGCCACATCTTCCGCTGGGAGTCGGAGAGCGGTTTCCACAGCCCGCGTGAGGGCGACCTGCGGGTCCGTTGCGCCTGGGAGCGCGAGAGCGGCGTTCACGTCTGA	MESESIVYGCIRDWPSDNPDQRILRRETNHRILASLPGGEAWPFLGREMFSFCDLPGAGLYRTQVIHFGASYQTVEYEWKLWVQEFEALLKQLYWASAVVHLETELNGSHIFRWESESGFHSPREGDLRVRCAWERESGVHV				NA	NA	NA	NA	NA
BMS010_02795	1152	yycB	COG2807	putative transporter YycB	ATGCTGATGCTGGCCCTGGTGCTGGCGGCGATCAACCTGCGCCCCGGCATCACCTCCTTTGCCCCTCTGATCGAACGGATCGCCGATGAGCTGGCGCTCAGCCGTGGCCTGATCAGCCTGACCACCGCGCTGCCGGTACTTTGCATGGGTCTGCTCGCGCCGTTGGCCCCGCGCCTGGCGTTGCGTTTTGGCCTGGAGCGCACCATCACTGTCTGCCTGGGGATGATCCTCGGAGCACTCCTGCTGCGTCTGCTGGGCCATGCCAGTGCCGTGCTGATCGGCAGCGCCGTGCTGCTGGGGGCCGGTATCGCCGTCGCCGGGCCGTTGCTGTCCGGTTTCATCAAGCGCTATTTCGTTGGTCATATCGGCCGCGTGGTGGGCTGGTATTCGTTCAGCATGGCCATCGGCGGTGCCGGTGGCGCGGTATTGACGGCGCCGACCGTGGCGTTGCTGGGCGATGACTGGACCTCCGGCCTGGCCATCTGGGCTCTGCCGGCGGCCGTTGCACTGGTGCTGTGGACGCGTCTGCCGAATGTGCGGGAAACCGCGCAGGAAGGCGCCGAAGCGGGCGGGTTGCCCTGGCGCGAGCCGCGTGCCTGGCTGATCACCGGGTTCTTCGCCATCCAGGCCGGGCTGTTCTACGCCCTGACCACCTGGCTGGTGGCGCGCTACCACGAAGCCGGTATGAGCCTGCTGCGGGCCAACAGCCTGTTCAGTCTGTTCATGTTGATCGGTTTGGCCAGCGCCTATCTGGTGCCTTGGCTGGCCCAGCGTTTCGACAAGCGCTACCAGCTCCTGCTGGCCTGCGGCCTGTCGTCGTCGCTGTGCCTGGGCATGATCACCTTCTTCCCGACCTTCGTGCCGGAGTGCTGGGCGCTGCTCATGGGCTTCGGTCTCAGCGGCTCCTTCGCCCTGTCCCTGGTACTGCCGATGTACGAAGTGAAGACGCCCCTGGCGGTCAGCCGCTGGACGGCGATGATGCTCTGCGCCGGCTACAGCCTGGGCTGCCTGACACCGGTGCTCGCCGGCCTCGGCCGCGACCTCTCCGGCACCTACCGCCTGCCGTTCCTGGTGCTCACCCTGCTGGCGCTGCTGATGTGTGTGCTCGCCTGGCGGCTGCATCCGCGGGCGAGCCGTTCGTCCACCCCATAA	MLMLALVLAAINLRPGITSFAPLIERIADELALSRGLISLTTALPVLCMGLLAPLAPRLALRFGLERTITVCLGMILGALLLRLLGHASAVLIGSAVLLGAGIAVAGPLLSGFIKRYFVGHIGRVVGWYSFSMAIGGAGGAVLTAPTVALLGDDWTSGLAIWALPAAVALVLWTRLPNVRETAQEGAEAGGLPWREPRAWLITGFFAIQAGLFYALTTWLVARYHEAGMSLLRANSLFSLFMLIGLASAYLVPWLAQRFDKRYQLLLACGLSSSLCLGMITFFPTFVPECWALLMGFGLSGSFALSLVLPMYEVKTPLAVSRWTAMMLCAGYSLGCLTPVLAGLGRDLSGTYRLPFLVLTLLALLMCVLAWRLHPRASRSSTP	PGPT0005211_2692	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_CYANATE_DETOXIFICATION	XENOBIOTIC_CYANATE_UPTAKE,PGPT0005211-cynX|yeaN-K03449	NA	NA
BMS010_02796	660			hypothetical protein	ATGATCCTCCCTACTAGTTATGCTGGGATTTATGTTTCTACTGCTAACGACTCTCCGGCTTCTGCTCATTCCTATAAAGAAGAGGCACAACAGGCGCTGGATAGAATTGCCTCGGGCCCTTCAGGGGGGGAGTTGTTAAGTAAGGTTGCTAAGATTGCCAGTGGCGGTGAGAAGAAAATAACGCTGAAGGAGCTGGGACCGAATGAGGAACCCTACACTCAGGCAGTATTAACGCGAAGCCAAATAGAAAAATACAAGCCGCGGGGCTTTGAGCAAAATGTAGCCATTGCTGGTGAGCTCTCTCGAAAAGGACGTTTCCTCAAAGGGGAAGGCACCAGTGCCATCATTGGTTGGTCGCCTGAAAAGTCCAGCGTGCTATTAAATCAAAATGGCTCCCCGACAAGAATAGGGGCCAGCCAAGAGGAAAAGTTCACCGTGCTTGCGCACGAGTTGATCCATGCACGGCATATTATGAGTGGAAGTTCGTTGGCTGCTGGTGGTAACCGTTACGACCCGAAAACGCCTAATGGCAAAGAAGAATCAAGAGCGGTTGGGGTTGAGGGATATCACTATTCAAAAACGAAGAAGCCTTCCGAAAACTCCATCCGCGCTGAGCAGGGCCTTCCCTTGCGAAAAAAATATAATCCACATGATATGTAG	MILPTSYAGIYVSTANDSPASAHSYKEEAQQALDRIASGPSGGELLSKVAKIASGGEKKITLKELGPNEEPYTQAVLTRSQIEKYKPRGFEQNVAIAGELSRKGRFLKGEGTSAIIGWSPEKSSVLLNQNGSPTRIGASQEEKFTVLAHELIHARHIMSGSSLAAGGNRYDPKTPNGKEESRAVGVEGYHYSKTKKPSENSIRAEQGLPLRKKYNPHDM				NA	NA	NA	NA	NA
BMS010_02797	810	ephD_2	COG1028	putative oxidoreductase EphD	ATGCAAAACCGCATGATGATTACCGGCGCCGGTTCCGGCCTCGGTCGCGAGATCGCCCTGCGCTGGGCGCGTGAAGGCTGGTGGCTGGCTCTGTCCGACGTCAACGACGCCGGCCTGCAGGAAACCCTGCGACTGGTCCGCGAAGCCGGCGGCGACGGGTTCACCCGCCGTTGCGACGTGCGCGACTACAGCCAGCTCACCGCCCTGGCCCAGGCCTGCGACGAGCAGTTCGGCGGCATCGACGTCATCGTCAACAACGCCGGTGTGGCCTCCGGCGGCTTCTTCAGCGAGCTGTCGCTGGAAGACTGGGACTGGCAGATCGCGATTAACCTGATGGGCGTGGTCAAGGGCTGCAAGGCCTTCCTGCCGCTGCTGGAGCGCAGCCGTGGCCGGGTTATCAACATCGCCTCCATGGCCGCGTTGATGCAGGGCCCGGCGATGAGCAACTACAACGTGGCCAAGGCCGGGGTGGTGGCGCTGTCGGAAAGCCTGCTGGCGGAGCTGCGCCAGCAGGAGATCGGTGTCCATGTGGTCTGCCCTTCGTTCTTCCAGACCAACCTGCTGGACTCCTTTCGCGGCCCGACGCCGGAAATGAAGGCCCAGGTCGGCAAGCTGCTGGAGAGTTCGCCGATCAGTGCCGCGGATATCGCCGACTATATCTACCGCGAGGTGGAGAAGGGCGAGTTCATGATCCTGCCCCACGAAATGGGCCGCATGGCCTGGCAGCTCAAGCGGCAGAATCCGCAGGCGCTCTATGACGAGATGGCCAGCATGGCGGCCAAGATGCGCGCCAAGGCTCGCCAGGGCTGA	MQNRMMITGAGSGLGREIALRWAREGWWLALSDVNDAGLQETLRLVREAGGDGFTRRCDVRDYSQLTALAQACDEQFGGIDVIVNNAGVASGGFFSELSLEDWDWQIAINLMGVVKGCKAFLPLLERSRGRVINIASMAALMQGPAMSNYNVAKAGVVALSESLLAELRQQEIGVHVVCPSFFQTNLLDSFRGPTPEMKAQVGKLLESSPISAADIADYIYREVEKGEFMILPHEMGRMAWQLKRQNPQALYDEMASMAAKMRAKARQG				NA	NA	NA	NA	NA
BMS010_02798	369			hypothetical protein	ATGGTCTACCGGCTGGCCGCCGATGCGCTGGTTCTGCTGCATCTGGTCTTCATTCTCTTCGTTCTGCTCGGCGGGTTGCTGGTGCTGAAGTGGCACTGGCTGGCCTGGCTGCACCTGCCGGCGGCCGCCTGGGGCGCGGCCGTCGAACTGTTCCACCTGTACTGCCCGCTGACTCCCTGGGAAAACGCCTTGCGGCGCGCGGCCGGCGAGCAGGGTTACGACGGCGGTTTCATCGAGCATTACCTGATCCCGCTGATCTACCCGAGCGGGCTGACCCCGCAGATGCAACTCTGGCTGGGCGGGGTGGTGTTGTTGGTCAACGGGCTGGTCTATGGGACTCTCCTGTTGTGTCGGATCAACCCTCGCTAG	MVYRLAADALVLLHLVFILFVLLGGLLVLKWHWLAWLHLPAAAWGAAVELFHLYCPLTPWENALRRAAGEQGYDGGFIEHYLIPLIYPSGLTPQMQLWLGGVVLLVNGLVYGTLLLCRINPR				NA	NA	NA	NA	NA
BMS010_02799	159			hypothetical protein	ATGACGCTCACCACTCTTCTGATCGTGATCCTGTTGATCCTGCTGATTGGCGGCCTGCCGGTCTTTCCCCACTCGAGCACCTGGGGCTATGGCCCATCCGGTGCCATCGGCGTTCTGCTGGTCGTGGTGGTGGTGCTGTTACTGCTCGGTGTCATCTGA	MTLTTLLIVILLILLIGGLPVFPHSSTWGYGPSGAIGVLLVVVVVLLLLGVI				NA	NA	NA	NA	NA
BMS010_02800	330			hypothetical protein	ATGAAAATCAGCGACATTCCCTTCGGCGTCACCGACTGGTCCAGCGTCGAGCGCAGCGAACATCCCGGCGAAACCGGCACGGCCTACTGGCGCACCTGCCGGTTTGGCGAGCTGCGGGTACGCATGGTGGAATACACGCCGGGTTATCTGGCGGATCACTGGTGTGAGAAAGGCCACATCCTGCTGTGCCTGGAAGGTGAGCTGCATACTGAACTGGCGGACGGACGCCATTTCGTCCTCCAGCCCGGCATGAGCTATCAGGTGGCCGACCACGCGGAGGCGCACCGTTCCTCTACACCCATCGGGGCGAAGCTGTTCGTGGTCGACTGA	MKISDIPFGVTDWSSVERSEHPGETGTAYWRTCRFGELRVRMVEYTPGYLADHWCEKGHILLCLEGELHTELADGRHFVLQPGMSYQVADHAEAHRSSTPIGAKLFVVD				NA	NA	NA	NA	NA
BMS010_02801	852			hypothetical protein	ATGAGTATTCGACGTTTGATGGGAGTGGGGGCGGGTCTGCTGCTCGCACTCGGGGCCGGCATGGCGGGCGCCGCCGAGAAGGCAACCCTGAAGATCGGCTATGTGGACGGCTGGTCGGACAGCGTGGCGACCACCCATGTGGCGGCCGAGGTGATCAAGCAGAAGCTGGGCTACGACGTCCAGTTGATGCCTGTCGCTACCGGCATCATGTGGCAGGGCGTGGCCAAGGGACAACTCGACGCCATGCTGTCCGCCTGGCTGCCGGTGACCCACGGTTCGTACTACGAAAAGCTCAAGGACGAAGTAGTCAACCTGGGACCCAACTTCAACGACGCCAAGATCGGCCTGATCGTGCCGGAGTACGTCACCGCGAAGAGCATCGGCGACCTGCAGGCACAGAAGGATGCCTTCCGTGGGCGCATCGTCGGCATCGACGCCGGCTCCGGCGTGATGCTGAAGACCGACCAGGCAATCAAGGACTACGGCCTGGACTATAAGCTGCAGGCCAGCTCCGGCAGCGCAATGACCGCCGAGTTGGCGCGCTCGATCAATGCCAACAAGCCCGTGGCCGTGACCGGCTGGATTCCGCACTGGATGTTCGCCAAGTGGAAGCTGCGCTTCCTGGAAGACCCGAAAGGTGTCTACGGCGATGCCGAGCATGTGGACAACATCGTCAACCCGGGCCTGGAGAAAAAGGCACCGCAGGTGGTCGCCTTCCTGAAGAAATTCTCCTGGAAGCCGGACGAGATCGGCCAGGTGATGCTGGCTATCGAAGAAGGCGCCAAGCCTGCCGCCGCCGCCCAGAAGTGGGTCAGCGAGAACCCGCAACGGGTCCAGGAATGGCTGCAATGA	MSIRRLMGVGAGLLLALGAGMAGAAEKATLKIGYVDGWSDSVATTHVAAEVIKQKLGYDVQLMPVATGIMWQGVAKGQLDAMLSAWLPVTHGSYYEKLKDEVVNLGPNFNDAKIGLIVPEYVTAKSIGDLQAQKDAFRGRIVGIDAGSGVMLKTDQAIKDYGLDYKLQASSGSAMTAELARSINANKPVAVTGWIPHWMFAKWKLRFLEDPKGVYGDAEHVDNIVNPGLEKKAPQVVAFLKKFSWKPDEIGQVMLAIEEGAKPAAAAQKWVSENPQRVQEWLQ	PGPT0013640_3740	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013640-gbuC|proX-K02002	NA	NA
BMS010_02802	231			hypothetical protein	ATGCTCAAGACCGTAACCTTTACCGTGATGCATTTCTGTATCGCTTTCAGCGTAGCCTACGTTCTGACCGGCAGCGTGACCGTGGGGGGCCTGGTGGCGGCGGTGGAACCGTTGTGCAACTCGGTGGGGTTCTACTTCCACGAAAAAATCTGGTCGAAGCTGGAGTCGAAAAAGAAAGACGCGGCATCGGCATCGATTCCCAGACATGCCTGGCTGCACCACCACGCCTGA	MLKTVTFTVMHFCIAFSVAYVLTGSVTVGGLVAAVEPLCNSVGFYFHEKIWSKLESKKKDAASASIPRHAWLHHHA				NA	NA	NA	NA	NA
BMS010_02803	1614			hypothetical protein	ATGTCTTCCCGTAACCGACTGCTGCTACCGACCTACCTGCTCTCGACCCTCCTCGCCCTGCTGGCGCTGGCCGCCTTCTGGTACTGGCAGGGTCGGCCCATACCTCTGCCCGATGCCGCGACGCCGACGCACAAGCTGCAGTGCGTGTCCTATAGCCCGTTCGACAAGGACCAGTCGCCCTTCGACAAACCCTTCGTCCTGCGCCCCGAGCGGATGGACGCCGACCTCGCCCTGCTCGCCACCCGCTTCAATTGCGTGCGCACCTACTCCATGTTCGGTCTCGAAGGGATTCCCGCCCTCGCCCGCAAGCACGGCCTGAAGTTGATGCTCGGGGCCTGGGTCAACGCCGACCCGGTGGAGACCGAGATGGAGATCAAGGCGCTGATCGAAGCGGCCAAGGCCAACCCCGATATCGTCACGGCCCTGATCGTCGGCAACGAGACCCTGTTGCGCAAGGAAGTCACCGGCGCCCGGCTGGCCAGCCTGATCGAGCGGGTGAAACGCGAGACTACACAGCCGGTGACCTACGCCGATGTCTGGGAATTCTGGCTCAAGCATCCCGAGGTGGCGCCGGCGGTGGACTTCCTGACCATCCACCTGCTGCCCTATTGGGAAGACGATCCGACCGGGATCGACAAGGCGCTGGGCCATGTCGCGGATATCCGCCGGGTGTTCGGCAACCGCTTCGCGCCGAAGGACATCCTGATCGGCGAGACCGGCTGGCCGAGCGAGGGTCGCCAGCGCGAAACCGCCGTGCCGAGCCGGGTCAACCAGGCCAAGTTCATCCGCGGCTTCGTCGCCATGGCCGAAGAGAACGGCTGGCGCTACAACCTGATCGAAGCCTTCGACCAACCCTGGAAACGCGCCAGCGAAGGCGCGGTGGGCGGTTACTGGGGGCTGTTCGACGCCGACCGCCAGGACAAGACGATCCTCGCCGGCCCGGTCTCCAACCTGCCGCACTGGCCCCTCTGGCTGGGCGCCGGCGTGGTCCTGACGCTCGCTACCCTGCTGCTCGCCGGCCGCCCCGTTTCGCTGGCCTCCGCCTGCCTGCTGCCGCCGCTCGCGGCCCTGGGAGCGGGCTGCATCGGTCAATGGGCCGAGCTGGCGCGGGTCACCAGCCGCTTCCCCGGCGAATGGCTGTGGGCCGCGCTGCTGGTGGGCCTGAACCTGCTGGTATTGATGCACGCGGCACTCGCGTTGTCGGCCCGCGGTAATGGCCGGGAACGCCTGTTCGGCTGGCTGGAACGGCGCGGCGGCTGGTGGCTGGTCGCCAGTGGCTTCGCCGGCGCGGTGATGATGCTGGCGCTGGTCTTCGATGCCCGTTACCGCAGCTTCCCCAGCGCGGCCCTGCTGTTGCCGGCGCTGGTCTACCTGTGCCGGCCAGTGTCCGGTCCGCGTCGGGAAATCGCCCTGCTGGCGGTGCTGATCGCTGCCGGGCTGGTGCCGCAGCTGTACCAGGAGAAGCTGGTCAACCTCCAGGCCCTCGGTTGGGCGCTGGTCAGCGCCTTGCTGGTCGCCGCGCTCTGGCGCAGCCTGCGTGCGGAGCGAGCTCTAAACCGAGAGACGGCCCTTGCCGCGAGCGAGCCGGCAGCGTCCGTCCCGGCACAGAGCTGA	MSSRNRLLLPTYLLSTLLALLALAAFWYWQGRPIPLPDAATPTHKLQCVSYSPFDKDQSPFDKPFVLRPERMDADLALLATRFNCVRTYSMFGLEGIPALARKHGLKLMLGAWVNADPVETEMEIKALIEAAKANPDIVTALIVGNETLLRKEVTGARLASLIERVKRETTQPVTYADVWEFWLKHPEVAPAVDFLTIHLLPYWEDDPTGIDKALGHVADIRRVFGNRFAPKDILIGETGWPSEGRQRETAVPSRVNQAKFIRGFVAMAEENGWRYNLIEAFDQPWKRASEGAVGGYWGLFDADRQDKTILAGPVSNLPHWPLWLGAGVVLTLATLLLAGRPVSLASACLLPPLAALGAGCIGQWAELARVTSRFPGEWLWAALLVGLNLLVLMHAALALSARGNGRERLFGWLERRGGWWLVASGFAGAVMMLALVFDARYRSFPSAALLLPALVYLCRPVSGPRREIALLAVLIAAGLVPQLYQEKLVNLQALGWALVSALLVAALWRSLRAERALNRETALAASEPAASVPAQS				NA	NA	NA	NA	NA
BMS010_02804	375			hypothetical protein	ATGTCTCGCCGTGCGTCCCTGATCCTCCTGCTGATTTTTCTGCCTCTCTGGCTGGCCGCCAGCTATGGCCTGCGTTTCGCGCTGATGGAGGACGACCGCTGGGTCGGGCTCTGCGTGGAAGAGGCCGCCCGCTGGGAGTGCCAGTTGCGCGCCGGCATCGGGCTGCTGATCCATTTCAAGGTGATCGCCCTGGCGGCGCTGGGGACGGCGGCGCTGGCGTTCTTCCTGCCCGGTCGGGCGGGGCGTGGGCTGGCGGTGCTTGGGTTGGTCTTCGGCCTGCCGGCGCTGGTGTTGTATAGCGCCAGTCTTGCCGTCTTCGCGGTGGTGATCGCCGCCCTGCGCCTGGTGCGGGGTAGCGGGCCGGCAACTGCTTGA	MSRRASLILLLIFLPLWLAASYGLRFALMEDDRWVGLCVEEAARWECQLRAGIGLLIHFKVIALAALGTAALAFFLPGRAGRGLAVLGLVFGLPALVLYSASLAVFAVVIAALRLVRGSGPATA				NA	NA	NA	NA	NA
BMS010_02805	1299			hypothetical protein	ATGCCCCGCCTCGCCCGTTTTGCCGCACTCCTGGGCGGCCTCATCCTCAGTGCGCCGCTGTTGGCGCAGGATATCGACCCCGCCGGGTATGGCTATCCGCTGGAAAACCCCTTCGAAGCGACCATCGCCACCACGCCGCCGGAACTGCGCCCACCGCTGCCAACGGACGACGACATCGACCAGTCCGACTACAGCCTCAAACTGCGCCCGGAGCGCGAATTCGAGCTGCCGAGCAACTTCTGGCCAGTGAAGACACTCCGCTATCGCCTGGCCCAGCAGGACAAGCCCGCGCCGCTGATCTTCATCATTGCCGGTACCGGCGCGCACTATTCCAGCAGCACCATGGAATTCCTCAAGAAGTTGTTCTATGGCGCCGGCTTCCACGTGGTGCAACTGTCCTCGCCGAGCAGTTGGGACTTCATGGCCGCGGCCTCGCGCTTCGCCACGCCAGGGCTGTCGACGGACGACGCCGACGATCTCTACCGGGTCATGCAGGCGGTGCGCGCCCAGCATCCGAAGCTGCCGATCACCGAGTTCTACCTCACCGGCTATAGCCTGGGCGGCTTGCACGCCGCCTTCGTCAGCCAGCTCGACGAAACCCGCCGCAGCTTCAATTTCAAGCGCGTGCTGCTGCTCAACCCGCCGGTGAACCTCTATACCTCGGTGACCAACCTCGACCGCTTGGTGCAGACCCGCGTCAAAGGCATCGACGACGACAACACCTTCTACGAGGTCGTCCTCGCCAAGCTCACCCGCTACTTCCAGCAGCGCGGCTACATCGACCTCAACGACGCCCTGCTCTACGACTTCCAACAGTCCCGCCAGCGCCTGTCGAACGAAGAAATGGCCATGCTGATCGGCACCTCGTTCCGATTCTCCTCGGCCGACATCGCCTTCACCTCGGACCTGATCAACCGACGCGGCCTGATCACCCCGACCAAGTACCCGATCGACGAGGGCACCGATCTCTCGCCGTTCTTCAAGCGCGCCCTGCAATGCGACTTCGACTGCTACATCACCGAGCAACTGATCCCGATGTGGCGTGCCCGCTACGACGGCGGCAGCCTCACCCAGATGGTCAACCAGGTCAGCCTCTATGCCCTCGAGGAGTATCTGAAGACCAGCGACAAGATCGCCGTCATGCACAACGCCGACGACGTGATCCTCGGCCCCGGCGACCTCGGCTTCCTCCGCCGCACCCTGGGCGACCGGCTGACCCTGTATCCGCTGGGCGGGCATTGCGGCAACCTCAACTACCACGTCAACACCAAGGCCATGCTGGAGTATTTCCGTGGTTAG	MPRLARFAALLGGLILSAPLLAQDIDPAGYGYPLENPFEATIATTPPELRPPLPTDDDIDQSDYSLKLRPEREFELPSNFWPVKTLRYRLAQQDKPAPLIFIIAGTGAHYSSSTMEFLKKLFYGAGFHVVQLSSPSSWDFMAAASRFATPGLSTDDADDLYRVMQAVRAQHPKLPITEFYLTGYSLGGLHAAFVSQLDETRRSFNFKRVLLLNPPVNLYTSVTNLDRLVQTRVKGIDDDNTFYEVVLAKLTRYFQQRGYIDLNDALLYDFQQSRQRLSNEEMAMLIGTSFRFSSADIAFTSDLINRRGLITPTKYPIDEGTDLSPFFKRALQCDFDCYITEQLIPMWRARYDGGSLTQMVNQVSLYALEEYLKTSDKIAVMHNADDVILGPGDLGFLRRTLGDRLTLYPLGGHCGNLNYHVNTKAMLEYFRG				NA	NA	NA	NA	NA
BMS010_02806	768			hypothetical protein	GTGGTTAGACACTGCCGCTTCCTCGCCTTCGCCCTGCTGTTCGGCCATGGCCTGGTCATGGCCGAAACCGATGAGGACGGCTTCAAGCGTCCCCTCGACCAGTTGAAGATCAATCCGGCACTGGACCAACGTGAGTTCGAACGCGCCACGCTGCAGGCGCTGAACGTCTACGACCCCTGGGATTCGTGGAACCGCCGCGTGTACCACTTCAACTACCGTTTCGACGAGTGGGTATTCCTGCCAGTGATACGCGGTTACGAGTATGTCACCCCGCGCTTCGTGCGCAGCGGCGTAAGCAACTTCTTCGGCAACCTGGGCGACGTGCCCAACCTGCTCAACAGCCTGCTGCAGTTCAAGGGCAAGCGGGCCATGCAGACCACCGGACGCCTGCTGATCAATACCACCATCGGCGTGGCCGGCCTGTGGGACCCGGCGACCCGCATGGGTCTGCCCAAGCAGCGCGAGGACTTCGGCCAGACCCTCGGTTTCTATGGCGTGCCGGACGGCCCCTACCTGGTGCTGCCGATCCTCGGTCCGTCCAACCTGCGCGACACCGGCGGTCTGGTGGTGGACTTCACCGCCGAGAGCCAGATCAACTTCCTGAACGTTTCCGAGGTCAGCAGCGATCGCCCGGAGATTCTTGGCCTGCGCGTGATCGACCAGCGCTACACCACCAACTTCCGCTACGGCCAGGTGAACTCGCCGTTCGAATATGAAAAGGTGCGCTACGTCTACACCCGCGCCCGCGAGTTGCAGATCGCCGAATGA	MVRHCRFLAFALLFGHGLVMAETDEDGFKRPLDQLKINPALDQREFERATLQALNVYDPWDSWNRRVYHFNYRFDEWVFLPVIRGYEYVTPRFVRSGVSNFFGNLGDVPNLLNSLLQFKGKRAMQTTGRLLINTTIGVAGLWDPATRMGLPKQREDFGQTLGFYGVPDGPYLVLPILGPSNLRDTGGLVVDFTAESQINFLNVSEVSSDRPEILGLRVIDQRYTTNFRYGQVNSPFEYEKVRYVYTRARELQIAE	PGPT0024485_1289	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024485-mlaA|vacJ-K04754	NA	NA
BMS010_02807	444	hmrR_3		HTH-type transcriptional regulator HmrR	ATGCGCGTAACCCAACTGGCCAAGGCCGCCGGCGTCAGCGGCGAGACCGTCCGCCATTACACCGATCTCGGCCTGCTGCGGCCGACCCGCAACCCGCTCAACGGTTACCAGGAATACGCCGGCGAAGACCTGCACCGGCTGCGCTTCATCGCCAGGGCCCGACGCCTCGGCTTCAGCCTGAAGGACGTACAAGCCATCCTCGCCCGCGCCGACAGTGGCACCGCGCCCTGCGGCGAGGTCCGCGACCTGCTGAGCGAGCGCCTCGATGCCCTCGAAGCCCATATCGCCGAATGCCAGCGCCTGGCCCAGGTCATGCGCGAGGCACTGACCCAATGGGAAGGCAAACCCGAGTGCGCCCCGGACGGCCAGGCCATCTGCCGGCTGATCGAGGATTTCGACCTACCGGGCGAAACCCGCTCGCCGACGCCCTGCCCGGCGCATTGA	MRVTQLAKAAGVSGETVRHYTDLGLLRPTRNPLNGYQEYAGEDLHRLRFIARARRLGFSLKDVQAILARADSGTAPCGEVRDLLSERLDALEAHIAECQRLAQVMREALTQWEGKPECAPDGQAICRLIEDFDLPGETRSPTPCPAH	PGPT0004215_160	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZNT_TRANSPORT_SYSTEM,PGPT0004215-zntR-K13638	NA	NA
BMS010_02808	855			hypothetical protein	ATGAGCCTGTTCCGTACCCTGCAATCCGTGCACCTCGGCCACCCCGCTTCCGATGGTGCCGGGGTGCGCCTGACCCGAGTCTTCGGTGGCAACGGCGTCGAGCGCTTCGATCCTTTCCTCATGCTCGACGAGTTCGGTTCGGAGAACCCCGACGATTACATCGCCGGCTTCCCGCCGCACCCGCACCGGGGCTTCGAAACCATCACCTACATGCTCGAGGGGCGCATGCGTCACGAAGACCACCTGGGCAATGTCGGCCGGCTGGAAAGCGGTGGCGTGCAATGGATGACCGCCGCGCGCGGCATCATCCACAGCGAGATGCCCGAGCAGGAGCAAGGTGTGATGCGTGGCTTCCAGCTCTGGCTGAACCTGCCGGGCAAGGACAAGCTGGGCGAGCCAGGCTACCGTGACTTCGCGCCCGACGAGATCCCATCCGTGCGAACCGCCGCTGGCGTCGAGGCTCGGGTGATCGCCGGCCGCTTCGAAGAAGGCGAGCTGAGCCAGGCCGGCGCCGTGCAACGTCCCCACAGCGAACCCTACCTGTTCGACCTGCACCTGCCGGCCGGCAGCCAGGTCGCCCCTCGCCTGCCGGATGGGCACCGGGTCATGCTCTACGTCTATGAGGGAGAGGTGCAGCTCGACGGCGATGCGTCAAAGGCGCTTTCGACCCGCCAACTGGCCCGCCTGTCCGAACAGGGCGAACTGCGCCTGAGCAGCGCAGCCGGCGCCCGCGTATTGCTGATTGCCGGCAAGCCGCTGGGCGAACCCATCGTCCAGTACGGCCCCTTCGTCATGAACAGCCGCGAGGAAATCGAACAGGCCTTGCGGGATTACCGGGACGGTACGTTGGCGTAG	MSLFRTLQSVHLGHPASDGAGVRLTRVFGGNGVERFDPFLMLDEFGSENPDDYIAGFPPHPHRGFETITYMLEGRMRHEDHLGNVGRLESGGVQWMTAARGIIHSEMPEQEQGVMRGFQLWLNLPGKDKLGEPGYRDFAPDEIPSVRTAAGVEARVIAGRFEEGELSQAGAVQRPHSEPYLFDLHLPAGSQVAPRLPDGHRVMLYVYEGEVQLDGDASKALSTRQLARLSEQGELRLSSAAGARVLLIAGKPLGEPIVQYGPFVMNSREEIEQALRDYRDGTLA	PGPT0019980_3396	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_FLAVONOID_UTILIZATION	PLANT_DERIVED_QUERCETIN_DEGRADATION,PGPT0019980-yhhW|pirA-K06911	NA	NA
BMS010_02809	1203			hypothetical protein	ATGAGTGCAGTCGACGAATCCGCCAAATCCGTTACCGGGCTGATCCTTTCCGGTGGTGGATCGCGGGCTGCCTATCAGGTGGGGGTGTTGTCGGCCATTGCCGACCTGCTGCCGGACGCCGCGCATAATCCGTTCCCGGTGATCGTCGGCACCTCGGCCGGTGCCATCAATGCGGTGGGGCTGGCCTGCGGGGCCTTGCACTTCACCGAGGCGATCCGTCGGCTGACCGCCGTCTGGCAGGGCTTCCGCACCCATCAGGTATACCGCAGCGACTGGCCCGGCGTGCTGCGCCAGGCCAGCCGGTTCATTGGCCATAGTCTGCTCGGCCTGGGTTCGCAGGTGCCGGTGGCGCTGCTGAACAACGCCCCGCTGCGCGACCTGCTGGAGCGGGAGATCGATTTCAGCGGCATCGCTGCGGCCGTGGCGCGTCGTCAGTTGCGTGCGGTGGCGGTGACGGCGTTCGGTTACGAGTCGGGCCAGGCGGTGACCTTCTACCAAGGGCGGGCGACCATCGATCCCTGGTTCCGTCATCGCCGGGTCGGGGTGCCGACCCGGCTGACGGCGGAACACCTGATGGCCAGCTCGGCGATCCCGCTGCTGTTTCCGCCGGTGAAGCTAAACCGCGAGTATTTCGGCGACGGTGCGGTGCGCCAGTCGGCGCCGATCAGCCCGGCCCTGCATCTCGGGGCCAACCGGGTGCTGGTGGTGGGCGTCAGCGGCAATCCGCTGGGGCGGGACGCCAACAGCGTGCTGCCGCGCCCACAGAGTGGCCGGCCGCCGACCCTGGCGCAGATCGGCGGGCATATGCTCAACAGCACCTTCATCGACAGTCTGGAAGGCGACATCGAACTGCTCGAACGGCTCAACCACATGAGCCGGCTGGTGCCGAGCGGGCTGCATCCGCGGGGGCTGGGGTTGAAGCCGGTCGAGGTGCTGGTGATTTCGCCGAGCCAGCCGCTGGACCAGATTGCCGCCCGCCACCATCACGAGCTGCCCCGCGCCCTGCGCCTGTTCCTGCGTGGCCCCGGCGCAACCAAGGCCAGCGGCGCCAGTGTGCTCAGCTACCTGCTGTTCGAGTCGGGTTACTGCAACGAGTTGATCGAGTTGGGTTACCAGGACGCGATGAGCCAGAAGGAGGCGTTGATCGGCTTCCTCGGCCTGGCACGGGTTCCGCCGCCCGTCGAGGTCGCCTTGGGCGAATGA	MSAVDESAKSVTGLILSGGGSRAAYQVGVLSAIADLLPDAAHNPFPVIVGTSAGAINAVGLACGALHFTEAIRRLTAVWQGFRTHQVYRSDWPGVLRQASRFIGHSLLGLGSQVPVALLNNAPLRDLLEREIDFSGIAAAVARRQLRAVAVTAFGYESGQAVTFYQGRATIDPWFRHRRVGVPTRLTAEHLMASSAIPLLFPPVKLNREYFGDGAVRQSAPISPALHLGANRVLVVGVSGNPLGRDANSVLPRPQSGRPPTLAQIGGHMLNSTFIDSLEGDIELLERLNHMSRLVPSGLHPRGLGLKPVEVLVISPSQPLDQIAARHHHELPRALRLFLRGPGATKASGASVLSYLLFESGYCNELIELGYQDAMSQKEALIGFLGLARVPPPVEVALGE				NA	NA	NA	NA	NA
BMS010_02810	936	lpxL	COG1560	Lipid A biosynthesis lauroyltransferase	ATGGATCGTCCTTCTTTCCGCGCTTCGTTCCTCCATCCGCGCTTCTGGCCACTGTGGATCGGCCTCGGGCTGCTCTGGCTGGTGTCGCAGTTGCCCTACCGGGTACTGCTCCTGCTCGGACGCTTGCTCGGCGCGCTGATGTACCGGGTGGCCGGTTCGCGGCGGCGGATCGCGGCGAAGAATCTGGAACTCTGCTTCCCGGAAAAGGCTCCGGCGGAGCGTGAGCGCCTGCTGCGGGAAAACTTCGCCTCCACCGGCATCGCCTTCTTCGAAATGGCCATGAGCTGGTGGTGGCCGCAGGCGCGTCTGGCGCGGTTGGCCCATGTCGAGGGGCTGGAGCATCTGAAGCAGGCCCAGGCCGAAGGGCAGGGGGTGATCCTCATGTCCCTGCACTTCACTACCCTGGAGATCGGCGCCGCGCTGCTCGGCCAACGGCATACCATCGACGGCATGTACCGCGAGCACAAGAATCCGGTATTCGATTTCATCCAGCGGCGCGGCCGCGAGCGGCACAACCCGGATGCGACCGCCATCGAGCGCGAGGACGTACGCGCCATGCTCAAGGTGCTGCGTGCCGGACGTGCCATCTGGTATGCGCCCGACCAGGACTACGGCGCCAAGCAGAGCCTGTTCGTCCCGCTGTTCGGCATTCCCGCCGCCACCGTGACCGCCACCACCAAGTTCGCCCGCCTGGGCAAGGCCCGTGTCGTGCCGTTCACCCAGGCGCGGCTGGCCGACGGTTCCGGCTACCGGCTGGTGGTCCATCCGCCCCTGGCCGATTTCCCCGGCGAGAGCGAAGAAGCCGATTGCCTGCGCATCAACCAGTGGATCGAAACAGTGTTGCGCGAGCAGCCGGAGCAGTATCTGTGGGCGCACCGGCGCTTCAAGACGCGGCCGCCGGGCGAGCCGAAGCTGTATGACAAGCGCGACCGCTAG	MDRPSFRASFLHPRFWPLWIGLGLLWLVSQLPYRVLLLLGRLLGALMYRVAGSRRRIAAKNLELCFPEKAPAERERLLRENFASTGIAFFEMAMSWWWPQARLARLAHVEGLEHLKQAQAEGQGVILMSLHFTTLEIGAALLGQRHTIDGMYREHKNPVFDFIQRRGRERHNPDATAIEREDVRAMLKVLRAGRAIWYAPDQDYGAKQSLFVPLFGIPAATVTATTKFARLGKARVVPFTQARLADGSGYRLVVHPPLADFPGESEEADCLRINQWIETVLREQPEQYLWAHRRFKTRPPGEPKLYDKRDR	PGPT0013315_1022	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0013315-lpxL|htrB-K02517	NA	NA
BMS010_02811	744	minC_1	COG0850	Septum site-determining protein MinC	ATGAGCCAAGCCGATCTCCTCGACCAAGACCCCGTCTTCCAGCTCAAAGGCAGCATGCTGGCCATCACCGTGATGGAGCTGGCGCACAACGACCTCGAGCGCCTCGACCGGCAACTCACCGCCAAGGTCGCCCAGGCCCCCAACTTCTTCCAGAACACCCCGCTGGTGCTGGCGCTGGACAAGCTGCCGCAGGGTGAAGGCGCCCTCGAACTGCCGGCCCTGATGGACGTCTGCCGCCGTCACGGCCTGCGCACCCTGGCGGTGCGCGCCAGCCGCGAGGAAGACATCGCCGCCGCCAACGCTCTCGACCTGCCGGTACTGCCGCCCTCCGGCGCCCGCGAAAAGCCCCTCGACCCGCTCGAAGGCGCTCCCAGGAAGCCGGAAAAACCGGAAAAACCCGCCGAACCCGAATTCCGCCCGAGCAAGGTGATCACCACCCCGATCCGCGGCGGCCAGCAGGTCTATGCTCAGGGCGGCGACCTGATCGTCCTGGCGCCGGTAAGCGCCGGTGCGGAACTTCTCGCCGATGGCAACATCCATGTCTACGCGCCGATGAGGGGACGCGCCCTGGCAGGCATCAAGGGCAATGCCCAGGCCCGGATCTTCTGCCAGCAGCTCGCCGCCGAACTGGTCTCCGTGGCCGGCCAGTACAAGGTCGCCGAGGACCTCAGACGCGACCCGCTGTGGGGCAGAGCGGTACAGGTCAGCCTGTCGGGAGACGTGTTGAACATCACCCGTCTTTAA	MSQADLLDQDPVFQLKGSMLAITVMELAHNDLERLDRQLTAKVAQAPNFFQNTPLVLALDKLPQGEGALELPALMDVCRRHGLRTLAVRASREEDIAAANALDLPVLPPSGAREKPLDPLEGAPRKPEKPEKPAEPEFRPSKVITTPIRGGQQVYAQGGDLIVLAPVSAGAELLADGNIHVYAPMRGRALAGIKGNAQARIFCQQLAAELVSVAGQYKVAEDLRRDPLWGRAVQVSLSGDVLNITRL				NA	NA	NA	NA	NA
BMS010_02812	816	minD_1	COG2894	Septum site-determining protein MinD	TTGGCCAAGATCCTCGTAGTCACTTCCGGCAAGGGTGGCGTCGGTAAAACCACCACCAGCGCTGCCATCGGTACCGGCCTCGCCCTGCGTGGGCACAAGACCGTCATCGTCGACTTCGACGTCGGCCTGCGTAACCTCGACCTGATCATGGGCTGCGAGCGCCGCGTGGTGTATGACTTCGTCAACGTGATCAACGGCGAAGCCACCCTCACCCAGGCCCTGATCAAGGACAAGCGCCTCGAGAACCTGTACGTACTGGCCGCCAGCCAGACACGCGACAAGGACGCGCTGACCCAGGAAGGCGTCGAGAAAGTCATCAACGAACTGCGGGAAAACTTCGAATACGTGGTCTGCGACTCGCCGGCCGGTATCGAAAAAGGCGCCCACCTGGCCATGTACTTCGCCGACGAGGCGATCGTCGTGACCAACCCGGAAGTCTCCTCCGTGCGCGACTCCGACCGCATGCTCGGCCTGCTGGCCAGCAAGTCGCGCCGCGCCGAGAAAGGCGAAGAACCGATCAAGGAACACCTGCTGCTCACCCGCTACCACCCCGAGCGGGTAACCAAGGGCGAAATGCTCGGCGTGGAAGACGTCGAAGAAATCCTCGCCATCCGCCTGCTCGGCGTGATCCCGGAATCCCAGGCCGTGCTCAAGGCCTCCAACCAGGGTATCCCGGTGATCCTCGACGAACAGAGCGACGCCGGCCAGGCGTACAGCGACGCGGTCGACCGACTGCTCGGCAAGGAAAAGCCGCATCGCTTCCTCGACGTACAGAAGAAAGGACTCTTGCAACGGCTGTTTGGAGGACGTGAATGA	MAKILVVTSGKGGVGKTTTSAAIGTGLALRGHKTVIVDFDVGLRNLDLIMGCERRVVYDFVNVINGEATLTQALIKDKRLENLYVLAASQTRDKDALTQEGVEKVINELRENFEYVVCDSPAGIEKGAHLAMYFADEAIVVTNPEVSSVRDSDRMLGLLASKSRRAEKGEEPIKEHLLLTRYHPERVTKGEMLGVEDVEEILAIRLLGVIPESQAVLKASNQGIPVILDEQSDAGQAYSDAVDRLLGKEKPHRFLDVQKKGLLQRLFGGRE				NA	NA	NA	NA	NA
BMS010_02813	255	minE_1	COG0851	Cell division topological specificity factor	ATGAACATTTTCGACTTCTTTCGTGAGCGCAAGAAGGAATCCACGGCGTCCATCGCGAAAGAGCGTCTGCAGATCATCGTCGCCCACGAGCGCGGCCAGCGCAGCCAGCCGGATTACCTGCCCGCCTTGCAGAAGGAACTGGTCGAGGTCATCCGCAAGTACGTCAACATCAACCAGCAGGATGTGCACGTCGCCCTGGAAAACCAGGGAAGCTGCTCGATCCTCGAACTCAACATCACCCTGCCGGATCGCTGA	MNIFDFFRERKKESTASIAKERLQIIVAHERGQRSQPDYLPALQKELVEVIRKYVNINQQDVHVALENQGSCSILELNITLPDR				NA	NA	NA	NA	NA
BMS010_02814	636	rluA_2	COG0564	Dual-specificity RNA pseudouridine synthase RluA	ATGCCGCTGTCGAACATCCAGATCCTCCACCAGGACGCCGCGCTCCTGGTGATCAACAAACCGACCCTGCTGCTCTCTGTCCCCGGCCGCGCCGAAGACAACCGCGACTGCCTGGTGACCCGCCTGCAGGAAAACGGCTACCCGGAAGCATGCATTGTCCACCGCCTGGACTGGGAAACCTCCGGCCTCATCGTCCTCGCCCGCGATGCCGACAGCCACCGCGAACTGTCGCGCCAGTTCCACGACCGCGAGACCGAAAAGGCCTACACCGCCCTCTGCTGGGGCGAGCCCGCACTGGACAGCGGACGCATCGAACTACCGCTGCGCTACGACCCGCCGACCAAGCCACGCCACGTGGTCGACCACGAACTGGGTCGCCATGCCCTCACCTTCTGGCGCGTACTGGAACGCTGCGGCCACTACAGCCGCGTCGAACTCACCCCCATCACCGGCCGCTCCCACCAGTTGCGCGTACACATGCTCGCCATCGGCCACCCCCTGCTGGGCGACCGCCTCTACGCCCACGAACAGGCCCTGGCCGCCCATGACCGCCTCTGCCTGCACGCCAGCCTGCTCGCCTTCACCCACCCGCAGAGCGGCGAGCGTTTGCGCTTCGAGTGCCCGGCGCCGTTTTGA	MPLSNIQILHQDAALLVINKPTLLLSVPGRAEDNRDCLVTRLQENGYPEACIVHRLDWETSGLIVLARDADSHRELSRQFHDRETEKAYTALCWGEPALDSGRIELPLRYDPPTKPRHVVDHELGRHALTFWRVLERCGHYSRVELTPITGRSHQLRVHMLAIGHPLLGDRLYAHEQALAAHDRLCLHASLLAFTHPQSGERLRFECPAPF				NA	NA	NA	NA	NA
BMS010_02815	1290	apeB	COG1362	putative M18 family aminopeptidase 2	ATGCGCGAAAAGCTGAACCAAGGCCTGATCGATTTCCTCAAGGCCTCGCCCACGCCCTTCCATGCCACCGACAGCCTGGCCATGCGCCTCGAGGCGGCCGGTTACAAGCATCTGGACGAGCGCGAGCCGTGGGTCGCCGAGCCCGGCGGCCGCTATTACGTCACCCGCAATGATTCTTCCATCGTCGCCGTGAAGCTCGGCCGGCGCCCGCCCGTCGAAGGCGGCATGCGCCTGATCGGCGCCCACACCGATAGCCCCTGCCTGCGCGTCAAGCCGCAGCCGGAGCTGCAGCGCCAGGGCTTCTGGCAACTCGGCGTGGAGGTGTACGGCGGTGCCTTGCTGGCGCCCTGGTTCGACCGCGACCTGTCCCTCGCCGGTCGGGTGACCTTCCGCCATGCCGGCAAGGTGGAAAGCCAGCTCATCGACTTCAAGAACCCCATCGCGATCATTCCCAACCTGGCCATCCACCTCAACCGCGAGGCCAACCAGGGTTGGGCGATCAACGCGCAAACAGAATTGCCACCGATCCTCGCCCAGGTGGTGGGTGACGAGGGCGCCGATTTCCGCGATCTGCTCGCCGATCAGTTGACCCTGGAGCACGGCCTCAGCGCCGACACGGTGCTGGATTACGAACTGAGCTTCTACGACACCCAGAGCGCCGCGGTGATCGGCCTCAATAGCGACTTCATCGCCGGCGCGCGGTTGGATAACCTGCTCTCCTGCTATGCCGGTTTGCAGGCGCTGCTGGCCGCCGAAGGTGACGAGACCTGCGTGCTGGTGTGCAACGACCACGAGGAAGTGGGCTCCTGCTCCGCCTGCGGCGCCGACGGTCCGATGCTGGAACAGGTGCTGCGCCGCCTGTTGCCGGAAGGCGATGACTTCACCCGCATCATCCAGAAGTCCCTGCTGGTCTCCGCCGACAACGCCCATGGCGTGCACCCCAACTATGCCGACAAGCACGACGGCAACCACGGCCCGAAGCTCAACGCCGGCCCGGTGATCAAGGTGAACAGCAACCAGCGCTACGCCACCAGCAGCGAAACCGCCGGTTTCTTCCGCCACCTGTGCCTGGAAAACGAAGTGCCGGTGCAAAGCTTCGTGGTGCGCAGCGACATGGCCTGCGGCTCCACCATCGGTCCGATCACCGCCAGCCAGCTCGGCGTGCGTACCGTCGATATCGGCCTGCCGACCTTCGCCATGCACTCCATCCGCGAGCTGGCCGGCAGCCACGACCTGGCGCACCTGGTGAAAGTACTCACGGCGTTCTATTCCTGCCCGGATTTGCCGTGA	MREKLNQGLIDFLKASPTPFHATDSLAMRLEAAGYKHLDEREPWVAEPGGRYYVTRNDSSIVAVKLGRRPPVEGGMRLIGAHTDSPCLRVKPQPELQRQGFWQLGVEVYGGALLAPWFDRDLSLAGRVTFRHAGKVESQLIDFKNPIAIIPNLAIHLNREANQGWAINAQTELPPILAQVVGDEGADFRDLLADQLTLEHGLSADTVLDYELSFYDTQSAAVIGLNSDFIAGARLDNLLSCYAGLQALLAAEGDETCVLVCNDHEEVGSCSACGADGPMLEQVLRRLLPEGDDFTRIIQKSLLVSADNAHGVHPNYADKHDGNHGPKLNAGPVIKVNSNQRYATSSETAGFFRHLCLENEVPVQSFVVRSDMACGSTIGPITASQLGVRTVDIGLPTFAMHSIRELAGSHDLAHLVKVLTAFYSCPDLP				NA	NA	NA	NA	NA
BMS010_02816	720	phnR	COG2188	Putative transcriptional regulator of 2-aminoethylphosphonate degradation operons	ATGCGCGAGGAAGCGCCGCGTACTGTTACCGCCATCTGCCGCGCGCTGGAGGAGCAGATCGGCCACGGCCTGTTGGCGCCGGGCAGCAAGCTGCCGGCCGAGCGCAAGCTCAGCGAGCTGTTCGATACCACGCGGATCACCCTGCGCGAGGCCCTGGGACAACTGGAAGCGCAGGGGTTGATCTACCGTGAGGAACGCCGCGGCTGGTTCGTCTCGCCGCCGCGGGTGGCCTACAACCCCTTGGTGCGCAGCCACTTCCACGCCATGGTCGGCGAGCAGGGGCGGGTGCCGGCCACCGACGTGCTGTCCGCCCGCCTGCAGCCGGCCAGCGCGGATATCTGCGATGTGCTGGGGTTGCCGGCGCTATCCCGGGTGATCCAGATCCGCCGTGCCCGGCGTATCGACGGGCGGCTGGTGCTCTACGTCGAGCACTACCTGAACCCGGCCTACTTTCCCGGCATCCTCGACTTCGACCTGACGCGCTCGCTCACCGAGCTGTATGCCAGCGAGTACGGCATCCATTACGGCCGAGTGCGCTTCGACATGGTGCCGACCGCGCTCCAACCGGAAGCGGCCGCGGCCTTGCGGGTGGCCGCCGGCAGCCCGGCCTTGCGCATTACCCGGATCAACCGCGACCAGCACGGGCGCATCATCGATTGCGATCTGGAGTTCTGGCGGCACGACGCCATTCATGTGCAGGTGGAGGTGCCGGAGGGGTGA	MREEAPRTVTAICRALEEQIGHGLLAPGSKLPAERKLSELFDTTRITLREALGQLEAQGLIYREERRGWFVSPPRVAYNPLVRSHFHAMVGEQGRVPATDVLSARLQPASADICDVLGLPALSRVIQIRRARRIDGRLVLYVEHYLNPAYFPGILDFDLTRSLTELYASEYGIHYGRVRFDMVPTALQPEAAAALRVAAGSPALRITRINRDQHGRIIDCDLEFWRHDAIHVQVEVPEG				NA	NA	NA	NA	NA
BMS010_02817	1059			hypothetical protein	ATGAAACGCCTGCTGCTGGCTTCACTGTTGGGATCGGCCATTGCCATGGGTACCTCGGCGATGGCAGCGGAAGGAGATGTACAGGCCCTGGAAAAAGCGGCCCGTGCCGAAGGCGAAGTGAACAGCGTCGGCATGCCCGATAGCTGGGCCAACTGGAAGGACACCTGGGCCGACCTGGCGAAGCAATACGGCCTCAAGCACATGGACACGGACATGAGTTCGGCGCAGGAAATCGCCAAGTTCGCCGCCGAGAAGGACAACGCCACCGCCGACATCGGCGACGTCGGTGCCGCCTTCGGCCCCATTGCCGTGCAACAGGGCGTGACCCAGCCCTACAAACCCACCACCTGGGAACAGATTCCCGACTGGGCCAAGGACAAGGACGGCCACTGGATGCTGGCCTACACCGGCTCCATCGCCTTCATCGTCAACAAGCAACTGGTCAAGGACATCCCCACCTCCTGGGCCGAGTTGAAGAAAGGCAAGTACAAGGTCGCCATCGGTGACGTCAGCGCCGCCGCCCAGGCGGTGAACGGCGTGCTGGCCGCAGCCATCGCCAACGGCGGCGACGAGAAGAACATCCAGCCAGGCCTGGACTTCTTCGCCGAGATCGCCGAGCAGGGCCGCCTGTCGCTGTCCAACCCGACCATCCAGACCCTGGAGAAGGGCGAAGTGGAAGTCGGCGTGGTCTGGGACTTCAACGGTCTTTCCTACCGCGACCAGATCGACCCCAGCCGCTTCGAAGTGCTGATCCCTTCCGACGGCTCGGTGATCTCCGGCTACACCACCATCATCAACAAGTACGCCAAGCACCCGAACGCCGCCAAGCTGGCCCGCGAGTACATCCTCTCCGACGCTGGCCAGATCAACCTGGCCAAGGGCAATGCCCGGCCGATCCGCGCCGAGCACCTGACCCTGCCGGAGGACGTGAAGGCCAAGCTGCTGCCCAACGCGCAGTACGCCAAGGTCCAGCCGATCAAGGATGCCGCCGCCTGGGAAGCGACCTCCAAGGCCCTGCCGCAACTGTGGCAGGAAAACGTGATCATCAACATGCAGTAA	MKRLLLASLLGSAIAMGTSAMAAEGDVQALEKAARAEGEVNSVGMPDSWANWKDTWADLAKQYGLKHMDTDMSSAQEIAKFAAEKDNATADIGDVGAAFGPIAVQQGVTQPYKPTTWEQIPDWAKDKDGHWMLAYTGSIAFIVNKQLVKDIPTSWAELKKGKYKVAIGDVSAAAQAVNGVLAAAIANGGDEKNIQPGLDFFAEIAEQGRLSLSNPTIQTLEKGEVEVGVVWDFNGLSYRDQIDPSRFEVLIPSDGSVISGYTTIINKYAKHPNAAKLAREYILSDAGQINLAKGNARPIRAEHLTLPEDVKAKLLPNAQYAKVQPIKDAAAWEATSKALPQLWQENVIINMQ	PGPT0007855_3202	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007855-ABC_SP_S|ydcS-K02055	NA	NA
BMS010_02818	807			hypothetical protein	ATGAAACGCAAAGTCATCCTGGTGCTGCTGGATGGTCTGAACCACGACGTGGCCCGCCATGCCATGGGCCACCTCCTGGCCTGGTGCGAAGCCGGCCACGCGGCGCTGTACGGGCTCGTCTGCGAGCTGCCCTCGCTGTCCCGCCCGCTCTATGAATGCATCCTCACCGGCGTACGGCCGATCGACAGCGGCATCGTCCATAACGACGTGGTGCGGCTGTCCAGCCAACGCAGCATTTTCCACTACGCCCACGATGCCGGCCTGACCACCGCCGCCGCGGCCTATCACTGGATCAGCGAGTTGTACAACCGCGCGCCCTTCCAGGCCGCCCGCGACCGCCACACCGAGGCGCCGGGCCTGCCGATCCAGCACGGCCACTTTTACTACGCCGACCACTACCCGGACTCGCACCTGTTCGCCGACGCGGAAAGCCTGCGCCTGCGCCATGGCCCCGATTTCCTTCTGGTCCACCCGATGAACATCGACGACGCCGGCCACCACAACGGCCTCGACTCGCCGCAGTACCGCAACAGCGCGCGGCGTGCCGACATCCTGCTGGCCGAGTACCTGCAGACCTGGCTCGACGCCGGCTATCAGGTCCTGGTGACCGCCGACCATGGAATGAACAACGACCGCTCCCACAACGGCCTGCTCGCCGAGGAACGCGACGTGCCGCTGTTCGTGATCGGCGATGCCTTCAGCCTGGACCCCGGCGCGCAGCCGAAGCAGACCGAGCTGTGCGGCACCGTCTGCGAGTTGCTCGGCGTGCCCCACGACAAACCCATCTGCCGGGAACTGCTGAGATGA	MKRKVILVLLDGLNHDVARHAMGHLLAWCEAGHAALYGLVCELPSLSRPLYECILTGVRPIDSGIVHNDVVRLSSQRSIFHYAHDAGLTTAAAAYHWISELYNRAPFQAARDRHTEAPGLPIQHGHFYYADHYPDSHLFADAESLRLRHGPDFLLVHPMNIDDAGHHNGLDSPQYRNSARRADILLAEYLQTWLDAGYQVLVTADHGMNNDRSHNGLLAEERDVPLFVIGDAFSLDPGAQPKQTELCGTVCELLGVPHDKPICRELLR				NA	NA	NA	NA	NA
BMS010_02819	912			hypothetical protein	ATGAGCACCACCCTCGAACAGAGCCCGAAGATTCCCGGCGAAGCCGAACCCACCGCCGTCCGCACCGGCACCGCCCCGCGCCTGCGCGGCAAATGGCTGGCGGCGCTGTGCCTGCTGCCGTTCGCCGTGTTCTTCTTCGTTTTCCAGGTCGCGCCCCTGCTGTGGGTGGCGATCCACAGCCTGAACACCGCCGACGGCTGGGGCCTGGGCAATTTCCAGAAAATCTTCGCCTCGAAGTTCTACCTCCAGGCGATCAAGCACAGCCTGCAGATTTCCTTCTGGTCGAGCCTGTTCGGCATCTTCATCGCCATCCTCGGCAGCTATTCGCTGAGGCAAGTGGACTCGAAGCTGCGTGACTTCGTCATGGCCTTTTCCAACATGACCAGCAACTTCGCCGGCGTGCCGCTGGCCTTCGCCTTCATCATCCTGCTCGGCTTCAATGGCGCGCTGACCCTGCTGCTGAAGAAGCTGGGGGTGATCGAGGACTTCAACCTCTATTCGAAAACCGGCCTGATCGTGCTCTACACCTACTTCCAGATTCCCCTCGGCGTGCTGCTGCTCTACCCGGCCTTCGACGCCCTGCGCGAGGACTGGCGCGAATCGGCCGCGCTGCTCGGCGCCGGCACCTGGCAGTTCTGGCGCCACATCGGCCTGCCGGTGCTGACCCCGGCGCTGCTCGGCACCTTCGTCATCCTGCTGGCCAACGCCCTCGGTGCCTACGCCACGGTCTATTACCTCACCACCGGCAACTTCAATGTGCTGCCGATCCGCATCGCCGGACTGGTGGCCGGCGACATCTCCCTCGACCCGAACCTGGCCAGCGCCCTGGCCATGGTGCTGGTGGGCCTGATGGCGCTGATCACCGTGGTCCACCAGCTGTTGCTGAAGAGGAGCTACCATGTCGCGCGCTGA	MSTTLEQSPKIPGEAEPTAVRTGTAPRLRGKWLAALCLLPFAVFFFVFQVAPLLWVAIHSLNTADGWGLGNFQKIFASKFYLQAIKHSLQISFWSSLFGIFIAILGSYSLRQVDSKLRDFVMAFSNMTSNFAGVPLAFAFIILLGFNGALTLLLKKLGVIEDFNLYSKTGLIVLYTYFQIPLGVLLLYPAFDALREDWRESAALLGAGTWQFWRHIGLPVLTPALLGTFVILLANALGAYATVYYLTTGNFNVLPIRIAGLVAGDISLDPNLASALAMVLVGLMALITVVHQLLLKRSYHVAR	PGPT0007850_3361	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007850-ABC_SP_P1|ydcU-K02054	NA	NA
BMS010_02820	798			hypothetical protein	ATGTCGCGCGCTGAGGCCAAACCGGCAGCGCTCTACCACCGCACGGTGGTCTACGTGCTGTTCCTGATCCTGCTCCTGCCGCTGGCCGGTACCCTGCTCTATTCGCTGTCCACCAGTTGGTCGGCAACCATCCTGCCGGACGGGCTGACCTTCAAGTGGTATCTGCAACTGTGGAGCGACGAGCGCTTCCTGCGTGCCTTCGGCCAGTCGCTGCTGGTGTGCTTCGGCGCCCTGGCCCTGGCAGTGGTGCTGATCCTGCCGCTGCTGTTCGTGGTGCACTACCACTTCCCGCGGCTCGACGCCCTGATGAACATCCTCATCCTGCTACCCTTCGCGGTGCCGCCGGTGGTGTCCTCGGTGGGCCTGCTGCAACTCTACGGCTCCGGCCCGCTGCCCATGATCGGTACGCCCTGGATCCTGATCGGCAGCTACTTCACCATCGCCCTGCCCTTCATGTACCGGGCGATCACCAACAACCTCCAGGCAATCAACCTGCGCGACCTGATGGACGCCGCCCACCTGCTCGGCGCCAGCACCTGGAAGGCCGCGTTCCTGGTGGTGCTGCCGAACCTGCGCAAGGGCCTGATGGTCTCGCTGTTCCTGTCGTTTTCCTTCCTGTTCGGCGAGTTCGTCTTCGCCAACCTGCTGGTGGGCACCCGCTACGAGACCCTGCAGGTCTACCTGAACAACATGAAAAACAGCAGCGGCCATTTCAATAGCGCGCTGGTGATCTCCTACTTCTTCTTCGTCCTGGTCTTCACCTGGGCCGCCAACCGTCTGAACAAGGACAAGACATGA	MSRAEAKPAALYHRTVVYVLFLILLLPLAGTLLYSLSTSWSATILPDGLTFKWYLQLWSDERFLRAFGQSLLVCFGALALAVVLILPLLFVVHYHFPRLDALMNILILLPFAVPPVVSSVGLLQLYGSGPLPMIGTPWILIGSYFTIALPFMYRAITNNLQAINLRDLMDAAHLLGASTWKAAFLVVLPNLRKGLMVSLFLSFSFLFGEFVFANLLVGTRYETLQVYLNNMKNSSGHFNSALVISYFFFVLVFTWAANRLNKDKT	PGPT0007845_3402	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007845-ABC_SP_P|ydcV-K02053	NA	NA
BMS010_02821	990	btuD_8		Vitamin B12 import ATP-binding protein BtuD	ATGAGCTTCCTTTCCATCCGGGGCCTGCACAAAAGCTACGGCGCCACGCCCATCTTCCGCGACATTGACTGCGAGATCGGCAAGGGCGAGTTCGTCACCCTGCTCGGCCCGTCCGGCTGCGGCAAGTCGACCCTGCTGCGTTGCATCGCCGGGCTGACCGACGTGAACGGCGGCCAAATCCTCCTCGACGGCCAGGACCTGGTGCCGCTGTCGCCGCAGAAGCGCGGCATCGGCATGGTGTTCCAGAGCTACGCGCTGTTCCCCAACATGACCGTGCAGCAGAACGTCGCCTTCGGCCTGCGCATGCAGAAGACCGCCGGCAGCGAAATGCAGAAACGCGTGGCCGAGGCGCTGGCCCTGGTGGAACTGAGCGACTTCGCCGAGCGCTACCCGAGCCAGCTCTCCGGCGGCCAGTGCCAGCGCGTCGCCCTGGCCCGCTCGCTGGTCACCCGTCCACGCCTGCTGCTGCTCGACGAACCGCTCTCCGCCCTCGACGCACGCATCCGCAAGCACCTGCGCGAGCAGATTCGCAGCATCCAGCAGGAGCTGGGCCTGACCACCATCTTCGTCACCCACGACCAGGAAGAAGCCCTGACCCTGTCCGACCGCATCTTCCTGATGAACGCCGGCCGGATCGTCCAGAGCGGCGACGCGGAAACCCTCTACACCGCACCGGTGGATGCCTTTGCCGCCGGTTTCATCGGCAACTACAACCTGCTCGACGCCGACAGCGCCAGCCGCCTGCTGGCCCGCCCGGTGCACAGCCGCGTGGCGATCCGCCCGGAAGCCATCCAGTTGGGCGAGGCCGGCGCCATCGATGCCGAAGTGCGTGGCCACAGCCTGCTCGGCAACGTCATCCGCTACCGGGTGGAAGCCCGCGGCGTGGAACTGGTGGTGGACGTGCTCAACCGCTCGGCCGCCGACCTCCACACCAGCGGCCAGCGCATCGGCCTGACCATCGACAGCGCCGCCATCCGTGAGGTGGCCTGA	MSFLSIRGLHKSYGATPIFRDIDCEIGKGEFVTLLGPSGCGKSTLLRCIAGLTDVNGGQILLDGQDLVPLSPQKRGIGMVFQSYALFPNMTVQQNVAFGLRMQKTAGSEMQKRVAEALALVELSDFAERYPSQLSGGQCQRVALARSLVTRPRLLLLDEPLSALDARIRKHLREQIRSIQQELGLTTIFVTHDQEEALTLSDRIFLMNAGRIVQSGDAETLYTAPVDAFAAGFIGNYNLLDADSASRLLARPVHSRVAIRPEAIQLGEAGAIDAEVRGHSLLGNVIRYRVEARGVELVVDVLNRSAADLHTSGQRIGLTIDSAAIREVA	PGPT0007860_4044	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007860-ABC_SP_A|ydcT-K02052	NA	NA
BMS010_02822	654		COG0560	putative phosphatase	ATGCCGCTCGCCATTTTCGACCTCGACGAAACCTTGATCGACGGCGACTGCGCCAGCCTGTGGAGCCGGGAAATGGCCCGGCTCGGCTGGGTGGACGGGGAATCCTTCCTGCGCCAGGATGCCGAACTCATGGCCGAGTACGCCTTCGGCAAGCTGGCCATGGAGGACTACATGGTTTTCAGCCTGGCCCCGCTGGTCGGCCGCAGCCGCGAAGAAGTGGATTACGTGGTGGCGCCCTTCGTCGAAGAAGTCATCGAGCCGCTGATCTTCAGTGACGCCATGCGCTGTCTGGCCGCCCACCGCGCCGCCGGCGACCGCATTCTGATCGTTTCCGCCTCCGCCGAATTCCTGGTCGGCGCCATCGCCGAGCGGCTGGGTGTCGATGAGGTGCTGGCCATCAACGTGGAAGAACAGCACGGCTTCCTCACCGGCCGCACCCAGGGCGTGCTCACCTACCGCGACGGCAAGGTGCAACGGCTGGAAGCCTGGCTCGCCGAACAGGGCGAGAGCCTGGATGGCGCGCACTTCTATTCCGACTCGCGCAACGACCTGCCGCTGCTGACGCGGGTGGACTTCCCCCATGTGGTCAACCCCGACCCGGTGCTGCGTGAACATGCGGAGCGAGCCGGCTGGCCGATACTCGATTGGAGTTGA	MPLAIFDLDETLIDGDCASLWSREMARLGWVDGESFLRQDAELMAEYAFGKLAMEDYMVFSLAPLVGRSREEVDYVVAPFVEEVIEPLIFSDAMRCLAAHRAAGDRILIVSASAEFLVGAIAERLGVDEVLAINVEEQHGFLTGRTQGVLTYRDGKVQRLEAWLAEQGESLDGAHFYSDSRNDLPLLTRVDFPHVVNPDPVLREHAERAGWPILDWS				NA	NA	NA	NA	NA
BMS010_02823	405			hypothetical protein	ATGAACGCAGCCGATAACAAGCGACGCCTGCAGCATGTCTTCGCGGAAACGGCCAACGGCAACGGCCGCCCCTTCATCGACTGCCTGTCGGATGATGTGCGCTGGACTATCATCGGCTCGACGGCCTGGTCCAGAACCTACGAAGGGAAAGCGGACGTCATCGGGAATCTGCTCAAGCCTCTGGGTGCCCAACTGGGCAACCGCAATGTCATCGTCCCGCTGCGCTTCATCGCCGAGGACGATCTGGTCGTGGTCGAAGCCCAAGGTCGGAATACGACACAGGCCGGCACGCCATACCAAAACAGCTACTGCTGGGTCTGCCGCATGTCCGAGGGACGGATCGTCGAGATGACCGAGTATGCGGACACCCAGCTCATCGACTGCGTATTGCAGAGCCCTGGATAG	MNAADNKRRLQHVFAETANGNGRPFIDCLSDDVRWTIIGSTAWSRTYEGKADVIGNLLKPLGAQLGNRNVIVPLRFIAEDDLVVVEAQGRNTTQAGTPYQNSYCWVCRMSEGRIVEMTEYADTQLIDCVLQSPG				NA	NA	NA	NA	NA
BMS010_02824	1101			hypothetical protein	ATGAACGGCATGCTGCATGAGGTCACCTCGGCCACGCTGAGCCGGGCGGAGCGTACCCGGACCATCGACTCGCTGCTGCTGCGCCTGGAGGGGATCGAGCGTGCCTGCGGCGAGGATTTTCCGCTGTACTCGCCGGGGCTGGAGGATCGCTGGTCGGTATCGTCCGGTGGGTCCTGGCTGGGCGGTTTCTGGGCCGGGCTCTGGTGGCTGCGGGCCCGGGTCACCGGCGCCTTTTCGGACCGCGACAAGGCGATCCGGATCGGCCGGCGGCTGGCTTCCAAGCTGGAGGCGCCGACCCTCAACCGCAGCATGATCTTCTGGTACGGCCTGGCACCGGGGGCGCTCTGGTTCGATCATCTCGAGTCCCGTCAACTGCTGGACCAGGCCGGTGCGGCTATGGCGACGACCTTCAGTCGCGCGCTCGGCTGCATTCCCTTGGGCACCGACATGAGCGGCGGGCCGGAGGGCGACCGGCGCATCGCCATCGACACCCTGGCTCCGACCCTGCGCCTGCTGGCGCGGCATCCGCAGTGCGCTGTGCGAGACCTTGCCGGCCAGCACCTTCAAGGCACCCTGGCCGCCTGCGGCACCTGGCGCGGCGCCTACTGCGGCAGCGTGCACTGCCGGGAGGAACGGGTAGTGCCGGAGGAGCAGGCAGGGTTGTGGTCGCGTGGCCAGGCCTGGGCGATGCTCGGGTTGGTCCAGGCCGCCGGGCTCTATGGCGAACCCTTCCTGACGGAGGCGCGACGGGCCTGCGAATACTGGCTGGAAACGCGCCCCGAACCCTTGCCGGCGAACCGCCTGGACCACCCCGACGCAGGCGACGATCCCTCCGCCGCAGTGATCGCCGCCCTGGCCATGCTCGGCCTCGACGGCCAGTCCGGCCAGCTCGAACCCTGGCGCGAACACGCCGAGCGCCTGCTGACGGCGGTGGTGCGCAGCCGGTATGTCACGGTCAGCGGCAGGACGCCGGGCCTCTTCGGCGGCATGCGCTACCGCACCCGCGAAGGCGAGGTGTTGGTGGAGTCGGCCTGCTCCAGCTTCTTCCTCCTCGCCGCGCTGCTGGTGCTGGATGGACGCATGGGAGCGCTGGATTTCTGA	MNGMLHEVTSATLSRAERTRTIDSLLLRLEGIERACGEDFPLYSPGLEDRWSVSSGGSWLGGFWAGLWWLRARVTGAFSDRDKAIRIGRRLASKLEAPTLNRSMIFWYGLAPGALWFDHLESRQLLDQAGAAMATTFSRALGCIPLGTDMSGGPEGDRRIAIDTLAPTLRLLARHPQCAVRDLAGQHLQGTLAACGTWRGAYCGSVHCREERVVPEEQAGLWSRGQAWAMLGLVQAAGLYGEPFLTEARRACEYWLETRPEPLPANRLDHPDAGDDPSAAVIAALAMLGLDGQSGQLEPWREHAERLLTAVVRSRYVTVSGRTPGLFGGMRYRTREGEVLVESACSSFFLLAALLVLDGRMGALDF	PGPT0019355_973	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_GLYCOSIDE-GLYCOSIDASES|GLYCOSYLHYDROLASES,PGPT0019355-ugl|EC_3_2_1_180-K18581	NA	NA
BMS010_02825	1233			hypothetical protein	ATGACCCCCGACACTTCCCCGCCGGCCGCCGACAGCGCGCTGGATGCCTTCCTGCTGCGTACCGTGCTGACCGGCGCGATGGCGCTGCCGATGCTGATCTTCTACGCCATCGGCACCCTCGGTCCGTTCCTGGTGGCGGACCTGGGCGTGGCGCCCGGCTGGCTCGGCTACCTGACCATGAGCGCCTTCGGTTTCGCCGCACTGCTGTCGCTGTGGGCCGGGCCGCTGGTCAATCGCCTGGGCTCCCGGCGTGCGCTGGCGCTGCTGTTTCTGGTGGCGACCCTGGCCTACGGCCTGATCGGCGTGGCGCCCGGCTTCGGCGGGGTGGTGCTGGCGGTGGCGGTGTGCGGCATCGCTCAGGCCCTGTCCAACCCGGCGACCAACCTGCTGATCGCCGAACGGGTGCCGCCGCAGAAGAAGGCGGCGGTGGTGGGCCTGAAGCAGGCGGGGGTACAGGTCGCGGCGCTGTTCGCCGGGCTGGTGCTGCCCGGCATCGCCTTGCAGTTCGGTTGGCGCGCGGCCCTGTTGCTGCTGGTACCGCTGGGCCTGCTGCTGGCCCTGGGCGCCCCGCGCATCGCGCCGAAGGCGGCAGCGGGCAAGCCGGCCAGCTTTGGCCTGGCCCGGCCGAGCCGGGTGCTGGCGCTGCTGATGGCGATCCAGCTTTGCGCGGGCGTCGCGTTGTCCGCCTACATCACCTTCCTCGGCGTGTTCGCCACCCGCCAAGGCATGTCCTCGGTCGTGGCTGGCAGCCTGGTGGCGGTATTCGGCGTAATGGGCATCTTAGCCCGCGTGGTGCTCACGCCCATTGGCGGACGGATGCGTGACGAATCCTGGCTGCTGCTGATCCTCCTGGCCCTGGCCGCCTGCGCCATCGGCGTGACCGCGCAGGCGACCCCGGAGCGGCATTGGATGCTCTGGGCCGGGACCATCGGCATCGGCCTGACGGCGGTGGCCACCAACGCCATCGCCATGAGCATGCTGCTGCGCGACCGCGCCTTCGGTACTCCGGCCACCTCGGCGGGCATGCTTTCGGTGGGCTTCTTCGGCGGCTTCGCCTTTGGTCCGCCGAGTTTCGGCGCGCTGTCCGCCGGTCCCTGGGGCTTCGATGGCGCCTGGGCCGCGCTGGTCGGCGTGCTGGTGCTGGGTTGCCTGCTGGCGCTATTGCTGGCGCGGGTGCGGCGTTCGTCCGAGGGTGGGGCCGAAGCGTTTTCCAGTCCGGCGGGGGTGAAATGA	MTPDTSPPAADSALDAFLLRTVLTGAMALPMLIFYAIGTLGPFLVADLGVAPGWLGYLTMSAFGFAALLSLWAGPLVNRLGSRRALALLFLVATLAYGLIGVAPGFGGVVLAVAVCGIAQALSNPATNLLIAERVPPQKKAAVVGLKQAGVQVAALFAGLVLPGIALQFGWRAALLLLVPLGLLLALGAPRIAPKAAAGKPASFGLARPSRVLALLMAIQLCAGVALSAYITFLGVFATRQGMSSVVAGSLVAVFGVMGILARVVLTPIGGRMRDESWLLLILLALAACAIGVTAQATPERHWMLWAGTIGIGLTAVATNAIAMSMLLRDRAFGTPATSAGMLSVGFFGGFAFGPPSFGALSAGPWGFDGAWAALVGVLVLGCLLALLLARVRRSSEGGAEAFSSPAGVK	PGPT0005211_1534	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_CYANATE_DETOXIFICATION	XENOBIOTIC_CYANATE_UPTAKE,PGPT0005211-cynX|yeaN-K03449	NA	NA
BMS010_02826	1215	bcd	COG1960	Acyl-CoA dehydrogenase, short-chain specific	ATGAACCAGCCATTGCAAGCGCGTCCCGCCGAGGACGCACAGGAACTGGCGAAGCGGGTCCGGGCGTTCGTCGACGAGCGCATCCTGCCCCGCGAAGCCGAGCTGGCCGGCCCGCGCGAGAGCGCCAGGGCCTGCCAGGACGAACTGACTGCCGCTGCCCGCGAGCAGGGCCTCTGGGGCCTGTTCTACCCGGGCCGGATGAGCAGCCTGGAGGCGTACCTGACGGTGGCCGAGCAGGAGGGGCGCTCCGAGTACGGCGGGGCGATCTTCGGCACGGAACTCGCCCTCGACACGCACATGCTGACGCGCCACGGCGGTGCGGAAATCCGCGCCGCCTTCCTTGCGCCGCTGCTCACCGGGGAGGGAGTGTCCGCCTACGGCATGTCCGAGCCGGACAGCATCGGCTCGATTCCGGCGACCATCGCCACCACCGCCACGGCGGAGGGCGACCACTGGCGCCTGGACGGGCGCAAGTGGTTCATCTGCCGCGCCGACCGCGCGACCTTCGTCACCGTGGTGGCGCGTACCGAAGGCGCCGGCGTGGACGGGGCGCTGTCGATGATCCTGGTACCCACCGATGCTCCCGGCTTCTCCATCGCCCGCGAGGTGGACATCCTCGGCCGCTTCCAGGGCCAGTGCGAGATCGTCTTCGACGGCGTGCGCGTACCCCGGCACAACCTGCTCGGCCAGCCCGGTGCCGGCCTGGCGCTGATGCAGGAGCGCCTCGGCCTTGGCCGCCTGCTGCGTGCCGTGCACTGGCTGGGCCTGGCGCAACGCAGCTTCGACCTGATGTGCACACGCATCCGTTCGGCACGCGGCGAGCAGGCGCGGCTGGGCGACAAGCAACTGGTGCGTCTGCGCGTGTTCGAGGCCTACCAGACCATCGCCAGCGCCCGTGGCCTGCTGCGCGACGCGGCGCGCAAGTTCGATGCCGGGGTGGCCAACGCCATCGAGGTCAATGTGGCCAAGGTCGCCGCCTCCCAAGCGCTCAGCCGGGCGGTGGATTCGGCGGTCCAGGTCTACGGCGCCGAGGGGCTGAGCAGCCTGACGCCGCTGTCCGGCATCTACCGGGCGGCACGCGCCACGCACATCCTCGACGGCACCGACGACGCCCTGGTCAGCGCGGTCGGCCGCCGCCTGCTGGATGCCTACCAGGATGCGGACAGCCTGGATTTCGACTGGCCGTCGCTGTCCGGAACCCCGGCAGCGCAGTAA	MNQPLQARPAEDAQELAKRVRAFVDERILPREAELAGPRESARACQDELTAAAREQGLWGLFYPGRMSSLEAYLTVAEQEGRSEYGGAIFGTELALDTHMLTRHGGAEIRAAFLAPLLTGEGVSAYGMSEPDSIGSIPATIATTATAEGDHWRLDGRKWFICRADRATFVTVVARTEGAGVDGALSMILVPTDAPGFSIAREVDILGRFQGQCEIVFDGVRVPRHNLLGQPGAGLALMQERLGLGRLLRAVHWLGLAQRSFDLMCTRIRSARGEQARLGDKQLVRLRVFEAYQTIASARGLLRDAARKFDAGVANAIEVNVAKVAASQALSRAVDSAVQVYGAEGLSSLTPLSGIYRAARATHILDGTDDALVSAVGRRLLDAYQDADSLDFDWPSLSGTPAAQ	PGPT0008385_3435	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008385-acd-K00249	NA	NA
BMS010_02827	1650	dhbE	COG1021	2,3-dihydroxybenzoate-AMP ligase	ATGAACAACACAGGCATCATCGATCTGGTTCCCATGGACGTTCGCCGCGAGTGGGTGCGCAATGGAACCTACCCGAACAAATCGGTTTTCCAACTGTTCCGCCAGCACGCGGAGCGCCATCCCGACAAGCTCGCCGTGCTGTCGCCGGAGGAGAGCATCAGCTACGGCGAACTGCTCGACCGCTCCCTGCGCCTGGCCGCCGGCCTGCGCGCACAGGGCATCGTGCCGGGTGACGTGGTCGCCTACCAGCTCACCAACAGTTGGCGCTGCTGTGCCATCGACCTGGCCGCCGCCGCCCTCGGCGCGGTGGTGGCGCCGTTCCCGCCGGGGCGCGGGCGGCTGGACATCGAATCCCTGCTGCGCCGCTGCGACGCCCGCGCGGTGGTGGTGCCGGCCGAGTTTGGCGGCATCGACCTGTGCGAGCTGATCGAATCCCTGCGTCCGACCCTGCTGTCGCTGCGCATCCTCATCGTCGAGGGCGAGGCACGGCGCGGCTGGTCGTCGCTGGATCGCCTGATGGATGTCGAGCCGCTGGGCACCGAGACGCTGCCCAAGGTCTGCCCGAACTCGCCGGTGCGCCTGCTGGTGTCCTCCGGCACCGAATCGGAGCCGAAGCTGGTGGCCTACTCGCACAACGCCCTGGTCGGCGGCCGTGGCCGCTTCCTCCAGCGCCTGCATGAGGACGGCGAGAGCTTCCGGGGCATGTACCTGGTGCCGCTGGGCTCCTCGTTCGGTTCCACCGCCACCTTCGGCAGCCTGTCCTGGCTGGGCGGCTCCATCGTCGTCCTGCCGAAATTCGACGTGCCGGCGGCGATCCGCGCCATCGAGACCCTGCGTCCCACGCACATCCTCGGTGTGCCCACCATGCTCCAGCGCATCGCCGCCGATCCGCTGCTGGCCGAGGTGGACAAATCCAGCCTGGTCGGCCTGATCAGCGGTGGCTCGCTGATCGACGAGGCCAGCGTGCGCCGCTGCGTCGAGGCATTCGGCTGCGGCTTCATCAGCCTGTACGGCTCGGCCGACGGGGTGAACTGCCACAACACCCTGGACGATCCGCTGGAGGTGGTGCTGCGCAGCGTCGGCCGGCCCAACCCGAGCGTTTGCGAGATCCGCATCGTCGACGAGCAGGGCGTCGAACTGCCCCAGGGCGAGGTCGGCGAGATCAAGGCGCGCGGACCGTTGAGCCCGATGCAATACGTCAATGCGCCGGAGCTGGACGCCCGCTACCGCGACGCCGAAGGCTGGGTATGCACCGGCGACCTCGGCTACATCGACCGCGACGGCTACCTGGTCCTGGCCGGGCGCAAGAAGGACATCATCATCCGTGGCGGGCAGAACATCAGCCCGGTGCAGATCGAGATGCTCGCCACCGGCCATCCCGACGTGGTCAGCGCCGCCTGCGTACCGGTGCCGGACCCGGACCTCGGCCAGCGCGTGTGCATCTGCGTGACCCTGCGCGAGGGCGCGCCGCGCTTCTCCCTCGCCGAACTGACCGACTATCTGCGCCAGCAGGGGCTGGAGGTGAACAAGCTGCCCGAGTACCTGCGCTTCTACCGGCACCTGCCGCTGAGCCCGGCCGGCAAGGTGGACAAGAAGGCGCTGGCCGCCGAAGTCGCCTTCCTAGAAAGCGGTGTGGGCATCGCCTGCTGA	MNNTGIIDLVPMDVRREWVRNGTYPNKSVFQLFRQHAERHPDKLAVLSPEESISYGELLDRSLRLAAGLRAQGIVPGDVVAYQLTNSWRCCAIDLAAAALGAVVAPFPPGRGRLDIESLLRRCDARAVVVPAEFGGIDLCELIESLRPTLLSLRILIVEGEARRGWSSLDRLMDVEPLGTETLPKVCPNSPVRLLVSSGTESEPKLVAYSHNALVGGRGRFLQRLHEDGESFRGMYLVPLGSSFGSTATFGSLSWLGGSIVVLPKFDVPAAIRAIETLRPTHILGVPTMLQRIAADPLLAEVDKSSLVGLISGGSLIDEASVRRCVEAFGCGFISLYGSADGVNCHNTLDDPLEVVLRSVGRPNPSVCEIRIVDEQGVELPQGEVGEIKARGPLSPMQYVNAPELDARYRDAEGWVCTGDLGYIDRDGYLVLAGRKKDIIIRGGQNISPVQIEMLATGHPDVVSAACVPVPDPDLGQRVCICVTLREGAPRFSLAELTDYLRQQGLEVNKLPEYLRFYRHLPLSPAGKVDKKALAAEVAFLESGVGIAC				NA	NA	NA	NA	NA
BMS010_02828	1884	frc		Formyl-CoA:oxalate CoA-transferase	ATGGATCGATTCGGCGTGAACCTTATGACCTTTCCCCTGGCCGGATGCACGTTGTCCGGCGCTTTCGCTCATGTCCCGGCGGCCTTCGCCCCCGCGGCATCGGCCGTGTTCAACCAGGCAGGTGCCCTGGGCATCGGCGTGGTGTTCCAGCCCGGCACCTGTGCTGACGGGCTGGATTTCCGCTTCGAGGTGCCGGGTCTTGCGCCCATCGCTGGGCGCCTGCTCGGCTGGGCCGACGGCCGTCCGGACGGTGCCAGCGAACTGACCGTACAGGCCGCCTCCGGGCTGATGGCCGTGCATGGCCGCGCCAGCGGCGGGGCGCGGCCGCTGGGGGTGGACTACGTGTCCACCCTGGCCGCCAGCCTGGCCCTGCAAGGCACCTTCGCCGCGGCCATCGGCCAACTGCGTGGCAGCGGCCACACCCGGGTGGATGTCTCCCTGGCCGGCGCCGCGACCCTCGCCGTCGGCCAGTACCTGGCCGGTGCCACCGCGCCGGAAGGGGCCGAGCGGCTGCTGCCCGGCTGTACCTCGCCGCGTGAGCGTCCGCCGTTCACCTCTGCCGATGGCGTGGTGTTCGAGCTGGAGACCCTGGATGCCGAACCCTGGCGGCGCTTCTGGAACGGTCTCGGCATCCCCGGCGAGTTGGCCGGCAAGGGCTGGAGCGCCTTCCTGCTGCGCTACGCCAAAGCGGTTTCGCCGATGCCGGCAGAATTGATGGAGGCGCTGTCGCGGCTGCCCTATGCGGTGATCGCCGAGCGCTGCGCCGAGGCCGGGTTGTCCATCTGCCCGCTGCGCAGCCTGATCGAGCGGCTGGAAGACGACGACCTGCCGCTGTTGCTGGAGCACGGTCCCTGGCATTTCACCCCCGGCACCAGCGGCCTGCCGCCGACCACCCTGGGCGGGCGCGGCGACCTGCCGCTGAGCGGCCTGCGGGTGATCGAGTCCTGCCGGCGCATCCAGGGGCCGCTGGCCGGCCACCTGCTGGCGCTGCTCGGCGCCGAGGTGATCCGCATCGAGCTGCCCGGCGGCGACCCGCTGCGCGGCATGCCGCCCCTGGTGGATGGCTGCTCGGTGCGCTTCGACGCACTGAACCGCCACAAACAGGTGTGCGAGCTGGACATCAAGTCGGCCCGTGGCCGCGCCGAGCTGCTGGAGCTGGCCAGCCAGGCCGACGTCTTCCTGCACAACTGGGCGCCGGGCAAGGCCGCCGAACTGAACCTGGATCACGCCGACCTGGCGCGGGTCAATCCGGCGCTGATCTACGCCTATGCCGGCGGTTGGGGCGAGGATGCCCGCCTGCACGCCATGCCCGGCACCGATTTCATGGTGCAGGCGTATTCCGGCGTCGCCCGGCAGATTGCCCGCCGCTCGGCCAGTGCCGGCGGATCGCTGTTCACCGTGCTGGATGTGCTGGGCGGCGTGGTCGCCGCCCAGGGCGTCAGCGTGGCCTTGCTCAAGCGCGGGCTGCGCGGCGAGGCGGGGCGGGTCGACAGCTCGCTGCTCGGCGCCGCGACCCTGCTGTGCACCACCGAATTGCTGGCCCTGCGCGACGGCAAGGCGCCGGTCGAGCCGCCCGTCGCCGGGGTCTACCCCACCGCGGCCGGGCTGCTGGCCATCGAATGCCGCGATGCAGCCGAAGTGGAGCGCCTGCGCTATGCCCTGGATTGCCCGCTGGATGCGGAGCCGGCGCTGCGCGACGAGCAGATCGTCCGCTGCCTGGCGTCGCGCGATGCGCAGGCCTGGCAGAGCCTCTTGCGGGAGTTCGGCCTGGCCGCTTCCGCCGTTCGAGAAGACCTGTCGGCAGTTCACGAAGACGGGCGGATAGCGCCGTGTTTGCGTACGGAAGCCTACACCCTGGTCAAGTCTCCCTGGAGTTTCACATGA	MDRFGVNLMTFPLAGCTLSGAFAHVPAAFAPAASAVFNQAGALGIGVVFQPGTCADGLDFRFEVPGLAPIAGRLLGWADGRPDGASELTVQAASGLMAVHGRASGGARPLGVDYVSTLAASLALQGTFAAAIGQLRGSGHTRVDVSLAGAATLAVGQYLAGATAPEGAERLLPGCTSPRERPPFTSADGVVFELETLDAEPWRRFWNGLGIPGELAGKGWSAFLLRYAKAVSPMPAELMEALSRLPYAVIAERCAEAGLSICPLRSLIERLEDDDLPLLLEHGPWHFTPGTSGLPPTTLGGRGDLPLSGLRVIESCRRIQGPLAGHLLALLGAEVIRIELPGGDPLRGMPPLVDGCSVRFDALNRHKQVCELDIKSARGRAELLELASQADVFLHNWAPGKAAELNLDHADLARVNPALIYAYAGGWGEDARLHAMPGTDFMVQAYSGVARQIARRSASAGGSLFTVLDVLGGVVAAQGVSVALLKRGLRGEAGRVDSSLLGAATLLCTTELLALRDGKAPVEPPVAGVYPTAAGLLAIECRDAAEVERLRYALDCPLDAEPALRDEQIVRCLASRDAQAWQSLLREFGLAASAVREDLSAVHEDGRIAPCLRTEAYTLVKSPWSFT	PGPT0014505_19	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0014505-uctC|yfdE-K18702	NA	NA
BMS010_02829	273	cysO	COG1977	Sulfur carrier protein CysO	ATGCCCGTTTCCGTTTCCATTCCCACCCTGCTGCGTCCGCTGACCCAGGACCAGAAGCGCATCGAGATCGAAGGCGCCACCGTACGCGAGCTCATCGAGCGCATGGACAGCCAGTATCCCGGCATCAAGGAGCGTTTGCTGGACGGCGGCGAGATGCACCGTTTCGTCAATGTCTACGTGAACGACAACGACATCCGCTTCGCCGACAACCTGGGTACGGCGCTGAAGGATGGCGACAACGTGAGCATCCTGCCCGCGGTAGCCGGTGGCTGA	MPVSVSIPTLLRPLTQDQKRIEIEGATVRELIERMDSQYPGIKERLLDGGEMHRFVNVYVNDNDIRFADNLGTALKDGDNVSILPAVAGG	PGPT0000445_9	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000445-nirA-K00366	NA	NA
BMS010_02830	432	mec	COG1310	CysO-cysteine peptidase	ATGCTGATCATTCTTTCCGAACTGCTCGACGCCATGCTCGCCCAGGCGCGCGAGGACCACCCGATCGAAACCTGCGGCGTGATCGCCGGGCCGATCGGCTCCAGGCGGCCGACCCGGATGATTCCGATGCGCAACGTCGCGCAGTCGGAGACCTTCTTCCAGTTCGACCCGCAGGAACAACTGCGGGTCTGGCGGGAGATGGAGGCGCTCGGCGAAGAGCCGTGCGTGATCTACCACTCGCATACCCATTCGGCCGGCTACCCCAGCCGCGACGACATCCGGCTCGCCGGCGAACCCCAGGCGCACTACGTGATTCTCTGCACCGCCGAGAACGCCGGTGCGCCGGTGCGCAGCTTCCGCATCGTCGACGGCAAGGCCACCGAGGAAACCATCCAGGCCGTGGCGCAGTACCCCACCGCCCTGGCCGGCTGA	MLIILSELLDAMLAQAREDHPIETCGVIAGPIGSRRPTRMIPMRNVAQSETFFQFDPQEQLRVWREMEALGEEPCVIYHSHTHSAGYPSRDDIRLAGEPQAHYVILCTAENAGAPVRSFRIVDGKATEETIQAVAQYPTALAG				NA	NA	NA	NA	NA
BMS010_02831	1176	moeZ_1	COG0476	putative adenylyltransferase/sulfurtransferase MoeZ	ATGATGAAACTTCCACCTTTGGTTGAACCCACCGCGACGTTGAGCAAGGAAGAGGTTGTCCGCTACAGCCGGCACCTGCTGATTCCGGATGTGGGCGTGGACGGCCAGCGTCGTCTCAAGAGCGCCAGGGTGCTGGTGATCGGCGCCGGTGGCCTGGGCTCGCCGGCGTTGCTCTACCTGGCCGCGGCCGGGGTCGGCACGCTGGGGATCATCGACTTCGATGTGGTCGATGAATCGAACCTGCAGCGCCAGGTGATCCACAAGGTCTCCACCGTCGGCCAGTTGAAGGTCGAGAGCGCCGCTGCCGCGATCCGCGAGCTGAACCCCCATGTGAACCTGGAACTGCATACCGACCGCCTCGAACCGGAAGTGGCCGTGCAGCTATTCGCGCAGTACGACCTGATCCTTGACGGTACCGACAACTTTGCCACCCGCTACCTGGTCAACGATGCCTGCGTGCTGGCCGGCAAACCCTACGTGTGGGGCTCGATCTTCCGTTTCGAGGGGCAGGCTTCGGTGTTCTGGGAGGACGCGCCCGGTGGCGTCGGCCTCAACTACCGCGATCTCTACCCCGAGCCGCCACCGCCGGAACTGGCGCCGTCCTGCTCCGAGGGCGGGGTGCTGGGGATTCTCTGCGCCTCCATCGGTTCGATCATGGCCACCGAGGCGGTGAAGCTGATCACCGGCATCGGCGAACCGCTGCTCGGCCGGCTGATGGTCTACGACGCCCTGGACATGACCTACCGGCAGATCGCCCTGCGCCGCGCCCCGGACCGCAAGCCGATCACCGAGCTGAGCGACTATCAGGTCTTCTGCGGCCTGAACCGGCCTCTCGGTGTGCAGGATTCGGACATCCCCTCGATCAGCGCCGTCGAGCTGAAGGCGCTGCGCGAGCGGGGGGCGCATCACGAGGTGATCGATGTCCGCGAACGCACCGAGTGGGACATCGTGCATATCGACGGTGCCCGGCACATGCCGAAGAGCCCGTCGCTCGCCCGCGAGATCGAGGCGCGCTTCGGCAAGGACACCCCGCTGATCCTGCACTGCAAGAGCGGGCTGCGCTCCAAGGCGGTACTGCTGGAACTGCAACGCCTGGGCTTCAGCGACGTGCGCAATCTGGAAGGCGGGATTCTCGCCTGGGTCCGCGACGTGGATACGACGCTGCCCAGCTATTGA	MMKLPPLVEPTATLSKEEVVRYSRHLLIPDVGVDGQRRLKSARVLVIGAGGLGSPALLYLAAAGVGTLGIIDFDVVDESNLQRQVIHKVSTVGQLKVESAAAAIRELNPHVNLELHTDRLEPEVAVQLFAQYDLILDGTDNFATRYLVNDACVLAGKPYVWGSIFRFEGQASVFWEDAPGGVGLNYRDLYPEPPPPELAPSCSEGGVLGILCASIGSIMATEAVKLITGIGEPLLGRLMVYDALDMTYRQIALRRAPDRKPITELSDYQVFCGLNRPLGVQDSDIPSISAVELKALRERGAHHEVIDVRERTEWDIVHIDGARHMPKSPSLAREIEARFGKDTPLILHCKSGLRSKAVLLELQRLGFSDVRNLEGGILAWVRDVDTTLPSY				NA	NA	NA	NA	NA
BMS010_02832	660			hypothetical protein	ATGAACACTCCGAACACGCCCCCACCCCGCGACAATCTGATTTCCCACGGCACCGGCGCATCCGCCGCCTTCGACGAGCGGCTACAGGCGATCGGCCTGCGCCTGCGCACAGCCGGCGACCACCCCAGCGCGACGGTCGAGCGCCAACTGCAGCTACTGGATGAACTCGCCGGAATCGAACTGGGCCGTTTCCTTCTCGAACATCGCGGTCTCAACGCCTACTGGACGCACCGCGTGGTGACCCACCTCCCCGGCGGCCAGACCGCCTCGCCGATGGAACGCTGGCTGCTCGAGCAGGCACCGTCCGCCCGGGCGACGCGCGAGCGCTTCGGTATTTTCCGCAGCCAATTGCAGGCCCTGCTCCGCCCGGGCGCGGTCATGGCATCGGTTCCCTGCGGGCTGATGGGTGAGTTGCTGTTGCTGGAACACGGCCCCGATGTCCGCCTGATCGGCATCGACCTGGACCAGCAGGCCCTGGACGGCGCACGGCAACTGGCGGAGGAGCACGGCCTGACCGGCTCCCTCACGCTGCGTCGCGAAGACGCCTGGGCCCTGACGCTGAAAGAGGAAGCCGACGTACTGGCGAGCAACGGCCTGAACGTCTACGAGCCGGACGACACGCGGTCGTCGCGCTATACCGCACCTTCTTCGATGCCCTGA	MNTPNTPPPRDNLISHGTGASAAFDERLQAIGLRLRTAGDHPSATVERQLQLLDELAGIELGRFLLEHRGLNAYWTHRVVTHLPGGQTASPMERWLLEQAPSARATRERFGIFRSQLQALLRPGAVMASVPCGLMGELLLLEHGPDVRLIGIDLDQQALDGARQLAEEHGLTGSLTLRREDAWALTLKEEADVLASNGLNVYEPDDTRSSRYTAPSSMP				NA	NA	NA	NA	NA
BMS010_02833	249			hypothetical protein	GTGACCAGCTTCCTCACGCCGCCGCCGGTACTGTCCCCGGAGTCCCCCTGGAACATGGCGGAAATCGACCCCGAGGCGCTGGCCTTCCAGCAATTGGTGCTCATGCGGATCATCGAAGCCAAGTGGAACGCCTTCCGCACCCACGCCCAGACCCGCGCCCAGCTCGAAGAGGCCGGTTTCACCGACATCCGCTTCATCGACGACCGCGCCCGCCTGTTCCCCACCGTGGTGGCGAGCAAGCCGGCGTGA	MTSFLTPPPVLSPESPWNMAEIDPEALAFQQLVLMRIIEAKWNAFRTHAQTRAQLEEAGFTDIRFIDDRARLFPTVVASKPA				NA	NA	NA	NA	NA
BMS010_02834	2520	pigE		Aminotransferase PigE	ATGAAATTCGGATTCATCGCGCACCCCACTTCGGTTGCGCTCAAGCGTCACGTGAAACTCCTCGACCTGCTCGACCGCAACATCGCCGAGCAGGACCGCGGCTACAGCCATGACCTCTGGCAATGGCGCAACCTGGTGCCCTTCGCCGATTTCGGCCGCATCGTCAGCGCGCGCGGCGCGGTCTGCGAGGGCATCGTCCACTACATGCCGCTGACCGCCGAGGAAATGCTCGCCCAGCCACGCGCCATCGCCCGGCGAGTGATCGAAGGGGTGGACAGCCTGAAGGAGCAGGGCGCCCAACTGGTCGGCCTCGGCGGCTTCACCGCCATCGTCGGTAACCGTGGCCTGCAAACCCTGGAGCGTACCGGCGTACCGGTCACCACCGGCAATTCGCTGACCGCCTATGCGGCCTACCGCAACGTACTGGAAGCCATGGAGCGCCTGGACGTGGACCCGGTGGACACCGAGGTGGCGGTGGTTGGCTATCCCGGCTCCATCGCCCTGGCCATCGCCAAGCTGCTCGGCCATGACGGTTGCCGTCTGTGCCTGATCCACCGCGGCGGCGAGGAACAGGCGCGCCAGGGCCTGGAGTTCCTGCCGGAAGACCTGCGCGGCCGCGTGCGGCTGAGCAACGACATGCAGAGCTGCTACGACAGCGTGCGCTTCTACGTCGCCGCCACCTCCAGCGGCGGCGTCATCGACCCGTATCGCCTGGCGCCGGGCTCGGTGGTGGTGGACGCGGCGCTGCCGCGCGACGTAATGCCCTACCGGCAGGATCGCAGCGACATCCTGATCGTCGACGGCGGTCTGGTCTCGGCCGGTTCTTCGCTGCGCTTCGGCGGCGAGAGCATGGGCCTGTCGCCGAAGAAGTTCCTCAACGGCTGCCTGGCGGAAACCCTGGTGCTGGGCCTGGAGGGGCGCGCCGAGCCGTTCTCCATCGGCCGCGAATTACCGGAAGACAAGGTGCTGGAAATCGGCCGCCTGGCCGAAGGCCACGGGCTGCTGCCAACACCGATGGCCTCCTACGGTGAGCGCCTGACCCAGGCGGACTTCGACGGGCTGCGGCGTTTCCATCACCCGCGCAGCCAGCCGCTGACCCTGGAGGAGAAGCCGCAACTGCGCAGCGAGGCGCTGCGTTGCTTCGGCGAGCACATCAACCCGATCCTTCGCGAGTTCTACGCCTTCAACCACATCGAACGGGTGTTCAGCCACGGTCGCGGCTGCTGGCTGACCGACCTGGACGGCAGCCGCTACCTCGATTTCGTTGCCGGCTACGGCTGCCTCAACACCGGTCACAACCACCCGCAGATCAACGCCGCCCTGCAGCGCTACCTGCAACAGGAGCACCCGACCTTCGTCCAGTACGTCTCGGTGCCGCTGCAGACCAGCCTGCTGGCGCAGCGCCTGAGCGAGCTGGCACCGGGCAACCTGGGCCGGGTGTTCTTCAGCAACTCGGGCACCGAGGCGGTGGAGGCGGCGCTGAAGCTGGCCATCGCCGCCATGGACCGCTCGCGGGTTTCGCGGGTGCTGTACTGCGACAACGGCTACCACGGCAAGACCCTCGGCGCGCTCTCCGTCACCGGGCGCGACAAGCACCGGCAGCCGTTCAAGCCGCTGCTGCCGCGTTGCGACTCGATCCCTTTCGGCGACACCGAGGCGCTGGAAAAGGCCCTGCTGGAAGGCGACGTCGGCGCCTTCATCCTGGAACCCATCCAGGGCGAGGGTGGGGTGGTGGTGCCGCCGGCGGGCTACCTGAAGCGCGTCCGCGAGCTGTGCAGCGACCACGACTGCATCCTCATCCTCGACGAGATCCAGACCGGCCTGGGCCGCACCGGCAAGCTGTTCGCCTGTGAGTGGGAGGGCGTCGAGCCGGACATCCTGGTGCTGTCCAAGTCCCTCTCCGGCGGTGCCGTGCCCATCGGCGCGACACTGTCGCGCACGGACCTCTGGGACCGTGCCTACGGCAACATCGACAGCTTCGCCCTGCACACCTCCACCTTCGGCGGCGGCAACCTGGCGGCGGCCTCGGCCCTGGCGACCCTGGACGTGATCGCCGCCGAAGACCTGCCGGGCAATGCGGCGCGGGTCGGCGGGATGCTCAAGGAGGCGCTCAGCGAGGCGGTGGCCGGCTACCCGTTCATCCGCGAGGTTCGCGGGCGCGGGCTGATGATCGCCATCGAGTTCCAGAACAGCTTCGGCGGCGGGGTGGAGGCCTTCGTCCGCGAGTTCGCCAGTCGCATGCCGGGTAACGCGGCGGGCACCTACCGGATGATGTCGGGCAAGGCCAAGCGGTTGATCCGCGAAGCCATCGAGGAGCTGGAAAAGAACTTCGAGGAGATGTTCGTGTTGCGCTTCGTGACCAAGCTGTCGAAGGAGCACGGCATCCTCACCTTCGTCACCGCCAACAACAACCGGGTCATGCGCATCCAGCCGCCGCTGGTGCTCAGCGAGCAGGAGGCGCAGCGTTTCGTCGACGCCTTCGCGGCGGTGTGCAAGGACATGTCGACGTTCCTGGAGTAA	MKFGFIAHPTSVALKRHVKLLDLLDRNIAEQDRGYSHDLWQWRNLVPFADFGRIVSARGAVCEGIVHYMPLTAEEMLAQPRAIARRVIEGVDSLKEQGAQLVGLGGFTAIVGNRGLQTLERTGVPVTTGNSLTAYAAYRNVLEAMERLDVDPVDTEVAVVGYPGSIALAIAKLLGHDGCRLCLIHRGGEEQARQGLEFLPEDLRGRVRLSNDMQSCYDSVRFYVAATSSGGVIDPYRLAPGSVVVDAALPRDVMPYRQDRSDILIVDGGLVSAGSSLRFGGESMGLSPKKFLNGCLAETLVLGLEGRAEPFSIGRELPEDKVLEIGRLAEGHGLLPTPMASYGERLTQADFDGLRRFHHPRSQPLTLEEKPQLRSEALRCFGEHINPILREFYAFNHIERVFSHGRGCWLTDLDGSRYLDFVAGYGCLNTGHNHPQINAALQRYLQQEHPTFVQYVSVPLQTSLLAQRLSELAPGNLGRVFFSNSGTEAVEAALKLAIAAMDRSRVSRVLYCDNGYHGKTLGALSVTGRDKHRQPFKPLLPRCDSIPFGDTEALEKALLEGDVGAFILEPIQGEGGVVVPPAGYLKRVRELCSDHDCILILDEIQTGLGRTGKLFACEWEGVEPDILVLSKSLSGGAVPIGATLSRTDLWDRAYGNIDSFALHTSTFGGGNLAAASALATLDVIAAEDLPGNAARVGGMLKEALSEAVAGYPFIREVRGRGLMIAIEFQNSFGGGVEAFVREFASRMPGNAAGTYRMMSGKAKRLIREAIEELEKNFEEMFVLRFVTKLSKEHGILTFVTANNNRVMRIQPPLVLSEQEAQRFVDAFAAVCKDMSTFLE	PGPT0011545_12	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-PRODIGIOSIN_METABOLISM,PGPT0011545-pigE-K21778	NA	NA
BMS010_02835	2415	pigD		Thiamine diphosphate dependent-3-acetyloctanal synthase PigD	ATGAGGGGAATGTTGGGAGTGTGTCTGGTCACCCAGACACAAACGCTGTTCGAAGATGTCGCCTTCGTCGTCGAACAGTTGAGGAGGGGCTTGGTCCCCGTGTCGACCGAGCCCTGGAACGCGACCGCCTGTATCGAGGAAATGTGCCGGGCGATGGGCGGGCGACCGCGTAGCGAGGAGGTGCTGGAAACCCTGATGGTCCAGGCCGAGAGCTACCTGCAGGAGAACGCGGTGGCCAGCCGCCAGCCGCTGGAGGTGGAGCTGCTGCACTTCCCCACGCTGGAGGCCGCGCGGGCGCAGTTGGCGCGGCATGGCGAGCGCTCGCGGGTGGAGCTGTTCATCGTCGATGCCTGCCGGCAGGAGGAGGCGGACGAAGACCCGTTCGACGACCTGTTCGCCGCTTGTCGGCATGAGGACGAGGGCCCGCGCCTGTCGCCGCATTCGGCGGTGCTGTATTGCTCCCGCCCGGCACTGCCGGGTTGGATGGCACGGGCCGGCGGCAACCGCCACCTGCGCGTGCCGCTGGAAGACCGGGCGGCCAGCCGCGCCGACCTGCTGCGGATCGCCGTGGACCACCTCGAGCACGTGCACTTCAACCGCATGCTGGCCCGCTCGGTGAGCCATGCGCTGCCGCCGGTGAGTATTGCGACCGAGGTGACGCGCTTCATGGCCGACCGCTGGCAGGACGGCTGGGACTTCCATTCCTACACCGGGTCGATGGTGGCCGGGCTGATCCAGTCCATGCAGCAGACCACCGCCGGCAGCGGCGTGCGCTGCCTGCACGGCTGCAACGAGCACAGCCTGGCCGTCGCGGCGTTGGCCGGCTGGCAGCTCTACGGGCGTGCCTACGTGATCGCGGTGACCTCCGGGATGATCGACGAATTCCGTGGCACCCTGGCCAACCTGAAAAGGGCCGGCGCACCGGGGCTGATCATCTGCGCGGACAGCCCGGACAACGCCTGGTTCGCCTTCCAGGGCACCCTGGATGCGGATCACGACGGCCGCCAGGTGATCGCGGCCCGGGGCCTGCGCTACGTGTTCATCCGCAAGGTGGACGAAGTGGCGGCCAGGCTGGCGGAGGCCTTCGCCCTGCTGGCCGAGCGCGCCGAGCCGGTGTTCGTGCTGGCCACCCAGGCGGTGCTGGAGTCGCGTCCGCTCGAGGCTCTGGACGTACCGCTGCCGCCCGCCGGCGAGCAGCCCCGGCCCGTGCTGAGCGAGGCTCAGCGTGCCGCCTTGGATGAGGCGCTGCGGCTGATCAACCAGGCGCCGCTGCAGATGCTCTGGCAGTGCGGCAAGCTCTCCGATGCGCAACGCGAACGGGTCTATGCCATCGCCGAGGCGGCCGGCATCGCCCTGGCCGACACCATCACACAGCCGGGCAGCGTCGGGCCGTACCACCAGGGCCGGCTGGTGCCGAACTACCTGGGGCCGCTGTCGCTGTACGGCTTCAGCCGGCGCGTCTACCGCTTCCTGCACAAGGATCACGAAGTGGTCGGGCCGGACGAGCAGTGCCTGTTCTTCCTCAAGAGCAAGGTGGACCAGGCCGCCACACCGTTCTCCGAAGGCAAGCTGAAGCGGCAGGTCCGCGTGGTGCAGGTCAACCACGAGCCGCGTCATTTGTCGCCGTTCACCGACCTGGCTTTGGATATTCCGCTGGATCTGTTCCTCGGCCACGTCCAGGCCAACCTGGCGGTGGACCCGGAAGTGCTGGCCCTGCGCCGGGCCAGGCTGGCCAGCGTGCGGGCGATTCCCGAGGCGGTGCCGGTGGATCACATCGCCACGCTGCCGATGACCGCCAACTACTTCTTCCTGCGGCTGGGCGATCTGGTGCGCGAGCTGATCGAGCGCCACGACTACCGCTACACCGGCATCTACGACGTCGGCCGCTGCGGCATTTCCGCGCTGCGCAACGTGCCGCGCACCGGTCCGGGGTTCTCCGGCTGGTACGGCCGGGCGCTGATGGGCGACGGACTGATGGCGCTGCCCTACATCGCCATCACCACCGAGGGCAACGTGCTGGCCTTCATCGGCGACGGTGCGCGGGCGCTGGTGCCGGACATCGAGACACGCCTGGCCGCCAGCCTGGCCCAGGACCCGCGCGGGGCAACGAAGAACGTCACGCTGTTCTACCTGACCAACGGCGTGCTCTCGATGATCCAGACCTACCTGGACAAGCGCTACGCGCACAACGGCGCGCGCCAGGTGGCGGTGACCGCGCCGGCGCCGTCGCCGGCCGTGGAGCGGGTCGGACCCATCAGCGTGAACCGCAGCCGGGTGGTGCAGTTCGACCCGGACTTCCTGCGCAACGCCCTGACCGCCCCCGGCCAGCTCAACATCATCGACGTGACCCTCGCCCACAACTCCGACGGAGACGGCCTCAGCCTGGTCTCCGAAACCACCTGGAACCGCCAGTGA	MRGMLGVCLVTQTQTLFEDVAFVVEQLRRGLVPVSTEPWNATACIEEMCRAMGGRPRSEEVLETLMVQAESYLQENAVASRQPLEVELLHFPTLEAARAQLARHGERSRVELFIVDACRQEEADEDPFDDLFAACRHEDEGPRLSPHSAVLYCSRPALPGWMARAGGNRHLRVPLEDRAASRADLLRIAVDHLEHVHFNRMLARSVSHALPPVSIATEVTRFMADRWQDGWDFHSYTGSMVAGLIQSMQQTTAGSGVRCLHGCNEHSLAVAALAGWQLYGRAYVIAVTSGMIDEFRGTLANLKRAGAPGLIICADSPDNAWFAFQGTLDADHDGRQVIAARGLRYVFIRKVDEVAARLAEAFALLAERAEPVFVLATQAVLESRPLEALDVPLPPAGEQPRPVLSEAQRAALDEALRLINQAPLQMLWQCGKLSDAQRERVYAIAEAAGIALADTITQPGSVGPYHQGRLVPNYLGPLSLYGFSRRVYRFLHKDHEVVGPDEQCLFFLKSKVDQAATPFSEGKLKRQVRVVQVNHEPRHLSPFTDLALDIPLDLFLGHVQANLAVDPEVLALRRARLASVRAIPEAVPVDHIATLPMTANYFFLRLGDLVRELIERHDYRYTGIYDVGRCGISALRNVPRTGPGFSGWYGRALMGDGLMALPYIAITTEGNVLAFIGDGARALVPDIETRLAASLAQDPRGATKNVTLFYLTNGVLSMIQTYLDKRYAHNGARQVAVTAPAPSPAVERVGPISVNRSRVVQFDPDFLRNALTAPGQLNIIDVTLAHNSDGDGLSLVSETTWNRQ	PGPT0011540_12	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-PRODIGIOSIN_METABOLISM,PGPT0011540-pigD-K21428	NA	NA
BMS010_02836	1272	ampG_1	COG0477	Anhydromuropeptide permease	ATGAGCGCGCCTGTCCTGCGCCTGTTCGGGCGCCAGGCCGTGTTCGGCTGGCTGAACTTCGCCCTGGCGGTGCCGAGCATCTACCTGTTGCTCGGGCTGCCGCTGGTGATGCGCCAGCACGGCTGGTCGGGCACCGACATCGGCCTGTTCCAACTGGCCGGGCTGCCGGCGGTGTTCAAGTTCCTCCTGGCCATGCCGGTGGAGCGCTGGCGCTTCGCCGGCGGCCACTACCGGAGCTGGGCGTTGCTGCTGTGCCTGCTGCTGGCGGCGATCCTGGCGCTGATTGGTCGCCAGGAGTTGCTCGGCAACCGCGGCCTGTTCTTCGCCCTGGCGTTGTTTGCCGGGGTGCTGGCGACCTGGGCGGACATCCCGGTCAACGCCCTGGCGATCAAATTACTGCCGGAAAGCGAACGCATGCGCGCCGGGGCGATCCGCTCGGCGGCGTTGTTCCTGGCCGCCATCGCCGGAGGCGGCCTGATGCTGCTGGTGCACAACCGCTGGGGCTGGCAGGCGCCATTCCTGCTGATGGCGGCCGCCTTGCTGATCGGCGCGGCATTGCTTCCGTTGCTCGGCGAGGTTCCAGCCGAGACGCGCCCGGTCGTGGCGAAGACGCCCCACGGCGATGGCTGGCGCGGCTATTTCGAGCAGCCCGGCGCGGCGCTCTGGACCTGCCTGCTGCTGTCCTGCTTTCCATTCATCGGGGCCAGTTGGCTGTACCTCAAGCCCCTGCTGCTCGACCAGGGCATGCCGCCCGACCGCGTGGCCTGGGTGGCCGGGGTCGGCGGCGGAGTGATCGGCGCCCTGGCCAGCGTGGCGAGCGGGCGGCTGATCCGCCTGCTTGGCGTCGCCCGGGCCATGCCGCTGTTCACCGGCTTTGCCCTGGTCGCCCTGGCCAGTCTGACCGGCGTGGTCTGGGCCGGCGCCGGCACGCTCGGGCTGGTGCTCGGCGCGGCTTTGGTGGCGGCGGCCATGGGGGCGATTTCCGCGCTGGTCTTCGGCCTGATGATGTTTTTCACCCGCCAGCAACGCCAGGCCGCCGACTACGGCCTGCAGGCCAGCCTGTTCGTGGTCTCCCGGCTGGCGGTACCGGTGGCCGCCGGGATGCTGCTCGACCGCCTGGGCTACACCGGCATGCTGCTGGGGCTGACCCTGGCGATGCTCGGGGTCTCCGCCCTGGCCGTGGGCGCCGGGCGGACCCTGGCACGGGTAACGGAACGAAACGGGGGCGCGGCTCGGCTGACCGCCATGGAGCAGGGAGGACGCCGCCCCTGA	MSAPVLRLFGRQAVFGWLNFALAVPSIYLLLGLPLVMRQHGWSGTDIGLFQLAGLPAVFKFLLAMPVERWRFAGGHYRSWALLLCLLLAAILALIGRQELLGNRGLFFALALFAGVLATWADIPVNALAIKLLPESERMRAGAIRSAALFLAAIAGGGLMLLVHNRWGWQAPFLLMAAALLIGAALLPLLGEVPAETRPVVAKTPHGDGWRGYFEQPGAALWTCLLLSCFPFIGASWLYLKPLLLDQGMPPDRVAWVAGVGGGVIGALASVASGRLIRLLGVARAMPLFTGFALVALASLTGVVWAGAGTLGLVLGAALVAAAMGAISALVFGLMMFFTRQQRQAADYGLQASLFVVSRLAVPVAAGMLLDRLGYTGMLLGLTLAMLGVSALAVGAGRTLARVTERNGGAARLTAMEQGGRRP	PGPT0028125_2193	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028125-ampG-K08218	NA	NA
BMS010_02837	1053			hypothetical protein	ATGAACCATCACTCGTCCATGAATGCCCGCCACCCCCTGCAACCCTACTGGGAGATTGCCTTGGCCTCGGTGCAGGCCGACGCCCTGCGCGTGGCCCTGGAATTCCGCCTGTTCAACCTGCTTGCCGAGCCCTTGCCGGCCACGGTGGTGGCCGAGCGCCTGCGCCTGCACCCGGTCAACACCGCGCACCTGCTGGAAATGCTCTGGAGCATGCGCCTGCTGGAGCGCCAGGGCGCCGACGCGGCGCCCGGCGACTGGCGCTACCGGGCCGCACCGGTGGCCCGGCGCTACCTTGACCAGGATTCGGACCACTATTGCGGCGATGCCTGGAGCTTCCGCCTGCAGGCGCTGCGCCATTTCGGCAGCCAGTTGGGCGAACAGGTCCGCACCGGCGAGGCGAGCACCGCGCCGCGATTGGTCGGGACGGCGGCCAATTGGCAGGCGGCGGCACGCCTGCAGATCGCCCAGGAGCAGCGCGCGGCCACGGCCGAGGCGGCGCTGGCGGTGGTCTCGCGGCTGCCCGAGTTTGCCCGCGCCGAGCGGCTGCTCGACCTGGGCGGGGGCCCCGGCCTGGTCGCCATCGCCCTGGCAGAGGCCAATCCGGCGCTGCACGGCGAGGTATTCGACTTCCCGGAAACCATCGGCGTGGCCGAGGAGAACATCGCCCGCGCCAGGCTCGGCGAGCGCCTGCGCGGGCGCGGCGGCGATCTGACTCGCGATCCCCTCGGCGAGGGCTACGACCTGATCTGGTGTTCCTCCGTCCTGCACTTCGTGCCCGATCTCGACCGCGCCCTGGAGAAGATCCACGCCGCCCTGCGGCCGGGCGGGGTGCTGGTCTGCGCCCAGGCGGAAATCCCCGACAGCCCGGACGCGGCGCGGGAGGTGCTGCCCTACTACCTGTCCATGCGCATGCTCGGCCGCCAGGTGACCCGCGCCGGTGGCCTGTGCCGCGCCCTGGAGCGGGCCGGTTTCACGGCCCTGGAAACCCTTCGCGAGGTGCCATTCCCGATGACGCCGGTCACCGCCGTGATCGGTCGCCGGAGTCAGCGATGA	MNHHSSMNARHPLQPYWEIALASVQADALRVALEFRLFNLLAEPLPATVVAERLRLHPVNTAHLLEMLWSMRLLERQGADAAPGDWRYRAAPVARRYLDQDSDHYCGDAWSFRLQALRHFGSQLGEQVRTGEASTAPRLVGTAANWQAAARLQIAQEQRAATAEAALAVVSRLPEFARAERLLDLGGGPGLVAIALAEANPALHGEVFDFPETIGVAEENIARARLGERLRGRGGDLTRDPLGEGYDLIWCSSVLHFVPDLDRALEKIHAALRPGGVLVCAQAEIPDSPDAAREVLPYYLSMRMLGRQVTRAGGLCRALERAGFTALETLREVPFPMTPVTAVIGRRSQR				NA	NA	NA	NA	NA
BMS010_02838	1986	fyuA_2	COG1629	Pesticin receptor	ATGAATAAAAGTGTCCGTATGGGGCTCGGTCTGCTAGGGGGCGTGCTGGTGCCGGCGGTAGGGGTGGCCGAAACGCAGCAGGAGCTGCCGGCCATGACCGTGACCGCCAACAAGGTCGAACAGCGCCAGGAGGCAGTGCCGGCCAGCCTCTCGGTGTTGCAGGGCGAGGATCTGCGCGACGCCGGGGTGGAAGACCTGGAGGCCCTGGCCCGGCGCACGCCGAGTTTCGGTTTCCAGCCGTTCGGCCAGTCCGGTACCAACGTGCCGGTGATACGCGGACTGACCTCCAGCGCCACGGCCTTTTCATCGTCGATGCTGATGCTGGTGGATGGCGTGCCGACCCTGATGGGGCAGGGCTTCGACAACAACCTGCTGGGTGTGGAACGGGTGGAAATTCTCCGTGGTCCGCAATCCACGCTGTACGGACGCAACGCCGAGGCGGGGGTGATGAGCATCCATACCCGCCAGCCCGGCGACGAACCCTATGCCCTGGTCGATGCCACCCTGGGCAGCCGCGACAAGCGCTCGCTGCGCTTCGACCTGAGCCAGGCGCTGGTGGCGGATACCCTGTACGCCGGCATCGCCGGGGAGTGGCGCGAGCAGGACGGCTTCATCGACAACGCCTACCGGGGCGGCGACGAGGACGACCGCGAACGCCATAACGGCCGGGCCGTGCTGCGCTGGACGCCGGTCGCGACCACTAGCGCCACTTTGCGCTACAGCCGCCAGGACTACCGCGACGGCGGCTCGCAGTGGGGTGCGGCGGGGGCGGCGCACCGCGAGGTCCGCTCCGGTACCTCGAGCTGGAACCATTCGAGCGGCCGCAGCCTGTCGCTGGACCTGGTCCACGAACTGGACTCCGGCCTGCGCCTGCGCTCGATCACCGCGCGCAACGACTTCTACGACCGTGTCCGCCAGGACACCGACTTCCTCCCCGCCGATGTGCTGCACGTGGAGCGCGACCACCACCTGAGCACGCTGTCCCAGGAGTTCCGCCTGGAAGGCGAGTGGGAGCAGAGCCAGTGGCTGCTCGGACTCTATGCGGATCGCGACGACCACGACCTGGATTTCCGCCAGAAACTGCCCCTGGGCCTGACCCGCACCCGGGTGGATCTGGGCGGCAACTCCACCGCCCTGTTCGGCCAGTGGACCCTGCCCCTGGCGTCGCGCTGGTCGCTGACCCTGGGCGCCCGTGTCGAGCAGGACAAGGTCAGCCTGTCGCCCCGCAACGGTGGCAGCCGCAGCGACGAATGGCAACGCTTCACGCCCAAGCTGGCACTGCACTACGCCTGGACCGCCGATACCCAGCTCTACGCCAGCTACTCCGAAGGTTTCCGCGCCGGTGGCTTCAACGCGTTCGCCGCATCGGCCGGCTATCCGGGCTACGACCCGGAGCAGGTCGATGCCTACGAGATCGGCCTCAAGGGTTGGGCGGCGAACCGCCGTCTGCGTTACTCGGCCGCGCTCTACTGGATGGACGTCAGCGACATGCAGGTGCAGCAGGTCGTCCAGCCCGGGGTGGTCTACATCACCAACGCCGCCGAGGCGCGCTCCACTGGTCTGGAGCTGGAGGCCGACTACCTGCTCGGCGCCCACTGGCGCGTGCAGGCGTCCCTCGGCCTCAACCGCACGCGCTTCGAACGCTTCCGGGACGGCAGCGCCGACTACCAAGGCAACCGCAATCCCTTCGCCCCCGACCTCACTGGCTACCTGGGCCTGCGCTACGACGCGGCCGAAGGCTGGTACGCCCAGGCCGGGCTGAGCGGGGTGGGGCGCACCTACCTCGATCCGGCCAACCGGTATAGCCGCGGCGGCTACGGCCTGCTCGACCTGAGCGCCGGCTACCGCTTCGACCACTACGGCCTCGCCGTCTACGTGGAAAACGCCACCGACAAGCGCTACGACGCGGTCGGTTACCTCAACGGCATGGCGCGGGTGTACAGCGAACCGCGCGAAATCGGCCTGCGCCTGAGCTACCAACTATGA	MNKSVRMGLGLLGGVLVPAVGVAETQQELPAMTVTANKVEQRQEAVPASLSVLQGEDLRDAGVEDLEALARRTPSFGFQPFGQSGTNVPVIRGLTSSATAFSSSMLMLVDGVPTLMGQGFDNNLLGVERVEILRGPQSTLYGRNAEAGVMSIHTRQPGDEPYALVDATLGSRDKRSLRFDLSQALVADTLYAGIAGEWREQDGFIDNAYRGGDEDDRERHNGRAVLRWTPVATTSATLRYSRQDYRDGGSQWGAAGAAHREVRSGTSSWNHSSGRSLSLDLVHELDSGLRLRSITARNDFYDRVRQDTDFLPADVLHVERDHHLSTLSQEFRLEGEWEQSQWLLGLYADRDDHDLDFRQKLPLGLTRTRVDLGGNSTALFGQWTLPLASRWSLTLGARVEQDKVSLSPRNGGSRSDEWQRFTPKLALHYAWTADTQLYASYSEGFRAGGFNAFAASAGYPGYDPEQVDAYEIGLKGWAANRRLRYSAALYWMDVSDMQVQQVVQPGVVYITNAAEARSTGLELEADYLLGAHWRVQASLGLNRTRFERFRDGSADYQGNRNPFAPDLTGYLGLRYDAAEGWYAQAGLSGVGRTYLDPANRYSRGGYGLLDLSAGYRFDHYGLAVYVENATDKRYDAVGYLNGMARVYSEPREIGLRLSYQL	PGPT0003790_27020	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS010_02839	984			hypothetical protein	ATGGCTGCTTTTCAAAGGATTTCCCAGCCATACCGGTTAGCGATGACCCAGGCGCGCGTTACCCGCCGGGAAACCTCCGGCTGGGAGCGTCACCAGCTTCCGGAAGAGTTGGGCGAGTGCTATTCGGAACGTTTCGCCCTGGATAACGACCTGATGGTGGTGCGCTCGCGCTATCACCCCACCCACGACCTGATCGAAGAAACCATCAACCCCCACGGCCGTCCCATGCTGGTCATCACCTTCGGTCTGCAAGGGCATTCCGGCTACAAGGGCTGCAACGGCGATGCCCTGTGCTTCCGCGCCGGCTATACCACTGTCACCACCTTCCAGAGTAGCCACGGAGAGCGCTGCTACGACGCTGGCGCGACGGTCTCCCAACTGCGCCTGCTGGTGGGCGAAAACACCCTGCGCAAGTACGTGGGTACGGAGCGGGCCGACGGCCTGCTGGGCAGCGGCAACATTCGCCAGTTGGCGTTCCGCAAGTCGTCCGGTGCCAGCAACGCCCATGCCGGCGCGCTGACCCGCTACCTCAGCGACCCGCAGAGCGCGGCCCCGCTGGACATGCACATCCATGCCCTCAGCCTGCTCGCCGAGCAGCTCCACCTGCTCAGCCCGCCGGTACCGGAGACGCTGCAGTTCAGCCCCCGCGACGTAGAGAAACTGGAGCGCGCCCGCGATCTCATGATCGAGAAGATGGACCAGCCGCTGACCATCCCCTACCTGTGCGCGGCGGTGGGGCTCAACGAATTCAAGCTCAAGGAGGGCTTCCACTACCGCTTCAACACCACGCCGCACCGCATGCTCCACGAGTTGCGCATGCGCAAGGCCTATGCCCTGCTGGAAAGCGGCTGCCAGGTGGCCCAGGCGGCCTATCAGGTGGGCTATCGCTACCCGAACAACTTCAGTGCGGCGTTTTCCGCCTTCTTCGGCAAGGCGCCGAAATCCGTGTTCGGCAAGCGGCGGCGGGAGACGAGCAGCGTCTAG	MAAFQRISQPYRLAMTQARVTRRETSGWERHQLPEELGECYSERFALDNDLMVVRSRYHPTHDLIEETINPHGRPMLVITFGLQGHSGYKGCNGDALCFRAGYTTVTTFQSSHGERCYDAGATVSQLRLLVGENTLRKYVGTERADGLLGSGNIRQLAFRKSSGASNAHAGALTRYLSDPQSAAPLDMHIHALSLLAEQLHLLSPPVPETLQFSPRDVEKLERARDLMIEKMDQPLTIPYLCAAVGLNEFKLKEGFHYRFNTTPHRMLHELRMRKAYALLESGCQVAQAAYQVGYRYPNNFSAAFSAFFGKAPKSVFGKRRRETSSV	PGPT0003110_119	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_AQUIRED_RESISTANCE|SAR	SAR-SALICYLIC_ACID_METABOLISM	SAR-SALICYLIC_ACID_BIOSYNTHESIS,PGPT0003110-pchR-K12243	NA	NA
BMS010_02840	963	pikAII		Narbonolide/10-deoxymethynolide synthase PikA2, modules 3 and 4	GTGAAGGCATTGCAAGGTGTGGAAGGACGCTTGGAGTGGATGGATCGACCGGTTCCGCTCTGCGATGTGGGCCAGGTCCGCATCAAGGTAGCCGCCGCCGGGCTGAATCGGGCCGATCTGTTGCAGAAGGCGGGACTCTATCCGCCGCCGCCCGGGGCGAGCGATACCCTCGGCCTGGAATGCGCCGGGGTGATCGCCGAAGTGGGGCCGGGCAGTGCCTGGCAGGTCGGCGACCGGGTCTGTGCGCTGCTCGCCGGTGGCGGCATGGCGGAGGATGTGGTGGTCGATGCCCGTCACGTGCTGCCGGTGCCGGAGCGCCTGTCGCTGGCCGAAGCGGCGGCCCTGCCGGAGGTTTATGCCACGGCCTGGCTCAACCTGTTCCGCCTCGGCGCGCTGCAGCCGGGCGAAAAGGTCCTGCTGCATGCCGGTGCCAGCGGTGTGGGGTCGGCGGCCATCCAGTTGTGCAAGGCGTTCGGCAATCCCTGCTGGGTCAGCGTCGGATCGGCCGAGCGGCTGGCTTATTGCGAGTCCCTGGGTGCCCAGGGCGGCGCGTTGCGCGATGAAAATCTCGATGATCTGCGCGATTTCGGCCCGTTCGACATGATCCTCGACCCGGTCGGCGGCAACTACGCGGCCCTCAATCTCGACCTGCTGGCCCGCGACGGCCGCTGGGTGAACATCGGCCTGATGGGCGGGCGCAAGGCGGAGCTGGACCTGGCCTTGCTGCTCGGCAAGCGCGTCCAGTTGATCGGCTCGACCCTGCGCAACCGCGACGATCAGTACAAGGCCGAGCTGATCGGCGAGCTGCGCCGCAACGTCTGGCCGCTGTTCGACGAAGGCCGCCTGCAACCGCGGCTGGAGAAGCGCTTCCCGGCGAAGGACGCCGACGCCGCCTTCGACGCCCTGGCGAGCAACCGGATCGCCGGCAAGGTGGTGCTGGTACTGGACGAAACGCTCGCCTGA	MKALQGVEGRLEWMDRPVPLCDVGQVRIKVAAAGLNRADLLQKAGLYPPPPGASDTLGLECAGVIAEVGPGSAWQVGDRVCALLAGGGMAEDVVVDARHVLPVPERLSLAEAAALPEVYATAWLNLFRLGALQPGEKVLLHAGASGVGSAAIQLCKAFGNPCWVSVGSAERLAYCESLGAQGGALRDENLDDLRDFGPFDMILDPVGGNYAALNLDLLARDGRWVNIGLMGGRKAELDLALLLGKRVQLIGSTLRNRDDQYKAELIGELRRNVWPLFDEGRLQPRLEKRFPAKDADAAFDALASNRIAGKVVLVLDETLA	PGPT0013255_872	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
BMS010_02841	2085	prc	COG0793	Tail-specific protease	ATGAAACGCCTCCTGCCCAGCACCGCCCTTGCCTTCATCCTTGGCTTCAGCGCCATGCCGCTGTTCGCCAAGACCACCGCCGGCCCCGATGGCTGGGATGCGTTGCAGCCCGACCGTGAGCAGGTGATCGCCAGTCTCAACGTGGTGGAACTGCTCAAGCGCCATCACTACAACAAGCCGCCGCTGAACGACGAGCGTTCGGAAAAGATCTACCAGGGTTACCTGAAGATGCTCGATCCGTCGCGCAGCTATTTCACCGCCGCCGACATCGCCGAGTTCGACAAATGGCGGACCCAGTTCGACGACTTCCTCAAGAGCGGCAACCTCGAACCGGGCTTCACCATCTACAAGCGCCACCTCGACCGCCTCAAGGAGCGCCTCGACTACGCGCTGGCCCTGCTCGACAAGGGCGTCGACAGCTTCGACTTCAGCGTCGATGAAACGCTCCTGGTCGACCGCAAGGACGCCCCCTGGGCGAAAGACAAGGCCGAGCTGGACGACCTCTGGCGCAAGCGCGTGAAAGACGAAGTGCTGCGCATGAAGATCGCCGGCAAAGACCCGAAGAACATCCAGGAACTGCTGACCAAGCGCTACAAGAACCAGCGCGCGCGCCTGGAGCAGACCCGCGGCGAAGACGTCTTCCAGAGCTACATCAACGCCTTCGCCCAGTCCTACGACCCGCACACCAACTACCTGTCGCCGGACAACGCGGAAAACTTCGACATCAACATGAGCCTGTCGCTGGAAGGCATCGGCGCGGTGCTGCAGAGCGACAACGAGCACGTCAAGGTGGTCCGCCTGGTGCCGGCCGGCCCGGCCGAGAAGAGCAAGCAGATCGCCCCCGCCGACAAGATCATCGGCGTTGCCCAGGGCAACGGCGAAATGGTCGACGTGATCGGCTGGCGCCTGGACGAAGTGGTCAAGCTGATCCGCGGGCCGAAAGGCTCGGTGGTGCGCTTGGAAGTGATCCCGGCGAGCAACGCGCCGAACGATCCGACCAGCAAGGTGGTGTCCATCACCCGCGAAGCGGTGAAGCTGGAAGAGCAGGCGGCGAAGAAGTCCGTCCTCAAGCTGGAGCATGACGGCCGCGAGTACAAGCTGGGCGTCATCGACGTGCCGGCCTTCTACCTGGACTTCAAGGCCTTCCGCGCCGGCAACCCGGACTACAAGAGCACCACCCGCGACGTCAAACGCCTGATCACCGAACTGCAGAAGGACAAGGTCGACGGCATCGTCATCGACCTGCGCAACAACGGCGGCGGTTCCCTGCAGGAAGCCACCGAGCTGACCAGCCTGTTCATCGAACAGGGCCCGACCGTACTGGTGCGCAACAGTGACGGCCGCGTCGACGTGCTCGCCGACGAGAACAGCGGCGCCTTCTACACCGGCCCGCTGGCCGTGCTGGTCAACCGCCTGTCGGCCTCCGCCTCGGAAATCTTCGCCGGTGCCATGCAGGACTACCATCGCGCGCTGATCCTTGGCGGACAGACCTTCGGCAAGGGCACGGTGCAGACCATCCAGCCGCTCAACCACGGCGAGTTGAAGCTGACCCTGGCCAAGTTCTACCGCGTGTCCGGGCAGAGCACCCAACACCAGGGCGTGATTCCCGACATCACCTACCCGGACGTGGTGGACACCAAGGAAATCGGCGAAAGCGCCCTACCCGAGGCCATGCCCTGGGACAGCATCCGCCCGGCGATCCGCCCGGAAATGGACCCGTTCAAGCCGTTCCTGACCGAGCTCAAGGCCCGTCATGACGCCCGCACGGCGAACGACCCCGACTTCGTCTTCACCCGCAAGCGCCTGGCACTGGCCCAGCAACTGATGCAGGAAACCACCGTCAGCCTCAACGAAAGCAAGCGCCGCTCCCAGCAGGCGGACATCGAGGCCCAGCAACTGGCCATCGAGAACGCCCGGCGCAAGGCCAAGGGCGAAGAACCGCTGAAGGAGCTGAAACAGGAAGACGAGGAAGCGCTGCCACTGGACGACGAGAAGACCAAACCGGAAGACGATGCCTATCTCTCCGAGAGCGGTCGCATCCTGCTGGATTACCTGGGCCTCAGTGCCACGGTAGCCAAGCACTGA	MKRLLPSTALAFILGFSAMPLFAKTTAGPDGWDALQPDREQVIASLNVVELLKRHHYNKPPLNDERSEKIYQGYLKMLDPSRSYFTAADIAEFDKWRTQFDDFLKSGNLEPGFTIYKRHLDRLKERLDYALALLDKGVDSFDFSVDETLLVDRKDAPWAKDKAELDDLWRKRVKDEVLRMKIAGKDPKNIQELLTKRYKNQRARLEQTRGEDVFQSYINAFAQSYDPHTNYLSPDNAENFDINMSLSLEGIGAVLQSDNEHVKVVRLVPAGPAEKSKQIAPADKIIGVAQGNGEMVDVIGWRLDEVVKLIRGPKGSVVRLEVIPASNAPNDPTSKVVSITREAVKLEEQAAKKSVLKLEHDGREYKLGVIDVPAFYLDFKAFRAGNPDYKSTTRDVKRLITELQKDKVDGIVIDLRNNGGGSLQEATELTSLFIEQGPTVLVRNSDGRVDVLADENSGAFYTGPLAVLVNRLSASASEIFAGAMQDYHRALILGGQTFGKGTVQTIQPLNHGELKLTLAKFYRVSGQSTQHQGVIPDITYPDVVDTKEIGESALPEAMPWDSIRPAIRPEMDPFKPFLTELKARHDARTANDPDFVFTRKRLALAQQLMQETTVSLNESKRRSQQADIEAQQLAIENARRKAKGEEPLKELKQEDEEALPLDDEKTKPEDDAYLSESGRILLDYLGLSATVAKH	PGPT0015095_828	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0015095-prc|ctpA-K03797	NA	NA
BMS010_02842	1761			hypothetical protein	ATGACCGTCACCGAGCAGTTGAGCGCACTGGCCCAGATCCTCGCTCACGGCGACCTGAACAGCCTGTTCCAACCCATCGTGTCGCTATCCGAGCGACGTATCCTGGGCTATGAGGCCCTGACCCGCGGCCCGTCCAACAGTTCGCTGCACTCCCCCGTCACCCTGTTCGCCGTGGCCCGTCATGCCGGCCGTCTCAACGAACTTGAAATCGCGTGCCGGCGACGCGCCTGCACCCGCTTCCACGAACTCAAGCTGAACGGCAGCCTGTTCCTCAACGTATCCCCGGAATCGCTGCTCGATCCGGCCCACCAACCCGGCCGCACCCTGCAATTGCTGGAAGCCTTCGGCATCCCGCCGAGCCAGGTGGTGATCGAGCTGACCGAGCAGACCCCCACCGAAGATTTCGGCCTTCTCGACACCGCCCTGCACCACTACCGCGCCATGGGCTTTTCCATCGCCCTCGACGACCTCGGCGCCGGCTACTCCAGCCTGCGCCTGTGGTCCGAACTGCGCCCGGACTATGTGAAGATCGACCGCCACTTCATCGACGGTATCCACCAGGACGCGGTGAAGCGCGAATTCGTCGGCTCCATTCTGCAGATGGCCAAGGCCTCCCGCGCCCAGGTCATCGCCGAGGGCATCGAACTGCCGGAAGAACTGGCCGTGCTCGCCGAGATGGGGGTCGACCTGGTGCAAGGCTACCTGCTCGGCCGTCCCCAGGACCAGCCGCCACGGGACGCCCGCGGCCTGCTGCCACGCCTGGATGCCTCGGCGGCATCGCTGGCCGAGGAAGGCACCGATCTCTCCGCACTGCTCATCGACCAGCCGGCGATGGCCGACAACGCCCTGGTGGGCGACGTGCTGGATGCCTTCCGTAGTCAGCCGAACCTGAACTCCCTGGCAATCCTCGATGCCCACCGCCAGCCTGTCGGTATCGTGCATCGCCATTCGTTGTCGGATGCGCTGCTCAAGCCCTTCGCCACCGAGCTGTACGCGCGCAAGCCGATCAGCCGGCTGATGAGCGAGGACTTTCTTGCCGTCGAGTTGGGGCAATCGTTGCAACAGGTCAGCCGTCTGCTCACCAGCCGCGCCCGTCAGCGCATCGAGGAAGATTTCATCATCACCCTCGATGGCCGCTACCAGGGCCTGGGCCGGGTCATCGACGTGCTCAAGCTGATCACCGAACTGAAGATCCAGCAGGCCCGGCACGCCAACCCGTTGACTCTGTTGCCGGGCAACGTGCCCATTCAGCAATGCCTGCAACGCCTGCTCCAGCAAGGCCGCGAAGCGGTGGTCTGCTACGTGGACATCGACAGCTTCAAACCCTTCAACGACCTCTACGGCTATGCCAAGGGCGACGAAGTGCTGCTCTGCCTGGCGCAATGCCTGAGCGAGCGGGTCGATCCGACGCGGGATTTCGTCGGCCATATCGGCGGAGACGACTTCATGCTGGTGCTCGGCTCGGAAGACTGGCGTCCGCGCCTCAATCAGCTCCTGGAGGATTTCCAGGGGCAGTGCCGGCGCTTCTACCGCACCGATCACTTGCAGGCAGGTTGCTTCGTCAGTCATAACCGCCTGGGCGTGCGCGAGGAGTTTCCGCTGTTGTCGCTATCCCTGGGCGTGGTGCAGCTTCGTGCTGCAGCCTCCGCCAACCTCGACGCCAGCCAACTGGCGAGCCTGGCCTCGGAAGCCAAGCGCCAGGCCAAGGCGGTGCCCGGCTATAGCCTGCACATCATCGATACACAACAGTGGGTGGGGTGA	MTVTEQLSALAQILAHGDLNSLFQPIVSLSERRILGYEALTRGPSNSSLHSPVTLFAVARHAGRLNELEIACRRRACTRFHELKLNGSLFLNVSPESLLDPAHQPGRTLQLLEAFGIPPSQVVIELTEQTPTEDFGLLDTALHHYRAMGFSIALDDLGAGYSSLRLWSELRPDYVKIDRHFIDGIHQDAVKREFVGSILQMAKASRAQVIAEGIELPEELAVLAEMGVDLVQGYLLGRPQDQPPRDARGLLPRLDASAASLAEEGTDLSALLIDQPAMADNALVGDVLDAFRSQPNLNSLAILDAHRQPVGIVHRHSLSDALLKPFATELYARKPISRLMSEDFLAVELGQSLQQVSRLLTSRARQRIEEDFIITLDGRYQGLGRVIDVLKLITELKIQQARHANPLTLLPGNVPIQQCLQRLLQQGREAVVCYVDIDSFKPFNDLYGYAKGDEVLLCLAQCLSERVDPTRDFVGHIGGDDFMLVLGSEDWRPRLNQLLEDFQGQCRRFYRTDHLQAGCFVSHNRLGVREEFPLLSLSLGVVQLRAAASANLDASQLASLASEAKRQAKAVPGYSLHIIDTQQWVG				NA	NA	NA	NA	NA
BMS010_02843	471			hypothetical protein	ATGCTCTGGTGGCGTTTGCGTGCACGACTGGGTTACACGGTGGCCCGTCGCCTGTTCCACTGGCGGAGGCTGATGGAGCAGCCGCGCGTCTGGCGCTGGATGGAAGGCCAGTTCGCGCGCATGGCCAACCTGGGGCATGTCCCAGCCCAGAGTTTCTACGGGCACTTGCTGTTGTTCCGTGGCCAAGGGCTGGGCGCAAGGGACGAAGGCTTGCGTCTGCTGCGACTGGCGGCCCAGGCGGGGGACGCCAAGTCGGCCTACCAGCTCGGCGTCGCCAGCCTCAACGGCGATGCACGCAAAGCCCCGGATGGCGTGGAGGCCGCACGCTGGTGGACCCTCGCCGCCGAAGCCGGCCATCCGCTGGCGGCGCGCAAGCTCGCCGATCTATACCGCGACGGCGGACACGGCTTGGCAGCCGATCCGCTAAAGGCCGAACAATTGAGTCAACGTGCCAGCCAGCTCGGGCTCTGA	MLWWRLRARLGYTVARRLFHWRRLMEQPRVWRWMEGQFARMANLGHVPAQSFYGHLLLFRGQGLGARDEGLRLLRLAAQAGDAKSAYQLGVASLNGDARKAPDGVEAARWWTLAAEAGHPLAARKLADLYRDGGHGLAADPLKAEQLSQRASQLGL	PGPT0000855_6628	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-ACIDITY|NITROGEN_RELATED_REGULATION,PGPT0000855-exoR-K07126	NA	NA
BMS010_02844	366			hypothetical protein	TTGAGTGTGCGTATCAGTCGCCTGCATTGGCAGGCGCTTCTCAACGAACTGGACGATGCACGCCGCCAGCGCCATCTGCTCACCTACCGCGCCCTGATCGAGCGCCTGCAGTTGCCGCCGCCGGCCATGCAGACGCTCACTGCCGCGCTGGAGCATCTGGCCGTACTGGATGCGCGTGCCGAGCGGCCGTTGCGCAGCTCGCTGGTGATCAGCCAGGGGGCGAGTCGCCTGCCGCGTACCGGCTTCTTCGATTGCGTGGCACGCATCGGGCGCTTCGCCGGCCCGTCGGATGGCGTGGCGGCGGCGTCCTGGCATGCGGCCGAAGTGGCGCGTGTATTCGAGTTCGACTACCCCGAGGAGCCCTGA	MSVRISRLHWQALLNELDDARRQRHLLTYRALIERLQLPPPAMQTLTAALEHLAVLDARAERPLRSSLVISQGASRLPRTGFFDCVARIGRFAGPSDGVAAASWHAAEVARVFEFDYPEEP				NA	NA	NA	NA	NA
BMS010_02845	318			hypothetical protein	ATGAGTGTGCAAGTGATCATGCGTGACGGCGAGGCGGAGTACGCCGTCCTGCCCTGGTCCGAGTATCAGGCTTTGTTGAAGGCCGCCGGACGAAGCGGGCAGGTCTCTCCGGATGAGTCAGCGGAACCCACCGGCCTGGAGCGCCTTGCGGCGTTGCGCGAAGCCCGGGGGATGACCGTTCAACAGTTGGCTCAGGCGGTCGGCGTCAGCCCCCACTATCTGGATCTGATCGAGAAAGGCGAGCGCCAGCCCGACATGGCCATCCGCCGTGCTTTGGCGCGGGCGCTGGGTGTAGCAGGCTGGGAGTCCCCGTCTTGA	MSVQVIMRDGEAEYAVLPWSEYQALLKAAGRSGQVSPDESAEPTGLERLAALREARGMTVQQLAQAVGVSPHYLDLIEKGERQPDMAIRRALARALGVAGWESPS				NA	NA	NA	NA	NA
BMS010_02846	429			hypothetical protein	GTGAAAGCACCGTGGAATTTTGCACGTTACCTGCCCGTGGCCGAGCGTCTGCTGGTGCGGGGGCGCTTGCCGAAGTTGTTGCTCGCGGTGGCAAAAAAGGGTGGCCGTGAAGGACGCCGGCTGGGGGGCGTCAAGGACGATCTGCGTCTGTTGCAGGCACTGTGCCTCGCCTGGTGGCGCGGCGAGTACCGGGCCATCGGCTCCCAGGCACTGGTGGCTTCGGTGGCGGCGCTGGCATATTTCCTCTCGCCGATGGATGCGATTCCGGACTGGCTCCTGGCAATCGGCCTGATCGACGACCTGGCGGTCCTGGCCTGGGTGTTGCGCACCTGGCGGACCGAACTGGACGCGTTCCGGGCCTGGCATTTCGCCCAGCCGGCGGAGCGGGTCGCGCCGCCTTTGCTGCCGGCTCCGGGCCGTCAGGAGTAA	MKAPWNFARYLPVAERLLVRGRLPKLLLAVAKKGGREGRRLGGVKDDLRLLQALCLAWWRGEYRAIGSQALVASVAALAYFLSPMDAIPDWLLAIGLIDDLAVLAWVLRTWRTELDAFRAWHFAQPAERVAPPLLPAPGRQE				NA	NA	NA	NA	NA
BMS010_02847	744	fklB_1	COG0545	FKBP-type 22 kDa peptidyl-prolyl cis-trans isomerase	ATGAGACAACATCGGTTGGCCGCAGCGATGGCCCTGGTAGGCCTGGTTCTCGCGGGCTGCGATTCGCAGACCAGCGTTGAACTGAAGACTCCGGCCCAGAAAGCCTCCTACGGCATCGGCCTGAACATGGGCAAGAGCCTGGCCCAGGAAGGCATGGACGACCTCGATTCGAAAGCGGTCGCCCAAGGCATCGAAGACGCCATCGGCAAGAAAGAGCAGCGCCTGAAGGACGACGAGCTGATGGAAGCCTTCGCCTTCCTGCAGAAGCGTGCCGAAGAGCGCATGGCGGCGATCAGCGACGAGAACGCCAAGAAGGGCAAGCAGTTCCTGGAAGAGAACGGTAAGCGCGAAGGCGTGACCACCACTGCTTCCGGCCTCCAGTACGAAGTGCTGAAGAAAACCGACGGCGCCCAGCCCAAGCCCACCGACGTGGTCACCGTGCACTACCAGGGCAGCCTGGTGGACGGCAGCGTTTTCGACAGCTCCATCGAGCGTGGCAGCCCCATCGACCTGCCGGTCAATGGCGTGATCCCCGGTTGGGTGGAAGGCCTGCAGCTGATGCATGTCGGCGAGAAATACAAGCTGTTCATCCCCAGCGAGCTGGCCTACGGTGCGCAGAGCCCGTCGCCGATGATCCCGGCCAATTCGGTGCTGGTGTTCGAACTGGAACTCCTCGGCATCAAGGGTCAGGGCCAGGGCGAAGCACCTGAGCAGACCGAGCCGGCCGAACAGCCTCAGCAGTAA	MRQHRLAAAMALVGLVLAGCDSQTSVELKTPAQKASYGIGLNMGKSLAQEGMDDLDSKAVAQGIEDAIGKKEQRLKDDELMEAFAFLQKRAEERMAAISDENAKKGKQFLEENGKREGVTTTASGLQYEVLKKTDGAQPKPTDVVTVHYQGSLVDGSVFDSSIERGSPIDLPVNGVIPGWVEGLQLMHVGEKYKLFIPSELAYGAQSPSPMIPANSVLVFELELLGIKGQGQGEAPEQTEPAEQPQQ				NA	NA	NA	NA	NA
BMS010_02850	921	rdgC	COG2974	Recombination-associated protein RdgC	ATGTGGTTCCGCAACCTGCTCGTCTACCGCCTCACCCAGGACATCCCCTTCGATGCCGAAGCGCTGGAAGCGCAACTGGCCGCCAAGCCGGCCCGCCCCTGCGCCAGCCAGGAACTGACCACCTATGGCTTCATGGCGCCGTTCGGCAAGGGCGAAGACGCTCCGCTGGTGCACGTCAGCCAGGACTTCCTGCTGATTGCCGCACGCAAGGAAGAACGCATCCTGCCCGGCAGCGTGGTGCGCGATGCCCTGAAGGAGAAGGTCGACGAGATCGAGGCCGAGCAGATGCGCAAGGTCTATAAGAAGGAGCGCGACCAGCTCAAGGACGAGATCATCCAGACCTTCCTGCCGCGCGCCTTCATCCGTCGCTCGGCGACCTTCGCCGCGATCGCCCCCAAGCTGGGCCTGATCCTGGTCGACTCCGCCAGCCCGAAGCGCGCCGAAGACCTGCTCTCCACCCTGCGTGAAGCCATCGGCTCGCTGCCGGTGCGTCCGCTCAGCGTCAAGGTCGCACCCACCGCCACCCTCACCGACTGGGTGAAGTCGCAACAGGCCGCGGAAGGCTTCTTCGTCCTCGACGAATGCGAACTGCGCGACACCCATGAAGACGGCGGCGTGGTGCGCTGCAAGCGCCAGGACCTGACCAGCGAGGAAATCCAGCTGCACCTGAGCACCGGCAAGCTGGTCACCCAGTTGTCCCTGGCCTGGCAGGACAAGCTGTCCTTCGTGCTGGACGACAAGCTGGCGATCAAGCGCCTGCGCTTCGAAGACCTGTTGCAGGACCAGGCCGAGCAGGACGGTGGCGACGATGCCCTCGGCCAGCTGGATGCCAGTTTCACCCTGATGATGCTGACTTTCTCCGAATTCCTCCCGGCGCTGTTCGAAGCCCTGGGTGGCGAGGAGATTCCGCAGGGCATTTGA	MWFRNLLVYRLTQDIPFDAEALEAQLAAKPARPCASQELTTYGFMAPFGKGEDAPLVHVSQDFLLIAARKEERILPGSVVRDALKEKVDEIEAEQMRKVYKKERDQLKDEIIQTFLPRAFIRRSATFAAIAPKLGLILVDSASPKRAEDLLSTLREAIGSLPVRPLSVKVAPTATLTDWVKSQQAAEGFFVLDECELRDTHEDGGVVRCKRQDLTSEEIQLHLSTGKLVTQLSLAWQDKLSFVLDDKLAIKRLRFEDLLQDQAEQDGGDDALGQLDASFTLMMLTFSEFLPALFEALGGEEIPQGI				NA	NA	NA	NA	NA
BMS010_02851	948	panS_1	COG0385	Pantothenate precursors transporter PanS	ATGCGTGCGCTCGCTGCTTTCAGCCGCTTCGTCGGCAATACCTTCGCCCTCTGGGTGCTGTTGTTCGCCGTGCTGGCGTTCTTCCAGCCGGCCTGGTTCCTGCCGGCCACCGCCTGGATCGTGCCGCTGCTAGGGCTGATCATGTTCGGCATGGGCCTGACCCTGAAGACCGAGGACTTCCGCGAGGTGGTGCGCCGTCCGCTGTGGGTGCTGCTCGGTGTCGCCGCGCAGTTCCTGATCATGCCGGGCCTCGCCTGGCTGCTCTGCCAGGTGCTCGGGTTGCCGCCGGAAATCGCCGTCGGCGTGATCCTGGTCGGCTGCTGCCCGGGCGGCACCGCATCCAACGTCATCACCTGGTTCTCACGCGGCGACGTCGCGTTGTCGGTATCGATCACCGCCGTCACCACCCTGCTCGCGCCGCTGGTGACCCCGGCGCTGATCTGGCTGCTGGCCTCCGCCTGGTTGCCGGTAAAGTTCGGCGCTCTGTTCATGTCCATCCTGCAGATCGTACTGCTGCCCATCGTCCTCGGTCTGATCGCCCAGCGCCTGCTCGGAAAACGGGTGCATCACGTGGTGGACGTGCTGCCGCTGGTTTCGGTGGTCAGCATCGTGATCATCGTCGCCGCCGTGGTGGCGGCCAGCCAGGCGAAGATCGCCGAATCCGGGCTGCTGATCATGGCCGTGGTGGTGTTGCACAACAGCCTGGGGCTGGGCCTGGGCTATCTGATCGGCCATCTCTTCGGCTTGCCGCTGGCACAGCGCAAGACACTGTCCATCGAGGTCGGCATGCAGAACTCCGGCCTGGGCGCCGCCCTCGCCAGCGCGCATTTCTCGCCACTGGCGGCAGTACCCAGCGCCCTGTTCAGCGTCTGGCACAACCTCTCCGGCGCCCTGCTGGCAACCGTTTATCGTCGCATAGGTCAGGATTCCGAAAAAATCTCGAAATGA	MRALAAFSRFVGNTFALWVLLFAVLAFFQPAWFLPATAWIVPLLGLIMFGMGLTLKTEDFREVVRRPLWVLLGVAAQFLIMPGLAWLLCQVLGLPPEIAVGVILVGCCPGGTASNVITWFSRGDVALSVSITAVTTLLAPLVTPALIWLLASAWLPVKFGALFMSILQIVLLPIVLGLIAQRLLGKRVHHVVDVLPLVSVVSIVIIVAAVVAASQAKIAESGLLIMAVVVLHNSLGLGLGYLIGHLFGLPLAQRKTLSIEVGMQNSGLGAALASAHFSPLAAVPSALFSVWHNLSGALLATVYRRIGQDSEKISK	PGPT0013890_1702	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013890-panS|yocS|ybaS-K03453	NA	NA
BMS010_02853	315	gdx_1	COG2076	Guanidinium exporter	ATGTCCTGGTTCATTCTGTTTTTCGCCGGTCTGTTCGAAGTCGGCTGGGCCGTCGGCCTGAAATACACCGACGGCTTCAGCCGCCCCCTTCCCACCCTGCTCACCATAGGCGCCATCCTGGCGAGCCTGGGCCTGCTCGGCCTGGCCATGAAGGAATTGCCCCTGGGTACCGCCTATGCAATCTGGACCGGCATCGGCGCGGTGGGCACCGTGATTGCCGGTGTGATCCTCTTCGGCGAGTCGCTGGCCCCGTTGCGGCTGGCCAGCGTGGCGCTGATCGCCTGCGGCCTGGTGGGGCTCAAGTTGAGCCATTGA	MSWFILFFAGLFEVGWAVGLKYTDGFSRPLPTLLTIGAILASLGLLGLAMKELPLGTAYAIWTGIGAVGTVIAGVILFGESLAPLRLASVALIACGLVGLKLSH	PGPT0028785_1753	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-QUATERNARY_AMMONIUM_COMPOUND_RESISTANCE_,PGPT0028785-sugE-K11741	NA	NA
BMS010_02854	1878	lplT		Lysophospholipid transporter LplT	ATGAGCGCACCCTCTCAATTCGCTTTGCTCGGCAAACGGCGCTTCCTGCCGTTCTTCCTCACCCAGTCGTTGGGGGCTTTCAACGACAACATCTTCAAGCAGTCGCTGATCCTCGCCATCCTCTACAAGCTTGGTTCCAGTGCGGACAAGAGCCTGTTGGTGAACCTCTGCGCGCTGCTGTTCATCCTGCCGTTCTTCCTGTTCTCCGCCCTCGGCGGGCAGTTCGGCGAGAAGTACGCCAAGGATTCGTTGATCCGCACGATCAAGTTCGCCGAGATCGTCATCATGGCCGCCGGCGCGACCGGACTGATGCTGGGCAGCCTGCCGCTGATGCTCGCCGTACTGTTCTGCATGGGTACCCAGTCGGCGCTGTTCGGGCCGGTGAAGTATTCGATCCTGCCGCAGCACCTCAAGGAAGAAGAACTGGTCGGCGGCAACGCCCTGGTGGAAATGGGCACCTTCCTGGCCATCCTCGCCGGCACCATCGGCGCCGGGATCATGATGTCCTTCGAGGGCTACGCCGGCATCGTGGCCACCTCGGTGATCCTGGTGGCGGTCCTGGGCTACCTGGCCAGCCGCGGCATCCCCCGTGCCCACGCAGCGCTGCCGGAGCTGGCGCTGGATTGGAACATCTTCCGGCAATCCTGGGCCATCCTCCACCTGGGGCTGGTCAAGCAATTGCCCTCGGTGTCGCGCTCGATGCTGGGCAACTCCTGGTTCTGGTTCCTCGGCGCGGTCTACCTGACGCAGATCCCGGCCTATTCCAAGGACCTGCTGCACGGCGACGAAAGCGTGGTCACGCTGATCCTCACCGTGTTCTCGGTGGGCATCGCGCTGGGCTCTGTGCTTTGCGAGCGGTTGTCCGGGCACAAGGTGGAAATCGGCCTGGTGCCCTTCGGCTCCGCCGGCCTGACCCTGTTCGGTATCCTGCTCTGGTGGCTGTCCGGCGGCTTCCCCCAAGCCGCGCAGCCGCACGACTGGCTGGGCGTGCTCGCCCACGGCCAGGCCTGGGCCGTCCTCGGTTGCGTGCTGGGCATCGGCATGTTCGGCGGCTTCTACATCGTCCCGTTGTACGCGCTGATCCAGGCCCGTACCGCCGAGCACGAGCGCTCACGGGTGATCGCCGCGAACAACATCCTCAACGCGCTGCTGATGGTGATCTCGGCCATCGTCGCGATCCTCTTCCTGACCGTCGCCGGGCTGTCGATCCCCGAGTTGTTCCTCGCCGTGTCGCTGATGAACGTCGCGGTGAACGCCTACATCTTCAAGATCGTCCCCGAGTTCAGCATGCGCTTCATGGTCTGGCTGCTCGGCCATTCGATGTACCGGGTCGAGCACAAGGGCCTGGACGCCATCCCGGATGAGGGGCCGGCGCTGCTGGTGTGCAACCACGTCTCCTTCGTCGACGCCCTGCTGATCGGCGGCGCGGTGCGCCGGCCGGTGCGCTTCGTCATGTACTACAAGATCTACAACCTGCCGGTGCTCAACTTCATCTTCCGCACCGCGGGCACCGTGCCCATCGCCGGGCGCAACGAGGACCTGCTGATCTACGACGCGGCGTTCAAGAAGATCGGCGAATATCTGAAGAACGGCGAAGTGGTGTGCATCTTCCCCGAGGGCAAGCTGACCGGCGACGGCGAGATCAACGAGTTCAAGGCCGGCGTCGAGCGCATCCTCGCGGAAAACCCGGTGCCGGTGATCCCCATGGCACTGCAGGGGTTGTGGGGCAGCTTCTTCAGCCGCGACCCGAGCAAGGGCTTCTTCAAACGCTTCTGGTCACGCATCACCCTGGTCGCCGGCCCGGCCCTGGCGCCGGAAAACGCCGACCGGCAGACGCTCCAGGCCCAGGTGAGCGAATTGCGTGGGGCGGTGCGGTAA	MSAPSQFALLGKRRFLPFFLTQSLGAFNDNIFKQSLILAILYKLGSSADKSLLVNLCALLFILPFFLFSALGGQFGEKYAKDSLIRTIKFAEIVIMAAGATGLMLGSLPLMLAVLFCMGTQSALFGPVKYSILPQHLKEEELVGGNALVEMGTFLAILAGTIGAGIMMSFEGYAGIVATSVILVAVLGYLASRGIPRAHAALPELALDWNIFRQSWAILHLGLVKQLPSVSRSMLGNSWFWFLGAVYLTQIPAYSKDLLHGDESVVTLILTVFSVGIALGSVLCERLSGHKVEIGLVPFGSAGLTLFGILLWWLSGGFPQAAQPHDWLGVLAHGQAWAVLGCVLGIGMFGGFYIVPLYALIQARTAEHERSRVIAANNILNALLMVISAIVAILFLTVAGLSIPELFLAVSLMNVAVNAYIFKIVPEFSMRFMVWLLGHSMYRVEHKGLDAIPDEGPALLVCNHVSFVDALLIGGAVRRPVRFVMYYKIYNLPVLNFIFRTAGTVPIAGRNEDLLIYDAAFKKIGEYLKNGEVVCIFPEGKLTGDGEINEFKAGVERILAENPVPVIPMALQGLWGSFFSRDPSKGFFKRFWSRITLVAGPALAPENADRQTLQAQVSELRGAVR	PGPT0021850_173	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_ACYLTRANSFERASE_ACTIVITY,PGPT0021850-aas-K05939	NA	NA
BMS010_02856	2082	fecA	COG4772	Fe(3+) dicitrate transport protein FecA	ATGTCGTCTGTCTGCATGCCTTCGCGCCTGGCCCTGGGCGTTGCCCTGGCTTTTTCTGCTTTGCCTCTGATCGCCGCCGAGACCCATGATCTCGGCGAGACCACGGTGGTCGGCGACTGGCTCGGCGAGGCGTCCGAGCAGGACGTGAAGAACCACCCCGGCGCGCGGACCGTGGTGCGCCGCCAGCAGATCGAGGAGAGCGGCGCCAGCAACGTGCGCGACGTGCTGCGCCGGGTCCCCGGCCTGCAGGTGCAGGACAGCAACGGCACGGGCGGCAGCGACATCTCCCTGAACGTCGGTAGCCGCGGCCTGACTTCCCGCCTGTCGCCGCGCGCCACTATCCTGCAGGACGGCATTCCCCTGGCCATTGCGCCCTACGGCCAGCCGCAACTGTCCCTGGCGCCCACCAGTCTGGGCAACATCGAGTCCATCGACGTGGTGCGCGGCGGCGGCGCGGTGCGCTACGGCCCGCAGAACGTCGGCGGCATCATCAACTTCGTCACCCGCGGAATTCCCGAGGAACTGGTGCGGGAAATCAGCTACCAGACCGAATCGGCACCGGCCCAGGGCGGTTTTCTCAACCGCACCAATGCCTTCCTCGGCGGCACCGCCGACAACGGCCTGGGCGCGGCCCTGCTGTACTCCGGTGTGCGCGGCGATACCTATCGCGACCACAGCGGCACCCGCATCGACGACGTGATGCTCAAGTACAAGTACGCGCTGAGCGACATCGACGAGCTGTCCGGCAGCCTGCAGTTCTACCAGGCCGACGCCGACATGCCGGGCGGCCTGAGCGCCGCCGATTTCGACGCCGACCCGTACCAGAGCACCCGTCCGTACGACAGCTTCGAAGGCGACCGCAAGCAGGCGGTGGTCAAGTACACTCGCACCCCGGACGCCGAGCGCCAGTTCGAGGTGACCGCCTTCTATAACACCAGCTACCGCAGCGGTATGCTCGCCAACAACACGCCGCAGCGCATGACTTGGCTGCGCGAACTGCCGCGGGACTACGAGGTGTTCGGCATCGAGCCGCGCTATTCGCAAATCTTCTACGCCGGCGACAGCAGCCACGAAGTGGGCATCGGCTACCGCTACATGGAAGAGGACTCCACCGAGAAGCGCTACGACCGCAGGGGCTTCGGCACCGGCGGCGATCCGTACAGCGTGCCCAAGCGCCTGGCCATCTATAACGTGGCCGACACTGAGGCGCATTCTTTCTACATCGACGACCGCATCGACATCGGCAACTGGACCGTCACTCCCGGCGTGCGCTACGAGCGGGTGCGGGTCAACTCGACCAGCCGCCTGGATGGCGAGAAGAGCCAGCAGCGCTCCCGTGAGCCGCTGCCGTCGCTGAACGTCATGTACCACCTGTCCGATGCCTGGAAGCTGTACGCCAACGCCAACACCTCGTTCGGCAGCATCCAGCACTACCAGCTTTCCCGCGACGCCAGCCTGAAGGCGGAAAAGGCGCATACCTATGAGGTCGGCACTCGCTACGACGACGGCCTGTGGAATGCCGAGCTGACGGTGTTCCAGATCGACTTCGACGATCAGCTCGAATACCAGTCGGCGGGGGATATCTGGGTCAACTCCGGCAAGACGCTGCACCGCGGCGTGGAAATGGCCGGTGGCTACGAACTGGCGGGCCTCGACCCGCGCCTGCAAGGGCTGTCGATCTACGCCTCGCTGGCGCTGACCAAGGCGACCCGCGAGGAAGGCGAGAACGAGGGCAACGACCTGCCGTTCTACTCCCGCGAAGTGGCGACCCTCGGCCTGCGCTACGAGACCGGCCCCTGGACCTGGAACCTGGACGGCTACGCGCAGTCCCGCCAGTTCGCCGATGCGGCCAACACCGACGAAGAGAGCGCCGACGGCTCTCTTGGCGAGATTCCCGGCTTCGGCTACTGGAACGCCCGTGGCGAGTACGCTTTCGGCCCGCAACTGGCCAACCTCAAGCTGGCCGCCGGGGTGAAGAACCTGTTCGGCCGCGAGTACTACACGCGCTCCACCGACACCAACCGGGGCAAATACCTCGGCCAGCCGCGTACGCTGTACCTGCAGACCAGCGTCTCCTTCTGA	MSSVCMPSRLALGVALAFSALPLIAAETHDLGETTVVGDWLGEASEQDVKNHPGARTVVRRQQIEESGASNVRDVLRRVPGLQVQDSNGTGGSDISLNVGSRGLTSRLSPRATILQDGIPLAIAPYGQPQLSLAPTSLGNIESIDVVRGGGAVRYGPQNVGGIINFVTRGIPEELVREISYQTESAPAQGGFLNRTNAFLGGTADNGLGAALLYSGVRGDTYRDHSGTRIDDVMLKYKYALSDIDELSGSLQFYQADADMPGGLSAADFDADPYQSTRPYDSFEGDRKQAVVKYTRTPDAERQFEVTAFYNTSYRSGMLANNTPQRMTWLRELPRDYEVFGIEPRYSQIFYAGDSSHEVGIGYRYMEEDSTEKRYDRRGFGTGGDPYSVPKRLAIYNVADTEAHSFYIDDRIDIGNWTVTPGVRYERVRVNSTSRLDGEKSQQRSREPLPSLNVMYHLSDAWKLYANANTSFGSIQHYQLSRDASLKAEKAHTYEVGTRYDDGLWNAELTVFQIDFDDQLEYQSAGDIWVNSGKTLHRGVEMAGGYELAGLDPRLQGLSIYASLALTKATREEGENEGNDLPFYSREVATLGLRYETGPWTWNLDGYAQSRQFADAANTDEESADGSLGEIPGFGYWNARGEYAFGPQLANLKLAAGVKNLFGREYYTRSTDTNRGKYLGQPRTLYLQTSVSF	PGPT0003795_961	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_CITRATE_TRANSPORT,PGPT0003795-fecA-K16091	NA	NA
BMS010_02857	135			hypothetical protein	ATGAAGCTGTTCTATCCGCTGATCTGGGGTTGCGTGCTGGCTTCCGTGCTGTCGCTGGCCAGTGGCGTCGCGCTGTCGCTGACCACCGCCCCGAGCGCCACTCCGGCCGCAGGTCAGACGAGCGCCGTCCGCTAA	MKLFYPLIWGCVLASVLSLASGVALSLTTAPSATPAAGQTSAVR				NA	NA	NA	NA	NA
BMS010_02858	684	fixK_2	COG0664	Nitrogen fixation regulation protein FixK	ATGGGCCCACATCGCGTTCACCACCAGATCCTGCGCAGCCATCACCTTTTCGAGCCGCTCAGCGACGACCAGCTCAAGGAACTGCTCGCCGCCAGCCAACTGCTCAACCTCGAGAAGGGCGACACCCTGTTCAACCAGGGCGACAAGGCGACCGCGTTCTACTTCGTCATCTCAGGCTGCGTGAAAATCTTCCGCCTGACGCCGGACGGCCAGGAGAAGATTTTCGAGATCATCGGCGACCGCCAGACTTTCGCCGAAGCCATGATGCTCATGGACACGCCCAACTATGTGGCCTCCGCCCAGGCCGTGGGGCCGACCCAGCTCTACCGCTTCTCCAACGCCGCCTACATGCGCCTGTTGCAGGTCAACCAGCAACTGACCTTCGCCCTGCTCGGCAAGCTCTGCGTGCGCCTGCACCAACGCCTGAACGAGATCGAGACGCTGTCGCTGAAGAACGCCACCCACCGGGTGATCCGCTACTTCCTCAGCCAGATGGCGCAGCTCCCCGAAGACGAGGACCGCATCGAGCTACCGGTGGCCAAGCAACTGGTGGCCGGGCACCTGGGCATCCAGCCGGAGACCTTCTCGCGGATCATCCGCCGCCTGAGCGACGAGGGCATCATCGACCTCGACGGCCGGCAAATTCGTATCCTCGACCGCCAGCGCCTGGAGCAATTCGAGTGA	MGPHRVHHQILRSHHLFEPLSDDQLKELLAASQLLNLEKGDTLFNQGDKATAFYFVISGCVKIFRLTPDGQEKIFEIIGDRQTFAEAMMLMDTPNYVASAQAVGPTQLYRFSNAAYMRLLQVNQQLTFALLGKLCVRLHQRLNEIETLSLKNATHRVIRYFLSQMAQLPEDEDRIELPVAKQLVAGHLGIQPETFSRIIRRLSDEGIIDLDGRQIRILDRQRLEQFE	PGPT0001075_513	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001075-dnr-K21563	NA	NA
BMS010_02859	192			hypothetical protein	ATGGCGAACTGTCTGTACTGCGGAGAAGAGCACCCGGCCGGCACCGTCGCGTGCCGGCGCTGCGGCATGCCGTTGCCGGTGCGGGCCGATGGCGCGGCGGCGCGCCGGCAGCGGCGTTTCCTCTGGTTCTGCATCGGTCTGGCGCTGTTCTGCGCGGCGATGATCGTCTGGCTGCCGCGCAGCCTGTCCTGA	MANCLYCGEEHPAGTVACRRCGMPLPVRADGAAARRQRRFLWFCIGLALFCAAMIVWLPRSLS				NA	NA	NA	NA	NA
BMS010_02860	1842			hypothetical protein	ATGGCCTTTACCGTCGAACTGGAAGAGTGGGTCGGCAGCGCCTGGCACCGCTTCATCACCCGCCACGCCAGCCCGGACTTCCCGGAGGCGCGGGTCGAGCTGGAGAGCGAGCAGCGTGCCATTGGCGTGCTGTTCCGCGCCCTCGGCGGCGCCAGTGGCGTCGGTGTGGCGGCGGCCAACCCGCGCGACCTGCTGTTGCGGCGCAGTCTGCTGCAACAGGTGGCCGGCACCTGCAAGCAACTGCCGGTGGCCTGGTGCGACGCCAGCCACCTGCGCCTGCCGCAGAGCCTGGCGGTGTACCCGGATGCCGCGCTGAACCGCGAGCTGTACCGCTGGCTGGCGCTGCTCGCCGCCCAGGCCGGCGACATGCGCCACTGGGCGCGGGACAACCAGGCCTGGACCTGTGCTCTGCTGGAACGCTATCCGGCGTTGCGTCCGCGCTACCGCGCGCTGGTGGAGGCGCACCTGCCACTGCGCCCGGACCCGGCGCGCCTGCCGTCCGGCGAGGCCGCTCTCGAGCGCGCCTTGCAGCAGGCCCTGCGCGAGCCCGGCAGCGTTTCGGCGTTTCCGTCCAGCGAACGCGCGCCCTGGCCATTGCCGCTCTGGCTGTACCCCGCCGAGCGCCTCGACCAGCCCCAGGCCGGTAATCTCGATGAGGACGATGAGAGTGCCCTGCAATCGTCGGCTGGCCAGCGCAACGACCTGCGCAAGCGGGCCCGGCGGGTGGAGGAGAGCACCAGCAAGGGCGGCCTGCTGCTGTTTCGCCTGGAGAACCTGTTCAGTTGGTCCGAGCATGTCGATCTGGATCGCTGCGGCGACGACAGCGAAGACCTGGACGCCGCCCGCGTGGCGGAAGACCTCGACGAGATGGCGCTGTCGCGCCAGCGCTTGCGCAAAGGCTGCGGGCTCAAGCTGCATCTGGACCTGCCGCCGGCGGAGGCCGACGACCTGCCGCTGGGCGAAGGTCTGCTGCTGCCGGAATGGGATTACCGCCAGCAGCGCCTGAAAGCCGACTTCGTGCAGGTGCAGCGCATGCTGCCGCGCGGCGCCGAGCCGAAGCCCCTGCCGGACCGCCTCGCCCCCTTGGCGCGGCGGCTGCGGCGTCAGTTCGAACACCTGCGCAACGATCGCCAGTGGCTGCGCCAGCAACCCCAGGGCGACGAGCTGGACTTGCAGGCCTGGCTGGATTTCCACGTCGAGCGCCGCCACGGCCAGTGCGTCGAGAAGGGCCTGTTCCTCGAACAGCGCCAGACCCGGCGCGACCTGGCCTGCCTGCTGCTGGCGGACCTGTCGATGTCCACCGAGGCACATCTGGACAACGAGCACCGGGTCATCGACGTGATCAGCGACAGCCTGCTGCTGTTCGGCGAAACCCTGTCCGCTCTCGGCGATCCCTTTGCCCTCTACGGCTTTTCTTCGCTGCGCCGCCAACAGGTGCGCCTGTCGGAACTGAAAGCCTTCGAACAACGCTACGACGACCACACCCGTGGGCGCATCCAGGCGCTCAAGCCCGGCTACTACACCCGCATGGGCGCGGCGATCCGCCAAGCCAGCCGTCTGCTCGCCGAGCGCGGCCAGCGGCGCAAGCTGTTGCTGCTGGTCACCGATGGCAAGCCCAATGACCTGGATCTCTACGAGGGACGCTACGGGGTGGAGGACACCCGCGAGGCGGTGATGGAGGCGCGCCGCCAGGGCATCCTGCCGTTCTGCATCACCATCGATCAGGAGGCCGGCGACTACCTGCCGTACATGTTCGGCGCCAACGGCTACACGTTGATCCGCCAACCCCGGCAGTTGCCGCTGCGACTGCCGCAGTTGTACCGGCAGTTGACTCAGCGCTGA	MAFTVELEEWVGSAWHRFITRHASPDFPEARVELESEQRAIGVLFRALGGASGVGVAAANPRDLLLRRSLLQQVAGTCKQLPVAWCDASHLRLPQSLAVYPDAALNRELYRWLALLAAQAGDMRHWARDNQAWTCALLERYPALRPRYRALVEAHLPLRPDPARLPSGEAALERALQQALREPGSVSAFPSSERAPWPLPLWLYPAERLDQPQAGNLDEDDESALQSSAGQRNDLRKRARRVEESTSKGGLLLFRLENLFSWSEHVDLDRCGDDSEDLDAARVAEDLDEMALSRQRLRKGCGLKLHLDLPPAEADDLPLGEGLLLPEWDYRQQRLKADFVQVQRMLPRGAEPKPLPDRLAPLARRLRRQFEHLRNDRQWLRQQPQGDELDLQAWLDFHVERRHGQCVEKGLFLEQRQTRRDLACLLLADLSMSTEAHLDNEHRVIDVISDSLLLFGETLSALGDPFALYGFSSLRRQQVRLSELKAFEQRYDDHTRGRIQALKPGYYTRMGAAIRQASRLLAERGQRRKLLLLVTDGKPNDLDLYEGRYGVEDTREAVMEARRQGILPFCITIDQEAGDYLPYMFGANGYTLIRQPRQLPLRLPQLYRQLTQR	PGPT0000360_516	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000360-norD-K02448	NA	NA
BMS010_02861	1419	norB_1		Nitric oxide reductase subunit B	ATGAGCCTGACCAATCCCCATCTGAAATTCGCTTCGCAGGCCGTCGCCAAGCCGTACTTCGTGTTCGCCCTGATGCTCTTCGTCGGGCAGATTCTGTTCGGCCTGATCATGGGCCTGCAGTACGTGGTCGGCGACTTCCTGTTCCCGCTGATCCCGTTCAACGTCGCCCGCATGGTGCATACCAACCTGCTGATCGTCTGGTTGCTGTTCGGCTTCATGGGCGCGGCCTACTACCTGATCCCCGAGGAGGCCGACCGCGAGCTGCACAGCCCGAAACTGGCGCTGCTGCTGTTCTGGGTGTTCGCCGCCGCCGGCGTGCTGACCATCCTCGGCTACCTGCTGGTGCCCTATGCCGGGCTGGCCAGGTTGACCGGCAACGAACTGCTGCCGACCATGGGCCGTGAGTTCCTCGAACAGCCGACGATCACCAAGGCCGGTATCGTGGTGGTGGCCCTGGGCTTCCTCTACAACATCGGCATGACCCTGCTGAAAGGCCGCAAGACCGCCATCAGCATGGTGATGATGACCGGCCTGATCGGCCTGGCGGTGTTCTTCCTGTTCTCCTTCTACAACCCGGAAAACTTGGCCCGCGACAAGTACTACTGGTGGTGGGTGGTGCACCTGTGGGTGGAAGGCGTGTGGGAGCTGATCATGGGCTCGATGCTGGCCTTCGTGCTGATCAAGATCACCGGCGTCGACCGCGAGGTGATCGAGAAGTGGCTCTACGTGATCATCGCCATGGCCCTGATCACCGGCATCATCGGCACCGGCCACCACTTCTTCTGGATCGGCGCGCCGGGCGTCTGGCTGTGGCTGGGCTCGATCTTCTCGGCCATGGAACCGCTGCCGTTCTTCGCCATGGTGCTGTTCGCCTTCAACATGGTGAACCGCCGCCGTCGCGAGCACCCGAACCGTGCCGCCGCGCTCTGGGCCATCGGCACCACCGTCACCGCCTTCCTCGGTGCCGGTGTGTGGGGCTTCCTGCACACCCTGGCGCCGGTGAACTACTACACCCACGGCTCGCAGATCACCGCGGCCCACGGCCACCTGGCCTTCTACGGCGCCTACGCGATGATCGTGATGACCATGATCAGCTACGCCATGCCGCGCCTGCGGGGCATCGGCGAGGCACCGGACGCGCGGGCGCAGACCGTCGAGGTCTGGGGCTTCTGGCTGATGACCCTGTCGATGGTGGCCATCACCCTGTTCCTCACCGCCGCCGGCGTGGTGCAGGTGTGGCTGCAGCGGTTGCCGGAGGACGGCGCGGCCATGTCGTTCATGAACACCATGGACCAGCTCGCCGTGTTCTTCTGGCTGCGGCTGGTGGCTGGGGTGCTGTTCTTCATCGGCCTCGGTTGCTACCTGTTCAGCTTCCGCCAGCGCGGCCGGCTGCCGGTGGCGGCTGCCGTCACGGCCTGA	MSLTNPHLKFASQAVAKPYFVFALMLFVGQILFGLIMGLQYVVGDFLFPLIPFNVARMVHTNLLIVWLLFGFMGAAYYLIPEEADRELHSPKLALLLFWVFAAAGVLTILGYLLVPYAGLARLTGNELLPTMGREFLEQPTITKAGIVVVALGFLYNIGMTLLKGRKTAISMVMMTGLIGLAVFFLFSFYNPENLARDKYYWWWVVHLWVEGVWELIMGSMLAFVLIKITGVDREVIEKWLYVIIAMALITGIIGTGHHFFWIGAPGVWLWLGSIFSAMEPLPFFAMVLFAFNMVNRRRREHPNRAAALWAIGTTVTAFLGAGVWGFLHTLAPVNYYTHGSQITAAHGHLAFYGAYAMIVMTMISYAMPRLRGIGEAPDARAQTVEVWGFWLMTLSMVAITLFLTAAGVVQVWLQRLPEDGAAMSFMNTMDQLAVFFWLRLVAGVLFFIGLGCYLFSFRQRGRLPVAAAVTA	PGPT0000350_741	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000350-norB-K04561	NA	NA
BMS010_02862	441	norC_1	COG2010	Nitric oxide reductase subunit C	ATGTCAGAGACCTTCACCAAAGGCATGGCCAGGAACATTTATTTCGGGGGGAGCGTGTTCTTCTTCCTGGTGTTCCTGGCCCTGACCTACCACAGCGAGCAGACCTTTCCCGAACGATCCAACGAGGCGGCGATGACCGAATCGGTGGTGCGCGGCAAGCTGGTCTGGGAACAGAACAACTGCATCGGTTGCCACACCCTGCTGGGCGAGGGCGCGTACTTCGCGCCGGAGCTGGGCAACGTGTACGTGCGCCGGGGCGGCGAGGCGGGCTTCAAGCCCTACCTGCACGCCTGGCTCAAGGCCCAGCCGCTGGGCGTGCCGGGGCGCCGCGCGATGCCGCAGTTCAACCTCAGCGAAGACGAGGTGAACGATCTGGCCGACTTCCTCAAGTGGACCTCGCAGATCAACACCAACGACTGGCCGCCGAACAAGGAGGGCTGA	MSETFTKGMARNIYFGGSVFFFLVFLALTYHSEQTFPERSNEAAMTESVVRGKLVWEQNNCIGCHTLLGEGAYFAPELGNVYVRRGGEAGFKPYLHAWLKAQPLGVPGRRAMPQFNLSEDEVNDLADFLKWTSQINTNDWPPNKEG	PGPT0000355_95	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000355-norC-K02305	NA	NA
BMS010_02863	246			hypothetical protein	ATGAGCGTGTTGTCGTTGTGCTGGATCGGCCTGGCGCTGCTGTCGCTGGCCACTGTCGGTTTCGGCTCGGCCGGCAGCGGTGCGCTCATGGCCGGCGGCGTGCTGGTCGCCGCGCTGGGCAAGGCCTGGCTGATCGTCGACCGCTTCATGGAACTGCATCGCGCGCCGCGTTTCTGGCGCGGCCTGTTGCTGGCCTGGCCGCTGGCGATGGCGGCGGCCATCGGGCTGACCCTGGCCCTGCGCTGA	MSVLSLCWIGLALLSLATVGFGSAGSGALMAGGVLVAALGKAWLIVDRFMELHRAPRFWRGLLLAWPLAMAAAIGLTLALR	PGPT0004040_950	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004040-coxD|ctaF-K02277	NA	NA
BMS010_02864	579			hypothetical protein	ATGTCCACTTCGCCTGAGGCCGCCGTCCGCCCGTTGCCGGGCGACCTGGCGATGTGGTTCTTCATCCTCGCCGAGCTGGCGGTGTTCGGCCTGCTGATCCTGGCCTTCGCCGTTACCCGGCTGCTGTATCCCGCGCTGTTCGCCGAGGGGCAGGCCGCGCTGGACGGCTCCACCGGGTTGGCGCTGACACTGAGCCTGCTTACCGGCGGCTGGCTGGCGGCTCTGGCGGTGCAGCGGGTGCGCGACGACCGGCCGCGCCGGGCCGCCGTGCTGCTGCTCGCCGCGCTGGCCTCGGCGGTGGTCTACGTGGTGCTCAAGCTGGGTGAGTACGCGCACCTGACGCGGCTCGGCCTGGATATCGAGCACGACACCTTCTTCACCCTCTACTGGATTCTCACCGGCTTCCACTTCCTCCATGTGCTGCTGGGCATGGCGATCCTCGCTTTCCTGGCCCTGCGCTGCGGACAGCGGACCTACGGGCCGGGGCGTTGCAGCGGGCTGGAGTCCGGCGTGCTCTATTGGCACATGGTCGATCTGGTCTGGGTGCTGCTGTTCCCCCTGGTCTACGTGCTGCGTTGA	MSTSPEAAVRPLPGDLAMWFFILAELAVFGLLILAFAVTRLLYPALFAEGQAALDGSTGLALTLSLLTGGWLAALAVQRVRDDRPRRAAVLLLAALASAVVYVVLKLGEYAHLTRLGLDIEHDTFFTLYWILTGFHFLHVLLGMAILAFLALRCGQRTYGPGRCSGLESGVLYWHMVDLVWVLLFPLVYVLR				NA	NA	NA	NA	NA
BMS010_02865	804	nirQ_1	COG0714	Denitrification regulatory protein NirQ	GTGTCCGCCGTCCTTTCTTCCCTTGGCCATGACCTGCCGTTCTACGCGCCGCTCGGCAACGAGGTGGCGCTGTTCGAGCGGGCCTGGCGGCACGGCATGCCGGTGCTGATCAAGGGCCCCACCGGGTGCGGCAAGACCCGCTTCGTCCAGCACATGGCCCGGCGCCTGGAGCTGCCGCTGTACACCGTGGCCTGCCACGACGACCTCTCCGCCGCCGACCTGGTCGGCCGCCACCTGATCGGCGCCGACGGCACCTGGTGGCAGGACGGCCCGCTGACCCGCGCGGTGCGCGAGGGCGGCATCTGCTATCTGGACGAGGTGGTGGAGGCGCGGCAGGACACCGCCGTGGTGCTGCACCCGCTGGCCGACGACCGTCGCGAGCTGTACATCGAGCGCACCGGCGAGGCGTTGTGCGCGCCGCCCGGTTTCATGCTGGTGGTGTCCTACAACCCCGGCTACCAGAACCTGCTCAAGGGCATGAAGCCCAGCACCCGCCAGCGCTTCGTCGCCCTGCGCTTCGACTACCCCGAGGCGGCGGAGGAGGTGCGCATCGTCGCTCACGAGGCGCAGGTGGACATCGAACTGGCCGAGCAGGTGGTCGCTCTGGGGCAGGCGTTGCGCCGCCTGGAGCAGCACGATCTGGAGGAAGTGGCCTCGACCCGCCTGCTGATCTTCGCCGCGCGCCTGATCGGTGCCGGTGTGGCGCCGCGAGAGGCCTGCCTGGCCTGCCTCGCCGAGCCGCTGTCGGACGACCCGCAGACCGTCGCCGCGCTGATGGATGTGGTGGATGTCCACTTCGCCTGA	MSAVLSSLGHDLPFYAPLGNEVALFERAWRHGMPVLIKGPTGCGKTRFVQHMARRLELPLYTVACHDDLSAADLVGRHLIGADGTWWQDGPLTRAVREGGICYLDEVVEARQDTAVVLHPLADDRRELYIERTGEALCAPPGFMLVVSYNPGYQNLLKGMKPSTRQRFVALRFDYPEAAEEVRIVAHEAQVDIELAEQVVALGQALRRLEQHDLEEVASTRLLIFAARLIGAGVAPREACLACLAEPLSDDPQTVAALMDVVDVHFA	PGPT0000370_581	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000370-norQ-K04748	NA	NA
BMS010_02866	1719	nirS_1	COG2010	Nitrite reductase	ATGACAACCGTTGGCAAGCCGTTCGCCGCGACCCTGGTCGCTACCCTGTCTCTGCTCGGTCTGGCCGTCGCCCAGGCCGCGACCAACCTCGAAAACGCCGATGCCGCCCAGCGCGGCCAGGCCTCGGCCATCGACCCGGCCAGCGCCCAGGTCGTCCACACGCCAGGCGCGCCCGACCTGAGCGAGGCGGAGTTCACCCAGGCCAAGGAAATCTACTTCCAGCGCTGCGCCGGCTGCCACGGCGTGCTGCGCAAGGGCGCCACCGGCAAGCCGCTGACCCCGGACATCACCCAGGAGCGCGGCCAGGCCTACCTCGAGGCGCTGATCACCTACGGCTCGCCGGCCGGCATGCCGAACTGGGGCACGTCGAACGCGCTGACCAAGGACCAGATCACCCTGATGGCCAAGTTCATCCAGCACACCCCGCCGACCCCGCCGGAGTGGGGCATGGCCGAGATGCGCGAATCCTGGAAGCTGCTGGTCAAGCCGGAAGACCGGCCGAAGAAACAGCTCAACAACCTCAACCTGGGCAACCTGTTCTCCGTCACCCTGCGCGACGACGGCAAGATCGCCCTGATCGACGGTGACAGCAAGAAGATCGTCAAGACCATCGAGACCGGCTACGCGGTGCACATCTCGCGCCTGTCCGCCTCCGGCCGCTACCTGCTGGTGATCGGCCGCGACGCCAAGATCGACATGATCGACCTGTGGCCGAAGGAGCCGACCAAGGTCGCCGAGATCAAGGTGGGCATCGAGGCGCGCTCGGTGGAGACATCCAAGTACAAGGGCTACGAGGACACCTACGCCATCGCCGGCTCCTACTGGCCGCCGCAGTTCACCTTGATGGACGGCGAAACCCTGGAGCCGAAGCAGATCGTCTCCACCCGCGGCATGACCGTGGACAAGCAGGAATATCACCCCGAGCCGCGCGTGGCGGCGATCATCGCCTCCCACGAACGGCCGGAGTTCATCGTCAACGTCAAGGAAACCGGCAAGGTGCTGCTGGTCAACTACGAGGACATCGACAACCTCACCGTAACCAGCATCAACGCCGCGCCCTTCCTGCATGACGGCGGCTGGGACAGCACCCACCGCTACTTCATGACCGCTGCCAACAACTCCAACAAGATCGCCGTGATCGACTCCCGCGACCGCAAGCTCACCGCCCTGGTGGACGTGGGCAAGATTCCGCACCCGGGCCGCGGCGCCAACTTCGACCATCCGAAATACGGACCGGTCTGGGCCACCAGTCACCTGGGCGACGAAAGCATCTCGCTGATCGGCACCGACCCGGAGAAGCACCCGCAGTACGCCTGGAAGCACGTCGATACCCTCAAAGGCCAGGGCGGCGGCTCGCTGTTCATCAAGACGCACCCGAAATCGCGCCACCTGTACGTGGACACCACCTTCAACCCCGACGCCAAGGTCAGCCAGTCGGTGGCCGTGTTCGACCTCGACAAGCTGGATGCCGGCTACCGCGTCCTGCCCATCGGCGAGTGGTCCGGCCTGAAGGACGGCGCCAAGCGTGTGGTGCAGCCGGAGTACAACAAATCCGGCGATGAGGTCTGGTTCTCGGTGTGGAGCGGCCAGGACCAGGAGTCGGCGCTGGTGGTGGTGGACGACAAGACGCTGAAGCTGAAAACAGTGATCCGGGACAAGAGGCTGGTCACCCCGACCGGTAAATTCAACGTCTACAACACCCAGCACGACGTGTACTGA	MTTVGKPFAATLVATLSLLGLAVAQAATNLENADAAQRGQASAIDPASAQVVHTPGAPDLSEAEFTQAKEIYFQRCAGCHGVLRKGATGKPLTPDITQERGQAYLEALITYGSPAGMPNWGTSNALTKDQITLMAKFIQHTPPTPPEWGMAEMRESWKLLVKPEDRPKKQLNNLNLGNLFSVTLRDDGKIALIDGDSKKIVKTIETGYAVHISRLSASGRYLLVIGRDAKIDMIDLWPKEPTKVAEIKVGIEARSVETSKYKGYEDTYAIAGSYWPPQFTLMDGETLEPKQIVSTRGMTVDKQEYHPEPRVAAIIASHERPEFIVNVKETGKVLLVNYEDIDNLTVTSINAAPFLHDGGWDSTHRYFMTAANNSNKIAVIDSRDRKLTALVDVGKIPHPGRGANFDHPKYGPVWATSHLGDESISLIGTDPEKHPQYAWKHVDTLKGQGGGSLFIKTHPKSRHLYVDTTFNPDAKVSQSVAVFDLDKLDAGYRVLPIGEWSGLKDGAKRVVQPEYNKSGDEVWFSVWSGQDQESALVVVDDKTLKLKTVIRDKRLVTPTGKFNVYNTQHDVY	PGPT0000465_106	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-NITRIC_OXIDE_METABOLISM	PLANT_BRANCHING-NITRIC_OXIDE_FORMATION,PGPT0000465-nirS-K15864	NA	NA
BMS010_02867	321			hypothetical protein	ATGTCACTCCTCCGCCTCGCCCTGCTCGCCGCCTGCCTGTCCGGCCCCGTCGCCCAGGCCGAGGGACTTGATTCGGCGCGGCAGGCCGAACTGGATAACCTGCTGCGCCAGGACTGCGGCTCCTGCCACGGCCTGCGCCTGACCGGCGGCCTGGGCCCGCCGCTGACTCGCGAAGCCCTGGCCGGCAAGCCACGTGACAGCCTGATCGCCACCGTCCGCCACGGCCGGCCCGGCACCGCCATGCCCGGCTGGGAGGGCCTGCTCGGCGAGCAGGACATCGCCTGGCTGATCGATCGCCTGACAGAAGGAAACCCGCAATGA	MSLLRLALLAACLSGPVAQAEGLDSARQAELDNLLRQDCGSCHGLRLTGGLGPPLTREALAGKPRDSLIATVRHGRPGTAMPGWEGLLGEQDIAWLIDRLTEGNPQ				NA	NA	NA	NA	NA
BMS010_02868	1179			hypothetical protein	ATGATCCGAGCGACCCTGCTGGCGCTGGCCAGCCTGCTTTTGACCGCCTGCGCCCAGCAAGCCGACCTGCGCGGCAGCGGCGACCTCGGCGTGGTGGTGGAACGCGCCAGCGGCAGCCTGCAGATCGTCGAGAGCAGCCGCCGCAGCCGCCTGGCCCGCGTCGAGGGCCTGGGCGATTTGTCCCACGCCTCGGTAGTGTTCTCCCGCGACCAGCGCTACGCCTACGTGTTCGGCCGCGACGGCGGGCTGACCAAGGTCGACCTGCTGCGCCAGCGCATCGACCGACGCATCGTCCAGGGCGGCAACAGCATTGGCGGCGCCATCAGCCAGGACGGCTCGCTGATCGCCGTCTCCAACTACGAACCGGGCGGCGTGCGGGTGTTCGACGCCGCCACCCTGGCACCCATCGCCGAAATCGTCGCCACTCCGCTGGCCGAGGGCGGCAAGCGCTCCCGCGTGGTGGGCCTGGTGGACGCGCCCGGCCAGCGCTTCGTCTTCAGCCTGTTCGACACCGGCGAAATCTGGACCGCCGATTTCAGCCAGGGCCACACACCCATCGTCACCCGCTACACCGGCATCGGCAAGCAGCCCTACGACGCTCTCATCACCCCGGACGGCCGCTACTACATGGCCGGGCTGTTCGGCGAGGACGGCATGGCCCGCCTCGACCTCTGGCATCCCGAGCGCGGCGTGCAGCGGGTGCTGGAGGACTACGGCCGCGGCGCGCAGAAGCTGCCGGTGTACAAGATGCCCCACCTGGAAGGCTGGACCGTGGCCGGCGAGCAGGCCTTCGTCCCCGCCGTCGGCCACCACCAGGTGCTAGTGCTGGACAGCCGCGACTGGCGCCAGACCGACCGCATCGACGTGCTCGGCCAGCCGGTGTTCGTCATGGCGCGGCCGGACCACCGGCAGATCTGGGTCAACTTCGCCTACCCGGACAACGGCAAGGTGCAGGTGATCGACAGCGAGACGCACCGCATCATCAGCACCCTGGAACCGGGCCCGGCGGTATTGCACATGGAATTCACCGCGCGCGGCGACCAGCTCTGGCTGTCCGTGCGCGACGGCGGCGAAGTGCAGGTCTGGGACCCGTATCGCCTGGAACTGCTCCAATGCCTGCCCGCGCAAAGCCCGAGCGGTATCTTCTTCAGCAGCCGGGCCCACGAGACGGGGCTCTGA	MIRATLLALASLLLTACAQQADLRGSGDLGVVVERASGSLQIVESSRRSRLARVEGLGDLSHASVVFSRDQRYAYVFGRDGGLTKVDLLRQRIDRRIVQGGNSIGGAISQDGSLIAVSNYEPGGVRVFDAATLAPIAEIVATPLAEGGKRSRVVGLVDAPGQRFVFSLFDTGEIWTADFSQGHTPIVTRYTGIGKQPYDALITPDGRYYMAGLFGEDGMARLDLWHPERGVQRVLEDYGRGAQKLPVYKMPHLEGWTVAGEQAFVPAVGHHQVLVLDSRDWRQTDRIDVLGQPVFVMARPDHRQIWVNFAYPDNGKVQVIDSETHRIISTLEPGPAVLHMEFTARGDQLWLSVRDGGEVQVWDPYRLELLQCLPAQSPSGIFFSSRAHETGL				NA	NA	NA	NA	NA
BMS010_02869	459			hypothetical protein	ATGGAACTGGACAACCTCAGCCGGCGCCTCATCGAGCGCTTCCAGCACGGCATGCCGCTCTGCCCCGAGCCCTATCTGGCGATGGCCGAGGCGCTGGACTGCACCGAGGCCGACGTGCTCGACCGGCTGGCCCGGCTCCAGGCCGAAGGCGCGCTGTCGCGGGTCGGCCCGGTGTTCGAACATCGCCGCGCCGGCGCCAGCACCCTGGTCGCCCTGAGCGTGCCCGAGGCGCGCCTGGAACAGGTGGCGGCGCGCATCAGCCAGTTCCCCGAGGTAAACCACAACTACCGCCGCGAGCACCGCTACAACCTCTGGTTCGTCCTGACCGGCCCGGACCGCGCCCACCTGTCCCGGGTGCTCGATGAAATCGAAGCGGAAACCGGCCTGATGCCGCTGGACCTGCCGATGCACACCGCCTACCGCATCGACCTCGGCTTCCCCCTGGAGACCCTGCGATGA	MELDNLSRRLIERFQHGMPLCPEPYLAMAEALDCTEADVLDRLARLQAEGALSRVGPVFEHRRAGASTLVALSVPEARLEQVAARISQFPEVNHNYRREHRYNLWFVLTGPDRAHLSRVLDEIEAETGLMPLDLPMHTAYRIDLGFPLETLR	PGPT0008505_787	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008505-ahbAB-K22225	NA	NA
BMS010_02870	498			hypothetical protein	ATGAACACCGAGCAACACCTCGAATTGCGCCGCTTGCTGGAACAGGGCCTGCCGCTGGTGCCGCGCCCGTACCGGCTGTTGGCCGAGCGACTCGGCTGTGCCGAAGACGAGGTGCTGGCCCAGGTCGGGGAATGGCAGGCGGAGGGACTGTTCCGCCGCGTCGGCCTGGTGCTGCGCCACCACGCCCTGGGCTATCGCGCCAACGCCATGCTGGTGCTGGACATCCCCGATGCCGACGTGGACGACATCGGCCGCCGGCTCGGGCAGGCGCCCGGCGTCAACCTCTGCTACCGCCGTCCGCGCCGCCCACCGCAGTGGCGCTACAACCTGTTCTGCATGATCCACGGCCGCGAGCGCGAGCAGGTGCGCCAGCGCATCGCCGCACTGCTCGGCGAGCAGGGCCTGGCGCACCATCCCCATGCCCTGCTGTTCAGCACCCACGCCTACAAGCAATGCGGCGGCCGCTACGCCCCCGCCGCGGAGCGCCGCCATGGATGA	MNTEQHLELRRLLEQGLPLVPRPYRLLAERLGCAEDEVLAQVGEWQAEGLFRRVGLVLRHHALGYRANAMLVLDIPDADVDDIGRRLGQAPGVNLCYRRPRRPPQWRYNLFCMIHGREREQVRQRIAALLGEQGLAHHPHALLFSTHAYKQCGGRYAPAAERRHG	PGPT0008505_427	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008505-ahbAB-K22225	NA	NA
BMS010_02871	444			hypothetical protein	ATGGATGACCTCGACCGCCGCCTGATCGACCGCCTGCAATACGGCCTGCCGCTGGTGCGCCGCCCCTGGGAGGCACTGGCCGACGAGCTGGCCGCGCCCGCCGCCGAGCTGCGCAGGCGGGTGCAGGCGCTGCTGGACGACGGCACCCTGACCCGCTTCGGCCCGATGTTCGACATCGAACGCCTCGGCGGCGCCTTCACCCTGGCGGCACTGGCCGTGCCCGAAACACGCTTCGAGGAAGTGGCCGCACTGCTCCACGGCATGCCCGAAGTGGCCCACAACTACCGCCGCGAGCACGCCTACAACATGTGGTTCGTCCTGGCCTGCGCGACCCCCGCCGACGTCGCCGCCAGCCTGGCGCGAATCGAGGCGCGAACCGGTCTCGCCGTGCTCGATCTGCCCAAGGAGGCGACCTACCATGTCGGCCTGCATTTCCCCCTCTGA	MDDLDRRLIDRLQYGLPLVRRPWEALADELAAPAAELRRRVQALLDDGTLTRFGPMFDIERLGGAFTLAALAVPETRFEEVAALLHGMPEVAHNYRREHAYNMWFVLACATPADVAASLARIEARTGLAVLDLPKEATYHVGLHFPL	PGPT0008505_936	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008505-ahbAB-K22225	NA	NA
BMS010_02872	513			hypothetical protein	ATGTCGGCCTGCATTTCCCCCTCTGACGCCGATCTGGCACGGCGGCTGGTCGCCCTCACCGAAGCCGGCCTGCCGCTGGTGGAAGACCCCTGGGGCTGGCTGGCCGAACGCCTCGGGCTGAGCCCGGACGCCACCCTGGCACTGCTCGCCCGGCTCCAGGCGGATGGCGCCATCCGCCGCATCGCCGCCGTGCCCAACCATTACCGCCTGGGCTACCGGCACAACGGCATGACCGTATGGGACGTCGCCGACGACGCGATCGAGCGCCTCGGCCCGGCCGTCGGCGCCCTGCCCTGCGTCAGCCACTGCTACCGCCGCCCGCGCAAGGACGGCTGGCGCTACAACCTGTTCGCCATGGTCCACGGCCGCAGCGCGGCGGAGATCGATGGCTACCGCGCCGAAATCCGCGCCCTCCTCGGCGACGCCTGCCGCGCCGACGACATGCTGGTCAGCAGCCGCATCCTGAAGAAGACCGGCCTGCGGCTGGGTGAACCCCGCTCACGCACGCGCTGA	MSACISPSDADLARRLVALTEAGLPLVEDPWGWLAERLGLSPDATLALLARLQADGAIRRIAAVPNHYRLGYRHNGMTVWDVADDAIERLGPAVGALPCVSHCYRRPRKDGWRYNLFAMVHGRSAAEIDGYRAEIRALLGDACRADDMLVSSRILKKTGLRLGEPRSRTR	PGPT0008505_456	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008505-ahbAB-K22225	NA	NA
BMS010_02873	1179	mftC	COG0535	Putative mycofactocin radical SAM maturase MftC	GTGTTGAGGATCAGCCATTACCTGCGCACCCTGGCCGGCCAGAGCCCGGCCCCGCGCAGCGCACCACCCGGCAGCACACGCCCGCCGGTGGTGATCTGGAACCTGCTGCGGCGCTGCAACCTGACCTGCCGGCATTGCTACGCCACCTCCGCCGACAGCACCTTCCGCGACGAGCTGGACACCGACGAAGCCCTGCGGGTGATCGACGATCTGCACGACGCCGGGGTGCGTGTGCTGATCCTGTCTGGCGGCGAACCGCTTTTGCGCCCTGACCTGTTCCAGCTCGCCGACCATGCGCGGACACGCGGCTTCTTCGTCGCCCTCTCCAGCAACGGCACGCTGATCGACGAGGGCAACATCGAGCGGATCGCCGCGGCCCGCTTCGACTACGTCGGCATCAGCCTCGACGGCCTGGAAGCGGTGCACGACGACTGGCGCCAACTCAAGGGCAGCTTCGCCGCCTCGCTGCGCGGCGTGGACCTGTGCCGCGCCCACGACATCCGCGTCGGCCTGCGCACCACCCTGACCCGCCACAACCACCCGCAACTGCCCGCGCTGCTCGACCTGATGCGCGAGCACGACGTGCAGAAGTTCTACCTCTCGCACCTCAACTACAGCGGTCGCGGCAAGCGCAGCCGCGGCGCCGACGCCCACGCCCGGATGACCCGCGAGGCCATGTGGCTGATCTTCGACCGCGCCTGGGAAGACATCCGCGCCGGGCACGACAGCGATTTCGTCAGCGGCAACAACGACGCCGACGCCGTGCTCCTCCTGCACTGGGCCGAACGGCACCTGCCGGAGCAGCGCGACGAACTGGAACGCCTGCTGCGCGCCTGGGGCGGCAACGCCTCGGGGGCCAGCATCGCCAACATCGACAACATCGGCGACGTGCACCCGGACACCTACTGGTGGCAGCACCGCGTCGGCAACGTGCGCCAGCAATCCTTCCGCGAACTCTGGCTGGAGCGCCCGGACCCGCTGCTGCAACGCCTGCGCCAGCACCCGCGCGCGGTGGGCGGGCGCTGCGCCGGGTGTCGCTGGCTGGCGATCTGCAACGGCAACACCCGCACCCGCGCCTGGGCCGAGGGCGACCTCTGGGCCGAAGACCCCGGCTGCTACCTGAGCGATGCGGAAATCGGCCTGTCCGAACCGCGGCGCATCCACAGCGTTTCCCTCTGA	MLRISHYLRTLAGQSPAPRSAPPGSTRPPVVIWNLLRRCNLTCRHCYATSADSTFRDELDTDEALRVIDDLHDAGVRVLILSGGEPLLRPDLFQLADHARTRGFFVALSSNGTLIDEGNIERIAAARFDYVGISLDGLEAVHDDWRQLKGSFAASLRGVDLCRAHDIRVGLRTTLTRHNHPQLPALLDLMREHDVQKFYLSHLNYSGRGKRSRGADAHARMTREAMWLIFDRAWEDIRAGHDSDFVSGNNDADAVLLLHWAERHLPEQRDELERLLRAWGGNASGASIANIDNIGDVHPDTYWWQHRVGNVRQQSFRELWLERPDPLLQRLRQHPRAVGGRCAGCRWLAICNGNTRTRAWAEGDLWAEDPGCYLSDAEIGLSEPRRIHSVSL	PGPT0008510_41	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008510-ahbC-K22226	NA	NA
BMS010_02874	837	cysG_3	COG0007	Siroheme synthase	ATGGACCCGATGTCGCAACTCCCCGCTGCCCTCGCGGCGCGGCTCGAACCCGGCGAAGTGGCCCTGGTGGGTGCCGGACCGGGCGACCCCGGCCTGCTCACCCTGCGCGCCTGGAGCCTGTTGCAGCAGGCCGACGCGGTGGTCTACGACCGCCTGGTCAACCCGGCGCTGCTGGACATGCTGCCGCCCCGCTGCGAGACCCACTACGTCGGCAAGGCCGCCGGCCACCACAGTCTGCCGCAGGACGACATCAACCTGCTGCTCGCCGGGCTGGCCCTGCAAGGGCTGCGCGTGGTGCGGCTGAAAGGCGGCGACCCGTTCATCTTCGGCCGTGGCGGCGAGGAACTGGACTACCTGCTCAAGCGTGGCATCGACTGCCAGGTGGTGCCCGGCGTCACCGCCGCCTCGGGCTGCTGCAGCTACGCCGGCATCCCCTTGACCCATCGCGGCCTGGCGCAGTCCTGCCAGTTCATCACCGGCCACCTGCAGGCGGATGGCGCCCTGCACCTGCCCTGGCAGAGCTTGGCCAGCGGCGGCCAGACCCTGGTGTTCTACATGGGCCTGGCCAGCCTCGAGGAAATCAGCCGCGAACTGATCGCCGCCGGCCTGCCGCCGCACACCCCGGCGGCCCTGCTCGGCAACGGCACCCGGCCGGACCAGCAGGTGGTTCGTGGCCGCCTGGACGGCCTCGCCGCTCTCGCCCAGGAACATCGCCTCGCCCCGCCGACGCTCACCGTGATCGGCGCAGTGGTGGACCTGTTCGCCGACCGTGTCCTGGACTACCCCGCCCGCCTGCGCGCCGAACGCATGCCACGCGTGGAGGCGCTATGCGGCTGA	MDPMSQLPAALAARLEPGEVALVGAGPGDPGLLTLRAWSLLQQADAVVYDRLVNPALLDMLPPRCETHYVGKAAGHHSLPQDDINLLLAGLALQGLRVVRLKGGDPFIFGRGGEELDYLLKRGIDCQVVPGVTAASGCCSYAGIPLTHRGLAQSCQFITGHLQADGALHLPWQSLASGGQTLVFYMGLASLEEISRELIAAGLPPHTPAALLGNGTRPDQQVVRGRLDGLAALAQEHRLAPPTLTVIGAVVDLFADRVLDYPARLRAERMPRVEALCG	PGPT0003685_719	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0003685-sirA|ylnD|cysG|cobA-K02303	NA	NA
BMS010_02875	1485	nirS_2		Nitrite reductase	ATGCGGCTGATCCCCTTGCTGCTGGGCCTCGCCCTGCCCCTCCAGAGCCTGTCCGCCGCCACCCCGGACGCCGCCGCGCTGTATCGCCAACACTGCCAGAGCTGCCACGGCGAGAACCGCTTCGGCGGCGCCGGTCCGGCCCTGCTGCCGGAAAGCCTGGAGCGGCTGAAGCCGGCCGAGGCCCGTCGCACCATCCGCGACGGCCGTCCGGCCAGCCAGATGGCCGCCTTCGGCGACCGCCTGGACGACGCCCAACTCGACGCACTGGTCGCCTACCTCTACCAACCCTCCGCCACGCCGCCGACCTGGAGCGAGGCCGACATCCGCGCCAGCCACCGCATCCTGCGCGCACCGGACAGCCTGCCGGCGAAGCCGCAGCACGGCGCCGATCCGCTCAACCTGTTCGTGGTGGTGGAGGCCGGCAACCATCAGGTGAACATCCTCGACGGCGACCGTTTCGACGTGCTCGCCCGCTTCCCCTCGCACTTCGCCCTGCACGGCGGGCCGAAGTTCTCGCCGGAGGGCCGCTTCGTCTACTTCGCCGCCCGCGACGGCTGGATCACCCTCTACGACCTGCACAGCCTGAGCACCGTGGCGGAAGTCCGCGCCGGGCTGAACACCCGCAACCTGGCGGTGAGTAACGACGGCCGCTGGGTGCTGGTGGGCAACTACCTGCCGGGCGACCTGGTGGTGCTGGACGCCCGCGACCTAACCCCGGTGAAGGTGATCCCGGCGCTCGGCGCGGACGGCAGCGCCTCGCGGATCAGCGCGGTCTACACCGCGCCGCCGCGCGACAGCTTCGTGGTCGCGTTGAAGGACGTGAACGAAGCCTGGGAGCTGTCCTACGCCGGCACGCCGGACTTCCAGCCCCGGCGCATCGCCGCCCGCGACCGCCTCGACGATTTCTCCTTCACCCCGGACTACCGCTACCTGCTGGCCACCTCGCGGGCAGCCAAGGGCGGCCAGGCGATCGACCTCGACGCCGGCCGGGTGGTGGCCGACATCCCGCTGCCGGGCATGCCGCACCTGGGCTCGGGCATCTACTGGAAACGCCAGGGCGAGTGGGTGTTCGCCACCCCGAACATCAGCCAGGGGCTGATCTCGGTGCTGGACATCAAGACCTGGAAGCTGATCAAGGAAATCCCCACCGACGGCCCCGGCTTCTTCATGCGCAGCCACAAGGACTCACCCTACGCCTGGACCGACGTGTTCTTCGGCCCGAACAACGACCGGGTGCACCTGATCGACAAACAGACCCTGGAAATCGCCCACACCCTGCGCCCGATGCCGGGCAAGAACGCCGCCCACGTGGAATTCACCCAGGACGGCCGCTACGCCCTGCTCAGCGTATGGGACAGCGAAGGCGCACTGATCGTCTACGACGCCCGTACCCTGGAAGAGATCAAGCGCCTGCCGATGAACAAGCCGTCCGGCAAGTACAACGTCGGCAACAAGATCGAATTCGCGGAAGGGACGTCGCATTGA	MRLIPLLLGLALPLQSLSAATPDAAALYRQHCQSCHGENRFGGAGPALLPESLERLKPAEARRTIRDGRPASQMAAFGDRLDDAQLDALVAYLYQPSATPPTWSEADIRASHRILRAPDSLPAKPQHGADPLNLFVVVEAGNHQVNILDGDRFDVLARFPSHFALHGGPKFSPEGRFVYFAARDGWITLYDLHSLSTVAEVRAGLNTRNLAVSNDGRWVLVGNYLPGDLVVLDARDLTPVKVIPALGADGSASRISAVYTAPPRDSFVVALKDVNEAWELSYAGTPDFQPRRIAARDRLDDFSFTPDYRYLLATSRAAKGGQAIDLDAGRVVADIPLPGMPHLGSGIYWKRQGEWVFATPNISQGLISVLDIKTWKLIKEIPTDGPGFFMRSHKDSPYAWTDVFFGPNNDRVHLIDKQTLEIAHTLRPMPGKNAAHVEFTQDGRYALLSVWDSEGALIVYDARTLEEIKRLPMNKPSGKYNVGNKIEFAEGTSH				NA	NA	NA	NA	NA
BMS010_02876	327			hypothetical protein	ATGGATACCTGGCTGCTGATCCTCGGCATGCTGGCGATCACCTTCGCCACCCGCTACAGCCTGTTCGCCTGGCCGGACTTGCGCTTCCCGCCGCTGGTGCGCCAGGGCCTGCACTACGTCCCCGGCGCCGTGCTCACCGCCATCGTGGTGCCGGCCATGCTGATGCCCGAAGGCGAACTGGCGCTGCGCCTGGACAACGCCTACCTGCTCGCCGGCCTGTTCACCATCGCCCTGGCGGCCGTCACCCGGAACTTGCTGGCCACCATCGTCGGTGGGTTGGCGGTGTTCTTCCTGCTGCGCTGGGCGTTGGGGCAGTTGCCGATCTGA	MDTWLLILGMLAITFATRYSLFAWPDLRFPPLVRQGLHYVPGAVLTAIVVPAMLMPEGELALRLDNAYLLAGLFTIALAAVTRNLLATIVGGLAVFFLLRWALGQLPI				NA	NA	NA	NA	NA
BMS010_02877	714	ygaZ_3	COG1296	Inner membrane protein YgaZ	ATGTCCCGTTCCCACGAATTCCTCAACGGTGTCCGCGACATGGTGCCCATGCTCATGGGCGCCGTGCCGTTCGGCATCATCTTCGGCACCCTGGCCGGCGCGGCCGGGTTGTCCGCCTGGCAGGCCATCGGCATGTCGCTGCTGGTGTTCGCCGGCTCCGCCCAGTTCATCGCCCTGAGCCTGATCGGCGGCGGCGCCGGAATGGCGGTGGTGCTGCTCACCACCTTCGTGGTCAACCTGCGCCACGCGCTCTACAGCGCCACCCTGCAACCCTTCGTCCGCCACCTGCCGACCCGCTGGCGGGTGCCGCTGGCGTTCTGGCTGACCGACGAAGCCTTCGCCGTGGTCCAGCACCGCTATGCCGAACCGGACGCCTCGCCGTTCAAGCACTGGTACTACCTGGGCGCTGCCCTGGCCATGTATCTCAACTGGCAGCTCTCCACCCTGGTCGGCGTCGCCTTCGGCCAGGCGGTGCCGAATCTGGCCGGGTGGGGGCTGGACTTCGCCATGATCGCCACCTTCGTCGGCATCGTCGTGCCGATGCTGCGCAACCGCCCGCAAGTGGCGGCAGCCCTGGTGGCCGCGGTGGTGGCGCTGCTGGCCCACGCCTGGCCGTACAAGCTCGGCCTGATGGCGGCGGCGCTGGCGGGGATCGTGGTGGGTGTCTGGCTGGAGCGCAGTGCCGATGCCGAACTGGATGAGGAGACCGCCTGA	MSRSHEFLNGVRDMVPMLMGAVPFGIIFGTLAGAAGLSAWQAIGMSLLVFAGSAQFIALSLIGGGAGMAVVLLTTFVVNLRHALYSATLQPFVRHLPTRWRVPLAFWLTDEAFAVVQHRYAEPDASPFKHWYYLGAALAMYLNWQLSTLVGVAFGQAVPNLAGWGLDFAMIATFVGIVVPMLRNRPQVAAALVAAVVALLAHAWPYKLGLMAAALAGIVVGVWLERSADAELDEETA				NA	NA	NA	NA	NA
BMS010_02878	1146	pqqE_1	COG0535	PqqA peptide cyclase	ATGCCCAGTTCTGGATCGAGTTGCGCTGAACGGCCCGGCCCGCCGCTCTGGCTGCTGGCCGAGCTGACCTACCGCTGCCCGTTGCAGTGCCCGTACTGCTCCAACCCGCTGGACTTCGCCCGCCAGGGCGAGGAGCTGAGCACCGCCGAGTGGATCGAGGTGTTCCGCCAGGCGCGCGAACTGGGCGCCGCGCAACTGGGCTTCTCCGGCGGCGAGCCGCTGGTGCGCCAGGACCTGGCCGAACTGATCAAGGCCGCCCGCGACCTGGGCTACTACACCAACCTGATCACTTCCGGCATCGGCCTCACCGAGGCCAAGATCGCCGCCTTCGCCGACGCCGGGCTGGACCATATCCAGATCAGCTTCCAGGCCGCCGACGAGGAGGTGAACAACCTGCTGGCCGGCTCGCACAAGGCATTCGCCCAGAAGCTGGCCATGGCCCGCGCGGTCAAGGCCCACGGCTACCCGATGGTGCTCAACTTCGTCACGCACCGGCACAACATCGACCACATCGACCGCATCATCGAGCTGTGCATTGCCCTCGAGGCGGATTTCGTCGAACTCGCCACCTGCCAGTTCTACGGCTGGGCCGAACTGAACCGCGCAGGCCTACTGCCGAGCAAGGCACAACTGGAGCGCGCCGAGCGTATCACCAACGAATACCGGGCGCGGCTGGCGGCTGAGAAGCATCCCTGCAAGCTGATCTTCGTCACCCCCGACTACTACGAGGAGCGGCCGAAAGCCTGCATGAGCGGCTGGGGCAAGCTGTTCCTCGACATCACCCCGGACGGCACCGCGCTGCCCTGCCACAGCGCTCGCCAGTTGCCGGTGCAGTTCCCCAGCGTGCGCGAACACAGCATCCGCCATATCTGGGAAGAGTCCTTCGGCTTCAACCGCTTCCGGGGCTATGACTGGATGCCCGAGCCCTGCCGCTCTTGCGACGAGAAGGAGCGGGACTACGGCGGCTGCCGCTGCCAGGCCTACATGCTCACCGGCGACATGACCGCCGCCGACCCGGTGTGCGCCAAGTCTGACCGGCACGGCATCATCCTCGACGCCCGCCGCCAGGCCGAGGAAACGCCCCAGGGGCTGGAGAGCCTGCAATACCGTAACGAGAAGGCGTCGAGGGTTATTTGTAAGGGGTGA	MPSSGSSCAERPGPPLWLLAELTYRCPLQCPYCSNPLDFARQGEELSTAEWIEVFRQARELGAAQLGFSGGEPLVRQDLAELIKAARDLGYYTNLITSGIGLTEAKIAAFADAGLDHIQISFQAADEEVNNLLAGSHKAFAQKLAMARAVKAHGYPMVLNFVTHRHNIDHIDRIIELCIALEADFVELATCQFYGWAELNRAGLLPSKAQLERAERITNEYRARLAAEKHPCKLIFVTPDYYEERPKACMSGWGKLFLDITPDGTALPCHSARQLPVQFPSVREHSIRHIWEESFGFNRFRGYDWMPEPCRSCDEKERDYGGCRCQAYMLTGDMTAADPVCAKSDRHGIILDARRQAEETPQGLESLQYRNEKASRVICKG	PGPT0001265_234	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLUCONIC_ACID-PQQ_PATHWAY,PGPT0001265-pqqE-K06139	NA	NA
BMS010_02879	279	pqqD_1		PqqA binding protein	GTGAGCGGCGATATCCTCGACAAAATCCCGGCCCTGCGCCGTGGCTTCCGTTTCCAGTGGGAGCCGGTGCAGGAGTGCCACGTGCTGCTCTATCCCGAGGGCATGATCAAGCTCAACGAGAGCGCCGGGGCGATCCTCGGCGAGGTGGACGGGCAGCGCAGCGTCGGCGCCATTATCGAGATGCTGGCGGCGCGCTTCCCGGACGTCCAGGGCATCGACGAAGACATCCGCGCGTTCCTGGAGGTGGCCCATGCCCAGTTCTGGATCGAGTTGCGCTGA	MSGDILDKIPALRRGFRFQWEPVQECHVLLYPEGMIKLNESAGAILGEVDGQRSVGAIIEMLAARFPDVQGIDEDIRAFLEVAHAQFWIELR	PGPT0001260_519	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLUCONIC_ACID-PQQ_PATHWAY,PGPT0001260-pqqD-K06138	NA	NA
BMS010_02880	753	pqqC	COG5424	Pyrroloquinoline-quinone synthase	ATGACCGCACCCGCCATGTCCCCCGCCGAGTTCGAACAGGCCCTGCGCGCCAAGGGCGCCTACTACCACATCCACCACCCGTTCCACGTGGCCATGTATGAAGGCCGCGCGACCCGCGAGCAGATCCAGGGCTGGGTGGCCAACCGCTTTTACTACCAGGTATGCATTCCGGTGAAGGACGCGGCTATCATGGCCAACTGCCCGGATCGCGATACCCGTCGCGAGTGGATCCAGCGCATCATCGACCACGACGGTGCGCCGGGCGAGGAGGGCGGCATCGAGGCCTGGCTGCGGCTGGCCGAGGCGGTGGGGCTGGACCGTGAGCAGGTGCTGTCGCAGGAACTGGTGCTGCCGGGTGTGCGCTTCGCGGTGGACGCCTATGTCAACTTCGCCCGCCGCGCCAGTTGGCAGGAAGCGGCCAGCAGCTCGCTGACCGAACTGTTCGCGCCGACCATCCACCAGTCGCGGCTGGATGCCTGGCCGCAGCATTACCCCTGGATCGACCCGACCGGCTACGACTACTTCCGCAAGCGCCTGAAAGAAGCGCGCCGCGACGTCGAGCATGGCCTGCGCATCACCCTGGAGCACTACCGCACCCGCGAGGCCCAGGAGCGCATGCTGAATATCCTGCAGTTCAAGCTGGACGTGCTTTGGAGCATGCTCGACGCCATGAGCATGGCCTACGAGCTGGAGCGTCCGCCGTATCACACCGTGACCCGCGAGCGCATCTGGCACCGGGGGATCGCGCTGTGA	MTAPAMSPAEFEQALRAKGAYYHIHHPFHVAMYEGRATREQIQGWVANRFYYQVCIPVKDAAIMANCPDRDTRREWIQRIIDHDGAPGEEGGIEAWLRLAEAVGLDREQVLSQELVLPGVRFAVDAYVNFARRASWQEAASSSLTELFAPTIHQSRLDAWPQHYPWIDPTGYDYFRKRLKEARRDVEHGLRITLEHYRTREAQERMLNILQFKLDVLWSMLDAMSMAYELERPPYHTVTRERIWHRGIAL	PGPT0001255_419	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLUCONIC_ACID-PQQ_PATHWAY,PGPT0001255-pqqC-K06137	NA	NA
BMS010_02881	915	pqqB	COG1235	Coenzyme PQQ synthesis protein B	ATGCATATCCAGATTCTCGGCTCGGCCGCCGGCGGCGGTTTTCCCCAGTGGAACTGCAACTGTCGCAATTGCCGTGGTGTTCGTGACGGCAGCCTGCGGGCGCAGCCGCGTACCCAATCCTCCATTGCCCTGAGCGACAACGGCGTCGACTGGATCCTGTGCAACGCCTCGCCGGATATCCGTGCCCAGATCGAAGCCTTCCCGGCCCTGCAACCGGCGCGCAAGGTGCGCGACACGGCGATCGGCGGCATCGTCCTGCTGGACAGCCAGATCGACCACTGCACCGGCCTGCTGACCCTGCGCGAAGGCTGCCCGCATCAGGTCTGGTGCACCGAGATGGTCCACCAGGACCTGACCACCGGCTTCCCGCTGTTCAACATGCTCAAGCATTGGAACGGCGGGCTGCTCTGGAACCCCATCGACCTGGACGGCGAACCCTTCGTCATCCCGGCCTGCCCGGACTTGCGCATCACCGCCGTGCCGCTACGCAGCAGCGCGCCGCCGTACTCGCCGCACCGCAACGACCCGCATCCGGGCGACAACATCGGGCTGTTCGTCGAGGACGCGAAGACCGGCGGCAAGCTGTTCTACGCACCGGGACTCGGCCAGGTGGACGATGCGCTGCTCGCGCTCATGGCCAAGGCCGACTGCCTGTTGGTGGATGGCACTCTCTGGCGTGACGACGAGATGCGCGTCTGCGAGGTGGGCGACAAGCTCGGCAGCGAGATGGGCCACCTGCCGCAGAGCGGTCCCGGCGGCATGATCTCGGTGCTCGACGGGCTGCCGGCGCCGCGCAAGATCCTGATTCACGTGAACAACACCAACCCGATCCTGGACGTCGATTCCCCCGAGCGCGAAAGCCTCGCGGAGCATGGCATCGAAGTCGCCTGGGACGGCATGAACATCCGGCTCTGA	MHIQILGSAAGGGFPQWNCNCRNCRGVRDGSLRAQPRTQSSIALSDNGVDWILCNASPDIRAQIEAFPALQPARKVRDTAIGGIVLLDSQIDHCTGLLTLREGCPHQVWCTEMVHQDLTTGFPLFNMLKHWNGGLLWNPIDLDGEPFVIPACPDLRITAVPLRSSAPPYSPHRNDPHPGDNIGLFVEDAKTGGKLFYAPGLGQVDDALLALMAKADCLLVDGTLWRDDEMRVCEVGDKLGSEMGHLPQSGPGGMISVLDGLPAPRKILIHVNNTNPILDVDSPERESLAEHGIEVAWDGMNIRL	PGPT0001250_361	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLUCONIC_ACID-PQQ_PATHWAY,PGPT0001250-pqqB|pqqG-K06136	NA	NA
BMS010_02882	1050			hypothetical protein	ATGGATCGCGACATCAGCTTCGCCACTTTCAACCTCTACAACCTGCAACTGCCCGGCAAGCCCACCTATCCGGGTGCCAAGCCGTTCACGCCCGAGGCCTACCAGCGCCGGCTGGCCTGGGCCGGTGAGCGGCTGCGTGAGCTGGATGCGGATGTGATCGCCTTCCAGGAACTATGGTCGGCCCAGGCGCTGCGTGAGCTGTTCGATGCCGCCGGGCTGTCCGCCGACTACGACCTGCAGTTCATCAAGGAGGAGTGGTACGACATTGCCGTGGCCGCCGCGGTGCGCAAGCCCTGGAAGGTGAGCGCGAAGACCCTGCACAAGCGCTTCCCGGACGGTTTCCGCCTGCTCAAGCGCCGTCACGGCGAGCCCGGTGCCGATGCGCAGCGCACCGACGATGACATAGAGGTGAGCATCGATCTGTTCTCGCGCACGGTGATCCAGTTGACCCTCGGCCATGAAAACGCCCAGGTGCCGCCGGTGGAGGTGTTCTGCGCGCACCTCAAGTCCAAGCACGCCACGCCGCTCGACAAGCCGGAGGCCGGCAACCCGGCGCTCAAGCCGCATACGGCCGCCCTCGGCGCGGCGTTGTCCACCATCCGCCGCACGGCGGAAGCGGCGGCGTTGCGGATGATCCTCACCGACCTGCTCAAGGGGACCGACCGCGCCGCCGTGCTGCTGGGCGATCTCAATGACGGCGTACACGCCAACACCCTGTCGATCCTCACCACCCAGCCGGTCTACCGGCGCTACGCCAAGTCGCGCAAGGCCGGTGCCAACGACAGCGGGCTGTACGCGGCGAGCTTCCTCCAGGCCCTCGCCGATTTCCAGGATGTGGCCTATTCCTACCTCTACAAGGACGTGCGCGAGCAGCTCGACCACATCCTGGTGTCCGAGCAGTTCTACGACTATTCGAAGAAGCGCCACTGGTCGTTCCGCGACCAGCGCATCTGGAACGATCACCTGGATGCCGAGGACCGGGACGGGCCGGAGCGGCCGACATCCGACCACGGTGTCGTCAGGGCCCGGTTTCTCTGGGACCCGGCCTGA	MDRDISFATFNLYNLQLPGKPTYPGAKPFTPEAYQRRLAWAGERLRELDADVIAFQELWSAQALRELFDAAGLSADYDLQFIKEEWYDIAVAAAVRKPWKVSAKTLHKRFPDGFRLLKRRHGEPGADAQRTDDDIEVSIDLFSRTVIQLTLGHENAQVPPVEVFCAHLKSKHATPLDKPEAGNPALKPHTAALGAALSTIRRTAEAAALRMILTDLLKGTDRAAVLLGDLNDGVHANTLSILTTQPVYRRYAKSRKAGANDSGLYAASFLQALADFQDVAYSYLYKDVREQLDHILVSEQFYDYSKKRHWSFRDQRIWNDHLDAEDRDGPERPTSDHGVVRARFLWDPA				NA	NA	NA	NA	NA
BMS010_02884	1521	adh_3	COG1012	Aldehyde dehydrogenase	ATGATCTATGCGCAACCCGGTACCCCTGGCGCCATCGTTTCCTTCAAGCCGCGCTACGGCAACTACATCGGCGGCGAGTTCGTCGCGCCGGTGAACGGGCAGTACTTCACCAACACCTCGCCGGTGAACGGCGAGGTCATCGCCGAATTCCCCCGTTCCGATGCCGCCGACATCGAGCGCGCGCTGGACGCCGCCCATGCTGCTGCCGATGCCTGGGGCCGCACCTCGGTGCAGGATCGCTCGAACATCCTGCTGAAGATCGCCGACCGCATCGAGCAGAACCTGGAAGTCCTCGCGGTCGCCGAGACTTGGGACAACGGCAAGGCCGTGCGCGAAACCCTGAACGCCGACGTGCCGCTGGCCGCCGACCACTTCCGCTACTTCGCCGGCTGCATCCGCGCCCAGGAAGGCGGCGCCGCCGAGATCAACGACAACACCGCCGCCTATCACTTCCACGAGCCGCTGGGCGTGGTCGGGCAGATCATCCCGTGGAACTTCCCGCTGCTGATGGCCGCCTGGAAGCTCGCCCCGGCCCTGGCCGCTGGTAACTGCGTGGTGCTCAAGCCGGCCGAGCAGACCCCGCTGTCGATCATGGTCCTCGCCGAAATCATCGGTGACCTGCTGCCGGCCGGCGTGCTGAACATCGTCCAGGGCTTCGGCCGCGAAGCCGGCCAGGCGCTGGCCACCAGCACCCGCATCGCCAAGATCGCCTTCACCGGCTCGACCCCGGTGGGCGCGCACATCCTGCGTTGCGCCGCCGACAACATCATTCCGAGCACCGTGGAACTGGGCGGCAAGAGCCCGAACATCTACTTCGAAGACATCATGAATGCCGAGCCGGCGTTCATCGAGAAAGCTGCCGAGGGCCTGGTCCTGGCCTTCTTCAACCAGGGCGAGGTCTGCACCTGCCCGTCCCGCGCGCTGGTGCAGGAGTCCATCTACGAGCCGTTCATGGCCGAGGTGATGAAGAAGATTCAGAAGATCAAGCGCGGCAACCCGCTGGACACCGAGACCATGGTCGGCGCCCAGGCTTCGCAGCAGCAGTTCGAGAAGATCCTGTCCTACCTGGAAATCGCCCGCAACGAAGGCGCCGAGTTCCTCGCCGGCGGTGCCGCCGAACGTCTGGAAGGCGGCCTGGCCAGCGGTTACTACATCCAGCCGACCCTGCTGAAGGGTCACAACAAGATGCGTGTATTCCAGGAAGAAATCTTCGGGCCGGTGGTGGGCGTCACCACCTTCAAGGACGAAGCCGAAGCCCTGGCCATCGCCAACGACACCGAATTCGGCCTCGGCGCCGGTGTCTGGACCCGCGACATCAACCGCGCCTACCGCATGGGCCGCGGCATCAAGGCCGGCCGTGTGTGGACCAACTGCTACCACCTGTACCCGGCGCACGCCGCGTTCGGTGGCTACAAGAAGTCCGGCGTCGGCCGCGAAACCCACAAGATGATGCTCGACCACTACCAGCAGACCAAGAACCTGCTGGTCAGCTACGACATCAACCCGCTGGGCTTCTTCTGA	MIYAQPGTPGAIVSFKPRYGNYIGGEFVAPVNGQYFTNTSPVNGEVIAEFPRSDAADIERALDAAHAAADAWGRTSVQDRSNILLKIADRIEQNLEVLAVAETWDNGKAVRETLNADVPLAADHFRYFAGCIRAQEGGAAEINDNTAAYHFHEPLGVVGQIIPWNFPLLMAAWKLAPALAAGNCVVLKPAEQTPLSIMVLAEIIGDLLPAGVLNIVQGFGREAGQALATSTRIAKIAFTGSTPVGAHILRCAADNIIPSTVELGGKSPNIYFEDIMNAEPAFIEKAAEGLVLAFFNQGEVCTCPSRALVQESIYEPFMAEVMKKIQKIKRGNPLDTETMVGAQASQQQFEKILSYLEIARNEGAEFLAGGAAERLEGGLASGYYIQPTLLKGHNKMRVFQEEIFGPVVGVTTFKDEAEALAIANDTEFGLGAGVWTRDINRAYRMGRGIKAGRVWTNCYHLYPAHAAFGGYKKSGVGRETHKMMLDHYQQTKNLLVSYDINPLGFF	PGPT0007176_841	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_METABOLISM,PGPT0007176-aldB-K00138	NA	NA
BMS010_02885	1623			hypothetical protein	ATGCGCACGTTCTCTCTGCCCCCCGTTGCCGTGGCTCTGGTCCAGGGTCTGCTCATGATCGTTCTGCTGTTCGCCGTCGGCAGCGGTTGGCCGATGGGGTTGGCGATACCGCTAGTACTGGCGGTGGCCGGGCTGTCGTGGCTGGTGCGACGACCGGCGGCGGTGCCGGACGAGATAAAGGGGCCGGACATCGGCCGTCTCGCCCGCGACCTGGCACACACCACCAGCCACAACGCGTTGTCGGCGGCAGGTGTGTCCTATGCGGTGCAGCGGCTGGCGGAGAGGCTGCAATCGCAGTTGTCGGCGGCGGTGACCATCGTCGGCAGCGCCGAGACCATGATCCACACCGAGGAAGCCACCTCGGCCCTCAGCCAGCAGGCCCGCGATGCCGCCAGCGAGGCGCGGCGCAGCAGCGACGAGGGCCGCGAACTGGTGACCTCGGCCATCGCCTGCATGCACCAGTTGAGCCTGCGCGCCAGCGCCAGCCGCGAACTGATCGAGGCGCTCAGCCAGCGCAGCGAGGAAATCCAGCGGGTGACGCTGGTGATCCAGTCCATCGCCAGCCAGACCAACCTGCTTGCGCTCAACGCGGCCATCGAGGCGGCACGGGCCGGCGAGCACGGACGCGGTTTCGCGGTGGTGGCCGACGAGGTGCGCGGGTTGGCCGGGCGCACCGCCAGCGCCACCGAGGAGGTGGGGCAGATGGTGGCGGACATCCAGGGCCGCACGGCGGAGGTGGTGGAGCAGATCCGCCAGCTCAGCAGTGACCTGGACGACGGCGTCGGCCAGGTGGAGCGCAGCGGTCAGCGCCTGGAGAGCATTGCCGGGCTGGCGCTGGAGGTGGAGAGCCAGATCACCGAGATCGCCCAGGGCGCGGAAACCAACCGGCAGCAATTGAACAGCCTGTTCGCCGCCATCGAGCAGATGCGCGGTGACCTGCGCGCCAGCGAAGAGCAGACCCAGCACCTGGCCGAGGCGGCGATGCAACTGGAGGGGCAGGCCGAGACCATCAGCGAGCGGCTCGCCGAGGTGGGCCTGAACGACTATCACCAACGGGTCTACGACCTGGCCCGCGAGGGCGCCCAGGCGATCGCCGAGCGTTTCGAGGCGGACATCGACAGCGGTCGGATCGGCCTCGACGACCTGTTCGACCGCCAGTACCAGGCGTTGCCGAATACCCACCCGACCAAGTTCCGCACGCGCTTCGACAGCTATACCGACCAGGTGCTGCCGGCAATCCAGGAGCCGCTGCTGAGTCGTCACGAGGGCATGGTGTTCGCCATCGCCTGTACACCGGAAGGCTACGTGCCGACCCACAACCTGGCGTTCAGCCACGCCCCCACCGGCGACCGCCAACAGGACATGGCGCGCAGCCGCAGCAAGCGCAAATTCACCGACCGCACCGGCATCCGCTGCGGCAGCCACCAGCAGCCGCTGCTGTTGCAGACCTACACCCGCGATACCGGCGAGCTGATGCATGACCTGTCTGTGCCGATCTTCATCAAGGGCCGGCATTGGGGCGGCCTGCGCCTGGGCTACCGGCCGGAAGGGGCGGAGCGTCCGGGCAAGCTGGCGGTCGCCCAGACCCGACCGGCGCGGGGGAGAGTGGGGCAGCCGGCTTGA	MRTFSLPPVAVALVQGLLMIVLLFAVGSGWPMGLAIPLVLAVAGLSWLVRRPAAVPDEIKGPDIGRLARDLAHTTSHNALSAAGVSYAVQRLAERLQSQLSAAVTIVGSAETMIHTEEATSALSQQARDAASEARRSSDEGRELVTSAIACMHQLSLRASASRELIEALSQRSEEIQRVTLVIQSIASQTNLLALNAAIEAARAGEHGRGFAVVADEVRGLAGRTASATEEVGQMVADIQGRTAEVVEQIRQLSSDLDDGVGQVERSGQRLESIAGLALEVESQITEIAQGAETNRQQLNSLFAAIEQMRGDLRASEEQTQHLAEAAMQLEGQAETISERLAEVGLNDYHQRVYDLAREGAQAIAERFEADIDSGRIGLDDLFDRQYQALPNTHPTKFRTRFDSYTDQVLPAIQEPLLSRHEGMVFAIACTPEGYVPTHNLAFSHAPTGDRQQDMARSRSKRKFTDRTGIRCGSHQQPLLLQTYTRDTGELMHDLSVPIFIKGRHWGGLRLGYRPEGAERPGKLAVAQTRPARGRVGQPA	PGPT0015710_23013	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_02886	294	pqqD_2		PqqA binding protein	ATGAACGCGCACGCCATCACGCCGCAAGACCGTTTCGAAATCCGCCCGTCGTTCCTGTTCCGCTGGGAAGACTCGCAGCAGGCGCATGTTCTTCTTTACCCGGAAGGTATCGTCAAGTTGAACGCAAGCGGTGGCGAAATTCTTCTGTTATGCGACGGCAAACATACGGTCGGGCAAATAATCGAACAACTTTCCCAACGCTACTGCGCCGCAGACGAAACAACGATAAGCAAGGGCGTATTGAACTTCTTGGAGGTATCCCATGGCAAAGGCTGGATCCGAACCACGGCTTGA	MNAHAITPQDRFEIRPSFLFRWEDSQQAHVLLYPEGIVKLNASGGEILLLCDGKHTVGQIIEQLSQRYCAADETTISKGVLNFLEVSHGKGWIRTTA	PGPT0001260_50	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLUCONIC_ACID-PQQ_PATHWAY,PGPT0001260-pqqD-K06138	NA	NA
BMS010_02887	1134	pqqE_2	COG0535	PqqA peptide cyclase	ATGGCAAAGGCTGGATCCGAACCACGGCTTGATGGCGGCGGCAATCCGGTCTGGCTGTTGCTGGAGCTGACCTACCAGTGCCCGCTGCAATGCGCCTTCTGCAGCAACCCGCGGCAGTTCGCCGACTACCGCCAGAACGAGCTGAGCACCGCCGAATGGATCGACGCGATGAGCCAGGCCCGCGCGCTCGGAGCCATGCAGATCGGCTTTTCCGGCGGCGAGCCGACCCTGCGCAAGGATCTGGAAACCCTCGTCGCCGAAGCCGATCGCCTGGGCTACTACACCAACCTGATCACTTCCGGCATCGGCCTCACCGAGGCGCGCCTGCATGCCCTGAAGGACGCCGGCCTGCGCCACATCCAACTCGGTTTCCAGTCCACCGACCGCGACGTGGCCCGGCAACTGGCCGGCGTCGACTGCTGGGAGCGCAAGCTGGCCATCGCCCGCTCGATCAAGGCGCTGGATTTCCCGATGGTGCTGAACGTGCCCATCACCCGGCAGAACATCGGCCAGGTGCCGGACATCATCAATTTTGCCGCCGAACTGGGGGTGGAATACCTCGAGCTGGCCAACGTGCAGTACTACAACTGGGCGCTGCTCAATCGCGATCAACTGATGCCCACCCGCGAGGAACTGGAGCGCGCCGAAGCCGCCGTACGAGAGGCGCGTGCCCGGCTGGGCGACCGCCTCACGCTGTTCTTCGTCATCCCGGACTATTACGAAGGCCGCCCGAAAGCCTGCATGAACGGCTGGGGCGCGATCCACCTGACCATCGCTCCCAACGGCGACGTGCTGCCCTGCTCCCAGGCCACGAACTTCAAGCACCTGGAGTTCCCCAACCTGCGCCGGCAACGGCTCGAAGCCATCTGGCACGACTCGCCGGTGTTCCAGCTCTACCGGGGCGACGCCTGGATGCCCGAGCCCTGCCGCAGTTGCAGCGAGAAGGAAACCGACTTCGGCGGCTGCCGCTGCCAGGCGCTGCTGCTGACCGGTTCCGGCCACGAAGCCGACCCCGCCTGCAGCAAGTCGCCGCACCATGCCCTGGTCCAGCAGGCAGTGCAACGGGCCCAGCGGGCGCGACTGGTCGATGCGCCGCTGATACCGCGCCACGCCAGCCAGGGGATCGGGCCATGA	MAKAGSEPRLDGGGNPVWLLLELTYQCPLQCAFCSNPRQFADYRQNELSTAEWIDAMSQARALGAMQIGFSGGEPTLRKDLETLVAEADRLGYYTNLITSGIGLTEARLHALKDAGLRHIQLGFQSTDRDVARQLAGVDCWERKLAIARSIKALDFPMVLNVPITRQNIGQVPDIINFAAELGVEYLELANVQYYNWALLNRDQLMPTREELERAEAAVREARARLGDRLTLFFVIPDYYEGRPKACMNGWGAIHLTIAPNGDVLPCSQATNFKHLEFPNLRRQRLEAIWHDSPVFQLYRGDAWMPEPCRSCSEKETDFGGCRCQALLLTGSGHEADPACSKSPHHALVQQAVQRAQRARLVDAPLIPRHASQGIGP	PGPT0001265_351	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLUCONIC_ACID-PQQ_PATHWAY,PGPT0001265-pqqE-K06139	NA	NA
BMS010_02888	99			hypothetical protein	ATGAAACTGCCCCACGACAGCTTCGCCGGAACCCTGGGCGCCGGGCTGGCCCTGACCCTAGGCGTCTACCTGCTGCTGCGCTTCTGGCTGGTCGCCTAG	MKLPHDSFAGTLGAGLALTLGVYLLLRFWLVA				NA	NA	NA	NA	NA
BMS010_02889	492			hypothetical protein	ATGCTCGCTCTCGATCTCCTGGCCCGTTATGCCCACCTGCTGTTCGCCCTGGTGTGGATCGGCCACAACTACGCCAGCTTCGTGCAGCAGCCGGACTATGTGCCGTTCCGAGGCGATGCCGCCGCGCTGGAGCGCGACCTGGCGCGGAGGATGAAGCGCGAGCACGGCATCTTCCGCTACGCCTCGCTGGTGGTCTGGACCTCCGGCATGGCGATGCTCTGGCAGCGCGGCTGGCTGCCGGACGCCCTGCTGTTGCGCGGCCCGCTGGCGGTGATCGGCCTCGGCGCCTGGATCGGCACGCTGATGCTGCTGAACCTCTGGCTGGTGCTCTGGCCGCACCAGAAGAAGCTGCTCGGTTTCGTGCCGGCGAGCTTCGAAGAACGGGTGCGCTGCTCGCGCATCACCTTCCTGTCCTCGCGCAGCAACACCATCCTCTCGATGCCCTTGCTGTTCCTGATGGCGGCCGGCGGACATGGCCTGCACCTGTTCTGA	MLALDLLARYAHLLFALVWIGHNYASFVQQPDYVPFRGDAAALERDLARRMKREHGIFRYASLVVWTSGMAMLWQRGWLPDALLLRGPLAVIGLGAWIGTLMLLNLWLVLWPHQKKLLGFVPASFEERVRCSRITFLSSRSNTILSMPLLFLMAAGGHGLHLF				NA	NA	NA	NA	NA
BMS010_02890	1080	serC_2	COG1932	Phosphoserine aminotransferase	ATGGCCTGCACCTGTTCTGAGGCGATCTACAACTTCGCCGCCGGCCCCTCGCCGCTGCCCACCGAGGTGCGCGCGGCACTGCGCGACGCATGGGTCGAACAGGGCCCGCTGGAGCAGCCGTTCGGCGCAGCGGCCGTCAGGCGGATGCAGGAGGACGTCGAACAAGACCTGCGCGCCCTGCTGCAACTGCCCGATCACTACCGCGTGCTGTTCCTCCAAGGTGGTGCATCCGCCCAATTCGCCCTGCTGCCGCTGAACCTGCTGGCGCCGGGCCAATCCGCCGGCTACCTGGAAAGCGGCCACTGGGCGCGCAAGGCCATCGCCGAGGCACGCCGGCACGCTGCGCTGAAGGTGATCGCCGGCGGCGCCGACTCGAGTTTCCGCGCCCTCCCGCCCTTCGAGGCATGGCAGCTCGATGCGAACCTGGGCTATTGCCACGTCACCAGCAACGAGACCGGCGACGGCCTGCAACTGCATGACTTCCCCGAGCTGCCGGTACCGCTGGTGGCGGACATGAGCTCGGATTTGCTCACCCGCCCGCTGCCGCTGGAACGCTTCGGCCTGATCTACGCCAGCGCCCAGAAAAACCTGGGCATCGCCGGGCTCTGCCTGGTGATCGTCCGCGACGACCTGCTCAGGCCGCCGCGCCCCGGCCTGCCCTCGGTGTTCAGCTACGCCCTGCAGACCGCCGCCAACAGCCGCCTGAACACGCCGCCGCTGCATGCCCTGCACTGCGCCGGCGCGATGCTACGCTGGATCGCCCGCCAGGGTGGCCTCGCCGCCATGGCGGCCCTCGGCCTGGAAAAGAGCCGGAGGCTCTATCGCTGCATCGACGGCAGCGACCTCTACCACTGCCCCCAGCACACCGCCGACCGCTCGCGGGTGAACGTCTGCTTCCAGCTCCGTGAGGCACGGCTGCTGCCTCTGTTCCTGAGCGGCGCCGAACGCCACGGCCTGCTCAACCTGCACGGTCATCCGGCGCTGGGCGGCGTTCGCGCCAGCCTCTACAACGCCATGCCGCTGGCCGGCGTGGAGCGGTTGGTCGATTTCATGACGGCCTTCGAGCGCCAGCATGGCTGA	MACTCSEAIYNFAAGPSPLPTEVRAALRDAWVEQGPLEQPFGAAAVRRMQEDVEQDLRALLQLPDHYRVLFLQGGASAQFALLPLNLLAPGQSAGYLESGHWARKAIAEARRHAALKVIAGGADSSFRALPPFEAWQLDANLGYCHVTSNETGDGLQLHDFPELPVPLVADMSSDLLTRPLPLERFGLIYASAQKNLGIAGLCLVIVRDDLLRPPRPGLPSVFSYALQTAANSRLNTPPLHALHCAGAMLRWIARQGGLAAMAALGLEKSRRLYRCIDGSDLYHCPQHTADRSRVNVCFQLREARLLPLFLSGAERHGLLNLHGHPALGGVRASLYNAMPLAGVERLVDFMTAFERQHG	PGPT0009160_2177	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009160-serC|pdxF-K00831	NA	NA
BMS010_02891	858	pyrD_1	COG0167	Dihydroorotate dehydrogenase (quinone)	ATGGCTGAGCCCCGCCAGCCGGACGTCGCACTGCGTCATCTTCGCGAGCGCCTGCGCCTGGGGCTGGCCTGCGCCGCCGCCCGCCTTGCCAGCGAGGAGGTCCCCTCCCGGCCGGTCGAAGCCATGGGCCTGCGCTTCGACACGCCCCTGGGCATCGCCGCCGGCTTCGACCGTCATGGCCGACTGGGACGACAGGCCGGATCGCTGGGCTTCGGCTTCGTCGAAGTGGGCAGCCTTCATCCGACCGACTTGTCCGAGCTGCGCCGCAGCACGGGGACGGCGCGGCTGGGCATCAACCTCGGCCTGACTCCGGGTATTCCCGAGGCCGTCTTGCACGAAGCGCTCGCCCAGCTCTGGCCGCAGGCGGACTACCTCATGCTCAACCTGATCCACCCAGCCTGCGCGCCTCTGCTGGAACCCGACGCCCGCCCACACCTGACCCGGCTGCTGGCCAGCCTGCGCGAACGGCAGCACCAGCTCGACCGGCTCGGCGACCGCCAAGTCCCGCTGGCCGCCAAACTGCGCTGCCTGCCGGGCGACCTTCCCCTCGACCTCGCCGCCCTGCTGCGCGACCTGGGCTTCGACGCCCTCCTCGCCGCCCACGACCCCGGCCCACCCGCCACAGCCCAGCGCTACCGCCGCTGGCAAAACCCCGCCGTCCAAGCCCAGGTCTGCACCCAAATCGAACGCCTGCGCAGCCTCTGCGGCCCGCGCATGGCCCTGCTGTCGGTAGGCGGCATCCAGACCGCCACCCACCTGAACGATCGCCTCGATGCCGGCGCGGAGCTGGTGCAGGTATATGGCGCGCTGAAGGAACAGGGGCCGGGGGTGGTGGGGAGGATGTTGAGCCGCAGCTGA	MAEPRQPDVALRHLRERLRLGLACAAARLASEEVPSRPVEAMGLRFDTPLGIAAGFDRHGRLGRQAGSLGFGFVEVGSLHPTDLSELRRSTGTARLGINLGLTPGIPEAVLHEALAQLWPQADYLMLNLIHPACAPLLEPDARPHLTRLLASLRERQHQLDRLGDRQVPLAAKLRCLPGDLPLDLAALLRDLGFDALLAAHDPGPPATAQRYRRWQNPAVQAQVCTQIERLRSLCGPRMALLSVGGIQTATHLNDRLDAGAELVQVYGALKEQGPGVVGRMLSRS	PGPT0021190_3994	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021190-pyrD-K00254	NA	NA
BMS010_02892	897			hypothetical protein	ATGAGGCTGCGTCATATCGAGATCTTCCAGGCAATCCTGCAGACCGGCTCGGTCACCGGCGCCGCCAGGCTGCTGAACATTACTCAGCCGGCGGCGACCAAGGCGCTGCATCATGCCGAGGCTCAGCTGGGTTTCAGCCTGTTCACCCGGATTCGGGGACAGCTGCATCCCACGGCGGAGGCGCGCCTGCTGGAGGCCGCCACCGGCAAGGTTTTCGACGATCTGCGCGAGGTGCGCCGGCTGGCCGGCAACCTGCGCGGCCATAGCGACCACCCGTTGCGCATCGTCACCACGCCAACCCTGGCGCAGACCCTGCTGCCGGCGAGCATCGCGCAATGGCGACGGCGCTACCCGAAGACGCCTTGCACGCTGGCGACCCAGCACACCCGGGAGCTGGTCGAGAGTCTGTTGTTGCACGAGGCGGATATCGGCTTCAGCCTGCAGGAACCCAAACATCCGGCCTTGCGCAGCGAGAGCCTGGCCCAGGGCGGCATGCGAGTGATCGCGGGCCGTGGCCAGTGGAGCGAGGAGCTGGCTGGCAAACCCATGGCCTTGGACGAGCTGGCGGGTCAGCCGCTGATTGCGCTGGATACTCGCGATGGTCTGGGCAGTTTGCTGAGCAGTCAGCTGGACCAGTTGGAAGACGGACCGCTGATCAACACCCATGTGCAGACCTACCAGGTGGCGCGCTCGCTGGTGGAGGCCGGGCTTGGCATGGCCGTAGTGGACCCCTTCACGGCACTGGTTCATGCCGCGGCGCTGCAGGCTCGCGAGTTGCAGCCCGGCATCACGGTGACGCTGTATGCGGTGAGCCGCTCCAGCGCCGGACGGCATCCCGCCGCCAGCGCCCTGATCCGACAGATGGCGGAGCAGGCCAGGCAATTGCTGGAGCGCTGA	MRLRHIEIFQAILQTGSVTGAARLLNITQPAATKALHHAEAQLGFSLFTRIRGQLHPTAEARLLEAATGKVFDDLREVRRLAGNLRGHSDHPLRIVTTPTLAQTLLPASIAQWRRRYPKTPCTLATQHTRELVESLLLHEADIGFSLQEPKHPALRSESLAQGGMRVIAGRGQWSEELAGKPMALDELAGQPLIALDTRDGLGSLLSSQLDQLEDGPLINTHVQTYQVARSLVEAGLGMAVVDPFTALVHAAALQARELQPGITVTLYAVSRSSAGRHPAASALIRQMAEQARQLLER				NA	NA	NA	NA	NA
BMS010_02893	1263	dadA_1	COG0665	D-amino acid dehydrogenase	ATGAGCAAGCACGTCGCAATAGTCGGGGGCGGGGTCGTCGGTCTGGCCACCGCCTATGCGCTGGTCCGCGAGGGCCACGAGGTCAGCCTGTGCGACAGCCATGCGCAGGTGGCCCAGGAAACCAGCTTTGCCAACGGCGGGCAGCTCAGCTATCGCTATGTGTCCCCACTCGCCGATGCCGGCGTGCCGCTCAAGGCCCTCGCCTGGATGCTGCAGGGCGACGCCGCCCCGCTGAAATTCAGCCTGCGTCTGGAGCCAAGGCAATGGCGCTGGTGCCTGAGCTTCCTCGCCGCCTGCCGCAGCTCGGTCAACCGGCGCAATACCGGCCACCTGCTGCGCCTGGCCCTGCACAGCCAGCAGATCCTCGCGCAATGGCGTGCGCAGGACGGCCTGGGCGACTTCGCCTGGCGCAGCAACGGCAAGCTGGTGGTCTACCGCAATGCCGTCAGCCTACGCCAGGCGGCCGGCAAGATGAGCGAGGCGGCCGGGCAGCGGCTGCTCGATGCGGCCCAATGCCTGGCGCTGGAGCCGGCCCTGGAAGGTATGGGCGGGCAACTGGCCGGCGGCATCTACAGCGCCGACGACGAAGTCGCCGATTGCCTGCGCTTCTGCCAGGTACTGGAACAGCGTCTGCAAGCCAGCGGCCGCTATCGCCGCCTGGGCGGCCGCCCGGCGACCGGTTTCGAGCAGGCGAGCGGCAGGATTCGCGCCTTGCGCCTGGGCGACGAGAGCATCGCCGCCGACGCCTTCGTCCTCGCCGCCGGCAATCGCAGTGCCGGCCTGGCCCGCAGCCTGGGCCTGCATCTGCCGATCTACCCGCTCAAGGGCTATAGCCTGACCCTGCCGCTGGCGCAGGACGCCATCGCCCCGGAGGTCAGCGTGACCGACTTCGACCACAAGGTGGTCTACGCCCGCCTCGACCGCCAGTTCCGCGTCGCCGCGATGGTCGATATCGGCGCCCGCGACGCCCAACCCAGCGCACGCCGCCTGAGCGCGCTGCGCCGCCTGGGCGAACGCACCTTTCCCCACGCCGGCGACTACCGGCAGGCCGAGGCCTGGGCCGGGCTGCGCCCTTGCACCCCGCAGGGCACGCCACTGCTCGGCGCCACCGCGCTGAGCAACCTCTGGCTGAACAGCGGCCACGGCAGCCTGGGCTTCACCCTCGCCTGTGCCAGCGGCCAGATTCTCTCGGAGCTGATTTCCGGGCGTGCCAGCCCGATCTCGCTGGAAGGCTTGAGCCTTCCGCAATGCCACTCGCGCTAA	MSKHVAIVGGGVVGLATAYALVREGHEVSLCDSHAQVAQETSFANGGQLSYRYVSPLADAGVPLKALAWMLQGDAAPLKFSLRLEPRQWRWCLSFLAACRSSVNRRNTGHLLRLALHSQQILAQWRAQDGLGDFAWRSNGKLVVYRNAVSLRQAAGKMSEAAGQRLLDAAQCLALEPALEGMGGQLAGGIYSADDEVADCLRFCQVLEQRLQASGRYRRLGGRPATGFEQASGRIRALRLGDESIAADAFVLAAGNRSAGLARSLGLHLPIYPLKGYSLTLPLAQDAIAPEVSVTDFDHKVVYARLDRQFRVAAMVDIGARDAQPSARRLSALRRLGERTFPHAGDYRQAEAWAGLRPCTPQGTPLLGATALSNLWLNSGHGSLGFTLACASGQILSELISGRASPISLEGLSLPQCHSR	PGPT0020315_2924	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_D-AMINO_ACID_DEGRADATION,PGPT0020315-dadA-K00285	NA	NA
BMS010_02894	357		COG0251	RutC family protein	ATGCACATCGAGCGTATCGCCAACACCCCGCGCCTCAGCGGCGCCGTGCTTCACGGCGATCTCATCTACCTCTCCGGCCAGGTTCCGGACGACCGCCAGTGCGACTGCGCCAGCCAGACCGAACAGGTGCTGGCCAAGATCGACAGCCTACTGCAGCAGGCCGGCAGTCACCGCGCCAACCTGTTGAGTGTCCAGATCTGGCTGAAAGACATCGAAAGGGACTTCACCGCCATGAACGCGGTCTGGGAGCGCTGGCTACCGGCTGGTTGTGCACCGGCCCGTGCCACCACCCAGGCCGACCTCGCCTCCACCGACGTACTGGTGGAGATGATGGTGATCGCCGTCCGCCCGCACTAG	MHIERIANTPRLSGAVLHGDLIYLSGQVPDDRQCDCASQTEQVLAKIDSLLQQAGSHRANLLSVQIWLKDIERDFTAMNAVWERWLPAGCAPARATTQADLASTDVLVEMMVIAVRPH				NA	NA	NA	NA	NA
BMS010_02895	717	puuD_1	COG2071	Gamma-glutamyl-gamma-aminobutyrate hydrolase PuuD	ATGCGCAAACCCCTGATTGGAATCACTCTGGATGTCGAACCGCAAGGCGGAGGCTACTCCAGCGACCCCTGGTATGCCCTGCGGGTCAATTATGCCGAAGCGGTGAGCGCCGCCGGCGGCCTGCCGATCGCCCTGCCCCATGATTGCCAGGCGGTGACGGACTACCTGGAGCGAATCGACGCCCTGCTGGTCAGCGGCGGCATGTTCGACATCCCGCCGGAACTCTACAACCAGAGCACGCAGCACCAGAACGTGAGCACCAAGGCGACGCGCACCCGCTTCGAGCTGGCCCTGCTGCGCGGCGCCCTGGAGCAGGACATGCCGGTGCTGGGCATCTGCGGCGGCATGCAACTGCTGGTGGTCGCCTCGGGCGGCAGCCTCTACCAGGATCTCGCCAGCGACATGCCCGGTGCCCTCGAGCACATGCAGACCACGGCCCACGACAGTCCCTGGCACCCGGTGGCGATCGCCCCGGACAGCCAGTTGCAGCGTGTGCTCGACTGCAGCCAGCTGCACGTCAACTCGGTGCACCACCAGGGCGCCCACCAACTGCCGGACAATCTGTTGCCGGCCGCCCGGGCCGAGGATGGCCTGATCGAAGCGGTGGAACGCCGCGATCGGCGCTTCGCCCTGGGCCTGCAGTGGCACCCGGAGTACCGCATCAACCCGGAGGAAAGCCGCCTGTTCCAGGCCTTCGTGGATGCCGCCCGTTCATAA	MRKPLIGITLDVEPQGGGYSSDPWYALRVNYAEAVSAAGGLPIALPHDCQAVTDYLERIDALLVSGGMFDIPPELYNQSTQHQNVSTKATRTRFELALLRGALEQDMPVLGICGGMQLLVVASGGSLYQDLASDMPGALEHMQTTAHDSPWHPVAIAPDSQLQRVLDCSQLHVNSVHHQGAHQLPDNLLPAARAEDGLIEAVERRDRRFALGLQWHPEYRINPEESRLFQAFVDAARS				NA	NA	NA	NA	NA
BMS010_02896	1452	alsT_2	COG1115	Amino-acid carrier protein AlsT	ATGCTTAACATCCTCAACGACTTGCTCTGGGGCAAGGTCCTGATCGTCACCCTGGTGGCCATCGGCTTGCTGTTCACCTGCAGTTCCCGTTTCGTGCAGCTGCGCCACTTCGCCGCCATGTTCGGCATCCTGCGCAGCGCCTTCCAACACCAGAAAGGGCAGATCAGCTCGTTCCAGGCCCTGACCCTGAGCGTCGCCGGGCGCGTTGGCGCCGGCAATATCGCCGGTGTCGCCGTCGCCATCACCCTGGGCGGCCCGGGTGCCGTGTTCTGGATGTGGATGATCGGCCTGCTCGGCATGGCCACCAGCTTCTTCGAATGCACCCTGGCCCAGGCCTTCAAGGTGCGTGGCAGCGACGGCCTGTATCGCGGCGGGCCGGCCTTCTACATCAAGGCCGGACTGAAAGCGCCCAGGCTGGCGGTGGTTTTTTCGGTCCTGCTACTGGTGACGTTCGGCTTCGGCTTTAGCGCCCTGCAGTCCTACACCATCGCCACCTCGCTCAACGACACCCTCGGCTTGCCGGCCTATGCCTGCGCCGCGCTGATCGTCGGCCTGCTCGCCGCGATCATCTTCGGCGGCCTGCAGCGCATCGCCAAATTCGCCGAGTTGCTGGTGCCGGTGATGGCCTTGGGTTACCTGGCGATGACCCTGTACGTGCTGGGCAGCCATGTGGAGCGCATTCCCGAAGCCCTGCTGATGATCTTCAACAGCGCGTTCGGCCTGGACCAGGCGCTCGGTGGCGGTGTCGGCGCGGCCATACTGCACGGCATCAAGCGCGGCCTGTTCTCCAACGAAGCCGGCCTCGGCAGTGCCCCCAATGTCGCGGCGGTGGCCGAGGTCCCGCACCCGGTCAACCAGGGCATCGTGCAGGCGTTCAGCGTGTTCATCGACACCCTGGTGCTGTGCAGCTGCACGGCGATGATCGTCCTGCTATCGGACGCCTACCAGTTGGGCGGCAACCTCGGCGGCATTGCCCTGACCCAGGCCGCCATGGCCGAGCACGTGGGAGAGTGGGGACGCGTCTTCGTCAGCCTGGCGCTGTTCTTCTTCTGCTTCACCTCGATCATCTACAACTACTACCTGGGCGAGAACAGCCTGAGCTTCATGGGCCTGGACAACCCGCTGGCGGTGTCCGGCTTGCGTCTGCTGACCCTGGTGCTGATCCTCTGGGGCGCGCTGCAGGATCTCAACACGGTGTTCGCCTTCGCCGACCTGACCATGGCCCTGCTCGCCCTGGTCAACCTGGCCGCCCTCGTTCTGCTGCTCAGGGTTGGCCTGCGCCTGATGCGCGACTACGAGCGCCAGCGCGCCACCGGCGTGGCCCGCCCCGGTTTCGATCCGCACCTGTTCCCCGACCTGGACATCGACCCGCAGGCCTGGCCGACTCCGCCCGGGCAAGCCGCTCCAGGCGAGGTGGCGGAGACAGGCAGCGCGCAGTCCCAGCCTTCCTGA	MLNILNDLLWGKVLIVTLVAIGLLFTCSSRFVQLRHFAAMFGILRSAFQHQKGQISSFQALTLSVAGRVGAGNIAGVAVAITLGGPGAVFWMWMIGLLGMATSFFECTLAQAFKVRGSDGLYRGGPAFYIKAGLKAPRLAVVFSVLLLVTFGFGFSALQSYTIATSLNDTLGLPAYACAALIVGLLAAIIFGGLQRIAKFAELLVPVMALGYLAMTLYVLGSHVERIPEALLMIFNSAFGLDQALGGGVGAAILHGIKRGLFSNEAGLGSAPNVAAVAEVPHPVNQGIVQAFSVFIDTLVLCSCTAMIVLLSDAYQLGGNLGGIALTQAAMAEHVGEWGRVFVSLALFFFCFTSIIYNYYLGENSLSFMGLDNPLAVSGLRLLTLVLILWGALQDLNTVFAFADLTMALLALVNLAALVLLLRVGLRLMRDYERQRATGVARPGFDPHLFPDLDIDPQAWPTPPGQAAPGEVAETGSAQSQPS	PGPT0014405_2078	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLYCINE_TRANSPORT,PGPT0014405-yflA|TC_AGCS-K03310	NA	NA
BMS010_02897	1776	exaA	COG4993	Quinoprotein alcohol dehydrogenase (cytochrome c)	ATGAAGCACACCGGTCTTCGCAAGCCCTTCGCCCTGACGGCACTGTGCGCCGCCATGGCGATGTCCAGCCTGTCGGCCATGGCCGTCACCGACGAGGAAATCCTCAACGACGCCAAAACCCCCGGTCAGGTCGTGACCAACGGCCTGGGCCTGCAAGGGCAGCGCTACAGCACCCTGGACACCCTGAACGCCAACAACGTGACCCAACTGCGGCCGGTCTGGGGCTTCTCCTTCGGCGGTGAGAAACAACGCGGCCAGCAGGCCCAGCCGATGGTGAAGGACGGTGTGATGTACCTCACTGCCTCCTACTCCCGCGTGTTCGCCGTGGACGCCCGCACCGGCAAGGAACTCTGGCAGTACGACGCCCGCCTGCCCGACGGCATCATGCCCTGCTGCGACGTGATCAACCGCGGTGTCGCCCTCTACGGCGACCTGGTGATCTTCGGCACCCTGGATGCCAAGCTGGTCGCCCTGAACAAGGACACCGGCAAGGTGGTCTGGAAGAAAACCGTCGCCGACTACAAGGCCGGCTACTCCATCACCGCCGCCCCGCTGGTGGTGAAGGGCAAGCTGATCACCGGCGTGTCCGGTGGCGAGTTCGGCGTGGTCGGCAAGGTCGAAGCCTACGATCCGAAGAATGGCGAACTGCTCTGGACCCGCCCGACCGTGGAAGGCCACATGGGCTACGTCTACAAGAACGGCAAGGCGGTCGAGAACGGCATCTCCGGCGGCGAAGCCGGCAAGAGCTGGCCGGGCGACCTGTGGAAGACCGGCGGCGCGGCGCCCTGGCTGGGCGGCTACTACGACCCGGAAACCGATTCCCTGCTGTTCGGCACCGGCAACCCGGCGCCGTGGAACTCGCACCTGCGCCCCGGCGACAACCTGTTCTCCTCCTCGCGCCTGGCGCTGAACCCGGACGACGGCTCGATCAAGTGGCACTTCCAGTCCACCCCGCACGACGGCTGGGACTTCGACGGCGTGAACGAGCTGATCTCCTTCAACTACGAAGAAGGCGGCAAGACCGTCAAGGCCGCCGCCACCGCCGACCGCAACGGCTTCTTCTACGTACTCGACCGCACCAACGGCAAGTTCATCCGTGGCTTCCCGTTCGTCGACAAGATCACCTGGGCCAAGGGCCTGGATAAGAATGGCCGGCCGATCTACAACGAGAAAAACCGTCCGCACGCCCCGGGCGACACCACCCAGGCCAAGTCCGTGTTCGTCGCCCCGTCCTTCCTCGGCGGCAAGAACTGGATGCCCATGGCCTACAGCCAGGACACCGGCCTGTTCTACGTGCCCTCCAACGAGTGGGGCATGGACATCTGGAACGAAGGCGTCGCCTACAAGAAAGGCGCGGCCTACCTCGGCGCCGGCTTCACCATCCACCCGCTGAACGAGGACTACATCGGCGTTCTGCGCGCCATCGATCCGAAGACCGGCAAGGAAGTCTGGCGCTACAAGAACTACGCGCCGCTGTGGGGCGGTGTGCTGGCCACCAAGGGCAACCTGGTCTTCACCGGCAACCCGGAAGGCTTCCTGATGGCCTTCGACGCCAAGACCGGCAAGAAACTCTACGAGTTCAACACCGGTTCCGGCGTGATCGGCTCGCCCATCACCTGGGAAATGGACGGCGAGCAGTACGTCTCCGTCCTCTCCGGCTGGGGCGGCGCGGTCCCCCTGTGGGGCGGCGAAGTCGCCAAGCGCATCAAGGACTTCAACCAGGGCGGCATGGTCTGGACCTTCAAGCTGCCGAAGGACATGGTCGCCAAGCGGTGA	MKHTGLRKPFALTALCAAMAMSSLSAMAVTDEEILNDAKTPGQVVTNGLGLQGQRYSTLDTLNANNVTQLRPVWGFSFGGEKQRGQQAQPMVKDGVMYLTASYSRVFAVDARTGKELWQYDARLPDGIMPCCDVINRGVALYGDLVIFGTLDAKLVALNKDTGKVVWKKTVADYKAGYSITAAPLVVKGKLITGVSGGEFGVVGKVEAYDPKNGELLWTRPTVEGHMGYVYKNGKAVENGISGGEAGKSWPGDLWKTGGAAPWLGGYYDPETDSLLFGTGNPAPWNSHLRPGDNLFSSSRLALNPDDGSIKWHFQSTPHDGWDFDGVNELISFNYEEGGKTVKAAATADRNGFFYVLDRTNGKFIRGFPFVDKITWAKGLDKNGRPIYNEKNRPHAPGDTTQAKSVFVAPSFLGGKNWMPMAYSQDTGLFYVPSNEWGMDIWNEGVAYKKGAAYLGAGFTIHPLNEDYIGVLRAIDPKTGKEVWRYKNYAPLWGGVLATKGNLVFTGNPEGFLMAFDAKTGKKLYEFNTGSGVIGSPITWEMDGEQYVSVLSGWGGAVPLWGGEVAKRIKDFNQGGMVWTFKLPKDMVAKR	PGPT0006870_192	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUBSTRATE_UTILIZATION-OTHERS	PLANT_DERIVED_ALCOHOL_DEHYDROGENASE-CYTOCHROME_C,PGPT0006870-exaA-K00114	NA	NA
BMS010_02898	1233	braC_1	COG0683	Leucine-, isoleucine-, valine-, threonine-, and alanine-binding protein	ATGCCCCGACTCATTTTCCTGATGGCCCTGTTGGCCAGCCTGGCCGCGCAGGCGGCGGAACCGATCCGGATCGGCCTCAACTTCCCCCGCACCGGCCCGTACAAGGCCGAGGGCGTGGAACTCAAGCGCGGCGCCCTGCTGGCCATCGAGGCCATCAACCGCGAGGGCGGCGTGCTCGGCCGGCCGCTGGAGCTGCTCAGCCTGAATTCCGCCTCCCGCGAGGACACCGCCGAGCGCAACGTGGATAAGTTCGCCCAGTTGGGTGCACGGATGGTCTTCGGCGGCGCCACCAGCGAAGAGGCGATCACCGCCGGCAAGCGCGCCCACGCCCTGGGCATGCTCTATTTCGCCACCCTCAGCTACGCCAACGAGGTCACCGGGCGCGAAGGCCATCGCTACCTGTTCCGCGAATCGAACAGCGCCTGGATGAGCGCCCAGGTGCTCGGCGAGTACCTGTCCTGGCACATGCCGAGGCGGCGCTACCACTACATCGTGCGGGACGACGCCTGGGGCCGCAGCATGGAGAGCGCCCTGCGCGCCGCTACCGGCAGCCAGGACCGCGCCCGCCATGGCTATACGCGCATCCCCTCGCACAACGCGCGCCGTGAGGATTACGTGAAGGCGATACAGCGCGCCGCCGAGAGCGAGGCCGATGTGCTGGTGGTCATGTTGTTGGGCGAGGACCTGCTGCACAGCATTCGCCTGGCGCGCAACCTCGGCCTCGGCTCGCGCATGCAGATCATCGTGCCGAACCTGAGCAAGAGCATCGTCCAGCAGGCCGGACCGCGGGTGATGGAGGGCGTGATCGGCACCGAGGCCTGGACCTGGCGCGTGCCGGAACTGGAGAAGAGCAGCGAGGGGCAGCGCTTCGTCGAGGCCTTCGTCAAGGCCCACCAGGAATACCCCGGCAGCGCCGCCGCCTCGGCCTACGGGATCGTCCGCCAGTGGGCCGACGCGGTGCGCCGCAGCGGCAGCCTGGACAGCGAGGCGCTGATCGCGGCGCTGGAGAACCATCGCTATCAGTTGCTCAAGGACGGCCAGGAGTGGCGGGCCTTCGACCATCAGAATGTGCAGAGCATCTATGCGGTGAAAGTGAAGGCCCGCGACGAGGTGATGCGCGATCCGTACAAGCAGGACTATTTCAGCATCATCCACCGCATGACCGGCGAACAGGCCGCGCCCACCCTGGAAGACTGGCAACAGGAGCGCGGCGATATGCTCAGACTGCAGTGA	MPRLIFLMALLASLAAQAAEPIRIGLNFPRTGPYKAEGVELKRGALLAIEAINREGGVLGRPLELLSLNSASREDTAERNVDKFAQLGARMVFGGATSEEAITAGKRAHALGMLYFATLSYANEVTGREGHRYLFRESNSAWMSAQVLGEYLSWHMPRRRYHYIVRDDAWGRSMESALRAATGSQDRARHGYTRIPSHNARREDYVKAIQRAAESEADVLVVMLLGEDLLHSIRLARNLGLGSRMQIIVPNLSKSIVQQAGPRVMEGVIGTEAWTWRVPELEKSSEGQRFVEAFVKAHQEYPGSAAASAYGIVRQWADAVRRSGSLDSEALIAALENHRYQLLKDGQEWRAFDHQNVQSIYAVKVKARDEVMRDPYKQDYFSIIHRMTGEQAAPTLEDWQQERGDMLRLQ	PGPT0020765_3399	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020765-livK-K01999	NA	NA
BMS010_02899	348			hypothetical protein	GTGAAATACCTCTGCCTCGTGTACAGCGACGAAAAACTGCTGCACTCCCTGCCGGAAAGCCCCCGCGACGAAGAATGCCTGGCCTATGCCCAGTCGGTGCAGAGCAGCGGCCGGATGATTGCCGCCGAAGCCTTGCAGCCGGTCGATACCGCTACCACGGTGCGGGTACGCAACGGCAAGACGAGTTACTTCGACGGCCCGTTCGCCGAAACCAAGGAGCAGCTCGCCGGCTTCTACCTGGTGGAAGCGGACGACCGCGAACAGGCCCTGGAGATTGCCGCGAAGATCCCGGCGGCGCGGGTTGGCTGTGTGGAAGTGCGGCCGGTGCGGGAGCTGGAAGTCGACTGA	MKYLCLVYSDEKLLHSLPESPRDEECLAYAQSVQSSGRMIAAEALQPVDTATTVRVRNGKTSYFDGPFAETKEQLAGFYLVEADDREQALEIAAKIPAARVGCVEVRPVRELEVD				NA	NA	NA	NA	NA
BMS010_02900	930	gloB_3		Hydroxyacylglutathione hydrolase	ATGCGCCCGCTGATCCTCTCCTTGCTGCTCTGTTTCGCCCTGCCGGCATGGGCGGAACTCGACTACCGCCTGGAACCCCGGCAGATCGCCGAGGACACTTGGCTGTTGGAAGGCAGCACGGACAACTTCGCCCAGGCCAACGGCGGCAATATCGTCAACATCGGCTTCATCGTCACCGGGGCCAGCGTGGTGGTGATCGACACCGGCCCCTCGCGGCGCTACGGCGAGGCCCTGCGCCAGGCCATCGCCAGGGTCACCGACAAGCCGGTCGAGCGCGTGCTGTTGACCCATCACCATCCGGACCACGTGCTGGGCAACCAGGCGTTCACCGACGTGCCGATCCAGGCCCTGGCCGGCACCACCGAGCTGTTGCGCCAGCAGGGCAACGCCATGGCCGACAACATGTACCGTCTGGTCGGTGACTGGATGCGTGGCACCGAGGTGGTGCTGCCCGGTGAAACGGTCGAGCCCGGCGTTCTGGAGGTCGGTGGGCATCGGCTGCGCCTGCTTGGTCTGGGCGGCCACACCGGCGCCGATCTGGCGATCCTCGACGAGACCACCGGCGTGCTGTTCGCCGGCGACCTGGTGTTCTACCAGCGCGCCTTGACCACGCCGAACAGCCCCGGCCTGGATGTCTGGCTCGACGATTTGAAAACCCTCGAGCAATTGCCCTGGACCCTGATCGTCCCCGGTCACGGGCCGGTGGCGCGCAACGACGCGCCCTTCGCCCAGATGCGCGACTACCTGGGCTGGCTCGACAGTGTGATGCGCCAGGGCGCACAGAAGGGCGCGGACATGAACGAACTGATGCAGGTGCCGATCCCCGAGCGCTTCGCCGGGGTCAGCCTGACCCGCTACGAACTGATCCGCAGCGTCAGCCACCTGTACCCGCGCTATGCCGCCGAGCGGCTGCGGCGAGTGGATCGCTGA	MRPLILSLLLCFALPAWAELDYRLEPRQIAEDTWLLEGSTDNFAQANGGNIVNIGFIVTGASVVVIDTGPSRRYGEALRQAIARVTDKPVERVLLTHHHPDHVLGNQAFTDVPIQALAGTTELLRQQGNAMADNMYRLVGDWMRGTEVVLPGETVEPGVLEVGGHRLRLLGLGGHTGADLAILDETTGVLFAGDLVFYQRALTTPNSPGLDVWLDDLKTLEQLPWTLIVPGHGPVARNDAPFAQMRDYLGWLDSVMRQGAQKGADMNELMQVPIPERFAGVSLTRYELIRSVSHLYPRYAAERLRRVDR				NA	NA	NA	NA	NA
BMS010_02901	93			hypothetical protein	ATGAACCTGTCCCGCTTCATCCCGCTCTTGGTCCCCGTGCTGGGTCTCGTGGCGGCGGTCAGCCTGCCCTTCGTCATGTCATTGCAGGGATAG	MNLSRFIPLLVPVLGLVAAVSLPFVMSLQG				NA	NA	NA	NA	NA
BMS010_02902	750			hypothetical protein	ATGGATATGCGTAGCCTGTTGCTGCTGGCCCTGCTCGGCCTGTCGGGACACCTGCCCGCTGAGGGCAAGGACCCGTTGCAGTCGGCCATGTGGGACTTCTACCACCGCCGTCTGCTGGAAGGGGCGCCTGTGGTCTTCGATCAGCGGGTGCGCCTGGAAGTGCCTCCCTTCGCCGAAGATGCACGGCAGGTGCCGATCCACATCGACGCCAGTGCCCTCGACGGCGAGGTGGTGAAGATCATCGCCTGGGCCGAGCTGAATCCCATTCCGCACGTCTTCACCTTCCATCCCGGACCACGCCTGCGCCCGCTGCTGGCGATACGCATCCGTGTCGAGCAGGCCACGCCGATCCGTGCCGCGGTGCTGACTCGCGACGGCGTCTGGCATGTCGCTTCGGCGCGGGTCGATGCCGCCGGCGGCGGTTGTACCGCGCCCAGTGTGGTGCGCGCCCAGGAAGGTTGGGAGGATCGCCTCGGCCAGGTGCTGGGTGGGCGCTTCCCGCGCGGCGAATTCGACCGGCTGCGCCTGGAAGTCTCCCATCCGATGGACAACGGCCTGGTCGGCGGCATCCCCGAGTTCTACCTCGACCAAGCCGAGTTGCGTGCGGCCGATGGCAGCGTGCTGGGCCGGCTCGAGCTGTTCCCGGCGGTGTCCGAGAACCCCTCGCTGACCTTCGAAGTGCGCGGCGACGAGCCGACGCGGCTGTGGTTGCGCGACAACAGCGGCAACGAGTTCGAAGCCGATTTCTAG	MDMRSLLLLALLGLSGHLPAEGKDPLQSAMWDFYHRRLLEGAPVVFDQRVRLEVPPFAEDARQVPIHIDASALDGEVVKIIAWAELNPIPHVFTFHPGPRLRPLLAIRIRVEQATPIRAAVLTRDGVWHVASARVDAAGGGCTAPSVVRAQEGWEDRLGQVLGGRFPRGEFDRLRLEVSHPMDNGLVGGIPEFYLDQAELRAADGSVLGRLELFPAVSENPSLTFEVRGDEPTRLWLRDNSGNEFEADF	PGPT0002355_346	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-SULFURIC_ACID_BIOSYNTHESIS,PGPT0002355-soxY-K17226	NA	NA
BMS010_02903	882			hypothetical protein	ATGCGCCTGTTCGTCCTGCTGTTCAGCCTGCTGCTCGCCGGGCAGCAGGCCCTGGCACAGATCCGCTCGTATGACGACATCGTCGCCTCGGGCGCGCTCAAGGTCGCGGTGTACCAGGACTTCCCCCCGTACAGCTACAAGCAGGACGGCCAGCCGCGCGGCGTCGACGTCGCCGTGGCCGGGGCGCTTGCCGAGGGCCTTGGGCTGAAGCTGGAGCTGCTCTGGATGGAGCCCGGCGAAAAGCTCGACGACGACCTGCGCAACTACATCTGGAAGGGTCATTACCTGCGTCCGAACGAGCACGCGGACCTGATGATGCGCGTGCCCTACGACCGCGACTTCACCTTCAAGCGCAATGAACTGGGCGAACTGATCAACGAGCGGGTGGCCATGTTCGGCCCCTACCAGCGTGAGTGCTGGCAGGTGGTCTACGACACCCGCCGGCTGAAAGACGTGCCGAGCATCGCGGTGTTCCAGTACCACCCCATCGGCGTGGAGCTGGAGAGCGTGCCCTCGTTCTACCTGTCGTCCGTGATGGACGGCCGGCTCAGCAGCCATACCCAGCATTTCCGCACGCCTTCCGAAGCCTTCGCCGCCATGCGCGCGGCCAAGGTAGATGCGGTCATGGGCCTGCGTGGCGAATTGGATTGGCTGCTCAGCCATTCCGGCGACGCGAAGCTGAAAGCGGCGGAAAACGCCTACCCGGACATGGGCCGGCAGGTATGGGACATCGGCATGGCGGTGCACGAAAGCAACCGCCAGTTGGCCTACGCGGTGGAGGAGGTGCTCGAAGGGCTGATCCTCGACGGCAAGGTCAAGACACTCTACGAGGCCGAAGGGCTGCGTTACGAGCTGCCGGGTCTGTATCAAGACGTTCAGTGA	MRLFVLLFSLLLAGQQALAQIRSYDDIVASGALKVAVYQDFPPYSYKQDGQPRGVDVAVAGALAEGLGLKLELLWMEPGEKLDDDLRNYIWKGHYLRPNEHADLMMRVPYDRDFTFKRNELGELINERVAMFGPYQRECWQVVYDTRRLKDVPSIAVFQYHPIGVELESVPSFYLSSVMDGRLSSHTQHFRTPSEAFAAMRAAKVDAVMGLRGELDWLLSHSGDAKLKAAENAYPDMGRQVWDIGMAVHESNRQLAYAVEEVLEGLILDGKVKTLYEAEGLRYELPGLYQDVQ	PGPT0020800_3842	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_02904	438			hypothetical protein	ATGAACAAGAACATCGCATGGCGTGCACTGATCGGCGCAGGGATTCTGAGCGCTTCCGGGCTGGTCATGGGACATGGCGACGTCACCCCGCAGGCGGTCAACACTTCCGACCTGGAGCAACTGGGCGCCGAGTGGCGCGACGAGAACCCCTACCGCGAGCCTTACGAGAAGCACGCCAAGGCCGTCGAGATCGGTACTTCCGCCTACAACCAGAACTGCGCCCGCTGCCATGGCCTGGAAGCCATCTCCGGCGGCATCGCCCCTGACCTGCGTTATCTCGAAGCCGGCCTCGAAGGCGACGAGTGGTTCAAGGAGCGGGTGATCAACGGTGCGGTGCGCGACGGCGCCGTGTACATGCCGCGGATGGCCGATTACCTGAGCCAGGAAGCGCTCTGGGCGATCCGTACCTACCTGGAAAGCGTCGCCGTCTCGGAGTAG	MNKNIAWRALIGAGILSASGLVMGHGDVTPQAVNTSDLEQLGAEWRDENPYREPYEKHAKAVEIGTSAYNQNCARCHGLEAISGGIAPDLRYLEAGLEGDEWFKERVINGAVRDGAVYMPRMADYLSQEALWAIRTYLESVAVSE				NA	NA	NA	NA	NA
BMS010_02905	1872	qedA		Quinoprotein alcohol dehydrogenase (cytochrome c)	ATGACAACAAGACAGCACCCTCGCCGCCCGCATCCGCTCGCCGGCCTCGTCCATGGCCTGGCGCTCGCCGGCGGTCTCGCCGCCGCACCGTTCGCCGGAGCCAAGCCGGTCGCCTGGGAGGACATCGCCAACGACCACGCCACGCCGCAGGACGTCCTGCAATACGGCCTGGGCACCCACGCCCAGCGTTACAGCCCGCTCGACCAGGTGAACGCAAACAACGTGTTCAAGCTGACGCCGGCCTGGTCCTTTTCCTTCGGCGACGAGAAGCAGCGCGGCCAGGAATCCCAGGCCCTGGTCCACGACGGCGTCATCTACGTCACCGGCTCCTACTCGCGGGTATTCGCCCTCGACGCGCGCACCGGCAAGCGCCTGTGGAGCTATGCCCACCGCCTGCCCTCGGACATCCGCCCCTGCTGCGACGTGGTCAACCGCGGCGCCGCCATCTATGGCAACAAGATCTATTTCGGCACCCTCGACGCGCGCATCGTCGCCCTCGACAAGGACACCGGCAAAGTGGTGTGGAACAAGAAGTTCGCCGACCATGCGGCCGGCTACACCATGACCGGCGCACCGACCATCGTGAAGGACGGCAAGACCGGCAAGGTGCTTCTGATACATGGCAGCTCCGGTGACGAGTTCGGCGTGGTCGGCCAGTTGTTCGCCCGAGACCCGGAAACCGGCGAGGAGATCTGGATGCGACCGTTCGTCGAAGGTCACATGGGCCGCCTGAACGGCAAGGACAGCACGCCCACCGGCGACATCAAGGCCCCGTCCTGGCCGGAAGATCCCGACTCGCCCACCGGCAAGGCGGAAGCCTGGAGCCATGGCGGCGGCGCCCCGTGGCAGAGCGCCAGCTTCGATGCCGAAACCAACACTCTCATCGTCGGCGCCGGCAACCCGGCGCCCTGGAACGGCTGGGCACGCACTGCCAAGGACGGCAAGCCGGCCGACTACGATAGCCTCTACACCTCCGGCCAGGTCGGCGTCGATGCCAGCACCGGCGAAGTGAAATGGTTTTACCAGCACACCCCCAACGATGCCTGGGACTTCTCCGGCAACAACGAGCTGGTGCTGTTCGACTACAAGGACAAGAACGGCAAGACCCTCAAGGCCACCGCCCACGCCGACCGCAACGGCTTCTTCTACGTGGTGGACCGCAGCAACGGCAAACTGGTCAACGCCTTCCCCTTCGTCGACAACATCACCTGGGCCAGCCATATCGACCTGGAAACCGGCCGCCCGGTGGAGATCGAAGGTCAGCGCCCGCCGAAGCCCGAGCCCGGCGAGAAGCACGGCAAGGCGGTGGAGGTCTCGCCGCCCTTCCTCGGCGGCAAGAACTGGAATCCCATGGCCTACAGCCAGGACACCGGACTGTTCTACGTGCCGGCCAACCACTGGAAGGAGGACTACTGGACCGAGGAGGTCACCTACAAGAAGGGCGCTGCCTACCTCGGCCAGGGCTTCCGCATCAAGCGCATGTACGACGATCACGTCGGCATCCTGCGGGCGATGAACCCAGCCACCGGCAAGGTCGCCTGGGAACACAAGGAGCGCCTGCCGCTCTGGGCCGGCGTGCTGGCAACCAAGGGTAACCTGGTGTTCACCGGCACCGGCGACGGCTACTTCAAGGCCTTCGACGCGAAAACCGGCAAGGAGCTGTGGAAGTTCCAGACCGGTAGCGGAATCATCTCGCCGCCGATCACCTGGGAGCAGGACGGCGAGCAGTACCTCGGCGTGACCGTCGGCTACGGCGGCGCCGTGCCCCTGTGGGGCGGCGACATGGCCGAGCTGACCAAGCCGGTGGCCCAGGGCGGCTCGTTCTGGGTCTTCAAGCTGCCGGGCTGGGACAAGGCCAGCGCCAGCCGCTGA	MTTRQHPRRPHPLAGLVHGLALAGGLAAAPFAGAKPVAWEDIANDHATPQDVLQYGLGTHAQRYSPLDQVNANNVFKLTPAWSFSFGDEKQRGQESQALVHDGVIYVTGSYSRVFALDARTGKRLWSYAHRLPSDIRPCCDVVNRGAAIYGNKIYFGTLDARIVALDKDTGKVVWNKKFADHAAGYTMTGAPTIVKDGKTGKVLLIHGSSGDEFGVVGQLFARDPETGEEIWMRPFVEGHMGRLNGKDSTPTGDIKAPSWPEDPDSPTGKAEAWSHGGGAPWQSASFDAETNTLIVGAGNPAPWNGWARTAKDGKPADYDSLYTSGQVGVDASTGEVKWFYQHTPNDAWDFSGNNELVLFDYKDKNGKTLKATAHADRNGFFYVVDRSNGKLVNAFPFVDNITWASHIDLETGRPVEIEGQRPPKPEPGEKHGKAVEVSPPFLGGKNWNPMAYSQDTGLFYVPANHWKEDYWTEEVTYKKGAAYLGQGFRIKRMYDDHVGILRAMNPATGKVAWEHKERLPLWAGVLATKGNLVFTGTGDGYFKAFDAKTGKELWKFQTGSGIISPPITWEQDGEQYLGVTVGYGGAVPLWGGDMAELTKPVAQGGSFWVFKLPGWDKASASR	PGPT0006870_78	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUBSTRATE_UTILIZATION-OTHERS	PLANT_DERIVED_ALCOHOL_DEHYDROGENASE-CYTOCHROME_C,PGPT0006870-exaA-K00114	NA	NA
BMS010_02906	639	pipB2	COG1357	Secreted effector protein PipB2	ATGCTTCGCCTACTGCTAGTTGCCCTGCTGATGGGCGGCAACGCCTTCGCCGACGACGAGACGCCGGTCATCGGCGGCTGCCGCCTGGAAGCGGAAAGCCATTGCCTCGGCGCCAATTTACGTAACGCCGATCTCAGCCACCTCGACCTGCGCAGGATCAATCTCTCCGGTGCCGACCTGCGCGGTGCCGATCTTCGCCACAGTCGCCTCGACTTGGCCAACCTGGAAAAGGCCAACCTGCAGGGCGCCAATCTCAATCGCGCCAGCCTCCAGCAGACCAACCTGCGCCTGGCCAATCTGCGCGGCGCCAGTCTGATGGCCATCCGGGGCTGGGGCCTGTTCGCCCAGGCCAGCCACCTCGACCGCGCCGACCTCACCGGCGCCGATCTCGAGTCCGCACGCCTAAGCGGCGCCACGTTGCACGATGCCCGGCTGGTAGCCGCCAGTCTCGAAATGACTTGGTTGAGCAAGGCCGACCTGAAAGGTGCAGACCTCACCGACGCCAACCTGCAGGAAGCCAAGCTCAACGACGCCAACCTGGAAAACGCCACTCTCACCGGTGCCCGCCGGCACTATGCGACGTTCCAGAACACCAACATGGAAGCCTGCACGGCATGTCCGGTCGATTGGGAGAAGTGA	MLRLLLVALLMGGNAFADDETPVIGGCRLEAESHCLGANLRNADLSHLDLRRINLSGADLRGADLRHSRLDLANLEKANLQGANLNRASLQQTNLRLANLRGASLMAIRGWGLFAQASHLDRADLTGADLESARLSGATLHDARLVAASLEMTWLSKADLKGADLTDANLQEAKLNDANLENATLTGARRHYATFQNTNMEACTACPVDWEK				NA	NA	NA	NA	NA
BMS010_02907	663	exaE		Transcriptional activator protein ExaE	ATGAAGATTCTCCTGGTAGACGACCATGCCGTGGTCCGGCAGGGCTACGCCAGCCTGCTTCGTACCCTGCTGCCGCACGTTCAGGTGAGCGAAGCGGGCAGCGGCGAGGAAGCGCTGCGACAGACCCAGGCGGACATTCCCAACCTGGTAATCATGGACATCGGACTGCCCGGCATCAGTGGGCTGGAGACCACCCGCCGGCTACATCAGCGCCTGCCGCAATTGCGCGTGCTGTTCTTCAGCATGTACGACGAACTGCCGCTGGTACGCCAGGCCCTGGACAGCGGCGCAGCGGGCTACATCACCAAGAACTCGCCACCGGACGTGCTGGTGGAGGCGGTGCGGCGCATCCTGGCCGGTTATCCCTATATCGAACAGCCCCTGGCCACGCAGCTCGCCTGCCATGCCACCCAGGGCGAAGACAGCGACCCGCGCTTGCGCGGCATCACCCAGCGTGAATTCGAAATCTTCGTGATGCTCGCCAAGGGGCTGCCGGCCCGGCAGATCGCCGAGAAGCTGTGCATCAGCGCCAAGACCGTCTCCAACTACCTGACCCTGCTCAAGAGCAAGCTGCAGGTCAGTTCCCACGCGGAGCTGGTGCACCTGGCGATCGATACCGGCGTGCTGCGGCTGGGGGAACGGGAGATGCGCTCGGCGTCGTGA	MKILLVDDHAVVRQGYASLLRTLLPHVQVSEAGSGEEALRQTQADIPNLVIMDIGLPGISGLETTRRLHQRLPQLRVLFFSMYDELPLVRQALDSGAAGYITKNSPPDVLVEAVRRILAGYPYIEQPLATQLACHATQGEDSDPRLRGITQREFEIFVMLAKGLPARQIAEKLCISAKTVSNYLTLLKSKLQVSSHAELVHLAIDTGVLRLGEREMRSAS	PGPT0012935_1273	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-VarA|VarS_SIGNALLING_SYSTEM,PGPT0012935-gacA|uvrY|varA-K07689	NA	NA
BMS010_02908	1257			hypothetical protein	ATGTCCACGCTTGGCCGCATCAGTCTCTGGGTGACGCTGTTCTTCGCGGCGGTGGCGCTGATCTGCCTGATCGTGCTGCTGCGCCAGGCGCGTCACGACGTGCAGCGCGAGCTCGATGCTGCCCAGGCAGTGATGGCGCAACTGCGCGTGCTGGCCCTGCGCGACGCCGCCGCGCTGCAGCCCGATCTGACCGAGGGGCTGCGGCATGTCCGGGCCCACTGGCTGAATGCCTCCGATGTGGCACCGCAAACGCCCGAGCCAGGCTGGTTGGCGGCCTGGCTGTACGGTGGATCGGTGAGCGGCGAGACCCTGGCGCTGGCCGATGGACGGCGGCTATGGGTGAGCGTGGAGCCGCGCGACGAAATCGATGAAGTACGCGATTCGCTGGTGCAGTTGCTGGCGTTATTCGCCCTGGCCCTGGTGGTCAGCCTGCTGGCGATCCGCTGGGCGGTGCGCCGCGGGCTGCGGGTGCTGGCCGAGCTTCTCGGCGCTCTGGAGCATGTATCCCGGGGCCGGCTGGAGGTGCGCCTGGATGGTCATGGCCAGCCGGAAACGCGCTTGCTGGCCGATCACTTCAACCGTATGGCCGGCGCCCTGCAACGGGCTCGCACCGATAACAGCGAACTGACCCAGGCCCTGCTGGCCTTGCAGGAGCGCGAGCGGACCCACCTGGCGCAGACCCTCCACGACGACCTCGGCCAGTACGTCGCCGGGATTCGTGCCCAGGCTTGCCTGGCCAATGCCCTGAGCGGCCAGCCCCAGGCCCAGCGTAATGCGCTGATCGGCCTGGAACGCAACTGCGGCCTGTTGCAGGAAGGGTTTCGTGCCCTGACCCGCGAGTTGTATCCGGTGATGCTCGAACACCTAAGCCTGGACGCGGCGATCCGCCAGCTCGGCGAGCAGTGGCAGGCGACCCAGGGCATCGATTGCCGGATGCGCCTGAGCCGTGATCTGCCCGAACTGCCGCTGGCGTCGAGGGCGCATCTCTACCGCCTGCTGCAGGAGGCGCTGACCAACGTCGCCCGGCATGCCCGGGCCAGACGCGTTTGCATCCGCCTGCAACCGGGGGCGGGGCATCTGCGCCTGTGGGTGCGCGACGACGGTCGCGGTGCCGCCGAGCCGGTGCGGGCCGGGATAGGCCTGCGTTCGATGATCGAGCGCGCCCGCTGCCTGGGCGGCGAATTGAAGGTGCTCAGCCGCCCCGGTCGTGGCTGGGCGATCCGACTGGACATCCCGATGCTGGAGGCGAGCCGATGA	MSTLGRISLWVTLFFAAVALICLIVLLRQARHDVQRELDAAQAVMAQLRVLALRDAAALQPDLTEGLRHVRAHWLNASDVAPQTPEPGWLAAWLYGGSVSGETLALADGRRLWVSVEPRDEIDEVRDSLVQLLALFALALVVSLLAIRWAVRRGLRVLAELLGALEHVSRGRLEVRLDGHGQPETRLLADHFNRMAGALQRARTDNSELTQALLALQERERTHLAQTLHDDLGQYVAGIRAQACLANALSGQPQAQRNALIGLERNCGLLQEGFRALTRELYPVMLEHLSLDAAIRQLGEQWQATQGIDCRMRLSRDLPELPLASRAHLYRLLQEALTNVARHARARRVCIRLQPGAGHLRLWVRDDGRGAAEPVRAGIGLRSMIERARCLGGELKVLSRPGRGWAIRLDIPMLEASR	PGPT0017175_790	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_HEXOSE_PHOSPHATE_UPTAKE_SENSING,PGPT0017175-uhpB-K07675	NA	NA
BMS010_02909	438			hypothetical protein	ATGCAACTGTTCAAAGCCTTGCTCCTGCCGCTGCTACTCATCGCCAGCCTGATCGGTTTCGACAAGGTCCACGCCGCCGGCGACCTGACCCGTCGTACCCAGCCGCTGCCGGACCTGGTGCTGGGCTCGGACGACAGCGATTACTACATGTCGCAGAACGAGTATTCGCTGGAGACCGGCAAGGCCTACCAGCTCAAGGTCATCTCCAACGGACAGAAGGAGTGCGCCTTCCAGGCACCGGAATTCGCGGTGTCGATCTTCCTGCGCAAGGTCGAGGCCGGTGGGGTGGAGATCAAGGCGATGACCCTCACCGAGCTGGAGTTCGAGGACGCCGGGCAGGCGGAAATCTTCTTCGTGCCGATCAAGCCGGGTAGCTTCCCGTTCTACTGCAAGGGATTGGAGGCCAAGGGCATGTCCGGGCGCTTCCTGGTCCGCTGA	MQLFKALLLPLLLIASLIGFDKVHAAGDLTRRTQPLPDLVLGSDDSDYYMSQNEYSLETGKAYQLKVISNGQKECAFQAPEFAVSIFLRKVEAGGVEIKAMTLTELEFEDAGQAEIFFVPIKPGSFPFYCKGLEAKGMSGRFLVR				NA	NA	NA	NA	NA
BMS010_02910	1197			hypothetical protein	ATGCGCCTGCTCGCGATCCACGGCCTGGCCTACCTGCTCGCCATCGCCAGCGCCGCCCTGCTCGCCACCCACAGCCAGGCTGCGGACGGCGAACTGCAGGTGCGCATCGGCTACCTGGCCTACCGCCCCGATCCCGGCCCGCTGCTGTCCAACGTCATCCCCGAGCCCGACGACGCCGGCCTGCGCGGCGCCGAGCTGGCGATCACCGACAGCAACAGCACCGGCCGTTTCCTCAAGCATCGCTATGACCTCCAGGTGGCGGACAGCCCCAACCCCGAAGCCCTGTTGGATGAGGCGCGCCGGCTGCATGCCGACGGCCTGCGCCTGTTCGTGGTCAACGCCCCGGCCGACAGCCTGCGCCAGCTCGCCACTGCGCTGCCGGACAGCCTGCTGTTCAATGCCGGCAGCGCCGACGACGGCCTGCGTCTCGACGCCTGCCCAGGCAACGTGCTGCACAGCCTGCCCAGCCGCGCCATGCTGGCCGATGCCTTGGCTCAGTTCCTTGCAGTACGCAAGTGGACCCGCTGGCTGCTGATCGTTGGCACCACCGCCGATGACAAGGCCTACGCCGACGCCCTGCGCCGCGCGGCCAAGCGCTTCGGCCACAAGATCGTCGCGGAAAAGCCCTGGACCTTCGATAACGACCAGCGTCGCAGCGCCCAGGCCGAGATGCCGCTGTTCACCCAGACCGCCGAGTACGACGTGATCCTGGTGGCCGACGAGCGCGGCGACTTCGGCGAATACGTGCCCTACCAGACCTGGTACCCGCGCCCGGTGGCCGGCACCCAGGGGTTGACCCCGACCGGCTGGCACAAGACCGTGGAAACCTACGGCGCCGCCCAGTTGCAGAAGCGCTTCGAGGAGCACGCAGGGCGCTGGATGAACGACCGCGATTTCGCCGCCTGGATCGCCGTGCGCAGCATTGCCACCGCCGTGACCCGCCTGCGCGACACCGCACCGGCGGCGATCCGCAGCCTGGCACTCTCCACCGACCTGCCGATCGACGGCTTCAAGGGGCGCAAGCTCAGCTACCGCGCCTGGGACGGCCAGCTCCGCCAGCCGATTCCGCTGGTCCACCCACGGGCGCTGGTGTCCACCTCGCCGCAGGATGGCTTCCTCCACCCCAGCAGCGAGCTGGACACCCTGGGCCTCGACGCTCCGGAAAGCCGCTGCCGGTTGAGCGACGCGCGCCTGTGA	MRLLAIHGLAYLLAIASAALLATHSQAADGELQVRIGYLAYRPDPGPLLSNVIPEPDDAGLRGAELAITDSNSTGRFLKHRYDLQVADSPNPEALLDEARRLHADGLRLFVVNAPADSLRQLATALPDSLLFNAGSADDGLRLDACPGNVLHSLPSRAMLADALAQFLAVRKWTRWLLIVGTTADDKAYADALRRAAKRFGHKIVAEKPWTFDNDQRRSAQAEMPLFTQTAEYDVILVADERGDFGEYVPYQTWYPRPVAGTQGLTPTGWHKTVETYGAAQLQKRFEEHAGRWMNDRDFAAWIAVRSIATAVTRLRDTAPAAIRSLALSTDLPIDGFKGRKLSYRAWDGQLRQPIPLVHPRALVSTSPQDGFLHPSSELDTLGLDAPESRCRLSDARL				NA	NA	NA	NA	NA
BMS010_02911	972			Hydrazine synthase subunit beta	ATGCCCACTGCCCTGCCGACCCGCCTCCTCGCCACCGTCCTGCTGGCCGCCGCCGGCCCGGCCCTGGCCGCCACCGCCTATGTGTCCAACGAGAAGGACAATACCCTCAGCGTCATCGACCTGGAGCGCATGGAAGTCACCGGCACCCTGGAGGTCGGCATGCGCCCACGCGGCCTGGCGCTGTCCCACGACAACAAGCTGCTCTACATTTGCGCCAGCGATTCCGACCGCGTACAGGTGCTCGACCTGGCCAGCGGCAAGATCGTCAAGGAACTGCCTTCCGGCGCCGACCCGGAACAGTTCGCCCTGCACCCCAACAACAAGTGGCTGTACATCTCCAACGAGGACGATGCGCTGGTCACCGTGGTGGACGTGGACAGCGAAGAGGTGCTGGCGCAGATCGACGTCGGCGTCGAGCCGGAAGGCATGGCCGTCAGCCCGGACGGCAAGTGGGCGGTGAACACCAGCGAAACCACCAACATGCTGCATTGGATCGATACCACCACCCATCAGTTGGTGGACAACACCCTGATCGACCAGCGCCCGCGGCATGTCGAATTCAGCAAGGACGGCAGCCGGCTCTGGGCCTCGGCGGAGATCGGCGGCACCGTCACCGTGGTCGACGTGGCGAGCCGGCAGGTGCTCAAGAAGCTGAACTTCCAGATCAAGGGCATCCACCCGGACAAGGTACAGCCGGTGGGCATCAAGCTGACCTCGGACGGCAAGTACGCCTTCGTCGCCCTCGGCCCGGCCAACCACGTGGCGGTGGTGGATGCGAAGACCTACGAGGTGCTCGACTACCTGCTGGTGGGCCGGCGCGTGTGGCACATGGCGTTCTCCCCGGACGAGCGCCTGCTGCTGACCACCAACGGCGTCAGTGGGGATGTCTCGGTGATCGATGTGGAGAAGCTCAAGGTGACCAAGTCGATCAAGGTGGGCCGCTATCCCTGGGGCGTGGTGGTGAAGCCATGA	MPTALPTRLLATVLLAAAGPALAATAYVSNEKDNTLSVIDLERMEVTGTLEVGMRPRGLALSHDNKLLYICASDSDRVQVLDLASGKIVKELPSGADPEQFALHPNNKWLYISNEDDALVTVVDVDSEEVLAQIDVGVEPEGMAVSPDGKWAVNTSETTNMLHWIDTTTHQLVDNTLIDQRPRHVEFSKDGSRLWASAEIGGTVTVVDVASRQVLKKLNFQIKGIHPDKVQPVGIKLTSDGKYAFVALGPANHVAVVDAKTYEVLDYLLVGRRVWHMAFSPDERLLLTTNGVSGDVSVIDVEKLKVTKSIKVGRYPWGVVVKP				NA	NA	NA	NA	NA
BMS010_02912	720	lnrL	COG1131	Linearmycin resistance ATP-binding protein LnrL	ATGAGCGCCCTGGAGCTGCACGGCGTCGGTTTTCGCTACGCCACCCGGCCGGCGCTGGAGGACGTTTCCTTCAGCGTCCCGCCCGGCCACTTCACCGCCCTGCTCGGCCCCAACGGCGCCGGCAAGTCCACCCTGATCGCCCTGCTCACCCGCCTCTACGATCTGCAGCAGGGCGACGTCAGCGTCTACGGCTGTTCCCTGCGCCAGCAACCGCGCCTGGCCCTGCGCCAGCTCGGCGTGGTGTTCCAGCAGAGCACCCTGGACCTCGACCTCAGCGTCGAGCAGAACCTGCGCTACCACGCCGCCCTGCACGGCATGACGAGGAAGCTCACGGCGGCGCGGATCGACGAGGAACTGGCCCGGCAGTCCCTGACCGAACGCCGTCGCGACAAGGTGCGCCTGCTCAACGGCGGCCACCGCCGCCGCGTGGAGATCGCCCGCGCGCTGCTGCACAAACCGCGCCTGCTGCTGCTCGACGAAGCCAGCGTCGGCCTCGACCCGGCCAGCCGGCTGGCGCTCAACCGCCACGTCCGCCAACTGTGCCGCGACGAAGGGCTGAGCGTGCTCTGGACTACCCACCTGCTGGACGAGGTGCAGGCCGACGACGACCTGCTGATCCTCGACCGGGGCCGTCTGGTGGCCCAGGGCCGCGCCGCCGACCTGGGCGGCGACGACTTGGCCGCCGCCTTCGAACGCCTGACCCGGCAGGAGGCGGCATGA	MSALELHGVGFRYATRPALEDVSFSVPPGHFTALLGPNGAGKSTLIALLTRLYDLQQGDVSVYGCSLRQQPRLALRQLGVVFQQSTLDLDLSVEQNLRYHAALHGMTRKLTAARIDEELARQSLTERRRDKVRLLNGGHRRRVEIARALLHKPRLLLLDEASVGLDPASRLALNRHVRQLCRDEGLSVLWTTHLLDEVQADDDLLILDRGRLVAQGRAADLGGDDLAAAFERLTRQEAA	PGPT0006725_24662	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
BMS010_02913	837			hypothetical protein	ATGAGCACTCCGGAATCCGCGTTCGGTGCCGCATCCCGCCTGGGCCCTGGCGCCTACTGGGAATGCCTGCGCGGCATCGTGGTGCGCGAATGGCTGCGCTTCGTCCAGCAGCGCTCGCGCTTTCTCAGCGCCCTGGTCCGTCCGCTGCTCTGGCTGCTGGTGTTCGCCGCCGGTTTCCGCGCCGCCCTGGGCATCGCCATCATCGAGCCCTACGACACCTACATCACCTACGAGACCTACATCGTCCCCGGCCTGGCCTGCATGATCCTGCTGTTCAACGGCATGCAGGGCTCGTTGTCGATGGTCTACGACCGCGAGATGGGCAGCATGCGCGTGCTGCTCACCAGCCCGCTGCCGCGTGGCTTCCTGCTCTGCGGCAAACTGCTGGCGACGGCGCTGATCTCGCTGCTGCAGGTCTATGCCTTCCTCGCCATCGCCTGGTTCTACGGGGTGCAGCCACCCGTCGCCGGTCTGCTCGTCGCCCTGCCGGCGTTACTGCTGGTGGCGCTGTTGCTCAGTGCGCTGGGGCTGCTGTTGTCCAATGGCATCCGCCAACTGGAGAACTTCGCTGGGGTGATGAATTTCGTCATTTTCCCGCTGTTCTTCCTGTCCTCGGCGCTCTACCCGCTGTGGAAGATGCGCGAGGCCAGCGAGTGGTTGTACTGGATCTGCGCGCTCAACCCCTTCAGCCATGCGGTGGAGCTGGTGCGCTTCGCCCTCTATGAGCGCCTCAACGGCATGGCCCTGGCGGTGTGCCTGGGCCTGACCCTAGTGTTCGCCGTCCTCGCCGTGCTCAGCTTCAACCCCCAGCACGCCGCCCTGCGCCGCGCGGCCTGA	MSTPESAFGAASRLGPGAYWECLRGIVVREWLRFVQQRSRFLSALVRPLLWLLVFAAGFRAALGIAIIEPYDTYITYETYIVPGLACMILLFNGMQGSLSMVYDREMGSMRVLLTSPLPRGFLLCGKLLATALISLLQVYAFLAIAWFYGVQPPVAGLLVALPALLLVALLLSALGLLLSNGIRQLENFAGVMNFVIFPLFFLSSALYPLWKMREASEWLYWICALNPFSHAVELVRFALYERLNGMALAVCLGLTLVFAVLAVLSFNPQHAALRRAA	PGPT0006730_15840	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
BMS010_02914	549			hypothetical protein	ATGATGTCGAAGATGCTCGCTACACTGTTGGCGCTTCTGGGGTTCGCCTCCCTGGCCATGGCAGCCACGCCGGACCCGGCGCTGTTTACCGCCGACGGCTACCGTATCGACCGCTACCGCAGCCCGACGCCGGCCCAGGCCGATGGCGCCATCACCCTCGATACCCCTGCCTTGCAAGCGCTGCTGGAACGCCAGCCGAAGCCGCTGCTGGTGGACGTCTACCGCCTGCCCTGGCTGCACGGCCGCTTCGTCGAGGACGAGCCGCACCGTAACATCCCCGGCAGCCTATGGCTGCCGAACACCGGCGACGGCGTGCTGGAACCGTCCTGGCAGAACTATCTGAGTCGTCACTTGGCAGCCGCGACCGAGGGCGACAAGCGCCGCGCTATCGTTTTCTATTGCCGATCCGACTGCTGGCTGTCCTGGAACAGCATCCGGCGCGCTCGCGCGCTGGGCTACGAATCGCTCTACTGGTACCGTGACGGTATCGACGCCTGGCAACAGGCCGGCCTGCCATTGCAGGCCGCCGAGCCGGCACCGTACCCGTAA	MMSKMLATLLALLGFASLAMAATPDPALFTADGYRIDRYRSPTPAQADGAITLDTPALQALLERQPKPLLVDVYRLPWLHGRFVEDEPHRNIPGSLWLPNTGDGVLEPSWQNYLSRHLAAATEGDKRRAIVFYCRSDCWLSWNSIRRARALGYESLYWYRDGIDAWQQAGLPLQAAEPAPYP				NA	NA	NA	NA	NA
BMS010_02915	666	degU_2	COG2197	Transcriptional regulatory protein DegU	GTGTACAAGATTCTGATAGCCGACGACCATCCGCTGTTTCGTGAAGCCATCCATAACGTCATCAGCGACGGCTTCCCCGGCAGCGAAGTAATGGAGACCGCCGACCTCGACAGCGCCCTGGCCCTGACCGAGGAGCACGACGATCTCGACCTTATCCTCCTCGACCTGAACATGCCCGGCATGCACGGTCTCAACGGCCTGATCAACCTGCGCAACGAGGCGCCCACCATTCCGGTGGTGATCGTCTCCGCCGAGCAGGACAAGCAGATCGTGCTGCAAGCCATCACCTACGGCGCGGTGGGTTTCATCACCAAATCCTCGCCGCGCGCGCAGATGACCGAGGCCATCGAGCAGATCCTCAACGGCAACGTCTACCTGCCGTCGGACATCATCCGCACCCAGAAGAACTCGCCGCGCCGCAGCCACCACGAGGAAAGCAGTATCCCACCGGAACTGCTGCAGGCGCTGACCCGCAAGCAACTCTTGGTGCTGGAACGGATGACCAAGGGCGAGTCGAACAAGCAGATCGCCTACAACCTGGATATCGCCGAAACCACGGTGAAGGCCCACGTCTCGGCGATCCTGCGCAAGCTCAACGTGCACAACCGGGTACAGGCGATTCTCTCCGCCGGCGACATCGACTTCGCCGCCTACCTGCGCCGCTGA	MYKILIADDHPLFREAIHNVISDGFPGSEVMETADLDSALALTEEHDDLDLILLDLNMPGMHGLNGLINLRNEAPTIPVVIVSAEQDKQIVLQAITYGAVGFITKSSPRAQMTEAIEQILNGNVYLPSDIIRTQKNSPRRSHHEESSIPPELLQALTRKQLLVLERMTKGESNKQIAYNLDIAETTVKAHVSAILRKLNVHNRVQAILSAGDIDFAAYLRR				NA	NA	NA	NA	NA
BMS010_02916	2589	rcsC_12		Sensor histidine kinase RcsC	GTGGAAGCGTATGTCGTTGACCTGGAAGCGCGGCTGGCCGCGCTGGAAAGCGACAACCGCAAGCTGCGCCGGATCAACGCCGCGCTGATCGAGCGCGTCGAATCCAGTGCCTCGCGCCGCGACGACAGTTACGCCGCCTTCCAGCACTCGGTGGTGCTGGCCGAGCAGGTGCGCGAGCGCACCGACGCGCTGAACCAGGCGATGGCCGAGCTGAAGGCCAGCAACCAGTTGCTCAGCGACGCCCGCTTGCGCGCCGAGACCGCCCATCAGCACCTGATCGATGCCATCGAGAGCATCTCCGACGCCTTCGTGCTGTTCGACAAGGAGCAGCGCATCGTCCTCTTCAACAGCCGCTTCAAATCGTTCTGGGCGCGTACCCGCGCGCGCATCGGCGCCGGCACCCGGTTGTCGGAGATCAAGCGGCTGGCCGAGAGCACCGGGCTGATCGTCGAGGAGCACCGCAGCAGCGGCGATGACGAGCACCTGATCTACCGCCTGCACGACGGCCGCTGGGTGCAGGTCAGCGAACGGCCGACCCGCGAGGGTGGGCTGGTGATCCTCTACACCGACATCACCGAAGTGAAGATCAGCGAAACCGCTCGCCGCGAGCAGGCCCTGGCGCAGAAGTCGCACCTGCTGCAACGGGCGGTGGATAACCTGTCCCAGGGCGTGGCCATGGTCGGCACCGACGGCGCGCTGGAGCTGTGGAACCGCCGCTTCCTCGAGCTCTGCGGGTTGGCGCCGATCGGTGCGCACCGGCCGTTCGCCGAGGTGATGGCGGAAAGCGAACTGCAACTGCTCACGCCGGACAGCCGCGATGCCAACGGCCGGCCGATCCGCGAGGTGGAGCAGCGCCTGTTCGACGGCCGCATGCTGGAAATCCGCACCCACGCGTTGCCCACCGGCGGCTTCGTCAACACCTTCACCGACATCACTGAGCGTTACCGCCATGCCGAGGCGCTGCGCGAGAGCGAACGCTGGATTCGCCTGATCACCGACCACGTGCCGGCGTTGATCGCCTACCTGTCCGCCGACCTGGTCTACGAATTCACCAACAAGGTCTACGAGGAGTGGTATCGCTGGCCGCGCGGCGCCATGCTCGGCCAGAGCCTGCGCGAAGTGCACAGCGAAGAGCACTGCCGGCGCCTGGAACCCTACATCGAGCGGGCGCTGTCCGGGGAGAGCATCACCTTCGAGGTGGCGGAGACCAACCTCACCGGCCAGGAACGCTACATGCTGCGCTCCTACGTGCCGAACCGCCTGGCCAACGGCGAGGTGGTGGGCATCTTCGTGCTGATCCGCGACATCACCGAGCGCCGCCGCACCGCCGAGGCGCTGCACCAGGCCTACCAGAACTTGGAGCAGCGGGTACGCGAGCGCACCGCCGAGCTGACCACGGTCAACGACCAGTTGCGCCGCGAGATCGAGGAGCGTGCCCAGGTGGAATCGCGCCTGCGCGAGGCCAAGCGCGAGGCGGAGCAGGCCAACCTGTCGAAGACCAAGTTCCTCGCCGCGGTCAGCCATGACCTGCTGCAACCCCTGAACGCCGCGCGGCTGTTCACCAGCGCCCTGCTGGAACAGCGCGAGCCGACCGCCAGTGCCGGGCTGATCCGCAACGTCAGCAACTCCCTGGAGGATGTGGAAAACCTGCTCGGCACCCTGGTGGACATCTCCAAGCTGGACGCCGGGGTGATCAAGCCGGACATCGCTTCTTTCGCGGTCAGCGAACTGCTCGACAACCTCGCCGCCGAGTTCCGCCAGCTCGCTGCCAGCGAAGGGCTCCGACTGGACTTCATCCCCAGCTCGGCGCTGGTGCGCAGCGACACCCAGTTGCTCGCGCGCATCCTGCGTAACCTGCTGACCAACGCCATCCGCTACACCCGCCAGGGGCGCATCCTGCTCGGCTGCCGGCGCGTGCGCCAGAGCCTGTCCATCGAGGTCTGGGATACCGGCATCGGCATCCCGGCGGACAAACTCGGCGAGATATTCCAGGAGTTCAAGCGCGGCGAGGGTGCGCGGCCCAACCAGGATCGTGGCCTCGGTCTCGGGTTGGCCATTGTCGAGAAGATTGCCCGCATGCTCGGCCACCGCATCCGCGTCGCCTCACAGCCGGGCAAGGGCTCGATGTTCGCCATCGAGGTGCCGTTGGCCAAGCGTGCGGCACGGGTGCGCCAGGCGCCGGATACCCCGGAGTTGCTGGTGGAGCGCCTGCGTGGGGCGCGGGTCTGGGTGGTGGATAACGATGCAGCAATCTGCGCCGGTATGCGCACATTGCTGGAGGGCTGGGGTTGTCAGGTGGTGACGGCATTGTCCGAGGAGGATTTGGCACGGCAAGTGGATAACTTCCATGACGAGGCCGACCTGTTGATCGCCGACTACCACCTGGACAACGACCTCAACGGCGTCGACGTGGTCGCCTCGATCAACGCCCGCCGCGCCGCGCCGCTACCGGCGCTGATGATCACCGCCAACTACAGCAACGAACTGAAGCAGCAGATGCGCGAGCTGGGTCATACCCTGATGCACAAGCCGGTGCGGCCGATGAAGTTGAAGACGGCGATGAGTCATCTGTTGGAGAGGCACGGCTGA	MEAYVVDLEARLAALESDNRKLRRINAALIERVESSASRRDDSYAAFQHSVVLAEQVRERTDALNQAMAELKASNQLLSDARLRAETAHQHLIDAIESISDAFVLFDKEQRIVLFNSRFKSFWARTRARIGAGTRLSEIKRLAESTGLIVEEHRSSGDDEHLIYRLHDGRWVQVSERPTREGGLVILYTDITEVKISETARREQALAQKSHLLQRAVDNLSQGVAMVGTDGALELWNRRFLELCGLAPIGAHRPFAEVMAESELQLLTPDSRDANGRPIREVEQRLFDGRMLEIRTHALPTGGFVNTFTDITERYRHAEALRESERWIRLITDHVPALIAYLSADLVYEFTNKVYEEWYRWPRGAMLGQSLREVHSEEHCRRLEPYIERALSGESITFEVAETNLTGQERYMLRSYVPNRLANGEVVGIFVLIRDITERRRTAEALHQAYQNLEQRVRERTAELTTVNDQLRREIEERAQVESRLREAKREAEQANLSKTKFLAAVSHDLLQPLNAARLFTSALLEQREPTASAGLIRNVSNSLEDVENLLGTLVDISKLDAGVIKPDIASFAVSELLDNLAAEFRQLAASEGLRLDFIPSSALVRSDTQLLARILRNLLTNAIRYTRQGRILLGCRRVRQSLSIEVWDTGIGIPADKLGEIFQEFKRGEGARPNQDRGLGLGLAIVEKIARMLGHRIRVASQPGKGSMFAIEVPLAKRAARVRQAPDTPELLVERLRGARVWVVDNDAAICAGMRTLLEGWGCQVVTALSEEDLARQVDNFHDEADLLIADYHLDNDLNGVDVVASINARRAAPLPALMITANYSNELKQQMRELGHTLMHKPVRPMKLKTAMSHLLERHG	PGPT0025850_119	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_SENSING_REGULATORS	CE-QSR-QUORUM_SENSING_REGULATED_FLS,PGPT0025850-PA1979-K20975	NA	NA
BMS010_02917	1164			hypothetical protein	ATGCATGAAGGTCTGGCAGACGGCGTCGTCACCGCGATGTCCAGCGCACGGGAAGCCGAGGTGGTCGCCCAGGACTTGGCGCGCCAGTTGATCCACCCACACCTCGGTTTCGTGCTCTTCTTCTGCTCCGCCGAATACGACCTGGACGCCCTGGGCGATGCCCTGGAGCAGTACTTCGGCGGCATCAACGTGATCGGCTGTACCACCGCCGGCGAGATCACGCCGCTGGGCTACGGTCGGGGCTGCGTCAGTGCGGTGGGGTTCGATCACCGCAGCTTTTCCATCGCCAGCGCGCTGATCGACGAGATGGAGCGCTTCAGCCTGCTCGATGCGCAGCAACTGGTGGAGCGCCTGGTCAACGATTGCCGGGGTAATTCCCTGGCGCCGATCAAGGGCCACAGCTTCGCCCTGACCCTGCTCGATGGCCTCTCCAGCCGCGAGGAGGTGGTGCTCGCCGCGCTCAGTGCCGCGTTCGGCAGCATCCCGCATTTCGGCGGTTCGGCCGGCGACGACAACCACCTGACCCATACCCATGTGTACTACGGCGGGCGCTTCCATGCCGGCGCGGCGGTGGTGGTGCTGGTCAACACTTGGCTGGAGTTCGAGGTGTTTTCCACCCACCACATCCTGCCACGCGCGGAGAAGCTGGTGGTGACCCGCGCCGACAGCGCGACGCGGCGGGTCTACGAGTTGAATGCCGAGCCGGCGGCGCTGGAGTACGCCCAGCAGATCGGCGTGGCGGTGGAAGACCTCGACCTGCGCCTGTTCGCCGCCCATCCGCTGGCGGTGCGGATCAACGAGCAGTACTACGTGCGCTCCGTGCAGCGGGTCAACGACGACCTCAGCCTGACCTTCTATTGCGCGGTGGAGAACGGCATCGTCCTCACCGCCATGACTCCCGGGCCGCTGTTGCCCAACCTGCAGGCGCAGTTCGAGCGCCTGGAAAGCCGTCTTGGTCCGCCGTTGCTGACCATCGGCTGCGACTGTTTCCTGCGTCGCCTGGAAGTGGAAGCCGACGGTAGCGTGGAGCGGACCGCGGAGTTTCTTCGACGCCAACGGGTGATCGGTTTCAACACCTACGGAGAACAGTTCAATGGCATGCATATCAACCAGACCTTCACCGGCGTCGTCATCGGACGACCCGGTGGAAGCGTATGTCGTTGA	MHEGLADGVVTAMSSAREAEVVAQDLARQLIHPHLGFVLFFCSAEYDLDALGDALEQYFGGINVIGCTTAGEITPLGYGRGCVSAVGFDHRSFSIASALIDEMERFSLLDAQQLVERLVNDCRGNSLAPIKGHSFALTLLDGLSSREEVVLAALSAAFGSIPHFGGSAGDDNHLTHTHVYYGGRFHAGAAVVVLVNTWLEFEVFSTHHILPRAEKLVVTRADSATRRVYELNAEPAALEYAQQIGVAVEDLDLRLFAAHPLAVRINEQYYVRSVQRVNDDLSLTFYCAVENGIVLTAMTPGPLLPNLQAQFERLESRLGPPLLTIGCDCFLRRLEVEADGSVERTAEFLRRQRVIGFNTYGEQFNGMHINQTFTGVVIGRPGGSVCR				NA	NA	NA	NA	NA
BMS010_02918	753			hypothetical protein	ATGTGGGGGCTTGGCGGTAGGAAGCGTCTCCCCCAAGGTTCTTGTCTTTTTTCGGGGGAGATCGCCCTTGATACCGGACTGGCAAGTTTGTATGGAGTGTTGGTTAGTGCGCTGGCTGATTTCCGTGTGTTGTTGACACTTCTGGTTGCGCCTCCCGGCGCCTCACTTTTCTTTCGAAAGAAAAGTAAGCAAAAGAAACCTTCCCCGGCATCCGGGTCTCGCTTCGCTCGACTTCCCTCCTTCCGGCACTGCTCCGGGGGCCGGCGTACAAGGGCCGTCCCTGGCCCTTTACGCCTCTCGCGACATCCATGTCGCTCGTCCCCCTACGCAGCGCCTCCACTCGGCCTCCTGACGGGGATTTGTCCGCGCCTGGAGCACCGTGCGCCAAAGCCAAAGCCAACAGCAACAGCAACAGCAACAGCAACAGCAACAGCCAACAGAAGCCTGTTTGATTACACCAAGAGGTTGGGCCGGGATTCGGTCCCCTCAGGAGGCCGAGCGGAATCGTTGTGTAAGGGGTTGAGCGGCATGGATGCCGCGAGAGCCATGATGGGCCAGGGATGGCCCTTCATGGCGGGCCCCTGGAACAACGATGGAGGGAGGGAAGTCTCGCGAAGCGAGACCCGGATGCGGGGTGCGCTTTCTTCTTGGTTACTTCTTCTTTGCGCATTTCAAAGAAGAAGTGACTCGCCGGGAGGCGAAACAAAAACGTTCCCCCGAAACACAGAAATCAGCCAGCGCACTGGCCAATAG	MWGLGGRKRLPQGSCLFSGEIALDTGLASLYGVLVSALADFRVLLTLLVAPPGASLFFRKKSKQKKPSPASGSRFARLPSFRHCSGGRRTRAVPGPLRLSRHPCRSSPYAAPPLGLLTGICPRLEHRAPKPKPTATATATATATANRSLFDYTKRLGRDSVPSGGRAESLCKGLSGMDAARAMMGQGWPFMAGPWNNDGGREVSRSETRMRGALSSWLLLLCAFQRRSDSPGGETKTFPRNTEISQRTGQ				NA	NA	NA	NA	NA
BMS010_02919	1179			hypothetical protein	ATGAACAAGAACAACATCGCGCGCAGCGGATTCCTACCCCTCGCCCTGGCGAGCGCCGTGGCGCTGACCATTGCGCAACCGGCCATGGCGGAAATCGTTCTGTACGATCAGAACGACACCACCTTCTCCACCGATGGCTACATCAATGCCTTCTACGTGAACAGCGACGTGGACCGCGACGGCGAGCAATTCGACCGTCGCCAGTCGCGGGTGAAGATGGGCTTCCTGCCGAACTGGATCGGCTTCAACATGGGCAAGCAGGTCGGCGACCTGAAACTGGGCGGCCGTTCGTCCTTCTGGGTCACCATCAACGACAGCGAGCAGAACGGCACCGATACCGCCATCGACGTCCGTCAGTTCTACGGCACCGTTGCCAGCGACTGGGGCGAAGTGCTGGTGGGTAAGGACTTCGGCCTGTTCGCCCGTTCCAACATCCTGCTCGACGAACTGCTCGCCGGCTACGGCCAGGTCAGCGACACCCTCGGCCTGGTGGACGGCGGCGGCGTGTCCTTCGGCAACATCGGCAGCGGCTACCCCTATCCGTTCCCGACCTCGCAGATCACCTACCGCTCTCCGGTGATGGACGGCCTGCGCATCGCGGTCGGCATCATGGACCCGGTGGACACCAACGACGACAGCGCCACCGGCAAGGCCTACCAGGAAAACCCGCGTTTCGAATCCGAAATCACCTACCAGTTCGACCTGGCCGGCGCGCAGATCTACTCCTGGATCAACGGCGGCTACCAGACTTCCGACAACACCGACTCCACTGTCGACGAAGTCACCTCCAAGGGCCTCGGCTACGGCGTGCAGGCCAAGATGGGCGCGGTATCCCTGACCGCCTCGGGCTTCCAGGCCAAGGGCATCAACCCGTTCTTCACCAACAACGCCGGCGAAGCCACGCTGCGCGAGGTGGACAGCGACGGCTACCTGCTGCAGGGCTCCTATCGCTTCGGCAAGAACCGCGTGGCGCTGTCCTACGGCAAGACCAAGGACGACGGCAACGGCCTGGGCGTCGCCGCCGACTACGAGACCCGCGGTATCGCCTTCTTCCACGACGTGAACGATAACCTCAAGCTGGTGGCCGAATACAACCAGTTCGAGATCGATGCGGCGGAGGGGAGTGGGCTGAACGAGGACACCGACACCTTCGCGGTGGGGGCTGTGTTGTCCTGGTAA	MNKNNIARSGFLPLALASAVALTIAQPAMAEIVLYDQNDTTFSTDGYINAFYVNSDVDRDGEQFDRRQSRVKMGFLPNWIGFNMGKQVGDLKLGGRSSFWVTINDSEQNGTDTAIDVRQFYGTVASDWGEVLVGKDFGLFARSNILLDELLAGYGQVSDTLGLVDGGGVSFGNIGSGYPYPFPTSQITYRSPVMDGLRIAVGIMDPVDTNDDSATGKAYQENPRFESEITYQFDLAGAQIYSWINGGYQTSDNTDSTVDEVTSKGLGYGVQAKMGAVSLTASGFQAKGINPFFTNNAGEATLREVDSDGYLLQGSYRFGKNRVALSYGKTKDDGNGLGVAADYETRGIAFFHDVNDNLKLVAEYNQFEIDAAEGSGLNEDTDTFAVGAVLSW				NA	NA	NA	NA	NA
BMS010_02920	2511			hypothetical protein	ATGCCCACTAAGACCGACCCGCCTGTCCAACTCACGCTGCCCAACGGGCTGCGTGTGGCCTTGCTGCACGATCCCGCGCTGGTCCAGGCGGCAGCCGTGGTGCGGGTGGCTGCCGGTGGGCACGACGCGCCCGTCGAATATCCGGGGCTGGCGCATTTCCTCGAACACCTGCTATTCCTCGACAGTGAGGCCTTTCCTGCCGATCAGGGGCTGATGGCCTATGTCCAGCGCTGCGCCGGGCAGGTCAATGCCAGCACCCGCGAACGCGACAGCTATTACTTTTTCGAAGTGCCGGTGTCGGACCTGGACGGCGGTCTGGCGCGCCTCTGCGACATGCTCGCCCATCCCCGGTTGGCGCTGGAGGCGCAGTTGCGCGAGCGGGAGGTGCTGGAGGCCGAGTTCCAGGCGCGCAGCCGCGACACGGATACCCTCTGCGATGCCGCCCTGGCCCGGGTGATGCAGCCGTCGGACCATCCCTTCCTCGGCTTTCATGCCGGTCATCGCGGCACCCTGCCGGTGGAGCAGACTGCCTTTCAGAACGCCTTGGCGGGCTTCCACCAGCGGTTCTACCAGGCTGGGCAAATGCTGCTGGTGCTGGCCGGTCCGCAACCACTCGAACGGTTGCGCGAACTGGCGGAACTATATGGCGGACGTCTGCCGGCCGGCACCTACGTTCCACAATCGGTGCCACCCGTTTTGCGCCTGCCGGCTTCCACGGGCCTGCGTGTCGAAGCACAGCCGGGCCGCCTGAGCCTGTATGGCTTGCTCGACGACCTACCCGACACGGCCGGCGAGGCACTGGATTTTCTCGGCGAGTGCCTGGCCCGCGAAGAGCCCGGCGGCTTGTCCGAATGGCTGCGCACCCGGGCGGGCTGCGACAGTCTGCGTCTGCGCGTGTCCTATCGTTACGCCGGTCAGGCCGTGGTGGCTGTCGAATTCGGCTTGGGTGAGGCCAATGCGGGGACCTGTGTCTCGGCCTTCTTCGATTGGCTGGATTTCTTCGCCGCCGCCGATTGGGGCGACCTGCGTTGTGAACACGCCCGCAGCGTCGAGATGCGCGAGCGAGTGTCGCCGCCATTGGCACGCGCACGAGCCTGGGCCGAACGGCTGGGGCCGCGTGAAGGCGCCACCGCTGGGGAAGGGTTGTCTGAGTCGGGGCTGCTGGCCCTGCGAGCGATCCTGACGCAACTGCGTCGCCAGCAGCGGGTGGAGCTGCTGACCGTTGCGGCAGTATCAAGCGCGCCCGCGGATCGGGGATTCCCGGTCAAGGCGGAGCAGGCATCCTTGCTGCACGGTGTTCAGAGACAGTACGGCCCCTGGTGTTTGCCCCCCGCCAATCCATTCCTCGCCCTGCCTGGGGCGTCCTCCGGCCAGCAGGTGGCCGTTCCCGGGGCCTTCCTCTGGAAGGAGTGCAATCCACCGTTCCCCGGACAGGCTGCCGTATTTCTGCGCTGGCGCTTTCCTGAGCAACCGGCACGCGATGAGCTGCGCCACGCCTTGGCGGCGGCGCTGCAACCCGTCGTCCAGGCTGCGCGGCAGGCGGCGGTGGACGTGCGCCTCGACGGGCAGGGCGGCGATTGGGTGCTGAGCTTGTGCGGGTTGGCGTTATCGCAGCCGGCGATCCTCGACGCTGCGTTGAAATGCCTGTCGGCGCCGTCCGCCGATGCCTGGGCGCGGGGGATTCAACGACGCGACGCCGAGCGTCGTCGTGCAGCCGGCGAACTGCTGATACGCCGGCTGTTGAACGAACTGGCCGATGCCTTCGACGCGCCTACCGAGGCGGACGCCTGGCAGGATGCTCTCGCCCGCTGCTGGCGGACGGCCTGCTGGGACGGGTTGGCCCTGGGCTACGCCGGCGCGGACCGGCAGCGTCTGGAGCAGGTGCTCTCGCAGGTTCCCGGCGAGCCGTCGCGGGCGGCTGCGCAAGCGTCGATCCCGGAGGCGCGCTACCGCTGGCGCGATGCGGCGATTCCGGCCGGGGAGTGCGGGCTATTGCTGTTCTGCCCCTTGCCGGATGCCGGTGCGGAGACCGAAGCGGCCTGGCGTCTGCTCGGCCGCTGCCTCGAGCCGGCGTTCTACCGGCGTCTGCGCAGCGAGCTGCAATTGGGCTACGCGATCTTTTCCGGATTTCGCTCGGTGGGGCGGTCGCGTGGATTGCTGTTCGCAGTGCAGTCGCCGAGCGCGACAGCGGCGCAGATCCTGTCCCATATCGAAGCCTTTCTCGACGACCAGGCAGCGGTGCTCTCCACCCTGGAAGAAACGGCCTTGCGGGAAATGGGCGCCGATCTGGCCGGTCGCCTGAGCCGCTTCCCCAGCCTGCGCGCCACTGCGGAGTGGCATTGGCAGGCCCATCTGGAGCAGGTCTCCGTCGATCATCTGGAGCGCCTGTGCGGGGCGTTACGGACGCTCGACCGCAGCACCTTGCTCGCTCACCACCAGGCCTTGCGCGAGGCCCAAGGCGGTTGGCGCGTGTTGGCCAATGCCGCGCCGGTGGATAGTCGCTGGCAGTGA	MPTKTDPPVQLTLPNGLRVALLHDPALVQAAAVVRVAAGGHDAPVEYPGLAHFLEHLLFLDSEAFPADQGLMAYVQRCAGQVNASTRERDSYYFFEVPVSDLDGGLARLCDMLAHPRLALEAQLREREVLEAEFQARSRDTDTLCDAALARVMQPSDHPFLGFHAGHRGTLPVEQTAFQNALAGFHQRFYQAGQMLLVLAGPQPLERLRELAELYGGRLPAGTYVPQSVPPVLRLPASTGLRVEAQPGRLSLYGLLDDLPDTAGEALDFLGECLAREEPGGLSEWLRTRAGCDSLRLRVSYRYAGQAVVAVEFGLGEANAGTCVSAFFDWLDFFAAADWGDLRCEHARSVEMRERVSPPLARARAWAERLGPREGATAGEGLSESGLLALRAILTQLRRQQRVELLTVAAVSSAPADRGFPVKAEQASLLHGVQRQYGPWCLPPANPFLALPGASSGQQVAVPGAFLWKECNPPFPGQAAVFLRWRFPEQPARDELRHALAAALQPVVQAARQAAVDVRLDGQGGDWVLSLCGLALSQPAILDAALKCLSAPSADAWARGIQRRDAERRRAAGELLIRRLLNELADAFDAPTEADAWQDALARCWRTACWDGLALGYAGADRQRLEQVLSQVPGEPSRAAAQASIPEARYRWRDAAIPAGECGLLLFCPLPDAGAETEAAWRLLGRCLEPAFYRRLRSELQLGYAIFSGFRSVGRSRGLLFAVQSPSATAAQILSHIEAFLDDQAAVLSTLEETALREMGADLAGRLSRFPSLRATAEWHWQAHLEQVSVDHLERLCGALRTLDRSTLLAHHQALREAQGGWRVLANAAPVDSRWQ				NA	NA	NA	NA	NA
BMS010_02921	621	yjdF	COG3647	Inner membrane protein YjdF	GTGATCGAAAAACCGGGTTCCCGCCTGCAGTTGTTCCTGATTCTTTCGATTCTCCTGCTCGTCTGGCTCTGGGCCGCCATCGCCCCGCTCAGCCGCGAGGACTGGCTGCTGGAGAACCTGCTGGTGTTCTTCTTCGCCGCGCTGTTGTTGGCGACTTACCGGCGCTTCAGCTTTTCCCTGCCGTCTTACTGGTTGTTCACCCTGTTCATGGTCATGCACCTCTACGGCTCGCACTACACCTATGCGGAAACCCCGCTCGGCTATTGGCTGCGCGATCTGTTCGACACCCAGCGCAACCATTACGACCGGGTGGTGCATTTCTCCTTCGGTCTGCTGCTGCTCTATCCCCTGCGCGAGATTCTGCAGCGCTCGGCTGGGCTGACTGGTCGCTGGCTGGCGATCCTCAGCCTGTCTGTGGTGATGGCAATGAGCGCCTTCTACGAACAGGTGGAGATGGCTGCGGCGTTGATCGTCAACCCGGAACTGGGTTCGGCCTTCCTCGGGACGCAAGGGGACGAGTGGGACGCCCAGAAAGACGCCGGCCTGGCGATGCTCGGAGGACTGGCGACGTTGCTGATCCTGCGATTGGGACGGAGCCTGGCGCGCCCGAGTCGAACGTAA	MIEKPGSRLQLFLILSILLLVWLWAAIAPLSREDWLLENLLVFFFAALLLATYRRFSFSLPSYWLFTLFMVMHLYGSHYTYAETPLGYWLRDLFDTQRNHYDRVVHFSFGLLLLYPLREILQRSAGLTGRWLAILSLSVVMAMSAFYEQVEMAAALIVNPELGSAFLGTQGDEWDAQKDAGLAMLGGLATLLILRLGRSLARPSRT				NA	NA	NA	NA	NA
BMS010_02922	474	ubiJ_1		Ubiquinone biosynthesis accessory factor UbiJ	ATGCTGAAGCCGACCCCGATGCTCCTCGGCCTTGGCGACCGTTTGCTGCCGCTGGCCTCCCGCGTGCCCTTCAAGCTGCAGCGGCTGGCCCTGGAAAAAGGGCTCAACCGGATATTCGCCGGTCCGTTGAAAGACGGCGCCTTCGACATGCTGGAGGGGCGTTGGCTGCGCCTGCATATCCGTGACCTCGGCCTGAGTTGGTGCCTGACCCGCAGCCGCACCGGCCTGTGTATCGCCGCGCGCGAGCAGGCGGATGCCAGCATCAGTGGCGATTGGCGCGAATTCCTGCTGCTGGCCAGCCGTCAGGAAGACCCGGACACCCTGTTCTTCCGCCGCCGGCTGTCCATCGAGGGTGATACCGAGCTGGGCCTGGCGGTGAAAAACCTGATCGACAGCCTCGACCCGGAACTCCTGCCTTCCTGGCTGTGGCGCGGGCTGGAAGCGGCCGGCAAAGGTGTGGTCGCGGCGGGTTGA	MLKPTPMLLGLGDRLLPLASRVPFKLQRLALEKGLNRIFAGPLKDGAFDMLEGRWLRLHIRDLGLSWCLTRSRTGLCIAAREQADASISGDWREFLLLASRQEDPDTLFFRRRLSIEGDTELGLAVKNLIDSLDPELLPSWLWRGLEAAGKGVVAAG				NA	NA	NA	NA	NA
BMS010_02923	891			hypothetical protein	ATGAAGCTCAGTCTTGGGCCTGTGCTGTTTTATTGGGATCGGATGCGGCTGATGGATTTCTACGCCGACATGGCGTCCCAGCCGCTGGATGTGATGTATCTCGGCGAGACCGTTTGCTCGAAGCGTCGCGCGTTGTCGCTGGATGATTGGCTGGGGCTGGCCCGCGAGCTGAAGGAGTGCAGTGGCGCCGAGCTGGTGCTGTCCGGGCTGGCGCTGATCGAGGCGGCATCTGAGCTGTCCAGCCTGCGCCGGCTGTGCGAGAACGGCGAACTGAAGGTGGAGGCCAACGACATGGGCGCGGTGCATTACCTCGCCGAGCGGGGTGTGCCCTTCGTCGCCGGGCCGGCGCTGAACCTCTACAACGCCTATGCGGTTGCCGAGCTGATGGCCTGTGGTATGACCCGCTGGGTTCCGCCGGTGGAATGTTCCGGCGCCTTGATCAAGGCGGTTGGTGATCAGCTCGACGAACTCGGCATGACGCGACCGGAGATCGAAGTGTTCGCCTACGGCCATCTGCCGCTGGCCTACTCGGCGCGCTGTTTCACCGCAAGGGCGGAGAACCGCCCGAAGGACGATTGCGAATTCTGCTGCCAGAACTACCCGGAGGGCATTCCGCTACTCAGCCAGGAAGGCCAGGCCCTGTTCACTCTCAACGGTATCCAGACCATGTCCGCTGCGGTGAGCAACCTGCTCGCCGACTACCCGTCCGTGCAGGCGGCCGGGGCTGATCTGCTGCGTCTCAGCCCACGGGCCGAAGGCATGGCGGAGTGCATCCAGCGCTTCGACGCGGTCCGCCGCGGAGACGCGCCGCCGCTCGCGGTAGAGGGCTGCAACGGCTACTGGCATGGCCGCCCGGGAATGCTGCGGGCAGAGGAGGCCGGACTATGCTGA	MKLSLGPVLFYWDRMRLMDFYADMASQPLDVMYLGETVCSKRRALSLDDWLGLARELKECSGAELVLSGLALIEAASELSSLRRLCENGELKVEANDMGAVHYLAERGVPFVAGPALNLYNAYAVAELMACGMTRWVPPVECSGALIKAVGDQLDELGMTRPEIEVFAYGHLPLAYSARCFTARAENRPKDDCEFCCQNYPEGIPLLSQEGQALFTLNGIQTMSAAVSNLLADYPSVQAAGADLLRLSPRAEGMAECIQRFDAVRRGDAPPLAVEGCNGYWHGRPGMLRAEEAGLC				NA	NA	NA	NA	NA
BMS010_02924	996	yhbU_1	COG0826	putative protease YhbU	ATGCAACTGGTTTGCCCGGCGGGAAGTTTGCCCGCGCTCAAGGCGGCCGTCCGCCAGGGTGCCGATGCCATCTACGTCGGCTTTCGCGACGATACCAACGCCCGTCATTTCGCCGGGCTCAATCTGGACGAGAAACAACTGGAGTCCGGCCTGTCTCTGATCCGCCAGCATGGGCGACATCTTTATATGGCGGTGAATACCTATGCCCGGCCGGATGGCTGGAGCCGCTGGCAGCGCGCCGTGGATCAGGCCGCCGATCTCGGCGTGGATGCGCTGATCGCCGCCGACTCCGGGGTGCTGGCCTACGCCAGCCGGCGTCATCCCGATCTCAATCTGCACCTGTCGGTACAAGGTTCGGCCACCAATGCCGCGGCGCTGAGCTTCTATCACGAACGCTATGGCATCCGTCGTGCCGTATTGCCGCGCGTGCTGTCGCTGGCCCAGGTGCGCCAAGTGGCGACCAAGAGTCCGGTGCCAGTGGAGGTCTTCGCCTTCGGCAGCTTGTGCATCATGGCCGAGGGCCGTTGCCATCTGTCTTCCTACATCACCGGTGAATCGCCGAACCTGTGTGGTGTCTGCTCGCCGGCCAAGGCGGTGCGTTGGAGCGAGGAGCCCGAAGGACTGACGTCGCGCCTCAACGATGTGCTGATCGACCGCTACGGCGAAGGCGAGGCCGCCGGCTATCCGACCCTCTGCAAGGGCCGCTTCCAAGTGAACGGCCAGCGCTTCCATGCCCTCGAGGAGCCCACCAGCCTAAATACCCTGGACCTGATTCCCGAACTGGTCCAGATCGGCGTGGCGGCGGTGAAGATCGAAGGGCGCCAGCGCAGCCCGGCCTATGTGGAGCGGGTCACCCAGGTCTGGCGCGAGGCGCTGGATGCCTATCGCCGGGCACCTTCGGTCTTCAGTGTGCAACCGCAATGGCGGCGGGCGCTGGAGGGCCTTTCCGAAGGCAGCCAGACCACCCTGGGCGCCTATCACCGTTCCTGGCAGTGA	MQLVCPAGSLPALKAAVRQGADAIYVGFRDDTNARHFAGLNLDEKQLESGLSLIRQHGRHLYMAVNTYARPDGWSRWQRAVDQAADLGVDALIAADSGVLAYASRRHPDLNLHLSVQGSATNAAALSFYHERYGIRRAVLPRVLSLAQVRQVATKSPVPVEVFAFGSLCIMAEGRCHLSSYITGESPNLCGVCSPAKAVRWSEEPEGLTSRLNDVLIDRYGEGEAAGYPTLCKGRFQVNGQRFHALEEPTSLNTLDLIPELVQIGVAAVKIEGRQRSPAYVERVTQVWREALDAYRRAPSVFSVQPQWRRALEGLSEGSQTTLGAYHRSWQ				NA	NA	NA	NA	NA
BMS010_02925	471	recX_2	COG2137	Regulatory protein RecX	ATGCCCGTCATCCTCGACAGTCCCGCCGCGGTGCGGCGGGCCGCCATGGATCTGCTGGCGCAACGTGAGCACGGTCGGGTCGAGCTGACCCGCAAGTTGCGCCGGCGCGGTGCTCCCTCCGAACTGATCGACAGCGCTCTCGATCGCCTGGCGGAAGAGGGGCTGCTCTCCGAATCCCGTTATCTCGAAAACTTTGTCGCCAGCCGGGCGCGATCCGGCTACGGCCCGGTGCGCATCCGTGAGGAGTTGGCGCAACGGGGCCTGCCCCGCGATGCCATCGAACAGGCGCTGCGGGAGTCCGGCCAGGATTGGTACGAACTGCTCGAAGACATCTGGCGGCGCAAATTCGGCGGCCAACTGCCGAGCGATGCCCGCGCGCGGGCCCAGCAGGGGCGTTTCCTGGCGTACCGGGGGTACCCGCTGGATTTGATCAATCGCTTGCTGCGCGGGGCGGGGGCAGCAGATCTTTAG	MPVILDSPAAVRRAAMDLLAQREHGRVELTRKLRRRGAPSELIDSALDRLAEEGLLSESRYLENFVASRARSGYGPVRIREELAQRGLPRDAIEQALRESGQDWYELLEDIWRRKFGGQLPSDARARAQQGRFLAYRGYPLDLINRLLRGAGAADL	PGPT0007240_3198	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007240-recX-K03565	NA	NA
BMS010_02926	1044	recA_1	COG0468	Protein RecA	ATGGACGAGAACAAGAAGCGCGCTTTGGCGGCGGCCCTGGGCCAGATCGAGAAGCAGTTCGGCAAAGGCGCGGTGATGCGCATGGGCGATCATGATCGCCAGTCGATCCCGGCCATTTCCACCGGTTCCCTGGGGCTGGACATCGCGCTGGGCATCGGCGGCCTGCCGAAGGGCCGCATCGTCGAGATCTACGGTCCGGAGTCCTCCGGTAAAACCACCCTGACCCTGTCGGTCATCGCCGAAGCACAGAAGCAGGGCGCCACCTGCGCCTTCGTCGACGCCGAACATGCCCTCGACCCGGATTACGCCGGCAAGCTCGGCGTCAACGTCGACGACCTGCTGGTCTCGCAGCCGGATACCGGCGAACAGGCCCTGGAAATCACCGACATGCTGGTGCGCTCCAACGCGGTGGACGTGATCATCGTCGACTCCGTGGCCGCGCTGGTGCCGAAGGCCGAAATCGAAGGCGAGATGGGCGACTCCCACGTCGGCCTGCAGGCCCGCCTGATGTCCCAGGCGCTGCGCAAGATCACCGGCAACATCAAGAACGCCAACTGCCTGGTCATCTTCATCAACCAGATCCGCATGAAGATCGGCGTGATGTTCGGCAACCCGGAAACCACCACCGGCGGTAACGCCTTGAAGTTCTACGCCTCCGTCCGCCTGGACATCCGTCGTACCGGCGCGGTGAAGGAAGGCGAGGAAGTGGTTGGCAGCGAAACCCGCGTCAAGGTCGTGAAGAACAAGGTGGCACCACCGTTCCGTCAGGCCGAGTTCCAGATCCTCTACGGCAAGGGCATCTACCGTAACGGCGAGATCATCGACCTGGGCGTGCAGCTCGGCCTGCTGGAGAAGTCCGGTGCCTGGTACAGCTACCAGGGCAACAAGATCGGCCAGGGCAAGGCGAATGCCGCCAAGTACCTGGAAGACAACCCGGAAGTCGGCAGCACCATCGAGAAGGCCATCCGTGACAAGTTGCTGGTCAGCAGTAACACCGCCAAGTCGGGCGCGACCCAGGACGACCTGGCCGACGTCGACGTCTGA	MDENKKRALAAALGQIEKQFGKGAVMRMGDHDRQSIPAISTGSLGLDIALGIGGLPKGRIVEIYGPESSGKTTLTLSVIAEAQKQGATCAFVDAEHALDPDYAGKLGVNVDDLLVSQPDTGEQALEITDMLVRSNAVDVIIVDSVAALVPKAEIEGEMGDSHVGLQARLMSQALRKITGNIKNANCLVIFINQIRMKIGVMFGNPETTTGGNALKFYASVRLDIRRTGAVKEGEEVVGSETRVKVVKNKVAPPFRQAEFQILYGKGIYRNGEIIDLGVQLGLLEKSGAWYSYQGNKIGQGKANAAKYLEDNPEVGSTIEKAIRDKLLVSSNTAKSGATQDDLADVDV	PGPT0007235_3230	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0007235-recA-K03553	NA	NA
BMS010_02927	504	pncC_1	COG1546	Nicotinamide-nucleotide amidohydrolase PncC	ATGGAAGACGACATCACACGGCTCGCCGTCCGTCTCGGCGAGCGTTTGCTGGCCTGCGGCGCGCAGGTGACCACCGCCGAATCCTGCACCGGTGGCGGCATCGCCGAGGCCATCACGCGTATTTCCGGAAGCTCCGCCTGGTTCGAGGCGGGCTACGTGACCTATTCCAATGGCCAGAAGACCGCCCAGCTCGGTGTGCCGGCCGATCTCTTCCCGCAGGTCGGGGCAGTCAGCCGCGACGTGGTGGAAGCCATGGCGCGCGGTGCGCAGGCACGCAGCGGGGCGCGCTTCGCCGTAGCGGTGAGCGGTATCGCTGGGCCGGACGGCGGTTCGGCAGAAAAACCGGTGGGCACGGTCTGGCTGGCCTGGGCCGACGGCGAGCAGGTGTTCGCCGAGCGCCGTCTGTTCGGCGGAGACCGCGCCGCCGTCCGCCGACAAACGGTAGAGGCCGCCCTTGAGGGGCTGCTGCGACTGTCCGTCGGAGAAAATCCGCGACAGGGGTAG	MEDDITRLAVRLGERLLACGAQVTTAESCTGGGIAEAITRISGSSAWFEAGYVTYSNGQKTAQLGVPADLFPQVGAVSRDVVEAMARGAQARSGARFAVAVSGIAGPDGGSAEKPVGTVWLAWADGEQVFAERRLFGGDRAAVRRQTVEAALEGLLRLSVGENPRQG	PGPT0013460_1550	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013460-pncC2-K03743	NA	NA
BMS010_02928	2574	mutS_2	COG0249	DNA mismatch repair protein MutS	ATGAGTCAGAGCGACCTTTCCGACCACACACCGATGATGCAGCAGTACTGGAAGCTGAAGAACCAGCATCCGGACCAACTGATGTTCTACCGCATGGGCGACTTCTACGAGCTGTTCTACGAAGACGCCAAGAAAGCCGCGAAGCTCCTCGACATTACCCTGACCGCCCGTGGCCAGTCGGCAGGGAAATCCATCCCGATGGCGGGCATTCCCTTCCATTCCGCCGAAGGCTACCTGGCCAAGCTGGTCAAATTGGGCGAGTCCGTGGTGATCTGCGAGCAGATCGGCGACCCGGCTACCAGCAAGGGCCCGGTGGAGCGCCAGGTGGTGCGTATCATTACCCCCGGCACCGTCAGCGACGAAGCCCTGCTCGATGAACGGCGCGACAACCTGCTGGCCGCCGTGCTGGGTGACGAACGCCTGTTCGGCCTGGCCGTGCTGGACATCACCAGCGGCCGTTTCAGCGTCCAGGAAATCCAGGGCTGGGAGAACCTGCTGGCCGAGCTGGAGCGCCTCAACCCCGCCGAACTGCTGATCCCCGACGACTGGCCCCAGGGGCTGCCAGCCGAGAAGCGCCGTGGCGCTCGCCGCCGTGCACCCTGGGACTTCGACCGCGACAGTGCGCGCAAGAGCCTCTGCCAGCAATTCGGCACCCAGGACCTCAAGGGCTTCGGCTGCGAAAACCTGACCCTGGCCATCGGCGCTGCCGGCTGCCTGCTCGGCTACGCCAAGGAGACCCAGCGCACCGCCCTGCCACACCTGCGCAGCCTGCGCCATGAACGCCTCGACGATACCGTCATCCTCGACGGCGCCAGCCGCCGCAACCTCGAGCTGGACACCAATTTGTCCGGCGGGCGCGACAACACGCTGCTGTCGGTCATGGACCGCTGCCAGACCGCCATGGGCAGCCGCCTGCTGACCCGCTGGCTGAATCGCCCGCTGCGCGACCGCGCCGTGCTCGAAGCGCGGCAGGACTCGATCACCTGCCTGCTCGAGCACTACCGCTTCGAGAAACTGCAGCCGCAGTTGAAGGAAATCGGCGACGTCGAGCGGATACTCGCCCGCATCGGCCTGCGCAACGCACGTCCCCGCGACCTCGCGCGCCTGCGTGATGCGCTGGCAGCGCTGCCGGCCTTGCAAGACGCCATGGCCGACCTGGTGGCGCCGCACCTGACGCAACTGGCGTCGAGCATCCGCACCTATCCGGAGCTGGCCGAGTTGCTGGCCAAAGCCATCATCGACAACCCACCGGCGGTGATCCGCGACGGCGGCGTGCTCAAGCGCGGCTACGATCCCGAACTGGACGAGCTGCTGTCCCTAAGCGAGAACGCCGGACAGTTCCTGATGGACCTGGAAGCACGGGAGAAAGCCCGCACCGGCCTGCCCAACCTCAAGGTCGGCTACAACCGTATCCACGGCTATTACATCGAGCTGCCCCGGGTCCAGGCGGAACAGGCACCGGCCGACTACATCCGCCGGCAGACGCTGAAAGGCGCCGAGCGTTTCATCACGCCGGAACTCAAGGCTTTCGAGGACAAGGCGCTATCGGCCCAGAGCCGCGCGCTGGCACGGGAGAAACAGCTCTATGAAGAGCTGATCGAACTGCTTATCGGCCAATTGGCGCCGCTGCAGGATACCGCCGCCGCGCTGGCCGAACTGGACGTCCTGGCTAACCTGGCCGAACGCTCTCTGAACCTCGATCTGAACCGCCCGCGCTTCGTCGACGAGCCGTGCCTGCGCATCAGCCAGGGCCGTCACCCGGTGGTGGAACAGGTGCTGGACACCCCCTTCGTGGCCAACGACCTGACGCTGGACGACGCCACGCGCATGCTGATCATCACCGGCCCGAACATGGGCGGTAAGTCGACCTACATGCGCCAGACCGCGCTGATCGTCCTGCTCGCCCATATCGGCAGCTTCGTGCCGGCGGCCGGCTGCGAGCTGTCGCTGGTGGATCGCATCTTCACCCGCATCGGCTCCAGCGACGACTTGGCCGGCGGACGCTCCACCTTCATGGTGGAGATGAGCGAGACGGCGAACATCCTGCACAACGCCACCGACCGCAGCCTGGTGCTGATGGACGAGGTCGGTCGCGGCACCAGCACGTTCGACGGCCTGTCCCTGGCCTGGGCCGCCGCCGAGCACTTGGCCAAGCTGCGTGCCTACACGCTGTTCGCCACGCATTATTTCGAGCTAACGGTGCTGCCGGAAAGCGAGCCGGTGGTGGCCAACGTGCACCTGAACGCCACCGAACACAACGAGCGCATTGTTTTCCTGCACCACGTGCTGCCTGGGCCGGCCAGCCAGAGCTACGGCCTGGCGGTGGCGCAGCTGGCCGGCGTGCCGGGTGCGGTGATTCAGCGCGCCCGCGAGCATCTGGCCCGCCTGGAAACCACCAGCCTGCCCCACGAAACGCCGCGCGCCGAGCCGGGCCAACCGATACCGCCGATGCAGAGCGACCTGTTCGCCAGCCTGCCGCACCCCGTCCTGGAAGAATTGATGAAGATCAATCCGGATGATTTAACGCCGCGGAAAGCCCTCGAACTGTTATATACATGGAAGACGCGAATCTAA	MSQSDLSDHTPMMQQYWKLKNQHPDQLMFYRMGDFYELFYEDAKKAAKLLDITLTARGQSAGKSIPMAGIPFHSAEGYLAKLVKLGESVVICEQIGDPATSKGPVERQVVRIITPGTVSDEALLDERRDNLLAAVLGDERLFGLAVLDITSGRFSVQEIQGWENLLAELERLNPAELLIPDDWPQGLPAEKRRGARRRAPWDFDRDSARKSLCQQFGTQDLKGFGCENLTLAIGAAGCLLGYAKETQRTALPHLRSLRHERLDDTVILDGASRRNLELDTNLSGGRDNTLLSVMDRCQTAMGSRLLTRWLNRPLRDRAVLEARQDSITCLLEHYRFEKLQPQLKEIGDVERILARIGLRNARPRDLARLRDALAALPALQDAMADLVAPHLTQLASSIRTYPELAELLAKAIIDNPPAVIRDGGVLKRGYDPELDELLSLSENAGQFLMDLEAREKARTGLPNLKVGYNRIHGYYIELPRVQAEQAPADYIRRQTLKGAERFITPELKAFEDKALSAQSRALAREKQLYEELIELLIGQLAPLQDTAAALAELDVLANLAERSLNLDLNRPRFVDEPCLRISQGRHPVVEQVLDTPFVANDLTLDDATRMLIITGPNMGGKSTYMRQTALIVLLAHIGSFVPAAGCELSLVDRIFTRIGSSDDLAGGRSTFMVEMSETANILHNATDRSLVLMDEVGRGTSTFDGLSLAWAAAEHLAKLRAYTLFATHYFELTVLPESEPVVANVHLNATEHNERIVFLHHVLPGPASQSYGLAVAQLAGVPGAVIQRAREHLARLETTSLPHETPRAEPGQPIPPMQSDLFASLPHPVLEELMKINPDDLTPRKALELLYTWKTRI				NA	NA	NA	NA	NA
BMS010_02929	324		COG1146	Ferredoxin 1	ATGACCTTCGTCGTCACCGACAACTGCATCAAGTGCAAGTACACCGACTGCGTGGAAGTCTGTCCGGTGGACTGCTTCTACGAAGGCCCGAATTTCCTGGTCATCCACCCGGACGAGTGCATCGACTGCGCGCTCTGCGAGCCCGAATGCCCGGCCCAGGCCATCTTCTCCGAAGATGAAGTGCCTGAGGACATGCAGGAATTTATCGAGCTGAACGCCGACCTGGCCGAGGTTTGGCCGAACATCACCGAGAAGAAGGACGCACTGGCGGACGCCGAGGAGTGGGATGGCGTCAAGGACAAGCTGCAGTATCTCGAACGCTGA	MTFVVTDNCIKCKYTDCVEVCPVDCFYEGPNFLVIHPDECIDCALCEPECPAQAIFSEDEVPEDMQEFIELNADLAEVWPNITEKKDALADAEEWDGVKDKLQYLER	PGPT0030810_965	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-FE-S_CLUSTER_BIOGENESIS,PGPT0030810-fdxA-K05524
BMS010_02930	867			hypothetical protein	ATGCTTTGTGACGTCCTGATTGAGAGCGATTCCCGTTCAGCGTCTACGCTGTCTGTCTGGACCGTGACGGAGGACGAGACGATGAGCAAGAGGCTGCTTCCCCTGGTGTTCGCCGGTTTGGCTGGATTGGTCGAGGCTGGCGTGGTGATCGAGCCGGTGCCGTACGAGATCGATGGCGAGCCCTACGAGGGCCTGCTGATCTACGACGATGCGGTGAAGGCGCCGCGGCCGGGGCTGCTGATGGTGCCGAACTGGCTGGGCGTCAACGAGGATTCGGCGAAGAAGGCTGCCCGTGCCGCCGGCGACAAGTATGTGGTGTTCATGGCCGATCTGTACGGCAAGGCGGTCAGGCCGAGCAATCCGGACGAAGCCAAGGCTGCCGCCGGTGCGTTGCGCGCCGATCGGCCGCTGATGCGCAAGCGCACCCAGGCGGCGCTGGAGGTTTTCGAGCGCCAGGGCGAGAAGGTGGCCCTGAACAAGGACCAACTGGGAGCCATCGGCTTCTGCTTCGGAGGCGGAGCCATCCTGGAGTTGGCCCGTTCGGGCTCACCCTTGAAGGGTTTCGTGTCCTTCCATGGCAATCTGGATACGCCGAACCCGGCCGATGCGAAGAACATCAAGGCACCGATTCTGGTACTGCACGGGGCGGACGATCCTGCCGTACCCAAGGAGCAGGTCGACGGCTTCATCGAGGAAATGAAGGCGGCGAAGACCGACTGGCAACTGGTCAGCTATGGCGGCGCGGTGCATTCCTTCACCAACCCGGTGGCCAACGTGCCGGGGCGCAACGAATACCATCCGGTGGTGGCTGCCCGTGCCTTCAGGGCGATGAACGATTTCTTCGACGAAGCCTTTGCGCCCCGCTGA	MLCDVLIESDSRSASTLSVWTVTEDETMSKRLLPLVFAGLAGLVEAGVVIEPVPYEIDGEPYEGLLIYDDAVKAPRPGLLMVPNWLGVNEDSAKKAARAAGDKYVVFMADLYGKAVRPSNPDEAKAAAGALRADRPLMRKRTQAALEVFERQGEKVALNKDQLGAIGFCFGGGAILELARSGSPLKGFVSFHGNLDTPNPADAKNIKAPILVLHGADDPAVPKEQVDGFIEEMKAAKTDWQLVSYGGAVHSFTNPVANVPGRNEYHPVVAARAFRAMNDFFDEAFAPR				NA	NA	NA	NA	NA
BMS010_02931	861			hypothetical protein	ATGCCTACCCACCTGATCGCACCACGCCCGGACCTGATCGCCGGCCAATCCATTCTCCGCGCCCTGCCGGTGGCGCAGTGCCGCAGCATTGGCCCTTTCGTGTTCTTCGACCACATGCTGCCTACGACCTACCCGCCGGGCAGCGGCCTGGATATCCAACAGCACCCGCATATCGGGCTCTCCACCCTCACCTACCTGTTCGACGGTGAATTGCTGCACAAGGACAGCCTGGGTTCCGAGCAGATCGTCCGGCCCGGGGACGTGAGTTGGATGACCGCCGGCGCCGGTGTCGCCCATGTCGAGCGGACGCCCGCAGCACTCCAGGCGAGCGGCTCCCGGTTGCATGGGTTGCAGGTCTGGCTGGCGCTGCCACGGAGCCTGGAAACCTGCGCGCCGACCTACAGCCATCATGCTGCCAACAGCCTGCCGCTCAGCGAGCAACTCGGCGTACGTATCCATCTGATCGCCGGCCAGGGCTTCTGCCTGGAATCGCCGGTACCGGTCCACAGCCCTTGCCTGTATGCCGATCTACGCCTGGAAGCCGGCGCAACCCTGCCGCTGCCAGCGGAGCACCAAGAGCGGGCGCTCTACGTGATCGACGGCGAAGCGCGGCTGGACGACCTCGCTTTGCCGCCGCATTCCCTGGCCATCCTGGAACCAGGAGAAAGCCCGTTGCTCAGCGCCTGCGGCAGTTGCCACGCGGTGATCATCGGCGGAGCGCCCTTGGATGGGCCACGCCGGATGAACTGGAATTTCGTCGCCAGCGATTCGGCTCTGATCGAACGGGCCCGGCAACGCTGGGCCGAGGACGACTGGCCACGTGTGCCGGGCGAAACCCAGCGGATCGAACTGCCCGATTGA	MPTHLIAPRPDLIAGQSILRALPVAQCRSIGPFVFFDHMLPTTYPPGSGLDIQQHPHIGLSTLTYLFDGELLHKDSLGSEQIVRPGDVSWMTAGAGVAHVERTPAALQASGSRLHGLQVWLALPRSLETCAPTYSHHAANSLPLSEQLGVRIHLIAGQGFCLESPVPVHSPCLYADLRLEAGATLPLPAEHQERALYVIDGEARLDDLALPPHSLAILEPGESPLLSACGSCHAVIIGGAPLDGPRRMNWNFVASDSALIERARQRWAEDDWPRVPGETQRIELPD	PGPT0019980_1288	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_FLAVONOID_UTILIZATION	PLANT_DERIVED_QUERCETIN_DEGRADATION,PGPT0019980-yhhW|pirA-K06911	NA	NA
BMS010_02932	1023			hypothetical protein	TTGCCACCGCTCCGGACCGCTCTTGCCTTGATCTTGATAGTCGTTGCTACTGGCGTGTCGGCACGCGAATACCACTACAGCGATGCGCACCTCCACTATGTCGACTTCTTCCAGGAAAGCGGTGGCATGGACTCGCTGCTGGAGGCGATGGCGAAGGGACACATCGACCATGCGATGATTTCCGGTATTCCGGTGGCGAAGAAGTGGCACGAGGACGAGCCCAAGCGGCCGCGCTACTACGCCGGTGACGATGCCGGCGCCTATTGGTACAGCGCCACCGACGTGCTGGTGGCGGCGGCGGTGAAGAAGCTGCCGGTGGAGCAGCGGCAGCGCTTGCATCCTTTCCTTTCGGGCTTCAATCCCACGGACAAGAACGCCGACGCTCACATTCGCCGCATGCTCGAACTGGAGCCGGGTTTCTGGCAGGGGCTGGGCGAAATCTTCACCCGCCACGACGACCTCACCGCGCTGACCTACGGCGATACTCCGCGCGCCAACAACGAGGCGCTGACCCGTGTCTATCACTTGGCCGCCGAATTCGACCTGCCGGTGATGGTGCATTCCAACATCACCTCGAAGCGTGAGAAGAACCCGCTCTACTTGCAGGAAATCGAAGAGCCGTTGCGCAACCATCCCCACGTCCGCTTCATCTGGGCGCATGCCGGCACCAGCATGGAAATCCATCGGCACCAGGAAAAGCTGGATTTCCTCCTGCCGACCTTGAAACGGATGCTCGATGACTACCCCAACCTGTACATCGATCTGTCCTGGACGGTCCTGCGCCCGTACCTGCTGGATGCACAGGGGCAACCCGACCCTGACTGGGTGCAACTGGTCAGCAGCTATCCCTCGCGCTTCATGCTGGGCTCCGATGTGGTCGGCCGTTTCGATGGGCTTGACGAATACCTGAATGCCTTCGATCCGTTCCTCGATGCATTGCCCGAGGAGGTCGCGCGGAAGGTGGCGCGCGACAATTTCCTCGCCGTGCTGCCGCGACGGGTCCAGGCGGAACTGCCGCGCTGA	MPPLRTALALILIVVATGVSAREYHYSDAHLHYVDFFQESGGMDSLLEAMAKGHIDHAMISGIPVAKKWHEDEPKRPRYYAGDDAGAYWYSATDVLVAAAVKKLPVEQRQRLHPFLSGFNPTDKNADAHIRRMLELEPGFWQGLGEIFTRHDDLTALTYGDTPRANNEALTRVYHLAAEFDLPVMVHSNITSKREKNPLYLQEIEEPLRNHPHVRFIWAHAGTSMEIHRHQEKLDFLLPTLKRMLDDYPNLYIDLSWTVLRPYLLDAQGQPDPDWVQLVSSYPSRFMLGSDVVGRFDGLDEYLNAFDPFLDALPEEVARKVARDNFLAVLPRRVQAELPR				NA	NA	NA	NA	NA
BMS010_02933	465			hypothetical protein	ATGCGATACCTCCCGCCGAGCGCGCTGGTTGCGCTGCTGTCTTTCGCCGGTCTGGCCGGCGCTGATGTCCGAGTCGATGGGCCGGTCGAGTACGGTCTTTTCGAGCGGCAGTACCAGGACGTCCAGCCCGGTGAGCGTGTGCTCACCCGCAGCAACGAGCAGATTCGCCAGACCTTGGACATTCCGGCCCGTCTCGGCAGCAAGTTCGGAATGCGCTATTCCCTGGCGGACAAGCGCGCCGACGACACGCCGTTGACCCTGATCTACTTCACCCCCGGTGTGATCACCCCGGACGGCAAGCGTCACGACAAGTTCGAAGTTGTGCAAAAGCTGGTGCCGGAGGCGCCGTTGGATGTCATGGCCTACGAGTTCACCGAGTCTCATGAAGTGGTGCCCGGCGAATGGCATTTCATGGTGTTCCAGGGCGACCGCAAGCTGGCCGAGCAACGTTTCAACGTGCATTGA	MRYLPPSALVALLSFAGLAGADVRVDGPVEYGLFERQYQDVQPGERVLTRSNEQIRQTLDIPARLGSKFGMRYSLADKRADDTPLTLIYFTPGVITPDGKRHDKFEVVQKLVPEAPLDVMAYEFTESHEVVPGEWHFMVFQGDRKLAEQRFNVH				NA	NA	NA	NA	NA
BMS010_02934	1647			hypothetical protein	ATGGCCGGCAATCTGTCTGTGAAAGCGAAGCTCAGCCTGAGCTTCGGCGTGCTTACCTTGATCCTTCTCGTGGTTTCTGCCTTGTCGCTCATGGAGCTGAGTGCATCCAACCAGCGCTTTTCTTCCTACGTGCATGGCGTCAGCGAGCGCAACAATCTAGCCGCGGAGCTAATGATGGCGGCCGACCAGCGGGCCATTTCGGCGCGCAATATGGTCCTGGTCTCGACGCCGGCCGAGCGTGAGGACGAGCGGCTGAAAGTTGTCCAGGCTCATGAAAAGGTACAAAACATGTTGGAACGGCTCAGAGCGGCAATTACTCAGGCCGGGGAAGAGGCACGTGATGAACAGAGACTGATGGCAGAAATCGTCAGGGTGGAAGGACTTTACGGTCCCGTTGCCCTGGATATCGTCGCGTTGGCCATGAAGGGCGAGCGAGAGGCAGCAGTTGCCAAGATGAACGCCGAGTGTCGTCCCTTGCTGGCGGCACTGGTAAAAGCAGTCGAGGCTTACCTGCAACATAGTGCAGCCAGTGCGAAAGCCAACGAAGAGACGGCTAACGCGAGCTATGCCGGGCAACGCAATCTGTTGGTGGGTGTTTGCGTGCTGGCGATCGGCATTGCTGTGGCGCTTGCCTTGCTGATCACCAGCGGTCTGACCCGCGCCCTCGGTGCCGAGCCGGCCGACCTGTCCGCCGCCGCCCAGCGTGTCGCATCCGGCGATATGCGCCCGGTTTCCGGTATCGAGGCGGCCGCGGCTGGCAGCGTGCTGGCCTCGCTCGGCGAGATGCAGCGGAACCTGAGCGGCCTGATCAGCCAGGTTCGCAGCTCCGCCGAGATCATTTCCAGCGCCGCCGAGGAACTGTCGGCCGCTACCGAGCAAAGCAGCGCAGGGGTGAGCAATCAGAAGCTGGAAGTGGACCAGGTGGCCACGGCGATCCACGAGATGGCCGCGACCGTGCAAGAGGTGGCGCGAAATTCCGAGGATGCGGCCAATGCTGCCCTGACCGCCGATCAGCAGGCGCAGACGGGCGAGAAGATGGCCAAGCAGGCTCTGGTGCAGATCGAGCGGCTGGCCGCGGAGGTCATTCAGTCGGCCAGTGCCATGGCCCGCCTGAAGCAGGAAAGCGAGCATATCGGCGGGGTACTGGACGTGATCAAGTCGGTCGCCGACCAGACCAACCTGTTGGCCTTGAACGCCGCCATCGAGGCCGCCAGGGCAGGGGATGCCGGACGCGGTTTCGCGGTGGTCGCCGACGAGGTGCGCAACCTGGCCAAGCGGACCCAGGGCGCAACCCAGGAAATCGAAGGCTTGATCGCCAGCCTGCAGCGGATCGCGGAGGAGGCGGCCGGGATGATGGAGGTCTGTCGCAGCCTCACCGACGAGACCGTCACGGGTGTCGGCAATGCCGGCGATGCCGTGATGACCATCACCCAGATGATCGCCAACATCCAGCAGATGGTCCGGCAGATCGCCACGGCGGCGGAAGAGCAGAGCGCCGTGGCGGAAGAGATCAATCGCAGCGTGACCAAGGTGCGCGATATCGCCGACCAGTCCGCGGCCGCGACCGGGCAGACAGCGGCCTCCAGCAACGAACTGGCCCGCCTGGGCAGCACCCTGCAACAGCAGGTCAGGCGCTTCCAGGTCTGA	MAGNLSVKAKLSLSFGVLTLILLVVSALSLMELSASNQRFSSYVHGVSERNNLAAELMMAADQRAISARNMVLVSTPAEREDERLKVVQAHEKVQNMLERLRAAITQAGEEARDEQRLMAEIVRVEGLYGPVALDIVALAMKGEREAAVAKMNAECRPLLAALVKAVEAYLQHSAASAKANEETANASYAGQRNLLVGVCVLAIGIAVALALLITSGLTRALGAEPADLSAAAQRVASGDMRPVSGIEAAAAGSVLASLGEMQRNLSGLISQVRSSAEIISSAAEELSAATEQSSAGVSNQKLEVDQVATAIHEMAATVQEVARNSEDAANAALTADQQAQTGEKMAKQALVQIERLAAEVIQSASAMARLKQESEHIGGVLDVIKSVADQTNLLALNAAIEAARAGDAGRGFAVVADEVRNLAKRTQGATQEIEGLIASLQRIAEEAAGMMEVCRSLTDETVTGVGNAGDAVMTITQMIANIQQMVRQIATAAEEQSAVAEEINRSVTKVRDIADQSAAATGQTAASSNELARLGSTLQQQVRRFQV	PGPT0015710_15754	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_02935	1962			hypothetical protein	ATGCTCCGTCATTCCTGTGTCTGCGGCGCGCGCTCCAAACCCCGCCAGGCGGTGGGTGCCGTGCTCGGCGTATGTTCCCTGCTGCTCATCGATCCGGCGTCGGCCATGGAATTCAGCCTGGCCGACAACGAGATCGGCGGCTCCCTCGATACCACCTTGTCGTACGGCGTCATGTGGCGTGTCGAGGGGCGTGACAAGGAGAACATTTCCGATATCAATGCCGACGACGGCAACCGGAATTTCGATACCGGCGTCGTCTCCGAGGTCTACAAGGCCACCTCCGAGCTGACGCTGAATTACCGCAACTACTCGGCTTTCGTACGTGGCACCGCGCATTACGACACGCGCATCATGGACCGACGCAACGACTACTACGCCACCACCGACGGCGTGCAACGACCCAGCCAGGCCTATCCCCACGACGATCATTTCACCGACGACACCCGTCATATCGCCGGGCGCAAGGCGGAAATCCTCGATGCCTATCTGTCCGGCTCCTGGGACCTGTACGAGCAACCGCTCAGCGCCCGTCTGGGGCGGCAAGTGTTCAACTGGGGGGAGGGTATTTTCTACCGGGGCGGTATCAATGCCACCAACCCCCTCGACGCCACCCGTTTCCACCTGCCGGGCTCCGAGGTGAAAGAGGTGCTGGTGCCGGTGGAGGCGCTCAGTTTCAGCCTGGGATTGAGCGACAGCTTGTCGATGGAAGCCTTCTACCAGTGGAAGTGGAAGGAAACCCGGCTCGATCCGGTGGGGACCTTTTTCTCCGATACGGATCTGTTCGCCGACGGCGGCGAGGCCGCCTACACCAGCTTCGACGATCCACTGCTGGCCGACTTGCTGGCGGCCTATCCACTGGCGGCCGGCCTGCAATTGGGTGGGCTCGGCCGGGGTCCTTACGGACCCAACAGCTTTATCGATGCCGAGACCGGCACCTTCAAGGTGGCCAACATCGGCAGGGATATCGAAGCTCGTGACGATGGCCAGTTCGGTGTGGCCTTCCGCTACGTTGCCGAGAGCCTGAACGCCACCGAGTTCGGCTTCTACTTCATCAATTACCACGCGAAGGAGCCGCAGATTGCCGTCGACCTGCGCGATTACCAGGGCGTGGACAGCAGCGACCCGATCTGGGCGTTCCTGCCGCCGGAGGCCTTGCCTGGCCTGGCGACCCTGGACATGGCCGGTAATGCCGAGGCCCGTCGCGACTACGTGGAAGACATCCGCTTGTACGGCCTGAGCTTCGCCACCACCCTGGGCGATGCCTCGGTGTCCGGGGAAATCGCCTACCGGCCGAATATGCCGATCAGCATCGCCGCCACCGACGATATCCTCGGCGATGTGTTGATCCCCAGCCTGGCCGGCGTGAGCAATGTCTGGGACGGCACCGTTCCGGCCGACCAGGCGTGCACGCCGGTGGCCGGGAAGATGCTCTGCCGGGGCAGCCTGTTCGAGAACTACGAGCGTGCGGAGACCTTCAACGTCTCGCTGTCGACGATCTACAACTTCGGTCCGGCGTTGAGTTTCGACTCGCTGTTCGGCATGGCCGAACTGGCTTCCCAGCACATCCGCGGCAGCAGCCTGGAATACACCGCCTGGGACGGGACCCGACGGCGCTTCGTCAGCGCGACCGACAAGGCCTACATCGACTCGCGCAACAACGACTCGGACCAGATCAGCCGCGACAGCTACGGCTACACGCTGGTGCTCAGCGGTAGCTGGAACGATGTCTATGCCGGGGTAAAGCTGTCGCCCTACGTGGTGTTCCAGCATGACTTCAAAGGTAATTCCGACCGGACCGGTAATTTCATCGAAGGGCGCAAGGCGCACACCCTGGGACTCGATGCCAGCTACCTGAACAGTTTCGAGGTCGGCCTGCAGTACACCCAGTACTACGGCGCCGGGCGCAACAACAGCCTGCGCGACCGCGACAACGTCTCGCTGACGGCCAAATATTCGTTCTGA	MLRHSCVCGARSKPRQAVGAVLGVCSLLLIDPASAMEFSLADNEIGGSLDTTLSYGVMWRVEGRDKENISDINADDGNRNFDTGVVSEVYKATSELTLNYRNYSAFVRGTAHYDTRIMDRRNDYYATTDGVQRPSQAYPHDDHFTDDTRHIAGRKAEILDAYLSGSWDLYEQPLSARLGRQVFNWGEGIFYRGGINATNPLDATRFHLPGSEVKEVLVPVEALSFSLGLSDSLSMEAFYQWKWKETRLDPVGTFFSDTDLFADGGEAAYTSFDDPLLADLLAAYPLAAGLQLGGLGRGPYGPNSFIDAETGTFKVANIGRDIEARDDGQFGVAFRYVAESLNATEFGFYFINYHAKEPQIAVDLRDYQGVDSSDPIWAFLPPEALPGLATLDMAGNAEARRDYVEDIRLYGLSFATTLGDASVSGEIAYRPNMPISIAATDDILGDVLIPSLAGVSNVWDGTVPADQACTPVAGKMLCRGSLFENYERAETFNVSLSTIYNFGPALSFDSLFGMAELASQHIRGSSLEYTAWDGTRRRFVSATDKAYIDSRNNDSDQISRDSYGYTLVLSGSWNDVYAGVKLSPYVVFQHDFKGNSDRTGNFIEGRKAHTLGLDASYLNSFEVGLQYTQYYGAGRNNSLRDRDNVSLTAKYSF				NA	NA	NA	NA	NA
BMS010_02936	1368			putative protein	ATGCCGAAGACGATTTCCCTGTTCGCCATCCTGTCCCTGGGCCTGTTCTCGCCGGTGGCACTGGCTGCCGTTTCCGCCGAAGAGGCTGCCCGTCTGAAGAGCGATCTGACGCCTCTGGGCGGTGAAAGAGCCGGCACGGCCGATGGGCGCATCCCCGAATGGACGGGCGGCATTACCCAGCCTCCGCCGGGCTACAAGGGTGCCGGCCAACACCACCCCGATCCGTTCGCCGCCGACCAGCCGCTGTTCACTATCGACAAGGGCAACCTGGAGCAGCACAAGGCGCACCTGACGGCGGGGCAGATTGCCTTGCTCAACACCTACCCGGAGACCTTCCGCATGCCGGTCTACCCGAGCCGGCGTTCGGCCTCGGCGCCGCAGTGGGTCTATGACAACACCTTCGCCAATGCGACCAGCGCCAAGTTGCTCAACGGCGGCAACGGTTTCGCCGATGCCTATGGCGGCATTCCATTCCCGATCCCGCAGAACGGGCTGGAGGCGCTGTGGAACCACATCGCCCGCTACCGGGGCACCTACATCGTGCGCCGCTCGGGGGAGGTCGGGGTGCAGCGCAATGGGGCCTATTCGCTGGTGGTTTCCCAGGACGAAGCATTGTTCCGTTTCTACGACCCGCGCGGCAGCTACGCCACGCTGAACAACACACTGTTCTACTACCTGTCTTTCACCACGGCACCAGCGCGCCTGGCGGGTAACGGTTCGCTGGTCCAGGAAACCCTCGATCAGGTCAAGGAGCCGCGTCAGGCGTGGGGCTACAACCCCGGGCAGCGTCGGGTGCGGCGCGCTCCGACACTGGCTTACGACACGCCCATCGACGCCAACGACGGGCTGCGCACCGCCGACGACACCGATATGTTCAACGGTGCGCCGGACCGCTACGACTGGACCCTGCAAGGCAAGCGGGAAATCTACATTCCCTACAACAACTACCGGGTCACCAGCCCGGAGGTGTCATACAAGGCGTTGCTGACTCCCGGCCATATCAATCCCGCCTACACCCGCTACGAGCTGCACCGTGTCTGGGTCGTCGAAGGGAAGCTCAAGCCCGGCGCCCGGCACATCTACTCCCGGCGAACCCTGTATCTCGACGAAGACAGTTGGAGTGCCGCAGTGATCGACCAGTACGACGGGCGCGACGAGCTGTGGCGGGTCTCCATGGCCTACCTGAAGAACTTCTACGAGCTGCCCACCGTCTGGACCGCCTTGGACACCTTCCACGACCTGCAGGCACGTCGTTACGGCGTGCAGTGGCTGGACAACGAAGAGCCCGGCACGGTGGACTTCAGTCAGCCGCCACCGCCCGATTCGGCATTCAGCCCAGCGGCCCTGCGGCGCAAGGCGACGCGTTGA	MPKTISLFAILSLGLFSPVALAAVSAEEAARLKSDLTPLGGERAGTADGRIPEWTGGITQPPPGYKGAGQHHPDPFAADQPLFTIDKGNLEQHKAHLTAGQIALLNTYPETFRMPVYPSRRSASAPQWVYDNTFANATSAKLLNGGNGFADAYGGIPFPIPQNGLEALWNHIARYRGTYIVRRSGEVGVQRNGAYSLVVSQDEALFRFYDPRGSYATLNNTLFYYLSFTTAPARLAGNGSLVQETLDQVKEPRQAWGYNPGQRRVRRAPTLAYDTPIDANDGLRTADDTDMFNGAPDRYDWTLQGKREIYIPYNNYRVTSPEVSYKALLTPGHINPAYTRYELHRVWVVEGKLKPGARHIYSRRTLYLDEDSWSAAVIDQYDGRDELWRVSMAYLKNFYELPTVWTALDTFHDLQARRYGVQWLDNEEPGTVDFSQPPPPDSAFSPAALRRKATR				NA	NA	NA	NA	NA
BMS010_02937	1218	fabB_2		3-oxoacyl-[acyl-carrier-protein] synthase 1	ATGCGTCGCGTCGTGATCACCGGTCTGGGCATCGTCTCCTGCCTGGGCAATGACAAAGACACCGTCTCCGCCAACCTGCGCGCCAGCCGCCCGGGCATCCGGTTCAACCCGGAATACGCCGAGATGGGCCTGCGCAGCCAGGTCTCCGGTTCGGTGAACCTGGACCTCGAAGCCCTGATCGACCGCAAGGTCTACCGTTTCATGGGTGACGCGGCCGCCTTCGCCTACCTGTCGATGGAGCAGGCGATCAAGGACGCCGGCCTCACCCCGGAAGAAATCTCCGATCCGCGCGTCGGTCTGGTCGCCGGCTCCGGCGGCGCCTCCACCTTCAACCAGATGGAAGCCCTGGACATCCTGCGCGAGAAAGGCGTCAAGCGCGTCGGCCCATACCGCGTACCGCGCACCATGGGCAGCACCGTTTCCGCCTGCCTGGCCACGCCATTCAAGATCAAGGGCGTCAACTACTCCATTTCCTCGGCCTGCGCCACCAGCGCCCATTGCATCGGCAATGCGATGGAACTGATCCAGATGGGCAAGCAGGACATGGTCTTCGCCGGCGGCGGTGAAGAAGAGCATTGGACCCAGAGCTTCCTGTTCGACGCCATGGGCGCCCTCTCCACCCAGTACAACGAAACCCCGGAAAAGGCCTCCCGCGCCTATGACGCCAAGCGCGACGGCTTCGTCATCGCCGGCGGTGGCGGCATGGTGGTGGTGGAAGAACTGGAGCATGCGCTCAAGCGTGGCGCGAAGATCTACGCCGAGATCGTTGGCTACGGTGCTACGTCCGATGGCTACGACATGGTCGCCCCAAGCGGCGAAGGCGCCATTCGCTGCATGCAGCAGGCCCTGGCCACCGTCAAGGACCCGATCGACTACCTGAACACCCACGGCACCTCCACCCCGGTGGGCGACACTGCGGAAGCCGGTGCGGTACGTGCCGTGTTCGGCGACAAGGCGCCGATGATCAGCTCCACCAAGAGCCTCTCCGGCCACTCCCTCGGCGCCGCCGGCGTCCAGGAAGCCATCTACTGCCTGCTGATGATGGAAGGCGGTTTCGCCGCCGGCTCGGCCAACATCGAGGAAATCGACCCCGAGGTCGCCGACCTACCGATTCTCCGCGAAACCCGCGACGCCACGCTGAACACCGTCATGAGCAACAGCTTCGGTTTCGGCGGCACCAACGCGACGCTGGTGCTTAAGCGCTGGACCGGCCAGTAA	MRRVVITGLGIVSCLGNDKDTVSANLRASRPGIRFNPEYAEMGLRSQVSGSVNLDLEALIDRKVYRFMGDAAAFAYLSMEQAIKDAGLTPEEISDPRVGLVAGSGGASTFNQMEALDILREKGVKRVGPYRVPRTMGSTVSACLATPFKIKGVNYSISSACATSAHCIGNAMELIQMGKQDMVFAGGGEEEHWTQSFLFDAMGALSTQYNETPEKASRAYDAKRDGFVIAGGGGMVVVEELEHALKRGAKIYAEIVGYGATSDGYDMVAPSGEGAIRCMQQALATVKDPIDYLNTHGTSTPVGDTAEAGAVRAVFGDKAPMISSTKSLSGHSLGAAGVQEAIYCLLMMEGGFAAGSANIEEIDPEVADLPILRETRDATLNTVMSNSFGFGGTNATLVLKRWTGQ	PGPT0013310_1058	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0013310-fabB-K00647	NA	NA
BMS010_02938	516	fabA_2	COG0764	3-hydroxydecanoyl-[acyl-carrier-protein] dehydratase	ATGACCAAACAACACGCTTTCACTCGGGAAGACCTGCTGCGCTGCAGTCGCGGCGAGCTGTTCGGTCCGGGTAATGCGCAACTGCCCGCCCCCAACATGCTGATGGTCGATCGCATCATCCATATCAGCGAAACCGGCGGCAAATTCGGCAAGGGTGAATTGGTCGCCGAGCTGGATATCCATCCCGACCTCTGGTTCTTCGCCTGCCATTTCGAAGGCGATCCGGTGATGCCCGGCTGCCTCGGCCTCGACGCCATGTGGCAGTTGGTCGGTTTCTACCTCGGCTGGCAGGGTAATCCGGGCCGCGGCCGGGCCCTCGGCTCCGGCGAAGTGAAATTCTTCGGCCAGGTACTGCCGACGGCGAAGAAAGTCACCTACAACATTCATATCAAGCGCACCATCAACCGCTCGCTGATTCTCGGCATCGCCGATGGCACCGTCAGCGTCGATGGACGCGAGATCTACAGCGCCGAAGGCTTGCGCGTCGGCCTGTTCACCTCTACCGACAGTTTCTGA	MTKQHAFTREDLLRCSRGELFGPGNAQLPAPNMLMVDRIIHISETGGKFGKGELVAELDIHPDLWFFACHFEGDPVMPGCLGLDAMWQLVGFYLGWQGNPGRGRALGSGEVKFFGQVLPTAKKVTYNIHIKRTINRSLILGIADGTVSVDGREIYSAEGLRVGLFTSTDSF				NA	NA	NA	NA	NA
BMS010_02939	1923	rcsC_13		Sensor histidine kinase RcsC	GTGATCCCGTTCAAAGGATGGGACATCCATGCCCGAACCCAACTGATCAGCGTGGGCCCCGCCCTGCTGCTGACGCTGCTGCTCACCGCATTCTTCACCTTCGCCCGCCTGCAGGACCTCCGTCAGGAGCTGGATCACACCGGCCAGTTGATCGCCAATCAGTTGGCTCCCGCGGCCGAATACGGTGTGATCGCCGGCAACCTGCCGGTCTTGCGCAGCCTGCTCCAGGCCACTTTGGACACCCCCCATGTGCGCTTTTTGGAAGTCCGCGACCGCGAAGACAACATCCTGGTGTACGTGGAACGCCCCAGTGACCAGGGCCAGAGCACGCCCCAGGTGAAGGTGTTCCATGCGCCGATCCGCCTGCAACGGGTCGACCTTCAGGGCGACGAGCTGTTCGATAGCGAGCCCGCCGGTAATCCGGACCAGGACATTCTGGGACGGGTCGTGGTGGGTATGTCCGGCGACGCCTTCACCAGCCAGCAACAGGTCATCCTGCTGAAGGCCGCCGGTCTCGCACTGCTGGCCCTGATGCTCGCCTTTTTCCTTGCCCGCCGCCTGGCCCTGCGCCTGTCGGAGCCGATCAGCGCCATGGGCAAGGCGGTGGAAGCCATCCAAGCCGGCGATTACCGGGCAGCCCTGCCGGAAGTCGACGACGGCGAGTTGGGGGAACTGGCACGACACATCAACCGCCTCGCCAATGGCCTGGAAAAGGCCAGCCAGGAGCAGCAGCAATCCATCGAGCAACTGGTCAAGGCGCGGGAAGAAGCCGAGCAGGCCAACCGGGCGAAGTCCGATTTCCTGGCGATGATGAGCCATGAGCTGCGCACGCCGATGAACGGTGTACTGGGCATGCTGCAACTGCTCGAAACCACCGAGATGAACCAGGAGCAGGCCGAGTACGCGGCACTGGCGACCGAATCCACCGAGCACCTGCTCAAGGTCATCAACGACATCCTCGACTTTTCCCGTATCGAGCGCGGCGCGCTGGAGCTGGAGCGCATTCCGTTCAACCTCCTCGAACTCATCCAGGGTTCGGTGCTGGTGTTCCAGCACAGCGCCCAGCAGCGCGGCCTGGACCTGCGCATCGAAACCCAGTCCGGCCTGGAGGACATGGAGGTCCAGGGCGACCCCACGCGGCTCCGCCAGATCCTAGTCAACCTGATCGGCAATGCCTTGAAATTCACCGAAGAAGGCAGCATCCGCGTGGAAATCCGCTGGCAGGCGCTGGATACCGAGGTGCTCTGGTTCACCTGCGCGGTTCGCGACAGCGGTATCGGCATCCCAGCGGAGCGTCTGGAGCACATGTTCGACGCCTTCCAGCAGGCCGACAGCTCGATTTCCCGCCGCTACGGCGGCACCGGGCTCGGCCTGCCCATCGCCCGCACCCTGGCCGAACGGATGGGCGGCACCCTCAGCGCCGAAAGCGAGGAAGGCCGCGGCTCGGTGTTCACCCTGGAAATCCCGCTGCCGTTCCGTCTGTGCGAAGCCCAGCCCACCCGCTTGCCGCTGCAGGCCGGCGGTTCCGGAGGCGGCCAGGATGTGCTGCTGGTGGAAGACAACCCGGTCAACCAGACCGTGATCGAAGCCATGTTGCGCAGCCTCGGCTACAGCGTCAGCTTGGTCGGCGACGGCGCCCAGGCGGTCCGACGCGTCGAGAACCAGGCGTTCGACGCGATCCTCATGGATTGCCGCCTGCCGGTGCTCGACGGCTATGAAGCGACCCGGCAGATTCGCCGGCTGGACGGCGGCGCAGGGGTTCCCATCATTGCCCTTACCGCCAACGCCCTGCAGGGCGACCGGGAAATCTGTCTCGCCGCCGGAATGAACGATTACCTGGCCAAGCCGTTCAAACGAGCGGATCTGCAGCAGGTATTGCAGCGCTGGTTGTCACCCCGACCTTCGGCGAGTGGCCAACAGTGA	MIPFKGWDIHARTQLISVGPALLLTLLLTAFFTFARLQDLRQELDHTGQLIANQLAPAAEYGVIAGNLPVLRSLLQATLDTPHVRFLEVRDREDNILVYVERPSDQGQSTPQVKVFHAPIRLQRVDLQGDELFDSEPAGNPDQDILGRVVVGMSGDAFTSQQQVILLKAAGLALLALMLAFFLARRLALRLSEPISAMGKAVEAIQAGDYRAALPEVDDGELGELARHINRLANGLEKASQEQQQSIEQLVKAREEAEQANRAKSDFLAMMSHELRTPMNGVLGMLQLLETTEMNQEQAEYAALATESTEHLLKVINDILDFSRIERGALELERIPFNLLELIQGSVLVFQHSAQQRGLDLRIETQSGLEDMEVQGDPTRLRQILVNLIGNALKFTEEGSIRVEIRWQALDTEVLWFTCAVRDSGIGIPAERLEHMFDAFQQADSSISRRYGGTGLGLPIARTLAERMGGTLSAESEEGRGSVFTLEIPLPFRLCEAQPTRLPLQAGGSGGGQDVLLVEDNPVNQTVIEAMLRSLGYSVSLVGDGAQAVRRVENQAFDAILMDCRLPVLDGYEATRQIRRLDGGAGVPIIALTANALQGDREICLAAGMNDYLAKPFKRADLQQVLQRWLSPRPSASGQQ	PGPT0004750_816	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_SENSING_REGULATORS	CE-QSR-QUORUM_SENSING_REGULATED_FLS,PGPT0004750-aoxS-K20974	NA	NA
BMS010_02940	927			hypothetical protein	ATGCGCCACTCCGCCTCATGGACGAGCCGGCGAACCGCCCCTTGGTCCACCTGCCTGCTCCTGCTCTGCTGTCTTGTCGCCAGCCTGCCGACGCGGGCTGCCGAACTGCTGCTGAGTGCCGAGGACAGCCCTGCCGTGCGTGGCTTCGTCAATCAACTGGCCGAACGCCGTCCGCAGGACGAGGTGCGCTTCCTGCCCCTGGACCAATTGCCACCGCCCGATCGCCTGCCGGCGGACAGCCGGCTGATTCTTTTGGGCGAGAAGGCCCTGGAATGGCGCCTTTCCTCCGCCTCGGGCCCTCCGACCCTGGCGCTGCGGATCAGCCGCATCCAGGCCCGCCGGCTACTCGGCGAAAAGCGCCCGGATGGCGTCACCCTGCTCTGGAGCGACCCCCAACCGGCACGTCAGTTGCGCCTGGCCCGCCTGCTTTTTCCCCGCGCCCAGCGCATCGGCGTGCTCTATGACAAGCACAGCGCCTTCCTGCTCGATGAGCTGCGTCATGCCGCCGCGCCTCTGGGCCTGACCGTGGTCGGCCAGCCCTGGCCGGACCAGGGCGACAGCCGCCCGCTGCTGTCCCTGCTCGGCGACAGCGATCTTCTGCTCGGCCTGGACGATCAGGATCTTTACAATGCGAGGACCGCGAAGAGTCTGCTGCTCACCAGCTACACCCGGCAACGCGCCCTGCTCGGCCCCAGCGTCAGCTTCGTCAGGGCCGGCAGCCTGGCCAGCAGCTACAGCGACCAGGCCGATTGGCTGGCAACGCTCGACGAGCTGCTCGACCAGCCGCCCGGGCACTGGCCAAGGGCAGCCTATCCGGCCTATTACAAGGTGATGGGGAACCGGCAGGTGGCCCGTGCGCTCGGCATGGAGCTGGCCAGCGACAGCGAATTGGAGCAGCAATTGGTTGCAGGGGAGAAAACTCAGTGA	MRHSASWTSRRTAPWSTCLLLLCCLVASLPTRAAELLLSAEDSPAVRGFVNQLAERRPQDEVRFLPLDQLPPPDRLPADSRLILLGEKALEWRLSSASGPPTLALRISRIQARRLLGEKRPDGVTLLWSDPQPARQLRLARLLFPRAQRIGVLYDKHSAFLLDELRHAAAPLGLTVVGQPWPDQGDSRPLLSLLGDSDLLLGLDDQDLYNARTAKSLLLTSYTRQRALLGPSVSFVRAGSLASSYSDQADWLATLDELLDQPPGHWPRAAYPAYYKVMGNRQVARALGMELASDSELEQQLVAGEKTQ				NA	NA	NA	NA	NA
BMS010_02941	2112	btuB_1		Vitamin B12 transporter BtuB	GTGCTGCCGAGCCTGCGCACTTCACTGCCGATCACCTTCTTCGCCCTGCTCACTGGCGGTCATGCGCTGGCCGACGACCTGTTCCTGGACGATCCCGACCTGCCGCAGGTGCTCACCGCCACCCGCCTGAAACAGGCGGCGGCCGCGGTTCCAGGCAGCATGACCGTACTCGACCGCCAGTTGATCGACGCCTCCGGCGCACGCGACATCCCCGAACTGCTGCGCCTGGTTCCGGGCATGTTGGTCGGCTATCGCAACGGCAACCAGGCGACGGTGAACTACCACGGCACCAATGCCACCGAGGCCCGCCGCCTGCAAGTGCTGGTCGATGGCCGCTCGCAATACCGCCCCGGCCTGGCCACCGTCGACTGGAGCGACATTCCGGTGGCCATCGAGGACATCGAGCGGATCGAAGTCTTCCGCGGGCCGAACACCGTGAGCTACGGCGCCAATGCGCTGATGGGGGTGATCAACATCATCACCCGCGCGCCGGCCAACAGCGATGGCACCCGCCTCAAGCACACCCAGGGCCAGCGCGGCATCCGCGACTGGTACGCCAGCCAGGGGTTCGGCCAGGGCGGTCACGATCTGCGCCTGTCGCTGTCCGGCCAGCAGGACGATGGCTTCGACCATGACGAGTTTGGCCAGGACTACCGCGACGGCCGCCGCCTGAACCGTTTCAACCTGTCCGCCAGCCATGTGCTGGCCGCCGACCAGACCCTCGATTGGCAACTGGCCGCGAAGGAAGGCAGCAAGCAGCGGCCCAACTCCTACCGCCCGGTATTTGCCGGCATCCCCAACGGAAGCGACAACGCCGACATCGAAGCCCGCGACTATGCCGCGTCGCTGCGCTGGACCTTCGACGCCAGCCCCGACCACAGCCTGTACGTCCAGGGCTACGCCCAGCAATGGGAACGCCTGCAGGAATGGCGGCCCTGCGAAGCGACCATCGCCTTCAACCCGCAACTGGGGGCGCTCTGGCAGATCGATCCCGGCTACGTCGAAGCCCTGACCGCCAACATCCGCCGGGGCGTGTTCAGTCCGCCGTCCGGCACCGCCCAGCAGCAGAGTCTGGCAACACAGGTACTGCAGCAACTCGCCGGGCCGGGCCAGCAGCCGGTTTGCGGCTACATCGACCAGAACACCCGGGAAACCCGCTACGACCTGGAACTGCAGGACACCCTGAGCCTGTCCGATCGTCTGCGCCTGGTCAGCGGCGTGAACTACCGCTACGACCGAGCGGTCTCAGAAACCTACCTTGGCGGTCGGATAAATAACGAGGTGTGGCGACTGTTCGGCCACCTGGAATGGCGAATGAGTGAGCACTGGTTATTGCAGGGAGGCGCCATGCTGGAAAGCGATCAGCTTTCGGGCAGCTCGCTGAGCCCACGGTTGGCGGCCAACTACCTGATCACGCCGCGCCACGGGCTGCGCGCCGTCTATTCCGAGGCGGTGCGTTCCCCGGACATGTTCGAGAACAACGCCGATTGGAGCTACCGGCTGCAATCGCCCTCCCGGCCGTTGCAGAACGACCGCTATTTCGCCCGCGCCCAGGGCTCGGGAACCCTGGACAGGGAAATCATGCGCTCCCGCGAACTGGGCTATAACGGCCAGTTCGAAGCCCCGGACCTGAACGTCGATATCAAGCTGTTCCACGACGAGATCACCCGGATGATCAGCGAGCCCCTGCGGCTGGTGGATTTCACGCCGAGCAACGACAACCGGATCAGCTTCGACGGTGCGGAAACCCAACTGGACTGGCGTCTGGGCCGGCAGGATCGCCTGCGCCTGACCTACGCCTACATCGAATTCGACGCCAGCCATCGCCTCGACCAGCGCCTAACGCCCCGCCACAGCGGTTCGGCCGGATGGTTGCGCGACTGGGGTCAAGGCTGGTCCAGCGCCCTCTTCTATTACGGTGCCGACCAGCTCAACGAGTACCGTTTCGAGCGTGTCGACCTGCGTGTCGCCAAGCGCCTGGCGCTCGGCCGTGCGGACCTGGAGCTGTCCGGTGTCCTGCAGCAGCGTCTCGATGACGAGCCCCTGACCTGGCGCGAGAACCGCTACGCGGATCGACACCTGCTCTATTTCAGTGCGGAGTTGGCCTTCTAG	MLPSLRTSLPITFFALLTGGHALADDLFLDDPDLPQVLTATRLKQAAAAVPGSMTVLDRQLIDASGARDIPELLRLVPGMLVGYRNGNQATVNYHGTNATEARRLQVLVDGRSQYRPGLATVDWSDIPVAIEDIERIEVFRGPNTVSYGANALMGVINIITRAPANSDGTRLKHTQGQRGIRDWYASQGFGQGGHDLRLSLSGQQDDGFDHDEFGQDYRDGRRLNRFNLSASHVLAADQTLDWQLAAKEGSKQRPNSYRPVFAGIPNGSDNADIEARDYAASLRWTFDASPDHSLYVQGYAQQWERLQEWRPCEATIAFNPQLGALWQIDPGYVEALTANIRRGVFSPPSGTAQQQSLATQVLQQLAGPGQQPVCGYIDQNTRETRYDLELQDTLSLSDRLRLVSGVNYRYDRAVSETYLGGRINNEVWRLFGHLEWRMSEHWLLQGGAMLESDQLSGSSLSPRLAANYLITPRHGLRAVYSEAVRSPDMFENNADWSYRLQSPSRPLQNDRYFARAQGSGTLDREIMRSRELGYNGQFEAPDLNVDIKLFHDEITRMISEPLRLVDFTPSNDNRISFDGAETQLDWRLGRQDRLRLTYAYIEFDASHRLDQRLTPRHSGSAGWLRDWGQGWSSALFYYGADQLNEYRFERVDLRVAKRLALGRADLELSGVLQQRLDDEPLTWRENRYADRHLLYFSAELAF	PGPT0003790_23375	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS010_02942	1023	gpsA_1		Glycerol-3-phosphate dehydrogenase [NAD(P)+]	ATGACTGCACAGCAACCCATCGCGGTTCTCGGCGGCGGCAGCTTCGGCACCGCCATCGCCAATCTGCTGGCCGAGAACGGCCAGCCTGTCCTGCTCTGGATGCGCGACCCGGAGCAGGCCGAGGCGATCCGCAGCAACCGCGAGAACCCTCGTTACCTGAAGGGCGTGAAGATCCATCCGGCGGTGGAGGCGGTGACCGACCTGCCGGCCACCCTGGCCGCCTGCGAGCTGATCTTCGTTGCCCTACCGTCCAGCGCGTTGCGCCAGGTGTTGCAGCCGCTGGCGGCGCAACTGGCCGGCAAGCTGCTGGTGAGCACCACCAAGGGCATCGAGGCGCAGAGCTTCAAGCTGATGAGCCAGATTCTCGAGGAAATCGCCCCGCTGGCGCGCATCGGTGTGCTGTCCGGGCCCAACCTGGCCAAGGAAGTCGCCGAGCATGCCCTGACCGCCACGGTGGTCGCCAGCGAAGACGAGGAACTCTGCCAGCGCGTCCAGGCCGTCCTGCACGGCCGGACCTTCCGCGTCTATGCCAGCCGCGACCGCTTCGGCGTGGAACTGGGCGGAGCCCTGAAGAATGTCTACGCGATCATTTCCGGCATGGCCGTGGCCCTGGGCATGGGCGAGAACACCAAGAGCATGCTGATCACCCGGGCATTGGCTGAGATGACCCGCTTCGCGGTGAAGCTGGGCGCCAATCCGATGACCTTCCTCGGCCTGGCCGGGGTCGGCGACCTGATCGTCACCTGTTCCTCGCCGAAGAGCCGCAACTACCAGGTCGGCTATGCCCTCGGCGAGGGGCTCAGCCTGGAAGACGCGGTGGCGCGGCTCGGCGAAGTGGCCGAGGGGGTCAACACGCTCAAGGTGCTCAAGGCCAAGGCCGAGGAGCTGCAGGTCTACATGCCGCTGGTCGCGGGATTGCATGCCATTCTCTTCGAAGGGCGCACCCTGGCCCAGGTGATCGAGGCCCTGATGCGCGGCGAGCCGAAGACGGACGTGGATTTCATTCCCACCAGCGGTTTCTAG	MTAQQPIAVLGGGSFGTAIANLLAENGQPVLLWMRDPEQAEAIRSNRENPRYLKGVKIHPAVEAVTDLPATLAACELIFVALPSSALRQVLQPLAAQLAGKLLVSTTKGIEAQSFKLMSQILEEIAPLARIGVLSGPNLAKEVAEHALTATVVASEDEELCQRVQAVLHGRTFRVYASRDRFGVELGGALKNVYAIISGMAVALGMGENTKSMLITRALAEMTRFAVKLGANPMTFLGLAGVGDLIVTCSSPKSRNYQVGYALGEGLSLEDAVARLGEVAEGVNTLKVLKAKAEELQVYMPLVAGLHAILFEGRTLAQVIEALMRGEPKTDVDFIPTSGF	PGPT0024330_1438	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0024330-gpsA-K00057	NA	NA
BMS010_02943	348			hypothetical protein	ATGAGCGAACCCACCGACGACCTGCAACGCGAATCCATCCTGCTGCGCATCCTTTGGATGGTGATCTTCACCCTGGTCTGGCAACTGGCCGAGCTGTTGCTGGGGGCGGTGGTCCTGCTGCAGCTGGGCTACCGGCTGTTCTATGGCGCGCCGAGCGGCAGCCTGATGAACTTCGGTGACAGCCTCAGCCAGTACCTGGCGCAGATTGGCCGTTTCGGCACCTTCCACACCGACGAGAAGCCCTGGCCGTTCTCCGATTGGCCGGTGCCGCGCGCTCCGGAAGGCGAGGCACCCCACGATATTCCCCCGGCGCCCAGTCCGGTGCGAGACGAAGAGCCCAAGCTGTGA	MSEPTDDLQRESILLRILWMVIFTLVWQLAELLLGAVVLLQLGYRLFYGAPSGSLMNFGDSLSQYLAQIGRFGTFHTDEKPWPFSDWPVPRAPEGEAPHDIPPAPSPVRDEEPKL				NA	NA	NA	NA	NA
BMS010_02944	465	sixA	COG2062	Phosphohistidine phosphatase SixA	GTGAGGCTCTGGCTGCTCCGTCATGGCGAGGCTGGGCCCCATGCCCCGACCGACGCCGAGCGCGAGCTGACCAGGCATGGCCGCAAGGAGGTGCTGAGGACGGCGGCGCACCTGGCCGGGCGGCCGCTCTCAGCGATCCTGGCCAGCCCTTACGTGCGGGCCCAGCAGACCGCCGAGCTGGTGCGCGAGGCGCTGGGGTTCGCCGGGGCGGTCGGTGTCGCCCCCTGGCTGACGCCGGACAGTGATCCCCGCGAGGCGTTGAAGTACCTCGCCGAGCGCGAGGACGAGGAATTGCTGCTGGTGACTCACCAGCCCTTCGTCGGCACCCTGGCCGGATTGCTGATCCATGGCCACCGGCAGGACCCGTTGCCGATGAAGACCGCCAGCCTCGCCGAGCTGGAGGGGGAGATGATCCTGGCCGGGGCGATGCGTCTGGCCGAACTGCATCACCCGAAACACCATTGA	MRLWLLRHGEAGPHAPTDAERELTRHGRKEVLRTAAHLAGRPLSAILASPYVRAQQTAELVREALGFAGAVGVAPWLTPDSDPREALKYLAEREDEELLLVTHQPFVGTLAGLLIHGHRQDPLPMKTASLAELEGEMILAGAMRLAELHHPKHH				NA	NA	NA	NA	NA
BMS010_02945	1668		COG1022	Long-chain-fatty-acid--CoA ligase FadD15	GTGACTCATGCCGTCCGTTTGCCGCTCGAGCTGTTCTACGAGCGCGAGGTGCGTCACCCGAACAAACGCTACCTGGTCCAGCCCTTGGCGGGCGGCCGCGTGGAGGAGCTGAGCTGGTCCGACGTGGGTGACCAGGCACGCCGTACCGCCGCCTGGCTGCGTGGCCTGGATCTGCCCCAGGGCAGCCGCATCGCGATCATCTCGAAGAACTGCGCGCACTGGATCGTCACCGACCTTGCGATCTGGATGGCCGGCCATGTGTCCGTACCGCTCTACCCGAACCTTACCGCCGAGTCCGTCCGCCAAGTGCTGGAACATGCCGAGGCGGCGGTCGCTTTCGTCGGCAAGCTGGACGACTGGCCGAGCATGGCGCCGGGCGTTCCCGAGGGGGTGCCGACGGTAGGCATGCCGATGCGCCCCGAAGGGCGTTTCGATTACCTGTGGAGCGATCTGCAGGCCTGTGCGCCGATCCAGGACGATCCCCGGCCCGCCGCCGATTGCCTGGCCACGCTCATCTATACCTCCGGCACCACCGGGGCGCCGAAAGGGGTGATGCACACCTTCGCCAACTTCGGCTTCGCCGCCGGCCACGCCACCGAGCTGTTCGGTGTTGGTGAGAACGACCGGCTGCTGTCCTATCTGCCGCTGTGCCATGTGGCCGAGCGCATGTTCGTCGAGCTGTCGTCGATCTACGCCGGGCAGACGATCTTTTTCGCCGAGAGCCTCGACACCTTCATCGAGGACCTGCGTCGTGCGCGGCCCACGGTGTTCTTCGGGGTGCCGCGGATCTGGACCAAATTCCAGATGGGCGTCTATTCGAAAATGCCGGCGAAGCGCCTGGACTTTCTCCTGCGCCTGCCGCTGCTCGGCCCGCGGGTCGGCCACAAAGTGCTCGCCGGCCTGGGGCTGGATGCGGTGCGCTACGCGGTCTGCGGGGCGGCACCGGTACCGGAGGCGCTGCTCGACTGGTACCGGCGCCTGGGCCTGGACGTGCTCGAGGTCTATGGCATGACCGAGAACGCCGGTTATTCGCATATCTGCCGGCCGGGCAAGCAGAAGCACGGCTGGATCGGCCAGGCCAACCCGGGCGTCGAGGTGCGTATCAGCGAGGAGGGCGAGGTGCTGGTACGCAGCGGCGCGACCATGCAGGGCTACTACAAGGACCCGCAGAAGACCGCCGAGGCCCTCACCGAGGACGGTTTCCTGCGCACCGGCGACAAGGGCGAGGTGGATGCCGAGGGCTATCTGCGCCTGACCGGGCGGATCAAGGAAATCTTCAAGACCAGCAAGGGTAAGTACGTCGCCCCGGCGCCCATCGAAAACCGCCTGGCGGTGCATTCGCGCCTGGAGCAGGTCTGCGTGGTCGGCGACGGCCTGCCGCAGCCCATGGCGCTGTGCGTGCTCTCCGACGTCGGTCGTCAGGAAGCGGCGAACGGCGCGCGCTCAGTGCTGGAACAGAGCCTGCGCGAACTGCTCGAAGAGGTGAACGCCGCCCTGGACAAGCATGAGCGGCTGCTCGGTTTGGTGCTGGTCAAGGATGCCTGGGCCGTGGACAACGGTTTCCTCACTCCGACGCTGAAGATCAAGCGGAACGTGGTGGAGGGGGCCTACGGGCCGCGTATCCCTGAATGGATCGCCCGTGGTGAGGCGATACTCTGGCACGAATGA	MTHAVRLPLELFYEREVRHPNKRYLVQPLAGGRVEELSWSDVGDQARRTAAWLRGLDLPQGSRIAIISKNCAHWIVTDLAIWMAGHVSVPLYPNLTAESVRQVLEHAEAAVAFVGKLDDWPSMAPGVPEGVPTVGMPMRPEGRFDYLWSDLQACAPIQDDPRPAADCLATLIYTSGTTGAPKGVMHTFANFGFAAGHATELFGVGENDRLLSYLPLCHVAERMFVELSSIYAGQTIFFAESLDTFIEDLRRARPTVFFGVPRIWTKFQMGVYSKMPAKRLDFLLRLPLLGPRVGHKVLAGLGLDAVRYAVCGAAPVPEALLDWYRRLGLDVLEVYGMTENAGYSHICRPGKQKHGWIGQANPGVEVRISEEGEVLVRSGATMQGYYKDPQKTAEALTEDGFLRTGDKGEVDAEGYLRLTGRIKEIFKTSKGKYVAPAPIENRLAVHSRLEQVCVVGDGLPQPMALCVLSDVGRQEAANGARSVLEQSLRELLEEVNAALDKHERLLGLVLVKDAWAVDNGFLTPTLKIKRNVVEGAYGPRIPEWIARGEAILWHE	PGPT0008380_10960	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
BMS010_02946	429		COG2050	Putative esterase	ATGAGCCTATGGCGCCAGACACCCGATCTGGAACAGCTCAACGCCACCTTGGCGAACACCATTGGCGAACAACTGGATATCCGTTTCGAAGCCTTCGACGACGAGTCCCTCACCGCCAGCATGCCGGTGGACCGGCGCACCCACCAACCCTATGGCCTGCTGCATGGCGGCGCGTCGGTGGTGCTGGCGGAAACCCTCGGTTCCACCGCCAGTTTCCTGTGCATCGACAGCAGTCGATACCGCTGCGTCGGCCTGGAGGTAAACGCCAACCACCTGCGTGGTCTGCGCAGCGGACGGGTCACTGCGGTGGCCCGCGCGGTGCATCTGGGGCGGACCACCCATGTCTGGGATATCCGCCTGTCCGGAGACGACGGCAAGCCCAGTTGCATCTCGCGCCTGACCATGGCCATCGTGCCGTTGGACAAATAG	MSLWRQTPDLEQLNATLANTIGEQLDIRFEAFDDESLTASMPVDRRTHQPYGLLHGGASVVLAETLGSTASFLCIDSSRYRCVGLEVNANHLRGLRSGRVTAVARAVHLGRTTHVWDIRLSGDDGKPSCISRLTMAIVPLDK	PGPT0001845_709	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0001845-menI|ydiI|ydiL|ydiI|ybdB-K19222	NA	NA
BMS010_02947	831			hypothetical protein	ATGAAACTGGCAGTGGCGATCATTCACGGCATCGGTCCCAAGCTGGACCGGCAGGATGAGGAAGGACAATACGAATACGCCCAGGGCCTGATCCGGGGCATCCGCCGGCAGCTCGGCGAGGAAGCCGGGCAGATCGTCTTCCGCAGCCTGTTCTGGGCCAGCGTGATGGACGAACGCGAGCACGATTTTCTCGACAGCCTGGACAACCAGCCGGTCACCTGGCGCTGGCTGCGCCGGCTGGTGACGCTCTTCCTCGGCGACGCCAGCGGCTACCGCAAGGTCAGCCAGGCCTACGACGACACCTATGAGCAGGTCCACCAGCGTGTGCGCCAGGGCATCTATGCCCTGCGCGCCGAAGTCGGCCCGGACACCCCGCTGGTGGTGCTGGCACATTCGCTCGGCGGGCACATCTTTTCCAACTTCGTCTGGGATCAGCAGAAACTCAACGAGACGTCGAGCCGCCCGGACGACCCGTTTCTCGCCCTGGAAACGCTGGCTGGGCTGGTCACCTTCGGCTGCAACATCCCGCTGTTCACCTTCGCCTACGACAAGGTGGTGCCGATCCGCTTTCCCGGCGACCGCCTGGCCCCGGCCGTGCGCGAACAGGCTCGCTGGCTGAACTATTACGCCCCGGCCGACCCGCTGGGCTATCCGCTGCGCACCCTGCCCAGCTATGCGGCAGTGGTCAACGAAGACCATGCCTGGCCCGCCGGCGCCTGGTACAAGCGACACACACCCCTGAGCCACATGGAATACTGGCGCGATCCGGGATTTCACCGCTATGTGGCGAATTACCTGCGCCAGTTGCTGCCCGCGTGCATCGACGGATGA	MKLAVAIIHGIGPKLDRQDEEGQYEYAQGLIRGIRRQLGEEAGQIVFRSLFWASVMDEREHDFLDSLDNQPVTWRWLRRLVTLFLGDASGYRKVSQAYDDTYEQVHQRVRQGIYALRAEVGPDTPLVVLAHSLGGHIFSNFVWDQQKLNETSSRPDDPFLALETLAGLVTFGCNIPLFTFAYDKVVPIRFPGDRLAPAVREQARWLNYYAPADPLGYPLRTLPSYAAVVNEDHAWPAGAWYKRHTPLSHMEYWRDPGFHRYVANYLRQLLPACIDG				NA	NA	NA	NA	NA
BMS010_02948	1080			hypothetical protein	ATGAGCGCCGTTCAGATCAAATTCCCCGCCCTGACCCTGCGCGCCGGACAACGCGCCGCCGCGCGCATCCGCGAACGCGGCCTGACGCCCGCCGATGTCGGCATCCTTCCCGGCGCGGCCGGCGGACCCAAGGCGCTGGGTATCCAGGGCTTGGACCTGGCACTGTTCGGCGACTGGCTGCCGCGCGCGCCACGGGAACGCTCGCTGATCGGCGCATCGATCGGTTCCTGGCGCTTCGCCAGTGCCTGCCTGGCGGATGCCACGGCCGGCATCCGCCGCCTCGGCGAGTTGTACACCGCGCAACGTTTCGCCAAGGGCGTGACCATGGCCGAGGTCAGCCGCAGCTGCGTACGCATGCTGGATGAGCTGCTCGACGGCCGTGACGCGGACATCCTCGCCAATCCGCACTACCGGCTGAACGTGGTGGTGGTGAAGAGCCACGGCCTGCTCGCCCACGATAGCCGTGGCACGCTCGGCCTGGGGCTGTCCTCGGTGATCGGCAACAACCTGTTGGGCCGCCCGCGCCTGGCCAGGCACTTCGAACGGATCATCCTCCACGACGAACGCCTGCCGCCGCCGCTGGCGCCGCTGAACGACTTCCCCTCGCGCTTCCTCGCCCTGGACACCGGCAACCTGCGCCATGCCCTGCTCGCCTCCGGCTCGATTCCGATGGTCATGGAAGGCGTGCGCGACATCCCCGGCGTCGGCCCCGGCACTTACCGCGACGGGGGCTTGCTCGACTATCACCTGGACCTGCCCTACCGCGGCGACGACATCGTGCTCTACCCGCACTTCACCGACCGGGTCATCCCCGGCTGGTTCGACAAGGGACTGCCCTGGCGCCGTGGCTGTACCACGCGCCTGCAGGATGTACTGCTGGTTTCGCCGTCCCGCGAGTACCTGGCCCGCCTGCCCCACGGCAAGCTGCCGGACCGCAAGGACTTCACCCGCTACCTGGGCGACGATGCCGGACGCGAACGCTACTGGCGCAAGGCGATGGACGAAAGCCAGCGTCTCGGTGACGAGTTCCTCGAACGGGTGGAAAGCGGCCGCCTCGGCGAACGATTGTTGCCGCTCTGA	MSAVQIKFPALTLRAGQRAAARIRERGLTPADVGILPGAAGGPKALGIQGLDLALFGDWLPRAPRERSLIGASIGSWRFASACLADATAGIRRLGELYTAQRFAKGVTMAEVSRSCVRMLDELLDGRDADILANPHYRLNVVVVKSHGLLAHDSRGTLGLGLSSVIGNNLLGRPRLARHFERIILHDERLPPPLAPLNDFPSRFLALDTGNLRHALLASGSIPMVMEGVRDIPGVGPGTYRDGGLLDYHLDLPYRGDDIVLYPHFTDRVIPGWFDKGLPWRRGCTTRLQDVLLVSPSREYLARLPHGKLPDRKDFTRYLGDDAGRERYWRKAMDESQRLGDEFLERVESGRLGERLLPL				NA	NA	NA	NA	NA
BMS010_02949	309			hypothetical protein	ATGAACAAACTGACAGCCCTTTTCGCCACCGCCGCCCTTGCCGCTACCGCGGGTATCGCCCAGGCCCGAGACCTTGGCCCGGACGAGGCGCTGAAGCTGCGCGACGCCGGCACCATCCAGTCCTTCGAGAAACTCAACGCCGCCGCCGTGGCCAAGCACCCCGGTGCCACCGTCGAGGAAACCGAGCTGGAAGAAGAATACGGACGCTATATCTACCAGGTCGAATTGCGTGACGCCCAGGGCGTGAAATGGGACCTGGAACTCGACGCCACCAATGGCCAGATCCTCAAGGATCACCAGGACGATTGA	MNKLTALFATAALAATAGIAQARDLGPDEALKLRDAGTIQSFEKLNAAAVAKHPGATVEETELEEEYGRYIYQVELRDAQGVKWDLELDATNGQILKDHQDD				NA	NA	NA	NA	NA
BMS010_02950	312			hypothetical protein	ATGCATACGACGCTGCACCGGATCGGGGTACTTTTCCTGCTGCTGGGGTTGCTGGGCCGGGATGTCTTGGCCCGTGACCTGGACCAGGACGCGGCCCTGCGCCTACGCCAGGAAGGTGTTATCCAGTCGCTGGAGAGCTTGATCCAGGACGCGCTGGCGCGTTACCCCGGCTCGACCCTCTTGGAAGCCGAGCTGGAAGAGGAAGACGGTGTCTACGTTTATGAAGTGGAGCTGCTGACCCGGGACGGTGTGGTCCGTGAGCTGGAGTTGGATGCCCGCAATGGAGCCATCCTGAAGGATGAGGAAGACTGA	MHTTLHRIGVLFLLLGLLGRDVLARDLDQDAALRLRQEGVIQSLESLIQDALARYPGSTLLEAELEEEDGVYVYEVELLTRDGVVRELELDARNGAILKDEED				NA	NA	NA	NA	NA
BMS010_02951	669	qseB_2		Transcriptional regulatory protein QseB	ATGCGCCTGCTGCTGGTGGAAGACCACGTGCCCCTGGCCGACGAACTGGTCGCCGGCCTTGGTCGCCAGGGCTATGCCGTGGACTGGTTGGCCGATGGCCGCGATGCGGCCTACCAGGGGGCCTGCGAACCCTACGACCTGATCATTCTCGACCTTGGCCTGCCCGGCAAGCCGGGGCTGGAGGTGTTGCGCGAATGGCGTGCCGGCGGGCTGACTACCCCGGTACTGATTCTTACCGCACGCGACTCCTGGGCCGAGCGCATCGAGGGGCTGAAGACCGGTGCCGACGATTACCTGAGCAAGCCGTTCCACCCCGAAGAGCTGAACCTGCGCATCCAGGCGTTGCTGCGCCGGGCCCACGGGTTGGCCAACCAGCCGCAACTGGAGGCCGCCGGCCTGCAACTGGACGAGGCGCGACAGTGCGTCGGACGCAACGGCGAATGGATCGAGCTGACCGCCGCCGAGTTCCGGCTGCTGCGTTATTTCATGCTGCATCCGGGGCAGTTGCTGTCGAAGACGCATTTGGCCGAGCACCTGTATGACGGCGAGAAGGAGCGCGACTCCAACGTCATCGAAGTGCACGTCAATCGCTTGCGCGGCAAGCTCGGTCGCGAAGTGATCGAGACCCGGCGCGGACAGGGCTACCGCTACAACGGTGCCGGCGGGTGA	MRLLLVEDHVPLADELVAGLGRQGYAVDWLADGRDAAYQGACEPYDLIILDLGLPGKPGLEVLREWRAGGLTTPVLILTARDSWAERIEGLKTGADDYLSKPFHPEELNLRIQALLRRAHGLANQPQLEAAGLQLDEARQCVGRNGEWIELTAAEFRLLRYFMLHPGQLLSKTHLAEHLYDGEKERDSNVIEVHVNRLRGKLGREVIETRRGQGYRYNGAGG	PGPT0011060_279	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS|LIPID|IVA_REGULATION,PGPT0011060-phoP-K07660	NA	NA
BMS010_02952	1329	sasA_7		Adaptive-response sensory-kinase SasA	GTGATAGCCCTGCAGCATCGGTTGAGCCTGGGGCTGGTGGCGGTACTGCTGGTCGTCGGGCTGGTCTTTGCCCAAGGCAGCCTCTGGCTGTTCGACCTCGGTCTGCGCCGCTACCTGCAGAATTACCTGCGTGAAGAAGCCGAAGCGCTATTGATCGCCATGGTGCGCGGGCCGCAGGGTCTGCAACTGGACGAACAGCGCATCGGCCCCGGCTACCAGCGGCCGTTGTCCGGGCATTACTTTCGCATCGACTTCGACGACCGGGTCTGGCGCTCCCGCTCGCTCTGGGACCATACGCTGCCACGCCCGGAAGCGGCCGGATTGCAGGAGGGGCTGAGCGACGGGCCGAGCGACCAGCATCTGCTGGTCTACCGGGCGGACTACCGGCGCTTCGGCCGCGAGCTGTCGATCAGCGTGGCGCACGACTACACCCCGGTGCTCGACAGCTTCCGCCGCCTGCGACAACTCATCCTCTGGCTGGGTGCCGGCGCCTTGCTGCTGATCGTTTTGTTGCAGCGCTGGACCGTCCACCGCGCCCTGCGCCCGCTGGAGTCGGCACGCCAGCAGATCGCCCAACTGCAGAGCGGCCAGCGGGGCGAACTGGACCGCGACGTCCCGCCGGAGCTGGAGCCGCTGGTGGCGCAGATCAACCATCTGCTGGCACATACCGAAAGCACGCTCAAGCGTTCGCGCAATGCCCTGGGCAATCTCGGCCATGCGCTCAAGACGCCGCTGGCCGTCCTGCTCAGCCTGGCCAATCGCGAGGAATTGCAGGCCCATCCGGACTTGCAGGCACGGTTGCAGGAGCAACTGGCGCAGATCGAGCAACTGCTGGCCCGGGAACTGGGTCGCGCACGGCTGGCCGGGGAGGCGCTGCCCAAGGCGCGTTTCGATTGCGCGGCGGAACTGCCCGGCCTGTTCAAAACCCTGGCGATTATCCATGACCGCAACCTGGACCTGCGCTGGCAGGCTCCGCCCGGATTGCGCCTGCCGTGGGATCGGGAGGACCTGCTCGAACTGCTCGGCAACCTGCTGGACAACGCCTGCAAATGGGCGCGAGGCCACGTGACACTGGACATCGAACCGGTGGAAACGGGCTATCAGCTGACTATCGATGACGACGGTCCCGGCATTGCCGCCGAAGCGCGCGAGCAGGTGCTCGACCGGGGCTCTCGGCTGGACGAGCAGGTGCCGGGGCATGGCCTGGGGCTGGGCATCGTGCGCGATATCGTCGATGCTTGGGCGGGGAGCCTGGCGCTGGAGGAAAGCCCGTTGGGTGGGCTGCGCGTGCGAATCCTCCTGCCGGCGCGTGGCCCGGACGTACGTTGA	MIALQHRLSLGLVAVLLVVGLVFAQGSLWLFDLGLRRYLQNYLREEAEALLIAMVRGPQGLQLDEQRIGPGYQRPLSGHYFRIDFDDRVWRSRSLWDHTLPRPEAAGLQEGLSDGPSDQHLLVYRADYRRFGRELSISVAHDYTPVLDSFRRLRQLILWLGAGALLLIVLLQRWTVHRALRPLESARQQIAQLQSGQRGELDRDVPPELEPLVAQINHLLAHTESTLKRSRNALGNLGHALKTPLAVLLSLANREELQAHPDLQARLQEQLAQIEQLLARELGRARLAGEALPKARFDCAAELPGLFKTLAIIHDRNLDLRWQAPPGLRLPWDREDLLELLGNLLDNACKWARGHVTLDIEPVETGYQLTIDDDGPGIAAEAREQVLDRGSRLDEQVPGHGLGLGIVRDIVDAWAGSLALEESPLGGLRVRILLPARGPDVR				NA	NA	NA	NA	NA
BMS010_02953	597			hypothetical protein	ATGCTCAACATCGCCCTCATCGCCGGCTCCAGCCGCAACAACAGCCAATCCGGCAAGGTCGCGCGCTTCCTGCACCAGCGCCTGATCCAGCTCGAAACCACCACCGAGGAAACCAGCTCCGTCATCGATCTCGGCCTTGCCCCGCTGCCGCTGTGGCCGGGTGAAGACAGCGGCCCCTGGGACCTGTACGCCGCGCAACTGAAGGCCGCCGATGCGGTGGTAGTGGTGGCGCCGGAGTGGAACGGCATGGCCTGCCCGGCGATCAAGAACTTCTTCGTCTACGCCAGCAAGGCCGAACTGGCCCACAAGCCCGGCCTGCTGGTGGCGGTCTCCGCCGGCATCGGCGGCGCCTCGCCGATCAGCGAGCTGCGTGCCTCCAGCTACAAGAACTGCCGGCTGTGCTACCTGCCGGAGCACCTGATCGTGCGCCAGGTGGAAAAGGTGCTGAACACGCCGGAACCGGCCAGCGAAGACGAGCAGCGCCTGCGCGGGCGGATCGACTATGCGCTGGATATCCTGGCGAAGTACGGGGAAGCGCTGAAACCGGTGCGTGCGGCCATCGATATAAGTAATCCGGCGTTCACCAACGGCATGTAA	MLNIALIAGSSRNNSQSGKVARFLHQRLIQLETTTEETSSVIDLGLAPLPLWPGEDSGPWDLYAAQLKAADAVVVVAPEWNGMACPAIKNFFVYASKAELAHKPGLLVAVSAGIGGASPISELRASSYKNCRLCYLPEHLIVRQVEKVLNTPEPASEDEQRLRGRIDYALDILAKYGEALKPVRAAIDISNPAFTNGM	PGPT0004195_261	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0004195-chrR-K19784	NA	NA
BMS010_02954	1320			hypothetical protein	ATGAATGCTGTGATCGCAGCGGTCGGCATCATGCTGATCCTCAGTCTGTGCCGTGTGCACGTGGTAGTGGCCCTGATCGTCGGCGCGCTGGCCGGCGGCCTGATCGGTGGCCTGGGCGTGGAGGGCACGCTGAGTGCCTTCAACCAGGGCCTCGGTGGCGGCGCCACGGTGGCGCTGTCGTATGCCTTGCTCGGTGCGTTCGCGGTCGCAATCGCCAAGTCCGGCCTGGCCCATGCCCTGGCCGATAAGGTGCTGGCGTTGGTCGGTCGCCAGGATGCACAGGGTGGCGGGGCGGTGAAGTGGGTGCTGATCGTGCTGCTGCTGGCGGTCTCGGTGTCCTCGCAGAACATCCTGCCGATCCACATCGCCTTCATCCCGCTGCTGGTGCCGCCGCTGCTGTACGTGCTGACCAAGCTGTCGCTGGACCGCCGCCTGATCGCCTGCGTCATCACCTTCGGCCTGATCACGCCCTACATGTTCCTGCCGGTGGGCTTCGGCGGCATCTTCCTCAACGAAATCCTGCTGGCCAACGTGACCAAGGCCGGGGTGGACGTCAGCGGCGTGAGCGTTACCCAGGCCATGGCGATCCCGGCCCTGGGCATGCTCTTCGGCCTGCTGGTGGCGGTGCTGTTCAGCTACCGCAAGAAGCGCGTCTACGACCTCGCCCGGATCGAGCAGGTCGAGCGTGCCGACGTGCAGTACAACCCGCTGAGCCTGCTGATGGCCGGCGTCGCCATCGCCGCCGCGTTCGCCGTGCAGCTGTGGCTGGATTCGATGATCATCGGTGCGCTGGTGGGCTTCGTGATCTTCTCGGTGTCCGGCGTGGTGCGCTGGCGGGAGGCCGACGACCTGTTCACCGAAGGCATGAAGATGATGGCCATGATCGGCTTCATCATGATCGCCGCCGCTGGCTTCGCCGAAGTGATGAAGGCCACCGGCGAGGTGAAGACCCTGGTGGATGCCTCGGCCGCCTGGATCGGCCACAGCAAGGCGGTCGGCGCGCTGCTGATGCTGCTGGTCGGCCTGCTGGTGACCATGGGTATCGGTTCGTCCTTCTCCACGGTGCCGATCATCGCCGCCATCTTCGTGCCGCTGGGCATGCAGCTCGGCTTCAGCCCGCTGGCGATCGTTTCCATCGTCGGCACTGCCGGCGCCCTGGGCGATGCCGGCTCGCCGGCTTCCGACTCGACCCTGGGCCCGACCTCCGGCCTCAACGTCGATGGCCAGCACAACCACATCTGGGACACCGTGGTGCCCACCTTCCTGCACTACAACCTGCCGCTGCTGGTGTTCGGCTGGGCGGCGGCGATGCTGCTGTAA	MNAVIAAVGIMLILSLCRVHVVVALIVGALAGGLIGGLGVEGTLSAFNQGLGGGATVALSYALLGAFAVAIAKSGLAHALADKVLALVGRQDAQGGGAVKWVLIVLLLAVSVSSQNILPIHIAFIPLLVPPLLYVLTKLSLDRRLIACVITFGLITPYMFLPVGFGGIFLNEILLANVTKAGVDVSGVSVTQAMAIPALGMLFGLLVAVLFSYRKKRVYDLARIEQVERADVQYNPLSLLMAGVAIAAAFAVQLWLDSMIIGALVGFVIFSVSGVVRWREADDLFTEGMKMMAMIGFIMIAAAGFAEVMKATGEVKTLVDASAAWIGHSKAVGALLMLLVGLLVTMGIGSSFSTVPIIAAIFVPLGMQLGFSPLAIVSIVGTAGALGDAGSPASDSTLGPTSGLNVDGQHNHIWDTVVPTFLHYNLPLLVFGWAAAMLL	PGPT0020805_605	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0020805-yuiF-K07084	NA	NA
BMS010_02955	1683	mcpP_1	COG0840	Methyl-accepting chemotaxis protein McpP	ATGCGTCTGACGCTTAAATCGAAAGTTCTGTTGCTGGCCCTGGTACCGGTGCTGCTGTTCGCTCTGGTGCTCAGTGGCGCCACGGCGAAGGTACTGCTCGGTCTGGCGCAAGAAGAGCTGGAGGAAACCCGCGAACGCCTGATGCAGGAAAGCCGTGAAGAGTTGGAGCACTACGTGCAGATCGCCCTCGGCTCCGTGCAGGGCATGTACGACGCCGCCGCGTCTGGCGACATGGCCAGCCGCGAGGCAGCCATCGCCGTACTGTCGAAGATCAAGTACGGCAAGGATTCCTATATCTTCGGCTACGACTCGGAGATCGTCCGGCTGTTCCGTGGCGACAGCCCGGTGGACGTCGGCAAGAGCTTCAAGGGGCGCCGTGACGCCAACGGCGTGCTGCTGAACGAGGAACTGGTAAATGTCGCCAAGAACGGCACGCATTTCGTCCAGTACTCCTCGCCGCTGCCGGGCAACGAGAGCGTGCAGGTACCCAAGCTGGCCTACACCTATTACCTGCCGAAATGGGACATGGTGATCGGTACCGCCGTCAACCTGGACGGCATCGAAGCCCAGGTGGCCGAGGTGGAGAAGGCCATCGACGACCGCATCAGCACCGTGGTCAGCAGCATCGTGGTCATCGCCGTGATCCTACTGGTCTTGTTGGGTATCGCCGGTCTCGCGCTGAGCAACTCCATCCTGCGTCCGCTGCAGCAGATCAAGGACAACCTGGACGACATCGCTGCCGGTGACGGCGACCTGACTCACCGTCTGCCGGTGAACAGCCATGATGAACTGGGTGAACTGGCCGGTTCGTTCAACCGTTTCGTCGAGAAGATTCATGGCCTGGTGCGCCAGATCGTCGAGATGACTGGCCAACTGACCAGCCTGGTCGGCGAGGTGTCAGCCCAGGCGCAGCGCTCGGAGCAGGCCATGGAGCGCCAGCGCCATGAGACCGACCAAGTGGCGACCGCGATCAACGAAATGTCCGCCGCCGCCAACGAAGTGGCCCGCAGCGCGCAGAACGCCGCTGAAGCGGCTCGCCAGACCGACCAGGAAGGCCAGGCCGCGAAGAAGGTGGTGGACGGCAGTATCCAGCGCATCCATGCCCTGGTGGACGATATCCGCAAGAGCGGCGTGTCCCTGGACAGCCTGCAGCAGGACGTGCAATCCATCGTCAGCGTGCTCGGTGTGATCCGTTCCATCGCCGAACAGACCAACCTGCTGGCGCTCAACGCGGCCATCGAAGCGGCGCGTGCCGGCGAGGCCGGGCGCGGCTTCGCGGTGGTTGCCGACGAGGTTCGCGCGCTGGCCAGCCGCACCCAGCAGAGCACCCAGGAAATCCAAGGCATGATCGACCGCCTGCAGCAGGGTACCCAGGAAGCGGTGACCGCGATGCGCCGCTCCAGCGAGGCCGGCGACACCACCAGCGAGCAGGCCAACCAGGCCGGTTCGTCGCTGGATGCCATCGCCCAGTTGATCGGCACCATCAACGCCATGAACGCGCAGATCGCCAGCGCCGCCGAAGAGCAGACCGCGGTGGCCGAGGAGATCAATCGCAGCGTGCACCAGATCGCCGTGGCGGTGGACAGCGTGGCCGACGAAACCCAGCAGGGCGCCCAGACCGCCCGCAGCCTGGCCGGCCTCGGCGAACGCCTGGGTGCGCTGGTGAAGCAGTTCCGTATCTAA	MRLTLKSKVLLLALVPVLLFALVLSGATAKVLLGLAQEELEETRERLMQESREELEHYVQIALGSVQGMYDAAASGDMASREAAIAVLSKIKYGKDSYIFGYDSEIVRLFRGDSPVDVGKSFKGRRDANGVLLNEELVNVAKNGTHFVQYSSPLPGNESVQVPKLAYTYYLPKWDMVIGTAVNLDGIEAQVAEVEKAIDDRISTVVSSIVVIAVILLVLLGIAGLALSNSILRPLQQIKDNLDDIAAGDGDLTHRLPVNSHDELGELAGSFNRFVEKIHGLVRQIVEMTGQLTSLVGEVSAQAQRSEQAMERQRHETDQVATAINEMSAAANEVARSAQNAAEAARQTDQEGQAAKKVVDGSIQRIHALVDDIRKSGVSLDSLQQDVQSIVSVLGVIRSIAEQTNLLALNAAIEAARAGEAGRGFAVVADEVRALASRTQQSTQEIQGMIDRLQQGTQEAVTAMRRSSEAGDTTSEQANQAGSSLDAIAQLIGTINAMNAQIASAAEEQTAVAEEINRSVHQIAVAVDSVADETQQGAQTARSLAGLGERLGALVKQFRI	PGPT0015710_17665	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_02956	357	queD_1	COG0720	6-carboxy-5,6,7,8-tetrahydropterin synthase	TTGGAACTGTTCAAAGAATTCATCTTCGAAGCCGCCCACCGCCTCCCCCACGTACCGGAAGGACACAAATGCGGGCGCCTGCATGGTCACTCGTTCCGCGTGGCGATCTACATCGAAGGCCAAGTGGACCCGTACACCGGATGGATCCGTGACTTTTCCGAGATCAAGCAGATCTTCAAGCCGCTCTACGAGCAGCTCGATCACAACTACCTGAACGACATCCCCGGCCTGGAGAACCCCACCAGCGAAGTGCTGGCGAAATGGATCTGGCAGAAACTGAAGCCGCTCCTGCCCGAACTGTCGCGCGTGCGCATCCACGAGACCTGCACCAGCGGCTGCGAATATCGCGGCGATTGA	MELFKEFIFEAAHRLPHVPEGHKCGRLHGHSFRVAIYIEGQVDPYTGWIRDFSEIKQIFKPLYEQLDHNYLNDIPGLENPTSEVLAKWIWQKLKPLLPELSRVRIHETCTSGCEYRGD	PGPT0007880_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007880-folE2-K09007	NA	NA
BMS010_02957	810			hypothetical protein	ATGGTCCAGACCGTTTTTTTCGCCCATGCAAATGGCTTTCCTTCCGCCACCTACGGCAAGCTGTTCACGGCCCTGGAGCCGGATTACCGGGTGCTGCATCTGGCGCAGCACGCCCATGACCCGCGCTTTCCCGTAAACGACAACTGGGAAAGCCTGGTCGAAGAACTGCTCCATCATCTCGGTGAATTGGATGAGCCGATCTGGGGTGTGGGACATTCGCTCGGCGGCGTGCTGCATTACCACGCGGCGCTGCGGCGGCCCGAGCTTTACCGGGGAGTGGTGATGCTGGATTCGCCGGTCCTGACCCTGGCCGATCGCGTGCTGATCCGCGCGGCGAAACGCTTCGGCCTTATCGATCGCATTACGCCGGCGGGACGGACGCTGGGGCGGCGCGAGCACTTCGGCGGCATCGAAGAGGCGCGCCGATACTTTGCCGGCAAGACCCTGTTCCGACGCTTCGATCCGGATTGCCTGGATGCCTACGTGCGGCATGGCTTGCAGGAAGCCGGAGATGGGCTGCGCCTGCGATTCGACCCGGCGACCGAGATCAGCATCTACCGCAGCGTCCCGCATACCAGCCCTGGCCGCCCCCAGCAGCTCAAGGTGCCGCTGGCGGTCGTGCGCGGGCGCCACAGCCGGGTCGTCCTGCCGCACCATGCACGGCTGGTGCGGCGTGTGCCGCAGGGGCTTTACCTGACGTTGCCGGGTGGGCATATGTTTCCGCTGGAGCGTCCCCAGGAGACCGCCGAGTTGCTGAGGCGCGTACTGACCCGCTGGGGCGGCTCGACAGAAAGCGAGGAGAGCGCATGA	MVQTVFFAHANGFPSATYGKLFTALEPDYRVLHLAQHAHDPRFPVNDNWESLVEELLHHLGELDEPIWGVGHSLGGVLHYHAALRRPELYRGVVMLDSPVLTLADRVLIRAAKRFGLIDRITPAGRTLGRREHFGGIEEARRYFAGKTLFRRFDPDCLDAYVRHGLQEAGDGLRLRFDPATEISIYRSVPHTSPGRPQQLKVPLAVVRGRHSRVVLPHHARLVRRVPQGLYLTLPGGHMFPLERPQETAELLRRVLTRWGGSTESEESA				NA	NA	NA	NA	NA
BMS010_02958	864	menH_1		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGAGCAACCTGTTCGAAGAGGTCCGCCTGAACCTGCCGCATATCGAACTGGCGGCCCACCTGTTCGGCCCGGAAGACGGGCTGCCGGTGATCGCGTTACATGGCTGGCTGGACAATTCCATGAGCTTCGCCCGCCTGGCGCCGAAGCTGACAGGCGTACGCATCGTCGCCCTGGATCTTGCCGGCCACGGGCATTCCGGGCATCGCCCGGCCGGCGGGGGATATGCGCTCTGGGATTATGCCTACGACATCTTGCAGGTCGCGGAGCAGTTCGGCTGGCAGCGTTTCTCGCTGCTCGGGCATTCGATGGGGGCCATCGTTTCCGTGCTGCTCGCCGGCGCCCTGCCGGAGCGTGTGGAACGCCTCGCGCTGATCGACGGATTGGTGCCGTTCACCGGCGAGGCGGAAACCGCCCCGGAGAAGCTGGGCGAGGCACTACGGGCGAAGCTCGCGCTGGGCAGCAAGCGCAAGCCCGTCTACGAGACGGTGGAGCGTGCCGTCGAGGCGCGCATGAAAGGTGTCGGCGCGGTCAGCCGGGAGGCGGCCGAGCTGCTGGCGCAACGCGGACTGATGCCCGTGCCGGGCGGTTACACCTGGCGTACCGATCCGCGCCTGACGCTTCCATCGCCGCTACGCCTGACCCAGGCCCATGCCCTGGCGTTTTTGCGTCGCCTGAGTTGCCCGGTCAGCCTGGTCCTGGCGGAGCAGGGCATGCTGGCGCATCAGGCGGCGGTGGTGAAGATGCTCAGCGAATTCTCCTTCGACGTGACCCCTCTGGCCGGCGGGCATCACCTGCACCTGGACGATGAAAAAGGCGCGGATGCCGTAGCAGACTGTTTCAATCGCTTCTTTACTGTGGCTTGA	MSNLFEEVRLNLPHIELAAHLFGPEDGLPVIALHGWLDNSMSFARLAPKLTGVRIVALDLAGHGHSGHRPAGGGYALWDYAYDILQVAEQFGWQRFSLLGHSMGAIVSVLLAGALPERVERLALIDGLVPFTGEAETAPEKLGEALRAKLALGSKRKPVYETVERAVEARMKGVGAVSREAAELLAQRGLMPVPGGYTWRTDPRLTLPSPLRLTQAHALAFLRRLSCPVSLVLAEQGMLAHQAAVVKMLSEFSFDVTPLAGGHHLHLDDEKGADAVADCFNRFFTVA				NA	NA	NA	NA	NA
BMS010_02959	663	yfcG_1	COG0625	Disulfide-bond oxidoreductase YfcG	ATGATCGACCTGTATACCGCCGCCACACCGAACGGACACAAAGTCTCCATCGCGCTCGAAGAGCTGGGGTTGCCCTACTGCGTGCATGCGCTGAGTTTCGACCGAAAGGAACAGAAGGCGCCCGACTACCTGAAGATCAATCCGAACGGACGGATTCCGGCAATCGTCGATCGCGAGAACGATGATTTCGCCGTTTTCGAATCCGGGGCCATCCTCATCTATCTGGCCGAAAAGACCGGGCGCCTGATGCCGCAGGATGTCAAAGGCCGCTCCCGTGTCATCCAGTGGCTGATGTTCCAGATGGGCGGCGTAGGGCCGATGCAGGGGCAGGCGAATGTCTTCTACCGCTACTTCCCGGAGAAATTGCCGGGCGCCATCGACCGTTACCAGCATGAGACCCGCCGCCTATACGAGGTGCTGGACCGGCGCCTGGGCGAATCGGAATACCTCGCCGGCGATTACAGCATCGCCGATATTGCCACCTTCCCCTGGGTTCGCATTCATGACTGGTCCGGGGTATCGGTGGACGGACTGGCGAATCTTCAGCGCTGGATATCCGCGTTGGAGGCCCGGCAGGCCGTGCAACGGGGATTGGAAATTCCCAAGCGGGAGACCGATGCCGACAAGACCGTGAACACCGCTCAATCCATGCTGACACTTTGA	MIDLYTAATPNGHKVSIALEELGLPYCVHALSFDRKEQKAPDYLKINPNGRIPAIVDRENDDFAVFESGAILIYLAEKTGRLMPQDVKGRSRVIQWLMFQMGGVGPMQGQANVFYRYFPEKLPGAIDRYQHETRRLYEVLDRRLGESEYLAGDYSIADIATFPWVRIHDWSGVSVDGLANLQRWISALEARQAVQRGLEIPKRETDADKTVNTAQSMLTL	PGPT0013045_2617	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013045-yghU|yfcG-K11209	NA	NA
BMS010_02960	807			hypothetical protein	ATGCGCCTGATCATTCTGTTGAGCTTGTGTCTCGCGGGACCTTCGCTGTTCGCGGCCGATCTGCCGGGCAGCCGCGATCTCGAGATTCTTCCACGCTTCCCGCGATCGGAGATTACCGACTTCCGTTCCGAGCCCACGCTGGAGCGTCTCTATCCGCAAGGTTCCATCCGCCGTATCAGCGGCCAGTTGCGCTATGAGCGTGAGGTGCTGGCGGAGGGAGCCTTCACCGCGGTGACTTACCGGCTGTCCAGCGAGCATTCCAGTGCGGAAGCCTTCGAGGCGGCGCGTCGGGCGCTGATGGAGAAGGGCGCCGAGCTGCTCTACTGGTGCCAGGGCCGCGACTGCGGGTCCAGCAGCCTCTGGGCCAACTCGGTGTTCGGCAAGGCGACCCTGTACGGCCCCGACGATCAGCAGGCCTACGCCTTGCTGCGGCTGGCGGAGCCGAACCCGGAGAGTCTGCTGGCACTCTACGCGATCACTCGCGGCAACCGGCGCGCCTATCTGCATGTCGAGCAGTTGGATTCCGCCGCTCCGCTGGGAACGCTGTTGCCGGCGCCGGCCACCTTGCTCCGTCAATTGAAGAGCACCGGCGAGCTGAAGCTGCTGCGATTGAGCGGCGAGCCGGAGCAGCCCTGGGTCGAAGTGCTGGCGCGCAGCCTCAACCTGGATACGACCCTCCGGGTCAGCCTCGACGGGCCGAATGCCGACGCCTGGCGTGAAGCGCTGGTGGCTCAGGGCGTCAGAGCGGCCCGGCTGGAGCTGGGCGAAGGCGATGAAAAGGGCCTGCACCTGAGCGTGCTGCGTTGA	MRLIILLSLCLAGPSLFAADLPGSRDLEILPRFPRSEITDFRSEPTLERLYPQGSIRRISGQLRYEREVLAEGAFTAVTYRLSSEHSSAEAFEAARRALMEKGAELLYWCQGRDCGSSSLWANSVFGKATLYGPDDQQAYALLRLAEPNPESLLALYAITRGNRRAYLHVEQLDSAAPLGTLLPAPATLLRQLKSTGELKLLRLSGEPEQPWVEVLARSLNLDTTLRVSLDGPNADAWREALVAQGVRAARLELGEGDEKGLHLSVLR	PGPT0013045_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013045-yghU|yfcG-K11209	NA	NA
BMS010_02961	1086	ydiK	COG0628	Putative transport protein YdiK	ATGTTGAACAATGACCGTCTGCTGGTGCAGATCCTGCTGCTGGCATTACTCGGCGCGTGCCTCTGGGTGCTGGCACCGTTCTGGTCCGCACTGTTCTGGGCGGCGGTGCTGGCGTTTGCCAGCTGGCCCCTGATGCGTCTGCTGACGCATTGGCTGAAGGGCCGGGAAGCCGCGGCCGCCGCGATCCTGACCGCCGGATGGATGGTGCTGGTCGCCGTGCCGCTGGTCATGCTGGGCTTCAACCTGGCCGACCATATCCGCGACGCCACCGTGCTGGTCAAAAGCCTGCAAGTGGAGGGCTTGCCTCCGCCGCCTGCCTGGCTGGGCGATCTGCCGCTGGTGGGAGATCGGCTGGTGGCGTTCTGGTTGACCATCGATCAGCAGGGCGCGGCGTTCTTCGCCACGTTGCGGCCCTACGTCGGGCAGGTCGGCAACTGGCTGCTGGCGCGCAGCGCCCAGGTGGGCGGCGGCATGCTGGAACTGGCCCTGAGCCTGGTGCTGGTGTTCTTCTTCTACCGCGACGGCCCGCGCCTGGCCGCCTTCGTACACCGTGTGCTGGAGCGGCTGATCGGCAACCGCGCCGACCACTACCTCGAACTGGTCGCCGGGACCGTGCAGCGGGTCGTCAACGGTGTGATCGGTACGGCGGCAGCCCAGGCGGTGCTGGCGCTGATAGGGTTCTGGATCGCCGGTGTGCCGGGCGCCATCGTGCTGGGCATCCTGACCTTCGTGCTCAGCCTGATCCCCATGGGGCCGCCGCTGGTGTGGATACCGGCCACGGCCTGGCTGGCCTGGAAGGGCGACTACGGCTTCGCCGTGTTCCTGGGCATCTGGGGAATGTTCGTGGTCAGCGGGGTCGACAACGTTCTCAAGCCCTATTTGATCAGCCGGGGCGGGAACCTGCCGCTGGTCGTCGTGTTGTTGGGGGTGTTCGGCGGCATCCTGGCCTTCGGCTTCATGGGGCTTTTCCTCGGCCCGACGCTGCTGGCGGTCGCCTACAGCCTGCTTGGCGACTGGGTGGGCAATGGCAATGGAGACGCGCTCGAACCTGTCGAGCCGCTGGAAAAAACCGGCCACCAGAGGTAG	MLNNDRLLVQILLLALLGACLWVLAPFWSALFWAAVLAFASWPLMRLLTHWLKGREAAAAAILTAGWMVLVAVPLVMLGFNLADHIRDATVLVKSLQVEGLPPPPAWLGDLPLVGDRLVAFWLTIDQQGAAFFATLRPYVGQVGNWLLARSAQVGGGMLELALSLVLVFFFYRDGPRLAAFVHRVLERLIGNRADHYLELVAGTVQRVVNGVIGTAAAQAVLALIGFWIAGVPGAIVLGILTFVLSLIPMGPPLVWIPATAWLAWKGDYGFAVFLGIWGMFVVSGVDNVLKPYLISRGGNLPLVVVLLGVFGGILAFGFMGLFLGPTLLAVAYSLLGDWVGNGNGDALEPVEPLEKTGHQR				NA	NA	NA	NA	NA
BMS010_02962	699			hypothetical protein	ATGATCAGTGGTGTCAGCAGCGCCTATTCGGGGTACAGCTGTACCTCGAATTTCGCCAGCAAAACGCGCCCGCCCGCCGGCGACGCGCCTGATCCGGCGAAATTTCAGGCGGAGCTGTTCAGCAAGCTGGACAGCAACAGCGACGGCGGGATCGGCAAGGACGAACTGACTGCCGCGGTGAGCGCCGCCCAGGAAAGCGACAGCAGCCTTGAGATCGATATCGACGAGCTGTTTTCCCAACTCGACGGCGACGGCGACGGCAGTATCAGCGAGGAGGAAAGCGCCGCCCTGGCACCGCCTCCGCCGCCACCGCATGGCGGGCCCAACCCGGAAGAGCTGTTCGCTCAACTGGACAGCGATAGCGACGGCAGCGTCAGCCTCGATGAACTGACCAGCGCCATCGAATCGGCCCAGGGAACCAGCGGCACCGACCTCAGCGAACTGTTCGCCGCCCTGGACACCGATGAGGACGGCAGCCTGAGCCTGGAAGAAAGCGCCGCACTGGCTCCGCCCCCTCCGCCGCCGCCCGGAGAGTTTTCCAACAGCCAGGGCACCTATGCCGAGGCCGATACGTCATCCACCCAAAGCAGCAGCGATGAGGCTTACGGCAACCTCGTGGCCAACCTGCTCAAGCATTACCAGGCCGGCGCCGCCAGCTACAGCTCCCGACTCGGTAGCCAACTCAACCTTTCGGCCTGA	MISGVSSAYSGYSCTSNFASKTRPPAGDAPDPAKFQAELFSKLDSNSDGGIGKDELTAAVSAAQESDSSLEIDIDELFSQLDGDGDGSISEEESAALAPPPPPPHGGPNPEELFAQLDSDSDGSVSLDELTSAIESAQGTSGTDLSELFAALDTDEDGSLSLEESAALAPPPPPPPGEFSNSQGTYAEADTSSTQSSSDEAYGNLVANLLKHYQAGAASYSSRLGSQLNLSA				NA	NA	NA	NA	NA
BMS010_02963	1065	envZ_2		Osmolarity sensor protein EnvZ	ATGATGCGCAGTGCCGACACGCTGTTCGCCCGGCTGTTCGGCATCTTCCTGCTGGCCATCGTTCTCGCCCACCTGCTGGCATTCGCCTGGTTCGCTCAGGGCAGCCCGCCCTCCGAACGCCAGAATCCTCCTCCACCCCGGACCGCTCTCGGCGACCCGGGTGGGCCACCACCGGGGCCTCGTCCCCCTGACGACCGGCCTCCACCCAAGCCCGGCGTATTCGGCGGGCCCTGGATTCCCTTCGCCTCCCAGTCGCTGGCGCTGGTAATCGCCGCCTGGATCGGCGCACGCCTGCTGACCCGGCCGATCCGGCGCCTGTCCCGGGCGGCCGAGCGACTGAGCGAAAACCTCGACAGCCTGCCGATGAACGAAACCGGGCCGGCGGAAGTCCGCCAGGCGGCGCACAGCTTCAACCGCATGCAGGCGCGTATCCGCGAGCAGGTCGAGCAGCGTAGCCGCATGCTGACGGCGGTCTCGCACGACCTGCGCACACCACTGGCGCGCATGAAGCTGCGGGTCGAGCAGGTCGAGAACGAAGCGCTGCGAGACCGTCTGGCCCAGGACCTGGGCGAAATGAACCAGATGCTCGAGGCCACGCTTTCCTATCTGCGCGAACAGCGCAGCCAGGAGGAAGCCCAGTTGTTCGACCTGCAGGCCCTGGCCGAGTCGCTGGCGGAAAACGCCCAGGATCAAGGGGCCGATGTCCAGGTCGAAGGGCATTGCCGGCCGGTGCGCGTCCCGCCGATGGCGCTGCGCTCCTGCCTCGGCAACCTGCTGGAAAATGCCCTGCGCTACGCCGGACACGCACACATCCAGTTGCTGGATGGCGAGCAAGAGATCGAGGTGCGTGTCATCGACCGGGGGCCGGGCATACCGGCGGACAAGCGCGAGGCCGTCTTCGAGCCATTCTTTCGCCTGGAAAGCTCACGCAACCGGAACTCGGGGGGCGTCGGCCTCGGCCTGAGCATTGCCCTGGAAGCCTCGAAGCGCCTGGGTGGCAGCCTCGCGCTGGAAGAAACCCCGGGCGGCGGCCTGACCGCCATCCTCCGCCTGCCGCGCGCGTAA	MMRSADTLFARLFGIFLLAIVLAHLLAFAWFAQGSPPSERQNPPPPRTALGDPGGPPPGPRPPDDRPPPKPGVFGGPWIPFASQSLALVIAAWIGARLLTRPIRRLSRAAERLSENLDSLPMNETGPAEVRQAAHSFNRMQARIREQVEQRSRMLTAVSHDLRTPLARMKLRVEQVENEALRDRLAQDLGEMNQMLEATLSYLREQRSQEEAQLFDLQALAESLAENAQDQGADVQVEGHCRPVRVPPMALRSCLGNLLENALRYAGHAHIQLLDGEQEIEVRVIDRGPGIPADKREAVFEPFFRLESSRNRNSGGVGLGLSIALEASKRLGGSLALEETPGGGLTAILRLPRA	PGPT0004100_5298	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-CUS_TRANSPORT_SYSTEM,PGPT0004100-cusS|copS|silS-K02484	NA	NA
BMS010_02964	840	ompR_2		Transcriptional regulatory protein OmpR	ATGTCCGGCGACGAACCCGGTGCCCGCCGGCACCGTTTTCCAGCAGCCAGCCCATGGCAGGACTTCATGCAGTACAAACCCCAGAGCCCTGGCGATATGCCAACCGACCCGATCACCGACAGCCGCCGCTGGAGCGTCCGCGCCTTGCTCGTCGATGATGACCAGCCGATCCGCGAACTCCTCTGCGACTACCTGGGACGCTTCAACATCCTTGCCCATGGCGTCAGCAACGGCGACGGCATGCGCCAGGCCCTGGCCAACGAGCGCTTCGACGTGGTGGTGCTGGACCTGATGCTGCCCGGCGAGGACGGCCTTTCGCTGTGTCGCTGGCTGCGGGCCGAATCGGACATCCCGATCCTCATGCTCACCGCCCGCTGCGAACCCACGGACCGCATCATCGGCCTGGAACTGGGCGCCGACGACTACATGGCCAAGCCGTTCGAACCCCGCGAACTGGTGGCGCGCATCCAGACGATCCTGCGCCGGGTCCGCGACGAGCGCACGCCGGCCCAGCCGGAGCCGCGCAACAGCCTGCGCTTCGATGGCTGGCGGCTGGACGGTGTGCTGCGCCAGTTGCAGTCCGCCGAGGGGTTGGTGGTGCCGCTGTCGAATGCCGAGTTCCGCCTGCTCTGGGTTTTTCTCGAACGGCCACGCCGCGTCCTCAGCCGCGAACAACTGCTCGACGCCGCCCGTGGGCGGGCCATCGAAGCCTTCGACCGCAGCATCGACCTGCTGGTCTCGCGCCTGCGGCAGAAGCTGGGCGACGACCCGCGCGCTCCCCGGCTGATCAAGACGGTACGTGGCGAGGGCTACCTGTTCGATGCCCGAGACATCGAATGA	MSGDEPGARRHRFPAASPWQDFMQYKPQSPGDMPTDPITDSRRWSVRALLVDDDQPIRELLCDYLGRFNILAHGVSNGDGMRQALANERFDVVVLDLMLPGEDGLSLCRWLRAESDIPILMLTARCEPTDRIIGLELGADDYMAKPFEPRELVARIQTILRRVRDERTPAQPEPRNSLRFDGWRLDGVLRQLQSAEGLVVPLSNAEFRLLWVFLERPRRVLSREQLLDAARGRAIEAFDRSIDLLVSRLRQKLGDDPRAPRLIKTVRGEGYLFDARDIE	PGPT0012985_983	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OSMOLARITY_SIGNALLING,PGPT0012985-ompR-K07659	NA	NA
BMS010_02965	90			hypothetical protein	ATGACCGTTCTCGATGGAATCTCACTGACACTCGCCGTGGCGCTGTTCGCGTTCCTGCTGGTCGCGCTGTTGCGCACCGGCCGGAGCTAG	MTVLDGISLTLAVALFAFLLVALLRTGRS				NA	NA	NA	NA	NA
BMS010_02966	1707	kdpA_2	COG2060	Potassium-transporting ATPase potassium-binding subunit	ATGGCGATGCATGATGTACTGCTCATCGGCGCGTTCTTCGTTCTGGTGCTGGCACCGGCACCCTGGCTGGGACGCTTCATTCACCGGGCGATGGAGGGGCAGAGCACCTGGCTCAGCCCGCTGCTGTCGCCGCTCGAACGCTTCTGCTACCGGACTGCGGGCGTCGATCCGGCCATCGAGCAGGACTGGCGGCGCTATGCGCTGTCGCTGCTGGCGTTCAACGGCGCCTGCCTGGTCCTGTTGGTCGCGGTCCTGATGCTGCAAGGCGCGCTGCCGCTCAATCCGCAGAAGGTGGCCGGGATGGACTGGCCGCTGGCGTTGAACACCGCGGTCAGTTTCGTCACCAACACCAACTGGCAGGCCTACAGCGGCGAAGCGCAGTTGTCCTATTTCAGCCAGATGATCGGCCTCGGCGTGCAGAACTTCGTCAGCGCCGCCACCGGCCTCGCCGTGCTGGTGGCGCTGTGCCGGGGCATCGCCCGGCGTTCGGCCGCGACCCTGGGCAATTTCTGGGTCGATCTCACCCGTGCCACGCTCTATGTGCTGCTGCCTCTGGCGATCCCGCTGGCGCTGCTACTGGTCTGGCAGGGTGTGCCGCAAAGTTTTGCCCACGCCATTACGGCCACTACCTGGCAAGGTGCGGAGCAGAGCCTGCCCCTGGGGCCGGCCGCCAGCCAGATTGCGATCAAGCAGTTGGGCACCAACGGCGGCGGCTTCTTTGGCGTCAACTCCGCCCATCCGTTCGAAAACCCCACGGCGTTCAGCAATCTGTTGGAGGTGGCGGCGATTCTCCTGATTCCGGCCGCCCTGGTGTTCAGCTATGGCCACTACGTCAAGGACCCGCGCCAGAGCCGCGCCATTCTCGCCTGCATGCTGCTGCTGTTCTGCATCGGGCTGGGCGTCGCGGTCTGGGCCGAGTGGCAGCCGAATCCGGCCTGGGCCGGGTTGCCGGTCGAGCAGGCGGGCTCCCTGGAGGGCAAGGAAAGCCGTTTCGGCATCACCGCCTCGGCACTCTGGGCGACCGCCACCAGCGCGGCCTCCAACGGTTCGGTGAACGCCATGCACGACAGCTTCAGTGCCTTGGGCGGCATGGTGCCGCTGGTCAACATGATGCTCGGCGAAGTGATCTTCGGCGGTGTCGGCGCCGGCCTCTACGGCATGCTGCTGTTCGTCCTGATCGCGGTGTTCCTCGCCGGCCTGATGGTCGGCCGCACGCCCGAATACCTCGGCAAGAAACTGGAGGCGAGGGAAGTGCGCCTGCTGGTGCTGAGCCTGCTGGTGATGCCGATCGGCGTGCTGCTGCTCGGTGCGCTGGCAGCCATCCTGCCGGCCGGCGTGGCGGCGGTGAGCAATCCTGGCCCGCACGGCCTCAGCCAGATCCTCTACGCCTACACCTCGGGTGCCGGCAACAACGGGTCGGCCTTCGCTGGCTTCGGCGCCGGTTCCACCTATCACAACCTGATGATTGCCCTGGCCATGCTGCTCGGCCGCTACGGGATCATCCTGCCCGTGCTGGCCATTGCCGGCGGCTTGGCGATGAAGCGCGCGGCGCCGCTCGGGCAGGACAGCTTCCCCACCCACGGCCCGCTGTTCGTCGGCCTGCTCACCGCCACCCTGCTGCTGATGGGTGGCCTCACCTTTTTCCCGGTACTGGCACTGGGGCCGCTGGCCGAGCACCTCGGCCAACTGGCCGGCCTGAGCTGGTAA	MAMHDVLLIGAFFVLVLAPAPWLGRFIHRAMEGQSTWLSPLLSPLERFCYRTAGVDPAIEQDWRRYALSLLAFNGACLVLLVAVLMLQGALPLNPQKVAGMDWPLALNTAVSFVTNTNWQAYSGEAQLSYFSQMIGLGVQNFVSAATGLAVLVALCRGIARRSAATLGNFWVDLTRATLYVLLPLAIPLALLLVWQGVPQSFAHAITATTWQGAEQSLPLGPAASQIAIKQLGTNGGGFFGVNSAHPFENPTAFSNLLEVAAILLIPAALVFSYGHYVKDPRQSRAILACMLLLFCIGLGVAVWAEWQPNPAWAGLPVEQAGSLEGKESRFGITASALWATATSAASNGSVNAMHDSFSALGGMVPLVNMMLGEVIFGGVGAGLYGMLLFVLIAVFLAGLMVGRTPEYLGKKLEAREVRLLVLSLLVMPIGVLLLGALAAILPAGVAAVSNPGPHGLSQILYAYTSGAGNNGSAFAGFGAGSTYHNLMIALAMLLGRYGIILPVLAIAGGLAMKRAAPLGQDSFPTHGPLFVGLLTATLLLMGGLTFFPVLALGPLAEHLGQLAGLSW	PGPT0002740_1362	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002740-kdpA-K01546	NA	NA
BMS010_02967	2055	kdpB_3	COG2216	Potassium-transporting ATPase ATP-binding subunit	ATGAACGCACGAAACGAACTCATCGATCAGCCGGTACGTCACGAGGCCGCCGCGCACCCGGCGCCGCTCTGGCGCGAGGCGCTGCGCCAGTCCTTCGTCAAGCTGGACCCGCGCCAGTTGATGCGCCAGCCCGTGATGCTGCTGGTGGAAATCACGGCCCTGATGACCACCTTGCTCTGCTTCGTCCCCGGTCAGGCGGTGGCCACCGGGGTTGCCGTGCAGATCGCCCTGTGGCTGTGGTTCACCGTCCTGTTCGCCAATTTCGCCGAGGCGCTGGCCGAAGGGCGTGGCAAGGCGCGGGCGGACAGCCTGAAAGCCGGCAGCCAGGGGCTGATCGCCCGTCGGCAGGTCGCGCCGGGGCAATACGAAGGCATTGCCGCCAGTCGCCTGCGCAGGGGCGACGTGGTGCGGGTGGAGGCCGGTGAGCTGATTCCCCGCGATGGCGAGGTCATCGAAGGCATCGCCGCGGTCAACGAGGCGGCGATCACGGGTGAGTCCGCTCCGGTGATCCGCGAGTCCGGCGGGGACCGTTCGGCCGTCACCGGCAACACCCGGGTGGTATCCGACTGGCTGCTGGTGCGTATCAGCGCCAATCCCGGCGAGTCCACCCTGGACCGGATGATCGCCCTGGTGGAAGGCGCGCGGCGGCAGAAGACGCCCAACGAAGTGGCGCTGGATATCCTGCTGATCGGCCTGTCGCTGATCTTCCTGCTGGTGGTGGCGACCCTGCAGCCGTTCGCCCGCTTTTCCGGTGGCGAGCTGCCCCTGGTGTTTCTCGTCGCGCTGCTGGTGACGCTGGTGCCGACCACCATCGGCGGCCTGCTTTCGGCCATCGGCATCGCCGGCATGGACCGTCTGGTCAGGCTCAACGTCATCGCCAAGTCCGGCCGTGCGGTGGAGGCGGCGGGGGACGTCCAGGTGCTGCTGCTGGACAAGACCGGCACCATCACCTTCGGCAACCGTCGTTGCAGTGCGATGCTGAAAAGCCCGGGCGTCAGCGGCCAGGCGCTGGCCCAGGGCGCGCTGCTGGCATCGCTGGCCGACGACACCCCGGAAGGCAAGTCCATCGTCGAGTACCTGCGCAACTTGCATCCGATGCCGGAGCCGGCCCGCGATCGCTTGACGGTGGTGCCGTTCAGCGCCGAAACCCGCCTGTCCGGCGTCGACTGGGAGGGTCATGTCTATCGAAAGGGGGCGGTGGATGCAGTGCTGGGCTTCCTCGGCCTGGCCCGCGAACAGCTTCCCGAACCGCTGGCGCGGGAAATCGAACGCATCGCCCAGAGCGGCGGCACGCCGTTGCTGGTCTGCGCCGACGGCCAATTGCTCGGCGTCATTCACTTGAAGGATGTGGTCAAGCCGGGCATCCGCGAACGCTTCGCCGAGCTGCGCCAGTTGGGCATCCGCACCGTCATGGTGACCGGCGACAACCCGCTGACGGCGGCAGCCATCGCGGCCGAGGCGGGCGTCGACGATGTGATCGCCGAGGCCACGCCGGAGAAGAAGTTGGCGCGCATTCGCCAGGAGCAGGCCGACGGTCGACTAGTGGCGATGTGCGGCGACGGCGCCAATGACGCGCCGGCACTGGCCCAGGCCGACGTCGGCCTGGCGATGAACGACGGTACCCAGGCGGCGCGCGAGGCCGCCAACCTGGTCGACCTGGATTCCGATCCCACCAAGCTGCTCGATGTGGTGCAGGTGGGCAAGGAACTGCTGGTTACCCGTGGTGCCCTGACCACTTTCTCGGTCGCCAACGACGTGGCCAAGTATTTCGCCATCCTGCCGGCGCTGTTTTCCGGGATCTACCCCCAGCTCGGCGTGCTCGACCTGATGGGCCTGGCCAGCCCGCAGAGCGCCATTCTCTCGGCCATCGTATTCAACGCCCTGATCATCGTCGCGCTCATCCCGCTGGCCCTGCGCGGGGTGCGGGTGGAGGCTGCCGACGCGGCCAGCCTGCTGCGGCGCAACCTGCTGATCTATGGCCTGGGCGGGCTGGTCGCGCCCTTCGTCGGGATCAAGCTGATCGACCTGTTGCTGACCGCCGTGGGGCTGGCCTGA	MNARNELIDQPVRHEAAAHPAPLWREALRQSFVKLDPRQLMRQPVMLLVEITALMTTLLCFVPGQAVATGVAVQIALWLWFTVLFANFAEALAEGRGKARADSLKAGSQGLIARRQVAPGQYEGIAASRLRRGDVVRVEAGELIPRDGEVIEGIAAVNEAAITGESAPVIRESGGDRSAVTGNTRVVSDWLLVRISANPGESTLDRMIALVEGARRQKTPNEVALDILLIGLSLIFLLVVATLQPFARFSGGELPLVFLVALLVTLVPTTIGGLLSAIGIAGMDRLVRLNVIAKSGRAVEAAGDVQVLLLDKTGTITFGNRRCSAMLKSPGVSGQALAQGALLASLADDTPEGKSIVEYLRNLHPMPEPARDRLTVVPFSAETRLSGVDWEGHVYRKGAVDAVLGFLGLAREQLPEPLAREIERIAQSGGTPLLVCADGQLLGVIHLKDVVKPGIRERFAELRQLGIRTVMVTGDNPLTAAAIAAEAGVDDVIAEATPEKKLARIRQEQADGRLVAMCGDGANDAPALAQADVGLAMNDGTQAAREAANLVDLDSDPTKLLDVVQVGKELLVTRGALTTFSVANDVAKYFAILPALFSGIYPQLGVLDLMGLASPQSAILSAIVFNALIIVALIPLALRGVRVEAADAASLLRRNLLIYGLGGLVAPFVGIKLIDLLLTAVGLA	PGPT0002745_1449	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002745-kdpB-K01547	NA	NA
BMS010_02968	561	kdpC_2	COG2156	Potassium-transporting ATPase KdpC subunit	ATGCTTGACGCACTACGTCCCACCTTCAGTCTTTTGCTCCTGATGACACTGATCACCGGCGTCGCCTATCCCCTGGGCGTGACCGCCATCGCCGAACTGGCGTTTCCCTGGCAGGCCAACGGCAGCCAACTCGTCGACGACGACGGCCAGGTGCGGGGCTCGCAGCTGCTGGCCCAGCGCTTCGACGGTGCCGGCTGGTTCCAGCCGCGCCCGTCGGCCGCCGACTACGCCACCCTGCCCAGCGGGGCGAGCAACCTGGCGCCGAGCAGCGCGGCCTTGGCCGAGCGTGTCGCCACCGAGAGCCGCCACCAGCCTGGATCGGGGCCGGTGCCGCTGGCCCTGGTGACTACTTCCGGCAGCGGGCTCGACCCGGACCTGCCGCCGCATGCCGCGCTGTACCAGATTCCGCGCATCGCCGAGGCCCGGGGCATACCGGAGACGTCCCTGGCACAGCTGGTACGTGAGCACACCGAGCGTCCCCTGTTCGGTCCGCCGGTGGTCAACGTGACCGGGCTCAACCGGGAGCTGTCCGCACTCTCCAGCGGCGAGGGCGTTCGATGA	MLDALRPTFSLLLLMTLITGVAYPLGVTAIAELAFPWQANGSQLVDDDGQVRGSQLLAQRFDGAGWFQPRPSAADYATLPSGASNLAPSSAALAERVATESRHQPGSGPVPLALVTTSGSGLDPDLPPHAALYQIPRIAEARGIPETSLAQLVREHTERPLFGPPVVNVTGLNRELSALSSGEGVR	PGPT0002750_2066	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002750-kdpC-K01548	NA	NA
BMS010_02969	2667	kdpD_2	COG2205	Sensor protein KdpD	ATGAGCGACACGGCGCGCGCCGAGGCGCTGCTGGCCGAGTTGCCCGACAGCGTGCGGCCGAATGGCCGTGGACGGCTGAAGGTTTTTCTCGGTGCCGCGCCGGGCGTGGGCAAGACCTACGCCATGCTGCAGGCGGCCCAGGCGCAGCTTCGCCAGGGCGTGAAGCTGAGGGCCGGCATCGTGGAAACCCACGGCCGGGCGGAAACCGAAGCCTTGCTCGCCGGCCTGCCGCAGCAGCCGCCGAAACGCCTGGAGTACCGTGGCCTGCCCCTGTTCGAGCTGGACCTGGACGGGCTGTTGGCGGCCCGCCCGCAACTGGCCCTGGTCGACGAGCTGGCCCACAGCAACGTACCGGGCAGCCGCCACGCCAAACGCTGGCAGGACGTGCAGGAGCTGCTCGCCGCCGGCATCGATGTTTTCACCACGGTCAATGTCCAGCACCTGGAAAGCCTCAACGATCAGGTGCGCGACATCACGGGCGTGCATGTTCGCGAAACGGTCCCGGACTGGGTGCTCCAGGAGGCCCACGAGATCCTGCTGATCGACCTGCCACCCCGCGAACTGCTCGAGCGCCTGCGCGACGGCAAGGTCTACGTGCCTGAGCAGGCGCGGGCGGCGATCGATGCCTTCTTCACCCAGACCAACCTGACCGCACTGCGCGAGCTGGCCATGCAGACCGCCGCCGCGCGGGTGGATGCCGATCTCAACCGGCGCTACCGCCAGCAGGGGCAGGATGCGCCGAGCCTGCAGGGGCGCCTGCTGGTCGGCGTCGATGGCGACGACCAGGCCGAGCGGCTGGTGCGCCATGCCAGCCGGGTGGCCGAGCGGCGCCATCTGCCGTGGAGCCTGGTGCATGTCGATGTCGGCCGGCCCCTGGGCGAGCCTTCGCGGGCACGCCTACAGGCCGCGCAACAGTTGGCCGAGCGGCTGGGCGGCGAGGTGGTGCGGCTGCGTGGCGGCGAAGTGGCGCGGACCTTGATCGAACATGCCCGCGAGCGCCGCGCCAGCGTACTGCTGGTGGGCATCAGCCGGCCGCGTTGGCAACGGCGCTGGCTGGGCAGTCGGGGTGTGGCGGAGCGCCTGCTGGCGCGGGGCCGGGGCCTGGAAATCAGCGTGCTGGACAATGGCGACAACCCGCTGCCGGCGCGGCATTTCGATCTGCACCAGGCGACGCGGCGGGACTACCTGCTGGCGGTGATCGCTGCGGTGATCGCCACCGCGCTGGCCTGGGGGGTGTCCCATCTGCTCGCGCTGCCGAACATTTCCCTGGTGTTCCTCGCCGCCGTGCTGCTGGTGGCAGTGCGCAGCAGCCTGGGGCCGGCCTTGGTCTGCGCCGGGCTGGCGTTCCTGGCCTACAACTTCCTGTTCATCCCGCCTCGGCTCACCTTGTTCATCCAGCGCCAGGAAGACCTCCTGACGCTGCTGTTCTTCCTGCTCATGGCCGGGTTGACCGGCAACCTGGCCGCGCGGCAGCGCCGGCAACTGGAGAGCCTGCGGCAGACCCAGCAGGAGACCACCGCGCTGCTTGACCTATCGCGCAAGCTGACCGCCGCCACCGACCGCCGCGCCGTGCTCGCTGCGGCGATCCAGCAATTCGAACTGGCCCCCGATCTGGAAAGCTGCCTGATGTCGCGCGGCAAGGACGGCGTGTGGAAGGTCGAGGCCGGCGTCCATCGGTTGCTCGCCGAGCAGGAGCGCGCCGCAGCCGACTGGGCCTGGCAGCATGGCCAACCGGCCGGCCTGGGCACCGGGACCTTGCCCGCCGGCCGCTGGTGGTGGTGCCCGCTGGCCGGCGAGGACGGGCCACTGGCCCTGTTGGGTCTGAGCCCGAAGGATGGTGACCCGCTGCCGCCGGAGCGGCGCCGCCTGATCGGGGCGCTCTGCCAGCCGCTGGTCCAGGCGTTGGAGCGCGCGCAATTGGCCGAGGATTTGGAAGCGGCCCGTCTCAAGGGCGAAACCGAGAGCCTGCGCAGCGCCTTGCTCGCCTCGGTGTCCCACGACCTGCGCACACCGCTGACTGCCATGCGCGGTTCCATCGACAGCCTGCTGGCCCTCGGTGAAAGCATTCCCGAGGCCGACCGCCGCGAGTTGCTGGAAGGCACCCGTAACGAGGCCGAGCGCCTGGACCGCTATATCCAGAACCTCCTGGACATGACCCGGCTGGGCCATGGCGGGCTCAAGCTGAGCCGCGACTGGGTGGCGCCGGCGGATATCGTCGCCAGCGCCCTGCAACGTTTGCGGCCGGTACTGGCGCCCTTGCGTGTGGAGACCGAGCTGCCCGCCGAGCTGCCGCTGCTGTATGTTCATGCGGCGCTGATCGAGCAGGCGCTGGTCAATGTGTTGGAGAACGCCGCGCGCTTCTCGCCGCCGGGCGGCCGTCTGCGTCTGGCGGTGACGGTGGGGCGCGATGAGCTGCGTTTTTCCGTGAGCGACCAGGGACCGGGGATTCCGGAAGAGGAGCGCAGCCGGATTTTCGATATGTTCTATACCGCCAAGCGCGGCGATCGCGGCGGCCAGGGCACCGGCCTGGGCCTGGCGATCTGCCAGGGCATGGTCGGGGCGCACGGCGGGCGGGTGACCGTCGATGAAGGGCTGGACGGCCGGGGCGCCACCCTGACGCTGCACCTGCCGTTGCAGGAGCAGCCGGCCGCGGAGGAGGAAACCTGA	MSDTARAEALLAELPDSVRPNGRGRLKVFLGAAPGVGKTYAMLQAAQAQLRQGVKLRAGIVETHGRAETEALLAGLPQQPPKRLEYRGLPLFELDLDGLLAARPQLALVDELAHSNVPGSRHAKRWQDVQELLAAGIDVFTTVNVQHLESLNDQVRDITGVHVRETVPDWVLQEAHEILLIDLPPRELLERLRDGKVYVPEQARAAIDAFFTQTNLTALRELAMQTAAARVDADLNRRYRQQGQDAPSLQGRLLVGVDGDDQAERLVRHASRVAERRHLPWSLVHVDVGRPLGEPSRARLQAAQQLAERLGGEVVRLRGGEVARTLIEHARERRASVLLVGISRPRWQRRWLGSRGVAERLLARGRGLEISVLDNGDNPLPARHFDLHQATRRDYLLAVIAAVIATALAWGVSHLLALPNISLVFLAAVLLVAVRSSLGPALVCAGLAFLAYNFLFIPPRLTLFIQRQEDLLTLLFFLLMAGLTGNLAARQRRQLESLRQTQQETTALLDLSRKLTAATDRRAVLAAAIQQFELAPDLESCLMSRGKDGVWKVEAGVHRLLAEQERAAADWAWQHGQPAGLGTGTLPAGRWWWCPLAGEDGPLALLGLSPKDGDPLPPERRRLIGALCQPLVQALERAQLAEDLEAARLKGETESLRSALLASVSHDLRTPLTAMRGSIDSLLALGESIPEADRRELLEGTRNEAERLDRYIQNLLDMTRLGHGGLKLSRDWVAPADIVASALQRLRPVLAPLRVETELPAELPLLYVHAALIEQALVNVLENAARFSPPGGRLRLAVTVGRDELRFSVSDQGPGIPEEERSRIFDMFYTAKRGDRGGQGTGLGLAICQGMVGAHGGRVTVDEGLDGRGATLTLHLPLQEQPAAEEET	PGPT0002755_1117	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CAPSULE_METABOLISM	CE-EPS-CAPSULAR_POLYSACCHARIDE_REGULATION,PGPT0002755-kdpD-K07646	NA	NA
BMS010_02970	702	kdpE_2	COG0745	KDP operon transcriptional regulatory protein KdpE	ATGACCGACAACAGCCACGTCGTTCTGGTGATCGACGATGAGGCGCAGATTCGCAAATTCCTGCGCATCAGCCTGACGGCACAAGGCTACCGGGTGATCGAGGCGGCCGATGGCCGGAGCGGGCTCGCCGAAGCGGCCCTGGCCCGGCCGGACCTGGTGGTGCTCGACCTCGGCCTGCCGGACATGGACGGCCAGGAGGTGCTGCGCGAGCTACGCGGCTGGTCGACGGTGCCGGTGCTGGTGTTGTCGGTACGTTCCGGCGAGGGCGAAAAGGTCCTGGCGCTCGATGGCGGGGCCAATGACTACGTGACCAAGCCGTTCGGCATCCAGGAATTCCTCGCCCGGGTCCGCGTGCTGCTGCGCCAGAGCGGGCAGGGCGATAGCGGTGCGGCAGCGGTGGAGAGCGGCCCGCTGCGGGTGAACTTCGCCTTCCGCCAGGTCACCCTCGACGGCCGCGAGGTGGCGCTGACCCGCAAGGAATACGCGGTCCTGGCGACGTTGGCCCAATACCACGGACGGGTGGTGACCCAGCAGCAACTGCTCAAGGACATCTGGGGCCCGACCCACGTCGAGGACAGCCATTACCTGCGGGTGGTCGTGGGCCATCTGCGGCAGAAGCTCGGCGACGACCCGACGAATCCCCGTTTCATTGTCACCGAGGCGGGGATCGGTTATCGCCTGCGGGCAGAGCGGAACGCATGA	MTDNSHVVLVIDDEAQIRKFLRISLTAQGYRVIEAADGRSGLAEAALARPDLVVLDLGLPDMDGQEVLRELRGWSTVPVLVLSVRSGEGEKVLALDGGANDYVTKPFGIQEFLARVRVLLRQSGQGDSGAAAVESGPLRVNFAFRQVTLDGREVALTRKEYAVLATLAQYHGRVVTQQQLLKDIWGPTHVEDSHYLRVVVGHLRQKLGDDPTNPRFIVTEAGIGYRLRAERNA	PGPT0002760_1065	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CAPSULE_METABOLISM	CE-EPS-CAPSULAR_POLYSACCHARIDE_REGULATION,PGPT0002760-kdpE-K07667	NA	NA
BMS010_02971	909	glsA2	COG2066	Glutaminase 2	ATGCAAGAACTGTTGAATGAGATTCTCGCCGAAGTCAGCCCCCTGATCGGGCGGGGCAAGGTCGCCGATTACATTCCCGCATTGGCCCAGGTGCCACCGGCTCAGCTGGGTATCGCGGTCTACAGCAACCAGGGCGAGCTGTATGTGGCGGGCGATGGCCAGGTGCCGTTTTCCATCCAGAGCATTTCCAAGGTGTTCAGCCTGGTCCAGGCGATCCAGCATTCCGGTGAGGCGATCTGGGAGCGCCTGGGGCAGGAACCGTCCGGCCAGCCGTTCAACTCGCTGGTGCAGTTGGAGTTCGAGCGCGGTGTGCCGCGCAATCCCTTCATCAATGCCGGCGCGCTGGTGATCTGCGACATCAACCAGTCGCGCTTCGCGGCGCCGGCCCAGTCGATGCGCGATTTCGTCCGCCGCCTGAGCGGCAACCCTCTGCTGGTCTCCGACGAGGTGGTGGCCCGCTCGGAATACCAGCATCGCTCGCGCAACGCGGCCATGGCTTACCTGATGCAGTCCTTCGGCAACTTCCACAATGACGTCGAGGCGGTGCTGCGCAGCTATTTCCACCATTGCGCCCTGCGCATGAGCTGCGCGGACCTGGCCCGGGCTTTCTGCTTCCTGGCCAACCGCGGACATTGCCTGCACAGCGGCGAGCAGGTGCTGACACCTCGACAGGTGAAGCAGGTCAATGCCCTGATGGCCACCAGCGGCCTGTACGACGAAGCCGGCAACTTCGCCTATCGGGTCGGCCTGCCGGGCAAGAGCGGCGTGGGCGGCGGGATCGTTGCGGTGGTGCCCGAGCGCTTCACCGTCTGCGTCTGGTCACCGGAGTTGAACGCGGCGGGCAACTCCCTGGCCGGCATGGCGGCGCTGGAGTTGCTGTCGTCGCGGATCGGCTGGTCGATTTTCTGA	MQELLNEILAEVSPLIGRGKVADYIPALAQVPPAQLGIAVYSNQGELYVAGDGQVPFSIQSISKVFSLVQAIQHSGEAIWERLGQEPSGQPFNSLVQLEFERGVPRNPFINAGALVICDINQSRFAAPAQSMRDFVRRLSGNPLLVSDEVVARSEYQHRSRNAAMAYLMQSFGNFHNDVEAVLRSYFHHCALRMSCADLARAFCFLANRGHCLHSGEQVLTPRQVKQVNALMATSGLYDEAGNFAYRVGLPGKSGVGGGIVAVVPERFTVCVWSPELNAAGNSLAGMAALELLSSRIGWSIF	PGPT0020215_2600	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0020215-glsA-K01425	NA	NA
BMS010_02972	1041		COG1752	putative NTE family protein	GTGGGTGCGATGGGGACGAAAGTGGCGTTGGTACTGGGCTCGGGCGGTGCGCGCGGTTATGCGCACATCGGAGTCATCGAGGAAATCGAGGCGCGGGGTTACGAGATCGGCTGCATCGCCGGCTGTTCCATGGGCGCCGTGGTCGGCGGCATCTACGCCGCCGGCAAGCTGCCGCAGTACCGCGAATGGATCGAAAGCCTGGACTACCTGGACATGCTGCGCCTGCTGGACGTCAGCTTCCGCCTCGGGGCGATCCGTGGCGAGAAGGTGTTCGGCCAGATCCGTGAAATCCTCGGCGAGATCGATATCGAAGACTTGCCGATCCCCTACACCGCCGTCGCCACCGACCTGACCAACCAGCAGGAAATCTGGTTCCAGGAAGGCTGCCTGCACAAGGCCATGCGCGCCTCGGCGGCGATTCCCAGCCTGTTCACCCCAGTCCAGCAAGGCAAGCGGATGCTGGTCGACGGCGGGCTGCTCAACCCGCTACCCATCGTTCCGGTGGTGTCCAGCCACTGCGACCTGATCATCGCGGTCAACCTCAACGCCACCAACCAGAAGCAATACCAACTGCCGATCATCGAGCGGCCGGATGCGATCAAGGGCCGCTTCGACCTGCTGATGAGCTCGCTCGGCTCGCGGCTACCGTTCCGTCGCAAGGCCGGCGAAGAGATCGCACTACTGGAGTCGGAGATCGCAGCGGAATCGCCCGGGGCCAGCGACCCCTGGCTGAACGAGCCACCAGTGCCGGCCGCCCAGCCACCGGCGGCGCCGGAGACGGAAGGCGCCCCGCGCTCGGCCAGCGACTCCACCGTGGTGGATATTGGCGGCCCGGCTTCTTTGCTGGAACTGATCAACCAGAGCTTCGAAGTCATGCAGACCTCGCTCGCCCAGTACAAGATCGCCGGCTACCCACCGGACGTACTGATCAACATTCCCAAGCGGGTCTGTCGCTTCTTCGAGTTCTACAAGGCACCGGAGCTGATCCTGCTGGGACGGCAGATTGCCCGCGATACCTTGGATAAGTACGAATCCCACTAA	MGAMGTKVALVLGSGGARGYAHIGVIEEIEARGYEIGCIAGCSMGAVVGGIYAAGKLPQYREWIESLDYLDMLRLLDVSFRLGAIRGEKVFGQIREILGEIDIEDLPIPYTAVATDLTNQQEIWFQEGCLHKAMRASAAIPSLFTPVQQGKRMLVDGGLLNPLPIVPVVSSHCDLIIAVNLNATNQKQYQLPIIERPDAIKGRFDLLMSSLGSRLPFRRKAGEEIALLESEIAAESPGASDPWLNEPPVPAAQPPAAPETEGAPRSASDSTVVDIGGPASLLELINQSFEVMQTSLAQYKIAGYPPDVLINIPKRVCRFFEFYKAPELILLGRQIARDTLDKYESH				NA	NA	NA	NA	NA
BMS010_02973	1035	selD	COG0709	Selenide, water dikinase	ATGAGCGATCCCATTCGCCTGACCCAGTACAGCCATGGCGCCGGCTGTGGCTGCAAGATTTCCCCCAAGGTCCTGGAGGTGATTCTCGCCGGGAGCGGTGCGCAGAACCTCGATCCGCGCCTGTGGGTCGGCAACGCCTCGCGCGACGACGCGGCGGTCTATGCCCTGGACGATGAGCGCGGTGTCGTTTCCACCACCGATTTCTTCATGCCGATCGTCGACGACCCCTTCGATTTCGGCCGGATCGCTGCCACCAATGCGATCAGCGACATCTACGCCATGGGCGGCGACCCGCTGATGGCCATCGCCATCCTCGGCTGGCCGGTCAATGTGCTGGCGGCGGAAGTCGCCCGCGAAGTGATTCGCGGCGGCCGTGCCGTCTGCGATGAGGCGGGCATCCCGCTGGCCGGCGGCCATTCCATCGATGCGCCGGAGCCGATATTCGGCCTGGCCGTCACCGGCCTGGTGGAAAAGCGCCACATGAAGCGCAACGACAGCGCCACCGCCGGCTGTACCCTGTACCTGACCAAGCCGCTGGGCATCGGCATCTTCACCACGGCGGAGAAGAAGGCCCGTTTGCGCGCCGAGGACGTGGGCGTGGCGCGCGACTGGATGTGCACCCTGAACAAGCCCGGTAGCCGCTTCGGCAAGCTCGTCGGGGTCAAGGCGATGACCGATGTCACCGGCTTCGGCCTGCTCGGTCATCTGATCGAGATGGCCGACGGCAGCGGCCTGACCGCACGTGTCGAGTTCGCCCGGGTGCCGCGCCTGGCGGGGGTCGAGTACTACCTGGAGCAGGGTTGCGTGCCGGGCGGGACCTTGCGCAACTTCGACAGCTACGGCGAGAAGATCGCGCCGCTGCCCGAATTGCAGAAACTCCTGCTCTGCGATCCGCAGACCAGCGGCGGTCTGCTGGTGGCCGTCGCGCCGGAGGGCGAGGCGGCGTTCCAGGCGACCTGCGCCGAGCTGGGCCTGGAGCTGCAAGCGATCGGCCAGTTGGTCGAGCGACAGCGTTACGCGGTCGAGGTGCTCTGA	MSDPIRLTQYSHGAGCGCKISPKVLEVILAGSGAQNLDPRLWVGNASRDDAAVYALDDERGVVSTTDFFMPIVDDPFDFGRIAATNAISDIYAMGGDPLMAIAILGWPVNVLAAEVAREVIRGGRAVCDEAGIPLAGGHSIDAPEPIFGLAVTGLVEKRHMKRNDSATAGCTLYLTKPLGIGIFTTAEKKARLRAEDVGVARDWMCTLNKPGSRFGKLVGVKAMTDVTGFGLLGHLIEMADGSGLTARVEFARVPRLAGVEYYLEQGCVPGGTLRNFDSYGEKIAPLPELQKLLLCDPQTSGGLLVAVAPEGEAAFQATCAELGLELQAIGQLVERQRYAVEVL	PGPT0004820_1692	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SELENIUM_RESISTANCE	SELENIUM_RESISTANCE-SELENIUM_HOMEOSTASIS,PGPT0004820-selD-K01008	NA	NA
BMS010_02974	1101	selU	COG2603	tRNA 2-selenouridine synthase	ATGCGTCCGGATACCGCCGATTACCGCGCCCTTTTTCTCAACGATTTGCCGATGATGGATGCCCGCGCTCCGGTGGAGTTTTCCAAGGGCGCCTTCCCGCACACGGTCAACCTGCCGCTGATGACCGATATCGAGCGGCAGAAGGTCGGCACCTGCTACAAGCTGCACGGCCAGAAGGCGGCCATCGAGCTGGGCCACCAACTGGTGTCCGGCGCGACCAAGGCCGAGCGCATCGAGGCCTGGGTCGCCTTCGCCAAGGCCAACCCGGATGGCTACCTGTATTGCTTCCGCGGCGGGTTGCGTTCGCAGATCGTCCAGCAGTGGCTGAAAAGCGAGGCGAGCATCGATTATCCACGGGTGACCGGCGGCTACAAGGCGCTGCGGACCTTCCTGCTGGAAACCACCCAGCAGGCGGTGGAGCAGTGCGATTTCGTGCTGGTCGGCGGCCTCACCGGCACCGGCAAGACCGAAGTGGTGGCGCAACTGGCCAACAGCCTGGACCTGGAAGGCCACGCCAATCACCGTGGCTCCAGCTTCGGCAAGCGCGCCACGCCGCAGCCGGCGCAGATCGACTTCGAGAACCGCCTGGCCATCGACCTGCTGAAGAAGAGCGCGGCGGGGATCGAGCAGTTCGTCCTGGAGGACGAAGGGCGCATCGTCGGCAGTTGCTCGGTGCCGCTGGAGCTGTACCAGGGCATGCAGCGATACCCGCTGGTCTGGCTGGAAGACAGCCTGGAAGGGCGGATCGAGCGCATTCTCAAGGACTACGTGATTGACCTGACTGCCGAGTTCATCGCCGAACATGGCGAGGAGCGCGGTTTCCCGGCGTTCGCCGAGCGGCTCCGGCAGAGTCTGTCGAACATCGTCAAGCGGCTGGGTGGGGAACGCTACCAGCGCATGGCCGCCATCATGGACGCAGCGTTGATCGAGCAGGAGCGCAGTGGCGACGTCAGCCTGCACCGCGGCTGGATCGAAGGGTTGCTGAGCGAATACTACGACCCGATGTACGCCTACCAGCGCGAGAGCAAGGCGGAGCGTATCGAATTCGCTGGCGAGCAGGCGGCGGTGATCGAGTATCTGCGCCAGCGTCAGCCGCGTTGA	MRPDTADYRALFLNDLPMMDARAPVEFSKGAFPHTVNLPLMTDIERQKVGTCYKLHGQKAAIELGHQLVSGATKAERIEAWVAFAKANPDGYLYCFRGGLRSQIVQQWLKSEASIDYPRVTGGYKALRTFLLETTQQAVEQCDFVLVGGLTGTGKTEVVAQLANSLDLEGHANHRGSSFGKRATPQPAQIDFENRLAIDLLKKSAAGIEQFVLEDEGRIVGSCSVPLELYQGMQRYPLVWLEDSLEGRIERILKDYVIDLTAEFIAEHGEERGFPAFAERLRQSLSNIVKRLGGERYQRMAAIMDAALIEQERSGDVSLHRGWIEGLLSEYYDPMYAYQRESKAERIEFAGEQAAVIEYLRQRQPR	PGPT0004830_269	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SELENIUM_RESISTANCE	SELENIUM_RESISTANCE-SELENIUM_HOMEOSTASIS,PGPT0004830-selU|mnmH-K06917	NA	NA
BMS010_02975	279			hypothetical protein	ATGAAAGCCTGGATCAGCCTGCCCTTGATCGCCTTGCTGCTGGCCGGATGTGCCGCCAAGACGACCTACCGCGACAATTGCGCGAACCAGTTGGACGCCGCCTGGAAGGAACTGGACCTGGCCAAGGCTGAGGGCTTCGCCGGTACCGTGAGCTACTCCAAGGCCCTGACGCTGCTTACCGGCGCCAAGACCCAGCAGCAGTTCGAGGCCTACGAAGGGTGCTCCCGCAAAGCGGAAAAGGCGCGCTTCTACATTCGCGAGTCCCGCGCCGGGCGTTGA	MKAWISLPLIALLLAGCAAKTTYRDNCANQLDAAWKELDLAKAEGFAGTVSYSKALTLLTGAKTQQQFEAYEGCSRKAEKARFYIRESRAGR				NA	NA	NA	NA	NA
BMS010_02976	612			hypothetical protein	ATGCTCATCGACTTTACCCGGCTGACCCCGCTGGAGGCTTATCGCTGGCTGACCGCCACGGTGACGCCGAGGCCGATCGCCTGGGTGTCCAGCCTGTCCCGCGAAGGCGTGAGCAATCTGGCGCCGTTCAGCTTCTTCCAAGTGATCAGCGACGAGCCGCCGACCCTGCTGGTCAACATCGGCCTGCATGACGATGGTCGGCTCAAGGACACGCTGCGCAACGTGCAGGACACCGGCGAACTGGTGATCCACTTGGTGACGGCGAGCCAGGCCGAGGCGATGAACGCCTCGTCGGCCTCCTTGCCGCATGGCGTCAGCGAGTTCGAGGCATGTGGCATCGCCAGCGTACCGGCCGAACGGGTCGCTCCGCCGCGGGTTGCCAGGGCGCCGGTGGCCTTCGAGTGCTCCTTGGCCGAGGTGCAACCCTATCCGCGCGACAACCCCAGCAACTACCTGATCTTTGCCCGCATCCTGCTGGCGCACGTCGATCCGGAGATACTCGACGAGCGTGGCCGAGTCGACCCACGCAAGCTGGATCTGATCGGCCGGCTCGGCGGGAGCGGTTATACCCACACCCGTGAGGTGTTCGAGATGGCCCGGCCGCAGCTCTGA	MLIDFTRLTPLEAYRWLTATVTPRPIAWVSSLSREGVSNLAPFSFFQVISDEPPTLLVNIGLHDDGRLKDTLRNVQDTGELVIHLVTASQAEAMNASSASLPHGVSEFEACGIASVPAERVAPPRVARAPVAFECSLAEVQPYPRDNPSNYLIFARILLAHVDPEILDERGRVDPRKLDLIGRLGGSGYTHTREVFEMARPQL				NA	NA	NA	NA	NA
BMS010_02977	2697	ctpF	COG0474	putative cation-transporting ATPase F	ATGAACGCCCCCGCTTCCCGCGACTGGCATGCGCAACCCGTGCATTACAGCCTGCAACAGCTCGACGCCAGCGACACTGGCCTGAGCACCGAGGAGGCCGAGCGCCGTCTCGCTCTCCACGGCCCCAATCAACTACCGGAGCGCAACGCCGCCGGACCGCTGAAGCGCTTTTTGCGCCAGTTCCACAACCTGCTGATCTATGTGCTGCTGCTTTCGACCCTGGTCACCCTGGCCCTCGGCGAGTGGCTGGACAGCGCGGTGATCTTCGGCGTGGTGCTGATCAACGCCATCGTCGGCTTCATCCAGGAGGGCAAGGCGGAACAGGCGATGCGCGCCATCCAGAAGATGCTCACCCTGGACAGCCGGGTGCGCCGCGACGGCGCCGTGCAAAGCGTACCGGCCGAACGCCTGGTGCCCGGCGACCTGGTGCTGCTGGAAGCCGGCGACCGGGTCCCCGCCGACCTGCGCCTGCTGGAAACCCGCGACCTGCGCATCGAAGAAGCGGCCCTCACCGGCGAGTCGCTGCCGGCCGACAAGGCCACCGATCCGGTGGCCCGTGACGTCAGCCTGGGCGACCGGCGCAGCATGGCCTACTCCGGCACGCTGGTCAGCGCCGGCAGCGGTTGCGGCGTGGTGGTCGCCACCGCCGGCCACACCGAACTGGGCCGCATCAGCCACATGCTGGGCACGGTGGTCAGCCTGCAGACCCCGCTGCTGGCGGACATGGCGCGCTTCGCCCGGCACCTGACCCTGATCATCCTCGTCCTGGCGCTGCTCACCTTCGCCTTCGGCGTCCTGCTGCGCGGCTACAGCCCGCAGGACATGCTGCTGGCGGCGGTCGGCCTGGCCGTGGCGGCGATTCCCGAAGGCTTGCCGGCGGTACTCACCATCATCCTGGCCCTCGGCGTACAGCGCATGGCCCGGCGCCAGGCGATCATCCGCCGCCTGCCGGCAGTGGAAAGCCTGGGCGCGGTGACGGTGATCTGTTCGGATAAGACCGGCACCCTGACCCGCAACGAAATGACCGTGCAACAGGTGTTCACCGCCACCCACCGCTATACGGTCGATGGCGTCGGCTATGCACCGGAAGGCAGCATCCACTGCGATGACGGTCAGCTCTGTAGCCTCGACAGCGCAGACGACCTGCGCGAACTGGCCCGTGCCGGGCTGCTGGCCAACAGCGCCAGCCTGTGTCTCGCCGACCAGCGCTGGTGCATCACCGGCGACCCCACCGAAGCCGCGCTGCTGACCCTGGCCGGCAAGCTGGGCCTGGAACGGGAGCGCGAAATACTATCCCTGCCGCGGGTCGACGCGATCCCCTTCAGCTCCGAACGCCGCTGCCTGGCCAGCCTGCATCACGACCACGCCGGGCATGGCCTGATCTATCTGGTCGGCGCTCCCGAACGCCTGCTAGAGGTATGCAATCGGCAGTGGCGCGACGGCCGCCCCGAGCCGCTGGACCCGCGCCACTGGCATGAAGTCCTGGGTAACGGCGCCAGCCAGGGCCTGCGCATGCTCGGTCTCGCCCTGCGGCCGCTGCCCACGCCGCAACACGAGCTGGACTACCGCGATCTGGAAGGCGATTTCATCCTGCTCGGTCTGGTCGGCATGCTCGACCCGCCGAGGGAAGAAGCCATCGCCGCCATCGCCGAATGCCACAGCGCGGGCATCGCGGTGAAGATGATCACCGGCGACCACGCCGCCACGGCCAGCGCCATCGCCCAGCGCCTCGGCCTGGGTGGCGGTGCGCCGCTCACCGGAGCCGATCTGGACCGGCTGAGCGATGCCGAGCTGGATGCCCGCCTGCCCCACACCACGGTGTTCGCCCGCACCAGCCCGGCGCACAAGTTGCGTCTGGTGGAGCGCCTGCAGGCCTGCGGCGCCCGGGTGGCGATGACCGGCGACGGGGTCAACGACGCACCGGCGCTCAAGCGCGCCGACATCGGCGTGGCCATGGGGGTCAAGGGTACCGAAGTGGCCAAGGAGGCAGCGCAGATGGTGCTGGCCGACGATAACTTCGCCACCATCGCCCACGCCGTGGAGGAAGGCCGCACGGTCTACGACAACCTGCGCAAGTCGATCCTCTTCATCCTGCCTACCAATGGCGGCGAAGCGCTGGTATTGCTGGTGGCCATCGCCCTCGGCCTGACCCTGCCGATCACGCCGTTGCAGATTCTCTGGGTCAACATGATCACCGCGGTGACCCTGGCCCTGGCGCTGGCCTTCGAGCCGGCCGAGGACGACCTGATGCGAAGGCCGCCGCGTGACCCACGCATGCCGCTGCTGACGCCTCGTCTGCTCTGGCGCGTGCTGTTCATTTCGATCCTGATGACCGTCGCCAGCCTGGGCCTGTTCCTCTACGCCCAATCGCTGGGCTGGAGCCTGGACAGCAGCCGTACCCTGGCGGTCAACGCCATGGTCGCCAGCGAGATCGGCTATCTGTTCAGCAGCCGCCGGCTGGACGGCACCGCCCGCTTCGGCTGGCGCGACAACCCGATGGTCTGGAGCATGGTGCTGCTGCTCACCGGCATGCAGCTGGCGTTCACCCATTGGTCGCCGCTGCAGGCCTTGTTCGCGACCACCTCGCTGCCGGCGGACGCCTGGGGCTGGTGTCTGCTGGTGGCGGTCGGCGTCTGCGTGTTGGTGGAGCTGGAGAAGCTTCTGGTGCGGAGCCTGGGGCAGTCGCCCCAGGTATGA	MNAPASRDWHAQPVHYSLQQLDASDTGLSTEEAERRLALHGPNQLPERNAAGPLKRFLRQFHNLLIYVLLLSTLVTLALGEWLDSAVIFGVVLINAIVGFIQEGKAEQAMRAIQKMLTLDSRVRRDGAVQSVPAERLVPGDLVLLEAGDRVPADLRLLETRDLRIEEAALTGESLPADKATDPVARDVSLGDRRSMAYSGTLVSAGSGCGVVVATAGHTELGRISHMLGTVVSLQTPLLADMARFARHLTLIILVLALLTFAFGVLLRGYSPQDMLLAAVGLAVAAIPEGLPAVLTIILALGVQRMARRQAIIRRLPAVESLGAVTVICSDKTGTLTRNEMTVQQVFTATHRYTVDGVGYAPEGSIHCDDGQLCSLDSADDLRELARAGLLANSASLCLADQRWCITGDPTEAALLTLAGKLGLEREREILSLPRVDAIPFSSERRCLASLHHDHAGHGLIYLVGAPERLLEVCNRQWRDGRPEPLDPRHWHEVLGNGASQGLRMLGLALRPLPTPQHELDYRDLEGDFILLGLVGMLDPPREEAIAAIAECHSAGIAVKMITGDHAATASAIAQRLGLGGGAPLTGADLDRLSDAELDARLPHTTVFARTSPAHKLRLVERLQACGARVAMTGDGVNDAPALKRADIGVAMGVKGTEVAKEAAQMVLADDNFATIAHAVEEGRTVYDNLRKSILFILPTNGGEALVLLVAIALGLTLPITPLQILWVNMITAVTLALALAFEPAEDDLMRRPPRDPRMPLLTPRLLWRVLFISILMTVASLGLFLYAQSLGWSLDSSRTLAVNAMVASEIGYLFSSRRLDGTARFGWRDNPMVWSMVLLLTGMQLAFTHWSPLQALFATTSLPADAWGWCLLVAVGVCVLVELEKLLVRSLGQSPQV	PGPT0013990_3133	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CALCIUM_TRANSPORT,PGPT0013990-yloB|ctpA-K01537	NA	NA
BMS010_02978	924			hypothetical protein	ATGCGCACGAAACTGGAGGACTGCCTGCAGGCGGTGAATCAGGTATTGCTCGGCAAGGAGGCCCAGGTGCGATTGGCGCTGACCTGCCTGCTGGCCCGGGGGCACCTGTTGATCGAGGACCTGCCGGGCATGGGCAAGACCACCCTGAGCCACGCCCTGGCCCGGGTGATGGGGCTGAGCTTCCAGCGCATCCAGTTCACCTCCGACCTGCTGCCCGGCGACATCCTCGGCACCTCGGTGTTCGACAAGGACACCGGGCAGTTCGTCTTCCATCCCGGGCCGATCTTCGCCGAGCTGGTGCTGGCGGATGAAATCAACCGGGCCACGCCGAAGAGCCAGAGCGCGTTGCTGGAGGCAATGGAAGAGGGGCAGGTGACCATCGAGGGTGCGACCCGGCCACTGCCGGAGCCGTTCTTCGTCATCGCCACGCAGAACCCGGTCAGCCAGGGCGGCACCTTCGCCCTGCCGGAATCCCAGCTCGACCGCTTCCTCATGCGCCTGTCGCTCGGCTATCCGGCCAAGGCGGCGGAGAAGGCGCTGCTGCTCGGCGAGTTGCGCCGGGAAATCCTGCCGCGTCTGGATGCGGTGCTGGATCATGCCGAACTCGCGGCCATCCAGCAGGAGGTCACCCGGGTGCGGGCCAGCGATGCGCTGGTGGATTACGTGCTGCGGCTGGTCGAGGCGACCCGCAGCCAACCGCAGTTCGCCTGGGGCCTGTCGCCGCGGGCCAGCCTGGCGCTGCTCGCCGCGGCGCGGGCCTGGGCCTTTCTCGCCGGACGCGATTATGTGATTCCCGAGGATGTCCAGGCGGTCCTGCCGTCGGTGGTCGGGCACCGCCTGCGCGAGCGCGCCGACCCCACCGGCCACGGCCACGGCGGCGGTGCGCTGGTGCAGTGGTTGCTCACCGAGGTGGCAGCGGTCTGA	MRTKLEDCLQAVNQVLLGKEAQVRLALTCLLARGHLLIEDLPGMGKTTLSHALARVMGLSFQRIQFTSDLLPGDILGTSVFDKDTGQFVFHPGPIFAELVLADEINRATPKSQSALLEAMEEGQVTIEGATRPLPEPFFVIATQNPVSQGGTFALPESQLDRFLMRLSLGYPAKAAEKALLLGELRREILPRLDAVLDHAELAAIQQEVTRVRASDALVDYVLRLVEATRSQPQFAWGLSPRASLALLAAARAWAFLAGRDYVIPEDVQAVLPSVVGHRLRERADPTGHGHGGGALVQWLLTEVAAV				NA	NA	NA	NA	NA
BMS010_02979	960			hypothetical protein	ATGGCCGCCCATCCGCTCAAGGCGCGCTGGAACCGCTGGCTGGAGCGGCGTATCCCGGCAGCCGCCAGCGTTCGTTTGAATCAGCGGCGCATCTTCATCATTCCCACCCGTGTCGGGCTGGCGTTCGGTATCGCGCTGCTGCTGATGCTGCTGGCCGCGATCAACTACCAGAACAGCCTCGCCTATGCGCTGACATTCCTGTTGGGCTCGCTGTTCATCGTCGCCATCCTGCATACCTACCGCAATCTCGCCGGGCTGATTGTCAGGGCAGGGGGCGGAGGGGCTGTGTTCGTCGGCGAGCAGGCGCGTTTCCGGGTGCGCCTGGAAAGCGCCGGGCGGGCGCACCAGGCCGTCGCCCTGGGCTGGCCGCCGGCGCCGTTGCAGGCGCTGGATGTGCCTGCGCAGGGGCTCAGCGAATGCGAGCTGAGCCAGCCGGCATTGCGACGCGGCTGGCTGCGGCCCGGCCGTCTGCGGATCGAGAGCCGCTTCCCGCTAGGCATTTTGGTGGCCTGGAGCTGGGTCGATCTGGATCAGGCGCTGCTGGTCTATCCGCGCCCGCTGGAGGGTGACCTGCCCTTGTCGGTCGGTGCGCAAGAGGATGAGGACGACGAGGGGCGCCGTGCCCAAGGGCCGGGCGCCGACGATTACCAGGGGCTCAAGCCTTACCAGCCCGGCGACTCCAAGCGCCGTTTGCACTGGAAGGCGTTCTCCCGTGGGCATGGGCTGTTGGTGAAGGACTTCGCCGCCCTGGCGGGGCGCGACCTGTGCCTGGATTTCGACGCGCTGGAAGGCGACCCGGAACATCGGCTGTCGCTGCTCTGCCATTGGGTGCTGCAGTTCTCCGAGCGCCTGCAACCGTTCGCCTTGCGCTTGCCAGATCAGTTCCTGCCGTTGGACAGCGGCGAGGCGCACCGTGAGGCCTGTCTGCGGGCATTAGCGTTGTACGGGGACCCGCGATGA	MAAHPLKARWNRWLERRIPAAASVRLNQRRIFIIPTRVGLAFGIALLLMLLAAINYQNSLAYALTFLLGSLFIVAILHTYRNLAGLIVRAGGGGAVFVGEQARFRVRLESAGRAHQAVALGWPPAPLQALDVPAQGLSECELSQPALRRGWLRPGRLRIESRFPLGILVAWSWVDLDQALLVYPRPLEGDLPLSVGAQEDEDDEGRRAQGPGADDYQGLKPYQPGDSKRRLHWKAFSRGHGLLVKDFAALAGRDLCLDFDALEGDPEHRLSLLCHWVLQFSERLQPFALRLPDQFLPLDSGEAHREACLRALALYGDPR				NA	NA	NA	NA	NA
BMS010_02980	1995	tgpA	COG1305	Protein-glutamine gamma-glutamyltransferase	ATGAGCCGGACACCGGAGGCGATCCCGCGGATCAGCCTGACCTGGCTGCTGGTGGCCCAGGTCCTGGTGATCCTGCCGCACCTGATCCACCTGCCGCTGTGGATCGTCTTCCTCTGGCTCGGCTGTGCCGGCTGGCGGATTCAGGTGTTCCTGATGCGGGCGCGCTATCCCAACGCCTGGATCAAGCTCGGCCTGTTGCTCGGTACGGGATTCGGTGTGTTCTTCTCCCGCGGCAGCCTGATCGGGTTGGAGGCCGGCAGTGTCCTGCTGATTGCCGCGTTCATCCTCAAGCTGCTGGAGATGCGCAGCCGCCGCGATGCGCTGGTATTGATCTTCCTCGGCTTCTTCGCCGTGGTCACGGCGTATCTCTTCGACGACAGCATCGTCAGTGCGCTATACAGCCTGCTGCCGGTGACCGCCTTACTGGCGGCGTTGATCGGCCTGCAGCAGACTCGCTTCGCCGAGCGGCCCTGGCCGACCCTGCGCCTGGCCGGGGGAATGCTGCTGCAAGCGCTGCCGTTGATGCTGCTGCTGTTCGTCTTCTTTCCCCGCCTGGGGCCGCTGTGGACTTTGCCGCAACCGGGCGACCAGGGCGTGACCGGCCTCTCCGACAGCATGGCGCCGGGCGATATCGCCGAGCTGAGTCAGTCCGGCGCTTTGGCGTTCCGGGCCAGTTTCGACGGCGAGCCGCCACCGCGCCAGCAACTCTACTGGCGCGCCCTGACCCTGGAACACTTCGACGGCCGCCGCTGGTCGCAGTCGCCCGGCGCGCACCTGCCAATCCCCCCGCGCTGGGAACGGAAAGGGACGCCGCTGCAGTACAGCATCGTCATGGAGCCCAGCCAGCGGCCCTGGTTGTTCAGCCTGGATATCGGCGAGACCTCATTGGACCGGGCGCGGATGATGAACGACTTCCGCCTGGAGTATTACCGCCCGGTGGACCGTTCGCTGCTCTATCGGGTGGTGTCCTGGCCGCAGGCAGTGCGCGAGCCGCAGCTGGCGGGCGGACAATTGCGCCGGGCCTTGCAACTGCCGGAAACGGGCAACCCGCGCACACGTGAATGGGCCGAGACCTTGAAGCGACAGTATCCCCAGCCTGACGATCTGGCGCAGGCGCTGCTGACGCATTTCAACCGCGAGCCCTATGTCTATACCCTGAAACCGCCGCTGGCTGGCGCCGACGGGATCGACGAGTTCCTGTTCGACACCCGGCGCGGTTTCTGTGCGCACTACGCCGGCGCCATGACCTTCGCCCTGCGTGTCGCCGGCATTCCCGCGCGGGTGGTCGCCGGCTATCAGGGGGGTGAGTACAACCCGTCCGGTCGTTACCTTTCGGTGCATCAGTTCGATGCCCATGCCTGGGTCGAGTACTGGCAACCGGGGAAGGGCTGGGTCAGCGCCGATCCGACCTTCCAGGTCGCTCCCGAGCGGATCGAACAGGGCCTCGAACAGGCCGTGGCGGAAGAACAGAGCTTTCTCGCCAGCTCGCCATTTTCACCGCTGCGCTACCGCAACATCGGCTGGATCAACCAACTGCGCCTGACCTGGGATCGCGTCAACTACGGCTGGCAGCGCTGGGTCCTGGGCTACCAGGGGGACCAGCAGTTGGAGGTGTTGCAGCGCTGGTTCGGCCGCATCGATAACGGCGTCCTGGCGGTGGTCCTGGTCGGTGGCGGCGGGCTGTTGCTGGGCCTGCTGGCGCTGTTGTTGTTCAAGCCCTGGCGCCGTGAGCGCGATCCCCAGCAGCGCCTGTTCCTCCGCTTCGAGCGTCTGTTGGCGCGTCATGGCCTGCGCCGGCGGACCGGAGAGGGGCCGCGTGCCTTCGCCGAACGCGCGTCCCTGGCGCTCCCGGCGCAGGCGGAGGCGATACAGGCTTTCGTCCGGGTCTACGAAGCGCAGCGCTATGGCGGGCAGAAGGCTTCGCCGGCCACCTTGCGACAGGCCCTGGCACATGTGCGCCGAGATTTGCCCTGGCGCCTCACGCGCGCCGATTGA	MSRTPEAIPRISLTWLLVAQVLVILPHLIHLPLWIVFLWLGCAGWRIQVFLMRARYPNAWIKLGLLLGTGFGVFFSRGSLIGLEAGSVLLIAAFILKLLEMRSRRDALVLIFLGFFAVVTAYLFDDSIVSALYSLLPVTALLAALIGLQQTRFAERPWPTLRLAGGMLLQALPLMLLLFVFFPRLGPLWTLPQPGDQGVTGLSDSMAPGDIAELSQSGALAFRASFDGEPPPRQQLYWRALTLEHFDGRRWSQSPGAHLPIPPRWERKGTPLQYSIVMEPSQRPWLFSLDIGETSLDRARMMNDFRLEYYRPVDRSLLYRVVSWPQAVREPQLAGGQLRRALQLPETGNPRTREWAETLKRQYPQPDDLAQALLTHFNREPYVYTLKPPLAGADGIDEFLFDTRRGFCAHYAGAMTFALRVAGIPARVVAGYQGGEYNPSGRYLSVHQFDAHAWVEYWQPGKGWVSADPTFQVAPERIEQGLEQAVAEEQSFLASSPFSPLRYRNIGWINQLRLTWDRVNYGWQRWVLGYQGDQQLEVLQRWFGRIDNGVLAVVLVGGGGLLLGLLALLLFKPWRRERDPQQRLFLRFERLLARHGLRRRTGEGPRAFAERASLALPAQAEAIQAFVRVYEAQRYGGQKASPATLRQALAHVRRDLPWRLTRAD				NA	NA	NA	NA	NA
BMS010_02981	768			hypothetical protein	ATGAGCCGTTTCATCGATGCGCTGATTGCCCAGGTGCTGACGCTGGAAGTGCAACTGCGAGCCAGCCAGGCGCGCCTGGTGGCACGTACCGACACCGAGGCATTGCACGATCTGCGCATCGCCTTGCGCAGGCTGCGCAGCCTGCTGCGGCCGTTGCGCGATCTGCCGGGTGTCGAGCCCTTGCGCGCGGCGGCCGGGGCCGTCGGCGAGTTGAGCGGGCCGCTGCGTGACCTCGAGGTGCTGCTGCCGGAGCTGCGGGCGAAAGGCCTGAGGGATGCGGAGGCCGTGCGCCTGGCCCGACTCGAAGCCGGTTATGAACGTTTGCTCGCGTCTTCCGCCTTGGAGCGATTGTTTCGTCATCTCGATGCCTGGCCGGCGCTCTGGCGTCAGGCACAGCGCAGCGGGGCCTTGAGCGGCCTGCGCAAACGCGTGCGCAAGCGTCTCGTCAAGCAGCGACGGCAATTGGCCCGGGCCCTGCGGGATCCGGCCCATGACCGCCATCGGCTGCGCCTGTTGATCAAGCGCGTGCGCTATGGCTTCGATGCGTACCCGGAACTGATCCCGGTCGGCGGCGACGAGCCCGCGCGGCTCAAGGCTGCCCAGTCCGCCCTGGGAGACTGGCATGACCGGCTCCAGTGGCTGGCACGTGCCGAGGCGGAGCCCGATCTTCAGCCCTTGGCCGGCGCTTGGCGGGCGGAGCTGACCGAGGCCGAGCAGCGCGCGGACCAGACCCTGGAGTTGCTGCTGGAACATTTTCCTGAACGCTGA	MSRFIDALIAQVLTLEVQLRASQARLVARTDTEALHDLRIALRRLRSLLRPLRDLPGVEPLRAAAGAVGELSGPLRDLEVLLPELRAKGLRDAEAVRLARLEAGYERLLASSALERLFRHLDAWPALWRQAQRSGALSGLRKRVRKRLVKQRRQLARALRDPAHDRHRLRLLIKRVRYGFDAYPELIPVGGDEPARLKAAQSALGDWHDRLQWLARAEAEPDLQPLAGAWRAELTEAEQRADQTLELLLEHFPER				NA	NA	NA	NA	NA
BMS010_02982	795			hypothetical protein	ATGACGTTTTCCGAAATGATCCAGGCGGCGCGTGCTAACCCTGAAGCGGTGGTGGTGCCGGGCCTGTGGGGACAGGGGCGTGCGGCGTTCGGCGGAATGGCTGCCGCGCTGGTCTACGAGGCCATGCGTGCGCAAGTGCCCGAGGGGCGTCCGGTCCGCTCGTTGGCCATCACCTTCGTCGGTCCCTTGACCTGCGACGTGCCGGTCAGACTGGAGGCGGAAGTGCTGCGTGAGGGGAAGGCCGTCAGCCAGGTGCTGGGGCGGGCGGTGCAGGATGGCCAGGTGGTTACGCTGGTGCAGGGGAGCTTCGGTGCGTCCCGCGCATCGGAGGTCGCCGTGTCGAGTGAGGCGCCACCGCCCATGAAGCCGGTGGATGAGTGCCAGGAGCTGCCCTTCGTCAAAGGCGTCCTGCCGGAATTCACCCGCTTCCTGGCGATGCGCTGGGGCGTGGGCGGTTTGCCGTTCAGCAACACGCCGTCCCGCCAGATGGGCGGCTGGGTGCGCTTGCGCGGTGCTGAGGAGGAGCGGGTCGATGAGTCCCACCTGCTGGCGCTGGTGGATGCCTGGCCGCCAGCCGTACTGCCACACTTGAAGACGCCGGCACCCGGCAGCTCGCTGACCTGGACCATCGAGTTCGTCCAGCCGACGCCCGACCTGAGCACGCTGGACTGGTGTCTGTATCAGGCCGAGATCGAGCATGCCCGCGATGGTTATGGGCACATCGCTGCCGCCCTATGGAGCCCGTCTGGCGAACTGGTGGCGATCAGCCGGCAGACGGTGACCGTGTTCGGCTGA	MTFSEMIQAARANPEAVVVPGLWGQGRAAFGGMAAALVYEAMRAQVPEGRPVRSLAITFVGPLTCDVPVRLEAEVLREGKAVSQVLGRAVQDGQVVTLVQGSFGASRASEVAVSSEAPPPMKPVDECQELPFVKGVLPEFTRFLAMRWGVGGLPFSNTPSRQMGGWVRLRGAEEERVDESHLLALVDAWPPAVLPHLKTPAPGSSLTWTIEFVQPTPDLSTLDWCLYQAEIEHARDGYGHIAAALWSPSGELVAISRQTVTVFG				NA	NA	NA	NA	NA
BMS010_02983	363			hypothetical protein	ATGGCCGTCAAGCGTCATCCCCACCCGCTCAACTGGCAATGGCGTGGCTACGCCACCAACCACCGGCATCCGACCAACCTGGTCCTGCATCTGATCGCCGTGCCGTTGTTCATCCTTTCCACCCTGCTGTTGCTCACCGCGCTGTTCCAGCTGCGCCTGTTGCCCTTGCTGCTCGGGGTGATCGGCCTGTTCGCGGCGCTCGCCCTGCAGCAGCATGGCCATCGCCTCGAAGAACATGCGCCGGAACCTTTCCTGGATCGGCAGGATGCCGTCGAACGTCTGCTGATGGAGCAGTTCGTCACCTTCCCCCGCTTCCTGCTCAGCGGAGGCTGGTGGCGGGCCTGGAAAAACCGCCGGCGCTGA	MAVKRHPHPLNWQWRGYATNHRHPTNLVLHLIAVPLFILSTLLLLTALFQLRLLPLLLGVIGLFAALALQQHGHRLEEHAPEPFLDRQDAVERLLMEQFVTFPRFLLSGGWWRAWKNRRR				NA	NA	NA	NA	NA
BMS010_02984	1482			hypothetical protein	ATGGGCGACTGGATGCGCGACATTTCGCTGAAGTACAAGTTCTGGGCCGTCAACGCAGTAGCGTTCGTCACTACCCTGCTGCTGGTGCTCTACGCCATGCAGCTCGAACACCTCGCCCGGGTCGCCGATGCCCAGGCCATCGCCCAGGAACGGGCCCGTCTGCTGACGGCCTGGCCAGCCGGGCAGCCCCTGCCCAGCGATGCGAACCTGCTGCGCTTCACCAACGGCGAAACACCGAAACTCGCTAACGGTGCCGGCAATACCCTGAGCCGCGCCCGCGGCTGGGTCGAACTGGAGCATGACGGCCTGTTCGGCAGCGATCCGCTGATCGGCGCCCAGGTCATCGATCTCCCCGATGGGCAGCGCCTGGCCGTGCTGGCGCACGCTCCGAGCCTGATCCAGGTGTTCGCCACGCGCGCCTTCAATTACGCCGTGGCCGTCGGCATCCTGATGCTGATCCTGCTCGGTGCCTCCCAGTTGCTCATCCGCTTCTTGCTCACCCACCTGAATACCTTGAAGGACGTCATGCTCCATGTGGAGAAGAGTGGCGACCTGTCCGCCCGCGTGCCGCTAGACAGCCGCGACGAAGTCGGCCAAATGGCCAGCGCCTTCAATGCCATGCAGGCCGGTTACCAACGTGTCGTCGGCACCGTTGCGCAGGCGGCGACGCGCCTGGACGAAGGCGCCGCACGCCTGGCGACCAGCATGAACGATGTCCGCCACGGCATGCTCGGTCAGCAGAGCGAAACCGACCAGGCGGCCACTGCGATCAACGAGATGTCCGCAACCGTGCACCACATCGCCCAGCACACCGCGGATACCCGTGATCAATCGAAGAACGCCGACCAGTTGGCCGGTGCCGGGCAGCAAGTGGTCGGCCGCGTCGAGCAGTCCATCGCCGGGCTCTCCAGCGGCGTGCAACAGACCGCCGAAATGATCCGCAAGCTCGCCGAGGACAGCCAAAAGATCAGCAGCGTGGTCAGTGTGATCCACGGCATCGCCGAACAAACCAACCTGCTCGCCCTCAACGCCGCCATCGAGGCCGCCCGTGCCGGCGAAATGGGCCGTGGCTTCGCCGTGGTGGCCGACGAGGTGCGCAACCTCGCCAAGCGCGTGCAGGACTCCACCGATGAGATCACCAACATGATCGGTGCACTCCAGGCCGGCACCCGCGATGCCGTGGAGTTCATGCAGGAGAGCTCGCTCAAGGCCGACGACTGTGTGCAACTGGCCCATGAGGCCGGCGCCGCCCTGACCGCCATCGCCGGAGCGGTGGCGCAGATGCGTGAAAGCAACACGCAGATCGCGGTCGCCGCCGAGCAGCAGAGCCAGGTCGCCGAAGAGATGAGCCGCGCCGTGGTGAGCATCCGCGACGTCACCGAACAGACCGTGCAGCAGACCGTCGATTCCGCCAGCACCAGCAGCGAACTGGCCTCGCTGGCCGGCGAGCTGAGCCGGGCGATCCGCCAGCTCAAGCTGTAA	MGDWMRDISLKYKFWAVNAVAFVTTLLLVLYAMQLEHLARVADAQAIAQERARLLTAWPAGQPLPSDANLLRFTNGETPKLANGAGNTLSRARGWVELEHDGLFGSDPLIGAQVIDLPDGQRLAVLAHAPSLIQVFATRAFNYAVAVGILMLILLGASQLLIRFLLTHLNTLKDVMLHVEKSGDLSARVPLDSRDEVGQMASAFNAMQAGYQRVVGTVAQAATRLDEGAARLATSMNDVRHGMLGQQSETDQAATAINEMSATVHHIAQHTADTRDQSKNADQLAGAGQQVVGRVEQSIAGLSSGVQQTAEMIRKLAEDSQKISSVVSVIHGIAEQTNLLALNAAIEAARAGEMGRGFAVVADEVRNLAKRVQDSTDEITNMIGALQAGTRDAVEFMQESSLKADDCVQLAHEAGAALTAIAGAVAQMRESNTQIAVAAEQQSQVAEEMSRAVVSIRDVTEQTVQQTVDSASTSSELASLAGELSRAIRQLKL				NA	NA	NA	NA	NA
BMS010_02985	807	tatD	COG0084	3'-5' ssDNA/RNA exonuclease TatD	ATGCAACTCATCGACATCGGCGTCAATCTGACCCATCCGAGCTTCGACCAGGAGCGTGAGGCACTGCTCGTTCGTGCCTTCGAGGCCGGCGTTTGCCAGTTGGTGCTGACCGGCACCAGCCTCGACGAAAGCGAGCAGGCGCTCCGGCTCTGTCGGCAACTGGACGAAAGCGGCAAACGCCTGTTCAGCACCGCCGGCATCCATCCCCACGACGCCAGCCACTGGAATGCCGGTAGCACCGGACAACTGCGTTCGCTGTTGAAGGAACCGGAAGTACGCGCCGTCGGCGAGTGCGGCCTGGACTTCAATCGCGACTTCTCCCCGCGCCCGCAGCAGGAAAAAGCCTTGGAGGAGCAGCTCGTGCTGGCGGCGGAGCTGCAGATGCCGGTCTTCCTTCATGAGCGCGATGCGGACCAGCGCCTGCTGGCCATCCTGCGCGACTACCGGGACCGCCTCCCTGCCGCGGTAGTGCACTGCTTCACCGGCGAGAAACGCGCCCTGTTCGGCTATCTCGACATGGACCTGCACATCGGTATCACCGGCTGGATCTGCGACGAGCGCCGCGGCACGCATCTGCATCCGCTGGTCCGCGAGATTCCCGCCGGGCGACTGATGCTGGAGAGCGACGCCCCCTACCTGTTGCCACGCAGCCTCAAGCCAAGACCGAAGAACAACCGCAACGAACCCGCCTACCTGAGTGAAGTGCTGCGCGAAGTCGCCCACCATCGCCAGGAAACGCCGGAAGCCCTGGCCGCGCATACCACGGCCTGCGCCCGGCGTTTCTTCGGCCTGCCGGCGATCGACTGA	MQLIDIGVNLTHPSFDQEREALLVRAFEAGVCQLVLTGTSLDESEQALRLCRQLDESGKRLFSTAGIHPHDASHWNAGSTGQLRSLLKEPEVRAVGECGLDFNRDFSPRPQQEKALEEQLVLAAELQMPVFLHERDADQRLLAILRDYRDRLPAAVVHCFTGEKRALFGYLDMDLHIGITGWICDERRGTHLHPLVREIPAGRLMLESDAPYLLPRSLKPRPKNNRNEPAYLSEVLREVAHHRQETPEALAAHTTACARRFFGLPAID				NA	NA	NA	NA	NA
BMS010_02986	1422	mltF_2	COG4623	Membrane-bound lytic murein transglycosylase F	ATGACGCGACCCTCGGTGCTCTTGCTTTGCCTGCTGATGCTGCTTCCGGTGGCGGCGGCCGCGCGTGTGGCCGGCCCGCCCGAGGCCTGGCAGCAGCCGGGCACGGTACGTGACCTGGCGGAAATTCGCCGGAGCGGCGTCTTGCGCGTGCTGGTCAACCAGAGCCGCAACAGTTCCGGCGAGGTCAAGGGGCAGGCCATCGGCGTCGAATACCATCGCCTGCGCGCGCTCGAGCAATACTTGAACCGCAACGCGCGGGATGGCCGCAGCCTCACCCTGAAAATCATTCCCAAGGCCAAGGATCAGTTGCTCGCTGCCTTGCAGCGTGGCGAGGGGGATCTGGTCGCGCCCGGCGAGTTGTTCGGCGGCAAGGCGGGGCGTGACCTGAGCGCCAGCGCGGCGATTCGCGAGCACGTGCCGCTCCTGCTGGTTTCCCGGCAGGGCAGCCGGCGCTACCAGCGTCTCGAACAACTGGCCGGACGCAGTCTGGCATTGCCTGCCGGGAGCGCGGCCGGCGAGGCGATACGCGTGGTCAACCAGCAGTTGGCGCAGCGGAGAATGGCACCCATCGTGATCGAGTGGGTCGATCCGACGCTGGCGGTGGAAGATGTGCTGGAAATGGTCCAGGCGGGCATCTACCCGATGACTGCCGTCGAGCAGCCCATCGCCGAGCGTTGGGCCAAGGTGCTGCCGAAACTGCGCATCGAACGTCATCTGGTCCTGAGCAACCAGGGCAACATGAGCTGGTTCATGCGCCGGGATGCCTCGATGCTGCGCGCCAACGTCGATCGCTTCCTCAAGGGCTACCGCAGTCCGGCCGATCTGGACAGTGCGTTCCAGCGCACCTACCGGCGCCTCTACAAAGTGCATTACCCGTTGAATCGGGGCGACCGCCAGCGTCTGGAAAAGGTGCGCCCGGTGCTGCAGCGCTATGCCGAGCAGCATGAATTCGATTGGTTGAACCTCGCCGCGCTAGCGTTCAAGGAGTCCACCCTCAATCCAGCGGCGCGCGGTGCCAGTGGGGCTACCGGGCTGATGCAGATCACCCCGTCCGCCGCGCGGAGTGTCGGGGTGGGCAATATCCAGAACCTGGACGGCAACGTGCAGGCTGGCGCCAAGTACCTGGCGACGATTCGCCGTAATTTCTTCGCCAGCGCCCAGCTCAATGAGCGCGAGCGCATGGCGTTCGTCCTGGCCGCCTACAACTTGGGCCCGCAACGAGTCCAGGGTTTGCGTGCCGAGGCGCGTCGGCGCGGGCTCAATCCCAACCAGTGGTTCTTCCAGGTGGAGCGGGTCGCCGCCGAGCAGGTCGGCATGGGGGTGGTCAGCTACGTCAATAGCGTCAATAAGTACTACCTGGCCTATGCTCGCGAGAGGTATTTGCTAGAGCCACAAGCGCAGACGGCGGGGAGAAATCGCTGA	MTRPSVLLLCLLMLLPVAAAARVAGPPEAWQQPGTVRDLAEIRRSGVLRVLVNQSRNSSGEVKGQAIGVEYHRLRALEQYLNRNARDGRSLTLKIIPKAKDQLLAALQRGEGDLVAPGELFGGKAGRDLSASAAIREHVPLLLVSRQGSRRYQRLEQLAGRSLALPAGSAAGEAIRVVNQQLAQRRMAPIVIEWVDPTLAVEDVLEMVQAGIYPMTAVEQPIAERWAKVLPKLRIERHLVLSNQGNMSWFMRRDASMLRANVDRFLKGYRSPADLDSAFQRTYRRLYKVHYPLNRGDRQRLEKVRPVLQRYAEQHEFDWLNLAALAFKESTLNPAARGASGATGLMQITPSAARSVGVGNIQNLDGNVQAGAKYLATIRRNFFASAQLNERERMAFVLAAYNLGPQRVQGLRAEARRRGLNPNQWFFQVERVAAEQVGMGVVSYVNSVNKYYLAYARERYLLEPQAQTAGRNR				NA	NA	NA	NA	NA
BMS010_02987	435	mhqP	COG2259	Putative oxidoreductase MhqP	ATGAACAACCTGATCAAATCCATCACCTCCACCCAAGCCGGCTATGGCATTGCGCTGCTGCGTATCGTGACTGGTCTTACGTTCGCCGCGCACGGCTCGCAGAAGCTGTTCGGCTGGTTCGGCGGCTACGGCCTGGCTGGCGTAGGGCAGTGGATGGAAAGCATCGGCCTGACGCCCGGCTACCTGATGGCCCTGATGGCGGGTAGCGCCGAATTCTTCGGTGGCCTGGCACTGGTACTGGGCTTGTTGGTGCGCCCGGCCGCTGCGGCATTGATCGTGGCGATGCTGGTGGCGATATTCACCGTGCACTGGGTCAATGGCTTCTTCATCACCGCCAATGGCTTCGAGTACGCGATGATCCTCGCCCTGATCAGCGCCACCCTGCTCATCGAGGGGGCTGGCAAGCTGTCGCTGGACCGTCGCATCGCCGGTTGA	MNNLIKSITSTQAGYGIALLRIVTGLTFAAHGSQKLFGWFGGYGLAGVGQWMESIGLTPGYLMALMAGSAEFFGGLALVLGLLVRPAAAALIVAMLVAIFTVHWVNGFFITANGFEYAMILALISATLLIEGAGKLSLDRRIAG	PGPT0028505_3518	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROQUINONE-DERIVATE_RESISTANCE,PGPT0028505-catD-K15977	NA	NA
BMS010_02988	1014	lifO_1	COG5380	Lipase chaperone	GTGAAAAAACTGCTGCTTCTGCCCCCTCTGGTTTTCGTCGGTTGCGTGGCCCTGGTTCTGGCCCTACCACCGTCAGTCGCTACCACAGGGGCCAAGGCTCCCCAAGCCAACACCCCAACGACCGCCATCCCCTCGCCCGCGCCGACCACGCCCCTCAGCCCGGAGCGTGCCCTGGCCACGCCAAGCTCATTGGCGGGAACCCAGGTCGACGGCATCTTCCGTGTCGATGCCAAGGGCGACCTGCTGATCAGCGAAGACATCCGGCGCATCTTCGATTACTTCCTCAGCTCGGTCGGAGAAGAATCGCTGGTCCGCAGCCTCGAGCGGCTACGGGCCTATATCGCCGGGCAACTGGAGCAGCCGGCTGAAGCCCAGGCCCTGGCGCTGCTGGACCAATACCTGACCTACAAACGGGAACTGGTCCTGCTGGAGCGCAACCTGCCGCAACTGGCCGACCTGGAGGCCCTCCGCCATCGTGAACAGGCGGTGCAGGCACTACGGGCACGCCTGTTCAGCGATGACGTGCGGCAAGCGTTCTTCTCCCGCGAAGAAGCCTACAACCGCTTCACCCTGGAACGCCTGGCCATTCAACAGGATGCCTCGCTCGATGCGGCGGGCAAGGCCGCCGCCGTCGATCGTCTGCGCGAAAGCCTGCCGGAAGAACTGCAAGCCAATGTTCTGCCGCAACTGCAGGCCGACTTGCGCAATCGAACCTCCGAATTGCGCGCCCAAGGCGCCTCCGCCGAACAGATTCGCCAATTGCGCCTGCAACTGGTGGGCGCCGACGCCACCCAGCGCCTGGAAGAACTGGACCGCAAGCGGGACGCCTGGAAGCAACGGGTAAGGGCCTACAGCGAGGCCAAGGCGGAGATCGATGCCAATCCGGGACTCAGTGCCAGCGACAGGGAAGCCGCCATCCGGCAACTGGCGGAGGACAGCTTCGACGAGCACGAGCGCTTGCGTCTGGACGCTGCCGAGCAATTGACCGTAGCGAAGGACGCAAACGGCGCTTAG	MKKLLLLPPLVFVGCVALVLALPPSVATTGAKAPQANTPTTAIPSPAPTTPLSPERALATPSSLAGTQVDGIFRVDAKGDLLISEDIRRIFDYFLSSVGEESLVRSLERLRAYIAGQLEQPAEAQALALLDQYLTYKRELVLLERNLPQLADLEALRHREQAVQALRARLFSDDVRQAFFSREEAYNRFTLERLAIQQDASLDAAGKAAAVDRLRESLPEELQANVLPQLQADLRNRTSELRAQGASAEQIRQLRLQLVGADATQRLEELDRKRDAWKQRVRAYSEAKAEIDANPGLSASDREAAIRQLAEDSFDEHERLRLDAAEQLTVAKDANGA				NA	NA	NA	NA	NA
BMS010_02989	942	lip	COG1075	Triacylglycerol lipase	ATGAAGAACAAGAAAACCCTGCTCGCCCTCTGCCTCGGCGCCGGCCTGGCCCTGTCCACCCAGACACAGGCGTTCTGGTTCGGTTCCAGCGGCTACACCCAGACCAAGTACCCCATCGTCCTGGCCCATGGCATGCTGGGTTTCGACAGCATCCTGGGCGTCGACTACTGGTACGGCATCCCATCCGCCCTGCGCCGCGATGGCGCTAGTGTCTACGTCACCGAAGTCAGTCAGCTGGACACGTCGGAAGCACGGGGCGAACAGTTGCTCGAGCAGGTCGAGGAAATCGTCGCGATCAGCGGCAAGCCGAAGGTCAACCTGATCGGTCACAGCCATGGCGGCCCGACCATCCGCTATGTCGCCGCCGTGCGCCCGGATCTGGTGGCCTCGATCACCAGTGTCGGCTCGCCGCACAAAGGCTCGGCCACCGCCGATTTCATCCGTCAGGTGCCGGAAGGCTCCGCCGGTGAAGCAGTGCTGGCCGGCATCGTCAATGGTCTCGGTGCGCTGATCAGCTTCCTGTCCAGCGGCGATCCGGGCGAACAGAACGCCCTCGGCTCGCTGGAGTCGCTCAACAGCGAAGGCGCCGCCCGCTTCAATGCCAAGTTTCCCCAGGGCGTTCCCACCAGCGCCTGCGGCGAAGGGGCCTATCAGGTCAGCGGTGTGCGCTATTACTCCTGGAGCGGCACCAGCCCATTGACCAACATCCTCGACGTCAGCGACCTGATGCTCGGCGCTTCGTCCCTCACCTTCAACGGCGAAGACAACGATGGCCTGGTCGGTCGCTGCAGCTCCCACCTGGGCCAGGTGATCCGCGACAACTACCGGATGAACCACCTCGACGAGGTCAACCAGACCTTCGGCCTCACCAGCCTGTTCGAGACCGATCCGATCACGGTCTATCGCCAGCACGCCAATCGCTTGAAGAACGCAGGCCTTTAA	MKNKKTLLALCLGAGLALSTQTQAFWFGSSGYTQTKYPIVLAHGMLGFDSILGVDYWYGIPSALRRDGASVYVTEVSQLDTSEARGEQLLEQVEEIVAISGKPKVNLIGHSHGGPTIRYVAAVRPDLVASITSVGSPHKGSATADFIRQVPEGSAGEAVLAGIVNGLGALISFLSSGDPGEQNALGSLESLNSEGAARFNAKFPQGVPTSACGEGAYQVSGVRYYSWSGTSPLTNILDVSDLMLGASSLTFNGEDNDGLVGRCSSHLGQVIRDNYRMNHLDEVNQTFGLTSLFETDPITVYRQHANRLKNAGL	PGPT0024445_1142	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_LIPASE_ACTIVITY,PGPT0024445-lip|lipC-K01046	NA	NA
BMS010_02990	531	thpR_2	COG1514	RNA 2',3'-cyclic phosphodiesterase	ATGACGACGCCCTCCCTGCGCCTGTTCTTCGCCCTGCCGTGCCCCCTCGAACTGGCCCGCGCCATCGCGGACTGGCGCGACGCCCTGGAACTGGACGGCAAGCCGGTCGCCGCCGCCAACCTGCACCTGACCCTGGCCTTCCTCGGCAGTCAGCCGCGCGGCCGGGTCGACGAACTGAAGAGCCTGGCTTCCGCCTGTACGACCGGTGCATTCGCACTGCGCCTGGACCGCCTTGGATGCTGGCGCAACGGCCTGCTCCACCTGGATGCCAGCCATCCGCCCGAGGCGCTGTTGCAACTGGAGCGACAGCTCCGGCAGGCGCTGCTGGGTGCCGGCTTCGAGCCGGAACGCCGGCCTTTTCACGCTCATCTGACCTTGGCGCGCCGCTGCACCCGAATGCCTGCCGGCGTCATCCCAACCTTCGATTGGCTGGCCGATCGCTTCAGCCTGTTTGTCTCCGAAAACAGCCCCAAAGGCACCCACTACCGCACACTTGCCGACTGGCCGTTACGAGTTCCCGACACGATTTGA	MTTPSLRLFFALPCPLELARAIADWRDALELDGKPVAAANLHLTLAFLGSQPRGRVDELKSLASACTTGAFALRLDRLGCWRNGLLHLDASHPPEALLQLERQLRQALLGAGFEPERRPFHAHLTLARRCTRMPAGVIPTFDWLADRFSLFVSENSPKGTHYRTLADWPLRVPDTI				NA	NA	NA	NA	NA
BMS010_02991	309			hypothetical protein	ATGACTCACACCCAACCTCTCGTTCGCCTGGCCCCTATCACATCGGGGCTGACGCATCGCAATCCCCGGATTCTCCTTGGTGGCTCCCACCAGCCCACCTTGCTGCGCTATCTGGATGGATGGCCGAAGCGCTGGGGCAAGCCGCGCACCTTCCTGATCCACTTCGCCCATGACGACGATTCGCTCGGACGTTTCGCCAGCGATAGCTTCGATCTCGCGGTGATCCAGGCGCCCAGCCGCGAACGGCTGGACGCTTCGATCCGGGAACTGACCCGTGTCGCCCGGCAGGGGCTGATCACCCGCCGCTGA	MTHTQPLVRLAPITSGLTHRNPRILLGGSHQPTLLRYLDGWPKRWGKPRTFLIHFAHDDDSLGRFASDSFDLAVIQAPSRERLDASIRELTRVARQGLITRR				NA	NA	NA	NA	NA
BMS010_02992	510	greB_2	COG0782	Transcription elongation factor GreB	ATGAGTCGCTATCGTCCCCCTCGCTCCGCCGGTACCCCGTTGATCACCCCCGAAGGCGAAGCACGCCTGCGTGCCGAGCTGCATGAACTCTGGCACGTGCGCCGCCCCAAGGTGACTCAGGCGGTCAGCGAAGCCGCCGCCCAGGGCGACCGCTCGGAGAATGCCGAATACACCTATGGCAAGAAGATGCTGCGCGAGATCGACAGCCGGGTCCGCTTTCTCAGCAAACGCCTTGAAAACCTCAAGGTGGTCAACGAACGGCCAGCCGATCCGAACAAGGTCTACTTCGGCGCCTGGGTCACCCTGGAAAACGAAGACGGTAACGAATCGCGCTACCGCATCGTCGGGCCGGACGAACTGGATTTGAAACAGAACCTCATCAGCATCGATTCCCCCCTGGCCCGTGCACTGCTCGGCAAGACCCTCGACGCCGAAGTGCGGGTGCAAACCCCCACTGGCGAGAAGACCTGGTACCTGGTGGCTATCGAATACCCGCTCAGCGGCGGGTGA	MSRYRPPRSAGTPLITPEGEARLRAELHELWHVRRPKVTQAVSEAAAQGDRSENAEYTYGKKMLREIDSRVRFLSKRLENLKVVNERPADPNKVYFGAWVTLENEDGNESRYRIVGPDELDLKQNLISIDSPLARALLGKTLDAEVRVQTPTGEKTWYLVAIEYPLSGG	PGPT0030495_2727	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TRANSCRIPTIONAL_CONTROL	PUTATIVE-TRANSCRIPTIONAL_CONTROL-1,PGPT0030495-greA-K03624
BMS010_02993	2505			hypothetical protein	ATGAACGGCCTGCCACTGTCCCGCCTGTGCTTGCTCGCCGCGCGCCAGTTGATTCGCGATACCCGCGCTGGCGAAATGCGCGTGCTGTTCTTCGCCCTGTTGGTCGCAGTGGCAGCCAGCACCGCCATCGGCTATTTCAGCGCCCGCTTGAACGGCGCCATGCTGATGCGGGCAACCGAATTCCTCGGGGCCGACCTGCTGCTCAGCGGCAGCTCTCTGGCACGGCCCGAGCAGATAGAAGCGGGCCAGCGGCTCGGCCTGGACCACGCACAGGTCGTCGAGTTTTCCAGCGTGATCGCTACGGATGAGGGCATCCAGCTATCCAGTGTGAAGGCGGCGGATGACGCCTATCCCCTGCGCGGCCAGTTGAAAAGCGCCCCCGAGCCCTATCAACCCGAGGAGCCCGGCGAAGGGCCCCGACCCGGCGAAGCCTGGGCCGAGGCCCGCCTGTTCGCGGCGCTGAACCTGAAGGTCGGCGACACCATCGAGATCGGCGAAAAGCCACTGCGTCTGAGCCGGGTCTTGACCTACGAGCCGGATCGCGCCGGCGATTTCTACAGCCTGACACCTCGTGTACTGATGCATCTGGACGACTTGGTGGCCACCGGCGTGGTCCAGCCGGGCAGCCGGGTCCGCTACAAGGAACTCTGGCGAGGCACTCCCGAAGCCCTGGCAGCCTATCGCGAAGCGGCGAAGCCCGGGCTGGCAGCCAACCAGCGCCTGGAGGACGCTCGCGACGGTAATCGCCAGATCGGCGGTGCCCTGGGACGGGCCGAGCGCTACCTGAATCTCGCCAGCCTGGCCGCGGTCCTGTTGGCCGGTGTCGCCGTAGCCCTCTCGGCCAGCCGCTTCGCCAGCCGGCGATTCGACGCCAGCGCCCTGCTCCGCTGCCTCGGCCTCTCGCGTCGAGAAGCACTTGGCCTCTATGGCCTGCAGTTGGCACTCCTCGGGCTGATCGCAAGCGCCTGCGGAGCCCTGCTCGGCTGGCTGGCCCAGTACGGCCTGTTCTATCTGCTTCGCGACCTGCTACCCGCCGACGTACCGGCCGGCGGCCTGCTTCCCGCCGTCGCCGGAATCGCCACTGGACTGGTCGCCCTTGGCGGCTTCGCCTTGCCGCCCCTGGCCGCCCTGGGCCGGGTACCGCCGCTGCGTGTCCTGCGCCGCGACGTGCTGCCGGTGCCACCGAGCACCTGGCTGGTCTACGGTACCGCCCTGCTCGCCCTCGGCCTGATCATGTGGCGCCTGAGCCTGGACCTGCCGCTGACCTTCGCCCTGCTCGGCGGTGGCCTCGTCGCCACGCTGATTCTCGGCGGTGGTCTACTGTTCGGTCTGCAGAGTCTGCGGCGCCTGCTCAAGCGTGCCGCACTGCCATGGCGTCTCGGGCTCGGCCAGTTGTTGCGTCACCCACTGGCAGCGGCGGGGCAATCCCTGGCCTTCGGCCTGATCCTGCTGGCTATGTCGCTGATCGTCCTGCTACGCAGCGAATTGCTGGACACCTGGCAGGACCAGTTGCCGGAGAACGCACCCAACCACTTCGCGCTCAACGTATTGCCGGCCGACAAGGATGCCTTCGCCGCGCGCCTGAGCGAGATGTCCCCCCACCCGGCACCGCTCTATCCCGTCGTGCCGGGACGCCTGATCGCAATCAACGGCGAACCCGTCAAGGACCTCGTCAGCAAGGACTCCCGAGGCGAACGGGCGATCCGTCGCGACCTCAGTCTGACCTGGGCGGCCGAGCTTCCCGGCGACAATCGCCTCAGCGCCGGTAGCTGGTGGAATACCGCCCATGCCAGCGAGCTGCCCGGCGTCTCCGTGGAAAGCGAGCTGGCCGAAAGCCTCAAGCTCGAGCTGGGCGACCGGCTCAGCTTCAGCGTCGGCGGCCTGACCCGCGACGCCCAGGTCACCAGCCTGCGCGACGTGGAGTGGGACAGCTTCCAGCCGAACTTCTACATGGTCTTCGAACCGGGAACCCTGCAGGACCTGCCGGCGACCTACCTGACCAGTTTCTACCTGCCGCCCCGCCACGAGCGCGAACTGGTCGAACTGGCCCGGGCTTTCCCGGCCGTCACCCTGTTGCAGGTGGATGCGCTGCTGGCGCAACTGCGCAGTATCCTCGCCCAGGTGACGCTGGCGATCGAATACGTGCTGCTGTTCGTGCTCGCTGCGGGACTGGCCGTGCTCTTCGCCGGCCTGCAAGCCACCCTGGATGAGCGTATCCGCCAAGGCGCCCTGCTGCGCGCCTTGGGCGCCGAGCGCGCCCTTCTGGTCAAGGCGCGCCGAGCCGAGTTCGCCCTGCTCGGCGCGGCCAGCGGTCTGCTGGCCGCGCTGGGCTGCGAACTGATCAGCGCCCTGCTCTATCGCTACGCCTTCGACCTGAACTGGCAGCCGCATCCCTGGCTGTTGCTGTTGCCCCTGGTAGGAGCCCTGCTGATCGGCGGCGCTGGCGTGCTCGGCACCCGTCGTGCCTTGAATGCCAGTCCGCTGACGGTCCTGCGCGAAGGCTGA	MNGLPLSRLCLLAARQLIRDTRAGEMRVLFFALLVAVAASTAIGYFSARLNGAMLMRATEFLGADLLLSGSSLARPEQIEAGQRLGLDHAQVVEFSSVIATDEGIQLSSVKAADDAYPLRGQLKSAPEPYQPEEPGEGPRPGEAWAEARLFAALNLKVGDTIEIGEKPLRLSRVLTYEPDRAGDFYSLTPRVLMHLDDLVATGVVQPGSRVRYKELWRGTPEALAAYREAAKPGLAANQRLEDARDGNRQIGGALGRAERYLNLASLAAVLLAGVAVALSASRFASRRFDASALLRCLGLSRREALGLYGLQLALLGLIASACGALLGWLAQYGLFYLLRDLLPADVPAGGLLPAVAGIATGLVALGGFALPPLAALGRVPPLRVLRRDVLPVPPSTWLVYGTALLALGLIMWRLSLDLPLTFALLGGGLVATLILGGGLLFGLQSLRRLLKRAALPWRLGLGQLLRHPLAAAGQSLAFGLILLAMSLIVLLRSELLDTWQDQLPENAPNHFALNVLPADKDAFAARLSEMSPHPAPLYPVVPGRLIAINGEPVKDLVSKDSRGERAIRRDLSLTWAAELPGDNRLSAGSWWNTAHASELPGVSVESELAESLKLELGDRLSFSVGGLTRDAQVTSLRDVEWDSFQPNFYMVFEPGTLQDLPATYLTSFYLPPRHERELVELARAFPAVTLLQVDALLAQLRSILAQVTLAIEYVLLFVLAAGLAVLFAGLQATLDERIRQGALLRALGAERALLVKARRAEFALLGAASGLLAALGCELISALLYRYAFDLNWQPHPWLLLLPLVGALLIGGAGVLGTRRALNASPLTVLREG	PGPT0013350_4439	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
BMS010_02994	684	lolD_1	COG1136	Lipoprotein-releasing system ATP-binding protein LolD	ATGAGCCAAAGCATTCTCAGTGCGCGGAACCTTAACAAAGTGGTTCCCAGCGCGGAAGGCGAGCTGACCATCCTCCATGACCTCTGCCTCGAGCTGAATCGCGGCGACAGCCTGGCCATCGTCGGCAGCTCCGGGTCGGGAAAATCGACCCTGCTCGGCCTGCTCGCCGGCCTCGATGTACCCAGCGGTGGCAGTGTTTCCCTGGCCGGCCGCGACCTCGGCAGCCTGGACGAGGACCAGCGGGCCCGCGTCCGTGCCGAGCACGTCGGTTTCGTATTCCAGTCCTTCCAGTTGCTCGATAGCCTCAGCGCCCTGGAGAACGTCATGCTGCCGCTGGAACTGGACGGCCGCCCCGACGCCCGCGAGCGAGCCAGCGAACTGCTCCGCCGGGTCGGTCTCGAGCAGCGTCTGTCGCACTACCCGCGCCAGCTCTCCGGGGGCGAGCAGCAGCGCGTCGCTATCGCCCGCGCCTTCGCCGCCGAGCCGGATGTTCTGTTCGCCGACGAGCCCACTGGGAACCTGGACAGCCATACCGGCGAGCGCATCAGCGACCTGCTCTTCGAGCTGAACCACGAGCGCGGCACCACCCTCGTCCTGGTCACGCACGACGAGCGTCTCGCCCATCGCTGCCACCGTCTGATCCGCCTGGAAGGCGGCCATCTGGTCGATCACGTGGAGCCCTGA	MSQSILSARNLNKVVPSAEGELTILHDLCLELNRGDSLAIVGSSGSGKSTLLGLLAGLDVPSGGSVSLAGRDLGSLDEDQRARVRAEHVGFVFQSFQLLDSLSALENVMLPLELDGRPDARERASELLRRVGLEQRLSHYPRQLSGGEQQRVAIARAFAAEPDVLFADEPTGNLDSHTGERISDLLFELNHERGTTLVLVTHDERLAHRCHRLIRLEGGHLVDHVEP	PGPT0013345_13573	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
BMS010_02995	606	tesA_1	COG2755	Esterase TesA	ATGCGTGCGTGGTGGGTGAGAGGTGCATTGCTGCTGTCGCTCTGGAGCCTGGGGGCGGCCGCGGACACGCTGCTGGTCGTCGGCGATAGTATCAGCGCCGCTTTGGGCCTGGAAACCAGCCAGGGCTGGGTCCGCAAGCTCGACGAGCGGCTCCGGGAGCGCGGTTTCGAGCACCGGGTGATCAATGCATCGGTCAGTGGCGACACCAGTGCAGGTGGCTTGGCGCGGCTGCCGGCGCTGCTTGCAGAGCATCGACCCGGGCTGGTGATCATCGAGCTGGGCGGCAACGATGGGTTGCGTGGAATGCCGCCAGGGCAATTGCAACAGAATCTTGCGGCGATGATTCGGAGGTCCCAGGAGGCAGGGGCCAAAGTTCTCATTCTGGGGATGCGCTTGCCGCCAAATTACGGTCAGCGTTATACGGCAGCTTTCGCCGAAGTATTCCCCAAAGTGGCCGAAGAGACCGGCTCGGCTTTGGTGCCTTTCCTGCTGGAAGGCATAGGCGGCGTGCCTTCCATGATGCAGCCTGATGGAATTCACCCTGCCGCCGCAGCTCAGCCAGTGATACTTGATAACGTCTGGCCGATACTCAAACCATTACTCTGA	MRAWWVRGALLLSLWSLGAAADTLLVVGDSISAALGLETSQGWVRKLDERLRERGFEHRVINASVSGDTSAGGLARLPALLAEHRPGLVIIELGGNDGLRGMPPGQLQQNLAAMIRRSQEAGAKVLILGMRLPPNYGQRYTAAFAEVFPKVAEETGSALVPFLLEGIGGVPSMMQPDGIHPAAAAQPVILDNVWPILKPLL	PGPT0001840_2396	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001840-tesA-K10804	NA	NA
BMS010_02996	1020			hypothetical protein	ATGAAACCGTTCCAGTACAAACATCCCGATAGCGTTTACACCCAGAGCATCACCTTCGCAGACGGCCAGACCGCTCAGCAGGTGACTTTCCATAGCTCGGACATCCGCCCTGCCGAGATGGCCGCTACTGACCCGCTGATCTACGCCCAGGCGATGGCCGAAGCTGCCGATGAGCACCTCAATGGTGAGGAGTGGCGGGAGATCATGAACGACGCATTTCCCTCTGAGGTGCGCCCCTTCGGCTCCTTCCCGACGAGCCCCCAGGTCGCCCTAATGGCTGACCGCTCGGTTATCTTCGATCCCCGCCAGACCTACGATGGCCGCACTGTGACGAAGGGTGAAGCCTTAGCTGGCTCTCTGGTGTCGATGGAGGCTCCCGAGGTGGGCGTCCTCGTGTCGGCCCGCGTCTCGATCCTTGACCATACCGTCCAATTCGGGTTTACCGAGCAATCCATGGCGCAGACCGCCGACAAGGTACTTAGTGACCTTGAGCTGACCATGGCCGGCAAGATCGCCGAGAGCCTGGAGGGACAACCCTCGGTCTCCAAGACCTATGCAGGACCGCTCAGTGGCTCCCCTGCCGCTCAAGCTGAAGATGTTCTCGACATTATCGCCGTCCACCTCGACACCTTCTGGGGCCGAGACATCTCCGAGTTTGGCGTATTGGTGCCTGTGAGCCTTCGCCCGATCCTCAACCGTGCAGCCCAGCGGGCGGGCCTGGAGGACATCGACGACCTCGTGGGCACCCGCGTGCAGGTCTACAGCGGCACCGACCGGGGTATCTTCTTGGTCCCCAAAGCGTTCGCCATGCTGTCCTTCCGCGAGAACAAGGAGGGCGACGTGTGGCGCATCGAGCTGACCCGCAATAGCTCCTCGATGAGCTGGGAGCTGGAGGTGTCCGCAGTGGTGGACGTAATGGCTACCGCTATGGTGGAGGCCAAGGTGGGCGGCTCCGACTGGGAGACGACCCCGGTAGCCCTGCCGATCATCAAGCAGATTGTCTTGGCCGAAGCTCCGTAA	MKPFQYKHPDSVYTQSITFADGQTAQQVTFHSSDIRPAEMAATDPLIYAQAMAEAADEHLNGEEWREIMNDAFPSEVRPFGSFPTSPQVALMADRSVIFDPRQTYDGRTVTKGEALAGSLVSMEAPEVGVLVSARVSILDHTVQFGFTEQSMAQTADKVLSDLELTMAGKIAESLEGQPSVSKTYAGPLSGSPAAQAEDVLDIIAVHLDTFWGRDISEFGVLVPVSLRPILNRAAQRAGLEDIDDLVGTRVQVYSGTDRGIFLVPKAFAMLSFRENKEGDVWRIELTRNSSSMSWELEVSAVVDVMATAMVEAKVGGSDWETTPVALPIIKQIVLAEAP				NA	NA	NA	NA	NA
BMS010_02997	387			hypothetical protein	ATGAACATCACCATCACTGCTGTAACTCCCACCAAGGCGACAATCAACGGCCAACCCCTGGCCCGCGAGTATGCCGAGGGCGTCTTGCTGCCCCTGTTGATAGCAGCCCAGGGCAAGGACCACGCCGGCATCTTCAAGGTCGCCCAGGCGTTTGCCATTGCCAGCCTGCCCCTGGGTGCCAGCCCAATTGCCGCCCGTGTCTACCGCGAGCACTTGGCCGAACAGGCGCAACTTGAGGCCCGCCAACGCGCCGAGGCCCAATCCCATGCTGAGCGTTGCCGAGTGCCCAGCCCGCAAGAGATCGCCGAGAAGAAGGCCAAGCGCAAGGCCGAGGCCGAGGCCATCCGCGAACACGGTGCACGCCTACGCGCCCAACTCGGCCGCTAA	MNITITAVTPTKATINGQPLAREYAEGVLLPLLIAAQGKDHAGIFKVAQAFAIASLPLGASPIAARVYREHLAEQAQLEARQRAEAQSHAERCRVPSPQEIAEKKAKRKAEAEAIREHGARLRAQLGR				NA	NA	NA	NA	NA
BMS010_02998	282			hypothetical protein	ATGGCTCACTGGATCGCTCCACACCCAGACGCCAGCCAGGAGCACTTGGCGATCCTGGGAGGTCTCCGCGAAGCCATCGACGACAAGGCGAAGCTGTCGGTACTGATCGACCTCAGGGCGTCCTTCAAGCCCCACCGGGCATGGCAGAGCGAACAGCAGTACCTGATCAACCGTCACCGATCACCGCTCCTGTCCAAGCTCCTGGCGTCCCTGGAGACATCCGGGGTTCCCCTTCGGGATGCCCTCACTGTCCCGCTATGGTTCGTAATGAACGCTCGTTAG	MAHWIAPHPDASQEHLAILGGLREAIDDKAKLSVLIDLRASFKPHRAWQSEQQYLINRHRSPLLSKLLASLETSGVPLRDALTVPLWFVMNAR				NA	NA	NA	NA	NA
BMS010_02999	534			hypothetical protein	ATGAACACCGACATCAAACACAAGCACGCTGGGCATCTGATCGTCATCGAGGGCCACGCCTTCAGGGCAGACGACCGGGGCCGATGGGACCTTACCGACATCTGGCGAACGCTGAAGCTACCCAAGGGGAAAGCTCCAGCCCAATGGCGGACCAAGCAAGCTAAGCGTCTCGAAGCTATGCAAAATTTGCACAGCTCAAATGGGTCTGGCTCCTGGGCCACCAAGAGAGCCGCTCTGGCATACGCCGCTTGGGTCTCCGAGGAATTCGAGACCGTAGTCTTCGACGCCTTCGAGGCGATCCTTGAGAAACCAGAGGTCGCCCTGATCGTTGCAGAGGTCATGGCCGATATTGGGCACGACCACAGCGCCGCAATCCTTGAGCGCCATGTCTTCAACGACAAGTGCGACTGGAAGGCGTTCGGCCGGAGAACCCCAAGGAAGCTGACAGCGGAGCAAAAGGAAATCCAGAAGTGGTCGCGCCGAGCTGCCGCCGAGGCCCGCAAGGATCGCCTGAACGGTCGGGAGGTCTGCTAA	MNTDIKHKHAGHLIVIEGHAFRADDRGRWDLTDIWRTLKLPKGKAPAQWRTKQAKRLEAMQNLHSSNGSGSWATKRAALAYAAWVSEEFETVVFDAFEAILEKPEVALIVAEVMADIGHDHSAAILERHVFNDKCDWKAFGRRTPRKLTAEQKEIQKWSRRAAAEARKDRLNGREVC				NA	NA	NA	NA	NA
BMS010_03000	654			hypothetical protein	ATGACCAGCATTCCCGCCAACTTGTCACACCGCCACGTCGATCACGAATCCGGGCACATTCTCTACGTCGATCCTGCCACCGGCGACATCCTTGTTCGGAAGGAGTTGACCTATCGCAAGGACCCGAGAACCGAATATGAAACATGGGCAGCCAAGCGCCGAGCCTGTAAGCACCTGGGGGCCGACCATGCTACTGCCCACAGCGGCGCGCTATCGAACAGATTACAAGGCCAGCTCAATTCTGAGCCGATCAAGCAAGACCGCTGTGCGCATTCGAGTAGCTCCCGTGGGCGACCCAAGGCCGTCTTCAAAAATCCCGTCGCCGCCTTTATGCCGCTCCTCGCTATCCCCGAGCTGCTGCCATGGGCTAATGACATTGTCCGAGGGTCGATTTGTACCAGTGCGGGGGCCAGCAACGGGAAGATAAACGTCAAAGCCAGGGCGGTCATCGCCGCGCTGTTCCTCTCGGAAATCTCAGCGGAAGCCTGCCAGACCTCGGAGTACTCGCTCCGAACCGCTCAGCGAATCGCCAAGGCGGCCAGACACGCAGCTCACGGAATAGCATCCTACGTTGAACGACGCCCGAAGCTACGGGGTGAGCTGGAAGCCGAACTGGAACCAGAGAAGGCTCTACTCCGGACCTTTCAGCAATAA	MTSIPANLSHRHVDHESGHILYVDPATGDILVRKELTYRKDPRTEYETWAAKRRACKHLGADHATAHSGALSNRLQGQLNSEPIKQDRCAHSSSSRGRPKAVFKNPVAAFMPLLAIPELLPWANDIVRGSICTSAGASNGKINVKARAVIAALFLSEISAEACQTSEYSLRTAQRIAKAARHAAHGIASYVERRPKLRGELEAELEPEKALLRTFQQ				NA	NA	NA	NA	NA
BMS010_03001	252			hypothetical protein	ATGGAAATTCCGCAGCCCCTCCAGTTCAAGCTCCAGCAAACATCCTGGCTCTTCACCAAGGCAGCGACCTACCAGATGCTCCTCCGGGGCCACGCTCCGGCCTCCGAGCCCTTCCGTAAGTGGGTCACTGAGGTCGTCCTACCGTCCATCCGCAAGACCGGCAAGTTCGACGTCAACGAGGCCCAGGACGCTACCTCTCAGCAGTTCGCGGGGGAGTTCGCTGCGCTGCACGGGGGAAGTCGCTGGACTTAA	MEIPQPLQFKLQQTSWLFTKAATYQMLLRGHAPASEPFRKWVTEVVLPSIRKTGKFDVNEAQDATSQQFAGEFAALHGGSRWT				NA	NA	NA	NA	NA
BMS010_03002	1485	xerC_2		Tyrosine recombinase XerC	ATGAACGCCGCTCAGACTGCCAAAAGTGTAACAAACCTGTTAGAAAACGCCCCGCCGAAGCTCGCCACCCTCTTAGCGAAGCCCTGGCACTACCGCCGTAACGGACGCTACTACCTTCGCCTACGCACCATAGAGCGACCATTCGGAACCCTAACCGTCTCCCTTCGGACTACCGACCGAGCCACAGCAATGGAAATCTCCAGCAACATCCAACGGGCACTCGCCTACTTCCATCTGGGCAATCCCAATGCGACCTGGGAGGAACTGAAGGAGCGGCTACTTGCCATCGCCAAGGAATGCCTTGAGATTGCCCATGGGGACATTGGGTCAGACCTTGCGCACAGTGAGTTCTATCAGGAGATGTACGGGGCTCTGAAGGAGGTCAGCAAGCAGGGCGACCTGAGCCTTGCTCAGCATCGAGCGCTGGCTATTGGTCAGAGCATCATGGCCGCTGCAAACGCCCGACTCGAAGGGAGACCGGAGGCATTGGTCGGAATCATTGACAAACTTCATTATAGTGAGTCAATCGATAGTGAAATCAATGCTTGCCAGCCCCTATCTGTAGGCACACCTCAAGACCCTATGAGCTGGGACGAGCTGTCGAGTCTCTACATGGCGGAGCACAGCATCAACCTCAAGGAGTCCAGTAGGAAAGCCGCTATCACCGCCCATACGGTCATCGGGGAAGCCTTCGCGGCCATCGGGGTGACCGACCTTCGAGTTCACACGCGGGAGAACATGACGGCACTTCGAGCCAAGCTGCTGGAGAGCCGCAAGGCGTCTACCGTGAACAACCTTTTAGCCAAGCTCCAAGCTGTCATGACCTGGGCTGTGCGCTCAGACAAGATCACCAAGCAGTACGCGGACAAGCTCAAGATCACCAAAGGTGCAGAGAGCGAGCGGGTGGCCTTCACTCGGGAACAAGTGGTAATCCTCATGACCCATGCGAACGCCCTACCTTCGTCCTCCTGGGAGCGCTGGGCGCTATCCCTGCTGGCTGTCACCGGGGCCCGTGTAGGTGAAGTCAGCTATCTGACCAAGGCCGATATCAAACAGGTGGATGGCTTGTGGTGCATCGACATCAACGAAGATGCCGAGGGCAAGTCGATCAAGAACAAGCACAGCAAACGCCTTGTGCCCCTCGTGGATAAAGCCCTTGGATTTGACCTGTCGGCATTTCTTCAGGCTGTCGATGAGGGCACCCTACCCTCTGACAACGGGATCACAACAACACAGGCCAGCAAGCGGCTGAATCAAGTGATCCGGGACGCACTCGGAGACAGCAAAGGCGATAACCAGTCGCTGCACTCCCTTCGCCATCACCTGATTTCCGCAATGCAGGCCGCCGGTGTCCCCGTGGCGTTCGCTCAGGCGGCTGCCGGCCAGTCCTCGGGCACCATTGCTTATAACGTGTATGGCTCAGGTTCGCCGATTCAACGAGTCCACGAAGCAATCAAGCAAGGTCTGATGGAGGCGCCCTGCTGA	MNAAQTAKSVTNLLENAPPKLATLLAKPWHYRRNGRYYLRLRTIERPFGTLTVSLRTTDRATAMEISSNIQRALAYFHLGNPNATWEELKERLLAIAKECLEIAHGDIGSDLAHSEFYQEMYGALKEVSKQGDLSLAQHRALAIGQSIMAAANARLEGRPEALVGIIDKLHYSESIDSEINACQPLSVGTPQDPMSWDELSSLYMAEHSINLKESSRKAAITAHTVIGEAFAAIGVTDLRVHTRENMTALRAKLLESRKASTVNNLLAKLQAVMTWAVRSDKITKQYADKLKITKGAESERVAFTREQVVILMTHANALPSSSWERWALSLLAVTGARVGEVSYLTKADIKQVDGLWCIDINEDAEGKSIKNKHSKRLVPLVDKALGFDLSAFLQAVDEGTLPSDNGITTTQASKRLNQVIRDALGDSKGDNQSLHSLRHHLISAMQAAGVPVAFAQAAAGQSSGTIAYNVYGSGSPIQRVHEAIKQGLMEAPC				NA	NA	NA	NA	NA
BMS010_03003	267	tesA_2	COG2755	Esterase TesA	ATGATCGAGCGGGTGCAGGCGACAGGCGCGCGGGCCGTGCTGTTGGGGATGCGCCTGCCACCGAACTACGGTGCACGCTATACGAAGGCCTTCTCTCAGGTCTACGTCGATCTGGCCGAGGAAAAGCAGGTACCCCTGGTGCCGTTCTTCCTGGAGGGGGTTGGCGGCGTCGAAGGCATGATGCAGCCCGATGGTATCCACCCCTCGGTCGCCGCCCAGTCCCGTCTGCTCGAAAATGTCTGGCTGACTCTGGAGCCGCTGCTCTGA	MIERVQATGARAVLLGMRLPPNYGARYTKAFSQVYVDLAEEKQVPLVPFFLEGVGGVEGMMQPDGIHPSVAAQSRLLENVWLTLEPLL	PGPT0001840_2396	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001840-tesA-K10804	NA	NA
BMS010_03004	270			hypothetical protein	ATGCCGCGTCCCGCCTGGTCTTTATTCGCCTATCGATTGATCGAGCCGGACGAGCAGTTGGACTTGTTCGCCTGCCGAGAGGTGCGCCTGCATCTGGTGGCGCGCCAGCTCGAACTGGGCGGCTACGCCGATCGGACATTGTGTGGCGGATTGTTACCGGCGCAACCACGCTGGCTGGGGGTGGACAGGGCGAGTCTGCAGGATCGCCGGCTGTGTCCGGCCTGCCGCCAGGTTCTTGAGGCCCAGCGTCGTGGCGAGGCGCCGATGTAG	MPRPAWSLFAYRLIEPDEQLDLFACREVRLHLVARQLELGGYADRTLCGGLLPAQPRWLGVDRASLQDRRLCPACRQVLEAQRRGEAPM				NA	NA	NA	NA	NA
BMS010_03005	957	ynhG	COG1376	putative L,D-transpeptidase YnhG	ATGTTGTCGCGTGCCTCCTTCGCCTGCTCTCTGTCGCTCGCTGCGTTGTTCGCGACGGGACCCGTCGCAGCCCTGGAGCTGCCGTTGCCACCGCCAGGCGAGGACATCGTCGGTCACATCCAGGTCATCAAGGCGAAATACGAAGATACCTTCGCCGATATCGGCCAGGCTAACGACCTGGGCTATCTGGAGATGGTCGCCGCCAACCCGGGGGTCGATCCCTGGCTGCCGGGCGAGGGCACCGAAATCATCCTGCCGACCCGTTACATCCTGCCGCCGGGCCCGCGTGAAGGCATCGTGATCAATCTGGCCGAGTACCGGCTGTATTATTTCCCGAAAGGCAGGGACGTGGTTTATACCTACCCGCTGGGCATTGGCCGGGAAGGTTGGGGTTCGCCGATCGCCAACACCAAGATCACGGCCAAGACCCCGAATCCGGCTTGGTATCCGCCCAAGTCCATTCGCGAGGAGCACGCAGCGGACGGCGATCCGTTGCCGACGGTAGTGCCGCCAGGCCCGGACAACCCGCTCGGGCCGTTCAAGTTCTCCCTCGGGGTCTCCGGTTACCTGATTCACGGCTCGAACAAGAAATTCGGTATCGGCATGCGCGTCAGCCACGGTTGCTTCCGCATGCTCAACAACAATGTGCTGCAACTGGCCGGGATGGTGCCGGTGGGCACGCCTGTACGCATCATCAACGAGCCCTACAAGTTCGGGATCAGTAACAACAAGGTCTATCTCGAGGCGCATGCTCCGCTGGACGATCAGGGACAGCCCTCCGTCGTGGACAAGCACACAGCGGTGATCAATGCCCTGCTCAAACGCGAGGAATTGGCCAACAACCTGAACCTGGATTGGGAAGTGGTTCGGGAAGTGGTAGCGGCTGAGGACGGCTTGCCGGTGGAGATCGCGGTGCCCGTCTCATCGGTCGCGAGCAGCGCTTCCATCGAGCTCTGA	MLSRASFACSLSLAALFATGPVAALELPLPPPGEDIVGHIQVIKAKYEDTFADIGQANDLGYLEMVAANPGVDPWLPGEGTEIILPTRYILPPGPREGIVINLAEYRLYYFPKGRDVVYTYPLGIGREGWGSPIANTKITAKTPNPAWYPPKSIREEHAADGDPLPTVVPPGPDNPLGPFKFSLGVSGYLIHGSNKKFGIGMRVSHGCFRMLNNNVLQLAGMVPVGTPVRIINEPYKFGISNNKVYLEAHAPLDDQGQPSVVDKHTAVINALLKREELANNLNLDWEVVREVVAAEDGLPVEIAVPVSSVASSASIEL	PGPT0023745_301	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-L|D_TRANSPEPTIDASE_ACTIVITY,PGPT0023745-erfK-K16291	NA	NA
BMS010_03006	252			hypothetical protein	ATGAACAACGTTCTGAAATTCTCTGCTCTGGCCCTGGCCGCCGTTCTGGCCACTGGTTGCAGCAGCATGTCCAAAGAAACCGAAGCACGTCTGACCGCTACCGAAGACGCTGCTGCCCGCGCTCAAGCTCGTGCTGACGAAGCCTACCGCAAGGCCGACGAAGCTCTGGCCGCTGCTCAGAAGGCTCAGCAGACCGCTGACGAAGCCAATGAGCGCGCTCTGCGCATGCTGGAAAAAGCCAGCCGCAAGTAA	MNNVLKFSALALAAVLATGCSSMSKETEARLTATEDAAARAQARADEAYRKADEALAAAQKAQQTADEANERALRMLEKASRK				NA	NA	NA	NA	NA
BMS010_03008	1272			hypothetical protein	ATGTCGAAGATCATCAAGTGGGGCTTGGTGATGGCTATTGCCGTCGCCCTGTTGATCAAGTTGTCGTTGTGGTTGTCGGTTCGCAGCATCGTGAATGATGCCGTCCAGCAGCTCTCACCTTTTATGGATATCCGCTACGGCGGCATCACCTCGTCGTTCGATGGGCGGGTCGGGCTGGAAAAGATCGAGATCAACGTGCCTGCGCTCCGCGATAGCGTGCGGGTCGCTCATGCTGAGTTGAAGTTCAACGGCCTGGGTGAATTGCTGCGCTTCAAGGAGCGGCTGGGCGAAGGCAAGTTTCCCGAGCAGATGGCCGTCAAGTTCAAGGGAATCGAGCTGGAGGTCCATGGGCCTTTCATGCAGCAGTTGTACGATACGCCGCCCGAGCGCAGCGTATTCACTGCCATGAGCGAGGTGGCCTGCGGCAAGGTTCGCTACATCGGTACCGGCGAATTGCTCGACATGGGCTACCGGATGTTCGAGACCGACGCCGAGTTTTCCTACCTGTTCCAGCCTGGTGCACAGAAGCTGACATTCAATATGACGGCTGACATGCGCGACATGGGCGAACTGCGGCTGAGCCTGGGACTCTCGAACATGTCCGAGAAGCCGGGTGATCTGCGCGTCAATCCGCCGCATCTTTCGAGTGTCACGTTCGATTTGAACGACAACCAGTATCAGCGCAAGGTACAGGAGTACTGTGCAGGCAAGATGGGGCAGAGTAGCGAGGTCTACCTCAAGACGGCGGTCGAGCAGTTCGATCGTGTGTTGCGCAGCCAGCGTATCGGGTTGGACCAGCCGCTCCTGGACGCCTATGCCGGTTATTTGAAGGATCCGCAGTCGCTGCGTCTGGAACTGAATCCCAGTGAGGGCATGACCTGGGATGGCTTGCAGTTCTTCGAGGCGAAGGATGTGCTGAGCATGTTGAGGCCGACGTTACTGGTCAATCAGCAGGTGGTCGAACCGATCGGTTTCGCCTGGGTCGACCCGCATGCGCGCAAGCCCCAGCGGGCCGATGAGTTGGTGGTCGCCGATCGACCGGCGGATGCGTCTCGCCCGAGCACGCCGCAATATGAATTTGTCAGCGTGGCCAGTTTGCCGGAATATGCCGGGAAGCGATTGCAATTCATAACCTATGATGGTGCCTACTACCAAGGTGTATTGCACAAGGTGGAGAACGGCAAGGCGTTCCTCAGTGTCCAATTTGGCACGGGATCGGCGGAGATGTTTCTTCGTCTGGAAAAGATAGATAAGGTGCGGGTGCTGTTCTGA	MSKIIKWGLVMAIAVALLIKLSLWLSVRSIVNDAVQQLSPFMDIRYGGITSSFDGRVGLEKIEINVPALRDSVRVAHAELKFNGLGELLRFKERLGEGKFPEQMAVKFKGIELEVHGPFMQQLYDTPPERSVFTAMSEVACGKVRYIGTGELLDMGYRMFETDAEFSYLFQPGAQKLTFNMTADMRDMGELRLSLGLSNMSEKPGDLRVNPPHLSSVTFDLNDNQYQRKVQEYCAGKMGQSSEVYLKTAVEQFDRVLRSQRIGLDQPLLDAYAGYLKDPQSLRLELNPSEGMTWDGLQFFEAKDVLSMLRPTLLVNQQVVEPIGFAWVDPHARKPQRADELVVADRPADASRPSTPQYEFVSVASLPEYAGKRLQFITYDGAYYQGVLHKVENGKAFLSVQFGTGSAEMFLRLEKIDKVRVLF				NA	NA	NA	NA	NA
BMS010_03009	282			hypothetical protein	ATGAGCGAGGCGTTGTCCATTCACCATGACCTGGTCGGTCATCAGTTCGAGACCACTGTCGAGGGTCACCGAGCGTACCTGGCCTATATGGATCTGGGGAAACAGACGTTGGACATTTATCGCACGTTCGTGCCAAACGCCTTGCGTGGCCGTGGTATCGCCGCAGCCCTGACCGAGCATGCGCTGGGGTATGCGGAGCGTATGGGGTATACCGTGATTCCGTCGTGCTCCTACGTGGAGCGTTATCTCGAGCGGCGCCAGCGTCACCTGGCCAAGAGCTGA	MSEALSIHHDLVGHQFETTVEGHRAYLAYMDLGKQTLDIYRTFVPNALRGRGIAAALTEHALGYAERMGYTVIPSCSYVERYLERRQRHLAKS				NA	NA	NA	NA	NA
BMS010_03010	1077	aroF	COG0722	Phospho-2-dehydro-3-deoxyheptonate aldolase, Tyr-sensitive	ATGGCTGATTTACCGATCGATGACCTTAACGTTGCCTCCAACGAGACCCTGATCACGCCGGAGCAGCTCAAGCGTGAAATCCCGCTCACCGAGGCAGCCCGCCGCACCGTGGCCCATGGCCGCGAGGTGATTCGCAACATTCTCGACGGCAAGGACCACCGCCTGTTCGTGGTGGTAGGCCCCTGCTCCATCCATGACATCAAGGCAGCGCACGAATACGCCGAGCGTCTCAAGGTCCTGGCCGCCGAAGTGTCCGATAGCCTGTTCCTGGTAATGCGCGTGTATTTCGAAAAGCCGCGGACCACCGTAGGCTGGAAAGGCCTGATCAACGACCCCTACCTAGACGACTCGTTCAAGATCCAGGACGGCCTGCACATCGGCCGCCAACTTCTGCGCGACCTGGCCGAAATGGGCCTGCCGACCGCCACCGAAGCCCTCGACCCGATCTCCCCGCAATACCTGCAGGACCTGATCAGCTGGTCGGCCATCGGCGCACGCACCACCGAATCCCAGACCCACCGCGAAATGGCGTCCGGCCTCTCCTCCGCCGTCGGCTTCAAGAACGGCACCGACGGCAGCCTGACCGTGGCGATCAACGCCCTGCAGTCGGTTTCCAGCCCGCACCGTTTCCTCGGCATCAACCAGGAAGGCGGCGTTTCCATCGTCACCACCAAGGGCAATCCCTATGGCCACGTGGTACTGCGCGGCGGCAACGGCAAGCCGAACTACGACTCGGTCAGTGTCGCAGTCTGCGAACAGGAGCTGACCAAGGCTGGTATTCGCCCGAACGTCATGGTCGACTGCAGCCACGCCAACTCCAACAAGGACCCGGCTCTGCAGCCGCTGGTCATGGACAACGTGGCCAACCAGATTCTCGAAGGCAATCAGTCCATCGTCGGCCTGATGGTGGAAAGCCACCTGGGCTGGGGCAATCAGCCGATTCCCAAGGATCTGTGCAACCTCAAGTACGGCGTGTCGATCACCGATGCCTGTATCGACTGGGATACCACCGAGAAGACCCTGCTCGGCATGCACGCCAAGCTCAAGGATGTCCTGCCCAAGCGCCATCGCAGCTAA	MADLPIDDLNVASNETLITPEQLKREIPLTEAARRTVAHGREVIRNILDGKDHRLFVVVGPCSIHDIKAAHEYAERLKVLAAEVSDSLFLVMRVYFEKPRTTVGWKGLINDPYLDDSFKIQDGLHIGRQLLRDLAEMGLPTATEALDPISPQYLQDLISWSAIGARTTESQTHREMASGLSSAVGFKNGTDGSLTVAINALQSVSSPHRFLGINQEGGVSIVTTKGNPYGHVVLRGGNGKPNYDSVSVAVCEQELTKAGIRPNVMVDCSHANSNKDPALQPLVMDNVANQILEGNQSIVGLMVESHLGWGNQPIPKDLCNLKYGVSITDACIDWDTTEKTLLGMHAKLKDVLPKRHRS	PGPT0012920_3873	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-PHENAZINE_DERIVATES	BIOTIC_STRESS_RESISTANCE-PHENAZINE-1-CARBOXYLIC_ACID_BIOSYNTHESIS,PGPT0012920-3_deoxy_7_phosphoheptulonate_synthase|aroF|aroG|aroH-K01626	NA	NA
BMS010_03011	411			hypothetical protein	ATGCGTCGTTTCTTGCGCCACCCATCCGAGATGCCGGTCGAACTCGTCCTGGGCGAGCAGACCCTCCTGCCGAGCCAGCGCCTGCACAATATCAGCCTTGGAGGCGTAGCCTGTAATTCCTCTTGCGATTTTCCGCCGGGCACGTCGATCGAATTGCGGATTCCCCTGCTCGGCGACGATGCCCACTACGCCGGCGTGGTCGCCTGGTGTCGCAAGCAAGAGGCGGACTATCTGATCGGCATCGCCTTCGTCGACGAGGACAACCTGTTCCGCGCCCGGATGGTCGAGCAGATCTGCCACATCGAGCAATACCGGCGGCAACGGGAACAGGAGACAGGGCAAACCATTCCCATCGAGGCCTGTGCCCAGGAGTGGATTTCGCGCCATGCGGCGGATTTCGCTCCGGTATAG	MRRFLRHPSEMPVELVLGEQTLLPSQRLHNISLGGVACNSSCDFPPGTSIELRIPLLGDDAHYAGVVAWCRKQEADYLIGIAFVDEDNLFRARMVEQICHIEQYRRQREQETGQTIPIEACAQEWISRHAADFAPV				NA	NA	NA	NA	NA
BMS010_03012	360			hypothetical protein	ATGACATCATCCCTGAGAAGCAGACTTCCCGAACTGGAACTGACGGACTTCGACGCCGACCACTCGCTCCTGGCGTTCCCCGGAGTTACCTTGCTGATTTTTACCAGCATAGGCTGTTCCAGCTGCCGGTGGGCGCGTCGCGAGCTGCCGGGGATGAGCCTGCCGGTCGATCGCGTGTGCTGGGTGGATGCCGGCAGCAATGGCGGGCTGGTGCAGCGCTATGAGGTTTTCCATTTGCCGGCCTTGTTCGTCGTCTGTGATAGTCGGTTTTTCGGCGCGGTGCATGCGCGCCTGACCGCTATCGATCTCACCAACGCCCTGGCCGAGGCCTTGAATCGTCCTGCAGAGGAGCTCCCTTGA	MTSSLRSRLPELELTDFDADHSLLAFPGVTLLIFTSIGCSSCRWARRELPGMSLPVDRVCWVDAGSNGGLVQRYEVFHLPALFVVCDSRFFGAVHARLTAIDLTNALAEALNRPAEELP	PGPT0013055_5356	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671	NA	NA
BMS010_03013	957			hypothetical protein	ATGTCTGAAGTCCCGCGTCCCCGCATCGGTATCATCGGCACCGGTGCGATCGGCGGCTTTTATGGCGTGATGCTGGCCCGTGCCGGCTTCGACGTGCATTTTCTGTTGCGCAGCGAGTTCGCCCCGGTGGCTGAGCGCGGCCTTCAGCTCAACAGCGCCGTGCATGGCGCTCTGGCCCTGCATCCGGTGCAGGCCTATCGCGATGCGGCCGAGATGCCGCCTTGCGATTGGCTCCTGGTCGGCGCGAAGACCACCAGCAATGCCGCGCTGGTGCCGGCCATCGTCCAGGCCGCTGCACCGGGGGCGAAAGTGGTGCTGATGCAGAATGGCCTGGAAGTCGAAGATGCGTTACGGCCGGCTTTGCCGGACTCGCTGCATCTTCTGGGCGGGCTCTGTTTCATCTGCGTTCATCGCTCGGCGCCCGGGGTGATCGAGCACCAGGCGTTGGGTGCGGTCAACCTGGGATATCACTCCGGTCCGGCAGCCGATTCGGCACAGCGTCAGGCAATCGTCGAGGAAGGGGCTGCTCTGTTCCGGGCCGCCGGGCTGGATTCGTCGGCCATGGCGTCGCTGGATCAGGCGCGCTGGCAGAAGCTGGTCTGGAACGTACCCTACAACGGGCTGTCGGTGTTGCTGAACGCGGGTACCACCGCCCTGATGGGCAACCCGGACAGCCGGGCCTTGATCGAGGTGTTGATGGAGGAGGTGATGCAGGGTGCCGCTGCCTGCGGTCATGTATTGCCGGAGGGGTTCGCCGGCAAGTTGCTGGCCGCGACCGACCGCATGCCGGACTACTTGCCGAGCATGTACCACGATTTCGTTCAAGCACGGCCGATGGAGTTGGAAGCCATCTATGCGGCCCCCTTGGCGGCTGCGGCCCAGGCCGGGTGCGAGTTGCCCAGGATGCGGATGCTGTATCGGGCTTTGCGCTTCCTCGACATGCGTCAATCCGGCTGA	MSEVPRPRIGIIGTGAIGGFYGVMLARAGFDVHFLLRSEFAPVAERGLQLNSAVHGALALHPVQAYRDAAEMPPCDWLLVGAKTTSNAALVPAIVQAAAPGAKVVLMQNGLEVEDALRPALPDSLHLLGGLCFICVHRSAPGVIEHQALGAVNLGYHSGPAADSAQRQAIVEEGAALFRAAGLDSSAMASLDQARWQKLVWNVPYNGLSVLLNAGTTALMGNPDSRALIEVLMEEVMQGAAACGHVLPEGFAGKLLAATDRMPDYLPSMYHDFVQARPMELEAIYAAPLAAAAQAGCELPRMRMLYRALRFLDMRQSG	PGPT0008745_1839	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0008745-panE|apbA-K00077	NA	NA
BMS010_03014	501			hypothetical protein	ATGATTCGTTCCATTCTATACGCCACCGACCTTGGTCTTTACGCGCCTTACGTTCTGCAACATGCCTTGGCTCTGGCCCAGGCATTTAAGGCAGAGCTGTATGTGATACATGCCGTCGAACCCATGGGGTTGTTCGCCGAGTCGGTGCTGCAGACCTACCTGGACGAAAAGACCCTCAAGGAGCTGCGTACCCAAGGGCTCGGGACCGTGATGGCGAGCATCGAGCAGCGGGTACTGGAGGGGTTCCGCGACGAACTGGGGGAGGCTCAGCAGGACTTGCCCGTGATCCGCGCGGTGCGTGTGGTGCAGGGGGACCCGCCGTTGGTGATTCTCGACGAAGCGCAGAAACTCGCCGTCGATCTGCTGGTCGTAGGCAGTCACAGCCATGGCACCGCGCTCGATACGCCGTTGGGGCGTACGGCGGCGCGGCTGGTGCAGTTGTCGGAGGTTCCGGTCTATCTGGTGCCGATGCTGCAGCATCGCGGCCGCGGCGAACTCTAG	MIRSILYATDLGLYAPYVLQHALALAQAFKAELYVIHAVEPMGLFAESVLQTYLDEKTLKELRTQGLGTVMASIEQRVLEGFRDELGEAQQDLPVIRAVRVVQGDPPLVILDEAQKLAVDLLVVGSHSHGTALDTPLGRTAARLVQLSEVPVYLVPMLQHRGRGEL				NA	NA	NA	NA	NA
BMS010_03015	975	cysB		HTH-type transcriptional regulator CysB	ATGAAGCTCCAGCAATTGCGCTACATCTGGGAAGTGGCGCATCACGACCTCAATGTTTCGGCTACCGCCCAAAGTCTCTATACCTCGCAGCCGGGCATCAGCAAGCAGATCCGTCTGCTGGAGGATGAGCTGGGGGTGGAAGTGTTCGCCCGCAGCGGCAAGCACCTGACCCGCGTCACGCCGGCGGGGGAGCGGATCATCACGACGGCCGGGGAAATCCTGCGCAAGGTCGAGAGCATCAAGCAGATCGCCCAGGAATTCTCCAACGAGAAGAAGGGCACGCTGTCCATCGCCACCACCCATACCCAGGCACGCTACGCCTTGCCGCCGGTAATCAGCGGTTTCATCAAGCAATACCCGGATGTGGCGTTGCACATGCACCAGGGAACGCCCATGCAGATCGCCGAGATGGCGGCCGACGGCACCGTGGACTTCGCCATCGCCACCGAGGCGCTGGAGTTGTTCGGCGATCTGGTGATGATGCCGTGCTATCGCTGGAACCGTTGCGTAATCGTTCCCCAGGGGCATCCGCTGGCGAAGTTGCCGAAGCTGACCCTGGAGGCGCTGGCCGAGCACCCGATCGTCACCTACGTGTTCGGTTTCACCGGCCGCTCGAAGCTGGACGAAGCCTTCAATCATCGCGGACTGACGCCCAAGGTGGTGTTCACCGCGGCCGATGCCGACGTGATCAAGACCTACGTGAGGCTGGGGCTGGGCGTGGGGATCGTGGCCCGGATGGCGGTGGACCCGAAGCTGGATACCGACCTGGTGGTTCTGGATGCCAGTGAGCTGTTCGAGGCCAGCGTGACCAAGATCGGCTTCCGTCGCGGTACTTTCCTGCGCGGCTTCATGTGCGACTTCATCGAGAAGTTCGCCCCGCACCTGACGCGGGATGTCCTGGCCAAGGCTGTGCAATGTCACAACAAGGCCGAGATGGACGAGCTGTTCCAGGACGTCGAACTGCCGACCTATTGA	MKLQQLRYIWEVAHHDLNVSATAQSLYTSQPGISKQIRLLEDELGVEVFARSGKHLTRVTPAGERIITTAGEILRKVESIKQIAQEFSNEKKGTLSIATTHTQARYALPPVISGFIKQYPDVALHMHQGTPMQIAEMAADGTVDFAIATEALELFGDLVMMPCYRWNRCVIVPQGHPLAKLPKLTLEALAEHPIVTYVFGFTGRSKLDEAFNHRGLTPKVVFTAADADVIKTYVRLGLGVGIVARMAVDPKLDTDLVVLDASELFEASVTKIGFRRGTFLRGFMCDFIEKFAPHLTRDVLAKAVQCHNKAEMDELFQDVELPTY	PGPT0002965_402	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002965-cysB-K13634	NA	NA
BMS010_03016	735	cysH_2	COG0175	Phosphoadenosine phosphosulfate reductase	ATGAGCCATCCCTTCGACGTCGCGGAACTCGCCGCGACTTACGCCAGCAAGTCCCCCCAAGACATCCTCAAGCTCGCCTTCGAACATTTCGGCGACGACCTGTGGATTTCCTTCAGCGGTGCCGAGGACGTGGTGCTGGTAGACATGGCCTGGAAACTGAACAAGAACGTCAAGGTGTTCAGCCTGGACACCGGCCGTCTGCACCCGGAAACCTACCGCTTCATCGACCAGGTCCGCGAGCATTACGGCATCGCCATCGAGGTGCTCTCCCCCGATCCGCGCCTGCTCGAACCCCTGGTCAAGGAAAAGGGTCTGTTCAGCTTCTACAAGGATGGCCACGGCGAATGCTGCGGCATCCGCAAGATCGAACCGCTCAAGCGCAAGCTCTCCACCGTGCGCGCCTGGGCCACCGGCCAGCGTCGAGACCAGAGCCCCGGCACCCGTAGCCAGGTGGCCGCACTGGAAATCGACACTGCTTTCTCCACCCCGGAAAAGCCGCTGTACAAGTTCAACCCGCTCGCACAGATGACCAGCGAGGAAGTCTGGGCCTACATCCGCATGCTGGAGATTCCGTACAACCCGCTGCACGAGCGCGGATTTATCAGTATTGGCTGCGAGCCCTGCACCCGCCCGGTGCTGCCCAACCAGCACGAGCGCGAAGGCCGCTGGTGGTGGGAAGAAGCCACGCAGAAGGAATGCGGCCTGCACGCCGGCAATCTGATCGCGAAGAACTGA	MSHPFDVAELAATYASKSPQDILKLAFEHFGDDLWISFSGAEDVVLVDMAWKLNKNVKVFSLDTGRLHPETYRFIDQVREHYGIAIEVLSPDPRLLEPLVKEKGLFSFYKDGHGECCGIRKIEPLKRKLSTVRAWATGQRRDQSPGTRSQVAALEIDTAFSTPEKPLYKFNPLAQMTSEEVWAYIRMLEIPYNPLHERGFISIGCEPCTRPVLPNQHEREGRWWWEEATQKECGLHAGNLIAKN	PGPT0002785_1839	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002785-cysH-K00390	NA	NA
BMS010_03017	618	thrH	COG0560	Phosphoserine phosphatase ThrH	GTGGAAATCGCCTGTCTCGACCTGGAAGGCGTGTTGGTGCCGGAAATCTGGATCGCCTTCGCGGAAAAAACTGGCATCGATGCGCTCAAGGCCACCACCCGGGATATTCCCGACTACGACGTGCTGATGAAGCAACGCCTGCGCATCCTCGACGAGCATGGGTTGAAGCTGTCGGACATCCAGGCCGTGATCGCCACCCTCAAGCCCCTGGATGGCGCGGTGGAGTTCGTCGACTGGCTGCGCGAGCGCTTCCAGGTGGTCATTCTCTCCGACACCTTCTATGAGTTCTCCCAACCGCTGATGCGCCAGTTGGGCTTCCCCACGCTGCTTTGCCACAAGTTGGTGGTGGATGACACGAATCGGGTGGTGGATTACCAGTTGCGCCAGAAGGACCCCAAGCGCCAGTCGGTAATTGCCTTCAAGAGCCTGTACTACCGTGTGATTGCTGCCGGCGACTCCTACAACGACACCAGCATGCTCTCCGAGGCTCACGCGGGAATCCTGTTCCACGCGCCGGAGAACGTGATCCGCGAGTTCCCGCAGTTCCCGGCGGTGCACACCTACGAAGACCTCAAGCGCGAATTCATCAAGGCATCGAACCGCAAGCTCAGCCTCTGA	MEIACLDLEGVLVPEIWIAFAEKTGIDALKATTRDIPDYDVLMKQRLRILDEHGLKLSDIQAVIATLKPLDGAVEFVDWLRERFQVVILSDTFYEFSQPLMRQLGFPTLLCHKLVVDDTNRVVDYQLRQKDPKRQSVIAFKSLYYRVIAAGDSYNDTSMLSEAHAGILFHAPENVIREFPQFPAVHTYEDLKREFIKASNRKLSL	PGPT0020280_50	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020280-trhH-K02203	NA	NA
BMS010_03018	1347	pabB	COG0147	Aminodeoxychorismate synthase component 1	ATGCCGACCTGCTTCGTTCACCCACTGCCCTATCGAGCCGACCCTGCCGACTACTTCGCCGCCATCCGCCACGCGCCAGGCGCCGTGTTGCTGGATGCCGGGCGACCGCTGGCCGAGCGTGGACGCTATGACCTAATCAGTGCCTGGCCATTGGCTGAGCTGGCAGCCGCACCCGACGAATCGGCCAAGGATTTTTTCGACCGTCTACGCAGCGGCCTTGCCCTGCTCGGCCCGGCCGAGGCACCGACGGAGTGCGAACTGCCCTTCACTGGCGGGCTGATCGGCTATCTGGCCTATGACTTTGGCCGCCGCCTGGAGCCCATGCCGCAGCAGGCGGTGGACGACCTCGCCCTGCCGGACGCCCGTTTCGGCGTCTATGCCTGGGCCTTGGTCAGCGACCACCAGCACCAGACCAGCCAACTGGTTTGCCATCCACAGCTCGCCGAAAGCGAACGCCAGCGCCTGCTGACGCTTTTCGCCGAACCTCGGGAAGCGTCCGAGGCCAATGCATTCCACCTGTCGGCACCGTTCCAGGAGGATATCGACGAGCACCGCTACCGGCAAGCCATCGAGCGCATCCAGGCCTACATCCAGGCCGGTGACTGCTATCAAGTCAACTTCGCCCAGCGTTTCCGTGCACCTTGCCAGGGCGATCCCTGGCTGGCCTACCGGGCGCTGCGGGCGGCCTGCCCTACGCCGTTCGCCGGCTACCAGGCCCTGGGCGACGATGGCGCTATCCTCAGTCTGTCGCCGGAACGCTTCCTGCGGCTGAGCCAGGGGCATGTGGAGACCCGTCCGATCAAGGGCACCCGCCCGCGCGGGCGCAACGCCGTGGAAGACAAGGCGCAGGCCGAAGACCTGCTGGGCAGCCGCAAGGACCGTGCGGAGAACCTGATGATCGTCGACCTGCTGCGCAACGACCTGGGGCGCAGTTGCCGGATCGGCTCGGTCCGGGTGCCGGAACTGTTCGCCCTGGAGAGCTATCCCAACGTCCACCACCTGGTCAGCAGCGTCAGCGGCGAACTGGCGGGCGGCAAGGATGCGCTGGACCTGATCGCCGGCAGCTTCCCCGGCGGCTCCATCACCGGCGCCCCGAAGATCCGCGCCATGCAGATCATCGACGAACTGGAGCCGACCCGCCGTGCGATCTACTGCGGCTCTCTGCTCTATCTGGACGTACGGGGAGAAATGGACAGCTCCATCACCATCCGCACCTTGCTGGTGAAGGACGGACAGGTCTGCTGCTGGGGCGGAGGCGGCATCGTTGCCGATTCGGACTGGCGATCCGAGTATCAGGAATCGATCACCAAGGTGAAGGTATTGCTGGAGACGCTGGAAGGGCTCTAG	MPTCFVHPLPYRADPADYFAAIRHAPGAVLLDAGRPLAERGRYDLISAWPLAELAAAPDESAKDFFDRLRSGLALLGPAEAPTECELPFTGGLIGYLAYDFGRRLEPMPQQAVDDLALPDARFGVYAWALVSDHQHQTSQLVCHPQLAESERQRLLTLFAEPREASEANAFHLSAPFQEDIDEHRYRQAIERIQAYIQAGDCYQVNFAQRFRAPCQGDPWLAYRALRAACPTPFAGYQALGDDGAILSLSPERFLRLSQGHVETRPIKGTRPRGRNAVEDKAQAEDLLGSRKDRAENLMIVDLLRNDLGRSCRIGSVRVPELFALESYPNVHHLVSSVSGELAGGKDALDLIAGSFPGGSITGAPKIRAMQIIDELEPTRRAIYCGSLLYLDVRGEMDSSITIRTLLVKDGQVCCWGGGGIVADSDWRSEYQESITKVKVLLETLEGL	PGPT0008005_1341	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008005-pabB-K01665	NA	NA
BMS010_03019	2775	malT_1		HTH-type transcriptional regulator MalT	ATGAGCAGGTCCCACGGAGACACGTCTCCGTACCACAACGATAACGATGAAGGGATACAGGCCGTGGACGTAGTTTCCGATCCAGCCGCGGGTAGCTTGTTGCGCTCGAAACTCACACCTCCACAGGTTGCCGCCGACTACCTGCCCCGTCCTATGGTGCAAGCCGCCCTGGCTGCCCATCCCCACGCCAGACTCCTGCTGTTTCTCGCCCCCGCCGGTTTCGGCAAGACCACGGCGCTCGCCGCCATGGCCGAATCGCGCCGGGCAGCCGGCGATGCGGTGGCCTGGGTATCGCTCGGGCCGGACGATGACGATCCTTCCCGGTTTTTCCACCAACTGATCCAGGCCCTGGAGCGGGCGATTCCGGGACTGGGCGAGGATGCCCGGCGCTATCTGCAGAACACCATGCGAGTGCCGGTGGCGGCCGTGATGGAGAGTCTGCTGGCGGACCTTGCCCAGCATGACGTGCCCTTGCTGCTGGTGCTCGACGATCTGAACCTGATCCAGGATGGCGAGCTGTTCAGCGCTCTCAATCGGCTGGTCAAGCTGGCGCCGGCGGGTTTCACCCTGGCCGTGGGTAGCCGCGTCCAGCCGCCGCTGAACCTGGCTACCTGGCGCGCCAAGGGGTTGCTTCTGGAAATCGGCCCCGAGGAGCTGCGACTGACCGAAGCGGAAACCCGTGACTACCTGGATCGCTGCGGTCTGACGCTGGACGAGGCATCGCTGGCGGCACTCTATGGCCACACCGAGGGGTGGCTGGTAGGCGTTCACCTGGCCAGCCTCTGGCTGCGTCACCAGCCCCAGGCTTCCCGGCAGATGGTGGAGCTGATCGGCAACCAGGCTGCCGTCGGCGATTATTTGTTGCGCGGGGTGTTCGAGCAGCTTCCTCTCGACCTGCAGGAAACCCTGCTCAACCTGGGTGTGGCCAGCCAGCTCAGTGGCGACCTGGCGAATACCCTGACCGGACGGCATGACGGCCAGCAATTGCTGGAACAACTGGAAGCCATGCAGTTGTTTCTGATGCCGCTGGACCGGGAACGGCAGTGGTATCGCTTCCATAACCTGTTCGCCGACTTTCTCCGTGCCCGGCTCAAGGACCGCGATCCGGAGCGTTTCCAGCAGCTGCATTTCAATGCCAGCCTCTGGTTCACCAACCACCACATGCAGAACCTGGCGATCCAGCATGCCTGCCTGGCGGAAGATCCGGAAATGCTCGCGGCGCTGGTGGATGGCTGTGGCCTGGAACTGGTCAACCGTGGCCAGCTCGGTGCCATCTACCGGTGGCGGCAGAAGGTCCCGGACGCCATCGCCGAGCGCTTTCCGATCCTGGTACTGGCCGATGTCTGGCAGCGCGCGTCCGAACTGGCACTGCCTGAAGCCAACCGCATACTCGACGAGTTGCTGATGCGCTGGGGCGATGCCCGGGCCAACAGCCCCTTGAACGACAATTATCTGGCCGCCCTGACCGTAAAGGGCGTGATTGCCTTGCAGAAAGACGACCTGGAACTCTGCGTCGGCCTGGCCCGCCGGGTCGAGGGGCAGTTGGGGCAGCACAGTGCCTTTCTCGAAGTGGCCGTGCTGATCATCGGCGCGCTGGCCCAGGTGATGCTGGCGCAACCGGAGCAGGCCCGGCGCCTGCTGGGGTTGGCGCAGCAGCGCAATCACTTCCTCGAAGGGCGTTTCCTCGATATGCAGCTGGCCCAGGTGGAGATCTTCCTGGCGCTGGAGCAGGGGGAGGTGAAGCGGGCGCAATTGCTGTTCGACCAGTTGCGTGCCCAGGTCATCCCCTGGTTCGACGAGCGCTCACGGGCGCTGGCCCTGCCGGCTATCACCGAATCGCTGATCGCTTACCACCAGACCCGCCTGGACGGCCTCGAAGAGCGACTGGCCTGGGCGCTGGGCCGGGTGGATGTGATCAACCCGATCGACATCTACGCCCGCGGCATGCTGTGCCTGGCGCGTATCCAACGCATGCGCGGCAACACCAAGGAGGCATTGGCGACCCTGGTGGGCATGCAGAACCTGGCGGCGCGCAACCAATCCTGGCGCTTCTATGTGCAGGCGGTGGGCGATGAGATCGCCCTGATCCTCCAGGAGCCGGCGGTCGATCGGGTCAAGCGAGCCGAGCAGCGGCTGAAGAGCGTGGACTGGGCCAAGCTGGCCGCCAATTACAGCCAGCGCGCCTTCAATCCGGTGCTCTGGATGCAGGGGTTGGTGCGTGTCCGCCTGCAACAGGCGCGCGGTCATTACAGCGAAGCCCTGCATGAAATCGCTCAGTTGCGCGGCCTGCTACAGCCGAACTGGCACGGCTTGCAGCAGCTCCGCCTCGACCTGCTGGCCGCCCTCAGCTACCAGCGTCTGGGCTATCTGGAGCGGGCGCAGTCGCTACTGGTGCAATGTCTGGTCGGTGCCGAGCGCGAAGGCGTGCGCAGCCTGTTCATCGAGGAGGGCGAGGCGATCCGCCTGCTCTTGCAGCAGCTCGAGGCGTCGGAGCGGCAACCGGCGCTGCTGGGCTTCATTCGCAGTCTTCTGGCGGTCTGGCCCGGCCAGGCGGCGCGGCAGTCTCTGGAAGTCCTCGAAGAGGGGCTGACCGACCGCGAGCGGGAAGTCATCTGCCTGGCCGCCAAGGGCCTTTCCAACGAGGAAATCGGCCAGCAGCTTGCGCTGGCGTTGGGAACGGTCAAATGGCATCTGCATAACATCTACGAAAAGCTCAAGGTGCGTAACCGGACGCAAGCCATCCGGCGTGCCCGCGAGCTGAGTCTGCTGCAATGA	MSRSHGDTSPYHNDNDEGIQAVDVVSDPAAGSLLRSKLTPPQVAADYLPRPMVQAALAAHPHARLLLFLAPAGFGKTTALAAMAESRRAAGDAVAWVSLGPDDDDPSRFFHQLIQALERAIPGLGEDARRYLQNTMRVPVAAVMESLLADLAQHDVPLLLVLDDLNLIQDGELFSALNRLVKLAPAGFTLAVGSRVQPPLNLATWRAKGLLLEIGPEELRLTEAETRDYLDRCGLTLDEASLAALYGHTEGWLVGVHLASLWLRHQPQASRQMVELIGNQAAVGDYLLRGVFEQLPLDLQETLLNLGVASQLSGDLANTLTGRHDGQQLLEQLEAMQLFLMPLDRERQWYRFHNLFADFLRARLKDRDPERFQQLHFNASLWFTNHHMQNLAIQHACLAEDPEMLAALVDGCGLELVNRGQLGAIYRWRQKVPDAIAERFPILVLADVWQRASELALPEANRILDELLMRWGDARANSPLNDNYLAALTVKGVIALQKDDLELCVGLARRVEGQLGQHSAFLEVAVLIIGALAQVMLAQPEQARRLLGLAQQRNHFLEGRFLDMQLAQVEIFLALEQGEVKRAQLLFDQLRAQVIPWFDERSRALALPAITESLIAYHQTRLDGLEERLAWALGRVDVINPIDIYARGMLCLARIQRMRGNTKEALATLVGMQNLAARNQSWRFYVQAVGDEIALILQEPAVDRVKRAEQRLKSVDWAKLAANYSQRAFNPVLWMQGLVRVRLQQARGHYSEALHEIAQLRGLLQPNWHGLQQLRLDLLAALSYQRLGYLERAQSLLVQCLVGAEREGVRSLFIEEGEAIRLLLQQLEASERQPALLGFIRSLLAVWPGQAARQSLEVLEEGLTDREREVICLAAKGLSNEEIGQQLALALGTVKWHLHNIYEKLKVRNRTQAIRRARELSLLQ	PGPT0018616_691	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0018616-malT-K03556	NA	NA
BMS010_03020	2712	malT_2		HTH-type transcriptional regulator MalT	ATGAGCGTCCAGTCTTCTGCTCCGTTTCGTCGTGTCCCCCTGTTGCGCACCAAGCTTTTCCCGGCGGAGGCCAGCGGGCGTCCGTTATTGCCCCGGGGCGCGCTGATCGAGCGATTGTTCAACGAACGCGACCGCCGCCTGCTGGTGTTGAGCGCGCCGGCCGGCTACGGCAAGAGCACGGTGCTCGCCCAATTCCGTTTGCGCTTGCAGGGTGCGGGAGCGCAGGTGGCCTGGTTGTCCTGCGACGAGAGCGACAGCGAGCCGCAGCGCTTGCTGCAATACGTGGTGGCGGCCATCGAGGCGGTGGTTCCGGGCTTCGGTAGCAGTACCAGCGCCATGCTCCAGGGTGACGTGAGCTGGCCGGTGGAGGCAGTGATCGACTCCTTCCTGGCTGATCTCAAACGGCTGGAGAGCGAGCTGTACCTGGTGTTCGACGACTTCCACCGCATCCGCCACCCGGCGCTCGGCCAGGCGACGCGCTACCTGGTGGAGCATTTGCCGGCCAATGTCCATCTGGTCACCAGCACGCGCTACCAGCCGCGTTTTCTCGCCGACGAACCCTGGGCTTTCTGGCTGAAAGGCGAGGACTTGCGCCTGACTCGCGAGGAAACCGAAGCCTACTTCCGCAACATCAAGCAACTGCCGTTGAGCGAGTCCGAGCTGGACCAGCTCCAGGCGCGCACCGAAGGCTGGATCACCGCGCTGCACCTCGCCTCCTTGGCCATGGCCCGGCACCCGGACCGGGCTGCGTTTCTCGCCGGCCTGTCCGGTACCGAGCGGAACATTGCCGACTACCTTGCCGAAGATGTGCTGGACAGCCTGCCGGAGCCGTTGCAGCAGTTCCTCGACCAGACTTCGGTGCTGGATGAGTTTTGCGCCGACCTGTGCAACGCACTCACCGGCCGCCGCGACGGCCTGGACATGCTGATGCGCCTGCAGGGCGAGCAATTGTTCGTGATCCCGCTGGATGACCAGGGCGAGTGGTTCCGCTACCACCACCTGTTCGCCGAGTTCCTCCAGGGGCGCCTGGCTCGCCGCGGCGACAGCAGCCCGCTGTTGCACGCCGCAGCGCGCTGGTGCGAGAGCCGCGATCTGCCGGAGCGGGCGATCCGCTATTCGTTGCGTGCCCGCGATTACCGGTTCGCTGCCGAGCTGCTGGAGCGCCAGGGGGCTCACCTGATCGCCGGCAACCGGGTGTACAGCATCCTCGCCATGCTCAAGGGCGTGCCTGCCGAGGTGATCCAGGAACATCCGGTGTTCCAGATTTTCTATGCCTGGCAACTGGCGTTCGAGCAGAAGTTCGCCGAAGCCGAGGCATTGATCGAGGAAGTGAGCACACGGCTGCTGCAAGGGCGTGGCACCGTTCTCCACTTCGGCCTTGCCGAGTTGCTGGCGGCGGTGCAGGTGCTCAAGGCGCTGGTGCTGCTCTATCAGGACAAGCTGGAGAGCTGCCTCAAGGTTGCCCGGCACTGGCTGAGCATCGCGCCGGACAACCAGCCGGTGTTCCGTGCCAGCCTGGCCTGTGTGCAGGCGGCGGCGCATGCCTTGCTCGGCGATTTCGGCGACGCCGAGAAGGCCATCGCCACTGCGCGCCACTGCCTGCGCCAGGTGGACAGCGAATACCTGCACGCGATGACCAGCCTGATCGAAGCGCTGATCTGCAAGGAGCGGGGCGATCTTGAGCGCGGACGCTCCATCGCCGAACTGGCGCGCAACCGGGTCGAGCGCGTGTTCGGCCGGCGCAGCCGGGTCGGCGGCCCCTTGGCGTTGGCCTATGCCGATCTGCTCTACGAGCAGGATCGCCATGCCGCGATCCTCGCTGAGTTGCCCTTGGCGACCACCTGGCGCGACGTAGCGACCCCAGTGGAGTTGATCAGCCGGGGCCATCTGGTCATGGCGCGGGCGCGTTTCTTCGCCGGCGAACCGGAGCAGGGCCTGGCCCAGTTGGACGAATGGCTGGCCGGCCTGCAGGGGCCCGGCTACGAACGGGTCTTCGCCCTAGGCATGAGTTGCAAGGTGCAGTTCCTGCTTTGGATGCGGCGGCCGAACGAGGCCGAGCGCATTTGCCTGCAACTGGAACGTCATCTTGCCGGTCTTTCGGCAGGGCGCTATCCCGATGCGCATGCCGCGCAGGTGCTGGCGGAAGCCCGGTTGGCCTTGAGCGAGCGACGCGCCGACAAAGCGCAGGCCATGCTGGAGGCCTGCGTGAGCAAACAGGCGGCGGAAGTGCAGCGCGACCGGCGTTTGCGCCTGTCCTTGTTACTCTCTGTAGCGTATTGGCGGCGCGGTAACAGCGAAAAGGCCTTCGCCCTGTTCCGGTCCACATTGGAAGAGGCCTGGGCCAGTGGCTATCGGCGCCTGTTCCTGGACGATGCGCTGTGGCTGCTGCCGCTCTGGGATGCCTGGCGCGCTGCCGAACCCAGGCGCGCGGGAACCTGGCAGGGTATCGCGGAGATGCTTCGCGAGCAGTGCCGGCGGCTCGCCGTCGACCCGGATACATTCGAAGAAAATCAAGACGTTAGCCATCGTGAGCGGGAGATCCTGCGGTTCGTGGCGGCGGGGTTGTCGAACCGCGACATCGCCCAGGCGGTGCATCTCTCGGAAGCCACCATCAAGTGGCACCTGCACAACCTGTTCGCCAAGTTGGGAGTACGAAGCCGCACGCAAGCGGTCTTGAAGGGGAAAAGTCTCGGCTTGCTCAGCGAGGCCTGA	MSVQSSAPFRRVPLLRTKLFPAEASGRPLLPRGALIERLFNERDRRLLVLSAPAGYGKSTVLAQFRLRLQGAGAQVAWLSCDESDSEPQRLLQYVVAAIEAVVPGFGSSTSAMLQGDVSWPVEAVIDSFLADLKRLESELYLVFDDFHRIRHPALGQATRYLVEHLPANVHLVTSTRYQPRFLADEPWAFWLKGEDLRLTREETEAYFRNIKQLPLSESELDQLQARTEGWITALHLASLAMARHPDRAAFLAGLSGTERNIADYLAEDVLDSLPEPLQQFLDQTSVLDEFCADLCNALTGRRDGLDMLMRLQGEQLFVIPLDDQGEWFRYHHLFAEFLQGRLARRGDSSPLLHAAARWCESRDLPERAIRYSLRARDYRFAAELLERQGAHLIAGNRVYSILAMLKGVPAEVIQEHPVFQIFYAWQLAFEQKFAEAEALIEEVSTRLLQGRGTVLHFGLAELLAAVQVLKALVLLYQDKLESCLKVARHWLSIAPDNQPVFRASLACVQAAAHALLGDFGDAEKAIATARHCLRQVDSEYLHAMTSLIEALICKERGDLERGRSIAELARNRVERVFGRRSRVGGPLALAYADLLYEQDRHAAILAELPLATTWRDVATPVELISRGHLVMARARFFAGEPEQGLAQLDEWLAGLQGPGYERVFALGMSCKVQFLLWMRRPNEAERICLQLERHLAGLSAGRYPDAHAAQVLAEARLALSERRADKAQAMLEACVSKQAAEVQRDRRLRLSLLLSVAYWRRGNSEKAFALFRSTLEEAWASGYRRLFLDDALWLLPLWDAWRAAEPRRAGTWQGIAEMLREQCRRLAVDPDTFEENQDVSHREREILRFVAAGLSNRDIAQAVHLSEATIKWHLHNLFAKLGVRSRTQAVLKGKSLGLLSEA	PGPT0018616_1073	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0018616-malT-K03556	NA	NA
BMS010_03021	432			hypothetical protein	ATGAAAAGACTCAACCAACTGGCGCTTGCTGCTCTGCTGACCGCTCCGCTCCTGGCCCAGGCCGATCTGAAAGCGATGGACGATGCCGCGCTGGCCGGCGTAACCGGTCAGGACGGAATCAGCATTTCCGGTAGCTTCAACGGCTCCATCGGCAGCATCGTCTACACCGACGGCGATACCAACGGCGGTTCGCTGCGCATGGAAACCGTGTCCTTCGACGGCTTCGACATTTCCGACGACAACCCGCTGATGGTCGATGTGGTCACCAACAGCAGCGGTACCCAGCAGCTGCAGATCAGCCTGCCGGAGATGACCGGCCAGCTGGAAGTCGGCGCCATCAAGGTGGGTAACAGCAGCGCCGCCAGCTTGGGCTCCCTGGCCATCAACGACCTGAATATGGCCGGCAGTACCGTCAAGGTCTGGGGTCACTGA	MKRLNQLALAALLTAPLLAQADLKAMDDAALAGVTGQDGISISGSFNGSIGSIVYTDGDTNGGSLRMETVSFDGFDISDDNPLMVDVVTNSSGTQQLQISLPEMTGQLEVGAIKVGNSSAASLGSLAINDLNMAGSTVKVWGH				NA	NA	NA	NA	NA
BMS010_03022	762			hypothetical protein	ATGATCGAAATCCTCGTGGGCAGCCTGATCGGCGTGTTCGGTTTCACCGAGGCGGTGGAAACCAAGCCGCAACAGCAAGGCACGGTGAACATTACCCAGGCGCTGAACGGGACCGTCCCGGTGCGCGAGTCGGTGGTGCTGGAGCCGATGAGCCAGCTGCAGTTCCGCAATGTGATCCGCCAGGCCTACGACTACAGCTGCGGCTCGGCGGCATTGACCACCCTGCTCGACTACTACTTGGGCCGCAACCTCGAAGAACGCCAGGTGATGGAGGGGCTACTGCGTTTCGGCGAGGCGGAAAAGATCGTCGAGCGGCGAGGCTTTTCGCTGTTGGACATGAAGCGCTTCGTGGCTGCCCTCGGCTATGAGAGCGGCGGGTTTCGCGCCGACTTCTCGGACCTGGATGCCCTCGAACATCCGGCCATCGTGCCGATCGAGTACGCCGGGTTCAAACACTTCGTCGTGGTCCGGGACGTCTACAACGACCACGTGTTCGTGGCCGATCCGGCGCTGGGCAACATCAGTTTCACCCGGACCCGCTTCGAGGAAATCTGGGACCAGAACGTGCTGTTCGCCATCTTTCCCGGCGGGCAGGCGCCGCGCAACGCCTTGCAGCTGACCGAGCGCGACCTGCGCCTGGTCGACGATCGTACGGTCAGCCTGCTGGCCTTCAGGGAGTTTCCCGAAATCGCCAAGTTCACCTCGGAGCAGGCCACCGAGCTGGGCTCCGGAGGCGACATCCAATACATCCGCCGCAAGTAA	MIEILVGSLIGVFGFTEAVETKPQQQGTVNITQALNGTVPVRESVVLEPMSQLQFRNVIRQAYDYSCGSAALTTLLDYYLGRNLEERQVMEGLLRFGEAEKIVERRGFSLLDMKRFVAALGYESGGFRADFSDLDALEHPAIVPIEYAGFKHFVVVRDVYNDHVFVADPALGNISFTRTRFEEIWDQNVLFAIFPGGQAPRNALQLTERDLRLVDDRTVSLLAFREFPEIAKFTSEQATELGSGGDIQYIRRK				NA	NA	NA	NA	NA
BMS010_03023	1005			hypothetical protein	ATGGGAGTGAGGGGGTGCGCATGGCTGGCCATGCTGACGCTTCTGGCCGCCGGGCCGGTGATGGCCGATGAGCCTTCCGTCGATGATGCCCGTGAGGCATTGAGCAAGAAAGAAGACGATGCCGATAGCACCAAGGCCCTGGAGGAAGTCTTCCAGGCGGCTGAGAAGAGCTACACCCTGCTGAAGAAGGGCGAGCGCACGCTGACCTACGGCTTCGACTATTCCCTGACCCGCGATACCCTGATCGAGACGGTCCGTACCGGCAACAACGTCTACAGCGTGATCGGCCAGAGCGAGGCCCAGCACACCTTCACCAATTCGTTCACCTTCGACTATGGCGTCTGGGACAACCTGACCTTCAGCGTGCGCCTGCCGTTCGTGGCCAAGTACGACACCGAGCGCGACCTTAACGTCTACAGCCTCGGCGACGTTTCCGCCTCGCTGCGCTGGCAGCCCTGGGCTTCGCTGCGCGGCCGTCCGGTCACCACGCTCTACGCGACCCTCGGCCTGCCCACCGGGGAGAGCCCCTACGACATCAACAGCGATACCGATCTCTCCACCGGCAACGGCTACTACAGCCTCGGCTTCGGCGCCAACATGTCCTATGTGATCGATCCGGTCGTGCTGTTCGGCTCGCTGGGCTACACCTACAACCTGCCGATCCACGGCATCCACCAGGTCCGCGGCGGACGCCTGCTGGAAGGAGTCGATCCGGGCTCGACCTTCAACTTCAGCATGGGCTTCGCCTATGCGCTGTCCTACGACGTTTCGCTGGCGGCTTCCTACCAGATGGCGCATTCCCTGGCGCCGGAGTTCAAGTTTTCCGACGTCACGCTGGAAGGGCGCGAGCAGACCAGTTCGGTCATGAACTTCTCCCTCGGCCTGCGTACCTCGCCGGAGCATATCGTCAACATCAACGCCGGCTTCGGCATGACGGAAGACTCTCCCGACGTGTTGCTGGGGCTCTCCATGCCCCTGGACATCAAAGGCCTGAAGGCCCCCTGA	MGVRGCAWLAMLTLLAAGPVMADEPSVDDAREALSKKEDDADSTKALEEVFQAAEKSYTLLKKGERTLTYGFDYSLTRDTLIETVRTGNNVYSVIGQSEAQHTFTNSFTFDYGVWDNLTFSVRLPFVAKYDTERDLNVYSLGDVSASLRWQPWASLRGRPVTTLYATLGLPTGESPYDINSDTDLSTGNGYYSLGFGANMSYVIDPVVLFGSLGYTYNLPIHGIHQVRGGRLLEGVDPGSTFNFSMGFAYALSYDVSLAASYQMAHSLAPEFKFSDVTLEGREQTSSVMNFSLGLRTSPEHIVNINAGFGMTEDSPDVLLGLSMPLDIKGLKAP				NA	NA	NA	NA	NA
BMS010_03024	1593			hypothetical protein	ATGATCATGCGTATTTCGCCGCTCGCGCGGGCGATCTCCGGGATAGCTCTGCTCTGGGCCGGTGCCGCCAATGCCCAACTGGCGCAGAACCTGACCATCGGCAACCCCAAGGCCATGGCCCTGGGCAACGCGATCACCGCCGACTCCAGCGGTATCGATGCCGTGCACTACAACCCGGCGGCCCTGACCAAGCTCAAGGGGCGCCAGACCGTCGTCAAGTTCATCACCGGGATGATGGATATCCGTGCCGACTTCGATGCGCCGCCGGACTACGGCAGCAGCTTCTTCGGCCTGAAGGACGACCCGGTGGCGAACAGCTCCAGCCGGACGACCACGGCGGCCATGTACCTGCCCGGCCTGGGCGGGGCGATGGAAGTCCCGCTGCTGTTCGCGCCCCTGGCGGGCCTGTCGATCAATCCACCGGGGTCGAAATTCACCTTTGCCACCAATGTCTATACGCCCCAGGCCTTGGGGTTCACCCGCGACTCCGACGACCCGGCTCGCTACCAGGGCCGGGAAGTGGTGCTGCAACGGCTGACCTATTTCTCGCCGTCGATCGGCTACCAAGTCAACGACGAGCTGTCGGTGGGGCTGTCGATTGGTTTTTCCCACCAGGCCATGGCCATCAACCAGGATTTCCGCGCACCCAACGTCCTGACCGGCCTGACCGGGGCCGCCCAGGACGCGCTCTGTACGGTCGATGGCAACCCGTTCGAGGTGCTGTTGAACATCTGCGGCGGCGACCTCGGTCCGTTCACCGACATCGCCAATATCGACATCGACATGCAGCAGACCTTGTCGCCGACCTGGAACATCGGCTTTCTCTGGGAGCCGACCGACTGGTTCGCCTGGGGCGCGGTGTACCAGAGCGAGGCGAAGATGCACCTGCAAGGCAAGTACCGGGTCGATTATTCCCAGGACTGGCAGGGCTTCTGGCGGGGCTTGGACAGTTCGCTGATCGGCGTGATCTTCAGCAGCATCACCCCGGACGGCGTATTCGACGAAGAAGAAGGCAATGTGTCCCTGGACCTGACCTACCCGGCGCACTTCGCCACGGGGATCAAAATCAAGCCGCATCCGAAATGGCAGATCAACTTCGATCTCAAGTGGACCGATTACGATGCCTGGGACAAGTTCGAGCTGGAGTTCGACCGCGAACTGGACGTGCTGCGGATCGCCAAGCTGTTTTCGCCGAACAACGCCACCTCGCATAGCATCATTCTCGACCGCAACTATGAGTCGGTATGGAGCTGGGCATTGGGTGTCCAGTACGAAGTCAACGATCGCCTGAGCCTGCGTTTTGGCTACGAGCCACGCCGTTCGGCGATCCCGGGCAATGCCGCCGATGTCCTGGCGCCGCTCGGCGAGGCCACGTTGTACGGTCTTGGCGCGGGCTATCGCTGGGACAAGGACACGGTGATCGACGTCGGCTTCAATTATCTGGTCAGTAAGCAGGACATCCCGGCCCGCTCGAGCTGCAACGTCAACTGTTCGAACCTGGACAGCATGGTCTACAACCCGTACGCCGATCTGGACATCGAAACCACGGTCAAGGCCTACGTGTTCGCATTGACCTACCAAACCGCTTTCTGA	MIMRISPLARAISGIALLWAGAANAQLAQNLTIGNPKAMALGNAITADSSGIDAVHYNPAALTKLKGRQTVVKFITGMMDIRADFDAPPDYGSSFFGLKDDPVANSSSRTTTAAMYLPGLGGAMEVPLLFAPLAGLSINPPGSKFTFATNVYTPQALGFTRDSDDPARYQGREVVLQRLTYFSPSIGYQVNDELSVGLSIGFSHQAMAINQDFRAPNVLTGLTGAAQDALCTVDGNPFEVLLNICGGDLGPFTDIANIDIDMQQTLSPTWNIGFLWEPTDWFAWGAVYQSEAKMHLQGKYRVDYSQDWQGFWRGLDSSLIGVIFSSITPDGVFDEEEGNVSLDLTYPAHFATGIKIKPHPKWQINFDLKWTDYDAWDKFELEFDRELDVLRIAKLFSPNNATSHSIILDRNYESVWSWALGVQYEVNDRLSLRFGYEPRRSAIPGNAADVLAPLGEATLYGLGAGYRWDKDTVIDVGFNYLVSKQDIPARSSCNVNCSNLDSMVYNPYADLDIETTVKAYVFALTYQTAF				NA	NA	NA	NA	NA
BMS010_03025	1149			hypothetical protein	ATGCGCGTTCTTGCTTTCGGTCTCGCACTTCTTCTCAGCCTGCCGCTCCAGGCCGCTGGTGGGCGTTACCTGACCTGGGTCGATGATCAAGGGCGACTGCACAATACCTTCGTCGATTCGCGTTATGCCGAGCAGCAACGACAGGCCCGGCAGCGGATCGTCCGCAGCGACCAGGCGCGCCAGGGCGACGAGCAGGGCACCCGCTGGCCCGGAAGCCAGAGCAGCGGCGAGCAGAAGCGCCGTTATTTCACCTGGGTGGATGCCAACGGCAACCTGCAGAACAGCTTCTACGCCGGCGCCCAGGCCAGGGACGGCCGGCCGGACATCCGGCTGCCCAATGGCCAGCGTTCAGGCGAATACATCGACGCTGATGTTTTGGAGGGGAGGGGATTCGTCCGTAGCGAGCATGGCAGTCCCTACTACACCTGGGTCGACGAGCAGGGCCGTATGCGTAACTCGCCTGTGCCGAGGGAGCGCGTCGCCGAGGCGGCTCCGACGCAGCAGGCCCGTTACAGCGAAGGGCGCGAGGTCGCGTTCGAGCGGCGCGCACCGGCGCTGCCGGGGCTGGATGGCCAGCCGACGGAGGCGATGAAGGCGCTCCTGCAGGGCAGCAAAGAGCAGCAGCAGAGCCTTTATCAGAGCCTGGTGGATCGCTGCTGTACCCAACTGTCGGAGGACGCATTCACCGACCTGTCGGTGGATCAGCCGCGTTACGAGGAACTGAATCGCTATTCGCCGAGCTTCGATTTCCCCATGGGGCGTAGCTACTACGCGGCTCTCCGGCTACCACGCTCGCACCGGGTCTACGGTTTGCGGGTGCGCAGTTTCGCCAACAAACAGGTGGTCTACCCGTCGCTGCTGTTCCTCGACGAGGCGAAGCGCCCGACCCGTCTGGTCAGCGATGCGGTCTACCAGTTGCACGGCGAGACCTGGTATCGCTATGCGTTCATCGAAGGGACGATTCCGGTCCGGGCGGCGGAGGGGGAACGTTATGTGTTGCTGCTGACTACCGACGAGGACCGCACTCTACAGACCCTGGACAACAAACCGTTCAAACGCCCCTTGCAGGAGCTGTCGGTGAACGAGATGGGGATGCAGGTGCACGCCCATGGCAACGAGGGCGGCTTCGAGCTGGCGATCGTGCGGTAG	MRVLAFGLALLLSLPLQAAGGRYLTWVDDQGRLHNTFVDSRYAEQQRQARQRIVRSDQARQGDEQGTRWPGSQSSGEQKRRYFTWVDANGNLQNSFYAGAQARDGRPDIRLPNGQRSGEYIDADVLEGRGFVRSEHGSPYYTWVDEQGRMRNSPVPRERVAEAAPTQQARYSEGREVAFERRAPALPGLDGQPTEAMKALLQGSKEQQQSLYQSLVDRCCTQLSEDAFTDLSVDQPRYEELNRYSPSFDFPMGRSYYAALRLPRSHRVYGLRVRSFANKQVVYPSLLFLDEAKRPTRLVSDAVYQLHGETWYRYAFIEGTIPVRAAEGERYVLLLTTDEDRTLQTLDNKPFKRPLQELSVNEMGMQVHAHGNEGGFELAIVR				NA	NA	NA	NA	NA
BMS010_03026	987			hypothetical protein	ATGTTCGGTCTGATCAAGACGTGGAAGGCCCTCGAAGCGAAAGGCATCATGGGCATCAACCGGCGCAATGCGGACTACGTGCTGAAGTACAACAAGCGCAGCCTGTATCCCATCGTCGACGACAAGATCATCACCAAGCAGCGCGCGATCGACGCGGGTATCCATGTGCCCGAGCTGTACGGGATCATCGAGACGGAAAAAGAGATCGACAAGCTCAACGAGATCATCGGCGAGCACAACGACTTCGTGATCAAGCCGGCGCAAGGCGCCGGCGGCGACGGCATCACGGTGATCGCCGACCGTTTCGAAGGCCGCTACAAGACGGTATCCGGCAAGATCGTCACCCACGAGGAGCTGGAGCATCAGATTTCCAGCATCCTCACCGGCCTTTACTCCCTCGGCGGCCACCGCGACCGCGCGCTGATCGAGTACCGGGTCACACCAGACCAGATCTTCAAGAGCATCAGCTACGAAGGCGTGCCGGACATCCGCATCATCGTGCTGATGGGCTATCCGGTGATGGCCATGCTGCGCCTGCCGACCCGGCAGTCCAATGGCAAGGCCAACCTGCATCAGGGCGCCATCGGCGTCGGTGTCGACCTGGCCACGGGCATCACCCTGCGCGGCACCTGGCTGAACAACAAGATCGTCAAGCATCCGGACACCAACAACGCGGTGGACGGCGTGCAACTGCCGAACTGGGACGGCTTCATGAAGCTGGCCGCCGGCTGCTACGAGCTGTGCGGCCTCGGCTACATCGGCGTAGACATGGTACTGGACCAGGACAAGGGACCGCTGATCCTCGAACTCAACGCCCGTCCCGGCCTGAACATCCAGATCGCCAACGACTGCGGCCTGGTGCACCGCACCCATGCCGTGGAAGCGCGCCTGGAAGAGCTGAAGAAAAAAGGCGTCAAGGAAAGTGTCGAGGAGCGCGTGCGCTTCTCTCAGCAACTGTTCGGCCACGTGCACCCGGCAGAAAGCTGA	MFGLIKTWKALEAKGIMGINRRNADYVLKYNKRSLYPIVDDKIITKQRAIDAGIHVPELYGIIETEKEIDKLNEIIGEHNDFVIKPAQGAGGDGITVIADRFEGRYKTVSGKIVTHEELEHQISSILTGLYSLGGHRDRALIEYRVTPDQIFKSISYEGVPDIRIIVLMGYPVMAMLRLPTRQSNGKANLHQGAIGVGVDLATGITLRGTWLNNKIVKHPDTNNAVDGVQLPNWDGFMKLAAGCYELCGLGYIGVDMVLDQDKGPLILELNARPGLNIQIANDCGLVHRTHAVEARLEELKKKGVKESVEERVRFSQQLFGHVHPAES				NA	NA	NA	NA	NA
BMS010_03027	1527			hypothetical protein	ATGCGCTCTCTCAACCTGCATCTGAAAGTCCTGATCACCTTGCTGGTGACCCTTGGCGTTCTGATCACGGCCTATCAGATCTTCATCCTCGGTATCCCGGTGACGGAAGACGAAACCGACGATCTCTGGAACATCGACGCCAAGGTCGAATTCCAGGCCAACCCTCGTGAGCCGGTCAAGGTGCAGATGTTCGTCCCGCCGCTGAACCAGGACTACGTCAGCCTCAACGAGAGCTTCATCTCCAACAACTACGGCGTCAGCGTCAACCGGGTCGACGGCAACCGCCGGGTAACCTGGTCGGCCCGCCGCGCCAGCGGCAAGCAGACCCTTTACTACCGCCTGGTGCTGACCAAGCGCTACAGCGGCGAGCAGGCGAAGCCCAAGGGCCCGATCTTCCGTGACAGCATCCCCGTCGAAGGCGCGGAAAAGATCGCGGCGGAAGCATTGCTGGCGCCCATCCGCCAGCACTCGGCCGACGTCGAGACCTTCATCGGCGAAACCATCAAGCGGGTCAACAACGCCAACGACGACAACGTGAAACTGCTGATGGCCGGCGATGCCTCGACGCCGAACAAGGCCCGCATCATCGAACTGCTGCTGTCCATCGCCCACGTGCCGATGGAGCGCGTCCACACCATTCGCCTGATCGGCGAGCAGCCGCAGAGCCCCGAGCTCTGGCTGCGCAGCTTCAACGGCGACAAGTGGCTGTACTTCAACCCTGAAACCGGCGAGCAAGGCATGCCCGCGGACCGCCTGATGTGGTGGATCGGCGACGACCCGCTGGTGGCCGTCGAGGGCGGCAAGCAGGCCCAGGTCAGCTTCACCCTGAACAACAGCGAGATGAACGCCATCCGCCTGGCCAAGCTGACCGACGAAAACACCGACGTCGACTTCCTCGAATACTCGCTGTACGGCCTGCCGCTCTCCACCCAGCAGACCTACCAGATCATGATCATGATCCCGATCGGCGTGCTGGTGATCCTGGTGCTGCGCAACCTGATCGGCATCCAGACCCTCGGCACCTTCACCCCGGTGCTGATCGCCCTCGCCTTCCGCGAGACCCAGCTCGGCTTCGGTATCGTGCTGTTCACCCTGATCACCGCCCTCGGCCTGTCGCTGCGCTCGTACCTCGAGCACCTGAAGCTGCAGATGCTGCCTCGACTTTCGGTGGTGCTGACCTTCGTGGTCGTGCTCATCGCCGTGATCAGCCTGCTCAGCCACAAGCTGGGCCTGGAGCGCGGCCTGTCCGTGGCGCTGTTCCCGATGGTGATCCTGACCATGACCATCGAACGCCTGTCGATCACCTGGGAAGAACGCGGCGGCGGCCATGCGATGAAGGTCGGCGTGGGCACCATCATCGCCGCCTCCCTGGCGCACGTGTTGATGAACGTGCCAGAGCTGACCTACTTCGTCTTCACCTTCCCGGCCGTGCTGCTGGTGCTGGTGGGCTTCATGCTGGCGATGGGTCGCTACCGCGGCTACCGCCTGACGGAGCTGTTCCGCTTCAAAGCCTTTCTCAAGGACTAA	MRSLNLHLKVLITLLVTLGVLITAYQIFILGIPVTEDETDDLWNIDAKVEFQANPREPVKVQMFVPPLNQDYVSLNESFISNNYGVSVNRVDGNRRVTWSARRASGKQTLYYRLVLTKRYSGEQAKPKGPIFRDSIPVEGAEKIAAEALLAPIRQHSADVETFIGETIKRVNNANDDNVKLLMAGDASTPNKARIIELLLSIAHVPMERVHTIRLIGEQPQSPELWLRSFNGDKWLYFNPETGEQGMPADRLMWWIGDDPLVAVEGGKQAQVSFTLNNSEMNAIRLAKLTDENTDVDFLEYSLYGLPLSTQQTYQIMIMIPIGVLVILVLRNLIGIQTLGTFTPVLIALAFRETQLGFGIVLFTLITALGLSLRSYLEHLKLQMLPRLSVVLTFVVVLIAVISLLSHKLGLERGLSVALFPMVILTMTIERLSITWEERGGGHAMKVGVGTIIAASLAHVLMNVPELTYFVFTFPAVLLVLVGFMLAMGRYRGYRLTELFRFKAFLKD				NA	NA	NA	NA	NA
BMS010_03028	537			hypothetical protein	ATGAGACTCAAGCCTTACGCCCTGCTGTCCTGCCTGCCTCTCGTGACCGGCCAGAGTCTCGCCGCCGAGAAGACCATCTATGGTCTGAACGAATACGCCCAACTGACCGACATCGACGTGGAAATCGCCGCGAAACTGGACACCGGCGCCAAGACCGCGTCCCTGAGCGCGCGCGATATCGAACGCTTCAAGCGCGATGGGGAGACCTGGGTACGTTTCTATCTCGGTGTCGACGATGCCCACGAGCACCCCATCGAGCGGCCGCTGGCCCGCATCAGCAAGATCAAGCGCCGCGCCGGCGACTATGATCCCGAGGAAGAAAAGACCTACACCGCACGCCCGGTGATCGAAATGGAAATCTGCATGGGCAGGACGCTACGCAGCATCGAAGTGAACTTGACCGACCGGAGCGCCTTCCAATACCCGCTTCTGATCGGCTCCGAGGCACTCAAGCGCTTTGGGGCGCTGGTCGACCCAAGCCTAAAATATGCAGCCGGCAAGCCCGGTTGTACTTCCGACGCAAACTCCGCTGAGTAA	MRLKPYALLSCLPLVTGQSLAAEKTIYGLNEYAQLTDIDVEIAAKLDTGAKTASLSARDIERFKRDGETWVRFYLGVDDAHEHPIERPLARISKIKRRAGDYDPEEEKTYTARPVIEMEICMGRTLRSIEVNLTDRSAFQYPLLIGSEALKRFGALVDPSLKYAAGKPGCTSDANSAE				NA	NA	NA	NA	NA
BMS010_03029	723	gntR_1		putative D-xylose utilization operon transcriptional repressor	ATGCAAGACGTCCTTGAATCCACCCCTGTCGCCCCGGAAGACTCCGGCACGCTTTCCGAACACGTTTTCCGGCGTATCCAGGCGGCGATCGTGAAAGGTGAGATCGCGCCGGGCAGCAAGATTTCCGAGCCCGAGCTGGCGCGTACCTACGGCATCAGCCGGGGGCCCCTGCGCGAGGCGATCCACCGGCTGGAAGGGCAACGCCTGCTGGTGCGAGTGCCCCATGTGGGCGCCCGGGTGGTTTCGCTCAGCCATGCCGAGCTGATCGAACTCTACGAAATCCGCGAGTCCCTGGAGGGCATGGCCTGCCGGTTGGCGGCCGAGCGCATGAGTCAGGCGGATATCGACGAGCTGCGCCGGGTGCTGGAGACCCACGAGCGCGATGCGGCGTTTCAGGCCGGTGTCGGCTACTACCAGCAGGAAGGCGATTTCGATTTCCACTACCGGATCATCCAGGGCAGCGGCAACCGTACCCTGGCCAAGCTCCTGTGCGACGAGCTGTATCAACTGGTGCGGATGTACCGCATCCAGTTCTCCGCCACGCCGAACCGGCCACGCCAGGCCTTCGCCGAACACCACCGCATTCTCGATGCCATCGCCGACCGTGACGGCGAACTGGCCGAACTGCTGATGCGCCGCCATATCGGCGCGTCCAAGCGCAACATCGAGCGTCACTTCCAGGACGCTTCGGACAAGACAGCCACAAAACGAGGTGAGTCATGA	MQDVLESTPVAPEDSGTLSEHVFRRIQAAIVKGEIAPGSKISEPELARTYGISRGPLREAIHRLEGQRLLVRVPHVGARVVSLSHAELIELYEIRESLEGMACRLAAERMSQADIDELRRVLETHERDAAFQAGVGYYQQEGDFDFHYRIIQGSGNRTLAKLLCDELYQLVRMYRIQFSATPNRPRQAFAEHHRILDAIADRDGELAELLMRRHIGASKRNIERHFQDASDKTATKRGES				NA	NA	NA	NA	NA
BMS010_03030	888	prpB	COG2513	2-methylisocitrate lyase	ATGAGTCAAGCATCTGCCGGGCAGCGCTTTCGCGATGCCGTCGCCAGCGAACATCCGCTGCAAGTGGTCGGCGCGATCAATGCCAACCATGCGCTGCTGGCCAAGCGCGCCGGCTTCAAGGCGATCTATCTGTCCGGCGGCGGCGTCGCGGCCGGCTCGCTGGGCCTGCCGGACCTCGGCATCACCGGCCTGGACGACGTGCTGACCGATGTTCGCCGCATCACCGACGTCTGCGACCTGCCGCTGCTGGTGGATGTCGACACCGGCTTCGGCGCGTCGGCCTTCAACGTGGCGCGTACCGTCCGCTCGATGATCAAGTTCGGCGCCGCCGCCATCCATATCGAGGACCAGGTCGGCGCCAAGCGTTGCGGCCACCGGCCGAACAAGGAAATCGTCACCCAGCAGGAGATGGTCGACCGGATCAAGGCGGCGGTGGATGCACGCACCGACGACAGCTTCGTGATCATGGCGCGCACCGATGCACTGGCCGTGGAAGGGCTCAACGCTGCCCTGGACCGCGCGGAAGCCTGCATCGAGGCGGGGGCGGACATGATCTTCCCCGAGGCCATCACCGAATTGGCCATGTACAAGACCTTCGCCGACCGGGTGAAAGCGCCGATCCTGGCCAACATCACCGAGTTCGGTGCCACGCCGCTGTACACCACCGAGGAGCTGGCCAGCGCCGATGTATCCCTGGTGCTCTATCCGCTGTCGGCGTTCCGTGCCATGAACAAGGCGGCGGAGAACGTCTACACCGCAATCCGCCGCGACGGCACCCAGCGCAACGTGATCGACACCATGCAGACCCGCATGGAGCTGTACGAGCGCATCGACTACCACAGCTTCGAGCAGAAACTGGACGCCCTGTTCGCCCAGAAGAAGAGCTGA	MSQASAGQRFRDAVASEHPLQVVGAINANHALLAKRAGFKAIYLSGGGVAAGSLGLPDLGITGLDDVLTDVRRITDVCDLPLLVDVDTGFGASAFNVARTVRSMIKFGAAAIHIEDQVGAKRCGHRPNKEIVTQQEMVDRIKAAVDARTDDSFVIMARTDALAVEGLNAALDRAEACIEAGADMIFPEAITELAMYKTFADRVKAPILANITEFGATPLYTTEELASADVSLVLYPLSAFRAMNKAAENVYTAIRRDGTQRNVIDTMQTRMELYERIDYHSFEQKLDALFAQKKS	PGPT0001555_1141	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-SUCCINIC_ACID_ACID_BIOSYNTHESIS,PGPT0001555-prpB-K03417	NA	NA
BMS010_03031	1128	prpC_2	COG0372	2-methylcitrate synthase	ATGGCTGAAGCAAAAGTATTGAGCGGGGCCGGCCTGCGTGGCCAGGTAGCCGGCCAGACCGAACTCTGCACCGTGGGCAAGACCGGTGCCGGGCTGACCTACCGCGGTTATGACGTGCGCGAGCTGGCCGCCGGGGCCTGCTTCGAGGAGGTCGCCTACCTGCTGTTGTACGGCGAGTTGCCGAACCAGGCGCAACTCGATGCCTACCGCAAGAAGTTGCAGGGACTGCGCGATCTGCCCCAGGCGCTGAAGGAAGTGTTGGAGCGCATCCCGAAGGATGCCCATCCGATGGACGTGATGCGCACCGGCGCGTCGGTGCTGGGTACGCTGGAGCCGGAAACCGGCTTCGAACAGCAGCGCGACAAGGCCGACCGCCTGCTGGGCATCTTCCCGGCGATCATGTGCTACTGGTATCGCTTCACCCATGAGGGTGTGCGCATCGACTGCACCTCCGCCGAAGAATCCATCGGCGGCCATTTCCTCGCGCTGCTGCACGGTAAGAAGCCGTCCGAGCTGCACGTGAAGGTGATGAACGTTTCGCTGATCCTCTATGCCGAGCATGAGTTCAACGCGTCCACCTTCACCGCGCGGGTCTGTGCCTCGACGCTGTCCGATATTTTCTCCTGCGTCACCGCTGCCATCGGCTCGCTGCGTGGCCCGCTGCACGGCGGTGCCAACGAGGCGGCGATGGAATTGATCGAGCGCTTCACGTCGCCGGAAGAGGCGGTGACCGAACTGCTCAAGATGCTCGAGCGCAAGGACAAGATCATGGGCTTCGGCCATGCCATCTACAAGGAGTCCGACCCGCGCAACGAGGTGATCAAGGGTTGGTCGAAGAAGCTCGCCGACGAAGTGGGGGACACCATGCTGTATCCGGTGTCCGAAGCCATCGACAGGACCATGTGGGAGCAGAAGAAACTGTTCCCCAACGCCGACTTCTACCACGCCTCGGCGTATCACTTCATGGGCATCCCGACCAAGCTGTTCACCCCGATTTTCGTCTGTTCGCGGGTGGCGGGCTGGACTGCCCACGTGTTCGAGCAGCGTGCCAACAACCGCATCATCCGCCCCAGTGCGGAATACACCGGCGTCGAGCAGCGGCCGTTCGTGCCCGTGGAAAAACGCTGA	MAEAKVLSGAGLRGQVAGQTELCTVGKTGAGLTYRGYDVRELAAGACFEEVAYLLLYGELPNQAQLDAYRKKLQGLRDLPQALKEVLERIPKDAHPMDVMRTGASVLGTLEPETGFEQQRDKADRLLGIFPAIMCYWYRFTHEGVRIDCTSAEESIGGHFLALLHGKKPSELHVKVMNVSLILYAEHEFNASTFTARVCASTLSDIFSCVTAAIGSLRGPLHGGANEAAMELIERFTSPEEAVTELLKMLERKDKIMGFGHAIYKESDPRNEVIKGWSKKLADEVGDTMLYPVSEAIDRTMWEQKKLFPNADFYHASAYHFMGIPTKLFTPIFVCSRVAGWTAHVFEQRANNRIIRPSAEYTGVEQRPFVPVEKR	PGPT0001480_925	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-CITRIC_ACID_BIOSYNTHESIS,PGPT0001480-prpC-K01659	NA	NA
BMS010_03032	2589	acnM	COG1048	Aconitate hydratase A	ATGAACACCGCATACCGCAAACCCTTGCCGGGCACTTCGCTGGACTACTTCGACGCGCGTGCCGCGGTCGAGGCGATCCAGCCCGGCGCCTACGCCACCTTGCCGTACACTTCGCGCGTACTGGCGGAAAACCTCGTGCGTCGCTGCGACCCGGCGACCCTCACCGACTCGCTGAAGCAGCTCATCGAGCGCCGTCGCGACCTGGACTTCCCCTGGTTCCCGGCCCGTGTGGTGTGCCACGACATCCTCGGCCAGACCGCGCTGGTGGACCTGGCCGGTCTGCGCGATGCCATCGCCGACCAGGGCGGCGATCCGGCCAAGGTCAATCCGGTGGTGCCGGTACAACTGATCGTCGACCACTCGCTGGCAGTGGAGTGCGGCGGCTTCGATCCCGATGCGTTCGCCAAGAACCGCGCCATCGAGGATCGGCGCAACGAGGACCGCTTCCATTTCATCGAGTGGACCAAGCGGGCGTTCCAGAACGTCGATGTGATCCCGCCGGGCAACGGGATCATGCACCAGATCAACCTGGAGAAGATGTCGCCAGTGATCCAGGTGCGCGACGGCGTGGCTTTCCCTGATACCTGCGTTGGCACCGACAGCCACACCCCCCACGTCGATGCGCTGGGTGTGATCGCTATCGGCGTCGGCGGTCTCGAAGCCGAGAACGTGATGCTGGGTCGCGCGTCCTGGATGCGCCTGCCCGACATCGTCGGCGTCGAGCTGACCGGCAAGCCGCAGCCGGGCATCACTGCCACCGACGTGGTGCTGGCGCTGACCGAATTCCTGCGCAAGGAAAAAGTGGTGGGTGCCTACCTGGAGTTCCGCGGCGAGGGAGCCGCCGCCCTGACCCTGGGCGACCGTGCGACCATCTCCAACATGGCTCCCGAATACGGCGCCACGGCCGCGATGTTCTTCATCGACCGGCAGACCATCGACTATCTGAAGCTCACCGGCCGCGACGACGCCCAGGTGCAACTGGTCGAGACCTACGCCAAGGAAGCCGGGCTGTGGGCCGACAGCCTGAAGAGTGCCCAGTACGAGCGCTCGCTGACGTTCGATCTGTCCAGCGTGGTGCGCAACATGGCCGGGCCGTCCAACCCGCATGCGCGGGTGGCGACCACCGACCTCGCCGCCAAGGGCATCGCCGGCCATTGGGAAGAGGTGCCGGGGCAGATGCCGGATGGCGCGGTGATCATCGCCGCCATCACCAGTTGCACCAACACCAGCAACCCGCGCAACGTGATCGCGGCGGGCCTGCTCGCGCGCAATGCCAACCGACTCGGCCTGGTTCGCAAGCCCTGGGTGAAGTCATCCCTGGCGCCCGGTTCCAAGGCGGTGAAACTCTACTTGCAAGAGGCCGGTCTGGAGCAGGAGCTGGAGAAGCTGGGCTTCGGTGTGGTGGCCTTCGCCTGCACCACCTGCAACGGTATGTCCGGCGCGCTGGACCCGAAGATCCAGCAGGAAATCATCGACCGCGACCTGTATGCCACCGCCGTGCTGTCTGGCAACCGCAACTTCGACGGGCGTATCCATCCCTACGCCAAGCAGGCATTCCTGGCTTCGCCGCCGCTGGTCGTGGCCTATGCCATCGCCGGCACCATCCGCTTCGACATCGAGAAGGATGTGCTGGGCGTGGTCGACGGCAAGGAAATTCGCCTGAAGGACATCTGGCCGTCGGACGAAGAAATCGATGCTGTGGTCCGTTCCGCGGTGAAGCCCGAGCAGTTCCGCCAGGTTTACATCCCGATGTTCGACCTCAGCCGTGAGACCGCCGCGCAGGTCAGCCCGTTGTACGACTGGCGACCGATGAGCACCTACATCCGCCGTCCGCCATACTGGGAAGGCGCCCTGGCCGGCGAGCGCCCGCTGCGCGGCATGCGCCCGCTGGCGGTGCTCGGCGACAACATCACCACCGACCACCTGTCGCCGTCCAACGCGATCCTGGCGAACAGCGCGGCGGGCGAGTACCTGGCGAAGATGGGCCTGCCGGAAGAGGACTTCAACTCCTATGCCACCCACCGCGGCGACCACCTGACCGCCCAGCGCGCCACCTTCGCCAACCCGCAGCTGATCAACGAGATGGCGGTGGTCGATGGCCAGGTCAAGAAGGGTTCGCTGGCGCGCATCGAGCCGGAGGGCAAAGTCACCCGCATGTGGGAAGCCATCGAGACCTACATGGAGCGCAAGCAGCCGCTGATCATCGTCGCTGGCGCCGACTACGGCCAGGGTTCGTCCCGCGACTGGGCGGCCAAGGGTGTACGCCTGGCCGGCGTCGAGGCCATCGTCGCCGAAGGCTTCGAGCGCATCCATCGCACCAACCTGATCGGCATGGGCGTGCTGCCGCTGGAATTCAAGCCGGGCACCACGCGCAAGACGCTGGGCATCGACGGTACCGAAACCTTCGATGTGGTCGGGACACGCAAACCGCGTACCGACCTGACCCTGGTGATCCATCGCCGGAATGGCGAGACCTTGGAGGTCCCCGTGACCTGTCGTCTGGACAGCGACGAGGAAGTCTCGATCTACGAGGCGGGCGGCGTGTTGCAGCGTTTCGCCCAGGACTTCCTCGAAGGCGCCGTCGTGTGA	MNTAYRKPLPGTSLDYFDARAAVEAIQPGAYATLPYTSRVLAENLVRRCDPATLTDSLKQLIERRRDLDFPWFPARVVCHDILGQTALVDLAGLRDAIADQGGDPAKVNPVVPVQLIVDHSLAVECGGFDPDAFAKNRAIEDRRNEDRFHFIEWTKRAFQNVDVIPPGNGIMHQINLEKMSPVIQVRDGVAFPDTCVGTDSHTPHVDALGVIAIGVGGLEAENVMLGRASWMRLPDIVGVELTGKPQPGITATDVVLALTEFLRKEKVVGAYLEFRGEGAAALTLGDRATISNMAPEYGATAAMFFIDRQTIDYLKLTGRDDAQVQLVETYAKEAGLWADSLKSAQYERSLTFDLSSVVRNMAGPSNPHARVATTDLAAKGIAGHWEEVPGQMPDGAVIIAAITSCTNTSNPRNVIAAGLLARNANRLGLVRKPWVKSSLAPGSKAVKLYLQEAGLEQELEKLGFGVVAFACTTCNGMSGALDPKIQQEIIDRDLYATAVLSGNRNFDGRIHPYAKQAFLASPPLVVAYAIAGTIRFDIEKDVLGVVDGKEIRLKDIWPSDEEIDAVVRSAVKPEQFRQVYIPMFDLSRETAAQVSPLYDWRPMSTYIRRPPYWEGALAGERPLRGMRPLAVLGDNITTDHLSPSNAILANSAAGEYLAKMGLPEEDFNSYATHRGDHLTAQRATFANPQLINEMAVVDGQVKKGSLARIEPEGKVTRMWEAIETYMERKQPLIIVAGADYGQGSSRDWAAKGVRLAGVEAIVAEGFERIHRTNLIGMGVLPLEFKPGTTRKTLGIDGTETFDVVGTRKPRTDLTLVIHRRNGETLEVPVTCRLDSDEEVSIYEAGGVLQRFAQDFLEGAVV	PGPT0001515_489	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-ACONITIC_ACID_BIOSYNTHESIS,PGPT0001515-acnD-K20455	NA	NA
BMS010_03033	1182	prpF	COG2828	2-methyl-aconitate isomerase	ATGGCTCAGCAACCCCAGATCAAGATTCCCGCCACCTACATGCGCGGCGGCACCAGCAAGGGTATGTTCTTTCGTCTGCAGGACCTGCCGGAACGCTGCCAGGTGCCGGGCGAGGCGCGCGACCGGCTGTTCATGCGCGTGATCGGCAGCCCCGACCCGTATGCCGCGCATATCGACGGCATGGGCGGCGCCACCTCGTCGACCTCCAAATGCGTGATCCTGTCGAAAAGCAGCCAGCCCAATCACGACGTGGATTATCTCTATGGCCAGGTCTCCATCGACAAGGCCTTCGTCGACTGGAGCGGCAACTGCGGCAACCTGTCCACCGCGGCCGGCGCCTTTGCCCTTCATGCCGGCTTGGTCGATCCGGCGCGTATCCCGCAGAACGGCATCTGCACGGTGCGTATCTGGCAGGCCAACATCCAGAAAACCATCATCGTCCATGTGCCGGTCACCGATGGTCAGGTACAGGAAACCGGCGACTTCGAACTGGATGGCGTGACCTTTCCGGCCGCGGAGATCGTGCTGGAATTCCTCGATCCATCCGATGACGGCGAAGGCTCGATGTTTCCCACCGGCAACCTGGTGGATGACCTCGAAGTGCCGGGTGTCGGTACCTTCAAGGCAACCATGATCAGCGCGGGCATCCCAACCGTATTCGTCAACGCCGAAGATATCGGCTACCAAGGCACCGAGCTGCGCGAAGCGATCAATGGCGATCCCGCGCAACTGGCGCGCTTCGAGCAGCTCCGTATCGCCGGTGCGCTGCGCATGGGGCTCATCAAGAGCCCGGAGGAGGCCGCCACCCGGCAGCACACGCCGAAGATCGCCTTTGTGTCGCCGCCCAAGGACTACAAGGCATCCAGCGGCAAGCAGATCGAGGCTGGCGAGGTCGATCTGCTGGTGCGCGCGCTGTCCATGGGCAAACTGCATCACGCCATGATGGGTACCTGTGCGGTGGCCATCGGCACCGCCGCGGCGATTCCCGGCACCCTGGTCAACCTTGCCGCCGGCGGTGGCGAGCGCAGTGCGGTGCGTTTCGGACATCCGTCGGGCACCCTGCGCGTTGGCGCCGAGGCCCGTCAGGTGAACGGCGAATGGACCGTGACCAAGGCCATCATGAGCCGCAGTGCGCGCGTGCTGATGGAGGGTTGGGTGCGCGTACCGGGCGACGCGTTCTGA	MAQQPQIKIPATYMRGGTSKGMFFRLQDLPERCQVPGEARDRLFMRVIGSPDPYAAHIDGMGGATSSTSKCVILSKSSQPNHDVDYLYGQVSIDKAFVDWSGNCGNLSTAAGAFALHAGLVDPARIPQNGICTVRIWQANIQKTIIVHVPVTDGQVQETGDFELDGVTFPAAEIVLEFLDPSDDGEGSMFPTGNLVDDLEVPGVGTFKATMISAGIPTVFVNAEDIGYQGTELREAINGDPAQLARFEQLRIAGALRMGLIKSPEEAATRQHTPKIAFVSPPKDYKASSGKQIEAGEVDLLVRALSMGKLHHAMMGTCAVAIGTAAAIPGTLVNLAAGGGERSAVRFGHPSGTLRVGAEARQVNGEWTVTKAIMSRSARVLMEGWVRVPGDAF	PGPT0001520_422	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-ACONITIC_ACID_BIOSYNTHESIS,PGPT0001520-prpF-K09788	NA	NA
BMS010_03034	1485	mmgE	COG2079	Citrate/2-methylcitrate dehydratase	ATGAGCGCCAATGTCGATCTGAACGTCCGCCCCGATTACGACCAAGTCCTGCAGGCTATTGCCGATTACGTCCTGACCTACCGGGTCGAGTCCGCCGAAGCCCTGGATACCGCCCGCTACTGCCTGATGGACACCCTCGGCTGCGGCTTGCTGGCCCTGCGTTTCCCCGAATGCACCAAGCTCCTCGGGCCCATCGTCGAGGACACGATCGTTCCCTTCGGAGCCCGCGTGCCGGGCACCCGGTTCCGCCTCGATCCGGTGAAGGCCGCCTGGGACATCGGCTGTCTCGTGCGCTGGTTGGACTACAACGACACCTGGTTGGCAGCGGAGTGGGGGCACCCGTCCGACAATCTCGGCGGCATCCTCGCCGTGGCCGACCACCTCTCGCAGAAGCTCGTCGCTCAAGGCGACCCGCCGCTGACCTTGCGCAGCGTGCTCGAGGCGATGGTCATGGCGCATGAAATCCAGGGCGTGCTGGCGCTGGAAAACGCCTTCAACCGCGTTGGGCTGGACCATGTGATCCTGGTCAAGGTGGCGTCCACCGCCGTCTGTGCCCGGCTGATGGGCGCCAATCGCGAACAGATGCTCTCCGCGCTGTCCCATGCCTTCGTCGATGGCCAGGCGTTGCGCACCTACCGTCATGCACCGAATGCCGGCTCGCGGAAGTCGTGGGCGGCGGGGGATGCCACGAGCCGTGGCGTGCGCCTGGCCGACATCGCCCTGCGCGGCGAGATGGGTATTCCTGGCGCGCTCACCGCGTCGCAGTGGGGCTTCTACGATGTGTCGTTCAGCCACACCAACAAGGATCTGGCGACCAAGCCGGCAGAGCAGCGCCGGCTCAGTCTTCCGCAGGCATTCGGCAGCTATGTGATGGAGCACGTGCTGTTCAAGATCAGCTTTCCGGCCGAGTTCCATGCGCAGACGGCCTGCGAAGCCGCATGGGCGCTGCACCCTTCGGTGAAGGACCGCCTGCATGAGATCGACCGGATCGTCATCACCACTCACGAATCGGCGATTCGCATCATTTCCAAGTTGGGGCCCCTGGCCAACGCTGCGGACCGCGACCATTGCCTGCAATACATGACCGCCGTGCCGCTGATCTTCGGCGATCTGGTGGCCGAACATTACGAAGATGACTTCCACGCCGCCCATCCGATCATCGACGAACTGCGCGCCAAGATGGTGATCGTCGAGGATGAGCGCTACAGCCGGGAATACCTGGAAGCCGACAAGCGCTCCATCGCCAATGCCGTTCAGGTGTTCTTCACGGACGGCAGCGCCACCGAGAAGGTGGAAGTGGAATACCCCATCGGCCATCGTCGGTGCCGCGCCGAAGGCATTCCCCTGCTGGAAGAGAAATTCAAGGCCAATCTGGCCAGCCGCTTCCCCGGTCAGCGCTGCATGCAGATTTTCTCGCTTTGCCAGGATCGGGCGAGGTTGGAGAGCATGCCGGTGGATCGCTTCATGGCGCTGTTCGTGATCTGA	MSANVDLNVRPDYDQVLQAIADYVLTYRVESAEALDTARYCLMDTLGCGLLALRFPECTKLLGPIVEDTIVPFGARVPGTRFRLDPVKAAWDIGCLVRWLDYNDTWLAAEWGHPSDNLGGILAVADHLSQKLVAQGDPPLTLRSVLEAMVMAHEIQGVLALENAFNRVGLDHVILVKVASTAVCARLMGANREQMLSALSHAFVDGQALRTYRHAPNAGSRKSWAAGDATSRGVRLADIALRGEMGIPGALTASQWGFYDVSFSHTNKDLATKPAEQRRLSLPQAFGSYVMEHVLFKISFPAEFHAQTACEAAWALHPSVKDRLHEIDRIVITTHESAIRIISKLGPLANAADRDHCLQYMTAVPLIFGDLVAEHYEDDFHAAHPIIDELRAKMVIVEDERYSREYLEADKRSIANAVQVFFTDGSATEKVEVEYPIGHRRCRAEGIPLLEEKFKANLASRFPGQRCMQIFSLCQDRARLESMPVDRFMALFVI	PGPT0001470_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001470-acnB-K01682	NA	NA
BMS010_03035	906	cysL_2	COG0583	HTH-type transcriptional regulator CysL	ATGACTCTCAACCTGGATCATCTGCGCAGCTTTGCCGAGGTCATCGACAGCGGCAGTTTCTCTGCGGCCGCGGAACGCCTGGGGCTGACCCAGCCCGCCGTGAGCCTGCAAATCCGCCAACTGGAACGCCGCCTCGGCGTGCGTCTGATCGAGCGTGTGGCCCGGCGGACCACGCCGACGCCGGCGGGAACGGAACTGCTCGAACATGCCCGGCGCATCGAGGCGGCCGTCGAAGACGCCATGCATGCCATGGCCGGACACCATCAGGGAATCAGCGGGCGCGTCGGCATGGGTACCGGCGCCACCGCCTGCATCCACCTGCTGCCGCCGCTGCTGGGCGAACTGCACCGGGCATTTCCGGCACTGGAAGTACAGGTCAGCACCGGCAACACGGCCCAGTTCGTCAAGGCCGTGGAAGACAACCGGCTCGACCTGGCCCTGGTCACGCTCCCGGTTTCCTCGCGCAGCCTGCAGGTCACGCCGGTGCTGGAGGACGAATTCGTCGCCATCTTCGCCGAGACCGATGCCAGCCCCGTTGCCGCAGCGCCGACGCCCGAAGCGCTGGCCGAACGGCCGATGGTGGTCTTCGAGGCCCACACCAACACGCGCCAACTGATCGATGACTGGTTTCTCCAGGTGGGGCTGCGCCCGAAGCCGACGATGGAGTTGGGCAGTATCGAAGCCATCAAGGAAATGGTCGCCGCCGGCCTCGGCTTCGGCATCGTGCCGGCCATGGCCGTCGCAGCTCGACGGCACCGTCGCGGGTTGCGCGTCCTGCCGCTGCAACCGACACTGTCGCGTACCCTGGCCATCGTCATGCGCCAGGACAAACCGCTGAATCGCGGCCTGCAACAGGTCGTACAGGCCCTGCGCTCACTCACTCCGCCCGCAGTGGAGAGCCTCTGA	MTLNLDHLRSFAEVIDSGSFSAAAERLGLTQPAVSLQIRQLERRLGVRLIERVARRTTPTPAGTELLEHARRIEAAVEDAMHAMAGHHQGISGRVGMGTGATACIHLLPPLLGELHRAFPALEVQVSTGNTAQFVKAVEDNRLDLALVTLPVSSRSLQVTPVLEDEFVAIFAETDASPVAAAPTPEALAERPMVVFEAHTNTRQLIDDWFLQVGLRPKPTMELGSIEAIKEMVAAGLGFGIVPAMAVAARRHRRGLRVLPLQPTLSRTLAIVMRQDKPLNRGLQQVVQALRSLTPPAVESL				NA	NA	NA	NA	NA
BMS010_03036	549			L-methionine sulfoximine/L-methionine sulfone acetyltransferase	GTGAGCGAGTTGGAGCACGAAGTACGGGTTCGGAATGCCCGGGAAGACGACATGGCTGCGGTGGCGGCCATCTATGCGGAGCAGGTGCTGCATGGCATCGCCACCTTCGAGCTGGTCCCACCCGATGTCGCGGAGATGCAGAAGCGCCGGGAAGCGGTGCTGGCCAGCGGGCTGCCTTATCTGGTCGCCGAATGCCGGGGAGAGGTCGTCGGCTACTGCTACGCCACGCCGTACCGGCCGCGTCCCGCCTACCGCTACTGTGTCGAGGACTCGGTCTATGTGGCCGAGGGGCAGCAGGGGCGGGGTGTCGGCCGTCGCTTGCTGGCCGAGCTGATCGAGCGCTGCGAGGCCGCGGGCTTCCGGCAGATGGTGGCGATCGTCGGCAACAGCGCCAACACGGGATCGCTCACGTTGCATGAGCGCCTGGGTTTTCGTCTGGTCGGGATTCTCGAGTCGGTCGGTTTCAAGCATGGCCTCTGGGTGGATACGGTGCTGATGCAGCGCGCCCTCGGCGACGGCGCGCGGACGCTGCCAGGCGGCGGGGCATGA	MSELEHEVRVRNAREDDMAAVAAIYAEQVLHGIATFELVPPDVAEMQKRREAVLASGLPYLVAECRGEVVGYCYATPYRPRPAYRYCVEDSVYVAEGQQGRGVGRRLLAELIERCEAAGFRQMVAIVGNSANTGSLTLHERLGFRLVGILESVGFKHGLWVDTVLMQRALGDGARTLPGGGA				NA	NA	NA	NA	NA
BMS010_03037	1212			hypothetical protein	ATGACGGCGGGCCCGTCGCCGCTCGGGCGAGGAGCCGTTGCCTGCCTCGGTCTCGCCCAGTTGATCGGTTGGGGTATCAGCTTCTATCTGCCCGGCGCCTTGGGCGAGTCCATTGTTTCCGCCCAGGGATGGAGCCGGTCGCAGGTCTACGGCGGGCTTTCCGCCGCTCTGTGCTGCATGGCGTTGCTCTCGCCGCTGGCCGGCGAATGGATCGACCGATACGGTGGGCGCCGGATCATGTGCACTGGCGCCTGCTGCAACGCGCTGGGCTGCCTGATCATCGCTGGCAGCACCCACATTCCGGTGTATTACCTGGGCTGGCTGGTGCTTGGCGTCGGCATGCGGCTGACGCTCTACGACGCGTTGTCCACGAGCCTGGCGCAGGGCGCCAGGGAGCAGGCTCGAGAGGCCATGGCGCGGGTGACGCTCTGGGGAGGGCTGGCCTCGACAGTGTTCTGGCCGCTGGGGCAGGGGCTTTTGCAGGTGTTCGGCTGGCGCGGTGCCTTGTGTGTCTACGCTCTGTTCGCCCTGGCGTGCCTGCCCTTGCTCCGCAGCGTGCCGGGTGCGGGCGAGCGTTCTTCCCGGGATGGACCAGTCGGAGGCCCTGAGCCTCGGAATGCTGTGTGGTTGGCGGGTCTCTTGTTCACCTCGATGACGATGCTCACCAGCTTCCTCTCGGCCGGCCTGTCGGCCCATTTACCCGGGTTGCTGGACGGACTTGGCAGCGCCGGTGGATGGTCGGTTGGAGTGGCGGCACTCTGGGGCTTCGGCCAGCTCTGCGCCCGTTTCGTCGACATGCTTTACGGGGCGCGTCTGCCGGTTCTCCTGCACAGTCTGCTGGCCGCCGCCTGCTTGCCCGTCAGCCTGGCGATTGGCTGGCTGGGCGGTACGCAGGCCTGGCTCGCGGCGCTCTTCGTGTTCGGCTACGGGGCGGCCAACGGCCTGGCCGCCATCGTCCGGGCGGGGCTGCCACTAGTGTTGTTCGGTGCGCAGGGTTATGGCGCAAGGGTCGGGCGCCTGCTGCTGCCGAGCTATGTTCTTTCGGCCATCGCACCGCTGGCCTACGCCGAGGCACATGAGCGACTCGGTGCTCGCCCGACGCTGGGGATATCGGTCGGAATCGGCGTGGCAATCGTCTCGGCCGCCCTGGCCCTGTTTTTCGTCGCGCGCTCTGGCATGCGGGATAGCGCCGTTCGCTCGCTCGAAACATGA	MTAGPSPLGRGAVACLGLAQLIGWGISFYLPGALGESIVSAQGWSRSQVYGGLSAALCCMALLSPLAGEWIDRYGGRRIMCTGACCNALGCLIIAGSTHIPVYYLGWLVLGVGMRLTLYDALSTSLAQGAREQAREAMARVTLWGGLASTVFWPLGQGLLQVFGWRGALCVYALFALACLPLLRSVPGAGERSSRDGPVGGPEPRNAVWLAGLLFTSMTMLTSFLSAGLSAHLPGLLDGLGSAGGWSVGVAALWGFGQLCARFVDMLYGARLPVLLHSLLAAACLPVSLAIGWLGGTQAWLAALFVFGYGAANGLAAIVRAGLPLVLFGAQGYGARVGRLLLPSYVLSAIAPLAYAEAHERLGARPTLGISVGIGVAIVSAALALFFVARSGMRDSAVRSLET				NA	NA	NA	NA	NA
BMS010_03038	819	ppsR	COG1806	Phosphoenolpyruvate synthase regulatory protein	ATGAAACGAACCGCTTTCTTCATCTCCGACGGGACCGGTATCACTGCCGAAACCCTGGGCCAGAGCCTGTTGGCGCAATTCGAAACGATCAACTTCACGAAGTTGACGCGCCCATACGTCGACAGCGTCGAAAAAGCGCGCGCCATCGTACAGCAAATCAATAGCGCTGCCGAGAAAGACGGCGCCCGGCCGATCATCTTCGACACCATCGTGAACCAGGAAATCCGCGACACCCTGGCCGAATCCAATGGGTTCATGATCGACATCTTCTCCACCTTTCTCGCACCGCTGGAACACGAGCTCACCTCGCATTCCTCGTATTCCGTAGGCAAATCCCACTCCATCGGTCACAACTCCAACTACATGGAGCGTATCGAGGCGGTCAACTTCGCCCTCGACAACGACGACGGCGCCCGCACCCACTACTACGACAAGGCCGACCTGATCCTCGTCGGCGTGTCCCGCTGCGGCAAGACGCCCACCTGCCTCTACATGGCCATGCAGTACGGCATTCGTGCCGCGAACTACCCGCTGACCGAAGAAGACATGGAGCGCCTGCAACTGCCGACGGCGCTCAAGGCCTACAAGAACAAGCTGTTCGGCCTCACCATCGACCCCGACCGGCTCGCCGCCATTCGCCACGAACGCAAGCCGAACAGCCGCTACGCCAGCTTCGCCCAATGCGAGTTCGAGGTCCGCGAGGTGGAAAACCTGTTCCGCCGCGAGAACATCGCCCACATCAATTCCACACACTTCTCGGTGGAGGAAATCTCCGCCAAGATCCTCGTGGAAAAAGGTGTCGAGCGACGCCTCAAGTAA	MKRTAFFISDGTGITAETLGQSLLAQFETINFTKLTRPYVDSVEKARAIVQQINSAAEKDGARPIIFDTIVNQEIRDTLAESNGFMIDIFSTFLAPLEHELTSHSSYSVGKSHSIGHNSNYMERIEAVNFALDNDDGARTHYYDKADLILVGVSRCGKTPTCLYMAMQYGIRAANYPLTEEDMERLQLPTALKAYKNKLFGLTIDPDRLAAIRHERKPNSRYASFAQCEFEVREVENLFRRENIAHINSTHFSVEEISAKILVEKGVERRLK				NA	NA	NA	NA	NA
BMS010_03039	2370	ppsA		Phosphoenolpyruvate synthase	TTGGTTGAGTACGTAGTTTCCCTCGATAAGCTCGGCAATCACGACGTTGAGCGAGTAGGGGGCAAGAACGCCTCCCTGGGCGAGATGATCAGTAACCTCGCCGGTGCCGGTGTTTCCGTACCCGGTGGTTTCGCCACCACGGCCCAGGCTTTCCGGGACTTTCTGGAGCAGAGCGGTCTGAACGACCGCATCCATGCCGCCCTCGATGCGCTGGACGTGGATGACGTCAATGCCCTGGCCAAGACCGGTGCACAGATTCGCCAGTGGGTCATGGACGCCGAGTTCCCGGCCCAGCTCGATGCCGATATCCGCAAGGCCTTCGCCGAACTGTCCGCCGGCAACGACAACCTGGCTGTCGCCGTTCGCTCTTCCGCCACCGCCGAAGACCTGCCGGACGCTTCCTTTGCCGGCCAGCAGGAAACCTTCCTGAACATCCGCGGCGTCGACAACGTCATCCGTGCCGCCAAGGAAGTCTTCGCCTCTCTCTTCAACGACCGCGCCATTGCCTATCGCGTTCACCAGGGCTTCGACCACAAGCTGGTCGCTCTGTCCGCGGGCGTGCAGCGCATGGTGCGTTCGGAAACCGGCACCGCCGGCGTGATGTTCACCCTCGACACTGAGTCCGGCTTCCGCGACGTGGTGTTCATCACCGGCGCCTACGGCCTCGGCGAGACCGTGGTACAGGGCGCGGTGAACCCCGACGAATTCTACGTACACAAGCCGACCCTCCAGGCCGGCCGCCCGGCGATCCTGCGCCGCAACCTCGGCAGCAAGGCGATCAAGATGGTCTATGGCGAAGAAGCCAAGGCCGGCAAGTCGGTCAAGACCGTCGAAGTGGATCGCGCCGACCGTGCGCGTTTCTGCATCACCGACGAGGAAGTCACCGAGTTGGCCAAGCAGGCCCTGATCATCGAGAAGCACTATGGCCGCCCGATGGACATCGAGTGGGCCAAGGACGGCGACGACGGCAAGCTGTATGTCGTCCAGGCCCGTCCGGAAACCGTGAAGAGCCGTGCCAGCGCCACCGTCATGGAGCGCTACTTGCTGAAGGAAAAGGGCAAGGTCCTGGTGGAAGGCCGTGCCATCGGCCAGCGCATCGGCGCCGGCCCGGTGAAGGTGATCCACGACATCGCCGAGATGGACAAGGTCCAGCCGGGCGACGTGCTGGTCTCCGACATGACCGACCCGGATTGGGAACCGATCATGAAGCGCGCCAGCGCCATCGTCACCAACCGTGGCGGACGTACCTGCCACGCGGCGATCATCGCCCGCGAGCTGGGCATCCCGGCGGTGGTCGGTTGCGGTAACGCCACCCAGGTGCTGCAGGATGGCCAGCGCGTCACCGTTTCCTGCGCGGAAGGCGATACCGGTTTCATCTTCGAAGGCCAGCTGGGCTTCGATATCCGCAAGAACTCCGTCGATGCCATGCCCGAACTGCCGTTCAAGATCATGATGAACGTCGGCAACCCGGACCGCGCGTTCGACTTCGCCCAACTGCCCAACGAGGGCGTGGGCCTGGCCCGCCTCGAGTTCATCATCAACCGCATGATCGGCGTGCATCCGAAGGCGCTGCTGAACTTCGCCAGCCTGCCGGCCGAGATCAAGGACAGCGTGGAGAAGCGTATCGCCGGTTACGACGATCCGGTGGGCTTCTACGTCGAGAAGCTGGTCGAAGGCATCAGCACCCTGGCTGCGGCATTCTGGCCGAAGAAAGTCATCGTGCGCCTGTCCGACTTCAAGTCCAACGAATACGCCAACCTGATCGGCGGCAAGCTCTACGAGCCGGAAGAAGAGAACCCGATGCTCGGCTTCCGCGGCGCTTCCCGTTACATCAGCGAATCGTTCCGCGACTGCTTCGAGCTGGAATGCCGTGCGCTGAAGAAGGTGCGCAACGAGATGGGGCTGACCAACGTCGAGATCATGGTGCCCTTCGTGCGAACTCTCGGCGAGGCCAGCCAGGTGGTCGAGCTGCTGGCGAGCAACGGTCTCAAGCGTGGCGAGAATGGCCTGCGCGTCATCATGATGTGCGAGCTGCCGTCCAACGCGCTGCTGGCCGAAGAATTCCTCGAGTTCTTCGATGGCTTCTCCATCGGCTCCAACGACCTGACCCAGCTGACCCTGGGCCTGGACCGCGACTCCGGCATCATCGCCCACCTGTTCGACGAGCGTAACCCGGCGGTGAAGAAGCTGCTGGCCAATGCCATCCAGGCGTGCAACAAGGCCGGCAAGTACATCGGCATCTGCGGCCAGGGTCCGTCGGACCATCCGGATCTGGCCAAGTGGCTGATGGAGCAGGGCATCGAGAGCGTGTCTCTGAACCCCGACTCGGTACTCGACACTTGGTTCTTCCTGGCCGAAGGCCAGGCCTGA	MVEYVVSLDKLGNHDVERVGGKNASLGEMISNLAGAGVSVPGGFATTAQAFRDFLEQSGLNDRIHAALDALDVDDVNALAKTGAQIRQWVMDAEFPAQLDADIRKAFAELSAGNDNLAVAVRSSATAEDLPDASFAGQQETFLNIRGVDNVIRAAKEVFASLFNDRAIAYRVHQGFDHKLVALSAGVQRMVRSETGTAGVMFTLDTESGFRDVVFITGAYGLGETVVQGAVNPDEFYVHKPTLQAGRPAILRRNLGSKAIKMVYGEEAKAGKSVKTVEVDRADRARFCITDEEVTELAKQALIIEKHYGRPMDIEWAKDGDDGKLYVVQARPETVKSRASATVMERYLLKEKGKVLVEGRAIGQRIGAGPVKVIHDIAEMDKVQPGDVLVSDMTDPDWEPIMKRASAIVTNRGGRTCHAAIIARELGIPAVVGCGNATQVLQDGQRVTVSCAEGDTGFIFEGQLGFDIRKNSVDAMPELPFKIMMNVGNPDRAFDFAQLPNEGVGLARLEFIINRMIGVHPKALLNFASLPAEIKDSVEKRIAGYDDPVGFYVEKLVEGISTLAAAFWPKKVIVRLSDFKSNEYANLIGGKLYEPEEENPMLGFRGASRYISESFRDCFELECRALKKVRNEMGLTNVEIMVPFVRTLGEASQVVELLASNGLKRGENGLRVIMMCELPSNALLAEEFLEFFDGFSIGSNDLTQLTLGLDRDSGIIAHLFDERNPAVKKLLANAIQACNKAGKYIGICGQGPSDHPDLAKWLMEQGIESVSLNPDSVLDTWFFLAEGQA	PGPT0002035_2108	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0002035-pps|ppsA-K01007	NA	NA
BMS010_03040	990			hypothetical protein	ATGCAAAGCAGCAGTGACCTGTTTCCCGTCGCCTTGATGAGCGCCGAAATCCGTGGCGACCTCACCGAGGATGTCTACCTCCTGAAGCCCAACAACAGCTCCGATCCCAGTGTCGAGCTGGCGGTGACGCGCCTGGGCCTGAGCGGCCAGGAGACCCACCGTGGCATACCCGTAGTGCTGCTCCACGGCAGTTTTTCCAACCGACGCTTCTGGTTCTCGCCCAAGGGTGTCGGGCTGGGAGCACATCTGGCGCGTGCCGGTTTCGATGTCTGGATTCCGGAAATGCGCGGGCATGGTCTGTCGCCGCGCAACCAGCGTTACCGACATAACCGGGTCGCCGATTACGCCCGCTACGATCTGCCGGCCATCGCCGCTTTCGTGCATGAGCAGACCGGGCAGGGGGCTCACTGGCTCGGTCATTCCCTGGGCGGCATTACCCTTGCCGCGGCGCTTGGCGGTCACTACCTGGGCGACGACCAGGTGGTCTCGGCGGCCCTGTTCGGCAGCCAGATCAGCCGGATCTATTGGCCGCTCAAGGTGCCGCCGGTGGAATGGAGTGGCCGCCTCCTGCTAAAGCGCTTCCATCATCTCTCCGGTCGACGGCTGAAGCGCGGGCCGGAAGACGAGCCGATCGGCCTGGCCTTGGAAAGCATGCGCTGGCATGGCCTGTTCGGGCGTTTCGGTGACAAGGAGCGCGATTGGTGGGCAGGGCTGGCGGAGGTGCAAATACCGGTGCTGGCGATATCCGCCGAGGGCGACATGCAGGACCCGGCCTGGGCCTGCCGCAAGCTGCTGGATCAGTTCGCCTCGCCGACCCGTGAATTTCTTTGCCTGGGGCCGAAAGCCGGTTTCGCCGAGGCCTACGGACACGTGGAAATGCTGATCAGCCGCAACGCCCAGCGCGAGGTCTGGCCATTGGTTGAGCACTGGTTGCGCGAATTAAGGTTGCCGGCCGGCGTGGCCGATGCCAGTCAGCCGGCCCAGGCCTGA	MQSSSDLFPVALMSAEIRGDLTEDVYLLKPNNSSDPSVELAVTRLGLSGQETHRGIPVVLLHGSFSNRRFWFSPKGVGLGAHLARAGFDVWIPEMRGHGLSPRNQRYRHNRVADYARYDLPAIAAFVHEQTGQGAHWLGHSLGGITLAAALGGHYLGDDQVVSAALFGSQISRIYWPLKVPPVEWSGRLLLKRFHHLSGRRLKRGPEDEPIGLALESMRWHGLFGRFGDKERDWWAGLAEVQIPVLAISAEGDMQDPAWACRKLLDQFASPTREFLCLGPKAGFAEAYGHVEMLISRNAQREVWPLVEHWLRELRLPAGVADASQPAQA				NA	NA	NA	NA	NA
BMS010_03041	795	bdhA_3		D-beta-hydroxybutyrate dehydrogenase	ATGAACATCGATCTTTCCAACAGACGCGCCGTAGTCAGCGGGTCGACGGCCGGCATCGGCCTTGCAATCGCCAAGGGCTTGGCCCGTGCCGGTGCGGAGGTCGTCATCAATGGCCGTACCCAGGCCCGGGTGGACGAAGCCCTGACCAGCCTGCACGAGGCCATTCCGCAGGCCCGGCTCAGTGGTGTCGCCGCCGACCTGGGCAGTGCAGAGGGTATCGAGGCCTTCGTTGCCCAGATCCCCGAGACGGATATCCTGGTCAACAACCTGGGCATCTTCGAGCCCAAGCCTTTCTTCGATATTCCGGACGCGGACTGGTTGCGCTTCTTCGATGTCAACGTGATGAGCGGAGTTCGGCTGTCGCGTCACTATGCACAAGGTATGCGCGACCGGGGCTGGGGACGGGTACTGTTCCTGTCCAGCGAATCGGGGCTGCAGATTCCGCCGGAAATGGTCCACTACGGCGTGACCAAGACCGCCCAACTCGCGGTTTCCCGCGGCCTGGCGGAAACCCTGGCAGGCACTGGTGTGACGGTGAACGCCGTATTGCCGGGGCCGACCCGCTCGGAAGGCGTCGGTGAGTTCTTCGCCAAGATGGCTGCCGAGCAAGGCGTCTCCTTGGACGAGATGGAGCGGAACTTCATTGCCGAACACCGCCCCACTTCGCTGATCAAACGCTTAGCGACCGTCGACGAAGTGGCCAATCTGGTGATCTACCTAGCCTCGGAACAAGCCTCGGCCACCACGGGTGCGTCGCTGCGCGTGGACGGCGGCGTCACCCGATCCATCGCTTGA	MNIDLSNRRAVVSGSTAGIGLAIAKGLARAGAEVVINGRTQARVDEALTSLHEAIPQARLSGVAADLGSAEGIEAFVAQIPETDILVNNLGIFEPKPFFDIPDADWLRFFDVNVMSGVRLSRHYAQGMRDRGWGRVLFLSSESGLQIPPEMVHYGVTKTAQLAVSRGLAETLAGTGVTVNAVLPGPTRSEGVGEFFAKMAAEQGVSLDEMERNFIAEHRPTSLIKRLATVDEVANLVIYLASEQASATTGASLRVDGGVTRSIA	PGPT0003180_4330	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0003180-ymfI|fabG|efpI-K00059	NA	NA
BMS010_03042	489		COG0684	Putative 4-hydroxy-4-methyl-2-oxoglutarate aldolase	ATGCACTACATCACTCCCGACCTGTGCGACGCCTACCCGGAGCTTGTTCAGGTGGTCGAGCCGATGTTCAGCAATTTCGGTGGTCGCGATTCCTTCGGTGGCGAAATCGTCACCATCAAGTGCTTCGAGGACAATTCACTGGTCAAGGATCAGGTCGAGCTGGACGGCAAGGGCAAGGTGCTGGTCGTCGATGGCGGCGGCTCGCTGCGTCGGGCGCTGCTCGGCGACATGCTGGCGGAAAAGGCGGCACGCAATGGCTGGGAAGGCATTGTGGTCTATGGCTGCATCCGTGATGTCGATGTGATCGCCCAGACCGATCTCGGCGTACAGGCCCTGGCCAGCCACCCGATGAAAACCGACAAGCGTGGGATCGGCGACCTCAACGTGCCGGTGACCTTCGGCGGCGTGACGTTCCGTCCGGGCGAATATGTGTATGCCGACAACAACGGCGTCATCGTGTCACCGAAGGCGTTGCAGATGCCCGAGTGA	MHYITPDLCDAYPELVQVVEPMFSNFGGRDSFGGEIVTIKCFEDNSLVKDQVELDGKGKVLVVDGGGSLRRALLGDMLAEKAARNGWEGIVVYGCIRDVDVIAQTDLGVQALASHPMKTDKRGIGDLNVPVTFGGVTFRPGEYVYADNNGVIVSPKALQMPE	PGPT0002085_3	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-GALLATE_RESISTANCE,PGPT0002085-ligK|galC-K10218	NA	NA
BMS010_03043	996	zntB_2	COG0598	Zinc transport protein ZntB	ATGACTGACAACGATGCCGACGAGCGCGGTCTGGTCTTTGGTTTTGTATTGAACGGTCGTGGCGGCGGGCGACAGGTATCGCGCAACGATCTGGCGATCCTCGATCTGGCTCCGGACGAGTCGCTCTGGCTGCATTGGGATCGTGGTCATCCAGAGGCCCAGGCCTGGCTGCGCGAATCGGCCGCCTTGAATCCGTTCGACTGCGACCTGTTGCTGGCCGAAGCGACCCGGCCGCGCTTGCTCCCTTCGTCAGGGGATGGACTGCTGCTGTTCTTGCGCGGGGTGAATCTCAACCCCGGCGCCGAGCCGGAGGATATGGTCTCGCTGCGCGTCTATAGCGACGCTCGGCGGGTGATCAGCCTGCGCCTACGGCCGACCAAGGCTGTCAGCCAAGTGCGCGAGGAACTGGAGCGCGGGCAGGGGCCAAAGACTTCCTCCGAGATCGTCCTGAGTCTGGCGGACTACCTGACCGACAAGGTCGATGATCTGAGTGTGCTCCTGTCCGAGCAGCTCGACGAGCTGGAAGAGGTGGTGGAGCAAGATGAACGGGCATTGCCGGATCGCTATCTACTGCAAACCCTGCGTCGTCGCGCGGCGGGGCTGAAGCGCTACCTGGCGCCGCAGCGGGAAATCTTTGCGCAGATGGCGCGACATAAGTTGAGCTGGTTCGTCGACGACGACACCGTGTACTGGAACGAGCTTCACAACAGCCTGACCCGCAACCTGGAAGAGCTGGAAATGATCCGCGAGCGAATCTCGTTGCTGGAGTCGCTGGAGCAGCGACGCCTGAGCGAGCGCACCAATCGGATCATGTACATGCTCACCATCATCACCGGATTCTTTTTGCCGCTGAGCTTTTTCACTGGCTTGATGGGGATGAACGTGGGCGGTATGCCGGGGGCGGATAACGCTTTCGGGTTCGCCTTGGCCTGCCTGTTCTCGGCTGCCATCGCGGCCAGTCAGTGGCTGATATTTCGCTGGTTGCGCTGGCTCTGA	MTDNDADERGLVFGFVLNGRGGGRQVSRNDLAILDLAPDESLWLHWDRGHPEAQAWLRESAALNPFDCDLLLAEATRPRLLPSSGDGLLLFLRGVNLNPGAEPEDMVSLRVYSDARRVISLRLRPTKAVSQVREELERGQGPKTSSEIVLSLADYLTDKVDDLSVLLSEQLDELEEVVEQDERALPDRYLLQTLRRRAAGLKRYLAPQREIFAQMARHKLSWFVDDDTVYWNELHNSLTRNLEELEMIRERISLLESLEQRRLSERTNRIMYMLTIITGFFLPLSFFTGLMGMNVGGMPGADNAFGFALACLFSAAIAASQWLIFRWLRWL	PGPT0004205_415	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZNT_TRANSPORT_SYSTEM,PGPT0004205-zntB-K16074	NA	NA
BMS010_03044	957	ldhD	COG1052	D-lactate/D-glycerate dehydrogenase	ATGAAAATCGGCATCATCGACTCCACTCGCAACTGCTACGTCAGCCAACCGGATATCGAACAGGTCTGCTTCGGCGATACGCCGGTCCGGCTGTTCCAGGTATCCGGCTCCGGCCAACTGCCCAACGAGCTCGCCGAGTGCGACGGCTTGATCAGTTGGCACCTGGTTCCCGTCGACGCCGCGCTGATCGATCGCCTGGACAACTGCCGGGCCATCGTCCGCGCGGCGGTGGGATATGACAACATCGATCTCGCCGCCGCCCACCGGCGCGGTATCGCAGTGGCCAACGTGCCGGATTACGGCACCGAGGAAGTCGCCGACCATACCCTGGCCATGGCACTCGGCCTGCTCCGTCACCTGCGCCAGGGGCATCGCGTGGTCAGCAACGGCAGTTGGGACTGGCGTGAAGTGGGCGAGCTGCCACGGCTGAGCATGCTGCGTGTCGGGCTTATCGGTTTCGGCCGGATCGGCATGGCCGCAGCCCTCCGCTTCAAAGCGTTCGGCTGCGACGTCGCCTTCTACGATCCGGAGCGTGACAGCGGCGCCGAGAAATCCCTCGGTGTACGCCGTTGCGAGTCCTTGCACGAACTGCTGGAAACCTCGGACCTGATCAGCATCCATGCGCCGCTCACCGAACGGACGCACCATCTGATCAGCCATCGCGAGCTGCAGTTGCTGGAGGGCAAGTACCTGGTCAACACCGCACGCGGCCCCATCATCGACAGCTCCGCCTTACTCCAGGCCTTGGCGCACCGCCGGCTGCGCGGATTGGCACTGGATGTCTACGAGGACGAACGGCAACCGATTCCCGCGCTGTTCAATGAAGTCGACAACGTGATCCTTTCCCCCCATGTCGCCTTCTATTCGCAGGCCGCCCTGCCGGAGTTGCGCCACAAGGCCGCCAGCGTGCTGAAAAGCATCCTCGAGGAAGGCCACCATCGGAATGTCTTGCGCTGA	MKIGIIDSTRNCYVSQPDIEQVCFGDTPVRLFQVSGSGQLPNELAECDGLISWHLVPVDAALIDRLDNCRAIVRAAVGYDNIDLAAAHRRGIAVANVPDYGTEEVADHTLAMALGLLRHLRQGHRVVSNGSWDWREVGELPRLSMLRVGLIGFGRIGMAAALRFKAFGCDVAFYDPERDSGAEKSLGVRRCESLHELLETSDLISIHAPLTERTHHLISHRELQLLEGKYLVNTARGPIIDSSALLQALAHRRLRGLALDVYEDERQPIPALFNEVDNVILSPHVAFYSQAALPELRHKAASVLKSILEEGHHRNVLR	PGPT0009155_6329	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058	NA	NA
BMS010_03045	303			hypothetical protein	ATGAGTCCACTGGAACTCGCCGCCATTCTCGGCATGGCCCTGGCCACTTACCTGACACGCATCGGCGGGCTCGCCCTGGCTAACGACCGCATCGAAGCCGGCGGCTTCACCGAGCGCTTCATGAAAAACCTGCCCCCGGCGATCCTGGCCGCCCTCATCAGCCCCAAACTGATGAACGGGGACGCTTCCATCTGGGGCGCGGCCGTGCTGACCGTCGGCATCGTCTGGTACACCAAGAACACCCTGTTCGGCGTAGCCGCCGGCACGCTCGGCTGCGCCGCCATTCGCTGGATGATCGGATAA	MSPLELAAILGMALATYLTRIGGLALANDRIEAGGFTERFMKNLPPAILAALISPKLMNGDASIWGAAVLTVGIVWYTKNTLFGVAAGTLGCAAIRWMIG				NA	NA	NA	NA	NA
BMS010_03046	714			hypothetical protein	ATGAAAGAGCAATTGCGCCTGCGGGACGCGGTCGTCGACGCCGCCCCCATCATGGTGAGCGGTTTCTTCTTCGGCCTGGTGTTCGGTGTGCTGGCCAGTAAATCGGGGATCACGCCGCTCGCCGCTACACTGATGAGCGCCCTGGTGTTCGCCGGCGCCTCACAGTTCGTCGCGGTAGAACAATGGCGGCATCCCAATCTGCCCTGGCTGTCCATTGTCCTGACCACCCTGCTGATCAATCTGCGCCATCTGCTGATGAGCGCCTCCCTGCAGCGCTCCTTTCAGAAACTCCCAAAAGGCCGCGTGGCCGCCTCCTTCGCCCTGCTGCTGATCGACGAAACCTGGGCGCTGGCCGAGCACCGCTTCCGCAAGGCCGCGCCGTCGCTGCGCTACTTCGTCACCGCCGGACTGGTGATCTACGTGGGTTGGGTGGGTGGCACTTTCATCGGGACGCAAGTCGGATCGAACATTCCCGAACCGCGGATCTATGGCCTCGACTTCACCTTCGTGGCCATGTTCCTGTCGCTGATGGTCCTGCTCTGGCAGCGCCAGTTGGACTTCCTCACCTGGCTGACGGCGGGGCTGCTGTCTTTCCTCATCTCACAGCTTCCCGGCCTCGGAGCGGCCGGCGTGGTGATCGCCGCCGTGGTGGCCAGCGCCGTGGTCGCCGCCCTTCCGGCGGCTCGGCAACCTGTCGCGGAGGCCGGACGATGA	MKEQLRLRDAVVDAAPIMVSGFFFGLVFGVLASKSGITPLAATLMSALVFAGASQFVAVEQWRHPNLPWLSIVLTTLLINLRHLLMSASLQRSFQKLPKGRVAASFALLLIDETWALAEHRFRKAAPSLRYFVTAGLVIYVGWVGGTFIGTQVGSNIPEPRIYGLDFTFVAMFLSLMVLLWQRQLDFLTWLTAGLLSFLISQLPGLGAAGVVIAAVVASAVVAALPAARQPVAEAGR				NA	NA	NA	NA	NA
BMS010_03047	1098	hisC_3		Histidinol-phosphate aminotransferase	ATGCGCAGCCGTTTTGCCGCACACGTCATCGAACAGGACAACCCGAACCCCTTCCCCGGCATTCCCGCCCTGGAGCGCAGGACGGGAATCTCCATAACCACCCGTCTCGGCTCGAACGAATGCCTGGATGCGCCGATGCAGGCGCTTCAGGATCGTTTCGGCATGCAATTCTGTGAGCTGGCGCGTCTCTATGGCGATCCGGAATGCCACGCCTTGCGCGAAACGCTGGCCGTGATGAACCACGTCGATCTCGACGAGATCGTCGTCGATGGCGGTGCCGATGCGCTGATCTACCTCTGCCTTCGAGCCTTCTGCGATCCCGGCGACAAGGTCGTCTGCAGCGCCGGGACCTACCCGAGCTTTGGCTATTTCGCCCGCGCCGTGGGCTGTGTCATCGAGGAAGTCGCCTACCATGACGATGGCCACGCCCTGCAGGTCGATCTCCAAGCCTTGCTGGATGCCGTTGTGCGCAACGAAGCGAAAGTTGTCTACATCGCCAACCCGGACAACCCTACCGGGAGCTGGCAGGGGATTGGCGACATCGCCGAGTTCGTTACTCGCCTGCCCGAGACCTGCACCCTGGTGCTGGACGAAGCCTATATCGACTTCTGCGAAGCCTTGCAGCCGGCCTTCGGCGGCACGCTGCCGGGCTGCGTGAGGCTCCGCTCGCTGTCGAAAGCCTATGCCCTCGCCGGACTCCGGGTGGGCTACGCCCTCGCCGCCCCGGATATCCTCGAACAACTGCACAAAGTTCGTATCCACTACGCCGTCGGCGGCCTAGCACAGTATGCCGCCCAGGTGGCTCTGGACGACCCGCGAACCCTCGCCACCCTCACCGAAGCCAGTTTCATCCGGGACGCGCTGACAGCCCATCTGTCCAACCTGGGTTTCCGGGTGCTGCCCTCGGGCACCAACTTCGTCAGCCTCCTGCTGCCTTCCGCACAGCTCGCCCAGAGCCTAGTCGAATACCTGCTGGAACAGCGCATCTCGGTCCACCGACCACGCCATCCCGCTCTCGACCGACTGGTGCGGATCACCCTGTGTGCCGCGGCGCTGGACGAGCCCTTCCTGTCCATCCTGCAGGAGACGTCGCCATGA	MRSRFAAHVIEQDNPNPFPGIPALERRTGISITTRLGSNECLDAPMQALQDRFGMQFCELARLYGDPECHALRETLAVMNHVDLDEIVVDGGADALIYLCLRAFCDPGDKVVCSAGTYPSFGYFARAVGCVIEEVAYHDDGHALQVDLQALLDAVVRNEAKVVYIANPDNPTGSWQGIGDIAEFVTRLPETCTLVLDEAYIDFCEALQPAFGGTLPGCVRLRSLSKAYALAGLRVGYALAAPDILEQLHKVRIHYAVGGLAQYAAQVALDDPRTLATLTEASFIRDALTAHLSNLGFRVLPSGTNFVSLLLPSAQLAQSLVEYLLEQRISVHRPRHPALDRLVRITLCAAALDEPFLSILQETSP	PGPT0020305_2702	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817	NA	NA
BMS010_03048	1200	kamA_1	COG1509	L-lysine 2,3-aminomutase	GTGAGCGAAGCTTTGCCGGAACTGATACACCCCAGCGCCTTGGTCAGCGACACCTCGAAGCTGATCCCCAACATCAACGAGGGATGGTCGGACTGGAAATGGCAGCAGCGCAATGCGGTCACCAGTATCGACGATCTGCTGGACTATTTCCCCGGCCTGAAGGATGGCGCTCTGCTGGAGCGCATCCGTTGCAACCTGAACGACCGCAAACTGGCCATCACCCCCTACACGATGCATCTGATCGAACGGGACGAGCAGGGCTTGCCGAAGACAGGCGACCCCATCTGGCGCCAGGTCGTGCCGGTCTGGGATGAGGAAAGAGGTCCGCAGACACTCTCCTACGACGGTGAATCGGAGAACTGGGAACTGCCCGGCGAGATGGTCACGCCGATCTGCCAGCACAAGTACGACAACCGCGTCATCCTGCGCCTCGCCAACGTCTGCCACGCCTACTGCCAGTTCTGCTACGAAGCCCTGCGCACACTGGAGAAACAGACACAGAAGAGTTCGCTGCGCAAGGACGAATGGTCCGCGACGCTGGATTACGTCCGCTCGCACCCGGAATTGGATGAGGTCATCCTCAGCGGCGGCGAGCCACTGATGCACAGCGACAAGCATCTCGACGGCTTCCTTAGCGATCTGCGTGCCATCCGCTCGAACCTGATCATCCGCCTGCACACCCGCGCCCTGTCGTTCAACCCGTACCGGGTCACCGACGAGCTGGTGCAAATCCTCGCACGGTACCAGGTCACCGCCGTCGGCCTGCATGTCGGACACCCCAACGAAATCACGCCCGACTTCCTCGCCGCCGCGCGGAAGCTGCGCTCCGCCTGCCCGATCCTGTTCGCCAACATGCCGTTCCTGGGTGGGATCAACGACCGCTACGAGACACTGGCGACGCTCTGCCTGACGCTCTACCGCCACGGCATACAACCTCACTACCTGTACCACTTCATGCCGTTCTCGCCGGGCAGCCAGGCGTTCCGCGCCAGCATCAGCGACGCCCTGGCCATCGTCGGACGGATGAAGCGCCGCCTGTCCAACATCGCCGTGCCCGAATACGTGCTGCCGCACAAGACCGGCAAATACACCGTGCCGCTCGACCTGCTGAAAGACCGCCCGCGGTTGGAACATCACCCGGACGGCGAGTACCTGTACTTCCGCAACTGGCAAGGCCAGGCCTGCGTATTCCCGGAATGA	MSEALPELIHPSALVSDTSKLIPNINEGWSDWKWQQRNAVTSIDDLLDYFPGLKDGALLERIRCNLNDRKLAITPYTMHLIERDEQGLPKTGDPIWRQVVPVWDEERGPQTLSYDGESENWELPGEMVTPICQHKYDNRVILRLANVCHAYCQFCYEALRTLEKQTQKSSLRKDEWSATLDYVRSHPELDEVILSGGEPLMHSDKHLDGFLSDLRAIRSNLIIRLHTRALSFNPYRVTDELVQILARYQVTAVGLHVGHPNEITPDFLAAARKLRSACPILFANMPFLGGINDRYETLATLCLTLYRHGIQPHYLYHFMPFSPGSQAFRASISDALAIVGRMKRRLSNIAVPEYVLPHKTGKYTVPLDLLKDRPRLEHHPDGEYLYFRNWQGQACVFPE	PGPT0014370_674	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LYSINE_DEGRADATION,PGPT0014370-ablA-K01843	NA	NA
BMS010_03049	1392	hisC_4		Histidinol-phosphate aminotransferase	ATGGAGTTGCACCTCGATCGACAGGGAGCGGTGCCCTTGACGGCTCAGATCGTGAGCCGGATAGAACAGCTCATCGATGCGGGAAAGCTGCGGCCGGGGCAGCGCCTGCCCTCGATACGCAAACTCGCGGCCCATCACGGCATCAGCTATCACACGGCGGTCACCGCCTACGAACAGCTGGTGGCTAGTGGCCGTATCAGTGCCCAACAGGGCCGTGGATTCTTCATCGACAGCCACGCGCAACCGCGTCAGCCGGGTATGTCGAGTGTCGCATCGGAGTCGGAGAACAGTCCGCTGGGCAGCTTCTGGCGGCTGTTCCATGGCTCGCCGGAGCTGATGAAGCTCGGCTGCGGCTGGCTGCCTCCGGCCTGGCGCGACACCCAGGCCCTGGCCCGGGTAATACGGCGTACGGCGAATTTCTCGAAAAGTGCTCTGGTGGAATACGGCGATCCGCTCGGTTATCTGCCGCTGCGCCAGCAACTGTGCCTGCATCTGCAACGGAAGCTGTCGCTGATTCTGGAGCCGCAGCAGGTGCTGACCACCTTGGGCGCGACCCATGCGCTGGACCTGCTGATCCGTTTGCTCGTCGCTCCCGGCGATCACGTATTGGTGGATGACCCTTGCAACAGCAATCTGGTGCAACTGTTGAAATTGCGTGGTGCGCAGGTCATCGGTATTCCCAGGCGAATAGACGGGCCGGACCTGGCCTTCTTTGCCGAGACCCTGGCGAAGTGGCCGGTCAAGGCCTTCTTCATCAACTCGATGCTGCACAACCCGACCGGTTCTTCGATCAGCGCCAGCAATGCCTTCCAGTTATTGCGGCTGGCCCATCTGCATGACCTGACTATCGTCGAAGATGATGTGTATGCCGACTTCGGCAATGGCCACTCCAACCGCCTGGTCATGCTGGATGGTCTGGAACGGGTGATCTATGTCGGCAGTTTTTCCAAAACGCTATCGGCTTCGTTGCGGGTCGGTTATGTAGTGGGGCCGGCTCGACTGATCGCCAGGCTGGCCGACCTGAAACTGCTGACCATGGTGGCGGTGCCGGGCTTCTGCGAGCGCTTCGTCAGCATCATCCTGGGCGACGGCACTTACCAGCGGCATCTGGTCAGTGTGCAGCATAAACTGCGCACCCACCAGGCGATGGCCCTGGAAGCCTTCCGGCAGTGGGGCTGGGGGGCGTTCTGCGAGCCGCAGGGCGGCATGTTCGTCTGGGTACGCCATCCGCAGGTGACGAATCCCGAGGCGTTTGTTCAGGAGGGCGTGGAGAAGGGCATCGTCCTGGTGCCGGGATCGGCCTTCAGTGCCGATGGGCAACCGTCGCTCTGGTTCAGGATCAATGTCGCGCACTTCGATGCAACAGGTGCTTCCGTGCTGTTCAAGCGTTAA	MELHLDRQGAVPLTAQIVSRIEQLIDAGKLRPGQRLPSIRKLAAHHGISYHTAVTAYEQLVASGRISAQQGRGFFIDSHAQPRQPGMSSVASESENSPLGSFWRLFHGSPELMKLGCGWLPPAWRDTQALARVIRRTANFSKSALVEYGDPLGYLPLRQQLCLHLQRKLSLILEPQQVLTTLGATHALDLLIRLLVAPGDHVLVDDPCNSNLVQLLKLRGAQVIGIPRRIDGPDLAFFAETLAKWPVKAFFINSMLHNPTGSSISASNAFQLLRLAHLHDLTIVEDDVYADFGNGHSNRLVMLDGLERVIYVGSFSKTLSASLRVGYVVGPARLIARLADLKLLTMVAVPGFCERFVSIILGDGTYQRHLVSVQHKLRTHQAMALEAFRQWGWGAFCEPQGGMFVWVRHPQVTNPEAFVQEGVEKGIVLVPGSAFSADGQPSLWFRINVAHFDATGASVLFKR				NA	NA	NA	NA	NA
BMS010_03050	243			hypothetical protein	ATGCACGATCCGTTTGAAGAATCCCTGCGTGATCTGCTCAAGTCGTCGCCGTCCGTCCATGACGATGACGCCTGCCTGGATCGCGTACTCAAGACCGCCAACCGCCAGGTTGGCGTCGGCGATCTGTTCAGCCTGATGGGCCATTGCCTCGAGGCGTTGATGATTGCCCTGAACAACGGTTCGGCACATGTCGCACCGGTATCCCGCCACTCTTCCGAACGCTCCGCTGACAAGGCCGATTGA	MHDPFEESLRDLLKSSPSVHDDDACLDRVLKTANRQVGVGDLFSLMGHCLEALMIALNNGSAHVAPVSRHSSERSADKAD				NA	NA	NA	NA	NA
BMS010_03051	825			hypothetical protein	ATGGAACTCGATCTCTGGACCCAAAGCCTGGTGACTGCGATGACGGCACTCTGGACCAAGGTTGCCAACTTCATTCCCAACCTGTTCGTCGCGCTGATTCTGGTGCTGCTGGGCTTCGTCGTGGCCAAGCTGCTGGATACGCTGCTGTCCAAGGTGCTGGCCAAGGTTGGCCTGGATCGGCTGATGGCCGGTACGGGGTTGACCAAGCTGCTCGGCCGGGCAGGCATCCAGGTGCCGGTCTCGACGCTGATTGGCAAGATCGTCTACTGGTTCGTCCTGCTGATCTTCCTCGTTTCCGCCGCCGAATCGCTGGGGTTGCAGCGGGTTTCCGCGACCCTCGATGTGTTTGCCCTGTACCTGCCGAAAGTCTTCGGGGCTGCCTTGGTGCTGCTCGCCGGCGTATTGCTGGCGCAGTTGGCCAACGGTCTGGTACGCAGTGCCGCAGAGGGCGTGGGTCTGGATTATGCCAACGGGCTGGGGCGTATCGCCCAGGGGCTGGTGATCATCATCAGCCTCTCCGTGGCGATCGGTCAGTTGGAGGTCAAGACCGACCTGCTCAACAACGTCATCGCCATCGTGCTGATTTCCATCGGCTTGGCCGTCGCGCTGGCGATGGGGTTGGGTAGCCGGGAAATTGCCGGGCAGATCATCGCCGGCATTTATGTGCGTGAACTCTACGAAGTCGGCCAACAGGTCAAGGTGGGCGAGTTGGAAGGGCAGATTGAAGAGATCGGCACCGTCAAGACCATCCTGCTGACGGATGAGGGCGAGCTGGTTTCCGTGGCCAATCGCAGTCTCCTCGAGCAACGGGTGAGCAGCCGCTGA	MELDLWTQSLVTAMTALWTKVANFIPNLFVALILVLLGFVVAKLLDTLLSKVLAKVGLDRLMAGTGLTKLLGRAGIQVPVSTLIGKIVYWFVLLIFLVSAAESLGLQRVSATLDVFALYLPKVFGAALVLLAGVLLAQLANGLVRSAAEGVGLDYANGLGRIAQGLVIIISLSVAIGQLEVKTDLLNNVIAIVLISIGLAVALAMGLGSREIAGQIIAGIYVRELYEVGQQVKVGELEGQIEEIGTVKTILLTDEGELVSVANRSLLEQRVSSR				NA	NA	NA	NA	NA
BMS010_03052	627			hypothetical protein	ATGGCGGCTATTGACCTGACTTCGGCCCGACTCGTTTTGAACAAAACCCATTCGCTCTCCACGCGTTACGACCCTCGCGAGCTCACCGATGAAGAGCTGGTGCAGCGTGCGCACGTCGAGCTGTTCCACATCACCCGGGCTTATGAGGAGCTGATGCGCCGTTATCAGCGCACCTTGTTCAACGTATGTGCCCGTTATTTGGGGAACGAGCGCGACGCCGACGATGTCTGTCAGGAAGTGATGCTTAAAGTTCTTTATGGGCTGAAGAACTTCGAAGGCAAGTCCAAGTTCAAAACGTGGCTATATAGCATCACTTATAACGAGTGCATCACACAGTACCGTAAAGAGCGGAGAAAACGCCGCTTGATGGATGCCTTGAGTCTCGATCCGCTGGAAGAAGCCTCCGATGAAAAGGCACCGAAGGTAGAGGAGCGGGGCGGGCTGGATCGCTGGCTGGTGCATGTCAATCCAATCGATCGGGAAATTCTAGTGCTTCGTTTTGTCGCAGAACTCGAATTCCAGGAAATCGCAGACATCATGCATATGGGATTGAGCGCAACAAAAATGCGATACAAGCGAGCTTTGGATCGATTGCGCGAGAAATTTTCCGGGACAATTGAAACTTAG	MAAIDLTSARLVLNKTHSLSTRYDPRELTDEELVQRAHVELFHITRAYEELMRRYQRTLFNVCARYLGNERDADDVCQEVMLKVLYGLKNFEGKSKFKTWLYSITYNECITQYRKERRKRRLMDALSLDPLEEASDEKAPKVEERGGLDRWLVHVNPIDREILVLRFVAELEFQEIADIMHMGLSATKMRYKRALDRLREKFSGTIET	PGPT0014960_4192	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
BMS010_03053	1059	oprF	COG2885	Outer membrane porin F	ATGAAACTGAAAAACACCTTAGGCGTTGTCATTGGCTCTCTGGTTGCCGCATCTTCGATGGGCGCGCTGGCCCAAGGCCAAGGCGCGGTCGAGGTGGAGGCTTTCGGCAAGCGCTATTTCACTGATAGCTCTCGCGATATCGAAAACGGCAATCTGTATGGCGGCTCCATCGGTTATTTCTTGACCGACGACGTCTCCCTGGCTCTGTCGTATGGCGAATACCACGACATGACCTCCAATGACTCCTTCCCGCCGGATGGCCACAAGGACATCAAAGGTAACCTGGCTTCCCTGGACGCCGTTTACCACTTCGGTCAGCCGGGCGTTGGCCTGCGTCCGTACGTGTCCGCCGGCTTCGCGCACCAGAACATCAGCAACATTCCGCCGCGCACCGGTCGTGACCACAGCACCTTCGCCAACGTCGGCACCGGCCTGAAGTACTACTTCACCGAAAACTTCTTCGCCAAGGCGAGCCTGGACGGCATGTACAACCTGGACGCCCAGGAAGCCGAGTGGATGGCTGGCGTGGGTGTCGGCATGAACTTCGGCGGCAGCTCCTCCAAGCCAGCAGCTGAGCCGGCTCCGGAGCCGGTGGCTGAAGTCTGCGCCGACAGCGACAACGACGGCGTTTGCGACAACGTCGACAAGTGCCCGGATACCCCGGCCAACGTCACCGTCGACGCCAATGGCTGCCCGGCCGTTGCCGAAGTGGTTCGCGTCGAGCTGGACGTGAAGTTCGACTTCGACAAGTCCGTGGTCAAGGAAGAAAGCTATGGCGACATCAAGAACCTGGCTGACTTCATGAAGCAGTACCCGCAGACCACCACCACCGTTGAAGGCCACACCGACTCCGTCGGCACCGACGCCTACAACCAGGGTCTGTCCGAGCGCCGCGCCAATGCCGTGCGTGACGTGCTGGTCAACCAGTACGGCGTGGAAGGCAGCCGCGTGAACGCTGTCGGCTACGGCGAGTCCCGCCCGGTTGCCGACAACGCTACCGATTCCGGCCGTGCCGTGAACCGTCGCGTGGAAGCGGAAGTGGAAGCCGAAGCCAAGTAA	MKLKNTLGVVIGSLVAASSMGALAQGQGAVEVEAFGKRYFTDSSRDIENGNLYGGSIGYFLTDDVSLALSYGEYHDMTSNDSFPPDGHKDIKGNLASLDAVYHFGQPGVGLRPYVSAGFAHQNISNIPPRTGRDHSTFANVGTGLKYYFTENFFAKASLDGMYNLDAQEAEWMAGVGVGMNFGGSSSKPAAEPAPEPVAEVCADSDNDGVCDNVDKCPDTPANVTVDANGCPAVAEVVRVELDVKFDFDKSVVKEESYGDIKNLADFMKQYPQTTTTVEGHTDSVGTDAYNQGLSERRANAVRDVLVNQYGVEGSRVNAVGYGESRPVADNATDSGRAVNRRVEAEVEAEAK	PGPT0022215_2754	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-SURFACE_ATTACHMENT	SURFACE_ADHESION	OTHER_SURFACE_ADHESION_PROTEINS,PGPT0022215-ompA_ompF_porin|oprF-K03286	NA	NA
BMS010_03054	741	sumT	COG0007	Uroporphyrinogen-III C-methyltransferase	ATGAGCGGTAAAGTCTGGCTGGTCGGCGCGGGTCCTGGCGACCCGGAACTCCTGACCCTCAAGGCGGTGCGGGCCCTCGGCGAGGCCGATGTGGTGCTCATCGACGACTTGGTCAATCCGACGGTACTGGAATATTCCAGCCCGGATGCCCGGATCATTCCGGTTGGCAAGCGCGGCGGCTGCCGCTCCACCCCACAAGCCTTCATTCACCGGCTGATGCTGCGCTACGCCCGCCAGGGCAAGTGCGTGGTTCGCCTGAAAGGCGGTGACCCCTGCATTTTCGGTCGTGGCGGCGAAGAAGCCGAGTGGCTGGCCGAACGGGGAATCCAAGTCGAAATCGTCAACGGAATCACAGCCGGGCTGGCCGGCGCGACCACCTGCGGTATCCCTTTGACGCTACGCGGCATCAGCCGTGGCGTGACATTGGTCACCGCACACACCCAGGACGACAGCAGCCTCAACTGGAAAGCCCTGGCCCAGAGCGGCACCACCCTGCTGATCTACATGGGCGTGGCCAAGCTTGGCGAGATCCGGGAATGCCTGCTCGAAGCCGGCATGCCGGCCCATATGCCCGTCGCCATGATCGAAAACGCCTCCCTGCCCCAGCAGCGCGAGTGCCGTAGCACCTTGGAAGACATGCAGGAAAGCGCTGCGGCCTTCCAATTGAAGAGTCCGGCCATTCTGGTCATCGGCGAAGTCGCCGCGACCAAGCAAGCGCTCCCCCTGGCGCAGAGTGCCTGA	MSGKVWLVGAGPGDPELLTLKAVRALGEADVVLIDDLVNPTVLEYSSPDARIIPVGKRGGCRSTPQAFIHRLMLRYARQGKCVVRLKGGDPCIFGRGGEEAEWLAERGIQVEIVNGITAGLAGATTCGIPLTLRGISRGVTLVTAHTQDDSSLNWKALAQSGTTLLIYMGVAKLGEIRECLLEAGMPAHMPVAMIENASLPQQRECRSTLEDMQESAAAFQLKSPAILVIGEVAATKQALPLAQSA	PGPT0003685_2796	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0003685-sirA|ylnD|cysG|cobA-K02303	NA	NA
BMS010_03055	2724	nasA_2		Nitrate reductase	ATGCCTCTGAATGCCGCAACCCAAGTGACCGCTTCCACCTGCTGCTATTGCGGGGTCGGCTGCGGCGTGCTGATCGAACATGATGACACCCGAGTGCTGGGTGTGACCGGAGACCCGGCCCACCCGGCCAACTTCGGCAAGCTGTGCAGCAAAGGCTCCACCTTGCACCTGACTGGTGATCTGGCGGCACGCGGGCTTTACCCTGAGCTGCGCCTGGGCAAGGGCCTGGCCCGCTCGCGCACCGACTGGGACAGCGCCCTGGGCCATGCCGCCCACGTGTTTGCCGAAACCATCCGCGAACACGGCCCGGACAGCGTTGCGTTCTACATCTCCGGGCAATTGCTGACCGAGGATTACTACGCCTTCAACAAACTGGCCCGGGCCCTGGTCGGGACCAACAACATCGACAGCAATTCGCGCCTGTGCATGTCCTCCGCCGTGGTCGGCTACAAGCGCAGCCTGGGTGCCGATGCCCCGCCCTGCAGCTACGAAGACATCGAGCAGAGCGACTGCCTGCTGATCGCCGGCAGTAACATGGCCTACGCCCACCCAGTGCTGTTCCGTCGCCTCGAGGAAGCCAAGGCCAGGCGGCCGGACATGAAGATCATCGTGGTCGACCCCCGTCGCACCGACACCTGCGATCTGGCCGACCTGCACCTGGCGATCCAGCCGGGGACCGATGTCGCCCTGTTCCACGGCATCCTGCACATCCTGATGTGGGAAGGCTGGATCGACCGTCGCTTCATCGACGCCCACACCCAGGGCTTCGACGAATTGAAAAGCCTGGTACGCGACTACAGTCCGGCGATGGTTGCCGAGCTGTGCGGCATTTCACTGGACGACCTGCAAACCTGCGCCCGGATGATCGGCAGCGCGCCGAGCTTCCTCTCGCTCTGGTGCATGGGTCTCAACCAATCCAGCGCCGGCAGTGCGAAGAACAGCGCTCTGATCAACCTGCACCTGGCGACCGGGCAGATCGGCCGCCCCGGCGCCGGCCCGTTCTCCCTCACCGGCCAGCCGAACGCCATGGGCGGTCGTGAAACCGGCAGCCTGTCCAACCTGCTGCCTGGGCATCGCGATGCCGCCAACCCCCAACATCGGGCCGAAGTGGCGGGCTACTGGGGCATCGATGCGCTGCCCGACGCGCCGGGGCTGACCGCCATCGAACTCTTCGAAGCGGTTCGTGCCGGCAAGATCAAAGCCCTGTGGATCGCCTGTACCAACCCGGCGCAATCGCTGCCGGACCAGCAGAAGATTCACGAAGCCCTGGCCACCTGCCCCTTTGTCGTGGTGCAGGAAGCCTTTTTCACCACCGAAACCTGCCGCTACGCCGACCTGCTGCTGCCCGCTGCCAGTTGGGGGGAGAAGGAAGGTTCGGTCACCAACTCCGAACGGCGCATTTCCCATGTGCGCCGTGCCGTGCCAGCGCCCGCAGAGGCGCGGCCGGACTGGGCGATCACCTGCGACTTCGCCCGCCGCCTGGAACAGTATCTCCGCCCCGGCCTGCCCAGCCTCTTTGCCTTCGATAGCCCGCAAGCGCTGTTCGAGGAATACAAACAGCTCACCGCCCAGCGCGACCTGGACCTCTCCGGTATCAGCTACGCAATCCTGGACGACCAAGGTCCCCAGCAATGGCCGTTCCCGGCCGGCGCTCACAGCGGTACGCCGCGCCTCTACGGTAACGGCGTGTTCCCGACCGAGAACGGCCGCGCCCGTTTCGTCGCCGACGCCTACCGACCACCGAAGGAAACGCGCGAGGCTCGCTTCCCGCTGACCCTCAACACCGGCCGCTTGCGTGACCAATGGCACGGCATGAGCCGTACCGGCACAGCCGCCCGGCTGTTCGGCCATGTCGAGGAAGCCGTGCTCGGCCTGCATCCCGAGGAACTGCGCCGGCGGCACCTGCGCGACGGACAGTTGGTCCGTGTCCGCAGCCGCCGCGGCAGTCTGGTACTGCCGGTCCAGAAGGACGAGAACGTGCGTCCGGGCCAGGCCTTTCTACCGATGCACTGGGGCGACCGATTCCTCAAGGGGCTGGGCAGCAACGTACTGACCCTGCCGGCGTTCGACCCGCTGTCCAAGCAGCCGGAGCTCAAGCATGCCGGTATCGAGGTGGAAAAGGTCGAGCTTCCCTGGCAACTGTTCGCCCTGGTGGAAGGAGATGTGCAGGCGCGCTTCGAGGCGCTGCGCCCGCTCTTCGAGGGCTTCGCCTATGCCAGCCTCGGCCTTGCCGGGCGCGAACGCCCCGCCCTGTTGATCCGGGCCGCCTGCCGCGAAGCCCCCTCTGGCGAGCTGCTTGCCCGAATCGACCATCTACTCGGCCTCGATCAGGGTCCTGTACTGGCCTATGACGACCCGCGTCGCGCAGTCGGCAAGCGCGTACGCATCGAGGATGGCCGCATCGTCTCGCTGCGGCTCGCCGGCGAAACCGCCGCCCGCGACTGGCTAAAGAGTCTCTGGCTGGATGGCCAGGCCGACGCCGACCTGCGCCGCTGGCTGCTGGCTCCGATCAGCACACCGCCCGGCGCGGCCGCTGCGAAAAAAGCCGGCAAGGTCCTGTGCAACTGCATGAACGTCAGCGAAGACGCGGTTTGTGCCGGCATCAACCGTGGCCTGGACCTCGGCGGGCTGAAACAGGAGCTGGGTTGCGGAACCCAGTGCGGCTCCTGCGTCCCGGAAATCAAGCGGCTGCTGGCCCAACAACCGCAGTTGGCAAGTGCATGA	MPLNAATQVTASTCCYCGVGCGVLIEHDDTRVLGVTGDPAHPANFGKLCSKGSTLHLTGDLAARGLYPELRLGKGLARSRTDWDSALGHAAHVFAETIREHGPDSVAFYISGQLLTEDYYAFNKLARALVGTNNIDSNSRLCMSSAVVGYKRSLGADAPPCSYEDIEQSDCLLIAGSNMAYAHPVLFRRLEEAKARRPDMKIIVVDPRRTDTCDLADLHLAIQPGTDVALFHGILHILMWEGWIDRRFIDAHTQGFDELKSLVRDYSPAMVAELCGISLDDLQTCARMIGSAPSFLSLWCMGLNQSSAGSAKNSALINLHLATGQIGRPGAGPFSLTGQPNAMGGRETGSLSNLLPGHRDAANPQHRAEVAGYWGIDALPDAPGLTAIELFEAVRAGKIKALWIACTNPAQSLPDQQKIHEALATCPFVVVQEAFFTTETCRYADLLLPAASWGEKEGSVTNSERRISHVRRAVPAPAEARPDWAITCDFARRLEQYLRPGLPSLFAFDSPQALFEEYKQLTAQRDLDLSGISYAILDDQGPQQWPFPAGAHSGTPRLYGNGVFPTENGRARFVADAYRPPKETREARFPLTLNTGRLRDQWHGMSRTGTAARLFGHVEEAVLGLHPEELRRRHLRDGQLVRVRSRRGSLVLPVQKDENVRPGQAFLPMHWGDRFLKGLGSNVLTLPAFDPLSKQPELKHAGIEVEKVELPWQLFALVEGDVQARFEALRPLFEGFAYASLGLAGRERPALLIRAACREAPSGELLARIDHLLGLDQGPVLAYDDPRRAVGKRVRIEDGRIVSLRLAGETAARDWLKSLWLDGQADADLRRWLLAPISTPPGAAAAKKAGKVLCNCMNVSEDAVCAGINRGLDLGGLKQELGCGTQCGSCVPEIKRLLAQQPQLASA	PGPT0000390_388	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000390-nasA|nasC|narB-K00372	NA	NA
BMS010_03056	327	hcaC_2		3-phenylpropionate/cinnamic acid dioxygenase ferredoxin subunit	ATGAACTGGCTGGACATCTGCGCCCTGGACGAGATCAACGTGCTCGGCTCGCGCATCGTCGTGGGCCCGAAAGGCGACATCGCCATCTTCCGCACCTCCAACGACGAAGTCTTCGCCCTCGACGACCGCTGCCCGCACAAGGGTGGCCCGCTGTCCCAGGGACTGATCTACGGCAAGCGCGTCGCCTGCCCGTTGCACAACTGGCAGATCGACCTGGAGTCCGGCGAGGCCCTGGCGCCGGACGTCGGATGCACCCACAAGTATTCGGTGAAGGTGGAAAACGGCCGCGTCCTGCTCTCACTCGAGGAAGCCTCCCTGTGTGCCTGA	MNWLDICALDEINVLGSRIVVGPKGDIAIFRTSNDEVFALDDRCPHKGGPLSQGLIYGKRVACPLHNWQIDLESGEALAPDVGCTHKYSVKVENGRVLLSLEEASLCA	PGPT0000455_1681	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000455-nirD-K00363	NA	NA
BMS010_03057	2454	nasD_2	COG1251	Nitrite reductase [NAD(P)H]	ATGGAAAAACTCAAACTCGTGATGATCGGCAATGGTATGGCCGGCGTGCGCACCCTGGAGGAGTTGCTCAAACTCACCCCCGATCTGTACGACATCACCGTATTCGGTGCCGAGCCCCATCCGAACTACAACCGCATCCTGCTTTCCCCGGTCCTGGCGGGCGAACAGACCTTCGAAGAGATCGTGCTCAACGACCTCAACTGGTACGCGGAGAACAACATCCGCCTGATGCTCAACCGCAAGGTGGTGGAGATCGACCGGGTCAAGCGCCGGGTCATCGCCGAAGACGGCACCGAGGCCGAGTACGACCGCCTGCTCATCGCCACCGGTTCCAACCCGTTCATCCTGCCGATCCCGGGCAACACGCTGCAGGGCGTGATCGGCTATCGCGACATCGCCGACACCCAGATGATGATGACTACCGCCGAGACCCATCGGCATGCGGTGGTCATCGGTGGCGGCCTGCTCGGCCTGGAAGCGGCCAACGGCCTGAAGCTGCGCGGCATGGACGTGACCGTCGTGCATATCGGCGACTGGCTGATGGAGCGCCAGCTCGACCCCACCGCCGGCAAGCTGTTGCAGACGGCCTTGGAGAATCGCGGCCTGAAATTCCTCCTGCCGAAGCAGACCGCCGAACTGATCGGCAACGACGAAGGCCGGGTCAAGGCCGTGCGCTTCGCCGACGGCGAAGTGATCCCGGCCGATCTGGTGGTGATGGCCGCCGGTATCCGCCCGAACAGCGAACTGGCGGAAAAGGCCGGCATTCCCTGCAACCGCGGCATCCTGGTCAACGACACCCTGCAAACCTACGACCCGCGTGTCTATGCCGTCGGCGAATGCGCCAATCACCGTGGCATCGCTTACGGCCTGGTCGCGCCGCTGTTCGAACAGGCCAAGGTCTGCGCCAACCACCTGGCCATGCTCGGCTTTGCCCGTTACCAGGGCTCGGTGACGTCCACCAAACTGAAGGTCACCGGTATCGACCTATTCTCCGCCGGCGACTTCATGGGCAGCGAAGGCACCGAGACCATCACCCTCTCCGACCCCATCGGCGGGGTCTACAAGAAGCTGGTGATCAAAGACGACATCCTGGTCGGCGCCTGCCTCTACGGCGACACCGCGGACGGTGGCTGGTACTTCCGCCAGATCCGCGAAGACCACAACGTCAGCGAGATCCGCGATCACCTGATGTTCGGCGAAAACGCCCTCGGTGACACCGGCCACCAGGGCCAAAACAAAGCCATGTCGATGCCCGACGACATGGAAGTCTGCGGCTGCAACGGCGTGTGCAAAGGCACCATCATCAAGGCGATCCAGGAACACGGCCTGTTCTCCGTCGACGAGGTGAAGAAGCACACCAAGGCCGCCAGCTCCTGCGGCTCCTGCGCGGGTCTGGTCGAACAGATTCTGATCAACACCGTCGGCGGCGCCGCGGATGTGAAGCCGAAGAGCGAGAAAGCCGTGTGCGGTTGCACCGACCTCAACCACGGCCAGGTGCGCAAGGCGATCCGCGAACATCACCTCACCAGCATCCCGGACGCCATGGCCTTCATGGACTGGAACACGCCGAACGGCTGCGCCACCTGCCGTCCGGCACTGAACTACTACCTGATCTCGACCTGGCCGGGCGAGGCCAAGGACGATCCGCAATCGCGCCTGATCAACGAGCGCGCCCACGCCAACATCCAGAAAGATGGAACCTACTCGGTGGTTCCGCGGATGTGGGGCGGCGTCACCAGCCCGTCCGAACTGCGCCGCATCGCCGACGTGGCCGACAAGTACGAAATTCCCATGGTCAAGGTGACCGGTGGTCAGCGCATCGACCTGCTGGGCGTGAAGAAGGAAGACCTGCCGAATGTCTGGAAAGACCTCGACATGCCCTCCGGCCACGCCTACGGCAAGTCCATCCGCACCGTGAAGACCTGTGTCGGCAGCGAGTTCTGCCGCTTCGGCACCCAGAACTCCACACAGATGGGTATCGATCTGGAGCACGCCCTGTTCGGCATGTGGTCGCCGCACAAGGTCAAGCTGGCGGTCTCCGGCTGCCCGCGCAACTGCGCCGAATCCGGCATCAAGGACGTCGGCATCATCGGCGTGGACTCCGGCTGGGAGATCTACATCGGTGGCAACGGCGGCATCAAGACCGAGGCCGGCGAGTTCTTCGTCAAGGTGAAGAGCGCCGAGGAAGTCATGGAATACAGCCTGGCCTTCCTCCAGCTCTACCGCGAAGAAGCGTTCTACCTGGAGCGCACCGTGCACTACATGCAGCGCGTCGGCCTGGAACACATCAAGAAAGCCGTGCTGGACGACGAGGAGCGGCGCAAGGCGCTGCACCAGCGCCTGCTGTTCTCCCTGAGCTTCGAGCAGGACCCGTGGAAAGAACAGGTCTCCAAGCCGCAACTGAAGAAAGAATTCGACCGCATCGCCGTGCGCGAACTGGAGGTGGAAGCATGA	MEKLKLVMIGNGMAGVRTLEELLKLTPDLYDITVFGAEPHPNYNRILLSPVLAGEQTFEEIVLNDLNWYAENNIRLMLNRKVVEIDRVKRRVIAEDGTEAEYDRLLIATGSNPFILPIPGNTLQGVIGYRDIADTQMMMTTAETHRHAVVIGGGLLGLEAANGLKLRGMDVTVVHIGDWLMERQLDPTAGKLLQTALENRGLKFLLPKQTAELIGNDEGRVKAVRFADGEVIPADLVVMAAGIRPNSELAEKAGIPCNRGILVNDTLQTYDPRVYAVGECANHRGIAYGLVAPLFEQAKVCANHLAMLGFARYQGSVTSTKLKVTGIDLFSAGDFMGSEGTETITLSDPIGGVYKKLVIKDDILVGACLYGDTADGGWYFRQIREDHNVSEIRDHLMFGENALGDTGHQGQNKAMSMPDDMEVCGCNGVCKGTIIKAIQEHGLFSVDEVKKHTKAASSCGSCAGLVEQILINTVGGAADVKPKSEKAVCGCTDLNHGQVRKAIREHHLTSIPDAMAFMDWNTPNGCATCRPALNYYLISTWPGEAKDDPQSRLINERAHANIQKDGTYSVVPRMWGGVTSPSELRRIADVADKYEIPMVKVTGGQRIDLLGVKKEDLPNVWKDLDMPSGHAYGKSIRTVKTCVGSEFCRFGTQNSTQMGIDLEHALFGMWSPHKVKLAVSGCPRNCAESGIKDVGIIGVDSGWEIYIGGNGGIKTEAGEFFVKVKSAEEVMEYSLAFLQLYREEAFYLERTVHYMQRVGLEHIKKAVLDDEERRKALHQRLLFSLSFEQDPWKEQVSKPQLKKEFDRIAVRELEVEA	PGPT0000450_1883	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000450-nirB-K00362	NA	NA
BMS010_03059	1707	eptA_2	COG2194	Phosphoethanolamine transferase EptA	ATGCTGAATATTCGTCCCGTTCGCCCCGAGTGGCTCACCCTGATTGTCAGTGGCGCGTTTCTGCTGTTCTACAACGTGCCGCTCTGGCAGCACCTGTATCAGGTGGTCGCGCCCCATGGCGTGGCTAGTGGTTTGTTCACGCTGTTGGTAATCGGCATCCTGTTCACGGCCGCTTTCAACCTGGTGCTCACGGCGTTGGCGTTCCGCTGGACGTTCAAGCCTCTGCTGACGGTGCTGCTGCTGTGTGCCGCTAGCGTTGCGTATTTCATGAACCAGTACGGGGTGATGATCGACACCGAGATGCTACGCAACGCGATGGAAACCAATGCTTCCGAAGTGGGCGATCTGCTCACCTTGAAGCTGGGTGTCTATCTTGTCGTGCTGGGTGTATTGCCGGTCTGGTTGTTGTGGCGAACGCCGGTTCGCTATCGGCCCTGGCCGCGCGAGCTGCTGAGCAAACTGGCCAGCGGCGGTGCGACGGCGGCGGTGATGGTGGCGATCGCCATGCTCGACTACCAGACCCTGTCGTCGCTGTTCCGCAACCATCACGAGATTCACCTGCAGCTCACCCCGAGCAACGCGGTTGGCGCATTGATCAGCTATGTGCATGGCGTCACTGCCTCGGCCAAGGGGCCGCTGCGGCCGATCGGCACGGACGCGGTGCGAGTGGTCCGGGCTGATGCCGGCGGGCGCAAGACACTCATGGTGCTGGTGGTGGGGGAAAGCGCCCGCGCGGAGAACTTCGGCCTGAACGGATACGAGCGCGACACCACGCCAGAGCTGCGACGGGAAGAGGGTGTGGTGAGCTTCACCGATATGCATTCCTGCGGGACCGAAACGGCGGTATCGGTGCCTTGCATGTTTTCCAACCTGACCCGTGCGCATTACAGCGATAGCGTGGCCAAGAGCCAGGAAAACCTGCTCGATGTGCTCAAGCGGGCCGGCTACGACATCGTGTGGCGGGATAATCAGGCTGGCTGCAAGGAAACCTGCAACCGGGTCGTCTTCCAGAGCATGACCAAGCTGAAGGACCCCGCGCTCTGTGGCGATGGCGAATGCCATGACGAGATACTCCTGCAGGACTTGCAGGGCTTTATCGACCATCTGGAGCGCGACACCGTGTTGGTGCTGCATCAGATGGGCAGCCATGGGCCGGCCTACTACAAGCGCTACCCGGCGGCCTACGAACATTTCACGCCGGTGTGTGTCAGCAACGAGCTGAGCGATTGCTCCCGGGAGAGCATCATCAACGGATACGACAACACGATCCGCTATACCGACCACGTCCTGGCCAGCCTGATCGATACCCTGCGCGCCAACCAGGGCAAGGTCGACACCGCCATGCTGTACCTGTCCGACCACGGCGAATCCCTGGGCGAATACAACGTGTACCTGCATGGCATGCCCTACAGCTTCGCGCCGGCCGAGCAGAAGCATATCGCCAGTGTCGCCTGGTTCTCCCCGGGTTTTCAGCGCACTGCCGGCGTCGATACGCAATGCGTGGCGGAGCAGCGCGATGCGACGCTGAGCCAGGACTACCTCTTCCATACCATGCTGGGCCTGTTGGGCGTGCAGACCCAGGCCTATAGCACCGGTCTCGATATGTTCGCGGGCTGCCGCAACCAGCCCGGTTCGTCGATCGCCAGCCTGGCCGCCGACAGATCAGTGGCGGTACAGCCAAAGCACGAGCATCAGCAGGTGCAATAG	MLNIRPVRPEWLTLIVSGAFLLFYNVPLWQHLYQVVAPHGVASGLFTLLVIGILFTAAFNLVLTALAFRWTFKPLLTVLLLCAASVAYFMNQYGVMIDTEMLRNAMETNASEVGDLLTLKLGVYLVVLGVLPVWLLWRTPVRYRPWPRELLSKLASGGATAAVMVAIAMLDYQTLSSLFRNHHEIHLQLTPSNAVGALISYVHGVTASAKGPLRPIGTDAVRVVRADAGGRKTLMVLVVGESARAENFGLNGYERDTTPELRREEGVVSFTDMHSCGTETAVSVPCMFSNLTRAHYSDSVAKSQENLLDVLKRAGYDIVWRDNQAGCKETCNRVVFQSMTKLKDPALCGDGECHDEILLQDLQGFIDHLERDTVLVLHQMGSHGPAYYKRYPAAYEHFTPVCVSNELSDCSRESIINGYDNTIRYTDHVLASLIDTLRANQGKVDTAMLYLSDHGESLGEYNVYLHGMPYSFAPAEQKHIASVAWFSPGFQRTAGVDTQCVAEQRDATLSQDYLFHTMLGLLGVQTQAYSTGLDMFAGCRNQPGSSIASLAADRSVAVQPKHEHQQVQ	PGPT0022420_171	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0022420-eptA-K03760	NA	NA
BMS010_03060	1737	pknD_2		Serine/threonine-protein kinase PknD	ATGACCACGGCCAACCTGCCGATGAACGCCATCCAGCGGGAAATCACACCGCGCGGCCCGTCCGCCGCCCTGCAACTGACCTTCGGCGAAGCCAGCGCCACCGGGCCTCGCGAGGAAAACCAGGATGCCATCCGGGTGGTGACGCCCGCCCCGGCACTGGCTGCCAGCAAAGGCTACCTGTTCGCCCTCGCCGACGGCGTCAGCCAATGTGCCGACGGCGGGCTGGCAGCCCGCGCCACGTTGCAGGCGCTGGCGCTGGACTACTACTCCACGCCGGAAACCTGGGCAGTGGCGCAATCCCTGGACCGCCTGCTGGTCGCCCATAATCGCTGGCTCCAGGCCAACGGCGGCGGCCAACCGCTGCTGACTACGCTCACCGCCCTGGTGCTGCGTGGCCGGCGCTTCACCATCGCCCATGTCGGCGATTGCCGGGCCTACCGCTTCCATGCGGGGCATCTCGAACGCTTGACCGAGGACCACGTCTGGGAACAGCCGGGCATGCAGCACGTGCTCAAGCGTGCGCTCGGCCTGGATCAACACCTGGTGGTGGACTACCTGGATGGCGAGCTGCACGAGGACGAAAGCTTCCTGATCGTCAGCGACGGCGTCTGGTCGGCGCTCGGCGACCCGGCCATCCGCAACATTCTGAAGGACGAAAGCGACCCCAAGGCCGCCGCCCAGGCCCTGGTCAACGCCGCCCACCTGGCGGGCAGCCGCGACAATGCCAGCGCCCTGCTGCTGAAGGTCGAGGAGCTGCCCGAAGGCGCCCTGGCCGACACTCTCGCCCAACTGGCCCACTGGCCGCTGCCACCGAAACTGCGCGAAGGTCAGACCTTCGAGGGCTGGCAGGTCGAACGCCTGCTCGGCGAATCCCGCCAATCCATGATTTATCGGGTCCGCGACAGCCAGGACCGCCGCTGGCTGCTGAAAACACTGCCGCCAAGCCGCCAGGACGAACCCAAGGCCGGGCAGTCCCTGCTGCTCGAGGAGTGGTTCCTGCGGCGCGTCGCCGGACGCTATTTCCCAGAGGTCCACCCGCTGCCGCAGCGCCAGCATCTTTATTACGTGCAGCGTGAGTACGCCGGGCAGACCCTGGCCGAACACCTGCGCCTGTCCGGCCCGCTGGCCCTGCCTGAATGGCTGGATGTGGCGCCCCGCCTGCTCCGCGCCGTCGGCATGCTGCATCGGCGCAACATCCTGCATCGCGATATCAAGCCGGAAAACCTGCTATGGGGGGACGACGGCGAGCTGCGCGTACTGGACTTCGGCCTAGCCTTCTGTCCCGGACTTTCCAGCGACGAAGCCCATGCGCTTCCAGGGACTCCCAGCTACATCGCCCCGGAAGCCTTCACCGGTACCGCGCCACATGCACAACAGGATCTCTACGCCGCCGGCGTGACGCTTTACCACCTGCTCACCGGCCACTATCCCTACGGCGAGATCGAGCCGTTCCAGCACCCGCGCTTCGGCGCCCCGGTGCCGGCCAGCCGCTATCGGCCCGACCTTCCCACGTGGATCGACGAAAGTCTCAGCCGTGCCCTGGCCACCGACCCGGCACAGCGTTTCGAGACCGCCGAAGAATGGCTGCTCAATCTGGAACAGGCCGAACGACAGGCGCTGAGCCAGCGTCCACGCCCCTTGCTGGAGCGTGAGCCGCTGAAGTTCTGGCGCGGCCTGGCTTGCGCTTCGCTGCTATTGCACCTGCTGATGCTCGTGCTTTGGCTGTACCGCCACTGA	MTTANLPMNAIQREITPRGPSAALQLTFGEASATGPREENQDAIRVVTPAPALAASKGYLFALADGVSQCADGGLAARATLQALALDYYSTPETWAVAQSLDRLLVAHNRWLQANGGGQPLLTTLTALVLRGRRFTIAHVGDCRAYRFHAGHLERLTEDHVWEQPGMQHVLKRALGLDQHLVVDYLDGELHEDESFLIVSDGVWSALGDPAIRNILKDESDPKAAAQALVNAAHLAGSRDNASALLLKVEELPEGALADTLAQLAHWPLPPKLREGQTFEGWQVERLLGESRQSMIYRVRDSQDRRWLLKTLPPSRQDEPKAGQSLLLEEWFLRRVAGRYFPEVHPLPQRQHLYYVQREYAGQTLAEHLRLSGPLALPEWLDVAPRLLRAVGMLHRRNILHRDIKPENLLWGDDGELRVLDFGLAFCPGLSSDEAHALPGTPSYIAPEAFTGTAPHAQQDLYAAGVTLYHLLTGHYPYGEIEPFQHPRFGAPVPASRYRPDLPTWIDESLSRALATDPAQRFETAEEWLLNLEQAERQALSQRPRPLLEREPLKFWRGLACASLLLHLLMLVLWLYRH	PGPT0030420_380	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_RELATED_PROTEINS,PGPT0030420-ppa|prpA-K01090	NA	NA
BMS010_03061	1212	nasA_3		Nitrate transporter	ATGAATACGAGTTTCTGGAAAGCCGGCCACGCACCCACCCTGTTCGCCGCCTTCCTCTATTTCGACCTGAGTTTCATGGTCTGGTACGTGCTCGGGCCGCTGGGCGTGCAGATCGCCGCCGACCTCGGCCTGACCACCCAGCAGCGCGCCATGATGGTAGCCACGCCGATCCTGGCGGGTGCCGTCCTGCGATTCCTGATGGGCCTGCTGGCCGACCGCACATCACCGAAGACCGCTGGTCTCATCGGCCAGGTGGTCGTCATCACGGCGCTGGCCGCCGCCTGGCAGCTCGGTGTCCACAGCTACGAACAAGCCTTGCTGCTCGGCCTGTTCCTCGGCTTCGCCGGCGCCTCCTTCGCCGTCGCGCTGCCCCTGGCGTCGCAATGGTATCCACCGCAACACCAGGGCAAGGCGATGGGCATCGCCGGCGCCGGCAACTCCGGTACCGTGCTGGCCGCGCTGTTCGCTCCCGGCCTGGCTGCCGCATTCGGCTGGAGCAACGTATTCGGCCTGGCGCTGATTCCGCTGGTGCTGACCCTGATCATCTTCGCCAGCGTGGCGAAGAACGCACCGGAGCGGCCCAAGCCGAAAGCCCTGGGCGATTACCTGAAAGCCCTGGGCGACCGCGACAGCTGGTGGTTCATGTTCTTCTACAGCGTGACCTTCGGCGGCTTCCTCGGCCTGGCCAGTACCCTGCCCGGTTATTTCCACGACCAGTACGCGTTCGACCCGGTCAAGGCCGGCTATTACACCGCCGCCTGCGTATTCGCCGGCAGCCTGCTGCGGCCGCTGGGCGGCGCGCTGGCCGACCGCATCGGGGGCATCCGCACCCTGCTGATGATGTACACCCTGGCTTCGCTGTGCATCTTCATGGTCGGCTTCAACCTGCCCAGTTCAACGGCGGCGTTGGGCCTGTTCGTCATCGCCATGCTCAGCCTGGGTGCCGGTAACGGCGCGGTCTTCCAACTGGTCCCCCAACGCTTCCGTCGCGAGATCGGCGTGATGACCGGCCTGATCGGCATGGCCGGCGGCATCGGCGGCTTCTGCCTGACCGCCGGCCTGGGTGCCATCAAGCAATCCACCGGCGATTACCAGCTCGGGCTGTGGCTGTTCGCCAGCCTCGGCGTCATGGCCTGGATCGGCCTGCATGGCGTCAAGCAGCGCTGGAGAACCACCTGGGGATCGGCCGCCATGACCGCCGCCCGAGTATGA	MNTSFWKAGHAPTLFAAFLYFDLSFMVWYVLGPLGVQIAADLGLTTQQRAMMVATPILAGAVLRFLMGLLADRTSPKTAGLIGQVVVITALAAAWQLGVHSYEQALLLGLFLGFAGASFAVALPLASQWYPPQHQGKAMGIAGAGNSGTVLAALFAPGLAAAFGWSNVFGLALIPLVLTLIIFASVAKNAPERPKPKALGDYLKALGDRDSWWFMFFYSVTFGGFLGLASTLPGYFHDQYAFDPVKAGYYTAACVFAGSLLRPLGGALADRIGGIRTLLMMYTLASLCIFMVGFNLPSSTAALGLFVIAMLSLGAGNGAVFQLVPQRFRREIGVMTGLIGMAGGIGGFCLTAGLGAIKQSTGDYQLGLWLFASLGVMAWIGLHGVKQRWRTTWGSAAMTAARV	PGPT0000300_3781	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000300-narK|nrtP|nrt|narU-K02575	NA	NA
BMS010_03063	690	alyA_1		Alginate lyase	GTGATCGATCTCACGCCCTGGAACTTGGCCGTCCCAACCCCCGGCGAACCCACCATCATTTCTACCGCACAACTGAGCAACGGCTACCGCAGTCGCTACTTCTACCCCAGCGATGACGGCGGCATCGTCTTCTGGGTTCCCGTCAACGGTTCTCATACGGAGGATGCCCGCTACCCCAGGACCGAACTGCGTCAAACCCAATCGGATGGCACCCTGAGCTTCTGGGGCTACCAGGGCGCCGATAACTACCTTCGCGCCATCCTGGCCGTCAACAAGGTGCCCAGCAAAGGCAAGATCGTCATCGGGCAGATTCACAGCGAAGACGTCTCGGGTAGCCAGAACGATCCCCTGCTCAAGCTGCAATACCACTACAAGGACGGTATCGGCCGGGTGGAAGCCCTGCTCCGCAAATACCCGGGCGACCGGGAAGTACAGAACATCCCGATCGCCACGAACGTGCAGCTCAAGGAGCGCTTCAAGTACACCATCAACCTGTCTCCGGACGGCATGCTCAGCATAAAAATCCATAGCGACGATGGCGACTACGGCCTGATTACCCGCCAGGTCAGCGCACGCTGGTCGGTGCAGAGCCTGTATTTCAAGGCAGGTGCCTATATCCAGGATAACTACGGCCCCTCGGACGAAGGCGGCAAGGTCACCTTCTACGATCTGGACCTGATCCAGCACTGA	MIDLTPWNLAVPTPGEPTIISTAQLSNGYRSRYFYPSDDGGIVFWVPVNGSHTEDARYPRTELRQTQSDGTLSFWGYQGADNYLRAILAVNKVPSKGKIVIGQIHSEDVSGSQNDPLLKLQYHYKDGIGRVEALLRKYPGDREVQNIPIATNVQLKERFKYTINLSPDGMLSIKIHSDDGDYGLITRQVSARWSVQSLYFKAGAYIQDNYGPSDEGGKVTFYDLDLIQH	PGPT0019417_550	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_ALGINATE_DEGRADATION,PGPT0019417-putative_alginate_lyase_2-NA	NA	NA
BMS010_03064	798	nrtD_1	COG1116	Nitrate import ATP-binding protein NrtD	ATGAGCCATTCCAACTATCTCGAACTCACCGGTGTCGGCATCAGTTTCCCCACCGACAAAGGCCTCTTCTGCGCCTTGCAGAACGTCAATCTGCGCATCGCCAAGGGGGAATTCGTATCGCTGATCGGCCATTCCGGCTGCGGCAAGTCCACTGTGCTGAATATCGTGGCGGGCCTCCACCAGGCCACCACCGGCGGCGTGATCCTCGATGGCCGAGAAGTCGACCAGCCCGGCCCCGACCGTGCCGTGGTGTTCCAGAACCACAGCCTGCTGCCCTGGCTGAGCTGCTACGAAAACGTCGAACTGGCTGTCCGCCAAGTCTTCAAGGGGCAGAAAAGCCGCCGCGAGATGCGCGACTGGATCGAACACAACCTGGCCCTGGTGCATATGACCCATGCCCGGGACAAGCGCCCCAGCGAGATTTCCGGGGGCATGAAACAGCGCATCGGCATCGCCCGTGCCCTGGCCATGCAGCCGAAGGTCCTGCTGATGGACGAACCTTTCGGCGCACTGGACGCGCTGACGCGGGCACACCTGCAGGATTCCTTGATGGAAATCCATGCCGACCTGGGCAACACGGTGATCATGATCACCCACGACGTGGACGAAGCCGTGCTGCTGTCCGACCGCATCGTGATGATGAGCAACGGCCCGGCCGCGACCATCGGTGAAATCCTGTCGGTCGACCTGCCCCGCCCGCGCGATCGCATGGCTTTGGCGCATGACGCGCACTATCACGACTACCGGGCGGCCGTGCTGGAATTCCTCTATCAGCGCCAGCAGCGGCCCGCGGCCTGA	MSHSNYLELTGVGISFPTDKGLFCALQNVNLRIAKGEFVSLIGHSGCGKSTVLNIVAGLHQATTGGVILDGREVDQPGPDRAVVFQNHSLLPWLSCYENVELAVRQVFKGQKSRREMRDWIEHNLALVHMTHARDKRPSEISGGMKQRIGIARALAMQPKVLLMDEPFGALDALTRAHLQDSLMEIHADLGNTVIMITHDVDEAVLLSDRIVMMSNGPAATIGEILSVDLPRPRDRMALAHDAHYHDYRAAVLEFLYQRQQRPAA	PGPT0000575_862	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRTATE|NITRITE_TRANSPORT,PGPT0000575-nasD|nrtC-K15578	NA	NA
BMS010_03065	993	cmpB	COG0600	Bicarbonate transport system permease protein CmpB	ATGAGCAACCCGAGCATCGCCACCCCGATTTCCAACACCGTCAAAGCCGCCCGGACCCAGGCCCTGCTGAAGCGCTGGGCTCCGGCCGCCATCCTGCCGCTCGCCGGCATCTTCGCCTTCCTGGTGCTGTGGCAACTGGTGGCCAACAACATCCAGACCAGCCTCGGCCAGTTCCCCGGGCCGGTTCAGGTCTATACCCAGTTCAACGCCCTGGTGGACAGCCATCTGGCCGAACGGGAAAAAGCCAACGCCTTCTACGAGCGCCAGGAAAAGCGCAATGCGGAACGCCTGGCGCGCGATCCGTCGGCAGAGGTGAAGATTCGCCCGTATACCGGCAAGCCGACCTTCTTCCAGCAGATCTTCACCAGCCTCTACACGGTGATGACCGGCTTCGCCATCGCCTCCCTGATCGCGGTACCGCTCGGCATCGTCTGCGGCCTGAGCAAACCGCTCTACAGCGCGATGAATCCGTTGATCCAGATCTTCAAGCCGGTCTCGCCGCTGGCCTGGCTGCCGCTGGTGACCATGCTGGTCAGCGCCCTTTATGTCAGCGACGACCCCATGCTCGCCAAATCCTTCCTCACTTCGGCACTGACCGTTGCCCTCTGCTGCCTGTGGCCCACGGTGATCAACACCACCGTCGGCGTGGCCAATCTGGACAAAGACCTGCAGAACGTCAGCCGGGTGCTCAACCTGTCGCCGCTCAGCCATGTGCGGCGCATCGTGCTGCCGGCGGCGGTGCCGATGATCTTCACCGGCCTGCGCCTGTCGCTGGCCACCGGCTGGATGGTGCTGATCGCCGCCGAAATGCTCGCGCAGAACCCGGGCCTCGGCAAATTCATCTGGGACGAGTTCCAGAACGGCAGCTCCAACTCTCTGGGTCGGATCATGGTCGCGGTGATCGTCATCGGCCTGATCGGCTTCGCCCTGGACCGCCTGATGCTGCTCTTGCAGCGCCACGCCAGTTGGGACAAGAACGCCGACCTGCGCTAG	MSNPSIATPISNTVKAARTQALLKRWAPAAILPLAGIFAFLVLWQLVANNIQTSLGQFPGPVQVYTQFNALVDSHLAEREKANAFYERQEKRNAERLARDPSAEVKIRPYTGKPTFFQQIFTSLYTVMTGFAIASLIAVPLGIVCGLSKPLYSAMNPLIQIFKPVSPLAWLPLVTMLVSALYVSDDPMLAKSFLTSALTVALCCLWPTVINTTVGVANLDKDLQNVSRVLNLSPLSHVRRIVLPAAVPMIFTGLRLSLATGWMVLIAAEMLAQNPGLGKFIWDEFQNGSSNSLGRIMVAVIVIGLIGFALDRLMLLLQRHASWDKNADLR	PGPT0000580_205	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRTATE|NITRITE_TRANSPORT,PGPT0000580-nasE|nrtB|cynB-K15577	NA	NA
BMS010_03066	1371	nrtA_3	COG0715	Nitrate/nitrite binding protein NrtA	ATGTCTTTCCACCGCCGTCATTTCCTGCGCCGGGCCCTGACCGGGTTCGGCTGTATTACCACCCTGCTGCTCACCCCGTTGTCCGCCACCTTCGCCGCTGAACCGGAGAAGGAAGAACTCAAGCTCGGCTTCATCAAGCTGACCGATATGGCGCCCCTGGCCATCGCCTACGAAAAAGGTTTCTTCGAAGACGAAGGACTGTTCGTCACCCTGGAGGCCCAGGCCAACTGGAAAGTCCTTCTCGACCGGGTGATCGACGGCGAACTGGACGGCGCCCACATGCTCGCCGGCCAGCCGCTGGGCGCCACCATCGGCTTCGGCACCAAGGCCGAGGTGATCACCGCCTTCTCCATGGACCTCAACGGCAACGGCATCACCGTTTCCAACGAAGTCTGGGAGGAAATGAAGAAGCACCTGCCGATGGAGAACGGCAAACCCGTGCATCCGATCAAGGCCGACGCCCTGAGACCCGTGATCGACAAATACAAAGCCGCGGGCAAGCCGTTCAACCTCGGCATGGTATTTCCCGTTTCCACGCACAACTACGAGCTGCGCTACTGGCTCGCGGCCGGCGGTATCAACCCCGGCCTCTATGCCCCGGACAAGGGCGACATCAGCGGGCAGATCGGCGCCGACGCGCTGCTTTCCGTGACCCCGCCGCCGCAGATGCCGGCGACGCTCGAAGCCGGCACCATTTCCGGCTATTGCGTGGGCGAGCCGTGGAACCAGCAAGCCGTGGTCAAGGGCATCGGTGTCCCGGTGATCACCGACTACGAAATCTGGAAGAACAACCCTGAGAAAGTCTTCGGCGTCTCCAAGGCCTGGGCCGAGAAATATCCGGAGACCCACAAGCGCTTGGTCAAGGCGCTGATCCGCGCAGCCATGTGGCTGGATGAAAACGGCAACGCCAACCGCCCCGAGGCCGTAGAAATCCTCTCCCGCCCGGAATACGTCGGCGCCGACGCCAAAGTCATCGCCAACTCCATGACCGGCACCTTCGAATACGAGAAAGGCGACAAGCGCGAAGTGCCGGACTTCAACGTGTTCTTCCGCTACCACGCCACCTATCCCTATTACTCGGATGCCATCTGGTACCTGACCCAGATGCGCCGCTGGGGGCAGATCGGTGAAGCCAAGCCGGACGCCTGGTACCTCGACGTGGCCAAGCAGGTCTATCGCCCGGATATCTACAAGACCGCCGCCGCCGAACTGGTCGCAGAGGGCAAGGCCAAGGCCGACGACTTCCCCGCTGCCGATGAAGAAGGCTTCCGCGCACCCAGCGGCGACTTCATCGATGGCGTCACCTATGACGGGCGCAAGCCCAACGCCTACCTGGCGTCGTTCAAGATCGGCCTGAAAGACACCCAATGA	MSFHRRHFLRRALTGFGCITTLLLTPLSATFAAEPEKEELKLGFIKLTDMAPLAIAYEKGFFEDEGLFVTLEAQANWKVLLDRVIDGELDGAHMLAGQPLGATIGFGTKAEVITAFSMDLNGNGITVSNEVWEEMKKHLPMENGKPVHPIKADALRPVIDKYKAAGKPFNLGMVFPVSTHNYELRYWLAAGGINPGLYAPDKGDISGQIGADALLSVTPPPQMPATLEAGTISGYCVGEPWNQQAVVKGIGVPVITDYEIWKNNPEKVFGVSKAWAEKYPETHKRLVKALIRAAMWLDENGNANRPEAVEILSRPEYVGADAKVIANSMTGTFEYEKGDKREVPDFNVFFRYHATYPYYSDAIWYLTQMRRWGQIGEAKPDAWYLDVAKQVYRPDIYKTAAAELVAEGKAKADDFPAADEEGFRAPSGDFIDGVTYDGRKPNAYLASFKIGLKDTQ	PGPT0000585_176	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRTATE|NITRITE_TRANSPORT,PGPT0000585-nasF|nrtA|cynA-K15576	NA	NA
BMS010_03067	318			hypothetical protein	ATGAAGGACGTACTGCAACGCAAGGACAATGTGAGGCGGATGCCGTTGGACAAAGTCCGGGCCACGGTCGAGGAACTGCATCTGGAAGGTATCGTCACCGAGGGGCGCACACCCTTCTCCCGGGTGCACTTCAATACCTGCTTCGCCGAAATCGAGGACCTGCTTCGGCGCGCCGGCTATCACCGCCAACTGGAAGTGGTCGGCTACGAGGGACGGGCCTACGCCCTGTTCGACCCGACCCGCTGGGAAGCGGTCAAGGTGCTCCATTGGCTGAAGGAATATGTGGAAGAAGCGCAGATCCGCTCGGCGGTGCGCTGA	MKDVLQRKDNVRRMPLDKVRATVEELHLEGIVTEGRTPFSRVHFNTCFAEIEDLLRRAGYHRQLEVVGYEGRAYALFDPTRWEAVKVLHWLKEYVEEAQIRSAVR				NA	NA	NA	NA	NA
BMS010_03068	393			hypothetical protein	ATGCACCAGAAATTCATGACGATCGTGTTGTTGGTCCTGCTGGCAGGCTGTGTACAGCCCCGGGTGGATCAGCCGAAAGCCAATGGCGCCTATCTGGTGATCGATGGCGAGCGGGCTTGGGCGGTGCTGGTATCCGACGGGAAGCGCAGCGAGGAAAGCGGTCGTGTGCTGGAGGCGATCCGTCTGCCGGGGCGGCATTCGCTGGTGGCCGCCAGCTATGTGATCGAGACGGCAAACTGCGGCACCCTGCAATGGGTGACCGAACGGCAGGACAACGATGACGGAAGCACCCGGCTGATGTCGCTCTATGCCGGGCAACGGTTGGAAGCGCCCGAATGCGTACTGGCGCAGGGATTGGGGCGGACCTGGGCGGCGTTGGATTATTCGATCTGA	MHQKFMTIVLLVLLAGCVQPRVDQPKANGAYLVIDGERAWAVLVSDGKRSEESGRVLEAIRLPGRHSLVAASYVIETANCGTLQWVTERQDNDDGSTRLMSLYAGQRLEAPECVLAQGLGRTWAALDYSI				NA	NA	NA	NA	NA
BMS010_03069	1242	alaC_1	COG0436	Glutamate-pyruvate aminotransferase AlaC	ATGGCTGAACAACGTTCAGCGCGCCGTTTCGCGCGCATCGATCGACTTCCCCCCTACGTTTTCAACATTACCGCCGAGCTGAAGATGGCCGCCCGACGTCGTGGCGAAGACATCATCGACCTCAGCATGGGCAACCCGGACGGCGCCACCCCGCCGCATATCGTCGAGAAACTCTGCACCGTCGCCCAGCGCGAAGATACTCATGGCTATTCCACCTCGCGCGGCATTCCCCGCCTGCGGCGCGCCATTTCGCACTGGTACCGGGACCGCTATGCGGTGGACATCGATCCGGAAAGCGAAGCCATCGTCACCATCGGCTCCAAGGAGGGCCTGGCCCACCTGATGCTGGCCACCCTGGATCATGGCGACACCGTGTTGGTGCCCAACCCCAGCTACCCGATCCACATCTATGGCGCGGTGATTGCCGGCGCGCAAGTTCGCTCCGTGCCCCTGGTACCCGGCGTAGACTTCTTCGCCGAGCTGGAACGCGCCATTCGCGAAAGCATTCCCAAGCCGAAGATGATGATCCTCGGCTTTCCCTCCAACCCCACCGCGCAGTGCGTGGAGCTGGACTTCTTCGAGCGCGTGGTGGCGCTGGCCAAGCAATACGACGTCCTGGTCGTGCATGACCTGGCCTATGCCGACATTGTCTACGACGGCTGGAAAGCCCCTTCCATCATGCAGGTGCCAGGAGCCAAGGATATCGCCGTGGAGTTCTTCACCCTGTCGAAGAGCTACAACATGGCCGGCTGGCGTATCGGTTTCATGGTCGGTAACCGGGAACTCGTCGGGGCGTTGGCACGGATCAAGAGCTACCACGACTACGGCACCTTCACCCCGCTCCAGGTAGCGGCGATTGCTGCGCTGGAAGGGGACCAGCAATGCGTGCGGGACATTGCCGAGCAGTACCGCCAGCGGCGCAACCTGCTGGTCAAGGGGCTGCACGAAATCGGCTGGATGGTGGAGAAACCCAAGGCCTCGATGTACGTTTGGGCCAAGATTCCCGAACCCTATGCCCAGCTCGGCTCCCTGGAGTTCGCCAAGAAGCTGCTGGCCGAAGCGAAGGTTTGTGTTTCCCCAGGCCTGGGGTTCGGCGACTACGGCGACGATCATGTGCGCTTCGCCCTGATCGAGAACCAGGACCGCATCCGCCAGGCGCTCCGGGGCATCAAGAGCATGTTCCGAGCCGATGGATTGCTCCCCCCGTCGCCGGCCAAACCGCGCAAGGCGGAAGCCCGCTGA	MAEQRSARRFARIDRLPPYVFNITAELKMAARRRGEDIIDLSMGNPDGATPPHIVEKLCTVAQREDTHGYSTSRGIPRLRRAISHWYRDRYAVDIDPESEAIVTIGSKEGLAHLMLATLDHGDTVLVPNPSYPIHIYGAVIAGAQVRSVPLVPGVDFFAELERAIRESIPKPKMMILGFPSNPTAQCVELDFFERVVALAKQYDVLVVHDLAYADIVYDGWKAPSIMQVPGAKDIAVEFFTLSKSYNMAGWRIGFMVGNRELVGALARIKSYHDYGTFTPLQVAAIAALEGDQQCVRDIAEQYRQRRNLLVKGLHEIGWMVEKPKASMYVWAKIPEPYAQLGSLEFAKKLLAEAKVCVSPGLGFGDYGDDHVRFALIENQDRIRQALRGIKSMFRADGLLPPSPAKPRKAEAR				NA	NA	NA	NA	NA
BMS010_03070	1128			hypothetical protein	ATGTCGCATACTCTCGAAATCATCCCCACCCAGCGCCCCATGCGGATCGGCCTGATCGCCAAGTCGGCGTTACTGGGCAGTCTGCTATGCACGGACGCTTACGCCGAGCTTCACCCCAACACCCCGCCTGGAGGCAACTTCGCGCTGGAAAACTGGAACATCACCATTCCCGTCGACTCGACCGGCGGGGTCACCGGGAAACCCCTGACCATCTACCCCGCCAAACTGAGCGGACCCAATGGCTACAGCAATCGCCCGTACTTCTACACGGAAGCCGACGGCGCGATGACCATGTGGGCGCCATTGAACGGCGCCACCACCGGCGGCTCCGCACACCCGCGCTCGGAACTGCGCGAGATGATCGATCCGAGCACCAACGCAGTGAACTGGGACAGCTTCGGCACTGCCATCCTGGATGCCCAATTGAAGGTCATGCAGGTACCCCAGAAGGACGGCACCGTCATCGTCGGCCAGGTTCACGGACACGGCTCCGCTCCCTTGGTGCTGGTCTATTACAAGTACGACTTCGCCACCCAGACAGGAAAGGTCTTCACCAAGCTGCAAGGAACACCGGTCCAAGGTCCACCCTACTGGCACTACACCATTCTCTCGGGCGTCAAGCTCGGCCAGACCTTCACCTATCAGATCAAGGTCTCGCGCAACGGAAGCGACCCGGCGGTAGTCGCCGTTTCGGCCAACAACGGTACCCCGGCCACCATGGTCATGGACTCGTCGTGGGACACGGAGACCTTCTACTTCAAAGCTGGCTCGTACCTGCATACCTACGGCGACAGCAGCACGGATGGCGCCCTGGTGAAGTTCTATCGCCTGGCGACCAGCCACCCGGCTGACGGCCTGTACATCACCACCAATGCCGCACTGCCGAACGCCAAGGCCAACACGCCCTACAGCACCCAGCTTTCCTTCCGTGGTGGCATGGGGGGCGGGACCTGGTCCCTGGTCAGCGGGCATCCGCCGGCAGGGCTGACACTGAACCGCGACGGCAGTATCACCGGCACACCGGCCACCAGCGCCATCTCGTCGCAACCGAATGACTTCATGGTCAGGGTCACCGACGCCAACGGCGCCACCTATTCGAAGAAGTTTTCCATCATCGTCGGCTCCTGA	MSHTLEIIPTQRPMRIGLIAKSALLGSLLCTDAYAELHPNTPPGGNFALENWNITIPVDSTGGVTGKPLTIYPAKLSGPNGYSNRPYFYTEADGAMTMWAPLNGATTGGSAHPRSELREMIDPSTNAVNWDSFGTAILDAQLKVMQVPQKDGTVIVGQVHGHGSAPLVLVYYKYDFATQTGKVFTKLQGTPVQGPPYWHYTILSGVKLGQTFTYQIKVSRNGSDPAVVAVSANNGTPATMVMDSSWDTETFYFKAGSYLHTYGDSSTDGALVKFYRLATSHPADGLYITTNAALPNAKANTPYSTQLSFRGGMGGGTWSLVSGHPPAGLTLNRDGSITGTPATSAISSQPNDFMVRVTDANGATYSKKFSIIVGS				NA	NA	NA	NA	NA
BMS010_03071	579	pdtaR_3	COG3707	putative transcriptional regulatory protein pdtaR	ATGTTGCGAATCCTCCTGATCAACGACACACCCAAGAAGGTCGGGCGCCTGAAGGCCGCGCTGATCGAGGCCGGTTTCGATGTCATCAACGAGTCCGGGCTGACCATCGACCTGCCCGAACGCGTCGAAGCCATCCGCCCGGACGTGATCCTGATCGACACCGAATCCCCGGGACGGGATGTCATGGAACAGGTCTGCCTGGTCTCCCGCGATCAGCCGAGGCCGATCGTCATGTTCACCGACAACGACGATCCGGACGTCATGCGCCAGGCTATCCAGTCCGGGGTCAGTGCCTATATCGTCGAAGGCATCCAGGCGCAGCGCCTGAAGCCCATCCTCGACGTGGCCATGGTCCGCTTCGAAAGCGACCAGGCTCTGCGCGCCCAGTTGCACGCCCGGGACCAGCAACTGGCCGAACGCAAGCGTATCGAACTGGCCAAGGGCATGCTCATGCGCATGAAGAACTGCAGCGAAGAAGAGGCCTATACGCTGATGCGGCGCCAGGCCATGAGCCGCCAGCAGAAGTTGATCCAGGTGGCCGAACAGATCATCGCCATGAACGACATGCTCGGCCAATGA	MLRILLINDTPKKVGRLKAALIEAGFDVINESGLTIDLPERVEAIRPDVILIDTESPGRDVMEQVCLVSRDQPRPIVMFTDNDDPDVMRQAIQSGVSAYIVEGIQAQRLKPILDVAMVRFESDQALRAQLHARDQQLAERKRIELAKGMLMRMKNCSEEEAYTLMRRQAMSRQQKLIQVAEQIIAMNDMLGQ	PGPT0000400_736	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000400-nasR|nasT-K07183	NA	NA
BMS010_03072	1221	nrtA_4		Nitrate/nitrite binding protein NrtA	ATGATGGATGACCAAGCAGCACCCCGTAGCGACAGCCTGGCCTGGGTCGGCGGCAGCGATGCCCCGGAAAAAAGCGCGATCAACCTGGGCTTCATGGCCCTCACCGACTCGGCCTCATTGATCGTCGCGGCCACCCAAGGCTTCGCCCAACCCTATGGCCTGACGCTCAACCTGAAACGCCAAGCCTCCTGGGCCACCCTGCGTGACAAGCTGATCAGCGGTGAACTGGATGCCGCCCAGGGCCTCTACGGGCTGATTTACGCCGTCCATCTCGGCATTGGCGGCACTCCATCGGTCGATATGGCGGTGCTCATGGGACTGGCCCAGAACGGGCAAAGCATCAGCCTGTCCCATCGCCTGCAGGCTGCCGGCGTGATCACTCCCGAAGCGCTCGCCAAACGCGCGCACCAAGACGGTGCAAAGCTGACCCTGGCCCAGACCTTCCCCACCGGCACCCATGCCCTCTGGCTCTACTACTGGCTGGCCAGCCAGGGCATCCATCCGCTGAACGACGTGAACACCGTCGTGGTTCCGCCTTCGCAAATGGTCGCCCACCTAAAGGCCGGGCGTATCGATGGCTTCTGCGCCGGAGAGCCTTGGGGTGCCCAGGCGATCGCCGAAGGCATGGGCTTCACCCTGGCCACCACGCAATCGATCTGGCCGGATCATCCGGAAAAGGTGCTCGGCTGCACCCGTGCCTTTGTCGAAACCTACCCGAACACCGCGCGGGCACTGATCCTCGCCATCCTGGAAGCCAGCCGATTCATCGATTCGAGCGAAGAGAACAAGCGCAGTACGGCCCAGTTGCTCAGTGGCAGCGACTACGTCGACGCGCCCCTGCAGGCCATCCAGCCGCGCTTCCTCGGCCAGTACGAGGATGGCGTCGGCCACGCCTGGCTGGACCGGCACGCCCTTCGTTTCTTCGGCAATGGCACAGTCAACATGCCTTATCTCTCGGACGGCCTCTGGTTCATGACGCAATTTCGCCGCTGGGGCCTGCTCCGGGATGATCCCGACTACCTGGCCATTGCCCATCAGGTTCAACGACTCGATCTTTACCGCGAAGCGGCCGATATTCTTGGTATGGAAGTGCCCACTTCGCCCATGCGCAGCGCCACGCTGCTCGACGGCAAGGTCTGGGACGGTACCGACCCGGCCGGCTATGCACGCAGCTTCGAACTGCATGCGCTGACCGAAACCACTCGACCACTCGCACTCTGA	MMDDQAAPRSDSLAWVGGSDAPEKSAINLGFMALTDSASLIVAATQGFAQPYGLTLNLKRQASWATLRDKLISGELDAAQGLYGLIYAVHLGIGGTPSVDMAVLMGLAQNGQSISLSHRLQAAGVITPEALAKRAHQDGAKLTLAQTFPTGTHALWLYYWLASQGIHPLNDVNTVVVPPSQMVAHLKAGRIDGFCAGEPWGAQAIAEGMGFTLATTQSIWPDHPEKVLGCTRAFVETYPNTARALILAILEASRFIDSSEENKRSTAQLLSGSDYVDAPLQAIQPRFLGQYEDGVGHAWLDRHALRFFGNGTVNMPYLSDGLWFMTQFRRWGLLRDDPDYLAIAHQVQRLDLYREAADILGMEVPTSPMRSATLLDGKVWDGTDPAGYARSFELHALTETTRPLAL	PGPT0000405_160	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000405-nasS-K22067	NA	NA
BMS010_03074	210	ygdR		putative lipoprotein YgdR	ATGAAGCACTGGATCATCGCCCTCCTCTGCATGTTCGGCCTCGCCGGCTGCGCCAACGACTACATCATCGCCACCGTCGATGGCCAGATGCTTACCAGCGATGGCAAGCCGGAACTGGATGAGGACACGGGCATGCTGGAATTCGAAGACAGCGAAGGACGCAAACAGCAGATTCCGCAGTCCCAAGTGAAACAGATCATCGAGCGCTGA	MKHWIIALLCMFGLAGCANDYIIATVDGQMLTSDGKPELDEDTGMLEFEDSEGRKQQIPQSQVKQIIER				NA	NA	NA	NA	NA
BMS010_03075	2610	acnB_1	COG1049	Aconitate hydratase B	GTGCTTGAAGCCTATCGCAAACACGTAGAAGAGCGTGCCGCCCAGGGCGTCGTGCCCCAGCCGCTGAACGCCGAACAAACCGCAGGCCTGGTCGAGTTGCTGAAAAACCCGCCGGCCGGCGAAGAAGCCTTCCTGGTCGATCTGATCACCAACCGCGTCCCGCCGGGAGTCGACGAAGCCGCCTACGTCAAGGCCGGCTTCCTGTCCGCCGTCGCCAAGGGCGAAGCCACCTCCCCGCTGATCAGCAAGCAACGCGCCGTCGAACTGCTGGGCACCATGCAGGGCGGCTACAACATCTCCACCCTGGTGGAACTGCTGGACGACGCCGAGCTGGCCACTGCCGCCGCCGAGCAGCTCAAGCACACCCTGCTGATGTTCGATGCCTTCCACGATGTCGCCGAGCGCGCCAAGAAAGGCAACGCCGCCGCCAAGGCCGTGATGCAGTCCTGGGCCGATGGCGAATGGTTCGTCAACCGTCCCGCCGTTCCGGAAAAGATCACCCTGACCGTGTTCAAGGTGCCGGGCGAAACCAACACCGACGACCTGTCCCCGGCTCCGGACGCCTGGTCCCGTCCGGACATCCCGCTGCACGCCCTGGCCATGCTGAAAATGGCCCGCGACGGCATCGAGCCGGTCCAGCCGGGCTCCGTCGGCCCGCTGAAGCAGATCGAAGCGGTCAAGGCCAAGGGTTACCCGGTTGCCTACGTCGGCGACGTGGTCGGCACCGGCTCCTCCCGCAAGTCCGCCACCAACTCGGTACTGTGGTTCTTCGGTGACGACATCCCCTACGTGCCGAACAAGCGCGCTGGCGGTTTCTGCTTCGGCACCAAGATCGCCCCGATCTTCTACAACACCATGGAAGACGCCGGCGCCCTGCCGATCGAGTTCGACTGCACCAACCTGGCCATGGGCGACGTGATCGACGTCTACCCGATGAAGGGCGAAGTCCGCCGTCATGGCAGCGACGAGCTGGTCACCACCTTCCAGCTGAAGACCGACGTGCTGCTCGACGAAGTGCGTGCCGGTGGCCGTATTCCGCTGATCGTCGGCCGCGGCCTGACCGAAAAAGCCCGCACCGAACTGGGCCTGGCTCCGTCCACTCTGTTCAAGAAGCCGGAAGCGCCGGTCGACAGCGGCAAGGGCTTCACCCTCGCGCAGAAGATGGTCGGCCGTGCCTGCGGTCTGCCGGAAGGCCAGGGCGTGCGTCCGGGCACCTACTGCGAGCCGAAGATGACCACCGTCGGTTCCCAGGACACCACTGGCCCGATGACCCGCGATGAGCTGAAAGACCTGGCCTGCCTGGGCTTCTCCGCCGATCTGGTAATGCAGTCCTTCTGCCACACCGCTGCCTATCCGAAGCCCATCGACGTCACCACCCACCACACCCTGCCGGATTTCATCCGCACCCGTGGCGGCGTGTCCCTGCGTCCGGGCGACGGCATCATCCACAGCTGGCTGAACCGCATGCTGCTGCCGGACACCGTCGGCACCGGCGGTGACTCGCACACCCGCTTCCCGATCGGTATTTCCTTCCCGGCCGGTTCCGGCCTGGTGGCCTTCGCCGCTGCCACCGGCGTGATGCCGCTGGATATGCCGGAATCCGTGCTGGTGCGCTTCAAGGGCAAGATGCAGCCCGGTATTACCCTGCGTGACCTGGTGCATGCCATCCCCTACTACGCCATCCAGCAGGGCCTGCTGACCGTCGAGAAGAAAGGCAAGAAGAACATCTTCTCCGGCCGCATCCTCGAGATCGAAGGCCTCAATGACCTGACCGTGGAGCAGGCGTTCGAACTGTCCGACGCCTCCGCCGAGCGTTCGGCCGCCGGTTGCACCATCAAGCTGCCGGAAGAGTCCATCGCCGAGTACCTGAACTCCAACATCACCCTGCTGCGCTGGATGATCGGCGAAGGCTATGGCGATGCCCGCACCCTGGAGCGTCGTGCCCAGGCGATGGAAGCCTGGCTGGCCAATCCGAAGCTGCTGGAAGCGGACAAGGACGCCGAGTACGCCGCCGTCATCGAGATCGACCTGGCCGACGTGAAGGAGCCGGTACTCTGCGCTCCGAACGACCCGGACGATGCCCGCCTGCTCTCCAGCGTGGCCGGCGACAAGATCGACGAGGTGTTCATCGGTTCCTGCATGACCAACATTGGTCACTTCCGCGCCGCCGGCAAACTGCTGGACAAGGTCAAGGGCGGAATCCCGACCCGTCTGTGGCTGGCTCCGCCGACCAAGATGGACGCCCACCAGCTGACCGAAGAAGGCTACTACGGCATCTACGGCAAAGCTGGCGCGCGCATGGAAATGCCGGGGTGCTCGCTGTGCATGGGTAACCAGGCGCGCGTGCAGACCGGTTCCACCGTGGTCTCCACCTCCACCCGCAACTTCCCGAACCGTCTGGGCGATGCGACCAACGTGTACCTGGCCTCCGCCGAACTGGCGGCAGTCGCCTCGATCCTCGGCAAACTGCCGACCGTCGAAGAGTACATGCAGTACGCCAAGGACATCGACAGCATGGCTGCCGACGTCTACCGCTACCTGAGCTTCGACCAGATCGCCGAGTACAAGGAAGCGGCCGCCAACGCGAAGATTCCGGTCGTCCAGGCCTGA	MLEAYRKHVEERAAQGVVPQPLNAEQTAGLVELLKNPPAGEEAFLVDLITNRVPPGVDEAAYVKAGFLSAVAKGEATSPLISKQRAVELLGTMQGGYNISTLVELLDDAELATAAAEQLKHTLLMFDAFHDVAERAKKGNAAAKAVMQSWADGEWFVNRPAVPEKITLTVFKVPGETNTDDLSPAPDAWSRPDIPLHALAMLKMARDGIEPVQPGSVGPLKQIEAVKAKGYPVAYVGDVVGTGSSRKSATNSVLWFFGDDIPYVPNKRAGGFCFGTKIAPIFYNTMEDAGALPIEFDCTNLAMGDVIDVYPMKGEVRRHGSDELVTTFQLKTDVLLDEVRAGGRIPLIVGRGLTEKARTELGLAPSTLFKKPEAPVDSGKGFTLAQKMVGRACGLPEGQGVRPGTYCEPKMTTVGSQDTTGPMTRDELKDLACLGFSADLVMQSFCHTAAYPKPIDVTTHHTLPDFIRTRGGVSLRPGDGIIHSWLNRMLLPDTVGTGGDSHTRFPIGISFPAGSGLVAFAAATGVMPLDMPESVLVRFKGKMQPGITLRDLVHAIPYYAIQQGLLTVEKKGKKNIFSGRILEIEGLNDLTVEQAFELSDASAERSAAGCTIKLPEESIAEYLNSNITLLRWMIGEGYGDARTLERRAQAMEAWLANPKLLEADKDAEYAAVIEIDLADVKEPVLCAPNDPDDARLLSSVAGDKIDEVFIGSCMTNIGHFRAAGKLLDKVKGGIPTRLWLAPPTKMDAHQLTEEGYYGIYGKAGARMEMPGCSLCMGNQARVQTGSTVVSTSTRNFPNRLGDATNVYLASAELAAVASILGKLPTVEEYMQYAKDIDSMAADVYRYLSFDQIAEYKEAAANAKIPVVQA	PGPT0001470_457	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001470-acnB-K01682	NA	NA
BMS010_03076	513			hypothetical protein	ATGCCGGCCTGTTTCACCCCAAGCCATTCTTTTCCCATGTCCCAGCAACGCATCAAGACGCCCTGCGTCGGCCTGTGCTCCACCGTTTACGGCGACTTGGTGTGCCGTGGGTGCAAGCGCTTCCACCATGAGGTGGTGAACTGGAACCTTTATAACGACGAAGAGAAGCGCGCCGTCTGGCTGCGGTTGGAAAGCCTGCTGGTCCAGGTAATGCAGGCCAAGCTGGAAGTCTTCGATAGCCTGCGGTTGCGCCAGCAGCTGGAGCAGCGTCAGGTACGCTTCGTGCCAGAGCAGTCGCCGTACTGCTGGGCCTATCAGTTGATCGCTCGCGGGGCGCGGATGATCACCCAATTGGAGGCATACGGGGTCGCACTGATGCCGGAGTTCCGTGAGTGGCCGCTACCGGACCTGCGCGATGCCATCGATCGCGAGTTCTTCATCCTGTCCGAAGCGCATTACGAGCGCTATATCGCCCCGAAGTTTCTGCGCGACGGCATGGAGATTCGCGTCTAG	MPACFTPSHSFPMSQQRIKTPCVGLCSTVYGDLVCRGCKRFHHEVVNWNLYNDEEKRAVWLRLESLLVQVMQAKLEVFDSLRLRQQLEQRQVRFVPEQSPYCWAYQLIARGARMITQLEAYGVALMPEFREWPLPDLRDAIDREFFILSEAHYERYIAPKFLRDGMEIRV	PGPT0013210_21	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013210-ydhL-K06938	NA	NA
BMS010_03077	870	uspE_2	COG0589	Universal stress protein E	ATGCAAGCGATACGCAGCATTCTGGTGGTAATGGAGCCCGGGCAGACCGAAGGACTCGCGCTCAAACGCGCCAAACTGATCGCTGGAGTGACCCAGTCGCAGCTGCATCTCCTGGTCTGCGACAAGAAGCACGATCACTCGGCCTTTCTCAACGATGTCGCGACCAGCCTGCAACAGGAAGGCTTCACCGTTTCCAGCCAGCAGGCCTGGCACGAGAACCTGCATCAGACGATCATCGCCGTACAACAGGCCGAAGGCTGCGGTCTGGTGGTCAAGCAACACTTCCCCGACAATCCGTTGAAGAAGGCCCTCCTCACCCCCGACGACTGGAAGCTGCTGCGTTATTGCCCCGGCCCGGTATTGATGGTGAAGACCGAAAAACCCTGGCGCGGCGGTACCATTCTGGCGGCGGTGGATGTCGGCAACAGCGACGGCGAACACCGCACCCTGCATGCCAGCATCATCAGCCACGGTTATGACATCGCCGGCCTGGCCGAAGGCGAACTGCACGTCATCAGCGCCCATCCCGCTCCGATGCTGTCGGCGGCAGATCCGACCTTCCAGCTCAAGGAAACCATCGAGGCGCGCTACCGCGAGCAATGCCGGGCATTCCAGGCCGAGTACGACATCGCCGACTCACGCCTGCATATCGTCGAAGGTCCGGCCGACGTGCTGATCCCGCAGATCGCCCATCAGTTGCAAGCGGCGGTGACGGTCATCGGTACCGTGGCGCGGACAGGGTTGTCCGGTGCGCTGATCGGCAATACCGCCGAAGTGGTGCTGGATACGCTGGAAAGCGATGTCCTGGTACTGAAGCCGGACGAAATCATCGCCCACCTGGAGGAGCTGGTCGCACAACAGCACGCGTGA	MQAIRSILVVMEPGQTEGLALKRAKLIAGVTQSQLHLLVCDKKHDHSAFLNDVATSLQQEGFTVSSQQAWHENLHQTIIAVQQAEGCGLVVKQHFPDNPLKKALLTPDDWKLLRYCPGPVLMVKTEKPWRGGTILAAVDVGNSDGEHRTLHASIISHGYDIAGLAEGELHVISAHPAPMLSAADPTFQLKETIEARYREQCRAFQAEYDIADSRLHIVEGPADVLIPQIAHQLQAAVTVIGTVARTGLSGALIGNTAEVVLDTLESDVLVLKPDEIIAHLEELVAQQHA	PGPT0014995_869	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014995-uspE-K14055	NA	NA
BMS010_03078	603			hypothetical protein	ATGCAATTGTTGCCCGAAATAGAATCTTTCCTGCTGTGCCCAACGCCTGATGCCTGGATCGCCCAGGCCTTGCAGAATCAGGACATCCTGCTGATCGACCATGCGAACTGCGAGAAAAAGGCCGCGTCGACGGCGCTCAACCTGCTGTTTCGCTACGTGGAAAAAGCCGATCTGCAATACAAGTTGTCACGATTGGCCCGTGAGGAGCTTCGGCATTTCGAGCAGGTCGCGGCGTTGATGACGAAGCGGGGGATCGCTTATCGGCCGGTCAGCGCGGCGCTGTACGCGCAGCGCCTGCGTGGCCATGTGCGCTCCAGCGAGCCGGGAAAGCTGGTGGATACCCTGATCGTCGGCGCGTTCATCGAGGCGCGTTCGTGCGAGCGCTTCTTCCGCCTGGCACCTCATCTGGACGAAGAGCTGGCGCAGTTCTACCGTTCGCTGCTCAAGTCCGAGGCGCGGCACTACCAGGATTATCTGAAGATGGCCCGGGCGTATGCGGGCGGACCGATCGATGATCGTGTAGCGTTCTTCGCCGAGGTGGAGCGTGACGCCATTCTGATGCCGGACACCGAGTTCCGCTTCCATAGCGGTGCGGCGGCGTGA	MQLLPEIESFLLCPTPDAWIAQALQNQDILLIDHANCEKKAASTALNLLFRYVEKADLQYKLSRLAREELRHFEQVAALMTKRGIAYRPVSAALYAQRLRGHVRSSEPGKLVDTLIVGAFIEARSCERFFRLAPHLDEELAQFYRSLLKSEARHYQDYLKMARAYAGGPIDDRVAFFAEVERDAILMPDTEFRFHSGAAA	PGPT0007220_763	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007220-miaE-K06169	NA	NA
BMS010_03079	1338			hypothetical protein	ATGCCTTTCAGCAAGCTGCAAGTAGCCAAGTACCTTGGCCTTCCCGTCGTCATCGCCGCGCTCGGCTTCACCGCCTTCAACGGCATCTTCTTCTATAACGAGGCCGGTTTCTCCACCCATGTGCGGACGATCTTCGGCGAGGAAAAAGTAATCGATGACGTGGGCTACGCCACCAAATGGTTCGGTCGCGCTACGCCTTGGAAAAAAGCCCTCAGCGTGCAATCGGTACTCACCGAAGCGCTGGAAATCGACGATAACAGCGACAACGATTCCCTCGGCGCCACCATCGAAGCCTTCCCCATCGTTTTCCTCGGCAACGTCGACGCCAAGGTCGAGTCGTCGGCCCGCTTCCGCCTGCCCGGCGGCGATCAGTTCCTGAAGATCGCGCAGGAGTACCGCAACCCGGAAAACTTCATCAAGACCGCCCTGGTCCCGGCGATCAAGGAAACCCTGCAAGCCACCGCCTCGCTGATGAGTGCGGATGACTTCTACGCCGGCGCACGCAGTGAATTCGCCGCGGAATTCGAAAACCAACTGAACGACGGCCTTTATCTGATCAAGCGCAAGGAAGTGCGCGGTCCTCGCGGCCATGTCCCGCAGCAGACCGCCATCCTCCAGGCCGGCACCGAACAGGGCGCATTCGGCGATAACAGCGCCAGCCAGTTCATCACCGAGAAGGTGGTCGACAGCAAAGGCATCCCGGTACGCAAGCAACAGCAGTTCCGCAAATACGGCGTGGAAGTGGTGGAAGCCCGCATCACCAACGTCGACCCCAACCCGCAGTACAAGCAGCGGATGGTCAAGGTGCAGCAGGCCCTCGCCGAACTCGCCGTCGCTCGCCAGAACCGCCTGAAGGAAGAGGAAGAAAAGCTGCTGGTGACTGCCCGCGGCGAGAAAGAAGTCGAGGCACGCCGCCAGGAAACCCTGCGCGACCAGATCGAACGCACCACCCAGGCGGAAACCGAGAAGCAACTTGCGGTGATCAACGCCGAGCGTGAGAAGCAACGCGCCCAGATCGAAAAACAGACCGCCGAACTGCTACGCGACAAGGCCGCAATCACCGCCGAAGCGACCAAGATCACCGCCGACGCCGAGGCCCATGCCCGCGAGGCCGTCATCAAGGCGGACGGCGCGCTGCAAACCAAACTGGACGCACTGATCGCCATCAACAAAGTCTGGGCCGAGGCTGCCGCACAGGCACCGGTCCCCAGCGTGATGCTGGGTGGCAGCGGGCAGAACGGTGCCAGCAGCCGCCAGGACGAGATCGGTCAGTTGATGAGCGTGCTCGCCACCAAGGCGGCGCGGGACCTGGCGCTGGACCTGAAGGTCAAGGAATAA	MPFSKLQVAKYLGLPVVIAALGFTAFNGIFFYNEAGFSTHVRTIFGEEKVIDDVGYATKWFGRATPWKKALSVQSVLTEALEIDDNSDNDSLGATIEAFPIVFLGNVDAKVESSARFRLPGGDQFLKIAQEYRNPENFIKTALVPAIKETLQATASLMSADDFYAGARSEFAAEFENQLNDGLYLIKRKEVRGPRGHVPQQTAILQAGTEQGAFGDNSASQFITEKVVDSKGIPVRKQQQFRKYGVEVVEARITNVDPNPQYKQRMVKVQQALAELAVARQNRLKEEEEKLLVTARGEKEVEARRQETLRDQIERTTQAETEKQLAVINAEREKQRAQIEKQTAELLRDKAAITAEATKITADAEAHAREAVIKADGALQTKLDALIAINKVWAEAAAQAPVPSVMLGGSGQNGASSRQDEIGQLMSVLATKAARDLALDLKVKE				NA	NA	NA	NA	NA
BMS010_03080	726	lpxH_1	COG2908	UDP-2,3-diacylglucosamine hydrolase	GTGAGCGTCCTGCTTATTTCTGACCTTCATCTCGAAGAGGAGCGCCCGGACATTACCCGGGCGTTTCTGCTTTTCCTGAAGGAGCGCGCGCGCAAGGCCGAAGCGCTGTACATCCTCGGCGACTTCTTCGAGGCCTGGATCGGCGACGACGCCATGACGCCGTTCCAATGCTCCATTGCCCAGGCCCTGCGGGAACTGAGCGACTCAGGCACCCGTATCCATCTGATGCATGGCAACCGTGACTTCATGATCGGCGCGGACTTCTGCCGGAAAGCGGGCTGCACTCTCCTGCCCGATCCGTGCGTGATCGATCTGGACGGCGAGTCCGTGCTGCTGAGCCATGGCGACGCGCTCTGCACCCGCGACGTCGCCTACATGCGCCTGCGGCGCTGGCTGCGCAACCCGGTTTCGCTGTGGATTCTCCACCACCTCCCCCTGGCGACTCGCCACAAACTGGCGCGCAAGCTGCGCAAGGAGAGTCATATGCAGACTCGCCAGAAAGCCGCCGAGATCGTCGACGTCACCCCCGAAGAAGTGCCTCGCCTCATGGCTGAGCATAAGGTCCGCACCTTGATCCATGGGCATACCCACCGCCCGGCCATCCATGAACTGCACGTCGGCGGACAGGCCGCCCGGCGCATCGTGCTGGGAGACTGGGATCGCCAGGGCTGGGCCTTGCAGGTGGACGAACAAGGCTACCGACTGGCCCCCTTCGCTCTTTCCTGA	MSVLLISDLHLEEERPDITRAFLLFLKERARKAEALYILGDFFEAWIGDDAMTPFQCSIAQALRELSDSGTRIHLMHGNRDFMIGADFCRKAGCTLLPDPCVIDLDGESVLLSHGDALCTRDVAYMRLRRWLRNPVSLWILHHLPLATRHKLARKLRKESHMQTRQKAAEIVDVTPEEVPRLMAEHKVRTLIHGHTHRPAIHELHVGGQAARRIVLGDWDRQGWALQVDEQGYRLAPFALS	PGPT0022370_1690	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022370-lpxH-K03269	NA	NA
BMS010_03081	495	ppiB_1	COG0652	Peptidyl-prolyl cis-trans isomerase B	ATGATCAAGCTGCACACCAACCACGGCGTCATCACCCTGGAACTGTTCGAAGACAAGGCCCCCGAAACCGTGGCCAACTTCAAGGAATACGTGAAGTCCGGACACTACGACAACACCATTTTCCACCGCGTGATCGGCAACTTCATGATCCAGGGCGGCGGCTTCGAACCGGGCATGAAGCAGAAGTCGACTCGTGCACCGATCAAGAACGAAGCCAACAACGGCCTCTCCAACAAAGTCGGTACTATCGCCATGGCGCGCACCATGGAGCCGCACTCGGCCTCCGCGCAATTCTTCATCAACATCGCCGACAACACCTTCCTCGACCATAGCGCACCGACCGTCCAAGGCTGGGGTTATGCCGTGTTCGGCCAGGTGACCGAAGGCATGGACGTGGTCAATGCCATCAAGGGTGTCGCCACCACCATGCGCTCCGGCCATCAGGATGTGCCGGTTGACGACGTGATCATCGAGAAGGCCGAGATCGTCGAGTGA	MIKLHTNHGVITLELFEDKAPETVANFKEYVKSGHYDNTIFHRVIGNFMIQGGGFEPGMKQKSTRAPIKNEANNGLSNKVGTIAMARTMEPHSASAQFFINIADNTFLDHSAPTVQGWGYAVFGQVTEGMDVVNAIKGVATTMRSGHQDVPVDDVIIEKAEIVE	PGPT0015111_3846	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0015111-ppiB-K03768	NA	NA
BMS010_03082	1671	glnS	COG0008	Glutamine--tRNA ligase	ATGAGCAGCAAGCCAGAGACTCCCGCCGCTTCGAATTTCCTTCGCCAGATCGTCCAGGCCGACCTGGAATCCGGCAAGCACCAGAAGATCGTCACCCGTTTCCCGCCGGAGCCGAACGGCTACCTGCACATTGGCCACGCCAAGTCGATCTGTCTGAATTTCGGTCTGGCCCAGGAGTTCGGTGGCGAGTGCAACCTGCGTTTCGACGACACCAACCCGGCCAAGGAAGACCAGGAATACATCGACGCCATCAAGGCCGATGTGGAGTGGCTGGGCTTCAAGTGGGCCGGCGAAGAGCGCTATGCGTCGGACTACTTCGACCAGTTGCATGAGTGGGCCATCCACCTGATCAAGGCCGGCAAGGCCTTCGTCTGCGACCTGAATGCCGAGCAGATGCGCGAATACCGAGGCAGCCTGCACGAGCCGGGCAAGAACAGCCCGTTCCGTGACCGCAGCGTGGAGGAGAACCTCGACCTGTTCGCCCGCATGAAGGCCGGTGAGTTCCCGGATGGTGCCCGTTCGCTGCGCGCGAAGATCGACATGGCGTCGCCGAACATCAATCTGCGCGATCCGATCCTCTACCGTATTCGCCACGCCCACCATCACCAGACCGGCGATAAGTGGTGCATCTATCCCAGCTATGACTTCACTCACGGCCAGTCGGACGCGATCGAAGGCATTACCCACTCGATCTGCACCCTGGAGTTCGAGGATCACCGTCCGCTCTACGAATGGTTCCTGGAAAACCTGCCGGTGCCGGCGCAGCCGCGCCAATACGAATTTGCCCGGCTGAACCTGAACTACACCATCACCAGCAAGCGCAAGCTCAAGCAACTGGTGGATGAAGGCCACGTGAATGGCTGGGACGACCCGCGCATGTCGACGCTGTCCGGCTATCGCCGCCGCGGCTATACCCCGGCCTCGATCCGCACCTTCTGCGAGATGATCGGCGTCAACCGTGCCGGTGGTGTGGTGGATATCGGCATGCTGGAATTCGCCATCCGGGAAGACCTGGACGCCAACGCCGCGCGGGCCATGTGTGTGCTCAAGCCACTGAAGGTGGTGATCACCAATTATCCAGAAGACAAGGTGGAGCAACTCGAGCTGCCGCGCCATCCGAAGCAGGATATGGGCGTACGGGTACTGCCGTTCGCCCGTGAAATCTACATCGACGCCAGCGACTTCGAGGAAGTCCCGCCGGCCGGCTACAAGCGCCTGATCCCCGGCGGAGAAGTGCGCCTGCGCGGCAGCTATGTGATCCGCGCCGACGAGGCGATCAAGGACGCCGACGGCAGCATCGTCGAACTGCGCTGCTCCTACGACGAAAACACCTTGGGCAAGAACCCGGAAGGCCGCAAGGTCAAGGGCGTGATCCACTGGGTGCCGGTGGAAGGCAGCGTCGAGTGCGAAGTGCGTCTGTACGATCGCCTGTTCCGTTCGGCGAACCCGGAAAAGGCCGAGGAGGGCGGTAGCTTCCTCGACAACATCAATCCGGAATCCCTGGTCGTGCTGAAAGGCTGCCGTGCCGAGCCATCGCTGGCCAATGCCGCGCCGGAAGAGCGTTTCCAGTTCGAGCGCGAGGGCTACTTCGTCGCCGATCTGAAAGACAGTAAGCCGGGGGCCCCGGTATTCAACCGCACCGTGACCCTGCGCGATTCCTGGGGGCAATGA	MSSKPETPAASNFLRQIVQADLESGKHQKIVTRFPPEPNGYLHIGHAKSICLNFGLAQEFGGECNLRFDDTNPAKEDQEYIDAIKADVEWLGFKWAGEERYASDYFDQLHEWAIHLIKAGKAFVCDLNAEQMREYRGSLHEPGKNSPFRDRSVEENLDLFARMKAGEFPDGARSLRAKIDMASPNINLRDPILYRIRHAHHHQTGDKWCIYPSYDFTHGQSDAIEGITHSICTLEFEDHRPLYEWFLENLPVPAQPRQYEFARLNLNYTITSKRKLKQLVDEGHVNGWDDPRMSTLSGYRRRGYTPASIRTFCEMIGVNRAGGVVDIGMLEFAIREDLDANAARAMCVLKPLKVVITNYPEDKVEQLELPRHPKQDMGVRVLPFAREIYIDASDFEEVPPAGYKRLIPGGEVRLRGSYVIRADEAIKDADGSIVELRCSYDENTLGKNPEGRKVKGVIHWVPVEGSVECEVRLYDRLFRSANPEKAEEGGSFLDNINPESLVVLKGCRAEPSLANAAPEERFQFEREGYFVADLKDSKPGAPVFNRTVTLRDSWGQ				NA	NA	NA	NA	NA
BMS010_03083	1389	cysS_2	COG0215	Cysteine--tRNA ligase	ATGATGGCGCTGAGTATCTACAACACCCTCAGCAAGACCAAGGATGCCTTCAAGCCGCTGGTGGACAACCAGGTGCGCATGTACGTCTGTGGCATGACCGTCTATGACTTCTGCCACATCGGTCATGCGCGGGTCATGGTGGCCTTCGACGTAGTCGCCCGCTGGCTGCGCCATCGCGGTTATGACCTGACCTACGTGCGCAACATCACCGACATCGACGACAAGATCATCAAGCGTGCCAACGAGAACGGCGAGCCGTTCGAGGCGCTGGTGGAGCGGATGATCGCCGCCATGCACGAAGACGAGGCCCGTCTCAACGTGCTGCGGCCGGACATCGAACCGCGTGCCACGGCCCATATCGCCGGCATGCACGAGATGATCCAGACCCTGATCGACAAGGGTTACGCCTACGCGCCCGGCAACGGCGACGTGTACTACCGGGTCGGCAAGTTCGCCGGCTACGGCAAGCTGTCGCGCAAGAAGATCGAAGATCTGAAGATCGGCGCCCGCATCGAGGTGGACGAGATCAAGGAAGACCCGCTGGACTTCGTGCTCTGGAAGGGCGCCAAGCCGGGCGAGCCGAGCTGGGATTCGCCCTGGGGCAAGGGGCGCCCGGGCTGGCATATCGAATGCTCGGTGATGTCCACCTGTTGCCTCGGCGAGACTTTCGACATCCATGGCGGCGGTCCGGACCTGGTGTTCCCGCACCATGAAAACGAGATCGCCCAGAGCGAGGCAGCCACCGGCAAGCTGTACGCCAACGCCTGGATGCACGCCGGCGCAGTGCGTGTGGACGGCGAGAAGATGTCCAAATCGCTGGGCAACTTCTTCACGATCCGCGAGGTGCTGGAGAAGTACCATCCCGAGGTGGTGCGCTACCTGCTGGTCTCCAGCCACTACCGCAGCCCGATCAACTACTCCGAAGACAGCCTCAAGGAAGCCAAGGGGGCTCTGGAGCGTTTCTACCATGCGCTCAAGGGGCTGCCTCAGACCGAGCCGGCGGGTGGCGATGCGTTCGTCGAGCGCTTTGCCGCGGCGATGGACGATGACTTCAATACGCCGGAAGCCTGCGCCGTGTTGTTCGAAATGGTCCGCGAGGTGAACCGGCTGCGTGAGGCCGATCCTCAGGCCGCCGCCGCTCTGGCCGCGCGGCTGAAGGCGTTGGCCGGTTTGCTCGGCGTCCTGCAACTGGAACCCGATGCATTCCTGCGGGCCGGGGCGGAAGGCAAGGTCGATGCGGCGGAAGTCGAACGCCTCATCCAGGCCCGTCTCGATGCCCGTGCCGCCAAGGACTGGGCCGAGTCCGACCGTATCCGCGACCAGCTCACTGCCATGGGCGTGGTGCTGGAAGACGGCAAGGGCGGTACCACTTGGCGTCTGGCCGAGTGA	MMALSIYNTLSKTKDAFKPLVDNQVRMYVCGMTVYDFCHIGHARVMVAFDVVARWLRHRGYDLTYVRNITDIDDKIIKRANENGEPFEALVERMIAAMHEDEARLNVLRPDIEPRATAHIAGMHEMIQTLIDKGYAYAPGNGDVYYRVGKFAGYGKLSRKKIEDLKIGARIEVDEIKEDPLDFVLWKGAKPGEPSWDSPWGKGRPGWHIECSVMSTCCLGETFDIHGGGPDLVFPHHENEIAQSEAATGKLYANAWMHAGAVRVDGEKMSKSLGNFFTIREVLEKYHPEVVRYLLVSSHYRSPINYSEDSLKEAKGALERFYHALKGLPQTEPAGGDAFVERFAAAMDDDFNTPEACAVLFEMVREVNRLREADPQAAAALAARLKALAGLLGVLQLEPDAFLRAGAEGKVDAAEVERLIQARLDARAAKDWAESDRIRDQLTAMGVVLEDGKGGTTWRLAE	PGPT0002985_4771	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002985-cysS-K01883	NA	NA
BMS010_03084	285			hypothetical protein	ATGGTTACTCATTACAAGGTCGCCGGACACTTGGCCTGCGGCCGACACGGCAATAACCTGCCATCCACATTGCAGTTGGCCAAGGTGAAATGCCGCAATTGCCGTAACACCGAGGCATTCAAAGAGGCCCGCCGGGCAGAGCGCAACGCCGCACGACGTGCCGCCCGCAAGGCAAGCAAGGAGCACGTCGCCAATGACTGGCGCACAGCCTGGGAAAACAGACTCGCCGCCCTCCCCGGCCCACAGCGTTTGCCACGCGGCTTTGCCGATCAGCGATTCGTCTGA	MVTHYKVAGHLACGRHGNNLPSTLQLAKVKCRNCRNTEAFKEARRAERNAARRAARKASKEHVANDWRTAWENRLAALPGPQRLPRGFADQRFV				NA	NA	NA	NA	NA
BMS010_03085	438	lrpC_1	COG1522	HTH-type transcriptional regulator LrpC	ATGACCGACGAAATCGACCAAACCCTGATCGCCGCCCTGATGGAAGACTCCCGCCGCTCGCTCAAGGCACTGGCGCAGATCAGCGGCCTCTCCTCCCCCAGCGTCGCCGAACGCCTGCGCCGCCTGGAAGAGCGCGGCGTGCTCAAGGGCTACACCGTGGAGATCGACCCGCGTCACTTCGGCTACCAGCTGCAAGCCATCGTCCGGGTACGCCCGCTACCGGGCAGGCTGCACGAGGTTGAACGGCTGATCCAGGCCACCCCCGAATTCACCGAATGCGACAAGGTCACCGGCGAAGACTGCTTCATCGCCCGCCTGCACGTGCGCTCCATGGAACAACTGGACGAACTGCTCGACCGCATCAACGGCTACGCCGAGACCAACACCGCCATCGTCAAGAAGACTTCGGTAGCGCGGCGGTTGCCGCCGATGAACTGA	MTDEIDQTLIAALMEDSRRSLKALAQISGLSSPSVAERLRRLEERGVLKGYTVEIDPRHFGYQLQAIVRVRPLPGRLHEVERLIQATPEFTECDKVTGEDCFIARLHVRSMEQLDELLDRINGYAETNTAIVKKTSVARRLPPMN				NA	NA	NA	NA	NA
BMS010_03086	906			hypothetical protein	ATGGATAAAGCACTCAAACGCGGATCGCTGGAGATGGTTGCAGCGATGCTGATCTCCGGAACCATCGGCTGGTTCGTGCTGGTCTCGGGGCAGGCGGTGGTGGACGTGGTGTTCTGGCGTTGCCTGATCGGTGGCGCCATGCTGCTGGTGGTGTGCCGAGCACTCGGTATGTTGCGTGCCGATCTGCTGGGGCGTCGGGTGCTGGCTCTTGCGGTGCTCAGCGGGGTGGCCATCGTCGGCAACTGGTTGCTGCTCTTCGCTTCCTATTCCGGCGCATCGATTGCCATCAGTACGGCGGTGTACAACGTCCAGCCATTCATGCTGGTCGGGTTGGCGGCGCTCTTCCTGGGTGAGCGCATCACATCCGTGAAGCTGGCCTGGCTGGGATTGGCTTTTCTCGGCATGTTGGCCATCGTCAGTGCCCATGGTGGCTCGGCAGAGGGAGGCGGCAATTATCTGCTGGGCATCGCCTTGGCGCTCGGCGCGGCATTCCTGTACGCCATTGCGGCGCTGGTCGTGAAGCAACTGAGCGGCACGCCGCCCCACCTGATCGCACTGATCCAGCTCGTTACTGGCACCTTGATGCTGGCACCGCTGGCCAGCTTCGAGCTGCCGCAGCAGTCTGCCGCCTGGGCCAGCCTGATCACGCTGGGCATTCTGCATACCGGCGTGATGTACCTGCTGCTCTACGACGCGATCCAGAAACTGCCGACGGCACTGACGGGCGCGCTGTCGTTCGTCTATCCGATCGCGGCGATCTTCGTCGACTGGTTGGCCTTCGGCCATCGCCTGAGCCTGCTGCAATGGCTGGGTGTGGCGGCCATCCTGCTGGCGGTAGCCGGCATGCAGCAGGGCTGGAAAATCACCGGCTGGTTTTCGCCGAAGCCCGGTCGGGCCGGGTTGTAA	MDKALKRGSLEMVAAMLISGTIGWFVLVSGQAVVDVVFWRCLIGGAMLLVVCRALGMLRADLLGRRVLALAVLSGVAIVGNWLLLFASYSGASIAISTAVYNVQPFMLVGLAALFLGERITSVKLAWLGLAFLGMLAIVSAHGGSAEGGGNYLLGIALALGAAFLYAIAALVVKQLSGTPPHLIALIQLVTGTLMLAPLASFELPQQSAAWASLITLGILHTGVMYLLLYDAIQKLPTALTGALSFVYPIAAIFVDWLAFGHRLSLLQWLGVAAILLAVAGMQQGWKITGWFSPKPGRAGL				NA	NA	NA	NA	NA
BMS010_03087	1845	acoR_1	COG3284	Acetoin catabolism regulatory protein	ATGGCCGAACCTGCCCAGCTGCTGCATGACACCATCATTCGCGAATCCTGGAACCGTTGTCGCGACTACGGCCTGACCCACCAGACGCCCCCGAGCTTCGGCCGCCCTCCCCAAGGGGAAGTATCGGCGCTGCTGGAAAGCCATCGCGCCCTGGTGCAGACCACCCACCAGGAAGTCCTGCCCTACTACGAAAACATCCTCGCCAACTCCAACTGCCTCATCCTCCTGGCCGATAACCAGGGGCAGCTACTGCAATCCTGGGGCGACCGGCGCTTCGTCGAGCCCGCCTACGCGCCCGGCTTCGATGCAGGCGCCGGCTGGCTGGAGCGCCAGACCGGCACCAACGCTATCGGCACAGCCCTGGCGTGCGGACAGGCCGTACACATCCAGCGTGACGAGCATTTCCTCAAGGCCAATCGGTTCATGACCGGCTCCGCCTCGCCGATCTTCGATGCGCAGCGCCAGATGATCGGCGTGCTCGATGTTTCCAGCGACAGCTACCTGCCGCCTACCCATACCCTGGGAATGGTCAAGATGATGAGCCAGTCGGTGGAGAACCGGCTGATCCTCAACCTGTTCCGGGACCAGTATTTCCAGCTCACCTTCAACACCAGTCACGACAACCTGGACAGCCAATGGTCCGGCCTGCTGATGTTCGATGAGGACGGCCTCGTGGTTTCCGCCAATCGCCGGGCGGACAGCCTGCTCGGCGTAGGGCTGGCACGCGTAAGGGTGGAAAGCCTGTTCGACATACCGCTACAGCAACTCCTCGACCAACCGGAAGGCCAGCCCTTCCCTCTGCGCGCCGCCGGCCGCTACCGGTTCCAGGGTCTGCTCAAACGCCCGCAGAAACCACGTATCCAGGCCCGCGACTTCCGCCCCCAGCCCGTTGCCACAAAGAAGCAGGAAGGCTTTACCCTCGACTCGATCAACCTCGGAGATTCGCGGGTGGACAAGGCCGTGCGGCAAGCCCAGCGAATTCTGGAAAAGGACATCCCCATCCTGGTCCATGGCGAAACGGGGGTTGGCAAGGAGGTCTTCGTCAAGGCACTGCACCAGGCCAGCTCGCGGGCGGAGCAGCCCTTTATCGCGGTGAACTGCGCGGCCATTCCGGCGGAGCTGGTGGAGTCGGAGCTGTTCGGCTACGAAAAGGGGGCGTTCACGGGGGCCAATCAGAAAGGCAGCATCGGGCTGATCCGCAAGGCCGACAAAGGCACCTTGTTCCTCGACGAGATCGGCGATATGCCACTGAACGTACAGGCTCGGCTGCTGCGAGTCCTGCAGGAACGCAGCGTGCAGCCGCTGGGCGGCGGCGAGCCCTATCCGGTGAATATCCGCTTGATGTCCGCCACCAACCGTCTTCTCCGCCAGGACGTGGAGGCCGGACTGTTCCGCCAGGACCTCTATTACCGCGTCAGCGGTCTCAACCTCGAATTACCCCCCCTACGCGAACGTAGCGACAAGGCGGCGCTGTTCCAGCGGGTCTGGGACTACTATCGCGAACCCCAGCAATGGGCGGGCCTGAGCCGCGACGTGCTCGAGCTGTTCCAACGCCACCCCTGGCCCGGCAATCTCCGCCAGTTGAGCAGCGTGATCCAGGTGGCGCTGGCCATGGCCGATGACCAACCGATCCGCCCCGAGCATCTGCCGGACGACTTCTTCGCCGACCTGGAAGCAAACCAGGTCACGTCAATGCCGACGCACGAATACCCCAGCTCGCCCGGCACCGATCTGATCAGCCAATACCATGCCTGCGGCGGCAATGTTTCCCATCTGGCCCGCAGCCTTGGCGTGAGCCGCAACACGCTGTACAAGCGGCTGCGGGAGCAGGGATTGAAGGTCTGA	MAEPAQLLHDTIIRESWNRCRDYGLTHQTPPSFGRPPQGEVSALLESHRALVQTTHQEVLPYYENILANSNCLILLADNQGQLLQSWGDRRFVEPAYAPGFDAGAGWLERQTGTNAIGTALACGQAVHIQRDEHFLKANRFMTGSASPIFDAQRQMIGVLDVSSDSYLPPTHTLGMVKMMSQSVENRLILNLFRDQYFQLTFNTSHDNLDSQWSGLLMFDEDGLVVSANRRADSLLGVGLARVRVESLFDIPLQQLLDQPEGQPFPLRAAGRYRFQGLLKRPQKPRIQARDFRPQPVATKKQEGFTLDSINLGDSRVDKAVRQAQRILEKDIPILVHGETGVGKEVFVKALHQASSRAEQPFIAVNCAAIPAELVESELFGYEKGAFTGANQKGSIGLIRKADKGTLFLDEIGDMPLNVQARLLRVLQERSVQPLGGGEPYPVNIRLMSATNRLLRQDVEAGLFRQDLYYRVSGLNLELPPLRERSDKAALFQRVWDYYREPQQWAGLSRDVLELFQRHPWPGNLRQLSSVIQVALAMADDQPIRPEHLPDDFFADLEANQVTSMPTHEYPSSPGTDLISQYHACGGNVSHLARSLGVSRNTLYKRLREQGLKV	PGPT0001030_1682	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0001030-acoR-K21405	NA	NA
BMS010_03088	1095	ugpC_4	COG3839	sn-glycerol-3-phosphate import ATP-binding protein UgpC	ATGTCGTTAACGCTGGAGCATGTCAGCCGCATCGTCGATAACCAGATCTACATCGAGGATGCCTGCCTGAGCTTCGAGCCGGGCTCTTTCAATGTGCTGGTCGGTCGCACCCTGGCCGGCAAGACTTCCCTGATGCGCCTCATGGCCGGACTGGACAAGCCCACCAGCGGACGCATCCTGATGAACGGCGCGGATGTTACCGGTGTGCCGGTACGGCACCGCAACGTCTCCATGGTCTACCAGCAGTTCATCAACTACCCGACCATGACGGTGTTCGAGAACATCGCTTCGCCGCTGCGCCAGGCGGGGATGGACAAGGTGACGATCGAGCGCAAGGTGCGTGAAACCGCCGAGATGCTGCATATCGAGTCCTTCCTGGGCCGCTATCCGCTGGAGCTGTCCGGTGGACAGCAGCAACGCACGGCGATGGCGCGTGCGCTGGTCAAGGATGCCGATCTGATTCTTTTCGACGAGCCGCTGGTCAATCTGGATTACAAGCTGCGCGAAGAGCTTCGCCAGGAGATGCGTGAGCTGTTCAAGGCGCGTCGAACCATTGCAGTGTATGCCACCACCGAGCCCAACGAAGCGCTGGCCCTGGGCGGGACCACGACCATTCTCCACGAGGGGCGGGTGATCCAGAGCGGCAAGACCGCCGATGTCTATCACCGGCCCCAGCAGATGCTGGCCGCGGAGTTGTTCTCCGAGCCGCCGATCAACCTGATGCACGGGCGCATCGCCGACAACGAAGTCAGTTTCGAGGACTGCCTGCACTTTCCGTTGAACCCGGATCTGCGAGGCATCGGCGAAGGGGAGTACCGCTTCGGCCTGAGGCCCAGCCACATCGGCCTGGTGCCATCCAACGATGACGATCTGGAACTGGCGGTCACGGTGGAGCTGGCCGAAATCAGCGGATCGGAAACTTTTCTCCACGTGCGCAACGAGCATTTCACGCTGGTCCTGCATCTGCAGGGCGTCCACGAATACGACGTGGACGCGCCGATCCGTATCTACATCCCGACACACAAACTCTTTGTTTTCGAGCCGGCCGGCCGGCTGGTACAGGCGCCGAGTCGCCGCGTCCTGGGGGGTATCTGA	MSLTLEHVSRIVDNQIYIEDACLSFEPGSFNVLVGRTLAGKTSLMRLMAGLDKPTSGRILMNGADVTGVPVRHRNVSMVYQQFINYPTMTVFENIASPLRQAGMDKVTIERKVRETAEMLHIESFLGRYPLELSGGQQQRTAMARALVKDADLILFDEPLVNLDYKLREELRQEMRELFKARRTIAVYATTEPNEALALGGTTTILHEGRVIQSGKTADVYHRPQQMLAAELFSEPPINLMHGRIADNEVSFEDCLHFPLNPDLRGIGEGEYRFGLRPSHIGLVPSNDDDLELAVTVELAEISGSETFLHVRNEHFTLVLHLQGVHEYDVDAPIRIYIPTHKLFVFEPAGRLVQAPSRRVLGGI	PGPT0016815_361	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_GLYCEROL_TRANSPORT,PGPT0016815-glpS-K17324	NA	NA
BMS010_03089	1098	sugC_1	COG3839	Trehalose import ATP-binding protein SugC	ATGGCCGAGATTCGTTTGCAGAACCTGGCGCACAGCTACAGCGCCCGGCCTTCCGGCCCGGAAGACTATGCGATCCGCGCGATGACGCACATCTGGGAGCAGGGCGGTGCCTATGCGCTGTTGGGGCCCTCGGGCTGCGGCAAGTCGACATTGCTGAACATCATTTCGGGCCTGCTCAGCCCGTCCGAGGGGCAGGTGCTGTTCGATGGGAAGGAGGTCAATCACCTCACTCCGGAGAAGCGCAACATCGCCCAGGTTTTCCAGTTCCCGGTGATCTACGACACCATGACGGTGTACGACAACCTGGCCTTCCCGCTGCGTAACCAGGGGCTCCCCGAGGGGCGGATACAGAGCAAGGTGCATGAAATCGCCGAGGTGCTCGATCTTCATCCCCTGCTAAAGAGAAAAGCGCGCAATCTCACCGCAGACGAAAAGCAGAAGGTCTCCATGGGGCGCGGGCTGGTTCGTGACGACGTGTCGGCGATCCTGTTCGACGAGCCGCTGACGGTGATCGACCCGCACCTGAAGTGGAAGCTGCGGCGCAAGCTCAAGCAGATCCACGAGCAATTCAACATCACCATGGTCTATGTCACCCACGATCAGTTGGAGGCTTCCACCTTCGCCGACAAGATCGCGGTGATGTATGGCGGCCAGATCGTCCAGTTCGGTACACCGCGGGAGCTGTTCGAGCGGCCCACCCATACCTTCGTCGGCTTCTTCATCGGCAGCCCGGGAATGAATCTGTTCGAGGTGCGGCGGGAGGCGGATGGGGTTCGCTTCGGTGCCATTCATCTGCCGTTGCCGGAGGCGCTTCAGCACCGCCTGGACGGCATGCAGTACGAAAGCCTCAAGGTGGGCATCCGCCCGGAGTTCGTGCACGTCTGGGATGCGCCCTATGCCGAGGCGATGCAGGCCGAGGTCATGCACGTCGAGGATCTCGGCACCTACAAGATTCTGACCCTGCGCCTGGAAGGCCAGACGCTCAAGGCACGCCTGCAGGAGGATCGTCCCGTTCCGCAGGGGCAGGCCTACATCAGTTTCCCGTCGCAGTGGCTGATGCTCTATGCCGATGAATTCCTGGTGGAGGCGGGCGCATGA	MAEIRLQNLAHSYSARPSGPEDYAIRAMTHIWEQGGAYALLGPSGCGKSTLLNIISGLLSPSEGQVLFDGKEVNHLTPEKRNIAQVFQFPVIYDTMTVYDNLAFPLRNQGLPEGRIQSKVHEIAEVLDLHPLLKRKARNLTADEKQKVSMGRGLVRDDVSAILFDEPLTVIDPHLKWKLRRKLKQIHEQFNITMVYVTHDQLEASTFADKIAVMYGGQIVQFGTPRELFERPTHTFVGFFIGSPGMNLFEVRREADGVRFGAIHLPLPEALQHRLDGMQYESLKVGIRPEFVHVWDAPYAEAMQAEVMHVEDLGTYKILTLRLEGQTLKARLQEDRPVPQGQAYISFPSQWLMLYADEFLVEAGA	PGPT0016820_16	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_GLYCEROL_TRANSPORT,PGPT0016820-glpT-K17325	NA	NA
BMS010_03090	867	melD_2	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	ATGAACAAGATCGTCAACAACAAGGCCTGGTGGCTGGTCCTGCCGGTATTCCTGTTGGTGGCGTTCAGCGCCATCCTGCCGATGATGACCGTTGTGAATTACTCGGTGCAGGACATCTTCGATCAATCGACGCGCTTCTTCGTCGGTACCGACTGGTACAAGCAGGTACTGCGCGACCCCCGGTTGCACGACTCCCTGGGGCGCCAGTTCATTTTTTCGGCTTGCGTGCTGCTGATCGAAATTCCATTGGGAATCGCCATCGCCCTGACCATGCCGACCAAGGGGCGCTGGGCGTCGTTCTGCCTGATCGTCATGGCGATTCCGCTGCTGATTCCGTGGAACGTGGTCGGCACCATCTGGCAGATCTTCGGGCGCGCCGACATCGGGCTGCTGGGCTGGACGCTGAACAAACTGGGGCTGAGCTACAACTACGCCTCGAACACCATGGACGCCTGGGTCACGGTGCTGGTGATGGACGTCTGGCACTGGACCTCGCTGGTGGCGCTGCTCTGCTATTCCGGGCTGCGGGCGATTCCCGACGTGTATTACCAGGCGGCGCGCATCGACCGGGCATCGTCCTGGGCGGTGTTCCGCTACATCCAGCTGCCCAAGATGAAGAGCGTGCTGCTGATCGCCGTGATGCTGCGCTTCATGGACAGCTTCATGATCTATACCGAACCGTTCGTGCTCACCGGTGGCGGGCCGGGCAACGCGACGACCTTCCTCAGCCAGACGCTGACCAAGATGGCGGTGGGCCAGTTCGACCTGGGGCCGGCCGCGGCGTTCTCGCTGGTGTATTTCCTCATCATCCTGCTGGTGTCCTGGGTGTTCTACACCGCCATGACCCACTCCGATAAGAATCGCTGA	MNKIVNNKAWWLVLPVFLLVAFSAILPMMTVVNYSVQDIFDQSTRFFVGTDWYKQVLRDPRLHDSLGRQFIFSACVLLIEIPLGIAIALTMPTKGRWASFCLIVMAIPLLIPWNVVGTIWQIFGRADIGLLGWTLNKLGLSYNYASNTMDAWVTVLVMDVWHWTSLVALLCYSGLRAIPDVYYQAARIDRASSWAVFRYIQLPKMKSVLLIAVMLRFMDSFMIYTEPFVLTGGGPGNATTFLSQTLTKMAVGQFDLGPAAAFSLVYFLIILLVSWVFYTAMTHSDKNR	PGPT0016585_365	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_GLYCEROL_TRANSPORT,PGPT0016585-glpP-K17322	NA	NA
BMS010_03091	801	dasC_3	COG0395	Diacetylchitobiose uptake system permease protein DasC	ATGAATCTGCGCAAGCTTGTCGTGCTGGTGCTCTACGTGGTGTTTCTGCTCGTGCCGATCTACTGGCTGCTGAACATGTCGTTCAAGAGCAATACTGAAATCCTCGGCGGGCTGAGCCTCTGGCCGCACGACTTCACCCTGCGCAATTACCGGGTGATCTTCACGGACCCGAGCTGGTACGAGGGCTATCTCAACTCGCTCTATTACGTCTGCCTGAATACGTTGATCTCGCTGACGGTGGCGTTGCCGGCGGCCTATGCGTTCTCGCGCTATCGGTTCCTTGGCGACAAGCACCTGTTCTTCTGGTTGCTGACCAATCGCATGGCGCCGCCGGCGGTGTTCCTGCTGCCGTTCTTCCAGCTGTATTCGTCGATCGGCCTGTTCGATACCCACATTGCGGTCGCACTGGCGCACTGCCTGTTCAACGTGCCGCTGGCGGTGTGGATTCTCGAAGGTTTCATGTCCGGCGTGCCGAAGGAGATCGACGAGACGGCGTATATCGACGGGTACAGCTTTCCGAAGTTCTTCGTGAAGATTTTCATTCCGTTGATTGGCTCGGGAATCGGCGTCACCGCGTTCTTCTGCTTCATGTTCAGCTGGGTCGAGCTGTTGCTGGCACGCACCCTGACCTCGGTGAACGCCAAACCGATCGTCGCGGTGATGACCCGTACCGTTTCCGCATCCGGCATCGATTGGGGCGTGCTGGCTGCCGCGGGGGTGTTGACCATCCTGCCGGGCATGCTGGTGATCTGGTTCGTACGCAACCATGTGGCCAAGGGCTTCGCCCTGGGTCGCGTCTGA	MNLRKLVVLVLYVVFLLVPIYWLLNMSFKSNTEILGGLSLWPHDFTLRNYRVIFTDPSWYEGYLNSLYYVCLNTLISLTVALPAAYAFSRYRFLGDKHLFFWLLTNRMAPPAVFLLPFFQLYSSIGLFDTHIAVALAHCLFNVPLAVWILEGFMSGVPKEIDETAYIDGYSFPKFFVKIFIPLIGSGIGVTAFFCFMFSWVELLLARTLTSVNAKPIVAVMTRTVSASGIDWGVLAAAGVLTILPGMLVIWFVRNHVAKGFALGRV	PGPT0016810_415	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_GLYCEROL_TRANSPORT,PGPT0016810-glpQ-K17323	NA	NA
BMS010_03092	273			hypothetical protein	ATGGATTGGATGGCCTGGACTCTGCCCACCGCCGCGTTCTTCGGGAGTATTGCGCTGGTGTTGGTGAGCATGACTGTTTGGGAGTTGCGTTCGCCCTGTGTGGAGCGCAAGGGTTTTCTGCCGATCAGCACGACCCGTGGCGATCGGTTGTTCATCGGTCTTCTCGGTAGCGCCTACTTCCACCTGCTGGTGGTGGGCGTGACCGACTGGAGCACCTGGATCGCCTCCGTGCTGTCCCTGGTGTGGTTGTTTGCAGTGATGCGCTGGGGTTAG	MDWMAWTLPTAAFFGSIALVLVSMTVWELRSPCVERKGFLPISTTRGDRLFIGLLGSAYFHLLVVGVTDWSTWIASVLSLVWLFAVMRWG				NA	NA	NA	NA	NA
BMS010_03093	1743			hypothetical protein	ATGTTCGACAATAACAACAAGACCCGACATGGCATGGCACTGGCGGCCCTGCTCGCGATGTCCGGTCTGAGTGGCGCGGCCTGGGCCGACGCTTATGAAGACGCGGCGAAGAAATGGATCGAGTCCGAGTTCAACCCCTCGACCCTGTCCAAGGAAGAGCAGCTCAAGGAGTTGCAATGGTTCATCAAGGCGGCCGAACCCTTCCGTGGTATGGAGATTAACGTCGCATCGGAAACCATCGCTACCCACGAATACGAGTCCAAGGTTCTGGCCAAGGCGTTCAGCGAGATCACCGGGATCAAGCTCAAGCATGACCTGATCCAGGAAGGCGACGTGGTGGAAAAACTGCAGACTCAGATGCAGTCCGACAAGAACATCTATGACGGCTACGTCAACGACTCCGATCTGATCGGCACCCACTTTCGCTACGGCAAGGTGGTACCCATCAGCGACATGATGGCGGGCGACGGCAAGGACTACACGCTGCCGACCCTGGATATCAAGGATTTCATCGGCATCTCCTTCACCACGGGACCGGACGGCAAGATCTATCAGTTGCCCGACCAGCAGTTCGCCAACCTCTACTGGTTCCGTGCCGACTGGTTCGAGCGCCCGGAGCTGAAGGCGAAGTTCAAGGAAATCTATGGCTACGAGTTGGGCGTACCGGTGAACTGGTCCGCCTATGAGGACATCGCCGAGTTCTTCTCCAAGCATGTCAAGGAGATCGATGGCCAGCGCGTGTACGGCCACATGGACTACGGCAAGAAGGACCCGTCGCTGGGCTGGCGCTTCACTGACGCCTGGTTCTCCATGGCGGGCGCGGGCGACAAGGGCTTGCCCAATGGCCTGCCGGTGGATGAGTGGGGAATTCGTGTGGAAGGCTGCCGTCCGGTGGGTTCCAGTGTGGAGCGCGGTGGCGATACCAATGGCCCGGCGGCCGTCTTCGCCACCACCAAGTACGTCGACTGGCTGCGTCAGTACGCACCGCCGGAAGCGCAGGGCATGACGTTCTCCGAAGCCGGCCCGGTACCGGCGCAGGGCAACATCGCCCAGCAGATCTTCTGGTATACCGCGTTCACCGCGGACATGACCAAGCCCGGCCTGCCCGTGGTGAATGCCGATGGCACGCCCAAGTGGCGCATGGCCCCCTCGCCGAAAGGCCCGTACTGGGAAGAGGGAATGAAGCTGGGCTACCAGGACACCGGCTCTTGGACTTTCCTCAAGTCCACGCCCGAGAAGCGTCGCCTGGCTGCCTGGCTGTATGCGCAGTTCACCGTGTCGAAGACCGTATCGCTGAAGAAGACACTGGTGGGGCTGACACCGATCCGCGAGTCGGATATCAACTCCCAGGCAATGACCGAAGCGGCGCCGAAGCTGGGTGGCCTGGTGGAGTTCTATCGCAGCCCGGCCCGCGTGCAGTGGACGCCGACCGGCACCAACGTCCCGGACTATCCGCGTCTTGCCCAGCTCTGGTGGCAGTTCATCGCCGAAGCGGCCAGTGGCGACAAGACTCCCCAGGAAGCGCTGGATGGGCTGGCGGCGGCTCAGGACACCATGATGGCTCGTCTGGAGCGCTCCGGTGTGCAGGGTGAGTGTGGGCCTAAGCTGAACGAGCCGCGCGATCCGGAGTATTGGCTGAACCAGCCGGGTGCACCGAAGCCGAAGCTGGAGAATGAAAAGCCCAAGGGCGAGACCGTGAGCTACGACGAACTGGTCAAGTCCTGGCAGAAAGCCAACAAATAA	MFDNNNKTRHGMALAALLAMSGLSGAAWADAYEDAAKKWIESEFNPSTLSKEEQLKELQWFIKAAEPFRGMEINVASETIATHEYESKVLAKAFSEITGIKLKHDLIQEGDVVEKLQTQMQSDKNIYDGYVNDSDLIGTHFRYGKVVPISDMMAGDGKDYTLPTLDIKDFIGISFTTGPDGKIYQLPDQQFANLYWFRADWFERPELKAKFKEIYGYELGVPVNWSAYEDIAEFFSKHVKEIDGQRVYGHMDYGKKDPSLGWRFTDAWFSMAGAGDKGLPNGLPVDEWGIRVEGCRPVGSSVERGGDTNGPAAVFATTKYVDWLRQYAPPEAQGMTFSEAGPVPAQGNIAQQIFWYTAFTADMTKPGLPVVNADGTPKWRMAPSPKGPYWEEGMKLGYQDTGSWTFLKSTPEKRRLAAWLYAQFTVSKTVSLKKTLVGLTPIRESDINSQAMTEAAPKLGGLVEFYRSPARVQWTPTGTNVPDYPRLAQLWWQFIAEAASGDKTPQEALDGLAAAQDTMMARLERSGVQGECGPKLNEPRDPEYWLNQPGAPKPKLENEKPKGETVSYDELVKSWQKANK	PGPT0016805_194	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_GLYCEROL_TRANSPORT,PGPT0016805-glpV-K17321	NA	NA
BMS010_03094	855	folD_1	COG0190	Bifunctional protein FolD protein	ATGACCGCAAAACTGATCGACGGCAAAGCGATCGCCGCCAATCTCCGCCAGCAGATCGCCCAACGTGTCGCCGAGCGTCGCCAGCAAGGCCTCCGCGCCCCCGGTCTGGCAGTGATCCTGGTGGGGACCGATCCGGCCTCCCAGGTCTATGTCTCGCATAAACGCAAGGATTGCGAGGAAGTCGGTTTCGTTTCCCGCGCCTATGACCTTCCGGCCAGCACCACCCAGGCCGAGCTGCTTTCCCTGATCGACAGTCTCAATGACGACGCGACCATCGATGGCATTCTGGTTCAGTTGCCCTTGCCCGAGCACCTCGACGCCTCCCAATTGCTCGAGCGCATCCGCCCCGACAAGGACGTGGATGGCTTCCACCCCTATAACATTGGCCGCCTGGCCCAGCGCATGCCGTTGCTGCGCCCCTGCACCCCCAAAGGGATCATGACCCTGCTGCAGAGCACCGGTGTCGACCTCTATGGATTGCATGCGGTGGTCGTGGGCGCCTCCAACATTGTCGGTCGCCCGATGGCCCTGGAGTTGCTGCTCGCCGGCTGCACCGTCACCGTTACGCACCGTTTCACCAAGGATCTCGCCACCCATGTCGGCCTCGCCGATCTGGTGGTGGTCGCAGCCGGCAAACCCGGTCTGGTCAAGGGTGAATGGATCAAGGAAGGCGCTATCGTCATCGATGTCGGTATCAATCGCCAGGACGATGGCAAGCTGGTAGGCGATGTGGTTTATGAAACCGCCCTGCCCCGCGCCGGCTGGATCACTCCCGTTCCGGGTGGTGTCGGGCCGATGACGCGTGCCTGCTTGCTGGAAAACACGCTGTACGCTGCCGAGCATCTACACATTTGA	MTAKLIDGKAIAANLRQQIAQRVAERRQQGLRAPGLAVILVGTDPASQVYVSHKRKDCEEVGFVSRAYDLPASTTQAELLSLIDSLNDDATIDGILVQLPLPEHLDASQLLERIRPDKDVDGFHPYNIGRLAQRMPLLRPCTPKGIMTLLQSTGVDLYGLHAVVVGASNIVGRPMALELLLAGCTVTVTHRFTKDLATHVGLADLVVVAAGKPGLVKGEWIKEGAIVIDVGINRQDDGKLVGDVVYETALPRAGWITPVPGGVGPMTRACLLENTLYAAEHLHI	PGPT0008075_4084	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008075-folD-K01491	NA	NA
BMS010_03098	1098	xerC_3		Tyrosine recombinase XerC	ATGCCGTACAAACGACAGAACTCACCGTTCTGGTGGATCAGCTACAAGCAGGCAGATGGCAAGTACGTTAGACGCTCTGCTGGCACCGAGGACTACAGCGCAGCCAGGGCCATAGAGCAGAAGGAGCGGTCGAGAGCATGGAGAGAAAAGGAACTTGGCGTTAATCCGCCCAGGACCTTCGAGGAGGTGATGATCGAATATCTGCGCCATGCCAGCCAGCACCAGCGCAGTTTCGAGACAACACAGTACCGCGTGAAAGCATTGCGGGCTCATTTTGCTGGAACTGTGATGAATGATCTAGCCGGCCAGGACATCCGACAGTATTCCAACAAACGCCTGGAAGGCGGCGCCTCGATGGCCACCGTTAACCGAGAGCTGGCCGCGCTCTCAGCGGCGATCAACTGGTGCAATGTCGAGCGGGAATGGCAGCTACCAAACCCAGTGAGAGGGCGCACGCTGAAGGAGTCCGAAGGGCGCGTCAGGTGGATCACCAGGGCGGAAACTGAAGCACTGTGCCGGGCGGCGAGGAAACAGAGAAACGGAGAAATGCTGGAGGATTTCGTCCGGCTGGCGGTCAACACTGGGTGCAGGAGGGAGGAAATGTTGGGGCTGGAATGGCGACGCGTAGACCTGGCGGGCCGGTTGCTGATTCTGGAGGGGAAACACACCAAAGCCGGAAAACGCCGTAGCATCCCGCTCAATGAAGGGGCCTATGATGCGTTGCGCAACCGGCTGGCATATAGATCCAGCCACTGCCCGAACTCGCCATGGGTATTTGCCAGGCGCAACGGAGAGAGAGCAGAGAGCATCCGAGCTGGTTTCGAGTCGGCATGCGCCGCCGCCGGAATCAGCGATTTCCGCATACACGACCTCCGCCATACCTGCGCTGCATGGCTGGTGAGCGCCGGGGTGTCATTGATGGAGGTGCGAGATCTGCTCGGGCATTCTACGATCCAGATGACGGAACGCTACGCGCATCTAGCACCTGCGCGAGTAAGAAATGCGGTCGCGGTCCTGGACAATCCAGTGTCACATTCTCGCTACACAGAAGATCCAGAGCATCAAGGGGGGATTTCGTTAAAGCTCGTAAAGCACTGA	MPYKRQNSPFWWISYKQADGKYVRRSAGTEDYSAARAIEQKERSRAWREKELGVNPPRTFEEVMIEYLRHASQHQRSFETTQYRVKALRAHFAGTVMNDLAGQDIRQYSNKRLEGGASMATVNRELAALSAAINWCNVEREWQLPNPVRGRTLKESEGRVRWITRAETEALCRAARKQRNGEMLEDFVRLAVNTGCRREEMLGLEWRRVDLAGRLLILEGKHTKAGKRRSIPLNEGAYDALRNRLAYRSSHCPNSPWVFARRNGERAESIRAGFESACAAAGISDFRIHDLRHTCAAWLVSAGVSLMEVRDLLGHSTIQMTERYAHLAPARVRNAVAVLDNPVSHSRYTEDPEHQGGISLKLVKH				NA	NA	NA	NA	NA
BMS010_03099	297			hypothetical protein	ATGACCGCCTCCGCCGAAACCATCGACATGCGCGCCGAGAGCAAGGCGCGCCGGGCTCGGAACAAGGAGAACTCGCCGCGCATCCTGATGCAGCACGGTATCAAGTTTTCCGTCCACAACGACGGCGCTCACCTGATCGTCCGGCATGGCGAGCTGAAGGTCGATTTCTGGCCGGCAACTGGCAAGTACAAAACGAGGGTGCCGGGAAGTCGTTACGGGCGCGGCGTGTTCAACCTGATCAAAGAGCTGGGTTCATCAGGCTGCGGGCGGGAGTCGGCAGCAGTCGGCCAGCGATGA	MTASAETIDMRAESKARRARNKENSPRILMQHGIKFSVHNDGAHLIVRHGELKVDFWPATGKYKTRVPGSRYGRGVFNLIKELGSSGCGRESAAVGQR				NA	NA	NA	NA	NA
BMS010_03100	156			hypothetical protein	ATGGTCACCATTGGCATGGGCGTGATTCTGCACGCCCTCAGAAATCGCAAACCGCCTGCGGCCGAACTCATCACCATCGGAGTAGCAGCAGACCTCATGATCGGCGCCTCAATTGCTCTGGCGCTCACTATTGGCAGTTGTGGGATTGATGGTTGA	MVTIGMGVILHALRNRKPPAAELITIGVAADLMIGASIALALTIGSCGIDG				NA	NA	NA	NA	NA
BMS010_03101	528			hypothetical protein	ATGAGCAAGCCAAGCGGAAAACTTGCGTTCGCATATCGGAGCATCGCAAATCTCGAACAGAAAGTCTCCGATCTAGCCGCTGAGAACGAGCGCCTACGCGCTCAGGTCGCCGAGCGTGACGCCACCATTGAAGAATGGTCCGGCACGGCCGTGCATAACGCCATGGAGGTTGACCGCCTGAACGCCCGCATCGCCGAGCTGGAGTCCGGCACAGTAGACCCTGCGGATGTATGTGCTCTGGGACAAGAGTGCCATGAACTCCGCGCCGAGAACGAGCGGTTACACAAAACCTTTGATGATATGTGCAGAAAGGCTGCGTACTGGGCAGGCAAGGCGGCCGAGCTGGAGCGGGATGCGGAGAGATATCGGTGGCTTACTGATGACCACGAAAGCCGTGAGCAACGCGTAGCGCGTAACGATCTTTGTACGAGGTTGCCTGTGATGAGCTACAGCACTGCTTCTGCCGCCATCGACGCCGCACTCTCCGCACAGGGCTCCAGCACCAGCACAGCGCGGCAGGAGGAATGA	MSKPSGKLAFAYRSIANLEQKVSDLAAENERLRAQVAERDATIEEWSGTAVHNAMEVDRLNARIAELESGTVDPADVCALGQECHELRAENERLHKTFDDMCRKAAYWAGKAAELERDAERYRWLTDDHESREQRVARNDLCTRLPVMSYSTASAAIDAALSAQGSSTSTARQEE				NA	NA	NA	NA	NA
BMS010_03102	594			hypothetical protein	ATGAGCAATAAATTCGAGAAACCGTCTCTGCCGACTGAGACGAATGTGCGGTACTCCAACACCAGCCAGCACGCAGAGGTGGAAGGGGTGGAGGTTGTTGGTCATCTACTCGTTGGTGCCGTCGGCGGAAATGCAATCGACATTAGCCTGAACGACATAGTTGACTGCCAGCGGAGGTACGGCGGCGAGATTGTTGGCGTTATGACCGTCGTCCAGCACCATCGCATCCTGTCTGCCGTGACCGCCGAGCGGGATAGGCTGCTTGTTGAGAATAAGCGCTTTGTTGATGCGCTCGAAGTTGCAGCAGGAAAAGCGATTGCCGAGCGCGACCAGCTCCGCGCCGAGGTCTTGGAACTGCGTCAGGCGGCCGAGCAGCCTCCGTTTGCTCAGAAGGTCGTCGCGAAGCTGCGGCGCTTCGAGGAATGCTGTGATGATTCGGATTCGGGCGGCTCTGACATCGGTCGCCACTGGCTCGACCTGCTGACCCGGCTCGGCCTGCTGAATCGCGTCCAGCGCAGCCCGGCTATCTGGGAAATAACGGCTCAAGGCGAAGACGTGCTGGCCGCCATGGCTGCGAAGGAGGGTGATGTATGA	MSNKFEKPSLPTETNVRYSNTSQHAEVEGVEVVGHLLVGAVGGNAIDISLNDIVDCQRRYGGEIVGVMTVVQHHRILSAVTAERDRLLVENKRFVDALEVAAGKAIAERDQLRAEVLELRQAAEQPPFAQKVVAKLRRFEECCDDSDSGGSDIGRHWLDLLTRLGLLNRVQRSPAIWEITAQGEDVLAAMAAKEGDV				NA	NA	NA	NA	NA
BMS010_03103	225			hypothetical protein	ATGAGTGACTTGATTCCGTGCAGCGAGTACGACAGCCAGAACAATAAATGTCGCAGTGGCCACGTGCGCCTACATCCGATCTGCCGAGGCGTGGTGACTGGCTGTCCACACTGCGGCGTCGGCAACGTGCCGATGTGCATGATGGACGACCAGCCACCGCACCTTATCCGCAAGGATGGGATGCCACTTGGATGGCCGAGCAAGCAAGACGGAGATCGTCCATGA	MSDLIPCSEYDSQNNKCRSGHVRLHPICRGVVTGCPHCGVGNVPMCMMDDQPPHLIRKDGMPLGWPSKQDGDRP				NA	NA	NA	NA	NA
BMS010_03104	690			hypothetical protein	ATGAAGCCAGCCAACTACGCACCAATCTACGCCTGCGTCTACGCCCAGCTTGCGGAAGTAGCACGGTCGCACGGCTACGCACTATCGGTCCACGGCAGCCTCGCGGCCGACTTCGATCTGGTGTGCATCCCGTGGGCAATCGGAGTCAGTGATCCGCAGTCCGTGGTAGACGAGATCACCAGCCAGTTTGCTATCGAGCAGGTGACTGGCTTCGAGCAGAAGGAGCACGGGCGAATTGCAACGACTATCAGCTTCTCGTTCGGAGAGTGCCGGCTTGATCTGTCGTTCATTCCCTACGCCGCCCCCATCGCGCAGCCCGAGCAGGAGCCGGTGGCGTATCACTGCGAACACCGCCACAAGTGCAAGTGGCCAGTGGTTGGTGGCTGGCCATCCTTCGGTGACGGATACGGCCTCCTTCCGTGGAGGGACGAGCATGCTAATAGGTGCGGGGGCCGCCTTCTCAAGCTCTATACCGCCCCGCCTGCCGCCCAGGACGTGAGCGGATTGGTTGAGGCGCTGAAACCGTTTGCAGCAATCGCCGACGACTACGATGACGCCGAAGATGATAGCCATCAGATATTTGCTGATGCCATTTCTGAGACCAGCGTCCGCACAACTCTCGGACAACACAGAAAAGCCAGAGTCGCCCTCTCCGCCTATCAGGCAGCGCAGAAGGATGGTGGGGTATGA	MKPANYAPIYACVYAQLAEVARSHGYALSVHGSLAADFDLVCIPWAIGVSDPQSVVDEITSQFAIEQVTGFEQKEHGRIATTISFSFGECRLDLSFIPYAAPIAQPEQEPVAYHCEHRHKCKWPVVGGWPSFGDGYGLLPWRDEHANRCGGRLLKLYTAPPAAQDVSGLVEALKPFAAIADDYDDAEDDSHQIFADAISETSVRTTLGQHRKARVALSAYQAAQKDGGV				NA	NA	NA	NA	NA
BMS010_03105	1107			hypothetical protein	ATGACAAACGAATACGACGGGCGTAATGGCAACGGTTATCAGCCGTTGCCTAGCGAAAGCAAGGGGATTGCAGCGCCACCACGTGAGCGCGTTACTGACGCAGAGCTGGCAAGTCACGCCGCCAACAATCTGATTGCCGCAGAACAAACCATCGCCGAACTCCGCGCCCCGCTCGCCGCGCTGGAGGGGCAGGAGCCGGTGGCATGGACTGTGAGATGCGACCACGGCATTGAGGCCGATTGGTACGTCGGTAAAGAGCTGGACACGCTGCCTTTAGGCACCAAGCTCTACGCCAAGCCCGTCCCCGCCGAGCAGACAGTGGCGGTGCCGGATGGGTTTCGCGCCGTATCGACAGACTGGTTAAAGCGGATTCACCGCGACCTTGACGCATGCCAAAAACTCATCTGGGCCAACCTGCGCGGCTGTGATCCGGCGTATTGCGGCGATGCTCAAGCTCGCCTAGCCGAGATTGATGCCATGCTCGCCTCCGCCCCTCAGCCGCCATTGCAACAGGAATCCGACTGCCCTCACGGTGTAGACGACGGGGCGTGCAAGGAGTGTCATTTGGAGGGCGCGTGGACGTGCGACAACTGCGGTGCGACAACTGGCAAGTCCTGTAACACAAACGGCTGTTTCAAGAACGAGGCAGAGCCAGCCACGGTGCAGGATGCACTGCGTAAGCGCTTCGACGAGATCGAGTTCGAAGTGGCGCAAGGCAGGCACACAGCAGCGTCCGTATTCACGCAGATGCGCACAGCCGCCATGTCCACCCGCCCCGCGCAGACCGAGCAGTCCGCCGTCGTGCAGTTCGGCATCCGGGTCGAGAAACTATTGTGCAGCAAGCTGGGCATCGAATGGACCGCTACCGGAATCAGCATCGAGAGCCTGGTTGATCGGCTGGCCGAACGCGCAGCGCAGACCGAGCAGCAGCGGGCGGTGTTGCCCGAAGGCTGGAGCCTTAAGCGAGTCGATCCAGAAGATGGCGTCGGATTCATCATCGAATCACCGCGCAGGAATGGCGTCAGCAGCGGAGCGGCAATTTGGAGCGACGCCGAGAACCCCGCCGAGCAAATGCTGGCATTGATACTCGACAAGGTGACGAAATGA	MTNEYDGRNGNGYQPLPSESKGIAAPPRERVTDAELASHAANNLIAAEQTIAELRAPLAALEGQEPVAWTVRCDHGIEADWYVGKELDTLPLGTKLYAKPVPAEQTVAVPDGFRAVSTDWLKRIHRDLDACQKLIWANLRGCDPAYCGDAQARLAEIDAMLASAPQPPLQQESDCPHGVDDGACKECHLEGAWTCDNCGATTGKSCNTNGCFKNEAEPATVQDALRKRFDEIEFEVAQGRHTAASVFTQMRTAAMSTRPAQTEQSAVVQFGIRVEKLLCSKLGIEWTATGISIESLVDRLAERAAQTEQQRAVLPEGWSLKRVDPEDGVGFIIESPRRNGVSSGAAIWSDAENPAEQMLALILDKVTK				NA	NA	NA	NA	NA
BMS010_03106	210			hypothetical protein	ATGCACGGCATGACCGACTCCGCCCAGGTACGCCGGATCAACGAACAGTGCGCGGGCCGTCAGAACACGCAGCCCCTGGAGCGAGCCCTGGCACTGCTGCGCCGCGCGAACCGCTACGTAGGCGTTCACCCCTCCATCGGTGGCCAGAAGCTGGGCACCGAGATAACCGAATTCATCGCCGAGTTGACCCGGCAACGGAGTGACCAATGA	MHGMTDSAQVRRINEQCAGRQNTQPLERALALLRRANRYVGVHPSIGGQKLGTEITEFIAELTRQRSDQ				NA	NA	NA	NA	NA
BMS010_03107	324			hypothetical protein	ATGACGCGAATCTACATCGCCGGCCCGATGACCGGGCTGCCCAAATTCAACTATCCGGCCTTCTTCTCGGAGGCCAAACGCCGGCGCTCACTCGGCTATGAGGTCGAGAACCCGGCAGCCAACCCGCACCCACCATGCGGGTCATGGGCCGGCTATATGCGCCTGGCTCTCCGCCAGATGCTGACCTGCGATGCAGTCGCCCTGCTACCTGGATGGCAACAGTCCAGGGGCGCTCTGCTGGAACACACCGTAGCAATCGACCTCGGTATCCCGGCGCGGCCGGCAGCCGAATACCAGGGGGAACCGCAACCATGCACGGCATGA	MTRIYIAGPMTGLPKFNYPAFFSEAKRRRSLGYEVENPAANPHPPCGSWAGYMRLALRQMLTCDAVALLPGWQQSRGALLEHTVAIDLGIPARPAAEYQGEPQPCTA				NA	NA	NA	NA	NA
BMS010_03108	111			hypothetical protein	ATGACCCTCTCCTACCCATCCCTAACCCTGGATCTGGTCGCCGTTGCCTGCCTGCTCTCGCTGGTGGCCGGCATAGCGATCGGCATGGCCATCCCGAGGCGCCAGCCATGA	MTLSYPSLTLDLVAVACLLSLVAGIAIGMAIPRRQP				NA	NA	NA	NA	NA
BMS010_03109	612			hypothetical protein	ATGACTGACAAGCCCTTAAAAGCATTCGTCGTCGAGACCGACGACCCGGAAGAGGCAACCATCCAGTTCGCCACCACCAACGTCGCGGCACGCCGGCAAGGTGCAAACGAGATCGGGACCGACTTCATATCCGTGACCTGCAAGCGCCTGCCCTGGGCTGACGAGTTTGCCGGAAAGCCCATTCCGGCAAAGGCCTACATCGAGAATGGCTGGGTTATAGAGTGCGCCAATTGCGGCCAGCATGTCAGCGATGACATGACCGAGGACGATGACGGCAATCCACAGGTTCCAGTCTTTGAAGGCACGCACGCGTATTGCGGCCATGGCTGCAAAGAAGCACTCGAAGCGCAGATATCTGAGCAGAACGCCAAGTTCTGCGCTTTCGAGAAGCGCGTGCGCGAGGGTCGACCTGACCTCCAATACACGTCGTTCCGCGGGGCTTACCCCTATCTCCACATGACGGGCACCTTCATGTTCGAAGGCGCCCAATACGGTGGCTCGGTTCGAGATGAGGGCGACGGCGATCTGAAGTGGTATGTCGCTCAGGGTGACCAAGCGGCTTGGGAAGCCTACGAGCAGAGCCGCGCGGCGGCCAAGGCCGGCGCGCAATGA	MTDKPLKAFVVETDDPEEATIQFATTNVAARRQGANEIGTDFISVTCKRLPWADEFAGKPIPAKAYIENGWVIECANCGQHVSDDMTEDDDGNPQVPVFEGTHAYCGHGCKEALEAQISEQNAKFCAFEKRVREGRPDLQYTSFRGAYPYLHMTGTFMFEGAQYGGSVRDEGDGDLKWYVAQGDQAAWEAYEQSRAAAKAGAQ				NA	NA	NA	NA	NA
BMS010_03110	708			hypothetical protein	ATGAACGAAGCCATGGGACCCATCGACCCAATCACTGCCGCCCTGATCATGGGCAGGCGGCCTGATCCATGCGAGCCCATTATCGAAATCTCGCGCAAGGTGCTGACTAGGCTGATGGATGTTGTCGAGTTCGGCGACAAGCTTGAGCGCGTCGAGAAGGACCGGCTACTTGCTCTCCTGAAAGACATGCTGGCCGAACAGCAGCCAGAACTCTGGGCCATGCACTGCGTCGGTCCTTGCGAAGTGCACCCGATGATCTCGAAAGAGGAAGCCGATCGGAACGCGGCTGAGCTGATCGCGCTTTGCAAAGAACGCTGTCCAGACGTGCCGATCACCGTGGACGTGATCCCCTCGCCGTTCTCACCGCTCGAGCATTTCGAGATTCTGGCAGAAGAGCTGGCCGAGCAGGTGGCAAGTCTGCGCCAGGCCCTGGATAAGAAGAACGCTGTCGATGAGCAAGCGCTGATCGCATACCAGGTCGGCGACAACGACATCGTGGCCGCCTACGACCCCGCCGGCGCCATCCAAGTGCTGGTTGATTTCGCCGGCTATGGCGATGACTTCGACGTGGAGCCAGTCAGCGACAAGGTGCTGGATGCCACCGAGGTCTTCGACCAGGACGAAGGCAAGGCCATCACCCTCGATAAGACCCTGCGCCAGCAGCTCGCCGAGCTGACTGAGCCCGCCTACCTGCACGGGTGGGAGTGA	MNEAMGPIDPITAALIMGRRPDPCEPIIEISRKVLTRLMDVVEFGDKLERVEKDRLLALLKDMLAEQQPELWAMHCVGPCEVHPMISKEEADRNAAELIALCKERCPDVPITVDVIPSPFSPLEHFEILAEELAEQVASLRQALDKKNAVDEQALIAYQVGDNDIVAAYDPAGAIQVLVDFAGYGDDFDVEPVSDKVLDATEVFDQDEGKAITLDKTLRQQLAELTEPAYLHGWE				NA	NA	NA	NA	NA
BMS010_03111	1170			hypothetical protein	ATGATGGCAACCAGAACAACAACGACAAGAACAACGAGTTCCGCGTCCGGCCCGTCCGCAGATTCGACAGCGGTACCCTTTCCGTTCCAGGACCTAGTCCAGGCCTACTACGATTGCCGGCGCTCGAAGCGCAACAGCGCCAGCGCGCTGGCATTCGAAGAGCACCTGGAGCGGAACCTTATCCAGCTGCAGGACGAGTTGCTCACCGGCACGTACCGGCCAGGGCGCTCGATCTGCTTCGTCGTCACTCGTCCGAAACCCAGGGAGGTATGGGCCGCAGAGTTCCGGGACAGAATCGTCCACCACCTGTTATACAACCACATTGGCGCTGGCATCGAGGCCACCTTCATAGCCGACAGCTGCGCTTGCATCCCGGGACGCGGCACGCTGTACGCCGCGACAAGGCTTGAGTCGAAGATCAGGAGCGCCAGCCAGAACTGGTCACGCCCGTGCTGGTACCTGAAGCTCGACTTGGCAAACTTCTTCGTGGCCATCAATAAACAGGTGCTGGCCAGCCAACTGGCGGCCAAGATCGCCGAACCGTGGTGGCAATCGCTCGCTCTGCAGGTGCTCTGGCATGACCCACGCGAAGACTACGAAGTCCGAAGCCCTCGGCATCTGTTCAACCGGGTACCGCAGCACAAACGCCTGACATCACAACCGGCACACCTCGGTTTGCCGATCGGCAACCTGTCGTCGCAATTCTTCGCCAACGTCTACCTAGATGCGCTTGATCAGTTCGTGAAGCACCGGCTCCGCTGTAAGTACTACGTGCGATACGTAGACGACTTCGTGCTGCTTCATGAATCGCCACAGCAACTCAACGCCTGGCTGGCACAGATCAATGAGTTTCTGCCCAGCCTCAGCGCCCGGCTCAACCCGAAGAAAACCATCCTGCAGCCGGTAGACCGTGGTGTCGATTTCGTCGGCCACGTCATCAAGCCCTGGCGTAGGACTACCCGTAAACGTTCGGTTGCACAGGCGCTACGCCGAACAGCTACGGCTGCACCAGAAAACCTGATGGAAACGGCGAACAGCTATTTCGGACTGCTCCGTCAGGCCAGCCACAGCGAAAAAGACCGAGCAAAGCTGGCGGCGATCGTGCTTCGCCGCGGACGCGCCGTGGACGGTCAGCTCACCAAGAGCTACCGCACACGCCATCACGATTGA	MMATRTTTTRTTSSASGPSADSTAVPFPFQDLVQAYYDCRRSKRNSASALAFEEHLERNLIQLQDELLTGTYRPGRSICFVVTRPKPREVWAAEFRDRIVHHLLYNHIGAGIEATFIADSCACIPGRGTLYAATRLESKIRSASQNWSRPCWYLKLDLANFFVAINKQVLASQLAAKIAEPWWQSLALQVLWHDPREDYEVRSPRHLFNRVPQHKRLTSQPAHLGLPIGNLSSQFFANVYLDALDQFVKHRLRCKYYVRYVDDFVLLHESPQQLNAWLAQINEFLPSLSARLNPKKTILQPVDRGVDFVGHVIKPWRRTTRKRSVAQALRRTATAAPENLMETANSYFGLLRQASHSEKDRAKLAAIVLRRGRAVDGQLTKSYRTRHHD				NA	NA	NA	NA	NA
BMS010_03113	357			hypothetical protein	ATGGCCATGCATACAGACTTGCCAATTCACAAAGTCGCTTTCGACCTGCTCAGTCTCGCCACCGACGTAACGCGGAACATCCCGCGAGACTTCAAGGCTGGTCTGGGCGCCAAGGTTCGCGACGAGTGCATAGAGGTAATGGTGTTGATCGCCAGGGCCAACGCAGCCAGGGAGAAGCAGCAGCACCTGTCAGTGCTAGTCGAGCGCGTGCAGGTGATCGAATTTCTTCTCCGGCTTTTCAAGGAAAAGCGGTTCATCAGCGTCAAGCAGCACGCCGACGCAATCCAGCTCACCGCCTCCATCGGCAAACAGGCCAACGCCTGGAAACGCTATACCGCAACCGCGCCCGCTACCTGA	MAMHTDLPIHKVAFDLLSLATDVTRNIPRDFKAGLGAKVRDECIEVMVLIARANAAREKQQHLSVLVERVQVIEFLLRLFKEKRFISVKQHADAIQLTASIGKQANAWKRYTATAPAT				NA	NA	NA	NA	NA
BMS010_03114	606			hypothetical protein	ATGCAAGCAGCACAGGTAAACCCTATCGCTCTCCAGATTGGCCAGGCCTACGGCGGCGGCTTCGTCACCGGCTTCTATCAGCAGGATGGCAAGCACTATGCCGTAATCACCGCCCCGGCTGCCTACGAGCTGTTTGGCGCATGGGGCGTGCACGGACAGAAAGTCGAGGGCGCCAGCAGCCTCACAGATAGTCGCGCCAATACCGCCGCCATGGCCGCAGCCGGCAGCGAGCTGGCCAAGCAGGTTCTGGACCTGAACATAGGCGGCTACACCGACTGGGCGATTCCGGCGCGCGACGTACAGGAGCTGCAGTATCGCCACTTCAAACCGACCACCGACCAGAACTACGCCTGGAACCGCGACGGCGAGAATAACTCCAGCGTGCCACCTGGCGAGCTGTACAGCGAGGAATCGCCGGTACAGACCACCTTCGAAGTGTTCAAGGCTGGCGGCCAAGAGGCATTCCAGCCGCGAGCGTACTGGAGCAGCTCGCAGCGCTCCGCCATCAACGCCTTCGGCATGCTCTTCGATGATGGCGGCCAGGACAACACCGTCAAGGTCTACGAGTTCCGCGTCCGGCCCGTCCGCAGCGAGCTTATTCAGTAA	MQAAQVNPIALQIGQAYGGGFVTGFYQQDGKHYAVITAPAAYELFGAWGVHGQKVEGASSLTDSRANTAAMAAAGSELAKQVLDLNIGGYTDWAIPARDVQELQYRHFKPTTDQNYAWNRDGENNSSVPPGELYSEESPVQTTFEVFKAGGQEAFQPRAYWSSSQRSAINAFGMLFDDGGQDNTVKVYEFRVRPVRSELIQ				NA	NA	NA	NA	NA
BMS010_03115	603			hypothetical protein	ATGAAACCCGAAATGGTCACCCTGAAAGTTGGTCAAGCCAGCATCAAGATGCCGGCCAGCGTCGTCGCTCAATCCGTCCTCGCGGGGGTGCTCACCAATCTGCAGCAGGTACCTGCACCACTCGCCATTGCTGCGCCTGACTCGATCCCTCCGCTTGGGTCCTATTGGCCCGAACGAGGCGGCCACAACGGCGGATTCGTGCCAGCCCGAGAGGGTGTGCCGGCTCACTACCTGATAATCGCCACCCAGGACGTTGGCTCGCATGCCTGGGGCGGAAGCGGAAAGGACTCCGGCGCCACCAGCAAGTGGGATGGGCTGGTGAACACCAAGGTCTTGCTGGACGAGGGTGACCATCCAGCGGCCAAGGCCTGTGCCGAATACCAAGCCGACGGCCACAGCGACTTCTACCTGCCTGCTGCCGCCGAGCTGTATCAAGGCTGGCTATTCAACCCTGACCTGTTCGCGAATGACTGCTGGTACTGGAGCAGCTCGCAGCGCTCCGCCCTCATCGCCTTCATCATGCTCTTCGATGATGGCAACCAGGACACCCTCGCCAAGAACTTCGAGTTCCGCGTCCGGCCCGTCCGCAGACATTTCATTTGA	MKPEMVTLKVGQASIKMPASVVAQSVLAGVLTNLQQVPAPLAIAAPDSIPPLGSYWPERGGHNGGFVPAREGVPAHYLIIATQDVGSHAWGGSGKDSGATSKWDGLVNTKVLLDEGDHPAAKACAEYQADGHSDFYLPAAAELYQGWLFNPDLFANDCWYWSSSQRSALIAFIMLFDDGNQDTLAKNFEFRVRPVRRHFI				NA	NA	NA	NA	NA
BMS010_03116	237			hypothetical protein	ATGAGCTGGTACAGCAGTAGCTGGCAGCACATGGCCAACGTGCACCAGCAGGCCCAGGTCGACGGCGTGGACGCTGCCGGCATCGCCAAGGCCATCGACGACTCCTACCCGTACAGCGATCGCTCTGGCTGGGCCTACAAGGCTTGGCTTGATGCGCGGCGCGACTTCTTCAGAAAGCACTGCCTGCCGTTGCGGCGGGCGAAGAAACACGAGAGCGACTTGCTCTCTTCCATTTGA	MSWYSSSWQHMANVHQQAQVDGVDAAGIAKAIDDSYPYSDRSGWAYKAWLDARRDFFRKHCLPLRRAKKHESDLLSSI				NA	NA	NA	NA	NA
BMS010_03117	939			hypothetical protein	ATGCGCCGGGATCATTCGCCGAGCCGAGAAACGCGGAAAAACCTTGCCGGAACCCTTGCGGGCGGCGCTCGAAAGCGGGGCGGGTATAGCACCGATGACATCCCTCTGACGACAGCCAGCCTTGATGCGTCGTATGGGAGGCTGTACGGCTGCTCTAATCAGGATCTCAATCACGGATGCAGCACCTTGGTTGCGTTCGGCGGAAACAATCAATCCGGCCCAATAGACGTGGCCACAGCTCGCAACGCATGCGCCAGCGCCAGCGGGAGGATGGACTTCGAGAGTGAGACATTCGTTGTTCACGGCAGCCATGACCCGTGTGTTCAGGTTGACCAAGCGCACACGCTGGGCCGCAACAGCGGCCAAGAGAATGCGGTGTTGGCGTTTTCCTGCAAGGACTACGGCGCCGACGCTCCGCGCCATGGGTCACGGCGAAAGCCACGCCAATGCCGGCGGCCAGGCGCTGTCTGCATCACTGGCGATGTCACCCATACGCTGAAGGCCGAGGGGTTTGATGCAAGCGAGGATGGCACTGGGCGAGGGCAGCCTATCATTTCGGTTTCGCTCCGAGGTCGAGATGGCGGTGGAACCATTGAGGCCGGAGAGGAGATCGCTACCTGCTTGCGTGCAAGTTGCGGCGGCGGTGATAAGCCACATGCCCTTGTCCATTCCGCTGTTCGGCGACTAACGCCAAGGGAAACGGAGCGCCTTCAGGGCTTCCCTGACGACTACACGCTGATCCCCACCGAGCGGGCCCGCCAGATCGAGGCGGACGTCTATGCATACCTGCGCCAGACCTACCCAACTATGACGGAGGATGAAGCTCGACGGCTCGCTGCCGACGGCCCGCGCTACAAGGCCATCGGCAACAGCAAAGCTGTTCCTGTCGTTCGCTGGATCGGTCGCCGCATCCAGCGTGAACTGGAGCGTGTGTCATGA	MRRDHSPSRETRKNLAGTLAGGARKRGGYSTDDIPLTTASLDASYGRLYGCSNQDLNHGCSTLVAFGGNNQSGPIDVATARNACASASGRMDFESETFVVHGSHDPCVQVDQAHTLGRNSGQENAVLAFSCKDYGADAPRHGSRRKPRQCRRPGAVCITGDVTHTLKAEGFDASEDGTGRGQPIISVSLRGRDGGGTIEAGEEIATCLRASCGGGDKPHALVHSAVRRLTPRETERLQGFPDDYTLIPTERARQIEADVYAYLRQTYPTMTEDEARRLAADGPRYKAIGNSKAVPVVRWIGRRIQRELERVS	PGPT0020015_1415	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_R-M_SYSTEM,PGPT0020015-dcm-K00558	NA	NA
BMS010_03118	471			hypothetical protein	ATGACCGCCTACGGCAGCGTGTGTAGCGGCATCGAGGCCGCCACGGTCGCTTGGCATCCGCTGGGCTGGCGTGCGGAATGGTTCGCAGAGATCGAGCCGTTCCCCTCGGCGGTGCTCGCGCACCGCTGGCCCGAGGTTTTCAACCTGGGTGACATGACCAAACTGGCCCGCCAAGTGCTGGCCGGCACCATTACCGCGCCGGATGTTCTGGTGGGTGGCACGCCCTGCCAGGCCTTCTCTGTCTCCGGCATGCGCGCCGGCCTCGACGATCCGCGCGGCCAACTCACTATCAAATACGTGGAGCTTGCAGATGCAGTTGACCATGTTCGAACCGCCCGAGGTGACGACGAGTGCGTCGTCGTCTGGGAAAACGTCCCCGGTGTCCTCTCGGACAAGGGCAATGCGTTCGGCTGCTTCCTCGGCGCCCTGGTGGGCGAATCCGATGCGCTGGAGCCGGCAGGGGAGCGATAG	MTAYGSVCSGIEAATVAWHPLGWRAEWFAEIEPFPSAVLAHRWPEVFNLGDMTKLARQVLAGTITAPDVLVGGTPCQAFSVSGMRAGLDDPRGQLTIKYVELADAVDHVRTARGDDECVVVWENVPGVLSDKGNAFGCFLGALVGESDALEPAGER	PGPT0020015_2432	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_R-M_SYSTEM,PGPT0020015-dcm-K00558	NA	NA
BMS010_03119	2511			hypothetical protein	ATGACGGCCTACATCGAATTCCTACGCAAGAAAATCCGCCTCGCCGATTTCGGCGGATTCGATATTGACGATTCTGAGATCAACCCAATCCTGAAGCCGCACCAGCGCGCCATCGTGCGCTGGGCAGTGCGTGGCGGTTGCCGGGCGATATTCGCGGCATTTGGCCTCGGCAAGTCCGTCATCCAGATTGAGATCTTGCGGTTGATTCAGAAATACGCCAGCGGCGTGGTGCTGATTTGCCTGCCCCTTGGCGTGCGGCAAGAGTTCCGGCGCGACGGCACAATGCTCGGTGTTGAGTTCATGTTCATCCGATCCGCCGATGAGATGGTGGAAGGCCAAGTCTTCTACCTGACCAACTACGAGTCGATCCGCGACGGCAAGCTGGACCCGAACCTGTTCACTGCGGTGAGCCTGGACGAAGCCAGCGTGCTGCGCAGCTTCGGCTCCAAGACCTACCAGACCTTCCTGGCGTTGTTCGAGAATGTGCGGTATCGCTTCGTCGCCACCGCCACCCCCTCGCCGAACCGCTACAAGGAGCTGATCCACTATGCCGGCTTCCTCGGCATCATGGACACCGGACAGGCCCTGACCCGCTTTTTCCAGCGGGACAGCACCAAGGCCAACAACCTGACGCTCTACCCCCACAAGGAGCGCGAGTTCTGGCTCTGGTTGAACAGCTGGGCGGTGTTCCTGCAAAAGCCCTCCGACCTTGGCTTCAGCGACAAGGGCTACGACCTGCCGGAGTTGCGGGTGATCGTCCACGAAATCCCTGCCAACCACGCGGCGGCCGGTACCGAGAAGGACGGCCAGGGTCTTCTGTTCAAGAACGTCTCCCTGGGCGTGCAGCAGGCCAGCGCGGAGAAGCGCGACAGCCTGGCCAGCCGGGTCGCCAAGATGCTGGAGATCCTGCAGGCTGACCCGCACAGCCGGTACATCCTCTGGCACGACCTGGAGGACGAGCGTCATGCCATCCAGCAGGCGCTGCCGCAGGTGGTGAGCGTCTACGGCAGCCAGAACCTCGACGAGCGCGAGCAGGCCATCGTCGATTTCAGCGACGGCAAGTTCCAGTACCTGAGCGCCAAGCCGGTGATCGCCGGCAGCGGCTGCAACTTCCAGCGGCACTGCCACAAGGCGGTGTTCGTCGGGATCGGCTTCAAGTTCAACGACTTCATCCAGGCCGTCCACCGCATCCAGCGTTTCCTGCAGAGGTACCCGGTGGAAATCCACATTATCCATTCCGAGGCCGAGCGCGAGGTCCTGCGCGCGCTCATGGAGAAGTGGCGGCAGCACACCGAGATGGTGACCAACATGACCGAAATTATCCGTGAGCATGGGCTTAACAGCCTGTCCATGCAGGACATCCTCGCCCGTACCATCGGCGTCGAACGTATCGAGGTGACCGGCGAGCGATTCAGGGTAGCCAATAACGACTGTGTGCTGGAGGCCCAGGCCATGGCCGCCAACTCGGTCGATCTGATCGTCACCAGCATCCCCTTCGCCAATCACTACGAGTACACGCCGAGTTACAACGACTTCGGCCACACCGAGAACAACGACCACTTCTGGGCACAAATGGATTTCCTGACCCCAGAACTCCTGCGCATCCTCAAGCCAGGCCGCATGTATTGCTGCCACGTGAAAGACAGGATCCTGTTCGGCAACGTCACCGGCGCCGGCGCGCCGACTGTCAGCCCATTCCACGCGGAGGCCCTTTTCCACGGCCGCCAACACGGCTTCGACTACATGGGCATGATTACTGTGGTGACGGACGTGGTTCGCGAGAACAACCAAACATATCGCCTCGGCTGGTCTGAGCAGTGCAAGGACGGCACCAAGATGGGCGTCGGATCACCTGAATACGTCCTGCTGTTCCGCAAACCTCAGACCGATCGCTCCAAGGGCTACGCCGATGAGCCGGTGCGCAAGGACAAGGCCGAGTACACCCGCGCTCAGTGGCAGGTCGACGCCCATGCCTTCTGGCGCTCCAGCGGAAACCGCCAGCTGACCGCCGAGGAGCTGGAAACCATGGGCCCTGACAAGCTGGCCAAGGCCTTCACCGAGTACAGCCTCGCCAACGTCTACGACTACCAGTTCCACGTCCGCATCGGCCAGGAGCTGGAAACCCGCGGCGCTCTGCCCTCGACCTTCATGTCCCTCGCGCCCGGCAGCCACCATGCCGAGGTCTGGCACGACGTGAACCGGATGATCACGCTAAACGGCAACCAGACCCAGAAGGGCCTCCAGAACCACGTCTGCCCGCTGCAGTTCGACATCGTCGACCGCCTGATCAACCGCTACTCCAACCCGGGCGAAGTGGTGCACGACCCCTTCGGAGGCCTGATGACCGTGCCCTACCGCGCCATCAAGCTCGGCCGCCGCTGCTGCGCCAGCGAACTCAACACAGCCTATTTCTTCGACGGAGTGCAGTACCTGCAGGCGGCCGAGAAGGATATGGCCATGCCTGACCTCTTCTCCCTGCTCGATGCTGAGCAGGAGGTAGGTGCGGCATGA	MTAYIEFLRKKIRLADFGGFDIDDSEINPILKPHQRAIVRWAVRGGCRAIFAAFGLGKSVIQIEILRLIQKYASGVVLICLPLGVRQEFRRDGTMLGVEFMFIRSADEMVEGQVFYLTNYESIRDGKLDPNLFTAVSLDEASVLRSFGSKTYQTFLALFENVRYRFVATATPSPNRYKELIHYAGFLGIMDTGQALTRFFQRDSTKANNLTLYPHKEREFWLWLNSWAVFLQKPSDLGFSDKGYDLPELRVIVHEIPANHAAAGTEKDGQGLLFKNVSLGVQQASAEKRDSLASRVAKMLEILQADPHSRYILWHDLEDERHAIQQALPQVVSVYGSQNLDEREQAIVDFSDGKFQYLSAKPVIAGSGCNFQRHCHKAVFVGIGFKFNDFIQAVHRIQRFLQRYPVEIHIIHSEAEREVLRALMEKWRQHTEMVTNMTEIIREHGLNSLSMQDILARTIGVERIEVTGERFRVANNDCVLEAQAMAANSVDLIVTSIPFANHYEYTPSYNDFGHTENNDHFWAQMDFLTPELLRILKPGRMYCCHVKDRILFGNVTGAGAPTVSPFHAEALFHGRQHGFDYMGMITVVTDVVRENNQTYRLGWSEQCKDGTKMGVGSPEYVLLFRKPQTDRSKGYADEPVRKDKAEYTRAQWQVDAHAFWRSSGNRQLTAEELETMGPDKLAKAFTEYSLANVYDYQFHVRIGQELETRGALPSTFMSLAPGSHHAEVWHDVNRMITLNGNQTQKGLQNHVCPLQFDIVDRLINRYSNPGEVVHDPFGGLMTVPYRAIKLGRRCCASELNTAYFFDGVQYLQAAEKDMAMPDLFSLLDAEQEVGAA				NA	NA	NA	NA	NA
BMS010_03120	243			hypothetical protein	ATGACCATCTACCACTGCACGATTGATATCGCCAACGGCGTGATGCGCTACGCGCGCACTCCGAGCCGTCTAGATGGACTGTTGAAGCACGCAGACGGTCGATCAATCCCAGGCGAAGAAGTGATTCGCATTGCGCATGAGTTTTCAGCTCGCGGATTCGATGCGATGCCCCTCGGGTGCGATCACTACGACGAGAAGGGCCACTGCTTGGGTCATGAGAACGAGGAGACGGTTGTACCATGA	MTIYHCTIDIANGVMRYARTPSRLDGLLKHADGRSIPGEEVIRIAHEFSARGFDAMPLGCDHYDEKGHCLGHENEETVVP				NA	NA	NA	NA	NA
BMS010_03121	234			hypothetical protein	ATGGACGCACAAACCGACTACCTCCCCGAAGCGGCAACCTTCACCAGTTTAGAACGGCTGATCCTGGCCCATGAACAGAACATCTCCAGGCTCGAGCGTTGGATGCCGATCCTCACTGGAGATGACGCCGAACGGGCCCCTCGCACGATTCAGAACCTCCGGAACCAGGTAGTCGACCTGCGCCAGCAACAAATGGACGGCGCCGCGCGCTCGTACCAGGGCACCATGACGTAG	MDAQTDYLPEAATFTSLERLILAHEQNISRLERWMPILTGDDAERAPRTIQNLRNQVVDLRQQQMDGAARSYQGTMT				NA	NA	NA	NA	NA
BMS010_03122	189			hypothetical protein	ATGGACATGACCACCGCCATGCTCTGCCTGGCGCTGGCTGACCGCATCCACGGCACAAACGCAGCGGTTATCGCCGCCGCATACAGAGTTCGACCACTGGTCCAGCGCCAGCACCAGCCAACCATCAGCCGCATCATCCGCTGCCGCAACGCGCGCGAGTGGGTGGAGCGCTTTCTCGCCTACTACTGA	MDMTTAMLCLALADRIHGTNAAVIAAAYRVRPLVQRQHQPTISRIIRCRNAREWVERFLAYY				NA	NA	NA	NA	NA
BMS010_03123	297			hypothetical protein	ATGGCCAAATCCCAACAGCAGCGTGATAACGAACTGGTCGAGCGTCGAAAGGAATTAGATGACCGTGAGCTGCGTCATCGGGTACGCCCAGGCATTCACGAAAAGCTCCAGGACCTGATGGCCTGGCACGGCATCACGGAAAAGTCCGAAGCCATTCAGCTCATGATCATGAACGCACATGCCGCCGGGCCTGCTGGATCGGCGTCGCATCTCTCAATCCCGCGCCACGAAATAACGATTTCTCCGCACGTGGCGCGGGCATTAGCGGAGTTCGTTCCACCGGCAGAGCCAGACTAG	MAKSQQQRDNELVERRKELDDRELRHRVRPGIHEKLQDLMAWHGITEKSEAIQLMIMNAHAAGPAGSASHLSIPRHEITISPHVARALAEFVPPAEPD				NA	NA	NA	NA	NA
BMS010_03124	225			hypothetical protein	ATGCGTCGGCGGGATCGAAAACTACTCCGGCAGCCATGGCGCGAGCTGAGCGGCCGGAAAGGCCCGAATGGAGTCGAGAAGTTCTGCAACGCCTGCGGCGAATGGCTTCTTCTGGACGACGAAAACTTCACATTCCTGTCCAGCCGCGGGCACTACCACTGTCACTGCAAGCTCTGCCGAGCCGGCCTGATGCGCGCCAGCCGCCAACGCACGACGGCGGCTTGA	MRRRDRKLLRQPWRELSGRKGPNGVEKFCNACGEWLLLDDENFTFLSSRGHYHCHCKLCRAGLMRASRQRTTAA				NA	NA	NA	NA	NA
BMS010_03125	537			hypothetical protein	ATGAACACACCTATTACCTGCCGGCCAGCTCAGGTCGAATTGCCCACCATTACCTCGAAAAACGCATTGCGGTCTGAGCTGGAAATAGCCATCGAGCAGTACTTGGCCTCTGGGCATAGCGTCGATGAAGTACCGATCCGCACCAGCGCACCGGCCGCAAAGTTCGGGCGGGGCGATTTCGCTCTGCCAGGCAGCCGCCCACATCGTCCAGGGCGGCGCAAGATGAGCGCCGAGCAGGAGGCGGCCGCCGATGCGGAATTGCTCGAGCGGCTTCTTCCGCTGCTCGGCGAGGGCCTGAGCTTCAACGAACTGAGACGCGCCCTGCGCTGCCGGCGAGAACGGCTTGAGCGCACCATGAACCGCGCCAACATCCCGCTCAACAAGGGCACCGCAAACGAACGCAAAACCAAGGCGGCGGCCATCAGAGGCGAGCTGATTGTTGAGATGCGCCGGAAGGGAATGTCCGCCATCCAGATTGCAGCCGAGTTGGGCATCAACCCAGTGACGGTTCACCGCCATTGCCGGGGCAGGGTGTGA	MNTPITCRPAQVELPTITSKNALRSELEIAIEQYLASGHSVDEVPIRTSAPAAKFGRGDFALPGSRPHRPGRRKMSAEQEAAADAELLERLLPLLGEGLSFNELRRALRCRRERLERTMNRANIPLNKGTANERKTKAAAIRGELIVEMRRKGMSAIQIAAELGINPVTVHRHCRGRV				NA	NA	NA	NA	NA
BMS010_03126	126			hypothetical protein	ATGGCCTCATTGCTGGGTTCGCTGCTCGGCGCCCTGCTCTTCCTCGCGCTCATCATCCTGCCCGCCGCAATCGCAGGGCGCATAACCGCTGAACAGCCCGCTACGGCAACCACCGAACGCCGCTGA	MASLLGSLLGALLFLALIILPAAIAGRITAEQPATATTERR				NA	NA	NA	NA	NA
BMS010_03127	108			hypothetical protein	ATGATCGCCATCGCCAAACACGGAATGCAGTTGCTGGGCGGTGCCGCCTGTTTCCTGGGCTGCATCTGGGTGTTCGCCTCCGCCCTCGCTGGGATGATCGCACCATGA	MIAIAKHGMQLLGGAACFLGCIWVFASALAGMIAP				NA	NA	NA	NA	NA
BMS010_03128	120			hypothetical protein	ATGAACGCATACCTCTGGCAAATCGGCGTGCTGCTGGTCAACTGCTCGGCCCTGTTGGGCTGGCTGTACTGGCAGATTCGGCAGGAAGAGAAATGGCCACCCATGGAGGATGAGCAATGA	MNAYLWQIGVLLVNCSALLGWLYWQIRQEEKWPPMEDEQ				NA	NA	NA	NA	NA
BMS010_03130	147			hypothetical protein	ATGCAGCTACTGCTGATCCAGCTCCGGTACATCCAGCAACTGTCAGCCTGCTGGGTGGTTGAAAGCAAGATCAACATGCCGGACACAGGGGCTACGGTGCCCACGCAAACCGCAGGCGGCTGGAGCCTGTATGGGTGCGAAGGCTGA	MQLLLIQLRYIQQLSACWVVESKINMPDTGATVPTQTAGGWSLYGCEG				NA	NA	NA	NA	NA
BMS010_03131	276			hypothetical protein	ATGTTCACCGAAGAAGGCCGCAAGGCTTATCCCGAAATCGCCAGCGCATATGATGCTGTCAGAAAAGCTGAGGAACAGCTTCGTGACGCTATGGCAACACGCTTCCCTAGAGGCTGCCGCGTGTTCGTTTTGTATCACAACGGCAGCCACTTCGGGACCGTTGAGCGCACCGACGAGTCCCGCGTCTACGTGAGGAACGAAAAGACCGGAAAGGTCACCGCTCGCTATCCACTCATTGATCAAGACGGCCTGGTCTCGGTGCGGATCAGCTATTAA	MFTEEGRKAYPEIASAYDAVRKAEEQLRDAMATRFPRGCRVFVLYHNGSHFGTVERTDESRVYVRNEKTGKVTARYPLIDQDGLVSVRISY				NA	NA	NA	NA	NA
BMS010_03132	507			hypothetical protein	ATGCAAACCATTACCGCAGCAGAACTCCCCGCAATCGGCCAACCCCTGGCGGGTGGAACCTTCTTCGCCCGCCACTTCATCGGCGACCAGATGTTCGCCCTGGTCGTTCTCGATCAGTCCGCTGAGTTCACAGCCGAATGGGGCGAGTACGGAAAGGAAGTGGCGGGCGCTGACAGCTACGTCGACGGCCTGGCCAACACTGAAGCCATGATTAGCAGCGAATGCCAGGCGGCGATGAAGCTCAACCGCGAAGACGGCGACTACATCCCGTCTTACGTCGAGCAGGCGCTGCTGCTGGCCTACGCCAAGGCCAACCCTGGCAGCGATCTGCGCGGCTGGCACTGGAGCAGCACGCCGCGCTCCGCCGACTTCGCCTTCTTCATGTACTTCGATGATGGCGGCCAGGGCAGTCAGCGGCAAGGACAGCGAGTTCCGCGTCCGGCCCGTCCGCAGATTGCTCATTCAGTAATTCATTCATTTCGATGGATTCGAACTGTTCGGAGCTGA	MQTITAAELPAIGQPLAGGTFFARHFIGDQMFALVVLDQSAEFTAEWGEYGKEVAGADSYVDGLANTEAMISSECQAAMKLNREDGDYIPSYVEQALLLAYAKANPGSDLRGWHWSSTPRSADFAFFMYFDDGGQGSQRQGQRVPRPARPQIAHSVIHSFRWIRTVRS				NA	NA	NA	NA	NA
BMS010_03133	96			hypothetical protein	ATGGAGGAACAAGCCATGTACCGCAACCTGAACGCAGCCATGGGTTTCTACCTGGGCTTCGCCTTCGCCCTGCTGGTCGGCACCAGCTTTATGTGA	MEEQAMYRNLNAAMGFYLGFAFALLVGTSFM				NA	NA	NA	NA	NA
BMS010_03134	444			hypothetical protein	ATGCGCATCGTCCTCGCCATTGTCTTTTCTGCTCAGGCATTAACGGCAAACGCGCAGATTTTTAAGTGCCCTGACGCTGCAGGCCGTTTGACTTTCTCGGATAAACCATGTGCCGGGGCCGCGGAGAGCCCACAGCATCAGATTGATGTCCAGCCCCCTCCTGTATCGTCCGATACCATTAGGCAAAGGCGCGCCGAAGAGCAGGACGAGGCGCGATGGGAGGAGGCCAAACGCTTTTACTACGTGGATATCCCCCAGCTTGAGCGTCAAGCCATTGAGTTGATGGCCTCGCCCGATCCCGCTAGGCAAGCGCTCGGCCAGGAAATGGCATGGCAGGTCCAGAAGGGACGAGAGGCATTCAAGCGACTGGAGCGCTCCCGGAAGGTGCGCGAAGAAACGGAACGGAGGTACGACGATACGCTGCGCCGGATTCGTGGTTATTAG	MRIVLAIVFSAQALTANAQIFKCPDAAGRLTFSDKPCAGAAESPQHQIDVQPPPVSSDTIRQRRAEEQDEARWEEAKRFYYVDIPQLERQAIELMASPDPARQALGQEMAWQVQKGREAFKRLERSRKVREETERRYDDTLRRIRGY				NA	NA	NA	NA	NA
BMS010_03135	294			hypothetical protein	GTGGAAGCGCGAGTAGCAAGGCTTGAGAGCGATATTGAGTACATCAAGCGCGACGTCAGCGAACTGACGCATACAGCCAAGATTATTCAGGGCGATGTTTCCGTTCTGAAAACCCAGGCCGCCGTGCTGCTTGAACGCACAGCCAACCTTGAAAAGAACATGGTTACCAAAGGTCAGCTGTCCGCCTATGCATTTGTTGGACTGCTGACGACTGCAAGCGCGGCGATAGGTATCGCTTGGTGGATCGTCCAGCAGTACCTGGCCCCGATCTTGGCAGGCATGGGCACCCAATAG	MEARVARLESDIEYIKRDVSELTHTAKIIQGDVSVLKTQAAVLLERTANLEKNMVTKGQLSAYAFVGLLTTASAAIGIAWWIVQQYLAPILAGMGTQ				NA	NA	NA	NA	NA
BMS010_03136	348			hypothetical protein	ATGCAGAACTCTGTCGACCTGCGCGAAAAGATGAAAAGTCTGGGGCCGGTTAAAATGTCGGATCTTGTGTTTTTCTTGCGGGAATCCGGTAGGAGCGCCCAGTGCCCCTTCTGCTCTTACAAGGGCAGTTGGGACTTCCATATCCAATGGCCAGACGGCGAAGGCTCAGAGCCGGAGGATGATCCTCCCGTCTGCGTCTACGACCTGAAGATGTCCCATAGCTCAGACACCCATCCGTGCACGGCGGTGACCTGCCCGAAATGCGGGCACTTCTCGATGATTGACTTGCATAGGGTCAAGCTGAACATGGCTGAAAGGCTTTTGCTGATGGAGAAGCTCAATGGGTGA	MQNSVDLREKMKSLGPVKMSDLVFFLRESGRSAQCPFCSYKGSWDFHIQWPDGEGSEPEDDPPVCVYDLKMSHSSDTHPCTAVTCPKCGHFSMIDLHRVKLNMAERLLLMEKLNG				NA	NA	NA	NA	NA
BMS010_03137	837	prtR	COG2932	HTH-type transcriptional regulator PrtR	ATGAAAAAACGCGACTTAGAAGACTGGGAAATGGCCGAGTGCGTGGCCCTAAAGCGGGCCATAGACTCGTTCAATGCTGGGAAACCTAGGGCGGAGCGACTAAGCCAAGGGCGCATTGCCGACGCGCTGGGGGTGAATCAAGGCTCAGTCAGTTCGTATCTGAACGGCGTCAATGCTCTGAATGCGCGAGTAGCTGCCGTGATCGCCAGCATGCTCGGCATCCCGATCGAAACATTCAGCCCCCGGCTGGCCAAAGAAATCGCGGCGATGGCTTCAGCTGTCGAAGGGGTCACGGCTCGTCTTGTCATTGATGCTGCTCGCAATATTGAGCCCAACGCTGAGCTAATTGGCGGGATGGCGCCGTGGGATAGCAAGACGCCTTTGGGGGACGACGAGGTGGCTATTCCGCTCTACAAGGAGGTTGAGTTGGCAGCAGGCTCCGGCGCGACGGAAGTGGTTGAGGTACCCGGTCGCATGCTGCGCTTCGCCAAGTCCACGCTGCGCGAGGCGGGCGTGCTTGAGAGCAATGCGGTGTGCGCCACCATCAAGGGCCGCAGCATGGAGCGCCTGATCATGGACGGCGCCACCATCGGCATCGACCGCGGCACCACGCGCATCGAGGATGGCGAGATATACGCGTTCGACCAGGACGGCATGCTGCGCGTCAAGTACCTCTACCGCCTGCCCGGCGGCGGCGTGCGCATCCGCAGTGAGAACGACGAGGAGTTCCCGGACGAGACCCTGACAGCGGAAGAGTTCTCCCGCGTCCGCATGCTCGGCTGGGTCTTCTGGTGGTCGACGGTGCGCCGCCGCCGCGGCCTGAGCATTGCCAAGTAA	MKKRDLEDWEMAECVALKRAIDSFNAGKPRAERLSQGRIADALGVNQGSVSSYLNGVNALNARVAAVIASMLGIPIETFSPRLAKEIAAMASAVEGVTARLVIDAARNIEPNAELIGGMAPWDSKTPLGDDEVAIPLYKEVELAAGSGATEVVEVPGRMLRFAKSTLREAGVLESNAVCATIKGRSMERLIMDGATIGIDRGTTRIEDGEIYAFDQDGMLRVKYLYRLPGGGVRIRSENDEEFPDETLTAEEFSRVRMLGWVFWWSTVRRRRGLSIAK				NA	NA	NA	NA	NA
BMS010_03138	204			hypothetical protein	ATGCGCCGAATTACCCTCAGTGAATTTGCCGCCGAGATGGGGCAGACAAAGGCCGCCGAGCTAATCGGGATGCGTCAAAGCTCTTTGAGCAAGGCGCTGCGCGTTGGCCGTGCGGTGTTCGTTACCGAGCACGCCGACGGCAGCTTTTCGGCCGAGGAAACCCGGCCGTTCCCGTCCCAGCCGGGCAAGACCCAGGCGGCGTAG	MRRITLSEFAAEMGQTKAAELIGMRQSSLSKALRVGRAVFVTEHADGSFSAEETRPFPSQPGKTQAA				NA	NA	NA	NA	NA
BMS010_03139	228			hypothetical protein	ATGCGCCAGCCATCCATCTACCAACTCCAGGGGGAGGTCATTGCCCTGCAGTGCGTTGTTGCAGCCCTGCTCCGCTCACTCCCCTTGCCTGTTCGCTACCACCTGGCCCGCGAGCTACCGCTCCAGACGGACCAGGCACGCGCCTTGATCGTCGGCGCCGACTGGGCCGGCCCGGTCATGTCGGCGTTCGAGGAATCCGTAGAGGACTCGCTCGTTGGCCTGCCCTGA	MRQPSIYQLQGEVIALQCVVAALLRSLPLPVRYHLARELPLQTDQARALIVGADWAGPVMSAFEESVEDSLVGLP				NA	NA	NA	NA	NA
BMS010_03140	621			hypothetical protein	ATGAACATGTCGAATGCAAGACACCCCCTCACGCGGGACCAGGTACTGGTGGCGCATGCCGCGCAGATGATTGCGCGCACGTCGCTGAGCCAGGACACGTTCGCCCAGGCGTTGAGCGAGCAGTTGCACCGGCTGGTGCCGGAAAAGGCCGCCGAGAAGGACGTCCCGGATTTCAAGGCCATGGCCGCCGGCAACGATACGGCCGCCTTCCTCAAGGCTTGTGACCGCTGGTTGAAGCGAGTGGCTCGCTGGCTCTCCGGCGAGGTGGAGCTGCCGGCGTGGGTGGAGGAGGCGTGGGTGCAGGCGCTGCCCGGCGACTATCGGGAGGCGTGCGTTAACGAGCTGGCCAGCCGGTATGGGCTGATCGGCGCGCGTGCTCTTGGCGCCGAAGCCTGCCCGGTGTCGGCGTTCGGTGGGCTGGTGCGGCAGTTGGGCCTGGCGGTCGAGACCTGCAGCGAGGTGCTCGCGGATGGGCGCATCGATGCGGATGACCTGGCGCTGCTGCCGGCGTTGATCCGCCAGCTGCTGGCGGTTGAGAGCCGCGCCTGCGAGCTGCGGCGGCTGGCGGAGAACACTCTGGCTGCCGAGCGTCGCAAGACGCCTCTGCGGCTGGCCGACTGA	MNMSNARHPLTRDQVLVAHAAQMIARTSLSQDTFAQALSEQLHRLVPEKAAEKDVPDFKAMAAGNDTAAFLKACDRWLKRVARWLSGEVELPAWVEEAWVQALPGDYREACVNELASRYGLIGARALGAEACPVSAFGGLVRQLGLAVETCSEVLADGRIDADDLALLPALIRQLLAVESRACELRRLAENTLAAERRKTPLRLAD				NA	NA	NA	NA	NA
BMS010_03141	180			hypothetical protein	ATGACCGCCCTCCTTCGGGCTCAGCAGCGACGCGCGAAGGTGCGCCAGACACTCACGCTTCGCCTGGGCCTTACCCGCCCGGGTGAAGCCATGCACAACCCGCTGAGCAGCCAACAGTGCCTGTGCCTGATGCAGGGAAACAGCAGCCTGTGGGAGTGGCTCATGTCTGCTATTGCGTAA	MTALLRAQQRRAKVRQTLTLRLGLTRPGEAMHNPLSSQQCLCLMQGNSSLWEWLMSAIA				NA	NA	NA	NA	NA
BMS010_03142	957			hypothetical protein	ATGCCACTTGACGTGGCGCGGCTGCGTGACAGCGACCTGGCTATCGAGGCCACTGGTGATGAGTTTCGTGCGGCCGTCCTGCTGTGGTGCGCTTCCTGGGGCCAAGTGCCGGCAGGTTCTCTGCCCAATTCCGATACGGCGCTGGCGGCCTATGCCGGCTATGGACGTGGGGATATCAAGGGGTGGAAGAAGGTCCGCGAAGGCGCTTTGCGGGGATTCGTGGAGTGCTCCGATGGTCGCCTGTATCACCCTGTGGTGGCGGAGAAGGCACTGGAGGCATGGGCCGAACGGGTTGAGTACCGGAACGCGAAGCAGAACGAGAAGGACCGTAAGCAGCGGGAGCGCGAGGATCGTAAACGGATGTTCGATGCACTTCGTGAGGCTGGAGTCGTCCTTTCCTGGAACACTCAAACGTCCGAGCTAAGGTCACAGTTCGATAGGATAAACAATTCCGTGACAGGTCACATACCTGTCACCGTGACAGGTCACGCACCTGACACGGCTAAGACAGGGACAGGGACAGGGACAGGGATTAAAGATCAAGAGCATAGTAATCCTGGCGGATTACTCGTTGACGCCGAGCGTCAACCCGCTGGCGGCACGGACGATCTCGTTGGTGAACATCCGGCCGACTCAGCCCATGGCATCACGCCGTGCCCGGTGCAGCGCATCATCGACCTGTATCACGAAATCCTCCCCGAACTGCCGAAGGTCGTGCTGGTGAGCAAGGGCCGCCGCCAAGCGTTGCAGGCCCGGTGGAGGGAGCACTCGGCGCACCGGGACCTGGAGTTCTGGCGAGAGTTTTTCGCTGCGGTGGGTGCGTCGGAGTTCCTGATGGGCAAGGCCCAGCGCCGCAATGGCGAGACGCCCTGGCGCGCGAGCTTCGATTGGCTGATCGCTCCCCGAAATTTCGTGAAGGTGGTCGAGGGGAACTACGAGGAGGCGCGCTATGCGTGA	MPLDVARLRDSDLAIEATGDEFRAAVLLWCASWGQVPAGSLPNSDTALAAYAGYGRGDIKGWKKVREGALRGFVECSDGRLYHPVVAEKALEAWAERVEYRNAKQNEKDRKQREREDRKRMFDALREAGVVLSWNTQTSELRSQFDRINNSVTGHIPVTVTGHAPDTAKTGTGTGTGIKDQEHSNPGGLLVDAERQPAGGTDDLVGEHPADSAHGITPCPVQRIIDLYHEILPELPKVVLVSKGRRQALQARWREHSAHRDLEFWREFFAAVGASEFLMGKAQRRNGETPWRASFDWLIAPRNFVKVVEGNYEEARYA				NA	NA	NA	NA	NA
BMS010_03143	1380	dnaB_1	COG0305	Replicative DNA helicase	ATGCGTGATCCGTACAGCCTCGAGGCCGAGCATGGCGTGCTGGGGGCGATGATGCAGCGGCCGGAGCTGATCGACGTGCTGGCGGCTGATCTGCGGCACACCGACTTTCACTTCGCCGAGAACGCGGTGGTGTTTCGCGGCATTCTGGGATTGCAGGCCACTAACTCGCCGGTGGACTTCTTGACCGTTGCGGATGCCATTGGCGTGTTGCCCAGCGGTGAGAGCGCGTTGGCGTACTGCGCCGAGATCGTGAAAAACACGCCGAGCGTGGCCAATGCCGGGGCCTATGCCGAGATCGTTCGGGAACGTGCCGTGGATCGAGCCCTGATGCTGTGCGGTGATCGCATCGTGGAGATCGCGCAAGCCGACCGGCCGGCTGTCGAGAAGATTGCCGCCGTTCAGGCCGAGGTGATGGGGCTGGATGGGGAAGCGGCGACGAGCGAGGTGGTCCTGGCTGCCGAGGTACTGGGTGACCATGTCGAGGTCCTGCAGCGGCGCGCTGATCGCCGTGGAGAGTTGGACGGGCTGTCCACCGGTATTGCCGACCTGGACCAGAAGCTCCAAGGGCTGAAGCCAGAGCAGCTGATCATCATCGCCGGGCGCCCTGGCATGGGGAAAACCACGCTGGCGATGAACATCGCCGAGGCGGTAGCTCTGCGGCAGGAGAGCCAGGTCTTGGTGTTCAGCCTGGAGATGAGCAATGGCCAGCTCATGGACCGGTTTCTCGCGTCGGCCGGACGCATCCCTTTGCAGAAGATCAAGGACGGAACTGCGGCCGAAGACTACAGCGCCGAGCTTGTTGGGGCAGCTCACAAGATCAGCAGCGCGCCGCTGTACCTCTGCGAGCGCCCGAGCATGACCATGGGCCGCATCCGCACGGCCGCGCGCCGGCACAAACGGCGTTACGGCCTGAGCCTGATCGTGATCGATTACCTGCAGCTTCTGGAATCCGAGCAGCGCGCCGGAAACCGCGTGGAGGAGGTCAGCCAGATGAGCCGCCACGCGAAGCTGATGGCGCGTGAGTTGGGTTGTCCTGTGATTCTGCTGAGCCAGCTCAGCCGGCAGTGCGAGCAGCGCCCGAACAAGCGTCCTGTGCCGGCTGATCTGCGCGAGTCCGGCGCTATTGAGCAGGACGCCGACATCATCCTGTTCGTGTATCGGGACGAGGTTTACCACCCGGACACCGAATACAAGGGGGTCGCAGAGATCATCATCGGCAAGGGCCGGGACATCGAGACCGGCACGGTGAGATGTGCGTTTCTGGGCCAGTACTCGCGGTTCGAGCAGTTGGCGCCGGGCGCCCTGGATTTCATTGATGAATCGACGCCGGCGCCGAAGACGAGCCGGATGGCTGATCGGTATGGCAAACGCGCCGGGTGA	MRDPYSLEAEHGVLGAMMQRPELIDVLAADLRHTDFHFAENAVVFRGILGLQATNSPVDFLTVADAIGVLPSGESALAYCAEIVKNTPSVANAGAYAEIVRERAVDRALMLCGDRIVEIAQADRPAVEKIAAVQAEVMGLDGEAATSEVVLAAEVLGDHVEVLQRRADRRGELDGLSTGIADLDQKLQGLKPEQLIIIAGRPGMGKTTLAMNIAEAVALRQESQVLVFSLEMSNGQLMDRFLASAGRIPLQKIKDGTAAEDYSAELVGAAHKISSAPLYLCERPSMTMGRIRTAARRHKRRYGLSLIVIDYLQLLESEQRAGNRVEEVSQMSRHAKLMARELGCPVILLSQLSRQCEQRPNKRPVPADLRESGAIEQDADIILFVYRDEVYHPDTEYKGVAEIIIGKGRDIETGTVRCAFLGQYSRFEQLAPGALDFIDESTPAPKTSRMADRYGKRAG				NA	NA	NA	NA	NA
BMS010_03144	231			hypothetical protein	ATGGCTATGGCGACAGTTGAGATGACGCTGGACGAGCAGACGCTGCGCCAGATCGTCCTGGAGTGGGCAATGGCCAGGTTTGGGCTGGCCGACTCTAGGTCGATCGATATCGTCGGCGCGGTGATTGAGACTGGCGATGATTACATTCCGAACTTCGAGATGAGGCTGAAACTAGCCGGCGTGCAGATCCATGATCTGACCTCATCTGGCGGTGATCGGAGGGTGGTATGA	MAMATVEMTLDEQTLRQIVLEWAMARFGLADSRSIDIVGAVIETGDDYIPNFEMRLKLAGVQIHDLTSSGGDRRVV				NA	NA	NA	NA	NA
BMS010_03145	126			hypothetical protein	ATGACGATTCGCTGTCTGCTGTTGGGCTGCAGCTGGCAGTTCGAGGCCGAGGCGCAGTTCGCGGGCCTGTTGATCCGCGTGGAGTGTTGCCAGCACTGCGCCTCCCGACGGTACTTTCGTCCATGA	MTIRCLLLGCSWQFEAEAQFAGLLIRVECCQHCASRRYFRP				NA	NA	NA	NA	NA
BMS010_03146	1026	xerC_4		Tyrosine recombinase XerC	ATGAGCCGGTCCGCCACAACGCTGCGTACGACCGGCCAGGTGGTGACTTGGTGGGTGGAGCGCTTGCAGACCAACCGTTCGGTCTCTGCCAGCTACCGCAGGACCATGGCCAGCCTGATGCGCCGGCACGTGGTGCCCAAGCTGGGCTCGACGCCCTGCAAGCGCCTGACTCGCTCGGTGGTCGACGACCAGCTGGTATGGCCCATGCAGCAGGAGCTATCGCCGCATACCGTGCACAAGACGGTGCAAGGTCTTCAGCATGCCCTGGCGTTGGCCGAGCGGCAGGGTCGCATCGAGGCCAATCCGCTGGCGTCGGTGAGTTGGAGGGACTTCTGGACGGGCCAACTGCCCCCACGGCCGGCCGGACTGTTGCCGGTTGACCTGGCGACGCTGGTCCCGGAGCTGTGCCAGGCCTTCGAGCGGCAGCCGGTGGCGGGCATGCTGGCGCTGATGATGCTGGCCCACGGTACGCGGATCAGCGAGACGTGCCTGGCGCGCTGGCAGCACATCAGCCTGACCGAACGGGTGTGGGTGATCCCCAGCCAGAACACCAAGACCCGCGTCGAGCTGGTTGTGCCGCTGACCGCCCAGGCATGTGCGCTGCTCGATCGCTACCGCCAGCGGCAGCACCCGGCGCGCCAGGGCAGCCCGTGGGTGTTCGCCGGCCAGGGTGGGGAACCGCTGTCAAAGGAGCAGGCCAGCGCGCTGATCCGCGAGGTGAGCCAGCGCCGGTGGAAGAGCCACGACCTGCGCAAGGTGGCGCGGACCGTATGGGCGGAGATCGGCATCGATTATCTGGTGGGCGAGCTGCTGCTCAACCACAGCATGGGCAAGCTGGCCGACACCTATATCAAGACCACGGTCGACCCGCTTCGGCGGAATGCGCTGGAACGCTGGCACGCCTGGCTCGACGAGCGTGGTTTTACCCAGGCGCACGGCCTGAAAAGTGCCGAAACCACATCTTCCGCGGATGCCGCTCCGCCCAGTGCTGGCGCGGCTTCCGGCGATTTTCTCCGTTTCCTATAG	MSRSATTLRTTGQVVTWWVERLQTNRSVSASYRRTMASLMRRHVVPKLGSTPCKRLTRSVVDDQLVWPMQQELSPHTVHKTVQGLQHALALAERQGRIEANPLASVSWRDFWTGQLPPRPAGLLPVDLATLVPELCQAFERQPVAGMLALMMLAHGTRISETCLARWQHISLTERVWVIPSQNTKTRVELVVPLTAQACALLDRYRQRQHPARQGSPWVFAGQGGEPLSKEQASALIREVSQRRWKSHDLRKVARTVWAEIGIDYLVGELLLNHSMGKLADTYIKTTVDPLRRNALERWHAWLDERGFTQAHGLKSAETTSSADAAPPSAGAASGDFLRFL				NA	NA	NA	NA	NA
BMS010_03147	453			hypothetical protein	ATGGCAAAGGCGAGCGCAAACGCACCGATCAGGACCTGGCAGCTGCCGACCAAACCGCGGCGTGCCAAGCCGGTGGACTTCGAGGGGAGCGAGCAGATCGCGCTGTTCCGTTGGCTTGAGGTGCGGTACCCGGACGCTTTCAAGCTGGCCTACCACGTGCCAAACGGCGGCCACCGGGTGAAGGCAGTGGCGGCCAAGTTGAAGGCGCAGGGGGTGAAGCCTGGGGTCAGTGACGTGTGCTTGCCCATGGCGCGCGGCGGTTACTTCGGGCTCTACCTGGAGTTCAAGGCCACACCACCACACGACGCAGTGATCTCCCCATCGCAGCTGGCCTTCCAGGTGGCGGTGGAGCAGCAGGGGTACATGGCGTTGGTGTGCCGCGGGCTCGATGAGGCCATGCGGGTGTTCGACGGCTACCTGGCGCTACCTCCGACTCAGGTGGTGCGCGCATGA	MAKASANAPIRTWQLPTKPRRAKPVDFEGSEQIALFRWLEVRYPDAFKLAYHVPNGGHRVKAVAAKLKAQGVKPGVSDVCLPMARGGYFGLYLEFKATPPHDAVISPSQLAFQVAVEQQGYMALVCRGLDEAMRVFDGYLALPPTQVVRA				NA	NA	NA	NA	NA
BMS010_03148	297			hypothetical protein	ATGACGAAGGTGGAGCAAATCCCACTCGATATGTGCGTGCACTGCCGCGGGCAGGGCGAGATACGTGGCGTGTTCCATCGCATGGTCTGCGCGGGGTGCGGGGGCGTCGGGTTCGTGCGCAAGGACGGTAGCGTGCTGGAGGGTGAGGAGGCGGTGTTGCAGTTGCGCCTTCGACTGAATCGGGCGCTGGCGATGCTGAGCGTGTATGAGCAGGTGCGGCCTGCTGGGCCTGGTGACGATTACCAGGGCCGGTCGAACAAGCATCACAAGGGCGGCGGTAATTTCACGGGCGACTGA	MTKVEQIPLDMCVHCRGQGEIRGVFHRMVCAGCGGVGFVRKDGSVLEGEEAVLQLRLRLNRALAMLSVYEQVRPAGPGDDYQGRSNKHHKGGGNFTGD				NA	NA	NA	NA	NA
BMS010_03149	579			hypothetical protein	ATGATCTATGCGAGCGCGCTGGGGGCGGTGGTGTCGGCGTTGGCAGCCGAGACTATCGACAATACTTCCAAGCAGGCTTGGCAGAAGCTGTACCGGCCTGGGTATCAAGATGGGCTGTCTCTGGCGGTGCTGATGCGCTCTGGTGACGAGGAGTCTATCAGCCGCACCGATGTGGATTGTTGGGTGTTCGCCCGGCTACACAGCCAGCTGATCCCCCGGCACTGGGATGCGCTTGTGGCCAAGTACAGCACTCACAAGGGCCGCAAGGTAGAGTCGATCGGTCGTTTGATCCCTCTGATCGCCTCGCCGGCGCCGCGTCTGTTTGTCAGCAAGGCAGTGACGGCTTGGGCCATCCCGCCGCTGCGGGGGGCGGAGGGAAAGCGGTCCACGGACATGATCGTGCTGTCCAGGGCCTTCTACGATATGTCGAGTTGGGATCTGGATGGGCGGCCGGAGTCCACCCGGCGCCGCTGGCGGCAGAGGGTGAATGAGGTTCTGGACGAGATGACCGCCGAGGCTCTGGTGGCCGCCGACGAGATCCTTCAGCGGGAAGGGGTATTGATCGGTCTGGCCGCTTGA	MIYASALGAVVSALAAETIDNTSKQAWQKLYRPGYQDGLSLAVLMRSGDEESISRTDVDCWVFARLHSQLIPRHWDALVAKYSTHKGRKVESIGRLIPLIASPAPRLFVSKAVTAWAIPPLRGAEGKRSTDMIVLSRAFYDMSSWDLDGRPESTRRRWRQRVNEVLDEMTAEALVAADEILQREGVLIGLAA				NA	NA	NA	NA	NA
BMS010_03150	324			hypothetical protein	ATGCCGAAGATGCCTGAACGCGACCCTGCATTCTGGGCCACAGTTTTGTTGGCCCTGAGGGAGCACGGATTGGCTGTTGGGCTCGCCTTTGTGCTGAGCTACATCCGTATCCTGTACGACGACAAGGAGCCGAGCCCGGTCAGGCAGCTGCTGGAGGCTCTGCTCGGATCGCTGCTTGTCCTACTGGTCGGCCTTGGCGCCGAGAAGTTTGGCATGTCGTCGGGCTGGTCGTATGCAGTTGCCGGCTTCGTTGGTGTGCTCGGTGTCAACCAGGTGCGTGCGTTTGCCCGCAAGTGGGCGGCACGCAAGGTTGATCAGGTCTGA	MPKMPERDPAFWATVLLALREHGLAVGLAFVLSYIRILYDDKEPSPVRQLLEALLGSLLVLLVGLGAEKFGMSSGWSYAVAGFVGVLGVNQVRAFARKWAARKVDQV				NA	NA	NA	NA	NA
BMS010_03151	726			hypothetical protein	GTGATCAAGGTCACGCCGAAGGGGGCTGAGCGAGACCTTGCGCGACTGGCTAGGTTCGAGTCGCAGATCGCCTTCGCCACTGCTTTGGCTCTGACGCGCACCGCTCAAACGATTGAGGGCCGACTCAAGCAAGAGATGCAGAACGTGTTCGATCGTCCGACGCGATGGACGCTGAACAGTCTGCGGGTTTTCCCGGCGACCAAGAAAAAGCTTGAGGCTCGCGTTTGGATGAAGGATGAGGCCGACAAGTCCATTCCCGCAACCAAATGGCTGACACCTGAGATCACTGGTGGGCCGCGCCAAGACAAGGCAAGTGAGCGCAACCTAAGGCAGCGCGGTATTCTTCCGTCCGGCAAGTACATCATGCCAGGGCGATCTGCCAAGCTGGATCAGTACGGCAATCTGCCGAAAGGCGTGATCACGAAGGCCCTGTCAGGAATTAGTGGCTTTGACCAGCGCGGCTTCAATGCGAATGCAACTGGCAGTCGTCGAAGTCGAGCCAAGGGTAATTCAAAACGCTACTTCGTGATGTATCGCGGCAAGACTCCCATCGGCATCGCTGAGCGCACTTCGCGCAATCGCATGAGCGTCTTGCTGGCATTCGTTGGCCGCCCGACCTATCCGCGTCGACTCGACTTCTACGGCATTGCTGACCAAGTAGCGGCACAGACGCTGCGCCCTGAGTTGGTCAAGGTCATCCGGCAGGCGCTCTCGACCGCCAGGTGA	MIKVTPKGAERDLARLARFESQIAFATALALTRTAQTIEGRLKQEMQNVFDRPTRWTLNSLRVFPATKKKLEARVWMKDEADKSIPATKWLTPEITGGPRQDKASERNLRQRGILPSGKYIMPGRSAKLDQYGNLPKGVITKALSGISGFDQRGFNANATGSRRSRAKGNSKRYFVMYRGKTPIGIAERTSRNRMSVLLAFVGRPTYPRRLDFYGIADQVAAQTLRPELVKVIRQALSTAR				NA	NA	NA	NA	NA
BMS010_03152	546	nohA	COG4220	Prophage DNA-packing protein NohA	ATGGCCAAGAACGAAACAACCAAGCAGCCGGGCTGGTTAAACAAGTCCGAGATGGCGAAGAGCCTCGGAATTTCGCCACAAGCCTTTGATAAATGGGGCGTTGAGCCGATTGCGCGGGCTGGAAGGGAGGCCTTCTATCGGGTGCAGGATGTCCTGCAAAACCGTCTCGACCATGCCGCACGGAAACAGCAACTCGACGGCGCCGGTACCGAAGGTATCGATCCGATGATCGAGTACAAGCTGATGCAGGAGCGTTTACGGCTCACTGCGGCCCAGGCTTACGGGCAAGAACAGAAGAACCAGGTCAACGACAAGATTCTGGTACCGGTCCCATTCGCGACCTTCGCGCTGTCCAAGATCGCCGCCCAGATTGGTTCGAAACTCGAGATCGTCGGCAAGACGGTCAGCCGCCGCCACCCGGACATCGACCCTCGGATACTCGAAACCCTGGAGCGGGAGATAGCCCTGGCCCGCAACATCGCCGCGCAGTTCGGCGACGACCTACCAGGATTCCTTGATGAGTACCTCGCAACCATGGATTCATGA	MAKNETTKQPGWLNKSEMAKSLGISPQAFDKWGVEPIARAGREAFYRVQDVLQNRLDHAARKQQLDGAGTEGIDPMIEYKLMQERLRLTAAQAYGQEQKNQVNDKILVPVPFATFALSKIAAQIGSKLEIVGKTVSRRHPDIDPRILETLEREIALARNIAAQFGDDLPGFLDEYLATMDS				NA	NA	NA	NA	NA
BMS010_03153	1917			hypothetical protein	ATGAGTACCTCGCAACCATGGATTCATGACCTCGGGAAGGCGGTCAGGCTAGGGTTGCAGGGGCTGTTCAAAGAGCCGCCCCTGACTGCGGTGGAGTGGGCAGACAAGCATTTCTATATGTCGTCCGAGTCCTCTTACTACGAGGGCAAATGGACGACCGACCCGTTTCAGGTCGCGATTCTGAACGCGATGGGCAACGACCTGATCGCAGTGGTCAACTTCGTCAAGTCGGCCCGGATCGGTTACACGAAGCTGCTCATGGCCAACATCGGCTACAAGTTGCAGCACAAGCGCCGAAACGTTGTCATGTGGAGTCCGACCGACCCCGATGCCGAGGGCATCAGCAAGCGGCACGTCGACGGGCTCATTCGCGACGTCCCGGTCGTCAAAGACCTTGCGCCCTGGTTTGGCAAGAAGCACCGGGACAACACGCTTGACCAGAAGGTTTTCTCGAACCGGAAGAGCCTGTGGGTTCGAGGCGGCAAGGCGTCGCGCAACTACCGCGAGCTGTCGGCCGATGAAGCCATCTACGACGAGCTGTCCAACTTCGATACGGACGTCGAAGGTGAGGGCGATCCTGTAACCCTTGGCGACAAGCGCCTGGATGGTGCGGTCTATCCGAAGTCGATTCGTGGTTCAACACCGAAGAAGGCCGAGAGCTGCCAGGTAACCAAGGCTGCGAGTGAGTCTCCAATCCGGCTGCGATTCCACGTTGCATGCCCGCACTGCCAGCAAGAGCAGACATTGAAGTTCGGCGGCAAGGAATGTGATTACGGACTCAAGTGGGAGAAGAACGAGCTCGGTGAACCGACCAGCGTCTGGTACATGTGCGAGCACTGCCACGAACGGTTCTACCACCAAGACATGGTAGAAGCCTCGAAGGTAGGGCGCTGGATCTGCGAATCGACCGGAATCTGGACACGCGACTCCATGGACTGGTTCGACGCATCTGGAGAGCCTACCCGCACCCCGAGATCAGTCGCCTTCTTCTGCTGGGCCATCTACAGCACCTGGTCGACGTGGACCAAGATCGCCACCGAATGGCTCAAGATCAACGGCGACCGGGAAAAGCTCATCACCTTCGTCAACACCACTCTTGGCGAGACCTGGGAAGAAGACGAAGGCGAGAAGCTCGAATGGGAAAACCTGTATGTCCGACGCGAGGCTTGGGAACTACTCCCGGCCCGCACCGTCATCCTGACGGGGTTCATCGATACCCAGGACGATCGCTTCGAGGCGCGCGTCTGGGCCTATGGCCCTGGTGAAGAGTCCTGGCTTGTAGATCGCTGGATTCTGAACGGTGATCCGGGCAGTGAAGAGCTACGCCGAAAGGTGGGGCTTAAGCTGCACGAGCAGTACCGCCGTGAAGATGGCGTCGTGATGCGAGTGGCCTTATGGGGCTGGGACTCCGGCGGCCACTACACGGATGAGGTCTACGAGGAAAGCAAGAAGCATGGCCTGCACTGGGTTATCCCCACGAAGGGGCACTCCCAGTATGGCAAGCCCATTGCTCAGTTCCCCAAGGACAAGAACAAGGCCGGCGTCTACCTGACCATGGTCGGCACCGACAACGCCAAGGAGCTGATCTACAGCCGTCTGCGCCTCCCGGTCGATGTCGTCAAATCGAAGCACGCGGACATTCAGCCAGGCGTCATTCATCTGCCGGCGAACGATGACATCTGCGACGAGACAGAGCTGAAGCAGCTCACGGCAGAGGTCAAGGTCATGAAGATCGAGAAGGGCCAGCGGGTCTCGCGGTGGGACGCCAAGGGGCGGCGCAACGAGGCCCTCGATTGCGCCGTCGGGTGCTTGGCCATGCTCCGCGTCGCACAACAGAACTTCGGCCTAGAGCTGGACCCCGAGAAATCAGCATCCCGCCCGCGTCCGGCGCGCGGCACGCGCAGCAGAGTTACCTGA	MSTSQPWIHDLGKAVRLGLQGLFKEPPLTAVEWADKHFYMSSESSYYEGKWTTDPFQVAILNAMGNDLIAVVNFVKSARIGYTKLLMANIGYKLQHKRRNVVMWSPTDPDAEGISKRHVDGLIRDVPVVKDLAPWFGKKHRDNTLDQKVFSNRKSLWVRGGKASRNYRELSADEAIYDELSNFDTDVEGEGDPVTLGDKRLDGAVYPKSIRGSTPKKAESCQVTKAASESPIRLRFHVACPHCQQEQTLKFGGKECDYGLKWEKNELGEPTSVWYMCEHCHERFYHQDMVEASKVGRWICESTGIWTRDSMDWFDASGEPTRTPRSVAFFCWAIYSTWSTWTKIATEWLKINGDREKLITFVNTTLGETWEEDEGEKLEWENLYVRREAWELLPARTVILTGFIDTQDDRFEARVWAYGPGEESWLVDRWILNGDPGSEELRRKVGLKLHEQYRREDGVVMRVALWGWDSGGHYTDEVYEESKKHGLHWVIPTKGHSQYGKPIAQFPKDKNKAGVYLTMVGTDNAKELIYSRLRLPVDVVKSKHADIQPGVIHLPANDDICDETELKQLTAEVKVMKIEKGQRVSRWDAKGRRNEALDCAVGCLAMLRVAQQNFGLELDPEKSASRPRPARGTRSRVT				NA	NA	NA	NA	NA
BMS010_03154	213			hypothetical protein	ATGACAGAAGCCGAACAGCGGTTGGCAGAGGTGCGCCAGTCCATCGCCGAAATCCTGCGCGAGGGACAACGCATCCGCAAAGCCGACCGGGAGCTGCAGCGCGCTGACCTGGCCTCCCTGCGGCAACTCGAAGACCAGTATGCCCAGCAGGTAGCTGCCGAAACGGCAGCCAAGAACCGCGGGCGCAACCGCATCAGCTACCTGAGCATCTGA	MTEAEQRLAEVRQSIAEILREGQRIRKADRELQRADLASLRQLEDQYAQQVAAETAAKNRGRNRISYLSI				NA	NA	NA	NA	NA
BMS010_03155	1611			hypothetical protein	ATGGGCATTTTTACCCGTAAGCCGCCAGAGGCGAAGCTCCTGGAGGCGGCGATCCAGTTGGCTGGGCAGCAGATGCGACCAGTCGCACAGGGCGGTGGGGGTGGCGTAGAAACGCGATGGCGTGGCGCCTCCCGCGTACTGCGCAGCATGGTCAGCTGGTTACCCGGCCTGGGTAGCCCGCGCCGCGACCTCAGCGAGCCGGAGCGCAAGGTGCTGGTTGGGCGGTCTCGCGACGCCTACCGCAACCACCTGATCGGCCGTGCCGCCATCCTGCGCAACCGGACGAGCGTGGTTGGTACCGGCCTGATCTGTCGCCCGCAAGTGGACTGGGAGGCCCTGGGTATCACCGAAGAAGAGGGCGAGCAGCTCAATGTCCTGCTCGACCGCGAATGGACGCTGTGGGCGGAGAATCCGGCCGAATGCGATGCCGAAGCCACTCTCAATCACTACCAATTGCAGGCCCTAGCGTTCGTCTCCGCGCTGCTTGGCGGTGACTCCTTTGCCGTCACCCCGACGATTGATCGGCCCGGTACCGTCTACAGCACACGCGTGCAACTGATCGAGACCGATCGCGTGTCCACGCCGCGTGGACAAATCGATAGCCTGACCCTGGTGCAGGGCGTCGAGATCGACGCCTATGGCGCACCGGTGGCCTTCCACATCTGCAACGGCTACCCGGACGAACCACTGGCAGGCCAGCAACTCAAGTGGGACAGGATTCCGGCATTTGGTGCAGAGACAGGCCGCCGCCGCGTCCTGCAGATATGGTCTGACAAGGACCGACCAGGCCAGAAGCGCGGCGCCCCGTACCTGGCGCCGGTACTTGAGCCTCTGCAGAAATTGGAACGCTACAGCAGCGCAGAGTTGATGGCCGCCGTCATCTCCGCCATGTTCACCGTGTTCCTGAAAAAGGGCAGTGCATTCCAGCCCGGCACCCTCCAAACCCAGGTCTTTGGCCAGGACCAAGCGGATGCGCCGGTGGACGACGCAGGCCCCGTGGCGCTTGGCGAAGGCGCCGTTGTAGACCTGGCGCCCGGCGAAGAGCCAATGGTGGCCAACCCGGCCAGGCCGAACGCACAGTTCGATCCGTTCTTCATGGCGATCGTCAAGGAGATCGGCGCAGCGCTGGAGGTGCCACAGGAAGAGCTGCTGCTCTTCTACTCCAGCTCGTACAGCGCTGCCCGTGCAGCCATGTTGCAGGCCTGGCGAGCCTACGCCATGCGCCGTTACTGGCTGGTCTGCGACTTCTGCCAGCCCTGCTACGAACTGGTAATCGACGAAGCCATCGCCCGCGGCCGTATCCGGGTGTCTGGTTACAGCGACCCGGCCCGCCGCCGTGCGTTGACCCGGGCTATCTGGATTGGGCCCGCCCGCGGCGCCATCGACGAATACAAGGAAGCCCAGGCTGCTGGCAAACGCATCGAGATTGGCGTCAGCAACGAGACCATCGAGACAGCCGCCATGACGGGCGAGACATGGGCCCAGGTGTTCCGCCAGCGCGCCCGCGAAGTGCAGATGCGCCGCGAAGCCGGTTTGATGACCGAGCAGGCCGCCAGCCAGGACGCGACCCAAACCGAGCCCCTCGAACTTCCGCAAGAGGACCGCCAATGA	MGIFTRKPPEAKLLEAAIQLAGQQMRPVAQGGGGGVETRWRGASRVLRSMVSWLPGLGSPRRDLSEPERKVLVGRSRDAYRNHLIGRAAILRNRTSVVGTGLICRPQVDWEALGITEEEGEQLNVLLDREWTLWAENPAECDAEATLNHYQLQALAFVSALLGGDSFAVTPTIDRPGTVYSTRVQLIETDRVSTPRGQIDSLTLVQGVEIDAYGAPVAFHICNGYPDEPLAGQQLKWDRIPAFGAETGRRRVLQIWSDKDRPGQKRGAPYLAPVLEPLQKLERYSSAELMAAVISAMFTVFLKKGSAFQPGTLQTQVFGQDQADAPVDDAGPVALGEGAVVDLAPGEEPMVANPARPNAQFDPFFMAIVKEIGAALEVPQEELLLFYSSSYSAARAAMLQAWRAYAMRRYWLVCDFCQPCYELVIDEAIARGRIRVSGYSDPARRRALTRAIWIGPARGAIDEYKEAQAAGKRIEIGVSNETIETAAMTGETWAQVFRQRAREVQMRREAGLMTEQAASQDATQTEPLELPQEDRQ				NA	NA	NA	NA	NA
BMS010_03156	1239			hypothetical protein	ATGATCAAGGCCTTCGAAATGGCGGCTGGCCGCCCATGGCTGATGCTGCCTCAGGAACTCGACAACCTCATGGCCATCGCTGACCGCATGGGCGACGCCGAGGCCTTGGAAACACGCCTGGGCCGCCCGCTCGACAACGCCCGCACAGTCACCGTGCGTGATGGTGTGGCGGTCATTCCGGTCACCGGCCCGATTTTCCGCTACGCCAATCTCTTCACCCGTATCAGCGGTGCAACGTCAACCCAGGTGCTGGCCACCGACATCCAGGCCGCCCTGGACAACCCAAACGTACGCGGGATCGTGCTGAACATCGACAGCCCTGGGGGCGAGGCCAACGGCATCAACGAGCTGTCGGACATGATCTACGCCGCCCGCACCAAGAAGCGCATCCACGCCTACGTGGGCGGCACGGCTGCCAGCGGCGGCTACTGGATCGCCAGCGCCGCCGAACAAATCATTGTCGACGACACCGGCATCGTTGGATCGATCGGCGCGGCTCTGGAGGTGCGGCTCCGCGATGAAGAGAAGGGCGGCAAGCGCTACGAGATCGTCAGCCGCAACGCGCCGAACAAGCGACCTGACATGGCCACCGAAGAAGGCCGCGCCAAGGTCGCCGAAATCATCGACGCGCTCGGGGATGTGTTCGCGGCCAAAGTCGCGCGCAACCTGGGCGTTGACCCCGAAGACGTGCCTGCCATGGGTGACCAGGGCGGCATGCGCATGGGCGCCGCCGCCGTCGAGGCCGGCCTGGCCCACCGACTGGGCTCCCTGGAGTCCGTGATCGCAGAGCTGGCCAAACCGGCCCAAGCCACCATCAGGAGAACCACCGCAATGTCCAATATCGTCGTCAAGACTACTGCCGAGTTGCACGCCGCCGTCGAGGCGGGCGCCGACCCGATGAAGATCGAGATCGCCGCGCCCGCAGAGCCTGCTGCGGAAAACATCGATGCTGAGGCCGTCAAGGCAGAAGCCATCAAGGCCGAGCGCGCCCGCGTCATGGGTATCAATGCCCTGGCGGCTGCCGGATTCGAAAAGGAGATCCAGGCCGCCATCGACGATGGCAGTTCCGTCGAGGCCACCGCCCTCAGCCTGTACAAGGTCGCTCAGGATCGCGGCATCACCCTGGCCGCAATCAAGCGCGACGGGCAAGGCGCTTCCGGTGCCACGCCGCCGGCGGCCAAGGCCGGCGAGGGTTTCTCCACCAAGGCCATCTGGGACTCCCGCAAGGGCGTGAAATAA	MIKAFEMAAGRPWLMLPQELDNLMAIADRMGDAEALETRLGRPLDNARTVTVRDGVAVIPVTGPIFRYANLFTRISGATSTQVLATDIQAALDNPNVRGIVLNIDSPGGEANGINELSDMIYAARTKKRIHAYVGGTAASGGYWIASAAEQIIVDDTGIVGSIGAALEVRLRDEEKGGKRYEIVSRNAPNKRPDMATEEGRAKVAEIIDALGDVFAAKVARNLGVDPEDVPAMGDQGGMRMGAAAVEAGLAHRLGSLESVIAELAKPAQATIRRTTAMSNIVVKTTAELHAAVEAGADPMKIEIAAPAEPAAENIDAEAVKAEAIKAERARVMGINALAAAGFEKEIQAAIDDGSSVEATALSLYKVAQDRGITLAAIKRDGQGASGATPPAAKAGEGFSTKAIWDSRKGVK				NA	NA	NA	NA	NA
BMS010_03157	354			hypothetical protein	ATGAGCTACGAAATCGTCACCATGGGCGCCCGCAACGCCGAGTTCCTGCTAAGCGAAGCCAACGGCGAACGCTCCCGGGAAGAAATCACCCTGGCCGCCACCACCGTCAAGATCGAGGCGGGCACCGTGCTGGGTAAGGTCACCGCAACCGGGCATTACGCCCCCTATGACGCGGAGGCAACCGACGGCAGCGAGACTGCCGCGGCCATCCTCTACGCCACCAAACCCATCTCCACGGCCACCCAGGCCGCCACCGTCATTGTCCGTGACGCCGAGGTGATCGAAGAACTGTTGATTGGTTCCGACGCCGATGGCGTGGCCGATCTGGCGGCGCTGGGCATCATCGTCCGCTGA	MSYEIVTMGARNAEFLLSEANGERSREEITLAATTVKIEAGTVLGKVTATGHYAPYDAEATDGSETAAAILYATKPISTATQAATVIVRDAEVIEELLIGSDADGVADLAALGIIVR				NA	NA	NA	NA	NA
BMS010_03158	1008			hypothetical protein	ATGCCCGAATTGAACATCTTCGAAGACGAGGCTTTCAGTACCATCAGCCTCACCAAGGCCATCAACACCTCGCCGGAAGGCCAGCGCGTGCCTACGCTGCTGGACGCTCTGTTCGAGGAAGAAGGCATCCGCACCACCTCGCTCTTTATCGAGCGCGACAACGACAGCCTGGCCCTCGTCCCGGCCCGTGACCGCGGCGCGCCGGCGGATGTAACCGTAGGCACGAAGCGCGACAAGGTGCCGTTCCAGACGTTCCACCTGCCGACCCGTGCCGCCATCATGGCGGACGAAGTCCAGGGCATCCGCGCCTTCGGTTCGGAGACGGAACTGGAATCGGTGCAAGACTTGGTCAACAAGCGCTTGACCAAGATGCGCCGCCGCATCGAGGCCACCATCCGGTTCCAGCGCGCTGGCGCGCTTACCGGCAAGATCCTCGACGCCGATGGCACCACCGAACTGCTGGACCTGTTCGCCCGCTTCGGCATCACCCAGCAGACCCAGAACATGGTGCTTGGGACCTCCACCACCAAGGTTCTTCAGAAGATCATCGACGCCAAGCGCAAGGCGGAAGACGCCATCGGCGACAGCGGCGTGATCACCGGCTGGCTGGCTGTCTGCGGTCGCTCGTTCTTCGACGACTTCTCCAACCATGACGCGACCGAGAAGGCCTTCGATCGCTGGCAGGATGGCCAGTTCCTGCGCGAGGACAAGACCCGCACCGGATTTATGTTCGGCGGCGTCGAATGGCAGGAGTACTACGGCAAGGTCGGTGGTGTCGACTTCATCGACACCAACGTAGCCTACTTGGTCCCGCTCGGCGTTGAAGGGTTGTTCGCCACCAACTATGCCCCGGCTGACTACATGGAAACGGTCAACACCGTGGGCGTGCCGTTCTACGCCAGCCAGGAGCCGATGCCGCACAACAAGGGCATCGACATGGAGGCGCAGTCCAACCCGGTGAGCATCTGCACCCGCCCGCGTGCAGTCATCAAGCTGACCAAGTCCTGA	MPELNIFEDEAFSTISLTKAINTSPEGQRVPTLLDALFEEEGIRTTSLFIERDNDSLALVPARDRGAPADVTVGTKRDKVPFQTFHLPTRAAIMADEVQGIRAFGSETELESVQDLVNKRLTKMRRRIEATIRFQRAGALTGKILDADGTTELLDLFARFGITQQTQNMVLGTSTTKVLQKIIDAKRKAEDAIGDSGVITGWLAVCGRSFFDDFSNHDATEKAFDRWQDGQFLREDKTRTGFMFGGVEWQEYYGKVGGVDFIDTNVAYLVPLGVEGLFATNYAPADYMETVNTVGVPFYASQEPMPHNKGIDMEAQSNPVSICTRPRAVIKLTKS				NA	NA	NA	NA	NA
BMS010_03159	303			hypothetical protein	ATGTTCGGCGATTTCGGCGGCGCCATCATGAAGGCGCTCCAGGATGGAACCGGCGACTACTACGCCAAGGACGGCGCTCGCCAGGCTCAGGCCATCGAGCTGATGGTCGATCACAACCTCGAACGGGTCGGGCCGGAAGGAGTGCTTATTACCGCCGCCATCGCCATTACCTGGCACAAGGCGGCGCTGTGCTCAGTCGAGCGCGGCGGCGTGTTCCTGTTCGGTGGGGCCCGCTACGTCGTTGAAGAGCCAATCGCTGACGACGGCGAGATGGTTTCGGCTGTCTGCATGGAGCTGAAATGA	MFGDFGGAIMKALQDGTGDYYAKDGARQAQAIELMVDHNLERVGPEGVLITAAIAITWHKAALCSVERGGVFLFGGARYVVEEPIADDGEMVSAVCMELK				NA	NA	NA	NA	NA
BMS010_03160	459			hypothetical protein	ATGAGCAACGTCATCACCGAATGCCGGCTGGCGCTCAAGGCGCGTCTGGAGACCATCCAGGTATCCAACGGCTACCTCACAAACGTCGGCGCCAACGTGCACACCGGTTGGCTCAAGGAGGTTCTCGCCGCCGACAAGGTCGGGTACCCGCTGGTCTGCATCCAGCGTGGCAAGGGCCTGCCGCCGGAGAAAGGGCAGAACGCCTGGAAAACCTTCCCTGGCTACCTGGTGATCGGCGCGGTCAGCGCGGGGCTTGACGAATACGAGGACGACATCGAAGCGCTCGAGCTGGACCTGATGCGCTGCCTCATGCCGGCCTTTGCCCAGCACCTGGACTGGCTGCCCCCGGGCGTGCCGACCCTGCGCATGGGCGAACCGGAAACCCTCCCGCCCGGAGATGGCGTTCCTGTCGCCACCATCCTGATCCCGATCTACCCCGTCACCTTCATCGAACAGTAA	MSNVITECRLALKARLETIQVSNGYLTNVGANVHTGWLKEVLAADKVGYPLVCIQRGKGLPPEKGQNAWKTFPGYLVIGAVSAGLDEYEDDIEALELDLMRCLMPAFAQHLDWLPPGVPTLRMGEPETLPPGDGVPVATILIPIYPVTFIEQ				NA	NA	NA	NA	NA
BMS010_03161	774			hypothetical protein	ATGGCACGTACCGTAGAAACCTTCGTCGTCGGCGGCATCATCAAGATGCGCGAAGCCGGCACCGGCGGCCCGTTCACCGATGCTGGCCTCGCCAGCACCTACCAGCAAACCCACGAGACCACCGAGCTGCGCCTGGAGAACACCCGCACCCCGCTGGGTGGAACCTTCGACAAGCTCGACAAGGTCACCTCCATGAACCTCGCGATCAATTTCCGCGAGTTCAACACCATGAACCTCTCCAACCTGCTGTGGGCGGACATCACTGAGGTTCCCTCGGCCGCCGTCACCGCCGAGGTGCAGATTGTCCAGGTCGGCAAGACCACCATGCTCGACAAGATGCCGCTGACCATCACCACCGTTGTGGATGATGCCACTGGCCTGGAAGAGTTCGACGAAGACATCGACTACAAGATGACCGGCGCCGGTATCGAAGTGCTGGAAGGCAGCGCCTTGGCCACCGCCATCGGTTCGTCCACCGACTACAAGGTGCGCGTCACCTACACCTGCGCCGCCTACGACGAGATCGAGGCCCTGACCAATAGCGGCAAGGAGTGGGAAATCCTCTTCGAAGGCGCGAACGCCGTCGGCACCAAGAAGCGCGTCAACAACCTCTACTTCCGCTGCAAATTCGGTCCGGCCGAAAGCCTGGACTGGATCTCCGTCGAAGACTTCATGGGCATGCAGGCAACCTGCGAAGTGCTGGCGGACGACACTCGCATCGGCGGCGGCCTGTCGCAGTACATGAAGGTTCGCAAGGAAAAGGCCGCGGCGTAA	MARTVETFVVGGIIKMREAGTGGPFTDAGLASTYQQTHETTELRLENTRTPLGGTFDKLDKVTSMNLAINFREFNTMNLSNLLWADITEVPSAAVTAEVQIVQVGKTTMLDKMPLTITTVVDDATGLEEFDEDIDYKMTGAGIEVLEGSALATAIGSSTDYKVRVTYTCAAYDEIEALTNSGKEWEILFEGANAVGTKKRVNNLYFRCKFGPAESLDWISVEDFMGMQATCEVLADDTRIGGGLSQYMKVRKEKAAA				NA	NA	NA	NA	NA
BMS010_03162	303			hypothetical protein	ATGGCAAGCGCTGAAGCGTCTGTAGTTAGAAAGATTGCAGGAAAAGAGATTATCGTGCGTGAACTTACTGTTGCGGATGCGAGAGTGATGTTCATGGCGAATATGTCTGACGATGTTATAGGGGAAATGCTGTTTGCAGAGTGTTCACTGGCTGACATTGTCAGAATGACAAATCTAACCAGGGAAGAGCTTGACACTATGCGGCCAAGTGAGGTGAAACAAGTGTTGAGCTGGTGCAAGGAGCAGAACCAAGATTTTTTCGGAATGCTGACCCGGCTGGAAAAAGCCAGGTCAGCGCACTGA	MASAEASVVRKIAGKEIIVRELTVADARVMFMANMSDDVIGEMLFAECSLADIVRMTNLTREELDTMRPSEVKQVLSWCKEQNQDFFGMLTRLEKARSAH				NA	NA	NA	NA	NA
BMS010_03163	2541			hypothetical protein	ATGACAGACTTCGAAGTTCGCCTGACGGCTGATGCCGACAAGGCCACCAAGGAAATCGCCGGATTCCGCAAGGAATACGTCGACATGGTGAAGACTGTCGAGAAGCCGCTGCGGCAGATTGACGCTTTCAAGGAAACGCAGGAGGGCGCTAAGAAAGCAGCGGCTGAGTACTTCGCGGCAAAGCGTAAGGTTGAACAGCTCACAACTGCAATGGCGGCAGCCAAGCAGCCGGTGCAGGGCCTGGATCGGGAGCTGGCAAAAGCTGAGCGTACCCTGGCACGAGTATCGCTGGAGTTTGATCGCCAAAAGGGCAAGATCCGGCAGGAGCGCGGTGAGCTTCGTGCAGCTGGAGTCGATACCCGCAATCTTGCCGCTGAACAGAGCCGACTACAGAAAGAACTTACCAAGGGACTTGCTGCTGGTCGAAATGATCAGGCGATAGCGTCTCTTCGGATGCGCCGAGCTGAGTTGAAGCAGGTTGCGCTTGCCCAGCGCCAAGCGAATTCCGAAACGGCTAAGAGCGCACTTGGAATAACCCGTTTTCGCGAAGCTAATCAGGCATTAGTTGCCCTGCGCCAGCAATACGAATCGCTCCGTAGATCAGGAGTGCTGAGCACTCAGGAGCTTGCCGTCGCGCAGCGACAATTGAAGAAACGTATTGCTGAGACAAAGGCCGAGCTTTCTGGATTGCAGGGTGGATTTGATGTTGCCGGAGGCAAAGGAGGTCGGCTCGGCGGCGGCGCTAAGGCAGGTGCTGCTGGTGCTATCATCTTGGGCGCCGCCAGTATAGCCGAAACGGCACAAGGTGCTGATGAAGTTGGGCGGCTGGATGCGATGTTGCGCTTGGCGACACAATCGCAAGAACAGTTCAACCGCGCGCAGTTGGAGTTGGACCGTATCGCCGACACCGTTCAAGGCGATGTGTCTGACCTAGTAGTCCTTTACGGAAAACTGCAGCGTCCGCTTCGAGAGCTGGGATACGACCAGCAGGCAGCCTTGGATGTTGTTGAGGCTGTGACTCTCTCTCTAAAAATTAGTGGCGCCACAGCTGACGAGTCTGCCGGCGCGGTAAGGCAGTTTGCCCAAGCCTTAGCGAGTGGTGAGTTGCGTGGTGATGAGTTCAATAGTGTTATTGAACAATCGGATCGTCTGGCCGGTGCTCTAGCAGATAGTTTAGGTGTAACTGTCGGAGAACTTAGGGCGCTGGCAAAAGACGGAAAACTTACAACAGATGTTATCGTTAGGGCGCTCCAAGAGTCACTTCCTCAGATGAAGCAGGAGTTCTCCACTTTTGCGCCCGAGATTTTTGCCGGTTTGAATCGGATTGCCGTTGAATCTAAACGAGCAGCTGGGCGTCTGGCGAAAGAGTCTGGGCTTACTGACTATATCGCCGGGCTTATTAACGATGTTGCTAAGGGTATAAACAGTGCCGGAAATCTAATCTCCGATGCTGATGAAAAGTTGACGGAAGATCAGCGCGAGCAACATTCGATTCGACAGGAGCTTCTTAAGCAAGAGAAGGAATCACGTAAGGCTTGGTCAGATGATGTAAGCAAGACAATAGAGTATGTATCTGAATCATACAAGAAAGCGATCAATGAACAGGAGTCAGCGGAGCAAAAGCAACTCACTGCCATTGCAAAGCTTAGGGATGATCGGCTCGATATTGAGAGAAAATACGCTAAAGCGATTGCACAACTTAATAGCGGCTCCGGTGGGGTTGCATCGTTCGCGACCGCAAACGACCTGAAGGTCGGCGCAAGGGAAGCGCTTCGCCGTGGCGATTTTGAAACTGCCAAGAGTCAAGCTGATGCCGCTCTGGAAATGTTGCTGGAACTGCAGCGGGCTGGTGAGAACACCTATGGACTTTCGGGTTTTGCCAAGGAACTTCAGGCCATAGAGTTGGAAGCGAAAAAGCTTGAATCATCTGAGGCTGATCGAAAACTTCAAACCCTCCGGATCAATATCGCTACCCTAAAAGACTCTGCTGATCAACTGAAGGACATTAAGGTTGTCCCAAATATGGATCAGGCTGCTGCTAATCAAGTCATTGATGAAGTGAAGAAACTGGCCGAAAAAATTGGCCAGGAGTTGGTAATTCGGCCACGAGTGGTACCGGGTGAAGCGGATTCGGATGGATATGTTTACGTCCCCAACAACCCTCCAGCTCCCGGCTTCGCCGATGGCGGAAGGATTGCCGGCGCCGGCACTGGTACCAGCGACAGCATCCTGATGTGGGGCTCGAACGGCGAGTTCATGCAGCCGGCCAGGGCTGTGAAGTACTACGGTGAGGGTTTCATGGAGAGCATCCGCCAGATGCGTTTCCCGCGCTTCGCCGAGGGCGGGATGGTGGGCACCAGGGCGCTTCCCGCTATCCCTGCATTCAACCCCGCCGATCTCGCACCTGCAAACCCACTGGCGGACTTCGGCACCGTGCAGCTAGGCGTTGGCGGCGACGTGCTCGAAGTGCTGATGCGCCGCGACACCTTCGAGCAAACCCTTCGCCGTACAGCCACCAAGTTCGGCCGCACTAAGCGCTGA	MTDFEVRLTADADKATKEIAGFRKEYVDMVKTVEKPLRQIDAFKETQEGAKKAAAEYFAAKRKVEQLTTAMAAAKQPVQGLDRELAKAERTLARVSLEFDRQKGKIRQERGELRAAGVDTRNLAAEQSRLQKELTKGLAAGRNDQAIASLRMRRAELKQVALAQRQANSETAKSALGITRFREANQALVALRQQYESLRRSGVLSTQELAVAQRQLKKRIAETKAELSGLQGGFDVAGGKGGRLGGGAKAGAAGAIILGAASIAETAQGADEVGRLDAMLRLATQSQEQFNRAQLELDRIADTVQGDVSDLVVLYGKLQRPLRELGYDQQAALDVVEAVTLSLKISGATADESAGAVRQFAQALASGELRGDEFNSVIEQSDRLAGALADSLGVTVGELRALAKDGKLTTDVIVRALQESLPQMKQEFSTFAPEIFAGLNRIAVESKRAAGRLAKESGLTDYIAGLINDVAKGINSAGNLISDADEKLTEDQREQHSIRQELLKQEKESRKAWSDDVSKTIEYVSESYKKAINEQESAEQKQLTAIAKLRDDRLDIERKYAKAIAQLNSGSGGVASFATANDLKVGAREALRRGDFETAKSQADAALEMLLELQRAGENTYGLSGFAKELQAIELEAKKLESSEADRKLQTLRINIATLKDSADQLKDIKVVPNMDQAAANQVIDEVKKLAEKIGQELVIRPRVVPGEADSDGYVYVPNNPPAPGFADGGRIAGAGTGTSDSILMWGSNGEFMQPARAVKYYGEGFMESIRQMRFPRFAEGGMVGTRALPAIPAFNPADLAPANPLADFGTVQLGVGGDVLEVLMRRDTFEQTLRRTATKFGRTKR				NA	NA	NA	NA	NA
BMS010_03164	510			hypothetical protein	ATGCCAATGCCCAAGGTCATGCTCGGCGGCGTGCCGATCGAGCTGCATTCCGGCGCGCCCGATGAATCCACCCAGCCCATTGGTGGCTCGACGGTGCTGCGCCTGAGCGACGGCGCTGCCGTGAAGATGACTCACTGGCGGAAGGCCGCCGGAACCATCTCCGGCACCGGCTGGATGCCGCCCGCTCTCGACGGCTTGGATTACAGCCAGCCCCTGGAGCTGCGCACCACCCAGGTATCCAGCATCAGCGGCACGGCCACCACCTACACCCTGACCAGCACGCCACGCCCGGACGACACGCCCTGGGCTGAAGCGCTGGTGGGCGACACCTGGGTGTCGACCGCCAGCAGCGTGACGGACGGCGTGATCACGATCACTCCCGTCACCGGTGCAATCCGGTACCGCGCCTGCTGGTTCCCGGTCTACTCCGTGGTTGCCGAACCGGCGCAACGCTCGCAGAGCAGCTCGACCAACGCCCACGGCTGGTCCATCACCTGGGAAGAGGCCTGA	MPMPKVMLGGVPIELHSGAPDESTQPIGGSTVLRLSDGAAVKMTHWRKAAGTISGTGWMPPALDGLDYSQPLELRTTQVSSISGTATTYTLTSTPRPDDTPWAEALVGDTWVSTASSVTDGVITITPVTGAIRYRACWFPVYSVVAEPAQRSQSSSTNAHGWSITWEEA				NA	NA	NA	NA	NA
BMS010_03165	1746			hypothetical protein	ATGCTCAACGGCTTTCCCCTCAACAGCGCTCCGCTCAACAGCCTGGGTGCTGGTGCAGCCGAACCGGAATACATAGTGCGCGGCTTCGCCTTCGTCTGGCGCATCCGGCTGATGGTCAACGGCGTGGACATGAGTGCGCAGCTCACTGGTGCCGGCGACACGGACCGGGAGGAGGGTGCTGCTGGAGTTGGCGGTTTCGACCTGTACATTCCTGATGGTCCGGTGGTGCCGACCGATTGGGTTGGCCGCTCGGTCACCATCGACTACATCAGCAGCACCGGTGGTGTCACCACTGAGCAGCGCCTGCTGACCGGCGTGATCGCCACGGTGCCGGCCTGGGACCCGACGTCTCGCGTCCTGGGCTGCGAATGCACCGACCGTTTGCAGCAGCGCATCGAGGCGCTGACTGTGGCGGAGGTGGATGCCCTGGTGGTGGGCACTTGGTCGGCCGACATCTATGAGCCCGCCGCTGGGCGTAGCCGCTGGGACTATGCACAGGAGAGGCTGGCGTCGAGGACTGCCAGCCTGGACTGCTCTGCCACGGGCGAGTTGCGTGTGACCGACTGGTTTGCCACGCCGGGCGGTTTCGTGTTCGGGCCGGGTACGACGCTCTACGGCTCTGTCAGTGTCGAACTGGCGGAGGTGGATAGTGTCACCAATCGCGTCGAGATCGAAACGGAGTACCGCTATAGCCGGTTGCGCCAGTTCAGCACCACGTATTCCTGGTCGGCGCCGGCCGGTTCGTTTTGTGCGTGGCGCCTGGACAGCCATGAGCTGCCGGACATCGACATGGTGATCAGCGCCACCGAGGGCGCTGGATTGGTCCCGGTGAGTGCGTCCTGGGGGCGGTTGCCGCCCACCGATCCAGACCCCTGCGGCACCGGGTCGCCCTGGATCAATTCGGCCACTGACGTGCTCTGGGCGGCGAGTTGGACCGGGGCTGTGCGCTGGGTGCAGACGGTCACCGAGACCTACACGTTGACGCTGACCACGGGTGCCGGCGAGGTGGAGGTCACGCGCATCATCCGCCGCGCCGGGCAGTCCTTCGAGGTCGAGAGCGGCGAGGCGGATGGGTGGCCGGGGAGTCTCCAGCCGATCACCGTCTCCGGTACCGGCAGCACCGCGATCCGAGACCCAAAGCCGGGCTATGGGCCGCCGGGCGACCGCGACGATGAGGCCCGCCGAGTGGCTGGTCTGGCGTGCCAACTGCACACGGGCAGGGCAGAGGTGATCGCCGATCACCGGCGCAACAGCGTGACCTGGAGCGTCCCGGCCAGCATGGCCATGGGCATCGATCTGGTGCATACGCTGGAGATCGACGATCAGGGTGTGCATGCCCGCGGCAAATGCCGGCGCCTGCAATTCGCCTGGGACCTGGGATCAGGTGAGGCCCTGGCCACCCTGAGCATTGCGATCATGCGTGCAACCGGCGTCGAGGTGCCGAACGACCCGCTGACCATCCCGGCGCGCCCGGGTGCGGCCAGTGAGGGCGATGCCGATGGCGTGGGTACTGTCGATGCGTTGCCGACACAGCTCGGCGGCAAACTCACCAGCCCGCCGTATAACGACGAGCTGGAAGGGTTCGCCGGCAACTATTCGATCCCTCAGGACACGGCGCTGGAGTCATTCCCGCGGCGGCTTACCATCGACTCGATCGAGATCCCGGCCGAGGATACCGACGAGCTGACGCTGGCGGCCAACGTGGTCTACCGCGTCCATATACCGAACGACATGCTGGAGATGTGA	MLNGFPLNSAPLNSLGAGAAEPEYIVRGFAFVWRIRLMVNGVDMSAQLTGAGDTDREEGAAGVGGFDLYIPDGPVVPTDWVGRSVTIDYISSTGGVTTEQRLLTGVIATVPAWDPTSRVLGCECTDRLQQRIEALTVAEVDALVVGTWSADIYEPAAGRSRWDYAQERLASRTASLDCSATGELRVTDWFATPGGFVFGPGTTLYGSVSVELAEVDSVTNRVEIETEYRYSRLRQFSTTYSWSAPAGSFCAWRLDSHELPDIDMVISATEGAGLVPVSASWGRLPPTDPDPCGTGSPWINSATDVLWAASWTGAVRWVQTVTETYTLTLTTGAGEVEVTRIIRRAGQSFEVESGEADGWPGSLQPITVSGTGSTAIRDPKPGYGPPGDRDDEARRVAGLACQLHTGRAEVIADHRRNSVTWSVPASMAMGIDLVHTLEIDDQGVHARGKCRRLQFAWDLGSGEALATLSIAIMRATGVEVPNDPLTIPARPGAASEGDADGVGTVDALPTQLGGKLTSPPYNDELEGFAGNYSIPQDTALESFPRRLTIDSIEIPAEDTDELTLAANVVYRVHIPNDMLEM				NA	NA	NA	NA	NA
BMS010_03166	441			hypothetical protein	ATGGCCCTGGGAGATGAACGCCGCGCCATTGGCCGGCGCAATGAAGCTGCGAGGCGTGCGGCAGGCGATGCTCTGGAGCGTGCCCGTCGGGCCGGTGGAACTCGCATGGAGGCGGATCGACGCGGCGTCGATCTGGTTGAGGACATCAACCGGATTACCAAACCGCCGGTTCCTCGCCGCACCCTCCGTCCGGTTGCCCCTGTGGGTGGCATCCCCACGCAGCGGGGACGTGCGGATTACAAGCCGAGGTCTGATATGGGGCAGGGCGCCGCGGGTATCGCCAGCCCGGTGACCGAGCCGTCGTTCGACGCGCGTGAGTGGTGGCCTGGTGGTTGGCCGAGCAATGACGGGCTGCTGGTCCTGCCTGCTGTGAAACGCATGGTGATGCAGGACGCCAACGGCGCGGAGGTGATTTTCGAGTACGCGGAGCCGACTGCATGA	MALGDERRAIGRRNEAARRAAGDALERARRAGGTRMEADRRGVDLVEDINRITKPPVPRRTLRPVAPVGGIPTQRGRADYKPRSDMGQGAAGIASPVTEPSFDAREWWPGGWPSNDGLLVLPAVKRMVMQDANGAEVIFEYAEPTA				NA	NA	NA	NA	NA
BMS010_03167	1635			hypothetical protein	ATGAGCAGGACCTGGGGGAATCCGTTTCGCGGATTGGTTCGGGGTGGCCAGTTGTTGCTGCCCAACGGCCAGATGCGAGGCGTTCGGCAGCCTGATGGGAGCAATATCCGCCGCGACGATTACGGCCAGACGCTGCTGCAACGCGGGCAAACGCCTTACGTGGTGCGTACCGAGGAAGAGCAGCTCATCGATGCGGAGCGGGGCTACACCTGGCGCACGGATGCGATTCTCAGCGGTGGCTCGTTCGATCTCTATGGCCGCAGTTTCAACGGTTTCGTGTACTGCGCTGCGGATGGGTCGCGCTGGTGGGTGGATGGATTCCTTCCCTCGGTCACAACGACCGTCCCGCTGGACCTCACGTTGACGGTTCGGCGTTTCGGAGAGTGGGGTGGTGCGCTGGATGAGCGCTCGATCAGTGCCACGCTGGCCGACCTCGGCCAGGCCGATGTAGATCCAGCCCAGCCGGTCAGTACCCTGGCGGACATGGCAGTCTGCGACATCACCCCGGATGGCAGCCGGGCATTGATCATGCTTTACCTGCCTCGGTCGGTTGTCGAGGGATGGGGCGAGGGCACCACCAACATCGGCCGGCATCCGTTGGGCTGGCTCGAGCTGACATTGAGTGGCGGTGATGAGGGGGTCACCGCCAGCCTGACGGTAGTACGGACGCGCGCGCAGACGCTGGGTGTCCAGGTGAATGCCACGAACCTATCCGGCTCCGGCAGTCTGACGCTTGCCGGACAGGTCACGACCACCGAGGATTTCGGCTCATATTCGATCAGCACTACGACCTGGCAGGCCGGCTCCGGTAGCGCATACAACTACCAATGGCTGAGTGTCGAGCGTGAACTCTCCATCACCGGCCGGTTGCTCGCGCTGTGGTACTCCGCCGGCGGTGGCCTGGATGAGGTCTCTCTCGACTATGCCTGGTCGGAATCGGGTGGCAATGCCGTACCGGTGGAGACCTACAGCGGCCAGTACGTGGTGCGGACGGAAAGTGGCGGCGGTTCGACCGTGCTGGAGGCCACGCTGTTCCAGCGCGTGACGCGCTCCGCCCAACTGGATGGCCTGTACAGCCTGCGACTGAAGTTCAATGGGGCGGTAATTGATTCGGTCACCGGCACGGCGACCAATGCCATGGCGATGGTGAACACGCTGGTTGACCAGCAGGCCACTCCCGAGCGCCGCACTACCATCACTGCATCCGGTACAGTCGATGGCCAGAGCAGCAGTCGTACCTATAACGCCCCGCTGAACCCTGACGGAAGCCCCATCGGCGCATGGGATACCTCGGGGCTCGCGCCATTTTTCTCCGGGTCTACCACAAACATGGCTCGCGTTGCCGCGCTCAGCAGCAACATGGGCGCCGAGATATTCATGGATGAGTGGGTTCGCAACCAGGCGATTCCGCGGCGCTATTCGAACAACCTGATCGCCCTGGCCATCAGTACGGGGCCGTTCAACTTTGATACCGGCAGCTACGTGCTCGTGACCCGAACCGGTCCGGCCGCCCACCCAGGTGGTGTGCATGCCGACGGCATGCCAAGCGGTGCAGCCAGCCGTTGGTATGGCAGCTACAACCCCGCCACCGGTGAGGTGGTGAGAGACCAGGCCGAACCCGTCTGCTGGATCTGA	MSRTWGNPFRGLVRGGQLLLPNGQMRGVRQPDGSNIRRDDYGQTLLQRGQTPYVVRTEEEQLIDAERGYTWRTDAILSGGSFDLYGRSFNGFVYCAADGSRWWVDGFLPSVTTTVPLDLTLTVRRFGEWGGALDERSISATLADLGQADVDPAQPVSTLADMAVCDITPDGSRALIMLYLPRSVVEGWGEGTTNIGRHPLGWLELTLSGGDEGVTASLTVVRTRAQTLGVQVNATNLSGSGSLTLAGQVTTTEDFGSYSISTTTWQAGSGSAYNYQWLSVERELSITGRLLALWYSAGGGLDEVSLDYAWSESGGNAVPVETYSGQYVVRTESGGGSTVLEATLFQRVTRSAQLDGLYSLRLKFNGAVIDSVTGTATNAMAMVNTLVDQQATPERRTTITASGTVDGQSSSRTYNAPLNPDGSPIGAWDTSGLAPFFSGSTTNMARVAALSSNMGAEIFMDEWVRNQAIPRRYSNNLIALAISTGPFNFDTGSYVLVTRTGPAAHPGGVHADGMPSGAASRWYGSYNPATGEVVRDQAEPVCWI				NA	NA	NA	NA	NA
BMS010_03168	396			hypothetical protein	ATGACGTTCATCAACCACTGGTGGCGGGCGCTTGCCCTGCCTGCCGGCGCGGACTCGCTCGCGCTCGATTTGCCGGACGGGACGTACCGGCTCACGTGGACCGACGCGGTCGGGATATCCGCGACTCGATGGGAAATCGTCGAGGCGGTCGTTGCCGCGGGCGAGGCGACGCTAACCCGTGGCCTTGAAGGCACCGACGACCAGGAGTGGTCGGCTACCAGCATCGCCTACTGCGACCTCACCGCCGGCACCCTGAATTCTATGCTCGCCCAGCTGGCCGACCTGCAGGCGCGGGTCGCCGCCCTGGAGAGCGGCGGCATCCCTGATGGGGCGCTCGTCGATGGGGCTGGCAACTACCTGGTCGACGACCAGGGTAACTACCTGACAGGAGTTTGA	MTFINHWWRALALPAGADSLALDLPDGTYRLTWTDAVGISATRWEIVEAVVAAGEATLTRGLEGTDDQEWSATSIAYCDLTAGTLNSMLAQLADLQARVAALESGGIPDGALVDGAGNYLVDDQGNYLTGV				NA	NA	NA	NA	NA
BMS010_03169	504			hypothetical protein	ATGGCTGTGATCGAACACGTGCTGACCGGCGCCGTTGCGCCTGCTTCCGCCCCGCCTAGCGTCGGTGCGCATTACGTGAATACCGCCACCGGCGATATCTACATTGCGCGCGGTACCGCCTCGGTCTCCGATTGGGGGAGTCCGTTGGCTGCCGAGGACCTCCTCGTCTATACCGGCGGAGGCCCGTTGAACGTCGACGGTTCGGCTCGTCGGGTGGTCTGGCTGATCGGCAGTGCGCCGACCGACGGCAGAGTGGTCGCTCAGATGCCTGCCGAGGCGTTCGTTGCCTTTGAGGTGGCAATCGTCAACCAGTCTGCGGCGCCTGTGGATATCGATTTCGTGGACGGCTCGGGGGATGGTTTTGTCCAGCTCAGCTCGCTGAATAATCACGTCAATCACAATGCGGGCCCAGGGGAGGCTATAGGTCAGCCGCTGGCCAAGGTCGTTGGTTTGCCGTGGGTGGCGAGGGACTGGTTCTACCTGTTCCTCAATGGTGGGGAGTGA	MAVIEHVLTGAVAPASAPPSVGAHYVNTATGDIYIARGTASVSDWGSPLAAEDLLVYTGGGPLNVDGSARRVVWLIGSAPTDGRVVAQMPAEAFVAFEVAIVNQSAAPVDIDFVDGSGDGFVQLSSLNNHVNHNAGPGEAIGQPLAKVVGLPWVARDWFYLFLNGGE				NA	NA	NA	NA	NA
BMS010_03170	549			hypothetical protein	ATGGAGCCGATCCGGACGGATCTCCATGTGATCCCAGGGACCACCTACCGCGACGTGGTGCGGCTGATGCAGCCGGCCTATGCGTACCAGTCGATTACGGCAATCGGTGGCGCACCGTTGCGTCTGACTGTACCAGGGCATGGGTTCTCCACAGCCTGGGCGGTTTGGGTTCGCGGTGCGGTCGGTATGCCCGCCCTCAACCGCGAGCCGCGCCGCGAGGCCCCTCACCGGGTGACTGTCGTCGATGCCGACACGTTGGAAATCAACGCCCTGTCGGCCACCGGCCTCAACCCAACGGGCGGCGAGCTGATTCATCTGTTGCCCGTCGACTTGACTGGTGCCCAGGTCGTGATGGCCTGGACCCGTAATGGCGTACCTCTGTTCAGCCTGTCCCTCGGCGCCGGCCTGGTCGAGCAGGGGCCGGGCTCGGTGGAGCGGACCCTGTCGCCATCCCAGACCTCCCAGCTCTGGGCCGGCGATCACTACACGATGGACGTGCAATACAGCAACGGCGACGTCATTCGCTATTTCGAGGGCCAGATGGCATGA	MEPIRTDLHVIPGTTYRDVVRLMQPAYAYQSITAIGGAPLRLTVPGHGFSTAWAVWVRGAVGMPALNREPRREAPHRVTVVDADTLEINALSATGLNPTGGELIHLLPVDLTGAQVVMAWTRNGVPLFSLSLGAGLVEQGPGSVERTLSPSQTSQLWAGDHYTMDVQYSNGDVIRYFEGQMA				NA	NA	NA	NA	NA
BMS010_03171	507			hypothetical protein	ATGACCGATCAGACGTATCTGGCCGTGCTGGAAGTCAGGGACGTCGAGACCGCCGAAATCACCCGTGAGTATTGCGCTGCACTGGAGCAGTCAGAGGTGGCGTTGCTCACCCTGGGCGAGCAAGGGCCACCTGGTCCTGCCGGCGAGCCAGGCCCGGAGGGCGGCACCTCGCTGCCGCGGCTTGCGGGCGAGGTGCTCAGCGCCCTGCGCGTGGTGTACGAGCTGGACGGCGTGGTGCGCATCCTCGACTACCGGGATGCGGCTCATATCGACCTGCTGCTCGGCATCACCCTGACGGCTGCCGACCCTGGTATCCCCGTCAACGTGCAGCGCACTGGCGTCATCGAGGACAGCAGCTGGACCTGGACGCCCGGCCCAGTGTGGCTCGGGGCCAATGGCGACCTGACTCAAATTCCACCGGATGACGGCTACGACGTGCTGCTCGGCGCAGCGATGTCGGCCACCCGCATCACCCTGGACCTACAACCCCCTATCCAACTGGAGTAG	MTDQTYLAVLEVRDVETAEITREYCAALEQSEVALLTLGEQGPPGPAGEPGPEGGTSLPRLAGEVLSALRVVYELDGVVRILDYRDAAHIDLLLGITLTAADPGIPVNVQRTGVIEDSSWTWTPGPVWLGANGDLTQIPPDDGYDVLLGAAMSATRITLDLQPPIQLE				NA	NA	NA	NA	NA
BMS010_03172	519			hypothetical protein	ATGGCTCAAGGCTTTTTGGCTCGTATCGCGGGCCGCACCCAGCAGATTTTTGCGACTGTCGTCAGCGCTGGCGCCGCCAGTGCCGGCGAAATCCCGGCTCTTGGTCCGGATGGTCGTTTGGACGACAGCCTGCTGCCCCCCGGCGTCGGTGCCAATACCAACCAAGCCACCGCCAGCGAGCTGCTCGGCGCCGGCAAATACGTCCAGTTCCATGACGACGGCGGCACGTTCGCCGCTCGCCTGGCCGACAACAGCAACGGTCGTCCCGCTGACGGTTTTGTCCTGGAGGAGGTCGCGCTGGGTCAGCCTGCCACCGTCTACCCGCTCGATGCGGTCAACGCCGCCCTTACCGGGCTGACCGTTGGCGGACGCTACTGGCTCGGCACGGCAGGCGGCGTGATCGCTGTCCCGCTCGATGAAACCGATGCGGCGAACGCGAACAAAATTTCTCAGTACCTGGGCGTGGCGAAATCCGCCACCGAACTGATCACCGAAGACGACGGCTACGTGGTGCTCTAA	MAQGFLARIAGRTQQIFATVVSAGAASAGEIPALGPDGRLDDSLLPPGVGANTNQATASELLGAGKYVQFHDDGGTFAARLADNSNGRPADGFVLEEVALGQPATVYPLDAVNAALTGLTVGGRYWLGTAGGVIAVPLDETDAANANKISQYLGVAKSATELITEDDGYVVL				NA	NA	NA	NA	NA
BMS010_03173	1596			hypothetical protein	ATGGCGCAACGCAAACCATTGGTGTGGATCGGCGGCCGGCGCCGGCAGCTCCCAGCCGGCGACACACTCGCCGGCGCGGAGCCGCCTATCGAGGCCGGCGATACCCAGCAGTATTACCGGGGTGACAAATCCTGGGCCAGCCTGGCCAGCGCCGTGCGCGCGGTGGTGCTGACGGGGCTCTCGACGGCGACCAATGCGGCGATCACGGCTACGGATACGGTCCTTCAGGCGCTGGGGAAACTGCAGGCGCAGCTGAATGCCAAGGCGCCCTTGAGCAACCCGGAGTTTTCTCCGTTCGTGAAGGTGACAAATGCTGGGAACTCCGGGTTTGCGCTTCGGAACAGCAACCTGTCTCTGCCGGATTACTCGAGTCTGATCTTCGGCCCGTCTCTTGATACCGATGAGTTTGGACGGGTCAGCCTCAACTCCTCCGCAAACGGCGGCATGGCGTTCAATGGATTTACCAACGCCGCGAACGCTGCGGCTGTGCCATTGACGTTCATCGGATATCACGGCCATACCGCCCCCACTGCAGCGGCGATTGAGTTCTGGGGTTGGAAACACAATGGAGGGACGAGCAGGACAACGCTGGCCGATAACGAAATCCTGTGGCAGGTGCGCAATGGCACTACCCAGAGGGTACGCATCCTGGGCGATGGCACGTTTCTGCCTGTCGCTGACAACGCATCAGACCTGGGGCTTAGCACCAACAGGTTTCGAGTCGTTTACGCGGTAACAACGGAGACCAGAATTCCTAAGGTCATAGGTGATAGCAGCGGAAACGCTAACGTCGCGACCATTCAGTTCTACGAAGGTGATCGATCAACCCGCAAAGGGTTCGTAGGCGACGCAAGCGCCAGCAACAGCGACTTTTACGTAGGCGCTGACGCCGGGAGCGTGGTGCTCTGGATTCAGGGAACCGTGCGCCTGACCGCTCACACGACCGGAGTAACCATCAACGGCGAATTGATATGCCCGAGCAACACGCGGGCGGCAAACCACTTGCTTACGGGCAACGCCATAGAGCTGGGTAATTACGGGACCGGTGATCGCTCGTGCTTTCTGGATTTCCACTCGGACGACACGAACACAGACCACTCAGCCCGGATAATCCGGAACTCTGGAGTAAACGGCACGCTGGATATTCGGAATATCGGCAGCGGTAACGTGCTGGTGCGCAGCGCTGGTGGAACTGTTGTTCTTCACTACAACGACTCGGCGCGCATGACGATGACGTCGACCGGTGTGGATATAACCGGCATCGTCAATTCGTACGGCCTATCTCCTCTGGTAACGGTCAGCGCCACCAGCAAAACTTTCGCCCTGTCCGACGCCGGCACGTATCAGCGATTCACCAGCGGCTCGGCCACCACCTGCACAGTTCCGACCAACGCCAGCGTGGCGTATCCGATTGGCTCGGAAATCCATATCCGCCGCGCCGCCGCCGCGAACCTGACCATCGTCCCGGCGTCAGGGGCGGTGACGATTGAGGCGGCGTCTGGGGGGAGCCTGGTTTTGACCAATGGCATGACCGTTACCCTGAAAAAGGTCGGCACTGACACCTGGGACCTGATCGGTCAAACGGTGCCGGCATGA	MAQRKPLVWIGGRRRQLPAGDTLAGAEPPIEAGDTQQYYRGDKSWASLASAVRAVVLTGLSTATNAAITATDTVLQALGKLQAQLNAKAPLSNPEFSPFVKVTNAGNSGFALRNSNLSLPDYSSLIFGPSLDTDEFGRVSLNSSANGGMAFNGFTNAANAAAVPLTFIGYHGHTAPTAAAIEFWGWKHNGGTSRTTLADNEILWQVRNGTTQRVRILGDGTFLPVADNASDLGLSTNRFRVVYAVTTETRIPKVIGDSSGNANVATIQFYEGDRSTRKGFVGDASASNSDFYVGADAGSVVLWIQGTVRLTAHTTGVTINGELICPSNTRAANHLLTGNAIELGNYGTGDRSCFLDFHSDDTNTDHSARIIRNSGVNGTLDIRNIGSGNVLVRSAGGTVVLHYNDSARMTMTSTGVDITGIVNSYGLSPLVTVSATSKTFALSDAGTYQRFTSGSATTCTVPTNASVAYPIGSEIHIRRAAAANLTIVPASGAVTIEAASGGSLVLTNGMTVTLKKVGTDTWDLIGQTVPA				NA	NA	NA	NA	NA
BMS010_03174	408			hypothetical protein	ATGATTCCCGGGATTGTCGCAGGGTTCCCCAAGCCGGCCGTGTACGCGATCACCATCACCGGCGCGAACGCAGGGAACAGTGCCGGATTCTTGCGCTCCTCTGGTCAGGGCTCCATCGATCCGGCCTACGCCAACATCGACCAGGTCACTACCACGCAGGATGCAATGGGGCAAATCAACCAATTCCGGGCTGTGCAAAACGAAGGGACCGGAGCCTGGACTACGACGATGACACTGGTCGGCACCTACGCCAATGCCGCTGCCGTCCCGTTCACCACCCTGACGCGCGATGGGATCAGCTACCCGAAGTCGGGCGCTACGTTTTCCACCGGCGGTGGGTTTACCACCTTCACCTGGGCCAACAAACAGGTCAGCAACGGCGCGTACCCTCTGATCATCACGCCGTAA	MIPGIVAGFPKPAVYAITITGANAGNSAGFLRSSGQGSIDPAYANIDQVTTTQDAMGQINQFRAVQNEGTGAWTTTMTLVGTYANAAAVPFTTLTRDGISYPKSGATFSTGGGFTTFTWANKQVSNGAYPLIITP				NA	NA	NA	NA	NA
BMS010_03175	492			hypothetical protein	ATGACCCTCACTGAAATTCGTGAGCGGGCCATTGCGCCTGCTCTCGCGTTGCTGCCTGCGCAAATGACGAGCCGAGAGGCCGAGGTGATGCTCCTGGCGATCGGTTTACAGGAGAGCAGGTTCGAGTATCGCCGCCAGATCGGTGGCCCGGCCCGCGGATATTTCCAATTCGAGCTTGGGACGCGCTCCAGCCGGGGAGGAGTGTGGGGCGTATATCTGCACCGTGCCACGTCTGACCTGCTGCGATATCTGTGCCAGGCGCGGAATGTCCTGTTCGAACCCGCGGCGATCTATGCGGCAATCGAGCACGATGATGTGCTGGCGGCCGTCCTGGCTCGGCTGCTGCTGTGGACTGACCCTAAACCTCTCCCGGCGCTGGGCGAGATGGCTGTGGCATGGGAACTCTACATGCGCACATGGCGACCGGGGAAACCTCATCGCCGGACCTGGGACGTGATGTACGGGCAGGCAATGGATGAGGTGGCGCCGTGA	MTLTEIRERAIAPALALLPAQMTSREAEVMLLAIGLQESRFEYRRQIGGPARGYFQFELGTRSSRGGVWGVYLHRATSDLLRYLCQARNVLFEPAAIYAAIEHDDVLAAVLARLLLWTDPKPLPALGEMAVAWELYMRTWRPGKPHRRTWDVMYGQAMDEVAP				NA	NA	NA	NA	NA
BMS010_03176	510			hypothetical protein	GTGAACTGGGTATCTCTAGTCCCATCCTGGGTGTGGTGGCTGCTGGCCGTCCTGGTCGTTGGTGGAGCCCAACAGGCAAGGGTAGTGTTGATCAAGGGTGATTTGGCAGACGCTCGGACCGATCTGGCTGACTATCGGGTGGAGGTGGCGGAGAGGGACAGGCGTGCCACCCTGGAGGCGCTGCGCGAGAGCAAGCGCCGGCTGGCGGCAATTGATGAGGTGACGAGAGATGCGACCGAAAAACTGGAGTCTGCCCGCGCTGACGCTGATCGGGCTGGCGATGCTCTCGGCCGGCTGCAGCAGCAATACGCCGACCTTGAGCGACGCAGCCGAGTCTGCGGCAATACCATCACTGCCCAGCTCAGCGAGGCAGCAGAAACCGCCGCACGAATGCGTGCCGACATGTTCGGCAGGATTGGAGAGGCTGCTCGACTCTATGCTGCCGAGGCAGATCGGAGAGGAGTAGCGGGGGCAGCCTGTGAGCGCGCCTACGATTCACTCAGTCGCTAG	MNWVSLVPSWVWWLLAVLVVGGAQQARVVLIKGDLADARTDLADYRVEVAERDRRATLEALRESKRRLAAIDEVTRDATEKLESARADADRAGDALGRLQQQYADLERRSRVCGNTITAQLSEAAETAARMRADMFGRIGEAARLYAAEADRRGVAGAACERAYDSLSR				NA	NA	NA	NA	NA
BMS010_03177	210			hypothetical protein	ATGAAGCCTGACGCCTCCCTCCACAATCCGGACCCGTGCTACCTGCGCGGGCTCAGGGAGTCAGCCAGACTCACTCAGAAACAACTGGCAGAGCGCCTTGGCATGGGACGAAGAATGATCCAGTACTACGAGGCCGACGAAGGCGAATCGAGCCATCGCACGGCACCGTATCTGTACCAGTACGCCCTAGAACGCCTAGCGACTGAGTGA	MKPDASLHNPDPCYLRGLRESARLTQKQLAERLGMGRRMIQYYEADEGESSHRTAPYLYQYALERLATE				NA	NA	NA	NA	NA
BMS010_03178	243			hypothetical protein	ATGAGCACTATCGAACAATCTGCGAACGCCATTGTAGGTCAGGTTGAGGCCAATCAGGATCTTCCTGCTAATGAGTACGTCAAGCCGCTTGCTTCGGCTTTTTTCTGCGGTGCGGCGCTGGCCAAGAACCAAAAGTTCGGAACCCCGCTCCCGGCCGACTATCGACCAGTAGACGCATTCAGCTACGACGAACAGAAATCGTTCAACGCTGGATTTGATTCGGCAATGTTTGACCGCGTATGA	MSTIEQSANAIVGQVEANQDLPANEYVKPLASAFFCGAALAKNQKFGTPLPADYRPVDAFSYDEQKSFNAGFDSAMFDRV				NA	NA	NA	NA	NA
BMS010_03179	249			hypothetical protein	ATGAGCACGCCAGCTAGAGACGTATCCCTGAAGATCGCCCAAGACGGCAAGCTGGTGGCATGCTCAGGCAGTGTGATCGGCGAAGGCTACACAATTCTTGATGTGCCGGGAGACGTGAGCATCACTGATGTGATCCTGCAAATGTCCAAGGTTGTAATCATGCCTCTGCGCAGCCAAGCAGTACCATGGGAGTCAGTGGTCGGTAAGCCGCAGGGAGCAATTGTCAATTTAAACATCAAGACACACTAA	MSTPARDVSLKIAQDGKLVACSGSVIGEGYTILDVPGDVSITDVILQMSKVVIMPLRSQAVPWESVVGKPQGAIVNLNIKTH				NA	NA	NA	NA	NA
BMS010_03180	303			hypothetical protein	ATGAGCATCCAAGTCACCAGCACCAACGGTCGCACCATCAACCTGGAAATCGAAGGTTCCTCCGTGGTTGCCTCTAGCGGCCCCATCAAGTTCATGGCCGACCGGACTCAAAATGGCTTCCAAAGCCGCTTCCTGGTCGAAGCGGCCGGCAACCATCGAATCGAAGTGAGCCTGACCGGCAAAGACCTGGACGTTGCCAATGCTCTTTTCGACGAACTAGCCGCGGGCATCGAAGAGAACGCCGCCATGCATAGTGAGCTGGATGCCAATCGCGCACGTGTACTTAAGGGGATGAACGCATGA	MSIQVTSTNGRTINLEIEGSSVVASSGPIKFMADRTQNGFQSRFLVEAAGNHRIEVSLTGKDLDVANALFDELAAGIEENAAMHSELDANRARVLKGMNA				NA	NA	NA	NA	NA
BMS010_03181	177			hypothetical protein	ATGGCTAAGAAAATATCTGACCGCCGGCGCCATGCGCTGGCCCAACGCAGCACGGAAAGAGCAAAGAAGCTCCACCTGGATCTCGACGATAGCGAGCTGATCAACCATATCCGCGCGAAAGCAGCCAGCTATATCGCCAACAACCCGCAACCAACCGCCGTTTACTTATTGGGGTGA	MAKKISDRRRHALAQRSTERAKKLHLDLDDSELINHIRAKAASYIANNPQPTAVYLLG				NA	NA	NA	NA	NA
BMS010_03182	1311	tig_1	COG0544	Trigger factor	ATGCAAGTTTCTGTTGAAAGCACCTCCGCTCTTGAGCGCCGCATGACTATCGGTGTCCCGGCCGAGCGCATCGAGACCGAAGTCAACAAGCGTCTGCAGCAGACTGCCCGTCGTGCCAAGATCCCTGGCTTCCGTCCTGGCAAGGTGCCGATGAGTGTTATTCGTCAGCGTTATGAGGATGCCGCTCGTCAGGAAGCGCTGGGCGATGTGATCCAGGCAACTTTCTATGAGGCTGTCGTCGAGCAGAAGCTGAACCCGGCTGGCGCTCCTGCCGTTGAGCCCAAGGTGTTCGAAAAAGGCAAGGACCTTGAGTACATTGCCACCTTCGAGGTTTTCCCTGAGTTCCAGGTTTCCGGTCTGGAGAGTATCGAGGTCGAGCGTCTGCAGGCCGACGTTGCCGACTCCGACATCGACAACATGCTGGAAATCCTGCGCAAGCAGAACACTCGCTTCGAGAAGGTTGAGCGCGAAGCGCAGAACGGCGACCAGTTGAATATCGATTTCGTCGGCAAGATCGACGGCGAAGCCTTCGCTGGCGGCTCTGCCAAGGGCACCTCCCTGGTGCTGGGTTCCGGCCGCATGATCCCTGGCTTCGAAGAGGCTCTGGTGGGCGTGAAGGCGGGTGAGGAGCGAGTGATCAACCCGACTTTCCCCGAGGACTATCAGAATCTTGATCTGGCCGGCAAAACTGCTGAGTTCACCGTTACTGTAAACAGTGTTTCCGAGCCCAAACTGCCCGAAATGAACGACGAGTTCTTCTCGCTGTTCGGTATCAAGGAAGGCGGTCTCGAAGGTTTCCGTGCTGAAGTTCGCAAAAACATGGAGCGTGAACTGCGCCAGGCCATCAAGGCCAAGGTGAAGAGCCAGGTTATGGACGGTCTGCTGGCCGCCAATCCGATCGAGGTTCCGAAGGCGCTGTTGTCCAACGAAGTGGATCGTCTGCGCGTGCAGGCTGTTCAGCAGTTCGGCGGCAACATCAAGCCGGATCAGCTGCCGGCCGAGCTGTTCGAAGAGCAGGCCAAGCGTCGTGTCGTGCTGGGCTTGATCGTGGCGGAAATGGTCAAGCAGTTCGAGATCAAGCCTGACGAGGTGCGTGTTCGTGAGCTGATCCAGGAAATGGCTTCCGCTTACCAGGAGCCTGAGCAGGTCGTGGCCTGGTACTACAAGAACGAGCAGCAAATGAACGAAGTGCGTTCGGTTGTGCTGGAAGAGCAAGTTGTAGATACTGTTCTGCAGAAGGCCAAAGTGACCGATAAAGCGGTCTCCTACGAAGAAGCTGTCAAGCCGGTGGAAGCTCCGCAAGCCGCCTGA	MQVSVESTSALERRMTIGVPAERIETEVNKRLQQTARRAKIPGFRPGKVPMSVIRQRYEDAARQEALGDVIQATFYEAVVEQKLNPAGAPAVEPKVFEKGKDLEYIATFEVFPEFQVSGLESIEVERLQADVADSDIDNMLEILRKQNTRFEKVEREAQNGDQLNIDFVGKIDGEAFAGGSAKGTSLVLGSGRMIPGFEEALVGVKAGEERVINPTFPEDYQNLDLAGKTAEFTVTVNSVSEPKLPEMNDEFFSLFGIKEGGLEGFRAEVRKNMERELRQAIKAKVKSQVMDGLLAANPIEVPKALLSNEVDRLRVQAVQQFGGNIKPDQLPAELFEEQAKRRVVLGLIVAEMVKQFEIKPDEVRVRELIQEMASAYQEPEQVVAWYYKNEQQMNEVRSVVLEEQVVDTVLQKAKVTDKAVSYEEAVKPVEAPQAA				NA	NA	NA	NA	NA
BMS010_03183	639	clpP_2	COG0740	ATP-dependent Clp protease proteolytic subunit	ATGTCCCGCAATTCTTTTATGCAAATGCCTGACATCCAAGCCGCTGGCGGCCTGGTGCCGATGGTTATCGAGCAGTCCGCCCGTGGCGAACGTGCCTATGACATCTATTCGCGCCTGTTGAAGGAGCGAGTGATCTTCATGGTCGGCCAAGTCGAGGACTACATGGCCAACCTGATCGTGGCGCAGCTTTTGTTCCTCGAGGCGGAGAATCCGGACAAGGATATTCACCTCTACATCAACTCTCCGGGCGGTTCGGTGACAGCGGGCATGTCGATCTACGACACCATGCAGTTCATCAAGCCGGATGTTTCCACCATCTGTATCGGCCAGGCCTGTAGCATGGGAGCCTTGCTGCTGGCGGGTGGGGCTGCCGGCAAGCGTTATTGCCTGCCGCATTCGCGGATGATGATTCACCAGCCGCTGGGCGGGTTCCAGGGGCAGGCCTCGGACATCGAGATCCATGCCCGCGAAATTCTCACCATTCGCGAGCGCCTGAACAAAATCCTGGCCGACCATACAGGTCAGCCGATCGATGTCATTGCCCGCGACACTGATCGTGACAATTTCATGAGCGGCGACGATGCCGTCAAATATGGCCTTATCGATCAGGTGCTTAGCCAGCGTCAGATGGCCAGCTAA	MSRNSFMQMPDIQAAGGLVPMVIEQSARGERAYDIYSRLLKERVIFMVGQVEDYMANLIVAQLLFLEAENPDKDIHLYINSPGGSVTAGMSIYDTMQFIKPDVSTICIGQACSMGALLLAGGAAGKRYCLPHSRMMIHQPLGGFQGQASDIEIHAREILTIRERLNKILADHTGQPIDVIARDTDRDNFMSGDDAVKYGLIDQVLSQRQMAS	PGPT0014595_3831	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014595-clpP-K01358	NA	NA
BMS010_03184	1281	clpX_1	COG1219	ATP-dependent Clp protease ATP-binding subunit ClpX	ATGACTGACACCCGTAACGGTGAGGACAACGGCAAACTGCTTTATTGCTCCTTCTGCGGCAAAAGCCAGCATGAAGTGCGCAAGTTGATTGCCGGGCCCTCGGTTTTCATCTGCGACGAGTGCGTCGACCTGTGCAATGACATCATCCGAGAGGAGGTGCAAGAGGCCCAGGCCGAGAGCAGCGCGCATAAGCTCCCGGCGCCGAAAGAAATCAGCACCATCCTCGATCAGTACGTGATCGGTCAGGAGCGTGCGAAGAAGGTGCTTTCCGTCGCGGTCTACAACCACTACAAGCGCCTCAACCAGCGCGACAAGAAAGACGATGTCGAGCTGGGCAAGAGCAACATCCTGCTGATTGGGCCGACCGGATCGGGCAAGACGCTGCTTGCCGAGACCCTGGCGCGCCTGCTCAACGTACCGTTCACCATTGCCGATGCCACGACTCTGACCGAGGCCGGTTATGTGGGTGAGGACGTCGAGAACATCATTCAGAAGTTGTTACAGAAGTGCGATTACGATGTGGAAAAGGCCCAGATGGGCATCGTCTATATCGACGAAATCGATAAGATTTCGCGTAAATCGGACAATCCATCGATTACTCGCGACGTGTCGGGCGAGGGCGTTCAGCAGGCCCTGCTGAAACTGATCGAGGGTACTGTCGCTTCGGTTCCTCCGCAGGGCGGCCGCAAGCATCCGCAGCAGGAGTTCCTCCAGGTCGATACGCGCAACATTCTCTTCATCTGCGGCGGTGCGTTCTCTGGATTGGAAAAAGTCATCCAGAACCGTTCTACCAAGGGTGGTATCGGGTTCAATGCCGAGGTGCGCAGCAAGGATCTTGGCAAGCGTGTCGGCGAAGCCTTGCGCGAAGTGGAGCCGGACGATCTGGTCAAGTTCGGCCTGATTCCCGAGTTTGTCGGTCGCCTGCCTGTCATCGCCACGCTGGATGAGCTGGACGAAGCGGCGCTCATGCAGATTCTCACCGAACCGAAGAATGCGCTGACCAAGCAGTACGGCAAGCTCTTCGAAATGGAAGGGGTGGATCTGGAATTCCGCCCGGACGCGCTTCGTGCCGTCGCTCATCGCGCGCTCGAGCGCAAGACGGGGGCCCGCGGCTTGCGTTCCATCCTCGAGGGTATTCTGCTCGACACCATGTACGAGATTCCGTCGCAGACAGATGTCAGCAAGGTGGTGATCGACGAGAGTGTCATCGAAGGCACTTCCAAGCCGTTGCTCATCTATGAGAACAGCGAGCCTCCAGCCAAGGCTGCGCCTGAGGCGTAA	MTDTRNGEDNGKLLYCSFCGKSQHEVRKLIAGPSVFICDECVDLCNDIIREEVQEAQAESSAHKLPAPKEISTILDQYVIGQERAKKVLSVAVYNHYKRLNQRDKKDDVELGKSNILLIGPTGSGKTLLAETLARLLNVPFTIADATTLTEAGYVGEDVENIIQKLLQKCDYDVEKAQMGIVYIDEIDKISRKSDNPSITRDVSGEGVQQALLKLIEGTVASVPPQGGRKHPQQEFLQVDTRNILFICGGAFSGLEKVIQNRSTKGGIGFNAEVRSKDLGKRVGEALREVEPDDLVKFGLIPEFVGRLPVIATLDELDEAALMQILTEPKNALTKQYGKLFEMEGVDLEFRPDALRAVAHRALERKTGARGLRSILEGILLDTMYEIPSQTDVSKVVIDESVIEGTSKPLLIYENSEPPAKAAPEA	PGPT0014600_2212	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0014600-clpX-K03544	NA	NA
BMS010_03185	2397	lon_1	COG0466	Lon protease	ATGAAGACAACCATCGAATTGCCTCTCCTGCCGCTCCGCGATGTCGTGGTGTATCCGCACATGGTGATTCCGCTCTTCGTTGGGCGTGAAAAATCCATCGAGGCCTTGGAAGCTGCAATGACCGGGGACAAGCAGATTCTCCTGCTGGCCCAGAAGAATCCGGCGGATGACGATCCCGGTGAGGATGCGCTTTATCGGATGGGAACGGTCGCTACCGTGCTGCAGCTGCTCAAGCTTCCGGATGGCACTGTCAAGGTGTTGGTGGAAGGGGAGCAGCGCGGTGCGATCGAGCGCTTCATCGAGGTGGATGGCCATTGCCGCGCCGAAGTGACATTGATCGAAGAAGCGAACACGGCCGAGCGCGAATCCGAAGTATTCACCCGTAGCCTGCTCAGCCAGTTCGAGCAATACGTTCAGTTGGGCAAGAAGGTTCCTGCCGAAGTGCTCTCGTCGCTAAACAGCATCGATGAGCCGAGCCGTCTGGTCGACACCATGGCCGCACACATGGCGCTGAAGATCGAGCAGAAACAGGAAATCCTGGAGATCACGGATCTGTCGGCGCGTGTCGAGCATGTGCTGGCCTTGTTGGATGCCGAAATCGATCTTCTGCAGGTCGAGAAACGCATCCGCGGGCGTGTGAAGAAGCAGATGGAGCGAAGCCAGCGTGAGTACTACCTGAATGAGCAGATGAAGGCCATTCAGAAAGAGCTGGGCGACATCGATGAAGGTCATAACGAAATCGATGAGTTGAAGAAGCGCATCGAGAATGCAGGCCTCACTAAAGAAGCCTATTCCAAGGCCCAGGCTGAGCTGAACAAGTTGAAGCAGATGTCGCCGATGTCTGCCGAGGCGACAGTGGTGCGCTCTTACATCGACTGGTTGGTCAACGTGCCCTGGAAGGCGGAAAGCAAGGTGCGTCTGGACCTGGCCAAGGCCGAGGATATCCTCGATGCGGATCACTACGGCCTCGAAGAGGTCAAGGAGCGCATCCTCGAATATCTCGCCGTACAGAAGCGCGTGAAGAAGCTGAAAGGGCCTGTGCTCTGCCTGGTCGGGCCACCTGGGGTCGGTAAGACGTCTCTTGCGGAATCCATCGCTCGTGCAACCAATCGCAAGTTCGTTCGAATGGCGTTGGGCGGTGTGCGTGATGAGGCGGAGATTCGTGGTCACCGTCGGACCTACATCGGCTCCATGCCGGGGCGTTTGATTCAAAAAATGACCAAGGTCGCGGTGCGCAACCCGCTGTTCCTGCTCGACGAAATCGACAAGATGGGCAGCGACATGCGCGGTGATCCGGCGTCTGCACTGCTGGAAGTGCTCGATCCCGAGCAGAATCACAATTTCAACGATCATTACCTGGAGGTGGATTACGACCTCTCCGATGTAATGTTCCTCTGCACCGCCAACTCGATGAACATTCCGGCCCCCTTGCTGGATCGAATGGAAGTCATACGCCTACCGGGGTACACCGAGGACGAAAAGGTCAATATCGCGGTGAAATACCTGGCTCCCAAGCAGACCCAGGCAAACGGGTTGAAAAAGGGCGAGTTGGAGTTCGAAGAAGCGGCTATTCGCGACATCATTCGTTATTACACGCGTGAAGCTGGCGTGCGTAGCCTTGAGCGGCAGATCGCCAAGGTGTGTCGGAAGGCCGTTAAAGAACACGCCCAGGAAAAGCGTTTCAAGGTGTTGGTGACCGCCGACGACCTTGAGCATTTCCTCGGGGTGCGCAAATACCGTTACGGGCTGGCTGGGCAGCAGGACCAGATCGGTCAGGTCACCGGCTTGGCCTGGACTCAGGTAGGGGGTGAGTTGCTGACCATTGAGGCGGCTGTCGTTCCTGGTAAAGGACAGTTGACCAAGACCGGTTCGCTGGGTGACGTAATGGTCGAATCCATTACGGCAGCGCTAACTGTGGTTCGTAGTCGTGCGAAAAGTCTGGGAATTCCGCTAGATTTCCACGAAAAACGAGACGTTCACATCCACATGCCGGAAGGGGCAACGCCCAAGGATGGCCCTAGTGCCGGTGTCGGTATGTGCACAGCGTTGGTTTCCGCGTTGACTCAGATTCCAGTGAAAGCGGATGTCGCGATGACTGGGGAAATCACTTTGCGTGGTCAAGTTTTGGCTATCGGCGGTTTAAAAGAGAAATTGCTCGCCGCACATCGTGGCGGAATCAAGACTGTGATCATTCCGGAAGAAAACGTTCGTGATTTGAAGGAAATTCCGGAAAATATTAAGCAAGACCTGCAGATTAAACCGGTTAAATGGATTGACGAGGTCCTGCAAATTGCGCTGCAATACGCCCCGGAGCCCTTGCCCGATGCGGCTCCGGAGATGGTTGCAAAGGATGACGCGCGCGAGTCTGATTCCAAGGAGCGAATTAGCACGCATTAG	MKTTIELPLLPLRDVVVYPHMVIPLFVGREKSIEALEAAMTGDKQILLLAQKNPADDDPGEDALYRMGTVATVLQLLKLPDGTVKVLVEGEQRGAIERFIEVDGHCRAEVTLIEEANTAERESEVFTRSLLSQFEQYVQLGKKVPAEVLSSLNSIDEPSRLVDTMAAHMALKIEQKQEILEITDLSARVEHVLALLDAEIDLLQVEKRIRGRVKKQMERSQREYYLNEQMKAIQKELGDIDEGHNEIDELKKRIENAGLTKEAYSKAQAELNKLKQMSPMSAEATVVRSYIDWLVNVPWKAESKVRLDLAKAEDILDADHYGLEEVKERILEYLAVQKRVKKLKGPVLCLVGPPGVGKTSLAESIARATNRKFVRMALGGVRDEAEIRGHRRTYIGSMPGRLIQKMTKVAVRNPLFLLDEIDKMGSDMRGDPASALLEVLDPEQNHNFNDHYLEVDYDLSDVMFLCTANSMNIPAPLLDRMEVIRLPGYTEDEKVNIAVKYLAPKQTQANGLKKGELEFEEAAIRDIIRYYTREAGVRSLERQIAKVCRKAVKEHAQEKRFKVLVTADDLEHFLGVRKYRYGLAGQQDQIGQVTGLAWTQVGGELLTIEAAVVPGKGQLTKTGSLGDVMVESITAALTVVRSRAKSLGIPLDFHEKRDVHIHMPEGATPKDGPSAGVGMCTALVSALTQIPVKADVAMTGEITLRGQVLAIGGLKEKLLAAHRGGIKTVIIPEENVRDLKEIPENIKQDLQIKPVKWIDEVLQIALQYAPEPLPDAAPEMVAKDDARESDSKERISTH	PGPT0014315_3291	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014315-lon-K01338	NA	NA
BMS010_03186	273	hupB_1	COG0776	DNA-binding protein HU-beta	GTGAACAAGTCGGAACTGGTTGATCGTATCGCCGCATCTGCTGATATTCCTAAAGCTGTTGCCGGCCGCGCGCTGGACGCAGTGATCGAGTCCGTCACTGGCGCTCTGAAGGCTGGTGATTCCGTTGTGCTGGTTGGTTTCGGCACTTTCGCCGTCAAAGAGCGCGCTGCTCGTACCGGCCGTAACCCGCAGACCGGCAAGCCGATCAAAATCGAAGCGGCCAAGATCCCTGGCTTCAAAGCAGGTAAAGCACTGAAAGACGCTGTCAACTAA	MNKSELVDRIAASADIPKAVAGRALDAVIESVTGALKAGDSVVLVGFGTFAVKERAARTGRNPQTGKPIKIEAAKIPGFKAGKALKDAVN				NA	NA	NA	NA	NA
BMS010_03188	1869	ppiD	COG0760	Peptidyl-prolyl cis-trans isomerase D	ATGCTGCAGAACATCAGGGACAATTCACAGGGTTGGATTGCCAAGACCATCATCGGTGTCATCGTCGTGTTGTTGGCGCTGACAGGCTTCGACGCGATTTTCAATGCCACGAGCAACCGCCAGAACGCCGCCGACGTGAATGGTGAAAAAATCACCATCAATGAGCTGAGCCAGGCGGTGGATATGCAACGCCGTCAGTTGTTGCAACAACTCGGCAAGGACTTCGATGCCTCGCAGCTTAACGATAATCTGCTGCGGGAAGCCGCGCTGAAAGGATTGATCGAGCGCAGGCTGCTACTCCAGGGGGCCAAGGAGGCGGATTTCGCCTTCTCCCAGGCGGCTCTCGATCAGCTCATTCTGCAGACTCCGGAATTCCAAGTGGATGGCAAGTTCAGTGCCGATCGCTTCGATCAGGTCATTCGCCAAATGGGTTATGGGCGCCTGCAGTTCCGTCGGATGCTCGAAGAGGAAATGCTGATCAGCCAGCTACGGGCAGGGCTTGCGGGTAGTGGCTTCGTGACCGATGAAGAGGCCCAGGCTTTCGCCCGGCTCGAAAAGCAGACGCGTGACTTCGCCATGCTCACGATCAAGGCGGACGCCGCCTCCGCCCAGGTCAGCGATGATGAGATCAAGGCTTATTACGATGAGCATGCCAGTGAATTCATGAGTCCAGAGCAGGTGGTTCTCGAGTACGTTGAGCTGAAGAAAGATGCTTTCTTCGATCAGGTCGAAGCGAAGGATGCTGACCTGCAAGAGCTGTACAAGAAGGAAATCGCCAATTTGGCCGAGCAGCGTCGTGCGGCACATATTCTGGTCGAGGTGAATGACCAGATGAATGACGATCAGGCCAAGGCGAAGATTTCGGAGATCAAGAAGCGTCTGGATGCCGGTGAAGATTTCGCGACATTGGCGAAGGAATTCTCCGATGACTCGGGTTCCGCTACCGAGGGCGGCGATCTCGGCTATGCCGGCCCTGGCGTTTACGACCCGGCATTCGAGGAAGCGCTGTATGCGCTGCAGAAGGATCAGGTCTCGGAACCGGTTCGCAGTGAGTTCGGTTGGCATTTGATCAAGCTGCTGGATGTCCAGGCTCCGGAAGTGCCGAGCTTCGATAGCCTGAAGGACAAGTTGGAGCGCGAGGTCAAGGCTCAGTTGGTCGAGCAGCGTTTCGTCGAAGCGACCAAAGAGCTCGAAGACGCCGCATTCGAGGCGTCCGATCTGGCCCAGCCGGCCCAGGAGCTTGGTCTGGAGGTTAAGACCACAGCGCCGTTCGGCCGCGAAGGGGGAGAGGGCATCGCTGCCAATCGCCAAGTCTTGCAGGCGGCTTTCAGCCCGGAAGTCCTGGAAGAGGCCGCCAACAGTTCGGCAATCGAACTGGACCCGGATACGGTCGTCGTGGTTCGTGCTAAGGAGCACAAGCAGCCGGAGCAGCTTCCGCTCGATCAGGTGGCTGGAACTGTTCGCGAACATCTGTTGCAGCAGCATGCCAGCGAAGCGGCCAAGCAGAAGGGTGAGGCATTGTTGGCCGATCTGCGCGAAGGTAAGATTTCGGCCAATGAGGCGGGGCAGGAGTGGAAAGTCACCGAAGCCGCAACTCGCTCGCAGGAAGGTGTCGATCCTCAGGTTCTGCAGACCCTGTTCCGCATGCCCAAGCCGGAGTCTGGCGATAAGCCGAGCTTCGCATCGGTCACGCTGAGAAACGGCGACTATGTGCTGATTCGCTTGAACGGTGTGAGCGAGCCGGAAGGAACGCTGTCGGATGAGGAGAAAGCCATGTATCGACGCTTCCTCGCGTCTCGCAGTGGCCAGCAGGACTTCGCAGCCTATCGCCGTCAGCTGGAAGCCAAGGCAGATATCGAGCGTTTCTAA	MLQNIRDNSQGWIAKTIIGVIVVLLALTGFDAIFNATSNRQNAADVNGEKITINELSQAVDMQRRQLLQQLGKDFDASQLNDNLLREAALKGLIERRLLLQGAKEADFAFSQAALDQLILQTPEFQVDGKFSADRFDQVIRQMGYGRLQFRRMLEEEMLISQLRAGLAGSGFVTDEEAQAFARLEKQTRDFAMLTIKADAASAQVSDDEIKAYYDEHASEFMSPEQVVLEYVELKKDAFFDQVEAKDADLQELYKKEIANLAEQRRAAHILVEVNDQMNDDQAKAKISEIKKRLDAGEDFATLAKEFSDDSGSATEGGDLGYAGPGVYDPAFEEALYALQKDQVSEPVRSEFGWHLIKLLDVQAPEVPSFDSLKDKLEREVKAQLVEQRFVEATKELEDAAFEASDLAQPAQELGLEVKTTAPFGREGGEGIAANRQVLQAAFSPEVLEEAANSSAIELDPDTVVVVRAKEHKQPEQLPLDQVAGTVREHLLQQHASEAAKQKGEALLADLREGKISANEAGQEWKVTEAATRSQEGVDPQVLQTLFRMPKPESGDKPSFASVTLRNGDYVLIRLNGVSEPEGTLSDEEKAMYRRFLASRSGQQDFAAYRRQLEAKADIERF				NA	NA	NA	NA	NA
BMS010_03189	798	fabI_3	COG0623	Enoyl-[acyl-carrier-protein] reductase [NADH] FabI	ATGGGATTTCTCGCCGGTAAGCGCGCGCTGATCGTCGGCGTCGCCAGCAAACTGTCCATCGCCTCCGGTATCGCCGCAGCGATGCACCGCGAAGGCGCCGAACTGGCCTTCACCTACCAGAACGAAAAGCTCAAGGGACGTGTAGAAGAGTTCGCCACCGGCTGGGGCTCCAGCCCCGAAATGTGCTTCCCCTGCGATGTCGCCAATGACGAAGAAATCGCCGCCGTGTTCGAAGCACTCAGCAAGAAGTGGGATGGCCTGGATATCATCGTCCACTCCGTTGGCTATGCGCCGGGCGATCAACTCGATGGCGATTTCACCGCTGTCACCACCCGCGAAGGCTTCCGCATTGCACATGACATCAGCGCCTACAGCTTCGTGGCACTTGCCAAGGCAGGTCGCGAGATGATGCAAGGCCGCAACGGCAGCCTGCTCACCCTCTCCTACCTGGGCGCCGAACGGACCATGCCCAACTACAACGTGATGGGCATGGCCAAGGCAAGCCTGGAAGCCGGCGTCCGCTACCTCGCCGGCAGCCTCGGCCCGGAAGGAACTCGTGTCAACGCGGTTTCCGCCGGCCCTATCCGCACACTGGCCGCCTCGGGCATCAAGAGCTTCCGCAAGATGCTCGCCGCGAACGAGAAGCAGACCCCCTTGCGCCGCAACGTGACCATCGAGGAAGTCGGTAACGCTGGCGCGTTCCTGTGTTCAGACCTCGCCTCGGGCATCAGCGGCGAGATCCTGTACGTCGACGGCGGTTTCAACACCACCGCAATGGGCGTCCTGGAAGACGATTGA	MGFLAGKRALIVGVASKLSIASGIAAAMHREGAELAFTYQNEKLKGRVEEFATGWGSSPEMCFPCDVANDEEIAAVFEALSKKWDGLDIIVHSVGYAPGDQLDGDFTAVTTREGFRIAHDISAYSFVALAKAGREMMQGRNGSLLTLSYLGAERTMPNYNVMGMAKASLEAGVRYLAGSLGPEGTRVNAVSAGPIRTLAASGIKSFRKMLAANEKQTPLRRNVTIEEVGNAGAFLCSDLASGISGEILYVDGGFNTTAMGVLEDD	PGPT0008370_1739	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008370-fabI-K00208	NA	NA
BMS010_03190	1608	yejF_3	COG4172	putative ABC transporter ATP-binding protein YejF	ATGAGCGAGAACCTGATAGAAGTACGTGACCTCGCCGTCGAGTTCGTGACCGGCGATCAGGCACAACGTGTCGTCGAAGGCGTCAGCTTCGATATCCGCAAAGGTGAAACCCTGGCGCTGGTTGGCGAAAGCGGCTCCGGCAAGTCGGTTACCGCTCACTCGATCCTGCGGCTACTGCCCTACCCGCTGGCCCGGCACCCCAGCGGCAGCATCCACTACGCCGGCCAGGACCTGCTCAAGCTCGATGAGAAAAAACTGCGCGGTATCCGTGGCAACCGCATCGCCATGGTGTTCCAGGAACCGATGACCTCGCTCAATCCCTTGCACAGCGTGGAAAAGCAGATCAACGAAGTGCTTGCGCTGCACAAGGGGCTCCGTGGCAAGGCTGCCACGGCAAGAACGCTGGAGTTGCTCGAACTCGTCGGCATCCCTGAGCCGCGCAAGCGGCTGAAAGCCTTCCCTCATGAACTCTCTGGCGGCCAGCGCCAACGCGTCATGATCGCCATGGCACTGGCGAACGAGCCCGAACTGCTGATCGCCGACGAACCGACCACGGCCCTGGACGTCACCGTCCAACTGAAAATCCTGCAATTACTCAAGGAATTGCAGGCCCGCCTGGGCATGTCGCTGCTGCTGATCACCCATGACCTCAACCTGGTCCGGAGAATTGCACACCGCGTATGTGTCATGCAGCGCGGAAAGATCGTCGAACAGGCGTCGTGTGATGAATTGTTCCACGCACCGAAGCATTCCTACACCCAGGAGCTGCTCGGTGCGGAGCCCAGCGGCGACCCCGCGGCCACTGTTGCCGGGGAGCCGTTGCTGGAAGTGAAAGACTTGCGCGTGTGGTTCCCGATCAAGAAAGGGGTATTGCGCCATACCGTCGACTACGTGAAGGCGGTAGATGGAATCAATTTCAGCCTACCTCAGGGGCATACCCTGGGGATCGTAGGTGAAAGCGGTTCCGGCAAATCCACGTTGGGAATGGCGATCCTCAGACTTTTGAGTAGTCAAGGAGCCATTCGCTTCCAGGGACAGGTCTTGAATGGCCTGACACAACGGCAGGTCCGCCCTTTACGGCGGCAGATGCAGGTGGTCTTTCAGGACCCCTTCGGCAGCCTGAGCCCACGCATGTCGGTCGGGCAGATCATTGGCGAAGGATTACGAATCCATCGCATCGGTACGCCGGATGAGCAGGAGCAGGCCATCATCGACGCGCTCCTGGAGGTAGGACTGGATCCGGAAACCCGGCACCGCTACCCCCACGAGTTTTCCGGCGGGCAACGGCAGCGGATCGCCATTGCCCGGGCATTGGTGCTGAAACCGGCGCTGATCCTGCTGGACGAGCCCACTTCGGCGCTCGACCGCACGGTCCAGCGTCAAGTAGTGGAGCTCCTGCGCGGGTTGCAGGCCAAGTACAACCTGACTTACCTGTTCATCAGCCATGACCTGGCGGTGGTTCGGGCGCTCAGCCACCAATTGATGGTGGTGAAGCAGGGCCAGGTGGTGGAACAAGGCCCGGCGGAGGCCGTCTTCGCCGCGCCGCAGCACATTTATACACGGCAATTGCTGGAGGCCGCCTTCATGGCTCCAGGAACTGTCGATTAA	MSENLIEVRDLAVEFVTGDQAQRVVEGVSFDIRKGETLALVGESGSGKSVTAHSILRLLPYPLARHPSGSIHYAGQDLLKLDEKKLRGIRGNRIAMVFQEPMTSLNPLHSVEKQINEVLALHKGLRGKAATARTLELLELVGIPEPRKRLKAFPHELSGGQRQRVMIAMALANEPELLIADEPTTALDVTVQLKILQLLKELQARLGMSLLLITHDLNLVRRIAHRVCVMQRGKIVEQASCDELFHAPKHSYTQELLGAEPSGDPAATVAGEPLLEVKDLRVWFPIKKGVLRHTVDYVKAVDGINFSLPQGHTLGIVGESGSGKSTLGMAILRLLSSQGAIRFQGQVLNGLTQRQVRPLRRQMQVVFQDPFGSLSPRMSVGQIIGEGLRIHRIGTPDEQEQAIIDALLEVGLDPETRHRYPHEFSGGQRQRIAIARALVLKPALILLDEPTSALDRTVQRQVVELLRGLQAKYNLTYLFISHDLAVVRALSHQLMVVKQGQVVEQGPAEAVFAAPQHIYTRQLLEAAFMAPGTVD	PGPT0011640_557	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|MICROCINS,PGPT0011640-yejF-K13896	NA	NA
BMS010_03191	1020	yejE_2	COG4239	Inner membrane ABC transporter permease protein YejE	ATGAAGCTCTCTCCTCTCAATCGACGACGCTTCGAACGGTTCAAGGCGCACAAACGCGGCTGGTGGTCGCTCTGGATCTTTCTGGGTCTGTTCATGCTCAGCCTCGGCGCAGAACTGATCGCCAACGACAAGCCCCTGGTCGTGCGCTATGACGGCGAATGGTATTTCCCGGTATTCAAGCGCTATCCCGAAACCACCTTCGGCGGCGAATTCCCGCTACAGGCCAACTACAAAAGCCCCTATATCCGGGAACTGATCGCACAGAAGGACGGCTGGATGCTCTGGCCGCCCATCCCCTACAGCTACTCCAGCATCAACTACGAATTGAAGGTTCCCGCCCCCGCACCACCGTCCACCGAGAACTGGCTGGGCACCGATGACCAAGGCCGCGACGTGCTGGCACGGGTCATCTACGGATTCCGGATTTCCGTGCTGTTTGCCCTGGTCCTGACCTTGCTCAGTTCGGTCATTGGCGTCTTCGCCGGTGCCCTGCAAGGCTTCTACGGAGGCTGGGTGGACCTGCTGGGCCAGCGCTTCCTGGAAATCTGGTCGGGCCTGCCGGTGCTTTATCTGTTGATCATCCTGGCCAGCTTCGTCCAGCCGAACTTCTGGTGGCTGCTCGGTATCATGCTGCTGTTCTCCTGGATGAGCCTGGTGGATGTGGTGCGCGCCGAATTCCTTCGTGGGCGCAACCTGGAATACGTGCGGGCCGCTCGTGCCCTGGGCATGCAGAACGGCGCCATCATGTTCCGCCACATCATGCCCAACGCCATGGTTTCGACCATGACCTTCATGCCGTTCATTCTGACCGGCGCCATCGGCACCCTCACCGCTTTGGACTTCCTCGGTTTCGGCCTGCCACCGGGCGCGCCCTCGTTGGGCGAATTGGTTGCCCAGGGCAAGGCCAACCTGCAAGCACCGTGGCTGGGTATCAGCGCTTTCATGGTGTTGGCACTGATGCTCAGCCTGCTGGTTTTCATCGGCGAAGCCGCCCGCGATGCTTTCGATCCGAGGAAGTGA	MKLSPLNRRRFERFKAHKRGWWSLWIFLGLFMLSLGAELIANDKPLVVRYDGEWYFPVFKRYPETTFGGEFPLQANYKSPYIRELIAQKDGWMLWPPIPYSYSSINYELKVPAPAPPSTENWLGTDDQGRDVLARVIYGFRISVLFALVLTLLSSVIGVFAGALQGFYGGWVDLLGQRFLEIWSGLPVLYLLIILASFVQPNFWWLLGIMLLFSWMSLVDVVRAEFLRGRNLEYVRAARALGMQNGAIMFRHIMPNAMVSTMTFMPFILTGAIGTLTALDFLGFGLPPGAPSLGELVAQGKANLQAPWLGISAFMVLALMLSLLVFIGEAARDAFDPRK	PGPT0011635_1276	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|MICROCINS,PGPT0011635-yejE-K13895	NA	NA
BMS010_03192	1074	yejB_2	COG4174	Inner membrane ABC transporter permease protein YejB	ATGCTGGCTTATCTCGTCCGCCGCCTGCTGCTCATCGTCCCTACCCTGTTCGGCATTCTGCTGATCAACTTTCTCATCATCCAGGCGGCACCAGGTGGCCCCGTCGAACAGATGATCGCCAAGCTGGAAGGCTTCGAAGGAGCCACCAGCCGTATCGCCGGGGGCGGTGCCGAGGTTTCCGTGGCAGGCTCCAACTACCGGGGCGCCCAGGGTCTCGATCCCGACCTGGTCGCCGAAATCGAGCGTATGTATGGCTTCGACAAGCCCGCTCCCGAGCGCTTCTGGATCATGCTCACCAACTATGTCCATCTGGACTTCGGTGAAAGCTTTTTCCGCGATGCCAAGGTCATCGACCTGATTGCCGAGAAAATGCCAGTCTCCATCTCGCTGGGGTTGTGGAGTACCCTGATCATGTATCTGGTCTCCATTCCCCTGGGAATCGCCAAGGCCGTGCGCCACGGCAGCGCCTTCGACGTCTGGACCAGCTCCGCGATCATCATCGGCTACGCCATCCCGGCTTTCCTCTTCGCCATCCTGCTGATCGTTGTGTTCGCCGGCGGCAGCTATTTCGACTGGTTTCCCCTCCGTGGCCTGACCTCCAACAACTTCGACGAACTTAGCCTGGGCGGGAAGATCATCGACTACTTCCGGCACCTGGCCCTACCGATCACTGCCCTGGTCATCGGTAACTTCGCGACGTTGACGTTGCTGACCAAGAACAGCTTCCTGGATGAGATCAACAAGCAATACGTGGTTACCGCCCGCGCCAAAGGGCTCTCCAAGAACCGCGTGCTATACGGCCACGTCTTTCGTAACGCCATGCTGATTATTATCGCCGGGTTCCCCTCGGCATTCATCGGGCTGTTCTTCACCGGATCCCTACTAATCGAGGTGATCTTTTCCCTCGATGGCCTGGGCCTCATGAGTTTCGAAGCGGCGATCAACCGGGATTACCCGGTCGTGTTCGGCACGCTTTTCATCTTCACTTTGCTGGGACTTGTCGTGAAATTGATCGGCGACCTCACCTATACCCTGGTCGATCCCCGTATCGACTTCGAAAGCCGGGAGGGTTGA	MLAYLVRRLLLIVPTLFGILLINFLIIQAAPGGPVEQMIAKLEGFEGATSRIAGGGAEVSVAGSNYRGAQGLDPDLVAEIERMYGFDKPAPERFWIMLTNYVHLDFGESFFRDAKVIDLIAEKMPVSISLGLWSTLIMYLVSIPLGIAKAVRHGSAFDVWTSSAIIIGYAIPAFLFAILLIVVFAGGSYFDWFPLRGLTSNNFDELSLGGKIIDYFRHLALPITALVIGNFATLTLLTKNSFLDEINKQYVVTARAKGLSKNRVLYGHVFRNAMLIIIAGFPSAFIGLFFTGSLLIEVIFSLDGLGLMSFEAAINRDYPVVFGTLFIFTLLGLVVKLIGDLTYTLVDPRIDFESREG	PGPT0011630_719	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|MICROCINS,PGPT0011630-yejB-K13894	NA	NA
BMS010_03193	1857	sgrR		HTH-type transcriptional regulator SgrR	ATGACGCGCCCTCTGCGCTCCCTCTTCCTGTTCGGCGGCAGTGCCCTTCTCCTGGGTCTGGCCAGCCTCGCCCAGGCGTCACCGAAGCATGCGCTGACCCTGTATGACGAGCCGCCGAAATATCCGGCCAATTACAAGTACTTCGACTATGTAAACCCCGATGCCCCGAAGGGTGGCGTGTTCCGCCAAGCGGGGTTCGGCGGTTTCGACAGCCTGAATCCGTTCATCAACAAAGGGGTGTCGGCCGACGATATCGGCCTGATCTACGACACGCTGACGCGCCACAGCCTGGACGAGCCGTTCACCGAGTACGGCTTGCTCGCGGAGAAGATCGAGAAAGCACCGGATAACAGCTGGGTACGCTTCTACCTGCGCCCCGAGGCCCGCTTCCATGACGGGCATCCGGTCACCGCGGAAGACGTGGTGTTCACCTTCGAAACCCTGATGAAAGACGGCGCCCCGCTCTACAAGGCTTATTACGCCGATGTCGCCGAAGTCATCGCGGAAGATGCCCGGAAGGTCCGCTTCGTCTTCAAACATCCCGGCAACCGGGAGCTACCGCTGATCCTCGGCCAGTTGGCCGTCCTGCCCAAGCACTGGTGGGCAGAGCGAAACTTCAAGAAGGGAAATCTCGAAATTCCCCTGGGCAGCGGCCCGTACCGCATTGCTGACGTCAAGGCCGGACGCTCGATCCGCTACGAGCGCGTCAAGGATTGGTGGGGCAAGGACCTACCGGTCAACCGGGGGTTCTACAACTTCGATACGATGGTCACTGACTATTACCGCGACAATACCGTCGCCCTCGAAGCCCTGAAGGCCGGCCAGTTCGACTACTGGCTGGAAACCAGCGCGAAGAACTGGGCAACTGCCTATGACGTTCCCGCCGTGCAAAACGGCCAGTTGATCAAGGAAGAAATCGCCAACCGCAACCCCACCGGGATGCAGGGTTTCATCTTCAATATCCGCCGCCCGCTGTTCCAGGATCGTCGCGTACGCGAAGCGCTGGGATTGCTGTTCGATTTCGAATGGACCAACAAGCAATTGTTCAACGGCGCCTACACTCGAACCCACAGCTATTTCGACAACTCGGAGCTGGCCTCCAGCGGCCTGCCCGACGAAGCCGAACTGAAGATTCTCGAACCGCTGCGCGCCCAGATTCCACCCCAGGTGTTCACCGATGAGTACCGCGTACCGGTCACCGACGGCAGCGGCATCATCCGTGAACAACAACGCCGCGCCTACCAGTTGCTGCAAGAAGCCGGCTGGCGAATCGAAGGCGACCGCATGGTGGACGGCAAGGGCCAGCCCGTCAGCATCGAGTTCCTGCTGGCCCAGACCGAATTCGAGCGCATCCTGCTGCCATACAAGCGCAACCTGTCCGATCTGGGCATCGACTTGGTGATTCGCCGGGTCGATGTCTCCCAATACATCAACCGTCTACGCTCGCGGGACTTCGACATGATCGTGGGCGGCTTCGGTCAGTCCAACTCCCCAGGCAATGAGCAGCGTGAATACTGGCATTCCAGTAGTGCCGACAACCCGGGAAGCCGGAACTTCATTGGCCTGAAAGACCCGGCCATCGACAGCCTTGTCGACAGCCTGATCAACGCGGACTCGCGAAAAAGCCTGGTCGCGCATACCCGTGCCTTGGACCGTGTGCTGCTATGGGGCAACTATGTGGTTCCCAACTGGCACATCAAGACCTGGCGGGTCGCCTACTGGAACCGCTTCGAGCATCCGAAGGTCACGCCGCTCTACGATATCGGCCTGACTACCTGGTGGGTCAAGCCGGGCGCATCAGCACAACCGGAGCCGGCTTCCACCCCAGAAGAAACCCCAGCAGCAACGGAGCAATGA	MTRPLRSLFLFGGSALLLGLASLAQASPKHALTLYDEPPKYPANYKYFDYVNPDAPKGGVFRQAGFGGFDSLNPFINKGVSADDIGLIYDTLTRHSLDEPFTEYGLLAEKIEKAPDNSWVRFYLRPEARFHDGHPVTAEDVVFTFETLMKDGAPLYKAYYADVAEVIAEDARKVRFVFKHPGNRELPLILGQLAVLPKHWWAERNFKKGNLEIPLGSGPYRIADVKAGRSIRYERVKDWWGKDLPVNRGFYNFDTMVTDYYRDNTVALEALKAGQFDYWLETSAKNWATAYDVPAVQNGQLIKEEIANRNPTGMQGFIFNIRRPLFQDRRVREALGLLFDFEWTNKQLFNGAYTRTHSYFDNSELASSGLPDEAELKILEPLRAQIPPQVFTDEYRVPVTDGSGIIREQQRRAYQLLQEAGWRIEGDRMVDGKGQPVSIEFLLAQTEFERILLPYKRNLSDLGIDLVIRRVDVSQYINRLRSRDFDMIVGGFGQSNSPGNEQREYWHSSSADNPGSRNFIGLKDPAIDSLVDSLINADSRKSLVAHTRALDRVLLWGNYVVPNWHIKTWRVAYWNRFEHPKVTPLYDIGLTTWWVKPGASAQPEPASTPEETPAATEQ	PGPT0011625_1004	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|MICROCINS,PGPT0011625-yejA-K13893	NA	NA
BMS010_03194	1851	appA_1		Oligopeptide-binding protein AppA	ATGGACCGGATTTTCCGCCTGATGCGTCATATCCTCCTGTTGTTCCTAAGTCTGGCCCCGAGCTTTCCCCTCTGTGCGGCCATCATCGAAAGCCACGGTTACGCCCAATTCGGCGCCCTCAAATATCCCGCCAGCTTCACCCACTTCGACTGGGTCAATCCGGAGGCACCCAAGGGCGGTACGTTGCGAGTAATGGCTTTCGGCACCTTCGACACGCTCAATCCCTATACATTCAAGGGCACCAGCCCCGTTTCCACGGCGAACTTCCTGCAGTATGGCGTCACCGAACTGAACGAGCCACTGATGGTGGGCACCGGGCAATACGACCCTTCCGGCGATGAGCCGGCATCCAGTTACGGGCTGATCGCCCGCTCCGTCGAATACAGCGAAGACCGCAGCTGGGTGGTGTTCAACCTGCGCGAGGAAGCCCGCTTCCATGACGGACATCCCATCACCGCTTACGACGTGGCCTTTTCCTACCGTCTGCTGATCAAGGATGGCCACCCGCAATACCGGACCTACCTGCAGGAAGTCAAACGTGTCGACATTCTCGGCCGGCACCGCATTCGCTTCGTGCTCAAGCGCGCCGGCAATCCGCTCCTGATCCTGCGGCTCGGCGAATTGCCGGTGTTGCCGCAACACTATTGGAAAGACCGCGACTTCAAGAGCACCACTTTCGAACCGCCGCTGGGTAGTGGGCCCTATCGGATCACCCAGGTACTGCCGGGCCGCCAACTGGTGTTCGAGCACGTGAAAGACTGGTGGGGCGAGAAACTGCCGGTCAACCGCGGCAAGTACAACTTCGACCGTGTCGAGGTGGAGTTCTACCGCGACAGCAACGTGGCCTTCGAAGCGTTCAAGGCCGGGGAATTCGATTTCTATATCGAGCATCAGGCGAAGAACTGGGCGAATGGCTACCGCTTTCCCGCCGTGGCCCGCGGCGATGTGATCCGCGCCGAGATTCCACACAAGATCCCCACCCAGACCCAGGCGTTGTTCATGAACACCCGCCGAAGCGTTTTCGCGGACCGCAAAGTACGCGAAGCCATGGGCCTGATGTTTGACTTCGAATGGACCAATCGCACGCTGTTCAATAACGCCTACGTACGCGCCAAGAGCTATTACCCCAATAGCGAGTTCTCCGCGTTCGGCAAACCGGAAGGCCAGGAATGGCTACTGCTGTCCCCCTACCGCAAGCAGTTGCCCGCACGCCTGTTCAACGAGCCGTTCAGCGTGCCGGAAACCGATGGGCGCGGCATCCCGCGCGAAACGCTACGCCGGGCTCTGGGCCTGTTGGCCGAAGCCGGCTGGAAACCCTCTGGAGAGCGGCTGCTGAATAACAAGGGACAACCTTTCCGGTTCGAAATCCTGCTGGTCAACCCCAGCCTCGAGCGCATCCTCCAGCCCTACAGCGAAAATCTGGCGAGCATCGGAATCGACGTGAGCCTGCGTACGGTCGACCGCGCCCAATACAAGCAGCGTCTCGATCATTTCGACTTCGACATGATCATGCTGACATTGCCGCAGACCTTGAGCCCCGGTCTGGAGCAATGGCTGTACTTCCATTCCAGCCAGGCCAAGGTGAAGGGCGGCAAGAATTACGCGGGTGTCGCCCATCCCGTGGTCGACACACTGCTGGACAGCCTGCTCGCCGCCCGCACCCGGGACGAGCAGGTTGCCGCTACCCGAGCGCTGGACCGGGTCTTGCTCTGGCAGCACTACAGCATTCCCAACTGGTACCTGGACTATCACCGCCTGGCGTATCGCAACCGCTTCGCGTTCGTCACGACGCCGCCTTACACCCTCGGGCTGCGCGCCTGGTGGTTGAAGCCTAAGGAGAACATCCAATGA	MDRIFRLMRHILLLFLSLAPSFPLCAAIIESHGYAQFGALKYPASFTHFDWVNPEAPKGGTLRVMAFGTFDTLNPYTFKGTSPVSTANFLQYGVTELNEPLMVGTGQYDPSGDEPASSYGLIARSVEYSEDRSWVVFNLREEARFHDGHPITAYDVAFSYRLLIKDGHPQYRTYLQEVKRVDILGRHRIRFVLKRAGNPLLILRLGELPVLPQHYWKDRDFKSTTFEPPLGSGPYRITQVLPGRQLVFEHVKDWWGEKLPVNRGKYNFDRVEVEFYRDSNVAFEAFKAGEFDFYIEHQAKNWANGYRFPAVARGDVIRAEIPHKIPTQTQALFMNTRRSVFADRKVREAMGLMFDFEWTNRTLFNNAYVRAKSYYPNSEFSAFGKPEGQEWLLLSPYRKQLPARLFNEPFSVPETDGRGIPRETLRRALGLLAEAGWKPSGERLLNNKGQPFRFEILLVNPSLERILQPYSENLASIGIDVSLRTVDRAQYKQRLDHFDFDMIMLTLPQTLSPGLEQWLYFHSSQAKVKGGKNYAGVAHPVVDTLLDSLLAARTRDEQVAATRALDRVLLWQHYSIPNWYLDYHRLAYRNRFAFVTTPPYTLGLRAWWLKPKENIQ	PGPT0011625_1169	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|MICROCINS,PGPT0011625-yejA-K13893	NA	NA
BMS010_03195	1443			hypothetical protein	TTGGAAGAACGCTGCCATGGTTTGCAGTCATGGATCGATCGCCTGAACCAATCTGAGTTACCGGCCCTTGCCGCTGTCGTGCAGGACTTGCATCGTCTGGCCGGGGAAGAAAAAGCCTCGGTGCAACAGTTGGCCGATGTGCTGCTACGTGATGCTTCCCTGACCTCCAAGGTCCTGCGCGTTGCCAACAGTGCCTATTACAACCCCTCGCAGGAGCCTATCCGTACCATCTCCCGGGCCATCGTCCTGATCGGCTTCGACAATGTGCGTCTGATCGGTCTTTCCGTCAGTTTGATCGACGGATTGCTGACGCGAGCCCCGCGCGAGCAGTTGCAGGAGCTGCTCGCACGATCCTTCCATGCCGCGGTCCAGGCGCGGAATATCGCCGGCTATGTGCTTTCCAGGCATGAGGAGGAGGTGTTCATCGCCGCCTTGCTCTACAACCTTGGCGAGTTGGCGTTCTGGGGCTGCGGTGGTGTACAGGCCGATGAGCTGGACACCGCCCTGGCCCAGCCTGGCGTGATCGCCGAGGAAGCGGTGCGCTCCGTGCTCGGCACCAGCTTCCGTCAATTGACCCTGGGGCTGGTGAAAAGCTGGAACCTGAGCGAAATCGCCAGCCTGGCACAGGGGACCAGCCAGAACGATCCGGCGGTACAGGCGGTGACCCTTGGTGTTCGGATCAGCGAGGCCGCCTTGGAGGGCTGGGATTCGCCGGCCATCGAGAAGCTGGTCGAGCAACTGGCCCGCTTCACCGGCGTGACGCCGGAAGATGCGATGCAGCAGGTGCTGGCCAGTGCCGATGAGGCCGTCAAGGTCGCCGTGACCTTCGGTGCCGGCAAGCTGTGCAACCTCATCCCCAATACCGATCCGGAGCAGATTCGCCTACAGCAGGAGCAACGTCGGGCGCGTTTACTGCAACCTAATCTCCTGGTGATGCAGCAGGCATTGCAGGACCTTGGTCTGATGGTCTCCGTCCGCGGGGATGTCGGCTTGATCCTCGATACGCTGTTCAAGGGGCTGCACCAGGGGGCCGGACTGGAGCGGGTCATGCTCGCGGTGCTGGCGGATGGGCAGACTCGCTTCCGGGTCAAGCGCGTGGCGGGCGAGGGAACGCAAAGCTGGCTGAGCGATTTCGTCCTGCCTGCCGAGCAGCCGGAACAGCCGCATATCTTCAGCTATGTCCTGCGCCACAAGGAGGCGATCTGGATGGGGGTCCCGGCAAGCTACAACCTGAGCGAGCTGGTCACCGGGCCGATGCGGCAGTGGCTCGGGCAGGGCATGTTCTTCATTGCGCCGCTGATGGCAGGTACTCGCGAGATCGGCGTGCTGTATGCGGACAACCGGTTGTCCGGTCGGGCGCTGAAGCATGAGCAGTTCGTTGCCTTCCAGCGTTTCACCCAGTTGACCGGACGATGTCTGGAGGCTCTCAGCAAGGGACGCTGA	MEERCHGLQSWIDRLNQSELPALAAVVQDLHRLAGEEKASVQQLADVLLRDASLTSKVLRVANSAYYNPSQEPIRTISRAIVLIGFDNVRLIGLSVSLIDGLLTRAPREQLQELLARSFHAAVQARNIAGYVLSRHEEEVFIAALLYNLGELAFWGCGGVQADELDTALAQPGVIAEEAVRSVLGTSFRQLTLGLVKSWNLSEIASLAQGTSQNDPAVQAVTLGVRISEAALEGWDSPAIEKLVEQLARFTGVTPEDAMQQVLASADEAVKVAVTFGAGKLCNLIPNTDPEQIRLQQEQRRARLLQPNLLVMQQALQDLGLMVSVRGDVGLILDTLFKGLHQGAGLERVMLAVLADGQTRFRVKRVAGEGTQSWLSDFVLPAEQPEQPHIFSYVLRHKEAIWMGVPASYNLSELVTGPMRQWLGQGMFFIAPLMAGTREIGVLYADNRLSGRALKHEQFVAFQRFTQLTGRCLEALSKGR				NA	NA	NA	NA	NA
BMS010_03196	1575	mltD	COG0741	Membrane-bound lytic murein transglycosylase D	ATGACGTCCAAGCCACGCAGGACCCTCGATCTAGACGCATTGGCACGATCCTCTCGGGTGCTGGTAGCGGTGTGTGCCGCGGCCCTGGCAGGCTGCCAGAGCCTGGGGCCCTCGCATGACCAGCCCGGCCGGGACACCGACAGGGCTGTCGGCCTCGAGCAGCAACCGGAGTGGCTGACCGAAACCCCGACGCCCGAAGCACCGCAAGATATCTGGGAGCGCATGCGCAGCGGCTTCAAGCTGCAGGACCAGATCGATGTGAACCCGCGGATCGAGCGCCAGCGCTTGTGGTTCGTCAGCAACCCGTCCTTCCTCGAGAATGCCTGCGAACGCGGCGCCCTTTATATCCATTACGTGGTGGAACGACTCGAAGAGCGCGACATGCCGCTGGAACTGGCACTGCTGCCGGTCATCGAGAGTGCCTACAACCCCCTGGCCTACTCCCGCGCCCATGCGGTCGGCATCTGGCAGTTCATCCCGTCGACCGGACGCCATTTCAATCTGCGCCAGACCAGTTGGTACGACGGCCGCCGCGACATCACCGCCTCGACCAATGCTGCGATGAACTATCTCTCGCGCTTGCATGAGATGTTCAACGGCGACTGGCTGCTGGCACTGGCCGCCTATAACGCCGGCGAAGGCACGGTCAGCCGGGCCATCGAACGCAACCAGAAACTGGGGCTGCCAACCGACTACTGGAACCTGCCACTACCGCAGGAAACCCAGGACTACGTTCCCAAGCTGCTTGCGCTTTCCCAGGTGGTGATGGCCCCCGAGGCCTACGGCGTGACGCTCAATCCCATCGCCAACGAGCCGTACTTCGAGGTGGTGGAGGTCAAGCAGCGCCTGGATCTGTCGCGTGTCGCCGCCATGGCGGAAATCGACGAAGACGAGCTGTACATGCTCAACCCCGCCTACAAGAAGCGCATCACCATGGACGGTCCGCAACATCTGTTGGTGCCGACCGAGAAAGCCGAACTGTTCGCCGCCAACCTGTCGCTGATGCAACCGCAGGAACTGGTGGACTGGCAGGAATATCGCGTACGCGCCGGCGACAGCCTTCACGCCATCGCCAACCGCTACCACTTGACGGTCAATACGCTCAAGGAGATCAACCAGCTCAAAGGTAACGATCTGCGTATCGGGCAAACCCTGAGCATTCCGGTCCAACCGGGTCTCAAGCCCTCTCAGCCGTTGTTCCAGGAGCGACTGGCCGCCACCGTCGAGCAGCCCAAGGCACTGCGCAGTTACCGGGTGAAGAGTGGCGACAATCTCTGGCAGATCGCCAAGGCGCACAACGTCAAGGTCGAGGACCTGAAGCGTTGGAACCGACTCTCCGGCAACAGCCTGAAGACCGGCCAAGTGCTCACCCTGCAAAGCAGCGCCGCTCCCGTCACCGTCGCCACGCGGAACGATCGCCAGTCGGTAACCTATTACCGCGTGCAGAAAGGCGACTCGCTTTACCTGATCGCCAAGCGCTTCAAGGTGGACCTGCAGAACCTTCAGCGCTGGAACCCCCGCAGCGGTCACGCCCTCACTCCTGGGCAAACGCTTACGCTCTATCTCCCCCGCTGA	MTSKPRRTLDLDALARSSRVLVAVCAAALAGCQSLGPSHDQPGRDTDRAVGLEQQPEWLTETPTPEAPQDIWERMRSGFKLQDQIDVNPRIERQRLWFVSNPSFLENACERGALYIHYVVERLEERDMPLELALLPVIESAYNPLAYSRAHAVGIWQFIPSTGRHFNLRQTSWYDGRRDITASTNAAMNYLSRLHEMFNGDWLLALAAYNAGEGTVSRAIERNQKLGLPTDYWNLPLPQETQDYVPKLLALSQVVMAPEAYGVTLNPIANEPYFEVVEVKQRLDLSRVAAMAEIDEDELYMLNPAYKKRITMDGPQHLLVPTEKAELFAANLSLMQPQELVDWQEYRVRAGDSLHAIANRYHLTVNTLKEINQLKGNDLRIGQTLSIPVQPGLKPSQPLFQERLAATVEQPKALRSYRVKSGDNLWQIAKAHNVKVEDLKRWNRLSGNSLKTGQVLTLQSSAAPVTVATRNDRQSVTYYRVQKGDSLYLIAKRFKVDLQNLQRWNPRSGHALTPGQTLTLYLPR	PGPT0023795_704	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_TRANSGLYCOSYLASE_ACTIVITY,PGPT0023795-mltD|dniR-K08307	NA	NA
BMS010_03197	780	gloB_4	COG0491	Hydroxyacylglutathione hydrolase GloB	ATGATACAGATCGACGCCCTGCCCGCTTTCACCGACAACTACCTCTGGTTGTTGCAAGATGCTGCCATGCGCCGCTGTGCGGTGGTCGATCCCGGCGATGCCGGCCCGGTCCTCGACTGGCTCGCGGCCCATCCGGACTGGCAACTCAGCGACATCATCGTCACTCATCACCATCCCGACCATATCGGCGGCGTGACCAAGCTCAAGTCTGCGACCGGTGCTCGCGTACTCGGTCCGGCCAAGGAGCGGATTCCCGAGCGGGACCTGGCCTTGGGCGAAGGCGACAAGGTGGACGTACTGGGACTCAGGTTCGAAGTGATGGAGGTACCCGGACACACCCTGGGCCATATCGCCTATTACCATGCCTCGCCTCGGAATCCGCTGCTGTTCTGTGGCGACACCCTGTTCTCCGCAGGGTGCGGCCGACTGTTCGAAGGGACCCCGGAGCAGATGTACCACTCGCTCAGCCGCTTGGCCACGCTGCCGGACGACACACGGGTCTACTGCACCCACGAGTACACCCTGAGCAACCTGCGTTTCGCCCATGCCGTCGAGCCGGACAACCCGGCCATCGCCCAACGGCTTGCCGAAGTCGGCGCCTGGCGCGATGCAGGTCGGATCAGCCTGCCGTCCACCCTGTCCATCGAGCGGGAGACCAACCCCTTCCTGCGCTGTGACCAACCATCCGTCCGAAAAAAAATCGACGAACGGAACGGCATCGCTCAACGCTCCGCAAGCGCGGTTTTTGCTGGCCTGCGCAGTTGGAAGGATCACTTCTAG	MIQIDALPAFTDNYLWLLQDAAMRRCAVVDPGDAGPVLDWLAAHPDWQLSDIIVTHHHPDHIGGVTKLKSATGARVLGPAKERIPERDLALGEGDKVDVLGLRFEVMEVPGHTLGHIAYYHASPRNPLLFCGDTLFSAGCGRLFEGTPEQMYHSLSRLATLPDDTRVYCTHEYTLSNLRFAHAVEPDNPAIAQRLAEVGAWRDAGRISLPSTLSIERETNPFLRCDQPSVRKKIDERNGIAQRSASAVFAGLRSWKDHF	PGPT0001770_2707	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069	NA	NA
BMS010_03198	756			hypothetical protein	ATGACTGACCAGGCTTTCGCTCAGGCCGACCCGGACTGGCTGGCGCTGATCGGCGTCGCCCGTGAATGGTTCGCCGGCCCCCTCGGTCGCCAGTTATTGGAAGAGGAACGCCGAGTCCTGGAAGAGGAGCTGGCGCGTTTCTTCGGCGGTTACCTGGTTCACTACGGGCCGCCTGCCTCGCAATTGCCGAAAGCGCCGCAGATCCATTGCAGTGTGCGCCTGGGCGCACCGCCCGATGTGGAGATCATTTGCGAAGAGCAATCCTGGCCGCTCGTCGAGCACGCGGCGGACTTGGTATTACTGCAGCATGGGCTGGATTTCAGCCTGTCGCCCCATGGCTTACTGCGTGAGGCGGCGCGGAGCGTGCGACCCGGCGGACACCTGCTGATCGTCGGAATCAACCCGTGGAGCGCCTGGGGCTTGCGCCACTACTTCGCCGGCGACGGGCTGCGCCAAGCGCGCTGCTTCGCCCCGACGCGGGTCGGCGATTGGCTCAACCTGCTGGGATTCGCGCTGGAGAAACGCCGCTTCGGATGCTATCGTCCGCCGCTTGCTTCCGATGCCTGGCAGGCGCGTCTGGCGCGTCTGGAAACCTGGGGCGGTACCTGGCAGCCCCCCGGAGCAGGCTTCTATTTATTAGTGGCACGCAAGCTGGTGGTCGGCCTTCGGCCGCTGCGCCAAGTCCGTCGAGAACCGATGGGCAAGCTGATGCCATTGCCGGTGGCCAAGGTGAGCCGGCGCAATTCCGAGCCGTAA	MTDQAFAQADPDWLALIGVAREWFAGPLGRQLLEEERRVLEEELARFFGGYLVHYGPPASQLPKAPQIHCSVRLGAPPDVEIICEEQSWPLVEHAADLVLLQHGLDFSLSPHGLLREAARSVRPGGHLLIVGINPWSAWGLRHYFAGDGLRQARCFAPTRVGDWLNLLGFALEKRRFGCYRPPLASDAWQARLARLETWGGTWQPPGAGFYLLVARKLVVGLRPLRQVRREPMGKLMPLPVAKVSRRNSEP				NA	NA	NA	NA	NA
BMS010_03199	453	rnhA_2	COG0328	Ribonuclease HI	ATGAGTGAAATTGTCGAGATATACACCGACGGCGCCTGCAAAGGTAATCCCGGTCCCGGTGGCTGGGGCGCATTGCTCGTTTTCAAGGGCGTCGAGCGCGAACTCTGGGGCGGAGAGGCGGAAACCACCAACAACCGGATGGAGCTCACCGCGGCGATCCGTGCGCTGGCCGAGCTGAAGCGGCCCTGCGCGGTGCGTCTGGTCACCGATTCCGAGTACGTCATGCGCGGCATGCAGGAATGGTTGCCGAACTGGAAGAGGCGGGGTTGGAAAACCGCGGCCAAGCAACCGGTGAAGAATGCCGATCTCTGGCAACAACTCGACGAGCAGGTCAATCGCCACCAGGTCACCTGGGAATGGGTGCGCGGGCATACCGGCCATCCGGGCAATGAGCGCGCCGATCTGCTGGCCAACCGCGGCGTCGTCGAAGCGAAACGTCAACACACCGTTTAA	MSEIVEIYTDGACKGNPGPGGWGALLVFKGVERELWGGEAETTNNRMELTAAIRALAELKRPCAVRLVTDSEYVMRGMQEWLPNWKRRGWKTAAKQPVKNADLWQQLDEQVNRHQVTWEWVRGHTGHPGNERADLLANRGVVEAKRQHTV	PGPT0003760_50	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003760-yusV|ABC_FEV_A|feuD-K02013	NA	NA
BMS010_03200	744	dnaQ_1	COG0847	DNA polymerase III subunit epsilon	ATGCGCAGCGTCGTACTGGATACTGAAACCACCGGCATGCCGGTGACCGATGGCCATCGCATCATCGAGATCGGTTGTGTCGAAGTGATGGGGCGCCGGCTCACCGGGCGGCACTTCCATGTCTATCTCCAGCCCGACCGTGAAGTGGACGAAGGCGCCATTGCGGTCCACGGCATCACCAACGAATTCCTGGCTGACAAGCCCCGCTTCAAGGAGGTGGCCGAAGAGTTCTTCGAGTTCATCAAGGGCGCCCAGCTGATCATCCACAACGCGGCGTTCGACGTGGGCTTCATCAACGCCGAATTCGCCCGCCTCGGCCAGCATGACCGGGCCGATATCAGCGAGCACTGTTCGATTCTCGACACCTTGCTGATGGCGCGCGAGCGCCATCCAGGCCAGCGCAACAGCCTCGATGCTCTGTGCAAGCGCTATGGTGTCGACAACTCCGGTCGTGACCTGCACGGCGCCTTGCTCGACGCCGAGATTCTCGCTGACGTCTACCTGACTATGACCGGTGGCCAGACCCACCTGTCGCTGGCGGGCGAGGGTAGTGACGGCAACGCCAGCGGTCGTCCCCAGGCCAGCCCGATCCGCCGTCTGCCTGCAGAGCGCACTCAGACTCGGGTGATTCGCGCCAGCGAGGCGGACTTGGCTGCCCATGCGGCGCGTCTGGCGGCCATCGAGAAGTCGGCCGGTTCCGCGCCGCTCTGGGTGCAGTTGGAACAGCCTGCCGCCGAGGCCTGA	MRSVVLDTETTGMPVTDGHRIIEIGCVEVMGRRLTGRHFHVYLQPDREVDEGAIAVHGITNEFLADKPRFKEVAEEFFEFIKGAQLIIHNAAFDVGFINAEFARLGQHDRADISEHCSILDTLLMARERHPGQRNSLDALCKRYGVDNSGRDLHGALLDAEILADVYLTMTGGQTHLSLAGEGSDGNASGRPQASPIRRLPAERTQTRVIRASEADLAAHAARLAAIEKSAGSAPLWVQLEQPAAEA				NA	NA	NA	NA	NA
BMS010_03201	2256	adiA	COG1982	Biodegradative arginine decarboxylase	ATGTACAAAGACCTGAAATTTCCCGTACTCATCGTCCACCGTGACATCAAGGCGGACACGGTGGCGGGTGAGCGTGTCCGGGCCATCGCCCGGGAGCTGGAGCAGGAAGGGTTCAATATCCTCTCTACCGCCAGTTCCGCCGAGGGACGGATCGTCGCCTCCACCCACCATGGGCTGGCTTGTGTGCTGGTCGCGGCGGAAGGTGCGGGGGAGAATCAGCGGCTGCTCCAGGATGTGGTCGAGCTGATTCGCGTGGCCCGGATTCGGGCACCACAGTTACCGATCTTCGCCCTTGGCGAACAGGTGACTATCGAGAATGCACCCGCCGAGGCCATGGCCGATCTCAATCAATTGCGCGGGCTGCTCTACCTGTTCGAGGACACCGTACCTTTCCTCGCCCGCCAGGTCGCCCGTGCGGCGCGCAACTATCTCTCCGGGTTGCTGCCGCCATTTTTCCGGGCGCTGGTGGAGCACACCGCACAATCCAATTATTCCTGGCATACGCCTGGGCACGGCGGCGGTGTCGCTTACCGGAAGAGCCCGGTGGGGCAGGCGTTCCATCAGTTCTTCGGCGAGAACACCTTGCGCTCCGATCTTTCGGTCTCGGTGCCCGAGCTGGGGTCGCTGCTCGATCACACCGGGCCGCTGGCCGAAGCCGAAGCCCGTGCGGCGCGCAACTTCGGCGCTGACCACACCTTCTTCGTGATCAACGGCACCTCGACGGCGAACAAGATCGTCTGGCATTCCATGGTCGGTCGCGACGACCTGGTGCTGGTCGATCGCAACTGCCACAAGTCGGTGCTGCACGCGATCATCATGACCGGCGCCATTCCGCTCTACCTGAGCCCGGAGCGCAACGAGCTGGGCATCATCGGGCCGATTCCGCTGAGCGAATTCAGTGCCGAGTCGATTCGGGAAAAGATCGCCGCCAACCCACTGGCCGCCGGGCGGGAGCCCAGGGTGAAGCTGGCAGTCGTCACCAACTCCACCTATGACGGGCTTTGCTACAACGCGGAGCTGATCAAGCAGACGCTGGGCGACAGCGTGGACGTGCTGCATTTCGACGAAGCCTGGTACGCCTACGCGGCCTTTCACGAGTTCTATGCCGGCCGCTATGGTATGGGTACCCGTCGTGACGCCCTCAGTCCGCTGGTATTCAGCACCCATTCGACGCACAAGTTGCTGGCTGCCTTCAGTCAGGCCTCGATGATCCATGTCCAGGATGGCGGTACTCGCCCATTGGATCGCGACCGTTTCAACGAAGCGTTCATGATGCACATCTCCACCTCGCCACAGTACGGCATCATCGCCTCACTGGACGTGGCCTCGGCCATGATGGAGGGACCGGCCGGTCGTTCGTTGATCCAGGAAACCTTCGACGAGGCGCTGAGCTTTCGCCGGGCCTTGGCCAATCTGCGGCAGAATCTGGCGGCGGACGATTGGTGGTTCAGCATCTGGCAGCCGCCGAAGGCGGAAGGGGTCGATGCGGTGGTCGTGAACGACTGGCTGCTGGAGCCGGGCGCCGACTGGCATGGTTTCGGCGATCTGGCGGCCGACTACGTGCTGCTCGATCCGATCAAGGTGACCTTGACGACACCGGGCCTGACGGCCGGCGGCCGGCTGGACGAGCGGGGAATCCCGGCGGCGGTGGTCGGCAGGTTCCTCTGGGAGCGCGGGCTGGTGGTGGAGAAGACCGGCCTGTATTCGTTTCTCGTGCTGTTTTCCATGGGCATCACTAAGGGCAAGTGGAGCACGCTGCTCACCGAGCTGCTGGAGTTCAAGCGGCACTACGATGCCAATGCCCCCTTGAATGACGTCCTGCCTTCGGTGGCGCAGGCGGACTGCCAGCGTTATCAGGGTATGGGGCTGCGTGATTTGTGTGGCCAGTTGCATACCTGCTATCGGGAAAACGCCACGGCGAAAGCCCTCAAACGCATGTATACGACGTTGCCGGAAATCGCCCAGAAACCGGCGGATGCCTACGACAGCCTGGTGCGTGGTGAGGTCGAGGCGGTGCCTATCGACCAACTGCAAGGGCGCATCGCCGCCGTGATGCTGGTGCCTTATCCGCCCGGCATTCCATTGATCATGCCAGGCGAGCGCTTCACGCCGGCGACGCAGGCGATCATTGATTACCTGCTGTTCGCACGGAATTTCGATCGGAGTTTTCCGGGGTTCGATGCGGATGTACACGGTCTTCAGCATCAGGACAGTGCTGATGGGCGTTGCTACACCGTGGACTGCATCCGCGAATGA	MYKDLKFPVLIVHRDIKADTVAGERVRAIARELEQEGFNILSTASSAEGRIVASTHHGLACVLVAAEGAGENQRLLQDVVELIRVARIRAPQLPIFALGEQVTIENAPAEAMADLNQLRGLLYLFEDTVPFLARQVARAARNYLSGLLPPFFRALVEHTAQSNYSWHTPGHGGGVAYRKSPVGQAFHQFFGENTLRSDLSVSVPELGSLLDHTGPLAEAEARAARNFGADHTFFVINGTSTANKIVWHSMVGRDDLVLVDRNCHKSVLHAIIMTGAIPLYLSPERNELGIIGPIPLSEFSAESIREKIAANPLAAGREPRVKLAVVTNSTYDGLCYNAELIKQTLGDSVDVLHFDEAWYAYAAFHEFYAGRYGMGTRRDALSPLVFSTHSTHKLLAAFSQASMIHVQDGGTRPLDRDRFNEAFMMHISTSPQYGIIASLDVASAMMEGPAGRSLIQETFDEALSFRRALANLRQNLAADDWWFSIWQPPKAEGVDAVVVNDWLLEPGADWHGFGDLAADYVLLDPIKVTLTTPGLTAGGRLDERGIPAAVVGRFLWERGLVVEKTGLYSFLVLFSMGITKGKWSTLLTELLEFKRHYDANAPLNDVLPSVAQADCQRYQGMGLRDLCGQLHTCYRENATAKALKRMYTTLPEIAQKPADAYDSLVRGEVEAVPIDQLQGRIAAVMLVPYPPGIPLIMPGERFTPATQAIIDYLLFARNFDRSFPGFDADVHGLQHQDSADGRCYTVDCIRE	PGPT0012235_403	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0012235-adiA-K01584	NA	NA
BMS010_03202	813	crt_2	COG1024	Short-chain-enoyl-CoA hydratase	GTGACTGATTACAAGGCTTTTCGTATCGAACTGGCAGACAAGATCGCCCATGTCCAGATCAATCGTCCGGAAAAGGTCAATGCGATGAACGCGGACTTCTGGACCGAGATCATCGATGTCTTCCGCTGGGTCGACGAGACCGATGAAGTGCGTGTCGTTGTCCTGTCCGGTGCCGGCAAGCATTTCTCTTCGGGCATCGATCTGATGCTCCTGGCCCAGGCGGGCAGCCAGCTCGGCAAGGACACCGGGCGCAATGCCGAGGCCTTGCGCCGTACCATTCTCAAGCTGCAGGCCTCTTTCACTGCGGTGGACAACTGCCGCAAGCCGGTTCTGGCGGCGATCCAGGGTTACTGTCTCGGTGGCGCAATCGACCTGATTTCCGCCTGCGACATGCGCTATTCCACCGTGGATGCGCAGTTCTCGATCAAGGAAATCGACATGGGCATGGCTGCCGATGTCGGCACCCTGCAGCGTCTGCCGCGGATCATCGGCGATGGCATGATGCGCGAGCTGGCTTATACCGGTCGCACTGTCGATGGCGGAGAAGCGCTCCGCATCGGGCTGGTCAACCGCACCTATGCCGATCAAACCGAGCTGCTCGATGGCGTGTTCGGCATCGCCCGCGAGATCGCCGCGAAGTCCCCCATCGCCATTCGCGGTACCAAGGAAATGATTCGCTACATGCGCGATCATCGCGTCGACGATGGCCTGAACTACATCGCCACCTGGAATGCCGCCATGCTTCAATCCGCCGATCTGCGGGTCGCCATGGCAGCCCACATGAGCAAGCAGAAACCGGAATTCGCCGACTGA	MTDYKAFRIELADKIAHVQINRPEKVNAMNADFWTEIIDVFRWVDETDEVRVVVLSGAGKHFSSGIDLMLLAQAGSQLGKDTGRNAEALRRTILKLQASFTAVDNCRKPVLAAIQGYCLGGAIDLISACDMRYSTVDAQFSIKEIDMGMAADVGTLQRLPRIIGDGMMRELAYTGRTVDGGEALRIGLVNRTYADQTELLDGVFGIAREIAAKSPIAIRGTKEMIRYMRDHRVDDGLNYIATWNAAMLQSADLRVAMAAHMSKQKPEFAD	PGPT0001860_2926	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0001860-paaF|echA-K01692	NA	NA
BMS010_03203	1677			hypothetical protein	ATGGTCACCGGAGCCACGTCCCTCAGCATGGTGCGCGACGAGTTGTTCGTCACCATGGAAGAGGCCGAACAGAGCCTCGAGCATTTCATCGCCGAACGGAACAACGGCAGCCTGCTGCAGCAGGCCGTGGAAAGCCTTCACCAGGTGCGCGGTACGCTCAACCTGATCGAACTGGCCGGTGCCGAGCTGCTGGCCCAGGAAATCCTGCAACAGGCCACCGACATTCCAGCCGGGGCGGGGGCCGAGCGTGACGGTCAGTTATCGGCGCTCAGCAATGCGCTGCATGTGTTGCGCCGCTACCTGGAGAACGTCGAGGCGAGCCGCCAGGAAATGCCCGAACTGCTACTCCCGGCGATCAACGACCTGCGACAGGCCGGCGCCCAGCCGCCGTTGCCGGAAAGCTTCTTCTTCAGTGCCCGCCTGGATCAGCCGCGTCCTCGTATCGCCGCGTCCACGCTGGATTCCGCCGCCCGCGTCGAAGAAGGCCGGCGGTTGCGCCACATGTACCAAGTCGGGCTGCTCGGCTTCATCCGCGAGCAGAGCATTCAGGCCAGCCTGAAGCTGATGGCGCGGGCCGTGGCCCGCCTGGACAGCCTGTTCGCCAACGATCCGCGCGGACGGCTTTGCTGGGTCGCGGCGGCAGCCCTGGAAGCCCAGGTGGAAGGGCAGCTGCTGGCGCGCAAGTCCCGCAAGCAGTTGTTCTCCCGGGTCGACCGCGAGCTCAAGCAGCTTCTCGCCAATCCTCAATACGAAGTCCCGCGCAGCCTGCTCAAGGAACTGCTCTATCTGGTCGCTCTGGCCGACAGCCGCGGGTCGTTGGCCAGCGAAGTTCGCAACGTGTTCGGCCTGACGCCGCTGCCGTTCACCGACCAGATGCTGGAGGACGAATACCAGCGCCTGTCCGGTCCCGGCCAGGCCGTGATGCGCTCGCTGTCCACCGCCATCCGCGAAGAGCTGGCCAGCGTGAAGGACTCCCTCGACCTGCTCGGCCGGGGTACGGCGCAGCCGGAAAGCCTCGTCACCCTGCATGCGCAACTGGGCAAGCTGGCCAAGACGCTGGGCATGGTTGGCCTCAGCTCGGCAGGCAATGCATTGCAGGTCCAATTGCCCATCGTCGCTTCTTGGAGCGAAGGGGCTTCCGCCGATGGCGACGCCCTCAACAAGCTGGCGGATGCGGTGCTGTACGTGGAAGGCATGGTGGCGAGCCTCGAGCGTGGCGGGCGTCATGAGCCGCGGCCGCAGGCCCAGCCTGGGCAGGAGGCGGAATCCTTTGCCAGTCACCAGCTCACCGAGGCGCGTATCGTGGTCATCGATGAGGCCAAGGCGGGCCTGGCGCTCGCCAAGCGGGCCATCACGGCTTACCTGGAGTCGAACGGCGACAAGATGCACCTGGCTAACGTGCCTTTCAGCCTCCAGGCGGTGCGCGGCGGCTTGTGGTTCCTCGGTCAGGAGCGTGCCGCACTATTGGTTGGGTCCTGTGCCGACTATATCCAGACGCAGATGCTGGAAAGTCAGCAGATGCCGTCCGAACAGATGCTGGAAACCCTGGCGGATGCGCTGACCAGTCTCGAATATTTCCTCGAGGGCGGAGCCATGTTGCGGCGTGACAGCGAATCGAGCGTGCTCGACCTCGCGGCCGAGAGCGTGCGTGCCCTGGGGCTGCCGGTGGCGGCATGA	MVTGATSLSMVRDELFVTMEEAEQSLEHFIAERNNGSLLQQAVESLHQVRGTLNLIELAGAELLAQEILQQATDIPAGAGAERDGQLSALSNALHVLRRYLENVEASRQEMPELLLPAINDLRQAGAQPPLPESFFFSARLDQPRPRIAASTLDSAARVEEGRRLRHMYQVGLLGFIREQSIQASLKLMARAVARLDSLFANDPRGRLCWVAAAALEAQVEGQLLARKSRKQLFSRVDRELKQLLANPQYEVPRSLLKELLYLVALADSRGSLASEVRNVFGLTPLPFTDQMLEDEYQRLSGPGQAVMRSLSTAIREELASVKDSLDLLGRGTAQPESLVTLHAQLGKLAKTLGMVGLSSAGNALQVQLPIVASWSEGASADGDALNKLADAVLYVEGMVASLERGGRHEPRPQAQPGQEAESFASHQLTEARIVVIDEAKAGLALAKRAITAYLESNGDKMHLANVPFSLQAVRGGLWFLGQERAALLVGSCADYIQTQMLESQQMPSEQMLETLADALTSLEYFLEGGAMLRRDSESSVLDLAAESVRALGLPVAA				NA	NA	NA	NA	NA
BMS010_03204	834	nudC_2		NADH pyrophosphatase	ATGAGCGATTCGCGCTGGCAGCCCGGCCTGATCGACGGTGCGCCAGCCGGCGGTTGGGCGTTGGCGCATTGCCGCCAGCAATTCCTCTGCGACAGCAACGGCCTGCTGTTTCCGCGCGAGTGGTTGAAGCGCCAGGACCTGCCGGTTCTCTGTGAGCACGGTATCGGCCATTTCGATGGCGATCCCATCCATGTTCTCGAAGTGGAGCAGCCGATCCATCTAGCGGATTGCAATTGGCAAGGGCTGCGTCAGTTCATGCTGCAGGCGGATGCGGATACCTTCCGCATGCTCGGTTATGCCACTCAGATCGGAACCTGGGCGCGTCAGCATCGCTTTTGCGGAAGCTGTGGCACACCTATGCTGCAGGTGACCGGCGAGCGCGCCATGCACTGTCCGCAGTGCGAAGTCCACCATTACCCGCGCCTCTCTCCGAGCATGATCGTGCTGGTGACGCGCGGCGATGAAATCCTGCTGGCGCGTTCGCCACGCTTCGTTCCGGGCGTCTACAGCACCCTGGCTGGTTTCGTCGAACCGGGCGAGTCGGTGGAGGAATGCGTCGCTCGCGAAGTACGGGAAGAGGTGGGGTTGGAGGTGCGTAACCTTCAATACATCGGCAGCCAGGCCTGGCCGTTTCCGCATTCGCTGATGCTTGGTTTCCATGCCGAATACGCGGGCGGAGATATCGTGCCTCAGCCCGGTGAAATCGAGGATGCGCGCTGGTTCGGCCTCGATGACCTGCCGCCATTGCCAGCCTCGCGCTCCATCGCGCGCTACCTGATCGAGCTGTACCTGGCCCGGCGCTCAGGCCGCCCCGAACCAGTGTTGCCAGGCTAG	MSDSRWQPGLIDGAPAGGWALAHCRQQFLCDSNGLLFPREWLKRQDLPVLCEHGIGHFDGDPIHVLEVEQPIHLADCNWQGLRQFMLQADADTFRMLGYATQIGTWARQHRFCGSCGTPMLQVTGERAMHCPQCEVHHYPRLSPSMIVLVTRGDEILLARSPRFVPGVYSTLAGFVEPGESVEECVAREVREEVGLEVRNLQYIGSQAWPFPHSLMLGFHAEYAGGDIVPQPGEIEDARWFGLDDLPPLPASRSIARYLIELYLARRSGRPEPVLPG	PGPT0013440_1912	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013440-nudC-K03426	NA	NA
BMS010_03205	786	yfcA_1	COG0730	putative membrane transporter protein YfcA	ATGCCCTTCCCCTTCGAACTCGCCGTCGAACCCGGCACTTTGGCCATCCTCGCTTTCGTCGCTTTCCTCGCCGGCTTCATCGATGCCATCGCCGGAGGCGGTGGCCTGCTAACCATTCCTGCGCTGCTCACCGCAGGGTTGCCGCCCCATCTCGTCCTGGGCACCAACAAACTCAGCGCGACGTTCGGCTCCGCCACCGCCAGCTACACCTTCTACCGGCGCAAGCTGTTCTCTCCCGGACAGTGGCGCAACGCACTCATCGCTACTGCTGTCGGTGCGCTCTCGGGCGCGGTGATCGCCCATTGGCTGCCGGCCTCCTGGCTGAACCAGATGCTGCCGGCGGTGGTGTTCGGCTGCGGGCTCTACCTGTTGTTCGGCCGCACACCGGACGCACCGTTGAACGCCGAAGCACCGATCCCACGCGGACGCCAATGGCCCCAGGGCCTGGGGCTGGGCTTCTACGATGGTATCGCCGGCCCGGGCACCGGTGCCTTCTGGACCGTCAGCAGCCTGCTGCTCTATCCACTCGACCTGGTTAGGGCCAGTGGCGTGGCGCGCAGCATGAACTTCGTCAGCAATGCCGCGGCTCTGGTGGTGTTCATGCTGTCCGGGCAGGTCGCCTGGTTGCTGGGCATCAGCATGGGGCTGTCGCTGATGGTCGGCGCGTTTCTCGGCGCACGCACGGCGATCCGGGGCGGCTCGCGCTTCATCCGCCCGGTGTTCATTCTGGTGGTGTTGGCGCTGACGGCGCGCCTAGCCTGGCAACACTGGTTCGGGGCGGCCTGA	MPFPFELAVEPGTLAILAFVAFLAGFIDAIAGGGGLLTIPALLTAGLPPHLVLGTNKLSATFGSATASYTFYRRKLFSPGQWRNALIATAVGALSGAVIAHWLPASWLNQMLPAVVFGCGLYLLFGRTPDAPLNAEAPIPRGRQWPQGLGLGFYDGIAGPGTGAFWTVSSLLLYPLDLVRASGVARSMNFVSNAAALVVFMLSGQVAWLLGISMGLSLMVGAFLGARTAIRGGSRFIRPVFILVVLALTARLAWQHWFGAA				NA	NA	NA	NA	NA
BMS010_03206	651			hypothetical protein	ATGCAGTATGACGGTCTGGCTTGGGCGACAGCGCTGCTGGCGCTGCTGGTGACACTGGTCGCCGCCCGCATTCTGTTCAATCGTCATTGGTTCCTCGGCTGGCTGCGCGGTACCTGCGGGTTGGCTTTTCTCGGCCTGGCGGTGCTCCTCGGCCTGGTGGCCAAGGACCTGACGGCCTATTCGCCGCTGCCGGACGGCAAGCCGGTGGTGACGATCAGCTTCAAGGCGGAATCCGAGCAACGTTATCGGGTGACCTTGCTGGAAAGCGGCGAAGAGCGGCAGGTCACGCTGGAGGGCGATCTCTGGCAACTGGATGTCCGCTTGCTGCGCTGGATCGGGCTCGCCGATCTGATCGGGTTGCAGCCCGGATATCGGTTGGAGCGACTCTCTGGGCGTTTCCTGGCCATCGAGCAGCAGGAGCTGGCGCAGCATACCCAGGTGGAGTTGGCGCAGAGCCCGTATGGCGTCGACCTCTGGCGCTGGCTGCGGCTGAATCAGCGTGACCTGTTCCTGTTCAAGCCCGAAGCGCAGCGGGTGACCTACCTGCCGGTGGCCGACGGTGCGGCCTTCACCGTGAGCCTGTCGCCCACCGGCTTGCTCGCTCAACCGATGAACCAGGCGGCCACCCAGGCACTGAAAGACTGGCAGTGA	MQYDGLAWATALLALLVTLVAARILFNRHWFLGWLRGTCGLAFLGLAVLLGLVAKDLTAYSPLPDGKPVVTISFKAESEQRYRVTLLESGEERQVTLEGDLWQLDVRLLRWIGLADLIGLQPGYRLERLSGRFLAIEQQELAQHTQVELAQSPYGVDLWRWLRLNQRDLFLFKPEAQRVTYLPVADGAAFTVSLSPTGLLAQPMNQAATQALKDWQ				NA	NA	NA	NA	NA
BMS010_03207	1899	htpG	COG0326	Chaperone protein HtpG	ATGAGTGTGGAAACTCAAAAAGAGACGCTGGGCTTCCAGACCGAGGTGAAGCAACTGCTGCACCTGATGATCCATTCCTTGTATTCGAACAAGGAAATCTTCCTCCGCGAGCTGGTCTCCAATGCCTCCGATGCCGCCGACAAGCTGCGCTTCGAGGCACTGGCCAAGCCCGAGCTGCTCGAGGGCGGGGCGGACCTGAAGATTCGCGTGAGCTTCGATAAGGACGCCAAGACCGTCACCATCGAAGACAACGGCATCGGTATGAGCCGCGAAGAGGTGGTCACTCACCTCGGCACCATCGCCAAATCCGGTACCGCCGACTTCCTGAAGAACCTGTCCGGCGATCAGAAGAAGGACTCCCACCTGATCGGTCAGTTCGGCGTGGGCTTCTATTCGGCCTTCATCGTCGCCGACAAGGTGGATGTCTTCACCCGCCGAGCCGGCGCGCCGGCGAGCGAAGGGGTGCACTGGTCTTCGAAGGGCGAGGGCGAGTTCGACGTCGCGACCGTGGAGAAGCCCGAGCGCGGTACCCGTATCGTCCTGCACCTGAAGAAGGACGAGGAGGAGTTCGCCGACGGCTGGCGTCTGCGCAACATCATCAAGAAGTACTCCGACCACATCGCTCTGCCCATCGAATTGCCGAAGGAGCATCACGGCGAGGACAAGCCGGCCGAGCCCGAATGGGAAACCGTCAACCGCGCCAGCGCACTGTGGACCCGTCCGCGTACCGAGGTGAAGGACGAGGAGTACCAGGAGTTCTACAAGCACGTCGCCCACGACTTCGAGAACCCGCTGACCTGGAGCCACAACAAGGTCGAAGGCAAGCTGGAGTACACCTCGCTGCTCTACGTGCCGGCCCGCGCGCCGTTCGACCTGTACCATCGTGAAGCGCCCAAGGGCCTCAAGCTCTATGTGCAGCGCGTGTTCATCATGGACCAGGCCGACGAGTTCCTGCCGCTGTACCTGCGCTTCATCAAGGGCGTGATCGACTCCAATGACCTCTCGCTGAACGTCTCCCGCGAGATTCTGCAGAAGGACCCGGTGATCGACTCGATGAAGTCGGCGCTGACCAAGCGCGTCCTCGATATGCTGGAGAAGCTGGCGAAGAGCGAGCCGGAGCAGTACAAGACCTTCTGGAAGGCGTTCGGCCAGGTGCTCAAGGAAGGTCCGGCGGAAGACTTCGCCAACAAGGAGAAGATCGCCGGTCTGTTGCGCTTCACCTCCACGACGGACGAGTCCGGCGAACAGAGCGTTTCGCTGGCCGACTACCTGGGTCGTGTGAAGGAAGGCCAGGACAAGATCTACTACCTGACCGGCGAGTCCTACGCACAGATCAAGAACAGCCCGCACCTGGAGGTGTTCCGTAAGAAGGGCGTCGAGGTCCTGCTGCTCACCGATCGTATCGACGAGTGGCTGATGAGCTATCTCACCGAGTTCGATGGCAAGCAGTTCGTCGATGTCGCCCGTGGCGACCTGGACCTCGGCAAGTTGGACACCGAAGAGGACAAGAAGGCCCAGGAAGAGATCGCCAAGGCCAAGGAAGGGTTGCTGGAACGCCTCAAGGGTGCACTGGGCGAACAGGTCAAGGAAGTGCGCGTGTCGCACCGCCTGACCGACTCGCCGGCGATCCTCGCCATCGGCGAGCAGGATCTCGGTCTGCAGATGCGCCAGATTCTCGAGGCCAGCGGACAGAAGGTGCCAGAGTCCAAGCCGATCTTCGAGATCAACCCGGCCCACCCGTTGATCGAGAAGCTGGATGCCGAGCCGGACGAGGATCGTTTCGCCGATCTTTCGCACATTCTCTTCGACCAGGCCGCGCTGGCGGCGGGCGATAGCCTGAAAGATCCGGCCAGCTATGTGCGCCGGCTGAACAAGCTGCTGGTCGAACTTTCGGCCTGA	MSVETQKETLGFQTEVKQLLHLMIHSLYSNKEIFLRELVSNASDAADKLRFEALAKPELLEGGADLKIRVSFDKDAKTVTIEDNGIGMSREEVVTHLGTIAKSGTADFLKNLSGDQKKDSHLIGQFGVGFYSAFIVADKVDVFTRRAGAPASEGVHWSSKGEGEFDVATVEKPERGTRIVLHLKKDEEEFADGWRLRNIIKKYSDHIALPIELPKEHHGEDKPAEPEWETVNRASALWTRPRTEVKDEEYQEFYKHVAHDFENPLTWSHNKVEGKLEYTSLLYVPARAPFDLYHREAPKGLKLYVQRVFIMDQADEFLPLYLRFIKGVIDSNDLSLNVSREILQKDPVIDSMKSALTKRVLDMLEKLAKSEPEQYKTFWKAFGQVLKEGPAEDFANKEKIAGLLRFTSTTDESGEQSVSLADYLGRVKEGQDKIYYLTGESYAQIKNSPHLEVFRKKGVEVLLLTDRIDEWLMSYLTEFDGKQFVDVARGDLDLGKLDTEEDKKAQEEIAKAKEGLLERLKGALGEQVKEVRVSHRLTDSPAILAIGEQDLGLQMRQILEASGQKVPESKPIFEINPAHPLIEKLDAEPDEDRFADLSHILFDQAALAAGDSLKDPASYVRRLNKLLVELSA	PGPT0014640_2344	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	TRIGGERED_IMMUNITY	PAMP|EFFECTOR_TRIGGERED_IMMUNITY|PTI	PTI-PR1_LIKE_PROTEINS,PGPT0014640-hptG-K04079	NA	NA
BMS010_03208	1257			hypothetical protein	ATGGATGCACTGCTGATTCTCGGCGGTCTGTTGTTGATGCTGGCCGGTCTGGTCTGGCTGGTGATGCTGGCCTTCGGTACCGGCCTGCTCTGGGGCTTCGGCAGCCTGCTGCCGCCGATCACCCTGATCTACGTCCTGCGGCACTGGCGCACGGCGCGCAAGGCCGTGGTGCTGGCGGCCCTGGGGGTAATTCCGTTGGTGGTGGGCATGACCCTGCTGGCCAACCGGGATGCGGCGCGCCTGGAAGCGATACTCGCCATGCACTGGCTGCAGCCACAGCAGGAGGCGCCGGCCGAGTTGGCGATCCGTCTGCATGGCGAGCTGAACGGCGAGCCGTTCGCGCCGCAGCGGGGCGAACTGATCGATGGCATCCTCAGTTTGCGCGAGGGGCAGGATTTCTTCGCTCGCCGCGAGTTGAGCATCCGCCTGCCGCACGCGACGGAAGACGGCGTTCGCCTGGATGTCCTGCCGCAGGACGTCGGCAAGCTGCCGGAAGTCGAGGTGAGCTGGCTGCTGCCCGAGCAGGAGCTTCCAGAAGCCCGCCGGCTGAGCCGCGGCTATACGCTGCATCTGGACCTGAAACCGGAAGCGCCGAATCGGCTGGTGGGGGACTTCCACCTCGTGTTGCCGCCGCAATACCAGACTACCCTGAGCGGTACCGTGGAACTGTTCACCGACCGCCTGCGCTATCGCGACGATGGCAAGGTGGACACCACCTACGACTCCAGGGACACCCTGGCCTACGTGATCGAGGACTACCTGCAGCGCCGCTTCGCCACCCGAGCTGTGGAACTGACCACGCTGCCGACCCCGACGCTGCCGGCCAAGTCTCTTGAACTCGAGGTCGATGCCCGGATCGACGACCGCTCGGAGCACCTGCCGTTGCGCCTGAGCAAGGCCGGCACGCGCGGTTGGATGGTGGAAGGGGATCGCTTCCCGCCGCTTCCTCCGCCCCAGGCGACGACTGCCGCCGTCGAGCAGGACCGTCCGGCCCAGGCACCGACCGCCGATGCCGGCGCCCGTCCCGCCGATCGCCGCCAGCGTTTCTCCCTGGAGCGCCTGTTGAGCAATCCCAATCACTACCGGAACCTCGCGATGCGACTGGTCAACGAGCGCGGCGGTACCGTCCAGGGACGTTTCGTCGGCCTCGACAACGAAGGCCATGTGCTGATCCGGCGCAACATGAACGGTGCCGGCGAGGCGAACTTCAGCCTGCGCCCCGAGGATATCGCCAGGATCGAGTTGCTGGAGCCCTGA	MDALLILGGLLLMLAGLVWLVMLAFGTGLLWGFGSLLPPITLIYVLRHWRTARKAVVLAALGVIPLVVGMTLLANRDAARLEAILAMHWLQPQQEAPAELAIRLHGELNGEPFAPQRGELIDGILSLREGQDFFARRELSIRLPHATEDGVRLDVLPQDVGKLPEVEVSWLLPEQELPEARRLSRGYTLHLDLKPEAPNRLVGDFHLVLPPQYQTTLSGTVELFTDRLRYRDDGKVDTTYDSRDTLAYVIEDYLQRRFATRAVELTTLPTPTLPAKSLELEVDARIDDRSEHLPLRLSKAGTRGWMVEGDRFPPLPPPQATTAAVEQDRPAQAPTADAGARPADRRQRFSLERLLSNPNHYRNLAMRLVNERGGTVQGRFVGLDNEGHVLIRRNMNGAGEANFSLRPEDIARIELLEP				NA	NA	NA	NA	NA
BMS010_03209	447			hypothetical protein	ATGAGCGGTCTGGATTTCGATACCCTGGTGCGCGAGGCCCGGGAAAAGAACGACTACGATCAACTGCTCGGCCTGATTCCCTACGCGAAGCTGATCGGCGTCGAGTGTCTGCGGCTGGGCGACGACTTGGTGTTCCGCCTGCCAGCCAGCAAAGACACCATCGGCAACCCGATCCTTCCGGCCATCCATGGCGGCGTGATCGCCGGGTTCATGGAACATGCGGCCATGCTTCACCTGCTGATGTTCATGGGCATCCCACATTTGCCCAAAATCATCGACTTCTCCATAGATTACCTGCGCGCTGGTCATTATCGTGACACCTTCGCTCAGTGCCAGGTCTGGCGACAGGGGCGCCGTGTGGCGAACGTCGCCATCACCGCCTGGCAGACAACCCAAGCCGAACCCATCGCGACGGCGCGCGCTCATTTCAAGGTGGACGGGCCCTGA	MSGLDFDTLVREAREKNDYDQLLGLIPYAKLIGVECLRLGDDLVFRLPASKDTIGNPILPAIHGGVIAGFMEHAAMLHLLMFMGIPHLPKIIDFSIDYLRAGHYRDTFAQCQVWRQGRRVANVAITAWQTTQAEPIATARAHFKVDGP	PGPT0001841_14	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001841-yigI-NA	NA	NA
BMS010_03210	477			hypothetical protein	GTGAGCGACAGCGTTATCCTCGAACGGGCCCAGCGTTTCCTCTCGGCCCTTCGCCATTGCCAGGTCCTGGGAATAGCGGTGGAGGCGGCCGGCAGCCATGGCCTGACCCTGCGTCTACCCTACAGTTCCTCGATCATCGGTAACCCCGACACCGGCGTGATCCATGGCGGTGCGATCACCACGCTCATGGATACCACCTGCGGCATTTCCACGGTCTGTGCGCTGCCCGATTTCGAAATCTGTCCGACCCTGGATCTGCGCATCGACTACATGCACCCGGCCGAGCCGCACAAGGACGTCTATGGGTTCGCCGAATGCTATCGGGTCACGCCGAACATCATTTTCACGCGCGGCTTCGCCTACCAGGACGACCCGCAGCAGCCGATCGCCCATGTGGTCGGGACCTTCATGCGCATGGGCAAGGCCGCCCAGGGTGGGCAGGGGCTCAAGCGCGACATTCAAGGCGGTGCGGCATGA	MSDSVILERAQRFLSALRHCQVLGIAVEAAGSHGLTLRLPYSSSIIGNPDTGVIHGGAITTLMDTTCGISTVCALPDFEICPTLDLRIDYMHPAEPHKDVYGFAECYRVTPNIIFTRGFAYQDDPQQPIAHVVGTFMRMGKAAQGGQGLKRDIQGGAA	PGPT0001841_42	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001841-yigI-NA	NA	NA
BMS010_03211	285			hypothetical protein	ATGCAGAAATCCCTCACCTACGCCCTGCTGCTTGCCGCGACGGTCGGCCTGGCCGCTTGTGAGAAGACCCCGGAAGACAAGATGCAATCCGCCAAGGAGTCGGCTTCCGAAGCCATCGAGAACCTGGGCGACGCCGCCGAGGAAAGCAGCGAAGCCGCCGAGCAGAAGGCCGACCAGGCGCTGGGTAACGAACCCACCACCGGCGAGAAGATCGAAGAGACCGCCGACGATGCCGCCGACGCCATCGAAGAGGCGGGAGACGAAGCGAAAGACGCCGCCAACTGA	MQKSLTYALLLAATVGLAACEKTPEDKMQSAKESASEAIENLGDAAEESSEAAEQKADQALGNEPTTGEKIEETADDAADAIEEAGDEAKDAAN				NA	NA	NA	NA	NA
BMS010_03212	393			hypothetical protein	ATGACGATTCCATTCTGGTGCTTGTTCATCAGCGCGCTGCTGATCTACCTGGCCAAGGCACCTGTGGCCAAGGCGATGAGCGAGGAGGGGCGGGGATACGACAACCGTCACCCGCGTGCCCAACAGGCCCGGCTGACCGGATTCGGTGCCCGTGCGCTGGCGGCTCACCAGAACAGCTTCGAGGTATTCCCACTGTTCGTGGCCGGGGTTTTGATGGCGCACACCACCCAGACGCAGGGGTTCCTGATCGATGCACTGGCGGTGACCTTCGTGATTTCGCGGGTGCTTTATCTGATCTGCTACTGGGCTGACTTGCACTGGCAGCGCAGTGTGATCTGGGGTATCGGTCTGCTGTGCTGCCTGGCACTCATGGTCAGCCCGGCATTGCACTGA	MTIPFWCLFISALLIYLAKAPVAKAMSEEGRGYDNRHPRAQQARLTGFGARALAAHQNSFEVFPLFVAGVLMAHTTQTQGFLIDALAVTFVISRVLYLICYWADLHWQRSVIWGIGLLCCLALMVSPALH				NA	NA	NA	NA	NA
BMS010_03213	735			hypothetical protein	ATGTTCAGCGCTGAAAGCTATCTGCCCCATCTTCTCGCCATTTTCTGGTTCCTTGTCTGCTGGATCGGCTATACCCGGTACGCCACCTGGAAGGGCCGCGACACCCCTTGTCTGGCCAGCGTCCTGCATCTCTATCGGGAGGACTGGATGCGTCGCCTGCTGCTGCGCGACAACCGCATCGGCGATGCCAACGTGATCGGCAACCTGGAGCGCAACGCGTCGTTCTTCGCCTCCAGTACCTTGATCATTCTCGCCGGCATCCTCACCGTGCTCGGGGCGTCCGATCGTGCGGTGTCGCTGCTGGCTGACCTCCCGTTCGTCCAGGCGGCGACCCGGGAGATGTCCGAAATCAAGTTGCTGGGGTTGGCGATGGTGTTCGTCTACGCCTTCTTCACCTTCAGCTGGTGCATGCGCCAATACAACTTCGCGGCTGTGCTGGTGGGGTCCGCGCCGATGGTCGGCGAGCGTCATGTCACCGAGCAGGAGCGCAAGGCGTTCGCCGAACGCGCCGCACGGGTGATCTCCATGGCCGCCAACCAGTTCAACTTCGGCCTGCGTGCCTATTATTTCGGCATGTCGATGCTGGCCTGGTTCATCAACCCCTGGTTCTTCATGCTGATCACCGCCGGCGTGGTAGTGGTGCTGTACCGCCGAGAATTTCATTCGGATGTACTGGAAGTAATGGTCTACACCCAGACCCCCGCGGCCGAGCCGCTCAAGGAGAAAAGCGAATGA	MFSAESYLPHLLAIFWFLVCWIGYTRYATWKGRDTPCLASVLHLYREDWMRRLLLRDNRIGDANVIGNLERNASFFASSTLIILAGILTVLGASDRAVSLLADLPFVQAATREMSEIKLLGLAMVFVYAFFTFSWCMRQYNFAAVLVGSAPMVGERHVTEQERKAFAERAARVISMAANQFNFGLRAYYFGMSMLAWFINPWFFMLITAGVVVVLYRREFHSDVLEVMVYTQTPAAEPLKEKSE				NA	NA	NA	NA	NA
BMS010_03214	1320	brnQ	COG1114	Branched-chain amino acid transport system 2 carrier protein	ATGATTCGTTTGAAAGGTCTGGACCTGCTGGCCCTCGGCTTCATGACATTCGCGCTGTTCCTCGGCGCGGGCAACATCATCTTTCCACCGAGCGCCGGTATGGCTGCCGGACAGAACATGGGCCAGGCGGCTTTCGGTTTCCTCCTGACCGGTGTCGGTCTGCCGCTGTTGACGGTCGTGGCCCTGGCCAGGGTGGGGGGCGGCATGGAGCGGCTGACCGCGCCGCTCGGCAAGTCCGCCGGTACGCTTCTCGCCGTAGCGGTCTATCTGGCGATCGGTCCTCTGTTCGCGACGCCGCGTACCGCCGTGGTGTCCTTCGAGATGGGCGTGGCGCCGTTCACCGGCAACAGCGGTATGCCGCTGCTGCTCTACACGCTGGCCTATTTCGTCGCCGTGCTGTTCCTTTCGCTCAATCCGGGGCGCCTGGTGGACCGCATCGGCAAGTTCATCACCCCGGTCCTGCTGGCTGCCTTGCTGGTGCTGGGTGGCGCTGCACTGTTCGCGCCGGCTGGTGAGGTCGGCGTGACTTCCGACAGCTATCAGGCCGCACCGTTCGTGCAAGGCTTCCTGCAAGGCTACCTGACCATGGATACCCTGGGCGCCCTGGTGTTCGGCATCGTCATCGCCACGGCGATCCGCGACCGCGGCGTGAGCGATGCGAGCCTGGTGACGCGCTACTCGGTCGTGGCCGGGATCGTTGCCGCCATCGGCTTGTCGCTGGTCTATCTGGCGTTGTTCTACCTTGGCGCCACCAGCCAGGGGATTGCCGGTGACGCGCAGAACGGTGTGCAGATTCTGACGACCTACGTCCAGCACACTTTCGGCACGACTGGCAGTCTGCTGTTGTCCGTAGTCATTACGCTGGCCTGTCTGACCACTGCAGTCGGCCTGCTAACCGCCTGTGGGGAGTTCTTCAGCGGCCTGCTGCCGGTCTCCTACCGCACCGTGGTCATCCTCTTCGGCCTGTTCAGCCTGGGTGTCGCCAACCAGGGGCTGACCCAGTTGATCAGCGTTTCGGTGCCGGTTCTGGTTGGCCTCTATCCATTGGCTATCGTGCTGGTCGCGCTAAGCCTGCTGGATCGCCTGTGGCTGTCGCAGCGTCTGGTGTTCGTGCCGGTGATGGCGGTGACTTTAATCTTCGGCGTTTTCGACGGGATCGCCACGACCGGACGCCAGGACCTGGTACCGAGTTTCATCAGCCGTCTGCCATTGGCCGAGCAGAGCCTTGGCTGGCTGATTCCGGCGCTGGTGACACTGGTGCTGGCGGCGGTGCTCGACCGCATCCTGGGGAAACCGAAGGCTGCATTGGCTTCGAGATAA	MIRLKGLDLLALGFMTFALFLGAGNIIFPPSAGMAAGQNMGQAAFGFLLTGVGLPLLTVVALARVGGGMERLTAPLGKSAGTLLAVAVYLAIGPLFATPRTAVVSFEMGVAPFTGNSGMPLLLYTLAYFVAVLFLSLNPGRLVDRIGKFITPVLLAALLVLGGAALFAPAGEVGVTSDSYQAAPFVQGFLQGYLTMDTLGALVFGIVIATAIRDRGVSDASLVTRYSVVAGIVAAIGLSLVYLALFYLGATSQGIAGDAQNGVQILTTYVQHTFGTTGSLLLSVVITLACLTTAVGLLTACGEFFSGLLPVSYRTVVILFGLFSLGVANQGLTQLISVSVPVLVGLYPLAIVLVALSLLDRLWLSQRLVFVPVMAVTLIFGVFDGIATTGRQDLVPSFISRLPLAEQSLGWLIPALVTLVLAAVLDRILGKPKAALASR	PGPT0014385_1569	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_BRANCHED-CHAIN_AMINO_ACID_TRANSPORT,PGPT0014385-TC_LIVCS|brnQ-K03311	NA	NA
BMS010_03215	888	sucD_1	COG0074	Succinate--CoA ligase [ADP-forming] subunit alpha	ATGAGCGTCCTGATCAATAAAGACACCAAAGTCATCTGCCAAGGCTTCACCGGTAGCCAGGGTACTTTCCACAGCGAACAGGCCATCGCCTACGGCACCAAGATGGTCGGTGGCGTGACCCCCGGCAAGGGCGGTACCACCCACCTCGGCCTGCCGGTGTTCAACACCGTCAAGGAAGCCGTGGAAGCGACCGGCGCTGACGCTTCGGTCATCTACGTTCCGGCTCCGTTCTGCAAGGACTCGATCCTGGAAGCGGCGTTCGGCGGCATCAAATTGATCGTCTGCATCACCGAAGGCATTCCGACCATGGACATGCTGGAAGCCAAGGTCAAGTGCGACGAGCTGGGCGTACGCCTGATCGGCCCGAACTGCCCGGGCGTGATCACTCCCGGCGAGTGCAAGATCGGCATCATGCCGGGTCACATCCATCTGCCGGGCAAGGTCGGTATCGTGTCGCGCTCCGGCACCCTGACCTATGAAGCCGTGAAGCAGACCACCGACGCCGGTTTCGGCCAGTCCACTTGCGTGGGCATCGGTGGCGACCCGATCCCGGGTTCCAACTTCATCGACATCCTCAAGCTGTTCCAGGAAGACCCGGCGACCGAAGCGATCGTGATGATCGGTGAGATCGGTGGTTCCGCCGAGGAAGAAGCCGCTGCCTTCATCAAGGCCAACGTGACCAAGCCGGTGGTTTCCTACATCGCCGGCGTCACCGCTCCGCCCGGCAAGCGCATGGGCCACGCTGGTGCCATCATCTCCGGCGGCAAGGGTACTGCGGACGAGAAGTTCGCCGCCCTGCAGGATGCCGGTGTGAAGACCGTGCGTTCCCTGGCCGACATCGGCAAGGCCCTGGCCGAGCTGACCGGTTGGGAAGTCAAGAAGGCCTGA	MSVLINKDTKVICQGFTGSQGTFHSEQAIAYGTKMVGGVTPGKGGTTHLGLPVFNTVKEAVEATGADASVIYVPAPFCKDSILEAAFGGIKLIVCITEGIPTMDMLEAKVKCDELGVRLIGPNCPGVITPGECKIGIMPGHIHLPGKVGIVSRSGTLTYEAVKQTTDAGFGQSTCVGIGGDPIPGSNFIDILKLFQEDPATEAIVMIGEIGGSAEEEAAAFIKANVTKPVVSYIAGVTAPPGKRMGHAGAIISGGKGTADEKFAALQDAGVKTVRSLADIGKALAELTGWEVKKA	PGPT0001540_1451	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001540-sucD-K01902	NA	NA
BMS010_03216	1167	sucC_1	COG0045	Succinate--CoA ligase [ADP-forming] subunit beta	ATGAATCTCCACGAATATCAGGGTAAGCAGCTGTTCGCTGAATACGGCCTGCCCGTATCCAAGGGCTTTGCCGTAGACACCCCGGAAGAGGCTGCAGAGGCCTGCGACAAGATTGGCGGCGACATGTGGGTTGTGAAGGCCCAGGTGCATGCCGGCGGCCGCGGCAAGGCTGGCGGTGTGAAGCTGGTCAAGAGCAAAGAAGACGCCAAAGCCTTCGCCGCCAACTGGCTCGGCAAGCGTCTGGTGACCTACCAGACTGACGCCAATGGCCAGCCGGTCAGCAAGATCCTGGTGGAATCCTGCACCGACATCGACAAGGAACTGTACCTCGGTGCAGTCGTCGATCGCTCCAGCCGTCGCATCGTCTTCATGGCTTCCACCGAAGGTGGCGTGGAGATCGAGAAAGTCGCCCACGAGACTCCCGAGAAGATTCTCAAGGCTACCATCGACCCGCTGGTCGGCGCTCAGCCGTACCAGGGCCGCGAGCTGGCTTTCAAACTGGGCCTGCAGGGTGACCAGATCAAGCAGTTCGTGCACATCTTCACCGGCCTTGCCAAGCTGTTCCAGGACTACGACCTGGCCCTGCTGGAAATCAACCCGCTGGTGATCAAGAAGGACGGCAACCTGCACTGCCTGGATGCCAAGATCAACATCGACGGCAACGCCCTGTATCGCCAGCCGAAGCTGCGCGCCATGCACGATCCGTCCCAGGACGATCCGCGTGAAGCCCATGCTGCCAAGTGGGAGCTGAACTACGTTGCTCTCGAAGGCAACATCGGCTGCATGGTCAATGGTGCCGGCCTGGCCATGGGTACCATGGACATCGTCAACCTGCACGGCGGCAAGCCGGCCAACTTCCTGGACGTTGGCGGCGGCGCGACCAAAGAGCGCGTGACCGAAGCGTTCAAGATCATCCTGTCCGATAGCAACGTGAAGGCCGTTCTGGTGAACATCTTCGGCGGCATCGTGCGCTGCGACATGATCGCGGAAGGCATCATCGGCGCCGTGAAGGAAGTCGGTGTGAAGGTTCCGGTGGTCGTCCGCCTGGAAGGCAACAACGCTGAGCTGGGCGCCAAGGTCCTGGCCGAAAGCGGTCTGAACATCATCGCGGCAACCAGCCTGACCGACGCTGCCCAGCAGGTCGTCAAGGCCGCGGAGGGTAAGTAA	MNLHEYQGKQLFAEYGLPVSKGFAVDTPEEAAEACDKIGGDMWVVKAQVHAGGRGKAGGVKLVKSKEDAKAFAANWLGKRLVTYQTDANGQPVSKILVESCTDIDKELYLGAVVDRSSRRIVFMASTEGGVEIEKVAHETPEKILKATIDPLVGAQPYQGRELAFKLGLQGDQIKQFVHIFTGLAKLFQDYDLALLEINPLVIKKDGNLHCLDAKINIDGNALYRQPKLRAMHDPSQDDPREAHAAKWELNYVALEGNIGCMVNGAGLAMGTMDIVNLHGGKPANFLDVGGGATKERVTEAFKIILSDSNVKAVLVNIFGGIVRCDMIAEGIIGAVKEVGVKVPVVVRLEGNNAELGAKVLAESGLNIIAATSLTDAAQQVVKAAEGK	PGPT0019515_2198	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0019515-sucC-K01903	NA	NA
BMS010_03218	1437	lpd_1		Dihydrolipoyl dehydrogenase	ATGACCCAGAAATTCGACGTGGTAGTCATCGGTGCCGGTCCTGGCGGCTATGTGGCGGCGATCAAGGCCGCGCAACTCGGTCTGAAGACCGCCTGCATCGAGAAATATCAGGGCAAGGACGGCAAGACCGCTCTGGGCGGCACCTGCCTGAACGTCGGCTGTATCCCCTCCAAGGCGCTGCTGGACAGCTCCTACAAGTACCACGAGGCCCACGAGGGCTTTAAAGTCCATGGCATCGAGGCCAAGGGCGTGACCATCGACGTTCCCTCCATGGTGGCCCGCAAGGACACCATCGTGAAGAACCTCACCGGCGGCGTCGCCACCTTGTTCAAGGCGAACGGCGTCACCCTGCTGGAAGGCCATGGCAAGCTGCTGGCCAACAAGCAGGTCGAAGTGACCGGTCGTGACGGCAAGGTCGAAGTCATCGAAGCCACCAACGTGATTCTGGCGTCCGGTTCCAAGCCGGTCGACATCCCGCCGGCCCCGGTCGACCAGGACGTCATCGTCGACTCCACCGGCGCCCTGGACTTCCAGGCCGTGCCGAAGAAGCTGGGCGTCATCGGCGCAGGCGTCATCGGCCTCGAGCTGGGCTCCGTCTGGGCCCGCCTGGGTGCGGAAGTGACCGTCATCGAAGCCATGGACAAGTTCCTCCCGGCTGCCGACGAGCAGATCTCCAAGGAAGCCTTGAAGATCCTCACCAAGCAGGGTCTGAACATCCGTCTGGGCGCCCGCGTGACTGGCTCCGAAGTCAAGAAGAAGCAGGTCACCGTGAGCTTCACCGACGCTCAGGGCGAGCAGAAGATGACCTTCGACAAGCTGATCGTCGCGGTCGGCCGTCGTCCGGTCACCACCGATCTGCTGGCTGCCGACAGCGGCGTGGACATGGATGAGCGCGGCTTCATCTTCGTCGATGACTACTGTGCCACCAGCGTACCGGGCGTCTACGCCATCGGCGACGTGGTACGCGGCGCGATGCTGGCGCACAAGGCCTCGGAAGAGGGCGTGATGGTCGCCGAGCGCATTGCCGGCCACAAGGCCCAGATGAACTACGACCTGATCCCGTCGGTCATCTACACACACCCGGAAATCGCGTGGGTCGGCAAGACCGAGCAGGCTTTGAAGGCCGAAGGCGTCGAAGTGAACGTCGGTACCTTCCCGTTCGCCGCCAGTGGCCGTGCCATGGCTGCCAACGACACCGCCGGTCTGGTCAAGGTCATCGCCGATGCCAAGACCGACCGCGTGTTGGGCGTACATGTGATCGGCCCGAGCGCTGCCGAGCTGGTTCAGCAAGGCGCGATCGGCATGGAGTTCGGCACCAGCGCCGAAGACCTCGGCATGATGGTGTTCTCGCACCCGACCCTGTCCGAAGCGCTGCACGAAGCGGCTCTGGCGGTGAATGGCCACGCCATCCACATCGCCAATCGCAAGAAGCGCTGA	MTQKFDVVVIGAGPGGYVAAIKAAQLGLKTACIEKYQGKDGKTALGGTCLNVGCIPSKALLDSSYKYHEAHEGFKVHGIEAKGVTIDVPSMVARKDTIVKNLTGGVATLFKANGVTLLEGHGKLLANKQVEVTGRDGKVEVIEATNVILASGSKPVDIPPAPVDQDVIVDSTGALDFQAVPKKLGVIGAGVIGLELGSVWARLGAEVTVIEAMDKFLPAADEQISKEALKILTKQGLNIRLGARVTGSEVKKKQVTVSFTDAQGEQKMTFDKLIVAVGRRPVTTDLLAADSGVDMDERGFIFVDDYCATSVPGVYAIGDVVRGAMLAHKASEEGVMVAERIAGHKAQMNYDLIPSVIYTHPEIAWVGKTEQALKAEGVEVNVGTFPFAASGRAMAANDTAGLVKVIADAKTDRVLGVHVIGPSAAELVQQGAIGMEFGTSAEDLGMMVFSHPTLSEALHEAALAVNGHAIHIANRKKR	PGPT0001380_2605	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0001380-lpd|pdhD-K00382	NA	NA
BMS010_03219	1230	sucB_1	COG0508	Dihydrolipoyllysine-residue succinyltransferase component of 2-oxoglutarate dehydrogenase complex	ATGGCTATCGAGATCAAAGCCCCCACTTTCCCGGAATCGGTTGCCGACGGCACCGTCGCCACTTGGCACAAGAAGCCGGGTGATGCCGTCAAGCGTGACGAGCTGATCGTCGACATCGAGACCGATAAAGTGGTCATGGAAGTGCTCGCCGAAGCGGACGGCGTGCTCGCCGAAATCGTGAAGAACGAGGGCGACACTGTCCTGAGCGGCGAATTGCTCGGCAAGCTGACCGAAGGCGGCGCTGCTGCCGCCGCTCCCGCAGCCGCTCCGGCTGCTGCTGCTCCGGCCGCTGCATCCAATGCTCCGGCCGCTGCCACCGAAGACCAGATCCTGTCTCCGGCCGCCCGTAAGCTGGCCGAGGAGAATGGCATCGACCCGAACAGCATCGCCGGCACCGGCAAAGGCGGGCGTGTGACCAAGGAAGACGTGGTTGCCGCCGTCGAGGCCAAGAAGAACGCCCCGGCCGCTGCCCCGGCTGCCAAGCCTGCCGCTCCGGCCGCCGAAGCGCCGCTGTTCGCCGCTGGCGATCGCGTCGAGAAGCGCGTACCGATGACCCGCCTGCGTGCCAAGGTTGCCGAGCGCCTGGTCGAAGCCCAGTCCTCCATGGCCATGCTGACCACCTTCAACGAGGTCAACATGAAGCCGGTGATGGACCTGCGCTCGAAGTACAAGGACCTCTTCGAGAAGACCCACAACGGTGTTCGCCTGGGCTTCATGTCCTTCTTCGTCAAGGCGGCCACCGAGGCGCTGAAGCGCTTCCCGGGCGTCAACGCGTCGATCGACGGCAACGACATCGTCTACCACGGCTACCAGGACATCGGTGTCGCCGTGTCCAGCGACCGTGGCCTGGTGGTTCCGGTGCTGCGTAACGCCGAGCACATGAGCCTGGCGGAAATCGAAGGCACCATCTCCGACTTCGGCAAGAAGGCCAAGGCCGGCAAGCTGACCATCGAAGACATGACCGGCGGTACCTTCACCATCTCCAACGGTGGTGTGTTCGGTTCGCTGCTGTCGACCCCGATCGTCAACCCGCCGCAGACCGCGATCCTCGGCATGCACAAAATCCAGGAGCGCCCGATGGCGGTGAACGGCCAGGTGGTGATCCTGCCGATGATGTACCTGGCGCTGTCCTATGATCATCGTCTGATCGACGGTAAGGAAGCCGTGAGCTTCCTGGTCACCATCAAGGATCTGCTGGAAGACCCGGCACGTCTGCTGCTGGACATCTGA	MAIEIKAPTFPESVADGTVATWHKKPGDAVKRDELIVDIETDKVVMEVLAEADGVLAEIVKNEGDTVLSGELLGKLTEGGAAAAAPAAAPAAAAPAAASNAPAAATEDQILSPAARKLAEENGIDPNSIAGTGKGGRVTKEDVVAAVEAKKNAPAAAPAAKPAAPAAEAPLFAAGDRVEKRVPMTRLRAKVAERLVEAQSSMAMLTTFNEVNMKPVMDLRSKYKDLFEKTHNGVRLGFMSFFVKAATEALKRFPGVNASIDGNDIVYHGYQDIGVAVSSDRGLVVPVLRNAEHMSLAEIEGTISDFGKKAKAGKLTIEDMTGGTFTISNGGVFGSLLSTPIVNPPQTAILGMHKIQERPMAVNGQVVILPMMYLALSYDHRLIDGKEAVSFLVTIKDLLEDPARLLLDI	PGPT0001535_2578	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001535-sucB-K00658	NA	NA
BMS010_03220	2832	sucA_1	COG0567	2-oxoglutarate dehydrogenase E1 component	ATGCAAGAAAGCGTAATGCAGCGCATGTGGAACAGTGCCCACCTATCCGGTGGTAACGCTGCCTATGTGGAAGAGCTCTATGAGCTCTACCTGCACGATCCCAACGCTGTGCCCGAAGAGTGGCGCACCTACTTCCAGAAGCTGCCCGCCGACGGCAACGCCGCCACCGACGTTTCGCATTCCACGGTTCGCGATCATTTCGTACTCCTGGCCAAGAACCAGCGCCGCGCTCAGCCGGTTTCCGCTGGCAGCGTCAGCAGCGAGCACGAGAAGAAGCAGGTTGAAGTCCTGCGCCTGATCCAGGCCTATCGCATGCGTGGCCATCAGGCCTCCCAGCTCGATCCGCTGGGCCTCTGGCAGCGCCCCGCACCGGCCGACCTGTCGATCAATCACTACGGTCTGACCGACGCCGACCTGGATACCACTTTCCGCACCGGCGGCCTGTTCATCGGCAAGGATGAAGCGAGTCTGCGCGAAATTCGCGAGGCCCTGCAACAGACGTATTGCCGCACCATCGGCGCCGAGTTCACCCATATCGTCGATTCCGAGCAGCGTAGCTGGTTCCAGCAGCGCCTCGAGAGCGTGCGCGGCCGCCCGGCATACTCCGCCGAAGTGCGTACGCACCTGCTCGAGCGCCTGACCGCCGCCGAAGGCCTGGAAAAGTACCTGGGCACCAAGTATCCGGGCACCAAGCGTTTCGGCCTGGAAGGCGGCGAGAGCCTGATCCCGCTGCTGGACGAAGTGATCCAGCGTTCCGGTTCCTACGGCACCCAGGAAATTGTGATCGGCATGGCCCACCGTGGCCGCCTGAACGTGCTGGTCAACACCTTCGGCAAGAACCCGCGCGATCTGTTCGACGAGTTCGAAGGCAAGAAGGTCGAAGGTCTCAGCTCCGGTGACGTGAAATATCACCAGGGCTTCTCCTCCAACGTCATGACCCCAGGCGGCGAAGTGCACCTGGCGCTGGCGTTCAACCCGTCCCACCTGGAAATCGTTTCGCCGGTGGTGGAGGGCTCGGTACGTGCTCGCCAGGATCGCCGCAACGATCCGAGCGGTGACAAGGTCCTGCCGGTGTCCATCCACGGCGACGCGGCATTCGCCGGCCAGGGCGTGGTCATGGAAACCTTCCAGATGTCGCAGACCCGTGGCTATCGCACGGGCGGCACCATTCACATCGTGATCAACAACCAGGTCGGCTTCACCACCAGCCGCCAGGAAGACGCGCGCTCCACCGAGTATGCGACCGATGTGGCGAAGATGATCCAGGCGCCGATCTTCCACGTGAACGGCGACGATCCGGAAGCCGTGCTGTTCGTGACTCAGCTGGCCGTCGACTATCGCATGCAGTTCAAGCGTGACGTGGTCATCGATCTGGTCTGCTACCGTCGTCGTGGTCATAACGAAGCGGACGAGCCGAGCGGCACCCAGCCGCTGATGTACCAGCAGATCGCCAAGCAGCGCACCACCCGTGAGCAGTATGCCGATGCCCTGATCCAGGCCAGCGTCCTCGACAACGAGCACGTCCAGGCGCAGGTTGACGAGTATCGCAGTGCGCTGGACAACGGTCTGCATGTGGTGAAGAGCCTGGTCAAGGAACCGAACAAGGAGCTGTTCGTCGACTGGCGTCCCTACCTGGGGCATGCCTGGACCGCACGTCACGACACCCGCTTCGATCTGAAGACCTTGCAGGAATTGTCGGCCAAGCTGCTGGAAATCCCGGAAGGTTTCGTCGTCCAGCGCCAGGTTGCGAAGATTCTCGAAGATCGCCAGAAGATGGGCGCCGGTGCGCTGCCGATCAACTGGGGTTATGCCGAGACCATGGCCTACGCAACCCTGCTGTTCGAGGGCCATCCGGTTCGCATCACCGGCCAGGACGTCGGCCGCGGCACCTTCTCGCATCGCCATGCCGCGTTGCACAACCAGAAGGACGCGAGCACCTACCTGCCGCTGCAGCACCTGTTCGAGAAACAGCCGCGCTTCGATCTGTACGATTCCTACCTGTCGGAGGAAGCCGTACTGGCCTTCGAATACGGCTATGCCACCACCACGCCGAACGCGCTGGTGATCTGGGAAGCCCAGTTCGGTGACTTCGCCAACGGTGCCCAGGTGGTGATCGACCAGTTCATCACCAGCGGCGAGCACAAGTGGGGCCGTCTGTGCGGCCTGACCATGCTGTTGCCGCACGGCTACGAAGGGCAGGGGCCGGAGCACTCCTCCGCGCGCCTGGAGCGTTACCTGCAGCTGTGCGCCGAGCACAACATCCAGGTCTGCGTGCCGACCACGCCGGCGCAGGTCTACCACATGCTGCGCCGCCAGGTGATCCGTCCGCTGCGCAAGCCGCTGGTGGCCCTGACGCCCAAGTCGCTGCTGCGTCACAAGCTGGCCATCTCCACGCTGGAAGATCTGGCGGAAGGCTCCTTCCAGACGGTCATCGGGGAAATCGACCCGATCGATCCGAAGAAGGTCGAGCGCGTGGTCCTGTGCAGCGGCAAGGTCTACTACGACCTGCTGGAGAAGCGCCGCAACGAAGGCCGCGACGACATCGCCATCGTGCGTCTCGAGCAGCTCTATCCGTTCCCGGAAGATGATCTGGCCGAGGTTCTGGCTCCGTACAAGAACCTCAAGCACATCGTCTGGTGCCAGGAAGAGCCGATGAACCAGGGTGCCTGGTATTGCAGCCAGCATCACATGCGCCGTGTCGCCACCGCGCACAAGAAGACCCTGTTCCTCGAGTACGCCGGTCGCGAAGCGTCGGCCGCGCCCGCGTGCGGTTACGCCTCGATGCATGCGGAACAGCAGGAAAAACTGCTGCAGGACGCCTTTACCGTTTAA	MQESVMQRMWNSAHLSGGNAAYVEELYELYLHDPNAVPEEWRTYFQKLPADGNAATDVSHSTVRDHFVLLAKNQRRAQPVSAGSVSSEHEKKQVEVLRLIQAYRMRGHQASQLDPLGLWQRPAPADLSINHYGLTDADLDTTFRTGGLFIGKDEASLREIREALQQTYCRTIGAEFTHIVDSEQRSWFQQRLESVRGRPAYSAEVRTHLLERLTAAEGLEKYLGTKYPGTKRFGLEGGESLIPLLDEVIQRSGSYGTQEIVIGMAHRGRLNVLVNTFGKNPRDLFDEFEGKKVEGLSSGDVKYHQGFSSNVMTPGGEVHLALAFNPSHLEIVSPVVEGSVRARQDRRNDPSGDKVLPVSIHGDAAFAGQGVVMETFQMSQTRGYRTGGTIHIVINNQVGFTTSRQEDARSTEYATDVAKMIQAPIFHVNGDDPEAVLFVTQLAVDYRMQFKRDVVIDLVCYRRRGHNEADEPSGTQPLMYQQIAKQRTTREQYADALIQASVLDNEHVQAQVDEYRSALDNGLHVVKSLVKEPNKELFVDWRPYLGHAWTARHDTRFDLKTLQELSAKLLEIPEGFVVQRQVAKILEDRQKMGAGALPINWGYAETMAYATLLFEGHPVRITGQDVGRGTFSHRHAALHNQKDASTYLPLQHLFEKQPRFDLYDSYLSEEAVLAFEYGYATTTPNALVIWEAQFGDFANGAQVVIDQFITSGEHKWGRLCGLTMLLPHGYEGQGPEHSSARLERYLQLCAEHNIQVCVPTTPAQVYHMLRRQVIRPLRKPLVALTPKSLLRHKLAISTLEDLAEGSFQTVIGEIDPIDPKKVERVVLCSGKVYYDLLEKRRNEGRDDIAIVRLEQLYPFPEDDLAEVLAPYKNLKHIVWCQEEPMNQGAWYCSQHHMRRVATAHKKTLFLEYAGREASAAPACGYASMHAEQQEKLLQDAFTV	PGPT0001530_2209	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001530-sucA-K00164	NA	NA
BMS010_03222	708	sdhB_1	COG0479	Succinate dehydrogenase iron-sulfur subunit	ATGTTGAAAGTCAGTGTTTATCGCTATAACCCCGAGCAGGACGCCGCCCCGTTCATGCAGGAATTCCAGGTCGATACCGGCGGCAAGGACATCATGGTCCTCGACGTACTGGCGTTGATCAAGGAACAGGATGTCACCTTCTCCTACCGTCGCTCCTGCCGCGAGGGCGTTTGCGGCTCCGACGGCATGAACATCAACGGCAAGAATGGCCTGGCCTGCATCACCCCGCTGTCCGCAGCGGGTCTGCGTGGCGGTCAGCTGGTGATTCGCCCGCTGCCGGGTCTGCCGGTCATTCGTGACCTGGTTGTCGATATGAGCATCTTCTACAAGCAATACGAGAAGGTGCAGCCTTATCTGCAGAACGATACGCCGGCTCCGGCCATCGAGCGTCTGCAGTCGCCGGAAGAGCGCGAGAAGCTGGATGGTCTGTACGAGTGCATCCTGTGCGCGTGCTGCTCGACCAGCTGCCCGTCCTTCTGGTGGAACCCGGACAAGTTCCTCGGTCCCGCTGCGCTGCTGCAGGCCTATCGTTTCCTGGCCGACAGCCGCGACACCAAGACCGAAGAGCGCCTGGCCGCAATGGATGATCCGTTCAGCGTCTTCCGTTGCCGCGGCATCATGAACTGCGTCAACGTCTGTCCGAAAGGCCTGAACCCGACCAAGGCCATCGGTCACGTCCGCAACATGCTGCTGCAGAGCGGGACTTGA	MLKVSVYRYNPEQDAAPFMQEFQVDTGGKDIMVLDVLALIKEQDVTFSYRRSCREGVCGSDGMNINGKNGLACITPLSAAGLRGGQLVIRPLPGLPVIRDLVVDMSIFYKQYEKVQPYLQNDTPAPAIERLQSPEEREKLDGLYECILCACCSTSCPSFWWNPDKFLGPAALLQAYRFLADSRDTKTEERLAAMDDPFSVFRCRGIMNCVNVCPKGLNPTKAIGHVRNMLLQSGT	PGPT0001600_3714	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001600-sdhB|frdB-K00240	NA	NA
BMS010_03223	1773	sdhA_1	COG1053	Succinate dehydrogenase flavoprotein subunit	ATGGCTAAAATTCGTACGCTTTCCTTCGACGCCATCATCGTAGGTGGCGGTGGCGCCGGCATGCGCGCCGCGCTGCAACTGGCCCAGTCCGGCCACAAGACCGCTGTCGTGACCAAGGTCTTCCCGACGCGTTCGCATACCGTTTCCGCCCAGGGCGGCATCACTTGCGCCATCGCTTCGGCCGACCCGAACGATGATTGGCGCTGGCACATGTACGACACCGTCAAGGGTTCCGACTACATCGGCGACCAGGACGCCATCGAATACATGTGCTCCGTCGGTCCGGAAGCCGTCTTCGAGCTGGAACACATGGGCCTGCCGTTCTCCCGTACCGAACAAGGCCGCATTTATCAGCGTCCGTTCGGCGGCCAGTCCAAGGACTTCGGCAAAGGCGGGCAGGCTGCCCGTACCTGTGCCGCTGCCGACCGTACCGGTCACGCACTGCTGCACACGCTCTATCAGGCCAACCTGAAGAACAACACCACCTTCCTGAACGAGTGGTATGCCGTCGATCTGGTGAAGAACCAGGATGGCGCCATCGTCGGTGTGATCGCGATCTGCATCGAAACCGGCGAGACAGTCTACATCCGCTCCAAGGCCACTGTGCTGGCCACCGGCGGTGCCGGCCGTATCTACGCCTCCACCACCAATGCCCTGATCAACACCGGTGACGGCGTGGGCATGGCCCTGCGTGCCGGCGTGCCGGTGCAGGACATCGAAATGTGGCAGTTCCACCCGACCGGCATCGCCGGTGCCGGCGTGCTGGTGACCGAAGGTTGCCGCGGCGAGGGTGGCTACCTGATCAACAAGCACGGCGAGCGCTTCATGGAGCGTTATGCGCCGAACGCCAAGGACCTGGCCGGCCGCGACGTGGTGGCCCGTTCCATGGTCAAGGAAGTCATCGCCGGCAACGGCTGTGGTCCGGATGGCGACCATGTGCTGCTGAAGCTCGACCACCTCGGTGAGGAAGTCCTGCACAGCCGCCTGCCCGGTATCTGCGAACTGTCCAAGACCTTCGCGCACGTCGACCCGGTCGTCGCGCCGATTCCGGTCATTCCGACCTGCCACTACATGATGGGTGGCGTGGCCACCAACATTCATGGCCAGGCGATCACCCAGGATGCCAACGGCAACGACACGATCATCGAAGGCCTGTTCGCCGTGGGCGAAGTGGCTTGCGTGTCGGTGCACGGCGCCAACCGCCTGGGCGGCAACTCGCTGCTCGACTTGGTGGTCTTCGGTCGTGCGGCCGGTCTGCACCTGGAGAAGGCCCTGAAGGACGGTATCGAATACCGCAACGCCAGCGACACCGACCTGGACGTCGCCCTGGCTCGCCTGAGCGGCCTGAACGAGCGCACCAGTGGCGAAGACGTCGCTCCGCTGCGCAAGGAACTGCAGAACTGCATGCAGAACTACTTCGGTGTGTTCCGTACCGGCGAATACATGCAGAAGGGCATCCAGCAACTGGCCGAACTGCGTGGCCGTATCGCCAGCGTCAAGATCGCCGACAAGAGCCAGGCGTTCAACACCGCGCGCATCGAAGCGCTGGAACTGCAGAACCTGCTCGAAGTGGCCGAAGCCACTGCGATCGCAGCAGAAACCCGCAAAGAGTCCCGTGGCGCACATGCCCGTGAAGACTTCGAAGAGCGCGATGACGAGAACTGGCTGTGCCACACCCTGTACTTCCCGGGTGAAAAGCGCGTCGCCAAGCGTGCCGTCAACTTTGCGCCGAAGACTGTTCCGGCATTTGAACCCAAGGTTCGGACTTATTAA	MAKIRTLSFDAIIVGGGGAGMRAALQLAQSGHKTAVVTKVFPTRSHTVSAQGGITCAIASADPNDDWRWHMYDTVKGSDYIGDQDAIEYMCSVGPEAVFELEHMGLPFSRTEQGRIYQRPFGGQSKDFGKGGQAARTCAAADRTGHALLHTLYQANLKNNTTFLNEWYAVDLVKNQDGAIVGVIAICIETGETVYIRSKATVLATGGAGRIYASTTNALINTGDGVGMALRAGVPVQDIEMWQFHPTGIAGAGVLVTEGCRGEGGYLINKHGERFMERYAPNAKDLAGRDVVARSMVKEVIAGNGCGPDGDHVLLKLDHLGEEVLHSRLPGICELSKTFAHVDPVVAPIPVIPTCHYMMGGVATNIHGQAITQDANGNDTIIEGLFAVGEVACVSVHGANRLGGNSLLDLVVFGRAAGLHLEKALKDGIEYRNASDTDLDVALARLSGLNERTSGEDVAPLRKELQNCMQNYFGVFRTGEYMQKGIQQLAELRGRIASVKIADKSQAFNTARIEALELQNLLEVAEATAIAAETRKESRGAHAREDFEERDDENWLCHTLYFPGEKRVAKRAVNFAPKTVPAFEPKVRTY	PGPT0001605_3048	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001605-sdhA|frdA-K00239	NA	NA
BMS010_03224	369	sdhD	COG2142	Succinate dehydrogenase hydrophobic membrane anchor subunit	ATGGTAACTAACGTCACGAATCTTTCGCGTTCCGGCCTCTACGACTGGATGGCTCAACGCGTCTCTGCGGTCGTTCTCGCGGCTTACTTCCTCTTTCTGCTGGGCTACCTCGTTGCCAGCCCGGACCTGACCTACGCCGACTGGCACGGTCTGTTCTCCCAGAACTGGATGCGCATTTTCAGCCTCCTGGCCCTCGTGGCTCTCGGCGCTCACGCGTGGGTCGGCATGTGGACCATTTCCACCGACTATTTGACTCCGATGTCGCTGGGCAAGTGGGCTACCGGCGTGCGTTTCCTCTTCCAGGCGGCATGCGGCATTGCGATGTTCGCGTTCTTCGTCTGGGGTGTGCAGATTCTGTGGGGTATCTGA	MVTNVTNLSRSGLYDWMAQRVSAVVLAAYFLFLLGYLVASPDLTYADWHGLFSQNWMRIFSLLALVALGAHAWVGMWTISTDYLTPMSLGKWATGVRFLFQAACGIAMFAFFVWGVQILWGI	PGPT0001590_1277	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001590-sdhD|frdD-K00242	NA	NA
BMS010_03225	375	sdhC_1	COG2009	Succinate dehydrogenase cytochrome b556 subunit	GTGAATAGCCAACGACCTGTAAACCTAGACCTTAGGACCATAAAACTCCCAGTCACCGCTTACACGTCCATTCTTCACCGCATTTCCGGTGTCATCCTCTTCCTGGGCATCGCCGTGCTGCTGTTCGCACTCGATAAGTCCCTGGCTTCCGAGGAAGGCTTCGAGCAGGTGAAGGCGTGTCTCGCCAGTCCGCTGGCAAAATTGGTGATCTGGGGCCTGCTGTCCGCGCTGCTGTATCACTTGGTGGCGGGCGTGCGCCATCTGATCATGGACCTGGGCATCGGCGAGACGCTGGAAGGCGGCAAGCTGGGCTCGAAAATCGTGCTCGTCGTCTCGGCGTTGCTGATCGTGCTGGCAGGGGTGTGGGTATGGTAA	MNSQRPVNLDLRTIKLPVTAYTSILHRISGVILFLGIAVLLFALDKSLASEEGFEQVKACLASPLAKLVIWGLLSALLYHLVAGVRHLIMDLGIGETLEGGKLGSKIVLVVSALLIVLAGVWVW	PGPT0001595_3498	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001595-sdhC|frdC-K00241	NA	NA
BMS010_03226	1287	gltA_1	COG0372	Citrate synthase	ATGGCTGACAAAAAAGCGCAGTTGATCATCGAGGGCGCAGCCCCCGTCGAACTGCCCGTTCTGACCGGCACCGTTGGTCCCGATGTAATCGATGTGCGGGGCCTCACCGCCACGGGCCGCTTCACGTTTGATCCTGGCTTTATGTCGACCGCCTCTTGCGAGTCGAAGATCACCTATATCGATGGCGACAAGGGTGTTCTTCTGCACCGCGGCTATCCGATCGAACAACTGGCAGAGAAGTCCGACTACCTGGAAACCTGCTACCTGCTGCTGAATGGCGAACTGCCGAATGCCGAAGAGAAGGCCAAGTTCGTCGGTACCATCAAGAACCACACCATGGTTCACGAGCAACTGAAAAGCTTCTTCAACGGTTTCCGCCGCGACGCCCACCCGATGGCGGTGATGTGCGGCGTGGTCGGCGCCCTGTCGGCCTTCTACCACGACTCCCTGGACATCAAGAATCCGCAGCACCGCGATATTTCCGCGATGCGCCTGATCGCCAAGATGCCGACCCTGGCGGCGATGGTGTACAAGTACTCCATGGGCCAGCCGATGATGTATCCGCGTAACGACCTGAACTACGCGGAAAACTTCCTGCACATGATGTTCAACACCCCGTGCGAGATCAAACCGATCAGCCCGACCCTGGCCAAGGCCATGGACCGCATCTTCATCCTCCACGCGGACCATGAGCAGAACGCCTCCACCTCCACCGTGCGTCTCGCCGGCTCGTCGGGCGCCAACCCCTTCGCCTGTATCGCCGCCGGTATCGCCGCACTCTGGGGCCCGGCCCACGGCGGCGCCAACGAAGCTGTGCTGACCATGCTGGACGAGATCGGCGACGTGTCGAACATCGACAAGTACGTGGCCAAGGCCAAGGATAAGGACGATCCGTTCAAGCTGATGGGCTTCGGCCACCGCGTCTACAAGAACTTCGACCCGCGCGCCAAGGTCATGAAGCAGACCTGCGACGAGGTACTCCACGAGCTGGGTATCAACGACCCGCAATTGGAACTGGCCATGCGCCTGGAAGAGATCGCCCGTAACGATCCGTACTTCAAGGAGCGCAACCTGTACCCGAACGTCGACTTCTATTCGGGCATCATCCTGAAGGCGATCGGTATTCCGACCAGTATGTTCACCGTGATCTTCGCCTTGGCCCGTACCGTCGGCTGGATCTCCCACTGGAAGGAAATGCTCTCCAGCCCGTACAAGATCGGCCGTCCGCGCCAGTTGTACACCGGCTACGAGCAACGCGACTATGTTTCGCTGAACGACCGCAAGTAA	MADKKAQLIIEGAAPVELPVLTGTVGPDVIDVRGLTATGRFTFDPGFMSTASCESKITYIDGDKGVLLHRGYPIEQLAEKSDYLETCYLLLNGELPNAEEKAKFVGTIKNHTMVHEQLKSFFNGFRRDAHPMAVMCGVVGALSAFYHDSLDIKNPQHRDISAMRLIAKMPTLAAMVYKYSMGQPMMYPRNDLNYAENFLHMMFNTPCEIKPISPTLAKAMDRIFILHADHEQNASTSTVRLAGSSGANPFACIAAGIAALWGPAHGGANEAVLTMLDEIGDVSNIDKYVAKAKDKDDPFKLMGFGHRVYKNFDPRAKVMKQTCDEVLHELGINDPQLELAMRLEEIARNDPYFKERNLYPNVDFYSGIILKAIGIPTSMFTVIFALARTVGWISHWKEMLSSPYKIGRPRQLYTGYEQRDYVSLNDRK	PGPT0001455_3259	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001455-CS|gltA-K01647	NA	NA
BMS010_03227	609			hypothetical protein	ATGGGTTCGTTGTTTCGTTTGGCCATGGCTGCCGGCTTGGGCATCGTCATGGTGTCGGCGGCACAGGCCGAAGACTGGAAGCTGGCCAAGGAAGAGGACGGTATCCGTGTCTACCTGAGTCCGGTCGAAGGCTCCAAATACAAGGCCTATCGGGGTGTGGCCAGCATGAAGACGGATGTCGCCACCCTGCGTGCGTTGCAGGAGGACGTTTCCGGGTCCTGTGCCTGGATTCATGAATGCCGGGAGCAGAAGCTGCTCAAGTCGGAAGGAAAGGAGAGCTGGGCCTATACCCGCTTCAATACCCCCTGGCCCGTGACGCCGCGTGACTCGGTAATCCACGTGACCACGGAGGAGGGGAGCGATGGCGGCGTCACCCGCGTGCTCGAGGGGGTACCGGATTACCTGCCGGAGGAAAAAGGCTTCGTCCGGGTGAGCAAGGTGGAAGGCTTCTGGAAACTCACGCCGAAGGGCGCGGGAGAGGTCGAAGTGGTCTATCAGGTCCACACCGAGCCGGGTGGCAGCGTGCCGTCGTGGTTGGCCAACAGTTTCGTGGTCGATGCGCCGTTCAATACGCTCAAGGGGCTGCGCGAGCGTGCCGAGAAGCATTGA	MGSLFRLAMAAGLGIVMVSAAQAEDWKLAKEEDGIRVYLSPVEGSKYKAYRGVASMKTDVATLRALQEDVSGSCAWIHECREQKLLKSEGKESWAYTRFNTPWPVTPRDSVIHVTTEEGSDGGVTRVLEGVPDYLPEEKGFVRVSKVEGFWKLTPKGAGEVEVVYQVHTEPGGSVPSWLANSFVVDAPFNTLKGLRERAEKH				NA	NA	NA	NA	NA
BMS010_03228	342			hypothetical protein	ATGCCCGTCTGGCTGCAAACCGCCGCCCTGCTCAGCCTATCGAACGTTTTCATGACCTTCGCCTGGTACGGCCACCTGAAGACCCTTGGCAACAAGCCCTGGATCGTTGCCGCTCTGATCAGCTGGGGCATCGCGCTGTTCGAATACCTGATCATGGTTCCGGCCAATCGTGTCGGTTACACGGAACTCTCCGTCGGACAACTGAAGATCATGCAGGAAGTGATCACCCTGTCCGTTTTCCTTCCCTTCAGCGTGCTGTACATGCAGCAACCTCTGAAGCTCGACTACCTCTGGGCCGGACTGTGCCTGGTGGGGGCGGTGTATTTCATTTTCCGCACCTGA	MPVWLQTAALLSLSNVFMTFAWYGHLKTLGNKPWIVAALISWGIALFEYLIMVPANRVGYTELSVGQLKIMQEVITLSVFLPFSVLYMQQPLKLDYLWAGLCLVGAVYFIFRT				NA	NA	NA	NA	NA
BMS010_03229	876	glxR_1	COG2084	2-hydroxy-3-oxopropionate reductase	ATGTCGAAGGTCGCCTTTATCGGGCTCGGCGTGATGGGCTATCCCATGGCCGGGCACCTTGCTCGCAAGGGACATGAGGTCTGCGTTTACAACCGGACGTCAGCCAAGGCTGCACAATGGGTGGAGGAGTTCGGCGGGCGTTGTGCCGCCACTCCCCGCGAAGCGGCCCAAGGCGCAGAGCTGGTGATGAGTTGCGTCGGTAACGACGACGACTTGCGCAGTGTGGTGCTCGGAGAGGACGGTGCTCTGGCTGGCATGGCGCCGGGAGCGGTGCTGGTTGACCACACCACGGCATCGGCGGATGTTGCCCGCGAGCTGGCGGTGCAGGCGGCCGAGCGTGAGCTGGGCTTCCTCGATGCCCCGGTGTCGGGCGGCCAGGCAGGCGCACAGAACGGCGTGCTGACAGTGATGGTTGGTGGCGAAAAGGCCTTCTATGACCGCGCCGAGCCTGTGATCCAGGCTTATGCGCGCATGGTCAGGCTGATGGGGCCGGCCGGTAGCGGCCAGTTGACCAAGATGGTCAATCAGATCTGCATCGCCGGGCTGGTCCAGGGGCTCGCCGAGGCATTGCACTTCGCCCAGTGCGCCGGGCTGGACGGTCTGGCGGCGATGGAGGTGATCAGCAAGGGAGCCGCGCAATCCTGGCAACTGGAGAACCGCCACAAGACCATGCTGGCTGGCGAGTTCGAGTTCGGTTTCGCCGTCGACTGGATGCGCAAGGACCTGTCAATCCTGCTGGACGAGGCACGCCACAATGGCGCCCAACTGCCGGTCACGGCGCTGGTCGATCAGTTCTATGCGGACATCCAGGCGATGGGCGGCAATCGTTGGGATACTTCCAGCCTGATCGCGCGCCTGAAACCGGCCAAGCGCTGA	MSKVAFIGLGVMGYPMAGHLARKGHEVCVYNRTSAKAAQWVEEFGGRCAATPREAAQGAELVMSCVGNDDDLRSVVLGEDGALAGMAPGAVLVDHTTASADVARELAVQAAERELGFLDAPVSGGQAGAQNGVLTVMVGGEKAFYDRAEPVIQAYARMVRLMGPAGSGQLTKMVNQICIAGLVQGLAEALHFAQCAGLDGLAAMEVISKGAAQSWQLENRHKTMLAGEFEFGFAVDWMRKDLSILLDEARHNGAQLPVTALVDQFYADIQAMGGNRWDTSSLIARLKPAKR	PGPT0018170_900	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTARATE|GLUCARATE_DEGRADATION,PGPT0018170-garR|glxR-K00042	NA	NA
BMS010_03230	543	polC_1		DNA polymerase III PolC-type	ATGGGGCATTGGCTGGTCATCGATCTGGAAGCCACCACCGAAGAAGGCGGTTGGCCGCTCGAAGAAATGGAAATCATCGAAATCGGCGCTTCGCTGGTAGCGGCCGACGGCCATGAGTTGGATCATTTCCAGCGTTTCGTCCGTCCGCAGCGCCGGCCCTGCCTCACCACGTTTTGCCGCGAACTCACCCACATCAGTCAGGCGAACGTGGATGGCGCCGCCCCGCTGAGCGAGGTCTGGACAGCCTTCGAGCGCTGGCTGGGCCCTTACGTACCGCACCTTGCCGGCTGGGCCAGTTGGGGCGAGTACGATCGCCGCCAATTGGAACTGGAGTGGCAGCGCCAGCAGCTCGACAGCGCGCTCAACCAGATACCCCACCTCAACCTCAAGCAGCGCTTTGCCGAGGCTCGCCAATTGAAACGCACAGTGGGCCTGAACACCGCCCTGCAGATTTCCGGGCTGCAGTTCATTGGCCAACAGCATCGCGCATTGGAGGATGCCCGCAACACCGCCCGGCTGCTCCCCCTGGTGCTGCCGGCGTAG	MGHWLVIDLEATTEEGGWPLEEMEIIEIGASLVAADGHELDHFQRFVRPQRRPCLTTFCRELTHISQANVDGAAPLSEVWTAFERWLGPYVPHLAGWASWGEYDRRQLELEWQRQQLDSALNQIPHLNLKQRFAEARQLKRTVGLNTALQISGLQFIGQQHRALEDARNTARLLPLVLPA				NA	NA	NA	NA	NA
BMS010_03231	282	ppnP	COG3123	Pyrimidine/purine nucleoside phosphorylase	ATGTTCAAGGTCAACGAGTATTTCGACGGCACCGTCAAATCCATCGCCTTCTCCATGGCCGAAGGTCCGGCCACCATCGGTGTCATGGCTCCGGGCGAGTACGAGTTCGGCACCAGCCAGCTGGAAGTGATGCATGTGGTCGCCGGCGCGCTCACCGTCAAGCTGCCGGGTAGCGACAACTGGCAAACCTTCGAGTCCGGTAGCGACTTCACCGTTCCGGCCAACAGCAAGTTCCAACTGAAGGTCGCCGTGGACACCGCCTACCTCTGCGAATACCGCTGA	MFKVNEYFDGTVKSIAFSMAEGPATIGVMAPGEYEFGTSQLEVMHVVAGALTVKLPGSDNWQTFESGSDFTVPANSKFQLKVAVDTAYLCEYR	PGPT0021300_881	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021300-ppnP|yaiE-K09913	NA	NA
BMS010_03232	873	rhtA	COG5006	Threonine/homoserine exporter RhtA	ATGCCACGCTCGTCTCTATCCGCGGCACTCGCCCCGATCGTCCTGCTGCTGGTCGCCATGTCCTCGCTGCAGGGCGGCGCCTCCCTGGCCAAGAGCCTGTTTCCGGCGATCGGCCCGGAAGGCACCACGGCGCTGCGCCTGGGTATCGCCGCTATCCTGTTGAGCCTGTTCATGCGCCCGTGGCGCGCCCGACTGAGCCTGGCCTCCTGCCGCTCGCTGCTCGGCTACGGCCTGTCGCTGGGCAGCATGAACCTGCTGTTCTACCTCTCGCTGAAGAGCGTACCGCTGGGAATCGCCGTGGCGCTGGAATTCACCGGGCCGCTCGCCCTGGCCCTGCTGTCGTCGCGGCGGCTGCTGGACTTCGTCTGGATCGCGCTGGCGGTGTTCGGTATCTGGCTGCTATTGCCGAGCGAACACTCCAGCGCGCACCTCGATCCCATCGGCATGGCCTTCGCACTCGGCGCGGGTCTGTGCTGGGCGCTGTACATCGTGTTCGGCAAGCAGGCGGGCGCCGAGCATGGCCGGCATACCGTCGCCCTGGGCACGCTGGTCGCCGCCCTGCTGGTGTTTCCGGTTGGACTGTTCCAGGTCGGTAGCGGGCTCTTCACGCCGGAGCTGCTACCGGTCGCCGCCGCTGTTGCCGTGCTGTCCTCAGCTCTGCCCTACAGCCTGGAAATGGTTGCCCTTACCCGCCTTCCGGCCCGTACATTCAGTGTCCTGATGAGCATGGAGCCGGCCGTCGCCGCACTCTCCGGCCTGCTGTTTCTGCAGGAGCGACTAAGCCTGAATCAATGGCTGGCCATCGGCGCCATCATTCTCGCGTCGGCCGGTGCGGCGGCGACTATCCGGCCGAGAGGGTCCACATCTCACTGA	MPRSSLSAALAPIVLLLVAMSSLQGGASLAKSLFPAIGPEGTTALRLGIAAILLSLFMRPWRARLSLASCRSLLGYGLSLGSMNLLFYLSLKSVPLGIAVALEFTGPLALALLSSRRLLDFVWIALAVFGIWLLLPSEHSSAHLDPIGMAFALGAGLCWALYIVFGKQAGAEHGRHTVALGTLVAALLVFPVGLFQVGSGLFTPELLPVAAAVAVLSSALPYSLEMVALTRLPARTFSVLMSMEPAVAALSGLLFLQERLSLNQWLAIGAIILASAGAAATIRPRGSTSH				NA	NA	NA	NA	NA
BMS010_03233	1734	msbA_1	COG1132	Lipid A export ATP-binding/permease protein MsbA	ATGGCGGCGCAGTTCACCGCGCCGTACCGGTGGCAAATGGCGGGAGCGTTGCTGGCGCTTCTGTTCACGGCCGCGATCACGCTGTCTATGGGGCAGGGTATTCGTCTGCTGGTGGACCAAGGATTCGCCACCCGCTCTCCGGCATTGCTGAATCAATCGATCCTGCTGTTCTTCGCCTTGATCCTGGCCCTGGCGGTGGGAACGTTCACCCGGTTTTACCTGGTCTCCTGGCTGGGCGAACGTTTCGTTGCGGATATCCGCAAGCAGGTGTTCGACCATCTGATTGAGTTGCACCCCGGCTTCTACGAAAGCAACCGAAGCTCGGAGATTCAGTCCCGGCTCACGGCGGATACTACATTGCTGCAGTCCGTGATCGGTTCTTCGCTATCCCTGGCGCTGCGCAACGGTTTGATGCTGTTGGGCGGCGTAGTGCTGCTTTTCGTCACCAATCCCAAGTTGACCGCGATTGTGATGCTGGCATTGCCGCTTGTAGTGGCGCCGATCCTGCTCTTCGGCCGAAGGGTTCGCCGTCTGTCGCGTTTGAGCCAGGATCGTGTTGCCGATGTCGGCAGCTATGTCGGCGAAACCCTGGGACAGATCAAGACGGTTCAGGCTTACAACCACCAGGGAGAAGATAAGCGTCGTTTTGCCGCCACGGTGGAAGAGGCCTTCGCCGTGGCGCGCCGCCGCATCGCTCAGCGCGCCTGGTTGATCACGGTAGTGATCGTGCTGGTGCTCGGCGCTGTCGGCATCATGCTCTGGGTGGGCGGCATGGATGTGATCGAAGGGCGGATTTCCGGCGGCGAGTTGGCGGCGTTCGTCTTCTACAGTCTGATCGTCGGTTCGGCCTTCGGCTCGCTCAGCGAAGTGATCGGCGAGTTGCAGCGCGCGGTAGGTGCCGCTGAGCGGATTGCCGAGTTGCTGCAGGCGCGCAGTATGATTGTTGCGCCCTCGGCCGACGTCATGCGGCTGCCTGCGTCGGTTCGGGGCGAAATTGCCCTGGAGGCGGTACGTTTCGCTTATCCGTCCCGTCCCGAAACGCCGGCGCTGGATGCGTTCAGCCTGGCCATCCGACCGGGAGAGACGCTGGCCCTGGTGGGGCCATCCGGGGCTGGCAAGTCGACGTTGTTCGATCTGCTCCTGCGCTTCTACGATCCGCAAGAGGGCCGCATCCTGCTCGACGGCTATCCCATCGAGCACCTCGAACCGAACGATCTGCGGCGGTGCTTCGCCCTGGTACCGCAGACCCCGGCCCTGTTCTACGGCACGGTCGAAGACAATCTCCGCTATGGCAAGCCCGCGGCGAGCCAGGATGAGCTGGAAGCGGCGGCACGGGCGGCCCACGCCCATGAGTTCATCATTCGCTTGCCGCAGGGCTATCGGACTCACTTGGGCGAGGCCGGAATCGGCTTGTCCGGTGGACAGCGTCAACGCCTGGCTATTGCCCGTGCGCTACTGGTGGATGCGCCGGTCCTTCTGCTGGACGAGGCGACCAGTGCTCTGGACGCGGAAAGCGAGCACCTGATCCAGCAGGCATTGCCGCGTTTGATGAAGGGGCGCACCACTCTGGTGATCGCGCATCGGCTGGCTACCGTAAGAAACGCCGACCGTATCGCCGTGATCGAGCGGGGCAGGTTGGTGGCTGTCGGCAGCCATGCCGAACTGATGGTCGATAACCCGCTGTATGCGCGTCTGGCAGCGTTGCAGTTCGATGCGGCGCCCGTTCGACGCTGA	MAAQFTAPYRWQMAGALLALLFTAAITLSMGQGIRLLVDQGFATRSPALLNQSILLFFALILALAVGTFTRFYLVSWLGERFVADIRKQVFDHLIELHPGFYESNRSSEIQSRLTADTTLLQSVIGSSLSLALRNGLMLLGGVVLLFVTNPKLTAIVMLALPLVVAPILLFGRRVRRLSRLSQDRVADVGSYVGETLGQIKTVQAYNHQGEDKRRFAATVEEAFAVARRRIAQRAWLITVVIVLVLGAVGIMLWVGGMDVIEGRISGGELAAFVFYSLIVGSAFGSLSEVIGELQRAVGAAERIAELLQARSMIVAPSADVMRLPASVRGEIALEAVRFAYPSRPETPALDAFSLAIRPGETLALVGPSGAGKSTLFDLLLRFYDPQEGRILLDGYPIEHLEPNDLRRCFALVPQTPALFYGTVEDNLRYGKPAASQDELEAAARAAHAHEFIIRLPQGYRTHLGEAGIGLSGGQRQRLAIARALLVDAPVLLLDEATSALDAESEHLIQQALPRLMKGRTTLVIAHRLATVRNADRIAVIERGRLVAVGSHAELMVDNPLYARLAALQFDAAPVRR				NA	NA	NA	NA	NA
BMS010_03234	384			hypothetical protein	ATGGCCGTACCTGACGTCCGCTTGCGGCAGATCGGCTTGGTGGCGCGCATTGCGCTGGCGCTGGTGTTCTTCTGGCATGGGTTGGCGCCAAAGATTCTCTGGCTGAGTCCGGGCGAAGCGATGATGATCGAGGCTCATGGCTTGGCGCCGGTCGATCTGCTGGCGCGTTTGGCCGGCCTGGCGGAAATAACCCTTGCGCTGCTTTTGCTGGTGGGCCGCTGGCGTTGGCCTCTGGCACTGGCGGCGGCTTTGTTGGTCGCGTTGCTACTGGATGTCGCGTTATTCACGCCTGAGCTGTTGGTACAGGCGTTCAACCCGGTGTCGACCAACCTCGCGGCCTTGGCGTTGTGCTGGGTGGTGTGGGTTGCCGAGCGACCGGCCTGA	MAVPDVRLRQIGLVARIALALVFFWHGLAPKILWLSPGEAMMIEAHGLAPVDLLARLAGLAEITLALLLLVGRWRWPLALAAALLVALLLDVALFTPELLVQAFNPVSTNLAALALCWVVWVAERPA				NA	NA	NA	NA	NA
BMS010_03235	438			hypothetical protein	ATGAGCGAGAATCTGCCGCCCTTGATCCTGGCTGACGACCGGGTGGTACTGTTCGACGGGGTATGCAAGCTTTGCAATGGCTGGGCGAAATTCCTCATCCGTCATGACTCTGGCCATTCGTTCAAGCTGGCTTCGGTGCAATCGTCGGAGGGGCAGGCCATTCTGGGTTGGTTCGATCTGCCTGCCGACCGCTTCGATACCATGGCCTATGTCGAGGGCGACCGATTGTTCGTCCGTTCCGAGGCGGTGCTGCGCGTCGTCGGCCAGTTGCCCTGGCCCTGGCGACTTGCCGCCGCGTTGCGTCTGCTTCCCCGGCCGCTCCGGGATTGGTGTTACGACCGTATCGCTCTGAACCGCTACCGGCTATTCGGTCGCTATGACAGTTGCCTGCTGCCTGCAGCAGACCATGCCCGGCGGTTCCTCGATGGCCGTACCTGA	MSENLPPLILADDRVVLFDGVCKLCNGWAKFLIRHDSGHSFKLASVQSSEGQAILGWFDLPADRFDTMAYVEGDRLFVRSEAVLRVVGQLPWPWRLAAALRLLPRPLRDWCYDRIALNRYRLFGRYDSCLLPAADHARRFLDGRT				NA	NA	NA	NA	NA
BMS010_03236	621			hypothetical protein	ATGCGCGAACTGCTCATTCTCTTTTGCCTGCTTGCGGGCCTCTCCGGGCCGGCTGTGGCGATCCAGCCGGAACAATTGGTCGCTTCTGCCCGCGATCAGGTGGGCGTCACCCTGGGCTACGATCCGGCATACCGCCAACTGGTCTATCCGGGCGGCGACGTTCCGCTGGCAACCGGGGTCTGTACCGATGTGGTGATCCGCGCACTGCGGGCGCAGGGGCTGGATCTTCAGAAAGCGGTGCATGAGGACATGCGCCGGCATTTCCGGGCCTATCCTCAGAATTGGGGCATGACCCGCCCCGACCGCAACATCGACCACCGTCGCGTCCCCAATCTGATGACTTGGTTTGCCCGTCAGGGCATGGCGTTGCCTGTTGGCGAGCGCCTCGCCGATTACCTGGCCGGGGATATCGTCGCCTGGGACCTGGGCAACGGCCTTACCCATATCGGCATTCTTTCCGACCGCCGCTCGGCCGGCGGCGAGCCGCTGGTGCTGCACAATATCGGGCGCGGGACCCGCGAGGAAGACATCCTGTTCCGTTTCAAAATCATCGGGCATTACCGGTTTCCTGCCGTTCAGGCAGCGTCGGAAGCGGTGGAAAGCACCGGGAGCCGTCCATGA	MRELLILFCLLAGLSGPAVAIQPEQLVASARDQVGVTLGYDPAYRQLVYPGGDVPLATGVCTDVVIRALRAQGLDLQKAVHEDMRRHFRAYPQNWGMTRPDRNIDHRRVPNLMTWFARQGMALPVGERLADYLAGDIVAWDLGNGLTHIGILSDRRSAGGEPLVLHNIGRGTREEDILFRFKIIGHYRFPAVQAASEAVESTGSRP				NA	NA	NA	NA	NA
BMS010_03237	1116			hypothetical protein	ATGTCAGCGTTTCATATCGGCCTGATCATCAACCCGTTGGCCGGGCTGGGTGGGGCCGTAGGGCTCAAGGGTAGCGACGGTGTGGCTGCCGAGGCCCTGGCGCGGGGTGCGGAGCCACGTGCCGCAGCGCGTACGCGGATTGCCCTGGAGTGCCTGCGACCGGTGACGCAGCGGATTGAGTTCCTCACCTTTCCTGGTCCGATGGGTGGCGACCTGCTGGCGGAAATGGGATTCGCCCACCGGGTGCTGGGGCATCTCGGCGACGGGACGACCAGTGCCGCCGATACACGGGAGGCTGTGGAGGCGCTACAGGCGGCTGGCGTTGCGCTGATTCTGTTCGCCGGGGGCGACGGTACGGCCCGCGACATCTGCTCCGTAGTTCGTGAAGGGCAGCCGGTCCTGGGTATTCCGGCGGGCGTGAAGATCCACTCGGGGGTTTATGCCATCAGCCCGCGCGCGGCCGGCGAACTGACCCGGCGCCTGGTCGAGGGCGGCCTGGTGCGGCTGGCCAGTGGCGAGGTACGCGATATCGACGAAGCGGCGCTGCGTGACGGCCGTGTCGCGGCTCGCTGGTACGGCGAGCTGTGCGTGCCGGAAGAGGGCGGCTTCATGCAACATGTCAAACAGGCCGGCATGGAGTCCGAGGAACTGGTGCTCAGCGATCTCGCGGCCTGGCTGGAAGACAGTTGGGAGCCGGACGTACGCTACGTCTTCGGTCCCGGTTCGACGCTCCATGGCTTGGCCCGCAATCTGGGGTTGGAGACCACGCTTCTGGGCGTCGACGTGATCGAGAACGGCCAAGTCATCGGTCGTGATCTCGGTGAGCAGGCGCTGTTCGAGCTGGTCGACGGCCATCCGGCCTTTCTCCTGGTAACGGCCATCGGTGGGCAGGGGCACATCATCGGGCGCGGCAACCAGCAGATCAGCCCACGGGTGCTGCGCGCCATTGGCCTGGATCGGTTGCGTGTGGTCGCCACCAAGCGCAAATTGCAGACGTTGGAAGGACGGCCGCTGCTGGTGGATTCCGGCGATTCCGCGCTGGACGACTCCTTCCCGGATGTCGTGCGGGTCTGGGCTGGTTATAAGGAAGAATTGTTGTACCCGGTGGGCGGGTGA	MSAFHIGLIINPLAGLGGAVGLKGSDGVAAEALARGAEPRAAARTRIALECLRPVTQRIEFLTFPGPMGGDLLAEMGFAHRVLGHLGDGTTSAADTREAVEALQAAGVALILFAGGDGTARDICSVVREGQPVLGIPAGVKIHSGVYAISPRAAGELTRRLVEGGLVRLASGEVRDIDEAALRDGRVAARWYGELCVPEEGGFMQHVKQAGMESEELVLSDLAAWLEDSWEPDVRYVFGPGSTLHGLARNLGLETTLLGVDVIENGQVIGRDLGEQALFELVDGHPAFLLVTAIGGQGHIIGRGNQQISPRVLRAIGLDRLRVVATKRKLQTLEGRPLLVDSGDSALDDSFPDVVRVWAGYKEELLYPVGG	PGPT0013490_1119	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013490-ppnK-K00858	NA	NA
BMS010_03238	186			hypothetical protein	ATGAGCTTGCAAACCACTGCTACATCACCTGATCGCCGTGTCATCCCGATGAAACAAGAGCAGCCCGTAGGGGGTGCCATCATCGATGCCCAGGGCCGGGAAATTCCCATCACCGAAACCATGATCCAGCAGGCCTGCCGTGAGCTGCACAAGGCTTGGGTGGCTGCCGTCCCCAAACAGGCCTGA	MSLQTTATSPDRRVIPMKQEQPVGGAIIDAQGREIPITETMIQQACRELHKAWVAAVPKQA				NA	NA	NA	NA	NA
BMS010_03239	1143	pdxB	COG0111	Erythronate-4-phosphate dehydrogenase	ATGCGAATTCTCGCCGACGAAAACATTCCCCTGGTCGACGCCTTCTTCGGAGGTTTCGGCGAAATCCGCCGCATGCCCGGACGCGCTATCGACCGTTCCAGCCTGGGCGATAGCGAAGTTCTGCTGGTCCGTTCGGTTACGGAAGTGAATCGCGAGCTGCTGGAGGGGAGTCGGGTGCGTTTCGTCGGCACCTGCACCATCGGTACCGATCATCTGGACCTGGACTACCTGGGCGAGGCCGGTATCGCTTGGGCCAGCGCGCCCGGCTGTAATGCCCGTGGCGTGGTGGACTATGTGCTCGGCAGCTTGCTGAGCCTGGCGGACCTGTATGGCGTGGACCTGGCGCAGCGTTGCTATGGCATCGTCGGCGTCGGCCAGGTCGGGGGCCGGTTGCTGGACGTATTGCGCGGTCTCGGCTGGCGCGTGCTGGTCTGCGATCCGCCCCGCCAGGTGCGGGAGGGCGGCGATTATGTCGATCTGGAAACGATCCTGCGCGAATGCGACACCATCAGCCTGCATACGCCGCTGACCCGCGAAGGTCCCTATGCCACGCGGCATCTGCTCGATGCCTACGCCCTCGACCTGCTGCGTCCCGGCGCCTGGCTGATCAATGCCAGCCGCGGTGCCGTGGTGGACAATGCTGCCCTGTGCGAGTTGCTCGACCGACGCAATGACGTGGAGGCGGTGCTGGATGTCTGGGAGGGTGAGCCGTTGGCGGACCCGGAGTTGGCCGAGTTGTGCCATATCGCCACACCGCATATCGCTGGCTACAGCCTGGACGGCAAGTTGCGCGGAACGGCGCAGATTTATCAGGCGTACTGCGCGCATCAGGGTATTCCGGCGGAGATCGAACTGGATGAACTGCTACCCGCCTCCTGGCTAGGCGAAATGCGTCTGGATGCCTCGGCCGATCCGTCCTGGGCGCTGGCCGCGCTGTGCCGGGCGGTCTACGATCCGCGCCGCGACGATGCCGACTTTCGCCGTAGTCTGTTCGGTGACGCTCAGGTCCGCCGTCTGGCGTTCGATGGGTTGCGCAAGCGCTACCCGGTGCGCCGTGAGATCGATGGGCTGCGTGTCAGTCTGAGCGGAGAAGCGCCGGAACTGGTTCGCCTGGTGCGGGCGCTGGGCGCCACACTGGTCTGA	MRILADENIPLVDAFFGGFGEIRRMPGRAIDRSSLGDSEVLLVRSVTEVNRELLEGSRVRFVGTCTIGTDHLDLDYLGEAGIAWASAPGCNARGVVDYVLGSLLSLADLYGVDLAQRCYGIVGVGQVGGRLLDVLRGLGWRVLVCDPPRQVREGGDYVDLETILRECDTISLHTPLTREGPYATRHLLDAYALDLLRPGAWLINASRGAVVDNAALCELLDRRNDVEAVLDVWEGEPLADPELAELCHIATPHIAGYSLDGKLRGTAQIYQAYCAHQGIPAEIELDELLPASWLGEMRLDASADPSWALAALCRAVYDPRRDDADFRRSLFGDAQVRRLAFDGLRKRYPVRREIDGLRVSLSGEAPELVRLVRALGATLV	PGPT0009150_260	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ERYTHRONATE_UTILIZATION,PGPT0009150-pdxB-K03473	NA	NA
BMS010_03240	1380	norM	COG0534	Multidrug resistance protein NorM	ATGCCTGCCGAAACCCGCTCGAGACGTGTGCGCCGCGAGCTTCGTGCCCTGCTCGCCTTGGCTACGCCCATCATCATCGCCCAACTGGCGCATACCGCCATGGGCTTCGTCGACACCCTGATGGCCGGACGGGTCAGCCCGCGCGACCTGGCCGCGGTGGCGCTGGGCAACTCCATCTGGGTTCCGGTGTTCCTGCTGATGACCGGCATCCTGCTCGCCACCACGCCCAAGGTGGCGCAATGCTTCGGCGCCGGGCACGAGAAAGAGATCGGCCCACTGGTACGCCAGGCCCTCTGGCTGGCCCTGGGCGTCGGCGGCAGCGCAGCGATCGTGCTGTGGAATGCGGAACCGGTCCTGCATTGGATGGGCGTCGAGGCGGGCCTGATCGAGCCGGCCATGGGCTACCTGCGTGCGGTGGCCTGCGGCTTCCCCGCCGTGGCGCTCTATCACGTTCTGCGTTGTTTCAGCGACGGTCTCGGCCACACCCGGCCGAGCATGGTCCTGGGCATCTGCGGCCTGCTGCTGAACATTCCGGCCAACTACGTGTTCATCTACGGCAAGCTGGGCCTGCCGGCCATGGGCGGCGTCGGCTGCGGCTGGGCCACCGCGCTGGTGATGTACGCCATGCTCAGCGGCATGCTCTGGTGGGTGAACTGGGCGCCGTACTACAAGCCGAGCCGGCTGTTCGGCCACTTCGAAACCCCGCAATGGCCGGTGATCCGACGCCTGCTCTCGGTGGGCGTGCCCATCGGCGTGGCGGTGTTCGCCGAGTCGAGCATCTTCGCCGTGATCGCCCTGCTCATCGGCGGCCTGGGCGCCACCGTGGTGGCGGGCCACCAGATCGCCCTGAACTTCTCCTCGCTGGTGTTCATGATCCCCTACTCCCTGGGCATGGCCGTGACCGTGCGCGTCGGCCAGGCACTGGGGCGCGGAGAGCCGCGGGAAGCCCGCTTCGCCGCCGGTGTCGGCATGGCGTCGGCGCTGGCCTACGCCTGCTGCTCGGCCAGCGCGATGATGCTGCTGCGTGGCGACATCGCCCGTATCTACACGCCGGATGGTGCCGTGATCGCCGTGGCCAGCGGGCTGATCATCTATGCCGCGCTGTTCCAGTTCTCCGATGCCGTGCAGGTCACCGCCGCCGGTGCACTGCGCGGTTACCAGGACACCCGGGCAACCATGCTGTTCACCCTGTTCGCCTACTGGGGCATCGGCCTGCCGGTGGGCTACGGCCTCGGCCTGACCGACTGGTTCGGCGAGCCCAGCGGCCCGCGCGGATTGTGGCAAGGGCTGGTGGTCGGCCTGACCTGCGCCGCGCTGCTGCTCGGTATCCGCCTCACGCGCAGCGCTCGTCGGCGGATCAGGGCACAGGCTCCGCGCTGA	MPAETRSRRVRRELRALLALATPIIIAQLAHTAMGFVDTLMAGRVSPRDLAAVALGNSIWVPVFLLMTGILLATTPKVAQCFGAGHEKEIGPLVRQALWLALGVGGSAAIVLWNAEPVLHWMGVEAGLIEPAMGYLRAVACGFPAVALYHVLRCFSDGLGHTRPSMVLGICGLLLNIPANYVFIYGKLGLPAMGGVGCGWATALVMYAMLSGMLWWVNWAPYYKPSRLFGHFETPQWPVIRRLLSVGVPIGVAVFAESSIFAVIALLIGGLGATVVAGHQIALNFSSLVFMIPYSLGMAVTVRVGQALGRGEPREARFAAGVGMASALAYACCSASAMMLLRGDIARIYTPDGAVIAVASGLIIYAALFQFSDAVQVTAAGALRGYQDTRATMLFTLFAYWGIGLPVGYGLGLTDWFGEPSGPRGLWQGLVVGLTCAALLLGIRLTRSARRRIRAQAPR	PGPT0029115_7234	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029115-TC_MATE|norM|mdtK|dinF-K03327	NA	NA
BMS010_03241	1062			hypothetical protein	ATGCGCGCCTTATTGCCGATCCTGTTCCCCCTGCTCCTCATCGCCTGCACGCCGGCCGACGATAGCTTGGCTTTGCAGGACGACTACCTCGAACGCCTCGCCAATGCCACCGAAGGCACGGCAGCGGCACCGTTCGATCGCGCCACGCTGAGCCGCTACCGGATGCCGCCCCGACGCGAGCGCATCCGCGAAATAGTGGAGCTGCGCATCGGCCTGCTCGACCTGCTGATCGACACCCATCGCTGCCCTCGTCTCCAGCAACTGATCGGCGAACGCAACAGCGCGCTCGGCAAGCAATTGGTGCCGAGCCGCCGACTGGCGTATGAGGGCGATCTGCTGCGCGCACTCGACGATTGCCTGCCGCATCTGAGGGACGAACGCTTCCACGCCACCCTGGCTGGGTTGGCCACGGAGAAACGCAGCCAGTTGCCGGATGTGTTCTGGAATGCCCTGAATACCAGCGCCGAATTCGAACGCTACCTGCGCTTCGCCGAGCAGCCCTTGCCGGTTTCCATCCGGGAAGACAGTGCGGCCCTGGAAGCCTTGGAACAACTGGCCGCGCTGGGCTCACACCTGCCACAGCACCTGCCGCCGCCGGCGACACGACTCGACCCGCTGTTCCAAGCGCTGCAGGCCAGCCCGCAAGGCGGCCAATTGATCGCCAGCCTGGCCAGCCTGACGCATACGCTGCAAGCCGGCAGCACCTTGCTGGAAGAACGTCTCAGCCGCCGCCCGCCCTGCCCGCTGGGCAAGGCGACCGAGCGGGGACGCATCCTGCAGAACATTTTCGTCAAGTTCTACGCCGGGGCGCTGCAACCCTACCTGGCACAGGTACACCAACGGGGCGAGCGCTGGAGCGCCGCTCTGTGGCAACTGAGCACTGCGCCCGGCATACCGGATGCCACTCGGGGCTATCTCATGCAACTGGCCGGCCCGGAGAGTTCCCTGTGGAGCGACTTCGAGCGGGCCACTGCACGCCATGTCGAGGCCTGGCAGAACACCCTGCGGAGCTGCGGGCTCGCGCCGGGCCAGTCAGGATGGCCGGCACCGCAACGGGGATGA	MRALLPILFPLLLIACTPADDSLALQDDYLERLANATEGTAAAPFDRATLSRYRMPPRRERIREIVELRIGLLDLLIDTHRCPRLQQLIGERNSALGKQLVPSRRLAYEGDLLRALDDCLPHLRDERFHATLAGLATEKRSQLPDVFWNALNTSAEFERYLRFAEQPLPVSIREDSAALEALEQLAALGSHLPQHLPPPATRLDPLFQALQASPQGGQLIASLASLTHTLQAGSTLLEERLSRRPPCPLGKATERGRILQNIFVKFYAGALQPYLAQVHQRGERWSAALWQLSTAPGIPDATRGYLMQLAGPESSLWSDFERATARHVEAWQNTLRSCGLAPGQSGWPAPQRG				NA	NA	NA	NA	NA
BMS010_03242	252	tusA_3	COG0425	Sulfur carrier protein TusA	ATGACCCAGACCGATATCCCGGCCGCCGATGCCATTCTCGATGCCAGCGGCCTGAACTGCCCCGAACCGGTAATGATGTTGCACAACAAGGTGCGCGACCTGCCGGCCGGCGGCCTGCTGAAGGTGATCGCCACCGACCCCTCCACCCGCCGCGACATCCCGAAGTTCTGCCTGTTCCTTGGCCATGAACTGCTTGACCAGCAGGAAGAGGCGGGGACCTACCTCTACTGGATTCGCAAGAAGACGGAATGA	MTQTDIPAADAILDASGLNCPEPVMMLHNKVRDLPAGGLLKVIATDPSTRRDIPKFCLFLGHELLDQQEEAGTYLYWIRKKTE				NA	NA	NA	NA	NA
BMS010_03243	882			hypothetical protein	GTGATCCGCAAGATGCCCTCGCTGTGGGGCAGTTACAGCCGCATCCTGTTCCTGCCGCGCCGTGGCCTGCCGGCGGATGGGCGTCTGCCCCGGCTCGTCCTGAGCTGTTCCGCCGTGCACTTCGAGGCACGCCGGATCGCCGCCTATCGCCGTGTCTGTCGGCTGGACGAGGCGGAGGCCGTGCCGCTGCTGTATCCGCAGATTCATGCCATTCCCTTGCACATGCGCCTCATCGGCCGTTCGCGCATGCCCATCGCCCCGTTGGGACTCATCCAGTTGCGCAACCATGTCCAGCGTTACCAGCACGTGCCGTTGCAGGTGCGTGTCGAGTTGACGTGCCGGATTCTGACCGAGCGGCGTACCGGGCGCGGCCTGGAGTTCGATATCGGTACCGAGGTCTGGCGCGATGACCTGCTGCTCTGGCAGGCGATCACCACCTATCTCTGCCGGGGCGACTACCTGCCCGCTGGCCAGTCTCCCGATCCGCTGCCTCCGCGCGCGCAGTGGCAGCCGCTGTCCGCAGCGCCCGAGCCGCTGGACTCCTGGCGCGTCCCGCTGACCGGTGGCTGGCGTTTCGCCCGCATCAGTGGCGATTTCAACCCGCTGCACCTGTCCCGGCTGGCGGCACGGGCATTTGGTTTCCCGCGGCCGTCCGTCCATGGGCAGTGGGCGCTGGGGCGCAGCCTTGCCGGTCGCCGTCTGCCCGAGCGGGTGCGCCTGGACGTGCATTTCGAGGCACCGCTGTTCCTCGGCAGTCGGGTGCGACAGGAACATTGCCGGCAGGGCGAGCGCGAGCAATGGGCGCTGCTGTCGACCTGCGGCGAGGCGCGTCCGCTGCTGCTGGCGCAACTGGACGAAGCGCCTCCCGGCCCGCTGCGTTGA	MIRKMPSLWGSYSRILFLPRRGLPADGRLPRLVLSCSAVHFEARRIAAYRRVCRLDEAEAVPLLYPQIHAIPLHMRLIGRSRMPIAPLGLIQLRNHVQRYQHVPLQVRVELTCRILTERRTGRGLEFDIGTEVWRDDLLLWQAITTYLCRGDYLPAGQSPDPLPPRAQWQPLSAAPEPLDSWRVPLTGGWRFARISGDFNPLHLSRLAARAFGFPRPSVHGQWALGRSLAGRRLPERVRLDVHFEAPLFLGSRVRQEHCRQGEREQWALLSTCGEARPLLLAQLDEAPPGPLR				NA	NA	NA	NA	NA
BMS010_03244	1053	rlmM	COG2933	Ribosomal RNA large subunit methyltransferase M	ATGAACACTTTGTTACTGCATTGCCGTCCCGGCTTCGAAAACGAGGTCTGCGCCGAATTGTCCGACCAGGCCGCGCGCCTGGACGTTGCCGGTTACGCCAAGGCCCGGCCGAACAGCGCCCATGCCGAATTCATCTGCCAGGAGCCCGGTGGTGCCGAGCGGCTCATGCGCGGACAGCGCTTCGACCGGCTGATCTTTCCGCGCCAGTGGGCCCGTGGCGAGTTCGTCGAACTGCCGGAAAGCGACCGCATCAGCGTCTTGCTGGAGCGCCTGCAGGCGTACCCGGTTTGCGGCAGCCTGTGGCTGGAGGTGCTGGACACTAACGAAGGCAAGGAACTGTCGACCTTCTGCCGCAAGTTCGAAGCGCCGTTGCGCAAGGCCCTGGTCAAGGCCGGCAGGTTGGTGGAAGACGGCCGCAAGCCGCGCCTGCTACTGACGTTCAAAAGTGGCCGCGAGATGTTCCTCGGCGTGGCCGAGCCGGACAATTCCGCGCTCTGGCCGATGGGCATCCCGCGCCTGAAGTTTCCCCGCGAGGCACCCAGCCGTTCCACCCTCAAGCTGGAGGAGGCCTGGCACCAGTTCATTCCGCGCGATGAGTGGGACGAGCGGCTGGCTCCGCAGATGACCTCCGTGGACCTTGGCGCCGCACCGGGCGGCTGGACCTGGCAACTGGTCAACCGGCATATGAAGGTGACCGCCGTGGACAACGGGCCGATGGCGGAAAGCCTGATGGATTCCGGCCTGGTCGATCATCAGCGGGCCGACGGCTTCACGTTCCGCCCGCGCAAGCCGGTGGACTGGATGGTCTGCGACATCGTCGAGAAGCCGGCACGCACCGCCGCGCTGATAGAGACCTGGCTCGGCGAAGGCTGGTGCCGCGAGGCGGTGGTCAACCTCAAGTTGCCGATGAAGCAGCGCTATGCCGAGGTTCGCCGCCTGCTGGAACGCATCGAGGACGGTTTCCAGGCGCGTGGCGTGAGGGTGGCTATCGCCTGCAAACAGCTCTACCACGACCGCGAAGAGGTGACCTGCCATCTGCGCCGCCTGAAATGA	MNTLLLHCRPGFENEVCAELSDQAARLDVAGYAKARPNSAHAEFICQEPGGAERLMRGQRFDRLIFPRQWARGEFVELPESDRISVLLERLQAYPVCGSLWLEVLDTNEGKELSTFCRKFEAPLRKALVKAGRLVEDGRKPRLLLTFKSGREMFLGVAEPDNSALWPMGIPRLKFPREAPSRSTLKLEEAWHQFIPRDEWDERLAPQMTSVDLGAAPGGWTWQLVNRHMKVTAVDNGPMAESLMDSGLVDHQRADGFTFRPRKPVDWMVCDIVEKPARTAALIETWLGEGWCREAVVNLKLPMKQRYAEVRRLLERIEDGFQARGVRVAIACKQLYHDREEVTCHLRRLK				NA	NA	NA	NA	NA
BMS010_03245	2676	acn	COG1048	Aconitate hydratase A	ATGCCTTCCGTGGATAGCCTGAATTGTCGCCGCACCCTCCAAGTCGGGGGCGAGACCTATCATTACTACAGCCTGCCCGAGGCGGCCGCGCGGCTCGGTGATATCAGCCGCCTGCCCGTCTCGCTCAAGGTCCTGCTGGAAAACCTGCTGCGCTGGGAAGACGGCGCCACCGTGCACCCGGAGGATTTCCAGGCCGTCGCCGACTGGCCCAAGACGCGCCGCTCCGAGCGTGAGATCCAGTACCGCCCGGCGCGGGTATTGATGCAGGACTTCACCGGCGTGCCGGCGGTGGTCGACCTGGCCGCCATGCGTGACGCGGTAGCCAAGGCCGGTGCCGATCCGCAGAGAATCAATCCGCTCTCGCCGGTGGACCTGGTGATCGACCACTCGGTGATGGTGGACCGCTTCGCCGACCCCAGCGCCTTTGCCGACAACGTCGCCCTGGAAATGCAGCGCAACGGCGAGCGCTACGCCTTCCTGCGCTGGGGCCAGCAGGCCTTCGACAATTTCCGCGTGGTACCGCCGGGCACCGGCATCTGCCACCAGGTCAACCTGGAATACCTGGCCCAGGTGGTCTGGACCCGTGACGAAGACGGCGCGACCTATGCCTACCCGGACACCCTGGTCGGCACCGACTCCCACACCACCATGATCAACGGCCTCGGAGTGCTCGGCTGGGGCGTCGGCGGGATCGAAGCGGAAGCGGCGATGCTCGGCCAGCCGGTATCCATGCTGATCCCGGAAGTGGTCGGCTTCCGCCTCACCGGCAAGCTGCGCGAAGGCATCACCGCCACCGACCTGGTGCTGACCGTCACCCAGATGCTGCGCAAGCAGGGCGTGGTGGGCAAGTTCGTCGAGTTCTACGGCCCCGGCCTGGACCACCTGCCGCTGGCCGACCGCGCCACCATCGCCAACATGGCCCCGGAATACGGCGCCACCTGCGGCTTCTTCCCAGTGGACAGCGTGACCATCGACTATCTGCGCCTGTCCGGCCGCGACGAACAGCGCATCGCCCTGGTCGAGGCCTACAGCAAGGCCCAGGGCATGTGGCGCGACAGCACCTCGGTGGACCCGGTGTTCACCGACAGCCTGGAACTGGACCTGGGCAGCGTCGAGCCCTCGCTGGCCGGTCCGAAGCGCCCGCAGGACCGTGTCGCCCTTTCCGACATCGGTGCGGCCTTCGACCTGCTGCTGGAAACCAGCGGCAAGAAAGCCCAGGCCAACACCCCCGTACCGGTGCCCGGCGAAGACTTCGTGCTGAAACACGGCGCCGTGGTGATCGCCGCGATCACCTCCTGCACCAACACCTCCAACCCCAGCGTGCTGATGGCGGCCGGCCTGGTGGCGAAGAAGGCCGTGGAACGTGGCCTGAAACGCCAGCCCTGGGTGAAATCCTCTCTGGCCCCCGGCTCCAAAGTGGTCACCGACTACCTGGCCAAGGCCGGATTGACACCCTACCTCGACGCCCTCGGCTTCAACCTGGTGGGCTACGGCTGCACCACCTGCATCGGCAACTCCGGGCCGCTGCCGGACCCGATCGGCCAGGCGATCACCGACAACGACCTGATCGTCTCCTCGGTGCTCTCCGGCAACCGCAACTTCGAAGGACGAGTACACCCGCTGGTGAAAGCTAACTGGCTGGCGTCTCCGCCGCTGGTGGTCGCCTTCGCCCTGGCCGGCACCACGCGGATCGATCTGAGCCGCGAACCGGTGGGCTACGACGACAATGACCAGCCGGTGTACCTGAAGGACATCTGGCCGAGCAACCAGGAAGTCGCCGCAGCCGTCAGCGCCGTGGACGGCATCATGTTCCGCAAGCAATATGCGGACGTCTTCAGCGGCGATGCCAACTGGCAATCCATCGCCCTGACGCCGGGCAACACTTACCGCTGGGACGCCAGCTCCACCTACGTGCAGAACCCACCGTTCTTCACCGCCATCGGCGAGCCACCCCAACCCCCGGCAGACATCAAGGACGCCCGCATCCTGGCACTGTTCGGCGACTCCATCACCACTGACCACATTTCCCCGGCCGGCAACATCAAGGCCACCTCGCCGGCCGGACTCTACCTGCAAAGCCTTGGCGTCAAGCCGGAAGACTTCAACTCCTACGGCGCACGGCGCGGCAACCATGAGGTGATGATGCGCGGCACCTTCGCCAACATCCGCATCAAGAACGAGATGCTCGGTGGCGAGGAAGGCGGCAACACCCTCTACCAGCCCGGCAGCACCAAGCTCACCCTCTACGACGCCGCCATGCGCTACCAGGCGGAAGGCGTGCCGCTGGTGGTGATCGCCGGCAAGGAGTACGGCACCGGATCCTCCCGCGACTGGGCGGCGAAAGGCACCAACCTGCTCGGGGTGAAGGCGGTGATCGCCGAGAGCTTCGAACGCATCCACCGTTCCAACCTGATCGGCATGGGCGTGCTGGCCTTGCAGTTCGTCGACGGCCAGACCCGCCACAGCCTGGGGCTGAGCGGTACCGAGAAGCTGTCGATCCGCGGCCTCTCGGAAGACATCAAGCCCCGCCAGTTGCTCATGGTCGAAGTGGAGCGTGCCGACGGCAGCGCGTTCAGCTTCCCGGTGCTCTGCCGCATCGATACCGTCAACGAAGTCGAGTACTTCAAGGCCGGCGGCATCCTGCATTACGTCCTGCGCCAACTGATCGCCGCCTGA	MPSVDSLNCRRTLQVGGETYHYYSLPEAAARLGDISRLPVSLKVLLENLLRWEDGATVHPEDFQAVADWPKTRRSEREIQYRPARVLMQDFTGVPAVVDLAAMRDAVAKAGADPQRINPLSPVDLVIDHSVMVDRFADPSAFADNVALEMQRNGERYAFLRWGQQAFDNFRVVPPGTGICHQVNLEYLAQVVWTRDEDGATYAYPDTLVGTDSHTTMINGLGVLGWGVGGIEAEAAMLGQPVSMLIPEVVGFRLTGKLREGITATDLVLTVTQMLRKQGVVGKFVEFYGPGLDHLPLADRATIANMAPEYGATCGFFPVDSVTIDYLRLSGRDEQRIALVEAYSKAQGMWRDSTSVDPVFTDSLELDLGSVEPSLAGPKRPQDRVALSDIGAAFDLLLETSGKKAQANTPVPVPGEDFVLKHGAVVIAAITSCTNTSNPSVLMAAGLVAKKAVERGLKRQPWVKSSLAPGSKVVTDYLAKAGLTPYLDALGFNLVGYGCTTCIGNSGPLPDPIGQAITDNDLIVSSVLSGNRNFEGRVHPLVKANWLASPPLVVAFALAGTTRIDLSREPVGYDDNDQPVYLKDIWPSNQEVAAAVSAVDGIMFRKQYADVFSGDANWQSIALTPGNTYRWDASSTYVQNPPFFTAIGEPPQPPADIKDARILALFGDSITTDHISPAGNIKATSPAGLYLQSLGVKPEDFNSYGARRGNHEVMMRGTFANIRIKNEMLGGEEGGNTLYQPGSTKLTLYDAAMRYQAEGVPLVVIAGKEYGTGSSRDWAAKGTNLLGVKAVIAESFERIHRSNLIGMGVLALQFVDGQTRHSLGLSGTEKLSIRGLSEDIKPRQLLMVEVERADGSAFSFPVLCRIDTVNEVEYFKAGGILHYVLRQLIAA	PGPT0001465_3212	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001465-acnA-K01681	NA	NA
BMS010_03246	1653	aer	COG0840	Aerotaxis receptor	ATGCCTGGCACCTATAATCCTTGTCCAGTCGCTCAACTTTGGCCGAGCGCGGCCGAAGACCTTGGCATAGCCAGAACGGATACCCCCATGCGCAACAACCAGCCTGTCACCCAGAGAGAACGCACCTTTCCCGCCCAGCAGCGGCTGATCTCCACGACCGACCTCAAGGGCCAGATCACCTACTGCAACGAAGCCTTCATCGAAATCAGCGGCTTTTCCCGCGAAGAGCTGATGCGTGCCCCCCACAATCTGGTGCGCCACCCGGACGTGCCGCCGGCCGTCTTCGCCCACCTCTGGCAGACGCTAAAGGAAGGCAAGCCCTGGATGGGCGTGGTGAAGAACCGCTGCAAGAACGGCGATCACTACTGGGTCAATGCCTATGTCACGCCGATGCTGGAAAAAGGCCAGGTGGTCGGTTACGAGTCGGTACGGGTCAAGCCCACTGCCGAACAGGTGCGCCGCGCCGAAGCGCTGTACCAGCGAATCAACCAGGGCAAGGCGGCCGTACCGAGACGCGACCGCTGGCTGCCAGTGTTGCAGGACTGGCTGCCGTTCATCCTGATCAGCCAGATCGGCTTCCTCATTGGCGCCTGGCTCGACAGCCACTGGGGCTTTCTGCTCGCCGCCCTGCTCTCGGTTCCTCTCGGTCTCACCGGCCTGGCCTGGCAGAACCGCGGCATCAAGCGCCTGCTGCGGCTGGCCGAACAGGCCACCTCCGACCCGCTGATCGCCCAGATGTACACCGATAGTCGTGGCGTACAGGCGTGCCTGGAAATGGCCATGCTCAGCCAGGACGCGCGCCTGAAGACCTGCCTGACCCGCCTGCAGGACACCGCCGAACAGCTCGCCCAGCAGGCGCGCCAAGCCGACACCCTGGCCCACAACAGCTCCGCCGGCCTGGAGCGGCAGCGCCTGGAGACCGAGCAGGTGGCCACCGCGGTCAACGAAATGGCCGCAACCACTCAAGAGGTCGCAGGCAACGTGGCGCGCACCGCCGACGCCACCCGCGAGGCCAATCGCCTGACCAGCCGGGGCCGCACCATCGCCGCGGAAACCCGCGAGGCGATCCAGCAACTGTCGATCGCCGTCGGCGAAACCGGGGAAACCGTCGCCCGCCTGGCCCATGACAGCAATCAGATTGGCGGCGTGGTGGACGTGATCAAGGGCATCGCCGACCAGACCAACCTGCTCGCCCTCAACGCTGCCATCGAAGCCGCACGCGCCGGCGAGATGGGGCGTGGCTTCGCCGTGGTCGCCGACGAAGTACGTCAATTGGCCCAGCGCACCGCCGAATCCACCGGGCAGATCCACCAGTTGATCGCGCAATTGCAGAAGACCGCCGAGGAAGCCGTGCACACCATGGAAAGCGGCCGCCGGCAAGCCGACGAAGGGGTCGAGCGGGTCCAGCAGGCCGACCAGGCGCTGGCCGGCATCAGCGATGCCGTGGCCAACATCGCCGACATGGCCAACCAGATCGCCGCCGCGGCCGAGGAGCAGAGCGCCGTCGCCGAAGAGATCAACCAGAACATCAACACCATTGCCCAGCTCGCCGACCAGACCGCCGGCGAAGCACAGAGCACGGCCCTGCTCAGCGAAGCCCTGACCACCACGGCGCAGGGGCAATACGCGCTGGTGGAGCGTTTCAACCGCTGA	MPGTYNPCPVAQLWPSAAEDLGIARTDTPMRNNQPVTQRERTFPAQQRLISTTDLKGQITYCNEAFIEISGFSREELMRAPHNLVRHPDVPPAVFAHLWQTLKEGKPWMGVVKNRCKNGDHYWVNAYVTPMLEKGQVVGYESVRVKPTAEQVRRAEALYQRINQGKAAVPRRDRWLPVLQDWLPFILISQIGFLIGAWLDSHWGFLLAALLSVPLGLTGLAWQNRGIKRLLRLAEQATSDPLIAQMYTDSRGVQACLEMAMLSQDARLKTCLTRLQDTAEQLAQQARQADTLAHNSSAGLERQRLETEQVATAVNEMAATTQEVAGNVARTADATREANRLTSRGRTIAAETREAIQQLSIAVGETGETVARLAHDSNQIGGVVDVIKGIADQTNLLALNAAIEAARAGEMGRGFAVVADEVRQLAQRTAESTGQIHQLIAQLQKTAEEAVHTMESGRRQADEGVERVQQADQALAGISDAVANIADMANQIAAAAEEQSAVAEEINQNINTIAQLADQTAGEAQSTALLSEALTTTAQGQYALVERFNR	PGPT0015700_838	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	METHYL-ACCEPTING_CHEMOTAXIS_PROTEINS,PGPT0015700-aer-K03776	NA	NA
BMS010_03247	696			hypothetical protein	ATGGGCAAAGCACAACGCGGGAGTATTGACAGGGATCAATGCCCACACGGGGAGAGGGGATATGGCCAATGGCTGTGGAACCGCCCATCGGGACCCTCCGAGACCTGCCTGATCCTGGCCCACGGCGCCGGTGCGCCGATGGACAGCCCGTTCATGCAGGACATGGCTGAACGCCTTGCCGCACGCGGGCTGGCGGTGGTTCGCTTCGAGTTCCCGTACATGGCTCAGCGGCGCCTGGACGGACGGCGTCGGCCACCGAACCAACAGGCCTTGCTACTGGAAACCTGGCGCCAGGTGTATGCGGATGTGCGACAGCAAGTCACAGGGCGCCTGGCCATCGGCGGCAAGTCCATGGGGGGACGGATGGCCAGCCTGGTGGCCGACGAATTGGGTGTCGATGCGCTGGTTTGCCTGGGTTATCCCTTCCATGCCGTGGGCAAGGCGGACAAGCCCCGCGTGGCGCACCTGGCCGACCTGAAAACCCCGACCCTGATCGTCCAGGGCGAGCGCGACGCCATGGGCGACCGGATCACGGTGGAAGGCTACGCCTTGTCGAAGGCCGTCGCGCTGCACTGGCTGGCCGCAGCCGACCACGACCTCAAGCCGTTGAAGGTTTCCGGCATCACGCACCCGCAGCATCTCGATACGGCGGCGGATGTGGTGGCGTTATTCCTAGAGAAAACGGCCCGTCAGTGA	MGKAQRGSIDRDQCPHGERGYGQWLWNRPSGPSETCLILAHGAGAPMDSPFMQDMAERLAARGLAVVRFEFPYMAQRRLDGRRRPPNQQALLLETWRQVYADVRQQVTGRLAIGGKSMGGRMASLVADELGVDALVCLGYPFHAVGKADKPRVAHLADLKTPTLIVQGERDAMGDRITVEGYALSKAVALHWLAAADHDLKPLKVSGITHPQHLDTAADVVALFLEKTARQ				NA	NA	NA	NA	NA
BMS010_03248	1440	ccoN1_1	COG3278	Cbb3-type cytochrome c oxidase subunit CcoN1	ATGAACACAGCAACCAGTACCGCCTACAACTACAAGGTGGTCCGCCAATTCGCCATCATGACGGTGGTTTGGGGAATCGTCGGGATGGGGCTCGGCGTTTTCATCGCCGCCCAATTGGCCTGGCCGGAACTCAACCTCGATCTCCCCTGGACCAGTTTCGGCCGCTTGCGACCCCTGCACACCAACGCAGTGATCTTCGCCTTCGGCGGTTGCGCCCTGTTCGCCACCTCCTACTACGCCGTGCAACGCACCTGCCAGACCCGTCTGATCTCGGACAAGCTGGCCGCCTTCACCTTCTGGGGCTGGCAAGCGGTGATCGTGCTGGCGGCGGTCAGCCTGCCGCTGGGCCTGACCAGCTCCAAGGAGTACGCCGAGCTGGAATGGCCGATCGACCTGCTGATCACCGTGGTCTGGGTGGTCTACGCCATCGTGTTCTTCGGAACGCTGATCAAGCGCAAGACCAAGCACATCTACGTGGGCAACTGGTTCTTCGGCGGCTTCATCCTCACCGTCGCGCTGCTGCACGTGGTGAATAACCTGGAGATCCCGGTCACGCTGACCAAGTCCTACTCGCTGTACTCCGGCGCCACCGACGCGATGATCCAGTGGTGGTACGGTCACAACGCCGTGGGCTTCTTCCTCACCGCCGGCTTCCTCGGAATGATGTATTACTTCGTGCCGAAGCAGGCTGGCCGCCCGGTCTATTCGTACCGTCTGTCCATCGTCCACTTCTGGGCGCTGATCGCCGTGTACATCTGGGCGGGTCCGCACCACCTGCACTACACCGCCCTGCCGGATTGGGCTCAATCCCTCGGCATGATCATGTCCCTGATTCTCCTGGCTCCGAGCTGGGGTGGCATGATCAACGGCATGATGACCCTCTCGGGTGCCTGGCATAAGCTGCGCAGCGACCCGATCCTGCGCTTCCTGGTGGTCTCCCTGGCCTTCTACGGCATGTCCACCTTCGAAGGCCCGATGATGGCCATCAAGACCGTCAACGCCCTCTCCCACTACACCGACTGGACCATCGGCCACGTACACGCCGGCGCCCTCGGCTGGGTCGCCATGGTGTCGATCGGCTCGCTCTATCACCTGATCCCGAAGGTCTTCGGCCGCGAGCAGATGTACAGCGTCGGCCTGATCAACAGCCACTTCTGGCTGGCCACCATCGGCACCGTGCTCTACATCGCCTCGATGTGGGTCAACGGTATCGCCCAGGGCCTGATGTGGCGCGCGGTCAACGAAGACGGCACCCTGACCTACTCCTTCGTCGAAGCGCTGGAAGCCAGCCACCCGGGCTTCGTGGTGCGGGTGATCGGCGGCGCCATCTTCTTCAGCGGCATGCTGCTGATGGCCTACAACACCTGGCGCACCGTGCGTGCGGCCAAGCCGGCTGAAATCGAAGCCGCTTCGCGCTTCGTGGTCGAAGGAGCCCACTGA	MNTATSTAYNYKVVRQFAIMTVVWGIVGMGLGVFIAAQLAWPELNLDLPWTSFGRLRPLHTNAVIFAFGGCALFATSYYAVQRTCQTRLISDKLAAFTFWGWQAVIVLAAVSLPLGLTSSKEYAELEWPIDLLITVVWVVYAIVFFGTLIKRKTKHIYVGNWFFGGFILTVALLHVVNNLEIPVTLTKSYSLYSGATDAMIQWWYGHNAVGFFLTAGFLGMMYYFVPKQAGRPVYSYRLSIVHFWALIAVYIWAGPHHLHYTALPDWAQSLGMIMSLILLAPSWGGMINGMMTLSGAWHKLRSDPILRFLVVSLAFYGMSTFEGPMMAIKTVNALSHYTDWTIGHVHAGALGWVAMVSIGSLYHLIPKVFGREQMYSVGLINSHFWLATIGTVLYIASMWVNGIAQGLMWRAVNEDGTLTYSFVEALEASHPGFVVRVIGGAIFFSGMLLMAYNTWRTVRAAKPAEIEAASRFVVEGAH	PGPT0001055_1188	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0001055-fixN|ccoN-K00404	NA	NA
BMS010_03249	612			hypothetical protein	ATGAAACAGCATGAGATTCTCGAGAAGAACGTCGGCCTGCTGGCCCTGTTCATGGTCCTGGCGGTGAGCATCGGCGGCCTCGTGCAGATCGTTCCGCTGTTCTTCCAGCAGGAAACCACCCAGCCGGTGGAAGGGCTCAAGCCCTACACCGCGCTGCAGTTGGAAGGTCGCGACATCTACATCCGCGAGGGCTGCGTCGGCTGCCACTCGCAGATGGTCCGTCCGTTCCGCGCCGAGACCGAGCGCTACGGCCACTACTCCGTCGCCGGCGAAAGCGTCTGGGACCACCCCTTCCTGTGGGGTTCCAAGCGTACCGGCCCGGACCTGGCCCGCGTCGGCGGCCGCTACTCGGACGACTGGCACCGTGCGCACCTGTACAACCCGCGCAACGTCGTGCCGGAGTCGAAGATGCCCTCCTACCCCTGGCTGGTGGAAAACACCCTCGACGGCAAGGACACCGCAGCCAAGATGGGCGCCCTGCGCACCCTGGGCGTGCCCTACAGCGACGACGACATCGCCGGCGCCTCCGCAGCGGTGAGCGGCAAGACCGAGATGGATGCCCTCGTGGCCTACCTGCAAGTGCTCGGCACCAGCCTGAAGAACAAGAGGTAA	MKQHEILEKNVGLLALFMVLAVSIGGLVQIVPLFFQQETTQPVEGLKPYTALQLEGRDIYIREGCVGCHSQMVRPFRAETERYGHYSVAGESVWDHPFLWGSKRTGPDLARVGGRYSDDWHRAHLYNPRNVVPESKMPSYPWLVENTLDGKDTAAKMGALRTLGVPYSDDDIAGASAAVSGKTEMDALVAYLQVLGTSLKNKR	PGPT0000152_1208	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0000152-fixO|ccoO-K00405	NA	NA
BMS010_03250	198			hypothetical protein	ATGGCCTTCGACAACCTCGACATCGGCACCCTGCGCGGCCTCGGCACGGCGCTGGTGATGCTCGCCTTCATCGGCGTGACCGTATGGGCCTACAGCAGCAAGCGCAAGGCGGCCTTCGACGAAGCCGCCAACCTGCCCTTCGCCGACGACCCGACGCCCGAGCACGCCCGGAACGCTTCTAGGAGTTACCTCGCATGA	MAFDNLDIGTLRGLGTALVMLAFIGVTVWAYSSKRKAAFDEAANLPFADDPTPEHARNASRSYLA	PGPT0000154_481	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0000154-fixQ|ccoQ-K00407	NA	NA
BMS010_03251	936	ccoP1		Cbb3-type cytochrome c oxidase subunit CcoP1	ATGACCACTTTCTGGAGTTGGTACATCACCATCCTCACCCTCGGCACCTTCGTCGCGCTGTTCTGGCTGGTCTTCGCCACCCGCAAGGGCGAGCCCAAGGGCGGCACCGACCAGACCATGGGCCATGCCTTCGACGGCATCGAGGAATACGACAACCCACTGCCCAAGTGGTGGTTCCTGCTGTATGTCGGCACCATCATCTTCGCCATCGGCTATCTGATCCTCTACCCGGGCCTGGGCAACTGGAAAGGCGTCCTGCCGGGTTATGAGGGCGGCTGGACCCAGGCCAAGCAATGGCAGCGCGAAGTGGACAAGGCAGAAACGCAATATGGTCCGATCTTCGCCAAATTCGCCGCGATGCCCATTGCGGACGTAGCCCAGGACCCGCAAGCGCTGAAGATGGGCGGCCGCCTGTTCGCCACCTACTGTGCGGTGTGCCACGGTTCCGATGCCAAGGGCTCGGTCGGCTTCCCGAACCTGACCGACGCCAACTGGCGCTGGGGCGGCGAAGCAGACGCGATCAAGACCACCATCCTGCACGGCCGTATGGCGGCCATGCCGGCCTGGGGTCCGATCCTCGGTGACGAAGGCGTGAAGAACGTCGCTGCCTATGTGCGCCAGGGCTTGGCCGGTCTCGCCCTGCCGGAAGGCAGCGAAGCCGATGTCGCCGCCGGCAAGCAGATCTTCGAAACCAACTGCGCGGCCTGCCACGGTGCGACCGGCCTGGGCATGGCAGCCATGGGCGCTCCGGACCTGACCCATTCGGCCGGCTGGATCTACGGTTCGAGCCTGGCCCAGCTGCAACAGACCATCCGCTATGGCCGCAACGGCCAGATGCCGGCCCAGGAGCCCTATCTCGGCAACGACAAGGTGCACCTGCTCGCGGCATACGTGTACAGCCTTTCCCAAGGCAAGGAACAGGTAGCAGCCAAGTAA	MTTFWSWYITILTLGTFVALFWLVFATRKGEPKGGTDQTMGHAFDGIEEYDNPLPKWWFLLYVGTIIFAIGYLILYPGLGNWKGVLPGYEGGWTQAKQWQREVDKAETQYGPIFAKFAAMPIADVAQDPQALKMGGRLFATYCAVCHGSDAKGSVGFPNLTDANWRWGGEADAIKTTILHGRMAAMPAWGPILGDEGVKNVAAYVRQGLAGLALPEGSEADVAAGKQIFETNCAACHGATGLGMAAMGAPDLTHSAGWIYGSSLAQLQQTIRYGRNGQMPAQEPYLGNDKVHLLAAYVYSLSQGKEQVAAK	PGPT0000153_585	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0000153-fixP|ccoP-K00406	NA	NA
BMS010_03252	1440	ccoN1_2	COG3278	Cbb3-type cytochrome c oxidase subunit CcoN1	ATGAGCACAGCAATCAGTCAGACTGCTTATAACTATAAGGTGGTCCGCCAGTTCGCCATTATGACGGTGATCTGGGGGGTCATTGGGATGGGTCTCGGTGTTCTGATCGCCGCCCAGCTGGTATGGCCGGAACTCAACTTCGACCTGCCGTGGACCAGCTTCGGCCGTCTGCGCCCGCTGCACACCAACGCAGTGATCTTCGCCTTTGGCGGTTGCGCCCTGTTCGCCACCTCCTACTACGTGGTGCAGCGCACCTCCCAGGCCCGACTGATTTCCGACGGTCTCGCCGCCTTCACCTTCTGGGGCTGGCAAGCGGTGATCGTGCTGGCAGTCCTGACCCTTCCGCAGGGCTACACCTCCTCCAAGGAGTACGCCGAGCTGGAATGGCCGATCGACATCCTGATCGCCGTGGTCTGGGTCAGCTATGCGATCGTGTTCTTCGGCACCATCGTCAAGCGCAAGACCAAGCACATCTATGTGGGTAACTGGTTCTTCGGTGGTTTCATCCTGACGGTCGCTCTGCTGCACATCGTCAACAACATTGAAATTCCGGTCGGTGCGTTCAAGTCCTACTCGGTCTACTCCGGCGCCACCGACGCGATGATCCAGTGGTGGTACGGTCACAACGCCGTGGGCTTCTTCCTCACCGCCGGCTTCCTCGGGATGATGTATTACTTCGTGCCGAAGCAGGCCGAACGCCCGATCTATTCCTATCGTCTCTCGATCGTGCACTTCTGGGCCTTGATTTCCGTCTATATTTGGGCCGGTCCGCACCATTTGCACTACACCGCCCTGCCGGATTGGGCCCAGTCCCTCGGCATGGTGATGTCGCTGATCCTCCTGGCACCGAGCTGGGGCGGCATGATCAACGGCATGATGACCCTGTCCGGCGCCTGGCATAAGCTGCGCACCGACCCGATCCTGCGCTTCCTGGTGGTCTCCCTGGCCTTCTACGGCATGTCCACCTTCGAAGGCCCGATGATGGCCATCAAGACCGTCAACGCCCTCTCCCACTACACCGACTGGACCATCGGCCACGTACACGCCGGCGCCCTCGGCTGGGTAGCGATGATCTCCATCGGCTCCATCTACCACCTGATTCCGAAGGTGTTCGGTCGCGAGCAAATGCACAGCGTCGGCCTGATCAACGCCCACTTCTGGCTGGCCACCATCGGCACCGTGCTCTACATCGCCTCGATGTGGGTCAACGGCATCACCCAGGGCCTGATGTGGCGCGCAGTCAACGAAGACGGCACCCTGACCTACTCCTTCGTCGAAGCGCTGGAAGCCAGCCATCCGGGCTTCCTGGTTCGCATGATCGGCGGCGCCTTCTTCGTCACCGGCATGCTGCTGATGGCCTACAACACCTGGCGCACCGTGCGTGTCGCCAAGCCGGCAGAATACGAAGCCGCTGCGAAGATCGCTGAGGTAGCTCACTGA	MSTAISQTAYNYKVVRQFAIMTVIWGVIGMGLGVLIAAQLVWPELNFDLPWTSFGRLRPLHTNAVIFAFGGCALFATSYYVVQRTSQARLISDGLAAFTFWGWQAVIVLAVLTLPQGYTSSKEYAELEWPIDILIAVVWVSYAIVFFGTIVKRKTKHIYVGNWFFGGFILTVALLHIVNNIEIPVGAFKSYSVYSGATDAMIQWWYGHNAVGFFLTAGFLGMMYYFVPKQAERPIYSYRLSIVHFWALISVYIWAGPHHLHYTALPDWAQSLGMVMSLILLAPSWGGMINGMMTLSGAWHKLRTDPILRFLVVSLAFYGMSTFEGPMMAIKTVNALSHYTDWTIGHVHAGALGWVAMISIGSIYHLIPKVFGREQMHSVGLINAHFWLATIGTVLYIASMWVNGITQGLMWRAVNEDGTLTYSFVEALEASHPGFLVRMIGGAFFVTGMLLMAYNTWRTVRVAKPAEYEAAAKIAEVAH	PGPT0001055_1125	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0001055-fixN|ccoN-K00404	NA	NA
BMS010_03253	612			hypothetical protein	ATGAAGCAACATGAAGTAGTCGAAAAGAACGTCGGCCTGCTGGCCCTGTTCATGGTCCTGGCGGTGAGCATCGGCGGCCTCGTGCAGATCGTTCCGCTGTTCTTCCAAGGTGTGACCAACACCCCGGTCGAAGGCATGAAGCCACGCACCGCGCTGCAGTTGGAAGGCCGCGACATCTACATCCGTGAAGGCTGCGTCGGCTGCCACTCGCAGATGGTCCGTCCGTTCCGCGCCGAGACCGAGCGCTACGGCCACTACTCCGTCGCCGGCGAGAGCGTCTGGGACCACCCCTTCCTGTGGGGTTCCAAGCGTACCGGCCCGGACCTGGCCCGCGTCGGCGGTCGCTACTCGGACGACTGGCACCGTGCGCACCTGTACAACCCGCGCAACGTCGTGCCGGAATCGAAGATGCCTTCTTACCCCTGGCTGGTCGAGAACAAGCTGGACGGCAAGAACACCGCAACCAAGATGGAAGCTATGCGCACCCTGGGCGTGCCCTACACCGACGAAGACATCGCCGGTGCCAAAGACGCCGTGAAAGACAAGACCGAGATGGATGCCCTCGTGGCCTATCTCCAGTCTCTGGGCACTTCTCTCAAAAACAAACGGTAA	MKQHEVVEKNVGLLALFMVLAVSIGGLVQIVPLFFQGVTNTPVEGMKPRTALQLEGRDIYIREGCVGCHSQMVRPFRAETERYGHYSVAGESVWDHPFLWGSKRTGPDLARVGGRYSDDWHRAHLYNPRNVVPESKMPSYPWLVENKLDGKNTATKMEAMRTLGVPYTDEDIAGAKDAVKDKTEMDALVAYLQSLGTSLKNKR	PGPT0000152_1250	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0000152-fixO|ccoO-K00405	NA	NA
BMS010_03254	186			hypothetical protein	ATGGATATCGGAACTCTCCGCGGCCTGGGCACCCTGCTGGTATTCGTCGCTTTCATCGGTGTCGTGCTCTGGGCCTACAGCAGCAAGCGCAAGAAAAGCTTCGACGAAGCCGCCAACCTGCCCTTCGCCGACGAAGAGCCGAAGCCTGAAGAGCGCGAGCAAGCTTCTAGGAGTAAGAAAGAATGA	MDIGTLRGLGTLLVFVAFIGVVLWAYSSKRKKSFDEAANLPFADEEPKPEEREQASRSKKE	PGPT0000154_485	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0000154-fixQ|ccoQ-K00407	NA	NA
BMS010_03255	942	ccoP2	COG2010	Cbb3-type cytochrome c oxidase subunit CcoP2	ATGACCACTTTCTGGAGTTGGTACGTCACTCTGCTGACCGTCGGCACCTTGCTGGCGTTGACCTGGCTGATCTTCGCCACCCGCAAGGGCCAGCGTAAGGAAGCCACCGAAGAAACCGTCGGCCATGCGTTCGACGGCATCGAGGAATACGACAACCCGCTGCCCAAGTGGTGGTTCATGTTGTTCGTTGCCACCCTGGTGTTCGCCGTGGGCTACCTGGTCCTGTACCCGGGCCTGGGTAACTGGAAGGGCCTGATGCCTGGCTACCAGGACGCCAACGAGTTCGCCAGCAAGGAGAAGGGCTGGACCGGCGTGCACCAGTGGGAAAAGGAAATGGCCAAGGCCGAAGAACAGTATGGTCCGCTGTACGCCAAGTACGCCGCCATGCCGATCGAGGAAGTGGCCAAGGACGAGAAAGCCCTGAAGATGGGCGGCCGTCTGTTCGCCTCCAACTGCTCGGTTTGCCACGGTTCCGACGCCAAGGGCGCCTACGGTTTCCCGAACCTGACCGACAACGACTGGCTGTATGGCGGCGAGGCGGAAACCATCAAGACCACCATCATGCAGGGCCGTCAGGCCGCCATGCCGGCCTGGAAGGACGTGATCGGCGAAGCAGGCATCAAGAACGTTGCCGGCTACGTGCGCAGCCTCTCCGGCCTGAAGAACCCGGAAGGCGTCGACATTGCCGCAGGTCAAGAGATCTTCAAGGCCAATTGTGTAGCCTGTCATGGTCCTGAGGGCAAAGGTACGCATGCCATGGGCGCGCCGAACCTGACCGACAAGGTCTGGCTGTACGGTTCCAGCTTCGCTCAGGTCCAGCAGACGCTGCGCTATGGCCGTAACGGCCGCATGCCGGCACAGGAAGAGCACCTCGGCAACGACAAGGTGCACCTGCTGGCGGCCTACGTGTACAGCCTGTCGCAGAAACCCGCGCAGGAGTGA	MTTFWSWYVTLLTVGTLLALTWLIFATRKGQRKEATEETVGHAFDGIEEYDNPLPKWWFMLFVATLVFAVGYLVLYPGLGNWKGLMPGYQDANEFASKEKGWTGVHQWEKEMAKAEEQYGPLYAKYAAMPIEEVAKDEKALKMGGRLFASNCSVCHGSDAKGAYGFPNLTDNDWLYGGEAETIKTTIMQGRQAAMPAWKDVIGEAGIKNVAGYVRSLSGLKNPEGVDIAAGQEIFKANCVACHGPEGKGTHAMGAPNLTDKVWLYGSSFAQVQQTLRYGRNGRMPAQEEHLGNDKVHLLAAYVYSLSQKPAQE	PGPT0000153_800	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0000153-fixP|ccoP-K00406	NA	NA
BMS010_03256	1413			hypothetical protein	ATGAGTGAGCAGATTCCCGTTCAAGATGTCACCCCACCGGCCAAGGTCACGGAAAACGTCGACCTCTATGCCAAGCGTGAAAAAATCTACACCCGCGCCTTCACCGGCCTGTTTCGCAACCTGCGCAGGGGCGGTGGCGCCCTCCTCTTCATTCTCTATTTCGGTACCGTCTGGCTGAGTTGGAACGACCGCCAGGCAGTCTGGTGGAACCTGCCGGAGCGCAAGTTCTACATCTTCGGCGCAACCTTCTGGCCCCAGGATTTCGTCCTGCTGTCCTGGCTGCTGATCATCTGCGCCTTCGGCCTGTTCTTCATCACCGTGTTCGCCGGCCGCGTCTGGTGCGGTTACACCTGTCCGCAGAGCGTGTTCACCTGGGTGTTCATGTGGGCGGAAAAGGTCACCGAAGGCGACCGCAACAAGCGCATGAAACTGGACAAGGCGCCGATGTCCGGCGGCAAGTTCCTGCGCAAGCTGGCCAAGCATGCGATCTGGCTGGGCGTTTCGCTGGTGACGGCGATCACCTTCGTCGGCTACTTCACCCCGATCCGCGACCTGATCCCCGACCTGTTGACCTTCCAGGCCAACGGCTGGGCGCTGTTCTGGGTAGGCTTCTTCACCCTCGCCACCTACGGCAACGCCGGCTATCTGCGCGAGCAGGTGTGCATCTATATGTGCCCCTACGCCCGTTTCCAGAGCGTGATGTTCGACAAGGACACTCTGATCGTCTCCTACGACCCGCGGCGCGGTGAAAAACGCGGCCCGCGCAAGAAGGAGCTGGACTACAAGGCCAAGGGCCTGGGCGACTGCATCGACTGCCAGATGTGCGTGCAGGTCTGCCCGACCGGCATCGACATCCGCGACGGCCTGCAGATCGAGTGCATCGGCTGCGCGGCCTGCATCGACGCCTGCGACAGCATCATGGAAAAGATGAACTACCCGAAAGGGCTCATCAGCTACACCACCGAGCACAACCTGTCCGGCCAGAAGACTCACCTGCTGCGACCACGCCTGATCGGTTACGCCGTCGCCCTGCTGGCCATGATGATGCTGTTCGCCTACGCCGTCGCCGTACGCCCGCTGGTCAAGCTGGACGTGATCAAGGACCGTGTGCTTTATCGCGAGAACGATCAGGGCCGGATCGAGAACGTCTATACCCTCAAGGTGATGAACAAGGCGCAGCGCGACCAGGTCTTCGTCATCGAAGCCGATGGCCTGGACGGCCTGGTTTACGAGGGCAAGCGCGAAGTGAAGGCAATGGCCGGCGAGGTGCTTTCGGTCCCGGTGGAACTGTCCATCGACCCCGAGCGCCTGCCATCGAGCACCAATGAGATCCTCTTCCGCGTCCAGTCGGCAGACGACCCCAGCATCCATAACGACGCCAAGAGCCGCTTCATCGGCCCGAGCGTCCGTTGA	MSEQIPVQDVTPPAKVTENVDLYAKREKIYTRAFTGLFRNLRRGGGALLFILYFGTVWLSWNDRQAVWWNLPERKFYIFGATFWPQDFVLLSWLLIICAFGLFFITVFAGRVWCGYTCPQSVFTWVFMWAEKVTEGDRNKRMKLDKAPMSGGKFLRKLAKHAIWLGVSLVTAITFVGYFTPIRDLIPDLLTFQANGWALFWVGFFTLATYGNAGYLREQVCIYMCPYARFQSVMFDKDTLIVSYDPRRGEKRGPRKKELDYKAKGLGDCIDCQMCVQVCPTGIDIRDGLQIECIGCAACIDACDSIMEKMNYPKGLISYTTEHNLSGQKTHLLRPRLIGYAVALLAMMMLFAYAVAVRPLVKLDVIKDRVLYRENDQGRIENVYTLKVMNKAQRDQVFVIEADGLDGLVYEGKREVKAMAGEVLSVPVELSIDPERLPSSTNEILFRVQSADDPSIHNDAKSRFIGPSVR				NA	NA	NA	NA	NA
BMS010_03257	504			hypothetical protein	ATGCAGCACGACACTGAAATCAGCCGTTGGTACCAGCAGCCCTGGGCCTGGTTCATCATCGCCATCCTGGCCTCCTCCGTGGTCCTCGGGGTGTCGCTGGTGGTCATCGCCGTCCGCGACGGCGACAGCCTAGTGGTGGATAACTATTACGACGTCGGCAAGGGCATCAACCAGTCGCTGGAGCGCGAGGCCCTGGCCAAGCGCCTGAAGATGAGCGCCGTCCTCACCCTGAGCGAAGACACCGGCATCGCCGAGATCAACCTGAGCGGCATCAGCCGTCCGCAGCATCTGGTGCTGAACCTGATCTCGCCGACCCAACCGGAGCGCGATCGCCGGGTCATCCTCCAGCCCCAGGGCGAAGGGATCTACCAGGGCCAGTTGCAGGATGCCGTCCAGGGCCGCCGCTTCGTCGAGCTGCTCGGCACAGAGGGTGGCCAGGACTGGCGCCTGTTCGAGGAGGAAACCCTCGAATCCGGCCAGGCGATTCCGCTCGGCGAACAGTGA	MQHDTEISRWYQQPWAWFIIAILASSVVLGVSLVVIAVRDGDSLVVDNYYDVGKGINQSLEREALAKRLKMSAVLTLSEDTGIAEINLSGISRPQHLVLNLISPTQPERDRRVILQPQGEGIYQGQLQDAVQGRRFVELLGTEGGQDWRLFEEETLESGQAIPLGEQ				NA	NA	NA	NA	NA
BMS010_03258	2430	copA_1		putative copper-importing P-type ATPase A	ATGCCCGACCTGACGACCGTCCCCGACGCCATGGCCAGCCCAATCCCCTGCTATCACTGCGGCCTGCCGGTCCCTGCCGGTAGCCGCTTCCAGGCCCGCGTTCTGGGCGAGACGCGGGAGATGTGCTGCCCTGGCTGCCAAGCGGTGGCCGAAGCCATCGTCGCCGGAGGGCTGGACAGCTACTACAGGCACCGCAGCGAAACCTCCGCCAACCCAGACAGCCTGCCCCAGGCATTGCCCGACGAACTGGCGCTGTACGACCGCGATACGGTCCAGGAACCCTTCGTCGAACACCTGGGCGAGCTGGCCAGCACCTGCCTGCTGATCGAAGGCATCAGTTGCGCGGCCTGCGGCTGGTTGATCGAAAAGCACCTGCGCGGCCTCGATGGCGTCGCCGAAGCCAGCCTCAACCTGTCCAACCACCGACTGCAGGTACGCTGGTCGGACAGTCGCCTGCCGCTCAGCCAGTTGCTCAAGGCGTTGCGCCGGATCGGCTACGCCGCCCACCCCTACCAGCCGGACCGTGCCGCCGAGCACCTGCAGCGCGAGAACCGCCGGGCGCTCCGTCAGCTCGGCGTCGCCGGCCTGCTCTGGGTGCAGGTGATGATGGCGGCCATGGCCACTTGGCCGGAATTCAACCTGGACCTGTCGCCGGAGCTGGACAAAATCCTGCGCTGGACCAGCCTGTTCCTCACCACCCCGATCGTCTTCTACTGCTGCACCGACTTCTTCAAGGGCGCCCTGCGCGACCTGCGCACCCGCCACCTGACCATGGACGTCTCGGTCTCCCTGGCCATCGGTGGCGCCTACGGAGCGGGCATCTGGTCGACGGTGACCGGCGTCGGCGAACTGTATTTCGACGCGGTGGGCATGTTCGCTCTGTTCCTGCTGGCCGGCCGCTATCTCGAACGCCGCGCTCGCGAGCGCACCCTGGCGGCCACGGCACAACTGGTCAACCTGCTGCCTGCCTCCTGCCTGCGCCTGGATGCCGGCGGGCAGAGCAAGCGTGTCCTGCTCAGCGAGATCAAGATCGGCGACCGCGTGCTGGTCCAGCCCGGCGCCCTCCTCCCGGCCGACGGTGTGATCCTCAGCGGCCAGTCGAGCGTCGACGAATCGCTGCTCACCGGCGAATACCTGCCACTGCCGCGCGCGACCGGCGACCGGGTCACCGCCGGCACGCTCAACGTCGAGGGACCACTGACTGTCGAGGTCCAGGCCTTGGGCGACGACACCCGGCTGTCAGCCATCGTCCGCCTGCTGGAGCGCGCACAGGCGGACAAACCGCGCCTGGCCGAGCTGGCCGATCGCGTGGCCCAGTGGTTCCTGCTCGTCGTGCTGGGCGTCGCCGCGGTGGTTGGCCTGATCTGGTGGCAGCTCGACCCGCAGCGCGCCTTCTGGATCGTCCTCGCCCTGTTGGTCGCCACCTGCCCCTGCGCCCTCTCGCTGGCCACGCCGACCGCCCTGACCACCGCCACCGGCAGCCTGCACAAGCTCGGCCTGCTGCTGACGCGCGGCCATGTGCTGGAAGGGTTGAACCACATCGACACGGTGATCTTCGACAAAACCGGCACCCTGACCGAAGGTCGCCTGTCGCTCAGCGCCGTGCATCCGCTGGGAGCACTGGACAGCGATGCCTGCCTGGCCCTTGCCGCGGCCCTGGAAAACCGCTCCGAACACCCCATCGCCCGCGCCTTCGGCCGCGCCCCGCTGGCGGCCGAGCGGGTGGACAACGTACCGGGCCTGGGCCTGGATGGCCTCGTCGGCGGGCACCACTTGCGCATCGGCCAGCCCGACTTCGTTGCCGAACTCAGCGGCCAGCCGGCACCGACGATTCCCGGCGAGCACGGCCAGTGGCTGCTGCTCGGCGATGCGCAGGGCGCGCTGGCCTGGCTGGTGCTGGACGACGCCCTGCGCGAAGACGCTCCAGCGCTGCTCGATGCCTGCCGCGCGCGTGGCTGGAAAACCGTGCTGCTGTCCGGCGACAGCTCGCCGATGGTCGCCGAAGTGGCCGGACGACTGGGCATCGACGATGCCCGCGGCGGCCTGACGCCGGACGCCAAGCTGGCCGTACTCAAGCAATTGCACGAAGACGGGCATCGCGTCCTGATGCTCGGCGATGGGGTCAATGACGTACCAGTCCTGGCCGGTGCCGACATCAGCGTGGCCATGGGCTCGGCCACCGACCTGGCGAAGACCAGCGCCGACGCGGTGCTGCTCTCCAACCGCCTGGACAGCCTGGTACAGGCCTTCGCCATGGCCCGCCGCACCCGCCGGATCATCGTCGAGAACCTGCTCTGGGCCAGCCTGTACAATGGCCTGGTCCTGCCCTTCGCCGCCATCGGCTGGGTCACGCCGATCTGGGCGGCCCTGGGCATGTCCGTCAGCTCGCTGCTGGTGGTGCTCAACGCCCTGCGCCTCGCACGCCAGTAA	MPDLTTVPDAMASPIPCYHCGLPVPAGSRFQARVLGETREMCCPGCQAVAEAIVAGGLDSYYRHRSETSANPDSLPQALPDELALYDRDTVQEPFVEHLGELASTCLLIEGISCAACGWLIEKHLRGLDGVAEASLNLSNHRLQVRWSDSRLPLSQLLKALRRIGYAAHPYQPDRAAEHLQRENRRALRQLGVAGLLWVQVMMAAMATWPEFNLDLSPELDKILRWTSLFLTTPIVFYCCTDFFKGALRDLRTRHLTMDVSVSLAIGGAYGAGIWSTVTGVGELYFDAVGMFALFLLAGRYLERRARERTLAATAQLVNLLPASCLRLDAGGQSKRVLLSEIKIGDRVLVQPGALLPADGVILSGQSSVDESLLTGEYLPLPRATGDRVTAGTLNVEGPLTVEVQALGDDTRLSAIVRLLERAQADKPRLAELADRVAQWFLLVVLGVAAVVGLIWWQLDPQRAFWIVLALLVATCPCALSLATPTALTTATGSLHKLGLLLTRGHVLEGLNHIDTVIFDKTGTLTEGRLSLSAVHPLGALDSDACLALAAALENRSEHPIARAFGRAPLAAERVDNVPGLGLDGLVGGHHLRIGQPDFVAELSGQPAPTIPGEHGQWLLLGDAQGALAWLVLDDALREDAPALLDACRARGWKTVLLSGDSSPMVAEVAGRLGIDDARGGLTPDAKLAVLKQLHEDGHRVLMLGDGVNDVPVLAGADISVAMGSATDLAKTSADAVLLSNRLDSLVQAFAMARRTRRIIVENLLWASLYNGLVLPFAAIGWVTPIWAALGMSVSSLLVVLNALRLARQ				NA	NA	NA	NA	NA
BMS010_03259	222			hypothetical protein	ATGACCGCTCTCTACGTAATGATTCCCATCGCCGTGATCGTGGTCGCCCTGGCCATCTGGCTGTTCTTCTGGGCCGTGGACAGCGGCCAGTACGACGATCTCGACAGCCCGGCACACAGCATCCTGTTCGACGACGAGGACCCCAAGCACAAGGGCGGCGTCGAAGAAGCCCAGGGCCAGGCGGAAAACGACCGCCACGACGAGGAAGAACCCCGTGGCTGA	MTALYVMIPIAVIVVALAIWLFFWAVDSGQYDDLDSPAHSILFDDEDPKHKGGVEEAQGQAENDRHDEEEPRG				NA	NA	NA	NA	NA
BMS010_03260	726			hypothetical protein	GTGGCTGAACTCGCTCCGCTGCTGGTTTCCGCGCTGATCCTCGGCCTGCTCGGCGGCGGTCATTGCCTCGGCATGTGCGGCGGCCTGATGGGTGCCCTGACCCTGGCCATACCGCCGGAGCAACGCGCCCAGCGCTTCCGCCTCCTGCTCGCCTACAACCTCGGGCGCATCCTCAGCTATACCGTCGCCGGCCTGCTCATCGGCCTGGCCGGCTGGGCCGTCGCCAGCAGCCCGGCGGCCATGGCGCTACGGGTGGTCGCCGCCCTGTTGCTGATCGCCATGGGCCTCTACCTGGCCGGCTGGTGGAGCGGACTGACCCGCGTCGAAGCCCTGGGGCGCGGCCTCTGGCGGCATATCCAGCCACTGACCCGACGCTTCATGCCGGTCACCAGCCTGCCACGCGCATGGGTGCTCGGCGCGCTCTGGGGCTGGCTGCCGTGCGGGCTGGTCTACAGCACCCTGCTCTGGGCCGCCAGCCAGGGCGATGCGTTGGACAGCGCCCTGCTGATGTTCGCCTTCGGCCTCGGGACCTGGCCGGTGCTGGTCGCCACCGGGCTGGCCGCCGAACGGCTGACCGCCCTGCTGCGCAAGCGTGGGGTGCGGATCGCCGGCGGGCTGCTGGTCATCCTCTTCGGCCTCTGGACGCTACCCGGTCCGCACCAGGCCTGGATCATGGGACATGACATGGATCATGTTTCGCCGCCTGCGAGCCAGCACGCGCATTGA	MAELAPLLVSALILGLLGGGHCLGMCGGLMGALTLAIPPEQRAQRFRLLLAYNLGRILSYTVAGLLIGLAGWAVASSPAAMALRVVAALLLIAMGLYLAGWWSGLTRVEALGRGLWRHIQPLTRRFMPVTSLPRAWVLGALWGWLPCGLVYSTLLWAASQGDALDSALLMFAFGLGTWPVLVATGLAAERLTALLRKRGVRIAGGLLVILFGLWTLPGPHQAWIMGHDMDHVSPPASQHAH				NA	NA	NA	NA	NA
BMS010_03261	1512	hemN_1	COG0635	Oxygen-independent coproporphyrinogen III oxidase	ATGACATGGATCATGTTTCGCCGCCTGCGAGCCAGCACGCGCATTGACCCGGTTGATACAGGTCAAGATGCCCCGGCCGGCGGGACCATAGACTCCTCGCTACTGATTGTTGAACCGGGGATTGCCCGCATGCCGACTTCCATCCGCTGGGATACCGACCTTATCCGCCGTTACGATATGGCCGGCCCACGCTACACCTCCTATCCGACCGCCGTGCAATTCCATGACGGCGTCGGCTCCTTCGACCTGCTGCATGCACTGCGCGAAAGCCGCAAGGCACTGCGCTCCCTGTCGCTGTACGTACACGTGCCGTTCTGCGCGAACATCTGCTACTACTGCGCCTGCAACAAGGTGATCACCAAGGACCGCGGCCGCGCCCTGCCCTATCTGGAGCGGCTGGAAAAGGAAATCGAGCTGGTCGCCTGCCACCTCGACCAGAAGCAGGTCGTCGAGCAGTTGCACTTCGGCGGGGGTACGCCGACCTTTCTCAGCCATGACGAACTGCGTCGCCTGATGAAAAGCCTGCGCACGCACTTCCACCTGCTCGACGGCAACCTCGGCGACTACAGCATCGAGATCGACCCGCGCGAAGCCGACTGGTCGACCATGGGCCTGCTTCGCGAACTGGGCTTCAATCGCGTCAGCCTCGGCGTGCAGGACCTCGATCCGGATGTCCAGCGTGCCGTCAATCGCCTGCAGAGCCTGGAGGAAACCCGCGCCATCGTCGAAGCCGCACGGACCCTGCAATACCGCTCGGTGAACATCGACCTGATCTACGGCCTGCCCAAGCAGACCCCGGAGAGCTTCGCCCGCACCGTGCGCGAAATCATCGCCCTGCAGCCGGACCGACTGTCGATATTCAACTACGCGCACCTGCCGGAGCGCTTCCTGCCCCAGCGGCGGATCAACGCCGCGGACCTACCGGCACCGGGCGACAAGCTGGCCATGCTGCACGACAGCATCGAGCAACTGACCGCCGCGGGCTATCGCTACATCGGCATGGACCACTTCGCCCTGCCCGACGACGAACTGGCCATGGCCCAGGAGGACGGCAGCCTGCAACGCAACTTCCAGGGCTATACCACCCACGGCCACTGCGACCTGATCGGCCTCGGCGTATCCGCCATCAGCCAGATCGGCGACCTCTACAGCCAGAACGACAGCGACATCGCCCGCTACCAGAACACCCTGGACCAGGACCAACTGGCGACCTGCCGGGGTCTCGTCTGCAACGACGACGACCGCCTGCGCCGCGCCGTCATCCAGCGCCTGATCTGCGACTTCCAACTGGAGTTCGCCAGCATCGAGAAGACCTTCGGCATCGTCTTCCGCGATTACTTCGCCGATGTCTGGCCGAACCTGGAACAGATGGCCAGCGACAAGCTGATCCAACTCAGCGACACGCGCATCGACGTGCTGCCAGCCGGCCGCCTGCTGGTCCGCTCGGTGTGCATGCTGTTCGATCGCTACCTGCCGCAGCAGAGCACCAAGCGCTTCTCGCGGGTGATCTGA	MTWIMFRRLRASTRIDPVDTGQDAPAGGTIDSSLLIVEPGIARMPTSIRWDTDLIRRYDMAGPRYTSYPTAVQFHDGVGSFDLLHALRESRKALRSLSLYVHVPFCANICYYCACNKVITKDRGRALPYLERLEKEIELVACHLDQKQVVEQLHFGGGTPTFLSHDELRRLMKSLRTHFHLLDGNLGDYSIEIDPREADWSTMGLLRELGFNRVSLGVQDLDPDVQRAVNRLQSLEETRAIVEAARTLQYRSVNIDLIYGLPKQTPESFARTVREIIALQPDRLSIFNYAHLPERFLPQRRINAADLPAPGDKLAMLHDSIEQLTAAGYRYIGMDHFALPDDELAMAQEDGSLQRNFQGYTTHGHCDLIGLGVSAISQIGDLYSQNDSDIARYQNTLDQDQLATCRGLVCNDDDRLRRAVIQRLICDFQLEFASIEKTFGIVFRDYFADVWPNLEQMASDKLIQLSDTRIDVLPAGRLLVRSVCMLFDRYLPQQSTKRFSRVI	PGPT0003200_1051	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003200-hemN|hemZ-K02495	NA	NA
BMS010_03262	735	anr		Transcriptional activator protein Anr	ATGCCCGAGAACATCAAATTGCGCGGGATGCATCAAGCCAATTGCCATGACTGCAGCCTCGCAGCGCTCTGCCTTCCCCTGTCGCTGAACATGGAAGACATCGAGTCCCTGGATGAGATCGTCAAGCGCGGCCGGCCGTTGAAGAAGGGGGAGTTCCTGTTCCGCCAGGGCGATAACTTCGGTTCCATCTTCGCCGTGCGTTCCGGCGCGCTGAAGACCTTCAGCGTGACCGACAGCGGCGAGGAGCAGATCACCGGCTTCCACCTGCCCAGCGAGCTGGTTGGCCTGTCCGGCATGGACAGCGACCTCTGCCCGGTGTCGGCGCAGGCACTGGAAACCACTTCGGTCTGCGAGATTCCGTTCGAACGCCTCGATGAACTGTCGGTCAAGCTGCCGCAGCTGCGCCGCCAGTTGATGCGCGTGATGAGCCGGGAAATCCGCGACGACCAGCAGATGATGCTGCTGCTCTCGAAGAAGACCGCCGACGAGCGCATCGCCACCTTCCTCGTCAACCTTTCCGCCCGCTTCCGCGCCCGCGGCTTCTCGGCCAACCAGTTCCGCCTGGCCATGTCGCGCAACGAGATCGGCAACTACCTGGGCCTGGCGGTGGAAACCGTGTCGCGAGTCTTCACCCGCTTCCAGCAGAACGGTCTGATCGCCGCGGAAGGCAAGGAAGTGCACATCCTCAACTCCATCGAGCTGTGCTCCCTGGCGGGCGGCAACCTCGAAGCCTGA	MPENIKLRGMHQANCHDCSLAALCLPLSLNMEDIESLDEIVKRGRPLKKGEFLFRQGDNFGSIFAVRSGALKTFSVTDSGEEQITGFHLPSELVGLSGMDSDLCPVSAQALETTSVCEIPFERLDELSVKLPQLRRQLMRVMSREIRDDQQMMLLLSKKTADERIATFLVNLSARFRARGFSANQFRLAMSRNEIGNYLGLAVETVSRVFTRFQQNGLIAAEGKEVHILNSIELCSLAGGNLEA	PGPT0000515_1446	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0000515-fnr-K01420	NA	NA
BMS010_03263	549	apt_2		Adenine phosphoribosyltransferase	ATGATCTTCGATGAATTCACCATCAAGTCCCTGATCCGCCCGGTTCCGGACTTCCCCAAGCCCGGCGTGGTGTTCCGCGACATCACTCCGCTGTTCCAGTCGCCCCGCGCCCTGCGCATGGTCATCGACAGCTTCATCCAGCGCTACGTGGAAGAAGACTTCAGCCATATCGGTGCCCTCGATGCACGCGGCTTCCTGCTCGGCCCCATCCTCGCCTACGAGTTGAACAAACCGCTGATCCTGTTCCGCAAGCAGGGCAAGCTGCCCTCCGACCTGCTGGTGGAGACCTACCAGACCGAGTACGGCGACTCCGTCATCGAAGTCCAGGCCGACAGCCTCTGCGAAGGCGACTCCGTGCTGCTGGTGGATGACCTGATCGCCACCGGCGGCACCCTGATCGCCGCGGCCAACTTGGTCAAGCGCATGCGCGCCAGCGTCTACGAAGCCGCCGCCATCATCGACCTGCCGGAACTCGGCGGCTCGCGCCGGCTGCAAGACATCGGCATCGCCACCTTCACCCTCACCGCCTTCGCCCTCGACGACCGCTGA	MIFDEFTIKSLIRPVPDFPKPGVVFRDITPLFQSPRALRMVIDSFIQRYVEEDFSHIGALDARGFLLGPILAYELNKPLILFRKQGKLPSDLLVETYQTEYGDSVIEVQADSLCEGDSVLLVDDLIATGGTLIAAANLVKRMRASVYEAAAIIDLPELGGSRRLQDIGIATFTLTAFALDDR	PGPT0021455_1968	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021455-apt-K00759	NA	NA
BMS010_03264	837			hypothetical protein	ATGACAGCCAGCAGCACCGCCGCCCAGCCGCGCGCCAACTTTCCCGTCCGCCGCATGGACTTCAGCTTTACCAGCACGCCCAAGTACTGGTGGAGTGGCGACCCCTTCATGAGCCATTTCATGAACAACCTGTCGTCGCTGTTCCCCTACGGCGAGAAATTCTTCGTCGATAGCGTGCGCGCCGTCCGCCAGCAGGTGCAGGACCCGCAACTGCAGAAGGACATCAGCGCCTTCATCGGCCAGGAGGCGATGCACTCCAAGGAACACGCCACCTACAACGAATACGCCGCCGCCCATGGCATCGACCTGGAGCGCCTGGAATTGCGCATCAAGGTCCTGCTGGAGTGGATCACCCGGCTGAGCACCAAGAAGCACCGCCTGGCCGCCACCTGCGCCCTCGAGCATTTCACCGCGACCATGGCCGAGCAGTTGCTGCGGCGCGAGGACATCACCACGCAGATGGACGACCCGAAGATGTACACGCTGTGGATGTGGCACGCCATCGAAGAGAACGAGCACAAGGCCGTGTGCTACGACGTCTACCAGGCGGTCGGCGGCGGCTATTTCACCCGCGTCATCGTGATGATGCTGACCACGGTGATGTTCCTCGGCGTGATCGGCTGGTTCCAGCTCCACCTGCTGCGCAAGGATGGCCAGTTGTTCAACTGGCGTTCGTGGAAACATGGCCTGAAGACCCTGTTGAGCCCCCGCGACGGCTTCTTCACCCGCCTGATCGGCCCCTACCTGGACTACTACCGCCCGGGTTTCCATCCCAAGGATCACGACACCCAGACCCTGGAACGGCGCTGGAAGGATCGCCTCGCCTTCGAAGGCTGA	MTASSTAAQPRANFPVRRMDFSFTSTPKYWWSGDPFMSHFMNNLSSLFPYGEKFFVDSVRAVRQQVQDPQLQKDISAFIGQEAMHSKEHATYNEYAAAHGIDLERLELRIKVLLEWITRLSTKKHRLAATCALEHFTATMAEQLLRREDITTQMDDPKMYTLWMWHAIEENEHKAVCYDVYQAVGGGYFTRVIVMMLTTVMFLGVIGWFQLHLLRKDGQLFNWRSWKHGLKTLLSPRDGFFTRLIGPYLDYYRPGFHPKDHDTQTLERRWKDRLAFEG				NA	NA	NA	NA	NA
BMS010_03265	213			hypothetical protein	ATGACCGACAAGCCCGCTTCGCCCTGGCGCATTCCCCTGGTCCGCGAACTCGCCGTGATCCTGGCGATCAAGCTGGCCCTGCTGCTGGCGATCAAAGCCCTCTGGTTCGATGCCCCCAGCGTACCTGTCGATGGCAGCCAGCGCGTCGGCACGCACCTGTTCGGCGCTCCGCAAGCCCCATCCCCGCCCCGTACCGAGGAGATGCCGAGATGA	MTDKPASPWRIPLVRELAVILAIKLALLLAIKALWFDAPSVPVDGSQRVGTHLFGAPQAPSPPRTEEMPR				NA	NA	NA	NA	NA
BMS010_03266	1590	cydA_2	COG1271	Cytochrome bd ubiquinol oxidase subunit 1	ATGATCTCGGAAGAAGTCGTCGACCTGTCCCGCCTGCAGTTCGCCATGACGGCGATGTACCACTTCCTGTTCGTGCCGCTCACCTTGGGCCTGTCCTTCATCCTGGCGATCATGGAGTCGGTCTACGTGATGACCGGCAAGCAGGTCTACCAGGACATGGTGAAGTTCTGGGGCAAGCTGTTCGGCATCAACTTCGCCCTGGGCGTCACCACCGGGCTGACCATGGAATTCCAGTTCGGCACCAACTGGGCCTATTACAGCCATTATGTCGGCGACATCTTCGGCGCACCGCTGGCCATCGAAGGGCTTATGGCGTTCTTCCTCGAATCCACCTTCATCGGCCTGTTCTTCTTCGGCTGGGACCGCCTGAGCAAGGTGCAGCACCTGGCGGTAACCTGGTTGGTGGCGATCGGCTCGAACATGTCGGCGCTGTGGATTCTCATCGCCAACGGCTGGATGCAGAACCCGGTGGGTGCCGAGTTCAACTTCGAGACCATGCGCATGGAGCTGGTGGACTTCGGTGCCCTGCTGTTCAACCCGGTGGCCCAGGTGAAGTTCGTCCACACCGTGGCGGCGGGCTATGTCACTGGCGCCATTTTCGTCCTGGCCATCTCCAGTTGGTATCTGCTGAAGAAGCGCGACCTCGGCTTCGCCCGTCGCTCCTTCGCCATTGCCTCGGCCTTCGGCCTGGCTTCGATCCTCTCGGTGATCGTCCTCGGCGACGAATCCGGCTACGAGATCGGCGACGTACAGAAGACCAAACTGGCGGCCATCGAGGCCGAGTGGGAAACCCACCCGGCACCGGCCGGCTTCACTCTGTTCGGCCTGCCCAACCAGGAGGAGCAGCGCACCGATTACGCGGTGAAGGTTCCCTATGTCCTGGGCTTGATCGCCACCCGTTCGCTGGACAAAGAAGTCAAGGGCATCAAGGACTTGGTGGTCGAGCACGAAGCGCGTATTCGCAATGGCATGCTCGCCTACGAGCGCCTGGAAAAGCTCCGCGCCGGCGACAAGAGCCCCGAAGCCATCGCCGCCTTCAAGGCCGTGCAGAACGACCTGGGCTACGGCCTGCTGCTGAAGAAGTACACCGCCAACGTCACCGACGCCACGGAAGAACAGATCAAGCAGGCCGCCCTGGACACCATTCCCAGCGTGTTCAGCCTGTTCTGGAGCTTCCGCGCGATGGTCGCCTCCGGCTTCCTGATGCTCGCCCTCTTCGCCTGCGCCTTCTGGGCCTCGGCGAAGAAGAACGAAGAGCGCAAGCCCTGGCTGCTGCGGTGGGCGCTGTGGAGCCTGCCGCTGCCGTGGATCGCCGCGCAGACCGGCTGGTTCGTCGCCGAACACGGCCGCCAGCCCTGGTCCATCGGCGAGGTCCTGCCGACCCACCTCTCCGCTTCCAGTGTGTCCAGCAGCGATGTCTGGGGCTCGCTGGTGGCGCTGATCGCCTTCTACAGCCTGCTGCTGGTGATCGAGATGTACCTGATGATCCGGTTCGCCCGCCTGGGACCGTCGAGCCTGCATACCGGCCGTTATCACTTCGAGCGGTCGGGTGCGGCCAGCGGAAACCATCTGCCCGCAGGTGCGGTGTAG	MISEEVVDLSRLQFAMTAMYHFLFVPLTLGLSFILAIMESVYVMTGKQVYQDMVKFWGKLFGINFALGVTTGLTMEFQFGTNWAYYSHYVGDIFGAPLAIEGLMAFFLESTFIGLFFFGWDRLSKVQHLAVTWLVAIGSNMSALWILIANGWMQNPVGAEFNFETMRMELVDFGALLFNPVAQVKFVHTVAAGYVTGAIFVLAISSWYLLKKRDLGFARRSFAIASAFGLASILSVIVLGDESGYEIGDVQKTKLAAIEAEWETHPAPAGFTLFGLPNQEEQRTDYAVKVPYVLGLIATRSLDKEVKGIKDLVVEHEARIRNGMLAYERLEKLRAGDKSPEAIAAFKAVQNDLGYGLLLKKYTANVTDATEEQIKQAALDTIPSVFSLFWSFRAMVASGFLMLALFACAFWASAKKNEERKPWLLRWALWSLPLPWIAAQTGWFVAEHGRQPWSIGEVLPTHLSASSVSSSDVWGSLVALIAFYSLLLVIEMYLMIRFARLGPSSLHTGRYHFERSGAASGNHLPAGAV	PGPT0026700_1147	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026700-cydA-K00425	NA	NA
BMS010_03267	1140	cydB_2	COG1294	Cytochrome bd-I ubiquinol oxidase subunit 2	ATGTTCGATTACGAAACGCTGAAACTGGTCTGGTGGGTGCTGATCGGCGTCCTGCTGATCGGCTTCGCCCTCACCGATGGCTTCGACCTCGGCGCCGCGGCGCTGATGCCCTTCGTCGGGCGTACCGACAACGAGCGGCGAGTGGTCATCAACACCATCGCGCCGCACTGGGACGGCAACCAGGTCTGGCTGATCACCGCCGGCGGCGCGCTCTTCGCCGCCTGGCCGATGGTCTACGCGGCGGCCTTCTCCGGCTTCTACTGGGCCATGCTGGTGGTGCTGTTCGCCCTGTTCGTGCGCCCGGTCGGCTTCGACTACCGCAGCAAGCTGAGCGACCCGCGCTGGCGCCAGGCCTGGGACTGGGGCCTGTTCGTCGGCGGCCTGGTGCCGGCGCTGGTGCTCGGCGTGGCCTTCGGCAACCTGCTGCTGGGCGTGCCTTTCCAGCTCGACGACACCCTGCGCAGCAGCTACCACGGCAGCTTCTGGCAACTGCTCAACCCCTTCGGCCTGCTCGCCGGGACGGTCAGCCTGAGCATGCTGCTGATGCATGGCGGCACCTGGCTGATGATGCGCACCGAAGGCCCGGTGGCACGCCGGTCGCAACGCGCGGCGCAAGTACTGTCGCTGGTCTACCTCGCCGCCTTCATCGTCGCCGGGCTCTGGCTGTGGTCGGGTATCCAGGGCTTCGCCATCACCTCGGCATTCGACCCAGGCACCACGCTCAACCCGCTGGCGAAGAGCGTGACCCAGACCAACGCCGGCTGGATGGCCAACTACGCGCAGTATCCGCTGACCAAGCTGGCGCCGCTCGCCGGCATCTTCGGTGCCGTACTGGCGTTCGCCGCGGCCAGCGCGGGACGTGGCGGCTTCGCCTTCCTCGGCTCCAGCCTGGCGATCGTCGGCACCCTATGCACCGCCGGCTTCGCGATGTTCCCCTTCGTCATGCCGTCCAGCCTCGATCCGGCTTCCAGCCTGACGCTATGGGATGCGGCCTCCAGCCAGAAGACCCTCGGCATCATGCTGGTGGCGGCCTGCATCTTCGTGCCGCTGATCCTCTGCTACACCCTGTGGGGCTACGTGAAGATGTGGGGCAAGGTCACCACCGGCCATATCGAAAGCAACAGCCATGGCCTCTACTGA	MFDYETLKLVWWVLIGVLLIGFALTDGFDLGAAALMPFVGRTDNERRVVINTIAPHWDGNQVWLITAGGALFAAWPMVYAAAFSGFYWAMLVVLFALFVRPVGFDYRSKLSDPRWRQAWDWGLFVGGLVPALVLGVAFGNLLLGVPFQLDDTLRSSYHGSFWQLLNPFGLLAGTVSLSMLLMHGGTWLMMRTEGPVARRSQRAAQVLSLVYLAAFIVAGLWLWSGIQGFAITSAFDPGTTLNPLAKSVTQTNAGWMANYAQYPLTKLAPLAGIFGAVLAFAAASAGRGGFAFLGSSLAIVGTLCTAGFAMFPFVMPSSLDPASSLTLWDAASSQKTLGIMLVAACIFVPLILCYTLWGYVKMWGKVTTGHIESNSHGLY	PGPT0026705_447	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026705-cydB-K00426	NA	NA
BMS010_03268	114			hypothetical protein	ATGTGGTACTTCACCTGGATTCTCGGCGTCCTGCTCGCCTGCAGCTTCGGCATCATCAATGCCCTGTGGCTGGAAACCACCCAGAACCTCGACGAGGACCCGACGGGTGAATGA	MWYFTWILGVLLACSFGIINALWLETTQNLDEDPTGE				NA	NA	NA	NA	NA
BMS010_03269	294			hypothetical protein	GTGAATGACGCCCTGCCCCGGCAGCGGAGCGGCGCCTGGCGAGTCCTGTCGCTGCTCCTGGCCACGCCGCTGGCCTTGCTGCTGTTGATCCACCCCGCCGCCATGCTCGACGCCGAGGGCCGCTACAGCCACAGCCTGCTGATGCTGGTGATGTGGGGCGTGGCCGGCGGCTTCGTGCATGGCGTGGGTTTCACGCCCTACAGCCGGGTCTGGCGTGTCGCCTTCGGGCCGCTGCTGGCCTGGCCGCTGCTCGCCCTCGGCTATCTGATCCTGTATCGCGCCCGCATGGGCTGA	MNDALPRQRSGAWRVLSLLLATPLALLLLIHPAAMLDAEGRYSHSLLMLVMWGVAGGFVHGVGFTPYSRVWRVAFGPLLAWPLLALGYLILYRARMG				NA	NA	NA	NA	NA
BMS010_03270	714			hypothetical protein	ATGGTTGCAGACTCGAAGAGCGACACGCTCATCCACTACGAATTCCGCTTCGCAGACGGCCGGAACTGGCAGCATGAAGTCAGTTTGACGGCCGCTGCCGAGGGGGAACGGACAACCGCATTACCGGATTGGACCGGCTTGTCCTTCCATCAGTGCGGTCACTGCCCGCTCAAGGTCGAAGAGGCGCCGCGTTGCCCCTTCGCGGTGGCGCTGGTGCGGCCGGTGGAGATGCTGTCGAAGCACACCTCTTTCGAGGAGGTGGAGGTCATCGTGCGCTGGCGCGGCCGGGAAATTCGCCAGCACACCACCCTGCAACGGGGGCTGGGTTCCTTGCTCGGCGCCCTGGGCGCCACTTCGGGCTGCCCGCACACCCGCATGATGAAAGCCATGGCCTGGTTCCACCTGCCGTTCAGCACCTCCGACGAGACCCTCTACCGGGCCCTGGGCACCTACCTGCTGGGGCAGTTCCTGCGGATGAAGCGCGGCCAGTCCGGCGACTGGTCGCTGGAGGGGTTGCGGGCGATCTACCGCAACCTGCGCCAGGTCAACCTGGGCATGAGCCGGCGCCTGCGCGCCGCGGCGGAGGAGGATTCCAGCCTGAACGGCTTGATCCTGCTGGACCTGCTGGCCGCCGACACGCTGTATGCGCTGGACCAGTACGAGGGCGAGCTGGACCTGTTCTTCCAGGAATATTTCGACGACGAGGGCGAGTGA	MVADSKSDTLIHYEFRFADGRNWQHEVSLTAAAEGERTTALPDWTGLSFHQCGHCPLKVEEAPRCPFAVALVRPVEMLSKHTSFEEVEVIVRWRGREIRQHTTLQRGLGSLLGALGATSGCPHTRMMKAMAWFHLPFSTSDETLYRALGTYLLGQFLRMKRGQSGDWSLEGLRAIYRNLRQVNLGMSRRLRAAAEEDSSLNGLILLDLLAADTLYALDQYEGELDLFFQEYFDDEGE				NA	NA	NA	NA	NA
BMS010_03271	1290	sasA_8		Adaptive-response sensory-kinase SasA	ATGGACAACCGCCAGCAGCTCTTGGCCTCCGCGCTCGTCGAACACATCAGCGTTGGCACCATCATCCTCGATACGCAGTTGCGTATCCAATACTGGAACGCCTTTCTCGAACGGTGCAGCGGCAAGCGCCTGGAGGACGTTCGCGGTCGCCCCTTCACCCAGGTGTTCCCGGAGGCCGATACGCCGTACCTCCACCAGATCATCGAACAGGCCCGCAACGAAGGCCGGCACGTCTACACCCAATGGCGCGATACCCCCTCGCTGGTCCGCCTAACGTTCGAGCGTGCCCAGCAGAACCCCTTGATGCTGCAGAGCACCCTGCTCTTTCCGTTCCGCATCGCTCCGGACGACGCCTTGCATTTCGGCCTGGTGCTCTACGACACCACCGACCTGGCCAAGTCCAGCAACAAGCTGGAAGCGGCCCTGCAGGCCCTGAGCGTCAAGCAGACCGAACAGGAACAATTGATCAAGAAGCTGGAAAAAGCCAACGACCAGTTGCTGCAATCGGAAAAACTCGCCGCCATCGGCCAACTGGCCGCTGGCGTCGCGCACGAGATCAATAACCCGATCGGCTACGTGTTCTCCAACCTGCAGACCCTCGCCGGCTACGTGCGCGACCTGCTGCGCATCATCGACGCGGTGGAATCCGCCGGCGGCCTGGAGGACCTCCGCCAGCTCAAGCGCAGCTTGGAGTACGACTACATCCGCAGCGACATCGAGGCGCTGATCGGCGAATCCGAAGACGGTATCGACCGGGTCAAGAAGATCATCACCTCGCTCAAGGACTTCTCCCACATCGAGGAAGAGGAATTCCACCCGGCCGACCTGCATCGCGGCTTGAACACTACCCTCAACGTGGTCAACAACGAACTCAAGTACAAGGCCGAGGTGATCAAGGAATACGGCGACCTGCCCGACGTGGAATGCATTCCCTCGCAGATCAACCAAGTGATCATGAACCTGCTGGTCAACGCCGCCCACGCCATCGAGCAGTTCGGCCGCATCACCCTGCGCACCGCCCATGAGGGCGACTGGGTCTGGCTGGAGGTGGAGGACACCGGCAAGGGCATCGAGCCGCGCCTGCTCAATCGCATCTACGAGCCCTTCTTCACCACCAAGCCGGTCGGCAAGGGGACCGGCCTCGGGCTATCGCTGTCCTACAGCATCGTGCAGAAACACCATGGGCGTATCGAGGTCGACAGTGAACTGGGCCGCGGTACGCGCTTCCGCGTCTGGCTGCCGGTGCGGCAACCGACGCCCACGGAGGAGAGTCCAACGCCTCATGAATGA	MDNRQQLLASALVEHISVGTIILDTQLRIQYWNAFLERCSGKRLEDVRGRPFTQVFPEADTPYLHQIIEQARNEGRHVYTQWRDTPSLVRLTFERAQQNPLMLQSTLLFPFRIAPDDALHFGLVLYDTTDLAKSSNKLEAALQALSVKQTEQEQLIKKLEKANDQLLQSEKLAAIGQLAAGVAHEINNPIGYVFSNLQTLAGYVRDLLRIIDAVESAGGLEDLRQLKRSLEYDYIRSDIEALIGESEDGIDRVKKIITSLKDFSHIEEEEFHPADLHRGLNTTLNVVNNELKYKAEVIKEYGDLPDVECIPSQINQVIMNLLVNAAHAIEQFGRITLRTAHEGDWVWLEVEDTGKGIEPRLLNRIYEPFFTTKPVGKGTGLGLSLSYSIVQKHHGRIEVDSELGRGTRFRVWLPVRQPTPTEESPTPHE				NA	NA	NA	NA	NA
BMS010_03272	1356	rssB_1		Regulator of RpoS	ATGAATGAGCCGAGCCCAGCCCCACTCGCCACGCTGTTGCTGGTGGACGACGAGGAAAACATCCTCAGCAGCCTGCGCCGCCTGCTGCGCAACCAAGGCTACGAAATCCTCACCGCCACCGGCGGCGAACAGGCGCTCGCCATGCTGGAAGAGCGCCCGGTCGACCTGGTGATTTCCGACGCGCGCATGCCGGGCATGGACGGCGCCACCCTGCTGGCCGAAGTGCAGCGGCGCTGGCCGGACTGCATGCGCATCCTGCTCACCGGCTACGCCGACATCAGCACCACCATCAAGGCGATCAACCAGGGGCAGATCTACCGCTACATCAGCAAGCCCTGGGACGACGACGAACTGCGCATGGTGATCCGCCAGGCCCTGGCGTTCCACACCTCCGAGCGCGAGCGGCTGCGCCTGGAGAAACTCACCCAGGAGCAGAACCAGCACCTGCAGGAACTCAACGCCACCCTGGAGCAACGGGTCAAGGCGCGCACCGCCGAGCTGCAGCAGACCGCCGACATGCTCGACCTGGCCTACGAGGAGCTGCGGCGCAGCTACGTGACCGCCACCGAAGTGTTCGCCAGCCTGATCAACCAGCGCCTGCCGCGGGAGAAGCAGACCAACACCCAGGTCATCGCCCTGGTCCGCGCCTACGCCGACTACCACAAGCTCGGCGAGGGCCTGGCCCGCGACCTGACCATGGCCGCCGCGCTGTACAACATCGGCAAGCTGACCTGGGACGACCAGTTGCTGAGCAAGCCGTCGGATACCCTCTACAAGCAGGACCGCGAGCGCTACCGGCAATATCCGGCGCAGGGCGAGAACCTGCTGATGACCCTGGAGCCCCTGCAGGATGCGGCGCGCATCATCCGCCATCACCAAGAGCGCTGGGACGGCGGCGGCTTTCCCGACCGCCTGAAGGAAGACGCCATCCCCTTCGGCTCCCGGCTGCTCAAGCTGGCGGTGGACTTCATCGAACTGCAACGCGGCATCATCCTCGAGCGCCGCCCGACCCGCCACGAAGCCCTGCAACTGATCAAGAAGTACGCCGGCCGCCTCTACGACCCGGAACTCTGCGAGCACTTCGTCACGCTCTGTATCGAACTGGCGCCGGACATCACCCTCGACGACCCCAGCATCATCAGCCTGGACACCCGCCGTCTCGAGCCGGGCATGGTGCTCGCGCGCAACCTGCACGCCGAGAACGGCATGCTGCTGCTCAACGAGGGCAAGCAACTGACGCGCATTCTGATCGACAAGCTGATCGCCTTCGAAAGCACCGAAGGCGCGCGCTACACCCTGTTCGTCCGCAAGCCGGAAGACTTCGACGCCACCGCCCCGCAGGAGACCGCCCCATGA	MNEPSPAPLATLLLVDDEENILSSLRRLLRNQGYEILTATGGEQALAMLEERPVDLVISDARMPGMDGATLLAEVQRRWPDCMRILLTGYADISTTIKAINQGQIYRYISKPWDDDELRMVIRQALAFHTSERERLRLEKLTQEQNQHLQELNATLEQRVKARTAELQQTADMLDLAYEELRRSYVTATEVFASLINQRLPREKQTNTQVIALVRAYADYHKLGEGLARDLTMAAALYNIGKLTWDDQLLSKPSDTLYKQDRERYRQYPAQGENLLMTLEPLQDAARIIRHHQERWDGGGFPDRLKEDAIPFGSRLLKLAVDFIELQRGIILERRPTRHEALQLIKKYAGRLYDPELCEHFVTLCIELAPDITLDDPSIISLDTRRLEPGMVLARNLHAENGMLLLNEGKQLTRILIDKLIAFESTEGARYTLFVRKPEDFDATAPQETAP				NA	NA	NA	NA	NA
BMS010_03273	546	hupR1	COG2204	Hydrogenase transcriptional regulatory protein hupR1	ATGATCAAGATCCAACTGGTGGACGACGAGCCCCACGTGCTCAGCGCCCTGCAACGGGTGCTGCGGCCGCACCGCTGGGAGGTCCATGCCTTCGATGATGTGCAGGAAGCCCTGGAAGCCCTGACCCTCCACGACTATGCGGTGATCATCTCCGACTACAAGATGCCGCACCTGGATGGCGTCACCTACCTGCAATTCGCCAAGCAGCGCCAGCCCCACGCCATGCGCATGGTGCTCAGCGCCCACGGCGACCGCCAGTCGATGATGCAGGCGATCAACCAGGCGGAAATCTACCGCTTCCTGTCCAAGCCCTGGGAGGACTACGAGATCGAGACGGCGATCAAGGCCGCCATCGACCTCTACCAGCTGCGCCACGAGAACCAGCGGCTGTTGGAGCAAGTGCGCCGACAGAAAGACACCCTACAGCGCCAGCAGGACGAACTGCTGCGCCTCGAGCGGGAGAATCCGGGGCTGACCCGGGTCCTACGCGATACCGACGGCGCCGTGCTGATCGATGAACTGGACGACCCGAGCGACCATGGCTGA	MIKIQLVDDEPHVLSALQRVLRPHRWEVHAFDDVQEALEALTLHDYAVIISDYKMPHLDGVTYLQFAKQRQPHAMRMVLSAHGDRQSMMQAINQAEIYRFLSKPWEDYEIETAIKAAIDLYQLRHENQRLLEQVRRQKDTLQRQQDELLRLERENPGLTRVLRDTDGAVLIDELDDPSDHG				NA	NA	NA	NA	NA
BMS010_03274	669	mglA_3	COG1100	Mutual gliding-motility protein MglA	ATGGCTGAATACCTCGACAGTGAGCGCAAGCTGAACCTCAAGGTGGTCTATTACGGGCCGGCGCTGAGCGGCAAGACTACCAACCTGATGCAGCTGCATACGCTGCTCAACCCCCAGCGCAAGGGCGAGCTGATGGTGCTCGAGACCCGCGACGACCGCACCCTGTTCTTCGACATGCTGCCGATCGGCCTGCGCAGCCAGGCGGGCCTCGACCTGCGCCTGAAGCTCTATACCGTGCCCGGCCAGGTGCAGCACGACAGCACGCGCAAGGCCGTGCTGTCACGGGCCGACGGGGTGATCTTCGTCGCCGACTCGCAGCTCTCGCAGCAGGACAACAACGCCACCGCCTTCGACAACCTCGCCGACAACCTGCAGAAGCTCGGCATGGACATCGAGAGCCTGCCGCTGGTGGTGCAGTTCAACAAACGCGACCTGCCGGACGCCATCGACGAGGCCACCCTCCAGGCGCGCTGGGCGCAGACGCCCTGGAGCCCGCTGTCCCTGGCCAGCGCCCTCAACGGCGAGGGCGTGTTGGAGAGCTTCCGCCAACTGCTGCGGCGGCTTTATCCGGTACTCGACCGCGAGTATCAACTGGCCGGCCAGCATGGCATCGACGCCGAGGCGTTCGTTCGCCAACTGAGCGCGGCCCACGAGGCGCCCCATGCGTAG	MAEYLDSERKLNLKVVYYGPALSGKTTNLMQLHTLLNPQRKGELMVLETRDDRTLFFDMLPIGLRSQAGLDLRLKLYTVPGQVQHDSTRKAVLSRADGVIFVADSQLSQQDNNATAFDNLADNLQKLGMDIESLPLVVQFNKRDLPDAIDEATLQARWAQTPWSPLSLASALNGEGVLESFRQLLRRLYPVLDREYQLAGQHGIDAEAFVRQLSAAHEAPHA				NA	NA	NA	NA	NA
BMS010_03275	1137	sasA_9		Adaptive-response sensory-kinase SasA	ATGCGTAGTTTCGAAGACGACCCACGCCTGGCCGACCTGCTTTCGGCCGACCAGCAGGCCCGCTTGGGCCAGTTGATCGGCGCCCTCGGCGGCGGCCGCGTCAGCCTCGAGGAACAACGCCAGGCAGGCGCCGAGCCGCTGGAATTCAACCTGGAGACCATCGGCTGGCTGCAGGGCGAGCTGCCCGCCGAACGCCTGGACGCCGCCGCCCGGCTGGTCGAATTCGTCCTGCTGTTCGTCGCCAAGTACCGCCTGGCGGCCAACCTGCACAACGACACCACCGAGGCCAGCTTCGCCGAACTGCAACGCCAGCACGCCGCCCTGCAAGCCTCGGAAGCGCGCTACAAGGCACTCTCCGAGCAGTTGCAGGAGCGCGTCGAGGACCAGGTCAAAGTCATCGAACAGGCCCAGCAGCAGCTCTACGAAACCGCCCGTCTGCGCGCCGTCGGCCAGCTCGCCGCCGGGGTCGCCCACGAGATCAACAACCCCATCGGCTTCATCACCAGCAACCTGCGGGTGGCCGGCGACTACCTCGACGAGCTGGCGGAAAAGGTCCCCGGCGGGCACTCGGCCAGCCTGCTACTCGACGACTTCCGCGCCCTGCTGCGCGAATCGCTCAGCGGCACCCAGCGCATCGCGCGGATCGTCGCCGACCTCAAGACCTTCTCCAACATCGACCAAGCGGACTTCATCCCCTGCGACCTCAATGCCCTGCTCACCACCAGTTGCCATCTGCTGCAAGCGGAAAGCCAGCAGGCGATCGACGTCCGCCTCGACCTCGCCCCGCTGCCCAAACTGGCCGGCTATCCGGCGAAGCTGTCCCAGGCTTTCTTCAACGTGCTGGACAACGCGGCCAAGGCGATCGGTGCCGAAGGCGTCATCCGGGTCAGCAGCCGGCTGGCCGACGACGTGATCGAAGTGATCATCGAGGACAACGGCACGGGCATCCCGCCGGATGTCCAGGAGCGCATCTTCGACCCCTTCTTCACCACCCGCGCGGTCGGCTCCGGCACCGGCCTGGGGCTCAGCGTCGCGCGGGACATCATGCGTGCCCACCGGGGCGAAATCCTGCTCGACAGCCAGGTCGGCGCCGGCACCCGGGTCACCTTGCGCTTCACCTGCCCGAACACGCCCTGA	MRSFEDDPRLADLLSADQQARLGQLIGALGGGRVSLEEQRQAGAEPLEFNLETIGWLQGELPAERLDAAARLVEFVLLFVAKYRLAANLHNDTTEASFAELQRQHAALQASEARYKALSEQLQERVEDQVKVIEQAQQQLYETARLRAVGQLAAGVAHEINNPIGFITSNLRVAGDYLDELAEKVPGGHSASLLLDDFRALLRESLSGTQRIARIVADLKTFSNIDQADFIPCDLNALLTTSCHLLQAESQQAIDVRLDLAPLPKLAGYPAKLSQAFFNVLDNAAKAIGAEGVIRVSSRLADDVIEVIIEDNGTGIPPDVQERIFDPFFTTRAVGSGTGLGLSVARDIMRAHRGEILLDSQVGAGTRVTLRFTCPNTP				NA	NA	NA	NA	NA
BMS010_03276	2241	rssB_2		Regulator of RpoS	ATGGCCAAGCGTTACGCTTCCCTGTTCGTCAGCGACAGCCCCGACGAGAAACCCGTCGAAACCCCGGCGGCGCCCTACAAGCTGCTGCTGGTGGACGACGAGCCCGGCATCCTCGCCGCCCTGCGCCGGGTTTTCCAGCGCGAGAACTACGAGCTGCACTTCGCCCGCAATGCCAGCGAAGCATTGAAAATTCTCGAAGCCAAGCCGGTGGAACTGATCATCAGCGACTTCATGATGCCGGGCATGAACGGTTCCGAGCTGCTCAGCCAGGTGCGCGAACGCTGGCCGGACACCATCCGCATCATGCTCACCGGCCACGCCAACACCGATGCGGTGCTGGGCTCGATCAAGGACGGCGCGGTCTACCGCTTCATCCTCAAGCCGTGGAACGACGACGACCTGCGCCTGACCATCGCCCTGGCCCTGGAACAGTACGAGCTGATGCGGCGCAACCGCGCCCTGGAACAGGAGAACAAGAAGCAGCACCGTGACCTGGAAACCCTGGCCAAGCTCAGCGTCACCAACCGCAGCCAGCTGGCCATCCTGCTGCACAAGAAGGGCCTGCTCAACGCCCAGCAGATCCAGCAGCTGCACAAGGAAATGCAGACCCACAAGACCTCGGTGCTGCGCCAGTTGATGCAGCACGACTGGGTGTCGCCGCAGAAAATCCACCAGTTGCTGCGCGAAGACATGATGTTCGAGGAGATCGACCTGCGCGAATTCCAGGTCGACCCGCCGCTGCTGGCGCTGATTCCCCAGGCCGTGTGCACGCGCCAACTGGTGCTGCCGCTGCGGGTGGTGGGGAAGCGCTTGCGACTGGCCATGGCCGACCCGATGGACATGGGCCTGATCGAAGAACTCGGCTTCATGTCCGGCTACAGCATCCACCCCCTGCTCTGCGAAGTCGGGCAGATGCAGGACAAGCTAAAGGAACTCTTCGGCGAAACCGGGCCGCAACTGGACGAGATCGCCACCGTGGTCGGCAGCAGCGACCCCTATGAAGGCATCGAGATCGTCCTTGATGACGACGAAGCGCCGGAAAGCCTGGAGCAACTGCTCGGCAGCTCGGAAGAGCCGCCGGCGATCCGCCTGGTCAACGCGATCATCCTCGAGGCCCTGCGCCTCGGCGCCAGCGACATCCATATCCATCCGCGCACGAAGAACGTCAGCGTGCGCTACCGCATCGACGGCGTGCTGCAGGACAAGATCCAGATCCCCAGCAACCTGCTGATGTCGGTGGTCTCGCGGATCAAGGTGATGGCCGAGCTGGACATCACCGAACGGCGCCGCCCGCAGGACGGCCGCATCACGGTGAAGACGCCGATGCGCATCGTCGACCTGCGCATCTCCACCCTGCCCACCATCAACGGCGAAAAGATCGTCATGCGCGTGCTGGAGCGCCAGTCGGCGGCGCAATCGCTGGAAGACCTGGGCCTGTCGCCCCATAACCTGCGCCGGCTGCTCTACGTGGTCAGCAAGCCGCAGGGCATCATCCTCGCCACCGGCCCCACCGGCAGCGGCAAGACCACCACCCTCTACGCCCTGCTGCAGCACGAGGCCTCCTCGGAAAAGAACTACGTCACCATCGAGGACCCGGTGGAATTCCATGTCGATCTCGCCGGCCAGGTGCCGGTGCGCGAACGCATCGGCCTGAGCTTCGCCAGCATCCTGCGCGCCATCCTGCGCCAGGATCCGGACGTGATCTTGCTCGGCGAAATCCGCGACGAGGAGACCGCCGACGTCGCCTTCCATGCCGCGCTGACCGGCCACCTGGTGTTCTCCACCCTGCATACCAACTCGGCGGCGGCCACCGTCGCCCGCCTGCTCGACCTGGGCCTGAAACCCTACGTGCTGGCCTCGGCCCTGGAAGCGATCATCGCCCAGCGCCTGGTGCGGCGCATCTGCCGCCACTGCCGGGAAGAAATCCCGCCGCCGGTGGCCTTGCTGGAACGCCTGGGGCCGAACTTCCTCGCACCGGACCTGCGCTTCTACCGCGGCCGCGGCTGTAACCAGTGCCACCAGGGCTACAAGGGGCGCATCGGCATCCACGAGGTGCTGACCATGAACGACACGCTGCGCGACGCCATCACCCGTGGCGCCAGCGCCACCCAGTTGCAGGCCATCGCCCGCGAGCAAGGCATGACCACCCTCCTCGACGACGCCCACGATAAGCTCCAGCAGGGCCTGATCACCGCCGAGGAAGTCCTGCGCCTGCTCGGCCCCCAGGACCTCCAGGGCTGA	MAKRYASLFVSDSPDEKPVETPAAPYKLLLVDDEPGILAALRRVFQRENYELHFARNASEALKILEAKPVELIISDFMMPGMNGSELLSQVRERWPDTIRIMLTGHANTDAVLGSIKDGAVYRFILKPWNDDDLRLTIALALEQYELMRRNRALEQENKKQHRDLETLAKLSVTNRSQLAILLHKKGLLNAQQIQQLHKEMQTHKTSVLRQLMQHDWVSPQKIHQLLREDMMFEEIDLREFQVDPPLLALIPQAVCTRQLVLPLRVVGKRLRLAMADPMDMGLIEELGFMSGYSIHPLLCEVGQMQDKLKELFGETGPQLDEIATVVGSSDPYEGIEIVLDDDEAPESLEQLLGSSEEPPAIRLVNAIILEALRLGASDIHIHPRTKNVSVRYRIDGVLQDKIQIPSNLLMSVVSRIKVMAELDITERRRPQDGRITVKTPMRIVDLRISTLPTINGEKIVMRVLERQSAAQSLEDLGLSPHNLRRLLYVVSKPQGIILATGPTGSGKTTTLYALLQHEASSEKNYVTIEDPVEFHVDLAGQVPVRERIGLSFASILRAILRQDPDVILLGEIRDEETADVAFHAALTGHLVFSTLHTNSAAATVARLLDLGLKPYVLASALEAIIAQRLVRRICRHCREEIPPPVALLERLGPNFLAPDLRFYRGRGCNQCHQGYKGRIGIHEVLTMNDTLRDAITRGASATQLQAIAREQGMTTLLDDAHDKLQQGLITAEEVLRLLGPQDLQG	PGPT0015915_872	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015915-pilB-K02652	NA	NA
BMS010_03277	4668	sasA_10		Adaptive-response sensory-kinase SasA	ATGAAAGCACGCCACCTGATCATCCAGGCCTACCTGCACTGCCTCGCCTTCGCCCTGATCGCCATGGGCGTGGTCAGCCTGCTCGGCTACCTGCAGATCGAGCATCCGACCCGCCACTCCACCGTCCTGCTACCGGACAGCGCCCTGGTGTCGCTGCTGCTGGGGCTGGTCTTGCTCACCACTGCACGCGCCCTGCGCCCGCTGAGCCTGATCCTGGCCACGCCGCTGCTGGCGCTGGCGCTCTATTCCCTGGTGCATAACTATGTCGCCGGCAGCGCCGACAACGGGACCTCACTGGTCACCGGCTTCCTGCGCGTGCGCAGCGCGCTGGCGGTGTCCACGCTGGCCCTCACCCTGGCCATGCTGTGCAGCGGCGGCGGCACGTTCGGCAAGCTGTTCTGCCGCTGCATCGGGCTGGTCATCGTCCTCATCGGCCTGCTCTCGCAACTGGCGATCTGGCTGCCGGGGCTGGAGATGGCCCGCCTCGGCTTCAAGCCCGGCACCACCAGCGTGGCCAACCTGTTCTCGATCCTGCTCGGCATCGCCGCGCTGCTGCTGACCGAGCTGCCCACCCAGCGAGAGCGCCTGCTGGACCGGCCGAGCCTGGTGGTCGGGATCATCGGCGCCCTGCTGACCTGCCTGAGCTGGTACCTGCTGAGCCTGCAGAGCATCGACTCGCTGACCCGCCAGAGTGACCTGCTGCTGTCGAAGGCCCGGCTGGGAATCGAACGCAGCCTGGACGCCCGCCTGTCATTGATCCAGCGGCTGGTGGAGCGCTGGCAGGTGATTGGTGCGATCCCCGCCGAACGTCTCTGGGAGCAGGAGGCCGACAGCTATCTGCGCGACTTCTCCAGCATCCGCCTGATTGGCATGCTCGACGGCGGGCTCGAACCCCGCCTCATGCGTATGCGCAATGCCTCGGCCCGGCATTGGCTCGAGCATTTCCTGGAGGACCCGGAGCACCGCGCCTGGCTGATCGAGTCCCAGCGTGGCTCGACGCCGGACATGAGCCATGTCGAGCTGATCGAAGGCTCACCCTCGGCGATGATCATCATGCCCCTGCACCTGCCCGACGGCGACGGCGTGGTGATCGCCGGACTGGACATCCCCGACCTGCTGGCCAACATCCTCGGCGGTGACCAAAGTGGCTTCGTCATCCGCGTCTACGAGGAGGACAAGCTGGTCATCGACACCCGTGCCGACCGCCCGCAGCGCTTTTCCGTGGAGGTGGGCGAGCTGGACATCCAGCTCGAACACGGTACGACCTGGCGCCTGGTCAGCTTCCTCGGCGACCCGCAGCAACAGGCCTCCATGGCCTTCCTGCCGACCCTGGTGATGCTCTTCGGGCTCGGTTTCACCTTCTTTCTGATGGTCAGCCAGCGCCTGGTCCGCCTCACCGTCGAACGCAACGACCGCCTGCGCCAGACCAACCAGGAACTGGAGGACAGTCTGCAGCGCCAGGCCAGCCTGCAAGCGCTGAATCAGCGCATCATGGCGTTCTCCATGGACGTGCTCTGCTCGATGGACGAACAGGGCCGCTTCACCCAGCTCAGCCCCTCCAGCGCAACGGTATTCGGCTACCTGCCGGAAGAGCTGATCGGCCACGCCTATCTGGACTGCATCGTGCCCGAGGAACGCGAGCGGACCCAGGCCGAAGTCCGCGCCATCATCAATGGCAGCAGCAACCAGCCGATTCGCAACCGCTTCTGCCGCAAGGACGGCAGCATCGTCCATGTGCTCTGGTCGGCCGACTGGTCGGCGAGCGACCGCACCCTGTTCGCCGTCGCCCATGACATTACCCGCCTGGTGCAGAACGAAGCCTACGCCGAGGACCAGCGCGACATCCTCAGCATGATCTCCACCAACCAGGGCCTGGCCGACATCCTCCAGGCCGTCTGCCAGATGGCCGAATCCCAGGACGCCGGCGCACTCTGCGTGCTGCAACTGATGGACAGGGAGCAGCGCACCCTGCACCTGGGCGCGGCGCCCAGCCTGCCCGAAGCGTTCCGGCGCACGCATGGGAACCTGCCCAACGATCCCGACGACAACCCTTTCAGCAGCGCCGTCCAGACCCGCCAACTGACCATAATCGAGGATTTCGCCAACGAGTCACGCTGGCGGGAACAGCGCAGCCGACTCCAGGAGCTCGGTCTGCGCGCCTGCTGGGTAATCCCGCTGCTGTCCTACCACGGCGAGGTGCTCGGCACCTTTTCCCTCTATCACCGCCCGCCCCGCGCGCCGGACTCGGATCAGCTCCAGCTGATGGCCACCGCGGCCCAGCTCGCCGCCATCGCCATCGAGCGGGAGCGCGACCAGATACGCCTGCAGGAGAGCGAGGAGCGCTACCGCTCGCTGTTCACCTTCAACCCTGACCCGGTGTTCTCCTTCGACCTCAGCGGCAATTTCGAGAGCATGAACCAGGCCGGTTGCCTGCTCACCGGCTACCGGGAGGAAAACCTCATCGGACGGAACTTCTCCATGCTGGTCCTGGCCGAGGAAATGCCTCGGGTCAGCAACCACTTCCAGGCCGCGCGCAGCGGCGAGGCGCAACGCTACGAAGTGAAATGCCGTACCGAGAGCGGCGAGCTGCTGGAGCTGTACGTCACCAACCTGCCGATGGTGGTCAAGGACCGCATCGTCGGCGTCTACGGCATCGCCAAGGACATCGGCGAGCGCAACCGGATGAACCGTGCCCTGCGCGAGGCGCTGATGCACTCCGAGCGCCAGGCCGAACTGTTGCGCGGCCTGAGCCAGACCGCGGTACACATGAGCGGCATCCTCGATATCCAGGCCCTGCTCGATTATCTGGCCGAGCAGATGCGCCTGCTCATCGGCGCTCACCTTTCGGTCATCCATCTGGAAGAAGATGCGGGCGCACGAACCCAGCAGACCAGTGCCACCTCGCTCTCCGAAAAATACGCCGCCTGGACGGGTACCCAGCCGCTCTTCGACAGTGGCGGCATCTACGCCTTGATCAGCGAAAGCCCGCACCCGCAGATCATGACCCAGGCGGAACTGGACGCCTACCAGCAGTGGTACGGCAGCGGCGAGCGCAAATCGCCGCCGCTGCGTGGCAGCCTGAGCGTTCCCTTGAAAGACCCCAACGGAAAGAAACTGGGGCGGCTGCTGCTGTCGGACAAATACGCCGGCGATTTCGACCAGGACGACCTGGCCATCGCCCAGCAGTTCGCCCAGATGACCGCCACCATGCTGGAAAACAACCGGCTGATGCGCGAGGTGCTGTCCGGCGAGCAGCGCCTGCAAGCCCAGTTGGAGTTCACCTCGGCGATCACCGACAGCATCGCCGAAGGCTTGATCGCCCTCGATGCCCAGGGCCTGCTGACCTTCGTCAATCCGGCCGCGTCCTACCTGATCGGTCGGCCCGCCGAAACGCTGCTGGGCGAGCCCCTGGCAGAGCAACTGCCCCTGCCCGTCGCCAAGTGGAGCCATCCGGAAGGACAGGGCAGCCTGCATGGCGAGTTCTGCCTGCGCGACGACCGGGGCGAGGAACTCTGCCTGGCCTATGACAGCGCACCGCTGCAGGGCAGCCGCGGGCCGAACGGCTGGGTGGTGGCATTCCGCGACATCAGCGCCCAGCGCCGCGCCAGCCAGGCCATGCGCGAGCGCGACCAGTTCTTCACCCTGTCGCTGGAAATGTTCTGCCTGATCAGCCTCCAGGGCCATTTCATCCAGGTCAACCCGGCCTTCGTCATGGTGCTCGGCTATCCGGCCGAACGCCTGATCGACCAGCCCTACCTCGATCTGATCCACGCCGAAGACCGGCCCGTGATCGAGGCCGCCATCCGTCGTCTGCAGGAAGGCCACCTGGTACAGGACCTGGAGACCCGCGTCACCGACAGCCAGGGCCGGCTGCGCTGGCTGCAACTCAGCGCGGCGCTGGGCGACGACCGGGTGATCTACTGCGCGGCCCGCGACGTCACCCAGCGCAAGGCCGACGAGCAGGCCCTGCAGGACACCCTGCGCGAACTGGAGCGCAGCAACCGCGAATTGCAGGAGTTCGCCTTCGTCGCCTCCCACGACCTGCAGGAACCGCTGCGCAAGATCCAGGCCTTCTCCGAACGCCTGGAAAGCCAGGCGGAATCCCTCAGCGAGGAAGGCCGCGACTACCTGCAACGCATGAGCCAGGCAGCCAGCCGCATGCAATCGCTGATTCGCGACCTGCTCGCCTATTCGCGGGTCACCACCCGCGGCCAGCCGTTCGTGTCCGTGGAGCTGGACCAGATTCTCGACGGCGTGCTGCAGGACATGGAAACCAGCCTGGAGAGCAGCGGCGCCGAGATCCAGCGCTCGCCGCTGCCGCCCCTGCAGGGCGACCCGACGCAACTGCGCCAGTTGTTGCAGAACCTGCTGAGCAACGCGGTCAAATTCCACCAGGAGAACCAACCGCCGCGCGTTCGTATCTATGCTGAAAGGCAGTCGCCCAAGGAATGGACCCTCTGCGTGGCGGACAACGGCATCGGCTTCGAGGAGAAATACCTGGACCGCATCTTCAACCCGTTCCAACGCCTGCATGGCCGCCAGGCCTACCCCGGCACCGGCATCGGCCTGGCCATCGTCAAGAAAATCGTCGAGCGCCACGGCGCCAGCATCACCGCCAACAGCCAGCCCGGCCAAGGCACCACGTTCAGAATCCGTTTCAGAACCTGA	MKARHLIIQAYLHCLAFALIAMGVVSLLGYLQIEHPTRHSTVLLPDSALVSLLLGLVLLTTARALRPLSLILATPLLALALYSLVHNYVAGSADNGTSLVTGFLRVRSALAVSTLALTLAMLCSGGGTFGKLFCRCIGLVIVLIGLLSQLAIWLPGLEMARLGFKPGTTSVANLFSILLGIAALLLTELPTQRERLLDRPSLVVGIIGALLTCLSWYLLSLQSIDSLTRQSDLLLSKARLGIERSLDARLSLIQRLVERWQVIGAIPAERLWEQEADSYLRDFSSIRLIGMLDGGLEPRLMRMRNASARHWLEHFLEDPEHRAWLIESQRGSTPDMSHVELIEGSPSAMIIMPLHLPDGDGVVIAGLDIPDLLANILGGDQSGFVIRVYEEDKLVIDTRADRPQRFSVEVGELDIQLEHGTTWRLVSFLGDPQQQASMAFLPTLVMLFGLGFTFFLMVSQRLVRLTVERNDRLRQTNQELEDSLQRQASLQALNQRIMAFSMDVLCSMDEQGRFTQLSPSSATVFGYLPEELIGHAYLDCIVPEERERTQAEVRAIINGSSNQPIRNRFCRKDGSIVHVLWSADWSASDRTLFAVAHDITRLVQNEAYAEDQRDILSMISTNQGLADILQAVCQMAESQDAGALCVLQLMDREQRTLHLGAAPSLPEAFRRTHGNLPNDPDDNPFSSAVQTRQLTIIEDFANESRWREQRSRLQELGLRACWVIPLLSYHGEVLGTFSLYHRPPRAPDSDQLQLMATAAQLAAIAIERERDQIRLQESEERYRSLFTFNPDPVFSFDLSGNFESMNQAGCLLTGYREENLIGRNFSMLVLAEEMPRVSNHFQAARSGEAQRYEVKCRTESGELLELYVTNLPMVVKDRIVGVYGIAKDIGERNRMNRALREALMHSERQAELLRGLSQTAVHMSGILDIQALLDYLAEQMRLLIGAHLSVIHLEEDAGARTQQTSATSLSEKYAAWTGTQPLFDSGGIYALISESPHPQIMTQAELDAYQQWYGSGERKSPPLRGSLSVPLKDPNGKKLGRLLLSDKYAGDFDQDDLAIAQQFAQMTATMLENNRLMREVLSGEQRLQAQLEFTSAITDSIAEGLIALDAQGLLTFVNPAASYLIGRPAETLLGEPLAEQLPLPVAKWSHPEGQGSLHGEFCLRDDRGEELCLAYDSAPLQGSRGPNGWVVAFRDISAQRRASQAMRERDQFFTLSLEMFCLISLQGHFIQVNPAFVMVLGYPAERLIDQPYLDLIHAEDRPVIEAAIRRLQEGHLVQDLETRVTDSQGRLRWLQLSAALGDDRVIYCAARDVTQRKADEQALQDTLRELERSNRELQEFAFVASHDLQEPLRKIQAFSERLESQAESLSEEGRDYLQRMSQAASRMQSLIRDLLAYSRVTTRGQPFVSVELDQILDGVLQDMETSLESSGAEIQRSPLPPLQGDPTQLRQLLQNLLSNAVKFHQENQPPRVRIYAERQSPKEWTLCVADNGIGFEEKYLDRIFNPFQRLHGRQAYPGTGIGLAIVKKIVERHGASITANSQPGQGTTFRIRFRT	PGPT0023624_6	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-GGDEF|EAL|PAC|PAS-DOMAIN-CONTAINING_PROTEIN,PGPT0023624-GGDEF|EAL|PAC|PAS_domain_containing_protein-NA	NA	NA
BMS010_03278	456	rcp1_3		Response regulator rcp1	ATGGACAAGAATTCGATCCATATCCTCATTGCCGACGACGATCCCGACGATTGTCTGCTGACCCGCGAGGCGTTCCGCGAAAGCCGGATGACCAACGAGGTCCATTTCGTGCACAACGGCGAGGAACTCATGGACTACCTGCGCCACCGTCCGCCCTACGAGGACCGCCAGCGCCACCCCCGGCCGGGCCTGATCCTGCTGGACCTGAACATGCCGCTCAAGGACGGCCGCGAAGCACTGAGCGAAATCAAGGCGGACGACGGTCTGCGCAGCATCCCGGTGGTGGTCCTGACCACCTCCTCCGCCGAGGAGGACATCATCCGCAGCTACGACTGCGGGGTGAACTCCTTCATCACCAAGCCGGTGAGCTTCCGTGGCCTGCTCGACGTCGTGCAGACCCTCGGCCGCTATTGGCTGCAGATCGTCGAACTGCCAGAAGAACACATGAAGCCATGA	MDKNSIHILIADDDPDDCLLTREAFRESRMTNEVHFVHNGEELMDYLRHRPPYEDRQRHPRPGLILLDLNMPLKDGREALSEIKADDGLRSIPVVVLTTSSAEEDIIRSYDCGVNSFITKPVSFRGLLDVVQTLGRYWLQIVELPEEHMKP				NA	NA	NA	NA	NA
BMS010_03279	3216	rssB_3		Regulator of RpoS	ATGAGCCAGCCCGAATCCACCCTGCGTCTCCTGCTGGTCGAGGACGACGAAGACGATTACCTGATCACCCGCGACCTGCTGCGCCAGGCCCGGCAACTGCGCTGCGAGTTGGACTGGCTGGACAACTACGACGACGCGCTGGCCGCCATCCTGCGCCAGGAACACGACCTGATCCTGATCGACTACTACCTGGGCGCCGAGTCCGGCCTGGCGCTGATCGACCATGCCCTGAAAGCCGGCATCCGCACGCCGATCATCCTGCTCACCGGCCAGGGCGACGACGAACTGGATGCCAACGCGGTGAAACTGGGCGCCGCCGATTACCTGGTGAAAGGCCAGATCGACAGCCGCACCCTCGCCCGCAGCATCCGCTATGCGGTCGGCCGCGGGCAGATCACCGCCGAACTGGCGGACAGCGAAGCCCGCTATCGCCTGCTGTTCGAAGCCAACCCGGAACCCATGTACGTCTTCCACCGCGAGACCCTGCGCTTCCTCGCGGTCAACCAGGCCGCTCTCGACCTCTACGGTTACAGCCGCGAGGAATTCCTCGACATGCGGGTGCTCGACATCCGCTCCATCGAAGAACAGGAGCGTTTCCTCGCTTACCACGAAAGCCACGGCGGTGGCACGCAGTACCCCAACGCCGGTCTCTGGACCCACCGGGACCGGCACGGCCGGGAAATCCAGGTGGAGATCATGGCCCACGACATCGACTTCAACGGCCAGCCGGCGCGGCTGACGCTGGCCATCGATGTCACCGAGAAGCTCAAGACCGACGCGGAGATCAAGCGCAAGGAAGAAGCCTTCCGCCAGTTGCTCACCGACAACCGCGACGCCCTGCTGGTGATCGACGCGGAAGGCCGGGTGCGCTACGCCAACCCGGCAGCGGAAACCCTGCTGCGAACGCCATCGGAATCGCTGCTGAACCGGCACTTCGAACTGCCGTTGCAGGAGGGCAATCTCTACGAGCACAACCTGCCCATGGCCGACGGCGGCAGGCTGCCGGTGGAAATCCAGTCCGCCCATACCGAATGGGAAGGCCAGGACATGCGCCTGCTGTCGTTGCGCGACATCAGCCAGCGCAAGGAGTCCGAGCGCCAGTTGCGCCTGCTGCAACGCAGCCTGGAGGCCAGCTACAACGGCATGCTGATCTGCGATGCGCGCAGCGCAGACCTGCCGATCATCTACGTCAACCCGGCCTTCGAACGCATCACCGGCTATCCCGCCAGCGAAGCCCTGGGGCGCAACTGCCGGTTCCTCCAGGGCGATGAGCGCGACCAACCCGGCGTCGAGGAAATCCGCCGCTGCCTGCGCGAGAAAAGCGACGTCAACGTGGTGCTGCGCAACTTCCGCAAGGACGGCTCACCATTCTGGAACAACCTCTACATCGCCCCGGTACCGGATGAGAACGGCGAGATCACTCACTTCATCGGCGTGCAGAACGATATTTCCGAGCAGAAGCGCTACGAGACCGAACTGGCCTACAACGCCAGCCACGACGTGCTCACCGGCTTGCCCAACCGCGCGCTGCTGGAGGACCGCCTGACCCAGGGCTGCCGGATTTCCCAGCGCTACAACCGCAGCCTGGCGGTGATGTTCATCGACCTGGACGGTTTCAAGCCGATCAATGACACCATGGGCCACAGCGTCGGCGACCAGATTCTCGTCGAAGTGGCGCGGCGCATGAGCCAGCAGGTCCGCCCCGGCGACACCGTGGCGCGCCTGGGCGGCGACGAGTTCATCGTGCTGCTGCCCGACCTGGCCCGCGACGAAGACGTGCTGCTGGTGGCCGAACGGCTGATCGACAGCCTCGCCCGGCCTTACCAGGCCCAGGGCATCGACCTGCACATCACCGCCAGCATCGGCATCACCCTCAGCGACGGCGAGGTCGAGCAGCCGATGCAGCTCATCCAGCAGGCCGACCTCGCGATGTACAAGGCCAAGCAGCAGGGGCGCAACAACTACCAGTGGTACACCACCGACCTCAATCAGAAGGTCAGCGAGCGCGTCGCCCTGCGCAACGAGTTGCAGAAGGCCATCGAAGGCGAGGATTTCGAGCTCTACTACCAGCCACAGATCGACGGCCGCAGCGGCCGCGTCACCGGCGTCGAAGCCCTGCTACGCTGGCATCACGCCGAACAGGGCCCGATCCCGCCGGCGCAGTTCGTACCGGTGGCCGAGGACACCGGCCAGATCATCCCGCTGAGCCTGTGGGTCCTCTCCACCGCCTGCCGGCAGATTCGCCAGCTCAACGAGCAGGGTCTCGACATGGTAGTGGCAGTGAACGTCTCGCCCTTGCAGTTCCAGCGCACCAACTTCGTCGAGAGCGTCCAGGCCGCCCTGTTACAGAGCCAGCTACCCCCTACCCAGTTGGAACTGGAGATCACCGAAACCGTACTGCTGGACAACGCCGAGCGCGCCATCCACATCCTCCATGCTTTGAAGGAACTGGGCGTACGGGTATCCATCGACGATTTCGGCACCGGCTTCTCTAGCCTGAACTACCTCAAGCGCCTGCCCATCGACAAGGTGAAAATCGACCGCTCCTTCGTCCACGAGGTGATCAGCGACCGCCATGATGCCGCCATCACCCAGGGCATCATCTCCATGGCCCATCACCTCAATCTCAAGGTCACCGCCGAAGGGGTGGAAACCGAGCCGCAGTACGCCTTCCTGAAAAAAAGCCACTGCGACGAATTCCAGGGGTATTTCTTCGCCAGACCGATGCCGTTCGCGCAGTTGGAGCAGTTTCTCCGCGAACGCCAGGCCCCCGCCCCGGAACTGCCGAAGACCGACGACAACGTGCAGACGCTGCTGCTGCTCGACGACGAAGAAAACATCCTCCGCGCCCTGACCCGCGTGCTGCGCCGCGACGGCTACCGGATACTCACCGCCAACCAGGCCCAGGACGCCTTCGAGCTGCTGGCCAAGCACGATGTCCAGGTGGTGATCTCCGACCAGCGCATGCCGGAAATGAACGGCACCGAATTCCTCAGCCGGGTCAAGGACCTCTACCCGGACACCATCCGCATCGTGCTCTCTGGCTACACCGACCTGAAATCGGTAACCGATGCCATCAACCAGGGGGCGATCTACAAGTTCCTCACCAAACCCTGGGACGACGAGCAACTGCGCCAGAACATTAGCCAGGCCTTCCAGCACCACAGCCAGGCCAAGCAGAAAGAGGGAACGGGGATCGGCAATAGCTCCGGGTGA	MSQPESTLRLLLVEDDEDDYLITRDLLRQARQLRCELDWLDNYDDALAAILRQEHDLILIDYYLGAESGLALIDHALKAGIRTPIILLTGQGDDELDANAVKLGAADYLVKGQIDSRTLARSIRYAVGRGQITAELADSEARYRLLFEANPEPMYVFHRETLRFLAVNQAALDLYGYSREEFLDMRVLDIRSIEEQERFLAYHESHGGGTQYPNAGLWTHRDRHGREIQVEIMAHDIDFNGQPARLTLAIDVTEKLKTDAEIKRKEEAFRQLLTDNRDALLVIDAEGRVRYANPAAETLLRTPSESLLNRHFELPLQEGNLYEHNLPMADGGRLPVEIQSAHTEWEGQDMRLLSLRDISQRKESERQLRLLQRSLEASYNGMLICDARSADLPIIYVNPAFERITGYPASEALGRNCRFLQGDERDQPGVEEIRRCLREKSDVNVVLRNFRKDGSPFWNNLYIAPVPDENGEITHFIGVQNDISEQKRYETELAYNASHDVLTGLPNRALLEDRLTQGCRISQRYNRSLAVMFIDLDGFKPINDTMGHSVGDQILVEVARRMSQQVRPGDTVARLGGDEFIVLLPDLARDEDVLLVAERLIDSLARPYQAQGIDLHITASIGITLSDGEVEQPMQLIQQADLAMYKAKQQGRNNYQWYTTDLNQKVSERVALRNELQKAIEGEDFELYYQPQIDGRSGRVTGVEALLRWHHAEQGPIPPAQFVPVAEDTGQIIPLSLWVLSTACRQIRQLNEQGLDMVVAVNVSPLQFQRTNFVESVQAALLQSQLPPTQLELEITETVLLDNAERAIHILHALKELGVRVSIDDFGTGFSSLNYLKRLPIDKVKIDRSFVHEVISDRHDAAITQGIISMAHHLNLKVTAEGVETEPQYAFLKKSHCDEFQGYFFARPMPFAQLEQFLRERQAPAPELPKTDDNVQTLLLLDDEENILRALTRVLRRDGYRILTANQAQDAFELLAKHDVQVVISDQRMPEMNGTEFLSRVKDLYPDTIRIVLSGYTDLKSVTDAINQGAIYKFLTKPWDDEQLRQNISQAFQHHSQAKQKEGTGIGNSSG	PGPT0023624_280	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-GGDEF|EAL|PAC|PAS-DOMAIN-CONTAINING_PROTEIN,PGPT0023624-GGDEF|EAL|PAC|PAS_domain_containing_protein-NA	NA	NA
BMS010_03280	1311	sasA_11		Adaptive-response sensory-kinase SasA	ATGGACCTTCCGGCACAGCAGTCCCCGTTGCACACGGAGCTGGAATCCGTCCTGCAGCAGATCAACCTCGGCGTCGTGCTGCTCGACCGCGACTGCCGGGTGATGTACTGGAACGATTTCATGAGCATCAACAGCGGGCGCAGCGCGGCCGAGGTGGTCGGCCAATCGTTGTTCGACCTGTTCCCGGAACTGCCGCGCCTATGGGTGAAGAAGAAGATCGACAGCGTCTTCACCCTGCAGAACCTGGCGTTCACCTCCTGGCAGCAGCGCCCGCACCTGTTCGACTTCTCCGACAGCCGGCCCATTACCGGGCAGGTGGCGGCGATGTACCAGAACTGCACCTTCTTTCCGGTGGTGGAGACTTCCGGGGCGATCAAGTACGTCTGCCTGACCGTGGCCGATGCCACCGAAACGGCCGCGCAGCATCTGGAACTGGCGCGGCTGAACGAGCTGCTGCAGGCCGAGAAGGAAGAGCAGGCCCGGCTGATCCGCAAGTTGGAAGAGGCCCAGGCGCAACTGCTGCAATCGGAGAAGATGGCCGCCATCGGCCAGCTCGCCGCCGGGGTGGCGCACGAGATCAACAACCCGGTCGGCTACGTGAACTCCAACTTCGCCAGCCTGGAATCCTACGTCAAGGACCTGTTCAGCCTGATCGAAGCCTACAACCGCGACCTGCCGTCGTTGCAGGACGCCGCCTTCCGTGCGCGGATCGAACAGGCCAACCGCGAGCTGGACTACGAGTTCCTGCGCAGCGACATATTCGACTTGATCCGCGAGTCCCGCGAGGGGCTGGAGCGGGTCAAGCGGATCGTCCAGGACCTGCGCGATTTTTCCCACGTGGACTCGGCGGACTGGCAGGTGGTGGACCTGCACAAGGGCCTGGACAGCACGCTGAACGTGGTCTGGAACGAGGTGAAGTTCAAGGCCGAGGTGGTCAAGCAGTACGGCGAGCTGCCGGATGTGGAGTGCATCGGTTCGCAGCTCAACCAGGTGTTCATGAACCTGATCGTCAATGCCGCGCATGCCATTCCGAACCGCGGCACCATCTGGCTGGAAACCGGCACGCGCGACGACTGGGTGTTCGTCCGGGTGCGCGACGACGGCTGCGGCATTCCGCCGGAGAACCTGAAGCGTCTGTTCGAGCCGTTCTTCACCACCAAGCCGGTGGGCTCGGGGACTGGCCTGGGGTTATCGGTGTCCTACAACATCGTCAGCAAGCACCACGGGCGGATCGAGGTGGAGAGCGAGCCGGGCAAGGGCACGGCTTTCACCGTCTGGCTGCCGGCACGCCAGCCGCAGGAGGACCGGTAG	MDLPAQQSPLHTELESVLQQINLGVVLLDRDCRVMYWNDFMSINSGRSAAEVVGQSLFDLFPELPRLWVKKKIDSVFTLQNLAFTSWQQRPHLFDFSDSRPITGQVAAMYQNCTFFPVVETSGAIKYVCLTVADATETAAQHLELARLNELLQAEKEEQARLIRKLEEAQAQLLQSEKMAAIGQLAAGVAHEINNPVGYVNSNFASLESYVKDLFSLIEAYNRDLPSLQDAAFRARIEQANRELDYEFLRSDIFDLIRESREGLERVKRIVQDLRDFSHVDSADWQVVDLHKGLDSTLNVVWNEVKFKAEVVKQYGELPDVECIGSQLNQVFMNLIVNAAHAIPNRGTIWLETGTRDDWVFVRVRDDGCGIPPENLKRLFEPFFTTKPVGSGTGLGLSVSYNIVSKHHGRIEVESEPGKGTAFTVWLPARQPQEDR				NA	NA	NA	NA	NA
BMS010_03281	609			hypothetical protein	ATGAACCGCCTGGCGAACCTCAGCGAGGACCGGCGCGATGCCCTGCAGGAGCTGATGAACGTCGCCATGGGGCAGGGCGCCGACCGGTTGGCGCGCCTGACCGAAACCTTCGTCACCCTGTCCGTGCCGCGTATCCACCCGGTGGAGGATGCCCACGCCAACCTGCTCGAAAACCTGGACATGGCCGGCCAGCCGGCCATCGTCACGCGCCAGTCGTTCCTCGGCCGGTTGCGCGGCGAGGTGGTGGTCTGCTTCGGCGAGAACGGTGCCGACCAGTTGGCCGGGCTGATGGGCTACGAAGGCGAAGCCAACAGCCAGGACGAGCTGATGCTGGACGTCACCAACATCCTCACCGGCGCCTGCATCAACGGCCTGGCCCAGCAAATCGACCTCAAGGTGAGCTACGGCGCGCCGTCAATCCTGTCGCGCGGCCGTTCGCTGAAGGAGGTGCTGGACAGCCAGGTGCTGCAAGGCCACCAGGCCCTGGTGCTGGAAATCCATTTCGAAGTGGCCACCCACAGCTTCATCTGCGACCTGCTGGTGTGCATCGCCGAGGACACGGTGGCTACGGTAATCGAGGCGATCGACCAATTGCTGAACGACATCTGA	MNRLANLSEDRRDALQELMNVAMGQGADRLARLTETFVTLSVPRIHPVEDAHANLLENLDMAGQPAIVTRQSFLGRLRGEVVVCFGENGADQLAGLMGYEGEANSQDELMLDVTNILTGACINGLAQQIDLKVSYGAPSILSRGRSLKEVLDSQVLQGHQALVLEIHFEVATHSFICDLLVCIAEDTVATVIEAIDQLLNDI	PGPT0015660_973	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015660-cheC-K03410	NA	NA
BMS010_03282	360	cheY_2	COG0784	Chemotaxis protein CheY	TTGAAAGTACTGATCGTCGACGATTCCGCCATGTCCCGGAAAATGGTGATGAAGGCGCTGCCGCCCGAGTTCGAGGCGGAGATCAGCCAAGCCGCCAACGGCGAGGAAGCGCTGGCCGCCTACCATGCGGGTAATGCCGAAGTGATCTTTCTCGACCTGACCATGCCGGTGATGGATGGTTTCCGCACCCTCGAATTGCTCAAGCGCGAGGACGCCAACGCGGTGGTCATCGTGATCAGCGCGGATATCCAGCCGCAGGCGCAGCAGCGGGTGCGCGAGCTGGGGGCCGCGGGGTTCGTCAAGAAGCCGATCACACCGGAGGCCATGCAGGCGGCCCTCCATGACGTGGGGTTGATCTGA	MKVLIVDDSAMSRKMVMKALPPEFEAEISQAANGEEALAAYHAGNAEVIFLDLTMPVMDGFRTLELLKREDANAVVIVISADIQPQAQQRVRELGAAGFVKKPITPEAMQAALHDVGLI	PGPT0015690_5301	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015690-cheY|yneI-K03413	NA	NA
BMS010_03283	681	fabR_1	COG1309	HTH-type transcriptional repressor FabR	ATGACCCTGGTTCGATCCGGTGTGGCGCAAGGCAAGCGCCTGTTGATGGACGCCGCCCTGCGCCTGATGGCCCACAGCCGTAGCCTGAGCAGCCTGGGCCTGCGCGAGTTGGCGCGGGAGGCAGGACTCAATCCCAATACCTTCTACCGGCATTTCCAGAGCGTGGACGAGCTGGGCATGGCGCTGATCCGGCACATCGCCGACCAATTGCGCCAGCCGCTGCGTGACCTGCGCCGGGAAGCGGCCCAGCGCGCGGCGGAGGGCGGTGAGGGTGGCCCGCGGTTGCTGGGAGTCGACCTCGGCCGGGGGCGCCTGGTGTGCCACGAGACGGTGGCGTTGTTCTTCCGCTTCGTCGAAGAGAACCCGGAGGCCTTCATCGTCGGCATGCGCGAATTGCATGGCGCCTCGCCGTTGCTGCGGGCCGAGCTGCGCGAAGTGATGGAGGGGTTCGCCCAGGACATGGCCGAAGACATCCAGAACCTGCAACTGGTGGCGCTGGACGGCGAAGGGGTGAAGCGGCTGTCGTCGCTGATCAGCCGACACCTGTTCCAGATGTCGCTGGATTACCTGGAGCAGGTGGACCAGCGTCCCCGCATTTGCGCCGAAGCGGAGGAGATGATCGTCACCCTGTTCGCCGGTGCCAGCGTGCTGCGGAGCTTGGAGCAGACGCCTCGGGCCTGA	MTLVRSGVAQGKRLLMDAALRLMAHSRSLSSLGLRELAREAGLNPNTFYRHFQSVDELGMALIRHIADQLRQPLRDLRREAAQRAAEGGEGGPRLLGVDLGRGRLVCHETVALFFRFVEENPEAFIVGMRELHGASPLLRAELREVMEGFAQDMAEDIQNLQLVALDGEGVKRLSSLISRHLFQMSLDYLEQVDQRPRICAEAEEMIVTLFAGASVLRSLEQTPRA				NA	NA	NA	NA	NA
BMS010_03284	1548		COG2072	Baeyer-Villiger monooxygenase	ATGAATGCCCCTGCGGCTACCCTGCCTGTACAGCACTGCAAGATCGCCATTGTCGGCACCGGTTTTTCCGGTCTCGGCATGGCCATTCGCCTCAAGCAACGGGGCGAGGACGACTTCCTCCTGTTCGAGAAGGAAGGCGGCGTCGGCGGCACCTGGCGGGTCAATCACTACCCGGGCTGCGCCTGCGACGTGCAATCGCACCTGTATTCGTTCTCCTTCGAGCCGAATCCGGAGTGGACGCGCATGTTCGCCCGCCAGCCGGAGATCAAGGGCTACTTGGAAGGTTGCTGGGAGAAGTACCGGCTGCAGGAAAAAACCCTGCTGAACACCGAGATCCGCCGGATGCACTGGGACGAGGAGCACGAGCTGTGGCACCTCGAGGATACCGCCGGCAACCGCTACAGCGCCCGCTTCGTGGTGTCCGGGATGGGCGCCCTGTCCACTCCGTCGATTCCCAGGCTGAACGGCCTGGAGATCTTCACCGGCAAAATGTTCCACTCCCAACAGTGGGACCACGACTACGACCTCACGGGCAAGCGCGTGGCGGTGATCGGCACCGGCGCCTCGGCGATCCAGTTCGTCCCGCAGATCCAGCGCCAGGTCTCCCACCTCGATCTCTACCAGCGCACGCCGCCGTGGATCATGCCCAAGCCGGACCGCGCCATCGGCGAGCGCGAACGCGAACGTTTCAAGCGCTTCCCGCTGGTGCAGAAGCTCTGGCGCGGGCTGATCTACGGGCTGCTGGAAAGCCGGGTGATCGGTTTCACCCTGCTGCCGCGGGTGATGACGCTGGCGCAGGTGGTCAGCAAGGCCTACATCCGCCGGCAGATCAAGGACCCGGTGCTGCGCGCCAAGGTCACCCCGGACTACCTGATGGGCTGCAAGCGCGTGCTGATCTCCAACGATTACTACCCGGCGCTGACCCAGCCCAACGTCGATGTGATTACCGACGGCATCCGCGAAATCCGCGCCAACAGCATCGTCACCACCGATGGCACGGAACGCGAGATCGACGCCATCATCTTCGGCACCGGCTTCACCCCCAGCGATCCGCTGCCGCGCGGGGCCATCTTCGGCCGGGGTGGCGTCGACCTGCTCGACACCTGGCCGGAAGGCCCGGAAGCCTACAAGGGCACCCTGACCGCCGGCTTCCCCAACCTGTTCTTCCTGATGGGCCCGAACACCGGCCTGGGTCACAACTCGATGGTCTACATGATCGAGTCGCAAATCCACTATGTGCTCGGCGCCCTCGACCTGCTCGAACAGCGCAACCTGCGCAGCCTGGAGGTCAAGCGCGAGGAACAGGACCGTTTCAACGGCAAGATACAGGGCAACCTCGGCAACACCGTGTGGAACGCCGGTGGCTGCATGAGCTGGTACCTGCATCCGGTCAGCGGTCGCAACTGCACGGTCTGGCCTGGCTTCACCTGGCGTTTCCGCCTGCTGACGCGCAACTTCGACGCCAGCGCCTACCACTTCAGCCGCGCGAATCCCGCGCACCCGGCACAGACGTTCGCCGCCACACCGGCACAGGAGGCCACCGCATGA	MNAPAATLPVQHCKIAIVGTGFSGLGMAIRLKQRGEDDFLLFEKEGGVGGTWRVNHYPGCACDVQSHLYSFSFEPNPEWTRMFARQPEIKGYLEGCWEKYRLQEKTLLNTEIRRMHWDEEHELWHLEDTAGNRYSARFVVSGMGALSTPSIPRLNGLEIFTGKMFHSQQWDHDYDLTGKRVAVIGTGASAIQFVPQIQRQVSHLDLYQRTPPWIMPKPDRAIGERERERFKRFPLVQKLWRGLIYGLLESRVIGFTLLPRVMTLAQVVSKAYIRRQIKDPVLRAKVTPDYLMGCKRVLISNDYYPALTQPNVDVITDGIREIRANSIVTTDGTEREIDAIIFGTGFTPSDPLPRGAIFGRGGVDLLDTWPEGPEAYKGTLTAGFPNLFFLMGPNTGLGHNSMVYMIESQIHYVLGALDLLEQRNLRSLEVKREEQDRFNGKIQGNLGNTVWNAGGCMSWYLHPVSGRNCTVWPGFTWRFRLLTRNFDASAYHFSRANPAHPAQTFAATPAQEATA				NA	NA	NA	NA	NA
BMS010_03285	879	sadH_3		Putative oxidoreductase SadH	ATGAAATCCTTCGAAAACAAGGTCGCCGCCATCACCGGCGCCGGCTCCGGCATCGGTCGCGCCCTCGCCTATGCCCTTGCCCGCCAGGGTTGCCACCTGGCGCTGAGCGACGTGAACGTCGAAGGGCTGGGGGAAACCGCCAGCCACGCCCGTCAACTCGGCGTACAAGTCACCGAAACGCGCGTCGACGTGGCCGACCGCGCGGCCATGCAAGCCTGGGCCGACCAGGTGGCGTTGGACCACGGCCGGGTCAATCTGATCTTCAACAACGCCGGCGTGGCCCATGCCGGCACCGTGGAAGGCAGCGACTTCGCCGACTACGAATGGATCATGAACATCAACTTCTGGGGCGTGGTGAACGGCACCAAGGCCTTCCTGCCGCACCTGAAAGCCTCCGGCCAGGGCCATGTGGTCAACGTCTCCAGTGTCTTCGGCCTGTTCGCCCAGCCGGGCATGAGCGCCTACAACGCCACCAAGTACGCCGTGCGCGGCTTCACCGAGTCGCTGCGCCAGGAGCTGGACATGGAAGGCTGTGGCGTGTCGGCCAGTTGCGTGCACCCGGGCGGGATCAAGACCAACATCGCCAAGACCGCGCGGATGAACGACAGCCTCGCCCGGGTCACCGGCCAGGCCGCCGACCAGTCGCGCCAGCAGTTCCACGATCAGTTGCTGCGCACCACCCCGGAAAAGGCTGCCGCGGTGATCCTGCGCGGCGTACTGCGCAACAAGCGACGCATCCTGATCGGCTCGGATGCGCTCGCTGCCGATCTGATGCAGCGCCTGCTGCCAGGCTTCTACCAGCGGCTGGTCACCGCCAGCATGCGCCTCGCCGCCCGCTTTGCGCCCAAACCCAAGGGGCGGGCGTTATCCGCGGAGTGA	MKSFENKVAAITGAGSGIGRALAYALARQGCHLALSDVNVEGLGETASHARQLGVQVTETRVDVADRAAMQAWADQVALDHGRVNLIFNNAGVAHAGTVEGSDFADYEWIMNINFWGVVNGTKAFLPHLKASGQGHVVNVSSVFGLFAQPGMSAYNATKYAVRGFTESLRQELDMEGCGVSASCVHPGGIKTNIAKTARMNDSLARVTGQAADQSRQQFHDQLLRTTPEKAAAVILRGVLRNKRRILIGSDALAADLMQRLLPGFYQRLVTASMRLAARFAPKPKGRALSAE				NA	NA	NA	NA	NA
BMS010_03286	1221			hypothetical protein	ATGCCTTTTCTTTCCCGACTCGCCCCGGAAGTCCGCCAGTACCTGTTGGTGACCGGCAACTACTGGGCCTTCACCCTCACCGACGGCGCGCTGCGCATGCTGGTGGTGCTGCATTTCCATACGCTGGGCTATTCGCCGCTGCAGATCGCCGCGCTGTTCTTGTTCTATGAGTTCTTCGGCGTGGTGACCAACCTGCTGGGCGGCTACCTCGGCGCCCGCCTGGGCTTGAACCGCACCATGAACCTCGGGTTGGCGATGCAGGTTGTGGCACTGCTCATGCTGACGGTGCCGGCGGCCTGGCTGACGGTGCCTTGGGTGATGCTGGCCCAGGCGTTGTCCGGCATCGCCAAGGACTTGAACAAGATGAGCGCAAAGAGCGCCATCAAGCTGCTGGTGCCGGGCGACCGGCAGGGCACGCTGTATCGCTGGGTGGCGCTGCTGACCGGCTCGAAAAACGCGCTCAAGGGTGTCGGCTTCTTCCTCGGCGGGGCGTTGCTGGCGCTGCTCGGCTTCGCCGGTGCGGTGCTGGCGATGGCGGCGGTGCTGGCGGCGATCTGGTTGGCCAGCCTGCTCCTGTTGAGGAAGGAGCTGGGCAAGGCAAAGGCCAAGCCGAAGTTCCGCGACCTGCTGTCGAAGAGCCGGGCGATCAATATCCTGTCGGCGGCGCGTCTGTTTCTGTTCGGCGCCCGCGACGTCTGGTTCGTGGTCGCCTTGCCGGTTTACCTGAGCACGGTGTTCGGTTGGGATTTCTGGCGGGTGGGCGGCTTTCTCGCTGCCTGGATCATCGGCTACGGCATCGTCCAATCGTTCGCCCCGGTGCTGACCGGCAAGCGCAGCGGCCACGTGCCGGATGGGCGCGCAGCCCTCGGCTGGGCCTTGCCGCTGGCGGTGCTGCCGGGTGCGATTGCCCTCGGCCTGGGCAGCGGGCTGCCGGCGCAGCCGGTTCTGCTGGGTGGATTGCTGGTGTTCGGGGCGCTGTTCGCGGTGAATTCGTCGCTGCACAGCTACCTGATCGTGTCCTACGCCCAGGAGGACGGCGTGTCGCTGGACGTGGGCTTCTACTACATGTCCAACGCCCTGGGACGGCTGGTCGGCACGTTGCTGTCCGGCTGGCTGTTCCAGGCTCATGGCCTGGCGGTGTGTCTCTGGGTGTCCTCGGCGTTCGTGCTGCTGGCCGCGCTGCTTTCCATCGGTTTGCCCCGGCACGCCGCTGCGCGGTGA	MPFLSRLAPEVRQYLLVTGNYWAFTLTDGALRMLVVLHFHTLGYSPLQIAALFLFYEFFGVVTNLLGGYLGARLGLNRTMNLGLAMQVVALLMLTVPAAWLTVPWVMLAQALSGIAKDLNKMSAKSAIKLLVPGDRQGTLYRWVALLTGSKNALKGVGFFLGGALLALLGFAGAVLAMAAVLAAIWLASLLLLRKELGKAKAKPKFRDLLSKSRAINILSAARLFLFGARDVWFVVALPVYLSTVFGWDFWRVGGFLAAWIIGYGIVQSFAPVLTGKRSGHVPDGRAALGWALPLAVLPGAIALGLGSGLPAQPVLLGGLLVFGALFAVNSSLHSYLIVSYAQEDGVSLDVGFYYMSNALGRLVGTLLSGWLFQAHGLAVCLWVSSAFVLLAALLSIGLPRHAAAR	PGPT0004756_41	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ARSENIC_RESISTANCE	ARSENIC_RESISTANCE-ARSENIC_TRANSPORT,PGPT0004756-arsJ-NA	NA	NA
BMS010_03287	1005	gap3	COG0057	Glyceraldehyde-3-phosphate dehydrogenase 3	ATGACCCTCAAGGTAGGCATCAACGGCTTCGGCCGTATCGGCCGTCTGGCTCTTCGCGCGGCCTGGGGCTGGCCCGAGCTGGAGTTCGTGCGGATCAACGACCCGGCCGGCGATGCGGCGACCCACGCGCACCTGTTGAACTTCGATTCAGTGCATGGACGCTGGCAGTACGAGGCGGGTGCCGAAGGCGATGCCGTGGTGATCGACGGCAAGCGCATCGCGGTCAGCGCCAACAAGACGATTGCCGATACCGACTGGTCCGGCTGCGATCTGGTGATCGAGGCCAGCGGCAAGATGAAGACCGTCGCCGTGCTCCAGGCCTATCTGGATCAGGGCGTGAAGCGCGTGGTGGTGAGCGCGCCGGTGAAGGAGGAGGGCGCGCTCAATGTGGTCATGGGGGTGAACCAGCACCTGTTCGATCCGGCCCGGCACCGCATCGTCACCGCCGCCTCCTGCACCACCAATTGCCTGGCGCCGGTGGTCAAGGTGATTCATGAAAACCTGGGCATTCGCCACGGCTCGATCACCACCATCCACGACCTGACCAATACCCAGAGCATTCTCGACCAGCCGCACAAGGACCTGCGCCGGGCGCGGGCCTCGGGCATGAGCCTGATCCCCACCACCACCGGCTCGGCCACCGCCATCGCCGAAATCTTCCCCGAGCTGCGCGGCCGTCTGAACGGCCATGCGGTACGCGTGCCGCTGGCCAACGCCTCGCTCACCGACTGCGTGTTCGAGGTGGAACGGGCGACCACGGCAGAGGAGGTCAACCGCCTGCTCAAGGCCGCTGCCGAAGGCCCGCTGGCCGGCATCCTCGGCTACGAGGAGCGGCCACTGGTGTCCATCGACTACCGGACCGATCCGCGCTCGTCGATTGTCGATGCGCTGTCGACCCTGGTGGTGAACGGTACGCAGGTGAAAATCTACGCCTGGTACGACAACGAATGGGGCTATGCCAACCGCACCGTGGAGCTGGCGCGGCTGGTGGGGCGTGCCGGCTGA	MTLKVGINGFGRIGRLALRAAWGWPELEFVRINDPAGDAATHAHLLNFDSVHGRWQYEAGAEGDAVVIDGKRIAVSANKTIADTDWSGCDLVIEASGKMKTVAVLQAYLDQGVKRVVVSAPVKEEGALNVVMGVNQHLFDPARHRIVTAASCTTNCLAPVVKVIHENLGIRHGSITTIHDLTNTQSILDQPHKDLRRARASGMSLIPTTTGSATAIAEIFPELRGRLNGHAVRVPLANASLTDCVFEVERATTAEEVNRLLKAAAEGPLAGILGYEERPLVSIDYRTDPRSSIVDALSTLVVNGTQVKIYAWYDNEWGYANRTVELARLVGRAG	PGPT0018000_5764	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0018000-gapA-K00134	NA	NA
BMS010_03288	360	arsR2	COG0640	Arsenic resistance transcriptional regulator ArsR2	ATGGCCGAATCGCTTACCCCTACCTCCCTCTTCAAGTGCCTTGCCGACGAGACGCGCACTCGCCTCGCGCTGTTGGTCGCCCGTGAGGGCGAACTGTGCGTTTGCGAGCTGACTTGCGCCCTCGGCGAGAGCCAGCCGAAGATTTCCCGGCATCTCGCGCAAATGCGCAGCTGCGGCCTGCTGGCGGACCGCCGCCAGGGCCAGTGGGTGTACTACCGCCTGAATCCGGAGCTGCCGGCCTGGGCGAGGGAGGTCCTGCACACCGTGCTCGAAGCGCCTGCGGCGTGGCTCGACGACGACGCCCGGCGCCTTGCCGGCATGGGCGAGCGCCCGGCGCGGACCGCCGCCTGCTGCCCCTGA	MAESLTPTSLFKCLADETRTRLALLVAREGELCVCELTCALGESQPKISRHLAQMRSCGLLADRRQGQWVYYRLNPELPAWAREVLHTVLEAPAAWLDDDARRLAGMGERPARTAACCP	PGPT0004735_1657	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892	NA	NA
BMS010_03289	1149	mmgC_1	COG1960	Acyl-CoA dehydrogenase	ATGTCCGCTTTTCAGGAATACTTCGACGACTCCCATCGACTGGTCCGCGATGCGGTACGCCGCTTCGTCGAGCGGGAAATCCTGCCGTATATCGATGAATGGGAGGAAGCGGAGGAGTTTCCCCGCGAGCTGTACTGCAAGGCCGGGGCGGCGGGCATCCTCGGCATCGGTTACCCCGAAGCCTACGGCGGCAGCCACGAGGGTGACCTGTTCGCCAAGGTGGCGGCCAGCGAGGAGCTGATGCGCTGTGGCTCGGGCGGGCTGGTGGCGGGGCTCGGTTCGTTGGATATCGGCCTGCCGCCGGTGCTCAAGTGGGCACGGCCGGAGCTGCGTGAGCGCGTTGTGCCGCAGGTGCTGGCCGGCGAGAAGATCATGGCCCTGGCAGTAACCGAACCTTCCGGTGGCTCCGACGTGGCCAATCTCAAGACCCGCGCTGTGCGTGAAGGCGAGCATTACCGGGTGACGGGCAGCAAGACCTTCATCACCAGTGGCGTGCGCGCCGACTACTACACGGTGGCGGTACGCACCGGCGGCGAAGGCTTCGGCGGGGTCAGCCTGTTGCTGGTGGAGAAGGGGACACCGGGTTTCAGCGTGGGGCGCAAGCTGAAGAAGATGGGTTGGTGGGCCTCGGATACGGCCGAGCTGTTCTTCGACGATTGCCGGGTGCCGGCGGAAAACCTGATCGGCGTCGAGAATGCCGGGTTCGCCTGCATCATGGCGAATTTCCAGAGCGAGCGGCTGGCCCTGGCGATCATGGCCAACATGACCGCGCAGCTCGCCCTGGAAGAGTCGCTGAAGTGGGCCCGCGAACGCGAAGCCTTCGGCCGGCCGATCGGCAAGTTTCAGGTGCTCAAGCATCGCTTGGCGGAAATGGCCACCCAGTTGGAAGTCTCCCGCGAGTTCACCTACCGGCAGGCGGCGAAAATGGCGGCGGGCAAGAGCGTGGTCAAGGAAATCTCCATGGCCAAGAACTTCGCCACGGACATCGCCGACCGCCTGACCTACGACGCGGTGCAAATGCTCGGCGGCATGGGCTACATGCGCGAAAGCTTGGTGGAGCGGCTTTACCGCGACAACCGCATCCTTTCCATCGGCGGCGGCTCGCGGGAAATCATGAACGAGATCATTGCCAAGCAGATGGGGCTCTGA	MSAFQEYFDDSHRLVRDAVRRFVEREILPYIDEWEEAEEFPRELYCKAGAAGILGIGYPEAYGGSHEGDLFAKVAASEELMRCGSGGLVAGLGSLDIGLPPVLKWARPELRERVVPQVLAGEKIMALAVTEPSGGSDVANLKTRAVREGEHYRVTGSKTFITSGVRADYYTVAVRTGGEGFGGVSLLLVEKGTPGFSVGRKLKKMGWWASDTAELFFDDCRVPAENLIGVENAGFACIMANFQSERLALAIMANMTAQLALEESLKWAREREAFGRPIGKFQVLKHRLAEMATQLEVSREFTYRQAAKMAAGKSVVKEISMAKNFATDIADRLTYDAVQMLGGMGYMRESLVERLYRDNRILSIGGGSREIMNEIIAKQMGL	PGPT0008385_7998	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008385-acd-K00249	NA	NA
BMS010_03290	600	recR_2	COG0353	Recombination protein RecR	ATGAGCTTCAGCCCGCTGATTCGCCAACTGATCGACGCCTTGCGCATTCTTCCCGGTGTGGGGCAGAAAACCGCGCAACGCATGGCCTTGCAACTGCTGGAGCGCGACCGTAGTGGCGGCCTGCGCCTGGCCCAGGCGCTGACCCGGGCCATGGAAGGCGTGGGTCACTGCAAGCAGTGCCACACCCTGAGCGAGGATGAACTCTGCCCGCAGTGCGCCGACCCGCGCCGCGACGACAGTCTGCTTTGCGTCGTGCAGGGGCCGATGGACGTGTTCGCGGTGGAGCAGACCGGCTTCCGCGGCCGCTACTTCGTGCTCAAGGGCCATCTCTCGCCGCTGGATGGGTTGGGGCCGGAAGCCATCGGCATTCCCGATCTGATGGCGCGTATCGAGCAGGGCGGCTTCAGCGAAGTCATCCTGGCCACCAACCCCACGGTGGAAGGCGAGGCCACCGCCCATTACATTGCCCAGTTGCTGATGCCCAAGGGGTTGGTCGTTTCACGCATCGCTCATGGCGTACCGCTGGGTGGCGAACTCGACCTGGTGGACGGTGGCACCCTGGCTCATGCCCTGGCGGGGCGTAAGCCGATCCATCTCTGA	MSFSPLIRQLIDALRILPGVGQKTAQRMALQLLERDRSGGLRLAQALTRAMEGVGHCKQCHTLSEDELCPQCADPRRDDSLLCVVQGPMDVFAVEQTGFRGRYFVLKGHLSPLDGLGPEAIGIPDLMARIEQGGFSEVILATNPTVEGEATAHYIAQLLMPKGLVVSRIAHGVPLGGELDLVDGGTLAHALAGRKPIHL				NA	NA	NA	NA	NA
BMS010_03291	666	hchA		Protein/nucleic acid deglycase HchA	ATGTCCCGCCATGTCCTGATTGTCGTCACCAGCGCCGACCGCATGCCCAATGGCGAAGCCACCGGCCTCTGGCTGGAAGAGTTCGCCGTGCCTTACCACGTGTTCAAGGAGGCCGGCTACCGCATCACCGTGGCCAGCCCGAAAGGCGGCGAGACGCCCATTGACCCGCGCAGCCGCGACGAGCTTCAGGACCACCCCGAGTGGACCGACGCGGCGGAAATGTTGAGGCACACCGGCATGCTGGATTCGCGCCTGGAGGCCGCCGACTTCGATGCGATCTTCCTGCCGGGTGGCCACGGGACGATGTTCGATCTGCCGGGGCATCCGGAGCTGGGGCGCCTGCTGGCGGAGTTCGATGCGCAAGGCAAGGTCTGGGCGGCGGTGTGCCACGGCCCGGCCGGCTTCGTCGGGCCCAAGCGGGCGGATGGTTTGCCGCTGGTGGAAGGGCGCGAGATGACCGCCTTCACCGACAGCGAGGAGCATGCAGTGGGGCTGGAGAAAGCGGTGCCGTTCCTACTGGAGAGCACGCTGCGCGAGTTGGGCGCGATCATGAAAACAGCGCCGGATTTTTCGGCCTACGCCATCCGTGACCGCAACCTGATTACCGGACAGAACCCGCCGTCCAGTGCCAAGACTGCGCAGTTGGTGGTGGAGGCGTTGTCCTGA	MSRHVLIVVTSADRMPNGEATGLWLEEFAVPYHVFKEAGYRITVASPKGGETPIDPRSRDELQDHPEWTDAAEMLRHTGMLDSRLEAADFDAIFLPGGHGTMFDLPGHPELGRLLAEFDAQGKVWAAVCHGPAGFVGPKRADGLPLVEGREMTAFTDSEEHAVGLEKAVPFLLESTLRELGAIMKTAPDFSAYAIRDRNLITGQNPPSSAKTAQLVVEALS	PGPT0027880_2	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-TETRACYCLINE_RESISTANCE,PGPT0027880-tetB-K08168	NA	NA
BMS010_03292	327	ybaB	COG0718	Nucleoid-associated protein YbaB	ATGATGAAAGGTGGCATGGCCGGCCTGATGAAGCAGGCCCAGCAGATGCAGGAAAAAATGCAGAAGATGCAGGAAGAGCTGGCCAACGCCGAAGTGACCGGCCAATCCGGTGCCGGCCTGGTGAGCGTGGTGATGAACGGTCGCCACGACGTCAAGCGCGTCACGCTGGACGACAGCCTGATGCAGGAAGACAAGGAAATCCTCGAAGACCTGATTGCCGCCGCGGTGAACGACGCGGTACGCAAGATCGAGCAGAACAGCCAGGAGAAGATGGCGGGCATGACCGCCGGCCTGCAGCTTCCGCCCGGCTTCAAGATGCCGTTCTGA	MMKGGMAGLMKQAQQMQEKMQKMQEELANAEVTGQSGAGLVSVVMNGRHDVKRVTLDDSLMQEDKEILEDLIAAAVNDAVRKIEQNSQEKMAGMTAGLQLPPGFKMPF				NA	NA	NA	NA	NA
BMS010_03293	2139	ruvB_3		Holliday junction ATP-dependent DNA helicase RuvB	ATGAGTTATCAGGTTCTTGCACGTAAATGGCGCCCGCGCTCGTTCCGCGAAATGGTCGGCCAGACGCATGTGCTCAAGGCCCTGATCAACGCGCTGGACAACCAGCGTCTGCATCACGCCTATCTGTTCACCGGTACCCGCGGGGTGGGCAAGACCACTATCGCGCGTATCCTGGCCAAGTGCCTCAACTGTGAGACCGGCATCAGCTCGACGCCCTGCGGGCAGTGTTCGGTGTGCCGGGAAATCGACGAAGGCCGCTTCGTCGACCTGATCGAAGTCGACGCCGCCAGCCGCACCAAGGTGGAAGACACCCGCGAGCTGCTCGACAACGTGCAGTACGCGCCGAGCCGCGGGCGCTACAAGGTCTACCTGATCGACGAAGTGCACATGCTGTCCACGCACTCGTTCAACGCGCTGCTGAAGACCCTCGAAGAGCCGCCGCCGCACGTCAAGTTCCTGCTGGCCACCACCGATCCGCAGAAGCTGCCGGTGACCATTCTCTCGCGTTGCCTGCAGTTCTCCCTGAAGAACATGCCGCCGGAGCGGGTGGTCGAGCACCTGACCCACGTGCTCGGCGCCGAGAACGTCCCTTTCGAGGAAGACGCCCTCTGGCTGCTCGGCCGTGCCGCCGACGGTTCGATGCGCGATGCCATGAGCCTGACCGACCAGGCCATTGCCTTCGGCGAAGGCAAGGTGCTGGCCGCCGACGTGCGCGCCATGCTTGGCAGCCTCGATCATGGCCAGGTCTATGGTGTGCTCCATGCCCTGCTCGAAGGTGATGCCCGGGCCCTGCTGGAAGCCGTGCGCCACTTGGCCGAACAGGGGCCGGACTGGAACGGTGTGCTGGCGGAAATCCTCAATGTGCTGCACCGGGTGGCCATCGCCCAGGCACTGCCGGAAGCGGTGGACAACGGCCAAGGCGACCGCGAGCGGGTCCTGGCGCTGGCCCAGGCATTGCCGGCCGAAGACGTGCAGTTCTACTACCAGATGGGTCTGATCGGCCGTCGCGACTTGCCATTGGCGCCGGACCCGCGCAGCGGCTTCGAAATGGTGCTGCTGCGCATGCTGGCGTTCCGGCCGGCGGATGTGGACGGCGCACCGAGATCGCCGCTAAAGGACCTGGGAATCAGCAAGGCCACAGCTGATTCCAGCTCGAACCCCGTGGCCGGCGCCACCATTGCGGCGCCGGTCGTTGCGCCGGCTGCCGCGCCTGCCGTCCCGCCCGCTGCACCTGCCAGCGTGATACACGCACCCGCGCCGACGCCGGTTCCCAGCGCACCGCAGGTTGCTGCGGCTCTGGAAACGGTGGTCGCACAGCCTGTTGCCGAAACGGCGCCTGCGGTGCCGTCGCCGCCGCCCCCCGTGCCTGCGGTGGCGGAAGCGGAGAAGATCGACCTGCCCTGGGAAGAGGCTGCCGCCAGCGAGGTCCCGCCGGAAATCGCTCCTGCGCCTGTCGAAGAGACTCCGGCGCCCGCCGTGGCCGAAGCGCCGAGCGCCCCGCTGGTCGAGCCAAAAGCCGTCGAGCCTGTGGTCTCTGCCGAGCCGCCGATGGCGGATGTTCCGGCGCCCGTGGATGTACCGCCGGTCGCCGAGGCCCCCATGGCAGAGGACGATGACGAGCCGCCGATGGCCGACGATTACTACGAGACGGACAGCGAGGCCTACGCCTATCTGGATGCCCTCGAGCCGGCCGAAGAAGACAGCACCGTGGCCGAGCCGGAGCCCTTGCCTGCGGTACAACCGGCCACCGGGCTGGCGGCGGAGTGGCTGGACCTGTTCCCGCGCCTGGGCCTGGGTGGCCTGACCGGGAGCATTGCCGCCAACTGTACCCTGGTCGCGATCGAGGGCGACACCTGGCGTCTGCACCTGGACCCGGCACAGAGTGCGTTGTTCAATGCCAACCAGCAGCGCCGCCTGAACGATGCCTTGAACCAGTACCACGGGCGTCCGCTCAAGCTGGAAATCGAACTGATCCGGCCGGAACAGGAAACCCCGGCCCAGGCGGCGGCGCGCAAGCGGGCCGAACGCCAGCGGGCCGCCGAGCTTTCCATCCAGTCCGACCCGCTGGTGCAGCAGATGATCCAGCAGTTCGCCGCGGTGATCCGCGACGGCACCATCGAACCCGTTGAAAGCGTGTGA	MSYQVLARKWRPRSFREMVGQTHVLKALINALDNQRLHHAYLFTGTRGVGKTTIARILAKCLNCETGISSTPCGQCSVCREIDEGRFVDLIEVDAASRTKVEDTRELLDNVQYAPSRGRYKVYLIDEVHMLSTHSFNALLKTLEEPPPHVKFLLATTDPQKLPVTILSRCLQFSLKNMPPERVVEHLTHVLGAENVPFEEDALWLLGRAADGSMRDAMSLTDQAIAFGEGKVLAADVRAMLGSLDHGQVYGVLHALLEGDARALLEAVRHLAEQGPDWNGVLAEILNVLHRVAIAQALPEAVDNGQGDRERVLALAQALPAEDVQFYYQMGLIGRRDLPLAPDPRSGFEMVLLRMLAFRPADVDGAPRSPLKDLGISKATADSSSNPVAGATIAAPVVAPAAAPAVPPAAPASVIHAPAPTPVPSAPQVAAALETVVAQPVAETAPAVPSPPPPVPAVAEAEKIDLPWEEAAASEVPPEIAPAPVEETPAPAVAEAPSAPLVEPKAVEPVVSAEPPMADVPAPVDVPPVAEAPMAEDDDEPPMADDYYETDSEAYAYLDALEPAEEDSTVAEPEPLPAVQPATGLAAEWLDLFPRLGLGGLTGSIAANCTLVAIEGDTWRLHLDPAQSALFNANQQRRLNDALNQYHGRPLKLEIELIRPEQETPAQAAARKRAERQRAAELSIQSDPLVQQMIQQFAAVIRDGTIEPVESV				NA	NA	NA	NA	NA
BMS010_03294	732			hypothetical protein	ATGCGCCAAATCGCGCTGTTGTTGATGTTCTGTTCATGCGCCCTGTGCCAAGCCGCGCCGGAGCCGCTGCGTTTTTCGGTCATGGAAAGCTGGGCCATGCCCATGGCCAGCATCGATAACGGGCAACTGACCGGCGGCATCATGCGTGACCTGATGCTCGAATTGGCCGAGCGCGTCGGCCGGGAGGCGGAATTCCTGGTCATGCCTCGCATGCGCGTCCTCCTCGCCCAGCAGAATCGCGAGTTCGACGTGCGCTGCTACGTGGCCCGCTCCTGGGTGCCCGATGCAGACGACGGCTACGCCTGGAGCCCGCCTTACATGGAACAACGCGATCTGCTGGTCGCCCGCCAGGATACCCCGATGGAACTGAAGCCGAGCGACAGCCGGGCCCAGCTCATCGGCACCGTGCTGGGCTACAGCTATCCGAAGCTGCAGACCTATTTCGACCAGGGCAGCCTGCTCCGCGACGATGCGCGCAGCCAGGACCTGGTCCTGCAGAAACTCCTCGCCCGCCGCTACGACCTGGCCGTCAGCAGCGACCTCGCCCTGACCTGGTTCAACCTCCAGCACGAGAGCGACGATCGCCTGGTGGCCATCGACGTGCTCGAGCGCACGCCCCTCAGCTGCATGGTGCGCAAGGCCGCGGACATACCGACGGAACGCATCCTGCAGGCGCTGGAGGAGATGAAAGCATCGGGAGAGATCGAAAGGATCGTGGCGCGCTATCGCTGA	MRQIALLLMFCSCALCQAAPEPLRFSVMESWAMPMASIDNGQLTGGIMRDLMLELAERVGREAEFLVMPRMRVLLAQQNREFDVRCYVARSWVPDADDGYAWSPPYMEQRDLLVARQDTPMELKPSDSRAQLIGTVLGYSYPKLQTYFDQGSLLRDDARSQDLVLQKLLARRYDLAVSSDLALTWFNLQHESDDRLVAIDVLERTPLSCMVRKAADIPTERILQALEEMKASGEIERIVARYR	PGPT0020800_16153	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_03296	1635			hypothetical protein	ATGCTGAAAGCCTTCGCCGATCTGGGTTTCCGCTGGAAAATCGCCTTGCCCATCCTGCTTATCGCGCTGTTGCTGGTGGTGATCGGAGGACTTGGCATGCAGGCGATCGGCCAGGTGGCCGACGCCAATGGCAAGCTCACGCATCGTTATCTCCCGGCAGTCAGCCTGTTGTTGAACGCCGACCGGGACCTCTACCAGGCTTTCGTTGCCGAGCGCAGCCTGCTGAACCCCTCGGGCGTCGAGCGGTTACAGGCGTTGGAGAAATTTCACCAGGAGAACATCCAGCAGGCCTACGACCGCGTACACAAATACGCGGCCATGCGTCCCAGCGAGGAAGCCCAGAAATGGGTGATGCAGTTCGATAGCGGCTTGGAGCGCTGGAAAGGCCTGAGCCAACAGGTCGTCCGCCTGGCTGGCAGCGATCCGCAGGCGGCTGCCGTGCTGAGTTTCGGCGACAGTGAGCGGCAGTTCGAGGCGGTGCGCGATGCCATCGACAAACTGGGCGAACTGGAGGACGGCGAGGCCAATACCGTGGGCACCGCCGCCATCGCCGAGAGCGAGACGCGCGCCTGGCAGCAGGGCGCTGCCATTGTCGTCGGGCTGCTGATCTGCCTGGTACTGGTGGTCGGTTTCCCGGTTCTGGTGACCCGCCCGCTGCAAAACCTGTTGCACCGCATCGAACAGATCGCCGAGGGAGACGGCGACCTGCGGGTGCGGCTGGAAGTGACGTCGCGGGACGAGCTGGGCCAGCTCGGGCTCGCCTTCAATCGTTTCCTCGACAAGCTGCAGCCGCTGATTCGCGAAGTGGGGCGGGTCACCGGCGAAGTGGCCCAGTCCGCCGATAGCCTGGCCGGCATGTCGGCGGCCAACGACCGGTTGATCAGCAGCGAACACGCCGCGGTGGACCAGGTCAGCGCTGCGGCCACGGAGATGAGCGCAGCGGTCCATGAGGTCGCGCGCAACGCCCAGCAGGCCGCCGACGCGGCGCGGACCGCCGAGGAACAATCCCATGAGGGTGCCCAGGTGGTTGGGGCGACGATACAGGCGATCCACCAATTGGCCAGGGAGGTGGAAACGGCCTCGGGCAGTATCGGCGCGCTGGAGCAGGAGACCGCCAACATCGGCGCGGTTCTGGCGGTGATCAAGGGCATCGCCGAGCAGACCAACCTGCTGGCACTCAACGCCGCCATCGAAGCGGCGCGGGCCGGCGAGCAGGGCAGGGGCTTCGCGGTGGTGGCCGACGAGGTGCGGGCCCTGGCGGCGCGCACCCAGGAATCGACCAAGGACATCCAGGAAATGATCGAGCGCTTGCAGCAGGGCGTGCAGAACGCCGTGCGCGCCATGCACTCGGGCAGCCAGCAGGCGCGCGGCAGCGTCGAGCGGGCGGCGGGTGCGGATCAGGCGCTGTCCAGCGCGGGCGATTCGGTGCAGCGGATCAACGAGATGGTCGCCCAGATCGCCAGCGCCTGCGAGGAGCAGAGCAGCGTCACCGACGAGATCGCCCGCAACATCAGCGACATCCGCGACCTCTCCAACGAAGCAGCACACACCTCGGAGCAAAGCTCCCAGGCCAGCCGGCGGCTGTCCGAGCTGTCCCATGGCCTGGCGCAACTGGTGGGGCGGTTCCGCGTCTGA	MLKAFADLGFRWKIALPILLIALLLVVIGGLGMQAIGQVADANGKLTHRYLPAVSLLLNADRDLYQAFVAERSLLNPSGVERLQALEKFHQENIQQAYDRVHKYAAMRPSEEAQKWVMQFDSGLERWKGLSQQVVRLAGSDPQAAAVLSFGDSERQFEAVRDAIDKLGELEDGEANTVGTAAIAESETRAWQQGAAIVVGLLICLVLVVGFPVLVTRPLQNLLHRIEQIAEGDGDLRVRLEVTSRDELGQLGLAFNRFLDKLQPLIREVGRVTGEVAQSADSLAGMSAANDRLISSEHAAVDQVSAAATEMSAAVHEVARNAQQAADAARTAEEQSHEGAQVVGATIQAIHQLAREVETASGSIGALEQETANIGAVLAVIKGIAEQTNLLALNAAIEAARAGEQGRGFAVVADEVRALAARTQESTKDIQEMIERLQQGVQNAVRAMHSGSQQARGSVERAAGADQALSSAGDSVQRINEMVAQIASACEEQSSVTDEIARNISDIRDLSNEAAHTSEQSSQASRRLSELSHGLAQLVGRFRV	PGPT0015710_20111	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_03297	1029			hypothetical protein	ATGAACAAGGTCAATCTGCTGTTGGCCACGGTGGCCGTGTTGTCGGGATGTCAGACCATGGGTCCGGATGCGGGCGGGAACAGCCGTTCCGGCTACTACGACGGTAGCCGCTCGGTGCTCTACCAGGTGCAGAAGGAAGCCACCTCGGCGGGCCAGGCCATGGTCATGGCGACCGTGGCCTATCGCGGCGGTGATCTGGACCAGGCCCTCTACCAGTACTTGCGCGCCATCGAACTGGACCCGAAGCGTTACGAGGCGCTGGTCTGGGTCGGGCGAATTCACCGCGAGCGCGGCAACGATCAGTTGGCCGAGCTGGCCTTCGCCGACGTACTGAACAGCGCGCCGGACAACCTGGAGGCCTTGACCGAGATGGGTCTGCTGCAACTGTCCCGGCGCAACCAGGGCAAGGCTGCGGAGCTGCTCGGCAAGGCCGTCGCCCTCGACCAGAAGCGCCTCGGTGGCGGAGCGGGCGAGCTGAAGGTGGACAGCCAGTCGCCGCTGAAGGTCTACAACGGGCTTGGTGTCCTGGCGGACCTGAATGGCGATTTCGACAAGGCCGGGAGTTACTACCGCCTGGCCTTGCAGATCGACCCGCGCTCGGCGCTCACCCTCAACAGCCTGGGCTATTCCCATTACCTCGGCGGGCGTTGGCTGGAGGCGGAGCAGACCTACCGGCGCGGCGTGGCCTACGACAGCCGCTACAAACCGCTGTGGCGCAACTATGGCCTGCTGCTGGCGCGGATGGAGCGCTACGAGGAGTCGCTGTCGGCGTTCCAGCAGGTCGAGGGCGACGCCGAGGCGAGCAACGACGTCGGCTACATCTGCCTGATCGAAGGCAAGCTGGACGAGGCCGAGCAGTTCTTCCGCAGCGCCATCGAGCAGTCCCCCTCCCACAACGAGGCCGCCTGGCAGAACCTGAACCGGCTGCAGCAGATTCGCCGCATCCGCCAGCTCGGCATGTCCCAGCCGATATCGGAAGCGGTCGTTACGGCACCGACTCCCGTGACGGAGGCAATCGCGCAGCAGTGA	MNKVNLLLATVAVLSGCQTMGPDAGGNSRSGYYDGSRSVLYQVQKEATSAGQAMVMATVAYRGGDLDQALYQYLRAIELDPKRYEALVWVGRIHRERGNDQLAELAFADVLNSAPDNLEALTEMGLLQLSRRNQGKAAELLGKAVALDQKRLGGGAGELKVDSQSPLKVYNGLGVLADLNGDFDKAGSYYRLALQIDPRSALTLNSLGYSHYLGGRWLEAEQTYRRGVAYDSRYKPLWRNYGLLLARMERYEESLSAFQQVEGDAEASNDVGYICLIEGKLDEAEQFFRSAIEQSPSHNEAAWQNLNRLQQIRRIRQLGMSQPISEAVVTAPTPVTEAIAQQ	PGPT0030850_460	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-PHOTOSYSYSTEM_ASSEMBLY,PGPT0030850-ycf3-NA
BMS010_03298	969			hypothetical protein	ATGGATTATCTGCTCGGTCTGATCAATAACGCAGTCGGCAACGAGCAGGCTGCGCGCCTGCTGTTCGTCGGCGCCATCGGGCTCAGTGCCTTGCTGGCCGCCGTCACGCTGGTCATGTTGGTCCAGGGGCTGCAGGACCCGGTGCAGCGGCGCCTGAGCCTGCTCAAACGCGGGCACGGCGAGCTGGCCCATGGCGAGCCGCCGCCGAGCAACCTGCAACTGATGTTGGAGCAGGTGGGGCAGCGCTTCTCTTCGGCGGAGGAGGGCAAGGTCTCGGCGACCCGCACCCTGCTCACGCATGCCGGCTATCGCTCGCCGTCGGCGCCGCAAGTCTACTGGGCCGTGCGGCTGCTGCTGCCGCTGCTGCTGATCGGCGTCGCCTTCCTCGGTCTGCCGCTGATTCCCAAGCTGTCCCTGCTGGTGGGTGTGCTGCTGGTCGGCTCGGCGGCGGCGGTCGGCTGGCTGCTCCCGGCGATCTACGTGGACAAGCGCAAGCAGGCACGGATGGGCCGGCTACGGGCGGCCTTCCCCGACGCGCTGGACCTGATGGTGGTCTGCGTCGAATCGGGATTGGCGCTGCCCCAGGCGATGGAGCGGGTGGCGGAGGAAATGACGGTGAGCCAGCCGGAACTGGCGGAGGAGCTGGCGCTGGTGAACGTGGAAATCCGCGCCGGTATCCCCAGCACCGAGGCGCTCAAACACCTCGCCGACCGCACCGGCCTGGAGGATGTGCAAGGGTTGGTCAGCCTGTTGGCGCAGAGCATCCGCTTCGGCACCAGCGTGGCCGATACCCTGCGCATCTACGCCGAGGAGTTCCGCGACCGGCGTACCCAGGCCGCCGAGGAAATGGCGGCGAAGATCGGCACCAAGCTGGTCTTTCCCCTGATTTTCTGTTTGTGGCCCAGCTTTTTCCTGGTCGCCATCGGCCCCGTGATCATCGGGATACTCAGAACCTTCGGGAAGCTTTGA	MDYLLGLINNAVGNEQAARLLFVGAIGLSALLAAVTLVMLVQGLQDPVQRRLSLLKRGHGELAHGEPPPSNLQLMLEQVGQRFSSAEEGKVSATRTLLTHAGYRSPSAPQVYWAVRLLLPLLLIGVAFLGLPLIPKLSLLVGVLLVGSAAAVGWLLPAIYVDKRKQARMGRLRAAFPDALDLMVVCVESGLALPQAMERVAEEMTVSQPELAEELALVNVEIRAGIPSTEALKHLADRTGLEDVQGLVSLLAQSIRFGTSVADTLRIYAEEFRDRRTQAAEEMAAKIGTKLVFPLIFCLWPSFFLVAIGPVIIGILRTFGKL	PGPT0022295_676	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0022295-tadC-K12511	NA	NA
BMS010_03299	987			hypothetical protein	ATGAGCCAGATTCCGACAGAACTGATCATCGCCTTTCTCGGCATGGTCTTCACTGCGGTGTTCCTGCTCAGTCAGGGGCTGGTAGTACCGGTATTCGGCGAGGCGGGGCGGGTGCGCAAGCGTATCCGCAGCCGCCTGCATGTGCTGGAGAAGGCCAGCAACCTGCCGAACATGCAGACGGTGCTGCGGCAGAAGTACCTCAAGCGCCTGTCGCCGCTGGAGGCGGCGCTGGAACAGTTGCCCTGGATGGAAAACCTCGCGCAGACAATCGAGCAGGCCGGCCATGAGTACCGCGCCTATCGGGTACTGATGCTGGGGTTGGTGCTGGGCTGTGGCGCCGGCCTGCTGGCCTGGCTGGTGTTCAAGGTCTGGTGGGTCGCCTTGCCGGTGGCAGCGCTGGTGTTCTGGTTGCCGCTGGTGAAGATCGCCCGCGACCGCGCCAAGCGCTTCATGGCCTTCGAAGAGGGCTTGCCGGACGCACTGGATGCTATCTGCCGCGCGCTGCGTGCCGGCCACCCGTTCAACGAGACCCTGCGCCTGGTGGCCGAGGAGCATAAAGGCCCGGTGGCCCACGAGTTCGGCCTGACCTTCGCCGACATCAACTACGGCAACGACGTGCGCCGGGCGATGCTCGGCCTGCTGGAGCGCATGCCGAGCATGACGGTGATGATGCTGGTGACCTCGATCCTCATCCACCGCGACACCGGCGGCAACCTCACCGAGGTGCTGGAGCGGCTGAGCAGCCTGATCCGCGGACGCTTCCGCTTCCAGCGCAAGGTCAAGACGCTGTCCGCCGAGGGGCGTATGTCCGCCTGGGTGTTGGTGGCGGTGCCCTTCGTACTGGCGGCGGCCATCGTGCTGACCTCGCCCGAGTACCTGCCCATGCTGATCAAGGACCCGCTGGGACAGAAGATGGTCATGGCGGCGTTCGGCGCGATGCTGCTGGGCATCCTGTGGATTCGCAAGATCATCCGGATCCAGGTGTAG	MSQIPTELIIAFLGMVFTAVFLLSQGLVVPVFGEAGRVRKRIRSRLHVLEKASNLPNMQTVLRQKYLKRLSPLEAALEQLPWMENLAQTIEQAGHEYRAYRVLMLGLVLGCGAGLLAWLVFKVWWVALPVAALVFWLPLVKIARDRAKRFMAFEEGLPDALDAICRALRAGHPFNETLRLVAEEHKGPVAHEFGLTFADINYGNDVRRAMLGLLERMPSMTVMMLVTSILIHRDTGGNLTEVLERLSSLIRGRFRFQRKVKTLSAEGRMSAWVLVAVPFVLAAAIVLTSPEYLPMLIKDPLGQKMVMAAFGAMLLGILWIRKIIRIQV	PGPT0022290_387	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0022290-tadB-K12510	NA	NA
BMS010_03300	1431			hypothetical protein	ATGTTCAGTGATTTTCGCAGCCGATTGCGCCAGCAGCCGGCCAAGAGTGGAAGCAGAGGGGACGAGGCGGATGGCAAGGCCGCCACGTTCGAGGAAGGTCTGGCCTGGGAGCAGTGCGCCCCGACCGAAACCTATGAAACCCGCACCCAGCTCAGTCCGGTGGAGGCCGAGTGGCGCGAGCGGATCTACCAGCAACTGCTCAAGGTCATGGACCTGTCGCTGCTGGATTCCCTGGAGCCGGCCGACGCGGCGCGGCAGATCCGCGACATCTGCCAGCGCCTGCTGGACGATCATTCGGCCCCGGTGAGCGCGTCGAGCCGGCAATTGATCATCAAGCAGATCACCGACGAAGTGCTCGGCCTTGGGCCGCTGGAGCCGCTGCTGGCCGACCGCAGCGTGTCGGACATCCTGGTCAACGGCTATGCCTCGGTGTACGTCGAACGCTTCGGCAAATTGCAGAAGACCGACGTGCGCTTCCGCGACGACCAGCATCTGCTGAACATCATCGACCGCATCGTCTCCAGCCTAGGACGGCGCATCGACGAATCGTCGCCGCTGGTGGACGCGCGGCTGAAGGACGGTTCGCGGGTCAACGCGATCATCCCACCACTGGCCATCGACGGGCCGAGCATGTCGATCCGCCGTTTCGCGGTGGACCTCTTGAGCAGCGACAGCCTAGTCGAGATGGGCACCCTGACGCCGGGCATCGCCCTGATGCTCAAGGCCATCGTGCGCGGTCGCCTGAATGTGCTGGTGTCCGGCGGCACCGGGACCGGCAAGACCACCATGCTCAACGTGCTGTCCAGCTTCATCCCGCACAACGAGCGGATCGTCACCATCGAGGACTCCGCCGAGCTGCAATTGCAGCAGCCGCATGTGGTGCGCCTGGAAACCCGCCCGTCGAACATCGAGGGGCGTGGCGAGGTGAACCAGCGCGAGCTGGTGCGCAACAGCCTGCGGATGCGCCCGGACCGCATCGTCATCGGCGAGGTGCGCGGCGCCGAGGCGCTGGACATGCTCACCGCGATGAACACCGGCCACGACGGCTCGCTCACCACCATCCACGCCAACACCCCGCGCGACGCCCTGGGGCGGATCGAGAACATGGTCTCCATGACCGGTGCGACCTTCCCGATCAAGGCCCTGCGCCAGCAGATCGCCTCGGCCATCGACGTGGTGGTCCAGCTCGAGCGCCAGGAAGACGGCAAGCGGCGGCTGGTGAGCGTGCAGGAAATCAACGGCATGGAAGGCGACATCATCACCATGACCGAAATCTTCGCCTTCGAACGGCGCGGCATCGGTGAAAAAGGCGAAGTCCTCGGTGACTACCGGCCGACCGGTATGGTCCCCGGCTTCCGCGAGGAACTGGCCAAGCGCGGTATCGAGTTGCCGCTGAACCTGTTCCGCCCCGAGTGGATGGAGGCCGTGTAG	MFSDFRSRLRQQPAKSGSRGDEADGKAATFEEGLAWEQCAPTETYETRTQLSPVEAEWRERIYQQLLKVMDLSLLDSLEPADAARQIRDICQRLLDDHSAPVSASSRQLIIKQITDEVLGLGPLEPLLADRSVSDILVNGYASVYVERFGKLQKTDVRFRDDQHLLNIIDRIVSSLGRRIDESSPLVDARLKDGSRVNAIIPPLAIDGPSMSIRRFAVDLLSSDSLVEMGTLTPGIALMLKAIVRGRLNVLVSGGTGTGKTTMLNVLSSFIPHNERIVTIEDSAELQLQQPHVVRLETRPSNIEGRGEVNQRELVRNSLRMRPDRIVIGEVRGAEALDMLTAMNTGHDGSLTTIHANTPRDALGRIENMVSMTGATFPIKALRQQIASAIDVVVQLERQEDGKRRLVSVQEINGMEGDIITMTEIFAFERRGIGEKGEVLGDYRPTGMVPGFREELAKRGIELPLNLFRPEWMEAV	PGPT0016025_1022	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016025-cpaF-K02283	NA	NA
BMS010_03301	1221			hypothetical protein	ATGTTGAAGTCGAGAGAGGCATCCATTGCCACCGCTGCCCGCAAGCAGGGCCTGAGCCTGTTGATCAGCAGCCGCGACGCTGGCGCCCTGCGTCATCTGCAGGGGCTCAGCCAGCGCATCCCCAGCCTGAGGGTGAACACCCGCCTGGTCACCAACGGCCATACCGACCCGCTCTATGGGCTGGAGCAGATGCCCGACCTGCTGCTGTTGCGGGTCAGCCACCTGTGGCGCGAGGAGCTGGATGCACTGCTGCAGCGCCCCGCCCACGAACGGCCGCCGCTGCTGGTCTGCGGCCCCCTGGACGAGCGGGAAGGGATGCGCCTGGCGATGCAGGCCGGGGCGCGCGATTTCCTGCCCGAGCCGGTGGCTGCCGAGGAGTTGCTGAAGGCCCTCGGCCGCATGGTGTCGGAAAGCCGCTCGGGCGGTGGTGCGACCGGGCAACTGGTGGCGGTGATGAATGCCAAGGGCGGCTCCGGCGCCACTCTGCTGGCCTGCAACCTGGCCCAGCAACTGAGTGCCAAGGTCGGCAGCACGCTGCTCCTCGATCTGGACCTGCAATTCGGCAGCGTCTCGCATTACCTGGACGTGCATCCGAACCACAGCCATGTGGAGGTGTTGCAGCAGATCGACGACATGGACGGGGTGGCGCTGCGAGGTTTCTGCAGCCATTTCAGCCCGACGCTACACATCCTCGGCGGTCGCCTGGACGAACTGTGCCTGCCGCAGGACGTGCAGGCCGAGCAGCTCGAAGCCCTGTTGCGGCTGGCCAAGGACAACTACGAATGGACCGTGGTGGACCTGCCGCGGCAGATCGATCACCTGACCGGGACGGTGCTGGAACAGGCCGACCGGATCTACGTCCTGGTCCAGCAGAGCATCAGCCATCTCAAGGATGCCGGCCGGCTGGTGCGCATCCTGCGCGACGAGCTGGGCGTCCAGGGCGGCCGCCTGCAAGTGGTGGTGAACCGTTACGACAAGGGCTCGCCGATCAGCCTGCGGGACATCGGCGAAGCCCTGCGTTGCACCGAATTGCAGAAGCTGCCGAACGACTTCGCCGTGGTCAGCGAAAGCCAGAACGCCGGGGTGCCGCTGGATATCCATGCGCCGCGGGCACCGATCACCCAGGCATTGCGCGAATTGAGCAAGGAACTGGCCGGGCATCAGGCCGATGCGGGGCAGAGCCTGTTCAAGCGTGCGTTCAGCCGCTTTTTCGGGGAGTGA	MLKSREASIATAARKQGLSLLISSRDAGALRHLQGLSQRIPSLRVNTRLVTNGHTDPLYGLEQMPDLLLLRVSHLWREELDALLQRPAHERPPLLVCGPLDEREGMRLAMQAGARDFLPEPVAAEELLKALGRMVSESRSGGGATGQLVAVMNAKGGSGATLLACNLAQQLSAKVGSTLLLDLDLQFGSVSHYLDVHPNHSHVEVLQQIDDMDGVALRGFCSHFSPTLHILGGRLDELCLPQDVQAEQLEALLRLAKDNYEWTVVDLPRQIDHLTGTVLEQADRIYVLVQQSISHLKDAGRLVRILRDELGVQGGRLQVVVNRYDKGSPISLRDIGEALRCTELQKLPNDFAVVSESQNAGVPLDIHAPRAPITQALRELSKELAGHQADAGQSLFKRAFSRFFGE	PGPT0016020_941	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016020-cpaE-K02282	NA	NA
BMS010_03302	528			hypothetical protein	ATGAATCCCCGGGGCATGCGTGGCGTCTATGTGGTGGAGTTCGCCATCATCGGCCTGCTCCTGTTCACCCTGCTGTTCGGAGTATTGGAGTTCGGCCGGCTGTACTTCACCGTCAATACCCTCAGCGAGGCCGCCCGGCGCGGCGCGCGGCTGGCGGCGGTGTGCGACATCCAGGACCCGGTGATCCTGCGCCGGGCGATCTTCAACTCGGCCGACGATGCCGGGCAGAGCGTGCTGGTCGGCAACCTGGACACCGCCGACCTGAACCTCAGCTACCTGGACGAGTCCGGCAACCCGGTGGGCAGCCCGGCCTCGGCTTCCGGTGGGTTCCAGAACATCCGCTATGTGCGCCTGCGGATCGAGAACTTCACCTTCAACTTCCTGGTTCCGGGGTTCACCGGGGTCCTGACCCTGCCCGTCTTCCAATCGATCGTGCCCCGCGAAAGCCTGGGCGGCCATGCCGATGGCGCGCAGCCATACGATCAACCATCGAATGTCGATCCTTCCGTAGGGGTCACGCCATGTTGA	MNPRGMRGVYVVEFAIIGLLLFTLLFGVLEFGRLYFTVNTLSEAARRGARLAAVCDIQDPVILRRAIFNSADDAGQSVLVGNLDTADLNLSYLDESGNPVGSPASASGGFQNIRYVRLRIENFTFNFLVPGFTGVLTLPVFQSIVPRESLGGHADGAQPYDQPSNVDPSVGVTPC				NA	NA	NA	NA	NA
BMS010_03303	468			hypothetical protein	ATGGCCACTGTTGCATTCAAGCGGCGCAAGGACCAGCAGGGGGTGGCCATGGTGGAGTTTGCCGTCGCCTTGCCCTTGTTGCTGCTCCTGTTGTTCGCCGTGGCTGAGTTCGGCCGCATGCTTTACCACTACAACACCTTGCTGCAATCCAACCGCGACGCGGTGCGCTACCTCGCCGGCAAGGCCTGGAACGGCACCCTCGGGCAGGTGGCGATCACCCCGGCCCTGCAGACCGAGACGCGCAATATCGCCGTCTACGGGGTGCCGGTGGCGCAACCGGGCAACGAGGTGGTGCCGGGCCTGAGCGTCACGAACGTACAGGTCGGCGCCGTGGGGACCACCCATGTGCAGGTCAGCATCAGCTACGTGTTCCAGCCGGTGATCGGCAACAGCATCCCGGCGTTCGTCGGTGATGCGATTACCCTGAACATCCCGCTGATCGCCACCACCGTCATGAGGGCGCTGTGA	MATVAFKRRKDQQGVAMVEFAVALPLLLLLLFAVAEFGRMLYHYNTLLQSNRDAVRYLAGKAWNGTLGQVAITPALQTETRNIAVYGVPVAQPGNEVVPGLSVTNVQVGAVGTTHVQVSISYVFQPVIGNSIPAFVGDAITLNIPLIATTVMRAL				NA	NA	NA	NA	NA
BMS010_03304	1347			hypothetical protein	ATGAGCACCCGGATGCAGCGACCCTTCGGCCCGGCGCCACGGCGTCAGCGGGGCGCGGTGATGGTGCTGATCGTCATCGCGCTGGCGTCGATCCTGCTGATGTCGGCACTGGCGCTGGATGGCGGGCACATGCTGCTGAACAAGACTCGCCTGCAGAATGCGGTGGACGCTGCCGCGCTCAGCGGGGCCAAGACCCTGCAGCAATTGGCGGGGTCGGGCAACGCATCGAGCCTGTCGCGGGACGCCGCCCTGGCCACCCTGACGCTGAATGCCAACGCCAACGGCAATGGCGAGCTGGCCCAGGCGCTGGCCGCCGTCGGTGGGGCCGGGAACATGGCGGTGGTGGAGTTCGCCGCCAGCGTGTATGGCCCGTTCTCCTATCCGGGGCCGGCAGACTCGCGCTACGTGCGGGTGTCGGTGCCGGATTACCCGCTGGCCGGCTTCTTCTGGAACTTCGCCCAGGTGTTCGGCGGCGGCCAGTTGGGCGACAAGGCCGTGGCGGCTATCGCCACGGCTGGGCCGAGCCCGTCGGCGTCGCCCTGCAAGATCGAGCCGATCATGGTCTGCGGCAACCCTAACGACGACCCGGCGGAAAACGGCGGCACCTCCTACTGGGGTTACGGCTTCGGTGACCTGGAGGTGCTCAAGAGCGCGGCGGGCAACGCTTCCGTCATCGGGCCCGGCAACTTCCAACTGCTGCGCCTGGATGGCGCTACCGGTGCCAATGACCTGCGTACCGCGCTGGCTGGCGGCATCGAGAAATGCAACGTGGTCGGCGACGAAGTGGGAACCGAGCCCGGCAATACCGTGGGGCCGGTGGCTCAGGGGCTGAATACCCGCTTCGGGGAATACACCGGCCCTGGCATGAACCCCACCGATTACCCGCCTGATTGGGTCACCCAGTTCAGTCAGCCGCGCATGACATACAACGGCACGACCTCGCAGGTGGAGTACCAGGGCCAACCGGTGGTTTCCAACGGCGGCGACCTCAGCGCCGGCGGAACGCCGCTCTACGATCTCAACGACTGGCTTGCCGACAGCGCCGCCTGCGCGGCGTCCGGCACCTGCCAGGGCGCCCACGAGCGCCGCATGCTGAACATCGTGATCGGCAACTGCACTGGCGAGTCGGGCGGGCAGGTGGACGTGCCGGTGCTGGACTTCGGCTGCTTCTTCCTGTTGCAGACCGTCCGCCAGCAGGGCTCCGAGGCACAGGTGTTCGGCCAGTTCATCAAGGAGTGCGAGGGCGACGGGGTGGCGGGGCCGACACCGGCCAATGACGTCGGTCCGGTGATCATCCAGCTCTACAAGACCTATATCACCCCCTCGACCCCCAGCACCGACTCCTAG	MSTRMQRPFGPAPRRQRGAVMVLIVIALASILLMSALALDGGHMLLNKTRLQNAVDAAALSGAKTLQQLAGSGNASSLSRDAALATLTLNANANGNGELAQALAAVGGAGNMAVVEFAASVYGPFSYPGPADSRYVRVSVPDYPLAGFFWNFAQVFGGGQLGDKAVAAIATAGPSPSASPCKIEPIMVCGNPNDDPAENGGTSYWGYGFGDLEVLKSAAGNASVIGPGNFQLLRLDGATGANDLRTALAGGIEKCNVVGDEVGTEPGNTVGPVAQGLNTRFGEYTGPGMNPTDYPPDWVTQFSQPRMTYNGTTSQVEYQGQPVVSNGGDLSAGGTPLYDLNDWLADSAACAASGTCQGAHERRMLNIVIGNCTGESGGQVDVPVLDFGCFFLLQTVRQQGSEAQVFGQFIKECEGDGVAGPTPANDVGPVIIQLYKTYITPSTPSTDS				NA	NA	NA	NA	NA
BMS010_03305	270			hypothetical protein	ATGAAAGCCTTGATTCCTGTCTTCCTGCTGCTCGGCCTGGCCGGCTGCATGACCTACGACGAGGCCCGGGTGGGCACGCTGGGCTACAGCGTCTACCAGACTCATTACCAGCAGATCGCCAACAAGGATGTGGCGGCCAGCCCCGGTACCGAGGTGTCGCCCACCGGCACCGACGGCCCGCTCACCGAGAAGGTGATGGACGGTTATCGCGGTGTGACCGGCAACGCCGCGCAGGTCGGCCAGCCGATCCAGATCAACATCGGCGATTGA	MKALIPVFLLLGLAGCMTYDEARVGTLGYSVYQTHYQQIANKDVAASPGTEVSPTGTDGPLTEKVMDGYRGVTGNAAQVGQPIQINIGD				NA	NA	NA	NA	NA
BMS010_03306	1467	sctC_2		Type 3 secretion system secretin	ATGGACATCATCCGCAAACTTTGGTCGTGCGCACTGTCTGCGATGGCTGCCGGCCTGCTGCTGGTCGCCTCGGTGCAGGCAGCCCAGCCGATGCCCGCGGTCAATGCGATGCCGGCGGCCAACGTGAGCAATATCCAGGTGCCGATCTACAAGTCGCGGGTGCTGACCACCCGGGCACCGGTGAAGAAGATCTCGGTCGGCAACCCGGAGATCGCCGACATCCTGATCACCAGCCCGACCCAGCTCTATCTGCTCGGCCGTTCCCTGGGCAGCACCAACGTGTTGCTCTGGGATGGCAACAACCGGCTGATCGACAGCCTGGACCTGGAAGTGGTGCATGACCTGGGCAGCCTGAAGACCAAGCTGCACGAGCTGATGCCCGACGAGAACATCTCCGTCTACAGCGCCCAGGGCGCGCTGGTCCTGCGTGGCCAGGTGAGCAGTGCGGCGGCGATGGATTCGGCGGTGAAGCTGGCCAAGACCTATGCCGCCCAGAGCCAGAGCATCGTGCAGGGCAAGGGGGAGGCCGCCGAAGCCGTGCCGACCCAGTCGCTGGACGTGGTCAACCTGATGACCATCGGCGGCAGCCAGCAGGTGATGCTGGAAGTGAAGGTGGCAGAGATGCAGCGCAGCCTGGTCAAGCGGCTTGGCGTGCGCTTCCTCGCCATCGGCAAGTCGGGCAACTGGGACCTGGGCGGCTTCAATGACAGCGCGTCCCTGGCCGAGACGTTGCTGAGCAGCGACAAGGGCTTCCTGGCGCGCTTTTCCTCGGGCAGCTTCCTGTTCGACGCGGTGCTCGAAGCGGCCAAGGAAAACGGTTCAGCCAAGGTCCTGGCGGAACCAACCTTGACCACCCTGACCGGGCAGCAGGCCGAGTTCATCTCCGGCGGCGAATTCCCGATCCCGGTCTCGGACGATGACGGCATCACCATCGAGTTCAAGGAGTTCGGCGTCGGGGTGAAATTCCTCCCGGTGGTGCTCGACCAGGGCCGCATCAACCTCAATCTGAACGTGTCGGTCAGCGAACTGGTGTCGGCCAACAGCCTGGTGGTGAGCACCGGCGATGCGGTCGAGGCCTCCCTGCTGGTGCCGGCGCTGACCAAGCGCAGCGCGCAGTCCACCGTGGAGCTGGGCAACGGCCAGACCATCGCCATCGCCGGCCTGATCAGCGAGAACACCCGCGACTTCGTCAGCCGCTTCCCCGGCCTGGGCGACGTGCCGGTGCTCGGCCATCTGTTCCGCAGCCAGGAGTTCATCAACGGCGAGACCGAGCTGGTGATCCTGGTGACGCCGCATCTGGCCAAGCCCATCGATGCCAGGACGGTGCGCCTGCCCACCGAGAAGATCGTGGAGCCAGGCGACATGGATTTCTACCTGCTCGGCAAGACCAAGGGCGAAGGCCCGGCACGCCAAGTGCCGGTGAGCCTGGGCGTCTCCGGCGGCAGTTTCGGCCACGACCTCGACTAG	MDIIRKLWSCALSAMAAGLLLVASVQAAQPMPAVNAMPAANVSNIQVPIYKSRVLTTRAPVKKISVGNPEIADILITSPTQLYLLGRSLGSTNVLLWDGNNRLIDSLDLEVVHDLGSLKTKLHELMPDENISVYSAQGALVLRGQVSSAAAMDSAVKLAKTYAAQSQSIVQGKGEAAEAVPTQSLDVVNLMTIGGSQQVMLEVKVAEMQRSLVKRLGVRFLAIGKSGNWDLGGFNDSASLAETLLSSDKGFLARFSSGSFLFDAVLEAAKENGSAKVLAEPTLTTLTGQQAEFISGGEFPIPVSDDDGITIEFKEFGVGVKFLPVVLDQGRINLNLNVSVSELVSANSLVVSTGDAVEASLLVPALTKRSAQSTVELGNGQTIAIAGLISENTRDFVSRFPGLGDVPVLGHLFRSQEFINGETELVILVTPHLAKPIDARTVRLPTEKIVEPGDMDFYLLGKTKGEGPARQVPVSLGVSGGSFGHDLD	PGPT0016010_600	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016010-cpaC-K02280	NA	NA
BMS010_03307	813			hypothetical protein	ATGAACGCGCGCACGCTGATGTTGATCGGACTCTCGCTGGCCCTCGGGCTGGGCGCGGCCTGGATGGCCAACAACTGGCTGAGTGCCCGACTCGCTGCCGGGCCGGACGACAACCTGCAGAGCGTCGTGGTGGCGACGGTGGAAATCCCTTTCGGGCAAATGGTCGAGGCCCAGCATGTGAGCCTGGTGCGGATGCCCAAGGGCACGGTGCCGGACGATGCCTTCGACAGCGTGGACAAGGCCGTCGGCAAGATCGCCACCTTCGGCATGCTGCGCGGCGACATCCTGCGTGCCGCGCGGCTGGCCGAGCACCTTGGCGGCAGCACCCTGGCCTCGCTGATCGAGAAGGACAAGCGCGCGGTGACGGTGCGGGTGGACGACGTGGTCGGGGTCGGCGGCTTCCTGCTGCCCGGCAACCGCGTCGATGTGTTGGCGACCAAGAAGACCGACGGCGCCGGCAACACCGCCAAGTCCGAAACCATTCTCGAAGACCTGCGCGTACTGGCCGTGGACCAGACCGCCAGCACCGACAAGACCCAGCCGGTGGTGGTGCGCGCGGTGACCCTGGAGATGACCCCCGAAGAGGCGGAAAAGTTGGTCAAGGCGAAGACCGAGGGCCAGTTGCAACTGGCCCTGCGCAACCCCCTGGACAATCAGAAGAAGCCCTTGCCCGTGGAGCCGGTGGCAATGGCCGCACCGCCAGCCCCGGCCCCGATCGTTGCGCCCAAGCCGGCCGTGCGCCGCAGCAGTGGCCCCGGTGGCATCACCGTCATCCGTGGTACCGCCGTGGAAACGGCCAAGGCCCAGTTGTAA	MNARTLMLIGLSLALGLGAAWMANNWLSARLAAGPDDNLQSVVVATVEIPFGQMVEAQHVSLVRMPKGTVPDDAFDSVDKAVGKIATFGMLRGDILRAARLAEHLGGSTLASLIEKDKRAVTVRVDDVVGVGGFLLPGNRVDVLATKKTDGAGNTAKSETILEDLRVLAVDQTASTDKTQPVVVRAVTLEMTPEEAEKLVKAKTEGQLQLALRNPLDNQKKPLPVEPVAMAAPPAPAPIVAPKPAVRRSSGPGGITVIRGTAVETAKAQL	PGPT0016005_1360	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016005-cpaB-K02279	NA	NA
BMS010_03308	1323			hypothetical protein	ATGCAGGTTGCGAGCGTTCGACAGGCGTCCCCGGAAAGCGGCAGCAGTACGGCACGCTTCGCCCCTCAGCCACGCACCATCGCGGAAACCGGCCTGGCCGACAACCTGCTCGGCGATCTGGTGTGCAAGCACCTGCATGACGCCGGTGTGCTGGACATGCAGCGGTTGGTGGAGCGTCTGGCGCTGACCGGTTCGGTGCTGGACGAACTGCTGGCCTTCCTGCGTAAGGATGGCCGCATCGAGGTGCTCGGCCAGAGCGGCGGGCAGGGCCTGCGCTATGGCCTGACCGACCGTGGCCGCAGTGCCGCCAAGGATGCCTTGCTGCGCAGCGGCTACATCGGCCCGGCGCCGTTCCCGGTGGAGCGCTACCGGGAGCTGCTGAGCGCGCAGAGCGTGCATCAAAGCCGGGTGGATGCCCAGGCCATGCGCGATGCGTTCGACGGCGTGGTGCTGCGCGAGGAGATGCTGGACGAGCTCGGCCCGGCGATGAATTCCGGACGGGCGATGATGATCTACGGCCCCGCCGGGACCGGCAAGACCTACATCAGCCAGCGCCTGATCAAGCTGTTCCACGAGGCGGTATGGATTCCCCACGCCATCGCCATCAACGAGGCGGTGATCGAGATTTTCGACCCCCAGGTGCACAAGCCACTGCCGTCCGGCGAGCCGCGCAGCTTGCGCCTGGACGAAGGCATCGACCGGCGCCTGGTGTGCTGCCGGCGGCCCATCGTCATCACTGGCGGCGAGCTGACCCTGGATATGCTGGACATCCGCTTCGATCCCTACGCCCGCCAGTACCAGGCGCCGCTGCAACTGAAGGCGAGCAACGGCATCTTCATCATCGATGACCTGGGACGGCAGCGGGTGGCGCCGGTTGACCTGTTCAACCGCTGGATCGTGCCCATGGAAGAGAAGAAGGACTACCTCAACCTGGGCGGTGGGCGGCACTGCGAGCTGCCGTTCGACCTGATCCTGGTGTTCTCCACCAACCTGAATCCGCTGGAGCTGGCCGACGAGGCCTTCCTCCGGCGCATTGGGTACAAGCTGCACTTCGGCTACCTGCGCCCGGACGAGTACCAGCGCATCTGGCAGCAGGAGTGCGAAAAGCTGGGTATTCCCTTCGACCCCGCCCTGGTCGAGTACGCCATCGAGCGCCTTCACCACGGAGAACAGCGGCCTCTGGCGCCCTGTCATCCGCGCGACCTGCTGGGCATGGCCATGGACCGCCAGCGCTACCTGGGGCTGGACGACGCCGAAGGCCCTTCACCGAAAACCCTGGCTTGGGCCTGGCGCAATTACTTCGTCAGCCTGAACGCCAATTGA	MQVASVRQASPESGSSTARFAPQPRTIAETGLADNLLGDLVCKHLHDAGVLDMQRLVERLALTGSVLDELLAFLRKDGRIEVLGQSGGQGLRYGLTDRGRSAAKDALLRSGYIGPAPFPVERYRELLSAQSVHQSRVDAQAMRDAFDGVVLREEMLDELGPAMNSGRAMMIYGPAGTGKTYISQRLIKLFHEAVWIPHAIAINEAVIEIFDPQVHKPLPSGEPRSLRLDEGIDRRLVCCRRPIVITGGELTLDMLDIRFDPYARQYQAPLQLKASNGIFIIDDLGRQRVAPVDLFNRWIVPMEEKKDYLNLGGGRHCELPFDLILVFSTNLNPLELADEAFLRRIGYKLHFGYLRPDEYQRIWQQECEKLGIPFDPALVEYAIERLHHGEQRPLAPCHPRDLLGMAMDRQRYLGLDDAEGPSPKTLAWAWRNYFVSLNAN				NA	NA	NA	NA	NA
BMS010_03309	516			hypothetical protein	ATGACCACCGAGCTGCTGATCACCGCGATCCCGCTCTTCGGGCTACTGGGTATCGCAGTGGTCTTTGATCTCCTCCGCCACCGCATCCCCAACCTGCTGATCCTGTTGGGCCTGGCCCTTGGCTTCGTCAGCCAGGCCTATGTGGCGGGGTGGTCGGGGCTGGGCAACGCCTTCCAGGGCATGGCAGTGGGCTTTGCCGTTTTCCTGCCGTTGTATGCCCTTGGCGGCATGGCCGCCGGCGATGTGAAGCTGATGGCCATGGCGGGCGCGTTCCTCAGCCCCTGGGACGCGCTCTGGGCAGCGGTGTTCAGCCTAATCGCCGGCGGGGTTTGCGGCTTCCTGATCGTGCTGTTCCGCGGTCAGTTGCCGCTGACCCTGGCGCGCTACGGGCTGATGTTCAAGGCCAGGGCCTACCTGGCGCCGGCCAGCCACGAGGTGGCCGGTAAACCTTTCCCTTATTCCGTCGCGGTCCTGCTCGGCACCCTGGGCTGCGTGTACTGGATGAATTTCAGCTGA	MTTELLITAIPLFGLLGIAVVFDLLRHRIPNLLILLGLALGFVSQAYVAGWSGLGNAFQGMAVGFAVFLPLYALGGMAAGDVKLMAMAGAFLSPWDALWAAVFSLIAGGVCGFLIVLFRGQLPLTLARYGLMFKARAYLAPASHEVAGKPFPYSVAVLLGTLGCVYWMNFS	PGPT0016000_516	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016000-cpaA-K02278	NA	NA
BMS010_03310	195			hypothetical protein	ATGATCTTTCAAGCAGTGAAGACTTCAGTACTGAAGTTCATCAAAGACGAAGACGGCCTGACCATTGTCGAGTACGCGGTGGCGGGGGGGTTGATCACGGTGGCGGTGGCCGCTGCATTCATAGCGTTGGGGACAGAAGTTGGTGCGACCATCAACGCTCTGTGCCAGGCAGTCAACGGCAACGTCGCTTGCTGA	MIFQAVKTSVLKFIKDEDGLTIVEYAVAGGLITVAVAAAFIALGTEVGATINALCQAVNGNVAC	PGPT0015910_630	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0015910-flp|pilA-K02651	NA	NA
BMS010_03311	870	rhaS_11		HTH-type transcriptional activator RhaS	ATGAACTCTCGTACGGCAGTACCACAATTGCTGTGGTTCGACCTGACTCATGACCGTTCGGCGCAGGATTTCATTCCACTGTTTGCCGATGTCTGCCAGATCGATCTGGCCCGCGACCTGAGCGTGGCCGGTATCGATACCCGCCGGCGCCCCGACATGATCTGCATGCACTACGACCGCCCCGATTCGCTGGGGCTCGGCCTGCTGCTGGAGCTCAAGAACGCCATTCCCTCCATCCCGATCACCATGCTGACCCAGCAGCATTCGGAAGAACTCGCGGTCTGGGCGTTCCGCTCGGGTACCTGGGACTACCTGGTACTGCCGCTGACCGACCCGGAATGCGCCCGCTACCTCAGCGCACTCCAGGAACTGTGCAAACTGCGCCGGGAACCCAGGGAGGACAGGAAGAACCACCTGCCCCGCACACACCACCTGCCGGAAAGCGTCCGCCTCACGCCGGACTTCCACAAACAACAGCCCCTGCAGAAAGCCGTCCGCTACATCGAACAGCACTACACCGAGCAGATTGACGGCAAGACAATGGCCCAGCTTTGCGGCATGACGCCGTTCCGCTTCAGCCGGCTGTTCAAGCAGACCCACGGCATCGGCTTCGTCGAATTCGTCCTGCAGAAGCGCATGGAGCGCGCCAAGGACCTGCTCTGCAACAGCCAGATGCCAGTCACCAGCATTGCCTATACGGTCGGTTTCAAGGACCCGTCCTACTTCGCCCGCGCCTTCAAGCAGTATTTCGAGTGCAGTCCCAGCGACTTTCGCCGCGATGGCCCACCGAAGCGGCAGGTGGCCCAGGCCAATACGATCCAGGCCGCCCAGAAGAGCCATGAGCTGCGAGACGCCGTGCCAGGATTTTGA	MNSRTAVPQLLWFDLTHDRSAQDFIPLFADVCQIDLARDLSVAGIDTRRRPDMICMHYDRPDSLGLGLLLELKNAIPSIPITMLTQQHSEELAVWAFRSGTWDYLVLPLTDPECARYLSALQELCKLRREPREDRKNHLPRTHHLPESVRLTPDFHKQQPLQKAVRYIEQHYTEQIDGKTMAQLCGMTPFRFSRLFKQTHGIGFVEFVLQKRMERAKDLLCNSQMPVTSIAYTVGFKDPSYFARAFKQYFECSPSDFRRDGPPKRQVAQANTIQAAQKSHELRDAVPGF				NA	NA	NA	NA	NA
BMS010_03312	486			hypothetical protein	ATGTCGCCCAGAAAAGCCGTCCCCCTCGCCCTCATCACCACCAGCGTATTCAGCACGCCCGTCCCGGACGCCAGCGCCAAGGACATCGACGCCGATCGGATCATGCAAAGCGTCGAACGGGTGCTGGAGGAAAACCGCATCTACGCCACGTGCCTGTCCATGGACAAGAATTCGCTCGACTTCGTCCGCAGCAACTGGCGGCGCATGGTTGGCGAAACACGGGACCTGCTGCGTAAGGCCAACTTCGATACCAGCTTCCTCACGCTCTTCGAACTCAAGGTGCGCGCCGCCAACCTGCTCGACCAGAACCTGTCGCTGCACCAGGCCATGGCGATCTGCCACGCCAACGAGGCGATGATCAGCCGTTTCTACGAGTTCGGCTTCAGCAACCTGCGCCAGGAAGTGGAAAAAGCCATGACAGGTGACAACGTGCCGATTCCCAGCACATATAACGAGGCGCGCGCCCCTGCCGCAGCCTATCCTTGA	MSPRKAVPLALITTSVFSTPVPDASAKDIDADRIMQSVERVLEENRIYATCLSMDKNSLDFVRSNWRRMVGETRDLLRKANFDTSFLTLFELKVRAANLLDQNLSLHQAMAICHANEAMISRFYEFGFSNLRQEVEKAMTGDNVPIPSTYNEARAPAAAYP				NA	NA	NA	NA	NA
BMS010_03313	279	hupA_1	COG0776	DNA-binding protein HU 1	ATGGCAATTACCAAAGACCAACTGATCAGCGACATCGCCGAAGCCACCGACGCCCCCAAGGCCAGCGTACGTGCCGTGCTGGAGCAGCTCAGCGAAATCGTCAGCGACGCCCTGGAAAATGGTGACGAGCTGACCCTGCCGGGCATCGGCAAACTGAAAGTCAGCGAACGCCCGGCCCGCACCGGCCGCAACCCGCAGACCGGCGCCGCCATCGAGATCGCCGCCAAGAAAGTCGTCAAATTCGTTCCGGCCAAGGCCCTGACCGACGCCATCAACTAA	MAITKDQLISDIAEATDAPKASVRAVLEQLSEIVSDALENGDELTLPGIGKLKVSERPARTGRNPQTGAAIEIAAKKVVKFVPAKALTDAIN				NA	NA	NA	NA	NA
BMS010_03314	270			hypothetical protein	ATGCGTTCTGAATGCGTTCACACCCAGCCCGTCGCGTTTCATCGTTGTAACGACGGCGCTCACCACCTGTTCAATGTCCAGCCCGACGTGCCGGCCCATGCGGCCCTGGAGTGCGCTTGCCTGCTGCTGGATGCCGCCGAAGAGCTGGCGGTGCAGGCCACCAGCACGGGCAGCGAACAACTGGGCTATGCCTGCGGTTATCTGATCGAGATGGCCCGAGCGGCGATGCAGGCTTGTCTGGAAAGTGACGCAGGTCCTAAGGCGTTATAG	MRSECVHTQPVAFHRCNDGAHHLFNVQPDVPAHAALECACLLLDAAEELAVQATSTGSEQLGYACGYLIEMARAAMQACLESDAGPKAL				NA	NA	NA	NA	NA
BMS010_03316	2376	ligA_2		DNA ligase	ATGACCGACGCCCAGACCGCTGCCGAACGCATCGCCGCCCTGCGCAGCGAAATCGAGCAACACAACTACCGCTACTACGTACTCGACGAACCGAGCGTTCCCGACGCCGAGTACGACCGCCTGTTCAACGAACTGAAGGCGCTGGAAAGCGAACATCCCGAACTCGTCACCCCGGAATCGCCCACCCAGCGCGTGGGCGGCGAGGCCTTGTCCGCGTTCGGCCAGGTCCGTCACGAAGTGCCGATGCTCAGCCTCGGCAACGCCTTCGAAGAGCAGGACCTGATCGAGTTCGACCGCCGCGTGCGCGAGGGGCTCGACCTGCCGTCCGGCGATCTATTCGGCGACGGCGCCCAGGTGGAATACAGCTGCGAACCGAAGCTGGACGGCCTGGCGGTCAGCCTGCTCTACGAGAATGGTCATCTGGTACGCGGCGCCACCCGTGGCGATGGCACCACTGGCGAGGACATCACCGCCAACGTGCGCACCGTGCGCAACATCCCGCTCAAGCTGCACGGCAGCGGCTGGCCGAAGGTCCTGGAGGTGCGCGGCGAGGTGTACATGTCCAAGGCCGGCTTCGAAGCGCTCAACGCCAAGGCGCTGGAAACCGGCGGCAAGACCTTCGCCAACCCGCGCAACGCGGCGGCGGGCAGCCTGCGCCAACTGGACCCGCGCATCACCGCCAGCCGCCCGTTGGAGCTGTGTGCCTATGGCGTGGGTCGCAGCGACGGCGAGTTGCCGAAGACCCACTTCCAACTGTTGCAGGCCCTGCGTGAGTGGGGCCTGCCGATCAGTCGCGAACTCAAGCTGGCCAAGGGTGCCGAAGAGTGCCTGGCCTATTACCGCGCCATCGGCGAGAAGCGCGATGCGCTCGCCTATGAGATCGATGGCGTGGTGTTCAAAGTCAACGATATCGGCCAGCAGCGCGAACTCGGCTTCCGTGCCCGCGAACCGCGCTGGGCGTTGGCTCACAAGTTCCCGGCACGGGAAGAAATCACCGAACTGCTCGGCGTGGAATTCCAGGTCGGCCGGACCGGCGCCATCACGCCGGTGGCGCGCTTGAAGCCGGTCCAGGTGGCTGGCGTGACCGTTTCCAACGCGACCCTGCACAACATGGACGAAGTCGCCCGCCTGGGCGTGATGATCGGCGACACCGTGATCGTCCGCCGCGCCGGTGACGTGATTCCGCAGATTCTCGGTGTCATCGCCGAGCGCCGTCCCGCGGATGCCAAGGCCGTGCATGTGCCGGAACATTGCCCGGTCTGCGGCTCGGCGGTGGAGCGCACCCAACTGATCAAGCGCAGCAAGGGCAAGGAGTCGATCAGCGAAGGCTCGATCTACCGCTGCGTCGGGCGGCTGTCCTGCCAGGCACAGCTCAAGCAGGCGATCATCCATTTCGTCTCGCGCCGCGCCATGGACATCGACGGCCTCGGCGACAAGATTGTCGAGCAACTGGTCGACAAGGGGCTGGTCGGTTCGCCGGCGGACCTCTACAGGCTGACCTACGAGCAGGTCTTCGAACTGGAGGGGTTCGCCGATCTGTCTACCAGGAACCTGCTCACGGCCATTCAGGGCAGCCGCAAGCCGCCCCTCGCCCGTTTCATCTACGCCCTCGGCATCCCCGACGTTGGCGAAGAAACCGCCAAGCTGCTGGCGCGCTCCCTGGGCTCGCTGGCGCGGATCCAGAAGGCGCTGCCGGAGGTGCTGACCTACCTGCCGGACGTCGGGCTGGAAGTGGCCCATGAGATCCATAGCTTCTTCGAGGATGAACACAACCAGCAGGTCATCCGCGCGCTGCTGGACGAGGAGTACGGCGTGGCGTTGCAGGAAGAGGGCGATCTCAGCCCGGAGTACGCCGCCTGCGTCACCCTGGCGGACTTCCTCGACAAGCTGAACATTCCCTACGTGGCGGCCACCGGGGCGAAGAACCTGGCCGAACGGTTCGGTGGTGTGGAACAGATCATCCAGGCGGATTGGCTCGATCTCAGCGCCATGAAAGGGCTCAACGAAAAGGCCAAGCAGTCGGTGCGCGCCTTCTTCGGCGACGGCGCGAACGCCGAGCGTGCCCGCGCCATCGAGGCACAGTTGCGCGAATTCGGCATGCACTGGGAAAGCGAGAAGAAAGCCGTCGAAGGCCTGCCGCTGGCCGGCCAGACCTGGGTACTCACCGGCACCCTGGAAGCCATGAGCCGTGACGTTGCCAAGGAGAAGCTGGAGTCGTTGGGCGCCAAGGTAGCCGGCTCGGTCTCGGCCAAGACCACCTGCGTCGTCGCCGGCCCCGGCGCAGGCTCCAAGCTGGCCAAGGCCAGCGAGCTGGGGGTGAAGGTGATGGACGAAGAGGCCTTCCTGGAAAAACTAAAGGAATGTGGACGCTTGTAG	MTDAQTAAERIAALRSEIEQHNYRYYVLDEPSVPDAEYDRLFNELKALESEHPELVTPESPTQRVGGEALSAFGQVRHEVPMLSLGNAFEEQDLIEFDRRVREGLDLPSGDLFGDGAQVEYSCEPKLDGLAVSLLYENGHLVRGATRGDGTTGEDITANVRTVRNIPLKLHGSGWPKVLEVRGEVYMSKAGFEALNAKALETGGKTFANPRNAAAGSLRQLDPRITASRPLELCAYGVGRSDGELPKTHFQLLQALREWGLPISRELKLAKGAEECLAYYRAIGEKRDALAYEIDGVVFKVNDIGQQRELGFRAREPRWALAHKFPAREEITELLGVEFQVGRTGAITPVARLKPVQVAGVTVSNATLHNMDEVARLGVMIGDTVIVRRAGDVIPQILGVIAERRPADAKAVHVPEHCPVCGSAVERTQLIKRSKGKESISEGSIYRCVGRLSCQAQLKQAIIHFVSRRAMDIDGLGDKIVEQLVDKGLVGSPADLYRLTYEQVFELEGFADLSTRNLLTAIQGSRKPPLARFIYALGIPDVGEETAKLLARSLGSLARIQKALPEVLTYLPDVGLEVAHEIHSFFEDEHNQQVIRALLDEEYGVALQEEGDLSPEYAACVTLADFLDKLNIPYVAATGAKNLAERFGGVEQIIQADWLDLSAMKGLNEKAKQSVRAFFGDGANAERARAIEAQLREFGMHWESEKKAVEGLPLAGQTWVLTGTLEAMSRDVAKEKLESLGAKVAGSVSAKTTCVVAGPGAGSKLAKASELGVKVMDEEAFLEKLKECGRL				NA	NA	NA	NA	NA
BMS010_03317	822	zipA		Cell division protein ZipA	ATGGATATCGGTCTGCGCGAGTGGCTGATCGTCATCGGCATCATTGTCATTGCCGGCATTCTCTTCGATGGCTGGCGCCGGATGCGCGGCAGCAAAGGCAAGCTGAAATTCAAACTCGATCGCAGTTTCGCCAACATGCCCGACGATGAGGGCACCGCCGAACTGCTGGGCCCGGCGCGGGTGGTGGAGCGTCACCAGGAACCGTCGCTGGACGAGGAAGACCTGCCAGCCATGAGCGCTCGCGAGCTGAACAAGCGTCGTGGAAGCGAGCCGCGCCAGGGCGACCTGAACCTCGACGAGCCGGTACCGACCCTGCTCAACCCCGTCGACGAAGGCAAGCCGGCTCCGCGCAAGGCTGCGCCCAAGGAAGAGCCGAAGGAACTGCCGCCGGTGGAAGAAGTGCTGGTGATCAACGTCGTCGCCCGGGAAGAGGGTGGCTTCAAGGGGCCGGCACTGTTGCAGAACATCCTGGAAAGCGGGCTGCGTTTCGGCGAGATGGACATTTTCCATCGCCACGAAAGCATGGCCGGTAACGGTGAAGTGCTGTTCTCCATGGCCAACGGCGTCAAGCCGGGCACCTTCGACCTGGACGACATCGACCATTTCAGCACCCGTGCGGTCAGCTTCTTCCTCGGTCTGCCGGGCCCGCGCCATCCCAAGCAGGCGTTCGACGTGATGGTCGCCGCTGCCCGCAAGCTCTCCCACGAGCTGAACGGCGAGCTGAAGGATGACCAGCGCAGCGTGATGACTGCGCAAACCATCGAACACTACCGCCAGCGCATCGTCGAATTCGAGCGTCGGCAGTTGACCACCAAGCGCTAG	MDIGLREWLIVIGIIVIAGILFDGWRRMRGSKGKLKFKLDRSFANMPDDEGTAELLGPARVVERHQEPSLDEEDLPAMSARELNKRRGSEPRQGDLNLDEPVPTLLNPVDEGKPAPRKAAPKEEPKELPPVEEVLVINVVAREEGGFKGPALLQNILESGLRFGEMDIFHRHESMAGNGEVLFSMANGVKPGTFDLDDIDHFSTRAVSFFLGLPGPRHPKQAFDVMVAAARKLSHELNGELKDDQRSVMTAQTIEHYRQRIVEFERRQLTTKR				NA	NA	NA	NA	NA
BMS010_03318	3489	smc_2		Chromosome partition protein Smc	ATGCGCCTCAAGAGCATCAAGCTGGCCGGGTTCAAATCCTTCGTCGATCCGACCACGGTCAGTTTCCCCAGCAACATGGCCGCCGTGGTCGGCCCCAACGGTTGCGGTAAATCCAACATCATCGACGCCGTGCGCTGGGTGATGGGCGAAAGCTCGGCGAAGAACCTGCGCGGCGAGTCGATGACCGACGTCATCTTCAACGGCTCCAACACCCGCAAGCCGGTGACCCAGGCCAGCATCGAGCTGATCTTCGATAACTCCGATAACAGCCTGGTCGGCGAATACGCGGCCTTCGCGGAGATTTCCATCCGCCGCCGCGTGACCCGCGATGGGCAGAACACCTATTTCCTCAACGGCACCAAGTGCCGGCGGCGCGACATCACCGACATCTTCCTCGGCACCGGCCTGGGCCCGCGCAGCTACTCGATCATCGAGCAGGGCATGATCTCCAAGCTGATCGAGGCCAAGCCCGAGGACCTGCGTAACTTCATCGAGGAAGCCGCCGGCATCTCCAAGTACAAGGAGCGCCGTCGCGAGACCGAAAGCCGCATCCGCCGCACCCAGGAGAACCTGGCGCGCCTGAGCGACCTGCGCGAAGAGTTGGAGCGCCAGCTCGAGCGATTGCATCGCCAGGCCCAGTCGGCGGAGAAGTACCAGGAATACAAAGCCGAGGAGCGTCAGCTCAAGGCCCAGCTCGCGGCCTTGCGTTGGCAGGCACTGAACGATCAGGTCGGGCAGCGCGAGAAGGTGATCGGCGACCAGGAAGTCGCGTTCGAGGCACTGGTGGCCGAACAGCGCAACGCCGATGCCAGCATCGAGCGGCTGCGCGATGGTCATCACGAACTGTCCGAGCGCTTCAATCAGGTCCAGGGCCGTTTCTATTCGGTGGGCGGTGACATCGCCCGCGTCGAGCAGAGCATCCAGCATGGCCAGCAGCGCCTGCGCCAGTTGCAGGACGACCTGCGCGAGGCGGAGCGGGCGCGGCAGGAAACCGAGTCGCACCTCGGCCACGACCGCACCTTGCTGGCGACCCTGGGCGAAGAGCTGGCCATGCTCGAACCCGAGCAGGAGATGGCCAGCGCCGCTGCCGAAGAGTCCGCCGCCACCCTCGAGGATGCGGAAACCGCCATGCACGGCTGGCAGGAGCAATGGGATAGCTTCAACCAGCGCAGCGCCGAGCCCCGCCGTGCCGCCGAGGTACAGCAGGCGCGCATCCTGCAGCTCGAACAGAGCCTCGAGCGGTTGGTCGAGCGCGAGCGCCGCCTGAACGATGAGCGGGCGTTGCTCGCCGCTGACCCGGAAGACGCGGCGATTCTCGAACTGTCCGAACAGATGGCTGCCGGCGACCTGCTGCTGGAAGAGCTGCAAGCGGCGGAAGAGGCCGTGGTCGAGCGCCTGGAACAACTACGCGGCGAGTTGCAGGAAGCGACCCGCGCACAGCAGCAGACCCAGGGCGAGCTGCAACGACTGAACGGCCGTATCGCCTCGCTGGAAGCGCTGCAGCAGGCAGCGCTGGACCCCGGCAAGGGCGTTGGCGAGTGGCTGCGCGAACAGAATCTGCACCAGCGGCCGCGGTTGGCCGAGGGGCTGCGTGTCGAGCCTGGCTGGGAGCTGGCGGTGGAAACCGTGCTCGGCGCCGATCTGCAGGCCGTCCTGCTGGACGATTTCGCCGGCCTCGACCTGAGTGGCTTCGAACAGGGCGAACTGCGTCTGGCCAGTCCGGCGCGGAGCGGGTCCCGGCTTCCCGGCAGCCTGTTGGACAAGGTGGAGGCGGCCATCGATCTGGCGCCTTGGCTGGGGAGCGTGTGTCCCGTCGAGTCGCTCGACGAGGCTCTGGCCCGGCGTTCGTCGCTGGCCGACGGCGAGAGTCTGATCAGCCGTGACGGCTACTGGGTCGGCCGGCATTTCCTGCGGGTACGGCGTGCCAGCGAAGCGGAATCCGGTGTGCTGGCCCGTGGCCAGGAGCTGGAGCGCTTGCAGGCGGAGCGCGAAGAGCGCGAGGCCGCCCTGGCCGATCTGGACGAACGCCTGCAGCATTTGCGCGAAACCCAGCGCCAGCAGGAAGAAGCGCGCGAGCAACAACGTCGGCGTTTGCAGGAAGCTGCACGCCAACAGAGTGAGTTGAAGGCGCGGTTGTCCGCCCAGCAGGCCAAGGTCGAGCAACTGGCGCTGCGGCGTCGGCGTCTGGACGAGGAAATGGTCGAGCTGGGCGAGCAGCGAGCCTTGGAGCACGAGCAACTCGGCGAGGCCCGCCTGCAATTGCAGGACGCCCTGGATGCCATGGCGGTCGATACCGAGCAGCGCGAGCAACTGCTGGCCAGCCGCGATGGGCTCCGCGAGCGTCTCGACCGGGTGCGCCAGGAGTCGCGCCAGCACAAGGACCACGCCCATCAATTGGCGGTCCGTATCGGCTCGCTGCGCGCCCAGCACGACTCCCTCCGGCAGTCCCTGGAGCGCCTGGAACTGCAGTTCGAGCGGGCCGTGGAGCGCCGCGAGCAACTGACGCTGAACCTGGAAGAGGGTGCGGCGCCGTTGGAAGAACTGCGCATCAAGCTGGAGGAATTGCTTGAGCGGCGCATGGGCGTCGAGGAAGAACTCAAGCTGGCGCGGCTGGCGCTGGAAGATGCCGACCGCGAGTTGCGCGATGCCGAAAAGCGCCGTACCCAGGCCGAACAGCAGTCGCAACTGCTGCGCGGCCAACTGGAGCAGCAGCGCATGGACTGGCAGGCACTGACCGTTCGCCGCAAGGCGTTGCAGGATCAGCTCCACGAGGACGGTTACGACCTGCATGGCGTGCTGGCCACGCTGCCGGCAGAAGCCAGCGAGAAAGCTTGGGAGGAAGAACTGGAACGGCTGGCCGCGCGCATCCAGCGTCTCGGTCCGATCAACCTGGCGGCGATCGACGAATACCAGCAGCAATCCGAGCGTAAACGCTACCTCGACGCGCAGAACGACGACCTGGTGGAAGCGCTGGAAACCCTGGAGAACGTCATCCGCAAGATCGACCGGGAGACGCGCAACCGCTTCAAGGAAACCTTCGACCAGATCAATGCTGGCCTTCAGGCATTGTTTCCCAAGGTTTTCGGCGGCGGGCACGCTTACTTGGAACTTACCGGGGAAGATCTACTCGATACCGGGGTGGCGATCATGGCGCGCCCGCCGGGCAAGAAGAACAGCACGATCCACCTGCTGTCCGGCGGGGAAAAGGCGCTGACCGCGCTGGCCCTGGTATTCGCCATCTTCCAGCTCAACCCGGCACCGTTCTGCATGCTCGACGAGGTCGATGCGCCGCTGGACGACGCCAACGTCGGTCGTTATGCGCGATTGGTCAAGGAAATGTCGGAAAAGGTGCAGTTCATCTACATCACCCACAACAAGATCGCCATGGAAATGGCCGATCAGCTGATGGGGGTCACCATGCATGAACCCGGCTGTTCCAGGCTGGTCGCAGTGGATGTGGAGGAGGCGGTCGCGCTGGCCGAAGCATGA	MRLKSIKLAGFKSFVDPTTVSFPSNMAAVVGPNGCGKSNIIDAVRWVMGESSAKNLRGESMTDVIFNGSNTRKPVTQASIELIFDNSDNSLVGEYAAFAEISIRRRVTRDGQNTYFLNGTKCRRRDITDIFLGTGLGPRSYSIIEQGMISKLIEAKPEDLRNFIEEAAGISKYKERRRETESRIRRTQENLARLSDLREELERQLERLHRQAQSAEKYQEYKAEERQLKAQLAALRWQALNDQVGQREKVIGDQEVAFEALVAEQRNADASIERLRDGHHELSERFNQVQGRFYSVGGDIARVEQSIQHGQQRLRQLQDDLREAERARQETESHLGHDRTLLATLGEELAMLEPEQEMASAAAEESAATLEDAETAMHGWQEQWDSFNQRSAEPRRAAEVQQARILQLEQSLERLVERERRLNDERALLAADPEDAAILELSEQMAAGDLLLEELQAAEEAVVERLEQLRGELQEATRAQQQTQGELQRLNGRIASLEALQQAALDPGKGVGEWLREQNLHQRPRLAEGLRVEPGWELAVETVLGADLQAVLLDDFAGLDLSGFEQGELRLASPARSGSRLPGSLLDKVEAAIDLAPWLGSVCPVESLDEALARRSSLADGESLISRDGYWVGRHFLRVRRASEAESGVLARGQELERLQAEREEREAALADLDERLQHLRETQRQQEEAREQQRRRLQEAARQQSELKARLSAQQAKVEQLALRRRRLDEEMVELGEQRALEHEQLGEARLQLQDALDAMAVDTEQREQLLASRDGLRERLDRVRQESRQHKDHAHQLAVRIGSLRAQHDSLRQSLERLELQFERAVERREQLTLNLEEGAAPLEELRIKLEELLERRMGVEEELKLARLALEDADRELRDAEKRRTQAEQQSQLLRGQLEQQRMDWQALTVRRKALQDQLHEDGYDLHGVLATLPAEASEKAWEEELERLAARIQRLGPINLAAIDEYQQQSERKRYLDAQNDDLVEALETLENVIRKIDRETRNRFKETFDQINAGLQALFPKVFGGGHAYLELTGEDLLDTGVAIMARPPGKKNSTIHLLSGGEKALTALALVFAIFQLNPAPFCMLDEVDAPLDDANVGRYARLVKEMSEKVQFIYITHNKIAMEMADQLMGVTMHEPGCSRLVAVDVEEAVALAEA				NA	NA	NA	NA	NA
BMS010_03319	252			hypothetical protein	ATGCGTGCGGCTTTCCCGTTCGCCGACAACCCCTACCTGCAGGAAACGGTGGAGAACCTCCTGCCGGCGATCAGCCGCAACTACCACCTGGCGTTGGAGCGACGCAAGGCGGAGATGGGGCAGTTCCTCAATGCCTTCGGCGAACTGCTGCAGGCGGTGATCGCCCGCGATCCGGCGCGCATCCGCGAGGTGCTCGGCGCGTACGGCAGGCACAACTGCGAGCTGGTGCTGGCCGCCCTGGCCGACCGCTGA	MRAAFPFADNPYLQETVENLLPAISRNYHLALERRKAEMGQFLNAFGELLQAVIARDPARIREVLGAYGRHNCELVLAALADR				NA	NA	NA	NA	NA
BMS010_03320	1137	alkB2		Alkane 1-monooxygenase 2	ATGTTCGCGCTGCTGCCTTCCGCCTGGATGATCCGCCTGAAGAAGGCGGGCTACTGGATCTGGCTGATCCCCGTATTCGGCATCCCGCTGAGCTATTTCTGGTCCTATGGCAGCGACTCGCCGAACGCCTGGGCCTGGCTGGTCATCGGCGTGGTGTTCGGGATCATTCCGTTGTTGGATTTCGTGGTCGGACGCGACCCGGCCAATCCGGACGAGCAGACCGAAGTGCCCGAGCTGGAACGGCAGGGCTACTACCGGCTGCTCAGCCTCGCCACCGTCCCGTTGCTGCTGGGGATGCTCGTCTATGGCGGCTGGGTCATCGCCCACTACGATGCCTGGAACTGGCTGGGCAAGCTGGGCTGGATTCTGTCCGTAGGTACCGTGATGGGCGCCATCGGCATCACCGTTTCCCATGAGCTGATCCACAAGGACCCGACCCTGGAGCAGAACGCCGGTGGCCTGTTGCTAGCGGCGGTCTGCTACGCCGGCTTCAAGGTGGAGCACGTGCGCGGCCACCACGTGAACGTCTCGACGCCGGAGGATGCGTCGTCCGCCCGCTTTGGCCAGAGCCTGTACGCGTTCCTGCCGCACGCCTACAAACACAACTTTCTCAATGCCTGGAGGCTGGAGGCCGAACGCCTCAAGCGCAAGGGTCTTCCGGCACTGCATTGGCGCAACGAGTTGATCTGGTGGTACGCGATCAGCCTGGCCTTCCTGATCGGCTTCAGCCTCGCCTTCGGCTGGATCGGTGCAGTCTATTTCCTCGGCCAGTCGGCCATGGCCTTCACCCTGCTGGAGATCGTCAACTACGTCGAGCATTACGGCCTGCACCGCCGCAAGCAGGAGAACGGCCGCTACGAGCGCACCACACCGAAGCACTCCTGGAACAGCAATTTCCTGCTGACCAACCTGTTCCTGTTCCACCTGCAGCGGCACTCCGACCATCACGCCTACGCCAAGCGCCGCTACCAGGTGCTGCGGCACTTCGACGACAGCCCGCAACTACCCAACGGCTATGCCGGCATGATCGTCCTGGCGCTGTTCCCGCCGCTCTGGCGCGCGGTGATGGACCCGAAGGTGCGTGCTTACTACGCAGGCGAGGAGCACCAGTTGACTGCGTCGCAACTGGCCTCTTGA	MFALLPSAWMIRLKKAGYWIWLIPVFGIPLSYFWSYGSDSPNAWAWLVIGVVFGIIPLLDFVVGRDPANPDEQTEVPELERQGYYRLLSLATVPLLLGMLVYGGWVIAHYDAWNWLGKLGWILSVGTVMGAIGITVSHELIHKDPTLEQNAGGLLLAAVCYAGFKVEHVRGHHVNVSTPEDASSARFGQSLYAFLPHAYKHNFLNAWRLEAERLKRKGLPALHWRNELIWWYAISLAFLIGFSLAFGWIGAVYFLGQSAMAFTLLEIVNYVEHYGLHRRKQENGRYERTTPKHSWNSNFLLTNLFLFHLQRHSDHHAYAKRRYQVLRHFDDSPQLPNGYAGMIVLALFPPLWRAVMDPKVRAYYAGEEHQLTASQLAS	PGPT0021875_568	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021875-alkB1_2|alkM-K00496	NA	NA
BMS010_03321	192			hypothetical protein	ATGGGCAACTTGCTTGGAGTTGGCGGCGATGCACTCCATGCCAGCCAAGGCAGCGAGATGTTCGAATTGTTTGTCGTGTTGGCCAAGATGCCGATCCTGCTCGACAGTCTGCAAGGCGACCGTGCGGAGAAGAAGCGAATCGCCCTGCCAATTGGCCAGATTGGTGAATATTTCTTCATCGGCTTTGCCTGA	MGNLLGVGGDALHASQGSEMFELFVVLAKMPILLDSLQGDRAEKKRIALPIGQIGEYFFIGFA				NA	NA	NA	NA	NA
BMS010_03322	138			hypothetical protein	ATGTTCCAGAGGACAACTGACTACGCCGTAGTTGGGGTCGAACAGGTGCAAGTGATCGTTCTTGTCGCGATGCAGCGCTATGACATGCTTGGTTGTATCGCAAATCAGCGCTTGTTGTTCCCGGGTGGAGTCCAATAA	MFQRTTDYAVVGVEQVQVIVLVAMQRYDMLGCIANQRLLFPGGVQ				NA	NA	NA	NA	NA
BMS010_03323	1536	tyrR_2		Transcriptional regulatory protein TyrR	ATGCGTATCCACGTCACCTTCATCGACCGCGTCGGCATCACCCAGGAAGTCCTCGCCCTGCTCGGCGGGCGCAATCTCAACCTGGATGCGGTGGAGATGGTGCCGCCGAATGTCTACATCGACGCACCGACGCTCAGCCCCGATGTGCTGGAAGAGCTGCGCGACGCCCTGTTCAAGGTACGTGGTGTACAGGCAGTCAGCGTGGTGGACATCCTCCCCGGACAGCGCCGTCGGTTGCAGTTGGACGCCCTGCTCGCCGCCATGACCGATCCGGTGCTGGCGGTGGACGGCGCCGGCCATATCCTATTGGCCAACCCCGCGCTGATTGCGTTGTGCAGGCGCGAACCGGAGGGCGCTTCGGTCGCCGAGCTGTTCGCCGATCCGGGCCTGCAAGCCGCCCTGCTCGAGCAGGGTTTCCGCCTGCCACTGCGGGAGGTCAATCTTGACGGCCAGGCTTTGCTGCTCGACGCCCAGCCGATCAGCGAAGCGGCCGACCAGGGGCCGTCCCGCCTGGCCGGCGGCCTGTTGACGCTGTATTCCCCCAGCCGCATCGGCGAACGCCTGGCGGCGCTGCACCATGATCACGCGGAAAGCTTCGATGCCCTGCTCGGCGATTCGCCGCCGATGCGCACCCTCAAGGCCCGCGCCCAGCGGGTTGCCACGCTCGATGCCCCCCTGCTGATCCAGGGCGAAACCGGCACCGGCAAGGAACTGGTGGCTCGCGCCTGCCATGCCGCCAGCACGCGGCGCAACGCGCCCTTCCTGGCCCTGAACTGCGCGGCGCTGCCGGAAAACCTCGCCGAGAGCGAACTGTTCGGCTATGCCCCCGGCGCCTTCACCGGCGCGCGACGCGGCGGCAAGCCGGGCCTGCTGGAGCTGGCCAACCAGGGCACGGTGTTCCTCGATGAGATCGGCGAAATGTCGCCGTACCTGCAAGCCAAGCTGCTGCGTTTCCTCAACGATGGCAGCTTCCGCCGGGTCGGCGGTGATCGCGAGGTCAAGGTGGACGTACGCATCCTCAGCGCCACCCACCGCAACCTGGAGAAGATGGTCAGCGAAGGCAGTTTCCGCGAGGACCTGTTCTACCGGCTCAACGTGCTCAACCTGGAAGTCCCGCCGCTGCGCGAGCGCGGCCAGGACATCCTCCTGCTGGCCCGGCACTTCATGGCCCAGGCCTGTGCACAAATCCAGCGCCTGCCCTGCCGGCTGGCGCCCGGCACCTACCCGGCCCTGCTCGGCAACCGCTGGCCGGGCAACGTGCGGCAGTTGCAGAACGTGATCTTCCGCGCCGCCGCGATCAACGAAAGCAATCTGGTGGACATCGGCGATCTGGACATCGCCGGAACCGAAGTGGCGCGCCAGACGGACGGCGAAGTGGGGAGCCTGGAAGAAGCCGTCGAAGGCTTCGAGAAAGCCCTGCTGGAGAAGCTGTACGTGAACTATCCGTCCAGCCGCCAACTGGCTGCACGCTTGCAGACATCGCACACTGCCATCGCCCATCGCCTGCGCAAGTACGGGATTCCGGGCAAGACCTGA	MRIHVTFIDRVGITQEVLALLGGRNLNLDAVEMVPPNVYIDAPTLSPDVLEELRDALFKVRGVQAVSVVDILPGQRRRLQLDALLAAMTDPVLAVDGAGHILLANPALIALCRREPEGASVAELFADPGLQAALLEQGFRLPLREVNLDGQALLLDAQPISEAADQGPSRLAGGLLTLYSPSRIGERLAALHHDHAESFDALLGDSPPMRTLKARAQRVATLDAPLLIQGETGTGKELVARACHAASTRRNAPFLALNCAALPENLAESELFGYAPGAFTGARRGGKPGLLELANQGTVFLDEIGEMSPYLQAKLLRFLNDGSFRRVGGDREVKVDVRILSATHRNLEKMVSEGSFREDLFYRLNVLNLEVPPLRERGQDILLLARHFMAQACAQIQRLPCRLAPGTYPALLGNRWPGNVRQLQNVIFRAAAINESNLVDIGDLDIAGTEVARQTDGEVGSLEEAVEGFEKALLEKLYVNYPSSRQLAARLQTSHTAIAHRLRKYGIPGKT				NA	NA	NA	NA	NA
BMS010_03324	1389			hypothetical protein	ATGAATTACGCCACCACCGACCGGCTCAATGGTATCCCCACTCCGCCGCTTCGCGAGTATTACTCCCGGGTATTGGCGTATATCGCCTCGGCGGCGTGCATCGCGGCCGGCACCTACGTCCAGTATTTCGGCTACGACGTGCTCTGGATGGTGCCCTACGCCCTGCTCTACCCCCACCTCGCCTATCACCTGAGCCGGCGCTTCAAGCGCGACCATCCGCAACAGACCGACCTGAGCCTGCTCGCCATCGACGCCGTGCATGCCGGCATCGGCATGGTCCTGCTGGGTTTCACCGCCGTGCCGAGCCTGATGTTCGTCCTGACCCTGTCCTTCAGCGCCCTGGTGATGGGCGGGCTGCGCCACCTTGGTCTGTCACTGCTGGTCGCCACCAGCAGCATGCTGCTGGCCACCGGGCTGCTCGGCCCCGACGTCAAGGATACGACGCCGACCCTGGTTGCCGTGGTGAGCATCTTCTTCACCACGCTGTACATCTGCATCACCGCTTATTTCGTCCATCAGCAGGGGCTGCGCCTGGCCCAGGTGCGCGCGGAAATCAAGCGCGAGCAGGAAAAGGCCGCGCGGCTGGCGCGCAACCTGGCCAAGTACCTGTCGCCGCAGGTCTGGGAATCGATCTTCAGCGGCAAGAAGCACGTGCGCCTGGAAACCCAGCGCAAGAAGCTCACGGTGTTCTTCTCCGACATCAAGGGGTTCACCGAGCTGTCGGAAGAACTGGAAGCCGAAGCACTGACCGACCTGCTCAACAACTACCTCAACGAAATGTCGAAGATCGCCCTCAAGTATGGCGGCACCATCGACAAGTTCGTCGGCGACTGCGTGATGGTCTTCTTCGGCGACCCCAATACCCTCGGCGCCAAGCGCGACGCGGTGGCCGCGGTGTCCATGGCGATCGCCATGCGCAAGCACATGAAAGTGCTGCGCCAGCAATGGCGTGCACGCGGCATCACCAAGCCCTTGGAAATCCGCATGGGCCTGAACACCGGTTACTGCACGGTGGGCAACTTCGGCGCCGATACGCGCATGGACTACACCATCATCGGCCGTGAAGTGAACCTTGCCAGTCGGCTGGAAAGCGCCGCCGAGTCGGGGGAAATCCTGATTTCCCACGAAACCTACTCGCTGGTGAAGGACGTGATCATGTGCCGCGACAAGGGACAAATCGCCGTAAAAGGCTTCAGCCGACCGGTGCAGATCTACCAGGTGGTGGACTTCCGCCGCGACCTGGGCGCCACGTCCAGCTACGTCGAGCACGAACTGCCGGGCTTCTCCATGTACCTGGATACAAACGGCATCCAGAACTTCGACAAGGAGCGGGTCATCCAGGCCTTGCAGCAGGCGGCGGAGAAGCTCAGGGACAAGGTGATCCTGTAG	MNYATTDRLNGIPTPPLREYYSRVLAYIASAACIAAGTYVQYFGYDVLWMVPYALLYPHLAYHLSRRFKRDHPQQTDLSLLAIDAVHAGIGMVLLGFTAVPSLMFVLTLSFSALVMGGLRHLGLSLLVATSSMLLATGLLGPDVKDTTPTLVAVVSIFFTTLYICITAYFVHQQGLRLAQVRAEIKREQEKAARLARNLAKYLSPQVWESIFSGKKHVRLETQRKKLTVFFSDIKGFTELSEELEAEALTDLLNNYLNEMSKIALKYGGTIDKFVGDCVMVFFGDPNTLGAKRDAVAAVSMAIAMRKHMKVLRQQWRARGITKPLEIRMGLNTGYCTVGNFGADTRMDYTIIGREVNLASRLESAAESGEILISHETYSLVKDVIMCRDKGQIAVKGFSRPVQIYQVVDFRRDLGATSSYVEHELPGFSMYLDTNGIQNFDKERVIQALQQAAEKLRDKVIL	PGPT0021560_4272	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|VFR_SIGNALLING_PATHWAY,PGPT0021560-cyaB|gidA-K01768	NA	NA
BMS010_03325	192	csrA1		Translational regulator CsrA1	ATGCTGATTCTGACCCGCTTCATTGGCCAGGCCGTCACTATTGCCGACGGTATCGAAGTCCGCGTATTGGCCGTGAATGGCCGGCAAGTCCGCTTTGGCGTGCAGGCGCCGCCCGAGATCGAGGTACACCGCGAAGAGGTGTATCAGCGTATCAAGCAGGGCATTCCCAAGAAACCGAAAGTCGAGGAATGA	MLILTRFIGQAVTIADGIEVRVLAVNGRQVRFGVQAPPEIEVHREEVYQRIKQGIPKKPKVEE	PGPT0015065_1524	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ENVELOPE_STRESS_SIGNALLING,PGPT0015065-csrA|zfiA-K03563	NA	NA
BMS010_03326	1044	mgtA_2	COG0438	GDP-mannose-dependent alpha-mannosyltransferase	ATGAGGATTCTCATCGTCAGCGATGCCTGGCTGCCACAAGTGAACGGTGTGGTGACCAGTCTGCAGGCATTGGTCGGCGAGCTGCGTGGGCTCGGCCATCAGGTCAAGCTGCTGTCGCCACAGGATTTCCGGTCCCGACCGTGCCCGACCTATCCGGAAATCCCCTTGGTCTGGGACCTCTGGCGGGTCGGCCCGGCGATCCGCGATTTCCGTCCGGATTGCGTGCACCTGGCGACCGAGGGCCCGCTCGGCTGGGCGGCGCGGCGCTGGTTGGTGAAGCGCGGGTTGGCGTTCTCCAGCGCGGTGCATACCCGCTTCCCCGAATACGTGCATACCCGCTGGCCGCGCATTCCCCTGGCCTGGGGCTACGCCTTCCTGCGCCTGTTCCATCGGCCGAGCGAGGCGGTGCTGGTGACCACCGGTCGCCTGCGCGAAGAGCTGGGCCAGTGGCGGCTGCAACGTCTGACCCTCTGGCGCAAGGGGGTGGATACCCGCCTGTTTCGTCCGGCGCCGTCACGGCAGGACGCCGGCCAGCCGGTGTTCCTCTACGTCGGTCGCATCGCACCGGAAAAGAACCTCGAAGCCTTTCTCGACCTCGATTTGCCAGGCGAGAAGCGCGTGGTGGGCGACGGTCCGTTGCGTGAGGCGCTACAGGCCCGTTATCCGCAGGTGCGCTTCCTCGGCTATCGGCATGGCGAGGCGCTCGCCGATGCCTATCGCGAGGCGAGCGTGCTGGTGTTTCCGTCGCGCACCGACACTTACGGTCTGGTGATGCTGGAAGCGCTGGCCTGTGGCACGCCGGTGGCGGCCTTTCCCGTACCGGGACCGCTGGATGTCCTGCAGGATGGCGTTACCGGTGTCATGGACGACGACCTCGGCAGGGCCTGTCGCGCGGCGCCGGCCTTGGATCGCCAGCGCTGCGCCGACATTGCGGCGCAGCAGTCGTGGCGTGGCTCGGCGCTGGAATTCCTGGCTCGACAGCCATTGCTGGACGGCGAGGTCTGCATGCCTGCCGAAAGCTTGTCACTGAAGGAAGGGGTGTAG	MRILIVSDAWLPQVNGVVTSLQALVGELRGLGHQVKLLSPQDFRSRPCPTYPEIPLVWDLWRVGPAIRDFRPDCVHLATEGPLGWAARRWLVKRGLAFSSAVHTRFPEYVHTRWPRIPLAWGYAFLRLFHRPSEAVLVTTGRLREELGQWRLQRLTLWRKGVDTRLFRPAPSRQDAGQPVFLYVGRIAPEKNLEAFLDLDLPGEKRVVGDGPLREALQARYPQVRFLGYRHGEALADAYREASVLVFPSRTDTYGLVMLEALACGTPVAAFPVPGPLDVLQDGVTGVMDDDLGRACRAAPALDRQRCADIAAQQSWRGSALEFLARQPLLDGEVCMPAESLSLKEGV	PGPT0024340_2364	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024340-dgkA|DGK-K00901	NA	NA
BMS010_03327	822	lpxH_2		UDP-2,3-diacylglucosamine hydrolase	ATGACCAGCGTCCAGCTCGTCAAGCCCAGCCGCAAGCAACGCGTCCGCACGCTGTGGATTTCGGACGTCCACCTCGGCACCCGCGATTGCCAGGCCGAGCATCTGGCACGATTCCTCAAGCGCTACCATGCAGACCGGGTATATCTCGTCGGCGACATCATCGACGGCTGGAAACTGCGCGGCGGCATCTATTGGCCGCAGGCGCACACCAATGTGATCCGCCGCCTGCTGACCATGAGCAAGCGCGGCACCGAGGTGATCTACGTCACCGGCAACCACGACGAATTCCTGCGCCGCTATTCCAGCCTGATGCTCGGCAACATCCAATTGGTGGACGAGGCCGAGCACGTCACTGCCGACGGCCGCCGGCTGCTGGTCATCCATGGCGATCAGTTCGATGTCATCACCCGCTACCATCGCTGGCTGGCCTTCCTCGGCGATTCGGCCTACGAGTTCACCCTGACCCTCAACCGCTGGCTCAATCACTGGCGCGAGCGCTGGGGCTACGGCTACTGGTCGCTGTCGGCCTACCTCAAGCACAAGGTCAAGACGGCAGTGAACTTCATCAGCGACTTCGAGGAAGCCATCGCCCACGAATGCGTCAAGCGCGGTCTGGACGGGGTGGTCTGCGGGCACATCCACCACGCCGAGATTCGCCGGGTGGGGGAGGTGGAGTACCTCAATTGCGGCGACTGGGTGGAGTCCTGCACGGCGCTGATCGAGCACTGGGACGGCCACATCGAACTCTACCGGCTGGCCGAGGATCAGGCGCGGCTGGAGCTGCTGGACGCGCAGGTCGAAGCCATCGAGCCGGCGGCATGA	MTSVQLVKPSRKQRVRTLWISDVHLGTRDCQAEHLARFLKRYHADRVYLVGDIIDGWKLRGGIYWPQAHTNVIRRLLTMSKRGTEVIYVTGNHDEFLRRYSSLMLGNIQLVDEAEHVTADGRRLLVIHGDQFDVITRYHRWLAFLGDSAYEFTLTLNRWLNHWRERWGYGYWSLSAYLKHKVKTAVNFISDFEEAIAHECVKRGLDGVVCGHIHHAEIRRVGEVEYLNCGDWVESCTALIEHWDGHIELYRLAEDQARLELLDAQVEAIEPAA				NA	NA	NA	NA	NA
BMS010_03328	756			hypothetical protein	ATGAACTCGATTCTTTCCCTGCGCCACTACAGCCATGACCTGATCGCCCATAGCCACGAGCATGCGCAACTGGTGTTCGGTCTCAGTGGCACACTGGACTTCGACGTCGCCGGACGGGGTGCGCGGGTAGTCCGGCAGACTGTCGCGGTGGTACCGGCGGGCACCCATCACGCCTGCGGCAGCCCCTCCGGCAGCCACTGCCTGGTGCTGGATGTCCCCACGGAAGACTGGCTGCGGCAATCCCTTGGTCGCCATGCCGACGCCAGCCTGCGTCTGCTCGACCTGCCCGGCGCGCGCCTGCTCAGCCCGGCGCAGAGCCAGTTGGTCGGCTGGCTGGCCGCCAGTCCGGTCAACGACGACGTAATCGCCCGCCAGGGCGCCGCCCTGCTCCTGGCCAGCCTGGTCGGCGAACCACGCTCCCTGGCGGAAACACAGCGCCTGCCCATGGCCGCGCTCGATGCCCACATCGACCGGCATGCCGCCCACCCGTTGCAGGTCGCCGACCTGGCGCGCCTCTGCGGTCTCTCGGCAGCACGTTTCCATGCGCGCTTTCTCGCCGAAGCCGGGCAAACGCCGATGGACTACGTGCGCAGCCGGCGGCTGAACCTCGGCCGGCAACTGCTGCTCGATAGCCATCTGCCGGTGGGCGAGATCGCCGCGCGGGTCGGCTACGCCTCGCAGAGTGCTTTTACCGCGGCCTTGTCACGCACCTACGGCGTCACTCCGCGCGAGTTGCGCGACAAACGCCGCGAGTGA	MNSILSLRHYSHDLIAHSHEHAQLVFGLSGTLDFDVAGRGARVVRQTVAVVPAGTHHACGSPSGSHCLVLDVPTEDWLRQSLGRHADASLRLLDLPGARLLSPAQSQLVGWLAASPVNDDVIARQGAALLLASLVGEPRSLAETQRLPMAALDAHIDRHAAHPLQVADLARLCGLSAARFHARFLAEAGQTPMDYVRSRRLNLGRQLLLDSHLPVGEIAARVGYASQSAFTAALSRTYGVTPRELRDKRRE				NA	NA	NA	NA	NA
BMS010_03329	336	csaA_2	COG0073	putative chaperone CsaA	ATGCCCACCATTACCTGGCAAGACTTCGAGAGCGTCGAACTGCGCGTCGGCACCCTGCTCTCCGCCCGTGTCAACGAGAAGGCCGTCAAGCCCGCCTATATCCTCGAAGTGGATCTCGGCCCGCTGGGCATCAAGACCTCCAGCGCCCAGCTCACCCACCATTACCGCGCCGAAGAATTGCCGGGCAGGCAGGTGCTCTGCGTCTGCAATTTCGAACCCAAACGCATCGCCGGGGTACGTTCGGAAGTGCTGGTGACCGGGGTCTACGACGCCGACAACAAGGTGGTACTGGCCGGCTTCGACAAGCCGCTGCCCAACGGCGCGCGCCTGGCCTGA	MPTITWQDFESVELRVGTLLSARVNEKAVKPAYILEVDLGPLGIKTSSAQLTHHYRAEELPGRQVLCVCNFEPKRIAGVRSEVLVTGVYDADNKVVLAGFDKPLPNGARLA				NA	NA	NA	NA	NA
BMS010_03330	903			hypothetical protein	ATGCAACACCGTTCGGCCTTATTGGCCATTCATCTCGGCGCCCTGATGTTCGGCCTCTCCGGCGTCTTCGGCAAACTCGCCGACAGCGGCCCGCTGGTCATCGCCTGCGGCCGTGCGCTGTTCGCCGTCGTGGCGCTGGCACTGTTCGCCCAGTTGTTCGGCCAGAGCCGCGGCCAGCGGCCCGGCGCGCGCCAGTTGGCGCTGCTGGCCCTCGGCGGCGTGCTGCTGGGCAGCCACTGGCTGACCTTCTTCCTCGCCGTGAAGGTGTCCGGGGTCGGTATCGCCACCCTCGGCTTCGCCAGTTTCCCCGCCTTCACCGTGCTGCTCGAAGGCTTGTTGTTCCGCGAACGCACCCGCGCCATGGAATTCGCCATGGTCGGCCTGGTCAGTCTGGGGCTGGTGCTGGTGACGCCGGAATTCGATCTGTCCAGCCAGGCCACCAGCGGCCTGCTCTGGGCGATCCTCTCGGGATTGCTGTTCTCGTTGCTGTCGCTGCTCAACCGCGCCAGTACCCGCGGGCTCGACCCGGTGCAGGCGGCGCTCTGCCAGAACCTCACCGTGTTCGCCTGCTTCCTGCCGCTCGCCTGGCCGCAATTGCCCCAGGTGCCGGCGCTGGACTGGCTGTGGCTGGCCATGCTCGGCATCTTCTGCACCGGTCTCGCCCACAGTCTGTTCGTCGCCAGCCTGCGCGTGCTCAAGGCGCGGACCACAGCGGTGATCTTTGCCCTCGAACCGGTCTACGGCATCGCCTTCGCCTGGTGGCTGTTCAACGAAACACCAACCCTGCGCATGCTGGTCGGCGGCGTCCTGATCATCTCGGCGATCTTCCTCTCGGCCCGTTTCGGCGCTCCCGCCGATCACCCGAAACAGGAGCCGGCGGCAGAACCGAAGCCGATCAATTGA	MQHRSALLAIHLGALMFGLSGVFGKLADSGPLVIACGRALFAVVALALFAQLFGQSRGQRPGARQLALLALGGVLLGSHWLTFFLAVKVSGVGIATLGFASFPAFTVLLEGLLFRERTRAMEFAMVGLVSLGLVLVTPEFDLSSQATSGLLWAILSGLLFSLLSLLNRASTRGLDPVQAALCQNLTVFACFLPLAWPQLPQVPALDWLWLAMLGIFCTGLAHSLFVASLRVLKARTTAVIFALEPVYGIAFAWWLFNETPTLRMLVGGVLIISAIFLSARFGAPADHPKQEPAAEPKPIN				NA	NA	NA	NA	NA
BMS010_03331	504			hypothetical protein	ATGATCTCGCGCACGGGTCGTAAGATCGGAACCGCTTTGTTGTTGATCGGCTTGTCCGCCCAGGTATTGGCGGGGCCCGGCCCGGGTGGGCATGGCGGTCCCGGGCCGGACTGGGGGCCGGGGCCAGGCTGGCACCACGATGGGCATGGCGGCCATGGCCTGCCGGACTTCGCCCGGGAGGTCTGGATCGGCAGCATGCTGTATTTCGTCGCGGCCGGTACCTATTACCTGTGGAACGCCACTACCCAGCGCTACGAAGTGGTGGCGCCGCCGCCGGCGGTGCAGGGCAACAGCGTGGCGAGCTATGAAGTGATCGCCTACCCGGCGCAGGGGCAGAGCCTCGACCAGCAAGGCCGCGACCGCTACGAGTGTCACACCTGGGCGGTCGGCCAGAGCGGCTTCGACCCGGCGACCGCCACCCGGCCGGTCGGCGCGGAGAGTACCGAACGCTATCGCCGGGCCCTCGGCGCCTGCCTGACCGGGCGTGGCTACAGCGTCAATTGA	MISRTGRKIGTALLLIGLSAQVLAGPGPGGHGGPGPDWGPGPGWHHDGHGGHGLPDFAREVWIGSMLYFVAAGTYYLWNATTQRYEVVAPPPAVQGNSVASYEVIAYPAQGQSLDQQGRDRYECHTWAVGQSGFDPATATRPVGAESTERYRRALGACLTGRGYSVN				NA	NA	NA	NA	NA
BMS010_03332	288			hypothetical protein	ATGAATGCCGCCAAGCCGGAAATCGTCATCACCTATTGCACCCAGTGCCAGTGGCTGCTGCGAGCGGCCTGGCTGGCCCAGGAGCTGCTCAGCACCTTCTCCGACGACCTCGGTAAGGTGTGTCTGGAGCCCGGCACCGGCGGAGTCTTCCGTATCACCTGCGACGGCGTGGAAATCTGGGAGCGCAAGGCCGACGGCGGCTTCCCCGAGGCCAAGGTGCTCAAGCAGCGCGTGCGCGACCGTATCGACCCCGGTCGCGACCTGGGGCATAACGATCGGGTTTCCTGA	MNAAKPEIVITYCTQCQWLLRAAWLAQELLSTFSDDLGKVCLEPGTGGVFRITCDGVEIWERKADGGFPEAKVLKQRVRDRIDPGRDLGHNDRVS				NA	NA	NA	NA	NA
BMS010_03333	2187			hypothetical protein	ATGCGCCGCCTCGTGCTCTTCGCTCTGCTCCTGCTCCTCCCCCTCGCCAGCATTGCCGAGCCGGTGCGGCCGAAGATCGGCCTGGTGTTGTCCGGCGGCGCCGCCCGCGGCCTGGCCCACATCGGCGTGCTCAAGGCACTGGAGGAACAGGGCATCGAGATCGACGCCATCGCCGGCACCAGCATGGGCGCGGTGGTCGGCGGGCTCTATGCCTCGGGCTACCGGATCGAGGAACTGGAAAAACTGGCGTTGACCCTGGATTGGCAACAGGTGCTTTCCGATGCGCCGCCCCGCGAGGACATCCCCTTCCGCCGCAAGCAGGACGACCGCGATTTCTTGGTCAAGCAGCAGCTCAGCTTCCGCGACGACGGTAGCCTCGGCCTGCCCCTCGGCGTGATCCAGGGGCAGAACCTCGCCCTTCTGTTGGAAAGCCTGCTGGCCCATACCAGCGACACCCGCGACTTCGACCGCCTGCCGATCCCCTTCCGCGCGGTCGCCACCGACATCGCCAACGACGAGAAAGTGGTGTTCCGCCGTGGCCACCTGCCCCTGGCGATCCGCGCCAGCATGTCGATCCCGGCGGTGTTCGCCCCGGTGGACGTGGACGGCCGTCTGTTGGTGGACGGCGGCATGGTGGACAACATCCCGGTCGACGTGGCCCGGGAAATGGGCGTCGACCAGGTCATCGTGGTGGACATCGGCACGCCGCTGAAACCGCGCAAGGAATTGCTGACGGTGGTGGACGTGCTCAACCAGTCGATCACCATGATGACCCGGCGCAATTCGGAGGCGCAGTTGGCGACCCTCGGCCGCGACGATCTGCTGATCCAGCCGGCCCTGGCCGCCTATGGCGTCACCGATTTCGACCGTGCCGAGCAATTGATCGATGCTGGCTACCGGGCGACCCGCGCCTTGGAGGGAAGGCTCGCCGCGCTACGCCCGGCGCCACCCAGCAAGCCGGAATTGACCCAGGCGCGCACGCCGAGCCAGCGCAAGCCGTTGATCACCGAAATCCGTGTGGAGAACGACTCCAAGGTCGGCGACGCGGTGATTCGCCGGCATATCCGCCAGAAGATCGGCGAACCGCTGGACATGGGCCGTCTGCGCACGGACATGGGCACTCTCTACGGCCTCGACTACTTCGATCAGGTGCACTACCGCGTCGTCCGCCTGCCGCTCGGCAACGCGCTGGTGATCACTGCCCGGGGCAAGCGCAGCGGTACCGACTACCTGCGCCTCGGCCTGAACCTGTCGGACGACCTGCGCGGCGACAGCGCCTTCAATATCGGCGCCAGCTACCGGATCAACGGCATCAACGAACTCGGCGCCGAATGGCTGACGCGGGTGCAACTGGGCGACCATCAGGAGATTTACAGCGAGTTCTACCAGCCGCTGGATGCCGGCTCGCGCTGGTTCGTCGCACCCTACCTGCTGGGCGAAGCGCGGAACATCGAGGCCACCCTGGACAACGATCCCATCGCCGAATACCGCCTGGAGCGCTACGGCTACGGCCTCAATGTCGGCCGGCAGATCGCCAATAACGGCGAAATCCGCTTCGGCATCGGCCAGGCCTGGGGCGAGGCGGATGTGCGGGTCGGCGAACGCGACCTGCCGAGTTTCAGCTTCACCGAGGGCTATTACGAACTGAAGTATTCGTTCGACACCCTGGACAATGTCGACTTCCCCCACGAAGGCGAGGACATCGGCCTGACCATCCGCCAGTACGATCCGTCCCTGGGCTCCGACGAACGTTATCGCCAGTGGTTGCTGTCCCTCGACAAGCCGCTCAGCCACGGGCCGAACACCTGGGTACTCGGCGGCCGCTACGGACGCACCCTGGACGATGCCGAAGTGGTGACCTCCAGCTTCCAGCTCGGCGGCGCGCGGCAGTTGTCCGGCTTCCGCCAGGACGCGCTGTCCGGGCAGAACGTCAGCCTGGGCCGGTTGGTGTACTACCGGCGGATGACCCAGCGCTCGATCCTGCCGCTGGATTTCCCGCTCTACCTCGGCGGCAGCCTGGAACGCGGCCGGGTCTGGAACAACGACAACGCCTTCGACAGCGGCTACATCAATGCCGCCAGCATCTTCCTCGGTTTTGACACCCCGCTCGGCCCGCTCAACTTCGGCTACGGCTTCAACGACGAAGACGAGAAGGCCCTGTACCTCAACCTCGGCGGCACCTTCTGA	MRRLVLFALLLLLPLASIAEPVRPKIGLVLSGGAARGLAHIGVLKALEEQGIEIDAIAGTSMGAVVGGLYASGYRIEELEKLALTLDWQQVLSDAPPREDIPFRRKQDDRDFLVKQQLSFRDDGSLGLPLGVIQGQNLALLLESLLAHTSDTRDFDRLPIPFRAVATDIANDEKVVFRRGHLPLAIRASMSIPAVFAPVDVDGRLLVDGGMVDNIPVDVAREMGVDQVIVVDIGTPLKPRKELLTVVDVLNQSITMMTRRNSEAQLATLGRDDLLIQPALAAYGVTDFDRAEQLIDAGYRATRALEGRLAALRPAPPSKPELTQARTPSQRKPLITEIRVENDSKVGDAVIRRHIRQKIGEPLDMGRLRTDMGTLYGLDYFDQVHYRVVRLPLGNALVITARGKRSGTDYLRLGLNLSDDLRGDSAFNIGASYRINGINELGAEWLTRVQLGDHQEIYSEFYQPLDAGSRWFVAPYLLGEARNIEATLDNDPIAEYRLERYGYGLNVGRQIANNGEIRFGIGQAWGEADVRVGERDLPSFSFTEGYYELKYSFDTLDNVDFPHEGEDIGLTIRQYDPSLGSDERYRQWLLSLDKPLSHGPNTWVLGGRYGRTLDDAEVVTSSFQLGGARQLSGFRQDALSGQNVSLGRLVYYRRMTQRSILPLDFPLYLGGSLERGRVWNNDNAFDSGYINAASIFLGFDTPLGPLNFGYGFNDEDEKALYLNLGGTF				NA	NA	NA	NA	NA
BMS010_03334	2106			hypothetical protein	ATGGTTCGAGCACATCGACTCCTGCTCACGCTTGCCTCGGGCTCTGCGCTGTATTCGGGCATCGTGCCCGCATTGGGCCTGGGCGAAATTTCCTTGCATTCGGCCTTGAATCAGCCCCTCGACGCCGAGATCGAGTTGCTGGACATCGGCGACCTGGATGCCAGCGACATCCACGTCGGACTGGCGTCGGCCGACGATTTCCAGCGCTCCGGCGTCGAGCGTTTCGTCTTTCTCAATGACCTGCGCTTCTCGCCCGTGCTGCGCGGTGCGAACAGCGTGATCCGCGTCGCCTCGACCCGGCCGGTGCGTGAGCCGTACCTGAATTTCCTGATCGAAGTGCAGCGCCCGACCGGACGCCTGCTGCGGGAATACACGGTCCTGCTCGATCCACCGGGCAGCGCGTACCACGCCCAGGCCAGCCAGGCCCCGGCACAGAGGCATCCCGAGCGCGCTACCGTCCCGGCGATCCCCGCACCGCCTGCGATCCAGGGCAAGCGCTATACCGTGGCTTCCGGCGACAGCCTCTGGGCCATCGCCCGGAGGCTTCAGGCGGCGGGCAGCCAGGCGTCGCTGGACGAGCTGATGACCGGCATTCATGCACTCAATCCGCAGGCCTTCAGTGGCGGGGACATCCACCGCCTCAAGGCCGGTGTCACTTTGTTGTTGCCAGATACGGCGGTCGAGCCGCAGTTGGCGTCTGCCGAGCAGGCAGCGGTTCCAGTGCCTGAGCCGCAACAAGCCGAAGCGCCGGCCGGGCAGCCTGAACCGGCAGAAACGGCGCAGGTCGCCGCCCTGCAACGGCGGTTGGACGAGGAACTGCTGGCCAGCGAAGCGGAAAAACAGCGTCTGCGCGACGAAAAGGCGGAGCTGGAAGCGCGCCTGGAGCAGCTACAGCGACGCTTGAACGACATGGACAGCCAACTGGCCGAGGTACGGGCCGGCCTGGCTCGGCCCTCTGCGAACGCTCCGGCGGAGGGCGGCGAGCCGGCGACGCCAGTCGAGCAGGGCTCCGAAGCGGTGTCGCCGGAGGTCCGCCAGGAGCCTGCCGCGGAGGGCAGCCGGCCGTTCCTGGCGAACGGGCTCTGGGCGTCGCTCGGTGGGTTGCTGCTGATCTTGCTGGGGCTGGCGTGGTGGCTCCTGGCCCGGCGCCGTCGCCGGGAAGAGCCCGAGGAGACGGCCGCCGAGGTCGTGTCGGCAGCGGCAGCCCCGGAACCGCTGGAGGAGCAATCCCTGTCGAACCTCTGGCGCAACGAGCCTTTCCGGCCGGTAGCCGCACGGCCGATGGTGTCCAGCGATCCGCTGGAAGGCGCCAACCTGTACATCGCCTACGGGCGCTTCGCCGAAGCGCTGACCGTGCTGCGCGCCGCTGTCAATCGGGAACCGACCCGCACCGATCTGCGCTACCGTCTGCTGGAGGTGCTCGGCGAACTGGGCGACCGCGCCGGTTTCGCCAGCGAAGAGGCGGCCTTGCGCGAACAGGGATTCAGCACGGTGAAGCTGGACCAGCTCAAGGCGCGCTATCCATTGGCGGCCGCTCCGCTCGACGAGATCCCCGATGTACTGCAGCCGGTCCTGCGCGAAGCGGAGGCGGAAGCCGAGCCCGTGGCGTTGGAGTCGCAGGATGACTTTGCGCTCAACCTGGACGATTTTTCCCTGGATGCCGACTGGGACCTGGACAGCCCGTTCAAGCCCGCCGCGCCCAAACGTGCCCAGGCGAGCCAGCCGACGCAGCCCGAGGCGGTCGATTCGAACTTCAATTCGAACCTCCAGGAACTGCCGGAACTCTTCGAGCTGACCCTCGACCCGGACGTGCTCAGCCCCTTCGGCGATACGCCGGAAGCCAAGCCGTTCGAGGACGACCAGCTTTCGGAAGCCTTCTTCGACGCCTTTGGCGATACCGATGCCCCGCGCGAGACGCCGCCAGTGGAGCGCAATCTCGACCATTTGGCGGGCAGCCGCGAGCACCTGACCAAGCTGAACCAGGCCCTGGCCTACATCGAGCAGGGCGACCTGGGCAGCGCTTGCGCCATCCTCAACGAGGTCATCATCGAGGGCGACGACCAGGAGCGGCAGGAAGCCCGCGAACTGCTGGCGAAGATCGCCTGA	MVRAHRLLLTLASGSALYSGIVPALGLGEISLHSALNQPLDAEIELLDIGDLDASDIHVGLASADDFQRSGVERFVFLNDLRFSPVLRGANSVIRVASTRPVREPYLNFLIEVQRPTGRLLREYTVLLDPPGSAYHAQASQAPAQRHPERATVPAIPAPPAIQGKRYTVASGDSLWAIARRLQAAGSQASLDELMTGIHALNPQAFSGGDIHRLKAGVTLLLPDTAVEPQLASAEQAAVPVPEPQQAEAPAGQPEPAETAQVAALQRRLDEELLASEAEKQRLRDEKAELEARLEQLQRRLNDMDSQLAEVRAGLARPSANAPAEGGEPATPVEQGSEAVSPEVRQEPAAEGSRPFLANGLWASLGGLLLILLGLAWWLLARRRRREEPEETAAEVVSAAAAPEPLEEQSLSNLWRNEPFRPVAARPMVSSDPLEGANLYIAYGRFAEALTVLRAAVNREPTRTDLRYRLLEVLGELGDRAGFASEEAALREQGFSTVKLDQLKARYPLAAAPLDEIPDVLQPVLREAEAEAEPVALESQDDFALNLDDFSLDADWDLDSPFKPAAPKRAQASQPTQPEAVDSNFNSNLQELPELFELTLDPDVLSPFGDTPEAKPFEDDQLSEAFFDAFGDTDAPRETPPVERNLDHLAGSREHLTKLNQALAYIEQGDLGSACAILNEVIIEGDDQERQEARELLAKIA	PGPT0016075_969	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-SURFACE_ATTACHMENT	SURFACE_ADHESION	SURFACE_ADHESIVE_FIMBRIAE,PGPT0016075-fimV-K08086	NA	NA
BMS010_03335	1404	emrB_1		Colistin resistance protein EmrB	ATGGGGCAGGACCTCGAGGCGCTGCGCGCGCGGCTCGGCGCGTCCTATCCCAACTGGCTGCTGGCGCTGCTGATGACCGGCAGCATGGCGATGGTGCTGGCCTCGACCAGCATCAACGTAGCCTTGCCGGCGATCATGGCCGATTTCGCCATCGGCCGACCGTTGGCGCAATGGTTGTCCACCGGCTTTCTCGCCGCCATGACGGCCGGGTTGCTGCTGTCGGCCTGGGCGCTGGCCCGTTTCGGCGCGCGGCTGACGGTGCAGGCCGGGTTACTGCTGTTCATCGCCGCATCGCTGTTGGCATTGGTGGCTACCGGCGCCTGGGAGTTGATCGCCCTGCGCATCGTCCAGGGTCTTTGCGCCGGGGTGATCCAGCCGCTGGCCATGGTGCTGATCTTCCGTACCTTCGCCGAGGGTGGGCGCGGCATGGCGTTGGGCATCTATGGGCTCGGCGTGATGGTGGCGCCTTCCCTGGGGCCCACCGTCGGCGGCTATCTGGTCGACCATTTCGGCTGGGCCGCGGTGTTCTGGATGCCCTTGCCGATGTGCCTGCTGGTCTTGCTGGGGGCGCACTGGCTGCTGCCCAACCGACGCGCGGACACCACGCCACCGCTCGATCTGTGGGCTTTTCTCCTGCTCAGCATCGCACTGTTCGCTCTGCTCGGCGCGTTGGCCGAGGCGCAGCGCTTCGGCTGGCTGGTACCGCGCAGCGGGGTGCCAATGCTGATCGGGCTGCTCGCCGGTGCGGCGTTTTTCCTGCGCAGCCGGCGCCAACCCAAGCCTCTGCTGCCGCTGGGCCTGTGGCGTCACGCGGCGTTTCGCAGCGCCAGTTGGGTGGCGTTGGTGCTGGGCATGGGCCTGTACGGTTCGACCTACCTGATCCCGCTCTACCTGCAAATGGTCGAAGGCTACAGCGCGGGCAGGGCCGGCCTGCTGTTGCTGCCGACCGGCGTGGTGCTGGGGATCGCCTCCTTCATCGGCGGCTGGCTGAGCGACAAGCTGTCCGCTGCGCTGCTGCTCGGCGTCGGCCTGGCGGTCTTCGCCCTGTCTTCGGCAGGGCTGGGAACCCTGGAGCAGGGGGCTTCGTTCCTGGCGCTCTGCACTTGGGCCTGTGTCGGGCGGATCGGTCTGGGCCTGCTGTTGCCGGCACTGAACACCGGTGCGTTGGATGTTCTGAAGGCCGAAGAACTGGCGCTCGGCGCCGGGGCCATCACCTTCGTGCGCCAGTTGGGTGGCGCCTTCGGGGTCAACCTGCTGACGTTCTTCCTGGAGTGGCGTCATGCGGCGGAGGGAGGTGACGCGCTGGCGGAGGCCCAGGCCTTCCAGCAGACCTTCTGGCTGATGGCGGCGCTCTTCGCCCTGGCGGTGTTGGCCGCCCGAGGCGTTCGCTCGACAGAATCCTGA	MGQDLEALRARLGASYPNWLLALLMTGSMAMVLASTSINVALPAIMADFAIGRPLAQWLSTGFLAAMTAGLLLSAWALARFGARLTVQAGLLLFIAASLLALVATGAWELIALRIVQGLCAGVIQPLAMVLIFRTFAEGGRGMALGIYGLGVMVAPSLGPTVGGYLVDHFGWAAVFWMPLPMCLLVLLGAHWLLPNRRADTTPPLDLWAFLLLSIALFALLGALAEAQRFGWLVPRSGVPMLIGLLAGAAFFLRSRRQPKPLLPLGLWRHAAFRSASWVALVLGMGLYGSTYLIPLYLQMVEGYSAGRAGLLLLPTGVVLGIASFIGGWLSDKLSAALLLGVGLAVFALSSAGLGTLEQGASFLALCTWACVGRIGLGLLLPALNTGALDVLKAEELALGAGAITFVRQLGGAFGVNLLTFFLEWRHAAEGGDALAEAQAFQQTFWLMAALFALAVLAARGVRSTES	PGPT0029220_2809	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029220-emrB-K03446	NA	NA
BMS010_03336	435	slyA_3		Transcriptional regulator SlyA	ATGTCCTATCCCGATCAACACCGTTTCGCCATGCAATTGGCCCAGCTTTCCCGTGCCTGGCGGGCCGAGCTGGACCGCCGCCTCGTCGGCCTCGGGCTGTCCCAGGCGAGGTGGCTGGTGCTCCTGCACCTGGCCCGCTTCCAGGAGCCGCCGACCCAGCGCGAGCTGGCCCAGAGCGTGGGCGTCGAAGGCCCGACCCTGGCGCGTCTGCTTGACAGCCTCGAGGCCCAGGGGCTGGTCCGCCGGCAGGCCGTGCTGGAGGATCGCCGGGCGAAGAAGATCACCCTCAGTCCCGAGGCGCGCCCGTTGATCGAGAAGATCGAAGCGATTTCCACCCAACTGCGTGAAGAGCTGTTTTCCGGCATCGACGAGGAAGAACTGCGTCGTTGCCAGCAGGTTCACGCCCGGATTCTGGCGAATCTGGAAAAACGTTGA	MSYPDQHRFAMQLAQLSRAWRAELDRRLVGLGLSQARWLVLLHLARFQEPPTQRELAQSVGVEGPTLARLLDSLEAQGLVRRQAVLEDRRAKKITLSPEARPLIEKIEAISTQLREELFSGIDEEELRRCQQVHARILANLEKR	PGPT0016255_1562	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0016255-sylA-K06075	NA	NA
BMS010_03337	1167			hypothetical protein	ATGAAGTTGTCGCCCCGTCCTGCCTGGCTAGATGACGTTCGCCCCAATCCCTATGCCGACCAGCTCGCATCGGGCTTTCGCCTGTTGCGTTTCTCCCGCCCCCTCGAACGCGAATACCGCGAGTTCATGCTGGAAGACGGCTTCGAGCTGAAGCGTATCGCCCTGGGAGTCGGCATTCTCTTCTGGCTGGCCTTCGCCGTTCTGGACCAATTGCTGATCAGCGATGGTGCGCGATGGGAGATGATCGGCATCCGGCTCCTGGTGCTGGTCCTGCTGGTGATCTGCGCCTGGTTGATGATGCAGCGGCGCCATATTTACCTGCTGCTACCGCTGAGCCTGGTGTGCATCCTGGCCTTCGGCCTGGGGGCGGCCGCGGTGGTGGCTCTCGCGCACCGCAGCGATCCGGGCTACCCCTACGAAGGACTGCTGCTGGTGAGCATGGCGGCCTATTTCCTGGTCGGCCTGCGTCTGAGCGAAGCCCTGGCCTGCGCCCTGGCCGTGCTGCTGGCTTATGTCGGCTTCGAACTGCTGGCCGGGTTGCCCGCGGCCCGGCTGATCAACAACGTGCTGTTCCTGGCCTTCGGCAACCTGATCGGCGCCCTGGGCTGTTATCTCCTCGAGTTCAAGTCGCGACAGCATTTCCTGGTCAGCCGGCTGATGCGGGTCCTGGCTGACCACGACAGCCTCACCGGACTGCACAACCGCCGCAGTTTCAATCGCCAGTTGGAGCGGCTGTGGCGGCATGCCCAGCGCGAGAAACTCTCCGTGGCGCTGTTGCTGTGCGATATCGATCACTTCAAGGCGTACAACGACCGCTACGGACACCAGGCGGGGGACAAGGCGCTGCAGCGTGTCGGGCTGGTGCTGGAGAGCGCGGCGCGGCGGCCTCTGGACATGGCCGTGCGCATGGGCGGCGAGGAATTCGCCGTGCTGCTGTACGACATCGAGGAGAGCGAGGCGCTGCGGCGCGCCGAAGCCTTGCGCGCTGCGCTGGAAGCCGAGGCCATTCCCCATGATCGTTCGGACACCGCCAAGGTGGTGACCATGTCCATCGGTGTGGCCTGCTTGCAGCCCACGGAGCAGGACAACCTCAGCCAGCTTTACGAACGTGCCGACCGGGCGCTTTACCTGGCCAAGGCGGACGGCCGCAATCGGGCCATGCTGTAG	MKLSPRPAWLDDVRPNPYADQLASGFRLLRFSRPLEREYREFMLEDGFELKRIALGVGILFWLAFAVLDQLLISDGARWEMIGIRLLVLVLLVICAWLMMQRRHIYLLLPLSLVCILAFGLGAAAVVALAHRSDPGYPYEGLLLVSMAAYFLVGLRLSEALACALAVLLAYVGFELLAGLPAARLINNVLFLAFGNLIGALGCYLLEFKSRQHFLVSRLMRVLADHDSLTGLHNRRSFNRQLERLWRHAQREKLSVALLLCDIDHFKAYNDRYGHQAGDKALQRVGLVLESAARRPLDMAVRMGGEEFAVLLYDIEESEALRRAEALRAALEAEAIPHDRSDTAKVVTMSIGVACLQPTEQDNLSQLYERADRALYLAKADGRNRAML				NA	NA	NA	NA	NA
BMS010_03338	2154	recQ_1	COG0514	ATP-dependent DNA helicase RecQ	ATGGGGCTCCGAAAGACCGTGGAGTTTTGCATGCTCGAACAGGCCCAGCGCATCCTCAAAGACGTCTTCGGCTACGACGCCTTTCGTGGCAACCAGGCGGCGATCATCGAGCGCGTCGCCACGGGTGGCGATGTCCTGGTACTGATGCCCACGGGCGGCGGCAAATCGCTCTGCTATCAGGTGCCCGCCCTGTTGCGCGAGGGCCTGGCGGTGGTGGTTTCGCCCTTGATCGCCCTGATGGACGATCAGGTCGCCACCCTCGACGAACTGGGCGTGCCGGCCGTGGCGCTGAATTCCACCCAGAGCCCGGAGGAGCAGCGCGATATCGCCGACCGGATTACCCGGGGCGAGATCAAGTTGCTTTACCTGGCCCCGGAGCGGCTCGTCCAGCCCCGTATGCTGGCGTTCCTGCAACGCCAGCGGATCGCCTTGTTCGCCATCGACGAGGCCCATTGCGTGTCCCAATGGGGCCACGATTTCCGCCCGGAATACCTGCAACTGGGCCAACTCGCCGAGCAGTTCCCGCACGTGCCGCGCATCGCCCTGACCGCGACGGCCGACAGGCGTACCCGCGAAGAAATCGTCAACCGCCTGCATTTGCAGCAGGCCGAGCGTTTTCTCTCCAGCTTCGACCGGCCGAACATTTTCTACCGCATCGTGCCGAAGGAGCAGCCGCGCAAGCAGCTGATCGGCTTCCTCGCCGAGCGCCGGGGTGACGCGGGCATCGTCTATTGCCTGTCGCGCAAGAAGGTCGAGGAGGTGGCGGCTTTCCTTTCGGAGCAGGGCTTCCCGGCGCTGCCTTATCACGCGGGGCTGCCCAACGACCTGCGGGCGTTCCACCAGAAGCGCTTCCTCAACGAGGAAGGGCTGATCATGGTGGCGACCATCGCCTTCGGCATGGGCATCGACAAGCCCAACGTGCGTTTCGTCGCTCACCTCGACCTGCCCAAGTCCCTCGAAGCCTATTACCAGGAAACCGGTCGCGCCGGTCGTGACGGGCTGCCCGCCGATGCCTGGATGGCCTATGGGTTGCAGGACGTGTTGCTGCTCAAGCAGATGCTCAACAACTCCGAGGGCGACGAGCGGCACAAACGCGTCGAGCAGCACAAGCTGGATGCCATGCTCGCGCTCTGCGAGGAAACCCGCTGTCGCCGCCAGGCGCTGCTGGCCTATTTCGACGAAGAGCTGCCGCAGCCGTGCGGGCACTGCGACAACTGCGTCGACGGCGTGCAGACCTGGAACGCCACCGAGCCGGCACGTCAGGCGCTGTCGGCGATCTACCGCAGTGGCCAGCGTTACGGTGTCGGCCATCTGGTCGACATCCTCCTCGGCCGCGACAACGAGAAGGTCCGGGGGCCGGGGCACCAGCATCTGTCGGTATTCGGCGTCGGCAAGTCGCTGTCCGAGGGCGAATGGCGTTCGCTGTACCGCCAGTTGGTGGCGCGCGGGCTGGCCGACGTGGACCTGGATGGTTTCGGCGGGTTGCGCCTCTCCAACAGTTGCCGGCCGCTGTTGCGTGGCGAGGTTGAATTGCAGCTGCGCCGCGATCTGAAGCCGCAGGCGCCGAAAGCCTCCTCCAGCGCCGCCAGCCAACTGGTGCGGGGCGAGGAACGCGAGCAGTGGGAAGCCCTGCGGGCCCTGCGCCGCAAGCTGGCCGAGGAGCATTCGGTACCGCCCTACGTCATCTTCCCCGACGCGACCTTGCTGGAAATGCTGCGCAGCCGGCCATCGACCCTGGCGGAGATGGCACGGGTCAGCGGTGTCGGTGCGCGCAAGCTGGAGCGCTACGGCGAAGCCTTCCTCGAAGTGCTCAACGGCAAGGCGGAGGCACCGCGGGCTGTCACCGATCTGCGCCACGAGCTGGTCAGCCTTGCGTCCGCCGGCATGACGCCGGCGCAGATCGCCCGCCAGCTGAATTGCACCGAAAAGAACGTCTACAGCCTACTGGCCGAGGCCATCGGGCGGCAGCAGTTGAGCCTGGAGCAGGCGCTCGACCTGCCGGAAGAATTGCTGGGCGAGATCCAGGATGCCTTCCTCGATGGCGAGGGCGAGCTGCCGCCGGTGGCGGAGATCGCCGACCTGTTCGCCGGTCGCGTTCCGGACGGTGTGCTGCATTGCGTGAGGGCCGCGTTGCAGGCGGAGTTCGAAGTCTGA	MGLRKTVEFCMLEQAQRILKDVFGYDAFRGNQAAIIERVATGGDVLVLMPTGGGKSLCYQVPALLREGLAVVVSPLIALMDDQVATLDELGVPAVALNSTQSPEEQRDIADRITRGEIKLLYLAPERLVQPRMLAFLQRQRIALFAIDEAHCVSQWGHDFRPEYLQLGQLAEQFPHVPRIALTATADRRTREEIVNRLHLQQAERFLSSFDRPNIFYRIVPKEQPRKQLIGFLAERRGDAGIVYCLSRKKVEEVAAFLSEQGFPALPYHAGLPNDLRAFHQKRFLNEEGLIMVATIAFGMGIDKPNVRFVAHLDLPKSLEAYYQETGRAGRDGLPADAWMAYGLQDVLLLKQMLNNSEGDERHKRVEQHKLDAMLALCEETRCRRQALLAYFDEELPQPCGHCDNCVDGVQTWNATEPARQALSAIYRSGQRYGVGHLVDILLGRDNEKVRGPGHQHLSVFGVGKSLSEGEWRSLYRQLVARGLADVDLDGFGGLRLSNSCRPLLRGEVELQLRRDLKPQAPKASSSAASQLVRGEEREQWEALRALRRKLAEEHSVPPYVIFPDATLLEMLRSRPSTLAEMARVSGVGARKLERYGEAFLEVLNGKAEAPRAVTDLRHELVSLASAGMTPAQIARQLNCTEKNVYSLLAEAIGRQQLSLEQALDLPEELLGEIQDAFLDGEGELPPVAEIADLFAGRVPDGVLHCVRAALQAEFEV				NA	NA	NA	NA	NA
BMS010_03339	588			hypothetical protein	ATGTCCTTCGCCGAGCAACTGTCCCGCCTGCAAGCCTTTCTCGATGCCGACGAGCTGCATGAAGAGGCCCTGGACTATGTGGCCGCCCATGGCTATTTGACCGCCCTGTCGATCTGCCCGGAGCAGGTCCCGGAGCGTGAATGGATCGACGCGCTCTTCGCCGAGCCGCCGCACTATCGCAGCGACGCCGAACGCGACGAAATCGAAGGCACCCTGCTCCAGCTCAAGGCCCACATCGGCCGCCAACTGGCCAGCGACGACGACCCCGAGCTGCCCTGCGACCTGGACCTCGGCGACGATCCCGACGAATCCGACCTGCGCGGCTGGTGCATCGGCTTCATGGAAGGGGTGTTCCTGCGCGAAAGCGTCTGGTTCGAAGACGCCGAAGACGAAGTCAGCGAGTTGCTGCTGCCGATCATGGTCGGTTCGGGCCTGTTCGACGAGCAGCCGGAATTCGCCGAAATCGCCCGCGACCGTCATCTGGTGGACGAAATGGTCGAGCAGATTCCGGAACTGCTCACCGCCCTCTTCCTGCTGTTCAACGCCCCCGAAGAAAAACCCGCCCTGCTCAAGCCGCGCCATCACTGA	MSFAEQLSRLQAFLDADELHEEALDYVAAHGYLTALSICPEQVPEREWIDALFAEPPHYRSDAERDEIEGTLLQLKAHIGRQLASDDDPELPCDLDLGDDPDESDLRGWCIGFMEGVFLRESVWFEDAEDEVSELLLPIMVGSGLFDEQPEFAEIARDRHLVDEMVEQIPELLTALFLLFNAPEEKPALLKPRHH				NA	NA	NA	NA	NA
BMS010_03340	414			hypothetical protein	ATGAACCGCCCCACGCCGCAGCCGGATATCCGTGAGGCACGCCATCCTGCCGTGCGTTACGTGCTGCTCGCGGTGGGCTGGCTCTGCATCGTCCTCGGCGTGATCGGCATCTTCCTGCCGGTGCTGCCGACCACCCCCTTCCTCCTGCTGGCCGCCGCCTGCTTCGTGCGCAGCTCACGGCGCTTCTACCTGTGGCTGGTCACCCACCCCCGCCTCGGCCCGTGGATTCGCGATTATCTCGACGGGCAGGGCATTCCGCTCAAAGGCAAGGTCTACGCCATCGGCCTGATGTGGGTGAGCATCGGTTTTTCCTGCTATCTGGTTCCGATGGTCTGGGCGCGCGTGTTCATGCTGAGCAGCGCCGTGCTCGTCACTCTCTACATTCTCAAGCAGAAGACTTTGCCGGCCCGCTGA	MNRPTPQPDIREARHPAVRYVLLAVGWLCIVLGVIGIFLPVLPTTPFLLLAAACFVRSSRRFYLWLVTHPRLGPWIRDYLDGQGIPLKGKVYAIGLMWVSIGFSCYLVPMVWARVFMLSSAVLVTLYILKQKTLPAR	PGPT0003745_140	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003745-tonB-K03832	NA	NA
BMS010_03341	720			hypothetical protein	ATGCTTCAGTGGCTGTGCATTCCAGGAGGATCGACGCGCCCGCTCACGGCCCGCCTGGATCGCTGCCTGCTGCTCGCCCTGCCCCTCTTCCTGGCCTTCCTGCTGACGACCGCCTCGGCCAACTGGGACTTCGAGAACATCATCCGCAACGCGGAAAAACGCTATGGCCCACTCGGCATCGCCAAGGGCCGCATCGAAGCCTGGAGCGACCTGATCGACAGCAGCGGCGAGCTTCCCGAACGGGAGAAGCTGGACGTCGTCAATCGCTTCTTCAACCGTCAGTTGCGCTTCACCAACGATTTCCGCATCTGGCAGCAGAACGACTACTGGGCCACCCCTATCGAGGCCCTGGTCAAGGGCGCCGGCGACTGCGAGGACTATTCCCTCGCCAAGTACTTCACCCTGCGCCGCCTCGGCGTGCCCAGCGACAAGCTGCGCATCACCTACGTCAAGGCGCTCGATTACAACCAGGCGCACATGGTGCTGACCTACTACGTCAGCCCCACCGCCGAACCGCTGGTGCTGGACAACCTGATTGGCGATATCCGCCCCGCTTCGCAACGCAAGGACCTGCTGCCGGTATACGCCTTCAACGCCGAAGGCCTCTACCTGCCGGGGGGCGGCGGCGGCAAGCGCAGCGGTGATGCCAAGAAGCTGTCGCGCTGGCAGGACCTGTTGAAAAAAATGCGGGCCGAAGGCTTTGCCATCGGCGAGGGTTAG	MLQWLCIPGGSTRPLTARLDRCLLLALPLFLAFLLTTASANWDFENIIRNAEKRYGPLGIAKGRIEAWSDLIDSSGELPEREKLDVVNRFFNRQLRFTNDFRIWQQNDYWATPIEALVKGAGDCEDYSLAKYFTLRRLGVPSDKLRITYVKALDYNQAHMVLTYYVSPTAEPLVLDNLIGDIRPASQRKDLLPVYAFNAEGLYLPGGGGGKRSGDAKKLSRWQDLLKKMRAEGFAIGEG	PGPT0022238_3	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-ADHESIN_TRANSPORT,PGPT0022238-lapP-NA	NA	NA
BMS010_03342	1953			hypothetical protein	ATGTCACTACTCAAGCAACTGTTCATCGCCATCTGCCTGTTCCTCGTCGTGGCCTTCACCGGCAGCTTCATCGCCGGGGTGGAGAACTCCCGCGAGCAGTTGATCAGCCAGTTGCGCTCCCATGCGCAGGACGCCGCCACCGCGCTCGGCCTGTCGATGACGCCGCACGTGGACGACCCGGCCATGCTGGAGCTGATGGTCAGCTCGATCTTCGACAGCGGTTACTTCGCCAGCATCCGCGTGGTGCGCATCCCGGATGAAACGGTGATAGTCGAGCGCAACGCCGAACCGCGTCCCGACGAGGTACCGCAGTGGTTCGTCGATCTGGTCGACCTCCGCCCACAGGGCGGTGATGCGCTGATCAGCCGAGGCTGGGAGCAGGCCGCGCGGGTCGAAGTGATCAGCCATCCGCGCTTCGCCCTGGCCAGGCTATGGGAAAGCGCCATCGCCAGCCTGCTCTGGTTGCTGCTGTGCGGCCTGATCAGTGCGGTGCTCGGCGCCTGGCTGCTGCGTGTCCAACTGACGCCGCTGGACAAGATGGTGCAACAGGCCCAGGCCATTTCCCGGCGCGAGTTCCTCAGCCTGCCACGCATTCCCCGCACACCGGAATTCAAGCGTGTGGTGCTGGCGATGAACCAGATGGTGGACAAGCTCAAGGCGTTGTTCGCCGAAGAGGCGGCACGTAGCGAAAAACTGCGCGAGGAGGCCTATCAGGACAGCCTGACCGGCCTGGCCAACCGCCGCCTGTTCGATCTCAAACTGGCCAACCAGCTCAGCACGGCCGAACAGCACTCCGCCGGCTACCTCGTGCTCCTGCGCGTGCAGGATCTGGTCGGCCTCAACCAACGGCTCGGCGGCGAGCAGACCGACGCCCTGATCGGCGCCATCGCCGAGCAGCTCGAGCGCCTCGTCGAGCGACACGGCAAACCGGACTGGCTGGCCGCGCGCAGCCGTGGCGGAGAATTCACCCTGCTCGCCCCCGGCCTGACCGGCGAGGACGCCGACCGCCTGGCCGCCGAACTCAGCGAGGCGCTGGACAACCTGTACCGGACCGGCGCCAGCGATTGCCAGTCGGTGGCCCATGTCGGGGTTGCCGCGTTCAAGCCCGGGGAAACACCGGCCAATGTCATCGCCCGCGCGGACCAGGCCCTGGCCCAGGCGCAGAGCAATCCGGGCAAGGGCTGGGAGCGCCTCGACGACTACCTGGCGCAGAACGGCAAAGGCCTGCACAACTGGCGCGCCTGGCTCGACGAAGCGCTGGACCAGGGCAAGCTGCAGTTATATTTCCAGCCCGTCGTACGCTGTGCTGAGCGCAGCCAGGTGCTGCATCACAAGGTCCTCGCCCGGCTGATCGATCCCCAGGGTGAAGCGGTGAGCGCCGGCCACTTCCTGCCCTGGATCGAGCGCCTGGGCTGGGGTGCCCGCCTCGACCGGGCGATGCTCGAACACAGCCTGGCCCACCTCGCCGAACATCCGCGGCTGCTGGCCCTCAGTCTGTCCGCCGCGACCCTGCGCGAGCCGGACAGCCTGGCGGGCCTGCTCGACCTGCTCAAGCAGAACCCCCAGCAAGCCAGCCTGATGACCCTGGATCTGGACGAACGCTACCTGCCGCCACCCGCCGAACTGGAGCGCCTGGCCCAGAACCTGCGCGGCGCCGGCGTCCAGCTCGGCCTGCAGCACTTCGGCGGACGCTTCAGCCTGATCGGCAACCTCACCCACCTCGGCTTGGCCTATCTGAAGATCGACGGCAGTTACATCCGCCACATCGACCAGGAGCACGACAAGCGGCTGTTCATCGAAGCCATCTTCCGCGCGACCAACAGCATCGATCTGCCGCTGATCGCCGAAATGGTGGAAACCGAAGGGGAATTGCAGGCGCTCGGCGAATTGGGCGTATACGGCGCCATGGGCCGCCTGATCGGCGCGCCAGAGCCGCGGAAGAAAATGCCCTGA	MSLLKQLFIAICLFLVVAFTGSFIAGVENSREQLISQLRSHAQDAATALGLSMTPHVDDPAMLELMVSSIFDSGYFASIRVVRIPDETVIVERNAEPRPDEVPQWFVDLVDLRPQGGDALISRGWEQAARVEVISHPRFALARLWESAIASLLWLLLCGLISAVLGAWLLRVQLTPLDKMVQQAQAISRREFLSLPRIPRTPEFKRVVLAMNQMVDKLKALFAEEAARSEKLREEAYQDSLTGLANRRLFDLKLANQLSTAEQHSAGYLVLLRVQDLVGLNQRLGGEQTDALIGAIAEQLERLVERHGKPDWLAARSRGGEFTLLAPGLTGEDADRLAAELSEALDNLYRTGASDCQSVAHVGVAAFKPGETPANVIARADQALAQAQSNPGKGWERLDDYLAQNGKGLHNWRAWLDEALDQGKLQLYFQPVVRCAERSQVLHHKVLARLIDPQGEAVSAGHFLPWIERLGWGARLDRAMLEHSLAHLAEHPRLLALSLSAATLREPDSLAGLLDLLKQNPQQASLMTLDLDERYLPPPAELERLAQNLRGAGVQLGLQHFGGRFSLIGNLTHLGLAYLKIDGSYIRHIDQEHDKRLFIEAIFRATNSIDLPLIAEMVETEGELQALGELGVYGAMGRLIGAPEPRKKMP	PGPT0022237_6	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-ADHESIN_TRANSPORT,PGPT0022237-lapD-NA	NA	NA
BMS010_03343	342			hypothetical protein	ATGGTGTATGTGCAGCGGGATCGGGAAGGGCGCTTGCTCCGGGCGGAGCAGTCGCCCTTCGATGACATGACGGAAACCCTGGCGGTGGACGACGAGGAGCTGCTCCAGTGGCTGGATGCCCAGGAAAAGATGCAGCTCCGCTTGGCCAAATTGAGGAATTCCGACCTGGAAATGATCCGGGTGCTGGAGGACTTGGTGACCGTGCTGGTCGATCGCGGCGTGATTCGCTACACCGACCTGCCGGAAGCCGCGCGGCGCAAACTGCATGCGCGGGCGGAAACGCGGGCGGAGCTGGGCGGGCTCAGCGGCTTGCTGGGCGATGACGAAGGTGGGTTGATCTAG	MVYVQRDREGRLLRAEQSPFDDMTETLAVDDEELLQWLDAQEKMQLRLAKLRNSDLEMIRVLEDLVTVLVDRGVIRYTDLPEAARRKLHARAETRAELGGLSGLLGDDEGGLI				NA	NA	NA	NA	NA
BMS010_03344	6882			hypothetical protein	ATGGCTACGTTGATCGGTGTCGTCAGACAGGTCGTGGGAGAGGTGTATGCGGTCGCCAGCGATGGCGGGCGGCGTCTCCTCGTTGAGGGTGACCGGGTATTCGCCGGCGAACAGATCGTCACCGGGCCGGAGGGCGCAATCTCCATCGCGCTGGCCAAGGGTGGGGAACTGGAACTCGGACGGCAGAGCGAACTGCTGCTGGATAGCCAGTTGCTGGCCGAGGGCAGCGGTGCATCGGTGGAGCAGGCGGCCGCGACTGCGCCGAGCGACCAGGATCTGACCGACGTCGAAGCCCTGCAACGTGCCATCGCGGCGGGCGCCGACCCGACCCAGATCGGTGAAGCCACCGCGGCCGGCCCAGGTGCCGGAGCAGGCGGCGCCGGCGGTGGAGGCGGCGGGCACTCGTTCGTCCTGCTGGGCGAGGTTGGTGGCGCCGTCGACCCGGTGATCGGCTTCCCCACCGAGGGACTGGGTTTCAGCCCGCTGTTCCCCGAGGCCGATATCGTCGCCGCCGAGCCGGAAGAGCCGGCCGCGCCGGACTTCACGCCGAGCGTCGAGGTGGTCTATGAGGACTTCGAAGGCGAGGTGATCGTCGGGCCGGGTGTGGTCGATGAGGCTGCCCTGGCGGACGGCAGCAACCCCGGCAGCGATGCCGAGCAGACCCAGGGCCGGTTGATCGTCAACTCGCCGGACGGCGTGGCCGCCGTGCAGGTGCAGGACCGTGATGGCAACTGGATCGACGTCACCAACGGTGGCACCGTGCAGGGTGTGTACGGCACGCTGGTGGTCGATGCGGCAGGCAACTGGACCTACACCCTGAGCGGTGCGACCCAAGATCACAGCGGTACGGGCACCGGCGCGGCCGACCAGGTCGGGGAGAGCTTCGGCGTACGCGTCATCGACAGCGATGGCGACATCTCTCCGGTTAGCTCCCTGAACATCACCGTCTACGACGACGGCCCCAGTGCAGCCAACGACAGCGCCAGCCTGGGCGAAGATACCGCCAGCGTCGCCGGCAACGTGCTGGACAACGACAGTGCCGGTGCCGATGGCGGCAAGACCGTCACCACCCCCGGTACCAGCAGCGGTAGCTATGGCCAGTTCGTGCTGGGGGCGGACGGTGCCTACACCTACACCCTGAATACGGCCAATCCGCTAGTACAGGGCCTGGACAGCGGCGAGACGCTGACCGAGACCTTCACCTACACCATGCGCGACGCGGACGGCGACGAGAGCACCGCCACGGTGACCGTCACCATCGTCGGCAGCAACGACGTGCCTGGCCTGACGGTCGATCCGGGCAACGGCGGCGCCAACGACGTGGTGTTCGAGTCCGGTCTGCCGGCCGGGTCGGATGCAGGGGCGAACAGCGAGTTCGCCAACGGTACCTTCACCCTGTCGGATGCCGATGGGCTGGACGATCTGCAGAGCGTGACCATCAACGGCGTGACCGTGGCCATCGGCAGCCTGGCGGGTTCGAGCTTCGCCGGCAGCAACGGCACCCTGACCATCACCGCCTACGATCCGACCACTGGCGTGGCCAGCTACACCTACGAGCTGACCAGCCCGACCACCGATGGCCCTGGCGTGGAGACCGACGTCTTTACCTTGACCGTTTCGGACGGCACCGCTTCTTCGGCCCCGGCCACCATCACCATCGAAATCGTCGACGACGTGCCGACGGCGTTGAACGACAGCAACAGCCTGGGCGAGGACGATGCCAGCGTCGGCGGCAATGTTCTGACCAACGACATTGGCGGTGCCGACGGCGGCAAGACCGTCACTACGCCTGGCACCAGCAACGGTAGCTACGGGCAACTGGTGCTCGGTGCGGACGGCGCCTACACCTACACCCTGGACACCGCCAGCCCGGTGGTGCAGGGCCTGGACAGCGGCGAGACGCTGACCGAGACCTTCAGCTACACCATGCGTGATGCGGACGGCGACGAAAGCACCGCCACGGTGACCATCACCATCGTCGGCAGCAACGATGCACCGAGTCTGACGGTCGATCCGGGCAACGGTGGCGCCAACGACGTGGTGTTCGAGTCTGGCTTGCCGGCGGGTTCGAACGCGGCGGCGAACAGCGAGTTCGCCAGCGGCACTTTCACCCTGTCGGATGCCGATGGATTGGACGATCTGCAGAGCGTGACCATCAACGGCGTGACCGTGGGCATCGGTAGCCTGGCTGGTTCGAGTTTCGCCGGCAGCAACGGCACCCTGACCATCACCGCCTACGATCCGGACACCGGCGTGGCCAGCTACACCTACGAGCTGACCAGCCCGACCACCGATGGCCCCGGCGCGGAGACCGACGTCTTCACGCTGACGGTATCCGACGGTACGGCTTCCTCGGCCCCGGCCACCATCACCATCGAAATCGTCGACGACGTGCCGACGGCGGTGAACGACAGCAACAGCCTGGGTGAGGACGACGCCAGCGTCGGCGGCAATGTGCTGACCAACGACATCGGCGGCGCCGACGGAGGCAAGACCGTCACTACGCCTGGCACCAGCAACGGTAGCTACGGGCAACTGGTGCTCGGTGCGGACGGCGCCTACACCTACACCCTGGACACCGCCAGCCCGGTGGTGCAGGGCCTGGACAGCGGCGAGACGCTGACCGAGACCTTCAGCTACACCATGCGTGATGCGGACGGCGACGAAAGCACCGCCACGGTGACCATCACCATCGTCGGCAGCAACGATGCACCGAGTCTGACGGTCGATCCGGGCAACGGTGGCGCCAACGACGTGGTGTTCGAGTCTGGCTTGCCGGCGGGTTCGAACGCGGCGGCGAACAGCGAGTTCGCCAGCGGCACTTTCACCCTGTCGGATGCCGATGGATTGGACGATCTGCAGAGCGTGACCATCAACGGCGTGACCGTGGCTATCGGCAGCCTGGCGGGTTCGAGTTTCGCCGGAAGCAATGGCACCCTGACCATCACCGCCTACGATCCGACCACTGGCGTGGCCAGCTACACCTACGAGCTGACCAGCCCGACCACCGATGGCCCTGGCGTGGAGACCGACGTCTTTACCTTGACCGTTTCGGACGGCACCGCTTCGTCGGCCCCGGCCACCATCACCATCGAAATCGTCGACGACGTGCCAACGGCGTTGAACGACAGCAACAGCCTGGGCGAGGACGACGCCAGCGTCGGCGGCAATGTGCTGACCAACGACATTGGCGGTGCCGATGACGGCAAGGTGGTCACCACACCCGGCAGCTATGCCGGGACCTACGGTCAACTGGTGCTGAATTCGGACGGCAGCTACACCTACACGCTCTACACCGATCCGGCGACCCAGGCGATTATCCAGGGCTTGAGCGAGGGCGAGTCGCTGAGCGAGTCGTTCGGCTACGGCATGCAGGACGCCGATGGCGACCCGAGCAGCGCCACCCTGACCTTGACCATCCAGGGCGCCGACGACGGTGTGGTGATCACCGGCCTGGATCTGAACGGCGGGGAAGTGCTGGTCGACGAAGACGACCTGCCCAATGGTACCGACCAGACCGATCCGTTGAGCCAGAGCGGTTCGTTCGTTATCACGGCGCCGGATGGCATCGCCACCGTCAGCATCGGTGGGGTCAGCTTCACCTACGCGCAACTGGCCAATTCGGGCAGCGTCAATCTGGTGATCGACAGCCCGGCCGGCGTACTGGTAATCAACGGTTATAGCGGTTCGGCCACCGGCGGCACCGTTTCCTACACCTATACGCTGCAGGACCCGGTGAGCAATGCGCTGGGCTCCGACCAGGCGACCGAGAGTTTCGCTGTGGTTGTCACCGATGCGGATGGTTCGTCCGGTACTGATTCGCTGGACGTGACCATCATCGATGACAAACCTGTCGCGGCTAACGACAGCGCCAGCCTGAGCGAGGATGCCACCAGCGTCGGCGGCAACGTGCTGACCAACGACATCGGCGGTGCCGATGGCGGCAAGGTGGTCACCACGCCCGGCAGCTACGCCGGCACCTACGGTCAATTGGTACTGGGCGCCAATGGTAGCTACACCTACACGCTCTACACCGATCCGGCGACCCAGGCGATTATCCAGGGCTTGAGCGAGGGCGAGTCGCTGAGCGAGTCCTTCGGCTACGGCATGCAGGACGCCGATGGCGACCCGAGCAGCGCCACCCTGACCCTGACCATCCAGGGCGCCGACGACGGTGTGGTCATTACCGGTCTGGACGTGAACGGCGGCGAGTTGCTGGTGGATGAGGACGATCTGCCCAACGGCAGCGATCAGACGCCCGAGTCCCTTAGCGACAGTGGCTCGTTCGTCATCAGTGCTCCGGATGGCATCGCCACCATCAGTATCGGTGGGGTCAGCTTCACCTACGCGCAACTGGCCAACTCGGGCAGCGTCAATCTAGTGATTGACAGCCCGGCCGGCGTACTGGCGATCAATGGCTACAGCGGTACTGGATCGGGCGGTACGGTGTCCTACACCTACACCTTGCAGGACCCGGTGAGCAACGCAGTGGGTTCCGACCAGGCGACCGAGAGCTTCGCCATCGTAGTTACCGATGAAGACGGCTCATCGTCCAACGCCAGCCTGGACGTGACCATCGTCGACGATGCCCCGACTGCCCACGCCGACACCAACAGCGTGGTGGAAGGCGGTGTGGTCAACGGCAACGTGCTGACCGATGGCACGCCTGATGTGTTCGGCGCGGATGGCGCCACGGCCGGTGGCGGGGTCGTCGGTGTCAAGGTCGGTGGCGACACCGGCACACCGGCTTCCGGTAGTCTCGGCTCGTTGCTGACCGGCACCTACGGCACCCTGGTGCTGAACGCCGATGGCAGCTACACCTACGACGGCTTCCCCAATGTGGTGCCGCCGGCGGGAGCGACCGACGTGTTCACCTATACCATCCGCGATGCGGACGGTGACTTGAGCACCACCACCCTGACCATCGGGCTCACCGACAGCGGGCTCTTCGCGCCGCTGGACAACGACGTGCTGGTCTACGAGAAGGCGCTGGACACCACGGTCAGCGGTTCCGACCTGGCCGCCGGCACGGTGACCGGCAGCCTGCCGGGCCATACCGGCGAGACGGACGCCAGCAACCAGCTCAACGCCACGGGTGGCGTAGGAACTCTGACCTACAGCCTGGTCGGCAGCGCCACCGGCAGCTATGGCACCATTCAGATCAACAGCGATGGCAGCTATGTCTACACCCTGACCAAGCCCTACGACACCAGCCCGGATGCCAATAACGGCGCCAACGTGGAGCTGGGCAAGGACAGCTTCACCTACCAGGTGACGGACGCCAACGGCAACACCGCCACCGGGACCATCCTGGTGGATATCGTCGACGACGTACCGGTGGCTTTCGTGCCGGTGAACGGCCTGATGGTGGACCAGACCACTGCCGTGCACAGCATCACCGCGGACCTGCGTTTCGCCCAGGCGGCGGGTGCCGACGGGGTGGGCAACGTGGTGTTCAACATCAGCGAAGGGGCGGCCGCGCTGGATGCCGATGGCCGCATCCTGATGCTCGACGGTCAGCAACTGTTCCTGTACTACGGCGCCGACCATACCGAGCTGGTGGCCAAGACGGCGGGCGGTGATATCGGCTACACCATCGACATCGATCCGGCGGCCGATACCTACACCCTCACCACCTACGGCGTGATCTCCAACGGGGTGCAGGAAATCACCACCACCAACCTGACCGGTGTCGGTGCAGGCAACGTGAACTTCAAGGGCCTGATCAACATCGGCGGCAGCGACCAGGATGTACTGATCTCCTCGACCACCGGCAGTATCAACAGCGACGTCGACGACATCGGCATCGCCAACCAGTGGATCAGTACCGGCGAGAACGTGCGCTTCGACTTCGTCAACGGGCTGGCTACCGGCGGCGCGAACGGCACGGGCTTCGTCTACACGGACCACAACTTGGCGTTCAGCTACAAGCAACGCATATTCGTCAAGGGCGGAGCCGCCAACACGGCGAATCTGATCGTCACGGCGATCATTGCCGACAGCGATTATGTCTTCGGCAACGGCGATCCGGGCGAAAGCTACGTCAACCTCTCCACCAGCGATATCAAGGTGTTCAACGGTGCCACCGATGTCACGAATCTGGTGACACTGGTGGACAACGGCAACTCCATCACCATCCAGGGCATGAAGGACGGCTGGACCTTCCAGATTGTCTCGGACGACGCGTTCAGCGCGGTGCATGTGCAGGGCGCGTCCGGTACCGGCGACTTCTCCCTGAGCTTCCTGTCGTATTCGCAGGAAGTCCCCGGCCAGCCGATCGACCTCACCCATCCGATCACCGCGACGGATGGGGACGGCGACAGCATCGCCAGTAACATCACGGCGACGCTGTACCCGGTCGACACCAGCGTGGAAGGCGATGCCGGTGGCAATACCCTGACCGGCACCAGCGGTGTCGACCACCTGTTTGGCAACGGCGGCGACGACACCCTCTCCGGGTTGTTGGGCGACGACGTGCTGTCCGGTGGCGACGGCAACGACCTGCTGATCGGTGGCTTGGGTAACGACCTGATGTCCGGTGGCGCCGGTGCCGACACCTTCCAGTGGAACGCCGGCGAGACCGGTACGGACCGGATCACCGACTTCAAGCCGGGCGAGGACGTTCTCGACCTGTCCCAGCTGTTGACGGGGCTCTCGCCGACGCCGGATGCCGGTGAGTTGAGTCACTACCTGAGCTTCTCGTTCGGCCCGAATGGCACCACCATCGGTGTCGATGTCCAGGGCGTGAACGGTCCCGTCGAGCAGACCATCGTGCTGGAGGGCGTGGACTTGTCCAGTGGCGCCTACTACAGCAGCTCCGATGTGGGAACGGTGATCAGCGGCATGCTCAACGACGGTTCGTTGAAGGTGGATACCGTCTAA	MATLIGVVRQVVGEVYAVASDGGRRLLVEGDRVFAGEQIVTGPEGAISIALAKGGELELGRQSELLLDSQLLAEGSGASVEQAAATAPSDQDLTDVEALQRAIAAGADPTQIGEATAAGPGAGAGGAGGGGGGHSFVLLGEVGGAVDPVIGFPTEGLGFSPLFPEADIVAAEPEEPAAPDFTPSVEVVYEDFEGEVIVGPGVVDEAALADGSNPGSDAEQTQGRLIVNSPDGVAAVQVQDRDGNWIDVTNGGTVQGVYGTLVVDAAGNWTYTLSGATQDHSGTGTGAADQVGESFGVRVIDSDGDISPVSSLNITVYDDGPSAANDSASLGEDTASVAGNVLDNDSAGADGGKTVTTPGTSSGSYGQFVLGADGAYTYTLNTANPLVQGLDSGETLTETFTYTMRDADGDESTATVTVTIVGSNDVPGLTVDPGNGGANDVVFESGLPAGSDAGANSEFANGTFTLSDADGLDDLQSVTINGVTVAIGSLAGSSFAGSNGTLTITAYDPTTGVASYTYELTSPTTDGPGVETDVFTLTVSDGTASSAPATITIEIVDDVPTALNDSNSLGEDDASVGGNVLTNDIGGADGGKTVTTPGTSNGSYGQLVLGADGAYTYTLDTASPVVQGLDSGETLTETFSYTMRDADGDESTATVTITIVGSNDAPSLTVDPGNGGANDVVFESGLPAGSNAAANSEFASGTFTLSDADGLDDLQSVTINGVTVGIGSLAGSSFAGSNGTLTITAYDPDTGVASYTYELTSPTTDGPGAETDVFTLTVSDGTASSAPATITIEIVDDVPTAVNDSNSLGEDDASVGGNVLTNDIGGADGGKTVTTPGTSNGSYGQLVLGADGAYTYTLDTASPVVQGLDSGETLTETFSYTMRDADGDESTATVTITIVGSNDAPSLTVDPGNGGANDVVFESGLPAGSNAAANSEFASGTFTLSDADGLDDLQSVTINGVTVAIGSLAGSSFAGSNGTLTITAYDPTTGVASYTYELTSPTTDGPGVETDVFTLTVSDGTASSAPATITIEIVDDVPTALNDSNSLGEDDASVGGNVLTNDIGGADDGKVVTTPGSYAGTYGQLVLNSDGSYTYTLYTDPATQAIIQGLSEGESLSESFGYGMQDADGDPSSATLTLTIQGADDGVVITGLDLNGGEVLVDEDDLPNGTDQTDPLSQSGSFVITAPDGIATVSIGGVSFTYAQLANSGSVNLVIDSPAGVLVINGYSGSATGGTVSYTYTLQDPVSNALGSDQATESFAVVVTDADGSSGTDSLDVTIIDDKPVAANDSASLSEDATSVGGNVLTNDIGGADGGKVVTTPGSYAGTYGQLVLGANGSYTYTLYTDPATQAIIQGLSEGESLSESFGYGMQDADGDPSSATLTLTIQGADDGVVITGLDVNGGELLVDEDDLPNGSDQTPESLSDSGSFVISAPDGIATISIGGVSFTYAQLANSGSVNLVIDSPAGVLAINGYSGTGSGGTVSYTYTLQDPVSNAVGSDQATESFAIVVTDEDGSSSNASLDVTIVDDAPTAHADTNSVVEGGVVNGNVLTDGTPDVFGADGATAGGGVVGVKVGGDTGTPASGSLGSLLTGTYGTLVLNADGSYTYDGFPNVVPPAGATDVFTYTIRDADGDLSTTTLTIGLTDSGLFAPLDNDVLVYEKALDTTVSGSDLAAGTVTGSLPGHTGETDASNQLNATGGVGTLTYSLVGSATGSYGTIQINSDGSYVYTLTKPYDTSPDANNGANVELGKDSFTYQVTDANGNTATGTILVDIVDDVPVAFVPVNGLMVDQTTAVHSITADLRFAQAAGADGVGNVVFNISEGAAALDADGRILMLDGQQLFLYYGADHTELVAKTAGGDIGYTIDIDPAADTYTLTTYGVISNGVQEITTTNLTGVGAGNVNFKGLINIGGSDQDVLISSTTGSINSDVDDIGIANQWISTGENVRFDFVNGLATGGANGTGFVYTDHNLAFSYKQRIFVKGGAANTANLIVTAIIADSDYVFGNGDPGESYVNLSTSDIKVFNGATDVTNLVTLVDNGNSITIQGMKDGWTFQIVSDDAFSAVHVQGASGTGDFSLSFLSYSQEVPGQPIDLTHPITATDGDGDSIASNITATLYPVDTSVEGDAGGNTLTGTSGVDHLFGNGGDDTLSGLLGDDVLSGGDGNDLLIGGLGNDLMSGGAGADTFQWNAGETGTDRITDFKPGEDVLDLSQLLTGLSPTPDAGELSHYLSFSFGPNGTTIGVDVQGVNGPVEQTIVLEGVDLSSGAYYSSSDVGTVISGMLNDGSLKVDTV				NA	NA	NA	NA	NA
BMS010_03345	1356	bepC		Outer membrane efflux protein BepC	ATGCGCGCTTTAACCCCCCTCTGGTCCAGCATGCTGTTGGTCATGGTTTACAGTCAGGCCCAGGCGATGAACCTGTCGGAAGCCATTCAAAGCACTGTGGACAATCACCCCGAGATCCAGGCCAACGCCAACAGCCGGCTCTCCTCGGACGAAGACGTGAAGATCGCCAAGGGCGGCTACCTGCCCACCGTCGACATGCTGGTCGGTTATGGCCGCGAACATACCGACAGCCCGAGCACCCGCGCCTTCGGCGACCACCACACCGAAACGCTGAACAACACCACCGCCGAGCTGCGCCTGCGGCAGATGCTGTTCGATGGCTTCAACACGCCGAACGAAGTCGCGCGGACCGAAGCGGTGGTGAATTCGCGCGCCTACCGCCTGCTCGGCACGGCCGAGAGCCTGGCGCTGCGCACCGTCGAGGTGTACCTGGAAGTGCTCAAGCGGCGCGAGCTGGTGACGCTGGCCAAGGACAACCTGCTCAGCCACCAGCGCGTCAACGATCAGATCGGCCTGCGCAAGGAGCGCGGCGTGGGCAGCACCGCCGACGTCGACCAGTCCGAAGCGCGCGTGGCGCTGGCGCAGAACAACCTGTACACCGAGCAGGTCAACCTGGCCGATGCCGAGGCGAACTTCTTCAGCGTGGTCGGGCGCATGCCGGACGAACTCGAAGCCCCGGCCTCGATCAAGGGCGAGCTGCCCGCCGACCTGTCCGCAGCCCGGCAACTGGTGATGGAAAACAACCCCTACCTGAAATCGGCCCAGGCCGACGTCCAGGCCGCCGAGAAGCAGTACGAGGTCGCCAAATCGCCGTTCTATCCGCGCTTCGACGTCGAGCTGGCCACCAGCGCCAACGACAACGTGCAGGGCGACGAAGGCCACTACAACTCATGGCGCGCCGGCGTGGTGATGAATTACAACCTGTTCAACGGCATGCGCGACAAGGCCCGCCTGCAATCCAGCGCCCACCAGATCAACGAGGCGATGGACATCCGCAACAACGCGCTGCGCCAGCTCAACGAGAACCTCGCGCTGGCCTGGAACGCCATGGAAAACGCCCGTGCGCAGACCAAGCCGGCCCGCGACTACGCGGACTACACCACCCGCGTCCGCGAGGCCTACCAACAGCAGTTCGGCCTGGGCCAGCGCAGCCTGCTCGACCTGCTGGACAGCGACAACGAGCTGTTCACCGCGAACCGCCGCTATGTCGAGGTGCGCTACACCGAAGAGTTTTCCATGTACCGCGTGATCGCGGCGATGGGTGAGTTGCTGCGCAAGCAGAACATCGTAGTCCCGGCCGAAGCGGTAGCCCTCACCGAGGTGAAGAGCGAGGCTCGACTGCCGGCCATGAAGTAA	MRALTPLWSSMLLVMVYSQAQAMNLSEAIQSTVDNHPEIQANANSRLSSDEDVKIAKGGYLPTVDMLVGYGREHTDSPSTRAFGDHHTETLNNTTAELRLRQMLFDGFNTPNEVARTEAVVNSRAYRLLGTAESLALRTVEVYLEVLKRRELVTLAKDNLLSHQRVNDQIGLRKERGVGSTADVDQSEARVALAQNNLYTEQVNLADAEANFFSVVGRMPDELEAPASIKGELPADLSAARQLVMENNPYLKSAQADVQAAEKQYEVAKSPFYPRFDVELATSANDNVQGDEGHYNSWRAGVVMNYNLFNGMRDKARLQSSAHQINEAMDIRNNALRQLNENLALAWNAMENARAQTKPARDYADYTTRVREAYQQQFGLGQRSLLDLLDSDNELFTANRRYVEVRYTEEFSMYRVIAAMGELLRKQNIVVPAEAVALTEVKSEARLPAMK	PGPT0022235_800	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-ADHESIN_TRANSPORT,PGPT0022235-lapE-K12543	NA	NA
BMS010_03346	2160	apxIB_2	COG2274	Toxin RTX-I translocation ATP-binding protein	GTGACCAAGATGGAGCAGGCCATACCCGCAGGCGATCCCCGGCTGAGTCACGACGACCCGCTGCTCGATGGCCTGCTCATCCTCTGCAAACTGCTCGGCTGCTCCGCCAGCCGGGCCAGCCTCAGCGCCGGCCTGCCCTTGCCCGAGCAGCGCCTGAGTACCGACCTGCTGCCTCGCGCCGCCGCGCGCGCCGGTCTGCAGGGACGGCTGCTGCGCCGTGAACTGGGGGCCATCTCATCGCTCAACCTGCCGGTGCTGCTGTTGTTGAAGAACGGCCGCACCGCCGTGCTGCGCCAGTGGGGGCCGAAGAACCAGGCGCTGATCCTGCCCTGCGAGGCGGAAGGCGGCCAGCAGTGGGTCGATCGGGAAAAACTGGCCGCCGAATATGCCGGCCAGGCGTTCTTCGCCCGCCCCCGGCACGAACTGGAGGAAGCCCGCACACCGCTGGTGCCGCGTGTGGAAGCCTGGTTCCGCGACACCCTCAAGCTGTCGCGCTGGCTCTACACCGACGCCCTGGTGGCCAGCCTGCTGGTCAACGTGCTCGGCCTGATGGTGCCGCTGTTCGTCATGCAAACCTACGACCGCGTGGTGCCGAACCAGGCCACCGCCACCCTTTGGGTCCTGGCCATCGGATTGCTGATCGGCACCGGTTTCGAACTGCTGCTGCGGGTGCTGCGCGCCCATCTGCTGGACACCGCCGGGAAGAAAACCGACGTGGTGCTGTCCGCCACGCTCTTCGAGCGCATCACCGGCATGGCGATGAAGGCGCGGCCGGCGACGGTCGGCGGCTTCGCCCAGAGCATCCATGACTTCCAGGGCCTGCGCGAATTCCTCACCGCGGTCACCCTGACCAGCCTGATCGACCTGCCCTTCGCCGCGCTGATGATCGTCGTCATCGGCCTGCTCGGCGGCTGGCTGGTGATGATCCCGCTGCTGGCTTTCCCGCTCACCGCGATCTTCGCGCTGATCATCCAGGCACGCCTGCGCGACACCGTGCAGAAGAGCCTGGCCCTGGGCTCGGAACGCCAGGCGCTGCTGGTGGAAACCCTCGGCGGCCTGGAAACGCTCAAGGCCTGTGGCGCCGAGAGCGAGCGCCAGCACCGCTGGGAAAAGACCCACGGCGCCCTTACCCGCCTCGACAGCCATGCCCGCTTCCTGTCCTCGCTGGCCACCAACGGCACCCAGTTCGTCCAGCAGTTCGCCGGCATGGCGACCATCGTCGCCGGGGTCTACGCCATCATCGCCGGCAACCTCAGCGTCGGCGCACTGGTCGCCTGCTACATGCTCGGCAGCCGCGTGCTCTCTCCTCTCGGCCAGATCGCCGGGTTGATCACCCGCTACCAGCAGGCGCGGCTGACCATGAAGAGCACCGACGCACTGATGGCCCTGCCCCAGGAACGCCAGGCCACGCAGCGGCCATTCGAGCGTACCCAGCTCAAGGGCGCGCTGGACGTCGCCCAGGTGACCTTCCGCTACCCCGGCCAGAGCGCCGCCGCGCTGAGTAACGTCAGCCTGCGCATCGCTCCCGGCGAACGCATCGGCATCATCGGCCGCAGCGGTTCCGGCAAGAGCACCCTGGCGCGCCTGTTGATGGGCTTCTACGCACCGGACGAAGGCCAGATCCTCCTCGACGGCCTGGACCTGCGCCAACTCGACGTCGCCGACCTGCGCCACCAGATCGGCTACGTGGCCCACGACCTGCCGCTGTTGGCCGGCAGCCTGCGCGACAACCTGACCCTGGGTGCCCGTTACGTCAGCGACGCGCGGATGCTGGAGGTCGCCGAACTGACCGGCGTCGACGAGCTGGCCCGCCAGCATCCGCAGGGCTTCGACCGCCCGGTGGGCGAGCGTGGCCAGTTGCTGTCCGGCGGTCAGCGGCAAAAGGTGCTGCTGGCCCGCGCCCTGCTGCTCGACCCGCCGATCCTGCTGCTCGACGAACCCACCAGCGCGCTGGACAACACCAGCGAAGACGTCCTGCGCAATCGCCTGCAGCGGCTGGCCCAGGGCAAGACGTTGCTGCTCATCACTCACCGGGCCTCGATGCTCAGCCTGGTCGAGCGGCTGGTGGTAGTGGACAACGGACACATCGTCGCCGATGGGCCGAAGGACGCCGTGATCGAGGCCCTGCGCAAGGGCCGGGTCGGCACCGCGTCCGCCTGA	MTKMEQAIPAGDPRLSHDDPLLDGLLILCKLLGCSASRASLSAGLPLPEQRLSTDLLPRAAARAGLQGRLLRRELGAISSLNLPVLLLLKNGRTAVLRQWGPKNQALILPCEAEGGQQWVDREKLAAEYAGQAFFARPRHELEEARTPLVPRVEAWFRDTLKLSRWLYTDALVASLLVNVLGLMVPLFVMQTYDRVVPNQATATLWVLAIGLLIGTGFELLLRVLRAHLLDTAGKKTDVVLSATLFERITGMAMKARPATVGGFAQSIHDFQGLREFLTAVTLTSLIDLPFAALMIVVIGLLGGWLVMIPLLAFPLTAIFALIIQARLRDTVQKSLALGSERQALLVETLGGLETLKACGAESERQHRWEKTHGALTRLDSHARFLSSLATNGTQFVQQFAGMATIVAGVYAIIAGNLSVGALVACYMLGSRVLSPLGQIAGLITRYQQARLTMKSTDALMALPQERQATQRPFERTQLKGALDVAQVTFRYPGQSAAALSNVSLRIAPGERIGIIGRSGSGKSTLARLLMGFYAPDEGQILLDGLDLRQLDVADLRHQIGYVAHDLPLLAGSLRDNLTLGARYVSDARMLEVAELTGVDELARQHPQGFDRPVGERGQLLSGGQRQKVLLARALLLDPPILLLDEPTSALDNTSEDVLRNRLQRLAQGKTLLLITHRASMLSLVERLVVVDNGHIVADGPKDAVIEALRKGRVGTASA	PGPT0022225_752	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-ADHESIN_TRANSPORT,PGPT0022225-lapB-K12541	NA	NA
BMS010_03347	1359	prsE_1		Type I secretion system membrane fusion protein PrsE	ATGGCGTTGTCACAAATGATCTTCGGCTACTTCACCGGCCTGGGCCGGCAGCACCCGGACCTGGAATTCATGCCCGAGGTCCAGGGCGCGGTCCTGGAGGACTCTCCCTGGCTGACCCGCGTCACGGTGTGGAGCGTGGCGATATTCCTGATCGTTGCCCTGCTCTGGGCCCGCTTCGCCGTGCTCGAGGAAGTCACCACCGGCGAAGGCAAGGCGATCCCCTCCAGCAAGGTGCAGACGGTGCAGAACCTGGAAGGCGGCATCGTCGCCGAAATCTTCGTCCGCGAAGGCCAGGTGGTGGACAAGGGCGACACCCTGCTGCGCCTGGACGACACCCGTTTCCTCTCCAACAAGGGCGAGACCGAGGCCGACCGCCTGGCGCTGGTCGCGCGCATCGAACGCCTTAGCGCCGAGGCCGAAGGTCGGCCTATGGCGGTGCCGGAGGAAGTGCGGCGCAACGCCCCGCAACTGGCCGAGGACGAGCAGGCCCTGTACCGTTCGCGCCAGCAGCGGCTGCAAAGCGAGCAGCGCACGCTCCAGGAGCAACTGCGGCAGAAGGAGCAGGAACTCGCCGAATTCCGCGCCAAGGCCCAGCAGTACCGCTCCAGCCTCGGGCTGATCCAGCAGGAACTGAACATGTCGCAACCCCTGGTGGGTACCGGCGCCATCTCCGAGGTGGAGGTGCTGCGCCTGCGCCGCAGCGCGGTGGAGATGCGCGGCTCGCTGGACGCCACCACCCTGGCGATTCCCCGTGCCGAAGCGGCGGTCGGCGAGATCAAGAGCAAGATCGAGGAATCCGTGCTGGCCTTCCGTTCCGACGCCTTCAAGGAACTCAACGAAGTCCGCACCGAACTGCAGAAGATCACCGCCACCGGCCTGGCGATTCAGGACCGGGTCAGCCGCACCACCGTGGTCTCGCCGGTGCACGGCGTGATCAAGCAGCTCAAGGTCAACACCATCGGCGGCGTGGTCCAGCCGGGCAGCGACCTGCTGGAAATCGTACCGCTGGAAGACAGCCTGCTGATCGAGGCCAAGGTCCGCCCGCAGGACGTGGCTTTCCTCCATCCGGGTCAGAAGGCGATGGTCAAGTTCAGCGCCTACGACTACACCATCTACGGCGGGCTCAAGGCCGATCTCGAACTGATCAGCGCCGACACCATCACCGACGAGGAAGGCAAGAGCTTCTACCTGATCCAGGTGCGCACCGAGAAAAGCCACCTCGGCAGCGACGAACATCCGCTGCTGATCATTCCCGGCATGATCGCCACGGTGGACATCATCACCGGCGAAAAGAGCGTGCTGGACTACCTGCTCAAGCCGGTGCTGAAGGCCCGCGCCGAAGCGCTGCGGGAACGCTAG	MALSQMIFGYFTGLGRQHPDLEFMPEVQGAVLEDSPWLTRVTVWSVAIFLIVALLWARFAVLEEVTTGEGKAIPSSKVQTVQNLEGGIVAEIFVREGQVVDKGDTLLRLDDTRFLSNKGETEADRLALVARIERLSAEAEGRPMAVPEEVRRNAPQLAEDEQALYRSRQQRLQSEQRTLQEQLRQKEQELAEFRAKAQQYRSSLGLIQQELNMSQPLVGTGAISEVEVLRLRRSAVEMRGSLDATTLAIPRAEAAVGEIKSKIEESVLAFRSDAFKELNEVRTELQKITATGLAIQDRVSRTTVVSPVHGVIKQLKVNTIGGVVQPGSDLLEIVPLEDSLLIEAKVRPQDVAFLHPGQKAMVKFSAYDYTIYGGLKADLELISADTITDEEGKSFYLIQVRTEKSHLGSDEHPLLIIPGMIATVDIITGEKSVLDYLLKPVLKARAEALRER	PGPT0022230_481	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-ADHESIN_TRANSPORT,PGPT0022230-lapC-K12542	NA	NA
BMS010_03348	918	gltC_2		HTH-type transcriptional regulator GltC	ATGCTGATCGACGAAGAACTGACCCTGAAGAAGCTGGAGATCTTTCTCGCCTTCATGCGCAGCGGCAACCTCGCCCGCGCCGCGGCGGAACTGAACACCAGCCACGTCAGCGTCCACCGCGCCATCCATTCCCTGGAAAACGCCCTGCGCTGCCCGCTGTTCAAGCACGAGGGGCGCACCCTCACGCCGCTGGAAAGCGCCTATGTGCTGGAAGAGCGCGCCCAGAATCTGATCCAGGAAATGGTCGAGACGGTACGCCTCACCCGCGAGGCGGCCGGCTTCTCCGCCGAACGCTTCAAGCTGGGCGCGCTTTATTCGTTGACGGTGAAGACGGTGCCGCAACTGATCATGGGGTTGAAGCTGCGGCGCAGCGAGCTGAACATCGACCTGATCCTCGGCTCCAACGTCGATCTGTTCTACAAGCTGAAAAACATGGAGCTGGACGCCATCCTGGTCTCGCTCAACGAGAGCGTCAGCGACCCGGACTGCGCCCAGTTGCCGCTGTTCTCCGACGACATCTTCCTCGCCTGCCCCGCCGACTCGCCGTTCGCCGAGCAGGCGGACGTGGACCTGGGCGACCTGCGCGAGGCGACCTTCATCACCCTCACCCCCGGCTTCGCCACCTACCAGGATGGCGTGCGGGTATTCCAGCAGGCGGGGTTCGAGCCCAAGGTGGCGATGCAGGTGAACGACATCTTCACCCTGCTCAGCATGGTCAGCTCGGGCGTGGGCTACGCCCTGCTGCCGGGACGCATCGCCGCGGTGTACGAAAGCCGGGTACGGTTGGTGCCGCTACAGGCGCGCTACCAGTTGCAGCAGCACATCGGCGTGGTGTTCCTCAAAGCCAAGGAGCGCGACCCGAACCTCCTCGCCCTCCTCGCCGAATGCCGCATGTACAGCCTGAAACACCCGGCCTGA	MLIDEELTLKKLEIFLAFMRSGNLARAAAELNTSHVSVHRAIHSLENALRCPLFKHEGRTLTPLESAYVLEERAQNLIQEMVETVRLTREAAGFSAERFKLGALYSLTVKTVPQLIMGLKLRRSELNIDLILGSNVDLFYKLKNMELDAILVSLNESVSDPDCAQLPLFSDDIFLACPADSPFAEQADVDLGDLREATFITLTPGFATYQDGVRVFQQAGFEPKVAMQVNDIFTLLSMVSSGVGYALLPGRIAAVYESRVRLVPLQARYQLQQHIGVVFLKAKERDPNLLALLAECRMYSLKHPA	PGPT0001715_193	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALONATE_UTILIZATION,PGPT0001715-mdcR-K13928	NA	NA
BMS010_03349	765			hypothetical protein	ATGTACGAATCCATGCTGAAAGTGATCACCGGCTACGGCCTGATCAGTGGTTTCGCCGTCATCGGCGTCACCATGTGGTTCTCCTACTGGCTCTCCGACAAGGTGACCCACGGCCGCCTGCACGGCTCGGCCATCGCCATCTTCCTCGGGCTGGTGCTGTCCTACGTCGGCGGTGTGGTGACGGGCGGGCAGAAGGGCCTGGTGGACATCTCGCTGCTGTCCGGCATCGGCCTGCTCGGCGGCGCCATGCTGCGCGACTTCGCCATCGTCGCCACGGCGTTCGGGGTGAACATCGACGAACTGAAACGCGCCGGGGTGTCCGGGGTGGTGTCGCTGTTCTTCGGCATCTTCATCTCATTCATCGCCGGGGTGGCGGTGGCGCTGGCGTTCGGCTACACCGACGCGGTGAGCCTGACCACCATCGGCGCGGGGGCGGTGACCTACATCGTCGGCCCGGTGACCGGCGCGGCGATCGGCGCCAGCTCCGAGGTGATGGCACTGTCCATCGCCGCCGGCCTGGTGAAGGCGATCCTGGTGATGGTGGCGACACCCTTCGTCGCGCCGCTGGTCGGCCTGAACAACCCGCGCTCGGCGGTGATCTTCGGCGGGTTGATGGGCACCTCCAGCGGCGTGGCTGGCGGGCTCGCCGCCACCGATCCGAAGCTGGTGCCGTACGGCTGCCTGACTGCTGCTTTCTACACGGCCTTGGGGTGTTTGCTCGGGCCGTCGTTGTTGTTTTTCGTGATGCGGGGGTTGATGGGCTGA	MYESMLKVITGYGLISGFAVIGVTMWFSYWLSDKVTHGRLHGSAIAIFLGLVLSYVGGVVTGGQKGLVDISLLSGIGLLGGAMLRDFAIVATAFGVNIDELKRAGVSGVVSLFFGIFISFIAGVAVALAFGYTDAVSLTTIGAGAVTYIVGPVTGAAIGASSEVMALSIAAGLVKAILVMVATPFVAPLVGLNNPRSAVIFGGLMGTSSGVAGGLAATDPKLVPYGCLTAAFYTALGCLLGPSLLFFVMRGLMG				NA	NA	NA	NA	NA
BMS010_03350	405			hypothetical protein	ATGATCATCTACGGTGTCGCTTTCCTGGCCCTCTGCACCCTCGCGGGCCTGCTCATCGGCGAGTTGCTGGGCAAGCTGCTCGGCGTACCCGCCAACGTCGGCGGTGTCGGTATCGCCATGCTCCTGCTGATCTTCATCGGCAGCTACCTGCACAAACGCGGCCTGATGAACGCCAAGTCCAACCAGGGCGTGGAGTTCTGGAGCGCGGTCTACATTCCCATCGTGGTCGCCATGGCGGCCCAGCAGAACGTGCTGGGTGCGCTCAGTGGCGGGCCCATGGCGATCCTCGCCGGTGTCGCCGCGGTGGTGCTCAGCTTCGTCATGCTGCCGGTGCTCGACCGCTTCGGGCAAAAGAAGTCGGTGGCGGCCACCTCCGATAAACCCCTGACCAGCGCGCAACGGTGA	MIIYGVAFLALCTLAGLLIGELLGKLLGVPANVGGVGIAMLLLIFIGSYLHKRGLMNAKSNQGVEFWSAVYIPIVVAMAAQQNVLGALSGGPMAILAGVAAVVLSFVMLPVLDRFGQKKSVAATSDKPLTSAQR				NA	NA	NA	NA	NA
BMS010_03351	936	fabD_2	COG0331	Malonyl CoA-acyl carrier protein transacylase	ATGAGCACGCTCTGGAGCTTTCCGGGGCAGGGTGCGCAACGGGCCGGCATGTTGCACACGCTGCTGGATCTGCCGCCGCTGCGCGATTGCCTGGACGAAGCGGGCGATGCGCTGGGCGAGGACCCGTTGCGGCTCGACAGCGCCGAGGCGTTGCAGGATACCCGTGCCGTGCAGCTCTGCCTGCTGCTCGCCGGGGTGGCTGCAGCACGTTTGCTGATGGCGCGCGGCTTGGCGCCGGACTATGTGGCCGGCTTGTCCATCGGGGCCTACGCGGCGGCAGTGACTGCCGGGGCACTGGACTTCGCCGATGCCGTGCGCCTGGTGTCGCTGCGCGGCCGGTTGATGCAGGAGGCGTACCCGGCTGGCTACGGCATGACCGCGATCAACGGCCTCGACCTGCCGACCGTGGAGCGGCTGGTGGGTGAGGTTCGCGGCAGCGGCTCGCCGGTCTACCTGGCCAATATCAACGCGGATAACCAGGTGGTGATCGCCGGCAGCGAAGCGGCCATGGCCGCGGTAGCGGGGCGGGCCCGCGATGCTGGCGCCGGCGCGGCCAAGCGTCTGGCGGTGAGCGTGCCGTCCCATTGCGAGCTGCTGGCGGGGCCGGCGGAACGGCTGGCCGAGGCCTTCGCAGCGGTCCGCCTGCGTCGCCCGCAATACCGCTACCTGAGCGGCAGCAGCGCCCGCTTGCTGGTCGATCCGGACAAGCTGCGCGACGACTTGGCCTACAACCTCTGCCGCGTCGTCGACTGGCACGCCACCCTGCACTCGGCCCGCGAACGCGGCGTGCGGCTGCACCTCGAGCTGCCGCCCGGCACTGTGCTGTCCGGCCTGGCCCGGCGCGTGTTCGAGCCCTGCCGGATCATCGCCTTCCAGGGCACCCGTCCGGATTCGCTGGACGCCTTGCTGCGTCGGGAGGTAAGCCAGGAGCCATAG	MSTLWSFPGQGAQRAGMLHTLLDLPPLRDCLDEAGDALGEDPLRLDSAEALQDTRAVQLCLLLAGVAAARLLMARGLAPDYVAGLSIGAYAAAVTAGALDFADAVRLVSLRGRLMQEAYPAGYGMTAINGLDLPTVERLVGEVRGSGSPVYLANINADNQVVIAGSEAAMAAVAGRARDAGAGAAKRLAVSVPSHCELLAGPAERLAEAFAAVRLRRPQYRYLSGSSARLLVDPDKLRDDLAYNLCRVVDWHATLHSARERGVRLHLELPPGTVLSGLARRVFEPCRIIAFQGTRPDSLDALLRREVSQEP	PGPT0019630_187	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALONATE_UTILIZATION,PGPT0019630-mdcH-K13935	NA	NA
BMS010_03352	639	mdcG		Phosphoribosyl-dephospho-CoA transferase	ATGGCCTTCATCGACCGCGCCATGCTGCGTCCCCATGACCTGGTCTGGGGACTGACGCCCAACCAGTTGCCGGCAGATGCTCCGGCCTGGGTGGGCGAGGCCCTGGGCGAGCGGCCGCCGGTGGTGATCCGTCGTGCGCCGGCCGAGCCCGGCTGGTTGCCGGTGGGGGTACGCGGTCGCGGGCGCGAGCAGCGCTACGCCACCTGGCTGCGCCTCGACCGGCTGACCCGCAAGGTCAGCCCGGAAGCCCTGGCCCGGGCGCGTCGCTGGCGGCGCCATGCCCAGTCGCAGTGGCCGGTGCTGCGCGCCCTCGGGCTGTTGCAGGCGCGGCTGGACGGTTGCGGGCTGTGCTGGGGGCCGACCGGGAGCGCCGGCTTCGAGTTGGCCAGCGGTCTGCCGGCGCTGCATCCGACCAGCGACCTGGACCTTCTCCTGCGCACCCCGGCCCCGCTCGGCCGCGAACAGGCGCGGCACCTGCTGATGCTGCTGGAGGACATGCCTTGCGCGGTGGATGTCCAACTGGAAACGCCGAACGGCGGCGTCGCCTTGCGCGAATGGGCGAGCGGCGCGGCCAGGGTCCTGCTCAAGGGACGTGAGGGGCCGGCGCTGGTTGCCGATCCCTGGAGGCTGGCGCAATGA	MAFIDRAMLRPHDLVWGLTPNQLPADAPAWVGEALGERPPVVIRRAPAEPGWLPVGVRGRGREQRYATWLRLDRLTRKVSPEALARARRWRRHAQSQWPVLRALGLLQARLDGCGLCWGPTGSAGFELASGLPALHPTSDLDLLLRTPAPLGREQARHLLMLLEDMPCAVDVQLETPNGGVALREWASGAARVLLKGREGPALVADPWRLAQ	PGPT0019625_298	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALONATE_UTILIZATION,PGPT0019625-mdcG-K13934	NA	NA
BMS010_03353	807			hypothetical protein	ATGACTGCCACTTTTTCCCGACGCGGCCTGGCCTGGTTCGAGGCCCTGACGGCGGGAGCCGCTCCCGTTAACGGTTTGCCAGCCTCCCTACGGGTCGCCGATGCCGAACTGGAAGGGCGTCGTGCGCGCTTCCTGGCGGTGGTCGCCGACCCCGACAATCGGTTCCCCCGGGCCGCCGATGGCGAGGTCGGGCTGTTGGAGGGCTGGGGATTGGCCCAGGCGGTGGACACCGCGGTCCAGGCCGATGCCGAGCACTCCGACAAGCGCGTGCTGGTCGCCATCGTCGACGTGCCCAGCCAGGCCTATGGCCGTCGCGAGGAGGCGTTGGGCATCCACCAGGCCCTGGCCGGTGCGGTGGACAGCTATGCCCGTGCGCGGCTGGCCGGCCATCCGTTGGTGGCGTTGCTGGTGGGCAAGGCGATGTCCGGTGCGTTCCTCGCCCATGGCTACCAGGCGCAGCGGCTGATCGCCCTGCGCGATCCAGGGGTGATGGTGCACGCCATGGGCAAGGCGTCGGCGGCGCGGGTCACGCTGCGCAGTGTCGAGGAATTGGAAGCGCTGGCGGCCAAGGTGCCGCCGATGGCCTACGACCTCGACAGCTATGCGTCCCTCGGCCTGCTCTGGGAGACGCTGTCGGTGCGCAGCGTCGAGCAGCCGGACGCGGACGATCTGGCGCGGGTGCGGGCCTGCCTGAAGCTGGCGGTGGACGATATCGAACGTGGCCCGCGCGACCTCGGCGGTCGCCTCGGTGCGGCCAACCGCGCGGCGTCGCGAGACGTGCGGGCGCGCCTGCGCGAGCAGTGGTAG	MTATFSRRGLAWFEALTAGAAPVNGLPASLRVADAELEGRRARFLAVVADPDNRFPRAADGEVGLLEGWGLAQAVDTAVQADAEHSDKRVLVAIVDVPSQAYGRREEALGIHQALAGAVDSYARARLAGHPLVALLVGKAMSGAFLAHGYQAQRLIALRDPGVMVHAMGKASAARVTLRSVEELEALAAKVPPMAYDLDSYASLGLLWETLSVRSVEQPDADDLARVRACLKLAVDDIERGPRDLGGRLGAANRAASRDVRARLREQW	PGPT0019620_148	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALONATE_UTILIZATION,PGPT0019620-mdcE-K13933	NA	NA
BMS010_03354	852	madC		Malonyl-S-ACP:biotin-protein carboxyltransferase MADC	ATGGCTGATACCGCCGCATTGCTGCGAAGCCGCAGCTTCGTCGAACTCGGCGCCCGCCAGCGCGCCCGTGCCGTGCTGGATGCCGGCAGTTTCCGCGAACTGCTCGATCCCTTCGAACGCATCGAATCGCCTTGGCTGGCGCGCCAGGGCATCGTGCCGCAGGCCGACGACGGCGTTGTTGTGGCCAAGGGCAGCCTCGACGCCGAGCCGACGGTGATCGCCGCCATCGAGGGCAACTTCCAGGGCGGCAGCCTGGGCGAAGTGGGCGGGGCGAAAATTGCCGGCGCCCTGGAGCTGGCCATCGAGGACAACCGCCAGGGCATCCCGACCCGCGCGGTGCTGCTGCTGGAAACCGGTGGCGTGCGCTTGCAGGAGGCCAATCTCGGTCTTGCCGCCATCGCCGAGATCCAGGCCGCCATCGTCGAATTGCGCCAGTTTCAGCCGGTGATCGGTGTGGTCGCCGGGCCGGTCGGCTGTTTCGGCGGCATGTCCATTGCGGCCGGGCTGTGCAGCTACCTGCTGGCGACCCGCGAGGCCCGCCTCGGGCTCAATGGGCCGCAGGTGATCGAGCAGGAGGCCGGCATCGAGGAATACGACTCCCGTGACCGGCCTTTCATCTGGAGCCTGACTGGCGGCGAGCAGCGTTTCGCCAGCGGACTGGTGGATGCCTACGTCGCCGATGACGTGGAGACGATTGCCGCCGAGGTGCGCCGATTCTCCCGCCTGGGCCGCCCGGACCTGGAGCGCAGTCGCCGGTACGCCTGGTACCTGGAGCGGCTGGCGCGTTTCGATGCGTCCCGCCAGGCCGATGCCGAGAGTGTTCGCCGCGTTTACCAAGGAGACCCGACATGA	MADTAALLRSRSFVELGARQRARAVLDAGSFRELLDPFERIESPWLARQGIVPQADDGVVVAKGSLDAEPTVIAAIEGNFQGGSLGEVGGAKIAGALELAIEDNRQGIPTRAVLLLETGGVRLQEANLGLAAIAEIQAAIVELRQFQPVIGVVAGPVGCFGGMSIAAGLCSYLLATREARLGLNGPQVIEQEAGIEEYDSRDRPFIWSLTGGEQRFASGLVDAYVADDVETIAAEVRRFSRLGRPDLERSRRYAWYLERLARFDASRQADAESVRRVYQGDPT	PGPT0019615_355	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALONATE_UTILIZATION,PGPT0019615-mdcD-K13932	NA	NA
BMS010_03355	300	mdcC		Malonate decarboxylase acyl carrier protein	ATGGAAACCCTGTCCTTCGAATTCCCCGCCGGGCCGCCGGCGCGTGGTCGCGCCATGGCCGGCTGCGTCGGCTCCGGCGACCTGGAAGTGCTGCTCGAGCCTGGTCGCGCCGGGACCCTGGCGATCCGCGTGATCACTTCGGTGAACGGCAGCGCCCAGCGCTGGCAGAACCTGTTCGAGCGCATGTTCCGCGAGCAGACGCCGCCGGCGCTGAGCATCGACATCCACGATTTCGGCGCCACGCCCGGCGTGGTGCGCCTGCGTCTGGAACAAGCCCTGGAGGAGGTGGCGCATGGCTGA	METLSFEFPAGPPARGRAMAGCVGSGDLEVLLEPGRAGTLAIRVITSVNGSAQRWQNLFERMFREQTPPALSIDIHDFGATPGVVRLRLEQALEEVAHG	PGPT0019610_260	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALONATE_UTILIZATION,PGPT0019610-mdcC-K13931	NA	NA
BMS010_03356	858	citG	COG1767	2-(5''-triphosphoribosyl)-3'-dephosphocoenzyme-A synthase	ATGCAGCTACGTAAAGCACGACAGCTTTCCCTGGCCGAACAGCTCGCCGACCTGGCCGTCGAGGCACTGATCGACGAGGCCGACCTGACGCCCAAGCCGGCCCTGGTGGACCGGCGCGGCAGCGGCGCTCATCGCGATCTCAGTCTTGGCCTGATGCACGCCTCGGCATTGGCCTTGTGGCCGATGTTCCGCGAGATGGCCGAAGCAGCGGGCGAGGCGGGAGCGATCGACCAACCGTTGCGCGAGGCGTTGGGCCGCATCGGTCGCGACGGCGAGGCACAGATGCTCGCCACCACCGGCGGGGTGAACACCCATCGCGGGGCGATCTGGGCGCTCGGGCTGCTGGTGGCCGCCGCGGCCCTGGAACCGGATGACTGCATCCCTGCGGCCCTGGCATTGCGCGCCGCGCGGATCGCCCTGATCGAGGATCGCCAGGCGCCGACCCCGGACAGCCACGGTGCGCGCATGGCTCGGCGCTACGGGGCGCGGGGCGCGCGCGAAGAGGCGCAACTGGGGTTCCCCACGCTGCTGCTGCACGGCCTGCCGCGCTTGCAGGCCAGTCGTGCCGCCGGGGCCGGCGAGGCACATGCCCGTCTCGATGCCTTGCTGGCGATCATGGCTGAACTGGTCGACACCTGCGTGCTCTGGCGCGCCGGCCTGCCGGGCCTGAACAGCATGCAGCGCGGCGCTCGTGCGGTACTCGATGCCGGCGGTTGCGCCAGCCTCGCCGGACGTCGGCGGCTGCGCCTGCTGGAGGCCGATCTGCTGCGCCTGAACGCTTCGCCGGGCGGCGCCGCCGATCTGCTCGCCGCCTGTCTGTTCATCGACCGCGTCGGCGGTCTTTCCGGGAGTCACTGA	MQLRKARQLSLAEQLADLAVEALIDEADLTPKPALVDRRGSGAHRDLSLGLMHASALALWPMFREMAEAAGEAGAIDQPLREALGRIGRDGEAQMLATTGGVNTHRGAIWALGLLVAAAALEPDDCIPAALALRAARIALIEDRQAPTPDSHGARMARRYGARGAREEAQLGFPTLLLHGLPRLQASRAAGAGEAHARLDALLAIMAELVDTCVLWRAGLPGLNSMQRGARAVLDAGGCASLAGRRRLRLLEADLLRLNASPGGAADLLAACLFIDRVGGLSGSH	PGPT0019605_460	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALONATE_UTILIZATION,PGPT0019605-mdcB-K13930	NA	NA
BMS010_03357	1722	madA		Acetyl-S-ACP:malonate ACP transferase	ATGCGCTTCCGCTGGCTGCTTACCGTGACTCCACCCAGCGGAACCCGTGGAGTCGACATGACAACAACAATTTCCCCACCGCCGCAGTGGTCGCGCCGGCGCGCCGAAAAGCAGCGCCGCCTCGACCTGATGCGCGGCCTCGCCGATGGTGTGGTGCTGCCCAGCGAGCGGATCGTCGCCGCCCTCGAGGCGCTGATCGCCCCCGGCGATCGCGTGGTCCTCGAAGGCAACAACCAGAAGCAGGCGGACTTCCTGTCGCGCTCCCTGGCCAAGGCCGACCCCGGCAGGCTGCACGACCTGCACATGATCATGCCCAGCGTCAGCCGCGCCGAGCACCTGGATCTGTTCGAACGCGGCATCGCCCGCAAGCTGGACTTCTCCTTCGCCGGCCCGCAGAGCTTGCGCATCGGCCAGTTGCTGGAGGATGGCCTGCTGGAGGTGGGCGCGATCCACACCTACATCGAGCTGTACTCGCGCCTGCTGGTGGATCTGATCCCCAACGTCGCCCTGGTCGCCGGCTTCATGGCGGACCGCCACGGCAACATCTACACCGGCCCGAGCACGGAAGACACGCCGGCCCTGGTGGAGCCCACCGCGTTCAGCGACGGCATTGTCATCGTCCAGGTCAATCAACTGGTGGACGACACCGCCGGCCTGCCGCGCGTGGATATCCCGGCCTCCTGGGTCGATTTCGTGGTGGTGGCGGACCGGCCGTTCTACATCGAGCCGCTGTTCACCCGCGACCCGCGCCACATCAAGCCTGTGCACGTGCTGATGGCGATGATGGCGATCCGTGGCATCTACGAGAAGCACAAGGTCCAGTCGCTCAACCACGGCATCGGCTTCAATACCGCCGCCATCGAACTGATCCTGCCCACCTACGGCGAACGCCTGGGGTTGAAAGGCAAGATCTGCCGCAACTGGACGCTCAACCCGCATCCGACGCTGATTCCCGCCATCGAGACCGGCTGGGTGGAGAGCGTGCATTGCTTCGGCACCGAACTGGGCATGGAAGATTACGTCGCCCAGCGCCCGGACGTGTTCTTCACCGGTCGCGACGGCTCCATGCGCTCCAACCGCCTGATGTGCCAACTGGCCGGGCAGTACGCGGTGGACCTGTTCATCGGCGCGACCCTGCAGGTGGACGGCGACGGCCATTCCTCCACCGTTACCCGTGGCCGCCTGGCGGGCTTCGGCGGGGCGCCGAACATGGGCCACGACCCGCGCGGCCGGCGCCATGCCACGCCGGCCTGGCTGGACATGCGCCCCGAGCCGGAGGCCCTGCTGGAGCGCGGCAAGAAGTTGGTGGTGCAGATGGTCGAGACCTTCCAGGAGGGCGGTAAACCCACCTTCGTCGATACCCTCGATGCCGTCGAGGTGGCGAAGAAAGCCGGCATGCCGCTGGCGCCGGTGATGATCTACGGCGACGACGTGACCCACCTGCTCACCGAGGAGGGCATCGCCTACCTGTACAAGGCCCGCTCGACTGAGGAACGCCGGGCGATGATCGCGGCGGTGGCCGGGGTGACCGCCATCGGCCTGCGCCACGACCCGCGCGATACCGAGCGGATGCGCCGCGAAGGGCTAATCGCCTTGCCCGAAGACCTCGGCATCCGCCGTACCGAGGCCAGCCGCGAGTTGCTGGCGGCGAAAAGCATCGCCGACCTGGTGGAGTGGTCCGGCGACCTCTACAACCCTCCGGCCCGATTCAGGAGTTGGTGA	MRFRWLLTVTPPSGTRGVDMTTTISPPPQWSRRRAEKQRRLDLMRGLADGVVLPSERIVAALEALIAPGDRVVLEGNNQKQADFLSRSLAKADPGRLHDLHMIMPSVSRAEHLDLFERGIARKLDFSFAGPQSLRIGQLLEDGLLEVGAIHTYIELYSRLLVDLIPNVALVAGFMADRHGNIYTGPSTEDTPALVEPTAFSDGIVIVQVNQLVDDTAGLPRVDIPASWVDFVVVADRPFYIEPLFTRDPRHIKPVHVLMAMMAIRGIYEKHKVQSLNHGIGFNTAAIELILPTYGERLGLKGKICRNWTLNPHPTLIPAIETGWVESVHCFGTELGMEDYVAQRPDVFFTGRDGSMRSNRLMCQLAGQYAVDLFIGATLQVDGDGHSSTVTRGRLAGFGGAPNMGHDPRGRRHATPAWLDMRPEPEALLERGKKLVVQMVETFQEGGKPTFVDTLDAVEVAKKAGMPLAPVMIYGDDVTHLLTEEGIAYLYKARSTEERRAMIAAVAGVTAIGLRHDPRDTERMRREGLIALPEDLGIRRTEASRELLAAKSIADLVEWSGDLYNPPARFRSW	PGPT0019600_178	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALONATE_UTILIZATION,PGPT0019600-mdcA-K13929	NA	NA
BMS010_03358	609			hypothetical protein	ATGCCACGCCCTCGTTGCCCCCGCTGTACCCGCCCGCCGAATCACTGCCTTTGTCCCTTGACTCCCCATCTGCCGAGCCGCAGCCGGGTGCTGATCCTGCAGCACCCCAGCGAGGAGCGGCATGCCCTGAATACCGCGCGGCTGGCGCAACTGGGCCTGGAGAATGCCGAGCTGCGGGTGGGCGAGGTCTTCGACGAGTTGCCGGCGTTGCTCGCCGATCCCGCCTACAGCGCCTGTTTGCTGTTCCCCGGCGATGAGGCGCAACCGCTAGTGCCGGTCCCGCCCGATGCCCGGCCGACGCTGCTGGTGGTGCCGGATGGCACCTGGCGCAAGGCGCGCAAGCTGCTCTATCTCAATCCGGTGCTGGCCGGTTTGCCGCGCGTCGCCTTGCCCGAGGGGCTGACCTCGCGTTATCGCCTGCGCAAGGCGCCGGAGCCGGGGGCGCTATCGACCCTGGAGGCAATCGTGGCGGCCTTGGACATTCTCGAAGCGCCGGCCCGCTTCGACGTGCTGCTCAGGCCTTTCGAAGCGCTGATCGAGGGGCAGATCGCAGCCATGGGCGAGGAGACCTTCAAGCGCAACCACGGCGATTTGCGGAAGAATCGTTAA	MPRPRCPRCTRPPNHCLCPLTPHLPSRSRVLILQHPSEERHALNTARLAQLGLENAELRVGEVFDELPALLADPAYSACLLFPGDEAQPLVPVPPDARPTLLVVPDGTWRKARKLLYLNPVLAGLPRVALPEGLTSRYRLRKAPEPGALSTLEAIVAALDILEAPARFDVLLRPFEALIEGQIAAMGEETFKRNHGDLRKNR				NA	NA	NA	NA	NA
BMS010_03359	894			hypothetical protein	ATGCCTTCCGACCTTCCCGATCTGAAACTGCTGCGCATCTTCGTCTGCGTCGTTCGCCACCAGGGTTTCGCCGCCGCCCAGCAGGAGCTGAACCTGTCCACCTCGGCGATCAGCACCTACATGAGCCAGCTCGAGTCCCAGCTCGGTATCGTGCTGTGTCATCGGGGGCGGGGCGGCTTCAGCCTGACAAGCAAGGGCGAGCTGTTCTATCAGGAGACCTTGCGCCTGTTCGGCGAACTGGAAGGGTTCGAGCGCTACTCGGCGGCGCTCAAGGGCGAATTGCGCGGCACGCTGAACCTGGGTGTGCTGGATTCCACCGTCAGCGACCCGGCGTTGCCGCTGGCCGAGGTGATCGGCGCCTACAGCCAGGAGCATCCCGCCGTCCACCTGCACCTTTCGGTGACCAGTCCCTACGAGTTGCAACTGGCGGTGCTGGACAATCGCCTGGATCTGGCCATCGGTGCGTTTTCCACGCGGATGAATGGCCTGGTCTACCAGCCGCTGTATCGCGAACAGCACTGGCTGTATTGCAGCGAGCGTCACCCGCTGTTCGCCGAGAGACGCATCCCGGCGGAAGTGATCACCCAGCAACGCATGGTCGGCCGCGGCTACTGGAGCCAGGCCGAGCTGGCGCGGCATGGCTTCAGGCACAGCGCGGCCACCGTGGAGTCGATGGAGGCGCAGCTGATCCTGATCCTCTCCGGCGCTTACATCGGCTATCTGCCGGAGCACTATGCACAGTCCTGGGTCGACCAGGGCCGGCTGCGCGTCCTGTTGCCGGCCACCTTCGGCTATCAGGCGCCGTTTTCCCTGATCCTGCGTCGCGGGCGCAGCCGCGAACCGCTGATCCAGACCTTTCGGGACCTGCTGAGGGCACAGCTGACGCCCCGTTGA	MPSDLPDLKLLRIFVCVVRHQGFAAAQQELNLSTSAISTYMSQLESQLGIVLCHRGRGGFSLTSKGELFYQETLRLFGELEGFERYSAALKGELRGTLNLGVLDSTVSDPALPLAEVIGAYSQEHPAVHLHLSVTSPYELQLAVLDNRLDLAIGAFSTRMNGLVYQPLYREQHWLYCSERHPLFAERRIPAEVITQQRMVGRGYWSQAELARHGFRHSAATVESMEAQLILILSGAYIGYLPEHYAQSWVDQGRLRVLLPATFGYQAPFSLILRRGRSREPLIQTFRDLLRAQLTPR	PGPT0003120_905	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ACINETOBACTIN_METABOLISM,PGPT0003120-bauR-K21699	NA	NA
BMS010_03360	426	ohrB_2	COG1764	Organic hydroperoxide resistance protein OhrB	ATGAGCATCGAAAACGTCCTGTACCGTGCATCCGCTGAAGCCACCGGTGGCCGCGATGGTCGCGCCATTTCGTCCGATGGCGTGCTCGACGTCAGCCTGACCACCCCTCGCGAACTGGGCGGTGCCGGCGGCCAGGGCACCAACCCGGAGCAACTGTTCGCTGCCGGCTATGCAGCCTGCTTCCTGGGCGCCATCAAGTTCGTCGCTGCCCGCGACAAGCACCGCGTATCCCCGGATACCTGGATCGAGGGCGTGGTCGGCATCGGCGCCATCCCCAACGGATTCGGTATCGAAGTCGAACTGAAGATCACCCTGCCCGACATGGACCGCGACGAAGCCCGCGCGCTGATCGAGAAGGCCCACATCGTCTGCCCGTACTCGAACGCCACCCGCGGCAACATCGACGTCACCTTGACCCTGGTCTGA	MSIENVLYRASAEATGGRDGRAISSDGVLDVSLTTPRELGGAGGQGTNPEQLFAAGYAACFLGAIKFVAARDKHRVSPDTWIEGVVGIGAIPNGFGIEVELKITLPDMDRDEARALIEKAHIVCPYSNATRGNIDVTLTLV	PGPT0013160_1490	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013160-ohrB|osmC|ohr|ykzA-K04063	NA	NA
BMS010_03361	1017	nlhH_1	COG0657	Carboxylesterase NlhH	ATGAACATCCGCACCCTTCTCGGCGCCGGGACCCTCGCCCTGGCCGTCAACAGTGTCTTCGCCGCCGGCAGCCCCGGCGTCGAACACAACACCCAGGCCTTCCTCGAAGCCCTGGCGAACGGCGGCGGCAAGCCGCTCGAACAACTGTCGCCCAAGGACGCTCGTGCCGTACTGAGCGGCGCCCAGGCCAGCGTCAAGCTGGAACTGCCGAAGGCGGACGTCAGCGAGAAGACCATCGCGGTCGACGGCCAATCGATCAAGCTGATCGTGGTGCGCCCGGCCGGCGAGAAGGGTGAATTGCCCGCCACCCTGTTCTTCCACGGCGGCGGCTGGGTGCTCGGCGACTTCCCCACCCACGAACGGCTGATCCGTGAGCTGGTGGCCGGTTCCGGCGTGGCGGCGGTCTACGTCGACTACACGCCCTCGCCGGAGGCGCACTACCCCACCGCGATCAACCAGGCCTATGCCGCCACCCGCTGGGTGGCCGAGCACGGCAAGGAAATCGGCGTGGACGGCGCGCGCCTGGCGGTGGCCGGCAACAGCGTCGGCGGCAACATGGCCGCGGTAGTCGCCCTGATGGCCAAGGAAAAAGGCACCCCGGTGCTGAAATTCCAGCTCCTGCTGTGGCCGGTCACCGATGCCAGCTTCGAGAACGCCTCCTACCAACAGTTCGCCGAAGGGCACTTCCTGACCCGCAACATGATGAAGTGGTTCTGGGACAGCTACACCACCGACGCCGGACAGCGGGCGGAAATCCATGCCTCGCCGCTGCGGGCCAGCATCGACCAGCTCAAGGGCCTGCCGCCGGCACTGGTGCAGACCGCCGAGTTCGACGTGCTGCGTGACGAGGGCGAAGCCTACGCCCGCAAGCTGGACGCGGCCGGCGTGCCCGTCACCGCCGTGCGCTACAACGGCATGATCCACGACTTCGGGTTGCTGAACGTGCTCAGCCAGGTTCCCGCCACCCGCTCGGCCCTGCAGCAAGCCGCGGAGGAACTGAAAAAGCACCTGCAGTGA	MNIRTLLGAGTLALAVNSVFAAGSPGVEHNTQAFLEALANGGGKPLEQLSPKDARAVLSGAQASVKLELPKADVSEKTIAVDGQSIKLIVVRPAGEKGELPATLFFHGGGWVLGDFPTHERLIRELVAGSGVAAVYVDYTPSPEAHYPTAINQAYAATRWVAEHGKEIGVDGARLAVAGNSVGGNMAAVVALMAKEKGTPVLKFQLLLWPVTDASFENASYQQFAEGHFLTRNMMKWFWDSYTTDAGQRAEIHASPLRASIDQLKGLPPALVQTAEFDVLRDEGEAYARKLDAAGVPVTAVRYNGMIHDFGLLNVLSQVPATRSALQQAAEELKKHLQ				NA	NA	NA	NA	NA
BMS010_03362	567	efp_1	COG0231	Elongation factor P	ATGAAAACCGCACAAGAATTTCGCGCTGGCCAGGTAGCCATCATCAACGGCGCTCCCTGGGTCATCCAGAAAGCCGAGTTCAACAAATCCGGCCGTAACGCGGCGGTCGTCAAGATGAAGCTGAAGAACCTGCTGAACGGTTCCGCTACCGAGACCGTGTTCAAGGCCGACGACAAGCTGGAGCCGGTCATCCTTGAGCGTAAGGAAGTGACCTATTCCTACTTCGCCGACCCGCTGTACGTATTCATGGATGCCGATTTCAACCAGTACGAAATCGAGAAAGACGATCTGGAAGGCGTTCTGACCTTCATCGAAGACGGCATGACCGATGTCTGCGAAGCCGTGTTCTACAACGACAAGGTGATCTCCGTCGAACTGCCGACCACCATCGTGCGTGAAATCGTCTACACCGAGCCGTCCGTCCGTGGCGACACCTCCGGCAAAGTGATGAAGACTGCCCGTCTGAAGAACGGTGCCGAGCTGCAGGTTTCCGCGTTCTGTGAAATCGGCGACTCCATCGAGATCGATACCCGCACCGGCGAGTACAAGTCCCGCGTCAAGGCTTGA	MKTAQEFRAGQVAIINGAPWVIQKAEFNKSGRNAAVVKMKLKNLLNGSATETVFKADDKLEPVILERKEVTYSYFADPLYVFMDADFNQYEIEKDDLEGVLTFIEDGMTDVCEAVFYNDKVISVELPTTIVREIVYTEPSVRGDTSGKVMKTARLKNGAELQVSAFCEIGDSIEIDTRTGEYKSRVKA	PGPT0016205_1821	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-SWARMING_REGULATOR,PGPT0016205-efp-K02356	NA	NA
BMS010_03363	1134			hypothetical protein	ATGAAGCCTCTCTGGGACATTTTCTGCAGCGTCGTCGATAACTACGGCGATATCGGCGTGACCTGGCGTCTGGCCCGGCAACTGGTGGCCGAGCATGGCCAGGCGGTGCGCCTGTGGGTGGATGACCTGCATTCGCTGGCGCGGTTGTGCCCCGAGGTCGATCCCGACGTGGCGCAGCAGGTGCAGCGCGGCGTCGAGGTGCGGCGCTGGGCGTTACCGTGGCAACCGGTCGAGCCGGGGGACGTGGTGATCGAGGCATTCGCCTGCCATCTGCCCGGCGAATTCGCGGCGGCGATGACGGCCAAGTCGCGTCCGCCGTTGTGGCTCAATCTGGAATACCTCAGTGCCGAGGACTGGGTCGGCGGTTGCCATGGTCTGCCGTCTTTCCAGTCGAATGGCTTGCAGAAGTTCTTCTTCTTTCCCGGATTCACTTCGGAAACTGGCGGACTGCTGCGTGAGCAGGGGCTGATCGAGCGGCGGCGAGCGTTCCAGGCCGATCCGGCGGCGCAGGCCGCTTTCCTGCAATCCATCGGTGTACAGCGGCGCCCCGGTGCTCGCCTTATCTCATTGTTCGCCTATGAGAATGCTGCGTTGGGCAGTTGGCTGGAGGCCCTGGCGGCGGGCACGCAGCCGACCCAGTTGCTGGTGCCGGAAGGCCGGGTTCTGAAGGATCTGGAGCGTTGGCTGAGTACCTGCGGCCTGGCGGCGCACGATCAGTACAAACGCGGCGCGCTGCATGTCCAGGTGATTCCGTTCGTCGAGCAGGACGCCTATGACTGCTTGCTCTGGTGCTGCGATTTCAACGCGGTACGCGGCGAGGACTCCTTCGTGCGGGCGCAATGGGCCGGGCGGCCGATGCTCTGGCACATCTATCGGCAGGAAGAAAACGCCCACTGGTTGAAACTCGATGCCTTCCAGGCGCTCTACCGGAAAGCGTTGCCGCCCGCCGCGGGCGAGGCCCTGGGTGCGTTGTGGCATGCCTGGAATGCCGAGGAGGACATGGGGCCCGCCTGGCACGGGGTGCAACGAGAATGGCAGGTGTTGGCCGAGCATGCCGAGCACTGGTGCCGGGAACAGGCGGCGCAGACCGATATCGCGGCAAGGCTGGTGCTTTTTTACACAAATTGGCTATGA	MKPLWDIFCSVVDNYGDIGVTWRLARQLVAEHGQAVRLWVDDLHSLARLCPEVDPDVAQQVQRGVEVRRWALPWQPVEPGDVVIEAFACHLPGEFAAAMTAKSRPPLWLNLEYLSAEDWVGGCHGLPSFQSNGLQKFFFFPGFTSETGGLLREQGLIERRRAFQADPAAQAAFLQSIGVQRRPGARLISLFAYENAALGSWLEALAAGTQPTQLLVPEGRVLKDLERWLSTCGLAAHDQYKRGALHVQVIPFVEQDAYDCLLWCCDFNAVRGEDSFVRAQWAGRPMLWHIYRQEENAHWLKLDAFQALYRKALPPAAGEALGALWHAWNAEEDMGPAWHGVQREWQVLAEHAEHWCREQAAQTDIAARLVLFYTNWL				NA	NA	NA	NA	NA
BMS010_03364	336			hypothetical protein	ATGAAAAAGGTGTTCGCATCGATCAAAGCCATGCCTCGCCGTGCCTGGGCGATGACGGGGATTCCTCGGGCATTGGCGGCGCTTTCCGCGGGCTTGGCGAAGCGGGGTTGGTATGCGGCGGGGGCGGTCGTGCGCCATCCGTTTCTGTTCATGGGCTTGCTGCTGGTGCTCTGGGGAGCGCATTACCGCTGGTTGACCGCCACGTCCAAGCTGGAGTTGATGGCCGGGGCGCTGGCGTCGGTCTATGTGTTCTTCTTTTATCTGGCGCAGGTGCGCGAGAGTCGAGTGGTGCTGAAGGCGGAGTATCCGGCGGCCGGCAAGCAGCTCCCGCAATAG	MKKVFASIKAMPRRAWAMTGIPRALAALSAGLAKRGWYAAGAVVRHPFLFMGLLLVLWGAHYRWLTATSKLELMAGALASVYVFFFYLAQVRESRVVLKAEYPAAGKQLPQ				NA	NA	NA	NA	NA
BMS010_03365	159			hypothetical protein	ATGAGCAGCGCCCCGAAAGAACCCGGCATCGACATCCACCACCCCAACGACCTGGAACTGCCCGGCGAAGACCGCTCCGAACGCAATCCCCCGCCCGATCGGCGCGAGAATGCGCCGGAGCGGCAGCAGCCGGCCAGGGAGTCGGAGATGGTCAGATAG	MSSAPKEPGIDIHHPNDLELPGEDRSERNPPPDRRENAPERQQPARESEMVR				NA	NA	NA	NA	NA
BMS010_03366	315			hypothetical protein	ATGCCCACCACCGCCCTCGTTCGCCTGAACAGACTGCACACATCACTGCAACAGCTCCGCGACGCTGACAGCGCACTGCTCCGCCCTGACCTTCTCGACACCCGTCTCAACGAACTGGCTGCCGTGATCGAAGTACTTCAGCGACTGGATAACGCTCAATCCCTTCTCAACGACCTTGGCGGTGCCATGGCGCTACTGCTGGAACTCCTGCAGTGCGCGGACCAGAAACTGGACGGTTGCTTATTGCACTGCCTATTGAAGCCATTCAAGGAAAAGATCGATCAGGTAATGGATGAGATGGAGCGGGTGGTGTGA	MPTTALVRLNRLHTSLQQLRDADSALLRPDLLDTRLNELAAVIEVLQRLDNAQSLLNDLGGAMALLLELLQCADQKLDGCLLHCLLKPFKEKIDQVMDEMERVV				NA	NA	NA	NA	NA
BMS010_03367	1284			hypothetical protein	ATGGCACGTGATCAAGGGCCAGGGCCTATGCCTAGGGTCTGTAGGCCAGCTCGAAAGAATGCCCCGCTACCAAGCTGGCGAGCACCCAAGGAACCCCCACACACTCCAGCCCCACAACGGGAATTGATTATTCCCCCTGATCCACCACCAGCCCCAGAACCTCCCCCGCGTGTCTGCTCATTCGTCAAACACTGCAAGCTCCCAGATAGCCAGATAGACCAGCATGGTCGATTGTTCGTCAACCTTTTGGATGACTATGGCGAGGTTGCTGTACTGGGAGCCACGGAACGGGATGCTTCGGGAAACCTTCCACTGAAGCGCATCAACATGCCTCATTTGCCCAAGTCATTGGGTGGGTTGGCTATCGCTGGGGCTACTGTGGGCGAAGTCGCTGGTGGCGTGGGTTCAGGTATCACGACTGGGGTTATATCGGGTGCCTTCATCGGATTGGTTGCTCTGCTGTGGCCATCGGAACTCGGCGATAGTGCGCTCTATGCCGAAGACGAACTCAGAGGCATGGCCACGGCCCGGACACGGGTTAGGTTGCACATCGAACAACAGCCAGACGGCAAGCTCCGGGGCTATGCGTTCAACACTGAGCGCCTAGGGCAATGGGAACAGGTTCCTGTCGTGCAATTCCAGCCCCAAGGCGACCGGATGGTGGCTGATATCGGCGGTATAGGGCTGATCTGGACACCCGCGACAGACCCCAGCGACAAGGGGCGTATTCCCAGCCTGGAGCAAGCCCCGAACACGCCGGCCATCTTGGTATTCCCCTCGGAAGAAAAGGCCGGACAGACCTTCGTTAACCCCGTGCTGCCGAATGATTACCGGGACGCCATCGTAGTGTTCCCGGCTGACTCAGGTGTGCCACCGCTCTACGTCGTAATGAATGTCCGGCTTGATCCTGGCGTGGTCACGGGACAGGGGGAAGTCGTCACGGGAATATGGCTGGAACAGGCCAGCCGGGAGCTTGGGGCACCGATTCCGGCTCAGATTGCGGATAGGCTCAGGGGAAAGGCGTTTTCCAGCTTCGATGCGTTTCGTAAAGCGTTTTGGACCGAGGTTGGTAATGATGTTGAGCTATCCGGCCAGTTCAACGAGCAGAACAAGGCACGCATGCGCGACGGATACGCCCCTAAAGCCCGCCAAAAAGATATTGTAGGTAAGCGAGCCAGTTTTGAATTACATCATTCGACACCAATAGCGGAAGGTGGTGAAGTGTACAATACGGATAACATGAGGGTAATGACGCCGCGCCGTCATATTGAGAGACACAGGTGA	MARDQGPGPMPRVCRPARKNAPLPSWRAPKEPPHTPAPQRELIIPPDPPPAPEPPPRVCSFVKHCKLPDSQIDQHGRLFVNLLDDYGEVAVLGATERDASGNLPLKRINMPHLPKSLGGLAIAGATVGEVAGGVGSGITTGVISGAFIGLVALLWPSELGDSALYAEDELRGMATARTRVRLHIEQQPDGKLRGYAFNTERLGQWEQVPVVQFQPQGDRMVADIGGIGLIWTPATDPSDKGRIPSLEQAPNTPAILVFPSEEKAGQTFVNPVLPNDYRDAIVVFPADSGVPPLYVVMNVRLDPGVVTGQGEVVTGIWLEQASRELGAPIPAQIADRLRGKAFSSFDAFRKAFWTEVGNDVELSGQFNEQNKARMRDGYAPKARQKDIVGKRASFELHHSTPIAEGGEVYNTDNMRVMTPRRHIERHR				NA	NA	NA	NA	NA
BMS010_03368	261			hypothetical protein	ATGCTCAACGCCGCTCGCGATTCCGCCAAGGCCTATGGCGCAGCGCTTGTCGAAGTAACGAGCACGCAGGCGCTGATCGATTACCTCAACCAGGGCAGGGATCGGAAACGCTCGCCTATCGAACACCTGTCGCTGTTCAGCCACGGCGTACCGCAGCGTGTGGCTTTTGGTTACCAGCTTAATTGCTTATCATGCTTTGTTAATTTGAAGCACCAGAATGTACAGTCTTTGGTGTCCACTTATATTAGCTGCCGTAATTAA	MLNAARDSAKAYGAALVEVTSTQALIDYLNQGRDRKRSPIEHLSLFSHGVPQRVAFGYQLNCLSCFVNLKHQNVQSLVSTYISCRN				NA	NA	NA	NA	NA
BMS010_03369	393			hypothetical protein	ATGCAAACAAACTTTGACCGGCTCGTACACTCACTGATAGCACATTACAATCTTCCCACACCTGAAAAGCAGTTCGACGATGAGGTTTATCGCTTTACCGTGAACGACAACATGCCCGTCAAGCTGTATGGGGACCGCAATAATCTGGTTTACTTTGTAAGCACACTAGGCAACTACCAGGAAAAACACGAGAAATTGTGTTCAGAGCTGCTGAAGCTGAACAACTTCAGCCTTAAGAACCCCTGTTTAACGCTGGGGCTCGATACCGATAACTGTCTAATCATACATACACGACTGTCGATAATGGACCTTAAGGGTCCACAGGGGTTAATGCATTTTGAAAACTTCATCGATAGATGCAGTGCAATAAAAACCCACCTCAACCTTGAATAA	MQTNFDRLVHSLIAHYNLPTPEKQFDDEVYRFTVNDNMPVKLYGDRNNLVYFVSTLGNYQEKHEKLCSELLKLNNFSLKNPCLTLGLDTDNCLIIHTRLSIMDLKGPQGLMHFENFIDRCSAIKTHLNLE				NA	NA	NA	NA	NA
BMS010_03371	222			hypothetical protein	ATGTCATTGCAGTCTTTTCTCTGCGCGGGTTCGGCATTGCTCCTGCTGCTGGCCTCGGTGCTGATCGCCAACCGCGCCATCATTCACAACCCGATCGGCGTCTTCATCCTGTTCGTCTGCGGGTTGTTTCTCAGCCTGGGCTTCGTCCTCTTCGGCAACCAGCGCCTGGACGAACCGCCCGCAACCCCGGAAGAGCCCCGTCCGGACTCGCCCTATCCTTAA	MSLQSFLCAGSALLLLLASVLIANRAIIHNPIGVFILFVCGLFLSLGFVLFGNQRLDEPPATPEEPRPDSPYP				NA	NA	NA	NA	NA
BMS010_03372	690	fadB_1		Fatty acid oxidation complex subunit alpha	ATGAGTGAGCTGATTTCCTACCATCTCGACGACGGCATCGCGACCCTGACGCTGAACAACGGCAAGGTCAACGCCATTTCCCCGGACGTGATCGCCGCCTTCAACGAAGCGCTGGACCGCGCCGAACAGGACAAGGCGATCGTCATCCTCACCGGCCAGCCGGGCATACTGTCGGGCGGTTACGACCTGAAGGTGATGACCTCCGGCCCGCAGAACGCCATCGAGCTGGTCGCGGCGGGCTCGACCCTGGCGCGCCGCATGCTGGCCCACCCCTACCCGATCATCGTCGCCTGTCCCGGTCACGCGGTGGCCAAGGGTGCCTTCCTGCTGCTTTCGGCGGACTACCGGATCGGGGTCGAGGGGCCGTTCAACATCGGGCTGAACGAAGTGCAGATCGGTATGACCATGCACCACGTCGGTATCGAACTGGCCCGCAACCGCCTGCGCAAGTCGGCCTTCCACCGCTCGGTGATCAACGGCGAGATGTTCGATCCGCAGGGAGCCGTGGATGCTGGCTTCCTTGACCGCGTGGTACCGGTCGGCGAGTTGATGCCCGTCGCCCTGGCGACCGCCCGGCAGATGAAGAAGATCAACATGACGGCGCACCGGAACACTAAACTGAAGGTGCGCAAGGCGCTGCTGGAGACGCTGGACAAGGCCATCGAGCTGGACAAGCAGCACCTGGGCTGA	MSELISYHLDDGIATLTLNNGKVNAISPDVIAAFNEALDRAEQDKAIVILTGQPGILSGGYDLKVMTSGPQNAIELVAAGSTLARRMLAHPYPIIVACPGHAVAKGAFLLLSADYRIGVEGPFNIGLNEVQIGMTMHHVGIELARNRLRKSAFHRSVINGEMFDPQGAVDAGFLDRVVPVGELMPVALATARQMKKINMTAHRNTKLKVRKALLETLDKAIELDKQHLG	PGPT0001860_8255	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0001860-paaF|echA-K01692	NA	NA
BMS010_03373	489			hypothetical protein	ATGAAAGCCAGGACACTCCTTGCCGTTTCGGCATGCGCATTCATGGTTTCGACCATGGTGGTACCGGATGCCAATCCGCTTATCGGCTCCGCTTACGCTAAAGACGGTGGCGGTGGCGGTGGCGGTGGCGGTGGCGGTGGCGGTGGCGGAAACGGCGGGGGCGGTGGCAACGGTGGTGGTCATGGCGGCGGGCGTGGCGGCTCTGCCGGAGACGGCCATGGCGCCGGCAATGCGGTCGGCCGCAGCGAACAGGGTGTCGGCCAGGGCAAGGGCCATGGGGCCGCAACGTCGGAAGCGGCGAAGTCCAAGGAAACCACCGGCTTGGCCAAGGCCATGGCCGTCGTCGCCAGCACCCCGGCCGCCCTGGCCGCTGCTCTCGGCCTGCAGCAAGCCTCGGTATCGACGACCAAGCACGACGAGGCGACTGATGATGATGCCGGCTCGACCGACGATTCGACAGGCGAGAACGGCCAGGTAGCTGCCCAGTAA	MKARTLLAVSACAFMVSTMVVPDANPLIGSAYAKDGGGGGGGGGGGGGGGNGGGGGNGGGHGGGRGGSAGDGHGAGNAVGRSEQGVGQGKGHGAATSEAAKSKETTGLAKAMAVVASTPAALAAALGLQQASVSTTKHDEATDDDAGSTDDSTGENGQVAAQ				NA	NA	NA	NA	NA
BMS010_03374	795			hypothetical protein	ATGTCGACCGCTCGCTCCCATGCTTCGCAGCACTTCGTCGAACGCCAGCGCTGGCGCCTGTTGCGGCAGGTGGAGGACTGGCTGGAAACGCCAATGATCCTGCTCGGCTTCGTCTGGCTGGCCTTGACCGTGGTCGAGCTGGTGCGTGGCGTATCGCCGTTGCTGGAGGCGCTCAACCGCTGGATCTGGGCGTTGTTCGTGGTCGATTTCCTGCTGCGCTTCAGCCTGGCGCCGCGCAAGCTGAGCTACCTGCGGCGAAACGTGCTCACCGCCGTGGCCCTGTTGCTGCCGGCCCTGCGCACCTTGCGCGTGCTGCGTGTGTTCCGGGTGCTGCGGGCGACCCGTGGGGTCACCCTGGTGCGCATCCTATCCTCCACCAACCGGGGCATGTCGGCGCTGCGCCAGGCCATGCGGCGCCGGGGTGTCGGTTACGTCTTCAGTCTGACCCTGCTGGTGATCCTGATGGGAGCGGCCGGCATGTATGCCTTCGAGCGCGACAGCGCCGGCTTCGGCAGCTACGGTGAGGCGCTCTGGTGGACCGCCATGCTGATCACCAGCCTGGGCTCGGAAGCCTGGCCGCACACGGGCGAAGGGCGGGTGCTCTGCTTCATCCTCGCGCTCTACGGTTTCACCGTGTTCGGTTACGTCACGGCGACCCTGGCTTCGTTCTTCGTCGACCGCGATGCGGCGGACAAGCAATCCGCCACGGCCGGCCAGGCTTCCATCGAAAGTCTTCAGGAGGAGATTCGCCGCTTGCGCGAGGATATCCGCCGGCTGAACGACCCGTCGGGCTGA	MSTARSHASQHFVERQRWRLLRQVEDWLETPMILLGFVWLALTVVELVRGVSPLLEALNRWIWALFVVDFLLRFSLAPRKLSYLRRNVLTAVALLLPALRTLRVLRVFRVLRATRGVTLVRILSSTNRGMSALRQAMRRRGVGYVFSLTLLVILMGAAGMYAFERDSAGFGSYGEALWWTAMLITSLGSEAWPHTGEGRVLCFILALYGFTVFGYVTATLASFFVDRDAADKQSATAGQASIESLQEEIRRLREDIRRLNDPSG	PGPT0002715_3710	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002715-kch|trkA|mthK|pch-K10716	NA	NA
BMS010_03375	456	mutM_2	COG0266	Formamidopyrimidine-DNA glycosylase	GTGCCGGACGCCTATACGAACATGCCCGAACTGCCCGATCTCGAACTCGACAAGCGCCAGGTCGACGCCCACGCCGTCGGCCGGACCGTGCGTGCCGTGACCGTGCGCGACAAGCGTGTGCTGGAGCAACCGGCCAGTACGTTGGAACGCGGCGTGAAAGGCCGCCGCTTCGCGCACAGCGAGCGGCACGGCAAGAACCTGTTCATCCACTTGGATGACGGCCACGCCCTGCTGATGCACTTCGGCATGACCGGCTACCTGAAATTCGCGAAGAGCGATGAAGCCTTGCAGAAATCCGAAGCGGTAGTGTTCGAACTCGATGACGACCGGCGCCTCAGCTACTGCTCGCGGCGCATGCTGGGCCGGGTCGAGCTGGTCGAGACGGTGCAGGACTACCTGGATGCCCATCGCATCGGCCCGGATGCGCTGTCACTGGACGCGAGCGCTGATCTCTAG	MPDAYTNMPELPDLELDKRQVDAHAVGRTVRAVTVRDKRVLEQPASTLERGVKGRRFAHSERHGKNLFIHLDDGHALLMHFGMTGYLKFAKSDEALQKSEAVVFELDDDRRLSYCSRRMLGRVELVETVQDYLDAHRIGPDALSLDASADL				NA	NA	NA	NA	NA
BMS010_03376	729			hypothetical protein	ATGCCGCTCCGCATCTGCATTCTCGAAACCGATATCCTTCGCCCCGAACTGATCGACCGCTACCAGGGCTACGGCCGCATGTTCGTCGACCTGTTCGCCAAGCAGCCGATCCCGGCCCGGTTCGAGGTCTTCAATGTGGTGGAAGGTCGCTACCCGGCGGACGACGAGCGCTACGACGCTTATCTGGTCACCGGCAGCAAGGCGGACTCCTTCGGCAGCGATCCCTGGATCCAGACCCTCAAGACCTACCTGCTGAAACGTTACCAGCGCGGCGACAAGCTGCTCGGCATCTGCTTCGGCCATCAGCTCCTGGCCCTGCTGTTCGGCGGTCGCAGCGAGCGGGCCGAGCAGGGCTGGGGTGTCGGTACCCATCGGTATCAATTGCATCATCAGCCGGAATGGATGACGCCTGGCCAAGAGGAGCTGACCCTGCTGATCAGCCACCAGGACCAGGTCACCCGCCTGCCGGAAAACGCCACGCTGATCGCTTCCAGTGAGTTTTGCCCGATCGCCGCCTACTGCATCGAGGATCAGGTCCTCTGTTTCCAGGGCCATCCGGAGTTCATCCACGATTATTCGCGCGCGCTGCTCGACCTGCGCCAGACCGCCCTGGGCGAGACGGTTTACCGTCAGGGTGTCGATAGCCTGGGGCAGGACCACCACGGCGTGACGGTGGCAGAGTGGATGATGCGCTTCGTTGCTCAGGGGAGGGCGGCGGAGGCCAACTAG	MPLRICILETDILRPELIDRYQGYGRMFVDLFAKQPIPARFEVFNVVEGRYPADDERYDAYLVTGSKADSFGSDPWIQTLKTYLLKRYQRGDKLLGICFGHQLLALLFGGRSERAEQGWGVGTHRYQLHHQPEWMTPGQEELTLLISHQDQVTRLPENATLIASSEFCPIAAYCIEDQVLCFQGHPEFIHDYSRALLDLRQTALGETVYRQGVDSLGQDHHGVTVAEWMMRFVAQGRAAEAN				NA	NA	NA	NA	NA
BMS010_03377	138			hypothetical protein	ATGAATACCTTTGCCGCCATCGCCAGCCTGGCCGCCGCCTCCTCTTTCGCCAGCAGCCTGCCGTCCGAATACTACCGCCCCACGCCGAAGGCCTCCGCCGCCCAAGGCAAGGAAGACAAGCGCCCCGCCCGTCACTGA	MNTFAAIASLAAASSFASSLPSEYYRPTPKASAAQGKEDKRPARH				NA	NA	NA	NA	NA
BMS010_03378	207			hypothetical protein	ATGAGCACCACCGAAAACCTGCCGCTGCGAAACGGCTATGGCGTGACCTACGCCACCCTGGACGAGACCGGACTGCACTTCGAGTCCGAACTGGCAATCCACCTCCGAGACGGCAGCCTGCTGACGCTGAAGATGCCCACCCGGCAGAGCGAGCAGCGTGCGATCCGCGAAGCCCTCCGTGGCCAGATCAACCAACGCGCCGCCTGA	MSTTENLPLRNGYGVTYATLDETGLHFESELAIHLRDGSLLTLKMPTRQSEQRAIREALRGQINQRAA				NA	NA	NA	NA	NA
BMS010_03379	192			hypothetical protein	ATGAGCCGCCTCACCCTGAAATACGCCCGCAACGGCGCCCTCGCCGGGATCGGCCTGTACACGGTCATCGCCGCCACCCTGCTGGCGCTGAGCATGAGCGTCGGCGGCGCGCGTACCGCCTCGACCAGCGACGCGAGCCTCAACCTGCTGCCACAGATCGGCCAGGCGGTCGGCGCACTCCTGAAAAGTTGA	MSRLTLKYARNGALAGIGLYTVIAATLLALSMSVGGARTASTSDASLNLLPQIGQAVGALLKS				NA	NA	NA	NA	NA
BMS010_03380	285			hypothetical protein	TTGAACGACGGCATCACGCCGACTACCGAAGACACGAAGATCATGACCCTGGAGAAGAAGCACTTTCTTGCCGTCGCCGGCCTGGTCGCCCTGACCAACGGCCTGTCCCTGCTCGGCTTCGGCAACGCCTCGGCGGGCGCGCTGGCCAGAACCATCGAATGCAATTCGGCGATTGCCCGCCACAGCGAAGCCAGCGTTACCCTGAAGCACCTCGCCGGCACCCCGCCCTGCGAGCCGGAAAGGCCGTTCGCCGGGCCTTTCCGACATGCCTGCGCCGAGCGGTAG	MNDGITPTTEDTKIMTLEKKHFLAVAGLVALTNGLSLLGFGNASAGALARTIECNSAIARHSEASVTLKHLAGTPPCEPERPFAGPFRHACAER				NA	NA	NA	NA	NA
BMS010_03381	2145	fadJ_1	COG1024	Fatty acid oxidation complex subunit alpha	ATGACTGACGCCATCCGTTACGAAAAGGGCCAGGACGGGATCGTCGTCCTGACCATGGACATGCCCGGGCAGAGCGCCAATACCATGAACGCGGTGTACCGCGAGGCCATGGCCGGGATCGTCGACCGCCTGGAAGCCGAGAAAGATGCCATCACCGGGGTGATCGTCACCTCGGCGAAGAAGACCTTCTTCGCCGGCGGTGACCTCAATGAGCTGGTCAAGGTCACCCGGGCCGACGCCACGGCGTTCTACCAGATGGTGCTCGGCATCAAGGCGCAGTTGCGCCGCCTGGAAACGCTCGGCAAGCCAGTGGTGGCCGCCATCAACGGCGCGGCCCTCGGCGGCGGCTGGGAAATCTGCCTGGCCTGCCACCACCGCATCGCCCTGGATGCGCCGGGCGTGCAGCTCGGCCTGCCGGAGGTCACCCTCGGCCTGCTGCCGGGCGGGGGTGGCGTGGTGCGCATGGTGCGCCTGCTGGGCATCGAGAAGGCATTGCCGTATCTGGCCGAAGGCAAGAAGGTCCGCCCGGATGCGGCGTTGAGAGCCGGGCTGATCCATGCCATCGCCTCCGACCGCGACGACCTCATGGCCAAGGCTCGCGCCTGGATCGTCGCCAACCCGAACCCGGTACAGCCCTGGGACGAGAAGGGCTACAAGATCCCCGGCGGCACGCCGTCCAGCCCGAGCGTTGCGCAGATGCTGGCCATTGCACCGTCGGTGCTGCGCGACAAGACCAAGGGCTGCTTCCCGGCGCCGGAAAGAATCCTCTGCGCCGCGGTGGAAGGCGCCCAGGTGGACTTCGACACCGCTCAGTTGATCGAGACGCGCTACTTCACCGAGCTGACCACCGGCCAGGTGGCGAAGAACATGATCGGCACCTTCTGGTTCCAGCTCAACGAGATCAACGCCGGCGGCTCGCGACCGAAAGGCCATGAGCCCTGCGTCACCCGCAAGGTCGGCGTGCTCGGGGCCGGCATGATGGGAGCGGGGATCGCCTATGTGTCGGCCGCGGCCGGCATCGACGTGGTGCTCAAGGACGTTTCCGTCGAAGCAGCGGAGAAGGGCAAGGCGTATTCGGCCAAGCTGCTGGAAAAGAAAGTCAGCCGCGGTCACATGAGCGCCGAGAAGCGTGACGCCATCCTGGCGCGTATCCGTACCACCGACAAGGAAGCCGACTTCGAGGGCTGCGACCTGATCATCGAAGCCGTTTTCGAAGACCGCGACCTCAAGGCCAACGTCACCGCCGCCGCCGAGCGGGCGGCACTACCGGATGCGGTCATCGCTTCGAATACCTCGACCCTGCCCATCACCGGCCTGGCCCGCGCGGTGCAGAAGCAGGAGCGCTTCATCGGCCTGCACTTCTTCAGCCCGGTGGACAAGATGCCGCTGGTGGAGATCATCCGTGGCGAGCGCACCAGCGAGGAAACCCTGGCGCGGGCCTTCGACTACGTCCTGCAGATCAAGAAAACGCCCATCGTGGTCAACGACCGGCGCGGCTTCTTCACTTCGCGGGTGTTCGGCACCTTCACCAACGAGGGGCTGGCCATGCTTGGCGAGGGCGTGTCCGCCGCGATGATCGAGAACGAAGCGCGCAAGGCCGGCATGCCGGTGGGCCCGCTGGCGATCTCCGACGAAGTCTCGCTGAGCCTGATGAGCCATATCCGCGCGCAGACCCGCAAGGACCTCGAAGCCGAGGGCCAGGCCCTGCCGGAACACCCGGCATTCGCCGTGATCGACCTGATGCTCGACGAGTACAAGCGACCGGGCAAGGCGGCTGGCGCAGGGTTCTACGACTATCCGGCCAACGGCAAGAAACACCTCTGGCCGGAACTCAAGGCTCGCTTCGAGAAGGCCGACCGGCAGATTCCCCAGGAAGACGTGCGCGACCGCATCCTGTTCATCCAGGCCATCGAGACGGTGCGCTGCATGGAAGAGGGCGTGCTCACGTCGGTGGCCGATGCCAACGTCGGGTCGATCTTCGGTATCGGCTTCGCCGCCTGGACCGGCGGTGCGTTGCAGTTCATCAACCAGTACGGGGTGAAAGACTTCGTCGCCCGTGCCCACTACCTGGCGGAGCAGTATGGCGAACGCTTCGAGCCGCCGGCGCTATTGCTGGAGAAGGCGGCGAAGGGCGAGGGCTTCTAA	MTDAIRYEKGQDGIVVLTMDMPGQSANTMNAVYREAMAGIVDRLEAEKDAITGVIVTSAKKTFFAGGDLNELVKVTRADATAFYQMVLGIKAQLRRLETLGKPVVAAINGAALGGGWEICLACHHRIALDAPGVQLGLPEVTLGLLPGGGGVVRMVRLLGIEKALPYLAEGKKVRPDAALRAGLIHAIASDRDDLMAKARAWIVANPNPVQPWDEKGYKIPGGTPSSPSVAQMLAIAPSVLRDKTKGCFPAPERILCAAVEGAQVDFDTAQLIETRYFTELTTGQVAKNMIGTFWFQLNEINAGGSRPKGHEPCVTRKVGVLGAGMMGAGIAYVSAAAGIDVVLKDVSVEAAEKGKAYSAKLLEKKVSRGHMSAEKRDAILARIRTTDKEADFEGCDLIIEAVFEDRDLKANVTAAAERAALPDAVIASNTSTLPITGLARAVQKQERFIGLHFFSPVDKMPLVEIIRGERTSEETLARAFDYVLQIKKTPIVVNDRRGFFTSRVFGTFTNEGLAMLGEGVSAAMIENEARKAGMPVGPLAISDEVSLSLMSHIRAQTRKDLEAEGQALPEHPAFAVIDLMLDEYKRPGKAAGAGFYDYPANGKKHLWPELKARFEKADRQIPQEDVRDRILFIQAIETVRCMEEGVLTSVADANVGSIFGIGFAAWTGGALQFINQYGVKDFVARAHYLAEQYGERFEPPALLLEKAAKGEGF	PGPT0001870_1318	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0001870-fadJ-K01782	NA	NA
BMS010_03382	1206	fadA_2	COG0183	Putative acyltransferase	ATGACCGAAGCACTCATTTTCGACGCGGTGCGCACGCCTCGCGGCAAGGGCAAGAAGGATGGGGCGCTGCACAGCGTCAAGCCGGTCAACCTGATCGCCGGCCTGCTCCGTTCGCTGCAGGCGCGCAATCAACTGGACACCAGCCAGGTGGATGACATCGTCCTCGGCTGCGTGACGCCGGTGGGCGACCAGGGCGCGGACATCGCCAAGACCGCCGCGCTGGTGGCGGACTGGGACGAGCAGGTCGCCGGCGTGCAGCTCAACCGCTTCTGCGCCTCGGGCCTGGAGGCGGTGAACCTGGGGGCGATGAAGGTGCGCTCGGGCTTCGAGGACCTGGTGGTAGTGGGCGGGGTCGAGTCCATGTCGCGGGTATCGATGGGCTCCGACGGCGGCGCCTGGGCCATGGATCCGGAAACCAACCTGCACACCCACTTCGTGCCGCAGGGCATCGGTGCCGACCTGATCGCCACCCTGGAGGGCTTCAGTCGCCAGGATGTCGATGCCTTCGCCCTGCGTTCCCAGCAGAAGGCTGCCAAGGCGCGCGCCGAGGGCCTATTCGCACGGACTCTGGTGCCGGTGACCGACCAGAACGGCATTGTCCTGCTCGACCATGACGAATTCATCCGTGCCGACTCCACCCTGGAAGGCCTGGGGGCGCTCAAGCCGAGCTTCGAGATAATGGGGCAGATGGGCTTCGACGCCACCGCCCTGCGCAAGTACAGCCACGTCGAGCGCATCGAGCATGTGCACACCCCCGGCAACAGCTCGGGGATCGTCGACGGTGCGGCGGCCATGCTCATCGGTTCGGCAGCCAAGGGCCGCGAGCTGGGCCTGAAACCCCGCGCCCGGGTGGTGGCCACGGCGGTGACCGGCAGCGACCCGACCATCATGCTCACCGGCCCGGCGCCGGCGACGCGCAAGGCTCTGGCCAAGGCGGGGCTGAGGGTCGACGACATCGACCTGTTCGAGGTGAACGAAGCCTTCGCCTCGGTGGTGATGAAGTTCATGAAGGACATGGGCGTGCCGGAGAGCAAGGTCAACGTCAATGGCGGCTCCATTGCCATGGGCCATCCGCTGGGGGCCACCGGCTGCATCATCCTCGCCACGCTGCTCGACGAACTGGAGCGCCGCAAGCTGCGCTACGGCCTGGCCACGCTCTGCGTGGGCGGCGGCATGGGCATCGCCACCATCATTGAAAGGATTTGA	MTEALIFDAVRTPRGKGKKDGALHSVKPVNLIAGLLRSLQARNQLDTSQVDDIVLGCVTPVGDQGADIAKTAALVADWDEQVAGVQLNRFCASGLEAVNLGAMKVRSGFEDLVVVGGVESMSRVSMGSDGGAWAMDPETNLHTHFVPQGIGADLIATLEGFSRQDVDAFALRSQQKAAKARAEGLFARTLVPVTDQNGIVLLDHDEFIRADSTLEGLGALKPSFEIMGQMGFDATALRKYSHVERIEHVHTPGNSSGIVDGAAAMLIGSAAKGRELGLKPRARVVATAVTGSDPTIMLTGPAPATRKALAKAGLRVDDIDLFEVNEAFASVVMKFMKDMGVPESKVNVNGGSIAMGHPLGATGCIILATLLDELERRKLRYGLATLCVGGGMGIATIIERI	PGPT0008320_4704	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
BMS010_03383	96			hypothetical protein	ATGTTCAAGCAGCGCAAAGTCCGGCAGGCGAGCCTGATCGTCTTCGCCACCACGGTCATTCTGATCCTTCCCAACCTGACCCGTCTGGTCGGTTGA	MFKQRKVRQASLIVFATTVILILPNLTRLVG				NA	NA	NA	NA	NA
BMS010_03384	366			hypothetical protein	ATGCCCCCTATTTTCTTCGCCCTCTCTTTTTTCAGCGTCGCCGCGACAGCCGCCGAAGTCGATCAACAAGCCGCGGTGGCAGCCCTGGAAAAACCGCAGGCCGTCCTGATCGGCATCGATACCCGCGAGACGTTCGCCGACAGCGCCCTTCCCGATACCCGGCATCTCAGCCTGGAGGATGTCACGACGAAGGTTCCCGAGGTGGCGCCGGACAAGAACACCCCCATCGTCCTCTACGCCGCCAGCGCCCGGCGCTCGTCGATCGCCCAGGACTCGCTGACCGCGCTGGGTTATCGCCAGGTGATCAACGGCGGCAGCTACTACGGGCTCAAGAAGGCCCTGCAACAGGACGAAGTGCAGAATTGA	MPPIFFALSFFSVAATAAEVDQQAAVAALEKPQAVLIGIDTRETFADSALPDTRHLSLEDVTTKVPEVAPDKNTPIVLYAASARRSSIAQDSLTALGYRQVINGGSYYGLKKALQQDEVQN	PGPT0014648_333	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_SHOCK_PROTEINS,PGPT0014648-pspE-K03972	NA	NA
BMS010_03385	795			hypothetical protein	ATGTTCCGATGGCTGGCCTTGCTCCTCGTCCTGTCCCAACCGGCGCTCGCCGCCGAACTCACCCTCGAACTCCCCTCCGGCAGCCGCAGTTGGACCACGGAACAACTGCTGGCGCGCCCGGACGTTCGGGAAGTGACCATCGGCAACGATACCGCCTACAAGCGCAAGACCGTCTACCGCGCCGTACCGCTGGCCAGCCTGCTCGAAGGCATCCGCCCCGGCGATCACCTCCAGGTGGTCGCCCTGGATGGTTTCGTTGCCGAACTGGCCGCTGCGCCTCTACTCGCCACCTCCGGTTCGCGTGCCTGGCTCGCCATCGAGGACCCGGCGAACCCCTGGCCGCCGCTCGGTGAAAACAAGCCGAGCGCCGGGCCGTTCTTCCTGGTCTGGACCGATCCGCAGATCGACCGCATCGTGCCCGAACAGTGGCCCTACCAGATCACCACGATCCGCAGGTTGCCCCCGGTGGCCGAGCGCTTCCCGGCGCTGCTGCCGGCCGCCGAGGCCAGTGCCGACGTCCAGGCGGGCTTCGCCCAGTTCCAGAAGAACTGCTTGGCCTGCCACCGCCTGAACCGCCAGGGCGATGCGCAGTTCGGCCCGGACCTCAACGTTCCCTACAACCCCACCGAGTATCTCCAGGCCGGCTTTCTCAAGCGCCTGATCCGTAACCCGCAGGACCTGCGCCATTGGCCGCAGGCTCGGATGCCGGCCTTCGCCGAAACCACGCTCAGCGATACCGAGCTGGACCAACTGATCGCCTACCTGACCCACATGGCAGGTCGCAAGGTGCAGTGA	MFRWLALLLVLSQPALAAELTLELPSGSRSWTTEQLLARPDVREVTIGNDTAYKRKTVYRAVPLASLLEGIRPGDHLQVVALDGFVAELAAAPLLATSGSRAWLAIEDPANPWPPLGENKPSAGPFFLVWTDPQIDRIVPEQWPYQITTIRRLPPVAERFPALLPAAEASADVQAGFAQFQKNCLACHRLNRQGDAQFGPDLNVPYNPTEYLQAGFLKRLIRNPQDLRHWPQARMPAFAETTLSDTELDQLIAYLTHMAGRKVQ				NA	NA	NA	NA	NA
BMS010_03386	1140			hypothetical protein	ATGCAACAGTGGGATTTCTGGCTCAACCAGCTCTTCTGGCTGAACACCGCCATCGTGCTGACCGTGACCCTGGTCAGCTACCTGATTCTGCGCAGCCTGATCGGCGTCCTGAGCAAGCGCTTGGCCACCTGGGCCGCGGGTCGTCAGAACAAGTTTTACGGTTTTGCCGTGGAAATGCTCAGGCGGACCAGCCGCTTCCTCTTGTTCGCCTTCTCGCTCCTGCTCGGCCTCAAGCTGATCGAACTGACGCCGAAGTGGGAGGACACCCTGTCCCACGGCTGGTTCATCGTGCTCGCCCTGCAGGTCGCGCTCTGGGTGGATACCGGTGTGCGTCTGTGGACACAGAACCTGCTGTTCTCCAGCGACAGCCCGCGCAACCCGGTGACCACCACGCTCATCTCGATCCTGGCGCGGATTCTCATCTGGTCGGTGATGCTGCTGTCGATCCTGGCCAATCTCGGCGTCAACATCACCGCGTTGGTGGCCAGCCTGGGGGTTGGCGGTATCGCCGTCGCGCTGGCCGTGCAGACCCTGCTCAGCGACATGTTCGCCTCGCTGTCGATCGGCGTGGACAAGCCCTTCGAGATCGGCGATTTCGTGGTATTCGGCTCGGTGGCCGGCTCCATCGAGCACATCGGCCTGAAAACCACCCGCATCCGCAGCCTCAGCGGCGAACAGATCGTCTGCGCCAACTCCGAGCTGCTCAAGCAGACCCTGCACAACTACAAGCGCATGGAGCAGCGGCGGATCGTCTTCAAGTTCGGCATCACCTACGACACCCCGGCGGACAAGGTGCGCGAAGTGGCGGCGCTGGTCGCCCGGGTGATCAAGGCGATCCCCGATACCCGTTTCGACCGCGCCCACTTCCAGTCCTTCGGCGATTACCAGCTCACCTTCGAAGTGGTCTATTACGTGCTGAGTTCCGACTACAACAAGTACATGGATATCCAGCAGGAAATAAACCTCGGCCTGCTGCAAGGCCTGAAGGAACTCGAGGTGAAATTCGCCTTCCCGACCCGCAGCCTGGAATTCGTCGGCGGCCAGTTCCCGGACATCAAGGTGGCGGGCCTGCAGGCGGAAAACCCGCCGGCCAGCAGCGGCGAAACACGCCAGGAGAAAGGCCCGCGGCGGATGCCTTGA	MQQWDFWLNQLFWLNTAIVLTVTLVSYLILRSLIGVLSKRLATWAAGRQNKFYGFAVEMLRRTSRFLLFAFSLLLGLKLIELTPKWEDTLSHGWFIVLALQVALWVDTGVRLWTQNLLFSSDSPRNPVTTTLISILARILIWSVMLLSILANLGVNITALVASLGVGGIAVALAVQTLLSDMFASLSIGVDKPFEIGDFVVFGSVAGSIEHIGLKTTRIRSLSGEQIVCANSELLKQTLHNYKRMEQRRIVFKFGITYDTPADKVREVAALVARVIKAIPDTRFDRAHFQSFGDYQLTFEVVYYVLSSDYNKYMDIQQEINLGLLQGLKELEVKFAFPTRSLEFVGGQFPDIKVAGLQAENPPASSGETRQEKGPRRMP				NA	NA	NA	NA	NA
BMS010_03387	798		COG1305	putative protein	ATGAGACTTTCCATTCGCCACGACACCACCTATCACTACGACGATCAGGTTCGCGCGAGCATCCAGTACCTGCGCCTCACGCCCCAGGAGAGCGAGCGCCAGCACGTGATCAGTTGGCAGCTCGACCTGCCGCGCCCGGCCCGGGCGCAACGCGACCCCTATGGCAACATCCTTCACGTGCTGACCCTCGACGAACCGCATGAGTCCATCGTCATCGGCGCCCGGGGCCAGGTGGATATCGACGAGCACCAGGAAGCCGAGCACGACCGGCAGTCGGCACTGCCGTTCCTGCGCTTCACCCGCCTGACCCAGCCGGACGAGGCGCTGCGCGAGTTCGCCGCCAGCCAATGCAAGGAGCGCCGCGACCGCAGCGCGCTCACCGACCTGATGCAGGCGCTCAATGCGCGGATCACCTACCAGCCGGGCACCACCCAGGTGGAAAGCACGGCGGCGGAGGCTTTCGCCGGCGGTGTCGGCGTCTGCCAGGACCACGCCCACGCCTTCCTCGCCTGCGTGCGCAGCCTCGGCGTGCCGGCACGCTACGTATCCGGTTATCTCTACACCGAAAGCAGCACGCACCTGTCCAGCCATGCCTGGGCCGAGGCCTGGCTTGGCGACGCCTGGTACAGCTTCGACGTGACCAACTGCCTGACCCGGCCGGAGCGCCATCTCAAGTTGGCGGTGGGGCTGGATTACCTCGATGCCTGTCCGGTACGCGGCATGCGCCGGGGCGGCGGGGGCGAGCAGATGCACGCCCGGGTGCTGGTATCGCCGCTGATGCAGGTGCAGCAGCAGTAG	MRLSIRHDTTYHYDDQVRASIQYLRLTPQESERQHVISWQLDLPRPARAQRDPYGNILHVLTLDEPHESIVIGARGQVDIDEHQEAEHDRQSALPFLRFTRLTQPDEALREFAASQCKERRDRSALTDLMQALNARITYQPGTTQVESTAAEAFAGGVGVCQDHAHAFLACVRSLGVPARYVSGYLYTESSTHLSSHAWAEAWLGDAWYSFDVTNCLTRPERHLKLAVGLDYLDACPVRGMRRGGGGEQMHARVLVSPLMQVQQQ				NA	NA	NA	NA	NA
BMS010_03388	951			hypothetical protein	ATGCTCAGTAGAACTGCCTCCGACCTGTACTGGATGTCGCGTTACCTGGAGCGTGCCGAGAACCTGGCGCGCATGCTCGACGTCAGCTATTCGCTGTCGCTGATGCCGCAGGACGGCCGTGGCGATGGCCTCGACGAACTGGCCATGCCGTTGCTGATCACCGGCACCCTGGACGACTACCTGAACCGCCATGGCGAGCTGCATGCCGAGCGCATGCTGAATTTCTTCGCCCTGGACGCCGACAACCCGGCGAGCATCTACAGCTGCCTGGCCGCTGCGCGCAGCAACGCCCATGCGGTGCGCGGGCGGATCACCGCGGACATGTGGGAGAACATCAACGCCAGTTGGCTGGAAATGCGCGGCATTGCCGAGCAGGGCCTCGGCCGTTACGGCATCAGCCGCTTCTGCGAGTGGGTGAAGGAGCGCTCGCATCTGTTCCGCGGGGCCACCTTCGGCACCATCATGCGCGGCGAGGCGTACCGCTTCATCCGCCTCGGCACCTTCATCGAGCGGGCCGACAACACCCTGCGCCTGCTCGATGCCCGCTACGAAATGCTCGGCGAGGAAGCCGATGCGGTCAGCGATACCTCGGCCCGCGGCTATTACCAGTGGAGTGCCTTGCTCCGCGCGCTGTCCTCGTTCGAGGCGTTCACCGAGATCTACCGGGGCTCGCCGCGCACCCGCAAGGTCACCGAACTGCTGTTGCTGCGTCCGGACGTACCGCGCTCGCTGCGTGCCTGCGTGGACGAACTGAACCTGATGCTTGGCGGGTTGCCCGGCGACAACGGCCGCCCGGCGCAGCGCCTGGCCGCCGAGCTGGAGGCCCGCCTGCGCTACACCGGCATCGACGAAGTCCTCGGCGAGGGCCTGCATACCTGGCTCACCGATTTCATCCTGCTGGTCCGCCAGCTTGCCAGCGCCATTCACAGCTCCTACCTGGAGGCCGCATGA	MLSRTASDLYWMSRYLERAENLARMLDVSYSLSLMPQDGRGDGLDELAMPLLITGTLDDYLNRHGELHAERMLNFFALDADNPASIYSCLAAARSNAHAVRGRITADMWENINASWLEMRGIAEQGLGRYGISRFCEWVKERSHLFRGATFGTIMRGEAYRFIRLGTFIERADNTLRLLDARYEMLGEEADAVSDTSARGYYQWSALLRALSSFEAFTEIYRGSPRTRKVTELLLLRPDVPRSLRACVDELNLMLGGLPGDNGRPAQRLAAELEARLRYTGIDEVLGEGLHTWLTDFILLVRQLASAIHSSYLEAA				NA	NA	NA	NA	NA
BMS010_03389	1410		COG2308	putative protein	ATGGCCCGCGTCTTTTATGACGAGATGTACGATGCGAACGGCCACTGCCGGCCACACTACCAGGAGTTCGCCCGCTGGTTGGCGGACACCCCGCCGGAACTGCTGGCCCAGCGAAGGCGCGAAGCCGACCTGCTGTTCCACCGCGCCGGCATCACCTTCACCCTCTACGGGGACGAGCAGGGCACCGAGCGCCTGATCCCCTTCGACACCATCCCCCGCAGCATCCCGGCCAGTGAATGGCGCGTCGTCGAGCGCGGCTGCATCCAGCGCGTCAAGGCGCTGAACATGTTCCTCGCCGATCTCTACCACGGCCAACGCATCCTCAAGGCCGGCATCATCCCGCCGGAGCAGGTGCTGGCCAACGACCAGTACCAACTGGCCATGCAGGGCCTGGACCTGCACCGCGACATCTACTCGCACATCTCCGGTGTCGACCTGGTACGCGACGGCGACGGCACCTACTACGTGCTGGAGGACAACCTGCGCACGCCGAGCGGCGTCAGCTATATGCTGGAAGACCGCAAGATGATGATGCGGCTGTTCCCCGAGCTGTTCGCGGTGCAGCGCATCGCGCCGATCGATCACTACCCGAACCTGCTGCTCGATACCCTCAGAAGCTCCAGCCCGCTGGACAACCCCAGCGTGGTGGTGCTGACCCCGGGTCGCTTCAACAGCGCCTATTTCGAGCACGCCTTCCTGGCCCGGGAAATGGGCGTGGAGCTGGTGGAAGGTGCCGATCTGTTCGTCCGCGACGACCGTGTCTACATGCGCACCACGGCGGGGCCGCGCCAGGTGGATGTGATCTACCGGCGCCTGGACGATGCCTTCCTCGACCCGCTGGCCTTCAATCCGGACTCCATGCTCGGCGTGCCCGGCCTGCTGGCGGCGTACCGTTCCGGCAACGTGGTGCTGGCCAACGCCATCGGTACCGGCGTGGCGGACGACAAGTCGGTCTATCCCTTCGTCACCGACATGGTGCGCTTCTACCTGGACGAAGAGCCGATCCTGAAGAACGTGCCGACCTGGCAATGCCGTAAGCCGGAGGAGCTATCCCACGTGCTGGCCAACCTGTCGGAGCTGGTGGTCAAGGAGACCCAGGGCTCGGGCGGCTACGGCATGCTGGTCGGCCCGGCTGCCAGCGCGGCGGAGATCGAAGCCTTCCGCACCCGGCTGAAGGCGCGCCCGGAGGCCTACATCGCCCAGCCGACACTGTGTCTCTCGACCTGTCCGACCTTTGTCGAGACCGGTATCGCCCCGCGCCACATCGACCTGCGTCCCTTCGTGCTGTCCGGCCGCGAGACCCGGTTGGTGCCCGGCGGGCTGACCCGTGTGGCGCTGCGCGAGGGCTCCCTGGTGGTCAACTCCTCCCAGGGCGGCGGCACCAAGGACACCTGGATCGTAGAAGACTGA	MARVFYDEMYDANGHCRPHYQEFARWLADTPPELLAQRRREADLLFHRAGITFTLYGDEQGTERLIPFDTIPRSIPASEWRVVERGCIQRVKALNMFLADLYHGQRILKAGIIPPEQVLANDQYQLAMQGLDLHRDIYSHISGVDLVRDGDGTYYVLEDNLRTPSGVSYMLEDRKMMMRLFPELFAVQRIAPIDHYPNLLLDTLRSSSPLDNPSVVVLTPGRFNSAYFEHAFLAREMGVELVEGADLFVRDDRVYMRTTAGPRQVDVIYRRLDDAFLDPLAFNPDSMLGVPGLLAAYRSGNVVLANAIGTGVADDKSVYPFVTDMVRFYLDEEPILKNVPTWQCRKPEELSHVLANLSELVVKETQGSGGYGMLVGPAASAAEIEAFRTRLKARPEAYIAQPTLCLSTCPTFVETGIAPRHIDLRPFVLSGRETRLVPGGLTRVALREGSLVVNSSQGGGTKDTWIVED	PGPT0026300_31	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026300-gshA|ybdK-K06048	NA	NA
BMS010_03390	711			hypothetical protein	ATGACCGATATTCTGATTGTCACGCATGTCGATTATTGTCCGCCGGGGCATCTGGCCCGTGTGCTGGATGTGCAGCAGCGAGCGTTCACCGTGGTGCGCGCCGACCTGGGGGAACTGGAGGCGGTCGACCTCGACCGGCCCAAGGCCGTGGCGGTGATGGGCGGACCGATGAGCGTCAACGATCCGTTGCCTTGGATCGGGGCAGAAATCGCCGCGCTGCGGCACTTCATCCGGCGCGATATTCCCGTGATCGGCCATTGCCTCGGCGGCCAGCTCCTGGCCAAGGCGCTGGGCGCTTCGGTGCACCGCATGCCCTACACCGAGATCGGCTGGCAGTCCCTGAGCCGACGCGACCTGCCCGAGCGGAGCCCCTGGCTCGCCCACGCTCCGGAAGAGTTCCCGGTCTTCCAGTGGCACAGCGAGACCTTCGGCTTGCCGGAGGGCGCCCGCTGGCTGCTGTCCAGCCCCTGGTGCCCGAACCAGGGCTTCTCCTGGGGCGACAAGGTACTGGCGCTGCAAGGGCACCCGGAGCTGGACGAGGAGCTGGTGCGTCTCTGGACCACCGACTGGGCCCACCTGCTCGACGAAACCCAACCCAGCCAGCAGGGCCGGCCCTACATGCTGCAGGACCTGGAAAGCCGGGTGGCGGCGCAGTTACGGGTTGCCGAGGGCATCTACCGGCACTGGCTGGGGTTGGCGTTCGGTGGCTGA	MTDILIVTHVDYCPPGHLARVLDVQQRAFTVVRADLGELEAVDLDRPKAVAVMGGPMSVNDPLPWIGAEIAALRHFIRRDIPVIGHCLGGQLLAKALGASVHRMPYTEIGWQSLSRRDLPERSPWLAHAPEEFPVFQWHSETFGLPEGARWLLSSPWCPNQGFSWGDKVLALQGHPELDEELVRLWTTDWAHLLDETQPSQQGRPYMLQDLESRVAAQLRVAEGIYRHWLGLAFGG	PGPT0021580_7339	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021580-guaA-K01951	NA	NA
BMS010_03391	342			hypothetical protein	ATGAGTACAGCCTTCCACGATGATGTCAGCAGCAATGTTCTGCGCCGCATGAAAGAAGGTGGTTTCGACTTCGCCCGTGTCCACCCCATTGAGTTCTATGCCATCTTCCCCGACGAGGACCGGGCCCGGATGGCGGCGAAGAATTTTCGTGGGGAGTCGTTGAACGCCCAGGTGAGCGCCCGGGAGGACGGCGCCTGGCACCTTCAGGTCAGTAAAGTGATGTATGCCACCCACGCCGGGATCGATGACTTCGAGCAGGACCTCGAGTCGGTCGTCGCGCCGCTTGGCGGCGTGCTGGACGGTTGGGGCGTGACTCAGGAAATCCTGATGCCGCGAACCTGA	MSTAFHDDVSSNVLRRMKEGGFDFARVHPIEFYAIFPDEDRARMAAKNFRGESLNAQVSAREDGAWHLQVSKVMYATHAGIDDFEQDLESVVAPLGGVLDGWGVTQEILMPRT				NA	NA	NA	NA	NA
BMS010_03392	1134			hypothetical protein	ATGCCCCGCTCCGTCGACCTGTGGATCGCAACCCGCAAGGGCCTCTGGAAACTCGCCGGCGACGCCGGACGACAACGCTGGAGCCTGTCCGGCCCGCATTTCCTCGGCCATATCGTCCACCATGCCATCGCCGACCCACGCAGACCCGGCGTGGTGCTGGCCGCGGCCCGCACCGGCCACCTCGGGCCGACGGTGTTCCGCTCCGCCGACGGCGGCCAGACCTGGCAGGAAGCCGAGGCGCCGCCCGCATTTCCCAGCGAGCCGAACGGCCGGGTGCTCGACCATGTGTTCTGGCTCACCCCCGGCCATTCGTCGGAACCCGATGTCTGGTATGCCGGCAGCGTGCCTCAGGGCCTGTTCCGCAGCGACGACGGCGGGCGCACCTGGCACGGCGTGGAAGGCTTCAACCAGCACCCGCGCTACCGCGATTGGGCCGGCGATCCGGCGGAAGGCCCACCGGGCGGCGCCAAGTTGCATTCGGTCCTGGTCGATCCCCGCGATGCGGCTCACCTCTATATCAGCATGTCCAGCGGCGGCACCTTCGAATCCCGCGACCGCGGCGCCTCCTGGCAACCGCTCAACCGCGGGGTACGCGCCGACTTCCTGCCCGAGCCGCCACCCGGCAGCTACCACGAGTACGGCCACGATCCGCACTGCGTCCAGCTCCATCCACTGGCGCCGGACCGGCTCTACCAGCAGAACCATTGCGGCATCTTCCGCCTCGACCGCCCGGGCGATACCTGGACCGACATCGGCGCCAACCTGCCGACGCCGGACAGCGTGCGCCATGACATCGGCTTCCCGGTCACCCTGCACCCCCGCGATCCCGACACCCTCTGGGTCTTTCCGATGGATGCCACCGACGTCTGGCCGCGGGTATCGCCCCAGGGACGACCGTCGGTCTACCGTTCGCGGGATGGAGGAACGTCCTGGCAGCGGCTGGACAGCGGCCTGCCTGCGGAACAGGCCTGGTTCACCGTCAAGCGCCAGGCCATGAGCGCCGACAGCCACGACCCGGTCGGCGTCTATTTCGGCACCACCAGCGGCGAGGTCTGGGGCAGCACGGACGAAGGCGAAAGCTGGACCTGCCTGGCCCGCTACCTGCCGGAAATCTACGGCGTCGAGGTGAGCTGA	MPRSVDLWIATRKGLWKLAGDAGRQRWSLSGPHFLGHIVHHAIADPRRPGVVLAAARTGHLGPTVFRSADGGQTWQEAEAPPAFPSEPNGRVLDHVFWLTPGHSSEPDVWYAGSVPQGLFRSDDGGRTWHGVEGFNQHPRYRDWAGDPAEGPPGGAKLHSVLVDPRDAAHLYISMSSGGTFESRDRGASWQPLNRGVRADFLPEPPPGSYHEYGHDPHCVQLHPLAPDRLYQQNHCGIFRLDRPGDTWTDIGANLPTPDSVRHDIGFPVTLHPRDPDTLWVFPMDATDVWPRVSPQGRPSVYRSRDGGTSWQRLDSGLPAEQAWFTVKRQAMSADSHDPVGVYFGTTSGEVWGSTDEGESWTCLARYLPEIYGVEVS				NA	NA	NA	NA	NA
BMS010_03393	264			hypothetical protein	ATGCGCGTCCTGCTACCCACCCACGTGCAGAGCTATACCGGCGGGACCGCCGAGCTGGATCTGCCCGACGCCCCGACCCTGGCCGCGCTGTTCGCCGAACTGGACGCCCGCTACCCCGGCCTGCGTTTTCGTGTGATCGACGAACAGGGTGCCATGCGCCCGCACTTCAAGGCATTCGTCAACGGCGAGATCGAGCGCGACATGCAAGCCGCGCTGCCGGCCGGCGCAGAAGTCATGCTGGTTGCCGCGCTGTCCGGCGGCTGA	MRVLLPTHVQSYTGGTAELDLPDAPTLAALFAELDARYPGLRFRVIDEQGAMRPHFKAFVNGEIERDMQAALPAGAEVMLVAALSGG				NA	NA	NA	NA	NA
BMS010_03394	2076	mdoB		Phosphoglycerol transferase I	ATGGCCCAGACGGACGCCACCGCTCATTCGCCCGCCCACCCTGGCCTGCGCAGCCACCTCGGCTTCATCCTGCTGAGTGCCACCGCCTTGCTGCTGCTGTACAGCCTGTTGCGCGGCATCCTGCTGATCTATAACCGCGAGCTGATCGGCGAGACGCCGGTCGCCACCTTCGTCGAGGCGTTCTTCACCGGGATGCGCTTCGACCTGCGGGTGGTGGTATTCGCCTGCGTACCGCTGCTGCTGTCGATCCTCAGCGCCCGCGCCATGGCCGCGCGGCAGTTGCACCGCGTGTGGCTGACGGCATTCGCCAGCCTGACCTTCTTCCTCGGCCTGCTGGAGCTGGACTTCTACCGGGAGTTCCATCAGCGCTTGAACAGCCTGGTGTTCCAGTACATCCAAGAAGATCCGAAGACCGTCCTCAGCATGCTCTGGTACGGCTTCCCGGTACTGCGCTATCTGCTCGCCTGGGCGTTGGTCACTTGGATGCTGGCCAACCTGTTCAAGGCCCTCGACAACATGAGCCGGCCCGACCCGCTGGTGACCCGCAAGGCCGCCGCGGCGAAGTCGGTCGCCTGGTACTGGCGCGTCGCGGTGTTTTTCCTCTGCCTGGTGGTGGCCGTCGCCGCCGCTCGCGGGACGCTGCGCCAGGGTGCGCCGCTGCGTTGGGGCGATGCCTTCACCACCGATTCGATGTTCGCCAACCAGTTGGCGCTGAACGGCACCCTGAGCCTGTACAGCGCGGCGAAAAGCCGTTTTTCCGAAGAACGCGACAACATCTGGAAGGCGACCCAGCCACCGGCGGAGGCGCGCCAGACCACCCGCGACCTGTTGCTGGTCCCGGACGACCGCCTGGTGGATGCCGACACCGCCGCCGTGCGTCGCGACTACAACCCGCCGGAGGCCGGCACCCTGCCAATCCGCAACGTGGTGGTGATCCTCATGGAAAGCTTCGCCGGCCACTACGTCGGCGCGTTGGGCAGCCGCGACGGCATCACCCCGTACTTCGACAGCCTGGCGAAGGAGGGCACGCTGTTCACCCGCTACTTCTCCAACGGCACCCACACCCACCAGGGTATGTTCGCCACCATGGCCTGCTTTCCCAACCTGCCGGGCTTCGAATACCTGATGCAGAGCCCCGAAGGCACCCACAAATTCTCCGGGCTGCCGCAGTTGCTCAGCGCGCGGAAGTACAACGACCTCTACGTCTACAACGGCGATTTCGCCTGGGACAACCAGGCCGGCTTCTTCGGCAACCAGGGCATGACCACCTTCATCGGCCGTAACGACTACGTGAATCCGGTGTTCGCCGACCCCACCTGGGGCGTGTCCGACCAGGACATGTTCGATCGTGCCGCCGAGGAACTGGCGCAGAAGGATCGCAACAAGCCTTTCTATGCCTTGCTGCAGACGCTCTCCAATCACACGCCCTACGCATTGCCGGACAAGCTGCCGGTGGAGCCGGTCACCGGCCACGGTTCGCTGGACCAGCACCTGACCGCGATGCGTTACTCCGACTGGGCCCTGGGCCAGTTCTTCGAGAAGGCGCGCAAGGCGCCGTACTTCAAGGACACCCTGTTCGTGATCGTCGGCGACCATGGTTTCGGCAGTACCGAGCAACTCACCGAAATGGACCTGTACCGCTTCCACGTCCCGCTGCTGCTGATCGGGCCGGGGGTCCAGGACAAATTCGGCGACCGCCGCGACATCGTCGGCACCCAGGTGGACATCGTGCCCACCATCATGGGCCGTCTGGGTGGGGAGGTGCGTCACCAGTGCTGGGGCCGCGACCTGCTCAACCTGCCGGCCGACGACAAAGGCTTCGGTGTGATCAAGCCGTCCGGCAGCGACCAGACCGTGGCCTTCATCGACGATTCGCGCATCCTCGTGCAGCCGAAGGACATGCCGGCGCGCTACTACGAATACCAGTTGGGTGCGGACTCCAAGAGCCGGCGCATCGACGGCACGCCGGAGGCCGCCGCGCTGAAGAAGAGCCTCGAGGCCTTCTTGCAGACGGCGACCCAGAGCCTGCTCGACAACACCGCCGGGGTGGTGGACGGCAAGCCCGACAAGGATTGA	MAQTDATAHSPAHPGLRSHLGFILLSATALLLLYSLLRGILLIYNRELIGETPVATFVEAFFTGMRFDLRVVVFACVPLLLSILSARAMAARQLHRVWLTAFASLTFFLGLLELDFYREFHQRLNSLVFQYIQEDPKTVLSMLWYGFPVLRYLLAWALVTWMLANLFKALDNMSRPDPLVTRKAAAAKSVAWYWRVAVFFLCLVVAVAAARGTLRQGAPLRWGDAFTTDSMFANQLALNGTLSLYSAAKSRFSEERDNIWKATQPPAEARQTTRDLLLVPDDRLVDADTAAVRRDYNPPEAGTLPIRNVVVILMESFAGHYVGALGSRDGITPYFDSLAKEGTLFTRYFSNGTHTHQGMFATMACFPNLPGFEYLMQSPEGTHKFSGLPQLLSARKYNDLYVYNGDFAWDNQAGFFGNQGMTTFIGRNDYVNPVFADPTWGVSDQDMFDRAAEELAQKDRNKPFYALLQTLSNHTPYALPDKLPVEPVTGHGSLDQHLTAMRYSDWALGQFFEKARKAPYFKDTLFVIVGDHGFGSTEQLTEMDLYRFHVPLLLIGPGVQDKFGDRRDIVGTQVDIVPTIMGRLGGEVRHQCWGRDLLNLPADDKGFGVIKPSGSDQTVAFIDDSRILVQPKDMPARYYEYQLGADSKSRRIDGTPEAAALKKSLEAFLQTATQSLLDNTAGVVDGKPDKD				NA	NA	NA	NA	NA
BMS010_03395	864			hypothetical protein	ATGTCGTCACCGCAACGAACACGCATCCTCCTCCTGTTGCTCCTGCCGGTCCTCGGCCTGGCGCTGGGGTTGGGCGTGCTTGCCTGGCGCCACTTCTATCCGGTGACCTTGGCGGCCGGCTGGAGCCTGCACGTTCTGCACGACGGCCTGGAGAAGGTCAGCGCGCTGGTCGAAGACGATGAAGGCGGGTTGTTCGTCAGCCAGGAACTGCAGGATGGCAAGGGGCGCATCCTGCGGCTCCACGCCGACGGCTCGGTCGCCCATGTACTGAACGGATTGTCCAAGCCGGACGGCCTGGTGCGCTACCGCGGCGGTCTGGCGATCACCCAGGAGGGCGGCCGGCTGCCGCTGTTCTGGCTGAAAGGGGACCGCCTGACCGCGCTGTTCAACGGCGAGAATTTCGAAGGGGTCGCCAGCGACGGGAACTATCTCTATGCCATTGAGGACAAACCCAGCGGCCGCCTGTTGCGCTACGACCCGGACACGGACGAAACCACCGTCCTGCGCGATGGCCTGGTGGAAGGCGAGGGCGTCTCCATCTGCCCGGACGGGCGCGTGCTGTACGTCGAAAAGGGCAAGGGCCGGGTGCGCGAATGGCGGTCCGAGGGCAACGACCGGACCCTGGTCGAGGGCCTGAATCAGCCGGGCTTCCTGCTGTGCAGCGCCAGTGGCGTCTGGATCAGCGAAGACGCCACGCACATGGCGCGCCTGCTCTGGCTCGATACCGACGGGCAACTGCAGGTAGTGGCCGATCATCTGCGTTCCGCCCAGACCCTTCTCGAAGTCGCCCCTGGCCGGTTCCTGCTGGCGGAGCAGGGCCGCAACCGCATTCTCGAAATCCAACGGACTCCCCAGGAAATCTGA	MSSPQRTRILLLLLLPVLGLALGLGVLAWRHFYPVTLAAGWSLHVLHDGLEKVSALVEDDEGGLFVSQELQDGKGRILRLHADGSVAHVLNGLSKPDGLVRYRGGLAITQEGGRLPLFWLKGDRLTALFNGENFEGVASDGNYLYAIEDKPSGRLLRYDPDTDETTVLRDGLVEGEGVSICPDGRVLYVEKGKGRVREWRSEGNDRTLVEGLNQPGFLLCSASGVWISEDATHMARLLWLDTDGQLQVVADHLRSAQTLLEVAPGRFLLAEQGRNRILEIQRTPQEI				NA	NA	NA	NA	NA
BMS010_03396	861	speE_1	COG0421	Polyamine aminopropyltransferase	ATGAGCGACTATCTGGAAACCCTCTACGAAGGCTACGGCCAGCGTTTCAGCATGGACAAGCTGTTGCACGAGGTGCGCACCGAACACCAGCACCTGGTGATTTTCGAGAATGCCCGGATGGGCCGGGTCATGGCCTTGGACGGAGTGATCCAGACCACCGAGGCCGACGAGTTCATCTACCACGAGATGCTCACCCATGTGCCGATCCTCGCCCATGGCCTGGCCAAGCGGGTGTTGATCATCGGCGGCGGCGACGGCGGCATGCTGCGCGAGGTGAGCAAGCACCGCAGCGTCGAGAGCATCACCATGGTGGAAATCGACGGCACCGTGGTGGACATGTGCAAGGAGTTCCTGCCGGGCCATTCCAAGGGCGCCTTCGACGATCCGCGCCTGAACCTGGTGATCGACGACGGCATGCGCTTCGTCGCCACCACCGAGGAGAAGTTCGACGTGATCATCTCCGACTCCACCGATCCCATCGGCCCTGGCGAAGTGCTGTTTTCCGAAAACTTCTACCAGGCCTGCCGGCGTTGCCTGAACGAAGGCGGCATCCTGGTCACGCAGAACGGCACGCCGTTCATGCAGTTGTCGGAAGTGCAGACCACTGCAAGCCGCATGAACGGCCTGTTCGCCGACTGGCACTTCTACCAGGCCGCGGTGCCTACCTACATCGGCGGTGCCATGACCTTCGCCTGGGGCGCCACCGACGCTTCTTACCGCAAGCTGTCGCTGGAAACCCTGCGCCAGCGTTTCGCCGGCAGCGGCATCGTCACCCGCTACTACAACCCGGACGTCCATCTGGGCGCCTTCGCCCTGCCGCAGTACGTGTTGCAAGCCATCGGCAAGCCGAGTAACGACTGA	MSDYLETLYEGYGQRFSMDKLLHEVRTEHQHLVIFENARMGRVMALDGVIQTTEADEFIYHEMLTHVPILAHGLAKRVLIIGGGDGGMLREVSKHRSVESITMVEIDGTVVDMCKEFLPGHSKGAFDDPRLNLVIDDGMRFVATTEEKFDVIISDSTDPIGPGEVLFSENFYQACRRCLNEGGILVTQNGTPFMQLSEVQTTASRMNGLFADWHFYQAAVPTYIGGAMTFAWGATDASYRKLSLETLRQRFAGSGIVTRYYNPDVHLGAFALPQYVLQAIGKPSND	PGPT0007750_2581	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007750-speE|SRM|SPEC_3|SPSD-K00797	NA	NA
BMS010_03397	903	alkA	COG0122	putative bifunctional transcriptional activator/DNA repair enzyme AlkA	ATGAACGACCTCGCGCCCCTCCCCGTCCAGCCGCGTTGCTGGCACCTGCCGTACCGACAGCCCTGGGACTGGAAGCAGTTCCACCAGCATTTCCAGCTCCGCCTGCTGCCCGGCATCGAGCGGCTGACCGCGGATGGCTACAGCCGCAGCGTACGTCTGGGCGACGTGCGCGGCTGGCTGCGGGTGCGTCCGCTGGCCGAACGCCCGGTGCTGGAGCTGACCCTCAGCCCGTCGCTGTCCGGCCTGGAGCAGCCGCTGATTGCGCGGGTACGGCGGATGTTCGACCTGGATGCCGACCCCGCGGCAATCGGCGCGCACCTGGGCCAGGACCCGCTGCTGGCGAGCCTGATCGCCCGCTACCCGGGCCTGCGGCTGCCCACGGCCTTCGATCCGTTCGAGCAGGCGGTGCGCGCCATCGTCGGTCAGCAAGTTGCGGTGAAAGCCGCGATCACCATCGTCGGCCGGCTGGTCGGCCGGCTCGGCGAGCCCCTGGATGATGTGGAAGAGGACGGACCGCAGCGGCTGTTCCCCACCCCCGATGCCATCGCCGACGATCCGCTGGAAGGCATCGGTATGCCGGGCAAGCGGGTGGAAACCTTGCGCCGCCTGGCGCGGGCGGTACGCGACGGGGAACTCGCCCTGCACGTGAACGACGGTGCCGCTGCGCTGGTCGAACGGCTCTGTGCCCTGCCCGGCATCGGCCCCTGGACGGCCGAATACATTGCCCTGCGCGCCTTCGGCGAAACGGATGCCTTCCCCGCCTCCGACCTCGGCCTGCTCAAGGCGCCGGTATGGGGGCTCGGCGGCACCGACGCCCGCACCCTCGCGGCCCGCTCACAGGCGTGGCGCCCCTGGCGCGCCTACGCCGCCGTTTATCTCTGGCAAAGCTACGCGGAGACCTGA	MNDLAPLPVQPRCWHLPYRQPWDWKQFHQHFQLRLLPGIERLTADGYSRSVRLGDVRGWLRVRPLAERPVLELTLSPSLSGLEQPLIARVRRMFDLDADPAAIGAHLGQDPLLASLIARYPGLRLPTAFDPFEQAVRAIVGQQVAVKAAITIVGRLVGRLGEPLDDVEEDGPQRLFPTPDAIADDPLEGIGMPGKRVETLRRLARAVRDGELALHVNDGAAALVERLCALPGIGPWTAEYIALRAFGETDAFPASDLGLLKAPVWGLGGTDARTLAARSQAWRPWRAYAAVYLWQSYAET				NA	NA	NA	NA	NA
BMS010_03398	492	ogt_1	COG0350	Methylated-DNA--protein-cysteine methyltransferase	ATGTATTACCGCTACCACGACAGCCCCATCGGCCAACTGCTGCTGGCCGCCGACGACGCCGGCTTGCGCCGCCTGCACATGGACGCCCACAGCCCTTGGGAACTGAGCGACGACTGGCAACCGGCCAGCGACCAGTTGGACGAGGTCTGCCGCCAGCTCGACGAGTATTTCGCCGGCCGCCGGCGGCGCTTCGAGCTGCGCCTGGCCCCGGCCGGCACCGAATTCCAACGGGCCGTCTGGACCGCCCTGCTGGACATCCCCTTCGGCCGCACCAGCAGCTATGCCGAACTGGCCCGCTGCATCGGCCGGCCGAAAGCCGTGCGCGCCGTCGGTGCCGCCAACGGCGCCAACCCCATCGCAGTGATCATTCCCTGCCACCGGGTGATCGGCAGCAACGGCAGCCTGACCGGCTTCGGCGGCGGCCTGCCGCGCAAGGCGCAATTGTTGCGGTTGGAAGGGGCGGCGCTGCCGGAACAGGCGATGTTGATTTAA	MYYRYHDSPIGQLLLAADDAGLRRLHMDAHSPWELSDDWQPASDQLDEVCRQLDEYFAGRRRRFELRLAPAGTEFQRAVWTALLDIPFGRTSSYAELARCIGRPKAVRAVGAANGANPIAVIIPCHRVIGSNGSLTGFGGGLPRKAQLLRLEGAALPEQAMLI				NA	NA	NA	NA	NA
BMS010_03399	561			hypothetical protein	ATGCACCGTACCTTCGTTCTTTTCCTCGCCCTCTGGCTCGCGCCGGCCTGGCTCCCGGCTGCTGAGGCCGATGCCTGGGCGGCGCTCAGGGAGGGGCGGGCGCTGCTCATCTTGCGCCACGCTACCGCTCCGGGGGTGAGCGACCCGCCGAACTTTCGTGTCGACGACTGCAGCACCCAGCGCAACCTCGACGAACAGGGGCGCCGCGAGGCGCAGCGCTGGGGCGTGTTGTTGCGCAGTCAGTGGGTCGAGCGGCCGCGTCTCTACAGCAGCCGCTGGTGCCGGGCGCTGGAGACCGCGCGGGAAATGGGTCTCGGAGCGGTGGAACCGCTGCCGTTGCTGGATTCGCTGTTTGCCGAGCGCGAGCACCGTGTTGAGCGCACGCTGGAACTGCGTCGGGCGATCAATGGCCTGCCGCGTGGGGAGCCGCTGGTGTTGATCACCCATCAGGTCAATATCACCACGCTGACCGGGGAGTACCCGCGTTCAGGCGAAGGGCTCATCCTGGCATTGCCGTTGGAGGCGGACGTCCGCGTGCTGGCGCGTATCCCTCCGCCTTAA	MHRTFVLFLALWLAPAWLPAAEADAWAALREGRALLILRHATAPGVSDPPNFRVDDCSTQRNLDEQGRREAQRWGVLLRSQWVERPRLYSSRWCRALETAREMGLGAVEPLPLLDSLFAEREHRVERTLELRRAINGLPRGEPLVLITHQVNITTLTGEYPRSGEGLILALPLEADVRVLARIPPP				NA	NA	NA	NA	NA
BMS010_03400	213			hypothetical protein	GTGTTCGACGAGGGAGGCGGGAGCGGGCTGCTGTTCTACGGTGCGATCGGCCTGCTCCTGCTGGCGCTGCATCTCTGGGCTATCGTTCAGGTGGTCCGGAGCCGCTCCAGTCCGGGCATGAAGGCCCTGTGGATCGCCTTGCTGGTGCTCTTCCCGCTGCTCGGGGTGTTCAACTGGTTCGTGATGGGGCCGCGGGCCGAATCATCGACATGA	MFDEGGGSGLLFYGAIGLLLLALHLWAIVQVVRSRSSPGMKALWIALLVLFPLLGVFNWFVMGPRAESST				NA	NA	NA	NA	NA
BMS010_03401	198			hypothetical protein	ATGGATGCATTCGGTGGCCTGATTGGCCTGATCATCTTCGCCCTGGACGTCTGGGCAGTCATCAACGTGGTGCGCAGCAGCACCGACACCGGCAAGAAGGTGCTCTGGGTGCTGTTCATCGTCATTCTGCCGGTCGTCGGCCTGATCGTCTGGGCCCTGATGGGGCCGAGGTCGGTACAACCGGACCGACTGCCCTGA	MDAFGGLIGLIIFALDVWAVINVVRSSTDTGKKVLWVLFIVILPVVGLIVWALMGPRSVQPDRLP				NA	NA	NA	NA	NA
BMS010_03402	684	mtnC		Enolase-phosphatase E1	ATGCCGATCAAAGCCATTCTCACCGACATCGAAGGCACCACCAGCGCCGTCAGCTTCGTCTTCGACGTGCTCTTTCCCTATGCCGCTCGCCATTTGCCGGACTTCGTCCGCCAGCACGCCACGGACCCGGCCGTGGCCGCGCAGCTGGACGCGACCCGTGCCGAGGCCGGCGAGCCCGGAGCCGACGCCGAGCGGGTCATCGACATCCTCCTCGGCTGGATCGCCGAAGACCGCAAGGCCACGCCGCTCAAGGCGCTGCAAGGCATGGTCTGGGAACAGGGCTACCGTGCCGGGCAGCTCAAGGGCCATGTCTACCCGGATGCGGTGGAAGCCCTGAAGCGCTGGCAGGAAGAGGGCTATCGCCTGTACGTCTATTCCTCCGGCTCGATCCAGGCGCAGAAGCTGATCTTCGGTTGCTCGGACGCCGGGGACCTGTCGCCGCTGTTTTCCGGCTACTTCGACACGACTTCCGGGCCCAAGCGCGAGGCGGCCTCTTACGGGCGCATCGCCCAGGCCATCGGGCTGCCGGCGGCGGACATCCTGTTCCTGTCCGACGTGGCGCAGGAGCTGGACGCCGCCCGCGAAGCCGGCATGGCCACCTGTGGCCTGGCCCGGGAGGGTGGCGAACTGGTCGGCCATCCGACCGTGGCCAGCTTCGCGGTGATCGATCCCGCCGGGTTCTGA	MPIKAILTDIEGTTSAVSFVFDVLFPYAARHLPDFVRQHATDPAVAAQLDATRAEAGEPGADAERVIDILLGWIAEDRKATPLKALQGMVWEQGYRAGQLKGHVYPDAVEALKRWQEEGYRLYVYSSGSIQAQKLIFGCSDAGDLSPLFSGYFDTTSGPKREAASYGRIAQAIGLPAADILFLSDVAQELDAAREAGMATCGLAREGGELVGHPTVASFAVIDPAGF				NA	NA	NA	NA	NA
BMS010_03403	546	mtnD	COG1791	Acireductone dioxygenase	ATGAGCAGCCTGAGCGTCTACCACGAATCCAATCCCGAACTGCCGAACAAGGTCCTGACCCACGCCGAGGACATCGCCGCCACCCTTGCCGAGGTCGGCGTGCGCTTCGAGCGCTGGGAAGCCAGCGCGCCCATCGCCGCCGGCGCCAGCCAGGAGGAGGTGATTGCTGCCTACCGTCCGCAGATCGACAAGCTGATGCAGGAGCGCGGCTACGTCACCGTGGATGTGGTCAGCCTCACTGCCGATCACCCGCAGAAGGCCGAACTGCGTGCCAAGTTCCTCGACGAGCATCGCCATGGCGAAGACGAGGTACGCTTCTTCGTCGCCGGTCGCGGCCTGTTCACCCTGCACATCGACGAGTATGTCTATGCCGTGCTCTGCGAAAAGAACGACCTGATCTCGGTGCCGGCCGGCACCCGCCACTGGTTCGACATGGGCGAACACCCGCACTTCGTGGCGATTCGCCTGTTCAACAACCCGGAGGGCTGGGTCGCGCAGTTCACCGGTGACGACATCGCCAGCCGCTTCCCGCGCCTGGAAGACTGA	MSSLSVYHESNPELPNKVLTHAEDIAATLAEVGVRFERWEASAPIAAGASQEEVIAAYRPQIDKLMQERGYVTVDVVSLTADHPQKAELRAKFLDEHRHGEDEVRFFVAGRGLFTLHIDEYVYAVLCEKNDLISVPAGTRHWFDMGEHPHFVAIRLFNNPEGWVAQFTGDDIASRFPRLED				NA	NA	NA	NA	NA
BMS010_03404	621	mtnB_1	COG0235	Methylthioribulose-1-phosphate dehydratase	ATGACAGCCAATCGTGAACAACTCGCCGGCGAGATCATCGAGGCCGGGCGCTTCCTGTACGGCCGTGGCTGGTCGCCGGCCACCAGCAGCAATTACTCGGCGCGCCTCAGCGACAGGGAGGCGCTGCTGACCGTGTCTGGCAAGCACAAGGGCCAGCTCGGCCCGGATGATGTACTCGCCACCGATCTGGCGGGAAACAGCCTCGAACCGGGCAAGAAGCCATCCGCCGAGACGTTGCTGCATACCCAGCTCTACGCCTGGAAGCCGGAGATCGGCGCGGTGCTGCATACCCACTCGGTCAACGCCACCGTGCTGTCGCGCCTGACCCTGAGCGATTCGCTGGTGTTTTCCGACTACGAGTTGCAGAAGGCGTTTTCCGGGATATCCACCCACGAATGCCAAGTCTGCGTGCCGATCTTCGACAACGATCAGGACATCGCCCGCCTGGTGGCCAAGGTGCAGCCCTGGCTCGATGCGAACCCCGATTGCGTCGGCTACCTGATCCGCGGGCATGGCCTGTACACCTGGGGGCCGCGCATGAGCGATGCGCTGCGTCAGGTGGAGGCATTCGAGTTCCTCTTCGAATGCGAATTGAAGGTGCGTGCCTTGCAGGCGCGCTGA	MTANREQLAGEIIEAGRFLYGRGWSPATSSNYSARLSDREALLTVSGKHKGQLGPDDVLATDLAGNSLEPGKKPSAETLLHTQLYAWKPEIGAVLHTHSVNATVLSRLTLSDSLVFSDYELQKAFSGISTHECQVCVPIFDNDQDIARLVAKVQPWLDANPDCVGYLIRGHGLYTWGPRMSDALRQVEAFEFLFECELKVRALQAR				NA	NA	NA	NA	NA
BMS010_03405	1149	hcaT		putative 3-phenylpropionic acid transporter	ATGACTGCTCTCCCGTACTGGCGCCTGTCCGGCTTCTATTTCTTCTACTTCTGCCTGCTCGGCGCCACGGCGCCGTTCCTGGCGCTGTACTTTGCCCATCTGGGCTTTCCCAGCGCGCGGATCGGCGAGCTGGTGGCGATTCCCATGCTGATGCGCTGCCTGGCGCCCAATCTCTGGGGCTGGCTTGGCGACTACACCGGCCGGCGCTTGGCCATCGTGCGGCTGGGGGCGGTCTGTACGCTGTTCAGCTTCGCCCTGATCCTCATCGACAAAAGCTATGCCTGGCTGGCGCTGATCATGGCGCTGCATGCGTTCTTCTGGCACGCCATCCTGCCGCAGTTCGAGGTCATCACCCTGGCCCATCTGCAGGACCAGGCGTCGCGCTACAGCCAGATCCGCCTGTGGGGCAGCATCGGTTTCATTTTCACCGTGGTCGGGTTGGGCAAGCTGTTCGACTGGGTCAGCCTGGATACCTATCCTCTGGCGATCCTGCTGATCATGGCGGGGATCGTCGCCGGCAGCGGCTGGATTCCCAACGCCCAGCCGCAGACCAGTGAGGATCGACCGGACCGGGGCGGCTTCTTCCGCCAGTTGCGCCAGCCCGGCGTGTTAGCCTTCTACCTGTGCGTCGGCCTGATGCAGCTCAGTCACGGGCCGTATTACACCTTCCTGACTATCCATTTGGAGGCGCTGGGCTACTCGCGGGGCGTGATCGGCTTGCTCTGGGCCTTGGGTGTGGTGGCGGAGGTCCTGCTGTTCATCGTCATGGCGCGGGTGCTGTGCTATTTCTCGTTGCGCCAGGTGCTGGCCGCGAGCTTCTTGCTGGCGGCATTGCGCTGGCTGCTGCTGGGCACCCTGGCCGATCATCTCTCGGTGCTGCTGCTCGCCCAGTTGCTGCACGCGGCGACGTTCGGCAGCTTCCATGTGGCGGCGATCCATTTCGTCCAGCGCAGCTTCGGCGACCGTCAGCAAGGCCAGGGCCAGGCGCTCTACGCGACCCTTGCCGGCGTGGGCGGTGCGCTGGGGGCACTGTACTCCGGCTACAGCTGGAACAGCCTGGGGCCGGTGTGGACCTTCGTCATCGCCAGTCTGGCGGCGCTGGCGGCAACCGTTATCATTGCCACCCGCTTGAAAGAGGAGAGGGCATGA	MTALPYWRLSGFYFFYFCLLGATAPFLALYFAHLGFPSARIGELVAIPMLMRCLAPNLWGWLGDYTGRRLAIVRLGAVCTLFSFALILIDKSYAWLALIMALHAFFWHAILPQFEVITLAHLQDQASRYSQIRLWGSIGFIFTVVGLGKLFDWVSLDTYPLAILLIMAGIVAGSGWIPNAQPQTSEDRPDRGGFFRQLRQPGVLAFYLCVGLMQLSHGPYYTFLTIHLEALGYSRGVIGLLWALGVVAEVLLFIVMARVLCYFSLRQVLAASFLLAALRWLLLGTLADHLSVLLLAQLLHAATFGSFHVAAIHFVQRSFGDRQQGQGQALYATLAGVGGALGALYSGYSWNSLGPVWTFVIASLAALAATVIIATRLKEERA	PGPT0028051_1318	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-3-PHENYLPROPIONIC_ACID,PGPT0028051-hcaT-K05820	NA	NA
BMS010_03406	1092	aroC_2		Chorismate synthase	ATGTCCGGCAATACCTACGGCAAGCTTTTCACCGTCACCACCGCCGGCGAGAGCCATGGTCCGGCCCTGGTCGCCATCGTCGACGGCTGCCCGCCGGGGCTGGAACTGTCGCTGGAAGACATGCAGCGCGACCTCGATCGCCGCAAGCCGGGCACCAGCCGCCATACCACCCAGCGCCAGGAAGACGATGTGGTGGAAATCCTTTCCGGCGTGTTCGAAGGCAAGACCACCGGTTGCGCCATCGGCCTGCTGATCCGCAACACCGACCAGAAGTCCAAAGACTACTCGGCGATCAAGGACCTGTTCCGTCCGGCCCATGCCGACTACACCTACCACCACAAGTACGGCATCCGCGACTACCGTGGCGGCGGCCGCTCCTCGGCGCGCGAGACCGCCATGCGCGTGGCCGCCGGCGCCATCGCCAAGAAATACCTGGCGACCCAGGGCATCCAGGTACGCGGCTTCATGAGCCAGCTCGGGCCGATTGAGATTCCGTTCAAGACCTGGGACAGCGTCGAGCAGAACGCCTTCTTCAGCCCCGACCCGGACAAGGTGGCGGAGCTGGAGGCGTACATGGACCAACTGCGCCGCGACCAGGATTCGGTCGGCGCGAAGATCACCGTGGTCGCCGAAGGCGTGCCGCCGGGGTTGGGCGAGCCGATTTTCGACCGTCTCGATGCCGAGCTGGCCCACGCACTGATGAGCATCAACGCCGTGAAGGGCGTGGAGATCGGCGCCGGCTTCGCCAGCGTGTCGCAGCGTGGCACCGAACACCGCGACGAGCTGACCCCGGAAGGTTTCCTCAGCAACAACGCTGGCGGCATCCTCGGCGGCATTTCCTCCGGCCAGCCGATCGTCGCTCACTTGGCGCTTAAGCCGACTTCCAGCATCACCACGCCCGGCCGTTCCATCGACATCCACGGTAACCCGGTGGAGGTGATCACCAAGGGCCGCCACGACCCGTGCGTCGGCATCCGCGCCACGCCCATCGCCGAGGCGATGATGGCCATCGTGCTGATGGACCACCTGCTGCGCCACCGCGCCCAGAACGCCGGCGTGCGTGTGACTACTCCGGTATTGGGGCAGCTTTGA	MSGNTYGKLFTVTTAGESHGPALVAIVDGCPPGLELSLEDMQRDLDRRKPGTSRHTTQRQEDDVVEILSGVFEGKTTGCAIGLLIRNTDQKSKDYSAIKDLFRPAHADYTYHHKYGIRDYRGGGRSSARETAMRVAAGAIAKKYLATQGIQVRGFMSQLGPIEIPFKTWDSVEQNAFFSPDPDKVAELEAYMDQLRRDQDSVGAKITVVAEGVPPGLGEPIFDRLDAELAHALMSINAVKGVEIGAGFASVSQRGTEHRDELTPEGFLSNNAGGILGGISSGQPIVAHLALKPTSSITTPGRSIDIHGNPVEVITKGRHDPCVGIRATPIAEAMMAIVLMDHLLRHRAQNAGVRVTTPVLGQL	PGPT0012875_3397	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012875-aroB-K01736	NA	NA
BMS010_03407	948			hypothetical protein	ATGCTGCGAGTCATCGCCTTGCTCATTTCCCTTGCCGGTACCAGCGTCCAGGCCCAGACCCTCCTGCACCGCCCGATGAACCTGGACACCGGCAGCGGTGTGCTGGAAGGCAGCCTGCTGCTGCCGAAAAGCGACGAACCGGTACCCGTCGCCCTGTTGATCGCCGGCTCCGGCCCCACCGACCGCGACGGCAACAACCCCATGGGCCGCAACGACAGCCTCAAGCGCCTGGCCCAGGGCCTCTCCGCCAAGGGCATCGCCAGCCTGCGCTACGACAAGCGCGGCATCGCCGCCAGCCAACCCGCCGCCCCCGACGAGCGGACCCTCAGTGTGGAGCGCTACGTGGACGATGCGGTGGCCTGGGGGCAACGGCTCAAGGCCGACCCGCGCTTCGACCGGCTGATCCTCATCGGCCACAGCGAAGGCGCCCTGATCGCCAGCCTGGCGGCGCAACGCGCCGGGGCCGATGCGCTGGTGTCCATCGCCGGCAGCGGACGCCCCATCGACCAGGTCCTGCGCACCCAGTTGGAAAGCCGTCTGCCCCCACCGCTGCTGGCCTACAGCGAGGCGCTGATCGCCGAACTCAAGGCCGGCCGCCGCCACGAGCAGGTGCCGGACGCGTTGCAGGTGCTGTTCCGCCCCAGCGTGCAGCCTTACCTGATCTCGCTGTTCCGCCAGGACCCGGCCGCCGCCTTCTCGCGCCTGCGCATTCCTGCGCTGATCGTCCAGGGCAGCCACGACCTGCAGGTCGGCCTTGCCGATGCCGAAGCACTGCATGCGGCCAAGCCGGACGCCGAACTGGCGGTGATCGAGGGCATGAACCATGTGCTGCGCATCGTCCCGGCCGAGGCCGCCCAACAACTGCCCTCCTACCACGAACCGCAGCGTCCCCTGGCACGGGCGCTGGTCGAGCGAATCGCCGCGTTCATCGAAAAAACTGGCGCATAG	MLRVIALLISLAGTSVQAQTLLHRPMNLDTGSGVLEGSLLLPKSDEPVPVALLIAGSGPTDRDGNNPMGRNDSLKRLAQGLSAKGIASLRYDKRGIAASQPAAPDERTLSVERYVDDAVAWGQRLKADPRFDRLILIGHSEGALIASLAAQRAGADALVSIAGSGRPIDQVLRTQLESRLPPPLLAYSEALIAELKAGRRHEQVPDALQVLFRPSVQPYLISLFRQDPAAAFSRLRIPALIVQGSHDLQVGLADAEALHAAKPDAELAVIEGMNHVLRIVPAEAAQQLPSYHEPQRPLARALVERIAAFIEKTGA				NA	NA	NA	NA	NA
BMS010_03408	780			hypothetical protein	ATGATCGACTCAGCGACTCCACCGACCACTCTCGAAGAAGAAGCCCCGAAGGCCCACCCATGGGCGGATCTGGGGCCGGAGCACTTTTATCTGCTGCGTCTGGCGCCCCTCGCCACTGACCGCGTCACCGGCCCTCGCCCTCTGCGCTTCGTGCAGTTCGGCCGGGTGGAGCGCCACAGCCGCGAACAGAGCCTGCTGCGCCTGAGCATCCAGTTGCCCGGCCAACGTTTACGCAAGGAACAGAACCTGCTGGAGGTCTGGGCGGATCACCGCAGCAAGGAGGTCCGCTTCGGCGCCGACAGCGGCCTGCAGATCGAACCGTTGAACCGTGGCCTGGGCCGTTTTCTGATGGCTCAGGGCATTCTCTGGGCCAAGCGGCGCTGGGCGCACTATCAGGTCGAGGGCGGTGCTCTGTCGGTGAAGGACGTGCTGAACGAAGATGCCCGCCTGCGCCGCGACCACTTCCTCCGTGCCCAGGGTTTCGAAGTGAACTACCAGGACGCACAGTTGCTCAAGGCGAGCTACGGCGCGCCCCAGGTCGGCATCCTGCACAGCGAGTGGAATCAGGAAAAGGTACAACTGCTCGGCATGCTGGACGTCGCCGCCATGCTGCAACAGGCCGACCAAGCCATGCGTGAACAGGAAACCAGCATCCGTAAGCTGCAGGAGCGCGTCGCCCTGCTCAAGCGCGAGGACAGCACCCTGCGCTTCAGCATCGCCTGCCTGGTGGCATTCGCCCTGTTCCAGGCCGGCCTGCTGATCTGGATCGCGACGCGCTGA	MIDSATPPTTLEEEAPKAHPWADLGPEHFYLLRLAPLATDRVTGPRPLRFVQFGRVERHSREQSLLRLSIQLPGQRLRKEQNLLEVWADHRSKEVRFGADSGLQIEPLNRGLGRFLMAQGILWAKRRWAHYQVEGGALSVKDVLNEDARLRRDHFLRAQGFEVNYQDAQLLKASYGAPQVGILHSEWNQEKVQLLGMLDVAAMLQQADQAMREQETSIRKLQERVALLKREDSTLRFSIACLVAFALFQAGLLIWIATR				NA	NA	NA	NA	NA
BMS010_03409	921	prmB	COG2890	50S ribosomal protein L3 glutamine methyltransferase	GTGAGCCAACCCGTTTCCCGCCTGCGCAGCCTGCGCGACCACATCCGCTGGGCCGTCAGCCGTTTCCATGCCGAAGGGCTGTATTTCGGCCATGGCACCGACAATGCCTGGGACGAGGCGCGTCAGTTGGTGCTGGGAGCCCTGCACCTGCCTTGGGAAATCGCCGACAGCTACCTCGACTGTCGTCTCGAGGACGATGAGCGTGATCATCTGCAGGAGCTGCTGCGGCGGCGTATCGAAGAGCGGGTGCCGACCGCCTACCTGCTCGGCGAGGCCTGGTTCTGCGGACTGCCGTTCGTGGTCGACGAGCGCGTGCTGATTCCCCGCTCGCCCATCGCCGAACTGATCGAGCAACACTTCCAGCCCTGGCTGGCTCAGGAGCCGGCGAGGATTCTCGATCTCTGCACCGGCTCGGGCTGCATTGGCATCGCCTGCGCCTACGAATTTCCCCAGGCCGAAGTGGTGCTGGCCGACCTGTCCTTCGAGGCGTTGGAAGTAGCCAACCTGAACATCGAGCGGCATGGCCTGGAAGAGCGCGTCTACGCCGTGCAAGGCGACGGCTTCGGCGGGCTGCCGGGCCAGCGCTTCGACCTGATCGTGTCCAACCCGCCCTATGTGGATGCCGAAGACTTCGCCGACATGCCCGAGGAGTATCACCACGAACCGGCGATGGGACTGGCCTGTGGCGATGACGGCCTGGATCTGGTGCGGCGCATGCTGGCCGAGGCGGCCGACCACTTGACCGAGAAGGGCTTGCTGATCGTCGAGGTGGGCAACAGCCAGGTGCATGTCGAGGCGCTGTACCCCGAGGTGGACTTCACCTGGCTGGAGTTCGAGCGCGGCGGTCACGGCGTGTTCCTCCTCGCCGCCGCGCAATGCCGGGAGCATCAGGCGCTGTTCAAATCGCGGGTGAAAGCTTGA	MSQPVSRLRSLRDHIRWAVSRFHAEGLYFGHGTDNAWDEARQLVLGALHLPWEIADSYLDCRLEDDERDHLQELLRRRIEERVPTAYLLGEAWFCGLPFVVDERVLIPRSPIAELIEQHFQPWLAQEPARILDLCTGSGCIGIACAYEFPQAEVVLADLSFEALEVANLNIERHGLEERVYAVQGDGFGGLPGQRFDLIVSNPPYVDAEDFADMPEEYHHEPAMGLACGDDGLDLVRRMLAEAADHLTEKGLLIVEVGNSQVHVEALYPEVDFTWLEFERGGHGVFLLAAAQCREHQALFKSRVKA				NA	NA	NA	NA	NA
BMS010_03410	1290	nhaD_1		Na(+)/H(+) antiporter NhaD	ATGGTCATCGAACCCTTCTCGCTGACGGGCTTGCTCGTCCTGGCGATATTCCTTATTGGAATGACGCTTATCGTTTTTGAAGCACAATTGGAAATGGATAAGTTCAAGCCGGCCATGTTCATGATGTCCGGTCTGGTCGTGATCGGCGCCCACTACGCCCTCAACGACCCCAACGGCTTCAAGTATTTCCTGCACGCCCAGGAGGAAACCAAGGGCGAATTGTTCGGCCTGATCGCCTTCATGGCGTTCATGTGGATGATCGTCGAGCTGCTCAACGAGCGGAACGTGTTCACCGCGCTGAACGGCTTCCTGCTGCGCAAGGGCCTGGGCGCCAAAGGCATGTTCTGGGCCACCGGCGCACTGTCCGCCCTGCTCTCTCCGTTCATCAACAACTTCACCACGGCGATGATCTTCGGCAACTCGGTGAAGAACATCTCGGTGAACCAGCGCTACACCCACGTGGCGCTGTGCAACATCGTGGTGGCGTCCAACAGCGGTGTGTGGTTCCTCGGTACGTCCACCAGCCTCATGGTGCTGCTGGCCGGCAAGATCAGCATCGCCGGCCTGCTGCTGTTGATCCCCTCGTCGTTGATCGGCTGGCTGCTGTTCGCCGCCACGCTGCACTTCTTCTACCTGCGCGGCGTCAACGGCGGCGACCTGATCCGCGTGGCCGATCAGCAGGACTCGGCGATCAAGCCGGGCGGCAGGGGGCTGGCGCTGGTCGGGCTCATCGCCATCGTCGGCGCGGTGCTCTGCAACATCCTACTGAAGGTGGGCATCGAGTTCTCCATCGGCATCGGCCTCGGCATCGTTGCCCTCTATGCCTGGCTGCTGACGCACCGGGGCATCGAGCTGCCGTGGCAGGACCAGTTGCAGAAGGTGGAGTGGAACGCCCTGCTGTTCTTCATCGGCATCATCACTTCGGTCGCCTGCCTCAACCATGTGGGCTGGCTCTCCTATATCTCCCGGCTGTTCGAGCTGATGTCGCCGACCTCGGTGAACGTCATCCTCGGCGTCATCTCGGGCGTGATGGATAACGTACCGGTGGAAGCCGCGGCGCTGATGTCCAACCCGCAACTCGGTCTCGACCAGTGGGCGCTGAACGCCCTGATGGTCGGCATCGGCGGTTCGATCACGGTGGTGGGTTCCGCCGCCGGCGTGATGGCCATGACACTGGACAAGAGCTACAGCTTCGGCGTGCACTTCAAGTTCCTGCCGGCGATCCTGGTCAACTTCTTCGGCTCGCTGAGCGTCTGGTACCTGCAATTCCAGATTTTCGGCCTCTACTGA	MVIEPFSLTGLLVLAIFLIGMTLIVFEAQLEMDKFKPAMFMMSGLVVIGAHYALNDPNGFKYFLHAQEETKGELFGLIAFMAFMWMIVELLNERNVFTALNGFLLRKGLGAKGMFWATGALSALLSPFINNFTTAMIFGNSVKNISVNQRYTHVALCNIVVASNSGVWFLGTSTSLMVLLAGKISIAGLLLLIPSSLIGWLLFAATLHFFYLRGVNGGDLIRVADQQDSAIKPGGRGLALVGLIAIVGAVLCNILLKVGIEFSIGIGLGIVALYAWLLTHRGIELPWQDQLQKVEWNALLFFIGIITSVACLNHVGWLSYISRLFELMSPTSVNVILGVISGVMDNVPVEAAALMSNPQLGLDQWALNALMVGIGGSITVVGSAAGVMAMTLDKSYSFGVHFKFLPAILVNFFGSLSVWYLQFQIFGLY				NA	NA	NA	NA	NA
BMS010_03411	99			hypothetical protein	ATGTCTTATTTCAGCGAGCTTTCCGCCCATTTCTGGCTGCTGTTCGCCGTGGCGATCGCCATTGCGGTGATTCGCGAACTGCGACGCGGGTCGGACTAG	MSYFSELSAHFWLLFAVAIAIAVIRELRRGSD				NA	NA	NA	NA	NA
BMS010_03412	873			hypothetical protein	ATGACTTTCGACTGGAACGACATACCGCTGCTGCTGGCCCTGGCCCGCCACGGCAGCCTGGCCGGTGCCGGCCGCGAACTGGCGGTGGATGCGACGACGGTCGGCCGTCGTCTGGCGGCGGCCGAGCGGGCGTTGAAGGCGACGCTGTTCGTCCGCGAAGGCGGCCGCTACTGGCCGACCGATGCCGGAGAGGCCGCGCTGTCCCGTGCAGCGGTGCTCGCCGGGGAGATGCGCGAGCTGCTGCAGGATGTGCAGGCCGAGCAGGGCCGCCTGTCCGGAACGGTACGGCTGACCTCGGTGGAGTTCATGTTCAGCCACTGGCTGATCCCGCGACTGCCGGCATTGCTGGAGGCGTACCCGCAGCTCGATCTCGAACTGGTGGGCAGCAATCGCAACCTCTCCTTCACCCGGCGCGAAGCGGACCTGGCGCTACGCCTGGGCCGTCCCAGCCAGGACAGTGCGCTGGTCATGCGCAAGGCGGGCGAGGTGGGCTACGCTGTGTTTGCCGGCCCCGGGTTGGAAGACTGCCCGAGCGAGGGTTGGCCGCGGATGCCCTGGCTGGGCTACGACGAGAGCCTGCGTCATCTGCCGGAAATGCAGTGGCTGGAGCGATTGCTGAACGGTCGGCCGCCACGGGTGCGCCTGAGCAATCTGGCGGCCGCCTGCCGGGAGGGCTGCGGGCTGGCATTGTTGCCCAGCCTGGTCGGCGAGGCGATGGGGCTGAAGCGGCTGAGCGAAGAGCCGGTCCTGCATCGTGAGCTATGGCTGCTCAGCCATGCGGAGCTGCGTCATACCGGCCGGGTCAAGGCCGTCAGCGATTGGCTGTGGGCCAGTCTGGAGACGTCGACGGCGCTGTTGCGCGGCGACGGATAA	MTFDWNDIPLLLALARHGSLAGAGRELAVDATTVGRRLAAAERALKATLFVREGGRYWPTDAGEAALSRAAVLAGEMRELLQDVQAEQGRLSGTVRLTSVEFMFSHWLIPRLPALLEAYPQLDLELVGSNRNLSFTRREADLALRLGRPSQDSALVMRKAGEVGYAVFAGPGLEDCPSEGWPRMPWLGYDESLRHLPEMQWLERLLNGRPPRVRLSNLAAACREGCGLALLPSLVGEAMGLKRLSEEPVLHRELWLLSHAELRHTGRVKAVSDWLWASLETSTALLRGDG				NA	NA	NA	NA	NA
BMS010_03413	594	sttH_1		Streptothricin hydrolase	ATGTCTCACCCGAGTCTTTTCCAACTGAGCGGCCTCGGCTACCCGCCCGCCGGCCTGAACGACGCGACCCTGCTGATCATCGACGCCCAGGAAGAGTACCGCAGCGGCGACCTCGCCCTGCCGGGCCTGCAGCCCGCGCTGGCGGAAATCGCCACGCTGCTGGAACGGGCCCGCGCCGCCGGCACCCCGGTCGTCCACGTCCGGCACCTGGGGATTCCCGGCGGCCTGTTCGATCCGGAAGGTCCGCGCGGTGCCATACTCGCCGAGTTGACGCCCACGGCGAACGAAACGGTGGTCACCAAGCGGCTGCCCAACGCCTTCGCCGGGACCGAGCTGCATCCCCTGCTCGGCGAACTCGGCCGGCGCGACCTGATCGTCTGCGGTTTCATGAGCCATATGTGCGTGAGCAGCACCGTCCGGGTCGCCAAGGACCTCGGCTACCGCTGCACCCTGGTCGACAGTGCCTGTGCCACCCGCCCGCTCGTTGGCCTGGATGGCGTGATGGACGCAACGATCCTGCACCGCGCCGCGATGACCGCACTGGCCGACAACTTCGCCGTGATCGTGCCGACAGCGGACGATCTGCCGGCGTGA	MSHPSLFQLSGLGYPPAGLNDATLLIIDAQEEYRSGDLALPGLQPALAEIATLLERARAAGTPVVHVRHLGIPGGLFDPEGPRGAILAELTPTANETVVTKRLPNAFAGTELHPLLGELGRRDLIVCGFMSHMCVSSTVRVAKDLGYRCTLVDSACATRPLVGLDGVMDATILHRAAMTALADNFAVIVPTADDLPA				NA	NA	NA	NA	NA
BMS010_03414	594			hypothetical protein	ATGTCCCAGCCGCAAACCATGTTCCAGCTCAGCGGCCGAGGCTATGCGCCCGCCACCCTGAGCAACGCCACCCTGCTGATCATCGACGCCCAGGAGGAATACCGCAGCGGCGCCCTGGCCCTGCCGGGTCTCGACGCCGCAGCGGCGGAAATCGCCAGCCTGCTCGGCGCCGCGCGGGCGACCGGCGTCCCGGTGGTCCATGTCCGGCACCTCGGTATCACTGGCGGCCTGTTCGATCCCCAGGGGCCGCGTGGCCAATTCCTGCCCGAACTCGCGCCGCAACCGGGCGAAGTCGTGGTCGAGAAGCGCCTGCCGAACGCCTTCGCCGGCACGGAGCTGCATGACCGCCTCCAGGCGTTGGGCCACCTCGATCTGATCGTCTGCGGCTTCATGACCCACTCGAGCATCAGCACCACCGTTCGCGCCTGCAAGGACTATGGTTACCGCTGCACCCTGGTCGACCGCGCCTGCGCCACGCGCGATCTGCCCAGCCCCGAAGGTGTGATCCAGGCCGACGTCGTGCATCGCATGGAGATGGCAATATTGGCCGATAACTTCGCTACCGTCGTTCAGCAGGCCAAGGCGCTGATCTGA	MSQPQTMFQLSGRGYAPATLSNATLLIIDAQEEYRSGALALPGLDAAAAEIASLLGAARATGVPVVHVRHLGITGGLFDPQGPRGQFLPELAPQPGEVVVEKRLPNAFAGTELHDRLQALGHLDLIVCGFMTHSSISTTVRACKDYGYRCTLVDRACATRDLPSPEGVIQADVVHRMEMAILADNFATVVQQAKALI				NA	NA	NA	NA	NA
BMS010_03415	321			hypothetical protein	ATGAAGTTGTCCGATAGTTACGACGCCCGTCATGTACGTCCGCGCCGACCCGGTCGCTGGCGCTGGCGTTTCGGCGCGGCCGTCGCGGTACTGCTCGCCACCTTCGGCATCCTGCTGGCGATGGCCGGTGCCGCCACCCTCCTGGGACGTCCGCCGGCGCTCGGCGGGCTCAACGACACTCCGGTCGATGCCAGCATCCTGTTGGCGCTCGGCTTGTTCCTCCTCTGGTTCGGCATTCTCGCCTGGCGCATTTGCCGGCGCCGGCTGCGCCGCCCGAGCGACCTGACCCTGGCGCCGCACCTGCTGAAGAAGCGTGGCTGA	MKLSDSYDARHVRPRRPGRWRWRFGAAVAVLLATFGILLAMAGAATLLGRPPALGGLNDTPVDASILLALGLFLLWFGILAWRICRRRLRRPSDLTLAPHLLKKRG				NA	NA	NA	NA	NA
BMS010_03416	564	smrA	COG2840	putative DNA endonuclease SmrA	ATGCAAGACGACGACAAAGACAATTCCCTTTTCATGTCCGAGATGCGCGGCGTGAAGCCGATCCGACATGATCGCGCCGACACCGGCAAACCCAAGGCCGACCGCCAGCAGATCGCCCAGCGCCGCCAGGCCGCCACCCTCAAACCGACCTCGACCAAGGTCGATGGCCTGTCCGACCAGTTCGTCATCGACGTCGGCGCCGAAGACGAACTCTACTGGGCGCGCGACGGCGTCCAGGAAGGCCAGATGCGCAAGCTCAAGGCCGGCCAGGTCGCCTTCGAAGGCAGTCTGGACCTGCACGGCATGACCGTGGAAAAGGCCCGGGAAACGCTCTGGGACTTCCTCGCCGAAGCGGCGAAGCTGGAAATCCGTTGCGTGCGGGTCACCCATGGCAAGGCTGCCCGTCTCGACGGCAAGCGACCACTGATCAAGAGCCATGTGAACACCTGGTTGCGCCAGCATCCGCAAGTGCTCGGCTTCACCTCCTGCCTGCCCCGGCACGGCGGCACCGGCGCGCTCTACGTCCTGCTCAAGCGCACCATGCTCGAAGGGCGCGATGAATGA	MQDDDKDNSLFMSEMRGVKPIRHDRADTGKPKADRQQIAQRRQAATLKPTSTKVDGLSDQFVIDVGAEDELYWARDGVQEGQMRKLKAGQVAFEGSLDLHGMTVEKARETLWDFLAEAAKLEIRCVRVTHGKAARLDGKRPLIKSHVNTWLRQHPQVLGFTSCLPRHGGTGALYVLLKRTMLEGRDE				NA	NA	NA	NA	NA
BMS010_03417	546	folE_1	COG0302	GTP cyclohydrolase 1	ATGTCCCTGGAACAGCATTACACCGCGATCATCGGCCAGCTCGGCGAAGACACCAGCCGCGAAGGCCTGATCGACACCCCCAAGCGCGCCGCCAAAGCCATGCAGTACCTCTGCCGCGGCTACCAGCAGACCCTCGACGAAATCGTCAACGGCGCGCTGTTCAGCTCCGACAACAGCGAAATGGTGCTGGTGAAGAACATCGAGCTGTACTCCCTGTGCGAACACCACCTGCTGCCCTTCATCGGCAAGGCACATGTGGCCTACATCCCCAACGGCAAGGTTCTCGGCCTGTCGAAGGTGGCCCGGATCGTCGACATGTACGCCCGCCGCCTGCAGATCCAGGAGAACCTCAGCCGGCAAATCGCCGAAGCCGTGCAACAGGTGACCGGTGCCCTCGGCGTCGCGGTGGTCATCGAGGCGCAGCACATGTGCATGATGATGCGCGGCGTGGAGAAGCAGAACTCGTCGATGGTGACCTCGGTGATGCTCGGCGAATTCCGCGAGAGCGCCGCCACCCGCAGCGAGTTTCTCAGCCTGATCGGCTGA	MSLEQHYTAIIGQLGEDTSREGLIDTPKRAAKAMQYLCRGYQQTLDEIVNGALFSSDNSEMVLVKNIELYSLCEHHLLPFIGKAHVAYIPNGKVLGLSKVARIVDMYARRLQIQENLSRQIAEAVQQVTGALGVAVVIEAQHMCMMMRGVEKQNSSMVTSVMLGEFRESAATRSEFLSLIG	PGPT0007875_4684	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007875-folE-K01495	NA	NA
BMS010_03418	603	yfcG_2	COG0625	Disulfide-bond oxidoreductase YfcG	ATGTACAAGGTCTATGGCGATTACCGGTCCGGCAACTGCTACAAGGTCAAGCTGATGCTCAATCTGCTGGGCCAGCCCTATGAGTGGGTTCCGGTGGATATTCTTAAGGGCGAGACGCGAACCCCCGAATTTCTGGAGAAGAATCCCAACGGCAAGATTCCGGTGCTGGAACTGGACGATGGAAGCTGCCTCTGGGAGTCCAATGCGATCCTCAATTTCCTCGCCGAAGGAACCGAATTCCTGCCCACCGAGCCGCGTCTGCGTACCCAGGTGCTGCAATGGCAGTTCTTCGAGCAGTACAGCCATGAGCCTTATGTCGCCGTCGCGCGCTTCATCAAGCTTTACCTCGGCCTGCCGGAAGAGCGTCGCGCCGAGTTCGAAGAGAAGCGCAAGGGCAGCTACAAGGCGCTGGATGTGATGGAGCGGCAGCTGCTGCGTACGCCCTACCTGGTCGGCGACCGTTATTCCATTGCCGACGTGGCGCTCTACGCTTACACGCACGTTGCTCATGAGGGCGGCATCGACCTGCAGGGCTACCCGGCGATCTGCGCCTGGATGGACCGGGTTGCCAGTCATCCTCGGCATGTGACCATGCTGGGCTGA	MYKVYGDYRSGNCYKVKLMLNLLGQPYEWVPVDILKGETRTPEFLEKNPNGKIPVLELDDGSCLWESNAILNFLAEGTEFLPTEPRLRTQVLQWQFFEQYSHEPYVAVARFIKLYLGLPEERRAEFEEKRKGSYKALDVMERQLLRTPYLVGDRYSIADVALYAYTHVAHEGGIDLQGYPAICAWMDRVASHPRHVTMLG	PGPT0013170_21207	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS010_03419	1167	lysN_2	COG1167	2-aminoadipate transaminase	ATGGCCTTCTCCGAACGCATCGCCCGCCTGAAAAGCTCCCTGATCCGTGAAATCCTCGCCGCGGCGCAGCGTCCGGAAGTCATGTCCTTCGCCGGCGGCCTGCCGGCCGAGCCGATGCTGCCGAAGGTGGATTGGAGCGCGATGCCGACGAGTGTCGGCCAGTACGGCATGAGCGAGGGCGAGCCGGCCCTGCGCGAAGCCATCGCTGCCGAGGCGCGTACCCTGGGCGTGCCCTGCGAGGCGAGCCAGGTGCTGATCGTCAGCGGCTCGCAACAGACTCTCGACCTGGCCTCCAAGCTGTTCATCGACCCGGGTACCGAGGTGCTGCTGGAAGCACCTACCTACCTGGCGGCATTGCAGGCTTTTCAACTGTTCGGCGCCAACTGCCTGGGCGTGCCCCAGGAAGCCGACGGCCCCGAGCTGGCCGCCCTGCGCCAGCGCCTGGAACAGCACAAGCCGGCCTTCGCCTACTTGATCCCGACCTTCCAGAACCCGTCCGGCGTGCGCTACAGCGAAGCCAAGCGCGATGCCGTGGCGGCCTTGCTCGATGAGTTCGGCGTGACCCTGATCGAGGATGAACCCTACCGCGAGCTGGTGTTCGATGCCGGCAGTGCCCAACCCATCGTCAGCCGTCTGAAGAAGGCCAGTTGGATCTACACCGGCACCGTCTCCAAGACCCTGCTGCCGGGCCTGCGCGTCGGCTTCCTGATCGCCAGCCCGGACCTTTTCCCCTACCTGCTGCGCCTCAAGCAGTCCGCTGACTTGCACACCAATCGCATCGGCCAGTGGCAGGCTTTGCAGTGGATCGGCACGGAGCAATACCGCGAACACCTGGCCGAGCTGCGCGATTTCTATCGCGTTCGCCGTGACGCCATGCAGGCGGTGCTGCTGGAGCATTTCGCCGACTTGGCCGACTGGGAAATTCCCCAGGGCGGATTGTTCTTCTGGCTGACCCTCAAGCAGCGGATCGATACCCGCAGCCTGCTGAAGCCGGCGCTGGAGCAGAACGTCGCCTTCATGCCGGGCGAACCCTTCTTTATCCAGCCCGATATGCATCCTGGCCATCTGCGGCTGAATTTCAGCCATGTGGCGCCGGAGCGCCTGGGTGAGGGGATCGGCCGTCTGGCCGCTGTCGTTCGCGCGGCCCTGAAGGCAGAGGCCGCCTAG	MAFSERIARLKSSLIREILAAAQRPEVMSFAGGLPAEPMLPKVDWSAMPTSVGQYGMSEGEPALREAIAAEARTLGVPCEASQVLIVSGSQQTLDLASKLFIDPGTEVLLEAPTYLAALQAFQLFGANCLGVPQEADGPELAALRQRLEQHKPAFAYLIPTFQNPSGVRYSEAKRDAVAALLDEFGVTLIEDEPYRELVFDAGSAQPIVSRLKKASWIYTGTVSKTLLPGLRVGFLIASPDLFPYLLRLKQSADLHTNRIGQWQALQWIGTEQYREHLAELRDFYRVRRDAMQAVLLEHFADLADWEIPQGGLFFWLTLKQRIDTRSLLKPALEQNVAFMPGEPFFIQPDMHPGHLRLNFSHVAPERLGEGIGRLAAVVRAALKAEAA	PGPT0007135_1913	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007135-lysN-K05825	NA	NA
BMS010_03420	405			hypothetical protein	ATGGAAGCTTTCTTCTTCGGCTACCAGGCGTTCACCGCCAAGCCGGACGAAATGCTCGCCCGCCGTGGCCTGTCGCGTGTCCATCACCGCATACTGTTTTTCATCGCCCGTTATCCGGGGCTCAGCGTCAAGGAACTGCTCGGCTACCTCGGTGTGAGCAAGCAGGCGCTGAACACACCGCTGCGTCAACTGATGGAAATGCATCTGGTGGAAAGCGTCGCGGCGCCGGACGACAAACGCAAACGCCTGCTCGGCTTCACCCCGGAAGGCGCACGCCTGGAGGCGGCGCTGCGCCGCGAACAGGTCCGGTTGCTGGAGAAGGCCTTCGCCGAGGCTGGCGACACGGCCGTCCAAGGCTGGCTCGCAGTGAACCAGGCCCTCGGCGCAATGCGTCAGCGCGAATAG	MEAFFFGYQAFTAKPDEMLARRGLSRVHHRILFFIARYPGLSVKELLGYLGVSKQALNTPLRQLMEMHLVESVAAPDDKRKRLLGFTPEGARLEAALRREQVRLLEKAFAEAGDTAVQGWLAVNQALGAMRQRE				NA	NA	NA	NA	NA
BMS010_03421	633			hypothetical protein	ATGGACGAAAACCCCTATGCCGCCCCTGCCGTGGAACTGGTGGACGGCGCCGCCGCGCATTCACTCGAAGGCTGGAACGCCTCGCAGCTGCACGTACTTGGCTGGCTAAGCCTGGTTTCCACCTTCGGCACCCTGGTGTTCCTGGTGATGTCGCTGGTGGGCGCTGCGCTGCGGATGCCCGACCTGGAGACCTATGGCGAGTGGATCGGGATCGCCATGGTGTTGCTGGGCAACTACCTGCTGATCCGCTTCAAGGGATTCGCCGAGGCCCGCTTCGAGGCGCGCGGGCTGGGCATACCGGTGTGGACGATCGTCGCGGTCAGCCTGGCGATGGAAGCTGTGGTGTTCGGCAGCGGCCTGGAAGCGCTGGACTGGCGCTCGATCACCTACCTCGTGCTGACCGGCATCCTGGGGTTGCTCACCCTCTGGTTCGGCATCCGCCTGCTCAAGGTGCAGAACGTTTCTCCGCCGTTCAAGGTGCTGGCCTGGCTGGAGATCGCCGTAGGCCCGCTGCTCGCGTCGGTCGTCCTGATGATGTTCGCGGTGATTCCCGCCCTGGCGGCCGGTGTAGCCATGGCCCTGGTGTTCTTCCGTGGCGCGGCGGAGCTGGAAGGGCTGGGCGAGCCCCGTTGA	MDENPYAAPAVELVDGAAAHSLEGWNASQLHVLGWLSLVSTFGTLVFLVMSLVGAALRMPDLETYGEWIGIAMVLLGNYLLIRFKGFAEARFEARGLGIPVWTIVAVSLAMEAVVFGSGLEALDWRSITYLVLTGILGLLTLWFGIRLLKVQNVSPPFKVLAWLEIAVGPLLASVVLMMFAVIPALAAGVAMALVFFRGAAELEGLGEPR				NA	NA	NA	NA	NA
BMS010_03422	618	eamB_2	COG1280	Cysteine/O-acetylserine efflux protein	ATGAACCCTGAACTGCTGGTCGCCTTCGTCGCCTTCGCTTTCGTCACCTCGGTCACGCCGGGGCCGAACAACATGATGCTGCTCGCCTCCGGCGTGAACTTCGGGGTGCGCCGCAGCCTGCCGCACATGCTCGGCATCAGCCTGGGCTTCATGGTACTGGTGATCGCGGTGGGCCTCGGGCTCGGCCAGTTGTTCGAGCGCTTTCCGGCGCTGTATACCGCATTGCGCTACGCCGGCGGCGCTTATCTGCTCTACCTGGCCTGGAAGATCGCCGGTGCCGGCGCGCCCCAGGGCGGTGCCACCGCCAGCGGCAAACCGCTGACCTTCCTCCAGGCCGCGGCCTTCCAGTGGGTCAATCCCAAGGCCTGGGTCATGGCCATCGGCGCCATCACCACCTACACGCCGCAGGAGAATTTTCTGGTCAACGTGGTGCTGATCGCCGCCCTGTTCGCCCTGGTCAACTGCCCGAGCGTCGGGCTCTGGACCGTCGCCGGCAGCCTGCTGCGCCGCTGGCTGGAGGCCCCTCGCGTACGCCGTTGCTTCAACATCGGCATGGCGCTGCTGCTGGTGGCCTCCCTTTACCCTATCCTGGCCGATGTACAAGGAACCCTTTCATGA	MNPELLVAFVAFAFVTSVTPGPNNMMLLASGVNFGVRRSLPHMLGISLGFMVLVIAVGLGLGQLFERFPALYTALRYAGGAYLLYLAWKIAGAGAPQGGATASGKPLTFLQAAAFQWVNPKAWVMAIGAITTYTPQENFLVNVVLIAALFALVNCPSVGLWTVAGSLLRRWLEAPRVRRCFNIGMALLLVASLYPILADVQGTLS				NA	NA	NA	NA	NA
BMS010_03423	1209	ydcO_2	COG3135	Inner membrane protein YdcO	ATGAGTGACAGCGCTCCCACCATGGACACGCCCGCACGTCTGCGCCCGCTGGCCGACTCCTCGCCCTCCGCCATGGTGGCCGGCTTCATCGCCATGCTCACCGGCTACACCAGCTCGCTGGTGCTGATGTTCCAGGCCGGCCAGGCCGCCGGCCTGAGTACCGCGCAGATTTCCTCGTGGATAGGGGCGTTGTCGATCGGCATGGCGGTGTGCACCATCGGCCTGTCGCTGCGCTACCGCGCGCCCATCGTCGTCGCCTGGTCGACCCCCGGCGCCGCGCTGTTGATCACCAGCCTGCCCGGAGTCAGCTACGGCGAGGCCATCGGTGCCTTCATCGTCTGCGCCGCCCTGCTCGCCCTGGTCGGCCTCACTGGCGGTTTCGAACGGCTGATGCGCCGCTTGCCGGGCTCGCTGGCCGCCGCGCTGCTGGCTGGCATCCTGTTCCGCATCGGCAGCGAGATTTTCCTCGCCGCCCAACACAGCACTGCGCTGGTGCTGGCGATGTTCTTCACCTATCTGTTCGGCAAGCGCCTGGCGCCGCGCTACGCCATCCTCGCCGCACTGCTGGTCGGCGGCGGGGTGGCCGGTCTGCTCGGCCTGTTGGATTTTTCCGGTTTCGAGGTACAGGTCGCCGTACCGGTCTGGACCATGCCGAGCTTCTCGCTGCCGGCGATCGTCGGTATCGCCATTCCGCTGTTCATCGTCGCCATGGCGTCGCAGAACATCCCCGGCATCGTCGTGCTGCGCGCCGACGGCTACGACGTCCCGGCTTCGCCGCTGATTTCGGTGACCGGCATCGCCTCGCTGCTGCTGGCGCCGTTCGGCTCCCACGGCATCAACCTAGCGGCTATCAGCGCAGCCATCTGCACCGGCGCGGAAGCCCACGAGAACCCGCGCAAGCGCTATACCGCCGCACTCTGGTGCGGCCTGTTCTATGGGATCGCCGGTATCTTCGCCGCCACCCTGGCCGCGCTGTTCGCCGCCCTGCCGACGGCCCTGGTGCTGTCCATCGCCGCCCTGGCGCTGTTCGGTTCCATCGGCAGTGGCCTGAGCAATGCGATGCAGGAACCGAAGGAACGCGAAGCCGCGCTGGTGACCTTCATGGTCACCGCCTCGGGAATGACGTTGCTGTCCATCGGCTCGGCATTCTGGGGATTGATCGCCGGCGTGCTGACCCTGCTGATCCTCAACTGGCGCAAGGCCGCCTGA	MSDSAPTMDTPARLRPLADSSPSAMVAGFIAMLTGYTSSLVLMFQAGQAAGLSTAQISSWIGALSIGMAVCTIGLSLRYRAPIVVAWSTPGAALLITSLPGVSYGEAIGAFIVCAALLALVGLTGGFERLMRRLPGSLAAALLAGILFRIGSEIFLAAQHSTALVLAMFFTYLFGKRLAPRYAILAALLVGGGVAGLLGLLDFSGFEVQVAVPVWTMPSFSLPAIVGIAIPLFIVAMASQNIPGIVVLRADGYDVPASPLISVTGIASLLLAPFGSHGINLAAISAAICTGAEAHENPRKRYTAALWCGLFYGIAGIFAATLAALFAALPTALVLSIAALALFGSIGSGLSNAMQEPKEREAALVTFMVTASGMTLLSIGSAFWGLIAGVLTLLILNWRKAA	PGPT0005385_435	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_SYMPORTER,PGPT0005385-benE-K05782	NA	NA
BMS010_03424	1953			hypothetical protein	ATGCCAGCGGTCTCGCACTACGGTTTTGCCAATCTCGGAATGGCGAAGAAGTTGGGTATCGGCTTCGGCCTGGTTCTGCTGCTCACCGGTGTGGTCGCGGCGATCGGGCTGTCCTCTCTGCAGGCGATCGAACAGCGTTTCGAAAATCTCAAGCAGATGTCGTCCATCAACCTGTCGGTGCTGCGCGCGCGGCTGCAGGAGCAGCGTTTCGCCCTGACCAACGACAACCAGTCGGTGGAGGCGCTGCGCCAGGGGCTGGAGTCGGTCCAGACGTTGACCGCGGAGTTGAAACAGGACTCGGCGGCGATGGCCGACGTGGAGCAGGCCCTGGCGGCGTATCGCGAGTCGTTCGACCGTTTCGTCGAGCTGACCCTGGCCAAGGACCTGGCGCTGGAGATGGCCAACTGGTCGGTGGAGAGCGTGGCCAATAACCTCGACCTGCTGCAGAGCGGGCTGGCCGACGACGGCGTCTACGAGTTGAAGGAGTCCCAGGGCACCCGGGGCGGCGAGTTCGTCGAGCAGGCGAACCAGCTCGGTCAGATTTCCCGGCTGATGCTGCAAGCGATGAACGAGGCCCGCCTGCGCATGGACCAGAGCCGCAAAGGCGGCGAGGACGTGGCCTCGACCCGCATCGAGCAGGCCGAGCAGGCGCTCCAGCAGGCCGAGCAGTTGAAGGAGGCGGTCACGGATCCGGGGTATCGCACCGTGCTCAACGAAGTCAGCGGCCACATCACCAATTTCACTGCCAAGCTGGCCGAGTACACCGACCTGCTCGCCAAGGAGCGTCAGGTCTATGCCGAGCTGCGCGAGCGCGCCGAGCTGGCGGTGCAACGAGTGGACGAGGCGTCGGCCGAGCAGGAGGCAGCGATGCAGGCGGAGCTGACCGCCAACTCCGTGCTGATCCTGGGTTCGTCCAGCCTGGCGCTGCTGGTGGGCGTGCTGGCGGCTTTCCTGATCACCCGCGCCATCGTTCGCCCGCTGACCAGCGTGATCCGGGTGGCCAACCGCATCGCCGAAGGCGACCTGACCGCCCGTATCGAAGTACGCGGGGCGGATGAGATCGGCCAGCTGATGAGCGCCATGCAGCAGATGGCGACCGGCTTGAGCGGCATCGTCAGCGGGTTGCAGGCGGGCATCGACCAGATCGCCTCATCGGCCAGGACGCTGTCCAGCGTGACCGAGCAGACCACCATGGGGGTCAGCAGCCAGAAGCTGGAGACTGAACAGGTCGCCACCGCCATGAACGAGATGGCCGCCACCGTGCACGATGTGGCGCGCAACGCCGAGGAAGCGGCCCAGGCCGCCGAATCCGCCGACGCCAAGGTCAATAACGGGCACCAGGTGGTCAAGCAGAGCATCGCCCGTATCGAACAACTGGCGGCCTCGGCCGGCTCGGCGAGCCAGAGCATCGAGAGTCTCAGCCAGGACGTGCAGAACATCGGTGCGGTGCTGGACGTGATCAAGAGCGTCGCCGAGCAGACCAACCTGCTGGCGCTCAACGCCGCCATCGAGGCGGCGCGGGCCGGCGAGCAGGGCAGGGGCTTCGCAGTGGTCGCCGACGAGGTGCGCGCGCTGGCCAAGCGCACCCAGCAGTCCACGGCCGAGATCGAGCGCCTGATCGGCGCCCTGCAACAGGGCACCCAGACGTCGGTGGCGCAGATCCGCAGCAGCGGCGAGCTGGTCCGCCTGACCGTGGCCGATGCCCAGCAGACCGAAAGCGCCTTGGCGGCCATCGCGGCGGCGGTATCGGTGATCCATGAGATGAACCAGCAGATCGCCGCGGCGGCCGAGCAGCAGAGCGCGGTAGCCGAGGAGATCAACCGCAGCGTGACGGCGATTCGTGGCAGCGCCGATCAATCGGCCATGGCCATGGAAGGGACGGCGGCGTCGAGCGTGGAGCTGGCGCAGTTGAGCAACGAGTTGCAGGGGATGGTCGGGCACTTCCGCCTGTGA	MPAVSHYGFANLGMAKKLGIGFGLVLLLTGVVAAIGLSSLQAIEQRFENLKQMSSINLSVLRARLQEQRFALTNDNQSVEALRQGLESVQTLTAELKQDSAAMADVEQALAAYRESFDRFVELTLAKDLALEMANWSVESVANNLDLLQSGLADDGVYELKESQGTRGGEFVEQANQLGQISRLMLQAMNEARLRMDQSRKGGEDVASTRIEQAEQALQQAEQLKEAVTDPGYRTVLNEVSGHITNFTAKLAEYTDLLAKERQVYAELRERAELAVQRVDEASAEQEAAMQAELTANSVLILGSSSLALLVGVLAAFLITRAIVRPLTSVIRVANRIAEGDLTARIEVRGADEIGQLMSAMQQMATGLSGIVSGLQAGIDQIASSARTLSSVTEQTTMGVSSQKLETEQVATAMNEMAATVHDVARNAEEAAQAAESADAKVNNGHQVVKQSIARIEQLAASAGSASQSIESLSQDVQNIGAVLDVIKSVAEQTNLLALNAAIEAARAGEQGRGFAVVADEVRALAKRTQQSTAEIERLIGALQQGTQTSVAQIRSSGELVRLTVADAQQTESALAAIAAAVSVIHEMNQQIAAAAEQQSAVAEEINRSVTAIRGSADQSAMAMEGTAASSVELAQLSNELQGMVGHFRL	PGPT0015710_8620	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_03425	762	linC	COG1028	2,5-dichloro-2,5-cyclohexadiene-1,4-diol dehydrogenase	ATGAGCATGACCTTTTCCGGCCAGGTGGCCCTGGTGACCGGTGGGGCAGCCGGTATCGGCCGTGCCACTGCCCTGGCGTTCGCTGCCGAGGGGCTGCGCGTGGTGGTATCGGATGTCGATGCAACGGGTGGGGAAGGGTCTGTCGAGTTGATCCGCTCGGCGGGCGGCGAGGCCACGTTCATCCGTTGCGACGTGACCCGTGATGACGAGGTCAAGGCCCTTATGGACGGTGTGGTGGCGGCCTACGGTCGCCTCGACTACGCCTTCAACAATGCGGGTATCGAGATCGAGAAGGGCAAGCTGGCCGAGGGCAGCGAGGCGGAGTTCGACGCCATCATGGGCGTCAACGTCAAGGGTGTCTGGCTGTGCATGAAGCATGAGATTCCGCTGCTGCTGGCCCAGGGCGGCGGCGCCATCGTCAACACCGCATCGGTGGCCGGCCTGGGCGCGGCGCCGAAGATGAGCATCTATGCCGCCTCAAAGCATGCGGTGATCGGCCTGACCAAGTCTGCCGCCATCGAGTACGCCAAGAAGAAGGTCCGGGTGAATGCGGTGTGCCCTGCGGTGATCGATACCGACATGTTCCGCCGCGCCTACGAAGCCGACCCGAAGAAGGCCGAATTCGCCGCTGCCATGCACCCGGTCGGCCGGGTCGGCAAGGTCGAGGAAATCGCCGCCGCCGTGCTTTACCTGTGCAGCGACGGGGCGTCCTTCACCACGGGTCATTCCCTGGCCGTGGATGGCGGTGCGACGGCCATCTAG	MSMTFSGQVALVTGGAAGIGRATALAFAAEGLRVVVSDVDATGGEGSVELIRSAGGEATFIRCDVTRDDEVKALMDGVVAAYGRLDYAFNNAGIEIEKGKLAEGSEAEFDAIMGVNVKGVWLCMKHEIPLLLAQGGGAIVNTASVAGLGAAPKMSIYAASKHAVIGLTKSAAIEYAKKKVRVNAVCPAVIDTDMFRRAYEADPKKAEFAAAMHPVGRVGKVEEIAAAVLYLCSDGASFTTGHSLAVDGGATAI	PGPT0003180_6883	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0003180-ymfI|fabG|efpI-K00059	NA	NA
BMS010_03426	1011	curA	COG2130	NADPH-dependent curcumin reductase	ATGCCTGCCCAGAACAACCGCCAGTTCATCCTGGCCCAACGCCCCACCGGCGCTATCGACGACACCACCTTCAGCCTGGCGGAGAACACCGTCGGCGAACCGGCGGACGGCCAGATCCTGGTGGAGAACCTCTACCTCTCCCTCGACCCGGCGATGCGCGGCTGGCTGAACGATGCCAAGTCCTACATCCCGCCGGTTCAGATCGGCGAAACCATGCGTGCCCTCGGCGTGGGCAAGGTGATCGCCTCGCGTCACCCGGGCTTCGCCGTGGGCGACCATGTCAGCGGGCTCACCGGCATCCAGGATTACTACCTGGGCGATGCCAAGGGCTTCCACAAGATCGATCCGCAGCAGGCGCCGCTGCCCCGCTACCTCTCCGCGCTGGGCATGACCGGAATGACCGCCTACTTCGCCCTGCTCGACGTGGGCGAACCCAAGGCTGGCGAAACCGTGGTGATCTCCGGCGCCGCCGGCGCGGTGGGCAGCGTGGCCGGGCAGATCGCCAAAATCAAAGGCTGCCGGGTGGTCGGTATCGCCGGCGGCCAGGACAAATGCCGCTATCTGGTCGAGGAACTGGGCTTCGATGGGGCCATCGATTACAAGAACGAAGACGTGCACGCCGGCCTCAAGCGCGAGTGCCCGAAAGGCGTGGATGTGTATTTCGACAACGTTGGCGGCGATATCCTCGACGCCGTGCTGAGCCGCATCAACCTCAAGGCCCGCATCATCATCTGCGGCGCGATCAGCCAGTACAACAACAAGCAGGCGGTGAAAGGGCCGGCCAACTACCTGTCGCTGCTGGTCAACCGCGCCCGCATGGAAGGCATGGTGGTGTTCGACTACGCCTCGCGCTTCCCCGAGGCCCTGCGCGACATCGCCGGCTGGCTGGCCAGCGGTCAGCTCAAGTCGAAGGAAGACATCGTGGAAGGCCTGGAGACCTTCCCACAGACCATCCAGAAGCTCTTCACCGGTGAGAACTTCGGTAAGTTGGTCTTGAAAGTGAGGGGGTGA	MPAQNNRQFILAQRPTGAIDDTTFSLAENTVGEPADGQILVENLYLSLDPAMRGWLNDAKSYIPPVQIGETMRALGVGKVIASRHPGFAVGDHVSGLTGIQDYYLGDAKGFHKIDPQQAPLPRYLSALGMTGMTAYFALLDVGEPKAGETVVISGAAGAVGSVAGQIAKIKGCRVVGIAGGQDKCRYLVEELGFDGAIDYKNEDVHAGLKRECPKGVDVYFDNVGGDILDAVLSRINLKARIIICGAISQYNNKQAVKGPANYLSLLVNRARMEGMVVFDYASRFPEALRDIAGWLASGQLKSKEDIVEGLETFPQTIQKLFTGENFGKLVLKVRG	PGPT0023605_873	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-PLANT_CURCUMIN_RESISTANCE	ADAPTION_TO_PIS-CURCUMIN_DEGRADATION,PGPT0023605-curA|yncB-K23256	NA	NA
BMS010_03427	696	pyrF_2	COG0284	Orotidine 5'-phosphate decarboxylase	ATGTCCTGTCAGACCCCGATCATCGTCGCCCTCGACTTCCCCACCCGCGAGGCCGCGCTGGCCCTGGCCGCCCAGCTGAATCCGGCGCAATGCCGGGTCAAGGTCGGCAAGGAGCTGTTCACCCGCTGCGGTCCGGCGATCGTCGAGGCGCTGCAGGCGCAAGGCTTCGAGGTGTTCCTCGATCTGAAATTCCACGATATCCCCAACACCACGGCGATGGCGGTGAAGGCCGCGGCTGAGCTGGGCGTATGGATGGTCAACGTGCATTGTTCCGGCGGCCTGCGCATGATGACGGCCTGCCGCGAGACCCTCGACGCACTGAGCGGGCCCAAGCCGCTGCTGATCGGCGTGACCGTGCTGACCAGCATGGAGCGCGAGGACTTGGCCGGTATCGGCCTGGATGTTGAGCCCCAGGAGCAGGTGCTGCGCCTGGCCGGGCTGGCCGCCCAGGCGGGGTTGGACGGGTTGGTCTGCTCGGCGCAGGAGGCGGTGGCGTTGAAAGCTGCCCAGCCGGCCCTGCAACTGGTCACCCCCGGTATCCGCCCGACCGGCAGTGCCCAGGACGACCAGCGCCGTATCCTCACGCCGCGCCAAGCCCTGGACGCCGGCTCCGATTACCTGGTGATCGGCCGCCCGATCAGCCAGGCCGCCGACCCGGCGCAGGCTTTGGCCGCCGTAGTCGCCGAACTGGCCTGA	MSCQTPIIVALDFPTREAALALAAQLNPAQCRVKVGKELFTRCGPAIVEALQAQGFEVFLDLKFHDIPNTTAMAVKAAAELGVWMVNVHCSGGLRMMTACRETLDALSGPKPLLIGVTVLTSMEREDLAGIGLDVEPQEQVLRLAGLAAQAGLDGLVCSAQEAVALKAAQPALQLVTPGIRPTGSAQDDQRRILTPRQALDAGSDYLVIGRPISQAADPAQALAAVVAELA	PGPT0014965_4117	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0014965-pyrF-K01591	NA	NA
BMS010_03428	168			hypothetical protein	ATGCCCTGGTACGCCTGGCTGATTCTGATCCTCGCCATCGGTTCCATCCTTGGCAGCCTGTTGCTGTTGCGCGACACGGCGAAAAAGCTGCCCCTCACCGAAGAACAACTGAAACGCATCCACGAGCGCAATGCCGAGCAGGATGCGAAGGATGCACAGGATCGTTAA	MPWYAWLILILAIGSILGSLLLLRDTAKKLPLTEEQLKRIHERNAEQDAKDAQDR				NA	NA	NA	NA	NA
BMS010_03429	759			hypothetical protein	ATGCCTGTTCACCTGCGTTTTCTCCTGCCGCTGGCGGTGCTTGCCAGCGGTTTTCCACTGGGTTTCATCGCTCCGCAAGGCGCGGCCATTGGCATCCTGTTCATTGCGCTGGTGCTGGTCGGCGAACGCTATCTGCCCAGGCCGATCTGGTGGTCGTTGAGCCTCTCCGCCAGCGTCGCGCTGGCTGCCCACCTGCTGCCGGGCTTCAGCCCCTGGCCGTTGACCGCGCCACGGTCGTTCAGCCCGGACGCACCGCCCTATGCCGTGCGGCTGGGTTGGGACAAGCTGCTGGTCGGCCTGACGCTGCTGGCTTGGTGGCTGGGCCAGCCCAAACCTCACTCGGAAAACCTCCGGCTCGGCTACGGGGCGATGGCCGCCACCCTGCTGGCAGTGCCTTTGCTGGCGTTGGCGTTGGGGTTGGTCGGCTGGCAGCCGAAATGGCCTGACGAACTGCCGGTCTGGCTGGCGGTGAACCTGGGGGTGACGGTACTGACGGAGGAGCTGCTGTTTCGCGCCTGGCTACAGCGCAGCCTGATCGCCCGTTTCGGCGAATGGCCGGGCCTGCTGCTGGGGGCCGTGCTGTTCGGGGCGGTGCATCTGCCGTTCAGCCCGCCGTTCGCCCTGGTCGCCGGTGTGGCCGGGTTGGGCTACGGGTTGGCGTTCCATGCCACCGGCCGGTTGAGCGTCACGGTGCTGCTGCACGGCGCGGTCAATCTTTCCCATCTGTTGCTACTGAGCTATCCCCTTCGACTGGCATGA	MPVHLRFLLPLAVLASGFPLGFIAPQGAAIGILFIALVLVGERYLPRPIWWSLSLSASVALAAHLLPGFSPWPLTAPRSFSPDAPPYAVRLGWDKLLVGLTLLAWWLGQPKPHSENLRLGYGAMAATLLAVPLLALALGLVGWQPKWPDELPVWLAVNLGVTVLTEELLFRAWLQRSLIARFGEWPGLLLGAVLFGAVHLPFSPPFALVAGVAGLGYGLAFHATGRLSVTVLLHGAVNLSHLLLLSYPLRLA	PGPT0017355_13	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017355-tctB-K07794	NA	NA
BMS010_03430	825			hypothetical protein	ATGCCGCATCCACTGCGAGTGGCGTTATGGGGGCTATGGCTGTTGTTGGGCGTGATGGTCGGTCCGTCGATGGCCGCCGCCGCCGAACGGGTGCAGGTGGGCGGCGCGCATTTCCCGCCCTACGTGGGTAAGTTCGAAGAGGAGAAGGCCACCGGCCTGCTGCCCGAACTGCTCACGGCGCTGAACCAGATCCAGGGCCAGTACCAGTTCGTGCTGTTGCCGACGGCTGTGGCCCGGCGCTTCCGTGATTTCCAGCAGGGCCGGATCGACATCGCGATCTTCGAGAATCCCGAATGGGGCTGGCAGGGCATTCCCCATCAATTGGTCGACATGGGGCTCGAAGATGCCGAGGTGTACGTCGCCCGCAACGAGCCGTCGCGCGGGCAGGCCTACTTCGACCAGCTCAAGGGCAAGCGGCTGGCGCTCTACAACGGCTATCACTACCGCTTCGCTAGCTTCAATGCGGACCCGGAGTTCCTGCGCCGGGAATTCAACGCGACCCTGACCTATTCCCATGACAGCAATCTGCTGATGGTGCTGCGCGGCCGGGCGGACGTCGCCCTGGTCACCCGTTCCTACCTGGACGACTTTCTGGTCCGGCATCCGCAGTACGAAGGCCAGTTGCTGATGGCCAATACGGTGGATCAGGTCTACCACCACTACGCGCTGCTGCGGCCGGAGTCGCCCATCGATGCGAAGGAGTTCGCCACTCTGCTCGACCATCTGCGCCGTGATGGCCGTCTGATGCGAATCTTCGAGCCCTACCGGATTCAGGTCATGCCAGTCGAAGGGGATAGCTCAGTAGCAACAGATGGGAAAGATTGA	MPHPLRVALWGLWLLLGVMVGPSMAAAAERVQVGGAHFPPYVGKFEEEKATGLLPELLTALNQIQGQYQFVLLPTAVARRFRDFQQGRIDIAIFENPEWGWQGIPHQLVDMGLEDAEVYVARNEPSRGQAYFDQLKGKRLALYNGYHYRFASFNADPEFLRREFNATLTYSHDSNLLMVLRGRADVALVTRSYLDDFLVRHPQYEGQLLMANTVDQVYHHYALLRPESPIDAKEFATLLDHLRRDGRLMRIFEPYRIQVMPVEGDSSVATDGKD	PGPT0020800_16176	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_03431	789			hypothetical protein	TTGCGCGTGACATTGACCGTCCTGTTGGCCGCTCTGCTGGCGCTGGTAGTGCAACCTGCCTCGGCCGAACAAGTGGTGCGCGTGGGCGCCTATCATTTCCCCCCTTACGTGACCAAGCCGGAAAGCGACGCGCCCGGTGGTCTGCTGCCGGAGCTGCTCGGCCTGCTCAATCGCTCCCAGGGCGAGTACCGCTTCGTCCTGCTGCCCACATCGACTGCGCGCCGCTACCGCGATTTCCGCCATGCCCGCTTCGATATGATGATCTTCGAGTCGTCGGCCTGGGGCTGGCAGGGCGTCGATCTGACATCGCTCGATCTGGGGATCGAGGATGCCGAGGTCTATGTCGCCCGTGCCGAATCGGGGCGCGGGCAGGACTACTTCTCCGAGCTGAAAGGCAAGCGGTTGGCGCTCTACAGCGGCTACCACTATGGCTTCGCCGGCTTCAACGCCGACCAGGCCTTCCTGACCGAAAACTACCGGGCCATGCTCACTTATTCCCACGACAGCAATCTGCTGATGGTGTTGCGCGGGCGGGCGGATATCGCCGTGGTCACCCGTTCCTACCTGCAGGCGTACCTGGCCGAACACCCACGACAGGGGAACGGGCTGCTGGTCTCCGAGCGGGTCGACCAGGAGTACCACCACCAGGCTCTGGTACGTCCCGGCGGGCCATTGAGCGCTTCGGCCCTCGCGGTGCTGTTGGACGATCTGCGTCGCAGCGGCGATCTGGACCTCCTGTTGCGGCGCTATTACCTGTCGATGCCCGAAGGTGCGCTGGTAACCCCCTGA	MRVTLTVLLAALLALVVQPASAEQVVRVGAYHFPPYVTKPESDAPGGLLPELLGLLNRSQGEYRFVLLPTSTARRYRDFRHARFDMMIFESSAWGWQGVDLTSLDLGIEDAEVYVARAESGRGQDYFSELKGKRLALYSGYHYGFAGFNADQAFLTENYRAMLTYSHDSNLLMVLRGRADIAVVTRSYLQAYLAEHPRQGNGLLVSERVDQEYHHQALVRPGGPLSASALAVLLDDLRRSGDLDLLLRRYYLSMPEGALVTP	PGPT0020800_16176	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_03432	597	kstR2		HTH-type transcriptional repressor KstR2	ATGCAGGAACTGGTGGCGAGCGGGCAGGTGACCGATCCGGACAGTGCCCGGGGCAAGTTGCTGCAGACCGCGGCCCACCTGTTCCGCAGCAAAGGCTACGAGCGCACCACCGTTCGCGACCTGGCGAGCGCGGTGGGCATCCAGTCCGGCAGCATTTTTCATCACTTCAAGAGCAAGGATGAGATCCTCCGCTCGGTCATGGAAGAAACCATCCTCTATAACACCGCGCTGATGCGGGCCTCCCTGGCCGAGGCGACCAACCTGCGCGAGCGGGTGCTGGCACTGATCCGTTGCGAGCTGCAATCGATCATGGGCGGGACGGGCGAAGCCATGGCGGTGCTGGTCTACGAATGGCGCTCGCTGTCGGAAGAGGGCCAGGCGTACATCCTGGCCCTGCGCGACACCTACGAAGCGCTCTGGCTGGAAGTGCTCGGCGAGGCCAAGCTGGCCGGCTATTTCAAGGCCGATCCCTTCATCCTGAGACGCTTCCTCACCGGCGCACTGTCATGGACCACCACCTGGTTCCGTCCGCAGGGGCCGATGAGCCTGGATCAACTGGCGGAAGAGGCGCTTTCGCTGGTGATCAAGGAAGTTTGA	MQELVASGQVTDPDSARGKLLQTAAHLFRSKGYERTTVRDLASAVGIQSGSIFHHFKSKDEILRSVMEETILYNTALMRASLAEATNLRERVLALIRCELQSIMGGTGEAMAVLVYEWRSLSEEGQAYILALRDTYEALWLEVLGEAKLAGYFKADPFILRRFLTGALSWTTTWFRPQGPMSLDQLAEEALSLVIKEV				NA	NA	NA	NA	NA
BMS010_03433	1788			hypothetical protein	ATGACCAAGACCGTACGCATCGGCTGCGCCTCCGCCTTCTGGGGCGACACCTCCACCGCCGCGGCCCAGCTGGTGCAGGGCGTGCCGCTGGATTACCTGGTGTTCGATTACCTGGCGGAGATCACCCTGTCGATCATGGCCGGCGCCCGTCTCAAGCAACCGGACGCCGGCTACGCCACCGATTTCATCGAAGTCCTCGCCCCGCTGCTGCCGGCGATCGCCGAACGGCGCATCCGCGTGATCAGCAATGCCGGCGGGGTCAACCCACAGGCCTGTGCCGCCGCGTTGCGCGCCGCCTGCGACAAGGCCGGAGTGGCGCTGAAGATCGCCGTACTGCACGGCGACGATCTGCGCCCGAAGCTCGGCGAACTGGTCAAGGCCGACGTACGCGAGATGTTCAGCGACGAACCGCTGCCGGCCATGTGCGTCTCGGTGAACGCCTACCTCGGCGCCCCCGGCATCGTCGCGGCGCTGGAGGCTGGCGCCGATATCGTCATCACCGGCCGGGTGGTGGACAGCGCGGTGGTCAGTGCCGCGCTGGTCCATGAGTTCGGCTGGGCCTGGGACGACTATGACCGCCTGGCCCAGGCCGCATTGGCCGGGCACATCATCGAATGCGGGGCGCAGTGCACCGGCGGCAACTTCACCGACTGGGAGCAGGTGCCGGACTACGAGCACATCGGTTTTCCCATCGTCGAAGTCGAGGCCGACGGGCACTTCGTCGTGACCAAGCCGGAAGGCAGCGGCGGGCTGGTCACGCCGTTCACGGTGGGCGAGCAACTGCTCTACGAAATCGGCGACCCGCGCGCCTACCGCTTGCCGGACGTGATCTGCGATTTCTCCCACGTCAGCCTCGACCAGGCCGGCGCGAACCGCGTCGCCGTGGCCGGCGCCCGAGGCTTGCCGCCTACCGACCAGTACAAGGTCAGCGCCACCGCGCCGGACGGATTCCGCTGCACCGCCAGTTGCGTGATCGCCGGAATCGACGCGGTGAAAAAAGCCCATCGGGTGAGCCAGGCAATCCTTGCCAAGACCGAGGAACTGTTCCAAGAGCGCGGCTGGGGACCGTATCGCGAGACCAGCGTCGAGCTGCTCGGCAGCGAGGCCACCTACGGCCCGCACGCCCTGCGCCAGGACACCCGCGAAGTGGTGATCAAGCTCGCCGTGCGCCATCCGCGCAAGGAGGCGCTGGTGCTGTTCTCCCGCGAGATCGCCCAGGCTGCCACCGGTATGGCGCCGGGCCTGACCGGCATCGTCGGCGGGCGCCCCACGGTCTATCCGGTGATCCGCCTGTTTTCCTTCCTCGTGGACAAGGCCGCCTGCGACCTCGAGCTGGACCTGGACGGCCAACGCCTGGCGGTGACGCTACCGCCCAAGGCCGCCCTGGACACCCGTGAGCTGCCCGAGGCCCTTGACCCGCCGAAGCCGGAAGGCCAGGCCCAGGTCAGCGTGCCGCTGGTACGGCTGGCGGTGGCGCGCTCCGGCGACAAGGGCAACCACAGCAACATCGGTGTCATGGCGAGAAAGCCGGAATACCTGCCCTGGATCGCCGAGGCCCTGACCAACGATGCCGTGGTGGAGTGGATGCGCCACGTGCTCGACCCGGTCGTCGGCCGGGTCGGCCGCTGGTACCTGCCCGGTACGCACAGTCTTAACTTCCTGCTGGAGAACAGCCTGGGCGGCGGCGGCGTCGCCAGCCTGCGCATCGACCCCCAAGGCAAGGCGTTCGCCCAGCAGCTTCTGGAATTCCCGGTGCCGGTGCCCCAGGCGCTGGCCGAGCGCTTATAA	MTKTVRIGCASAFWGDTSTAAAQLVQGVPLDYLVFDYLAEITLSIMAGARLKQPDAGYATDFIEVLAPLLPAIAERRIRVISNAGGVNPQACAAALRAACDKAGVALKIAVLHGDDLRPKLGELVKADVREMFSDEPLPAMCVSVNAYLGAPGIVAALEAGADIVITGRVVDSAVVSAALVHEFGWAWDDYDRLAQAALAGHIIECGAQCTGGNFTDWEQVPDYEHIGFPIVEVEADGHFVVTKPEGSGGLVTPFTVGEQLLYEIGDPRAYRLPDVICDFSHVSLDQAGANRVAVAGARGLPPTDQYKVSATAPDGFRCTASCVIAGIDAVKKAHRVSQAILAKTEELFQERGWGPYRETSVELLGSEATYGPHALRQDTREVVIKLAVRHPRKEALVLFSREIAQAATGMAPGLTGIVGGRPTVYPVIRLFSFLVDKAACDLELDLDGQRLAVTLPPKAALDTRELPEALDPPKPEGQAQVSVPLVRLAVARSGDKGNHSNIGVMARKPEYLPWIAEALTNDAVVEWMRHVLDPVVGRVGRWYLPGTHSLNFLLENSLGGGGVASLRIDPQGKAFAQQLLEFPVPVPQALAERL				NA	NA	NA	NA	NA
BMS010_03434	876	fadH_1	COG1028	putative 2,4-dienoyl-CoA reductase	ATGGCATACGACTCGATCTTCCGACCCGGCCTGTTCGCCGGCCAGACCATCCTGGTCACCGGTGGCGGCAGTGGCATCGGCCGTTGCACCGCCCATGAACTGGCGGCCCTGGGCGCGCATGTGGTGCTGGTCGGGCGCAAGGCGGAAAAACTGGAAAAGACCGCCGGCGAAATCGGCGAGGACGGCGGCAGCGCCAGTTGGTATGCCTGCGACATCCGCGACGAGGACCAGGTAAAAGCCATGGTCGCGGCGGTGGTGGCCGAGCGCGGCACCATCCATCAATTGGTCAATAACGCCGGCGGGCAATACCCCGCCCCGCTCGCCTCGATCAACCAGAAAGGCTTCGAGACGGTGATACGCACCAACCTGGTCGGCGGCTTCCTGGTCGCCCGCGAGGTGTTCAACCAAAGCATGAGCAAGACCGGCGGCGGCATCGTCAACATGCTCGCCGACATGTGGGGCGGCATGCCCGGCATGGGCCATTCCGGGGCGGCACGCGCCGGCATGGAAAACTTCACCCGCACCGCCGCCGTCGAGTGGGCGCATGCCGGGGTACGGGTGAACGCCGTGGCGCCGGGCTGGATCGCCTCCAGCGGCATGGACACCTACGAGGGTGCCTTCCGCGCGGTGATCCCCACCCTGCGGGAAAGCGTGCCGCTCAAGCGCATCGGCACCGAATCGGAGGTGTCTGCCGCCATCGTCTTCCTGCTCTCCCCTGGTGCCGCCTTCGTCAATGGCGCCACCCTGCGCATCGACGGCGGCGCCAGCCTCGGCGGCCGGACCTTCCCCCTGGGCAAGGCGAAACCTGGGCAGCACCAGCCGTACAACGGCTTCCACCGGGCCTTCCTGCCCGACGTGCTGAAGGATGCGGAGTGA	MAYDSIFRPGLFAGQTILVTGGGSGIGRCTAHELAALGAHVVLVGRKAEKLEKTAGEIGEDGGSASWYACDIRDEDQVKAMVAAVVAERGTIHQLVNNAGGQYPAPLASINQKGFETVIRTNLVGGFLVAREVFNQSMSKTGGGIVNMLADMWGGMPGMGHSGAARAGMENFTRTAAVEWAHAGVRVNAVAPGWIASSGMDTYEGAFRAVIPTLRESVPLKRIGTESEVSAAIVFLLSPGAAFVNGATLRIDGGASLGGRTFPLGKAKPGQHQPYNGFHRAFLPDVLKDAE	PGPT0019825_135	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TERPENE_UTILIZATION	PLANT_DERIVED_CITRONELLOL-CITRONELLAL-CITRONELLATE_DEGRADATION,PGPT0019825-atuB|atuG-K13774	NA	NA
BMS010_03435	1617	pccB_2	COG4799	Propionyl-CoA carboxylase beta chain	ATGGCGGTCATCCAGTCGCAGATCGACACCCAGGGCGAGGATTTCGCCCGCAACCGCGAGGCCATGCTGGCGGCCGTCTCCGGCTTCCGTGAGATCGAGCAGAAGCTGCTGGACAAGGCGGCCGAAGCCAAGGCCAAGTTCGACAAGCGCGGCCAACTGCTGCCGCGCGAACGCCTGAACCTGTTGCTCGACCCCGGCGCGCCATTCCTCGAACTCTGTTCGCTGGCCGGCTACAAGCTGCACGACGACAAGGACGGCACCCAGGCCGGCGGCGGCATCATCGCCGGCATCGGCTACATCGCCGGGGTGCGCTGCCTGGTGACCGCCAGCAACAGCGCGATCAAGGGCGGCACCATCTCCCCCACCGGCCTGAAGAAAACCCTGCGCCTGCAACAGATCGCCATGGAGAACAAGCTGCCGGTGGTGGCCCTCACCGAAAGCGGCGGCGCCAACCTTAACTACGCGGCGGAAATCTTCGTCGAAGGCGCGCGCGGCTTCGCCAACCAGGCACGGATGTCGGCCATGGGCCTCCCGCAGATCACCGTGGTGCACGGCTCCAGCACCGCCGGCGGGGCCTATCAGCCGGGGCTGTCCGACTACGTGGTGGTGGTGCGCGACAAGGCCAAGCTGTTCCTCGCCGGCCCGCCACTGCTCAAGGCCGCCACCGGCGAAGTGGCGACCGACGAGGAACTGGGCGGCGCCGCGATGCACGCCCAGGTCGCCGGCACCGCCGAATACCTGGCGGAGAACGATGCCGACGGCGTGCGCATCGTCCGCGACATCCTCGCCCTGCTGCCCTGGAACGCGCAGTTGCCGGCCCGCTCGCAACGCGCCTGGCGCGAGCCGCTGTACCCGGCCGAGGACCTGCTCGGGCTGGTCCCGGCCGATCCGAAGAAGCCCTACGACGTGCGCGAGATTATCGCGAGGATCGCCGACGGCTCGGCATTCCTCGATTTCAAGAACGAGTTCGACAGCCAGACCGTCTGCGGCCACCTGGCCATCGAGGGCCAGCCCTGCGGCTTCATCGGCAACAACGGCCCGATTACCCCCAAAGGTGCCGCCAAGGCCGCGCAATTCATCCAGCTCTGCGACCAGAGCAACACGCCGATCCTGTTCTTCCACAACACCACCGGCTTCATGGTGGGTACCGAGTCGGAGCAGAACGGCGTGATCAAGCACGGCTCGAAGATGATCCAGGCGGTGGCCAACGCCCGGGTGCCCAAGCTGACCGTGGTCGTCGGCGGCTCCTACGGCGCCGGCAACTACGCCATGTGCGGCCGCGGCCTCGACCCGCGCTTCATCTTCGCCTGGCCGAACAGCCGCACGGCGGTGATGGGCGGCGCCCAGGCCGGCAAGGTGCTGCGCATCGTCACCGAGGAAAAACACGCGAAGGAAGGCAAGGTCCCCGACCCGAAGATGCTCGACATGCTGGAAACCGCTACCGCGCAGAAGCTCGACAGCCAGTCCGGCGCACTCTATGGCACCGCCAGCCTGTGGGACGACGGCCTGATCGACCCGCGCGATACCCGCAGGCTACTCGGCTACCTGCTGGACATCTGCGCGGAGGCGGAGGTGAGGCCGTTGAAGGCCAACAGTTTCGGCGTGGCGCGCTTTTAG	MAVIQSQIDTQGEDFARNREAMLAAVSGFREIEQKLLDKAAEAKAKFDKRGQLLPRERLNLLLDPGAPFLELCSLAGYKLHDDKDGTQAGGGIIAGIGYIAGVRCLVTASNSAIKGGTISPTGLKKTLRLQQIAMENKLPVVALTESGGANLNYAAEIFVEGARGFANQARMSAMGLPQITVVHGSSTAGGAYQPGLSDYVVVVRDKAKLFLAGPPLLKAATGEVATDEELGGAAMHAQVAGTAEYLAENDADGVRIVRDILALLPWNAQLPARSQRAWREPLYPAEDLLGLVPADPKKPYDVREIIARIADGSAFLDFKNEFDSQTVCGHLAIEGQPCGFIGNNGPITPKGAAKAAQFIQLCDQSNTPILFFHNTTGFMVGTESEQNGVIKHGSKMIQAVANARVPKLTVVVGGSYGAGNYAMCGRGLDPRFIFAWPNSRTAVMGGAQAGKVLRIVTEEKHAKEGKVPDPKMLDMLETATAQKLDSQSGALYGTASLWDDGLIDPRDTRRLLGYLLDICAEAEVRPLKANSFGVARF	PGPT0019845_87	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TERPENE_UTILIZATION	vCITRONELLOL-CITRONELLAL-CITRONELLATE_DEGRADATION,PGPT0019845-atuC-K13778	NA	NA
BMS010_03436	1161	acdA_1	COG1960	Acyl-CoA dehydrogenase	ATGCTGTTTACCCAGGAACACGAAGAACTGCGCCGCACCGTGCGGAATTTCGTCGAGAAAGAGATCAATCCGCACGTCGACGAGTGGGAGAAAGCCGGGCGCTTCCCGATCCACGACATCTTCCGGAAAGCCGGCGCTCTCGGCCTGCTGGGCATTTCTAAGCCGGAAAAATTCGGCGGCATGGGCCTGGACTACAGCTATTCCATCGTCGCTGCCGAGGAGTTCGGCACCATCCATTGCGGCGGCATCCCAATGTCCATCGGCGTGCAGACCGATATGTGCACCCCGGCCCTGGCGCGCTTCGGTTCCGACGAACTGCGCGAAGAGTTCCTCCGACCGGCCATCGCCGGGGAGTTGGTGGGTTGCATCGGCGTTTCCGAAGTGGGTGCCGGCTCCGACGTCGCCGGGCTGAAGACCACGGCGCGCAAGGACGGCGACGACTACGTGATCAACGGCAGCAAGATGTGGATCACCAACTCGCCGTCGGCCGACTTCATGTGCCTGCTGGCCAATACCTCGGACGACAAGCCGCACATCAACAAGTCGCTGATCATGGTGCCGATGAAGACACCGGGCATCAGTGTCAGCCCGCACCTGGACAAGCTCGGCATGCGCAGTTCGGAGACCGCCCAGGTGTTCTTCGACAACGTGCGCGTGCCGCAGCGCTACCGCATCGGCCAGGAAGGCGCGGGGTTCATGATGCAGATGCTGCAGTTCCAGGAAGAACGGCTGTTCGGCGCGGCCAATATGATCAAGGGCCTGGAACACTGCGTCGACGCCACCATCGCCTACTGCAAGGAGCGCCAGACCTTCGGCCAGCCGCTGATCGATAACCAGGTCATCCACTTCCGCATGGCCGAGCTGCAGACCGAGATCGAGGCCCTGCGCGCCCTGGTCTACCAGGCCACCGAGCAGTACGTCGCCGGCAAGGACGTCACCAAGCTGGCCTCCATGGCCAAGCTCAAGGCCGGCCGGCTCGGCCGCGAGGTGTCCGATGCCTGCCTGCAGTACTGGGGCGGCATGGGCTTCATGTGGGACAACCCCGTTTCCCGTGCCTACCGCGACGTGCGCCTGGTTTCCATCGGCGGCGGCGCGGACGAAATCATGCTCGGCATCATCTGCAAGCTGATGGGCATCCTGCCGGGGAAGAAGAAGGGCTAA	MLFTQEHEELRRTVRNFVEKEINPHVDEWEKAGRFPIHDIFRKAGALGLLGISKPEKFGGMGLDYSYSIVAAEEFGTIHCGGIPMSIGVQTDMCTPALARFGSDELREEFLRPAIAGELVGCIGVSEVGAGSDVAGLKTTARKDGDDYVINGSKMWITNSPSADFMCLLANTSDDKPHINKSLIMVPMKTPGISVSPHLDKLGMRSSETAQVFFDNVRVPQRYRIGQEGAGFMMQMLQFQEERLFGAANMIKGLEHCVDATIAYCKERQTFGQPLIDNQVIHFRMAELQTEIEALRALVYQATEQYVAGKDVTKLASMAKLKAGRLGREVSDACLQYWGGMGFMWDNPVSRAYRDVRLVSIGGGADEIMLGIICKLMGILPGKKKG	PGPT0019840_218	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TERPENE_UTILIZATION	vCITRONELLOL-CITRONELLAL-CITRONELLATE_DEGRADATION,PGPT0019840-atuF-K11731	NA	NA
BMS010_03437	801	fadB_2	COG1024	putative enoyl-CoA hydratase	ATGACTGAACTGCCGAACTGCGAAACCCTGCTGCTGGCCTACGACCGCGGCGTGCTGCAGATCACCCTCAACCGCCCGGACTGCCGCAACGCCATGAGCCTGCGCATGGTGGAAGAGCTGCGCGCCGTGCTGGCGGCTGCCGGCGGCGATCGCGAGGTGCGTGCCCTGGTCCTGCGCGGTACCGCTGGTCATTTCTGCGCCGGCGGCGACATCAAGGACATGGCCGCCGCCCGCAGCGCGGGTGCCGACGCCTATCGCACCCTGAACCGCGCCTTCGGCAGCCTGCTGGAAGAAGCACAGAGCATTCCGCAGGTACTGGTGGCCGCGCTCGAAGGCGCGGTACTCGGCGGTGGTTTCGGCCTGGCTTGCGTTTCCGACATTGCCATCGCCCATGAAGGCGCGCAGTTCGGCCTGCCGGAAACCAGCCTCGGCATCCTGCCCGCGCAGATCGCACCGTTCGTGGCCAAGCGCATCGGCCTGACCCAGGCCCGCCGCCTGGCCCTCACCGCCGCCCGCTTCGACGGCGCCGAAGCATGGCGCCTGGGTCTGGTGCACTACTGCGAAGCCAACACCGAGGCACTGGACCAGCGCCTCGCCGAAGTACTCGGCCAGATACGCCAATGCGCGCCGCAGGCCAACGCCCGGACCAAGCAGCTCCTGCTGGCGACCGAAACCACTCCGCTGACCACGCTGCTGGACGAGGCCGCCGACCGGTTCGCCGAAGCCGTCACCGGCCCCGAGGGCACCGAAGGCACCCTAGCCTTCGTGCAGAAACGCAAGCCGGGCTGGAGTGAGGGATGA	MTELPNCETLLLAYDRGVLQITLNRPDCRNAMSLRMVEELRAVLAAAGGDREVRALVLRGTAGHFCAGGDIKDMAAARSAGADAYRTLNRAFGSLLEEAQSIPQVLVAALEGAVLGGGFGLACVSDIAIAHEGAQFGLPETSLGILPAQIAPFVAKRIGLTQARRLALTAARFDGAEAWRLGLVHYCEANTEALDQRLAEVLGQIRQCAPQANARTKQLLLATETTPLTTLLDEAADRFAEAVTGPEGTEGTLAFVQKRKPGWSEG	PGPT0019855_134	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TERPENE_UTILIZATION	vCITRONELLOL-CITRONELLAL-CITRONELLATE_DEGRADATION,PGPT0019855-atuE-K13779	NA	NA
BMS010_03438	1989	accA1_2	COG4770	Acetyl-/propionyl-coenzyme A carboxylase alpha chain	ATGCCCGCGTTCAACAAGATTCTCATCGCCAACCGTGGCGAGATCGCCTGCCGGGTCATCGCCACCGCGCACCGCCTCGGCTATCGCACGGTGGCGGTATACAGCGAGGCCGACCGCGAGGCCCGTCATGTGCAAATGGCTGACGAAGCGGTGTGCATCGGCCCGGCCCCGGTCGGCCAGTCGTACCTGAACGGCGAGGCCCTCCTCGCCGCCGCGCGCCGGACCGGTGCCGATGCCATCCACCCCGGCTACGGCTTCCTGTCGGAAAACGCCGCCTTCGCCGAAGCCTGCGAGGCGGCGGGGGTCGTCTTCATCGGGCCATCGGTGGAGGCGATCCGCCTGATGGGCAGCAAGCGCCTGTCCAAACTCGCCATGCTGGAAGCCGGCGTGCCGTGCATTCCCGGCTACGAAGGTGCCGAACAGGACGATGCCACCCTCGTCCGCGAGGCGGCGCGTATCGGCTATCCGCTGATGATCAAGGCCAGCGCCGGCGGTGGCGGGCGCGGCATGCGCCTGGTGCATTCGGCCGACGAACTGGTCGCCCAACTGCGCACTGCCCGATCCGAAGCCCTGAACGCCTTCGGCTCGGCCGAGCTGATCCTCGAAAAGGCGGTGATCCAGCCACGCCACGTGGAAATCCAGGTTTTCGGCGACCGGCACGGCAACCTGGTCTACCTCGGCGAGCGCGATTGCTCGGTGCAGCGCCGCCACCAGAAGGTGATCGAGGAAGCTCCCTGCCCGGTGATGACGCCAGCGCTGCGTCGGGCCATGGGCGAAGCGGCAGTACAGGCGGCGGCCAGCGTCCGCTACGTGGGGGCCGGCACCGTCGAGTTTCTCCTCGACCGTGACGGCGCGTTCTATTTCCTGGAAATGAACACTCGCCTGCAGGTGGAGCATCCGGTCACCGAGCTGGTCACCGGCCAGGATCTGGTGGCCTGGCAGCTTCGTGTCGCCGAGGACCAGCCCCTGCCTCTGCGTCAGGGCGATATCCCGCTGCGTGGCCATGCCATCGAAGTCCGCCTGTATGCCGAGAATACGGCGCATGGCTTCCTGCCGCAGACCGGCCAGGTGGTGCGTTGGGAGCCGGCCATCATCGACGGCATCCGCATCGATCACGGCCTCGAGGAAGGCCAGTCCGTCACCCCCTTCTACGATCCGATGCTGGCCAAGCTGATCGCCTACGGCGAGACCCGCGACGAAGCCCGGCGCAAGCTGCTGCGTGCCGTGGAGGATTGCGTGTTGCTCGGCGTTACCGGGAACCAGCGCTTCCTCGCCAACCTGCTGGCGCATCCCGTTTTCGCCGCAGGTAAGGCGACCACCGCCTTCATCGGCGAGCATTTCGCTGACGACCCGAGCCTGCACCCGCAATCACCAATCCCCGGCGAGCTGGCCGTGGCCGCCGCCCTGCTCTACCAGGCGTCGGCCCTGGCGCGAGCACACCAGCCCGGTCTGGCCGGCTGGCGCAGCGCCAACAGCGCGCCCTGGCGCTACCTGCTCGGCCGCAGTGAAGAGAAGCACACGGTGGAGCTGGACCTGCTGGACGGCGGCCCGCAGCCACGAATGACCGCACGTTGCGGCGAGCAATCCATGGACCTGCGTCTGATCGGCAGCGACGGCCGCTGGGCTACATTCGAACTGGACGGCATGCGCCGACGTCTTGCCTACCACCTCGACGGTGAGCGCATCTGGCTGCACGGTGCCTTCGGCAACCTGGAATTGCGCGACCTCACCCATGCGCCGAGCGGTGCGCAGAACGCTGCGCACTCCGGCACGATCAAGGCACCGATGGATGGCGCCATCGTCGAGGTGCTGGTCGCCGAAGGCGAAAAGGTCGGCAAGGGCCAACTGCTGGTGGTGTTGGAAGCGATGAAGATGGAACACCCGCTCAAGGCCGGCATGGACGGCGTCGTCCGCCGGGTCGGCGTGAGCCGGGGCGATCAGGTCAGGAGCCGCCAGCTTCTGATCGAGGTGGAAGCCGAAGAAACCTGA	MPAFNKILIANRGEIACRVIATAHRLGYRTVAVYSEADREARHVQMADEAVCIGPAPVGQSYLNGEALLAAARRTGADAIHPGYGFLSENAAFAEACEAAGVVFIGPSVEAIRLMGSKRLSKLAMLEAGVPCIPGYEGAEQDDATLVREAARIGYPLMIKASAGGGGRGMRLVHSADELVAQLRTARSEALNAFGSAELILEKAVIQPRHVEIQVFGDRHGNLVYLGERDCSVQRRHQKVIEEAPCPVMTPALRRAMGEAAVQAAASVRYVGAGTVEFLLDRDGAFYFLEMNTRLQVEHPVTELVTGQDLVAWQLRVAEDQPLPLRQGDIPLRGHAIEVRLYAENTAHGFLPQTGQVVRWEPAIIDGIRIDHGLEEGQSVTPFYDPMLAKLIAYGETRDEARRKLLRAVEDCVLLGVTGNQRFLANLLAHPVFAAGKATTAFIGEHFADDPSLHPQSPIPGELAVAAALLYQASALARAHQPGLAGWRSANSAPWRYLLGRSEEKHTVELDLLDGGPQPRMTARCGEQSMDLRLIGSDGRWATFELDGMRRRLAYHLDGERIWLHGAFGNLELRDLTHAPSGAQNAAHSGTIKAPMDGAIVEVLVAEGEKVGKGQLLVVLEAMKMEHPLKAGMDGVVRRVGVSRGDQVRSRQLLIEVEAEET	PGPT0019850_96	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TERPENE_UTILIZATION	vCITRONELLOL-CITRONELLAL-CITRONELLATE_DEGRADATION,PGPT0019850-atuC|atuF-K13777	NA	NA
BMS010_03439	825			hypothetical protein	ATGTCACTCACCGGAAAGACCCTGTTCATCACCGGCGCCAGCCGCGGCATTGGCCGGGAGATCGCCCTGCGCGCGGCGCGGGATGGCGCCAACGTGGTGGTGGCGGCGAAAAGCGCCGAGCCGCATCCGAAACTGCCCGGCACCATCCATAGCGTCGCAGAGGAAGTCGAGGCCGCCGGCGGCAAAGCCCTGGCGCTGCAACTGGACGTCCGCGACGAGAACGCCGTGCGCGAGGCCATGGCCCGGGCCGCCGAGCGGTTCGGCGGAATTGATGCGCTGGTCAATAACGCCGGCGCGATCAAGCTGCTCGGTGTCGAACGGCTGGAGCCCAAGCGTTTCGACCTGATGTTCCAGATCAACACCCGCGCGGTGATGGTCTGCAGCCAGGCCGCGCTGCCCTACCTGAAGCAGAGCGGCAACGGCCATATCCTCAGCCTGTCGCCGCCGCTGAACCTGGACGCCCGCTGGTTCGCCCAGCACGGCCCGTACAGCGTGACCAAGTACGGCATGAGCATGCTCACCCTGGGCATGAGCGAGGAATTCAAGAAGTACGGCATCAGCGTCAATGCGCTCTGGCCCAAGACCATCATCGCCACCGCCGCCATCGAGTTCGAACTGGGTGGCCGCGACGCCTTCAAGGGCGCCCGTACCCCGGCGATCATGGCCGACGCCGCCCACGCCATCCTCTCCAGCAGCAGCCGCGCCATCACCGGTCGCCTGCTGGTCGACGAGGATATCCTGCGCGAACAGGGCCAGACGGATTTCGAGCAGTACCGCTACGACCCGCAGGGCGGGCCGCTGGTGCCGGATCTGTTCCTTGGCTGA	MSLTGKTLFITGASRGIGREIALRAARDGANVVVAAKSAEPHPKLPGTIHSVAEEVEAAGGKALALQLDVRDENAVREAMARAAERFGGIDALVNNAGAIKLLGVERLEPKRFDLMFQINTRAVMVCSQAALPYLKQSGNGHILSLSPPLNLDARWFAQHGPYSVTKYGMSMLTLGMSEEFKKYGISVNALWPKTIIATAAIEFELGGRDAFKGARTPAIMADAAHAILSSSSRAITGRLLVDEDILREQGQTDFEQYRYDPQGGPLVPDLFLG	PGPT0019830_590	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TERPENE_UTILIZATION	vCITRONELLOL-CITRONELLAL-CITRONELLATE_DEGRADATION,PGPT0019830-atuH-K13775	NA	NA
BMS010_03440	1845		COG0318	Long-chain-fatty-acid--CoA ligase FadD17	ATGCCGAACGTGCCGATTGCCATGAGCCAAGCCGATCTGATTTCTCCCGTACGCTTCCTGGCCCGCCTGCCGCTGCACCTGCCACGTGTGCCGCGTATGTTGCGCGGGCTCTACTACGCCGGAATCCGTAACCGCGACAAGAACCTCTCCCTGGCCTGGGCACTGGAACGCGCCGCTCGCCTGCACCCGGAACGACCGGCGCTGATGGATGAGCAGCGGCGCCTGAGCTACGACGCCTTCAACGCTTGGGCGAACCGCCTGGCCTGGGCGTTCAAGGCCGAAGGGGTACGCCACGGCAGCGTGGTGGCGGTGATGCTGGAGAACCGCCTGGAGCTGCTGGCGATCCTCGCCGCGCTGGCCAAGCTGGGCGCCATCGGTGCGCTGATCAACACCACCCAGCGCGGCAAGGTGCTGGCCCACAGCCTCAACCTGGTCGAGCCGAGCCATTTCGTGATCGGCGACGAGCTGCGGGATGCCTTCGACGAGGTGCGGGGCGAGCTGGTCGACGAGGGCCGGCATTACTGGGTCGGCGATCACGATACCCTCGCCGCCCCCGGCGAAGCCCCGGCCGGCTGGCACAATCTGATGCGCCTGGCCCTCGGCCGGGACGACGCTAATCCGCCGGACAGCCTCCGGGTGCGCATGAAGGATGCCTGCTTCTACATCTACACCTCGGGTACCACCGGCCTGCCCAAGGCGTCGATCATGAGCCACGGCAAATGGATCAAGGCCTATGGCGGCTTCGGCCACTCCGGCCTGACGCTCGACGAGCAGGATGTCCTCTATCTCACGCTGCCGTGCTACCACAACAACGCCGTGACCGTGTGCTGGAGCGCGGCCCTGGCGGGCGGCGCGGCCATCGCCCTGCGCCGCAAGTTCTCCGCCAGCGCCTTCTGGGCGGATGTACGGCGCTACAACGCCACCTGCTTCGGCTACATCGGCGAACTGTGCCGCTATCTGCTGAACCAGCCGCCGTCCGAGGACGAGCGCGACAACAGCCTGCGCTGCATGATCGGCAACGGATTGCGACCCTCGATCTGGGCGGAATTCAAGGAGCGCTTCGGCATCGAGCGAATCACCGAGTTCTATGCCTCCAGCGAAGGCAACATCGGCTTCACCAACGTGTTCAACTTCGACAACACCGTGGGCTTCTCCCCCGCCACCTACGCCATCGTCCGCTACGACCTGGAGAACGACCAGCCGATCCGCAATGCCAAGGGCTTCCTGGAAAAGGCGGACAAGGGCGAAGCCGGGCTGCTGATCAGCGAGATCAGCGACAAGTGGCCGTTCGACGGCTACACCGATCCGGCGAAGAGCGAGGCGGTGATCCTGCGCAACGTCTTCAAGAAGGGCGACGCCTGGTACAACACCGGCGACTTGATGCGCGACATCGGCTGCAAGCACGCCCAGTTCGTCGACCGGCTCGGCGACACCTTCCGCTGGAAAGGCGAGAACGTCTCGACCACCGAGGTGGAAAGCGTGCTGGGTGCCTTCCCCGGTATCGAGGACGCGGTGGTGTACGGGGTAGAAATTCCGGGAACCAATGGCCGCTGCGGCATGGCGGCGCTGCGCCCGGCGCCGGGCCTCGTACCGGACTGGCACGAACTGGCCGCCCACCTGGACCGCGAACTGCCGCCCTACGCCATACCGCTGTTCGTGCGGCTATTGGCCAAGGTGGAGACCACTGGGACCTTCAAATACAAGAAGACCGACCTCAAGCGCGAAGCCTACGACCCCACCGCGACCCACGACGCCCTGTTCGTCCGCCTGCCCGGCGAGGACCGTTACCAACCGCTGGAAGCCGACCTGTATCAGGCGATACAGAACGGCGAGTACCGGTTCTAG	MPNVPIAMSQADLISPVRFLARLPLHLPRVPRMLRGLYYAGIRNRDKNLSLAWALERAARLHPERPALMDEQRRLSYDAFNAWANRLAWAFKAEGVRHGSVVAVMLENRLELLAILAALAKLGAIGALINTTQRGKVLAHSLNLVEPSHFVIGDELRDAFDEVRGELVDEGRHYWVGDHDTLAAPGEAPAGWHNLMRLALGRDDANPPDSLRVRMKDACFYIYTSGTTGLPKASIMSHGKWIKAYGGFGHSGLTLDEQDVLYLTLPCYHNNAVTVCWSAALAGGAAIALRRKFSASAFWADVRRYNATCFGYIGELCRYLLNQPPSEDERDNSLRCMIGNGLRPSIWAEFKERFGIERITEFYASSEGNIGFTNVFNFDNTVGFSPATYAIVRYDLENDQPIRNAKGFLEKADKGEAGLLISEISDKWPFDGYTDPAKSEAVILRNVFKKGDAWYNTGDLMRDIGCKHAQFVDRLGDTFRWKGENVSTTEVESVLGAFPGIEDAVVYGVEIPGTNGRCGMAALRPAPGLVPDWHELAAHLDRELPPYAIPLFVRLLAKVETTGTFKYKKTDLKREAYDPTATHDALFVRLPGEDRYQPLEADLYQAIQNGEYRF	PGPT0019835_98	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TERPENE_UTILIZATION	vCITRONELLOL-CITRONELLAL-CITRONELLATE_DEGRADATION,PGPT0019835-atuD-K13776	NA	NA
BMS010_03441	522			hypothetical protein	TTGAGCTTATCCGTGTTCCCTTTGCGACTGCCGATGAACGTCCGTTTTCTCTGCCTGATTCCGTTTCTGTTCGCCCTCGGGGCCTGCGAGCCCGACAAACCGCCGGCAAAGCCGGCCAAGCCCGAGCCGGCTGCCGTTCCCGCGCCCGCGCCGACACCTGTGCCACCGTCACCTCCGGCGGTCGAGCCGGCGAAACCGGTAGCCCCGGAAAAAGCCACGGTCAAGTCGCCTGAGTTGAAGCCGAAGCCCGCGGTCGCGGTGAAACCCACCCCGCCTGCACCAGCCAAGGTCGAAGAGCCGCCCAAGGCAAACCTGGATCTCAGCCTTCCGCCGGAGCTGGTGGAACAGGTCGAGCCGCTCGAGGACAAGCCCCTGGACTCGGTGTTGCCCTCGTTCTTCGTCGATAAGGCGCCGACGGAAAGCCCGTTCCAGCTCAATGGCCGCCTGATTACCAATGATCGCGAGGATGATTACTGGCAGTCGGTAGAAGGCGCGGAATTGCAGTTCGAATTCAAGCGTTGA	MSLSVFPLRLPMNVRFLCLIPFLFALGACEPDKPPAKPAKPEPAAVPAPAPTPVPPSPPAVEPAKPVAPEKATVKSPELKPKPAVAVKPTPPAPAKVEEPPKANLDLSLPPELVEQVEPLEDKPLDSVLPSFFVDKAPTESPFQLNGRLITNDREDDYWQSVEGAELQFEFKR				NA	NA	NA	NA	NA
BMS010_03442	324			hypothetical protein	ATGGGGAGCTATTCGTTCTGGAGTGCGCTCGTCGGCTATGCCGGCAGCCTGCCGTTGCTGCTGGTCTGGCTCGCCGGTGGGGCGTTGGCCCTGGCTCATTGGCGGCAACGGCCACGGGTGAGCCTGCTGTGCTTCCTGAGCATGGCGCTGATGCTGGTCTGGTTCGTGACACAAGCTGCGTTGTATGCGGTGTTACCCCAACTGCTGGAGAGCGCCACCGACATGGTCTGGGTGTACGCAGCGCTGGGTGCGCTAGGCAGCCTGGTATCGGCCTGTGGCTTCGGACTGCTGCTCTGGGCACTGTTCGGTCGCCATGAGGCGTGA	MGSYSFWSALVGYAGSLPLLLVWLAGGALALAHWRQRPRVSLLCFLSMALMLVWFVTQAALYAVLPQLLESATDMVWVYAALGALGSLVSACGFGLLLWALFGRHEA				NA	NA	NA	NA	NA
BMS010_03443	729			hypothetical protein	ATGAACCAGACGCCACAACGGCCCGATTCCGGTGAGCTGGAATTGCTGCAGCATTACCGCCGGCACACGGCCGAGCAGCCTTCCGCTGAGCTGGATGCCCGTATTCTGGCGGCGGCCCGTGAGGCCGCTGCTTCCCGCCGCGAGGCGCGGCCTGGCCTGTTCGATCGCCTGCGTGCCTGGTTGTTTGCCGGCAATCCCCGGGCGCGCTGGTCGGTGGCCTTCGCCAGCCTGGCGACGATCGGCCTGGGGCTCGGCCTCAGCCTGCATACCCTTGAACGGCCGGGTGAAATGGATGCCGTGCCGATGTCCAGGGCGCCCGCACCGGTGAGCAGCTATGCTGCGCCACCGATGCCGGAGGAACGAGCCTTGAGCCGGCGACAATTGGCCGAAGAGGCTCCCGCTGCGCCTTCGGTGTTGGCCGAAAGGCAGAGCGCGCCTGCCAAGATGGCGCCCGATGTGGGCGACATGGCGAACAGCTCAGAGGCGACCGGGATGGCCGATGTCATGCCGCAACGCAAGGTCGAGGCCGCCAGGATCGCCGGTTCCCTCGCCGACGAACAGTCGGAAGAGCAACTGCGGCAGGCGCTGCAGAAGGTACTCGAACTGCGGCGGCAAGGTGATGAGCAAGTCGCGGAACAACAGTTGCGTCTGCTGCAGGATCGCTATCCGCAACGGGATCTGACCGCCGAACTGGAGCGTCTGGCGCAGGAGGAAGCGCAGAAGCGCTAG	MNQTPQRPDSGELELLQHYRRHTAEQPSAELDARILAAAREAAASRREARPGLFDRLRAWLFAGNPRARWSVAFASLATIGLGLGLSLHTLERPGEMDAVPMSRAPAPVSSYAAPPMPEERALSRRQLAEEAPAAPSVLAERQSAPAKMAPDVGDMANSSEATGMADVMPQRKVEAARIAGSLADEQSEEQLRQALQKVLELRRQGDEQVAEQQLRLLQDRYPQRDLTAELERLAQEEAQKR				NA	NA	NA	NA	NA
BMS010_03444	570	rpoE_2	COG1595	ECF RNA polymerase sigma factor RpoE	ATGGATGACGATGCCGCCTTGCTGCGGCGCTATCGCAATGGCGATGCCGGGGCCTTTGGCGTTCTCTACGAACGGCATCGCCTCGGCCTGTTTCGTTTCCTCTGCGGCCTGTGCGGCGACTCCGCGCTGGCCGAAGAAATTTTCCAGGAAACCTGGGTAAGCCTGATCCGCAGTGAATCGGTGCTGCGCGAACAGGTCAGCTTCAAGACCTGGCTGTACCAGATCGCCCGCAATCGTCTGATCGATCAATGGCGCAAACAGGGGCGTCGGCAGGGCTTGCAGGAGGCATTCGACGAGCAACTGCACGGCGAGGTCTCCAGTGAGCCCGGCCCCGAGCAGCAGCTCAGCCTCAGCCGTGACCAGGCGCGCCTGCGCGCGGCGCTCGACGAGTTGCCGGGAGAACAGCGGGAAGTGTTTTTGCTACGTGCCCACGGCGATCTCGAGCTGGCGGAAATCGCCGAATTGACCCGCACCCCGGCGGAGACGGTGAAAAGCCGCCTGCGCTACGCCTTGCAGAAGCTGCGCCGGTTGCTGACCGATCCGGCGGCGGCCGAGGAGGTATCCGCATGA	MDDDAALLRRYRNGDAGAFGVLYERHRLGLFRFLCGLCGDSALAEEIFQETWVSLIRSESVLREQVSFKTWLYQIARNRLIDQWRKQGRRQGLQEAFDEQLHGEVSSEPGPEQQLSLSRDQARLRAALDELPGEQREVFLLRAHGDLELAEIAELTRTPAETVKSRLRYALQKLRRLLTDPAAAEEVSA	PGPT0014960_4043	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
BMS010_03445	1704			hypothetical protein	ATGTCCCGTTATCTGTTTGCCCTTCGCCAACCGCTGTTGGCAGGTTTCTCCGCCGGCCTATTGCTGGCTTTGGCTGCTTGCAGCGCTTCGCAATCCGAGACCACCGCCGATGCGACCGCCCCTGCGGCACCGGAGGCGAGCCTCGCCGACATGGCGCGGGAGAGTGTGGTTGCACAGAAGAGCGAGCGTGTCGCTGGCTATGTTGCCAGCCCAGCGGTAAAACCGATGCTCATGCCGGCACCGCTGGCCGATGCGTTGCCCCCGGGCTATCGCGACGAGGCACGTGAACAATACCAGGCATTGGCCGACAATCCGGTTCACGCAGTGGCCGAGTCGCCGGTCTCCACCTTCAGCATCGACGTGGATACCGGCGCCTACGCCAACGTGCGGCGCTTCCTCAACCAGGGCCAATTGCCGCCGAAGGATGCGGTGCGTCTGGAGGAGATGGTCAATTACTTCCCCTACGCCTATCCGCTGCCGAAAGGGGACACCCCGTTCGGCATCGGTATCGAACTGGCGCAGACCCCGTGGAATCCCGAAAGCCGCCTGCTGCGCGTAGCGATCAAGGCCTCGGATACACAGGTGGAAGCCTTGCCACCGGCCAACCTGGTGTTTCTCGTCGATGTCTCCGGCTCGATGGACCGGCGCGAGGGGCTGCCCCTGGTACAGAGCACCCTGAAATTGTTGGTCGACCAATTGCGGCCGCAGGACAAGGTGTCGCTGGTGGTCTACGCCGGCGAGTCGCGGGTGGTGCTGGAGCCGACTTCCGGTGCGGAGAAGGCCCGCATTCGCGCGGCCATCGAGGCCCTCACCGCCGGCGGTTCCACGGCAGGCGAGTCCGGCATCCAACTGGCCTATCAGCAGGCCAGCAAAGGCTTCATCGAGAAGGGGATCAACCGAATCCTGCTGGCCACCGACGGCGACTTCAACGTCGGCATCAGCGATTTCGAAACCCTCAAGCAACTGGCGGCGGATAAGCGCAAGACCGGGGTCTCGCTGACCACCCTGGGCTTCGGCGTCGATAACTACAACGAGCGGCTGATGGAGCAATTGGCCGATGCCGGCGACGGTAACTATGCCTACATCGACAATCTGCGCGAGGCGCGCAAGGTACTGGTGGACCAGCTCGGCTCGACCCTGTCGGTGGTGGCGAAGGACGTGAAGGTCCAAGTGGAATTCAACCCGGCCCAGGTCAGCGAATACCGCCTGCTGGGCTACGAGAACCGTGCCCTCAAACGGGAGGATTTCAGCAACGACAAGGTGGATGCCGGTGAGATTGGCGCCGGGCATACGGTCACCGCGCTCTACGAGGTCGTTCCGGCGGGCGGAAAGGGTTGGTTGGAACCGTTGCGGTACCAGTCGAAGCCACCGGCGACCGCGGACAAGAACGAGCTGGCGCTATTGCGGATTCGCTACAAGGCACCGGGGGAGACGAGCAGCCGGCTGCTGGAGGTGCCAGTGCAGCCGGAGCCGGTCGCATCGATCGAGCGTGCCAGCGAGGACCTGCGTTTCGCCGCCGCGGTGGCGGCCTTCGCCCAGCAACTGCGTGGCGGCCGCTACACCGGTGAGTTCGGTCTCGCCGACAGTGCCCGTCTGGCGCGCGGGGCGAAAGGCGAGGATCCGTTCGGTCTGCGCGGCGAGTTCGTCCAACTGGTCGAACTGGCGCAGAGCCTGGATATTTCCAGTGACGGCACGTCCAACTGA	MSRYLFALRQPLLAGFSAGLLLALAACSASQSETTADATAPAAPEASLADMARESVVAQKSERVAGYVASPAVKPMLMPAPLADALPPGYRDEAREQYQALADNPVHAVAESPVSTFSIDVDTGAYANVRRFLNQGQLPPKDAVRLEEMVNYFPYAYPLPKGDTPFGIGIELAQTPWNPESRLLRVAIKASDTQVEALPPANLVFLVDVSGSMDRREGLPLVQSTLKLLVDQLRPQDKVSLVVYAGESRVVLEPTSGAEKARIRAAIEALTAGGSTAGESGIQLAYQQASKGFIEKGINRILLATDGDFNVGISDFETLKQLAADKRKTGVSLTTLGFGVDNYNERLMEQLADAGDGNYAYIDNLREARKVLVDQLGSTLSVVAKDVKVQVEFNPAQVSEYRLLGYENRALKREDFSNDKVDAGEIGAGHTVTALYEVVPAGGKGWLEPLRYQSKPPATADKNELALLRIRYKAPGETSSRLLEVPVQPEPVASIERASEDLRFAAAVAAFAQQLRGGRYTGEFGLADSARLARGAKGEDPFGLRGEFVQLVELAQSLDISSDGTSN	PGPT0014015_1895	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0014015-yfbK-K07114	NA	NA
BMS010_03446	1440	norG_2	COG1167	HTH-type transcriptional regulator NorG	ATGACCAATCTGTTGCTCTATCAGCGCATCGCCCAGCAATTGGCCGATGACATCCGCCGCGGTGTATACCGTCCCGGCGAACGCGTGCCCTCGGTACGCAAGATGAGTTCTCAGTTGAACGTCAGCCACGCCACCGTCCTGCAGGCCTACGCCAACCTCGAGGACCAGGGCCTGATCCGCGCCCGCCCGCAGTCCGGTTTCTACGTGCACCAGACCCCCGCGCTAACGGCACCGACGCCGGATATCGCCAAGGTGGAGCGGCCGAGCCTGGTCACCCGTGCCAGCATCATCAACCAGGTACTGACCGAGTCCCGCCGTGAGGGGGTGTTCCCCCTGGGTGCCGCCGTTCCGCATGTCGATTACCTGCCGGTGCGGGCCCTCCACCAGCAACTGGCCAAGGTGACTCGTTTCCACAGCCCGCGGGCCTTCAGCTACATGTTCAGCCCCGGTTTCGAACCGTTGCGCCGGCAGGTGGCTATTCGCATGCGTGATGCCGGCGTGGTGGTCGATCCGTCGGAAGTGGTCATCACCCATGGCTGCGTCGATGCCATCCAGATGTCGCTGCGGGTCCTGACCCGGCCGGGCGACCTGATCGCCACCGAATCGCCCACCTACTACGGCCTGCTGCAGTTGGCTGATCTGCTGGGCCTCAAGGTGATCGAGATTCCCAGCGACCCGACCACCGGGATCAGCCTGGAGGCTCTGCAACTGGCGGCCAACCAGTGGCCGATCAAGGCATTGGTGCTGACCTCGCGGCTGAGCAACCCCCTCGGCGGTACCGTCCCCGAAGCACGGCAAAAGCAGTTGCTCCGGCTGGCGGGTGATTTCGGCATCCAGGTCATCGAGGACGATATCTACGGCGAGCTGATGTTCGAGCAGGGGCCGACCAAGTCGCTCAAGGCTCACGACCGTGAAGGCCGGGTGCTTTATTGCTCAAGCTTCTCCAAGACGTTGTCGCCGGGCGTGCGCATCGGCTGGGTTATCGCCGGCAAATACCAGGACGAGATTCAGCGTTTGCAGACCTTCACCACCCATTCGGCGTGCAGCGTCACCCAGATGGGCGTGGCGGCGTATCTGGAGAACGGCGGCTATGACCGCCACCTGCGCTATATCCGGCAGGAGTACCGCAAGAACCTCAGCGCCTTCCAACTGGCGATCCAGCAGTACTTCCCCGAAGGTACTCAGATCACCCGGCCGAACGGTGGCTTCATCCTATGGGTCAGCCTGCCGGCGCGGGTGAATACCAAGGATTTACACGTGCGCGCCCTGCATCAGGGCATCAGCATCGCCCCCGGCCTGATCTTCAGCAACACCGAGCAGTTCAACCACTGCGTGCGCCTGAACTGCGGCGTGCCGTGGAACCGCGAGACGGAACGAGCGCTGATGACCCTCGGGCTGCTGGCCACGCAGTTGTGCCAGGAGGCGGGCGGCACGTACTGA	MTNLLLYQRIAQQLADDIRRGVYRPGERVPSVRKMSSQLNVSHATVLQAYANLEDQGLIRARPQSGFYVHQTPALTAPTPDIAKVERPSLVTRASIINQVLTESRREGVFPLGAAVPHVDYLPVRALHQQLAKVTRFHSPRAFSYMFSPGFEPLRRQVAIRMRDAGVVVDPSEVVITHGCVDAIQMSLRVLTRPGDLIATESPTYYGLLQLADLLGLKVIEIPSDPTTGISLEALQLAANQWPIKALVLTSRLSNPLGGTVPEARQKQLLRLAGDFGIQVIEDDIYGELMFEQGPTKSLKAHDREGRVLYCSSFSKTLSPGVRIGWVIAGKYQDEIQRLQTFTTHSACSVTQMGVAAYLENGGYDRHLRYIRQEYRKNLSAFQLAIQQYFPEGTQITRPNGGFILWVSLPARVNTKDLHVRALHQGISIAPGLIFSNTEQFNHCVRLNCGVPWNRETERALMTLGLLATQLCQEAGGTY				NA	NA	NA	NA	NA
BMS010_03447	810	pal_3		Peptidoglycan-associated lipoprotein	GTGAAGCGGACCGTTTCGTTCATCGTTACCACCCTCGGTGTGGTCCTGCTTTCCGCCTGTGCAAGTCAGCCGAACAGTGAGCAGGCGCTGGAAGAGGCACGCATCAAGTTCCAGAAGGTCAAGGAAGATCCCGATGTGCTGCGCAGCGCGCCGAAGGATGTGATCCGCGCGGGCGAGTCCCTGGCGCGTGCCGATCGGCTGTCCAGCTACTGGGGCAGCGGCGAGGATGTCGCCCACTACGCCTATCTCAGCCAGCGCTACAGCGAGATTGCCGTCCAGCACGGCGAGCTGGTCATGAACCAGGAACGCGCGGCACGGCTGGAACTGGAGCGCGAGCGTCTGCAGTTGGCACTACGCGAGGCCAAGCTGCTCAGCGTGCAGCAGCAGGGCCAGTGGCTGGAAGAGCAGATGGTCAACCTCGCCGCCACCGAGACTGAACGCGGGCTGGTGATGACCTTGGGTGATGTGCTGTTCGATACCGGACGGGCCGAGCTCAAGGCATCGGCCAACCGCACTGTGCTCAAGCTGGTCCAGTTTCTCCAGCTCAATCCCCGTCGTGTCGTGCGTATTGAAGGCTATACCGACAGCAGTGGTGACAAGCAGGAAAACCTGGAACTGTCCCGCGCGCGTGCCCAGACGGTGGCTGACGTACTGACGGACCTGGGGATCGACGCCAAGCGCATCCAGGTCGAAGGCTATGGCGAACAATATCCGGTGGCCGAGAACGCATCCTCGCGGGGGCGTGCGCAGAATCGCCGGGTCGAAATCGTTTTCTCCGATGAGAAGGGGCAGCTCGGCCCGAGCCGCTGA	MKRTVSFIVTTLGVVLLSACASQPNSEQALEEARIKFQKVKEDPDVLRSAPKDVIRAGESLARADRLSSYWGSGEDVAHYAYLSQRYSEIAVQHGELVMNQERAARLELERERLQLALREAKLLSVQQQGQWLEEQMVNLAATETERGLVMTLGDVLFDTGRAELKASANRTVLKLVQFLQLNPRRVVRIEGYTDSSGDKQENLELSRARAQTVADVLTDLGIDAKRIQVEGYGEQYPVAENASSRGRAQNRRVEIVFSDEKGQLGPSR				NA	NA	NA	NA	NA
BMS010_03448	354			hypothetical protein	GTGAGCAATCGATGTCCAATCGCCGCCATCGCCCTGCTGGCCCTGGCGGGCTGCGCCGCCGACCCGGCGCCGAACGAACAGTTGCGCCTGACCGAACAGGCGGTGGCCCAGGCCAGGGCGGTCGGTGCCACCGAAGAGGTACCCGAGCTGAAGTTGGCGCAGGAACGGCTGGCGCAGGCTCAGGAAGCCATGGCCGATGAATCCTACAAGGAAGCACGCATGCTGGCTGAGCAGGCCGAGCTGGATGCACGCTTGGCCGAGGCCCTGGTCTTGACGAAGAAGAGCCAGGACCAGCTCGCCGAACTGAACCAACGGATCAATCGCCTGCGTAAGCAGTTGGGGGATCTGCAGTGA	MSNRCPIAAIALLALAGCAADPAPNEQLRLTEQAVAQARAVGATEEVPELKLAQERLAQAQEAMADESYKEARMLAEQAELDARLAEALVLTKKSQDQLAELNQRINRLRKQLGDLQ				NA	NA	NA	NA	NA
BMS010_03449	822			hypothetical protein	ATGCCCAAGTCGCTTAGATCCACGTTGGTCCTCCTGAGCCTGTTGCTGTCCTCGAGTGCCGCGCTGGCGGTGGGTAAATGCGAGCATCTGGTGGCGACGGGCAATCCGGAATACCCGCCTTATCTCTGGCGTGATCCGCAGAACCCTCAGCAATTGATCGGTGCCAACGCCGACCTGCTGAAGGAGATCGGCAAGCAGCTGGGCGTGACCATCGACATCCTCTATACCGGCCCCTGGTCGCGTGCTCAGAACGAAGCGCGCAGCGGGCGGGTCGATTTGATCGCCGGGGCTTTCCTCACGCTGCCTCGGCTGGAAACCATGGATTACGTGCATCCGGCATTCTTCACCACCTCCAGCGTGGTCTGGGTGCGCAAAGGCGAAGCCTTCGAGTACAACGGTTGGGACGATCTGCGCGGACGTACAGGCGGCACGCTGGTGAACAACAGTTTCGGCCAGGCCTTCGATAGTTTCGCCAAGGCCAACCTGAGCATCGAGGAAGTGCCCAGCCTGACCCAGGCCTTGCAGAAGCTCCTGCTGGGGCGCACCGACTACGTGATCTACGAGCGTTATCCCGGGGCTGCCCTGGCTGCCACCCTGGGCATGCAGGAAGACCTCGAAACCCTCGAGCCGCCGATTTCCAGCGAGGGCCTCTATCTGACGCTGTCGCACAACTCGGCCTGCAACGAGCCGTGGTTGCGCGGACAACTGGCGAAAAAGATGACAGAATTGTCCGCTGCCGGCCTGCCAGACACTCTGTTGCAGCGCAATCTGGAGCGCTGGAAGGAGCAACAGATGCAACCGGCTAGTGCCCCGAATCAGTAG	MPKSLRSTLVLLSLLLSSSAALAVGKCEHLVATGNPEYPPYLWRDPQNPQQLIGANADLLKEIGKQLGVTIDILYTGPWSRAQNEARSGRVDLIAGAFLTLPRLETMDYVHPAFFTTSSVVWVRKGEAFEYNGWDDLRGRTGGTLVNNSFGQAFDSFAKANLSIEEVPSLTQALQKLLLGRTDYVIYERYPGAALAATLGMQEDLETLEPPISSEGLYLTLSHNSACNEPWLRGQLAKKMTELSAAGLPDTLLQRNLERWKEQQMQPASAPNQ	PGPT0020800_5812	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_03450	939	lip1		Lipase 1	ATGAAGAAAGCCCTGTTCGCCTTCCTTTTCCTTCTATCCGTAGCGGCAGCCGCCCTCTACCTGCACCCGCCCCTGCTGATGGCCGGCGCCCAGTTCGTTGAGCGTCAGTTGGCCGGACTCACGCCCAGTCAGGTACGTGTCGGCGATATCAGCGTCCACTATTACGAAGGCGGCCCGCAGGATGGCGAAACCATCCTGATGATTCATGGCTTCGGCGCCAACAAGGACAACTGGCTGCGCTTTTCCCGTCATTTCACCGAGCGCTATCACGTCATCGCCCTGGATCTTCCCGGCTTCGGCGACAGCGACAAGCCGGAAGCCAGCTACGATGTCGGCACCCAGGTCGAGCGAGTCGCCAGCTTCGCCAAGGCGCTCGGTATCAGCCGTTTGCATCTGATCGGCAATTCCATGGGTGGACATATCGCCGCACTTTACGCGGCCCGTTATCCCGAGCAAGTTCTATCGGTTGCGCTCCTGGATAACGCCGGTGTCACCGCACCGGTGAAGAGCGAGCTGTTCGAGCGCATCGAGCGTGGCGATGCCAACCCTCTGGTGGTGAAAACCCCGGAAGACTTCAATCGCCTGCTGGCCTTCGTCTTCGTCGAGCCACCACCGCTGCCGGAGCCGCTGAAGCGCCATTTCGCCGAACAGGCCATCGCCAACAGCGCTCATTACGAGCGGATTTTCCAGCAATTGATCGAGCGCTACATTCCCTTGGAGCCGGAGCTACCCAAGATCCAGGCCCCCACTCTGCTGCTTTGGGGCGAAAAGGACCGCGCCCTGCATGTCTCCAGCATCGATGTGATGAAGCCGCTGCTGAAGAAACCGACCGTGGTGATCATGGAAAACTGCGGGCACGCCCCCATGATCGAACGCCCCGAGGAAACCGCCCGGCATTACCAGGCCTTTCTCGACAAGGCCCACAACACGGAAGGCTGA	MKKALFAFLFLLSVAAAALYLHPPLLMAGAQFVERQLAGLTPSQVRVGDISVHYYEGGPQDGETILMIHGFGANKDNWLRFSRHFTERYHVIALDLPGFGDSDKPEASYDVGTQVERVASFAKALGISRLHLIGNSMGGHIAALYAARYPEQVLSVALLDNAGVTAPVKSELFERIERGDANPLVVKTPEDFNRLLAFVFVEPPPLPEPLKRHFAEQAIANSAHYERIFQQLIERYIPLEPELPKIQAPTLLLWGEKDRALHVSSIDVMKPLLKKPTVVIMENCGHAPMIERPEETARHYQAFLDKAHNTEG				NA	NA	NA	NA	NA
BMS010_03452	960	birA_1	COG0340	Bifunctional ligase/repressor BirA	ATGCTTAAGTTGTTAAAGCTCTTGCAGGATGGCCGTTTCCATTCCGGCGAAGCGTTAGGCGCTGCTCTGGGGGTGAGTCGGAGTGCTATATGGAAACAGCTGCAGCAACTAGAGGCCGAACTGAATTTACCTATTTTCAAGGTAAGGGGGCATGGCTATAGGTTGCCCGCGCCGTTGATATTGCTGGACAAAGATCGTATCGCCTCGGGGAAGGGGCCTGCTTGGTCCTTTTTTCTTCATGAATCCTTGGACTCCACAAATGCTGAAGCCCTTCGGTTGCTGGGGCGTGGCGAGGTGGCCCCGTTTGTTGTTCTGGCAGAACGCCAGACTGGGGGGCGAGGAAGGCGAGGGCGGTCTTGGTTCAGCCCGTTCGCAGAGAACCTTTATTACAGCCTCGTTATTCGGATTGACGGGGGCGCACACCAAGTTGAAGGTTTGAGTTTGGTTGTTGGGCTTGCCGTCGTTCGTGCCCTGTCGGCCTTGGGGGTGGGTGGGGTAGGGCTTAAGTGGCCAAATGATATCTTGGTGAATGAAAAGAAGGTTGCGGGGATTCTGTTAGAGCTAATGGGTGATCCCGCAGATATCTGTCACGTAGTGATAGGTATAGGTATCAACGCCAATATGAATTCCGAGCTTCAGGTCATTGATCAGCCCTGGACATCCTTGTGTCTGGAGCTAGGTGAGCTGATAGATCGGAATTTGCTGATCATTGAACTTAATGATCAGTTGGAAACGTATCTCTCCAGCCATTTTGAAAAAGGGTTTGCGGGCCTGCGGGCGGAATGGGAAACAAACCATTTGTGGCAGGGGAGACAGGTAGATCTCATCGCAGGAGCTCAGCGAATCGGTGGTGCTGTGCTGGGGATTAACGATCGGGGGGCTCTGCGTTTGCTTGTCGATGGTGCTGAGCGCGAGTTCAGTGGTGGAGAGCTCAGCTTGAGGTTGCGCAATGATTCTTGA	MLKLLKLLQDGRFHSGEALGAALGVSRSAIWKQLQQLEAELNLPIFKVRGHGYRLPAPLILLDKDRIASGKGPAWSFFLHESLDSTNAEALRLLGRGEVAPFVVLAERQTGGRGRRGRSWFSPFAENLYYSLVIRIDGGAHQVEGLSLVVGLAVVRALSALGVGGVGLKWPNDILVNEKKVAGILLELMGDPADICHVVIGIGINANMNSELQVIDQPWTSLCLELGELIDRNLLIIELNDQLETYLSSHFEKGFAGLRAEWETNHLWQGRQVDLIAGAQRIGGAVLGINDRGALRLLVDGAEREFSGGELSLRLRNDS	PGPT0022055_1775	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022055-birA|bpr-K03524	NA	NA
BMS010_03453	747	coaX	COG1521	Type III pantothenate kinase	ATGATTCTTGAGCTCGACTGCGGTAACAGCTTTATAAAATGGCGGCTCATATCCGGACCCGATGGAGAGGCCTTGGAGGGTGGCGTTGCGAGTTCGGACGAGCAACTGCTCACTGAGTTGATATGCCTGCAGAAAAGACCTCGATCTGCTCGGCTGGTTAGCGTGCGGAGTGACGAGGAAACTCGTAGTTTGGTTGCTCGGCTTTATCAGCAATTCGGTATCGATGTGCTATGTGCGTCGTCGTCGCAAGTGTTGGCTGGTGTCAGTAATGGCTATCGGGAGTATGAGCGTCTCGGTCTAGATCGATGGCTCGCCCTGTCGGGGGCCTTTCATCTGGCCGGAAGGGCTTGTCTCATTCTTGATCTAGGGACGGCCGTTACTTCTGATTTTGTAGCGGGTTCTGGTGAGCATCTTGGGGGCTTCATTTGTCCAGGTGTGCCCTTGATGCGTAATCAATTACGTACGCATACCCGACGGATCAAATATGACGACGAAGCGGTGGGGCGAGCCTTGCAGGAGCTGCTGCCGGGACGCTCCACCATTGAAGCAGTCGAGAGGGGCTGCTTGCTCATGCTGAGGGGGTTTGTCCAGACGCAGTTGGAACTGGCTCGAGATTACTGGGGGCGGGATTTCGATGTATTTCTGACGGGAGGGGATGCCTCTCTTGTAAGTAATATGCTGCCTGGCGCACGGGTTATGCCTGATCTGGTTTTCGTCGGGTTGGCTTTAGCCTGCCCAATACCTTGA	MILELDCGNSFIKWRLISGPDGEALEGGVASSDEQLLTELICLQKRPRSARLVSVRSDEETRSLVARLYQQFGIDVLCASSSQVLAGVSNGYREYERLGLDRWLALSGAFHLAGRACLILDLGTAVTSDFVAGSGEHLGGFICPGVPLMRNQLRTHTRRIKYDDEAVGRALQELLPGRSTIEAVERGCLLMLRGFVQTQLELARDYWGRDFDVFLTGGDASLVSNMLPGARVMPDLVFVGLALACPIP	PGPT0008780_2364	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0008780-coaX-K03525	NA	NA
BMS010_03454	675			hypothetical protein	ATGCGCTGGTTGTTTCTCTTACTTGTCGTGCTCAATCTCTTCTATTACGTCTGGCATCAGCAGCAGGCGCCTCTCAGGGCCAAAGAGGTGGCCCCCCTCTCTCTCTATCGTTCTGCTCAACAGGATATCAAGCTGTTGAGCGAGACATCTGGCGCTTCTCGGAAGGAGCTTTCGGCTCCGGGGCGCGAAAGTGATACCGCATGCCTTTTTCTTGGGAGCTTTGAAAGGGAGGATGCGGCTCGCCAGGTCGAGCAGCGTCTGATCAGCCTCGACATACGGGTTCGGGTTCAGCCATTGGATACGGCGGCTGGAGTCGACTACTGGGTCTACCTGCCTCCATTGGCTTCGCGCCAGGCCTCGCTACGTCAGCTCAGAGAGTTACAGGCTAGGAAAATAGATAGCTACATCATTACCCAGGGTGATTTGGCGAATGGAATCTCGCTTGGGATCTTTTCCCGCAGTGACTCGGCTGAAAGCGTTGCGCAACGCTTGAGGGATGCGGGTTATGAGCCCCAGGTTCGAGAGCTTCCTCGGGCGCACCGCAGTTTCTGGGTGCGAGTCGACCCAGAAAGCCGCCGTTTGGTGGATGACTCGCTCTTGGATCAATTGGCTCGTGATTTCAATACCTTGCAACATCAAATATTACCCTGCGAAAGCGTTGCAACTCCTCAATAG	MRWLFLLLVVLNLFYYVWHQQQAPLRAKEVAPLSLYRSAQQDIKLLSETSGASRKELSAPGRESDTACLFLGSFEREDAARQVEQRLISLDIRVRVQPLDTAAGVDYWVYLPPLASRQASLRQLRELQARKIDSYIITQGDLANGISLGIFSRSDSAESVAQRLRDAGYEPQVRELPRAHRSFWVRVDPESRRLVDDSLLDQLARDFNTLQHQILPCESVATPQ				NA	NA	NA	NA	NA
BMS010_03458	1194	tufA_1	COG0050	Elongation factor Tu	ATGGCTAAAGAGAAATTCGAACGTAACAAACCGCACGTCAACGTGGGCACTATCGGTCACGTTGACCATGGCAAAACTACCCTGACCGCAGCGCTGACCAAGGTTTGCGCTGACACCTGGGGTGGCGCTGCGCGCAACTTCGATCAGATCGATAACGCGCCGGAAGAAAAGGCCCGTGGTATCACCATCAACACCTCCCACGTGGAATACGACTCGGCCATTCGTCACTACGCTCACGTTGACTGCCCCGGTCACGCTGACTACGTGAAGAACATGATCACCGGTGCTGCCCAGATGGACGGCGCGATTCTGGTTTGCTCCGCTGCTGACGGCCCCATGCCGCAGACCCGTGAGCACATCCTGCTGTCCCGTCAGGTAGGCGTTCCTTACATCGTCGTGTTCCTGAACAAGGCCGACATGGTGGACGACGCTGAGCTGCTGGAACTGGTCGAAATGGAAGTTCGCGATCTGCTGAACACCTACGACTTCCCGGGCGACGACACTCCGATCGTCATCGGTTCCGCGCTGATGGCGCTGAACGGCGAAGATGCCAACGAAATGGGTGTATCCGCCGTTCGCAAGCTGGTTGAGACCCTGGATTCTTACATTCCGGAGCCGGTGCGTGCGATCGACCAGCCGTTCCTGATGCCGATCGAGGACGTGTTCTCGATCTCCGGTCGCGGCACCGTGGTAACCGGTCGTGTCGAGCGTGGCATCGTCAAGGTGGGTGAGGAAGTGGAAATCGTCGGTATCCGTCCGACCACCAAGACCACCTGCACTGGCGTTGAAATGTTCCGCAAGCTGCTTGACGAAGGTCGTGCTGGTGAGAACGTCGGTGCGCTGCTGCGTGGCACCAAGCGTGAAGACGTGGAGCGTGGCCAGGTTCTGGCCAAGCCGGGCACCATCAAGCCGCACACCAAGTTCGAGTGCGAAGTGTACGTGCTGAGCAAGGAAGAAGGTGGTCGTCACACCCCGTTCTTCAAGGGCTACCGTCCGCAGTTCTACTTCCGTACTACTGACGTGACCGGTAACTGCGAGCTGCCGGAAGGCGTTGAAATGGTAATGCCGGGCGATAACATCAAGATGGTTGTCACCCTGATCGCTCCGATCGCCATGGAAGATGGCCTGCGCTTCGCAATCCGCGAAGGTGGCCGTACCGTCGGCGCCGGCGTGGTTGCCAAGATCATCGAGTAA	MAKEKFERNKPHVNVGTIGHVDHGKTTLTAALTKVCADTWGGAARNFDQIDNAPEEKARGITINTSHVEYDSAIRHYAHVDCPGHADYVKNMITGAAQMDGAILVCSAADGPMPQTREHILLSRQVGVPYIVVFLNKADMVDDAELLELVEMEVRDLLNTYDFPGDDTPIVIGSALMALNGEDANEMGVSAVRKLVETLDSYIPEPVRAIDQPFLMPIEDVFSISGRGTVVTGRVERGIVKVGEEVEIVGIRPTTKTTCTGVEMFRKLLDEGRAGENVGALLRGTKREDVERGQVLAKPGTIKPHTKFECEVYVLSKEEGGRHTPFFKGYRPQFYFRTTDVTGNCELPEGVEMVMPGDNIKMVVTLIAPIAMEDGLRFAIREGGRTVGAGVVAKIIE	PGPT0015245_2262	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	TRIGGERED_IMMUNITY	PAMP|EFFECTOR_TRIGGERED_IMMUNITY|PTI	PTI-BACTERIAL_EF-TU,PGPT0015245-elf18|tuf|tufA-K02358	NA	NA
BMS010_03460	369	secE_1	COG0690	Protein translocase subunit SecE	ATGAATGCGAAGGCTGAAGCCAAAGAGTCCCGCTTTGACCTGGTTAAGTGGCTTCTGGCTGCTGCTCTGGTCCTGGTGGGTGTGGTAGGCAATCAGTACTTCTCGGCAGAGCCGATTCTGTACCGTGTTCTGGGATTGCTTGTTATTGCTGTATTGGCGGCATTCGTCGCTCTGCAAACGGCAAAGGGGCAGGCGTTCTTTGGGTTGGTAAAAGAAGCGCGTGTCGAGATTCGAAAAGTTGTCTGGCCCACGCGTCAGGAGACCACTCAGACCACTTTGATCGTGGTGGCTGTTGTTCTGGTTATGGCGTTGTTGCTCTGGGGGCTTGACTCCCTGCTGGGTTGGCTCGTTTCCTTGATTGTTGGTTAA	MNAKAEAKESRFDLVKWLLAAALVLVGVVGNQYFSAEPILYRVLGLLVIAVLAAFVALQTAKGQAFFGLVKEARVEIRKVVWPTRQETTQTTLIVVAVVLVMALLLWGLDSLLGWLVSLIVG	PGPT0025715_1235	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025715-secE-K03073	NA	NA
BMS010_03461	534	nusG_1	COG0250	Transcription termination/antitermination protein NusG	GTGGCTAAGCGTTGGTACGTTGTGCATGCTTATTCGGGTTACGAAAAGCATGTCATGCGCTCGCTGATTGAGCGAGTCAAGCTGGCCGGCATGGAAGATGAGTTCGGCGAGATTCTGGTCCCTACCGAGGAAGTGGTAGAGATGCGTAACGGCCAGAAGCGTAAGAGCGAGCGAAAATTCTTTCCCGGTTACGTTCTGGTCCAAATGGAAATGAACGAGGGGACTTGGCACTTGGTCAAGGATACGCCTCGGGTCATGGGCTTTATCGGTGGTACTGCCGATAAACCCGCGCCTATCACGGATCGTGAGGCTGAGGCCATTCTGCGCCGTGTGGCCGACAGTGGTGACAAGCCCAAGCCGAAGACGCTCTTTGAGCCCGGCGAGGTGGTTCGTGTGATCGATGGGCCGTTTGCTGATTTCAATGGCGTCGTCGAAGAAGTTAATTATGAGAAGAGTCGGATCCAGGTGGCCGTGCTCATCTTTGGTCGCTCCACGCCGGTGGAGCTGGAGTTCAGTCAGGTCGAAAAGGCATAA	MAKRWYVVHAYSGYEKHVMRSLIERVKLAGMEDEFGEILVPTEEVVEMRNGQKRKSERKFFPGYVLVQMEMNEGTWHLVKDTPRVMGFIGGTADKPAPITDREAEAILRRVADSGDKPKPKTLFEPGEVVRVIDGPFADFNGVVEEVNYEKSRIQVAVLIFGRSTPVELEFSQVEKA				NA	NA	NA	NA	NA
BMS010_03462	432	rplK_1	COG0080	50S ribosomal protein L11	ATGGCTAAGAAGATTCAGGCTTATATCAAGCTGCAAGTGAAGGCCGGTCAGGCCAACCCATCCCCGCCGGTCGGTCCGGCTCTGGGTCAGCACGGCGTGAACATCATGGAGTTCTGCAAGGCCTTCAATGCCCGCACTCAGGGCATGGAGCCGGGTTTGCCGACTCCGGTGATCATCACCGTCTATAGCGACCGTAGCTTTACGTTCGAAACCAAAAGCACCCCGGCTTCGGTTCTGCTGAAGAAGGCTGCTGGCATCAGCAGCGGTTCCAGCCGTCCGAATACCCAGAAGGTGGGTACCGTGACCCGTGCACAGCTGGAAGAGATCGCCAAGGCCAAGAAGGCTGATCTCACGGCAGCTGACCTGGACGCAGCCGTGCGCACCATCGCCGGCTCCGCTCGTAGCATGGGCCTCAATGTGGAGGGTGTGTAA	MAKKIQAYIKLQVKAGQANPSPPVGPALGQHGVNIMEFCKAFNARTQGMEPGLPTPVIITVYSDRSFTFETKSTPASVLLKKAAGISSGSSRPNTQKVGTVTRAQLEEIAKAKKADLTAADLDAAVRTIAGSARSMGLNVEGV				NA	NA	NA	NA	NA
BMS010_03463	696	rplA_1	COG0081	50S ribosomal protein L1	ATGGCTAAGCTTACCAAGCGCCAGAAGGCAATCGCCGCTAAGGTAGAGGCGGGCAAACAGTACGGCTTCGAAGAAGCTGCTGCTCTGTTGGCCGAACTCTCCACCATCAAGTTCAAAGAGTCCGTCGACGTTGCTATCAACCTGGGCGTTGATCCTCGTAAGTCGGATCAGGTCGTACGTGGCGCTACCGTTCTTCCGAACGGCACCGGCAAGAGTGTCCGTGTTGCGGTGTTTACCCAGGGACCTGCTGCCGAAGCTGCACTGGCTGCCGGTGCCGACCGCGTAGGTATGGACGAGCTGGCTGCCGAGATGAAGGGCGGCGATCTCAGCTATGACGTGGTTATCGCCTCCCCGGACGCGATGCGTGTAGTTGGACAGTTGGGTCAGATTCTCGGTCCGCGTGGCCTGATGCCGAACCCGAAGGTCGGCACGGTGACCCCTGACGTAGCGACTGCCGTGAAGAATGCCAAGGCCGGTCAAGTGCGTTTCCGTACTGACAAGAACGGCATCATTCATGCTTCCGTTGGCAAGGTCGATTTCGAGCCGGCCAAGCTGAAGCAGAACGTCGAAGCGCTGGTCGCTGACCTGAAGCGTCTGAAGCCCTCTTCCTCGAAAGGCATCTATCTGAAGCGCGTGACCCTGAGCACCACCATGGGGCCGGGGCTGCAGATCGATCAGGCGTCGCTGGACGTGTAA	MAKLTKRQKAIAAKVEAGKQYGFEEAAALLAELSTIKFKESVDVAINLGVDPRKSDQVVRGATVLPNGTGKSVRVAVFTQGPAAEAALAAGADRVGMDELAAEMKGGDLSYDVVIASPDAMRVVGQLGQILGPRGLMPNPKVGTVTPDVATAVKNAKAGQVRFRTDKNGIIHASVGKVDFEPAKLKQNVEALVADLKRLKPSSSKGIYLKRVTLSTTMGPGLQIDQASLDV				NA	NA	NA	NA	NA
BMS010_03465	501	rplJ_1	COG0244	50S ribosomal protein L10	GTGGCAATCAAACTCGAAGACAAGAAGGCCATCGTCGCTGAAGTCAACGAGGCTGCCAAAGCTGCCCTGTCCGCTGTCGTGGCCGATGCCCGTGGCGTGACCGTGGGGGCCATGACCGGACTCCGTAAAGAGGCCCGCGAGGCTGGTGTGTACGTGAAAGTCGTGCGTAACACCCTGGCTCGTCGCGCCGTTGCCGGCACTCAATTCGAAGTGCTCAACGACGTGTTCAAAGGCCCGACCCTAATTGCGTTCTCCAATGAACATCCGGGCGCTGCCGCTCGTATTTTCAAAGAGTTCGCCAAGGGTCAGGACAAGTTCGAGATCAAGGCCGCTGCGTTCGAGGGTCAGTTCCTCGCAGCCAACCAGATCGACGTGCTGGCAACTCTGCCGACCTACAACGAAGCCGTAGCCCAACTGATGAGCGTGATTCAAGGCGCCACCAGCAAGCTGGCTCGTACTCTGGCGGCCATTCGCGACCAGAAAGAAGCCAGCGCAGCTTAA	MAIKLEDKKAIVAEVNEAAKAALSAVVADARGVTVGAMTGLRKEAREAGVYVKVVRNTLARRAVAGTQFEVLNDVFKGPTLIAFSNEHPGAAARIFKEFAKGQDKFEIKAAAFEGQFLAANQIDVLATLPTYNEAVAQLMSVIQGATSKLARTLAAIRDQKEASAA				NA	NA	NA	NA	NA
BMS010_03466	369	rplL_1		50S ribosomal protein L7/L12	ATGGCTCTGACCAACGAAGATATCATCAACGCCGTATCCGAAATGTCCGTCATGCAGATCGTTGAGCTGATCAAGGCGATGGAAGAAAAGTTCGGCGTAACCGCCGCTGCTGCTGTGGCTGCCGGCCCGGCTGCCGCTGCCCCGGTTGCTGAAGAGCAGACCGAGTTCACCATCGTTCTGGCCGAAGCTGGCGAGAAGAAAGTGAACGTGATCAAGGTCGTGCGTGAGCTGACCGGCCTGGGCCTGAAAGAAGCCAAGGCTGTCGTTGACGGCGCCCCGGGTGTGGTCAAGGAAGGCGTTTCCAAAGAGGAAGCCGAAGCTGCCAAGAAGGCCCTGGAAGAAGCTGGCGCCAAGGTCGAGCTCAAGTAA	MALTNEDIINAVSEMSVMQIVELIKAMEEKFGVTAAAAVAAGPAAAAPVAEEQTEFTIVLAEAGEKKVNVIKVVRELTGLGLKEAKAVVDGAPGVVKEGVSKEEAEAAKKALEEAGAKVELK				NA	NA	NA	NA	NA
BMS010_03468	4074	rpoB_1	COG0085	DNA-directed RNA polymerase subunit beta	ATGGCTTACTCATACACTGAGAAAAAACGTATCCGCAAGGACTTTAGCAAGTTGCCGCACGTCATGGATGTGCCCTACCTCCTGGCCATCCAGCTGGATTCGTACCGCGAATTCCTGCAGGCGGGAGTGTCCAAGGATCAGTTCCGCGACGTCGGCCTGCATGCGGCCTTCAAGTCCGTTTTCCCGATTATCAGCTATTCCGGCAATGCCGCTCTGGAATACGTTGGCTATCGCCTCGGCGAACCGGCTTTCGACGTCAAGGAGTGCGTACTTCGTGGCGTGACCTTTGCCGTGCCGTTGCGCGTGAAAGTGCGCTTGATCATTTTCGACAAAGAGTCGTCGAACAAAGCGATCAAGGACATCAAGGAGCAGGAAGTCTACATGGGGGAAATCCCCCTGATGACCGAAAACGGTACCTTCATCATCAACGGTACCGAGCGGGTCATTGTGTCCCAGCTGCACCGTTCCCCGGGCGTGTTCTTCGACCACGACCGTGGCAAAACCCATAGCTCCGGCAAGCTGCTCTATTCCGCCCGGATCATTCCCTACCGCGGCTCCTGGCTGGATTTCGAGTTCGATCCGAAGGACTGCGTCTTCGTTCGTATCGACCGCCGTCGCAAACTGCCGGCGAGCGTTCTGCTGCGCGCGCTGGGTTACAGCACCGAAGAAATCCTGGATGCGTTCTACGACACCAATGTCTTCCATGTACGTGAAGACAAGCTCAGCCTCGAACTCGTACCGCAGCGTCTGCGCGGCGAGATTGCCTCGTTCGATATCAAGGACGAGAAGGGCAAGGTCATTGTCGAGCAAGGCCGCCGTATCACCGCGCGCCACATCAACCAGATCGATAAGGCTGGCATCAAGGAGCTGGAAGTTCCGCTCGACTACGTATTGGGTCGCACCACCGCGAAGGCCATTGTCCATCCGGCTACCGGTGAGATCATTGCCGAGTGCAATACCGAGCTGACCACCGACCTGCTGGTGAAGATCGCCAAGGCTCAGGTCGTTCGTCTCGAGACGCTGTATACCAACGACATCGATTGCGGTCCGTTCATTTCGGACACCTTGAAGATCGACAGCACCAGCAATCAGTTGGAGGCGTTGGTCGAGATCTATCGCATGATGCGTCCTGGCGAGCCGCCGACCAAGGATGCCGCCGAGACCCTGTTCAACAACCTGTTCTTCAGCGCCGAGCGTTACGATCTGTCCGCTGTCGGCCGCATGAAGTTCAATCGCCGCATCGGTCGTACTGAAATCGAAGGCTCCGGTGTCCTAAGCAGGGAAGACATCGTCGAGGTCCTGAAGACGCTGGTCGACATCCGTAACGGCAAAGGCATCGTCGACGATATCGACCACCTCGGTAACCGTCGCGTCCGTTGCGTTGGCGAGATGGCCGAGAACCAGTTCCGCGTGGGTCTGGTGCGTGTCGAGCGTGCGGTCAAGGAACGTTTGTCCATGGCGGAAAGCGAAGGCTTGATGCCGCAGGACCTGATCAACGCGAAGCCGGTTGCGGCCGCGGTGAAAGAGTTCTTCGGTTCCAGCCAGCTTTCCCAGTTCATGGATCAGAACAACCCGCTGTCCGAGATTACCCACAAGCGCCGCGTTTCCGCGCTCGGCCCGGGCGGTTTGACGCGTGAGCGTGCGGGCTTCGAGGTGCGCGACGTGCACCCGACCCATTACGGTCGCGTGTGCCCGATCGAAACGCCGGAAGGTCCGAACATCGGTCTGATCAACTCCCTGGCGGCCTATGCCCGCACCAACCAGTACGGCTTCCTCGAGAGCCCGTACCGTGTGGTCAAGGAAGGTCAAGTAACCGACGAGATCGTGTTCCTCTCCGCTATCGAAGAAGCCGATCATGTGATCGCGCAGGCTTCCGCGACGCTGGACGAGAATGGTCGTCTGGTGGATGAGCTGGTGGCTGTACGTCACCTGAACGAATTCACCGTGAAGGCGCCGGAAGACGTGACCCTGATGGACGTGTCGCCGAAGCAGGTCGTGTCGGTGGCTGCATCGCTGATTCCGTTCCTCGAGCACGACGACGCCAACCGTGCGCTCATGGGGTCGAACATGCAGCGTCAGGCCGTGCCGACCCTCCGTTCCGACAAGCCGCTGGTCGGCACCGGTATGGAGCGTAACGTGGCGCGTGACTCCGGTGTCTGCGTGGTTGCGCGTCGTGGCGGCGTGATCGACTCCGTGGATGCCAGTCGTATCGTGGTTCGCGTCAACGATGATGAAGTCGAAACCGGTGAGGCCGGCGTCGACATCTATAACCTGACCAAGTACACCCGTTCGAACCAGAACACCTGTATCAACCAGCGTCCGCTGGTTCAGAAGGGTGACAAGGTTTCGCGCAGCGATATCCTCGCCGATGGTCCGTCTACCGACATGGGTGAACTGGCGCTTGGCCAGAACATGCGCGTCGCCTTCATGCCTTGGAACGGCTACAACTTCGAGGACTCCATCCTTCTGTCCGAGCGTGTGGTTCAGGAAGACCGCTTCACCACGATCCACATCCAGGAACTGACCTGCGTGGCGCGTGACACCAAACTCGGCCCGGAAGAAATCACCGCGGATATCCCCAACGTGGGTGAGGCTGCGCTGAACAAGCTGGACGAGGCTGGCATCGTCTACGTCGGTGCGGAAGTCGGCGCTGGCGACATTCTGGTTGGCAAGGTCACACCGAAGGGCGAGACCCAGTTGACTCCGGAAGAGAAGCTGCTGCGTGCAATCTTCGGCGAGAAGGCTTCCGACGTGAAAGACACCTCCCTGCGCGTGCCGACCGGCACCAAGGGTACTGTCATTGACGTGCAGGTCTTCACTCGCGATGGCGTGGAGCGCGACTCCCGTGCCCTGGCCATTGAGAAGATGCAGCTGGATGAAATCCGCAAGGATCTCAACGAAGAGTTCCGCATCGTCGAAGGTGCCACTTTCGAACGTCTGCGTTCCGCTCTGGTTGGTGCGACCGCCGAAGGTGGTGCAGGCCTGAAGAAAGGCGCTGTCATCACGGACGAAGTTCTCGACGGCATCGAGCGTGGTCAGTGGTTCAAGCTGCGTATGGCTGACGATGCGCTGAACGAGCAGTTGGAGAAGGCCCAGGCCTATATTTCCGACCGTCGCCAGTTGCTGGACGACAAGTTCGAGGACAAGAAGCGCAAGCTGCAGCAGGGTGACGACTTGGCTCCGGGTGTTCTGAAGATCGTCAAGGTCTACCTGGCCATCAAGCGTCGCATCCAGCCTGGCGACAAGATGGCAGGCCGTCACGGTAACAAGGGTGTCGTGTCGGTCATCATGCCGGTCGAAGACATGCCGCATGACGCTAACGGAACTCCGGTCGACATCGTTCTGAACCCGCTGGGCGTACCGTCTCGTATGAACGTCGGTCAGATCCTCGAAACCCACCTGGGCCTGGCGGCCAAGGGCTTGGGTGAAAAGATCAACCGTATGCTCGAAGAGCAGCGCAAGATCGCCGAGCTGCGCTCTTTCCTGCACGAGATCTACAACGAGATCGGTGGCCGCCAGGAGAGCCTGGACGAGCTGAGCGATCAGGAGATTCTCGAGCTGGCGAAAAACCTGCGTGGCGGTGTTCCGATGGCGACGCCGGTATTCGACGGTGCCAAGGAACGCGAGATCAAGGCCATGCTGAAGTTGGCCGATCTGCCGGAAAGCGGCCAGATGCGTCTGTTCGACGGTCGTACCGGTAACCAGTTCGAGCGTCCGACCACTGTCGGCTATATGTACATGCTCAAGCTGAACCACTTGGTCGACGACAAGATGCACGCGCGTTCCACCGGCTCCTACAGCCTGGTTACCCAGCAACCGCTGGGTGGTAAGGCTCAGTTCGGCGGTCAGCGTTTCGGGGAGATGGAGGTCTGGGCACTGGAAGCATACGGTGCGGCTTACACCCTGCAGGAAATGCTCACCGTGAAGTCGGACGATGTGAACGGCCGAACCAAGATGTACAAGAACATCGTGGACGGCGATCACCGCATGGAGGCCGGCATGCCGGAATCCTTCAACGTGCTGATCAAAGAGATCCGCTCGCTGGGTATCGACATCGAACTGGAAACCGAATAA	MAYSYTEKKRIRKDFSKLPHVMDVPYLLAIQLDSYREFLQAGVSKDQFRDVGLHAAFKSVFPIISYSGNAALEYVGYRLGEPAFDVKECVLRGVTFAVPLRVKVRLIIFDKESSNKAIKDIKEQEVYMGEIPLMTENGTFIINGTERVIVSQLHRSPGVFFDHDRGKTHSSGKLLYSARIIPYRGSWLDFEFDPKDCVFVRIDRRRKLPASVLLRALGYSTEEILDAFYDTNVFHVREDKLSLELVPQRLRGEIASFDIKDEKGKVIVEQGRRITARHINQIDKAGIKELEVPLDYVLGRTTAKAIVHPATGEIIAECNTELTTDLLVKIAKAQVVRLETLYTNDIDCGPFISDTLKIDSTSNQLEALVEIYRMMRPGEPPTKDAAETLFNNLFFSAERYDLSAVGRMKFNRRIGRTEIEGSGVLSREDIVEVLKTLVDIRNGKGIVDDIDHLGNRRVRCVGEMAENQFRVGLVRVERAVKERLSMAESEGLMPQDLINAKPVAAAVKEFFGSSQLSQFMDQNNPLSEITHKRRVSALGPGGLTRERAGFEVRDVHPTHYGRVCPIETPEGPNIGLINSLAAYARTNQYGFLESPYRVVKEGQVTDEIVFLSAIEEADHVIAQASATLDENGRLVDELVAVRHLNEFTVKAPEDVTLMDVSPKQVVSVAASLIPFLEHDDANRALMGSNMQRQAVPTLRSDKPLVGTGMERNVARDSGVCVVARRGGVIDSVDASRIVVRVNDDEVETGEAGVDIYNLTKYTRSNQNTCINQRPLVQKGDKVSRSDILADGPSTDMGELALGQNMRVAFMPWNGYNFEDSILLSERVVQEDRFTTIHIQELTCVARDTKLGPEEITADIPNVGEAALNKLDEAGIVYVGAEVGAGDILVGKVTPKGETQLTPEEKLLRAIFGEKASDVKDTSLRVPTGTKGTVIDVQVFTRDGVERDSRALAIEKMQLDEIRKDLNEEFRIVEGATFERLRSALVGATAEGGAGLKKGAVITDEVLDGIERGQWFKLRMADDALNEQLEKAQAYISDRRQLLDDKFEDKKRKLQQGDDLAPGVLKIVKVYLAIKRRIQPGDKMAGRHGNKGVVSVIMPVEDMPHDANGTPVDIVLNPLGVPSRMNVGQILETHLGLAAKGLGEKINRMLEEQRKIAELRSFLHEIYNEIGGRQESLDELSDQEILELAKNLRGGVPMATPVFDGAKEREIKAMLKLADLPESGQMRLFDGRTGNQFERPTTVGYMYMLKLNHLVDDKMHARSTGSYSLVTQQPLGGKAQFGGQRFGEMEVWALEAYGAAYTLQEMLTVKSDDVNGRTKMYKNIVDGDHRMEAGMPESFNVLIKEIRSLGIDIELETE				NA	NA	NA	NA	NA
BMS010_03469	4200	rpoC_1	COG0086	DNA-directed RNA polymerase subunit beta'	TTGAAAGACTTGCTGAATCTGTTGAAAAACCAGGGTCAAATCGAAGAGTTCGATGCCATCCGTATCGGTCTGGCCTCGCCCGAGATGATCCGTTCCTGGTCCTTCGGTGAAGTGAAAAAGCCGGAGACCATCAATTACCGTACCTTCAAGCCGGAGCGTGACGGCCTGTTCTGCGCCAAGATCTTTGGCCCGGTCAAGGACTACGAGTGCCTGTGCGGAAAGTACAAGCGCCTCAAGCATCGCGGCGTGATTTGCGAGAAGTGCGGTGTAGAAGTCGCACTGGCCAAGGTGCGCCGCGAGCGCATGGCTCACATCGAGTTGGCCTCTCCGGTCGCCCATATCTGGTTCCTGAAGTCGCTCCCGTCCCGTATCGGCCTGCTGCTGGACATGACCCTGCGCGATATCGAGCGCGTGCTCTATTTCGAGAGCTATGTCGTGATCGATCCGGGCATGACCACCCTGGAAAAAGGCCAGCTGCTGAACGACGAGCAGTATTTCGAGGCGCTCGAAGAGTTCGGCGATGACTTCGATGCCCGGATGGGCGCGGAGGCCGTTCGCGAGCTGCTGAACCAAATCGACCTGGAGCACGAGATTGGCCGCCTGCGTGAAGAAATTCCGCAGACCAACTCGGAAACCAAGATCAAGAAGCTGTCCAAGCGCTTGAAGCTGATGGAGGCCTTCCACGGTTCGGGCAACCTGCCCGAGTGGATGGTCCTGACCGTTCTGCCGGTACTGCCGCCGGATCTCCGTCCGCTGGTTCCGTTGGATGGTGGTCGTTTCGCGACGTCCGACCTGAACGATCTGTATCGTCGGGTGATCAACCGTAACAACCGTCTGAAGCGCCTGCTCGACCTGTCCGCGCCGGATATCATCGTGCGCAACGAAAAGCGCATGCTGCAGGAAGCCGTCGATGCCTTGCTGGACAACGGTCGTCGTGGCCGTGCCATCACCGGCTCGAACAAGCGTCCGCTGAAATCCCTGGCCGACATGATCAAGGGCAAGCAGGGTCGCTTCCGTCAGAACCTGCTCGGTAAGCGCGTGGACTACTCCGGTCGTTCCGTGATCACCGTCGGCCCGACCCTGCGTCTGCACCAGTGCGGTCTGCCGAAGAAGATGGCTCTCGAGCTGTTCAAGCCGTTCATTTTCGGCAAGCTCGAAGCTCGCGGTATGGCGACTACCATCAAGGCCGCCAAGAAGATGGTGGAGCGCGAGCTGCCGGAGGTCTGGGACGTTCTCGCCGAAGTGATTCGCGAGCATCCGGTCCTGCTGAACCGTGCGCCGACGCTGCACCGTCTGGGTATCCAGGCGTTCGAGCCCGTGTTGATCGAAGGCAAGGCGATCCAATTGCACCCGCTGGTCTGCGCTGCTTACAACGCCGACTTCGACGGTGACCAGATGGCCGTGCACGTTCCGCTGACCCTCGAGGCTCAGCTGGAAGCACGTGCGCTGATGATGTCCACCAACAACATCCTGTCGCCCGCCAACGGCGAGCCGATCATCGTGCCGTCGCAGGACGTTGTACTGGGCTTGTACTACATGACCCGCGAAGCGGTTAACGCCAAGGGCGAAGGCCGTGTATTTGCTGACCTGCAGGAAGTCGACCGTGTGTTCCGCGCCGGCGAAGCATCCCTGCATGCCCGTGTGAAAGTGCGCATTAACGAAACCGTCAAAGAAAAGGACGGCAGCCTCACCAAGAACACCCGCATCGTCGACACTACTGTCGGCCGTGCGCTGCTGTTCCAGGTCGTGCCCGCCGGCCTGTCCTATGACGTGGTCAATCAGCCGATGAAGAAGAAGGCGATTTCCAAGCTGATCAACCAGTGCTACCGCACCGTTGGCCTGAAGGACACCGTCATCTTCGCCGACCAGTTGATGTATACCGGTTTCGCCTACTCGACCATCTCCGGCGTGTCGATCGGCGTGAACGACTTCGTCATCCCGGATGAGAAAGCACGCATCATCGATGCGGCGACCGAGGAAGTGAAGGAAATCGAAAGCCAGTACGCCTCCGGCCTGGTAACCCAGGGCGAGAAGTACAACAAGGTGATCGACCTGTGGTCGAAGGCCAACGACGAAGTGTCCAAGGCGATGATGGCGAACCTCTCGAAAGAGAAAGTCATCGATCGCGAGGGCAAGGAAGTCGATCAGGAGTCCTTCAACTCCATGTACATGATGGCCGACTCCGGTGCGCGGGGTTCCGCTGCCCAGATTCGCCAGCTTGCCGGTATGCGTGGCCTGATGGCCAAGCCGGACGGCTCGATCATCGAGACGCCCATTACTGCGAACTTCCGTGAAGGCCTGAACGTACTCCAGTACTTCATCTCCACGCACGGCGCTCGTAAAGGTCTGGCGGATACCGCGCTGAAAACCGCGAACTCCGGCTACCTGACTCGTCGTCTGGTCGACGTGGCTCAGGATCTGGTGGTGACCGAGATCGACTGCGGCACCGAGCAGGGCCTGTTGATGACGCCTCACATCGAAGGCGGCGATGTGGTCGAGCCGCTCGGTGAGCGTGTCCTCGGCCGTGTCATTGCCCGGGACGTGTTCAAGCCGGGTGGCGATGAGGTCATCGTTCCGGCTGGTACCCTGATCGATGAAAAGTGGGTTGAATTCATCGAGCGCATGAGCGTCGACGAAGTGGTGGTGCGTTCTCCCATCACCTGCGAAACCCGCTACGGCATTTGCGCCAAGTGCTACGGTCGTGATCTGGCCCGTGGCCACCAGGTGAACATCGGTGAAGCGGTTGGCGTCATCGCCGCTCAGTCCATCGGTGAGCCGGGTACCCAGCTGACCATGCGTACCTTCCACATCGGTGGTGCGGCAAGCCGGACTTCCGCTGCCGATAACGTTCAGGTCAAGAATGGCGGCGTGATCCGTCTGCATAACCTGAAGCACGTCGAGCGTACCGATGGCAACCTGGTGGCGGTCTCCCGCTCCGGCGAGCTGGCCGTTGCCGATGACTTCGGCCGTGAACGTGAGCGTTACAAGCTGCCGTACGGTGCTGTCATCTCCGTGAAGGAGGGGGATAAGGTCGAACCGGGTGCGATCGTTGCCAAGTGGGACCCGCACACCCACCCGATCGTTACCGAGATGAAGGGTACCGTTGCCTTCGTCGGTATGGAGGAAGGCATCACGATCAAGCGTCAGACCGATGAACTGACCGGTTTGACCAACATCGAAGTGCTGGATCCGAAAGATCGCCCGGCTGCCGGCAAGGACATCCGTCCGGCCGTGAAACTGGTCGATGCCAATGGCAAGGAGTTGCTACTGCCCGGTACCGACGTCCCGGCTCAGTACTTCCTGCCGGCGAACGCGCTGGTCGGTGTGGCTGACGGTGCTCAGGTAAGCGTGGGTGACGTCATTGCACGTATCCCGCAGGAAACCTCCAAGACCCGCGACATCACTGGTGGTCTGCCTCGCGTGGCCGACCTCTTTGAAGCGCGTCGTCCGAAGGAGCCGTCCATCCTGGCTGAAATCAGCGGCACCATCAGCTTCGGTAAGGAAACCAAGGGCAAGCGTCGCCTGGTCATTACCCCGACCGACGGTAGCGATCCGTACGAAGAGCTGATTCCGAAGTGGCGTCACCTGAACGTCTTCGAAGGCGAGCAGGTGAACAAGGGCGAAGTGATCTCCGACGGTCCTAGCAACCCGCACGACATCCTGCGCCTGCTGGGTGTCAGCGCGCTGGCCAAGTACATCGTCAACGAGATTCAGGACGTGTACCGCCTGCAGGGTGTGAAGATCAACGACAAGCACATCGAGACCATCCTGCGTCAGATGCTGCGTAAGGTCGAAGTCGCCGAAGCCGGTGACTCCAGCTTTATCAAGGGCGACCAGGTCGAGCTGACCCAGGTGCTCGAAGAAAACGAGCGTCTGGCTGGCGAAGACAAGTTCCCGGCCAAGTATGATCGCGTATTGCTGGGTATCACCAAGGCTTCCTTGTCCACCGAGTCGTTCATCTCAGCGGCCTCCTTCCAGGAGACCACTCGAGTTCTCACCGAGGCGGCGGTTACCGGCAAGCGCGATTATCTGCGCGGCCTGAAGGAAAACGTGGTAGTGGGTCGCCTGATTCCGGCTGGTACCGGCCTGGCCTATCACAGCGAGCGCAAGCGTCAGCGCGATTCTGGCAAGCCGGTTCGTGTCAGCGCCAGCGAAGTGGAAGCCGCTCTGACCGAAGCGTTGAACTCGAGCGGTAACTAA	MKDLLNLLKNQGQIEEFDAIRIGLASPEMIRSWSFGEVKKPETINYRTFKPERDGLFCAKIFGPVKDYECLCGKYKRLKHRGVICEKCGVEVALAKVRRERMAHIELASPVAHIWFLKSLPSRIGLLLDMTLRDIERVLYFESYVVIDPGMTTLEKGQLLNDEQYFEALEEFGDDFDARMGAEAVRELLNQIDLEHEIGRLREEIPQTNSETKIKKLSKRLKLMEAFHGSGNLPEWMVLTVLPVLPPDLRPLVPLDGGRFATSDLNDLYRRVINRNNRLKRLLDLSAPDIIVRNEKRMLQEAVDALLDNGRRGRAITGSNKRPLKSLADMIKGKQGRFRQNLLGKRVDYSGRSVITVGPTLRLHQCGLPKKMALELFKPFIFGKLEARGMATTIKAAKKMVERELPEVWDVLAEVIREHPVLLNRAPTLHRLGIQAFEPVLIEGKAIQLHPLVCAAYNADFDGDQMAVHVPLTLEAQLEARALMMSTNNILSPANGEPIIVPSQDVVLGLYYMTREAVNAKGEGRVFADLQEVDRVFRAGEASLHARVKVRINETVKEKDGSLTKNTRIVDTTVGRALLFQVVPAGLSYDVVNQPMKKKAISKLINQCYRTVGLKDTVIFADQLMYTGFAYSTISGVSIGVNDFVIPDEKARIIDAATEEVKEIESQYASGLVTQGEKYNKVIDLWSKANDEVSKAMMANLSKEKVIDREGKEVDQESFNSMYMMADSGARGSAAQIRQLAGMRGLMAKPDGSIIETPITANFREGLNVLQYFISTHGARKGLADTALKTANSGYLTRRLVDVAQDLVVTEIDCGTEQGLLMTPHIEGGDVVEPLGERVLGRVIARDVFKPGGDEVIVPAGTLIDEKWVEFIERMSVDEVVVRSPITCETRYGICAKCYGRDLARGHQVNIGEAVGVIAAQSIGEPGTQLTMRTFHIGGAASRTSAADNVQVKNGGVIRLHNLKHVERTDGNLVAVSRSGELAVADDFGRERERYKLPYGAVISVKEGDKVEPGAIVAKWDPHTHPIVTEMKGTVAFVGMEEGITIKRQTDELTGLTNIEVLDPKDRPAAGKDIRPAVKLVDANGKELLLPGTDVPAQYFLPANALVGVADGAQVSVGDVIARIPQETSKTRDITGGLPRVADLFEARRPKEPSILAEISGTISFGKETKGKRRLVITPTDGSDPYEELIPKWRHLNVFEGEQVNKGEVISDGPSNPHDILRLLGVSALAKYIVNEIQDVYRLQGVKINDKHIETILRQMLRKVEVAEAGDSSFIKGDQVELTQVLEENERLAGEDKFPAKYDRVLLGITKASLSTESFISAASFQETTRVLTEAAVTGKRDYLRGLKENVVVGRLIPAGTGLAYHSERKRQRDSGKPVRVSASEVEAALTEALNSSGN				NA	NA	NA	NA	NA
BMS010_03471	372	rpsL_1	COG0048	30S ribosomal protein S12	ATGGCAACTATCAACCAGCTGGTACGTCAGCCGCGCAAGCGCCTCGTCGAGAAGTCCGACGTGCCTGCGCTGCAGAACTGCCCGCAGCGTCGTGGCGTGTGCACCCGCGTGTACACCACTACGCCGAAGAAACCGAACTCGGCACTCCGTAAAGTTTGCCGTGTGCGCCTGACCAATGGTTATGAAGTCACTTCCTACATCGGTGGTGAAGGTCACAACCTGCAAGAGCACAGCGTAGTGCTGATCCGCGGCGGTCGTGTAAAGGACCTCCCGGGTGTGCGTTACCACACCGTGCGCGGTTCGCTGGATACCTCCGGCGTCAAAGACCGTAAGCAGGGTCGTTCGAAGTACGGCGCCAAGCGTCCGAAGTAA	MATINQLVRQPRKRLVEKSDVPALQNCPQRRGVCTRVYTTTPKKPNSALRKVCRVRLTNGYEVTSYIGGEGHNLQEHSVVLIRGGRVKDLPGVRYHTVRGSLDTSGVKDRKQGRSKYGAKRPK				NA	NA	NA	NA	NA
BMS010_03472	471	rpsG_1	COG0049	30S ribosomal protein S7	ATGCCAAGACGTCGTGTAGCAGCCAAGCGCGAGATCCTTGACGATCCGAAGTACGGCAGCCAAATCCTTGCCAAGTTCATGAACCACGTGATGGAGAGCGGCAAGAAAGCCGTTGCCGAGCGTATCGTTTATGGTGCTCTGGACAAGGTCAAAGAACGCAAGAACAGCGATCCCCTGGAAATCTTCGAAAAAGCACTCGACGCCATCGCTCCGCTGGTCGAAGTGAAGTCTCGCCGCGTAGGTGGTGCGACTTACCAGGTTCCGGTCGAAGTTCGTCCGTCCCGCCGTAATGCGCTGGCTATGCGTTGGTTGGTGGATTCCGCTCGCAAGCGTGGCGAGAAATCCATGGCTCTGCGTCTCGCCGGTGAACTGCTGGATGCCTTCGAAGGCAAAGGCGCTGCTGTCAAGAAGCGTGAAGACGTGCACCGTATGGCGGAAGCCAACAAGGCCTTCTCGCACTACCGTTTCTAA	MPRRRVAAKREILDDPKYGSQILAKFMNHVMESGKKAVAERIVYGALDKVKERKNSDPLEIFEKALDAIAPLVEVKSRRVGGATYQVPVEVRPSRRNALAMRWLVDSARKRGEKSMALRLAGELLDAFEGKGAAVKKREDVHRMAEANKAFSHYRF				NA	NA	NA	NA	NA
BMS010_03473	2103	fusA_1	COG0480	Elongation factor G 1	GTGGCTCGTACTACCCCAATCAACCGCTACCGTAATATCGGGATCTGCGCCCACGTAGACGCGGGCAAGACCACTACGACGGAGCGGATCCTGTTCTATACAGGCGTCAACCACAAAATGGGCGAGGTGCATGATGGCGCCGCGACCATGGACTGGATGGTGCAGGAGCAGGAGCGTGGTATCACCATTACCTCCGCTGCCACTACTGCCTTCTGGCAGGGCTCTGAGAAGCAGTTCGACAAGTACCGTATCAACATCATCGACACCCCCGGTCACGTGGACTTCACCATTGAGGTGGAGCGCTCTCTGCGTGTGCTGGACGGTGCTGTCGTGGTGTTCTGCGGCACTTCCGGCGTAGAGCCGCAGTCCGAGACTGTATGGCGTCAGGCCAACAAGTACGGTGTGCCGCGTATCGTCTACGTCAACAAGATGGACCGCGCTGGCGCCAACTTCCTGCGCGTCGTCGGCCAGATCAAGCAGCGCCTGGGCCATACTCCTGTCCCGGTTCAGCTCGCTATCGGTGCTGAGGACAACTTCCAGGGCCAGATCGACCTGATCAAGATGAAGGCGATCTTCTGGAACGAAGACGATCAGGGCATGACTTTCCGTGAGGAAGAGATCCCGGCCGAACTGCGTGACATGGCTGAGGAATATCGCTCCAACATGGTCGAGGCGGCAGCCGAGGCCAACGAGGAGCTGATGAACAAATATCTCGAGGAAGGCGAGCTCAGCGTCGAAGAGATCAAGGCGGGCCTGCGTCTGCGCACTATCGCCTGTGAAATCGTTCCGGCAGTTTGTGGTTCCTCCTTCAAGAACAAGGGTGTTCCGCTGGTTCTCGATGCCGTCATCGATTTCCTTCCGGCTCCGACCGAGATCCCTGCGATCAAGGGTGTTCATCCGGATAACGAAGAGCAGGAAGACGAGCGTCATGCTGATGACAATGAGCCGTTCTCTGCTCTGGCGTTCAAGATCGCGACTGACCCCTTCGTTGGTACGCTGACTTTCGCGCGTGTCTATTCTGGTGTTCTGAGCTCGGGCGACTCCGTGCTGAACTCCGTGAAGGGTAAGAAAGAGCGTGTTGGTCGTATGGTTCAGATGCACGCCAACACCCGTGAAGAGATCAAGGAAGTTCGTGCAGGCGACATCGCTGCTTTGATCGGTATGAAGGACGTCACCACCGGTGACACCCTCTGCTCGATCGAGAAGCCGATCATTCTCGAGCGCATGGATTTCCCGGAGCCCGTGATTTCGGTAGCGGTAGAGCCGAAGACCAAGGCTGACCAGGAGAAAATGGGTATTGCCCTTGGCAAGCTGGCTCAGGAAGACCCGTCGTTCCGCGTGAAGACCGACGAAGAGTCCGGCCAGACCATCATCTCCGGCATGGGTGAGTTGCACCTGGATATCATCGTCGACCGCATGAAGCGTGAGTTCGGTGTTGAGGCCAACATCGGCAAGCCGCAGGTGGCTTACCGTGAGACCATTCGCAACAAGTGCGAGATCGAAGGCAAGTTTGTTCGTCAGTCTGGTGGTCGTGGCCAGTTCGGTCACTGCTGGATCCGCTTCGAACCGGCTGACGAAGGTCAGGAAGGTCTGGAGTTCCGCAACGAAGTCGTGGGTGGTGTGGTTCCGAAGGAATACATCCCGGCAATCCAGAAGGGTATCGAAGAGCAGATGAAGAACGGTGTTGTCGCCGGTTATCCGCTCCTCGGCCTGAAGGCGACCGTGTTCGATGGTTCCTACCATGACGTGGACTCCAACGAAATGGCGTTCAAAATCGCTGCCTCCATGGCGACCAAGCAGCTGTCCCAAAAGGGCGGTGCTGTTCTGCTCGAGCCGATCATGAAGGTTGAGGTGGTGACCCCCGAAGACTACATGGGTGACGTGATGGGTGACCTGAATCGTCGTCGTGGTCTGATCCAGGGGATGGAAGATACTCCGGCTGGTAAGGTTATCCGTGCCGAAGTACCGCTGGGCGAGATGTTTGGTTACGCTACCGACGTTCGCTCCATGTCCCAGGGTCGTGCGAGCTACTCCATGGAGTTTGCGAAGTACTCGGAAGCCCCGGCAAACATCGCCGACGCTATCATCAAGAAACAAGGTTGA	MARTTPINRYRNIGICAHVDAGKTTTTERILFYTGVNHKMGEVHDGAATMDWMVQEQERGITITSAATTAFWQGSEKQFDKYRINIIDTPGHVDFTIEVERSLRVLDGAVVVFCGTSGVEPQSETVWRQANKYGVPRIVYVNKMDRAGANFLRVVGQIKQRLGHTPVPVQLAIGAEDNFQGQIDLIKMKAIFWNEDDQGMTFREEEIPAELRDMAEEYRSNMVEAAAEANEELMNKYLEEGELSVEEIKAGLRLRTIACEIVPAVCGSSFKNKGVPLVLDAVIDFLPAPTEIPAIKGVHPDNEEQEDERHADDNEPFSALAFKIATDPFVGTLTFARVYSGVLSSGDSVLNSVKGKKERVGRMVQMHANTREEIKEVRAGDIAALIGMKDVTTGDTLCSIEKPIILERMDFPEPVISVAVEPKTKADQEKMGIALGKLAQEDPSFRVKTDEESGQTIISGMGELHLDIIVDRMKREFGVEANIGKPQVAYRETIRNKCEIEGKFVRQSGGRGQFGHCWIRFEPADEGQEGLEFRNEVVGGVVPKEYIPAIQKGIEEQMKNGVVAGYPLLGLKATVFDGSYHDVDSNEMAFKIAASMATKQLSQKGGAVLLEPIMKVEVVTPEDYMGDVMGDLNRRRGLIQGMEDTPAGKVIRAEVPLGEMFGYATDVRSMSQGRASYSMEFAKYSEAPANIADAIIKKQG				NA	NA	NA	NA	NA
BMS010_03474	1194	tufA_2	COG0050	Elongation factor Tu	GTGGCTAAGGAAAAATTCGAACGTAACAAACCGCACGTCAACGTGGGCACTATCGGTCACGTTGACCATGGCAAAACTACCCTGACCGCAGCGCTGACCAAGGTTTGCGCTGACACCTGGGGTGGCGCTGCGCGCAACTTCGATCAGATCGATAACGCGCCGGAAGAAAAGGCCCGTGGTATCACCATCAACACCTCCCACGTGGAATACGACTCGGCCATTCGTCACTACGCTCACGTTGACTGCCCCGGTCACGCTGACTACGTGAAGAACATGATCACCGGTGCTGCCCAGATGGACGGCGCGATTCTGGTTTGCTCCGCTGCTGACGGCCCCATGCCGCAGACCCGTGAGCACATCCTGCTGTCCCGTCAGGTAGGCGTTCCTTACATCGTCGTGTTCCTGAACAAGGCCGACATGGTGGACGACGCTGAGCTGCTGGAACTGGTCGAAATGGAAGTTCGCGATCTGCTGAACACCTACGACTTCCCGGGCGACGACACTCCGATCGTCATCGGTTCCGCGCTGATGGCGCTGAACGGCGAAGATGCCAACGAAATGGGTGTATCCGCCGTTCGCAAGCTGGTTGAGACCCTGGATTCTTACATTCCGGAGCCGGTGCGTGCGATCGACCAGCCGTTCCTGATGCCGATCGAGGACGTGTTCTCGATCTCCGGTCGCGGCACCGTGGTAACCGGTCGTGTCGAGCGTGGCATCGTCAAGGTGGGTGAGGAAGTGGAAATCGTCGGTATCCGTCCGACCACCAAGACCACCTGCACTGGCGTTGAAATGTTCCGCAAGCTGCTTGACGAAGGTCGTGCTGGTGAGAACGTCGGTGCGCTGCTGCGTGGCACCAAGCGTGAAGACGTGGAGCGTGGCCAGGTTCTGGCCAAGCCGGGCACCATCAAGCCGCACACCAAGTTCGAGTGCGAAGTGTACGTGCTGAGCAAGGAAGAAGGTGGTCGTCACACCCCGTTCTTCAAGGGCTACCGTCCGCAGTTCTACTTCCGTACTACTGACGTGACCGGTAACTGCGAGCTGCCGGAAGGCGTTGAAATGGTAATGCCGGGCGACAACATCAAGATGGTTGTCACCCTGATCGCTCCGATCGCCATGGAAGATGGCCTGCGCTTCGCGATCCGCGAAGGTGGTCGTACCGTCGGCGCCGGCGTGGTTGCCAAGATCATCGAGTAA	MAKEKFERNKPHVNVGTIGHVDHGKTTLTAALTKVCADTWGGAARNFDQIDNAPEEKARGITINTSHVEYDSAIRHYAHVDCPGHADYVKNMITGAAQMDGAILVCSAADGPMPQTREHILLSRQVGVPYIVVFLNKADMVDDAELLELVEMEVRDLLNTYDFPGDDTPIVIGSALMALNGEDANEMGVSAVRKLVETLDSYIPEPVRAIDQPFLMPIEDVFSISGRGTVVTGRVERGIVKVGEEVEIVGIRPTTKTTCTGVEMFRKLLDEGRAGENVGALLRGTKREDVERGQVLAKPGTIKPHTKFECEVYVLSKEEGGRHTPFFKGYRPQFYFRTTDVTGNCELPEGVEMVMPGDNIKMVVTLIAPIAMEDGLRFAIREGGRTVGAGVVAKIIE	PGPT0015245_2262	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	TRIGGERED_IMMUNITY	PAMP|EFFECTOR_TRIGGERED_IMMUNITY|PTI	PTI-BACTERIAL_EF-TU,PGPT0015245-elf18|tuf|tufA-K02358	NA	NA
BMS010_03475	312	rpsJ_1	COG0051	30S ribosomal protein S10	ATGCAAAACCAACAAATCCGTATTCGGTTGAAGGCTTTTGACCATCGCCTGATCGATCAATCTACCCAGGAAATCGTGGAAACCGCGAAACGTACTGGTGCTCAGGTGCGTGGTCCGATTCCTCTGCCTACCCGCAAAGAGCGGTACACCGTACTGGTCTCTCCGCACGTCAACAAGGACGCGCGCGATCAGTATGAAATCCGTACCCATAAGCGTGTGCTGGACATCGTTCAGCCGACCGATAAAACGGTCGATGCGCTCATGAAGCTCGATCTTGCGGCTGGCGTGGAAGTGCAGATCAGCCTCGGCTAA	MQNQQIRIRLKAFDHRLIDQSTQEIVETAKRTGAQVRGPIPLPTRKERYTVLVSPHVNKDARDQYEIRTHKRVLDIVQPTDKTVDALMKLDLAAGVEVQISLG	PGPT0015245_5632	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	TRIGGERED_IMMUNITY	PAMP|EFFECTOR_TRIGGERED_IMMUNITY|PTI	PTI-BACTERIAL_EF-TU,PGPT0015245-elf18|tuf|tufA-K02358	NA	NA
BMS010_03476	636	rplC_1	COG0087	50S ribosomal protein L3	ATGACTATTGGTGTAGTCGGTCGTAAGTGCGGCATGACCCGCATTTTCACCGAAGAAGGTGTCTCCATTCCGGTTACGGTCATTGAGGTCGAGCCGAATCGCGTCACCCAGTTCAAAACTGAAGAGAGCGATGGCTATCGCGCCGTGCAGGTGACTGTCGGTGAGCGTCGTGCTTCTCGTGTGACCAAGGCTCAGGCCGGTCACTTCGCCAAGGCCAATGTCGCTGCTGGTCGTAGCGTCTTGGAGTTCCGTCTGGAAGAGGGCGAGTATCAGGCGGGTGATCAGCTCAGTGTCGAGCTGTTCCAGACGGGCCAACTGGTGGACGTCACCGGTCAGTCCAAGGGTAAGGGCTTTGCCGGTACCATCAAGCGCTGGAACTTCCGTGGTCAGGACAATACTCACGGTAACTCCGTTTCCCACCGCGTCCCTGGTTCCATTGGCCAGTGCCAGACTCCTGGTCGTGTGTTCAAGGGCAAGAAGATGTCCGGTCATATGGGCGCTGAGCGCGTGACCGTGCAGTCCCTGGAAATTGTGCGTGTCGACGCTGAACGTAATCTGCTGCTGGTCAAGGGTGCCGTTCCTGGCGCTACCGGCGGTGATGTCGTCGTGCGTCCGGCAGCCAAGGCTCGCGGTTAA	MTIGVVGRKCGMTRIFTEEGVSIPVTVIEVEPNRVTQFKTEESDGYRAVQVTVGERRASRVTKAQAGHFAKANVAAGRSVLEFRLEEGEYQAGDQLSVELFQTGQLVDVTGQSKGKGFAGTIKRWNFRGQDNTHGNSVSHRVPGSIGQCQTPGRVFKGKKMSGHMGAERVTVQSLEIVRVDAERNLLLVKGAVPGATGGDVVVRPAAKARG				NA	NA	NA	NA	NA
BMS010_03477	603	rplD_1	COG0088	50S ribosomal protein L4	ATGCAATTGAATGTAAATGGCGCTCAGGCGATCGAAGTCTCCGAGCGTACCTTTGGTGGCGAGTTCAATGAGACCCTCGTGCACCAGGCAGTCGTGGCCTACATGGCCGGCGGTCGTCAGGGCAGCAAGCAGCAGAAGAGCCGTTCCGACGTCTCTGGTGGCGGCAAGCGTCCGTGGCGTCAGAAGGGTACTGGTCGTGCCCGTGCTGGTACCACTCGTGGCCCGATCTGGCGTGGCGGTGGTGTCACCTTCGCTGCTCGTCCGCAGAATCATGAGCAGAAGCTCAACAAGAAGATGTATCGCGCAGCTCTGCGCTCCATCCTCTCCGAGCTGGTGCGTCAGGATCGTCTGGTCGTCGTCGAGGAGTTCGGTGTTGATGCGCCGAAGACCAAGGCTCTGCTGGGCAAGCTGAACGGCATGGGGCTGAACGATGTTCTGATCGTGTCCGATGCTGTTGATCAGAATCTCTATCTGGCCGCGCGCAACCTGCCGCACGTCGACGTTCGCGACGTACAGGGTTCCGATCCGGTCAGCCTGATCGCCTATGACAAGGTGCTGATCACCGTGTCCGCGGTGAAGAAGTTCGAGGAGCTGCTGGGATGA	MQLNVNGAQAIEVSERTFGGEFNETLVHQAVVAYMAGGRQGSKQQKSRSDVSGGGKRPWRQKGTGRARAGTTRGPIWRGGGVTFAARPQNHEQKLNKKMYRAALRSILSELVRQDRLVVVEEFGVDAPKTKALLGKLNGMGLNDVLIVSDAVDQNLYLAARNLPHVDVRDVQGSDPVSLIAYDKVLITVSAVKKFEELLG				NA	NA	NA	NA	NA
BMS010_03478	300	rplW_1	COG0089	50S ribosomal protein L23	ATGAACCAGGAACGCGTATTCAAAGTGCTGCTTGGTCCGCACGTCTCCGAGAAAGCCACTGTGCTGGCGGACAGCAAGAGCCAATTCGTTTTCAAGGTTGCTACCGATGCAACCAAGCTGGAAATCAAGAAGGCCGTCGAAAGCCTGTTCAACGTGAAGGTGCAGAGCGTCACCACCCTGAATGTGAAGGGTAAGACCAAGCGCACCGTTCGCGGTCTGGGCAAGCGTAACGACTGGAAGAAGGCGTATATCGCCCTTCAGCCGGGCCAAGATCTCGATTTCGCCAGCAGTGCTGAGTAA	MNQERVFKVLLGPHVSEKATVLADSKSQFVFKVATDATKLEIKKAVESLFNVKVQSVTTLNVKGKTKRTVRGLGKRNDWKKAYIALQPGQDLDFASSAE				NA	NA	NA	NA	NA
BMS010_03479	822	rplB_1	COG0090	50S ribosomal protein L2	ATGGCAATCGTTAAATGCAAACCGACTTCCGCTGGCCGCCGTTTCGTGGTCAAAGTGGTTGGTCAGGAGCTGCACAAGGGCGCTCCTTACGCTCCGCTGGTCGAGAAGAAGTCCAAGTCTGGCGGCCGTAACAACAATGGCCGTATCACTACCCGTCACATCGGTGGTGGTCACAAGCAGCATTACCGTCTGGTCGATTTTCGTCGCAACAAAGATGGCATTCCTGCCACCGTTGAGCGTATCGAATACGATCCGAACCGTACTGCCCACATCGCGCTGCTGAAGTATGCCGACGGCGAACGTCGCTACATCATCGCTCCGAAGGGTGTTAGCGCTGGTGATCAGCTGATTTCCGGTGTCAACGCGCCTATCAAGGCGGGCAATACTCTTCCGCTGCGCAACATCCCGGTTGGTAGCACCATTCACGGTGTTGAGCTGAAGCCTGGCAAAGGCGCTCAGATCGCTCGCTCCGCAGGTGCCTCTGTTCAGTTGGTGGCTCGTGAGGGTGCATACGTAACTCTGCGTCTGCGTTCCGGTGAGATGCGCAAGGTCCTGGCAGAGTGCCGTGCGACCCTGGGAGAAGTCTCGAACTCCGAGCACAGCCTGCGCTCGTTGGGCAAGGCCGGTGCCAAGCGCTGGCGTGGTGTTCGTCCGACCGTTCGCGGTGTGGCGATGAACCCTGTCGATCACCCGCATGGTGGTGGTGAAGGTCGTACCTCGGGTGGTCGTCATCCGGTGTCGCCATGGGGCTTCCCGACCAAGGGCGCGAAGACTCGTGCGAACAAGCGCACCGACAACATGATCGTCCGCCGCCGTAAGTAA	MAIVKCKPTSAGRRFVVKVVGQELHKGAPYAPLVEKKSKSGGRNNNGRITTRHIGGGHKQHYRLVDFRRNKDGIPATVERIEYDPNRTAHIALLKYADGERRYIIAPKGVSAGDQLISGVNAPIKAGNTLPLRNIPVGSTIHGVELKPGKGAQIARSAGASVQLVAREGAYVTLRLRSGEMRKVLAECRATLGEVSNSEHSLRSLGKAGAKRWRGVRPTVRGVAMNPVDHPHGGGEGRTSGGRHPVSPWGFPTKGAKTRANKRTDNMIVRRRK				NA	NA	NA	NA	NA
BMS010_03480	276	rpsS_1	COG0185	30S ribosomal protein S19	GTGCCGCGTTCTCTGAAAAAAGGTCCTTTTATCGATCTTCACCTACTGAAGAAGGTCGAAGTGGCGGTGGAAAAGGGCGATCGCAAGCCGGTCAAGACCTGGTCGCGTCGCTCCATGATCCTGCCGCAGATGGTTGGTCTGACCATCGCTGTGCATAACGGTCGTCAGCATGTTCCGGTTCTCATCAACGAGGACATGGTCGGCCACAAACTGGGCGAGTTCGCCGCTACCCGCACCTATCGCGGGCACGCTGCGGACAAGAAAGCCAAGCGTTAA	MPRSLKKGPFIDLHLLKKVEVAVEKGDRKPVKTWSRRSMILPQMVGLTIAVHNGRQHVPVLINEDMVGHKLGEFAATRTYRGHAADKKAKR				NA	NA	NA	NA	NA
BMS010_03481	333	rplV_1	COG0091	50S ribosomal protein L22	ATGGAAGTAGCCGCTAAGCTGTCGGGCGCTCGAATCTCCGCCCAGAAAGCCCGCTTGGTCGCCGACCAGATCCGCGGGAAGAAGGTGGGCGAAGCGCTCAACCTCCTGGCTTTCAGCAGTAAGAAAGCCGCCGAGATCATGAAGAAAGTGCTGGAGTCGGCCGTGGCCAACGCCGAGCACAACGAAGGCGCAGACGTGGACGATCTCAAAGTCTCCACCGTTTTCGTCAACGAAGGGCGTTCGCTTAAGCGCATCATGCCGCGCGCCAAGGGCCGCGCTGATCGCATCGTCAAGCGGTCTTGCCATATCACTGTCAAGGTTGCGGACAAGTAA	MEVAAKLSGARISAQKARLVADQIRGKKVGEALNLLAFSSKKAAEIMKKVLESAVANAEHNEGADVDDLKVSTVFVNEGRSLKRIMPRAKGRADRIVKRSCHITVKVADK				NA	NA	NA	NA	NA
BMS010_03482	687	rpsC_1	COG0092	30S ribosomal protein S3	ATGGGTCAGAAAGTACATCCCGTTGGCATCCGCCTGGGAATCGTCAAGGAGCACACTTCGGTCTGGTATGCAGATAAGCGCACCTATGCGGATTATCTGCTGGCCGACCTGAAGGTCCGTGAGTACCTCCAAGACAAACTAAAAAGCGCGTCCGTAAGCCGCATCGATATCGCACGTCCGGCCCAAACCGCACGTGTGACCATCCATACCGCCCGTCCCGGCATCGTGATCGGCAAGAAGGGTGAGGATGTCGAGAAGCTGCGTCAGGACCTGACCAAGCAAATGGGTGTGCCGGTGCACATCAACATCGAAGAGATCCGCAAGCCGGAGCTCGATGCAATGTTGGTTGCTCAGAGCGTTGCCCAGCAGCTGGAGCGTCGCGTCATGTTCCGTCGTGCCATGAAGCGCGCGGTGCAGAACGCCATGCGTATTGGTGCCAAGGGCATCAAGATTCAGGTGAGCGGTCGCCTCGGCGGTGCGGAAATCGCCCGTACCGAGTGGTATCGCGAAGGTCGTGTGCCCCTGCACACCCTGCGTGCCGATATCGATTACGCCACCTATGAAGCGCACACCACCTACGGTGTGATTGGCGTCAAGGTCTGGATCTTCAAGGGTGAGGTCATCGGTGGCCGCCAGGAAGAGCTCAAGCCGCAAGCGCCCGCTCCTCGTAAAAAAGCTGCTAAGTAA	MGQKVHPVGIRLGIVKEHTSVWYADKRTYADYLLADLKVREYLQDKLKSASVSRIDIARPAQTARVTIHTARPGIVIGKKGEDVEKLRQDLTKQMGVPVHINIEEIRKPELDAMLVAQSVAQQLERRVMFRRAMKRAVQNAMRIGAKGIKIQVSGRLGGAEIARTEWYREGRVPLHTLRADIDYATYEAHTTYGVIGVKVWIFKGEVIGGRQEELKPQAPAPRKKAAK				NA	NA	NA	NA	NA
BMS010_03483	414	rplP_1	COG0197	50S ribosomal protein L16	ATGTTGCAACCAAAGCGTACGAAGTTCCGCAAGCAGATGACCGGCCACAACCGTGGTCTGGCTCAGCGCGGTAGCAAAGTCAGCTTCGGCGAGTTTGCTCTGAAATCCGTGAGCCGTGGTCGCCTCACCGCTCGTCAGATCGAGGCCGCGCGTCGTGCCTTGACCCGTCACGTGAAGCGTGGCGGCAAGATCTGGATCCGCGTGTTCCCCGATAAGCCTGTTACCAAGAAACCCCTCGAAGTACGTATGGGTAAAGGTAAGGGTAACGTCGAGTACTGGGTAGCCCAGATTCAACCGGGCAAGGTCCTCTACGAGATCGAGGGTGTTTCCGAAGAGCTGGCGCGTGAGGCTTTCGCCCTGGCCGCTGCAAAGCTGCCGCTCGCCACCTCCTTTGTTAAGCGGACGGTGATGTGA	MLQPKRTKFRKQMTGHNRGLAQRGSKVSFGEFALKSVSRGRLTARQIEAARRALTRHVKRGGKIWIRVFPDKPVTKKPLEVRMGKGKGNVEYWVAQIQPGKVLYEIEGVSEELAREAFALAAAKLPLATSFVKRTVM				NA	NA	NA	NA	NA
BMS010_03484	192	rpmC_1	COG0255	50S ribosomal protein L29	ATGAAAGCGAATGAACTTCGTGAAAAATCCGTACAGCAGCTGAACGAGCAACTGCTCGGCCTGCTGCGCGACCAGTTCAATCTGCGTATGCAGAAGGCAACTGGCCAGTTGGGGCAGTCTCACCTGCTCTCGCAAGTGAAGCGCGACATCGCTCGCGTGAAAACTGTGCTCAACCAGCAAGCAGGTAAGTAA	MKANELREKSVQQLNEQLLGLLRDQFNLRMQKATGQLGQSHLLSQVKRDIARVKTVLNQQAGK				NA	NA	NA	NA	NA
BMS010_03485	267	rpsQ_1	COG0186	30S ribosomal protein S17	ATGGCTGAAGCTCAGAAAACCGTCCGTACGCTGACCGGCCGTGTCGTCAGCGACAAAATGGACAAGACCATCACCGTCCTGATCGAGCGCCGCGTGAAGCACCCGATCTACGGTAAATACGTGAAGCGTTCGACCAAGCTGCACGCCCACGACGAAACCAACCAGTGCCGTATCGGCGACAAGGTCACCATTCGCGAGACCCGTCCGCTGGCCAAGACCAAGTCCTGGATGCTGGTGGAAGTCGTCGAGCGCGCGGTGGAAGTCTAA	MAEAQKTVRTLTGRVVSDKMDKTITVLIERRVKHPIYGKYVKRSTKLHAHDETNQCRIGDKVTIRETRPLAKTKSWMLVEVVERAVEV				NA	NA	NA	NA	NA
BMS010_03486	369	rplN_1	COG0093	50S ribosomal protein L14	ATGATTCAGACTCAATCCATGCTCGATGTGGCCGACAACAGCGGCGCTCGTCGCGTCATGTGCATCAAGGTGTTGGGCGGCTCTCACCGTCGTTACGCCGGCATCGGCGACATCATCAAGGTCACCGTGAAGGAAGCGATTCCGCGCGGTAAGGTGAAGAAGGGCCAGGTGATGACCGCTGTCGTGGTCCGCACCAAGCACGGCGTTCGTCGTCCTGATGGCTCGATCATCCGTTTCGACGGCAACGCTGCTGTTCTGCTGAACAACAAGCAGGAGCCGATCGGCACTCGTATCTTCGGGCCGGTGACTCGTGAACTTCGCTCTGAGAAGTTCATGAAGATCGTTTCGCTCGCCCCTGAAGTGCTGTAA	MIQTQSMLDVADNSGARRVMCIKVLGGSHRRYAGIGDIIKVTVKEAIPRGKVKKGQVMTAVVVRTKHGVRRPDGSIIRFDGNAAVLLNNKQEPIGTRIFGPVTRELRSEKFMKIVSLAPEVL				NA	NA	NA	NA	NA
BMS010_03487	315	rplX_1	COG0198	50S ribosomal protein L24	ATGCAAAAGATTCGTCGTGACGACGAGATCATCGTCATCGCCGGCAAAGACAAGGGCAAGCGTGGCAAGGTGCTCAAGGTTCTCGCGGACGACCGTCTGGTCGTCGGTGGGATCAACTTGGTCAAGCGCCATACCAAGCCGAACCCGATGCTGGGCGTACAAGGCGGGATCGTCGAGAAAGAGGCGCCGCTGCACGCTTCTAACGTGGCCATCTTCAATGCTGAAACCAACAAGGCTGACCGTGTTGGTTTCAAGGTGGAAGAAGGCAAAAAAATTCGTGTCTTCAAGTCGACCCAAAAGCCGGTTGATGCTTGA	MQKIRRDDEIIVIAGKDKGKRGKVLKVLADDRLVVGGINLVKRHTKPNPMLGVQGGIVEKEAPLHASNVAIFNAETNKADRVGFKVEEGKKIRVFKSTQKPVDA				NA	NA	NA	NA	NA
BMS010_03488	540	rplE_1	COG0094	50S ribosomal protein L5	ATGGCACGACTAAAAGAGATTTATCGGAAGGAAATCGCGCCCAAGCTGAAAGAGCAACTTCAGCTGGCCAACGTGATGGAAGTTCCGCGCGTTACCAAAATCACCCTGAACATGGGTCTTGGCGAAGCGGTAGGTGACAAGAAAGTCATCGAGAACGCTGTCGCCGATCTGGAGAAGATCACCGGTCAGAAGCCGGTGGTGACTTACGCTCGCAAGTCCATCGCTGGTTTCAAGATCCGCGAAGGCTGGCCGATCGGCGTCAAGGTCACCCTGCGTCGCGACCGGATGTACGAGTTCCTGGATCGTCTGCTTTCCATTTCCCTGCCGCGCGTGCGTGACTTCCGCGGCCTGAATGCCAAGTCCTTCGACGGACGCGGCAACTACAGCATGGGTGTGAAGGAGCAGATCATCTTCCCGGAAATCGATTACGACAAGATCGATGCGCTCCGTGGTCTGGATATCACTCTGACCACTACCGCCCGTACCGATGATGAAGGTCGTGCTCTACTGCGCGCCTTCAACTTCCCGTTCCGCAACTGA	MARLKEIYRKEIAPKLKEQLQLANVMEVPRVTKITLNMGLGEAVGDKKVIENAVADLEKITGQKPVVTYARKSIAGFKIREGWPIGVKVTLRRDRMYEFLDRLLSISLPRVRDFRGLNAKSFDGRGNYSMGVKEQIIFPEIDYDKIDALRGLDITLTTTARTDDEGRALLRAFNFPFRN				NA	NA	NA	NA	NA
BMS010_03489	306	rpsN_1	COG0199	30S ribosomal protein S14	ATGGCCAAACAGAGCATGAAAAACCGTGAGCTGAAGCGTCAGCAAACGGTAGCCAAGTACGCCAAGAAGCGTGCTGAGCTGAAAGCTATCATCGCCAACCCGAACTCCACTCCGGAAGCGCGTTGGGAAGCTCAGATTGCCCTGCAGAAGCAGCCGCGTGATGCGAGCGCTTCCCGCCTGCGCAATCGGTGCCGTCTGACCGGTCGTCCTCATGGCGTTTATCGCAAGTTCGGGCTTGCCCGTAACATGCTGCGCCAGGCCGCCATGCGTGGTGACGTACCGGGTCTGGTCAAGGCCAGCTGGTAA	MAKQSMKNRELKRQQTVAKYAKKRAELKAIIANPNSTPEARWEAQIALQKQPRDASASRLRNRCRLTGRPHGVYRKFGLARNMLRQAAMRGDVPGLVKASW				NA	NA	NA	NA	NA
BMS010_03490	393	rpsH_1	COG0096	30S ribosomal protein S8	ATGAGTATGCAGGACCCGTTAGCGGACATGCTAACTCGTATCCGTAATGCCCAGATGGCTGAGAAGACCGTGGTTAGCATGCCGTCTTCCAAGCTGAAGGTGGCAGTCGCCAACGTTCTGAAGAGCGAAGGTTATATCACCGGATACCAAGTCAGCAGCGACGCCAAGCCGTTGCTGTCCATCGAGCTTAAGTATTTCGAAGGCCGTCCGGTCATTGAAGAGCTCAAGCGCGTTAGTCGTCCTGGCCTGCGCCAGTACAAGTCCGTCGACCAGTTGCCGAAAGTTCGCGGTGGCCTGGGCGTTTCGATCGTTTCCACCAACAAGGGTGTGATGACCGATCGTGCTGCTCGCGCTGCTGGCGTTGGCGGCGAAGTGCTCTGCACTGTGTTCTAA	MSMQDPLADMLTRIRNAQMAEKTVVSMPSSKLKVAVANVLKSEGYITGYQVSSDAKPLLSIELKYFEGRPVIEELKRVSRPGLRQYKSVDQLPKVRGGLGVSIVSTNKGVMTDRAARAAGVGGEVLCTVF				NA	NA	NA	NA	NA
BMS010_03491	534	rplF_1	COG0097	50S ribosomal protein L6	ATGTCTCGCGTTGCTAAGAACCCCGTCAAGCTGCCCGCCGGCGTGGAAGTGAAACTGGTCGGCCAGGTCCTTTCGGTGAAAGGTGCCAAGGGTGCGCTGGATCTGAACGTACATCCGTCCGTGGAAGTCACCCATGAGGCGGGCGAGCTGCGTTTCGCTGCTCGTAATGGCGATCAGCAGAACAAGGCCATGGCTGGCACTACTCGTGCCCTGGTCAACAACATGGTTATCGGCGTTAGCCAGGGCTTCGAGCGCAAGCTTCAGCTGGTTGGCGTTGGTTACAAGGCTCAGGCCAAAGGTCAGGTGCTGTCCCTGGCTCTCGGCTTCTCTCATCCGGTGGATTACGAATTGCCGCAAGGCGTCACTGCCGAGACTCCCAGCCAGACCGACATCCTGATCAAGGGTATCGACAAGCAGCTGGTAGGTCAGGTGGCTGCTGAGATCCGCGACTTCCGCCGGCCGGAGCCTTACAAAGGCAAGGGCGTACGTTACTCGGACGAAGTCGTCCGTCGTAAAGAAGCTAAGAAGAAGTAG	MSRVAKNPVKLPAGVEVKLVGQVLSVKGAKGALDLNVHPSVEVTHEAGELRFAARNGDQQNKAMAGTTRALVNNMVIGVSQGFERKLQLVGVGYKAQAKGQVLSLALGFSHPVDYELPQGVTAETPSQTDILIKGIDKQLVGQVAAEIRDFRRPEPYKGKGVRYSDEVVRRKEAKKK				NA	NA	NA	NA	NA
BMS010_03492	351	rplR_1	COG0256	50S ribosomal protein L18	ATGAGCGTAAAGAAAGAAACTCGTCTGCGTCGCGCTCGCAAGGCACGCCTGAAAATGCGCGAGCTGGAAACCGTACGCCTTTGCGTGTACCGCTCTTCCCAGCACATCTACGCCCAGGTCATTTCGGCCGACGGCGGCAAGGTCCTGGCCAGTGCCTCGACCTTGGACAAAGAACTGCGTGATGGTGCCACCGGCAACGTCGACGCGGCCAAGAAGGTTGGTCAGCTGGTGGCTGAGCGTGCGAAAGCCGCCGGCGTCACTCAGGTGGCGTTCGATCGTTCTGGCTTCAAGTACCACGGTCGTGTGAAGGCATTGGCCGATGCTGCTCGTGAAGGCGGGCTGGAGTTCTAA	MSVKKETRLRRARKARLKMRELETVRLCVYRSSQHIYAQVISADGGKVLASASTLDKELRDGATGNVDAAKKVGQLVAERAKAAGVTQVAFDRSGFKYHGRVKALADAAREGGLEF				NA	NA	NA	NA	NA
BMS010_03493	501	rpsE_1	COG0098	30S ribosomal protein S5	ATGGCAAATAACGAGCAAAAGCGCGACGAAGGCTACATCGAGAAGCTGGTTCAGGTTAATCGCGTCGCCAAAACCGTTAAGGGTGGCCGTATTTTCACCTTTACCGCGTTGACCGTGGTGGGTGATGGCAAGGGTCGTGTCGGTTTCGGCCGCGGTAAGTCCCGTGAAGTCCCTGCCGCCATTCAGAAGGCTATGGAAGCGGCTCGCCGCAACATGATCCAGGTCGATCTGAACGGCACCACTCTGCAGTACCCGATCAAGTCCGCTCATGGTGCCTCCAAGGTGTTCATGCAGCCGGCCTCCGAAGGTACCGGTATCATCGCCGGCGGTGCCATGCGTGCCGTTCTGGAAGTGGCTGGTGTTCAAAACGTCCTGGCCAAGTGCTACGGCTCGACCAATCCGGTGAACGTGGTCTACGCCACTTTCAAAGGGCTGAAGAACATGCAGTCTCCGGAGTCGGTAGCGGCCAAGCGTGGCAAGAGCGTCGAGGAGATTCTCTGA	MANNEQKRDEGYIEKLVQVNRVAKTVKGGRIFTFTALTVVGDGKGRVGFGRGKSREVPAAIQKAMEAARRNMIQVDLNGTTLQYPIKSAHGASKVFMQPASEGTGIIAGGAMRAVLEVAGVQNVLAKCYGSTNPVNVVYATFKGLKNMQSPESVAAKRGKSVEEIL				NA	NA	NA	NA	NA
BMS010_03494	183	rpmD_1	COG1841	50S ribosomal protein L30	ATGGCTAACGCAACTGTTAAGGTCACCTTGGTCAAGAGCCTGAACGGCCGTCTGGCCAATCACAAGGCTTGCGTCAAGGGTCTCGGCCTGCGTCGCATCGGTCATACCGTTGAAGTTCAGGACACTCCTGAAAACCGCGGCATGATCAACAAGGCCTATTACCTTCTGCGTGTGGAGGGTTAA	MANATVKVTLVKSLNGRLANHKACVKGLGLRRIGHTVEVQDTPENRGMINKAYYLLRVEG				NA	NA	NA	NA	NA
BMS010_03495	435	rplO_1	COG0200	50S ribosomal protein L15	ATGCAACTGAACGATCTGCGTTCCGCGCCGGGTGCCCGTCGCGAAAAGCTGCGTCCGGGCCGTGGTATCGGTAGCGGTCTGGGCAAGACCGGCGGCCGTGGCCATAAAGGCCAGACCTCCCGTTCCGGCGGTAAGATTGCTCCCGGTTTCGAGGGTGGTCAGCAGCCTCTGCACCGTCGTCTGCCCAAGTTCGGTTTCGTATCCCTGAAGGCTATGGATCGCGCTGAAGTGCGCACTTCCGAGCTGGCCAAGGTGGAAGGCGACATCGTTACTGTGCAGGCGCTTAAGGATGCCAACGTCATTAACCAGAACGTGCAGCGTGTGAAAATCATGCTCTCGGGCGAGGTTGGTCGTGCGGTCACCCTGAAAGGTATCGCCGCCACCAAGGGTGCGCGTGCGGCCATCGAAGCAGCTGGCGGCAAAATCGAGGACTAA	MQLNDLRSAPGARREKLRPGRGIGSGLGKTGGRGHKGQTSRSGGKIAPGFEGGQQPLHRRLPKFGFVSLKAMDRAEVRTSELAKVEGDIVTVQALKDANVINQNVQRVKIMLSGEVGRAVTLKGIAATKGARAAIEAAGGKIED				NA	NA	NA	NA	NA
BMS010_03496	1329	secY_1	COG0201	Protein translocase subunit SecY	ATGGCTAAGCAAGGTGCTCTCTCCGCGCTCAGCAATGGCGGGTTGTCCGAACTCTGGGCTCGACTGCGTTTCCTTTTCCTGGCGATCATCGTCTACCGGATTGGAGCGCACATCCCAGTACCAGGTATCAACCCTGACCGGCTGGCCGACCTGTTCCGGCAGAACGAGGGGACCATTCTTAGCCTATTCAACATGTTTTCCGGCGGTGCGCTGGAGCGGATGAGTATCTTCGCGTTGGGGATCATGCCGTACATCTCGGCATCGATCATCATGCAGTTGATGACCGCCGTCAGCCCGCAGCTGGAGCAGTTGAAGAAGGAAGGTGAAGCTGGCCGTCGCAAGATTAGCCAGTACACCCGCTACGGCACTCTCGTCCTGGCACTCGTCCAGGCCGTCGGCATGTCGATCGGCCTGGCGAGCCAGGGCGTAGCGTTCACTACCGATTTCGGCTTCCACTTCGTAGCCGTCACCACCTTCGTGGCGGGGGCGATGTTCATGATGTGGTTGGGTGAGCAAATCACCGAGCGCGGTGTCGGCAACGGTATCTCGATGCTGATTTTCGCTGGCATCGTGGCTGGCTTGCCGTCGGCAATCGGGAAGTCTTTCGAGTCTGCCCGTCAAGGTGATATCAATATCATCGCCTTGCTTGCCATCGGTCTGCTGGCGGTAGCCATCATTGGTTTTGTGGTGTTCATCGAGCGTGGTCAGCGCCGTATCGCGGTGCACTATGCCAAGCGTCAGCAGGGCCGCAAGGTCTTTGCCGCGCAAACCAGTCACCTGCCTCTGAAGGTGAACATGGCTGGCGTCATTCCGGCTATTTTCGCTAGCAGCATCCTGTTGTTCCCGGCCTCTTTGGGGTCCTGGTTCGGTCAGGGTGAGGGCATGGGTTGGTTGCAGGACATCGCTCAGTCGATTGCTCCCGGTCAGCCGTTGAACATTCTGCTGTTTAGTGCAGGGATCATTTTCTTCTGCTTCTTCTATACAGCTCTGATGTTCAACCCGAAGGACGTAGCGGAAAACCTGAAGAAGTCCGGTGCCTTTATTCCGGGTATTCGTCCGGGCGAGCAGTCCGCGCGCTATATCGATGGCGTGTTGACTCGCTTGACCATGTTCGGTGCCCTGTACATGACGGCCGTATGCCTGCTGCCCCAGTTCCTGGTGGTGGCGGCCAACGTACCGTTCTACCTTGGCGGGACCTCGTTGCTGATCGTGGTTGTGGTTGTGATGGACTTCATGTCCCAAGTACAATCGCACCTCGTTTCCCACCAGTACGAATCCCTGATGAAAAAAGCCAACCTGAAGGGTTACGGCAGCGGCATGCTCCGCTGA	MAKQGALSALSNGGLSELWARLRFLFLAIIVYRIGAHIPVPGINPDRLADLFRQNEGTILSLFNMFSGGALERMSIFALGIMPYISASIIMQLMTAVSPQLEQLKKEGEAGRRKISQYTRYGTLVLALVQAVGMSIGLASQGVAFTTDFGFHFVAVTTFVAGAMFMMWLGEQITERGVGNGISMLIFAGIVAGLPSAIGKSFESARQGDINIIALLAIGLLAVAIIGFVVFIERGQRRIAVHYAKRQQGRKVFAAQTSHLPLKVNMAGVIPAIFASSILLFPASLGSWFGQGEGMGWLQDIAQSIAPGQPLNILLFSAGIIFFCFFYTALMFNPKDVAENLKKSGAFIPGIRPGEQSARYIDGVLTRLTMFGALYMTAVCLLPQFLVVAANVPFYLGGTSLLIVVVVVMDFMSQVQSHLVSHQYESLMKKANLKGYGSGMLR	PGPT0025725_2075	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025725-secY-K03076	NA	NA
BMS010_03498	357	rpsM_1	COG0099	30S ribosomal protein S13	ATGGCCCGTATTGCAGGCGTCAACATTCCAGATAACAAGCATACTGTTATCTCGCTGACCTACATCTACGGTGTTGGTCGCACCACTGCGCAGAGCATCTGCGCTGCTGCTGGCGTAAACCCGGCGGCGAAAATCAAGGATCTCTCCGACGAGCAGATCGAGCTGCTGCGTGGCGAAGTGGCCAAGATCACCACTGAGGGTGACCTGCGTCGCGAAGTCAACATGAAGATCAAGCGCTTGATGGATCTGGGCTGCTACCGCGGTCTGCGTCATCGCCGTGGCCTGCCGGTCCGCGGTCAGCGTACCAAGACCAACGCGCGTACCCGTAAGGGCCCGCGTAAGCCGATCCGCAAGTAA	MARIAGVNIPDNKHTVISLTYIYGVGRTTAQSICAAAGVNPAAKIKDLSDEQIELLRGEVAKITTEGDLRREVNMKIKRLMDLGCYRGLRHRRGLPVRGQRTKTNARTRKGPRKPIRK				NA	NA	NA	NA	NA
BMS010_03499	390	rpsK_1	COG0100	30S ribosomal protein S11	ATGGCAAAACCTGCTGCTCGTCCTCGTAAGAAAGTCAAAAAGACGGTGGTTGATGGCATCGCCCATATCCACGCGTCTTTCAACAATACCATCGTGACCATCACTGACCGTCAGGGCAATGCCTTGTCCTGGGCTACCTCCGGTGGTTCGGGTTTCCGCGGTTCCCGTAAGAGCACCCCGTTCGCTGCCCAGGTGGCTGCCGAGCGTGCCGGTCAGGCTGCTCTGGAATACGGTCTGAAGAACCTCGACGTTAACGTCAAGGGTCCGGGCCCGGGTCGCGAGTCCGCTGTGCGTGCTCTGAACGCCTGCGGCTACAAAATCGCCAGCATCACCGACGTGACGCCGATCCCGCACAACGGGTGCCGTCCGCCGAAGAAGCGTCGCGTGTAA	MAKPAARPRKKVKKTVVDGIAHIHASFNNTIVTITDRQGNALSWATSGGSGFRGSRKSTPFAAQVAAERAGQAALEYGLKNLDVNVKGPGPGRESAVRALNACGYKIASITDVTPIPHNGCRPPKKRRV				NA	NA	NA	NA	NA
BMS010_03500	621	rpsD_1	COG0522	30S ribosomal protein S4	ATGGCTCGTTACATTGGTCCCAAGTGCAAACTGTCTCGTCGTGAAGGTACCGACCTCTTTCTGAAGAGTGGTGCTCGCGCGCTCGAATCCAAGTGCAACATCGAATCCGCTCCCGGTATCCATGGCCAGCGCCGTGGCCGCCTGTCCGACTACGGCACCCAGCTGCGTGAAAAGCAGAAAGTCCGCCGTATCTACGGTGTGCTGGAGCGTCAGTTCAGCGGCTACTACAAGGAAGCTGCCCGTAAGAAGGGTGCTACCGGTGAGAACCTGCTGCAGCTGCTCGAGTGCCGTCTGGACAACGTCGTCTATCGCATGGGCTTCGGTGCCACGCGTGCCGAATCCCGTCAGCTGGTTTCCCACAAGGCCATCACCGTCAATGGCAAGACCGTGAACGTTCCGTCGTTCCAGGTTCAGCCGGGCGACGTGGTTGCTGTGCGTGAAAAGTCGAAGAACCAGTTGCGCATCGTCCAAGCCCTCGAACTGTGCGCTCAGCGCGGTCGTGTCGAGTGGGTGGAAGTGGACGCAGAGAAGAAATCCGGTGTGTTCAAGAGCGTACCGGCTCGTAGCGATCTGTCCGCCGACATCAACGAAAACCTGATTGTCGAGCTCTACTCCAAGTAA	MARYIGPKCKLSRREGTDLFLKSGARALESKCNIESAPGIHGQRRGRLSDYGTQLREKQKVRRIYGVLERQFSGYYKEAARKKGATGENLLQLLECRLDNVVYRMGFGATRAESRQLVSHKAITVNGKTVNVPSFQVQPGDVVAVREKSKNQLRIVQALELCAQRGRVEWVEVDAEKKSGVFKSVPARSDLSADINENLIVELYSK				NA	NA	NA	NA	NA
BMS010_03501	1002	rpoA_1		DNA-directed RNA polymerase subunit alpha	ATGCAGAGTTCGGTAAATGAGTTCCTGACCCCCCGCCATATCGATGTGCAGGTGGTCAGTCCGACCCGCGCCAAGATCACGCTCGAGCCTCTCGAGCGTGGTTTCGGCCATACCCTGGGCAACGCGCTGCGTCGCATCCTGTTGTCCTCCATGCCCGGCTGTGCAGTAGTCGAGGCCGAAATTGATGGCGTGCTCCACGAGTACAGCGCCATCGAAGGCGTGCAGGAAGATGTCATTGAAATCCTGCTCAACCTCAAAGGTCTGGCTATCAAGTTGCACGGCCGTGACGAAGTAACGCTGAACCTCTCCAAGAAGGGTTCGGGCGTGGTCACTGCTGCCGATATTCAGCTGGATCATGATGTCGAAATCGTCAACGGCGATCACGTGATTGCCAACCTGGCGGATAACGGCGCCCTGAACATGAAGCTCAAGATCGCTCGCGGTCGCGGCTACGAGCCGGCCGACGCGCGTCAGAGCGACGAGGACGAAAGCCGCAGCATCGGTCGCTTGCAGCTGGACGCTTCCTTCAGCCCGGTCCGTCGTGTTGCCTACGTGGTCGAAAACGCCCGTGTCGAGCAGCGCACCAACCTGGACAAGCTGGTTATCGATCTGGAAACCAACGGTACCCTGGACCCCGAAGAGGCCATCCGTCGTGCCGCGACCATCCTGCAACAGCAGCTGGCCGCGTTCGTCGACCTCAAGGGCGACAGCGAGCCGGTGGTTGTCGAGCAGGAAGATGAGATCGATCCGATCCTCCTGCGTCCGGTCGACGACCTCGAACTGACCGTACGTTCGGCCAACTGCCTGAAGGCGGAGAACATCTACTACATCGGCGACCTGATTCAGCGCACCGAAGTAGAGCTGTTGAAGACTCCGAACCTGGGCAAGAAGTCCCTGACCGAGATCAAGGACGTTCTGGCCTCCCGTGGTCTGTCCCTCGGTATGCGCCTCGACAACTGGCCGCCGGCAAGTCTGAAGAAAGACGACAAGGCTACGGCCTGA	MQSSVNEFLTPRHIDVQVVSPTRAKITLEPLERGFGHTLGNALRRILLSSMPGCAVVEAEIDGVLHEYSAIEGVQEDVIEILLNLKGLAIKLHGRDEVTLNLSKKGSGVVTAADIQLDHDVEIVNGDHVIANLADNGALNMKLKIARGRGYEPADARQSDEDESRSIGRLQLDASFSPVRRVAYVVENARVEQRTNLDKLVIDLETNGTLDPEEAIRRAATILQQQLAAFVDLKGDSEPVVVEQEDEIDPILLRPVDDLELTVRSANCLKAENIYYIGDLIQRTEVELLKTPNLGKKSLTEIKDVLASRGLSLGMRLDNWPPASLKKDDKATA				NA	NA	NA	NA	NA
BMS010_03502	390	rplQ_1	COG0203	50S ribosomal protein L17	ATGCGTCATCGTAAAAGTGGCCGTCATCTGAGCCGCACCAGCGCCCACCGCAAGGCCATGTTCCAGAACATGGCGGTGTCGCTGTTCGAGCACGAACTGATCAAAACCACCCTGCCCAAGGCCAAGGAGCTGCGTCGCGTTGCCGAGCCGCTGATCACCCTGGCCAAGGAAGACAGCGTCGCCAATCGTCGTCTGGCTTTCGACCGCACCCGTTCGAAAGCTGCCGTAGGCAAGCTGTTCAACGATCTGGGCAAGCGCTACGCCAACCGTCAGGGCGGCTACCTGCGCATCCTCAAGTGCGGTTTCCGCGCTGGCGACAACGCCCCGATGGCCTATGTCGAGCTGGTCGACCGTCCGGTCGGCGGCGCGGTAGAAGCTGCTGCCGAGTAA	MRHRKSGRHLSRTSAHRKAMFQNMAVSLFEHELIKTTLPKAKELRRVAEPLITLAKEDSVANRRLAFDRTRSKAAVGKLFNDLGKRYANRQGGYLRILKCGFRAGDNAPMAYVELVDRPVGGAVEAAAE				NA	NA	NA	NA	NA
BMS010_03503	1458	cat_1		Catalase	ATGAGTCAGAAACCGATACTCACCACCGCCAGCGGCAGCCCGATCGCTGACAACCAGAATTCCCGTTCGGCGGGGCCTCGTGGTCCGTTGTTGCTCGATGACTTTCATCTGGTCGAGAAGCTTGCCCACTTCAACCGCGAGGTGATTCCGGAGCGTCGGGTTCACGCCAAGGGCTCCGGCGCATATGGCACCTTCACCGTGACCCAGGACATCACGCGTTATACTCGCGCCAAGCTGTTCGAGTCCGTGGGTAAGCAAACCCCCTTGTTCCTTCGTTTCTCCACAGTCGGTGGTGAGCGTGGCTCGGCTGATACCGAGCGTGACCCGCGCGGCTTTGCCATCAAGTTCTACACCGAGGAAGGCAACTGGGATGTCGTGGGGAACAACACGCCGGTGTTCTTCATTCGCGACCCGTTGAAGTTCCCGGATTTCATTCATACCCAGAAGCGTGATCCGCAAACCAACCTGAAGAGCCCGCAGATGATGTGGGACTTCTGGTCGTTGTCGCCCGAGGCGCTGCACCAGATCACCATTCTGTTTTCGGATCGCGGCATTCCGGACGGGTATCGCTTCATGCATGGCTTCGGTAGCCATACCTTCAGCCTGATCAATGCCCAAGGCGAACGGCATTGGGTGAAATGGCACTACAAGTCGATGCAAGGCATCAAGAACCTGAGTCCAGAGGAGGCGGCACGTCTGGCTGGAGCCGATCCGGATTACGCCCAGCGCGATCTATTCGCTGCCATCGAGCGGGGCGAGTATCCGAAATGGCGTGTGTGTATCCAGGTGATGTCCGAGGAACAGGCCACCCAGCATCATGAGAATCCGTTCGATGTGACCAAGACTTGGTCGCAGAGAGAATTCCCGCTGATCGAGGTCGGTGTCATCGAACTGAACCGCAATCCGCTGAACTATTTCGCCGAGGTGGAGCAGGCAGCCTTTGCACCGAGCAACGTCATTCCCGGCGTCGGCCTGTCGCCGGATCGGATGTTGCAAGGGCGTGTCTTCGCATACGCCGATGCGCACCGTTACCGGGTTGGCACCAACCATCAGCAGTTGCCGGTGAACGCGCCGCGTTGTCCATACCACAATTATCAGCGCGACGGCGCCATGCGCTTCGACGGTAACGGTGGCTCGGCGCCCAACTATGAACCGAACAGCTACGCCAATGCGCCGAAGCAGGCGCCCCAGTATGCCGAGCCGGCGTTGGCCTTGAGTGGTGCGGCAGATCGTTACGATCACCGGGAGGACGGCGATTACTACAGCCAGGCCGGTGCCTTGTTCCGTCTCATGAGTCCTGAGCAGCAGGCCCTGCTGATTGGCAACATCGTCGGTGCGATGCGCACGGTAACCCGTGATGTCCAGTTGCGTCAGATCGGCCACTTCCTCAAGGCCGATCCGGCTTACGGCCAGGGCATTGCCGAAGGCCTGGGAATCGCCGCCAGCGAAGTGATGTAG	MSQKPILTTASGSPIADNQNSRSAGPRGPLLLDDFHLVEKLAHFNREVIPERRVHAKGSGAYGTFTVTQDITRYTRAKLFESVGKQTPLFLRFSTVGGERGSADTERDPRGFAIKFYTEEGNWDVVGNNTPVFFIRDPLKFPDFIHTQKRDPQTNLKSPQMMWDFWSLSPEALHQITILFSDRGIPDGYRFMHGFGSHTFSLINAQGERHWVKWHYKSMQGIKNLSPEEAARLAGADPDYAQRDLFAAIERGEYPKWRVCIQVMSEEQATQHHENPFDVTKTWSQREFPLIEVGVIELNRNPLNYFAEVEQAAFAPSNVIPGVGLSPDRMLQGRVFAYADAHRYRVGTNHQQLPVNAPRCPYHNYQRDGAMRFDGNGGSAPNYEPNSYANAPKQAPQYAEPALALSGAADRYDHREDGDYYSQAGALFRLMSPEQQALLIGNIVGAMRTVTRDVQLRQIGHFLKADPAYGQGIAEGLGIAASEVM	PGPT0014380_4536	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0014380-katE|CAT|catB|srpA-K03781	NA	NA
BMS010_03504	1269			hypothetical protein	ATGCGTCTTCCGATTGCCGCCTTCCTTCTCGGCGCCGGCCTGTTGCCTGGCATTGCCGCCGCCGCGGAACCCAATGGCCCCTGGGTCACCGACGAACAAAACGTCTCGCTCGAAGGCTTCATGAGCAACGAACAGCTATACGATCAACTCGCTGCCCTGGCTCGACGCTCCAAGGGCGTACTGGCGCTGGAGCAGATCGGCACCAGCGGAAAAGGCCGGCCCATCTGGCTGGCGCGGCTCGGCGCTGCGGACAAGCCGACCGTGATGATCATGACCCAGCAACACGGCAACGAGCCCCACGGTACCGAGGCCGCACTCGATCTGATCCGCAAACTGGCCACTGGAGGCACGTTTTCCCGGCAGGTACTAGATCACGTCCAGGTGCTGTTCATTCCCAGGGTCAATCCGGACGGGACCGCGCTGTTCACACGCGGAAACGCCGACTTCAGCGCACCGGAGACCAGCGCCAGTTGCCTGAAGGCCGACGGCACCGTCGACCCAGCCAAACTGAACCAAGGGCTGGGCGGCAACGTCACCGCCTACACAGATGCCGATGGCCAGCGCGACTGGAGTTACGACATCAACCGCTACCACTGGCCGGACTGGAGCCAGAGCACACAGATACTGTGCAACCCGGGGCTTGCCGATCAGCGCCACTTCAATCCCGGGCAGAACCCGGTCCCGGAAGCGACAGCAGTGCGCACGGCCTATGATCGCTATCAGCCCATCTGGCTGGTCGATGTGCACAACCAGAACCCGGCGGTCGTTCTCGAGGACGCCGACCCGGACATCAATCGCCCGGATCGCCAGGTCACCGGATCCATTACCTGGCCGACCAATGACGATGTCGCCCAGGCCGCCGTGAACCTGTCGAAGCAGATGAGCGTGGTCATGAAGCGTCGCTCCATGGAGCTGGGCAACATGGAGATCACCAACTATTTCTATCAGTACCCGGACGGCAGCATCCGCCGTGGCGGCGGCGAGCCCGGCATCGCCCGCAACGCCTACGCCCTGCTAGGCACACAGCGGCTGAACAGTGGAGCCAGCGGCCCCCTGGGGGGTAGCGTTCTGATGGAAATCACCGGTTTGAACAGCCGGGGCCAGAAGTCCATCGGCATGCTGCGCAACAATGTCAGGGAAATGCTGGAAGCGCTCCTGTTGGCCAGCGCAGACGGCAGCCTGTATGCCATCGACCCGGCCGAAGCCGACCGGATCCTGCCTCCAGGCCAGGAAACCGACCAACCGCTGCCCAACCCACACGACGAATAA	MRLPIAAFLLGAGLLPGIAAAAEPNGPWVTDEQNVSLEGFMSNEQLYDQLAALARRSKGVLALEQIGTSGKGRPIWLARLGAADKPTVMIMTQQHGNEPHGTEAALDLIRKLATGGTFSRQVLDHVQVLFIPRVNPDGTALFTRGNADFSAPETSASCLKADGTVDPAKLNQGLGGNVTAYTDADGQRDWSYDINRYHWPDWSQSTQILCNPGLADQRHFNPGQNPVPEATAVRTAYDRYQPIWLVDVHNQNPAVVLEDADPDINRPDRQVTGSITWPTNDDVAQAAVNLSKQMSVVMKRRSMELGNMEITNYFYQYPDGSIRRGGGEPGIARNAYALLGTQRLNSGASGPLGGSVLMEITGLNSRGQKSIGMLRNNVREMLEALLLASADGSLYAIDPAEADRILPPGQETDQPLPNPHDE				NA	NA	NA	NA	NA
BMS010_03505	2841	uvrA_1	COG0178	UvrABC system protein A	GTGGACAAGATCCTGATCCGTGGGGCACGCACCCACAACCTGAAGAACATCGACCTCACCCTGCCACGCGACAAGCTGATCGTGATCACCGGCCTGTCCGGCTCCGGCAAGTCGTCCCTGGCGTTCGACACGCTGTATGCCGAAGGCCAGCGCCGCTATGTCGAGTCTCTTTCGGCCTATGCCCGGCAGTTCCTGTCGATGATGGAAAAGCCCGACGTGGACACCATCGAGGGGCTCTCCCCGGCCATTTCCATCGAGCAGAAGTCGACGTCGCACAACCCGCGCTCGACCGTCGGCACCATCACCGAGATCTACGACTACCTGCGCCTGCTCTATGCGCGTGTCGGCACGCCGCGCTGCCCGGATCACGACATTCCCCTGGAAGCGCAGACGGTCAGCCAGATGGTGGACCAGGTCCTCGCCCTGCCGGAGGGGCGTCGGCTCATGCTGCTGGCGCCAATCGTTCGCGAGCGCAAGGGCGAGCACCTCGCCGTGTTCGATGAGATGCGCGCCCAGGGCTTCGTCCGCGCGCGGGTCAACGGCAAGCTCTACGAACTCGATGAGCTGCCCAAGCTGGACAAGCAGAAGAAGCACTCCATCGATGTCGTGGTGGATCGCTTCAAGGTTCGCGAGGACCTGCAACAGCGCTTGGCGGAATCTTTCGAGACGGCGCTGAACCTGGCCGATGGCATCGCGCTGGTGACCCCCATGGAGAACGAGGAAGGCGAAGAGATGATCTTCTCCGCGCGCTTCGCCTGCCCGGTGTGCGGCCACTCGATCAGCGAACTGGAACCCAAGCTGTTCTCCTTCAACAACCCGGCCGGCGCCTGCCCCACCTGTGACGGCCTGGGCGTGAAGCAATTCTTCGATGCGCGCCGGCTGGTCAATGGCGAGCTGACCCTGGCCGAGGGCGCGATTCGCGGCTGGGATCGGCGCAACGTCTATTACTTCCAGATGCTCGGCTCGCTAGCGGCGCATTATGGCTTCAGCCTGGACAAACCGTTCGACGACCTGTCCGCCGAAGACCAGAAAGCCATCCTGTACGGCTCCGGACGCGAGAACGTCGAATTCCGCTACCTCAACGACCGGGGCGACATCGTCAAGCGGTCCCACCCATTCGAAGGCATCATCCCGAACCTCGAGCGCCGCTACCGCGAAACCGAATCCACCACGGTGCGCGAGGAGCTGGCCAAGTTCCTCAGCACCCAGCCCTGCCCCGACTGCCGTGGCACCCGCCTGCGCCGCGAGGCGCGCCATGTCTGGGTCGGAGAGAAGACACTGCCGGCGGTCACCGGGCTGCCGGTGGGCGACGCCTGCGATTACTTCGGCAACCTGCATCTCACCGGTCGCCGCGGCGAGATCGCCGAGAAGATCCTCAAGGAAATCCGCGAACGCCTGCAATTCCTGGTCAACGTCGGCCTCGACTACCTGACCCTGGACCGCAGCGCCGACACGCTTTCCGGCGGCGAGGCCCAGCGTATCCGCCTGGCCAGCCAGATCGGCGCCGGCCTGGTGGGGGTCATGTATATCCTCGACGAACCCAGCATCGGCCTGCATCAGCGCGACAACGAGCGCCTGCTGGCCACCCTCACCCACCTGCGCAACCTCGGCAACACGGTGATCGTGGTGGAGCACGACGAGGACGCCATCCGCCTCGCCGACTACGTCGTGGACATCGGCCCGGGCGCCGGCGTGCATGGCGGCCGGATCGTCGCCGAGGGCACGCCGGACGAGGTCATGGATCACCCGGACTCGCTGACCGGTAAATACCTGTCCGGCCGCGAGAAGATTCGCTATCCGGCCAAGCGCACCCCGCGCGACAAGAAGAAGCTGCTCAAGCTCAAGGGCGCCCGCGGCAACAACCTGCAAAGCGTCGACCTGGAAATCCCGGTCGGCCTGCTGACCTGCATCACCGGCGTGTCCGGCTCGGGCAAGTCGACGCTGATCAACAACACGCTGTTCCCGATCACCGCGACAGCCCTGAACGGCGCCACCTCGCTGGAAGTCGCCGCGCACGATAGCTTCGACGGCCTGCAGCACTTGGACAAGGTAGTGGACATCGACCAAAGCCCAATCGGCCGCACCCCGCGCTCCAATCCGGCCACCTACACGGGTCTGTTCACGCCGATCCGCGAGCTGTTCGCCGGTGTGCCGGAAGCCCGCTCGCGCGGCTACGGCCCGGGGCGCTTCTCGTTCAACGTCAAGGGCGGGCGCTGCGAGGCCTGCCAGGGCGATGGCGTGATCAAGGTGGAGATGCACTTCCTGCCCGACATCTACGTTCCCTGCGACGTATGCAAGGGTAAGCGTTACAACCGCGAAACCCTCGAAGTGAAGTACAAGGGCAAGAGCATTCACGAAGTGCTGGAAATGACCATCGAGGAAGCCCGCGACTTCTTCGACCCGGTTCCGGCCGTGGCGCGCAAGCTGCAAACGCTGATGGACGTGGGGCTCTCCTACATCAAGCTGGGGCAGAGCGCGACCACCCTGTCCGGCGGCGAGGCGCAGCGGGTCAAGCTGTCCCGCGAGCTGTCCAAGCGGGATACCGGCAAGACGCTCTACATCCTCGATGAACCCACCACCGGCCTGCATTTCGCGGACATCCAGCAACTGCTCGACGTACTACATCGCCTGCGCGACCACGGCAACACCGTGGTGGTGATCGAGCATAACCTGGACGTGATCAAGACCGCCGATTGGATCGTCGACCTGGGGCCGGAAGGTGGCTCGCGCGGTGGGCAGATCATCGCCACCGGCACACCGGAAGAAGTCGCCGGCATGCCGCAGTCCTATACCGGGCATTTCCTCAAACCGCTGCTGGAACGCGACCGCGCCGCCAGCTGA	MDKILIRGARTHNLKNIDLTLPRDKLIVITGLSGSGKSSLAFDTLYAEGQRRYVESLSAYARQFLSMMEKPDVDTIEGLSPAISIEQKSTSHNPRSTVGTITEIYDYLRLLYARVGTPRCPDHDIPLEAQTVSQMVDQVLALPEGRRLMLLAPIVRERKGEHLAVFDEMRAQGFVRARVNGKLYELDELPKLDKQKKHSIDVVVDRFKVREDLQQRLAESFETALNLADGIALVTPMENEEGEEMIFSARFACPVCGHSISELEPKLFSFNNPAGACPTCDGLGVKQFFDARRLVNGELTLAEGAIRGWDRRNVYYFQMLGSLAAHYGFSLDKPFDDLSAEDQKAILYGSGRENVEFRYLNDRGDIVKRSHPFEGIIPNLERRYRETESTTVREELAKFLSTQPCPDCRGTRLRREARHVWVGEKTLPAVTGLPVGDACDYFGNLHLTGRRGEIAEKILKEIRERLQFLVNVGLDYLTLDRSADTLSGGEAQRIRLASQIGAGLVGVMYILDEPSIGLHQRDNERLLATLTHLRNLGNTVIVVEHDEDAIRLADYVVDIGPGAGVHGGRIVAEGTPDEVMDHPDSLTGKYLSGREKIRYPAKRTPRDKKKLLKLKGARGNNLQSVDLEIPVGLLTCITGVSGSGKSTLINNTLFPITATALNGATSLEVAAHDSFDGLQHLDKVVDIDQSPIGRTPRSNPATYTGLFTPIRELFAGVPEARSRGYGPGRFSFNVKGGRCEACQGDGVIKVEMHFLPDIYVPCDVCKGKRYNRETLEVKYKGKSIHEVLEMTIEEARDFFDPVPAVARKLQTLMDVGLSYIKLGQSATTLSGGEAQRVKLSRELSKRDTGKTLYILDEPTTGLHFADIQQLLDVLHRLRDHGNTVVVIEHNLDVIKTADWIVDLGPEGGSRGGQIIATGTPEEVAGMPQSYTGHFLKPLLERDRAAS	PGPT0014915_4099	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014915-uvrA-K03701	NA	NA
BMS010_03506	1389	yajR	COG0477	Inner membrane transport protein YajR	ATGCACGATCCGCACAGCGAACGCATGAGCCACAGTGAGACACGCGCCGCCGGAGGGCTGGCGCTGGTTTTCGCCTTCCGCATGCTGGGCATGTTCATGGTGCTGCCGGTGCTGGCGACTTACGGACAGGATCTCGCCGGCGCGACTCCATCCCTGATCGGCCTGGCCATCGGTGCCTACGGTCTGACCCAGGCCATTCTGCAGATTCCCTTCGGTGTGATTTCCGATCGCATCGGCCGGCGGCCGGTGATCTATGTCGGGCTACTGATCTTCGCCGCCGGCAGCGTGCTGGCGGCCAATGCCGATTCCATCTGGGGCGTGATCGCCGGCCGCGTGCTGCAAGGCGCGGGCGCCATCTCGGCGGCGGTGATGGCCTTGCTCTCCGATCTCACCCGCGAACAGCACCGGACCAAGGCGATGGCCATGATCGGCATGAGCATCGGCGTTTCCTTCGCCGTAGCCATGGTGGTCGGTCCGCTACTGACCCGTGCGTTCGGGCTGTCCGGTCTGTTCTGGGCAACCGCGGCGATGGCGCTGGTCGGTGTGCTGATCATCGCCGGGCTGGTACCGCGGGCCGATCATCCCCTGCAGCACCGGGAGTCCGGTGTGGCGAAGCAGGCGCTGGGCGCCACCTTGCGCCACCCCGATCTGCTGCGGTTGGACTTCGGCATTCTCGCGTTGCATGCAATCCTCATGGCCAGCTTCGTCGCGCTGCCGCTGGCGCTGGTCGAGCGTGGCGGATTGCCCAAGGAAGAGCACTGGTGGGTCTATCTCACGGCCCTGCTGGTCAGCTTCTTCGCAATGATCCCGTTCATCATTTATGGCGAGAAGAAGCGACGCATGAAGCGGGTTCTGCTTGGGGCGGTCGCCGTGCTGCTGCTGTGCGAACTGTTCTTCTGGCAGCTCGGCACCAGCCTGCGCGCGCTGGTGATCGGTGCGGTGGTGTTCTTCACCGCCTTCAACCTGCTTGAGGCCAGCCTGCCATCGCTGATCAGCAAGGTGGCGCCGGCCGGCGGGAAGGGCACGGCGATGGGGGTCTATTCCACCAGTCAGTTCCTCGGCGCGGCATTGGGCGGCATCCTCGGGGGCTGGCTGTTCGCCCAAGGAGGGCTGGGCATGGTGTTCATCGGCTGCGCGGTGCTCTGTGCCCTCTGGCTGGCAATTGCTGTTACCATGCGCGAGCCTCCGTATGTAACGAGCTTGCGCCTGCCGTTGTCGCCCGCAGCGCTGCGCGACGCGGGACTGGCCGAGCGATTGCTGGCATTGCCCGGAGTGGCGGATGCCGTGGTGGTGGCCGAAGAAGGCGCCATCTATATCAAAGTGGATACCGAACAATTGGACCGCACGTCCCTGGAGCGCCTGATCGATCCGGCGCCCGCGGCGTGCTGA	MHDPHSERMSHSETRAAGGLALVFAFRMLGMFMVLPVLATYGQDLAGATPSLIGLAIGAYGLTQAILQIPFGVISDRIGRRPVIYVGLLIFAAGSVLAANADSIWGVIAGRVLQGAGAISAAVMALLSDLTREQHRTKAMAMIGMSIGVSFAVAMVVGPLLTRAFGLSGLFWATAAMALVGVLIIAGLVPRADHPLQHRESGVAKQALGATLRHPDLLRLDFGILALHAILMASFVALPLALVERGGLPKEEHWWVYLTALLVSFFAMIPFIIYGEKKRRMKRVLLGAVAVLLLCELFFWQLGTSLRALVIGAVVFFTAFNLLEASLPSLISKVAPAGGKGTAMGVYSTSQFLGAALGGILGGWLFAQGGLGMVFIGCAVLCALWLAIAVTMREPPYVTSLRLPLSPAALRDAGLAERLLALPGVADAVVVAEEGAIYIKVDTEQLDRTSLERLIDPAPAAC				NA	NA	NA	NA	NA
BMS010_03507	486	ssb_1	COG0629	Single-stranded DNA-binding protein	ATGGCCCGTGGGGTTAACAAAGTCATTCTGATCGGCAACGTCGGCGGCGACCCGGAAACCCGCTACCTGCCCAACGGCAACGCGGTGACCAACGTCACCCTGGCGACTACCGACAGCTGGAAAGACAAGCAGACCGGTCAACTGCAGGAACGTACCGAGTGGCACCGCGTGGTGTTCTTCGGCAAGGTGGCGGAAATCGCCGGCGAATACCTGCGCAAGGGTTCGCAGTGCTACGTCGAGGGGCGTCTGCAGACCCGCGAGTGGGAAAAGGACGGCGTCAAGCGCTACACCACCGAAATCGTCGTCGACATGAACGGCACCATGCAGCTGCTCGGCGGCCGTGGCGGCAATTCCGACGACGCCCCGCGTGCACCGCGTCCGCAGCGCGAGCCGCAACAGCAGGCCCCGCGTGAACCGCGTCCGGCGCCGCAGCAGGCCCAGCCGGCTCCGGACTACGACAGCTTCGACGACGACATTCCGTTCTGA	MARGVNKVILIGNVGGDPETRYLPNGNAVTNVTLATTDSWKDKQTGQLQERTEWHRVVFFGKVAEIAGEYLRKGSQCYVEGRLQTREWEKDGVKRYTTEIVVDMNGTMQLLGGRGGNSDDAPRAPRPQREPQQQAPREPRPAPQQAQPAPDYDSFDDDIPF				NA	NA	NA	NA	NA
BMS010_03508	885	rmlD_1		dTDP-4-dehydrorhamnose reductase	ATGCACATGCGCCTGATGCTGCTGGGCGGCGGTAGTGCCCTGGGACAGGCGCTGATCCGTCTCGGGGCCGAAGAGGACATCAGTTTCCTTGCGCCGCGCCCGCCCGAGCAGGGCTGGGATGCCACCAGCCTGACCCAGTTGCTGGACGAGACCCGTCCGGAAGCCGTCATCAACCTCGCCTACTACTTCGACTGGTTCCAGGCCGAAGCGGTGGACGCGTCGCGTTTTGCTGCCCAGGAACGGGCGGTGGAGCGTCTGGCCGAGCTTTGCCAGTACCACGACATCGTTCTATTGCAGCCCTCCAGCTACCGGGTGTTCGACGGCTCGCGGGCCACCGCCTATAGCGAGAAGGACGAGCCGGTACCGCTGGGCCTGTGTGGACAGGTGCTCTGGCGTTGCGAACAATCCGTGCGCGCGCTCTGCCCCCGGCATGTGCTGCTGCGCTTCGGCTGGGTGCTCGACGAGAGCCATGATGGCCAGTTGGGCCGCTTTCTCGCCCGTGCCGAGCGCGAGTCCGAACTGTTCCTCGCCGATGACCGGCGCGGCAACCCGACGCCGGTGGACGATGCCGCGCGGGTGATCCTGGCCGTGCTGAAGCAACTGGACTGCCAGGCGCCGCTGTGGGGCACCTATCACTACGGTGGGCATGAGGCGACGACGCCGCTGGCCTTGGGCCAGGCGATCCTCGCCGAGGTGCGCACCTTGCGTTCCGTGGCCGTCGAGCAGATCACCCCGCAGGCGCATGCGGCCCGTCCCGATGCGGCGGACGAACCTCAGCATGCCGTGCTGGCCTGCAAGAAAATCCTCCATACCTTCGGCATCAAGCCCCGCGCCTGGCGCGCTGCCTTGCCGACACTGCTGGATCGCTATTACCGCCATGTCTGA	MHMRLMLLGGGSALGQALIRLGAEEDISFLAPRPPEQGWDATSLTQLLDETRPEAVINLAYYFDWFQAEAVDASRFAAQERAVERLAELCQYHDIVLLQPSSYRVFDGSRATAYSEKDEPVPLGLCGQVLWRCEQSVRALCPRHVLLRFGWVLDESHDGQLGRFLARAERESELFLADDRRGNPTPVDDAARVILAVLKQLDCQAPLWGTYHYGGHEATTPLALGQAILAEVRTLRSVAVEQITPQAHAARPDAADEPQHAVLACKKILHTFGIKPRAWRAALPTLLDRYYRHV	PGPT0022630_1983	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PUTATIVE_TRYLOSE_DERIVATES_MODIFICATION,PGPT0022630-rfbD|rmlD-K00067	NA	NA
BMS010_03509	930	wbgU		UDP-N-acetylglucosamine 4-epimerase	ATGTCTGATTCCCCCATCCTGGTGACCGGCGGAGCCGGTTTCATCGGCTCCCACCTGGTCGACGCACTGCTGGCCAAGGGGTACCGCGTTCGCGTGCTGGACAACCTGTCCAGCGGCAAGCGCGAGAACCTGCCGCTGGATAATCCGAGGTGCGAGCTGGTGACGGGCGACGTGGCCGATGCCGCCCTCGTGCTGCGCGTTGTCGAAGGATGCCGGGGCGTCGTGCATCTGGCGGCGGTAGCCTCGGTGCAGGCCTCGGTGGACGATCCGGTGAGTACGCACCAAAGCAATTTCATCGGCACGCTGAATATCTGCGAGGCCATGCGCCGGCTGGGTATTCGCCGTGTGCTGTTCGCCTCCAGCGCGGCGGTCTACGGGAATAACGGCGAGGGCCTGGCAATCGATGAAGACACGCCGAAGGCGCCGCTGACGCCCTATGCGTCGGACAAGCTGGCCAGCGAGTATTACTTCGATTTCTATCGCCGCCAGCATGGGCTGGAGCCGGCGATCTTCCGTTTCTTCAACATCTACGGGCCGCGCCAGGACCCGTCCTCGCCGTATTCGGGGGTGATCAGCATCTTCACCGAGCGTGCCTTGAAAGGGCAGCCGATCACGGTGTTTGGCGATGGCGAGCAGACCCGCGACTTCGTCTATGTCGCCGATCTGGTGGAGGTGCTGGTGCAGGCGCTGGAGCTGCCGGGTGCCGAGCCGGGCGCGGCGAACGTTGGGCTCGGACAGACCGCCAGCCTCAACCAGCTATTGGCCGCTATCGGTGAGGTGCTGGGCGGCCTGCCGCCGGTGAGCCATGCCGAGGCGCGTCCGGGCGATATTCGTCACTCGCGTGCCAACAACCAGCGTCTGCTGGGTCGTTATCGCTTCCCCGAGCCGACGCCGCTCCGGGTCGGTATCGCTCGTCTCCTGGGGCGCTGA	MSDSPILVTGGAGFIGSHLVDALLAKGYRVRVLDNLSSGKRENLPLDNPRCELVTGDVADAALVLRVVEGCRGVVHLAAVASVQASVDDPVSTHQSNFIGTLNICEAMRRLGIRRVLFASSAAVYGNNGEGLAIDEDTPKAPLTPYASDKLASEYYFDFYRRQHGLEPAIFRFFNIYGPRQDPSSPYSGVISIFTERALKGQPITVFGDGEQTRDFVYVADLVEVLVQALELPGAEPGAANVGLGQTASLNQLLAAIGEVLGGLPPVSHAEARPGDIRHSRANNQRLLGRYRFPEPTPLRVGIARLLGR	PGPT0018910_431	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_D_GALACTOSAMINURONIC_ACID_MODIFICATION,PGPT0018910-wbpP-K02473	NA	NA
BMS010_03510	675	ompW	COG3047	Outer membrane protein W	ATGCGCAAGTCCCTGTTCACCGCGTCCGTACTGGCCATGGCGCTGGCCGCCCCCTTCGCCCAGGCCCACCAGGCTGGCGACATCATCGTTCGCGCGGGCGCCGCAACCGTTGACCCGCACGAAGACAGCAGCACCATTTCCACCGCCGCCACCGGTTCCCTGGCCGGCACCAAAGCGACCCTGGACAGCGACACCCAACTGGGCCTGACCGGCACCTACATGCTGACCGATCACGTCGGCATCGAGCTGCTGGCCGCCACTCCGTTCCAGCATCAGGTGAGCATCAAGGGCATGCCGCTGGGCCTGGACGGCAAGCTGGCCGACGTCAAGCATCTCCCGCCGACCCTCTCCGTGCAGTACTACCCGCTGGACGCCAGCTCCCAGATCCAACCCTATGTCGGCGCCGGCCTGAACTACACCATGTTCTTCGATGAAGAACTGACCGGCCAGCGCAAGGACCAGGGCTTCAGCAACCTGGAGCTGGACGATTCCTGGGGCCTGGCCCTGCAAGCCGGCGTGGACTTCATGCTGACCGACAACGTGCTGCTGAACGCCGCCGTCTGGTACATCGACATCGACACCACCGCCACCGCCGACTCCGCCTTCGGCAAAGTGAAAGTGGATGTGGACGTCGATCCGTGGGTCTACATGGTCGGCCTGGGCTACAAGTTCTGA	MRKSLFTASVLAMALAAPFAQAHQAGDIIVRAGAATVDPHEDSSTISTAATGSLAGTKATLDSDTQLGLTGTYMLTDHVGIELLAATPFQHQVSIKGMPLGLDGKLADVKHLPPTLSVQYYPLDASSQIQPYVGAGLNYTMFFDEELTGQRKDQGFSNLELDDSWGLALQAGVDFMLTDNVLLNAAVWYIDIDTTATADSAFGKVKVDVDVDPWVYMVGLGYKF	PGPT0022210_812	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	OTHER_INTEGRAL_MEMBRANE_REMODELLING__PROTEINS,PGPT0022210-ompW|yciD-K07275	NA	NA
BMS010_03511	771			hypothetical protein	ATGATGCCTTACCCCTCCCGCCTGCTGGCTGCCGCGCTGTTGGCGGGTAGTCTGCCGCTGGCCGCTGCCCCGCTGGATTCCGCACTGGAAGAAAGCCAACGCCTGGCCGAAGAGGCCAAGGCCTCCCAGGCCCGCATCGAACAACTGGACGACGCCAGTCGGCAGATGCTCGACGAGTACCGCAGTGCCTTGCAGCAGGCCGAGGCCCTGAAGGGCTACAACGCCCAGTTGCGCGAGCTGACCGCCGCGCAGCGCAAGGAGCTGGCCAGCTACCAGCAGCAACTCGACGGCATCGAGCGCACCCAGGAAGCGGTCACCCCGCAGATGCGCCGCATGGTGGAAGTGCTGGGCGAGTTCATCGCCGCCGATCTGCCGTTCCTTCCCGAGGAGCGCGCCGATCGCCTGGCTCAGTTGCAGGAGCTGTTGCCGCGCGCCGACGTCAGCCTGGCGGAGAAATACCGCCGGATTCTCGAGGCCTACCAGATCGAGAGCGATTATGGCCGCACCCTCGAGGCCTGGCGCGGCGAACTGCCGGACGAAGGCGGCTCGCGCAGCGTGGAGTTCCTTCGCCTGGGTCGGGTGATGCTCTATTACCAGACCCTCGACGGCCACGAGAGCGGCTGGTGGGACCCGCAGAGCCGCAGCTGGAAGGTGCTCGGCGGCGACGCCCGCCGTCCGCTCGCCCAGGCCATCGCCATCGCTCGCCAGCAGCAGGCTCCGGCCTATCTGGAACTGCCCGTGAAGACCCCGGCCCAGGAGACCGCACAATGA	MMPYPSRLLAAALLAGSLPLAAAPLDSALEESQRLAEEAKASQARIEQLDDASRQMLDEYRSALQQAEALKGYNAQLRELTAAQRKELASYQQQLDGIERTQEAVTPQMRRMVEVLGEFIAADLPFLPEERADRLAQLQELLPRADVSLAEKYRRILEAYQIESDYGRTLEAWRGELPDEGGSRSVEFLRLGRVMLYYQTLDGHESGWWDPQSRSWKVLGGDARRPLAQAIAIARQQQAPAYLELPVKTPAQETAQ				NA	NA	NA	NA	NA
BMS010_03512	1350	tolQ_4		Tol-Pal system protein TolQ	ATGAGCCGCCGTCTGCTCCCCGTTTTCATCCTCGGCCTCTTGCCGTGCCTCGCCCAGGCCGCCGAAACCCTGACTCCCGACCAACTGCTGCAACGCATTCGCAACGAGCGCGCCGCCGAAGCCAGTGCCATGCAGGAGCGCGAGCAGGCCTTCATCGCCCGCCGCAGCGAGCAGGCCCAGCTGCTGGCCAGCGCCCGCGCCGCCCTGAACCAACAGAAGGCCGAAGCCGATCGGCTCAAGGCCGAGTTCGACCGTCAGGAAGCCGAGCTGGCCGAGCAGGAAAAATTGCTGGCCCAGCGTGTCGGCCATCTCGGCGAACTCTTCGGTGTAGTCCGCCAGAGCGCCGGCGATGTCGCCGGCCAGTGGCAGGACAGCCTGCTCAACGCCCAGTACCCGGATCGTCTCAAACGCCTCAAGGCCCTGGCCGAAAGCCGCAGCCTGCCGTCCGCCGACGACCTCGACGGCTACTGGATGCTGCTGCTCGACGACCTCGCCGCCAGTGGCCGGGTGGAGCGTGTCGAATTGCCGGTGGTAGGGACCGACGGCCATCGCGAGCAGCGTCCGGTGCTGCGCGTCGGCACCTTCTCCGCCTATAGCGAAGACGCCTTCCTGCGCTACGACGCCGATGCCGGTGAGCTGCTGGCGCCGCCGCGCCAGCCGTCCGGCCTGGGTTTGGTGGACGACTTTGTGAGCAGTAAGGAACCCTTGGCCACGCTGCCCGTCGATCCCAGTCGCGGCACCCTGTTGGCGCAGTTGCAGCGGCAACCCGGCCTGTGGGATCGCGTTCAGCAGGGCGGGCTGGTCGGTGGTGTGATCCTGGTGCTCGGCGCGCTCGGCCTGTTCCTCGCCCTCTGGCGCATGACCTACCTGGCTGGCGTACAGCGCAAGGTCAACAGCCAGATGCAGTCGCTCGGCGCGCCGCGCGAGGACAACCCGCTGGGTCGCGTCATCGGTGTCTTGGGGCCGAAGCCCCAACTCTCCGACCTGGAAACTCTCGAACTCAAGCTGGATGAAGCCATTCTCCAGGAAACCCCTCCGCTGGAGCGTGGCCAGGGGCTGCTCAAACTGCTCAGCGCGGTCGCCCCGCTGCTCGGCCTGCTGGGTACCGTGACCGGCATGATCGTCACCTTCCAGGCCATCACCCAGAGCGGTGGCGGCGATTCGCGCCTGATGGCCGACGGTATTTCCCAGGCCTTGGTGACCACGGTGCTGGGCTTGGTGGTGGCGATTCCGCTGCTGTTCCTGCATAGCCTGCTGGCCAGCCGCAGCAAGAGCCTGATCCAGTTGCTCGAGCAGCAGAGCGCCGGGCTGATCGCCCTGCACCTGTCGGGGGCGCCGCGCCGTGACTGA	MSRRLLPVFILGLLPCLAQAAETLTPDQLLQRIRNERAAEASAMQEREQAFIARRSEQAQLLASARAALNQQKAEADRLKAEFDRQEAELAEQEKLLAQRVGHLGELFGVVRQSAGDVAGQWQDSLLNAQYPDRLKRLKALAESRSLPSADDLDGYWMLLLDDLAASGRVERVELPVVGTDGHREQRPVLRVGTFSAYSEDAFLRYDADAGELLAPPRQPSGLGLVDDFVSSKEPLATLPVDPSRGTLLAQLQRQPGLWDRVQQGGLVGGVILVLGALGLFLALWRMTYLAGVQRKVNSQMQSLGAPREDNPLGRVIGVLGPKPQLSDLETLELKLDEAILQETPPLERGQGLLKLLSAVAPLLGLLGTVTGMIVTFQAITQSGGGDSRLMADGISQALVTTVLGLVVAIPLLFLHSLLASRSKSLIQLLEQQSAGLIALHLSGAPRRD	PGPT0003750_578	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003750-exbB-K03561	NA	NA
BMS010_03513	546			hypothetical protein	GTGACTGATCTGCACGCCACCTGGCTGCGCCTGGTCGACAGCGCCTACGCGCTGCTCGACTTCATGGCCGCCGGCGGGTTCGTGATGTGGGCACTCGCTGCGCTCTGCGTGATCTATTGGACGCTGGTGTTCGAGCGCTTCTGGTTCATGCGGCGAATCTTTCCGCAGTGGGTCGCCGAGCGCCGCCAGGCATGGCAGCACCTCGGCGACGAGCCCGGCAACTGGCAGCGCGCGGTGCGCAACGCCTGGCTGGCGCAGGCGCAGCAGCAGCTGGCCGGCCCGTTGCGGCTGAGCAAGACGCTGGTGGCGCTGTACCCGCTGCTCGGCCTGCTCGGCACCGTCTGCGGCATGGTCGCCGTGTTCGACGTGCTTGCCGTCAACGGCACCGGCAACCCACGCGGCATGGCCGCCGGCGTCTGGCAGGCGACCCTGCCGACCATGGCCGGCATGGTGCTGGCGATCCCTGGACTGTTCAGCCTGGCGCGTCTCGAACGCAACGCGCGCCAGGCGCTCGACCGGCTGGCCGACCAGCTGCGTCACGATTGA	MTDLHATWLRLVDSAYALLDFMAAGGFVMWALAALCVIYWTLVFERFWFMRRIFPQWVAERRQAWQHLGDEPGNWQRAVRNAWLAQAQQQLAGPLRLSKTLVALYPLLGLLGTVCGMVAVFDVLAVNGTGNPRGMAAGVWQATLPTMAGMVLAIPGLFSLARLERNARQALDRLADQLRHD	PGPT0003750_5464	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003750-exbB-K03561	NA	NA
BMS010_03514	414	tolR_1		Tol-Pal system protein TolR	ATGAGAATGCGTCGCCATCATTACCAGCAGGACGAAGACACCGGCATCGACCTCACCCCGATGCTGGACGTGGTGTTCATCATGCTGATCTTCTTCATCGTCACCAGCTCCTTCATCAAGGAGTCCGGCGTCGAAGTGCAGCGGCCCCAGGCCGACACCGCCAGCCCGCAGGACAAGGGCAACATCCTGATCGCCATCACTGCCGATGGGCAGATCTGGATGGACAAGCAGGTGGTCGATGTGCGCAGCGTGCGCGCCCACGTCGAGCGCATGCGCGTCGACCAGCCGGAGGGCGCCGTGGTGGTGCAGGCCGACCGTGATGCCCGCACCGGTCTGGTGGTGCAGGTGATGGACCAGGCGCGCCAGGCGGGTGTGCAGGACGTGGCCCTGGCGGCCAGCTCGGGAGCGCTCTGA	MRMRRHHYQQDEDTGIDLTPMLDVVFIMLIFFIVTSSFIKESGVEVQRPQADTASPQDKGNILIAITADGQIWMDKQVVDVRSVRAHVERMRVDQPEGAVVVQADRDARTGLVVQVMDQARQAGVQDVALAASSGAL	PGPT0003755_2848	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003755-exbD-K03559	NA	NA
BMS010_03515	684			hypothetical protein	ATGCGTCTGCCGCTGTCCTTCGCCGCCGCCTGCCTGATGGCTCTGGCGCTGTTCGCCCTCATGCTGAGCATGGTGGCTCCGCCGCGCAGTAAGGCGATCGACGAGCCGGTGACCGTCGCCAACTTCGTTCGCCTGGATGGTGACACCAGCTCCACCGCCACCCGGACCCGGCAGCAGGCACCGCAACCACCGCAGCCCAAGACACCGCAACCGCCGACCCCGCCCACGCCGGTGGCCGCCACGCCGAGCGCCAACCTGCCGTCACTGGACCTGGCCCTGCCGAGCCTGAACAGCAATGTCAGTGTGGCCAGTGCGCCGACCCCGAGCCTGGCCGGCCTCACGGCAGGTGCTGCGCCCAGCGCGCCGAGCGATCCGGTGGAAAGCGCCGGACAGCCTGGCGGCCCGGAAAGCGAAGTCATGCCGTTGAACGACATCAGCCCCGAGTACCCGCGTTTCGCCTTGCAACGGGGGATCGAGGGGCATGTCAAGCTGGCCTTCACCATCAACCGTGCCGGCAATGTGGAAAATATTCGCGTGGTCGAAGCGTCGCCGAAGAACGTCTTCGATCGCGAAGCCCGCCGTGCCGCGGCGCGCTGGCGCTTCGCCCCGCGTACCGAGAATGGCCTGGCGGTGAATCGCGAAGCGGTGAAAACCCTGTACTTCCGTCTGAAGGAGGGAAGCTGA	MRLPLSFAAACLMALALFALMLSMVAPPRSKAIDEPVTVANFVRLDGDTSSTATRTRQQAPQPPQPKTPQPPTPPTPVAATPSANLPSLDLALPSLNSNVSVASAPTPSLAGLTAGAAPSAPSDPVESAGQPGGPESEVMPLNDISPEYPRFALQRGIEGHVKLAFTINRAGNVENIRVVEASPKNVFDREARRAAARWRFAPRTENGLAVNREAVKTLYFRLKEGS	PGPT0003745_5362	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003745-tonB-K03832	NA	NA
BMS010_03516	1104			hypothetical protein	ATGCATCGCCTGTTGCTCCTGCTGGTTCTGTTGACCGGTTCTGCGCACGCCGCACAGAGCATCGACCCGACTGTCTTCCGCGCGTTGGAAACGGCGCGCGCGGCGCAGCAAAAGGGGGATTATTCCGCCGCGCGCCGCGCCCTGGCGGATGCCAAGGCCAAGCCGGGCAGCCTGGAAGAGGTGCTGGTCTGGCGCAGCCAGGGTTACTTGGCCTGGGCCGAAGGGCAGAACGGCAAGGCCATCGAATGGCTCGACAAGGCCGTATCCAGCGGCAAGCTGGATAAGGAGCAACTGCCCCTCGAGCGCCTCAACCTGGCCAGGCTCAACCTGGTCGAAGGACGCTATGCCAAGGTGGTGCAGTTGATCGCACCGGCGCCGGCCAATGCCAGCGAAGAGGTGCTGCAACTGCTGGTGCAGGCCTACCAGGGGCTCGGCCAGCATGAGAAAGCGCTACCGTTGGCCGAGCGTTACATCCAAGCCAATCCGGCTGCCGCGGATACCTGGCTGCAATTCCTCGTCGCGGGTAATGCCGAGTTGAAGCGTTATGCGGTAGCCGAGCGCTGGCAGCGCCAGTTGCTGGCGCGCAAGCCCGACGAGCCACGCAACTGGCGTCAGCTCGCCGCGTTGCAACAGATGGCTGACCGCCACGACAAGGCCCTGGCGACCCTGCGTGCCGCCTATCGCAAGGGGCTGCGTTTCAGCGAGGGTGAGCTGGACAACCTGGTGCTGCTGGCCAGCGCCGCCGGCCAGCCCTGGCAGGGCGCGAAGCTGCTCGACGGTATGCTGGAAAACGGGCTGCTGGCGCGTACTCCGGCGCGTGAAGAGCGGCTCGGCATGCTTTGGTGGCAGGCCCGCGAGCGTGGGGAAGCGGCGAAAATCTACCGGGCCCTGGCGAACAAATCCGGCAGCGGCAAGTTGTGGATGAACGTCGCCCAACTGGAGCTGGAGCAGTCGCGCTGGCAGGCGGGCCTGGAGGCGCTCAAGCAGGCCGAGCGCGCCGGTGTCGACCGCGGCAAGGTACGCGCCTGGCGCGAATGGGCAGAAGGCGAGCTGAGCTTCGAGCGGGAAAACCGCGTGGCCAGTGTCAACGGTTACATGCGCTGA	MHRLLLLLVLLTGSAHAAQSIDPTVFRALETARAAQQKGDYSAARRALADAKAKPGSLEEVLVWRSQGYLAWAEGQNGKAIEWLDKAVSSGKLDKEQLPLERLNLARLNLVEGRYAKVVQLIAPAPANASEEVLQLLVQAYQGLGQHEKALPLAERYIQANPAAADTWLQFLVAGNAELKRYAVAERWQRQLLARKPDEPRNWRQLAALQQMADRHDKALATLRAAYRKGLRFSEGELDNLVLLASAAGQPWQGAKLLDGMLENGLLARTPAREERLGMLWWQARERGEAAKIYRALANKSGSGKLWMNVAQLELEQSRWQAGLEALKQAERAGVDRGKVRAWREWAEGELSFERENRVASVNGYMR				NA	NA	NA	NA	NA
BMS010_03517	519			hypothetical protein	ATGTTGCGTTCCCTGCTGGCCCTGCTGTTGTTGACCGCCCTGCCCCTCTGGGCCGGCGACGTGCGCGAACTGAACTGGTCGGAGCTGATCCCGGCGGATGCCCCGCCACCACCCCCGCCGGTTGCCGTACACGATCTGTCGCAACTGGCCAATGCGCTGGAAGCCGAAGCCGGTCCGGCCGCTACCCAGCAATCGCCCGCCGCACCGGTGGTCAAGGCATTGGATGGTCAGGAAGTGAAACTGCCGGGTTACATCGTGCCGCTGGACGTGACCGACGAAGGCCGGGTGACCGAGTTCCTGCTGGTTCCCTACTTTGGCGCGTGCATCCACGTACCGCCGCCGCCGTCGAACCAGATCGTGCATGTCCGCAGCGAATTGGGCGTGCTGATGGATGCGCTGTACCAGCCGTTCTGGGTCGAAGGGCCGCTGAAGGTGGAACACACCAGCAGCGAACTGGCCGATGCCGGCTACCAGATCGAGGCGAGCAAGATCTATCCCTACGAATTGCCGGATAGTTGA	MLRSLLALLLLTALPLWAGDVRELNWSELIPADAPPPPPPVAVHDLSQLANALEAEAGPAATQQSPAAPVVKALDGQEVKLPGYIVPLDVTDEGRVTEFLLVPYFGACIHVPPPPSNQIVHVRSELGVLMDALYQPFWVEGPLKVEHTSSELADAGYQIEASKIYPYELPDS				NA	NA	NA	NA	NA
BMS010_03518	1266			hypothetical protein	ATGTACCTATTGCGCCTGGCCCTGGCCAGTCTGGCCAACCGCCGTTTCACCGCGCTGCTCACCGTATTCGCCATCGCCCTGTCGGTCACCTTGCTGCTGGCCGTGGAGCGAGTGCGTACCGAAGCCCGCGCCAGCTTCGCCAGCACCATCAGCGGCACCGACCTGATCGTCGGTGCCCGCTCCGGCTCGGTGAACCTGCTGCTGTATTCGGTGTTCCGTATCGGCAATGCCACCAACAACATCCGCTGGGACAGCTTCGAGCACTTCGCCCAGCACCGTCAGGTGAAATGGGCGATCCCGATCTCCCTCGGCGACTCCCACCGCGGCTACCGGGTGATGGGGACCAGCGCTGCCTACTTCGAACACTATCGCTACGGTCGCGGCCAGCCGCTGGAAATCGCCCAGGGCCGGCAATTCGAACAGGACCCCTTCGAAGTGGTGCTCGGCGCCGAAGTGGCCGAAACCCTTGGCTACGGGTTAGGCGAGGAAATCGTCCTGGCCCACGGCGTGGCCACCGTCAGCCTGGTCAAGCACGACGACAAGCCATTCAAGGTAGTGGGCATCCTCAAGCGCACCGGCACCCCGGTGGACCGCACCCTGCATATCAGCCTGGCCGGCATGGAAGCCCTGCACGTCGACTGGCAGAACGGCGTGCCCGCCCGAGGCGCCGGCAAGGTGAGCGCCGAGCAGGCCCGTCACATGGACCTGCAACCGAAGGCGATCACCGCCTTCATGCTCGGCCTGAACAGCAAGATCGCCACCTTCGCCGTGCAGCGCGAGATCAACGACTACCGGGGCGAACCGCTGCTGGCGATTCTCCCTGGCGTCGCCCTGCAGGAACTCTGGGGATTGATGGGCACGGCGGAAAAAGCACTGCTGGTGGTGTCCTGGTTCGTCGTGCTGACCGGGCTGATCGGCATGCTTACCGCCATCCTCACCAGCCTCAACGAACGGCGCCGGGAAATGGCCATTCTCCGCTCGGTGGGCGCGCGCCCCTGGCATATCGCCGGGCTGCTGGTGCTGGAAGCCTTCGCCCTGGCCCTGGCCGGCGTGCTGCTCGGCCTGGCGCTGCTGTACCTCGGCATCGCCCTGGCCCAGGGCTACGTGCAGGTGCAGTACGGCCTGTACCTATCGCTGGCAGTACCCAGTCGCTATGAGTGGGGCCTGCTCGGCGCTATTCTGGGCGCCGCCTTGCTGATCGGCAGCGTGCCGGCCTGGCGCGCCTATCGGCAGTCGCTGGCCGATGGCCTGTCGATCCGTCTATGA	MYLLRLALASLANRRFTALLTVFAIALSVTLLLAVERVRTEARASFASTISGTDLIVGARSGSVNLLLYSVFRIGNATNNIRWDSFEHFAQHRQVKWAIPISLGDSHRGYRVMGTSAAYFEHYRYGRGQPLEIAQGRQFEQDPFEVVLGAEVAETLGYGLGEEIVLAHGVATVSLVKHDDKPFKVVGILKRTGTPVDRTLHISLAGMEALHVDWQNGVPARGAGKVSAEQARHMDLQPKAITAFMLGLNSKIATFAVQREINDYRGEPLLAILPGVALQELWGLMGTAEKALLVVSWFVVLTGLIGMLTAILTSLNERRREMAILRSVGARPWHIAGLLVLEAFALALAGVLLGLALLYLGIALAQGYVQVQYGLYLSLAVPSRYEWGLLGAILGAALLIGSVPAWRAYRQSLADGLSIRL	PGPT0013350_14096	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
BMS010_03519	708		COG1136	putative ABC transporter ATP-binding protein	ATGAACGCGCCCCTGATCGAACTCCATGAACTCGGCTTCGCCTGGCCCGGCCAGGACGAACTGCTGGATATCCCTGCGTTCCGCCTGGAAGCCGGCGAGACCCTGTTTCTCAAAGGGCCTTCCGGCAGCGGCAAGACCACCCTCCTCGGCCTGCTCGGCGGCGTGCAGAAGCCCGGGCGCGGCAGCATCCGTCTGCTCGGCACCGATCTCGGCGCACTCTCCGCCAGTGCCCGCGACCATTTCCGCGTCGACCACACCGGCTACATCTTCCAGCAGTTCAACCTGCTGCCGTTCCTCTCGGTGCGCGAAAACGTCGAGCTGCCCTGCCACTTTTCCCGCCTACGGGCGCAGCGTGCCCGACAGCGTCACGGCAGTGTGGACAAGGCCGCCGCCAGCCTGCTCGCCCACCTGGGGTTGAAGGAAGAACTGCTGACGCGCCGCGCCGACTCGCTGTCCATCGGCCAGCAACAACGTGTCGCCGCCGCCCGCGCCCTGATCGGCCAGCCGGAACTGGTGATCGCCGACGAGCCCACCTCGGCCCTGGACGCCGATGCCCGCGAGGCATTCCTGCGCCTGCTCTTCGCCGAATGCCGCGAGGCCGGCGCCAGCCTGCTGTTCGTCAGCCACGACCAGAGCCTCGCCCCGCTCTTCGATCGCAGCCTGTCCCTGGCCGAACTCAACCGCGCCAGCCGTCCCGTCGAGGCCTGA	MNAPLIELHELGFAWPGQDELLDIPAFRLEAGETLFLKGPSGSGKTTLLGLLGGVQKPGRGSIRLLGTDLGALSASARDHFRVDHTGYIFQQFNLLPFLSVRENVELPCHFSRLRAQRARQRHGSVDKAAASLLAHLGLKEELLTRRADSLSIGQQQRVAAARALIGQPELVIADEPTSALDADAREAFLRLLFAECREAGASLLFVSHDQSLAPLFDRSLSLAELNRASRPVEA	PGPT0013345_8250	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
BMS010_03520	597			hypothetical protein	ATGCGCCGCCTGCTGCTCGCCCTGCCCTTCGCCCTGCTGCCCCTGGCCATCGCCCAGGCCAACGAAGACGACCATCACCATGATCACGACCATGCGCATGAAGAGCATGGCAGCCTGGGCGCCCACGAACACGGCGTCGCCCGGCTGAACGCGGTACTCGACGGCAATTCCCTGGAGATCGAACTGGAAAGCCCGTCGATGAACCTGGTCGGCTTCGAACACGAAGCCCACAGCGAGGAAGACAAGGCCAAGGTCGCCGCCACCCGCGCCCAACTGGAAAAACCCGCGGCCCTGTTCGGCCTCCCGGCCGCCGCCGGTTGCGAGCTGGCCAAGCAGGAACTGGAAAGCCCGCTGTTCGGCGACGAAGACGACGAACACCACGAAGAAGAAGCCGGGCACGATCACGAAGAAGAGCACAGCGAGATTCACGCCCACTACCGGTTCACCTGCAACGCACCCGAGGCTCTCGAGGGCTTGAACCTGTCCGGACTGTTCGGCACATTCCCCACCACCCAGAAAATTCAAGTACAACTGATCGGCCCCAACGGTCAGCAAGGTGCCGAAGCCAACGCGCAGAACGCCCGCCTGAATTTCTGA	MRRLLLALPFALLPLAIAQANEDDHHHDHDHAHEEHGSLGAHEHGVARLNAVLDGNSLEIELESPSMNLVGFEHEAHSEEDKAKVAATRAQLEKPAALFGLPAAAGCELAKQELESPLFGDEDDEHHEEEAGHDHEEEHSEIHAHYRFTCNAPEALEGLNLSGLFGTFPTTQKIQVQLIGPNGQQGAEANAQNARLNF				NA	NA	NA	NA	NA
BMS010_03521	339			hypothetical protein	ATGCTGAGAATTCGCGGAACTATCGGGACGTGGCCGGTGGACCTGACGGTGGAGCTGGACGATGAGGATTGGGCGCGACTGGCCAGCGTTCAGGCGATCGTACCGGAGGAGGCCAGGCCCGCTCCGGCGCGCAGTCAGCCGGTCGACGCGCTCTGGCAGAGTGCCCAGGACCTGCTGCGCACCGCCGGCCAGATGGAAGGCCCCGATCTGCTGGTCCAATTGCAGGCACTGGCCGGCAGCGCCGACGCCGGCAAGCGCCTGCTGGTGCGCCTGCGCCACTGCCCGCAGGTGAAGCTGGAGAGCGGCGCCGATACACCGCTCTATCGCTGGCAGGAATAG	MLRIRGTIGTWPVDLTVELDDEDWARLASVQAIVPEEARPAPARSQPVDALWQSAQDLLRTAGQMEGPDLLVQLQALAGSADAGKRLLVRLRHCPQVKLESGADTPLYRWQE				NA	NA	NA	NA	NA
BMS010_03522	873	cnoX_2	COG3118	Chaperedoxin	ATGAGCGATACCCCCTACATCTTCGACGTGTCCGGTGCCGCCAGCTTCGAACGGCTGGTGATCGAAAACTCCTTCCACAAGCCGGTGCTGGTGGACTTCTGGGCCGAATGGTGCGCGCCGTGCAAGGCGCTGATGCCGCTGCTGGCGCAGATCGCCGAGAGCTACCAGGGCGAACTGCTGCTGGCCAAGGTCAACTGCGATGTCGAGCAGGACATCGTCATGCGCTTCGGCATCCGCAGCCTGCCGACCGTGGTGCTGTTCAAGAACGGCCAGCCGGTGGACGGTTTCGCCGGCGCCCAGCCGGAATCGGCGATCCGCGCCATGCTCGAGCCGCACGTGGCGGAACCGGCCACGCCCCAGGCCAACCTGCTGGAGAGCGCCCAGGCCGCCTTCGCCGAAAGCCGCATCGGCGAGGCGGAGAGCCTGCTCAAGCAGCTGCTGACCGAAGACAACGAGAACGCCGCCGCGCTCATTCTCTACGCCCGCTGCCTGGCCGAGCGCGGCGAACTGGGTGAAGCCGAGAGCGTGCTGAACGCCGTGAAAGGCGACGAGCACAAGCAGGCACTGGCCGGCGCCAAGGCCCAGTTGACCTTTCTGCGCCGCGCCGCCGATCTGCCGGAAGTGGCGCTGCTGAAATCGCGCCTGGCGCAGAACGCCGAGGACGACGAGGCCGCTTACCAACTGGCGATCCAGCAACTGGCCCGCCAGCAATACGAAGCCGCCCTGGACGCCCTGCTCAAGCTGTTCGTACGCAACCGCGGCTACGACAACGGCGCCCCTCACTCGACCCTGCTGCAAGTGTTCGACCTGCTGGGCAACGACCATCCGCTGGTAACCCTGTACCGCCGCAAGCTGTACCAGGCGATCTATTAA	MSDTPYIFDVSGAASFERLVIENSFHKPVLVDFWAEWCAPCKALMPLLAQIAESYQGELLLAKVNCDVEQDIVMRFGIRSLPTVVLFKNGQPVDGFAGAQPESAIRAMLEPHVAEPATPQANLLESAQAAFAESRIGEAESLLKQLLTEDNENAAALILYARCLAERGELGEAESVLNAVKGDEHKQALAGAKAQLTFLRRAADLPEVALLKSRLAQNAEDDEAAYQLAIQQLARQQYEAALDALLKLFVRNRGYDNGAPHSTLLQVFDLLGNDHPLVTLYRRKLYQAIY				NA	NA	NA	NA	NA
BMS010_03523	657			hypothetical protein	ATGACTGCACCCGACAACCTGCAACACGCGCTGAGCGAACTGCTGGGCGACGCCCGCCTGGTGGCCGAGTCCCTGCCCGGCACCGACCTCCGTCTCTGGCTGATCGACGCGGAAAACATGGATCGCGCGTTCAGCCCCGAAGAAACCCGCCGCATTCTGGAAGAGCCACCGTACTGGAGTTTCTGCTGGGCCAGCGGCCTGGCCCTGGCGCGCTGGCTGGCGGAACGGCCGGAATGGGTGCGTGGCAAGCGTGTGCTGGATTTCGGCGCCGGCTCCGGCGTGGCGGCCATCGCGGCGGCCAAGGCCGGCGCGCTGGAGGTGGTGGCCTGCGACCTCGACCCGCTGGCGCTGGGCTCCTGCCGGGCCAACGCCGCGCTGAACGGTGTCTCCCTGCAGTATTCGGAGGACTTCTTTGCCGAGGCCGACCGCTTCGACCTGATCCTGGTGGCCGACGTGCTCTACGACCGAGCCAACCTGCCCCTGCTCGACCAGTTCCTCAGCCGGGGCCGCGAAGCACTGGTGGCCGACTCGCGGGTACGCGATTTCCAGCATCCGTTATACAGACGCCTGGCCGTGCTCGACGCCTGCACCTGGCCGGACTTGGCGGAGCCGGCGGAATTCCGCAGCGTCAGCCTCTACCATGCCAAGCGGCAATAG	MTAPDNLQHALSELLGDARLVAESLPGTDLRLWLIDAENMDRAFSPEETRRILEEPPYWSFCWASGLALARWLAERPEWVRGKRVLDFGAGSGVAAIAAAKAGALEVVACDLDPLALGSCRANAALNGVSLQYSEDFFAEADRFDLILVADVLYDRANLPLLDQFLSRGREALVADSRVRDFQHPLYRRLAVLDACTWPDLAEPAEFRSVSLYHAKRQ				NA	NA	NA	NA	NA
BMS010_03524	465			hypothetical protein	ATGCCGATATGCCTGCGCCTACTGGCCCTTACCCTCCTGCTCAGCGCCTGTGCCAGCGAGCCCGACTCGACGCCGGTGGCACCTGCCACGCCGCCCGAGGCGGCTCCCAGCGTTCGCCCCGCGCCGCCCGTCGATGCCCCGACGCCGCTGCCGGCGCATTTGCGCGAGATCAGCGGACGAGTGCTCGGCGCCCCCAGCGGTGCCGAGGTGGAGCTGGCCCTGCTGCAGGTGGATGAGCGCGGCCGCCCGCGCAAGCTGCTGGCCAGCCTGAGCCGACGGGCCGATGGCACGCCGCTGACGTTCGCCCTGCGCTTCAATCCCGACGCCTTTCCCGGCGCCGCGCGCGTCGAGCTGCGTGGTCGCGCCAGTCACTCCGGGCGCCTGATCCTGCGCCTGCCGCCCCGTACCATCCCCACGCCCACCACCCAGGTGCTCGGCGACCTCTCGCTGGTGCCCGCCCCATGA	MPICLRLLALTLLLSACASEPDSTPVAPATPPEAAPSVRPAPPVDAPTPLPAHLREISGRVLGAPSGAEVELALLQVDERGRPRKLLASLSRRADGTPLTFALRFNPDAFPGAARVELRGRASHSGRLILRLPPRTIPTPTTQVLGDLSLVPAP				NA	NA	NA	NA	NA
BMS010_03525	465	nrdR_2	COG1327	Transcriptional repressor NrdR	ATGCACTGTCCTTTCTGCGGTGCCCACGACACCAAGGTTATCGATTCCCGCCTGGTCGCCGAGGGCGAGCATGTACGCCGTCGCCGCGAATGCCTGGCCTGCGGCGAGCGCTTCACCACCTTCGAAACCGCCGAGCTGGTCATGCCCCGGCTGATCAAGCAGGACGGTAGCCGCCAGCCGTTCGACGAGGAAAAACTCCGCGCCGGCATGCAGCGGGCGCTGGAAAAGCGGCCGGTCAGCGTCGAACGCCTGGAAGAGGCCATCGCCCATATCAAGCACAAGTTGCGCGCCACCGGCGAGCGCGAGGTCAAGTCGCGGGTGCTGGGCGAACTGGTGATGGCCGAGCTGCAGAAGCTCGATGAAGTGGCCTACATCCGCTTCGCCTCGGTCTACCGGCGCTTCCAGGATCTCAACGAATTCCGCGAGGAAATCGAGCGCCTGGCCCGCGAGCCGTCGAAAGACTGA	MHCPFCGAHDTKVIDSRLVAEGEHVRRRRECLACGERFTTFETAELVMPRLIKQDGSRQPFDEEKLRAGMQRALEKRPVSVERLEEAIAHIKHKLRATGEREVKSRVLGELVMAELQKLDEVAYIRFASVYRRFQDLNEFREEIERLAREPSKD				NA	NA	NA	NA	NA
BMS010_03526	1113	ribD	COG0117	Riboflavin biosynthesis protein RibD	ATGCCGGCGCTTCCCGATCAGGCCTACATGGCCCGAGCCCTGGAGCTGGCGCGCAAAGGGCTTTATTCCACCCACCCCAATCCCCGGGTCGGCTGCGTGATCGTGCGCGATGGCCGGATCGTCGGCGAGGGTTGGCACGCTCGCGCCGGCGAGCCCCATGCCGAAGTGCATGCCCTGCGTCAGGCCGGCGACAAGGCGAAGGGCGCGACCGCCTACGTGACTCTGGAGCCTTGCAGCCACCACGGACGTACCCCGCCCTGTGCGGATGCGTTGGTGAACGCAGGGGTTGCTCGCGTGGTGGCGGCCATGCAGGACCCCAACCCGCAGGTGTCCGGCCGCGGCTTGCAGCGCCTGGCCGATGCCGGCATCGCCGTGCAGAGCGGCATGCTGGAAGCGGAAGCGCGGGCGCTGAACGCCGGCTTCATCAAGCGCATGGAGAAGGGCTTGCCCTTCGTGCGGGTCAAGCTGGCCATGAGCCTGGACGGCCGCACGGCGATGGCCAGCGGCGAAAGCCAATGGATCACCGGCCCGGCGGCGCGTGCCGCGGTGCAGCGCTTGCGGGCCCGGGCCAGCGTGGTGCTGACCGGGGCGGACACGGTGCTCGCCGATCAGGCGCGGCTGACGGTGCGCCCCGACGAGCTGGGCCTCAATGCCGAGCTGACTGCCCTGGCGCTGATGCGTCCGCCGTTGCGCGTGCTGATCGATGGCCGCCTGCGGGTGCCGCTGAGCGCACCGTTCTTCCAGGCCGGACCGGCGTTGGTGGCGACCTGCGCGGCGGCATCGGCACGTGATCGTTTTCTCGAGGATGGCCACGAGCTGCTCGCCGTGCCGGGCAGCAACGGCCACGTGGACCTGAACCGGCTGTTGGTCGAACTGGCCGCGCGCGGTACCAACGAGGTACTGGTCGAAGCGGGGCCGCGACTGGCCGGGGCCTTCGCCCGCCTCGGGCTGGTCGACGAGTATCAACTCTTCGTCGCGCCGAAATTCCTTGGCTCCAGCGCACGCCCGCTGCTCGACCTGCCGCTGGTGCGGATGGCCGAAGCGAAGGAATTGAAGATTACCGATATCCGCGCGGTCGGCGACGATTGGCGGATCACCGCCGTTCCACTCTGA	MPALPDQAYMARALELARKGLYSTHPNPRVGCVIVRDGRIVGEGWHARAGEPHAEVHALRQAGDKAKGATAYVTLEPCSHHGRTPPCADALVNAGVARVVAAMQDPNPQVSGRGLQRLADAGIAVQSGMLEAEARALNAGFIKRMEKGLPFVRVKLAMSLDGRTAMASGESQWITGPAARAAVQRLRARASVVLTGADTVLADQARLTVRPDELGLNAELTALALMRPPLRVLIDGRLRVPLSAPFFQAGPALVATCAAASARDRFLEDGHELLAVPGSNGHVDLNRLLVELAARGTNEVLVEAGPRLAGAFARLGLVDEYQLFVAPKFLGSSARPLLDLPLVRMAEAKELKITDIRAVGDDWRITAVPL	PGPT0008555_1231	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008555-ribD-K11752	NA	NA
BMS010_03527	732	bepR_1		HTH-type transcriptional repressor BepR	ATGCTGTTACATACATTCACGTTTGTAAACAGACCATTGGCGGCAAAATCGTTACACTCTGTTCCCTCGACAGAGCCTAGCCGTGAATCGCCGCTTCGTATGCGTAGAACCAAGGAACAAGCCGAACAGACCCGCGTCGCCATCCTGGCGGCGGCCGAAGTGCTGTTCCTGAAGAATGGCGTGGCCCACACGACCCTCGAACAGGTGGCGCGGGAAGCGGGCGTGACCCGAGGCGCGGTGTATTGGCACTTCCAGAACAAGGCCCATCTGTTCCACGAAATGCTCAACCAGGTACGCCTGCCGCCGGAGCAACTCGCCGAACGCCTGTGCGGCTGCGACGGCCAGAACCCGCTGCTGGCATTGCGCGACCTGTGCGTGGAGGCGGTGGAAAACCTGGCGCGGGACGAGCAGAAGCGGCGCATCTTCACCATCCTGCTGCACCGCTGCGAATTCACCGACGAGCTGCGCGACGCCGAAGAACGCCACAACGCCTTCGTCAATCAGTTCATTTCACTGTGCGAGCAATTGTTCGAGCGCTCCGCCGAACGTCTTCATCCGGGACTGACGCCACGCCTGGCCGCACGCACCCTGCACGCCGGCATCGTCGGCCTGTTCACCGACTGGACGCGCGACCCGCTGCTGTTCGATCCGTTGCAGGAAACCGCCGCGCTGATCGACGCCCTGTTCCGTGGTCTGGTGCGCGACTGGGATGCCACGGCCAGACCACACTGA	MLLHTFTFVNRPLAAKSLHSVPSTEPSRESPLRMRRTKEQAEQTRVAILAAAEVLFLKNGVAHTTLEQVAREAGVTRGAVYWHFQNKAHLFHEMLNQVRLPPEQLAERLCGCDGQNPLLALRDLCVEAVENLARDEQKRRIFTILLHRCEFTDELRDAEERHNAFVNQFISLCEQLFERSAERLHPGLTPRLAARTLHAGIVGLFTDWTRDPLLFDPLQETAALIDALFRGLVRDWDATARPH	PGPT0029060_40	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029060-nalD-K18135	NA	NA
BMS010_03528	1161	bepD		Efflux pump periplasmic linker BepD	ATGCCTTCAGTCCGTCGCCTATCCCTCGTTCCGCTGTGCGCGCTCAGCGCTCTTCTGACGGCAACCTCCGCCCAAGCTGCCGATGCCCAGCCGGCTCCTCCGCCGCCGGAGGTGGTGGTCGAAACGGCCAAATCCGAAGCCATGCCGCTGGTGCTGGAATATTCCGGTCGCACCGCCGGCTACCGCGAAGTAGAAGTGCGCGCCCAGGTCAGCGGCATCCTGCAGGAGCGTACCTACCAGGAAGGCAGCCGGGTGCAGAAGGGGCAGGTGCTGTTTCGCATCGATCCGCGTACTTATGAGGCGGCGCTGGCCCGCGCCAAGGGCGCGCTGGCCCAGGAGCAGGCGCGCTACCGGCAGACCGAACGCGATCTCAAGCGCATCCGCGAGCTGCAGAAGAAAGGCTTCGCCAGCGAAAGCGAGCTGGATAACGCGGTGTCCAACTTCGAGCAGAGCAAGGCCAACGTCGAAGCCGCCGAAGCCGAGGTGAAGGCGCGGCAGATCGACCTCGACTACACCACCGTGGAAGCACCGATCTCCGGTATCACTAGCCGCGAGACCCGCTCCGAAGGCAGCCTGGTGGTGGCCAGCGATCCAAACTCCAGCCTACTCACCCAACTGACCCAGCTCGACCCCATCTACGTCAACTTCGCCTACCCGGACTCCGAAGCCGAGCGTCTGCGCCAGGAAATGCAGACCGGCAAGCTGACCCTGCCGGAGAGTGGAAAACTGAACGTCGAGGTGAAGTTCGGCGATGGCTCCAGCTACCCCATGGAAGGCCAGGTCGACTTCACCGACAGTCTGATCGATCGCGGCACCGGTACCGTCAGTGCCCGTGCGGTGGTGCCCAATCCGGCGCAGAAACTACTGCCCGGCCAGTTCGTGCGCGTGCTGGTCAAGGGCCTGACCCGTCCGGATACCGTGACCGTGCCCGAGCGCGCCGTTTCCCAGGGCCCGCGCGGCACCTTCGTCTACGTGGTGGACGAGCAGGGTGTGGCGCGCGTGCGCCAGGTGAGCACCGGCCGTACCGCCAACGGCCGCTGGGTGATCGAGTCCGGGGTCGATGCCGGTGACCGGGTGATCGTCGAGGGGCTGCCCAAGGTCCGCCCGGATACGCCGGTGAAGATCGCCGAAACCCCCGCCGTCCAGCCCAAGCAGTCCTGA	MPSVRRLSLVPLCALSALLTATSAQAADAQPAPPPPEVVVETAKSEAMPLVLEYSGRTAGYREVEVRAQVSGILQERTYQEGSRVQKGQVLFRIDPRTYEAALARAKGALAQEQARYRQTERDLKRIRELQKKGFASESELDNAVSNFEQSKANVEAAEAEVKARQIDLDYTTVEAPISGITSRETRSEGSLVVASDPNSSLLTQLTQLDPIYVNFAYPDSEAERLRQEMQTGKLTLPESGKLNVEVKFGDGSSYPMEGQVDFTDSLIDRGTGTVSARAVVPNPAQKLLPGQFVRVLVKGLTRPDTVTVPERAVSQGPRGTFVYVVDEQGVARVRQVSTGRTANGRWVIESGVDAGDRVIVEGLPKVRPDTPVKIAETPAVQPKQS	PGPT0003275_2408	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003275-acrA|lir|mtcA|mexA|adeI|smeD|mtrC|cmeA-K03585	NA	NA
BMS010_03529	3141	bepE_1		Efflux pump membrane transporter BepE	GTGATCTCACGCTTCTTCATCGACCGCCCGGTATTCGCCGCGGTCATTTCCATCGTCATCGTGCTCGCCGGCCTCGCCGCCATGCGCGCGCTGCCTATCGCTCAATACCCGCAGATCCTGCCGCCGCAGGTCTCGGTGACCGCCAACTACCCGGGCGCCAGCTCGCAGGTGATCGCGGAAACCGTCGCCGCGCCGCTGGAGCAGCAGATCAACGGTGTGGAGGGGATGATCTACCAACTGTCCAACTCCTCCAGCAGCGGGCAGATGTCGCTCACGGTCTATTTCCAGGTCGGCACCGACCCGGACCAGGCCACCATCGACGTCAACAACCGGGTCCAGGCGGCCCTGGCCAAGCTGCCGGAGGAAGTGCGCCGGCAGGGCGTCAAGGTGCAAAAGAAGTCCTCGGACATCCTGCAGGTGGTGACGCTCTATTCGCCGGATAACTCGCGCGATCCCGTCTACATCAGCAACTACGCGCTGATCAATGTGATCGATGAGTTGAAGCGCCTGGACGGCGTCGGCGACGCCAGCCAGTTCGGCTCCAAGGACTACTCCATGCGCATCTGGCTGCGCCCGGACAAGCTGGCGCAGTACGACCTGACGCCCACCGACGTGGTCAACGCGATCCGCGAGCAGAACTCCCAGTTCGCCGCCGGCAGCTTCGGCCAGCAGCCGATGAAGGAGGAGCAGGACTTCACTTACACGGTGACCACCCAGGGCCGTTTCACCGACCCGAAGGAATTCGGCAGCGTCATCCTGCGTACCGACGAGACCGGTGCCAGCCTGCTGCTCAGGGATGTCGCGCGGATCGAGCTGGGCGCCCAGGACTACTCCCTGGTGACCACCCTCAACGGCCAGCAGAACGCGGCGTTCGGTATCTACCTGCAACCGGGCGCCAACGCCCTGGACACCGCCGAGGCCGTGCGCAACACCATGGAGCGGCTGTCCAAGCGCTTCCCCGACGGCATCGCCTACAAGATTCCCTACGACACCACCAAATTCGTCAAGGTCTCCATCGAGGAGGTGGTGAAGACCTTCTTCGAGGCTCTGGTGCTGGTGGTGCTGGTGGTCTTCATCTTCCTGCAGAACTGGCGCGCCACGCTGATCCCGGTGCTGGCGATCCCGGTCTCGCTGATCGGCACCTTCGCCGGCATGTACATGCTCGGCTTCTCCATCAACCTGCTCACGCTGTTCGGCATGGTGCTGGCCATCGGCATCGTGGTGGATGACGCCATCGTGGTGATCGAGAACGTCGAGCGGGTGATGCGTACCCAGCGACTCAGTGCCCGCGAGGCGTCGATCAAGGCGATGGAAGAGGTCACCGGGCCCATCGTGGCCATCGTCCTGGTGCTCTGCGCGGTGTTCATCCCGGTGGGCTTCCTCGGCGGTCTGGCGGGGCAGATGTACAAACAGTTCGCCATCACCATTGCGGTGTCGGTGGTGATCTCCGGCATCGTCGCCCTGACCTTGTCGCCGGCGCTCTGTGCGCTGCTGCTGAAGATGGAGCACAAGGAACCGGCGGCGCCGTTCCGCTGGTTCAACCGTGCCTTCGACCGGTTCACCGCGGGCTATGCCGCCGGCGTACTGTTCTTCCTCAAGCGCTCGGTGATCGGCCTTCTGCTGTTCGGCGGGATGATCGCGATCATGGTGCTGCTGTTCAACCGCGTGCCCGGCTCGCTGGTGCCGGACGAAGACCAGGGTTACGTGATCAACGCCTACTTCCTGCCGCCGGCGGCCTCGCTGACCCGCACCGACGCGCTGACCAGCGATGTCACCCGGCAGATGATGAAGCACCCGGCGGTGCAGGATGTGGTTACCTTCGCCGGCTTCGACGTGCTCACCTTCGGCCAGCGCAGCAACGCCGGGGTGTCCTTCGTGCCGCTCAAGGACTGGAGCGAGCGCAAGACGGCAGAGCTGGACGCACGCAACCTCACCCGTGAATTCATGGGCATGGGTGCGGCGCAGAAGGATGGCGTGGTGCTGTCCTTCAACCCGCCGCCGATCACCGGCATGAGTACCACCGGCGGCTTCGAGGCGTACATCCAGGACCGCAGCGGCGGCACCACCGAAGCCCTCGGCGAGAAGGTCCAGGCGTTCCTCGCGGCGGCGGCCAAGCGGCCGGAACTGGCCGGGGTGAACACCACCTTCAGCGCCAACGTGCCGCAGTACTACATCGACCTCGACCGTACTAAGGCCCGCGCCCTGGGCGTGCCGATCAACGATGTGTTCACCGCGATGCAGGCCACCTTCGGTAGCTACTACGTCAACGATTTCACTCTCTATGGGCGGACCTGGCAGGTCAGCCTGCAGTCGGAATCGGAGTTCCGCCGCAAGCCGGAGGACCTGTCGCAGGTCTATGTGCGCTCCGCCTCCGGCGAGCTGGTGCCGCTCTCCACCCTGGTGAAGGTGCGGCGCATCCTCGGCCCGGACAGCTACGCGCGCTTCAACGTCTACCCGGCGGCGAAGATCCTCGGCGGCCCGGCGCCCGGCTATAGCTCCGGCCAGGCCCTGGCGGCGATGCAGGAGATCGCCGACGAAGTGCTCGGCGAGAACTACAGCATTGGCTGGATCGGCTCGGCCTACCAGGAACTGGCCAGCCAGGGCTCGGGCAGCACCGCGTTCATCTTCGGCCTGATCATGGTGTTCCTGATCCTCGCCGCCCAGTACGAGCGTTGGACCTTGCCGTTGGCGGTAGTCACCGCGGTGCCCTTCGCGGTATTCGGCGCGATCCTCGCGGTGTGGCTGCGCGGCATCCAGAACGACGTGTACTTCCAGGTCGGCCTGGTGACCCTGATCGGCCTGGGGGCGAAGAACGCCATTCTGATCGTCGAGTTCGCCGTGCTCTGCCGCGAGCAGGGCATGGGCATCTTCGAGTCGGCGCTGGAGGCGGCCAAGCTGCGCTTCCGTCCGATCGTGATGACCTCGCTGGCCTTCATCCTCGGCTGCGTGCCGCTGGCGATCAGCACCGGTGCCGGTTCGGCCAGCCGGCACTCCATCGGTACCGGGGTGATCGGCGGGATGCTCGCCGCCACCCTGCTGGCGACTTTCGTCATCCCGATGTTCTACCTGCTGGTGGAGGCCGGGGCCGAGCGCCTGGGCCGGAACCGCAGGAAGCAGGCGGTGCCCGCCCAGGCCGAGTGA	MISRFFIDRPVFAAVISIVIVLAGLAAMRALPIAQYPQILPPQVSVTANYPGASSQVIAETVAAPLEQQINGVEGMIYQLSNSSSSGQMSLTVYFQVGTDPDQATIDVNNRVQAALAKLPEEVRRQGVKVQKKSSDILQVVTLYSPDNSRDPVYISNYALINVIDELKRLDGVGDASQFGSKDYSMRIWLRPDKLAQYDLTPTDVVNAIREQNSQFAAGSFGQQPMKEEQDFTYTVTTQGRFTDPKEFGSVILRTDETGASLLLRDVARIELGAQDYSLVTTLNGQQNAAFGIYLQPGANALDTAEAVRNTMERLSKRFPDGIAYKIPYDTTKFVKVSIEEVVKTFFEALVLVVLVVFIFLQNWRATLIPVLAIPVSLIGTFAGMYMLGFSINLLTLFGMVLAIGIVVDDAIVVIENVERVMRTQRLSAREASIKAMEEVTGPIVAIVLVLCAVFIPVGFLGGLAGQMYKQFAITIAVSVVISGIVALTLSPALCALLLKMEHKEPAAPFRWFNRAFDRFTAGYAAGVLFFLKRSVIGLLLFGGMIAIMVLLFNRVPGSLVPDEDQGYVINAYFLPPAASLTRTDALTSDVTRQMMKHPAVQDVVTFAGFDVLTFGQRSNAGVSFVPLKDWSERKTAELDARNLTREFMGMGAAQKDGVVLSFNPPPITGMSTTGGFEAYIQDRSGGTTEALGEKVQAFLAAAAKRPELAGVNTTFSANVPQYYIDLDRTKARALGVPINDVFTAMQATFGSYYVNDFTLYGRTWQVSLQSESEFRRKPEDLSQVYVRSASGELVPLSTLVKVRRILGPDSYARFNVYPAAKILGGPAPGYSSGQALAAMQEIADEVLGENYSIGWIGSAYQELASQGSGSTAFIFGLIMVFLILAAQYERWTLPLAVVTAVPFAVFGAILAVWLRGIQNDVYFQVGLVTLIGLGAKNAILIVEFAVLCREQGMGIFESALEAAKLRFRPIVMTSLAFILGCVPLAISTGAGSASRHSIGTGVIGGMLAATLLATFVIPMFYLLVEAGAERLGRNRRKQAVPAQAE	PGPT0003280_1898	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003280-acrB|acrE|mexB|adeJ|smeE|mtrD|cmeB-K18138	NA	NA
BMS010_03530	1176	bcr_1		Bicyclomycin resistance protein	ATGAACCTGCGAATCCTGTTGATCCTCGGCGCTCTCAGTGCCTTCGGCCCCCTGGCCATCGACTTCTACCTGCCCAGCTTCCCGACCCTGGCGCGTGCGTTCGCCACCGACGTCGAGCACGTGCAGCTCTCCTTGGCCGCCTACTTCGCCGGCCTCGCCATCGGTCAACTGGCCTACGGGCCCATGGCCGACCGCTATGGCCGGCGTCGGCCGCTGTTGTTCGGCGTGGTGCTGTTCACCCTGGCCTCGCTGGGCTGCGCCCTGGCGCCGAACCTGGAATGGCTGATCGCCGCGCGCTTCGTCCAGGCCCTGGGCGGCTGCGCCGGCATGGTGATTTCCCGTGCCGTAGTGCGCGACCTCTGCGACCCGCTGGCCTCGGCCAAGGTGTTCTCGCAGCTCATGCTGGTCATGGGACTGGCGCCGATCCTCGCGCCGCTCGCCGGCGGGGTATTGCTGGATGTCTTCGGCTGGCAGTCGATCTTCTTCTGCCTGGCGCTGTTCAGCGCCCTGGTTGGCGCCGGCCTCGCCGCCTGGCTGCCGGAAACGCTGTCCGACACCCAGCCGCGAGCGCCGTTGCGCGGCAGCCTGGGGCGCTACGCCGCGCTGCTGCGCGACCGGGAATTCATCGCCTGCGGCTTGGCCGGTGGGGTGGCCATGGCGGGCATGTTCGCCTACATCGCCGGGTCGCCGTTCGTCTTCATCGAACTCTACGGCGTGCCGGCGGAGCACTACGGCTGGCTGTTCGGCAGCAACGCGGCGGGGTTCATCCTGGCCGCGCAGGTCAACGCCCGGTTGCTGCGCTATCGCGGCCCGGGTTTCTGGCTGCGCCGTATCGTGTGGGTGTTTTTCCTCAGCGGCGTGGTACTGCTCGGTCTGGCCCTGGCGCGGCCGGCGCAGCTCTGGCCGCTGCTGATCCCGCTGTTCATCGCCATCGCCAGCCTCGGCTGCATCCTCCCCAATGCCTCGGCCTGCGCCATGGCCCACCAGGGCGCCCAGGCCGGCAGCGCCTCGGCCCTGATGGGCAGTCTGCAATTCTGCGTGGCGGCGGGTGCCTCCAGTTTGGTCGGCGTGCTGCACGACGGTAGCGCGGTGCCCATGGCGGCAGTGATCACCCTCTGCGGTGGGCTGGCGACGCTGCTGGCGTGGTATAGCGGACAGGTGAGCCGGACGGCCTGA	MNLRILLILGALSAFGPLAIDFYLPSFPTLARAFATDVEHVQLSLAAYFAGLAIGQLAYGPMADRYGRRRPLLFGVVLFTLASLGCALAPNLEWLIAARFVQALGGCAGMVISRAVVRDLCDPLASAKVFSQLMLVMGLAPILAPLAGGVLLDVFGWQSIFFCLALFSALVGAGLAAWLPETLSDTQPRAPLRGSLGRYAALLRDREFIACGLAGGVAMAGMFAYIAGSPFVFIELYGVPAEHYGWLFGSNAAGFILAAQVNARLLRYRGPGFWLRRIVWVFFLSGVVLLGLALARPAQLWPLLIPLFIAIASLGCILPNASACAMAHQGAQAGSASALMGSLQFCVAAGASSLVGVLHDGSAVPMAAVITLCGGLATLLAWYSGQVSRTA	PGPT0029005_5090	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029005-bcr|tcaB-K07552	NA	NA
BMS010_03531	177			hypothetical protein	ATGGAGATTCAAGTACGTTCCTTGAAGACCGCCCAAGGCGAAACCTGGCAAGTGCGCCTGGACCGGAATAGCGTCACCTTCCGCAGCGAAGCCGAAGCCCGCGACTTCGTCCGCACTCTCGAAGCCCGCCTGCGCGCCCCGCATCCGCTGCCCAGACGGGACCAACACGTCGCCTGA	MEIQVRSLKTAQGETWQVRLDRNSVTFRSEAEARDFVRTLEARLRAPHPLPRRDQHVA				NA	NA	NA	NA	NA
BMS010_03532	1911	acs_3	COG0365	Acetyl-coenzyme A synthetase	ATGAACTACCCGCACAGCCACGCGCGTTCGCTCCGCGAGCCCGCCGCATTCTGGGCCGAGCAGGCCGCCGGCGTCGCTTGGTATCGGACGCCCACCCAGGCTCTCGTCGAGCGTCCGGACGGCACGCACCAGTGGTTCCCCGACGGTGAGCTGAACAGTTGCTACCTGGCCCTGGATCACCAGATCGAGCAGGGCCGCGGTGAGCAGGATGCGCTGATCTACGACTCCCCGGTGACCGGCCGCAAGGCCCGCTACAGCTTCCGTCAGTTGCGCGACGAGGTGGCGCGGCTGGCCGGCGCGTTGCGCGATCTGGGGATAGGGAAGGGCGACGGGGTGATCATCTACATGCCCATGGTGCCCGAGGCGGCCATGGCCATGCTCGCCTGTGCGCGGATCGGCGCGGTGCATTCGGTGGTGTTCGGCGGTTTTGCGCCCCATGAACTGGCCGTGCGTATCGACGACGCCCGGCCCAAGCTACTGCTCACCGCTTCCTGCGGGCTGGAGTTCGAGCGGGTGATCGAATACAAGCCGCTGGTGGACAAAGCCCTGGAGCAGGCCGGCCACCAGCCGGAGCATGTGTTGGTGCTGCAACGGCCGCAGGCCAGGGCGGCAATGCGCGAAGGCCGCGATCTCGACTGGCAGGCCACCGTCGCCGATGCCTGCCCGGTGGACCCGGTGCCGGTGGCCAGCGGCGATCCGCTCTACATCATGTACACCTCGGGCACTACCGGTAAGCCCAAGGGCATCGTCCGCGAGAACGGCGGCCATGCCGTCGCCCTGCTGTTCGCCATGCGCCATGTCTACGGCATGCTGCCGGGCGAGACCTGGTGGGGCATCTCCGACGTGGGCTGGGTGGTGGGCCACTCGCTGATCGTCTACGGGCCGCTGATGAACGGCTGCACCACGGTGTTCTACGAGGGCAAACCGATCCGCACGCCGGACGCCGGCGCCTATTGGCGGGTGGTGGAGGAGTATGGGGTCAACGCGCTGTTCTGCGCCCCCACCGCCATGCGCGCGATTCGCAAGGAAGACCCGCAGGGCGAGTTGCTGCGTCGCTACGACCAGCGTTCGCTGAAACAATTGTTCCTCGCCGGCGAGAAGCTCGATTCCAGCACCCACCAATGGCTCGAAGCGCTCACCGGCAAGCCGGTGCACGACCACTGGTGGCAGACCGAGACCGGCTGGCCGGTGACCGCGCCCTGCACCGGCATGGAGGATTTCGCCGCGCGGGCGGGGTCGAGCAACCGGGCGGTGCCCGGCTACGACGTGCAGGTGCTGGACGACGAGGGCAAGCCGCTTGGGCCGAACCAGCAGGGCGCCATCGTCATCGCCTTGCCGCTGCCGCCCGGTTGCGCCCAGACCCTATGGAACAACCACGAGCGTTACCTGGACGCCTACCTGCGTACCTACCCCGGTTACTACCACACCGGCGACGGCGGCTATCTGGACGACGAGGGTTTCGTCTACATCATGGGCCGCACCGACGACGTGATTAATGTGTCCGGCCACCGGCTCTCCACCGGCGAGATGGAGGACTTGGTGGCCCGGCATCCGGCAGTGGCGGAGTGCGCCGTGGTCGGCGTTCACGACGAGTTGAAAGGGCAGGTTCCGCTGGGGCTGGTGGTGCTCAAGGATGGCGCCGGCATCGCGGCCGATCGCCTGCAAAGCGAACTGGTGGCGACGGTCCGCGAGCAGATCGGCGCGCTGGCGTGCTTCCAGAAGGTGGCGGTGGTCAAGCGCCTGCCCAAGACCCGCTCCGGCAAAATCCTTCGCGCGGTGTTGCGCAAGATCGCCGACGATGAGGCCTACAGTGTGCCGCCGACTATCGACGACCCGGCGATCCTCGATGAAATCGCCGAGGTGTTGCGTGCGTTCAAGGTTCCTGCCGGGATGAGTTCGGTTGCCCGCTGA	MNYPHSHARSLREPAAFWAEQAAGVAWYRTPTQALVERPDGTHQWFPDGELNSCYLALDHQIEQGRGEQDALIYDSPVTGRKARYSFRQLRDEVARLAGALRDLGIGKGDGVIIYMPMVPEAAMAMLACARIGAVHSVVFGGFAPHELAVRIDDARPKLLLTASCGLEFERVIEYKPLVDKALEQAGHQPEHVLVLQRPQARAAMREGRDLDWQATVADACPVDPVPVASGDPLYIMYTSGTTGKPKGIVRENGGHAVALLFAMRHVYGMLPGETWWGISDVGWVVGHSLIVYGPLMNGCTTVFYEGKPIRTPDAGAYWRVVEEYGVNALFCAPTAMRAIRKEDPQGELLRRYDQRSLKQLFLAGEKLDSSTHQWLEALTGKPVHDHWWQTETGWPVTAPCTGMEDFAARAGSSNRAVPGYDVQVLDDEGKPLGPNQQGAIVIALPLPPGCAQTLWNNHERYLDAYLRTYPGYYHTGDGGYLDDEGFVYIMGRTDDVINVSGHRLSTGEMEDLVARHPAVAECAVVGVHDELKGQVPLGLVVLKDGAGIAADRLQSELVATVREQIGALACFQKVAVVKRLPKTRSGKILRAVLRKIADDEAYSVPPTIDDPAILDEIAEVLRAFKVPAGMSSVAR	PGPT0002270_309	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PROPIONIC_ACID_BIOSYNTHESIS,PGPT0002270-prpE-K01908	NA	NA
BMS010_03533	177			hypothetical protein	ATGAAGATTCTCGTCCAGCCGCTCTCACCCGCACCGAACAGCCCCTGGCAGGTCCGTATCGACCAGCATAGCGTGCGCTTTTCCAGCGAAACCGAAGCCCGGCGCTTCGTCGCCACCCTGGAGGCACGCCTGCAGGCTCCGCACCCCTGGCCTGCGCCGCACCGCGAAGCGGGATGA	MKILVQPLSPAPNSPWQVRIDQHSVRFSSETEARRFVATLEARLQAPHPWPAPHREAG				NA	NA	NA	NA	NA
BMS010_03534	267			hypothetical protein	ATGCGCAAACTGCTGCTGCTCTCCCTCGCTCTGTCCAGCCCCCTGGCCTTCGCCGGCCCCGAATGCACCAAAGCCGATAAAGCCGAGTGGCAGGACCAGGCCAAGTTCCAGGAAGACCTCAAGGCGCAAGGCTACGAGATCAAGAAGTTCAAGGTCACCGGCGGCAACTGCTACGAGATCTACGGCTGGGACAAGGACAAGCGCAAGGTCGAGATCTACTTCGATCCGGTCAGCGGCAAGGCCGTGAAGGAAGAGATCGAGGACTGA	MRKLLLLSLALSSPLAFAGPECTKADKAEWQDQAKFQEDLKAQGYEIKKFKVTGGNCYEIYGWDKDKRKVEIYFDPVSGKAVKEEIED				NA	NA	NA	NA	NA
BMS010_03535	531			hypothetical protein	GTGAGCCGTGAAACCCTGCGCCTGTGGGACCCGCTGGTACGCCTGTGTCACTGGTCCTTCGCCGGTGCCTTCATCGCCAACTACTTCTTCACCGAAGAAGGCGACGACTGGCACAACTGGATCGGCTACTACGCCGTGGCCTGCCTGGTGGTGCGGCTGGTGTGGGGTTTCGTCGGTTCGCCGGCGGCGCGCTGGTCGGACTTCTGGCCGACTCCGGCGCGCCTTGCCGAACATGCCCGGGCGCTGCTCACCGGGCGCCCCTATCATCGCCTCGGACATTCGCCCATCGGCGGCCTGGTGATGATCCTGATGATGCTGCTGCTCCTCGGACTCGGCGTCACCGGCTTCCTGATGCAGGAAGTCGATTACTTCTGGGGCGAAGACCTGCCGCTGGAGATCCACGCCTTCTTCGCCAACACGCTGCTGGCGCTGGTCTGCGTACATCTGGCCGCCGCCCTCTACGAAAGCATCCGTCTGCGGGAAAACCTGCCGCTGTCGATGATCACCGGCAAGCGCCGCCGCCTGGATTGA	MSRETLRLWDPLVRLCHWSFAGAFIANYFFTEEGDDWHNWIGYYAVACLVVRLVWGFVGSPAARWSDFWPTPARLAEHARALLTGRPYHRLGHSPIGGLVMILMMLLLLGLGVTGFLMQEVDYFWGEDLPLEIHAFFANTLLALVCVHLAAALYESIRLRENLPLSMITGKRRRLD				NA	NA	NA	NA	NA
BMS010_03536	948		COG1816	Adenine deaminase	ATGTACGACTGGCTCAACGCCCTGCCCAAGGCCGAACTGCACCTGCACCTGGAAGGCTCGCTGGAGCCCGAGCTGCTGTTCGCCCTGGCCGAGCGCAATGGCATCGCCCTGCCCTGGCCGGACGTGGACAGCCTGCGCAGCGCCTATGCCTTCAACAACCTGCAGGAGTTCCTCGACCTCTACTACCGGGGCGCGGACGTGCTGCGTACCGAACAGGATTTCTACGACCTGACCTGGGCCTACCTGCAGAAGTGCAAGGCGCAGAACGTCATCCACACCGAACCCTTCTTCGACCCGCAGACCCACACCGACCGGGGCATCCCCTTCGAGGTGGTGCTGACCGGTATCAGCCAGGCGCTCAAGGACGGCCGCGAGCGCCTCGGCATCAGCAGCGGGCTGATCCTCAGCTTCCTTCGCCATCTCAGCGAAGAGGAGGCGCAGAAAACCCTCGACCAGGCGCTGGTCTACCGTAACGCCTTCATTGCCGTCGGCCTGGACAGCTCGGAGAAAGGCCATCCGCCGAGCAAGTTCCAGCGCGTCTTCGACCGCGCCCGCGCGGAAGGCTTCCTCACCGTCGCCCATGCCGGCGAGGAAGGCCCGCCGGCGTACATCTGGGAGGCCCTGGACCTGCTCAAGGTCAGCCGCATCGACCACGGCGTGCGCGCGGCGGAAGACCCCAGGCTGCTCGACCGGCTGATCGAGGAGCAAATCCCGCTGACCGTCTGCCCGCTGTCCAACGTAAAGCTCTGCGTGTTCGAGGACATGTCCCGGCACAACATCCTCGAGCTGCTGGAAATGGGCGTGAAGGTGACGGTGAATTCGGACGACCCGGCGTACTTCGGCGGCTATGTCACGGAGAACTTCGCCGCCCTGCATGAGAGCCTGGGCATGAGCCAGGACCAGGCCAGGCGGCTGACACAGAACAGCCTGGATGCGCGCCTGGTTTGA	MYDWLNALPKAELHLHLEGSLEPELLFALAERNGIALPWPDVDSLRSAYAFNNLQEFLDLYYRGADVLRTEQDFYDLTWAYLQKCKAQNVIHTEPFFDPQTHTDRGIPFEVVLTGISQALKDGRERLGISSGLILSFLRHLSEEEAQKTLDQALVYRNAFIAVGLDSSEKGHPPSKFQRVFDRARAEGFLTVAHAGEEGPPAYIWEALDLLKVSRIDHGVRAAEDPRLLDRLIEEQIPLTVCPLSNVKLCVFEDMSRHNILELLEMGVKVTVNSDDPAYFGGYVTENFAALHESLGMSQDQARRLTQNSLDARLV	PGPT0021695_865	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021695-ade-K21053	NA	NA
BMS010_03537	1086	chaA_2	COG0387	Sodium-potassium/proton antiporter ChaA	ATGCTGGCCCTACTGAAACAGGAGCGCTTCCTGCTGATCGCCCTCGCCGTGGCGCTGCTCGTCTATCCGCTCGAACACAGCCTGCTGGCGGCGGGGCGAATGGCCGCCCTGGTCACTGCCGGCGTGCTGGTACTGACCATCGTCCTGGCGTCCATGCGCGTCGCCCATCACGCGGAGATTCTTGCCGAGAAGGTCGGCGACCCCTACGGCAGCATGATCCTCACCCTCTCGGCGGTGCTGGTGGAAGTGGTGATCCTCGGCATCATGATCAGCCATGCGCCTTCGCCGACGTTGGTGCGCGACACCATCTACGCGGCGGTCATGCTCGACCTCAATGGCATCCTCGGCCTGGCCGCGCTGATCGGCGGCTTCAAGCACGGCGAGCAGCCGTACAACAACGACTCCGGGCGCACCTACGTGGTGATGATCCTCACCGCCATGGGCATCTCCATGGTGGTTCCGGAGTTCATTCCGCGTCGGCACTGGGAGGCGTACTCGGTGTTCACCATCGGCGCCATGCTGATGCTTTACGGCGTGTTCCTGCGCATGCAGGTGGGGCCGCACAGTTACTTTTTCAGCTACAGCTACCCGGAGAAGAAGAAAAAGACCGTGACCGCACCGCGCCACGAGGGCAGTCGCGGCCAGTCCATCGCCCTGCTGGTGGCGGGCATCGTGCTCATCGGCGCGCTGGCCGAGGTGATGTCCAAATCCCTCGACGCCGGCCTGGAAGGCGCCGCCGCCCCACCGGTGCTGGCGGCCATCCTGGTGGCGGCGATCTCCGCCAGCCCGGAAATCCTCACCGCCCTGCGCGCGGCCCTGGCCAACCGCATGCAGTCGGTGGTCAACATCGCCCTCGGCGCCTCGCTGTCCACCGTGATCCTCACCGTGCCGGTGATGGAAGGCCTGGCCCTCTATAGCGGCCAGCCGTTCCAGATGGCGATGAGCTCGGTGCAGACGGTGATGGTTTTCATCACCCTGGTCGTCGCGGCGATCAACCTCGGCGATGGCGAAACCAACGCCATCGAGGGGATGACCCACTTCGTGCTGTTCGCCACCTTCGTCATGCTGTCGTGCCTGGGGCTATAG	MLALLKQERFLLIALAVALLVYPLEHSLLAAGRMAALVTAGVLVLTIVLASMRVAHHAEILAEKVGDPYGSMILTLSAVLVEVVILGIMISHAPSPTLVRDTIYAAVMLDLNGILGLAALIGGFKHGEQPYNNDSGRTYVVMILTAMGISMVVPEFIPRRHWEAYSVFTIGAMLMLYGVFLRMQVGPHSYFFSYSYPEKKKKTVTAPRHEGSRGQSIALLVAGIVLIGALAEVMSKSLDAGLEGAAAPPVLAAILVAAISASPEILTALRAALANRMQSVVNIALGASLSTVILTVPVMEGLALYSGQPFQMAMSSVQTVMVFITLVVAAINLGDGETNAIEGMTHFVLFATFVMLSCLGL	PGPT0013985_2048	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013985-chaA-K07300	NA	NA
BMS010_03538	684			hypothetical protein	ATGACAGACACCAAGACGGCTCTGGTGGTCGGAGCCTCCCGAGGGCTCGGCCTGGGCCTGGTCAAGCAGCTGAGCGCCGAGGGCTGGCAAGTGGTCGCCACAGTGCGCGAGCCGCAGCGGGCCAGCCAACTCACCGCGATCGCCGGCGTGCGCATCGAGAAACTGGACATGAACGACCGCGTGTCGCTGGAGGCCCTGGCGCAGAACCTGGCCGGCACCTCCCTGGACCTGCTGTTCATCAACGCCGGCGTGTCCGGCCCGGCGCACCAGTCGGCCAGCCAGGCCACGACGGCCGAAGTGGCGGACCTGTTCATGACCAACGCGGTGGCGCCGATACGCCTCGCGGAGCGGCTGGTCGAGCGGGTGGAGCCGACCAACGGCGTGCTGGTTTTCATGACCTCGGCCCTCGGCAGCGTCGGCGCCCACGCCGGCGATCTGCCGCTGTACAGCGCCAGCAAGGCCGCGCTCAACTCGCTGACGCGCAGTTTCGTCCTGGCGCTGGGCGAGACGCCGCTGACCGTGCTGTCGATGCACCCCGGCTGGGTACGTACCGACATGGGTGGCGAGGAAGCGCCGCTGGACGTGGAGACCAGTTGCCGCGGTATGGTGCAACAGATCGCCCGCGCCCGCGGGACCGGCGGTCATCGCTATATCGATTACCAGGGCGAGAGCATTCCCTGGTGA	MTDTKTALVVGASRGLGLGLVKQLSAEGWQVVATVREPQRASQLTAIAGVRIEKLDMNDRVSLEALAQNLAGTSLDLLFINAGVSGPAHQSASQATTAEVADLFMTNAVAPIRLAERLVERVEPTNGVLVFMTSALGSVGAHAGDLPLYSASKAALNSLTRSFVLALGETPLTVLSMHPGWVRTDMGGEEAPLDVETSCRGMVQQIARARGTGGHRYIDYQGESIPW				NA	NA	NA	NA	NA
BMS010_03539	732	alyA_2		Alginate lyase	ATGAAACCGTTCAAACCGATGCTGCCGCTGTGCCTGTTCTGGCTGCCTGCCTCTCTCTGGGCGGCCCCCTATAACCCCGCCATGTGGAACCTGACCGTGCCGGTGAAGAACGCCGAAGGTTTCGCCGCTACCATCGACACGCCAAGCCTGCCCGGGTACAGCTCCGAGTATTTCAGTGCCAACGACGAACGCATCCAGTTCTGGGCACCGGTGACCGGCGCCACCACCGACAGCAGCGGTTTCCCCCGTTCGGAACTGCGCGAAGCCTACAAGGACGGCCGGTTGCGCAACTGGAACTACCGGGATGCGGTGAACACGCTGGAGGCCCGGGTATCCGTCGAGCAGATCCCGAGCAGCGGGCGCATCGCCATCGGCCAGATCCATGTCTTTCAACGCAGCACGCCGCTGCTGATCGTTTACTACAACAAGGGCGACATCGAAGCGCGGGTGCGCCCGGTGTTCGGCAAGACGCCGAACGAGCCGGTGCTGCTGGTGAGCAAGGTGCCCCTGGGCAAGCGCTTCAGCTACAAGGCGGTGCTGGACAGGAAAGGCAAGCTGACCGTCAGCGCCAGCTATGGCGACAAGTCATCCAGCCTGAACCTGCCCATCGATTCGAGTTGGGCGTCGCAATCGCTCTATTTCAAGGCCGGGTCCTACGTGCAGGACAATTCGGGGGCGTCCAGCGAAGGCGGGCGGGTGAGTTTCTACTCGCTGAAGGCTTCGCATTTGTGA	MKPFKPMLPLCLFWLPASLWAAPYNPAMWNLTVPVKNAEGFAATIDTPSLPGYSSEYFSANDERIQFWAPVTGATTDSSGFPRSELREAYKDGRLRNWNYRDAVNTLEARVSVEQIPSSGRIAIGQIHVFQRSTPLLIVYYNKGDIEARVRPVFGKTPNEPVLLVSKVPLGKRFSYKAVLDRKGKLTVSASYGDKSSSLNLPIDSSWASQSLYFKAGSYVQDNSGASSEGGRVSFYSLKASHL	PGPT0019417_607	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_ALGINATE_DEGRADATION,PGPT0019417-putative_alginate_lyase_2-NA	NA	NA
BMS010_03540	585	yigZ_2	COG1739	IMPACT family member YigZ	ATGGCCGTCACCCTCGCCGCTCCCGCCGATTACCGCGAAGAGATTCGCAAGAGCCGCTTCCTCGCCCAGGCCGCTGCCGTGGCCAGCCCCGAGGAGGCCCAAGCGTTCATCGCCCGCGTCAGCGATCCCGCCGCGACGCATAACTGCTGGGCCTGGAAAATCGGCACCCAATACCGCTTCAACGACGATGGCGAACCCGGCGGCACCGCCGGACGGCCGATCCTGGCCGCCATCGAAGGGCAGGGTTTCGACCAGGTGGCCGTGGTGGTTACCCGCTGGTACGGCGGCATCCAGCTCGGCACCGGCGGCTTGGCCCGCGCCTACGGCGGCAGCGCCGCGAAGTGCTTGCAGGGTGGCGCGGCGGTGGAACTGGTACAGCGCACGCGCTGCGCCTGCCACTGCGGATTCGCCGAGCTGGCCCTGTTGAAATCCCGTCTCGCCGACTTCGAGGCCCTGATCGAATCGGAAACCTTCGACGCCGACGGCGCCCGGCTCACCCTGGCGCTCCCGGATCGGCACGTCTCCGGCCTGGAGCGATTGTTGGCCGACATCAGTCGTGGACGGGAGCAGCTGCGGCGGTTGTAG	MAVTLAAPADYREEIRKSRFLAQAAAVASPEEAQAFIARVSDPAATHNCWAWKIGTQYRFNDDGEPGGTAGRPILAAIEGQGFDQVAVVVTRWYGGIQLGTGGLARAYGGSAAKCLQGGAAVELVQRTRCACHCGFAELALLKSRLADFEALIESETFDADGARLTLALPDRHVSGLERLLADISRGREQLRRL				NA	NA	NA	NA	NA
BMS010_03541	663	rutR_2	COG1309	HTH-type transcriptional regulator RutR	ATGACCGTAGAAGTGCCCGCGAAGACCCTTCCCGCCAGCAAGCCCGCCGGCCGCATCCGCCAGAAGAACGAAGAAGCCATTCTTGCCGCTGCCACCGAGGAGTTCGCCCGCCACGGTTTCAAAGGCACCAGCATGAACACCATCGCCCTGCGCGTGGGGCTGCCCAAGGCCAATCTGCATTACTACTTCAACAACAAACTGGGCCTCTACGTCGAGGTGATGCGCAACATCCTCGATCTCTGGGACAGCGCCTTCAGCCACCTGAACGTCGACAGCGACCCCGCCGAAGCCCTGGCGAATTACATTCGCGCCAAGATGGAATTCTCCCGCCGCCAGCCGCTGGCCTCGAAGCTCTTCGCCATGGAAGTCATCAGCGGCGGCGAATGCCTGTCCGAGCATTTCAGCCAGGACTACCGCGACTGGTTCCGCGGCCGCGCCGCGGTGTTCGAGGCCTGGATTGCCGCCGGCAAGATGGACCCCATCGACCCGGTGCACCTGATTTTCCTGCTCTGGGGCAGCACCCAGCATTACGCCGACTTCTCCAGCCAGATCTGCCGCCTGACCGGCCGCAAGAAGCTGACCAAGGAAGACTTCGCCGTCGCCACGGACAATCTGATTCATATCATCCTCAAGGGCTGCGGGCTGACGCCCCCGGCCAAGTAA	MTVEVPAKTLPASKPAGRIRQKNEEAILAAATEEFARHGFKGTSMNTIALRVGLPKANLHYYFNNKLGLYVEVMRNILDLWDSAFSHLNVDSDPAEALANYIRAKMEFSRRQPLASKLFAMEVISGGECLSEHFSQDYRDWFRGRAAVFEAWIAAGKMDPIDPVHLIFLLWGSTQHYADFSSQICRLTGRKKLTKEDFAVATDNLIHIILKGCGLTPPAK				NA	NA	NA	NA	NA
BMS010_03543	921	metR_1		HTH-type transcriptional regulator MetR	ATGAGCACGCGCCGCGCCGATCCCCTGGCCCAGGTCAGCGATTTCGATATCCGCCTGCTGAAGCTGTTCCGCACAGTGGTGGACTGCGGAGGCTTTTCCGCCGCCGAGAGTGTGCTGGGCATCGGCCGCTCGGCCATCAGCCAGCAAATGAGCGACCTGGAGCAGCGCGTCGGCCTGCGCCTGTGCCAGCGCGGGCGGGCCGGCTTCGCCCTGACCGAGGAAGGCCGCGAGGTGTACCAGGCCTCGCAGCAGTTGCTCAGTGCGCTGGAGACCTTCCGTACCGAAGTGAACGGCCTGCACCGGCAACTGCGCGGGGAGCTGAATATCGGCCTCACCGACAACCTGGTGACCGTGCCGCACATGCGCATCACCCATGCCCTGGCGCGGCTGAAGGAGCGTGGGCCGGAAGTGCGCATCCAGATCCGCATGATCCCACCCAGCGAAGTGGAACAGGGGGTGCTCGACGGCCGTCTGCATGTCGGCGTAGTGCCGCAGGCGGGGGCGCTGTCCGGGCTGGAATACGCACCGCTGTACGACGAGCGCTCGCAGCTCTACTGCGCGGTAGGCCATCCGCTGTTCTATGCGGACGAAACGCAGCTCAATGACGAGCGCCTGAACAGCCAGGACGCCATCGCTCCAACCTTCCGCCTGCCGGCGGAGATCCAGGCCCATTACCAGGCGCTGAACTGCACGGCCAGCGCCTCGGACCGCGAGGGCATGGCCTTCCTGATCCTCACCGGGCGTTACATCGGCTACCTGCCGGATCACTATGCCCGCCAATGGGTGCAGGAAGGCCGCCTGCGCGCGCTGAAGTCGGCGACGCGTTTCTATGATCTCAGCCTGGCCTCGGTGACCCGCAAGGGGCGGCGGCCACATCTGGTGCTGGAGAGCTTTCTGGAGGCGCTGGCGGAGACGGGGTGA	MSTRRADPLAQVSDFDIRLLKLFRTVVDCGGFSAAESVLGIGRSAISQQMSDLEQRVGLRLCQRGRAGFALTEEGREVYQASQQLLSALETFRTEVNGLHRQLRGELNIGLTDNLVTVPHMRITHALARLKERGPEVRIQIRMIPPSEVEQGVLDGRLHVGVVPQAGALSGLEYAPLYDERSQLYCAVGHPLFYADETQLNDERLNSQDAIAPTFRLPAEIQAHYQALNCTASASDREGMAFLILTGRYIGYLPDHYARQWVQEGRLRALKSATRFYDLSLASVTRKGRRPHLVLESFLEALAETG	PGPT0003120_497	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ACINETOBACTIN_METABOLISM,PGPT0003120-bauR-K21699	NA	NA
BMS010_03544	1347	bauA_1	COG0161	Beta-alanine--pyruvate aminotransferase	ATGAACATGCCGCAGACCAACGCCCAGTCGATCGCCAGCCAACTCAAGCTGGATGCCCACTGGATGCCCTTCACCGCCAACCGCGCCTTCCAGCGCGACCCGCGGATCATCGTCGGCGCCGAAGGCAGCTGGCTGATCGACGACCAGGGCCGGCGCGTCTACGACAGCCTCTCCGGCCTGTGGACCTGCGGCGCCGGGCACAGCCGCAAGGAAATCCAGGAGGCCGTGGCCAAGCAGCTCGGCACCCTCGACTACGCCCCGGCCTTCCAATATGGCCACCCGCTGTCCTTCAAGCTCGCCGAGAAGATCGCCGACCTTCTGCCGGGCGACCTGAACCATGTGTTCTTTACCGATTCCGGCTCCGAATGTGCCGACACCGCCATCAAGATGGCCCGTGCCTACTGGCGCCTGAAAGGCCAGCCGGCGAAGACCAAGCTGATCGGCCGCGCCCGTGGCTACCATGGGGTCAACGTCGCCGGCACGTCCCTCGGTGGCATTGGCGGCAACCGCAAGATGTTCGGCGCGTTGATGGACGTCGACCACCTGCCGCACACCCTGCAACCGGGCCTGGCCTTCACCAAGGGCATGGCCGAGACCGGCGGCGTGGAGCTGGCCAACGAGTTGCTCAAGCTGATCGAGTTGCACGACGCTTCCAACATCGCCGCGGTGATCGTCGAGCCCATGTCCGGCTCCGCTGGCGTCATCGTGCCGCCCAAGGGCTACCTGCAGCGCCTGCGCGAGATTTGCGACCAGCACAACATCCTGCTGATCTTCGACGAAGTGATCACCGGTTTCGGCCGCATGGGCGCCTACAGCGGCGCGGAATACTTCGGCGTCGTCCCGGACCTGCTCAACGTCGCCAAGCAGATCACCAACGGCGCCATCCCCATGGGTGCGGTGATCGCCAGCCGCGAGATCTACCAGACCTTCATGAACCAGGCGACGCCGGACTACGCGGTGGAATTCACCCACGGCTACACCTACTCCGCCCACCCCGTGGCTTGCGCCGCCGGCCTCGCCGCGCTGGAGCTGCTGGAGAAGGACAACCTCGTACAACAGTCCGCCGCCCTGGCCCCACACTTCGAGAAGGCCATCCACGGCCTGAAGGGCGCCAAGCACGTGGTCGATATCCGCAACTGCGGCCTGGCCGGCGCCCTCCAACTCGCCCCGCGCGACGGCGACGCCATCGTCCGCCCCTACGAGGCCGGCATCGCCTTGTGGAAGGCCGGCTTCTACGTGCGCTTCGGCGGCGACACCCTGCAGTTCGGCCCGACCTTCAACGCCAAGCCGGAAGACCTCGACCGTGTGTTCGATGCGGTGGGGGAGGTGTTGAACGGGTTGAGTTGA	MNMPQTNAQSIASQLKLDAHWMPFTANRAFQRDPRIIVGAEGSWLIDDQGRRVYDSLSGLWTCGAGHSRKEIQEAVAKQLGTLDYAPAFQYGHPLSFKLAEKIADLLPGDLNHVFFTDSGSECADTAIKMARAYWRLKGQPAKTKLIGRARGYHGVNVAGTSLGGIGGNRKMFGALMDVDHLPHTLQPGLAFTKGMAETGGVELANELLKLIELHDASNIAAVIVEPMSGSAGVIVPPKGYLQRLREICDQHNILLIFDEVITGFGRMGAYSGAEYFGVVPDLLNVAKQITNGAIPMGAVIASREIYQTFMNQATPDYAVEFTHGYTYSAHPVACAAGLAALELLEKDNLVQQSAALAPHFEKAIHGLKGAKHVVDIRNCGLAGALQLAPRDGDAIVRPYEAGIALWKAGFYVRFGGDTLQFGPTFNAKPEDLDRVFDAVGEVLNGLS				NA	NA	NA	NA	NA
BMS010_03545	1497	bauC_3	COG1012	Putative 3-oxopropanoate dehydrogenase	ATGTCCCAGATTCCGCACCTGATCCACGGCGAACGCATCCCCGGCAGCGGCCGCCATGCCGACGTCTACAACCCGTCCACCGGGCTGGCGATCCACCAGGTCGCCCTGGCAGATCGCGCCACCGTCCAGCAGGCCATCGACTCGGCCAAATCTGCCTTCCCGGCCTGGCGCAACACCCCGCCGGCCAAGCGCGCCCAGGTCATGTTCCGCTTCAAGCAACTGCTGGAGCAGAACGAAGCGCAAATCGCCCGATTGATCAGCGAAGAACACGGCAAGACCCTCGAAGACGCGGCCGGCGAGCTCAAGCGCGGCATCGAAAACGTCGAATACGCCTGCGGCGTGCCGGAACTGCTCAAGGGCGAATACAACCGCAACGTCGGCCCCAACATCGACGCCTGGAGCGACTTCCAACCGCTGGGCATCGTCGCCGGGATCACCCCGTTCAACTTTCCGGCCATGGTCCCGCTGTGGATGTACCCGCTGGCTATCGCCTGCGGGAACTGCTTCATCCTCAAGCCGTCCGAGCGCGACCCCAGCTCCACCCTGCTCATCGCCGAACTGTTGCACCAGGCCGGCCTGCCCAAGGGCGTGCTCAACGTCGTGCACGGCGACAAGGAAGCGGTGGACGCGCTGATCGAAGCGCCGGAGGTCAAGGCCCTCAGCTTCGTCGGTTCCACCCCCATCGCCGAATATATCTATGCCGAGGGCGCCAAGCGCGGCAAGCGCGTCCAGGCCCTGGGCGGTGCCAAGAACCACGCCGTGCTGATGCCCGACGCCGACCTGGACAACGCCGTCAGCGCGCTGATGGGCGCGGCCTACGGCTCCTGTGGCGAGCGCTGCATGGCCATCTCCGTGGCCGTGTGCGTCGGCGACCAGATCGCCGACGCGCTGGTCGAGAAAATCGTGCCGCAAATCCAGGCCCTGAGAGTCGGCGCCGGCACCTGCAACGGCCTGGACATGGGCCCGCTGGTCACCGCCGCCGCCCGCGACAAGGTGGTCGGCTACATCGACGACGGCGTTGCCGCCGGCGCGAAGCTGGTGGTGGACGGCCGCGGCTACCGCGTCGCCGGTCATGAAGATGGCTACTTCGTCGGCGGTACCCTGTTCGACCGCGTGACCCCGGACATGCGCATCTACCAGGAGGAAATCTTCGGCCCGGTGCTCTGCATCGTCCGCGTCGACAGCCTCGAACAGGCCATGCAGTTGATCAACGACCACGAATACGGCAACGGCACTTGCCTCTTCACCCGCGATGGCGAAGCGGCCCGGCTGTTCTGCGACGAAATCGAAGTCGGCATGGTCGGCATCAACGTCCCTCTGCCGGTACCGGTGGCCTACCACAGCTTCGGCGGCTGGAAGCGCTCCCTGTTCGGCGACCTCCACGCCTACGGCCCGGACGGCGTGCGCTTCTACACCCGCCGCAAGGCCATCACCCAACGCTGGCCACAACGCGCCAGCCATGAGGCGGCGCAGTTCGCATTTCCGAGTAATGGTTGA	MSQIPHLIHGERIPGSGRHADVYNPSTGLAIHQVALADRATVQQAIDSAKSAFPAWRNTPPAKRAQVMFRFKQLLEQNEAQIARLISEEHGKTLEDAAGELKRGIENVEYACGVPELLKGEYNRNVGPNIDAWSDFQPLGIVAGITPFNFPAMVPLWMYPLAIACGNCFILKPSERDPSSTLLIAELLHQAGLPKGVLNVVHGDKEAVDALIEAPEVKALSFVGSTPIAEYIYAEGAKRGKRVQALGGAKNHAVLMPDADLDNAVSALMGAAYGSCGERCMAISVAVCVGDQIADALVEKIVPQIQALRVGAGTCNGLDMGPLVTAAARDKVVGYIDDGVAAGAKLVVDGRGYRVAGHEDGYFVGGTLFDRVTPDMRIYQEEIFGPVLCIVRVDSLEQAMQLINDHEYGNGTCLFTRDGEAARLFCDEIEVGMVGINVPLPVPVAYHSFGGWKRSLFGDLHAYGPDGVRFYTRRKAITQRWPQRASHEAAQFAFPSNG	PGPT0002295_2811	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0002295-mmsA|iolA-K00140	NA	NA
BMS010_03546	558			hypothetical protein	ATGCGTCACCTGCTCTGCCTTTCCCTGTTCGCCCTTGTCCTTACCGGCTGTGCTTCATCGGCCAATATCGGTGGCATGACCGTGGCGGACACCCAGGCCCAAAGCCAAACCTATTCCCCGGCACTGAAAGAGAACGTCCAGGTCAGCGACGTGGAAGGCGGGAAGAAAACCAATCCGATGTGGACCTCCGAGATCGACGGGCCGGACTTCAAGGCCGCGCTGTCGGATTCGCTGGACAAGGCGGGCCTGCTGAGCGCTGCCGGCAACGCTCCCTACACGCTCAAGGCCAAGCTGGTGCGCGTCGACCAGCCGCTGTTCGGCATGGATTTCAAGGTCACCAGCGATGTCGAGTACAGCCTGGTCGATAACGCCAGCGGCAAGGAAATATTCCGCGAAATCCTCAGCACACCGTACACCGCCACGGTCAGCGATGCCTTCGTCGGTGTCACCCGCTTGCGCCTGGCCAACGAGGGTTCGGCTCGCGAAAACATCGCCGCGCTGCTCAAGCGTCTCAGCGCGCTGAACATCGAGGCCGGTCAGGTTTCGCTGAAGCAATAA	MRHLLCLSLFALVLTGCASSANIGGMTVADTQAQSQTYSPALKENVQVSDVEGGKKTNPMWTSEIDGPDFKAALSDSLDKAGLLSAAGNAPYTLKAKLVRVDQPLFGMDFKVTSDVEYSLVDNASGKEIFREILSTPYTATVSDAFVGVTRLRLANEGSARENIAALLKRLSALNIEAGQVSLKQ				NA	NA	NA	NA	NA
BMS010_03547	420			hypothetical protein	ATGAACACTGCCAGCATCGCCGATTTCATGACCAAGGATTTCGCCACCATCCGCCCCGACATGCCGGTCGTGCAGGCGGCGCGCAGGTTGGCGCGCTACCGCATTCTCGGTGGGCCGGTGGTCGATACGGAGGGCCGGTTGCTGGGCTGGATTTCCGAGCAGGAGTGTCTGCAAGTGGCTATCCAGGTGGCCTACTACAACCAGCGCGTGGCCACGGTGCGCGACATCATGCGCACCGATGTGCTCAGTGTGACGCCTGAAACCGACCCGATGACCTTGGCGCAGCAGATGCTCGGCGACAAACCGAAGAGCTACCCGGTGGTGGAGGCCGGCGGCAAGGTGATCGGTGTGATCACCCGTCGGCATATCCTCAAGTTGCTCGATAAACTGATGACCCCGGCGCTTTCCCGCTCGGCTTGA	MNTASIADFMTKDFATIRPDMPVVQAARRLARYRILGGPVVDTEGRLLGWISEQECLQVAIQVAYYNQRVATVRDIMRTDVLSVTPETDPMTLAQQMLGDKPKSYPVVEAGGKVIGVITRRHILKLLDKLMTPALSRSA				NA	NA	NA	NA	NA
BMS010_03548	342			hypothetical protein	GTGAGCACTCTGCCGCCCTGCCCGAAATGCAACTCCGAATACACCTATGAAGACGGCACCATGCTCATCTGTCCCGAGTGCGCTCACGAGTGGTCCGCCACTGCTGCCGAAGCCGCTCCGGAAGGCGACAAGGTGATCAAGGATTCCGTCGGCAACGTCCTGCAGGACGGCGATACCGTCACCGTGATCAAGGACCTCAAGGTCAAGGGCTCGTCCCTGGTGGTGAAGGTCGGCACCAAGGTAAAGAACATCCGCCTGGTCGACGGCGACCATGACATCGACTGCAAGATCGACGGCATTGGTGCGATGAAGCTGAAGTCGGAGTTCGTGAAGAAGGTGTGA	MSTLPPCPKCNSEYTYEDGTMLICPECAHEWSATAAEAAPEGDKVIKDSVGNVLQDGDTVTVIKDLKVKGSSLVVKVGTKVKNIRLVDGDHDIDCKIDGIGAMKLKSEFVKKV	PGPT0030500_750	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030500-phnA|yjdM-K06193
BMS010_03549	300			hypothetical protein	ATGCTCAACGCACCCATCCTCGAAGTGGCCCTGTTCAAGGTGAAATCAGGCCATGAACGACGTATTCCCGAACTGCGCGCCGGCTTGCGCAAGGCCCTCGAAGACTTCCCCGGATTGCTGGCGTTCTACGGCTACCTGCCACTGGAGCGGCAGGGCGTGTTCCTCGACATCGCCGAATGGGACAGCCTCGAACACGCCCAGGCTGCGGCGGACGCCTTCTCCTCGGGCGACCCGCGCTTCCAGCCGTATATGGAGGCCATCGAGTCGCTGACCTTCATGGGGCATTTTCGGCCGGAGTGA	MLNAPILEVALFKVKSGHERRIPELRAGLRKALEDFPGLLAFYGYLPLERQGVFLDIAEWDSLEHAQAAADAFSSGDPRFQPYMEAIESLTFMGHFRPE				NA	NA	NA	NA	NA
BMS010_03550	2487	gcd_2	COG4993	Quinoprotein glucose dehydrogenase	ATGAACGCAGAACTCCTCTCTCCCCGTGCCACGGGGCCGGGCAAGGTCCTGGGCATTCTCTTCGTGCTGTTCGGCGTGTTGCTGCTGGCCGGTGGCATCAAGCTGGCGATGCTGGGGGGCTCGCTCTACTACCTGATCGCCGGTGTCGCCCTGGTGCTGTGCGGCATTCTGCTGTTCCTCGGCCACGCGGCGGCGATCTGGCTGTATGCCTTGTTCCTCTTCGGCTCGACGCTCTGGGCGCTCTACGAGGTGCGGCTCGACTGGTGGCAATTGGTGCCGCGCCTGGCGTTGTGGTTCGCTCTCGGATTGCTTCTGCTGCTGCCGGTGTTTCGGGGAATCTCGCGTTTCACCGGGGCAGGCTGGGGCCTGGCCAGTGCGGTGGTGATCGCTGGGCTGGTGGCGCTGGCCAGCCTGTTCACCCATCCCGGACGGATCGAAGGCGCATTGGAGCGCGAGGTCGCCGCCGTGGAAAGCATGGCGCCGCCCATCGAACCGGGCGACTGGCCGTCCTACGGACGCAGTCCTTTTGGCGACCGTTATTCGCCGCTGGACCAGATCACCCCGGAAAACGCCGGCGACCTGGAACTGGCCTGGAGTTACCGCACCGGCGACGTCCCCGGCCCCGGCGACCCGCAGGAAACCACGGCGGAGAACACCCCGCTGAAGGCCAACGGCATGCTCTACGTGTGCACGCCGCACAGCCAAGTGATCGCACTGGACCCGGATACCGGCAAGGAAATCTGGCGCTTCGATCCCAAGCTCAGCACCCAGGATGCCGACAGCTTCAAGGGTTGGGCACACATGACCTGCCGGGGCGTGGCCTATCACGACGAGGCGACCTACGCCGGCCAGCCTGCCGCCACACCGACCCAGGTGCCGGCCGATGAAACCGCGCTGGCGGAGGGTGCTCCGGCTGCCGAACCCCCGACCGAGGCCGCACCGCCCGTGGCCGAGGCCCCCGCCCCGGCGCCGGTGGAGAATCCCTGCCCGCGCCGGCTGTTCCTGCCGACTGCGGACACCCGCCTGATCGCCATCAACGCTGACACCGGCAAGACCTGTCCGGACTTCGGCGACAACGGCTCGGTGGACCTCGCCACCGGCATCGGCGATTTCCAGCCCGGTGGCTACTACTCCACCTCGCCGCCGGCGGTGACCCGTGATCTGGTGATCATCGGCGGCCACGTGACCGACAACGTCTCCATCGACGAGCCGTCCGGGGTGATCCGTGCCTACGACGTGCGCAGCGGTCGCCTGGTGTGGAACTGGGACAGCGGCAACCCGGACGTCACCACGCCGCTGCCGGAAGGCCAGACCTACACCCGCAACTCGCCGAACATGTGGTCGATCATGAGCGTCGACGAGACGCTCGGCATGATCTACCTGCCCATGGGCAACCAGACCCCGGACCAGTGGGGTGGCAACCGCACGCCGGCCTCCGAGAAATACAGCGCCGGGGTCACCGCTCTGGACATCGCCACCGGGCAAGTGCGCTGGACCCGCCAGTTCGTCCACCACGACCTGTGGGACATGGATGTCGGCGGCCAACCGACCCTGATGGACCTGCAGACCGACCAGGGCACGCGGCCGGCGCTGCTGGCTTCCACCAAGCAGGGCAGCATCTACGTGCTGGACCGCAGCAACGGCGAGCCCATCGTGCCGATCCACGAGCGGCCGGTGCCGCAGGGCGCGGTGGAAGGTGACTTCACGGCACCGACCCAACCGTTCTCCGAACTGAGTTTCACGCCACCGGAACTGCGCGAAGCGGACATGTGGGGCGGCACCCCGTTCGACCAGATGCTCTGCCGAATCCAATTCCGTTCGCTGCGCTACGAGGGCATCTTCACCCCGCCGTCGCTACAGGGCTCGCTGGTCTACCCGGGTAATTTCGGGGTGTTCGACTGGGGCGGCATTTCCGTCGATCCGGTGCGCCAGATTGCCGTGCTCAACCCCAGCTACATGGCCTTCACCTCGCAATTGGTGCCGAGCGCGCAAGTGGAGGGCGGCCCGGAGCGCAAGAGCGAGACCGAGGGCGTGCAGCCCAACAAAGGCGCGCCCTACGGCGTGATCCTGCAGCCGCTGCTGTCGCCCCTCGGGCTGCCATGCCAGGCGCCGGCCTGGGGCTACGTGGCGGCGGTGGACCTGACCACCAACGAGACCCTCTGGATGCACAAGAACGGCACCGTGCGCGACAACGCGTCCATCCCGATGCCCCTGCCCATGGGCGTGCCGAGCCTGGGCGGGATGGTCACCACGGCCGGTGGCGTGGCCTTCCTCGGCGGGACGCTGGACCAGTTCCTGCGCGCCTATGACGTGCGCACCGGCGAGCAACTCTGGGAAGGCCGCCTGCCAGCCGGCGGCCAGGCCACGCCGATGACCTACACCGGCAAGGATGGCCGTCAGTACGTACTGATTGTCGCCGGCGGCCATGGCTCGCTGGGGACCCGCCAGGGGGACTATGTGATGGCGTATGCGTTGCCGAAGAAATAG	MNAELLSPRATGPGKVLGILFVLFGVLLLAGGIKLAMLGGSLYYLIAGVALVLCGILLFLGHAAAIWLYALFLFGSTLWALYEVRLDWWQLVPRLALWFALGLLLLLPVFRGISRFTGAGWGLASAVVIAGLVALASLFTHPGRIEGALEREVAAVESMAPPIEPGDWPSYGRSPFGDRYSPLDQITPENAGDLELAWSYRTGDVPGPGDPQETTAENTPLKANGMLYVCTPHSQVIALDPDTGKEIWRFDPKLSTQDADSFKGWAHMTCRGVAYHDEATYAGQPAATPTQVPADETALAEGAPAAEPPTEAAPPVAEAPAPAPVENPCPRRLFLPTADTRLIAINADTGKTCPDFGDNGSVDLATGIGDFQPGGYYSTSPPAVTRDLVIIGGHVTDNVSIDEPSGVIRAYDVRSGRLVWNWDSGNPDVTTPLPEGQTYTRNSPNMWSIMSVDETLGMIYLPMGNQTPDQWGGNRTPASEKYSAGVTALDIATGQVRWTRQFVHHDLWDMDVGGQPTLMDLQTDQGTRPALLASTKQGSIYVLDRSNGEPIVPIHERPVPQGAVEGDFTAPTQPFSELSFTPPELREADMWGGTPFDQMLCRIQFRSLRYEGIFTPPSLQGSLVYPGNFGVFDWGGISVDPVRQIAVLNPSYMAFTSQLVPSAQVEGGPERKSETEGVQPNKGAPYGVILQPLLSPLGLPCQAPAWGYVAAVDLTTNETLWMHKNGTVRDNASIPMPLPMGVPSLGGMVTTAGGVAFLGGTLDQFLRAYDVRTGEQLWEGRLPAGGQATPMTYTGKDGRQYVLIVAGGHGSLGTRQGDYVMAYALPKK	PGPT0001290_372	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION_D_GLUCONATE_BIOSYNTHESIS,PGPT0001290-gcd|gdhAB-K00117	NA	NA
BMS010_03551	144			hypothetical protein	ATGAAGCTGAAACTCCCTGCCACCCTTTTCGCCGCGCTACTGCTCGCCGGCTGCTTCGACAGCTCCGATGCGGACAAGAGTAGCGAATCCAGCCAGGAAAAGGCTTCCATCCAGATGCAGCAGAAAGACGACGCCGAGCAATAG	MKLKLPATLFAALLLAGCFDSSDADKSSESSQEKASIQMQQKDDAEQ				NA	NA	NA	NA	NA
BMS010_03552	522			hypothetical protein	ATGCCTTTCAATCGTATCCTCCCGCTCTGCCTGTTTTTCCTACCCTGCCTGGCCCCGGCCTCATCCGAAAGTGAACGCCTGCAAATCTTCGCCGCAGAACGCCTCAGCAATGCCCAAGCGGAAGCCGAAGCCCGCTACCTGCACTGCACCGCGCCCGACGCTCCCGTGCTGCCGGCCGACACCTTCAAGGGGCTGGAACTGAGCGATAAGGAGAAGAAGCTCGCCCTGCTCTACTTCAATGCCCGTGCGCGTCGAGCCTGCACCGAGCAGACAGACACCGCCCTGTTGGTGGCGAGCCAACTGGCGAGAGAGATCGGGCTGTCGGAGTACGCCAGGGCCGATGACCCGCATGCAGAACGGGTCGCCGCAACCCTTGCCGAGTTGTACAGCGAGCAGGAATACAAGGCACGCTACTGGGCCGTGCCGGAACCCAAACGGGAGAAGCTGGAACGGATCGAAGCACTGCAACAGCGTTTCAACCTCATCGAATCCGCACGGGCGGTCGGCCTGCCGCTACCGTAG	MPFNRILPLCLFFLPCLAPASSESERLQIFAAERLSNAQAEAEARYLHCTAPDAPVLPADTFKGLELSDKEKKLALLYFNARARRACTEQTDTALLVASQLAREIGLSEYARADDPHAERVAATLAELYSEQEYKARYWAVPEPKREKLERIEALQQRFNLIESARAVGLPLP				NA	NA	NA	NA	NA
BMS010_03553	489			hypothetical protein	ATGCAAGAAGCACTTACGCCCCTCGTTTTCCACCGCCACACCAATCCACTCCGCGCTGTGATGTTCGACGACCAACCCTGGTTCGTCGCCATCGACTTCGGCCGCCTGATCGGCGAGCGCCGTGCCGAACGCCTCTGCCGACGCATGGATGCCGACCAACTCCGCATGCTACGCCTGCGTCATACCGACGACAGCGAAGAAGACGTCCTGGCCCTAAGCGAATCCGGGCTCTACAAGACCCTGTTCCGCTTCCACCACCCAGAGCATCGGGCGCTGCGCCTGTGGCTCAACCGCGATGTGATCCCCCTCCTGCGCGACCACTACCGCGCCACCGGCAACCAGCCACGCCGCCGGCTCATGACCTGGGCCAATACCCGTGTCGGCGTGCTCGACTGGCAGGGCGAAATCTGGGTTCCGCTCAATGCCCTGCCCACCTTTGTCGCCTGCACTGATAAGCCCAAACGCCGCTGGCCTCGACTGCTGTCTTGA	MQEALTPLVFHRHTNPLRAVMFDDQPWFVAIDFGRLIGERRAERLCRRMDADQLRMLRLRHTDDSEEDVLALSESGLYKTLFRFHHPEHRALRLWLNRDVIPLLRDHYRATGNQPRRRLMTWANTRVGVLDWQGEIWVPLNALPTFVACTDKPKRRWPRLLS				NA	NA	NA	NA	NA
BMS010_03555	495			hypothetical protein	ATGCGGAAAACCGATATGTCCGTTCTTGCCCGCTCTCTCTTCCTGCTCCTGGTTCTGCTGGGGTTGAGCGCCTGTAGCACACTGAGCCCGCGCGATCCGTTGCACATCGATCTGGTCGGCCTGGAGCCCTTGCCCGGCCAGGGATTGGAGGTGCGTTTCGCGGCGAAGCTACGGGTGCAGAACCCGAACGAGACGGCCATCGACTACAACGGCGTGGCGCTGGAGCTGGACATCAACGGCCAGCCCCTGGCCAGCGGTGTCAGCGACCAGAGTGGGCAGGTGCCGCGCTTCGGCGAGACGGTGCTCAGCGTGCCGATCACCATTTCCGCGTTTTCCGCGGTGCGCCAGGCCTGGGGCATCGCCGGTTATACGCCCGGCCAGGGCCTGCCGTACGTGCTGCGCGGCAAGCTGGCCGGCGGCCTGCTCGGCACCCGTCGCTTCACCGACAAGGGCGTGTTGAAGTGGCCGGAGCCGGCTCCGGCCGTGCGGCCTTAG	MRKTDMSVLARSLFLLLVLLGLSACSTLSPRDPLHIDLVGLEPLPGQGLEVRFAAKLRVQNPNETAIDYNGVALELDINGQPLASGVSDQSGQVPRFGETVLSVPITISAFSAVRQAWGIAGYTPGQGLPYVLRGKLAGGLLGTRRFTDKGVLKWPEPAPAVRP				NA	NA	NA	NA	NA
BMS010_03556	762		COG5285	putative protein	ATGCACCCGACACCCGAACCCACCGCCCGGCACCTGCGCGCCCTGCACGAGCAAGGCTTCGTCCTCCTGCGCGGCGTGCTGGACGCGACACAGGTCGCCGAGCTGCGCGACGCCATCGACCGCTTGCAGCCGATCCACTGGGATTACACCGGCCTGGTGGATCACTACAAATGCCTGTTCAACCGCGACCCTCTGTGGCTGCCCTACCTCGACAGGCCCGGCGTGATTGAACTGGCGGAAGCCAGCCTGGGTGCCGACTGCCATGTGATCGGCCAGACCGCCTGGCGCAGCCATCCTGGCTTCATCGGTGCCGACCTGCATGCGGACTATCTGGTGATGGAGCTGCCGGAAAGCCTGCTGGCCGCCCCCTCGTTCGAGCTGCCGATGCAGATTTGCACGGCCATGTTCTACCTGGACGACATCGACGAAGCCCTCTGCCCCACCCTGGTCATCCCCGGCAGCCATCGCGCCGGACGCAAGCCCCGCGAGGGCGAGGCCGACTGGCATGGCCGGGTACCCGAGCCGGTGCTGTGCCGGGCCGGCGACGTGCTGCTCCTGCGCAGCGAGCTGTGGCACGCCGGCAGCCGCAACCGCACGCCAGACCGCAGCCGCTACCTGCTGCAGGTGCACTACGGCCGGCGCATGGTGGCGCAGAAGTTCTCGCCCTACCTGCATTGGCGCTTCAACCCGGAGGTCCTGGCCGCCTGCACGCCGCGGCAATTGCGGCTGCTGGGCGATCACGAGGAAGCGGAATACGACTGA	MHPTPEPTARHLRALHEQGFVLLRGVLDATQVAELRDAIDRLQPIHWDYTGLVDHYKCLFNRDPLWLPYLDRPGVIELAEASLGADCHVIGQTAWRSHPGFIGADLHADYLVMELPESLLAAPSFELPMQICTAMFYLDDIDEALCPTLVIPGSHRAGRKPREGEADWHGRVPEPVLCRAGDVLLLRSELWHAGSRNRTPDRSRYLLQVHYGRRMVAQKFSPYLHWRFNPEVLAACTPRQLRLLGDHEEAEYD				NA	NA	NA	NA	NA
BMS010_03557	465			hypothetical protein	ATGCCTTCCGATACCCAGGCTCGCAGCCACTCACTACGCCTCGGTCGCTACTCGGAGGTCGGGCGTAGCTACCTCCTCACGACGGTTACCCACCACCGGCTTCCTCTGTTCAACGATCTGCACAACGGCCGTCTGCTCGTACAGGAAATGCGTCGCTGCGAACAGGAAGGTCTGGTCGAATCACTGGCGTGGGTGGTCATGCCCGACCATTTACACTGGTTGCTCACATTGAACAGCGGCACCCTCAGCCAGATGATGAAGCGCTTGAAAGCCCGCAGCAGCCTCGCACTGAATCGCCGCCAGGGCTCGAGTGGTTCGATATGGCAACCCGGGTTCCATGATCATGCGTTACGCCGAGACGAGAATCTTCAAGCGGCAGCCCGCTACATCATCGCCAATCCCTTGAGGGCAGGCCTGGTCAGACGAATCGGTGATTACCCATTGTGGGATGCGACCTGGCTTTAA	MPSDTQARSHSLRLGRYSEVGRSYLLTTVTHHRLPLFNDLHNGRLLVQEMRRCEQEGLVESLAWVVMPDHLHWLLTLNSGTLSQMMKRLKARSSLALNRRQGSSGSIWQPGFHDHALRRDENLQAAARYIIANPLRAGLVRRIGDYPLWDATWL	PGPT0030655_3092	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030655-yafM|rayT|tnpA-K07491	NA	NA
BMS010_03558	312			hypothetical protein	ATGGCAACGTCGCCCATCGGCCCGACCCATAGCGCCGGGATATCTTCCTCTCACGAGGGGGCCTCGAGTTCCTCGCTGCGACCCGGCTCACCGGAAGCCTTCGCCCACTTCCGTCCTCATGCCGAGGGCCCGATGGTGCGACTGGACGGCGCTGAGGACATCGTCTTCGACGAATACTCCGCCTTGCCAATCGACGGCGCAGACCTGCCCTCTCCAGAAGAAGTCGAAGCGCAGCACCGCTCGCTGTGCACCCTGCTGCCGGATTTGATGGGGTCTCTTGCGTTGCTGCGCGACAAGCCCTCGTCGCCCTGA	MATSPIGPTHSAGISSSHEGASSSSLRPGSPEAFAHFRPHAEGPMVRLDGAEDIVFDEYSALPIDGADLPSPEEVEAQHRSLCTLLPDLMGSLALLRDKPSSP				NA	NA	NA	NA	NA
BMS010_03559	483			hypothetical protein	ATGCAGCCGATCGAGGCGAAAGAACAACTGGACCAGTGGCTGCGTCGACGCGGCATTACCGTCGCCATGGAGACGAAGAACGACCGTCACTTCGTTTGCACGGCCGAAGGCGAGGAGTGCCTGCTCTGGCTGCCCGAGATGGACACCACGCTGTTCATCTTCACCCTGGTGGACCGCCTGACCATGCCCAAGGACAACGACCTGCTCACGCTGTCGATGGCGCTCAATCTCGAACCGACCCGCACCGGCGGCGCCTCGCTCGGCTACAACCCGGAATCGAAACAGCTCATGCTGCGCAGCGTTCACGACATGACGGGACTCGACGACGTCGCGCTCGACCGCATCCTGGAGCAGATGTCCAAACTGGCCGGCGCCCTGCGCCTGTACCTCGACGCCTTCCGCAACCAGCGCTCCGGTACCCGCCATACCGCCAAGGGTCCGCTGCTCACCCCCGGCTTCCACTCCCCCCGTCTGTTCAGCTGA	MQPIEAKEQLDQWLRRRGITVAMETKNDRHFVCTAEGEECLLWLPEMDTTLFIFTLVDRLTMPKDNDLLTLSMALNLEPTRTGGASLGYNPESKQLMLRSVHDMTGLDDVALDRILEQMSKLAGALRLYLDAFRNQRSGTRHTAKGPLLTPGFHSPRLFS				NA	NA	NA	NA	NA
BMS010_03560	240			hypothetical protein	ATGCACGAACTCAAACGCTACCGGATCGACTACCGGCTGAACGGCCAGCCGGCCTCGCTGATCCTCGACGAATTCCACGAACCCACCCTCGACCAGGTCCGCCTGCGCCTCCTGCACGAACACACCCGCGAGCCGCGTGTGATGGAAGACGCGCCCTGGGAGCAGAACTGCCGCCCCAGCCTGGAAAGCCGAGCCGATGAAGTCGGGCTCAGCGATATCCGCATCCAGCCGTTGACCTGA	MHELKRYRIDYRLNGQPASLILDEFHEPTLDQVRLRLLHEHTREPRVMEDAPWEQNCRPSLESRADEVGLSDIRIQPLT				NA	NA	NA	NA	NA
BMS010_03561	1056	ada_2	COG0350	Bifunctional transcriptional activator/DNA repair enzyme Ada	ATGCTCGATCCCGAACTCTGCTGGCAAGCCGTCTGCGCTCGCGATGCCTCACGCGACGGCCAGTTCGTCACCGCCGTTCGCAGCACCGGCATCTACTGCCGGCCAAGCTGCCCGGCACGGCGTCCGCGGCGGGACAACATCGAGTTCCACCCCTCTGCCGAATCCGCCGAGTCCGCCGGCTTCCGCCCGTGCCGGCGCTGCTCGCCGAAAGGCGCGAGCCCGGCCGAACAGATGGATGCCCTGGTCGCCGCCGCCTGCCGTCTGCTGGAGCAGACGTCGACGCCGCTCACCCTGGCACAACTGGCGGCGCGGATCGGTCTGTCGCCGTCGCATCTGGCGCGCGCCTTCAAGGCGCGTACCGGCCTGACCCCGAAGGCCTGGGCCGACGCCCGCCGCCGTGCCCGTCTGGAAGCGGAGCTGCCGCAGGCGCCCTCGGTGCTCGCCGCGGCGCTGGAGGCCGGTTACTCCGGTACCCGCGCCCTCTATGAACGCCCCGGCGCCCTGAGCCCGGCCCAGCAGCGCCGCCAGGGTGCCGGCGAAGCCCTGCGCTACGCCATCGCCCCCTGCCCGCTCGGCCTGCTGCTGCTGGCCGCCAGCGATAAAGGCGTCTGCGCCCTGCTGTTCGGCGATGACGAAGCCTCGCTGGAGGACGATCTGCGCCACCGCTTCGCCGCCGCCCGGCTGCAGCGCGACGATGCCGGGCTCGGCGATTGGCTGCACTCGGTCGTCGCGCAACTGGAAGAGCCCGAACGCGCCGCCCGCCTCCCGCTGGATCTGCGCGGCACCGCCTTCCAACAGCGCGTCTGGCGTGCCCTGACCCAGATTCCGAGCGGCGAGACCCGCCGTTACGGCGAACTGGCCGCCAGCCTCGGCACCCACGCCCGCGCCATCGCCCGCGCCTGCGCCAGCAACCCGGTCGGCCTGCTGGTGCCTTGCCACCGGGTGGTCGGCGGCGACGGCGCACGCCTCGGCTACCGCTGGGGCGCGCAGCGCAAGGCGGCCCTCCTCGACGGCGAACGGGCCGTCCTGCACGAGCCGGAACCGGAAGCGGGCTGA	MLDPELCWQAVCARDASRDGQFVTAVRSTGIYCRPSCPARRPRRDNIEFHPSAESAESAGFRPCRRCSPKGASPAEQMDALVAAACRLLEQTSTPLTLAQLAARIGLSPSHLARAFKARTGLTPKAWADARRRARLEAELPQAPSVLAAALEAGYSGTRALYERPGALSPAQQRRQGAGEALRYAIAPCPLGLLLLAASDKGVCALLFGDDEASLEDDLRHRFAAARLQRDDAGLGDWLHSVVAQLEEPERAARLPLDLRGTAFQQRVWRALTQIPSGETRRYGELAASLGTHARAIARACASNPVGLLVPCHRVVGGDGARLGYRWGAQRKAALLDGERAVLHEPEPEAG	PGPT0002325_1	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-ORGANIC_ACID_METABOLISM	P-SOLUBILISATION-TARTARIC_ACID_TRANSPORT,PGPT0002325-ttuB-K13021	NA	NA
BMS010_03562	3477	rcsC_14		Sensor histidine kinase RcsC	ATGGAATTTCGCGGATGGCTGATGATTGGCCTGGTCTGGCTGTGCTTCGCCGTGTCCGCCGCCGAGCGGATGGACCTGACGGCCGAAGAACAGGCCTGGGTCGATGCGCATCCGGTGGTGCGGGTGGGCATGAGCCGAGGGGGCTGGCCGCCGTTCGATATCGTCGATGAGCAGGGCCAGCACGGTGGCATCAGCGCGGATTACCTGGCGGCCCTGGGCCGGCGGATCGGCGTGCACTTCAACCTGGTCCTGGTGGACGGCTGGGACGAAGCCCTGGAGGCCCTGGCCAGCGGCCGCGTCGATCTGCTGCCGTCGGTGGCCTACAGCCCCGAGCGGGAGAGGCGCCTGCTGTTCAGCGATGCGTACCTCAGCAGCCGCAACCTGATCTTCGTGCGCCAGGATTCCCCCGTGCAGTCGCTCAAGGACCTGGCCGGCAAACGGGTGGCCGTCGAGCGTGGTTTCGTCCTGCGCCAGATGGTCGACGAACAGGTGTCCGGCGTGACGTTCGTCGAGACGGCCGACACCGAACAGGCGCTGCGCCTGGTGTCGTCCGGCAAGGCCGATGCCTATGTCGGCAACATGACCGTGGCGAGCTACCTGATTCGCCAGCACAACCTGACCAACCTCGAACTGCGCGGCGAAACCGGCATCCAGACCGGCGACCTGCACTTCGCCGTGCGCCGGGACTGGCCGGAGCTGGTCGAACTGATCGACCGCGCCCTGGCGACGCTCGGCGAGCAGGAGCGCCAGGCGATCCGCGACCGCTGGCTGCCGCCGCTCACCGAGTTCAACTGGCGCAAGGCGCTGGAAGTGGCCTGGCCGTTCGCCGGCGGCCTGCTGTTGCTGATCGCCAGCATGCTGTACTGGAACCGCCGGCTGCGCGTGCAGATCCGCGAGCGCCAACGCGCCGAGGCGGAAGCCCGGCGGCAGCGCAGCGTACTGCTGGCGCTGGTCAATGCGATTCCCGACCCGATCTGCTACAAGGACGCCGATGGTCGCTACCTGGGCGCCAACCAGGCCTACGTGACCCTGATCGGCCGTCCGCTGGAGGCGCTGCTCGGCCGTCGCGACCAGGAACTGGGCGACGGCGCGGCCTGGGCCAGCGGTACGGCAGAGGCCGACGAGAGCTGGGCGCAGTACCCGGACGGCCGCCGCGTGCTGCTGGATACCCAGCGCGCCGCGTTCCACGATGAGTCCGGCGAGCTGCTCGGCAGCGTCTCGGTCAGCCACGACGTCACCGCGCGCAAGCAGACCGAGCAGGCGCTGGCCCGTGCCAAGGCATTGGCGGAGGAGGCCGCCCGGCTGAAGTCGGACTTCCTCGCCAACATGAGCCATGAAATCCGCACGCCGCTCAACGCCATCATCGGCATGGCGCACCTGGCCTTGCAGACGTCGCCGAACCCGCGCCAGCGCGATTATCTGAACAAGATCCAGCAGGCCGGCCAGCACCTGCTGCGGGTGATCGACGACATCCTGACCTTTTCCCGCGCCGAGGCCGGCAAGCTGGCCATCGAGCGGATCGAATTCGGCTTGCAGTCGCTGTTGGACGATCTGGTCAACATGGTCGGTCCCAAGCTCGCGGCGAAGCGCCTGGAGCTGCTGTTCAACCTGGACGACCGCCTGCCCGGCCGGCTGCTCGGCGATCCGCTGCGGATCGGCCAGATCCTGATCAACTACGTGAACAACGCGATCAAGTTCACCGAGCACGGCGAGATCGAAGTGATCTTGCGCGCCGAACGCCAGGGCGAGCGCGACCTGCTGCTCTACCTCGGTGTGCGCGACACCGGCATCGGGCTCGATCCTGAGCAGCAGCGCCACTTGTTCCAGCCGTTCCAGCAGGGCGACAGCTCCATCACCCGCCAGTTTGGCGGCAGTGGCCTGGGCCTGGCGATCTGCAAGCGGCTGGCGGAGGCGATGGGCGGCAGCGTCGGGGTGGAGAGCCGGTTGGGCGAGGGCAGCCTGTTCTGGTGTCGCCTGCCGCTTGGTGTCGCGCTGTCCTCGCAACCGTTGCTGCCGCGCCTGAGCGTGCGCGGCAGCCGGGTGTTGGTGGTGGACGACAACGGCAGCGCACGCCGGCTGCTTGGCGAGATTTTCCAGAGCATGGGCTTTCGCGTCGCCACGGAGGCGTCCGGCACGCTGGCGGTCCAGCGGATTCAGGAGGCAGCGGCCAGGGGTGCGGCGTTCGATCTGGTGCTGCTGGACTGGCAGATGGCCGAGCTGGACGGCCTGGAAACCGCCCGTCGCATTGCCGCGCTGGGGCTGCGAACTCCGCCGCGGGTGGTACTGGTCAGTGCCTTCGGCCGCGAGGAGCCGCCCGTCGCGGCCGAGCTGGGCATCAGCGCGGTGCTGGCGAAGCCGCTGACGCCGACCCAGTTGTTCGAGGTGGCGCTGCTCTGCCTGAGCGGGGCCGCCGACCAGCGCAGCTCGCGCCCGCCGCCGGTGCCGCCGCCATTGCCATCGTTCGCCGGGCAGCGGGTCCTGCTGGTGGAAGACAACGAGCTGAACCAACTGGTCGCCCGCGAGCTGCTCAGCGAAAGCGGCCTGCAAGTGGATGTGGCGGAGAACGGCGCCGTGGCCCTGGACCTTCTCCAGCTCCACGACGAGGGCCATTACGCCCTGGTGCTGATGGACATGCAGATGCCGGTGCTCGATGGCATCGGCGCGGCCCGGGCGATCCGCGAACAGGAGCGTTTTCGCGACCTGCCGATCGTCGCCATGACCGCCAACGCCTTGCCGGCGGATCGCGAGCGCTGCCTGGAGGCGGGCATGGACGATCACCTCGGCAAGCCGATCTCGCCCGCCGAGCTGTGGACAACGCTGTCGCGCTGGCTCAATGCGGAGGAGGAGACCACGGCCTCGGCGGCGGCGATGCCGAAGGCGCCGAGCTGGGGGCTGCCCGGCGTGGATGTTGCGGCGGGGCTACGCCTCGTTGCTGGGCGCGAGGACCTCTATCGCTCCCAACTGAGCCGCTTCGCCGCCAGCGAAAAGACCTTCGTCGCCCGTCTGCGCGGAGCGTTGGCCGCGGGAGACCGGGCGACGGCGGCGCGCTTGCTGCATACCTTCAAAGGGCTGGCCGCCGGCCTCGGTGCGGACGAATTGCGTAGGCGTGCGGTCGAACTGGAAACGGCGTTGGAGCAGGGGAACGATCCGGCCGGGTTGCAGCCGTCCATCGATGCATTGGCGACCCGCCTGGAAGTGCTGATCGATGCCATCGAGACACGCATGGCCGAAGCCGGCGAGGGGCAGGGCACGGTGGTACCGGAAACGGACCTGGCCCGTCTCTGCGCCCGCCTGGCGGAATTGTGCTCGGCGGACGATCCGCGCGCCGGAAAACTGCTCGACGAGCAGGCCGAAACCCTGCGCAGCGCCTTAAATGAGAGTTATGCGACCATCGCCGAAGCCTTGCACGACTACGACTTCGAGACGGCGCTGGAGGCGTTGCGGGTGGCGGCACGGCAACGGGACATCAGTCTTTGA	MEFRGWLMIGLVWLCFAVSAAERMDLTAEEQAWVDAHPVVRVGMSRGGWPPFDIVDEQGQHGGISADYLAALGRRIGVHFNLVLVDGWDEALEALASGRVDLLPSVAYSPERERRLLFSDAYLSSRNLIFVRQDSPVQSLKDLAGKRVAVERGFVLRQMVDEQVSGVTFVETADTEQALRLVSSGKADAYVGNMTVASYLIRQHNLTNLELRGETGIQTGDLHFAVRRDWPELVELIDRALATLGEQERQAIRDRWLPPLTEFNWRKALEVAWPFAGGLLLLIASMLYWNRRLRVQIRERQRAEAEARRQRSVLLALVNAIPDPICYKDADGRYLGANQAYVTLIGRPLEALLGRRDQELGDGAAWASGTAEADESWAQYPDGRRVLLDTQRAAFHDESGELLGSVSVSHDVTARKQTEQALARAKALAEEAARLKSDFLANMSHEIRTPLNAIIGMAHLALQTSPNPRQRDYLNKIQQAGQHLLRVIDDILTFSRAEAGKLAIERIEFGLQSLLDDLVNMVGPKLAAKRLELLFNLDDRLPGRLLGDPLRIGQILINYVNNAIKFTEHGEIEVILRAERQGERDLLLYLGVRDTGIGLDPEQQRHLFQPFQQGDSSITRQFGGSGLGLAICKRLAEAMGGSVGVESRLGEGSLFWCRLPLGVALSSQPLLPRLSVRGSRVLVVDDNGSARRLLGEIFQSMGFRVATEASGTLAVQRIQEAAARGAAFDLVLLDWQMAELDGLETARRIAALGLRTPPRVVLVSAFGREEPPVAAELGISAVLAKPLTPTQLFEVALLCLSGAADQRSSRPPPVPPPLPSFAGQRVLLVEDNELNQLVARELLSESGLQVDVAENGAVALDLLQLHDEGHYALVLMDMQMPVLDGIGAARAIREQERFRDLPIVAMTANALPADRERCLEAGMDDHLGKPISPAELWTTLSRWLNAEEETTASAAAMPKAPSWGLPGVDVAAGLRLVAGREDLYRSQLSRFAASEKTFVARLRGALAAGDRATAARLLHTFKGLAAGLGADELRRRAVELETALEQGNDPAGLQPSIDALATRLEVLIDAIETRMAEAGEGQGTVVPETDLARLCARLAELCSADDPRAGKLLDEQAETLRSALNESYATIAEALHDYDFETALEALRVAARQRDISL				NA	NA	NA	NA	NA
BMS010_03563	1182		COG3437	Cyclic di-GMP phosphodiesterase	ATGGATACGATGCTCGACAGACCCGACCAGGAGCTGATCCTGGTGGTCGACGACACACCGGCCAACCTCGACCGGATCAGTGGGCTGTTGCTCGATCGGTACCGGGTCAAGGTCGCCGGCAGCGGCGAGAAGGCCCTGCACCTGGCCGCGGCCAGCCCGCAGCCGGACCTGATCCTGCTCGATGTGATGATGCCGGACATGGACGGCTACGAGGTCTGCCGCCGGCTCAAGGCCGACCCCGCCACCGCGGCGATTCCGGTGATCTTCCTCACCGCCATGAACCAGGAGGGCGACGAGCAGCACGGCCTCGATCTCGGCGCCCAGGATTACCTGACCAAGCCGGTCAGCGCGCCGATCCTGCTGGCGCGGGTGCGTGCCCAACTGCAACTGAAGGCGGCTGCCGACTACCTGCGCGACAAGAGCGAATACCTGGAACTGGAGGTGCGGCGGCGCACCCGCGAGATTCAGGCGCTGCACGATGCGCTGATCGAATCCATGGCGATCCTCGCCGATACCCGCGACAACCCCGACGGCAAGCATCTGGTGCGCATCGAGCTGTACATGCAGGCCCTGGCCGGCGCGCTGGCGCGGCAAGTACCCGGGCTGCGCGATGAGCTGAGCGACGAGCGCATCGCCCTGCTGGCCAAGTCGGCCCAGTTGCACGACATCGGCAAGCTGGCGATCCCGGACCGCCTGCTGCTTAGCCCGGCGCCCCTGGAGGGTGAAGACCTGGCGCTGATGCAGAGCCACACCCGCGCCGGCCGCGACGCCCTGGACCGGGCCGAGCGCAAGCTGGGTACGGAAACCAGCTTCCTCACCTACGCCAAGGAAATCGCCTACTGCCATCACGAGCGCTGGGACGGCTCGGGATACCCCCAGGGGCTGCGCGGCGAGCAGATTCCGCTGTCGGCGCGCCTGCTGGCGCTGGCCGATGACTACGACGAACTGACCAGCCGGCATCCGTACCGCCAGTCGCTCAGCAGCGACGAAGCGGAAACCCGGATCGGCGCCGCCAGTGGCAGCCATTTCGATCCGCAAGTGGTGCTGGCCTTCCTCGAAGTGGCGCCGCAATTCGCCGAAATCGCCCGGACCCACGCCGACAGCGACGAGGCCATCAGCCAGGAATTGCAGCGCATGGAAGACTCCCTGGCGGAGAACATCGAGCTGGTGCCGCCGTCGTGA	MDTMLDRPDQELILVVDDTPANLDRISGLLLDRYRVKVAGSGEKALHLAAASPQPDLILLDVMMPDMDGYEVCRRLKADPATAAIPVIFLTAMNQEGDEQHGLDLGAQDYLTKPVSAPILLARVRAQLQLKAAADYLRDKSEYLELEVRRRTREIQALHDALIESMAILADTRDNPDGKHLVRIELYMQALAGALARQVPGLRDELSDERIALLAKSAQLHDIGKLAIPDRLLLSPAPLEGEDLALMQSHTRAGRDALDRAERKLGTETSFLTYAKEIAYCHHERWDGSGYPQGLRGEQIPLSARLLALADDYDELTSRHPYRQSLSSDEAETRIGAASGSHFDPQVVLAFLEVAPQFAEIARTHADSDEAISQELQRMEDSLAENIELVPPS				NA	NA	NA	NA	NA
BMS010_03564	282			hypothetical protein	ATGTCCCTCAACGCTACCGCCCATGTCCCCACCGACACCCCCGGCCGCTACATCGGTCGCCTGTGCAAGCACTTCGCCCATAAGCTGCCGGTCAGCCATGACGAAACCAGCGGCCGTATCGAATTCGATGGAGGCGTCTGCCTGCTGAAGGCGGAAAACCAGGGCCTCAGCCTGCGCGTGGAAAGCGCTCGGGAAGAAACGCTGGAGCGCCTGAAACAAGTGGTCGCCAGCCATTTCGAACGCTTCGCCTGGCAGGAAGCGCTGCAGCTCGATTGGCAGTGA	MSLNATAHVPTDTPGRYIGRLCKHFAHKLPVSHDETSGRIEFDGGVCLLKAENQGLSLRVESAREETLERLKQVVASHFERFAWQEALQLDWQ				NA	NA	NA	NA	NA
BMS010_03565	642			hypothetical protein	ATGAAACTCGCCCTGATCGGTGCCAGCGGCTTCGTCGGATCGGCTCTCCTGCAGGAGGCCCTGGAACGCGGCCATCAAGTCACCGCCATCGTCCAGCACCCGGAAAAACTGCCCTCCCACCCCAACCTCACCGCCCTCAAGGCCGACGCCTACCAGCCCGATGCCGTGGCCACGGCTGTCGCCGGACACGACGCGGTGCTCGACGCCTTCAACCCCGGCTGGGGCAAGGAAAACATCCGCGAGCTGTTCCTCCAGGGCACCCGCTCGATCTTCGCCGGGGTCAAGCAGGCCGGCGTGAAGCGCCTGCTGGTGGTCGGCGGTGCCGGCAGCCTGTATGTCGCACCGGGCGTGCAACTGATCGACACCCCGCACTTCCCGGCCGAATGGAAGGAAGGCGCCGAAGGCGCGCGCCAAGCCCTGGAGCTGATCCGCGCGGAAACCGGGCTGGACTGGACCTTCGTCTCGCCGCCGGCCCTGCTGGAGCCGGGCGAACGCACCGGCCGCTTCCGCCTCGGCGGCGACGAGCTGCTGATGAACGGCGATCACCCGGCGAACATCTCGGTCGCCGACTTGGCCGTGGCCATCCTCGACGAGATCGAGCAGCCGAAGCACATCCAGAAACGCTTCACCGTCGGTTACTGA	MKLALIGASGFVGSALLQEALERGHQVTAIVQHPEKLPSHPNLTALKADAYQPDAVATAVAGHDAVLDAFNPGWGKENIRELFLQGTRSIFAGVKQAGVKRLLVVGGAGSLYVAPGVQLIDTPHFPAEWKEGAEGARQALELIRAETGLDWTFVSPPALLEPGERTGRFRLGGDELLMNGDHPANISVADLAVAILDEIEQPKHIQKRFTVGY	PGPT0020900_672	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020900-putative_saccharopine_dehydrogenase-K07118	NA	NA
BMS010_03566	891	dmlR_6		HTH-type transcriptional regulator DmlR	ATGGAGCAGCTCAAGCGCATGGCGCTGTTCGCCACTGTGGTCGATAAGGGCTCCATGGTCGCCGCCGCCGAGGCCCTCGGCATGACCGCCTCGGCCGTCAGCCAGCAGATCCGCCGGCTGGAGGAAAGCACTCAGGTCAGTCTGCTGCACCGCACCACCCGCAAGCTGACGCTGACCGAAGCCGGCGCAGTGTTCTACCGCAGCTGTGCCCAGGTACTCGAACTGGCTCAGCAAGCCGAACAGCGCCTGGCCGAGCTGCGCGACGCGCCGGTGGGCGAGTTGCGTATCGCCGCGCCGGTGGGGTTGCCCGGCAAGATGATCAGCGAAGCCCTGGCGCCCCTGCTGCTGGCCCATCCGGGGCTCAGCCTGCGGCTGTTCTTCCACGACGAAGTGATCGACCTGGTGGAACAGCGCATCGATCTGGCCATCCGCGGGGGGCGCCAGGACGACTCCAGCCTGGTGGCGCGCTACGTGACGGACTGGCGCATGCTGCTCTGCGTCGCGCCGTCCTACCTGGCGCGCTGCGGTTGGGTGGAGACGCCACGGCAATTGCTCGAACTGGACTGGATCGGGCTGAACACCGACCGCTTCCAACACCTGCTGCTGCGAGGCCCCGGCGGCGCCGAGGAGCACCTGCGCCTGGAGAGCCGCATCGGTTGCAACAACATCCTCGCCGGGCGCCAGTTCACCCTGGCCGGCATGGGCGCCTCGTTGCAACCCGAGCCGGAGATTCGCGACCTGCTGGCCCGTGGCGAATTGCTGGTGCTGCTGCCGGACTGGCAACCGGAAACGATCGGCCTGTACCTCGTCACACCCCGCCGCGATGCCCAGCCGGCCAAGGTGCGTTACGCCATCGAGGCCCTGCGGCAGACGTTGCTGGCGGCCCGATGA	MEQLKRMALFATVVDKGSMVAAAEALGMTASAVSQQIRRLEESTQVSLLHRTTRKLTLTEAGAVFYRSCAQVLELAQQAEQRLAELRDAPVGELRIAAPVGLPGKMISEALAPLLLAHPGLSLRLFFHDEVIDLVEQRIDLAIRGGRQDDSSLVARYVTDWRMLLCVAPSYLARCGWVETPRQLLELDWIGLNTDRFQHLLLRGPGGAEEHLRLESRIGCNNILAGRQFTLAGMGASLQPEPEIRDLLARGELLVLLPDWQPETIGLYLVTPRRDAQPAKVRYAIEALRQTLLAAR				NA	NA	NA	NA	NA
BMS010_03567	894			hypothetical protein	ATGAAGATTCCAAAACGTATCCAGCCCCTGGTCGACGATGGGATGGTCGATGAGGTGCTGCGCCCGCTGATGAGTGGCAAGGAAGCGGCGGTCTATGTGGTGCGCTGCGGCGATGAGCTGCGCTGCGCCAAGGTCTACAAGGAGGCCGCCAAGCGCAGTTTCCGCCACGCGGCCGAATACCAGGAAGGCCGCCGTACCCGCAACAGCCGCGATGCCCGAGCCATGGCCAAGGGCTCGAAGTACGGCCGCAAGGAGCAGGAAGACGCCTGGCAGAACGCCGAGGTCGCGGCCCTGTTCCGGCTGGCCAATGCCGGCGTGCGAGTGCCCAAACCCTACGATTTCCTCGACGGCGTGCTGTTGATGGAGCTGGTGCAGGACGAATACGGCGATGCTGCTCCGCGCCTCAACGACGTCGAACTGCACCCGGACGACGCCCGCGAATACCACGCCTTCATGATCGGCGAGATCGTCAAGATGCTCTGCGCCGGGCTGGTTCATGGCGACCTGTCGGAGTTCAACGTGCTGCTCGGCCCGGACGGTCCGGTGATCATCGACCTGCCCCAGGCAGTGGATGCTGCCGGCAACAACCATGCGTTCCGCATGCTGGAGCGCGACGTGGGCAACATGGCCGCCTACTTCGGCCGCTTCGCCCCGGAGCTGAGATATTCCCGTTACGCGAAGGAAATGTGGGCGCTCTACGAGGCCGGCAAGCTGACTCCGGACACTCGCCTGACCGGCGAATTCAAGGAGCCCGAGGATGCCGCCGACATCGCCGCGGTAATGCGCGAGATCAAGGCGGCCCTGGCCGAGCAGGCGCGCCGGGAGGCGGCGCTGAAGGCCGACGAGCAGCCACACGAGAAGGAAGAGCCGACGCCGCCCTGGTTGCGCGGTTGA	MKIPKRIQPLVDDGMVDEVLRPLMSGKEAAVYVVRCGDELRCAKVYKEAAKRSFRHAAEYQEGRRTRNSRDARAMAKGSKYGRKEQEDAWQNAEVAALFRLANAGVRVPKPYDFLDGVLLMELVQDEYGDAAPRLNDVELHPDDAREYHAFMIGEIVKMLCAGLVHGDLSEFNVLLGPDGPVIIDLPQAVDAAGNNHAFRMLERDVGNMAAYFGRFAPELRYSRYAKEMWALYEAGKLTPDTRLTGEFKEPEDAADIAAVMREIKAALAEQARREAALKADEQPHEKEEPTPPWLRG				NA	NA	NA	NA	NA
BMS010_03568	468	bfr_1	COG2193	Bacterioferritin	ATGAAAGGCCAGGCACAGGTGGTGGATTATCTCAAGGAGCTGCTCCGGGGCGAGCTGGCGGCGCGCGATCAGTATTTCCTGCATTCGCGGATGTATGCCGACTTCGGTCTCGAGAAACTCTACGAGCGGATCAATCACGAGATGGAAGAGGAAACCCAGCACGCCGATGCCCTGTTGCAGCGCATCCTGTTCCTGCAAGGCACGCCGGACATGACGCCGGAGCCGATCAACCCGGGGCAGACCGTGCCGGACATGCTGCGCAACGACCTCGCCCTGGAATACAAGGTCCGCGCTGCGCTGGCCAAGGGCATCGAACTCTGCGAGCAACTGGCGGACTACCCGACCCGCGACATCCTCCAGGCCCAGTTGAAGGACACCGAGGAAGACCACGCCTACTGGCTGGAGCAGCAACTCGGCCTGATCGACCGCATCGGCCTGCAGAATTACCTGCAATCGCAGATGTCCTGA	MKGQAQVVDYLKELLRGELAARDQYFLHSRMYADFGLEKLYERINHEMEEETQHADALLQRILFLQGTPDMTPEPINPGQTVPDMLRNDLALEYKVRAALAKGIELCEQLADYPTRDILQAQLKDTEEDHAYWLEQQLGLIDRIGLQNYLQSQMS	PGPT0003965_2552	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-RELATED_PROTEINS_FERRITIN,PGPT0003965-bfr-K03594	NA	NA
BMS010_03569	906	eamA_1	COG0697	putative amino-acid metabolite efflux pump	ATGTCCTTCCCTCATGCCTTGCTGGCCCTGCTGGTCACCCTGATCTGGGGCTTCAATTTCGTCGTGATCAAGGTCGGCCTGGAAGATTTCCCGCCGTTGCTCTTCTGCGCCCTGCGTTTCGCCCTGGCGGCCTTGCCGCTGCTGTTTCTGCGCGGGCCGCTGCCGGCACCGTTCTGGCGCATCGTGCAGATCGGCGTGCTGCTCGGGGTGATCAAGTTCGGCATGGTCTTCGTCGGCATGCGCCTGGGCATGCCGGCCGGATTGACCGCGCTGGTGCTGCAGAGCCAGGTGTTCTTCACCGTACTGATCGCCGTGCTGTTCCTCGGCGAACGGCCCGGCCCGCGAGCGTTGGTCGGCATGCTGCTGGCGGTGGGCGGGCTGCTGCTGATCGGCCTGGATCGGCCATTGGGCGACAGTCTGCTGGCCTTCCTGCTGGTGATCGGCGCAGCCCTGGCCTGGGCGTTCGCCAACATCGCCACCAAGCGATCCGGTGCCAGCGACATGCTGCGCCTGATCAGTTGGGTCAGCCTGATTCCGCCCTTGCCGCTGCTGGTGCTGTCGTACCTCTTCGAAGGGCCGGAGGCGATCGTCGGGGCGTTCGACGGGCTCGGCTGGCGAGGCGTGGGTGCGCTGCTGTTCATCGCCTACGTGGCGACCACCGTGGGCTTCGGCTTGTGGAGCTTTCTGCTGCGGCGCTACCCGGCCAGCCTGGTGACGCCGTTCGCCCTGGCGGTACCGGTGTCGGGGCTGCTGTCCGGCTGGCTGTTTCTCGGCGAAGCGTTGGATGCAGCGGGTTGGCTGGCCTGTGGGCTGGTGTTCGGTGGGTTGGCGATCACCATCCTGCCGAAGGAGGCCTTGGCCCGGCTATGGGGACGTCTCGGCGGTGCGGCGAGTGCGTCGTCGTGA	MSFPHALLALLVTLIWGFNFVVIKVGLEDFPPLLFCALRFALAALPLLFLRGPLPAPFWRIVQIGVLLGVIKFGMVFVGMRLGMPAGLTALVLQSQVFFTVLIAVLFLGERPGPRALVGMLLAVGGLLLIGLDRPLGDSLLAFLLVIGAALAWAFANIATKRSGASDMLRLISWVSLIPPLPLLVLSYLFEGPEAIVGAFDGLGWRGVGALLFIAYVATTVGFGLWSFLLRRYPASLVTPFALAVPVSGLLSGWLFLGEALDAAGWLACGLVFGGLAITILPKEALARLWGRLGGAASASS				NA	NA	NA	NA	NA
BMS010_03570	402	hmrR_4		HTH-type transcriptional regulator HmrR	ATGAACATCGGTCAGGCAGCGAAGCAGAGCGGACTCTCGGCGAAGATGATCCGCTACTACGAGTCCATCGGGCTGATCACCCCGGCCGGGCGCGGCGACAATGGTTACCGGTACTACAACGGCGACGACCTGCATCGCCTCGCTTTCATCAAGCGGGCGCGGGACCTGGGTTTCTCCCTCGAGGAAGTGGGCAAGCTGCTCACCCTCTGGCAGGACCGCCAGCGGGCCAGCGCCGACGTGAAGGCGCTGGCTGGCGCCCATGTCGAAGAGCTGAACCGCCGGATCGCCGAGATGGTCGGCCTGCGCGACACCTTGCAGGAGCTGGTGGACCACTGCCAGGGCAACGACCGCCCCGATTGCCCTATCCTCCGCGACCTGGAGTCGGGTGGGTGTTGTCATTGA	MNIGQAAKQSGLSAKMIRYYESIGLITPAGRGDNGYRYYNGDDLHRLAFIKRARDLGFSLEEVGKLLTLWQDRQRASADVKALAGAHVEELNRRIAEMVGLRDTLQELVDHCQGNDRPDCPILRDLESGGCCH	PGPT0004135_474	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexPQ-OpmE,PGPT0004135-cueR-K19591	NA	NA
BMS010_03571	2382	copA_2	COG2217	Copper-exporting P-type ATPase	ATGGCGAGCCTCAATCTTGACCTCCCCATCAGCGGCATGACCTGCGCCTCCTGCGCCGGCCGGGTCGAGCGCGCCCTGCGCAAGGTGCCTGGCGTGCAGAGCGCCACCGTCAACCTGGCCAACGAACAAGCACGCATCGAAGCCAACGACGCCACGCTGCCGGCCCTGATCGAAGCGGTGGAAGCCGCCGGCTACGGCGTACCCAGCCGCACCCTCGAACTGGCGCTGGGCGGCATGACCTGCGCCAGTTGCGCCGGCCGTATCGAACGTGCCCTGCGTAAGGTGCCGGGCGTGCGCGACGTGACCGTCAACCTGGCCAGCGAACGCGCGCATCTGGAACTGCTCGGCGATGTCGACAGTGCAACACTGGTCCAGGCCGTCGAGGCCGCCGGTTACCAGGCCCGGCCGCTGGACGATGCCCAGCCGGCCGAAGACCTGGCCGAAAAGCGCCTGCGCCACGAGCGCTGGTCCGCCCTGCTCGCCCTGGCCCTGGCGTTGCCCCTGGTAGTCCCGATGATCGCGGAATGGCTGGGCCTGCACTGGATGCTGCCGGCCTGGGTGCAATTCCTGCTCGCCACGCCGGTGCAGTTCATTCTCGGCGCGCGCTTCTACGTGGCCGCGTGGAAAGCGGTGAAAGCCGGCGCCGGCAACATGGACCTGCTGGTCGCCCTCGGCACCAGCGCCGGCTACGGTCTCAGCCTGTACCAGTGGTGGGCCGCGCCGGCTGGCGTCCTGCCGCACTTGTATTTCGAAGCCTCGGCCGTGGTGATCGCTCTGGTCCTGCTCGGCAAGTACCTGGAAAGCCGCGCCAAACGCCAGACCAGCGCGGCCATCCGAGCCCTGGAGGCGCTGCGCCCGGAACGCGCCGTGCGGGTGGTGGATGGTCGTGAAGAAGACGTCGCCATCGCCGCACTGCGCTTGGGCGACCAAGTGCTGATCAAGCCCGGCGAACGCTTCCCGGTGGATGGCGAAGTGCTGGAGGGCCAGAGCCACGCCGATGAGGCCCTCATCAGCGGCGAGAGCCTGCCGGTGCCCAAGCGTCCCGGCGACACGGTGACCGGCGGCGCCATCAACGGCGAAGGCCGCCTGCTGGTGCGCACCACCGCACTCGGCGGCGAGACCGTGCTGGCACGGATCATCCGCCTGGTAGAGGACGCCCAGGCCGCGAAGGCACCGATCCAGAAGCTGGTGGACAAAGTCAGCCAGGTATTCGTCCCGGTGGTCCTGCTGATCGCCGTGCTGACCCTGGGCGGCTGGCTGCTTGTCGGCGCCGAGCTGGAGACCGCCCTGATCAATGCCGTCGCCGTGCTGGTGATCGCCTGCCCCTGCGCGCTCGGCCTGGCCACCCCGACGGCGATCATGGCCGGTACCGGCGTGGCTGCGCAGCACGGCATCCTGATCAAGGACGCCGAGGCCCTGGAGGTCGCCCACGGTGTAACGGCCGTCGCCTTCGACAAGACCGGCACGCTCACCTCCGGCACCCCGCGCATTGCCCGTCTGGCAGCGGTCGACGGTGACGAGAGCGCTCTGCTGGCCCTGGCCGGCGCGCTCCAGCGCGGCAGCGAACACCCGCTGGCCAAGGCAGTGCTGGACAGTTGCGCCGAGCACGGCATCGACGTACCCGCCATCCTGGACAGCCAGGCCCTGGCCGGGCGCGGCATCGCCGGCAGCCTCGATGGCCGGCGGCTGGCCCTGGGCAACCGTCGCCTGCTGGAGGAAAGCGGTCTGGAACCCGACGGCCTGGCCGAATCCGCACGAGCTTGGGAAGCCGAGGGGCGTACCCTGTCCTGGCTGATCGAGCAGGCGCCGCACCCGCATGTGCTCGGCCTGTTCGCCTTCGGCGATACGCTCAAGCCGGGCGCCGACGAGGCCGTGGCCCGGCTGAGCGCGCGCGGCATCCATAGTCACTTGATCACCGGCGACAACCGCGGCAGCGCGCGGGTGGTAGCCGAGGCGCTGAGCATCGACGATGTCCACGCCGAAGTACTGCCGGCGGACAAGGCCGCCACGGTCGCCTCGCTCAAGCAGGGCGGCGCGGTGGTGGCGATGGTCGGCGACGGCATCAACGACGCGCCGGCCCTGGCTGCCGCCGACGTCGGCATCGCCATGGGCGGCGGCACCGACGTGGCCATGCACGCCGCCGGCATCACCCTGATGCGTGGCGATCCGCGCCTGGTGCCGGCGGCCCTAGAAATCAGCCGGCGCACCTATGGCAAGATCCGCCAGAACCTGTTCTGGGCCTTCATCTACAACCTGATCGGCATCCCGCTGGCGGCCTTCGGCCTGCTCAGCCCGGTGGTCGCCGGCGCGGCCATGGCCCTGTCCAGCGTCAGCGTGGTAAGCAACGCGCTGCTGTTGAAAACCTGGAAACCGGAAGAGTGA	MASLNLDLPISGMTCASCAGRVERALRKVPGVQSATVNLANEQARIEANDATLPALIEAVEAAGYGVPSRTLELALGGMTCASCAGRIERALRKVPGVRDVTVNLASERAHLELLGDVDSATLVQAVEAAGYQARPLDDAQPAEDLAEKRLRHERWSALLALALALPLVVPMIAEWLGLHWMLPAWVQFLLATPVQFILGARFYVAAWKAVKAGAGNMDLLVALGTSAGYGLSLYQWWAAPAGVLPHLYFEASAVVIALVLLGKYLESRAKRQTSAAIRALEALRPERAVRVVDGREEDVAIAALRLGDQVLIKPGERFPVDGEVLEGQSHADEALISGESLPVPKRPGDTVTGGAINGEGRLLVRTTALGGETVLARIIRLVEDAQAAKAPIQKLVDKVSQVFVPVVLLIAVLTLGGWLLVGAELETALINAVAVLVIACPCALGLATPTAIMAGTGVAAQHGILIKDAEALEVAHGVTAVAFDKTGTLTSGTPRIARLAAVDGDESALLALAGALQRGSEHPLAKAVLDSCAEHGIDVPAILDSQALAGRGIAGSLDGRRLALGNRRLLEESGLEPDGLAESARAWEAEGRTLSWLIEQAPHPHVLGLFAFGDTLKPGADEAVARLSARGIHSHLITGDNRGSARVVAEALSIDDVHAEVLPADKAATVASLKQGGAVVAMVGDGINDAPALAAADVGIAMGGGTDVAMHAAGITLMRGDPRLVPAALEISRRTYGKIRQNLFWAFIYNLIGIPLAAFGLLSPVVAGAAMALSSVSVVSNALLLKTWKPEE	PGPT0004090_4534	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004090-copA|ctpA-K17686	NA	NA
BMS010_03572	369			hypothetical protein	ATGCGTATCCGCCCGTTGTTCCTCGCCCTCGGGGCCGCCTGGACGGCCCTGGCCGGCGCACAGACGCCCGTCGACTATGCGGTGCTGATCATCTCCCGCGAACGGCTGGAACTGCCCAACGCCTGCGACGTCGGCCTTTACCTGCAAGACCAACTGGCCGCCCGCCTGGTCCAGGGTGAAGCGGTTTCCTTCAACCTGCCCCCCGGCCCGCTGAGCATCCGCCTCGGCACCTTGGGCGCCGGCCCGTGCAAGCCCGGCATCGAGCAGCAGATGCGCCAAGACCTCCAGCTACAAGCCGGACAGATTCGCAAATACCGCCTCGCCCAGGGCACCCAGGGGCTTTACCTGATCGAGACGCCAAATCCATAG	MRIRPLFLALGAAWTALAGAQTPVDYAVLIISRERLELPNACDVGLYLQDQLAARLVQGEAVSFNLPPGPLSIRLGTLGAGPCKPGIEQQMRQDLQLQAGQIRKYRLAQGTQGLYLIETPNP				NA	NA	NA	NA	NA
BMS010_03573	198	copZ		Copper chaperone CopZ	ATGCAGATATTGAAAGTGCAGGGCATGTCGTGCGGGCATTGCGTCAAGGCGATCACCGAGGCCGTACAGTCCCGCGATCAGGCGGCGGACGTGCAGGTCGATCTGGGCGCCGGCGAAGTCCGGGTGGCCAGCCGGTTGCCGCTGGATGAACTGATCGAGACGATCCGAGAAGAGGGCTATCAGGTCAGCGCCGCCTGA	MQILKVQGMSCGHCVKAITEAVQSRDQAADVQVDLGAGEVRVASRLPLDELIETIREEGYQVSAA	PGPT0004125_3633	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004125-ATOX1|ATX1|copZ|golB-K07213	NA	NA
BMS010_03575	663	ribE_2		Riboflavin synthase	ATGTTCACCGGCATAATCGAAGCCATCGGCACCATTCGCGCGCTCAGCCCCAAGGGCGGCGATGTCCGTGTCTACGTCGAGACCGGCAAGCTCGACCTCTCCGACGTCAAGCTGGGCGACAGCATCGCGGTGAACGGCGTCTGCCTGACCGCGGTCGAGTTGCCCGGCAACGGCTTTTGGGCCGATGTCAGCCGCGAGACGTTGGCGCGCACCGCCTTCATCGACCTGAAGGCCGGCAGCCGGGTCAACCTGGAGAAAGCCCTCACACCCACCAGCCGCCTCGGTGGCCACCTGGTCAGCGGCCACGTCGATGGTGTCGGCGAAGTCGTCGAGCGCTCCGATAACGCCCGCGCCATACAGTTCCGCATTCGTGCCCCGCGCGAGCTGGCGCGCTATATCGCCCTCAAGGGCTCGATCACCGTGGACGGCACCAGCCTGACGGTGAACGCGGTGAACGGCGCCGAGTTCGAGCTGACCATCGTCCCGCACACCCTGGCCGAGACCATCATGGCCGACTACCGCCCCGGACGGCAGGTGAACCTGGAGGTGGACCTGCTGGCCCGCTACCTCGAACGCCTGCTGCTCGGCGACAAGGCTGCCGAGCCCGAGGCTTCCGGCATCAGCGAAAGTTTCCTGGCCGAACACGGCTACCTGAAGAATTGA	MFTGIIEAIGTIRALSPKGGDVRVYVETGKLDLSDVKLGDSIAVNGVCLTAVELPGNGFWADVSRETLARTAFIDLKAGSRVNLEKALTPTSRLGGHLVSGHVDGVGEVVERSDNARAIQFRIRAPRELARYIALKGSITVDGTSLTVNAVNGAEFELTIVPHTLAETIMADYRPGRQVNLEVDLLARYLERLLLGDKAAEPEASGISESFLAEHGYLKN	PGPT0008610_923	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008610-ribE|RIB5|ribC-K00793	NA	NA
BMS010_03576	1089	ribBA_2	COG0108	Riboflavin biosynthesis protein RibBA	ATGGCACTCAACAGCATCGACGAACTGATCGAAGACATCCGCCAGGGCAAGATGGTCATCCTCATGGATGACGAGGACCGGGAGAACGAAGGCGACCTAATCATGGCCTCCGAATGCGTGCAGGCCGAGCACATCAACTTCATGGCCAAGTACGCCCGTGGCCTGATCTGCATGCCCATGACCCGCGAGCGTTGCGAGCTGCTCAAGCTGCCGCTGATGGCGCCGCGCAACGGCTCCGGCTTCGGCACCAAGTTCACCGTCTCCATCGAGGCAGCCGAAGGCGTCACCACCGGCATTTCCGCCGCCGACCGCGCGCGCACCGTGCAAGTGGCCGCGGCGAAGAGCGCCAAGGCCGAGGATATCGTCAGCCCGGGTCACATCTTCCCGCTGATGGCCCAGCCCGGCGGCACCCTGGCGCGCGCCGGCCACACCGAGGCGGCCTGCGACCTGGCGCGGATGGCCGGGTTCGAGCCGAGCGGCGTGATCTGCGAAATCATGAACGACGACGGCACCATGGCCCGTCGCCCGGAGCTGGAAGTCTTCGCCGAGCAGCACGGGATCAAGATCGGCACCATCGCCGACCTGATCCACTACCGGCTGATCCACGAGCGCACCATCGAGCGTGTCGCCGAACAGCCGCTGGACAGCGAGCTGGGGCACTTCAATCTGGTGACCTACCGCGACTCGGTCGAGGGCGACGTGCACATGGCGCTGACCCTCGGCAAGATTTGCCCGGAGGAGCCGACCTTGGTGCGGGTGCACAACATGGACCCGCTGCGCGACCTGCTGATGGTCCGCCAGCCGGGCCGCTGGAGCCTGCGCGCGGCCATGGCCGAAGTGGCCAAGGCTGGCAGCGGCGTGGTGTTGCTGCTCGGCCATCCGCTGGAAGGCGACGCGGTGCTGGCGCATATCCGCGAGGCGGAGAGCGTGCCGAGCAAGGCGCCGACCACCTACAGCACCGTTGGTGCCGGTTCGCAGATTCTTCGCGACCTCGGCGTGCGCAAGATGCGCCTGATGAGTTCGCCGATGAAGTTCAACGCGATATCCGGTTTCGACCTGGAAGTTGTAGAATACCTCCCCGCTGAATGA	MALNSIDELIEDIRQGKMVILMDDEDRENEGDLIMASECVQAEHINFMAKYARGLICMPMTRERCELLKLPLMAPRNGSGFGTKFTVSIEAAEGVTTGISAADRARTVQVAAAKSAKAEDIVSPGHIFPLMAQPGGTLARAGHTEAACDLARMAGFEPSGVICEIMNDDGTMARRPELEVFAEQHGIKIGTIADLIHYRLIHERTIERVAEQPLDSELGHFNLVTYRDSVEGDVHMALTLGKICPEEPTLVRVHNMDPLRDLLMVRQPGRWSLRAAMAEVAKAGSGVVLLLGHPLEGDAVLAHIREAESVPSKAPTTYSTVGAGSQILRDLGVRKMRLMSSPMKFNAISGFDLEVVEYLPAE	PGPT0007990_4052	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0007990-ribBA-K14652	NA	NA
BMS010_03577	477	ribH		6,7-dimethyl-8-ribityllumazine synthase	ATGACCCTGAAGACCATCGAAGGTACCTTCATCGCCCCCAAAGGCAAATTCGCCCTGGTGGTCGGCCGCTTCAACAGCTTCGTCGTCGAAAGCCTGGTGAGCGGCGCCGTCGACGCCCTGGTTCGCCACGGTGTGAGCGAAAACGACATCGTCATCATCCGGGCGCCGGGTGCCTTCGAAATCCCCCTGGTTTGCCAGAAAGTCGCCCAGCAGGGCGAGTACGCCGCCATCGTCGCCCTCGGCGCGGTCATCCGTGGCGGTACCCCGCATTTCGAATACGTCGCCGGTGAGTGCACCAAGGGCCTGGCCCAGGTCTCCATGGAGTTCGGTGTACCGGTCGCCTTCGGCGTCCTGACTGTCGACACCATCGAGCAGGCCATCGAGCGTTCCGGCACCAAGGCCGGCAACAAAGGCGCCGAGGCCGCGCTTTCCGCCCTGGAAATGGTCAGCCTGCTGGCGGCCTTGGAGGCCAAGTGA	MTLKTIEGTFIAPKGKFALVVGRFNSFVVESLVSGAVDALVRHGVSENDIVIIRAPGAFEIPLVCQKVAQQGEYAAIVALGAVIRGGTPHFEYVAGECTKGLAQVSMEFGVPVAFGVLTVDTIEQAIERSGTKAGNKGAEAALSALEMVSLLAALEAK	PGPT0008605_2270	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008605-ribH|RIB4-K00794	NA	NA
BMS010_03578	489	nusB_2		Transcription antitermination protein NusB	GTGAGCCTGAATCGAGACGACAGCCCGGACGCCCAGCCGACACCGCCGGCAAAGGGCAAGATCGCCCAGCGCCGGGTCGCGCGCAGCCTGGCCATGCAGGCCCTGTATCAGTGGCACATCGCCGGTCAGGCGCTGAACGAGATCGAAGCGCAGTTCCGCGTGGACAACGATTTCGCCGGCGTCGACGGTGCCTACTTCCATGAAATCCTGCATGGCGTGCCGCGCCAGAAGACCGAACTGGACGAGGCCATCGAGCCCTGCCTGGACCGGCCGATGGAAGAGCTCGATCCGGTCGAGCTGGCGATCCTGCGGCTGTCCACCTACGAGCTGATGAACCGCGTCGACGTGCCCTACCGGGTCGTGATCAACGAAGGCATCGAGCTGGCCAAGGTGTTCGGCGCCACCGACGGGCACAAGTTCGTCAATGGCGTGCTGGACAAGCTGGCCCCGCGCCTGCGTGCGGCCGAAGTGCGGGGCGAGAAGCGCTGA	MSLNRDDSPDAQPTPPAKGKIAQRRVARSLAMQALYQWHIAGQALNEIEAQFRVDNDFAGVDGAYFHEILHGVPRQKTELDEAIEPCLDRPMEELDPVELAILRLSTYELMNRVDVPYRVVINEGIELAKVFGATDGHKFVNGVLDKLAPRLRAAEVRGEKR	PGPT0009010_3	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0009010-thiL-K00946	NA	NA
BMS010_03579	969	thiL	COG0611	Thiamine-monophosphate kinase	ATGGGTGAGTTCGAGCTGATCCGCCGCTTCTTCGCCGCTGCGTCTTGCGCGCAGCCGGCGGAGGGCGTGGCCCGTGGCATCGGTGACGATTGCGCATTGCTCGACCTGCCGCCCGGCGAACAACTGGCGGTGTCCACCGACACCCTGGTCGCCGGCGTGCATTTCCCCGTTTCCTGCGATCCCTTCCTGCTCGGCCAGCGCGCCCTGGCGGTGTCCGCCAGCGACCTGGCCGCCATGGGCGCCACGCCCATCGGTTTCACCCTGGCGCTCACGTTGCCCACGGCCGACGCCGACTGGCTGCAGGCGTTCGCCAGAGGCCTGGATGCCATGGCCCGGCAGTGCCGGTTGGCGCTGATCGGTGGCGATACCACGCGCGGCCCGTTATGCCTGACCCTCACGGTGTTTGGCCGGGTGCCCCGTGGGCAGGCGCTGACCCGTGACGGTGCGCGCCCCGGCGATCTGCTCTGCGTCGGTGGCGATCTCGGCGATGCGGCGGGTGCGCTGGAGCTGGTGCTGGAACGGATGAGCGCACCCGAAGAGGTCGCCGCGCCCTTGCTGGCCCGCTACTGGTCGCCACAGCCGCAACTGACGCTGGGTCAGGCCCTGCGCGGACGCGCCTCGGCGGCGCTGGATATTTCCGACGGGCTGCTCGCCGATTGCGGGCACATCGCGAACGCCTCGGCGGTCGCACTGAGGATCGAGGCCGCCCGCTTGCCGCTTTCCCCCGCGCTGCTCGCGTTGCTGGGCGAGTCGAGGGCCGTCGAGTGCGCCCTGGGCGGTGGCGACGATTACCTGTTGGCTTTCACCTTGCCGGAGCAGCATCTCCCCGCCCTGCGTGCCGAAGATTGGCCGGTGCGGGTCATCGGCCGCGTGGAGGCTGGCGAAGGGGTTCAACTGCTCGATGCGGCAGGCCGGGTCATCGACCCGCCGGCCCGGGGCTATCAACATTTCGGGAGTGCCGGTGACTGA	MGEFELIRRFFAAASCAQPAEGVARGIGDDCALLDLPPGEQLAVSTDTLVAGVHFPVSCDPFLLGQRALAVSASDLAAMGATPIGFTLALTLPTADADWLQAFARGLDAMARQCRLALIGGDTTRGPLCLTLTVFGRVPRGQALTRDGARPGDLLCVGGDLGDAAGALELVLERMSAPEEVAAPLLARYWSPQPQLTLGQALRGRASAALDISDGLLADCGHIANASAVALRIEAARLPLSPALLALLGESRAVECALGGGDDYLLAFTLPEQHLPALRAEDWPVRVIGRVEAGEGVQLLDAAGRVIDPPARGYQHFGSAGD	PGPT0009010_2453	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0009010-thiL-K00946	NA	NA
BMS010_03580	486	pgpA	COG1267	Phosphatidylglycerophosphatase A	GTGACTGACACGGTAAAAGCACCTTCCACGGTGTGGCGTAACCCCTGGCACTTCGTGGCCTTCGGCTTCGGCTCGGGCACCCTGCCCAAGGCGCCCGGCACCTGGGGGTCGCTGGTCGCGCTGCCGTTCATCCCGCTCTGGCAGATGCTGCCGGACTGGGGCTACTGGCTGATGCTCGGCGTCACCATGCTGTTCGGCTGCTGGCTGTGCGGCAAGGTGGCCACCGACCTCAAGGTGCATGACCACGAAGGCATCGTCTGGGACGAGATGGTCGGTATGTGGATCACCCTCTGGCTGGTGCCGGAGGGCTGGGTCTGGCTGCTGCTAGGCTTTCTGGTATTCCGGGTGATGGACATCGCCAAGCCCTGGCCGATCCGCTGGATCGACCGTCACGTCCACGGTGGCTTCGGCATCATGCTCGACGACGTGCTGGCGGGTGTCTTCGCCTGGCTGGCGATGCAGTTGATCGTCTGGGCGGTGCTGTAG	MTDTVKAPSTVWRNPWHFVAFGFGSGTLPKAPGTWGSLVALPFIPLWQMLPDWGYWLMLGVTMLFGCWLCGKVATDLKVHDHEGIVWDEMVGMWITLWLVPEGWVWLLLGFLVFRVMDIAKPWPIRWIDRHVHGGFGIMLDDVLAGVFAWLAMQLIVWAVL	PGPT0007710_1106	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATASE_ACTIVITY,PGPT0007710-pgpA-K01095	NA	NA
BMS010_03581	726			hypothetical protein	ATGCGCACTTGGTTATGCGGATTGCTGCTGGGCATGCTCGGCTGGACCACGGTCCTGGCCGGTGAGCCGCTGCCCGATCGCATTCGCATGGTCAGCGAGGTCTGGGAAGACCACACCAATGCCGACGGTACCGGGCTGGCCTGGGAGCTGTTGCGCGAAGTCTTCGAGCCCGTGGGCGTCAAGCTGGAATACCGCAGCATGCCCTATACCCGTTCCACCGGGCTGGTGCTGCGTGGCGACGCGGACGCCTGGGTCGGCTCCTACCTCAACGAAGTCGAAGGGGCGTTCTATCCGCGCTGGCACTACGACGCCGACCGCATCTGCGCGCTCGGCCTGAAAGACAAGCCGGCACCGACCCTGGAGACCATCGGCGATTACCGGCTGGTCTGGCTGCGTGGCTACGAGTACCAGCAATACTTGCCGAATTTGAAGCAATACCAGGAAATCCAGCGTTCGGGCAGTATCCTTGCGATGCTCGCCTACGGCCATGCCGACTACTATCTGGATGCCCAGACCGAGATCGAGGAACTGCTCGAGCAAGCCAAGGACAAGGACGCCTACCGGGTTACCCGGCTGACTTTGTTGCCGCTCTACCTGGGCTTCACCGACAGCCCGCGCGGGCGCCAGTTGGCTGCGCTGTTCGACCGGCGCATGGCGGAGCTGGTACGGTCCGGGCGCCTGCGGCCGATGTTCGAGCGCTGGAAGCAGCCTTACCCTTTCGATTGA	MRTWLCGLLLGMLGWTTVLAGEPLPDRIRMVSEVWEDHTNADGTGLAWELLREVFEPVGVKLEYRSMPYTRSTGLVLRGDADAWVGSYLNEVEGAFYPRWHYDADRICALGLKDKPAPTLETIGDYRLVWLRGYEYQQYLPNLKQYQEIQRSGSILAMLAYGHADYYLDAQTEIEELLEQAKDKDAYRVTRLTLLPLYLGFTDSPRGRQLAALFDRRMAELVRSGRLRPMFERWKQPYPFD	PGPT0020800_14257	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_03582	648			hypothetical protein	ATGCGTCGTTTCAAACTGATCTGTGCCGGCCTGTTGCTGGTGACCTCGCTGTCAGGCCAGGCGGAGACCCAGGTGCAGGTAGTGGGCCTGTTCCCGGGAGCGGCCGTGCTCAACGTGGACGGCCAGCGCAAGCTGGTGAAGGTCGGCCAGACCGGGCCCGGCGGGGTGGTGGTGGTCAGTGCCGACAGTCGCGGCGCCGTGCTGCGGGTGGACGGTGTGGAACGCACCTACGGCATGACGCGCGAGTACAGCCAAGGCTTCGCCGCGCCGACCCGCAGCCAGTTGAGCATTGCCCAGGGCGCGGGAGGCCACTACTGGGTCGCCGGCTCCATCAACAGCCATCCGGTGCAGTTCCTGGTGGATACCGGAGCCACCTCGGTGGCGATGAACGAAGCCCAGGCCCGGCGCCTCGGCCTCGACTTCCGCGTCAACGGCCGGCCCATGGTGGTGAGCACCGCCAGCGGTACGGCCAAGGCCTGGCGGGTCGACCTCAACAGCGTGAAGGTCGGCGGCCTGGAAGTCCTCGGCGTCGAAGCCGTGGTGCTGGAAGGCGATTCGCCCACCGAAGCACTGCTCGGCATGAGCTTCCTCAACCGCGTGCGTTGGCGCGAGGAACAGGGCGTGCTCATGCTGGAATCAAAAATGTAA	MRRFKLICAGLLLVTSLSGQAETQVQVVGLFPGAAVLNVDGQRKLVKVGQTGPGGVVVVSADSRGAVLRVDGVERTYGMTREYSQGFAAPTRSQLSIAQGAGGHYWVAGSINSHPVQFLVDTGATSVAMNEAQARRLGLDFRVNGRPMVVSTASGTAKAWRVDLNSVKVGGLEVLGVEAVVLEGDSPTEALLGMSFLNRVRWREEQGVLMLESKM	PGPT0015885_343	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-PILUS|FIMBRIAE_SYSTEM	MOTILITY-PILUS_SYSTEM,PGPT0015885-perP-K06985	NA	NA
BMS010_03583	618			Riboflavin biosynthesis protein	GTGTCCGTCGTCTTCGTCGCCGCCTCCCAACTGCCGACGCCCTTTGCGGTTTTCACCATGCACGGTTTTCTCGACGAAGCCAGCGGCAAGGAACATGTGGCCCTGACCTTGGGCGACGTGGGCAATGGCGAGCCGGTGCTCGGTCGTCTCCATTCCGAATGCCTGACCGGCGATGCGCTGTTCAGCCTGCGTTGCGACTGCGGCTTCCAGCTGGAAGCCGCGTTGCGTGCCATCGCCGCCGAAGGTCGGGGCGTGCTGCTTTATCTGCGTCAGGAAGGCCGGGGGATCGGCCTGCTGAACAAGATCCGCGCCTACGAGTTGCAAGATGGCGGGGCGGATACCGTCGAAGCCAACGAGCAGCTCGGTTTCGGCGCCGACATGCGCGATTACGCGATCTGCAAGCCGATGCTGGAACACCTGGGCATCACCGCACTCAAGCTGATGACCAACAACCCGCGCAAGGTCAACGCGTTGGAAGGTTTCGGCGTACGCGTGGCGGAGCGCAAGCCGTTGCAGACCGGGCTCAACCCGCACAACCGCAAGTACCTCGCGGCCAAGGCCGGCAAGCTTGGCCACCTGCTCGGCAACCTCCACCAGGGCGAAGTGGAACAACCATGA	MSVVFVAASQLPTPFAVFTMHGFLDEASGKEHVALTLGDVGNGEPVLGRLHSECLTGDALFSLRCDCGFQLEAALRAIAAEGRGVLLYLRQEGRGIGLLNKIRAYELQDGGADTVEANEQLGFGADMRDYAICKPMLEHLGITALKLMTNNPRKVNALEGFGVRVAERKPLQTGLNPHNRKYLAAKAGKLGHLLGNLHQGEVEQP	PGPT0007985_1277	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0007985-ribA-K01497	NA	NA
BMS010_03584	420			hypothetical protein	ATGACCCGTGGCGAAGTGCGGCGCCGACTGGCCATGGAGTGGTGGCGCCAGCTCGCCCTGACCCTGGCCCCGGTATTCGTCTTCAGCCTGCTGTTCGGCAGCGCCGATCCGATCATGCCGGTACTGCAGATGCCGCTGTTCGTCGCCGGCCTGGCCTCGCTGTTCTTCAGCCTGCCGCAGTTTCATGCCTACAAGCGCGGCCTGATCGCCACCGAGAAGGCCCTGGATACGCCCGAAGAGCCGGCAGCCTGGCTCGAACTGGCGCGTCGTCGGCGCATCGCCTTCCTGGCGGCCGGGCTCCCCGCCTGGATCGCCGCCCTGGCGGTATTCGTCGGCCTCGAAGCGATCCCCCTGATGCTGCTGGCCATCGCCAGCCTGGTCCTGTTCTACCTCTACCGCATTCCGGCTCAACTGCATTGA	MTRGEVRRRLAMEWWRQLALTLAPVFVFSLLFGSADPIMPVLQMPLFVAGLASLFFSLPQFHAYKRGLIATEKALDTPEEPAAWLELARRRRIAFLAAGLPAWIAALAVFVGLEAIPLMLLAIASLVLFYLYRIPAQLH				NA	NA	NA	NA	NA
BMS010_03585	795	btuF_1	COG0614	Vitamin B12-binding protein	ATGCGCGCTGTCCTGTTAGTCCTCTGTTGGCTGGCCCTGCCGGTGCAGGCGGCCGAACGGGTGGTGAGCCTGGCGCCTTCCCTCAGCGAACTGATGCTGGAGTTGGAGGCTGTGGACCTGCTGGTGGGTGTGCTGGATGGCGGCGAGCGGCCGCCGGCGCTGGCGGACAAACCTTCGGTCGGCCGTTACGGCCAGTTGGAGATGGAACGCCTGCTGCGCTTGCGCCCCGATCTCATCCTGCTCTGGCCGGACAGCATCGGCCCCGGCCAGCGCGATCAGCTCCGCCAGCTCGGCATTCCCCTCTACGAGGCCGAGCCGCATCGGCTGGCGGACCTCGCCGATCAGGCCGCCGAGCTCGGCGAGCGCATCGGCCGGGGCAAACGGGCTCGCCAGGTGACCACCGCCTTCCGCTCGCGGTTGATCGCGTTTCAGCAGCGTTATCGGCGCGAGCGGCCGCTGACGGTGTTCTATCAGATCTGGGACCAGCCGCTATACACCGTCGGTGGCCGGCAGATCATCAGCGATGCCCTGCGCGTCTGCGGGGCCGAGAATGTCTTTGCCGACCTCCAGCAACCGGCGCCGCAGATCAGTGTGGAGGCGGTGCTGGCGCGCAATCCGCAGGTGATCCTGGCCAGCGAAGCGAAACTGATCGACGGTTGGAAAGCCTGGCCGCAACTGGATGCGGTGCGCCACGGGCAGGTCTGGGCCGTACCCGACCGAGGCCTGGAGCGCCCGAGCCTGCAGATGCTGGAGGCGACCGCACGGCTGTGCGAGCTGCTGGAGCAGGCACGCTAG	MRAVLLVLCWLALPVQAAERVVSLAPSLSELMLELEAVDLLVGVLDGGERPPALADKPSVGRYGQLEMERLLRLRPDLILLWPDSIGPGQRDQLRQLGIPLYEAEPHRLADLADQAAELGERIGRGKRARQVTTAFRSRLIAFQQRYRRERPLTVFYQIWDQPLYTVGGRQIISDALRVCGAENVFADLQQPAPQISVEAVLARNPQVILASEAKLIDGWKAWPQLDAVRHGQVWAVPDRGLERPSLQMLEATARLCELLEQAR	PGPT0004685_516	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_TRANSPORT,PGPT0004685-btuF-K06858	NA	NA
BMS010_03586	603			hypothetical protein	ATGGCCAACCGACTCATCCTCGCGACCCTGCTGCTCGGCCTCGCCGGCTGCCAGAGCCCGAATCCCTATACCGCCAGCTCCAACCCGCTGCCGCCGGCGCCTCCGCAGGCGGCCAACACCCTCGACCTCAGCGCCTACCCGGCCGCGCCGCGTGACTATGGGCGCTATCGCAGCTGGACCTGGCTCGATGGCCGCCTGCCGGCCGGTTCGGCCTGGGCCAGTCCAGAGCAGATTCGCGAAGCCCTCAGTGCCGCTCTCGATCAGCGGGGGCTACGCCCGGCCCAGGCCGGCGCCACGCCCGATCTCAAGGTCAGCGCCGACATGCGCCTGGAGCGCCGTCTGCGCCAGGTCCGCGAGGATTACGGCGGCTACTACGGCCACGGTCGTTACTGGAATGACTACGGCGCCTGGGGCAGCGTGCCCATCGTGCGGACTTACGAAGAAGAGGTGATCGTGGTGCGCGTCGACCTCTACGACGCCGCCGACGGCCAACCGGTGTGGAGCGGTACCGGGGAGATGTACAACCGCGGCGACCAGGCCGAACGCGCCGACGCGCTGCGTGAAGCGATCAAGCGCGCCCTGGAAAGCTATCCGCCGGCGTAA	MANRLILATLLLGLAGCQSPNPYTASSNPLPPAPPQAANTLDLSAYPAAPRDYGRYRSWTWLDGRLPAGSAWASPEQIREALSAALDQRGLRPAQAGATPDLKVSADMRLERRLRQVREDYGGYYGHGRYWNDYGAWGSVPIVRTYEEEVIVVRVDLYDAADGQPVWSGTGEMYNRGDQAERADALREAIKRALESYPPA				NA	NA	NA	NA	NA
BMS010_03587	753	cmoM	COG0500	tRNA 5-carboxymethoxyuridine methyltransferase	ATGAAGGATCGCCACTTCGACGAACTGGCCACCCGCTTCGCCGAGAAAATCTACGGAGGCGCCAAGGGCGCGATCCGCCTGGCCGTGCTCCAGGCCGACCTGGCCGAAGCGCTGCCGCAGCGCTCGCTGCGGGTGCTGGACGTCGGCGCCGGGCTCGGCCACATGGCCTTGTGGCTGGCCGAGCGTGGCCATCGGGTCACCCTTGCCGAGCCGGCCGAGCCCATGCTCGAAGCCGCCCGCGAACGCTTCGCCCAGGCCGGACAGCCGGCCTCCTTCATCCAGGCGCCCTGGCAGGACCTGTTGGGCCAACTCACCGAACCCTACGACCTGGTGCTCTGCCACGCGGTGCTGGAGTGGCTGGCCGAGCCCCACGCCATCCTGCCCGTGCTGCACCAGCTCTGCGCACCCGGCGGCTGGCTGTCGCTGGCCTTCTATAACCGTGATGCGCTGATCTACCGCAACCTGCTCAAAGGCCACTTCCGCAAGCTGCGCAAGGAGAAGTTCGCCGGCGAAGGCCAGAGCCTGACGCCCCAGCGTCCACTGGACCCACGCGAACTGGAGGGGCAACTCGATAGGTTCTGGACGGTCGAAAGCCGTAGCGGCGTACGGGTGTTTCACGACTACATGCCCCAGGAATTCCAGGCCCGCGCGGAGCTGATCGACCTGCTGGAGATGGAGCTGGCCTACCGGCGCCATCCGAGCTTCGCCGGACTGGGACGCTACCTGCATTGGATCTGCCGTCCGGCGGCGTAG	MKDRHFDELATRFAEKIYGGAKGAIRLAVLQADLAEALPQRSLRVLDVGAGLGHMALWLAERGHRVTLAEPAEPMLEAARERFAQAGQPASFIQAPWQDLLGQLTEPYDLVLCHAVLEWLAEPHAILPVLHQLCAPGGWLSLAFYNRDALIYRNLLKGHFRKLRKEKFAGEGQSLTPQRPLDPRELEGQLDRFWTVESRSGVRVFHDYMPQEFQARAELIDLLEMELAYRRHPSFAGLGRYLHWICRPAA	PGPT0023655_596	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-SAM|QUEUOSINE|LIPID_METABOLISM,PGPT0023655-smtA-K06219	NA	NA
BMS010_03588	306			hypothetical protein	ATGAACCTCGACGAACTCACCCAACGCCTGCACGCCATCCGCGACCGTAACGATTGGCGCCGCTTCCACAGCCCGAAGAACCTGGCGATGGCCGCCAGCGTGGAGATGGCCGAGCTGGTGGAAATCTTCCAGTGGCTGAGCGAGGACGAATCGCGCCGCCTGCCCCCGGAAAAACTGGAGCACGCCGGCCAGGAAGTCGGCGACATCGTGCTTTATCTCCTGTTGCTCTGCGCCGAACTGGGCATTGATATGGAACAGGCGGTGCGCGCCAAGCTGGCCGACAGCGAGCGGAGGTTCGCCCGATGA	MNLDELTQRLHAIRDRNDWRRFHSPKNLAMAASVEMAELVEIFQWLSEDESRRLPPEKLEHAGQEVGDIVLYLLLLCAELGIDMEQAVRAKLADSERRFAR	PGPT0004286_1	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_LEAD_RESISTANCE	LEAD_RESISTANCE-LEAD_HOMEOSTASIS,PGPT0004286-bmtA-NA	NA	NA
BMS010_03589	855			hypothetical protein	ATGTCCACCGATTGGCTCGACCTGCATACGCTTCCCGCCCTGCCCGGCCTGTTCGCCCGCGCCGCCTTGCGCCGTGGCGTGAAGGGCAAGACCCTGCCGGACCGTGGCCTGCGTTGCGAGGTGCAGGTCGATCCCCGGCACCTGGCGCGCTACCGCCAGGTCTGTGGCTTTCGCGACGATGGCCGGCTACCGGCCACCTATCCGCATATCCTCGCCTTCCCATTGCAGATGAAGCTGCTCACCGATCCGACGTTCCCGTTCCCCTTGCTCGGCCTGGTGCATCTGGAAAACCGCATCCGTGTGCTGCGTACCCTCGGCGGCCTCGGCCCCTTCCGCGTCAGTGTGCGGGTGGACAATCTGCAACCCCACGACAAGGGCGCGCTGTTCAGCCTGATCACCCGCCTGGAGGACCAGCTCGGCCTGCTCTGGGAGGGCGACAGCCGCATCCTTTGCCGTGCCGTGCGTCTGCCCGGCGATCCCGCCGAACGGGTCGAGGAGGCGCCGCTGCCACTGCTGCCGCTGGATCAATGGCAAGCCCCGGCCAACATCGGCCGGATGTACGCCCGGGTCGCCGGCGACTACAACCCGATCCACCTGTCCGCCCTCAGCGCCAAGATGTTCGGCTTTCCCCGCGCCATCGCCCATGGCTTGTGGAACAAGGCACGCAGCCTCGCTGCCCTGGCCGGGCATCTGCCGGATGCCGGATACGACGTGGAGGTGCGCTTCCAGAAGCCGGTGCTGTTGCCGGCCTCGGTCAGCCTGCTGGCCAGCGAACCGGCCCCACACGGGCAGTTCGCCTTGCGTGGGAAGGACGACCTGCCGCATATGAGCGGGGCCTGGCGGATGCTGGAGTGA	MSTDWLDLHTLPALPGLFARAALRRGVKGKTLPDRGLRCEVQVDPRHLARYRQVCGFRDDGRLPATYPHILAFPLQMKLLTDPTFPFPLLGLVHLENRIRVLRTLGGLGPFRVSVRVDNLQPHDKGALFSLITRLEDQLGLLWEGDSRILCRAVRLPGDPAERVEEAPLPLLPLDQWQAPANIGRMYARVAGDYNPIHLSALSAKMFGFPRAIAHGLWNKARSLAALAGHLPDAGYDVEVRFQKPVLLPASVSLLASEPAPHGQFALRGKDDLPHMSGAWRMLE				NA	NA	NA	NA	NA
BMS010_03590	1002	virS_2		HTH-type transcriptional regulator VirS	ATGATGCGTGATCTGACCGACGATGTGGCGTTGATGCGCCCGGTGATCGACGCCCTGCGTGCCAGCGGAACCGATCCCGATCGGGTGTTGGGGCGTGTCGGCCTGCCGCCGGGCGGTCTGCCGGCCGGCCGTTTTCCTCATTCCGCCCAGGCGCTGTTCTGGAAAGCCGCGGCCGAGGAATGCGGCCAGGAACATGTCGGCCTGTACCTGGCCCGGCACCTGCCGGCCTTTCACGGCCTTCTCCTCGAGTACCTGTTCCTCTCCAGCGAAACCTTCGGCGACGGCCTGCGTCATGCGCTGCGCTACGTGCGCCTGCTTTCCGACACCCTGAATGCCCGCCTGGACGTACAGGGTGAGCTGGCCATCCTGTCCCTGGGGCAGATGTCCGATACCACCCGGCACTTCCCGGAAATGCTCGCCGGGGCGGTGATCCGCCTGTTCGATGCGCTCACCGAAGGCGACTTCACCCCGCACGAGGTACGCCTGATGCACAACGAAGGCGCTCCGGAAGACCTGTACGAAGAGGTCTACGGCTGCCCGGTGCAGCTGGGTGCCGACAGCTATGCGCTGGTCTTCGACGCCGCCGTGCTGGGTAAACCGTCGCGCCACGCGGCGCCGGAACTGCTACGCATGCACGAATCCCTGGCGCGGCGGCAACTGGCCGAAGTGGAACGGCTGGACCTGGTGCGCCAAGTGCGCGAATTGATCGGTGAACTGCTGGTGGACAGCGGCGCCACCCTGGAACAGGTCGCCGCCCGCCTGAACATGCCGCCGCGCCGTCTGCGCGAGCGCCTGGCCATGGCCGGAGTGCGTTTCAACGACCTGGTGACCGACTACCGCTGCCGACTGGCCAAGGAACTGCTGCTGAAGACGGATGAACGCATCGAGGTCATCGTCGAGCGGACGGGCTTTTCCGAGCCGAGTACCTTCTACCGGGCCTTCAAGCGCTGGGTCGGCGAAACCCCCGTGGAATTCCGCCGGCGCGGCAAGGGCGAAGCGTGA	MMRDLTDDVALMRPVIDALRASGTDPDRVLGRVGLPPGGLPAGRFPHSAQALFWKAAAEECGQEHVGLYLARHLPAFHGLLLEYLFLSSETFGDGLRHALRYVRLLSDTLNARLDVQGELAILSLGQMSDTTRHFPEMLAGAVIRLFDALTEGDFTPHEVRLMHNEGAPEDLYEEVYGCPVQLGADSYALVFDAAVLGKPSRHAAPELLRMHESLARRQLAEVERLDLVRQVRELIGELLVDSGATLEQVAARLNMPPRRLRERLAMAGVRFNDLVTDYRCRLAKELLLKTDERIEVIVERTGFSEPSTFYRAFKRWVGETPVEFRRRGKGEA				NA	NA	NA	NA	NA
BMS010_03591	1353			hypothetical protein	ATGTCCGATCGTTATATCGACTTCGCCAACTCCAGCTTCGGCCGCCGCCTGGTCGATGCCGTCGGCCTGCCGGCGCCGGTGCGCCTGGAGCGCTGGGAGGCCGGCCGTTCGCGGCCGGTGGACGGGGCGCTGCTGATCGGCGGCGGCGTCCTGGCCGAAGCGCTCGGCGACTGCCTGCCGCGCCTGACCAACGAAGTGTTCGCGTTGCAGGAGGGTCTGCACGGTCTGCCGCGCTGGACCGCCGAGCACGGGCCGAAGCTGAAGGCGCTGGTATTCGACGCCAGCGGCATCGCCAGCACCGAGCAGCTCGGCCAGTTGCGCGAGTTCTTCCAGCCGGCGCTCAAGGGCCTGGCGCTGTGCCCGCGGGTGGTGGTGCTCGGCCGGGCGCCCGAATCCCTCAAGGACCCATTCGCCGCCAGCGCCCAGCGCGCGCTGGAGGGGTTCACCCGCTCGCTCGGCAAGGAAATCCGTCGCGGCGGCAGCGTGCAGTTGCTGTATGTCGGCAAGGGTGCCGAGGATCAATTGGAAGGCGCCCTGCGCTTTTTCCTGTCGCCGAAAAGTGCCTATGTCTCCGCTCAGGTGCTGCGCCTGACGCCTTGCCCGACCCAGGTGAAGGATTGGACGCGCCCGCTGGCCGGCAAGAAGGCCCTGGTGACCGGCGCCTCGCGCGGCATCGGCGCGGCCATCGCGGAAACCCTGGCGCGCGACGGGGCCGAGGTGATCCTGCTCGACGTGCCGCCGGCCAAGGAGGCGCTGGACGCCCTGGCCGCGCGCCTGGGCGGACGCGGGGTGGCGCTGGACATCTGCGCCGAGGATGCGGCCATCAAGCTGGTCGAAGCGCTGCCGGAAGGGCTGGATATTCTCGTCCACAACGCAGGCATCACCCGCGACAAGACCCTGGCCAAGATGAGCGAGCAGCTCTGGGATTCGGTGATCGACGTGAACCTGCGCGCCCCGCAGGTGCTGACCAAGGCGCTGCTCGACGCCGACAAGCTGCACGAGAACGCCCGCGTGGTGCTGATCGCCTCGATCAGTGGCATCGCCGGCAACATGGGGCAGACCAACTACGCGGTGAGCAAGGCCGGGCTGATCGGACTCGCCCAGGCCTGGGCGCCGGCGCTGGGTAAGCGCGGCATCACCATCAATGCGGTGGCGCCGGGCTTCATCGAGACGCAGATGACCGCCGCCATCCCCTTCGCCATCCGTGAGGCCGGTCGGCGGATGAATTCCATGGGCCAGGGCGGCCAACCCCAGGACGTGGCCGAAGCCGTGGCCTGGTTCGCCCAGCCGGGCTCCGGCGCCGTGAGCGGACAAGTGCTGCGGGTGTGCGGGCAGAGCCTGCTGGGCGCGTGA	MSDRYIDFANSSFGRRLVDAVGLPAPVRLERWEAGRSRPVDGALLIGGGVLAEALGDCLPRLTNEVFALQEGLHGLPRWTAEHGPKLKALVFDASGIASTEQLGQLREFFQPALKGLALCPRVVVLGRAPESLKDPFAASAQRALEGFTRSLGKEIRRGGSVQLLYVGKGAEDQLEGALRFFLSPKSAYVSAQVLRLTPCPTQVKDWTRPLAGKKALVTGASRGIGAAIAETLARDGAEVILLDVPPAKEALDALAARLGGRGVALDICAEDAAIKLVEALPEGLDILVHNAGITRDKTLAKMSEQLWDSVIDVNLRAPQVLTKALLDADKLHENARVVLIASISGIAGNMGQTNYAVSKAGLIGLAQAWAPALGKRGITINAVAPGFIETQMTAAIPFAIREAGRRMNSMGQGGQPQDVAEAVAWFAQPGSGAVSGQVLRVCGQSLLGA	PGPT0003180_381	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0003180-ymfI|fabG|efpI-K00059	NA	NA
BMS010_03592	1278	fadI	COG0183	3-ketoacyl-CoA thiolase FadI	ATGACCCAGCTGCGCCGGGTCGCCATCGTCGGCGGCAACCGTATTCCCTTCGCCCGCTCCAACAGCGCCTACGCCACGGCGAGCAACCAGGAGATGCTGACCGCCGCCCTCGAAGGGCTGGTCGAGCGCTTCAACCTGCATGGCCTGCGCCTCGGCGAAGTCGTCGCCGGCGCGGTGCTCAAGCATTCCCGCGACTTCAACCTGACCCGCGAATGCGTGCTCGGCTCGCGCCTGGCGCCGGAGACCCCGGCCTATGACATCCAGCAGGCCTGTGGCACCGGCCTGGAAGCGGCGATCCTGGTGGCCAACAAGATCGCCCTCGGGCAGATCGACTGCGGCATCGCCGGGGGCGTGGACACCACCTCCGACGCCCCCATCGGTGTCAATGAAGGGTTGCGCAAGATCCTGCTGGAGGCCAACCGGGGCAAGACCACCGGCGACAAGATCAAGGCCCTGCTGAAAGTCCGCCCGCGCCACCTGGCCCCGGCGATCCCGCGCAACGGCGAACCGCGCACCGGCCTGTCCATGGGCGAGCACTGCGAGCGGATGGCGCAGACCTGGGCGATCCCCCGCGACGAACAGGACCGCCTCGCCTACGAGAGCCACCAGAAAATGGCGGCGGCCTATGCCGAAGGCTGGCACGACGACCTGCTCACCCCGTTCCGCGGCCTGACCCGCGACCAGAACCTGCGCACCGACATCAGCCTGGAAAAACTCGCCACCCTCAAGCCCTGCTTCGACCGGGGCCCGCGCGGCACCATGACCGCCGCCAACTCCACCCCGCTGACCGACGGCGCCTCGGTGGTGCTGCTGGCCAGCGAAGACTGGGCCAAGGCCCGCGGCCTGCCGATTCTCGCCTACTTCAAGGATGGCGAAGCGGCGGCGGTGGACTTCGTCGGTGGCGCCGAAGGGCTCCTGATGGCACCGGCCTATGCCGTGCCGCGCCTGCTGGCGCGCAACAACCTGACCCTGCAGGACTTCGACTACTACGAAATCCACGAAGCCTTCGCCGCCCAGGTGCTCTGTACCCTCAAGGCCTGGGAAGACGCCGACTACTGCAAGACCCGCCTCGGCCTCGACGCCCCGTTGGGTGCCCTCGACCGCACCAAGCTCAACGTCAAGGGCAGCTCCCTCGCCGCCGGCCACCCCTTCGCCGCCACCGGAGGGCGCATCGTCGCCAACCTGGCCAAGCTGCTCGACGCAGCAGGGCAGGGACGCGGCCTGATCTCCATCTGCGCGGCTGGCGGGCAGGGCGTGACGGCGATTCTCGAACGCTGA	MTQLRRVAIVGGNRIPFARSNSAYATASNQEMLTAALEGLVERFNLHGLRLGEVVAGAVLKHSRDFNLTRECVLGSRLAPETPAYDIQQACGTGLEAAILVANKIALGQIDCGIAGGVDTTSDAPIGVNEGLRKILLEANRGKTTGDKIKALLKVRPRHLAPAIPRNGEPRTGLSMGEHCERMAQTWAIPRDEQDRLAYESHQKMAAAYAEGWHDDLLTPFRGLTRDQNLRTDISLEKLATLKPCFDRGPRGTMTAANSTPLTDGASVVLLASEDWAKARGLPILAYFKDGEAAAVDFVGGAEGLLMAPAYAVPRLLARNNLTLQDFDYYEIHEAFAAQVLCTLKAWEDADYCKTRLGLDAPLGALDRTKLNVKGSSLAAGHPFAATGGRIVANLAKLLDAAGQGRGLISICAAGGQGVTAILER	PGPT0008320_1425	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
BMS010_03593	840			hypothetical protein	ATGCCGCTGCGTACCCTGCTGCTGACGGCCCTGGCAATGATTGCCTTTGCCGGTAACTCCCTGCTCTGCCGGTTGGCGTTGAGGGAAACGGAGATCGATGCCGCCAGTTTCACCGGGGTGCGGATTCTGTCCGGGGCGGCCATGTTGTGGTTGTTGCTGCGTTTTCGCCGGGGCGATGGGGCGCCGGCGGGGAACTGGTGGTCGGCGCTGGCGCTGTTCGCCTATGCCGCTGCGTTTTCCTTCGCCTATATCCGCCTGGATGCCGGGGCCGGCGCCTTGCTGTTGTTCGGCGCGGTGCAGGTGAGCATGTTGTGCTGGGGGCTGTATCGGGGGGAGCGGCTGGGCCTGTGGGCCACGCTGGGGTTGCTGCTGGCGATGGCGGGGCTGGTGGCGCTGCTGTTGCCGGGGGCGAGCGCACCGCCCTTCTTCAGCGCAGTGCTGATGCTGCTGGCCGGCGTGGCCTGGGGTGTGTACTCGCTGTTGGGCCGTGGAGTGGCCGATCCGCTGGCGGCGACAGCGGGGAATTTCCTGCGGGCGATTCCGTTTGCCGTGGTGCTTGGACTGGCCTGGCTCGGCGGGATGCACTGGGACGGCGCCGGCTTCGTCTATGCGCTGCTCTCCGGCGCGGTGACGTCGGGCGTCGGTTATGCGATCTGGTATACCGCGCTGCGCGGGTTGCGCTCGTTGCAGGCGGCCAGCGTGCAGCTCAGCGTGCCGGTGCTCACCGCCCTGGCCGGCAGCCTGTTGCTGGACGAGGCGCTGACGCTGCGGCTGGCGCTGTGCAGCGTCGCGGTGCTCGGCGGCATCGCCCTGGTGCTGGGGACGCGGCAGCGCGGTTGA	MPLRTLLLTALAMIAFAGNSLLCRLALRETEIDAASFTGVRILSGAAMLWLLLRFRRGDGAPAGNWWSALALFAYAAAFSFAYIRLDAGAGALLLFGAVQVSMLCWGLYRGERLGLWATLGLLLAMAGLVALLLPGASAPPFFSAVLMLLAGVAWGVYSLLGRGVADPLAATAGNFLRAIPFAVVLGLAWLGGMHWDGAGFVYALLSGAVTSGVGYAIWYTALRGLRSLQAASVQLSVPVLTALAGSLLLDEALTLRLALCSVAVLGGIALVLGTRQRG				NA	NA	NA	NA	NA
BMS010_03594	696			hypothetical protein	ATGACTGATCGCGAGCAGCTCCATCGAGAAGGCTATGCGCTGCTCCGTCGAGCGATCCCGGCCGAGTGGCTGGATGACCTTCGCGTCGTGTTCGATGCAGGGGTGAAGCCGTCGGACCAATGGCCGGTACCGCGCGGCATGGACTGGCGCCATTCGTTGCTGGACGTCGAGGCGAAGGTCCAAGCCGTGTGTCGTCTGCCGCCGCTGCTGGCGGTGGTTGGCGAGTTGATCGGCGAACGCTTCTTCCTCTCGCAGGTGGAGGGGCGCGAACCCCTTGCCGGTGGCGGCTACCAGCAGTTGCACCGCGACCTGTCGGCCCAACGGCCAGGCGACAGCGTCAACGCCCTGGCGTATTTCGACGATTACGGCCCCGGGAATGGTGCGACCCGTGTCGTTCCCGGCAGCCATCGCCCGCAGCGGGGAGAGCCGCCGTTCGACCTCCAGGACGAATCCCGCTCCGTGCAACTTTCAGGCACCGCAGGCGACATCCTGGTGTTCGATGCCGATCTGGTGCACGCGGGCAGCCTGAACTCGACCGGCGCACGCCGCCGCTCCCTCCTGATCAGCTACTTTGCGGAGCCTCTCTACGCCGCACACCTGGAAACGGCGAGCCTCCGAGGCATTCGGATGGACACCGCCGAGCGTTTCGATCCCGCAGACTTTGACTTGGGAGAAATGCCTGATACTGCGCGGTGA	MTDREQLHREGYALLRRAIPAEWLDDLRVVFDAGVKPSDQWPVPRGMDWRHSLLDVEAKVQAVCRLPPLLAVVGELIGERFFLSQVEGREPLAGGGYQQLHRDLSAQRPGDSVNALAYFDDYGPGNGATRVVPGSHRPQRGEPPFDLQDESRSVQLSGTAGDILVFDADLVHAGSLNSTGARRRSLLISYFAEPLYAAHLETASLRGIRMDTAERFDPADFDLGEMPDTAR				NA	NA	NA	NA	NA
BMS010_03595	1317			hypothetical protein	ATGGCACGCGATCAAGGACCTGGGCCGATGCCCAGCGTTTGCCGACCGGCACTGAAAAACGACCCACCGAAAACCTGGCGAACACCCCAGGAACCCACTCTTCCACAGCCGCCTCTCGACGGCTGGGAGTTCGACAAGCAACCGCCTCGCGAACTCATCCGTCCCGATCCACCGCCTCCGCTCGAGCCCGTCCGGCGCGTCTGCTCCTTCGTCAAACACTGCGACCTGCCGGATGGCCAGATAAGCCGTCAGGGGCGGCTGTACGTTGATCTTCTGCGGGACTATGGCGAGGTTGCCGTGCTGGGGGCCAAGGAACGGGATGTCTCTGGGAACCTCCCGCTCGAGAGGATCAATGCTCCCGATTTGCCCAAGGAATTGGGTGGGCTGGCTATCGCTGGAGCAGCCGTAGGGGAAGCGGGTGGAGGGCTTGTCCCAGGCATCACGACGGGGGTTGCGGGTGGGCTCCTGATAGGGCTTGTGACACTTGTATGGTCAACCAGGATGGGCGATAGCGCGCTCTACACCGAAGACGAACTCAGAGGCATGGCCACGGCCCCGACACGGGTTAGGTTGCACATCGAACAACAGCCAGACGGCAAGCTCCGGGGCTATGCGTTCAACACCGAGCGCCTAGGGCAATGGGAACAGGTTCCTGTCGTGCAATTCCAGCCCCAAGGCGACCGGATGGTGGCGGATGTCAGTGGTATAGGGCTGATCTGGACACCCGCGACAGACCCCAACGACAAGGGGCGTATTCCCACCCTGGAGCAAGCCCCGAACACGCCGGCCATCTTGGTATTCCCCAGCGTGGAGAAGGCCGGAGAAACCTTCGTTAACCCCGTGCTGCCGGATGATTACCGGGACGCCATCGTAGTGTTTCCGGCTGACAGTGGTGTACCGCCACTGTATGTCGTGATGAACGTCCGGCTTGATCCTGGCGTGGTCACGGGGCAGGGTGAAGTGGTTACGGGAATATGGCTGGAACAGGCCAGCCGGGAGCTTGGGGCACCGATTCCGGCTCAGATTGCGGATAGGCTCAGGGGAAAGGCGTTTTCCAGCTTCGATGCGTTCAGGGCTGAGTTTTGGAGAACTGTGGCGGATGATGCGGAGTTGAGTGGGCAGTTTATTCCACAAAACCTCCAGCGTATGTTGGAAGGAAAAGCACCGCGGGCTAGGTTTATTGATACCGTAGGAAAGAGACGTTCTTTTGAGTTGCATCATGTTAAGCAGGTTGGCGAAGGCGGAGCTGTTTACGATTTAGAGAACATACGTGTAAACACGCCAAAAAATCATATTAAGATTCACCAAAAAGGATAA	MARDQGPGPMPSVCRPALKNDPPKTWRTPQEPTLPQPPLDGWEFDKQPPRELIRPDPPPPLEPVRRVCSFVKHCDLPDGQISRQGRLYVDLLRDYGEVAVLGAKERDVSGNLPLERINAPDLPKELGGLAIAGAAVGEAGGGLVPGITTGVAGGLLIGLVTLVWSTRMGDSALYTEDELRGMATAPTRVRLHIEQQPDGKLRGYAFNTERLGQWEQVPVVQFQPQGDRMVADVSGIGLIWTPATDPNDKGRIPTLEQAPNTPAILVFPSVEKAGETFVNPVLPDDYRDAIVVFPADSGVPPLYVVMNVRLDPGVVTGQGEVVTGIWLEQASRELGAPIPAQIADRLRGKAFSSFDAFRAEFWRTVADDAELSGQFIPQNLQRMLEGKAPRARFIDTVGKRRSFELHHVKQVGEGGAVYDLENIRVNTPKNHIKIHQKG				NA	NA	NA	NA	NA
BMS010_03596	267	imm_1		Colicin-E7 immunity protein	ATGGATTTTCTGAGCAAAAAAAGTCTTGAAGACTTTACGGAGTATGAGTTCATCGAATTTTTAAACGAAATATCGCGGCAAGATGAGTCCGACACGGATGAGCGTGCAGATCAACTACTAGAGCACTTTATAGTAATAACGGGTCATCCTGTTGGTAGCGACTTGATTTATTGGCCGGAGCCTGGGGCCGACAATTCGGCCGAAGGAATCACTAGAACAATCAAAGAGTGGCGGGCGGCTAACGGGTTGCCTGGTTTTAAGGAATAG	MDFLSKKSLEDFTEYEFIEFLNEISRQDESDTDERADQLLEHFIVITGHPVGSDLIYWPEPGADNSAEGITRTIKEWRAANGLPGFKE				NA	NA	NA	NA	NA
BMS010_03597	168			hypothetical protein	ATGACCTGTAAGACCTTCAAATTGGTCCAACAGAACAGCCAGTTTGTCATCTGGCGCTTCACCACAAGCTGTGATCAGACTTTCCATGAGGCTAATAAACTCTTGCTCGGTGTAATCGGAGAAATTTTTATCCATTGTAGGATCAACAATAACGTGGGCTCAGCTTGA	MTCKTFKLVQQNSQFVIWRFTTSCDQTFHEANKLLLGVIGEIFIHCRINNNVGSA				NA	NA	NA	NA	NA
BMS010_03598	126			hypothetical protein	ATGACCCAGAAAGGAAAACTGCATCCGAGCGAATACCAACGAATTACCGCGGAAGTTTATTATGACGCGTCACGCCGGAAAATGGTGTTCGCCCATGTCCCGACCAAGGGTTCCCAACGGACATAA	MTQKGKLHPSEYQRITAEVYYDASRRKMVFAHVPTKGSQRT				NA	NA	NA	NA	NA
BMS010_03599	474			hypothetical protein	ATGGAAAAGCGCGAAATCGACGAGCAACTCAAGAACCTGACGTTCGACATGGACGCCGAAATCGACGACCGCAACGAACGCCTCGGCCCTCGCTACTACGCTCCTCGCCACGCTCACCCACCCATGGAAACCAGCCACGCTATCGTGCTGGCCGCCCTCATCATCGTCGGCGGGCTCTGGGGTGGAAAATTGCTCTATGACTACATTCAGGAACAGCGCATAAAAGCAGCCCTCAGCCAAGCCGTACAAGACTCAAGGCGGGTACAAGCCGAGTTGAACCAACGAATGGCCGCCGAGGCCAGGGCCAGAGAACAGCGCCGGCTTGAAGAGCAGGTCCAGCGGCAAGCCGAACGTGCACGACTTGAGCAGGAACAGCGGTTTCAATCGGCGCAGTGCCAATTCTGGTGGCAGCAGCACAACCAAAATCCTACGGAGAGAACAGCGATGAAAAAGCGGGAGGCTTGCGGGATGTAG	MEKREIDEQLKNLTFDMDAEIDDRNERLGPRYYAPRHAHPPMETSHAIVLAALIIVGGLWGGKLLYDYIQEQRIKAALSQAVQDSRRVQAELNQRMAAEARAREQRRLEEQVQRQAERARLEQEQRFQSAQCQFWWQQHNQNPTERTAMKKREACGM				NA	NA	NA	NA	NA
BMS010_03600	249			hypothetical protein	ATGATCGAGGAAAGGCTTAGAACCTTGGTTCGCTACATCGGAGCAACCAAGCTGGCTGAGACCACAGCGATCAAAGAGCGCCAGCGGTGGCAAACCGTGGCCACGAACCGGAAGGTGAAGGCCCGCGTCGAGGATATGGAAGCGCTTTTGAAGGCCTTCCCACAGTACGAATTGTGGCTATGGAAAGGCGAAGTCGATCCCGATAACGGCCAAGTGGCCCCAAGCCACGACGTCTCCCAAGCCAACTAG	MIEERLRTLVRYIGATKLAETTAIKERQRWQTVATNRKVKARVEDMEALLKAFPQYELWLWKGEVDPDNGQVAPSHDVSQAN				NA	NA	NA	NA	NA
BMS010_03601	222			hypothetical protein	ATGGAACTGGAAGAGCTGGAACCTTCTAAGCTGGCGGGTTCGCATCAGGATGTGGAAACCATTGCGCAGTGGGCGCAGCGCAATGGGGTGTCTTTCGATACGGCGCGGGGGTGGGTGTACCGGGGCGTGCTGCCTTCGGTGAAGCTCGGCAAGCTGCGCATGGTGAACACGGCCTTGCTGCGTCGTTGGCTGCTGGAGCAGGGGTGGACGGATGAACGCTGA	MELEELEPSKLAGSHQDVETIAQWAQRNGVSFDTARGWVYRGVLPSVKLGKLRMVNTALLRRWLLEQGWTDER				NA	NA	NA	NA	NA
BMS010_03602	375			hypothetical protein	ATGAACGCTGAAAGCCTATCGCCGTTCCCGCGCTCTGCTCGCCGCGAATTGAAGCTGCTCTGCCTGGTGGAGCAGGCGCCGGATGGCGGTATTCGCTGCTTGCCCATTCATACCTGCTTTCTCCCGGACATCCCTTGGGCGGCGGTGCCGCGCAAATGGTCGAGGACGCTGCCCGCTGGCTTCATCCTGCGCGACGCCCGTGCCACCGCACCAAGCCCAGCGGCATTGGCGCGTTGCCGGCGCCAGCACTTGGTTGAGATGCGGGGCCGGCAGGGGCGGAACTTCCTGTGGAAACCCCTGCTCGTCGCGGCCCGCTGGGGCTTCCTGGGGCGAACGGCTTCGGTGTGTGCAGGCGAAGAGCTGTCGGACGGTTAG	MNAESLSPFPRSARRELKLLCLVEQAPDGGIRCLPIHTCFLPDIPWAAVPRKWSRTLPAGFILRDARATAPSPAALARCRRQHLVEMRGRQGRNFLWKPLLVAARWGFLGRTASVCAGEELSDG				NA	NA	NA	NA	NA
BMS010_03603	492			hypothetical protein	ATGAATGAGATTCCCGGTGAAATCGACTTTTCAGGTTTGACGGCACGCCGGCTGGGGCCGGATGACCTCCAGATGATCTGTGTGCATCGCGAGGCGATGTTTCTCGAAGCGGGGGGCGATCCAGCGGCGTTGCGGGTGATGACCGAGCACTTCCGCCCCTGGTTGCGTCCGCGTCTGGCCGATGGGCGTTACTATGGGTTTGCCCTGATGGACGAAACCCAGCCCGTCGCGGCGATAGGGCTCATGAGTATCGACTGGCCTCCGCACCCCGCCCATCCGAACCTGGACCAGCGCGGCTATGTGCTGAATGTTTTCGTCGAACCCGCCTACCGGCGTCGGGGCCTGGCTTCGGCATTGATGAAACTGGCGGAAGCCGAGTTCGCGCAGCGCGGCGTCAGCTTCGCCGTGCTCCACGCCACCGAGGCCGGCAAGCCGGTGTATGCGGCGTTGGGTTGGACCGCCACCGCGGAAATGGCCAAGACGATCGGCTGA	MNEIPGEIDFSGLTARRLGPDDLQMICVHREAMFLEAGGDPAALRVMTEHFRPWLRPRLADGRYYGFALMDETQPVAAIGLMSIDWPPHPAHPNLDQRGYVLNVFVEPAYRRRGLASALMKLAEAEFAQRGVSFAVLHATEAGKPVYAALGWTATAEMAKTIG				NA	NA	NA	NA	NA
BMS010_03604	897	rarD_2	COG2962	Protein RarD	GTGTTCAAAGGTATCGCGCTGTCCGTTGCGTCGTCCTGTGCGTTCGCCGGCCTTTATTACTACGCCACACTGCTGAAACCTCTCACCGGCGAGGCCATCTTCGGCTGGCGCATGCTGCTCACCCTGCCGTGCGTAACGCTGTTTCTGCTGCTTGGGCGTGAGTGGCAGCCGGTACGAGAAATCTGCGCCCGCCTCCGGCAGCGCCCCACCCTGCTGATCGGCCTGATCGGCAGCAGCGCCCTGCTCGGCGTCCAGCAATGGTTGTTCCTCTGGGCACCCATCAACGGTCGGGCCCTGCAGGTCTCGCTGGGGTATTTCCTGCTCCCATTGGTGATGCTGATGGTGGGCCTGGTCTTCTATCGGGAGCGGCTCACAGGGCTGCAAAAAGCGGCCAGCGTTTCAGCGGTGCTGGGCGTTGCTCACGAATGGCTCCAGATGGGCGGTTTCTCCTGGGAAGCGTTGTTGGTGGCACTCGGCTTTCCGGCCTACTTCATGCTGCGCCGCAAACTCGACACAGCCAATCTGGGTGGGCTGTGGTTCGACATGCTGTTCACACTGCCCTTTGCCTGCTGGTTCGTGCTGGGACAGCAAGCGACGGCTGCGCAATTCGAGCAGGCACCCCGGCTGTACCTCCTGGTGGTCTTCCTGGCGGTGATCAGCGCGGCGGCCTTCATGGCATACACCACCGCCAGCCGGCTCCTTCCATTCAGCCTGTTCGGCCTGCTGGGCTATGTGGAGCCTGTGCTGATGGTGATTGTCGCGTTACTCATCGGCGAACGCATCGAGCCCCATGAGTGGCTGACCTATCTCCCGATCTGGCTGGCCGTGGCCCTGCTGGCAGTGGAGGGCGCGTGGCATCTACGCCAAAAGCCCGCTTCGGAGAGCGGAGCTGGATGA	MFKGIALSVASSCAFAGLYYYATLLKPLTGEAIFGWRMLLTLPCVTLFLLLGREWQPVREICARLRQRPTLLIGLIGSSALLGVQQWLFLWAPINGRALQVSLGYFLLPLVMLMVGLVFYRERLTGLQKAASVSAVLGVAHEWLQMGGFSWEALLVALGFPAYFMLRRKLDTANLGGLWFDMLFTLPFACWFVLGQQATAAQFEQAPRLYLLVVFLAVISAAAFMAYTTASRLLPFSLFGLLGYVEPVLMVIVALLIGERIEPHEWLTYLPIWLAVALLAVEGAWHLRQKPASESGAG	PGPT0003906_1246	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0003906-rarD-K05786	NA	NA
BMS010_03605	942	dmlR_7		HTH-type transcriptional regulator DmlR	ATGCTTTCAAAGCCATTCCTGAAAAGCCAACACAGCGATGAGATCGCGGCGCTCCTCGCCGTCGCGGCCGAGGGCTCGTTCGTTGCCGCCGGGCGTCAACTGCAACGCGATCCTTCGGTGATCTCCAAGAGAGTGGCGGCGATGGAAGCTCGCCTGGGCGTTCGCCTGATCGAGCGCACGACCCGCCAACTCCGCGTGACCCCAGTGGGTGCCCAACTGGTGGAACGTCTCAACGCTGCCTTGTCCTCCGTCGCGGAGGCGGAGCAGGAGGCCACACTGGGTGCGGCCGAGGCCCGTGGCGTTCTTCGTCTTGCCCTGCCGGCAGCCATGGGGCGGCTTTGGCTCGCGCCACTGCTTCCTGACTTCTTGCTGGCCAACCCCCAGGTATCGGTCGTGGCTGACTACAGCGACCGCTTCGTCGACATCATCGCCGAAGGCTACGACGCCGCGATCCGTATCGGCGAACTCAGTGACAACCGCCTGATCGCCAAGAAATTGAACGAACATCGCCGGATACTCTGCGCGTCCCCAGACTACCTCGCCCGGCACGGCGAACCAGGCACGCCGGCCGAGCTCGCCGATCACAACTGCCTGCGCTTCAGCGGCCTCGCCTCCTTCCCCGAGTGGCGCCTGTTCAAGGGAAACCGCCAGCAGAAGGTGATGGTCCAGGGCTCCCTGACCTCGAATGATGGGGAATCCTTGCTCGCCGCTGCTCGTGCCGGCATGGGCATTCTCGGCGGTGGCGAATGGCTGATGAGCCGCGACCTAGAAGCAGGCCGACTGCTACGGGTGCTGCCGGATTGGCTGCTGGACAGCGGCGAAGGGGGCGTCTACCTGGTGCGTCCTTCAGCCAGGTTCTCCCCTGCAACGACCCTCGCGTTCAAAGACTGGATCGAACGCACGTTCGCCGATGGTCCACCCTGGTCATGCCCCCGGCCCTGA	MLSKPFLKSQHSDEIAALLAVAAEGSFVAAGRQLQRDPSVISKRVAAMEARLGVRLIERTTRQLRVTPVGAQLVERLNAALSSVAEAEQEATLGAAEARGVLRLALPAAMGRLWLAPLLPDFLLANPQVSVVADYSDRFVDIIAEGYDAAIRIGELSDNRLIAKKLNEHRRILCASPDYLARHGEPGTPAELADHNCLRFSGLASFPEWRLFKGNRQQKVMVQGSLTSNDGESLLAAARAGMGILGGGEWLMSRDLEAGRLLRVLPDWLLDSGEGGVYLVRPSARFSPATTLAFKDWIERTFADGPPWSCPRP				NA	NA	NA	NA	NA
BMS010_03606	669			hypothetical protein	GTGAGAACGAAGACAGAGGCCCGGCGCGAGGCGATTCTGGCGGCCGCCAAAGCCGTATTCGAGGAGGTGGGTTTCGAGCAGGCCACCATGTCGGAAATCACGGCCCGGGTAGGCGGCTCGAAGGCCACCCTGTATCGCTATTTCGACTCGAAGGAATCCCTGTTCCGGGAACTGCTGCGGCGCTCGGCCAGCGAGCACCGCAGCACGGTGTTCGAGCTGCTGCATCCTTGTGGCCAGATGACCGAGGATGGATTACCGCCCGAGGCGGCAGATGTCCTGGCCTTGCTCAATCCCGAGGCGGACGTGGCGACCACGCTTCAGGAAGTTGGCGAGCGGATACTCAAGACCTTCCACACACCGGAGAAACTCGCTGCCTGGCGCATGGTGGTCGCCGCAGCGAACGACCCGGAAGTGGGCCGGCTGTTCTATGAGAATGGGCCGGCACGGGGATTACAGTATGTAGAGCGCTACTTCGACGGCGTCATGAAAGCCGGGAATCTCCGCAAGGCCGACCCCAGGGTGGTCGCCGCCCATTTTCGCGCACTGGTGGAAGCTGAAGTGGATATGCCGGGCCTGCTCAACGCCCGGCCAGAGTTGAAGGACGAAGAAATCCGCGAAATCGTGACACGGGCGATTGAGGTATTCATGCGGGCGTACAGGCCGGATTAG	MRTKTEARREAILAAAKAVFEEVGFEQATMSEITARVGGSKATLYRYFDSKESLFRELLRRSASEHRSTVFELLHPCGQMTEDGLPPEAADVLALLNPEADVATTLQEVGERILKTFHTPEKLAAWRMVVAAANDPEVGRLFYENGPARGLQYVERYFDGVMKAGNLRKADPRVVAAHFRALVEAEVDMPGLLNARPELKDEEIREIVTRAIEVFMRAYRPD				NA	NA	NA	NA	NA
BMS010_03607	1503	arpC	COG1538	Antibiotic efflux pump outer membrane protein ArpC	ATGTACAAGAACAGACCTGGCCTTCGCCGTTGCGCCGTCTTCCATGGCGCGTTCCGCTTTCCCTCAACAGCCCTTGGGCTTGCCGTAGCCGCTCTGGTTCTGGGCGGCTGTGCCTTGCAGCCCGGCTATCGCGCGTCGGACACCTCGGCCCCGGCCGCCTGGTCCGTGGCGTCGGTAGCCCCCGAAAGGCCGGCACCGGACATGCTGGAATCCTGGTGGCGCGCCTTGGGCGACCCCGCCATCGACGCCCTGACCGAAGCGGCGTTTGCCGACAGCCCGACCCTGGCCCAGGCCGTGGCGCGCATCGACGAAGCCCGGGCCACCCTGGGCGTCAACGCGGCCGCCCGGATGCCGACCGTCAGTGTCAGCGCCAACCTCACCCGGGCGCAGAATCAGAACTCCTCCGCCCAGACATCCAGCCCGACCCTGCTCAGTACCTCGGCCTCCGCCGGGCCGAGCTTGAGTTGGGAGCTCGATCTCTTCGGCCGGGTGCGTAATTCGGTGGAGGCCGCCCAAAGTCGTCTCGACGCCCGAACGGCGGATGCCACCGCGACCCGCCTGTCCCTGGCGGCCGACGTGGCGAACGGCGTGCTGTCCCTGCGTGCCTGCGAGAACTCCCGGCGCGTGTTCGTCGAGGACATCGCCTCCCGGGAAAAGACCCTGGCCCTGACCCGACTGCGTCTGAAGACGGGCTTTGCCGCACCGGTCGACGAGGCTCGGGCCTTGTCCGGGATTGCCTCGTCCCGCACCAGTCTGGCGTCCCAGGAGGAGCAGTGCACTCGCCAAGTGAACGCGTTGGTCGCCTTGAGCGGCCGGGATGCGAGCAGTGTGCGGCAGTTGGTGGGGGCAGCGGGCCCGACTCCCAGCGCCGTGCCGGTGCACATGCCCCAGGCTCCCGATACCGCGCCTGAACTGCCCGCCAGCGTACTGGCTCACCATCCCGACGTGATTTCCGCCGACCGGGAAGCGGCGGCGGCCTGGGCCGACATCGCCGTCGCCCGGGCCAACCGCCTGCCGCGCCTGGACCTGGCCGCCGCCTTGACCGGGCAATGGATTCGCGCCGCAGGCTCGACCCTCGATTTCACGACCTGGTCCCTTGGCCCCAGCCTCGCAGGCACCCTGTTCGACGGCGGGGCGGGTGCGGCCAATGTGAGCGCGGCCCAGGCCCGCTATCGCCTCGCCGTGGCAAGCCTGCAAGGGACGCTGCGCAGCACCGTCCAGGAGGTGGAAAACGCTCTGGCGGCCCAGGCTTCGGCCAAGGCCCGCGTCGTTTCCGCCGGGGAGGATGTCACTGCCGCGCGCACCACGTTCGAAGCGTCCGAATCCCAGTGGAGAGCCGGCTCCATCAGCCTGTTCGAACTCGAAGACAGCCGCCGCCAGTTCGCCTCGGCCCAGGATGCCGAGATTTCCGCCCGCCGCGACCAGGCCCAGGCCTGGATCGCCCTGGTGGAAGCCACCGGCGGCGCCATTACCCTGACTCCGGAGTCCTCCTCCCATGAATAA	MYKNRPGLRRCAVFHGAFRFPSTALGLAVAALVLGGCALQPGYRASDTSAPAAWSVASVAPERPAPDMLESWWRALGDPAIDALTEAAFADSPTLAQAVARIDEARATLGVNAAARMPTVSVSANLTRAQNQNSSAQTSSPTLLSTSASAGPSLSWELDLFGRVRNSVEAAQSRLDARTADATATRLSLAADVANGVLSLRACENSRRVFVEDIASREKTLALTRLRLKTGFAAPVDEARALSGIASSRTSLASQEEQCTRQVNALVALSGRDASSVRQLVGAAGPTPSAVPVHMPQAPDTAPELPASVLAHHPDVISADREAAAAWADIAVARANRLPRLDLAAALTGQWIRAAGSTLDFTTWSLGPSLAGTLFDGGAGAANVSAAQARYRLAVASLQGTLRSTVQEVENALAAQASAKARVVSAGEDVTAARTTFEASESQWRAGSISLFELEDSRRQFASAQDAEISARRDQAQAWIALVEATGGAITLTPESSSHE	PGPT0015295_269	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0015295-nodT|ameC-K18904	NA	NA
BMS010_03608	1110	cnrB		Nickel and cobalt resistance protein CnrB	ATGAATAAGCCCACCGCATTCGCCAAGGGCATGCGTAGCCGCAAATCTCTGGTCGCCGTCGCCCTGTCCGCCACCCTGATGGCCGGCGGCACGTTGTTTTTCGCCACCCGTTCCGTTGCCACGCCGGCGCCGAGCCAGCCTGCCGCCGCCCTGACGGTCACCGTCGCTACGGCCGCCCAGGTCGAATGGCCGGCGGTTCTCGAAGCCAGCGGTGCCATCGCGCCCTGGCAGGAGGCGGTGATCGGTGCTCAGGTATCGGGGCTGCGCCTGGATGAAATCCGCGTCAATGTGGGCGACCGGGTCAAGCGGGGAGAGGTGCTGGCAGTCTTCGACGCCGACCTGCTGCGAGCCGACGAAGCGCGCCTCAAGGCTTCCTGGCAGCAGGCCGAGGCGAACCGCCAGCGCGCCCTCCAGCTCAAGGGCACGGGCGGCATCAGCGAGCAGGAGGTGCTCCAGTACGTGACCGAGGCCGACGTGGCCAAGGCCCAGTTGCAGAGCACCCGACTGCAGTTGCGCTATGCCACGGTGACGGCCCCCGACGACGGCGTCATCAGCGCCCGCAGCGCCACCGTGGGCGCCGTATCCAGTACCGGCCAGGAGCTGTTCCGCATGATCCGGCAGAGCCGGCTGGAATGGCGCGGCGAGCTGACTGCCGTGCAACTGGCCCGGATCCAGCCCGGCCAGCGTATCGGCCTCACCCTGCCCGACGGTGCCACGGCCACCGCCACGGTGCGCCAGACGGCCCCCTCACTCGACACCCAGACCCGGCTCGGCCTCGTCTATGCCGACATCGAGCCCGGTAGTACGGCGCGCGCCGGCATGTACGCCAAGGGCAGTGTGGTGCTGGACGAAAGCCCGGCCGTCACGGTACCCGCCATCAGCGTGGTGATCCGCGACGGTCGCAGCTATGTGCCCAAGGTGACGGAGGGCGAGCGGATCAGCTTGCAGGCGGTGACCGTGGGCCGCCGCCAGGGCGACACCGTGGAGATCGTCTCCGGCATCAAGGTTGGCGACAGGGTGGCGGCGCAGGGGGCCGGCTTCCTCAACGACGGCGATCGGGTGCGGGTGGTCTCCGGCGCCGAACTGGCCGCCCGGCCCTCCGAGGAGTAA	MNKPTAFAKGMRSRKSLVAVALSATLMAGGTLFFATRSVATPAPSQPAAALTVTVATAAQVEWPAVLEASGAIAPWQEAVIGAQVSGLRLDEIRVNVGDRVKRGEVLAVFDADLLRADEARLKASWQQAEANRQRALQLKGTGGISEQEVLQYVTEADVAKAQLQSTRLQLRYATVTAPDDGVISARSATVGAVSSTGQELFRMIRQSRLEWRGELTAVQLARIQPGQRIGLTLPDGATATATVRQTAPSLDTQTRLGLVYADIEPGSTARAGMYAKGSVVLDESPAVTVPAISVVIRDGRSYVPKVTEGERISLQAVTVGRRQGDTVEIVSGIKVGDRVAAQGAGFLNDGDRVRVVSGAELAARPSEE				NA	NA	NA	NA	NA
BMS010_03609	3117	mdtC_3	COG0841	Multidrug resistance protein MdtC	ATGAACTTCGCCACTTGGTCGATCCGCAATCCGATACCCGCCATCCTGCTGTTCATCCTGCTCGCCCTGGCCGGCATCCTGGGCTTTCGTGCCCTGCCCGTGGCCAACCTGCCGGACCTGGACCTGCCCACCGTCACCATCTCCCTGACCCAACCCGGCGCCGCCCCGGCGCAGTTGGAAACCGAGGTAGCGCGCAAGGTGGAGAACTCGCTCGCCACCCTGTCCGGCCTCAAGCACATCCGCACATCCATCGTCGATGGGCAGGTGACAATCAACGCCGAATTCATCCTCGAAAAGAAGCTTTCCGACGCTCTGATCGAAGCCAAGGACGCGGTGGACAAGGTGCGCTCCGACCTGCCCACCGATTTGCAGCAGCCCTCCATCAGCGCGGTCCGCGCCAGCGGGGAGGCGACCCTGTTGTACGCGGTGGCCTCATCCAAGATGGACGAGGAGGCCCTGTCCTGGTTCGTGGACGACACCGTGAACAAGACCGTGCTGGGTGTGCCGGGCATCGGCAAGTTCGAGCGGGTCGGCGGCGTCCAGCGCCAGGTGCGGGTGGAAGTCGATCCGGTGCGCCTGGCGGCGATGGACGCCACAGCCGCCGACGTATCGCGGGCGCTGAAGAGCGTGGAGCAGGAGTCCTCCGGCGGGCGTGGCCAGGTGGGCGGCGTCGAGCAGGCGGTGCGCACCATCGCCACCGTGCGCCAGGCCGGGGAACTCGACCGCCTGCCGGTGGTGCTCGCCGACGGCCGACGCATCGACCTGGATCAGGTGGCCACGGTGAAAGACACCCATGCCGAGCGCACCCAAATCGCCACGCTCGACGGCAAGCCGGTCGTGGGCTTCCGCATCTTCCGCGCCAAGGGCTTCGACGAGACCCGCGTCGCCGCCGGCGTGGCCGAAGCGCTCGGCAAGCTCCAGGCCGCCGATCCGAGCCTCAGCTTTACCAAGGTTTCCGGCACGGTGGATTACACGGAGGAGCAGTTCGAAGGCTCCATGCACATGCTCTATGAGGGCGCTTTGCTGGCCGTGCTGGTGGTCTGGTGGTTCCTCCGCGATTGGCGCGCCACCCTGATCTCCGCCTCGGCCCTGCCGCTATCGATTCTGCCGACTTTCGCGGTCATGAGTTGGCTCGGCTATTCCCTGAATACCCTGACCCTGCTGGCCATGGCGGTGATCGTGGGCATCTTAGTGGACGATGCCATCGTCGAGATCGAGAACATCGAGCGCCACAGCCGCATGGGCAAGTCCAACAAACAGGCAGCCGCCGACGCGGTGACCGAGATCGCCCTGGCGGTCATGGCGACCACCATGACCCTGGTGGTGGTGTTCCTGCCGACGGCCATGATGAGCGGCATTTCCGGCCTGTTCTTCAAACAATTCGGCTGGACCGCAGTGGTGGCGGTGCTCTGCTCCCTGCTCGTGGCCCGGGTGCTGACGCCGATGATGGCCGCCTACCTGCTCAAGCCCCGTAGCGACCACGTGGAGGCCAAGGACGGCGTGCTGATGACGCGCTACCTGGGCTGGGTGCGCTGGTGCCTCAGCCACCGCCGCGCCACGCTGATCGGCGCGGCCCTGGTCTTCGTTGTCTCCGTGGCGCTGGTGCCGCTGCTCGAGACCGGCTTGATGCCGCCCTCGGACAAGGGCTACAGCAGCATAGACGTGGAGTTGCCGCCAGGCAGCAGCCTGGCCATGACCCAGGCGACGGCGGAAGCGGCGCGTCACGCGATTGCCGACATCGAAGGGATCGAACAGGTGATGACCACGGTGGGTGCCGCCCAGGCGGCGGGTGCCGGCCAGACCCAGGCCGGCGAAGTGCGCCGGGCCACGATGACGCTGGTGCTGGCACCACGCGGCTCGCGGCCGGACCAGACTACCATCGAGAACCAGGTACGCCGGGCCCTGCTCGGCGTGCCCGGCGCCCGCTTCTCCCTGGGCACCGGCGGCGTGGGCGAAAAGATGTCCCTGATCCTCGCCAGCGACGACACGGCGGCCCTGAAAGCCACCGCCCAGGCCTTGGAACGGCAGTTGCGCGATGTGCCGGGCCTGGCCAACATCACCTCCACCGCCAGCCTGGAACGTCCCGAAATCGTGGTGCGCCCCGACGCTGCGCGGGCGGCGGAGCAGGGCGTTTCCACCTCCACCATCGGCGAGACGGTGCGTATCGCCACCAACGGCGATTTCGATGCCCAGATGGCCAAGCTCAACCTGGACAACCGCCAGGTGGCGATCCAGGTGCGCTTCCCCGAGGAGACCCGGCAGGACTTGGAGACTGTCTCCAACCTGCGGGTCCCCGGTCGCAACGGGTTGATCCCCCTGTCGAGCGTGGCCAACGTGGCGGTGGAAAGCGGGCCCTCTCAGATCGACCGCTATGACCGTCGCCGCTACGTCACCGTCGCCGCCGACCTGGGCGGCATGCCGCTGGGCCAGGCACTGGAGACGGCCAAGGCGTTGCCGGCGATCCAGGCCATGCCTTCCAGCGTCAAGCTGATCGAAACCGGCGACGCGGAGATCATGGCGGAGCTGATGGGCGGCTTCGGCATGGCCATAGTCATCGGGTTGTTCTGCGTGTATTGCGTGCTGGTGTTGCTGTTCCACGACTTCTTCCAGCCCCTGACCATCCTCTCGGCCATTCCCCTGTCCGTGGGCGGCGCCTTCGTCGCGCTGCTGGTGAGCCGGGGCATGCTGAGCCTGCCGTCCATGATCGGGCTGGTCATGCTGATGGGCATCGTCACCAAGAACTCCATTCTGCTGGTGGAATACGCGGTGATGGGCATCCGCGAGCGCGGCCTGTCCATGCGTGAGGCGCTGGTCGACGCCTGCCACAAGCGCGCCCGGCCCATCATCATGACCACCGTCGCCATGGTGGCAGGCATGATGCCCATCGCCCTGGGCCTGGGCGCCGACGCCAGCTTCCGCCAGCCCATGGCCATCGCGGTGATCGGCGGCCTGATCACCTCCACCGCCCTGAGCCTGCTGGTGGTGCCAGTGGCGTTCACCTACGTGGACGGCCTGGAGCGTCGGCTGAGTCGCCTGTTCCGCCGCAAGCCCACGCCCACGCAGGCCCTGGCAGTGGCACCTCATGTCATGGAAAAAAAGCAGACGGTCGAAGCCTGA	MNFATWSIRNPIPAILLFILLALAGILGFRALPVANLPDLDLPTVTISLTQPGAAPAQLETEVARKVENSLATLSGLKHIRTSIVDGQVTINAEFILEKKLSDALIEAKDAVDKVRSDLPTDLQQPSISAVRASGEATLLYAVASSKMDEEALSWFVDDTVNKTVLGVPGIGKFERVGGVQRQVRVEVDPVRLAAMDATAADVSRALKSVEQESSGGRGQVGGVEQAVRTIATVRQAGELDRLPVVLADGRRIDLDQVATVKDTHAERTQIATLDGKPVVGFRIFRAKGFDETRVAAGVAEALGKLQAADPSLSFTKVSGTVDYTEEQFEGSMHMLYEGALLAVLVVWWFLRDWRATLISASALPLSILPTFAVMSWLGYSLNTLTLLAMAVIVGILVDDAIVEIENIERHSRMGKSNKQAAADAVTEIALAVMATTMTLVVVFLPTAMMSGISGLFFKQFGWTAVVAVLCSLLVARVLTPMMAAYLLKPRSDHVEAKDGVLMTRYLGWVRWCLSHRRATLIGAALVFVVSVALVPLLETGLMPPSDKGYSSIDVELPPGSSLAMTQATAEAARHAIADIEGIEQVMTTVGAAQAAGAGQTQAGEVRRATMTLVLAPRGSRPDQTTIENQVRRALLGVPGARFSLGTGGVGEKMSLILASDDTAALKATAQALERQLRDVPGLANITSTASLERPEIVVRPDAARAAEQGVSTSTIGETVRIATNGDFDAQMAKLNLDNRQVAIQVRFPEETRQDLETVSNLRVPGRNGLIPLSSVANVAVESGPSQIDRYDRRRYVTVAADLGGMPLGQALETAKALPAIQAMPSSVKLIETGDAEIMAELMGGFGMAIVIGLFCVYCVLVLLFHDFFQPLTILSAIPLSVGGAFVALLVSRGMLSLPSMIGLVMLMGIVTKNSILLVEYAVMGIRERGLSMREALVDACHKRARPIIMTTVAMVAGMMPIALGLGADASFRQPMAIAVIGGLITSTALSLLVVPVAFTYVDGLERRLSRLFRRKPTPTQALAVAPHVMEKKQTVEA	PGPT0016195_918	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-SURFACTIN_RESISTANCE,PGPT0016195-swrC|yerP-K03296	NA	NA
BMS010_03610	468	lrp_5	COG1522	Leucine-responsive regulatory protein	ATGAGTCTCGATCAGTTCGACTTGGCGCTGCTGGAAGCCGTCCAGCGGGATGCAACAACCTCACAACTGGACCTTGGCGCCCAGGTGAATCTCTCGTCCGCCGCGGTGAATCGCCGTCTGAAGAAAATGAACGCGGATGGGGTCATCCAGCAAACCGTGGCGATCGTGAACCCGGCCCGGCTGGGCTATACGCTCACGGTCATCGCGCAGGTGGAGGTGGAAAGCGAACGGTTGGACCTGCTGGACAGCATGAAGCGCACCTTCCTGGCCTGCCCCGAGGTGCAGCAGTGCTATTACGTCGCCGGAGAATGCGACTTCGTGCTGATCATGCTGGTGAAGAACATGGAGCAATACACCGAGCTGACCCGGTCGCTGTTCTTCGAGAACAACAACGTCAAACGCTTCAAGACCCTGGTCTCGATGAGCAACGTCAAGACTGGGCTCGTCGTTCCCACTTCGGGTTGCTAG	MSLDQFDLALLEAVQRDATTSQLDLGAQVNLSSAAVNRRLKKMNADGVIQQTVAIVNPARLGYTLTVIAQVEVESERLDLLDSMKRTFLACPEVQQCYYVAGECDFVLIMLVKNMEQYTELTRSLFFENNNVKRFKTLVSMSNVKTGLVVPTSGC				NA	NA	NA	NA	NA
BMS010_03611	1254	hyuC_2	COG0624	N-carbamoyl-L-amino-acid hydrolase	ATGAGCAACCGTTCTGAACTGCGTCTGAATGGCTCGATTCTGCTTCAGCAAATCCGTGCCCTTGGCGAGATTGGTGCCGACCCCGTCAATGGTGGTCGCACGCGCATCGCGCTGACCGATGCGGAAAAGGCGGGGCGCGATCAGGTGGTCGCCTGGATGAAGGCAATCGATCTGGACGTACGCATCGACCGCATCGGCAATATCTTTGGCACGCTGCGTTCCGCGTCCGATCAAGGTGACCAGGCGCCCTTGATGATGGGGTCGCACATCGACACGGTCACCAACGCCGGCGCCCTGGATGGCTGTTATGGGGTGCTGGCAGGGCTGGCGGTGGCTCGGGCATTCCGCGATGCAGGTGTGTTGCCGTCGCGCTCTATCACCATCGCTGCCTTCACCAATGAAGAGGGTGTGCGTTACCAGCCGGACATGATGGGCTCGCTGGTATACGCCGGCGGCCTGGCCGTCGAAGAAGCGCTCGCCACCGTCGGAACCGATGGCACGCGCCTGGGTGAAGAGTTGCAGCGCATCGGCTATGCGGGCGATCTGGAGCCGGGTGCGGTCATCCCTCACGAGTATCTGGAGCTGCATATCGAGCAGGGACCGGTCCTCGAGGCAGAGAACACGCTGATCGGTGTGGTCGAGAATCTGCAAGGCATCTCCTGGCAACAGGTCGTCGTACAGGGCAACGCTAACCACGCGGGAACGACCCCGACCCGTTTGCGGCATGACGCCGGCTACGTGGCCGGTGCGGTGGTCGCCGAGTTGCGCGCTATCGCCAGGGAGTCGGGCGGAACCACCCTGGCGACCGTTGGCTGCATGCGCTTCGAGCCCAACGTGATCAACGTGATTCCGCGCCGGGCCACTCTCACAGTGGACCTGCGCGATCCCGATGAGGCGCGGCTGGCGGCGGCGGAAAAGCGTCTTGGCCAGTTCCTGGCGGAGATCGCGCAGGGGGAGGGTGTGCAGATCAGCACCGAGCAACTGGTGCGTTTCCAGCCGGTGGTTTTCGATGCCAGCCTGGCCGATGAGATCGAGGCCTCGGCCAAGCGCTTCGGTTTTAGCCACAGGCGCATGACCTCCGGTGCCGGGCATGATGCCCAGATGATCGCGCGCATCGCTCCGTCCGCGATGATCTTCGTGCCCAGCCGGGGCGGCATCAGCCACAACCCCCGTGAACACACGGACGACGACCAACTGCTCAAGGGCGCCGAGGTGCTGCTGGATATGGTCCTGCGCCGTCTGAGCCTTACCTGA	MSNRSELRLNGSILLQQIRALGEIGADPVNGGRTRIALTDAEKAGRDQVVAWMKAIDLDVRIDRIGNIFGTLRSASDQGDQAPLMMGSHIDTVTNAGALDGCYGVLAGLAVARAFRDAGVLPSRSITIAAFTNEEGVRYQPDMMGSLVYAGGLAVEEALATVGTDGTRLGEELQRIGYAGDLEPGAVIPHEYLELHIEQGPVLEAENTLIGVVENLQGISWQQVVVQGNANHAGTTPTRLRHDAGYVAGAVVAELRAIARESGGTTLATVGCMRFEPNVINVIPRRATLTVDLRDPDEARLAAAEKRLGQFLAEIAQGEGVQISTEQLVRFQPVVFDASLADEIEASAKRFGFSHRRMTSGAGHDAQMIARIAPSAMIFVPSRGGISHNPREHTDDDQLLKGAEVLLDMVLRRLSLT	PGPT0021095_378	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_DEGRADATION,PGPT0021095-pydC-K06016	NA	NA
BMS010_03612	1236	ygeX	COG1171	Diaminopropionate ammonia-lyase	ATGCTGATCGCCAACCCCAACGTAACCCGCACAAGCTACCCCGAAGCGCTGCAAAACATCATGAGCATCAGCAAGGCCGATGAAAGCCGCGCCTGGCTGGCCGATTGGTCGCGGCTGAACAGCGGCGGTACGCCGCTCTACTCGCTGCCCGGCATGGCCACAGAGCTGGGCGTGGCGGACATCCTGGTCAAGGACGAATCGGAACGCTCGGTGCTGGGCAGCTTCAAGGCGCTTGGCGCGCCGATTGCCCTGGTGCGCCTGATCCTGCGCCAGTTCTCCGAGCAGTGCTTCGAGGCGCGTGGCCTGCTTGCCGGCGAGTACCGCAGCGCGCTGGCCGACTTCAGCGTGATCAGCGCCACCGACGGCAACCATGGCCGCGCGCTGGCCGCTGCCGCGCAGAGTGTCGGCTGCCGTTGTGTGATCGTGCTGCATGCCAACGTCAGCATCGAGCGGGAAGAGGCGATTGCCGCATACGGCGCCGAGATCGTGCGCATCAGCGGCAACTACGACGAGTCGGTGGAAGGGGCAGCGGCGCTCGCCACGAAGAACGGCTGGTGGGTCGTCTCCGACACCTCCTATGACGGCTACGAGGAGATTCCCCGCGACGTGATGCAGGGTTACGGCATCATCGCTGCTGAGGTCATCGAAGCACTGGCCTTGCGCCAGAACGGCGACCGCGCCGTCACTCACGTCTTCTTGCAAGGCGGCGTCGGCGGCCTGGCAGCGGGTATCGCCAGCTACCTCTGGGAACTGTACGGCGTAGAGCGTCCAACATTCATCATGGTCGAGCCCACACAGGCGGATTGTCTGTACCAGAGCGCCATCGCCGGCCGGGCGGCCAAGGCGACTGGCTCGGTGGATTCGGTGATGGCGGGCCTGGCCTGCGGGGAAACCTCGCCACTAGCGTGGAAGTTTCTGCAACCGTGTATCGACTTCTTCATGACCATCGAAGATGACGAGGCGGTCAGCGCTATGCGCCGCATCGCGGCCGGCAGCGCCAGCGACATTCCGCTGGTCGCCGGCGAATCGGGCGTGGCCGGGCTCGCGGGGCTGATCGGACTGGCCAACAACCCTCGAATGGCTGAGCGGGTGGGACTGGACGGCGAGTCCCGCGTTCTGCTGATCAACACCGAAGGCGCCACCGCGCCTGGCGTCTATCAAGAGCTGGTCTCCGAGTCGGCTCAGTCGGTGCTGGCTCGGCAGAGTGCGTGGCAGCAGGGCAGGTGCGCTGAGTAG	MLIANPNVTRTSYPEALQNIMSISKADESRAWLADWSRLNSGGTPLYSLPGMATELGVADILVKDESERSVLGSFKALGAPIALVRLILRQFSEQCFEARGLLAGEYRSALADFSVISATDGNHGRALAAAAQSVGCRCVIVLHANVSIEREEAIAAYGAEIVRISGNYDESVEGAAALATKNGWWVVSDTSYDGYEEIPRDVMQGYGIIAAEVIEALALRQNGDRAVTHVFLQGGVGGLAAGIASYLWELYGVERPTFIMVEPTQADCLYQSAIAGRAAKATGSVDSVMAGLACGETSPLAWKFLQPCIDFFMTIEDDEAVSAMRRIAAGSASDIPLVAGESGVAGLAGLIGLANNPRMAERVGLDGESRVLLINTEGATAPGVYQELVSESAQSVLARQSAWQQGRCAE	PGPT0021095_2	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_DEGRADATION,PGPT0021095-pydC-K06016	NA	NA
BMS010_03613	1359			hypothetical protein	ATGCCCATTAGCGACTATTGGAACGGCCCAGCGCACCGGCAGCGTGCGGATGATCTGGATGCCCAGCTCACGGACCTTCAGGCGCGCTATGCGCAGCTGCAAGCGCTCAATAGGAAGATCGGCGCCATGGACGTTCTGGATGTCCAGAGGTTGATCGAGCAAGAGAAAGGAAAGCTTGCTGCTGTCCGCCAGGAAGTTCAGCGCGCCGAGCAGGATGTGGCGGCGCTCGCGCAACGCTCCTCTGATTTACAAGGGCAGATTCTCGTATGGGAGGAGACGCTCCTTCTGGAGAGCTTTGCGCTCTATGAGCCCAAGTTCAAGCTGAATGCCAGCCATGAATACAAGTCCCGGCTGGACAGTGTCCGTGAACACCAGAAGATGATGATCAAGAACGGTGGGGCGGCCACCGGGAACATGGACTGGACGGTCAACGGCAGTAAGCAACAAGGGCGCAAGCTCGTAAACGACATGATCAAGCTGGTGATCCGGTCGTTCAACAACGAAGCAGATTACTGCGTGGATAACGTCAAGTTCGATAACGTCGAGCTGGGCGAGAAGCGAATTCTCAAATCATTCGAGGCCTGCAACCGCCTCGGCAAGATCATGGACGTGGAGATATCGCGGAGGTATCTGAGCCTCAAGCTCGATGAGCTGCATCTTGCCCACGAGTTTCAAATCAAAAAGCAAGAGGAAAAGGAAGAGGCCAAGCGCGTTCGAGAAGAGCTGCGGGAGCAACAGAAGCTTGAGCAGGAGATTCGTGCAGCCCGGGAGAAGATCGCCAAGGAACGCAAACACTTCGCGACCGCCATGCGCGACCTCCTGGCTCGCCTGGACAAGGTCGAGTCCGAAGAAGAGCGCGCGCCTCTATTGGCGAAACTGGCTGAAGTTGAAGCTGGCCGGGCCGCACTGGAGAGCGAAGAGAAACTCATTGACTATCGCGAGCAGAATGCCAAGGCCGGCTATGTGTATGTGATCTCCAACATAGGGGCATTCGGGGAGGGGGTTTACAAGATCGGTATGACCCGCCGCCTGGAACCGATGGACCGTGTCGATGAGCTGGGTGACGCATCGGTGCCGTTCTGGTTTGACGTGCATGCGATGGTCTTCTCTGATAACGCCCCCGCGCTGGAAGCGAAGCTGCACGAACGTTTTGCTGCAGGTCGCTTGAACAAGGTCAATGGACGTAAGGAGTTCTTCCGTGCGGACATTGCTGAAATCGAGTCGGTCATCCGAGAAAACTACGACGCTGCTGTCGAGGTTACCCATGAAGCGCCAGCCGAGCAGTATCGCGAAAGCCTGCGGATGGGATTGCCCAAGGTCGCAATCCAGCACTCGGAGCGAGTGGCGGCACAGAGCTAG	MPISDYWNGPAHRQRADDLDAQLTDLQARYAQLQALNRKIGAMDVLDVQRLIEQEKGKLAAVRQEVQRAEQDVAALAQRSSDLQGQILVWEETLLLESFALYEPKFKLNASHEYKSRLDSVREHQKMMIKNGGAATGNMDWTVNGSKQQGRKLVNDMIKLVIRSFNNEADYCVDNVKFDNVELGEKRILKSFEACNRLGKIMDVEISRRYLSLKLDELHLAHEFQIKKQEEKEEAKRVREELREQQKLEQEIRAAREKIAKERKHFATAMRDLLARLDKVESEEERAPLLAKLAEVEAGRAALESEEKLIDYREQNAKAGYVYVISNIGAFGEGVYKIGMTRRLEPMDRVDELGDASVPFWFDVHAMVFSDNAPALEAKLHERFAAGRLNKVNGRKEFFRADIAEIESVIRENYDAAVEVTHEAPAEQYRESLRMGLPKVAIQHSERVAAQS				NA	NA	NA	NA	NA
BMS010_03614	981	dmlR_8		HTH-type transcriptional regulator DmlR	TTGCAGGCAAATCTGTTATGCAAATGGCGTATGAACGAACCCACCCTTTCCGGCCTCGATCGCATTGAACTGCTGCGCACCTTCGTCCGCATCGTCGATGCCGGCAGCCTTTCGGCTGCGGCCGCGCAACTGAACACCACACAACCCACCGTCAGCCGCCGCCTGCAAGCGCTGGAGCGGTCGCTTGGCCTGCAACTGCTCAACCGAACGACCCACGGCATGCAGCTAACCGGCGATGGCGAGCGCTGCTACTCCTATGCCAGACAAGTGCTGGAAAGCTGGATGGAGATGGAGGATGAGCTGATCGGCGCTCGCGAAGACCCTCGCGGCACGCTCCGCGTTCAGGTGCCGCATGCCTTCGGGCAGGACCAGTTGATCGCCCCGTTGGGGGAGTATCTGCGCCGGTATCCAAACGTGAGCGTGGAATGGACGCTGCATGATCGCCGGCCCGATTTCACCGCCGAGGGGATCGATTGCGCGATCCAGGTCGGCGTCATCGAAGACCCTTCGGTGGTTGCCATCCGCCTCGGCGAGGTGCCCCGGATCGTGGTTGCGGCACCGGAGCTACTGGGCGGCGAGCCGCTGCCCGCTTCGACCGAACAGCTCCAGCGCTTGCCCTGGCTGGCGCTACGCACCTACTACACCGACGAGGTCATGCTGACCTGCCTGAGAGATGGTCGCTCCCATCGCTTTGCAATCCAGCCCCGGATGAGCACCGACAGCCTCTACGCCCTGCGCAGCGCCGCGCTCGCAGGGCTCGGCGCGTGCGTCAGCTCGGCCTGGATAGTCGCTCGCGATATCGAGGAGGGCCGCTTGATCCAATTGATACCGCAATGGCAGGCAGCGCCCCTGCCGGTCTACCTGATCTACCCTCATGCGCGCAGCTACCCCGCCAAGCTGCGCCTGTTCGCCGAGCTGATCCGTAACCGCATGCCGAACCTCGTTGGGCTGCGGGCAGCGAGCGCGGGTACCTCGGAGTGA	MQANLLCKWRMNEPTLSGLDRIELLRTFVRIVDAGSLSAAAAQLNTTQPTVSRRLQALERSLGLQLLNRTTHGMQLTGDGERCYSYARQVLESWMEMEDELIGAREDPRGTLRVQVPHAFGQDQLIAPLGEYLRRYPNVSVEWTLHDRRPDFTAEGIDCAIQVGVIEDPSVVAIRLGEVPRIVVAAPELLGGEPLPASTEQLQRLPWLALRTYYTDEVMLTCLRDGRSHRFAIQPRMSTDSLYALRSAALAGLGACVSSAWIVARDIEEGRLIQLIPQWQAAPLPVYLIYPHARSYPAKLRLFAELIRNRMPNLVGLRAASAGTSE				NA	NA	NA	NA	NA
BMS010_03615	1215			putative transporter	ATGACCACCTCAGCACATGTGTCCCCCGCGCTTGAACGGAGCGCATCCGCACTCTCGCGAGGGCTCATTCTTCTTTTGGCTACGGGCGCTGGCCTCAGCGTTGCGACGCTCTACTACAGCCAGCCGATGCTGGGTGTGCTTGACGCCGATATCCAGGCGGGCGAGCGTGCGGTAGGGATGGTTCCGATGCTGACGCAGCTTGGCTATGCCCTGGGTATCCTGCTGCTGGCTCCGCTGGGGGATCGCTACGACCGGCGTCGGATCATTCTGGCGAAGGCTTGCATGCTCATGCTGGCCTTGCTGTTTAGCAGCATCGCCCCGGGCGTAGGCGCCTTGCTCGTCGCCAGTCTCGTGATCGGCCTCGCCGCCACGATGGCCCAGGACATCGTTCCGGCTGCCGCGACCATGGCGGTGGAGACGCAACGCGGCACGGTCGTTGGAACGGTGATGACGGGCTTGCTGCTCGGCATTCTGCTGTCGCGGGTCATGAGCGGTTTGATTGCCGATCAATTTGGCTGGCGTGCGGTATACGGGGTGGCGGCTGTCTCCATTGCGCTGTTCGGCATCGGTGCCTGGCGCGGGTTGCCGCGCTTCGCACCCACCACGTCGCTGGGCTATGGCGCGCTGCTCGGGTCGATGCTGAAACTCTGGTCACGGCATCCGGCCCTGCGCCGCGCCGCGGTATCCCAGGGACTGCTGTCCGTGGCATTCAGTGCGTTCTGGTCGACGCTTGCGGTGATGCTCCATGCCCATTTCGGCTTGGGTAGCGCCGCGGCCGGCGCGTTCGGGCTGGCCGGCGCCGCGGGTGCCCTGGCGGCTCCGTTGGCCGGCCGACTCGCCGATCGTAGCGGCCCCGAGCGCGTGACCCGCCTCGGCGCGGCTTTGGCCGTGGCCTCGTTCGCCGTCCTGGGCCTGGCTGACACCGTTCCCCTTGGGGCTCAGTTGGGCCTCATCGTGGTGGCCGCCATCGGCTTCGACTTCGCCGTCCAGGCGACGCTGGTCGCGCACCAAACCATCGTATACGGCATCGACCCGCCCGCTCGCAGTCGCTTGAATGCAGTGCTGTTCACCGGCGTATTCATCGGCATGGCAACCGGTGCCGGGCTGGGGAGCATGGCTTTGGCTCAGTGGGGCTGGAGCGGGGTGGTTATGCTGGCAATCGTTGCGTCCTTCGGCGCATTGGTTGTGCGGCTGATGCCGGTTTTCAGGGAGTGA	MTTSAHVSPALERSASALSRGLILLLATGAGLSVATLYYSQPMLGVLDADIQAGERAVGMVPMLTQLGYALGILLLAPLGDRYDRRRIILAKACMLMLALLFSSIAPGVGALLVASLVIGLAATMAQDIVPAAATMAVETQRGTVVGTVMTGLLLGILLSRVMSGLIADQFGWRAVYGVAAVSIALFGIGAWRGLPRFAPTTSLGYGALLGSMLKLWSRHPALRRAAVSQGLLSVAFSAFWSTLAVMLHAHFGLGSAAAGAFGLAGAAGALAAPLAGRLADRSGPERVTRLGAALAVASFAVLGLADTVPLGAQLGLIVVAAIGFDFAVQATLVAHQTIVYGIDPPARSRLNAVLFTGVFIGMATGAGLGSMALAQWGWSGVVMLAIVASFGALVVRLMPVFRE				NA	NA	NA	NA	NA
BMS010_03616	180			hypothetical protein	ATGTTGATGGAAGGCTGGTGGGCTCACCTGTACCCGGGCGGCCTGGCATTCGACCTGAGCGGCTACCGCGCGACCTTCGAACTGAGCGCCGCCGTGCTGGTGGCGGCGGCCATGCTCGCCTGCCTGGCCTCGCGTGCTGCCTCGCGCGCACCGCGGATGACATCGATCCCGACGGTGTGA	MLMEGWWAHLYPGGLAFDLSGYRATFELSAAVLVAAAMLACLASRAASRAPRMTSIPTV				NA	NA	NA	NA	NA
BMS010_03617	1521			hypothetical protein	ATGATCGAGCTGCCGCCCGCCAAGACCGTCCTAGCCCTGATGGTCGCTTTTTCCTTGACGGCTTGTGTACGTTTGAACCCCCAGCCACTGACCGAGCAGACCCTGAGCGAGCAAGGCGGCGCCGACCGTGTCGCGGCCCTGCAGGATGTCGAGCCGATCACCGGGCCGCTGACCCTGGAGCAGGTGATCGCCCGGGCGCTCAAGTACAACCTGGATCGTCGCGCCCGCATGCTGGAGGAGGCCCTGGCGTTCCAGCAGTTCGATGCGTCCCGCTACGACATGCTTCCGAAGCTGCTGGCGCAGGCGGGCTATACGTCGCGTAACAATGACAAGATCAGCCAGAGCCGCAATTCGGACGATGGCACGCTCTCCGAATCCCGTTTCATCTCCCAGGAGCGGGACCACACGGTCAGTTCCCTGAGCCTGAGCTGGAACATGCTCGACCTCGGTGTCGGTTATTTCGGTTCGCGGCAGCAGGCCGACCGGGCGCTGATCGCTGGCGAGAAGCGGCGCAAGGCGATGCACCTGCTGATGCAGGACGTACGCACTGCCTTCTGGCGCGCGGTCAGCGCACAAAAGCTCGAAGCGGAGGTGCGCGCCACTACCCTGGTTGCCGAAGAGGCCCTGGCCGACGCCCATCAGGCGGAGACCGAGCGCCTGCGCAATCCGCTCGACTCCTTGCGCTACCAGCGCCAGGTGCTGGAGAACCTGCGCCTGCTCGAAGCCATCGAGCAGGAGTTGTCCACCGCCCAGACGGAACTCGCCGCGTTGATCAACGCGCCTATCGGCCAGCCCATCGCCCTGGTCGAGCCTGACTTCGATCTCGATCACCAGGCCCTGGCGGTGCCGGTTGCGACCATGGAGGAGGTAGCCATGGTGGCCAACGCCGACATCCGCGAACAGCACTACAACGCGCGCATCGCACGCGACGAGACGCGCAAGACGCTGACGCGTCTCTTCCCCAGCCTCAATTTCAGCTACGGGGTCAACTACGACACCGATAGCTACCTGGTGAACCGCCAGTGGAACGAGACCGGGGTTCAGCTCTCGTTCAACCTGTTCAATCTGCTCACCGGTCCCGCCCAGCTCAAACTGGCCGAGGCGGGCGTCGCCCTGGCCGACCAGCGCCGGGTCTCGATGCAGATGGCGGTGATGGCGCAAGTACACCTGGCGCGGCAGCAGTTGATCAACGCGCAGCACCAGTTCCAGCGGGCCGATTCGATCTGGCAGGTGGACCGCCGCATCAGCGAGCACATGAGCAACCGCGAAGCGACCCAGGTGCAGAGCAAACTGGACCGGGTGGCCAACCAGACCACCGCGATCCTCAGCCTGCTCCGGCGCTACCAGGCCCTGGCCCAGGCGCAGACCGCCGAGGCCCGCTTGCAGGCGACCCTGGGCGTGGAGCCGAAGATCGGTAGCGTCGGCGAGATGTCGCTGGACGACCTGACCCAGACGTTGGCGTCCAGCCGGAACGGTTGGCAACTGCTGGCCGCTCGCGCCCGCAAGGATGCGAGCCTATGA	MIELPPAKTVLALMVAFSLTACVRLNPQPLTEQTLSEQGGADRVAALQDVEPITGPLTLEQVIARALKYNLDRRARMLEEALAFQQFDASRYDMLPKLLAQAGYTSRNNDKISQSRNSDDGTLSESRFISQERDHTVSSLSLSWNMLDLGVGYFGSRQQADRALIAGEKRRKAMHLLMQDVRTAFWRAVSAQKLEAEVRATTLVAEEALADAHQAETERLRNPLDSLRYQRQVLENLRLLEAIEQELSTAQTELAALINAPIGQPIALVEPDFDLDHQALAVPVATMEEVAMVANADIREQHYNARIARDETRKTLTRLFPSLNFSYGVNYDTDSYLVNRQWNETGVQLSFNLFNLLTGPAQLKLAEAGVALADQRRVSMQMAVMAQVHLARQQLINAQHQFQRADSIWQVDRRISEHMSNREATQVQSKLDRVANQTTAILSLLRRYQALAQAQTAEARLQATLGVEPKIGSVGEMSLDDLTQTLASSRNGWQLLAARARKDASL	PGPT0009810_111	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexXY-OprM,PGPT0009810-toxI|oprM|oprM|emhC|ttgC|cusC|adeK|smeF|mtrE|cmeC|gesC-K18139	NA	NA
BMS010_03618	762			hypothetical protein	ATGAAACGCTTGACGCTCTGTTTGCTGGCCGCGCTGGGCTCCGGCGCTGTCCAGGCCCAGGCTGTGGATGTCGCTCCGGCCCGCGCCGGTATCGAACGGCAGGAGATTCGTGCCCAATTGCTGCCGCGTCAGTTCACCACCCTGGCGGCCGAGATCGGCGCCAAGGTCAACAAGCTGCCGATTCCCGAAGGCGGTGCGTTCAAGGCCGGCCAGGCGCTGGTCAGCTTCGATTGCAGCGTCCAGCAGGCCATGTTGCAGAAGGCCCGCGCCGAGCTGAATGCCGCGGAGGCCACCGACAAGGCCAACCGGCGCCTGGCCGAGCTGAATTCGGTCGGCCAGTTGGAGGTCGACCTGGGCCGCGCCGGCCGGCAGAAGGCGGTGGCCGAGGTCGGTGCCCAGCAGGCGGTGCTCGCCAAGTGCAGCATCACCGCGCCGTTCGCCGGCCGGGTCGCCGAGCAGAAGGTTCGCGAGCAGCAGTACGTGCAGCCCGGCCAACCGCTGCTGGACATCCTCGACGACAGCGTGCTCGAACTCGAATTCCTGGTGCCCTCGGCCTGGCTCGTCTGGCTGCGCCCGGGGCAGGCCTTCGATGTCGAGATCGACGAGACCGGCCAGCGTTATCCGGCGCGCTTCGAGCGCATCGGCGCACGGGTCGATCCGGTCAGCCAATCGGTGAAGGTGGCTGCCGCTATCGACGGGCGTTTTCCCGAGTTGATGGCCGGTATGAGCGGCCGCGTCCGGGTCTCGCCGCCCTCGCCCTGA	MKRLTLCLLAALGSGAVQAQAVDVAPARAGIERQEIRAQLLPRQFTTLAAEIGAKVNKLPIPEGGAFKAGQALVSFDCSVQQAMLQKARAELNAAEATDKANRRLAELNSVGQLEVDLGRAGRQKAVAEVGAQQAVLAKCSITAPFAGRVAEQKVREQQYVQPGQPLLDILDDSVLELEFLVPSAWLVWLRPGQAFDVEIDETGQRYPARFERIGARVDPVSQSVKVAAAIDGRFPELMAGMSGRVRVSPPSP	PGPT0003275_6674	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003275-acrA|lir|mtcA|mexA|adeI|smeD|mtrC|cmeA-K03585	NA	NA
BMS010_03619	8394			hypothetical protein	ATGGCCGATCAGCCGAAAACTCCCTCCGCATCCACCCGTCTGGTGCGCGGTCGCCCTCGGCCGTTGGCCCTGGAGCAGCGCTTTGTCTTCGATGGGGCGGCTGCAGCCGATGCGGTGGACACCGTGACCAGCCAACCGGTGGCCGATCCGGCTGCGTCGGACGCTGCCGAAAACTCGGCCGCCGTGGCAATCGAGCATGCCGCGCCGGCCGAGCGCCAACCGGTGACGGCCGAGCAGCCGGACTTGTTCAGGCCGGACGGCGACCATCCGGGCTTGGCCGAAGCGACGGCGAGCGCAGCCGAGCAGATCCGCCAGTTCCTGGCCCAGGCCAGCGACGCGCAGCTCTTCGAACTGTTCAAGGGCGAGCAGAGCACCCCGAGCGAGCAGTGGCGCGCGGAACTCGCGCGACTGCGCACTTCGATTGCAGACGGAACGCTGGAGATCGGCGTCTCCCTGCTGGACAACGCCCAGATCAAGGGCGCCATGGCGGCTTATGCCGCGGAGGGGCCGGACGGTGCGCCGGTGATCTTCCTCAACCGCGACTGGCTCGCCGTGCTGGATACGCAGCAGGTGTCGCGCCTGCTGATCGAGGAATACGGCCATCACCTCGACAATCTGCTGAACCAGGGTGGCGATACCGCCGGCGACGAGGGGCAGCGCTTTGCCGCCGAGGTCAGCGGCATCGACACCGGCACACCCGGTTTCGCCGCGGATAACGACCATGCCACCCTGCAGTTCGATGGCGAATCGGTCTCCGTGGAGTTCGCCACGCTGACCTTCAGCAACGCCTACGAAGTGAACGCGGCGACCACCCCGGCGGGCAAGGAAGCCAACAGCCACGATTTCGTCTTCACCTCGCTCGGCCAGGTGACCGTCAACGATGCCACCAACAGCCGCTTCTTCAGCGGCAACGACGTCTCGGCCACCGCCGTGACCATCGGCTCCACCACTTACTACGGCTGGATCAGCCGGCCGATCAAGAGCGGCGGCGTGGTACGCGGCTTCTATTTCTGGACCGATGCGGATTTCACCTCGCTGGCCCTGGCCCAGTCCGATGGCAACCAGGATGGCGACAGCAACGTCGCGGATAACCGCGGCTTCCTGCTGGTGGTCGACCAGGCCTGGTTCGACAGCCTGGGCTGGAAGAGCCAGGTATCGAACCTGAAGAACGTCGGCTCGTCGTCCGACCGTGTCGATGCGGCGCTCAACGCCCTGGTCGGCCCGCTGGTGGCGCCGGTGGCCGTCGCCGACACCGCCAACGGTACGGCCGGCACCTCGGGCGGCGCGGCGGTCGAGGCCGGTGGCAGCCAGAACGGCACGGCCGGCAGTGCGGCAATCGGCAACGTGCTCAGCAACGACACCTCGGCCGACACCAAGCAGGTGACGGCGGTCGGTACCGGTTCCGCCAGCCAGGCCGTGAGCGCCGCGACCACCTCGGCCAACGGCACCGTGGTGGTCGGCCTCTACGGCACCCTGACCCTGGGGGCGGACGGCAGCTACCGCTACGTGGTGAACGACGCCAACCCGCAGGTCGAAGCCCTGCGCAGCGCCAGCGACACCCTGGTCGACACCTTCACCTACCGCATGACCGATGCCTCGGGCATGACGTCCACCACCACGCTCAAGGTGACTATCCGCGGTGCCAACGATGCCCCGCTGGCGAGCGACGACTACAGCACCGCCAAGGAATCCCTGCGCACCGACTCCACTGCCTATAACGGCAGCGATCCGCTGGGGTCCCAGGCCGTGGGCAATGTGTTGACCAACGATGTGGACGTGGATCGGTACGGGGAAACCAAGACGGTCGTCATCATCAGCATCGAAGGGGGAGCCACCGGCAACACCGGCGGTACCACCACCTTCAACACCACCCTCGACAGCAACGACGCCAACTCGATCTCCATCGGCGCCGCCGTGTACCGCCTCAATGGCGACGGTACCCGCACGCAACTGTTCTCCAACGGCTCGCCGGTGACGGTGGCGAGCAAGACCGGCAGCGGCAGCACCATCGGCTTCACCTTTTCCGATGCCAGCGCGCTCTCCGGTATTACCCGCTTCAGCGTAATGAAGGGCAACGGCACCTTCGTCGACGGTACCATCAACTCGACCACCGTCAGCAGCTCCACCACGCTGGCCTTGTCCGGCGTGACGGGCAACGTCGCGGTCGGCATGACGGTCTACGGCACCGGGCTCGCCACCGCGCCGACGATCACGAGCATCAACTACGACAGCAACGGCCAGGTCACCTCGGTCGTGCTCAGCGCCGCCGTGGCCTTGAACAACCAGGCGCTGACCTTCGGCAACAGCACGAGCGCCGGCGTTACGCTGGTCGGCCAGTACGGCAGCCTACTGCTCAATGCCGATGGCAGCTATGTCTACACGCCGACCGCCAACAACCCGGCCCTGAGTGCGGGCCAGTCGGCCGTCGAGCGCTTCCAGTACCAGATGCGCGACGCCAGCGGAGTGACCAGCAGCGCCAGCCTGTACATCACGGTGCTCGGCTCCGGGACCAACGACCCGAATGCCGTGGCCGACACAGCGCTCGCCACTGAGCAGGGCGGCACGGCCAACGGCACGCCCGGCGTGAACCCGACCGGCAACCTGCTGAGCAACGACACCACGCCGAGCGGCACCAACCAGATCGTCACGGCCCGCGCCTCGAGCAGCAGCGCCAGCACCACCATCGGGACCAATACCGAAATCATCGGGCTCTACGGCAAGCTGACCCTCAGCGCCAACGGCGCCTACACCTACGTGGTCGACAACAGCAACTCCACGGTCCAGGCGCTTCGGGACAGCTCCGCCACCCTGACCGACACCTTCGTCTACACCCTCGAGAATGGACTGACCACCAACGGCGTCAGGCTGCGGGATTCCTCGACCTTCACCGTCACCATCCGCGGCGCGAACGATGCGCCGGTGGCGGTCGATACCAGCGCCGCCGCCGTGGAGGCCAGCGGCGTGAGCAACGGCGTGGCGGGCTACAACCCCAGCGGCAATGTGCTGACGCCCGTCACCGATGTCGACGACGTACTCAGCGAGCTGCGCGTGACCGCCGTGCGCCTCGGCGGGGTGGAGGGCAGTGGCAGTGCCGGTGTGGTGGGCTCCGCGTTGGCGGGCCTCTACGGCTCGCTGACCCTCGATGCCAGCGGCAACTGGACCTATGTGCTCGATAACAACAACTCCACGGTCCAGGCCCTGAACCCCGGCCAGACGCTGATCGAGCGCTTCAATTACACCGTGACCGACCGTTCCGGCAGCGGGCTGTCTGACATTGCCGTCCTGACGATCACTATCGAAGGCGCCGTCGACACCGTTGCGGTCAACAGCGTGTTCGTCAACGAGGCTTCGCCCTATGCCGTGTTCACCGTGAGCGGCAGTGCGGGAGTCGCCGTCAGCCTGGCGCTGAGCGATTCGGACGGCCTGCCGGCGAGCGATACCCGCGCCAGCCTGTCGGGTGGCGGCGCGGACATCGGCACCACGCTGGAATACTTCAATGGCAGCGCCTGGGTGAGCTACACCCCCGGCAGCTCGGTGGTCATCCCCAGCGGCGACAAGCTGCTGGTGCGGGTGGCCGTCAACCAGGACAACATCCACGAAGGCAACGAGTCCTTCACGCTGATCGCCACCACCGGCAACGGGGACCGCAGTATCGGGGTGGGCACCATCAACGACGAGGGTGAAGGCGACGTCTACCTTCCTGGCAACACCACCGGCACAGCGGACGCATCCGGCAGCAACGGCTACCCGACGTTGGACGACGACCGCCCGACCCTCAGTGTGTCCAACGTCTCCGTCACCGAAGGGGATTACGCCGAGTTCGTCGTCAGCCTCGACAAGCCGTCCACCACGGCGATCGGCTTCAGCCCGGTCCTGGTCAGCGGCACCGCCAACATTGCCATCGATACCGGGACGACCGCGCAGTTGGAGCGTTTCGACGGCAACGGCTGGGTCGTGGTGAACGGTCCGGTCAGCATCGCTCCCGGCGAACTGTCCGTACGCCTGCGCATCGCCACCGTGGACGACAGTTTCGTCGAGCCGGACGAGACCTTCAGCCTGCGCACCGGGCCGGTTTCCGGCACCGTGACCAACCTGGCTGGCGCCGAAGGCACTGCGACCCTGCAGGACAATGATGTGGCGGCCCCTTCGAACCACGCGCCGGTGGCCGTCGACGACAACCTCGGCGCCACCGAGGACACGCCCGTCACCTACAGTGCCGCCCAACTGATCGGCAACGACGGCGATATCGACGGCGACTCGCTGAGCATCGCCTCGGTCACCAGCGGCACGGGCGGAACCGCCGTGCTCAACCAGGACGGCACGGTGACCTTCACCCCGGCGCCGGACTTCAACGGCGTGGCGACCTTCACCTACACGGTCACCGACGGCAACCTGGTGTCGAACACCGCCACCGTGACCATAGTCGTCGTCGCGGTGAACGATCCCGCGGTAATCGGCGGCACCGATACCGGAGCCGTGACCGAAGACCTCGACGTCAATGGCCAGGGCGACCTGACCACCGGCGGCGCGTTGACCATTTCCGATCCGGATACCGGCGAGGCCAGCTTCCAAGGCAGCGTCACGCCGTCAGCCGGCGCCCTCGGTACCCTGACCATCGCCCCGGATGGCACCTGGGCCTACAGCGTGCCGAATGCCTTGGTGCAATACCTCAAGGCCGGAGAGACCAAAGTCGAAACCTTCACCGTGCAATCGGTGGACGGCACCCAGCAAACGGTCACCGTGACCATCCTTGGCGTGAACGATGCGGCGGTGATCGGCGGTAGCGATACCGGGGCCGTGACCGAGGATCTCGATGTCGATGGCCAGGGCGACCTGACCACGGGTGGTGTGCTGACCATCGCTGACCCGGACGCCGGCGAAGGCAGCTTCCAAGGCAGCGTCACGCCGTCCGCAGGCGCTCTCGGCACCCTGACCATCGTCGCGGATGGCACCTGGACCTACAGCGTACCCAACGCGCTGGTGCAGTACCTCAAGGCTGGCGAAACCAAGGTCGAGACCTTTACCGTGACCACGCTGGATGGCACGCAGCAGACGGTCACCGTGACCATTCACGGCGTGAACGATGCGGCGGTGATCGGCGGCAACGATACCGGCAGCGTGATCGAGGACCTGAACGTCGATGGCCAGGGCAATCTCACCACCGGCGGCTCGCTGACCATCACCGATCCCGACAGCGACGAGACCAGCTTCTATAGCCTCGCCACGCCGTCCGCCGGCGCACTCGGTTCGCTCTCCATCGACTCCAATGGCACCTGGAGCTACAGCGTGCCGAACGCCTTGGTGCAGTACCTCAAGGCGGGTGAAACAAAGGTCGAGAATTTTACGGTGCAATCGGTGGACGGCACCCAACACACGATCACCGTGACCATCCTCGGCGTGAACGATGAGGCTGTGATTGGTGGTACCGATAGCGGTAGCGTGACCGAAGACCTCGATGTCGATGGTCAGGGCGATCTGACCACCGGCGGCGTGCTGACAATCGCTGACCCGGACACCGGTGAAGGCAGCTTCCAAGGCAGCGTCACGCCGTCCGCAGGTGCCCTCGGCACCCTGACCATCGCTCCCAATGGCGCTTGGATCTACAGCGTGCCGAACACCTTGGTGCAATACCTCAAGGCCGGTGAAACCAAGGTCGAGACCTTCACCGTCACCACGCTGGACGGCACGCAGCACACGGTTAGCGTGACCATTCACGGTGTGAACGATGCGGCGGTGATCGGCGGCACCAATACCGGCAGCGTGACTGAAGACCTGAACGTCAATGGTCAGGGTAATCTCACCACCGGTGGTTCATTGACCGTCACCGACTCGGACACCGGAGAGGCCAGTTTCCAAGGTAGCGTCACGCCTTCAGCCGGTGCTCTCGGCACCCTGACCATCGCTCCCAATGGCGCTTGGACCTACAGCGTGCCGAACACCTTGGCGCAATACCTCAAGGCCGGTGAAACCAAGGTCGAGACTTTTACGGTGCAATCGGGGGACGGTACCCAACACACAATCACCGTGACCATTCACGGTGTGAACGATGCGGCGATGATTGGCGGTACCGATACCGGCAGCGTGACCGAGGACCTGAACGTCAACGGTCAGGGCAATCTCACCACCGGTGGTTCATTGACCATCACCGACTCGGACACCGGAGAGGCCAGTTTCCAAGGCAATGTCACGCCGTCTACCGGTGCCCTTGGCACCCTGACCATCGCTCCCAATGGCACATGGACCTACAGCGTGCCCAACGCGCTGGTGCAGTACCTCAAGGCCGGTGAGACCAAGGTCGAAACTTTCACAGTGCAATCGACGGATGGCTCCCAGCACATAATCACCGTGACCATTCACGGTGTGAACGATGCGGCGATGATTGGCGGTACCGATACCGGCAGCGTGACCGAGGACCTGAACGTCAATGGCCAAGGAAACCTGACCACCGGCGGTAGCCTGACCGTAACCGATGCAGATACCGGTGAAACCAGCTTCCAAGGTACTGTTACGCCGTCCGCCGGCGCTCTTGGCACCCTGAGCATCGCTCCGAACGGGAGCTGGACCTACAGCGTGCCCAACACCCTGGTGCAGTACCTCAAGACGGGCGAGACCAAGGTTGAAACTTTCACCGTGAGCACGCTGGACGGTACGCAGCAAACGATTACCGTGACCATTCATGGCGTGAACGATGCGGCAGTGATCGGTGGTGCCGGCACTGGCAGTGTTACGGAAGACCTGAACGTCAATGGTCAGGGTAGTCTCACCACCGGTGGGTCATTAACCGTCACCGACTCGGACACCGGAGAGGCCAGCTTCCAAGGCAATGTCACGCCATCTACCGGTGCCCTTGGCACCCTGACCATTGCTCCAAACGGGACCTGGACCTACAGCGTGCCCAACGCGCTGGTGCAGTACCTCAAGGCCGGTGAGACCAAGGTCGAGACCTTCACCGTGACGGCGTTGGATGGCACTCAGCACACTGTCAGCGTGACCATTCACGGCGTGAACGATGCGGCGGTGATCGGCGGCACCAATACCGGCAGCGTGACCGAAGACCTGAACGTCAACGGTCAGGGCAATCTCACCACCGGTGGTTCATTGACCATCACCGACTCGGATACCGGAGAGGCCAGTTTCCAAGGCAATGTCACGCCGTCTACCGGTGCCCTTGGCACCCTGACCATTGCTCCCAATGGCGCTTGGACCTACAGCGTGCCGAACACCTTGGTGCAATACCTCAAGGCCGGTGAAACCAAAGTCGAAACCTTCACCGTGGCTGCGTTGGACGGCACGCAGCACACGGTCAGCGTGACCATTCACGGCGTGAACGACGCCGCGGTATTCGCACCCGGCGGCAGGCAGGGCTATGTTCAGGAGGACACTCGCTTCAGTTCGGAGGGCCGGGTCAGCGTGACGGACGGGGATCAGGGAGAAGCCATTATCGTGGCGCAGACTGCCACGCCCGGCTTGTATGGGCAGTTCAGCATCGATGCCGCCGGCTTCTGGCGCTACGAGCTGAACAATGCCGATCCGGTCGTGCAGGCGCTCGGCACGGGCGATACCCGGCTCGAGACCTTCACTGTCACGACCCTTGACGGGAGTTCGATCACGGTGACGGTCGTGGTGCAGGGGTTGGACGAACCCGTGGTCCCGGCCGCCCGGCCACCGGTGGAGCCGCCACCGGTGCTGGTGACCCCGCCGCAGCCTGCGCCAGCCCCGATACCGGCTCCGGCCATTCCCGATCCGGTTGCGCCGCCAGCGCCGCCGACCCCGTTCAACGCCACAGTGCTGCCGGCGAACAGCCTGTCCGCGCCTTCGCCCGCTGCGTCGCCGCTGGTCGCCGCCGTGCAGAGCCGCGAGCTGGATCTGTTGCTGCAGGCACGTGGCGACTATTACGAACTCTATACCCAGCGTGGCGGCTTCCAGATGCTGGTGATCGAGGCGCCCCAGCCGCGCCTGAGCCTGTATCACGGCATTGCGGATCAATACGCCGAAACGGAAACCCAGACCAGCTTCTCGGTGCCCTACGATGCGTTCGCCCACACCGATCCGAACGAGCGCATCCTGCTCAGCGCCACGTTGGCCAATGGTCAACGGCTCCCCGCTTGGGTGCGTTTCGACCCACGCAGCGGCAAGTTCGAACTGGTCGCCCCGGCCGGCTACCGGGGCGAGCTGAACATCAAGGTGGTGGCCCGCGATAGCCAGGGGCGTGAGGCCAGTGCTCTGTTCCGCTTCAATGTGGGCGATCACCGGGCAGCCGCAGTGGGTAGCCGCGGCGGACTCTCGGATCAACTGCGCCAGGCCGCCGCCCTGCGTTCGGCGGAGGCTCAGGTACGGGCAATGTCCACAGGCCAGGTGCCCTCCGACGTCCGGGCCGGGGCCAAGGTGGACTAG	MADQPKTPSASTRLVRGRPRPLALEQRFVFDGAAAADAVDTVTSQPVADPAASDAAENSAAVAIEHAAPAERQPVTAEQPDLFRPDGDHPGLAEATASAAEQIRQFLAQASDAQLFELFKGEQSTPSEQWRAELARLRTSIADGTLEIGVSLLDNAQIKGAMAAYAAEGPDGAPVIFLNRDWLAVLDTQQVSRLLIEEYGHHLDNLLNQGGDTAGDEGQRFAAEVSGIDTGTPGFAADNDHATLQFDGESVSVEFATLTFSNAYEVNAATTPAGKEANSHDFVFTSLGQVTVNDATNSRFFSGNDVSATAVTIGSTTYYGWISRPIKSGGVVRGFYFWTDADFTSLALAQSDGNQDGDSNVADNRGFLLVVDQAWFDSLGWKSQVSNLKNVGSSSDRVDAALNALVGPLVAPVAVADTANGTAGTSGGAAVEAGGSQNGTAGSAAIGNVLSNDTSADTKQVTAVGTGSASQAVSAATTSANGTVVVGLYGTLTLGADGSYRYVVNDANPQVEALRSASDTLVDTFTYRMTDASGMTSTTTLKVTIRGANDAPLASDDYSTAKESLRTDSTAYNGSDPLGSQAVGNVLTNDVDVDRYGETKTVVIISIEGGATGNTGGTTTFNTTLDSNDANSISIGAAVYRLNGDGTRTQLFSNGSPVTVASKTGSGSTIGFTFSDASALSGITRFSVMKGNGTFVDGTINSTTVSSSTTLALSGVTGNVAVGMTVYGTGLATAPTITSINYDSNGQVTSVVLSAAVALNNQALTFGNSTSAGVTLVGQYGSLLLNADGSYVYTPTANNPALSAGQSAVERFQYQMRDASGVTSSASLYITVLGSGTNDPNAVADTALATEQGGTANGTPGVNPTGNLLSNDTTPSGTNQIVTARASSSSASTTIGTNTEIIGLYGKLTLSANGAYTYVVDNSNSTVQALRDSSATLTDTFVYTLENGLTTNGVRLRDSSTFTVTIRGANDAPVAVDTSAAAVEASGVSNGVAGYNPSGNVLTPVTDVDDVLSELRVTAVRLGGVEGSGSAGVVGSALAGLYGSLTLDASGNWTYVLDNNNSTVQALNPGQTLIERFNYTVTDRSGSGLSDIAVLTITIEGAVDTVAVNSVFVNEASPYAVFTVSGSAGVAVSLALSDSDGLPASDTRASLSGGGADIGTTLEYFNGSAWVSYTPGSSVVIPSGDKLLVRVAVNQDNIHEGNESFTLIATTGNGDRSIGVGTINDEGEGDVYLPGNTTGTADASGSNGYPTLDDDRPTLSVSNVSVTEGDYAEFVVSLDKPSTTAIGFSPVLVSGTANIAIDTGTTAQLERFDGNGWVVVNGPVSIAPGELSVRLRIATVDDSFVEPDETFSLRTGPVSGTVTNLAGAEGTATLQDNDVAAPSNHAPVAVDDNLGATEDTPVTYSAAQLIGNDGDIDGDSLSIASVTSGTGGTAVLNQDGTVTFTPAPDFNGVATFTYTVTDGNLVSNTATVTIVVVAVNDPAVIGGTDTGAVTEDLDVNGQGDLTTGGALTISDPDTGEASFQGSVTPSAGALGTLTIAPDGTWAYSVPNALVQYLKAGETKVETFTVQSVDGTQQTVTVTILGVNDAAVIGGSDTGAVTEDLDVDGQGDLTTGGVLTIADPDAGEGSFQGSVTPSAGALGTLTIVADGTWTYSVPNALVQYLKAGETKVETFTVTTLDGTQQTVTVTIHGVNDAAVIGGNDTGSVIEDLNVDGQGNLTTGGSLTITDPDSDETSFYSLATPSAGALGSLSIDSNGTWSYSVPNALVQYLKAGETKVENFTVQSVDGTQHTITVTILGVNDEAVIGGTDSGSVTEDLDVDGQGDLTTGGVLTIADPDTGEGSFQGSVTPSAGALGTLTIAPNGAWIYSVPNTLVQYLKAGETKVETFTVTTLDGTQHTVSVTIHGVNDAAVIGGTNTGSVTEDLNVNGQGNLTTGGSLTVTDSDTGEASFQGSVTPSAGALGTLTIAPNGAWTYSVPNTLAQYLKAGETKVETFTVQSGDGTQHTITVTIHGVNDAAMIGGTDTGSVTEDLNVNGQGNLTTGGSLTITDSDTGEASFQGNVTPSTGALGTLTIAPNGTWTYSVPNALVQYLKAGETKVETFTVQSTDGSQHIITVTIHGVNDAAMIGGTDTGSVTEDLNVNGQGNLTTGGSLTVTDADTGETSFQGTVTPSAGALGTLSIAPNGSWTYSVPNTLVQYLKTGETKVETFTVSTLDGTQQTITVTIHGVNDAAVIGGAGTGSVTEDLNVNGQGSLTTGGSLTVTDSDTGEASFQGNVTPSTGALGTLTIAPNGTWTYSVPNALVQYLKAGETKVETFTVTALDGTQHTVSVTIHGVNDAAVIGGTNTGSVTEDLNVNGQGNLTTGGSLTITDSDTGEASFQGNVTPSTGALGTLTIAPNGAWTYSVPNTLVQYLKAGETKVETFTVAALDGTQHTVSVTIHGVNDAAVFAPGGRQGYVQEDTRFSSEGRVSVTDGDQGEAIIVAQTATPGLYGQFSIDAAGFWRYELNNADPVVQALGTGDTRLETFTVTTLDGSSITVTVVVQGLDEPVVPAARPPVEPPPVLVTPPQPAPAPIPAPAIPDPVAPPAPPTPFNATVLPANSLSAPSPAASPLVAAVQSRELDLLLQARGDYYELYTQRGGFQMLVIEAPQPRLSLYHGIADQYAETETQTSFSVPYDAFAHTDPNERILLSATLANGQRLPAWVRFDPRSGKFELVAPAGYRGELNIKVVARDSQGREASALFRFNVGDHRAAAVGSRGGLSDQLRQAAALRSAEAQVRAMSTGQVPSDVRAGAKVD				NA	NA	NA	NA	NA
BMS010_03620	1305			hypothetical protein	ATGGAGCGGTCTCCGCTTGCTGCCCTGCTCGAGCTGGGCCGTCAGGCCCGCCAGGCCGAGTCGCTGAGCGAGCTGCAGTTCCTGCTGGTCAATGACAGTCACGCCCTGGCGCCTTACCGGCAGGCGGCGTTCTGGACCGCCGACAAGGGCGTGCGGGCCCTGTCCGGCGTAGTGCAGGTTGAGGCCAACGTACCTTACGCCCTCTGGCTCGACGCGCTCGGTCGACAGCTGATCCAGGAGCCCGGGGCCCGCGTTGTCGAACGGGCGGCGCTGCCGGATGCGCTGGCCCGCGAGTGGGATGAATGGTTGCCGTCCGAGGCGCTCTGGCTGCCGTTGGGCGGGGACGCCGGCGTGCTGTTGGCGCGTGATCTGCCCTGGCGCGACCCTGAGCTGGCTTTGGTCACCGAGTGGACTGGTATCTGGCACCACGCCTGGCAAGCCCGCCAGATGTCCCGGCGGGGCTGGGCCTTCTGGCGGCGCGATGCGCAGAAGACCCCCCGTGGCTGGCGCCCGTGGCGCTGGGCAATCGCCCTCGGCGTGCTTGCGCTCGTTCCTGTCCGCCTGACGGTGCTGGCCCCCGGTGAGCTGGTGCCGGCCAACCCGGCGGTCATCCGGGCGCCGCTCGAGGGTGTGATCGATACCTTTCACGTGCAGCCCAACGAGGCGGTCCGCCAGGGCCAGCCGCTGTTCGGCTTCGATGAGGCGCTGATCCAGAACCGTCTCGACGTGGCGCAACAGGCGTTGGCCACGGCCGAGACCGAATACCGCCAGGCGGCGCAGCAGGCGCTTTCCGACCCACGTGCGAAGGCGCAACTGGCAGTGCTCACCGGAAAGATCGAGGAGAAGCGTGCCGAGGTCGCCTACGGAACCGAGCAGTTGCAGCGGGCCCGCGTGCTCGCCCCCCGCAATGGCATCGCCTTGTTCGATGACCCATCCGAGTGGATCGGTCGGCCAGTCACCGTCGGCGAGCGCATCATGCGCATTGCCGCGCCGCAGGATGTGGAGGTCGAAGCCTGGATCTCGCTGGCCGATGCCATTCCGCTGGCCGACGGTAGCCGGGTCGCCTTGCACCTCAACGCCAGCCCGCTGGCGCCGGTCGATGCGACGTTGCGTTATTTCGCCCACGATGCGGTGGAGCGGCCCGATGGAACCTACGCCTACCGCGTCCGCGCCCGGCTGGCTTCGCCCACCGAGCACAGGGTAGGACTCAAGGGCACCGCCAAGTTCAGCGGGCGCTGGGTGCCGCTTGGCTATTGGGCGCTGCGCAGGCCGCTGGCCAGCCTGCGCGCGGCGACCGGGTGGTGA	MERSPLAALLELGRQARQAESLSELQFLLVNDSHALAPYRQAAFWTADKGVRALSGVVQVEANVPYALWLDALGRQLIQEPGARVVERAALPDALAREWDEWLPSEALWLPLGGDAGVLLARDLPWRDPELALVTEWTGIWHHAWQARQMSRRGWAFWRRDAQKTPRGWRPWRWAIALGVLALVPVRLTVLAPGELVPANPAVIRAPLEGVIDTFHVQPNEAVRQGQPLFGFDEALIQNRLDVAQQALATAETEYRQAAQQALSDPRAKAQLAVLTGKIEEKRAEVAYGTEQLQRARVLAPRNGIALFDDPSEWIGRPVTVGERIMRIAAPQDVEVEAWISLADAIPLADGSRVALHLNASPLAPVDATLRYFAHDAVERPDGTYAYRVRARLASPTEHRVGLKGTAKFSGRWVPLGYWALRRPLASLRAATGW				NA	NA	NA	NA	NA
BMS010_03621	2100			hypothetical protein	ATGAATTGGCCCCTGCTGCGCGAGGAACTGGCCCTGATGCCCGGCCCGGCCCTGGCCGACGGCCAGCCGAGCTGGACGCTGCACGACCCGGCCCGCAACCGCTTCTTCAACATCGACTGGCCCACCTTCGAGATCCTGCGTCGCTGGTCGTTCGCCGATGCCCAGGCGATCGTCGAGAGCGTGCGTCAGGAGTCGACCCTCGCGCTCGAGCCCGAGGACATCGAGCGGGTGACGCGCTTCCTTGGCGAGAACCAGCTGCTCCAGGCACGTCCCGGCAATGCCCGGAAACTGGCAGAGCGCCTGGGGCGGATGCAGGGCAGCCGTTTCAAGTGGCTGCTGCACCATTACCTGTTCTTCCGCGTGCCCCTGGTGCGTCCCGATGCCTGGCTGGGGCGCTGGCAGGGGGTGGCCGGGCGCTTCTACAGCCGTGGCTTTGCCCTGCTGACGCTGGGTGCGCTGCTGCTGGGCCTGGGCCAGGTGGCACGGCAGTGGGACAGTTTCACCGCGTCGTTGGTCGACACCTTCACTTGGCAAGGACTGGCCGCCTACGGGGTGGCCGTATTCCTGGTCAAGCTGCTGCACGAGCTCGGCCATGCCTTCACCGCGAAGCGCCTGGGCTGCCGGGTGCCGACCATGGGCGTGGCTTTTCTGGTTCTCTGGCCGATGGCCTACACCGACACCAACGACACCTGGCGTCTGACCAGCCGCTGGCAGCGTTTGCGAGTGGCCGCCGCCGGCATCGTCACCGAGCTGGGTGTGGCCGCCTGGGCGACCCTGGCCTGGGGCTTGCTGCCGGACGGGGAGCTGCGCTCGGCGGCCTTCGTGCTGGCCACCACCAGTTGGGTCGCCACCCTGGCGATCAACGCCAGCCCCTTCATGCGCTTCGATGGCTATTTCATCCTCGCCGACTGGTTGGACATGCCCAACCTGCACGAGCGCAGTTTCGCCCTGGCGCGCTGGAAGTTGCGGGAATGGTTGTTCGATCTGGGCGAAGAGCGCCCCGAGCACTTCGCGCCGGCCAAGGAGCGGGCGCTGGTCGCCTTCGCCTGGGTGACCTGGGCGTATCGCCTGGTGGTCTTCCTCGGCATCGCGGTGCTGGTCTATCACTTCGCGGTCAAGGCCATCGGCATCCTGCTGTTCATGGTCGAAATCGGCTGGTTCATCCTGATGCCGATCCGTCACGAACTGCGCGCCTGGAAGGAGCGCTGGCCCGCCATTCGCGGCCGGCGGCGCAGCCGTATCAGTCTGGTCGTGGCCCTGTTGCTGGTGGCGCTGGTGCTGTTGCCCTGGCCCGGCCGGGTTACTGTCAGCGGCCTGTTGCGGCCGATAGCGGTCTGGCCGGTGCATGCGCCGGGGCCAGCCTATCTCGATGCGCTGCCTCATGCCGAGGGGGATGTCATCGAAGCGGGCGAAGTCCTTGTCCGCTTGGCAGCGCCGGACATCCAGGTGCATCGCGATGCGGCTGCGGCCCAGGTGGAACGCCTGCGCTGGCTGGCGGCGTCCGCGGGTTTCGATAGCGAATCCCGCGCCCGCCTGCAAAGCGCCCAGGAAGAGCTCGCCACCGCCGAAACCGCGCTCGCCGGCCTGGACCAGGAACTGGCGCGCTACCAGCCCAAGGCCCCGTTCGCCGGATACCTGTATGACCTCGACCCCGATCTGCAGGCCGGGCAATGGCTCGGTTCGAAAGAGCGCATCGCGCTCCTGGTCGGCCGGGAGGGGTATATGGTGGAAACCTTCCTCGACGAAGAAGCGGTCAAGCGCGTTACCCTGGGCGATACGGCGGCCTTCGTCAGCGACGGCGGAGAGGGCGGACGCCTCGATCTGGTTGTTCGCCACATCGACGCGGATGCAACGCGGGTACTCGCCAACGGCATGCTCGCGGCACAGGCCGGCGGCCACATCCTCGTGCGGGAACGCCGGAGCCAACGGGTTCCCGAGCGAGGCGTCTACCGCGTCGTGCTGGCGGTAGCGTCACCCCCGGAGAAACTGGCCGGCCGCTCCTGGCGGGGAACCGTCGTCATCCACGGCGGCTGGGAAGCACCGGCCTGGCGATACCTGCGCAATGCCTTTGCGGTGTTGTTGCGCGAGGCGAGTCTTTGA	MNWPLLREELALMPGPALADGQPSWTLHDPARNRFFNIDWPTFEILRRWSFADAQAIVESVRQESTLALEPEDIERVTRFLGENQLLQARPGNARKLAERLGRMQGSRFKWLLHHYLFFRVPLVRPDAWLGRWQGVAGRFYSRGFALLTLGALLLGLGQVARQWDSFTASLVDTFTWQGLAAYGVAVFLVKLLHELGHAFTAKRLGCRVPTMGVAFLVLWPMAYTDTNDTWRLTSRWQRLRVAAAGIVTELGVAAWATLAWGLLPDGELRSAAFVLATTSWVATLAINASPFMRFDGYFILADWLDMPNLHERSFALARWKLREWLFDLGEERPEHFAPAKERALVAFAWVTWAYRLVVFLGIAVLVYHFAVKAIGILLFMVEIGWFILMPIRHELRAWKERWPAIRGRRRSRISLVVALLLVALVLLPWPGRVTVSGLLRPIAVWPVHAPGPAYLDALPHAEGDVIEAGEVLVRLAAPDIQVHRDAAAAQVERLRWLAASAGFDSESRARLQSAQEELATAETALAGLDQELARYQPKAPFAGYLYDLDPDLQAGQWLGSKERIALLVGREGYMVETFLDEEAVKRVTLGDTAAFVSDGGEGGRLDLVVRHIDADATRVLANGMLAAQAGGHILVRERRSQRVPERGVYRVVLAVASPPEKLAGRSWRGTVVIHGGWEAPAWRYLRNAFAVLLREASL				NA	NA	NA	NA	NA
BMS010_03622	618	gph_3		Phosphoglycolate phosphatase	ATGACCATACAAGCCGTCATTTTTGATGCTTTCGGGACACTGATAAAGATTCAAGATGGGTCGCATCCGTACCGACAGTTGATGAAGATCGGAAAGGCGCATGGGCGGCGCCCCCGCCCGGACGACGCGTCTTTCCTGATGAAATCTGCGATAACGTTGACGCAAGCCGCAGCGCATTTGGGGATCACTGCAAGCCCTGAACAATTGAGCACTCTGGAAACTGTCCTGGCAGAAGAGATCGCAGCCGTTGAGGCATATCCTGACGGGCTCGAAGCGGTGAAACTGCTCCAAGAGCAAGGCATTCGAATCGGTGTTTGCTCGAATTTGGCTTTCCCGTACCGGCAAGCCGTCCTGCGTTGCTACCCCATGCTAGACGCATATGCATTTAGCTGTGATTTAGGCGTAATGAAGCCCGAACCCACCATCTACAGTTGGATTTGCGATCAGCTTGGGGCGTCCCCGACCGCATCGTGGATGATCGGTGACTCCCAACGTTGCGACCGAGATGGGCCAACGGCAGTAGGCATCCGAGGCTTTTTTGTTGACCGAAACAGCACCAACGGTGACTGCCCTGAATTGGTTACGTTCGCTCGTAAGGTATTGGCAACCGCGCCTTGA	MTIQAVIFDAFGTLIKIQDGSHPYRQLMKIGKAHGRRPRPDDASFLMKSAITLTQAAAHLGITASPEQLSTLETVLAEEIAAVEAYPDGLEAVKLLQEQGIRIGVCSNLAFPYRQAVLRCYPMLDAYAFSCDLGVMKPEPTIYSWICDQLGASPTASWMIGDSQRCDRDGPTAVGIRGFFVDRNSTNGDCPELVTFARKVLATAP				NA	NA	NA	NA	NA
BMS010_03623	324			hypothetical protein	ATGAGCCTGCGGTGCAGCGAGATATCGAGCAGGGTCGGAACGAAACTTGGTCTGGCAACCCTGGCTGCAGAAGCGGTAAGTGCTTCCCTGATAATGCTCTTGATGCTCGCTATCCTCTTCCACCTTCATCCCGCAGACGGGGTCTGTGAGTGCTGCAGTACCTTTCGTTTGGTCGGGCTGGTGATGGCACTGCTGAGAGGACATACGGGGCACCTTATGGATTGGTTAGCGACGAACTTGGCCTATTGCAGGGACATTTGCGGTTTTTCAATGCTTGCAGCGTCTGACAGCCAATATATGCAAAGCGTCCTGACCAAAGGCTGA	MSLRCSEISSRVGTKLGLATLAAEAVSASLIMLLMLAILFHLHPADGVCECCSTFRLVGLVMALLRGHTGHLMDWLATNLAYCRDICGFSMLAASDSQYMQSVLTKG				NA	NA	NA	NA	NA
BMS010_03624	2061	silP		Silver exporting P-type ATPase	ATGGATCCAGGTGATTGCCCTATCTGCGGGATGTCATTGGAACCTCTGATCCCTGAACTCGACGAGGAGGAGAATCCCGAACTCAAGGACTTCTCGAAGCGATTCTGGTGGTCTCTGCCCCTGACCGTAGCAGTAACCCTGTTGGCAATGGCGGGACATGCGATACCGCTGTTTCACGGCGCTAGCCAGAACTGGGTTGAACTAGCCCTTACGACCCCGGTTGTCTTGTGGGCAGGTTGGCCATTTCTCGTGCGCGGTTTCGCATCAGTTAAGCATCGCAGCCCAAACATGTGGACGTTGATCGGGCTTGGCACAGGGGCTGCGTATATTTACAGCATCGTAGCAACCGTCTTACCGAGCATATTTCCAGAGTCATTCACTGTGGGCGGCCGGATAGGCGTTTACTACGAAGCCGCAGCGGTCATCATTTCACTGACGCTTTTAGGTCAGCTGCTCGAACTGAAGGCCCGCTCTCAGACATCTTCCGCAATCAAGTCCCTGCTTGGCTTATCACCCAAAACAGCTCGCCGTATCGCCAAGGATGGTTCCGAGGAGGACATCCCGCTCACACATGTTCACGAGGGCGACCATCTGCGCGTTCGTCCTGGTGAAAAGGTACCCGTTGATGGAGAGGTGTTAGAGGGCGAGAGCGCCGTCGACGAATCCATGCTAACGGGCGAGCCGGTTCCGGTGACGAAGCGGACAGGCGATTCGCTTATCGGCGCGACGATGAACACGAGCGGCTCGCTTGTCATGCGAGCCACCAGGGTTGGCTCCGGGACTATGCTTTCACAAATCGTCCAGATGGTTGCGAATGCGCAACGCTCCAAAGCACCCATGCAGCGAATGGCGGACACGGTTGCGGGTTATTTCGTGCTGACGGTCATTGGTATCGCCTTGCTGACATTCTTTGCATGGGGCCTGTTTGGACCCGAGCAGGGCTGGGTATTCGGCCTGATCAATGCAGTTGCGGTTCTGATCATTGCTTGCCCTTGCGCACTTGGCCTGGCAACGCCTATGTCGATCATGGTTGCCACAGGCAAAGCGGCTGGAAGTGGAGTGCTTTTCAGAGACGCAGGCGCCATCGAAAATGTCCGTAAGGTAGACACGCTGATTGTCGATAAAACAGGAACCTTGACCGAGGGCCGACCTGTCTTCGATCGGGCCATAGGCGTCACGCCGTTTGACTCGCAGGAAGTCATCCGTTTGTCTGCCAGCTTGGATCAAGGTAGTGAGCATCCCCTAGCCCACGCGATCGTAGACCATGCCAGAAGCGAAGGTATCCAGCTGGCGAAGCCAGAGACCTTCGAGTCAGGGTCAGGGATCGGAGTCCGTGGTCTGGTGGAAGGCAAGCAGCTACAGCTAGGCAACACCGCGCTTATGGAAGATGCGGGTGTGAGCGTCGAGCCGTTGAAATATCAGGCAGAAAAAATGCGCGAGAGCGGTACCAGCATTGTTTACCTGGCTGTTGATGGGGCACTTGCCGGCTTGCTGGCCGTATCGGACCCAATCAAACCGACGTCCAAGGAAGCTGTAGCGCGGCTCCAAGCGGAGGGCGTGCAAGTCATCATGGCCACCGGCGACGGGCTTACCACTGCCCGCGCGGTGGCTCGTGAGCTATCGCTCGATGAGGTGCATGGCGAAGTGAAGCCGCAGGACAAGGAGGCGCTGGTGGTTAAGCTACAAGCCCTAGGTAAAGTAGTCGCCATGGCAGGCGACGGAATAAATGATGCGCCGGCGCTCGCCAGGGCTGATGTCGGCATAGCGATGGGCACGGGCACTGACGTCGCCATGAACAGCGCCCAAGTTACGCTCGTTAAAGGTGACCTGATGGGGATACTGCGCGCGCGCACGCTTTCGGTGGCGACGGTTCGCAATATGCGTCAGAACCTTCTGTTTGCCTTTATGTACAACGGGTTGAGCATCCCGATTGCCGCAGGTCTGCTCTATCCGTTCTTCGGACTGTTGCTGTCTCCGATGATTGCTGCCCTGGCCATGAGCCTCAGCTCAGCATCGGTTGTGTTCAACGCACTCCGGCTCCGTCAAACGCGTGTAGTTTGA	MDPGDCPICGMSLEPLIPELDEEENPELKDFSKRFWWSLPLTVAVTLLAMAGHAIPLFHGASQNWVELALTTPVVLWAGWPFLVRGFASVKHRSPNMWTLIGLGTGAAYIYSIVATVLPSIFPESFTVGGRIGVYYEAAAVIISLTLLGQLLELKARSQTSSAIKSLLGLSPKTARRIAKDGSEEDIPLTHVHEGDHLRVRPGEKVPVDGEVLEGESAVDESMLTGEPVPVTKRTGDSLIGATMNTSGSLVMRATRVGSGTMLSQIVQMVANAQRSKAPMQRMADTVAGYFVLTVIGIALLTFFAWGLFGPEQGWVFGLINAVAVLIIACPCALGLATPMSIMVATGKAAGSGVLFRDAGAIENVRKVDTLIVDKTGTLTEGRPVFDRAIGVTPFDSQEVIRLSASLDQGSEHPLAHAIVDHARSEGIQLAKPETFESGSGIGVRGLVEGKQLQLGNTALMEDAGVSVEPLKYQAEKMRESGTSIVYLAVDGALAGLLAVSDPIKPTSKEAVARLQAEGVQVIMATGDGLTTARAVARELSLDEVHGEVKPQDKEALVVKLQALGKVVAMAGDGINDAPALARADVGIAMGTGTDVAMNSAQVTLVKGDLMGILRARTLSVATVRNMRQNLLFAFMYNGLSIPIAAGLLYPFFGLLLSPMIAALAMSLSSASVVFNALRLRQTRVV	PGPT0004090_4802	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004090-copA|ctpA-K17686	NA	NA
BMS010_03625	1254			hypothetical protein	ATGAAACCCCGTATTTATTGGGCGCCGCCGTACGTGGCCGCCTTGATCATGGGCGCGCTCTCGTTTCCAGGGTTAGCGTCCGCTTTGACCTTAGAACAAGCTCTGAGCGTGGCCGAGCAAGACGCGCCTTCGCTGCATGCGCAAGCCGCCAACCTGGTGGCCGCACGCAGCGCTGCAATCCCTGCCGGCGAGCTTCCTGACCCTAAACTTAAGCTTGGACTGCAAAGCGTGCCCATCGAAGGTGACGCTCGCTGGCAGTTGGAGCAAGAGGCCATGACCATGCAAATGGTTGGGGTCATGCAAGATGTGCCAAACCGAGCGAAAAGGCGCGCTCGTGCCGAGGCCGCGCAGGCTAGTGTTGCGCTCGCAAACGCCCAGCAAACGGTTGAACGTCTCGGTGTGCGCCAAGCAACCGCCGAGGCATGGATCGCTAGCTTCGCGGTCGAGCAGAAGCTAAGCCTTTTCAAGCAGCTTTACAGCGAGAATCAGCTCCTTTCGCGGGCTGTTCAGGCCCGCATTGCTGGCGGCAGCGGACAAACCGCAGACAGCGTACTTCCGAGGCAAGAGGCAGCATTGCTGGCTGAACAAGAGGATGAGCTGCTGCGTAACCAGGCTGTTGCGCGGGCCGGCCTCCGGCGCTGGATAGGCGAGCTAGCAGGCCAGCCGCTTACAGGTGACTGGCCGCAATGGCTTGCCGCCGTTGATAACTATCAGCACAACCTGAACCGGCACCCGGCGTTACTCGCCTTCGACCCGATGACTCGTGAAGCGGAGGCAAAGGTTCACCAGGCCATCGCAGAGAAAACACCGGATTGGAGTTGGGGGGTCGACTACCTGCGACGTGGCCGTGAGTACGGCGACATGGTGAACCTCAGCGTCAGCTTCGACCTGCCGCTGTTTACCAGCTCTCGGCAGGATCCGAAGATCGCGGCCGAACGAGCTCGCCTTGCCCAGATCGAGGCTCAGCGCCAAGCGACCTTGCGCCTGTACAACCAAGAGCTGGGTACTGACCTCGCTGAGTATCAGCGTCTGGACCGCGCACTCATCCGCCTCGACAAAACCTTACTACCCCTCGCTGAAGAGAAGGTCCGCCTTGCCATGGCCGATTACCGCTCCGGAAGCGGTGAGCTGACCGCTGTGATCGAAGCGCGACGACAGCTTGTGGAGACCCGGCTACGGCGTATTGACGTCGCCCGCGATCGATCGTTGAGCAATGCCCGCCTGCATTTCGCCTTTGGAGATACCCGACCATGA	MKPRIYWAPPYVAALIMGALSFPGLASALTLEQALSVAEQDAPSLHAQAANLVAARSAAIPAGELPDPKLKLGLQSVPIEGDARWQLEQEAMTMQMVGVMQDVPNRAKRRARAEAAQASVALANAQQTVERLGVRQATAEAWIASFAVEQKLSLFKQLYSENQLLSRAVQARIAGGSGQTADSVLPRQEAALLAEQEDELLRNQAVARAGLRRWIGELAGQPLTGDWPQWLAAVDNYQHNLNRHPALLAFDPMTREAEAKVHQAIAEKTPDWSWGVDYLRRGREYGDMVNLSVSFDLPLFTSSRQDPKIAAERARLAQIEAQRQATLRLYNQELGTDLAEYQRLDRALIRLDKTLLPLAEEKVRLAMADYRSGSGELTAVIEARRQLVETRLRRIDVARDRSLSNARLHFAFGDTRP	PGPT0004975_1921	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-CUS_TRANSPORT_SYSTEM,PGPT0004975-czcC|cusC|cnrC-K15725	NA	NA
BMS010_03626	1452	cusB_2		Cation efflux system protein CusB	ATGACATTCCAACACAAGCGGCTGGTACTCGCCTTCAGTCTGCCTCTGATGATTAGCGCTGCAGCGCTAATCGGTCTGCCTACCGCAGCCTTCGGACAATCGCCTGCAGAAGAAGACAAGGAAGTGCTCTATTGGTATGACCCTATGGTCCCCCAGCAAAAGTTCGATAAGCCGGGCAAGTCGCCATTCATGGATATGGAATTGATTCCACGCTATGCAGATGAGGGAAGCGACGGGGCATCGATCAGTATCGACCCGAGCGTGACGCAGAATCTCGGCGTGCGCTTGGCAACCGTAACGCGTGAATCGATCAGCCAGTCGCTCGAAGCGACAGGCGCGTTGATGTTTGACGAGCGAGACGTGGCGGTTGTGCAGGCGCGTGCCGGTGGCTTTGTCGAGCGCGTTTACGACCGAGCACCGGAGGATGTCATCGAAAAAGGCGCGCCGTTAGCCGATCTTTTGGTTCCCGAATGGGCTGCCGCACAGGAAGAGTACCTGGCGCTCAAAGGGGTCGGCCAACCCCAGCTGCTCGCAGCGGCTCGCCAGCGGTTGCGCCTTGCTGGCATGCCGCCAGAAGTCATAGTGCAGCTAGAACGAACTGGTAAAGCGCGCCCTGTTTGGACAGTGAGGAGTCCAATAGGCGGCGTGCTGAACAGCCTCGACGTTCGCGAGGGCATGACCGTATCCACCGGTGCGTCTCTGGCACGTGTTAATGGGCTGGAAAAGGTATGGTTAGAGGTTGCGGTGCCTGAGGCGCAGGTTGCAAATGTGGCGCCTGGGCAGCTGGTCAACGCGCGCCTCCCGGCCTTTGCAGGTGAAGTTCTGGAAGGGACGATCCAGGCCGTACTACCACAAGCCAACTTGGATAGCCGTACTGTGCGCGTCCGGGTTGAACTGCCTAATCCGCAACAACGGCTTCGTCCCGGCATGACGGCCGAGGTGACGTTGAGTCGCAACGTCGAAGATGTCTTGGTCATCCCGTCCGAGGCGGTCATTCGCACCGGTCGGCGCGCATTGGTGATGCTGGCCGAGGATCAAGGCCGTTACCGCCCGATTGAGGTTCGCACAGGCCGGGAATTCGATGACCAGACAGAGGTGCTTGAAGGGCTGGAAGCCGGTCAGAAGGTCGTGGCGTCCGGTCAGTTTCTCCTGGATTCAGAGGCGAGCCTACGCGGGCTGACCGCTCAGGATTTGGAGGAGCCTGCAACTTCTACAGAACCTGCGCTGCACGAGGCTGAAGGTACGATCGTCAGCCTGGAAGATGGCATGGTTGGCCTGTCGCATGGGCCGTTCAAGACGCTGAACATGCCTGGGATGACCATGTCCTTTCCGGTTGCGGATCAATCCCTGCTGTCAGGCTTGCAAGTCGACGACCGCGTCCGTGTGGGCGTGCGTGAAAGCGACGAAGGCCTGGTCATCGAGCGCATCGAGAAGCTCGGGGGCCAGAAATGA	MTFQHKRLVLAFSLPLMISAAALIGLPTAAFGQSPAEEDKEVLYWYDPMVPQQKFDKPGKSPFMDMELIPRYADEGSDGASISIDPSVTQNLGVRLATVTRESISQSLEATGALMFDERDVAVVQARAGGFVERVYDRAPEDVIEKGAPLADLLVPEWAAAQEEYLALKGVGQPQLLAAARQRLRLAGMPPEVIVQLERTGKARPVWTVRSPIGGVLNSLDVREGMTVSTGASLARVNGLEKVWLEVAVPEAQVANVAPGQLVNARLPAFAGEVLEGTIQAVLPQANLDSRTVRVRVELPNPQQRLRPGMTAEVTLSRNVEDVLVIPSEAVIRTGRRALVMLAEDQGRYRPIEVRTGREFDDQTEVLEGLEAGQKVVASGQFLLDSEASLRGLTAQDLEEPATSTEPALHEAEGTIVSLEDGMVGLSHGPFKTLNMPGMTMSFPVADQSLLSGLQVDDRVRVGVRESDEGLVIERIEKLGGQK	PGPT0004065_918	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SILVER_RESISTANCE	SILVER_RESISTANCE-SILVER_TRANSPORT,PGPT0004065-cusB|silB-K07798	NA	NA
BMS010_03627	3159	cusA_2	COG3696	Cation efflux system protein CusA	ATGATTGCAGCCATAATCCGATGGTCAGTAGCCAACCGCTTTCTGATCCTGCTGGCCACTTTGTTCGCGGTGGCCTGGGGTATCTGGTCGGTCAAGAACACTGCTGTCGATGCGTTGCCAGACCTTTCCGACGTTCAGGTCATCATTCGCACGCCATACCCCGGGCAGGCGCCCCGGATCGTTGAGAATCAGGTCACCTACCCAATGACGACGACCATGCTGTCTGTCCCCGGCGCAAAGACGGTCCGCGGCTACTCCTTCTTCGGGGATAGCTACGTGTACGTCCTGTTTGAGGACGGCACCGACCTCTATTGGGCCCGTTCTCGGGTGCTGGAGTACCTGAGTCAGGTGCAGAGTCGGCTTCCCGCCGCCGCCAAACCCGCTTTGGGCCCTGACGCCACAGGTGTCGGCTGGATCTACCAATATGCTTTGGTAGACCGAACGGGCAAACATGACCTCTCGCAGCTGCGCTCTTTGCAAGATTGGTTCCTGCGCTATGAGCTCAAGACACTGCCCAACGTGGCGGAAGTCGCGCCCATAGGCGGGATGGTCAAGCAGTATCAGGTCGTACTGGATCCCGTGCGCATGGCAAGCAGGGGCGTGACGCAGCAGCAGATTGCAAAGGCGATCGATGAAGCCAACCGTGAAACCGGCGGGAGTGTTCTGGAACTCGCAGAAACCGAGTTCATGGTCCGTGCGACCGGGTATCTCAAGACACTCAAAGACTTTCGAGCCATTCCTTTGCGTCTCGACGGCGGCGTGCCAGTGACGCTAGGGGACGTTGCGCATATCCAGCTCGGCCCGGAAATGCGCCGGGGCATCAGCGAGCTTGACGGTGAAGGTGAGGTAGTCGGCGGCGTGGTGATCCTGCGGAGCGGCAAGAACGCTCGGGAAACCATCGCTGCCGTTCAGACCAAACTGGATGAGCTGAAAGCGAGCCTGCCCCAAGGCGTCGAAATCGTCACGACGTACGACCGTAGCAAGCTGATCGACAGTGCCGTTGAAAACCTCACGCACAAGCTCATCGAGGAGTTCATTGTCGTTGCGTTGGTTTGCGCGATTTTTCTGTGGCATCTGCGCTCGTCGTTGGTCGCCATCGTGTCGTTGCCGATCGGCATCCTGATTGCTTTTGTGATCATGCAGCGGCAAGGCATCAACGCCAACATCATGTCGTTGGGTGGCATCGCGATCGCCATCGGAGCGATGGTCGATGCAGCAATCGTCATGATCGAAAACGCCCACAAGCACATTGAGGCCTGGCACAAGCGGCATCCTGACTCCACCTTGAAGGGCCAGGAGCACTGGAAGGTCATTACTGACGCGGCTGTTGAAGTGGGGCCGGCATTGTTCTTCAGCCTGCTGATCATCACGCTGTCGTTCATTCCAGTGTTCACCCTGGAGGCGCAGGAAGGCCGGCTGTTCGGTCCACTGGCGTTCACCAAAACCTATGCAATGGCAGCCGCCGCGGGCCTGTCTGTCACGCTGGTTCCGGTGCTCATGGGGTATTGGATCAGGGGCAAAATCCCTGACGAACACCGTAATCCACTCAACCGTGGCCTCATCTGGATCTACAAGCCGGCCCTGGACGCGGTACTGCGCTGGCCCAAGATGACTCTGCTGGTGGCTGTTCTGGTCTTCCTGACAGGCTTGTGGCCGGCCTCTCGCCTTGGTGGGGAGTTCTTGCCCCCGCTGGATGAAGGTGACCTCCTTTATATGCCCACTGCGCTTCCAGGCCTCTCCGCTCAGAAGGCTTCTGAGCTACTGCAGCAGACGGACCGGCTCATAAAAACGGTTCCAGAAGTTGCACACGTGTTCGGTAAGGCTGGTCGAGCCGACACCGCTACAGATCCCGCCCCGCTGGAAATGTTCGAGACGACCATTCAGTTCAAGCCGAAGGATCAATGGCGCCCTGGGATGACGCCTGACAAGCTGGTTGAGGAGTTGGATCGCACCGTACAGGTACCTGGATTAGCCAATCTGTGGATCCCGCCGATTCGAAACCGTATCGATATGCTGGCGACGGGTATCAAGAGCCCGATCGGGGTGAAAGTGTATGGCACTGACTTGGCACAGATCGACAAAGCCACCCAGGCAGTGGAAAAAATCGCCAAAACGGTGCCTGGGGTCAGTTCGGCGCTTGCTGAGAGACTGACCGGCGGCAGGTATATCGATGTGGATATCGATCGTGTCGCCGCCGCACGCTACGGCCTGAATATCGCGGACGTGCAATCGATCGTGGCCGGTGCCATCGGTGGTCAAACCATTGGTGAAACCGTGGAAGGGCTCGCCAGGTATCCGATCAACCTCCGCTATGGCCGCGAGTGGCGCGACTCGATATCCGATCTGCGCAACCTACCGATCTACACGCCGCAAGGCAGCCAGATCACGTTGGGGACCGTGGCCAAAGTACAGGTGACAGACGGACCGCCCATGCTTAAAAGCGAAAACGCAAGGCTGTCGGGCTGGGTTTACGTCGATGTTCGTGGCCGCGACATGGCGGCTGTGGTGGGCGATCTGAGGGAAAAGATCAGCAAAGGGGTCCAGCTCGAATCCGGCATGAGCATCAGCTATTCCGGCCAATTCGAATTCATGGAGCGCGCTAACGCGAAGCTGAAGCTCGTCGTTCCGGCTACCTTGCTGATCATTTTTGTATTGCTCTACCTAACGTTTGCCCGCTTTGGCGAGGCGCTGCTCATCATGGCTACGCTGCCATTCGCTCTGACCGGGGGCGTCTGGTTCCTATATCTGCTCGGGTACAACCTATCCGTAGCGACAGGAATCGGATTCATCGCACTGGCAGGCGTTTCTGCTGAGTTCGGCGTCATTATGCTGCTGTATTTGAAGAACGCCTGGACGGATCGGGTTAACGCTGGAGCCCATGGCGAAGGCGTCCTGCTCGACGCCATTCGTGAAGGTGCTGTCCAGCGAGTGCGCCCCAAGGCCATGACCGTCGCCGTGATCATCGCTGGCCTGCTGCCCATCCTTTGGGGCGGCGGGACCGGCAGCGAAATCATGAGCCGTATTGCCGCGCCCATGGTGGGCGGGATGATCACCGCGCCGTTGCTCTCCCTGTTCGTTCTGCCGGCAGCCTACCTGCTGATGCGCCGCCGGCAATTGCAGGCCCAGCACGCAACCAACTCCCCTGGAGAACATCTATGA	MIAAIIRWSVANRFLILLATLFAVAWGIWSVKNTAVDALPDLSDVQVIIRTPYPGQAPRIVENQVTYPMTTTMLSVPGAKTVRGYSFFGDSYVYVLFEDGTDLYWARSRVLEYLSQVQSRLPAAAKPALGPDATGVGWIYQYALVDRTGKHDLSQLRSLQDWFLRYELKTLPNVAEVAPIGGMVKQYQVVLDPVRMASRGVTQQQIAKAIDEANRETGGSVLELAETEFMVRATGYLKTLKDFRAIPLRLDGGVPVTLGDVAHIQLGPEMRRGISELDGEGEVVGGVVILRSGKNARETIAAVQTKLDELKASLPQGVEIVTTYDRSKLIDSAVENLTHKLIEEFIVVALVCAIFLWHLRSSLVAIVSLPIGILIAFVIMQRQGINANIMSLGGIAIAIGAMVDAAIVMIENAHKHIEAWHKRHPDSTLKGQEHWKVITDAAVEVGPALFFSLLIITLSFIPVFTLEAQEGRLFGPLAFTKTYAMAAAAGLSVTLVPVLMGYWIRGKIPDEHRNPLNRGLIWIYKPALDAVLRWPKMTLLVAVLVFLTGLWPASRLGGEFLPPLDEGDLLYMPTALPGLSAQKASELLQQTDRLIKTVPEVAHVFGKAGRADTATDPAPLEMFETTIQFKPKDQWRPGMTPDKLVEELDRTVQVPGLANLWIPPIRNRIDMLATGIKSPIGVKVYGTDLAQIDKATQAVEKIAKTVPGVSSALAERLTGGRYIDVDIDRVAAARYGLNIADVQSIVAGAIGGQTIGETVEGLARYPINLRYGREWRDSISDLRNLPIYTPQGSQITLGTVAKVQVTDGPPMLKSENARLSGWVYVDVRGRDMAAVVGDLREKISKGVQLESGMSISYSGQFEFMERANAKLKLVVPATLLIIFVLLYLTFARFGEALLIMATLPFALTGGVWFLYLLGYNLSVATGIGFIALAGVSAEFGVIMLLYLKNAWTDRVNAGAHGEGVLLDAIREGAVQRVRPKAMTVAVIIAGLLPILWGGGTGSEIMSRIAAPMVGGMITAPLLSLFVLPAAYLLMRRRQLQAQHATNSPGEHL	PGPT0004060_586	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SILVER_RESISTANCE	SILVER_RESISTANCE-SILVER_TRANSPORT,PGPT0004060-cusA|silA-K07787	NA	NA
BMS010_03628	357			hypothetical protein	ATGAACATCAAGCACATCACCCTTGCCTCACTCTTCCTAGTACCAGTCGCCTATGCCGCCGACAAGGAGCCAATGGACGGCATGCCGATGGATCACAAAGGCATGAACATGCCAATGGACCAGAAGTCGGCGGGACAGACCGCTACAGCCACAGGTACGGTCAAGAAAGTAAACACCGAGAGCGGAACCGTCACCATTGCCCACGGCCCGGTCGAAGCGTTGGGCTGGCCGTCGATGACGATGGGCTTCAAAGCAAAGCCTGATCAGCTCCAAACGCTGAAAGAAGGGGACCAGGTCGAATTCGAGTTCTCCTCGAAAGGTATGGATTCCACCATTACGCGCATCGAAAAGCAGTAA	MNIKHITLASLFLVPVAYAADKEPMDGMPMDHKGMNMPMDQKSAGQTATATGTVKKVNTESGTVTIAHGPVEALGWPSMTMGFKAKPDQLQTLKEGDQVEFEFSSKGMDSTITRIEKQ	PGPT0004075_205	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SILVER_RESISTANCE	SILVER_RESISTANCE-SILVER_TRANSPORT,PGPT0004075-cusF-K07810	NA	NA
BMS010_03629	318			hypothetical protein	ATGAACCGCATAACCAAAGTAATCGTTCCTTTTATTCTGACCGTTGCTTCCTCGCTTGCAATGGCCGAAGGCGGAAGCGAACGTACGCTGAATCGCTTAAATGACTCGGCAGGAGCAAAGCCCACCCTTAAGGAGCTTGTCAAAGAGGGTCAAGTGCTGAGCATCGCACCTGCAGGGGCGACCGGCACGACTCGAATGATTCAAAACTATAGAACTAGTGCCCAAGTCCAGACGTATGAGATGAAGGTCAAGACCCCCGACGGGAAGATCCATACGGTAGAGTTCCTGAGCACCCCAGTTGGCGTGAACAATGGCTAA	MNRITKVIVPFILTVASSLAMAEGGSERTLNRLNDSAGAKPTLKELVKEGQVLSIAPAGATGTTRMIQNYRTSAQVQTYEMKVKTPDGKIHTVEFLSTPVGVNNG				NA	NA	NA	NA	NA
BMS010_03630	258			hypothetical protein	ATGAGCAGCATAATATCCAAGATTAAAAGCGTACTGCAGCGCAATCCGGTCGTAACGGGGTTAACCGCAGCTGTGGTTGGCTACATGCTACTGAACCAAAGCACTGCGGCGTTGGCAACAACGCTGCCAAGCCTGCTCTTTCTCTTGCCCTGCTTGTTGATGATGGTCGTATGCATGAAGCATATGTCTAGCGGTAAGTGCGACAAGCCCAAGGAGCCCAACGTTGGCGAAAACACCTTGTTAAGCAAAAGCGAATAA	MSSIISKIKSVLQRNPVVTGLTAAVVGYMLLNQSTAALATTLPSLLFLLPCLLMMVVCMKHMSSGKCDKPKEPNVGENTLLSKSE				NA	NA	NA	NA	NA
BMS010_03631	231			hypothetical protein	ATGCGAAAGGCCATCACCGTTACAGCAATCGCAATCACCTTGGCGAGCGGACTGAGTTTCGCAGCGGCAGATAAAGCGGACCAAAGTCATTCAGAAACCGGCATGATGAGCGGCGACAAGCATATGGAAATGATGGGTGACATGCGTGGAATGATGAAAGAGTGTCGTGAGATGATGGGGGCCGCCAAAGCCGACCACTCGCAAAATGGCGAAAATCCAGACGCAGCATAG	MRKAITVTAIAITLASGLSFAAADKADQSHSETGMMSGDKHMEMMGDMRGMMKECREMMGAAKADHSQNGENPDAA				NA	NA	NA	NA	NA
BMS010_03632	1374	cusS	COG0642	Sensor histidine kinase CusS	ATGGGAAAAGTGTCACTGACGAGCAGAATGGCGATAGCTTTCATGCTCGTGGTTACGGTTGTGCTGCTGGCGGCCGCAATCAGCTTTAATTATTTTTGTCAGCTCCATTTCGAACGCAAAGATGCACAAGTGCTTAATGAAAAGGCCGCTGCAGTAGAGCGTACGCTACTCAACAGCTCAGCATTCGGGCCTGAGACCGCTTCAAGGATCGATGCCGTTATTGAGCACTCCTTTGGCTTCGCGACTGCGGTTGTAGTAGACGGTAAGACGGTTTACTCCCATCACAATCTGTCTGAGAGCTTGCTACCTCTTGTCACAGACATCCAAGAGGAACGCTGGACGGTAAGTTTCGGTGGCCACCAGTACAGCGGAATTACCAGAAAAGTAAATCGGTGGGTAGAAGGGCAGGACACTGTTATCTATTTGGCTTTGGATGTAACGCACCGAATCCACTTCTTCGATATGATTCAGCAGTGGTTTGCTTATACGCTTGTCGTTAGTGCACTTCTGAGTGGCGCGTTAGGTGTTGTTCTGATCAGGAAAGGCTTAAAACCAATAGACGAACTGTCCAAGACTTCTTCTACGGTAACCGCCCACTGCTTAGATACCAGAATTCCAACCGAGTCGGTGCCAGGCGAGCTGCATGAACTCGTAGACAACTTCAACGAAATGCTTTCGCGCTTGGACGACTCTTTTCTCAGATTGTCAGGTTTCTCAGCGGATATCGCGCATGAGCTAAGAACGCCGCTGAACAGCATGCTTACCCAAATGGAGGTCGCGCTCTTGCGCGACCGCGAGAATACCGACTACAAAGACATTTTGTATTCCGCCCTCGAAGAACTTAGGCGCATGTCAAAGATGGTCGATGACATGCTATTCCTCGCCAAGGCGGACAACGGGAAGATTACGCCCAATGCCGAAGATGCCAGCATGGCTGAGATTACCGCGAGCGTTATCGAATATTACGAGCTTGCAGCCGAGGACAAAAAGGTAGAAATCGCGCTTTCAGGCGATGGATCGGTACATGGCGATAAATCGATGCTGAGACGGGCCGTCTCAAACATAGTCTCTAACGCAGTTCGATATGCAGAGGAAGGCAGCACCATCAGCGTTGAAATAAGCGAGAGCGGTGGCTCGGTTTGCACAGCCATATCCAACCGAGGCACAACGATTCCAGCCGAGCTTCAGGCCCGAGTGTTTGATCGATTCTATAGGGTCGACACCGCAAGGCGCGAAGGAACCACCATGAATGCGGGCCTCGGCATGGCTATCACTCGTTCGATAGTCGAAGCGCACAAAGGGCGCATCGCTTGCGAATCAGCTGAGGGGCATACGACTTTCACAATGACGCTTCCAAAGCTTATGTCTAGTTAA	MGKVSLTSRMAIAFMLVVTVVLLAAAISFNYFCQLHFERKDAQVLNEKAAAVERTLLNSSAFGPETASRIDAVIEHSFGFATAVVVDGKTVYSHHNLSESLLPLVTDIQEERWTVSFGGHQYSGITRKVNRWVEGQDTVIYLALDVTHRIHFFDMIQQWFAYTLVVSALLSGALGVVLIRKGLKPIDELSKTSSTVTAHCLDTRIPTESVPGELHELVDNFNEMLSRLDDSFLRLSGFSADIAHELRTPLNSMLTQMEVALLRDRENTDYKDILYSALEELRRMSKMVDDMLFLAKADNGKITPNAEDASMAEITASVIEYYELAAEDKKVEIALSGDGSVHGDKSMLRRAVSNIVSNAVRYAEEGSTISVEISESGGSVCTAISNRGTTIPAELQARVFDRFYRVDTARREGTTMNAGLGMAITRSIVEAHKGRIACESAEGHTTFTMTLPKLMSS	PGPT0004980_1254	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0004980-cusS|copS|silS-K07644	NA	NA
BMS010_03633	1668			hypothetical protein	GTGCAAGCGTCCTCATCGAGAAAATGCGGTACGACAGCCGCAGCGCTCAACGAAGCGTGCTTCTGCGTAAGCCTAGATCAAGCTGCGCTCGTAAACTCATTGACCGAACAGCTTGGGAATTCAGAGCTGTCGGAGCTATTGAAGTCACGTTGCCCTCATGTGTTTGCAGCACGACCGGTCTTTGTTTCATCCTTGCGGCTGCGCCAGGTTAATGAGGTTATTCAGGCCATCGAGCAGACCGTGAGCTCGCCCGGTTGGCGTGAGCATGCTCTGGATTCTGCACCTCCTATTGCCCGACACGATCCTCGGGGCGCGCGCGGCGTCTTCTTTGGCTACGACTTCCATCTGGATGATGACAAGCTTGGGCTCATCGAAATAAACACAAATGCGGGCGGAGCGATGCTAAACGTATTGCTCGCCCGCGCGCAGCGTAGTTGTTGCAGCGGCGTAGTCGGGCTTTCGCCAGGTCAGGAAGGACCCGGCGGCTTCGAGCGTTCGATTCTGGATATGTTCGCCCAGGAATGGTCTACGAGCGGCGAGCCACGTCCGCTCACGCGCGTGGTGATCTTGGATGAAAGCCCACAAGCCCAATACCTGTATCCGGAGTTCCTTCTTTTTCAGCGGTTATTCGAGTCAGCAGGAATCGACTGCCTAATCGCGGACCCAGCCGATCTGGCCTTTCACAACGAGTGCCTCTTGGTCGACGGGAAGCCTGTGGATCTCGTCTACAACCGACTCACCGATTTCTATCTGGAAGGCGACAATTGCAGCGCGCTGCGCAGCGCTTATTTGGCTGATGTCGTGACGGTAACGCCACATCCTCAGGCCTATGCCCTTTATGCCGACAAACGCCGGTTGGTTGACCTAACCAACGCACGTTTTTTGGAAGAGATTGGCGTCGATCAGCAAGTCCGAGCCGTATTGGCCCAGTACGTCCCGCTTACGGTTCCTGTCGAGCATCGCAATGCGGAGCACCTCTGGCAAAACCGCCGTAGCCTCTTTTTCAAGCCTGTCAGCGGGTTTGGTAGTCGCGGTGCGTACCGAGGAGACAAGCTCACCAAGCGGGTTTGGGAAGAAATCATTGGCGGAAACTACTTGGCCCAGTCCCTTATAGCTCCTGGCGAGCGTAGAACCGTCGCCGACCCTCAGGTACGACCAATGAAGTTTGACCTGCGCGCGTACGCTTATGCTGGCGAGGTGCAGTGGAACGCTGCCAGGGTCTACCAAGGCCAAACGACCAACTTTCGAACGGAGGGGGGCGGCTTTGCTCCTGTGTTTACCTTAGGCGAGGAAGAGGAGCGAGCCGGTTCTACAGAGCAACGGTCGCACGCCTCGTTCACGTTCTTGCTCGACGAAACCGGCGCCGTAGAGGAACTGCCGCACCCGCTATATCTGGCGCTGGTTCGAGCCGAAATGGCTACTTCTAAGCTTGCCGGTAAGCGTTTCCGATTGGCGGACTGGTATGTGGCAATGGAAGATGGCCATCCTTCCGAAGTCATCCGAGAATTGTACGGCTGGGTTGCTTTCGACGCAGATGGCGCCTACCACCCTGAAGTTGGCCCACCAGAAAATGGTCAGCCAAATAGTATTGGCAATGTTGACTCATCTGCCCTGCCAACACCGGAAGAACATGATCGAATCGAAGGTCTGTTGTTTCAAAGTGAGTGA	MQASSSRKCGTTAAALNEACFCVSLDQAALVNSLTEQLGNSELSELLKSRCPHVFAARPVFVSSLRLRQVNEVIQAIEQTVSSPGWREHALDSAPPIARHDPRGARGVFFGYDFHLDDDKLGLIEINTNAGGAMLNVLLARAQRSCCSGVVGLSPGQEGPGGFERSILDMFAQEWSTSGEPRPLTRVVILDESPQAQYLYPEFLLFQRLFESAGIDCLIADPADLAFHNECLLVDGKPVDLVYNRLTDFYLEGDNCSALRSAYLADVVTVTPHPQAYALYADKRRLVDLTNARFLEEIGVDQQVRAVLAQYVPLTVPVEHRNAEHLWQNRRSLFFKPVSGFGSRGAYRGDKLTKRVWEEIIGGNYLAQSLIAPGERRTVADPQVRPMKFDLRAYAYAGEVQWNAARVYQGQTTNFRTEGGGFAPVFTLGEEEERAGSTEQRSHASFTFLLDETGAVEELPHPLYLALVRAEMATSKLAGKRFRLADWYVAMEDGHPSEVIRELYGWVAFDADGAYHPEVGPPENGQPNSIGNVDSSALPTPEEHDRIEGLLFQSE				NA	NA	NA	NA	NA
BMS010_03634	456			hypothetical protein	ATGCAAATGTCTTACTGGCGCTTTGCAGCGATGGTAGCCACGTCTACGATCATTATGTATGGCGTGATGTACTTAAATACTTACTCGTTCGAGCATGTTTTTTGGAGCGAGACTCGCGCTTGGATGGCATTAGTGATGGGCGCGGTAATGGCAGTAGTCATGCTCGCATTCATGCTCAACATGTATAAGCGTAAGTCAGTAAACCTAGCGATATTGGCAGGAAGTGCAGTAGCTTTTACCATTGCACTATGGCTTGTACGTGGGCAAGCGACGGTAGACGACACGGACTACATGAAGGCCATGATCCCCCACCATTCCATAGCAATCCTAACAAGTGAACGAGCTCAGATTTCAGATCCTCGCGTCCGCAAGTTAGCTGACGAAATCATCGACGCTCAGCGCCGAGAAATCGCAGAAATGAAGTCCCTGATCAATGAACTAGAAAGGGCAAATTGA	MQMSYWRFAAMVATSTIIMYGVMYLNTYSFEHVFWSETRAWMALVMGAVMAVVMLAFMLNMYKRKSVNLAILAGSAVAFTIALWLVRGQATVDDTDYMKAMIPHHSIAILTSERAQISDPRVRKLADEIIDAQRREIAEMKSLINELERAN				NA	NA	NA	NA	NA
BMS010_03635	726			hypothetical protein	ATGGTTTTGCGAATATTCCCATCGCAGCGATTGGCTTTGCTGCTAGTACTGCTCGCCGTTCTGCAACTCAGTGGCTGCGCCGTTTCCCCGCGCCTGAAACCAAGCGACCAGCCAAGCGTTGCTCGCAAAACCTTTGTCATCACTGGTGCCTCCAGTGGCTTCGGCCGCGGCGTGGCGCTCAAGCTTGCCGCTCTGCAAGGCGACGTGGTGCTAGCGGCCCGCCGGACCGACGTGCTCGAAGAACTGGCCGCGCAGATACGCATGGCTGGAGGATCGGCACTGGTGGTGACCACCGACGTGAGCAACCCGAACGAGATGCAGGACTTGGCACGAGCCGCCATCGAGCGTTTCGGCAGGATCGACGTTTGGATTAACAACGCTGCGGTCGGAGCGCTGGGTCGTTTCGAGGACGTTCCCGTCGAGGACCATGCGCGGATCGTGGATGTCAATCTTAAGGGCATGATCTATGGCAGCCACGCAGCCATGCGCCAGTTCAGAGCTCAAGGCTTCGGCACGCTTGTCAACGTGGGCTCAGTCGAGAGCGAGATACCGCTGGCTTATCATGCCTCCTCCGCAGCGACCAAAGGTGGCGTCATAAATCTCGGCGCGGCAATCGCTGAGGAGATTCGCCTGAGCGGTAGCGAGACCATCAATGTCGCCACCGTCATGCCCTGGGCTGTGGACACACCGTTTCTGGGAATCAATTTGCCCTTTCTAGTTCATTGA	MVLRIFPSQRLALLLVLLAVLQLSGCAVSPRLKPSDQPSVARKTFVITGASSGFGRGVALKLAALQGDVVLAARRTDVLEELAAQIRMAGGSALVVTTDVSNPNEMQDLARAAIERFGRIDVWINNAAVGALGRFEDVPVEDHARIVDVNLKGMIYGSHAAMRQFRAQGFGTLVNVGSVESEIPLAYHASSAATKGGVINLGAAIAEEIRLSGSETINVATVMPWAVDTPFLGINLPFLVH				NA	NA	NA	NA	NA
BMS010_03636	810			hypothetical protein	ATGAAAAGAATAATTATTAGCTTCGTTGCCTTCTGTGCTCTGGGCCTGTTGGTAGTGGCCGGAGTTGTTTTCTCAGGACTGATTAGCGTTGCCGCGGATGATCCTCATACGGGAGTCGTGCACGCATTCCTGGAAACTGCTCGCAATCGCTCGATTGAGGTTCGTTCCGAAGACATAGTCGTGCCATCTCTCGACGATGAAGACCAAATCCGCGCCGGGGCGGGGAACTACGACTCGATGTGTGTGGGTTGTCATTTGGCGCCAGGCATGGCTGAGACCGAGCTAAGCAATGGCCTTTATCCCGCTCCACCCAGCCTGGCTGAAGCGGGGCTATACGGTGACCCAGCAAAAACATTTTGGGTCATCAAGCATGGCATCAAGGCCACTGGGATGCCCGCGTGGGGTAAAAGCATGGCTGACCCGTACATCTGGGGAATGGTGGCTTTTCTGCAGAAGCTTCCTGAGTTAGATGAAGGAGCGTATCGAGCACTCGTTGCGTCTAGCGGTGGTCACCAGCATGGTGGTGGGGAGACCCCAGCTGGGCATAGTGAGCAACACGGCGAGATGGCCTCGGGCGACCACCATCAGGGCGACAGTGGCGGCTCGGATCACCATGGCTCCAGCAGCACAGGTGGAGCATCCGGCCAATCAGGCTCCGGTCATCATGGTAATAACGAAAGCGATGACCATCATGCGTCCGAGGAGCCCCAGGCGGTTGAGCACAGCAATGGCAGTGACAGTGCCGATGCGGAAGGCAAATCCCCTTCAAAAAACCATGTGCACGCAGACGGGAAGCAACACGAGCACTAA	MKRIIISFVAFCALGLLVVAGVVFSGLISVAADDPHTGVVHAFLETARNRSIEVRSEDIVVPSLDDEDQIRAGAGNYDSMCVGCHLAPGMAETELSNGLYPAPPSLAEAGLYGDPAKTFWVIKHGIKATGMPAWGKSMADPYIWGMVAFLQKLPELDEGAYRALVASSGGHQHGGGETPAGHSEQHGEMASGDHHQGDSGGSDHHGSSSTGGASGQSGSGHHGNNESDDHHASEEPQAVEHSNGSDSADAEGKSPSKNHVHADGKQHEH				NA	NA	NA	NA	NA
BMS010_03637	1191			hypothetical protein	ATGATCAGCACAAGCAACCATCGGCTTCGTCGCAAAATTCAGGCAACAAGCCGGCATCTCAGACACAAGGCTCCTCTAACTCAGAAATGGACCACGGCGACATGGGTCATGGCTCGATGGACCATGGTGAAATGGACCATGGCAAGATGGATCATGACCCGAAGGCTACTGGTACTGAGGTGGATTCGCACCATGACCACTAGATCTTCTCGCTTTGCTCTTATTGCGCTCGGAGTTTCGTTGAGCGCAGCGGCTGGACGGATAGCCAACGCCGCCGAGATGATGGATCACTCGATGCATCAAACCCCTCCTATTCCGGCAGCTCAAGCCCCTGCATCTTCTGCCAAGCCCGCGGCAATGAATCATGGCTCCGGTGGGCAAATGGACCATTCTGCAATGGGTCATGGTGCGATGGACCATAGCAAGATGAACCATGGCCAAATGAAGCATGACGATACGCTCGAAATGCCCGGCATGGTTCATCCCTCGTTCATTCCAGTATTGACCGATGCGGATAGAGAAGCGGCTTTCCCTGGTCTTCAAGGTCATACGGTCCATGACAAGTATCTGGCCTGGTTCCTTCTGCTAGATCAACTTGAGTACCAGGACGCAAATGAAGGTAGCACCCTCAGTTGGGAAGCTACTGCCTGGATTGGTGGCGATATCAATCGGTTCTGGTTTCGCTCGGAAGGTGAGCGAACGAATGGCGTTACTGAAGACGCGGAAATTCAGGCGCTTTACGGGCGTGCAATCAGTCCCTGGTGGGATGTAGTAGCAGGTGTTCGCCAGGACTTTAAGCCCGAGTCGCCGCAGACGTGGGCGGCTTTAGGCGTCCAGGGGATGGCGCTGTATGGGTTTGAGGCGGAAGCCACCGCCTTCGTCGGTGAAAGTGGGCAGACAGCAGCACGTTTTGAAGGCGAGTACGACATTCTCCTAACTAACCGGCTCATCCTCCAACCGACTGCCGAGCTCAATTTCTATGGCAAGGACGATCCTGCACGCGGAGTGGGCGCTGGTCTAGCAAATACAGAGGTGGGGCTCCGCCTCCGATACGAAATCGTTCGTGAGTTCGCACCGTACATCGGCGTCACGTGGAGCCGGGCATACGGTAATACCGCTGATATGGCGAGAGATGAGGGCGAAGACCTAGATGAGGCGCGGTTCGTTGCTGGCATCAGGCTTTGGTTTTAA	MISTSNHRLRRKIQATSRHLRHKAPLTQKWTTATWVMARWTMVKWTMARWIMTRRLLVLRWIRTMTTRSSRFALIALGVSLSAAAGRIANAAEMMDHSMHQTPPIPAAQAPASSAKPAAMNHGSGGQMDHSAMGHGAMDHSKMNHGQMKHDDTLEMPGMVHPSFIPVLTDADREAAFPGLQGHTVHDKYLAWFLLLDQLEYQDANEGSTLSWEATAWIGGDINRFWFRSEGERTNGVTEDAEIQALYGRAISPWWDVVAGVRQDFKPESPQTWAALGVQGMALYGFEAEATAFVGESGQTAARFEGEYDILLTNRLILQPTAELNFYGKDDPARGVGAGLANTEVGLRLRYEIVREFAPYIGVTWSRAYGNTADMARDEGEDLDEARFVAGIRLWF	PGPT0004110_261	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004110-pcoB|copB-K07233	NA	NA
BMS010_03638	1842	copA_3		Copper resistance protein A	ATGCAACGTAAAACCTCTAGGCGAACCTTTGTTAAAGGCTTGACTGCCGCAGGCATCCTTGGCGGTCTTGGCTTGTGGCGAGCTCCGGTCTGGGCAGTGACTAGCCCAGGCCAGCCCAGCGTACTAAGTGGCACGGAGTTCGATCTGCTGATTGGGGAGACGCCGGTCAATATCACCGGCGCGGCCCGGACAGCGATGACTATCAATGGGACCATCCCAGGGCCGCTTCTACGTTGGCGTGAAGGGGATACCGTCACGCTGCGAGTCAGAAATAAGTTGAGCGAAGATACATCGATTCACTGGCACGGCATGATCCTGCCGGCCAACATGGATGGCGTGCCTGGATTGAGCTTCCACGGCATCGCTCCCGATGGCATGTATGTCTACAAGTTTCAGGTTAAACAGAACGGTACCTATTGGTACCACAGTCATTCAGGCCTACAAGAGCAGCTTGGTGTCTATGGTCCCTTGGTCATCGATGCGAAGGATCCCGAACCGTTCAGCTATGACCGCGACTATGTGGTGATGTTGACTGATTGGTCCGATGAGGATCCCGCTCGAATCCTTTCTAAGCTCAAGAAGCAGTCCGATTATTACAACTTCCACAAGCGCACTGTCGGAGACTTCATTAACGACGTGAGCGAAGACGGCTGGGCCGCTACGATTGCGAATCGGAAAATGTGGGCTCAGATGAAAATGAGTCCCACCGACCTCGCCGACGTAAGCGGCTACACCTATACCTATCTAATGAACGGCCAAGCACCCGACGGGAACTGGACCGGCATCTTTAAGCCCGGCGAGAAGCTTCGTCTGCGGTTCATCAACGGCTCGGCCATGAGCTATTTCGATGTCCGCATTCCAGGGCTGAAGATGACTGTAGTCGCAGCCGATGGCCAATACGTCAACCCAGTTAGCGTCGACGAATTCCGCATTGCCGTGGCAGAAACCTACGATGTGATTGTCGAGCCTGCGACCGAGGAGGCTTACACGATCTTCGCCCAATCGATGGATCGCACAGGATACGCCCGTGGCACGCTAGCGGTTGCCGAAGGGCTGAGCGCTCCTGTTCCAGAAACCGATCCTCGACCACTAATCACCATGGACGACATGGGGATGGATCACGGCAGCATGGGCGGTATGGCGGGCATGGACCATGGCGGCGACATGGGCGCGATGGACCATAGCAACATGTCCGGCATGAACCACGGTGACATGCAAGGGATGGGCGACATGGGCGCAATGGCCGGCATGGATCACAGCAAAATGGGTGGGATGTCCGGGATGGACCACTCTGGAATGGCTGGAATGAGCGCAGATATGCAATCGCACCCGCCCTCAGAGTCCAATAACCCACTGGTGGACATGCAGACCATGAGCCCAACTCACAGGCTGAACGATCCCGGTATTGGCTTACGAGACAACGGCCGCCGAGTCCTGACCTATGGCGACTTGAGAAGCACTTTCCCCGATCCGGACGGCCGTGAGCCCAGTCGGACGATCGAACTCCATCTCACCGGCCACATGGAGAAGTTCTCCTGGTCATTTGACGGCATAGAGTTCTCTGATTCAGAGCCCCTGCGGCTCAAATATGGCGAGCGGGTACGCATCACTTTGGTCAACGACACCATGATGACCCATCCGATTCATCTGCATGGTATGTGGAGCGATCTTGAGGATGACAATGGAAAGTTCATGGTTCGCAAGCACACGATCGACATGCCTCCAGGTTCGAAGCGCAGCTACCGCGTGACAGCCGATGCACTCGGGCGTTGGGCTTATCACTGTCACCTACTGCTTCACATGGAAATGGGCATGTTTCGTGAAGTCCGAGTGGACGAGTAA	MQRKTSRRTFVKGLTAAGILGGLGLWRAPVWAVTSPGQPSVLSGTEFDLLIGETPVNITGAARTAMTINGTIPGPLLRWREGDTVTLRVRNKLSEDTSIHWHGMILPANMDGVPGLSFHGIAPDGMYVYKFQVKQNGTYWYHSHSGLQEQLGVYGPLVIDAKDPEPFSYDRDYVVMLTDWSDEDPARILSKLKKQSDYYNFHKRTVGDFINDVSEDGWAATIANRKMWAQMKMSPTDLADVSGYTYTYLMNGQAPDGNWTGIFKPGEKLRLRFINGSAMSYFDVRIPGLKMTVVAADGQYVNPVSVDEFRIAVAETYDVIVEPATEEAYTIFAQSMDRTGYARGTLAVAEGLSAPVPETDPRPLITMDDMGMDHGSMGGMAGMDHGGDMGAMDHSNMSGMNHGDMQGMGDMGAMAGMDHSKMGGMSGMDHSGMAGMSADMQSHPPSESNNPLVDMQTMSPTHRLNDPGIGLRDNGRRVLTYGDLRSTFPDPDGREPSRTIELHLTGHMEKFSWSFDGIEFSDSEPLRLKYGERVRITLVNDTMMTHPIHLHGMWSDLEDDNGKFMVRKHTIDMPPGSKRSYRVTADALGRWAYHCHLLLHMEMGMFREVRVDE	PGPT0004106_70	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004106-pcoA-NA	NA	NA
BMS010_03639	681	copR_1		Transcriptional activator protein CopR	ATGAAGCTTCTTGTTGCTGAAGACGAGCCGAAAACAGGCACCTACCTACAGCAGGGGCTTTCAGAGGCAGGCTTCACAGTCGATAGAGTTGAAAACGGGACCGATGCTGCTCAGCACGCGCTTCATACCACATACGACTTGCTCATCTTAGACGTGATGATGCCTGGCCTGGATGGGTGGCAGGTTTTACAGAAAGTCCGCGCTGCTGGTAATGAGGTTCCCGTGCTCTTTCTCACCGCCCGAGACGGGGTTCAGGATCGAGTAAAGGGATTGGAGTTGGGCGCTGATGATTATCTCATCAAGCCGTTTGCCTTCTCCGAATTGCTAGCCAGGATCCGTACGTTGCTTCGCCGCGGCAATAATGTCCCCAACCAAACAATACTCAAACTCCTCGACCTTGAGGTCGATCTGCTCAGGCGTCGAGTTACGCGATCGGGGAAACGAATAGACCTAACTGCAAAGGAATTCGCACTTCTTGAGCTATTACTTCGGCGTCGCGGGGAAGTGCTCTCAAAGTCCCTTATCGCCTCCCAAGTATGGGACATGAATTTCGACAGCGATACCAATGTGATTGAGGTGGCGGTACGACGGCTGAGAGCAAAAATCGATGATGAGTTCGAACCTAAGCTCATACAAACCGCGCGTGGGATGGGCTATTTGATCGACGCGCCAGACCCCTAG	MKLLVAEDEPKTGTYLQQGLSEAGFTVDRVENGTDAAQHALHTTYDLLILDVMMPGLDGWQVLQKVRAAGNEVPVLFLTARDGVQDRVKGLELGADDYLIKPFAFSELLARIRTLLRRGNNVPNQTILKLLDLEVDLLRRRVTRSGKRIDLTAKEFALLELLLRRRGEVLSKSLIASQVWDMNFDSDTNVIEVAVRRLRAKIDDEFEPKLIQTARGMGYLIDAPDP	PGPT0004105_836	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0004105-cusR|copR|silR-K07665	NA	NA
BMS010_03640	354			hypothetical protein	GTGACAGGCCAACACGATTTGCTGTTGGATGAGCATCACTTCGACGATGCCACCGATGACCGCGTCCGAGGAGAACTTTCAGAGCTCTTGCCCAAACAGGTCTACGAGGTAGAACGGCAACCTTTTTTGGGCCTGATGAGCGGATTGACCAACTACACCATGGCTGACGAGTTTCGCGTAAAGCAGGCGCTCGATATCGCTGTTGCGACCGGTGATTTGCCGGCGGTCGGTAAGGATGGCAAGACCAGGCGTCGCAAGGGCACTAGCATCAAATCCAGTGATATTCTGATAGCTCCCCCGCAGAGCCCCATCTTCTTCGTGCCACAGCTGAAGAAATCCAGCTCGGAGAACTGA	MTGQHDLLLDEHHFDDATDDRVRGELSELLPKQVYEVERQPFLGLMSGLTNYTMADEFRVKQALDIAVATGDLPAVGKDGKTRRRKGTSIKSSDILIAPPQSPIFFVPQLKKSSSEN				NA	NA	NA	NA	NA
BMS010_03641	285			hypothetical protein	ATGCTGAAAGAGCTGAAGGCACATCAGCCTCGCAATTGGCAGTACCTGATCCAACGCCATCTGTCTGAAGGGATCAAACAGGAAAGCGGTGCCCAGTACATGACCGTGTTCTTCATCCGCCCTGCTGGCAGCAACCCGATGGCCTATTGGTTTATCCATCTGGCGAACAACTACCGCGCCAACGATGTGATGAAGAAGATCCACTGGAAATACGGCAACAACTTTTCCCATATGCTGTCGCCTTCCAGCTTTTTCGGCTACGACGCCAATCGGATATCGCCGTGA	MLKELKAHQPRNWQYLIQRHLSEGIKQESGAQYMTVFFIRPAGSNPMAYWFIHLANNYRANDVMKKIHWKYGNNFSHMLSPSSFFGYDANRISP				NA	NA	NA	NA	NA
BMS010_03642	435			hypothetical protein	ATGTCTATCCTAATTCTTAACTGCGAGCGCGACGAAGTCGGCGGTCAATACCTAGTAGCAAGCATTCACGGTGTGGAACACTGCGTATCACTTGATGATGACTATCCGGAGAAAATCCCAGATTCAGATGATATAGTCCACCGCATTAATGCAGATGACTTCAATGAGCTTTCTGAGAAGGTACGCTCCTACGTGCGCAAGCACAGCATAGCCCCCATTCATTCACTCGATGACGTTAGGCTGCTGGCGATGCAGCTCGGCGATATGAAAGCAAAGACCTACGAAATCGACGAAGAAGGTCATGGCCTCACGCTCCGTGACTGTAGCGTAGATAAAGGTGTACGCATCCTAGCTCGTAAATTTCAGAGTACATATCAGGCGCATCGCTGGCTGACCGAGCAACTGGATATTTTGAGTTTCAATGCACCACGGTAA	MSILILNCERDEVGGQYLVASIHGVEHCVSLDDDYPEKIPDSDDIVHRINADDFNELSEKVRSYVRKHSIAPIHSLDDVRLLAMQLGDMKAKTYEIDEEGHGLTLRDCSVDKGVRILARKFQSTYQAHRWLTEQLDILSFNAPR				NA	NA	NA	NA	NA
BMS010_03643	894			hypothetical protein	ATGAATACAGATACTCAAAGCGCCTACGTCGGTTTGGCCAGTAACTTCTATGCAACTCGAATGCAGGGCGTTGAGCTTAATGAGCTCAATATTATTGGTGCTTTGCTACGGGCTGCCCCTGATTACCGCCCGGATTATTACCGGCGCTTACGTAACGCTTTGGCGTTTGATCAAAAGCGTCGAGGCAATTTCTGGGCTGCTCAAGAAATCAATCGGACGCTAAATCCGGTCACCGTGTTGGGTCTTCCGCGCAAGCAAAAGCAACAACGTCCGCAAAAGCTTTCTACCGCTGATTTTGAGGCGTGGCTCCGATATTTAGCTGAACGAGATATGCCTGTTGAAGCGGGCGCTTTGATGGTGATATCTCTTACCGGAGCGCGCCCATGTGAGCTTAATGGCATTTCTATCGACGGCCGGCGCATCCATGTATCTGGTGCAAAGCTTAGCCACAACGGTTTACGCGGCGCTAGCCGAACGCTCGAGGCTGACGATGGTGTCTGTAACATCTTGAGAGATGCTCTCGCTGCTTTTAAATGTCAGCCGCGCAGTATGGACTCAATACGCGTTGCGCTTCACCAAGTCGCTACTGAGCTATTCGGTAGGAGGAAGGTGCCGAGCATGTACACGCTTCGTCACCAGTTCGGAGCAAATTTGAAAGCTTCAGGCATGTCTGCGGTTGAGATGGCGTATGTCATGGGTCACCAGGCGACCGATTCGATTAGCCGGTACGGCGATAGACGAACCGGACGAGCAGAGGCTGTTAAGGTGAAGCCCGCAAGTGATGCTGATTTCTCAAAGGTGAGAGATACAGTGCCCACGCGAATGCGTGCGGTTGAGCTGGCCCTTAGTGTTAAGCGAGACAGAGAGCGTAGGTCGGAAATCGCCGACGGCTGA	MNTDTQSAYVGLASNFYATRMQGVELNELNIIGALLRAAPDYRPDYYRRLRNALAFDQKRRGNFWAAQEINRTLNPVTVLGLPRKQKQQRPQKLSTADFEAWLRYLAERDMPVEAGALMVISLTGARPCELNGISIDGRRIHVSGAKLSHNGLRGASRTLEADDGVCNILRDALAAFKCQPRSMDSIRVALHQVATELFGRRKVPSMYTLRHQFGANLKASGMSAVEMAYVMGHQATDSISRYGDRRTGRAEAVKVKPASDADFSKVRDTVPTRMRAVELALSVKRDRERRSEIADG				NA	NA	NA	NA	NA
BMS010_03644	177			hypothetical protein	ATGCTGAAGGGGGCCCAACCACTCTACCTGACCAGCAACCTCAAGCGCTTCGGCGAATTCAACCTCAAGCTAAACCGGCCACCGGAGCCCTGGATCAAGGACTCGGTGTTCCAACAAGCTGCCGGCTCGCTGCGGGTGATCAGACCTAGCCAGCTAGATACCGAGAAAACGCCATGA	MLKGAQPLYLTSNLKRFGEFNLKLNRPPEPWIKDSVFQQAAGSLRVIRPSQLDTEKTP				NA	NA	NA	NA	NA
BMS010_03645	363			hypothetical protein	ATGATCAACATTCCTCCCGCATCCTTCCGCCTTACACCGTACGGCGAAGTGGACGCCGTGGCGTTGGAAAACCTGCGCGACAGCTTCGACACCTCTCAACTGCTCCGGCTGGTTGATCGCTTGGACGTCTGCTTGGTGGAACTGGGTGGAATCACCTCCATTCGCGACGAGCTACTGAGATTGCATGCGATGGCTCTGACGATAGTTGAGGGCATCGCTCTTACGGTGCCTGCCGAGAGTGCTTGTATCTGGACAGAAGCCCAATCTCTACAGATGGATCTTGAGGCACTGGTTTCTTGGGCGCGCTCCGCTCAGCTCATCATTGCGCCGCTGATCAATCTTGCTCCACAGCACGAGGCATGA	MINIPPASFRLTPYGEVDAVALENLRDSFDTSQLLRLVDRLDVCLVELGGITSIRDELLRLHAMALTIVEGIALTVPAESACIWTEAQSLQMDLEALVSWARSAQLIIAPLINLAPQHEA				NA	NA	NA	NA	NA
BMS010_03646	984			hypothetical protein	TTGCGCAACAAGGGAAGATATCAGATGTCGCGGGACTGGCTGGAAGAACACCAGATAGCATTTTATTTCGCGGCGGTGGTGGCCGCTGCCATTGCAGGCCTGAGCTCTGCGCAATTCACCGGACTGACGGCCATGGCCATCACACCGGCGATTGCCGTGCTGATGTATGCCATGTTTCTGCAGATTCCTTTTTTGGAGCTGCGAGAAGCTTTTGCCAACCGCCGCTTCGTCGGTGCCTTGTTGCTGGCCAACTTCCTATTGGTGCCATTGATGGTGTGGCTGGTGACGTGGCCGCTCTCATCGAACAAGGCCTTGTTGGTCGGCGCGCTGCTTGTCCTGCTGACGCCTTGTATCGATTACGTGGTGGTCTTCACCCACCTGGGCAAAGGGGACTCTCGTCTGGTGCTCGCGGCGACGCCATTGCTGCTGTTGCTCCAGCTTCTGCTGCTGCCCCTCTACTTGCGGCTAATCCTTGGCCCCGAAGCCGGCACAGTGATCGAGCTGTGGCCCTTCGCAGAAGCCTTCCTGTTACTGATCGTCCTACCCTTGGTAGCGGCTGTGCTCACCGAATTTGGCGGACGCCGATCTCTGCTGCTTCGCGCATGGAGCGCAGGTTGGGCCTGGCTGCCAGTGCCTGCAATGGCCCTGGTTCTAATCGTGGTGGTGGGTTCGCAGATCGCGGCTGTCGTGTACCAACTCGACATCCTGGCGCCGTTGCTTCCGGTATACGGAGCGTTTCTACTACTCGCTCCGGCCCTCGGCGTACTCAGCTCCCGGCTATTTGGCTTGGAGGCTTCTGCCGCACGGGCAGTGGCCTTTAGCTCAGGCACTCGCAACTCGCTTGTAGTGCTTCCCCTGGCCCTAGCGCTCCCGGAGTCCATTCGCGCGCTGGCCGCGGCGGCTGTGATTACTCAGACACTCGTAGAACTGATTGGTGAATTGATCTACTTACGGGCGATTCCAGCCATGGTCAGAAACAGTTGA	MRNKGRYQMSRDWLEEHQIAFYFAAVVAAAIAGLSSAQFTGLTAMAITPAIAVLMYAMFLQIPFLELREAFANRRFVGALLLANFLLVPLMVWLVTWPLSSNKALLVGALLVLLTPCIDYVVVFTHLGKGDSRLVLAATPLLLLLQLLLLPLYLRLILGPEAGTVIELWPFAEAFLLLIVLPLVAAVLTEFGGRRSLLLRAWSAGWAWLPVPAMALVLIVVVGSQIAAVVYQLDILAPLLPVYGAFLLLAPALGVLSSRLFGLEASAARAVAFSSGTRNSLVVLPLALALPESIRALAAAAVITQTLVELIGELIYLRAIPAMVRNS	PGPT0004705_2819	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004705-arsB|arsenite_transporter-K03325	NA	NA
BMS010_03647	435	bdbC		disulfide formation protein	ATGAATCCTCAACCTTCAGGCATGCCCTGGAACCTGCTGCTGCTAACCTGGCTGGTCGCACTGGTATCGACCCTGTCCGCGCTGTTCATTGGTGAGGTGATGGGCCAGGCACCCTGCGTGTTGTGCTGGTTCCAGCGTGCCTTCATGTTTCCGCTGGCGGTGATCCTGGCCATCGCCTGCTACCGCTCGGATTTCACCGTCTGGCACTATGCCCTGCCGCTGACCGCTATCGGTGCGGCACTGGCATTTGTTCACACGCTGCTCTATGCAGGGCTGATTCCACAGCCGATCCAGCCCTGCACGGCCACTGGTCCATCCTGCTCAGGCGCCGGAATGACCCTCTTCGGCGTGGTGCCCCTGCCGGCACTCGCCTTGTTCGCTTTTATCCTTATCGCCATCCTGCTCATAATCATCCGTCGGAGAACCACCCCATGA	MNPQPSGMPWNLLLLTWLVALVSTLSALFIGEVMGQAPCVLCWFQRAFMFPLAVILAIACYRSDFTVWHYALPLTAIGAALAFVHTLLYAGLIPQPIQPCTATGPSCSGAGMTLFGVVPLPALALFAFILIAILLIIIRRRTTP				NA	NA	NA	NA	NA
BMS010_03648	681			hypothetical protein	ATGAATCGCCGTTCCGTGGTCCTGATCGTCAGTGTCGTGATCCTGGCCGTCTTTGCTGCCGCCGCATTCTTCTATTCCCCCTCGCAATCGCCTCAACAGGCCCAGGCTCCCGGTTCGACAGCCCAAGAGACCGCGACACAACCCAAACAGAACGGCGGCCAGTTGGTTCGCTTCCACTCACCAGTGTTCGGCCCGGCGCAAGCGCCAGTGACCATCGTCGAATTCTTTGACCCTTCCTGCGAGGCATGCCGCGCCTTCCACCCCTATGTGAAGCAGATCCTCGCCGAGAACCCGGAAGACGTGCGTTTGGTGCTGCGCTATGTACTGTTCCATCAAGGCTCCGAAGAGGTGGCGCGAATGCTGGAGGCGGCGCGTAAGCAAAATCTCCATGAACAAGTGTTGGGGGCTGTGCTGGAAGCCCAACCCGGTTGGCACGACGACCCCAAGGTAACGCAGGCATGGGCTGCTGCAGAGCGCGTCGGTTTGAACTTGGAACAGGCCCGCCAGGACATGCATACGCCTGGCGTCAACGCCGTGCTGGAAACGGACATGCAGGACGTTAAAGCCGTTGGGGTTCGTGGCACGCCGACTTTTTTTGTCAATGGTCGTGCGCTCAGCGAGTTTGGCCCGGAGCCGCTGCGCCAGTTGGTGAACAGCGAAGTGGCCAAGGCACGAGAATGA	MNRRSVVLIVSVVILAVFAAAAFFYSPSQSPQQAQAPGSTAQETATQPKQNGGQLVRFHSPVFGPAQAPVTIVEFFDPSCEACRAFHPYVKQILAENPEDVRLVLRYVLFHQGSEEVARMLEAARKQNLHEQVLGAVLEAQPGWHDDPKVTQAWAAAERVGLNLEQARQDMHTPGVNAVLETDMQDVKAVGVRGTPTFFVNGRALSEFGPEPLRQLVNSEVAKARE				NA	NA	NA	NA	NA
BMS010_03649	462			hypothetical protein	ATGAGCGCGCTGGAAAACCGCGTGCCACCGCTGCTCGTGGCCGGCCTGATCGCTGTGCTGATGGGTTTGTCGGGAACCAAATTGCCGGGTTTCGAACTGGCATGGACCGCGCGCCTGACCTTCGCTTTGCCAATACTGCTCCTGGGGCTCGGCGTGTGCCTCGCCGGCGTCCTGTCGTTTCGCCGCGCGCGTACTACGGTTAATCCATTGCAGCCGCAGCAGGCTTCTGCATTAGTGGAGGCTGGCATCTACCGGTACAGCCGCAACCCCATGTACTTAGGCTTTGCCATTATCCTGGCGGCTTGGGCGCTGGTCTTGGCCTCGCCTCTAACCCTGCTTGGCGTAGTTGCTTTCGTGCTGTACATGAACCGTTTCCAGATCCCAGCCGAAGAGTGGGCGCTGGAAACATTGTTCGGCGAATCATTTGCCCGCTACCGTGCACGAGTCCGCCGCTGGCTCTGA	MSALENRVPPLLVAGLIAVLMGLSGTKLPGFELAWTARLTFALPILLLGLGVCLAGVLSFRRARTTVNPLQPQQASALVEAGIYRYSRNPMYLGFAIILAAWALVLASPLTLLGVVAFVLYMNRFQIPAEEWALETLFGESFARYRARVRRWL				NA	NA	NA	NA	NA
BMS010_03650	921	czcD_3	COG1230	Cadmium, cobalt and zinc/H(+)-K(+) antiporter	ATGGCTCACGAACATAACCATAACACCGAAGCCATGGGTGATAAGCGTTTAATCGCAGCTATTGGCGTTAATACTGCACTAACTCTGGCACAAGTTGTTGGCGGGATACTTTCTGGGAGCTTATCGCTCATAGCGGATGCACTACACAACTTGAGCGATGCTGCATCACTGGTTATTGCGCTCATCGCACGTAAGATCGGCCGCAAACCGCCAGATGCTTTTAAAACCTTTGGCTACCGACGCAGTGAAACCATAGCGGCTTTGATTAACTTGGTCACGCTGATTATCGTTGGTCTCTACCTCATCTACGAAGCTATAGGTCGGTTTTTTTCCCCACAGCCCATTGAAGGATGGACAGTGGTCGTGGTGGCGGGAATAGCCTTGATTGTAGATATCGCTACGGCCTTGCTCACCTACACAATGTCTAAGAATAGCATGAATATAAAGGCGGCATTCTTGCACAACGTGTCGGATGCGTTGGCCTCCGTCGGCGTTATTATTGCCGGAACATTGATCCTCCTGTATGGCTGGTATTGGACAGATACTGTCCTGACGCTGATGATTGCTGGTTACGTGCTATGGCAGGGCTTTAGCATGCTACCTAAAACCATTCACTTGTTGATGGAGGGCGCGCCAGAAGGAGTTTCCATCGCCGACATAATCAATATCATGGAACATGTAAACGACGTTGTGAGTGTTCACCACGTACACGTATGGGAAATCGCTGAGCATACAATCGCACTGGAAGCACATGTTGTCATCAAGAAGGCTAGCCTGCCCGATATTGAACGAGTAAAGACTGATTTAAAACGAGTACTTCATGAGCAATTCAAAGTCAGCCACTCGACACTTGAAATGGAGCTAGACGGCAGTGTTTGTATCGACACCAGGCAGGCCGACAGTCATCGCAGCGAAGCATAA	MAHEHNHNTEAMGDKRLIAAIGVNTALTLAQVVGGILSGSLSLIADALHNLSDAASLVIALIARKIGRKPPDAFKTFGYRRSETIAALINLVTLIIVGLYLIYEAIGRFFSPQPIEGWTVVVVAGIALIVDIATALLTYTMSKNSMNIKAAFLHNVSDALASVGVIIAGTLILLYGWYWTDTVLTLMIAGYVLWQGFSMLPKTIHLLMEGAPEGVSIADIINIMEHVNDVVSVHHVHVWEIAEHTIALEAHVVIKKASLPDIERVKTDLKRVLHEQFKVSHSTLEMELDGSVCIDTRQADSHRSEA	PGPT0004255_2179	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-COBALT_TRANSPORT,PGPT0004255-czcD|zitB|yrdO-K16264	NA	NA
BMS010_03651	231			hypothetical protein	ATGAATCTGTTGAAAGCTATTGTTGTTGGTTTGGTAATTTTCGGCTCCGCATCGTCTTATGCAGGAGATGGATACGACCGTTCAATGAAATTTAATGAAAAATTCCGAGCAGATCAAAAGCGAATTCACGGAACCGAATCCGCCGAAAAAAAAGCAAACGAGTTGAAGGTTAATGATATTCGCCAAGATCAGAACAACACGGAAATTAAGAAAGAAACCAAAGCTGACTAA	MNLLKAIVVGLVIFGSASSYAGDGYDRSMKFNEKFRADQKRIHGTESAEKKANELKVNDIRQDQNNTEIKKETKAD				NA	NA	NA	NA	NA
BMS010_03652	3171	czcA		Cobalt-zinc-cadmium resistance protein CzcA	GTGTTCGAACGTATCATTCGCTTTTCTATAGAGCATCGCTGGCTGGTTTTGCTAGCCGTGCTTGGCATGGCAGCGTTAGGAGCTTACAGCTACCAAAAGCTGCCTATCGATGCTGTCCCTGATATCACCAACGTACAGGTGCAAATCAACACTGCGGCCCCAGGTTATTCCCCGCTGGAAGTGGAGCAGCGCATTACCTACCCGCTCGAGACGGTAATGGCCGGGTTGCCCAAGCTCGAGCAGACCCGTTCCTTGTCTCGATATGGACTTTCTCAGATCACAGTTATTTTTGAGGAAGGCACTGACATCTATTTTGCCCGCCAACTTGTGAATGAGCGCTTGGGAGGGGCCAAAGATCAGCTTCCGGAAGGCGTCACTCCAACACTTGGCCCTATTTCCACTGGGCTTGGCGAAATCTATTTTTGGACGGTTGAAGCTGAGGACGGTGCCACCAAATCGGACGGTACGCCTTATACCTCTGCTGACTTGCGTGAGATTCAAGATTGGATCATCAAACCGCAAGTCCGCAATGTACCAGGCGTAACTGAGATCAATACGATCGGAGGATATGCAAAGGAATATCAGATCGCCCCCAACCCAGACACTTTGCGGTCGTTTGGACTAACACTACAAGATTTGATCGAGGCGGTTGAGCAAAACAATAACAATCTAGGTGCCGGATATATTGAAAAACGCGGCGAGCAGTATCTTGTTCGTGCTCCAGGACAAATGCAATCAGTAGAGGACATCCGCAATACCCTTATTAGCAACGTTGACGGTACCCCAGTACGTATCCGCGACGTTGCGACGGTAGAGGTTGGAAAGGAGCTCCGTACTGGCGCAGCCACCGAGAATGGCCGCGAAGTGGTTCTAGGTACGGCTTTCATGCTTATCGGTGAAAATAGCCGGGTAGTTTCTAGGGCTGTCGATGACAAGATGAAAGAGATAAACCTTTCGCTTCCAGAGGGCGTAAAGGCGATTACTGTCTACGATCGAACTGTACTCGTAGACAAAGCTATATCCACCGTTAAGAAGAACCTCACTGAGGGTGCCATTCTTGTTGTGGTTATACTTTTTCTCTTCTTGGGCAATATCCGTGCGGCGATCCTAACCGCACTTGTTATACCGCTGGCGATGCTCTTTACGTTCACCGGCATGGTAGCCAACGAGGTCAGCGCCAACCTGATGAGCTTAGGCGCATTGGATTTCGGCATCATTATCGATGGTGCCGTGGTGATTGTTGAGAACTGCGTGCGTCGACTTGCTCACGCTCAGTCCCATCACGGGCGGGCATTAACGCTGTCCGAACGGCTTCATGAAGTGTTCGCTGCGGCAAAGGAAGTGCGTCGGCCTCTACTCTATGGGCAGCTGATCATTATGATCGTATATCTGCCGATATTCGCCCTTACAGGGGTAGAAGGTAAGATGTTCACGCCCATGGCGTTTACCGTAGTGACAGCGCTATTCGGGGCGATGATTCTCTCGGTGACGTTCGTCCCGGCAGCCGTTGCGCTCTTTATCGGCAAGCGTGTTACAGAGAAGGAAAACTTTCTAATCCGCAATGCTAAACGGGCCTACGCACCTGCATTCGATGCGGTGATGTCCAACAAGCCAGTAGTGCTCACCTTTGCCGTTGTTGCAGTTGTACTTTCCGGCCTCGTAGGGGCACGTATGGGCAGTGAATTCGTGCCTAGCCTCAACGAGGGGGACTTCGCTATCCAAGCCCTTCGTGTACCGGCTACCAGCCTTAGTCAGTCTGTCGAGATGCAGCAGCAGCTGGAGCGAAAGCTCATGGATGAGTTTCCGGAGATCGAGCGGATTTTTGCGCGCACAGGCACTGCGGAGGTGGCATCCGATGCCATGCCTCCAAACATCTCTGACGGGTACGTCATGCTGAAGCCACAAGAGCAGTGGCCGGATCCAGGCAAGTCGCGCGACGAACTCTTAAGCGAGGTCCAAGCATCCGCCGCTGAGTTACCGGGCAATAACTACGAGTTTTCCCAGCCTATTCAGCTGCGTTTCAACGAGTTGATTTCCGGTGTTCGTGCCGCTGTAGCCGTGAAAATCTATGGTGATGACATGGAGGTTCTTAACAGCACGGCGGCGGAAGTGTCCGAGGTGCTAGGACAAGTACCAGGCGCCTCCGAGGTTACGGTCGAGCAAACGACTGGCCTTCCTATGCTCACGATTGATATCGATCGCGATCAAATCGCACGATACGGCCTGAGTTTAGATACTGTACAGCAAGCGGTTGCAGTAGCCATCGGGGGCCGAGAGGTAGGCACCTTGTTTCAAGGAGACCGGCGTTTCGATATCGTAGTTCGTTTACCGGACGAGATACGAAGCGATCTCGCCGCAATTGAGAGGCTCCCAATTGCCCTTCCAAGGGAATTAAACAGCGCCATAAGTTATATCCCCCTCGGCGAGGTGGCCACTCTGGATTTGGCCCCCGGTCCGAATCAGATCAGTAGAGAGGAAGGGAAACGGCGAATTGTCGTTAGTGCAAACGTCCGTGGTCGGGACATTGGATCATTCGTATCTGAGGCAGAACAGAAAATCCAGGCCCAGGTAGATATCCCGTCAGGTTATTGGATCGACTGGGGCGGTACCTTTGAGCAGCTTGAATCTGCAACGAAGCGGCTGCAGATTGTCGTCCCTGTGGCGCTGCTCCTGGTGTTCATTCTGCTTTTCATGATGTTCAACAATGTCAAAGACGGCTTGTTGGTGTTTACAGGGATTCCATTTGCGCTCACCGGAGGCATTGTTGCGCTGTGGCTGAGAGATATCCCATTGTCCATTTCAGCAGGAGTTGGCTTTATTGCTCTGTCGGGCGTCGCCGTTCTAAATGGCCTGGTAATGATCTCCTTCATCCGTAGCCTACGGGAGCAAGGTTTACCTCTGGGCACCGCGATCCGCGAGGGCGCTCTGACCCGGCTACGGCCGGTATTGATGACAGCCTTGGTGGCTTCACTCGGGTTCGTTCCGATGGCCTTGAATGTGGGTACCGGTGCAGAGGTACAGCGCCCCCTTGCGACGGTGGTGATCGGGGGGATTCTCTCCTCAACGGTGCTAACGCTATTGGTACTGCCGTTGCTCTACCAGCTGGCTCATCGGCGCGAAGACGAATTGGAGGAGCAAGAAATCGCGTTGGCCGCTGACAGAACAAGCTAG	MFERIIRFSIEHRWLVLLAVLGMAALGAYSYQKLPIDAVPDITNVQVQINTAAPGYSPLEVEQRITYPLETVMAGLPKLEQTRSLSRYGLSQITVIFEEGTDIYFARQLVNERLGGAKDQLPEGVTPTLGPISTGLGEIYFWTVEAEDGATKSDGTPYTSADLREIQDWIIKPQVRNVPGVTEINTIGGYAKEYQIAPNPDTLRSFGLTLQDLIEAVEQNNNNLGAGYIEKRGEQYLVRAPGQMQSVEDIRNTLISNVDGTPVRIRDVATVEVGKELRTGAATENGREVVLGTAFMLIGENSRVVSRAVDDKMKEINLSLPEGVKAITVYDRTVLVDKAISTVKKNLTEGAILVVVILFLFLGNIRAAILTALVIPLAMLFTFTGMVANEVSANLMSLGALDFGIIIDGAVVIVENCVRRLAHAQSHHGRALTLSERLHEVFAAAKEVRRPLLYGQLIIMIVYLPIFALTGVEGKMFTPMAFTVVTALFGAMILSVTFVPAAVALFIGKRVTEKENFLIRNAKRAYAPAFDAVMSNKPVVLTFAVVAVVLSGLVGARMGSEFVPSLNEGDFAIQALRVPATSLSQSVEMQQQLERKLMDEFPEIERIFARTGTAEVASDAMPPNISDGYVMLKPQEQWPDPGKSRDELLSEVQASAAELPGNNYEFSQPIQLRFNELISGVRAAVAVKIYGDDMEVLNSTAAEVSEVLGQVPGASEVTVEQTTGLPMLTIDIDRDQIARYGLSLDTVQQAVAVAIGGREVGTLFQGDRRFDIVVRLPDEIRSDLAAIERLPIALPRELNSAISYIPLGEVATLDLAPGPNQISREEGKRRIVVSANVRGRDIGSFVSEAEQKIQAQVDIPSGYWIDWGGTFEQLESATKRLQIVVPVALLLVFILLFMMFNNVKDGLLVFTGIPFALTGGIVALWLRDIPLSISAGVGFIALSGVAVLNGLVMISFIRSLREQGLPLGTAIREGALTRLRPVLMTALVASLGFVPMALNVGTGAEVQRPLATVVIGGILSSTVLTLLVLPLLYQLAHRREDELEEQEIALAADRTS	PGPT0004965_1095	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-CUS_TRANSPORT_SYSTEM,PGPT0004965-czcA|cusA|cnrA-K15726	NA	NA
BMS010_03653	1347			hypothetical protein	ATGAAAAGTAAATCGAATACATCTTCCTTGGCTGGTCACAAGAAGCAGATTTTTTGGATCGTCGTCATATTAAGCGTGGCACTTGTGCTTGGCGGATTGCTTCTTCGCAGTAGTCCAGCTGTGCCCGAAGCGGGCGACGCACATAGCGAGCATGGTGACGCATCGGAGCAGGAGGATGAAGGGCATTCGGATGAGGATGCTGAAGCCGAAGGAGATCATGGACATGATGAAGGAGGCGCCGATAGCGATCACGAGGTCGGTGCGGCAGAGAAAGATGAGCATGAAGATGAGCCCGAGGGAGCGGAGCACACTGAAACAGCAGAGGTAGAACTCTCAGAGACACAAATCCTAGCCGCCGGCATTTCACTGGCAACTGCTGAGCCCGCAAAGATACAAAGCGCAATCGAGCTGCCAGGTGAAATTACGTTTAACCAGGATCGTACAGCGCAAGTTGTGCCTCGTCTCTCAGGTGTCGTTGAAGCGGTCAAAGTCGATTTGGGCGAACAGGTGAAACAGGGGCAAGTGCTTGCTGTGATCGCGAGTACCGACCTGTCGGAACGTAGAAGCGAGTTCTACGCGGCACAAAAACGTCTTGCATTGGCTCAGAAAACCTATCGACGCGAAAAGGAGCTGTGGGAAGAGCGTATTTCTGCAGAACAGGATTATTTACAGGCACAACAGGCTCTACGGGAAGCAGAGCTGACGGTTGCGAATGCAAAAGCACAGCTACAAGCGCTTGGTAGTGATGCTGGCAAGCCAGACGCATTGAGCCGCTACGAACTCAGGGCGCCGTTCGATGGGATGATCGTTGAGAAGGACATCACGCTCGGTGAGTCAGTCAATACCGACGACCAGATATTCATCATTTCCGATCTCTCTACCGTTTGGGCAGATATCAGCGTTCCTGCCAATGCACTCAGCGCGGTACGAGTCGGCAGCAACGCGGTTATCGAAGCCACAGCATTCGAGTCCAGTGCCAATGGCACCGTTTCTTATGTCGGCTCACTTGTTGGTCAGCAAAGCCGCGCCGCTACCGCCCGGGTCACGCTTCCGAACCCGGAAGGTGTTTGGCGTCCCGGCCTGTTCGTCAAAGTGCGGGTAGGCTCTGGCGGAGTGTCCGTGCCGGTTGCAGTCAAGCCCGATGCGATCCACACGTTGGAAGATAATCCGGTGGTGTTTGTACGGACCGACCATGGCTTTGCTGCTCAGCCAATCGTGACTGGTCGCGGCGATAGTGAAGCGGTTGAAATCAAGGAAGGTCTTCAGGCCGGAGTGCGCTATGCCTTGGCCAACAGTTTCATCATTAAGTCCGAGCTTGGCAAAGCCAGCGCCTCGCATGCTCACTGA	MKSKSNTSSLAGHKKQIFWIVVILSVALVLGGLLLRSSPAVPEAGDAHSEHGDASEQEDEGHSDEDAEAEGDHGHDEGGADSDHEVGAAEKDEHEDEPEGAEHTETAEVELSETQILAAGISLATAEPAKIQSAIELPGEITFNQDRTAQVVPRLSGVVEAVKVDLGEQVKQGQVLAVIASTDLSERRSEFYAAQKRLALAQKTYRREKELWEERISAEQDYLQAQQALREAELTVANAKAQLQALGSDAGKPDALSRYELRAPFDGMIVEKDITLGESVNTDDQIFIISDLSTVWADISVPANALSAVRVGSNAVIEATAFESSANGTVSYVGSLVGQQSRAATARVTLPNPEGVWRPGLFVKVRVGSGGVSVPVAVKPDAIHTLEDNPVVFVRTDHGFAAQPIVTGRGDSEAVEIKEGLQAGVRYALANSFIIKSELGKASASHAH	PGPT0004970_469	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-CUS_TRANSPORT_SYSTEM,PGPT0004970-czcB|cusB|cnrB-K15727	NA	NA
BMS010_03654	1308	czcC		Cobalt-zinc-cadmium resistance protein CzcC	GTGCGAAAAGCTCTTTTCTCGCTGGGGTTGACGACGTTGTCGTGCAATCTCGCCTTTGCGCAACCCTTAGAGTTGCCGACCTTCACACAGACCTTACCTGTCAGTGTGTCAAATACCTTCCCCGTTGAGTCTGTCGACTCCATAAGCTTTGTACGCGCCTTGGAACTCGCTAGCTCTGCAAGCCCTGAACTGGCTGCTGCAAGACGTGAGCTGGCTGCTTCTCGCGCATTGATTAGCCAAGCAGGAGCACGTCCGAATCCAATATTGTCCGCTAGCCAGGAGGGAATCCGGGGCGATGCCCCGGAGACCACGCTTGAACTGAGCCAAGAAATAGAGCTGGGTGGTAAACGTTCGGCTCGTATTGAGGCAGCGCAACGCGCCATGGACGTAGCGGCCGCCGACCTACAGGACGCCCAAGCTCGACTGAGGGGGGCAGTGATGGGTGCATACTACGATGTGCTTACTGCTCAAGAACGGCTGGACCTCGCTCAGGCTGCTTCAAAGCTTGCGAAGCAAGCTGTGAACGTTGCCAATCGACGTGTGAGGGCCGGCATGGTCTCTCCCGTAGAGGAAACCCGGGCGCGGGTTGCGGCTACTGGAGTGCAAGTAGAGCTTGCCCAGGCCACAGCTGAACTCGAAGCTGCGCGCACTCGGCTGGCGGCCAACTGGGGAAATCCACAGCCACGCTTTGAGCGAGTAAAAGAGCCGGTAGAGGCAGTGCCTCCTCTTCCCGAGCTAGCTGAGCTTTATAGCCGTTTGAACGATTCCGCCCAACTAACCCGCGCGCGTCGGGAGGCTGAAAGACGTCGGGCTGCGTTGGAGCTGGAAAGGACGAATCGCTTTTCTAACGTGACGGTTAGCGTAGGTGCCCAACGCTCAGATGAATATAACGGCACGCTGGGACTGGTGAGTATCTCGATGCCCCTGCCGTTGTTTGATCGAAACCAAGGCAACATCGGAGCAGCACAGGAACGGGCCTACCAGGCGCAGGACGAGCTTAACGCCGTCCATATACGCCTGAAAAGCGAACTTTCCCAAGCGCACATGCGGCTGCGCACTGCTCGCCAGCAGTTCGAACTGTTGCGCAACGACATGCTCCCCAGTGCCCAAAGCGCTTATGAAGCTGCCAGCAAGGGGTTCGAACTAGGAAAGTTCACCTTCCTTGACGTACTGGATGCTCAACGCACGCTTTTCCAAGCCCGCTCTCAGTATCTGTCTGCGCTCTCGCAAGCTAACCAGGCGGCGGCGGAAATCGCCCGAATCGTCGGCGATGGGTCGGCCGTTATCACCTCGGCCACTCAGCCATAA	MRKALFSLGLTTLSCNLAFAQPLELPTFTQTLPVSVSNTFPVESVDSISFVRALELASSASPELAAARRELAASRALISQAGARPNPILSASQEGIRGDAPETTLELSQEIELGGKRSARIEAAQRAMDVAAADLQDAQARLRGAVMGAYYDVLTAQERLDLAQAASKLAKQAVNVANRRVRAGMVSPVEETRARVAATGVQVELAQATAELEAARTRLAANWGNPQPRFERVKEPVEAVPPLPELAELYSRLNDSAQLTRARREAERRRAALELERTNRFSNVTVSVGAQRSDEYNGTLGLVSISMPLPLFDRNQGNIGAAQERAYQAQDELNAVHIRLKSELSQAHMRLRTARQQFELLRNDMLPSAQSAYEAASKGFELGKFTFLDVLDAQRTLFQARSQYLSALSQANQAAAEIARIVGDGSAVITSATQP	PGPT0004975_941	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-CUS_TRANSPORT_SYSTEM,PGPT0004975-czcC|cusC|cnrC-K15725	NA	NA
BMS010_03655	1320	oprD_2		Porin D	ATGAGCAAAAAGGCCGTTTTTTCGCTGACAGCCCTTTCACTGGCATTGGGCAGCGCCCCGGTCTTTGCCCAATCGGAAACAGCCGAGGGCTTCATCGAAGGCAGCACGCTATCGCTGATAAATCGCAACTTCTATTTCAATCGGGATTTTCGCGACGGTGAGAGTGCCGCCGGCAATGGCTACTCCGAGGAATGGGCCCACGGATTGATGGCCTTCTTCGAGTCCGGATATACCCAAGGCTCGGTAGAGATTGGCTTCGACGCTTTCGCCATGCTCGGCCTCAAGCTCGACTCCGGTTCGGGGCGCTCCGGTGTGGGCGGCAGCATCGACCTGCTTCCCCACGACAGCGCTGGCGATCCTGAGGATGACTTCACACGGGTGGGGGGCGCGGTGAAAGCACGCTTGCTGGACACCGAGATCAAGGCCGGCGATGTATTTCCCACTACACCTGTCGTGCACTTCGGCGACTCTCGGCTGCTGCCGGAGTCTTTCAAGGGTGTCACCGTTGTGAACAACTCGCTGGACGACCTCACCCTTCAGGGAGGCCGCTTGCACGCGATGAGCCAGCCCAACACCAGTAACATGAACGAAGACTTCGTCACCTTCTACGGCGGGGGCGTAGACGCGCCTTGGCTCGGCTACGCAGGCGGTGACTACAGCGTGAATGAAAATATCAGTCTTAGCCTGTACACCAGCCGCCTCAAAGATGCCTGGAACCAGCATTACTTCGGTGCGTCGGCCACCTATCCGCTCTCCGATATCGTCGCGCTGCTGGCCAGCTTCAACTATTACAAGGCAACCGACGAAGGCCGTGAGTTGCTGGGCGAGTTCAACAACAACATCTGGAGCTCCAGCCTGGGTGTCGCCTTCGGCGCGCACACCGTCACGGCGTCGTATCAGCGAAACAACGGTAACAACGACTTTGACTACTTGCGCCAGGCGGACTCGATCTACCTGAACAACTCCATTCAGTACAGTGATTTCAACTCACCTAAAGAGCAGTCCTGGATGCTGCGCTACGACCTGAACATGGCGGAGTACGGCATACCCGGGCTTACTTTCATGACCCGCTACGCCCGCGGTTGGGGCGCCGATTACAGCAACGCGAACGAGGTGTACATGCGCCAAGACGATAACGGTGCGCCGCTGACGGGACAGAACCGCTGGGAACGCGACGTCGAAGCCCGCTACGTTGTACAGACTGGCTCTCTCAAGGATTTGTCTCTGCGGGTGCGCCAGGCTACCACGCGGGCGACTGCTTTCGAGTCCGACCTCGATGAGGTCCGATTCATCGCCGAGTACCCTCTCTCGATCTTGTGA	MSKKAVFSLTALSLALGSAPVFAQSETAEGFIEGSTLSLINRNFYFNRDFRDGESAAGNGYSEEWAHGLMAFFESGYTQGSVEIGFDAFAMLGLKLDSGSGRSGVGGSIDLLPHDSAGDPEDDFTRVGGAVKARLLDTEIKAGDVFPTTPVVHFGDSRLLPESFKGVTVVNNSLDDLTLQGGRLHAMSQPNTSNMNEDFVTFYGGGVDAPWLGYAGGDYSVNENISLSLYTSRLKDAWNQHYFGASATYPLSDIVALLASFNYYKATDEGRELLGEFNNNIWSSSLGVAFGAHTVTASYQRNNGNNDFDYLRQADSIYLNNSIQYSDFNSPKEQSWMLRYDLNMAEYGIPGLTFMTRYARGWGADYSNANEVYMRQDDNGAPLTGQNRWERDVEARYVVQTGSLKDLSLRVRQATTRATAFESDLDEVRFIAEYPLSIL	PGPT0028135_137	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028135-oprD-K18093	NA	NA
BMS010_03656	675	czcR		Transcriptional activator protein CzcR	ATGCGCATCCTGGTTGTCGAAGACGAGATCAACGCTGCGGAATACTTGCAGCAGGGTCTTATCGAATGTGGTTACTTGGTCGATTGCGTAAGTGATGGCCTCGATGGGTTTCACCTGGCACTGCAGAACGACTATGACATCGTGCTGCTAGATGTGAATCTGCCAACCATGGATGGGTGGGAGGTTCTCGAACTCATCAGGCGGCGTAAGCAGACACGCGTCATCATGCTGACTGCCAATGGCCGCTTAGAGCAAAAAGTCCGCGGCTTGGAATCGGGCGCCGACGACTATCTGGTCAAGCCGTTCCAGTTCCCCGAGCTGCTTGCCCGTATCCGGACACTGTTGCGGCGAGGCGAGGCAGTCACACTTCCGAGCAACCTGCGTGTAGCCGACCTCGAACTGGACCCGGCCCGGCATAGGGCTTACCGGAGCGGTCAGCGTATCGACCTCACCAGCAAAGAATTTGCGTTATTGCATCTGCTCATGCGCCGGACTGGCGAAGTCCTCACGCGTACGGAAATAACTGCCATGGTGTGGGACATCAATTTCGACTGCGATACCAATGTGGTGGATGTTGCGATTCGTCGCCTGCGGATGAAAGTGGACGAACCCTTCGGCGATCGCCTGATACACACCATCCGGGGTGTGGGCTACGTGCTGGAGGCGCGGCCTTGA	MRILVVEDEINAAEYLQQGLIECGYLVDCVSDGLDGFHLALQNDYDIVLLDVNLPTMDGWEVLELIRRRKQTRVIMLTANGRLEQKVRGLESGADDYLVKPFQFPELLARIRTLLRRGEAVTLPSNLRVADLELDPARHRAYRSGQRIDLTSKEFALLHLLMRRTGEVLTRTEITAMVWDINFDCDTNVVDVAIRRLRMKVDEPFGDRLIHTIRGVGYVLEARP	PGPT0004105_1306	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0004105-cusR|copR|silR-K07665	NA	NA
BMS010_03657	1374	czcS		Sensor protein CzcS	TTGAAGCCACTCAGCCTCGCATCGCGTCTCGCGCTTCAAATCACACTGACCGGCGCCGCTTTGGTCGCGCTGCTGATTGCACTGAGCTACTGGGTACTGGTGCGCCAACTGGAACTGCGCGCCCAGGAGGAAGTGACGGCCAAGCTCTCTCAGATCGATCATGGACTCCTCGAAGACACCAAAGCCCGTATGGGCCGCTCCTGGCAACACGCATTGAGCGATACCGTACTCGGCCATGACAACCTTTCGATTACGGTCATCGGCGATACAGCGAAATCACCCATTTTCAGTATCGGCCGATTCGCCAATGCGCCGCAGCAGCTGGATCTCGTGAGCAGGGACGGCGACTATCTTGGCTGGACAACGAAAGATGGCGTGCAGATGCTAACCGGGCGCAAGCAAATCCAAGTCCCGGGACTGGCTCCAATGACGCTTTTACTTTCGCAAGATCGCAGTGCCGATCAACGGCTGGTGGCTGCATTCCTGCGCTCGGCCTTAGTGACCGTGCCGATGCTACTGATATTGATCGGATTGGCTGGATGGCTAATCGCCCAAAATGGCTTGCGGCCGCTTCGCAAGTTCCGGGCCTTGGCGACTAAGGTATCTACACAGGATCTATCACCTCGAATCCGCACCGATCGGCTTCCGCAAGAGCTCCAGGCATTGGCGCACAGCCTCAACGTAATGCTTCATCGACTCGATGACGGCGTTCAGCAACTGTCACAATTCTCGGACGATGTGGCTCATGAGTTAAAAACTCCGCTGAACAACCTGATAGGCAAGGCGCAGGTGACTTTGGTGCGTGAGCGAAGCAAGGAGCATTATCGGGAGGTGATCGAGTCGTCGGTTGAAGAACTCGAACGCATGGATCGAATCGTGTCAGACATGCTGTTTCTCGCCCAGGCCAGCCACGCCAGCCCAGCACTGAAGCTCGAACAATTATCTTTAGGAAGCGAGGCGAGGCGCGTATGTGAATACTTCGAAGTCCTTGCCGAAGAAGCGGGAGTCGCTACGACAGTAACGGGCGATGCCATGATTTTGGGAAATCGACTTATGGTCCAGCGGGCCATTTCCAACCTGCTATCCAACGCGCTGCGGCATTCAAATACTGGCAGTACGGTCGAACTTAAGATCCTTGAGGAGGACGTAGACATCGTCTCGCTGGCTGTCACCAATCATGGCGCGACTATCGAATCGGATCATCTCCCACATCTGTTCGACCGCTTTTACCGCGTTAACGGCATACAACCTCGCGGGGCAGGATTGGGGCTAGCGATTGTCCGCTCAGTGATGAACCTCCACAAAGGCCACGTGGCCGTCGCCAGCAAAGACGGTCGGACCACGTTTGAACTCACGTTTCCTCGGCAGGCCTGA	MKPLSLASRLALQITLTGAALVALLIALSYWVLVRQLELRAQEEVTAKLSQIDHGLLEDTKARMGRSWQHALSDTVLGHDNLSITVIGDTAKSPIFSIGRFANAPQQLDLVSRDGDYLGWTTKDGVQMLTGRKQIQVPGLAPMTLLLSQDRSADQRLVAAFLRSALVTVPMLLILIGLAGWLIAQNGLRPLRKFRALATKVSTQDLSPRIRTDRLPQELQALAHSLNVMLHRLDDGVQQLSQFSDDVAHELKTPLNNLIGKAQVTLVRERSKEHYREVIESSVEELERMDRIVSDMLFLAQASHASPALKLEQLSLGSEARRVCEYFEVLAEEAGVATTVTGDAMILGNRLMVQRAISNLLSNALRHSNTGSTVELKILEEDVDIVSLAVTNHGATIESDHLPHLFDRFYRVNGIQPRGAGLGLAIVRSVMNLHKGHVAVASKDGRTTFELTFPRQA	PGPT0004980_1255	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0004980-cusS|copS|silS-K07644	NA	NA
BMS010_03658	891	zitB		Zinc transporter ZitB	ATGAGCAAGTCCGATGGTCCCTGCGGCTGCGATGCGACACCAGCCGCTGATGCCGATATGCAAAACCCTTCCGATACGACGGGGCAATGGGTCAGTGTTTACGCCGTGCCCAAGATGGATTGTCCATCAGAAGAGCGAATGATCCGCTTGGCGCTGAATGGTTTGGACGGAGTTCGGAAGCTGACTTTTGATCTGTCGGACCGTCGGTTAGATGTCATGCATGACAGTGCCGTTGAGCCCATAACCAAAAAGCTGGCGACGTTAGGGCTAGGCGCCACTCTTCAGAAAACTGTCGCGGCAGACCCTGAGATGATCAAAGCCGCCGAGAATCCGGCGAACTCTACACAGGAATCCCGCTCCCTACGTTTACTGTTAGGCATCAACGCCTTCATGTTCGTGGTAGAGATGACTGCTGGCCTGATTGCCAGGTCCGCGGGTCTGATTGCCGATTCGCTCGACATGTTCGCTGACGCGGCAGTGTACGGCCTGGCCCTTTATGCGGTTGGGCGCAGCGTCAATCTGCAGGTGCGTGCTGCACACCTTGCTGGTGTGCTCCAGCTGATTTTGGCCCTCGGCGTGCTCGTAGAGGTGATCAGACGCTTTATATTCGGCAGCGAGCCCGAGTCGCTGATAATGATGGCCGTCGCGTTCCTGGCATTGCTCGCCAACACGGGTTGTTTGCTGCTGATTTCCAAACACCGGGAAGGTGGTGCTCACATGAAAGCGAGCTGGATATTCTCCGCCAATGATGTGGTCATCAACATGGGCGTCATAGTCGCCGGAGCGCTCGTCGCTTGGACTGGGTCCAACTACCCAGACCTGATTATCGGTACCGTCGTGGGATTCATCGTTCTCAACGGCGCTCGGCGTATTCTGGCGCTCAAGGGTTGA	MSKSDGPCGCDATPAADADMQNPSDTTGQWVSVYAVPKMDCPSEERMIRLALNGLDGVRKLTFDLSDRRLDVMHDSAVEPITKKLATLGLGATLQKTVAADPEMIKAAENPANSTQESRSLRLLLGINAFMFVVEMTAGLIARSAGLIADSLDMFADAAVYGLALYAVGRSVNLQVRAAHLAGVLQLILALGVLVEVIRRFIFGSEPESLIMMAVAFLALLANTGCLLLISKHREGGAHMKASWIFSANDVVINMGVIVAGALVAWTGSNYPDLIIGTVVGFIVLNGARRILALKG	PGPT0004255_3549	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-COBALT_TRANSPORT,PGPT0004255-czcD|zitB|yrdO-K16264	NA	NA
BMS010_03659	633			hypothetical protein	ATGATACAAGCAGTAGTTTTCGATGTGTTTGGCACGCTTCTCCAGATAGGTGAGCGCCGCCATCCTTTCCGCCAACTGATGCAGAACCTGCGGCTTCAGGGCAAAACACCAAGGCCGGATGACGCACGGACTCTGATGACTCGAAATCTGGGCTTGGCTGGAGCTGCCGATTATTTCGGTGCGCAGTTGAGCAACTCTGAGTTAGCTAGCCTTGAAAGCGACCTTTTCACCGAGCTGGCCAGCGTTCGCCTTTTCGATGATGCGTTGGAGTCGCTAAATCAGCTAAAGGACGCCGGCCTGAATCTCGCGTTGTGCTCCAATCTCGCAGCCCCATATGCGATTCCGGCCAAACTGTTACTGCCGTCGTTCGATGTTTACGGATGGAGCTTTGAGGTTGGGACAATAAAGCCTGAGCCCGCAATCTATCGTCAGATGATCGAACAGCTTGGCTGCGAAGCCTCCGCTATCGCAATGATCGGTGACACGTTGCAAGCCGATATGCTTGGTCCAATTGGGCAAGGCATGCGGGGCTACCACCTACAGCGTGAAGGAAAAGCCGATCAGTGCGGCTTCGTCTCGCTGATGGACTTTGCAGCCCACGTTCTGCAATACCCACCATCCGCCAACGGCTAA	MIQAVVFDVFGTLLQIGERRHPFRQLMQNLRLQGKTPRPDDARTLMTRNLGLAGAADYFGAQLSNSELASLESDLFTELASVRLFDDALESLNQLKDAGLNLALCSNLAAPYAIPAKLLLPSFDVYGWSFEVGTIKPEPAIYRQMIEQLGCEASAIAMIGDTLQADMLGPIGQGMRGYHLQREGKADQCGFVSLMDFAAHVLQYPPSANG				NA	NA	NA	NA	NA
BMS010_03660	855			hypothetical protein	ATGCAGCCGGCTCGGAAAAAGGCAATCCTCGCTGCGGGGCTGGGCATGATGTATGGCGATGTGCCGTTCCCTAAGATCAAATGGATTTTCCAGAATCTCAACAAAGCCGAGGTCCTGCTGACCTTCAATGTCGATTTTTTGGTTACGTATCTAGCCGACCGCCAAGCGAACCGGAAAGCCATTGCAAATATCGGCTTGGATCAGCATGTGCCATGGGACATGCTTAAACAGCTGAAGGCGCATCAGCCACGGAGCTGGCAATACCTGATCCAGCGCTATCTGTCCGAGGGGATCAAGCAGGAAAGCGGTGCCCAGTACATGACCGTCTTCTTCATTCGTCCGGCCGGCAGCAACCCGATGGCCTATTGGTTTATCCATCTGGCGAACAACTACCGCGCTAACGATGTGATGAAGAAGATCCACTGGAAATACGGCAACAACTTTTCCCATATGCTGTCGCCTTCCAGCTTTTTCAGCTACGACGCCAATCGGGATATCGCCGTGACAGGTCAGCACGATTTGCTGTTGGATGAGCATTATTTCGACGATGCTACCAATGACCGCATCCGAGGAGAACTTTCGGAGCTCTTGCCCAAACAGGTCTACGAGGTAGAACGGCAACCTTTTTTGGGCCTGATGAGCGGATTGACCAACTACACCATGGCTGACGAGCTTCGCGTAAAGCAGGCACTCGACATTGCTGTCGCGACCGGTGATCTGCTGGCGGTCGACAAGAACGGCAAAACAAGGCGTCGAAAAGGCACAAGCATCAAGTCGACAGATATCCTGATAGCGCCCCCGCAAAGACCCATCTTCTTCGTGCCACCTCTGAAGAAATCCAGTTCAGAAAACTGA	MQPARKKAILAAGLGMMYGDVPFPKIKWIFQNLNKAEVLLTFNVDFLVTYLADRQANRKAIANIGLDQHVPWDMLKQLKAHQPRSWQYLIQRYLSEGIKQESGAQYMTVFFIRPAGSNPMAYWFIHLANNYRANDVMKKIHWKYGNNFSHMLSPSSFFSYDANRDIAVTGQHDLLLDEHYFDDATNDRIRGELSELLPKQVYEVERQPFLGLMSGLTNYTMADELRVKQALDIAVATGDLLAVDKNGKTRRRKGTSIKSTDILIAPPQRPIFFVPPLKKSSSEN				NA	NA	NA	NA	NA
BMS010_03661	945			hypothetical protein	ATGCATAGCGACGGTCGAAGCCAGGCCGTCGCTAACCGGCCAGAAGCCGTCGTTGTGATCCTTGGATACAGCGCCAAAGCCGTGGCCGGCTGTCAAAAGCCGCAGGCCATTTTCGATAGTAGTGCGGCAATTGATTTAGCACCGGCAGACTGGGGAAGGACAATGAATGTATTTGTTACGCCGATAGCCACGCTTTTGGAACAGGGTGCGGGCGAGCTACAGGGAGCAATTCAGGGCGATCAACCTGAGCTTCAACTATACGAAAAAATCGATTGGTTCCTGCTCGGCAAGGTGTTCAATGACGATCGGTTTCGTGGCCTCGACTCCACGATCCTTCAGCTTGCCGCACATTCGAGGAACGTATGGACAGCAGGCGTCCGCATGGCTCTCAGTGGGCAGCCGTACGCGGTACCACCAATCGTGCGCACCGCCCTTGAAGCGGCCTGCTATGCCTCGCTGATCAATCATGATGTCTCGCTCGCGAGGATCTGGCTCGACCGCCACAACAACCCGCAATCAATGAAAGCTTCCCGTAAAGCGTTTGGCAGTGCTGTCGAGACGGTGAGAAAACTGCTCAACTCCAAAGCCTCTGGGCTTGGCGATCAGGTTAACGAGGCATACCAGGGCTGCATCGATGATGGAGCTCATCCGAACACCAGGGGTATACCGCGGACACGAAAGCTAGTTTTAGGCCCAAACAATTTCCGAGAAGAATACGACGAGACGACCGATTTCTACGGCATTCCTTCCATCAAATCCAAGGATGCCTTGTGCCTAGTCGCATATATAGGCCTGCTTATGTGTCACATCCTGTGCCTAACATTCATGCCTTTTCATGAATTGCCCCACGGCCTCCTTGATGAAATGTTGGACGAATTCAACGGCATCATTCCGCAGGCTGATGCCTCACCAGTAGATTTTTCGTCAATCATTAGACATGACTAG	MHSDGRSQAVANRPEAVVVILGYSAKAVAGCQKPQAIFDSSAAIDLAPADWGRTMNVFVTPIATLLEQGAGELQGAIQGDQPELQLYEKIDWFLLGKVFNDDRFRGLDSTILQLAAHSRNVWTAGVRMALSGQPYAVPPIVRTALEAACYASLINHDVSLARIWLDRHNNPQSMKASRKAFGSAVETVRKLLNSKASGLGDQVNEAYQGCIDDGAHPNTRGIPRTRKLVLGPNNFREEYDETTDFYGIPSIKSKDALCLVAYIGLLMCHILCLTFMPFHELPHGLLDEMLDEFNGIIPQADASPVDFSSIIRHD				NA	NA	NA	NA	NA
BMS010_03662	714	yedK_2	COG2135	SOS response-associated protein YedK	ATGTGTGGACGTTTCACTCAGTACCGAATCGCCTTTGAGTATCTGGACAGGATTGCGGTGCAGCTGCCCTTGCCGCTGCAAGGCTACGTAAACCCCGAGCCGATTGGACGCTACAACGTGTGTCCGCAATCAATGGTCCAGCTCCTGCACCAAGACGATGACGGGATCTGCATGGAGCCGGTCAGGTGGGGATACGCCCCATTGTGGGCACAGGGGAAACGACCACCAGCGATAAATGCCAGGGTGGAAACTGCCGCGACTAGCAGATTCTTTCGCGATATCTGGCAAACAGGCCGCGCCATAGTGCCCGCTGATGGTTGGTACGAGTGGAAGAAGAACGCGGAGAATCCGAAGATCAAGCAGCCCTACTACATCACGCTCCGTAGCGGTGAGCCGATGTTTTTCGCTGCGCTCGGGCGGTTTCAGCGAGGCGGCTCGCTGGAACCGCGAGACGGCGACGGGTTTGTTGTCATTACGTCATCCAGCGCTGCCGGCATGCTCGACATTCACGATCGGCGTCCACTGGTTCTAACGCCCGAGTACGCGGCTCACTGGATGTCCTCGGATTTACCGCCGCACGAGGCTGAAGAGCTCGCACTAAAGCATGGTTTGTGCGTGGAGGAGTTCGAGTGGCGTCCGGTGGGAAAGGCCGTCGGGAACGTGCGGAATGAGGGGCCCGAACTTATCGATAGGATCGCCCAACCACTGGTATAA	MCGRFTQYRIAFEYLDRIAVQLPLPLQGYVNPEPIGRYNVCPQSMVQLLHQDDDGICMEPVRWGYAPLWAQGKRPPAINARVETAATSRFFRDIWQTGRAIVPADGWYEWKKNAENPKIKQPYYITLRSGEPMFFAALGRFQRGGSLEPRDGDGFVVITSSSAAGMLDIHDRRPLVLTPEYAAHWMSSDLPPHEAEELALKHGLCVEEFEWRPVGKAVGNVRNEGPELIDRIAQPLV				NA	NA	NA	NA	NA
BMS010_03663	432	umuD	COG1974	Protein UmuD	ATGCCCGTCCATATCTTGGGACCTGCTGCTCCCACCACAATTTCGCTGCCGTTTTTCAGTTTCTGCGTGCCCGCGGGATTCCCGAGCCCAGCGCAGGACCACATGGAGGGGAGCATCTCGCTCGACGAGCTGATGAACATCCGAGCTCCGCATACCTACCTGGCGCGCGCAGACGGGGAGAGCATGATCCAGGTCGGCATCTTCGACCGGGACATTCTAATCATCGATCGGGGACGGGAGGCAGAGAAGGGGGAGGTAATCATCGCAGCGCTGAATAACGAGCCTCTGGTCAAGATTTTCGACCGAGCCGGCAGCCAAGTGATTCTGCGCTCGGCCAATCCGAAGTTTCCGCCGCGGTACCTCCTCGAAAGCGAAGAACTCTACGTATGGGGCGTGGTGTCATACAGCATCCGAATCCATGGCAAGTACTGA	MPVHILGPAAPTTISLPFFSFCVPAGFPSPAQDHMEGSISLDELMNIRAPHTYLARADGESMIQVGIFDRDILIIDRGREAEKGEVIIAALNNEPLVKIFDRAGSQVILRSANPKFPPRYLLESEELYVWGVVSYSIRIHGKY	PGPT0015094_800	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ADAPTIVE_MUTATION	CE-BACTERIAL_FITNESS-ENVIRONMENT-INDUCIBLE_DNA_POLYMERASES,PGPT0015094-umuD-K03503	NA	NA
BMS010_03664	1281	umuC	COG0389	Protein UmuC	ATGGCAAGTACTGAGCGGGCAATCGCCCTCATCGATTGCAACTCGTTCTACGCCAGCTGCGAGCGTGTCTTCCGACCAGACTTGCGCCGTACGCCTATCGTCGTGCTTTCGAACAATGACGGCTGCGTAATCGCGCGCTCAACCGAGGCAAAGCAGCTCGGTATCAAGATGGGCGTGCCGTATTTTCAGATTCGGCGCGACCTGGAGCGTTTGGGCGTTGTGGTGTTTTCCAGCAACTACGCACTGTACGGCGATATGAGCGAGCGCGTCATGACGGTCATCGAGAGCCTGGTCCCTACGGTTGAGGTGTACTCAATCGACGAGTCGTTTGCCGACCTTACCGGTGTGCCAGACGTCGAAGTGCTCGGCAGGCGGATCCGCGCTGAGGTACTGCGCAGCACGGGTATCCCGGTCGGGGTGGGCATTGGGGGGACCAAGACGCTCGCCAAGTTGGCGAACCATTCAGCGAAGCGCTGGCAGAAGCAGACGGGTGGGGTAGTGGACCTGCTTGACCCGGTGCGGCGCGACAAGGTGCTGCGCGTGACTGACGTCGGCGATGTATGGGGTGTCGGCCGCCGGATGACCGAGCACCTGAACAGGTTGGGCATACGTACTGCTTGGGATCTAGCCAGCGCGGATGCCTGGACCCTGCGCAAAAAATTCAGCGTGGTCATCGAGAAAACCGCACGCGAACTGCGCGGGACGCCGTGCCTCGATCTGGAGGACGTCGCGTCACCCAAACAGGAAATCTGCTGCTCGCGAATGTTCGGCAAGCGCTTGCGCGAGCTGGAGCCAATCAAGGAGGCAGTGGCGGCATACGCTGCTAGGGCCAGCGAGAAGCTGAGGGGCCAGCAGTCACTGTGCAAGCGTCTCCGAATCAGCATCCGGACCGGCATGTTCAATCCCGACGAGCCTAAGTTTGCGAAAGGCGTGGTGTGTGAGCTGTCGTATCCTACCGACGACACCCGATACATCGTCCGAGCGGCGATCGCCGGTTTGGAGCACATCTATCGCGAGGGATTTTCGTTCAGCAAGGCCGAGGTCCTGCTGATGGACCTGTGCCAGCGTGGCGAGTACACCGGTGATCTATTCTCCCAAACTCAACCTGCTGCCTCGGAGCGCGTTATGGGGGTGCTCGATGCAATCAACGCCAAGTGGGGCCGCAACACCCTACGGCCAGGCCGTGTAACCACCGCGCCGGACTGGGGCATGCGACGGGAGATGATGAGCCAAAGCTTCACAACCAGGCTGGATCAGTTATGGGTGGTGCGTTGCAACTAG	MASTERAIALIDCNSFYASCERVFRPDLRRTPIVVLSNNDGCVIARSTEAKQLGIKMGVPYFQIRRDLERLGVVVFSSNYALYGDMSERVMTVIESLVPTVEVYSIDESFADLTGVPDVEVLGRRIRAEVLRSTGIPVGVGIGGTKTLAKLANHSAKRWQKQTGGVVDLLDPVRRDKVLRVTDVGDVWGVGRRMTEHLNRLGIRTAWDLASADAWTLRKKFSVVIEKTARELRGTPCLDLEDVASPKQEICCSRMFGKRLRELEPIKEAVAAYAARASEKLRGQQSLCKRLRISIRTGMFNPDEPKFAKGVVCELSYPTDDTRYIVRAAIAGLEHIYREGFSFSKAEVLLMDLCQRGEYTGDLFSQTQPAASERVMGVLDAINAKWGRNTLRPGRVTTAPDWGMRREMMSQSFTTRLDQLWVVRCN	PGPT0014882_853	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ADAPTIVE_MUTATION	CE-BACTERIAL_FITNESS-ENVIRONMENT-INDUCIBLE_DNA_POLYMERASES,PGPT0014882-umuC-K03502	NA	NA
BMS010_03665	366			hypothetical protein	ATGTCCAAACTCGCCGAATTCAAAGCTCTAGAAGCCCAGCTCGCAGCCCAGCTAAAGCAGCTTGATGCTCTTAAGAATGACGACAAACTCAAGCGCGAAATCGAGTTCGAGGAAAAACTCCGCAATTTGATGGGGCAATATGACGTAGGCCTGCGCGAAATTATTTCAATATTGGATCCGAAGCCCAGCCGCACCAGCATCAGCGCCACCCCGACGTCTCAAGCGCCTCGTCGGCAGCGCCAAGTTAAGGTTTACAAAAACCCAGAAACTGGAGAGGTGGTAGAGACTAAGGGTGGCAATCATAAGATTTTGAAAGCCTGGAAAGAAAAGCACGGCGCCGACAAGGTGGAGAGTTGGCTTCAGTAA	MSKLAEFKALEAQLAAQLKQLDALKNDDKLKREIEFEEKLRNLMGQYDVGLREIISILDPKPSRTSISATPTSQAPRRQRQVKVYKNPETGEVVETKGGNHKILKAWKEKHGADKVESWLQ				NA	NA	NA	NA	NA
BMS010_03666	1260			hypothetical protein	ATGAATGTAACTGCCCCCCTCTCCATTCCTTTTTACAAAGGCCTGAGTCTTATCGTCGAACCCGGCCATGAAGAACACTTGCGAATCGCGTTGGCAAACATTTCAGCGATTACGGATGCGATAAACCGCTTTCAGTCTTCTCCTTTGCTTACCGAGTTCATGGACATAACGCTGTCCCGCTTTCTGCGAGAAAACAATTACGCAGGGAAATCCGAGCACATGCTTCGAGCGCGGATGGAGAAACTAAAAATCGCTCTGACGCAAGATAATCCTACCCGCCGAGTTGCTGAGCTTGATCGGGCCGACGTACAGCGTCTGAAGGATCAGCTACCGTCGTTACTCAAGCAGAACGCTGCGTCGGGTAGCAAAGGCGCAAACCTCACGACCTACTATCAGTTGTTCAATCGAATGCTGGACGAAGCACTTGAGAGCAAGCTGATTACCGAGGCGATCAAAGTCGCGACCTGCAATACAAAACACGCCGAAATCACCAAGCCATTTCTGGATAGCAATCTGAATCAGATGTTCTCAGGCTGGCCCTACAGAAAGTATCTCGCAGGCGACCTGCCGAAAATCAACCAGGACGCCAAGCCCTATCGGTTTTGGTTGCTCCCGCTTGGGCTCTATACCGGCGCGCGGCTTAACGAGCTCTGCCAGCTACGTGTGCATGATGTGATCCAAGATGTCCACGGCGTCGACCTTATCGATATCAACGATAATGGCTACAACAAGTCTTTGAAGACGGGGCCGTCGGCCCGGCAGATCCCAATCTGCTCGAAGCTAGTGGAGATGGGCTTTCTAAAATTCGTAGAAGAACGGCGTCAGGCCGAAGGCAACGATGCACTGCTTTTCAACGAGCTGAGCTTCGATCCGAAGCACCTGTACTCCCGCGACCCAAGTCGGTTTTTCTGCGGGCCGTGCACGGGGACAGGATACATCGGTCAGCACTGCCCGCCAGCCGTAAATGGTGGTCTAAATTTTAAAAGCTTCCGCCGCTCGTTTGCCGTGAGACTTGAACGGTCAGGTATACCCCCTTCAACCATTGCCTATCTGCTCGGCCATGAGGGTGGTGCTCCAGAAGTCACAGCAGACCACTACTTGGAGCAGCCACTGAGTTTGCGATTACTGGAGCAGATGGAACGGGGACTGACATACAACGCACAGACCGAGCAGATCCGCTGGGAGCATTTTAAAAACCTGCTCGCAAACCAAGCCGGACGCGGAAAGCGAGGAAGGAGAACTAAGCAAAAGCCTTGCTAG	MNVTAPLSIPFYKGLSLIVEPGHEEHLRIALANISAITDAINRFQSSPLLTEFMDITLSRFLRENNYAGKSEHMLRARMEKLKIALTQDNPTRRVAELDRADVQRLKDQLPSLLKQNAASGSKGANLTTYYQLFNRMLDEALESKLITEAIKVATCNTKHAEITKPFLDSNLNQMFSGWPYRKYLAGDLPKINQDAKPYRFWLLPLGLYTGARLNELCQLRVHDVIQDVHGVDLIDINDNGYNKSLKTGPSARQIPICSKLVEMGFLKFVEERRQAEGNDALLFNELSFDPKHLYSRDPSRFFCGPCTGTGYIGQHCPPAVNGGLNFKSFRRSFAVRLERSGIPPSTIAYLLGHEGGAPEVTADHYLEQPLSLRLLEQMERGLTYNAQTEQIRWEHFKNLLANQAGRGKRGRRTKQKPC				NA	NA	NA	NA	NA
BMS010_03667	2493	xerD_2		Tyrosine recombinase XerD	ATGGCATTGGATTACTCACAGTCCGTCTGTGAATCCAAAAGGTATGCCATCATGTCCAAGCGCCAAAGCAAAACAGGTGTTCCGCACCTCGTCTATCAAGCCAACACTGGCTTCCAGTACTACCTCACATTCCCGAAGCATTTCGCGGCCAACCCGAAACTGCCTGCGCAAATCCGGTGGTCGCTCAGCCACGACGAAGCGCTTGCACGTGACCTCGCAAGGTATTTGAACGCCTCTTTCGAGCAGTTTCTTGCGAAGGCGACCGAGCACTACGTCGAGCTCTTTTCTGACCGCCTGCTGGCTGACCTCCAAAGGTTTCACTTGGCGGTAGCGGAAGCACTCAAATTCGCCGACCGAGTTTGGAAAGTACGCCCGTCGCCAATGAAGCTCGCGAACCAAGATCTCTCGGTCGCCCACGCTCGCATGATGAAAGAGAGTGCCGAGCGTGTGGTGCTCTATAGCCACGAGCCAGGGGGCGAAATCTTTTTCGCACTAACACCCACGCCCGCACTGGTGAAAGCGCTTGGCGTTGGGTTCGTACGCTTTGACTGGCCGCTCGGAACCAGCAACCAGAACGTGGCGAGCGACGCTGCCCGGTACATTTACGCTGCCCTTGATGTACTCGAGACCGTCCCACCCTCTCCAGGGCGCTATTCGAAAGAATCTCCTGCGTTTGCAGCGATGACGCTTTACGAATACCTGTGCCATGCCCGCCCAGACCAGGGTCGGAATCTCATGCACATCCCCCAAGCACTACCGCAATCTCGGCAAGCTTTGCATTTTCATCTTCAGCAAGCCAACGCGATGCATCTGAAGCTCCGCATCATTGATCGAGCGCTCTTGGTGCAGGAGGAGTCGGGGCTTTATGTGATGCTTATCGAACTTGATCCGCTCTGCATGAAAGCGCATCTGAGAGAAAAGAAAAGCTTTCGGGTTGAGCTGCTCACTAGCTCCATCATCATTGCGGTCCTCATGCTGACGTATACGCTGCAGAAGGTTGATAAGGTGCTGTTGCGTTACTTTCAGGAAGACGATCACGAAGATCCTTACGCCCAAGCCATGCAGGAAATCGGTGACCTGGTTCGGCGGATGTTGGGTTCTGCTGCAACCACCGAGCCTATGCAGACGATTCCGGAGCTGAACTCGCCGACAGATCCTGTGGCACCGCCACAGGATCCAGGCACGCTCGCGTTGCTGAATGCGCTCGGGAGCGTTCTGCCCGACGCGCAGAAAGCGAAGCTTGAAACCCTCTTTACCCAACCTTCGGTCAGCGAACGCATTGTCTCGCCGACGAGCAGTCCAAACGCAGGGCTGAGCCTCGCAGCATTGGTAAAGGAATACGAAGAACGGCAAATTCGTGAAGGCGCCTGGGCTAACCCGCGGACTCGCATTACCGCAAAGGCCCGCCTGGAAGGCCTGTGCGAGCTGCTTGGCGGGCACCGGCAAGTCGAGACGCTGACTCGCGCTGAATTCAACACGCTACGCGATCATCTGCGTAGCTATCCGAAGAACCGGCACCGCCTTCGCGCCACCCGTAATCAGCCGCTGAGCAAGATCATCAGCGACGGGAAATTCGAGCCGATCAATCCACGCACCGCGAAAAAGTTCTTTGAGCTGGCAAGGGCCCTTGTCACCTACGCTCATGATCAGGGTTACATCACCGAAAATATCGCGGCCGGATTGGCATTCAGCACCAAAGGAGCCGAGGCGCCGAGGAAGCGCACGTATAGCCCAAGCCAGATCGAGAAACTTCTTCACGGTCCGGCCTACACACTGACCACGCCGCCGCGCTGGCGCTTGGATGACTACAAGTTTTGGCTGCCGCTGCTTGGCCTTTTTACAGGCGCAAGGCTAAGTGAGCTGTGCCAGCTACGGCTCGAAGACATTCGGCAAGAACTCGGCGTCTGGCTCATCAGCATCAATCGAAGCGGGTCGAAACAGCTGAAGACGTCCGATTCGGAAAGGTTGGTGCCGATTCACCGGCAGCTTATCGAGTCGGGCTTCCTGGAGTTTCATCAAGCACGCCTGGAAGCTGTCGAGCGAGACGGCAAGGCTCCGCTTTTCGACAATATTCGGGTATACGGCGACCTTTCTCCCGGGCATGTTGCGAGCCGTTGGTTTCTCGGCTCAAGCCAGATTAGCCGGGGTTACCTTGGGCTTTGCGGCCTGGGAGATGACGGCCTGACGTACCACGGTCTGCGCCACACCTTTATCAATCAATTTCGCAGGCAGAACCTTGACCTGGCGAAAGCCAAAGCGCTTGTAGGCCACTCGGATAAAAGTACCACCGGTGGGTACGGCGACTGCTATCCGTCTGACGTGCTCAAAGACGAGCTCGACAAGCTCGATTTCGGGCTAGGGCTGGGACACATCCATTACCGGCACTATCAAGAGTTACGAGAACGCCAGGGCGTTTTCAATGTCGGTCGCCCGGTTGGCACCCCCTTCCCCAGCGTGCGGGTTGCTAAGCGGCACTGGAAAACGTACGCATAA	MALDYSQSVCESKRYAIMSKRQSKTGVPHLVYQANTGFQYYLTFPKHFAANPKLPAQIRWSLSHDEALARDLARYLNASFEQFLAKATEHYVELFSDRLLADLQRFHLAVAEALKFADRVWKVRPSPMKLANQDLSVAHARMMKESAERVVLYSHEPGGEIFFALTPTPALVKALGVGFVRFDWPLGTSNQNVASDAARYIYAALDVLETVPPSPGRYSKESPAFAAMTLYEYLCHARPDQGRNLMHIPQALPQSRQALHFHLQQANAMHLKLRIIDRALLVQEESGLYVMLIELDPLCMKAHLREKKSFRVELLTSSIIIAVLMLTYTLQKVDKVLLRYFQEDDHEDPYAQAMQEIGDLVRRMLGSAATTEPMQTIPELNSPTDPVAPPQDPGTLALLNALGSVLPDAQKAKLETLFTQPSVSERIVSPTSSPNAGLSLAALVKEYEERQIREGAWANPRTRITAKARLEGLCELLGGHRQVETLTRAEFNTLRDHLRSYPKNRHRLRATRNQPLSKIISDGKFEPINPRTAKKFFELARALVTYAHDQGYITENIAAGLAFSTKGAEAPRKRTYSPSQIEKLLHGPAYTLTTPPRWRLDDYKFWLPLLGLFTGARLSELCQLRLEDIRQELGVWLISINRSGSKQLKTSDSERLVPIHRQLIESGFLEFHQARLEAVERDGKAPLFDNIRVYGDLSPGHVASRWFLGSSQISRGYLGLCGLGDDGLTYHGLRHTFINQFRRQNLDLAKAKALVGHSDKSTTGGYGDCYPSDVLKDELDKLDFGLGLGHIHYRHYQELRERQGVFNVGRPVGTPFPSVRVAKRHWKTYA				NA	NA	NA	NA	NA
BMS010_03669	2934	rcsC_15		Sensor histidine kinase RcsC	ATGAGGTCGTTGCCGCGCAATTCGTTGAGGCGCTGGATCTGGCGGGCGTTCGTGCAGAGCGCGCTGATTCCGCTGGTGCTGGTGGAGTCGGTGTTGATCACGGTCTATCTGCTGACCAACGGGGCGATTCGCGATGCCCAGGTGGGGCATTTGCAGCAGAGCGCACTGCAGGATCTGGAAAGCGCCGCCCAGCGCGAGGGGCAGATTATCGACAGCCGCCTGCAGGGCATCGAGGCGCAGGTAAAGATCTATCGCGATGCCACCACCCATGCGCTCCTGGATACACGCTTCCAGCCCGACGATCTGGAGCGGACACGGCATGCGGTGACGTCCACCGGGGTGTTCTACAGCCGCTCCGACGACGGCCGGGCGGCGTCGTTCTACGCCAACAGCACCCCGCTGGAGAAGCAGGATCACGAGAAGGCCCTGCGACTGTCCCAGGCCGATCCGCTGATGCGTTCGATCGACGACGCCAATCCTCTGGTCGCGGCCGTGTATTTCAACACTTGGGATAATTACAACCGCATCTACCCGTTTTTCATGACGCCTGAGCAGTATCCCCATGACATGGTGATACCGGACTACAACTTCTATTACCTCGCCGACGCCCGGCACAATCCCGAGCGCAAGGTGGTCTGGACCGATGTCTACCTGGACCCGGCCGGCCAGGGCTGGATGATGTCGGCCATCGCGCCGGTATACCGCGGCGATTTCCTCGAGGGCGTGGTGGGGCTGGATATCACGGTGGGGCAGATGCTCGCCGAGATCGGTTCGCTGCAGGTGCCCTGGCAGGGCTATGCCATGCTGGTGAGCCGTGACCACAGCATCATGGCGCTGCCCGCGGCCGGCGAGCGGGATTTCGGCCTGCGTGAGCTGACCCAGTATTCCTACGACGAGGCAGTGCGTCGCGAGGTGCTCAAGCCGGAGGATTTCAGCCTGGCTCGCCGCCGCGAGATGCAGCCGTTGTTGCAGGCGATGGCGGCCGATGAGCGGCGGGTTCAGGAGGTGATGCTCGGCGGGCGCAAGCAGATGGTGGCCTGGAGCGAGATTCCGCAGACCGGTTGGCGCCTGCTGTTGGTGGTGGACGAGGCGAATATCTTCCGGGAGACCAATCGACTGGCCGAGCGCTACCAGCAGATCGGCTATCTGTTGATCGCCGGGCTGGTGTTCTTCTACCTGGTGTTTTTCGCCTGGATGTGGGTGCGCTCGCGGCGTTTGAGCAGCGAACTGTCCCGGCCGATCGCCGGTATCGTCGGGATGATGCGCAGCCTCGGGCAGGGCGATTACCGTCCCGCTGCGCCGGAAACCCGCATCGACGAGCTGGCCAGCATGGCGGAGGCCGTCCAGCAGACCGGCGCCCAGCTGGAAGCCAGTGAAGCGGAGCGTTTCCTCGCCCAGCGCAATCTCGAACTGGTGCTGGAAGGCACCACCGAGAGCATCTGGGAGGTGGACGGACAGGGCGAAAGCATCAAGATCAGCGGGCGCTTCGTCGAGCGTTTCGGGCTGCGTAGCAGCGAAATGCCGCTGAGCGAGTTCAACCTGCGGGTGCACCCGGACGATCTGGAGCGCCTGCGTCATCTGCGGCGCAGCTTCGCCGAGAGCGGCGAGGACCATTTCGACGCCGAGTACCGGTATGCCGATGCCCAGGGCAATTACGCCTGGCTGCTCAGCCGGGGCAAGGTGCTGGAACGGGATGCCGAGGGGCGCGCCTTGCGGGTAGCCGGCACCCATGTGGACATCACCCGGCTCAAGCAGGTCCAGGAGGACTTGCGCCATGCCAGCCTGGAGGCGCAAGCCGCCAGCCAGGCGAAGAGCCGCTTCCTGTCCAGCATGAGCCACGAACTGCGCACACCGCTGAACGCCATTCATGGCTTCGGCCAGTTGATCGAACTGGAGTTGCAGAGCAAGCCGGATGTCGAGCAGGAAACCATCTACGCGCGGGAAATCGTCAACGCCAGCCGGCACCTGTCCTCGCTGGTGGACGACATCCTCGATCTGTCCAGCATCGAGAGCCGCCGTCAGCAGTTGCAACTGAAGCCGGTGGAAGTGGGCTCGCTGCTGGCCGGTTGTGTGGAGCTGGTGCAGCCGGAGGCACAGTTGCGCAAGCAGCAGGTGCAGCTCATGGCCTCCGATCAGCCGCTCTACGTGCAGGCCGATGCTCGCCGGCTGCGTCAGGTGATGCTCAATCTCCTGTCCAACGCCATCAAGTACAACGCACCCCAGGGGCTGGTCAGCCTCGGTTACGAGGTGCGGCCCGACTGCGTGCGGTTGTGGGTCGAGGATTGCGGCCCGGGTCTCAGCGAGGAGCAGCAGGCGCAGTTGTTCCAGCCGTTCCAGCGCCTGGGACGGGAGAATTCGAATATTCCGGGAACCGGAATCGGGCTGGTGCTGTGCCGCGAGCTGGCCAGCCTGATGGAGGGCGAGATGGGCTTCAGCAGCTCGCCGGGAGCGGGCAGCCGCTTCTGGATCGATCTACCGGGCGCCGCTGCGCCCAGCCTGGCACCGGAGGCCGATGGCGCACCGGCGGAGCCGGAGCCCTTGCCGTGGGTGCTCTGCGTGGAGGACCACCCGGCCAGCCTGAAGGTGTTGCAGGAGGCCTTGCGCTCCCTGGCCGAGCTGGAAGGCGTGGGCTCGGTGCAGCGGGCCCTGGCGGTGCTGCGCGAGCGTACGCCGGACATGCTCCTGCTCGATCTCGACCTGCCCGACGGCAGCGGCCTGGAGGTGCTGGATGCCATGGCCCAGCAGCCGCGGCTGGTGTCCGTCCCGGTGCTGGTGGTGAGTGCGGTGGTGGATCAGGAACTGTTCGCCGAGGCGCGTCGGCGCGGTGCGCAGGCGTGTATCAGCAAACCGGTGGATCTACAGCAGTTGCGGCGGATTGCCGTCAGTCTGCTGCAGCGCGAGGACAGGCGGACGGCCGGCAGCCTGTCCCGTTGA	MRSLPRNSLRRWIWRAFVQSALIPLVLVESVLITVYLLTNGAIRDAQVGHLQQSALQDLESAAQREGQIIDSRLQGIEAQVKIYRDATTHALLDTRFQPDDLERTRHAVTSTGVFYSRSDDGRAASFYANSTPLEKQDHEKALRLSQADPLMRSIDDANPLVAAVYFNTWDNYNRIYPFFMTPEQYPHDMVIPDYNFYYLADARHNPERKVVWTDVYLDPAGQGWMMSAIAPVYRGDFLEGVVGLDITVGQMLAEIGSLQVPWQGYAMLVSRDHSIMALPAAGERDFGLRELTQYSYDEAVRREVLKPEDFSLARRREMQPLLQAMAADERRVQEVMLGGRKQMVAWSEIPQTGWRLLLVVDEANIFRETNRLAERYQQIGYLLIAGLVFFYLVFFAWMWVRSRRLSSELSRPIAGIVGMMRSLGQGDYRPAAPETRIDELASMAEAVQQTGAQLEASEAERFLAQRNLELVLEGTTESIWEVDGQGESIKISGRFVERFGLRSSEMPLSEFNLRVHPDDLERLRHLRRSFAESGEDHFDAEYRYADAQGNYAWLLSRGKVLERDAEGRALRVAGTHVDITRLKQVQEDLRHASLEAQAASQAKSRFLSSMSHELRTPLNAIHGFGQLIELELQSKPDVEQETIYAREIVNASRHLSSLVDDILDLSSIESRRQQLQLKPVEVGSLLAGCVELVQPEAQLRKQQVQLMASDQPLYVQADARRLRQVMLNLLSNAIKYNAPQGLVSLGYEVRPDCVRLWVEDCGPGLSEEQQAQLFQPFQRLGRENSNIPGTGIGLVLCRELASLMEGEMGFSSSPGAGSRFWIDLPGAAAPSLAPEADGAPAEPEPLPWVLCVEDHPASLKVLQEALRSLAELEGVGSVQRALAVLRERTPDMLLLDLDLPDGSGLEVLDAMAQQPRLVSVPVLVVSAVVDQELFAEARRRGAQACISKPVDLQQLRRIAVSLLQREDRRTAGSLSR				NA	NA	NA	NA	NA
BMS010_03670	246			hypothetical protein	ATGCGCCGCCTGTTCGCTTTCTTCGCTGCCGCCTTGATCTGCACCCCACTCTGGGCCATGCATTGCCCGGCCGACATGGCCAAGATCGACGAAATCCTGAAAACCAGCCCACCCAGCGACCCGGCCACCCTGGCCCAGGTCAAGAAACTCCGCGCCGAGGGCGAAGAGCTGCACAAGGCAGGCAACCATGCCCAGTCCGTGCAAGTCCTCGGTGAAGCCCTGAACCTGTTGGGCGCCAGCAACTGA	MRRLFAFFAAALICTPLWAMHCPADMAKIDEILKTSPPSDPATLAQVKKLRAEGEELHKAGNHAQSVQVLGEALNLLGASN				NA	NA	NA	NA	NA
BMS010_03671	282			hypothetical protein	ATGAAACGCACAATCTTATTGATCACTGCCACTCTGTTGACGGCTCCGGCTTTCGCGGAGGACCTCTGCGCGGTCAATCTGCAGAAACTCGACGACACGATGGCCACCATGACAGCCAGCGACCCGATCAAGGAGAACGTCGAAGAGCACCGCAAGGCTGCCGAGGAAGCGCGCGCCGCTGGCGACCTGGAGACCTGCGCGAGCCATGCCGAGAAAGCTCTGCAGGCGATAACTCGCCAGGGCGAAGGGAATGAAACCAACGGTGGCGGCACTACCCAGTAA	MKRTILLITATLLTAPAFAEDLCAVNLQKLDDTMATMTASDPIKENVEEHRKAAEEARAAGDLETCASHAEKALQAITRQGEGNETNGGGTTQ				NA	NA	NA	NA	NA
BMS010_03672	267			hypothetical protein	ATGCAACCTGCTGCCTTGCTCATCGCAGCCACGCTGCTGGCCAGTCCGGCGGCCTTCGCCATCAGCGATAGCGAAGTGTGCGAAAGCCGGCTGGAGCAACTCGAAGCGGCCATCGAAAGCCTCGATCCCGACGGCGCCCTCGAAGACGTCGTCGAAGATCTCAAGGACCAGGCCGAAGAAGCCCAGGACGACGGTCGCTATGCCGAATGCATCGCCATTGCCGATCGCGCCCTGCAACAGCTGAATGCACCGATGATCAGCCAGTAA	MQPAALLIAATLLASPAAFAISDSEVCESRLEQLEAAIESLDPDGALEDVVEDLKDQAEEAQDDGRYAECIAIADRALQQLNAPMISQ				NA	NA	NA	NA	NA
BMS010_03673	2838			hypothetical protein	ATGACCGCTGCCGTGCCCCCTGCCCGCTCCCCGCTGCCGGCTGCCTTCCTCGCCGACGCCGAGCGTTTGATCCCCCGCGAGCGGCGCTTCGACGATCCACTCTCGACCCTGGCCTTCGGTACCGACGCCAGCTTCTACCGGCTGATCCCCAAGCTGGTGGTGCGTGTCGAGTCCGAGCAGGAAGTCGTGCAACTGCTGCAATCGGCCAGCCGGCACCGTGTACCGGTGACCTTCCGTGCCGCCGGCACCAGCCTTTCCGGCCAGGCGATCAGCGATTCGGTGCTGATCGTCCTCGGCGACAACTGGAACGGTCGCGAAATTCTCCAGCAGGGCGAGCGTATCCGCCTGCAACCGGGCGTCATCGGCGCCCAGGCCAACGCCGTGCTGGCGCCGTTCAAGCGCAAGATCGGCCCCGACCCGGCCTCCATCGCCACCTGCAAGATCGGCGGCATCGTCGCCAACAACGCCAGCGGCATGTGCTGCGGCACCGCACAGAACAGCTACCACACCCTGGCCGGCATGCGCCTGGTGCTGGCCGACGGCAGCGTGCTGGACACCGAGGACGCCGTCAGCGTCGCGGCCTTCCACGCCACCCATGCCGACCTGCTGGCGCAACTGGCCGAGTTGGGCCGGGAGACCCGCGACAACACCGACCTGGCCGCTCGAATCCGTCACAAATACCGGCTGAAGAACACCACCGGCCTGTCGCTCAACGCACTGGTGGATTACGACCAGCCGCTGGACATCCTCTGCCACCTGATGGTCGGCTCCGAAGGCACCCTCGGCTTTATCAGCTCGGTGACCTACGACACGGTGCCGGACCACCCGTACAAGGCCACCGCCTTCATCGTCTTCCCCGACGTGGACAACTGCTGCCGCGCGGTCAGCGTGCTCAAGCGCCAGCCAGTCTCCGCCGTCGAACTGCTCGACCGCCGCAGTCTGCGCTCGGTGCAAGGCAAGCCCGGCATGCCGGACTGGGTGATGGCGCTGTCGGGCAACGCCTGCGCCCTGCTCATCGAAACCCGCGCCGCCAGTGCATCGCTGCTGCAGGAGCAGAAGGCACGGATCATGGAGGCGCTGGCCAGCTTCCCCGTGGAAAAACAGGTCGATTTCACCGAAGACCCGGTGGAGTTCGGCCGCCTGTGGGCGATCCGCAAGGACACCTTCCCCGCTGTCGGCGCCGTGCGCCAGACCGGCACCACCGTCATCATCGAAGACGTGACCTTCCCCATCGAGCAACTGGCCGAGGGCGTCAACCGCCTCATCGGCCTGTTCGAGAAGCACCGTTACGACGAAGCCATCCTGTTCGGCCATGCCCTGGAGGGCAATCTGCACTTCGTCTTCACCCAGGGCTTCGATTCGCCCGAGCAGGTGGCCCGCTACGAAGCCTTCATGCAGGACGTGGCTCAGCTGGTGGCGGTGGAGTTCGGCGGTTCGCTGAAGGCCGAGCATGGCACCGGGCGCAACATGGCGCCGTTCGTCGAGCTGGAATGGGGCAGCGAGGCGTACCGGCTGATGTGGCGGATCAAGCGCCTGCTCGACCCGCTCGGCATCCTCAACCCGGACGTAGTGCTCAGCGAGGACAAGGACATCCACCTGAAGAACCTCAAGCCGCTGCCGGCCGCCGATCCCATCGTCGACAAGTGCATCGAATGCGGCTTCTGCGAGCCGGTCTGTCCCTCGCGCGGCCTGACGCTGACTCCGCGCCAGCGCATCGTCATGTACCGCGATATCCAGGCGAAGAAGCGCCGGGGCGAAGACACCGAAGCGCTGGAGCGCGACTACCACTACCACGGCATCGACACCTGCGCCGCCACCGGCCTCTGCGCCCAGCGCTGCCCAGTGGGCATCAACACCGGCGACCTGGTTCGCAAACTACGCAGCCTGGACGCGGACAACACGCGCACCGCCGACTGGCTGGCCGGGCACTTCGCCACGGCGGTACAAGGCACACGTTTCATGCTCCATGTGGCCAACGGCGCCCGGCTGCTGCTCGGCGCCCCGTTGCTGGCGAAGACCTCGGCGGCGCTGCGCAAGGCCTCCGGCGAGCGCCTGCCGCAGTGGACGCCAGCGATGCCGCAGCCGCTGCAGACCCTGCGCCTACCCAAACCGAGCGGCGACCAGCGTCCCCGCGTCGTCTACCTGGCCGCCTGCGTGTCCCGCGCCATGGGCCCGTCGGCCACCGACGCGGAGCAAGCCCCGCTGATCGACAAGACCCGCGCCCTGCTGGAAAAGGCCGGCTACCAAGTGGTTTTCCCAGATGACCTGAACAACCTCTGCTGCGGCCAACCCTTCGCCTCCAAGGGCTACGCCGATCAGGCCGAGCGCAAGCGTCGGGAAACCCTCGACGCGCTGCTCGAAGCCAGCCGTGGCGGGCTCGACCCGATCTACTGCGACACCAGCCCCTGCACCCTGCGGCTGGTCCAGGAGCTGGCGGACGAGCGTCTGAAGGTCTACGACCCGGTGCGCTTCATCCGCACCTTCCTGCTCGATCGCCTGGAGTTCGAGCCCCAGGAGGCTCCCATCGCGGTCCACGTCACCTGCAGCACCCAACACCTCGGCGAAGGCCCGGCGCTGATCGACATCGCCCGGCGCTGCGCCAAGACAGTGGTGGTCCCGGAAGGCATCCAGTGCTGCGGCTTCGCCGGCGACAAGGGCTTCACCACACCGGAGCTGAACGGCCACGCGCTGCGCAGCCTGAAAGACGCGGTGCAGCACTGCGAAGAAGGCATCTCCACCAGCCGCACCTGCGAGATCGGCCTGAGCCAACATGGCGGCATCGACTATCACGGCCTGGTCTACCTGGTCGACCGGGTGACACGGCCGAAAGCCACCTGA	MTAAVPPARSPLPAAFLADAERLIPRERRFDDPLSTLAFGTDASFYRLIPKLVVRVESEQEVVQLLQSASRHRVPVTFRAAGTSLSGQAISDSVLIVLGDNWNGREILQQGERIRLQPGVIGAQANAVLAPFKRKIGPDPASIATCKIGGIVANNASGMCCGTAQNSYHTLAGMRLVLADGSVLDTEDAVSVAAFHATHADLLAQLAELGRETRDNTDLAARIRHKYRLKNTTGLSLNALVDYDQPLDILCHLMVGSEGTLGFISSVTYDTVPDHPYKATAFIVFPDVDNCCRAVSVLKRQPVSAVELLDRRSLRSVQGKPGMPDWVMALSGNACALLIETRAASASLLQEQKARIMEALASFPVEKQVDFTEDPVEFGRLWAIRKDTFPAVGAVRQTGTTVIIEDVTFPIEQLAEGVNRLIGLFEKHRYDEAILFGHALEGNLHFVFTQGFDSPEQVARYEAFMQDVAQLVAVEFGGSLKAEHGTGRNMAPFVELEWGSEAYRLMWRIKRLLDPLGILNPDVVLSEDKDIHLKNLKPLPAADPIVDKCIECGFCEPVCPSRGLTLTPRQRIVMYRDIQAKKRRGEDTEALERDYHYHGIDTCAATGLCAQRCPVGINTGDLVRKLRSLDADNTRTADWLAGHFATAVQGTRFMLHVANGARLLLGAPLLAKTSAALRKASGERLPQWTPAMPQPLQTLRLPKPSGDQRPRVVYLAACVSRAMGPSATDAEQAPLIDKTRALLEKAGYQVVFPDDLNNLCCGQPFASKGYADQAERKRRETLDALLEASRGGLDPIYCDTSPCTLRLVQELADERLKVYDPVRFIRTFLLDRLEFEPQEAPIAVHVTCSTQHLGEGPALIDIARRCAKTVVVPEGIQCCGFAGDKGFTTPELNGHALRSLKDAVQHCEEGISTSRTCEIGLSQHGGIDYHGLVYLVDRVTRPKAT	PGPT0018110_222	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0018110-dld2-K18930	NA	NA
BMS010_03674	672		COG1556	putative protein	ATGAGCGCCAAAGCCAACATCCTCGCCAAGCTGCGCAATAGCCTGGCCGGCACCACGCCGATCGCCGACGAATTCGACGAAAGCCTGCTGACCCAGCCGTGGACCTACGCGCCGGAGCAACGCATCGCCCGCCTGCGCCAGTTGATGGAAGCCGTGCACACGGAAATCCACCTGACCTCCGCTGCCGGCTGGCCGGCCCTGCTGGAGCAACTGCTGCACGACCGCCAGTTGCCCAGCCTGCTGATGGCGCCGAATACCCCCCACGGCCAGCAACTGCTCGCCCACTGGGCCGGACGCGAAGACCTGCCCCGCCTGAAGGCCTATGACCGCCCCATCGCGGAATGGAAAGCCGAGCTGTTCGACGACACGCCCGCCAGCCTCACCGGCACCCTGGGCGCCATTGCCGCCACCGGCAGCCTGATCCTCTGGCCGACCCGCGAAGAGCCGCGCCTGATGAGCCTGGTGCCGCCGGTGCATTTCGCCCTGCTCAAAGCCAGCGAAATCCACGACAACTTCTACGAGGTGCAGCGCAAGCAGCGCTGGGCCGAGGGCATGCCGACCAACGCCCTGCTGGTCTCGGGGCCGTCGAAGACCGCCGACATCGAGCAGGTCCTGGCCTACGGTGCCCACGGCCCGAAAGATCTGGTGGTGCTGATCCTGGAGGACGCATGA	MSAKANILAKLRNSLAGTTPIADEFDESLLTQPWTYAPEQRIARLRQLMEAVHTEIHLTSAAGWPALLEQLLHDRQLPSLLMAPNTPHGQQLLAHWAGREDLPRLKAYDRPIAEWKAELFDDTPASLTGTLGAIAATGSLILWPTREEPRLMSLVPPVHFALLKASEIHDNFYEVQRKQRWAEGMPTNALLVSGPSKTADIEQVLAYGAHGPKDLVVLILEDA	PGPT0018100_850	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0018100-lldG|ykgG|lutC-K00782	NA	NA
BMS010_03675	1461	lutB	COG1139	Lactate utilization protein B	GTGAACGACCTGTCGCGCATCCCAACCCTGCAGGTCCAGGACGATTTCAAGACCAGGGCGTACAAGGCGTTGGGCGACGATCAACTGCGGCGGAATTTCCGCACCGCGATGGACTCGCTGATGACCAAGCGGGCCACCGCCTTCAGCGACGCAGACGAACGCGAACGGCTACGCGCCATGGGCAACCGGGTCCGCGCCCGGGCGCTGTCGAAGTTGCCCGAACTGCTGGAACGACTGGAAACCAACCTGACCCGCAACGGTGTGACCGTGCACTGGGCGGAAACGGTGGACGAGGCGAACGCCATCGTCCTCTCGATCATCCGCGCTCACGAGGCGCGGCAAGTGATCAAGGGCAAATCGATGGTCAGCGAAGAGATGGAAATGAACCATGTCCTCGCGGCCCAGGGCATCGAATGCCTGGAGTCGGACATGGGCGAATATATCGTCCAGCTCGACCACGAGAAGCCTTCCCATATCATCATGCCGGCTATCCACAAGAACGCCGGTCAGGTCGCGTCCTTGTTCCACGACAAACTCGGCGTGGAGTACACCAAGGACGTCGACCAGCTTATCCAGATCGGCCGCCGCACCCTGCGGCAGAAATTCTTCGAAGCGGACATCGGCGTCTCCGGGGTCAACTTCGCGGTGGCGGAAACCGGCACCCTGCTGCTGGTGGAAAACGAAGGCAACGGCCGCATGTCCACCACGGTGCCGCCAGTGCACATCGCCGTCACCGGCATCGAGAAGGTGGTGGAAAACCTGCGCGACGTGGTCCCGCTGCTCTCCCTGCTGACCCGCTCGGCACTGGGCCAGCCGATCACCACCTACGTCAACATGATCTCCGGGCCGCGCAAGGCGCACGAGCTGGACGGCCCCGAGGAAGTCCACCTGGTGCTGCTGGACAACGGCCGCAGCCAGGCCTTCGCCGACGGCGAGCTGCGCCAGACGCTGAACTGCATCCGCTGCGGCGCCTGCATGAACCACTGTCCGGTGTACACCCGCGTCGGCGGCCATACCTACGGCGAGGTCTACCCCGGCCCCATCGGCAAGATCATCACCCCGCACATGGTCGGCCTGGACAAGGTACCGGACCACCCCAGCGCCTCCTCGCTGTGCGGCGCCTGCGGGGAAGTCTGTCCGGTGAAGATTCCGATTCCGTCGATCCTGCGGCGCCTGCGCGAGGAAAACATCAAGGCGCCGGACGATCCGCACCCCATCATGCGCGGCCAGGGCAGCAAGTATTCGCCTCGCGAACGCCTGTTGTGGAAAGGCTGGCGCCTGCTCAACACCTCGCCGGCGCTGTATCGCACGTTCAGCTTCTTCGCCACTCGCCTGCGCGGCCTGGCGCCCTCCAACATCGGGCCCTGGACACAGAATCACAGCGCACCGAAACCGGCCGCCCGCTCGCTGCATGAGCTGGCCCGCGAGCACCTGGGTGAAACACAGGGGGACCGTCCATGA	MNDLSRIPTLQVQDDFKTRAYKALGDDQLRRNFRTAMDSLMTKRATAFSDADERERLRAMGNRVRARALSKLPELLERLETNLTRNGVTVHWAETVDEANAIVLSIIRAHEARQVIKGKSMVSEEMEMNHVLAAQGIECLESDMGEYIVQLDHEKPSHIIMPAIHKNAGQVASLFHDKLGVEYTKDVDQLIQIGRRTLRQKFFEADIGVSGVNFAVAETGTLLLVENEGNGRMSTTVPPVHIAVTGIEKVVENLRDVVPLLSLLTRSALGQPITTYVNMISGPRKAHELDGPEEVHLVLLDNGRSQAFADGELRQTLNCIRCGACMNHCPVYTRVGGHTYGEVYPGPIGKIITPHMVGLDKVPDHPSASSLCGACGEVCPVKIPIPSILRRLREENIKAPDDPHPIMRGQGSKYSPRERLLWKGWRLLNTSPALYRTFSFFATRLRGLAPSNIGPWTQNHSAPKPAARSLHELAREHLGETQGDRP	PGPT0018095_525	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0018095-lldF|ykgF|lutB-K18929	NA	NA
BMS010_03676	825	lutA_2	COG0247	Lactate utilization protein A	ATGAGCGAGCTGTTCTACAACGCCGCGCCGAACGCCACCCGCGTCGCGCCGCCCCTGCCCGAACCCCGTCGCTATCCGACGCAGAAACCCGCGCAGGTCTACCTGTTCGGGACCTGCGTGATCGACCTGTTCTTCCCCGACGCCGGCCTGGATGCGATTCGCCTGCTGCAGCGCGAAGGCATCCGCGTCAGCTTTCCCCAGGGGCAGAGCTGCTGTGGCCAGCCGGCCTACACCTCCGGCTACACCGAGGAAGCGCGGGAAGTGGCGCGGGCCCAGTTGAAGCTGTTCGCCGAGGATTGGCCGCTGGTGGTGCCCTCCGGTTCCTGCGCCGGCATGATCCGTCACCATTACGCCGAGCTGTTCAAGGACGAGCCGGAAACCCTCGCCAAGGTTCAGGCACTGGCCGAACGCACCTACGAACTGGCCGAGTTCTTCCTGCATGTCTGCCGCATCGAACTCCACGACCGCGGCCCAGCAGTGAAGGTGGCGCTGCACACGTCATGCAGTGCGCGCCGGGAGATGGACACACACCTGCACGGCCGCGCCCTGCTCGCCCAATTGAGCCAGGTGGAACGCGTCGAGCATGACCACGAAAGCGAATGCTGCGGCTTCGGCGGCACCTTCAGCGTGCGCATGCCGGACATTTCCGGCGCCATGGTGCTGGACAAGACCCGCGCCCTGAAAGGCTCCGGTGCCCATCAGGTGGTCAGCGCCGACTGCGGTTGCCTGATGAATATCAACGGCGCCCTGGAGAAGCAGAACGAAGCGCTGCGCGGCCAGCACCTGGCCAGTTTCCTCTGGCAACGCACCGGAGGTGTGTCGTGA	MSELFYNAAPNATRVAPPLPEPRRYPTQKPAQVYLFGTCVIDLFFPDAGLDAIRLLQREGIRVSFPQGQSCCGQPAYTSGYTEEAREVARAQLKLFAEDWPLVVPSGSCAGMIRHHYAELFKDEPETLAKVQALAERTYELAEFFLHVCRIELHDRGPAVKVALHTSCSARREMDTHLHGRALLAQLSQVERVEHDHESECCGFGGTFSVRMPDISGAMVLDKTRALKGSGAHQVVSADCGCLMNINGALEKQNEALRGQHLASFLWQRTGGVS	PGPT0018090_118	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0018090-lldE|ykgE|lutA-K18928	NA	NA
BMS010_03677	1695	lutP_1	COG1620	L-lactate permease	ATGCATTCCGGCCTGCTCGCCCTATTCGCCTTTTCGCCCATCCTGCTCGCCGCCGTCCTGCTGATCGGCCTGCGTTGGCCCGCCCGGCGCGCCATGCCGCTGGTCTACCTGCTTACCGCCGGCATCGCGCTGTACGTGTGGGACATGAGTTTCAACCGGGTTCTCGCCTCCACCGTACAGGGACTGGTGATCACCCTCGGCGTTCTCTGGATCATCTTCGGCGCCATCCTGCTGCTGAATACCCTCAAGCATTCCGGCGGCATCACCGCGATCCGCGCCGGTTTCGCCACCATCAGCCCGGACCGCCGCGTCCAGGCGATCATCATCGCCTGGCTGTTCGGTTGCTTCATCGAAGGCGCATCCGGCTTCGGCACTCCGGCCGCAATCGCCGCGCCGCTGCTGGTCGCCATCGGCTTCCCGGCACTGGCCGCCGTACTGCTCGGCATGCTGGTGCAGAGCACGCCGGTCTCCTTCGGTGCGGTCGGCACGCCAATCATCATTGGCATCAACAGTGGCCTGGACACCGCGACCCTCAGCTCGCAGCTCACTGCGCAGGGCTCCAGCTGGGATATCTTCCTGCAGCAGATCACCAGCAACGTGGCGATCATCCATGCCATCGTCGGAACCGTGATGCCGTTGATCATGGTGCTGATGCTGACCCGCTTCTTCGGCAAGGAAAAAAGCTGGAAAGCCGGTTTCGAGATCCTGCCGTTCGCCCTGTTCGCCGGCCTGGCGTTCACCCTGCCCTACGTCGCCACCGGCGTGTTCCTCGGCCCGGAGTTCCCATCCCTGCTGGGCGGCCTGGTAGGTCTGGCCATCGTCACCACCGCCGCGCATTTCGGCTTCCTAGTGCCGAAGAACACCTGGGATTTCGCACCGGCCCATGAGTGGCCGAGCGAGTGGCTGGGCAGCATCGAGATGAAGCTGGACGAATTGACCGCCAAGCCCATCGGCACCCTGCGCGCCTGGCTGCCCTACGTGCTGGTCGGCGCCCTGCTGGTCATCAGCCGCGTGTTCCCGGAAGTAGGCGCCGCACTGAAATCGGTGATCGTGGTGTTCCCGGACATCCTCGGCGAAACCGGCATCAAGGCCGACTTCATGCCGCTCTACCTGCCGGGCGGCATCCTCGTCGCGGTGGTCCTCGCCACCTTCTTCCTGCATGGCATGAAGGTTCGCGAACTGGGCGCGGCGGTCGGCGAATCGACCAAGGTCCTGCTGGGCGCCGGATTCGTGCTGCTGTTCACCGTGCCGATGGTGCGCATCCTGATCAACTCCGGAGTTAACGCCGCCGACCTGCCGAGCATGCCCATCGCCATGGCGCGCTACGTGGCCGACAGCGTCGGCTCGGTGTATCCGCTGCTGGCGCCGAGCGTCGGTGCGCTGGGTGCCTTCATCGCCGGCTCGAACACCGTGAGCAACATGATGCTCAGCCAGTTCCAGTACGGCGTGGCGCATAGCCTGGGCATCTCCGGCGCGTTGATCGTCGCTGTGCAGGCCATCGGTGCCGCCGCCGGCAACATGGTCGCCATCCACAACGTGGTGGCCGCTTCCGCGACGGTCGGCCTGCTCGGCCGCGAAGGGACTACCCTGCGTAAGACGGTATGGCCGACGCTGTACTATGTGTTTTTCACCGGCCTGGTTGCTCTGATCGCGATCTATGTGCTGGGCGTGACCGACCCGCTGGTCGGCCACTGA	MHSGLLALFAFSPILLAAVLLIGLRWPARRAMPLVYLLTAGIALYVWDMSFNRVLASTVQGLVITLGVLWIIFGAILLLNTLKHSGGITAIRAGFATISPDRRVQAIIIAWLFGCFIEGASGFGTPAAIAAPLLVAIGFPALAAVLLGMLVQSTPVSFGAVGTPIIIGINSGLDTATLSSQLTAQGSSWDIFLQQITSNVAIIHAIVGTVMPLIMVLMLTRFFGKEKSWKAGFEILPFALFAGLAFTLPYVATGVFLGPEFPSLLGGLVGLAIVTTAAHFGFLVPKNTWDFAPAHEWPSEWLGSIEMKLDELTAKPIGTLRAWLPYVLVGALLVISRVFPEVGAALKSVIVVFPDILGETGIKADFMPLYLPGGILVAVVLATFFLHGMKVRELGAAVGESTKVLLGAGFVLLFTVPMVRILINSGVNAADLPSMPIAMARYVADSVGSVYPLLAPSVGALGAFIAGSNTVSNMMLSQFQYGVAHSLGISGALIVAVQAIGAAAGNMVAIHNVVAASATVGLLGREGTTLRKTVWPTLYYVFFTGLVALIAIYVLGVTDPLVGH	PGPT0001800_520	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_LACTATE_TRANSPORT,PGPT0001800-lctP-K03303	NA	NA
BMS010_03678	783	pdhR_1	COG2186	Pyruvate dehydrogenase complex repressor	ATGGAAGTCGGACAGGTTCGCCAGCGCCGTCTATCGGATGACATCGTCGCGCAGCTGGAAACCATGATCCTCGAGGGCACGCTCAAGGCCGGCGAACGCCTGCCAGCGGAGCGGGTGCTGGCCGAGCAGTTCGGCGTGTCGCGCCCGTCGCTGCGCGAGGCCATCCAGAAGCTCGCCGCCAAGGGGCTGCTGGTCAGCCGGCAGGGTGGCGGCACCTATGTCGCCGAGTCGCTCGGCTCGACGTTCAGTGATCCGTTACTGCACTTGCTGGAGAACAACCCGGAAGCCCAGCGCGATCTTCTCGAGTTCCGCCACACGCTGGAAGGTTCGTGCGCCTACTATGCGGCGTTGCGTGCTACCGAGCTGGATCACCAGCGGCTGCGCGAGGCGTTCGAGGCGTTGCAGGATTGTTATGACCGCCACGGCAAAGTCAGCCGGGCCGAGGAAGGCGCCGCCGATGCGCGCTTCCACCTGGCGATCGCCGAAGCCAGCCATAACGCGGTGCTGCTGCACACCATCCGAGGCTTGTTCGATCTGCTGCGGCGCAACGTGGTGACCAACATCGGTGGCATGTATGCCCAGCGCAGCGAAACCCGCGACATGCTGATGAGTCAGCATCGCGAGCTGTACCAGGCGGTCATCGAAAGGCGGGCGGAAGATGCCCGGGCAGTTTCCAACCGGCACATTCACTACGTGCAGGAAGTGCTGGCAGAAGTACGGGAGGAGGCCCAGCGGGTGGCCCGGGCCCAACGCAGGGCTGAATTGGGAGCGGGCAAGTCCTGA	MEVGQVRQRRLSDDIVAQLETMILEGTLKAGERLPAERVLAEQFGVSRPSLREAIQKLAAKGLLVSRQGGGTYVAESLGSTFSDPLLHLLENNPEAQRDLLEFRHTLEGSCAYYAALRATELDHQRLREAFEALQDCYDRHGKVSRAEEGAADARFHLAIAEASHNAVLLHTIRGLFDLLRRNVVTNIGGMYAQRSETRDMLMSQHRELYQAVIERRAEDARAVSNRHIHYVQEVLAEVREEAQRVARAQRRAELGAGKS	PGPT0001805_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_LACTATE_TRANSPORT,PGPT0001805-ldlP|lctP-K00427	NA	NA
BMS010_03679	510	smpB_2	COG0691	SsrA-binding protein	GTGGCGACTGCCTATAATGCGCGCCCTATGGCTAAACAAAAGAAACATCCGCAGGGCACCATCGCGCTGAACAAAAAGGCGCTGCATGACTATTTCATCGAACAGAAGTTCGAGGCCGGTCTCGCCCTGGCCGGCTGGGAAGTCAAGAGCCTACGCGCCGGCAAGGCGCAACTGGTGGACAGCTACGTGCTGCTCAAGGACGGCGAAGCCTGGCTGCTCGGCAGCCACATCACGCCGCTGAAGACCGCCAGCACCCACGTCATCGCCGACCCGACCCGCACACGCAAGTTGCTGCTGCACAAGCGCGAACTGGGCAAACTGTTCGGTGCCGTGCAGCAAAAAGGCTATGCCTGCGTCGCATTGTCGCTGTACTGGAAAAAGCACCTGATCAAGTGCGAAATCGCCCTGGTCAAGGGCAAGAAAGAGTTCGATAAGCGCGCCACCGAGAAAGAGCGGGATTCCGACCGCGAAATCCAGCGCGCCATGCGGACCAAGGGCAAGGACGAATAG	MATAYNARPMAKQKKHPQGTIALNKKALHDYFIEQKFEAGLALAGWEVKSLRAGKAQLVDSYVLLKDGEAWLLGSHITPLKTASTHVIADPTRTRKLLLHKRELGKLFGAVQQKGYACVALSLYWKKHLIKCEIALVKGKKEFDKRATEKERDSDREIQRAMRTKGKDE	PGPT0014355_1650	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-RatA-RatB|YfjG-YfjF|RatAB-SsrAS_SYSTEM,PGPT0014355-smpB-K03664	NA	NA
BMS010_03680	1404			hypothetical protein	ATGGCGAACGACAAGGTTTCCATCCATGGCTCATGGGCCAGCCGCTGGGTCTTCATCCTGGCGGCCACTGGATCGGCAGTAGGCCTGGGCAATATCTGGAAGTTCCCTTACATGACCGGCGTCTACGGCGGCGGAGCTTTCGTCATGATGTACCTGGTGTGCATCGCGCTGGTCGGCATGCCGATCATGCTGGCGGAAACCCTGATCGGCCGGCGCGGGCGGCAGAGTCCGGTGAACTCGCTGAAGAGCCTGGCGCTCGACTCCTGCGCCTCGCCACGCTGGTCCTGGGCTGCGCTGATGGGGATGGTCGGTGCCCTGCTGATTCTTTCCTTCTATAGCGTGGTGGCCGGTTGGTCGCTGGATTACATCGTCGGCATGGGGCGCGGGCAGTTCAACGGCATCAGCGCCGAGAACGCCGGCGCCGGTTTCGGCGGCCTGATCGGCGATCCCTGGCGCCTGACCCTCTGGCACACCCTGTTCATGGTGCTGACGGGCTTCGTCATCGCGCGTGGAGTGGTGGCGGGTCTGGAGCGTAGTCTGCGCGTGATGATGCCGTTGCTGTTCGTGCTATTGCTGATTCTCCTGGGCTACAGCTTCACCACCGGCCATTTCATGGAGGGGTTCCACTTCCTGTTCAGCTTCCAGCCGGAAAAAGTGCTGGACGGTGTACTCGCCGCCATGGGCCATGCCTTCTTCACGCTCAGCGTGGGGGTGGGCTCGATCATGGTGTACGGCTCCTACATGCCGAAGAAGGCATCCATCGGCGCCACCGTGCTGACGGTCGGTATTCTCGATACGCTGGTGGCGCTCACCGCGGGGCTGGCGCTGTTCCCGATCGTCTTCGCCGGCGGCATGGAGCCGGGTGCCGGGCCGGGGCTGATGTTCATCACCCTGCCGGTGGCCTTCGGCAACATCGCGTTCGGCCAAGTCATGGGGACGGTGTTCTTCATCCTGGTCATGGTCGCGGCCTGGACGTCGTCGATTTCCATGCTCGAGCCGGCGGTAGCCTACCTGGTGGAACGCACCGGGCGGAGCCGGACGCTGATCACGTCTATCCTGGCGCTGTTGTGCTGGCTGGTGGGCATGGGGACGGTGTTCTCCTTCAACATCTGGAGCGAGGCCAAGTTCTTCGTTTTTGCCGCGGACGGCTTCCATCTGTTCCAATGGGGCGCCGAGGGCGGGAAGAATTTCTTTGACAGCATCGACTACCTGACCAGTCGTATCCTGCTGCCGCTGGGCGGCCTCTCCTTCGTGCTCTTCGCCGGCTGGGTGCTTGGACGCGATGCGGTTCGCGAGGAATTGGCGTTCCGGAGTCCCGTGCTGTTCTCGCTGGTCTACTGGTTGATGCGGGTGGTGGCGCCCATCGGTGTGCTGGTGGTGTTTGTCGCCGAACTGACGAAGTAA	MANDKVSIHGSWASRWVFILAATGSAVGLGNIWKFPYMTGVYGGGAFVMMYLVCIALVGMPIMLAETLIGRRGRQSPVNSLKSLALDSCASPRWSWAALMGMVGALLILSFYSVVAGWSLDYIVGMGRGQFNGISAENAGAGFGGLIGDPWRLTLWHTLFMVLTGFVIARGVVAGLERSLRVMMPLLFVLLLILLGYSFTTGHFMEGFHFLFSFQPEKVLDGVLAAMGHAFFTLSVGVGSIMVYGSYMPKKASIGATVLTVGILDTLVALTAGLALFPIVFAGGMEPGAGPGLMFITLPVAFGNIAFGQVMGTVFFILVMVAAWTSSISMLEPAVAYLVERTGRSRTLITSILALLCWLVGMGTVFSFNIWSEAKFFVFAADGFHLFQWGAEGGKNFFDSIDYLTSRILLPLGGLSFVLFAGWVLGRDAVREELAFRSPVLFSLVYWLMRVVAPIGVLVVFVAELTK	PGPT0013950_1210	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013950-TC_NSS-K03308	NA	NA
BMS010_03681	435	ratA	COG2867	Ribosome association toxin RatA	ATGACGACGCATATCCAACGTTCCGCGCTTCTGCCGTATCCGGCCAGGGCGCTCTATGATCTGGTCAACGACGTGGCGAGCTATCCGGCGTTCCTGCCTTGGTGCTCGGCCAGCGAGGTGCTGGAATCCAGCGAGACGGAAATGCGTGCGAGCCTGACGGTGGCCAAGGGCGGCCTGAGTCAGTACTTCGTCACCCGCAATATCCTGGAACCGGGGCAATCCATCGTGATGAACCTGGAAAACGGTCCGTTTTCCCATTTGCACGGTGTCTGGCACTTCAAGGCGTTGACCGAGAAAGCCTGCAAGATCAGCCTGGATCTCTCCTTCGATTACGCCGGGCCGCTGGTCAAGGCCACCCTTGGGCCGCTGTTCAACCAGGCCGCCAATACCCTTGTGGATGCCTTCTGCCAGAGAGCGAAACAACTCTATGGATAA	MTTHIQRSALLPYPARALYDLVNDVASYPAFLPWCSASEVLESSETEMRASLTVAKGGLSQYFVTRNILEPGQSIVMNLENGPFSHLHGVWHFKALTEKACKISLDLSFDYAGPLVKATLGPLFNQAANTLVDAFCQRAKQLYG	PGPT0027444_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-RatA-RatB|YfjG-YfjF|RatAB-SsrAS_SYSTEM,PGPT0027444-toxin_ratA|yfjG-na	NA	NA
BMS010_03682	321			hypothetical protein	ATGGATAATCGGAGCATTGCCGTCGAAGTGGTCTATGCCCTGGCGGACAAACAGAAACTGTTGCGTCTCACCGTGCCTTACGGCACCACGGTCCGCGAAGCGGCGCTGCGCTCGGGGCTGGATGCGCATTTCCCCGGTCTGGACCTGGCCAGCAGTCCGCTGGGTATTTTCGGCAAGGCCGTGGCCAAGCCGGAGGATCGCGTGCTGGAGGAGGGGGAGCGGGTCGAGATCTATCGTCCGCTGATTGCCGACCCGAAGGAGGTGCGCAAGCAGCGCGCGGCCAAGGCGGCGAAGGCGAAGCAGGAAGAAGGCGGCGAGTGA	MDNRSIAVEVVYALADKQKLLRLTVPYGTTVREAALRSGLDAHFPGLDLASSPLGIFGKAVAKPEDRVLEEGERVEIYRPLIADPKEVRKQRAAKAAKAKQEEGGE	PGPT0027445_558	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-RatA-RatB|YfjG-YfjF|RatAB-SsrAS_SYSTEM,PGPT0027445-antitoxin_ratB|yfjF|pasI-K09801	NA	NA
BMS010_03683	1077	ugpC_5	COG3839	sn-glycerol-3-phosphate import ATP-binding protein UgpC	ATGGCTTCCATCGAGCTGAAGAATGTCGGCAAGACCTATGGCGACCTCGCCGTGCTGCATGGCGTCGATCTTGATATCAGGGATAGCGAATTCATCGTCCTTGTCGGTCCATCCGGCTGCGGAAAATCGACGCTGCTGCGCATGATCGCCGGCCTTGAAGAGATAACGTCCGGCGACCTGTCCATCGACGGTGAACGTGTCAATGATCGCCGGCCTAAGGATCGGGATATTGCCATGGTCTTCCAGTCCTATGCGCTCTATCCGCATATGAGCGTTGCCGACAATATGAGCTATAGCCTGCGCCTGCGCCGCAGCCCGAAGGAAACCATCGCGGCGGCGGTGGCCGGTGCTTCGGCAAAACTCGGCCTCGATCCCTATCTCGCCCGCCGCCCGAAGGCGCTCTCCGGCGGCCAGCGTCAGCGCGTCGCCATGGGCCGCGCTATCGTGCGCCAGCCAAAGGCCTTCCTGTTCGATGAACCTCTGTCCAACCTCGATGCCCGGCTGCGCGAGCAGATGCGTGCCGAAATCAAACGCATGCATGCCGATCTTGGTGCCACCTCGGTCTACGTCACCCACGACCAGATCGAGGCGATGACGCTTGCCTCACGTATCGTCGCCATGAATGCCGGTCATGTACAGCAGATTGGCGCGCCGCTCGATCTCTATGATCGCCCCGCCAATCTTTTCGTCGCTGGCTTCATCGGTTCGCCCGGCATGAATTTCCTCGAAGGACGGCTCGTGCAGGAGAATGGCGGCAGTTTCGTCGTGCTGGGTGACGGCACGCGTCTGGCGCTTGGCCGCGATGTGAAGCTGGCCGATGGCGAACCGGTCACGCTCGGTATCCGCCCGGAACATGTGACCGTCGCGCCGGTTGAAGGCGGTGTGGAAGCGACGGTCGATCTGGTCGAGCCGACCGGCCTCGGCGTTATCCTGCACCTCACCGTGCATGGATTGCCGTTCAAGCTGTTTTCTTCAGACCGGGCATTGTTGCAGCCGGGCAAGTCCCTGCGGGTCGATTTCCCGCAGGAAAAGCTGCATGTCTTCGACAGGAATGGCGTCAGAATAGGAGAGGCGTGA	MASIELKNVGKTYGDLAVLHGVDLDIRDSEFIVLVGPSGCGKSTLLRMIAGLEEITSGDLSIDGERVNDRRPKDRDIAMVFQSYALYPHMSVADNMSYSLRLRRSPKETIAAAVAGASAKLGLDPYLARRPKALSGGQRQRVAMGRAIVRQPKAFLFDEPLSNLDARLREQMRAEIKRMHADLGATSVYVTHDQIEAMTLASRIVAMNAGHVQQIGAPLDLYDRPANLFVAGFIGSPGMNFLEGRLVQENGGSFVVLGDGTRLALGRDVKLADGEPVTLGIRPEHVTVAPVEGGVEATVDLVEPTGLGVILHLTVHGLPFKLFSSDRALLQPGKSLRVDFPQEKLHVFDRNGVRIGEA	PGPT0016310_5027	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0016310-msmX|msmK|malK|sugC|ggtA|msiK-K10112	NA	NA
BMS010_03684	831	dasC_4	COG0395	Diacetylchitobiose uptake system permease protein DasC	ATGACATCAAGGATATTTCTCACCCTTGCCCATCGTCTGGCGATCCTTGCCTATATCGCCTTTGCGCTGTTCCCACTCTTCTGGCTGCTCAAGGTGTCCGTGACGCCGAATGACCTGCTCTATAGCGAAGGTGTCAGGATGTGGCCGTCGCGGGCGACCTGGGATCATTATCGTTTCGTTATAGAAAACAGTGCCTTCCCGACGTTTTTTAAGAACAGCGTCATCGTCGCGGGCTCCACGGCAATTGCCGTAACGATACTCTCCTCGCTGTCGGGTTACGCGCTGTCACGCTTCCGTTTCAAGGGCAAATACTGGATCGTGGCGCTCATGCTGATCACCCAGATGTTTCCGCTGGTCATGCTGGTCGCGCCGATCTTCAAGATGCTGTCGCCCCTCGGCCTCACCAACAGCCTGACGGGCCTCGTCATCGTCTATACAGCCTTCAACGTGCCCTTCGCCACCTTCCTGATGCAGTCGTTCTTCGATGGCATTCCGAAGGACCTGGAAGAGGCGGCGATGATCGACGGGGCAAGCCGGTTTACGGCCTTCCGCCAGATCATCCTGCCGCTGACGCTTCCGGGCATTGCCGCGACGCTCGGTTTCGTCTTCACCGCCGCGTGGAGCGAGCTTCTGTTTGCGCTGATGCTGATTTCCGGCAACCAGAGCGCCACTTTCCCGGTTGGCCTTCTGACCTTCGTTTCGAAATTCTCCGTCGATTTCGGGCAGATGATGGCGGCGGGCGTTCTGGCGCTCATTCCGGCCTGCCTCTTCTTCCTGCTCATTCAACGTTATCTCGTGCAGGGCCTCACGGCCGGCGCGGTGAAAGGATAA	MTSRIFLTLAHRLAILAYIAFALFPLFWLLKVSVTPNDLLYSEGVRMWPSRATWDHYRFVIENSAFPTFFKNSVIVAGSTAIAVTILSSLSGYALSRFRFKGKYWIVALMLITQMFPLVMLVAPIFKMLSPLGLTNSLTGLVIVYTAFNVPFATFLMQSFFDGIPKDLEEAAMIDGASRFTAFRQIILPLTLPGIAATLGFVFTAAWSELLFALMLISGNQSATFPVGLLTFVSKFSVDFGQMMAAGVLALIPACLFFLLIQRYLVQGLTAGAVKG	PGPT0016540_7472	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
BMS010_03685	945	melD_3	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	ATGTCCTATGCCCATGGCGCCGGGCCGGTGGCTGCGCGCAAACCGGCTGGCAAGCCCGCGATGCGGCGGTTTGCCGATTGGGCCGAACCGTGGCTTTACAGCGCGCCCGTGCTGGTGCTCATCGTCGCCGTTATGCTGGTGCCGCTGGTGCTTGGCCTCTCCTATGCCTTTCGCGATGTGCAGCTGCTCAATCCATTTTCCGGGGGTTTCGTTGGCCTCAAACATCTGGAGGCGCTGTCGCAGGATGCGGCCTTTTACCGGGCGCTGAAAAACACGCTGTGGTGGACAGGCGCTTCGGTTTTCCTGCAATTCTTCTTCGGCCTCATTCTGGCGCTGCTGCTCGATAAACCCTTTGCGGGCAGGGGGCTGGCGCAGGCGCTGGTATTCCTGCCATGGGCCGTGCCCACCTTCCTTGCCGGTCTCAACTGGGCGTGGCTGTTCAATCCGGTCATCGGGCCGCTACCGCACTGGATGGTCTCGCTCGGGCTGTTATCCGCGCCTAACAATATCCTCGCCGATCCGCAGCTTGCCATGTGGGGGCCGATCATCGCCAATGTCTGGTGGGGCATTCCCTTCTTCGCCATCACTTTGCTTGCGGCACTTCAGGCCATCCCGCGCGATCTTTATGAGGCGGCGGAAATTGACGGGGCAAACCCGCTGCAGCGCTTCACCTCCATCACCCTGCCGTTTCTGGCGCCCACCATCGCCATCACCATCCTGTTGCGCACCGTCTGGATCGCCAATTTTGCCGATCTCATCATCGTCATGACCAATGGCGGGCCGGCCGACCGCACGCAGATCGTCGCCAGCTACATCTTCACCCAGGCCTTCAGGCGGCTGGATTTCGGTTATGCCTCGGCCATCGCGCTGGTGCTGCTGGTGCTGCTGCTTGCCTATTCCATGCTGATCGTGCTGCTGCGCCAGCGCCTGATCGAGAAGGACTGA	MSYAHGAGPVAARKPAGKPAMRRFADWAEPWLYSAPVLVLIVAVMLVPLVLGLSYAFRDVQLLNPFSGGFVGLKHLEALSQDAAFYRALKNTLWWTGASVFLQFFFGLILALLLDKPFAGRGLAQALVFLPWAVPTFLAGLNWAWLFNPVIGPLPHWMVSLGLLSAPNNILADPQLAMWGPIIANVWWGIPFFAITLLAALQAIPRDLYEAAEIDGANPLQRFTSITLPFLAPTIAITILLRTVWIANFADLIIVMTNGGPADRTQIVASYIFTQAFRRLDFGYASAIALVLLVLLLAYSMLIVLLRQRLIEKD	PGPT0016535_3126	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
BMS010_03686	1260			hypothetical protein	ATGAAAAAACTGGTAACAGCAGCAATCTTCACCGCCCTGATGACCGGAACGGCGCTGGCGGACACGACCTTGAAGCTGGTGGAAGTTATCACCAGCCCGGAACGCACCGAAACGCTGAAAGGCATCGTTTCGAAATTCGAAGCGGCCAATCCCGGCACCAAGGTTGAAATCATCTCGCTTCCATGGAGCGAGGCTTTCCAGAAATTCGCCACCATGGTCTCTGCGGGCGATATTCCCGATGTGATGGAAATGCCTGATACCTGGCTGTCGCTCTACGCCAATAACGGCATGCTCGAAAGCCTTGAGCCCTACCTCGCCAAATGGGAACACACGGCAGGGCTCAGCGAGCGCACGCTCGAACTCGGTCGCGACGTAAAGAACACGGCCTATATGCTGCCCTACGGCTTCTATCTCCGCGCCATGTTCTACAATAAGAAACTGCTGGAACAGGCTGGCGTGAAGGAGCCGCCGAAGACGCTTGATGAATTCGCCGACGCCTCGAAGAAGGTCGCGGCCCTTCCCGGCAAATATGGCTATTGCCTGCGCGGCGGCCCGGGCGGCCTCAACGGCTGGGTCATGTTCGGCGCCTCCATGGCCGGCTCGAACGAGTTCTTCACCAAGGACGGCACCTCCACCTTCGACAGCCCCGGATGGGTGAAGGGCCTGACCTATGTGATCGATCTCTACAAGAACGGTTATGCGCCGAAGGACAGCGTCAACTGGGGCTTCAACGAAATCGTTGCCGGCTTCTATTCCGGCACCTGCGCTTTCCTCGATCAGGACCCGGATGCCCTTATCGCCATTGCCCAGCGCATGAAGCCGGAAGATTTCGGCGTCATGACCATGCCGAAGGGACCTGACGGCAAGACCTTCCCGACGATTGGTTTTGCTGGCTGGTCGATGATGTCGAAATCCGAAAACAAGGACCTTTCCTGGAAGCTGATCGAGACGCTCGAAGGGCCGGAAGGCAATATCGAGTGGAACAAGAAGACCGGGGCGCTGCCGGTGCACAAGTCGGCGGAGAAGGACCCCTTCTATGCCAGCGAGCAGTTCAAGGGCTGGTTCGACGAGCTGGCCGACAAGAACGCCGTGCCGACGACGATGCCGACCTATCTCGAGGAATTCGCCTTCTTCAAGGATTCGCTTGTGATCAAGACGTCGCAGGAAGCGCTGCTCGGCGATATCACGCCGGAAGACCTTGCCAAGCAATGGGCTGATTACATGACCAAGGCGCAGCAGAAGTTCCTGGCCTCGAAGTAA	MKKLVTAAIFTALMTGTALADTTLKLVEVITSPERTETLKGIVSKFEAANPGTKVEIISLPWSEAFQKFATMVSAGDIPDVMEMPDTWLSLYANNGMLESLEPYLAKWEHTAGLSERTLELGRDVKNTAYMLPYGFYLRAMFYNKKLLEQAGVKEPPKTLDEFADASKKVAALPGKYGYCLRGGPGGLNGWVMFGASMAGSNEFFTKDGTSTFDSPGWVKGLTYVIDLYKNGYAPKDSVNWGFNEIVAGFYSGTCAFLDQDPDALIAIAQRMKPEDFGVMTMPKGPDGKTFPTIGFAGWSMMSKSENKDLSWKLIETLEGPEGNIEWNKKTGALPVHKSAEKDPFYASEQFKGWFDELADKNAVPTTMPTYLEEFAFFKDSLVIKTSQEALLGDITPEDLAKQWADYMTKAQQKFLASK	PGPT0016545_8976	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
BMS010_03687	1173	aar	COG0626	L-alanine/L-glutamate racemase	ATGAACCATGGCAACGATCTCTTCGATCCCGCCTCATTTATCGTCGCCCATGACGAAGCCCACGCCTTCGAAGCCGTGGTGCCGCCCATCGTGCAGACCTCGCTTTTCACCTTTTCCAGCTATGACGAGATGGTCTCCACCTATCGCGGTGAGAAGGTGCGGCCGGTCTATACGCGCGGGCTGAACCCCACGGTGCGGCTGTTCGAAGAGATGCTGGCGAAGCTGGAAGGGGCGGAAGATGCGCTCGGTTTTGCAAGCGGCATGTCGGCCATTTCCTCCACCGTGCTCTCCTTCGTTTCGCCGGGCGACCGGATCGTCGCCGTGCGCCATGTCTATCCCGATGCGTTCCGCCTGTTCGGCACCTTCATGCAGCGCATGAATATCGAGGTGACCTATGTTGACGGCCGCGATGAGGCGGCGGTTGAAAAGGCGATGCCGGGCGCAAAGCTGTTCTACATGGAAAGCCCGACGAGCTGGGTGATGGAGGCGCATGATGTCGGCGCGCTCGCCGCCATTGGCAAGCGGCATGGCGCCGTCACCGTCATCGACAATTCCTGGGCAAGCCCGGTCTTCCAGCAGCCGATTTCGCTGGGTGTCGATCTCGTCGTGCATTCGGCATCGAAATATCTTGGCGGCCATAGCGATGTGGTCTCCGGCGTGGTGGCCGGTTCGAAGGCGATGATTGATCGCATCCGGGCGGAAACCTATCCCTATCTCGGCGGCAAGATGTCGCCTTTTGATGCCTGGCTGCTCATTCGCGGGCTTCGCACCCTGCCACTGCGCATGAAGGCGCATCAGGCCTCGGCTTTGGATATCGCAACGCGTCTTCACGCGCTCGACGTCGTGGAAACCGTCTGCCATCCCGGGCTGGCGAACCGCCTGCCGCCGGGTCTCAACGGCACGTCGGGCCTGTTTTCCTTCATTTTCAAGGAAGGCGTAGATGTGCGCGCTTTTGCCGATCGGCTGAAGCTTTTCAAACTGGGTGTTTCCTGGGGCGGGCATGAAAGCCTGATCGTCCCCGGCGAAGTGGTGCTTGAACAGAAGGCGCAGCCAAACTCCGCCCACACCTTCGGCATCAGCGCGCGTTCGGTGCGCCTGCATGTCGGGCTGGAGGGCACGGAAGCCCTCTGGAACGATCTCGAACCCGCGATCAAGGCGGCTACCGCCGCCTGA	MNHGNDLFDPASFIVAHDEAHAFEAVVPPIVQTSLFTFSSYDEMVSTYRGEKVRPVYTRGLNPTVRLFEEMLAKLEGAEDALGFASGMSAISSTVLSFVSPGDRIVAVRHVYPDAFRLFGTFMQRMNIEVTYVDGRDEAAVEKAMPGAKLFYMESPTSWVMEAHDVGALAAIGKRHGAVTVIDNSWASPVFQQPISLGVDLVVHSASKYLGGHSDVVSGVVAGSKAMIDRIRAETYPYLGGKMSPFDAWLLIRGLRTLPLRMKAHQASALDIATRLHALDVVETVCHPGLANRLPPGLNGTSGLFSFIFKEGVDVRAFADRLKLFKLGVSWGGHESLIVPGEVVLEQKAQPNSAHTFGISARSVRLHVGLEGTEALWNDLEPAIKAATAA				NA	NA	NA	NA	NA
BMS010_03688	717	lutR_6	COG2186	HTH-type transcriptional regulator LutR	TTGGACAGGTCCAGCCGGGAACTCATGCAGCCAATTCCGCCGAGCGACCGCGTGCGCCAGGTGGAGGCTGCGCTTTCCGACTATGTGGAGCGGGCGGGGCTGAAGGCGGGAGACCGTCTGCCGGCGGAGCGAGAACTGATGGCGGCGCTGGGTGTGGGGCGGTCCACCATCCGCGAAGTCATCCGCAAGTTTCAGGCTCTTGGCGTCATCGACAGCCGCAAGGGCAGCGGCAATTACCTCTTGAAGCCGATTTCCGCCGCCACCGTGCATATGCCGATTTCCATCGATGCCGAAAGCCTGCGCGATGCGCTGCTGATGACGCTGGAAGTACGGCGCGGCATCGAGGTGGAAGCCTCCATGGCCGCCGCGCGCCGTCGCACGCCCAAGGATATCGCCACCATGGAAGCGCGGCTCGATGAGATGGAGCGGGTGCATCTGGCCGAGGGAACCTCTGGCAAGGCGGACCTCGCCTTTCACCTCTCTATCTATGACGCCACGCATAATTCGCTGTTCAAGCAGCTGTTGGAGCAGATGCGTGAAGGTTTCGAACGCTTCTGGTCGAAACCCTTTGACCGGCCGGATTTCGCCAGCCGCTCCTTTCCCTTTCACCGCACGCTGTTCAACGCGATCGCCGCCGGTGACGCGGAAACGGCGCGGGAAGAAACACTGAAAATCCTCGCCGTCGTCGAGGAAGATATCAAGGACATGTCGAAATGA	MDRSSRELMQPIPPSDRVRQVEAALSDYVERAGLKAGDRLPAERELMAALGVGRSTIREVIRKFQALGVIDSRKGSGNYLLKPISAATVHMPISIDAESLRDALLMTLEVRRGIEVEASMAAARRRTPKDIATMEARLDEMERVHLAEGTSGKADLAFHLSIYDATHNSLFKQLLEQMREGFERFWSKPFDRPDFASRSFPFHRTLFNAIAAGDAETAREETLKILAVVEEDIKDMSK				NA	NA	NA	NA	NA
BMS010_03689	561	rnhA_3	COG0328	Ribonuclease HI	GTGCCGCCCTCTCTGCTTTTGTGTTTATGCCATGGCCCTGGAACTCTTCCTTTAGCGATTTCCATATCGGTGCTAAAAAGCCTCCTCATGTCCGATGCGCTTCACATCTTCACCGACGGTTCCTTCGACGATGCTTCCAGCTCCGGAGGATGGGCGTTCGTGGTTCATGAAGCGGGCCACCTAGTGCATTCCGCTTCAGGCAGGACTGTCGGCACATCGAACAATACGTTCGAGGTCCTCGCCGTTCTCAACGCACTATTCTGGATTGCTGCCGAGGCGCCAACGCGGGCTGTCACGCTCTGGACGGATGCCGTTCATGTCATCGAAGGCTGCCGCCGATACAGGGCGATCTGGCGCAACAACGGCTGGAAGCGGATCACGCCCAACCAGCGTACCCGCCGAAGACCGATCCCCGACAGGGACATCTGGCAGCAGCTCGACAGCCTGCTGGAGCGGCATCCCCATGTGGTTGTAGAATGGTGCAAAGGGCATTCCGGCACTGTCGGCAACGAGCATGCCGATGCTTTGGCTCGGGGAGTGGCCCGCGCGACGGCGATTTAG	MPPSLLLCLCHGPGTLPLAISISVLKSLLMSDALHIFTDGSFDDASSSGGWAFVVHEAGHLVHSASGRTVGTSNNTFEVLAVLNALFWIAAEAPTRAVTLWTDAVHVIEGCRRYRAIWRNNGWKRITPNQRTRRRPIPDRDIWQQLDSLLERHPHVVVEWCKGHSGTVGNEHADALARGVARATAI				NA	NA	NA	NA	NA
BMS010_03690	1026		COG0803	putative periplasmic iron-binding protein	ATGTTCAAAACCTTCCGTCTGGCCACCTGCGCCAGCCTTCTTTCCCTCTCCCCGGTTCTGATGGCGCAGGCGTCCGCCGCCGAACTCAAGGTCGTTGCCAGTTTCTCGATCATCGCCGATTTCGCGAAAAACGTCGGCGGCGACCGCGTCGAAATCACCACGCTGGTCGGGCCGGATGGCGATGCCCATGTCTATGAACCCCGCCCGACCGATGCCGTCGCCGTCAGCAAGGCGGATGTGGTGCTGGTCAACGGTCTGGAATTCGAAGGCTTCCTGAAACGGCTGATCGACACCAGCGGCACCAAGGCACCGGTGGTGGAACTGACCAAGGGTGTAGAGCCGCTCAAGCTTTCCGAAGAGCCGGCCGGTCACGCCCATCCGGAGGCCGAGGAAGAGGAAGGTCACGACCACAAGGCAGAGGAAGCTGGCCACAGCCATGAGACCGCCGAGGCCCATGATCACGACCACGGCCATGAGGGACATCACCATCACGGCGAGTTCGACCCGCATGCCTGGCAGTCGATCAAGAACGCCGAAATCTACGTGAAGAACATTGCCGGCGCCTTTTGTGAGGTCGACAAGGCCGGTTGCGCGACCTACACCGCCAATTCGGACGCCTATATCGCCAAGCTTGCCGCTCTGAACGAGAAGGTGAAGACCGAGATCGCCGCCATCCCGCCGGAAAAGCGCGTCATCATCACCTCGCATGACGCCTTCGGTTATTTCGAGCATGCCTATGGCCTGAATTTCCTCGCACCTGAAGGCGTATCGACGGAATCCGAAGCCTCGGCCGCCGATGTCGCCAAGCTCGTGGATCAGGTAAAGCACGACAAGGCCTCGGCGATCTTCGTTGAAAACATCACCGACAAGCGGCTGATTGACCAGATCGCCAGCGAAACCGGCCTGAAGGTTGGCGGCACGCTCTATTCCGACGCGCTTTCGACTGCCGAGGGCCCGGCTGCAACCTATATCGACATGATCAACCACAATATCGAGACGATAACGGCGGCCGTGCTCGGCCAGTAA	MFKTFRLATCASLLSLSPVLMAQASAAELKVVASFSIIADFAKNVGGDRVEITTLVGPDGDAHVYEPRPTDAVAVSKADVVLVNGLEFEGFLKRLIDTSGTKAPVVELTKGVEPLKLSEEPAGHAHPEAEEEEGHDHKAEEAGHSHETAEAHDHDHGHEGHHHHGEFDPHAWQSIKNAEIYVKNIAGAFCEVDKAGCATYTANSDAYIAKLAALNEKVKTEIAAIPPEKRVIITSHDAFGYFEHAYGLNFLAPEGVSTESEASAADVAKLVDQVKHDKASAIFVENITDKRLIDQIASETGLKVGGTLYSDALSTAEGPAATYIDMINHNIETITAAVLGQ	PGPT0004275_199	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MANGANESE_TRANSPORT,PGPT0004275-ABC_ZM_S-K02077	NA	NA
BMS010_03691	867	mntC	COG1108	Manganese transport system membrane protein MntC	ATGGCTGATATCTTCATCCAACCCTTCGTCCAATATGTCTTCATGCAGCGCGCGCTTGCCGGTGCGCTGATCCTTGCCGTCAGCTGTGGCCCGGTCGGTGTGTTTCTGATGCTGCGCCGCATGAGCCTGACAGGCGACGCCATGTCCCACGCCATCCTGCCGGGAGCGGCGGTCGGGTTTCTGTTCTACGGGCTGGAAATCCTGCCCATGACCATCGGCGGGCTGGCCGTCGGTCTTCTTGTCGCGCTGGGTGCAGGCGCTGTGTCACGCTTCACCATCCAGAAGGAAGACGCCTCGCTTGCCGCCTTTTATCTCATCTCGCTGGCGCTTGGCGTGCTGCTCGTCTCATGGCGCGGTTCCAGCGTCGATCTCATGCATGTGCTGTTCGGCACGGTGCTGGCGCTGAACAATGAGGCGCTCGGCCTGATCGGCGGCATCTGCATCGTGACGTTGGTGGTGATGATCACTTTCTGGCGGGCGTTGCTGGCGGAATGCCTCGATCCCCTGTTTCTGCGCTCGGTCAGCAACTGGGGCAGCCCGGTGCATTTCCTCTTCCTTGCCATCGTCGTGCTCAATCTGGTCGGCGGCTTTCAGGCGCTGGGAACGCTGCTTTCCGTCGGGCTGATGATGCTGCCCGCCGCCGCCAGCCGTTTCTGGTCCAACCGTGTCGCACCCATGTGCTTCATTTCCATCGGCATCGGCATGGTGTCCTGCATTGCCGGTCTGCTTCTGTCCTATCACGCGTCGCTGCCATCCGGCCCGGCGATCATCCTTTCCGCGGGCGTCATCTATGCGCTCTCCATCCTCATCGGCACGCGCGGCGTGCTCAGCGATCTTCTCGGTTCCGGCCGTCACAGGACGGCCTGA	MADIFIQPFVQYVFMQRALAGALILAVSCGPVGVFLMLRRMSLTGDAMSHAILPGAAVGFLFYGLEILPMTIGGLAVGLLVALGAGAVSRFTIQKEDASLAAFYLISLALGVLLVSWRGSSVDLMHVLFGTVLALNNEALGLIGGICIVTLVVMITFWRALLAECLDPLFLRSVSNWGSPVHFLFLAIVVLNLVGGFQALGTLLSVGLMMLPAAASRFWSNRVAPMCFISIGIGMVSCIAGLLLSYHASLPSGPAIILSAGVIYALSILIGTRGVLSDLLGSGRHRTA	PGPT0004270_737	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MANGANESE_TRANSPORT,PGPT0004270-ABC_ZM_P-K02075	NA	NA
BMS010_03692	828	scaC_1	COG1121	Manganese import ATP-binding protein ScaC	ATGAGCGATCCGTGCCTCGCCTTCAAAAACCTGACGCTTGGATATGCCGGCCGCGCGGCCGTGCATCATCTGAATGGCGATATCGCCAAAGGCTCGCTCACTGCGGTGGTCGGCGCCAATGGCTCGGGAAAATCGACGCTGATGAAAGGTATCGCCGGCATTTTGAAGCCGCTCGGCGGCGAATGCCGGGTAAGCCCAAATACGTCCCTCGCTTATCTGCCGCAGCAATCGGAACTCGACCGCTCTTTCCCGGCGCAGGTGCGGGATCTGGTGGCGCTTGGTCTCTGGCCGAAACGCGGCCTGCTTGGCCGCCACCGTCCCGAAGACCGGGCGGCGATGGGCCGCGTGATTGAGGCGGTCGGGCTTTCCGGTTTTGAAAAGCGTAATATCGACTCGTTGTCCGGCGGCCAGATGCAGCGCGCCCTGTTTGCCCGCGCCATGTTGCAGGATGCGCAGCTGATCCTGCTTGACGAGCCCTTCAATGCCGTCGACGAGCGCACCGTTTCCGACCTTATGGTCCTCATCAAGTCATGGGTGGCGGAGGGGCGCACGGTTCTGGCCGTCCTTCATGATTTTCAGCTCGTGCGGCAGCATTTTCCGGAGACCCTGTTCCTTGCCCGAAAGCTTGTCGGGCTGGGTCCGACGGCCGAGGTCCTGCAGGCGGAGAACATCCGGCAGGCGCGGCATTTCCACGAGGCGTGGGAGGAAAATGCGCCCTGGTGCGAACCGGCCGAGGCGCCTTCGCCGCAGATCGTCGGGGCAAGTCCGCAGGCGGCATCCGCCCATTCCCATGCCCACTCCCACGCGAATTCGAATGTCCATGGCTGA	MSDPCLAFKNLTLGYAGRAAVHHLNGDIAKGSLTAVVGANGSGKSTLMKGIAGILKPLGGECRVSPNTSLAYLPQQSELDRSFPAQVRDLVALGLWPKRGLLGRHRPEDRAAMGRVIEAVGLSGFEKRNIDSLSGGQMQRALFARAMLQDAQLILLDEPFNAVDERTVSDLMVLIKSWVAEGRTVLAVLHDFQLVRQHFPETLFLARKLVGLGPTAEVLQAENIRQARHFHEAWEENAPWCEPAEAPSPQIVGASPQAASAHSHAHSHANSNVHG	PGPT0004265_339	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MANGANESE_TRANSPORT,PGPT0004265-ABC_ZM_A-K02074	NA	NA
BMS010_03693	1206	yciC_1	COG0523	Putative metal chaperone YciC	ATGTCACAAAAACTTCCCGTCACCGTGCTTTCCGGCTTTCTCGGCGCCGGCAAGACGACGCTTCTCAACCATATTCTCGCCAATCGCGATGGTCTGCGCGTGGCGTTGATCGTCAATGACATGAGCGAGATCAATATCGACGCCGCACTGGTGCGCGATGGCGGCGCCAATCTCTCCCGTACGGAAGAGCAATTGGTGGAAATGACCAATGGCTGCATCTGTTGCACGCTACGCGACGACCTCCTGACGGAGGTGCGGGCGCTGGCCGAACAGGGCCGTTTCGATTACCTGCTGATCGAATCCACCGGCATCGCCGAGCCGCTTCCGGTCGCCGCAACCTTTGATTTTCGCGATGAAAACGGCCGCAGCCTTTCCGATATCGCGCGTCTCGACACCATGGTGACGGTGGTGGATGCCGCCAATCTTCTCAACGATTACGGCTCCTCCGATTTTCTGGCCGACCGGGGCGAAACGGCGGGCGATGGCGACAACCGCACCATCGTCGACCTTCTGGTGGAGCAGATCGAATTTGCCGATGTCGTCGTCCTCAACAAGATCGGGACTGCCACACCGGAACAGCGAGACGCCGCCCGAAAGATCATTGTCGGGCTGAACCCGGATGCGAAATTGATTGAAGCCGATTTCGGCAAAGTAGCGCTTCAGGAGGTTCTCGGCACCGGCCGGTTCGATTTCGCCAGGGCCGAAGAACACCCCCTGTGGTTCAAGGAATTGCACGGCTTCAAGGACCACATTCCCGAAACCGAGGAATATGGCATCCGCTCCTTCGTTTACCGCGCCCAGAAACCCTTCGACCCCGTGCTGTTCCAGCGTTTCATCGACCGCGCCTGGCCAGGCGTGGTGCGCGCCAAGGGCTTTTTCTGGCTGGCGACACGTCCGCGTTATGTCGGCGAGATCAGCCAGGCCGGCGCGTTGGTGCGCACCGGCAAGATGGGCCTGTGGTGGTCCGCCGTGCCGAAGGAGCAATGGCCGCGCGAAAAGCAGTTCCTCGACATGATGAAGCCCTATCTCGATCCGGTCTTCGGCGACCGGCGACAGGAAATCGTCTTCATCGGCTCCGACCCGATGAACGAGGCGCGCATCCGCGCGCAGCTCGACGCCTGCCTGATCGATACCGAGGCATTCACACCGGATGCATGGCGGCACCTGCCCGATCCTTTCGCAAGCTGGGACAGGCAGGCGGCTTGA	MSQKLPVTVLSGFLGAGKTTLLNHILANRDGLRVALIVNDMSEINIDAALVRDGGANLSRTEEQLVEMTNGCICCTLRDDLLTEVRALAEQGRFDYLLIESTGIAEPLPVAATFDFRDENGRSLSDIARLDTMVTVVDAANLLNDYGSSDFLADRGETAGDGDNRTIVDLLVEQIEFADVVVLNKIGTATPEQRDAARKIIVGLNPDAKLIEADFGKVALQEVLGTGRFDFARAEEHPLWFKELHGFKDHIPETEEYGIRSFVYRAQKPFDPVLFQRFIDRAWPGVVRAKGFFWLATRPRYVGEISQAGALVRTGKMGLWWSAVPKEQWPREKQFLDMMKPYLDPVFGDRRQEIVFIGSDPMNEARIRAQLDACLIDTEAFTPDAWRHLPDPFASWDRQAA				NA	NA	NA	NA	NA
BMS010_03694	438	yqaA_2	COG1238	Inner membrane protein YqaA	ATGGCCGATCTAGCGGTATATACGGGTTTGTTCCTGACGGCGTTTATCGCGGCGACCATTCTGCCCATGCAGTCGGAGGCAGCACTGGCCGGCCTCATTGTTCTGAAATCACAGCCCGTCTGGCTGCTGGTCGCCGTGGCCAGCGCCGGCAATGTCGCCGGCTCCTGTGCGAACTGGCTGCTCGGCCGCGGTATCGAGCGCTTTCGGCATGAACGCTGGTTTCCGGTCGGGGAGGCGGCGCTGGAGCGCGCCCAGAACTGGTATCGGCACTATGGCAAATGGTCCCTGCTCATCAGCTGGGCGCCGCTGATCGGCGATCCGCTGACGGTCGCCGCCGGCATCATGAAGGAACCGCTGCCGGTCTTCCTGCTGCTGGTCACCATCGCCAAGGTCGGGCGTTATCTCGTTCTGGCGCTGGTGACGCTGAATTTTCTATGA	MADLAVYTGLFLTAFIAATILPMQSEAALAGLIVLKSQPVWLLVAVASAGNVAGSCANWLLGRGIERFRHERWFPVGEAALERAQNWYRHYGKWSLLISWAPLIGDPLTVAAGIMKEPLPVFLLLVTIAKVGRYLVLALVTLNFL				NA	NA	NA	NA	NA
BMS010_03695	270			hypothetical protein	ATGAACAATCCGCTTGCGCGCAGCGGCTCGGCAATCGTCTCGCAGGCCCGTCTTCTGAAGCAATGGTCCCGCGATCTGCTGCATCTCCACCCCGAAGACATTATCACCGTCAGCGAGCTCTCCTGTGTATTGCCAGACTGCCCGCCACGGGAAACGGTGATCGTTGTCCTGTCTGCCTCCGGTGATATCAGGCAAATATCCATCCACAAGGCACTGCTGGAGGTGGATCATGACGATATCGTGTGCGCCATTGCCGCGAATTCCGCTTGA	MNNPLARSGSAIVSQARLLKQWSRDLLHLHPEDIITVSELSCVLPDCPPRETVIVVLSASGDIRQISIHKALLEVDHDDIVCAIAANSA				NA	NA	NA	NA	NA
BMS010_03696	1137	yjiA_2	COG0523	P-loop guanosine triphosphatase YjiA	ATGAATGTCGAAAGTGCGGATGTGTTCGGAATGAAGCGGAAGAAAGCGGTCGATTCCAGGGACGATTCGGCCGTCGCGCCACCTGTCCGCACGGTGCCGGTTACCCTGCTGACCGGTTTTCTGGGCGCGGGCAAGACGACGTTGCTGAACGCGCTTCTGACTGAGCCGGCCATGCGCGATGCCGCGGTCATCGTCAACGAATTCGGCTCGGTGCCCATTGATCACGGTCTGGTGCGAACGGGTTCTGAACGATATTTCAGAACGACGACGGGCTGCATCTGCTGTACGGCCACCAGCGATATCCGCACCTCGCTTTACGAGCTGCATCAGGCCTTTCTGGAGGGGATGATGCCGCAAGTATCGCGGGTCGTCATCGAAACCACCGGCCTTGCCGATCCCGCGCCGATCATCAACAGCCTGATCGCCGGCGGCACGCCGGCGCTTGGCCTGCGCGATCACATCGTGGCCCGGCATTTCCACCTTTCAGGCGTGGTCACGGCTTTCGACGTTGTCGCCGGCCCCGCGATGCTCGACAGCTTTATCGAAGGCTGGAAACAGCTTGCCTTTGCCGACCATATCGTTCTGACGAAAACCGATCTTGCCGATGCCGCAGCCGTGGACCGGGAGAGCCTCGCCGATCTCAATCCTGCGGCCTCGTTTCATGACCGTAATGCCGTCGATTTCGATCTGATGTCATTGTTTGCAGCGTCGGATTATTCGCTGCGCGGCAAGTCGGAGGATGCGCCGGGGTGGCTTGCGGCCGACAGGCTGAGCCTTCATGCCGCCCATCAGCACGATATCAACCGCCATGGCGTCGGGGTAGAGGCTTTCGATCTCACCTTTGACGGCGCTTTCGATCCGCAGGCGATCGTCACCTTTCTGGAGCTCGTCACCAGCAATGTGCATTCCGGCCTGCTGCGGCTCAAGGGAATTTTCGGCGCGACGGATGATCCGGAGCGGCCGGTTGTCGCCCATGCGGTGCAGCACCGGCTTTATCCATTGACCCGCCTGGAGCGCTGGCCGGATGGCAATCGTTCCACGCGAATCGTGCTGATCGGCATGGACATGCCGCAGCAGCCGATCCGCGCTCTCTTCGAGACATTGGCCTCGCAGGCGGGGCGAAAGGGCAGGGCATGA	MNVESADVFGMKRKKAVDSRDDSAVAPPVRTVPVTLLTGFLGAGKTTLLNALLTEPAMRDAAVIVNEFGSVPIDHGLVRTGSERYFRTTTGCICCTATSDIRTSLYELHQAFLEGMMPQVSRVVIETTGLADPAPIINSLIAGGTPALGLRDHIVARHFHLSGVVTAFDVVAGPAMLDSFIEGWKQLAFADHIVLTKTDLADAAAVDRESLADLNPAASFHDRNAVDFDLMSLFAASDYSLRGKSEDAPGWLAADRLSLHAAHQHDINRHGVGVEAFDLTFDGAFDPQAIVTFLELVTSNVHSGLLRLKGIFGATDDPERPVVAHAVQHRLYPLTRLERWPDGNRSTRIVLIGMDMPQQPIRALFETLASQAGRKGRA				NA	NA	NA	NA	NA
BMS010_03697	1305	ugpB_3	COG1653	sn-glycerol-3-phosphate-binding periplasmic protein UgpB	TTGAAAAAACTCAGCTACCGCCTCGCCGCGGCATCCGCGCTTTCGTTTTTTGTCACATCGAATGCATATGCAGTAACGGACATTCAGTGGTGGCACGCCATGACCGGCGCCAATAACGAGGTCGTGGATACGCTTGCCAAAGAATTCAACGATAGCCAGAAAGAATACAAGATCACGCCCGTCTTCAAGGGCACCTATCCGGAAACGCTGAATGCCGGTATCGCGGCGTTCCGCGCCAAGCAGCCGCCGGCGATCATTCAGGTCTTCGACGCCGGTTCGGGCGTGATGATGGGTGCTGCCGGCGCCATCAAGCCAGTGGCCGACGTGCTGAAGGAAGGCGGCTACACCTTCAACAAGGCCGATTATCTGGCCGGCATCGTGGCCTATTATTCCAAGCCGGACGGCACCATGCTGTCCTTTCCTTACAATTCATCCTCGCCGATCCTCTATTACAACAAGGATGTCTTCCAGAAGGCCGGCCTCGACGCCGCCAACCCGCCGAAGACCTGGCCGGAAGTTTTCGAAGCTGCCAAGAAGATCAAGACCAGCGGTGCGGCACAGTGCGGTTTCACCTCCACATGGCTCACCTGGATTCAGACCGAAAACTTCGCCGCCTGGAACAACGTCTCCTATGGCAGCAATGAAAACGGCCTTGGCGGCACGGATGTGAAGCTCGCGGTCAATGCGCCGCTCTTCGTCGAGCATTTCCAGGCGATTGCCGATCTCGCCAAGGATGGCACCTTCCGTTATGGCGGCCGCACCTCCGAAGCCAAGCAGCTGTTCATGTCCGGCGAATGCGGCATCCTGACCGAATCCTCCGGCGGCCTTGGCGATATCGTCAAGACGGGCATGAATTACGGCATCGGTCAGCTTCCCTATTATGAGGGCCATGGTCCGCAGAACACCATTCCCGGCGGCGCCAGCCTCTGGGTTTTCGGCGGCAAGAGCGATGCCGAATATAAGGGCGTGGCCGAGTTCTTCCACTTCCTCTCCCAGACCAAGATTCAGGCGCGCCTGCATCAGGTCTCCGGCTATATGCCCGTGACCATCGCGGCCTATGAGGAAACCAAGAAATCCGGCTTCTATGACAAGAACCCCGCCCGTGAAACGCCGCTGCTTCAGATGATGGGCAAGCCGCCGACAGAAAACTCCAAGGGCGTGCGTCTCGTGAACCTGCCGCAGGTGCGCGACATCATGAATGAGGAATTCGAGGCGATGCTGGCCGGCAAGCAGGACGCGAAAGCCGCCCTCGACAAGATCGTAGAGCGCGGCGATGCGGCCATCAAACAGGCTGCCGGCAACTAA	MKKLSYRLAAASALSFFVTSNAYAVTDIQWWHAMTGANNEVVDTLAKEFNDSQKEYKITPVFKGTYPETLNAGIAAFRAKQPPAIIQVFDAGSGVMMGAAGAIKPVADVLKEGGYTFNKADYLAGIVAYYSKPDGTMLSFPYNSSSPILYYNKDVFQKAGLDAANPPKTWPEVFEAAKKIKTSGAAQCGFTSTWLTWIQTENFAAWNNVSYGSNENGLGGTDVKLAVNAPLFVEHFQAIADLAKDGTFRYGGRTSEAKQLFMSGECGILTESSGGLGDIVKTGMNYGIGQLPYYEGHGPQNTIPGGASLWVFGGKSDAEYKGVAEFFHFLSQTKIQARLHQVSGYMPVTIAAYEETKKSGFYDKNPARETPLLQMMGKPPTENSKGVRLVNLPQVRDIMNEEFEAMLAGKQDAKAALDKIVERGDAAIKQAAGN	PGPT0016835_799	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_sn-GLYCEROL-3P_TRANSPORT,PGPT0016835-ugpB-K05813	NA	NA
BMS010_03698	882	ugpA_2	COG1175	sn-glycerol-3-phosphate transport system permease protein UgpA	GTGCAAAGCGTCGTATTCCCCAACAAGATCCTGCCCTATCTGCTGGTCGCGCCGCAGATCATCCTCACGGTGATCTTTTTCTTCTGGCCGGCAAGCCAGGCGCTTTACCAGTCGACCATGCGCGAGGACGCCTTCGGGCTGAACAGCAATTTCGTCGGGCTGGCGAATTTTTCCGCCGTGCTGTCGGATGAAAGCTACCTGAACTCGCTGCAGGTCACGGTCATTTTCAGCATCCTGACCGCGCTCGTCTCCATGGGGCTGGCGCTGCTTCTGGCGACGGCGGCGGACCGCGTTGTGCGCGGCAAGGGCTTTTACCGCACCATGATGATCATGCCCTATGCCGTCGCCCCTGCGGTGGCCGGCATGTTGTGGCTCTTCATGTTCAACCCGGCCATGGGCACCTTCTCCTACATTCTGCGCCGCAACGGCATCATGTGGGACCCGCTGCTCAATGGAGACCAGGCCATGCTGCTCGTCGTCGCGGCGGCCGCGTGGAAACAGATCAGTTACAATTTCCTATTTTTTGTCGCAGGCTTGCAGGCAATTCCTAAATCATTGCTGGAAGCGGCCTCCATCGATGGCGCGCGCGGTTCGCGGCGCTTCTGGACCATCGTTTTCCCGCTGCTTGCGCCGACCACCTTCTTCCTTCTGGTCGTCAACACGGTTTACGCCTTCTTCGATACCTTCGGCATCATCCATGCCGTCACCGGCGGCGGCCCGGCCAAGGCGACGGAAACGCTGGTCTACAAGGTCTATAATGATGGCTTCGTGAACCTCAATCTCGGCTCTTCCGCCGCGCAGTCCGTGATCCTGATGGTTATCGTCATCGCGCTCACCGCCTTCCAGTTCCGCTTCGTCGAGAAGCGCGTGCATTACGGCTGA	MQSVVFPNKILPYLLVAPQIILTVIFFFWPASQALYQSTMREDAFGLNSNFVGLANFSAVLSDESYLNSLQVTVIFSILTALVSMGLALLLATAADRVVRGKGFYRTMMIMPYAVAPAVAGMLWLFMFNPAMGTFSYILRRNGIMWDPLLNGDQAMLLVVAAAAWKQISYNFLFFVAGLQAIPKSLLEAASIDGARGSRRFWTIVFPLLAPTTFFLLVVNTVYAFFDTFGIIHAVTGGGPAKATETLVYKVYNDGFVNLNLGSSAAQSVILMVIVIALTAFQFRFVEKRVHYG	PGPT0016840_1107	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_sn-GLYCEROL-3P_TRANSPORT,PGPT0016840-ugpA-K05814	NA	NA
BMS010_03699	849	araQ_2	COG0395	L-arabinose transport system permease protein AraQ	ATGATTGAAAATCGCCCGGTCGCCCGCGTGATCGCCCATCTGATGCTGGTACTCGGCATCATCATCGTGGCCTTCCCGATCTATTACACCTTCGTCGCCTCCTCCATGACGTCGACGGATATCATCCGCCCGCCAATGTCGCTTTTGCCCGGCGACCATCTTGGCGCCAATTACACCGAGGCCATGGTCGGCGGTGTCGAAAGAGTGGTCGGCGTCAGCCTCGAGCGGCTGCTGTTCAACAGCTTCGTCGTGGCGCTCGCCATTGCCATCGGCAAGATCGTCATTTCGTTCCTGTCGGCCTTCGCCATCGTCTTCTTCCGCTTCCCCTTCCGCATGGGCTTTTTCTGGATGATCTTCATCACGCTCATGCTGCCGGTGGAAGTGCGCATCCTGCCCACCTACAAGGTCATCGTCGATCTTGGGCTGATCGACACCTATGCGGGACTGACGCTGCCGCTGATGGCATCTGCGACGGCAACCTTCCTGTTCCGGCAGTTCTTCCTGACTATTCCCGGTGAACTGGTCGAGGCGGCGCGCATCGACAATGCAGGGCCGTTCCGTTTCATGCGGGATATTCTGTTGCCGCTGTCGAGAACCAATATCGCCGCCCTTTTCGTGATCCTGTTCATCTATGGCTGGACCCAGTATCTCTGGCCGCTGCTCGTGACCAACGACGCCAGGATGAACACGATCATCATCGGCTTGAAGCGCATGGTGGATTTCACCGACGCCTCGACGCCCTGGAATTATGTGATGGTGACGGCGATCCTCGCCATCATCCCCCCGATTATCGTTGTGGTGCTGATGCAGCGCTGGTTCGTCAAAGGTTTGGTGGAGACCGAAAAGTAA	MIENRPVARVIAHLMLVLGIIIVAFPIYYTFVASSMTSTDIIRPPMSLLPGDHLGANYTEAMVGGVERVVGVSLERLLFNSFVVALAIAIGKIVISFLSAFAIVFFRFPFRMGFFWMIFITLMLPVEVRILPTYKVIVDLGLIDTYAGLTLPLMASATATFLFRQFFLTIPGELVEAARIDNAGPFRFMRDILLPLSRTNIAALFVILFIYGWTQYLWPLLVTNDARMNTIIIGLKRMVDFTDASTPWNYVMVTAILAIIPPIIVVVLMQRWFVKGLVETEK	PGPT0016845_615	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_sn-GLYCEROL-3P_TRANSPORT,PGPT0016845-ugpE-K05815	NA	NA
BMS010_03700	1062	ugpC_6	COG3839	sn-glycerol-3-phosphate import ATP-binding protein UgpC	ATGGCAAAAATTGCGCTGAAAGACGTCCGCAAGGTTTATGGCGGCAATGTCGAGGCCATCAAGGGCGTATCGATGGATATCGCCGACGGCGAAATGATCGTGCTCGTCGGCCCCTCCGGCTGCGGAAAATCCACCCTGCTGCGCATGATCGCCGGGCTGGAAGGCATTTCGGGCGGCCAGATCGTCATCGGCGACCGTGTCGTCAACGATCTCGAACCCTCCGACCGCGATATCGCCATGGTGTTCCAGAACTATGCGCTTTATCCGCATATGACGGTGCGCCAGAACCTTGCCTATGGCCTGAAGAACCGCAACACGCCGAAGGAGGAAATCGAACGGCGCATCACCGAGGCGGCCAAGGCACTGGAGATCGAGCAGTTCCTGGAGCGCAAGCCGCGCCAGCTTTCCGGCGGCCAGCGCCAGCGCGTGGCCATGGGCCGCGCCATCGTGCGCAAACCGGCAGCCTTCCTGTTCGACGAGCCGCTCTCCAATCTCGATGCCAAGCTGCGCGTGCAGATGCGTGTGGAAATCCGTCGCCTGCAGCGCTCGCTCGCCACCACCAGCGTTTATGTCACCCACGACCAGATGGAGGCCATGACGCTGGCCGACCGGCTGGTGGTGCTGAATGCCGGCCGCATCGAGCAGATGGGCACGCCGATCGAGCTTTACGAAAAGCCGGCGACCACCTTCGTCGCCACCTTCATCGGCTCGCCCTCCATGAACCTGCTGAGCCACGGCGCGACATCGGCAAACGGCTCTTCCGGCTGGTCGGCGCAGGGAACCGCGGCACTGCCGCAGGGCGTCGCCACGCTCGGCATCCGCCCCGAAGACATTACCCTTGCCGATGAAGCCCCCGCAGACGCCGCCTTTACCGGCACCGTGCAGGTGGACGCCGTGGAACTGGTGGGGGCGGAAAGCTATGTGCATGGCTCCTTCGCAGACGGCACCACCATCGTTTTCCGCGTTCACGGCCGCTCACAGCTGCGCATCGGCGAAACACTGAAGATCGCCGCCCAGGCGAAGGATTTTCACCTGTTCGATTCTGCGGGGACGCGCATTTAA	MAKIALKDVRKVYGGNVEAIKGVSMDIADGEMIVLVGPSGCGKSTLLRMIAGLEGISGGQIVIGDRVVNDLEPSDRDIAMVFQNYALYPHMTVRQNLAYGLKNRNTPKEEIERRITEAAKALEIEQFLERKPRQLSGGQRQRVAMGRAIVRKPAAFLFDEPLSNLDAKLRVQMRVEIRRLQRSLATTSVYVTHDQMEAMTLADRLVVLNAGRIEQMGTPIELYEKPATTFVATFIGSPSMNLLSHGATSANGSSGWSAQGTAALPQGVATLGIRPEDITLADEAPADAAFTGTVQVDAVELVGAESYVHGSFADGTTIVFRVHGRSQLRIGETLKIAAQAKDFHLFDSAGTRI	PGPT0016850_1179	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_sn-GLYCEROL-3P_TRANSPORT,PGPT0016850-ugpC-K05816	NA	NA
BMS010_03701	744			hypothetical protein	ATGAGCGATACGCAGTGGCTGGAATGGGGCAGGAAAAACCCATATTACGGCGTGTATTCCGAAGACCGATTTCACACTTCAAATATCGAGGCAACGAAGGGCGAATTCTTCGCTACAGGGGAAGCCAATGTCTCTTGGATGCTGGGTCGTGCGGAACAGTATTTCGGGCCGTTGGGTAAAGGGCGTGTTCTTGAGTTCGGTGCCGGGGTGGCTCGAATGAGCATACCGCTTGCGTCTCGTTTTGAAACCGTAATCGGCGTTGAACTATCTCCAGACATGCGTGCCGAAGCCGCTAAGAATTGCCAGTTATACAATGTCAAAAATGTCGAAATGGTCCCTTCAGACGACGATTTAAGTCACGCTTCGGGCGAATATGATCTCGTCCTCAGCTATATCGTTCTCCAGCACGTAGATGCCAAGAGGGGAGTCATGCTGATCGACAAGTTGCTGTCAAAGGTCGGCCCCAGCGGTGTTGCCATTCTCCAAACGAGCGTCAAAAGGCCTCAACGCCGCTTGTCAGACCGCCTACGCTATCACCTGCGCCACAATGTGCCAGTGCTGGCGGCAACATATAGATTCCTGCGTGGAAAAGGCTGGAATACACTTTCAATGCGAATGTCGGAATATGATCCTATCGCCATCCTCGCCGCGTTCAGTCGGAACGGAATGAAGGACGTTTTGCTTTCCGAGCATTATCAAGGTGATGTCCTTACCTTTCATTTTACAGCGAGAAAGGGCGGCTAA	MSDTQWLEWGRKNPYYGVYSEDRFHTSNIEATKGEFFATGEANVSWMLGRAEQYFGPLGKGRVLEFGAGVARMSIPLASRFETVIGVELSPDMRAEAAKNCQLYNVKNVEMVPSDDDLSHASGEYDLVLSYIVLQHVDAKRGVMLIDKLLSKVGPSGVAILQTSVKRPQRRLSDRLRYHLRHNVPVLAATYRFLRGKGWNTLSMRMSEYDPIAILAAFSRNGMKDVLLSEHYQGDVLTFHFTARKGG				NA	NA	NA	NA	NA
BMS010_03702	444			hypothetical protein	ATGAACGTGTCCAAACCGCTTCCCGCACTTGAGGGGCTGAAAGAACAGGCAAAACGCCTGCGCGCCGCCCTTGAAGGTGAGGGGCAGGCAATTACCCATTCGAAGGCGCTGGAACTCATCGCCGCGCAATATGGCTTCCGCGACTGGAACACCCTCCACGCATCGGCCGGCAACCGCCCCGCCTTCAACCCCTATCTTCTGGGCTCAAGGGTGGAAGGTTTTTACCTCGGCCAACCCTTCGTGGCTTCGGTGCTGGGCGTGCAGGCGCTCGGCGGCGATCCCGAACGCTACCGGCTGACCCTGCATCTCGACGATCCGGTGGATGTGGTGACTTTCGAAAGCTTTTCCGCCTTTCGCCAGCGCGTCCACTGCAATGTCGACACATCCGGCCGCACCGTGGAAAAAACCTCTAATGGCCGGCCGCAGGTGGAACTGGTGTGGTAG	MNVSKPLPALEGLKEQAKRLRAALEGEGQAITHSKALELIAAQYGFRDWNTLHASAGNRPAFNPYLLGSRVEGFYLGQPFVASVLGVQALGGDPERYRLTLHLDDPVDVVTFESFSAFRQRVHCNVDTSGRTVEKTSNGRPQVELVW				NA	NA	NA	NA	NA
BMS010_03703	699			hypothetical protein	ATGACGAACGGAAACAAAAAAAACGCCTTGCTTGCCAGTGTCGCAGTGGGTGTCGCAGCCATGCTGGTATCCGCCAATGCGATGGCTGCCGATCTGGCCCAGGCAGCGCCGGCCCCCACCGCCGAAGAGGCGATTGCGGCAGCAAGCCCGTGGATGCTGCGCGTGCGCGGCCTCGGCGTCATCACCCATGACAGCGGCAGCGTCGACGGTGTGCCGGGAGCGGGCCTGTCTTATTCGGACACCGTGATCCCGGAACTCGACATCAGCTATTTCTTCACCGAAAACTTCGCCGCGGAGCTTATCCTCGGCACCACCTATGCCAAGATCAATGGCGAGGGTGTGCTGGCCGGCACGCCGGTCGGCAAGACGTGGCTGCTGCCGCCGACATTGACGCTACAATATCACTTCACCGATTTCGGTGCTTTTAAGCCCTATATCGGCGCGGGCGTGAACTATTCGCTGTTCTATAACCAGACGGAAAAGCCCGGTTTCAGCAATCTCGATGTCAAGAACAAGGTCGGTGCAGCCGTGCAGGTCGGCTTCGACTATATGCTGGACGAGCATTGGGGCGTGAACTTCGACGTGAAGAAGATCTTCCTCAAGACCGACTGGACGGCGGAACTCGGCGGCACGCCGATCAGCGGCAAGGCGAAGCTCGATCCCTGGCTGATCGGCGCGGGTATCACCTATCGCTTCTGA	MTNGNKKNALLASVAVGVAAMLVSANAMAADLAQAAPAPTAEEAIAAASPWMLRVRGLGVITHDSGSVDGVPGAGLSYSDTVIPELDISYFFTENFAAELILGTTYAKINGEGVLAGTPVGKTWLLPPTLTLQYHFTDFGAFKPYIGAGVNYSLFYNQTEKPGFSNLDVKNKVGAAVQVGFDYMLDEHWGVNFDVKKIFLKTDWTAELGGTPISGKAKLDPWLIGAGITYRF	PGPT0022210_515	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	OTHER_INTEGRAL_MEMBRANE_REMODELLING__PROTEINS,PGPT0022210-ompW|yciD-K07275	NA	NA
BMS010_03704	1296			L-lactate transporter	ATGCTCTCCACACGCCTCGCCAGCTGGATGGCCGGCAGAAATCTGCATTATGGCTGGCTCGTTGCTGCAACCACCTTTTTGACCATGCTGGCCACCGCCGGTGCGATGGGATCCGCCGGGGTGATGATCCAGCCGCTGCATCAGGAATTCGGCTGGGATATCGCCGATATTTCCTCCGCAATGGCCGTCAGGCTGGTGCTTTTTGGCCTGCTCGGACCTTTTGCCGCCGCCTTCATGAATCATTTCGGCGTCCGGCAGGTGGTTTCGACCGCGCTTGCCCTGATCATGGGCGGCATTGTCGCCTCCTTCTTCATGACCGAGGTGTGGCAATTGCTGCTGCTCTGGGGCGTGGTGATCGGCGTCGGCACCGGCATGACCGCACTGGTATTGGGCGCCACCGTGGCGACACGCTGGTTTTCCAAGCGTCGCGGACTGGTGATCGGCCTCATGACGGCGAGCAACGCCACCGGCCAGCTGGTTTTCCTGCCGCTGCTCGCGGCGCTGACGGAAGCATACGGCTGGCGAACCGCCTTGACCCTGTCCGTTGCGGTAATCGCCACCGCCATGGTTCTTGTCCTGCTTTTGATGCGTGACCATCCTGCCGATGTCGGCCTGCCAGCCTATGGCGAGACAGCGGTGGCGAAGCCGGTCAAGCAGGATCACAATCTTCTCGCCACACTGGTATCGCCGCTGGTGACCCTGAAGAGCGTATCGGGCAACCCGGTGTTCTGGGTGCTTTTCGGCACCTTCTTTGTCTGCGGGCTTTCCACCAATGGTCTCATCCAGACACACTGGATTTCGATCTGCGGCGACTTCGGCATGGCTGCGGTGACGGCGGCGGGTACGCTGGCGGTGATCGGCATTTTCGATTTCTTCGGCACGATTTTCGCCGGCTGGCTTTCCGACCGGTTCGACAATCGCTTTCTGCTGTTCTGGTTTTACGGTCTGCGCGGGCTGTCCCTGCTTTATCTCTCATTCTCAGGGTTCAGCTTCGTGGAGCTTTCGGTCTTCGCTGTCTTTTATGGGCTGGACTGGGTGGCGACGGTGCCGCCGACGGTGAAGCTCGCTGCCGAGAATTTCGGCCGCGAAAAGGCCGGTCTCGTTTTCGGCTGGGTGTTTGCCGGCCATCAGCTGGGAGCCGCCACAGCCGCCTTTGGCGCCGGTTTCTTCAAAAGCGACTTCGATACCTATATGCCCGCGCTGCAGATTGCCGGTCTGATGTGCATGATCGCGGCCGTCTCGGTTCTGCTTCTGCGCAAGCCGGGCTCCGCAACCCTGACGCCCCAGGCCGCGTGA	MLSTRLASWMAGRNLHYGWLVAATTFLTMLATAGAMGSAGVMIQPLHQEFGWDIADISSAMAVRLVLFGLLGPFAAAFMNHFGVRQVVSTALALIMGGIVASFFMTEVWQLLLLWGVVIGVGTGMTALVLGATVATRWFSKRRGLVIGLMTASNATGQLVFLPLLAALTEAYGWRTALTLSVAVIATAMVLVLLLMRDHPADVGLPAYGETAVAKPVKQDHNLLATLVSPLVTLKSVSGNPVFWVLFGTFFVCGLSTNGLIQTHWISICGDFGMAAVTAAGTLAVIGIFDFFGTIFAGWLSDRFDNRFLLFWFYGLRGLSLLYLSFSGFSFVELSVFAVFYGLDWVATVPPTVKLAAENFGREKAGLVFGWVFAGHQLGAATAAFGAGFFKSDFDTYMPALQIAGLMCMIAAVSVLLLRKPGSATLTPQAA				NA	NA	NA	NA	NA
BMS010_03705	402			hypothetical protein	ATGCCAAACGATAGTTGCCATTGCATCCTGTTGCGCAAAGCATCCCGCAAGGTTTCGTCCTATTATGACGAGGCCTTGGCGCCGCTTGGCGTGAATATCGGTCAGTTCAGCCTGCTGCGGAACATCAATCGCACCGCGCCGGTCTCGCTGACCGATCTGGCCGCGCGGGTGGAGTTGGATCGTTCCACCGTCGGCCGCAACGCCAAGGTGCTGGCTCGCATGGGTCTGGTGGCCATCGGCCACGGCGAGGATCAGCGGGAAGCGATGCTGACCGTGACGAAGGAAGGCCATGCGATCCTGAAAGCGGGCGCGCCGCTCTGGGATGGGGTACAGGATGAAATAGAAGCGCGGCTTGGGCCTGAGAAGACAGTACAATTGCAGGAACTGCTCGCAGCCCTGTGA	MPNDSCHCILLRKASRKVSSYYDEALAPLGVNIGQFSLLRNINRTAPVSLTDLAARVELDRSTVGRNAKVLARMGLVAIGHGEDQREAMLTVTKEGHAILKAGAPLWDGVQDEIEARLGPEKTVQLQELLAAL				NA	NA	NA	NA	NA
BMS010_03706	570	eis		N-acetyltransferase Eis	ATGGCCGCTCTTTTGAATTCGGTACGGGCATTTTTCACGCCGCAGACATTTCATGTCGATCAGGAAAATCCGGGCGATGTCGTCGCCCGTGAGAACCTGCTGGACCGCGCCATGGGCGCCGGCCGCCGCCGCAAGTCTTCCGAAAAGCTGCGCGCGGGTCGCATTCCGGCCGAAGGCCTCGCGCTTGTCGCCCGCGATGAGGATGGCCATGTCATCGGCACGGTGCGCCTGTGGAATGTCGAAGCCGGCATCTCGCGCGAAGGCCGCGCCGTCGAAGCGCTGCTGCTCGGCCCGCTGGCCGTCGATGCCTCCCATGAGGGCAAGGGCATCGGCTCGGCGCTAATGCGTGCCGCCATTGCCGAAGCCACCAAGCGTGGCCACGGCGCCGTTCTTCTGGTTGGCGATGCACCTTATTACGAGCGCTTCGGCTTTTTCGCCGACAAGGCCCAGCACCTCATCATGCCCGGCCCGTTCGAGCGCAGCCGTTTCCTGGCGCTGGAACTGAAATCCGGCTGGCTTGAAGGCGCTGCCGGCCTGCTGGTGGCAAGCGGGCGCAGGCTCTCGGCCTGA	MAALLNSVRAFFTPQTFHVDQENPGDVVARENLLDRAMGAGRRRKSSEKLRAGRIPAEGLALVARDEDGHVIGTVRLWNVEAGISREGRAVEALLLGPLAVDASHEGKGIGSALMRAAIAEATKRGHGAVLLVGDAPYYERFGFFADKAQHLIMPGPFERSRFLALELKSGWLEGAAGLLVASGRRLSA				NA	NA	NA	NA	NA
BMS010_03707	1134	ldc_1		Lysine/ornithine decarboxylase	ATGACGACTGCACGCATTCTCGACTTCATCAAGACCCGACGTCCCGAAGGCCCTTGCCTCGTGGTTGATCTCGACGTCGTGCGCGACAATTTCAACGCTTTCCGGCATTCCCTGCCGAACAGCGCCATTTATTACGCCGTCAAGGCAAACCCGGCTCCCGAAATCCTGAAGCTGCTCGCTTCGCTCGGCTCCAACTTCGATTGCGCCTCCGTGGCTGAAATCCAGATGGCGCTCGATGCCGGTGCGACGGCTGACCGTATCTCCTTCGGCAACACCATCAAGAAGGAACGCGATGTTGCACGCGCCCATGCACTCGGCATCGATCTCTTCGCCGTGGACAGCCATGAGGAAGTCGAGAAGGTTGCCCGTGCCGCTCCCGGCGCGCGCGTCTTCTGCCGCGTGCTGACGGATGGCGAAGGCGCCGAATGGCCGCTGTCGCGCAAGTTCGGTTGCGTGCCGCAGATGGCTGTCGACGTTCTGGTCTACGCACACCAGCTCGGTCTCGAGTCCTACGGCGTATCCTTCCATGTCGGTTCGCAGATGATGAATCTCGACGCATGGGATGCGGCGCTGGCCGATGCCAAGCGCGTCTTCGCTTCGCTCGCCAAGCAGGGCATCCACCTGCAGATGGTCAACATGGGCGGTGGTTTCCCGACCAAGTACCTGCGCGACGTTCCGGCTGCCGAAGAATATGGCCAGGCGATCGACACGGCGCTGCGCAAGCACTTCGGCAACCAGATCCCGAAGACGATCATCGAGCCGGGCCGCGGCATGGTCGGCAATGCCGGCGTCATCAAGGCGGAAGTCGTTCTCGTGTCGCGCAAGTCCGACAACGACAACCACCGCTGGGTGTTCCTCGATATCGGCAAGTTCGGCGGTCTCGCCGAGACGATGGACGAGGCTATCCGTTACCCGATCCGCACGGAGCGCGATCAGGACGAGATGGAGCCCTGCGTTCTGGCCGGCCCGACCTGCGACAGCGCCGACGTGCTGTATGAAAAGAACATGTATCCGCTGCCGGTCTCGCTGACCATCGGTGACGAAGTTCTGATCGAAGGCACGGGCGCTTACACGACCACCTATTCGGCGGTCGCGTTCAACGGTTTCGAGCCGCTGAAGGCCTACGTTATCTAA	MTTARILDFIKTRRPEGPCLVVDLDVVRDNFNAFRHSLPNSAIYYAVKANPAPEILKLLASLGSNFDCASVAEIQMALDAGATADRISFGNTIKKERDVARAHALGIDLFAVDSHEEVEKVARAAPGARVFCRVLTDGEGAEWPLSRKFGCVPQMAVDVLVYAHQLGLESYGVSFHVGSQMMNLDAWDAALADAKRVFASLAKQGIHLQMVNMGGGFPTKYLRDVPAAEEYGQAIDTALRKHFGNQIPKTIIEPGRGMVGNAGVIKAEVVLVSRKSDNDNHRWVFLDIGKFGGLAETMDEAIRYPIRTERDQDEMEPCVLAGPTCDSADVLYEKNMYPLPVSLTIGDEVLIEGTGAYTTTYSAVAFNGFEPLKAYVI	PGPT0007765_2340	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007765-speC|speF|ODC1-K01581	NA	NA
BMS010_03710	894	dmlR_9		HTH-type transcriptional regulator DmlR	ATGGACACGCTCACCCGCATCCGCGCCTTTATCGATGTCGTCGAAGCGGAGGGTTTTTCCGCCGCGGCGCGCAAGACGGGGCGTTCCAAGGCGCTTCTGTCCAAATATGTGCGGGAACTGGAGGACGATCTCGGCGCGCTGCTCCTCAACCGCACCACCCGGCAGTTCTCTCTGACGGAAGCCGGGCACACCTATTACCGCACCGCTTCCGACATTCTGAAGGAGATCGATAACCTTGCCGATCTGGTGCGAGAAAAGAATGCCGACCTCAAGGGCAAGCTCAGGATTTCCGTTCCCCGCACCTTCATCGATGCCGATGTCGGCCAGAGCCTGATCGACTTCGCCAAGGAAAATCCGGAACTGTCGCTGGAGATCGTCGCGGAAGACCGATTCGTCGACCTGATCGAGGAGGGTTTCGATCTTGCGGTTCGCATAACCCGGCTGGAGGATTCCGGTCTCATCGCCCGCAAGCTTTCCGATTTCCGGGTCTATGCGGTGGCGACGGCGGATTTCGTGGCGCAGCACGGGCCGCTCGACGGGCCGCAGGATTTTTCCCGCGTTCCCTTCATCATCGACACCAATACGCGGTTTCACAATACGGTACGGTACCTGGAGCCGGATGGCGGTTCGAACTCCGTCACCATCAGCGGACCGATCGAGGTCAACAGCCCGCAGGCCACGCTGCGCGCCGCCCGCGCCGGGCTCGGCATTGCGCTCGTGCCCGATTTCATCGCCAGACCCTATATCCAGTCCGGCGAGCTGGTGACGCTGTTCGACGATTATATTTCCAAGGACAGGGGTATCTATGCGGTCTATCCGCATCGCCGTTACCTGCCCGCCAAGGTTCGCAGCTTCGTGGATTATCTCTCGGCCTGGTTCAGGAAGAACGGGTGA	MDTLTRIRAFIDVVEAEGFSAAARKTGRSKALLSKYVRELEDDLGALLLNRTTRQFSLTEAGHTYYRTASDILKEIDNLADLVREKNADLKGKLRISVPRTFIDADVGQSLIDFAKENPELSLEIVAEDRFVDLIEEGFDLAVRITRLEDSGLIARKLSDFRVYAVATADFVAQHGPLDGPQDFSRVPFIIDTNTRFHNTVRYLEPDGGSNSVTISGPIEVNSPQATLRAARAGLGIALVPDFIARPYIQSGELVTLFDDYISKDRGIYAVYPHRRYLPAKVRSFVDYLSAWFRKNG				NA	NA	NA	NA	NA
BMS010_03711	954	rbsB_1	COG1879	Ribose import binding protein RbsB	ATGCGTAGTAAATTCATCGGCGTGGCCTTTGCCGCGCTGGCCACGGTGCTTGCCGCTTCAGCGCATGCGCAGGACAAGAAGGTTACCATCGGCGTGTCCATTCCAGCGGCCGACCATGGCTGGACGGCCGGCGTCGTCTACCATGCCGAGCGTGTGGCGAAGCTGCTGATGCAGGAACATCCGGGGCTAAACGTCATCGTCAAGACGTCGCCGGACGCCGCCAATCAGGCCAATGCGCTGCAGGACCTTGCCGTGCAGGGGCTCGATGCGCTGGTCGTCTTGCCGTCCGATCCAGATCCGCTGGTCAACGCCATCAAGGAGATCAAGGACAAGGGCACCTTCGTCGCGCTGGTCGACCGCGCGCCGAGCGTCAACGACAATTCGATCCGCGATCTCTATGTTGCCGGCAACAACCCCGCACTTGGCCAGGTCGCCGGCGAATACATCAAGAAGACGACGCCTGACGCCGAAGTCGTGGTCATTCGCGGCCTGCCGATCCCGATCGACCAGCAGCGTCAGGATGGTTTCGACAAGGGTATCGCCGGTTCCAGCGTCAAGGTTCTCGACCGCCAGTACGGCAACTGGAACCGCGACGACGCCTTCCGCGTGATGCAGGACTATCTGACCAAGTACAAAAAGATCGACGTGGTCTGGTGTCAGGACGACGATATGGCTATCGGCGTGCTGGAGGCGATCCAGCAGGCGAAACGCACCGATATCCAGTATATCGTTGCGGGCGCCGGTTCCAAGGACATGATCAAGAAGGTCATGGACGGCGACAAGCTCGTGCCGGTCGACGTGCTCTACCCGCCGGCGATGGTGGCGACCGCCATGCAGCTGACGGCCGGGCATTTCTATGATCAGGTGCCGGTTGCGGGTGAATATATCCTCGATGCGACGCTCATCACCAAGGACAATGCCGAGCAGTTCTACTTCCCGGATTCGCCGTTCTGA	MRSKFIGVAFAALATVLAASAHAQDKKVTIGVSIPAADHGWTAGVVYHAERVAKLLMQEHPGLNVIVKTSPDAANQANALQDLAVQGLDALVVLPSDPDPLVNAIKEIKDKGTFVALVDRAPSVNDNSIRDLYVAGNNPALGQVAGEYIKKTTPDAEVVVIRGLPIPIDQQRQDGFDKGIAGSSVKVLDRQYGNWNRDDAFRVMQDYLTKYKKIDVVWCQDDDMAIGVLEAIQQAKRTDIQYIVAGAGSKDMIKKVMDGDKLVPVDVLYPPAMVATAMQLTAGHFYDQVPVAGEYILDATLITKDNAEQFYFPDSPF	PGPT0015740_4209	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0015740-rbsB-K10439	NA	NA
BMS010_03712	1002	rbsC_4	COG1172	Ribose import permease protein RbsC	ATGACTGAGGCCGCATTTGACAACGGCAAAACGCCGAAGACCTCGAAGGACTGGGATCTGCGCGCCGTCGCGCCTTTCGTGGCGCTGGCCCTGCTGCTGGTTCTCGGAACCATCGCCAATCCCAATTTCATCGGCATCGACAATCTCCTGAACGTCATCACCCGGAGCGCCTTCATCGCCATCATCGCGCTCGGCGCAACTTACGTCATCACATCGGGCGGGCTCGATCTTTCGGTGGGCGCAATGGTGGCTTTCGTCGCCAGCCTGATGATTCTGTTCATGAATAGCGGCGCCATCGCCAGTCCGCTTTTAATGCTGCTTACCGCCATGGCGCTGGCGCTCGCCATCGGGGCTGCCTGCGGGCTGACGAACGGCCTCATCACCACCATTGGCCGCATCGAGCCCTTCATCGCCACGCTCGGCACCATGGGCATTTATCGCGGCTTGACCACATGGCTGTCGCAGGGTGGGGCGATCACGCTGCGCAATCCGGAAATCCAGACGCTTTATCGTCCGGTCTATTTCGGCAACGTCCTGGGCGTGCCGGTGCCGGTCATCGTTATCTTCGTAACCGCCGCGATAGCCGCCTTCGTGCTTTACCGCACCCGTTACGGGCGGCATCTGACCGCAGTAGGGTCGAGCGAGGATGTGGCGCGTTATTCCGGCATCTCGGTCGCGCGGGTCCGCACCATCGCTTATGTGGTTCAGGGGCTGTGTGTCGCCGTTGCGGTGCTGCTTTACGTGCCACGCCTCGCTTCCACTTCGGCCACGACAGGCATGTTGTGGGAGTTGCAGGCCATCACCGCCGTCGTTGTCGGCGGCACGGCGCTGAGGGGCGGGGTAGGGCGCATCTGGGGGACGATCTGCGGCGCTTTCATTCTGGAGATCGTCGGCAACATCATGATCCTGTCGAACTTCGTCAGCGAATATCTGATCGGCGCCATTCAGGGGGCCATCATCATCATCGCCATGCTGGTGCAGCGTTCGCTCAGCCGCAGGTGA	MTEAAFDNGKTPKTSKDWDLRAVAPFVALALLLVLGTIANPNFIGIDNLLNVITRSAFIAIIALGATYVITSGGLDLSVGAMVAFVASLMILFMNSGAIASPLLMLLTAMALALAIGAACGLTNGLITTIGRIEPFIATLGTMGIYRGLTTWLSQGGAITLRNPEIQTLYRPVYFGNVLGVPVPVIVIFVTAAIAAFVLYRTRYGRHLTAVGSSEDVARYSGISVARVRTIAYVVQGLCVAVAVLLYVPRLASTSATTGMLWELQAITAVVVGGTALRGGVGRIWGTICGAFILEIVGNIMILSNFVSEYLIGAIQGAIIIIAMLVQRSLSRR	PGPT0016590_2626	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0016590-rbsC-K10440	NA	NA
BMS010_03713	1524	rbsA_4	COG1129	Ribose import ATP-binding protein RbsA	ATGGCTTTTGCTGACGAATCTCCAGACCACGCCCTTATCCGGACGGTTGGGCTGTCCAAGTCTTTCGGGCCGGTACAGGTTCTCAAGGATATAGAGATCGCGGTGCGCGCCGGTGAGGTCCACGCGATCATTGGCGAGAACGGCGCCGGCAAGTCGACGCTGATGAAGCTGCTGGCCGGCAATGAAAAGCCGTCGGGCGGCGAAATCCGCATCGATGGCGAAGCCGTTACGCTGAGCGGTCCGGTGGATGCCGAACATCGCGGCATCGTTCTCGTGCATCAGGAAATATTGCTGGCCCCGGATTTGACGGTGGCGCAGAACATTTATCTCGGTCGCGAAATGCGCCGGGGCGCCATGGTGGACGATCGCGCCATGCGCGCCGGCGCCCGCAAGGCAATCGCCGATCTCGGCGGTACGATCGATCCGGACGCCATTGTCGGCAGCCTGTCGATTGCCCAGCGGCAGCTCGTGCAGATCGCCCGCGTTCTGCTGGTGCCGCATCGCGTGGTGATTTTCGATGAGCCGACCGCGAGCCTGACGCCCATCGAAACGGATGCGCTGCTGAATGTCATCAGGGACATCCGGGCGAAAGGCGTGGCCGTGCTTTATATTTCGCATCGTCTGCCGGAGGTGAAGGAGATCGCCGACCGGGTGACGGTTCTGCGAGACGGCAGGCTGGTCGCCTCCCATCCGGCATCGGCGCTGGAGCCTGCCGATATGGCGCGGCTGATGGTGGGGCGCGATGTCGCCAAGCTTTATCCGGACCGCGCCGCCGGCGGCGAGCACGAGCCGGTTCTGCAGGTGGAGTATTTTACTGTTCCGGGTTATGCTCAGGATGCCGGTTTTAGCCTGCGCAGGGGCGAAATTCTCGGTTTCGCCGGTCTGGTCGGCGCGGGCAGAACGGAGCTCATGGAAGGAATACTCGGCCTGCGCGCCGGTCGGGGAACGGTGCGTCATCACGGCAGGCCGGTGCATTTCGCAAAGGCGGAAGACAGCCTGAAAGCCGGCATCGTTTATCTGAGCGAGGACCGCAAGGGCAAGGGCCTGCTGCTTACCAAGGATTTGCGTGTCAATCTCACGCTTGCTTCGCTCAAGAAATTCAGCCGGCTGTTTCAGATCGATACCCGCCGGGAAACGGCGGCGCTCGATGATGCGGTCCGGGATTTTGACATCCGTACCGGACGCAAGGATCTGCTGGCGGGCCAGCTTTCCGGCGGCAACCAGCAGAAACTGCTTCTGGCCAAGATGATGCTCATCGATCCGTCCATCGTCATCATCGACGAACCGACGCGCGGCATCGATATCGGCACCAAGGAACAGATTTACCGCTTCATCGCCAGGCTCGCGGATGAGGGGCGCTCTATCATCGTCGTTTCCTCGGAAATGCCGGAGCTGATCGGCATCTGCGACCGCATTCTGGTTATGCGGTCGGGCGGGATCGTCGGCGAGGTGACAGGTGAGCGCATGACCGAAAACGACATCGTGGCGCTGGCGACTGGCGTTCATACGCAGGAACCCGCCTGA	MAFADESPDHALIRTVGLSKSFGPVQVLKDIEIAVRAGEVHAIIGENGAGKSTLMKLLAGNEKPSGGEIRIDGEAVTLSGPVDAEHRGIVLVHQEILLAPDLTVAQNIYLGREMRRGAMVDDRAMRAGARKAIADLGGTIDPDAIVGSLSIAQRQLVQIARVLLVPHRVVIFDEPTASLTPIETDALLNVIRDIRAKGVAVLYISHRLPEVKEIADRVTVLRDGRLVASHPASALEPADMARLMVGRDVAKLYPDRAAGGEHEPVLQVEYFTVPGYAQDAGFSLRRGEILGFAGLVGAGRTELMEGILGLRAGRGTVRHHGRPVHFAKAEDSLKAGIVYLSEDRKGKGLLLTKDLRVNLTLASLKKFSRLFQIDTRRETAALDDAVRDFDIRTGRKDLLAGQLSGGNQQKLLLAKMMLIDPSIVIIDEPTRGIDIGTKEQIYRFIARLADEGRSIIVVSSEMPELIGICDRILVMRSGGIVGEVTGERMTENDIVALATGVHTQEPA	PGPT0016600_2207	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0016600-rbsA-K10441	NA	NA
BMS010_03714	624	bepR_2		HTH-type transcriptional repressor BepR	ATGCGCCGAACCAAGGCCGAGGCAGAAGAGACCCGTCAGGCGATCCTTGCCGCTGCCGAGCGGGTGTTCTTCAAGAAGGGCGTGGCCAACAGCTCTCTGGATGAGGTGGCGGCTGCGGCCGGCGTTACGCGCGGGGCGATCTACTGGCATTTTTCCAGCAAGAGCGATCTCTTTATCGGCCTCTATCAATCGGTTTCCCTGCCGGAATCGGATCTGCTCGATTTCGGCGACCCCGACGTCAAGGGGCTGGCTCTGCTGGCCAAGATCGAGGAAGCGGCCTGCAAATGGCTGACGCTTCTTTCAAAAGATGAGCAACGCCAGCGCATCATGACCATCAGCCTGCGCACCAATTACTCCGATGAGTTCGCCCCGGTTCTGCACGCGCAGGAGGAACTGGACCGGTATCACAAGGATCGGCTCGAGGGCGCTTTCGCGCGGGCGCAGGCGGAAGGCGCATTCAACGACAACTGGACGGCGGACTCTGCGCTCGACGCGCTCTACTGGCTGCTGAAAGGCATGTGCTCCGACTGGCTGCTGTTCGGCAAGCGTTTCGATCTGGCCAAGGAGGGCGCTGAAGCCGTGCACCGTCTGATGAAGGGATTCCAGCGCTCCTCCGCGTCATGA	MRRTKAEAEETRQAILAAAERVFFKKGVANSSLDEVAAAAGVTRGAIYWHFSSKSDLFIGLYQSVSLPESDLLDFGDPDVKGLALLAKIEEAACKWLTLLSKDEQRQRIMTISLRTNYSDEFAPVLHAQEELDRYHKDRLEGAFARAQAEGAFNDNWTADSALDALYWLLKGMCSDWLLFGKRFDLAKEGAEAVHRLMKGFQRSSAS	PGPT0003255_677	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003255-acrR|smeT-K03577	NA	NA
BMS010_03715	3135	ttgB		Toluene efflux pump membrane transporter TtgB	ATGGCACGTTTTTTCATTGATCGGCCCATTTTTGCCTGGGTCGTCGCCATCTTCATCATGCTGGCGGGCCTGCTCGCCATTCCCATGCTGCCGATTGCGCAATATCCCAATGTCGCCCCGCCGCAGATCTCCGTTTCGACGACCTATCCGGGCGCGTCGCCGGAGGATATTTACCAGAGCGTCACGCGTCCCATCGAAGAAGAGCTGAATGGCGTTCCAGGCCTGATCTATTTCGAATCGACGTCGGAATCCTCGGGTCGCATTTCCATCAACGTCACCTTTGCGCCGGGCTCCAACATCGGTGAAGCCCAGGTGGAGGTCCAGAACCGCATTGCGCGCGTCGAACCCCGCCTGCCGCAGGCGGTGACGCAGCAGGGCCTGCGCGTGGAGCAGGCGGGCACGTCGTTCCTGATGATGGTGGCGCTCACTTCCGTCGACGGCAACACGGACGCCATCGGTCTCGGCGATTATCTCAGCCGTAACGTGCTCGGCGAATTGCGCCGCGTTCCCGGTGTCGGCAGCGCACAGCTCTTCGCCACCCAGCGCTCCATGCGTATCTGGATGGACCCGGACAAGATGCTGGGCCTCAGTCTCACCTCCAACGACGTCATCGGCGCCATTCAGGCGCAGAATTCGCAGGTTGCTGCCGGCCGCATCGGTGCATCGCCAAATCCCATCGGCCAGCAGATTTCCGCAACCGTCAACGTGCAGGGCCAGCTCACCTCGCCGGAAGAATTCGGCTCCATCGTGCTGCGCGCCAATCCGGACGGCTCGTCCGTACGGCTGCGCGATGTCGCGCGGGTGGAAGTGGGCGGCGAAAGCTATAACTTCTCGAGCCGCCTGAACGGCAAGCCGAGCGCCGCCATCGGCGTGCAGCTTTCGCCCACCGGCAATGCGTTGCAGACCTCCGAGGGCGTTCGCGCCACCATGGAAGAGCTGTCGCGATATTTCCCGCCGGGTCTGGAATATGAAATTCCCTATGACACCAGCCCCTTCGTCAAGATTTCGATCGAAAAGGTTATCCATACGCTGATCGAGGCGATCATCCTCGTCTTCGTGGTGATGTTCGTGTTCCTTCAGAACATCCGCTACACCATCATCCCGACACTGGTGGTGCCCGTGGCGCTGCTCGGCACCTGCGCCATCATGTATGTCTCGGGTTTCTCGATCAACGTTCTGACCATGTTCGCCATGGTTCTCGCCATCGGCATTCTGGTGGATGACGCGATTGTCGTCGTCGAGAATGTCGAGCGCATCATGGCGGAAGAGCATCTGTCGCCCAAGGAGGCCACCCGCAAGGCCATGGGCCAGATTTCCGGCGCGATCATCGGCATCACGCTGGTGCTGACCGCCGTGTTCGTGCCCATGGCCTTCTTCCCGGGCGCCGTCGGCATCATCTATCAGCAGTTCAGCCTGACAATGGTGGTGTCGATCCTGTTTTCGGGCTTCCTTGCCTTGTCGCTCACGCCGGCGCTCTGCGCGTCGTTCCTGAAGCCCATCAAGGCCGGGCACCATGAGAAGAAGGGCTTCTTCGGCTGGTTCAACCGCGGCTTCGACAAGGCCTCCCACAAATATTCCTCGTCCGTCGGCAGCATCATCAAGCGTTCCGGCCGCTTCATGGTCGTTTACGCGGCTTTGCTGGTGGGCCTCGGCTGGGCGTATATGCAACTGCCGAGCTCGTTCCTTCCGAACGAAGATCAGGGCTACCTGATCGTCGACATTCAGGCGCCGGCGGAAGCCAGCAGCGACCGCACCCTGCAATCCATCCAGCAGATCGAAAAGATCTTCATGGAAGAGCCGGCGGTGGATCGTGTGATTGCGGTTTCGGGGTTCTCCTTCTCCGGCTCCGGCCAGAATGCGGGTCTCGCCTTCGCCACCCTGAAGGACTGGAGCGAACGCGGACCGAACGATTCCGCCGCCGCCATATCGGCGCGCGTCAACGCCAAGCTGTGGGGTCTTCCGGACGCCATGTCGTTTGCGCTGTCGCCGCCGCCGATCCAGGGCCTCGGCAATTCCAGCGGCTTCACCTTCCGCCTGCAGGATCGCTCGGGCGCGGGACAGGCGGCTCTCAGCGCGGCCGGTGCTCAACTGATGGCCGCCGCCCGTCAGAGCCCCATCCTTGCCGGTCTTCGTATCGAAGGCATGCCGGATGCGGCGCAGGTCAATCTCATCATCGACCGTGAGAAGGCCAATACGTTCGGCGTCACCTTCAGCGACATCAACGCCACCATCTCGGCCAATATGGGTTCGTCCTACGTCAACGACTTCCCTAACGCAGGCCGCATGCAGCGCGTGACGGTGCAGGCGGAACAGGGCCAGCGCATGAAGACGGAGGATCTTTTGAACCTCAACGTCCGCAATGCCAATGGCGGCATGGTGCCGGTGAGCTCATTCGCAACGGTGGAATGGGTACGCGGTCCTTCGCAGGTGGTCGGTTACAACGGCTATCCGGCGGTCCGTATCGGCGGCCAGTCCGCGCCCGGTTATTCCTCCGGCGACGCCATTGCCGAAATGGAGCGCTTAGCGGGTGAGTTGCCGAGCGGCTTCGGTTTCGAATGGACCGGCCAGTCGCTGCAGGAAATCCAGTCCGGTTCGCAGGCGCCGGCATTGATCGGGCTCAGCGTTCTGTTCGTCTTCCTGCTGCTGGCAGCGCTTTACGAAAGCTGGTCCATTCCGCTCTCCGTCATGCTGGTGGTGCCGCTCGGCGTCATCGGCTCGGTGGCGGCGGTGATGCTGCGCGGCATGCCGAACGACGTCTATTTCCTCGTAGGCCTCGTCGCGATCATCGGTCTGTCCGCCAAGAATGCGATCCTGATCATCGAATTCGCCAAGGATTTGCGGGCGGAAGGAAAATCCACCTATGATGCGACGGTGGAGGCGGCGCATCTGCGCTTCCGGCCGATCCTGATGACGTCGCTCGCCTTCTCGCTCGGCGTGCTGCCGATGGCGATTGCTTCGGGCGCCAGCGCGGCGAGTCAGAACGCCATCGGCACCGGCGTGCTCGGCGGCATGATCTCGGCGACGATCCTCGCGATCTTCTTCGTTCCCGTCTTCTTCGTCTTCGTCATGAAGATTTTCGGGGATCGGAAGAAGGAGAATGAGATTGCTGCTGACGCCGTATCGCCGGCGGAATAA	MARFFIDRPIFAWVVAIFIMLAGLLAIPMLPIAQYPNVAPPQISVSTTYPGASPEDIYQSVTRPIEEELNGVPGLIYFESTSESSGRISINVTFAPGSNIGEAQVEVQNRIARVEPRLPQAVTQQGLRVEQAGTSFLMMVALTSVDGNTDAIGLGDYLSRNVLGELRRVPGVGSAQLFATQRSMRIWMDPDKMLGLSLTSNDVIGAIQAQNSQVAAGRIGASPNPIGQQISATVNVQGQLTSPEEFGSIVLRANPDGSSVRLRDVARVEVGGESYNFSSRLNGKPSAAIGVQLSPTGNALQTSEGVRATMEELSRYFPPGLEYEIPYDTSPFVKISIEKVIHTLIEAIILVFVVMFVFLQNIRYTIIPTLVVPVALLGTCAIMYVSGFSINVLTMFAMVLAIGILVDDAIVVVENVERIMAEEHLSPKEATRKAMGQISGAIIGITLVLTAVFVPMAFFPGAVGIIYQQFSLTMVVSILFSGFLALSLTPALCASFLKPIKAGHHEKKGFFGWFNRGFDKASHKYSSSVGSIIKRSGRFMVVYAALLVGLGWAYMQLPSSFLPNEDQGYLIVDIQAPAEASSDRTLQSIQQIEKIFMEEPAVDRVIAVSGFSFSGSGQNAGLAFATLKDWSERGPNDSAAAISARVNAKLWGLPDAMSFALSPPPIQGLGNSSGFTFRLQDRSGAGQAALSAAGAQLMAAARQSPILAGLRIEGMPDAAQVNLIIDREKANTFGVTFSDINATISANMGSSYVNDFPNAGRMQRVTVQAEQGQRMKTEDLLNLNVRNANGGMVPVSSFATVEWVRGPSQVVGYNGYPAVRIGGQSAPGYSSGDAIAEMERLAGELPSGFGFEWTGQSLQEIQSGSQAPALIGLSVLFVFLLLAALYESWSIPLSVMLVVPLGVIGSVAAVMLRGMPNDVYFLVGLVAIIGLSAKNAILIIEFAKDLRAEGKSTYDATVEAAHLRFRPILMTSLAFSLGVLPMAIASGASAASQNAIGTGVLGGMISATILAIFFVPVFFVFVMKIFGDRKKENEIAADAVSPAE	PGPT0003280_2022	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003280-acrB|acrE|mexB|adeJ|smeE|mtrD|cmeB-K18138	NA	NA
BMS010_03716	1191	srpA		Solvent efflux pump periplasmic linker SrpA	ATGGCGAAGAGATTGGGGCAGATCGCGGCGGTGTTGTTGACGGGCATCGTTCTTGTCGGATGTAGCGATGAGCAGGCGTCTGCGCCCGGCGCGCCGCCGCCCGGTGCGGTGAAGGTCGTGACGGTGAGCCAGGAAGAACTGCCCATCACCAACGAATTGCCAGGACGCATTGCGCCGACGCGGCTTGCCGAAGTGCGCCCGCGTGTCTCCGGCATTATCGTGGAGCGGGTGTTCGAACAGGGCTCGCTGGTGAAGGAGGGCGATGTTCTCTACCGGATCGATCCCGCGCCGTTCCAGGTGCGTGTCGACAGCGCCGAGGGCACGTTGCGCCGGGCGCAGGCCGCGCAGCTTCAGGCGCGGCAGACGGCCGACAGGCAGCAGCAGCTGCGCCGTTCAAACGTCGGTTCCCAGCAGGAATTCGATAACGCCATCGCCCAGCTGGCGCAGGCCGATGCCGAGGTGGCCGTGGCCGAAGCCGGTGTCGCGGAAGCGAAGCTCAATCTGCAATATGCCGAAGTCAAAGCCCCGATCAGCGGCCGCATCGGTCGCGCGCGCATTACCGAAGGCGCCCTCGTCAGCGCCACGGGCTCTGAAAATCTGGCGACGATCCAGCAGCTCGATCCGATCTATGCCGACTTCACCCAGCCGGCGGCCGATCTCATTCGCCTGCGCAAGGCCCTGCAGGATGGTAAGCTGATGACCGGCCCGAACGAGGCAGAAGTCAACCTGCTGTTCGATGACGGCAGCCGTTACCCGCTGCCAGGCCGCCTGCTGTTTTCCGAAGCGGCGGTGGATGAAACCACCGGTCAGGTGACGCTGCGCGGTGAGTTCCCCAACCCGAACGGCGATCTGCTGCCGGGCATGTATGTCCGTGTGCAGATCCAGCAGGGTATCCAGAAAGCGGCCTTCGCCGTGCCGCAGCAGGCGGTTCAGCGCGATGCCGGCGGTCAGGCGAGCGTGCTTGTCGTCAATGCCGAAGACACGGTGGAGCAGCGTCGTGTCAGCGTCGGCCGCTCCATCGGCGATCGCTGGGTGATTTCCGAGGGTCTGAAGGACGGCGACCGCGTCGTGGCCGAAGGTTTCCAGAAGACCGCTCCGGGCGCGAAAGTGAAGCCGGAACCGTGGTCCGATGAGGCCGATGTCACCACCGCCGCTGACAGCGAGAGCGCGGCTCCGGCTGCGAAGCAATAA	MAKRLGQIAAVLLTGIVLVGCSDEQASAPGAPPPGAVKVVTVSQEELPITNELPGRIAPTRLAEVRPRVSGIIVERVFEQGSLVKEGDVLYRIDPAPFQVRVDSAEGTLRRAQAAQLQARQTADRQQQLRRSNVGSQQEFDNAIAQLAQADAEVAVAEAGVAEAKLNLQYAEVKAPISGRIGRARITEGALVSATGSENLATIQQLDPIYADFTQPAADLIRLRKALQDGKLMTGPNEAEVNLLFDDGSRYPLPGRLLFSEAAVDETTGQVTLRGEFPNPNGDLLPGMYVRVQIQQGIQKAAFAVPQQAVQRDAGGQASVLVVNAEDTVEQRRVSVGRSIGDRWVISEGLKDGDRVVAEGFQKTAPGAKVKPEPWSDEADVTTAADSESAAPAAKQ	PGPT0003275_1935	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003275-acrA|lir|mtcA|mexA|adeI|smeD|mtrC|cmeA-K03585	NA	NA
BMS010_03717	1506			hypothetical protein	ATGAATGAGATAATCGATACCAATGTCTTCAATCTTGCCCCCGTGGCGATGTGGATCGAGGATTTCAGCGAGGTGAAAAGCCAGTTCGATATCTGGCGATCGCAAGGCGTCGAGGATATCCGGGCGTTTCTTCTGGAAGATTTATCGAGGGTGGCGGCCTGCTCGCAGAAAATCCGCGTGATCAAGGTCAACGCCAGGACGCTGGAACTGTTCGAGGCTCGCGATCAGGCGCATCTCGTCGACAATCTACACCGGATTTTTCGTGACGACATGCTGGAGAGCCATGTGAACGAGCTTTCCGAGCTCTGGGCGGGCAAGACGGAATTCACCAGCAACGCGGTCAATTATTCAATCGGCGGCAAGCGGCTGGATATCCAGTTGCGCGGCGCGGTCATACCCGGCCATGAAGAAACCCTCGGGCGGCTGCTTTTGACCACCGAGGATGTGACGGAGCGGGAGGAGGCGCGCCGCAAGGAGCTTCTCAACCGCCGTTACGCCGAAGGCATGTTCAAACATTCGCCCGTTTCCCTGTGGGTGGAGGATTTCAGCCGGGTGCGGCGGCTGATCGAGGAGGTCAGGGAGCGCGGCATTATCGATTTCCGCGTGTTCATGGATGTCCATCCCGAATTCGTGCGGCAATGCATGAGCGAAATCCGCGTCATCGACGTCAACCGCGCCACGCTCGACCTGTTCTGCGCGCCGGACCGGCAGGTTCTGTTGCAGCGGCTTGGCGATATTTTCCGTGGCGAGATGGAAAAGCCGTTCCGGGAACAGCTGATGGAGCTTTGGAACGGCAATCTCACCCACCATCGCGAGGTGGTGAATTACGCGCTTGACGGTTCGGAGCGGCATGTGCTCCTGCACTTTTCCGTCTTCCCCGGCCATGAGCGCGACTGGTCGCTGGTGCAGGTGGCGTTGACGGACATTACCGCGCGCAAGAAGGCGGAAGCCTATCTCGAATATCTCGGCAAGCACGATGTACTGACCAAGCTGCACAACCGTGCCTTCTATTCGGACGAGCTGAACCGGCTGGAGCGCAGTGCGCTCAGACCGGTTTCGGCCATCGTTATCGATCTCAACGGCCTGAAGGACGCCAATGACAGGCTGGGACACGATGCCGGCGACGCATTGTTGCGGCGTGTGGGCGAGGTGCTGAATGGCGTGGTGACCGCGCCGAACCATGCGGCGCGCATTGGCGGCGACGAATTCGCCATCCTTCTTCCCGGCGCCGACAGGCAGGTGGCCGCCGCCATGGTCGAAACCGTTTATGAGCTGTTGAAGATCAACAACCAGTTCTATTCCAGCGCGCCGCTCAGCCTGTCACTGGGCGTGGCCACCAGCGAGGTCGGAGAGACGATGGAATCGCTGGTACGCCGCGCCGATATGAACATGTACGAGCAGAAGAACGCCTATTATGCGGCGCTGCGCAACAGATCCGCCGACAATAACGACACGACGAAACCCGGCTCGCAGCCGGAAGCCTCCTCGCTGAAGCGTCTGTCCTGA	MNEIIDTNVFNLAPVAMWIEDFSEVKSQFDIWRSQGVEDIRAFLLEDLSRVAACSQKIRVIKVNARTLELFEARDQAHLVDNLHRIFRDDMLESHVNELSELWAGKTEFTSNAVNYSIGGKRLDIQLRGAVIPGHEETLGRLLLTTEDVTEREEARRKELLNRRYAEGMFKHSPVSLWVEDFSRVRRLIEEVRERGIIDFRVFMDVHPEFVRQCMSEIRVIDVNRATLDLFCAPDRQVLLQRLGDIFRGEMEKPFREQLMELWNGNLTHHREVVNYALDGSERHVLLHFSVFPGHERDWSLVQVALTDITARKKAEAYLEYLGKHDVLTKLHNRAFYSDELNRLERSALRPVSAIVIDLNGLKDANDRLGHDAGDALLRRVGEVLNGVVTAPNHAARIGGDEFAILLPGADRQVAAAMVETVYELLKINNQFYSSAPLSLSLGVATSEVGETMESLVRRADMNMYEQKNAYYAALRNRSADNNDTTKPGSQPEASSLKRLS				NA	NA	NA	NA	NA
BMS010_03718	816	allE	COG3257	(S)-ureidoglycine aminohydrolase	ATGAAGAGATATTATTCGGATATGGGTGGTCTGCCGGGACAGACGGAACTTCTGTCGAGCAAGGCGGTGTTCAAGACCGCCTATGCGGTCATCCCCAAAACCGTCATGTCCGATATCGTAACGAGCGTGCTGCCGCACTGGACCGGCACCCGGGCCTGGATCATCGCCCGGCCAATGACGGGTTTTTCCGAAACCTTCGCGCAATATATCGTCGAGGTGCAGCCGGGCGGCGGCAGCGACCGGCCGGAACCGGACGCAAGGGCGCAAGCGGCGATCTTCGTTGTCGACGGCGAAATGACCGTGGAATTCGAGGGCGTGCCGCATGCCTTGCGGGAGGGCTCCTTCGCCTTCCTGCCGGCCGGTTCCCGCTGGCAGCTTCGCAATTCGGGCAAGGCGCCCGTCAAGTTCCACTGGGTCCGCAAGGCGTTTCAGGCGGTCGACGGGCTGGAGCCGCCGCCGGCTATCTTCACGCATGAGGATGAGCACGCTTTGTCGGCCATGCCGGATACGGACGGCAAATGGGCGACGACCCGCTTCATCGATCCTGAAGACGTGCGTTACGACATGCATCTCAACATCGTTACCTTCGAGCCGGGCGCGACCATTCCCTTCATGGAAACCCATGTGATGGAACACGGCCTTTATGTGCTGGAAGGCAAGGCCGTCTACCGGCTGAACGAGGACTGGGTGGAAGTGCAGGCGGGCGACTTCATGTGGCTGCGCGCCTATTGCCCGCAGGCCTGCTATGCGGGCGGGCCGGGCCGCTTCCGTTACCTGCTCTATAAGGATGTGAACCGGCACGTGAAGCTCTGGTAA	MKRYYSDMGGLPGQTELLSSKAVFKTAYAVIPKTVMSDIVTSVLPHWTGTRAWIIARPMTGFSETFAQYIVEVQPGGGSDRPEPDARAQAAIFVVDGEMTVEFEGVPHALREGSFAFLPAGSRWQLRNSGKAPVKFHWVRKAFQAVDGLEPPPAIFTHEDEHALSAMPDTDGKWATTRFIDPEDVRYDMHLNIVTFEPGATIPFMETHVMEHGLYVLEGKAVYRLNEDWVEVQAGDFMWLRAYCPQACYAGGPGRFRYLLYKDVNRHVKLW	PGPT0021650_417	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021650-ylbA-K14977	NA	NA
BMS010_03719	1047			hypothetical protein	GTGGTGCGGGTAAAGAAGAAAAATCTTGACGGGGCAAGTCTGATTACCCCGGATACTGTCGCAAAAGAGATTTTTGAACGCAGAACGGAAACATTCGATGAGCAGTTCGCCGTTGCGAAAGCAGAGATTGCGCTCATTCTCGAATTGGCACAGCAGCAGTTCGACAATCGTATTTCAGCACGTGAGATAATACATAGAACGGCGGGCGCACTGCATGGTCTGCGTGAGAAGCTCCACTCCAGCGTGTGGGCTGAACTGATTCCGCTGGTGCAGAATCACCCTGTTTCGGTCCATTTTCTGGAGGACCCGTTCACGCGCTGGTCTTTCGAAAAGCCGCGGGGTTATTCGGGCGATGCGCAGCTGCTCGATTTCATTTATGGCCACGACAGTGTTGCCGAACTGGTAAATAACGCCACGCCGCTCGGTGCGGCCCTTTACGACTACACGAAGGATGCCAGTTCCTCGGTCGCCGTGCGCGAGCGGCGCGATTTGCTGACACGGTTCGTCGATGAAGCTGCGGCCCGGCACGGTAGTGAGACGGAAATCCTCACCATCGCTTCCGGCCATCTGCGTGAGGCGGATGCCTCCGTGGCGCTGAAAGAGGGCAAGATCAAGCGCTGGGTGGCGCTCGATCAGGACCCCTTGAGCGTCGGTTCCGTCGCCCGCGATTTCAACGGCAGCTGCATCGAGGCGATCGACGGTTCCGTGCGCGATATCGTCCTGCGCACGCAGGAACTCGGCACTTTCGATCTGATCTACGCGGCCGGTCTCTACGACTATCTGAACGACCGCGTGGCGATCAAACTCACGCGGCGCTGCATGGAAATGCTGAAGCCCGGCGGCATGTTCCTCTTCGCCAATTTCTCGGAAGACATCGTCGTCGACGGTTACATGGAAACCTTCATGAACTGGGCGCTGCTGTTGCGCTCCAAGGCGGATATGTGGCGAATCGTCAACGCCAGCGCCGATCCTGCAGGCATCGAGGCGGATGTGTTCTTCGGGGAGAACCACAATATCGTCTACGCTACGATGCGTAAGAAGGCGTGA	MVRVKKKNLDGASLITPDTVAKEIFERRTETFDEQFAVAKAEIALILELAQQQFDNRISAREIIHRTAGALHGLREKLHSSVWAELIPLVQNHPVSVHFLEDPFTRWSFEKPRGYSGDAQLLDFIYGHDSVAELVNNATPLGAALYDYTKDASSSVAVRERRDLLTRFVDEAAARHGSETEILTIASGHLREADASVALKEGKIKRWVALDQDPLSVGSVARDFNGSCIEAIDGSVRDIVLRTQELGTFDLIYAAGLYDYLNDRVAIKLTRRCMEMLKPGGMFLFANFSEDIVVDGYMETFMNWALLLRSKADMWRIVNASADPAGIEADVFFGENHNIVYATMRKKA				NA	NA	NA	NA	NA
BMS010_03720	1995			hypothetical protein	ATGAAGCACACATTGGGAGAGGTGAGTGGACAGCAAGACTATCGGCGGCCGGACTCCCGGTTTTCTGATGAACTCCTTGCCCTTTACCAGCAGGAAGGTGAGCGCAGCCGCCGCGGCTCTATCCGGCGGGGCCTGTGGACCGCTGTCTTCATCTATCTGCTGTTTGCCGCAACCGACATCATTCTGATACCCGACGTCGCTTTTTACACCATTATCGCACGCCTGATTGTTGTGCTGTCATCCCTGCTGACGCTGGAGATTCAGCTAAGCAAGGGCGCCAGCACCACGGCGCTCGATCTCACCTGCGCCACCGCTCTCGTCATGGGCTATATCGGCTGGCTGCTGCCGTCGCTGTTGACCGACAATACCGAAAACATGTCCTATTACATGGTTTTCGGGGCGATCTTCATGATGGGCGCCAATCTGTTTTTCACCTTCCGCTTCCATCTGTCGCTGGTGTCTTCAGGCATTATTCTCGTCACCTATTTTCTGGCGGCAACGCAGTTTCCCGAAGACAGCTTCTACAAGTTCGCCTTTGGCACCTTCTACATATCCTGTTTCGTCTTCACTTCTTACGTAAACTGGAACCTGAACCGGGAGCGCTACCACGTCTTCGTCAACGGGCTGGAGGCGAAGGCCCAGCAGAAGGCGGCTGACGAACGTGGCCAGGCGCTGCTGCGGCTTTCCAATACAGATTCCCTGACAGGCCTGCAGAACCGCCGCGCCATCGACCACCATCTGCGCCTGCTGTGGGACAACTGGATCAGGAAGGAAGAAGGCTTTGCCGTTTTCCTGATCGATGTCGACTTCTTCAAGAAATACAACGACCGTTACGGCCACCAGGAAGGCGACAAATGCCTGGTGACGGTGGGCAAAGCCCTGCAGGATGCGATCACCGAACACGGCGCTTCCATCGGCCGCTATGGCGGTGAGGAATTCATCGTGCTGGCGCCGTTCAAATCCAAGCAGCAGGTGGGTGAGCTTGCCGAGACGATCCGCCACACCGTTGAAGACCTGTCGCTTGCGCATGACCAGCGCCGGGATGGCACCTTCATCGTCACCGTCAGCATCGGTGCGTCCTTCACCCGTCCCAATGCGGACGGGAAGCTGGAAAAGATCATCAACGAGGCCGACCGCGCGCTTTATATCGCCAAGGGCAATGGCCGCAACTGCATGAAGCTGTTCGATCCGGACGATCCGCAGACCAGCGACGAGACGGAAAACATCGCCGCCCTGCTGAAAATCGCTGTCGCGGAAGATCTCGTTTCCCTCGTCTATCAGCCTATTCTCAACGTTTCGACCAATGAGACCGCGGGGGTCGAAGCGCTGATGCGGCTTCGCCTGCTGGATGGCAATCCAGTCGCACCCGGTATTTTCATTCCGATTGCCGAACGCACCGGCACGATCATGGAACTGGGCCTGTGGACCATCAAAACCGTCTGCAAGCAGATACTGGCCGATGACAAGGTGGCGGTCGTCAGTGTCAACGTGTCGCCGATGCAATTGAAAAATCCGGGTTTCGCCACCTCGGTGGCCGCCATTCTCGTGGAGGCGGGAATTGCCGGCAACAGGCTTGCCTTCGAAATCACCGAAGGCGTCGACATGGAAATGCACTCGGACGTGCTGCGTTGTCTGAACGACCTGAAAACGCTCGGCATCAATATCTGGCTGGATGATTTCGGAACGGGTTTTGCCGGCCTTTCCTGGCTGCGCATGACGGATTTCGATACCGTCAAGATCGACCGCTCCTTCCTGCACGACAGCAAGACCCCGCGTGGCCGGGCGATGCTGCAGGACATGATCCGCCTCATCCGCAATCGCGGCCACAAGATCCTGATCGAAGGCGTCGAGACCGAGGAACAGCTGAGGCTCGTGCGTCAGATGGAAATCGACTACGCGCAGGGCTATTATATCGGTCGCCCCATCGGGGCCGAAAGGCTGGGCGCGGCGGCAGCGCCCTATCCGCGCCCGAATATGCTGCTGCGACCCGCCTGA	MKHTLGEVSGQQDYRRPDSRFSDELLALYQQEGERSRRGSIRRGLWTAVFIYLLFAATDIILIPDVAFYTIIARLIVVLSSLLTLEIQLSKGASTTALDLTCATALVMGYIGWLLPSLLTDNTENMSYYMVFGAIFMMGANLFFTFRFHLSLVSSGIILVTYFLAATQFPEDSFYKFAFGTFYISCFVFTSYVNWNLNRERYHVFVNGLEAKAQQKAADERGQALLRLSNTDSLTGLQNRRAIDHHLRLLWDNWIRKEEGFAVFLIDVDFFKKYNDRYGHQEGDKCLVTVGKALQDAITEHGASIGRYGGEEFIVLAPFKSKQQVGELAETIRHTVEDLSLAHDQRRDGTFIVTVSIGASFTRPNADGKLEKIINEADRALYIAKGNGRNCMKLFDPDDPQTSDETENIAALLKIAVAEDLVSLVYQPILNVSTNETAGVEALMRLRLLDGNPVAPGIFIPIAERTGTIMELGLWTIKTVCKQILADDKVAVVSVNVSPMQLKNPGFATSVAAILVEAGIAGNRLAFEITEGVDMEMHSDVLRCLNDLKTLGINIWLDDFGTGFAGLSWLRMTDFDTVKIDRSFLHDSKTPRGRAMLQDMIRLIRNRGHKILIEGVETEEQLRLVRQMEIDYAQGYYIGRPIGAERLGAAAAPYPRPNMLLRPA	PGPT0026010_1879	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0026010-mucR-K21023	NA	NA
BMS010_03721	1077	yjmC	COG2055	putative oxidoreductase YjmC	ATGGCGCACAGCAATGAAAAAGCCACCGTTCTGGCGAGCCTGGGTGAGCTGGAGCGGTTTTGCCGCACCGTTTTTCTGGCCGCCGGCACCGATGACGAAACGGCCGATGCGGCGACCCGCGCCATGATGCACGGCACAAGGCTCGGTGTGGACAGCCACGGTGTGCGCCTCCTCGCACATTATATTACCGCTCTCGAAGGCGGGCGTCTCAATCGGCGGCCGCAGATCCGCCGCGTTTCGGGCTTCGGCGCGGTGGAGACGATCGACGCCGACCACGCCCATGGCGCCTGCGCCACCTATGCGGCGATGGACAGCGCCATGGTGCTCGCGGAAAAATTCGGCATTGGCGCGGTGGCGATCCGCAACTCATCGCATTTCGGCCCGGCCGGCGCATATGCGCTGGAAGCGGCGCGGCAGGGCTATATTGGCCTCACCTTCTGCAATTCCGACAGTTTCGTGCGCCTGCACGATGGCGCCATGCGTTTCCACGGCACCAATCCAATCGCCATCGGTGTGCCGGCAGCGGACGATATGCCCTGGCTGCTGGATATGGCCACCAGCGCGGTGCCCTATAACCGTGTCCTGCTTTACCGGAGCCTCGGCCAGCAATTGCCGCAAGGTGTGGCCTCTGACGGCGACGGCGTCGATACCCGCGATCCCCATGCCGTTGAAATGCTTGCCCCGGTCGGCGGCGAGTTCGGTTTCAAGGGGGCCGCACTTGCGGGAATGGTCGAGATTTTCAGCGCTGTTCTCACGGGCATGAAACTCAGCTTCGATATCGCTCCCATGGGCGGGCCGGATTTTTCCACGCCGCGCGGCCTTGGGGCCTTCGTTCTGGCGCTGAAGCCGGAAGCCTTTCTGGAGCGCGAGGTGTTCGACGAGGGCATGAAGCGTTATCTCGAGGTCCTGCGCGGATCTCCCGTGCGGGAAGATTGCAAGGTCATGGCGCCGGGTGACCGGGAGTGGGCGGTGGCGGCAAGGCGGGAGAGGGAAGGGGCTCCTGTCGATCCCGTCACGCGGGCGGCCTTCTCGGAGCTTGCCGTAAAATTCTCGGTCAACCCGCCTGCTTATCATTAA	MAHSNEKATVLASLGELERFCRTVFLAAGTDDETADAATRAMMHGTRLGVDSHGVRLLAHYITALEGGRLNRRPQIRRVSGFGAVETIDADHAHGACATYAAMDSAMVLAEKFGIGAVAIRNSSHFGPAGAYALEAARQGYIGLTFCNSDSFVRLHDGAMRFHGTNPIAIGVPAADDMPWLLDMATSAVPYNRVLLYRSLGQQLPQGVASDGDGVDTRDPHAVEMLAPVGGEFGFKGAALAGMVEIFSAVLTGMKLSFDIAPMGGPDFSTPRGLGAFVLALKPEAFLEREVFDEGMKRYLEVLRGSPVREDCKVMAPGDREWAVAARREREGAPVDPVTRAAFSELAVKFSVNPPAYH	PGPT0021440_19	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021440-allD-K00073	NA	NA
BMS010_03722	2673			hypothetical protein	ATGAGTGTGCACGCTGCCATGAGTTTCTCCCGATCCAGATTCCAGAATTCGTCCAATAGCGTAGGGGAGGGGAGCGAGAAGGCTCGTCATGCCGGCGGCCAGTCGGTTGCCGGTCAGCAGACGGCGGGAATGAAGGCGGGCGCGGCACCCCGGCCGAATGCCGATGTTAGCGCAGCCGATGCCATTGAAGGCCGCGCCGAGATGCCCGGCTGGCAGAATGCTTTCGTGCTCGGCCCGAATGTGCGTTTCACCCGCACGCCGGAAAGCGCCTTTGCCCGGCGCATGCCGGTCGAGACACCCAATATTCCGGAAGAGGAAATCCCAGCTGCCGCCCCGCCTGAAACGGTGGAGCAGGAACACGCCGTGCAGCAGGAGGTTTCTGTCCCTCAACCCGTCGTGAAGCCCGCTGAACAGCGCGTGCCGCCGCCGCGCATGCCGTTTCTGCCGCAGCCGCCGGAGGCCCGGGGCGCCAGGGCGCTGACTTACAAATTGCGGCTGGAGCTTGCCCGCAAGCAGGCGGAAGAGGCGGCTGCCGCTGCGCAGATGCCGGTTCAGGAGGGTATCTCCGTAGCCGTGGAAGCGCCTGTGCCGCAGGTATCCCCGTCGGTTCAGCCGCAATCCGTCGCGCCTGCTGTCGAGGCCGCTCAGGCCGCCATTCCTGCTTTCGCCGCCCATCTGCCGGATGAGCTTTTCTGGGAAGTGATGACGCTCGATCTGCCGGGCAGTGCCGGCGAGGGCGTTTCTGCGTCCACGCGCGCCGTTCTTGCAAATTCGGTCGTCACGGCGCCAACGATAGTCGCGCCGGCGGCCGTCGTGTCGCCGGCAGCGGCTGCGATCGTGCTTTCGTCCGAACCTCCGGTCGTCACCGTGCCGGGCGGTTCCGCAATCCGGCTTTACCGCGAGATTGGCGTGCGTCAGTCCGTCGTTCCTGCCGCCCTTCCGGCGGTAGAACAGGAAGTCGCGCCGCTGCCCGTCGCGGAAGCGCCGATGGTTGTCGAGACGTCGAGACCTGTGGAGCAGGTTCAGCCGGTTGAGAGAATTGCGGCCGAGCCGCGCTTCACGCCACGCGCGCCCATCCAGGCCTCGCAGCCGATGTTCCGCGAAGCGCCTGTTTTCGCCGAAGGGGAATATGAATATCCCTCCATCGATCTTCTGCAGGAGGCCCGCGTCCAGCAGACCACGACCATGACGCCGGAAGCGCTGGAGCAGAGCGCCGGGCTTCTCGAAAGCGTGCTGGAGGATTTCGGCATCAAGGGCGAGATCATCGATGTCCGTCCGGGCCCCGTCGTCACGCTGTATGAGTTCGAGCCCGCCCCCGGCGTCAAGTCCTCGCGCGTCATCGGTCTCTCGGATGATATCGCCCGCTCCATGTCGGCGCTCTCGGCCCGTGTCGCCGTTGTGCCAGGCCGAAATGTCATCGGCATCGAACTGCCGAACCCGGTGCGCGAGACGGTTTATCTGCGCGAACTGATCGAAGCGACCGATTACGCTGAAACCCGCCAGAAGCTTGCACTTTGCCTCGGCAAGACCATCGGCGGCGAACCTGTCATCGCCGAACTGGCGAAGATGCCGCATCTGCTGGTCGCCGGCACCACCGGCTCCGGCAAGTCGGTCGCCATCAACACCATGATCCTGTCGCTGCTCTATCGTCTGAAGCCGGAAGAGTGCCGTCTGATCATGGTCGATCCCAAGATGCTTGAGCTGTCCGTTTATGACGGTATTCCGCATCTGTTGACGCCTGTCGTTACCGATCCGAAGAAGGCGGTCATGGCGTTGAAGTGGGCCGTGCGCGAAATGGAAGACCGCTATCGCAAGATGTCGCGTCTCGGCGTACGCAATATCGACGGGTACAATGCAAGGGCCGCTGCCGCCCGCGCCAAGGGCGAGACGGTGTTCTGCAACGTGCAGAGCGGTTTTGACCGCGCCACCGGCGAGGCGGTCTACGAGCAGGAAGAAATGGACCTCACGGCCATGCCTTATATCGTCGTCATCGTCGACGAAATGGCCGATCTGATGATGGTCGCGGGCAAGGAAATCGAAGGCGCGATCCAGCGTCTGGCGCAGATGGCGCGTGCCGCCGGCATCCATCTCATCATGGCAACCCAGCGCCCGTCGGTCGATGTCATCACCGGTACGATCAAGGCGAACTTCCCGACCCGCATCTCCTTCCAGGTGACCTCGAAGATCGACAGCCGCACCATCCTCGGTGAACAGGGCGCGGAACATCTGCTCGGCCAGGGCGATATGCTGCACATGATGGGCGGTGGCCGCATCGCCCGTGTCCACGGTCCCTTCGTTTCGGATGAGGAAGTGGAAAAGGTGGTCGCGCATCTGAAGACGCAGGGACGTCCGGAATATCTCGGCACCGTTACCGAAGACGCCGACGAAACCGACGAAGAGGCGGAAGAGGACGCCGCTGTTTTCGACAAGACCGCCATGGGTGAGGACGATAGCGACTATCTTTATGAAAAGGCCGTCAAGGTGGTGATGCGCGACAAGAAGTGCTCCACATCCTATATCCAGCGCCGCCTGTCCGTCGGTTACAACCGTGCCGCTTCGCTGGTCGAGCGCATGGAACAGGAAGGCATTGTCGGGCCTGCCAACCATGTCGGCAAACGTGCGATTATTGCCGGCGAACGCTCTTCTTACGATGCCATGGGAGCGGAAGACTGA	MSVHAAMSFSRSRFQNSSNSVGEGSEKARHAGGQSVAGQQTAGMKAGAAPRPNADVSAADAIEGRAEMPGWQNAFVLGPNVRFTRTPESAFARRMPVETPNIPEEEIPAAAPPETVEQEHAVQQEVSVPQPVVKPAEQRVPPPRMPFLPQPPEARGARALTYKLRLELARKQAEEAAAAAQMPVQEGISVAVEAPVPQVSPSVQPQSVAPAVEAAQAAIPAFAAHLPDELFWEVMTLDLPGSAGEGVSASTRAVLANSVVTAPTIVAPAAVVSPAAAAIVLSSEPPVVTVPGGSAIRLYREIGVRQSVVPAALPAVEQEVAPLPVAEAPMVVETSRPVEQVQPVERIAAEPRFTPRAPIQASQPMFREAPVFAEGEYEYPSIDLLQEARVQQTTTMTPEALEQSAGLLESVLEDFGIKGEIIDVRPGPVVTLYEFEPAPGVKSSRVIGLSDDIARSMSALSARVAVVPGRNVIGIELPNPVRETVYLRELIEATDYAETRQKLALCLGKTIGGEPVIAELAKMPHLLVAGTTGSGKSVAINTMILSLLYRLKPEECRLIMVDPKMLELSVYDGIPHLLTPVVTDPKKAVMALKWAVREMEDRYRKMSRLGVRNIDGYNARAAAARAKGETVFCNVQSGFDRATGEAVYEQEEMDLTAMPYIVVIVDEMADLMMVAGKEIEGAIQRLAQMARAAGIHLIMATQRPSVDVITGTIKANFPTRISFQVTSKIDSRTILGEQGAEHLLGQGDMLHMMGGGRIARVHGPFVSDEEVEKVVAHLKTQGRPEYLGTVTEDADETDEEAEEDAAVFDKTAMGEDDSDYLYEKAVKVVMRDKKCSTSYIQRRLSVGYNRAASLVERMEQEGIVGPANHVGKRAIIAGERSSYDAMGAED	PGPT0030468_3379	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION-ESS_SYSTEM,PGPT0030468-essC|eccC|ftsK|spoIIIE-K03466	NA	NA
BMS010_03723	1611	dppA_3	COG0747	Periplasmic dipeptide transport protein	ATGTCGCCTGTCCACCTGTCCCGCCGCTCGCTTCTAAAGACGTCACTCCTTCTTGCCGCAACCACGGGTTTGGCGGGCATAGCCGCCGCGCAGGAGGCGGCACCAGGCGGAAGGCTGATCGTCGCGGCCGATTCGGAGCCGAAGAACCTCAACCCGGCGATCGTCGCCTCAAACGGCGTGTTTTATATTGCCAGCAAGATCGTCGAGCCGCTGGCCGAGGCCTCCTTCGATGGCAAGGATGGGCTCACACCGCGGCTTGCGACCGAATGGCAGGGATCGGATGACGGTCTCAGCGCCACTTTCAAGCTGCGCGAAGGCGTGTCCTGGCATGACGGCAAGCCGTTCACCGCGGCGGATGTCGCCTTTTCGGCGCTCTCCATCTGGAAACCTCTGCAGAATCTCGGACGGCTGGTCTTCGCCAATCTCGAGAAGGTGGACACGCCGGATGAACACACGGCGATCTTCCGCTTTTCCAAGCCCACGCCTTTCCAGCTCATCCGCAACGCCCTGCCGGTCGTCACCAGCGTCGTGCCGAAACATCTTTATGAAGGCACCGATATCGCCACCAACCCGGCCAATACCAAGCCGGTCGGCACCGGGCCTTTTTTCTTTGCCGAATACAAGCCCGGTGAATATTACCGCCTGACCCGCAATCCCAATTACTGGGGCAAGGGCGAACCGCAGCTCGAAGAGATCATCTACCGCGTCCTGCCGGACCGGGCGGGTGCGGCCTCCGCGCTCGAAGCAGAGGAAATTCAGCTCGCCGCCTTTTCGGCCGTGCCTCTGGCCGATCTCGAGCGCATCTCGAAGGTGCCTGGCATCAAGGTCATTGCCGATGGTTACGAGGCGCTGACCTATCAGCTAGTGGTCGAAATCAACCATCGCCGCAAGGAACTGGCCGATCTCAAGGTCAGAAAGGCCATCGCCCACGCCATCGACAAAAAATTCGTCATCGACAAGGTCTTCCTCGGTTACGCCACGGCATCCACAGGCCCGGTGCCGAAGAACGCCCCTGAATTCTACACCGACGATGTCGAGACCTATGATTTCGATGTGGCCAAGGCCAATGCACTGCTGGACGAGGCGGGTTATGCGCGCGGCCCGAACGGAACACGTTTCTCGCTGAAACTTCTGCCGGCGCCCTATTTCAACGAAACCAGACAGTTCGGCGCCTATCTTCGTCAGGCGTTGCAGGAAATCGGCATCGATGCCGAGTTGGTCAACAATGATTCAGCTGCTCACCAGAAGGCGGTCTACACCGATCATGCCTTCGACCTCGCCATCGCGCCGCCGGTCTTCCGCGGCGACCCGGCAATTTCCACCACCATTCTCGTGCGTTCCGGCATTCCGGCGGGCGTCGGCTTCTCCAATCAGGGCGGTTACGAGAACAAGACGCTGGACGAATTGATCGACAAGGCGTCGATAACGGTCGACACCGCCGCGCGCACGGCGCTTTACAAGGATTTCCAGAAGCAGGTCGCCGCCGATCTGCCGCTGATCAACGTTGCCGAATGGGGCTTCATCACGGTGGCGCGCGATACCGTCAAACATGTCGCCAGCAATCCCCGCTGGGCCGTTTCCAACTGGGCGGATACCGCGGTCGATACGTAA	MSPVHLSRRSLLKTSLLLAATTGLAGIAAAQEAAPGGRLIVAADSEPKNLNPAIVASNGVFYIASKIVEPLAEASFDGKDGLTPRLATEWQGSDDGLSATFKLREGVSWHDGKPFTAADVAFSALSIWKPLQNLGRLVFANLEKVDTPDEHTAIFRFSKPTPFQLIRNALPVVTSVVPKHLYEGTDIATNPANTKPVGTGPFFFAEYKPGEYYRLTRNPNYWGKGEPQLEEIIYRVLPDRAGAASALEAEEIQLAAFSAVPLADLERISKVPGIKVIADGYEALTYQLVVEINHRRKELADLKVRKAIAHAIDKKFVIDKVFLGYATASTGPVPKNAPEFYTDDVETYDFDVAKANALLDEAGYARGPNGTRFSLKLLPAPYFNETRQFGAYLRQALQEIGIDAELVNNDSAAHQKAVYTDHAFDLAIAPPVFRGDPAISTTILVRSGIPAGVGFSNQGGYENKTLDELIDKASITVDTAARTALYKDFQKQVAADLPLINVAEWGFITVARDTVKHVASNPRWAVSNWADTAVDT	PGPT0004430_9059	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004430-ddpA|ABC_PE_S-K02035	NA	NA
BMS010_03724	990	gsiC_3	COG0601	Glutathione transport system permease protein GsiC	GTGAAGCGTGCAGTAACATTGCTGAAGCGAAGGGCAGTCAGCGCCATTCCGGTGCTGCTGATCGTTGTCATCTTCACTTTCGTCCTGCTTGAAAATGCATCCGGAGACGCGGTGGACGCCTATCTCGTCTCCATTGGCGGCGGCGATGCCGGGCTCAGGGATGTGTTGCGCGAACAATACGGCCTGAACGGTTCGGTATTTGCCCGTTTCTGGCTCTATGCCAGCTCGGTGCTGCGGCTCGATCTCGGCTGGTCCCTTGCCTTCGACCGGCCGGTGCTGGAGCTGATCCTCGAGCGGCTGCCGAACACACTTCTCCTGATGGGCAGCGCCACCGCATTCGCCTTCATCCTCGGCACCGGGCTTGGCATCGTGGCCGGCGCGCGTCCCGGGGGGCTGACGGATCGCTTGCTTTCAACGCTTTCGCTGGCGCTTTACGCCACGCCCGGCTTCTGGCTCGGCCTCGTGCTGGCCATCGTCTTTGCCGTTCAACTCAAATGGCTGCCCACCTCAGGCATCGAAACCATCGCTTCGGGCAAGCAGGGATTTGCAAGGGCGCTCGATATTGCCCGCCATCTCGTGCTGCCGGTCGCCAGTCTCGGCCTCATTTATCTCGCGCTTTTCCTGCGCGTCATGCGCACTGCCATGGCGGCGGTCTGGCCGCTGGATTTCGTGCTTTTTGCGCAATCCAAGGGGCTTTCCAAACGGCGGATCGTGCTGCGCCATGTCGCGCGCAACGCCGCTCTTCCGCTTGTCACCGTGCTCGGCCTGCAGGCTGCAACCATGCTGGGCGGCAGCGTGGTGATCGAAAGCGTCTTCGCGATTCCCGGTTTCGGCCGGCTGGCGCAGGAGGCGGTCAGCGGTCGCGACACGCCGCTTTTGATGGGTATTATCCTGACAAGCGCCGTCTTCGTCATCCTCGTCAATCTCGCCGTCGATATTGTCTATGCCGTTCTCGATCCGCGCATCGGCAGCGGGGAGAGACAGGCATGA	MKRAVTLLKRRAVSAIPVLLIVVIFTFVLLENASGDAVDAYLVSIGGGDAGLRDVLREQYGLNGSVFARFWLYASSVLRLDLGWSLAFDRPVLELILERLPNTLLLMGSATAFAFILGTGLGIVAGARPGGLTDRLLSTLSLALYATPGFWLGLVLAIVFAVQLKWLPTSGIETIASGKQGFARALDIARHLVLPVASLGLIYLALFLRVMRTAMAAVWPLDFVLFAQSKGLSKRRIVLRHVARNAALPLVTVLGLQAATMLGGSVVIESVFAIPGFGRLAQEAVSGRDTPLLMGIILTSAVFVILVNLAVDIVYAVLDPRIGSGERQA	PGPT0004445_4976	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004445-ddpB|appB-K02033	NA	NA
BMS010_03725	831	ddpC_1	COG1173	putative D,D-dipeptide transport system permease protein DdpC	ATGAGTTTCGCTCTCCGGCTGCTGCGCAGTTTCGAAGGCGCCACCGGCACCATCATACTGGTGCTGCTTGCCGTGGCGGCGCTTGCCGCCCCCCTCCTCTTTCCGGGGGACCCGCTGGCCATTGTCGGCGAACCGCTGATCGCGCCGTTCACGGATGCCACCCTGCCGCTGGGCACCGACCGGCTGGGCCGCAATGTGCTGGCCGAGCTTGCACATGGCGCGCAGGCCTCCCTGCTCGTCGGCATGGGCGCCGCCGCCGCCGCGCTGGTGATCGGCACCGTCATCGGCACCATCGCCGGTTTTGCGGGCGGCCTCGTGGACGAAGCATTGATGCGCGTCACCGACGCTTTCCAGATCGTGCCGAATTTCCTGCTCGCGCTTGCCTTCGTCAGCACCATCGGACCTTCCATGCCCATCGTCATTCTCGCCATTGCGCTCGGCGCATGGGCGGATCCCGCGCGGCTGATGCGGGCGCAGGTGTTGAGCATCCGCGAGCGCGACTACGTGCAATCCGCCCGCGCCATCGGCATGCATCCGCTGGAGATCGCCTTCCGGCAGATCCTGCCCAACGCTCTGCCGCCGGTTCTGGCGCTGGCCGCCATTATCGTCGCGGCAGCCATCCTCACCGAGGCCGCGCTGTCCTTTCTCGGACTTGGCGATCCCAATATCGTCACCTGGGGTTCTATGATCGCCGAAGGACGCAACGTCCTGCGCTCGGCCGCGTTTTTGTCCGTCATCCCCGGCATCGGCCTTTTGATCACCGTTCTCGGCGTCTACCTTCTCGGCGAAGGCATCAACAGGGCGATGGCGACGAGGAGGCAAGCGCCATGA	MSFALRLLRSFEGATGTIILVLLAVAALAAPLLFPGDPLAIVGEPLIAPFTDATLPLGTDRLGRNVLAELAHGAQASLLVGMGAAAAALVIGTVIGTIAGFAGGLVDEALMRVTDAFQIVPNFLLALAFVSTIGPSMPIVILAIALGAWADPARLMRAQVLSIRERDYVQSARAIGMHPLEIAFRQILPNALPPVLALAAIIVAAAILTEAALSFLGLGDPNIVTWGSMIAEGRNVLRSAAFLSVIPGIGLLITVLGVYLLGEGINRAMATRRQAP	PGPT0004450_13239	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004450-ddpC|appC-K02034	NA	NA
BMS010_03726	804	oppD_2	COG0444	Oligopeptide transport ATP-binding protein OppD	ATGAGCGGAAATGCGCTGTGCCGGATCGACGATCTCAGCGTTTTTTATGCGGCGGGCGATGCGCCGGCCTTGCAGAATGTCTCGCTGACGATCCGCCAGGGGCAGAGGCTGGCGATCATCGGCGAAAGCGGGTCGGGAAAATCCACGCTCGGCAGAGCCATTGCCGGTCTTCTTCCCGGCAATGCGAGGGTTTCCGGCGATATTTCCTGGAGCCGCGATAACGGCCTGTTTCACGCCAAGCCACAGCCGGGGCGCGATATCGGCACGATCTTTCAGGATACCGGCGCGACAATCAACCCGGTTCTCACCATCGGCGAACAGGTGGCGGAAGGCGCCGTCCGGCATCTCGGCCTGTCATGGAGGCAAGCGCGCGATCTTGCCCGCGATCTTCTGGAGCGGGTGCGGCTGCCGCATCCCTCCCATCTGCTCACCGCCTATGCGCACCAGCTTTCCGGCGGCCAGAGGCAGCGCGTGGCGATTGCCGCCGCCATTGCCGCCAGTCCTTCGATCCTGATTGCCGATGAGGCCACGAGCGCGCTCGATACCGTCAGCCAAGCCGCCATCGCCACGCTGCTGGAAAATCTGGTGCGGCAGGAAAACAAGACGCTGGTCTTCATCACCCATGATATCGGCCTCGCCTCCAGCCTTGCCGACGAGATCGCGGTTCTGCGCGCGGGGCTGCTGGTGGAACACGGCCCGACGCGGCGGGTGCTTTCCGCACCCAGCCATGACTATACGCGTGCGCTGCTTGCCGATTATCTCGATCTTTCCACGCCACCGTTCATCAGCGAGGCCGCGTCATGA	MSGNALCRIDDLSVFYAAGDAPALQNVSLTIRQGQRLAIIGESGSGKSTLGRAIAGLLPGNARVSGDISWSRDNGLFHAKPQPGRDIGTIFQDTGATINPVLTIGEQVAEGAVRHLGLSWRQARDLARDLLERVRLPHPSHLLTAYAHQLSGGQRQRVAIAAAIAASPSILIADEATSALDTVSQAAIATLLENLVRQENKTLVFITHDIGLASSLADEIAVLRAGLLVEHGPTRRVLSAPSHDYTRALLADYLDLSTPPFISEAAS	PGPT0004435_14060	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004435-ddpD-K02031	NA	NA
BMS010_03727	780	gsiA_2	COG1123	Glutathione import ATP-binding protein GsiA	ATGAACGAAGCCCTTCTGAGTGTCGACGGCCTGTCGAAAGCCTATCGCACCGGCGCAAGAACGGTGGCGGCGCTTTCCGACATCTCCTTATCGCTTCAGCCCGGCGAGACGCTGGGGCTTGCCGGTCCCTCCGGCTGCGGGAAATCGACGCTGGCGCGCATTCTGATGCGGCTGGTCCCGGCCGACGAAGGCACGATCCATTTCAAAGGTCGTGACTGGCTGGCGCTTGACGGCGGCAAGCTTCGCGCCGCCCGCCGGCACATGCAGATGGTGTTTCAGGACACGCATGGCGCCTTCAATCCGCGCGCCAGCGTCGAGGATGCCATCGGCGAGCCGTTGCGCATTCATCGCATGGTCAAAAGACGCGAGCGTGCGGCGGAAATACACCGCCTTCTCGAGCGCGTGGGCCTGCCCGCCAGCTATGCCGGCCGTTCGGTCTTCGATCTCTCCGGCGGTCAAAGGCAGCGTGTCGCGATTGCACGGGCGATTGCGCTCAAACCGTCGCTTCTCATTCTGGACGAAGCCGTCTCCGCGCTCGATGTTTCGGTTCGCCGGCAAATCCTAGAACTGCTGGTGGAAATACAGCGGGAGACGGCCGTGTCCTGTATTTTCGTTTCCCATGATCTCGCAGTCATCCGGGCCGTCTGCCACCGCGTCGCCATCATGGAAGCGGGGCGGATCGTTGAAATTGGCAGGACGGGAAATATCGTCTCGGCGCCGAAATCCTCGACCGCCAGAACCCTGATCGACGCCGCACCGCGCCTGACCATTGCCACGTAA	MNEALLSVDGLSKAYRTGARTVAALSDISLSLQPGETLGLAGPSGCGKSTLARILMRLVPADEGTIHFKGRDWLALDGGKLRAARRHMQMVFQDTHGAFNPRASVEDAIGEPLRIHRMVKRRERAAEIHRLLERVGLPASYAGRSVFDLSGGQRQRVAIARAIALKPSLLILDEAVSALDVSVRRQILELLVEIQRETAVSCIFVSHDLAVIRAVCHRVAIMEAGRIVEIGRTGNIVSAPKSSTARTLIDAAPRLTIAT	PGPT0004440_9222	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004440-ddpF-K02032	NA	NA
BMS010_03728	1119	ppaT	COG0075	Pyridoxamine--pyruvate transaminase	ATGCCCGTTCCGGATTATGCATTGCTGCTCGACCCACCCGCTTTTCCCGCGGAGCGTTACGCCATTCTGGCCGACCGGCTGGCAGCCTTGATGGGCACGGGGAACGACGTCCTTCTCATACAGGCGGAAGCCGTGCTGGCGCTTGAGGCGGCGGCGACGAGCCTTGCCCGACCGGGTCTTAGTGCGCTCAACATCGTCACCAGCCCCTATGGCGCATGGTTCGGCGGCTGGCTTGCGAGAGGCGGCGCGACGGTGCGCAACCTGACCGCCAGTCCGGCAAAACCGGTCACGCTGGAAGAGGTGGAACGGGCGCTGAACGAGGGCCCGGGCTTCGATCTTCTCGCCATCGTCCATGCGGAATCGGCAAGCGGCATTCTCAACCCCCTGCCCGCCATTGCCGCGCTCGCTCGGCAAAGGGGTATCGTCACGCTCGTTGATGCCGTCGCCTCCATCGGCGGCCATGCCTTCGAGGTCGACCGGCTGGGCATCGATATCGCCGTGATCGGCCCACAAAAGGCGCTGGCCGGCCCGGCCGGGGTTTCCGCCATTTCCGTCAGCGAAAAAGCGTGGGAGCTTCTTTCGCATGGTGAGGCGCCGGAAAACTCCATGCTCTCGCTTCTGGACCAGAAGAAACTCTGGCTCGATGCCGGCCGGGGCGCGCTGCCCGGAACGCCTGCTCCGCTGGAATTCTACGCGCTGGAGGCCGCCCTTGACAGGATAGAGGCGGAAGGTCTGGCATCCGCCAATGAACGCCATGAAAGAGCGGCCGCGGCCACCCGGAACGGCATCAGGGCGCTCGGTATCCCGACCTGGGTGGAAGAGGCACACGCATCCGCCCTCGTTTCCACGGCGATCCTGCCGGATACCGTGGAAGCAAAGGCGTTCCTCGCTGCTGCATCCCAAAAGCAGGGCGCAGATATTTCCGCCGGTGTCGGCCCCGGCGCGGAACGGCTGATAAGGCTCAATCACACCGGTCGGCGGGCGCATCCGGAGGCGGTGAAAGCCAATATCGCGGCCTTCTCCAGCGCCCTGAAGAGCCTCGGCCATGCCGCAGATGCGGATTCCGCACTGGAAGCGACTGAAAAGGTCTATTCTGACGCCCCTGCGAACGGCGTTTGA	MPVPDYALLLDPPAFPAERYAILADRLAALMGTGNDVLLIQAEAVLALEAAATSLARPGLSALNIVTSPYGAWFGGWLARGGATVRNLTASPAKPVTLEEVERALNEGPGFDLLAIVHAESASGILNPLPAIAALARQRGIVTLVDAVASIGGHAFEVDRLGIDIAVIGPQKALAGPAGVSAISVSEKAWELLSHGEAPENSMLSLLDQKKLWLDAGRGALPGTPAPLEFYALEAALDRIEAEGLASANERHERAAAATRNGIRALGIPTWVEEAHASALVSTAILPDTVEAKAFLAAASQKQGADISAGVGPGAERLIRLNHTGRRAHPEAVKANIAAFSSALKSLGHAADADSALEATEKVYSDAPANGV				NA	NA	NA	NA	NA
BMS010_03729	189			hypothetical protein	ATGGTAGCAGGGTTCAACATGCTCTCCTTTGACCTCTTTGGCATCGGCCGAAGGATGCCCGTCGTCAATGAGCGGGTGGAGACCGAGTTTCAGGACAAAACACCGCGCAGACCCGATGACGAGTCGCACGACGACGACCGCGATCAGGAATATGAACTGTTCTTCTGGTCGCTTTACCCGGTGATCTGA	MVAGFNMLSFDLFGIGRRMPVVNERVETEFQDKTPRRPDDESHDDDRDQEYELFFWSLYPVI				NA	NA	NA	NA	NA
BMS010_03730	261			hypothetical protein	GTGGCGCTGTTGCGTGACACGGACCTTCCGATCATCGACATCGCGCTGCAAACCGGCTGGAACAGCATCGGCACGTTCGGCCGTGTTTTCCGCGACGTGACGGGGGAAAACCCGAGTGAATTGCGGCGCAGGATGCGGCTTTTGCCTGCCGACCTTGAGCAGGTTCCCCATTGCTTCGTCAGCGCCGCACATCGTCCCCATCTCACAATCGCAGTTTCGGAGAAGCGCCGGCGAACGGAAAGCGGTAGGCACGGTGAGTGA	MALLRDTDLPIIDIALQTGWNSIGTFGRVFRDVTGENPSELRRRMRLLPADLEQVPHCFVSAAHRPHLTIAVSEKRRRTESGRHGE	PGPT0016790_6	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0016790-mocR-K00375	NA	NA
BMS010_03731	405			hypothetical protein	ATGAAAAATGGTGTTCAACTTGTCGGGCTTTATGTTCATGACCAGGACGAAGCGCTGCAATTTTATGTCGAAAAAGTCGGATTTCGTCTGCATACGGACGCACGCAACGGCGATTATCGCTGGTTGACCGTGCAGCACCCGGACCAGCCGGATTTCCAGCTGGGCCTGTTTCGGCCGCAGGCCCCGACCGTTGATGAAGCGACGGCACAGGATCTGAATGAAGCCGTGGCCAAAGGCGCCATGCCGCCGCTGGTTCTGGTGGTCGAGGATTGCCAGAAAGCCTTTGACGCCATGCACAAACGCGGCGTCGAATTCACCCAGGAACCGATCGCCCGCTACGGCTCGGTGGATGCGAGCTTCCGCGATCCTTCCGGCAATGGCTGGAAGCTCGTTCAGGCCCGCTGA	MKNGVQLVGLYVHDQDEALQFYVEKVGFRLHTDARNGDYRWLTVQHPDQPDFQLGLFRPQAPTVDEATAQDLNEAVAKGAMPPLVLVVEDCQKAFDAMHKRGVEFTQEPIARYGSVDASFRDPSGNGWKLVQAR				NA	NA	NA	NA	NA
BMS010_03732	1821	araC_1		L-arabonate dehydratase	ATGACTACATCCGACAATCTTCCCGCAACCCAGGGCAAGGGAGGCAAGCTTCGCTCGCGCGCGTGGTTCGACAATCCCGCCAACGCGGATATGACCGCGCTTTATCTCGAGCGTTACATGAACTTCGGTCTCAGCCAGGCCGAGCTTCAGTCCGACCGCCCGATCATCGGCATTGCGCAGACCGGTTCGGACCTTTCGCCCTGCAACCGCCACCATCTGGAACTGGCGAACCGCCTGCGCGAAGGCATCCGTGAAGCGGGCGGCATCGCCATCGAATTCCCGGTGCATCCGATCCAGGAAACCGGCAAGCGCCCGACGGCCGGTCTCGATCGTAACCTTGCCTATCTCGGCCTCGTGGAAGTGCTTTACGGCTATCCGCTCGATGGCGTTGTCCTGACCATCGGCTGCGACAAGACCACGCCTGCCTGTCTTATGGCGGCGGCCACCGTCAACATTCCGGCCATCGCCCTTTCCGTCGGCCCCATGCTGAACGGCTGGTTCCGTGGCGAGCGCACCGGTTCCGGCACCATCGTCTGGAAGGCGCGCGAACTGCTGGCGAAGGGCGAGATCGATTATCAGGGCTTCGTCAAGCTCGTCGCCTCGTCGGCTCCCTCCACCGGCTATTGCAACACCATGGGCACGGCGACGACCATGAACTCGCTTGCCGAAGCGCTCGGCATGCAGCTTCCGGGCTCCGCCGCCATCCCGGCGCCTTACCGTGACCGCCAGGAAGTCTCCTACCTTACCGGCCTGCGCATCGTCGAAATGGTGAAGGAAGACCTGAAGCCTTCCGATATTATGACCAAGGATGCCTTCATCAACGCCATCCGCGTCAACTCGGCCATCGGCGGCTCCACCAATGCGCCGATCCATCTGAATGGCCTCGCACGTCACGTCGGCGTCGAGCTGACGGTGGATGACTGGCAGACCTATGGCGAAGATGTGCCGCTGCTCGTCAACCTGCAGCCGGCCGGCGAATATCTCGGCGAGGATTATTACCATGCCGGCGGCGTTCCCGCTGTCGTCAATCAGCTGATGAACCAGGGACTGATCATGGAAGACGCCATGACCGTCAACGGCAAGACCATCGGCGAAAACTGCCGTGGCGCGATCATCGAAGACGAGAAGGTCATCCGTCCCTATGAGCAGCCGCTCAAGGAACGTGCCGGCTTCCGCGTCCTGCGCGGCAACCTGTTCTCCTCCGCCATCATGAAGACGAGCGTGATCTCGGAAGAGTTCCGCAACCGTTACCTCTCCAACCCGAACGATCCGGAAGCCTTCGAAGGCCGCGCCGTGGTGTTCGACGGTCCGGAGGACTACCATCACCGCATCGACGATCCGTCGCTGAAGATCGACGCCAACACCATCCTCTTCATGCGCGGCGCCGGTCCCATCGGTTATCCGGGTGCGGCGGAAGTGGTTAACATGCGCGCGCCCGATTATCTCCTGAAGGAAGGCGTCAATTCGCTGCCCTGCATCGGCGATGGTCGTCAGTCTGGCACGTCGGGCAGCCCGTCCATCCTCAACGCTTCGCCCGAAGCGGCGGCCGGCGGCGGTCTCGCCATCCTGCAGACGGGCGACCGCGTCCGCATCGACGTGGGCCGTGGCAAGGCGGATATCCTGATTTCCGGCGAGGAACTGGCCAAGCGTTACGAGGCGCTTTCCGCCGAGGGCGGTTACAAGTTCCCCGATCACCAGACGCCATGGCAGGAAATCCAGCGCGGTATCGTCAGCCAGATGGAAACCGGCGCGGTTCTGGAACCGGCCGTGAAGTATCAGCGCATCGCGCAGACCAAGGGCCTGCCGCGCGACAACCACTAA	MTTSDNLPATQGKGGKLRSRAWFDNPANADMTALYLERYMNFGLSQAELQSDRPIIGIAQTGSDLSPCNRHHLELANRLREGIREAGGIAIEFPVHPIQETGKRPTAGLDRNLAYLGLVEVLYGYPLDGVVLTIGCDKTTPACLMAAATVNIPAIALSVGPMLNGWFRGERTGSGTIVWKARELLAKGEIDYQGFVKLVASSAPSTGYCNTMGTATTMNSLAEALGMQLPGSAAIPAPYRDRQEVSYLTGLRIVEMVKEDLKPSDIMTKDAFINAIRVNSAIGGSTNAPIHLNGLARHVGVELTVDDWQTYGEDVPLLVNLQPAGEYLGEDYYHAGGVPAVVNQLMNQGLIMEDAMTVNGKTIGENCRGAIIEDEKVIRPYEQPLKERAGFRVLRGNLFSSAIMKTSVISEEFRNRYLSNPNDPEAFEGRAVVFDGPEDYHHRIDDPSLKIDANTILFMRGAGPIGYPGAAEVVNMRAPDYLLKEGVNSLPCIGDGRQSGTSGSPSILNASPEAAAGGGLAILQTGDRVRIDVGRGKADILISGEELAKRYEALSAEGGYKFPDHQTPWQEIQRGIVSQMETGAVLEPAVKYQRIAQTKGLPRDNH	PGPT0017560_72	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017560-xylD-K22186	NA	NA
BMS010_03733	960	ytfQ		ABC transporter periplasmic-binding protein YtfQ	ATGAGAAAAGCTCTTGCGGCATTCACTGTCGCCGTTTCCGCATGCCTTGCATCCAGTGTTTCCGCACAATCGCTTACCGTCGGCTTCTCGCAGATCGGTTCGGAATCCGGCTGGCGCGCGGCTGAAACAACCGTCACCAAGCAGCAGGCGGAGAAGCGCGGCGTCACGCTAAAATTCGCCGACGCACAGCAGAAGCAGGAAAACCAGATCAAGGCCGTTCGTGGCTTCATCGCGCAGGGCGTCGATGCGATCCTGATCGCTCCGGTCGTCGCAACCGGCTGGGACGCCGTGCTGAAGGAAGCCAAGGAAGAAAATATCCCTGTCATTCTGCTCGACCGCCAGATCGAGGCTTCTGACGATCTTTACCTCACCGCCGTGACCTCCGATCAGGTTCATGAAGGCAAGGTTGCCGGCGACTGGCTGGTCAAGGATGTCGGTTCCAAGGACTGCAAGGTCGTTGAATTGCAGGGCACGACCGGCTCTTCGCCCGCCATTAACCGCAAAAAGGGCTTCGAAGAGGCGATTGCCTCGCACAAGAACATCAAGATCGCACGCTCGCAGACGGGTGACTTCACCCGTACCAAGGGCAAGGAAGTGATGGAAAGCTTCATCAAGGCCGAAGGCGGCGGCAAGGATATCTGTGCGGTCTACGCTCACAATGACGACATGGCCGTCGGCGCGATCCAGGCGATCAAAGAAGCTGGCCTCAAGCCCGGAACCGACATCAAGGTCGTTTCCATCGATGCCGTGCCTGATATCTTCAAGGCCATGGCGGCCGGCGAAGCCAACGCCACCGTCGAACTGACGCCTGACATGGCCGGCCCTGCCTTCGACGCGCTCGAAGCCTACCTGAAGGACAAGAAGGCCCCGCCGAAGTGGATTCAGACCGAATCCAAGCTCTACACGGCGTCTGACGACCCGATGAAGGTCTACGAGGCGAAGAAGGGTCTGGGTTACTGA	MRKALAAFTVAVSACLASSVSAQSLTVGFSQIGSESGWRAAETTVTKQQAEKRGVTLKFADAQQKQENQIKAVRGFIAQGVDAILIAPVVATGWDAVLKEAKEENIPVILLDRQIEASDDLYLTAVTSDQVHEGKVAGDWLVKDVGSKDCKVVELQGTTGSSPAINRKKGFEEAIASHKNIKIARSQTGDFTRTKGKEVMESFIKAEGGGKDICAVYAHNDDMAVGAIQAIKEAGLKPGTDIKVVSIDAVPDIFKAMAAGEANATVELTPDMAGPAFDALEAYLKDKKAPPKWIQTESKLYTASDDPMKVYEAKKGLGY	PGPT0016625_576	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GALACTOFURANOSE_TRANSPORT,PGPT0016625-ytfQ-K23508	NA	NA
BMS010_03734	1524	fruK	COG1129	Fructose import ATP-binding protein FruK	ATGTCCGAAACGGCACCACTTCTGGAAGCACGCGCCATCGGCAAATCCTTTTTGGGGATCACGGCGCTTGATGGCGTCGATTTTTCGCTTGGACATGGTGAAATCCATGCCCTGCTCGGCGAAAACGGCGCGGGTAAATCGACGCTCATCAAAATCCTGACCGGCGTTTATCACCGCGACAGCGGCTCGATCTTTCTGGAGGGCGCAGAGATTTCGCCCGCCAATGTGGGTGAGGCGCAGGCGCTCGGCATCGGCACGGTCTATCAGGAAGTGAACCTTCTCGAAAACCTGACGGTTGCCGAAAACCTGTTTCTCGGCCGCCAGCCGCGCCGCTTCGGGCTGATCGACCGCGGCACGATGCAGAAGAAATCGCAGGCGCTGCTTGCCCAATACGGGTTGTCCATCGACGTCAACGCGCTTCTCTCCAGCTATTCCGTGGCCATCCGGCAAATCATCGCCATTGCCCGCGCCGTCGATCTTTCCGGCAAGGTGCTGGTGCTGGACGAACCGACCGCCAGCCTTGATGCCCATGAGGTCGAGATGCTGTTCGGCGTCTTGAGAAACCTGCGCGCACGCGGCATCGGCATCGTCATCATCACCCACTTCCTCAACCAGGTCTATGATATCGCCGACCGGGTGACGGTGCTGCGCAACGGCCGTCTCGTCGGCACCCGCGACATTGGCAGCCTGCCGAGGTCCGAACTCATTTCGATGATGCTCGGTCGCGAGCTTCAGCACATCACCCATGAACATCAGGCGACCGAAGATACGGTTGCCGAGGGCGAACCGCCGATCCGTTTCGAAGGTTACGGCAAACGCGGCAGCATCGCGCCTTTCGATCTCGGCATCCGGCCGGGAGAGATTGTCGGCGTCGCCGGGCTGCTGGGTTCGGGCCGGACGGAAACAGCCTTCCTGTTGTTCGGCATCGACCGGCCGGATACCGGAAAGGCTGTCATCGACGGCCAGACAGTGGCGATTTCTTCGCCGGAAGCCGCCATTACCGCCGGGTTCGGCTTCTGTCCGGAAGAGCGCAAGACGGACGGCATCATCGGCGACTTTTCCGTCACAGATAATATTGCATTGGCGCTTCAGGCACGGCAGGGCTGGGCACGGCCACTCTCGCGCCGGCAGAAGGCGGAACTGGCCGAAAGCTTCATCAAGTCGCTCGATATCCGCCCGGCCGACCCCGAGCGGCCGATCAAATTCCTGTCCGGCGGCAATCAGCAAAAGGCCATTCTGGCGCGCTGGCTCGCCACCCACCCCCGGCTGCTGATCCTCGACGAGCCGACACGCGGCATCGATATTGGCGCGCATGCGGAAATCCTGAAAATGATCGAAAAACTCTGCAGCGAGGGCATGTCGCTCGTGGTCATCTCCTCCGAACTGGAAGAGCTTACCGCCGTCGCCCATCGTGTGGTCGTGCTCTCCGACCGCCGCCATGTCAGCGAATTGAAGGGCGGCGAAGTGACCGCCGACAATATCATGCGGGCGATTGCCGATGCGGCGAAAACGGAGGCGGCGTGA	MSETAPLLEARAIGKSFLGITALDGVDFSLGHGEIHALLGENGAGKSTLIKILTGVYHRDSGSIFLEGAEISPANVGEAQALGIGTVYQEVNLLENLTVAENLFLGRQPRRFGLIDRGTMQKKSQALLAQYGLSIDVNALLSSYSVAIRQIIAIARAVDLSGKVLVLDEPTASLDAHEVEMLFGVLRNLRARGIGIVIITHFLNQVYDIADRVTVLRNGRLVGTRDIGSLPRSELISMMLGRELQHITHEHQATEDTVAEGEPPIRFEGYGKRGSIAPFDLGIRPGEIVGVAGLLGSGRTETAFLLFGIDRPDTGKAVIDGQTVAISSPEAAITAGFGFCPEERKTDGIIGDFSVTDNIALALQARQGWARPLSRRQKAELAESFIKSLDIRPADPERPIKFLSGGNQQKAILARWLATHPRLLILDEPTRGIDIGAHAEILKMIEKLCSEGMSLVVISSELEELTAVAHRVVVLSDRRHVSELKGGEVTADNIMRAIADAAKTEAA	PGPT0016635_411	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GALACTOFURANOSE_TRANSPORT,PGPT0016635-ytfR-K10820	NA	NA
BMS010_03735	1044	ytfT		Inner membrane ABC transporter permease protein YtfT	ATGGTGGCTGTGACACGACGCCTAAAAAGGCTTGCTCCCCAGCTTGCCGCGCTCTTCATCATTCTGGCAGCGATTACAATCCTTTCGCCGGGTTTCCTGCATGTTTCGTTTCAGAACGGCCGGCTCTATGGCAGTCTGGTGGATATTCTCGTGCGCGCCGCACCCGTGGCGCTTTTAACCATCGGCATGACGCTGGTCATCGCCACCAAGGGCATCGATCTGTCCATCGGCGCCGTCATCGCCATCTGCGGCGCGGTCGCGGCCACGCTCATCAGCAACGGCCATTCCATTCCCTCGGTCATCGTCATCTCGCTTGCGGTGGGCATTGCCTGCGGCCTCTGGAACGGCGTGCTGGTCGCCCTTCTCGACATACAGCCGATCATCGCCACGCTGATCCTGATGGTGGCAGGGCGCGGCATCGCCCAGCTCATCACCGAGGGTGTCATTCTCACCTTCAACAATGACAGCTTTTCCGCCATCGGCTCCGGCTCGTTCGCAGGCATTCCGCTGCCCGTGATCATCTGGGTGGCGGCCGCACTGCTGATCGGCCTTCTGGTGCGCAAGAGCGCGCTCGGTTTCCTGATCGAGGCGACCGGCATCAATCGCCGCGCCGCAGCGCTTGCCGGCGTCCGGGCCCGTTTCCTGCTGTTTTTCGTCTATGCGGTTTCCGGCCTCTGCGCGGCCATCGCCGGCATGATCGTGACTGCCGACATTCGCGGCGCTGATGCCAATAATGCCGGGCTGTGGCTGGAGCTGGACGCGATCCTTGCCGTGGTCATCGGCGGCACCTCGCTGAATGGCGGGCGCTTCTCCATCACCGCCTCGCTGATCGGGGCGCTCATTATCCAGACCATCAATACCGGCATTCTCGTTTCGGGCTTTCCGCCGGAATTCAACCTCATCATCAAGGCCGGCATCATCATGGTGGTGCTGACACTGCAATCGCCGGCAATCATGACGGTGCTTGGCTTCGTGAAAGCGCCCAAGCCACACCTCAAACCGGCCGCCGCCAATGGCATGACCAAGGAAGGAACCGCGCGATGA	MVAVTRRLKRLAPQLAALFIILAAITILSPGFLHVSFQNGRLYGSLVDILVRAAPVALLTIGMTLVIATKGIDLSIGAVIAICGAVAATLISNGHSIPSVIVISLAVGIACGLWNGVLVALLDIQPIIATLILMVAGRGIAQLITEGVILTFNNDSFSAIGSGSFAGIPLPVIIWVAAALLIGLLVRKSALGFLIEATGINRRAAALAGVRARFLLFFVYAVSGLCAAIAGMIVTADIRGADANNAGLWLELDAILAVVIGGTSLNGGRFSITASLIGALIIQTINTGILVSGFPPEFNLIIKAGIIMVVLTLQSPAIMTVLGFVKAPKPHLKPAAANGMTKEGTAR	PGPT0016630_306	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GALACTOFURANOSE_TRANSPORT,PGPT0016630-ytfT|yjfF-K23509	NA	NA
BMS010_03736	981	yjfF		Inner membrane ABC transporter permease protein YjfF	ATGATCCACAGCCGCAACCTGCCCTTCCTCACCACATTGACGATCTTCGTCATCGCCTATCTCCTCTGCGTGCTGCAATATCCGGCGATCCTGTCGACGCGGGTGATCGGCAATCTTCTCACCGACAATGCCTTTCTCGGCATCGCAGCTGTCGGTATGACTTTCGTCATCCTGTCTGGCGGCATCGATCTGTCCATCGGTTCGGTCATCGCCTTTACCAGCGTCTTCGTCGCCGTCATGGTCGGCACCTATAATATCCACCCGCTGCTCGCCTTCGCCATCGTGCTGGTTGTCTCGACGCTGTTTGGCTGCCTGATGGGGGCGATGATCCGCTTCCTGTCGATCCCACCTTTCGTGGTGACGCTGGCGGGCATGTTTCTGGCGCGCGGCGCGGCTTACCTCATTTCCACCCAGTCCGTACCGATCTCGCATCCCTTCATCGATGCGATACAGGGCTTTTATTACCGCTTTCCCGGCGGCGGCAGGCTGACGGCACTGGCCATGCTGATGCTTCTCGTCTTTGCCGCCGGCATGCTGATCGCCAGCCGCACGCGCTTCGGCGCCAATGTCTATGCGCTTGGCGGCAACCCGCAATCGGCCGAGCTGATGGGCGTGCCGATCGGGGCTACGACCATCGGCATCTATGCGCTTTCCGGTTTCCTCTCCGGCCTCGCCGGCATCGTCTATACGCTCTACACGTCGTCAGGTTATTCGCTGGCGACGGTGGGCGTGGAGCTCGACGCCATCGCCGCCGTTGTCATTGGCGGCACGCTTTTGACGGGCGGCACGGGGCTTGTGGCGGGAACCTTCATCGGCCTTCTGATACAGGGCTTAATCCAGACCTACATCGTTTTTGACGGGACGCTTTCCTCCTGGTGGACGAAAATCGTCATCGGCGTGCTGCTTTTCGTCTTCATCGTGTTGCAGCGCGCAATCATCTGGTATTCAAACAGGAGACTGGCCGGACCGCATCCGGCATAA	MIHSRNLPFLTTLTIFVIAYLLCVLQYPAILSTRVIGNLLTDNAFLGIAAVGMTFVILSGGIDLSIGSVIAFTSVFVAVMVGTYNIHPLLAFAIVLVVSTLFGCLMGAMIRFLSIPPFVVTLAGMFLARGAAYLISTQSVPISHPFIDAIQGFYYRFPGGGRLTALAMLMLLVFAAGMLIASRTRFGANVYALGGNPQSAELMGVPIGATTIGIYALSGFLSGLAGIVYTLYTSSGYSLATVGVELDAIAAVVIGGTLLTGGTGLVAGTFIGLLIQGLIQTYIVFDGTLSSWWTKIVIGVLLFVFIVLQRAIIWYSNRRLAGPHPA	PGPT0016630_1350	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GALACTOFURANOSE_TRANSPORT,PGPT0016630-ytfT|yjfF-K23509	NA	NA
BMS010_03737	735	nanR_1		HTH-type transcriptional repressor NanR	TTGGGGCTGCTCGAAACGACGATAAGCGGGCGAAAACGCCGGAACAGCCACGCCCATGTGGTCTCCGAACTCGGCAGCGCCATCGTCTCGGGCAGAATTGCGGAAGGCTCCCTGCTGCCCAATGACGCGGAACTCTCCATGCGCTTCGGCGTCTCGCGCACCGTGCTGCGCGAAACCATGAAGACGCTGGCGGCCAAGCGGCTGGTGGAGCCCAAGGCGAAAGTGGGCACCCGCGTTCTTGACCGCTCGAGCTGGAACTTCTTCGATCCGGATGTGCTGGGCTGGCGCTGCGAGGCCGGCATAGACCAGGAATTCGTCACGCATCTGGCGGAGATCCGTCTGGCGCTGGAGCCGGCAGCGGCAGCAGCAGCGGCCCTGCAGGCCTCCAATGACGATATCGTTTCGCTTTACGTCATCGCCGCCAAATTCGACAATCCGAAACATACGCCGGAAAGCATCGCCAAGGTCGATCTCGAATTCCACCTTGCCGTGGCGCATATGTCCGGCAATCCCTTCATGCGCTCGGCAAGCGGGCTGATCGAAGCAGCACTTGCCATTTCCTTCCAGCTCTCGTCGCCGGCCGCTTCGCCTGGCACCATCGCCGAAATCGCGTCCAATCATCTGCGCATCGTACATGCGATTGCAGCGCGTGACGCGGATGCGGCGGTGAAAGCCATGCGCCACGTGATCGAGGTCGGTAAAGACCGGACGCAGAAGGCGATCAAGACGGTTTGA	MGLLETTISGRKRRNSHAHVVSELGSAIVSGRIAEGSLLPNDAELSMRFGVSRTVLRETMKTLAAKRLVEPKAKVGTRVLDRSSWNFFDPDVLGWRCEAGIDQEFVTHLAEIRLALEPAAAAAAALQASNDDIVSLYVIAAKFDNPKHTPESIAKVDLEFHLAVAHMSGNPFMRSASGLIEAALAISFQLSSPAASPGTIAEIASNHLRIVHAIAARDADAAVKAMRHVIEVGKDRTQKAIKTV				NA	NA	NA	NA	NA
BMS010_03738	1218	nepI_2	COG2814	Purine ribonucleoside efflux pump NepI	ATGAACAACCGGACCATAAACGAGCTTGAATATGTGCCGCGCAAGACAGAGCCGGATGCGAAATGGGCGGCCGTGGTTTCGCTTTCGCTCGGCGTTTTCGGGCTGGTGACGGCGGAGTTCCTGCCGGTCAGCCTTCTCACGCCGCTTTCGGTCGATCTCGCCGTCAGCTCCGGCATTGCCGGTCAATCCATCACCGTTACGGCGCTGGTCGCGGCGGTCGCCGGCCCCGGCGTCGTCATCGGCACACGCAGCATCGACCGTCGCTGGACATTGCTTGGGCTGACCACGCTGCTGATCATTTCCAGCACGCTGGCCGCCTTCGCCAACGGTCTTTTCATGCTGTTCGCCTCGCGTGTCCTGCTCGGCATCGGCCTTGGCGGCTTCTGGGCCATGTCTGCGGCGCTGGCGCTGAGGCTGGTGCCGCTTGAGAAGATGCCGCGCGCCATGGCCATCATCCTGACAGGGGTTTCGGTCGCCACCGTCTGTGCAGCGCCGGTGGGCGCGTGGATCGGGGCGACGCTTGGCTGGCGCTCGGCCTTTGTGGTTGCGGGTGCGCTCGGTGTCATCGCACTTTTCGTGCAATTGCTCACCGTTCCGTCGCTGCCGCCGGCTGGCGCACCCGGTCTTTCCACCATGTTCCGGCTGTTGCAGCGGCCGCAGGTTCGGATTGGCCTTCTGACGACGCTGTTCATCGTTGCGGGTCACTTTGCCGGTTTCACCTATGTCCGTCCATTCCTGGAAGACGTCACGCTTCTTGGCGTCGAGGCGATTTCCCTCGTCCTTCTGGTTTATGGTGTCAGCGGCTTTTTCGGCAATCTTTTCGGCGGTTTCCTCTCCGAGAAAAACACGGCATGGGCAGTGACGTTCGCCGCGACCCTCATCGCGGCATCGGCCTCCGTTCTGGTCGTTGCGGGTACGTCGCCCCTCGTTGCCGGCCTTGCCATCGCCTCCTGGGGTTTTGCCTTCGGTGCGCTCCCGGTCAGTGTGCAGAGCTTCATCACGCGGGCCGCTTCCGATGAGGCGGAAAGCGCCGGCGCGCTGCTGCTCACCACGTTCCAGATCGCCATTTCCAGCGGTGCGGTTCTGGGCGGCCTGTTGATCGATCTTCAGGGGGCGACGATGGTCTTCGTCTTCGTGGCGATTGCCGCCCTTCTCGGCGCATCGCTGATGGCGTCGCGCCGTGGCGTGGTGCCGCAGGTCGAGGCATCGCGGGGATAA	MNNRTINELEYVPRKTEPDAKWAAVVSLSLGVFGLVTAEFLPVSLLTPLSVDLAVSSGIAGQSITVTALVAAVAGPGVVIGTRSIDRRWTLLGLTTLLIISSTLAAFANGLFMLFASRVLLGIGLGGFWAMSAALALRLVPLEKMPRAMAIILTGVSVATVCAAPVGAWIGATLGWRSAFVVAGALGVIALFVQLLTVPSLPPAGAPGLSTMFRLLQRPQVRIGLLTTLFIVAGHFAGFTYVRPFLEDVTLLGVEAISLVLLVYGVSGFFGNLFGGFLSEKNTAWAVTFAATLIAASASVLVVAGTSPLVAGLAIASWGFAFGALPVSVQSFITRAASDEAESAGALLLTTFQIAISSGAVLGGLLIDLQGATMVFVFVAIAALLGASLMASRRGVVPQVEASRG	PGPT0021090_142	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021090-nepI-K03445	NA	NA
BMS010_03739	939	rclR	COG2207	RCS-specific HTH-type transcriptional activator RclR	ATGAATGATGCCCTGACCGAAATGTTGCGTGGCCTGAGGCTCGATGGTGTCGAATACGGCCGGTGCCGCATGGCCACACCCTGGGCGACGGCTTTTCCCGAACAGGAAGCCGCGCGGTTTCATTTCATCGGCGTCGGTCAGGCGAAATTGCTGAAACCTTCCGGGGAATGGCTGACGCTGACCTGCGGCGACGCCGTGCTTCTGCCGCGAGGGCACGCCCATGTGCTGGGCAGCGGCGAGGATGTGAAGCCCGCCCTTTTCGACCGCTTCGGCAAGAAGGAAGTCTGCCAGGGCATCTTCGACATGGAATGTGCGAGCGCCGGCGGCGATACCGTGGCCTTTACCGCCTCGATGCGTTTCAACATGGACAATCTGCACCCGCTGCTGCAGCTGATGCCGGATGTGATGCTGACCAGCGATCTGGCCAAAAGCGACCCGGCTATCCCCCATCTGCTGGAAGCCATGACGCGCGAGGTGGAACTGAACCGCGTGGGCGCGGGCGGCATTCTGGCACGGCTTGCCGATGTGCTGACTGCGACGTTGATCCGCACATGGGTGGAATATGGCTGCGGCGATTCCAGCGGCTGGCTGGCCGCCGTGCGCAATCCCGAACTCGGGCGGGTGCTGGCCGCCATCCACCTCAATCCCGAAAAGGACTGGAGCGTGGAGGAGCTTGCCTCCCTGATGGGCGCATCCCGCTCCAGTTTCGCGGAACGCTTCACCCGCGTGGTGGGCGAAAGCCCGGCCCGTTATGTGGTGCGCGTGCGCATGCATCAGGCGCGGCTGTGGCTGCGCGAAGGCATGCGTGTGACGGTGGCGGCGGAAAAGCTCGGCTACGATTCCGAAGCCTCCTTCAGCCGCGCCTTCAAACGCGTGCTCGGCGCGCCGCCCAGCCAGTTCCGCAGGAAGGACACGGCCGGGCTGGAGGATGCGGCATAG	MNDALTEMLRGLRLDGVEYGRCRMATPWATAFPEQEAARFHFIGVGQAKLLKPSGEWLTLTCGDAVLLPRGHAHVLGSGEDVKPALFDRFGKKEVCQGIFDMECASAGGDTVAFTASMRFNMDNLHPLLQLMPDVMLTSDLAKSDPAIPHLLEAMTREVELNRVGAGGILARLADVLTATLIRTWVEYGCGDSSGWLAAVRNPELGRVLAAIHLNPEKDWSVEELASLMGASRSSFAERFTRVVGESPARYVVRVRMHQARLWLREGMRVTVAAEKLGYDSEASFSRAFKRVLGAPPSQFRRKDTAGLEDAA				NA	NA	NA	NA	NA
BMS010_03740	3279	dnaE2_1		Error-prone DNA polymerase	ATGAGCGCGCCGCGTTATGCCGAACTTCAGGTGACCACGCATTTTTCCTTCCTGCGGGGTGCAAGCTCCTGCGATGAGCTTTTCGAACAGGCCAAAAGACTCGGCATCAAGGCGCTTGGTATCGTGGACCGCAACAGCCTTGCGGGCATTCCCCGCGCTTACGAAGCCGCCAATAATCATGGCATCCGCCTTGTCATCGGCTGCCGGCTCGATCTGGATGACGATCTTTCCGTGCTCGTTTATCCCATGGATCGGCCCGCTTACGGGCGGCTCTGCCGGCTGCTTTCCGTCGGCAAGAAAAGAGGCGGCAAGGGCAAGTGCCGGCTGGCATGGGACGATCTCGTCACCTATGGCGAAGGCCTGATCGTCGTGTTGCTCGCTGATCTCGCTGATGATCTCTGCGCGCTTCGCCTGCGGCGGCTCAAAACCGCCTTTGCCGACCGGGCCTATATGGCGCTTAGCCTCAGAAGACGCCCCAACGACCAGATGCGGCTTTTCGAACTGTCAGCTATGGCCGAAGCGGCTGGTGTGCCGACTGTTGTCACCAATGACGTGCTCTTTCATGTGCCAGAGCGGCGCATGCTGCAGGATGTCGTCACCTGCATAAGGCACAATTGCACCATCGACGAGGCTGGTTTCCGCCGCGAGCGCCACGCCGACCGTTACATGAAACCGCCGGAAGAAATGCACCGGCTGTTTGCCCGTTACCCCGAGGCGCTGGCCCGCAGTCTCGAAATTACGAAACGCTGCAAATTTTCGCTGAAGGAACTGGTCTACCAATATCCCGAGGAGCGCAGCATGCCGGGGCTGACGGCGCAGCAGGCGCTGGAGAAGATGGTCTGGGAGAGGGTGCCGGTTCGATACCCGGATGGTTTGCCGGAGAAGGTGGAAAAGGCGCTGCATCATGAGTTGGATGTTGTCGGCAGGTTAAATTACGCCCCCTATTTTCTGACCGTAAGTGCTATCGTCCAACAGGCGCGTAAGATGGATATCTTGTGCCAAGGACGCGGCTCGGCGGCAAATTCAGTTATCTGTTTTGTACTGGGTATCACTGCCATTGATCCTGCCCGTTTCAGCAATCTCGTCTTTGAACGTTTCGTTTCCGAAAAACGGGGTGAACCGCCTGACATCGACGTGGATTTCGAGCATCAGCGTCGTGAGGAAATTATTCAATGGGTTTACAAAACCTATGGCCACGATAAAGCCGCGCTTTGTTCAGTCGTCACCCGCTATCGTGGTCGAGGGGCATTGCGAGATGTTGGTAAAGTACTGGGCCTGCCGGAGGATTTGACCAAACTTCTGTCCTCGCAAGTCTGGCGCTGGAGCGAAGGTGTTGGCGAAAAACAGGTAAGGGAACTAAACCTTAATATGGAGGATCCCCGCTTGAAGCTGGCTTTCGAGCTTGCCAACCAGCTTGTTGGCACGCCACGCCATCACAGCCAGCATCCGGGCGGCTTCGTACTTTCCCATGATCGGCTGGATGAGCTCGTGCCGATTGAACCTGCTGCCATGGATGATCGACAGATCATCGAATGGGACAAGGATGATATCGATATCGTGCAGTTCATGAAAATGGATTGCCTGGCGCTTGGAATGCTTTCCTGCATGAAGCGTGGCTTCGATCTGCTGGAGGCTCGCACAGGGGAAAAATACGATCTTGCTGCGATGCCACCGGATGACCCTGCAACGTTTGCAATGATCCAAAAAGCAGACACGCTCGGCACTTTCCAGATCGAAAGCCGGGCGCAGATGTCGATGTTGCCGCGTTTGAAGCCCGCTGAATTTTACGATCTTGTCATCCAGGTCGCTATCGTTCGTCCCGGTCCCATTCAGGGAGATATGGTCCATCCATATTTGCGGCGCCGTCAGGGAAAAGAGCCCGTTCGATATGAAAAACCAGAGCTTAAAAATATTCTCGAAAAGACGCTGGGTGTCCCGCTATTCCAAGAGCAGGCCATGAAGATTGCCATCGACTGCGCCGGTTTTTCTCCCGGCAAGGCGGACCAGTTGCGCCGCGCGATGGCGACTTTCAAGAATGTCGGCACTATCTCCAAATTCAGGCAGGATCTGATTGATGGCATGGTGGAGCGCGGCTATGACGAGGACTTCGCCAAACGCATCTTCAAACAGCTCGAAGGGTTCGGCAGTTATGGTTTCCCGGAAAGCCACGCGGCGTCCTTCGCGCTGATTGCCTATGCTTCCGCATGGCTGAAGTGCCATCATCCGGATATTTTCTGTGCCTCGCTTCTGAATTCGCAGCCCATGGGCTTTTACGCCCCGGCGCAGATCGTGCGCGATGCGCGCGATCATGGGGTGGAGGTCCGCCCGGTATGTGTCAATGAAAGCCGGTTTGATTGCACGCTTGAGCCAACAGGCGAGATGAATGCGGAAGGCAAAGAACGCTATGCCGTGCGGCTTGGCATGCGTCTTGTGAAGGGGCTTTCCAATGACCATGCTGCAAAAATCGTCGCCGCCCGGCAGGATCGGCCTTTCGCCTCCGTCGACGATCTCTGGCGAAGGGCGGGCGTTCCTGCCGCCGCCCTTGTCTGTCTCGCCGAAGCCGATGCCTTTCTGCCATCGCTTTCGCTTGCCAGACGCGAAGCGCTCTGGGCCATCAAGGCTTTGCGGGATGAGCCGCTGCCGCTTTTCGCCGCCGCCGCCAGTCGGGAAAATACTGTCGTGGACGAGCTTCAGGAACCCTCCGTCGCGCTCAGGCCCATGACGGATGGCGGCGAGGTTGTGCAGGATTACGGCCATGTGGGGCTGACCCTACGCGAACATCCCATGACCTTCCTGCGGCGCGATCTTTCCCGCCGCCGCATTGTTACCTGCGCGGAGGCGGTGCGTGTGCGTGATGGCACATGGCTGGAAACGGCGGGTCTGGTGCTGGTGCGCCAGCGTCCCGGCTCGGCAAAGGGCGTGATCTTCATGACGCTGGAGGACGAGACCGGCATTGCCAATGCTGTCCTTTGGGTCAAGACTTTCGAAAAATACCGGCGTGTGGTGCTGTCTGCCGGCATGGTAGGCATTTACGGCAAGATCCAGCGGGAAGGCGAGGTGGTGCATCTGGTCGCCCACCGGCTGACCGATTTGTCGGAAGCGCTGGCAAGTGTGGGTGAGCGCAACCGCGCCTTTCCCCTGCCGCATGGGCGCGGCGATGAGTTCCACCACGGCATGCCGCCGGAGGATCATCGCACCATTAGGAAACGCCCGCCGGCTACAGTCGATGATGAAGATGAGGTGGAGCGGATAAAGGTCATTTCCCGCAATTTCCACTGA	MSAPRYAELQVTTHFSFLRGASSCDELFEQAKRLGIKALGIVDRNSLAGIPRAYEAANNHGIRLVIGCRLDLDDDLSVLVYPMDRPAYGRLCRLLSVGKKRGGKGKCRLAWDDLVTYGEGLIVVLLADLADDLCALRLRRLKTAFADRAYMALSLRRRPNDQMRLFELSAMAEAAGVPTVVTNDVLFHVPERRMLQDVVTCIRHNCTIDEAGFRRERHADRYMKPPEEMHRLFARYPEALARSLEITKRCKFSLKELVYQYPEERSMPGLTAQQALEKMVWERVPVRYPDGLPEKVEKALHHELDVVGRLNYAPYFLTVSAIVQQARKMDILCQGRGSAANSVICFVLGITAIDPARFSNLVFERFVSEKRGEPPDIDVDFEHQRREEIIQWVYKTYGHDKAALCSVVTRYRGRGALRDVGKVLGLPEDLTKLLSSQVWRWSEGVGEKQVRELNLNMEDPRLKLAFELANQLVGTPRHHSQHPGGFVLSHDRLDELVPIEPAAMDDRQIIEWDKDDIDIVQFMKMDCLALGMLSCMKRGFDLLEARTGEKYDLAAMPPDDPATFAMIQKADTLGTFQIESRAQMSMLPRLKPAEFYDLVIQVAIVRPGPIQGDMVHPYLRRRQGKEPVRYEKPELKNILEKTLGVPLFQEQAMKIAIDCAGFSPGKADQLRRAMATFKNVGTISKFRQDLIDGMVERGYDEDFAKRIFKQLEGFGSYGFPESHAASFALIAYASAWLKCHHPDIFCASLLNSQPMGFYAPAQIVRDARDHGVEVRPVCVNESRFDCTLEPTGEMNAEGKERYAVRLGMRLVKGLSNDHAAKIVAARQDRPFASVDDLWRRAGVPAAALVCLAEADAFLPSLSLARREALWAIKALRDEPLPLFAAAASRENTVVDELQEPSVALRPMTDGGEVVQDYGHVGLTLREHPMTFLRRDLSRRRIVTCAEAVRVRDGTWLETAGLVLVRQRPGSAKGVIFMTLEDETGIANAVLWVKTFEKYRRVVLSAGMVGIYGKIQREGEVVHLVAHRLTDLSEALASVGERNRAFPLPHGRGDEFHHGMPPEDHRTIRKRPPATVDDEDEVERIKVISRNFH				NA	NA	NA	NA	NA
BMS010_03741	1419	imuB_1		Protein ImuB	ATGATTGGCCGCCAGGGCAGCCGCCGGCTGGTGCTGGCGCTCGACAAGGCGGCAAAGGCGGCGGGCATCCGGCCGGGCACGCCGGTCAGCAAGGCGCAGGCGCTGGTGCCGGGCCTTATCGTGGAAGATCTGGATGCGGATGGAGATTCCCGCGCCCTGCAACAGCTGGCTTTTCATTTCCTGCGCATCTATGCACCCATCGTCGCCGCCGACCCGCCGGACGGGCTGGTGCTGGACACGGCGGGGGCGGACCATCTGCACGGCAATGAGGCGCTGATGCTGAGCGGCATGGTCAACCGCCTGCATGCCGCCGGCTTTAGCGCCCGCGCCGCCATTGCCGATAGCTGGGGAGCGGCCCATGCGCTGGCGCGTTTTGGCCGTGAGGCGATCAGCATCGTGCCGCCGGGCGGGCAGCGTGTGGCGGTCAGCGGCTTGCCACTTGCCGCGTTGAGGCTGGAAGAGCGTATTGTGTCCGAGTTGAAGGTGCTCGGTTTCCGCAGCATCGGCGAGCTGGCCGATGCGCCGCGTGCGCCGCTCACCCTGCGTTTCGGCCCCGAACTCGTGCGCCGTCTTTCCCAGGCTTTGGGGGAGATCGGTGAACCCATCGAACCGGTGCGCGTGGCCGAGATGGTGGAGGTGCGGCGCGCCTTTCCCGAACCCATTGCAGCGGCGGAGACGATTGCCCGTTATACGCAAAAACTGGTTCCGGAGCTTTGTGTCGCGCTGGAAAAGCGCGGCCTCGGCGCCCGCCGTGTCGATCTGGTGCTGCACCGGGTCGATAGCGGCCTGCAGGCGGTGCGGGCCGGCACCTCCAGACCGGTGCGCGACATTAAACAGCTTGTCCGGCTTCTGACCGACCGTATCGACACCATCGATCCCGGTTTCGGCATCGAGATGATGGTGCTGACCGCCACCCATGCCGAGCCGCTTGTCGCCGCGCAGGCCCGATCCTCGCTTCTGGAGGAAGGCCGTGCGGACATCGCCGATACGGTTGATGTCATTCTCAATCGCGGCCACAGGGTCTATCGTTATGCGGCGGTGGCGAGCGATGTGCCGGAGCGCTCCGTTGCCCGGGTTGCGGCGCTGGCACCTGAGGATAGGCTCGGCTGGCCCGGCCACTGGCCGCGCCCGGTCAGGCTTTTTGCAAGGCCGGAACCCATCGAAACGCTGGCGCTGCTGCCGGACCATCCGCCGCGTTATTTCCTCTGGAAAGGCGTGCGCCACAATGTGCGGCGCGCCGACGGGCCGGAGCGGGTGTTCGGCGAATGGTGGAAACGCGACCGGGAAAAGGCCGCCGTGCGCGATTATTTTACGGTGGAAAATGAAAGCGGCGAGCGCTTCTGGATTTTCCGCTCCGGCGATGGCGAACATATCGAGACTGGTTCTCAGGGCTGGTTCATTCACGGGGTCTTCGCATGA	MIGRQGSRRLVLALDKAAKAAGIRPGTPVSKAQALVPGLIVEDLDADGDSRALQQLAFHFLRIYAPIVAADPPDGLVLDTAGADHLHGNEALMLSGMVNRLHAAGFSARAAIADSWGAAHALARFGREAISIVPPGGQRVAVSGLPLAALRLEERIVSELKVLGFRSIGELADAPRAPLTLRFGPELVRRLSQALGEIGEPIEPVRVAEMVEVRRAFPEPIAAAETIARYTQKLVPELCVALEKRGLGARRVDLVLHRVDSGLQAVRAGTSRPVRDIKQLVRLLTDRIDTIDPGFGIEMMVLTATHAEPLVAAQARSSLLEEGRADIADTVDVILNRGHRVYRYAAVASDVPERSVARVAALAPEDRLGWPGHWPRPVRLFARPEPIETLALLPDHPPRYFLWKGVRHNVRRADGPERVFGEWWKRDREKAAVRDYFTVENESGERFWIFRSGDGEHIETGSQGWFIHGVFA				NA	NA	NA	NA	NA
BMS010_03742	765			hypothetical protein	ATGCAAAAGCGCGCGGATCAGTTGCTCGTTGTCGAAGAGCTGCGTGAAAGGCTGGAAAGGATCGGTAACGGCGCTCCGCGCCTGCACGAGACCTTGCCTTTCGGCGTGGATGCCATCGACCATCGCCTGCCGGGAGGCGGGCTGAAGCTCGGTTGCCTGCATGAGGTGAGCGGCGGCGGCAATGGCGCTGCCGATGGCGCGGCGGCCGCCCTTTTTGCGGCCGGTGTGGCGGCACGGCTTTCCGGCAAGGTTTTATGGTGTGTCACCCGCCGGGATCTGTTCATGCCGGGGCTGACGCAGGCCGGCCTGTCGCAGAACCGGGTCATCATCGTTGAATGCCGCGATGAGAAAGGTGTGCTCGACTGTTTCGAGGAGGGCTTACGCTGCAACGGTTTCGGCGCGGTGATGGGCGAGCTGGCGAAGTTGCCGATGAATGCCTCGCGGCGGCTGCAACTGGCGGCGGAAACCTCCGGTGTTACCGGCATCGCCATTCGTCGCTTCCGGCGTGCGGCCGATGCGGCGCTGTTCGGCGAGCCGACGGCAGCGATGACCCGCTGGCGCATCTCCGTCCGACCCTCATCCCCCTTGCCGGTACCGGGGGTGGGCAGGCCGCGCTGGTTTCTGGAACTTTTGCGATGTCGCGGCGGCGAAAGTGCCGAATTTGAAGTGGAAGCCTGTGATGCAAAGGGTCGTCTCGCTCTACCTGCCGACATGGCCGACGGATCGTTTCCGGCGTCTTTCGGGCAAGGACGCGCCGCCGGTTGA	MQKRADQLLVVEELRERLERIGNGAPRLHETLPFGVDAIDHRLPGGGLKLGCLHEVSGGGNGAADGAAAALFAAGVAARLSGKVLWCVTRRDLFMPGLTQAGLSQNRVIIVECRDEKGVLDCFEEGLRCNGFGAVMGELAKLPMNASRRLQLAAETSGVTGIAIRRFRRAADAALFGEPTAAMTRWRISVRPSSPLPVPGVGRPRWFLELLRCRGGESAEFEVEACDAKGRLALPADMADGSFPASFGQGRAAG				NA	NA	NA	NA	NA
BMS010_03743	354			hypothetical protein	ATGATCGCCAGCATTCTGATTGCCGTGGTTGCGGCCATCCATATTTACATCGTCATTCTGGAAATGCTGCTGTGGGAAAAACCAGCTGGCCGAAAGGCCTTCGGTCTTTCGGCGGATTTTGCCCGGCAGACGAAAGTACTGGCCGCCAATCAGGGACTGTATAACGGTTTTCTCGCAGCGGGGCTGATCTATGGGCTGATGCAGGGCGATGAAGGGCTGAGCTTCAAGGTTTTCTTCCTGACCTGCGTTCTGGTGGCCGGTATTTTCGGCGCCATCACCGCCAATATGAAGATCCTGTTCATTCAGGCATTGCCGGCATTGTTCGCGCTCGGCTTCCTTTGGATCGGAGCATGA	MIASILIAVVAAIHIYIVILEMLLWEKPAGRKAFGLSADFARQTKVLAANQGLYNGFLAAGLIYGLMQGDEGLSFKVFFLTCVLVAGIFGAITANMKILFIQALPALFALGFLWIGA				NA	NA	NA	NA	NA
BMS010_03744	1287	ttuD_1		Putative hydroxypyruvate reductase	ATGAGCGCATGGAACGATCACAGCGCAAAAGACGCCCTCAACCGGATTTTCATGGCGGCAGTGGCAAGCGCCGATCCGGCAAAGGTGCTGCAACACCACCTTCCCTCCCCGCCCAAAGGCCGCTGCGTGGTGGTGGGCGCCGGCAAGGCTTCGGCCGCCATGGCTGCCGCGCTCGAAGCGGCATGGCCGCATGTCGATCTTTCCGGTGTGGTGGTGACGCGTTACGGCCATGCCGTCCCGACTGCGCGCATCGAGATCATCGAGGCTTCCCATCCCGTGCCGGACGATAAAAGCGCGGAAGCGGCAAAACGCATTCTCGCAGCCGTTGAAGGCTTGACGGCGGACGACATGGTCATCGCGCTGATTTCCGGCGGCGGTTCGGCGCTGATGGTGGCACCGGCAGAAGGCATGACCCTTGCCGACAAGATGGCCGTCAATCGTGCCCTTTTGGCCAGCGGCGCGACGATTTCCGAAATGAACGCCGTGCGCAAACATCTCTCCCGCATCAAGGGCGGGCGGCTGGCGCTGGCTGCCAAACCGGCCAGGGTCGTTTCGCTGCTGATTTCCGATGTACCGGGAGACGATCCCTCCGAAATCGCTTCCGGCCCGACGGTTGCCGATCCGAGCGATATTGAAAGCGTGCGGGAAATCGTCTCCCGTTATGCGCTCGATCTTCCCGAAAACGTGCGCAAGGTGCTGGAAAAAGGCGAGGAAACCCCCAAGGCGGGCGATATCGAGGAGGATATCCGGCTCATCGCCGCCCCTTCGCTCGCCCTGCAGGCGGCGGCGGATGAGGCGGTGAAACTCGGGCTTACGCCGCTCATCCTCGGAGATTCGCTGGAGGGTGAATCAAAAGATGTCGGCGCTGTCATGGCCGGCATCGCGCTTTCCGCCAGCCGTAAGGGCCTGCCGGTGAAAGGCCCGGCCGTGCTGCTTTCCGGCGGCGAAACCACAGTCACGCTGAACAGGGGCGTTGGCGGCAAGGGACCGGCCGGCAAGGGCGGCCGCAACACGGAATTCCTGCTGAGCCTCGCGCTGACGCTCAAAGGTGCGGACGGCATCTGGGCCATTGCCGGCGATAGCGACGGCATAGACGGCGTCGAGGATGCGGCAGGTGCGGCGGTGACACCGGACACGCTTGCCCGCATGCGCGAAGCCGGTGTCGATCCGCGCCAATCGCTCGTGAGCCACGACAGCTACACCGCTTTCAGGGCAGCAGGAGACCTTGTCGTGACGGGGCCGACGCTGACGAATGTGAATGATATCCGCGCGATTTTGATCGGGTGA	MSAWNDHSAKDALNRIFMAAVASADPAKVLQHHLPSPPKGRCVVVGAGKASAAMAAALEAAWPHVDLSGVVVTRYGHAVPTARIEIIEASHPVPDDKSAEAAKRILAAVEGLTADDMVIALISGGGSALMVAPAEGMTLADKMAVNRALLASGATISEMNAVRKHLSRIKGGRLALAAKPARVVSLLISDVPGDDPSEIASGPTVADPSDIESVREIVSRYALDLPENVRKVLEKGEETPKAGDIEEDIRLIAAPSLALQAAADEAVKLGLTPLILGDSLEGESKDVGAVMAGIALSASRKGLPVKGPAVLLSGGETTVTLNRGVGGKGPAGKGGRNTEFLLSLALTLKGADGIWAIAGDSDGIDGVEDAAGAAVTPDTLARMREAGVDPRQSLVSHDSYTAFRAAGDLVVTGPTLTNVNDIRAILIG	PGPT0024440_909	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024440-gck|gckA-K11529	NA	NA
BMS010_03745	249			hypothetical protein	ATGCGTCCTGGAGTGCTCATACTTGGCCTGATCATGGCCCTTATTCCGACTTTGGCGGATGCCCACAATTGCAAATGCCGAAATCGCGGCGTCATGTTCCAGCTCGGCCAGACATCCTGCCTGAAGGTCGATGGCGGCTCTTATCTCGCGCGCTGCGAGATGAAGCTCAACGTTTCGTCATGGACAAAGATTCAGGACGGTTGCCCCATAACAGAAAGGGTGCAGACGCAGTCAACCCGCGTCAATTGA	MRPGVLILGLIMALIPTLADAHNCKCRNRGVMFQLGQTSCLKVDGGSYLARCEMKLNVSSWTKIQDGCPITERVQTQSTRVN				NA	NA	NA	NA	NA
BMS010_03746	1188			hypothetical protein	ATGGCTATTGAAGGAAAGACAACCGACAAGGCGAACAGGCGGATTCGCCTTGGCATGGTGGGTGGCGGTTCGGGCGCATTTATCGGCGGCGTTCACCGCATGGCCGCGCGACTCGACAATCGCTTCGATCTCGTGGCGGGGGCCCTGTCCTCGACGCCGGAAAAATCCCTCGCCTCCGGCCGTGAGCTGGGGCTCGATCCCGAACGTTGTTACGGTTCGTTCGAGGAAATGGCCGAAAAGGAAGCGCTGCGCGAGGATGGCATCGAGGCGGTGGCGATCGTTACGCCCAACCATGTGCATTATCCGGCCGCCAAGGCGTTTCTGGAGCGCGGCATCCATGTCATCTGCGACAAGCCGCTGACCTCCAATCTGGAAGATGCCAAAAAGCTGAAGCAGGTGGCCGACAAGGCCGATGCCCTGTTTATCCTCACGCATAATTATACCGGCTATCCCATGGTGCGGCACGCGCGGGAACTGGTGGAGGCCGGTGAACTCGGCAATATCCGTCTGGTGCAGATGGAATATCCGCAGGACTGGCTGACGGAAGCGGTGGAGCAGACCGGTGCGAAACAGGCTGTCTGGCGTACCGATCCGGCGCAATCCGGTGTCGGCGGCTCCACCGGCGATATCGGCACCCATGCCTATAATCTCGGTTGCTTCATTTCCGGTCTGGAAGCGGATGAGCTGGCGGCAGATGTGCACACCTTTGTCGAAGGCCGCCGGCTGGACGACAATGCGCATGTGATGCTGCGCTTCAAGCAAAAGGGCGGCAAGCAGGCGGCCAAGGGGCTGCTCTGGTGCAGCCAGGTTGCGGTCGGCCACGAAAACGGGCTGAAGGTTCGTGTTTATGGCGACAAGGCCGGTATCGAGTGGACGCAGGCGGACCCAAACTATCTCTGGTTCACGAGGCTTGGCGAACCCAAGCAATTGATCACCCGCGGCGGCGCCGGGGCAGGGGCTGCCGCAGCGCGCGTCACCCGCATTCCGTCCGGCCACCCGGAAGGTTATCTCGAAGCCTTCGCCACCATCTACACCGAGGCTGCGCATGCCATCGAAGCCCGCCGCAGCGGCTCGGCGCTCGACAAGGCGGTGATTTACCCCACCGTGGACGACGGGGTTAAAGGTGTCGCTTTCGTCACGGCCTGCATCGAGTCCGGCAAGAAGAATGGCGGCTGGGTGAAGCTGTAA	MAIEGKTTDKANRRIRLGMVGGGSGAFIGGVHRMAARLDNRFDLVAGALSSTPEKSLASGRELGLDPERCYGSFEEMAEKEALREDGIEAVAIVTPNHVHYPAAKAFLERGIHVICDKPLTSNLEDAKKLKQVADKADALFILTHNYTGYPMVRHARELVEAGELGNIRLVQMEYPQDWLTEAVEQTGAKQAVWRTDPAQSGVGGSTGDIGTHAYNLGCFISGLEADELAADVHTFVEGRRLDDNAHVMLRFKQKGGKQAAKGLLWCSQVAVGHENGLKVRVYGDKAGIEWTQADPNYLWFTRLGEPKQLITRGGAGAGAAAARVTRIPSGHPEGYLEAFATIYTEAAHAIEARRSGSALDKAVIYPTVDDGVKGVAFVTACIESGKKNGGWVKL				NA	NA	NA	NA	NA
BMS010_03747	1053	iolE_2		Inosose dehydratase	ATGAGAACGATCAAGGGACCGGGTCTTTTTCTCGGCCAGTTTGCCGGCGATGCCGCACCTTTCAACAGCTGGGACGGCATTACCAAATGGGCGGCGGAAAAGGGCTATGCCGGCGTGCAGGTGCCGACTTGGGCCGGACAGCTGATCGATCTCAAAAAAGCGGCGGAATCGAAGGATTATTGCGACGAATTTGCCGGGGTCGCGCGCCAGAACGGTGTCGAGGTGACCGAGCTTTCCACCCATTTGCAGGGCCAGCTGGTTGCCGTTCACCCGGTCTATGACGAGGCCTTCGACGGTTTTGCAGCGCCTGAAGTGCGCGGCAATCCAAACGCGCGTCAGCAATGGGCGGTGGAGCAGGTGAAGCTGGCGCTGAAAGCCTCGAAGAATCTCGGCATCAAGGCGCATGCGACCTTCTCCGGTGCGCTTGCCTGGCCCTTCGTTTACCCGTGGCCGCAGCGCCCGGCCGGTCTGGTGGAAACAGCCTTCGACGAGCTGGCGAAACGCTGGACGCCGATCCTCGATTATGCCGATGAGCAGGGTGTGGATGTCTGCTACGAAATCCATCCCGGCGAAGACCTGCATGATGGCGTGACCTTCGAGATGTTCCTGGAGCGGGTGAAGAACCACAAGCGCGCCAACATGCTCTACGATCCGTCGCATTACATTCTGCAATGCCTCGATTATCTCGACAATATCGACATTTACAAAGACCGCATCAAGATGTTCCACGTTAAGGACGCGGAGTTCAATCCGACCGGCCGGCAGGGCGTTTATGGCGGTTATCAGGGCTGGGTCAACCGCGCGGGCCGGTTCCGTTCGCTGGGCGACGGGCAGGTGGATTTCGGTGCCGTATTCTCCAAAATGGCGGCCAATGATTTCGATGGCTGGGCCGTGGTCGAATGGGAATGCGCGCTGAAGCACCCTGAAGACGGTGCTCGGGAAGGAGCCGAATTCGTCAAGGCGCATATCATCCGCGTCACGGAAAAAGCCTTTGACGATTTCGCATCGAGCGGCACGGACGATGCGGCCAACCGCCGTATGCTCGGGCTTTGA	MRTIKGPGLFLGQFAGDAAPFNSWDGITKWAAEKGYAGVQVPTWAGQLIDLKKAAESKDYCDEFAGVARQNGVEVTELSTHLQGQLVAVHPVYDEAFDGFAAPEVRGNPNARQQWAVEQVKLALKASKNLGIKAHATFSGALAWPFVYPWPQRPAGLVETAFDELAKRWTPILDYADEQGVDVCYEIHPGEDLHDGVTFEMFLERVKNHKRANMLYDPSHYILQCLDYLDNIDIYKDRIKMFHVKDAEFNPTGRQGVYGGYQGWVNRAGRFRSLGDGQVDFGAVFSKMAANDFDGWAVVEWECALKHPEDGAREGAEFVKAHIIRVTEKAFDDFASSGTDDAANRRMLGL	PGPT0016785_21	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_CATABOLISM,PGPT0016785-mocC-K03335	NA	NA
BMS010_03748	1074	ugpC_7	COG3839	sn-glycerol-3-phosphate import ATP-binding protein UgpC	ATGGCTTCCGTCGAACTTAGGGATATCCGCAAGTCCTATGCCGCCCTCGATGTCATTCACGGCATCTCGCTCGATATTGCGGACGGCGAATTCATCGCCCTGGTCGGTCCTTCCGGCTGCGGCAAGTCCACTCTGCTGCGCATGATCGCCGGGCTGGAGGAAATCACCGATGGCGATATTCTCATCGGTGACAAGGTAGTGAACGGCATGACCCCGCGTGAACGCAACATCGCCATGGTGTTCCAGTCCTATGCGCTTTATCCGCATATGACGGTGGCGGAAAACATGGGCTTCAACCTGAAGCTAGCCGGCCAGCCGAAAAACGTCATTGAAGAGCGCGTGGCGGAAGCCGCTCGCATGCTCGATCTCGGCAAGCTTCTGGATCGCAAGCCCTCGCAACTCTCCGGCGGCCAGCGCCAGCGCGTCGCCATGGGCCGCGCCGTGGTGCGCAACCCGGCCGTCTTCCTGTTCGATGAGCCGCTGTCCAACCTGGACGCCAAGCTTCGCGTGCAGATGCGCAGCGAAATCAAGGCGCTTCATCAGAAAGTCGGCACCACCTCAATCTATGTCACCCACGACCAGATCGAGGCGATGACACTGGCGGATCGGGTCGTGGTGCTCAATCACGGTCGCATCGAACAGCAGGGCACGCCGCTCGAACTCTACAAGACGCCCGCCAATCTCTTCGTCGCCGCCTTCATCGGCTCACCGGCCATGAACCTCATCGAATGCGTGGTCGATAGCGAGGGAGACCAGCCGGCGGCCCGGCTGAAGGACGGAACCGCGATCCGCATTGCCGCCTCCCGAAAGGTGAAACGCGGCCAGCCGGTGACGATTGGCTTGAGGCCGGAACATATCGGCTCGGCCATCGGCGGTGATGTGTCGCTCTCCGGCCGGACGCTGCTGGTGGAGCCGACGGGCGCACAGACCCATGTGATCTTCGAACTGGCGGGCGATCATGTGACGGCGGTGGTGGATGGCGAGCAGCCGGTCAAGGTCAACACTCCCTTTGCTGCCACCGTGCAACATGAGCGTGTGCACGTCTTCGACAGGGCGAGCGGACTGGCGCTTTAA	MASVELRDIRKSYAALDVIHGISLDIADGEFIALVGPSGCGKSTLLRMIAGLEEITDGDILIGDKVVNGMTPRERNIAMVFQSYALYPHMTVAENMGFNLKLAGQPKNVIEERVAEAARMLDLGKLLDRKPSQLSGGQRQRVAMGRAVVRNPAVFLFDEPLSNLDAKLRVQMRSEIKALHQKVGTTSIYVTHDQIEAMTLADRVVVLNHGRIEQQGTPLELYKTPANLFVAAFIGSPAMNLIECVVDSEGDQPAARLKDGTAIRIAASRKVKRGQPVTIGLRPEHIGSAIGGDVSLSGRTLLVEPTGAQTHVIFELAGDHVTAVVDGEQPVKVNTPFAATVQHERVHVFDRASGLAL	PGPT0016310_5210	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0016310-msmX|msmK|malK|sugC|ggtA|msiK-K10112	NA	NA
BMS010_03749	849	ngcG_1	COG0395	Diacetylchitobiose uptake system permease protein NgcG	ATGACTGACACATCCACCTCCGTCCGCATGCCGCTGCAAACCAAGCTCTATCTTTATATATCGCTGAGTCTGATCGCGGCCATCGTGCTCATCCCGTTGCTCACCACCGCGCTTGGCGGCTTCAAGACGTTGGGAGACCTGCGCGTTAACCCGTTCGGCATCCCGGCCGAATGGCAATGGGCCAATTACGGCGATATTCTTTTCGGCAAACGCTACTGGCTGCAAATCTTCAATTCGCTGGTCATCGCGCTGTTGACGGTATTCCTGACGCTGACCGTCTCGGCCATGGCCGCCTTCACCTTCGCGCATGTGAAGTTCTTCGGCTCGTCCTTCCTGCTGAATTATTTCCTGCTGGGGCTGATGTTCCCGGCGGCCACCGCCATCCTGCCGTTGTTCATCCGCATCCGCGATCTCGGCCTGCTCGACACCTATTGGGGTGTGGTGCTGCCGCAGGTGGCCTTCGGGCTTGGCATGAGCATTCTCCTGTTCCGCAATTATTTCCGCAATCTGCCGGAAGAGCTGTTTCAGGCGGCCTTTGTGGATGGCTGCGGGTATCTGCGCTTCTTCTGGCACATTTCCGTGCCGCTCTCGCGGCCGATCGTGGCGACCGTCGGCATCGTTTCCTTCGTCGGCAGCTGGAACAGCTATATCCTGCCGCTGATCATGCTGAATTCGGAATCGAAATATCCGTGGCCACTCGGCATCATGGTTTATCGCGGTGAATTCGGCACGGAATGGCAGCTCGTCCTCGCCTTCATCACGCTGACGATCCTGCCGACCGTCATCGTCTTCTTCCTCGCACAGAAACACATCATCGCGGGCCTGACGGCCGGTGCCGTCAAATCGTGA	MTDTSTSVRMPLQTKLYLYISLSLIAAIVLIPLLTTALGGFKTLGDLRVNPFGIPAEWQWANYGDILFGKRYWLQIFNSLVIALLTVFLTLTVSAMAAFTFAHVKFFGSSFLLNYFLLGLMFPAATAILPLFIRIRDLGLLDTYWGVVLPQVAFGLGMSILLFRNYFRNLPEELFQAAFVDGCGYLRFFWHISVPLSRPIVATVGIVSFVGSWNSYILPLIMLNSESKYPWPLGIMVYRGEFGTEWQLVLAFITLTILPTVIVFFLAQKHIIAGLTAGAVKS	PGPT0016340_910	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016340-msmG-K10119	NA	NA
BMS010_03750	939	ngcF	COG1175	Diacetylchitobiose uptake system permease protein NgcF	ATGACGGATATTTCCATGACTTCTGCGTCCATACCGGCGCGCGGCGCGGCGAAGACAAAGCGCAAGCAAAGCTCGGTCGCGCATGACCGGGCGCTGACCCTTCTGGTCTTCCTGCCGCCCGCCCTGCTGCTCTTTACCCTGTTCGTCATCCTGCCCATGGGCGAGGCGGCGTGGTACAGCCTTTACCGCTGGAACGGCTACGGCACGCCGACCGATTTTGTCGGCCTGAAGAATTTCCAGGTGCTTTTCGGCAATGCCGCATTCTCACAGGCCCTGATCAATAACGGCCTCATTATCCTCATTTCGATCCTGATTCAGATTCCGCTGGCCATCTGGCTCGCCATGATGCTGGCGCACCGCATTCCCGGTGTCGTCGCTTTCCGCCTGGTGTTCTTTCTGCCTTACGTTCTCGCTGACGTCGCGGCGGGTCTGATCTGGCGTTTCGTTTATGATGGCGATTATGGCCTGTTTGCCGCCATTTCCAATTTCTTCGGTTTCGCCAATCCCTATGTGCTGGCCGATAAGGATGTGGCGATCTATGCCGTGCTCGGCGTCATCGTCTGGAAATATTTCGGCTTTCACATGATGCTGTTCATCGCCGGCCTCCAATCCGTCGACAAGAACGTGCTGGAAGCCGCCGAAATCGATGGCGCTTCCGGCTGGCAGAAATTCCGATACGTCACCTTGCCGATGCTCGGCTCCACCGTTCGCCTGTCCGTCTTCTTTGCGGTCATCGGCTCGCTGCAGCTCTTCGACATGATCATGCCGCTCACCGGCGGCGGGCCGTCCAACTCCACGCAGACCATGGTCACTTTCCTCTACACCTACGGCGTCATGCGCATGCAGGTGGGGCTTGGCAGCGCGGTCGGCGTCGTTCTCTTCGTCATCTGCGTGACGCTCGCCTTCGGTTACAAAAGGATTTTCATGCGCCATGACTGA	MTDISMTSASIPARGAAKTKRKQSSVAHDRALTLLVFLPPALLLFTLFVILPMGEAAWYSLYRWNGYGTPTDFVGLKNFQVLFGNAAFSQALINNGLIILISILIQIPLAIWLAMMLAHRIPGVVAFRLVFFLPYVLADVAAGLIWRFVYDGDYGLFAAISNFFGFANPYVLADKDVAIYAVLGVIVWKYFGFHMMLFIAGLQSVDKNVLEAAEIDGASGWQKFRYVTLPMLGSTVRLSVFFAVIGSLQLFDMIMPLTGGGPSNSTQTMVTFLYTYGVMRMQVGLGSAVGVVLFVICVTLAFGYKRIFMRHD	PGPT0016335_634	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016335-msmF-K10118	NA	NA
BMS010_03751	1302			hypothetical protein	ATGACCTATTGGCACGCAGGCGCAAGCCTGAGCGGCAGGCGGATCGCTTTTGCCGCAACGACAAGCATAGCCCTGATGCTCGGCGCGGCCAGCGCCTCGGCGGCGACCGTCGTTAAATGGATGCATGTGGAATTGGACCCAAAATCCGTGGCTGTCTGGGAGGAGATCGCCAAGGAATACGAGGCCAAGCACCCCGATGTCGATATTCAGCTGCAGTTCCTCGAAAACGAGGCTTTCAAGGCGAAATTGCCGACGCTGCTGCAATCCAACGACGTGCCGGATTTCTTTTATAGCTGGGGTGGCGGCGTCCTTGAGGAACAGTCCAAGACCGGTGCGCTGAAGGATCTGACCGAGGTTTTCGACGCCAATGGCGGCAAGCTGCGGCAGGCCTATAATGCATCCGCAATCGACGGCCTGTCTTTCGACGGTAAGGTCTGGGCCGTGCCTTACCGTGTCAGCCTTGTCAGCTTCTTTTACAACAAGGAGCTGTTTGCCAAGGCCGGCGTGAAGGCCGATGACATCAAGACCTGGGACGATTTCAGCGCCACGGTCAAGAAGATCAAGGAAGCGGGCATCGTCCCGATTGCCGGTGGCGGCGGTGAAAAATGGCCGATCCATTTCTACTGGAGCTATCTCGTCATGCGCAATGGCGGGCAGGCCGTGTTCGATGCCGCCCGCAAGGGCGAAGGCGAAGGTTTCATGGATCCGGCGATCATCAAGGCGGGTGAACAGCTGGCCGAGTTCGGCAAGCTCGAACCCTTCCAGCCCGGTTATCTCGGCTCCACCTGGCCACAGGCGCTCGGTGTCTTCGGTGACGGCAAGGCAGCGATTATTCTCGGCTTCGACAATACGGAAGCCAACCAGCGCAAGAATGCCGGTGACGGCAAGGGGCTGGCCGCAGACAATATCGGCCGCTTCGCCTTCCCGGTTGTCGAGGGCGGTGCGGGCAAGGCCACAGATACGCTGGGCGGCCTGAACGGCTGGGCTGTCACGAAAAACGCGTCCAAGGAAGCGATCGATTTCGCCACCTTCCTTACCAGCAAGGAAAGCGAGGAGAAAATGGCGACCGCCGGTATGATCCTGCCGGTTGCCACAGGGGCTGCCGGTGCGGTGAAGAACCCGCTGCTGGCGGATTCCGCCAAGCAGCTGGCTGCTTCCACCTGGCACCAGAACTTCTTCGACCAGACGCTCGGCGCTGCCGTCGGTCGTGTTGTCAACGATATCTCGGTTGAGATCGTTTCCGGCCAGATGACTGCCGAAGAGGGTGCCCAGCAGATTCAGGACGCATTCGAACTGCGCTGA	MTYWHAGASLSGRRIAFAATTSIALMLGAASASAATVVKWMHVELDPKSVAVWEEIAKEYEAKHPDVDIQLQFLENEAFKAKLPTLLQSNDVPDFFYSWGGGVLEEQSKTGALKDLTEVFDANGGKLRQAYNASAIDGLSFDGKVWAVPYRVSLVSFFYNKELFAKAGVKADDIKTWDDFSATVKKIKEAGIVPIAGGGGEKWPIHFYWSYLVMRNGGQAVFDAARKGEGEGFMDPAIIKAGEQLAEFGKLEPFQPGYLGSTWPQALGVFGDGKAAIILGFDNTEANQRKNAGDGKGLAADNIGRFAFPVVEGGAGKATDTLGGLNGWAVTKNASKEAIDFATFLTSKESEEKMATAGMILPVATGAAGAVKNPLLADSAKQLAASTWHQNFFDQTLGAAVGRVVNDISVEIVSGQMTAEEGAQQIQDAFELR	PGPT0016330_1595	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016330-msmE-K10117	NA	NA
BMS010_03752	1200	nagC_1	COG1940	N-acetylglucosamine repressor	ATGAAGACCGCAGACCCGGAATTAATGCGCGCGATCAACAGGCTGAGCGTGCTGGACAGCATCCGCCGCCATGGGCCGATCTCGCGGGTGGAAATCAGCGAAAGAACTGAGCTTTCCACCACCACCGTCTCGGCGATCACCGCCTCGCTGCTCGATGACGGGCTTATCCTCACCCGTCATATCGGCGATATCCGCACCGAAGGCGCACGCGGCAGGCCGCGCGTGATGCTGGAACTGAACCCGGATGCCGCCCGCGTGGTGGGCGCCAAGATCGCCGCAAGCCGCATGGTCTTCGTCGTTACTGATTTCTGCGGCAACGTGCTTTCAACGCTTGCTCTACCGATCCGTGTCGACCGTCAGCCCATCGGCGTCATCGCCGATCTTGTGGAGGACGGGGTGCGGCGCTGCGTCGTCGATGCCGGTCTTTCGCTGGAAGATGTGGACATGGTCTGCCTGGGCCTGCCCGGCGTCATCGAGCATCGCACCGGGAAAATTCGCAGCAGCCCGATTTTGCGCGAAGTGAACGTCAATTTCGCCGAGGAAATGACCGCACGGCTGAATTCGCCGACCATCATTGAAAGCGACGCCCACGCCATCACGCTCGCCCATCACTGGTTCGGCCATGCCCGCGATCTGGAAGACATGGTGCTGATTTCGCTCGAACAGACGCTCGGGCTTGGCGTGCTGCACCAGAACCAGCTTTTTCGCGGTGCGGGCGGTCTCAGCCACAATCTCGGGGATCTTGTCATCGGCCTTGCCAATGAGGGCACGGTGCGGCTGGCGAGCCAGGCGGGCGAAAACGCCATCCTGGGCTCACGCCCGGCGGATGGGCGCTTTGCCGAGGCGATCCGGCTCGGCCGCGGCATGCAGCATGCCCATGCATTGATTGCGGCGGAAGACCACGACCTCATCGCGGCAGCCTTGCGCGCCGGCGCAGCGCTTGGCCTGACGCTTGCCAATATCGTCACACTGTTCGCGCCGCCACGGGTCATCATCACCGGCTCCAGCCTCGAGCTCGGAGAACCCTTCATCGCCAGTATTCGTGACAGCTACAATGCCGCCGTGCCGCCTTCGCTGGCCGGCGTCGCCGCGCTGGTTTTCGACATTGCGAGCGACGAATTATGGGCGCAGGGGGCTGCGGCCGTCGCGCTTTACGAACTTTACGAATCGCCATGGAACACCACGGGACCGGCGCTTTAG	MKTADPELMRAINRLSVLDSIRRHGPISRVEISERTELSTTTVSAITASLLDDGLILTRHIGDIRTEGARGRPRVMLELNPDAARVVGAKIAASRMVFVVTDFCGNVLSTLALPIRVDRQPIGVIADLVEDGVRRCVVDAGLSLEDVDMVCLGLPGVIEHRTGKIRSSPILREVNVNFAEEMTARLNSPTIIESDAHAITLAHHWFGHARDLEDMVLISLEQTLGLGVLHQNQLFRGAGGLSHNLGDLVIGLANEGTVRLASQAGENAILGSRPADGRFAEAIRLGRGMQHAHALIAAEDHDLIAAALRAGAALGLTLANIVTLFAPPRVIITGSSLELGEPFIASIRDSYNAAVPPSLAGVAALVFDIASDELWAQGAAAVALYELYESPWNTTGPAL				NA	NA	NA	NA	NA
BMS010_03753	1101	iolG_3		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGAACAGGGTCGGTATCGGCATCATCGGCTGCGGCAACATCTCCAGCGCCTATCTCAAGGCCATGGCGTCGTTTCCCATTCTCGACATTCGCGGTCTTGCGGATATGAACGAGGCGGCGGCGAAAGCCCGTGCCGATGAATTCGGCCTTCAGGCAACCAGCATCGACGCGCTTCTCTCCGATCCTTCCGTAGAGATCATCGTCAACCTCACCATTCCCAAGGCGCATGTGGAGGTGGGGCTGCGCGCGCTTGACGCCGGCAAACACGCATATTCCGAAAAACCGCTCGGTATCAATTTCGCCGAGGGCAAGCGGCTTGCGGATGCGGCAAAGGCAAAGGGTCTGCGCATTGGCTCGGCCCCGGATACCTTTCTTGGCGGCGGGCACCAGACCGCACGCTGGCTGATCGATGAGGGCGTGCTTGGCCAGCCGGTCGGTGGAACGGCCACATTCATGTGCCCCGGCCACGAGCGCTGGCACCCCAACCCGGCCTTTTATTACGAGGTCGGCGGCGGGCCGATGCTGGATATGGGGCCCTATTACATCACCGATCTCGTCAACCTGTTCGGCCCGGTCGCCAAAGTGGCGGGCTTTGCCATCGCGCCGCGCAATGAGCGCCTCATTACCAGCGAGCCGAAGAACGGCGAAAAAATCCCCGTCCATGTCGCCACACATGTGTCCGGCGTGCTGGCTTTTGAGAATGGCGCCGTGGTGCAGGTGGGCATGAGCTTCGATGTGGCAGGCCACAAACATGTGCCGCTGGAACTCTATGGGACGGAAGGTACCCTGATCGTCCCCGATCCAAATCATTTCGGCGGCGAGGTGCAATTGCTGAAAAAGGGCGGCCAGTTCGAGCCGCAGGCGCTGTCATCCCCCTATTCCGACGGCAATTATCGTTCGATAGGCGTAGCGGATATGGCCCATGCCATCCGCGAGAACCGCCCGCATCGCGCCAATGGCGATCTTGCCCTGCATGTGCTGGAGGTGATGGAAGCCTTCCAGACCGCATCGGACACCGGCACCGCCGTTTCCATCACCACCAAGGCGGAGCGCCCTGCTCCGCTTGAAACATCGCTGGTCAACGGCCAGCTCGGCAAATAA	MNRVGIGIIGCGNISSAYLKAMASFPILDIRGLADMNEAAAKARADEFGLQATSIDALLSDPSVEIIVNLTIPKAHVEVGLRALDAGKHAYSEKPLGINFAEGKRLADAAKAKGLRIGSAPDTFLGGGHQTARWLIDEGVLGQPVGGTATFMCPGHERWHPNPAFYYEVGGGPMLDMGPYYITDLVNLFGPVAKVAGFAIAPRNERLITSEPKNGEKIPVHVATHVSGVLAFENGAVVQVGMSFDVAGHKHVPLELYGTEGTLIVPDPNHFGGEVQLLKKGGQFEPQALSSPYSDGNYRSIGVADMAHAIRENRPHRANGDLALHVLEVMEAFQTASDTGTAVSITTKAERPAPLETSLVNGQLGK				NA	NA	NA	NA	NA
BMS010_03754	642			hypothetical protein	ATGCGCGAAGCACTCATCGTCTGGGGCGGCTGGAGCGGCCACGAGCCGCAGGAATGCGCCACCATCGTCAAGGACATGCTGGAGGAGGACGGTTTCAAGGTCTATGTGGAGCACTCAACCGAGGCCTTCGCCGATCCTTCGGTGCATGATCTGAGCCTCGTGGTGCCCATCGTCACCATGTCGAAGATCGAAAAGGAAGAGATCAAGAACCTGACGTCCGCCGTGGAAAACGGCGTCGGCATTGCCGGTTTTCATGGCGGTGCGGGCGATAGTTTCCGCGAATGCGTCGAATATCAGTTCATGATCGGCGGCCAATGGGTTGCCCATCCCGGCAATATCATCGACTACCATGTCAACATCATCCGCCCCGACGACCCGCTGATGGAGGGGATTTCCGATTTCCCCTATACGTCGGAGCAATATTATATGCATGTCGACCCCTCAAACGAGGTTCTCGCGACGACAAAGTTTACAGGCGACCATGCCTGGTGGATCGACGGCGTGGTGATGCCGGTTGTCTGGAAACGCAAATACGGCAAGGGCCGGGTCTTCTATTCGGCGCTTGGCCATCAGGCCAAGGAGTTCTCCGTACCGCAGATGAAAACCATGTTCCGCCGTGGCGCGAATTGGGCGGCGCGTTGA	MREALIVWGGWSGHEPQECATIVKDMLEEDGFKVYVEHSTEAFADPSVHDLSLVVPIVTMSKIEKEEIKNLTSAVENGVGIAGFHGGAGDSFRECVEYQFMIGGQWVAHPGNIIDYHVNIIRPDDPLMEGISDFPYTSEQYYMHVDPSNEVLATTKFTGDHAWWIDGVVMPVVWKRKYGKGRVFYSALGHQAKEFSVPQMKTMFRRGANWAAR				NA	NA	NA	NA	NA
BMS010_03755	1359	cnbH		2-amino-5-chloromuconic acid deaminase	ATGGCTCATAAAGGCAAAAACATCGCGCAGCTTTCCGTTCTCCTCCAGAGCGGCCATCTCGATCCGCGTGCCCTGGTGGAAGAGACGCTGGATGCGATCGGCGGAGAGGACGATCAGGCGATTTTTGTCGAGTTGACGGCAGCGCGGGCGATGTCGGAGGCGGAAGCCGCGGCAAAACGCCTTGGTGATGGCCGTTCCTGTGGTGTGCTCGATGGTATTCCGGTGGCCTGGAAGGACCTGTTTGACCTTGAAGGCATGGCGACCACGGCCGGATCGACGGTGCTTGCCAACGATAAGCCTGCGTCGCGCGACGCGGATGTGGTGACGGCGCTGAAACAGGCGGGCATGATCTGCATCGGCCGGACCAATATGAGCGAGTTCGCGTTTTCCGGTCTCGGCATCAATCCGCACTACGGTACGCCCCGCAATCCTGCTTCTACGGATGGTCACCGTCTGCCGGGCGGCTCTTCGTCGGGTGCGGGCGTCGCCGTGGCTGCCGGTCTGGTGCCGGTGGCGATCGGCACCGATACCGGTGGATCGGTGCGTATTCCCGCCGCCTTCAACGGCGTGGTGGGCTATAAGGCAAGTCGTGGCCGTTATTCGATGCGCGGCGTTTATCCCTTGGCGAAAAGCCTTGATTCTCTCGGCCCGCTCACGCACACCGTACAGGACGCCGTCTGGGTGGATGCCGCCATGCGCGGCAAGGCGACTGCCGATCTCACGCGCGCACCCCTTTCCGGCCTGTCTCTGGTGGTGCCGGAAACTGTCTTTTTCGATGGCATCGAGGATGGCGTCGCAGCCGCTTTCGAGCAGGCGGTGGAACGTCTCGTCCGCGCCGGCGCTTCGGTGCGGCGGCAGGCATTCCCGATTTTTTCGGAACTGTTCGATCTTATCGGGGAAAAGGGTGCGCTGGTGACGGCAGAGGCCTTCGCCCTGCACAAGACCCGGCTGGAAGGTGCCGACGCCGCCCGCATGGACCCGCGCGTGGTGGCCAGAGCAGGGCTCGGCGCGAATATTTCCCTGCCGGACTACATCGCCATCATCGACGCGCGCGAACGCATGACGGCGGCGTTTTCCGGCATGATTGGCAGGCAAGAGCTGCTGGTATCGCCGACATTGCCGCATGTCGCGGCCAAAGTCGCGCCGCTTCTCGAGAGTGACGATGCCTTTTTCGCCATGAATGCGAAGACCCTGCGTAACACCCAGATCGGCAATTTTTTCGATCTCTGCGGTGTTTCGATCCCCTGCGGAACGGGCGATGCGGGCATGCCGGTCGGCCTGCTGCTTTCCGGCCTGCACGGCACGGACGATCATGTTCTGAGCGTGGCGATGGCGGCGGAAGAAATCGTTCGGGGTTGA	MAHKGKNIAQLSVLLQSGHLDPRALVEETLDAIGGEDDQAIFVELTAARAMSEAEAAAKRLGDGRSCGVLDGIPVAWKDLFDLEGMATTAGSTVLANDKPASRDADVVTALKQAGMICIGRTNMSEFAFSGLGINPHYGTPRNPASTDGHRLPGGSSSGAGVAVAAGLVPVAIGTDTGGSVRIPAAFNGVVGYKASRGRYSMRGVYPLAKSLDSLGPLTHTVQDAVWVDAAMRGKATADLTRAPLSGLSLVVPETVFFDGIEDGVAAAFEQAVERLVRAGASVRRQAFPIFSELFDLIGEKGALVTAEAFALHKTRLEGADAARMDPRVVARAGLGANISLPDYIAIIDARERMTAAFSGMIGRQELLVSPTLPHVAAKVAPLLESDDAFFAMNAKTLRNTQIGNFFDLCGVSIPCGTGDAGMPVGLLLSGLHGTDDHVLSVAMAAEEIVRG				NA	NA	NA	NA	NA
BMS010_03756	2319			hypothetical protein	ATGGAAGAGACTGCCTATCGCGGGACAGATAGACAGGTTGAACCGGGCCACACGCTTCGCTCGCCAACGCAGCCGGAAACAGGCCGGTTTTCGCGGCGGCGTTCGCTCGCCAGCAAGATAACCCTGATATTCCTCGGCGGCGTGATCTTTTCCTACAGCATCGGTGCGCTTGTCGGCTGGTATATGTTCGTCGCCGCCGCCAGCGAGCAATGGCTCAACCAGGCCCGCGTTAATTCGCAGATCGCCAGCGCCACGCTTCGCAGCATCTACACTTATGTCAGCGTCACCGCCGATGCCGACGGGCAGGTCAACGGCATATTGACCGACAAACCCATCGGCGACGACGAATCCATTCTCGTCACCGGCTTCAACCCCAGCGATGTTCTCGCGCTTATCGGCGCGCAGACCAAGAATGCCGTCTGGCTTTTCCGTTATGACGAGGCAGATTCCGGATTCCGGCAGATCGCGGCGGCTTTCGACAACGCCACCGATGACGATGAAAAGCCGCTCGCCACCGATCCCATCTTTTCCCGGGATGCGGTCGCCGCGCGTTTTTCCACTGGTTTTGCGACCATCGGCGAATCCAGCCATTATATCGGCCTGCTGCCGATCATCAGCACGGAAACGAAGAAACCCATCGGCGCGGTCGCCGTCAGCATCGGCGGCTCGGACGCGCTTTATGGCGCGCAGCGCAAGCTCATCTATAATTCGCTCGCCGCGCTGATCGTGGTCTTGACCGTCACCGGCGTGCTTGTGACCGTCATCGCCCGGCATTTCCTGAAACCGGTCCCGGCGCTGGTGCAGGCGACGCTTCGGATCGCCCGCGAGGAAACGGATGTCGCCACGCCGTTTCAGGAGCGGCGGGACGAGATCGGCGACATGGCCACCGCCATCGAGACGTTGCGTGAGGCGGTTCTGGAACGCGGACGCCTGCGGCAGATTCGCGATATGGCGCAGCAGCTGGAACATATGGCCCATCATGATGCGCTGACCGGACTTCCAAACCGCGTGCTACTGATGAAGACACTGGAAAACCGTCTCGAACAGCTTGCCGCGTCAGGCCAGCCGTTCAATGTCATGCTGCTCGATCTGGACCGATTCAAGGCCGTCAATGACACACTCGGACACGCCGCCGGCGATTCCCTGCTGGTGGCGGTGGCCTCACGGATTTCCGCCGTGCTGGGTGAAAACGACATGGTAAGCCGTCTCGGCGGCGACGAATTCGCGATCATACAATCGGCAAATGGCGACTGCGAGAGCGATGCGGCGATGCTGGCCGCGCGGGTGGTCCATGCCGTCTCGCGCAGTTTCGGTCTCGAAGGCAGCGATATCAGCATCGATACCAGCATCGGCATCGCCTGCGCGCCGGGCCACGGCACATCCGCAACGCAGCTTCTGCAACATGCCGATCTCGGCCTTTACCGGGCGAAATCCATGGGCTGCGGCTATTTCGTCTTTTATGAGCCAGGCATGGACATGGCGGCGCAGCACAAGCATGCGCTGGAAATAGACATGAAATCCGCGCTCGAAAACCAGGAATTCGAGCTGCATTACCAGCCGGTTGTCAATCTGCAGAGCGGTCGCATCGTCGCTTATGAAGCGCTGGCCCGCTGGCGACACAGCAAGCTTGGCCTCATCGCACCGGACCGCTTCATCGCGCTTGCCGAAGAAAACAACTTCATCAAGCCGTTGGGCGAGTGGGTTCTGGCACAGGCCTGCAGGGATGCGATGACATGGCCGAAGGATATCAGGCTTGCCGTCAATCTATCCGCCGTTCAGCTCAGCAATGACGACATCGTACCGATAGTGGACCGGGCGCTTGAAACATCCGGCTTCCCGGCGGAACGGCTTGAACTGGAAGTGACGGAAACGGTCATGCTGGAGCGCGACAACAGCGCCCGAGCCCTGAAACTGCTGAAGGAAAGGGGCGTTCGCCTCGCGCTTGACGATTTTGGCACCGGTTATGCGGGGCTCAGCACGCTCACCCATGTCGCCTTCGACAAGATCAAGATCGACCGGGAATTCGTCTCCGGCCTGCCGTCCAATCCGATGTGTTCCGCCATCGTCAACACCGTCATCGACATGGCTGAACAGATCGGCCTGAAGGTCACCGCCGAGGGCGTTGAAAACAGGGAGCAGGTCGAAGCGCTCAAGCTTTCCGGCTGCGACGAAGCGCAGGGTTATTATTTTGCCGAGCCCGCGCCGCTTGCCCGCATTCTCAAGAACCGCGCCGTCATCACTCCGATCACGCAGGATGAATTCGGCGACATCGGTCGTCCGACACAGGAAACCTATTGCCCGCCACAAAAAGCCATTTGA	MEETAYRGTDRQVEPGHTLRSPTQPETGRFSRRRSLASKITLIFLGGVIFSYSIGALVGWYMFVAAASEQWLNQARVNSQIASATLRSIYTYVSVTADADGQVNGILTDKPIGDDESILVTGFNPSDVLALIGAQTKNAVWLFRYDEADSGFRQIAAAFDNATDDDEKPLATDPIFSRDAVAARFSTGFATIGESSHYIGLLPIISTETKKPIGAVAVSIGGSDALYGAQRKLIYNSLAALIVVLTVTGVLVTVIARHFLKPVPALVQATLRIAREETDVATPFQERRDEIGDMATAIETLREAVLERGRLRQIRDMAQQLEHMAHHDALTGLPNRVLLMKTLENRLEQLAASGQPFNVMLLDLDRFKAVNDTLGHAAGDSLLVAVASRISAVLGENDMVSRLGGDEFAIIQSANGDCESDAAMLAARVVHAVSRSFGLEGSDISIDTSIGIACAPGHGTSATQLLQHADLGLYRAKSMGCGYFVFYEPGMDMAAQHKHALEIDMKSALENQEFELHYQPVVNLQSGRIVAYEALARWRHSKLGLIAPDRFIALAEENNFIKPLGEWVLAQACRDAMTWPKDIRLAVNLSAVQLSNDDIVPIVDRALETSGFPAERLELEVTETVMLERDNSARALKLLKERGVRLALDDFGTGYAGLSTLTHVAFDKIKIDREFVSGLPSNPMCSAIVNTVIDMAEQIGLKVTAEGVENREQVEALKLSGCDEAQGYYFAEPAPLARILKNRAVITPITQDEFGDIGRPTQETYCPPQKAI				NA	NA	NA	NA	NA
BMS010_03757	894	gltI_1	COG0834	Glutamate/aspartate import solute-binding protein	ATGCGTCTTTCAGTATTTTGCCTTTTCCTCACATGCCTTGCTCCCATCACGCCTCTCCAGGCTGCCGGCGAAGGCAATACGCTCCAGCAGATCGCCAAAACCGCAAAGATCCGCATTGGCTATCGCGAAGCCGAACCGCCCTTTTCCTATCAATTGCCGAATGGGGAGGTTACCGGTTTCTCGACCGATCTTTGTCGGGCGATCAGCGAAGATATTCGCAGGAAGCTGAAGCTCGACAGGATCGAACTCGAATACGTCAAGGCGACGCCCGCGACCCGTTTCATCCTTGTCCGCGGCGGCCAGATCGACATTGAATGCGCGGCCACGACCAACAATAGCGAACGCCGCAAGATCGTGGATTTCTCCTATCCCAACTTCATGACCGCGACGCAGTTTCTCTCCCGCAAACAGGACAATCTGAAAAGCCTTGCCGATCTAGCCGGGCGGTCCGTTACATCCGCCTCCGGCACGGTCAATATCGAGCAGCTCAATGCCGTGAACCGGGCGAAGAACCTCAATATCTCTGTGATGCCGACGAAAACCAATGAGGAGGCCTTCGAACTCGTGGTTTCCGGCAAGGCCTCCGCCTTTGTTATGGATGGCATATTGCTCGCGGCGCTGGCGGCGACATCAGAGAATCCGGACCTCTATGCGCTTTCTGAGGAAACGCTGAGCGCGCCCGAACCCTATGGCCTGGTTTTCCGGCGCAACGACCCCGGTTTCAAGGCGGCAGTCAATGAAAGCCTTCGTCATATTTTCACCGGGCCAGTCATTCATGGCCTTTATGAAAAGTGGTTCACCAAGCCCATTCCCCCAAACGGCATGAACCTGAACCTGCCGATGGCCGCCTCTCTGAAACAGGCATACGAACATCCGAGCGAATACCAGGACTGA	MRLSVFCLFLTCLAPITPLQAAGEGNTLQQIAKTAKIRIGYREAEPPFSYQLPNGEVTGFSTDLCRAISEDIRRKLKLDRIELEYVKATPATRFILVRGGQIDIECAATTNNSERRKIVDFSYPNFMTATQFLSRKQDNLKSLADLAGRSVTSASGTVNIEQLNAVNRAKNLNISVMPTKTNEEAFELVVSGKASAFVMDGILLAALAATSENPDLYALSEETLSAPEPYGLVFRRNDPGFKAAVNESLRHIFTGPVIHGLYEKWFTKPIPPNGMNLNLPMAASLKQAYEHPSEYQD	PGPT0000750_700	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000750-gltI|aatJ-K10001	NA	NA
BMS010_03758	903	gltI_2	COG0834	Glutamate/aspartate import solute-binding protein	ATGCAGAGATCGACACTATGGCTTATGCTCGTTTTTTCAAGTCTTCTTCCCGCCCAGGCGGTGAGCGAGGATGCCCAACCGCCGACACTTGAAACCATTGCCAGAACCGGCACCATCAAGCTCGGTTACGCCGATCGCAATATTCCCTTTTCCTATCTCGGCACCGGCCCGGAGCCTATTGGCTACAGCATCGAGCTATGCCTGAGAGTGGCGGATTCCATCAAGAAAAAGCTCGGCTTGCCGGAACTGAAGGTCGAGTTCGTCAAGCGCACGCCCAGCAACCGCATCATGCTTCTCAATGACGGCACGATGGACATGGAATGCGTGGCGAGCACGAATACGGAAGAGCGGCGCAAGGCCGTGTGGTTCTCCTACAGCCACTTCATCACCGGCACCCGTTATGTGGCGCTGAAATCGAGCGGCCTCAACACCGTCGCCGATCTCGCCGGGCGAACGGTGGTGGTCACGACGGGAACCATCAACATCACCCAACTCAACGTGCTCAATCGCAAACTGGGGCTGAACGTCGCTGTTCTGCAAAATGACAGCACCGAGGGCAGTTTCGACATGGTGACGGAAAACCGTGCCTCGGCCTTCGTCATGGACGACATACTTCTGCGATCATTCGTTGCCGAGACCGGCAAGCCGGAAGACTACGTCATCTCCGACGAATATCTTGCCCCGCCGCAGCCCTATGGCCTGATGCTCCGCCATGGCGATACCGGCTTCCGCGACGCCGTCAACGAAGCGCTCGGCCAAATCTATGAGAGCGGCGAAATCGATAAAATCTACGACAAATGGTTCAATGCGCCGATCCCGCCAAACGGCATCAACCTGAAGCGCCCGCTGCCCGGCGATCTGGCCGAGGCATTTCGAAAACCCGTCGATACGACAGCAGAATAA	MQRSTLWLMLVFSSLLPAQAVSEDAQPPTLETIARTGTIKLGYADRNIPFSYLGTGPEPIGYSIELCLRVADSIKKKLGLPELKVEFVKRTPSNRIMLLNDGTMDMECVASTNTEERRKAVWFSYSHFITGTRYVALKSSGLNTVADLAGRTVVVTTGTINITQLNVLNRKLGLNVAVLQNDSTEGSFDMVTENRASAFVMDDILLRSFVAETGKPEDYVISDEYLAPPQPYGLMLRHGDTGFRDAVNEALGQIYESGEIDKIYDKWFNAPIPPNGINLKRPLPGDLAEAFRKPVDTTAE	PGPT0000750_484	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000750-gltI|aatJ-K10001	NA	NA
BMS010_03759	261	minE_2	COG0851	Cell division topological specificity factor	ATGAGCATCTTCAGTCTTTTCCGCAAACAGAAGTCGGCACCGCTTGCGCGCGAACGCCTGCAGGTGCTGCTCGCCCACGAAAGGGCATCCTCCGGCTCCGATCTGGTCGCCATCCTCAGGGAAGAAATTCTCGGCGTCATCGCCAAACATGTGCAGATCGACAATGATCGCGTGCATGTGAAGATGGATCGCGACGAGCATGTCTCCATCTTGGAGATCGATGTCGAGATTCCTCTGGGTGCCGATCTGCGCGCCGCGTAA	MSIFSLFRKQKSAPLARERLQVLLAHERASSGSDLVAILREEILGVIAKHVQIDNDRVHVKMDRDEHVSILEIDVEIPLGADLRAA				NA	NA	NA	NA	NA
BMS010_03760	816	minD_2	COG2894	Septum site-determining protein MinD	ATGGGGAAGGTAGTCGTTGTAACTTCCGGCAAGGGCGGGGTGGGAAAGACCACCTCGACCGCAGCGCTTGGCGCCGCACTGGCGCAGAACAAGGAGAAGGTCGTGGTCGTCGATTTCGATGTCGGCCTGCGTAACCTCGATCTCGTCATGGGTGCTGAACGCCGCGTGGTTTACGATCTCGTCAACGTCATCCAGGGCGACGCCAAGCTGACGCAGGCGCTGATCCGCGACAAGCGCCTCGAGACGCTGTTCCTCCTGCCTGCCTCGCAGACGCGCGACAAGGACAATCTGACGCCGGAAGGTGTCGAATGGGTCATCAACGAGCTGAAGAAACACTTCGACTGGGTGATCTGTGACAGCCCCGCCGGTATCGAACGCGGCGCGACGCTGGCCATGCGCCATGCGGATGTGGCCGTCGTCGTCACCAATCCGGAAGTCTCCTCGGTGCGCGACAGCGACCGCATCATCGGTCTGCTGGATTCCAAGACGCTGAAGGCCGAACGCGGCGAGCGCATGGAGAAGCACCTGCTTCTGACGCGTTACGACGCTTCCCGCGCCGAGCGTGGCGACATGCTGAAGGTCGACGACGTTCTGGAAATTCTCTCCATTCCGCTGCTCGGCATCATTCCCGAAAGCACGGATGTGCTGCGGGCCTCGAACGTCGGTGCTCCTGTTACGCTGGCCGACGCCCGCTGCGCGCCGGCCATGGCTTATTTCGACGCCGCCCGCCGCCTGTCCGGTGAGGATATTCCGGTGGTCATTCCGGGCGAGAAGCGTGGCATCTTCTCCAAAATCTTCGCAAGGAGGGCTGCATGA	MGKVVVVTSGKGGVGKTTSTAALGAALAQNKEKVVVVDFDVGLRNLDLVMGAERRVVYDLVNVIQGDAKLTQALIRDKRLETLFLLPASQTRDKDNLTPEGVEWVINELKKHFDWVICDSPAGIERGATLAMRHADVAVVVTNPEVSSVRDSDRIIGLLDSKTLKAERGERMEKHLLLTRYDASRAERGDMLKVDDVLEILSIPLLGIIPESTDVLRASNVGAPVTLADARCAPAMAYFDAARRLSGEDIPVVIPGEKRGIFSKIFARRAA				NA	NA	NA	NA	NA
BMS010_03761	729	minC_2	COG0850	Septum site-determining protein MinC	ATGACCAAAGTGCTAACAGACCAGCGTTCGATCCGTATCAAAGGCCGCTCCTTCCTCGCAGTCGTCCTGTCTCCCGAATCTCCGGTCGATCAATGGCTGGAAAGGCTCGATGATCTAGCCGCCCGTTCAGCGGGCTTCTTCCTGTCGCGTCCGGTGGTTCTGGATGTGTCGGAGCTGTCGCTCGACAAGGCGGGGCTGAAGGAGCTGCTGGCGGCGCTGACGGAGCGCAATGTCGGCATCATGGGTATCGAGGGCGTTCGCCCCTCGATGATCGAGCCGGGCATGCCGCCGTCGCTGAAGGGCGGAAAGCCCGCTTCCGATGTCGAGGTTGAGCCGGTCGCCATCGCTGCCGAGTTGCCGGAGGAAAAGCCGCGTGCTGCCGGTGAGGTCAGGGCCGTCGTGCCGTCGCTGGTCATCAACGAGCCGGTTCGCTCCGGCCAGTCGATCATGTTTCCCGAGGGTGACGTGACCGTCATCGGCTCTGTCGCCTCGGGGGCGGAAATCATCGCCGGCGGTTCGGTGCATATTTACGGCGCCCTGCGCGGTCGCGCCATGGCCGGTTCGCTCGGCAATGTTTCGGCGCGCATCTTCTGCCGCAAGCTCGAAGCGGAGCTTCTGGCCATCGACGGCGTCTACAAGGTGGCCGAGGACATTGACGACAAGCTGCGCGGCCAGCCCGTTCAGCTCTGGCTGGAAAACGATACGATCAAGGCCGCAAAGCTTGGCTGA	MTKVLTDQRSIRIKGRSFLAVVLSPESPVDQWLERLDDLAARSAGFFLSRPVVLDVSELSLDKAGLKELLAALTERNVGIMGIEGVRPSMIEPGMPPSLKGGKPASDVEVEPVAIAAELPEEKPRAAGEVRAVVPSLVINEPVRSGQSIMFPEGDVTVIGSVASGAEIIAGGSVHIYGALRGRAMAGSLGNVSARIFCRKLEAELLAIDGVYKVAEDIDDKLRGQPVQLWLENDTIKAAKLG				NA	NA	NA	NA	NA
BMS010_03762	687	hxpA	COG0637	Hexitol phosphatase A	ATGCACAGCAAAGTCCCGCCGCAGAACCAGATATTTTCGCAAGACTATGCGGCCTTCCTGTTCGACATGGATGGAACATTGCTCAACTCGATTACGGTGGTGGAGCGGGTCTGGCGCGAATGGGCCGTGGACAACGGCATAGAGCCGAACGCTTTCCTGCAGCGCATCCATGGCATGCGCGCGTCGGAAGTGGTGCGCCGCGAGGCCGTTCCCGGTCTCGATGTCGCGGAACAGGCGGCGATGCTGCTGCAGAAGGAAATGGACGATGTCGACGGGATCCTCCAGATTCCCGAGGCTGCGGCATTTCTCGAAAAATTGCCGGCCGGCAAATGGGCAATCGTCACCTCCGCCGCCCGCGCGCTCGCCGAGCGCCGACTGGCGGCCGCAGGCCTCACCCCGCCTGCGGTGATGATCTGCGCCGAGGACGTGGTGAACGGCAAGCCCGATCCGGAAGGATATAAAAAGGCGGCGGAAAAGCTCGGCGTCGCGCCTGAAAACTGCGTCGTCTTCGAGGACGCCCCCGCCGGAATTCAGGCCGGGGAAAGCATGGGCGCCACCGTGGTCGTCATCAACGCCACCCACTCCCATCTCATCGAAACGCCGCATCTTTCCATAGGCGGATATGGTGAGCTGGATGTCGTCATCGGCGAGAACGGCGCCCTGAGGCTCGCAGGTGGCAGGGGCTGA	MHSKVPPQNQIFSQDYAAFLFDMDGTLLNSITVVERVWREWAVDNGIEPNAFLQRIHGMRASEVVRREAVPGLDVAEQAAMLLQKEMDDVDGILQIPEAAAFLEKLPAGKWAIVTSAARALAERRLAAAGLTPPAVMICAEDVVNGKPDPEGYKKAAEKLGVAPENCVVFEDAPAGIQAGESMGATVVVINATHSHLIETPHLSIGGYGELDVVIGENGALRLAGGRG	PGPT0018405_120	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_SORBITOL_DEGRADATION,PGPT0018405-hxpB-K19270	NA	NA
BMS010_03763	717	lldR_1	COG2186	Putative L-lactate dehydrogenase operon regulatory protein	ATGTTTGTGGCTCTGGAGCCGCGCCGCCTTTACCGGCTGGTCGCGGAACAAATTCGTTTGCTCATCGAAAGCGGGGAACTGACCGAAGGCCAGCGCCTGCCGGCGGAACGGGATCTTGCCGAACGCTTCGGCGTATCGCGCCCGACGGTTCGTGAAGCGCTGATCGTTCTGGAAGTGGAAGGCCATATCCATATCCGCATGGGTTCGGGCGTTTATGTCAGCGCGGCCGGCAAGCAGGCCAAGGAAAAGCCGCCGGTGCCGGATGCCCATGGGCCATTCGAAATCCTGCAGGCGCGCTGCATCATCGAAAGCGCGATTGCGGAGGAAGCCGCAAGGCTTGCAACACCGAAATGCATCGCCAAGCTCGATGATATCATCGAACGCATGGCCGGCGCACTCGACAACTCACCACAGGCGCTCAATTTCGACCGGGCCTTCCACACCGCGATTGCCGACATCATCGGCAATTCGGCGCTGAACCGCTTTACCGGCCTGATCTATGACGAGCGCAGCCTGTCACCCTTTTTCGAAAAGCTCGCCAGCTATTTCGAAGGGCCCCACACCTGGAACCTTGCCGTTCAGGAACACCGCGCAATCCGCGACGCCATTGCCGCTAACGACCCGGAAGGTGCACGTGAGGCGATGCGGCAGCATCTGACGCTGTCGCAAAAGAGATTTTCCGAAAGTTTCGGGGAGGAAACGATCGGAGAAGAGTGA	MFVALEPRRLYRLVAEQIRLLIESGELTEGQRLPAERDLAERFGVSRPTVREALIVLEVEGHIHIRMGSGVYVSAAGKQAKEKPPVPDAHGPFEILQARCIIESAIAEEAARLATPKCIAKLDDIIERMAGALDNSPQALNFDRAFHTAIADIIGNSALNRFTGLIYDERSLSPFFEKLASYFEGPHTWNLAVQEHRAIRDAIAANDPEGAREAMRQHLTLSQKRFSESFGEETIGEE	PGPT0018214_30	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_HEXONATE|HEXURONATE|HEXURONIDE_UTILIZATION,PGPT0018214-exuR-K19775	NA	NA
BMS010_03764	975	siaP	COG1638	Sialic acid-binding periplasmic protein SiaP	ATGAAAATCAGATTGTCGACTTTGATGGGCGCAACAGCCGCCATCCTGCTTTCCGCCTTAGCGGCGCAGGCGCAGACCGCGCTGAAATGGGCGCATGTCTACGAGACCTCCGAACCGTTCCACACCGATTCGGTCTGGGCTGCGGAAGAGATCGCCAAGCGCACCGAAGGCCGCTACAAGATCGATGTCTTTCCGGCTTCGCAGCTCGGCAAGGAAGCCGATATCAATCAGGGCCTGAAAATCGGCACCGTCGATATCATCATTTCCGGCTCCAGCTTTGCCGCGCGTGACTTCAAGCCGATCGGCGTCACCTACTTCCCCTATATCTTTCGCGACCCGAGCCATCTGATCGCCTACACCAAGAGCGATATCTTCAAGCGGCTCGCCAAGGGTTATGAAGACAAGACCGGCAACCACATCGCCGCCGTCAGCTATTACGGCACGCGTCACACCACATCGAACAAGCCGATTGCCGCCTGCGCCGACATGGCGGGGCTGAAGATGCGCGTTCCCGACGTTCCGGCCTATCTCGCCATGCCGCGCGCCTGCGGCGCCAACACCACCCCGATTGCCTTTGCGGAAGTCTATCTGGCGCTCCAGAACGGCACGGTCGACGCCCAGGAAAACCCGCTGACCACCATCGAGGCGAAGAAGTTCTTCGAAGTGCAGAAGAACATCGTCCTGACCGGCCATATCGTCGACCACCTCAACACGGTGATTTCGAAGAACCTGTGGTCGCAGCTCTCCGATGAAGACAAGAAAATCTTCACCGAAGTCATGCAGCAGGCAGCCGAGCGCACCACCAAGACCATCGAAAGCCGCGAAAAGAGCCTCGTCGAAGACTTCAAGAAGCGTGGTCTCACCGTCGCCGAGGTCGACAAGGCCGACTTCGAGAAAAACGTCCTCGAAAAAGTGAAGTTCGAGGACTTCGGTTACGACAAGGCCGACTGGGAAGCCATTCGCGCCGTCAAGTGA	MKIRLSTLMGATAAILLSALAAQAQTALKWAHVYETSEPFHTDSVWAAEEIAKRTEGRYKIDVFPASQLGKEADINQGLKIGTVDIIISGSSFAARDFKPIGVTYFPYIFRDPSHLIAYTKSDIFKRLAKGYEDKTGNHIAAVSYYGTRHTTSNKPIAACADMAGLKMRVPDVPAYLAMPRACGANTTPIAFAEVYLALQNGTVDAQENPLTTIEAKKFFEVQKNIVLTGHIVDHLNTVISKNLWSQLSDEDKKIFTEVMQQAAERTTKTIESREKSLVEDFKKRGLTVAEVDKADFEKNVLEKVKFEDFGYDKADWEAIRAVK				NA	NA	NA	NA	NA
BMS010_03765	573			hypothetical protein	ATGTCGCAGGAAATCCATACTCAGGTCACGCCTGAGGAACTCGCCCATACGTTCGACGAGGCGCCGCCGGAGGTCGATCTTACGGTCTATTCATTCGAAGACTGGGTCACGCTCGGCCTCTTCTGGCTGATGACGGGCTGCGTGTTCCTTCAATTCTTCACCCGCTACGTGCTCAACGACAGCTACGCCTGGACGGAAGAAATCGCCGTCAACTGCCTGATCGGCGTCGTCTTTTTGGGTTCTGTCATGTGCGTGCGCATGTCGCGCCACATCCAGGTGGACGTGCTTTATCACTATGTGCCGCCGCAGGTGGCCCGCGCCATGTCGATCCTCGTCGATGTGCTGCGTATCCTCTTCTTCGCCTACACCTCCTGGCTGATGTGGCGCTATCTGGAAATCGTCGCCGATGAGGAGATGGTCACCGTGGCGTTGCCGCGCAACATCGTTTTCTACACGGTTCTGGCCGCTTTCGTTCTGATGTTCTTCCGATCGGTGCAGGTCTTCATCGCCAATATGCAGCGTGGTTATTCCGTGCTCGAGCGGCCCGAAGAATTCCAGAGCGCGGGGGATTGA	MSQEIHTQVTPEELAHTFDEAPPEVDLTVYSFEDWVTLGLFWLMTGCVFLQFFTRYVLNDSYAWTEEIAVNCLIGVVFLGSVMCVRMSRHIQVDVLYHYVPPQVARAMSILVDVLRILFFAYTSWLMWRYLEIVADEEMVTVALPRNIVFYTVLAAFVLMFFRSVQVFIANMQRGYSVLERPEEFQSAGD				NA	NA	NA	NA	NA
BMS010_03766	1407	siaM_1	COG1593	Sialic acid TRAP transporter large permease protein SiaM	ATGCTGCTTCTTATCGGCTCCTTTCTTCTCCTGATGCTGATCGGCCTGCCCGTCGCGATCTCGATGGCCTCGGCCTCGCTGCTCTACATCGTGTTTTATAATGTCGCGCCTGATATCATCGCGGCGCAGCGCCTGATCGCGGGTGTGGAAAGCTTTCCGCTTCTGGCCGTTCCCTTCTTCATCCTTGCCGGCAACCTGATGAATACGGCGGGGGTTACGGGACGCATCTATTCCTTCGCCGTCGCACTCGTCGGCTGGATGAAGGGCGGTCTCGCACAGGTCAACATCATCGGCTCGGTGATCTTTTCCGGCATGTCCGGCACAGCACTTGCCGACGCGGCCGGTATCGGCACCATCGAAATCAAGGCCATGAAGGATCACGGTTATCCGGTCGAAGCGGCCGTCGGCGTCACCGCCGCCTCCGCAACGCTCGGCCCGATCTTCCCGCCGTCGCTGCCCTTCGTCATCTATGGCATGATGGCGAATGTCTCCATCGGCGCGCTGTTCATGGCCGGCATCGTTCCGGGCGTCGTGATGACGCTTCTGATGATGATCACGGTTGCGGTCTTCGCCTATATCAAGGGCTGGGGCTCCGATACGCCCTTCAGCCTCAGAACCATTTTCGGCGCATCGATCGAAGTCTTCGTGGTGATGATGGTGCCGCTCGGCATCTATATCCTCACGGCGTTTGGCCTGTCGCTCAACCTGTCGATCCTGATCGTGTTGGTGATATTGCTGGCCTGTGACTGGTATTTCGACTTCTCGGCCGTGATGGCGCTGATGACGCCTGTCATCCTGATCGGCGGCATGACCATGGGCTGGTTCACACCGACGGAAGCCGCCGTTGCGGCCGTCCTCTGGTCGTTGTTCCTTGGGCTTGTCCGTTACCGGACGATGACTTTCAAGACGCTGGCGAAATCGACCTTCGATACGATTGAGACGACCGCTTCGGTGCTCTTCATCGTCGCGGCGGCCTCGGTCTTCGCATGGCTGCTGACGGTCAGCCAGGCGGCGCAGCTTCTGTCGGCGGCGATCCTGACGATAACCGACAGCAAGTGGATTTTCCTCGTGCTGGTCAATCTCCTGATGCTGTTCGTCGGCTGCTTCCTCGATACGATTGCGGCTATCACCATCCTCGTGCCGATCCTGCTGCCGCTGGTGCTGCAGTTCAATATCGATCCGGTGCATTTCGGTCTCATCATCACGCTCAACTTGATGATAGGGCTGTTGCATCCGCCGCTCGGCATGGTGCTGTTCGTGCTCTCGCGCGTGGCGAAACTCTCCGTCGAACGCACGACGATGGCTATTCTGCCCTGGCTGGTGCCGTTGTTCGTGGCGCTGCTGCTGATCACCTTCGTTCCGGCCATCACGCTGTGGCTGCCGACCGAAATGGGCCTGATCCGCTAA	MLLLIGSFLLLMLIGLPVAISMASASLLYIVFYNVAPDIIAAQRLIAGVESFPLLAVPFFILAGNLMNTAGVTGRIYSFAVALVGWMKGGLAQVNIIGSVIFSGMSGTALADAAGIGTIEIKAMKDHGYPVEAAVGVTAASATLGPIFPPSLPFVIYGMMANVSIGALFMAGIVPGVVMTLLMMITVAVFAYIKGWGSDTPFSLRTIFGASIEVFVVMMVPLGIYILTAFGLSLNLSILIVLVILLACDWYFDFSAVMALMTPVILIGGMTMGWFTPTEAAVAAVLWSLFLGLVRYRTMTFKTLAKSTFDTIETTASVLFIVAAASVFAWLLTVSQAAQLLSAAILTITDSKWIFLVLVNLLMLFVGCFLDTIAAITILVPILLPLVLQFNIDPVHFGLIITLNLMIGLLHPPLGMVLFVLSRVAKLSVERTTMAILPWLVPLFVALLLITFVPAITLWLPTEMGLIR				NA	NA	NA	NA	NA
BMS010_03767	1047	idnD_3	COG1063	L-idonate 5-dehydrogenase (NAD(P)(+))	ATGCAGACACGCGTGGCACGTCTATACGGCCAGAGGGACATTCGCGTCGAAACGCAGGACCTCATCGAGCCAGGGCCTGGCGAAGTGCTGCTCGCCATGGCGGCGGGCGGCATCTGCGGCTCCGATCTGCATTATTATCAGGATGGCGGCTTCGGTCCGGTCCGGGTGCGCGAGCCGATCATCTGCGGACATGAGGCATCCGGCCATGTGCAGGCGCTGGGAGAGGGTGTCAGCGGGCTTGCCATCGGCCAGCTTGTCGCCGTTAATCCGTCTCAGCCCTGCGGCCATTGCCATTTCTGCCTGAAGGGCCAGCCGATCCATTGCCTTGAAATGCGCTTCATGGGCAGCGCCATGCGCCTGCCGCATGAACAGGGCATGTTCCGCGACCGGCTGGTGGTTCCCGCCAAACAATGCGCGAAATTTTCAGAGGATACCTCACCGGCTGAAGCCGCCTGCACCGAGCCGCTCGCGGTGTGCCTGCATGCCGTGGCCCAGGCCGGCGATCTGGCAGGTGCGAAGGTGCTGGTGACCGGCGCAGGCCCCATCGGCCTCCTGACCATTGCCGCCGCCCGCCACGCCGGAGCAAGCATCGTCGTTGCCACCGACCTTACCGATGCCGCACTTGAACGCGCCCCCGCCATGGGTGCCGACCGCACCATCAATGTCGCGAAAGACGCCGAGGCGCTCATCCCCTATCAGGACAATAAGGGTTATTTCGACGTCATTTTCGATTGCTCCGCAGCCGCTCCAGCACTTCGCACCGCCTTTGCCTGCGTGCGCCCGCGCGGCACCATCGTGCAGGTGGGCGTCACCGGCGACATCACCATTCCGCTCAACGCGCTGGTGGGCAAGGAAATCCTCTGGCGCGGCTCACAGCGTTTCCACGACGAATTCGCCATTGCCGCCGGGTTGATCTCCAGCCGCAAGATCCATGTGCGGCCGATTATTTCCCACAGCTTCCCGCTTGGCGAGGCGAAAGCCGCATTCGAACAGGCCGGAGACCGCTCTGCCGCCTGCAAGGTGCAGCTGACATTTTCCGCAGACTGA	MQTRVARLYGQRDIRVETQDLIEPGPGEVLLAMAAGGICGSDLHYYQDGGFGPVRVREPIICGHEASGHVQALGEGVSGLAIGQLVAVNPSQPCGHCHFCLKGQPIHCLEMRFMGSAMRLPHEQGMFRDRLVVPAKQCAKFSEDTSPAEAACTEPLAVCLHAVAQAGDLAGAKVLVTGAGPIGLLTIAAARHAGASIVVATDLTDAALERAPAMGADRTINVAKDAEALIPYQDNKGYFDVIFDCSAAAPALRTAFACVRPRGTIVQVGVTGDITIPLNALVGKEILWRGSQRFHDEFAIAAGLISSRKIHVRPIISHSFPLGEAKAAFEQAGDRSAACKVQLTFSAD	PGPT0018190_52	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_IDONATE_DEGRADATION,PGPT0018190-idnD-K00098	NA	NA
BMS010_03768	1209	uxuA_1	COG1312	Mannonate dehydratase	ATGAGACATACATGGCGCTGGTTCGGCCCGGTCGACAAGGTCACGGTTCAGGATGCGGCTCAGGCGGGCGCGGAAGGCATCGTCAGCGCGCTGCATCACATCGCCACCGGCGATGTCTGGCCGGTGGACGAAATCGCCAAACGGCATGAAGCCATCAAAGCCGGCGGTCTTTATTGGGACGTGGTGGAAAGCGTGCCGGTCTCCGAGGATATCAAGACCCAGACCGGTGACTGGAAAACCCATATAACCAACTGGCAGGAAACGCTGCGCCGCCTCTCCGCCTCCGGCATCCGCACCGTCTGCTATAATTTCATGCCGGTGCTGGACTGGACCCGCACAGACCTGCGCTGGGAAACCAGACACGGCGCAAAGGCGATGCGTTTCGACCTTCCCGATTTCGCCGCCTTCGACATCCACATCCTGAAACGCCCCGGGGCGAAGGCCGATTATCCGGACTGGCTGGTGGAGGAAGCGGCAAAACGCTTCGCCGACATGCCGGACACGAAAATCGCCGCCCTCGGGCGTAATATCGGCGCGGGTCTGCCCGGTTCGGCGGATGGTTACACACTTGCCCAGCTTCTGGAAAAACTGCGGTCCTATCACGGCATCAACCGCGAAAGGCTGCAACAGAACCTTATCGACTTTCTCTGCGAGGTGACGCCGGTTGCCGAAGAGGTGGGTATCAACATCTGCGCCCATGGCGACGATCCGCCATGGCCGCTGCTCGGCCTGCCGCGGATTCTCTCCACCGAAGCCGACTACGCCCATATGCTCTCAAAGGTCGATAGCCGCGCCAATGGCGTGACGCTCTGCACAGGTTCGCTGGGCGCGCGGGCGGACAATGACCTGCCCTTCATCGCCAGCCGTTTTGCAGATCGCATTCATTTCGTACATCTGCGCAATGTGACGCGCGACACCGACACCGTGCCCTGCTCTTTCTTCGAGGACGAGCATCTGGAAGGCGGAACCGACATGGTCGCCGTCATCGCCGCACTCCTCACCGAAGAAGCGCGCCGCCGGGCGGAGGGCCGTGAAGACCACACCATTCCGATGCGGCCCGATCACGGCCAGGAAATCCTCGACGACCTGACGCGCGGCGCACAACCCGGTTATCCCGCCATCGGCCGGCTGAAGGGATTGGCTGAGCTGCGCGGCATCGAACGCACGTTATCGCACAGCCGTTTCGGGCTGGCGAAGGGTGATCGCTAA	MRHTWRWFGPVDKVTVQDAAQAGAEGIVSALHHIATGDVWPVDEIAKRHEAIKAGGLYWDVVESVPVSEDIKTQTGDWKTHITNWQETLRRLSASGIRTVCYNFMPVLDWTRTDLRWETRHGAKAMRFDLPDFAAFDIHILKRPGAKADYPDWLVEEAAKRFADMPDTKIAALGRNIGAGLPGSADGYTLAQLLEKLRSYHGINRERLQQNLIDFLCEVTPVAEEVGINICAHGDDPPWPLLGLPRILSTEADYAHMLSKVDSRANGVTLCTGSLGARADNDLPFIASRFADRIHFVHLRNVTRDTDTVPCSFFEDEHLEGGTDMVAVIAALLTEEARRRAEGREDHTIPMRPDHGQEILDDLTRGAQPGYPAIGRLKGLAELRGIERTLSHSRFGLAKGDR	PGPT0018270_117	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GULONATE|FRUCTURONATE|MANNONATE_DEGRADATION,PGPT0018270-uxuA-K01686	NA	NA
BMS010_03769	411			hypothetical protein	ATGATGACAAATAGACTCCCGAAATATGTCGCCTGGTCGGTTTTTCTGCTGATCGTGATCGTTACAGTTTGCCCTATCGGCTTTCGTCCGCACACGCTGACGACGGTGGGCCTGGACCGCGCTGCGGCCTTCGCCTTCTGCTCGGCCGCCTTCGTGCTCGCCTATCCGCGTTACTGGCTGGCGATCATCGTGGCAGGCATTGCGGCAGCTTTCGGCATCGAGGCGCTGCAATTCCTGTCGCCCACCCGCCATCCGCATTTGATGGACGCCGCCGTGAAAGCCGCCGGCGTCGTCGCCGGTGGGCTCGGGGCTTTTTCTTGGCTTCAGTTCAAGGCGCGATTGACCGCAGGTTCTCTCATCCGTCATTCCGGCCTTGAGCCGGAATCCAGCCAGCCCAAGTCCTTGGGCTGA	MMTNRLPKYVAWSVFLLIVIVTVCPIGFRPHTLTTVGLDRAAAFAFCSAAFVLAYPRYWLAIIVAGIAAAFGIEALQFLSPTRHPHLMDAAVKAAGVVAGGLGAFSWLQFKARLTAGSLIRHSGLEPESSQPKSLG				NA	NA	NA	NA	NA
BMS010_03770	1512			Alpha-ketoglutaric semialdehyde dehydrogenase 2	ATGAGTTTCAAGCCGCACGGCAAACATCTGGTTGCAGGAGAATGGGTCGCAACGGAAGCTAAATTCCGCAGCGAGCCTGCACATGGCGAAGCTTTCGATTTTTCGGTCGGCACCGTCGATCTGGTGAATGCGGCCTGTGAAGCTGCCGAAGAAGCCTTCTGGAGCTACGGTTACACCACCCGCGAAGAGCGCGCCGCATTCCTCGACACCATCGCCGATGAGATCGAAGCCCGCGCCGACGCCATCACCGAAATCGGCTCGTCCGAGACCGGCCTGCCCGCAGGACGTTTGCAGGGCGAACGCGGCCGCACCGTTGGCCAGCTGCGCCTTTTCGCCTCGCATATCCGCAAGGGCGACTATCTCGACCGCCGCCATGACGAGGCGCTGCCAGATCGACAGCCGCTGCCGCGCCCGGATATCCGCCTGATGCAGCGTCCGATCGGCCCCGTCGCGGTCTTCGGCGCCTCCAACTTCCCGCTCGCCTTCTCCACGGCCGGCGGTGATACCGCTGCCGCTCTGGCAGCCGGCTGCCCGGTCGTCGTCAAAGGCCACTCCGCCCATCCCGGCACCGGCGAAATCGTTGCCGAAGCCGTTCTCGCCGCCGTCAAGAAGCACAATCTGCATCCCGGCGTCTTCTCGCTGATCCAGGGCGGCCGCCGCGATGTCGGTTCCGCGCTCGTGCAGCATCCGCGCATCAAGGCGGTCGGTTTCACCGGTTCGCTCGCTGGCGGCCGCGCGCTGTTCGATCTCTGCGCCCAGCGCCCCGAGCCGATCCCCTTCTTCGGCGAACTCGGTTCCGTGAACCCGATGTTCCTGCTGCCGGAAGCCGTTGCGGCTCGCGGTGAAGCCATTGCCAAGGGCTGGGCGGGCTCGCTCACCATGGGTGCTGGCCAATTCTGCACCAACCCCGGCATCGCCGTCATCCTCTCCGAGCAGGCGGATGCGGTCGCTGAAACCGCACGTGCGGCCCTTTCGGAAGTTGGCCCTCAGGTCATGCTGACCGACGGCATCGCCGCTGCCTATCGGGACGGCCGTGATCGTATCGCTGCCGGCAACGGCGTGCGCGACGTTCTGACCACCACCTGCAACCTGCGCAATGCAACGCCTTACCTGTTCCGCGTTTCGGGCAAGGACTGGGTTGCCAACCATGCGCTTGCTGAAGAAGTCTTCGGACCCCTCGGCCTGATCGTGACGGTTGATAGCACCGAGGAAATGCTGGAAGTTGCCAAGAGCTTCGAAGGCCAGCTGACGGCAACCATGCATCTTGATGCCGGCGACGCCGAACTTGGTCGCAAGCTGCTGCCGATCCTCGAGCGCAAGGCCGGCCGCGTTCTCGCCAACGGTTTCCCAACCGGCGTGGAAGTCTCCGAAGCCATGGTGCATGGCGGCCCTTACCCGGCATCGACGAACTTCGGCGCAACCTCTGTTGGCACGATGTCGATCCGCCGCTTCATGCGCCCGGTTTCCTACCAGAACATTCCTTCGGATGTTCTGCCTGACGATATCCGCTAA	MSFKPHGKHLVAGEWVATEAKFRSEPAHGEAFDFSVGTVDLVNAACEAAEEAFWSYGYTTREERAAFLDTIADEIEARADAITEIGSSETGLPAGRLQGERGRTVGQLRLFASHIRKGDYLDRRHDEALPDRQPLPRPDIRLMQRPIGPVAVFGASNFPLAFSTAGGDTAAALAAGCPVVVKGHSAHPGTGEIVAEAVLAAVKKHNLHPGVFSLIQGGRRDVGSALVQHPRIKAVGFTGSLAGGRALFDLCAQRPEPIPFFGELGSVNPMFLLPEAVAARGEAIAKGWAGSLTMGAGQFCTNPGIAVILSEQADAVAETARAALSEVGPQVMLTDGIAAAYRDGRDRIAAGNGVRDVLTTTCNLRNATPYLFRVSGKDWVANHALAEEVFGPLGLIVTVDSTEEMLEVAKSFEGQLTATMHLDAGDAELGRKLLPILERKAGRVLANGFPTGVEVSEAMVHGGPYPASTNFGATSVGTMSIRRFMRPVSYQNIPSDVLPDDIR	PGPT0018165_1288	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLACTURONATE|GLUCURONATE_DEGRADATION,PGPT0018165-aldH-K13877	NA	NA
BMS010_03771	1251			hypothetical protein	ATGAGATTTTCCCCTCAACAGCACCTTGGCATGAGCGCGCTTGCCACGTGCCTTGCCCTCACCCTGCCGCTCGCCTCTGGCGTGGCGCAGGCGGAAGAAAGCGGCGACACCGTCAAGGAATGGCGGCTGTTCGTCGCCGATCACAGCCAGCCCGTGGTGCGCGCAATCAATTTCGAAACCGGCAAGGAACTCGGACGCTACGACCTCAAGGGCTATGCGGCGCTGACCGCCAGCGCCTCCGGCAAGACGGTCTTCGCGACGCAATCGGATGCCGACATGGTGCATGTGATCAAGACCGGCATCGTTTTCTCCGATCATGGCGAGCATCGCGATCTGGATGTGGAAGATGCGGCGCTTTTGCCCGTCACCTTCGAAGGCAAGCGCCCTTTCCACGTCGTGCCGCATGATGACCATGCCATTCTTTTTTATGACCGTGGCGGCAAGGCAGAGATCATCGATGAAGCAGCCCTGCTGGACGGCAAGGCCAAGGTCCGCACCGTCGATACGACCGCCCCGCATCACGGCGTGGCGGTGACCATGGGCCGTTACGTTCTGGTTTCCGTACCGAATACCGAGGTCGAAACGAAACCCGATACGCTGCCGCCACGCATCGGGCTGCGTGTTCTCGACAGGGAGGGCAAGCAGGTCGGCGAACAGGCGGCATGCACCGATCTGCATGGCGAGGCAACATCCGCGCGGCTTGTCGCTTTTGGCTGCAAGGAAGGCATTCTCGTTGCCCGCCCGGGCGGCACCGATGGTCCCAAGCTTGAAATGCTGCCCTATCCGGAAGATTTCCCGAAAGCCTATACCGGCACGCTGCTGGGCGGCAAATCCATGCAGTTCTTCCTCGGCAATTACGGTGAGGACAAGGTCGTCCTGATCGATCCTGACAGCAAGGACGCCTTCCGCCTGGTGGAACTGCCGACCCGGCGCGTCGATTTCATCCTCGACCCCGCCAATCCGCGCAATGCCTATATTCTGACGGAAGACGGAGACCTGCATGTGCTTGATGTGCTGGAAGGCGCCATCACCCGCAAGGCGAAGGTGACCGAACCCTACAGCAAGGACGGCCATTGGCGCGATCCGCGCCCACGTCTCGCTGTTGCCGATGGGCAGGTCGCAATCTCCGATCCGCGCCATTCGCTGATCCGCGTGGTGGATGCGGAAAGCCTGACGGAAACCCGCACGGTTGCGGTGGAAGGCCAGCCCTTCTCCATCGTCGCCGTCGGCGGTTCCGGCGCTTCGCACTGA	MRFSPQQHLGMSALATCLALTLPLASGVAQAEESGDTVKEWRLFVADHSQPVVRAINFETGKELGRYDLKGYAALTASASGKTVFATQSDADMVHVIKTGIVFSDHGEHRDLDVEDAALLPVTFEGKRPFHVVPHDDHAILFYDRGGKAEIIDEAALLDGKAKVRTVDTTAPHHGVAVTMGRYVLVSVPNTEVETKPDTLPPRIGLRVLDREGKQVGEQAACTDLHGEATSARLVAFGCKEGILVARPGGTDGPKLEMLPYPEDFPKAYTGTLLGGKSMQFFLGNYGEDKVVLIDPDSKDAFRLVELPTRRVDFILDPANPRNAYILTEDGDLHVLDVLEGAITRKAKVTEPYSKDGHWRDPRPRLAVADGQVAISDPRHSLIRVVDAESLTETRTVAVEGQPFSIVAVGGSGASH	PGPT0004220_9	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_FACILITATING_PROTEIN	ROOT_COLONIZATION-ZINK_TRANSPORT_LIPOPROTEIN,PGPT0004220-znuA-K09815	NA	NA
BMS010_03772	999		COG1638	Solute-binding protein	ATGACTATTATCGATCGCCGCAATCTCCTGAAACTCTCCGCCATTGGCGCGGCAACGCTTGCCGCACCCGCTTTCGTACGTACGGCACATGCCAGAACCCGCAACCTCACCGTCGCGTCGCTTTTCGCCGACGACAAGCCGGAAACGAAAATCTGGGTGAAGATCAGCGAGCTGGTGGAGGCGAAGCTGCCCGGCCGTTTCCGTTTCAACATCGTCAAGAGCGGTGCGCTGGGCGGTGAAAAGGAAGTGGCGGAAAACATCCGTCTGGGATCGGTTCAGGCGAGCCTTTCCACCGTCTCCTCGCTTTCCGGCTGGGTGCCGGAATTGCAGATCCTCGATCTGCCCTTCCTGTTCCGCGATGCCGAGCATGTGCGCAAGGTTGTTACGGGCGAGACTGGCACTGATCTGAAGACGAAGCTCGCCGCCCAGCAATTCATCGCAGCCGATTTCATCAATTACGGCGCTCGCCATCTTCTGACCAAGGAGCCGGTTACCCGACCGGAGCAGCTGGAAGGCAAGAAGATCCGCGTTATCCAGAGCCCGCTGCACACCAAGCTCTGGAGCGCCTTCGGCACCACCCCGGTCGGTATTCCGATCACCGAGACCTATAATGCGCTGGCAACCGGCGTGGCTGATGCCATGGATCTCACCAAGTCCGCTTATGCCGGCTTCAAGCTTTACGAGGTCGTGCCCTATCTGACGGAAACCGGCCACATCTGGGCTTCAGGCGTCGTCTATTACGGTGCGCCCTTCTGGAACCAGCTGGACGACGGAGAGAAGAAGGTTCTCTTGGAAGCATCGAGCGAAGGCGCGCAATATTTCAACCAGCTGATCGTCGAGGACGAAGTGAAGTCCGTCGAGCTTGCGCTCTCCAAGGGCGGCAAGGTGCTGCAGCCGGAAGCGCTGGACGAATGGCGCAAGGGCGCGCAGGGCGTCTGGCAGGATTTCTCAGGCATTGTCGGCGGCATCGACAAGATACAGGCTGTCCAGTCGGCCTGA	MTIIDRRNLLKLSAIGAATLAAPAFVRTAHARTRNLTVASLFADDKPETKIWVKISELVEAKLPGRFRFNIVKSGALGGEKEVAENIRLGSVQASLSTVSSLSGWVPELQILDLPFLFRDAEHVRKVVTGETGTDLKTKLAAQQFIAADFINYGARHLLTKEPVTRPEQLEGKKIRVIQSPLHTKLWSAFGTTPVGIPITETYNALATGVADAMDLTKSAYAGFKLYEVVPYLTETGHIWASGVVYYGAPFWNQLDDGEKKVLLEASSEGAQYFNQLIVEDEVKSVELALSKGGKVLQPEALDEWRKGAQGVWQDFSGIVGGIDKIQAVQSA				NA	NA	NA	NA	NA
BMS010_03773	1860			hypothetical protein	ATGGCTTCGGGAGTGGAGAAGAAAGACATGACGGCGAGTCCGGCTACGACAATCGCACAAAGACGCATCGGCCCGCAACGCGTGGCCGAGCGGGTGCTCGCCGTTCTGGACACGGTGCTCGGCGCGGTCGCGGCAGCAATCCTTGCGGCGCTGCTCTTGGTGGTGCTGGTCAATGTCACGCTGCGTTATCTGTTTCACACAGGCTTCATTGGCGCGGAAGACCTCGGCATCTGGCTGCATGTGGCCATGATCGCTGTCGGTGCGCCGCTCAGTCTCAAAAGTGCGCTCGCCATGCGGCTCGATGTCTTCGTGCGGTTCCTTCCGCAACGATTTCACGCGGCGACCGAAGTTCTGGCCGATGCCTTCTCCTTTATCGCAGCACTCATCCTCGCTTTTGGCGGGGTAGAGATCGCGGCGATGCTTGGCGGCACATCTCCGACGCTTGGTCTGCCGGAATGGGTGCGTTTCGGCTTTCTCGGCGCGGGCGGCGCGCTTATCCTTCTCTATCTGGCGCTTCAGCGTGTCAGTGAGGGCAAGTCGCTTGCCGTTCTCGCATCTCTCGCCATCGCCATTGTGGCCTATGTCGGCCTGCCGGAAGTTTTTGTCGATACGAACCTGCCGCCGAGCCTGTTTCTGGCGCTGACGGCGGCCGTGGGGCTGGTGCTCGCTGCGCCGCTTGCCCATGCCTTCCTTGCCGCCGCTTATGTGGCGATTGCCTTCGGCAGCACCTTGCCGGAGCCGGCCATCGTTTCGTCAACCGTGACCGGCATGTCGAAATTCCTGCTGCTCGCCATTCCCTTCTTCCTGCTGGCCGGAAGCCTGCTGACGGAATCTGGCGTCGCCAACCAGCTGGTCCGTTTCGCTGCCTCCATGGTCGGGCACCGACGGGCAGGGCTGGCGCAGACGACGCTTCTGACCAGCGTGCTGTTTTCCGGCGCATCCGGCTCTTCGGTCGCCAATGCCGCCTTCGGCGCTTCCACCTTCCAGCCGGAACTGGTGAAACATGGCTATCCGCCGGCGCAGGCCGGTGCGATCATTGCCGCCACCTCGGTGCTGGACAATGTCATTCCGCCTTCCATCGCCTTTCTCATCCTCGCAACGGCCACCAACCTGTCGGTCGGCTCGCTGCTGGTCGGCGGTTTTTTTGCCGGCGGGCTTATGGCAATCTGCCTTGCGGTGGCGATCCATCTCAGCGTGCGCAGCGTCGATACCTTGCCACGCGCGACGGGTGCGGAGCGCTGGCGCTCGGCCATCGCCGCCATACCGGCCTTCGGTCTTGGCGTCATCGTGGTGGTCGGCATCCGCATCGGCATCGTCACCACCACGGAAGCGGCAGCGCTTGCCGCACTTTACACGCTGCTTCTCGGCTTCGGTTACCGGCTGGGCGCGGGCCGCATTTTCGCGACCTTCCGGCAGTCGGCCGGTGAGGCGGCGGCCATCGGTCTTCTGATCGGCACGGCGGGGCCTTTCGCCTTCCTGCTGGCGGTTGACAATGTCTCGGGCCTCGTCACGGATTTCGTGACTTTGCTCGGTGGCAGCAAGATTGCGGTGCTTCTACTCTCCAACCTCATCCTGCTCGTGGTGGGACTGGTGCTGGACATTGGTGCGGCCATCCTGCTGTTCGGGCCGATCCTGCTGCCCGCCGCCGTGGCCGCCGGCATTGATCCCATCCATTTCGGCGTCATTCTCGTGGTCAATCTGATGATCCACGGCCTGACGCCACCGCTCGGCATGCTGATCTTCGTGGTCAGCGGCGTCACCCGCATTCCGGCGACAGCACTTTTCCGGGCCGTCGTTCCCTATCTCGTCTCCCTTCTCGTTTCCCTCGCCATTCTGTGCGCCTGGGCCATTTTCTTCTAA	MASGVEKKDMTASPATTIAQRRIGPQRVAERVLAVLDTVLGAVAAAILAALLLVVLVNVTLRYLFHTGFIGAEDLGIWLHVAMIAVGAPLSLKSALAMRLDVFVRFLPQRFHAATEVLADAFSFIAALILAFGGVEIAAMLGGTSPTLGLPEWVRFGFLGAGGALILLYLALQRVSEGKSLAVLASLAIAIVAYVGLPEVFVDTNLPPSLFLALTAAVGLVLAAPLAHAFLAAAYVAIAFGSTLPEPAIVSSTVTGMSKFLLLAIPFFLLAGSLLTESGVANQLVRFAASMVGHRRAGLAQTTLLTSVLFSGASGSSVANAAFGASTFQPELVKHGYPPAQAGAIIAATSVLDNVIPPSIAFLILATATNLSVGSLLVGGFFAGGLMAICLAVAIHLSVRSVDTLPRATGAERWRSAIAAIPAFGLGVIVVVGIRIGIVTTTEAAALAALYTLLLGFGYRLGAGRIFATFRQSAGEAAAIGLLIGTAGPFAFLLAVDNVSGLVTDFVTLLGGSKIAVLLLSNLILLVVGLVLDIGAAILLFGPILLPAAVAAGIDPIHFGVILVVNLMIHGLTPPLGMLIFVVSGVTRIPATALFRAVVPYLVSLLVSLAILCAWAIFF				NA	NA	NA	NA	NA
BMS010_03774	1128	ssuD_1	COG2141	Alkanesulfonate monooxygenase	ATGAATGTTTTCTGGTACATGTGCGCACCCGATGGTGCCTATCCCTGGCAGCCGGAAGGGTCCCGCAAGGTCGATCTCGGTTATTACAAACAGCTGGCGCTCGCTTACGACCAGCTGGGTTATACCGGTGCGCTGTTTGCCACCGGCGCGCACGACGTCTGGGTTCTGGCGGGCGCGTTGCTTTCCTATACCGAGCGGCTGAAGTTTCTGGTCGCCATTCATCCGGGTCTTGTCGCGCCGACGCTGCTCGCCAAGATGGCGGCGACGCTTCAGGAGTTTTCACGCGGCCGCCTGCTGATCAATGTCGTCTCTGGCGATGCGAAAATGCTCGGCGCTTACGGCATGACCATGCCGCATGACGAGCGCTACGATATGGCGGATGAATATCTGCAGATATGGCACCGGCTTTTTGCCGGCGAAACGGTCGATTTCAAGGGCCGGCATTTCCAGACGGAGGGCGCAAAGCTCGCCCTCCCGGTCGGGCAGGGCATCGAGCCGCCGCCTTTGTGGTTCGGCGGTTCCTCGGACAAGGCCATCGACGTCGCGGCCAAACATGTCGAGACCTATCTTTCCTGGGGGGAAACCCCGAATCAGATCGGCGCGAAGGTCGATCTGGTCAAGGCCCGCGCGGAAAAGCTCGGTCGCGAACTGGAATACGGCATTCGCCTTTATGTCATCGTGCGCGATACGGATGAAGAGGCATGGGCCGCCGCCGCTGATCTCTACGGGCGCATGGATGAGCGTGCCATTGCCGCCAACCAGCGTTTCGTCGGCAAGACCGATTCCGTCGGCCAGCAGCGAATGACGGCGATGCACGGCGGACAGAAACCGGAGAACCTGCGCGATCTTGAAATCGCGCCCAACCTCTGGGCCGGCATTGGCCTTGTGCGGCCGGGCCCGGGAACCGCGATTGTCGGTTCGCCGGATACTGTCATCCGCACGCTGGAGGCCTATAAGAAGGCGGGCGTGAATACCTTCATCCTTTCCGGCATGCCATTGCTGGAAGAGGCGTTCCGCTTCGGCGAAAAGGTTCTGCCGCGTCTCGACGTATCGCGTGAGGTCTCGGCGGCAAAACAATTCACATGGTCGACTTTGTTCGACCGCGATCTCTCGGCCAAGGCCTCCTGA	MNVFWYMCAPDGAYPWQPEGSRKVDLGYYKQLALAYDQLGYTGALFATGAHDVWVLAGALLSYTERLKFLVAIHPGLVAPTLLAKMAATLQEFSRGRLLINVVSGDAKMLGAYGMTMPHDERYDMADEYLQIWHRLFAGETVDFKGRHFQTEGAKLALPVGQGIEPPPLWFGGSSDKAIDVAAKHVETYLSWGETPNQIGAKVDLVKARAEKLGRELEYGIRLYVIVRDTDEEAWAAAADLYGRMDERAIAANQRFVGKTDSVGQQRMTAMHGGQKPENLRDLEIAPNLWAGIGLVRPGPGTAIVGSPDTVIRTLEAYKKAGVNTFILSGMPLLEEAFRFGEKVLPRLDVSREVSAAKQFTWSTLFDRDLSAKAS	PGPT0003040_1539	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_DEGRADATION,PGPT0003040-ssuD-K04091	NA	NA
BMS010_03775	852	ssuA_2		Putative aliphatic sulfonates-binding protein	ATGAAAATCGGGGTTCATCCCAACAATCTGCATTTACGTCTCGCCCGGCTCTGGCCCGGCGCCTTTGAAGAATTCGATCCGGAATTCGTGGGCTATCGTGAAGGCCGCGATACGGCAGCTCTTCTGGAAAAGGGCGACATCCATTTCGGCGGCACCGGCTCGACACCGCCCATTGAGGCGGATGCGCGCGGGCTTTCGGCGGTCTATATCGCTGCTTCCGCGCCGAGGCCCGCCAATGGCGCAATCCTCGTGCGGCGCGATAGCCCGATCCGCTCAGCCGCTGATCTCTCGGGAAAGCGCATTTCGCTGATCGATGGATCGTTTCACACCTATCTTCTGGCGCGCAGTCTGGAAGGCGCGGGGCTTGGCCTTGCGGATGTGATCCGTATTGAAAGCGGCGACAGCGATAGCCTGCGCGATCTCGTGGAAGGCCGTGTCGATGCCTGGGTGACGATGTCGCCGCGGCTGGAAAAGGCTCTGACCCATGAGGAGATCAACCTTCTTGTCCGTTGCGGCTCCACCATTCCCAACCGTTCGCTATTCTGGACGCTTGCGCGCCACAACATAGCGGGCGAGACAGGGCAGGCAATTGCGGCCGAACTGGATCGCGTCGGCCGGGCCGTGATGGCGGATATCGACAAAGCCGCTGCCCTTCTCGCCGCCGAAACGGGCAGCGAAGGTGATGCACAGTCCTGGGCCAAGGTGCTGAGGTCGCGAGACCTTTCCGTCGTGGCCGCTGCCGAAAATATCCTTGCCGAACAGCAGGAGGAGGCCGAAACGCTTTACAGGCACGGTCATTTCTCTTTACCGGTTCTGACCGGGCAATCAGCCAGCACGGGAGGCGGCAGATGA	MKIGVHPNNLHLRLARLWPGAFEEFDPEFVGYREGRDTAALLEKGDIHFGGTGSTPPIEADARGLSAVYIAASAPRPANGAILVRRDSPIRSAADLSGKRISLIDGSFHTYLLARSLEGAGLGLADVIRIESGDSDSLRDLVEGRVDAWVTMSPRLEKALTHEEINLLVRCGSTIPNRSLFWTLARHNIAGETGQAIAAELDRVGRAVMADIDKAAALLAAETGSEGDAQSWAKVLRSRDLSVVAAAENILAEQQEEAETLYRHGHFSLPVLTGQSASTGGGR	PGPT0003025_3386	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_TRANSPORT,PGPT0003025-ssuA-K15553	NA	NA
BMS010_03776	366			hypothetical protein	GTGACGAAACCGGTTTCCAATCTCATCTGCCGCAGCGTGGTGGAAGCGAGCGAGCTTTTGAAGCTCGTCGCCAACGCCAATCGTCTGGCCATCGTCTGTTATCTAATGGAAACGGAAGCCTCCGTTTCCGCGCTGGAATATGAACTCGGTATCCAGCAACCCACGCTTTCGCAGCAGCTTGCCGAATTGCGTGACGCCGGTGTGATCGAAGGCTCACGGGAAGGCAAGGCGGTGATCTATCGTGTCACCGATCCGCGCATCGTCCAGCTGGTTTTGACATTGCGCGGTCTTTACACGGAGCTTTCCGATGTGACCGGCAAGAAAGGCAGACGGGCACTGCCGCTGGATGAGGCAATGTTCGACTAG	MTKPVSNLICRSVVEASELLKLVANANRLAIVCYLMETEASVSALEYELGIQQPTLSQQLAELRDAGVIEGSREGKAVIYRVTDPRIVQLVLTLRGLYTELSDVTGKKGRRALPLDEAMFD	PGPT0016126_428	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0016126-bigR-K22042	NA	NA
BMS010_03777	630	yfcG_3	COG0625	Disulfide-bond oxidoreductase YfcG	ATGATCGACCTTTACACCTGGATCACGCCCAACGGCCTTAAAATCTCGATTGCGCTGGAAGAACTGGGCCTGCCCTATACCAGCCACGCCATCGACATCGAAAAAGGCGAGCAATTTGCCGCGGATTACGTCCGCATCAATCCCGGCTCGAAAATCCCTGCGATCGTCGACGATGAAAACGGCACCGTCCTGACGGAATCGAACGCGATCCTCATCTATCTCGCCGAAAAGGTAGGCCGGCTTCTGCCCGCCTCCGCGACAGAGCGACTGGTCGTCACAGAATGGCTGATGTGGCAGGCCGCCAATTTCGGCCCGACGCTCGGTTATGCCCATTATTTCCTGACCTACCATGCCGGACAGGCCCCCTTTGCCGAGACACGTTTCGCGGCGGATGTGGCGCGGCTTTACCGGACATTGAACGACCGCTTGAGCGAGCGGGAATTCGTGGCCAGCGATTTTTCAATAGCCGATATCGCCATCTGGCCATGGGTCTCACGTTTCGCGCGCCACAAAATCAATCTCGATGATTTTCCGGCGGTACAGCGGTGGTATCGCCAGCTTGGACAGCAGGAAAGTTTTCAGCGCGGTTATCGCGTACCCTTCGCAACGTCGGACGTACCCGGAATCTAA	MIDLYTWITPNGLKISIALEELGLPYTSHAIDIEKGEQFAADYVRINPGSKIPAIVDDENGTVLTESNAILIYLAEKVGRLLPASATERLVVTEWLMWQAANFGPTLGYAHYFLTYHAGQAPFAETRFAADVARLYRTLNDRLSEREFVASDFSIADIAIWPWVSRFARHKINLDDFPAVQRWYRQLGQQESFQRGYRVPFATSDVPGI	PGPT0013045_2969	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013045-yghU|yfcG-K11209	NA	NA
BMS010_03778	1836	gsiA_3	COG1123	Glutathione import ATP-binding protein GsiA	ATGACCATGCCGCAGGCAGCACCGCTCCGTGCCGAAGATGCCGTGCTTTCCGTCCGCAATCTCACCACGTCCTTTCACGTGGATGGCGGCTGGAAACCGGTGGTGCGTGATATTTCCTTCGATGTCGGGCCGGGAGAGACGGTCGCGATCGTCGGCGAAAGCGGCTCGGGCAAGAGCGTTACCTCGCTTTCCATCATGCGGTTGCTGGATCGGGAAAGCAGCAGGGTTCAGGGCGAAATCCTGCTTGGCGGTCGCAACCTCTTGTCCCTTTCCGAAGACGCCATGCGGCGGGTGCGGGGCAATGAGGTGGCGATGATCTTTCAGGAGCCGATGACGAGCCTCAATCCGCTCTTCACCATCGGCGACCAGATTTCCGAGGCCCTGCTGTGCCATCAGCCGATGTCGAAAGCCGATGCGCGGGCAGAGACGATCCGCCTTCTCGAAAAGGTCCGCATCCCGTCTGCCGCCTCGCGCTTCGATGAATATCCGCATCGCTTTTCCGGCGGCATGCGCCAGCGCGTGATGATCGCCATGGCGCTCGCTTCCCGGCCGAAGCTCCTGATCGCCGACGAGCCGACGACGGCGCTTGATGTGACCATTCAGGGCCAGATTCTCGACCTTATCAAGACGCTGCAGGAAGAGGAGGGAACGTCGGTCCTGTTCATTACCCATGACATGGGTGTGGTGGCCGAAATCGCCGACCGCACAGTCGTCATGTATCGCGGCGAGCAGGTGGAAGTCGGTGCGACTGCGGATATCTTCCACCGCGGTAAACATCCCTATACGCGCGCACTTTTGTCCGCCGTTCCGGTTCTGGGGTCGATGAAGGGCGAGGAAAGACCGCTCCGTTTTCCCATCGTCAATACCACCACGGGTGAAACGCAGGAGCCGGCGCGTCCGGCCGATACAGTCGACGCCGCCGCGCAGCCCGTGCTCAAGGTGGAGGGGCTGACCAAGCGCTTCGATATTCACTCCGGTCTTCTGGGGCGTCTCAGCGGCCGGGTGCATGCGGTGGAAAACGTGTCTTTCGAGCTCAGGGCCGGTGAAACATTGTCATTGGTGGGCGAAAGTGGCTGCGGCAAATCCACCACCGGACGCGCCATCATGCGGCTGATCGAGCCGGATGCCGGTTCGGTCGTGGTCAACGGCGAAAACATTCTCGCACTCGACAAGACGGGCATGCGGGACATGCGCAAGACGGTTCAGATGATCTTTCAGGACCCTTTCGCCTCGCTCAATCCGCGTATGACGGTGGGCGCGGCGATTGCCGAACCTTTTCTGGAACACCGCATGGGAAGCGCCCGCGAGGCGAAGGATGTGGTGGCCGACATGCTCAAAAAGGTCGGTCTCTCACCGGACATGGCGTCGCGTTACCCGCATGAATTTTCCGGTGGTCAGCGCCAGCGCATCTGCATCGCCCGTGCCTTGGCGCTCCAGCCCAAGGTGATTGTCGCGGATGAAAGCGTTTCGGCGCTGGATGTTTCCATCAAGGCGCAGGTCATCAACCTGATGCTGGACCTGCAACAGAGCCTCGATCTCGCCTTCCTGTTCATATCCCATGACATGGCGGTGGTGGAACGCGTCAGCCACCGGGTTGCGGTGATGTATCTCGGCGAGATCGTCGAAATCGGCCCGCGTGCGGCTGTCTTCGACAATCCGCAACATGACTATACCCGCAAGCTGATGGCGGCCGTTCCGGTGCCGGACCCGGATCGCCGCAACACAAGGCGCGGTGCTGCGAATGACGAGCTGAAAAGCCCTATCCGCGCTGTTGATTATGCCGTCAAGCCGCGTGAATATCGCGAGGTTTCGCCCGGCCACCTCGTCGCCTGTTAG	MTMPQAAPLRAEDAVLSVRNLTTSFHVDGGWKPVVRDISFDVGPGETVAIVGESGSGKSVTSLSIMRLLDRESSRVQGEILLGGRNLLSLSEDAMRRVRGNEVAMIFQEPMTSLNPLFTIGDQISEALLCHQPMSKADARAETIRLLEKVRIPSAASRFDEYPHRFSGGMRQRVMIAMALASRPKLLIADEPTTALDVTIQGQILDLIKTLQEEEGTSVLFITHDMGVVAEIADRTVVMYRGEQVEVGATADIFHRGKHPYTRALLSAVPVLGSMKGEERPLRFPIVNTTTGETQEPARPADTVDAAAQPVLKVEGLTKRFDIHSGLLGRLSGRVHAVENVSFELRAGETLSLVGESGCGKSTTGRAIMRLIEPDAGSVVVNGENILALDKTGMRDMRKTVQMIFQDPFASLNPRMTVGAAIAEPFLEHRMGSAREAKDVVADMLKKVGLSPDMASRYPHEFSGGQRQRICIARALALQPKVIVADESVSALDVSIKAQVINLMLDLQQSLDLAFLFISHDMAVVERVSHRVAVMYLGEIVEIGPRAAVFDNPQHDYTRKLMAAVPVPDPDRRNTRRGAANDELKSPIRAVDYAVKPREYREVSPGHLVAC	PGPT0004435_1717	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004435-ddpD-K02031	NA	NA
BMS010_03779	1197	dgaE		D-glucosaminate-6-phosphate ammonia lyase	ATGACCGAGGATATCAGAAGCAGGATCGGCCTTCGCCCGGTCATCAACGTCTCGGGCACCATGACCTCGCTCGGCGCTTCTATCGTCGTTCCGGAAGCGGTCGAGGCCATGGCAGCCATCCTGCCGCAATTCGTCGAGATCAACGATCTGCAACGCAAGGCAAGCGCGGTGATATCGAGGCTGACGGGCGGCGAGGCCGGTTTCGTAACGGCCTCCTGCTCCTCCGGCATCAGCCTTGCGGTGGCGGGTGCGATCACCGGCAATAATCTGCTGGCCATCGAAAAGCTGCCCGATGTCGCGCCTGAGAAGAACGAGGTTTTGGTGCAGATGGGTCATGTGGTGAGCTATGGGGCGCCGGTGGATCAGGCAATCCGTCTCGGCGGCGGCAAGGTGGTGCTGATCGGGCAGGCAACATCGACCCATCGTTTCCACATGGAAAACGCCATCACCGAAAAGACGGCGGCAGCGGTCTATGTCGTCTCGCACCATGTGGTGGATTATGGCCTGCTGCATCTTTCCGAATTCGTCGAGATCGCCCATGCCAGGGGCGTGCCTGTCATCGTCGACGCGGCTTCCGAATATGATCTGAAGCTGTTTCTGGCGACGGGCGCGGATGTGGTGCTTTATTCCGGCCACAAGTTCCTCGGTGGCCCGACTTCCGGCATCGTCGCCGGCAAAAAGGAGCTGGTGCGCAGCGCCTTCCTGCAGAATATGGGCGTTGGCCGCGGCATGAAGGTCGGCAAGGAAAGCATCTATGGCGTGATGGCGGCGCTGGAAGCCTGGGAAAAGCGTGACCATGCCGGCATTCGCGAGCGTGAAACCGGCTATCTCAACCTCTGGAAAAAGACGCTGGACGGACGCCCCGGCGTGACGGCGCTGATCGAACCCGACCCGACCAACAACCCGCTCGACCGGCTGCGTGTCATCATCAATGCCGAGGAAGCCCATATCACCGCCTGGGACCTGACGACGGCGCTCGCCAAAGGCAGCCCGCCGATCATTGTCCGCGACCACGAGGTGGAGCACCGCTATTTCTATCTCGACCCCTGCAACCTGCATCCCGGCCAGGAAACCATTGTGGCTTCCCGGCTGGCCGAGGAGCTGGACAAGGCGCGCGCCTCCAACGAGGTGATTGCAACACCGTTCGAAGACCGCAGCCGCCACCGTTTCGACAGCATGCTGCGCTGGCCGGACTAA	MTEDIRSRIGLRPVINVSGTMTSLGASIVVPEAVEAMAAILPQFVEINDLQRKASAVISRLTGGEAGFVTASCSSGISLAVAGAITGNNLLAIEKLPDVAPEKNEVLVQMGHVVSYGAPVDQAIRLGGGKVVLIGQATSTHRFHMENAITEKTAAAVYVVSHHVVDYGLLHLSEFVEIAHARGVPVIVDAASEYDLKLFLATGADVVLYSGHKFLGGPTSGIVAGKKELVRSAFLQNMGVGRGMKVGKESIYGVMAALEAWEKRDHAGIRERETGYLNLWKKTLDGRPGVTALIEPDPTNNPLDRLRVIINAEEAHITAWDLTTALAKGSPPIIVRDHEVEHRYFYLDPCNLHPGQETIVASRLAEELDKARASNEVIATPFEDRSRHRFDSMLRWPD	PGPT0018880_138	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0018880-dgaE-K17468	NA	NA
BMS010_03780	837			hypothetical protein	TTGGACGCCCATAAACTGGACGAAACGCCTTCAACCGCCCTGTCCGACGCCGCCGAAAACGCGGACGCGAAGGCGGCCAAGCGCTCGCGCGTCAGCGGTATCGACCGCGCCCTTCAGGTTATTGATTACCTTTATGAAACCGGATCGCCAGCGGGCGCTTACGCTATTGCCAAGGCCATCAAGGCGCCGCTTTCCACCGTCTATGTGATCATTGACGATCTCGTCGAAAAGAACATGCTGGCGCGCAATGCCGATGGCAACATCTGGCTCGGCGCGCGGCTTTACCATTATGGCCTTGCTTATGCCCGCTCGCTGGATTTCATGGGTGTCGCCACCCACGAAATGCACGATCTGTGCCGCCACGCCGGCGAGACCGTTCAGCTTTGCGGCCGCGACGGCGACCATATGCTGGTGCTGGCCATGGCCGACGGTCCGAGCCATTTTCAGGTCGCCTCGCGCGTCGGCACCCGCGTTCCCTTGAACTGGACGGCATCCGGACGCCTGCTCGTCGGGCATCTTCCGGAGGCCGAACGCGTCGAGCTTTTCCGCCGTTGCGCCCGCACTTCTCCCACGGGCCGTGCGGAAATCAACCCGGAGACCCTGTCGCAATCGGCAGGCGCCGCCTTCCATGACCGGCTGTCGATACAGGTCGCCGAATCCGACTACGCCGTCGCCTGCATCGCCTCGCCGATCTGCGACAACAGGGGCGAATGCGTGGCGACAATTTCCATCGTGCTGCCGGAGCAGAAGGTACTGGCGGACGAGAACCATTATACCAAACAGGTCAGGGTCTCGGCGGAACGGATCGAAAAGCTGATGGGCTGGCGCAACCATTGA	MDAHKLDETPSTALSDAAENADAKAAKRSRVSGIDRALQVIDYLYETGSPAGAYAIAKAIKAPLSTVYVIIDDLVEKNMLARNADGNIWLGARLYHYGLAYARSLDFMGVATHEMHDLCRHAGETVQLCGRDGDHMLVLAMADGPSHFQVASRVGTRVPLNWTASGRLLVGHLPEAERVELFRRCARTSPTGRAEINPETLSQSAGAAFHDRLSIQVAESDYAVACIASPICDNRGECVATISIVLPEQKVLADENHYTKQVRVSAERIEKLMGWRNH				NA	NA	NA	NA	NA
BMS010_03781	495			hypothetical protein	GTGAAACAGTCTTCGCTTGAGGCAGAGGGGCGTCATTCGCCCTATGACCGGCTCGCCGCGCTCGGCATTTCCCTGCCGCCGCCGCCGCCGCCGATCGCCAATTTCGTCACCCATGTGGTGGAAGGCAACATGCTTTATCTTTCGGGGCAGGGGCCGCGGGAGGAAAATGGCCATCTTTACGCCGGCAAGGTGGGCGCGGAAATCGGGCTGGAAGAGGCCTATAACCATGCGCGGCTCACCGGCATCAACCTGCTTGCCGTCATGCATGAGGCGCTGGGGGACCTGTCGCGGGTGAAGAAGGTGGTCAAGCTGCTCGGCATGGTCAATGCCGTCAGCGATTTCCGCGATCATCCGAGCGTCATCAATGGCTGCTCCGATCTCTTCATCGATGTGTTCGGCGATGCGGGACAGCACGCCCGCTCCGCCGTTGGTTTCGGCTCACTGCCGGGCAACATCACCGTTGAGATTGAAGCCATCGTCGCACTCAAAGATTGA	MKQSSLEAEGRHSPYDRLAALGISLPPPPPPIANFVTHVVEGNMLYLSGQGPREENGHLYAGKVGAEIGLEEAYNHARLTGINLLAVMHEALGDLSRVKKVVKLLGMVNAVSDFRDHPSVINGCSDLFIDVFGDAGQHARSAVGFGSLPGNITVEIEAIVALKD				NA	NA	NA	NA	NA
BMS010_03782	1224		COG3964	Deacetylase	ATGACGTCCGGTGAACAGGCGACAACGCCTCTTCAAGCTCCCATTCTTCTCACCAATGTCAAACCCGTCGGTTTCGAAAAGGGTGCGCCACAGGCTTCGACCGATATTCTGATCGGCGGCGATGGCAAGATCGCCGCGGTTGGGCCTGCCATTCAAGCGCCCGTTGATGCGCAGCGTATTGATGCCAAGGGTGCCTTCGTCTCGCCCGGCTGGGTGGATCTGCATGTGCATATCTGGCATGGCGGCACCGATATCTCCATCCGCCCCTCGGAATGCGGGGCCGAGCGCGGCGTGACCACGCTGGTGGATGCCGGTTCGGCGGGTGAGGCGAATTTCCACGGTTTCCGTGAATATATCATTGAGCCCTCGAGAGAGCGCATCAAGGCCTTCCTCAATCTCGGTTCCATCGGTCTCGTCGCCTGTAACCGCGTGCCGGAACTGCGCGACATCAAGGATATCGATCTCGATCGTATCATCGAATGTTACGCCGAAAACAGCGAACATATTGTCGGCCTCAAGGTGCGGGCGAGCCATGTTATCACCGGCTCCTGGGGTGTTACGCCGGTCAAGCTCGGCAAGAAGATCGCCAAGATCTTGAAAGTGCCGATGATGGTGCATGTGGGCGAACCGCCCGCACTTTACGACGAGGTGCTGGAAATTCTCGGCCCCGGCGATGTCGTGACCCATTGCTTCAATGGCAAATCGGGTTCCAGCATCATGGAAGACGAGGACCTGTTCAACCTTGCCGAACGTTGTGCGGGCGAAGGCATTCGGCTGGATATCGGCCATGGCGGCGCCTCCTTCTCCTTCAAGGTGGCGGAAGCGGCGATTGCGCGCGGGCTGCTGCCGTTCTCGATCTCCACGGATTTGCATGGCCATTCGATGAATTTCCCGGTCTGGGATCTGGCGACGACCATGTCGAAGCTGCTCGCGGTCGACATGCCCTTCGAAAATGTCGTCGAGGCCGTCACCCGCAATCCGGCCTCCGTGATCCGCCTCGATATGGAAAACCGTCTCGATGTCGGCCAGCGCGCCGATTTCACGGTTTTCGATCTCGTGGATTCCGATCTGGAAGCGACCGATTCCAATGGCGACGTCTCGCGCCTGAAGCGCCTGTTCGAGCCGCGTTACGCGGTCATCGGCGCGGAGGCGATTGCTGCCAGCCGTTACATTCCAAGGGCGCGCAAGCTCGTGCGCCACAGCCATGGTTATTCCTGGCGCTGA	MTSGEQATTPLQAPILLTNVKPVGFEKGAPQASTDILIGGDGKIAAVGPAIQAPVDAQRIDAKGAFVSPGWVDLHVHIWHGGTDISIRPSECGAERGVTTLVDAGSAGEANFHGFREYIIEPSRERIKAFLNLGSIGLVACNRVPELRDIKDIDLDRIIECYAENSEHIVGLKVRASHVITGSWGVTPVKLGKKIAKILKVPMMVHVGEPPALYDEVLEILGPGDVVTHCFNGKSGSSIMEDEDLFNLAERCAGEGIRLDIGHGGASFSFKVAEAAIARGLLPFSISTDLHGHSMNFPVWDLATTMSKLLAVDMPFENVVEAVTRNPASVIRLDMENRLDVGQRADFTVFDLVDSDLEATDSNGDVSRLKRLFEPRYAVIGAEAIAASRYIPRARKLVRHSHGYSWR	PGPT0021145_4962	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021145-pyrC-K01465	NA	NA
BMS010_03783	876	ddpC_2	COG1173	putative D,D-dipeptide transport system permease protein DdpC	ATGGCCGATATTGTTTCCACCGCCCCGCCGGCACGCAACCCGACCGTCCTGTTCATTCGGCGCCTCGTGAAGCGCAAGACGGTCGCTGCCGGTCTCATTGTGCTGCTCGTCTTCGTGCTGCTCGCGGTTTTCGCGCCGATGATTGCGCCCTATTCGCCGTCGAAACTGTCGATCGTGAACCGCCTGAAGCCGCCAAGCGAGCTTTACTGGTTCGGCACCGACGAGTTCGGTCGCGACGTCTTCTCGCGCACCATCTATGCCGGAAGGCTGTCGCTTCTGGTCGGTGCCGCCGTGGTGGCGCTTTCGGCGCTGATCGGCATCACCCTCGGCCTGCTCGCCGGCTTCTTCCAGAAACTGGATACACCGATTGCGCGGCTGATCGACGCGATGATGGCCTTCCCTGATATTCTGCTCGCCATCGCGCTGGTCGCCGCGCTCGGTCCGTCGCTGACGACGGTGATCATTGCACTTGCCGTGGTCTATTCGCCGCGCCTTGCCCGCATCGTGCGCGCCTCGACCCTGGTGATCCGCGAATTGCCCTATGTGGAGGCGGCGAAGGCGCTTGGCATTTCCACCTTCCACATCATGACGCGGCATGTGCTGCGCAATCTGGTCTCGCCGATCCTCGTTCAATGCACCTTCCTTTTTGCCAGCGCCATGCTGGCCGAGGCCGGCCTGTCGTTTCTGGGGCTCGGTGTCAGCCCGGAAATTCCGACCTGGGGAACCATGATCTCCGCCGGTCGCCAATATATCGGCCAGGCCGACTGGATGACCTATTTCCCCGGCTTTGCCATCATTCTTTCCGTGCTGTCGCTGCAAATGGTCGGTGACGGGCTGCGGGACATGCTCGACCCAAGACTGCGAAGGGATTTGTAA	MADIVSTAPPARNPTVLFIRRLVKRKTVAAGLIVLLVFVLLAVFAPMIAPYSPSKLSIVNRLKPPSELYWFGTDEFGRDVFSRTIYAGRLSLLVGAAVVALSALIGITLGLLAGFFQKLDTPIARLIDAMMAFPDILLAIALVAALGPSLTTVIIALAVVYSPRLARIVRASTLVIRELPYVEAAKALGISTFHIMTRHVLRNLVSPILVQCTFLFASAMLAEAGLSFLGLGVSPEIPTWGTMISAGRQYIGQADWMTYFPGFAIILSVLSLQMVGDGLRDMLDPRLRRDL	PGPT0004450_9861	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004450-ddpC|appC-K02034	NA	NA
BMS010_03784	909	gsiC_4	COG0601	Glutathione transport system permease protein GsiC	ATGATCGTGGTGATGTTCCTCGTGGTCACCATCGTTTTCGTCATCCTGCGCGTCACTCCCGGAGACCCGGCAGCCGTGATGCTGGGGCCGGATGCCTCGGCGCAGGATATTGCGGAGCTGCGCGGCCGGCTCGGCCTCGATCAGTCGCTCGGCGTGCAATATGTCTATTATATCGGGCAATTGCTGAAGGGCGATCTCGGTCAGTCAATCTTTCTCAACATGCCGGTAGGATCAGCGCTGCTGGACCGGGCGGAACCGACCTTCTTCCTGACGATTTTTTCGCTGCTGATCGCCAGCGTCATCGCGCTTCCCATCGGTATCTATGCCGCGTACCGGCGTGGCTCTTTTGTCGATCAGGCAGCGACGACGGTGGCGATGCTGGCGGCGAGCATTCCGAGCTTCTGGCTCGGCCTCATCCTCATGCAGGTCTTCGCCGTGCGGCTCGATATGTTCCCGGTATCGGGTTATGGCGGGCCGGGTGCTAGCTTCCTTGAGCGCATGTATCACCTGACCCTGCCGGCAATCGCGCTCGGCCTCGTTTCCTCCGCCCTCATTTTGCGCTTCACCCGCGCCTCGATGCTGGATGTTTTAGGTGACGACTATGTCCGCACCGCCCGTGCCAAGGGGGTCAAGGAGCGCCGCGTGGTGATGAAACATGCGTTGAAAAACGCGCTCATTCCCATCCTCACCGTGCTCGGACTTACCGCCGCCGTACTGATTTCCGGCGCAGTCGTGACGGAAACCGTCTTCGGCCTGCCGGGGGTCGGCAATCTCGTCGTCTCGGCCGTTCTCCGGCGCGATTATCCGGTCATTCAGGGCGCGCTTCTCGTCATCGCCGGGCTTTACGTGCTCATCAATTTTGCAATCGACATGCTCTATCTGCTGGTCGATCCGAGGGTTCGTTACTGA	MIVVMFLVVTIVFVILRVTPGDPAAVMLGPDASAQDIAELRGRLGLDQSLGVQYVYYIGQLLKGDLGQSIFLNMPVGSALLDRAEPTFFLTIFSLLIASVIALPIGIYAAYRRGSFVDQAATTVAMLAASIPSFWLGLILMQVFAVRLDMFPVSGYGGPGASFLERMYHLTLPAIALGLVSSALILRFTRASMLDVLGDDYVRTARAKGVKERRVVMKHALKNALIPILTVLGLTAAVLISGAVVTETVFGLPGVGNLVVSAVLRRDYPVIQGALLVIAGLYVLINFAIDMLYLLVDPRVRY	PGPT0004445_12757	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004445-ddpB|appB-K02033	NA	NA
BMS010_03785	1527	gsiB_1	COG0747	Glutathione-binding protein GsiB	ATGAGACGTAAACTTGCATTTCTCGCCACCGCCGCTTTGCTGCTTGCGCCGGGTGTAATGATGGCTGCTGAGAAGGGCGGCGTCATCAATGTCGCCACCATCGGCGAGCCGCCGACCCTCGATCCCATGGCGTCTACTGCCGATCTCGTCGGCATCGTCACGCAGCATATTTTCGAAACGCTCTATACCTTCGACAAGGGCTGGAAGGTGACACCGCTTCTGGCGGAAAGCCTGCCCGAGATCAGTGCGGACGGCAAAACCTACACGATCAAGCTCAGGCAGGGCATCAAGTTCCATGACGGCAGCGACATGACATCCGAAGATGTCGTCGCCTCGCTCGGCCGCTGGATGAAGATCGCCTCGCGCGGCAAGCAGGCAGCCGGCTTTATCGACAATATCTCCGCGCCGGATGCCGGAACGGTCACGATTGCCCTCAAGCAGCCCTATGCGCCGCTCGCCTCGCTGCTCGCCTTCAACAATTCCGCAGCCATCATTCTGCCGGCCGAAAAGCAGGCGGAGCCGATGGCCGAATTCATCGGCACCGGTCCCTATATGCTGAAGGAACGCAAGGCCGACCAGTATATCCAGCTCGTCCGTTTCGATGGCTACAAGTCCCGCGATGGCGAAAGCGACGGTTATGGCGGTGCACGCCACCAGTATCTCGATGAAATCCGCTTCGTTCCGGTGCCCGATCCGAATACTCGCGTCGAAGCCGCCGTTTCCGGGCAATATGATTACGTCGATTCCATTCCGGTGGAATCCTTCGACAAGGTGAAGTCGTCGTCTGCCTCGCAACCTTTGATGCTGAAGCCTTTCGGTTATCCGGTCTTCGTGTTCAACACGAAGGAGGGGCTTTCTTCCAAGCTGGAGGTCCGCAAGGCGGTGACCGAAGCGCTGAATATGGAAGACATGCTGGCGGCCGCTTTCGGCAGCACGGATTTCTATGCGCTCGACGGCGCCTACTATCCCGATAATTTCTCCTGGCATTCGGAAGAGGGCGTCGAGGGCAATTACAATCTCGGCAACCCGGAAGCCGCCGCCGAAAAGCTGAAGGCGGCCGGCTACAACGGCGAGCCGCTGCGCATCCTCACCAGCCGCCAGTATGAGTTCCACTATAAGATGGCGCAGGTCGCGGCGGAATATCTGAAACTTGCAGGCTTCAAGGTGGATATGCAGGTGGTGGACTGGGCGACGCTGACGCAGCGCCGCGCCGACCCGAAGCTCTGGGATATCTACATCACCCATAGCCCCTTCCTGCCGGAGCCGGCGCTGATCGGTGCGCTCTCCACCGGCTCGCCGGGTTGGTGGGATACGCCGGCGCGCAAGGCTGCGGTTGACGCCTTCACCTCGGAAGCCGATCCGGAGAAGCGCGTCGCGCTCTGGGCCAATGTGCAGAAGACGATCTATGCCGAGCTTCCGCTCATCAAGATCGGCGATTTCAATGCCGTGGCGGCCAAGTCCAACAAGCTGGAAGGCGTCGATCCGGCTCCATGGCCTTACTTCTGGAATGCATCGGTTACGAAATAA	MRRKLAFLATAALLLAPGVMMAAEKGGVINVATIGEPPTLDPMASTADLVGIVTQHIFETLYTFDKGWKVTPLLAESLPEISADGKTYTIKLRQGIKFHDGSDMTSEDVVASLGRWMKIASRGKQAAGFIDNISAPDAGTVTIALKQPYAPLASLLAFNNSAAIILPAEKQAEPMAEFIGTGPYMLKERKADQYIQLVRFDGYKSRDGESDGYGGARHQYLDEIRFVPVPDPNTRVEAAVSGQYDYVDSIPVESFDKVKSSSASQPLMLKPFGYPVFVFNTKEGLSSKLEVRKAVTEALNMEDMLAAAFGSTDFYALDGAYYPDNFSWHSEEGVEGNYNLGNPEAAAEKLKAAGYNGEPLRILTSRQYEFHYKMAQVAAEYLKLAGFKVDMQVVDWATLTQRRADPKLWDIYITHSPFLPEPALIGALSTGSPGWWDTPARKAAVDAFTSEADPEKRVALWANVQKTIYAELPLIKIGDFNAVAAKSNKLEGVDPAPWPYFWNASVTK	PGPT0004430_16628	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004430-ddpA|ABC_PE_S-K02035	NA	NA
BMS010_03786	1125			hypothetical protein	ATGAAGACGGCAATCGTGCATGACTGGCTCACCGACAGAGGCGGGGCCGAAAAAGTACTTCACAACCTTCTTGAAATTTATCCTCACGCGGATCTGTACTGCCTTGTCGATTTCATGAGCGAGCGCGACCGGGGGTTTCTCGGCGGCCGTCCCGTCAACACCTCCTTCATCCAGAAGCTGCCTTTCGCCCGGAAAAAATACCGCTCCTATCTACCGCTGATGCCGCTCGCCATCGAGCAGTTCGATCTGAGCGGTTACGATCTGGTGATTTCCTCGAGCTATGCGGTCGCCAAGGGCGTCATCACCGGCCCGGGCCAGTTTCACGTCTCTTATATCCATAGCCCCATCCGCTACGCCTGGGACCTCCAGCACCAGTATCTCAAGGAAACCAGACTGACGCGCGGCTTCACCTCATGGATCGCGCGCGCCATTCTTCACTATATCCGCATGTGGGACATCCGCACCGCCAACGGCGTCGACCTGATGACGGTCAACTCCAAATTCATCCGTAACCGGGTGCGCAAGTGTTATGGCCGCGATTCCACCGTGATCTATCCGCCGGTGGACACGTCCCATCTTTCCCCGTCCGAGCTTAAGGGTGACTATTTCGTCACGGCGTCGCGGCTGGTGCCCTACAAGAAGGTTCACCTGATCGTGGAAGCCTTTGCAAAGATGCCCGACAAACGGCTGGTCGTCATCGGCGACGGGCCGGACATGAAACGCATCCGCGAAATCGCCACGCCGAATGTCGAAATTCTCGGTTTCGTCGGCAATGACGAGCTTCACAAATACATGGCCGAGGCAAAAGCCTTCGTTTTTGCAGCGGAAGACGATTTCGGCATCGTACCCGTCGAATCCCAGGCGCTCGGCACACCGGTCATCGCCTATGGCAAGGGCGGCGTGCTGGAAACCGTCGTTCCGCTCGGCGCCTCCAACCATCCGACCGGCCTTTATTTCGGTGAGCAGACACCGGAGGCAATCTGCGCCGCCGTGCAGGAATTCGTCGACAATTCCGACCGCTTCGACAAGAACGCCTGCATCAACAATGCCGCCCGCTTCTCACGCGAGCGTTTCCTGCGTGAATTCGCGGACACGGTGAATTTCGCACTGGCTGAGCGGGCATGA	MKTAIVHDWLTDRGGAEKVLHNLLEIYPHADLYCLVDFMSERDRGFLGGRPVNTSFIQKLPFARKKYRSYLPLMPLAIEQFDLSGYDLVISSSYAVAKGVITGPGQFHVSYIHSPIRYAWDLQHQYLKETRLTRGFTSWIARAILHYIRMWDIRTANGVDLMTVNSKFIRNRVRKCYGRDSTVIYPPVDTSHLSPSELKGDYFVTASRLVPYKKVHLIVEAFAKMPDKRLVVIGDGPDMKRIREIATPNVEILGFVGNDELHKYMAEAKAFVFAAEDDFGIVPVESQALGTPVIAYGKGGVLETVVPLGASNHPTGLYFGEQTPEAICAAVQEFVDNSDRFDKNACINNAARFSRERFLREFADTVNFALAERA				NA	NA	NA	NA	NA
BMS010_03787	1197			hypothetical protein	ATGCGTTTATTGAATGTTTCGATTCTGCTTGCCTCTGCAGCACTGGCGGGTTGCACGGTTACTGCGGCCTCCGGCCCCGATGCAGCCTCGATCGAATCTAACGCTTCCGTGAAATTCGCCTCCAAAGACAAGCAGAAAACCGCCGGTGTCGACTACGCGCTGCTCGACATCAACAGCTCCGTCCTCAATTACGTCGGCGACACCACAACCACCACCCTGCTCGGCAGTTTCGGCGGCGGCAAGGGCGGTGTTCCGGCGCTGCCGATGGGTGTCGGTGACGTGGTGCAGGTCGCGATCTTTGAAAGCCAGGCCGGCGGCCTGTTCATTCCGAACGACGCGGGCAGCCGTCCCGGCAACTTCATCAGCCTGCCGAACCAGACAGTGGACCGGGAAGGCAATATCAGCGTTCCTTATGCGGGCAAGATTCGCGCCACCGGCCGCAATGTCGAGGATGTGCAGAGCGAAATCGAGGAACGGCTCGCCAACCGCGCCATCGAGCCGCAGGTTCTTATCACCAAGATTTCCAGCCGCTCCGCACAGGCTTCCGTGCTGGGCGATGTCAAGGAACCGACGAAGGTTCAGCTTTCGGAAGCGGGCGATCGGGTTCTCGACGTCATCTCCTATGCAAAGGGCCTCAGCGCCCCGAATATCGAATCCTATGTCACGTTGATCCGTCGCGGCAAGACCGCCCGCGTCAACTACAACCACCTCGTCAGCACGCCGTCCGAAAACATCTATGTGGTTCCGGGCGACACGATCATGGTGGAGCGTGAGCGCCGCACTTATCTTGCTTTCGGCGCTTCGGGCCTCAACGGACGTTTCGAGTTCGAGGATGCCGATCTCAAGCTTTCGGATGCACTCGGCAAAGCGGGCGGACTGCTCGATTCCCGTGCCGACCCGGCTCAGGTCTATGTTTATCGTATCGTCAAGCGCGATCTTCTCGTGAAGCTCGGCATCAATACGTCGAAGTTCCCCGGACAGGACGTTCCGGTCATTTTCCGCGCCAATCTGCGCGATCCGTCGACCTTCTTCGCCGCTACGAAGTTCCCGATGCAGGATCGCGACATCATCTATGTCACCAACTCGCAGGCCACCGAACTTTACAAGTTCCTGGATCTCGTCGGCTCCGTACCGGCAACGACCGGCAATGTCGCCGAGGACGTGCTGGCGACCCGCAACGCCATCCGGGCCTTCTAA	MRLLNVSILLASAALAGCTVTAASGPDAASIESNASVKFASKDKQKTAGVDYALLDINSSVLNYVGDTTTTTLLGSFGGGKGGVPALPMGVGDVVQVAIFESQAGGLFIPNDAGSRPGNFISLPNQTVDREGNISVPYAGKIRATGRNVEDVQSEIEERLANRAIEPQVLITKISSRSAQASVLGDVKEPTKVQLSEAGDRVLDVISYAKGLSAPNIESYVTLIRRGKTARVNYNHLVSTPSENIYVVPGDTIMVERERRTYLAFGASGLNGRFEFEDADLKLSDALGKAGGLLDSRADPAQVYVYRIVKRDLLVKLGINTSKFPGQDVPVIFRANLRDPSTFFAATKFPMQDRDIIYVTNSQATELYKFLDLVGSVPATTGNVAEDVLATRNAIRAF	PGPT0025530_830	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT-1,PGPT0025530-wza|gfcE|epsA-K01991	NA	NA
BMS010_03788	1278	mdtA_6		Multidrug resistance protein MdtA	ATGAAACGTTTCTGGACCGCTCTCAGCGTTCTTACCATCGCAGCCGCCGGTGCCTGGTATTTCAAGGATCGCCTGCCGCTCGATCAAGTCCCCTATCTCAAGCAATTTGCCAGCGTGTCTCCCAGGGCCGACGCCGAAACGGCGACGCAGTCCTCCCAAAGCGGCCAACCAGCCCGGCAGCAGGGACAAAAACAGGGTGGAGGGCGGCGCAATGGCGGGCCACCCACCGTCAGCACCATCGCCGTCGGCAAGGCGACGTTGCCAATGGATGCAACGGCGACGGGCTGGGCGGTTGCGGCCGACATCACCAATATCGCGCCACTTCAGGCCGGCCTCGTCATGGAAATCGAGGCGAAGGACGGTCAGCATATCAAGGCGGGCGACCTTATCCTCAAGATGGATGACCGCATCGCCCGCGCCGCTGTCGACAAGGACAAGGCCAATATCGCCGCCGATCAGGCAACGCTGGAGCAGACGGAGGCCGCCTTCCAGCGCGCCGCCAATCTCGTCAAGCAGAGCGCGGAATCCCAGCAGGTGCTGGATCAGGCAAGGGCGGCGCGGGATAGCGCCAGCGCCAAGATCGATGCCGACAAGGCAACGCTTGCCTCCGACCAGGTGACGCTCGAGCACATGGAAATCCGTGCCCCCTTCGATGGGCGGCTCGGTGATATCAGTGTCAGCCCCGGCGCCTATCTCAGCGCCGGCGTCAATATCGTGACGATCACCAAATACGATCCGATTTCGGTCAGTTTCCGGCTCTCCCAGCGCTATCTGCCGCAATTGCGAGAAGGCGTGGCGAAGGATACCGCAGTCGATGTCGACCCCGCGGCGACGGGGGGCGAACCGATGAGCGGCGTGCTGCGGTTCTACGACAATACGGTGGATCAGACCTCCGGTACGGTGCTGGCCAAGGCGGAATTCAAGAACGATCGCGGTCTTTTATGGCCAGGCCAGTCCGTCAATGTCACCGCGCACTTCGTTTCGGACGATGAAATGATCGTCGTACCGACGGTTGCCGTGCGGCCGGGACCGAAGGGCAATTTCGTCTATACCGTCGATAGCGAGCATCATGCCCATATGACGCCGGTGGAAGTCGCCCGCTCGAATGGCGATCTTACCGCCATCGCAAGCGGTCTCAATGGCGGCGAGCATGTGATTATCGAGGGTCAATCCGAACTTGCCGACGGCCAGTTCGTGGTCGAGCAATTTTCCGACAAGGGCGGCGCGGCCGGCAATCTGGCCGCCAATATTCCGCAGGAAAAGGTTGGCGACCAATGA	MKRFWTALSVLTIAAAGAWYFKDRLPLDQVPYLKQFASVSPRADAETATQSSQSGQPARQQGQKQGGGRRNGGPPTVSTIAVGKATLPMDATATGWAVAADITNIAPLQAGLVMEIEAKDGQHIKAGDLILKMDDRIARAAVDKDKANIAADQATLEQTEAAFQRAANLVKQSAESQQVLDQARAARDSASAKIDADKATLASDQVTLEHMEIRAPFDGRLGDISVSPGAYLSAGVNIVTITKYDPISVSFRLSQRYLPQLREGVAKDTAVDVDPAATGGEPMSGVLRFYDNTVDQTSGTVLAKAEFKNDRGLLWPGQSVNVTAHFVSDDEMIVVPTVAVRPGPKGNFVYTVDSEHHAHMTPVEVARSNGDLTAIASGLNGGEHVIIEGQSELADGQFVVEQFSDKGGAAGNLAANIPQEKVGDQ	PGPT0003585_483	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0003585-mdtA-K07799	NA	NA
BMS010_03789	3141	mdtC_4		Multidrug resistance protein MdtC	ATGATCCCGAATTTCTGTATCAACCGGCCCGTCGCCACCACGCTCCTCGCCATCGGCCTGGTGCTGGCCGGGCTTGCCGGCTTCCGCCTGCTGCCCGTCGCCGCCCTGCCGAAGGTGGATTTCCCGACGATCAACGTTTCCTCGTCGCTGTCAGGCGCTTCGCCGCAAACCATGGCCACATCGGTCACCACACCGCTGGTCAAGCAATTCGAGACCATTCCCGGCGTCAGCGAAATCAGCGCCACCAACACGCTCGGCAACAGCTCGATCGTGCTGCAGTTCGATCTTAACCGCGATATCGATGCAGCGGCGGCCGATGTGCAGGCCGCGATTTCCCGCGCACAACGGCAATTGCCGAGCAACATGACGACAACACCGAGCTATCGCAAGACCAACCCGGCCGATGCACCGGTGCTGCTGCTTGCCGTCAACAGCAAGGAAATGCCGACCAGCAAGGTCGATGAGATCGCCGAGAACATCATCTCGCCGCTTCTTTCCACCATATCGGGCGTCGCTCAGGTGAGCATCTATGGCGCGCAGACCTATGCCGTTCGTATCGGCCTCGACCCGGCCCAGCTTCAGGCAAGAGGGCTTGGCGTCGACACCGTCACCACGGCCATCGCCCAGGCGAATAATCAGGTGCCCGTCGGGGCTTTGCAGAACGACAATCAGCGCCTGACGATCGAGGCCGATACCCAGCGCACCAATGCGACCGCCTTCCGCTCGCTGGTCGTCTCGACGAATAATGGCGCGCCGATCCATCTCGGCGATATCGCCAATGTCACCGACAGCATCGACAACACCAATGCCGGCAGCTGGTTCGACGGCGAACAGGCCATCGTTCTCGCCGTGCAGCGCCAGCCGGACGCCAATACCGTCGACGTGGTGGACGCCATCAAAGCCAAGCTGCCGGCGCTTCACCAGCAATTGCCGCCTTCGGTCAATATCAACGTCATGAATGACGCCTCGACCGCCATCAAGGACGCGATTTCGGACGTGCAGTTCACGCTGTTTCTCACCATCGGGCTGGTGGTTGCGGTCATCTATCTCTTCACCGGGCACCTGACGGCGACCGTCATTCCGGGTCTTGCAGTCCCCCTGTCTCTCATCACCGCCTTCGGCATGATGTATGTTCTGGGCTATAGCATCGACAATATCTCGCTGCTCGGTCTGACACTTTCGGTGGGGCTGGTGGTGGACGATGCCATCGTCATGCTGGAAAACATTCTGCGCCTGCATGAAAAAGGCCTGCCCATGCGCGAAGCGGCCCTTCAGGGCGCGGCAGAGGTCAGCAGCACCATTCTCTCCATGTCCGTCTCGCTGGTGGCCGTCTTCATTCCCATCCTGTTGATGGGCGGCGTCATCGGCAGGCTCTTCAACGAGTTCGGCATGGTCGTCACGCTCGCGATCATGGCCTCGGCGCTGGTCTCGCTGACGGTGACGCCGATGCTCGCTTCGCGCCTCTCCGGCCACTCCTCCAGACCACCGGCGATCATCCGCTGGTTCGATGCGGGTTTCGAACGCACGCTGCGCGCCTATGGCCGCGCCGTCGGCTGGTGCCTTTCCCATCGCCGCATCGTTTTGGCATCGTTTCTCGCCTCGGTCGCGGCATCGCTCTATCTCTTCGAAACCCTGCCCTCCAGCTTCTTTCCCCAGGAAGATATTGGCCGTCTTTCGGTTTCGACGCAGGCGCGTGAGGATATTTCCTATACGGCGATGCGCGATCTCCAGGCCCAGGTCGCCGATCAGATTCGCAAGAATCCGGCCGTGGTGCACGTCACCTCCATAGTCGGCGGCAATTCCCGCAATCCGCTGAACAACGGCTCGATGTTCGTGGAGCTGAAGCCTAAGGAAGAGCGCGCGCCGCTCAGCCAGGTGCTGGCGGAACTGGGGCAGGCCACATCGAAAGTGGCGGGCATCCGCACCTATATCAATCCGCAGCAGAGCCTGCGTTTCGGCGGACGCAGCTCCGCCAGCCAGTACCAGCTCGTCGTTCAGGGCCTGAATGCCGACACGACCAATGAATGGTCGAACAAGCTGATGGAAGCGATGCGCCGCGACCACACCTTCACCTCCGTCACCTCGGACGCCCAGAACGGCGCGATCGCCGCGACGATTTCCGTCGACCCGGAAAAGGCGGCTGCCTTCGGCATCACCAACGACCAGTTGCGCAAGACACTGGAAATGTCCTTTGGCGGTTATACGGCGGCACAGATCCAGTCTACCGGCGACAGCTACGACGTGATTGTGGAATTCGACAGCTCGAAACCGTGGAATGATGATTTCCTCAGCGATATCAACATTCTTTCGGCAAAATCGGGCGTTTTGGTTCCGCTTTCAAACTTCGCCAGCCTCACCCGCACACAAGCGCCCGTTACCATCAACCAGACGGGCCAGCTCGTCTCCACCACCATCTCCTTCAACCTACCGGATGGCGTGGCGCTTTCCGATGCCACAAGCCGGATCGATCAGATCAAGAGCACGATAGGCCTGCCGCAGGATGTCTTCACCAGCTATGGCGGTACGGCGGCGATCTTCCAGCAGAGCCAGGGCAATACCGGCATTCTCATTCTGGCGGCGGTTCTGACCATCTATGTGGTTCTCGGCGTGCTTTACGAGAGTTTCATCCATCCGCTGACCATACTCTCCGGCCTGCCGGCGGCGGCCTTCGGCGCACTGGTGGCGCTGAAGGTGATGGGCATGGATTTCTCGATCATCGCGCTGATCGGCCTGCTGATGCTGATCGGCATCGTCAAGAAAAACGCGATCATGATGATCGATGTCGCGGTGGAACTGATACGCGAAAAGGCCGAGCCGCCCGCAACCGCCATTCACGAAGCCTGCGTTCGCCGGTTTCGGCCGATCATGATGACAACCTTCTGCGCGCTGCTTGGGGCGCTCCCCATCGCACTCGGCTCGGGCGCAAGTTCGGAACTGCGCCAGCCGCTCGGCGTCGCCGTGGTTGGCGGCCTTATCGTCTCGCAATTGCTGACGCTGTTCATCACCCCCGTTATCTTCGTGGAAATGGACCGGTTCGGCCACTTCCTCACCGGGCTGTTTTCCCGCAAGAAATCAGCCGGGAAGCACGCCGAGCCGCAAAAGCCGGAGGGCGAAGGCGAACCTGATTCCGTCGCTGCCTAG	MIPNFCINRPVATTLLAIGLVLAGLAGFRLLPVAALPKVDFPTINVSSSLSGASPQTMATSVTTPLVKQFETIPGVSEISATNTLGNSSIVLQFDLNRDIDAAAADVQAAISRAQRQLPSNMTTTPSYRKTNPADAPVLLLAVNSKEMPTSKVDEIAENIISPLLSTISGVAQVSIYGAQTYAVRIGLDPAQLQARGLGVDTVTTAIAQANNQVPVGALQNDNQRLTIEADTQRTNATAFRSLVVSTNNGAPIHLGDIANVTDSIDNTNAGSWFDGEQAIVLAVQRQPDANTVDVVDAIKAKLPALHQQLPPSVNINVMNDASTAIKDAISDVQFTLFLTIGLVVAVIYLFTGHLTATVIPGLAVPLSLITAFGMMYVLGYSIDNISLLGLTLSVGLVVDDAIVMLENILRLHEKGLPMREAALQGAAEVSSTILSMSVSLVAVFIPILLMGGVIGRLFNEFGMVVTLAIMASALVSLTVTPMLASRLSGHSSRPPAIIRWFDAGFERTLRAYGRAVGWCLSHRRIVLASFLASVAASLYLFETLPSSFFPQEDIGRLSVSTQAREDISYTAMRDLQAQVADQIRKNPAVVHVTSIVGGNSRNPLNNGSMFVELKPKEERAPLSQVLAELGQATSKVAGIRTYINPQQSLRFGGRSSASQYQLVVQGLNADTTNEWSNKLMEAMRRDHTFTSVTSDAQNGAIAATISVDPEKAAAFGITNDQLRKTLEMSFGGYTAAQIQSTGDSYDVIVEFDSSKPWNDDFLSDINILSAKSGVLVPLSNFASLTRTQAPVTINQTGQLVSTTISFNLPDGVALSDATSRIDQIKSTIGLPQDVFTSYGGTAAIFQQSQGNTGILILAAVLTIYVVLGVLYESFIHPLTILSGLPAAAFGALVALKVMGMDFSIIALIGLLMLIGIVKKNAIMMIDVAVELIREKAEPPATAIHEACVRRFRPIMMTTFCALLGALPIALGSGASSELRQPLGVAVVGGLIVSQLLTLFITPVIFVEMDRFGHFLTGLFSRKKSAGKHAEPQKPEGEGEPDSVAA	PGPT0016195_1001	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-SURFACTIN_RESISTANCE,PGPT0016195-swrC|yerP-K03296	NA	NA
BMS010_03790	576			hypothetical protein	ATGAGGCGTGGTCAAAACTTGGTTGGGAAGACAACCCTCGCTGCTTTCCTCTCCGCTAATGTTGCAGCGAGTGCGCTTGCGCAGGAGGCAGCGAAGGTTGCTGGGCTCATGCACGAGGTTTATGGAAGCTGGCAGCTCGCCTGCGCGGCGCCAGCGAAAAAGGACGAGGCCGACCCGAACGCTTCAGTGGCGGCGGAAAAGCCGGCCTGCGCCATAGCCCAGGTGCAGCTTGAGGAGAAAACCCGCAAGCTTGTCGTCTCGGTCGAATTCCGGATTGATGATCCGAAAATGCCTGACAAATTGTCCGGCACCATCGTCATGCCTTTCGGTCTTGCCGTCACAAAGTTGTTTTCGGTGAAATCCGGAACTGTGCGGCTGCAGGAAGTGCAGGTTAGCACCTGCCTGCCCGTCGGCTGCATCGTGTCCTTCACGCCCTTTGTCGAGCTTGTCTCGGCGCTTGAGGCGGGAAAGACATTGACGATCGAAGCCCCCGATCTGCAGGGCCGCACGGTGTCGTTCCAGTTGCAGGCGGCGGGTTTTTCCGAGGCGCTGAAGCGCCTCGGAAATCTGCGTTAG	MRRGQNLVGKTTLAAFLSANVAASALAQEAAKVAGLMHEVYGSWQLACAAPAKKDEADPNASVAAEKPACAIAQVQLEEKTRKLVVSVEFRIDDPKMPDKLSGTIVMPFGLAVTKLFSVKSGTVRLQEVQVSTCLPVGCIVSFTPFVELVSALEAGKTLTIEAPDLQGRTVSFQLQAAGFSEALKRLGNLR				NA	NA	NA	NA	NA
BMS010_03791	3936			hypothetical protein	ATGTCCGCTTGTTTCTGCCATGTCCTGGAAGGCGAAAGCCGTCCGATAGCGGGGACAGGCCAGGAGCCACGACGCAAAGTCCTCATTCTCGACGCAGAGGGTCTTCTTGTCCTGTTGCTTTCAATGGTCCCGGCACATGTCGCCGTGGCGGAAACGCTGCGCTGGACGGGGCCTGATGGAGGTGACTGGTTCACCGCCACGAATTGGGGGCCAACGCAGCGCGTGCCGAATGCGGACGATGACGCCATCGTCGATAGTTTGGGGCCGGCGATAACGATCGGCAACAGCGGAAGCATTGGCGGATTGTCGGTCGGCCTCGGCGCCGGTGGCAACGGTACGCTTGTGGTCCGTGGTTCACTGGATACGAAATCGTTCTACCTTGGTCTAACGGATGGGGTCTCCGGTACGGCAACTTTTTCCAGCGCGACCTGGAGTAACAGCAATCTTCTTTCCATCGGTGGTAACGGCACGGGAACTCTTGTTCTGTCGAATGGTACAAGGGCGGCGTCGGGCGACATCCACATAGGCGGATTCGGGACAGGAAACGGCTCCCTCACGCTTGATAATTCATCCAGCCTCTCCAGTTCCAATACTATTATTGTCGGTTACGGCAACGGGACTTCGCTTGCGACCGGCCTCACAGGCAGCCTCAAGGTTTTGGCAGGCAGCACGCTGAAAAGCGTGAACAGCGTCATCGGCGACGATGTGGGCTCCCATGGCGTCGCTATTGTCTCCGGCGCCGACAGCCGCTGGGTGACATCGGACGAGATGGTGATCGGCGAAGCCGGTGTCGGCACTCTGACGATTTCGGGCGGCGGTACTGTTATCAATCGGACGACTGTCATCGCCAGTCTGGATTCGGCGGGCGGAAGTGGAGTGAAGGTCAGCGGTCGTGGTTCGTTATTGCAAAGCGATGGGGGGCTGAAGATCGGCGATGGCGGAGCGGGGACGCTTCTGGTTGAGGCCGCCGGAAAGGTCAAAAGCGGCGACGCCGTTATCGGCTTCCAATCGGCCAGTTCGGCAACGGTGACCGGGGATAGTTCCAGCTGGTCGACCGACGATCTGGAGATTGGCAACGGAACGCTTAACATTACGGCGGGCGGTTCCGTAGACAGCGCCAGAGCGCGTCTCGATGCCGCTGCCGGGGCAACCGGTGAGGCCGTCGTCGATGGTGCGCGTTCCCTGTGGTCCGTGAAGGATGACATGGTGGTAGGCGAGAACGGCGCGGGCTCCCTGGTTGTCACCGGCGGTGGCCGTGTCGATGCCGGATATGTCGCTCTCGGCAAAAATGTCGGCGCGACCGGCTCCCTCCGCATCGCTGGTGATGGAAGCATCTTGCGGAGCAAAAGCGATTTAGCCGTCGGTCATTCGGGCAACGGCTCGGCGGCGATCGAGGCTGGAGGTGCGGTTTTTAGCGACGATGGATATGTTGGGGAGCGAAATGGTTCCAATTCGACCGTCGCCGTGGCCGGCGACGGATCCCGCTGGACGATGACCGGAGAGTTTTTCGTCGGCTATGACAAAGGAGCAACCGGAAACGTCACGGTCAGTGCTGGCGGCGGTATCCGGGCGGCGAATATCGTGCTTGGCAATATCGACGGCTCCTCCGGCGCGCTGACCGTCACCGGCGCGGGCTCGACCGTTACAGCCGCTTCCGCTGCGCCCGGTTCCGGCGCGATTTATGTCGGCTTTGGCGGTTCCGGCAGCCTGACGGTGACGAATGGCGCGTCACTCGATGCACATAACCTTTATGTTGCCAGTAAAACCGGAGCGGACGGCACTGTTCTGGTAACCGGCGTCGGATCACGGGCCACGGTGGGCGCGGGGATGGTCATCGGCGGTTCCGGAACCGGAGCGCTGGAGGTGACAGGCGGCGCATCCATCGCCACGCCCACCATCATCATCGCCATGTCGGCGGGTTCGACGGGGGTTTTGAACATCGGGGCGGCGGCGGGTCAGACGGCGCGTTCGGCCGGTGCTGTCGATGCGCGGACCATAAGCTTTGGCGCCGGCAATGGCAGCATCGTCTTTAATCATTCCGAGACCGGCTATCTTCTAACCGCCGATATTTCGGGGACGGGCAGGGTGGTGGCAGAGGCCGGCGTCACAACACTTTCGGGCAATAACAGCTATTCCGGCGGCACCACAATTTCGAGTGGTACGCTGAGGGGCACGGCGGGAAGTTTCGGCTCCGGCGGCATTGCCAATGATGCGCAGCTCGTTATCGATGGCGCGGGCACGCTATTCAATAGCATCAGCGGCACCGGCACCCTTAAAAAAACGGGAGATGGCAATCTCGTCCTGACCGGAAACAGCACCTATTCGGGCGTAACCGAGGTTTCCTCGGGCAAGCTAAGCGTCAACGGCTCACTCGCAAGCATGGTGACCGTCGGCAGCGGTGCGGTGCTTGGCGGTTCCGGCACCATCGGCGGCGTGACCGTCGCATCGGGCGGCACGCTTTCGCCCGGCAATTCCATCGGCACGCTCACCTCCACGGGCGATGTGACATTCGCCAGCGGCTCGGCCTATGCCGTCGAAATCGACGCATCAGGCAGTTCCGACAGGCTTGATATCAATGGCGCTATTACCATCGGTAACAATGTCAGTCTCGTCGTCACACCGCTGTCGAGCCCTTCGGCCTATAGTCTCGGCACCCCATATGCGATCCTGACGGCAACCGGCGGCATTAGCGGCGCATTTTCCAGCGTGGACGAAAATTTCGCCTACCTGATCGTCGGCGTCACAAAAAGCGCCGATAACAGCAAAGCCTATCTCTCTTTCAACCGTGTATCGCCCGAACCCGGACTTCTTGCCGCGGCGACTTTGACGGAAAACGCACGCAGCGCCGCGAGGGCTGTTGAGGCGAGCGGGGATGCCTCGCCGCTTTATCAGACGGCGGTGTTTCTCCAGTCAGGCGAAACCCAATCCGCCTTCTCACAGCTTGCCGGTGAACTGCATCCTTCACTTGCGATGGCATTGATAAATCGCAGTCAGTTGACCCGTAATGTCATTCTCAACCGGCTGCGCAGCGCCTTCAAGGGTATTGATGCGCGTCCGATCCTGCCTGCTGTCGGAAGGGCGGGGGCATCGGATCCGATGAATATCGATGAAGGCTCCCTCACTTTCTGGTCCAATGGTTTCGGGTCGCGCGGACAAATCGATGGCGATGGCAACGGCTCGTCGGTCAGTATGAAGGGTGGCGGCGTCTTTTTTGGTCTCGATGGTGATTGGGGCGACGGTTGGCGCGCCGGTGTTGCTGCCGGTTATGGCCGTGATGTCATCAGCCAGAAGTCTTTTTTGGCGTCGGCAGATGTGGACAGCTATTATGCGGCTGCCTATGCCGGCGGGGCAATTGGCCCGGCCTCGCTGCGCCTTGGAGCTATTCACGCATTTCAGGACGTCGAAACCCGCCGGGCGGTGTCGTTTTCGACATTGCAGGAAAATCTGGCCGCTGGCTATGACGCCTCCACCACGCAAGTCTTTGCCGAGGCAGCCTGGCGTTTCGATTTTGATCTCGTCCAGTTCGAACCCTACGCCAGTATCAGTTATGTGAATACGAAGACGGATGCCTTCGGCGAAAAGGGCGGCATGGCCGCCGTTTCTTCCGGCTCTGCCAGCCATGACCAGCTTTATTCAACGCTTGGTGCGCGTTTCAGCCGTGATATCGCATTTGAGGGTATGGCTGGGCAGGCGATGTTCGATATCGGCTGGCGTCATGCCTATGGCGATCCGGCGGTTGAGAACACCTTGTTCTACACGGGTGGCCAAGGCTTTTCCGTTACAAGTGCGGCGATGGCGCAGGATGTGGCGTTGATCAATCTGGGACTGCGCTACGACCTCAATCCCGCCGCCACTTTGACATTCCGTTATGGCGCTGTTTTCGGAGCAGGCATGCTGGATCAATCCGCCTCTGCCGAACTGGGAGTCCGTTTTTGA	MSACFCHVLEGESRPIAGTGQEPRRKVLILDAEGLLVLLLSMVPAHVAVAETLRWTGPDGGDWFTATNWGPTQRVPNADDDAIVDSLGPAITIGNSGSIGGLSVGLGAGGNGTLVVRGSLDTKSFYLGLTDGVSGTATFSSATWSNSNLLSIGGNGTGTLVLSNGTRAASGDIHIGGFGTGNGSLTLDNSSSLSSSNTIIVGYGNGTSLATGLTGSLKVLAGSTLKSVNSVIGDDVGSHGVAIVSGADSRWVTSDEMVIGEAGVGTLTISGGGTVINRTTVIASLDSAGGSGVKVSGRGSLLQSDGGLKIGDGGAGTLLVEAAGKVKSGDAVIGFQSASSATVTGDSSSWSTDDLEIGNGTLNITAGGSVDSARARLDAAAGATGEAVVDGARSLWSVKDDMVVGENGAGSLVVTGGGRVDAGYVALGKNVGATGSLRIAGDGSILRSKSDLAVGHSGNGSAAIEAGGAVFSDDGYVGERNGSNSTVAVAGDGSRWTMTGEFFVGYDKGATGNVTVSAGGGIRAANIVLGNIDGSSGALTVTGAGSTVTAASAAPGSGAIYVGFGGSGSLTVTNGASLDAHNLYVASKTGADGTVLVTGVGSRATVGAGMVIGGSGTGALEVTGGASIATPTIIIAMSAGSTGVLNIGAAAGQTARSAGAVDARTISFGAGNGSIVFNHSETGYLLTADISGTGRVVAEAGVTTLSGNNSYSGGTTISSGTLRGTAGSFGSGGIANDAQLVIDGAGTLFNSISGTGTLKKTGDGNLVLTGNSTYSGVTEVSSGKLSVNGSLASMVTVGSGAVLGGSGTIGGVTVASGGTLSPGNSIGTLTSTGDVTFASGSAYAVEIDASGSSDRLDINGAITIGNNVSLVVTPLSSPSAYSLGTPYAILTATGGISGAFSSVDENFAYLIVGVTKSADNSKAYLSFNRVSPEPGLLAAATLTENARSAARAVEASGDASPLYQTAVFLQSGETQSAFSQLAGELHPSLAMALINRSQLTRNVILNRLRSAFKGIDARPILPAVGRAGASDPMNIDEGSLTFWSNGFGSRGQIDGDGNGSSVSMKGGGVFFGLDGDWGDGWRAGVAAGYGRDVISQKSFLASADVDSYYAAAYAGGAIGPASLRLGAIHAFQDVETRRAVSFSTLQENLAAGYDASTTQVFAEAAWRFDFDLVQFEPYASISYVNTKTDAFGEKGGMAAVSSGSASHDQLYSTLGARFSRDIAFEGMAGQAMFDIGWRHAYGDPAVENTLFYTGGQGFSVTSAAMAQDVALINLGLRYDLNPAATLTFRYGAVFGAGMLDQSASAELGVRF				NA	NA	NA	NA	NA
BMS010_03792	525	ntaB		FMN reductase (NADH) NtaB	ATGACAGTGGCAGAGGCGATCAAAATGCCCAATGAGCATGTATTCGTTCCCGGCGGCGAAAACAGCCGCAGCTTCCGCAATGCGCTAGGCGCTTTCACGACAGGTGTGACGGTGGTGACCGCCACGACGCCGGAAGGGCCGATCGGCATGACGGTCAACAGTTTTGCGTCCGTGTCGCTCGATCCGCCGCTGGTGCTGTGGTCGCCGGCCAAAAGCTCGTCGCGTTATCAGGCCTTCAGCGGTGCAACCCATTTCGCCATCCACGTGCTGAGCGCCGATCAGGATGTGCTGAGCGCCCGCTTCACCCGCAATGGCCGCGCTTTCGACGATCTCGACTGGGAAATGAATGACGAGGGCGTTCCCGTCATTCCCGGCACGCTTGCCCGGTTCGAATGCCGTCAGGCAGCGTCCCACGATGCGGGCGACCACACCATCATCGTCGGCGAGGTGCTGCGCGCCGCCCATCGCGACGGGGACCCGCTGTGCTTTTCGGGCGGAGCCTTTGGAAGGTTTTCGCGGCAGTAA	MTVAEAIKMPNEHVFVPGGENSRSFRNALGAFTTGVTVVTATTPEGPIGMTVNSFASVSLDPPLVLWSPAKSSSRYQAFSGATHFAIHVLSADQDVLSARFTRNGRAFDDLDWEMNDEGVPVIPGTLARFECRQAASHDAGDHTIIVGEVLRAAHRDGDPLCFSGGAFGRFSRQ	PGPT0006700_43	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STEROID|DERIVATE_DEGRADATION	XENOBIOTIC_ADROSTENEDIONE_DEGRADATION,PGPT0006700-hsaB-K16048	NA	NA
BMS010_03793	894	ydhF_1	COG4989	Oxidoreductase YdhF	ATGGAACGCATCGCTCTTTCCGACAAACTCGAACTCAGCCGCATCGTCTACGGCATGTGGCGCATAGGCGACGATGCCGATACCTCGCCCGCCCACGTGCAGGCCAAGATCGAGGCTTGCCTCGCGCAGGGCATCACGACCATGGATCAGGCCGATATTTACGGCGGATACACGGCGGAAGCCATTCTGGGTGCCGGCCTGAAAGCCGCTCCGGGGCTGCGTGACAGAATAGAAATCGTCACCAAATGCGGCATTGTTGCACCCGCAGGCCGTCACGCCGACGCCCGCGTCAAGCACTACGATACGACGGCCGGCCACATCAACGCCTCGGTTGAGGCGTCGCTTCGCGACATGGGTACGGATCACGTTGATCTGCTGCTCATTCACCGTCCTGATCCGTTGATCGATGCGGAAGAAACCGGCAAGGCACTCGATGCGCTGGTGGCATCCGGCAAGGTCAAGGCCGTTGGCGTCTCCAACTTCCGCCCGTGGGATTTCTCCCTGCTGCAATCGGCCATGAGCAACCGGCTCGTGACCAACCAGATCGAAATGAGCCTTCTTGCCACGGATTGCTTCACCAATGGCGATCTGGCCTTCCTGCAGGAAAAGCGCGTTTCTCCGATGGCATGGTCGCCGCTTGGCGGCGGCTCGTTGTTCTCCGGTGCTCATGGCGGCACCATGGCCGCCTTGCAGCGCATCGGCAAGGAACAGGGCGTGGATGCCACGGCAGTGGCGATCGCCTGGCTTTTGCGGCATCCGGCCAAAATCGTGCCTGTGCTCGGCACCAACAATATCGAGCGTATCAGAACGGCGGCCGATGCGCTCAACGTGACGATGGACCGCCAGACCTGGTTCGAACTCTACACCCTTGCGATTGGAAAAGAGGTGCCGTGA	MERIALSDKLELSRIVYGMWRIGDDADTSPAHVQAKIEACLAQGITTMDQADIYGGYTAEAILGAGLKAAPGLRDRIEIVTKCGIVAPAGRHADARVKHYDTTAGHINASVEASLRDMGTDHVDLLLIHRPDPLIDAEETGKALDALVASGKVKAVGVSNFRPWDFSLLQSAMSNRLVTNQIEMSLLATDCFTNGDLAFLQEKRVSPMAWSPLGGGSLFSGAHGGTMAALQRIGKEQGVDATAVAIAWLLRHPAKIVPVLGTNNIERIRTAADALNVTMDRQTWFELYTLAIGKEVP				NA	NA	NA	NA	NA
BMS010_03794	1158	ssuD_2	COG2141	Alkanesulfonate monooxygenase	ATGACCGTCGTACCCGTTACATCCGCTGATCTCGATGCTGCCGAGGTCTCCTGGTTTTCCGCTTTGTGTTCCGATGACTACGCCTATCTTGGCGTGCCGGATGGCAGCCTGCGCTCCAGTTTTGAGCATTGTTCCGATATCGTCAAAAAGGCCGAAGAACTGGGTTTTCGCAACATTCTCTGCCCTTCATCCTATCAGGTCGGGCAGGATACGCTGAGCTTCGTCGCCGGCTGTGCGCCGATCAGCGACCGCATCAATTTTCTTGCTGCTATCCGCTGCGGCGAAATGCAGCCGATCATGCTGGCGCGCACGGTGGCGACGCTCGACCACATGCTGAAGGGCCGCCTGACGCTCAACGTCATCAGCTCGGATTTCCCCGGCGAAGTGGCCGATAGCGCGTTTCGCTACAAGCGCAGCCATGAGGTCGTTGAGATTCTGCGCCAGGCCTGGACGCGCGACACCATCGACCATGACGGGGAAATTTACCAGTTCAAGGGCGTCTCCACCGAGCCGGCAAGACCCTATCAGCAGAATGGTGGACCGCTCCTTTATTTCGGTGGCTATTCACCGGATGCGCTGGAACTCTGCGGCGCGCAATGCGACGTCTATCTGATGTGGCCGGAAACGAAGGACCAGCTTGCAGACCGCATGCGTGCCGCAAATGAACGCGCCGCCGCCCATGGCCGCACGCTGGATTACGGCCTGCGTGTCCATATGGTGGTGCGCGATACCGAACAGGAAGCCCGCGAATATGCCGAACATCTTGTCTCGAAGCTCGATGACGAATATGGGCAACTGATCCGCAACCGCGCGCATGACAGCGGCTCGCTCGGCGTGTCGCATCAGGCGCGTGCCCGCGAACTCGCCGACAAGTTCGGTTATGTCGAACCCAATCTGTGGACCGGCATCGGCCGGGCGCGTTCGGGCTGCGGTGCGGCGCTGGTCGGTTCCACCGACAAGGTGCTTTCGGCGCTGGAGGAATACCAGAAGATGGGCATTCGCGCCTTCATCCTTTCCGGTTATCCGCATCTCGATGAGGCGGAGCACTTCGGCACCAAGGTTCTGCCGCAGATGAAAACCTGCTCCCTGCCGCATGCCTATGGCCGGGTGCCTTCTGAAACGCCGGCCACGCCGCTCGGCAAAGGGGAACGCCACTGA	MTVVPVTSADLDAAEVSWFSALCSDDYAYLGVPDGSLRSSFEHCSDIVKKAEELGFRNILCPSSYQVGQDTLSFVAGCAPISDRINFLAAIRCGEMQPIMLARTVATLDHMLKGRLTLNVISSDFPGEVADSAFRYKRSHEVVEILRQAWTRDTIDHDGEIYQFKGVSTEPARPYQQNGGPLLYFGGYSPDALELCGAQCDVYLMWPETKDQLADRMRAANERAAAHGRTLDYGLRVHMVVRDTEQEAREYAEHLVSKLDDEYGQLIRNRAHDSGSLGVSHQARARELADKFGYVEPNLWTGIGRARSGCGAALVGSTDKVLSALEEYQKMGIRAFILSGYPHLDEAEHFGTKVLPQMKTCSLPHAYGRVPSETPATPLGKGERH	PGPT0003040_681	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_DEGRADATION,PGPT0003040-ssuD-K04091	NA	NA
BMS010_03795	705	nagR_4	COG2188	HTH-type transcriptional repressor NagR	ATGAAACACACTGGCGGCAGCCTGCCAATGTATATGCAGATCGCGGAAATGCTGGTGCGCGAAGTGGCGGCGGGCCGGCTGATCGATGGCGAGAAGCTCGCGCCGGAGCGCGATATGGCGGCCGACCTCGGCATCGCCGTTGGCACGCTTCGCAAGTCGCTCGCCGAATTGCAGGAGCGCGGCCTGCTGGAGCGCGTGCAGGGTTCGGGCAATTACATTCGCGCCGTCAGCGATCCGCAAAGCGTCTACGCCTTCTTCCGGCTTGAACTGATCGAGGGCGGCGGCCTGCCGACGGCGGAGGTTCTGGATGTGGCCCGCCTTGCCAAGCCCGCCGACCTGCCCGCTTTCGGCACATCGACCGAAGGACACAGGATTCGCCGCCTGCGGCGCATTGCCGGCAAACCGGCGGCCATCGAAGAAATCTGGCTGGACGGTTCTTACGTCGACACCATCGCCATCGAGAACATGTCCGAATCCCTCTATCTCTATTACCGCACCCGCCTCAACCTCTGGATATCGAAGGCGGAAGATCGCATCGATCTCGGCGAAGTACCCGAATGGACACCCGAGGTCTTCGGTCAGAAATCAGGCGCGCTGGTGCCGCGGGTGTTGCGTCTGAGCCAAGCGCAGGACGGGGCGGTGGCCGAAGTTTCATGGACCTGGTTCGATCATACCGTTGCCCGATACGTTTCTCGCATACGTTGA	MKHTGGSLPMYMQIAEMLVREVAAGRLIDGEKLAPERDMAADLGIAVGTLRKSLAELQERGLLERVQGSGNYIRAVSDPQSVYAFFRLELIEGGGLPTAEVLDVARLAKPADLPAFGTSTEGHRIRRLRRIAGKPAAIEEIWLDGSYVDTIAIENMSESLYLYYRTRLNLWISKAEDRIDLGEVPEWTPEVFGQKSGALVPRVLRLSQAQDGAVAEVSWTWFDHTVARYVSRIR				NA	NA	NA	NA	NA
BMS010_03796	1077	msmX_3	COG3839	Oligosaccharides import ATP-binding protein MsmX	ATGGCTTCGGTCAGCCTGCGCAAGCTGGACAAGAGTTACGGTGCGCTTCGCATCGTCAAGGGCATAGACCTTGAAATCAACGATGGCGAATTCGTCGTGTTCGTCGGCCCTTCCGGCTGCGGCAAATCGACGACGCTGCGCATGGTCGCCGGGCTTGAAAGCATTACCGGCGGCGAAGTGAAGATCGGCGACCGTGTCGTCAACCGGCTGCCGCCGCGCGAGCGCGACATCGCCATGGTGTTTCAGGACTATGCGCTTTATCCGCACAAGACGGTGCGCGAAAACATGGGTTTCAGCCTGAAGGTACGCGGTGTCAGCGCCTCCCAGGCCAATGCCAGCATCGATGAAGCGGCGAAGATGCTCGGCATCGAGCACCTTCTCGACCGTCGGCCCGGCCAGCTTTCCGGGGGCCAGCGCCAGCGCGTGGCCATGGGCCGCGCCATCGTGCGCCGCCCGCAGGTGTTTCTGTTCGACGAGCCGCTTTCCAACCTCGACGCCAAGCTGCGCGGACAGGTGCGCACGGAAATCAAGCGTCTGCACCAGCAGCTCGGCACGACCATCATCTACGTTACCCATGACCAGGTGGAGGCCATGACGCTGGCCGACCGCATCGTCATCCTGCGCGGCGGCGATATAGAGCAGGTCGGCACGCCGGACGAGGTCTATAACCGTCCGGAAAGCGTCTTCGTCGGCGGTTTCGTCGGCGCGCCGGCGATGAACTTCGCCCGCGCGAAGGTGAGCGGCGACCGGCTGGCATTTTCGGACGGCAATTCCCTGCCGATGGCAGCCATCCGGCCATCCCGCGAAACGGGTCTCGAAGGGCGCGAAGTCATTGTCGGCATTCGCCCGGAACATTTCGGCCCCGTCGAGGGCTTCGACACGCAGCTTGCGGTCAAGGTGCAGGTGGTGGAGCCGCTCGGCTCGGACACGCTCGTCCATTTCAGCCTTGGCGATGCGGCGCTGACCGCACGCATGCCGCCGCATCTGCGGCCTGCGCCGAATGAGGAACTGAAGATCGGCGTCGATCCGTCCAAGGTCCATCTTTTCGACGCCGCGACGGAGCGCTCTATCCACTGA	MASVSLRKLDKSYGALRIVKGIDLEINDGEFVVFVGPSGCGKSTTLRMVAGLESITGGEVKIGDRVVNRLPPRERDIAMVFQDYALYPHKTVRENMGFSLKVRGVSASQANASIDEAAKMLGIEHLLDRRPGQLSGGQRQRVAMGRAIVRRPQVFLFDEPLSNLDAKLRGQVRTEIKRLHQQLGTTIIYVTHDQVEAMTLADRIVILRGGDIEQVGTPDEVYNRPESVFVGGFVGAPAMNFARAKVSGDRLAFSDGNSLPMAAIRPSRETGLEGREVIVGIRPEHFGPVEGFDTQLAVKVQVVEPLGSDTLVHFSLGDAALTARMPPHLRPAPNEELKIGVDPSKVHLFDAATERSIH	PGPT0016310_5090	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0016310-msmX|msmK|malK|sugC|ggtA|msiK-K10112	NA	NA
BMS010_03797	1251		COG1653	putative ABC transporter-binding protein	ATGACATTTAAAACCATCAAGGGCAAAGCCCTCATGGGTGCCGCGCTCTGCGCAACCATGCTCGCCTTTTCGGGACAGGCCTTTGCCGATGCCGAACTGAAGATCTTCGTTTCCAGCCAGCATCAGCCCGATGTGTGGCGGAAGGCGCTCGATCAATATGAGGCCAAGACGCCCGGCGTGAAGGTGGTCATCGAGACCGGCGGCAACACCTCGGAAATGCAGGCGCAATATCTCAACACCGTGATGTCGGCCAAGGATTCGAGCCTTGACGTGCTGATGCTCGACGTCATCCGCCCCGCACAATTCGCCACGGCTGGCTGGACAAGCGATTTCTCCGGCAAGGACATGTCGGCCTATCTGCCGACCTATGCCGAAGCCAACACGGTGGACGGCAAGATCGTGGCGCTGCCCGCCTTTGCCGATTCCATGTTCCTTTATTACCGCAAGGACCTGCTCGAAAAATACGGCATCAAGCCGCCAACCACCTGGGACGAGTTGAAGGAAGCCTCCAAGAAGGTGATGGAAGGCGAGAAGAACCCTGAGCTTCAGGGCCTGTCCTTCCAGGGCAAGGCGATCGAAGGCGCTGTCTGCACCTTCCTCCTGCCCTATTGGAGCGAGGGCAAGTCGCTGGTTGAAAACGGCAAACTGAATTTCGACAACAAGGCGGCAGTGGATTCGCTGAAGCTGTGGAAGAGCTTCGTGGACGAAGGCATTTCCAAGAAGAACATTTCGGAAGTGGCGACCGACGACACCCGCAAGGAATTCCAGGCAGGTAAAGTGCTCTTCGCGGTCAACTGGTCCTATGCCTGGACCCATTTCCAGGGCAAGGAATCGCAGGTGAACGACAAGGTTGGCGTCGCCCGCCTGCCGGCCGTCAAGGGCGGCGAGCAGACGACCTGCCTCGGCGGCTGGGAATTCGGCGTTTCCGCCTATTCCAAGCAGCAGGAGGAAGCCAAGAAGCTGGTGGAATATCTCTCCGGTCAGGATGTGTCGAAGTTCATGGCCATCAACGCCGCGCTTCTGCCGACCTATGCCGCACTCTATAAGGATGCGGATGTGACCAAGGCGATCCCGTGGTTCGCGGATGCCCTGCCCGTCGTCGAGACCGCCAAGGCCCGCCCCGTGACGCCGCGTTACAACGAGGTCAGCGAAACCATCCGCACCACCGTCAACGGCGTGCTTGCCGGCGTTATGACGCCGGAGGATGGCGCAAAGCAGATGGAAAGCCGTCTGCGGCGCGTTCTGCGCTAA	MTFKTIKGKALMGAALCATMLAFSGQAFADAELKIFVSSQHQPDVWRKALDQYEAKTPGVKVVIETGGNTSEMQAQYLNTVMSAKDSSLDVLMLDVIRPAQFATAGWTSDFSGKDMSAYLPTYAEANTVDGKIVALPAFADSMFLYYRKDLLEKYGIKPPTTWDELKEASKKVMEGEKNPELQGLSFQGKAIEGAVCTFLLPYWSEGKSLVENGKLNFDNKAAVDSLKLWKSFVDEGISKKNISEVATDDTRKEFQAGKVLFAVNWSYAWTHFQGKESQVNDKVGVARLPAVKGGEQTTCLGGWEFGVSAYSKQQEEAKKLVEYLSGQDVSKFMAINAALLPTYAALYKDADVTKAIPWFADALPVVETAKARPVTPRYNEVSETIRTTVNGVLAGVMTPEDGAKQMESRLRRVLR	PGPT0014145_1072	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MALTOSE|TREHALOSE_TRANSPORT,PGPT0014145-thuE-K10236	NA	NA
BMS010_03798	912	ycjO_1	COG1175	Inner membrane ABC transporter permease protein YcjO	ATGGTTCGGGTGGACGAGAAACCGCAGCCGCGCTGGACGCGGTGGCTCGATCTCGGCGACCGGCCGCTGGCCGTGCTTCTCTTGGCGCCGGCGGCGATCCTGCTGTCGCTCATCATCGTCTATCCGGTGGCACGGCTTGTCTACACCTCGTTTTTCAGCCTTTCGCTGACGTCGGGCCTGCCGGCGGAATTCATCGGCTTTGAAAACTATACGGCGATGTTCGACGACCCGATCTTCTGGGAAACGACCTGGAACACAGTGCTGATCACGCTGATCACCGTTCCCGGCGCGCTCATCATGGGCCTTGGCCTCGCACTGCTCGCCAACCTGCCTTTTTCCATGCAATGGCCGATGCGGCTTTCGCTGCTGATCCCGTGGGCGCTGCCGCTGTCCTTTGCCGGCCTCATCTTCGCATGGTTTTTCCATTACGAATATGGCGTGGTCAATGATGTTCTCAACCGTTTCGGCTTCGAAGGGATCATCTGGTTCAATTCGCCGAAGTGGGCCTTTGCGGCGATCTGCCTGACGATCATCTGGAAGACATCCTCCTTCATGGCGCTGATGATCCTTGCCGGCCTGCAGACCATTCCGCGTTCGCTCTACGAGGCGGCGGATGTGGATGGCGCCGGCAAAATCCGGCAATTCTTCGAAATCACCCTACCACTTCTCAAGCCCTCGATTGTCGTCGCGCTCATCTTCCGCACCATCACAGCGCTGCAGACCTTTGATATTCCTTACATGATGACCGGCGGCGGCCCCGGCACATCCACCACGACGCTTGCCATGTATATCCACCAGAACACCGTCTCCTTCCTCGATCTGGGTTACGGTTCGGCGCTGGCGGTCATGATGTTTGCGCTTTCCATGTGCGTCACCGCCGTTTATCTCCGCATTATCAGGACGAAGGACTGA	MVRVDEKPQPRWTRWLDLGDRPLAVLLLAPAAILLSLIIVYPVARLVYTSFFSLSLTSGLPAEFIGFENYTAMFDDPIFWETTWNTVLITLITVPGALIMGLGLALLANLPFSMQWPMRLSLLIPWALPLSFAGLIFAWFFHYEYGVVNDVLNRFGFEGIIWFNSPKWAFAAICLTIIWKTSSFMALMILAGLQTIPRSLYEAADVDGAGKIRQFFEITLPLLKPSIVVALIFRTITALQTFDIPYMMTGGGPGTSTTTLAMYIHQNTVSFLDLGYGSALAVMMFALSMCVTAVYLRIIRTKD	PGPT0014150_696	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MALTOSE|TREHALOSE_TRANSPORT,PGPT0014150-thuF|sugA-K10237	NA	NA
BMS010_03799	855	sugB_1	COG0395	Trehalose transport system permease protein SugB	ATGAGCACCGTTGCGAATTCCGGTCTGTCCTCCTTCTTTTCCGGCAAGCCGCTGCGCTTCATCGCGGCCTCCATTCTTCTGGTCAACGGCCTGTTTCCGGCGATCTGGATCCTCTTCACCTCGCTGAAGACCGAAGCAGAACTGACGGTCAAGCCGATCACCTGGTTTCCGCACGCGCCGACCCTGGCCAATTACATGCAGGCCTTTTCCGACCAGCCGCTGCATCTCTTCCTGTTCAACAGCTTCATGGTGGCGCTGCTTTCCACCGCCCTCACAATCCTGATATCGGTGCTGGCCGCTTACGCGCTGGCGCGGCTGAACCTCAAATATCGCGCGCTGATCCTCTCGCTCATCATCGCCGTCTCCACCTTCCCGCTGGTGACGCTGCTGGTGCCGCTGTTCGAAATCATGCGCGCCTTGAACCTGCTCAACAGTTGGACGGCGCTGATCCTGCCCTACACGGTACTGTCGCTGCCGGTCTGCACGCTGATGCTGGTCTCCTTCTTCGAAAGCATCCCGCGCGATCTCGAAAACGCCGCCATGATCGATGGTTGCACCCGCATCGGCGCGCTGTTCAAGGTCGTCGTGCCGCTCTGCGCGCCGGGCGTTTTCACCGCCGGCATCCTTGCCTTCGTGAATGCCTGGGATGAGTTCCTGCTGGCGCTTTCCTTCAATTCCAATCCGGCGCTCCGCACGCTTCCCGTTGGCATCCAGCTTTATCAGGGTGAATTCGCATTCCCCTGGCCGGTCATCTCGGCGGCGCTGGTGGTAGGTATTGTGCCGGTCGCCATCCTGATCGTCATCTTTCAGGAACGGGTTGTCTCCGGCCTCACCGCCGGCGGTCTCAAGGGCTAA	MSTVANSGLSSFFSGKPLRFIAASILLVNGLFPAIWILFTSLKTEAELTVKPITWFPHAPTLANYMQAFSDQPLHLFLFNSFMVALLSTALTILISVLAAYALARLNLKYRALILSLIIAVSTFPLVTLLVPLFEIMRALNLLNSWTALILPYTVLSLPVCTLMLVSFFESIPRDLENAAMIDGCTRIGALFKVVVPLCAPGVFTAGILAFVNAWDEFLLALSFNSNPALRTLPVGIQLYQGEFAFPWPVISAALVVGIVPVAILIVIFQERVVSGLTAGGLKG	PGPT0014155_282	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MALTOSE|TREHALOSE_TRANSPORT,PGPT0014155-thuG|sugB-K10238	NA	NA
BMS010_03800	2046	yihQ	COG1501	Sulfoquinovosidase	ATGCATTTCGAAAAGACCAAAGACGGCTTTGCGCTCACCATCGGCAACCGCACCATACTTTCCCATTCATCCGAAAACCCGGCCTTCTTCGCCGGTTTCGGCAAGGAGAGGATGGATATGTATCGCGGCAATTTCGATATCGAGGACTACCTGATCGAACGAACCGCACTGCGCCATGCCGAGGTCAGCGGCGACAGCATCACGCTCTCATCCGCGCCGGGACAGGCACCGCGCCTTCGCCTGACGCTCGATTGCAGCGCGATGCGGCTAACGGCGCTGGATGACACCGTCAACCGCCTATGGCTGCGCGTCGTTGCGGAAACGGATGAGCACGTCTGGGGCGGCGGCGAGCAGATGTCCTATTTCGACATGCGCGGTCGCCGCTTTCCGCTGTGGACCTCCGAGCCGGGGGTCGGCCGCGACAAGACCACCGAGATCACCTTCAAGTCCGATGTCAGCGGCAAGGCGGGCGGTGATTATTACAATACCAACTACCCGCAGCCGACTTACCTGTCGTCGCGCAGATACGCCCTCCATGTGGAAACAAGCGCCTATTCGGTGTTCGATTTCCGCAACGGCGATTTCCACGAGATCGAAATCTGGGCCATCCCCGAAAAGATCGAATTCGTCGCCGGCGATCATTTCACCGATATCGTTTCCGCCCTGTCGCTGCGGTTCGGACGCCAGCCGGAACTGCCGGAGTGGGTCTATAACGGTGCGATCATCGGGTTAAAGGACGGCGTCAACTCCTTTGCTCGACTGGAGAAAATCCGCGCGGCCGGAACGAAGGTGTCCGGCCTCTGGTGCGAAGACTGGGTGGGTCTTCGCCAGACATCCTTCGGCGCGCGCCTGTTCTGGGACTGGCAGGCGAATGATACGCGTTATCCGCATCTGCGCCAGAAGATCGCCGAGCTTGCCGATCAGGGCATCCGCTTTCTGGGTTATGTGAACCCCTATCTCTGCGTCGATGGCCCGCTGTTCCCGGTGGCTGAAAAAGCCGGCTATTTCGCCACCGACGCCGAGGGCAAGACAGCGCTGGTGGATTTCGGCGAGTTCGATTGCGGCGTGGTCGATTTCACCAATCCGGCCGCTGCCGACTGGTTTGCCGAGGAAATCATCGGCAGGAACATGCTCGATTTCGGCCTCTCCGGCTGGATGGCCGATTTCGGCGAATATCTGCCGATCGACATTACCCTTTCAAACGGCGTCGACGCCAAGCTGATGCACAATGCCTGGCCAACGCTCTGGGCCGAGGTCAACGCCAAGGCCGTCGAAAGTCGCGGCAAGACCGGCGAAGCGCTGTTCTTCATGCGCGCCGGCTTCACCGGTGTGCAGGCCCATTGCCCGCTGATCTGGGGCGGCGACCAGTCTGTCGACTTCTCCCGTCACGACGGTCTGGTCACCGTGATCTGCGGGGCGCTCTCCTCCGGCCTCATGGGCAATGCCTATCACCATTCCGATATTGGCGGTTACACCAGCCTGTTCGGCAATGTCAGAACGGCAGAACTCATCATGCGCTGGACGGAAATGGCCGCCTTCACGCCGGTCATGCGTACCCATGAGGGCAACCGGCCGCGCGACAATCTCCAGATCGATCAGGATGAGGTGGTTCTTGCCCATTTCGCCCGCATGACATCCATCTATGTCGCGCTGGCCCCATATCTGAAATCGCTCTCGGCGGAAGCGGCCAGGACGGGACTGCCGGTGCAGCGTCCGCTCTTTCTTCACTACGAGAATGACCGGCGGACCTATACCATTCAGGACTGCTATCTCTACGGGGCGGACATGCTCGTCGCACCGGTCTGGAAAGCGGGCGAAACGCAACGCTCGCTCTATCTTCCGGGCGACGGTGAATGGGTGCACCTGTGGAGCGGCGCGCAGTATCCCGGCGGACAGGACGTCACCGTCGAAGCGCCGCTGGGCGAGCCGGCGGTGTTTTATCGTGCAGATAGCAGCCATCGGCCGCTGTTTGAACAATTGCGCACCATCGGCTGGAAGATGGCCGAGTTCGCCCCCGCCATCACCCCGTCAGGCGGGGTGATGTGA	MHFEKTKDGFALTIGNRTILSHSSENPAFFAGFGKERMDMYRGNFDIEDYLIERTALRHAEVSGDSITLSSAPGQAPRLRLTLDCSAMRLTALDDTVNRLWLRVVAETDEHVWGGGEQMSYFDMRGRRFPLWTSEPGVGRDKTTEITFKSDVSGKAGGDYYNTNYPQPTYLSSRRYALHVETSAYSVFDFRNGDFHEIEIWAIPEKIEFVAGDHFTDIVSALSLRFGRQPELPEWVYNGAIIGLKDGVNSFARLEKIRAAGTKVSGLWCEDWVGLRQTSFGARLFWDWQANDTRYPHLRQKIAELADQGIRFLGYVNPYLCVDGPLFPVAEKAGYFATDAEGKTALVDFGEFDCGVVDFTNPAAADWFAEEIIGRNMLDFGLSGWMADFGEYLPIDITLSNGVDAKLMHNAWPTLWAEVNAKAVESRGKTGEALFFMRAGFTGVQAHCPLIWGGDQSVDFSRHDGLVTVICGALSSGLMGNAYHHSDIGGYTSLFGNVRTAELIMRWTEMAAFTPVMRTHEGNRPRDNLQIDQDEVVLAHFARMTSIYVALAPYLKSLSAEAARTGLPVQRPLFLHYENDRRTYTIQDCYLYGADMLVAPVWKAGETQRSLYLPGDGEWVHLWSGAQYPGGQDVTVEAPLGEPAVFYRADSSHRPLFEQLRTIGWKMAEFAPAITPSGGVM	PGPT0019385_197	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-SULFOQUINOVOSIDASE,PGPT0019385-yihQ-K15922	NA	NA
BMS010_03801	1290			hypothetical protein	TTGAAGAACATCTGGCAGGATAAATCGGGAAATTTCGGCATTCTCAGCGCCCTGTTGATGGTGCCGCTGATTGGGGCCGCCGGCGTGGCACTCGATGTGACGCATGGCATGGCCGTCAAATCGGACCTGCAGATGGCGGCGGATGCCGCGGCGCTTGCTGTGGTTGCCGATACGTCGGCGAGCGTTCAGAAGGCAAAGGAAATGTCGGGCGACGGTGTCATTTCGCTTGGCAGCAGCGAAGCCTCCGCATTCTTTGAAAGCAATGAGCGGGCCAATCCCGATTATAAGCTCCTGTCTCTTGATGTGTCGGTGATCAAACACGGTAACGCCATCGAATCCTCGGTCAGCTTCAAGGCATCCGTCGGCACCACGCTTTCACGGATACTCGGAGAGGATCTCATCACCATTTCGGGCAAGGCGACGGCCAAATACGAGACGGAAACATTCAGCGACTTCTATGTCCTTCTGGATAACACCCCCTCGATGGGGGTTGGCGCGACGCCAACCGACGTTGCCAAGATGGTTGCGAATACGAGCGACAAATGTGCTTTCGCCTGTCACATCGTGAAAGACGGGGTGGTGGATAAGAACAGCTATTACTACAAAGCCAAAAGCCTCGGGGTCACAACGCGCATCAATGTGGTGGCGCAGGCCACGGCAAGCCTGATGGATACGGCGAAGTCCATGCGCAAAAGCAGCAATCAATATCGTATGGCGGTTTACTCCTTCGGAGAGAAAGCGGAAGATACGAAGCTGCTCGAAGTCGTTCCCTTGACCTCGGATCTGGCGACCGCGAAGAAGAAAGCCGCTGAAGTCGACCTGATGTCGATCCCCAAGCAGGGTTTCAACAACGACCAGCAGACCGATTTTGACCGGGCACTGACCCAGATTGGAGACAGGATCGGCTCTTCGGGCACCGGTGCGAGTTCGGCGAGCCCCGAAAAGATCGTCTTCTTCGTGTCAGATGGCGTCGGCGACAGCTACAAGCCGTCCTCCTGTACCAAAAAAACGACCAGTGGCCGCTGTCAGGAGCCGATCGATATCAAATATTGCACGAAGCTGAAGGAAAAAGGCTTCCGCATAGCCGTGCTTTATACCACCTATCTGCCGCTGCCGACCAATGGCTGGTACAATAGCTGGATCGCGCCATTTCAGCCGGAAATCGGTGCACGCATGCAGCAATGCGCTTCGCCGGGCCTGTTCTTCGAGGTTAGCCCATCGCAGGGCATCAGCGATGCGATGACCGCCCTTTTCAAAAAGGCCATCACATCACCCCGCCTGACGGGGTGA	MKNIWQDKSGNFGILSALLMVPLIGAAGVALDVTHGMAVKSDLQMAADAAALAVVADTSASVQKAKEMSGDGVISLGSSEASAFFESNERANPDYKLLSLDVSVIKHGNAIESSVSFKASVGTTLSRILGEDLITISGKATAKYETETFSDFYVLLDNTPSMGVGATPTDVAKMVANTSDKCAFACHIVKDGVVDKNSYYYKAKSLGVTTRINVVAQATASLMDTAKSMRKSSNQYRMAVYSFGEKAEDTKLLEVVPLTSDLATAKKKAAEVDLMSIPKQGFNNDQQTDFDRALTQIGDRIGSSGTGASSASPEKIVFFVSDGVGDSYKPSSCTKKTTSGRCQEPIDIKYCTKLKEKGFRIAVLYTTYLPLPTNGWYNSWIAPFQPEIGARMQQCASPGLFFEVSPSQGISDAMTALFKKAITSPRLTG				NA	NA	NA	NA	NA
BMS010_03802	1662			hypothetical protein	ATGGCGATTCAGCTTGGTAGCATTTCTTTTGATGAGACAGTCGTAATTAAACAGCTGAAAACCGATTTCAGGGACGATTGGTTTCCTGATCCCATCGGATATAACGATTTTATTTCGGGGGGTCTGCTGCCGGATATTATTTTGGAAAATTTCCAAAAGAACCACGGTACATATAGCCCCGCGCAGGCGCTGTTGCTCAACGTCCCAAAGAGCAATTTTACGCTTAGATATGCCTTGGAAACAAGTTTTACCGATCGCGCAATCTATCATTCCTTGGCAATGCATCTCCTTCCATTTTACGATCGAACGATATCCCAATGGGTTTTCAGCCATAGAGCGAATGGAAGTGTTGCTGGTGATCGAAGCGACTCAAAGTACGTGTTCAGAAACGGAATACAGGCGTGGAATGACTTTCTTGGCTGCGTTCAGTCGGCAATCAAGCCCGGAACGGTCCTTCTTTCTACCGATCTTGCAAATTACTTCGAGAACATCAACCTCAAGAAATTAAAAGAAATAATGTTGGAGTCGGTTCCGACATTGGATGCCGACGCCGGGCAAAAATCGAAGATTCGCCAATATATCGAGCAGTTATTTAGTTGTCTGTCATCTTGGTCGTTCAATATAGAAAGGGGACTACCGCAGAATCGTGACGCGTCGTCATTTCTCGCAAATGTTTATATGCGATCCGTTGATCAAATTATGCTAGAAAAAGGATATACCTATTTTCGGTACATGGACGACATAAAAGTCGTTTGTCAATCTGAGGGTGCCGCCAAGCTCGCCTTGAAAGAATTAATCTTGGCGCTGCGTCCACTTGGACAATTCGTGAACGGCGGAAAGACAAACATCGTCGCCGCAGAAGATGAATGCCGGATACGTGAATGCTTGGATTTGCCGAGCATTGAGATGAAGCGGATAGATTCAGCATGGGCGAGCAAGGCTCTCAACCCCATTTCGCGTTCATTTGTTCCGCTTAAGAAGCTGGCGACTGAAACACTTACAGCTGGAAAATTTCATAGTCGAGAATTTCGCTTCTGCATAAATCGCCTTGAAACGCTGGCGCGATGCAGCGAGTTTAAGGTTCCACCAGCTTACTTCAACGACCTCACACCACTCGTTATCAGTGGCTTAGATGCCGCCCCCGTAGCTACGGACCAGATTTGCAGATACCTCAGAGCGATTGAGCTGAATGCTGGCGACTTCGCCGCGATAGCGGAGCATTTGATCGATGACGCGAAGGGAATTTATAATTGGAAGAATTACCGCCTCTGGGTTCTGATGACACAGAAGGAATTTCGTTCGGACGCTCTAATGGATAGAGCCAGAACCATCATTTCGGACCACGGTGATAATCCAACTCGGGCTGGAGCAACCCTATATTTAGGCGCGTTTGGGACCGTCGAGGATCGTGAACTAATAGCGACTAATTTCCATCAGCTAAAAAGCTTTTTGGGGCAGCGAAATGCAATCATCGCTGTTCAACAACTTCATTTTCGTCCCGCAACCGGCAAGCAAGTAGGTATCAGTACCCACGTTAGCGCTTATCTTAGGGATGATCTAAAAGGAGCATACCGCGCGTTGAATCGGGGCGGTGTTTACGCGGAAAAACTTGAGCCGGTTTCGATCACTCGATATATCGAACAAGAGCGCGACTATGACTGA	MAIQLGSISFDETVVIKQLKTDFRDDWFPDPIGYNDFISGGLLPDIILENFQKNHGTYSPAQALLLNVPKSNFTLRYALETSFTDRAIYHSLAMHLLPFYDRTISQWVFSHRANGSVAGDRSDSKYVFRNGIQAWNDFLGCVQSAIKPGTVLLSTDLANYFENINLKKLKEIMLESVPTLDADAGQKSKIRQYIEQLFSCLSSWSFNIERGLPQNRDASSFLANVYMRSVDQIMLEKGYTYFRYMDDIKVVCQSEGAAKLALKELILALRPLGQFVNGGKTNIVAAEDECRIRECLDLPSIEMKRIDSAWASKALNPISRSFVPLKKLATETLTAGKFHSREFRFCINRLETLARCSEFKVPPAYFNDLTPLVISGLDAAPVATDQICRYLRAIELNAGDFAAIAEHLIDDAKGIYNWKNYRLWVLMTQKEFRSDALMDRARTIISDHGDNPTRAGATLYLGAFGTVEDRELIATNFHQLKSFLGQRNAIIAVQQLHFRPATGKQVGISTHVSAYLRDDLKGAYRALNRGGVYAEKLEPVSITRYIEQERDYD				NA	NA	NA	NA	NA
BMS010_03803	1590			hypothetical protein	ATGACTGAATTCCTGGTTTATTTTCCCGACCCATATGGTGTTGGTGGCTCAAAATATGCCATCGCCACTCCTACAGGCATCGTCCCCGTCGCTGCGCAAAATATATCGAAAGCAATTGATGTTGCAATCACTTACGATGCGATGACGCTCATTGACGACCTGCGGAGAAGTGGCGGGTCGCTACCACGAGTCTTGATAGACATGGGCGAAGCGATACGACTTGTATGCGGGCTCGCTAAATCGGATGGCGGAGAGCAACGGTGGAGTTTCTGGAAACGGGCAAAATCACACTTCGGTTCGCCTAGTGATTGGAGGCGGGCTAAAGCTCTTCATGAAGGACGAGAACTTCATCCGCCTGAAGAGGATTTGATAGCGACGTTTAGATTGGTCGCGAACGCGGTTACCTCGTTGTGGAGAGAAGTCGAAGAACTGCTTATCACCAACGGTGAAGATGCGCGCTTCTACGAGGTTGAAGTCCCTGTCGCACAGATTTTTTATCACCGCCAATTCAAGGGTTTGCTGATCAACAAAGCTCGCATATCCGCCGCATTGGAAGAGGCATCGGTTGCCAAGTACGAGGCGTATAGAGAGGTAGCGACAACTCTCCAAATCAGCGCCACGGGATTAACCTACTGGAATATTGGACAACATCTGCCGAGAACCGATGTTCCTGCAATTGAAGAGCAAATCGAGGGCTATGCCCTCCGCGATCAGCTGAAACTCGCTGTTCACACGTCGACATTCGCCAAATCCTTCACGGAATATCAGGCAGCAAGCAGAGACGTCGCGGTCCTCACGAGGCTCTCGGACGCAGACGAGCGTGTTCACCCGGTATTTCATCCATTCGGCACCATCAGCGGCAGAATCTTGGTATCAGATCCCTACCTCCAAGAAATGAGACGACGTTTTCGGTCAGTCATCGCCTCGAAAGACGAGCACAGTCTAGTATACTTCGACTATTCGCAGTTCGAACCGGGAATAATGGCATCTCTGGCTGAAGATGTTGATCTGATCCGGCTCTACAATACAGGTGATGTTTACAGCGCGCTTAGCACGAGCCTATTTGGTTCGGAAGTTTCACGAGACCTCGCAAAGAAGGTTTTTTTGGCATTTAGCTACGGAATGTCTGCCTCCGGTATCTCATCCTTGGTGGCAGGAAAGAACGCTGATGAAACAAGTCGACTAAAGATTGAGCGGGCAGTCACTGCGTTTTTTGAGCAGTTTCGTGGCGTGAGAAAATTCAAAGCTGACGCGGAGAAAAATTTATCCCGAAACGGCTATGTCAAGAGTGTTCTTGGTAATCACCGTAGGCGTGCTCAAAGAGGAGCATTGAGCCATAAAGAAAAAAGATTGGCATTGAGCCATGCAGTTCAATCAACGGCATCTCTCATATTTAAAAAATCACTGATAGAAATTGATAAAGAATTTGGAATAGACTCGATGTTGCTTCCGATGCACGACGCAATACTCATGCAGTTGGAAAATAACCAAATCGAAGAAGCTTCCAATAGGGTTTCGCGGATAATGGAAGCCGCTTTTGTTGAAATCTGCCCGCAATTGAAAGTTCGCGTAACCAACGGACAATTTTAA	MTEFLVYFPDPYGVGGSKYAIATPTGIVPVAAQNISKAIDVAITYDAMTLIDDLRRSGGSLPRVLIDMGEAIRLVCGLAKSDGGEQRWSFWKRAKSHFGSPSDWRRAKALHEGRELHPPEEDLIATFRLVANAVTSLWREVEELLITNGEDARFYEVEVPVAQIFYHRQFKGLLINKARISAALEEASVAKYEAYREVATTLQISATGLTYWNIGQHLPRTDVPAIEEQIEGYALRDQLKLAVHTSTFAKSFTEYQAASRDVAVLTRLSDADERVHPVFHPFGTISGRILVSDPYLQEMRRRFRSVIASKDEHSLVYFDYSQFEPGIMASLAEDVDLIRLYNTGDVYSALSTSLFGSEVSRDLAKKVFLAFSYGMSASGISSLVAGKNADETSRLKIERAVTAFFEQFRGVRKFKADAEKNLSRNGYVKSVLGNHRRRAQRGALSHKEKRLALSHAVQSTASLIFKKSLIEIDKEFGIDSMLLPMHDAILMQLENNQIEEASNRVSRIMEAAFVEICPQLKVRVTNGQF				NA	NA	NA	NA	NA
BMS010_03804	648			hypothetical protein	ATGAAAGTTGCCTGCTGTTCTCGTAAAGGCGCGACGGTGGATTTTACGGCTGACGCAGGAGCAGGACTGTTGCCCGCGACTGCACCTTTTTCTGATCTATCCGAACCAAAAATTGCGGTGGCAATCACCAATGCTGCGAAACCGCCGACCATGAATTTCAGAGCGCCAAATCGCTTTCGAGTCGCGCCGCACTGCGCGCACGCCTTAGCGCTCACGGAAAGCTGCTTCTGGCAGACCCTGCATGCTGTCCACAAAGTTTTGGATTTCAAGTTATCCCCCAAATGCCTACGACTGGTTGTCCAACGGAAACAATACCATTCCTGCTGTTTTGGCATAATTGGTTCTTATGTATATTTGAAGTCCCCAATTGAAAAGTTGGGGCTTTTTTTGTCGAAATCGCTAAACTCGTCGGAACATGAGCAACTGATCCGTATGATTACGCGTAAGCGGCATGCGGCTGGCTTTACGCAAGAGTTTGTTTCTAACGCCATCGGGCAGCACCAGTCCTACATGGCTAAACTAGAAACGGGTCAACGCCGCCTAGACGTCGTTGAGTACATAGCTATCGCTAAGGTAATTGGGTTTGACCCGGCAGCGGAGCTTCACGTTTTAGCCGCTCAATTTGATTTGAAATCGTTCCGTGGGTAG	MKVACCSRKGATVDFTADAGAGLLPATAPFSDLSEPKIAVAITNAAKPPTMNFRAPNRFRVAPHCAHALALTESCFWQTLHAVHKVLDFKLSPKCLRLVVQRKQYHSCCFGIIGSYVYLKSPIEKLGLFLSKSLNSSEHEQLIRMITRKRHAAGFTQEFVSNAIGQHQSYMAKLETGQRRLDVVEYIAIAKVIGFDPAAELHVLAAQFDLKSFRG				NA	NA	NA	NA	NA
BMS010_03805	354			hypothetical protein	ATGGCGATCTTGAAAGTAGTGGGTGGGCAGCTTCGCGCCGATGGTTGGTCAGGTACGCTTCGCAAGCTGGAAACCAACGGCGACGGCAATGCGGTCGTCGTCGTTCGCGTCGCACCAAACATCGATCTGGCGACATGGAACAACGCGATGTCCGACGTCCTGCATTCGACCCTGATCGAAAAGGGAACTCCGCTTTACGCTGCCCTCGTAAACATGTCGGTTGGCGACAAGGTGAAGGTTTCCGGCAACTTCATCCGCGCTGAAGCGGATGGCTTGTTCGAGCAGAGCATTACCATTCGCGGCGCAATGACCGCTCCAGAATTCCTTTTCAAATTCACTGACATTTCCAAATAG	MAILKVVGGQLRADGWSGTLRKLETNGDGNAVVVVRVAPNIDLATWNNAMSDVLHSTLIEKGTPLYAALVNMSVGDKVKVSGNFIRAEADGLFEQSITIRGAMTAPEFLFKFTDISK				NA	NA	NA	NA	NA
BMS010_03806	333			hypothetical protein	ATGGCGCTTATTAGCTGCCCCGAATGCAATAACAACGTCAGCGACGCGGCATTCAAATGCCCATCTTGCGGTACGCAGCTTCGCAAGCCAAAGCGCGGTTTCTTTGGGAAACTGTTCAAATGGTCCTTCATCGGATTCAACGCCCTGATGCTGTTATGGGTTATTGCAGGCTTCAATGCCGCCACGAAGGATATGGCGTCACTTACAGGTGCGGAACAAGCCGGAGCGGCAATCGGAACCGGTATCGGTATGGCGATGGTGCTGACAGTGTGGGTATTAGGCGCAATCGTCCTTGGAATGTTCGTACTCTTCACCAGACCGAAGGTCGTCTGA	MALISCPECNNNVSDAAFKCPSCGTQLRKPKRGFFGKLFKWSFIGFNALMLLWVIAGFNAATKDMASLTGAEQAGAAIGTGIGMAMVLTVWVLGAIVLGMFVLFTRPKVV				NA	NA	NA	NA	NA
BMS010_03807	1359			hypothetical protein	ATGTTTGCGAAACTCTCTGGCATTTCATTCCTCGCGGTTGTCGCATCAACGATAGCCGCCAATTCTGCGTGTCTGAAGGAAGCAGATGTTCAGCGTCACAACGCGGACTTGAAATCCCATTCGGAAAATGTTGGGCGAAAGGATGGCAGCGTCGTTTCCATCTATCGACAAAAAGGCAGCGCTCGCTTTGTCGAGATCGTTCGTCAAAACCGCTGTATCACGACTATCAAAATCCTGAGCGCTGAGGAGTTGGATCGAAGATACGATCTCATGGCTTCGCTTTGGGATGAGCGCGCCATTGCTCAACAGGAAGCTCTCGACAACGAAGGAATGGATGAAGGCGACGACACTGAAGTAGTCTCGGATTCCGATCTCTCCATCTTGTCGATAGACCGATTTCCTGTATCCGGCATCTACTCTGGTCCAATCAGACTCCCCGATTTCACAGGTAGGGATCGCGACTTCGCCACTTTTCGCACACGCATCTCCAACGGCATGAAGGCTGGGGTTAATTTCTCCGGACAGTACGCGATTACGCAAATCGGCTGCGGGTCGAGTTGTTCGATAGCCTTCGTAAGCGATCTCAAAACAGGTCACCAGTTTCGCTTTCCGTATGGCGGTGAGGAGGCTGGACCTATGACGCTAAAGCACAGTGCGGGCAGTCGGCTTCTGATTGCGACATGGCGTGATGGCGATCAATGCGTACTTGGCTCAATGATCTTCAATGCCGGAACCTGGGACTCGTTGGCAAAGCATCCAATTGGCGATTCAGACGCCTGCTATGAAGACATTGATGCCAACATCAGCGCTTTTAAAAGCAAGCGAGAAATGAGCGGCGCAAATGAAGTTCCCGCTTCAGGAAACAAAAGCGCTAACGCCGATCACGCTAAAGCGCAGACAGATCAGCAACGGTCCCCCAATGTCTCACCGAGCGCGGGAATGACCGAATACGACAACATCAATGTCGCGGCGTTGCTGGACCTTTACGAAGCCCACGATTTGCTCCTTGCGTGCTTCAAAGCCAGAGAAAATCAGTTCCCGGCTTATTTGTCGCGACAAGAGATGGATAAAGCCGAGGCGAATTTCCTGAGAGATGAAGCGGAAATTTTAAAGCGCGATCCAAGGATTGATAAACAAGCCGTTTCTCGAAGAGTGAACGAGTTGAACACATTGTTTACGATGGCTGTCGTTCTGACGGGGATGAAAGAAATGAACTACGAACATTGGAAGGCGTGCCGAAAGCTGGCTTCGAATTTTCCGCCGGGTATCGAAAACGCGAGATTGAAAAAACGGGAAGTCATTGGAAAGAAAAAATCGGCTGGCGGGCTGATAGTGCCGCAGGACCCGCGCTTCAGATAA	MFAKLSGISFLAVVASTIAANSACLKEADVQRHNADLKSHSENVGRKDGSVVSIYRQKGSARFVEIVRQNRCITTIKILSAEELDRRYDLMASLWDERAIAQQEALDNEGMDEGDDTEVVSDSDLSILSIDRFPVSGIYSGPIRLPDFTGRDRDFATFRTRISNGMKAGVNFSGQYAITQIGCGSSCSIAFVSDLKTGHQFRFPYGGEEAGPMTLKHSAGSRLLIATWRDGDQCVLGSMIFNAGTWDSLAKHPIGDSDACYEDIDANISAFKSKREMSGANEVPASGNKSANADHAKAQTDQQRSPNVSPSAGMTEYDNINVAALLDLYEAHDLLLACFKARENQFPAYLSRQEMDKAEANFLRDEAEILKRDPRIDKQAVSRRVNELNTLFTMAVVLTGMKEMNYEHWKACRKLASNFPPGIENARLKKREVIGKKKSAGGLIVPQDPRFR				NA	NA	NA	NA	NA
BMS010_03808	741			hypothetical protein	ATGAATAACAATAATATTGAAGAATGGGTATTATCGAATTTTATGCGAAAGGCATGGTTCGATATATCTCAATCAGACGAAGAAAATGTATCACAGGCAAATGATTACATCATAAAAAATGCTTTCCTAATAACTGTCCAGATTAGGAATACCGGAGTCAGCCATGACATCACCGACGCGCAGCGGAGGCTCGATAGAGCATTTGGACAATATCACGCTTCACAGCTCAGACGGCACTGCTTCACTAGCGGCAAGGTAACGCGTAGAAATAAGAAGTTTCAGCCCATGGCTTTTCTTGCTTTTGATATTGAAGGTAGTCGGCAAAACGGCTTTCACACGAATACAATCTATCCCCATGGTCACGGCGCGGTTTTATTTCACGAGAAAACACTTAATAACTTCGCAGACCGTCATCATCGATTTCTTACGCCGGACGGCGGCTACAAAATCCCCAATCCAACAGCGAGTATTTCACTCGTTGACTTCAAGCCGGTAAACAGCGTTGACGATCTTCGTTCTTATCTAAGATATTCACTTAAAATCGAAAATCATCTTACCAGCAACCAAACGAATTACGCCCCGTATGACTTCTATCCCGGTTCGTCGGTTGATTTCCCATTCTGGAATCGTTTTCACGACAAAAACGGTTGGGATGCTCAGTCAGATGTCAGCGATTTGCCCCCTGATTTTGCTTTTCACAACGCTGTCACCGCCGACGCGACGGCAGAACTTGGAAACTGA	MNNNNIEEWVLSNFMRKAWFDISQSDEENVSQANDYIIKNAFLITVQIRNTGVSHDITDAQRRLDRAFGQYHASQLRRHCFTSGKVTRRNKKFQPMAFLAFDIEGSRQNGFHTNTIYPHGHGAVLFHEKTLNNFADRHHRFLTPDGGYKIPNPTASISLVDFKPVNSVDDLRSYLRYSLKIENHLTSNQTNYAPYDFYPGSSVDFPFWNRFHDKNGWDAQSDVSDLPPDFAFHNAVTADATAELGN				NA	NA	NA	NA	NA
BMS010_03809	552	bin3_2		Putative transposon Tn552 DNA-invertase bin3	ATGTCAGTCATATACGGATATGCAAGGGTGTCGTCGGTCGATCAGGACCTGACCCTTCAGGAAGAAGCCCTTCGATCAGCAGGGGCAACGTTCATTCTGAAGGAGAAGAAGAGCGGCACCACCACTGAAGGCAGGGAAGAGCTTGCCAGACTGCTCGATTTCGTTCGGGAAGGTGACATCATCATCATTACCCGCATTGACCGTCTAGCCCGATCGATAGCCGACTTATCCGTCATCGTGGACCGCCTGAAAGCCAAAGGCGTTTCACTTAAGGCAACGGAACAACCCATCGACACCGGCACTCCAGCCGGAAAAGCCTTTCTCCAGATGCTCGGTGTATTCGCTGAGTTCGAAACAGCTATTCGGAAAGAACGCCAACTGGAGGGAATTGCCAAGGCAAAGAAGGAAGGCGTGTATAAGGGCAGGAAAGCCACTGTTGATGGCGCTAGGATCAATGAGCTAGTGGTGGCTGGTAGAGGTCCAACTGAGATAGCCAGGACACTGGGGATCGGTAGAGCGACTGTCTACCGATATCTTGAAGCGAAACGATGA	MSVIYGYARVSSVDQDLTLQEEALRSAGATFILKEKKSGTTTEGREELARLLDFVREGDIIIITRIDRLARSIADLSVIVDRLKAKGVSLKATEQPIDTGTPAGKAFLQMLGVFAEFETAIRKERQLEGIAKAKKEGVYKGRKATVDGARINELVVAGRGPTEIARTLGIGRATVYRYLEAKR				NA	NA	NA	NA	NA
BMS010_03810	783			hypothetical protein	ATGAAATTAAAATCCGAAAAGCCCACGACTGACGAATCTGCTCAACCGAAAGCCCTGCCCTTTTGCGGCATTATCATGCCCATTGCCGATATGGTAGGGTATGAACCCGGTCACTGGGCTCGCGTCCGAGTCGCATTAGATGAAGCCATTAAAAAAGCTGACTATTTGCCACGCATAGTGAGTGAGAGCGAAGAGACTGGCGTTATCCACGGCAGGATCGTCCAAAATCTCTATGACGATCCAATTGTTGTTTGCGATGTGTCAGGAAGAAATCCCAACGTCATGTTCGAGTTGGGAATGCGACTAGCTTTCGACAAGCCTACAATTATCATCAAAGATCACAAAACAGATTATTCGTTCGATACATCAACCATCGAACACATCAATTACCGCGCCGATCTGCGTTTTGATGATGTACGCGAATTTCAAGAAAGGCTCGCTGCGGCTATTATTGCTAGTGTCGAGAAGAAGAAAGCTGATCCAGATTACTCACCGTTCCTTAAGCATTTCCATCGCGTGAAAGTCACTGAACTTCAGACTGAGGAAGTGGGGTCGCAACGGTACCTCATTGAACAAATGCAAAGCGTACAGAAAGAACTTGTGCGGCTTTCAAACCGAGTCAATGAGATGAATGAACCAAGGAGACCGACGACGCTTAGTCCTACTGACAGATGGAAGGTTGCGAGGTCGCAAGCTGATTTTCTAGCAGGAGGGAATATAGTGGCGATGCCCGAAGTTGAAATAGTAGGTTCGCGGAAGTCTGAGGTGGCTGATCAGGAATGA	MKLKSEKPTTDESAQPKALPFCGIIMPIADMVGYEPGHWARVRVALDEAIKKADYLPRIVSESEETGVIHGRIVQNLYDDPIVVCDVSGRNPNVMFELGMRLAFDKPTIIIKDHKTDYSFDTSTIEHINYRADLRFDDVREFQERLAAAIIASVEKKKADPDYSPFLKHFHRVKVTELQTEEVGSQRYLIEQMQSVQKELVRLSNRVNEMNEPRRPTTLSPTDRWKVARSQADFLAGGNIVAMPEVEIVGSRKSEVADQE				NA	NA	NA	NA	NA
BMS010_03811	729			hypothetical protein	ATGGGCAAATGGCACAATATTAACTGGCTGTTTGTCGCGGGCTTAGCAACGCTTGCTTACGCACTTATAGTCCTGCGTTGGGTAGGATTAGATCGAATTTTTATCTACCCAACAAATAGCTCCTTGAACGAAGTCGGTGATTTTATCGCTGGCTTTTTCGCTCCGCTGGCAGTCATTTGGTTGATCTGTGCCGTATTCACCCAGAGACAGGAACTTGTTGATACGCGAGATCAATTCAAAAAAAACCAAGAAGCTATTAATGCGCAGATGGCAGAAATTAGGGAACAGAGTGCCTTTCTGCTGAAGCAACACACACTGACGGAAGACACCGCTAAGAGGACGTACCGGTTAAGCCTATTTGAACGACGCTTCGCAATCTATTTGGAGATAATCGAACTACAATCTCAAATGGTTCAGCGAGGGATCGTCGGTGATTTTCACCTCCAGCTATTTAGTCTCTCCGAGAAAGCAAGTTTTGTATTCGGTAAAAAAACCTACGAATACCTTCGAGAATCCTACATTCAGTGCTTGGAACTCCACGATTTTATAGGTCGACACCGCGAGGCGTTCGAAAACCAACCTAGCTACACGGTTCGATTGTCATCAGATCCCGCAAATATGGAGCTAATAAACAAGGCAGAATCTATCAAGGCTCACATCACGGGCTTGCTTGAGCAAGAAACGCTTAGAAACGTTATGTGGGATGAGCTTCATGTAAGCGATACATGA	MGKWHNINWLFVAGLATLAYALIVLRWVGLDRIFIYPTNSSLNEVGDFIAGFFAPLAVIWLICAVFTQRQELVDTRDQFKKNQEAINAQMAEIREQSAFLLKQHTLTEDTAKRTYRLSLFERRFAIYLEIIELQSQMVQRGIVGDFHLQLFSLSEKASFVFGKKTYEYLRESYIQCLELHDFIGRHREAFENQPSYTVRLSSDPANMELINKAESIKAHITGLLEQETLRNVMWDELHVSDT				NA	NA	NA	NA	NA
BMS010_03812	960			hypothetical protein	ATGAAGAAAATCAAGCAGAATTCGCTCTTTAAGCTTGATAATTTCCGCGTCAAGCAGGGCATCTCTCCAATCTACCAGTGTATCCTTGATCGCCACTCGGAGGAACCTCAGCAAATTGACGTGCGCATGGAGGCGATGTCAGAAATACATAGAGCAATCGATCTGGCAGGGTCGATTGATGAATTTATTAATCGCCACTATTATGATCCTCTGATTGCAGAAGTCGGAAAATTACAAATCGCCTACGCGATCAGCCAAGCTGAACGGCTCAGCGATTTGTCGGATGCTCCCCGCTCCTCACAGATCATTCGCGTTGCACCCAATCTTTCCAATACTTGGATAAAAATCTTCGCACAGATGCTTTTCGACGGTGTACGAAACGATGAAGTGGAAACACTTGGGGAGAACATATCGATTATTTGTTTTAACTATGACCGTTGCATCCAACACTATCTGACCAATGCTATAGCTCAAACGTTTAGAGGTATTTCTAAGACGCAGGCACTGGATATTGTTCAGAGAATAAGAATAATCCACCCATACGGTAGTCTGGGAAGCCTGAAAGATCATCCGTTCGGCAGTGAAGCTACACCGGAAAGAGTTCGGGCAATGAGTGAAAACATCGTCACTTGGTCCGAGTCTCAACGAAGCGATAAATCATCTAAAATTCAGTATGCTATGGAAAACGCTTCAACAGTCGTCTTTCTAGGTTTCGCCTTTGCTCCACAAAACATGAAGCTTTTAACTATTCCAAAAACGTTTGATGATCCAGAACAAGACGTTGAGACATTCGCGACAGCTTACGGCTACAATCAAGTGATCGATGACCGCCTCAAGACGAAAATCCTTGACCTATTCTCACCAAACGATTTCACCATCAACTCGCTGCGAGTGCATATTCAGTACGATATGAAATGTGCTGATTTTCTAAGGGCGCACAGCATGGCGTTGGTCGTATGA	MKKIKQNSLFKLDNFRVKQGISPIYQCILDRHSEEPQQIDVRMEAMSEIHRAIDLAGSIDEFINRHYYDPLIAEVGKLQIAYAISQAERLSDLSDAPRSSQIIRVAPNLSNTWIKIFAQMLFDGVRNDEVETLGENISIICFNYDRCIQHYLTNAIAQTFRGISKTQALDIVQRIRIIHPYGSLGSLKDHPFGSEATPERVRAMSENIVTWSESQRSDKSSKIQYAMENASTVVFLGFAFAPQNMKLLTIPKTFDDPEQDVETFATAYGYNQVIDDRLKTKILDLFSPNDFTINSLRVHIQYDMKCADFLRAHSMALVV				NA	NA	NA	NA	NA
BMS010_03813	177			hypothetical protein	ATGCCCAAGATCACCATAAAATTCCTAGGACTGGAGATTTCCGCCCATGGGGTGTTGTCAGTTGTGCTGGCGTCGGTCATCGCGCTGACTGCATTGGCAGTATTCTGCGCATATCTCGAAAAGCGCGACCTTCCCCGTGAAAATAGTATTGCAAGCCAAACTCAACGCATGATTTAG	MPKITIKFLGLEISAHGVLSVVLASVIALTALAVFCAYLEKRDLPRENSIASQTQRMI				NA	NA	NA	NA	NA
BMS010_03814	123			hypothetical protein	ATGGATCAGCAACTGTCAGTCAAATTTCTGTTCTTCGAAGCCAGTGCGTCTGGTCTCGTTGCTGTAATTCTCATTTTCATTCTTGCGCTCTTGGCTATGGGAATCGCGGCGCGCAGGAGGTGA	MDQQLSVKFLFFEASASGLVAVILIFILALLAMGIAARRR				NA	NA	NA	NA	NA
BMS010_03815	1326			hypothetical protein	ATGATTACGCAAAATTACATTCATAAACGGCAGAACGGTTATTATTATTTCTGCGTCAACGTCCCAACGCGATTGCTATCGTCCACGACGAAACGGCAAATTCGTCGTCCTTTGAGGACCAGAGATTTAGCGACGGCGAAGAAGCGGGTGGCGGCTCACGTTGCTGAAATCCTGCCGCTCTTCGATGAGGATCGTCTGCCCGATGAAGCTCATATTGAGTACAAGCGTGTCAAAGCAGCCGCTGAAAAGCTGAGTGCAAAGTATGAGCCATATACGGCGGTTTCCGAGCAAACCGTCGATCAGTTGATAGAGCGTATCAATGAAATCGTTGATGTCCGCGCTGTCATGCCGACGCCAAATGTTGTGCAGACCGCTGCTTTAGTCGGCGCACTGGAGACGCCGCCGCTTTCTTGGGCAGAGGCATTCGAAAAATTCAAAGCTCTCTCTTCGGAGAAGGTGAAGGGCAAGAACGAGCTTCAGACGAAGCGTTTCTGGCGGCGTTACGAAGTTAAGACCGAAGATTACATCGCGGCGATGGGTGACACTGACGTGTTGAAGATCACCAAGAACGATGTGAAAAAGTACCGCAAAATTCTGAAGGAAAAGATCGATTCCGGCGAGTTTCTAAGCAACGAAGCTAATAAGAAGATTAGCTGGCTCGGCGTGATCTTAGAGACCGTCTTTGATGAGGAATACGAAGGGAAGGAAAATCCTTTCGCGGACATCAGGATTTCTGGCTACGAAGACGATGGTAAACGAGCGCCGCTCACCGCTGCGGAGATAGCAGCAGTTACGGAAGGCTTGAAGACATCAGGGGCACGAGCTGAAATCAAAGCTCTTATCCGCATTGGGATGTGTACAGGTGCGAACGCGAAGGAACTGGCGCTTCTAACCCCCGCCGATATCCATCTGGATGCGTCTGATCCATACATTTCCATTCGCCCCAATGAACTTCGCGGCAAGGTCAAGCGGGGAGGGGCGCGTCATAGAGATGTCCCGCTAATTGGTGATGCGCTTGCCGCCATGCGTGAATTCCCCAACGGCTTTACCATTTTCCATACGAATGAAGGACCAACTCAGGTCAACTGTGCGATGTCCGACTATTTCAGGAAGATCACGCCGGAAAAGGGGAAGGGCTTCGGCAGCTTCCGCCACAACATGGCTGATTGGCTTCGCAGGAGCGGGGCGAATGACACCCTCAAGGATTCAATTCTCGGGCACACCAACACCAAATCTCATTCGATGCACTACGGCGATGGATACGACATTGAGAACAAAAAGGAGGCACTGGAAAAAGCTCTTCAATACGCAAAGCTACCAATCTAA	MITQNYIHKRQNGYYYFCVNVPTRLLSSTTKRQIRRPLRTRDLATAKKRVAAHVAEILPLFDEDRLPDEAHIEYKRVKAAAEKLSAKYEPYTAVSEQTVDQLIERINEIVDVRAVMPTPNVVQTAALVGALETPPLSWAEAFEKFKALSSEKVKGKNELQTKRFWRRYEVKTEDYIAAMGDTDVLKITKNDVKKYRKILKEKIDSGEFLSNEANKKISWLGVILETVFDEEYEGKENPFADIRISGYEDDGKRAPLTAAEIAAVTEGLKTSGARAEIKALIRIGMCTGANAKELALLTPADIHLDASDPYISIRPNELRGKVKRGGARHRDVPLIGDALAAMREFPNGFTIFHTNEGPTQVNCAMSDYFRKITPEKGKGFGSFRHNMADWLRRSGANDTLKDSILGHTNTKSHSMHYGDGYDIENKKEALEKALQYAKLPI				NA	NA	NA	NA	NA
BMS010_03816	111			hypothetical protein	ATGAGTTTTGAATTCTCCTATGAAATCAACCTCTTCCGAGGGGTGTGCTACGGCACTGAGACGGTATTGCGCCGAACCCTTATCTACCTGATCCGGGTCATGCCGGCGTAG	MSFEFSYEINLFRGVCYGTETVLRRTLIYLIRVMPA				NA	NA	NA	NA	NA
BMS010_03818	786	ribX_4		Riboflavin transport system permease protein RibX	ATGCGTGCCACCCATGCGCTGAACGGTGTCGGTCTTCTGCTGGTTTTCTGGCAGACGGGAACGTGGCTGTTTTCACCGCCCCGCTACATCCTGCCATCGCCCGCCGATGTTGCCGGCGCTTTCTGGCGCCAGCCGGGCTTCCTGTTCGGGCAGGCGCTGATAACGCTCGGTGAAATGGCGCTCGGGCTTGCGGCGGGCATCACCGCCGGTATTCTCGTCGCTTTCACGATTGCCGCCATCCCGCGCCTCGGCCGCCTCGTCTGGCCCATGGTTCTGGTGTTGCAGGCCTTTCCGGTCTTCGTGCTCGCCCCCATCCTCGTCCTCTGGTTCGGTTTCGGCATGGCTTCGAAAGTGGTCATGACGGCGATCATCATCTTCTTCCCCGTTGCCTCCGCTTTCACTGACGGGCTCAACCGCACCGATCGCGCCATCCTCGACGCCGCCTCGCTGACTGAGGCGAGCCACTGGCAGATCCTCACCCGGTTGCGTGTACCGCTGGCGCTGCCATCGTTGATTTCGGGCCTGAGGGTGGCCGCGCCGCTTGCCCCGCTCGGCGCCGTCATCGGCGAATGGGTGGGCGCATCGGCGGGGCTTGGGTTCGTGATGATCCAGTCCAATGCCCGCATGCAGACCGACACCATGTTCGCCGCCATGGCCATTCTCGCCATCATGGCGGTGCTGCTGCGGCTCATTGTCGACCGGGCGACCGCCAATCTGGCCCCCTGGGCCAAGGAAACAGAACACACCATTCCTTTCAGATCTTTACGGAGACTTTCGGCACCATGA	MRATHALNGVGLLLVFWQTGTWLFSPPRYILPSPADVAGAFWRQPGFLFGQALITLGEMALGLAAGITAGILVAFTIAAIPRLGRLVWPMVLVLQAFPVFVLAPILVLWFGFGMASKVVMTAIIIFFPVASAFTDGLNRTDRAILDAASLTEASHWQILTRLRVPLALPSLISGLRVAAPLAPLGAVIGEWVGASAGLGFVMIQSNARMQTDTMFAAMAILAIMAVLLRLIVDRATANLAPWAKETEHTIPFRSLRRLSAP	PGPT0001145_7297	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050	NA	NA
BMS010_03819	951		COG0715	Putative thiamine biosynthesis protein	ATGAAACGAACTCTTCTTTCCCTCGTCGTCGCGGCAGCAAGCGTGCTTTCACCCATGCAATCGCATGCGGCAGACAAGCTGACCGTGTTGCTCGAATGGTTCGTGAACCCCGATCATGCGCCGATGGTGATCGCCAGGGAACGCGGCCTGTTTGCCGATGCGGGGCTAGAGGTGGAACTGGTTCCACCCGCAGACCCCTCCGCCGTGCCGCGTCTTGTCTCGGCCAAACAGGCCGATATAGGCGTGCACTACCAGCCGAACCTCTATCTCGATCACGATGCCGGCCTGCCGCTCGTGCGTTTCGGCACGCTGGTCGAAACCCCGCTCAACACCGTCACCGTTCTGGCCGATGGGCCGATCAAGAGCTTGAAAGACCTGAAGGGCAAGAAGGTCGGCTTTTCCGTTTCCGGCTTCGAGGATGCCATGCTGAAGCGCATGCTGGAAAAGGACGGCCTGACGAAGGATGATGTCGAACTTATCAACATCAACTTCTCGCTCTCGCCGTCGCTGATCGCCGGCAAGGTGGACGCCACGCTTGGCGGCTTCCGCAATTTCGAGCTGACGCAGATGAAGCTCGAGGGACATGAAGGCCGCTCCTTCTTCCCGGAGGAACACGGCGTGCCGGCCTATGACGAGCTGATCTTCGTCACCCACCGCGATCTCGCAAAAGACAACCGCCTGCCGCGTTTCCTCTCCGCCGTGGAACAGGCCGCGATCTTCATTACCAACCATCCGCAGGAATCCTGGCAGCTTTTCATCAAGGCCTATCCGAACCTTGACGATGCGCTGAACAAGCAGGCCTTCTTCGCCACGCTGCCGCGTTTCGCCAAACGCCCGGCCGCGCTCGACCGCGCGCGCTATGCCCGTTTCGGCGCTTTCATGCAGGAAATGCAACTGATCAAGCAGGCGCCGGCGGCAGACGACATCGCCGTGGAGCTGCAGCAGCCATGA	MKRTLLSLVVAAASVLSPMQSHAADKLTVLLEWFVNPDHAPMVIARERGLFADAGLEVELVPPADPSAVPRLVSAKQADIGVHYQPNLYLDHDAGLPLVRFGTLVETPLNTVTVLADGPIKSLKDLKGKKVGFSVSGFEDAMLKRMLEKDGLTKDDVELININFSLSPSLIAGKVDATLGGFRNFELTQMKLEGHEGRSFFPEEHGVPAYDELIFVTHRDLAKDNRLPRFLSAVEQAAIFITNHPQESWQLFIKAYPNLDDALNKQAFFATLPRFAKRPAALDRARYARFGAFMQEMQLIKQAPAADDIAVELQQP				NA	NA	NA	NA	NA
BMS010_03820	741	thiM	COG2145	Hydroxyethylthiazole kinase	ATGACCACGACTTTTCCGACAGCGGCAAAGGCCGCCGAGATTCTGGAGCGCGTGCGGCAGACGCGCCCGCGCGTGCATTGCCTGATGAACACGGTGGTGCAGAAATTCACCGCAGACGGCATCACCGTGGTCGGCGGCATCCCCTCCATGACCACCTCGCTCGAGGAGATCGAGAGTTTTGTCACCAAGGCGGATGCGCTGACCGTCAATCTCGGCACGCTGGACGCCGAGCGGCGAAAGGTCATCCGGCTGGCGATCGAAATCGCCAATGCATCCGGCAAGCCATGGATCGTCGACCCCGTGCATTGCGACTATTCGCCGTCACGGCTGGCTTTCGCGCGCGAACTCATCGCACTTTCCCCGATGATCGTGCGTGGCAATCGCGCCGAAATGAGCTTGATCGGCGATGTGCCTGGCGTGGTGAGGATTGAGACGGGGCCGGTCGATCATCTGCGCGATGCCGCCCGCAGCGTCAGGATCGTCAACGGTCATCCGTGGATGGCGAAGGTGACGGGAACGGGGTGCCTTTCGGGCGGCGTCATCGCCGCCTTCATGGCTGTCGAAAAAGACGCGCTGACGGCGGCGGCCTCCGCCCTTGCCGTCACCGGCGTTTCCGCCGAACTTGCGGCCAAGCACGCCAGAGGCCCCGGCAGCTTCGAACCGGCATTTTTGGATGCGCTTTCCGAAATTTCCGGTGAAGACATCACAAATCACGCAAGGATAGAGCATGAACAAGGTTGA	MTTTFPTAAKAAEILERVRQTRPRVHCLMNTVVQKFTADGITVVGGIPSMTTSLEEIESFVTKADALTVNLGTLDAERRKVIRLAIEIANASGKPWIVDPVHCDYSPSRLAFARELIALSPMIVRGNRAEMSLIGDVPGVVRIETGPVDHLRDAARSVRIVNGHPWMAKVTGTGCLSGGVIAAFMAVEKDALTAAASALAVTGVSAELAAKHARGPGSFEPAFLDALSEISGEDITNHARIEHEQG	PGPT0008990_2078	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0008990-thiM-K00878	NA	NA
BMS010_03821	663	thiE_2	COG0352	Thiamine-phosphate synthase	ATGAACAAGGTTGATTACCGCCTCAACGCGCTGGTCGATGCGAGCCTTGGCGATGTCGCGCCGCTGCCGGAGCTTGCTCTCGCCGCTGCGCTGAACGGCGCGACCATTCTGCAATATCGCGACAAGCACGGCTCGACGCGCGAGATGATCGAAAACGCCCGCGCCATTCACGAGGCTATCGCCGGCACAGGCGTGCCGCTGGTCATCAACGACCGGGTGGATGTAGCCCTAGCCTCGGGCGCGGACGGAGTGCATCTCGGCGCCGACGATATGGACGCCAAAACCGCAAGGCGCATTCTCGGCGAAAAGGCGATCATCGGCCTCACCGTCAAGAACCGCCCCGATGCCGAACGGGCAGCTTCCATGCCCGCCGACTATGCCTGTATTGGCGGCGTCTTTGAGACCGTTTCCAAGATCAATCCGGACAAGCCGGTCGGTATCGACGGTTTTACCACGCTGCGCGCCCTGCTGAAGGAGTGGAAACCGGATATGCCGGTCGGCGCTATCGCCGGCATCGATCTTGCCCGTGTGCCACCCGTCATTGCCGCCGGCGCGGATGGTGTCGCGGTCATTTCCGCCATTTTCCGCGCGGGCGATATTGCCAGTGCGACCAAGGACTTCCGCTCCAAGATTGACGCGGCGCTGAAAGCGAGACAGCCATGA	MNKVDYRLNALVDASLGDVAPLPELALAAALNGATILQYRDKHGSTREMIENARAIHEAIAGTGVPLVINDRVDVALASGADGVHLGADDMDAKTARRILGEKAIIGLTVKNRPDAERAASMPADYACIGGVFETVSKINPDKPVGIDGFTTLRALLKEWKPDMPVGAIAGIDLARVPPVIAAGADGVAVISAIFRAGDIASATKDFRSKIDAALKARQP	PGPT0008995_1433	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0008995-thiE-K00788	NA	NA
BMS010_03822	798	thiD_1	COG0351	Hydroxymethylpyrimidine/phosphomethylpyrimidine kinase	ATGACAGCCATTGCATTGACCATTGCCGGCTCCGACAGCGGCGGCGGCGCGGGAATCCAGGCGGATATCAAGACCTTCTCCGCGCTCGGCGCCTACGCCGCAAGCGTCATCACCGCCATCACCGCCCAGAACACCAAAGGCGTAACGGCGGTTGAGGATATTTCGGTCGCCACCATTATCGCGCAAATGGATGCGGTATTCTCCGATCTCGCCGTCAATGCGGTGAAGATCGGCATGGTCTCGCGGATTGAAACCATCGCCGCCATCGCGGAACGGCTTCGGCGGCAATCGCAGCCGGTGGTGCTGGACCCGGTAATGGTAGCGACCTCCGGTGACAGGCTGCTGCATGAAGACGCCATCGAGACGTTGCGGCGCGACTTGCTTCCGCTCGCGACCATCGTTACGCCGAACCTGCCGGAAGCGGCGCTGCTGACCGGGTCTTCGATGGCGAAGACGGAGACGGAGATCGCCCGCCAGGCCGAGGCGATCCTGAAGGCGGGCGCGAAAGCCGTGCTCATCAAAGGCGGCCATGGTGATGGGCCGGAGAGCACGGATTATCTGTTTGCGGATGGCGCCATGCAGGCGCTTTCCGCGCCGAGGGTGGGGACGAAGAACGACCACGGCACCGGCTGCACATTGGCGGCGGCGATTACGGCTCATCTTGCAAAGGGTCGTGAGTTGCGGGAGGCGGTGGGGCTTGCGAAGGATTATCTGAATGGGGCGCTCGATGCCGGGCGGGGTCTTGCTGTTGGGCATGGGCGGGGGCCGGTGCATCATTTTTATCGGTGGTGGGGGTGA	MTAIALTIAGSDSGGGAGIQADIKTFSALGAYAASVITAITAQNTKGVTAVEDISVATIIAQMDAVFSDLAVNAVKIGMVSRIETIAAIAERLRRQSQPVVLDPVMVATSGDRLLHEDAIETLRRDLLPLATIVTPNLPEAALLTGSSMAKTETEIARQAEAILKAGAKAVLIKGGHGDGPESTDYLFADGAMQALSAPRVGTKNDHGTGCTLAAAITAHLAKGRELREAVGLAKDYLNGALDAGRGLAVGHGRGPVHHFYRWWG	PGPT0008915_3536	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0008915-thiD-K00941	NA	NA
BMS010_03823	459	lrp_6	COG1522	Leucine-responsive regulatory protein	ATGTCGTCACTCGATGCGACCGACCGCCACATCATCCGCCTGCTTCGGCTCAATGCCCGCATCAGCAATGCGAAACTGGCAGCAGAAGTCGGGCTTTCCGCATCCGCCTGCCTTCGCCGGGTCGATATTCTCGAGCGGGAAGGGATTATCCGCGGATATACGGCGCTGACCAGCGGTCTTGCCGGCGGCGAGGTGATTTCGGTTATCGTCCAGATCACGCTCGACCGCCAGACGGAGGATTTTCTCAACCGTTTCGAAAATGCGGTGCGGCGCTATCCGGAAATCCGCGAATGTTATCTGATGACGGGCGGTTCGGATTATTTCCTGCGCTGCGAGGCGGAAAGTGCTGGGGATTTCGAGCGAATTCACAAGGAAATTCTGTCGAAGTTGCCTGGGGTTTCGCGCATTCATTCGAGTTTTGCGATCCGGAATGTGTTGGCGACGCCGAAGGCGCGGTAG	MSSLDATDRHIIRLLRLNARISNAKLAAEVGLSASACLRRVDILEREGIIRGYTALTSGLAGGEVISVIVQITLDRQTEDFLNRFENAVRRYPEIRECYLMTGGSDYFLRCEAESAGDFERIHKEILSKLPGVSRIHSSFAIRNVLATPKAR				NA	NA	NA	NA	NA
BMS010_03824	1167	alr_2		Alanine racemase	ATGGACATGCAGATCAGCCGCCAGCAGGCCGCCGGTGGTGCAAGCGGTCATCTGACCATCGATCTCGGCGCATTGCGCGACAATTATCTGACCCTTGCGGCCATGGCGCCCGCATCTCAGACGGCAGCGGTGGTCAAGGCGGATGCATATGGTCTCGGCGCGGATGTCGTCTCGCAGGTCCTGTTCGAGGCGGGTTGCCGCAACTTCTTCGTTGCCCATGTCGATGAAGCGCTGGCGTTGCGGCTGCGGCTTTCGGCAGAAGCGCGGATTTTTGTTCTCAACGGTCTTCAGCCCGGCAACGAGACCTCCTGCGCCGCCATGGCCATCACCCCGGTTCTGAATTCGCTGGAGCAGATCGCCCAATGGTCGGCCCACGCCAAAAAGCTTGGCAAGACGCTCACCGCCGCCGTGCAGATCGATACCGGCATGTGCCGTCTCGGCATCTCTCCCGAAGAGCTTGAAATCCTAGCCTCCCGGCCGCAATTGCTGGATGGTATCGACATCGCCTTCGTCATGAGCCACCTCGCCTGCGCCGACGAACCGGACCATGCCTCCAATGCCGCGCAGCTTGCGGTGATGCGCAAAGCCGCCATTGCCTTTCCCGCAGCGCCCGTCTGCTTTTCGAATTCCGGCGGCATCTTTCTGGGCAATGACTATCACAATCACCTGCTGCGGCCCGGCATCGCGCTTTATGGCGGCGCGCCGTCCGTTACACGCCCCAACCCGATGAAGCCGGTCGTTCGCCTCGATCTGGCCGTCATCCAGACCCGCACCGTTTCCGCCGGTTCGCTGGTCGGTTACGGCGGCTCGTTCGAAGCGGCCGGGCCCACGCGTCTGGCAACCATCGCCGCCGGATACGCTGACGGCCTGCCGCGTTCGCTCAGCAATCGCGGCGCGGCGTGGTATAACGGCGTGCGTCTGCCGATTGCGGGACGCGTTTCCATGGACAGCATCATTCTCGACATATCCGCCCTGCCCGAGGGAACATTGACCCAGGGCGGCCTTGTGCAGATGATCGGTCCGGACCAGACGCTGGAAGACATCGCCGAGGATGCGGGCACGATCGCCTATGAAATCCTGACCGGCCTCGGACGCCGCTATCGACGCCTTTATATTCAGCCGGGAGAAACCCCGGCAGCCGCTTCAACATCAGTCAATCACAAGTGA	MDMQISRQQAAGGASGHLTIDLGALRDNYLTLAAMAPASQTAAVVKADAYGLGADVVSQVLFEAGCRNFFVAHVDEALALRLRLSAEARIFVLNGLQPGNETSCAAMAITPVLNSLEQIAQWSAHAKKLGKTLTAAVQIDTGMCRLGISPEELEILASRPQLLDGIDIAFVMSHLACADEPDHASNAAQLAVMRKAAIAFPAAPVCFSNSGGIFLGNDYHNHLLRPGIALYGGAPSVTRPNPMKPVVRLDLAVIQTRTVSAGSLVGYGGSFEAAGPTRLATIAAGYADGLPRSLSNRGAAWYNGVRLPIAGRVSMDSIILDISALPEGTLTQGGLVQMIGPDQTLEDIAEDAGTIAYEILTGLGRRYRRLYIQPGETPAAASTSVNHK	PGPT0020040_1311	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020040-alr-K01775	NA	NA
BMS010_03825	1257	dadA1_2	COG0665	D-amino acid dehydrogenase 1	ATGAACGTCACTATCCTTGGAGCCGGCGTCGTCGGCGTGACATCCGCCTGGTATCTGGCCAAAGCCGGACACAAGGTGACGGTGATCGACCGCCAGCCGGCCGCAGCGCTCGAAACCAGCTTCGCCAATGCCGGCGAAGTATCCCCCGGCTATTCTTCGCCATGGGCTGCCCCCGGTATTCCGGTCAAGGCGATGAAATGGCTGTTCATGAAACACGCGCCTCTCATCATCCGCCCGACCGCCGATCCGGCCGCATGGCGCTGGATGAGCCAGATGCTGCGCAACTGCACCTCGGCGCGTTACGCCATCAACAAGAGCCGCATGGTGCGCGTTGCCGAATATAGCCGCGACTGCCTGATGGCGCTGCGCGAAGAGACCGGCATCGAATATGACCAGCGCATGCAGGGCACGCTGGAGGTGTTCCGCACCCAGAAGCAGTTCGATGCCATCGGCAAGGATGTCGACGTGCTGACGGCAGGCGGCGTGCCTTTCGAGATTCTCGATCGCGACGGCTGCGCCGCCATAGAACCCGGTCTTTCTCCTTCGAAGGAAAAGATCGTCGGTGGCCTGCGCCTGCCCGGCGACGAGACCGGCGATTGCTTCATGTTCACGACAGAACTTGCCCGCATGGCCGAAGAGGCGGGCGTTACCTTCCTTTACGATACCGGCATCATGCGCCCCATCGTCGAGGCAGGACGCGTCAAGGCTGTGGAGACCACCCGCGGGCTGGTGGAGGCCGATATTTTCGTGGCGGCACTGGGCAGCTATTCGCCGCAGTTCGTGCGCCAGCTTGGCCTTACCCTGCCGGTTTACCCGGTCAAGGGTTACTCCATCACAGTTCCGATCGTAAACGAGGAGCGCGCGCCCGTTTCCACGGTCATGGACGAGACGTTCAAGGTGGCGATTACCCGCCTCGGCTCACGCATCCGCGCCGGCGGCATGGCGGAAATCGCCGGCTTCAGCAAGGATTTGCCAGCGGCCCGGCAGGAAACGCTGGCCCACTCGGTGGAAGACCTGTTCGGCGGCGCAGGCGACCAGAGCCAGGCGAAATTCTGGTGCGGCCTGCGCCCGATGACGCCGGACGGCACGCCTGTCATCGGCGCCACCCGCTACAGTAATCTTTATCTCAATACCGGCCACGGCACGCTTGGCTGGACCATGTCCTGCGGCTCCGCCCGGGTGCTTGCCGATCTCATCAGCGGCAACAAGCCGGAGATCGACACGCACGATCTGGCGATCAGCCGTTACGCCGCCTGA	MNVTILGAGVVGVTSAWYLAKAGHKVTVIDRQPAAALETSFANAGEVSPGYSSPWAAPGIPVKAMKWLFMKHAPLIIRPTADPAAWRWMSQMLRNCTSARYAINKSRMVRVAEYSRDCLMALREETGIEYDQRMQGTLEVFRTQKQFDAIGKDVDVLTAGGVPFEILDRDGCAAIEPGLSPSKEKIVGGLRLPGDETGDCFMFTTELARMAEEAGVTFLYDTGIMRPIVEAGRVKAVETTRGLVEADIFVAALGSYSPQFVRQLGLTLPVYPVKGYSITVPIVNEERAPVSTVMDETFKVAITRLGSRIRAGGMAEIAGFSKDLPAARQETLAHSVEDLFGGAGDQSQAKFWCGLRPMTPDGTPVIGATRYSNLYLNTGHGTLGWTMSCGSARVLADLISGNKPEIDTHDLAISRYAA	PGPT0020315_2006	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_D-AMINO_ACID_DEGRADATION,PGPT0020315-dadA-K00285	NA	NA
BMS010_03826	711	lutR_7	COG2186	HTH-type transcriptional regulator LutR	ATGAGCCTTTCCCAGATAACCGTCAATTCCGACACCTCGCATGAAGACCGTGCCCAGGCCATTCGCGATACGCTGCGTGACGCCATTGTCGACCGGCGGCTGGCGCCGGGAACCAAACTGTCGGAATCGGAAGTGGGAACGCTGTTCGATGTCAGCCGCACGGTGGTGCGCGCCGCACTTCAGATGCTGGCCTATGAGGGGCTGGTGAAGGCCGAGCGCAACCGGGGCGCCTTCGTCTCCAATCCAACGCCGGATGAAGCGCGGCAGGTGTTCGCGTCGCGACGGTTGATCGAACCCGGCGTCGTGGATGCCGCGATCGAAAAAATCACGCCTGCGGCGGTGAAGCGGCTGCGTGAGCATCTGGTGCAGGAAAGCCGCCACCAGCATGAGCGCGGCCCGAGCGCCAGACGCGCGGAAATCAAGGCATCGGGCGATTTCCACCTGATGCTGGCCTCGCTTGCCGGCAACGCCATTCTGGAAAAATTTATGGACGAGCTGGTCGCCCGCTCGTCGCTGGTCATTGCGCTTTATGGGCGCTCTGGTGTTTCAAGCTGCGGCCACAATGATCACGCCGATCTCCTTGATGCGCTTGAGGCGAAAGATACGGCAAAGGCGCGTGCGCTCATGTTGCAGCATCTCGACCACATCGAAGCCGATCTAGACCTGCGCATGATGGAAGGTCTGGCGCTGAAGGATGCGCTGGCGCTCTGA	MSLSQITVNSDTSHEDRAQAIRDTLRDAIVDRRLAPGTKLSESEVGTLFDVSRTVVRAALQMLAYEGLVKAERNRGAFVSNPTPDEARQVFASRRLIEPGVVDAAIEKITPAAVKRLREHLVQESRHQHERGPSARRAEIKASGDFHLMLASLAGNAILEKFMDELVARSSLVIALYGRSGVSSCGHNDHADLLDALEAKDTAKARALMLQHLDHIEADLDLRMMEGLALKDALAL				NA	NA	NA	NA	NA
BMS010_03827	477			hypothetical protein	ATGTCGTCCTTTGCAGCTAAAACCGTTCTGGCCGTCGCCGTCGCCGCCGCCACAATCGTTCCCTTGAGCAGTGCATCCGCTGGCGACTGGGACCGCCGCGACCGTCGCGATGCCGCCATTCTGGGTGGCGTGCTCGGCCTTGCCGCCGGTGTCGCCGTCGGCTCCGCAATGTCGCGTCCGGCGCCAGCTTACGAAGAGCGCGTCTATGTCGACGAGCCGAGCTATATCGATGAAGAGCCGGATTACCGCTATTATCGCGCAGCACCTCAGCCGGTTTACCGCCCGGCCCCCGTCTATCGCGCCCAGCCGGTTTACGACAGCCGCCCGGTCTACAACCAGCGCCGCACCTATCGCACCATCGAGCCCTGGACCAACGCCTGGTACGACTATTGCTCGCAGCGTTACCGGAGCTTCAACACCCGCACCGGCACCTATACGGATTATGACGGCCAGCGCCATTTCTGCGTCGCAGGTTGA	MSSFAAKTVLAVAVAAATIVPLSSASAGDWDRRDRRDAAILGGVLGLAAGVAVGSAMSRPAPAYEERVYVDEPSYIDEEPDYRYYRAAPQPVYRPAPVYRAQPVYDSRPVYNQRRTYRTIEPWTNAWYDYCSQRYRSFNTRTGTYTDYDGQRHFCVAG				NA	NA	NA	NA	NA
BMS010_03828	1365	dctD_2		C4-dicarboxylate transport transcriptional regulatory protein DctD	ATGACGGCGGATGGAACCATATTCCTGGTGGACGACGACTCCCAGCTGCGCAAGGCGATGGTGCAAACGCTGGAACTCGATGGATTGCCGGTCACGTCGTTTTCCCGCGCAGAACAGGCGCTTGCGGCTTTGAACGAGGATTTCGACGGCGTCGTCATCACCGATGTACGTATGCCCGGCATGACCGGGCTCGAATTTTTCGACCATGTCCGCAAGATCGATGCCGATCTGCCGGTTATTCTCATCACCGGCCATGGCGATGTGCCGATGGCGGTCGATGCGCTTCACAATGGAGCTTATGATTTCATCGCCAAGCCGTTTCCCGCTGAACGCATGGTGGAAAGCGCCCGCCGGGCGCTGGAAAAGCGCCGCCTCGTGCTGGAAAACCGGGCGCTTCGCCGGGCGGCGGGACAGGCTGAGGATGATTTACCGCTGATCGGCCAGACGCCCGCCATGGAGCGCCTGCGCACCACGCTCAGGCACATTGCCGATACGGATGTGGATGTGCTGGTGGCGGGCGAGACCGGCAGCGGCAAGGAAGTGGTGGCGACGGCCCTTCACCGCTGGAGCAAGAAACGCTCAAAGGGCAATTTCGTGGCCCTGAATTGCGGGGCGCTGCCGGAAACGGTGATCGAGAGCGAGCTCTTCGGCCATGAGCCGGGGGCTTTCACCGGCGCGCAGAAAAAGCGCGTCGGCCGCATCGAACATTCGAGTGGCGGCACCCTGTTTCTGGACGAAATCGAAAGCATGCCGCTTGCGGTGCAGGTGAAGATGCTACGCGTTCTGGAAATGCGTGAGGTCTCGCCGCTGGGGTCGAATGAGGAGCGGCCCGTCGATATTCGCGTGGTCGCGGCGGCCAAGGTCGATCTCGGCGATCCGTCCGAGCGCGGCACGTTTCGTGAGGATCTCTATTACCGGCTGAATGTGGTGACGCTGTCCATTCCGCCGCTGCGCGAACGCAAGGCGGATATTCCGCTGTTGTTTTCCCACTTCGTCACCAAGGCCGCCAACCGTTTCAATATGTCGGTGCCGCAGATCAGCGCCGGTATTTCCCGCCGCCTCAATGAGCATGACTGGCCGGGTAATGTGCGCGAACTCGGCCATTTCGCCGAAAGGGTGGTTCTGGGGCTGGAGACGGAACCAGCGGAGGCGCCCGCATTACGATCCGCGATCCCGGCCTCTGGTACCCTGCCGGAACGCATGGACGAGACCGAGGCGCGCATCATCCGCGAAACGCTGGAACAATCGAATGGCGATGTGGCGGAGACCATCGCCACACTCGGCATCGCCCGCAAGACCTTTTACGACAAGCTGCAGCGCCACGGCATCAACCGGGCGGATTATGTGAGGAGCGGCACGGCGTAA	MTADGTIFLVDDDSQLRKAMVQTLELDGLPVTSFSRAEQALAALNEDFDGVVITDVRMPGMTGLEFFDHVRKIDADLPVILITGHGDVPMAVDALHNGAYDFIAKPFPAERMVESARRALEKRRLVLENRALRRAAGQAEDDLPLIGQTPAMERLRTTLRHIADTDVDVLVAGETGSGKEVVATALHRWSKKRSKGNFVALNCGALPETVIESELFGHEPGAFTGAQKKRVGRIEHSSGGTLFLDEIESMPLAVQVKMLRVLEMREVSPLGSNEERPVDIRVVAAAKVDLGDPSERGTFREDLYYRLNVVTLSIPPLRERKADIPLLFSHFVTKAANRFNMSVPQISAGISRRLNEHDWPGNVRELGHFAERVVLGLETEPAEAPALRSAIPASGTLPERMDETEARIIRETLEQSNGDVAETIATLGIARKTFYDKLQRHGINRADYVRSGTA	PGPT0017310_315	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017310-dctD-K10126	NA	NA
BMS010_03829	1980	dctB_2		C4-dicarboxylate transport sensor protein DctB	ATGCCAGACTTGCTTATTTGGCGTAACTGGCTGATTTCAAAAGTAGTTTTTATTGGCGCTTCATCGGCCCACATGTATTTGTGCGGAATTCCGGACAAAATCTCTTGCGGTCTGTGTGTAAATCCGCACAATTGCCGCATGACTTATCAGGATCAGGCATCTCATTCCCATGCGACGCGGCGGGCGCAATGGCTGGCGCTGGCGGGCCTGTGGCTGCTCGTCAGTCTTGGCGTTCTGCTGGTGGCCGATGAGTTCGCCCGCAATCAGGCGATGCGCATGGCCGGTTCCGAGGCCGCCACGGATGCGGAACTGAAGATCGCGCTCCTGAATGTCGCGCTGGAGCGGCCGCGCGCCATTCCGCTTGTCCTGTCCGGAGATCCTGATCTTGCCGCCGCGCTGGATGGCGGCGGTGCTCCTGCCCTCGACCGGTTGAATCGCAAGCTGGAGGGGCTGATTGAAGGCACACAATCCTCGGTGATTTATGTGACCGGGCCGACCGGATTGACCATCGCGTCGAGCAACTGGCGGCAGGATGACAGCTTTGTTGGCTCCAATTATGCTTTCCGCGAATATTTCCAGGCGGCGATGAAGACCGGCATGTCCGAACATTATGCTCTCGGCAATGTCAGCCGTCGGCCGGGTCTTTATATCTCCCGCCGCATCGATGCCGCCGATGGGCGGCCGCTTGGCGTCGTCATTGCCAAGGTCGAGTTCAACCGGCTGGAGACAGACTGGAACATCGGCGGCAAGCCGGTCTATGTGGTCGACAGAAACGGCGTCGTGCTGATGACCAGCGTGCCGGAATGGCGCTTCAAGACCGTTGCGCCGATCGATGAGGCGCGGCGGAAAATCATCTCCGAGAGCCTGCAATTCGGCAATGAGGCGCTTTCAACGCTGCCGTTTCGCGCGGCGCGGCGCGCGAGCGAGGATGTTCCGCTCATTCATGTCGATGAGCCGGGGAGGGAACGCGGCGATTATCTGCGGCTGGAAGTGCCGGTGCCGACCACTTCATGGACGCTGCACTATCTCCAACCGGTCGCGCCGGCGCTGAATGCCGCCATCCGCGAGGGCAGGGTGGTGGCGCTGGCGACGCTGATGCCGCTGATGGCGCTTTCGGCCCTGTGGCTGTGGCGCAGGCACAAGGCGCTCAAGGAAAAGGAAGAGGAGCAGCGTGCCCGCGCCGAGCTGGAGATGAAGGTGCAGGAGCGGACCCGCGACCTTACGAAGACCCGCGATCATCTGCAGGCCGAAATCGCCCTGCATGAAAAGACCTCGGGCGAGTTGCGCAATGTGCAGCACGAACTGGTGCAGGCCAACCGCCTTTCCATTTTGGGGCAGGTGGCGGCGGGCGTGGCGCACGAAATCAACCAGCCGGTCGCGACCATCCGCGCCTTTGCCGACAATGCCCGCACCCTACTGAAGCGCGACCGCATGTCCGAGGCGAACGAAAATCTCGAAAACATCGCGGCACTGACCGAGCGTATCGGCACCATTACCGGCGACCTGAAAATATTGGCGCGCAAGGGCCGCACCGCCGCCGAACCTGTCAGCGTTCGACTGGTCATCGAAGGTGCGGTCATGCTGTTGCGCAGCCGTTTTTCCGGGCAGATGGATGCGCTGGATATCGTGTTGCCCGATCAGGACCTGAAAGTGCTCGGCAGCCGTATCCGGCTCGAGCAAATTCTCATCAACCTTCTGCAAAACGCGCTGGAAGCCACTGAAGAGACTGGGGCGGCGCGTGTCGAAGTTCGTGTGCGCGAGGAAGGCGACATGGTCGTGCTTTCCGTCAGCGACAATGGCACGGGCATTCCCGAAGCCATCCGCGCCCAGCTTTTTTCGCCCTTCAATACCTCCAAGGAAAGCGGCCTCGGCCTTGGCCTCGTCATCTCCAACGATATTGCCTCGGACTATGGCGGGCGCATCGAGGTGGCGAGCAGCAAGGCGGGCACATGTTTTTCCGTATTTCTGAAGCGAGCGTGA	MPDLLIWRNWLISKVVFIGASSAHMYLCGIPDKISCGLCVNPHNCRMTYQDQASHSHATRRAQWLALAGLWLLVSLGVLLVADEFARNQAMRMAGSEAATDAELKIALLNVALERPRAIPLVLSGDPDLAAALDGGGAPALDRLNRKLEGLIEGTQSSVIYVTGPTGLTIASSNWRQDDSFVGSNYAFREYFQAAMKTGMSEHYALGNVSRRPGLYISRRIDAADGRPLGVVIAKVEFNRLETDWNIGGKPVYVVDRNGVVLMTSVPEWRFKTVAPIDEARRKIISESLQFGNEALSTLPFRAARRASEDVPLIHVDEPGRERGDYLRLEVPVPTTSWTLHYLQPVAPALNAAIREGRVVALATLMPLMALSALWLWRRHKALKEKEEEQRARAELEMKVQERTRDLTKTRDHLQAEIALHEKTSGELRNVQHELVQANRLSILGQVAAGVAHEINQPVATIRAFADNARTLLKRDRMSEANENLENIAALTERIGTITGDLKILARKGRTAAEPVSVRLVIEGAVMLLRSRFSGQMDALDIVLPDQDLKVLGSRIRLEQILINLLQNALEATEETGAARVEVRVREEGDMVVLSVSDNGTGIPEAIRAQLFSPFNTSKESGLGLGLVISNDIASDYGGRIEVASSKAGTCFSVFLKRA	PGPT0017305_298	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017305-dctB-K10125	NA	NA
BMS010_03830	1347	dctA		C4-dicarboxylate transport protein	ATGATCGATACGACAGCCGTGGCCGCAGGCCACGCCAAGCAGCCATTCTACAAGCACCTGTATTTTCAGGTTCTGGTGGCCATCATCGCCGGTATCGCGCTCGGCCATTTCTATCCGGCCTTCGGCGAACAGCTGAAGCCGCTCGGCGACGGCTTCATCCGCCTCGTCAAGATGATCATCGCGCCCGTCATCTTCCTCACCGTCGCAACCGGCATCGCCGGCATGAACGACATGAAAAAGGTGGGTCGCGTGGCCGGTAAGGCCATGATCTACTTCCTCGTATTCTCCACGCTCGCGCTCATCGTTGGCCTCATCGTCGCCAACACCGTGCAGCCGGGCGCGGGCATGAATATCGATCCCGCCACGCTGGATGCCAAGGCAGTCGCGACCTACGCCGACAAGGCCCATGAGCAGACCATCACCGGCTTCCTGATGAACATCATCCCGACCACCATCGTCGGCGCTTTCGCCAGCGGTGACATTCTGCAGGTGCTGTTCTTCTCGGTTCTGTTCGGTATCGCGCTCGGCATCGTCGGCGAAAAGGGCAAGCCCGTCACCGATTTCATGCACGCCCTGATGTATCCGATCTTCAAACTGGTCGCGATCCTGATGAAGGCCGCCCCCATCGGCGCTTTCGGCGCCATGGCCTTCACCATCGGCAAATACGGCATCTCGTCCGTCACCAACCTCGCGATGCTGATCGGCACCTTCTACGTCACATCCTTCCTGTTTGTGTTCGTGGTTCTCGGCGCCGTCTGCCGTTATAACGGCTTCTCCATCGTCGCGCTTATCCGCTACATCAAGGAAGAACTGCTTCTGGTTCTCGGCACCTCCTCTTCCGAGGCCGCCCTGCCGGGCCTGATGAGCAAGATGGAAAAGGCGGGCTGCAAGCGCTCCGTCGTCGGCCTCGTCATCCCCACCGGTTATTCCTTCAACCTTGACGGCACCAACATCTACATGACGCTGGCGGCCCTCTTCATCGCGCAGGCGACCGGCATTCACCTCTCCTTCGGCGAACAGATTCTGCTGCTGCTCGTTGCCATGCTCTCCTCCAAGGGTGCGGCCGGCATCACCGGCGCGGGCTTCATCACGCTCGCGGCAACCCTCTCCGTTGTGCCTTCGGTTCCCGTCGCCGGCATGGCGCTGATCCTCGGCATCGACCGTTTCATGTCGGAATGCCGCGCCCTCACCAACTTCGTCGGCAACGCAGTTGCCACCATCGTCGTCGCCCGCTGGGAAGGCGAACTGGATCAGGATCAGCTTGCCCGCGTTCTGAGCGGCCAGGAAGAATTCACCGGCATCGCCGATGTGGATCAGCTTCCGGCTTCGGTGCAGCCCGCCGAATAA	MIDTTAVAAGHAKQPFYKHLYFQVLVAIIAGIALGHFYPAFGEQLKPLGDGFIRLVKMIIAPVIFLTVATGIAGMNDMKKVGRVAGKAMIYFLVFSTLALIVGLIVANTVQPGAGMNIDPATLDAKAVATYADKAHEQTITGFLMNIIPTTIVGAFASGDILQVLFFSVLFGIALGIVGEKGKPVTDFMHALMYPIFKLVAILMKAAPIGAFGAMAFTIGKYGISSVTNLAMLIGTFYVTSFLFVFVVLGAVCRYNGFSIVALIRYIKEELLLVLGTSSSEAALPGLMSKMEKAGCKRSVVGLVIPTGYSFNLDGTNIYMTLAALFIAQATGIHLSFGEQILLLLVAMLSSKGAAGITGAGFITLAATLSVVPSVPVAGMALILGIDRFMSECRALTNFVGNAVATIVVARWEGELDQDQLARVLSGQEEFTGIADVDQLPASVQPAE	PGPT0001450_838	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ASPARTATE_TRANSPORT,PGPT0001450-dctA-K11103	NA	NA
BMS010_03831	438			hypothetical protein	ATGAAGAACCTGTTTCTGGCCTGGCAATTCTGGGCGCTGCTATCGGCAGCCTTTGCGGCGCTCACCGCCATCTTTGCGAAGGTCGGCATCGAGAACGTCAATTCCGATTTCGCCACTCTCATCCGCACCGTCGTCATTCTCGCCGCCGCCGGCCTGATGGTTTACATCACCGGCAACTGGCAGCAGCCTTCCACCATCTCGGGTAAAACCTGGCTGTTCCTCGTGCTTTCGGGACTGGCCACCGGCGCATCGTGGATATGTTATTTCCGGGCGCTTAAACTCGGAGACGCCGCCCGCGTCGCGCCCATCGACAAGCTGAGCGTCGTGTTTGTCGCCATCTTTGCGGTGCTGTTTCTGGGCGAAAGGCTGTCTTTGCCCAACTGGCTCGGCGTGGTGCTGATCGCCTGCGGCGCGGTGCTTGTGGCCTATCGGGGATAG	MKNLFLAWQFWALLSAAFAALTAIFAKVGIENVNSDFATLIRTVVILAAAGLMVYITGNWQQPSTISGKTWLFLVLSGLATGASWICYFRALKLGDAARVAPIDKLSVVFVAIFAVLFLGERLSLPNWLGVVLIACGAVLVAYRG				NA	NA	NA	NA	NA
BMS010_03832	1353	spuC_2	COG0161	Putrescine--pyruvate aminotransferase	ATGACCATCCTGCCTAATTCCGTCGAGGCACGCGATATCGCCTATCAGATGCATCCGAACGTCAATCTGCGCAAATTCGAAAAGACCGGCGGTCTGGTGATCGAGAGCGGCGAAGGCATCTATGTAACCGACAGCAGCGGCAAGCGCTATATCGAGGCGATGGCGGGGCTGTGGTCGGTGGCGCTCGGCTTTGGTGAACAGCGGCTGGTGGACGCGGCGACGAAGCAGATGCAGAAGCTGCCCTATTACCACACCTTTTCCTACAAGACGCACGGCCCGTCGGTTGATCTCGCCGAGCTGCTGATCGAGCTTTCACCGGTACCGATGTCCAAGGTGCATTTCACCTCCTCCGGCTCCGAGGCCAACGATCTGGTCGCCAAGATGGTCTGGTATCGCTCGAACGCTCTGGGCAGACGAGAAAAGAAGAAGATCATCGGCCGCATCAAGGGGTATCATGGCGTGACGATTGCCTCGGCCTCAATCACCGGCCTGCCGCGTAACCATGAAAGCTTCGACCTGCCGCTGGACCGCATGTTGCATACGGCCTGCCCCTCCTATGTGCATTTCGGAAAGGAAGGGGAAAGCGAGGCGGATTTCACCGCGCGTATCCTGAAAGAGCTGGAGGATTTGATTCTTCGCGAAGGCCCGGAAACCATTGCCGCTTTCTGGGGCGAGCCGGTAATGGGCGCCGGCGGCGTTCTTTTGCCGCCGGAAGGTTATTGGGCTGGCGTACAGGCGATCCTGAAGAAATACGATATTTTGCTTGTGGTGGATGAGGTGATCTGCGGTTTCGGCCGAACCGGCAAGATGTTCGCCTGCGAGACCTATGGCATCAAGCCGGATGTGCTTGTCGTCTCCAAGCAGATTTCGTCGTCCTATATGCCGCTTTCGGCTATCATCATGAATGACAGTTTCTACCAGCCGATTGCCGATGAATCCGACCGTATCGGCTCCTTCGGCCATGGTTACACCGCCTCCGGCCATCCCGTCGCAACAGCTGTGGGACTGGAAAACCTGAAGATTATTCAGGAGCGCGATCTGGTCGGTAACGTCGCCCGGCTGGAAGGCAAGTTTCTCGATCATCTTAAGGCGCTGGCCGATCACCCGCTTATTCATTCCTCGCGCGGTATCGGCCTGATCGGCGCGCTGGAGGTGAAGCCATGGGAGGGCATGAAGCCCGGCGATACGACGCTGGCCCTTGCCGCGGCCATCGAGGAGGAGGGTGTCATCACGCGGCCTATCAGCGAGTCCATCTGCTTCTGCCCGCCGCTCATCATTACGGCCGAACAGCTGGACGAGCTGTTTGCCGGTGTGAAGCGTGGTCTCGACAAGGTTGCGGCTGCCCGAGGCTGA	MTILPNSVEARDIAYQMHPNVNLRKFEKTGGLVIESGEGIYVTDSSGKRYIEAMAGLWSVALGFGEQRLVDAATKQMQKLPYYHTFSYKTHGPSVDLAELLIELSPVPMSKVHFTSSGSEANDLVAKMVWYRSNALGRREKKKIIGRIKGYHGVTIASASITGLPRNHESFDLPLDRMLHTACPSYVHFGKEGESEADFTARILKELEDLILREGPETIAAFWGEPVMGAGGVLLPPEGYWAGVQAILKKYDILLVVDEVICGFGRTGKMFACETYGIKPDVLVVSKQISSSYMPLSAIIMNDSFYQPIADESDRIGSFGHGYTASGHPVATAVGLENLKIIQERDLVGNVARLEGKFLDHLKALADHPLIHSSRGIGLIGALEVKPWEGMKPGDTTLALAAAIEEEGVITRPISESICFCPPLIITAEQLDELFAGVKRGLDKVAAARG	PGPT0007865_758	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007865-spuC-K12256	NA	NA
BMS010_03833	735	fabG_4		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGGCTGTTCCTTATATGCTTCTTACCGGCGCAAGCCGCGGAATAGGGCACGCCACCGTCAAGCTGTTTCAGGAAAAGGGCTGGAGAATTCTCACCGTATCGCGGCAACCCTTCTCCGAGGAATGCCGTTGGCCGTCAGCGCGGGAGAGCCACATTCAGGCCGATCTGGAGGACCTGTCCCGCATTGACGATCTGGCGGATGAGGTGCGTTCACGCCTGCCGGAGGGAAAGCTTGCCGCGCTTGTCAACAATGCCGGAATTTCGCCGAAGGGCGAGGGCGGCAGCCGTCTCGGTGTCATGGATACGACGGCGGAAATCTGGACGCGGGTGCTGAACGTCAATCTTGTTTCGACGGCGCTGCTCGCCCGCGCGCTTTTGCCGGAACTGGAAGCGGCAAAAGGCTCAATCGTCAACGTCACGTCGATTGTCGGCTCACGGGTGCATCCTTTTGCCGGCGTGGCCTATGCCACATCGAAGGCGGCGCTTGCGGCGCTGACGCGGGAGCTGGCGCATGAGTTCGGCCCGCGCGGCGTGCGCGCCAATGCGATTGCGCCGGGCGAGATCAACACCGCCATCCTCTCCCCCGGAACGGCGGAGCTGGTGGAAGCCCAGGTGCCGCTCGGGCGGCTCGGCACCACGGCCGAGGTGGCGCAGACCATCTATTTCCTCTGCTCGGAACAGTCGAGCTACATCAACGGCGCGGAAATTCATATCAATGGCGGCCAGCACGTCTGA	MAVPYMLLTGASRGIGHATVKLFQEKGWRILTVSRQPFSEECRWPSARESHIQADLEDLSRIDDLADEVRSRLPEGKLAALVNNAGISPKGEGGSRLGVMDTTAEIWTRVLNVNLVSTALLARALLPELEAAKGSIVNVTSIVGSRVHPFAGVAYATSKAALAALTRELAHEFGPRGVRANAIAPGEINTAILSPGTAELVEAQVPLGRLGTTAEVAQTIYFLCSEQSSYINGAEIHINGGQHV				NA	NA	NA	NA	NA
BMS010_03834	1647	cpoB_3		Cell division coordinator CpoB	ATGCGTATCGATATCATCGACACGGACGCCGGCTTCGAGGCCATCCGCGAAAACTGGGATGCGGTGTTCATGGCCGATCCCCATGCCCGGCATTTCCTCTCCTGGGGGTGGCTGAGGGACTATATGCCGCGCCGCAGGCGCTGGTTCATTCTTGCGCTGCGCGAACGGGCGGAAGGCTCGCCCTATGTTGCGTTTTTCCCGCTGCGCATCGTCACCGAACCGGACAAAAAAACCGGACGTTTCCACGACAGCATCGTCATGGCCGGCAATGCGGCGGCCGATTACACCGGTTTCATCACTCTGCCGGACTATGAAAATCACGCAGTCGCCGGTTTCTGTTCCTATATCCGCCAGCAGAACTGGACCGAGCTGAAGCTCGATTATCTTTCCGGCCCGCCGGAACGCCGCGACGCTATGATCCGCGCACTTCAGGGCCCGCTCGTCATGTTTCGCGACAACATGCCGACCAACCCCTACAACATCAACAATTGCATCTGCCCGGTGGTGACGCTGCCGGACACGTTCGACGGCTATCTCGACAGTCATATGAGCAGCCAGACCCGGCAGAAGCTGAGGCGTTTCCTGAGAAAAGTGGAAGGCGGCGACGAATATCGCATCACCTTTGCAACGAGGGAAACAATCAAGCGGGACATGGACATCCTGTTCGATTTCTGGCGTATCCGCTGGGCGCCGCACAAGGGCAAGGAACGCACGGAACTCCTGATCGGTGCGACACGGCAGATGCTGATGGATGTCTATATCCGTGGCGATCTGGAAGTGCCGGTACTGTGGTTCGGCGACCAGCCGCTCGGCGCGCTCGCCAATATCATCGACCGCCAGAAGAAATCGGTCCTGTTCTACATTACCGGCCGCGACGAGAACTGGAAGACCCCTTCCCCCGGGCTCGTGCTGCATGGCCATTGCATTCGCAGGGCAATCGAGCAGGGTTTCAAAACCTATGATTTCCTGCGCGGCAACGAGCCTTACAAATATTTCTTCGGGCCGGAGGAGCAGAAGCTGAGCTGCACGCTGTTCCGCACCCGCTCGGGCGACAATCTCGGCGGCACGCTTCACCCGCGCAGCATCCGTTTTGTCTACGAACAAGCCCTCAAACTCTATAAGACCGGCCAGAAGGCGGCCGCCAATATTGCCTTCGCCCAGGTGCTGACTGCGGCACCGGACCATCTCGGCGCGCAATTCGGGCTCGCCAATCTGTTGTTCGACCGGGGTGAATTCCGCGAGGCCGAAATCGCCTTTCTCAGCCTTCTGGCCGCCGGGCAGGAACCCGTCGTCCTTTGGCTGCGTATCGGCGAGGCCCGGCTGGCGCAGCAGCACTACCACGAGGCGTCCGAGGCCTTCCGCCAGGTGACCAATCGCGCGCCCTTCCACCGGGAAGCGCTTTACAAATGCGCCGTGGCGCTGATTGCCGCCGAAAGAACGATGGAAGGTGCGGAAATCCTCGACAGGCTGCAGCACTATCATTCGGACGATGCGGCACATCTGGAATATGCGGAAAAGGCCCGTGCAGCTCTTGCCCGGCTGGAACTGGCAAAAGCCAAGGTTCCGCTGCCACCCGATGTCGTCACGCTCGCCATCAAGCCGAAAGCGACGGGCAAACGCTGGCACCCGCCAAAGGTTTTGCATTAA	MRIDIIDTDAGFEAIRENWDAVFMADPHARHFLSWGWLRDYMPRRRRWFILALRERAEGSPYVAFFPLRIVTEPDKKTGRFHDSIVMAGNAAADYTGFITLPDYENHAVAGFCSYIRQQNWTELKLDYLSGPPERRDAMIRALQGPLVMFRDNMPTNPYNINNCICPVVTLPDTFDGYLDSHMSSQTRQKLRRFLRKVEGGDEYRITFATRETIKRDMDILFDFWRIRWAPHKGKERTELLIGATRQMLMDVYIRGDLEVPVLWFGDQPLGALANIIDRQKKSVLFYITGRDENWKTPSPGLVLHGHCIRRAIEQGFKTYDFLRGNEPYKYFFGPEEQKLSCTLFRTRSGDNLGGTLHPRSIRFVYEQALKLYKTGQKAAANIAFAQVLTAAPDHLGAQFGLANLLFDRGEFREAEIAFLSLLAAGQEPVVLWLRIGEARLAQQHYHEASEAFRQVTNRAPFHREALYKCAVALIAAERTMEGAEILDRLQHYHSDDAAHLEYAEKARAALARLELAKAKVPLPPDVVTLAIKPKATGKRWHPPKVLH				NA	NA	NA	NA	NA
BMS010_03835	1155	hipO_2	COG1473	Hippurate hydrolase	ATGTTTCTGACCAACAAGGACATGCTCGATCTCATTGAGCTTCGCCATGATCTTCACCGTCATCCGGAAATCTCCGGCGAGGAGAAGGAAACGGCGCGGCGCATCCGCGCTTTCCTCGAGCAGGCGCAGCCCGACCGGCTTTTCGCCGATCTCGGCGGCCATGGCGTGGCTGCGGTCTATGACAGCGGTAAAAGCGGCCCGGCGATCCTCATCCGTTCGGAACTCGATGCCCTGCCCATTCACGAAAAGAGTGACGCCGAATACCGCTCCGGCACTGATGGCAAAGGCCATCTTTGCGGCCATGACGGCCACTCCACCATTCTGACGGCGCTGGCGCTCGGCCTTTCCCGGCAGCGGCCCGCGACAGGTCGCGTCATCCTTCTGTACCAGCCGGCGGAAGAAACCGGCGCGGGCGCCGCCGCCGTCCTCGCCGACCCGCGTTTTGGGCAGATAAAGCCGGATTATTCCTTTTCGCTCCATAACCTGCCCGGCCTGCCTTTCGGCCATGTCAGCGTGGTGGAAGGACCGGTCAACTGCGCGTCGCGCGGGGTCAAAATCCACCTTTCCGGCAAGACGGCGCATGCGTCTTCACCTGAACATGGCATTTCCCCGATGCGGGCAATATCCCGGCTGATGCCGGCCTTGGCCGAACTGGGCTCCGGTTTTCCGCCAGAGCCCGATTTTTCGATGGTGACGATCACCCATGCCGTAATGGGCGAAGCCGCCTTCGGAATTTCCCCGGCCGATGCTGAAATCTGGGCGACACTGCGGACACTGACCGACGACCGGATGGAAAAACTCTGCGAGGCTGCGGAAACTCTGGCTAAAAAGGTGGCGGACGAACAGCAGCTGACCCTCGACATCACCTATGACGATATTTTCCTGCATTGCGAAAATGCGCCTGACGCGGTCGGGCATATCCGGCGCGCGCTGGACGAGGAAAAAATCTCCCACGGTTCGGAGGGGCTGCCCATGCGGGCTTCGGAGGATTTCGGCCGCTTTCGCGCCGTTTCGTCATCGGCGATGTTCTTTCTCGGCGCAGGCCGGGACTATCCCAACCTGCACAATCCGGATTACGACTTTCCCGATGCGCTGATCGGCACCGGCGCGCGCATCTTCATGCGCATCATCCGCAACCTCACCGACGCGAGATAG	MFLTNKDMLDLIELRHDLHRHPEISGEEKETARRIRAFLEQAQPDRLFADLGGHGVAAVYDSGKSGPAILIRSELDALPIHEKSDAEYRSGTDGKGHLCGHDGHSTILTALALGLSRQRPATGRVILLYQPAEETGAGAAAVLADPRFGQIKPDYSFSLHNLPGLPFGHVSVVEGPVNCASRGVKIHLSGKTAHASSPEHGISPMRAISRLMPALAELGSGFPPEPDFSMVTITHAVMGEAAFGISPADAEIWATLRTLTDDRMEKLCEAAETLAKKVADEQQLTLDITYDDIFLHCENAPDAVGHIRRALDEEKISHGSEGLPMRASEDFGRFRAVSSSAMFFLGAGRDYPNLHNPDYDFPDALIGTGARIFMRIIRNLTDAR				NA	NA	NA	NA	NA
BMS010_03836	2334			hypothetical protein	ATGCCGATGAACAAGCCACTGTCGACCTCGGCTCTCATTCTGCTTCTGATAGCGCTCGCCGCCTTCCACTGGCGCGACAGCATTCTCGGGCGGGTGTCGGACGTGCATACCTCGGCGGTCGGCGACAACCGGGCGGTACAGCGTGTTTTGCCGACGGCGGCCAATCCGGCGCAGATCAACGCTTTCGTCAAGAACCGTGAAATGGCGCAGGTAACGCAGCCCGCTACACCGCCGGTCACGGTGCCCGCGACCGACCCGTTGCCGGTGACACAGGCTGGCGGGCAGGCGCCGCAAACACAGACGGTGCAGGCGCCGGACCCTCGCGCCACCCAGCCTGCATCGGCCGATATGCCCGAGGTCGATCTGAGTGCGTTGCGCTATTTCGCGGCGAGGGGCGATACGCAGCGTCTTGAGGCCGAAATCGCGCGCCTGCGCGCGCTTTATCCCAACTGGACGCCGCCTGCCGATCCTCTCGCCATTCCGGAAAACGGCGATCCACGGCTCGACGCCATGTGGCAGCTTTATACCGACGGCCGTTATGCCGAAGTGAGGAAGGCGATTGCCGACCGCCAGCAGGCGGAGCCCGGCTGGCAGCCACCCGACAATCTGACGGGCATGCTTTCCCTTGCCGAAGCGCGCCAGCGGCTCGTCAATGCTTCCGATCTCAAGCAATATACGACAGTGGTGGATACGGCCGCCAATAACCCCAGCCTGCTGACATGCGGCGAGGTCGATGTGCTGTGGCGGGTTGCCGATGCTTTCGCCAATACCGACCGGATGGGACGGGCGCGCGACGCCTATCTCTACATCCTCAACAATTGCACGGTCGCCAGCGACAGGCTCGCCACCGTGCAGAAGGCATCCGCGCTTTTGCCGGCGGAAATGATGGACGAACTGCTGGCCAAGGAAAAACCGGGCGCCGACGGTCAGCTGGAATTTGAACCGGTCAAGAACGATCTCGCCCGCCAGTTCGTGGCCAAGGCAGGGGAGAAGGAGGGCGTTGCCGTTCCTTCGGCCTATGTGATGCGGCTTCAGCGGCTTGCCGAGACCGATAAGCTTGCAAGCGACGCCCTGCTGCTCGGCTGGTACAATATCCGGCAGAAGAACATGGCGGAGGCGGAAAAATGGTTCCGCAAGGCGCGGGAAGAGGAAGACAGCGCATCGGCTTCGCAGGGGCTGGCGCTGGCGCTGATCGACCGTAACGAGCCGCGTGAGGCCGAGGACGTCATGTATAAATGGCGCAAGGCATCCGACGATGCGCTTGCGACCTATCTCGCCGCAACGGCAAATCTTCTCGCGCTGGAGCCGCCGGTGGTCCTGCCGCCGGAGGTGCTGCAACGTATCGCCGCCGAAACGGTGGCGCAGAAGGATGCGGCGACGGCGCAGCAATTCGGCTGGTATTCGCTTGCCTTCCGGCAGACGCCGCTTGCTTTGCAATGGTTCAGCACGGCCCTTGGCTGGAAACCCGACGATGAGCCATCGGCCTACGGCATGGCGGTCAGCTATCACGATCTTCGCAATCTCGCCGGCCTGCGTGGCATCCAGCAGCAATGGGGAGGCCGTTCGCAACGTATCGCCGATGTCGGAACGGCGCGCATGGTGGACCAGCCCGGGCAGGCGGTTGCTCCCATAACCGCGCCGCCGGTTGTCGCACAGGTAACGGCGCCGCCCGTGCAGACGAATGCACCGCAGGGTGAGACGGCGGTGGTTTATAACCCGCCTGTCGTCCAGCAGCCTGAGCCTTCGCGCAAGCAGGCGCGCCGCCCCGCGCAGGTGCAAAGGGAAGCCGGTGCTGCATCGCGCCCGCGTTCCTGCGCGGCCTATCCCGATCCGCAACGTCTGCCGCCACAGCAGGCGCTCGATCTCGGCTGGTGCCTGATGGAGACGAACCGTCCGGCAGAGGCTCTGAAAGCTTTCGAATCCGCGATTGAAAGCGGTCAGTCCAATGTCAAAAGCGATGCAGCCTACGGCCAGAGCCTTGCCTATCTGCGCATGGGCTTGACGGACCATGCAGCCGTCTCGGCGACGAAATCGCGTATGGATCGCCCACGCGCGACGGAGCTGCAGGTTTCGATCCTTGCCGATCGAGCGGTTTCCGCGTTCGGGTCGAAGCGATATGCCGAAACGCTTCTCCTGCTCGACCAGCGGGCGCGGCTGGCGGATGAGCGCACGGACCTGATGGTGCTGCGCGGTTATTCCTACCTCGCCATGCGCCGTTATGGTGAGGCCGCCCAGATTTTCGAAAGCCTCACAGCTATCGGAAACAAGGATGGCATCCGGGGCCTGGCTGCGGTGCGCGCCGCCCGGCCCAGCAACGGTCCACAGGGCGGCTGA	MPMNKPLSTSALILLLIALAAFHWRDSILGRVSDVHTSAVGDNRAVQRVLPTAANPAQINAFVKNREMAQVTQPATPPVTVPATDPLPVTQAGGQAPQTQTVQAPDPRATQPASADMPEVDLSALRYFAARGDTQRLEAEIARLRALYPNWTPPADPLAIPENGDPRLDAMWQLYTDGRYAEVRKAIADRQQAEPGWQPPDNLTGMLSLAEARQRLVNASDLKQYTTVVDTAANNPSLLTCGEVDVLWRVADAFANTDRMGRARDAYLYILNNCTVASDRLATVQKASALLPAEMMDELLAKEKPGADGQLEFEPVKNDLARQFVAKAGEKEGVAVPSAYVMRLQRLAETDKLASDALLLGWYNIRQKNMAEAEKWFRKAREEEDSASASQGLALALIDRNEPREAEDVMYKWRKASDDALATYLAATANLLALEPPVVLPPEVLQRIAAETVAQKDAATAQQFGWYSLAFRQTPLALQWFSTALGWKPDDEPSAYGMAVSYHDLRNLAGLRGIQQQWGGRSQRIADVGTARMVDQPGQAVAPITAPPVVAQVTAPPVQTNAPQGETAVVYNPPVVQQPEPSRKQARRPAQVQREAGAASRPRSCAAYPDPQRLPPQQALDLGWCLMETNRPAEALKAFESAIESGQSNVKSDAAYGQSLAYLRMGLTDHAAVSATKSRMDRPRATELQVSILADRAVSAFGSKRYAETLLLLDQRARLADERTDLMVLRGYSYLAMRRYGEAAQIFESLTAIGNKDGIRGLAAVRAARPSNGPQGG	PGPT0022285_1485	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CELLULOSE_METABOLISM	CE-EPS-CELLULOSE_BIOSYNTHESIS,PGPT0022285-bcsC-K20543	NA	NA
BMS010_03837	1056			hypothetical protein	ATGAAGAACGGGATCTCGAAACTGGCCGGCATTTTCTTCCTGTCCATGATGACGGTGATTGCAGGTATTTCCGTCAGCCGCGCCGCTTCGGTTTCGCCGGAGGCGTGGTCTGCCTATAAAGGCGCGTTTCTCGATCCCGGCGGCCGCGTCATCGATACCGGCAACGGCAATATCAGCCATAGCGAAGGCCAGGGCTACGGCATGTGGCTTGCCGTGCTTGCCGACAACCTGTCCGACTTCGAGCTGATCTGGAGTTTCACGCGCACCGAGCTTTTGGTGCGTGACGACGGGCTTTCCGCCTGGAAATGGGATCCGCGCACCAGACCGCATGTAACCGATATCAACAACGCTACGGATGGCGATATTCTGATCGCCTATGCGCTGGCGCTGGCGGCCGGGCAATGGAACCGGCAGGATTATGCCGAAGCATCCGCGGCCATCGCATCCGCCATTCTCAGGAAGACGGTGGTGCAACGCGGCGGGCGAACGCTGCTTCTGCCGGCGGCCAGCGGTTTCGACGAGGATGACCGGGAGGATGGGCCAGTGGTCAATCCTTCCTATCTGATTTTCGAGGCCTTTCCGGTGCTCAATCTTGTTGCGCCATCGCCGCTTTGGAAAGCGCTTGCCGATGACGGTTTGGCGCAAATCGGGACATTCGCTTTCAGCGATAGAAAACTGCCGGCCGACTGGGTATCGGTGAAGACGAAGCCGCAGCCGGCATCGGGCTTCCCGCCGGAATTCGGCTATAATGCGGTGCGCATACCACTTTATCTCGCAAGGGCGAATATGGGGTCGCCGGAGCTGCTCGCCCGGCTGAAAGGCGGCATGACGCTGGAAAGCGGCGCTGCCGGAACCTTCGACCTGAAGAGCGGAGCGGTCAAGGATGTCCTGTCCGATCCCGGCTATCGCATCATTCCGGCGCTCGCGGCCTGTGTCGGCGGCGGGCCGGCCGTTTCCGCCGAACTCAAAAACTTCCAGCCAACACTTTATTATCCTTCCACATTGCATCTTCTGGCATTGTCCTTTCTGGCAAGGAATAACGGGGAATGCCGATGA	MKNGISKLAGIFFLSMMTVIAGISVSRAASVSPEAWSAYKGAFLDPGGRVIDTGNGNISHSEGQGYGMWLAVLADNLSDFELIWSFTRTELLVRDDGLSAWKWDPRTRPHVTDINNATDGDILIAYALALAAGQWNRQDYAEASAAIASAILRKTVVQRGGRTLLLPAASGFDEDDREDGPVVNPSYLIFEAFPVLNLVAPSPLWKALADDGLAQIGTFAFSDRKLPADWVSVKTKPQPASGFPPEFGYNAVRIPLYLARANMGSPELLARLKGGMTLESGAAGTFDLKSGAVKDVLSDPGYRIIPALAACVGGGPAVSAELKNFQPTLYYPSTLHLLALSFLARNNGECR	PGPT0012170_711	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-CELLULASES,PGPT0012170-bcsZ|wssD|yhjM-K20542	NA	NA
BMS010_03838	2514			hypothetical protein	ATGATCGGCCGTAAACCCATCCGGGATTCTCTGGCAATGTTGGTATGGGGGGCCGTCGCCACGGGCGCGATGGCGCAGTCCTCGCCCTTCGACATGTCGCCGGAACGGCCCGCCCAGACGGCTCCGACACCCGTGCCGCCGTCCGCCGTCGCGCCTGCCGCGCCGCGTCAGCAGCCACCTGCCCAGATTCCGGCCCAAATTCCGGCCCAGACGCCGTCTCAGCCATCCGCCCCGCCGCCATTTGCGGTTCAGCCCGCGCCGCAGTCGCAACAGCGCCCAGCCGTTCCGTTGCCGCCGCTGGTTGCGGCTCCTCCGCGTCAGGAAGGCGCAAGACCTGTTCCTGCAACGGCCCCGTCGCTCAATGCCGACAGCCGCCGCCGATACATTCTGCCCTATGAAAAGCTCAGTCTTTCCGGGGAGATGGACCGGCGGCAATGGAGCATCTATCTGACGCCGGAGCAGGTAAACGCCGCCGTTTCGCTCAATATCGGGTATCAAAACGCCATCGTGGTCGCGCCGGAAAGCTCGAATTTTCAGGTCAGCCTGAACAATGTCGCGCTGGATCCGGCGCGTATCGAAGCGCCCGACAGCGAGGGCAATGTCTCCTTGAAGATACCGCCCGGCGTCTTGCAGGTCGGCTCAAATGTCGTGAGACTGGGCGTGCAGCAGCGCCACAGAACCGATTGCACGATCCAGTCCACCTACGATCTGTGGACCGATGTAGACCCTGCCAATACCTATATCGGCTTTAATGCGGATGTCGCCGGAAGCTTTGCCAATATCGACGATATTCAGGCAACGGGGCCGGATGGCAAGGCGATGACGTCTATCGAGATTGTCGCACCGGCGCTCGGCAATCCGGCATTTGCGGATTCTCTCCTGCGTCTTTCACAGGCGCTGGCGCTCAGAACCCAGATGCCGAACCAGACGATCCGTTTCGTGGCCGCTCCTTCCGCTGAACGCAAGGCGGGCACGCTGACGGTCTTCGTCGGAACGGCCCGCGAGATTGCCGGAATTGCCGGAACGCTGCCACCCGAGGCTTCGGCGGGGGCTTTTGCCGGCTTTGGCGCCGCCGCGCCGGGCGGTCTTTCGCCGCTTTTCGTCAGCGGCCCCACCCCGCAGGCGGTTCAGGCGGCAATTGAGACGCTATTTTCGTCGATATCGCGCACACCCGGTGCGCAGAGAACGACTTTTTCGACCCGAAGCTGGCATGCGCCGGATGTGCCGCTCGTCATGTCGGATCGCCGTATCGCGCTTTCCGAACTTGGTTTCGAAAGCACCGAATTTGGCGGCCGGCGTTTCCGCAACGAATTTTACGTCGGCATGCCAGCCGATTTTTATGCGTCGGCTTATGGTGAGGCGTCGCTTCTTCTCGATGCCGCCTATTCGTCGCAGGTATTGCCGGGCAGCCATGTCGATATCTACGTCAATGACCAGATCGCCTCGACCGTACCGATTTCCAACAATGGCGGCGGTATTTTCCGGCATCTGCCGATCAATGTGACGATGCGTCATTTCAAGCCAGGGCCGAACAAGGTGACCATCGAGGCAGTTTTGATGACGGCGCAGGATCAGGCCTGCGCGCCGGGCGCCCCTGCCAGCACAACGCCGCGTTTTGCATTGTTCGACACGTCGGAACTTCATATTCCGGACTATGCGCAGATCGGCCGCAAGCCGGATCTTGCCGCGATGGCGGGGGCCGGACAGCCCTATCGGACCGGCGGAGCGCCTGTTGCCCTGTCGCTCGACCGTTTCGATACCGATACCATGTCTGCGGCAGCCACGCTGATCAGCCGGCTGGCAAGCGTGGCGGGGCATCCCATCGACATCGAGACTGTCGCCTCGCCGCTGGTGATCGGCGATCGCGACGCGCTGTTCGTCGGTACGATTTCGCAATTCCCGCAGGCATTGATCGGCCAGTTCAATCTTGTTCCCTCCAGCCAGATATCCTGGAAAATGGGAACCGGCGTCCAGCCGCCCGCCCAGAGCAGCGAAACCCTTTTCAACGACTGGCGAGAGCGGGTGGACGGCGGTGTATGGGAGGGGCAGGTGTCTTCTCTCGAGGAATGGATGAAGCGGAATTTCGACCTGAGTTCGGATACGCTACGCTTCCTGCCGGCAGCCGAACAGCTCTATGCGCCGCCAAGCAATGTTTCTTTCATGCTGGCCCAGGGACTGAGCCCCTCCGGCGAAGGGGTGTGGACGCTTGCCACTGCACCAACGTCCGCGGAACTTCTTGACGGGATGGCGGCGATGACGCGGGAAAACCGCTGGCGTGGTGTCACTGGACGTGTTGCCGCTTACGATGCCGCTGCCGAAAAACTTGAAACGGTGGAGGTGGAACGGCCGTATTTTTACGTCACGCGGGCGTTTTCCTTTTCCAACTGGAGGCTGGTCGCGGCCAACTGGCTTTCTTCCAACGTTCTTTCCTATTCGCTGGCGTTCATCGGCTTCGTATCTCTCCTCGGCCTCGCCACTTTCACGATGCTGCGCATGATGGGACGGCATCGATGA	MIGRKPIRDSLAMLVWGAVATGAMAQSSPFDMSPERPAQTAPTPVPPSAVAPAAPRQQPPAQIPAQIPAQTPSQPSAPPPFAVQPAPQSQQRPAVPLPPLVAAPPRQEGARPVPATAPSLNADSRRRYILPYEKLSLSGEMDRRQWSIYLTPEQVNAAVSLNIGYQNAIVVAPESSNFQVSLNNVALDPARIEAPDSEGNVSLKIPPGVLQVGSNVVRLGVQQRHRTDCTIQSTYDLWTDVDPANTYIGFNADVAGSFANIDDIQATGPDGKAMTSIEIVAPALGNPAFADSLLRLSQALALRTQMPNQTIRFVAAPSAERKAGTLTVFVGTAREIAGIAGTLPPEASAGAFAGFGAAAPGGLSPLFVSGPTPQAVQAAIETLFSSISRTPGAQRTTFSTRSWHAPDVPLVMSDRRIALSELGFESTEFGGRRFRNEFYVGMPADFYASAYGEASLLLDAAYSSQVLPGSHVDIYVNDQIASTVPISNNGGGIFRHLPINVTMRHFKPGPNKVTIEAVLMTAQDQACAPGAPASTTPRFALFDTSELHIPDYAQIGRKPDLAAMAGAGQPYRTGGAPVALSLDRFDTDTMSAAATLISRLASVAGHPIDIETVASPLVIGDRDALFVGTISQFPQALIGQFNLVPSSQISWKMGTGVQPPAQSSETLFNDWRERVDGGVWEGQVSSLEEWMKRNFDLSSDTLRFLPAAEQLYAPPSNVSFMLAQGLSPSGEGVWTLATAPTSAELLDGMAAMTRENRWRGVTGRVAAYDAAAEKLETVEVERPYFYVTRAFSFSNWRLVAANWLSSNVLSYSLAFIGFVSLLGLATFTMLRMMGRHR	PGPT0022280_132	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CELLULOSE_METABOLISM	CE-EPS-CELLULOSE_BIOSYNTHESIS,PGPT0022280-bcsB|celB-K20541	NA	NA
BMS010_03839	2190	bcsA	COG1215	Cellulose synthase catalytic subunit [UDP-forming]	ATGAGCAAGGCCATCACAATCATTGTCTGGTTACTTGTGTCGCTTTGCGTTCTGGCCATCGTCACGATGCCGGTCAGCCTGCAGACGCATCTGGTCGCCACGGCGATTTCGCTCATCCTGCTGGCGACGATCAAGAGCTTCAATGGGCAGGGGGCCTGGCGTCTGGTAGCGCTCGGTTTCGGCACGGCCATCGTGCTGCGCTATGTCTACTGGCGCACCACCAGCACGTTGCCGCCCGTCAACCAGCTCGAGAACTTCATTCCCGGCTTTCTGCTCTATCTGGCGGAAATGTACAGCGTTGTGATGCTGGCGCTCAGTCTCGTCATCGTCTCGATGCCGCTGCCGTCGCGCAAGACGAGGCCCGGTTCACCCGACTACCGGCCGACGGTCGACGTCTTCGTGCCGAGCTATAACGAGGACGCTGAGCTTCTCGCCAATACGCTCGCAGCGGCCAAGAACATGGATTATCCGGCCGACCGGTTCACCGTCTGGCTGCTGGACGATGGCGGCTCGGTGCAGAAGCGCAACGCCAGCAATATCGTCGAGGCGCAGGCAGCGCAGCGCCGCCACGAGGAGTTGAAGAAGCTCTGCGAGGACCTCGACGTGCGCTATCTGACGCGCGAGCGCAACGTCCACGCCAAGGCCGGAAATCTCAATAACGGTCTTGCCCATTCGACCGGCGAGCTCGTGACCGTGTTCGACGCCGACCACGCGCCTGCCCGCGACTTCCTTCTGGAAACGGTTGGTTATTTCGAAGAGGATCCACGGCTCTTTTTGGTGCAGACACCACATTTCTTCGTCAATCCCGATCCCATCGAGCGCAATTTGCGCACCTTCGAGACGATGCCGAGCGAAAACGAGATGTTTTACGGTATCATCCAGCGCGGCCTCGACAAGTGGAACGGTGCATTCTTCTGCGGTTCGGCCGCCGTGCTGCGGCGTGAGGCATTGCAGGATACCGAAGGTTTCAGCGGCGTCAGCATCACGGAAGATTGCGAAACGGCGCTGGCGCTGCATTCGCGCGGCTGGAACAGTATCTATGTCGACAAGCCGCTGATCGCCGGGTTGCAGCCGGCCACCTTCGCAAGCTTCATCGGCCAGCGCAGCCGCTGGGCGCAGGGCATGATGCAGATCCTGATCTTCCGCCAGCCCCTTTTTCGGCGCGGTCTCTCGTTTACGCAGCGCCTCTGCTACATGTCATCGACGCTGTTCTGGCTGTTTCCGTTCCCGCGCACCATCTTCCTGTTCGCACCGCTGTTCTACCTGTTCTTCGATCTTCAGATTTTCGTGGCCTCGGGCGGCGAGTTTTTGGCCTATACGGCTGCCTATATGCTCGTGAACCTGATGATGCAGAACTATCTCTATGGCAGCTTCCGCTGGCCGTGGATTTCGGAACTTTACGAATATGTGCAGACGGTTCACCTCCTGCCCGCCGTCGTTTCGGTGATTTTCAATCCCGGCAAGCCCACCTTCAAGGTGACGGCGAAGGATGAATCCATTGCCGAGGCGCGGCTTTCGGAAATCAGCCGGCCGTTCTTCGTCATTTTCGCGCTGCTGCTGGTGGCGATGGCCTTTGCCGCCTGGCGCATCTACAGCGAGCCTTACAAGGCGGATGTCACGCTTGTGGTCGGCGGCTGGAACCTGCTCAATCTCATCTTTGCAGGCTGTGCGCTCGGCGTCGTTTCCGAGCGCGGCGACAAGTCGGCGTCGCGGCGCATCACGGTCAAACGGCGTTGCGAAGTCAAGCTCGAGGGTAGCGACGCCTGGGTGCCGGCTTCCATCGATAACGTGTCGGTGCATGGCCTGCTGATCAATCTCTTCGACAGCGCGACAACCATCGAAAAAGGCGCGACTGCCATCGTCAAGGTCAAGCCGCATAGCGAGGGCGTGCCGGAAACCATGCCTGTCAACGTGGTGCGAACGGTGAAGGGCGAGGGTTTCGTCTCGATCGGCTGCACCTTTTCGCCGCAACGCGCCGTCGATCACCGCCTGATTGCGGACCTGATCTTCGCCAATTCGGAACAATGGAGCGAATTCCAGCGGGTGCGCCGCAAGAACCCCGGCCTTATCCGTGGTACGGCCATCTTCCTGGCCATATCGCTCTTCCAGACGCAGCGCGGCCTTTATTATCTGGTCCGAACGCTTCGGCCTGCTCCCAGAGACGCCAAACCTGTCGGAGCGGTAAAATGA	MSKAITIIVWLLVSLCVLAIVTMPVSLQTHLVATAISLILLATIKSFNGQGAWRLVALGFGTAIVLRYVYWRTTSTLPPVNQLENFIPGFLLYLAEMYSVVMLALSLVIVSMPLPSRKTRPGSPDYRPTVDVFVPSYNEDAELLANTLAAAKNMDYPADRFTVWLLDDGGSVQKRNASNIVEAQAAQRRHEELKKLCEDLDVRYLTRERNVHAKAGNLNNGLAHSTGELVTVFDADHAPARDFLLETVGYFEEDPRLFLVQTPHFFVNPDPIERNLRTFETMPSENEMFYGIIQRGLDKWNGAFFCGSAAVLRREALQDTEGFSGVSITEDCETALALHSRGWNSIYVDKPLIAGLQPATFASFIGQRSRWAQGMMQILIFRQPLFRRGLSFTQRLCYMSSTLFWLFPFPRTIFLFAPLFYLFFDLQIFVASGGEFLAYTAAYMLVNLMMQNYLYGSFRWPWISELYEYVQTVHLLPAVVSVIFNPGKPTFKVTAKDESIAEARLSEISRPFFVIFALLLVAMAFAAWRIYSEPYKADVTLVVGGWNLLNLIFAGCALGVVSERGDKSASRRITVKRRCEVKLEGSDAWVPASIDNVSVHGLLINLFDSATTIEKGATAIVKVKPHSEGVPETMPVNVVRTVKGEGFVSIGCTFSPQRAVDHRLIADLIFANSEQWSEFQRVRRKNPGLIRGTAIFLAISLFQTQRGLYYLVRTLRPAPRDAKPVGAVK	PGPT0022275_846	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CELLULOSE_METABOLISM	CE-EPS-CELLULOSE_BIOSYNTHESIS,PGPT0022275-bcsA|yhjN|celA-K00694	NA	NA
BMS010_03840	903			hypothetical protein	ATGCTGTCTCCTTCCGAGGCGCTGGTTTTCCCGCCGCCCGGTGGTCCTGAAATCGTGACCGTGGTCAACCGCACCTATTCCAATGCCGTGGCGCAGCAGGTCATCTTGCGCTCCGAGGCCACCACCCCCGGGCAGAACTACATCAAGGCGGAGTTTTTCGGCCCGCAACAGGCTGGCGAGACCGGTGGCGACGCTTTGGCTTTTTCCGGTTTCAGGGCATCTTCCGTCGCGCGGGAAATCCGCGCCGAGTTTCCGGGCGAAAATATCGCCATGTCGGCAAATTACCTGCAGAACGGTTATGGCGCGTTCTCCTATGCCGCCGGCAGCGGCCGTGGCGACGATACCTGCCTTTATGGCTGGCAGGACATACGCTCGCCGGAAAGCATGCGGCAGGATTTCCGCAATCTCGGGCGTATCAAAGTGCGGCTGCGCCTTTGCCAGTCGGGCGCCAGCGTCGAGCGGCTGCTGGCGGTCATGTATAATTACACGATTACCGGAACCTATGCCTCGCCCAGCTGGAACCCTTACGGCACGCCGCAGGCGGTCGATAAAAATCTCGGGCGTCCGGGCCATCCGGTCTATCCCATAAAGACGGATGAGGTGCCGATGCGGCCCGGCAGCGAGGTGACCGCGAGCCTGCCGCCCCGGCCCGTTCGTCGCACGGCTGCCGTTGCACCGCCCGCCCAGCCGGAACCGCAGCCGCTTCCACCCGTTGCTGCAGTCAGTATCCCGTCGCCCGCATCGGCTGGCGCACCCTTCCAGCCTGCAAGGCCCACGGTGGCGGGCAGGCGCCTGGATGGTGTGCCGGCGGATGCAGGCCGGCAACCGTCGCAGGTCCCGCAGGTCTCCATTCCGTCGCCCGCATGTCTGTCCGGTTCGGGGGTGGCGTCAGGATGCAGGTGA	MLSPSEALVFPPPGGPEIVTVVNRTYSNAVAQQVILRSEATTPGQNYIKAEFFGPQQAGETGGDALAFSGFRASSVAREIRAEFPGENIAMSANYLQNGYGAFSYAAGSGRGDDTCLYGWQDIRSPESMRQDFRNLGRIKVRLRLCQSGASVERLLAVMYNYTITGTYASPSWNPYGTPQAVDKNLGRPGHPVYPIKTDEVPMRPGSEVTASLPPRPVRRTAAVAPPAQPEPQPLPPVAAVSIPSPASAGAPFQPARPTVAGRRLDGVPADAGRQPSQVPQVSIPSPACLSGSGVASGCR				NA	NA	NA	NA	NA
BMS010_03841	1185			Cellobiose 2-epimerase	ATGACATTGCAATTTCCGAGCATCGCGCAGACGCTTGCCGAAGAGATCGGAAGATTACGCAAATGGCTGGATGAGGACGCCCTGCCCCTGTGGTGGGAGGCGGGTTCGGCCCGGCCGGATGGCGGCTTTTACGAACGTCTCGGCCAGGATGCGAAACCGGTTTTTTCCGATGACCGCCGCGCCCGCGTGCAGCCGCGTCAGGCCTATTGTTTCGCCGCCGCCGGCCAGCATGGCTGGCAGGGACCGTGGAAAGACGCGCTCCTGCACGGGCTTTCCTGGTTCGAGAAGGTCTACCGCCTTGAAAACGGCCTTTACGGCAACCTTGCCGACCAGACGGGCCGGCTGATCGATCCCTCCTTCGATCTCTACAATCAGGCCTTTGCGCTGTTTGCCGCCGCACAGGCGGCTGCAAGCCTTCCCGAGCGCCGGGACGAGATGCGCGGCCGGGCGCTCGATATCCTTGCCATCCTCGAACGCGACTACAGACATCCGGTCGCCGGCTTCGAGGAAGCGAACCCGCCGCGCACCCCGCTCTGCTCCAATCCGCACATGCATCTCTTCGAGGCGATGCTGGCCTGGGAAGTGCAGGATCCGGACGGCCCGTGGTCGGCGCTGGCCGACGAGATCGCCGATCTTGCGCTTAACCGCTTTATCGATGGCGGCAATGGCGGCTTGCGCGAATTCTTCGCCCATGACTGGACGCCCTATGAGGGCGAGAAAGGCCGCATCATGGAGCCGGGCCACCAGTTCGAATGGGCGTGGCTTCTGGTGCGCTGGGGCAGCCTGCGTGGGAATGATGAAGCGATCAGGAAGGCAAAACGCCTCTTCGAGATCGGCGAAGAACACGGCATCTGCCCACGCCGCAAGGTGGCGATGATGAGCCTCTATGACGATTTTTCGGTGCATGACGGGCTGGCGCGGTTATGGCCGCAGACGGAATGGCTGAAGGCTTCGGTGCGGCTTGCGAGCGTCACGGGCGGTGAGGAGCGTCAGCGTTACCTCGCCTCCGGTCTCAGCGCCATCGGCGCGCTGCAGCCTTTCCTCGACACGCCGGTCAAGGGCCTGTGGTTCGACAAATGGCCGGCCGACAGGCCGATGCTCGATGAGCCGGCGCCGGCAAGCACGTTTTATCACATCGTCTGCGCCATATATGAGGCAGAGGCGGTGCTGGCGACGGCTAGCTAA	MTLQFPSIAQTLAEEIGRLRKWLDEDALPLWWEAGSARPDGGFYERLGQDAKPVFSDDRRARVQPRQAYCFAAAGQHGWQGPWKDALLHGLSWFEKVYRLENGLYGNLADQTGRLIDPSFDLYNQAFALFAAAQAAASLPERRDEMRGRALDILAILERDYRHPVAGFEEANPPRTPLCSNPHMHLFEAMLAWEVQDPDGPWSALADEIADLALNRFIDGGNGGLREFFAHDWTPYEGEKGRIMEPGHQFEWAWLLVRWGSLRGNDEAIRKAKRLFEIGEEHGICPRRKVAMMSLYDDFSVHDGLARLWPQTEWLKASVRLASVTGGEERQRYLASGLSAIGALQPFLDTPVKGLWFDKWPADRPMLDEPAPASTFYHIVCAIYEAEAVLATAS	PGPT0017860_1733	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-GLUCOSE-MANNOSE-FRUCOSE_CONVERSION_MODIFICATION,PGPT0017860-manA-K01809	NA	NA
BMS010_03842	963			hypothetical protein	ATGCAGATAACAAGAAGAAAACTTCTGTTCGCAGGTGGTGCCGCCGCAGCCTTTACCGCCGGCATGTATCCGGTGCTCAAGCTCGACGCGCAGGGTGTCGCCCCCATGACGTCGACGGGCATGAAGACACTTGCCGACAAAAGACCGACATTGCATGCGGACGGCATCCGTTTCGGTGCCTACGATCCGCACGGCGATTTCACGGCCCAGACCGGGGTGGCGACGGAACATCTGTTCCTGCCCTGGGAGGACGTGGATCTCGACAGTCTCGCACTTGCGGATGCCTACGCTCTGGAGCGCAAGCGCAACGTGCTGATCACCGTAGAACCCTGGTCCTGGGACGTTAACTGGCGGCTCACCTCCGACGAGTTGCGCCGCAAGGTGATGAGAGGCGACTATGACCAGAACATGCAGGCGATCGCCGCACGCATGTCGGCGATGAAAAGTCCTCTGATCCTGCGCTGGGGACAGGAAATGGAAGACACGTCCGGCCGCTTCTCGTGGTCGGGCTGGAACCCGCGTGATTACATCACGGCGTATAAACGCATGGTGGACATGACCCGCAAGGCGGTTCCCAGCGTCAAGGTGATGTGGTCACCGAAAGGTCTGGACGGTCTGCAGGCCTACTACCCCGGTGACAGCTACGCCGATCTGGTGGGCCTCTCGGTCTTCGGTCTCGAGGAGTACGACAAGATCGAATATGGCGGACCGAAGACCTTCACTGATCTGCTGCGCAAGGGCTATGGACTTGTCGAAACCTTCAACAAGCCGGTCTGGGTTGCCGAACTGGGTTATGAAGGCGGCGATTCCTATGTTCGTCCGTGGATGAATGATGTGACGCTGAAACAGGCGGATTTTCCGAAGCTGGAAGAGGTCGTCTATTTTAACGACAAGGATGTTCACCCCTGGCCGCACAATCTCGGCAGACCGGACTGGCGCGTCGTGCGCCCGGCCAAGGTCTGA	MQITRRKLLFAGGAAAAFTAGMYPVLKLDAQGVAPMTSTGMKTLADKRPTLHADGIRFGAYDPHGDFTAQTGVATEHLFLPWEDVDLDSLALADAYALERKRNVLITVEPWSWDVNWRLTSDELRRKVMRGDYDQNMQAIAARMSAMKSPLILRWGQEMEDTSGRFSWSGWNPRDYITAYKRMVDMTRKAVPSVKVMWSPKGLDGLQAYYPGDSYADLVGLSVFGLEEYDKIEYGGPKTFTDLLRKGYGLVETFNKPVWVAELGYEGGDSYVRPWMNDVTLKQADFPKLEEVVYFNDKDVHPWPHNLGRPDWRVVRPAKV	PGPT0018620_5838	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-CELLULASES,PGPT0018620-celJ|eglA|eglS-K01179	NA	NA
BMS010_03843	504			hypothetical protein	ATGAAAACAACAATAAGCAAATGCGGATTCTCCGCTTTCGTACTCTGTCTTGCGGTGGTCGTGCCAAGCGCGGTCCACGCTGCAGGCGGCACGAAGACGCCGAAACCGCTCAGAACCAGCGAAGTCGTGGACATGTACTTCGACAAGACCTGGAAATGGGAAACGGGCGGTGGACGCTTCATCGCCCAAGACCGAAAATTCATCGCCGCAACGGAAGAAAAGGGCAAGAAGTCCATCGGTGAAGGCCGCTGGACCGTCGATGCCAACGGCACCCTGTGCATGCGCGCCACCTGGAAAAGCGCGGCAGGAAACGGCAAGGCCGATACCTGCTTCGACCACGGTCGCATTGGCAAGGTGCTCTACCAGCGCAAGCAGGGCGGGCCATGGTACGTGTTCCGGCACAACCCGCCACGCCCTGGCGATGAATTCCTCAAGCTCGTCCGCAAGGACGATGTCACGCCGCAGATCGCCGCCTACGACAAGGCGATGACGGCAACAAGGTAG	MKTTISKCGFSAFVLCLAVVVPSAVHAAGGTKTPKPLRTSEVVDMYFDKTWKWETGGGRFIAQDRKFIAATEEKGKKSIGEGRWTVDANGTLCMRATWKSAAGNGKADTCFDHGRIGKVLYQRKQGGPWYVFRHNPPRPGDEFLKLVRKDDVTPQIAAYDKAMTATR				NA	NA	NA	NA	NA
BMS010_03844	1938			hypothetical protein	ATGAAAGCCCATTCCACCCCTTCCGTTCCATCGGCCCGTGCGGTTGCAGTCGCCAGTGATTTGCGGATGCTGCCGGTCTTTGCCGGCTGGAACCGCACGGCCTATCTTCTCGGCATTGGCGGCTGGCTGGTGACGCTCGCCTATTTCTGGATCTGGTGGCTCGATCGCGATCGTGTCATCGACTGGCCCTATTATACCGTCGTGACGATAACGCTCGCGTGGATCACGCTTCTGCCATCCTATTTCATCTTCATCTTTCTGAACGCGAAGGTTGTCGACCGGCGCTCCCCTCTGCCACGGGGCAGGGTGGCGATGGTCGTCACCAAGGCGCCGTCGGAACCTTTCGCGGTGGTGCAGAAGACGCTGCTGGCCATGCTCGAACAGAAGGGCCTGGAATTCGATGTCTGGCTCGCGGATGAGGCTCCGGATGCGGAAACGCTGAAATGGTGTGGCGCGCACGGCGTTTTCGTTTCCACCCGACAGGGCGTTGCGGAGTATCATCGCAAGACCTGGCCGCGGCGCACACGCTGCAAGGAAGGCAATCTCGCTTATTTCTACGATCACTACGGTTACGAGCGTTATGATTTCGTCGCCCAGTTCGACGCGGATCACGTGCCGGAACCGGATTATCTGCGCGAGATCATCCGTCCCTTTGCCGATCCGAAGGTTGGATATGTTTCGGCCCCGAGCATCTGCGACGCCAATGCCGGTGAAAGCTGGGCCGCGCGCGGCAGGCTTTTTGCCGAGGCGAGCCTGCATGGCGCGCTGCAACTGGGTTACAATAATGGCTGGGCGCCGCTCTGCATCGGTTCTCATTATGCCGTGCGCACGAAAGCCCTGCGGGAGGTCGGCGGCCTTGGGCCGGAGCTCGCCGAGGATCATTCCACCACGCTTTTGATGAATGCCGGCGGCTGGCGCGGCGTTCACGCCGTCAACGCCATCGCCCATGGCGACGGGCCGGTGACCTTTGCCGATCTCATCGTGCAGGAATTCCAGTGGTCGCGCAGCCTGATGACCATTCTGCTACAATATTCAAGGCACTATGTGCCGAAGCTGCCGCCGCGGCTGAAGTTCCAGTTCCTGTTTTCGCAGCTCTGGTATCCGCTGTTTTCCGGCTTCATGGCGCTGATGTTCGTGCTTCCCGCCGTTGCGTTGATGCGCGGCGATGTGCTGGTCAACGCATCCTATCCGGCGTTCCTGGCGCATTTCCTGCCGGTTTCGCTGATCATGATCGTGTTTGCCTTTTTCTGGCGGGCCACGGGCGCGTTCCGTCCGCATGATGCGAAGCTCTTCAGCTGGGAGGCCATGGTATTTCTGTTCCTGCGCTGGCCCTGGTCGCTGATGGGCGTGCTGGCGGCGATACGCGACACGATCCGTGGCGATTTCGTCGATTTCCGCATCACTCCCAAGGGCACGCAGGCAAAACCGCCGCTGCCGCTGAGGGTCGTGGCACCCTACATTCTTCTGGCGGCGCTCAGCCTCGTGGCCATGGTTCTGGCGCCGCGGGAAAACGGGGCGGAGGGCTTCTTCGTCTTCGCCGCCATCAATGTGGCGATCTATGCGGGCCTTTCGGTGTTTCTGCTCATCCGCCATGCGATGGAAAACGGCTTGCCAAAGCTGCCGGCATTGCGCGGGGGAGCGACTGCCGCCGCCTGTTCATTGCTGCTGGTGGCGGGCAGTGCCGTACAGCTCAGCTCCCATGCGATCGGCGGGCTGGAGGCCCTGTCGCACGGGCAGCCCTATGTCAGTTTTACCGAAACGCGGTTCACGGTCGCCGGTGCGGGCGTGGAAGGTGCGAGATCGGTGCGTCTGAAACTGCGCATTACCGTACCGGGACTGCGCGGACCGCAGGAAATGCAGGCGGAACCCATCGTGGCGCCGCCGCCGGCGGTGGCGACCGGAGAGATCATGCTGGCCGACAATAGGGTCGGACAATGA	MKAHSTPSVPSARAVAVASDLRMLPVFAGWNRTAYLLGIGGWLVTLAYFWIWWLDRDRVIDWPYYTVVTITLAWITLLPSYFIFIFLNAKVVDRRSPLPRGRVAMVVTKAPSEPFAVVQKTLLAMLEQKGLEFDVWLADEAPDAETLKWCGAHGVFVSTRQGVAEYHRKTWPRRTRCKEGNLAYFYDHYGYERYDFVAQFDADHVPEPDYLREIIRPFADPKVGYVSAPSICDANAGESWAARGRLFAEASLHGALQLGYNNGWAPLCIGSHYAVRTKALREVGGLGPELAEDHSTTLLMNAGGWRGVHAVNAIAHGDGPVTFADLIVQEFQWSRSLMTILLQYSRHYVPKLPPRLKFQFLFSQLWYPLFSGFMALMFVLPAVALMRGDVLVNASYPAFLAHFLPVSLIMIVFAFFWRATGAFRPHDAKLFSWEAMVFLFLRWPWSLMGVLAAIRDTIRGDFVDFRITPKGTQAKPPLPLRVVAPYILLAALSLVAMVLAPRENGAEGFFVFAAINVAIYAGLSVFLLIRHAMENGLPKLPALRGGATAAACSLLLVAGSAVQLSSHAIGGLEALSHGQPYVSFTETRFTVAGAGVEGARSVRLKLRITVPGLRGPQEMQAEPIVAPPPAVATGEIMLADNRVGQ	PGPT0022275_1348	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CELLULOSE_METABOLISM	CE-EPS-CELLULOSE_BIOSYNTHESIS,PGPT0022275-bcsA|yhjN|celA-K00694	NA	NA
BMS010_03845	984	galE_2	COG1087	UDP-glucose 4-epimerase	ATGCCCCGCACAATCCTCGTCACGGGCGGGGCCGGATTCATAGGCAGCCACATCTGCAAGGCGCTGGCCCAATCCGGCTTCAAGCCTATCGCTTACGATAATCTCTCGACGGGTCACGCGGATTCGGTTCGCTGGGGTCCCTTAATCGAAGGCGACATTCTGGATCGTGGCCTCTTGAAAGCCACCCTCAAGGAGTTCTCGCCGGCCTTCGTCATCCATTGCGCCGCCAACGCCTATGTCGGTGAGTCCGTCGAGGATCCACGCAAATATTACCGCAACAATGTCGGCGGCAGTCTCGCGCTGCTGGATGCCTGTCTCGACCAGAATATCGGCGGGCTGGTGTTTTCTTCAAGCTGCGCCACCTATGGCGTGCCGCCGCAATTGCCCATCCGTGAGGAAACGGCGCAAATGCCGGTCAATCCTTACGGGCGCACGAAGCTGATCTTCGAAATGGCGCTGGAGGATTATGCCGCTGCCTACGGTCTGCGTTTCGTGGCGCTGCGTTATTTCAATGCCGCCGGGGCCGACCCGGACGGTGAGCTTTACGAGCGCCATGAACCTGAAACCCATCTGATCCCGCGGGCACTGATGGCGGCTGCCGCAAAGCTTCCGCAACTGGATGTCTTCGGGGCGGATTACGACACCAGCGACGGCACCTGCATTCGCGATTATATCCATGTCAGCGATCTGGCCGATGCCCATGTGGCTGCCGTCAATTATCTTGCCGAGGGCGGAGAGACGCTGCGCGTCAATCTCGGTTCCGGTCACGGTACATCGGTCGGCGATATCATCCGGGCGATCCATCGCGTAACGGGGCAGGAAGTTCCGGTGCATTTCGGCGCAAGGCGCGCCGGAGATCCGCCAGCCCTGTTTGCGGATATCAAACGTGCGGAAGAAACGCTCGGTTTTACCCCGAAGCGTTCGGATATCGACACCATCATCCGGACGGCAGGTCCCGGTTTCGGACTGGAGGTGCGGTCATGA	MPRTILVTGGAGFIGSHICKALAQSGFKPIAYDNLSTGHADSVRWGPLIEGDILDRGLLKATLKEFSPAFVIHCAANAYVGESVEDPRKYYRNNVGGSLALLDACLDQNIGGLVFSSSCATYGVPPQLPIREETAQMPVNPYGRTKLIFEMALEDYAAAYGLRFVALRYFNAAGADPDGELYERHEPETHLIPRALMAAAAKLPQLDVFGADYDTSDGTCIRDYIHVSDLADAHVAAVNYLAEGGETLRVNLGSGHGTSVGDIIRAIHRVTGQEVPVHFGARRAGDPPALFADIKRAEETLGFTPKRSDIDTIIRTAGPGFGLEVRS	PGPT0019010_391	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_UDP-ARBINOSE-XYLOSE_POOL,PGPT0019010-uxe-K12448	NA	NA
BMS010_03846	1023		COG1088	UDP-glucose 4-epimerase	ATGCGTAATTTCGTTCCCAACGAACACGACAACGGCGTCACCATCTACTCCGAATGGAGACCTGGCCAACGCGTTCTCGTCAATGGCGGCGCCGGTTTTCTCGGTTCCCATCTTTGCGAACGCCTGTTGAGCTGCGGCCACGAGGTGATCTGTCTCGACGATCTTTCGACCGGACGCACCGCGAATGTGGCGCATTTGCGGGAAAATAAGCGGTTTTTGCTGGTCGAGCACGATGTGCGCAAACCGTATGACATCGATGTCTCGCTGATCTTCAACTTCGCTTCGCCGGCTTCACCGCCCGACTATCAGCGCGATCCGGTCGGCACGCTGCTCACCAATGTCCTTGGTGCGGTCAATGTGCTGGAAGTGGCGCGCAGATGTGGTGCAACCGTCGTGCAGTCGTCGACATCGGAAGTCTATGGCGATCCGCACGTCAATCCGCAGCCGGAAACCTATTTCGGCAATGTAAATACAATCGGGCCGCGAGCTTGTTACGATGAAGGGAAGCGCAGCGCCGAAACGCTGTTTTTCGATTATCACCGTAGTTTCGGTGTCGATATCAAGGTGGGACGCATCTTCAACACCTATGGGCCGCGCATGCGACCCGATGACGGGCGTGTGGTTTCGAACTTCATCGTCCAGGCGCTGAAGGGCACCGACATCACCATTTACGGCGATGGCAGCCAGACCCGTTCCTTCTGCTATGTCGATGACCTGATCGACGGTTTCCTGCGCTTTTCGGCCAAGCCGAAGGATTGCACCGGGCCGATCAATCTCGGCAACCCGAGCGAAATTCCGGTGCGGCAGCTCGCCGATATCGTCATCCGCATGACGGGTTCCCGTTCGCGCATCGTGCATCTGCCCGCCGCGATCGACGATCCGCAGCAGCGCCGCCCCGATATTTCGCGGGCAAAGGAACTGTTGAGATGGCAGCCGCGCGTGCCGCTCGAAATCGGCCTGGAAAAAACCATCGTCTATTTCGATGCATTGCTGGCCGGCAAGGTTGTGGCGGAGGCCGTATGA	MRNFVPNEHDNGVTIYSEWRPGQRVLVNGGAGFLGSHLCERLLSCGHEVICLDDLSTGRTANVAHLRENKRFLLVEHDVRKPYDIDVSLIFNFASPASPPDYQRDPVGTLLTNVLGAVNVLEVARRCGATVVQSSTSEVYGDPHVNPQPETYFGNVNTIGPRACYDEGKRSAETLFFDYHRSFGVDIKVGRIFNTYGPRMRPDDGRVVSNFIVQALKGTDITIYGDGSQTRSFCYVDDLIDGFLRFSAKPKDCTGPINLGNPSEIPVRQLADIVIRMTGSRSRIVHLPAAIDDPQQRRPDISRAKELLRWQPRVPLEIGLEKTIVYFDALLAGKVVAEAV	PGPT0019015_1217	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_UDP-GALACTOSE-XYLOSE_POOL,PGPT0019015-uxs-K08678	NA	NA
BMS010_03847	351			hypothetical protein	ATGACGAATGAAATGCCTTATTCCCATAGCGGCAAAGCAGCCCGCCATTGTCGCTTCGCGCTTGTTGCCGCAGCACTTGTAACTTTCACCTTCGCGACGGCTTCATGCTCCGTGGTTGAAGACGCCGTTCTCATCAAGACCGCGTCGGCCAATACCGCCACGACCAAAAGCAGCGTCGTTCCGGCGAAGGCGTCCTACGGTTATCAAAAACCCGGCAACGCGGCCGTTACGCTTGTTGCCGATGCCTCGGGCGCACCCGCGGTATCTCGGCAGTCTTACTCGGGCTCCTCTCCCTACATCTGCTCACCGAGCGGATTCGGGCAGAAATCCCGCTGCTTCCTGAGGCCCTGA	MTNEMPYSHSGKAARHCRFALVAAALVTFTFATASCSVVEDAVLIKTASANTATTKSSVVPAKASYGYQKPGNAAVTLVADASGAPAVSRQSYSGSSPYICSPSGFGQKSRCFLRP				NA	NA	NA	NA	NA
BMS010_03848	774	csgD	COG2771	putative csgAB operon transcriptional regulatory protein	ATGTTCATGGGAACGTCAGATTATGCGGCAAAACAAAAAAACGCCGTTGCTCCTATAAATGGAACTTTATTGGTCATAGCGGATCCGGACCTGTTTTCCGAGTGCCTCATGGAGGCGCTGGGCAAAAAGTTCCCCACATTCGCGGTGGTGAGTGTAAGGTCGTCGGCGGGCATCGAGGACGACTACGGTAACAATGTACGGCTGGTTTTGCCTTACAGGATGTCGGGGGACCGTCTTCATGCCGTTCTTTCGGAGGTTCGGGAAAAACATCCCGATGCGCCGATCGCGCTCGTCGTCGAAACCATCGATAAATTCGAGGAGCCGCTGAAAAGGCTGGTGGGAATGCGCGTCATCGATGGCGTGCTGCCGCTCAATCTCAGGCTCGATGTTTTCATGGCGGCTGTCGATCTGCTCATGAAGGGCGGGGAACATTTTCCTGCCGCTCTTCTCGGCAAGCTCACGCCCTATTCGCCTTCGGTCAACAGCAAGAGCGTTCAAAGCGATGCCGTGATCGCCAACCGCGCCGATGCCCTTGCCGCAAGCAGGGGCGACGTGGCGGCGCTGACGACACGCGAGGTGCAAATCCTCGACCTGCTTTGCAAGGGAACGCAAAACAAGATCATCGCTGATCGGCTGCATCTGTCCGAGAACACCGTCAAGGTTCACGTTCGCAATATCTATAAGAAAATGAACGTGCGCAACCGCACGGAGGCGGCGTCGCGCTTCTTCAACAAAGATGAAGACACGACGTTCTCCGGCGGCTGGAAGAACTGA	MFMGTSDYAAKQKNAVAPINGTLLVIADPDLFSECLMEALGKKFPTFAVVSVRSSAGIEDDYGNNVRLVLPYRMSGDRLHAVLSEVREKHPDAPIALVVETIDKFEEPLKRLVGMRVIDGVLPLNLRLDVFMAAVDLLMKGGEHFPAALLGKLTPYSPSVNSKSVQSDAVIANRADALAASRGDVAALTTREVQILDLLCKGTQNKIIADRLHLSENTVKVHVRNIYKKMNVRNRTEAASRFFNKDEDTTFSGGWKN				NA	NA	NA	NA	NA
BMS010_03849	966			hypothetical protein	ATGGGTTACGATCACAAGGCATCCGGCAGCGACGACGACATCACCAAGATCGGCGCGCTTTCCGATGGTTTCGCCAACACGTCTACCAATGACGCCAAGGTGGAAGACAGCAACGTCGGCACCGCAAACGGTGAAAACCGCAACAACGACAACAGCGACAACAGCACCAATGTGGATGTTGACGCCAAGATCGATGTTGAAGCCAATAACGGTGACAATCGCGACAACGACTATGACTGGAGCTATGACAGCAAGTCCTATAGCGACAACGACACGACCACCAAGACCAGCACCGAAACCAACACCGATATCAAGGTCGACTACGACTGGAGCTATGAAAGCAAGTCGTACAGCGACAACGACACCAATGTAAAAACGATCACGGATACGGACACAAAGACGTCCAACTATTCCGACAACGACACCTCCACCAAGACCACGACGACCTCCGACAGCTTCAACTCCGCGGACAGTTTCTACAAGTCGGATGACGACTTCGGCAACATCACGGGCGTCAAGGATGTCGGCAATCTCGGCATCGCCGGCGGAGACCTCACCTTCAATCTGGGTGACGACTTCTCGTTCACTCTCGATGTCGACAATATCCTCAACGGCTCGCTCAACGGCGATGGTAACGACACCGGCTTCAGCATGGTGCAGGCCAACCACCTGGCAGACCAGGATGAGGCCTACGACATCAAGATGCAGAATGGCGGTGCGGAAAACCACCTGAGCGCCAATGCCGGTGACGCCTATGGCGCCGAGGGCATCGACGGCAAGGGATGGGATCTCAAGGCCGGCGACGACGCAGCAGGTACCAGCACTGCGGATGCATCGGCAATCCTTGCAAACTCCGGCTTCCATCTGGAACTGGTGCAGGGCGCCAACATGCTCTCCAACGCAGTTGATGTCACGATCACAGGCGGTAACTCGAATGTGTCTGATGTCGGTGAGGATCACTCCTGA	MGYDHKASGSDDDITKIGALSDGFANTSTNDAKVEDSNVGTANGENRNNDNSDNSTNVDVDAKIDVEANNGDNRDNDYDWSYDSKSYSDNDTTTKTSTETNTDIKVDYDWSYESKSYSDNDTNVKTITDTDTKTSNYSDNDTSTKTTTTSDSFNSADSFYKSDDDFGNITGVKDVGNLGIAGGDLTFNLGDDFSFTLDVDNILNGSLNGDGNDTGFSMVQANHLADQDEAYDIKMQNGGAENHLSANAGDAYGAEGIDGKGWDLKAGDDAAGTSTADASAILANSGFHLELVQGANMLSNAVDVTITGGNSNVSDVGEDHS				NA	NA	NA	NA	NA
BMS010_03850	2019			hypothetical protein	ATGCATATCGACAAGATTTCGGACATGATTGCGCATTTCATCGGCCTGTTCGACACGGTGATCGAGGAAGCGCGTCTGAGAGCCAACTATACCGAAGGCCCGGCGCATTCCAATCCGGACCGTTTGCCGGACGATGAAGCAGCAAAGCTGCTCGACAAGAACTATGACGTTGCGCTCAAGGACTACGATCCCGGCGTCAACTACCGCGCCGGCTATTATGATTTCGATTATCTGCAGCCGCATTTCGCGCGAATGGTCGAACACGACATGCAGCGGCTCGCAGATGCCATCCCTGTCGATATTTCCGGCGTCAATTTCCGTTTTCCCGGCCGTCTTTCCTTTGAGGAGGAATATGAACTGGTGGTTCACACCGGTCCCGGTTCGGTCATCGCGCATGTGGCGCAGGTCAATATTCTTCAGGACGACGACTATCTGAACATGACGGACGGCCCTTTTGTGTGGCGCGACACCAGCTTCGCCACAGAGCGCACCGTCGAGTTCTACAATGAAGCGTCCGTCTTCACACCTTTTTCCAATTTCCAGCGGACCGACAGCTACGACGCCCTGCAGGCGCTCGCCAAATCCGCGCACGACTATATCGACCATGCCCGCGAAAACGACGTGACGTCGCTCGGCACCGGTGCGGATCAGGATTTCGTTTTGGCCGGCAATGACATCGACGGGCTTTACATCAATGGCTCGATAGCCAGCGAAAAGCCAATGCTCGACGACTACATGCCCGATCGCGGCATCGCCAAGCCGGCGGAAGAGCCGGAAAAGAGCGATGTTTCGCTGCATGAGGACAGCCCTGCCGGCAACAGCCTCGATGTCGCCGCAGGCGCCAATGTGGTCGCCAACATCGCCACGCTGGTCAATACCGGCGTCATGACGTCGGTAACCGCCGTCATGGGCGACTATCATCAGATCGACGCGATCACCCAGGCCTATATCTATAGCGACCGGGACGAGATCGACTCCGTTTTCACACGGTCGGAAGATCAGGCGTCAACGGTAGCCTTCAATATCGCCAGCTTCGAGCGCAGCGTCTATCCGGGCGCGGAAAACACGGAGAACAGCAGCCAGGAAAACGGCGAACCGCCGATATTTCCGACCGCCTGGCGCGTCAGCGTGCTGGAAGGCGACGTTTCCTTCGTCCACTGGATCGAGCAATACCAGTTCGTCAGCGACAACGACACGATGACGATAACGACCTCGGGCGCCACCGTCAGCCTGCTGACAGGCGGCAACGCCGCGCTCAACATTGCGAATTTCCTCGGCATCGGCATGCAATACGACCTGATCATCGTCGGCGGCAATGTGCTGGACATGAACATCATCAGCCAGATCGCCGTGCTCTACGACAATGACTGGGCACGCGCCAATCCCGATGCGCCGGAAGGCGCCACCATCCAGTCCGGCAACAACCTGCTTTGGAACGACGCCGCCATTCACAATGTCGGCAGCAACGACCGTTTCGAAACCATGCCGGACTATATGAACCAGACGGTGAATGCCATCAACGAGCGCGATCCCAACATGCCGGATGCGCTTGCCCATGACGTCAATTTCGCCGGCTATGAGGGTCTGAACGTCCTCTATATCACCGGCAATCTCTACGATGTCAGCATCATCAAACAGGTAAGCGTGCTCGGCGATTCCGACGATGTGACGCAGGCCGCCGCCAAGGTTCTCGAAAATAACGAGGGCGCCACCATTCATATCGATACCGGCAGCAACGCCGTGGTCAATCTGGCGCAGATCGTCGACTACGACAGCTTCGGCTCCACCACCTATGTCGCCGGCGGCGTTTATTCCGATGCCATACTGATACAGGGCGGCATCATCGAAAACGACACGTCGCAACCCCAGCAAGGCCAACTCGCGAACGAGGTCATCGCCTTTCTTCACGACGATCCCGCCACCATCGAAAACGAATCCAATGGCGTCATCAATGCCGGTCACGACCTGTCATGGTCGAACGGGCATTCGGCCGACGTCATGCAGGCGGTGACCGCGTAG	MHIDKISDMIAHFIGLFDTVIEEARLRANYTEGPAHSNPDRLPDDEAAKLLDKNYDVALKDYDPGVNYRAGYYDFDYLQPHFARMVEHDMQRLADAIPVDISGVNFRFPGRLSFEEEYELVVHTGPGSVIAHVAQVNILQDDDYLNMTDGPFVWRDTSFATERTVEFYNEASVFTPFSNFQRTDSYDALQALAKSAHDYIDHARENDVTSLGTGADQDFVLAGNDIDGLYINGSIASEKPMLDDYMPDRGIAKPAEEPEKSDVSLHEDSPAGNSLDVAAGANVVANIATLVNTGVMTSVTAVMGDYHQIDAITQAYIYSDRDEIDSVFTRSEDQASTVAFNIASFERSVYPGAENTENSSQENGEPPIFPTAWRVSVLEGDVSFVHWIEQYQFVSDNDTMTITTSGATVSLLTGGNAALNIANFLGIGMQYDLIIVGGNVLDMNIISQIAVLYDNDWARANPDAPEGATIQSGNNLLWNDAAIHNVGSNDRFETMPDYMNQTVNAINERDPNMPDALAHDVNFAGYEGLNVLYITGNLYDVSIIKQVSVLGDSDDVTQAAAKVLENNEGATIHIDTGSNAVVNLAQIVDYDSFGSTTYVAGGVYSDAILIQGGIIENDTSQPQQGQLANEVIAFLHDDPATIENESNGVINAGHDLSWSNGHSADVMQAVTA				NA	NA	NA	NA	NA
BMS010_03851	2205	btuD_9		Vitamin B12 import ATP-binding protein BtuD	ATGGATCATATTTCTAGAAAAACCATTGCCGACGGACGCTCGCTGGACTTGCCGCTGGATCAGGACGCGGAAGACAGCAAACTGACGGACGCCTGTATTTCAGCAATCAATGAAGCCGTCGAAAACCTGCGCCAATTATCCGGCGCGGAACATACGGCAAAAGAAGTTTCCACCCCTGCACAGACCGCCTCCCCACAAGTTCTCTCCCAACCGCATGCAAAAACGGAGCAGGCGGAACAGTTGCGGGATGTTCCCGCAGAAAGGCCGGCACCGCAACGGGACCGGCAACCCGCCTCCCCGCCGGAACCGCAGGCCAAGATCGACAATGCCGACCTGCCTTTCGTCAAGACCATCGACAATAATGACGGACCGATCCGTGAAAACGAACGCCGGCCGGTGACGGGCGGCGGCGGCAAGGAGCCGACGGACAATGGCGGTGGCGGCGGTGGTGGCGGCGGCGGTGGAAGCCAGAGCGGTTTTCACAAACGCAGCGAGCCGATCAATTTCGCCGCAAGCCTTGCCAAGGGCATCGCCGCCGTGCGGCGCAACATGGTGGTGGTGATGCTGTTCACGGTCGCCATCAATGTCCTGCTGCTCGCCATCCCGCTTTATCTGTTCCAGATTTCCGACCGGGTGCTGACCAGCCGCTCGATGGATACGCTGGTGATGCTGACGGTCGCCGTCCTTGGCGCGGTTCTACTGCAGGCCTTCATGGACGCCATCCGCCGCTTCATCCTGATGCGCACCGCCGTCGAACTCGAGGTGCAGCTTGGCGCGCCGATCCTGTCCGCCGCCGCCCGCGCTTCCCTGCATGGCAGCGGCAAGGACTACCAGACCTTGCAGGATCTGCAGCAATTGCGCTCCTTCATCACCTCCGGCACGCTCATCGCCTTTCTCGATGCGCCGCTGATGCCGCTCTTCATCGTGGTGGTCTATCTCGTCCATCCACATCTCGGCATCATCATCATGGTCTGCTGCGCGGTGCTGTTCGGCATCGCCTGGCTGAACCAGCGCTTCACCGCAAGACAGTTCTCCGAGGCTTCCGGTTATTTGAGCCGCGCCAACTTCCACCTCGATTCCATGTCGCGCAATTCGCAGATCATCAATGCGCTCGCCATGATCCCCGAAGCGGTGAAGATGTGGGGCCGCGAAACAGCAGGCTCGCTGAAATCGCATGTGGCGGCGCAGGATCGCAACATCATGTTCTCCGGCGTATCGAAGGCGGCGCGCATGATTACCCAGGTGGCGCTGCTCGGCTGGGGCGCGCATCTGTCGCTATCCGGCGAACTGACCGGCGGCATGGTGATTGCAGCCTCCATCATTTCCGGCCGGGCGCTGGCGCCCATCGAAGGCGCCATAGAAGGCTGGCACCAGTTCAACAAATCTGCCGCCTCCTATGGCCGCATCAAGCAGCTTCTCATCAATTCGCCGCTCAATTTCCCGCGTCTGCGCCTCCCCAATCCGGAAGGGCGTCTCGATGTGGAGCGCATCCTCTTCGTGCCGCCGCCGCAGAAGAAGGTGATTTTGAACGGCATTTCCTTTTCGCTGAAAAAGGGGGAGTCGCTCGCCATCATCGGCAATTCCGGCTCCGGCAAGACGACGCTCGGCAAGATGCTGGTCGGCTCCATCCTGCCCACGTCAGGCAATGTGCGCCTCGATCTCATGGATCTGCGCAACTGGGACCAGCGGCAATTCGGTGAAAGTATCGGTTATCTGCCACAGGACGTGCAGCTTTTCCCCGGCACCATCAAAGCCAATATCTGCCGCATGCGCGACGATATCGAGGACCGGCAGATTTATGAGGCGGCGGTGCTGGCCGATGTGCACGAGCTGATCGCCGGTTTCCCGCAGGGCTATGAAACCGTGGTCGCCGCCGATGGCGCCCCGCTTTCCGGCGGCCAGAAACAGCGCATCGCGCTTGCCCGCGCCTTTTTCGGCGATCCGAAATTCGTGGTGCTGGATGAGCCGAACTCCAATCTGGATACGCAGGGCGAACAGGCGCTGGCCAAGGCGCTGCTGCATGCCAAAAGACAGGGCATCACCACCGTCACCATCACCCAGCGGCCGGCGCTGCTTCAATGCGTCGACAAGATCATGGTGCTGAAGGACGGATCGGTCGCCATGTTCGGCGAAAGGATGGACGTGCTGAAGGCGCTTTCCGGCAATGGCCGCCAGGCCAACCAGTCCCCGCAGATCGAGGGTTGA	MDHISRKTIADGRSLDLPLDQDAEDSKLTDACISAINEAVENLRQLSGAEHTAKEVSTPAQTASPQVLSQPHAKTEQAEQLRDVPAERPAPQRDRQPASPPEPQAKIDNADLPFVKTIDNNDGPIRENERRPVTGGGGKEPTDNGGGGGGGGGGGSQSGFHKRSEPINFAASLAKGIAAVRRNMVVVMLFTVAINVLLLAIPLYLFQISDRVLTSRSMDTLVMLTVAVLGAVLLQAFMDAIRRFILMRTAVELEVQLGAPILSAAARASLHGSGKDYQTLQDLQQLRSFITSGTLIAFLDAPLMPLFIVVVYLVHPHLGIIIMVCCAVLFGIAWLNQRFTARQFSEASGYLSRANFHLDSMSRNSQIINALAMIPEAVKMWGRETAGSLKSHVAAQDRNIMFSGVSKAARMITQVALLGWGAHLSLSGELTGGMVIAASIISGRALAPIEGAIEGWHQFNKSAASYGRIKQLLINSPLNFPRLRLPNPEGRLDVERILFVPPPQKKVILNGISFSLKKGESLAIIGNSGSGKTTLGKMLVGSILPTSGNVRLDLMDLRNWDQRQFGESIGYLPQDVQLFPGTIKANICRMRDDIEDRQIYEAAVLADVHELIAGFPQGYETVVAADGAPLSGGQKQRIALARAFFGDPKFVVLDEPNSNLDTQGEQALAKALLHAKRQGITTVTITQRPALLQCVDKIMVLKDGSVAMFGERMDVLKALSGNGRQANQSPQIEG	PGPT0029385_43	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-HEMOPHORE|METALLOPROTEASE_TRANSPORT,PGPT0029385-hasD|prtD|-K12536	NA	NA
BMS010_03852	1359	prsE_2		Type I secretion system membrane fusion protein PrsE	ATGTTCAAAAAGAAAAACGCCATTGCCGAAGTCAAACCCCAGGGCCAGCTCGAATGGTACAGCGAGGTGCCGCGCTCGATCCGCCTGCATAGCTCGATCGGTCTTGCCGTGCTGCTCGCGTCCTTCGGCGGTTTCGGATTCTGGGCCGGCACCGCACCGCTCTCCTCCGCCATCATCGCCCAGGGCAGTTTCGTCGCCACCGGCAACAACAAGGTGGTCCAGCATCTGGAAGGCGGCATCATCAAGGAAATGATGGTCAGCGAAGGAGACACGGTCAAGGAAGGCGACGTTCTTCTGACGCTGGACAAGACGACGGCGCTTGCCAACGAGCGCATGTTGCAACTGCGGCGCCTTCGCCTCGAAACCATCGTGGTGCGCCTGCGCGCCGAGGCCCAGGGCGCAAAAAGCTTCAAGGTGCCCGATATCGTCATGAAGGAAGCCGGCGATCCGGATATCAATTCCATCATCCAGAGCCAGAACATCGTGTTCCACAGCAAGCTCATCAAGCTTGAGGAACAGATGAATCTGATCGACAAGAATATCCGGTCGCTGGAGTTCCGCTATGCGGGCTATGACGGCCAAAAACAGTCCTTCGACCGGCAATTGGCGCTTTTGACACAGGAGCGCGACTCCAAGGAGCGGCTCGCCAAGGACGGCGTCATCCGCAAGACCGACATGCTGGCGCTGGAGCGCGCCATCGCCGACGCCATGGGCGATATCGCACGGCTGAGCGGCGAAATGAACCAGAGCGAGGCGGAAATCGCCAAGTTTCGGCAGGAAGCGGTCATTGCCGTCAACGCCAACAAGCAGGCCGCGCTCGATGCGCTGGAAACCGCCGAGTCCGATCTGGACAGCGTGCGCGAACAGGTGCGCGGCGCCGCCGAAGTGCTGGAACGCACCGTCATCCGCTCTCCCGTCAACGGAACCGTGGTGCGCGCCTATTATCATACACCAGGCGGCGTCATCACCACCGGCAAGCCGATCATGGAAATCCTGCCCGCTCATGTGCCCCTTATTCTGGAGGCGCAGGTGCTGAGAACCTCCATCGACCAGCTGCATGAGGGCCAGACGGCCGCGATCCGCCTTTCGGCGCTCAACCGCCGCACCACACCGGTTCTGAACGGCAAGGTCTTTTACGTTTCAGCCGACAGCATCGAAGAAAATGCCGGCCTTCAGGTCAAGGACGTCTATATCGTGCGGGTGCAGATACCCGACGAGGAAATCGCCAAGGTTCACAATTTTCACCCCGTGCCCGGCATGCCGGCCGACGTGCTGATCCAGACTTCGGAGCGTACCTTCTTCGAATATCTGACCAAGCCCATCTCCGACAGCATGTCCCGTGCCTTCAAGGAAAGATGA	MFKKKNAIAEVKPQGQLEWYSEVPRSIRLHSSIGLAVLLASFGGFGFWAGTAPLSSAIIAQGSFVATGNNKVVQHLEGGIIKEMMVSEGDTVKEGDVLLTLDKTTALANERMLQLRRLRLETIVVRLRAEAQGAKSFKVPDIVMKEAGDPDINSIIQSQNIVFHSKLIKLEEQMNLIDKNIRSLEFRYAGYDGQKQSFDRQLALLTQERDSKERLAKDGVIRKTDMLALERAIADAMGDIARLSGEMNQSEAEIAKFRQEAVIAVNANKQAALDALETAESDLDSVREQVRGAAEVLERTVIRSPVNGTVVRAYYHTPGGVITTGKPIMEILPAHVPLILEAQVLRTSIDQLHEGQTAAIRLSALNRRTTPVLNGKVFYVSADSIEENAGLQVKDVYIVRVQIPDEEIAKVHNFHPVPGMPADVLIQTSERTFFEYLTKPISDSMSRAFKER	PGPT0029390_297	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-HEMOPHORE|METALLOPROTEASE_TRANSPORT,PGPT0029390-hasE|prtE-K12537	NA	NA
BMS010_03853	495			hypothetical protein	ATGGCGGCGATGTCGGATGTATTGCTGCTGGTCGGCAGGCTGAATTACGTGTGGACCAACACGGAAAGCCTGATGATTTATCTGATCGTCCATCTCCTGAAAGTGGAAAAGGAAGCGGCCATCGTCGTCTTCCTGACACTCAACACCACGCGGGCGCGCATGGATCTGATCGAGCGCCTGGCGAAGCTTCCCTCCACCGATGCGAAGGACCGCAAGACCATCCTCTCCATCATGGCGCGGCTGAAGAAGGAAGCGAAGACGCGCAACAAATATAATCACTGCATCTATTCATTCGACGAAAAAGGCGAAATCGCCAGCACGCAGCTCATGCGGCTGGTGGAGGATGACAGCCAGGTGCGTTACGGCAAGGTGGAGCGCATGGACGAGAAGGAAATCGGGCAGCTCGAAAAATCGATCGCCGACATTGTCGAGGTCAGCAAGGACATGTGGAGTTTCATCCATGCCAGTCCGCATGTCTCTGCGGATTATCTTTAG	MAAMSDVLLLVGRLNYVWTNTESLMIYLIVHLLKVEKEAAIVVFLTLNTTRARMDLIERLAKLPSTDAKDRKTILSIMARLKKEAKTRNKYNHCIYSFDEKGEIASTQLMRLVEDDSQVRYGKVERMDEKEIGQLEKSIADIVEVSKDMWSFIHASPHVSADYL				NA	NA	NA	NA	NA
BMS010_03854	1269			hypothetical protein	ATGCGGATCGCCAAATCGGCGCTGATCGATCCCGAACGCAATGAGATTTATGGAATGGCAGCGGTTGCGCTGTCATTCTTCGTCTTCGCTTACTCGTCGCGTTTCGGGCAAATCTCGGTTCTGGCCTATTATGGCATGTGGCTGCCGCTGGTGGTGGTCGATTATCGGCGCGTGCTCGGCAATTATCCGCGCTATCTCTGGATATTCGCCTTCGGCATCTTGACGGTTCTGTCCAGCTTCTGGTCGGAAGCGGCGTCGGTGACCATGCGCGCTTCCATCCAGTATATGACACATATCGTCTGCGCGCTGATCGCCATGCGGGTGATCTCCATCCGGACGCTGACGCGCGGTGCGCTGATCGGCATCGCCGTCGTTCTGCTCTATTCGTTGCTGTTCGGCATTTATCTCTTCGATGCGCTGGATGGCACCTATAGTTTCGTCGGCGCTTTCTCTTCCAAGAACCAGCTCGGTTTTTATGCCTCGCTCGGCGTCATTTTTGCCGCCGCATCGGTACTGGTGCTCAAGCAAAGGGGCATCTGGTTGCCGATTGCCGGCGTCACCGGGCTCCTGTCGGCCTATAGCCTCCTTGCGTCCCAATCGGCCACATCCACGATTACCACGGCGGCGGTGGTCGCGCTCATCATCGGCTTCATCCCCATCGGCATGCTTTCGCCGGCGAACCGAAAGATGACGTTTTTTGTCCTCGGTGGTCTCGGCGCATTGCTGGCGGTTGCATCCCTGCAATTCGGCCTGCTGGACGCCATTCTCGGCATTTTCGGCAAGGATTCGACGCTGACCGGCCGAACTTACCTCTGGCAGCAGGGCATCGAGGCGGCGAAACAGACGCCGATCCTCGGCGTCGGTTATCAGGGGTTCTGGGTCGCGGGTTTTCCCGATGCCGAACGGTTGTGGAACGATTTCTTCATTACGGGCCGCAGCGGCTTCCATTTCCATAATACCTATATCGAAACCGTGGTGGAAAACGGCTTCGTCGGCATGCTGCTGCTTGGCATGGTGCTTTACGGAACGTTGCTCGGGCATCTGCGCTCGGTGCTGATGCGCAAGAGTGATCCACAGGGCGTCATCCTGTTTGCGATCTGCGCCCTGTTTGTCGTGCGTTCCTTCGTGGAGATCGACATCATCTTCCCGTACCAGATCGGCTCGTTCCTGCTTTATTTCGCAGCCGGTAAACTGTGCCTCCCGGCAAGGGCTGCGGAGGGGAGCGAGCCGCACCCGGCAATCGGCATGCGGTTACAAACGAGAGCCTAA	MRIAKSALIDPERNEIYGMAAVALSFFVFAYSSRFGQISVLAYYGMWLPLVVVDYRRVLGNYPRYLWIFAFGILTVLSSFWSEAASVTMRASIQYMTHIVCALIAMRVISIRTLTRGALIGIAVVLLYSLLFGIYLFDALDGTYSFVGAFSSKNQLGFYASLGVIFAAASVLVLKQRGIWLPIAGVTGLLSAYSLLASQSATSTITTAAVVALIIGFIPIGMLSPANRKMTFFVLGGLGALLAVASLQFGLLDAILGIFGKDSTLTGRTYLWQQGIEAAKQTPILGVGYQGFWVAGFPDAERLWNDFFITGRSGFHFHNTYIETVVENGFVGMLLLGMVLYGTLLGHLRSVLMRKSDPQGVILFAICALFVVRSFVEIDIIFPYQIGSFLLYFAAGKLCLPARAAEGSEPHPAIGMRLQTRA	PGPT0026585_490	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-SUCCINOGLYCAN_METABOLIC_PATHWAY,PGPT0026585-exoQ-K16567	NA	NA
BMS010_03855	1257			hypothetical protein	ATGAACGGCTTGTCTGCCGCCCGCCGCCCGTTTGTGGCCTTCGTATTTGCCGCTTCCGTCGCCCTTGCCGCGCCGCTCTCCGCCATGGCTGCGGATGGCGCTCAATATAAGCTCGGTACCGCTGACAAGCTGCGTATCCGTGTTGCCGAATGGCAGCCGGCGGATGGCAGCATCCGCAACTGGGATGTGATCAACGGCGATTATTCCGTCGGTCCGTCTGGGGCGCTGTCGCTGCCTTTCATCGGTCAGCTGGATGTTGCGGGCAAGACCCCATCGGAGGTCAGCGAAGAGATTGGAGCCCAGCTTCAGAGCAAGTTCGCCCTTCGCAACCTGCCTTCGGCCTCCGTCGAGATCGCACAGTTCCGACCGATCTTCTTGAGCGGCGACGTGCAGACGCCGGGCGAATATCCCTATGCCGCCAATCTCACCGTGCTGAAGGCCGTCAGCCTCGCCGGCGGCCTGCGGCGCTCGGATGCCGGGCAGCGTTTTGCCCGCGACTTCATCAATGCCCGCGGTGACGCCGCCGTCTATGACAACCAGCGTGCAAGGCTGCTCGCCCGTCAGGCGCGGCTGGTCGCCGAGGTCAAGGGTGACGCGACCATCGCCAAGACGCCTGAAATGGAAAAGATCGGCGAGATCGACGTGCTGCTGGCCAGCGAAAGCGCGCTGATGAAATCGCGCACCGAACGTTACACCCTGCAGCTCAAGGCGCTGACGGACCTGCATGCCCTTCTGCAGAGCGAAGTCGAATCCCTGAAGAAGAAATCAGAGACGCAGAATCGTCAGCTCCAGCTTGCCAACGAGGACCGCGACCGGGTCAACCGGCTGAACGAGCAAGGGCTCGCGTTGTCGCAGCGGCGTATTTCCGCAGAAGAACGCGCGGCCGAAGTGGAATCCAACCTGCTCGATATCGATACGCAGTCGCTGCGCGCCAAACAGGATATCAACAAGGCGACGCAGGACGAGATCAACCTGCGTAACGATTGGGTGGCGCAGCGCTCCAAGGAATTGCAGGACACGGAAGCGGAACTGGACAAGCTCAATCTGCAACTGACCACCAGCCGCGAATTGATGTCGGAAGCGCTGGCGCAATCGGCCGAGGCGATCCGTTTCGATCCCTCGGGCAAATCAGCGACAATCAGCTATGTCGTGGTGCGTGAGGAAAACGGCAAGCCGAAGGAGCTGAAGGTGGATGAAAACGCCATGCTCCAGCCCGGCGATGTCATCAAGGTCTCGTCTGAAATCCTGATGCAGTGA	MNGLSAARRPFVAFVFAASVALAAPLSAMAADGAQYKLGTADKLRIRVAEWQPADGSIRNWDVINGDYSVGPSGALSLPFIGQLDVAGKTPSEVSEEIGAQLQSKFALRNLPSASVEIAQFRPIFLSGDVQTPGEYPYAANLTVLKAVSLAGGLRRSDAGQRFARDFINARGDAAVYDNQRARLLARQARLVAEVKGDATIAKTPEMEKIGEIDVLLASESALMKSRTERYTLQLKALTDLHALLQSEVESLKKKSETQNRQLQLANEDRDRVNRLNEQGLALSQRRISAEERAAEVESNLLDIDTQSLRAKQDINKATQDEINLRNDWVAQRSKELQDTEAELDKLNLQLTTSRELMSEALAQSAEAIRFDPSGKSATISYVVVREENGKPKELKVDENAMLQPGDVIKVSSEILMQ	PGPT0026530_112	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-SUCCINOGLYCAN_METABOLIC_PATHWAY,PGPT0026530-exoF-K16552	NA	NA
BMS010_03856	681	epsL	COG2148	putative sugar transferase EpsL	ATGAAGTCCGCGACCCAATCGGCTGAACAGACACTCAGCAGCTCCGAAGACTTCGATGTCAGTTTCCCTATCGGGGGCATCGCAAAGCGCAGCTTCGATATGACATCGGCTGCGCTTGCGCTGCTCATCTTCAGCCCGATATTCCTATTGATCGCCGCGCTGGTGAAATTGTCCGATCCCGGCCCGATCTTTTATGGCCACCGGCGTGTGGGACATAATGGCCGCTATTTCCATTGCCTGAAATTCAGGACGATGGCGATGAACGGCGATGAGATTCTGCGGCAATATCTTGCCGCTAATCCGGAAGCCGCCGAGGAATGGCGCGCCACCCGCAAGCTCAAGAACGATCCGCGCGTTACCGCTGTTGGCGCCGTGTTGCGTAAGCTCTCCCTCGATGAGTTGCCGCAGCTTCTCAACATCATCCGCGGTGAAATGAGCGTGGTTGGTCCACGCCCGGTCGTGGATGAGGAACTGAGCTATTATGAAAGCGCTGCCGCTTATTATCTCAGCACCCGTCCTGGCCTGACCGGCCTGTGGCAGATCAGCGGCCGCAACGACGTATCCTACAAGACCCGCGTCGCTTTCGACACGCACTATGTGCAGAACTGGTCGATGCGGCAGGATGTCTTCATCATCGTCAAGACCATTCCCGCCGTGTGCCTTTCACGCGGAAGCTACTGA	MKSATQSAEQTLSSSEDFDVSFPIGGIAKRSFDMTSAALALLIFSPIFLLIAALVKLSDPGPIFYGHRRVGHNGRYFHCLKFRTMAMNGDEILRQYLAANPEAAEEWRATRKLKNDPRVTAVGAVLRKLSLDELPQLLNIIRGEMSVVGPRPVVDEELSYYESAAAYYLSTRPGLTGLWQISGRNDVSYKTRVAFDTHYVQNWSMRQDVFIIVKTIPAVCLSRGSY	PGPT0026575_129	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-SUCCINOGLYCAN_METABOLIC_PATHWAY,PGPT0026575-exoY-K16566	NA	NA
BMS010_03857	549	puuR_1		HTH-type transcriptional regulator PuuR	ATGTCGGTGGATATAGGCGGACGTTTGCGCCATTTGCGGCTGCGCCACAATATTTCCCAGCGGGAACTGGCAAGGCGTGCCGGTGTCACCAATTCGACGATTTCTCTGATCGAATCCAACACCTCGAACCCTTCCGTCGGCGCGCTGAAGCGGATTCTTGACGGCATACCGATCGGCCTTGCGGAGTTTTTCGCTTTCGAGCCGGAAACGAGCCGCAAGGCTTTTTACCGGGCGGATGAACTGGTTGAAATCGGCAATGGGCCGATATCCTTCCGGCAGGTGGGCGAGAATGTCTTTGGCCGCAGCCTGCAAATCCTCAAGGAATGTTACCAGGCGGGCGCCGATACCGGCAAGGTGCCGCTGGTTCACGATGGCGAGGAAGGAGGAATCATTCTCTCCGGACGGCTGGAAGTGACGGTCGATGAGGAGAGGCGGGTGCTCGGGCCGGGCGACGCCTATTATTTCGAAAGCCGCAGGCCGCATCGTTTCCGTTGCGTCGGTCCCGTGCCCTGTGAGGTCATCAGTGCCTGCACACCGCCAACCTTCTGA	MSVDIGGRLRHLRLRHNISQRELARRAGVTNSTISLIESNTSNPSVGALKRILDGIPIGLAEFFAFEPETSRKAFYRADELVEIGNGPISFRQVGENVFGRSLQILKECYQAGADTGKVPLVHDGEEGGIILSGRLEVTVDEERRVLGPGDAYYFESRRPHRFRCVGPVPCEVISACTPPTF	PGPT0019781_117	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0019781-puuR-K14056	NA	NA
BMS010_03858	1335	bauA_2	COG0161	Beta-alanine--pyruvate aminotransferase	ATGGACAACCCGAGCCGATCCAATTCCACCTCGCTTGACAGCTACTGGATGCCGTTTACCGCCAACCGGCAGTTCAAGGCCAATCCCCGCCTGCTGACGAGCGCCGAAGGCATGTATTACACCAGCAATGACGGTCGCCAGGTTCTCGACGGCACGGCTGGCCTTTGGTGCGTCAATGCCGGCCACGGCCGCCAGCAGATCGCGTCTGCCGTCAAGCACCAGCTTTCGACAATGGATTACGCGCCCTCCTTCCAGATGGGCCACCCGGTTGCCTTTGAATTCGCCGAGCGGCTGGCGGAGATTGCGCCCGGCCCGGAAGGTGCGAAACTGGACCGTGTCTTCTATACGGGCTCCGGATCGGAATCGGTCGATACGGCGCTGAAGATCGCCATTGCCTATCAGCGCGCCATCGGCCAAGGCACCCGCAGCCGGTTGATCGGTCGTGAGCGCGGTTATCATGGCGTCGGTTTCGGCGGCATCTCCGTGGGCGGCCTCGTCAACAACCGTCGTGTTTTCCCGCAAATTCCCGCAGACCACCTGCGTCATACCCATGATCCTGCGAAGAACAGCTTCGTGAAGGGCCAGCCCGAGCACGGCGCCGAGCTTGCGGACGATCTGGAACGTCTGGTCGCCCTGCATGGCGCGGAAACCATCGCCGCCTGCATCGTCGAGCCGGTCGCCGGCTCCACCGGCGTGCTGGTGCCGCCGAAGGGTTATCTGGAGCGGCTGCGCGCCATCTGCGACAAGCACGGCATCCTCTTGATCTTCGATGAGGTCATCACCGGTTTCGGCCGCATGGGCTCCACCTTCGCCACCAACTATTTCGGCGTTACCCCAGATATCGTCACCACCGCCAAGGGGCTGACCAACGGCGCGATCCCGATGGGCGCGGTCTTCACCAGCCGCAAGGTGCATGATGCGCTGATGCATGGGCCGGAAAACCAGATCGAGCTGTTCCACGGCTATACCTATTCCGGCCACCCCGTCGCCTGCGCCGCCGGTATCGCGACGCTCGACATCTATCGCGATGAGGGCCTTTTCACCCGCGCGGCCGAATTGCAGGATGTCTGGCACGACGCCATCCATTCCCTGAAGGGCCTGCCGAATGTCATCGACATCCGCACCATCGGCTTCATCGCCGGCATCGAGCTGCAATCGCGCGACGGTGCTGCCGGCGCACGCGCTTATGATGTCTTCGTGGATTGCTTCGAGCGCGGCCTGCTCATTCGCGTTACCGGCGACATCATCGCCCTTTCGCCGCCGCTGATCGCCGAAAAATCCCATTTCGACGATATTGTTTCGATCCTCGGCGACGCCCTGAAACGCGCGCAATAA	MDNPSRSNSTSLDSYWMPFTANRQFKANPRLLTSAEGMYYTSNDGRQVLDGTAGLWCVNAGHGRQQIASAVKHQLSTMDYAPSFQMGHPVAFEFAERLAEIAPGPEGAKLDRVFYTGSGSESVDTALKIAIAYQRAIGQGTRSRLIGRERGYHGVGFGGISVGGLVNNRRVFPQIPADHLRHTHDPAKNSFVKGQPEHGAELADDLERLVALHGAETIAACIVEPVAGSTGVLVPPKGYLERLRAICDKHGILLIFDEVITGFGRMGSTFATNYFGVTPDIVTTAKGLTNGAIPMGAVFTSRKVHDALMHGPENQIELFHGYTYSGHPVACAAGIATLDIYRDEGLFTRAAELQDVWHDAIHSLKGLPNVIDIRTIGFIAGIELQSRDGAAGARAYDVFVDCFERGLLIRVTGDIIALSPPLIAEKSHFDDIVSILGDALKRAQ				NA	NA	NA	NA	NA
BMS010_03859	1821			hypothetical protein	ATGGCCTCGATTCAAAAAAAGATAATATTGGCAGGCATTGCAATCTTTTCCATCACCGGCAGCGCCGCGGGTGTCGGCATATGGGCGGCGGAGACGCTGAACCGTAACAGCGAATATGTGGCGCTTTCGGCGGACGTGCTTCGCAACCACATGCAGGCGGACATGATGCATGACGCGCTGCGGTCAGACGTGCTTGCCGCCATTCTTTCCGCCGATGCCAGAATGGACCTCGACCTCAAGGCCGTTAAGGCCGATCTTGCCGAACACGAAGCCAGTTTTCGCGAAGTGATCGAGGCAAACAAGTCACTGTCATCAGGCACGAATGTCAAAGCCGTCATAGATGGTGTCGAAAAGCCGCTTCTCGCCTATATGGATGCCGCCAACGCGGTGGTCGGACTTGCCGAATCCAGCCCCGAAGAGGCCATCAAGCTGATGCCGGAATTCATGCGGCAATTCTCCGCGCTTGAAAAAGCTATGGAAGCGGCGGGCGACCAGATTCAGGCGCTTTCCGACACTGCATCGGCCGAAAGTGAAAAGACCAAGGCGGCAATCAACCTCGCCTTACAGGGACTTCTGGTTCTGGCGGCGCTTTTCTCCACCGGGCTTTTTCTGCTCACCCGCAAATCGATTATCCGTCCCATCCTGCAATTGTCGAAAAACATGGAGACCCTGGCGGGCGGCGATACGTCTCAACCGCCCTCAGGCACGGACCGCAAGGACGAGATCGGCTCCATGTCCAGCGCTGTCGAGATTTTCCGACAGGCCGCCATCGCCAACCGGGCACTAGAGGAGCAGGCAGCGGCGGCCCGCAGGCAGGCGGAAGCCGATCAGGAAGCAACGCGGCGGCAGGCGGAAGAAGACGCTTCGGAAAGGCTGCTCATCGCAACCTCCGGCCTTGCGGCCGGTCTCAAGCGGCTCGCCTCCGGTGATCTGGCCTTCCAGTTGAATGACGCCTTCGCCCCACAATTCGAGGCCCTGCGTCATGATTTCAACACCTCGGTCCGGCAATTGGCCGAGACCCTTTTTGCCATTTCCGACGGGATAGGCACAATCGACGGCAGCAGCCGGGAAATCGCCGCAGGTGCCGGCGATCTTTCCCGCCGCACCGAAAATCAAGCCGCCTCCCTTGAGCAGACGGCAGCGGCGCTCGATGAAATCACCGTCAATGTCTCGAATGCCAACAAGCGGGCCGCAGAAGCGCGGCTCGCTGCCACCGATGCCAACCATAGCGCCCTGAAATCGGTGGAGGTGGTAAGCCATGCCGAGGAAGCGATGCGCCGTATCGAGGCCTCGTCACGGCAGATCACCGGCATCATCGGCGTCATTGACGAAATCGCCTTCCAGACCAATCTTCTGGCGCTGAATGCCGGGGTTGAGGCTGCCCGCGCCGGCGAGAGCGGCAAGGGCTTTGCGGTTGTTGCACAGGAGGTGCGCGATCTCGCCCAGCGCTCGGCAAAGGCCGCAAGCGAAATCCGTGACCATATCCGGCAATCGTCCGTGGAGGTCGAGAGCGGCGTGAAGCTGGTTCTCGATACCGGCACAGCACTGAAGGATATCAGTGAACGCATCGCCGGCATCGACCGCCATATGAATGCCATCGCCACATCGGCCACCGAGCAATCAACCGGTCTGTCCGAAATCAACGCGGCGGTGAACTCCATGGATCACGCCACCCAGCAAAATGCGGCCATGGTGGAGCAATCCACCGCCGCGTCAGCCACGCTTGCCTCGGAAACAGCAAAGTTGCGTGCCCTGGTGTCTCGCTTCCGCCTGGAAATGGAAAGGGCCGGCAGTCAGGATCAGCCACGCCAAGTAGCTTGA	MASIQKKIILAGIAIFSITGSAAGVGIWAAETLNRNSEYVALSADVLRNHMQADMMHDALRSDVLAAILSADARMDLDLKAVKADLAEHEASFREVIEANKSLSSGTNVKAVIDGVEKPLLAYMDAANAVVGLAESSPEEAIKLMPEFMRQFSALEKAMEAAGDQIQALSDTASAESEKTKAAINLALQGLLVLAALFSTGLFLLTRKSIIRPILQLSKNMETLAGGDTSQPPSGTDRKDEIGSMSSAVEIFRQAAIANRALEEQAAAARRQAEADQEATRRQAEEDASERLLIATSGLAAGLKRLASGDLAFQLNDAFAPQFEALRHDFNTSVRQLAETLFAISDGIGTIDGSSREIAAGAGDLSRRTENQAASLEQTAAALDEITVNVSNANKRAAEARLAATDANHSALKSVEVVSHAEEAMRRIEASSRQITGIIGVIDEIAFQTNLLALNAGVEAARAGESGKGFAVVAQEVRDLAQRSAKAASEIRDHIRQSSVEVESGVKLVLDTGTALKDISERIAGIDRHMNAIATSATEQSTGLSEINAAVNSMDHATQQNAAMVEQSTAASATLASETAKLRALVSRFRLEMERAGSQDQPRQVA	PGPT0015710_12892	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_03860	657			hypothetical protein	ATGTATGCCCTGATGTATGGTCCCAAGCCGGACGAGCAGTTCCCGCTGCCGGAAATCCCCTACAAGCGGATTCCGCGTCAGTTCCTGCGGCAGATGGTGGCGAACCCGACGGGTGAACGCCCCGGCGTCATCGTCGTCGATACAGCCAATCATTTCCTCTATCTCACCTATGAGAACAATCAGGCCATGCGTTATGGCGTCGGCCTCGGCCGCGCGGGCTTTGAATGGGCCGGTCGCGGCGTCATTCAGTACAAGCGGCAATGGCCGCGCTGGACGCCGCCCGATGAGATGATTGCGCGCCAGCCGGAACTGGAACCCTATAGCAGCCGCAACGGCGGCATGGAGCCGGGCCTCAAGAACCCGCTCGGTGCGCGCGCGCTCTATATATTCAAGGATGGCAAGGACACGATCTACCGCCTGCATGGCTCTCCGGAATGGTGGACCATCGGCAAGTCGGTATCCTCCGGCTGCGTGCGCCTGCTCAACCAGGATATCATCGACCTTTACAACCGTGTGCCCGATGGTACGCCGATCGTGGTGACGGCGCTCGGCCCCGCACAGCAGGGCGTGCCGATCGGCCAGGAAGGTGTGCCGGTGGCGCAATATGGTAACGGCGTGATCGGCGACGGCCTCTCGCAACCGATGCAGACTTATTGA	MYALMYGPKPDEQFPLPEIPYKRIPRQFLRQMVANPTGERPGVIVVDTANHFLYLTYENNQAMRYGVGLGRAGFEWAGRGVIQYKRQWPRWTPPDEMIARQPELEPYSSRNGGMEPGLKNPLGARALYIFKDGKDTIYRLHGSPEWWTIGKSVSSGCVRLLNQDIIDLYNRVPDGTPIVVTALGPAQQGVPIGQEGVPVAQYGNGVIGDGLSQPMQTY				NA	NA	NA	NA	NA
BMS010_03861	1056			hypothetical protein	ATGGGCATGCAGGCATTGCTGGATTGCGCGGTTGCGGGGTTGCGGCAGAAGGTAAGGGCAGGGGCAAGAGTGGCCGCGATTGTTGTGATCGGTGGCGGCCTTGCCGCGTGCACTTCCATGGGGCTGGACAGCGTCAAGAAAGACCCGCCGAAACTGTCGTCCAAGATGATGGCGCAGATGTCGGCCAAGAGCATGCGCCCGGAAAGCCCGGTTCTCGTTCGCATTTTCAAGCAGGAAAGCGAGCTTGAGGTCTGGAAGGTCGACAAGACCGGAAATTACGCCTTGCTCAAGGCCTATCCCATGTGCCGCTGGTCCGGAAAGCTCGGCCCCAAGATGAAGACCGGCGACCGGCAGGCACCGGAAGGATTTTATCATGTCTCGGCCGGCATGTTGAACCCGAACTCACAATATTACGTCTCCTTCAATCTCGGTTATCCCAACCGGCTGGAATCGGCGCTCGGTTACACCGGTGAGGCGTTGATGGTGCATGGCGCCTGCTCCTCTTCCGGCTGCTACGCCATGACCGATCAGCAGGTCGGCGAGATCTACGCCATCGTGGCGCGTGCGCTTCAGGGCGGGCAGGACCGCTTTCAGGTACAGGCCTATCCCTTCCGCATGAGCGCCCGGAATATGGTGGCGCATCGGGACGACCCCAATATGCCGTTCTGGAAGACGCTGAAAGAAGGCTATGACTATTTCGAGGTAACGCGCCGGCAGCCCAAGGTTTCCGTCTGCGGCCGTCGTTATGTCTTCAACAGTGAATTTGCCGAAGGCGAACCTGCCGATCCGCTGGCGGCCTGCCCGCCGGCCATCAACCAGCAGGATCCGCTGGTGGCTTCGAGGCTGGCCGAAGAGCAACAAAAATTTGCCGCCGCCATGAGTGAGGGAACTTCCAGCCCGCTCAGCGCGTATGTAGACGGCGGCATGCATCCGAGCTTCCGGGCCATTTTGAAATCGAACGGCGCCAAGGCCATGGCATCGCAGGTTTCCGGCACGAAGTACCCTATCAGCCGCCCAGAGGCGGCGCTGGCAGATCCCTTTGCCGGCGCGAGATGA	MGMQALLDCAVAGLRQKVRAGARVAAIVVIGGGLAACTSMGLDSVKKDPPKLSSKMMAQMSAKSMRPESPVLVRIFKQESELEVWKVDKTGNYALLKAYPMCRWSGKLGPKMKTGDRQAPEGFYHVSAGMLNPNSQYYVSFNLGYPNRLESALGYTGEALMVHGACSSSGCYAMTDQQVGEIYAIVARALQGGQDRFQVQAYPFRMSARNMVAHRDDPNMPFWKTLKEGYDYFEVTRRQPKVSVCGRRYVFNSEFAEGEPADPLAACPPAINQQDPLVASRLAEEQQKFAAAMSEGTSSPLSAYVDGGMHPSFRAILKSNGAKAMASQVSGTKYPISRPEAALADPFAGAR				NA	NA	NA	NA	NA
BMS010_03862	786	bacC_2		Dihydroanticapsin 7-dehydrogenase	ATGACATTGACCGTTCGCAAAGTTGCTCTGGTAACCGGCGCTGGCTCCGGCATTGGGCGCGCCGCCGCTCGTCATCTGTCGGCGCAGGGTTTCGCGGTCGGTCTGTTGGGCCGCACCGAATCGGAATTGAACGATGTCGCCCGTGAAATCGGCGCTGCATCCGGTTCTTCGAAGGTGCTCGTCGCCGACGTGGCGGATGAAGCGGCGATGCGTCACGCGGTCGCAGCGCTGGTTGAGAATTTCGGCCGGCTTGATGTCGTGGTGGCCAATGCCGGCGTCAACGGCGTCTGGGCGCCCATCGATGAGCTGAAACCGTCCGAATGGGACGATACGATCCGCATCAACCTGCGCGGCACCTATCTCACCGTCCACGTCAGCGTGCCGCATCTGAAAGCGGCCGGTGGCGGGTCCATCGTCATCATTTCGTCGATCAATGGCACCCGCACCTTCACATCGCCCGGTGCTACGGCCTATTCCGTGACGAAAGCCGGGCAATTCGCCATGGCGCAACAACTGGCGCTGGAGCTGGGGCGTCACCGTATTCGCGTCAATGTGGTGTGTCCGGGCGAAATCGAAACGGCAATCGATGAAAATACCGATATACGCGGTCGGGAAAAAACGGAGGTTCCAGTTCGTTTTCCGGCTGGGGATATTCCGGTAACCGGCGGCGTGGCCGGGACGAGCGACGATGTCGCTGCGCTGATCGGTTTCCTGGCGTCGGATGCGTCCCGCCACATTACCGGCACGCCGGTATGGATCGATGGCGGCCAGGGGCTGCTGCGATAA	MTLTVRKVALVTGAGSGIGRAAARHLSAQGFAVGLLGRTESELNDVAREIGAASGSSKVLVADVADEAAMRHAVAALVENFGRLDVVVANAGVNGVWAPIDELKPSEWDDTIRINLRGTYLTVHVSVPHLKAAGGGSIVIISSINGTRTFTSPGATAYSVTKAGQFAMAQQLALELGRHRIRVNVVCPGEIETAIDENTDIRGREKTEVPVRFPAGDIPVTGGVAGTSDDVAALIGFLASDASRHITGTPVWIDGGQGLLR				NA	NA	NA	NA	NA
BMS010_03863	384			hypothetical protein	ATGCAACTTTCGACGACCTATGTAAAACGCAATAACGGGGTTATTTCCATCGAGTTCGTCGGCAACGACGGCGATCAGGTCTCGGTTCGCCTCGCCGACGGTCTTGAAGGGATCGACGATGCCGAGGCCATCAAACGGGCGAGCGCGGTGATGGTGCAACTGACCGCGTTCGGAACGCGCCATGGGGCAGATGCGCCTTCGCAATTTTCCGCTTTAGGTACGGCGCAGGATGAAGCTCCGCACGGACAGGCGAGCGCCCGCACATCGAAGGATCGCGACATTCTGGAGGAAGAGTTGGAAGAGGGGCTGGAGGACAGCTTTCCGGCGAGTGATCCCATCTCGGCGACGGTCACGTCCATTGCTTCCCGAAAAGGAGGGCAATGA	MQLSTTYVKRNNGVISIEFVGNDGDQVSVRLADGLEGIDDAEAIKRASAVMVQLTAFGTRHGADAPSQFSALGTAQDEAPHGQASARTSKDRDILEEELEEGLEDSFPASDPISATVTSIASRKGGQ				NA	NA	NA	NA	NA
BMS010_03864	582		COG2094	Putative 3-methyladenine DNA glycosylase	ATGAATCAGGCCTTTGGCCCGGAAATGCAGGAGAGTTTCTTCCTGCGCGATGCGCTGGATGTGGCCCGCGCCCTCATTGGCGCGGAGTTCCGCGTCGGCAATGCCGGCGGCATCATCGTGGAGACCGAAGCCTATCATCCGGACGACCCGGCATCCCACAGTTTTAACGGGCAGACCCCGCGCAACAGGGCAATGTTCGGCCCGGCCGGCCGTCTTTATGTCTACCGGTCCTATGGTATTCACTGGTGCGCCAACTTTGTCTGCGCCCCGGGTTCCGCCGTGCTTCTGCGCGCCATCGAACCCCTGACCGGCATAGACATGATGAAACTGCGACGGGGAACTGACAAGCCAAAACTTCTCTGCTCAGGCCCGGGCAGGCTCTGTCAGGCGCTGGCGATTACGGGAGAGATGGACGGCGCGCCACTGAACGCAGCGCCGTTTTTGCTGCGGTTGCCGAAAGAAGCCGCAGCCGTCACCAGCGGCAGACGAATCGGCATCAGCCGCGCGACGGAATATCCGTGGCGCTTCGGCATAAAGGGCTCGGCTTTCGTCAGCAAGAAATTCGAGAACGGAGAGACCTAA	MNQAFGPEMQESFFLRDALDVARALIGAEFRVGNAGGIIVETEAYHPDDPASHSFNGQTPRNRAMFGPAGRLYVYRSYGIHWCANFVCAPGSAVLLRAIEPLTGIDMMKLRRGTDKPKLLCSGPGRLCQALAITGEMDGAPLNAAPFLLRLPKEAAAVTSGRRIGISRATEYPWRFGIKGSAFVSKKFENGET	PGPT0014885_1861	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014885-yxlJ|aag-K03652	NA	NA
BMS010_03865	297			hypothetical protein	GTGTTGCGCCGCCTGATTGACGACAGCGCAAAGGCGCTGTCGCACGAGATAAAAACGCAGCTTGTGCCCATCGTGGCCAAGCGTGTTTATCAGGAGGCCGCGATGCCAGCCGTTCCCGTCGAACCCTATCCCGAACCGCCGATGCCCGTGCCGCCGCAGCCGGATATCCCGCCGGTGGAAGAACCGGAACCCGACCGGTTGCCGGACGAGGTGCCGACACCCAATCCCGACGAAAATGACGGGCCGCCGAAGGTGCTCGCGCCTGTTAGGTCTCTCCGTTCTCGAATTTCTTGCTGA	MLRRLIDDSAKALSHEIKTQLVPIVAKRVYQEAAMPAVPVEPYPEPPMPVPPQPDIPPVEEPEPDRLPDEVPTPNPDENDGPPKVLAPVRSLRSRISC				NA	NA	NA	NA	NA
BMS010_03866	198			hypothetical protein	ATGTTTGAATTTTTAAAACCGCAACAGCAGACCGTGATCGATGATGTCGAGGCGACCGGCACCTATGCCGATGCGCTGCTCAACGTTCCGAGCCCGGAACTTAACCGTTCGACCGCTCGCGAGCATGGTCACGAGGCCCACTCCCGCGACTATTGCGAAAATCGCGATATTTCCCGCAGCGCGCTCGGTTTCGCCTGA	MFEFLKPQQQTVIDDVEATGTYADALLNVPSPELNRSTAREHGHEAHSRDYCENRDISRSALGFA				NA	NA	NA	NA	NA
BMS010_03867	1014	rafR_1		HTH-type transcriptional regulator RafR	ATGAAGCTCAAGGAATTCGCAGAGAAAGTCGGGCTCTCGCCCACCACCGTCAGCCGGGCGCTGGGCGGCTACCCCGAGGTGCGCGAGGAAACGCGCCAGCGGGTGATGGACGCTGCGCTGAAATACGGCTACCGGCCGAATGCCAATGCTGTCAGGCTGGCGACGGGCAGGGCGGGCGCCATCGGTGTCGTCATGGGCCGTTCGGGCGGCGGGCACTTCTTCTCCGAATTCATGGGCGGCATGGCGACGCGTCTGGAACGGGAGGAGACCGATATTCTCGTCAGCGTTACCGTCGACAATAATCTCGATGAGGAACTGGCGATTTTCAGCCGGCTGGCGGCGAGCGGCCGGGTGGATGGCATCATCGTGCATTCGCCGCGTCCGGAAGATGAACGCATCGCGCTGCTCAACCGGCTGGGTGTGCCCTTCATCGTGCATGGCCGCTCAAAGACGCCTTTCGAACATGCCTGGCTCGATATCGACAACCACGATGTGACCTATCGTCCGACGATTCATTTTCTGGAGCGCGGACACAGGCGCATCGCCCTTATCAATGGTCCGGTTGGCCGCACCTTCGTGCAGGACCGCGAGCAGGGTTTTCGCGAGGCGCTGGCCACGCACGGCATTACGCCGGATCCGCGTTTCATGATGAATGAGCACTTCAGCGAGGAGACGGCCTTTCGTTTCGCCCGCTCGCTGCTGGAACAGACGCCGCGCCCGACGGCCTTTGTGGCGGGTGCGATGATGACGGCGCAGGGTGTCTATCGCGCCGCGACGCAGATGGGGTTGACGATCGGCAGGGATGTCTCCGTCATCGCCCATGACGACGTGTTTCCTTATCTTACGCCGGAAAGCATGATGCCGCCGCTTTCCACCACCCGCTCCCCCATGCGCATGGCGGGCATGCGGGTGACGGACCTGCTTTTGCAGATCATCGGCGGCCGTCCCGTCCGCGAGGTTCAGGAATTGTGGCCGGTCGAACTCATCTTGCGGGAATCCGTCGGCCCTGTCTGA	MKLKEFAEKVGLSPTTVSRALGGYPEVREETRQRVMDAALKYGYRPNANAVRLATGRAGAIGVVMGRSGGGHFFSEFMGGMATRLEREETDILVSVTVDNNLDEELAIFSRLAASGRVDGIIVHSPRPEDERIALLNRLGVPFIVHGRSKTPFEHAWLDIDNHDVTYRPTIHFLERGHRRIALINGPVGRTFVQDREQGFREALATHGITPDPRFMMNEHFSEETAFRFARSLLEQTPRPTAFVAGAMMTAQGVYRAATQMGLTIGRDVSVIAHDDVFPYLTPESMMPPLSTTRSPMRMAGMRVTDLLLQIIGGRPVREVQELWPVELILRESVGPV	PGPT0017992_10140	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017992-lacI|galR-K02529	NA	NA
BMS010_03868	1266		COG1653	putative ABC transporter-binding protein	ATGAATATTTCCATGAAGACTTTGTTCCTGTGCGGAGCGGCGTTTTCCGCCGCCGTCTCAGCTGAGGCGGCCGAGCTTTCCATCGCCGCCAATTCGACAGGCAAGAACGTCGCGTTCTTCCGCGAACGGATCGCCGCCTTCGAAAAAGAGACCGGTCACAAGGTCAATCTCGTCACCATGCCGTCATCGTCCAGCGAACAGTTCAGCCAGTACCGGCTGTGGCTTGCCGCCGGCAACAAGGACGTCGACGTCTACCAGACGGACGTGATTTGGGCGCCGCAGCTGGCCGACCAGTTCGTGGATCTGACCGCAGCGACGAAGGATGTGATCGGCGATCATTTCCCTTCCATCGTCGCCTCGCAGACGGTTGACGGCAAGCTCGTCGCCATGCCGATGTTCACCGACGCGCCGGCGCTTTTCTATCGCAAGGACCTTCTGGAAAAATATGGCAAGCAGCCGCCGAAGACCTGGAAGGAACTGAGCGAGACCGCCAAGGAAATCCAGGACAAGGAGCGCGAGGCAGGCCAGAAGGACCTCTGGGGCTTCGTTTTCCAGGGCAGCGCCTATGAAGGCCTGACCTGCAACGCGCTGGAATGGATCGCTTCCGCAGGCGGCGGCCATATTGTCGAGACCAACGGCGATATCTCCGTCAACAATGAGAAGGCCGCAGCCGCCATCGAAACCGCCAAGGGCTGGGTCGGCACCATCGCGCCGCAGGGCGTGCTCGCTTATAAGGAAGAGGAAGCGCGCGGCGTCTGGCAGACCGGCAATTCCGTCTTCATGCGCAACTGGCCTTATGCCTATGCACTGGGTAATGGCGACGACAGCGCCATCAAGGGCAAGTTCGGCGTCACCCCGCTACCAGCGGGCGCGGAAGGCGAAGCCCCTGCCTCGACACTCGGCGGCTGGAACCTCGCCGTTTCGAAATATTCCGACGATCAGGAAGCGGCCATTCAGCTCGTGAAATTCCTGGCATCAAAAGACACCCAGAAGATGCGCGCGATTCAGCTCTCCAACATGCCGACTATTGCATCCCTTTACGACGACAAGGACGTCGCTGCCGCGCAGCCCTTCATGCCGACATGGAAGCCGATCTTCCAGACCGCCGTTCCGCGTCCTTCCGCCTCGGCCAAGGTGAAATATAACGAGGTTTCCGCCAAGTTCTGGGGCGCCGTGCACAACACGCTCTCCGGCAACGGCACGGCAGCGGAAAATCTCGAACTTCTCGAGGTTGAACTGACCGATCTCAAAGGCAACGGCTGGTAA	MNISMKTLFLCGAAFSAAVSAEAAELSIAANSTGKNVAFFRERIAAFEKETGHKVNLVTMPSSSSEQFSQYRLWLAAGNKDVDVYQTDVIWAPQLADQFVDLTAATKDVIGDHFPSIVASQTVDGKLVAMPMFTDAPALFYRKDLLEKYGKQPPKTWKELSETAKEIQDKEREAGQKDLWGFVFQGSAYEGLTCNALEWIASAGGGHIVETNGDISVNNEKAAAAIETAKGWVGTIAPQGVLAYKEEEARGVWQTGNSVFMRNWPYAYALGNGDDSAIKGKFGVTPLPAGAEGEAPASTLGGWNLAVSKYSDDQEAAIQLVKFLASKDTQKMRAIQLSNMPTIASLYDDKDVAAAQPFMPTWKPIFQTAVPRPSASAKVKYNEVSAKFWGAVHNTLSGNGTAAENLELLEVELTDLKGNGW	PGPT0014145_924	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MALTOSE|TREHALOSE_TRANSPORT,PGPT0014145-thuE-K10236	NA	NA
BMS010_03869	981	sugA_2	COG1175	Trehalose transport system permease protein SugA	ATGAACGACATCGCCCTTCAAAGACCGGTCGCGGCATCCGACGCCGGCACCGGCTCTGACCTGCAGTCGGAAAGACTGAAATCCGCCTGGCTGTTTCTTGCCCCCACATTTCTGGTGCTGGCGCTTGTGGCGGGCTGGCCGCTGGTGCGCACCGTGTGGTTCAGCCTCACCGACGCCTCGCTTACCAATCTCGACGGGGCGCAGTTCGTCGGCCTCAAGAACTACCTCACCTGGATCACGCTCAGCAGCGGCCGCACCATCTATCGCGGCCTACTTGCCGATCCCGCATGGTGGGGCGCGGTTCTCAACACGCTCAAATTCACCATCCTTTCCGTCAGCTTCGAAACCGTGCTCGGCCTCATCGTCGCGCTGGTGCTGAATGCCGAATTCAAGGGACGCGGCCTCGTGCGTGCCGCGATCCTCGTGCCCTGGGCCATTCCCACCATCGTTTCGGCGCAGATGTGGGCGTGGATGCTGAACGACCAGTTCGGCATATTGAACGACCTGTTCCTCAATCTCGGGCTGATCTCCAACAAGATCGCCTGGACGGCCAATCCCGAGACCGCGATGATCGCCGTCCTGATCGTCGATATCTGGAAGACCACGCCTTTCATGGCGCTGCTCATCCTCGCCGGTCTACAGATGGTGCCGAAGGACATGTATGAGGCGGCAAAGGTGGATGGCATTCATCCCATCAAGGTGTTCTTCCGCGTCACTTTGCCGATGATCCGCCCGGCCCTCATGGTCGCCGTCATCTTCCGCATGCTGGATGCGATGCGCGTCTTCGATCTCATCTATATCCTGACGCCCAACAACGCCCAGACTCGCACCATGTCAGTGCTGGCGCGTGAGAACCTGTTCGATTTCGACAAGTTCTCCTATGGCGCCGCCGCCTCCACCATGCTGTTCCTCATCATCGCCTCGATCACCGTCATCTACATGTGGCTCGGGCGCGTCAACACCGATGGAGCCGCGCGATGA	MNDIALQRPVAASDAGTGSDLQSERLKSAWLFLAPTFLVLALVAGWPLVRTVWFSLTDASLTNLDGAQFVGLKNYLTWITLSSGRTIYRGLLADPAWWGAVLNTLKFTILSVSFETVLGLIVALVLNAEFKGRGLVRAAILVPWAIPTIVSAQMWAWMLNDQFGILNDLFLNLGLISNKIAWTANPETAMIAVLIVDIWKTTPFMALLILAGLQMVPKDMYEAAKVDGIHPIKVFFRVTLPMIRPALMVAVIFRMLDAMRVFDLIYILTPNNAQTRTMSVLARENLFDFDKFSYGAAASTMLFLIIASITVIYMWLGRVNTDGAAR	PGPT0014150_420	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MALTOSE|TREHALOSE_TRANSPORT,PGPT0014150-thuF|sugA-K10237	NA	NA
BMS010_03870	834	sugB_2	COG0395	Trehalose transport system permease protein SugB	ATGACCCTGCCAAGCATCCTGAAAACCACCGCTTTTTATGCGCTGGTCGCCGTCATCATGGTGATTTCGGTATTCCCGTTCTATTATGCGATCCTGACGAGCCTGAAATCCGGCTCGGCGCTGTTCCAGGTCAATTATTGGCCGCGTGACTTCTCGCTGACCAATTACAGCTTCGTCATCGGCAACGGCACGTTTCTGCGCAATCTCGGCAATTCGCTGTTCGTTGCATCTTCGGTCGTCGTGCTATCGCTGTTTCTTGCGGTAACGGCCTCCTATGCTCTCGCCCGCGTCCGCTTCCGTGGCCGCGCGCTGCTGCTGCTCACCATCCTGTCGGTTTCCATGTTCCCGCAGATCGCGGTGCTCGCCGGCCTGTTCGAACTGATCCGCTGGGCTGGAATCTTCAATACGCCCTTGGCGCTGATCTTTTCCTACATGATCTTCACCCTGCCCTTCACGGTCTGGGTGCTGACAACCTTCATGCGCGACCTGCCGATCGAGATCGAGGAAGCGGCGATTGTCGATGGTGCAACGCCATGGGTCATCATCACCCAGGTGTTCATGCCCTTGATGTGGCCGGCGCTCGTCACGACCGGGCTTCTCGCCTTCATCGCGGCGTGGAACGAGTTCCTCTTCGCGCTCACCTTCACCTCATCGAACGAGCAGCGCACGGTGCCTGTCGCCATCGCGCTTTTGTCGGGCGGCTCGCAGTTCGAAATCCCCTGGGGAACGATCATGGCTGCGTCCGTCATCGTCACCGCACCCCTCGTCGTCCTCGTTCTGATCTTCCAGCGACGCATCATCTCCGGCCTCACCGCCGGCGGCGTCAAAGGCTAG	MTLPSILKTTAFYALVAVIMVISVFPFYYAILTSLKSGSALFQVNYWPRDFSLTNYSFVIGNGTFLRNLGNSLFVASSVVVLSLFLAVTASYALARVRFRGRALLLLTILSVSMFPQIAVLAGLFELIRWAGIFNTPLALIFSYMIFTLPFTVWVLTTFMRDLPIEIEEAAIVDGATPWVIITQVFMPLMWPALVTTGLLAFIAAWNEFLFALTFTSSNEQRTVPVAIALLSGGSQFEIPWGTIMAASVIVTAPLVVLVLIFQRRIISGLTAGGVKG	PGPT0014155_730	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MALTOSE|TREHALOSE_TRANSPORT,PGPT0014155-thuG|sugB-K10238	NA	NA
BMS010_03871	1029	malK_3	COG3839	Maltose/maltodextrin import ATP-binding protein MalK	ATGACCACCATTCAACTGCGCGATCTTCGCAAATCCTTCGGCGCCTTCGATGTCATCAAGGGCATCGACATGGACATCCGCTCCGGCGAGTTCATGGTCTTCGTCGGCCCTTCCGGCTGCGGCAAGTCCACGCTGCTGCGCCTCATCTGCGGGCTGGAGGAAATTACCAGTGGCACGCTCTCCTTCGATGGCGAGATGGTGAACCGCCTGCCGCCCGCCAAGCGTGGCGTCGCCATGGTCTTCCAGTCCTATGCGCTTTATCCGCACATGACCGTGTTCGAGAACATGGCCTTCGGCATGAAACTGTCAGGCGCGGACAAGGAACAGCGCAGGAAACGCGTGGAAGCGGCGGCCGAGATGCTGCAGCTCACACCCTATCTGGAACGTCTGCCGAAGCAGCTTTCCGGCGGCCAGCGCCAGCGTGTCGCCATCGGCCGCGCCATCGTGCGCGATCCCAAGGTGTTTCTGTTCGACGAACCGCTTTCCAACCTCGATGCGGCATTGCGCGTCGCCACGCGTCTGGAAATCGCCAAGCTGCACCGCTCGATGCATGACACGACGATGATCTACGTCACCCACGACCAGGTGGAGGCGATGACACTCGCCGACCGTATCTGCGTTTTGCGGGACGGCAGGGTCGAGCAGATCGGCACGCCGCTGGAGCTTTACGAAAGCCCGGTCAACACCTTCGTCGCCGGCTTCATCGGCTCACCGAAGATGAACTTCCTCACCGGCAAATATGCGGAGGCCGAAGGGGCGAAAACCATCGGCATCCGCCCTGAACACATCACCATCGCCACCGATGGCAGCGGCTGGAGCGGCGAGATCGTGCATTCGGAAATGCTGGGATCGGACAGCTATATCTATGTCGAGATCGGCGCGGGTGAACCCGTCGTCGTTCGTGAAGAGGGCGTGACCGGCCGCACGGCCGGTGAACGCATCGCCATTGCGCCGGATGCGGCGCAGATACATCGTTTCGACGCAGAGGGCCGGGCGCTTGCCCGCAACCCTGCCCGGGGTGCCCCCTGA	MTTIQLRDLRKSFGAFDVIKGIDMDIRSGEFMVFVGPSGCGKSTLLRLICGLEEITSGTLSFDGEMVNRLPPAKRGVAMVFQSYALYPHMTVFENMAFGMKLSGADKEQRRKRVEAAAEMLQLTPYLERLPKQLSGGQRQRVAIGRAIVRDPKVFLFDEPLSNLDAALRVATRLEIAKLHRSMHDTTMIYVTHDQVEAMTLADRICVLRDGRVEQIGTPLELYESPVNTFVAGFIGSPKMNFLTGKYAEAEGAKTIGIRPEHITIATDGSGWSGEIVHSEMLGSDSYIYVEIGAGEPVVVREEGVTGRTAGERIAIAPDAAQIHRFDAEGRALARNPARGAP	PGPT0014160_1760	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0014160-malK|mtlK|thuK-K10111	NA	NA
BMS010_03872	786			hypothetical protein	ATGACCATCAACACCGTTGTATGGGGCGAAAATATCCACGAACACATCAATGAGACGGTGCGTTCTATCTATCCGAACGGCATGCACAACACCATTGCCGACGCGCTGAACCAGAATCCTGAGATCAACGCCACTACCGCTACGCTGCAGGAGCCGGAACACGGGCTTTCGCAGGAGCGCCTCGACAAGACCGACGTGCTGGTCTGGTGGGGCCACAAGGACCATGGCGCGGTGCAGGACGAGATCGTCGAGCGTGTCGCCAAGCGCGTCTGGGAAGGCATGGGCCTCATCGTCCTGCATTCCGGCCACTTCTCCAAGCCGTTCAAGCGCCTGATGGGCACGCCTTGCGCGCTTAAATGGCGTGAGGCAGGCGAGCGTGAACGCCTGTGGACCATCAATCCGCGCCACCCGATTGCAGCCGGCCTGCCCGAGCATTTCGAGCTGGAAAACGAGGAAATGTATGGCGAGCAGTTTTCCGTGCCGGAGCCGCTGGAAACCGTCTTCATCTCCTGGTTCCAGGGCGGCGAAGTCTTCCGGTCCGGTCTTACCTGGCGCCGTGGTGCAGGCAATATCTTCTATTTCCGCCCCGGCCACGAGACCTATCCCACCTATCACGACGCCAATGTCCAGAAGGTCATCAGCAACTCGGTGAAATGGGCCTATAATCCGGTTGGCGCACTGAAAAGCATTCACGACGCCCCCAATGTTCCCGTCGACAAAGCTCTGGAGCCCATCGAAGAACGCGGCCCCAAGCTGCACAAGGCAGGCGAAGCAGGTTACAGGTAA	MTINTVVWGENIHEHINETVRSIYPNGMHNTIADALNQNPEINATTATLQEPEHGLSQERLDKTDVLVWWGHKDHGAVQDEIVERVAKRVWEGMGLIVLHSGHFSKPFKRLMGTPCALKWREAGERERLWTINPRHPIAAGLPEHFELENEEMYGEQFSVPEPLETVFISWFQGGEVFRSGLTWRRGAGNIFYFRPGHETYPTYHDANVQKVISNSVKWAYNPVGALKSIHDAPNVPVDKALEPIEERGPKLHKAGEAGYR				NA	NA	NA	NA	NA
BMS010_03873	1050	iolG_4		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGAGACTTCTCATTCTCGGAACCGGCGGCATGGCCAACAACCATGCCACCTATTTCTCGCAAATCCCCGGCGTCGAACTGGTCGCGGCAGTGGATGTGGACGATGTGGTGGTGCGGGGCTTTGCGCTGCGCCACAACATTCCGCTCTCCTTCACCTCACTGGATGACGCCATTGCCTGGGGTGAATTCGATGCGGCGGCGAATGTCACGCCGGACGCGATCCACCACCCCACCAGCCTTAAACTGCTGGCGGCCGGCAAACATGTCTTCTGCGAAAAGCCGCTGGCGGAAAACTACGCCAAGGCCGCCGAAATGGCCGATGCCGCCGAAAAGGCCGGCCTCATTGCCATGGTCAACCTCACCTATCGCAACGTTGCCCCCTTGCAGGCGGCGCGTGAGATGGTGCTGGCAGGCAAGATCGGCAAGGTGCGGCATCTGGAAGCCTCCTATCTCCAGAGCTGGCTCGTTTCCAAGGCCTGGGGCGACTGGATGACGGAGAGCAAGTGGCTGTGGCGGCTTTCCACCAAGCATGGCTCAAACGGCGTGCTTGGTGATGTCGGCATCCACATTCTCGACTTCGCCTCCTATGGCGCGGGCAGCGATGTGGAACGCATCTTCACGCGGCTGAAGACCTTCGACAAATATGAAGGCAACAAAATTGGCGTCTACGACCTCGACGCCAATGACAGCTTCACCATGACCGCCGAGCTTGAAAACGGTGCCATGGGCGTCATCCATGCCAGCCGCTGGGCGACGGGTCACTTGAACGAACTTCGTCTGCGTATCCATGGCGACAAGGGAGCATTGGAAGTGATCCACACCCCGGATTATTCCAGCCTGCGCGCCTGCATCGGCGAGGATGTGGAAAAGGCGATCTGGAAGACAATCGATGTCGACCCGGTGCCGACGAATTACGAAAAATTCGCCAAGGCCGTCATGGAAGGCGACCCCGCCGATCCGGATTTCCGTCATGCCGCCAATCTGCAGAAGGTGCTCGATTTGTCGATCATCGCGGATCGGGAGAGGCGTGAGGTGGCTGTTTCGGCTTGA	MRLLILGTGGMANNHATYFSQIPGVELVAAVDVDDVVVRGFALRHNIPLSFTSLDDAIAWGEFDAAANVTPDAIHHPTSLKLLAAGKHVFCEKPLAENYAKAAEMADAAEKAGLIAMVNLTYRNVAPLQAAREMVLAGKIGKVRHLEASYLQSWLVSKAWGDWMTESKWLWRLSTKHGSNGVLGDVGIHILDFASYGAGSDVERIFTRLKTFDKYEGNKIGVYDLDANDSFTMTAELENGAMGVIHASRWATGHLNELRLRIHGDKGALEVIHTPDYSSLRACIGEDVEKAIWKTIDVDPVPTNYEKFAKAVMEGDPADPDFRHAANLQKVLDLSIIADRERREVAVSA				NA	NA	NA	NA	NA
BMS010_03874	756	queE_2	COG0602	7-carboxy-7-deazaguanine synthase	ATGACGGCGGTTGCACACAAGATTGCAGCCAAGGAGACCACGATCCGCATCAGCGAAATCTTCGGCCCGACCATTCAGGGTGAAGGCCTGCTGATCGGTCTGCCGACTGTTTTCGTGCGCACCGGTGGCTGCGACTATCGTTGTTCCTGGTGCGATACGCTGCATGCCGTTGACAGCGAGTACCGCGATACATGGAAGCCAATGCCGGTCGAGGCGATCTGGCAGGAGGTACGGCGGCTTTCCGGCGGCGTGCCGCTGACGGTCTCGCTTTCAGGCGGCAATCCGGCCATTCAACCGCTCGCGGCCTTGATCGCGAAGGGGCAGGGCGAGGGGTATCGTTTCGCGCTGGAAACGCAGGGCAGCATCGCGAAAGACTGGTTTGCCGATCTCGACCATCTGGTGCTGAGCCCCAAGCCGCCATCGAGCGGCATGGAAACGGACTGGCAGGCCTTCGAAGACTGTCTTGCCGCCGCCGGCGACGGACCGCAGGTGGCGCTGAAGATCGTGGTGTTCGACGATGCGGATTATGCCTATGCCAAGGCGGCATCCGCGCGTTTCCCGCATCTGCCGGTCTATCTCCAGCCCGGCAACCATACCCCGCCGCCGCCGGATGACGACGATGCGCGGGTGGATATCGACGGGGTGATGGACCGGATGTTGTGGCTGGTGGACAAGGTGAGCGAAGACCGCTGGTTTTCCGCCCGGGTGCTGCCGCAGCTGCATGTGCTGTTGTGGGGGAATAAGCGCGGGGTGTGA	MTAVAHKIAAKETTIRISEIFGPTIQGEGLLIGLPTVFVRTGGCDYRCSWCDTLHAVDSEYRDTWKPMPVEAIWQEVRRLSGGVPLTVSLSGGNPAIQPLAALIAKGQGEGYRFALETQGSIAKDWFADLDHLVLSPKPPSSGMETDWQAFEDCLAAAGDGPQVALKIVVFDDADYAYAKAASARFPHLPVYLQPGNHTPPPPDDDDARVDIDGVMDRMLWLVDKVSEDRWFSARVLPQLHVLLWGNKRGV				NA	NA	NA	NA	NA
BMS010_03875	357	queD_2	COG0720	6-carboxy-5,6,7,8-tetrahydropterin synthase	ATGTTCCGCATCACCAAGGAATTTCACTTCTCCGCCTCGCACCAGTTGAAAAGTCTGCCGTCGGATCACCAGTGCAATCGCCTCCACGGGCATAATTACATCGTCGAGATCGAGCTGGCAGGCGAAGCGCTGAACGAGCACGGTTTCGTGCGCGACTATCACGAGCTTGCACCGCTTAAACGCTATATCGACGATCATTTCGACCATCGCCACCTGAACGACGTTCTTGGCCATGACCGGGTGACGGCGGAATGTCTGGCGAAGCATTTTTACGACTGGTGCAAGGATCGCCTGCCGGAAACCAGCGCCGTGCGGGTGAGCGAAACCGCCAAGACCTGGGCGGAATACCGGCCATGA	MFRITKEFHFSASHQLKSLPSDHQCNRLHGHNYIVEIELAGEALNEHGFVRDYHELAPLKRYIDDHFDHRHLNDVLGHDRVTAECLAKHFYDWCKDRLPETSAVRVSETAKTWAEYRP				NA	NA	NA	NA	NA
BMS010_03876	711	queC_2	COG0603	7-cyano-7-deazaguanine synthase	ATGAAAACCATCGTCATCTGCTCCGGCGGACTGGACTCCGTTTCGCTTGCGCATAAAATCGCGGCGGAACACGAACTTCTTGCTCTCGTCTCCTTCGATTATGGCCAGCGCCACAGGAAGGAGCTGGAATACGCGGCCGATTGCGCAAGGCGTCTCGGCGTGCCGCATCATATCATCGATATCAGAACCATCGGCGCCCATCTCACCGGTTCGGCGCTGACCGACGACGTGGAGGTGCCGGACGGGCATTATGCGGAAGAGACCATGCGCTCCACCGTGGTGCCGAACCGCAACGCCATCATGCTCACCATCGCTTTCGGGCTGGCCGCCGCGCAGCAGGCGGATGCCGTGGCGATTGCCGTGCATGGCGGCGATCACTTCATCTACCCCGATTGCCGGCCGGGTTTCATCGACAGTTTCAATGCCATGCAGGCGCATGCGCTGGAAGGTTATGCCGACGTCAAGCTCTTCGCCCCCTATGTCACCGTTTCCAAGGCGGCGATTGTGACCGATGGTGCGAAATACGGCACGCCCTTTGGCGAAACATGGTCCTGTTACAAGGGCGGCCTTACCCATTGCGGCCGCTGCGGCACCTGCGTCGAACGGCGCGAGGCCTTTCATCTGGCCGGTGTCACCGATCCGACCGACTATGAGGACCCCGATTTCTGGGTGGCGGCCACCCATGCCTATGCGGCGCAGGAGGTGCGCTGA	MKTIVICSGGLDSVSLAHKIAAEHELLALVSFDYGQRHRKELEYAADCARRLGVPHHIIDIRTIGAHLTGSALTDDVEVPDGHYAEETMRSTVVPNRNAIMLTIAFGLAAAQQADAVAIAVHGGDHFIYPDCRPGFIDSFNAMQAHALEGYADVKLFAPYVTVSKAAIVTDGAKYGTPFGETWSCYKGGLTHCGRCGTCVERREAFHLAGVTDPTDYEDPDFWVAATHAYAAQEVR				NA	NA	NA	NA	NA
BMS010_03877	138			hypothetical protein	ATGGTGGCGGCTGATACATTTCTGTTTTCGCTGAGCAACCTCAGCTCTCTCGGCACCGCCATCCTGATGGCGATGGCGGGCATGCTTTATGTCACGCTCACCATTCGCGGGCTGATCACCGCCATACGTCATGGATAA	MVAADTFLFSLSNLSSLGTAILMAMAGMLYVTLTIRGLITAIRHG				NA	NA	NA	NA	NA
BMS010_03878	1134	xdh_1		D-xylose dehydrogenase	ATGGCCAGGGATCTTGGCGTCGGCATCATCGGATGCGGCAATATCTCGTCTGCTTACTTTTCGCTGGCACCGCTCTTCAAGGGCATCAAGGTGCTTGCCTGCGCCGATCTCAACCGCAATGCGGCGGAGCTCAGGGCGGAAGAATTCGGTGTCGTCGCGCAGTCCATCGATGAACTGCTCGCCAACAAGGATATCGATGTGGTGGTGAACCTCACCATTCCCGCCGCGCATTTTCCGGTGTCGAAAGCCGCCCTCGAGGCAGGCAAGCACGTCTATTCGGAAAAGCCGCTGGTGCTTTCGCTGGAGGAAGGCGAGGAGCTACGGCGCATCGCCCGGGAGAAGAACCTCTCCGTCGGCTGCGCGCCGGATACTTTCCTCGGCGGCGCGCATCAGCTTGCCCGGCAATATATCGATGACGGCAAGGTCGGGCGCATCACCTCCGGCACCTGCCATGTGATGAGCCCCGGCATGGAGATGTGGCACCCCAATCCGGGCTTCTTCTTCCTGAAGGGCGGCGGGCCGATCCTCGATCTCGGGCCTTATTACGTTGCCAACCTCATCAACCTCATCGGCCCGGTGAAGCGCGTCGGTGCGCTGACCAGCATGGCGAACCCCACCCGTACGGTGACCAGCCAGCCGTTGAACGGCGAAATCATCCCGGTCGAAACACCGACCAATATCCATGCCCTGCTGGAATTCGTGAACGGCGCGACGATCACGCTTTCGGCAAGCTGGGATGTCTGGTCGCATCGCCACGCCAATATGGAGCTCTATGGCACGGAAGGCTCGATCTATGTGCCGGATCCGAACTTCTTTGGCGGCGTGGTGGAAGCGAGCGGACGGGACAAGAATATCCAGCCGCTGGAAGACTGGGCGCATCCCTTCGGCATCGCCAATCAGGAGAGCCCCAATGGCCCGCGTGCCAATTACCGCACGGCGGGCCTTGCCGATATGGCGATTGCGATTTTGGAGGGGCGTGATGCCCGCTGCTCGCTGGATCGCTCCCTGCACGGTATCGATGTGATGACCTCGATCCTCAAATCCGGGGAGGAGGGCCGTTTCATCGAAATGACGACGACCTGCACCCAGCCGGCGGCACTCGGCATCGAGGAGGCGCAGGCGCTGCTGCGCTGA	MARDLGVGIIGCGNISSAYFSLAPLFKGIKVLACADLNRNAAELRAEEFGVVAQSIDELLANKDIDVVVNLTIPAAHFPVSKAALEAGKHVYSEKPLVLSLEEGEELRRIAREKNLSVGCAPDTFLGGAHQLARQYIDDGKVGRITSGTCHVMSPGMEMWHPNPGFFFLKGGGPILDLGPYYVANLINLIGPVKRVGALTSMANPTRTVTSQPLNGEIIPVETPTNIHALLEFVNGATITLSASWDVWSHRHANMELYGTEGSIYVPDPNFFGGVVEASGRDKNIQPLEDWAHPFGIANQESPNGPRANYRTAGLADMAIAILEGRDARCSLDRSLHGIDVMTSILKSGEEGRFIEMTTTCTQPAALGIEEAQALLR				NA	NA	NA	NA	NA
BMS010_03879	765			hypothetical protein	ATGACAGAACTCGGTTTCCAGCTTTACAGCGCCCGTAATTTCCAGCCTTTTTCCAACATTCTGAAGAAGCTTTCGGCGGCGGGTTATAAACATGTCGAAGGTTATGGCGCGATGTACGCTTCGCTGGATGATGCCGGTTTGAAAGGCCTGCGCGCCGAACTCGACGCCAATGGCCTTGCCATGCCGACCGGCCATTTCGGCCTCGATCTTCTTGAGGGCGACCCGAAAAAGGCGCTGAACATTGCGAAAGTTCTGGGTGTTGAGGCGATCTATTGCCCTTATCTGATGCCTGACCAGCGCCCGACAGATGCCGCAGGCTGGTTCGCTTTCGGCAAGCGCCTGCAGGAAGCGGGCAAGCCTTTCGTCGATGCCGGGCTGGTCTTCGGCTGGCATAACCACGATTTCGAGTTCAAGACGCTTGGTGACGGTTCCACCCCACAGGAGCAGATTTTTGCCGGTGGCCCGGATTTGAAATGGGAGGCGGATATCGCCTGGATCATTCGCGGCAATGCCGATCCGCTCGCCTGGATCGAAAGCTACGGCAAGCGCATTACTGCGGTACATGTGAAGGATATCGCACCAGCAGGCGAGAATGCGGACGAGGATGGCTGGGCCGATGTCGGCCATGGGACCGTGGACTGGAAGGGCCTCGTCGCGGCGCTGAAGGCGAAATCCGCCACGAAACATTTCGTGGTCGAACACGACAATCCCAAGGATATCGACCGGCTGATCACCCGCTCGATCGCATCTTTCAAAACCTACTAA	MTELGFQLYSARNFQPFSNILKKLSAAGYKHVEGYGAMYASLDDAGLKGLRAELDANGLAMPTGHFGLDLLEGDPKKALNIAKVLGVEAIYCPYLMPDQRPTDAAGWFAFGKRLQEAGKPFVDAGLVFGWHNHDFEFKTLGDGSTPQEQIFAGGPDLKWEADIAWIIRGNADPLAWIESYGKRITAVHVKDIAPAGENADEDGWADVGHGTVDWKGLVAALKAKSATKHFVVEHDNPKDIDRLITRSIASFKTY				NA	NA	NA	NA	NA
BMS010_03880	1089	ugpC_8	COG3839	sn-glycerol-3-phosphate import ATP-binding protein UgpC	ATGAACAAAAGCGTTTCCATTCGCGATCTTTCCCTGTCCTTCGGCGCCGTTACCGTGCTGAAAGACCTCAATCTCGATATTTACGACGGCGAATTCCTCGTGCTGCTCGGTTCTTCCGGCTGCGGAAAGTCGACTCTTCTGAACTGCATCGCGGGTCTTCTGGAGCCGACCGACGGACAGATATTCATCAAGGACCGCAACGTCACCTGGGAAGAGCCGAAGGATCGCGGCATTGGTATGGTGTTCCAGTCCTATGCGCTTTATCCGCAGATGACGGTGGAGAAAAACCTGTCCTTCGGCCTTCAGGTCGCCAAGGTGCCGAAAGAGGAAATCGACCGCCGCGTCAAAAGGGCGGCCGGCATATTGCAGATCGAGCCGCTGTTGAAGCGCAAGCCCGCCGAGCTTTCCGGCGGCCAGCGTCAGCGTGTGGCCATCGGCCGGGCGCTGGTGCGGGATGTGGATGTTTTCCTGTTCGACGAGCCGCTCTCCAACCTCGACGCCAAGCTGCGCTCGGAACTGCGCGTCGAAATCAAGCGGCTGCACCAGTCGCTGAAGAACACCATGATCTATGTGACGCATGATCAGATCGAGGCGCTGACGCTGGCGGACCGCATCGCCATCATGAAAAGCGGCGTCATCCAGCAGCTTGCCGATCCCGTCACCATCTACAACAAGCCGCGAAACCTCTTCGTCGCCGGTTTCATCGGCTCGCCGTCGATGAATTTCCTGCGCGGCGAGTTGATCGAAAAGGACGGCAAGGTGGTCTTCACCACCAATGGCGTGACTTTCGCGCTGGATGGCTATCATGCGGAAACGCCGCTCGCCGCCGGCCGTGCCGTGGTTCTGGGTGTCCGCCCCGAACATGTGCGCGTCGATGCCGATATTGTCGGCGGTGAAGTGCATGAGGCGGTTGTCGATATCGAGGAACCGATGGGCGCCGACAATCTGATCTGGCTGAAACATGCCGGGCATACCATGTCCGTGCGTGTCGGCGGCCACAGGCGGTTTTCACCCGGCACCAAGGTGCGCCTCGGCCTCGACATGACGATGGCCTCGCTGTTCGACGCACAAAGCGAGGACCGGCTCTAG	MNKSVSIRDLSLSFGAVTVLKDLNLDIYDGEFLVLLGSSGCGKSTLLNCIAGLLEPTDGQIFIKDRNVTWEEPKDRGIGMVFQSYALYPQMTVEKNLSFGLQVAKVPKEEIDRRVKRAAGILQIEPLLKRKPAELSGGQRQRVAIGRALVRDVDVFLFDEPLSNLDAKLRSELRVEIKRLHQSLKNTMIYVTHDQIEALTLADRIAIMKSGVIQQLADPVTIYNKPRNLFVAGFIGSPSMNFLRGELIEKDGKVVFTTNGVTFALDGYHAETPLAAGRAVVLGVRPEHVRVDADIVGGEVHEAVVDIEEPMGADNLIWLKHAGHTMSVRVGGHRRFSPGTKVRLGLDMTMASLFDAQSEDRL	PGPT0016310_4300	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0016310-msmX|msmK|malK|sugC|ggtA|msiK-K10112	NA	NA
BMS010_03881	942	ngcG_2	COG0395	Diacetylchitobiose uptake system permease protein NgcG	GTGGCTAATATCAGCACATTGAACACGGTTGTCGCCGCCAGCGATGCGGTTGCCAAAGACCTTTCCGGCCCGCGCGGCAGGAAGCCGAGGAAAACCTTTTCCCGGCGCAACATCATTCTTTACGGCACGCTCATCGTGGCCGCCGCCTATTACCTGCTGCCGCTTTACGTGATGGTCGTCACCTCGCTGAAGGGCATGCCGGAAATCCGGCTCGGCAACATCTTCGCGCCGCCGGTGGAAATCACTTTCGAGCCCTGGGTGAAGGCCTGGGCCAATGCCTGCACGGGCTTGAACTGCGACGGGCTTTCACGCGGCTTCTGGAATTCGGTGCGCATCCTCGTGCCTTCAGTGGTGATCTCGATCGTCGTCGCCTCCGTCAGCGGCTACGCCATGGCGAACTGGAAGTTCAAGGGATCGGAACTCTTCTTCTCCATCCTCATCATCGGCGCCTTCATTCCCTATCAGGTGATGATCTATCCGATCGTCATCGTGCTGCGCGAAATGGGTGTTTATGGCACGCTGACCGGCCTCGTCATCGTGCACACCATTTTCGGCATGCCGATCCTGACGCTGCTGTTCCGCAATTATTTCGCCTCGCTGCCGGAGGAATTGTTCAAGGCGGCGCGCATCGATGGCGCCAATTTCTGGCAGATCTATTTCCGCATCATGCTGCCCATGTCGCTGCCGATCTTCGTCGTGGCGATGATCCTGCAGGTGACCGGCATCTGGAACGACTTCCTGTTCGGCGTGGTGTTCACGCGGCCGGAATATTACCCGATGACGGTGCAGCTCAACAATATCGTCAACTCCGTGCAGGGCGTGAAGGAATATAACGTCAACATGGCCGCCACCCTTCTCACGGGTGCCGTGCCGCTGATCGTCTATTTCGTCTCCGGCAGGCTATTCGTGCGCGGCATTGCTGCCGGCGCAGTAAAAGGTTGA	MANISTLNTVVAASDAVAKDLSGPRGRKPRKTFSRRNIILYGTLIVAAAYYLLPLYVMVVTSLKGMPEIRLGNIFAPPVEITFEPWVKAWANACTGLNCDGLSRGFWNSVRILVPSVVISIVVASVSGYAMANWKFKGSELFFSILIIGAFIPYQVMIYPIVIVLREMGVYGTLTGLVIVHTIFGMPILTLLFRNYFASLPEELFKAARIDGANFWQIYFRIMLPMSLPIFVVAMILQVTGIWNDFLFGVVFTRPEYYPMTVQLNNIVNSVQGVKEYNVNMAATLLTGAVPLIVYFVSGRLFVRGIAAGAVKG	PGPT0016580_107	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0016580-gtsC|glcG-K17317	NA	NA
BMS010_03882	903	melD_4	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	ATGGCAGGTCAAGCGCGCTCGGGGCGCCCCAACCAGCTTTTCCGCAATCTCAATTCCAAGATTGCCTCCATTCCCATGATACTGACCGCCATGGTGATCTTCCTCGGTGGGACGATCTGGACGGTGGTTTATTCCTTCACCAATTCAAAGCTTCTGCCGCGCGCGAGTTTCATCGGTTTCGATCAATATGAGCGTTTGTGGGCAGCACCACGCTGGATCGTGTCCATCCAGAATCTGGCGATCTACGGTGTGCTGTCGCTGATCTTCAGCCTCGTCATCGGCTTCGTGCTGGCGGCGCTGATGGATCAGAAAATTCGTTTCGAAAACACCTTCCGCACCATTTTCCTCTATCCTTTCGCCCTGTCCTTCATCGTCACCGGCCTCGTCTGGCAATGGCTGCTGAATCCGGAATTCGGCATCCAGTCCGTGGTTCGCTCGATGGGCTGGGAAAGTTTCACCTTCGATCCGCTCTATAATTCCCAGATCGTTATCTACGGCATCCTGATCGCGGCACTCTGGCAGGGCACGGGGCTCGTCATGTGCCTGATGCTGGCGGGCCTTCGCGGTATCGATGAGGACATCTGGAAGGCGACGCGTGTCGACGGCATTCCGATGTGGAAGACCTATATTCTCATCATCATTCCCATGATGCGGCCGGTCTTCATCACCACGCTGGTCATCATCGCCAGCGGCATCGTCAAGGTCTACGATCTCGTCGTGGCGCAGACCAGCGGCGGGCCGGGTATCGCATCTGAAGTGCCGGCGAAATATGTCTATGACTACATGTTCCAGGCACAGAACCTGGGGCAGGGCTTCGCCGCCTCGACAATGATGCTCCTGACGGTCGCGATCATCATCATTCCATGGGCCTACCTCGAATTCGGAGGCAAGAAGCGTGGCTAA	MAGQARSGRPNQLFRNLNSKIASIPMILTAMVIFLGGTIWTVVYSFTNSKLLPRASFIGFDQYERLWAAPRWIVSIQNLAIYGVLSLIFSLVIGFVLAALMDQKIRFENTFRTIFLYPFALSFIVTGLVWQWLLNPEFGIQSVVRSMGWESFTFDPLYNSQIVIYGILIAALWQGTGLVMCLMLAGLRGIDEDIWKATRVDGIPMWKTYILIIIPMMRPVFITTLVIIASGIVKVYDLVVAQTSGGPGIASEVPAKYVYDYMFQAQNLGQGFAASTMMLLTVAIIIIPWAYLEFGGKKRG	PGPT0016575_569	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0016575-gtsB|glcF-K17316	NA	NA
BMS010_03883	1227			putative sugar-binding periplasmic protein	ATGCGTGTTATTTCTGCGGCTTTTCTGGCCAGCGTCATGATTCCGGCGGGTATCGCCGGGGCCACCGATCTTGAGGTGACCCATTGGTGGACATCGGGCGGCGAAGCCGCAGCGGTCGCCGAATTGGCTAAGGCTTTCGACGCCACCGGCAACAAATGGGTGGATGGCGCGATTGCCGGTTCGGGCGGCACGGCTCGTCCGATCATGATCAGCCGTATCACCGGCGGCGACCCGATGGGCGCGACCCAGTTCAACCACGGCCGTCAGGCGGAAGAGCTGGTGCAGGCGGGCCTGATGCGCGACCTGTCCGATGTTGCCGCAAAGGGCAACTGGAAGGACGTCATCAAGCCGGCAAGCCTGCTCGACAGCTGCACTATCGACGGTAAGATTTACTGCGCGCCGGTAAACATCCATTCCTGGCAATGGCTATGGCTTTCCAATGAAGCCTTCAAGAAGGCGGGCGTCGAGGTTCCGAAGAACTGGACGGAATTCGTTGCCGCCGCGCCGGCGCTGAAAAAGGCCGGCATCCAGCCGCTCGCGCTCGGTGGGCAGGCATGGCAGGCCAACGGCCTCTTCGACACGCTGACGCTTTCGATCGGTGGCAAGGACCTTTATCAGAAGGTCTATGGCGACAAGGATGCCGAGGCGGCAGCCGGGCCCGAGATGGCGAAGATTTTCGCGGCTGCCGTCGAGGCGCGCGACATGGCCAAGGGCACCAATGTTCAGGACTGGAACCAGGCCACCAACATGGTCATCACCGGCAAGGCCGGCGGCCAGATCATGGGTGACTGGGCGCAGGGTGAATTCCAGCTGGCCAACCAGAAAGCCGGCACGGATTATTCCTGCCTTCCCGGTCTTGGCCTCAGTGAATATCTCACCACGGGCGGCGACGCCTTTTATTTCCCTGTTTTGAAGGACGAGGCGAAAACCAAGGCGCAGGACGTTCTCGCCGCAACCATCGTCGATCCAAAAACGCAGGTGGCCTTTAACCTGAAGAAAGGCTCGCTGCCGATCCGCGGCGACGTCGATCTGAATGCAGCCAATGACTGCATGAAAAAGGGTCTGGCAATTCTGGCCAAGGGCAATGCCCTGACCAGCACCGACCAGCTGATTTCCGCCGATACGCAGAAACAGAAGGAAGACCTGATGGCGGAATTCTTCGCGGGCTCGATGTCGGCGGAAGACGGGCAGAAGCGCTTCGCGGACATTATCGGTTCGGCGGACTGA	MRVISAAFLASVMIPAGIAGATDLEVTHWWTSGGEAAAVAELAKAFDATGNKWVDGAIAGSGGTARPIMISRITGGDPMGATQFNHGRQAEELVQAGLMRDLSDVAAKGNWKDVIKPASLLDSCTIDGKIYCAPVNIHSWQWLWLSNEAFKKAGVEVPKNWTEFVAAAPALKKAGIQPLALGGQAWQANGLFDTLTLSIGGKDLYQKVYGDKDAEAAAGPEMAKIFAAAVEARDMAKGTNVQDWNQATNMVITGKAGGQIMGDWAQGEFQLANQKAGTDYSCLPGLGLSEYLTTGGDAFYFPVLKDEAKTKAQDVLAATIVDPKTQVAFNLKKGSLPIRGDVDLNAANDCMKKGLAILAKGNALTSTDQLISADTQKQKEDLMAEFFAGSMSAEDGQKRFADIIGSAD	PGPT0016570_946	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0016570-gtsA|glcE-K17315	NA	NA
BMS010_03884	723			hypothetical protein	ATGAAGCGCTGGCATATTCTTTTGGTCATCGGACTGGCTGGCGTCGCATCGCTTTTATTGGCGACATTTGAGCAGCTTGTACCGGGACAGCAAGTTTCATTCGGAATGCGCCTGCTGATCCTCATCCAGCCGGCAATACTGACCGTTGCGGCGGTTGCAACCGGTCAGGCTCTGGCCGCAAAACTCGGGCTTGGCGCGCCCTTGGTCGATAGCTGGCTGACGGGCGGCAACCCGCGCGCGGTGCTGGGAACACAGGTGCCGCCCGCACTGGCGGTGGGCATTGCCGTCGGCCTGCTGATGATCGCCTATTCATCGGCGATCCTGCCATCGGTCGCGGATGCGGCCACCATGGCAAAAATGACCGCTTTTAATGTCCCGCTGGCGACCCGGATTCTCTATGGCGGAATAACGGAGGAGCTATTGACCCGATGGGGCCTGATGTCGTTTTTCGCCTGGGCTCTCTGGCGCATGACAGGAATAGGACAGATTAGACCGGTGATTTTGTGGGCCGCCATCCTTATGGCGGCGGGACTCTTCGCCGCTGGTCATCTGCCGTTTCTGTTTGCGATTGTCGCTCGGCCGCAGGCGGCGCTGATCCTTGCGGTCCTGCTCACCAATTTCATTCCCGGCCTGCTGTTCGGATGGCTGTTCTGGCGTCGGGGGCTGGAAGCGGCGATGCTTTCCCATGCCCTTGCCCATTGCGTGAACGCGCTGATCGCCTGA	MKRWHILLVIGLAGVASLLLATFEQLVPGQQVSFGMRLLILIQPAILTVAAVATGQALAAKLGLGAPLVDSWLTGGNPRAVLGTQVPPALAVGIAVGLLMIAYSSAILPSVADAATMAKMTAFNVPLATRILYGGITEELLTRWGLMSFFAWALWRMTGIGQIRPVILWAAILMAAGLFAAGHLPFLFAIVARPQAALILAVLLTNFIPGLLFGWLFWRRGLEAAMLSHALAHCVNALIA				NA	NA	NA	NA	NA
BMS010_03885	198			hypothetical protein	ATGCCCGTCATACGTGTCGATTGGCTTTCCGGTCGCAGCCACGAGCAAAAGAAGGAAGTTGCCACGGTTTTCACCCGGGAACTGGCGCGCATCGCCAAATGCAAGCCGGACGATGTCCAGATCGTGTTTACGGACGTTGAGCGCAAGGACTGGTCCGTCGGCGGCGTGTTCGCGGAAGACCCGGCGCCCGAAAAGTAG	MPVIRVDWLSGRSHEQKKEVATVFTRELARIAKCKPDDVQIVFTDVERKDWSVGGVFAEDPAPEK	PGPT0005210_1734	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_CATECHOL_DERIVATE_UTILIZATION,PGPT0005210-praC|xylH-K01821	NA	NA
BMS010_03886	1437	gdhA	COG0334	Glutamate dehydrogenase	TTGGATACTGCAACCATCCCTCAGCCCGATCAAATCGACGCGCCATTTCTTCAGAGCGTTGAGGCCTATATCGATAATGCTATGACGCATCTGTCCCTTACCGAGGGGCTCGCCGAGCGGATCAAGGCTTGCAACTCGACCTACACAGTCCGTTTCGGCGTCCGGTTGCGCGGCAGAATGTTTAGCTTTACCGGCTGGCGCTCGGTGCACAGTGAGCATGTCGAGCCGGCAAAAGGCGGAATTCGATACTCGATCCACTCCGATCAGGAAGAAGTCGAGGCGCTCGCTGCGCTCATGAGCCTGAAGTGCGCGGTCGTCGACGTACCGTTCGGAGGGTCGAAAGGTGCGCTCAAAATTGATCCCACCGAATGGGATGCCCATGAGCTGGAGCGTATCACGCGCCGATTTACCCAGGAACTCGCTAAGCGCAATCTCATATGCCCGGGCCGAAACGTCCCCGCGCCAGACATGGGCACAAGTGAACAGACCATGGCCTGGATGGCGGATGAATACAAGCGCACTGGTCCATCCGACATCATGAATGCCAACGCCTGCGTTACCGGCAAGCCACTGGCCAGTGGCGGGATCGCAGGAAGAACCGAAGCGACGGGTAGGGGGGTTCAATACGCTATCCAAAGTTACCTGCGCGACGCCCAGGAAAATGGCATAGACGGGCGCCGGGATTTGCGGACCATGTCCGTTGTCGTCCAGGGATTTGGCAATGTCGGGTACCACGCAGCCAAATTCCTGAGTGAAGACGATGGTGCCAGGATCATCGCGGTCGTCGAGCGCGATGGATACGTCACCAATGCCGACGGACTGGCCATAGAAGAGCTCAAACGCTACCACGGTGAACATGGGACTATCCTTGGATTTCCGGGGGCGCAGAGCTATACCCACCGGGCCGCAGGTCTCGAACTTCCGTGCGACATCCTCATTCCAGCGGCTATGGAAAACGCCATCACGCTTGAAAACGTCGGCCGCATCCGAGCAAAGTTCATCGCTGAAGCAGCAAATGGACCCATCAGCTTCGAGGCTGAGCGACAGTTGTCCGATCGCGGCGTGGTCGTTCTGCCCGACCTCTTCGTGAATGCCGGCGGTGTAGCGGTGAGCTACTTCGAATGGGTCAAAAACATTACACACATCCCTTTCGGGCTGATGGAGCGCCGGCGCCGTGAGCGCAGAAATCTCCATATCACACACGCTCTCGAAGCGATGACTGAGCGGTCATTTCCGAGCGACATCCGCGATGAATTTCTTGAGGGTGGCGCGGAAATAGATCTGGTCAGGTCGGGACTAGAGGATGTGATGCGCAATGCCTACCAGAACATTGCCGAAGTAAAGCGCTCTTCTGCGGAAATCAAAACCTTCCGCACGGCAGCCTATGTCATCGCAATCAGGAAAATCGCCGACGCTTACCAGGCGATCGGTATCTAA	MDTATIPQPDQIDAPFLQSVEAYIDNAMTHLSLTEGLAERIKACNSTYTVRFGVRLRGRMFSFTGWRSVHSEHVEPAKGGIRYSIHSDQEEVEALAALMSLKCAVVDVPFGGSKGALKIDPTEWDAHELERITRRFTQELAKRNLICPGRNVPAPDMGTSEQTMAWMADEYKRTGPSDIMNANACVTGKPLASGGIAGRTEATGRGVQYAIQSYLRDAQENGIDGRRDLRTMSVVVQGFGNVGYHAAKFLSEDDGARIIAVVERDGYVTNADGLAIEELKRYHGEHGTILGFPGAQSYTHRAAGLELPCDILIPAAMENAITLENVGRIRAKFIAEAANGPISFEAERQLSDRGVVVLPDLFVNAGGVAVSYFEWVKNITHIPFGLMERRRRERRNLHITHALEAMTERSFPSDIRDEFLEGGAEIDLVRSGLEDVMRNAYQNIAEVKRSSAEIKTFRTAAYVIAIRKIADAYQAIGI	PGPT0000695_339	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMATE_DEGRADATION|CONVERSION,PGPT0000695-gdhA-K00261	NA	NA
BMS010_03887	693			hypothetical protein	ATGCTTTCGTTGGCCGACCCGGTTCAAGCGACCAGCACGGATCATTTCTTCGGTCCATCCATATCGGAAATACATATTGAGGAAGGTTCCCGGGGCAAGCGGCCCAAGGCTCTCAAACATGTCATCAGGGCCATGGAGAACAGTGTTCTCGGTCAAAACCCCGACGTACCCGGCACTTTGCCAGCCTGCAAGATGCTCAATCTTCTTCAGGCCAGTGGCGTTCGCAGCGTGTCCGGACCACGCTTGCAGACCGAGTTTCGGCTCCGCGGCGAATTTAACACCGCGTTGAACAATTTGGCTAACGAAGGCCCGAACTCTCAGTTCCTGGCGGCAGCGCTGGATGAACTTGAAGATGGCCTCGTCTGGTATTCGGCAAAGAGCGGTCCGTTTGCCAGCCTCAATTTCGAGCGAAACCACGCTCATGCCGTTTTGGGGGCGCCCAAGACAGATAGTAGCGACAAGGTGTTGCTCGGCATCACAATCATGGCGCCATACACCCGCTTTCCGGACTACGTCCTGCGCTTGCCGCGGGTGATGTTTCCTCTTTCGCCTGGAGAGTACAAATCGATCAGCGGTGAGTGGAAGAGCCACCAGATCGGTTCCCCGATTGTCTGCGCCGCAAGTCGTGAGTTTGCGATGCGGTGCGCGTCGCAGCCGCTTCTTTCCCTATGGTGCCAGAGGCTGGCGACCTGA	MLSLADPVQATSTDHFFGPSISEIHIEEGSRGKRPKALKHVIRAMENSVLGQNPDVPGTLPACKMLNLLQASGVRSVSGPRLQTEFRLRGEFNTALNNLANEGPNSQFLAAALDELEDGLVWYSAKSGPFASLNFERNHAHAVLGAPKTDSSDKVLLGITIMAPYTRFPDYVLRLPRVMFPLSPGEYKSISGEWKSHQIGSPIVCAASREFAMRCASQPLLSLWCQRLAT				NA	NA	NA	NA	NA
BMS010_03888	1122	sbnB	COG2423	N-((2S)-2-amino-2-carboxyethyl)-L-glutamate dehydrogenase	ATGACCACGAAAATCGACTTTCTCTACCTTTCCGAACCCGACATGATCGCCGCCGGTGTCAACGACGCAAAGCGTTGCGTGGAAATCTGCGAGGAGACTTTCAGCCTGCTGGGCGAGGGCGACTACCTCATGGGCGGTGCCAACCACAACAGCCATGGCCTCAACATCGTCTTTCCGAAGGAAACGAAGTTCCCGAACATGCCCGTCGCCGGCCCGGACCGGCGTTTCGCCGCCATGCCCGGCTATCTCGGCGGCCGCTTCGATGTTTGCGGCAACAAGTGGTACGGCTCGAACCACGCAAATACCCAGAAGGGCCTTCCGCGCTCGATCCTAACGATGATGCTGAACGACAAGGACACCGGCGCGCCGATGGCGCTGATGTCAGCGAACCTGCTCAGCGCTGCGCGTACAGGTGCCGTACCGGGCGTTGCGGCAAAGCACCTCGCCAACAAGGATGCCAAGGTCGTCTCCGTCGTCGGCTGCGGCCCGATCAACAAGGCCTGCTTCACCGCCATCATGACGCAGCTTCCCGCCGTCGAGAAAGTCGTCTGCTTCGACGTGTTCCTGGACAAGGCAAATGAACTCGCGCGCTGGGTCGCGGAGACCTACAAGGTCGAGGCCGTTGGCGTCGACGAGGCCGAGGCAGGCTTCCGCAACATCGACGTCATCACCGTGGCGGCTTCGCGCCTCAAGCCGCTCTACTTCAAGGACGAGTGGATCAAGGAGGGCGCGACCATCCTCGTTTCCGGTCCGTTCAACACGGACGAGTCCTTCCTCACTGGCGCGAAGATCGTCTACGATCATACGCCGCTTCAGGAAGCCTATGTCGAGGACGCCATCGCCTCGGGCAACAAGGAGGCCTATTATGGCGGCGTGATTGGCGGTCCGTTCTTCCGTCTGATCGACGCCGGGAAGTTGCCGGCTCTCAAAGACTCGACCGGCCTTGGCGACGTGGTCAACGGCAAGAAGCCGGGCCGCGAAAGCGCCAAGGATCGGGTCATCTTCATCGCTTGCGGCATGGCTGTCTTCGACATCAGCTGGGGCTTCGAAGTGTATGAGAACGCCAAGAAGAACGGCATCGGCCAGTCCCTCAATCTCTGGGACAAGCCCGCCCTCGCTTGA	MTTKIDFLYLSEPDMIAAGVNDAKRCVEICEETFSLLGEGDYLMGGANHNSHGLNIVFPKETKFPNMPVAGPDRRFAAMPGYLGGRFDVCGNKWYGSNHANTQKGLPRSILTMMLNDKDTGAPMALMSANLLSAARTGAVPGVAAKHLANKDAKVVSVVGCGPINKACFTAIMTQLPAVEKVVCFDVFLDKANELARWVAETYKVEAVGVDEAEAGFRNIDVITVAASRLKPLYFKDEWIKEGATILVSGPFNTDESFLTGAKIVYDHTPLQEAYVEDAIASGNKEAYYGGVIGGPFFRLIDAGKLPALKDSTGLGDVVNGKKPGRESAKDRVIFIACGMAVFDISWGFEVYENAKKNGIGQSLNLWDKPALA				NA	NA	NA	NA	NA
BMS010_03889	1275	eno_1	COG0148	Enolase	ATGGAAGACAGGATTGCCTCAATCTTCGCCCAGCAGATCATCGACTGCAAATGCCGCCCAGCGGTAGAGGTGGAAATCCGCACCGAAAGCGGTGCTGTCGGCCGCGGCGCGGCTCCGACCGGGAGCTCGGTCGGCATGCACGAAGCCTTCGTGCTGCGCGACGGCGACAAGTCAACCTATGGCGGCCTTAGTGTTCACAAGGCGGTCGAGAAGGTCGAGACGATCATCGCACCAGCGCTCATCGGGATGAACGTCTTCGATCAGCGCGCCATTGACGACAAGATGATCGCAATTGACGGCACGCCAGACAAGAGCAGCCTCGGTGGCAACACGATTTACTCGGTATCGATCGCCGCTTTTCGCGCCGCGGCCGATGCACTGCGTATTCCGCTTTATGACCACATTGCGGGTGGCGCCGTCAAAACCGTCCCTGTCCCCTGCTTCAACGTCATCAACGGCGGGAAATACGAAGGGTTCACCCAGTCCTTCAACGAGTTCCTGATCGTTCCATACGGCACGGACAGTGTTGACGTTTCGATCGAGATGGCGGTGACCGTTTTCCAGAAGCTCTCGGACGTGCTCACCAGGCACCTCGGCCATAAGCCACAGGTTGCCAGTTCATATGGCTACGCCGCACCTTCCGATGATCCGGAGGTGCTTCTTGATCTGATGCAGCAGGCGATCGACGCCTGCGGCTACACCGGACGCATCGCTTTCGCTCTCGATTGCGCGTCGAGCGAGTTTTTCGACGCTGAGAGCCATACGTATCTTCTGAAAGGGCAACGCGTGACCAGTGACGAGCTGATCGCTTACGCCAAGCGCCTGACGGAAAAATACGACTTCGTTTTTATCGAGGACCTCCTCGATGAAAACGACTGGGATGGCTATGTTAAAGCAAACCGCGAGATTGACCGGACGATCATACTTGGTGACGACCTAACGGTAACCAAGCTCGAATACCTCAAGCGCGCTTTCGAAACCAAAGCTGTCGGCGGCTTTATCCTGAAGCCCAATCAGGTCGGCACGATCACAGAAGCGATGGACGCTCACCGCTACGCGAGCGAACATGGCATGATTTCCGTCCCCTCAGGGCGCTCCGGCGGTGTCGTTGACGATGTCGTGATGGATTTCTCGGTCGGACTTCAGGTTCCGTTTCAGAAGAACGGCGCGCCTCGTTCCGGCGAGCGCATCGAAAAGCTGAACTTCCTGATGCGTGCCAATGCCCGCAGCGCCGGATGCCGCCTTTACGACATCAAGCCTCTCCTAAAATTCTGA	MEDRIASIFAQQIIDCKCRPAVEVEIRTESGAVGRGAAPTGSSVGMHEAFVLRDGDKSTYGGLSVHKAVEKVETIIAPALIGMNVFDQRAIDDKMIAIDGTPDKSSLGGNTIYSVSIAAFRAAADALRIPLYDHIAGGAVKTVPVPCFNVINGGKYEGFTQSFNEFLIVPYGTDSVDVSIEMAVTVFQKLSDVLTRHLGHKPQVASSYGYAAPSDDPEVLLDLMQQAIDACGYTGRIAFALDCASSEFFDAESHTYLLKGQRVTSDELIAYAKRLTEKYDFVFIEDLLDENDWDGYVKANREIDRTIILGDDLTVTKLEYLKRAFETKAVGGFILKPNQVGTITEAMDAHRYASEHGMISVPSGRSGGVVDDVVMDFSVGLQVPFQKNGAPRSGERIEKLNFLMRANARSAGCRLYDIKPLLKF	PGPT0018050_6018	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0018050-eno-K01689	NA	NA
BMS010_03890	1419		COG2379	D-glycerate 2-kinase	ATGTTCAGGGCGAACAAAATTCGAAACGCTGACGAGATTGCCGCTCACGGGGATGCGGCGTCACGCCAGATTGTCCTTGAAATCGCGGACCGGACACTTGAGCGGCTCGATAGCTACAAGCGCATCCGCAGCATCATGCGACTTGAGGGCGATATCCTGCACATCGGCACGAAGTCGTGGGACCTGTCGAAGAAGCGCAACATCTACCTCTTCGGTGCGGGCAAGGCCTGCAACCACATGGCCATGGCGGTGGATCACGTCCTTGGCGACCGCCTCACGCGCGGAATAGCCATCGTGAAGATCCACGAGGAAACCGATCGTTTCAACAAGACCGAGGTTTACGTTGGCGGCCATCCTCTGCCGAACGAGGCAGGCTACCAGGCATCCAGGAAGATGATCGAGATCATCGACCAGGCGGGTCCGGACGACCTTTTTATCGGAGTCATCAGCGGTGGCAGTTCCGCTTTGATGTCCTGCCCAATCGACGGTATTTCGCTGCAGGACGAGATCGACACGACCGACGTGCTGCTGAAATCCGGCGCCGGAATCTACGAAATCAACGCGGTGCGCCGGCACATATCCGCGCTGAACGGGGGCATGCTCGCCAAGCGCATTCAGGACGTGGGCGCGGAGCTGATCGGCTTCGGCATCAGCGATGCCGTCGGCTCACCGGCAACCGGTGACATCGCCGTCCCCTACGCTGCCTATAAAAGCACGCCCATTGGGCCCGATGCGACGACACTGGATGATGCGCGCGCTACCATCGTCAATTATGACGTGGCCGACCGCCTGCCAAAGAGCGTCGTCGACTACCTGATGAATGCCGGGCCGGACAAGGAAACGCCGAAGGCCTTTCCGAACAACACCTATTTCTTGCTCAACACCCTGCCGGATTCCTGCATCTACGCCAAGGAAATCTGTGAGGAGATGGGTATTCCTGCCATTATCGTCTCTTCTTTCCTGGAAGGTGAAAGCAAGGACGCAGGCACGTTCTTCGCTTCGATGGCGCGTGAGATCCAGACTTACGGCAACCCGGTCAAGGCGCCGTGCGTGCTGCTCAGTTCTGGCGAAGTCACGACTCAGATTCTCGACAACAGCGTCATCCGCGGGCACGGCGGACCGGGCCAGGAGATGACGATCAGCTTTGCGATCACCGCCGCGAAAACAAAGGGCGCGTGCCTTCTGTCGATTGACAGCGAAGGAACCGACGGGACGGCCAAGGTGGCCGGCGGCATCACCGATTCCGCCAGTCTGGCTGCTGCTGCGGGAAAGGGCATCAATCTCCATCAGACGCTGCGCGAGCACAGTTGTTTCGAGGCGCTCGACGCTATCGGCTCCGCTGTCTTCACCGGCAACACCGGCACCAACCTGTGCGACCTCAATATTCTTTACGTACCAGCCCTGAAGGAGGGCCAGTAA	MFRANKIRNADEIAAHGDAASRQIVLEIADRTLERLDSYKRIRSIMRLEGDILHIGTKSWDLSKKRNIYLFGAGKACNHMAMAVDHVLGDRLTRGIAIVKIHEETDRFNKTEVYVGGHPLPNEAGYQASRKMIEIIDQAGPDDLFIGVISGGSSALMSCPIDGISLQDEIDTTDVLLKSGAGIYEINAVRRHISALNGGMLAKRIQDVGAELIGFGISDAVGSPATGDIAVPYAAYKSTPIGPDATTLDDARATIVNYDVADRLPKSVVDYLMNAGPDKETPKAFPNNTYFLLNTLPDSCIYAKEICEEMGIPAIIVSSFLEGESKDAGTFFASMAREIQTYGNPVKAPCVLLSSGEVTTQILDNSVIRGHGGPGQEMTISFAITAAKTKGACLLSIDSEGTDGTAKVAGGITDSASLAAAAGKGINLHQTLREHSCFEALDAIGSAVFTGNTGTNLCDLNILYVPALKEGQ	PGPT0024440_288	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024440-gck|gckA-K11529	NA	NA
BMS010_03891	675			hypothetical protein	ATGACGCAAATGAAGCTACCAAAAATCGAAAAAATGCCAGCGGACGTGAGAGCGCTTGGCGTATTGAGATCCCAAATCGTGGACGGATCGATCCGACCGGGATCGCGCTTGACAGAGGTCCAGCTTTCGGAGGGCATGGGTCTTTCCCGTGCCACCGTCCGCACGGCGCTGCATCAGCTTGGAAAAGAAGGGCTCGTCAGTCTCGTTCCCTACACGGGTTGGACGGTCGTTGAACTTACCCATCAGGATGTCTGGGAGCTCTACACACTACGAGGTGCTATCGAACGTCTGGCGGCACAGTTTGCTGCGACCAATGCCGACAATGAGGCGATGTCGCGTATCGAGGCCGCATTTGACCGGCTGAAAAATACAGTGACGGAGAGCTCTGAAACGATTGCTGAGGCCGATTTCGGCTTTCACAAATCGATCATCGACGAGTCCGGGCATAGCCGCCTAAAACAACAATATAAGCTGATAGAGCAGCAAATCCGCGTGTTCATCCGATCAAGCAATCTTCTGATAGAAGATCCCTTGGAGATTATCGTCCAGCATGAACCGATCTGGAATGCTATCCGTGAACGGGATTCGGTTCTTGCTGGGACGTTGGCTGAGCAACACAACATTACAGAAGGTCAAAAGCTCACCGGTTCGTTATCACGTCCCGACGGCGACTGA	MTQMKLPKIEKMPADVRALGVLRSQIVDGSIRPGSRLTEVQLSEGMGLSRATVRTALHQLGKEGLVSLVPYTGWTVVELTHQDVWELYTLRGAIERLAAQFAATNADNEAMSRIEAAFDRLKNTVTESSETIAEADFGFHKSIIDESGHSRLKQQYKLIEQQIRVFIRSSNLLIEDPLEIIVQHEPIWNAIRERDSVLAGTLAEQHNITEGQKLTGSLSRPDGD				NA	NA	NA	NA	NA
BMS010_03892	1728	araC_2		L-arabonate dehydratase	ATGACCGTCGACAAAAAACCTCTCCGTAGCGAGGCATGGTTCAAGCGTATTGACAATACCGGGTATGAGCACCGCACCCACCTCAAGGCGCGCGGTGCGCTACCAGATATGTTCGAGGGCAAACCCGTAATCGGCATTGCCAACTCGGCATCCGATCTGGTCCCCTGCAACGCCCATCTCACGGAACTGGCGGAATGGGTTGCTCGCGGTGTGCTTGAAGCTGGCGGCTTCCCGCTTGTGTTTTCCACCATGTCGATCGGCGACTCCATCATGCGTCCGAGCGGAATGCTTTTCCGCAATATGATGAGTATGGAGCTCGAGGCGACACTTCGCGCAAACCCGCTCGACGGCGTGGTTTTGCTAACAGGATGCGACAATACGGCGCCGGCCTACATGATGGGGGCGGCCAGCGTCGATCTCCCGACCATCGTCGTGCACGGTGGGACGATGCTGAGCGGTCGCGTTGGGATGCGGCAGGTAGGTTCGGGTTCCGACATTTTTCGTATGCACGGCGAATACAAGGCAGGGCGTATGACGAAGGACGCTTTCCTTGCGTCGGAATACGGAATGTCGCGCAGTAACGGCGCCTGTAACACGATGGGGACGGCAACGACGATGGGCTGTATCGCAGAAGCCCTCGGCCTCAGTCTCACGGGATCTGCTGCCATTCCCGCGGTTGATGGGCGTCGGAAGGGCTCCGCGCAGTTGTCCGGTCGGCGAATCGTCGAGATGGTCAGAGAAGATCTGGCGTTTTCTAAGATCGTCGATCGTTCGGCGCTTGAGAATGCAATCCGAGTCAACGCTGCCCTCGGCGGGAGCACGAATGCAATCATTCATTTGCTGGCTTTGGCAGGGCGTCTGGAGATTGATCTGACCCTTGCCGACTTCGAAGAAAACAGCCGGTCAATCCCGCTTCTTGCCAACATCCTTCCGAACGGCAAGTACCTCGTCGAGGAATTCTTCTCCGCGGGTGGATTGCCGGCCGTCATGGCATCGCTTGGGGAGAGGCTCAACCTTGATGCGCGCACCGCAGGCGGAAAGACGCTGCGGGAGGAACTCGCTGGCGTCGAAAGCCTTGACCACGATGTCATCGCACCGTTCGACAAACCGATCAAGCCGCAGAACGCGTTGCGCATCATCAGGGGCAACATTGCACCAAACGGTGCTGTGATGAAACCATCAGCCGCAAGTCCGCACCTGATGAAACATACGGGCCGTGCCGTCGTGTTCGAATCCGTGGAAGATCTCGACAAGCGCATCGATGGTCCGTCTCTGAATATCGACGAGACCTGCGTACTCGTTCTGAAGGGCATTGGCCCCAGAGGTTATCCGGGCATGCCGGAACTTGGAAACATCCGTTTGCCCAAGCATATTCTCGAAAAGGGCGTCACCGATATGGTCAGGATTTCGGACGGCCGCATGAGTGGCACGGCTTATGGTACCGTCGTGCTTCACGTTGCGCCCGAATCCTCGATCGGCGGTCCGCTGGCTCTGATCCGTGATGGTGATCTGATTTCGCTGGACGTCGAGGCGGGCACATTGTCGGTCAATCTCACCGATGACGAACTTGAACTGCGGCGGTCGCAAGCCTCCTTTGCGCCCATCAGCCATAAGCGCGGTTACGAGCGCCTCTTTGTTGAGCATGTCTTGCAGGCGGACAAGGGGCTCGATTTTGATTTCCTGGTGGGGCGAAGCGGGAACGAAGCTCCGACGAGACGACCGTTCTAA	MTVDKKPLRSEAWFKRIDNTGYEHRTHLKARGALPDMFEGKPVIGIANSASDLVPCNAHLTELAEWVARGVLEAGGFPLVFSTMSIGDSIMRPSGMLFRNMMSMELEATLRANPLDGVVLLTGCDNTAPAYMMGAASVDLPTIVVHGGTMLSGRVGMRQVGSGSDIFRMHGEYKAGRMTKDAFLASEYGMSRSNGACNTMGTATTMGCIAEALGLSLTGSAAIPAVDGRRKGSAQLSGRRIVEMVREDLAFSKIVDRSALENAIRVNAALGGSTNAIIHLLALAGRLEIDLTLADFEENSRSIPLLANILPNGKYLVEEFFSAGGLPAVMASLGERLNLDARTAGGKTLREELAGVESLDHDVIAPFDKPIKPQNALRIIRGNIAPNGAVMKPSAASPHLMKHTGRAVVFESVEDLDKRIDGPSLNIDETCVLVLKGIGPRGYPGMPELGNIRLPKHILEKGVTDMVRISDGRMSGTAYGTVVLHVAPESSIGGPLALIRDGDLISLDVEAGTLSVNLTDDELELRRSQASFAPISHKRGYERLFVEHVLQADKGLDFDFLVGRSGNEAPTRRPF	PGPT0017465_416	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017465-araC-K13875	NA	NA
BMS010_03893	828	mltF_3		Membrane-bound lytic murein transglycosylase F	ATGAAACTTACGAAGCTCATCACCGGGTTGATCCTCGGCGCAACAGTTCTCGCTGGAGCAGGTCAGGCCTATGCCCAGTCTGCCGAAGGTTACTGGCAGGAAATCCAGAAGCGCGGAACGCTCCGGTGCGGCGCGGCAGTCGCGCCCCCGCACGTTATTCGCGATCCTCAAAGCGGCGAATACAGCGGTACATTCGTCGACCTCTGCAAGAAGTTTGCTCAGGACGCCCTTGGCGTAAAAGCTGAAATCGTCGACACGACCTGGGACAACATCGTTGCCGGCTTGCAGGCCAATCGCTGGGACCTGTCCATGGCTTTGAACCAGAATCCCAAGCGGGCAATGGCGATCGCCTTCAGTCAGCCGGTCGTTCAGTACGAAGTTTCCGGCGTTTACGACAAGGCAAATCCGAAGTTCTCCACGGCACCGAAGTCTATCGCAGATCTCGACGTCGCCGGCGTGACGATCATCATCATGTCGGGCACGGCAATCGACGGAACACTGACGCGCCAGATCAAGAATGCAACGATCCTGCGCCTGCCCGATATCGACGCCACTCGCCTGGCGCTCTCTTCACGGAGAGGCGACATCCTCGTCGATGACAGCGACAGCAACACGCTGTTTTCAGCGACGGGCAAGGATCGCTGGGTGACGCTTAACCCCGAGCCTGCTATCTCGAAGCAGGGCATCGCGTTTGGCCTGCGTCGTGAAGCTTCGTATTCGGATATCCAGTCGCTGAACTTCTTCATCCAGGAGCAGACCGCGATCGGCGAAGTCGACCGCATCGCGAGCGGATACATCGACAAGCTCGCGGGCGAAATCAAGAAATAG	MKLTKLITGLILGATVLAGAGQAYAQSAEGYWQEIQKRGTLRCGAAVAPPHVIRDPQSGEYSGTFVDLCKKFAQDALGVKAEIVDTTWDNIVAGLQANRWDLSMALNQNPKRAMAIAFSQPVVQYEVSGVYDKANPKFSTAPKSIADLDVAGVTIIIMSGTAIDGTLTRQIKNATILRLPDIDATRLALSSRRGDILVDDSDSNTLFSATGKDRWVTLNPEPAISKQGIAFGLRREASYSDIQSLNFFIQEQTAIGEVDRIASGYIDKLAGEIKK	PGPT0020800_7445	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_03894	795	bacC_3		Dihydroanticapsin 7-dehydrogenase	ATGGCAAGTACAAATGGACAAACCTCGTCGCCGCTCGCGGTTGTCACCGGCGGCGCAAGCGGGATCGGTGAGGCCAGTGTGCGCGGTTTCGTGTCTGCCGGCTGGCGGGTTGTTATCGCAGACATCAACGACGAACGGGGAAAGGCAATGGCTGCCGAATTGGGTGCCGCGGTCAGCTACCGTCATCTTGATGTGTCCGACGAGCAGGCGGTGACGCAATTCAAGGAGGCGGTCTATGCCGAGCATGGGCCTGTGTCGGCACTTGTGAACTCTGGCGGCATTTTGCAGAACGCCACCAAGGTGACGAAGATGCCTGTCGAAGAGTTCGATCGCATCATCGACGTCAACCTTCGCGGAACGATGCTCACTGCGCGCGCCTTCGGCGAAGAGATGGCGCAATCGGGCGGCGGATCGATTGTGAACCTCTGCTCGCTGACCACTTTCCAGCCCTGGCCACAGCCGGCATATGCCATGAGCAAGTCGGCGCTGAAGATGCTGACCGAAATCATGGCCGCCGAACTTGGTCCGCAGGGTGTCCGTGTCAATGCGGTAGCGCCTGGATATACGATGACCGAGGCGATGAAGAGCCGCATCGATCGCGGCGAACGCGACCCCTCTGTTGTCATTTCCAGATCCGCGCTGCGACGGTTCGTCGAGCCGAGGGAAGTCGCAGATGCAATCCTCTTCCTGTGCTCTCCGTCCGCGTCTGCCATTACCGGGATCACCATGCCAATCGATGCGGGCTGGCTGGTCTATACGTCCTATATGAGCGCGGCCGCGCGACCCGCGGACTAA	MASTNGQTSSPLAVVTGGASGIGEASVRGFVSAGWRVVIADINDERGKAMAAELGAAVSYRHLDVSDEQAVTQFKEAVYAEHGPVSALVNSGGILQNATKVTKMPVEEFDRIIDVNLRGTMLTARAFGEEMAQSGGGSIVNLCSLTTFQPWPQPAYAMSKSALKMLTEIMAAELGPQGVRVNAVAPGYTMTEAMKSRIDRGERDPSVVISRSALRRFVEPREVADAILFLCSPSASAITGITMPIDAGWLVYTSYMSAAARPAD	PGPT0003180_4680	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0003180-ymfI|fabG|efpI-K00059	NA	NA
BMS010_03895	669	yecS_2	COG0765	L-cystine transport system permease protein YecS	ATGCAAGATCTCGATTTCTCTGTTGTTCTGCAATACGGTCCGGCGTTGCTCAAAGGGCTGGTTCTGACCCTCCAGATTACGGTGCTTTGCGGACTGGCAAGCGTTGTGTTCGGCTTTCTCATCGGTGTTGGACGCAAGTCCAACGTTCGACCGGTCCGCTGGGCCTGCTCTCTCTATGTCGAGGTGCTGCGCGGTACGCCGGTCCTGATTACCTTGTTCTGGGTCTTCTTCTGTTTCCCGATCATTTTCGACGTTGAGCTCAGTCCCTTCATCTCGGCCGTGATTGCCCTGACACTCTATACATCGGCGATCACCAGCGAGTCCTTTCGGGCTGCCTTGGGATCGATCGGGCAAGATCAGCACGATGCTTGCAAAGCGCTTGGTCTGAGCCGTTTTTCGAAGATGATGTATGTGGTCGCGCCACAGACAATCGTACGCGCCATTCCCAACCTGATGTCGAACCTGGTGAGCCTGTTCAAGGAGAGTGCGCTCGTTTCGGCAGTCGGCGTGGTCGAACTTATGTACACGGCTCAAAACATATCGAACGTGACTGCGAGACCTGTCGAGGTACTGACCACCGCGGCTCTCGTCTACTTTGTTATCGGCTGGGTGCTTACGCGACTGGTCAATGCCGCGGAAACGCGCCTGCTTGTCAAAATGGCAGTGTGA	MQDLDFSVVLQYGPALLKGLVLTLQITVLCGLASVVFGFLIGVGRKSNVRPVRWACSLYVEVLRGTPVLITLFWVFFCFPIIFDVELSPFISAVIALTLYTSAITSESFRAALGSIGQDQHDACKALGLSRFSKMMYVVAPQTIVRAIPNLMSNLVSLFKESALVSAVGVVELMYTAQNISNVTARPVEVLTTAALVYFVIGWVLTRLVNAAETRLLVKMAV	PGPT0020795_7729	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
BMS010_03896	669	yecS_3	COG0765	L-cystine transport system permease protein YecS	ATGCAAAACATCGATTTCTTTTTCGTCCTCAATGCCTGGCCCGCGCTTCTGGAGGGATTAAAAATCACCCTCCAGCTCACGGTGTGGGCAAACATCATCGGGCTTGTTGCCGGGTTCCCTCTCGCCCTGCTCTCGAATGCCCGCATCGCACCGATACGGTGGATCGCGCGCTTCTATATCGACCTGTTTCGGTGTACGCCCGTCCTCGTTCAGGTCGTATGGTTCTTCTTCTGTATACCGATGATCTTCGAGGTGTGGTGGTCGCCGGTATTCATGGGTGTCCTCATCCTCGGAATGAACCAGACGGCGTTCAACGGTGAAGCATTCAGGGCTGCGATCCAATCCATTCCCGCAGCGCAAAGGGATGCTGGTGTCGCACTTGGCCTCGGTCGTTGGAACTACACCAGATACATCGTGCTACCCCAGGCAATCAGGACCGCGACGCCGGTCCTGATCACAAATGCGATTGGTATCTTTCAGCAAAGCTCGCTTGTTGCACTCGTGGGTGTTGCCGACCTGATGTATCAGGGCAAGCAGCTCTCGACCCAGACCTACCGCCCAATCGAGACGTTTACCTTCCTCGCGGCGTTTTATCTGGTTGTCGCGATCCCCTTTGGTCGTCTAGCCGCGTTCTTTGAACACCGGCTGGAGCGTATGAACAAGGTGTAA	MQNIDFFFVLNAWPALLEGLKITLQLTVWANIIGLVAGFPLALLSNARIAPIRWIARFYIDLFRCTPVLVQVVWFFFCIPMIFEVWWSPVFMGVLILGMNQTAFNGEAFRAAIQSIPAAQRDAGVALGLGRWNYTRYIVLPQAIRTATPVLITNAIGIFQQSSLVALVGVADLMYQGKQLSTQTYRPIETFTFLAAFYLVVAIPFGRLAAFFEHRLERMNKV	PGPT0020795_7728	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
BMS010_03897	768	glnQ_2		Glutamine transport ATP-binding protein GlnQ	ATGACAGACCAGAGCTTCATTTCGATACGAAACCTGCAAAAAAGCTATGCGCAGGGACAGATTAAAGTCCTGAATGGCTTGAACCTCGACATGCAGAAAACTGACCGCTTGCTTGTAATCGGTCCCAGCGGCGGAGGAAAAAGTACGCTTCTCCGCTGCGTCATGGGGCTTGAGGATGTCCAGGGCGGTGAGATCAAAGTCGACGGCAAAAACTATATCGCCGGCGCGCCGAAAAAAACGACCATTAACGCCGAAATGCAAAAGCAGATCGGCATGGTTTTTCAGAGTTACACGCTCTTTCCTCATCTCACCGTGCTTGGCAACCTCACTCTGGCGCCCGTTCGGTCCCGTGGCGTTAGGCGTGATGAGGCAGAAGCCCGCGCACTCGAATTGCTCAACCGGTTTGGGCTCAAGGCCAAGGCCAAGGCCTATCCCGCTGCTCTTTCCGGCGGTCAGAAACAGCGCGTCGCGATCGCAAGGGCGTTGATGCTCGACCCGAAACTGATGCTGTTCGATGAAGTGACATCGGCACTCGATCCGGAACTCGTGAACGAAGTGATTAGCATGGTGACCGAGCTCGCGGACGGCGGCATGCCGATGATGATCGTCACACACGATATGTGGTTCGCAAAGAAGATCGCGACTCGAGTGGTCTTCTGCGATGGCGGTGTCGTTGCCGATGACGCTCCACCTGACGAGTTCTTCCGTGCTCCGAAGACCGCCAGGGCGCGTGACTTCATCCACAACGTGCTGCATGCAGATCGCTGA	MTDQSFISIRNLQKSYAQGQIKVLNGLNLDMQKTDRLLVIGPSGGGKSTLLRCVMGLEDVQGGEIKVDGKNYIAGAPKKTTINAEMQKQIGMVFQSYTLFPHLTVLGNLTLAPVRSRGVRRDEAEARALELLNRFGLKAKAKAYPAALSGGQKQRVAIARALMLDPKLMLFDEVTSALDPELVNEVISMVTELADGGMPMMIVTHDMWFAKKIATRVVFCDGGVVADDAPPDEFFRAPKTARARDFIHNVLHADR	PGPT0020790_2357	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020790-ABC_PA_A-K02028	NA	NA
BMS010_03898	837			hypothetical protein	GTGACCCAGTACGATCTTACACGCTTCGCGATCAATCAGATCACGACCCCAAAGTGGACCATGCCTCAGGCGATCGAAGGCTATTCGCGCCAGGGAATCAAGGGCATCGCGGTGTGGCGGAATTTTTTGGACGATTACGGCGTGATGCAAACCGCGAAGCATTTGCGCGATGCCCAAATGTGGGTTGCTTCACTCTGCACGAGTGCATGGGTCAGCGAAACCGATCCGGCAGCATATCGAGCCAAAATTGCTGAGAACCGCCGCATCATTGACCAGGCAGCAACGATCGGCGCACCCTGTGTCGTCATGGTGGTGGGAGGTATTCCCAAAGGTGACAAGGATCTGGCCGGGCAGCGAAGACGCATCCATGACGCTCTGGCCGAACTTGCCCCTTACGCGGAGGCATCAGGTGTGAAACTTGGCCTCGAGCCGTTACATCCTATGTATTGCGGCGATCGTAGCGCGCTGAACCTGATCACGGATGCCAATGATCTTATCGACGAGTTAGGTGACAAAGCTGCCAGCCTGGTCGCGGACGTCTATCATTGCTGGTGGGACCCCGCATTTGAGCGAGAGCTTCGCCGCGCTGGAAAGGACCGCATCCACACGTTCCACTATTGCGACTGGCTAGTCCCGACGCGGAATCTCCGCGATCGTGGCATGGTGGGCGACGGGGTGATTGATTTCGCTACCATTCGGGGATGGCTTGATGACATCGGTTACGACGGTCCGTTCGAGCTGGAACTTTTCTCTGAACTGGACTGGTGGGAACGGGATCCGGAAGAGACTGTACGTATCGCCATCGAGCGTTGTGGCCCATTCGTAGGCCCGCGCTAA	MTQYDLTRFAINQITTPKWTMPQAIEGYSRQGIKGIAVWRNFLDDYGVMQTAKHLRDAQMWVASLCTSAWVSETDPAAYRAKIAENRRIIDQAATIGAPCVVMVVGGIPKGDKDLAGQRRRIHDALAELAPYAEASGVKLGLEPLHPMYCGDRSALNLITDANDLIDELGDKAASLVADVYHCWWDPAFERELRRAGKDRIHTFHYCDWLVPTRNLRDRGMVGDGVIDFATIRGWLDDIGYDGPFELELFSELDWWERDPEETVRIAIERCGPFVGPR				NA	NA	NA	NA	NA
BMS010_03899	1734	apc4_1	COG0146	Acetophenone carboxylase delta subunit	ATGGCCCAGAAAACCAACGATCCGATCACCTTCGCTGTCATCAAAAATGCGCTCGACACCATCGTCGACGACATGGCCTTCGCCGTCATGCGCACCGCACGCTCCCCGATTGTCCGGGACGTGCTCGATTACTCCGTCACGCTTTGCGACAAGCATGGGCGCATCCTGTCGCAGGCAAAAACGGTCGCGTTGCATCTTGGCGCCGTGCCGGATGCAATGGACGTCATCATGGCAAAGTACGCCGACAACCTTGCTCCCGGCGACGTGATCGTTTTCAACGACCCCTATGAAGGGGGCATGCATCTTCCGGACATCTTCATGATCCGGCCCATCTTCCACGACGATACGCTTCGTGGATTCTCGGTGGTCATTGCGCATCATTGTGACGTCGGCGGCCGCGTCCCCGGCTCGAATGCAGCGGACTCGACCGAGATCTACCAGGAAGGTCTTCGTATCGCGCCGATGAAGCTTTACGACAAGGGCGTTCTCAACGATACGCTGATACGCATCATCACCAAGAACGTGCGTCTGCCGGAACTGGTCCTTGGCGACCTCGAAGCGCAGTTCGCCACCTGCAATCTCGGCGAGCGTGAGTTGCTCCGTCTGATCGAGCGTTATGGTGCGGATGAGCTGGACAGCTATTTCGACGACCTGATCGACTACGGCGAGCAGCTCACGCGTGCCGCTATCCGCTCGTGGCCGGACGGCGACTACTATTTCGAGGATTTCATCGACGGCGACGGGTTTTCAACGGACGCAATCCCGATCAAGGTCAAGCTCACCGTCAAGGGTGATCACCTCGATGTCGATTTCGCGGGGTCTTCGCCGCAGGTTAAGGGCGCGATCAACTCGACACTGTCCTTCGTCAAGTCGGCCACATATCTGTCCGTGCGCTGCGCGCTCGACGCGGAGGTGCCGAACAATGCCGGCGTGTATCGAGCGATCACCATCTCCGCCCCGGAAGGCTCGATCCTCAACCCGCAGATGCCGGCGCCGGTGGCTGCCCGGGCTCTGACGGGCTATCGCGTGGTTGACACTGTCCTGGGAGCATTGTCGCAGATCGCCCCTAAAAAGGTGATGGCAGCGGGTGAGGGCGGCAACACGGTACTGGCCTTCGGCGGCTGGGATAAGGAGACCCGGGAACCGTTCGTTCTTGTCGACATGATCAACGGCGCATGGGGCGGCCGCTGGAACAAGGACGGTGTCGAGGGCGTCACCAATCCCTCGCAGAACATGTCGAACCTGCCGGTGGAAACGCTGGAAGTCCGCTACCCGCTCATGATGGACGAGTACAGCCTGCGTCCCGATTCCTGCGGGGCCGGCGAATACCGCGGCGGTCTCGGCCTTATCCGGACTTACCGCCTGCTCGCCGAGGAAGCCGTTCTGCAGATACGCGCCGACCGGCACGACCACGCGCCCTATGGGTTGTTCGGAGGCAAGCCCGCCGCACCTTGCGTCAATATCCTTGATCCAGAGGGCGAAAACACGCGCCTTCCCGCCAAGATCACCCGCACCATCGGACGCGATGTCGTCATCCGCCACGAACAGGCCGGCGGCGGCGGATACGGCGATCCGCTCAAACGCTCGCTGGATCTGATCGCTGACGATCTGTCCAATGGCAAAATCACCGCCGACTTTGCCCGCAACCACCACGGTATCGTGTTTGAGGACGACGGCATCACTATCAATGCAGCTGCAACCGGCGCAAGACGCGCACAGGAGGCTTTCGCGTGA	MAQKTNDPITFAVIKNALDTIVDDMAFAVMRTARSPIVRDVLDYSVTLCDKHGRILSQAKTVALHLGAVPDAMDVIMAKYADNLAPGDVIVFNDPYEGGMHLPDIFMIRPIFHDDTLRGFSVVIAHHCDVGGRVPGSNAADSTEIYQEGLRIAPMKLYDKGVLNDTLIRIITKNVRLPELVLGDLEAQFATCNLGERELLRLIERYGADELDSYFDDLIDYGEQLTRAAIRSWPDGDYYFEDFIDGDGFSTDAIPIKVKLTVKGDHLDVDFAGSSPQVKGAINSTLSFVKSATYLSVRCALDAEVPNNAGVYRAITISAPEGSILNPQMPAPVAARALTGYRVVDTVLGALSQIAPKKVMAAGEGGNTVLAFGGWDKETREPFVLVDMINGAWGGRWNKDGVEGVTNPSQNMSNLPVETLEVRYPLMMDEYSLRPDSCGAGEYRGGLGLIRTYRLLAEEAVLQIRADRHDHAPYGLFGGKPAAPCVNILDPEGENTRLPAKITRTIGRDVVIRHEQAGGGGYGDPLKRSLDLIADDLSNGKITADFARNHHGIVFEDDGITINAAATGARRAQEAFA				NA	NA	NA	NA	NA
BMS010_03900	2073	apc3_1	COG0145	Acetophenone carboxylase gamma subunit	ATGGACAACGCACGCATTGGCGTTGATATTGGCGGAACTTTCACCGACTTGGTGCTATTTGGTGACGCTGGCGAGACCTTTTTCACGAAGGTCCCCTCGACACCCGCCAAGCCTGAACAGGCTGTCCTGACCGGTATTCGTCAAATCACGGAGACGGCCGGACTGGACGTCAGCAAGGTGGCTGAAGTCGTTCATGGCACGACAGTCGGTTCAAATACGCTTCTGCAAAAGGTCGGGGCCAAGACGGGCCTCATCACGACCAAGGGCTTTCGCGACGTCTTAGAAATCGGCCGCGTTCGCACGCCGACCATGTTCGATCTGAGCTGGGAAAAGGCCGTGCCCCTGATCGCGCGCCGCTACCGCCTGGAAGTTGACGAGCGTTCGACCGCCGACGGTCGTGTGCTCAAGCCGCTCAACGACCAGGAAGTTATCGAGATCGGCCGCTTCTTCGAAAGCGAGGGCGTTGAATCCGTCGCTATCTGCTTCCTGAACTCCTACCGCAATCCGGAAAACGAGGCTCGCGCGCTCGAGGTGATGAACAAGCACTTCCCAAACATGTGGGTGACCGCTTCCGTTTCCGTTCTGCCGGAAATCCGCGAATACGAGCGCACCTCCACGACGGCGGTTAACGCTTACGTCCTGCCGTCGCTGCGCGCCTACTTCGAACGTCTCGAGAACGGACTGCGGGAAATCGGCGTCTCGGCGCCCCTCCTGATCAGCAACTCCAACGGCGGCCTTTCAAGCGCTAAGATGGCGCAGGAAAAGCCGGTCTTCTTCATTTCCTCGGGCCGCTCCGCCGGTGTGGTTGGCGCTGGCCGTCTCGGCGAGGCCATGGGTGAAAAGGATCTCGTGGTCTTCGATATGGGCGGAACAACCGCTTCCGCCTCGCTGATCCACAAGGGCGAACTGTCGCGTGCCAACGAATACGAGTTCCGCGCCGGAATTTCGACGCCGAGCCGCTTCATCAAGGCCGGCGGCTATCTCATGCGCGTGCCGACCGTCGACGTTGCCGAAGTTGGCAGCGGTGCGGGCTCCATCGCAAGCATCGACGAAGGGGGCCTCATGCACGTGGGCCCGCTGTCGGCTGGCGCCGATCCTGGCCCTGTCTGCTACGGTATCGGCGGACAGTCGCCGACCGTCACGGACGCCAACGTCGTGCTCGGTTTTCTGCCTTCAGCGCTCGCCGGCGGCAGCATGAAACTTGACGTTGAAGGTGCTCGCGCGGCCATAAAGCGCGACCTCGCCGACAGGCTGGGCCTGTCGATCGAGGACGCGGCTTTCGGCATCCGTGAAGTGGTCAACATCAACATGGCTCGCACGATCAAGGCAGTCACAGTAGAACGCGGCGTTGATCCACGCGACTTCGCGATCCTTGCCTTCGGCGGATCTGGCCCGGTGCACGCCTGCGACCTAGCACGTACGCTCAACATCTCCCGCGTCATATTTCCGAAATCTCCCGGCGTCTTCACGGCGACTGGCATGCTGGCCGCCAAGGTGGAGCGCTACTTCCTGCGCAGCCTGAACGGCATGCTGGACCAGCTTCCGATCGACCAAGTCAACAGCCTGCTCAGGGACATGCGTGCGGAGGCCGTAGCCTCGCTTGCCGAAGAAGGCTACAGCCCCGAACAAATCGAATGCGGCTTCGAGGCCGATCTTCGCTTCAAGGGCCAGGATTTCGAACTCCCGATTGCACTGCCGGAAACGGTCACAGAGCGCGAGCGCGATCTGCTTCGTGCGGCGTTCCTTGAGGCCTACAAGGGGATCTACGGCTATGCCTCGGACGATAGGGTTGAGATCGTCAACATTCGTCTGAACGCGAGCGGCAATCAGGGTAATCGGCTGAGCTTCGTTCCGCATGCGCCGGACGCTGCCACAGCAGAGGCCACGAGCCGCAAGATCTATCATTCTCGCACGGACGGCTGGGTGGATACGCCGATCTACGAGCGCAGCACCTTCAAGGGTGGCGTGCAGGGACCGCTGATCATTCAGAGCCCGGACACCACCATCGTTATTCCTCCGCGTGCCACGGCTGACCTCGACGCCTTCGGCAACGTTGTCGCCACACTTGCTTGA	MDNARIGVDIGGTFTDLVLFGDAGETFFTKVPSTPAKPEQAVLTGIRQITETAGLDVSKVAEVVHGTTVGSNTLLQKVGAKTGLITTKGFRDVLEIGRVRTPTMFDLSWEKAVPLIARRYRLEVDERSTADGRVLKPLNDQEVIEIGRFFESEGVESVAICFLNSYRNPENEARALEVMNKHFPNMWVTASVSVLPEIREYERTSTTAVNAYVLPSLRAYFERLENGLREIGVSAPLLISNSNGGLSSAKMAQEKPVFFISSGRSAGVVGAGRLGEAMGEKDLVVFDMGGTTASASLIHKGELSRANEYEFRAGISTPSRFIKAGGYLMRVPTVDVAEVGSGAGSIASIDEGGLMHVGPLSAGADPGPVCYGIGGQSPTVTDANVVLGFLPSALAGGSMKLDVEGARAAIKRDLADRLGLSIEDAAFGIREVVNINMARTIKAVTVERGVDPRDFAILAFGGSGPVHACDLARTLNISRVIFPKSPGVFTATGMLAAKVERYFLRSLNGMLDQLPIDQVNSLLRDMRAEAVASLAEEGYSPEQIECGFEADLRFKGQDFELPIALPETVTERERDLLRAAFLEAYKGIYGYASDDRVEIVNIRLNASGNQGNRLSFVPHAPDAATAEATSRKIYHSRTDGWVDTPIYERSTFKGGVQGPLIIQSPDTTIVIPPRATADLDAFGNVVATLA				NA	NA	NA	NA	NA
BMS010_03901	774	ribX_5		Riboflavin transport system permease protein RibX	ATGCGTGACAAGACATCAATCGCCGCTCGCTTACTTCCCGGCTTCGTTATGCTGGTTTCCGCACTGGCTGTCTGGGAGCTGTCCGTAAGGTTCTTTGCGATTTCGCCGATCCTGCTCCCGTCCCCCTCGGCGGTTTGGGCGGAGTTCTGGAGAATGCCATCATTCTTTTTGTACAATGCAGGGGTGACCTTGGCCGTAACCCTGATTGGTTTTCTTCTTGCGGCGGTTTTCGGGGTTCTACTGGCAATTGTCATCGTATCGTCGAAGACGCTTGAACGGCCAGTATTTTCTTTCCTCGTGGCCCTGAACTCAGTGCCTAAAGTCGCACTGGCACCGCTTTTTGTGGTCTGGATGGGTATAGGACCGGAACCGAAAATCGCCATTGCGGTCATGCTTGCGATCTTCGCCATCGTAATCGACACGGTACTTGGCCTTCGATCCGTCGACCCCGACATGATCAATCTGGCGCGCGTCGGCCGCGCCAGCAAGTGGCATATTCTCACGAAAATCCGGCTTCCCTGTGCTTTGCCGAGCATGTTCGCCGGGCTGAAGGTGGCGATCTCGCTAGCGCTGATCGGCGCGATCATCGGTGAGTTTGTCGGCGGCTCGTCAGGGCTCGGATTCGCAATTCTCTCGGCACAAGGGCAATTCGACACGCCCGGCCTGTTCGTCAGTCTGGCGCTCCTCATCGCAATGGGATCGCTGTTGTTCAACATCATGGAAGGAATAGAGCGGCTGTCGATCCCTTGGCATACGTCAGTCCGCTCTCACTGA	MRDKTSIAARLLPGFVMLVSALAVWELSVRFFAISPILLPSPSAVWAEFWRMPSFFLYNAGVTLAVTLIGFLLAAVFGVLLAIVIVSSKTLERPVFSFLVALNSVPKVALAPLFVVWMGIGPEPKIAIAVMLAIFAIVIDTVLGLRSVDPDMINLARVGRASKWHILTKIRLPCALPSMFAGLKVAISLALIGAIIGEFVGGSSGLGFAILSAQGQFDTPGLFVSLALLIAMGSLLFNIMEGIERLSIPWHTSVRSH	PGPT0001145_7175	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050	NA	NA
BMS010_03902	789	tauB_3	COG4525	Taurine import ATP-binding protein TauB	ATGCTTGATCAGGTCAGAGACAACTACATCCAGGTTGCCGACGTCGACAAGCGCTATGGCGGCAATGAGGGTTTGCTCGTTCTAGAGAACATAAACCTCGACATTAAGAAGGGTGAATTCGTCAGTATCCTCGGTCCCAGCGGCTGCGGCAAAAGCACCTTGCTCAAGTGTATCGCGGGGCTGGAACCAATTTCCGGAGGCGGCATTTCCACGCGGGGACAGGCCATCAATGGTCCGCCGGACGGTCTTGGAATGGTGTTTCAGCGGGACATGCTCCTCGATTGGCGCACCATCCTCGAAAACGTTCTTTTCACGGTCGAAATCAAAGGCAAGGTAACTGCTGAGATGAAGGCGCGTGCCAGCGCGCAACTCGCTCGCTTCGGCCTTGGTGGATATGAAAATAAACGCCCATGGGAATTGTCAGGTGGTATGCGCCAGAGAGCGTCAATTTGTAGGGCGCTCCTGACAGATCCCGACATTCTCCTGATGGATGAACCGTTCGGCGCGCTTGACGCCATGACACGTGACGACCTCAACGTGGAGGTGGCGCGCATCTGGCAGGAGACGCACAAGACGATCCTCTTCATCACGCACAGCATCAGCGAAGCAGTTTTCCTCTCGGATCGCGTGGTGATCCTTGATCGGCATCCCGGGCGGATCGTGGAAATCCTCGATATCGACCTCCCACGTCCGCGCGAACTGTCAGTGCGGGAGGCCCCGGAATTTGGCCGTTATAGCGGTCACATCCGCCAGGTGTTCACGAAGCTGGGGATTTTCAAGAATGCGTGA	MLDQVRDNYIQVADVDKRYGGNEGLLVLENINLDIKKGEFVSILGPSGCGKSTLLKCIAGLEPISGGGISTRGQAINGPPDGLGMVFQRDMLLDWRTILENVLFTVEIKGKVTAEMKARASAQLARFGLGGYENKRPWELSGGMRQRASICRALLTDPDILLMDEPFGALDAMTRDDLNVEVARIWQETHKTILFITHSISEAVFLSDRVVILDRHPGRIVEILDIDLPRPRELSVREAPEFGRYSGHIRQVFTKLGIFKNA	PGPT0001140_5060	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049	NA	NA
BMS010_03903	945			hypothetical protein	ATGGTCGCTGCGCCTGCTATCGGTCGTGCGCAAGGCCTTCAGCCGTTGTCGGCGCGCATGGACTTCGCCCCCTGGGGCGTTCAGGCGGCTATGCATCTCTGTCAGGTTAAGGGCTGGTTCAAGGATGTCGGCCTTGAGGTCGATGTGCAGGACGGCCGAGGGTCGGGCAACACGCTGCAGCTTGTAAATGCAGGCCAGGTCGATGTCGGACAGGTACAGTTGGGCCTCGTTCCGCAAGCGCGCGTCAAGAGTGCGCTAGTAAAAGGGATTGCCGGATTTGGTCGCGCCACTGACCTAGCCGCGGTTGTCGACCGTGATTCCGACTACAAAACGGTCGCCGATTTCAAAGGCAAGAGCATCGTCTGTTTTGCTGCAAGCCCATGGGCGCCCTTCATTGATTTCTGGCTCGCGCAGGGCGGCTTGGATCGCTCCACCGTGGAATTGCTTCTGGTTGATCCGGCCGCACTCTGGAGCACCTATACGACACGCCGCGCGGATGTGATCCTCTCAACCGGACCGTCGATCATCCCTCCAGCGGAAGCCGTGCGACCGTCGAGAGGCATCCTGGCCAGCGATGCGGGCGTGAACTTTCCGAGCTATGGCCTGATTGCAAGCGACGCGACGATTTCAAAGCGAGGTGATGCCCTCAAGGCGCTTGTGGCATCCCAGCAGAAGGCCTGGGCGTATCTACGCGATGGAAACGCGGCGGAAGGCGCTGAAGCTATGATACAGCAGCGTCCGAATGCAAAATTGATCAAGGACGTCCTTATCCGTCAGATCGATATGACCATCGAGACCTTCAATACCGAAGCCACCAAAGGCAAGCCGATCGGCTGGCAGGCCGAGGAAGACTGGCAGGCCGCTCTCGGCACAATGGAAAAGGCAAGCGCAATACCATCGGGCCTCGCGCTCTCCAACATTTTCACCAACGAATTCATCGGGTGA	MVAAPAIGRAQGLQPLSARMDFAPWGVQAAMHLCQVKGWFKDVGLEVDVQDGRGSGNTLQLVNAGQVDVGQVQLGLVPQARVKSALVKGIAGFGRATDLAAVVDRDSDYKTVADFKGKSIVCFAASPWAPFIDFWLAQGGLDRSTVELLLVDPAALWSTYTTRRADVILSTGPSIIPPAEAVRPSRGILASDAGVNFPSYGLIASDATISKRGDALKALVASQQKAWAYLRDGNAAEGAEAMIQQRPNAKLIKDVLIRQIDMTIETFNTEATKGKPIGWQAEEDWQAALGTMEKASAIPSGLALSNIFTNEFIG	PGPT0001135_5217	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051	NA	NA
BMS010_03904	651	nicS_2		HTH-type transcriptional repressor NicS	ATGCGTATCGAGACCGAGGTGGGAGCCAAAAAGAAGAGAATTCGCGATCCGCGCCGGACGCAACAGCACATAATTGAGTGCGCTATCGACGAGTTTACCGAGCGGGGATTTGATGGGGCGCGCATTGACGCGATTGCCGAGCAATCTCAAACGAACAAAAGCCTCATCTACAAATACTTCACAAGCAAGGATGAGCTATACATAGCAAGCCTGTCACATACATATGAGCGGCTTCGTGCATCCCAGCACGAGATCGACCTCGATGAGAACGATCCTGTCAATTCCATGCGGAAACTTGTCGAATCGACCTTCAATACGTTTGCCAATAACCCGCAGATCGTAAGGATGATGACTCACGAGAACGTACAGAATGCACGTTTTTTGAAGCAAGCCCTCAGCATCAAACTTCTGTATACACCACTCCTGGAAAAGCTCAGCAACGTTATTAGAATTGGCCAACAACAGGGTTTGTTCAGAGAAAACGTCGATCTAAAACATCTATACGTCTCGATTTCGGCTTTGGGGTATTTCTATTTTTCGAACACGCATACGCTTTCGATTGTATTGGACGAGGATTTTCAGAGTTCGAAACATATTGTCGACCAACGCGAGCAAGCGGTAGACATGGTGCTCGCGTACTTGCGCCGTTAA	MRIETEVGAKKKRIRDPRRTQQHIIECAIDEFTERGFDGARIDAIAEQSQTNKSLIYKYFTSKDELYIASLSHTYERLRASQHEIDLDENDPVNSMRKLVESTFNTFANNPQIVRMMTHENVQNARFLKQALSIKLLYTPLLEKLSNVIRIGQQQGLFRENVDLKHLYVSISALGYFYFSNTHTLSIVLDEDFQSSKHIVDQREQAVDMVLAYLRR				NA	NA	NA	NA	NA
BMS010_03905	300			hypothetical protein	ATGACAACGACATCAATTATCGAAGTTGTAACCCTGACCATTCGCGACGGCCTCTCGATTGAGCAGTTTTCGACTCTGGATCAGGCCGTGGAGCGAAAACTTGTTGCTTTGCAGCCAGGCTTTATCTCGCGGGAATCTGCTCCGGGAGAGAGCGGGACTTGGCTTGTTATCGTGCACTGGGCGTCCGTGGCGGATGCGGAGGCTTCTATGTCTTCGTTCTCTAATGCGCCGGCCGCTTCCGCTTTCATGAACGCCATCAAACCAGACAGTATGGTTATGACGCGCTATGGGCTACCTTAG	MTTTSIIEVVTLTIRDGLSIEQFSTLDQAVERKLVALQPGFISRESAPGESGTWLVIVHWASVADAEASMSSFSNAPAASAFMNAIKPDSMVMTRYGLP				NA	NA	NA	NA	NA
BMS010_03906	1347	hemL_2	COG0001	Glutamate-1-semialdehyde 2,1-aminomutase	ATGAAACTCGACTATGAGACGTCTCTCAAGAACTTTTCGGAGACATTCCATCTTTCCAAAATCGAGACACGGAAGGGCAGAGACTTCGTTCCCGGCGGCTTCAGCAGACGAACCTTCAATTATGGTCCTCATGCGGTTTTCGCCGAGCGCGGCGAGGGGCAGTACATCCATACGATCGACGGACAGAAGCTTCTCGACCTCAACAACAATTTCTCCACTAATGTCCTAGGTCACAATCACCCCGCGGTCATTAGGGCTATCGAGGAGCTTCTTTCTTCCGGGTTCTCGTTTGGCAACCCAACGGGCCACGAGCTCGAGCTTGCGGAATTGCTTTGCGAGCGCATCGAGTCGGTCGAGCAAGTAAAGTTCTTTTGTTCCGCCAGCGAGGCCTGCCTCGGCGCGATCCGCATTGCGAGGGGGTATACAGGCAGAAAGAAGATCGCCAAGTTCGAAGGGGGCTATCATGGCTTTACCGATGACCTCGCCATCTCCACGCATCCAAGCCCGACTAACTTTCCCGGTCCTGACTTCAGTCCGAGGTCGGTCCCGGACTCCGACGGCATTCCTGGGTACAAGATCGATAATGTCATCACCTTGGTTCAAAATGACTATAGGGCGTGCGAGAGCATTCTGAAACGGCACGCCGGCGACATCGCGTGCATTATCATGGAGCTTCAGTCTTGCGCCGGCGGCATCGTCTCCCTCGACAAGGAGTTTGTGCGCAAGTTAGGCGATCTCGCGAAGGAACTCGGCATCCTGCTGATCTTCGATGAAACGATTACGCTTCGTGCCGCCTACCGCGGTCTGCAGAGCCTCTACGAGACCAAGCCGGATCTGACAGTCATGGGCAAAATGATTGGCGGCGGTCTTCCGATCGGTGCTGTTGGGGGATCGCGGCAGATATTCCGTGTCGTCGAAGACAACCAGGTCATGATGTCAGGCACACACCATGGCCATCCAATGGCCTGTGCGGCCGGTCTCGCAACCATGAAGGTCATGGACCGCGACGCCTACCAGAAGCTCAACACGATGGCGAACACGGTTCGTGATGAACTGAACTCCTGGTCGGAGGAGAAACACCATCCCTTTGTCGTGTTCGGTGGCTTTTCGGTCCTCGGCTACGCCTTCACCAAGGAGCCCGGTCAGACGATTAAGACGCACAGGGATTACTGGAACAAGATCGATGACGAAAAGATGACGATCTATGCGTTGGAGATGGCGACGCGCGGCTATTTTCCCGTCCATCGCGGACAACTCGGCCTTACGCTTCCTATGACGGAGGAAGATATCGCTGGGTATATCGAGACCACAAAAAACATCATCACTGAAATTTACGCGCCGAACTAA	MKLDYETSLKNFSETFHLSKIETRKGRDFVPGGFSRRTFNYGPHAVFAERGEGQYIHTIDGQKLLDLNNNFSTNVLGHNHPAVIRAIEELLSSGFSFGNPTGHELELAELLCERIESVEQVKFFCSASEACLGAIRIARGYTGRKKIAKFEGGYHGFTDDLAISTHPSPTNFPGPDFSPRSVPDSDGIPGYKIDNVITLVQNDYRACESILKRHAGDIACIIMELQSCAGGIVSLDKEFVRKLGDLAKELGILLIFDETITLRAAYRGLQSLYETKPDLTVMGKMIGGGLPIGAVGGSRQIFRVVEDNQVMMSGTHHGHPMACAAGLATMKVMDRDAYQKLNTMANTVRDELNSWSEEKHHPFVVFGGFSVLGYAFTKEPGQTIKTHRDYWNKIDDEKMTIYALEMATRGYFPVHRGQLGLTLPMTEEDIAGYIETTKNIITEIYAPN	PGPT0003680_1060	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003680-hemL-K01845	NA	NA
BMS010_03907	1458			hypothetical protein	ATGTCAGATAACGAAGTATCTCAATTTGGGAAACAAAGCCTCGCGGCTAACTCAGTCGGAGTGGCGCATATTGTATTCTTTGTCGTGGCCGCTGCGGCGCCCATGGCTGCGGTAGTCGGTGCCACACCTCCTGCCTTTACCTTCGGTAACATTGGCGTTCCCGGCGCGTTCGTTTTGGTGGGGCTACTATACCTTATCTTCTCCGCTGGCTTCACGGCTATGGCACGCCATGTGAGCAGCGCGGGCGGATTCTATGCCTACATTTCTAGGGGACTCGGCCGACCATTCGGCGTGGCGGGTGCATTCCTCGCGATGGTGACCTACTTTGCCATCCAGATCGGGGTCTACGCCCAAGTTGGTGTCTTCGCTCGTGCAGCTCTGGAACCATTGGGGATCGGTCTGCCTTGGTGGTTCTGGTCGCTTCTCGTACTGGCGGCGGTCCTATTGTGCGGCCAGCGGCATATCGTTTTCTCCGGGCGGCTCCTCGGCATCTGCATGATAGCGGAGCTGCTGATCTTGTCGCTGTTTGCACTTGGCGTAGTCCTATCCGGTGGTGGCAGCGAAGGCTTGACCGCCTCGGGCCTACAACCGTCCGACGTCTTTGCGCCGGGACTTGGCGTGACGCTGATATTTGTCGTTAGCGCCTTCATCGGTTTCGAGGCGACTGCCATATTCGGGGAAGAGGCCGCTCATCCGGACCAGGCAATTCCACGAGCAACCGTCGCGGCCGTCATTATCATTACCGTGTTCTACGCATTCGTGAGTTGGGCAGTCATTCAGTATTATGGGTCCTCCGCCGTTGCCGCCAAGGCAAGCGAATCGATGGAGAACTTTTATATCGGCGCGATCGCCGGAGTGCTCGGCGGCTGGTCCACCGTGGCCGTGAACATCCTGCTGCTGACAAGCCTTTTTGCTTGCTTGCTCTCGTTCCACAATACGCTCAACCGGTATTTCTATGCGCTCGGTCGGGATGGCCTCTTGTGGACCGGGCTCTCGTCCGTCCACCACGCGAATGGCTCGCCTAATGTAGCCGGCCGCGTTCAGTCTATTCTTGTCGCCGCTGTCCTCATAGGGTTTTCCCTCATCGGCGCTGATCCCTACGCGGTCGTCTATGCCTGGACTTTGGCCTTCGCAGGTATCGGCATTCTGGCTGTCCAAGTCCTGGTATCGATCTCCATTCTCTCCTTCTTCCGGACGGAACGACGCGGCTTCTCGACTATGCGCGTGGTGATCGCTCCGGCTGTCTCAGGCATGGCCCTTGCTGCCGCCTTCTTTCAGGTCTCGAGAAACCTGCCGCTGCTCACCGGCAGCGAGAGCCCGATCGTGACCTCCTTTCCAGTATGCGTAATCCTCATCGCGGTGACTGGCATTCTTACCGCCCTGCACATCCGACGCACCAACCCCGCCCTATACGACAGGCTCGACCGCACCTTCGCCGAGGCGACGGCCGAGACCTGA	MSDNEVSQFGKQSLAANSVGVAHIVFFVVAAAAPMAAVVGATPPAFTFGNIGVPGAFVLVGLLYLIFSAGFTAMARHVSSAGGFYAYISRGLGRPFGVAGAFLAMVTYFAIQIGVYAQVGVFARAALEPLGIGLPWWFWSLLVLAAVLLCGQRHIVFSGRLLGICMIAELLILSLFALGVVLSGGGSEGLTASGLQPSDVFAPGLGVTLIFVVSAFIGFEATAIFGEEAAHPDQAIPRATVAAVIIITVFYAFVSWAVIQYYGSSAVAAKASESMENFYIGAIAGVLGGWSTVAVNILLLTSLFACLLSFHNTLNRYFYALGRDGLLWTGLSSVHHANGSPNVAGRVQSILVAAVLIGFSLIGADPYAVVYAWTLAFAGIGILAVQVLVSISILSFFRTERRGFSTMRVVIAPAVSGMALAAAFFQVSRNLPLLTGSESPIVTSFPVCVILIAVTGILTALHIRRTNPALYDRLDRTFAEATAET				NA	NA	NA	NA	NA
BMS010_03908	1035	virS_3		HTH-type transcriptional regulator VirS	ATGGCGCCTAACACCACGCACCGAACGGCATCCATCCGGGTGTTCGTTTTGCAGGCGATTATCCAGAACCTTCCAAGCGCTGGCATCCACCTGAAAGCATTGCTCACGCGTCACGGCCTTTCGGATGCGCGCATCGGCGATCCGAATGCACGTGTCGACATGCGTGATTACCTCGAGTTTTTTGAAGACGCCGCGAGGACGTTTGAAGACCCAGTGCTGGGCGCTCGACTCGGATTCGCGTTGCGCCCGGGAGATCTCTGGCCGATCGGATTGCTGCTAATGCAAGCAAGTTCAATCGGATCGGCTCTGAGTTACTATGCACGCTACGCCACAGCGTTTCAGACGGCCACAACATTTTCGGTCCAGGTCTCGCCGGAAGGTTTGATGTGCAGTTATAAAATCCACGATGACATAAGGCCAAGGAACCTTCTGCGACAGGACACGGAATTCACTCTCGCGTGCATATGCAGTCAACTCCGAACCGCCTTTGACGGCAACTGGAGGCCCCTAGAGGTCCATTTCGAGCACGGGTCTGTTGGCCAAGAAGCCGCGCTGCAGCGCATCTTCGGTGCGCCGATTCAATTCACCCAGAATAGGAACTGCATAATTATCGACCCTTCTGACGCCGATCGACAGTACAGGGTTGAGGACCGAGAGTTCATTAACATCCTAAACCAGCATATGGCCTCTGTCATAGCGGCGAGCAACCAGGAGATGTCTGCTACCGAGCACGTCAAGGCACTGATAAGCGTTCGATTGGGAATCTCGTCTGTCGAATTGGCCGATCTTGCCTCGGAAATGGGAATCACCCCGCGCACTCTCCAACGACGCCTCTCGGACGAGGGGACGTCGTTGCGTGCGATTTTGAGGGATTATCGCGAGCAGATGGCGACTGCATATTTGGCGCAGGGCAATGTATCAATGGAAGAGATTTCAGGCGCGCTTGGCTACGCCGAACCGACAGTGTTCTCGCGAGCATTCAAGGCCTGGACCGGCAGTAGTCCTGCCCGAAGAGCCAAAGTCGGAGAACAGTAG	MAPNTTHRTASIRVFVLQAIIQNLPSAGIHLKALLTRHGLSDARIGDPNARVDMRDYLEFFEDAARTFEDPVLGARLGFALRPGDLWPIGLLLMQASSIGSALSYYARYATAFQTATTFSVQVSPEGLMCSYKIHDDIRPRNLLRQDTEFTLACICSQLRTAFDGNWRPLEVHFEHGSVGQEAALQRIFGAPIQFTQNRNCIIIDPSDADRQYRVEDREFINILNQHMASVIAASNQEMSATEHVKALISVRLGISSVELADLASEMGITPRTLQRRLSDEGTSLRAILRDYREQMATAYLAQGNVSMEEISGALGYAEPTVFSRAFKAWTGSSPARRAKVGEQ				NA	NA	NA	NA	NA
BMS010_03909	762			hypothetical protein	ATGACCACGAAGGAAAAGCAGGTCTTTGACCTTCTCAAGGGTATCGAAACCGGCGCGACCGAACCAGTCGGTGTGATCAATCCGGAGAAGTACATCCAACATAACCCTGGAGCGGCCGACGGCTTGAAAGCCTTTGGTGATTTGCTTGCTGCTCTTCCCAAGGGGTCGGCCAAAGTGAACACAGTGCGCGTATTCCAGGACGGCGAGTTCGTTTTCGCTCATACCGATTATAATTTCTTCGGACCGAAGATCGGGTTCGATATCTTCCGCTTTGAAGATGGTAAAATCGTTGAGCACTGGGACAACCTCCAGGAGACGGCGGGCCCCAATCAGAGCGGCCGTACGATGATCGACGGGCCGACGGAAGCCAGGGATCTCGATAAGACGCAGGCCAACAAGACCTTGGTTGCGACATTCGTTGACGACATTCTCGTCAACGGCCGCATGCAGAAGCTGAGCGACTATTTCGACGGTGACAACTACGTGCAGCACAATCCGCAGATCGGTGACGGGCTGTCAGGGCTGGGTGCAGCTCTGAAGGCAATGGCCGACGCCGGCATCACCATGAAGTACGACCGCGTCCACAAAGTTCTGGGAAAAGGCAATTTTGTGTTGACGGTCAGTGAGGGCACATTCGCCGGCAAGCCGACATCATTTTACGACTTATTCCGGGTCCAGGCCGGTAAGATCGCGGAGCATTGGGATACGATCGAAACTATTCCAGCCGAGGCCGATTGGAAGAACCAAAACGGCAAGTTCTGA	MTTKEKQVFDLLKGIETGATEPVGVINPEKYIQHNPGAADGLKAFGDLLAALPKGSAKVNTVRVFQDGEFVFAHTDYNFFGPKIGFDIFRFEDGKIVEHWDNLQETAGPNQSGRTMIDGPTEARDLDKTQANKTLVATFVDDILVNGRMQKLSDYFDGDNYVQHNPQIGDGLSGLGAALKAMADAGITMKYDRVHKVLGKGNFVLTVSEGTFAGKPTSFYDLFRVQAGKIAEHWDTIETIPAEADWKNQNGKF				NA	NA	NA	NA	NA
BMS010_03910	426	ywnA	COG1959	Putative HTH-type transcriptional regulator YwnA	ATGAATACCCGCTTCTCAGTTGCCACGCACATCCTGACTTTTCTTCAGTCCCAGCAAGGGTCGCCCGCATCTTCCGAACTCATAGCATCAAGCGTCAACACCAACCCGACGCTTATCCGGCGGCTCCTTTCACAATTGGCCAAAGCCGGGTTGACCACTTCACAAATGGGAAGCGGCGGCGGCGCATTGCTGGCGCGATCGGGTTCCTCGATCACGTTGCTAGACGTTCATCGCGCAATCGACGACGAATTCGTGGCGTTCCCATTGCACCAGGAACCGAACCCTCAATGTCCGGTTGGCCGGAACATAAACATAGTTCTGCGGGGCCGACTTGCGGTCGTCCAGACCGCTATGGAACAAGAGCTCTCGCGCACGACGATCGCTGATCTCGCAACCGATATTTCCGCGATCAACTCCGCTGGCTAA	MNTRFSVATHILTFLQSQQGSPASSELIASSVNTNPTLIRRLLSQLAKAGLTTSQMGSGGGALLARSGSSITLLDVHRAIDDEFVAFPLHQEPNPQCPVGRNINIVLRGRLAVVQTAMEQELSRTTIADLATDISAINSAG				NA	NA	NA	NA	NA
BMS010_03911	897			hypothetical protein	ATGCACGTCGAGTCCGCCATTCATCATGATGCCCGCGGCGAGGCAATCGAGCCGGCCATCCAGCCGCGCTTGATCCGCATCGGCCAGCCGCCACAGCGCTGGTTTCACCATGCGCTGTTGCTAGTAAATGGTTCGATCCGCCTGTCGCGTGATGACGTCGGAGCGGCAATTTCGGGTCCGGCCATTGCATTCTTCCCGCCCAGTGAGGGGGAAATGATCACGATCGGTGCCGGCAGCCGCGGTTACCTCGTCGGCATGTCGCCGGAGATCATCGGCGAGGCGATCGGCGATCATGCCGAGTCCGCAGCACTTCGCGTCTTTTCCGGTAGCGTTGCATTCGATGACGCCCTGCAGCCGACAACGGTTCGAGAGATCATTCCTCTGTTTGAAGGCGTAGTCGCAGAACTCGCCGACGAAGGACGTTCGTCGCGAATGGTGATATCCGCCTATGCGCGGCTCATCCTGATGGCCGCGTGGCGGCTGAGGCGTGGCGCCGATGTCGCGGAGGAGCGCCGCGCGAGTGCCGGATTGATCCTGCAGCGGTTCCGACAATCAGTAGAAATCGGTTTTCGCCGCCACCGTTCCATTGCCGACTATGCCGACGAACTTGGGATTAGCGCGGATCGGTTACACGCGATCTGCCAGCGCATGTTGTCGCGTTCGCCCCTCGAACTGGTGCATGACCGCGTGGTGCAGGAGGCCAAACTGCGCCTTGAGCGCTCGGCCCGTAGCGTGCAAGAGATTTCATATGGGCTCGGCTTCAAAGATCCCGCCAATTTCAGCCACTTTTTCAAGCGCCATGCAGGGGTTTCGCCTGTGCGATACCGCGCCCTTTCCGTGAACGAGGCCCAAAAACTCACAATTCCGACGTCGTCCGACTATCACGACTGGCCGTAA	MHVESAIHHDARGEAIEPAIQPRLIRIGQPPQRWFHHALLLVNGSIRLSRDDVGAAISGPAIAFFPPSEGEMITIGAGSRGYLVGMSPEIIGEAIGDHAESAALRVFSGSVAFDDALQPTTVREIIPLFEGVVAELADEGRSSRMVISAYARLILMAAWRLRRGADVAEERRASAGLILQRFRQSVEIGFRRHRSIADYADELGISADRLHAICQRMLSRSPLELVHDRVVQEAKLRLERSARSVQEISYGLGFKDPANFSHFFKRHAGVSPVRYRALSVNEAQKLTIPTSSDYHDWP				NA	NA	NA	NA	NA
BMS010_03912	1515	vdh_1		Vanillin dehydrogenase	ATGGCCCCGGCAATCAATCCTGTCGTCTTAGAAAATCGGCGCGACCGTTCAGCAGCGACCTCACCACGGCTCGTGAGCCTGCTGATCGGCGGTCGAGATGTCCCCGCCTCCAGTTCCGCGGCTTTCGAGCGCTTGAGTCCCGTCTCCGGCGATCTCGTCACCGTCTCGGCCGCAGCGACTCTGGAAGATGCGGTGGCCGCGGCCGATGCTGCCGCTGCAGCCTTCCCGGGCTGGTCGCAATCGAGCCCTGGCCATCGCCGCAACCTTCTCGAACGCGCGGCTGACTTGCTGGTTGCCCGTGCGCCGGATTTCACTGCAGCCATGATGGCCGAGACCGGCGCCACTCGCGAGTGGAGCCGCTTCAATGTCGAACTGGGAGCCAGGATCTTCCAGGAGGCGGCGGCCGCAACGACGCAAGTCGGCGGCTCGATCATCCCAACCGACATGCAAGGCAGAACGTCGTTCGCCTATCGCCAACCGGCAGGCGTCTGCCTTGCCATCGCGCCATGGAACGCACCCGTCATTCTCGGCGTGCGCTCGATCGCCATCGCGCTCGCCTGCGGCAATACGGTGGTGCTGAAATCCTCCGAACTTTGCCCGGCGACGCATCGGCTGATCGGTGAGGTGCTGCAGGAGGCGGGCCTGCCCGAAGGCGTGATCAACATCATCTCCAATGCGCCGGCAGATGCCTCTGCGATTGTGGAAACACTGATCGCGCATCCCGTCATCCGACGCATCAACTTCACCGGCTCGACCCGTGTCGGTCGGATCATCGCCCAGACCGCTGCGAAGCATCTCAAACGTTGCCTGCTGGAACTCGGCGGCAAGGCAGCCTTCATCGTTCTCGACGACGCGGACCTCGACGAGGCGGTGAAGGCCGCAGCCTTCGGCGCTTATTTCAATCAGGGCCAGATCTGCATGTCCACGGAGCGGATCATCGTGATGGACGAAGTCGCCGATGCTTTCGTCGAAAAATTCGTCGCCAAAGCGAGGTCACTGCGTGCCGGCGATCCGCTTCGGTGCGAGCTGCCGCTTAGCAGCCTGGTCACCGCCGAATCCGCCCGCCGCGTGCGTGGCCTCATCGATGACAGCATCGCTAAAGGAGCCGTGCTCCTGACCGGCGGAGAGAACTACGATGCAATGATGGATGCCGCCGTGGTCGATCATGTGACGCGCCCGATGCGGCTCTATCGCGAGGAGAGCTTCGGCCCGGTTGCGGTGGTTATCCGTGTCGGCTCGGCCGATGAGGCCGTGACGGTTGCCAATGATTGTGAATACGGGCTTTCCAGCGCGGTCTTCGGCCGCAATATCGGTCGGGCGCTCGATGTCGCGCGGCGGATCGAATCCGGCATCTGCCACATCAATTCGGCCACCGTCGCCGACGAGCCGCAGGCGCCGTTCGGCGGCGTCAAGGCGAGTGGCTACGGCAAGTTCGGTGGACCTGCGGCGCTGGACGAATTCACAGAACTCCGATGGATCACGATTTCAGACGGCACGGGGGATTACCCGATCTGA	MAPAINPVVLENRRDRSAATSPRLVSLLIGGRDVPASSSAAFERLSPVSGDLVTVSAAATLEDAVAAADAAAAAFPGWSQSSPGHRRNLLERAADLLVARAPDFTAAMMAETGATREWSRFNVELGARIFQEAAAATTQVGGSIIPTDMQGRTSFAYRQPAGVCLAIAPWNAPVILGVRSIAIALACGNTVVLKSSELCPATHRLIGEVLQEAGLPEGVINIISNAPADASAIVETLIAHPVIRRINFTGSTRVGRIIAQTAAKHLKRCLLELGGKAAFIVLDDADLDEAVKAAAFGAYFNQGQICMSTERIIVMDEVADAFVEKFVAKARSLRAGDPLRCELPLSSLVTAESARRVRGLIDDSIAKGAVLLTGGENYDAMMDAAVVDHVTRPMRLYREESFGPVAVVIRVGSADEAVTVANDCEYGLSSAVFGRNIGRALDVARRIESGICHINSATVADEPQAPFGGVKASGYGKFGGPAALDEFTELRWITISDGTGDYPI	PGPT0005525_185	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_VANILLIN|VANILLATE_DEGRADATION,PGPT0005525-vdh-K21802	NA	NA
BMS010_03913	1284			hypothetical protein	ATGAAGAAGGGTATAACACGGCGCGAACTCCTGGTGACTACCGGCACCACCGCCGCGGCACTGGCATTCGGCGTGCGCCCGGCCCTTGCAGCTGACACGCTCAAGGTCGGGTTCATCAGCCCGCGCACCGGTCCACTTGGCAGTTTCGGAGAGACTGACGGTTATGTTCTCGAGCTGGTCCGCAAAGCGATAGGCGACGGCATTGAGATCGGTGGCAAGAAATATGCCGTTGAGATTCTCGACCAGGACACGCAGTCCGACCCATCCCGCGCCGGCCAGCTCGCCAAGGACCTGATCAACAATCAGGGCATCGACATGATGCTGGCGGTCTCGACGCCGGAGACGATCAATCCGGTGGCCGATGCCTGCGAGGCCGCGGGCGTGCCCTGCCTCTCGACCGTCATGCCCTGGGAGGCCTGGTATTTTGGCCGCGGCGCCAAGCCGGGCGCGGCGTCGCCCTTCAAATGGAGCTATCATTTCGGCTTCGGTGTCGGCGAGTTCCACAAGACCTATGTGTCGCAATGGAACCTGATCGAGACCAACAAGAAGGTCGGCGTCATGTATCCGAACGACGCCGACGGCAATGCGATCCGCGCCAATCTCGCGCCCCTGCTCCAGAAGGACGGTTTCACTATCATCGATCCCGGTGCATATGAGACCGGCACGACGGATTTCTCCAGCCAAATCGCGCTCTTCAAGCAGGAAGGCGTCGAGATCATCAACACCTTCCCGATCCCGCCGGATTTTGCCACCTTCTGGCGCCAGGCCGCCCAGCAGGGCCTGCATAAGCAGGTCAAGATCGTCCAGGTCGCCAAGACCGGCCTCTTCCCCTCGGGAGTCGAGGCGTTGGGCAATCTCGGCGTCAATCTCGGCAGCGCCGCCTACTGGCACAAGGCCTTCCCCTACAAGTCGTCGATTGCAGGCGTCTCCGGCCCGGAACTGGCCGATGGCTACGAGGCTTCGTCCGGCAAGCAATGGACCCAGCAGCTCGGCGCGACGCTCTCGCTCTTCGATGCCGGTTTTGATGCGCTGAAGAATGCCGCCGACCCCAAGAGCAAGGATGCGATCGTCAAATCGATCGCGACGCTCAATACCGTGACCATCGCAGGCAAGGTCGACTTCACCTCCGGCCCGGTGCCGAATGTCTCGCCCGGCCCGATCATCGGCACTCAGTGGGTCAAGGCGGCGGAAGGGTCGAAATTCCCGCTCGATTATGTTGTGACGGAGAATGCGACGGATCCCAACGTCCCGGTCGCAGCCAAGCTGCTGCCCTATAACGGATAA	MKKGITRRELLVTTGTTAAALAFGVRPALAADTLKVGFISPRTGPLGSFGETDGYVLELVRKAIGDGIEIGGKKYAVEILDQDTQSDPSRAGQLAKDLINNQGIDMMLAVSTPETINPVADACEAAGVPCLSTVMPWEAWYFGRGAKPGAASPFKWSYHFGFGVGEFHKTYVSQWNLIETNKKVGVMYPNDADGNAIRANLAPLLQKDGFTIIDPGAYETGTTDFSSQIALFKQEGVEIINTFPIPPDFATFWRQAAQQGLHKQVKIVQVAKTGLFPSGVEALGNLGVNLGSAAYWHKAFPYKSSIAGVSGPELADGYEASSGKQWTQQLGATLSLFDAGFDALKNAADPKSKDAIVKSIATLNTVTIAGKVDFTSGPVPNVSPGPIIGTQWVKAAEGSKFPLDYVVTENATDPNVPVAAKLLPYNG	PGPT0020765_1342	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020765-livK-K01999	NA	NA
BMS010_03914	753	lptB_3	COG1137	Lipopolysaccharide export system ATP-binding protein LptB	ATGCTGGTGGAAAGCGGAAAAGGAACCGGCGATAGCAGGTTCTCGGGGAAAGGCATTACCAAGCGGTTCGGCGCTTTGCCGGTGCTGGAAAATGTCGATTTCTCGATGGGCATGGACGAGTCCGTGGGCATTGTCGGACCGAATGGCGCCGGCAAGACCACGCTACTCGCCACACTCTCTGGTGCCTATCCGCCGAGCGCCGGTTCGGTGATGTTTGCCGGGCGCGACGTGACCAAGCTCGCAGCGGCCGAGCGATGCAAGCTTGGCCTCGTGCGCACGCATCAGGTGCCCAAACCCTTTTCAGGCATGACCACCTTCGAGAATGTGTATGTCGCTGCCTCGCACGGCCATGTTGGGAGCCGCGGCGAAGCCTATGAGCGGGTCATCGACTCGCTCACGCTGTGCGGCATGCTGGCTGTCGCCAACCGTCGCGCCGAGACACTTGGCCTGCTCGACCGTAAGCGGCTGGAACTGGCGCGCGTGCTGGCGACCGGGCCGAAAGTCATACTGCTCGACGAGATCGGCGGCGGACTGACCGATTCCGAGGCGCAGGAACTTGTCCACACCATCCAGGAACTGCGCCGCCGCGGCATCGGCGTGATCTGGATCGAACATATCGTCCATGTGCTGCTGCAGGTGGTTGAGCGGCTGATCTGCATGGATGCCGGCCGCATCATCGCCGATGGCGAGCCCAATGCGGTGATGTCCGATCCCGAGGTGATCCGCGCTTATCTCGGAGGAGGTCCGAAATGA	MLVESGKGTGDSRFSGKGITKRFGALPVLENVDFSMGMDESVGIVGPNGAGKTTLLATLSGAYPPSAGSVMFAGRDVTKLAAAERCKLGLVRTHQVPKPFSGMTTFENVYVAASHGHVGSRGEAYERVIDSLTLCGMLAVANRRAETLGLLDRKRLELARVLATGPKVILLDEIGGGLTDSEAQELVHTIQELRRRGIGVIWIEHIVHVLLQVVERLICMDAGRIIADGEPNAVMSDPEVIRAYLGGGPK	PGPT0020780_9087	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020780-livG-K01995	NA	NA
BMS010_03915	729	livF_2	COG0410	High-affinity branched-chain amino acid transport ATP-binding protein LivF	ATGAGCACGCTCACGGTCGAAAATCTCACCGCCCGCCACGGCCTGCTCGAAGCGGTGCGCGGCCTTTCCTTCTCCATCGCCAAGGGCGAGACACTGGCGCTGGTCGGCGCCAATGGCGCGGGCAAGACGACGCTGATGCGCACGCTCGCCGGCGCCCACGCCGTGCATGGCGGCCGGATCATGCTTGACGGCGAGGACGTCACCGCGCTCCCCGCCCACCAGCGCGTCAGGCGCGGCATCTCGCTCGTACCCGAAGGCCGCCGAATGTTCGCCTCGATGACCGTGTCTGAGAACCTCAAGCTCGGCGCCATGGCCGACCGCACAGGTGACTGGTCTATCGAACGGATCATCGAGATCTTCCCCAATCTCAGGAAGCGTCTCGACCACAAAACCGGTCATCTTTCCGGCGGCGAACAGCAAGCGACCGCGATCGGCCGCGCGTTGATGAGCAACCCGGACATCCTGTTACTCGACGAAGTCTCGCTCGGCCTCTCACCGCTCATCGTCGATCGCGTCTATGCCTCGCTCGAAGGGCTGATCGCATCCGGCACCACGATCATCCTGGTCGAACAGGATCTGACGCGCGCGATGAGTGTGGCAGACCGGGTGATCTGCATGCTGGAAGGCAAGGCCGTGCTCGAAGGAAGGGCGACGGATTTGACGAGGGAGCAGGTGACGGAGGCCTATTTCGGGCTCAAGCGAGCCACGGCCGGGAGGGCTCACGCATGA	MSTLTVENLTARHGLLEAVRGLSFSIAKGETLALVGANGAGKTTLMRTLAGAHAVHGGRIMLDGEDVTALPAHQRVRRGISLVPEGRRMFASMTVSENLKLGAMADRTGDWSIERIIEIFPNLRKRLDHKTGHLSGGEQQATAIGRALMSNPDILLLDEVSLGLSPLIVDRVYASLEGLIASGTTIILVEQDLTRAMSVADRVICMLEGKAVLEGRATDLTREQVTEAYFGLKRATAGRAHA	PGPT0020785_3485	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020785-livF-K01996	NA	NA
BMS010_03916	909	livH_3	COG0559	High-affinity branched-chain amino acid transport system permease protein LivH	ATGACCAACCAGATTCTCCAGGGCATCCTGCTCGGCGGCTATTATGCGCTGATCGCCTGCGGCCTCTCCTTCATGTTCTCCGTCATGCGCATCATCAACCTCGCACACGGCAGCCTCGCCGTCGCTGCCGCCTATCTCATCTTCCTGCTGACGGAACACACCCACCTGCCGCTTTGGGCAAGTTTTCTGATCTCAGTCGCGGTCATGGCCGTCGTCGGTTGGCTGATCCAGCGCCTAATCCTTGATCGTTGCGCCCGCGGCGGCCAGCTTCTGCCGATCCTCTCCACCTTCGGCCTTTCCATGGTCATCGACAATACACTGTTTGAACAGTTCGGCGCCGATACCCGCTCCCTCGCCAACTCCATCGGCGACCTCTCCTGGGACAGTTGGGAGCTTCCCGGCGGGCTCTATGTCGGCAAACTGCCGGTGCTGATCTTCGTCACTGCGGTGGCACTGCTCGCGGCCCTGCAAATCATGCTGACCTACACCAAACTTGGCCGAGCCATCCGTGCCACGGCGGAGGATCCGGATACTGCAGGCCTCGTCGGCATCGACGCCCGTCGGGTGAATGCCGCAGCCGCCGCGATCACGCTGGTGACCGTCACCATCGCCGGCATGTTCCTTGCCATGCGCGCCACCTTCGAACCCTATTCCGGCGCGCCGCAGCTTCTCTTTGCCTTCGAGGCGGCCGTCATCGGCGGTGCGGGCTCGCTCTGGGGTACGCTGGCCGGTGGCATCATCCTCGGCATCGCCCAGACATTCGGCGCCTCGCTCCACCCGCTCGGCTTCCTGATCGCGGGCCATGCCGTGTTCCTGATCATCGTGTTCACGAGGCTGATCTTCCCGGATCTGCTGTCGCTGCCCGCGCGCCTCCTGGCGAGGCGGACCGCTCAAGGAGGTACCGCATGA	MTNQILQGILLGGYYALIACGLSFMFSVMRIINLAHGSLAVAAAYLIFLLTEHTHLPLWASFLISVAVMAVVGWLIQRLILDRCARGGQLLPILSTFGLSMVIDNTLFEQFGADTRSLANSIGDLSWDSWELPGGLYVGKLPVLIFVTAVALLAALQIMLTYTKLGRAIRATAEDPDTAGLVGIDARRVNAAAAAITLVTVTIAGMFLAMRATFEPYSGAPQLLFAFEAAVIGGAGSLWGTLAGGIILGIAQTFGASLHPLGFLIAGHAVFLIIVFTRLIFPDLLSLPARLLARRTAQGGTA	PGPT0020770_3726	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020770-livH-K01997	NA	NA
BMS010_03917	1017			hypothetical protein	ATGAGCACCGTCGTCACACCCTCGATGGTCCATCGCTGGACCCGCGCGTCGCGGACGGCCGCCTGGCTCTCTGCCATCGTGCTTCTCGGCTTCGCTGTGCTGCCGGGGGTGCTCGGCGCCGGCGCGGTTGATCGCCTCACGGCGCTCTTCATCTATGTCATCATGGCTGCGATGTGGAATGCGCTGGCGGGTTATGGAGGCCTGGTCTCGGTCGGCCAGCAGGTCTTCTTCGGCCTCGGCGCCTACTTCACCGTCCGCCTCGCCGAATCCGATATCGATCCGTTTATGTCGATGATCCTCGCCAGCCTCGTCGTTGCAGCCGTTTCCTATCCGCTGTCGCTGGTCATGCTACGGCTCAAGGGCGGTGAGTTCGCGATCGGTATGTGGGTCGTCTCGGCGCTCACCCATCTCTGCGTCAATCTCGACAGCCTGATCCAGGGCGAAACCGGCCGCTCGCTAATCTCGCTCAATGCCTATGATGCTGGCGCCCGGCGCGACATCATCTACTGGTTGGCCCTGATCGCGATGGCCGGCCTATTGATCGGCCTCTTCACGCTGCTGCGCAGCCATATCGGAGCTGCGATCCAGGCGATTCGCGACAATGAGGATGCGGCCGGCTCGCTCGGCATCGATGTGGTCAGGACCAAGCGCATCATCTTCGTTCTTGCCGCCTTCGGCACCGGCGTCGCCGGTGCGCTCTGGCTCGCCAGCGCCACGAGCTTCCAGCCCAAGACCTATTTCTCCGTCCAGTGGACGGCCTACATGATCTTCATGGTCCTGGTCGGAGGCATCGGCCGGTTCGAGGGCGCGATCCTTGGCGCCGTGATCTTCTTCGTCATCGAGACCTGGTTCGGTGCGCTTGGCGTCTGGTACCTGATCGGCCTCGGTGTTGTCGCCCTTCTCTTCTCGCTCCTGCTGCCACACGGCCTCTGGGGCGAAATTGAAACACGTTTCGGGATTTCGCTGATGCCGGTGGGCTACCGGCTCGAAATTTCAGGTCAATCCAGCAGGGAGTGA	MSTVVTPSMVHRWTRASRTAAWLSAIVLLGFAVLPGVLGAGAVDRLTALFIYVIMAAMWNALAGYGGLVSVGQQVFFGLGAYFTVRLAESDIDPFMSMILASLVVAAVSYPLSLVMLRLKGGEFAIGMWVVSALTHLCVNLDSLIQGETGRSLISLNAYDAGARRDIIYWLALIAMAGLLIGLFTLLRSHIGAAIQAIRDNEDAAGSLGIDVVRTKRIIFVLAAFGTGVAGALWLASATSFQPKTYFSVQWTAYMIFMVLVGGIGRFEGAILGAVIFFVIETWFGALGVWYLIGLGVVALLFSLLLPHGLWGEIETRFGISLMPVGYRLEISGQSSRE	PGPT0020775_6006	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020775-livM-K01998	NA	NA
BMS010_03918	789	calA_1		Coniferyl-alcohol dehydrogenase	ATGCTGTTCGGTAAAACCCTCGTAATAACGGGCGTCTCGTCAGGCATCGGCGCGCGTACGGCAGAACTCGCGATCGCGCAGGGCGCCGATGTGATCGGCATCGACATGCGCGATCCGCCTGTCAGCCATGGCGCCTTCCTCAAGGGCGACCTGTCGAACCCTGACGGCATCGCCGCCGTGGTCCGCCAGCTGCCCAAGCGCCTCGACGCATTGCTCAATGTCGCCGGCGTCTCCGGCAACGGCGGCGCGGCCATCACGCTCGCAATCAATTTCTACGGCCTCAGGCATTTCAGCGAGACGCTGGCGCCAAATATTCGCGAGGGCGGCGCTGTAGTCAATGTCGCCTCGATCGCCGGCTACGGCTGGCGCGGGAATCTCGACCGGGCGAAACGGATGGTGGGCGTCCAGGGCTTTCCTGACATCGCAAAGGTCATGGCCGATAATGAGGTGCGCGACGAGATCGGCTATCCTCTCTCCAAGGAACTGCTGATCCTTTGGACGCAGATTGCCGCGCATCAGCCGCTGTTCAGGGAGCATTGCATCCGCGTCAATGCGGTGAGCCCCGGCCCGGTTGAGACGCCGATCCTTAAACAGTTCCGTGATGTCCTGGGCGACGAGAAGGTGGACTCAGACATCAGCCGCACCGGCCGCGCGGGCACCGCCTCCGATATCGCTCCCGTGATCCTCTTCGCCGCCTCCGATGCGGCGCGCTGGATCAATGGGGCCAATCTCGCCGCGGATGGCGGTCTTGAAGCGTCGATCAATGCCGACGTACTTGGATTTAAGTGA	MLFGKTLVITGVSSGIGARTAELAIAQGADVIGIDMRDPPVSHGAFLKGDLSNPDGIAAVVRQLPKRLDALLNVAGVSGNGGAAITLAINFYGLRHFSETLAPNIREGGAVVNVASIAGYGWRGNLDRAKRMVGVQGFPDIAKVMADNEVRDEIGYPLSKELLILWTQIAAHQPLFREHCIRVNAVSPGPVETPILKQFRDVLGDEKVDSDISRTGRAGTASDIAPVILFAASDAARWINGANLAADGGLEASINADVLGFK				NA	NA	NA	NA	NA
BMS010_03919	1446	vdh_2		Vanillin dehydrogenase	ATGGATATTCAACAGATCATCGGCGGCAAATTGGTCGGCGCCATTTCGGGCAGGACGTTCGACCGTATCGATCCCTTCACCGGCAATGTGGCGACCCGCTCGCCCGCATCGGGCCTGGACGACGTCAAGGCCGCGGTCGCGGCTGCGCAGGCGGCTTTCCCGGCGTGGTCGAAGTCAGGCCCGGGCGAGCGCCGTGCGCTGCTCAACAGGGCGGCCGATGCGCTTGCCGCAAAGGTCGGCGATTTCACGGAGTTGCTGACAGCAGAAACAGGCGGCACCGTTGCATGGGCCGGCTTCAACACCATGCTGGCCGCCAGCATACTTCGTGAAGCCGCTGCTATGACGACTCAGATCCAGGGCGAGATTATCCCGTCCGACAAGCCCGGCACGCTCTCGATGGCGATCCGCCAGCCGGCCGGCGTTTGCCTCGGCATTGCGCCCTGGAATGCGCCGATCATTCTCGGCGTGCGCGCACTCGCCTTGGCGCTTGCCTGCGGCAATACCGTGATTCTCAAAGCCTCGGAATCCTGCCCAGGCGTGCACGTCACCATCGGCAAGGCATTCCTCGAAGCCGGCTTCCCTGCCGGCGTGGTCAATGTCATTACCAACGCACCGGAAGATGCCGCTGCTGTCGTCGAAGCCCTGATCTCGGCGCCGGAGGTCAAGCGCGTCAACTTCACCGGCTCGACGAAGGTCGGCCGCATCATCGGCGAACTCTGCGGCAGGAAGCTCAAGCCCGCCCTTCTCGAGCTTGGCGGCAAGGCGCCGATGATCGTGCTCGACGACGCGGATATCGATGCCGCCGTCAATGGCGCGATCTTCGGCGCCTTCGCCAATATGGGCCAGATCTGCATGTCGACCGAGCGGCTGATCGTGCATGAAAAGGTTGCCGACGAATTCGTTTCCAAGCTCGCCGCCCGTGCCGCCAAACTCCCGGCGGGCGATCCGCGTGGCCATGTCGTGCTTGGTTCGCTGGTCAGCCCGGTCGCTGCCGAGAAGATGGATGCCTTCATTTCAGACGCGACGGGCAAGGGTGCCAAAGTGGCTGCTGGCGGCAAGCGAACCGGCAGTGTGGTTGAGGCCACGGTGCTGGACAATGTGAAGCCGGGCATGCGTGCTTACGACGAAGAGAGCTTTGGCCCGGTCAAGCCCGTGATCCGCGTGAAGGACGAGGACGAGGCGATCCGCATCGCCAACGACACCGAATATGGCCTCTCCGCCTCTGTCTACAGCCGCGACGTTCAGCGGGCGATGGCGGTGGCTGCGCGCATCGAAAGCGGCATCTGCCACATCAACGGCCCGACGGTGCATGATGAAGCTCAGATGCCCTTCGGCGGGGTTAAAGGTTCCGGCTATGGCCGCTTCGGTGGCAAGGCGGCGATTGCTGAATTCACCGATCTTCGCTGGATCACCATCGAAGATCCACATCAGCACTATCCATTTTGA	MDIQQIIGGKLVGAISGRTFDRIDPFTGNVATRSPASGLDDVKAAVAAAQAAFPAWSKSGPGERRALLNRAADALAAKVGDFTELLTAETGGTVAWAGFNTMLAASILREAAAMTTQIQGEIIPSDKPGTLSMAIRQPAGVCLGIAPWNAPIILGVRALALALACGNTVILKASESCPGVHVTIGKAFLEAGFPAGVVNVITNAPEDAAAVVEALISAPEVKRVNFTGSTKVGRIIGELCGRKLKPALLELGGKAPMIVLDDADIDAAVNGAIFGAFANMGQICMSTERLIVHEKVADEFVSKLAARAAKLPAGDPRGHVVLGSLVSPVAAEKMDAFISDATGKGAKVAAGGKRTGSVVEATVLDNVKPGMRAYDEESFGPVKPVIRVKDEDEAIRIANDTEYGLSASVYSRDVQRAMAVAARIESGICHINGPTVHDEAQMPFGGVKGSGYGRFGGKAAIAEFTDLRWITIEDPHQHYPF	PGPT0005525_296	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_VANILLIN|VANILLATE_DEGRADATION,PGPT0005525-vdh-K21802	NA	NA
BMS010_03920	129			hypothetical protein	ATGATCTACGGCCAGACGGAGGAGGTAAGATTGGATCAATCACGGCTCCGAATTATGTACCTCTCCCGCGAGGCCAATGCGATAACACTCGAGACCGGTGACATAGATCATCTCGCCGGCATCTCGTAG	MIYGQTEEVRLDQSRLRIMYLSREANAITLETGDIDHLAGIS				NA	NA	NA	NA	NA
BMS010_03921	1485	gatA_1	COG0154	Glutamyl-tRNA(Gln) amidotransferase subunit A	GTGAATCCCATCGATGCCGGAACAAGATCGGGTGTATTCCAAACAGCGACCGAGATGCTGAGCCAAATGCGCAGCGGAGCGATAAGCGCGGTCGAATTGCTCGACCAGCATCTCGATCAGGTGCGTGCCGTGAACCCCGAGATCAATGCCATCGTGGCCATCGACGAGGAAAGAGCTAGGCTCGAGGCGAGAGTAGCAGACGAGGCGCGCGGACGTGGCGAGGACAAGGGCATCCTTCAAGGACTGCCTATGACAATAAAGGACGTATTCAGCGTCGCTGGTATGCCCGTAACCGGAGGTCTGCCGCATCTGTCTGGCTACATGCCAGAGAGTGACTCGGAGGTCGTCGCCGCTCTTCGCAACGCCGGCGCTGTCATATTCGGTAAGTCGAACGTGCCGGAAGGCGCGGGTGATCATCAGTCCTACAATCCGATCTATGGCACCACCAACAATCCTTGGAATCTTTCCAGAACGCCCGGTGGATCGTCAGGCGGGGCCGCAGCCGCGCTTGCTGCGGGCATGACGCCTCTTGAGATCGGCAGCGACGTCGGCGGCTCGATACGATGCCCAGCGCATTTCTGCGGCGTCTACGGTCACAAATCCAGTTACGGCGTGGTGCCCGTGCAAGGCCACGTGCCGCCTGGCCCAAATTCTCTGCGCAAAGCCGAAATGCTGGTCGCAGGACCGATGGCACGCGATCCCTACGATCTGGAACTTCTGTTCGACGTCATCTCGCGACCGGCGGAACGTTCGCGAACTGCCAGTTATTGGCCCCTTCCGGAACCCCGACACCACCGGCTCGAAGATTTCCGTGTCGGGGTTTGGCTCGACGAAAGAACCTATCCGGTTGATACCGCATATGCGGACGCGATTGAGGAATTGATAAAGGATCTTGAACGGCTGGGTGTGAACGTCCGGGCCGCGCGGCCCGATATTGATACCGACGCGTCCGCGAACACCTACTTCAACATGCTGTTTGGCGAGTTCTGCGCAAGTGCGCCACAGAAAATGTATGTTGACAGCAAGACCGCGCGCGAGGCGGTCGGCGGCAACAACGGTCGCTATGGCGAATGGATTGCCGCCGCAACGGTGCAGGATCTAAGGGCTTGGCAAGGTCATCTTGAGCATCGGGAGCAATTGAGAACGATCTGGGGTGCCTTTTTCCGCGACTGCGATGTTCTGATCTGCCCTGTCATGTCGACCGTTGCCTTTCCGCATGACCATCACGGAGCAGACCATGTTGCACAGCTCGCGCGTACAATCGATATCAGCGGCGAAAAGCGACCCTATCTTGACAATCTCAAGTGGCCGGGCTTGATCACCGTGGCAAGCCTTCCATCCACCGTCATTCCTACACGACGCTTTATCGGCGGCTTGCCTGCTGGCGTCCAAGTTGTCGGAGATTTCCTTGACGATCGCACGACTCTGCGCTTTGCTCAGTTGTTGCACGACCGGGTTGGGGGCTACGAGATGCCGGCGAGATGA	MNPIDAGTRSGVFQTATEMLSQMRSGAISAVELLDQHLDQVRAVNPEINAIVAIDEERARLEARVADEARGRGEDKGILQGLPMTIKDVFSVAGMPVTGGLPHLSGYMPESDSEVVAALRNAGAVIFGKSNVPEGAGDHQSYNPIYGTTNNPWNLSRTPGGSSGGAAAALAAGMTPLEIGSDVGGSIRCPAHFCGVYGHKSSYGVVPVQGHVPPGPNSLRKAEMLVAGPMARDPYDLELLFDVISRPAERSRTASYWPLPEPRHHRLEDFRVGVWLDERTYPVDTAYADAIEELIKDLERLGVNVRAARPDIDTDASANTYFNMLFGEFCASAPQKMYVDSKTAREAVGGNNGRYGEWIAAATVQDLRAWQGHLEHREQLRTIWGAFFRDCDVLICPVMSTVAFPHDHHGADHVAQLARTIDISGEKRPYLDNLKWPGLITVASLPSTVIPTRRFIGGLPAGVQVVGDFLDDRTTLRFAQLLHDRVGGYEMPAR	PGPT0006115_3925	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRP-DEPENDENT_PATHWAY_2,PGPT0006115-EC_3_5_1_4|amiE-K01426	NA	NA
BMS010_03922	693	livF_3	COG0410	High-affinity branched-chain amino acid transport ATP-binding protein LivF	ATGTTGCTCGATATCAAGGGTCTCTCAGGAGGCTATAAGGACATAGAGATTGTCAGTGAGGTGTCGTTCACGTTGCGCGAAGGCGAGACTCTTGCGCTGCTCGGGCGCAACGGAACAGGCAAAACGACACTCCTCAGGACGATTATGGGTCTCGCCGACCGAAGCCGCGGAACTATCTCAATTGACGGCGTTCCCTTGCCACCACGGTCGCCCGCAAGCTTGGCCAGGGCCGGAGTCACGTTCATCCCGGACACCCGCGGCGTCTTTCCACGCTTGACTGTCGGCGAGAACCTTCGCTTGGCCAGGATGAACGCATATCGGCCCTGCATGCTAGACGTCTTCTCCTACTTTCCTGACCTGGTGCGGCGGTCCGATCAGCTCGCTGGGACACTTTCTGGCGGCCTCCAGCAGCAGGTTGCGATTTCCCGCGCATTGATGACGGGTGCCCGGCTGATCATTATCGACGAACTCACGCAGGGACTGCAGCCATCAATTGTCGAGCTGCTTGTCGAGGTGCTTGTCTCGGTCTCGGCCCAGCAGGGCATAGCCCTTCTGCTCGTCGATCAAAATCCGCAACTGGCCATGAGCATCTGCAGGCGGGTCATGGTTTTGGATCATGGTCGTCTGGCGATCTCGGGCAACTCCTCAGAGCTTTCGGCAGAAAACCGGCTGACGGACCTCCTCGTCGTCTGA	MLLDIKGLSGGYKDIEIVSEVSFTLREGETLALLGRNGTGKTTLLRTIMGLADRSRGTISIDGVPLPPRSPASLARAGVTFIPDTRGVFPRLTVGENLRLARMNAYRPCMLDVFSYFPDLVRRSDQLAGTLSGGLQQQVAISRALMTGARLIIIDELTQGLQPSIVELLVEVLVSVSAQQGIALLLVDQNPQLAMSICRRVMVLDHGRLAISGNSSELSAENRLTDLLVV	PGPT0020785_9733	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020785-livF-K01996	NA	NA
BMS010_03923	1773	btuD_10		Vitamin B12 import ATP-binding protein BtuD	TTGTGCGAGCCGGTCCGGACGCACATCACTGCGATGTCCCACCCAGTCAATTGCCGGTCGTTCGAGTGTAATCGGGTAGATGAATTGGTCACCATGATGCCTAAACTAATGTCCAACGGGGGCTATGCTGCCGTGCTTGGGGCTTCGATGCTTGCCTTGGCCCCTTTTCTAATGGGCCCATTTCAGGTCGAGCTCGTGGCCTTGGCGTTGTTGTACGGTCTTTTTGCTTTCGGACTTGACGTCGCATGGGGGCGAGCAGGCATCGTATCCATCGGTCAAGCGATCTTCTTCGGTTGCGGCGCCTATGGTGTCGGGTTGGCAGCCAAGTTTGGCATCTGGACTGGTTGGGGCTTTGTCGGCGCGATTTCGGTGTCCTGCGTCATTGCAGCCGCCGTGGGAGGAGCGGGGTTGCGGCGCGCTTCCAGCCCCTCGACAATGGCCGTGCTGACGCTGGCATTGGCTTTGCTCGCCGAGAAGGCAGCCATAACCTGGGTTGGCGTGACAGGTGGTAGCAACGGTCTGTTCGTCGCCCCACCCAGTGACACAAATATGTATTATTGGAGTACGCTTGGGGTCATCGTGTCGGTGGTTCTCCTCACCAAGTCATGCATCCTCGACCGCAGGCTTGGCAACCGCCTTACCGCGATCAGGCTTAACGAGCAGCGCGCCGAACATCTGGGTATCGAGATTCATTTGACTCGCGTTATCGCCTTCGTGACCGGCGCCGCCATTGCGGCGCTTGCAGGAGCGATGGCAGCCCCTCTCATCACCACCATCACTCCCGACAGAGTCGGCATCCTGTTGTCGACGCAGGCACTCGTTTGGGTGGCACTGGGCGGCAGGGGAACCTTGGTTGGACCCTTCGCTGGCGCTCTTCTTGCGGTCTACGGCCAGGACGCCCTGGCGGGTTCCGTTGGGGACTATTACCTCCTCATCCTCGGCGTCCTTTTCGTGCTCAGCGTCCTCTTCATGCCACGCGGGATCGTCGGCTTGTTCGAAAAAGGCGAGCATGTCGCTCCGGTCAAGCCACAAGACATGGGAAGGCCCGGGTTAGTTAAGGACACGGGTACAGCCGATATTTGCCTTGAGACGCGCGATCTTGTTGTCTCTCTGGGTGGATCGACCATCATCAACAAACTCGACCTTTCTATCCGGGCTTCCGAGATCGTCTGCGTTATCGGTCCGAACGGCGCAGGTAAGAGTACCATGCTCAATGCTGTCTCCGGGCTCCTGCCATCGAGCGGCGGTTCGATCCTGTTGAAGGACAGGGACGTGACTGCAACGTCGTCGAGCACTAGAGTTCGACTCGGACTGTCGCGCACATTTCAGGTGCCAAGCTTGTTTCCGGAACTCACCGTCGGTGACCACATGATCCTTGCGCGGCAAGAGGGAGGCGCGAGCGAGGTGCAGCCGGAGCGTTACCGGAGGCTGGAGAAAACCCGTTGGGACGTGCCGGTGGGAAAGCTGTCCCTTGGCGAACGCCGTATGCTCGAAATCGCCATGGCTTTGGCAAGGCGACCAGATGTGCTTCTGCTTGATGAGCCGGCGGCCGGGCTCGCTCGCAATGAATCCGAACTGCTCGTCGACGACCTGAAAGAGCTACGACAAAAAACCGGCTGCGCGATTGTTTGCGTCGAACACGACATGGAACTCGTGCGGAAGCTTGCAGACAGGGTCATCTGTCTGCACCAGGGCCGGATACTGAAAGAGGGCACAATGGACCAGGTTGCAGCAGATCCTGAAGTTCGGCGCTCCTATCTCGGACAGAGGTGA	MCEPVRTHITAMSHPVNCRSFECNRVDELVTMMPKLMSNGGYAAVLGASMLALAPFLMGPFQVELVALALLYGLFAFGLDVAWGRAGIVSIGQAIFFGCGAYGVGLAAKFGIWTGWGFVGAISVSCVIAAAVGGAGLRRASSPSTMAVLTLALALLAEKAAITWVGVTGGSNGLFVAPPSDTNMYYWSTLGVIVSVVLLTKSCILDRRLGNRLTAIRLNEQRAEHLGIEIHLTRVIAFVTGAAIAALAGAMAAPLITTITPDRVGILLSTQALVWVALGGRGTLVGPFAGALLAVYGQDALAGSVGDYYLLILGVLFVLSVLFMPRGIVGLFEKGEHVAPVKPQDMGRPGLVKDTGTADICLETRDLVVSLGGSTIINKLDLSIRASEIVCVIGPNGAGKSTMLNAVSGLLPSSGGSILLKDRDVTATSSSTRVRLGLSRTFQVPSLFPELTVGDHMILARQEGGASEVQPERYRRLEKTRWDVPVGKLSLGERRMLEIAMALARRPDVLLLDEPAAGLARNESELLVDDLKELRQKTGCAIVCVEHDMELVRKLADRVICLHQGRILKEGTMDQVAADPEVRRSYLGQR	PGPT0020775_1354	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020775-livM-K01998	NA	NA
BMS010_03924	1242			hypothetical protein	ATGGAACTCAGCAAACTTGATATGATGGGCTCGAGAACTCTCTCTCGGCGTGGACTGTTGAAGGGAGCTCTCGGCGCCGCTGTGACGGCGGGCATTGGAGGAGCATGGACGGGACCGTCCCTCGCCAGCGGGTTCACCGCAGACCGCTCTTTCAAGATTGGCTTTATCGCCCCGCTCACTGGTCCGATTTCTCCCGAAGGTGAGGCGATGCGGCGTGGACTGGAACTCGGGCTGGCCAAGATCAATGCTTTGGGCGGTTTGGGCGGGAAGCCGGTCGAGATGGTCACCCAAGATAACCAGTCCCAGCCGTCCATGGCCAGCATGCTCGCCAAGAAGTTCATTCAGCAAGAAAAGGTAGATTTGATTGTTGGCACGGTAACCTACGATGAGACTACCGCGGTCCGAGGGATCGCCTCGATTTATGGCACACCCTTCGTTCAGTTAGAGGCGGGTAACTATGCAGCTGCCAGCAACAAGGCAGACAGCTGCGGCGGAAGCATGATTCCGCTTGGCGAAACCGTGCCGCAGATCGTCGATCCAATCATCCCGTTTATGACTAGTCGCTTCGGTAAGAAGTGGGCCTTCGTGGGCAGCGACTATCAGTTCCCGCGGGACTATACAGATTATGCGAAGGTGAAGCTCGCCGCAGCCGGTGGCATGGTCGTGGCAGAAGAATTTGCTCCATTGGGTACCGGAGACTGGTCGAGCGTCGTATCGAAGCTCAAGGCGGCCGGGCCCGACGTCGTGCTGTCCAGCGTTGTCGGCGGCGATGCGATCGCCTTCATCAAGGCTGCAGATAGCCTAGGCCTTCTAGCCAAGACAAAGATTACTGGAATTTCACTGCAGCCCGAATTTTATCCGGCACTGGGCAGTGCCGTTGATGGCCAGTTCACGGTGGCGAGATATACACCGGAAATCAACAACGAACGAAATGCCGAGTTCATCCGGGAGTATAAGAAGGCCCACGGCGATGGGCCAATACCGTCGGTCGCGTCAGCAGCGTTCGACTGCTGGAACTTTATCAGAGCGGCAGTTCAACGCGCCGGATCATTTGATGCAGATAAGGTTCTTAGCGCATTTGACGACCTCGAGGTGCAGTCGATCCTCAGCGAGGATGCACTCAAGGTTGCCCCAGCAGCTCGGGCGGTCGACTACCCCATGTATGTCTGCGAAATCCTCCCGGGGGGAACTTGGAAGATCGCTGAGAGTGCGGGCGTGCTGCCTTCAGGGCTGACCTGCTGA	MELSKLDMMGSRTLSRRGLLKGALGAAVTAGIGGAWTGPSLASGFTADRSFKIGFIAPLTGPISPEGEAMRRGLELGLAKINALGGLGGKPVEMVTQDNQSQPSMASMLAKKFIQQEKVDLIVGTVTYDETTAVRGIASIYGTPFVQLEAGNYAAASNKADSCGGSMIPLGETVPQIVDPIIPFMTSRFGKKWAFVGSDYQFPRDYTDYAKVKLAAAGGMVVAEEFAPLGTGDWSSVVSKLKAAGPDVVLSSVVGGDAIAFIKAADSLGLLAKTKITGISLQPEFYPALGSAVDGQFTVARYTPEINNERNAEFIREYKKAHGDGPIPSVASAAFDCWNFIRAAVQRAGSFDADKVLSAFDDLEVQSILSEDALKVAPAARAVDYPMYVCEILPGGTWKIAESAGVLPSGLTC				NA	NA	NA	NA	NA
BMS010_03925	876	livH_4	COG0559	High-affinity branched-chain amino acid transport system permease protein LivH	TTGCTGCAGTTGATACTGGATTTTCTTTGGGCATTCTCGGCGCTGGCGCTCATCTCCCTAAGCCTCGGGCTGATTATGGGGGAGCTAAAAATTGTCAACATCGCCCAAGGGGACATGGTAATGGTCGGCGCGTATTGCATGTACGCGATGCGCGACATGCCGTTCTTGGCGGCGCTCGGGTCGACCGTCGTCATTGGCCTCTGCCTCGGCTTTATCCTTGAACGCTTTGTGCTGCGTTGGGTCTATCACCAAGGCTTCATCGCAACGTTGCTTGCGACGTGGGGGATCGGGCTGGTCCTGCAGCAACTTGTTTCAGTCGCCTTCTCCATATCCCAGAAGGGCGTCGCCATGCCGGTCACGACGTCGGTCGAGGTTCTAGGTGTAACCTATCCGCTCTATCGTTTGCTTGCCGGAGCGGGAATGCTGACGATAGTCGGTCTTGTCATTCTTCTGGTCTACAAGACAAATATCGGACTGCGGATTCGCGCCTCCATCGACAATGTGGAAATGGCGTCGGTTCTCGGGATAGCGCCGCAACATGTTTTCACGCTCGTCTTCGCGATCGCGTCGGCCATGGCGCTGCTTGCGGGTGCTCTGGTTGCTCCAACGCTTTCGATCACCCCCACAATGGGATTGAGCTTCATCGCTCCGGCATTCTTTAGCGTCTTGATCGCACGGGAGGGGTCCATCCTCGGCCCAATCATCGGAGCCTCGATTGTTCAATTGCTGCTCATCATTCTGAGATGGCAATTCCAGGTGACGATCGCAGACGGAATCCTTTTTGCGCTGCTTGTGATCATCGTGACCGTCTGGCCGCGCGGAATAGCATGGAAATTCAAAAAAAGGGGAACATCACATGGAACTCAGCAAACTTGA	MLQLILDFLWAFSALALISLSLGLIMGELKIVNIAQGDMVMVGAYCMYAMRDMPFLAALGSTVVIGLCLGFILERFVLRWVYHQGFIATLLATWGIGLVLQQLVSVAFSISQKGVAMPVTTSVEVLGVTYPLYRLLAGAGMLTIVGLVILLVYKTNIGLRIRASIDNVEMASVLGIAPQHVFTLVFAIASAMALLAGALVAPTLSITPTMGLSFIAPAFFSVLIAREGSILGPIIGASIVQLLLIILRWQFQVTIADGILFALLVIIVTVWPRGIAWKFKKRGTSHGTQQT				NA	NA	NA	NA	NA
BMS010_03926	2709	malT_3		HTH-type transcriptional regulator MalT	ATGAGGGCGGTTCCTCACACGAGACTGGCACCGCGCGCGATCAACTTCAAAGAGATGGCGCGCCCGCGGCTAAAGCAGTTCCTGACGACGGCGTCCAGCACGCGCGTCACAATCGTCACTGCGCCCGCTGGCTACGGAAAAACCGTCACATTACGGCAATGGCGTGAAGTCCTGCTCACTCAGGGAGAACGTGTCGCCTGGATCGAGCTTGACCAGCGCGCCAATGATCCATCGTCGCTTCCTCGCTTGTTGCAACAGGCAATCCTCGGTGAAGAGCTTGCCGACCCGCGTTCTTGGCGCGCGAGCCTCGATGCGTTGATCGAGAGAATGTCGCTTCTGCCGGAAAGGCTTTGGCTTATGTTCGACAATTACAGTCTCGACAGCGGTGAAGGCGTGGATGAAGTGATTTCCCACCTCATCGATAATGGGCCGGATCACCTGCGCACCGTCATTTCCGGCCGAAGGCGTCCCCGGATACCGATTGCCAATCTACGTGTCGCAAACCAACTGCTCGAACTTTCCCATGAGCAACTGCGCTACGATCCGGAAGAATTGGCGCGATTCCTGCATACTCAACATCCGGCTGCGATAGATCTCGTTGACCATGAATTCATTACCGCCATCACGCGCGGTTGGCCGGCCGGGTTGAGAATGACCGCGACGATGCTTGGTCGCTACAAACGAACTAAGGACGCCTTGGCAGCCCTTGCACAATTGCCCGCAGAGTTTGCAGAGTTTTTTGCGGAATGCGTGGAAACTGACCTTACACCGCAACAGCTAGCTCTATTGGCCCGCACATCCATGCTCGATGAACTGAGCTTACCTGTGTGTAAGACCGTGGCCGGCGCTGCAGGCATCGAAGATCTCTTTCGCCGGCTGCGGTCTGGTGAACTATTCGCGAATTGCATCGATGAAGGCGGCACGCGGTTCATGCTTCATCCACAGTTTCGCCAGTACTTGCAGACCTATTTGGACGAAAGGCTAAACGAAGACGGAAAGCTGCGGAATGCCCACGCGAGCGCGTGGTTCGCGCAAAACGGTAACTGGCAACTCGCCGTACAGCATGCCTTCTCAGCCGGAAATACACTTCAGGCGCTGGAATGGGCTCGACGATGCGCGCTCGAAGAAGTCGCGAAAGGCAATCTTTCCATGGTGCTCGGCTGGCTGGGGCAGATTTCTGTGGGCCAACTGATGGGAGATGGCGCGTTGCTGGCAGCCGCGGGCACGGCTTATGCTCTCAGCTTGAGACTGGACGACGCGAGGTCGATCGCAGGCATGATCGAAAGTCTGCTTGCGGCGTCACCGTCCGATCCCGCTATCGACGAGCTATCCGACTATCGGAAAAGCCTGTTGATCTTCATCGCTTATATGTCGGATGACGGCACCACGTTACTGGCTCTCGCTGATGAATTTCGTAATTCCGTTTCACAGGCTTGGTCTGTTCTTGTGGTGGGCAATGCCACAATTCATGGGCACTTGATGGGCGGCAACATCGCTCTCGCCCGCGATTCTCTGCAGCCATTGCCCAGCGAAGCTGACCAACCGGCGCTGTCCTTCTCAGTCGTTTGCAGAACCTGCCTGCTGGCTCTGTGCGACTTGGCCGAGAACAGGCTCGACGAGGCAGAACCACGGCTCCGGCAGGCGCTTGACCTGGCGCAAAGGGTCACTGGGAGCGATACCGCGCCTGCTGTACTGGCAGCCAGCCTGCTGGCCTTCGTGCGCTACCAGCGCAACGATCTATTCGAAGCGGAGTCGCTGCTTTCAGGTCACCTCGATCTCATTGAGCAAACATGCTTTGTTGAAGGTCTGATCGCCTGCTATCTGACCTTGGTGCGCATCATGGTCTCGCGCGGCGACTGGAAATCGGCATCTCAACTTCTTGAACGCGGGGACGCGGTAGGTCGAAAGCGAGACTGGCTGCGCCTTAGAACCGTTTGCATCGCTGAACAGATAAGGCTCAATTTACTCCAATCTCGACTAGCACAAGCCCGTACTCTCATGACGGGTTTCCGAGGTATGGTTCAGGCCCGGCCACCGACGGACAGGTCGCCGACATCTTACGGCTGGCGACTGCTAAGAATGTGCGAGGCTCGGCTCCTCATCGCTGAGAACAAGCCTCATCAGGCAGCTGAAATTTTCGAGCTTCAGATGCATAGCTTCGCTTGGGACAAGCCAGCCGAGTTGGAAGCGGGGATCGAGTACGCCGTTTCGTTACTAGCGATAGGCAGACGCGGCGTGGCAATGGAATTGATGACCAGCCTTCTTGCGCAAAGCGAGATTGGAGATGTCATCCGCCCGTTCGTTGACTGCGGTGCAGGGGCAATCACACTGACCCAGTCAGTAATCGCCTTCTTGCAGAACCATAACAGCAAGCGAGTTTCGACGGATTATCTCCACAGGCTGGCAGCTGCTCTGGCAACGGTTCAGGTCGACCGCCAACATGGATACAACGAACCGTTCGGGACATCATCCTTGACACTGCGGGAACGCGAGGTGGTTAGTCGTGTGCAGCACGGTATGACCAACAAGGAAATCGCATCGGATCTCAAAATTGGCCTCGAAACCGTGAAGTGGCATCTAAAGACGGTCTTCAAGAAATTGAAGGTCAGGAATCGGACCGAAGTTGTCTCGGTAAGTCAGGCGGCGCTCGGTCATCCTGGACCTCGGGACGACGCTGGTCGCCCCGAGACCGAGGATGTTTTTCATTAA	MRAVPHTRLAPRAINFKEMARPRLKQFLTTASSTRVTIVTAPAGYGKTVTLRQWREVLLTQGERVAWIELDQRANDPSSLPRLLQQAILGEELADPRSWRASLDALIERMSLLPERLWLMFDNYSLDSGEGVDEVISHLIDNGPDHLRTVISGRRRPRIPIANLRVANQLLELSHEQLRYDPEELARFLHTQHPAAIDLVDHEFITAITRGWPAGLRMTATMLGRYKRTKDALAALAQLPAEFAEFFAECVETDLTPQQLALLARTSMLDELSLPVCKTVAGAAGIEDLFRRLRSGELFANCIDEGGTRFMLHPQFRQYLQTYLDERLNEDGKLRNAHASAWFAQNGNWQLAVQHAFSAGNTLQALEWARRCALEEVAKGNLSMVLGWLGQISVGQLMGDGALLAAAGTAYALSLRLDDARSIAGMIESLLAASPSDPAIDELSDYRKSLLIFIAYMSDDGTTLLALADEFRNSVSQAWSVLVVGNATIHGHLMGGNIALARDSLQPLPSEADQPALSFSVVCRTCLLALCDLAENRLDEAEPRLRQALDLAQRVTGSDTAPAVLAASLLAFVRYQRNDLFEAESLLSGHLDLIEQTCFVEGLIACYLTLVRIMVSRGDWKSASQLLERGDAVGRKRDWLRLRTVCIAEQIRLNLLQSRLAQARTLMTGFRGMVQARPPTDRSPTSYGWRLLRMCEARLLIAENKPHQAAEIFELQMHSFAWDKPAELEAGIEYAVSLLAIGRRGVAMELMTSLLAQSEIGDVIRPFVDCGAGAITLTQSVIAFLQNHNSKRVSTDYLHRLAAALATVQVDRQHGYNEPFGTSSLTLREREVVSRVQHGMTNKEIASDLKIGLETVKWHLKTVFKKLKVRNRTEVVSVSQAALGHPGPRDDAGRPETEDVFH				NA	NA	NA	NA	NA
BMS010_03927	1167	dgoD_2	COG4948	D-galactonate dehydratase	ATGCGTGTAACTAATATCCGGGCGTACCGGATCCCGACCGGCGGTGTGCGCCCGGTGCTTGTCGAAGTCGTAACGGATGAGGGAGTTTCCGGTTGGGGCGAAGCTGCCGTGGCATACGGCCTCGGTGCTCGCGGTGCAGCCGGCATGGTCGCCGACTATGCCGCGCGCGTTATCGGTGCGGACCCGAACTATCCCCGCCATGTCTATCACGCGATCTACGACAACTCTTTCTGGACCAAGGGCGGCGGCGCGATCGCCTTCGCTGCGGTAAGCGCGATCGACCAGGCGCTTTGGGATATCAAGGGCAAGGCTGCAGGCGTCCCAGTCTATGATTTCTTCGGAGGCCGCTTCCAGGACACCGCACCGGTCTATGCGAACGGCTGGAACTACCATTGCAATGACGCCACCGAGTGGGCCAAGGCCGCCGAGCGCCCGCTCAAGGATGGCTACAAGATGCTCAAGAGCTATCCTCTTGCAACGCAACAGCCGGGCCGTACGCTGACCCACGTCCAGCGCCGCTCGCTTTCCGCCGACGAGTTCAAGCGCGCTATCGATCGTATTCGCCTTCTCAAGGATGTCGTCGGTGATCAGGCCGAACTGCTCATCGATCTTTCAGGTGGCGTCAATAACGATCAACTGGTTCGAATCCTCGACGTCTGCGAAGAGCTCAAGGTCTCCTGGGTCGAGGAGCCCCTTGATGCATTCAACCTCGCGGGCCTCAAAAACTTGGCCGCTCGATACAAGTTCCCGATCGCGGCCGGCGAACGCGTCTATACCCGCAACGGTTTCAAGAACCTCTTGGATTCCGGCGCTATCGACGTTGTCATGCCGGACGTTGGCAATTGCGGGGGCGTGTTCGAACTGGTCCAGATCGCAGCGATGGCAGAGGCATACAACGCACGAATGTCTCCTCATAACTGCGCGTCGTCTCTCTGCACGGCCGCTACGCTTCAGGTCTGGGCCGCTTGCGCCAATGCAATGGACCTCGAAATCTATCCTTACCTGCCGGAGTCCCAGGGCTACGTTCAGGTTCTGAAGAATGCTCCCGAAGACCGCATCAAAAACGGCTTATTGGAAGTCGGATCCGATCCGGGCCTCGGCGCGGACGTCGATACCGAACGCCTCAAGCCATATTGCTGCTACGACTACCTCGAAGAAGCCGCTTAA	MRVTNIRAYRIPTGGVRPVLVEVVTDEGVSGWGEAAVAYGLGARGAAGMVADYAARVIGADPNYPRHVYHAIYDNSFWTKGGGAIAFAAVSAIDQALWDIKGKAAGVPVYDFFGGRFQDTAPVYANGWNYHCNDATEWAKAAERPLKDGYKMLKSYPLATQQPGRTLTHVQRRSLSADEFKRAIDRIRLLKDVVGDQAELLIDLSGGVNNDQLVRILDVCEELKVSWVEEPLDAFNLAGLKNLAARYKFPIAAGERVYTRNGFKNLLDSGAIDVVMPDVGNCGGVFELVQIAAMAEAYNARMSPHNCASSLCTAATLQVWAACANAMDLEIYPYLPESQGYVQVLKNAPEDRIKNGLLEVGSDPGLGADVDTERLKPYCCYDYLEEAA	PGPT0002220_703	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTONATE_DEGRADATION,PGPT0002220-dgoD-K01684	NA	NA
BMS010_03928	915			hypothetical protein	ATGAAATATCACCAGATCGAGGCATTCTACCAAGTGATGTTGACTGGCAGCATCTCGAAGGCCGCGAAGAATCTCGGTCGCACTCAACCTGCCGTGAGTATGACGATAGCGACACTTGAAGAGCAACTGACAACCACGCTGTTTGACCGACACGCAGGACGAATATCACCGCGCGCCGAGGCAGAGGTGCTTTTCCAGCAGGTGAGCCCGGTGATGGCTCAATTGAACGATATACGTCACCATTTCGGCCGCCTTACCTCTATCGAGGTACCAAGGATATCGATCATATCCTCCGGGAACGCGGGAACCCACCTTGTTCCAACCGCAGTTTCCAAGATTGCGGCTGGGGGACAGCAGTTTCGTCTCATGATCGGGACCTCTGCCTCCATCGTATCGGAGATGGAAAACCAACTTCACGACATCGCGTTGACCGATGAGGGGGCGTTCGAAGTGTTGACGAATTCACCGCTGTTCGAGGTCGAGGTCTTCAACATTCCCGTTTACGCCGTCTCGCCACGCGGTCTGATCTCGACGCAAGGCGATAGCCTGCTGACTGAGGAGATCAAAGGCTACAACGTCTGTACGCTTTACGAGGAGAATCGATCCAGTCGACAGATTCGGTCGAAAATCGCGCCCCCCAAGGTGGAATTTTCCAACTTCTTCCCGATGGCATGTTTTGCCATTTCGAACGGCGGCGTTGCGGTGGTCGACAATATCACGTGCGGCGCTATGAGAGCACTCACCAGCGGGAGCCTGGATGTCGTATACCACCGGATATCCGACGCATCTCCGTCCCACTACTATCTGATCCGTCCGAAATATCGACCGAGGTCGAAAGTGGCGGACAAATGCTACGGCAGCCTCAAGACGGCCTTGCTGTCGTACGAGGACATCTCCCGACCCGACCGGACCTAA	MKYHQIEAFYQVMLTGSISKAAKNLGRTQPAVSMTIATLEEQLTTTLFDRHAGRISPRAEAEVLFQQVSPVMAQLNDIRHHFGRLTSIEVPRISIISSGNAGTHLVPTAVSKIAAGGQQFRLMIGTSASIVSEMENQLHDIALTDEGAFEVLTNSPLFEVEVFNIPVYAVSPRGLISTQGDSLLTEEIKGYNVCTLYEENRSSRQIRSKIAPPKVEFSNFFPMACFAISNGGVAVVDNITCGAMRALTSGSLDVVYHRISDASPSHYYLIRPKYRPRSKVADKCYGSLKTALLSYEDISRPDRT				NA	NA	NA	NA	NA
BMS010_03929	501			hypothetical protein	ATGCTTGCACTTGAAGAAACGGACTTTCTGGTTCCCGAAGAATGCGCCCATCACCATGGATACGCAACCACCCTCGCAGAACAGGTGGAAGTTCGCGGTGTGGTCGTTCATGGCGCTAAGCTCGGACGTGCAATCGGCTTCCCGACGGCGAACATGAAGCTGGGCGGATGCTGTAGGCTCGCGCCGGGGATTTATGCGGTGCGATTTCGGGATGGCTTTGGAACCGTTCGCAATGGTGTCGCCAGCTTTGGGCGTCGACCAACAGTCGTCGACGACGGCGAGTTGCTATTGGAGACCTATGTCCTCGATTACGCCGGCGATCTTTACGGCCAGACATGTCAGGTGACATTCATCAAGTATCTGCGTCCCGAGACAAAGTTCGACGGTCTTGAGGCAATGGTCCAGCAGATCGATCTGGACGTGGTGATGGCCAGGGAGGTTCTGCGGAAAAGAAAAATCTCGCTGGGGGATGAGATTACGGCACGGGGCCGCAAAAAATGA	MLALEETDFLVPEECAHHHGYATTLAEQVEVRGVVVHGAKLGRAIGFPTANMKLGGCCRLAPGIYAVRFRDGFGTVRNGVASFGRRPTVVDDGELLLETYVLDYAGDLYGQTCQVTFIKYLRPETKFDGLEAMVQQIDLDVVMAREVLRKRKISLGDEITARGRKK	PGPT0008625_805	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008625-ribF-K11753	NA	NA
BMS010_03930	426			hypothetical protein	ATGACCGATTCCTATCTCGAAGCAGTTGTCCTATCGCACGCAGGTGCGTTGGACGCTTTGGCTGCGGCGGTTTCGAAAGCCGCGGAAATCTCGGTTCCGCAGTGCATTTGTATCGTTGACGCCAGCGGCGAGACGATCGCCAGTCTCCGTATGGACGGAGCAAAATACCTAAGCATGCAGACAGCTAGGGCTAAGGCCCGCACATCTGCGTCCATCCGCAATAAAACAGGCGGCATGACACCCGAATTCAGCATTGCCGCCGGAATTGCGACTGGCGGCGGCGTCACAAATCTGCCCGGCGGTCTGCCGATCAAGTTCAGCGGCAAGTTGGCGGGTGCAATAGGAGTGGGCTCCGGCACTGGAGATCAGGACATCGAAGTCGGCAGGGCTGCTCTTGCGGCTATAGGGGCCGACCCCGTCGAATGA	MTDSYLEAVVLSHAGALDALAAAVSKAAEISVPQCICIVDASGETIASLRMDGAKYLSMQTARAKARTSASIRNKTGGMTPEFSIAAGIATGGGVTNLPGGLPIKFSGKLAGAIGVGSGTGDQDIEVGRAALAAIGADPVE				NA	NA	NA	NA	NA
BMS010_03931	981	ghrB		Glyoxylate/hydroxypyruvate reductase B	ATGCGTGATTTTTCCGTATATGTGGAAAACGCCGTGCCGCCCGGGTCTCCGTACTTCATCTCGGAACCCGCTGTTCTCAAGGCTTTAGGAGCGGTAGCGGGATTTGCAGAAGTGCGATCATTCAACGCTCACTTTCCCGACTACCAGGCGCTAGAAGCCGCAGACTATTTCGTCGGCTCCGGATTCGATACCGCGCGCCTCAAAGTCCACGGCAAGCGCCTGCGTGTGGTTCATTGCACAAGTGCTGGCGTCGAGAAGTATATGCCGCTCGACTGGCTTCCGAACGGAGCGGTCCTGACAAACAGCAGCGGCGTACACGCGAAGAAGGGCGGCGCTTTCGGCTTAATGACCGTTCTCATGTTGTGCGAGGGCGTGCCGCGACACATTCAAAACCAGCGGCTCCATCGCTGGGACAATCGCCTCGCGACGGGGATCGATACGAAGACTATAGTCTTCGTAGGTTTTGGAGCGCTCGGCACCGCCGTTGCGGACCGTTTGCGCCCGTTCGGCCCGCGGATTGTAGCAGTCACCCGTTCAGGCAAGACCAGTCCATCGGCCGATGAGGTATTCACCGTCGCAGATCTTGACCAGGCGCTTACCCTGGCCGACTGCCTTGTCGTCAGCTGCCCTCTCACTGCCTCGACCAAGGGGCTCATCGGTGAAAAGCAGCTGGCCCTGATGAAACCAGGCGCGTCTTTGTTCAACATCGCGCGAGGTCCTGTCGTCGATACGGGGCCCCTCATCAGGGCGCTCGTCGATGGCCGTCTGAGCGGTGCTGCGCTGGACGTCTTCGACGAGGAACCCCTGTCGGCCGACAGTCAGCTGTGGGATGTACCCAACCTGATCATCTTCCCGCATATTTCCTGTGACGACGCCGACGGATACGTCGACCGTTGCCTTTCGATCTTCGCTGACAACATTGGCAGGGACCTGCGTGGCGAACCCTTACGGAATCGGGTCGATGCGACCGCAGGATACTAA	MRDFSVYVENAVPPGSPYFISEPAVLKALGAVAGFAEVRSFNAHFPDYQALEAADYFVGSGFDTARLKVHGKRLRVVHCTSAGVEKYMPLDWLPNGAVLTNSSGVHAKKGGAFGLMTVLMLCEGVPRHIQNQRLHRWDNRLATGIDTKTIVFVGFGALGTAVADRLRPFGPRIVAVTRSGKTSPSADEVFTVADLDQALTLADCLVVSCPLTASTKGLIGEKQLALMKPGASLFNIARGPVVDTGPLIRALVDGRLSGAALDVFDEEPLSADSQLWDVPNLIIFPHISCDDADGYVDRCLSIFADNIGRDLRGEPLRNRVDATAGY	PGPT0019465_62	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-METHYLGLYOXAL_DETOXIFICATION,PGPT0019465-ghrA-K12972	NA	NA
BMS010_03933	1293	dadA1_3	COG0665	D-amino acid dehydrogenase 1	ATGGGGCTGGCGAAGCCCCGGCACCAACTGTTGGAGACAAAAGTGCCCCATATCGCTGTATTAGGCGCCGGTATTACCGGCGTGACAACTGCTTACGCGCTTTCACGCCGCGGTTTCGACGTTACCGTTATCGACCGCCATCGTTATCCCGCGATGGAGACGTCGTTTGCCAATGGCGGACAGCTTTCTGCAAGCAATGCTGAGGTCTGGAATCATTGGTCTACGGTCTTGAAAGGCATCAAATGGATGCTCAAAAGCGACGCGCCGCTTCTCATGAACCCCACCCCGAGCTGGCACAAATATTCCTGGATGGGGGAATTTATAAGCGGCATAGGCGGATATCGCACCAATACTATCGAGACGACGCGGCTCGCGATCGCTGCGCGTCGGCACATGTTCGAAATAGCCGATCGCGAGAAGATCGAGTTCGACCTCGAAAAGCGGGGCATCCTCCATGTCTACTATGACAAACCGAGCTTTGATTATGCCGGCAAGGTGAACGCGATGCTGACCGAGGGCGGCCTGGACCGGAGATACGTAACGCAGGAGGAAATCAAGGCGATCGAACCCGCGTTGGTCGGTAATTTCTACGGCGGCTTCTTTACGCCGTCGGATTCCACAGGAGACATCCACAAATTCACGCGCGGCCTTGCCGAGGCATGTATGAAACGCGGCGTGAATTTCCTTTTCGACACGGAAATCCAACGGGTAGAATCCGGAGAAAGCACGACTGTTTACTTGAAGCCTGCCGAAAACCCTGGAAGCTCAAGCAACGTCCTGACGGCTGACGGCGTGGTTGTATGTGCTGGCGTCGGCAGCAGGAAAATCGCTGGGATGCTCGGCGATCGAATAAATGTCTACCCGGTCAAAGGCTACTCGATCACGGTTCATCTCGATGACGAGCGGAGCCAGAACGGCGCTCCCTGGGTCAGCCTACTCGACGACCGGGCAAAGATCGTCACGAGCCGTCTTGGAAACGACCGGTTCCGGGTCGCCGGCACGGCGGAGTTCAACGGTATCAATCGCGATATTAGACATGATCGCATCAAACCCTTGGTAGATTGGGTGCGCACGCTCTTTCCAGAGGCCTCGACATCCCGCGTCGTGCCTTGGGCGGGCCTTCGCCCCATGATGCCGAACATGATGCCACGGATAAAAAAGGGCTCTCGTCCCAACGTTTTCTACAACACCGGACACGGTCATCTTGGTTGGACGCTGTCAGCGGCGACGGCGGAACTCGTCGCGGAATTGGTTCAGCAGACGCCGACCTCCAGCGGTCGCAGGACAGCTTAA	MGLAKPRHQLLETKVPHIAVLGAGITGVTTAYALSRRGFDVTVIDRHRYPAMETSFANGGQLSASNAEVWNHWSTVLKGIKWMLKSDAPLLMNPTPSWHKYSWMGEFISGIGGYRTNTIETTRLAIAARRHMFEIADREKIEFDLEKRGILHVYYDKPSFDYAGKVNAMLTEGGLDRRYVTQEEIKAIEPALVGNFYGGFFTPSDSTGDIHKFTRGLAEACMKRGVNFLFDTEIQRVESGESTTVYLKPAENPGSSSNVLTADGVVVCAGVGSRKIAGMLGDRINVYPVKGYSITVHLDDERSQNGAPWVSLLDDRAKIVTSRLGNDRFRVAGTAEFNGINRDIRHDRIKPLVDWVRTLFPEASTSRVVPWAGLRPMMPNMMPRIKKGSRPNVFYNTGHGHLGWTLSAATAELVAELVQQTPTSSGRRTA	PGPT0020315_3219	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_D-AMINO_ACID_DEGRADATION,PGPT0020315-dadA-K00285	NA	NA
BMS010_03934	1107			3,6-diketocamphane 1,6-monooxygenase	ATGGACCTCGGTCTATTTATGATGCCCCTGCACGATCAGCGGCGCAACTTCACTGAACTCCTGAAACAGGATCGTGAAGCAGTGATCCTCGCCGACCGTCTCGGCTTCTCGGAAGTTTGGGTTGGCGAGCACATTAGCTGCTCCTGCGAACCGATTGCCGACCCGCTTCAATTTTTCGGTACGCTGATCCATGCGACGAAGCAGATCAAGTTCGCCACGGGGGTCCTGAACCTACCGCAACACCATCCGGCACGTCTCGCCGGCCAGATCGCACAATTCGACCATCTCTCGGAAGGCCGTTTCATCATGGGCGTTGGCCCGGGCGGTCTCGTGACCGATATGGAACTGTTCGGCACGCAGGAAAAGAACCGCGCCGAAATGACCACCGAATCCATCAAGATCATGCACCAGATCTGGTCGCAGAACCCGCCCTACAACATCAAGGGCAAATACTGGGACGTGGTTATCGAGAATACGCTCATTCCTAGCCTTGGTTTCGGTCCGATGCTTAAGCCGTATCAGCAGCCGTTCCCAGAACTGGCGATCTCGGTGATGAGCCCATCTTCAAGCAGCGCGCGCCAGGCGGGCGAAAACGGCTGGAGCATCGTCTCTGCCAACTTTACCCCGGTAGCCAACGTCAAAACCCATTGGGAACAGTACGTCGTGGGCTGCGAAAAGGCCGGCCGTCGCCCTGACCGCAACAAGTGGCGTATCGCACGTTCGCTGCTCGTGACCGACAGCGATCAGGAAGCGGCCGACTACCTCGCCGAGGACGGCTCTTCCTATCGTTGGTACTATGAGTACATCGTGGAAGACATGGCCGCGTTCAAGCTCCTCGGCGTGCTCAAGCCTTCGATGAACACGCTGGACAGCGACATCACGGTGCAGAACTGCCTCGACTGGATGGTGCTCTCGGGCTCTCCGAAAACAGTTCTCGACAAGCTCGTTGCCTTCGTCGACGAAGTTGGCGGTCCGTTTGGCTCTCTCATGATGACTCAGAAGGACTGGGACCGCCCCGCCATCCATAAGCGCTCCATGGAACTCCTCTCGACCGACGTCATGCCAAAGCTGCGTCAACACGTGGGCACGCTCGCTGCAGCCGAGTAA	MDLGLFMMPLHDQRRNFTELLKQDREAVILADRLGFSEVWVGEHISCSCEPIADPLQFFGTLIHATKQIKFATGVLNLPQHHPARLAGQIAQFDHLSEGRFIMGVGPGGLVTDMELFGTQEKNRAEMTTESIKIMHQIWSQNPPYNIKGKYWDVVIENTLIPSLGFGPMLKPYQQPFPELAISVMSPSSSSARQAGENGWSIVSANFTPVANVKTHWEQYVVGCEKAGRRPDRNKWRIARSLLVTDSDQEAADYLAEDGSSYRWYYEYIVEDMAAFKLLGVLKPSMNTLDSDITVQNCLDWMVLSGSPKTVLDKLVAFVDEVGGPFGSLMMTQKDWDRPAIHKRSMELLSTDVMPKLRQHVGTLAAAE				NA	NA	NA	NA	NA
BMS010_03935	1176			hypothetical protein	ATGAAGCATGAAGACCACAACAAGAAAGAAATCACGTCCGCGCGAACCGCAGATCTTTTTAACGAGGTAATGCTCGCCCGCCGCAGCTTCATGCTGGGTACGGCTGCCGTTGCAGCCGGTGCAACGCTTGGAGCCTGGGTACCCCAGGCACGTGCCGCCGTCGGTGGCAACCTCGAAGTGATGGCCTGGGAAGGCTATACGCTCGAGACCGAGACCGCGGAATGGCGCAAGGCTAACAACATCACCATGCGCGCTGCCATCATGAGCAACCAGGATGACGTCACCGCAAAGATCGTCGGAAGCAACGCCGTTCGCCTCGACCTTGCCGAGTACTCCAACGGCTACAACGCGATCTACAATGAGCTAGGTGTCCTTACGGAGCTGGATGTCTCCAAGATCCCCAACTACAATAAGGACGACATCTACGCCCCGTTCTACGAGGGCGACATGTGGTACTGGGATGGTAAGAACTGGGCTATGCCTTGGGTCTGGGGTCTGGACACGATCGTCGTTAATCCGGAACTGACCGGCTTCGAAGTGAAAAGCTACGAGGACCTCCTCCGTCCCGAACTCACCGGGAAACTTGCGTTTCTCGACAATCCGCTCACCGTTTGGCCTCAGATCGCGAAGGTCACCGGCTACGGAGAAAAGTTCCCGAACTTGACGAAGGACGAGCTTGCCGATTGCTTCGAAAAGCTAAAGCCCTACCGCGATCAGACGAAGGTTTTCGCCTCGTCGAACGGCGACGTCATCTCGCTTTTCGCCTCGGGCGAAATCGCCGCATGCTTCTGTGTCTGGAGCGCCGTTCCGCTCGAAACGGCCAAACAGAACGTCAAGACGGTTGCGGTCTACCCGAAGGAGGGCGCAGCCGTTTGGGCGGACGCTTGGTTTATTCCCAAGACCGCCGAGAACATCGAGACGGCCCACGCCTTCATCAATGAGGCACTCGCGCCGGAAATCCAGGCATCCATTTCGAAGACTGCCGTCGCAGCAGCTGTTTCCAAAAAGGCGCCCGCCTTGATGGACGCGGGTACGAAAGCTCTTTTCGACTACGACAACTTCGACCAACAGTTCAAGGCGATGAAGGTGTACGGTCAACCGCCGCGGACCTCTACAGAGTTCGCGACATACGACGACTGGCTGCAGGTCTGGGCCGACTTCCGCGCGGGCTTTTGA	MKHEDHNKKEITSARTADLFNEVMLARRSFMLGTAAVAAGATLGAWVPQARAAVGGNLEVMAWEGYTLETETAEWRKANNITMRAAIMSNQDDVTAKIVGSNAVRLDLAEYSNGYNAIYNELGVLTELDVSKIPNYNKDDIYAPFYEGDMWYWDGKNWAMPWVWGLDTIVVNPELTGFEVKSYEDLLRPELTGKLAFLDNPLTVWPQIAKVTGYGEKFPNLTKDELADCFEKLKPYRDQTKVFASSNGDVISLFASGEIAACFCVWSAVPLETAKQNVKTVAVYPKEGAAVWADAWFIPKTAENIETAHAFINEALAPEIQASISKTAVAAAVSKKAPALMDAGTKALFDYDNFDQQFKAMKVYGQPPRTSTEFATYDDWLQVWADFRAGF	PGPT0007825_1374	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007825-potD-K11069	NA	NA
BMS010_03936	918	potB_3	COG1176	Spermidine/putrescine transport system permease protein PotB	ATGGCGACTGCCGCTGACTACGTCGAGAAGAACAATGCGGTCACCCCGCGATCGTCCGGGTTCAGCCTCGCGCCGGGTTTCGCACTCGCAGGTCTGCCGTTCGGATTTCTGCTCGTTTTCTTCATCTTACCGGTGGTCCTCCTATTCGTGACGAGCTTTTTTACGGCGCGTTCCTTTGTGATCGAACCCGTTTGGAATCTCGACAACTATGCCAGGATTTTGTCTGCGGCTGGCTTCTGGCAAGCGACTTGGGTCGGAATGAAGAACGGCTTCTTCACCGCGACTTTCTCCGTGATCCTCAGCTTTCCGGTGGCTTACTTCCTTGTCTACAGGACCAGAAGCAACGTCATCATGTATCTGGTGCTGCTGTCCTGGTTTTCCAGCTATCTGGTCCGCGTCTATGCTTGGCGGACGATCCTCGGCACAAACGGCGTGATCAACTCGCTGCTCATGGGTAGCGGGATAATTTCGCAGCCCCTCGAGGTCATCCTCTTCAGCCCGTTTGCGTCGGTCCTGACGTTGATCCACATCATGCTGCCGTTCTCGCTCCTCATACTCGTCGCGTCCCTACGCGACGTCAAACAGGACTACTTGGATGCTGCTCGCGATCTCGGGGCGACCAAGGTTGGGGTGTTCGTGAAGGTCATCATGCCTATGGCTTATAAAGGGATCGTCGGCTCGTTCATGTTTACGTTTATCCTTGCCGCTGGCGACTACATCACTCCGCAGCTACTTGGCGGCAGAGACGGTGTAACCAGCGGTCTCCTCATTGCCAATCAGTTCCGCAGCGCCGGAAACTGGCCGCTGGGATCAGCCATGGCCTTCACGCTCTTGGCAACCTTCATCGGCGTCTACATCGTGTTCACGACGACGCTGAAGATTCTAAAGCTCGCGCCTGGCCGGCGCTATCACGGGTGA	MATAADYVEKNNAVTPRSSGFSLAPGFALAGLPFGFLLVFFILPVVLLFVTSFFTARSFVIEPVWNLDNYARILSAAGFWQATWVGMKNGFFTATFSVILSFPVAYFLVYRTRSNVIMYLVLLSWFSSYLVRVYAWRTILGTNGVINSLLMGSGIISQPLEVILFSPFASVLTLIHIMLPFSLLILVASLRDVKQDYLDAARDLGATKVGVFVKVIMPMAYKGIVGSFMFTFILAAGDYITPQLLGGRDGVTSGLLIANQFRSAGNWPLGSAMAFTLLATFIGVYIVFTTTLKILKLAPGRRYHG	PGPT0007835_763	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007835-potB-K11071	NA	NA
BMS010_03937	789	ydcV_3		Inner membrane ABC transporter permease protein YdcV	ATGCTACGGGCCTATCTCTCTGCTTACCTATTCTTCCTGTTCGCCCCCATCGCGATCATCATCCTGTTTAGCTTTCACGCGAGTCCCGCCCTGACATTCCCCCTGCAGGGGCTCAGTCTGCGGTGGTACGAACTACTCGTTTCGAAGCCTGACTTCGTGGCATCGCTTCTCAACAGTCTAAAGGTGGGGTTCTTTACCGCCGTCGTAACCACAATACTAGGAACGCTGGCGGCGTTGGCGCTCATTCGGATGAGGCGTAACTACAGATCCGCGTTCGAGTGGCTGAATTTCGCGCCGATCGGTCTACCGGGACTCTTTATTGGTATCGCGCTCGTAACGTTGTTTGCTCAGATCGGGCTCGCGCGGTCGCTCATCACGGTCACGATCGCTCACGTCCTCTGCACACTACCGTTCTTCGTGGAGACGATGCGCTCGCGCATCAACTATTTCGACCAGTCGCTGGAAGAAGCTGCCCGAGATCTCGGAGCCTCGCAGTTCCAGACCTTCCGCATGGTGACCATTCCAATCCTCGCGCCTACCATCGCCGGGGCCGCCATCCTCTCGTTCGCGCTTTCGTTCGACGAGTTCATTGTTACAGTATTCGTGAGCGGCAATGACACGACGCTTCCGCTTTACATCTGGTCGATGATGCGGCGCACCGTCGATCCCTCGATCAATGCTGCCAGCGTTATCGCGTTGGCACTTTCAATTGCCGTTCTGGCAGCGGGCGGTTTCACTCTCTGGCTTCAAAGAAAACGAGCTGTCGCCGCGCGCGACACGAATGAATAA	MLRAYLSAYLFFLFAPIAIIILFSFHASPALTFPLQGLSLRWYELLVSKPDFVASLLNSLKVGFFTAVVTTILGTLAALALIRMRRNYRSAFEWLNFAPIGLPGLFIGIALVTLFAQIGLARSLITVTIAHVLCTLPFFVETMRSRINYFDQSLEEAARDLGASQFQTFRMVTIPILAPTIAGAAILSFALSFDEFIVTVFVSGNDTTLPLYIWSMMRRTVDPSINAASVIALALSIAVLAAGGFTLWLQRKRAVAARDTNE	PGPT0007830_1732	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007830-potC-K11070	NA	NA
BMS010_03938	1080	potA_4	COG3842	Spermidine/putrescine import ATP-binding protein PotA	ATGTCTCAGAACATTGTCGAGCTGAACAATATCACCAAATCCTTTGGCATCTTCACAGCTTTAGAAAACATAAACCTGACCGTGAAAAAAGGGGAAATCCTCACCTTGCTTGGGCCGAGCGGCTGCGGCAAGTCGACCCTCATGAGGATCGTTGCGGGTTTCGAGGACGCGACATCTGGCGACGTTGTGATTTCCGGACGAGATGTAACGCGTGTGCCGCCCGAGAAACGGCCAGTCAACATGGTTTTCCAGCGCTACGCGCTTTTCCCCCACCTTGATGTCTTCGACAACGTCGCTTTTGGCCTTCGCCTGAAAGGCGTTCCCAAGTCGCAGGTGAACGACGAGGTGACGGACATGTTGAAGCTGGTGCAGCTCGAGGAGTTCTCCAGCAGGTGGATCAGCGAGATAAGCGGCGGTCAAGCCCAGCGCGTGGCGTTGGCGCGTGCGCTGGTGAACAAGCCCTCGGTCCTCTTGCTTGATGAACCTCTTGCGGCGCTCGACCTCAAGATTCGTCATCACATGCTCGACGAACTCAAGCGTATTCACACCGAAACCGGGACTACGTTCATCTACGTCACCCACGACCAGGATGAGGCCATGATCCTGTCGGACCGGGTGGTGCTCATGAACAAGGGTACCATCGAGCAAATCGGAACGCCGGACGAGATGTATGGTGCGCCCAAGACGTTGTTCTGCGCGAAGTTCTTCGGGGACACCAATCTTCTCGACGGGAAGGTCAAGTCGTCGGACGCGTCCGGCGCACTGGTCGAACTGCCAATCGGGGCCGCGCAGGTTGCAGCGAGCAGCCTGCGCGCGGGCACACCCGTGCACGTCTCTATCCGACCGGAGGCGATCAGCATCGCCGCATTCGACGGGCATTCCGAGACGGTGAACCGGGTGGAAGGTAATGTGGAAGATGTCGTCTTCATCGGGAGCCGGGTTGTATACAAGGTCCGTCACGAGACGGGGACACTACTGAAATGTCAGGAGCATCGCGCGGCAGCCGGAATTCGTTTCAGCGTCGGTAGCCCCGTGTCCTTGCGGTGGGACCCGGCGTCGGTCGTCGTTCTCGCTAGCTAA	MSQNIVELNNITKSFGIFTALENINLTVKKGEILTLLGPSGCGKSTLMRIVAGFEDATSGDVVISGRDVTRVPPEKRPVNMVFQRYALFPHLDVFDNVAFGLRLKGVPKSQVNDEVTDMLKLVQLEEFSSRWISEISGGQAQRVALARALVNKPSVLLLDEPLAALDLKIRHHMLDELKRIHTETGTTFIYVTHDQDEAMILSDRVVLMNKGTIEQIGTPDEMYGAPKTLFCAKFFGDTNLLDGKVKSSDASGALVELPIGAAQVAASSLRAGTPVHVSIRPEAISIAAFDGHSETVNRVEGNVEDVVFIGSRVVYKVRHETGTLLKCQEHRAAAGIRFSVGSPVSLRWDPASVVVLAS	PGPT0007840_2058	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007840-potA-K11072	NA	NA
BMS010_03939	1596	alkJ_2		Alcohol dehydrogenase [acceptor]	ATGTACGATTATATTGTCGTCGGTGGCGGCTCGGCGGGTTGCACTATCGCGTCACGGCTTAGCGAAGACTTGGACAGCAAAGTTTTGCTTCTCGAGCAGGGAGACCGCGACTGGAGCCCTTATATTCATCTTCCGGTGACGTACTATAAGACGTCGAAGAGTAATATGCTCACCCGTTATAAGCTCGAACCGCAGCATCATCAGGGCGGGGTTACTCCCGAGTTTGTGCAGGGGCGGGTTCTGGGCGGCGGAAGCTCTGTCAACGCAATGGTCTACATGCGCGGAATTCCCAGCGACTACAATCAGTGGGAAGCCGACGGCTGCACGGGCTGGGGCTACGACGACGTGCTTCCGTATTTCAAGAAGGCGGAAAGCAACGAGAGATTTTCCGGAGATGTCCACGGGACCGAAGGTCCGCTCAGTGTATCCGACCAACGGCACACACATTACCTCACGAAGGCATGGGTGCGGGCGGCACAGGAACTAGGCATCAACTTCAATCCCGACTTCAACTCTGGTGACCAGGCCGGTGTCGGCTTCTACCAGGTCACGATGAAGGACGGACTCCGTTGCAGCGCCGCTTCGGCGTACCTCAAGCCCGCGCGCAAGCGTAAAAACCTCACGGTTCAAACCAAGACCAAGGCCCTCCGGATCATTATCGAGAACAACCGCGCCGTCGGCGTCGAGTACTTTCATAAGGGTCAGGTGACACGGGCGATGGCCTCACAGGAGGTAGTGGTCTGCTCCGGTGCCATTGGTTCGCCGCATCTGTTGCTTCTTTCGGGGATTGGCCCAGCCGATCATCTCAGGGAGATCGGCGTTGACGTGAAGCACGACCTTCCGGGTGTCGGCCAGAACCTTCAGGACCATTTCGACATGTTCCTTATCTACGAGTTGACCGGTGCTCATAGCTACGACAAATACAAAAAGCTACGCTGGCAGGCCTGGGCTGGGCTGCAATACGCCCTGTTCCGGAACGGTCCCGTCACGTCAAACGTCTGCGAAGGGGGGCTTTGCTGGTACGGAGCGGAAGACGACAAGCTGCCGACCCTCCAGTACCACTTCCTGCCGGGAGCGGGCGTCGAAGAAGGGTCCGACTCCACGCCGAGTGGCAATGGATGCACAACGAACGTCTACCAATCGCGTCCTCGGTCGCGAGGTTTCGTCAAGCTCCGCAGCGCTGATCCGAACGTCTTTCCGGTTGTAGATCCCCGCTACTGCGCCGAGGAGTATGATGTGGAATGCCTCGCGGAAGGTGTTCGCATCGGCCAGGAAATCCTTCAGCAAAAGTCCCTTTCTAAGTACGTTTCCCACCCATTCCGGCCGGGAGGCATCCTGAAGACAAAGGCCGAACGTATGGAGTTCGTCCGAGCTACGGGGCAAGGCGCTCTTCACCCGTCTGGCGCGTGCAAGATGGGGACTGATGACATGGCCGTCGTAGACACCCAGCTTCGAGTTCGCGGCATCGACGGGCTGCGCGTCGCAGACACTTCGATCCTCCCCCGCGTTCCCTCTGGAAACCTGAACGCGCCGGCGATCATGGTGGGTGAGCGGGCAGCGGATTTCATCCGTGGCAACAAGTTTTCGGCCGCTTGA	MYDYIVVGGGSAGCTIASRLSEDLDSKVLLLEQGDRDWSPYIHLPVTYYKTSKSNMLTRYKLEPQHHQGGVTPEFVQGRVLGGGSSVNAMVYMRGIPSDYNQWEADGCTGWGYDDVLPYFKKAESNERFSGDVHGTEGPLSVSDQRHTHYLTKAWVRAAQELGINFNPDFNSGDQAGVGFYQVTMKDGLRCSAASAYLKPARKRKNLTVQTKTKALRIIIENNRAVGVEYFHKGQVTRAMASQEVVVCSGAIGSPHLLLLSGIGPADHLREIGVDVKHDLPGVGQNLQDHFDMFLIYELTGAHSYDKYKKLRWQAWAGLQYALFRNGPVTSNVCEGGLCWYGAEDDKLPTLQYHFLPGAGVEEGSDSTPSGNGCTTNVYQSRPRSRGFVKLRSADPNVFPVVDPRYCAEEYDVECLAEGVRIGQEILQQKSLSKYVSHPFRPGGILKTKAERMEFVRATGQGALHPSGACKMGTDDMAVVDTQLRVRGIDGLRVADTSILPRVPSGNLNAPAIMVGERAADFIRGNKFSAA	PGPT0013615_3853	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013615-betA|CHDH-K00108	NA	NA
BMS010_03940	1431	puuB_3		Gamma-glutamylputrescine oxidoreductase	ATGGACTTGCTGGCAGCAGTTCGCTCAGATGTTGAGCGGGAGTTCTCGTGGTGGCAGAAGGACGTCCGCAGTCTTTTCGGTACGCCAAGGCAACCGCCGCTGACATCGAGGATGGACGTCGATGTCGCCATCGTTGGAGGCGGTTTTACTGGCCTCTGGACGGCGCTCATATTGAAAGAGCGAAATCCTCAGCTTCGGGTCGCCATCCTCGACGCATATCGATGCGGCGATGGGGCGAGCTCTCGAAACGGGGGCAACGTCCATGGATACTGGGGGGCGCTCCCTACCCTTTTACCGATCTTCGGCGCCGACAAGAGCATCGAAGTTGCGCATCTGGCCACCGTGGCTCAAGGTCGTCTTCGAAAATTCGCCACGGCACAAAGACGGGACGTATGGTGGGTCGAAGAGGGGTATCTACGCGTCGCCACCTCGCCCGCTCAGGTAAAGAAAATCCGGGAGTTTGTCCGCACCGCACGAGACTTGGGCTTGGGTGACACTCTCTGTCAATTGCCGCAAGGGGAACTCAGAAAACTCTGTAACTCGCCGAGGTTCCTGGAAGGTCTGTTGTTTACAGAAGGCGCAACGGTAAACCCAGGGCGACTGGTCCATGAGTTGCGTCAGGCTGCGTTGGACGCAGGAATATCGATTTTCGAGGATTCCCCCGTACGGAGTGTCCAAAAGGGATCCGTGAATTTCGTTGAAACGTACCGCGGTGCAGTGACCGCGCGCGATGTTGTACTCGCCACGTATACTGGAACGATGGGACTGAGCCCGGTTGCCAGGTCAACCACGCTTTTCTCCAGCTTTCCAGTGATGTCTGATCCCGATCCCGAATATTTAGAAAGCATCAATTATCGAAAGGCGCGCGGGCTCGCGGACCTCCGCATGTTCACGCACTATTTCCGACGGACGAACGACGGGCGGGTTCTTATGGGATCGGGTTCTGGACCGCTTGAATGGGGAAGCGCGCACAACTCGGAGAAGTTACGCAATGACGGGGCAAGCGCTCGACGGGCAGCTATCGGGCTCCAACGGTTCTTTCCCGGTATGAGTGGCGGCGTGGCCACGAGTTGGGGATATCCGATTGAAGTCACTTCGGACCGCCTCCCCTATTTCGGCACGTTGCAGGGAAGCCGGATCCACTACGGTTCCGGTTACTCGGGGCATGGCGTCAATGCCACGGTTATCGCCGGGGAATGCCTTTCGTCCCTCATCTTGAACCAGAAAGACGAATGGACGACTTCGGCTTTCTGCTCGCGAAATCGGATGACCTTCCCGATCGAGCCATTCCGCTTTGTGGGCGGCACGATGGTGCGCGATGCCATCGTCCGTTGTGAAGACGCCGAGGACGCTGGTCGCCGCCAGCCGCTTATCGCCCAAGCGATCTCGAACTTGCCACGCGTCATGGGAATGCGTGTCGGGACCCGTTGA	MDLLAAVRSDVEREFSWWQKDVRSLFGTPRQPPLTSRMDVDVAIVGGGFTGLWTALILKERNPQLRVAILDAYRCGDGASSRNGGNVHGYWGALPTLLPIFGADKSIEVAHLATVAQGRLRKFATAQRRDVWWVEEGYLRVATSPAQVKKIREFVRTARDLGLGDTLCQLPQGELRKLCNSPRFLEGLLFTEGATVNPGRLVHELRQAALDAGISIFEDSPVRSVQKGSVNFVETYRGAVTARDVVLATYTGTMGLSPVARSTTLFSSFPVMSDPDPEYLESINYRKARGLADLRMFTHYFRRTNDGRVLMGSGSGPLEWGSAHNSEKLRNDGASARRAAIGLQRFFPGMSGGVATSWGYPIEVTSDRLPYFGTLQGSRIHYGSGYSGHGVNATVIAGECLSSLILNQKDEWTTSAFCSRNRMTFPIEPFRFVGGTMVRDAIVRCEDAEDAGRRQPLIAQAISNLPRVMGMRVGTR				NA	NA	NA	NA	NA
BMS010_03941	354			hypothetical protein	ATGACCATTCACCGCTTTGAACCCAACGGCAAACGTCTGAGCCACGTGCTCGTCCACAATGGCATTGCGTATGTCACCGGGCAGGTCCCGACTGACCGCTCCCAGGGTATCGAAGGGCAGACCTTGCAGTTGCTAGACCGGATCGACCACCTGCTCGGTGTTGCTGGCACCGACAAGTCGAAGATACTCTTTGCCCAGATCTGGCTCCGGAACATCAAGCGGGACTTTGCGCCGATGAATGCACTCTGGGAATCCTGGATACCGGAAGACGCGCTTCCTGCCCGGGCTACGGTTGAGTCCAATCTCGCCGCCGACGAAATATTGATCGAGATCGCGCTTCAAGCTGCCGTTTGA	MTIHRFEPNGKRLSHVLVHNGIAYVTGQVPTDRSQGIEGQTLQLLDRIDHLLGVAGTDKSKILFAQIWLRNIKRDFAPMNALWESWIPEDALPARATVESNLAADEILIEIALQAAV	PGPT0020030_24	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020030-ridA|tdcF-K09022	NA	NA
BMS010_03942	2007	acoR_2	COG3284	Acetoin catabolism regulatory protein	ATGCTTGGACCAGACGATCACTTCCGTGTGATTGAGCAGGCTGTGCTGACGACTGCCGGAAGAGGCGAGTGGCGGACGGCCTCGTGGGCGCGCTGTCTTCAGGACTACAAGCTGGATCCCTCGCGCCCCAAACTGGTCGATCTCACCAATAGAGAGCTGCGCGAAGAGCAGGACACTTTCGACGCGGACGTGGCACTGGCGACAAACGAGCTTGAAGCAACGTTGATGATGATCGAGGGCGGTGGCTACAGTGCCCATATAGCCAACCGCAACGGAGTGATTATATCTGAGCGTCGCAGCAGAGATGCCGCGTTCTATTGCAGCACGGACCGGATCGGCGCGGTGTGGAGTGAGGAGGTCGGCGGTACAAACGGTATTGGGACGGCGCTAAAAAATCTAGAACCGACCGCGGTCTATCTGTCGGATCACTTTTATGCCGATCTAACCGGTCAAGCGTGCGCGACAGCTCCCTTCTTTGGGCCGGACGGCAACATACTCGGCGTCGTCAACCTTTCGACGTACAATCCGGGCGTACCCCAGTTGGCGCATCGTGTGGTATTTGGCGTCGCCCAGATCACGGCGGATCGGCTCGAGACCACATATTTTCGGAACGCATTCCGAAAATACTACACACTCGCTGTCAGTACCGAACAACGATCGCCAACCATCTTCGCCGTCGACAGCGACTGCCGAATCGTAGGCGCGACACGGAATGCCAGACGCCTCTTCAAGCTGGAGGAGTCTGCGATCGGAACGCGAACGCTCTGGGCCGTTTTTGAAAAGATCAAAGGAAATCCCCCGCTCGACTATCTGTGCGACAATCTACGCGAACTCCGGCCGCTGGGTAGCGGAAAGGTCATCGATGTGAACCTCAGGCGACCGCTATCGGTTCTGCCGGCTTCGATCACGTCGCTTGCCGCCGGCGCGGCAACCAAGATTGCTAAGCCGAAGCTCGGGAAGAAGATTACCTCGCTAGCCGAGTGTGCGGGCAACGACCGCAATATGAAGCGGAACATCGATGTCCTGAGGAAGGTATTCGGCAGCGGGCTCCACATGCTGCTCCTCGGCGAAACGGGGGTTGGAAAAGACACGCTTACCCGTGCCCTGCACTATGAGAGCGAACGGGCTACGGGGCCCTTCGTTGCGTTCAACTGCTCCGCTGTCCCGGAGACGCTCATAGACAGCGAGCTTTTCGGATACAGCGGCGGCGCGTTCACTGGGGCAAGCAAGGAGGGAAATGTCGGGCGGATTGTAGAAGCGGATAAGGGTACACTTTTCCTCGATGAAATTGGGGATATGCCGCTCCCTCTGCAGACACGACTCCTGCGGTTCCTTGAAACTCAGGAGGTAATGCCGCTGGGCTCTGGCCGTGCGCGCACCGTCGATGTTCAGGTTGTCGCAGCGACCCACCAGGATCTTAACTCGAAGGTTGCTGCGGGCACATTCCGACAGGACCTCTTCTATCGCCTCGCAGGGACCATAGTGACATTGCCCGCGCTGCGTGATCGGGAAGACCTCGAAACAATCATCGGCAATTTGATGGAACAGTTTTCCGAGGATGTCGAGATTTCGTTATCGGACCGCGCTATGAAGATTTTGCTGGCCCACTCCTGGCCAGGAAATATTCGCGAGCTGCGTAACGTTCTCACGCGCGCGGCCAAGCTGGCCACCCGCGGCCTGATAGAACCGAACGACCTGATGCTTGTGCCTATTCCCGTCTCGGCCGTTCCCGCGCCTTCGCCAATACCCACAGCGGTCACTTCGTCCGGAGAAGTGAGGGAAGTGCGAGTACGACGTCCGACGTCGCCGCTAGCCGGACGAAAGCGGCAAATGACGCCGTACAAGGCGGCGGCCGTTGAGGCCGAGAAGGTCGCGCTCGTAACTGCCATGGAACGGTTTGGCCGCGATCCCGTAGCGTGCATGGAAGCACTCGGCATCAGCAGGGCTACGTTCTACCGAAAACTCAAGCAGCATGGCCTGGCTCTCGGTGAGCACGAGGATCCATGA	MLGPDDHFRVIEQAVLTTAGRGEWRTASWARCLQDYKLDPSRPKLVDLTNRELREEQDTFDADVALATNELEATLMMIEGGGYSAHIANRNGVIISERRSRDAAFYCSTDRIGAVWSEEVGGTNGIGTALKNLEPTAVYLSDHFYADLTGQACATAPFFGPDGNILGVVNLSTYNPGVPQLAHRVVFGVAQITADRLETTYFRNAFRKYYTLAVSTEQRSPTIFAVDSDCRIVGATRNARRLFKLEESAIGTRTLWAVFEKIKGNPPLDYLCDNLRELRPLGSGKVIDVNLRRPLSVLPASITSLAAGAATKIAKPKLGKKITSLAECAGNDRNMKRNIDVLRKVFGSGLHMLLLGETGVGKDTLTRALHYESERATGPFVAFNCSAVPETLIDSELFGYSGGAFTGASKEGNVGRIVEADKGTLFLDEIGDMPLPLQTRLLRFLETQEVMPLGSGRARTVDVQVVAATHQDLNSKVAAGTFRQDLFYRLAGTIVTLPALRDREDLETIIGNLMEQFSEDVEISLSDRAMKILLAHSWPGNIRELRNVLTRAAKLATRGLIEPNDLMLVPIPVSAVPAPSPIPTAVTSSGEVREVRVRRPTSPLAGRKRQMTPYKAAAVEAEKVALVTAMERFGRDPVACMEALGISRATFYRKLKQHGLALGEHEDP	PGPT0001030_507	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0001030-acoR-K21405	NA	NA
BMS010_03943	1437	araE_2		Alpha-ketoglutaric semialdehyde dehydrogenase 1	ATGGCTTATCCGAATACCAAACTGTACATTGGCGGAGAGTGGAGCGACGCCTCCGGGGGCAAGACGCTGGATGTCGTAAACCCGATCAACGGAGAGGTAATCGGAAACGTAGCCCACGCATCGCGGACTGATCTCGAAAGAGCGGTCCAGGCCGTCGCCTCGGGGTTTAAAACGTGGAGCGCCACGTCTGCTTTCGAACGTTATAAGGTCATCCGCCGCGCGGCATCCCTGCTCCGTGATCGTCTCGAGGACGCCGCCCGTCTCCTGACCACGGACGAAGGAAAGCCACTTTCCGAATCGCGTCTAGAAGTAAACTCCTGCGCGGACCTGCTTGACTGGTTCGCGGAAGAAGGCCGCCGGACATATGGTCGGGTCATTCCTTCTCGTGGCGTTAGCATCCAGCAGTATGCGGTCAAGGACCCGGTTGGTCCCGCTGTAGGTTTCACCCCGTGGAACTTTCCGATGAGCCAGATCGTCCGGAAACTTGGCCCCGCGATCTCAGCAGGCTGCTCGATCATCATAAAGGGTCCGGAAGAAGCTCCTGCCGCACCGGCGGTACTTTTCCAGTGTCTCCACGATGCGGGCGTGCCCGCCGGCGTTGTGAACCTTGTCTTCGGGACACCGTCGGAGATTTCCGAATTCCTCGTTCCGCACCCGGTAATCCGCAAGGTGTCGTTCACGGGTTCGGTTCAGGTTGGCAAGCACCTTGCCTCGTTGGCGGGCCTGCATATGAAGCGGGTGACCATGGAGCTTGGCGGACACGCCCCAGTCATCGTGGCAGACGACGCCAATATCGATGCGGCGACGACAGCTTTGGTTGCCGCAAAATTTAGAAATGGAGGCCAGGTCTGTATCTCCCCGACACGCTTCTTAATCCAGACCAACGTGCATGACGAGTTCGTCGATACCTTCGTGAAAAAGACGAAGGCTCTTAAAGTCGGCGACGGTCTGGCCGATGGCATCCAGGTCGGCCCGTTGATCAACGAACGCCGCAGGGCGGCCGTCGAGTCGCTGATCGAAGACGCAGTCAGCAAAGGAGCGAAAGTCGAGACGGGAGGACACCGCATCGGGAACAGCGGTTTCTTCTTTGAGCCGACCGTGCTTACGGGTGTGACGACCGACATGAGGGCGATGAACGAAGAGCCGTTTGGCCCGGTAGCTCTGGTGAAGTCCTTTTCCGATCTCGGCGAGGCAATCGAGGAAGCTGGCCGATTGCCCTTCGGTCTCGGATCCTACGCCTGGACATCAAGTGCCTCTAATGCCCGACGGCTCGCGCAAGGGGTTCAGGCGGGCATGCTGTCTATCAACCACATCGGGCTCGGGCTGCCTGAAACGCCCTACGGCGGCGTCCGGGACTCCGGATATGGCTACGAAGGCGGCAGTGAGGCGCTGGAGGCCTACATGAACACCCGTTTCATCACTCACGACGCCAACTAG	MAYPNTKLYIGGEWSDASGGKTLDVVNPINGEVIGNVAHASRTDLERAVQAVASGFKTWSATSAFERYKVIRRAASLLRDRLEDAARLLTTDEGKPLSESRLEVNSCADLLDWFAEEGRRTYGRVIPSRGVSIQQYAVKDPVGPAVGFTPWNFPMSQIVRKLGPAISAGCSIIIKGPEEAPAAPAVLFQCLHDAGVPAGVVNLVFGTPSEISEFLVPHPVIRKVSFTGSVQVGKHLASLAGLHMKRVTMELGGHAPVIVADDANIDAATTALVAAKFRNGGQVCISPTRFLIQTNVHDEFVDTFVKKTKALKVGDGLADGIQVGPLINERRRAAVESLIEDAVSKGAKVETGGHRIGNSGFFFEPTVLTGVTTDMRAMNEEPFGPVALVKSFSDLGEAIEEAGRLPFGLGSYAWTSSASNARRLAQGVQAGMLSINHIGLGLPETPYGGVRDSGYGYEGGSEALEAYMNTRFITHDAN	PGPT0001580_3673	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135	NA	NA
BMS010_03944	510	hsaB_1	COG1853	Flavin-dependent monooxygenase, reductase subunit HsaB	ATGATCAGTACCGAAGATTTTCGCGAGGCCATGCAGCGGTTCGCAGGCCCCGTCACAGCAATAACCACGATTAAAGACGGAGTTCCTTGCGGACTGATGGCCACGGCTGTGTGTAGCCTGTCCGCCGATCCGCCGTCCTTGATTGTCTGTATCAACAAGAGCGCGTCGGCTCATGACACCATCATCGACCAAGGCTTCTTGGGTGTGTCGGTCTTGACTGACACGATGCTTGCGTTTGCCGACCACTTCGCACGAGCCAAGGGCCCTGATCGCTTCGAAGGTGCATTGTGGAATTTCCAGGAGACGGGAGCCCCGTTGCTCGCCGGGGCCTCTGTTGCGTTTGATTGTCGTATAGCAACGACGCACGACGGATACAGCCACACGATCGTAATCGCGAAGATCCACGACATTCTTCTTCCTAACCAAGATGCAGATCGTTGCCTTTTGTGGCACCGCCAAGGCTTCGTCAGCCTTGCTGCGAAGCAGGCCGCGGACGCACTCAAGAAATGA	MISTEDFREAMQRFAGPVTAITTIKDGVPCGLMATAVCSLSADPPSLIVCINKSASAHDTIIDQGFLGVSVLTDTMLAFADHFARAKGPDRFEGALWNFQETGAPLLAGASVAFDCRIATTHDGYSHTIVIAKIHDILLPNQDADRCLLWHRQGFVSLAAKQAADALKK	PGPT0021265_81	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021265-rutF-K09024	NA	NA
BMS010_03945	480	ribH2	COG0054	6,7-dimethyl-8-ribityllumazine synthase 2	ATGACCATCGCTTTCGACCCGAAAGGACAGAAGATCGCCGTTATCCGCGCCCGGTGGCATGCGGATATCGTGGACCGATGCGTCGAATCGTTCGTCGACGAGTGGGAGGAGCTCGGAGGCGACCGCGAGGAAGTCGAGATCGTCGATGTGCCCGGCGCGCTTGAAATCCCGTTGCATGCACAAACGCTGATCCGAACCGACCGATATGCCGCAGTCGTCGGGACGGCGTTCGTGGTCGATGGCGGCATCTACCGTCACGATTTCGTCGCCCGGACCGTTCTGGACGCCATGATGCGTGTCAGTCTCGATACTGGCGTTCCCGTCCTGTCCACCGTGCTCACGCCGCATACCTTCCAGGAGAATGAACATCAAATCGCGTTCTTCAGGGATCACTTCGTGCACAAGGGCCGCGAGGCTGCAAACGCAACCCGGAAGCTCTTGGCTGAGCGGGCGAAGGTGGCGCTTCTTCAAACACTTTAA	MTIAFDPKGQKIAVIRARWHADIVDRCVESFVDEWEELGGDREEVEIVDVPGALEIPLHAQTLIRTDRYAAVVGTAFVVDGGIYRHDFVARTVLDAMMRVSLDTGVPVLSTVLTPHTFQENEHQIAFFRDHFVHKGREAANATRKLLAERAKVALLQTL	PGPT0008605_531	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008605-ribH|RIB4-K00794	NA	NA
BMS010_03946	333	ribA	COG0807	GTP cyclohydrolase-2	ATGCGCGGGCATGAAGGTCGCGGAATCGGCATCGGAAACAAGATCGCCGCCTACGCACTTCAGGATCGTGGTTACGACACGATGGACGCAAATCTGGAACTCGGCTTTCCAGTTGACGGCCGAGACTACGCGGCCGCGGCTTCGATTCTGCGATTGCTCGGCGTATCGAGCATTGTCCTGCTGACCAACAATCCCGCCAAGCTCGAGGCACTCCGCGCTGAGAAAATTGACGTGGTGGAGCGCAGAAGCCTAATCGTGGCCGCCCAGTCGCATAGTGTCGTCTATCTTCGGACCAAGCGCGAAAAGTTCGGGCACTTCCTGCACGAGGTCTAG	MRGHEGRGIGIGNKIAAYALQDRGYDTMDANLELGFPVDGRDYAAAASILRLLGVSSIVLLTNNPAKLEALRAEKIDVVERRSLIVAAQSHSVVYLRTKREKFGHFLHEV	PGPT0007990_907	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0007990-ribBA-K14652	NA	NA
BMS010_03947	228			hypothetical protein	ATGGCATCGAGGCTCGTCGCGAAACAGACCACCGACGAACCGCACGACCGCCTTCACTTCCCGGACGAAGATCATGGCGGTGTGTTTAAACATATCGTTCTCCTGAACGATAATCGGAACATCGCCTTTGCCGTTCGGATATGCCTAGACCTCGTGCAGGAAGTGCCCGAACTTTTCGCGCTTGGTCCGAAGATAGACGACACTATGCGACTGGGCGGCCACGATTAG	MASRLVAKQTTDEPHDRLHFPDEDHGGVFKHIVLLNDNRNIAFAVRICLDLVQEVPELFALGPKIDDTMRLGGHD				NA	NA	NA	NA	NA
BMS010_03948	750	bacC_4		Dihydroanticapsin 7-dehydrogenase	ATGGCAAAGCTTTCGGGACGAACAGCATTCGTAACCGGCGCATCGTCGGGCGTCGGCCTCGCTGCGGCTCGCCATCTGGTCGACCAGGGAGCTCGGGTGGCGATTTCAGCCCGTCGGGTCGATATTCTTCGCCATATCGCATCAGAAGCGCCTGACAGTTTCATCGTTGTCCAGACCGACGTAGCCGACGCTGGAAGCGTTGACAACGCGATTGACCATTCGTGGCAGGAACTCGGGCATATAGATTATGTCATCCACGCCGCCGGGATCGTCACGCCAGCGGCAATGGCCGATCTGACCCCGGCGGTTTGGAAGCAGCACATCGATATCAACCTCACGGGCTCCTATAACGTCCTGAGAACGGTGGCGATGAAAATGAGACAGCGAGGTGAAGGGAGCATCGTATCGATTGCTTCCGACCTTTCGTTTAAAGGACTCGCGAATTACGCACACTACTGCGCGTCGAAAGCGGGACTGGCAGGACTCACGAAGGCCCTGGCGCTTGAACTCGCACCGACTGTCCGGGTAAACTGCGTGTGTCCTGGTCCAATCGATACCCCGATGATGGATTCCGAGCTTGAGTGGTTCGGTGGCTCTGACGAAGTGCGGGCCGTGGCCGTTGCCGCTGTTCCGCTAAAGCGATTTTCCAGCCCAGAGGAAATTGCGGAGTTTGCAGTTTACGTGGCAGCAAAAATGAGGTTCGCCACGGGGAGCATGCTGAGCATCGACGGCGGTACGACAGCGGGGTGA	MAKLSGRTAFVTGASSGVGLAAARHLVDQGARVAISARRVDILRHIASEAPDSFIVVQTDVADAGSVDNAIDHSWQELGHIDYVIHAAGIVTPAAMADLTPAVWKQHIDINLTGSYNVLRTVAMKMRQRGEGSIVSIASDLSFKGLANYAHYCASKAGLAGLTKALALELAPTVRVNCVCPGPIDTPMMDSELEWFGGSDEVRAVAVAAVPLKRFSSPEEIAEFAVYVAAKMRFATGSMLSIDGGTTAG				NA	NA	NA	NA	NA
BMS010_03949	765	cpnA		Cyclopentanol dehydrogenase	ATGTCGAGAGAATTTTTGGGAAAAGTTGTTCTGGTCACAGGTGCTACATCCGGAATCGGTGCAGCGATCGCGACCGCCTTCGCCGCACTGGGCGCCTCGACGGTGCTGACAGGTCGCAACGTCGATGCCGGCGAAAAGCTGCGAAGTTCCCTCTCTCCGCTCGGCACAGAAGTGTCATTCATCGCGGCCGACATCACTGGGGCTGGCGAGGCGGATCGCATCGTCGCCGAGGTAATCGCCACCTTTGGAAAGCTTGATGTTCTCGTCAACAATGCCGGCATTCTATTTCGGGGGACCTCACTCGACTGCACCGACGAGGAGTGGCTCCGCACGTTTGAGACCAACGTCACCGCAACCTTTCGGATGTCGCGTGCCGCGGTGCGAGTAATGCTCGAGAAGAAGGCCGGTGTGATTGTCAACATTGCATCCGACTGGGGGCTTGTGGGCGCGCAGGGAGCTGTAGCTTATGGCGCAAGCAAGGGAGCTGTCGTGCAATTGACTCGTTCCATGGCACTTGATCATGCACGCGATGGCATTCGCGTGAACGCGATCTGTCCGGGCGACGCCGACACCGCCATGCTCCAGAGCGCGCTGCCTGATACCGATCACGAGACGCGGCTTCAGCATTTGGGAGGGGCTATCCCTTTAGGGCGAGTTGCTCGCCCGGAAGAAATTGCGCGCAGCGTTTGTTTTCTTGCGTCCGACGGCGCGTCCTTCATTACGGGAGCTACGCTAGCCGTCGATGGCGGCAACAGCGCGGGATAG	MSREFLGKVVLVTGATSGIGAAIATAFAALGASTVLTGRNVDAGEKLRSSLSPLGTEVSFIAADITGAGEADRIVAEVIATFGKLDVLVNNAGILFRGTSLDCTDEEWLRTFETNVTATFRMSRAAVRVMLEKKAGVIVNIASDWGLVGAQGAVAYGASKGAVVQLTRSMALDHARDGIRVNAICPGDADTAMLQSALPDTDHETRLQHLGGAIPLGRVARPEEIARSVCFLASDGASFITGATLAVDGGNSAG	PGPT0008190_610	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008190-budC-K18009	NA	NA
BMS010_03950	822	sugB_3	COG0395	Trehalose transport system permease protein SugB	GTGCAACCGTCACTCTTCGCACGGATAATGACGCATCTCATTCTGGGAGTTTGCGCCCTCTTCGTGGTCCTCCCTCTCCTCTGGGTGCTGCGGACGTCATTCGCCGACAAGGTGATCGCCTATCAGCTGCCGCCTGCGCTGTTTTTTACGCCGACTCTCGATAACTACAGAACGATCATCTTCGAGATGAACTTTGGCGCCTTCTTTCTAAACAGCCTGATCATCGCGCTAACGTCCACGGCGCTCGCGGTCGTCATCGGCGCGTTTGCCGCCTATGCTATCGATCGCTACAAGGCCGGCGGCAACGCGATGCCGATCGTCATCCTCGCCACGCAGATGATGCCGCCCATTGTCCTGGTCATCCCTTTTTTCTTGATCTTCAAGAATATCGGCCTGACAGACTCGCGCACCGGCTTGATCGTCACATACCTCGCCTTCAACCTACCTTATGTCGTTTGGCTTCTGATGAGCTTTATGAAGCGCGTCCCCCGCGAACTGGACGAGGCAGCGCTGATTGACGGCTGCACACCTATGACGGCCTTCATCCGCATCATTGTTCCAGCGCTACTGCCGGGCATCGGTGCAGCCGCAATTCTCAGCTTTGTACTGAGCTGGAACGAGTTTCTCTTTGCTCTGATGTTATCGGGCAATGAGTCAAAAACGCTACCCGTCGCAATTTCCAGTCTGGTTACCCAGCAGGGTACAGCTGTGGGAGCGGTAAGCGCGGCCACCATTCTCGCCATGTTGCCGATGGCAATTCTGTATTTCGCTATGCGCCGTTTCCTCGTCTCGGGGCTGAACCTCGGAGCGGTCAAAGGCTGA	MQPSLFARIMTHLILGVCALFVVLPLLWVLRTSFADKVIAYQLPPALFFTPTLDNYRTIIFEMNFGAFFLNSLIIALTSTALAVVIGAFAAYAIDRYKAGGNAMPIVILATQMMPPIVLVIPFFLIFKNIGLTDSRTGLIVTYLAFNLPYVVWLLMSFMKRVPRELDEAALIDGCTPMTAFIRIIVPALLPGIGAAAILSFVLSWNEFLFALMLSGNESKTLPVAISSLVTQQGTAVGAVSAATILAMLPMAILYFAMRRFLVSGLNLGAVKG	PGPT0016540_8489	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
BMS010_03951	1302		COG1653	putative ABC transporter-binding protein	ATGCCCCGAATGATCACAACCAGGCTTGGCGTGATGGCCGCCTCGCTGCTTGCCGCCTCGACAGCGCTCGCTGATCCTACCGCCGTCTGCAAGGGAAAAACACTCAACCTCTTGCTCGAAACCGTCCCCGATACCACCGCGCTGATTGCGGTAGGCCCGGAGTTTGAGAAACTCTCGGGTGCGAAGCTCAACATCGAAGCGGTCAACTACACTCTGATGCATGAGAAGCTCGTGCCCAGCTTGACCGCGTCCTCAGGCTCCTACGATGTACTTGCGGTGGATAGCTACTGGGCGGGGGAATTCGTTACCGCTAAGTGGATCCAGCCGCTCGACGAGCGCATCGCCGCCGACAAGATTGACACATCGGTGTATTACCCCGCGCTGATGGAGATCAATGGCAAGATTAAGGGCACCACCTATATGCTGCCCTTCTGGCAATATGCCATGGGTATGCTCTACCGGAAGGACATCGTCGAAGACACGGCGTTCCAGGCCGCGTACAAGGAGAAGTTCGGCCGCGACTGGCGCCTTCCCGAGACGCTTCAGGAATTTGCGGACGTTGCCAAGTGGGCGGGTCAGCAAACCGGCAAGGTAGGCATCGCTATGGCCGGCCAGCGCGCCGACCCGGTCGTAATGGAGGCGACAAACTACGTCTTTTCGCTTGGGGGTGACTTCTACAACCGCGAGTCTTGGGAGCCCTCTCTGAACTCCCCAGAAGGCATCGAGGCGGTGAAAATCTACGCTGACCTACTCTCGAATGCCGCGCAGCCGGGCGCGCTTGGCGCAAATTTCGATGACGTTGCCAATGCGTTGAAGCAGGACAAGGCCGTCTTCGCGATCTCCTACCTGTTTCTGATGCCCACCCTGCAGGACCCAAAGGAATCCAAAGTGGTCGACAAAGTGGGTTTTGCGCGTATGCCTGGCCAGGACAGCCTGCTTGGCGCTTGGGGCTGGGCGATCCCTACCAATGCCGCGAATGCAGATTGTTCCTGGGAGTTCATCAAATGGGTGGAATCCAAAGCAATCGCGAAAAAGCGCGCTTTGGCCGGCGGTCAGGCGACCCAGATCTGGATCTATGACGACGCGGAATACCTCAAGCGCTGGCCTCAGATGGCTGCGGTCGGCGATGCGCTCGCTCACGCCAAGGGCCTGCCGGTGATGTCGCGCGCCACCCAGCTCGTAGAGGTCTTCGCCGAGGTGATGGGTGACGTCCTCGCCAACGGCACTGACGCGGCCACGGCCGTGGCCAATGCTGAGGACAAGTTCGCCCGCCTGACTAAAGGCGATCCGCTGCTGAAGTGA	MPRMITTRLGVMAASLLAASTALADPTAVCKGKTLNLLLETVPDTTALIAVGPEFEKLSGAKLNIEAVNYTLMHEKLVPSLTASSGSYDVLAVDSYWAGEFVTAKWIQPLDERIAADKIDTSVYYPALMEINGKIKGTTYMLPFWQYAMGMLYRKDIVEDTAFQAAYKEKFGRDWRLPETLQEFADVAKWAGQQTGKVGIAMAGQRADPVVMEATNYVFSLGGDFYNRESWEPSLNSPEGIEAVKIYADLLSNAAQPGALGANFDDVANALKQDKAVFAISYLFLMPTLQDPKESKVVDKVGFARMPGQDSLLGAWGWAIPTNAANADCSWEFIKWVESKAIAKKRALAGGQATQIWIYDDAEYLKRWPQMAAVGDALAHAKGLPVMSRATQLVEVFAEVMGDVLANGTDAATAVANAEDKFARLTKGDPLLK	PGPT0016545_6432	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
BMS010_03952	918	lacF_3		Lactose transport system permease protein LacF	ATGACAAGCGCCAGCCAGATCGCAGGCCAAACCTCCACGGCCCCGGCCCGCAAGTCGGACGGGTTCTCGACGGGATTTTACAAACTGCTGTTCATGACGCCGACAATCATTGTGTTGGCATTAGTGGTGGCGGGACCGCTTCTCTATTCATTTTGGCTCAGCCTGCACGAGTACATTATCACCTACGGCATGGGAGACCTTGTCTGGTTCGAGAACTACGCTGTCATCATGACGCGTGAGTTTGCCAGCGTCTCCTGGGTCACGATGAAACTTATGGTGACCGTCGTTGTCCTTGAATTCCTGCTCGCTTTCGGCCTTGCCCTCCTCCTGAACCAATCCTGGCTGAAGTTCCGCGAATTCTATCTCATGGTGTTGATGCTGCCGATCCTGATGACTCCGGTGGCTGTCGCGCTGATGTTCCGACTGATGTTCAATCCAAACCTTGGGATCATCAATTGGCTACTGTCGCTGGTCGGCGTCCCGGGCCAGGGCTGGTTCGGTGATCCCAATCTCGCCCTTGCCACTGTGGTGTTTGTCGATGTCTGGACTGAGACCTCGCTTATGCTGATCATGCTCTATGCCGGGCTGAAATCGTTGCCGCAGGACCCAGTTGAGGCAGCACGCATTGACGGCGCGAACGCGTTTCAAATTCTCCGCCACGTCACTCTTCCGATGCTCAAACCCGTCATCCTCGTAACGCTTCTCATCCGCATGATCACTGCGTTGAAGAGCTATGACCTCATCTACATGCTGACACAGGGTGGCCCGGGCAAGGTTACCGAGACGATCAGCTTCTACGCCTATCGCCTCGGCTTTCGCTTTCTCGATATCGGCCAGGCAGCCGCCGTTTCGTTTATTCTTCTCGCGGCGGTGATTGTCCTGACGGTCATTCTGTTGCGCATCATGCGGGAGAACTGA	MTSASQIAGQTSTAPARKSDGFSTGFYKLLFMTPTIIVLALVVAGPLLYSFWLSLHEYIITYGMGDLVWFENYAVIMTREFASVSWVTMKLMVTVVVLEFLLAFGLALLLNQSWLKFREFYLMVLMLPILMTPVAVALMFRLMFNPNLGIINWLLSLVGVPGQGWFGDPNLALATVVFVDVWTETSLMLIMLYAGLKSLPQDPVEAARIDGANAFQILRHVTLPMLKPVILVTLLIRMITALKSYDLIYMLTQGGPGKVTETISFYAYRLGFRFLDIGQAAAVSFILLAAVIVLTVILLRIMREN	PGPT0016535_7087	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
BMS010_03953	2274			hypothetical protein	GTGACGCACGATCATCAACAGCGCTGGAAGCGCATTCAAGAATGGGACAAGCGCCCCCTTCGCCTCGACAGCTTTTCCGAGGAAAGCCCAGAGAACGGGTTTGCCGTGTTTCACTCGCCTTGGGACCCTGAACCCGGGCTGGTACTCGGACCAGATGGCGAGATCCTTGAGATGGACGGACGCAAAGCCGCCGATTTCGACATTCTCGACGCGTTCATTGCCGCACACCACATCGACCGAACTGTCGCGGCCGAAGCCATGGCGCTGGATAGCACAGTTGTTGCACGGATGCTTGTCGACGTGAACGTACCCCGCGGGGAGCTGGAGCGGCTAGCGCGCGGCATGACCCCCGCCAAGCTGGCGCAAGTGGTAGGTGACCTTTCCGCGCTGGAAGCTACTTTCGCCTATTCCAAGATGCGTCAGCGGCACAGCCCAGGCAACCAGGCGCACGTCACAAATGCAAAGGACGATCCACTTCAACTGGCGGCGGACTCCGCCACTGCGGTCGCGCTGGGTTTTGATGAGATTGAAACCACAATGCGCGTGGCAGGCAACGCCTGGGCCAATGCGCTCGCCTGCACGGTTGGCGCCGCTACCGGTCGCGGCAGCACGTTGTTTCAATGCTCAATCGAGGAGGCCGAGGAACTCAAGATCGGTCTCGCTGGGCTTGCCACTTATGCGGAGACCGTTTCCGTATATGGCAGCGAACGGACGTTCATTGATGGCGACGATACGCCATGGTCGAAAACGTTTCTGGCCGCCGCTTATGCCTCACGTGGCATCAAGGCGCGCTGCACCTCTGGTGCTGGGGCCGAACTACTGATGGGCTTTCATGAAAAATGCTCGGTGCTCTACCTTGAGGCTCGGTGTCTTTGTCTCCAGCGTGCTATGGGCGTCCAGGGCACTCAGAATGGCGGCGTCGACGGCGCGCCTTTGACGGCTTCGATGCCTGGCGGCGTTCGTGAGTTGATGGCGGAGAATCTGCTTGCGGTATGGCTAGGTCTAGAATGCGCCTCCGGCAATGACACGAAAACTTCGGAATCCGAGATCCGGATCGGTGCGAAGATTACGCCTTATCTGCTCGCCGGGTCGGACCTCATCACCTCAGGCTTCGGCTCTATTCTCGCCTATGACAATTCCTTCAACCCGTCGCTTATCAATGCCGAGGAGATGGAAGACTACCTCGTCCTGCAGCGAGATTTTGAAGTGGATGGCGGGCTTGCTCCGCTAGCCGAGGAGGACGCACTTCATGTGCGGCGTCAGGCGGTAGACGCGCTTGACGACGTACTGGATGAGCTCGGTCTCGCGAAAACCGAGCCTAACATGAAAGACAGCGTTATCCACGCGTCCGGGTCCAACGACACGGACACCTTTGCCCCGGTCCGCACCCTGGAGATCAGCCGCGATATAGCCTCGCGCGGCATGACGGCGCTCGACGTGGTGCGGGCACTGGCGCTGCGCGGCCATCGCCAAATGGCGGAGAACCTGATGAACATGCTGCGCCAGCGCATCAGCGGCGATTACCTTCAGACCTCTGCTATTTTGCGCGACGGCAAGGTCGTCAGCGCCGTGAACGATCCGAACCATTATTCAGGGCCGGGCACCGGCTACCGGATGAACGAGGCGCGATGGAATCGCGTGAAAGCAGTCAGGGGCACGATCAATCGCGATCATGTCCTAAGCGCGGAAGGCAGCCATGAGCCTCCAACTGGGTCGGCCCAGTTCTATGCGATCGGCAAGGCAGAGAAGGGCTTAGACCCCCACGAGGTGGTGATCGGCATCTCTCCGGCCTTCGGCGAACGCCTTCACCGCACGACAGCGGGCCATGCCGTAGCCGACGTGCTGGAAGCACTGACGCGGGGCGTGCTGGAAGGTGGTGGCATGCCGCGCGTAGTGCGGATTCGCCATACGGCGGACACGTCATTCCTAGGCCTTAGCGCTGCACATTTAGCGGGCTCGGGCTATGGCATCGGAATACAGGCAAAGGGAACCGCGATTATTCACCATCGCGACCGGCTGCCGCATATGAACCTGGAACTGTTCTCCAACGCACCGCTGGTGTCACTGGAGCAATACCGCGCTATGGGCCGGAACGCCGGGCGCATGACCTGGGGCGAAACGCCCGAACCAATTATCGTGACCAATGATGGGCAAGCGCTTGGGGCGCGGTTCCACCCGCGCGTGGCGCTACTTTACGCAATCGAAACGGAAATGACCCAACCCGGCGCCGAGCCGGAAGAGATGTTCTTTAATAGCGCGGAGCGAAACTCATGA	MTHDHQQRWKRIQEWDKRPLRLDSFSEESPENGFAVFHSPWDPEPGLVLGPDGEILEMDGRKAADFDILDAFIAAHHIDRTVAAEAMALDSTVVARMLVDVNVPRGELERLARGMTPAKLAQVVGDLSALEATFAYSKMRQRHSPGNQAHVTNAKDDPLQLAADSATAVALGFDEIETTMRVAGNAWANALACTVGAATGRGSTLFQCSIEEAEELKIGLAGLATYAETVSVYGSERTFIDGDDTPWSKTFLAAAYASRGIKARCTSGAGAELLMGFHEKCSVLYLEARCLCLQRAMGVQGTQNGGVDGAPLTASMPGGVRELMAENLLAVWLGLECASGNDTKTSESEIRIGAKITPYLLAGSDLITSGFGSILAYDNSFNPSLINAEEMEDYLVLQRDFEVDGGLAPLAEEDALHVRRQAVDALDDVLDELGLAKTEPNMKDSVIHASGSNDTDTFAPVRTLEISRDIASRGMTALDVVRALALRGHRQMAENLMNMLRQRISGDYLQTSAILRDGKVVSAVNDPNHYSGPGTGYRMNEARWNRVKAVRGTINRDHVLSAEGSHEPPTGSAQFYAIGKAEKGLDPHEVVIGISPAFGERLHRTTAGHAVADVLEALTRGVLEGGGMPRVVRIRHTADTSFLGLSAAHLAGSGYGIGIQAKGTAIIHHRDRLPHMNLELFSNAPLVSLEQYRAMGRNAGRMTWGETPEPIIVTNDGQALGARFHPRVALLYAIETEMTQPGAEPEEMFFNSAERNS	PGPT0019435_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0019435-pduC-K01699	NA	NA
BMS010_03954	423	pduE	COG4910	Propanediol dehydratase small subunit	ATGAGCACCGATGCACGCGAACTCTACCCGCTCTCCGAAAAAGCGCCGCATCTGGTGCGCAGTAAGACTGGGCTGGGCCTCGAGGATTTCACGGTGGACGCCGTCCTGGAAGGCAGGATCACCGCCCAAGATCTGGCGATCACGCCCGACGCGCTGCGTTTGCAGGCCGATGTGGCGCGCGCCACCAACCGCGACCGTCTGGCCGAGAATTTCGAGCGCGCCGCCGAGCTGGTGGCTGTCCCGCAGGACATGCTGCTCGACACTTACGAACTGCTTCGTCCCGGCCGCGCAAAATCCGCCACTGAGCTGCGCGAGCGCGCCGTGCTTATGCGGCGCGACTATAGCGCAACCCGCATAGCCGACCTGATTGAAGAGGCTGCCGATGTCTGTGAACGACGCGGCCTTTTTTCAAAGAGATTCTAG	MSTDARELYPLSEKAPHLVRSKTGLGLEDFTVDAVLEGRITAQDLAITPDALRLQADVARATNRDRLAENFERAAELVAVPQDMLLDTYELLRPGRAKSATELRERAVLMRRDYSATRIADLIEEAADVCERRGLFSKRF	PGPT0019445_159	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0019445-pduE-K13920	NA	NA
BMS010_03955	1098	ugpC_9	COG3839	sn-glycerol-3-phosphate import ATP-binding protein UgpC	ATGGCCCAGGTAGAAGTGGTTCGGCTTGCTAAGAGCTTTGGCACCGTCGATATCATACGCGATCTCGATTTGAGCATCGCCAACGGAGAATTCGTCGTGTTGGTCGGGCCTTCAGGTTGCGGCAAGACCACATTGCTGCGCATGATAGCCGGGCTGGAAACTACCACTGCCGGTGCGATCCGCATCGGCGACAGAGACGTCACAAATCTTTCGCCGCGCAATCGTGACATCGCAATGGTCTTCCAGTCTTATGCGCTCTACCCGCACATGACCGCTGCGGAGAACATGGGCTTCAGCCTAAAGCTAGCCAAGGTCCCGCAAGCAGAAATCAACGAGCAGGTTAACCGAGCGGCAAAGATGCTGCATATCGAACACCTGCTAGCACGCAAGCCCCGGGACCTCTCCGGTGGCCAGCGTCAGCGTGTCGCCATGGGCCGCGCGATGGTGCGCGAGCCAGCGGTTTATCTCTTTGACGAGCCTCTCTCCAATCTCGACGCGCAGCTCCGTACCACGATGCGAGCCGAGATCAAGCGCATGCATCTGGAAGAGAAGCAGACCGTGATTTACGTTACTCATGACCAGATTGAAGCTATGACGCTTGCTGATCGGATTGTCGCCATGCGGGGCGGCAGCATTGAGCAGATCGGCTCGCCCGATGATCTCTACAATCGCCCAGCCACCACCTTTGTTGCAAAATTCATCGGCTCCCCAGCCATGAACCTCCTGCCCGCGAAGATCAAAGATGGCCTCATCTCAGTCGACGGTGCCCTCTCCTTCCCTCTTCCGGCAGCCTTCGCTCACCTGAAGGAGGAACGCGGTCGAGAGGTGTTGCTCGGCATCAGGCCAGAAGCGTTCCACCTGGAGGCGCGGCGTTCCGATTGGCCGACCTTCACCATCACAGCGTCGCTGATCGAACCGTGCGGCGCCGAAGTCTACGTCATCGGTGATCTCGCCGGCCTGGAAGTCACGTTGCGACTCCAACCAGGCACCGCGCCTGAACGCGGCGAAGTGCGTAGCTTCTATATCGACACCGGGGCCGTGCACCTGTTTGACGCGAAGACCGAGCGCAGCTTGCGCCATGACGGAGACACTCCATGA	MAQVEVVRLAKSFGTVDIIRDLDLSIANGEFVVLVGPSGCGKTTLLRMIAGLETTTAGAIRIGDRDVTNLSPRNRDIAMVFQSYALYPHMTAAENMGFSLKLAKVPQAEINEQVNRAAKMLHIEHLLARKPRDLSGGQRQRVAMGRAMVREPAVYLFDEPLSNLDAQLRTTMRAEIKRMHLEEKQTVIYVTHDQIEAMTLADRIVAMRGGSIEQIGSPDDLYNRPATTFVAKFIGSPAMNLLPAKIKDGLISVDGALSFPLPAAFAHLKEERGREVLLGIRPEAFHLEARRSDWPTFTITASLIEPCGAEVYVIGDLAGLEVTLRLQPGTAPERGEVRSFYIDTGAVHLFDAKTERSLRHDGDTP	PGPT0016310_4378	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0016310-msmX|msmK|malK|sugC|ggtA|msiK-K10112	NA	NA
BMS010_03956	792			2-keto-3-deoxy-L-fuconate dehydrogenase	ATGAGCGAAAAGATCCTCAGCGGCAGAACCGCGCTCGTGACCGCAGCGGGCTCTGGTATCGGGCGGCAATCCGCCTTTATCCTTGGGGCCAACGGTGCCTTCGTGATGGTGACCGACCGAGACGAGGCACTGGCCGAGGAGACGGCGCAGGCCATCCTCGCCGCCGGCGGCCTGGCCGCGTCCTCCGTGATGGACGTAGCGGACGATTCCGCCGTCACCGAGGTATTCGCCAGGCTCGTCCGCGAACACGGCGCTCTCAATATCCTGCACAATCACGCCGGGATCCAAATCGGAGGCGCGCTGGAAGCGATCAATGCCGACGATATGCGCAAAAGCTACGAGATCAACGTCGTAGCGCAGTTCACGGCCTGCAAGGCGGCGCTGCCGCACATGCGGGCACAGGGCGGCGGCGTTATCCTCAACACCGCCTCGAATGCCGGCGTGTTCCTCGACAAGGGCATGCTTGCCTATATCACCACCAAGTCGGCAGTTATCACTATGACGAAGCAGATCGCGCTGGATTACGCCCGCGATGGCATCCGGGTGAATGCACTTTGCCCCGGCTGGGTCGATACGCCGTTCAATGGTCCGTACGAGGCCCAGCTCGGCGGTCGCGCGGCCTTGGAAAATGTCGTCCGCGATCTCGTACCAATGGGTCGCTTCGGACAGCCGGAAGAGATAGCCGAAGCTGTTCTGTTTCTCTGCTCGGACCGCTCGTCCTTCATCACCGGTCACGCGCTGGTGGTAGATGGCGGCGAGTGCCTCGCCGGCGGCAGTAACTCTTCGGTCTGA	MSEKILSGRTALVTAAGSGIGRQSAFILGANGAFVMVTDRDEALAEETAQAILAAGGLAASSVMDVADDSAVTEVFARLVREHGALNILHNHAGIQIGGALEAINADDMRKSYEINVVAQFTACKAALPHMRAQGGGVILNTASNAGVFLDKGMLAYITTKSAVITMTKQIALDYARDGIRVNALCPGWVDTPFNGPYEAQLGGRAALENVVRDLVPMGRFGQPEEIAEAVLFLCSDRSSFITGHALVVDGGECLAGGSNSSV	PGPT0008190_593	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008190-budC-K18009	NA	NA
BMS010_03957	957	thrB_2		Homoserine kinase	ATGCTATCATCGGAACGAGATTCCAATTTCTACATCCGCCTAACAAGCGGTGAGCAGGCCTTGCTCAAGATCACAAACGTGGCGGAAGATCGCGATGTCACTGCCATGCAGACCGCGGCTCTTGCGCATATCGCAGCCGTGGATCCTTCACTGCCCGTGCAGCGGATATGCCAAACCCTGTCCGGCGAACCTTGGGAGATTATCCACGGACCATCTGGGCAAGAACACGTCGCGCGGTTACTGACCTTTATCGATGGCACGATGTTGCATGCAGCCAATCCGAGATCCACGGTCTACCGGCAGATTGGCGTCCTGCTTGCACAGTTGACAAAGGCGTTGCGCGGCTTCTTTCATTCGGCGGCGGGCCACGCCTTGCAATGGGACATCAAGCATGCCGGAAGACTGCGTCCCATGCTGGAAGCCATCGAAAATGGCGACCTTCGTAGGCGGCTAGCCTTGCTACTCGACCGTTTCGACGCCGAAATCGCGCCACAGCTTCCGCACTTTCGCACCCAGGTCGTTCACAATGACTTTAACCCACACAACCTAGTGGTTGACCAGGTGGATGCTTCCCGTCTGACCGGGATCATTGATTTCGGCGATATGGTACACACACCGATAATTTGTGACTTAGCTGTCGCTTGCTCCTATCACATTACGGATGACGCGGAACCGTTGCGTCGTGCAGCTGATATGGTGGGCGGCTACGTCAGCGTGCTGCCGCTTGATGAAGACGAACTATCGCTGTTGCCGGATTTGATCCGGCTGCGTCATCTTACAACGCTCGCCATCACCTCGTGGCGCGCAAGGCGTTATCCTGAAAATGCGAGCTACATTATGCGAAACGCCGCCGCATCACTGCGCGGGCTCGACGTTATCGACGCAATAGGCGTCGTCCCGACCGCGCGCGCGTTACGCGCCGCCGCCCTTTCCGCCACACAGGAGTTTGTACAATGA	MLSSERDSNFYIRLTSGEQALLKITNVAEDRDVTAMQTAALAHIAAVDPSLPVQRICQTLSGEPWEIIHGPSGQEHVARLLTFIDGTMLHAANPRSTVYRQIGVLLAQLTKALRGFFHSAAGHALQWDIKHAGRLRPMLEAIENGDLRRRLALLLDRFDAEIAPQLPHFRTQVVHNDFNPHNLVVDQVDASRLTGIIDFGDMVHTPIICDLAVACSYHITDDAEPLRRAADMVGGYVSVLPLDEDELSLLPDLIRLRHLTTLAITSWRARRYPENASYIMRNAAASLRGLDVIDAIGVVPTARALRAAALSATQEFVQ				NA	NA	NA	NA	NA
BMS010_03958	1308	davT_1	COG0160	5-aminovalerate aminotransferase DavT	ATGACCATGGTCAATGCGTTTGATCCCAATACCCTGTCGGCTCTCGACGCCGAGGACGTGGCTTTGATCGAGCATCGAAACCAAGTTCTTGGACCTGCCTATCGTCTGTTCTACGAGCAGCCCCTTCATCTTGTCCGCGGCGAAGGCGTCTGGCTCTACGACAACAAGGGAAAAGCCTATCTCGATGCCTACAATAACGTGGCATCCGTGGGGCACTGCCACCCCAAGGTTGTTGAGGCGATCACACGCCAGCTCGGCATCCTCAATACCCATACCCGATATCTACATGATGGCGTGGTCGCCTATGCGGACCGGTTGCTCAAATCCATGCCTGACGCGCTCGGCCACATGATGTTCACCTGTACCGGCTCGGAGGCAAATGACCTCGCACTGAGGATCGCGCGGTCGTACACTGGGCGACAGGGCGTCATCGTGACGAACCGCGCCTATCACGGCGTGACCGAGGCGGTTTCGGAAATATCCCCTGCCTTAGGTGAATTCGTCCATCGTGGACCGAGGGTTCGACTGATCCCCGCACCTGATTCGTACCGCGTTCCACCGAAGGAACAGGGAGCGCTACTCGCTCGGGACCTCGCCGCAGCCATCGCCGAAATGCGCGGCGACGGCATTGAGCCTGCTGCGTTTGTCGTCGATACGATCTTCTCAAGCGATGGGCTCTACGTTGATCCTCCAGGTTTCCTTAAGCTGGCCGTGGAGCTTATCCGCGCGGAGGGGGGACTGTTTATCGCGGATGAAGTCCAACCCGGTTTCGCGCGAACAGGCGAGACATTTTGGGGTTTTCAGCGCCACGGCGTGGTACCTGATATGGTAAGTCTGGGTAAACCGATGGGGAATGGCTTCCCGGTAGCGGGACTCGCAATTCGTCCCGAGCTCGTCGAAGAATTTGGAACGAAGGCGCGATATTTCAATACTTTTGGTGGCAGCCCGGTGGCTTGCGCCGCCGGAATGGCTGTACTCGACATTATTGAGCAGGAAGGCCTACAGGAAAATTCGCGCACCATCGGAGATTTCCTCCTCAAGAGCTTCAGCGAGATAACCGCCGGGCGTGATGATGTCGCACAAGTGCGTGGCGCGGGGCTGTTCCTTGCTGTGGAGTGCATCGATGGCGATAAGGCCAACGCCAGACTTGCGAGCCACGTGGTAAACCACCTCCGTCAAAATGGGGTCCTGATAAGCGCAATCGGACCGGGGGCAAATATTCTCAAAATTCGGCCCCCTCTAGTCCTTGGCCGCGGCGACGCGGAGCGGCTCGTAGAATCCACCAAAGCGGCTTTCAATGCCTATTGA	MTMVNAFDPNTLSALDAEDVALIEHRNQVLGPAYRLFYEQPLHLVRGEGVWLYDNKGKAYLDAYNNVASVGHCHPKVVEAITRQLGILNTHTRYLHDGVVAYADRLLKSMPDALGHMMFTCTGSEANDLALRIARSYTGRQGVIVTNRAYHGVTEAVSEISPALGEFVHRGPRVRLIPAPDSYRVPPKEQGALLARDLAAAIAEMRGDGIEPAAFVVDTIFSSDGLYVDPPGFLKLAVELIRAEGGLFIADEVQPGFARTGETFWGFQRHGVVPDMVSLGKPMGNGFPVAGLAIRPELVEEFGTKARYFNTFGGSPVACAAGMAVLDIIEQEGLQENSRTIGDFLLKSFSEITAGRDDVAQVRGAGLFLAVECIDGDKANARLASHVVNHLRQNGVLISAIGPGANILKIRPPLVLGRGDAERLVESTKAAFNAY	PGPT0014253_10	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014253-argD|pqqI-K00821	NA	NA
BMS010_03959	654	mcbR_2	COG1802	HTH-type transcriptional regulator McbR	ATGGAGTTCACTCAGTTAACGTCGGAGCCGTTGCACGAACAGGCGTACGCTGCGTTGCGCAACGCGCTACTGACCGGCAGGCTCGCGCCTGGGCAGTCTTTAACCATCCGCGGCATTGGCTCCAGCTTAGGTATATCGTCGACACCGGTGCGGGAGGCCTTGCAACGGCTTATCGCAGAGGGCGCTCTTCAGCTGGCGGCCAATCGTAGCATCCAGGTCCCGGTGATGACCCGTGACCGGTTCGTCGAAGTTACCGACATACGTCTTCGACTAGAACGCCTAGCTGTCGAGACGGCGGCGGCTCGTGCGGGTGGAGAACTATGTGACAGACTTGACGAGTTGTCTGCACGAATGGAAGTAGCGATAAACAATCGCTCGTTTCCGGATTACCTCGCGGATAATCAAACGTTCCACTTTGCAATTTATGAAGCGTCCAACCTTCCCTATCTGCAACAGCTGATCGGGCTGTGTTGGCTTAGGACCGGACCTTGGCTCAATGGTTTGGCGCAGGAAGGCCGATATCATTCGATAGCGAACAACGAGCATGAGAAGATGATTAGCGCTCTGCGACGAAACGATGCTAGCGCAGCGTCTGAGGCAACTGCCCGCGATATAAGCGAGGCAGCGTCTGCCCTTATAGAAATGCTTCCGTAA	MEFTQLTSEPLHEQAYAALRNALLTGRLAPGQSLTIRGIGSSLGISSTPVREALQRLIAEGALQLAANRSIQVPVMTRDRFVEVTDIRLRLERLAVETAAARAGGELCDRLDELSARMEVAINNRSFPDYLADNQTFHFAIYEASNLPYLQQLIGLCWLRTGPWLNGLAQEGRYHSIANNEHEKMISALRRNDASAASEATARDISEAASALIEMLP				NA	NA	NA	NA	NA
BMS010_03960	3966			hypothetical protein	ATGGACGACAAGACGACGAGCGCGCCGGCAGGGCTTGCAGGGTACGACTACCAGGTCGATGTTTCGATTTACCTTGCGCTCGACCTCATGCTCGTGCGGAAGCGGCTCGACGCGATCACGCTAGAACCCGCCAACCACGAGGACCTCGCCGCCGACCTTAAGGACGAAACCCAAGTCTCTGCCGCGACCCGCGTCATGATCGGGGGCTATCCGCTCATCATCCAGGCCAAGCTCCGCCATGGCGAGCCGTGGTCGGACACCGACCTCGAAACCCTTCTGACCAAGGGCAAGAAGCGCAAATCCCCTAAAACCCTTTTGACCGAGGACACGACGCTCAGGTATCTGCTTGTCACCAGCGCAGCCACCAAGGGCGTCGCCCGCGGTCTGCGCATGGGCTCCGTCGGCGGGACCTGGCCCACGAAGCTTCCGCCTGACATCGGTTCGCGGCTTCTCGGCCTGGACGGCCGCGTTGCCGTTCTCGACGGTCTCGATGAAGCAAAGCTTGATGGTCAGATCCGCGACCTTCTGCAGACAACCTGCAAGGTGCCGCTGACCCACATCCCGAACTGCATTAAGGAACTGCGGACCGTCGCGCTTGAACACATGCGCAATGGCCCCAGCGTTTGGACGCGAGACGCCCTGGAGAAGACCATCACCGCCTTCGGCGGTTACCTGACGACGGCGCCCGAGGTTGGAATGTTCGTAAAGCCGACGAACTGGGCGGAACTGCAGAAAAAGCTGGCTACTCAGTACGGCGTGATCATCAGCGGCAGCTCTGGAACTGGCAAGACGACGGCCGCCGAAGTCCTGCTCGACGAACTACGCAGCGCTCCATACGGCGCATTCAAGGTGATCCGCGTGACAGGCGGACCCGAGCAGGTCTGGAAATCGAAGGAGACCGGCCGCGTTGTGTTTATGATCGAGGATCCCTGGGGCAAGTACCGGTACCACCCCGAGCAAGGTGTCTGGAACCGCGACCTCGACCGTATGTTGAACGAGGCGCATGCCGACCGACAGTTCATCGTCACCACCCGGTCCGATGTGCTCAAGGAAAGCGGTGAACGACTTTCAGCGCGGTGGTTTGTCCCGCTGGAGACACGGCACTATGGACAGCGCGAACGCTTCCGTCTGTTCGACAACCAGGTCCGGCTACTGCCCGAGGGCCTGAAGGCTCCGGTAGACGCGCACCGTGACTTGGTTCTCAAGCGGCTTGAAAGCCCGTACGAGATCCAGAAATTCTTCGACGGACTCGCGGACGACCGGTTGCCCGACGAGACTGTGCCGACGTTCATTCATCGCTGCCTTGGTCGCGCGCACATCGACGCGATCGAGAATACTATCGTCGATCAGGTCGAGGACCGCAACGACGTGCTCCCCGCGATCGCCGTCTGGGGCCTTTTGAAGGCACTGCCACGCCTTTCATGGGAAGTGGTCCCCCAGCTCGCGGACGCGATCGGCGCGAACGACCTCGAACTTGAGGACAAGATCGTCCCTTTGATCCGGTTTATGGCCGCAGGACGTAACCTCCGTCAGCCGAACGATGTGCTGAGCTACTATCACCCACGCGTCGAGGCGGGGCTCGAGCGGGTCATTAAGGAACACGGGGGTCGTGCTGCCCGTCTACTGGGCGTCACGGTGGATGTGTTGATTGCCGTAGATAACTACGATGGCGCCGACTGGGGCCGCGAGGCGGCGGCGCGCCTTGTCCAGGGCGCCAGGAACGATCGCGTCCGCCTAACGGTCAGCGCGGAAGCTCAGGCGGTGATCGACGCTTATGTTCGAACCCGGTTGCTGATGGATTCTGACACCCTCGAAGCCGACCTCAGGCTAGCGGCCGACGTGGGTTCACCTACGGACACGATCACGCTGTTCGCGCGCTGGATCGGCGCACGTGGAGAGACGTTCGGTTTGCTTCAGAACTGGCGCGAAACGCCTGTCAGCGCGGCCGATGCCACCCGCATGGCGGCTGATCTCGATGTCAGGCTAATCGCAGCGCGCGTTGTGCGCGAAACGTTGGCGCGAACGAACGATCATTTCCCGGACGACTTCGCCGACCGCATCTCGGTCGTGGCCGGCCCCCAGACTGACGCCTTCCGGGACGCGGCGTTGCGGATGGTTGGATTCGGCTACGAAAGCAACGCCAATGTGGTGGGCAAGGGAGCTTTGGTCGATTTCGCAGGGTTTGAAGCCGTGGTCGATGCGGCGATCGACGTAAACATCCGCCTGCGCGACGATGACGATGGATCGGTCTGGCGTGAAATTCGCAACGGCGAACACAGCGAAGGCTACGCCGACCATCTCGCCGATATGCACCACGATGACGGCGACACGGCGGACAGCTTCATCCAGCTTTACGTCGCCACGTTACGCCGGCAGTCGGGTTGGAAAGCCATCGTCGCGCGCCCCCGGTCGACGGAGCTACTCTGGGGCTGGATTCAGGTACTCGGCGACGACGGCGTCGTCCCGCAGCCGGGCGAAATGGTGGGCCTAGCCGACGCCGTGCGCGGGCACCGACACGACGCGCGTTTCTGGGACTTGGCGCGCAACAAATGGTCGGCCGATCTCGGCTCACGACTGGATGAATATCTAAAGACACCCGGCCTCGCCGATGATACGCGCCATGCGGTCCTGAAGACTATGATCGTGCACGAACCGGCAAAGGGATACGCGTGGATCCAGGCGATGGCGGCAGTGGATGATCTGCAAGGAGTCCTACGGGCGATGACCGATCTGCGCGCAATCGCGAACGGTTACGAACTGAAAGCCGAGATTCCGGCCTTCGCGGCGGAGGCGCCGGATCAAGCCGGATCCTACGCACCGTTGGCCCGGGCGGTGCTCGACGAAATCCGATATACCCTGTCGCCGACCGAGATCGGTCAATTGGAAGCCCTCGACGCCGCCTCTGACCCTGACCTGCAGCTCGCGCGAGCCCGCCTCCTTGCAGAAGCGGGGCGCCCGGTCCGAAACTATGTCGAAAGCCTGCTCGCGGGCGATGAACTCGACGATATTCGGCGCGCTACGGCCGCGCTCGAGATCGCAGTCGCGCAGGGACTGGTGGACATCGTTGAAGGTGCGCTGAAGCACCAGTTCGCCGATGTCCGGCGCGACGCCCTGCGCGCGGTCGCGACCGGACTCGTCGCACCGCTTCCCGTCCACATCTTGGCGATGGCGCACGACAAAGGAAGCGGAGTGCGCAAGGCGCTCGTCGAAATCTTGGGAACCAAACCCCATGCCGCACATCAGGTGACACTCGTTGGCTTAACCGAGGACAGCTGGACACGCGCCGAGATTTACTACGGCGAGGAGGCGAGCTATCCCATAGCTGCCGCTGCAGCTAGGTTACTTAGCGAGCAAGCCCCGCTCTTCGCCGACGCGATCGACACTCTGATAACGCGAGCCGCTGTGACTAGCGACCCCGACCTACGCGACGCCTTGCTGGTGGCGGTCGCCAAGCAGGGTGATGTCGCTGGCCGTGACCGGCTGGCGGACATTGCGCTCGAGATCGGGCGACCGGGATTACATGCGGCCGCCGCTGAAGCCCTCTTCCTCGCCGGTGATCGGTCACCAAACCGCGCCGCTCGTTTCGAGCAGCATCTTCTATCTGGTCGTGCGCCGAACGTGGCGATCGGCATGGCGCTGGCGGTGGGCGCGACGGGCGATAAGACCGCCGTCCTGACGCTCGCCCGCTCGCTCTACATGAACCAGGATCGGTCCGCCCTCGTCGTCCCCCTGCTGTTCGGGGCTGTCTTCGGGGAGGATGGCCTCGATGACGAGATCGCGGCGCTCCTACCCGATACAATACGCGATGGTCTCGTTCTCGCCTTCAACGGCGACACCTTGGCGCCGAGGACACTTCTCGACCCGCTGGGTGATTTCAGGCTCCGCGGCGCGGTCATCGACCGTTTGCGCAAGTTCTTCGAGTCCAAACCCAAAGACCCCATGCCCGTTTTCAAGAAGATGTCGTAG	MDDKTTSAPAGLAGYDYQVDVSIYLALDLMLVRKRLDAITLEPANHEDLAADLKDETQVSAATRVMIGGYPLIIQAKLRHGEPWSDTDLETLLTKGKKRKSPKTLLTEDTTLRYLLVTSAATKGVARGLRMGSVGGTWPTKLPPDIGSRLLGLDGRVAVLDGLDEAKLDGQIRDLLQTTCKVPLTHIPNCIKELRTVALEHMRNGPSVWTRDALEKTITAFGGYLTTAPEVGMFVKPTNWAELQKKLATQYGVIISGSSGTGKTTAAEVLLDELRSAPYGAFKVIRVTGGPEQVWKSKETGRVVFMIEDPWGKYRYHPEQGVWNRDLDRMLNEAHADRQFIVTTRSDVLKESGERLSARWFVPLETRHYGQRERFRLFDNQVRLLPEGLKAPVDAHRDLVLKRLESPYEIQKFFDGLADDRLPDETVPTFIHRCLGRAHIDAIENTIVDQVEDRNDVLPAIAVWGLLKALPRLSWEVVPQLADAIGANDLELEDKIVPLIRFMAAGRNLRQPNDVLSYYHPRVEAGLERVIKEHGGRAARLLGVTVDVLIAVDNYDGADWGREAAARLVQGARNDRVRLTVSAEAQAVIDAYVRTRLLMDSDTLEADLRLAADVGSPTDTITLFARWIGARGETFGLLQNWRETPVSAADATRMAADLDVRLIAARVVRETLARTNDHFPDDFADRISVVAGPQTDAFRDAALRMVGFGYESNANVVGKGALVDFAGFEAVVDAAIDVNIRLRDDDDGSVWREIRNGEHSEGYADHLADMHHDDGDTADSFIQLYVATLRRQSGWKAIVARPRSTELLWGWIQVLGDDGVVPQPGEMVGLADAVRGHRHDARFWDLARNKWSADLGSRLDEYLKTPGLADDTRHAVLKTMIVHEPAKGYAWIQAMAAVDDLQGVLRAMTDLRAIANGYELKAEIPAFAAEAPDQAGSYAPLARAVLDEIRYTLSPTEIGQLEALDAASDPDLQLARARLLAEAGRPVRNYVESLLAGDELDDIRRATAALEIAVAQGLVDIVEGALKHQFADVRRDALRAVATGLVAPLPVHILAMAHDKGSGVRKALVEILGTKPHAAHQVTLVGLTEDSWTRAEIYYGEEASYPIAAAAARLLSEQAPLFADAIDTLITRAAVTSDPDLRDALLVAVAKQGDVAGRDRLADIALEIGRPGLHAAAAEALFLAGDRSPNRAARFEQHLLSGRAPNVAIGMALAVGATGDKTAVLTLARSLYMNQDRSALVVPLLFGAVFGEDGLDDEIAALLPDTIRDGLVLAFNGDTLAPRTLLDPLGDFRLRGAVIDRLRKFFESKPKDPMPVFKKMS				NA	NA	NA	NA	NA
BMS010_03961	1224	fsr_1		Fosmidomycin resistance protein	ATGTCGACTTCTTCCGCTCAAACTGCAGGTGATGTGCATCTGCCAACCACGAAGCAAGTACACTTGGCCGTGCTGTTCGCGTTAGGTGTCTCCCACCTATGCAACGACACGATACAGTCTATCATCCCAGCTGTGTATCCACTTGTAAAGTCAGAGTTTTCGCTCGATTTTGTGCAGATCGGCATTATCACACTCGTGTTCCAGATCGCGGGAGCTCTGTTCCAACCTGCGATAGGTCTTTACACAGATCGTCATCCTCTCCCGTATTCTGCGGCTTTTGGCATGCTCTTTACTACGGCTGGTCTTCTCGCGCTGGCCTACGCCCCCTCCTATCCGCTGGTGCTCGTAGCTGTCACATTGATTGGGATTGGATCATCGATCTTTCATCCAGAAGCAACCCGTGCCGCTCGTTACGCATCCGGAGGAAGACAGGGCCTGGCGCAAGGGATCTTTCAAGTCGGTGGACAAATCGGCGGCGCGCTGGGACCTCTAGCCGCTGCATTTCTGATTGTCTCCAACGGTCGACAAAGCGCTGCTGCGTTCACCATCATGGTCCTCATTGCAATTTGTCTACTCGTCTGGACCGCACGTCAGTCCGCACAGATCAAATCGCAGTTTGATGCCTATAAAAAAGCTTCAGGCAACGCTGGCGGTACCTATCCGCGTCGGTCCGTCATCATTGGGATGGGCATTTTGACCGTCCTAATGGCCTCTAAGCTGTCTTATCTTGAAGGCTTTCGCTCTTTCTACACCTTCTACCTGATCGACCGTTTCAATGTTTCAGTCGAAACTTCGCAATTGATGCTGTTTGTGTTTTTCATATCGTCGGCAGTCGGCGTGCTGCTGGGCGGACTAGTTGGTGACAGGATTGGAAGATATCGGATTATTTGGATCTCCATTCTCGGCCCGCTCCCGTTCACTTTGCTTTTACCTTTTGCAGACTTTTTTTGGACCGGTGTGCTGACTGTGGTGATTAACCTACTGATGGCAAGTGCGTTCGCTTCGATCATGATCTATGCAATGGAGCTTGTACCTACCCGGATAGGGCTTATAGGCGGTCTATTCTACGGACTGAACTTCGCGATCGGCGGCGTCGCCGCTGCCCTGCTGGGAGCGATGGCGGACCGCATTGGTATCGAAGGGGTGTACAGCGTTTGTTCATTCCTGCCGGCTGTGGGCGTTCTCGCGATATTTTTGCCCCGTCTCCATGGCGAACGCTCGTGA	MSTSSAQTAGDVHLPTTKQVHLAVLFALGVSHLCNDTIQSIIPAVYPLVKSEFSLDFVQIGIITLVFQIAGALFQPAIGLYTDRHPLPYSAAFGMLFTTAGLLALAYAPSYPLVLVAVTLIGIGSSIFHPEATRAARYASGGRQGLAQGIFQVGGQIGGALGPLAAAFLIVSNGRQSAAAFTIMVLIAICLLVWTARQSAQIKSQFDAYKKASGNAGGTYPRRSVIIGMGILTVLMASKLSYLEGFRSFYTFYLIDRFNVSVETSQLMLFVFFISSAVGVLLGGLVGDRIGRYRIIWISILGPLPFTLLLPFADFFWTGVLTVVINLLMASAFASIMIYAMELVPTRIGLIGGLFYGLNFAIGGVAAALLGAMADRIGIEGVYSVCSFLPAVGVLAIFLPRLHGERS				NA	NA	NA	NA	NA
BMS010_03962	939	dmlR_10		HTH-type transcriptional regulator DmlR	TTGGTAATAAGGTCGAATGTCGAGAGCGTTGCTGCATTAAGAGCTTTTGTCGCTGCGGCCGAGTTGCGTAGTTTCAAGGGTGCTGGTGTCGCACTCGGGATTACGTCCTCTGCAATAGGCAAGGCTATTTCAGGCTTGGAGTTGCAGCTCGGTTGCGCGCTCTTTCACCGCACCACTCGTAGTGTGTCGCTGACAGAGGCCGGCAGTATCTATCTCGTTCGCGTCCGCAATATTCTTGAGGAGTTGAAAGCTGCTGAGGACGAGGTCGCGGAGGTCTCGCAGGAACCTCGTGGTCGCCTGCGGGTCGGCCTTCCACTTGGCGGCGAGCTTCTCACCTCTGTAATGGCGCGGTTTACCGCGCTTTATCCCGGGATCATTCTCGAACTCGATTACAGTGATCGCTTGGTCGATGTCATAGAGGAAGGTTACGATGTTGTCATAAGGACTGGTGAGCTCTCAGCTTCAAGGCTTATTCATCGAAAATTGGGCAGCTTTGACTGGGTCCTTGCGGCGTCGCCATCTTATCTCGAGGCGCATGGAGAACCCCGCAAACCGTCAGATCTTCTCGCCCACACCTGTCTCCGGCAGAAGTTTTGGAATGGACGACTTGTACCGTGGCCTTTCCCCAACGATCCAGATTTTGAGGCCCCCATCAGTCTTACGTCCACGATCAATGGGCCTCTTTTTGACATGGCCCTGTGCGGTGGAGGTATTGCAGCCTTTCCAAGTTTCATCTTAACGGCGAGCTTGGCCAATGCATCCCTGAAGAAAGTTCTTGAGGGGCAAATGGAACGGCGGGGCACGTACAATATCCTCTGGCCGCCAGATCGGTATCGTGTGCCCAAAGTACGCGCGTTTGTAGACTTTTTTTTCGAGTGGTTGCCTCCGCGCATCGCGCAAACTGACCGAGATCGCCACGAGGAACAGAAGCTCTTTTAA	MVIRSNVESVAALRAFVAAAELRSFKGAGVALGITSSAIGKAISGLELQLGCALFHRTTRSVSLTEAGSIYLVRVRNILEELKAAEDEVAEVSQEPRGRLRVGLPLGGELLTSVMARFTALYPGIILELDYSDRLVDVIEEGYDVVIRTGELSASRLIHRKLGSFDWVLAASPSYLEAHGEPRKPSDLLAHTCLRQKFWNGRLVPWPFPNDPDFEAPISLTSTINGPLFDMALCGGGIAAFPSFILTASLANASLKKVLEGQMERRGTYNILWPPDRYRVPKVRAFVDFFFEWLPPRIAQTDRDRHEEQKLF				NA	NA	NA	NA	NA
BMS010_03963	1002	rbsB_2	COG1879	Ribose import binding protein RbsB	ATGGGAATCTGCAGATTGATTGCCTCTCTTCTGTGTGGCACCGTGGTCGCCGCTGTCGCTGTCTCTTCGGCCGCAAGTCAGGACGCAAAGCCTGAGCCCGACGGCGGGTACACGGTTGGGTTCGTCGCTCCGATGATCCAGTTGCCGTTTTATGCCGCAATGAAATGCTCTGCCGAAAAGACCGCAAAAAAGAACAACATCAACCTGCTTTGGCAGGGTTCTACGACTTCTTCTCCGCGCGACATGATGCAAATCGTCCAGGCCTTGGTGGCGCAGAACCCCGACGGCATGCTTTTAGCTCCTTGGGATGCGACCGCCTTTATTGCGTCCACTAAAGAGATGATGTCAGCCGGAATCCCGGTCATCACCGTCGATGGAAGCCTCAATGAGCCTGTGGATGTGGCAAACATTCGAACGGGCAATATCGCCGCAGGCAAGCAAGCGGCAGAAGACCTGATGAAAATAGTCGGAGGCAAGGGCACTGTCCTCATTCTGACCGACTCTCCCGGGAACAAGGTGCAGACCGAACGGTATTCAGGCTTCAAAGAGGTGCTTGAGAGCAAATTCAAGGGCGTTACGGTTCTTCCCGTCCAGTATGTCAACTCGCAAGCCGCGAAGGCGTCGACAATTACCTCCGCGACAATAGCGGCTAATCCCGACCTCGTTGCAATTTACACCACGCAGGATGCAGGCGGCGAAGGAGCAGCCAATGCACTGCGAGCCGCGGGAAAGACTGGCGAGATAAAACTCGTTGGTTTTGATGCGACCCCCGCTCAAGTGGAGAACCTCAAGGCGGGGAACTACGATGCCCTCGTTTCGCAAGCTCCCTACGATATCGGTGAACAGATGATCGTAGCGATGAAGAAGGTCCTCGTAGAAGGCGCAGCAAAGGCTGCTCTACCCCGCGACACACTCACTGGATTCAAAACGCTCACGCGGGAAAATGTCGATCTGCCTGAGAGCAGACGTTACATTTTCCGTTCTGATTGCGCTGACCTCTAA	MGICRLIASLLCGTVVAAVAVSSAASQDAKPEPDGGYTVGFVAPMIQLPFYAAMKCSAEKTAKKNNINLLWQGSTTSSPRDMMQIVQALVAQNPDGMLLAPWDATAFIASTKEMMSAGIPVITVDGSLNEPVDVANIRTGNIAAGKQAAEDLMKIVGGKGTVLILTDSPGNKVQTERYSGFKEVLESKFKGVTVLPVQYVNSQAAKASTITSATIAANPDLVAIYTTQDAGGEGAANALRAAGKTGEIKLVGFDATPAQVENLKAGNYDALVSQAPYDIGEQMIVAMKKVLVEGAAKAALPRDTLTGFKTLTRENVDLPESRRYIFRSDCADL				NA	NA	NA	NA	NA
BMS010_03964	348			hypothetical protein	ATGGATCAGGAAGCCGAAATCTTCTGCAGGTTCATGGAGAATGCTCGTAAGCATCTCCGCCCACTTGTCACAGATGACCTAATCAGGGAGCACGAAGCAGATCCATTAGGCCGGCACTCGCTTGACCTTGAACACTTGCTTGTCTTCATGAGGCAACTGCCACAGAAGGATAAGCTCGTAATTCTTGCCGAAGAACAGGATAAGCAGTTTCGCTTATTCCGTCTTTCCGGTGTTCGAGGCCTTCCAGGATCAATTGTGGGCGGCGAGCTATACCACACCGAAGAAGAAGCTCTTCATGCGGGTTTCCTTCAGCGATTGCGCGACTTAGGCCTAGTCGAGGAAAAGTAG	MDQEAEIFCRFMENARKHLRPLVTDDLIREHEADPLGRHSLDLEHLLVFMRQLPQKDKLVILAEEQDKQFRLFRLSGVRGLPGSIVGGELYHTEEEALHAGFLQRLRDLGLVEEK				NA	NA	NA	NA	NA
BMS010_03965	2265	dmfA2		N,N-dimethylformamidase beta subunit	ATGTCGACAAAAAATGACACGAATGCCGTGTGGCCGACTGTCGTCGGTTATGCGGACCGCATGAGTGTGCGCGCCGGAGAGACGATCCGGTTCATGGTTTCGTCAGACAGGACAAAGTCCTGCCAAGTGCATCTTGTTCGTCTTCTACACGGCGCCGCTAGTGCTGATCCGGGTTTCGCTAGCGAAGATGTGGACCATCCGATCAACGGAACAGTGACGATCGCTCCGCAGCCCACCTTCCCGGGCTCACTCATGGTCGCGAAACCGTCCGAAAATCTGGCACCCAATGGTGAATTGACCTTTCAAGCATACATCTACCCCACGCAGCCGGCAGGTGGCCAACAACAGACCATCGTTAGTTGGTCAGGAGCGCGAACCTCGTTTGCGCTGGGCCTCGACGAAAACGGGCGCGCGGGACTATCACTTTCCGACGCGAAGTCATCTTCCGCGTTGGTCTCAGATAAGGCGCTGGAACCGCATCGTTGGTATCGGCTCACCGCGACCGTGTCGGTGGGTGCGCAGAAAATGGCTTTGTATTGTGTTCCACTGGCGGGCCGGTACGTGGGCAGAGCCGGTAGTGTGGCGCGAGTTCCAACGATTGACGCTGAGTGTTCTACGGGCGTCTGCGAGCTTGGTTCTGATCAAGATGTAATCGCTCTAGCCGCGGAATACGACGTAACAGGGAGCCATCGAAGGCATTACAACGGCAAGATCGAAGCGCCGCGCTTTTTCTCCACCTTCGCGTCGGACGGTTCCGAAATTCCGCATCCCGTGTTGCTCGGTTGGGATTTCTCGGAGGGTATCGGCCCAAAAGGCGTTTCCAGCACAAGCGCCCCCTCACATGGCAAGATCTCGGCCGACGGTACCCTAGTCAATACGCCGGCCCGATGTGCGACGGGACACGAATGGACCATAGACGCGCCGGACTTCAGGGCTCAGCCCCAACATTTCGGTGCTATCCACTTTCATGACGACGACGTCACCGATGTCGGCTGGCAGCCTTCGATAAACATCGAGCTTCCGCGCGCCCTTCCAAGCGATGTGTACGCATTGCGCATCAAGGATGGACCGTATGTGGAACACATCCCGTTCTTCGTGAGACCAGCGGCCGGCAGGAAATCATCTTCCGTTCTGTTCCTCGTTCCAACTGCAAGCTATCTCGCTTATTCGAACGAGCACGCGGCACATGATGCTCATGACGCTCAACAGATTGTTTCGCGAATCCCAGTCATTGAAGGCGCGGACCTTTATCTTCACGTTCACCGTGAGTTCGGGGAATCGGCATATAGCCTTCACAACGACGGCAGCGGGGTCGCCTACTGTTCATCCAGGCGCCCCATACTGAACATGCGCCCCACACACCGGTATCATGCCGGTGCCTGGCAGTTTCCCGCTGATCTCGCCGTGATTGATTGGCTCAAGAAGTCGAACTTCGACTTTGACGTTGCCACCGATCATGACCTCCATTTCGACGGTCGCACACTTCTCGACAATTACAAGGTCGTCGTGACGGGAACCCATCCGGAATATTACTCGAGAGAGATGCTTGATAGCCTCGAGGACTACGTCGCCGACCAGGGAACCCTGATGTATCTTGGGGGCAACGGGTTCTACTGGGAGGTATCCTTCGATCCAGAGCAACCCCACGTCATGGAGATCCGCCGCGGCGATGTCGGAAACCGTGCCTGGCAGGCAGCTCCTGGCGAGCTTCGTCACGCCACGACGGGGCGCCCAGGCGGGATCTGGCGAGCCCAAGGAAGGCCCCCTCAAAAGCTTTGCGGTGTCGGTTATGCAGGACAGGGTTTTGATCGATCCAGCTATTTTGTGCAGCTCAACGATCGCTCACACCCTGAGGTCCAGTTCATTTTCGAAGGCATCGACCCGGACGAACGAATTGGCGAATTCGGCGAAATCGGAGGCGGTGCTGCCGGACAAGAGCTTGACCGTTTCGACGTCGAACTGGGGTCGCCGCCTGACGCATGGGTACTCGCGACAACTGAAGGCCTAAATAGAGGTTTCGTACGCGTTTCAGAGGAAATCCTATTTAACCGCCCAGGTTACGCCGCTGATCACGACTACAAAGTGCGTGGAGATATCGTCTACTTTCGCACGGCCGGGGGTGGCGCCGTATTTTCGGTCGGCTCCATCTCGTGGGCAGCGAGCCTTTCTCACAATGGCTACAACAACAACGTGGCGAGGATGACGACGAACGTCGCGAGGGCGTTCGTTGAAGGACTCCCGCAAAGCTCGTGGGTAGATCGATGA	MSTKNDTNAVWPTVVGYADRMSVRAGETIRFMVSSDRTKSCQVHLVRLLHGAASADPGFASEDVDHPINGTVTIAPQPTFPGSLMVAKPSENLAPNGELTFQAYIYPTQPAGGQQQTIVSWSGARTSFALGLDENGRAGLSLSDAKSSSALVSDKALEPHRWYRLTATVSVGAQKMALYCVPLAGRYVGRAGSVARVPTIDAECSTGVCELGSDQDVIALAAEYDVTGSHRRHYNGKIEAPRFFSTFASDGSEIPHPVLLGWDFSEGIGPKGVSSTSAPSHGKISADGTLVNTPARCATGHEWTIDAPDFRAQPQHFGAIHFHDDDVTDVGWQPSINIELPRALPSDVYALRIKDGPYVEHIPFFVRPAAGRKSSSVLFLVPTASYLAYSNEHAAHDAHDAQQIVSRIPVIEGADLYLHVHREFGESAYSLHNDGSGVAYCSSRRPILNMRPTHRYHAGAWQFPADLAVIDWLKKSNFDFDVATDHDLHFDGRTLLDNYKVVVTGTHPEYYSREMLDSLEDYVADQGTLMYLGGNGFYWEVSFDPEQPHVMEIRRGDVGNRAWQAAPGELRHATTGRPGGIWRAQGRPPQKLCGVGYAGQGFDRSSYFVQLNDRSHPEVQFIFEGIDPDERIGEFGEIGGGAAGQELDRFDVELGSPPDAWVLATTEGLNRGFVRVSEEILFNRPGYAADHDYKVRGDIVYFRTAGGGAVFSVGSISWAASLSHNGYNNNVARMTTNVARAFVEGLPQSSWVDR				NA	NA	NA	NA	NA
BMS010_03966	753	frcA_2	COG1129	Fructose import ATP-binding protein FrcA	ATGACCCAGAACCTTCCTGTTCTCGAAGTTCGGAACGTCGCCAAGCGCTTTGGTTCCGTAACCGCCTTAGAAGATATCAATCTTTCCATTCAGCAGGGCGAGATCGTCGCCTTGTTGGGCGACAATGGCGCAGGCAAGTCGACGCTCATGAATATCATGTGCGGCGCCAACCAGCCCGATGAAGGAGCGGTCCTGATTAATGGACAACCGATAAAGTCGCTGCGGCATGCACAAGAGATGGGGGTTGGCATGGTCTATCAAGATCTAGCTATGGCTCCCGATCTGAATGTTGCTGAAAACATGTTCCTTGGACGTGAGTTGACGATCGGTGAACGCAAGAGTTTTCCGGCTCTCCTCGACCGACCACGAATGAACAAGCTCGCAACCGAGCAAATCGAAAAGCTTGGCATTACGACGCTTCGTGATGTCCGCACAAAGGTGTCAAGCCTGTCTGGAGGGCAGCGGCAGGTTGCCGCTATCGCTCGCGCGATGATGTGGACAAAGGCCGCAATCCTTCTCGACGAACCAACTGCAGCGTTAGGTCCGAAACAAGTAGGGGTCGTTCTAGACGCCATTCGCTCCGCCGCAGCACAGGGCCTAGGCGTCTGTATCATTGCCCATGACATCCCACACATTCTGGCGCTTGCGGATAAACTGGTCATTCTCCGGCGGGGTCGGGTGGCACTCGTAACATCAACGGCCGGGCAGACGGTGTCCAGCGTAGTAACTGAGATGATCGGAGAGAGTGTGTGA	MTQNLPVLEVRNVAKRFGSVTALEDINLSIQQGEIVALLGDNGAGKSTLMNIMCGANQPDEGAVLINGQPIKSLRHAQEMGVGMVYQDLAMAPDLNVAENMFLGRELTIGERKSFPALLDRPRMNKLATEQIEKLGITTLRDVRTKVSSLSGGQRQVAAIARAMMWTKAAILLDEPTAALGPKQVGVVLDAIRSAAAQGLGVCIIAHDIPHILALADKLVILRRGRVALVTSTAGQTVSSVVTEMIGESV	PGPT0017155_1446	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_SIMPLE_SUGAR_TRANSPORT,PGPT0017155-ABC_SS_A-K02056	NA	NA
BMS010_03967	1038	alsC	COG1172	D-allose transport system permease protein AlsC	ATGTCAGGTAAAAACAGCACTGTAGCCCCGAATCTCACCACATCCGGGTATCGCGGAAAACCCATGCGTCTTGCCTCTGGCAACATCCTCTGGATCAGCCTGGTCAACGCATCTCTAATTCTCGTATTCTGGTACTTCTCGCGTTCAGGCGCATTTTTGAGTGCTACTAACATCGAGAGTATCCTAGTCACCCTGTCACAGGTGATCCTTCTGTGCATTGCTCAAACCATACTCTTGGCCTCTGCCCAGATTGATATTTCCCAAGGCGGCAATGTCATATTGTCTTCAGTCGTTTCCGGCCAGATTCTCGTCATGCTCGCCAGCCAGGGCACGCTGTCCGCGCCTCTGGCGTTGCTGATCCTTTTCTTGGCAGCCACGATGACTGGCGCGATTTTCGGATGCGTCTCGGGCATCTTGGTGGGGAAACTTGGGATAAATTCCCTCATTGTGACGCTCGGGATGCTGGGAATTGGCATCGGCGTATCCAATGTCTTGACGGATGGCGCGAACCTGATCGGGATTCCGACAGTGATCCAGTCCGCGTTTGGCATCGCGAGGTTCGCTTTCATCCCGCTTCCTTTCATCACCACAGCGGTCATTGTGGCAGTCATCTGGTATATTTTCGCCAAAACGAAGTTTGGGGTCCATAGTCTCGCGATCGGTTCGTCGAAGAACGCAGCGCAACGAAATGGCATCAACATCACTCGTCACGTGATCCTGTGTTACGTGATAACGGGCGCCATGTGCGGTGTGGCAGGCGCAATGGATATTGCGCGGTTTGCGACAACAGACATCGGAGGCCATTCGAACGACGCACTTGCCGCAATTTCCGGCGCGGTCATCGGGGGGACCAGTCTCTTTGGTGGGAAGGTCTCATTTGCGGGATCGATCCTGGGTGCGCTCCTCGCTGTCCTTTTGCAGTCCGGGCTCGTTATTTTGAATTTCCCTCCATTCTACCAGACGATCGCCATCGGCTTTGTGCTGATTGTGGCCGCGGGCATCGACCAACTGCGTTCAGAAAAGCGCAGGAGCGCCTGA	MSGKNSTVAPNLTTSGYRGKPMRLASGNILWISLVNASLILVFWYFSRSGAFLSATNIESILVTLSQVILLCIAQTILLASAQIDISQGGNVILSSVVSGQILVMLASQGTLSAPLALLILFLAATMTGAIFGCVSGILVGKLGINSLIVTLGMLGIGIGVSNVLTDGANLIGIPTVIQSAFGIARFAFIPLPFITTAVIVAVIWYIFAKTKFGVHSLAIGSSKNAAQRNGINITRHVILCYVITGAMCGVAGAMDIARFATTDIGGHSNDALAAISGAVIGGTSLFGGKVSFAGSILGALLAVLLQSGLVILNFPPFYQTIAIGFVLIVAAGIDQLRSEKRRSA	PGPT0016590_1164	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0016590-rbsC-K10440	NA	NA
BMS010_03968	1449	nylA		6-aminohexanoate-cyclic-dimer hydrolase	ATGCATCTACAGGATATCAAGAAGCTCTACGCGGAAACTGACGGCGTGGGCCTCGCGGAACTTGTTAGAAAGAAGGAGATCAAGTCGAGCGAGCTCGTTGAGGCCGCTATCGAATTGATCGAGCAAGTGGATCCCGCGATAAATTCAGTGGCCATCAAAACCTACGAATTTGCGCGCCGAACGGCCGCTTCGGAGTGCCAGGGACCGCTAGCTGGGGTGCCTTTCCTGCTCAAAAACGTCGGATCTGCTTGCGAGGGCATACCTCTCGATCAGGGCATGAAGGCCTTACAAGGTCTCGCATGGTCTAGTCAGACGGAGATGGTAACGCGTATTCGCGACGCTGGAATGCCGATATTAGGTCGTACGAACGCGCCGGAAAATGGATGGTCTATAGGCACCGAGAATAGGCTTCATGGCAAGACTCGTAATCCCTTTGACCCATCGCGTACGGCTGGCGGATCCTCTGGCGGCGCGGCGGCAGCGGTTGCAGCACGTTTAGTGCCAATCGCAGAGGGTTCGGACGGAGCTGGATCGATCCGCGTTCCTGCATCATGTTGCGGGGTTGTCGGCCTCAAACCGTCACGTGGCCGGATCACCTATGGTCCAGATATCGCTGATGCTTGGTTTGGTTGCGTATATACGCTTTGCAACAGCCTCACCGTACGCGACACTGCAGCATTCCTGGACGTCACCTCCGGCAATTCTCCTGGCGATCCCTACACGACGCAGAAGCCAGAGAGGAGTTGGCTGTCACTCTGCACACAAGCTCCCAAGAAACTAAAGATTGGATTCACGCGGAGAGCCAACTGGGGCACTGCCCCTGACCCTGAGGTTATGTCGTCGCTTGACAACAATCTTCGTCTCCTAGAAAGCTTGGGGCACACCCTGATCGAGTACGATCTTCGGACGGATATCGAGCGCGCCTGGTGGGATTACAATGATATCGTTTCGGTCGAGTATTCTCGGGATTTCAAATCACTCGGCTCCAATCTGATCAATCGAAGCCTGGATGATGAAGAGTTCTGCCCCTTCAACCGCGCAATGATGCAGCGAGCACGCTCTCTGTCAGCAATTGAATACTCCGAGAGCATTTCAGCAACGAGGAAAGCTGGTCAGCAATTTGCTGCAGAAATTGCGCCCTTCGACGTCTTCGTGTCTCCCACGCTAACGCAATTGCCACGGCCGGTGGATTATTGGTCGATGGAGGAGAGTGATCGCGAAGCCTATCTCTCGCGCTGGTCAGATGCAGCCTTCATGTTCATCTTCAACATCTCAGGAAATCCGGCAATTTCGATCCCAGGAAAGCCTTCGAAAGCTGGTCTTCCTTTGGGCATTCAGTACGTAGCCAGGCATGGGGACGAAACCACTCTTCTTCAACTCGCGGCTCAAGTCGAGGATCATCATCCCTGGAACGCCCATCTGCCCGTCGTTAGCGGACTTGAGCGGTGA	MHLQDIKKLYAETDGVGLAELVRKKEIKSSELVEAAIELIEQVDPAINSVAIKTYEFARRTAASECQGPLAGVPFLLKNVGSACEGIPLDQGMKALQGLAWSSQTEMVTRIRDAGMPILGRTNAPENGWSIGTENRLHGKTRNPFDPSRTAGGSSGGAAAAVAARLVPIAEGSDGAGSIRVPASCCGVVGLKPSRGRITYGPDIADAWFGCVYTLCNSLTVRDTAAFLDVTSGNSPGDPYTTQKPERSWLSLCTQAPKKLKIGFTRRANWGTAPDPEVMSSLDNNLRLLESLGHTLIEYDLRTDIERAWWDYNDIVSVEYSRDFKSLGSNLINRSLDDEEFCPFNRAMMQRARSLSAIEYSESISATRKAGQQFAAEIAPFDVFVSPTLTQLPRPVDYWSMEESDREAYLSRWSDAAFMFIFNISGNPAISIPGKPSKAGLPLGIQYVARHGDETTLLQLAAQVEDHHPWNAHLPVVSGLER	PGPT0006115_4260	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRP-DEPENDENT_PATHWAY_2,PGPT0006115-EC_3_5_1_4|amiE-K01426	NA	NA
BMS010_03969	504	mcbR_3	COG1802	HTH-type transcriptional regulator McbR	ATGTTGGCCAACCGGTCCATTGCAGTCCCAGATTGGGACGCCGACAAGTTTGTGGAGCTCTTCAGAATTCGGTGCGAACTCGAGGGCCTCGCTGCCGAGCTTGCCACCAAGATCCTACCGCCACGGGTAGTTTCCGAGCTAGCGGCACTGTCTCAACAACTTGGCGACGCCGCCAAGCGCGAAGACCATGCCGATTACGTCTCTCTTAACCAACGCTTCCACTTCACAATTTACCAGCATGCCGCGTCGCCTCGTTTGCTGCGTATCATAGAGAACCTGTGGGGAGAGGTAGGCGTGTATATGAACGAGCTTTTCTCGCATCCCGGGTACGGCTCAATTGCCAACGAGGAACATGAGCACATTGTCAGGGAAATCCGGAATGGGAACGCTTCTGAGGTGCGACGCCATATGGTGGCCGACATATCGAAAGCCGCTGATTTCCTTCTCCCACGGATCGAGTTTCTCGCAAACGAGGGCAAGACGGTCACCGCTCAAGTCCGCTAA	MLANRSIAVPDWDADKFVELFRIRCELEGLAAELATKILPPRVVSELAALSQQLGDAAKREDHADYVSLNQRFHFTIYQHAASPRLLRIIENLWGEVGVYMNELFSHPGYGSIANEEHEHIVREIRNGNASEVRRHMVADISKAADFLLPRIEFLANEGKTVTAQVR				NA	NA	NA	NA	NA
BMS010_03970	1479	davD_3	COG1012	Glutarate-semialdehyde dehydrogenase	ATGACCATTTCGAACACACTGGTGTCTAAGCTAAATGACCCAGCGCTCGTTACCGACAAGGCCTTGATTGCCGGTGATTGGGTTGCCAAAAGCGATGGCGGCAAGACTTTCGACGTCACGAACCCCGCCAATGGTGAGGTGATCGCCACCCTGCCGGACATGAACCGCGCTGAAGCGGCCCGCGCGATAGACGCTGCCTACACGGCGCAAAAGGAATGGGCGAAGAAGACCGGCAAGGAGCGTGCAGCCGTGCTGCGCAAGCTCTACGATCTGATGGTTGCCAATGCCGACGACCTCGCCACGATCCTAACCATGGAAATGGGCAAGCCGCTTTCCGAAGCCAAGGGCGAGATCCTCTACGGCGCAGCCTATGTCGAATGGTTCGGCGAGGAGGCAAAGCGCGTCTATGGCGACACCATTCCGGGTCACCAGCAGGACAAGCGCATCATCGTCCTCAAGCAGCCGGTCGGCGTGGTCGCGGCGATCACCCCGTGGAACTTCCCGAATGCCATGCTCGCCCGTAAGTTCGCACCGGCGGTCGCTGCCGGTTGCGCCATGGTGTCCAAGCCTGCTGCTGAAACTCCGCTTTCGGCATTGTCGCTGGCCCTACTCGCTGAGCGCGCAGGCCTGCCGGCCGGTGTCTTCAATGTCATCACCTCCAAGGATTCTCCGTCGATCGGCAAGGAGTTCACGGAGAACGACAAGGTCCGCAAGCTGACCTTCACCGGCTCGACGGGTGTGGGCAAAATCCTCATGCGCCAGGGCGCCGAGCAGATCATGAAGCTTGGGCTAGAACTCGGCGGCAATGCGCCGTTCATCGTTTTCGACGATGCCGATCTCGATGCGGCTGTTGAAGGGGCAATGGTCTCCAAGTACCGCAACAACGGCCAGACCTGCGTTTGCGCTAACCGGCTTTACGTCCAGGCCGGGGTCTATGATGCCTTCGCCAAGAAGCTGGCCGAGAAGGTCGGTGCGTTGAAGGTCGGCGATGGCTTCGAAGCAGGCGTCAATGCCGGCCCGCTGATCACCGAGAAAGCGGTCCAGAAGGTTGAGGAACACATCGCGGACGCGCTCGAGAAGGGCGCGAAGATCGCTGTCGGTGGCAAGCCGCACGAGAAAGGCGGCCTGTTCTTCCAGCCGACCATCCTGACCGGCGTTACCACCGAGATGCTAGTTGCCCGTGAGGAGACCTTCGGCCCGGTTGCACCGCTGTTTAGATTCGAGACCGAGGAAGAGGTCATCGAATTGGCCAACAATACCGAGTTCGGCTTGGCCTCCTACTTTTTCTCGAAGGATGTCTCGAAAATTTTCCGCGTGGCCGAAGAGCTGGAATATGGCATGGTGGGCGTCAACACGGGGCTGATCTCCACCGAAGTAGCGCCGTTCGGTGGCATCAAGCAATCCGGGCAGGGCCGCGAAGGCTCGAAGTATGGTATCGACGATTATACCGAGATCAAATATCTTTGCTTGAGCATTTGA	MTISNTLVSKLNDPALVTDKALIAGDWVAKSDGGKTFDVTNPANGEVIATLPDMNRAEAARAIDAAYTAQKEWAKKTGKERAAVLRKLYDLMVANADDLATILTMEMGKPLSEAKGEILYGAAYVEWFGEEAKRVYGDTIPGHQQDKRIIVLKQPVGVVAAITPWNFPNAMLARKFAPAVAAGCAMVSKPAAETPLSALSLALLAERAGLPAGVFNVITSKDSPSIGKEFTENDKVRKLTFTGSTGVGKILMRQGAEQIMKLGLELGGNAPFIVFDDADLDAAVEGAMVSKYRNNGQTCVCANRLYVQAGVYDAFAKKLAEKVGALKVGDGFEAGVNAGPLITEKAVQKVEEHIADALEKGAKIAVGGKPHEKGGLFFQPTILTGVTTEMLVAREETFGPVAPLFRFETEEEVIELANNTEFGLASYFFSKDVSKIFRVAEELEYGMVGVNTGLISTEVAPFGGIKQSGQGREGSKYGIDDYTEIKYLCLSI	PGPT0001580_1359	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135	NA	NA
BMS010_03971	3258	dnaE2_2		Error-prone DNA polymerase	ATGAGCTACGCCGAGCTTCAGGTCACGACCCACTTTTCCTTCCTGCGCGGCGCCTCCTCTGCACAGGAATTGTTTGAAACCGCTAAAATCTTGGGGATAGAGGCACTCGGCGTCGTCGATCGGAATTCTCTGGCAGGCATCGTCCGGGCGCTGGAAGCATCCCGCGCCACCGGTCTGCGCCTGGTCGTCGGCTGTCGGCTCGATCTCGCCGACGGCATGTCTGTGCTGGTCTATCCGATGGATCGAGCTGCCTATTCACGTTTGACGCGCCTCATCACGCTGGGCAAATCGCGTGGCGGCAAGAACAACTGTATCCTGCATTGGGAGGACGTCGTCGCTTACTCCGATGGAATGCTCGGCATTCTGGTGCCGGATCTGCCGGATGCCACCTGTGCCGCGCAGCTCCGAAGAATGGCTCAAGCGTTTGGTGATCGCGCTTACGTGTCTCTCTGTCTGCGTCGGCGACCGAACGACCAGTTGCGGCTGCACGAGATGTCCAACATGGCGGCGCGGTTCAAGGTCAGAACCGTCGTCACCAATGATGTGCTGTTTCATGAGCCGGGCCGTCGGCAGCTGCAGGACATCGTCACCTGCATTAGGCACAACACCACGATCGACGATGTCGGTTTCGAGCGCGAGAGACATGCGGACCGATATCTGAAGCCACCGGAAGAAATGGAACGCCTGTTTCCGCGCTACCACCAAGCCCTGGCGCAAACCCTGGAAATTGTGCGTCGCTGCAAGTTCTCGCTCGAGGAGCTGACCTATCAGTACCCGGAGGAAGCGATCGTGCCGGGCAAGGATGCCCAGGCCTCGCTGGAGCATTATGTCTGGGAATGTGCGCCGGACCGGTATCCGGAAGGTCTACCGCCGGATGTCCTCAAAACCGTGCGGCACGAACTCGACCTCATCCGCACCATGAGATACGCGCCGTATTTCCTCACTGTATTTTCGATCGTGCGCTTTGCCAGAAGCCAGGGAATTCTCTGCCAGGGCAGGGGGTCCGCCGCCAACAGTGCCGTCTGCTATATTCTCGGCATCACATCGATCGACCCCTCGACCAATGATCTTCTCTTCGAGCGTTTCGTCAGCCAGGAACGCGACGAGCCGCCGGATATCGATGTCGACTTCGAGCACGAACGGCGCGAGGAGGTCATCCAGTGGATCTACAAGACCTATACCAAGGACAAGGCGGCACTCTGCGCCACCGTCACCCGCTACCGGGCCAAGGGCGCAATCCGCGATGTCGGCAAGGCGCTTGGCCTGCCTGAAGATGTCATCAAGGCGCTGTCATCGGGCATGTGGTCCTGGTCGGAAGAAGTTCCCGACCGAAACATCCGCGAACTTAATCTCAACCCCGACGACCGGCGCTTAGCGCTCACCCTGAAACTCGCGCAGCAGTTGATGGGCGCGCCTCGGCATCTGGGCCAGCACCCCGGCGGCTTCGTTCTCACCCATGACCGGCTGGACGATCTCGTGCCGATCGAACCGGCGACGATGAAAGACAGGCAGATCATCGAATGGGACAAGGATGACGTTGAGGCACTGAAGTTCATGAAGGTGGATGTCTTGGCGCTCGGGATGCTCACCTGCATGGCCAAGGCTTTTGATCTCATCCGCGAGCACAAAGGGCAGGATCTTGATCTCTCGAAAATCAGCCAAGAGGATGCGGCGACCTATGCAATGATCCGCAAGGCTGACACGCTCGGCACCTTCCAGATCGAAAGCCGTGCGCAGATGGCGATGCTGCCGCGGTTAAAACCGCGCACGTTCTACGATCTCGTTGTTCAGGTGGCGATCGTGCGGCCGGGCCCAATCCAGGGTGACATGGTGCATCCCTATCTCCGTCGTCGCGAAGGCAAGGAGTCCGTCGAGTATCCGACACCCGAGTTGGAGGCGGTGCTCGGCAAGACGCTGGGCGTGCCGCTGTTTCAAGAGTCAGCGATGCGCGTCGCCATGGTCTGTGCCGGCTTTACCGGTGGTGAGGCCGACCAGCTGCGCAAATCGATGGCAACCTTCAAGTTCACCGGCGGCGTCTCACGGTTCAAGGACAAGCTGGTTTCGGGGATGGTGAAGAATGGTTATTCGCCAGAGTTTGCCGAAAAGACCTTCTCGCAACTCGAAGGTTTTGGCTCCTACGGCTTTCCCGAGAGCCACGCGGCCTCTTTTGCATTGATTGCCTACGCTTCGAACTACATTAAGTGCCATTATCCGGATGTCTTTTGCGCAGCCCTTCTCAACAGCCAGCCCATGGGCTTTTATGCTCCGGCCCAGATCGTCGGGGATGCGATCAAGCATGGCATCGAGGTGCGGCCTGTCTGCGTCAACCGCTCGCGATGGGACTGCACGCTGGAAAGGATCGGCAGCACTGATCGACATGCTGTTCGGCTGGGTTTCCGGCAAGTGAAGGGACTGGCTGTCGCGGACGCCGCACGGATCGTTGCAGCGCGCATGAACAACCCGTTTGCCTCAGTCGATGACATGTGGCGCCGGTCCGGTGTGCCGACCGCAGCGCTTGTTCAACTGGCAGAGGCCGACGCCTTTCTGCCATCGCTGAAACTCGAACGACGCGATGCGCTTTGGGCGATCAAGGCGCTGCGCGACGAGCCCTTACCGTTGTTTGCAGCCGCAGCCGAACGCGAGGCGACAGCAATTGCTGAACAGCAGGAGCCAGAGGTGGCGCTTCGGCAAATGACGGACGGCCATAACGTTATCGAGGACTACAGCCACATCGGGCTGACTTTGCGCCAGCATCCGGTCGCCTTCCTGCGTAAAGATCTCTCGGAGCGCAATATCATCACCTGTGCCGAGGCGATGAATGCCCGGGATGGGCGGTGGGTTTACACCGCTGGACTTGTGCTGGTGCGGCAGAAGCCGGGATCGGCCAAGGGTGTGATGTTCATCACCATCGAGGACGAGACGGGACCGGCCAACGTCGTTGTCTGGCCCACTCTGTTCGAGAAGCGCAGGCGCATCGTGCTGGGATCGTCGATGATGGCGATCAACGGGCGGATCCAGCGCGAAGGGGAGGTCGTCCATCTCGTGGCCCAGCAACTCTTCGATTTCTCAGGCGATCTGGTCGGCCTCGCCGATCGGGATACGGAGTTCAGGCTGCCGGCTGGTCGCGGCGATGAGTTTGCCCACGGCGGCGGCGGGCCGGATTCACGCGACAGGCCAAAGCCGGTTGTCCCACGAGACATGTTCACACCGGATCTTCATATCGATACACTGAAGGTCAAAGCGCGCAATTTCCAATGA	MSYAELQVTTHFSFLRGASSAQELFETAKILGIEALGVVDRNSLAGIVRALEASRATGLRLVVGCRLDLADGMSVLVYPMDRAAYSRLTRLITLGKSRGGKNNCILHWEDVVAYSDGMLGILVPDLPDATCAAQLRRMAQAFGDRAYVSLCLRRRPNDQLRLHEMSNMAARFKVRTVVTNDVLFHEPGRRQLQDIVTCIRHNTTIDDVGFERERHADRYLKPPEEMERLFPRYHQALAQTLEIVRRCKFSLEELTYQYPEEAIVPGKDAQASLEHYVWECAPDRYPEGLPPDVLKTVRHELDLIRTMRYAPYFLTVFSIVRFARSQGILCQGRGSAANSAVCYILGITSIDPSTNDLLFERFVSQERDEPPDIDVDFEHERREEVIQWIYKTYTKDKAALCATVTRYRAKGAIRDVGKALGLPEDVIKALSSGMWSWSEEVPDRNIRELNLNPDDRRLALTLKLAQQLMGAPRHLGQHPGGFVLTHDRLDDLVPIEPATMKDRQIIEWDKDDVEALKFMKVDVLALGMLTCMAKAFDLIREHKGQDLDLSKISQEDAATYAMIRKADTLGTFQIESRAQMAMLPRLKPRTFYDLVVQVAIVRPGPIQGDMVHPYLRRREGKESVEYPTPELEAVLGKTLGVPLFQESAMRVAMVCAGFTGGEADQLRKSMATFKFTGGVSRFKDKLVSGMVKNGYSPEFAEKTFSQLEGFGSYGFPESHAASFALIAYASNYIKCHYPDVFCAALLNSQPMGFYAPAQIVGDAIKHGIEVRPVCVNRSRWDCTLERIGSTDRHAVRLGFRQVKGLAVADAARIVAARMNNPFASVDDMWRRSGVPTAALVQLAEADAFLPSLKLERRDALWAIKALRDEPLPLFAAAAEREATAIAEQQEPEVALRQMTDGHNVIEDYSHIGLTLRQHPVAFLRKDLSERNIITCAEAMNARDGRWVYTAGLVLVRQKPGSAKGVMFITIEDETGPANVVVWPTLFEKRRRIVLGSSMMAINGRIQREGEVVHLVAQQLFDFSGDLVGLADRDTEFRLPAGRGDEFAHGGGGPDSRDRPKPVVPRDMFTPDLHIDTLKVKARNFQ				NA	NA	NA	NA	NA
BMS010_03972	1341	imuB_2		Protein ImuB	ATGCCGGCGGCGAAGGCGCAGTCGCTGTTTCGCGGTCTGATGATGGTCGACGCGGATATCGAAGCCGATCGGGTAGCCCTCGAACGCATCACGCTCTGGGCGCTGACGATCTATTCGCCAATCGTTGCCGTCGACGGGATCGATGGCATTGTCATGGATACCGAAGGCGCCGACCACCTGCAGGGCGGCGAGCTGCCAATGGTGACAAAGATCGCCAACCAGTTTCTGGGCAGGAAGCTGACTGCCCGCGTGGCGGTCGCCGACAGCTGGGGTGCGGCCCACGCCTGCGCCCGCGCCATCAACCGCGAGAAGATTGTCATTCCGTCAGGCGAGACAGTCCGCGCGGTGGAAAAACTGTCGATTTCGCTCCTACGCCTGCCGTCCAAGACTGTCAGCGATCTGCGCATTCTCGGATTTCAGACGATCGGTGAGCTTGCCAATACCCCACGCGCGCCACTGACTTTGCGCTTTGGTCCGGAGATCGGCCGCCGTCTCGACCAGATGCTCTGTCGTATCGCCGAGCCTATCGAGCCGATCCGCACCCCTGAGCTGGTCGAAGTTTCGAAAGCCTTCGCTGAACCGATTGGCGCTGCCGAAACGATCAACAAATATGTCGGCCGCCTCGTCGTCCAGCTGGTCGATGAGCTTCACAAGCGCGGCCTTGGGGTGCGCCGTGCCGACCTGATCGTCGAGAAGGTCGACGGTACCAGGCAGGCCATTCGCGCAGGCACCGCCAAGCCTGCCCGCGACATCGCCTGGCTGACGAACCTGTTTAGGGACCGGACCGAAAAGATCGAGCCGGGTTTCGGGATCGAGAAGCTCACCCTTGTCGCCGTCATGGTAGAGCCATTGGAAGAGGCGCAGAAAGCCTCTGCTCTGATCGAGGATGACATCACCGATGTAACGCCGTTGATCGATATCTATGGAAATCGGGGCCAGCGGGTCTACCGCGTCGCGCCGGTCGCTTCCGACGTGCCGGAGCGCTCTGTCCATCGGATCAGCCCTGTCGCTGAACCGATCGCCGTTGCCTGGGTGAGCCATTGGCGCCGGCCGGTCCGGCTTTTACCACGCCCCGAGCTGATCGAGGCGATCGCGCTGATGCCGGACCGCCCACCAGTTTCCATCGTCTGGCGCGGCAAGCGCCATAAGGTCAAACGCGCCGATGGCCCGGAACGCATTTTTGGAGAATGGTGGCAGCGTGACGCCGAAATGGAGGCGGTACGCGACTACTTTGTCATCGAGGACGAGGCAGGTGAGCGCCTGTGGGTATTCCGCTCCGGCGACGGGGTCGATCCCGAAACCGGTTCCCATCGCTGGTTCTGCCACGGGATCTTTGCATGA	MPAAKAQSLFRGLMMVDADIEADRVALERITLWALTIYSPIVAVDGIDGIVMDTEGADHLQGGELPMVTKIANQFLGRKLTARVAVADSWGAAHACARAINREKIVIPSGETVRAVEKLSISLLRLPSKTVSDLRILGFQTIGELANTPRAPLTLRFGPEIGRRLDQMLCRIAEPIEPIRTPELVEVSKAFAEPIGAAETINKYVGRLVVQLVDELHKRGLGVRRADLIVEKVDGTRQAIRAGTAKPARDIAWLTNLFRDRTEKIEPGFGIEKLTLVAVMVEPLEEAQKASALIEDDITDVTPLIDIYGNRGQRVYRVAPVASDVPERSVHRISPVAEPIAVAWVSHWRRPVRLLPRPELIEAIALMPDRPPVSIVWRGKRHKVKRADGPERIFGEWWQRDAEMEAVRDYFVIEDEAGERLWVFRSGDGVDPETGSHRWFCHGIFA				NA	NA	NA	NA	NA
BMS010_03973	765	imuA		Protein ImuA	ATGACTGCTGCCCGCCCCAAGGGGGTGTCCGAGGTGATCTGTGACTTGCGTGACCGCATCGCCTCGATGGAGGGCGGCGCGGCGAAACGAGCCGGAACGCTCTCTTTCGGTGTGCCCGAGATTGATGCGGCCTTGCCTGGCGGTGGTCTTGCCTATGGAGCCCTGCATGAGTTTGCGGGCGGAGGATCCGGTACAGTCGACGGAGCGGCTGCCGCGCTTTTTGTGGCCGGCATTGCCGCGCGAACCAAGGGGCCAGTCATCTGGTGTCTGACGAGGCCGGATCTGTTCTTTCCGGCGCTTGCCCAGGTCGGCCTCCATCCCGACCGCGTCATCTTCGTCGAGTCCGACAAGGAGGAAGACGTGCTGGCCAATATGGAGGAGGGCCTATCCTTCGGCGGTCTCGGCGCCGTTGTTGGCGAACTTGTACGCCTGCCGATGGTCAGTTCACGCCGGCTGCAACTGGCCGCCGAGCGAACCGGGACGATGGCGCTCGGCGTTCGGCGATGGCGCCGGCAGACGGAGGCGAATGATTTTGGCCAGCCGACGGCGTCAACGACGAGATGGCGCGTCAGCGTCATGCCGTCCGAGGCACTGCCGGTCCCGGGGGTGGGCAGGCCTCAGTGGTTTCTGGAATTGATGCGCGTGAAAGCGGGTGAGTGTGCTGAGTTTCTCGTGAGAGCGTGTGATGACAAGGGTCGTATCCATTTATCTTCCGGATCTGCCGACGGATCGAATACGGCGCGCAGATCCCTCCATTCCGCCTGA	MTAARPKGVSEVICDLRDRIASMEGGAAKRAGTLSFGVPEIDAALPGGGLAYGALHEFAGGGSGTVDGAAAALFVAGIAARTKGPVIWCLTRPDLFFPALAQVGLHPDRVIFVESDKEEDVLANMEEGLSFGGLGAVVGELVRLPMVSSRRLQLAAERTGTMALGVRRWRRQTEANDFGQPTASTTRWRVSVMPSEALPVPGVGRPQWFLELMRVKAGECAEFLVRACDDKGRIHLSSGSADGSNTARRSLHSA				NA	NA	NA	NA	NA
BMS010_03974	1053	ligD_1	COG1793	Multifunctional non-homologous end joining protein LigD	ATGACGAAGCCACCGAGATCAAAGCCGCTCCTTCGTGATACCGAAGCCCCGATCCGCTCGAAGCCGCGTCGGAAGCGTAACCCGGCGCAGCCACAGCTGCTGTTCGATCCGATGCCCGATCGCGTCGAGCCGGCGCTTGCGCAATTGAAGGCCTATCCGCCACAAGGTGATCAATGGAGCTGGGAGCTGAAGTGGGACGGCTATCGCCTGGCGGTTCATATCGAACCGACCGGGGTCCGCATCCTCACCCGCGGCGGTCATGACTGGACCCACCGGATTCCGGCAATTGCTGAGGCAGCGCGAGCGCTCGGACCGGCGACCATGATCATCGATGGCGAGGCGGTGGTGCTTGACGAGCAAGGGCGGCCGGACTTCGGGCTGCTGCAGAATTCGTTGGGTGCTTCCGGCAAGGCCGCTGGCAATCGAGCGTCTGATGCTGTCCTTTACGCCTTTGATCTCATGTACCTCGACGGCCACGATCTGCGGGAGATAGAGTACCGATCACGCCGGCATCTTCTCGAGGATACGATAAAGGCAAATGACGGCGCCATTCGTCTATCGGAAACACTCGACGCTGACCCCAACGTTCTGCTGGAGCATGTCCGCAGCCTTGGTCTTGAAGGCATCGTTGGCAAGCATCTCGATCAGCCCTATCGTTCCGGCCGCACCGGCGACTGGATCAAGGTGAAATGCGTCGAGAGCGAGGCGTTCATGGTTGTTGGCTACGAGCCATCCACCGCATCGCCGGGCGGCTTCGCATCGCTGGTGCTTGCTGCCTATCGTGGCGACGAGCTCATCCATGTCGGGAACGTCGGCACGGGCTTCACGGAAGCCGAGATGATCAGGCTTCGCAAAACGCTCGACAAGCTGCGCTGGAAACGAAAGCAGCCGCCCGTACCCTTTACCGAAAAATCAGACATCGTCTGGGTCGAGCCGACCTTGATCGCCGAGATCGAGTTCCGGGCCTGGACTGGGGACCGCAAATTGCGACATGCTTCCTACAAGGGCCTGCGGGAACGTCAGGACAACGCCGACGTTTACAGGCTCGACTAG	MTKPPRSKPLLRDTEAPIRSKPRRKRNPAQPQLLFDPMPDRVEPALAQLKAYPPQGDQWSWELKWDGYRLAVHIEPTGVRILTRGGHDWTHRIPAIAEAARALGPATMIIDGEAVVLDEQGRPDFGLLQNSLGASGKAAGNRASDAVLYAFDLMYLDGHDLREIEYRSRRHLLEDTIKANDGAIRLSETLDADPNVLLEHVRSLGLEGIVGKHLDQPYRSGRTGDWIKVKCVESEAFMVVGYEPSTASPGGFASLVLAAYRGDELIHVGNVGTGFTEAEMIRLRKTLDKLRWKRKQPPVPFTEKSDIVWVEPTLIAEIEFRAWTGDRKLRHASYKGLRERQDNADVYRLD	PGPT0014910_1609	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014910-ligD-K01971	NA	NA
BMS010_03975	774			hypothetical protein	ATGTGCAATCTTTATCGGATGGAAGACAAGGATTGGGTCACGAAATGGGCTCAGGATGCCGAGAGCTTTATCAACCTGATGCCGGCCTATCAGATGAACCCCGACCAGATGGGGCCTATCGTCCGCAACACGGCTGACGGAAAGAAGCAGCTTGTGCATGCGCGATGGGGCCTGCCCTCGCCTATCTTCGTCCAGAAGAAGGCCGCCGAAGCTCGAGCGGATAAACTGAAGGCCAAGGGCAAAGCCGTCGATATCAACGAACTCATTCGCGTGGAGCCGGACCGTGGCGTGACGAATGTGCGAAAGCTCGACCTGCCTCACTGGACACGATGGTTCGGCGTCGAGCACAGGTGTCTAGTCCCGGTCACAAGTTTTGCCGAACCGGATCCTGCGAGCAAACAGACCGGCGGCAATGTGCCCAATGCCTGGTTTGCTCGTGACGATGCGAGATCGCTGATGTTCTTCGCCGGCATCCACGTGCCGCAGTGGAAAAGCGTCCGTAAGGTGAAGGATGGAATGACCACGGACGATCTCTATGGCTTCCTGACCACGGATCCGAACGATCTTGTGAAGCCAATCCACGAAAAGGCCATGCCTGTTCTGCTGCTGACAAAGGAAGAGACCGACGTCTGGATGCGAGCGCCTTGGGATGAGGCAAAGCACCTCGCCCGCCCACTACCAAACGACGCGCTCATCATCCTGTCACGTGAACCATACGGGTCGTCGATCGTGTCGAAATCTGGCGAGCCGGTGGAGCAAGGCAGCCTGCTGTAA	MCNLYRMEDKDWVTKWAQDAESFINLMPAYQMNPDQMGPIVRNTADGKKQLVHARWGLPSPIFVQKKAAEARADKLKAKGKAVDINELIRVEPDRGVTNVRKLDLPHWTRWFGVEHRCLVPVTSFAEPDPASKQTGGNVPNAWFARDDARSLMFFAGIHVPQWKSVRKVKDGMTTDDLYGFLTTDPNDLVKPIHEKAMPVLLLTKEETDVWMRAPWDEAKHLARPLPNDALIILSREPYGSSIVSKSGEPVEQGSLL				NA	NA	NA	NA	NA
BMS010_03976	801	xthA_2	COG0708	Exodeoxyribonuclease III	GTGAAGCTCGCGACCTATAACGTCAACGGCGTCAACGGCCGGCTTGAAGTCCTGCTCCGGTGGTTGGATGAAGCCGAGCCGGACGTCGTTTGCCTGCAGGAACTGAAGGCGCCCCAAAAGAAGTTCCCGATCAAAGCGATCGAAGCCGCCGGTTATGGTGCTGTCTGGCAGGGCCAGAAATCCTGGAACGGCGTCGCGATCCTTGCCAAGGGTCAGGAGCCTCACCTCACGAGAAAAGGTCTGCCCGGTGATCCGGAAGACGAACACAGCCGCTATATCGAGGCAATCGTCAACGGCATCATAATCGGCGGGCTCTACCTCCCTAACGGCAATCCCTATCCCGGTCCGAAATTCGATTACAAGATCCGTTGGTTCAAGAGGCTGCATGACTATGCGGCTGAACTGCTCGAACTGGAAGTTCCGGTCGTGCTTGCAGGTGACTACAACGTCATGCCGACAGAGATCGACGTCTACAAACCGGAGCGCTGGACGAACGACGCGTTGTTCCGGGTCGAAGTTCGGGAGGCTTACAGGAAACTCGTTGACCAAGGGTGGACGGATGCGCTGCGGCATTTTCATCCGAACGAACGCATCTATACGTTCTGGGACTATTTCCGCAATGCCTATGCACGCGACGCGGGGTTGCGGATCGACCACTTCCTGCTGAGTTCAGAAGCTGCGGCAATGCTCTCTAAGGCAGAGGTCGACAGGCATGTGCGCGGATGGGACCACACCAGCGACCATGCACCCGTCTGGATAGAGCTGCAGGACGAACGGGTGAAGAAGCGGAAGACGAAGTAA	MKLATYNVNGVNGRLEVLLRWLDEAEPDVVCLQELKAPQKKFPIKAIEAAGYGAVWQGQKSWNGVAILAKGQEPHLTRKGLPGDPEDEHSRYIEAIVNGIIIGGLYLPNGNPYPGPKFDYKIRWFKRLHDYAAELLELEVPVVLAGDYNVMPTEIDVYKPERWTNDALFRVEVREAYRKLVDQGWTDALRHFHPNERIYTFWDYFRNAYARDAGLRIDHFLLSSEAAAMLSKAEVDRHVRGWDHTSDHAPVWIELQDERVKKRKTK	PGPT0014910_53	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014910-ligD-K01971	NA	NA
BMS010_03977	177			hypothetical protein	ATGGTAACCACATCGCGAGGCAGAGCCCAGGATAGAGCCAAGGTCGCTGGCGGGCAGGATCATGAAGTGCGCTATGAGGCGAAGAAGGAAGGCGTCTCAAAGGACACGGTCAAGAAAGCCGTGAAAAGTGCCGGTAATTCTCGCAAGAAGGTGGAAGCGGAAATTGGCCGGCAGTGA	MVTTSRGRAQDRAKVAGGQDHEVRYEAKKEGVSKDTVKKAVKSAGNSRKKVEAEIGRQ				NA	NA	NA	NA	NA
BMS010_03978	309			hypothetical protein	GTGCTATTCGCCATCAAACTGCGCTATATCCGTCCGAGCGAAGACATTCAGGCGCATCTCGATGCTCATAAGGCCTGGCTCGTCAAATATACACAGGCTGGCATCATTCTCTTCGCGGGCCCCCTGCCACGAGGCAACGCCGGCTTCGTTCTGGCCCACGCCGAGGACTTGGCCGTCATCCAGAGCATGATCGCCGAGGACCCGTTCGATATTCATCAATTGGTGACGTTCGAGATCGACGCCTGCGATCCCGCATTGCGCGCAGCAGACTTTCCGGCCCGCTGGGCTGGATCTGCAAAGCCCATCTAG	MLFAIKLRYIRPSEDIQAHLDAHKAWLVKYTQAGIILFAGPLPRGNAGFVLAHAEDLAVIQSMIAEDPFDIHQLVTFEIDACDPALRAADFPARWAGSAKPI				NA	NA	NA	NA	NA
BMS010_03979	630	azoR1_1	COG1182	FMN-dependent NADH-azoreductase 1	ATGAAGATCCTCCACATCGACTCCAGCATCTCCGGCGACAACTCGATCACCCGCGAGCTGACTGCGGCCGTTGTCGCGAATATTGTCAGCGGCAACCCGAGTGCCGAGATCACCTATCATGATCTGGTGTCTGAGCCTGTCGCTCATTTGAATGGTGCCATCGCCGCCGGCTTCCGACCGCTAGGCGTAAGCACATTCGATGACGTCGCCCTGCGCGAGCACAAAGTCTCGGAAGACCTCGTGACGAGTTTCCTTGCCAGCGACACCGTGATCGTCGGCGCACCGATGTATAATTTCTCAGTGTCCACGCAGCTCAAAGCTTGGCTCGACCGCATCGCCCAGCCTGGCAAGACCTTCAAGTACACCGCGACAGGTCCTGTCGGCCTTGCAGGGGGTAAGCGCGTCATCGTCGTCTCAGCCAGAGGAGGCTTCTACATCGAGGGCCCGATGGCACGCCTCGATTTCCAAGAAAGCTATTTGAAGGGCTTCTTCGGTTTCCTTGGCATTGACGACGTTCGTTTCGTCCGTGCCGAAGGCGCTTCGCGCGGCGAAGAAATCCGCCAAAAGGGCATCAACGCTGCCTGCGCTGCCATCACCGACGCGATCGCCGACGTTCGGGCGGTCGCCTAA	MKILHIDSSISGDNSITRELTAAVVANIVSGNPSAEITYHDLVSEPVAHLNGAIAAGFRPLGVSTFDDVALREHKVSEDLVTSFLASDTVIVGAPMYNFSVSTQLKAWLDRIAQPGKTFKYTATGPVGLAGGKRVIVVSARGGFYIEGPMARLDFQESYLKGFFGFLGIDDVRFVRAEGASRGEEIRQKGINAACAAITDAIADVRAVA	PGPT0006790_107	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS	XENOBIOTIC_AZO_DYE_DEGRADATION,PGPT0006790-acpD|azoR-K01118	NA	NA
BMS010_03980	831	pytH_1		Pyrethroid hydrolase	ATGAAATTTCTCCTCTCACCAGAGCGCGCCAAAGTAGCTCATCACCGCCGCCGTGCCCGACTGGCTATGCGGCCAATCGGCCTTCTGGCCGCGCTTGCCGGTGTCGCTTTTGCGACTGCCAGCACGCCGACCGCCGCCGCACCAGCCCCTATTCGTAACATCGTCCTCGTCCATGGCGCGTTTGCTGATGGGTCAAGTTGGGCCTCCGTGATCGAACGGCTTCAAGCCCGCGGCTACCATGTAACCGCCGTCCAGAATCCCTTGACCTCGCTTGCCGATGACCTCGCCGCTACCAACCGTGTGCTGCGCCGCCAGACTGGTGACATTCTCCTCGTCGGTCATTCCTGGGCTGGCGCGGTAATCACCGACGCAGGCAATGCCTCCAATGTGAAAGGCCTTGTTTATCTGTCGGCACTCGTCCCGGATAGCGGAGAGTCTGTCGCCGACTTGCTCACGCGCCTGAATGCGCCGATGTCTGGTCTGACACCTGATTCCGAGGGACTGATCTGGCTCGACGATGCGGCGACCTATCGGCAGGTCATGGCAGCCGACGTGCCGGCCGAGAAGGCCGCCGAGCTAGCGGCAATCCAACAACCGATTGCGGCGGCAGCTTTCGGCGCGAAAGTTGGTCACGCCGCTTGGCGTGACAAGCCGAGTTGGTATCTGCGCACCGAAAACGACAACGCCCTGCCGCCTGCCGTTCAGCAGACGATGGCGCAGCAGATCAGAGCGCACATCACGTCCATCCCGTCGAGCCATATGTCGCTTGTCTCCCATCCCGACGCTGTCGTCGATCTGATCGATCGCGCGGCACGGCAAGCCGGACAGTGA	MKFLLSPERAKVAHHRRRARLAMRPIGLLAALAGVAFATASTPTAAAPAPIRNIVLVHGAFADGSSWASVIERLQARGYHVTAVQNPLTSLADDLAATNRVLRRQTGDILLVGHSWAGAVITDAGNASNVKGLVYLSALVPDSGESVADLLTRLNAPMSGLTPDSEGLIWLDDAATYRQVMAADVPAEKAAELAAIQQPIAAAAFGAKVGHAAWRDKPSWYLRTENDNALPPAVQQTMAQQIRAHITSIPSSHMSLVSHPDAVVDLIDRAARQAGQ				NA	NA	NA	NA	NA
BMS010_03981	1062	rhaS_12		HTH-type transcriptional activator RhaS	ATGCAAAACTCGCCAACCGAGAAGCCCGATGATAGTATCGTGCGGGTCGCGGTCATCGCTGTGGACGGTAGTCTGCTCTCCGCAATCGCCGGCCTTACCGATCTGTTCTGGATCACCAATCAGGCGCTTCGGGCGCCGCCAGCCGGCGCGCTGCCCGAAGCGTCAGTTCCGGCAAGACGGCTTTTCGAGACGACCATCGTCAGCGCCTATGGCGCGAGTCTGCCCACGGCACAGGGGCGCAGCATCGCCGTCGACGCCGCCTTTGCCGACATTGGGCATTGCGATGTCATTCTGGTGGCCGGCATGGCCTTGGGGACGGACGGTCTGCCTCCAGCCTCTGACACGATCAGGCATGCGGCGAATTGGCTGCGGACGCAACATCGTCACGGTGTGCTGATCGGCGGGGCCTGTGCGGGCACCTTCGTGCTTGGCGAGGCAGGCTTGCTCGATGGCAAGCGATGCACCACGACTTGGTGGTTGCATAATGCGTTCAAGCGCAGATTTCCCAAGGCCCGGCCGATCTGGGGGACGGCAATAGAAGAGCAGGACAACGTCATCACGACCGGCGGACCGTTGTCATGGATCGATCTGGCTCTGCACGTGATCAAGCGCACGGCCGGGGCCGATGTCGCTAAACTAGCAGCGGATGTATCTGTTGCTGATAATTCGCCGATGCCGCAAATGGTCTACGCGCCTCGCGGCTTCGTCAACGCGGCTGATCCATTACTTCTGAGGGCCGAGCAGATTGTTCGTGGCGCCGGTCCGGGCCTGACCGCCGAAGTCCTGGCTAGCGAGCTGAACCTCAGCACGAGGACGCTTCATAGACGTCTGAAGGACCTGACCGACGAGTCACCAAAAAGTTTCATCACGCGAGTGCGGATTGAGACGGCCTGCGTTCTCCTGGAAACGCCCGGGTCGAGCATCAAGCAAGTGGCCATGCAAAGCGGGTATACTGACGAAACCGCGTTCCGGCGAGCGTTCACCCAACTGAGCGGTATGACGCCGGCCGACTATCGGCGCTGGTCGTACGAACGCCTTAAGCAACCGGGGAACCCCGTTTGA	MQNSPTEKPDDSIVRVAVIAVDGSLLSAIAGLTDLFWITNQALRAPPAGALPEASVPARRLFETTIVSAYGASLPTAQGRSIAVDAAFADIGHCDVILVAGMALGTDGLPPASDTIRHAANWLRTQHRHGVLIGGACAGTFVLGEAGLLDGKRCTTTWWLHNAFKRRFPKARPIWGTAIEEQDNVITTGGPLSWIDLALHVIKRTAGADVAKLAADVSVADNSPMPQMVYAPRGFVNAADPLLLRAEQIVRGAGPGLTAEVLASELNLSTRTLHRRLKDLTDESPKSFITRVRIETACVLLETPGSSIKQVAMQSGYTDETAFRRAFTQLSGMTPADYRRWSYERLKQPGNPV				NA	NA	NA	NA	NA
BMS010_03982	2055	hmp_2		Flavohemoprotein	ATGCCTGCTGAAGAATCCTCACCATCGTCACCATGGCATGCGGGTGAACTGCAGTTGCAGCGGCACGCCGGCGTGGTCGAGCAGATGGACCCCATCGGCCGCAGGGTCCTGCGCACCTTTATGCTCGATCAGCACCGGGAGTTCTATTCGCTGCTGCCCTTCATCGTGATCGGATCTGTCGATCGTGATGGCATGCCATGGGCGACGATCCGCAGCGGACGGCCAGGCTTTCTGCATTCGCCCGATCCTCTGACGCTGGATATTAATGCCGCGAGCGATCCGGATGATCCGGCCGAAGCCGGCATCATCGATGGGGAACCGATCGGTCTGGTTGGCGTCGATCTAATAACGCGCCGACGCAATCGGCTAAATGGTACTGTCATCCGCAGCGGCAACGAACGCTTTTCCGTTTCAGTCGGGCAGAGCTTCGGCAACTGTCCGCGCTACATCCAAAATCGGCAGTTCAGCTTTGTGCGCGATCCGGCTTTGCCGAGGCGGTCCGAGGTGCTGGTTTCAAATGGACTGGACGCAGACGCACGGGGTCTCATCACAGCTGCCGACACCCTCTTCGTTGCCTCATATGTGGAGCGCGAGGGTGAGGGACGGCAGGTGGATGTCTCCCATCGGGGCGGCCGACGCGGTTTCGTCCGCGTGGATGCCGATGGTGGCCTGACCATACCGGATTTCAATGGAAATCAGTTTTTCAACACGCTTGGTAACTTCATCATCAATTCGCGCGCCGGACTTCTGTTCGTGGATCACGAGACGGGCGACATGCTGCAGATCACCGGCCGCGTCGACGTCATTTTGGATTCACCCGAAATTGCCGCCTTCGAGGGCGCCGAGCGTCTGTGGCATGTCATGCCAGAGAAGGTGGTGATGCGCAAAGACGCCTTGCCGCTGCGGTGGAGCTTGATCGAAGGCGGTATGTCACCGAACAGTTTGATGACAGGCGGATGGAGTGAGGCCGCTAGCCGCTTAAAGATAGCTGCCCAGCCAAAGACGTGGCGGCGCTTCCGCGTGCAGAAGGCCATTCGGGAGAGTTCCACCGTCCGTTCGCTTCACCTTGCACCAGTCGATGAAGAAGCTGTCATTCCCCACCTTGCGGGCCAGCATCTGCCGATCAGAATGAGGGACGGGGCGGACTCGCTTCGTCGGAGCTATACAATATCCAGTGCTCCATTGGATGGCTTCTACAGATTGAGCGTGAAGAGTCAGGGTAGGGCATCAACGCTCTTGCACGCACTGCGTGAAGGCGACGAGATCGAGGCATTGCCACCGGTCGGAGCGTTTACCATCGACGCGATGGAACGGAACCGGCCGGCCGTTCTCCTCGCTGCTGGCATCGGGATCACGCCGTTGCTGTCCATGCTGCGCCACGTTGTCCAAACTGGCGACAGGACGCGCTATCGGCGGGGAATCTGGTTGTTCCGGTCGTCGCATGTCTCTGCTGAAAGAGCGTTTGATCGCGAAATCGGCGAACTGGTTGAGCGCAGCGAAGGGACAATTCGAGATATCCGGGTGCTCGGAGCGCCCGATGTCGAGGACGAAGGTCTTTTTGATGCAGTCGGTCGCGTCGACATGACGCTGTTGAACGCACATCTGCCATTTAACGACTATGATTTCTATATCTGCGGACCATCTTCCTTCATGCAATCCATATATGACGGGCTGCGCGGACTAAATATCCCAGACGGTCGGATACATGCAGAGCAGTTTGGCCCTTCCGGCCTGAAGCGAGATCCAGGTGCTTACTCGTCCTCTCTGCCGCTCAAGCCTGCAGCCAAGGCACCGATCCGCGTCGTCTTCACTCGGTCGGGAAAAGAGACACTCTGGCAGCCAGGCGGGGGGGCGTTGCTGGAAGTCGCCGAGCAGCTCGGACTCAGTCCGGTCTTCGGCTGCCGAGCAGGCAATTGCGGCGATTGCCGAACGAAGATTGTCAAGGGTGCCGTCAGCTATCAATCAGAGCCTGGCTGTGCCGTAGCAGCTGGAGAGGCACTAATCTGCTGTTCGGTACCTGCACAAATGGATGAGGCTTTAAAGCTCGAACTGTAA	MPAEESSPSSPWHAGELQLQRHAGVVEQMDPIGRRVLRTFMLDQHREFYSLLPFIVIGSVDRDGMPWATIRSGRPGFLHSPDPLTLDINAASDPDDPAEAGIIDGEPIGLVGVDLITRRRNRLNGTVIRSGNERFSVSVGQSFGNCPRYIQNRQFSFVRDPALPRRSEVLVSNGLDADARGLITAADTLFVASYVEREGEGRQVDVSHRGGRRGFVRVDADGGLTIPDFNGNQFFNTLGNFIINSRAGLLFVDHETGDMLQITGRVDVILDSPEIAAFEGAERLWHVMPEKVVMRKDALPLRWSLIEGGMSPNSLMTGGWSEAASRLKIAAQPKTWRRFRVQKAIRESSTVRSLHLAPVDEEAVIPHLAGQHLPIRMRDGADSLRRSYTISSAPLDGFYRLSVKSQGRASTLLHALREGDEIEALPPVGAFTIDAMERNRPAVLLAAGIGITPLLSMLRHVVQTGDRTRYRRGIWLFRSSHVSAERAFDREIGELVERSEGTIRDIRVLGAPDVEDEGLFDAVGRVDMTLLNAHLPFNDYDFYICGPSSFMQSIYDGLRGLNIPDGRIHAEQFGPSGLKRDPGAYSSSLPLKPAAKAPIRVVFTRSGKETLWQPGGGALLEVAEQLGLSPVFGCRAGNCGDCRTKIVKGAVSYQSEPGCAVAAGEALICCSVPAQMDEALKLEL				NA	NA	NA	NA	NA
BMS010_03983	612	yfcG_4	COG0625	Disulfide-bond oxidoreductase YfcG	ATGAAACTCTATCACTTTCCACTTTCGGGTCATGCGCACCGCGCCCGCCTCTTCCTTTCTCTGCTCAACGTGAAAGCTGAGATTGTCGACGTTGATCTGGCGCATGGCGAGCACAAGACGCCCGAGTTCCTGAAGCTCAACCCGTTCGGGCAGGTGCCGGTGCTCGAAGATGGCGATGTCGTCGTCAACGATTCCAATGCCATCCTGGTCTATGTCGCCACGAAGTTCGGACGCAAAGACTGGCTGCCGGATGATCTGGCTTCCACCGCGAAGATCCAGAAGTGGCTATCCGTCGCGGCCGGAGAGATTGCCTATGGCCCATGCGCGGCGCGATTGGTTACGGTCTTCGGGGCAGATTTCCGGGCCGAGGAGGTGATCGCACGCGCTCACCGGGTTCTTGCCCTCATCAATGCGGAGCTGGATGATCACCCCTTCATGACAGGCGAAACGCCGACGATCGCGGATGTCGCACTCTACAGCTACATCGCTGGCGCGCCGGAAGGCAATGTCGACCTGGCAGCGCATCCGCATGTTCTCCAGTGGCTGGCGCGGATCGAAGCTTTGCCCGGTTTCGTCCCTTTCCCCAAAACGCCGGTCGGCCTCGCAGCCTGA	MKLYHFPLSGHAHRARLFLSLLNVKAEIVDVDLAHGEHKTPEFLKLNPFGQVPVLEDGDVVVNDSNAILVYVATKFGRKDWLPDDLASTAKIQKWLSVAAGEIAYGPCAARLVTVFGADFRAEEVIARAHRVLALINAELDDHPFMTGETPTIADVALYSYIAGAPEGNVDLAAHPHVLQWLARIEALPGFVPFPKTPVGLAA	PGPT0013170_20140	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS010_03984	894	pgrR_7		HTH-type transcriptional regulator PgrR	ATGGATCGGCTTGATTCCATGGCGGTGCTGCTCTCTGTCGTGGAGCATGGCAGCCTTTCCGCCGCGTCACGCGCAATGCACTCGCCGCTCCCGACAGTCAGCCGCAAGATCGCCGAATTGGAGGCTCATCTCGGCGTGCGCCTGATCACTCGCACCAGCCGCCGGATTCTGCTTACAGAGGCCGGGGAGAGTTATGTCGCGGCAGCACGCGAGATTCTCGAGCGAGTGGAAGACGCCGAACGCCGTGCCAAAGGAGAATATGCGGCGCCGAAGGGTGATCTGACCATGACGGCGCCGATTGTCTTCGGCCGCTTGCATGTGCTGCCGGTGATCACGGACTTCCTGAAGGCCTATCCGGATATCAACATTCACCTGACGCTGAGCGATCGGACGGTCAGTCTCGCTGACGAACATATCGATGTTGCTCTGCGCATCAGCGCGCTTTCAGACAGCAGCCTGATCGCGATCCGTCTGGGTTCGATCCGCACCACGACCTATGGCAATCCCGACTATCTGAAGCGGCACTCCCTTCCCTCAAATCCTCACGACCTCAAGGACCATGATTGCATCGCCTTCAACGGAGTACTGTCAACGCGGTCATGGACGTTCCGCGACGGGGCAAAGGAAGTCGAAGTGCCGATCCGGACGCGCCTTTCCGTCAACACGGCAGAAGCGGCGGTCGATGCTGCAGCCGCCGGTCTCGGGATAACACGTGTCATGGCTTATCAGGCGAAGCGAGCAGTCGATGCCGGCTTGCTGGTGCCGCTGTTGGAGACTTTTGAACCGAAGGCGTCGCCGGTTCATCTCCTCCACATATCGGAGGGCCTGATGCCGCTCAAACTCAGAACGTTCCTCGACTTCGCAACTCCGCGACTGAGGGAATTGTTGAGATAG	MDRLDSMAVLLSVVEHGSLSAASRAMHSPLPTVSRKIAELEAHLGVRLITRTSRRILLTEAGESYVAAAREILERVEDAERRAKGEYAAPKGDLTMTAPIVFGRLHVLPVITDFLKAYPDINIHLTLSDRTVSLADEHIDVALRISALSDSSLIAIRLGSIRTTTYGNPDYLKRHSLPSNPHDLKDHDCIAFNGVLSTRSWTFRDGAKEVEVPIRTRLSVNTAEAAVDAAAAGLGITRVMAYQAKRAVDAGLLVPLLETFEPKASPVHLLHISEGLMPLKLRTFLDFATPRLRELLR				NA	NA	NA	NA	NA
BMS010_03985	1164			hypothetical protein	ATGGGGAGATATTTTGACAATAGGGATTTGTTTGCCTGGTATCTTTTTCTTGGTGAAGCGTTCAACGATCATCCTCAAAACTACGAAGTCGTTTACGGGTGCAGAGTAATTCCGGTACTGTCAGCTTTAGGGCGAAATCTGGACAACTTGGAGCGCGTGACTGGATACAGCGATCGGCTCCATCGACTAATATTCAAGGAACGATCTCAGCCCAACGGCGGCCTGTTCGAGTTCTTGGTGGCGGCAAAATATGTCAGCGAAGGATACGAGGTTGCTTTTCACCCCGAAAAGCCAGGACGTCGGCGCACGCACGATCTCGACGTTAAGCGCGGCGGGGATTGTTTCGCCATCGAATGCAAGCGAATGGAGGCGGGTCAATACCATGAGAAAGAACGAGCTGCGATGCGGGGCCTTTGGAAGCCAGCTTCTCAAGCTCTTGTTCGTACGGGGGGCTCCTATTGCTTTGACCTAACATTCAGAACAGAGGTCGAAACGATTCCCATCGACTACCTACGGAGAGTTGCGCTTAGGTTCATCGAACGTGATGCCGACAATGAGATAATTTACGACGACCTCTCTTACGGAACTTTGAGAAAATTGGACCTTGGTCCCCTTCAGTCGGCGCTCGCGGACTCTTCGTGGATGCACCCTGGGCCGAAATACAACAATCTTCTTCTCGGCTCCTATCGCCGATATGAAAGCCTGCTTCTAGCCCACAAAGTGAGATTTAGCCCGAACCCGCATTTTATCGATGCGATTGATCAGGCTGTCGCGCTGAGGTGGGCCTGCGCTTCGGAAGCGGCAATCGATAAGAGGGCGCGTGACGTCATTGGCAAACTAGTTGAAGCGAATGATCAGCTTCCTGAAGGTGTCTCCGGTATCGTTCATATCGGGTTCGAAGCTCTCGGCGGTGATGCTGTTGAGCAGCGTCGCTTCGAGAAAATCAAGGCGAGTGTGTCGGCCTTCGATACCCGAGGAAAGCCACTAGACTACGTGTTCTGCCACTACTTTTCTCCCGAAGCCTCTATTGATGAAGCATGGGCAATTGACGAGACCACCCATTATCATAAGAAGCGACCGGGGCCCTTGCCACTTAGGCACCTTTCATTGGTAACGCCGCAAGATGTTCCTTTCGAGGCTGGCGTTCACTGGCGCCGTTCTTGA	MGRYFDNRDLFAWYLFLGEAFNDHPQNYEVVYGCRVIPVLSALGRNLDNLERVTGYSDRLHRLIFKERSQPNGGLFEFLVAAKYVSEGYEVAFHPEKPGRRRTHDLDVKRGGDCFAIECKRMEAGQYHEKERAAMRGLWKPASQALVRTGGSYCFDLTFRTEVETIPIDYLRRVALRFIERDADNEIIYDDLSYGTLRKLDLGPLQSALADSSWMHPGPKYNNLLLGSYRRYESLLLAHKVRFSPNPHFIDAIDQAVALRWACASEAAIDKRARDVIGKLVEANDQLPEGVSGIVHIGFEALGGDAVEQRRFEKIKASVSAFDTRGKPLDYVFCHYFSPEASIDEAWAIDETTHYHKKRPGPLPLRHLSLVTPQDVPFEAGVHWRRS				NA	NA	NA	NA	NA
BMS010_03986	600			hypothetical protein	ATGAGCGATGATCGATTTGCTTCTTACCGCGAGCTTGCAGCGGTATATATGCCAGGTGAGCACTTTGATGTGTCAGTCAGAACTGGCGCTACCAAACCGTCCGTGCTGGTCATGGCGCCGCACGGGGGTAAAATCGAGATCCGCACTGCCGAGATCGCGTGCGCAACGGCAGCGCATGAATACTCGTGTTATCTGTTCCAGGCAAAGCTCCCCGCAAACAATCGAGTAGAAATGCATATCGCGTCCGAGGTATATGACGTACCGGAGGCCTTGAATGCGGTGAAGACAGCAGACCTCGTGATCGCGCTGCACGGCCGACGAGACGGTGATGACACCAAAAGGACGTGGATGGGTGGGTTAGACCGGGACCTATCCAAACACATCGGTGACATCCTTGAAAAATGGGGATTTCCTGTTCTATTCGACCCCCCAAACTTCAAGGGCATACATCCCAACAATATTTGCAACCGGGGGACCACAAACGCTGGGGTTCAGCTAGAGATCCCGTTGTCACTCCGCGAGGAATTCCGAAGAAGCCCCGAGCGCGAGGGCACGTTCGTCGCTTGCCTGAGAGAGGCCATCGCCTCGTATCTCGGATGA	MSDDRFASYRELAAVYMPGEHFDVSVRTGATKPSVLVMAPHGGKIEIRTAEIACATAAHEYSCYLFQAKLPANNRVEMHIASEVYDVPEALNAVKTADLVIALHGRRDGDDTKRTWMGGLDRDLSKHIGDILEKWGFPVLFDPPNFKGIHPNNICNRGTTNAGVQLEIPLSLREEFRRSPEREGTFVACLREAIASYLG				NA	NA	NA	NA	NA
BMS010_03987	1194	iscS_1	COG1104	Cysteine desulfurase IscS	ATGAATAATTATAGCGCACTCACCAAGCAGGCCCCTGTCGCGCAGCGGACTGCGGTGTACCTCGATCATCATGCAACCACTCCCGTCGATCCGAGAGTTGCCGAGGTCGCAGTTCGAATGATGGTCGAGGAATTCGGGAACGCGAACGGCGTGGAAAACATCCATGGTGAGCATGCGGCGTCTGCGGTGGCGGAGGCAAGAGACAAAGTCGCTCACCTTTTGCGAGCCGAACCCGATGACGTGTATTTCACCTCTGGTTCCACTGAGGCAATTCAGCTCGCGATTTCCCATTCGATCGCGACGCATCGTTCTCCGCTCAAAATCGCAGTAAGCCGGGTTGAGCACAAGGCCGTCATCGATACAGCATTGCGTGGGGAACAACTGGGTTTGGCCGCAGTGACGTGGATTGAAGTCGATGAAAAAGCTCGGCTCGATCGATCTGGATATAAGCGCGCGCTTCAAACCGGCATCGACTTGGTGTGCGTGATGGCCGCAAATAACGAGGTCGGTACGATCTATCCCATTGAGGAAATCGTTCGAGAGGCACGCGAACACGGCGCGAATGCCCTTGTCGACGCTACCCAGGCTGTTGGTCGAATGGCTATTAATCTGGAAGAGTTGAACGCCGCTTACGTCGTTTTGAGCGGCCATAAGATCTACGGCCCGAAGGGTATTGGTGCACTCGTTTCCCCGATTTTCGAGCGCGCGTCCGTATTCGGTCTCCAGGGTGCTCACCATCCGACGCCCAATGTCAGCGGCATCGCGGCTTTGGGCTTCGCCTGTGAGCTGATGGAGCTTGAGGGCGAGGCGGAGAGCCGTCGGCTCTCGCAGCTGCGAGATTTGCTCCAGGAGCGCCTCCTCCACCTGGTTCCCGGCCTGGTCGTGAATGGCGATGAAGCGGCCCGCCTGCCTCACAACCTGCACGTTTCGGCACCCGGAGCGCTCAATGACGTCGTTTTGAGCCACCTGAGAGGCAAGGTGTCAATCTCAACCGGTTCGGCCTGCAATACGGGCGCGCAGGAACCGTCGCATGTGTTGAGAGCCATGCGATTGCCGCATGCCCGTATCGATAGCTGCTTACGGATGGGATTAGGCCGCACCACGATGGTCAGCGACATTGAACTCGCAGCTGTCCAAATAGCTCAGGCTATCCATGACGTTCGTACCGCATTTCCCGAGGACATCGATGTTTGA	MNNYSALTKQAPVAQRTAVYLDHHATTPVDPRVAEVAVRMMVEEFGNANGVENIHGEHAASAVAEARDKVAHLLRAEPDDVYFTSGSTEAIQLAISHSIATHRSPLKIAVSRVEHKAVIDTALRGEQLGLAAVTWIEVDEKARLDRSGYKRALQTGIDLVCVMAANNEVGTIYPIEEIVREAREHGANALVDATQAVGRMAINLEELNAAYVVLSGHKIYGPKGIGALVSPIFERASVFGLQGAHHPTPNVSGIAALGFACELMELEGEAESRRLSQLRDLLQERLLHLVPGLVVNGDEAARLPHNLHVSAPGALNDVVLSHLRGKVSISTGSACNTGAQEPSHVLRAMRLPHARIDSCLRMGLGRTTMVSDIELAAVQIAQAIHDVRTAFPEDIDV	PGPT0000065_4362	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-SULFUR_MODIFICATION_PROTEINS,PGPT0000065-nifS|iscS-K04487	NA	NA
BMS010_03988	951			hypothetical protein	ATGTTTGATATTTCCACTGCCGAAGGCCGACTCAATTATCGATTTTCCGGGCATGAAACCTTTGCATGCCGGTACGCTTGGCTGCCTAAGGCGTATCGTGCCATCGCTGCAGATGCCAGCATCTTCTATGATGAAGATGCTGCGATGGTCGAGCTGGGAATCGGTAAAAACATGGTCCGGGCATTGCGTTTCTGGGTCGATGCAATGGGCATTGCCCACCCGACTCCCGAGCGCAAACACGAGATCACGGACCTGGGCCACACTATATTTGGTAGTGACGGTTGCGATCCGTATCTCGAAGATGCGAGAACACTTTGGCTGCTTCACTGGAACCTTTCCTCGGTCGCCACGCCGGCGCTCTTTGCTTGGCACTATTTGCTCGGTGCCTGGCCTTATGCCGAGTTTTCGCGGTCCGAAGCATTGGCAGCATTCTCGCGACAATCGCAACGGCTGGGGCATAGCCACTCAGAAATCACTTTAAGCCAGCACCTGGACGTCTTTTTGCATACGTATCTTTCAGCGCGTGGTTCAAGGTCGGGCATCGAAGATTCTCTGGATGGCCCGCTGGTCGAGTTGCGGCTCCTCCAGCAGACCGGAGAGCGCCGAAGCGAAGGCGGTCGCTGGGAGGCCGTATATGCGTTTCGAAAGGAGCCCAAGGATAACATTCCTGACGAGCTTTTTGCTTATGCGGTGTTGGATTACTGGGAACGAACGGCGCCTGGCGAAAGGACAATCCCGATCCGACAGATTCTTTCGGCAGCGGGCGCGCCTGGGCAATCGTTCAAGCTCCCCGAGGATGACATTCGTGCGCGGCTTGAACGCCTTTCTCTCGATCCGCGATACGGCTTCACCTACCGTCCTTCAGCCATTCAAGGGCTGTTGACCCGCGAAGGCCCGATCAGGGCAGACGCTCGAGCCATTTATATGAATGAGGCAACCAACAATGCTTGA	MFDISTAEGRLNYRFSGHETFACRYAWLPKAYRAIAADASIFYDEDAAMVELGIGKNMVRALRFWVDAMGIAHPTPERKHEITDLGHTIFGSDGCDPYLEDARTLWLLHWNLSSVATPALFAWHYLLGAWPYAEFSRSEALAAFSRQSQRLGHSHSEITLSQHLDVFLHTYLSARGSRSGIEDSLDGPLVELRLLQQTGERRSEGGRWEAVYAFRKEPKDNIPDELFAYAVLDYWERTAPGERTIPIRQILSAAGAPGQSFKLPEDDIRARLERLSLDPRYGFTYRPSAIQGLLTREGPIRADARAIYMNEATNNA				NA	NA	NA	NA	NA
BMS010_03989	3453			hypothetical protein	ATGCTTGAGCCGAGCGCTGTAACCATATCTGAGATTTTCTCGATCCCCGGCCGCTTCCTTCGATCTGTCCAAATCGAGAAGGATTTCTTGGACGCATCTGCGCTGGAGAATTACATCGTCACGCCACCCATGGCAGACGCATTGCTTCAGATATTGGCGAGCGTCCGCGACGGTTCTAAGCGACGTGCATGGCGTATAACCGGTGACTACGGTGTCGGAAAGTCATCGTTGGCGTTGGTGTTGGCTCGCCTGCTGTCGGATCCGACAGCAACGGATGCCAAACAGGTATCGAACACGATCGGCTGGCATCCCGCCGACACCGTTCAACGGTTCCTTCCTATTCTGGTAACGGGAAGTCGAGAAAGTATTCCGACGGCCGTGGCTCGCGCGGTGCGTGAAAGCATGGTTGATCCAGATTTGAAGGATTTCCTGAATTCCCGCATGGAAGCGGCGTTGGAAGCCTGCGAAACGACTGGCTCGGTCCGATCGCTGGAGCAGCTTATTTCTATGATGATCAAGCGCGCGGCAGACCGGAACCTCGGACTGCTGCTAATCATCGACGAGCTGGGTAAGCTTCTTGAGCATGCGGCCCTGAACCCTGATCAGGAAGATGTATTTGCACTGCAACGACTTGCAGAGCTGGCGGCTCGCAGCAACACCAGCCCCCTCTTACTGGTCGGCATTCTACATCAGGGCTTCCAGGCCTACGCAGAACGGCTCCCGCTTGCACTGCGCCACGAATGGGACAAGGTGGCTGGAAGGTTTGAGGAAATCGTCTTCGATCAGCCGCTGGTTCACTCCGCCGCCCTGGTTGCCGGGGCGCTGGGTGTTGATGATGCCGCACTTCCAATAACTGTTCGGACGCAAGCGAATTCGGCGCTTGAGTTGGCCCGACAGGTCGGGTGGCTTGGTGGACGCGGCTTGGCGACCGAACCCACTCGCTTCTATCCACTACACCCGACCCTTCTTCCGATCATGGTGCGATTCTTCTCGCGTTTCGGGCAGAGCGAACGGTCCCTCTTTGGCTTTCTCTTGTCGAGCGAGCCGATGGCGTTGCAGGCATTTTCCGCCACAACACAGGTCGGTGAAGACTGGTTCGACACAGCACGGTTCTACGATTACGTCCGCGCTTCCTTTGGACATCGCGTTTCGGCCGGAAACTATCAGAGCCAATGGCTCCGGATCGTCGCAACGATCGATAGCTGTGTGGACATCGACCCGTTCAAACTCAAAATTCTAAAGGCTGTCGGGCTCCTCAATCTGCTGGATTCTGATGACCTGCTTCCGACTTACCGCTCGCTGGCCGCCTGCTTTTCGGGCGCAGGCGATGTCGATGCCGCGATCGACGGTCTTGTTCGCGATGGCCTGTTGTTTGAGCGCGGCGGCTCGGGAGCTTTCCGCCTTTGGCCAAGCTCCAGCATAAATCTCACGGCTTCGTTCAATGCTGCGAAGCGAGCCGTTGGTGAGATCGAAGCTGTCGCACCGGCACTTACCGAGATACTGGACAGCGAGATGGTGCTTGCGCGCCGTCATTATCTCGAAACAGGCACAATGCGGTATTTTGAGCTGCGCTACACGACAGCTGAAGATGTTGCCAAGGCAGCTAACAAGGTGACAAACGCTGACGGTCTGATCATCGTGGCGCTTGCCGACCAAAAAGATCAGCAGCAGATTGCGCGCGAAATCGCAGCCGCTTCACCCATTTGTGACAATCCCGCGACCTTGGTTGCCGTGCCCGGTCCGGTCTGGCAGCTTGCCTCCTATCTCCGAGACGTGATGGTCTGGCGCTGGGTTGAAGCCAATACGCCGGATCTGTCGAGCGATGATTTCGCGTCAGCTGAGGTCAAGCGTCAGATCGCACGGACACACCAAGCGCTGCTCGCCCAGTTTGCCGAGTTAACAAAGATCGACGCCAAGTCTGGAATGGAGTGGATCTATGCCGGCAAAGCCTTTGTGGCGACCGGCAACCTTCCGAAGATCGTCTCTCAGCTCTGCAACGATCTCTATCCGCTGAGCCCCCGAGTCACCAATGAGTTGATCAATCGTAATGTCCTGAGCAGCGCCGCGGCCTCCGCGCGAATGCGTCTGATCGAGGGTCTATTCAAGGCGCCCGATATGCCGCTTTTAGGAATCGACCAACGGAAGGCTCCACCTGAAAAATCGATGTATCTTTCGGTACTTCAGAAGGGCGCGCTCCATGTCACGGATGGCGAGAGCTTCACGTTGCAGATTCCCCAAGCTTCGAATGATCCGCTGCATCTGGAGCCCAGCCTCGCCGAGATCGTCAAAATGATTAAGCTAGGAAAGGGTTGTAGGATTGCGGTCACAGATATCCTCGCTCGGCTCTCGAGCCGCCCTTATGGCGTGCGCGATGGGCTGGCGCCGATCCTTCTGGCGGTTGTGGTGAGGGTTCATAGCCACGAACTGGCTCTTTATGAAAACGGGACATTCCTTCCGAGATTCGGTGCCATGGAGTTCCTGCGCCTAATCAAAGCGCCGCAAACTTTCGAAATCCAGCATTGCAGCGTCGAGGGCGTGCGCTCAAGCGTGTTTACACGTCTTGCTGCCCTGTTCGCCGCGGGAATAGAGGGTCGTCAGCCCGTCCTATTGGACGTTGTTACTGAGCTTTGCCAATTCGCCGCAAAGCTTCCCGAGTATACGAGGAAAGCGAAAGGCTTGTCTCCGACAACGCTCGCGGTGCGTGACGCACTTCTATCGGCTCGCGAACCGGCAACACTGCTTTTCGCCGACTTGCCCAACGCGTGTGGTCTGCCGATTTTCCGGATCGATGAGGCGGATGAAAGTTCGGTTGAAGAATTTATCAGTCGTTTTACGGATGCGGTGCAGGAGCTTCAGAATACTTATGCGAATCTGATTGCACGCATTGTGAAGAGGACGAGCGAGGCAGCCGGTCAGGATCCGGAGAAGTTTGACCGTATCGCTCTGGCGTCTCGCGGTGCCCGCGTTTCTCTCGCTGCACGCGAGCCGCGCCTGCGCGCATTTGCTCTTCGGCTGCGCGATCCGGCCTTGCATGACGAGGCGTGGGCAGAATCTTTGGCAAGTTTCGTGGTGGCCAAGCCACCTGCTCGCTGGATGCCGGGTGATGAAGCACGATTTACCGAGGAGATTGCTGCGCTGGCCGAGTTGTTCGCAAAAGTGGAAAGCACCGCATTCTCGACTTCAGAGGACCGACCGGACGCTGAAGCGATCCGTCTGAACATAACCCGTGGTGACGGGAGAGACCTGGTGCGGGTCCTTCATCCGATCGATCTGGATGCGGCGGATCAAAAAAAGATGGAAACCTTTACGGATTGGCTTCCACAGGGTGATGCCCAACGGATTCAAATCCTGGCAAGCCTCCTATGGCAAGAGTTGTCCCGTCCTAAGGAACCATCCGAGGAAGGCAAGGTTTCGGACATTCCGACAATTGTGAGAACGAAGAATGACAACTGA	MLEPSAVTISEIFSIPGRFLRSVQIEKDFLDASALENYIVTPPMADALLQILASVRDGSKRRAWRITGDYGVGKSSLALVLARLLSDPTATDAKQVSNTIGWHPADTVQRFLPILVTGSRESIPTAVARAVRESMVDPDLKDFLNSRMEAALEACETTGSVRSLEQLISMMIKRAADRNLGLLLIIDELGKLLEHAALNPDQEDVFALQRLAELAARSNTSPLLLVGILHQGFQAYAERLPLALRHEWDKVAGRFEEIVFDQPLVHSAALVAGALGVDDAALPITVRTQANSALELARQVGWLGGRGLATEPTRFYPLHPTLLPIMVRFFSRFGQSERSLFGFLLSSEPMALQAFSATTQVGEDWFDTARFYDYVRASFGHRVSAGNYQSQWLRIVATIDSCVDIDPFKLKILKAVGLLNLLDSDDLLPTYRSLAACFSGAGDVDAAIDGLVRDGLLFERGGSGAFRLWPSSSINLTASFNAAKRAVGEIEAVAPALTEILDSEMVLARRHYLETGTMRYFELRYTTAEDVAKAANKVTNADGLIIVALADQKDQQQIAREIAAASPICDNPATLVAVPGPVWQLASYLRDVMVWRWVEANTPDLSSDDFASAEVKRQIARTHQALLAQFAELTKIDAKSGMEWIYAGKAFVATGNLPKIVSQLCNDLYPLSPRVTNELINRNVLSSAAASARMRLIEGLFKAPDMPLLGIDQRKAPPEKSMYLSVLQKGALHVTDGESFTLQIPQASNDPLHLEPSLAEIVKMIKLGKGCRIAVTDILARLSSRPYGVRDGLAPILLAVVVRVHSHELALYENGTFLPRFGAMEFLRLIKAPQTFEIQHCSVEGVRSSVFTRLAALFAAGIEGRQPVLLDVVTELCQFAAKLPEYTRKAKGLSPTTLAVRDALLSAREPATLLFADLPNACGLPIFRIDEADESSVEEFISRFTDAVQELQNTYANLIARIVKRTSEAAGQDPEKFDRIALASRGARVSLAAREPRLRAFALRLRDPALHDEAWAESLASFVVAKPPARWMPGDEARFTEEIAALAELFAKVESTAFSTSEDRPDAEAIRLNITRGDGRDLVRVLHPIDLDAADQKKMETFTDWLPQGDAQRIQILASLLWQELSRPKEPSEEGKVSDIPTIVRTKNDN				NA	NA	NA	NA	NA
BMS010_03990	342			hypothetical protein	ATGGACTGGGGACGATCGCGGTCCGGATGCTATTTCTGCTTCTATCAGCAGAAAATCGAATGGGTCCGTTTGCTGGAAACCCATCCGACTTATTTCGATCTCGCCATGAAATATGAGGAGCGGGCTGTCCAGTATGGTGAGCAGTTCTTCTGGTGCCAGAATGAGCCATTGCGGGAACTGGCAAAGCCGGAGCGGGTGGCCAGGATCAAGGCGGATTGGGAGAAGGCACAGGCCAAGAAAAAAGCCAATCGCAAGTCGCTTTCTCTGGTGGAAACACTCGGTGGGCTCGAAGTGGAAGACGACAGCCACTTGCGAGACGGGTGCCTAGTGTGCTCAATATAA	MDWGRSRSGCYFCFYQQKIEWVRLLETHPTYFDLAMKYEERAVQYGEQFFWCQNEPLRELAKPERVARIKADWEKAQAKKKANRKSLSLVETLGGLEVEDDSHLRDGCLVCSI				NA	NA	NA	NA	NA
BMS010_03991	2445			hypothetical protein	TTGGTTGAGCAAAGTTCAAAACTGGAACTGCAGCCGGGGTTCAAGGTAACCGCACGGACAATCTTTCATCTTGGAGCCGACCTCATCAGCTCTGACGCGGTGGCACTCTATGAACTCGTCAAAAACGCCTTCGACGCGAAGTCTCCATTATTGGAGACGTCGCCCGGCGTCGAAATCGAAATTCGCCAACTCATACCCGTCGAAATAGCCAATAGGGTCATTCTGGGCATCGCCACGGTGTTGGACAAGGGTACGGAGACCGCACAAGACCTAAGGCATTGGAAGGAGAAAGCCGCCGCCACGTTGAAAGACCTTCAGGGTCACGAGGGTCTGCGCACCGCCGTCGCGGCGGCCTCTAACCTCCGGGAGCTTCTGCACACTTACGAGCGCGTCAACTTCATCGAGGTGCGCGACACTGGCGAAGGCATGTCGGCGAAGAAGCTAACAGGTATCTTCCTGACGATTGGGACGATGTCACGCAAGACGAGACTCGACATGCAACGAGCCGGACAAGAAGCGCTTGGCGATCGCCCTATCCTGGGCGAAAAAGGGGTGGGCCGCCTGTCAACGATGCGCCTTGGCTCGCGGTTGACCGTCGAATCCTACGAGGCTTCGGACACGCGCGTAAATATTCTGGAGATCGACTGGTCTTTGTTTGCCCGCCAGCCGGACGTGCCTCTCCAGTCGATTCCCTTCACGCCCCGTCAGGGGGGCGAAAAGCCCAGTCAGCAGGGTACGACACTGCGGATCACTGAGCTATCGTCCGACTGGTCGATCAAGAAGATTGAAGACATTGCCCGCGAGCAATTCGCTAGGCTGAACGACCCATTTGCAGACGAGAACGAATTCGTCATTAGCCTGAAATTCAACGGCGCACCAATTTCGATTCCGCCGTTTCGCCGCGTTCTTCTTGAGCAAGCCCACGCCGTTGTCTCTGTACGGTTCGGGCCCGACAATCCGAGAGACGTGCTGTCGAATGGCCAAATCAAGCCGGGTGTTCCTCTCAGGCTGCGCGGTTCGATCAATTACCGGATGCGCAACCGCACCCAACCGATCGACCTCAGCGGACTGCATCTGCGCAGCGCTTCCAACGCCGACGACGACGTCTTGCGCTCACTAGGGCCGTTTAGTCTGGACCTTTACTGGTTCAACAGACAGGCGTTGGAAAAGACTGATACGATCGGCGACAAGCGGCAAATACAACGGCTCGTCAATGAATGGAGCGGCGGCGTGATGGTCTATCGCGACGGCTTCCGCGTCGGCAGCTATGGTCAAGGCGCCGATGATTGGCTGGATCTCGACCGGAAAGCGCTTGCCTCTGGCGGCTACAAGGTGAACCGCGCCCAAATCGTCGCACGCCTGTCGATTTCGTCTGTCGCAAATCCCTACCTGATCGACCAGACCAACCGTGAGGGCCTTCGTGACTCGCCTGAAAAATCCGCACTCATCAATATCCTGAAGAACGTGATCGAAGGCCGCTTCCGACCGTTTCTGAACGCGGTCGAAGACGAGATTCTGGCGCGGGAGCCGGTCGATCTAAGCCAGGTCGCCGATCGCGTCTTGAAGCAACGCCGGACGATCGCGACGACCCTCAGGCTGCTTTATCAGCGATACCCGCAGGTCAAGTCGGACCCCGAAATCGGCGGTCGCATCGATGATGCAATGAATGACATCGGAGAGTTGATGCGCTCGTTGGAGGCCATGGGCGAGTCCTACGAAAAGGGTCGCAAGGAGATGACTGTTTTGGCCGGTATCGGCTTGTCGGTCGCCTCGATCGCGCATGAATTAAGGCAAGCAACAACGAATGCGTTGGAAATTGTCGATAGACTGAGACGACGCAAGACGGCCTCCGACGTCAATTCGGCTCTCGCACCGCTAGGCGCTCAACTGAAGACACTTCAGACGCGGCTGCGCGTGCTCGATCCGCTGGTTACTTCCGGCCGCCAGGTTAAATCTGAAGTCGAGATGGTGTCGTGGGTAACAGACATCGTCCAGTCAGCCATGCCTGTGTTCGAGCGGGACGGCGTTACCCTGGAACTGAAATTCCGACGGCGTTCCTCAGATGACAGATTTGCGGTGAGGATCGTCCCAGGCATGCTGGTACAGGTGATCGGAAATCTGCTCGACAATGCCCGCTACTGGGTTAAGCGCGCGGAGCTCGAAAATCCGGATCTCCAACCGAGAGTAACGGTCGAAATTGATACGATCCGAAAGGAGGTCCGTGTCAGCGATAACGGCCCGGGCGTCGAGCCAACGATGCGGGACAATATTTTCCAGGCGTTCGTAACCACCAAGCCGGTCGGAGCCGGCTTGGGATTAGGTCTCTTTATCTCCCGTGAGATCGCCGGCTACAGCGATGCGGACCTTGTTCTGCTGCCGGACGATCGCACGCCTGAAGATATGAAAACCAGTTTTGCTTTGCGGTTTGGAGGATCGCCGGAATGA	MVEQSSKLELQPGFKVTARTIFHLGADLISSDAVALYELVKNAFDAKSPLLETSPGVEIEIRQLIPVEIANRVILGIATVLDKGTETAQDLRHWKEKAAATLKDLQGHEGLRTAVAAASNLRELLHTYERVNFIEVRDTGEGMSAKKLTGIFLTIGTMSRKTRLDMQRAGQEALGDRPILGEKGVGRLSTMRLGSRLTVESYEASDTRVNILEIDWSLFARQPDVPLQSIPFTPRQGGEKPSQQGTTLRITELSSDWSIKKIEDIAREQFARLNDPFADENEFVISLKFNGAPISIPPFRRVLLEQAHAVVSVRFGPDNPRDVLSNGQIKPGVPLRLRGSINYRMRNRTQPIDLSGLHLRSASNADDDVLRSLGPFSLDLYWFNRQALEKTDTIGDKRQIQRLVNEWSGGVMVYRDGFRVGSYGQGADDWLDLDRKALASGGYKVNRAQIVARLSISSVANPYLIDQTNREGLRDSPEKSALINILKNVIEGRFRPFLNAVEDEILAREPVDLSQVADRVLKQRRTIATTLRLLYQRYPQVKSDPEIGGRIDDAMNDIGELMRSLEAMGESYEKGRKEMTVLAGIGLSVASIAHELRQATTNALEIVDRLRRRKTASDVNSALAPLGAQLKTLQTRLRVLDPLVTSGRQVKSEVEMVSWVTDIVQSAMPVFERDGVTLELKFRRRSSDDRFAVRIVPGMLVQVIGNLLDNARYWVKRAELENPDLQPRVTVEIDTIRKEVRVSDNGPGVEPTMRDNIFQAFVTTKPVGAGLGLGLFISREIAGYSDADLVLLPDDRTPEDMKTSFALRFGGSPE				NA	NA	NA	NA	NA
BMS010_03992	1908			hypothetical protein	ATGATCAGCGCGCAATCGGTACGCGATTTGTTCGACAAAAGTGGAATTAAGAACGTCGCCATTATCGACGATGTGTTCGATCCGCCCGGCACTAATTTGTCGGCCACCGATATCGAAAACATATTCAACGATCTGGATGCCGTGCCGCTGGTCAAGCGCAAGCTTCAGTTGGAAGGCTGTACGATCAAAGAACCGGCCGATCTCACAGAAAAAGCGTTGCTGGCAATTAAGAGGATTGCTGCTGCCGATGCTGAAGCCCAGGATGTGTGGGACAAGATCGCGGCCATCTCCGAAGGCAAGAAGGCCGGTGTCGAAAAGCTGGCATCGAACCTGAAAAAAAGTCTCAAGCTGACCGTTAAGAAAATCCCGGCCGCTTCGGCACGAAAGAGGAGCAATGTCGTTCCAGACGACAGCAATGTCATCTTTCTCGACTACGAACTGGAGGCGGGTAAGGGCGGTGGCGACCTGTCTTCCAGCATCGTGGAGAAAATCTACGCCCAGTTCAAGGGCAAGCCCTCCGCGCCGCTTTTGATCCTGATGTCGTCGCTCGAGTTAACAGAAGCTGACATTGCCAAATTTCAGAAGCGCTCCGATTTTTTGAGCGGAATGTTTTATTTCGTGCCGAAAAACGACCTATACGAGGTCGAAAAGCTGCACTATCGGCTCGCTGCGTTCGCAAAGGCACTTCCCACCGGTCAGGTCCTGCAGAAGTTTATCGAACATCTCGATACCAGTCTGCACGCGGCGAAAACGACCGTATTCAACGATCTCAGATCGTTGAACATCGCAGATTATGCCTTCCTCCAGACTTTGCGTCTTCACGAAGACGGCCAGCCGATGGGCGATTATCTTATGTGGCTGATCAGCGCGCACCTCGTCAAGGAACTGGGTGGCATCAAGGCAATGAAGGCCGTCGAACGGGCTGTGAGCGACCTCAGTTTCGATGACCTGCCGCCAACCAGCGCCAAGCCCTCGCCCAGCCTGGGCGCCCTCTATTCGAGCGCGGTTATGCGACCGATGGATCCACTTCCCGATCCCAAGACCGATCCGATGGACTATCTGCAGTTTGGCGACCTCTTCCGAAAGGGTACGTCCAAAAACGTGCTCGTCTGCATCACGCCCCCCTGCGATCTCGCGTTCGGTCCCACCAGGCCAATTGCCTCAGACCGCAGTATCCTCTTCCTCACGGGGAAGCTCTTTCCGATCGAAAAACCGCTCAAACCGTTCGAACAGAGGCAACCGAGAACCGAGCTTGTCAAGCTGGATACCACGATGTACCGGATCGTGTGGGACACCAAGGGCCTTATCCAGCTGACCTGGGGTGGCTTGCGGGAAAAGCTGGACGAGCTCAAGTTCAAGCGCGTTGCGAGGCTGAACACGCCATTTGCCTTGGAGGTTCAGCGCAGCTTTGCGACCGATTTGACGCGTATTGGCATGCCCGTCTCGCCGCCGCTTTATAACCCTATCCGGGTAGAGCTGATATGCACTGACACCGCCGGCAACGATCATGTGCTGACGTCGGAAAAGACCTCGATGGCGCATCTGAGTGGTAGCGAGCGCGGGGAGAAAATTGTTCTCGGCAGCGACTTTATGGACGGCCTGCCGGCGATGCTTGCCAAGGCAGATGAACTTTTGGCGAATCGCCATGCTGCCCTAGAGGCTGAGGCCGCTCGCATTGGGGCCGGTCGCGCCGTCGATGTCGATAATGCCCGCAAGAAAATTGTGGCCGCACGCCAGGACGCTGGAGCCCTTAGCGCCATGCGCGGTCCATTTGCGCTCGACCCCGACAACCTGCCGAAAGAAGAGCTCGGTGGCCTCTTCGAGGTTCACCAAGGGGCGGCGGCACCGATCGCCAAGGATTGGATCCCGCTTCGCCTCCGCCTGTTGCGCGAGCAGGATCAGGCTTAG	MISAQSVRDLFDKSGIKNVAIIDDVFDPPGTNLSATDIENIFNDLDAVPLVKRKLQLEGCTIKEPADLTEKALLAIKRIAAADAEAQDVWDKIAAISEGKKAGVEKLASNLKKSLKLTVKKIPAASARKRSNVVPDDSNVIFLDYELEAGKGGGDLSSSIVEKIYAQFKGKPSAPLLILMSSLELTEADIAKFQKRSDFLSGMFYFVPKNDLYEVEKLHYRLAAFAKALPTGQVLQKFIEHLDTSLHAAKTTVFNDLRSLNIADYAFLQTLRLHEDGQPMGDYLMWLISAHLVKELGGIKAMKAVERAVSDLSFDDLPPTSAKPSPSLGALYSSAVMRPMDPLPDPKTDPMDYLQFGDLFRKGTSKNVLVCITPPCDLAFGPTRPIASDRSILFLTGKLFPIEKPLKPFEQRQPRTELVKLDTTMYRIVWDTKGLIQLTWGGLREKLDELKFKRVARLNTPFALEVQRSFATDLTRIGMPVSPPLYNPIRVELICTDTAGNDHVLTSEKTSMAHLSGSERGEKIVLGSDFMDGLPAMLAKADELLANRHAALEAEAARIGAGRAVDVDNARKKIVAARQDAGALSAMRGPFALDPDNLPKEELGGLFEVHQGAAAPIAKDWIPLRLRLLREQDQA				NA	NA	NA	NA	NA
BMS010_03993	2421			hypothetical protein	ATGCGTCAGTTGTTCATGGACCTGTTGGCCTGCGGTACGGAAGGCGACGTCCAAGCAATACTGGACGCCAGAGGTCTCACAACGGACGAAACCAAGTGGACACCTTACGGCGATAACGAGGCATTCTACGGCGTTGTCGAAAACCAGCAGGCCCATCCCGTGCCGGCCCTGGTCGAGAAAGTCATGAATGGCATCGACGCCATCCTGGAAAAGAAGGTCGTGGAAGCCGGTATCGATATTCGCTCCGACAAGGCACCCATAAGCGTGCAGGATGCGCTCGACCGATATTTCCCCGGCCACAAAAACTGGGACTTAGGGGATTTCCGCCGTCAGCAGGCCCGCGACCTTCAAATCGTGGCCTCAGGCCCAAGACGGGATACTTCACTTCTCATCTACGATAACGGCGTCGGCCAGCCGCCGGAGGATTTTCCAAAGACTTTTCTGTCGCTACTGCGCGGAAACAAGAACGACGTCCATTTCGTCCAGGGCAAGTATAATATGGGCGGTGCCGGGGCGATCGCCTTCTGCGGTGATCTGCGCTATCAGCTGGTGGCGAGCAAGCGCTTCGACGGATCCAAACCTCTCGGTTTCACATTGCTTCGACGGCACCCGCCGAAACTTGCTGCAGCCGCCAACCGCAAGAACACCTGGTACGAATACCTCGTTTTCGACGGCAAGGTGGCCAGCATTGACATTGATGAGCTGGATGTCGGGCTAGACGGACGCCGGTTTGCCACCGGATCGCTCCTAAAACTTTACTCCTACCGGCTGCCGGAGGGCGCGCGTTCGATTATCTCGCGCGACTTGAATGTCAGCCTCAACGAATATCTCTTCGAGCCGGCGCTACCGTTTCTTACCGTGGATAATAATGAGCGTTATCCGGACAATCGTGCTCCCGTGACCGCAGTCTACGGTCTGAAACGTCGTTTGGAAGGCGACAAAGACTCTATCGAAACGCGGTTTTCGGAGAACTCCACGACGGCCGAGTTTGGTGAGATGACCATCAGGACCTACGTGTTCAAAGCGCTGTCACGGGATAGCGTCAAGGAAACCAAGCAGTATATCCAGCGGGAGTACTTCAAGAACAATATGACCGTGCTATTCTCGCTGAATGGTCAGGTACAGGGGGCGTACTCATCCGAGTTCGTTACGCGAAGCCTCAAAATGCCGTTGCTCAAAGATTACCTCCTTATCCATGTCGACTGCACAAAGCTTCATCTGGAAGTGCGCAACGAACTCTTTATGGCATCCCGGGACCGGCTGAAGGCGAGCGATACCGCGGAGGCTCTACGGAAGCATCTGCGCGAAATCTTGTCGACTGGCGAGCTCAGGGAGATCGCCAAGCGGCGAAAGGCAAGCCTTAGCGTCGGGAGCGACGATGCTGGTCAGATGCTGCGGGACATGACCCGCAATCTTCCGATGAACGACGCTTTGACCAAGATTCTCCAACAGTCGTTTCAGCTCACCCTCCATAAGTCAGGTGAGGCCCCGAAGAGGGACCGCGCCGACGACGAACGTCCAAAACGCGAGCCGCGTGAGACCGTGCCGTTCGATCCGAAGCGTTATCCGTCCACGTTTCAAGTCAAGGGAGGCGATGGTCGACAAGGCGACATCAAACTTTTTAAATTGCCCCTAGGGGGATCACGGACCATTTCTTTCGCGACCGACGTCGAAAACGATTATTTCGACCGCAGCGACGATCCAGGAAGTCTCGGCCTAGCAGTCCTGCAGCAAGGGACGAGCCGAGGTGGGGGTGGTCCAATTGCGCCTCCGTCGCAACAGGGGGACATTCTGGACCTTCGACGGTCGAACCCCACCGACGGCACGATCAAGATTGGGCTGAGAGCATCCGGCGAAATGAAGGTTGGCGACACGATCGAGGTCCGCGCCAGCCTTTCCAGCCCTGTTGGAGAACTCGTTGAGACTGTGCTTGTTCAGGTGACCGATCCGGAGCGAAAAGTTGTCGAGTTGAAGCCTGAACCAGAGCCGCCGCTCGGGATACCCGACCTGATCTTGTGCTCACGCGACGGCGCCAACAATACAACGTCATGGGACGATATTCAGACGGCAGGCGTGGAGATGAATTTCGACGTTGTCGTCTATCCGTTTGTCGACGAGGACAAGCTTTCCCGCATCTACATCAATCTCGACAGCCGCGTTCTTCGTGAGTTCAAGAGTGGTAACCGCTCCACCGAAGCGGTCGAGCTCGCTGAGCGTCGTTACGTCAGCACCGTCTATTTTCACACCCTCTTTCTCTTTGCGACCACGAAATCGCGTAAATACTCTGTGAAGAGGGGCGAACAAGGCGAGAAAATGGAGGACGTCGAAATCGCCGACTATGTCGCAGATTTGTTTACAGCGTCCTACGCTCAGTTTCTTCTCAGTTTCGACACGGCTGACCTGGTAGACGCGATCGCATGA	MRQLFMDLLACGTEGDVQAILDARGLTTDETKWTPYGDNEAFYGVVENQQAHPVPALVEKVMNGIDAILEKKVVEAGIDIRSDKAPISVQDALDRYFPGHKNWDLGDFRRQQARDLQIVASGPRRDTSLLIYDNGVGQPPEDFPKTFLSLLRGNKNDVHFVQGKYNMGGAGAIAFCGDLRYQLVASKRFDGSKPLGFTLLRRHPPKLAAAANRKNTWYEYLVFDGKVASIDIDELDVGLDGRRFATGSLLKLYSYRLPEGARSIISRDLNVSLNEYLFEPALPFLTVDNNERYPDNRAPVTAVYGLKRRLEGDKDSIETRFSENSTTAEFGEMTIRTYVFKALSRDSVKETKQYIQREYFKNNMTVLFSLNGQVQGAYSSEFVTRSLKMPLLKDYLLIHVDCTKLHLEVRNELFMASRDRLKASDTAEALRKHLREILSTGELREIAKRRKASLSVGSDDAGQMLRDMTRNLPMNDALTKILQQSFQLTLHKSGEAPKRDRADDERPKREPRETVPFDPKRYPSTFQVKGGDGRQGDIKLFKLPLGGSRTISFATDVENDYFDRSDDPGSLGLAVLQQGTSRGGGGPIAPPSQQGDILDLRRSNPTDGTIKIGLRASGEMKVGDTIEVRASLSSPVGELVETVLVQVTDPERKVVELKPEPEPPLGIPDLILCSRDGANNTTSWDDIQTAGVEMNFDVVVYPFVDEDKLSRIYINLDSRVLREFKSGNRSTEAVELAERRYVSTVYFHTLFLFATTKSRKYSVKRGEQGEKMEDVEIADYVADLFTASYAQFLLSFDTADLVDAIA				NA	NA	NA	NA	NA
BMS010_03994	1410			hypothetical protein	ATGGAGCCTTTGACAGAAATTGACCGGGAAGCATTCAGTCTGGAATGTGCTTCTGAACCCCATTACCCCTTCAAGATCCACGGGGGTAGCGACCAGCAGGCCTTTATCATATTTGGGTCTGTTCGAACTTCGTCTTGGGACGGTTGGGACGGTGGCGGCGGACGCACCGACCTACACGATATGTTCGGGCTGATGTGGGCCGGAGCGCTGCGCGCCTCAGGGGTTGCATCGGCGAGTGTATTTGCCAGCGAAGGATGGGCCGGACCGCCGGAGATCGAATCACGGACGCTGTTTTTCGAACAGCCGTACCTGTCTGCCATGAGTGAAGAAGAGTTTAGAGCGGCAAACTCCAAAATCACCGCTCACACAGCCAGGGCGGCACATTTAATCTACGCGGCATTTGGATTCGAGCCAGCCGACCAGCGCTCGCCTCAGTGGGAAGAAAACGCCCAGCCCGCGTGGCTGGACAAGCTCGACAAGCAAATTAAGAAGATTGGGTCAGGTATTTGGGTCACTCGTTCTAACCCGGATTGGGAATATTACATAAGTAGTGATACTCGGATCTCGATAGCGAAATTCGCCGAGCGTGCCATTGGCCCGGTCCGGGAGCTGTTAAGGCCCTACAAACCTGAAGTAGTCGAGTTCGGCGACAGCCTTGCTTTCTCAGCCGGCGGGCTCGTGAACCGTGTGTCCAAGGAAGTTGCTCGAAAAGGCGAACATCTGATCAATCTCATCGAGGATCGACCCGGCGCGGCCTCGGAGAAAAGAACAGTCGTAATTCTTCCGCTCGAATCGCACTGCCTCTTCCTCGGTGCAAGGACCATTGTAGCGATTGAAACGCCCTGTGGGTTCCGAGAATTCCAACAGGCTCGCGAACAATGGAGGGAGGTCACTCGGAAACAGGCTAAGATTTTCAACATCGGGGTTGAGTGGGAGTGGCACGCAAAGCCCGATCCAGCTAAATTCGAAGCTCTCGTTCGAGAGCTGCTCAATGAGGAGACCGGTCTACATTGGGTACGCGCCGCCGGACCGACATTTGACCGGGATCAGGGTAGAGATCTCGTTGCAATGTGGCTGACACCGCCCGGCCTTGGGCAGAAGTTGACCGCTCAGCAAGCTGAGAGTCCTGTAATTTCTCGCAAGATTTTAGTGCAGGTAAAGACGCGCAAAAAGACGGTTGGCAAGGCGGACATAGCCGACGTTCGCGACACGCTTGAGAGACATGGTGCTGACGGCATTCTGGTTGTCGTTAGCCCAGGTTGGTCGAACGACCTCTATAACTACTGCGAGCGTTTGGCAGAAAAGGGCGTTTGGGTTGATCTTTGGGGGCGATCAGAACTCGAACAGCGGCTAGCGCGTGCACCTCACGTAGCGAAGCGGTTTTCGGGCATTGTCTGGGAGAAGAAGTGA	MEPLTEIDREAFSLECASEPHYPFKIHGGSDQQAFIIFGSVRTSSWDGWDGGGGRTDLHDMFGLMWAGALRASGVASASVFASEGWAGPPEIESRTLFFEQPYLSAMSEEEFRAANSKITAHTARAAHLIYAAFGFEPADQRSPQWEENAQPAWLDKLDKQIKKIGSGIWVTRSNPDWEYYISSDTRISIAKFAERAIGPVRELLRPYKPEVVEFGDSLAFSAGGLVNRVSKEVARKGEHLINLIEDRPGAASEKRTVVILPLESHCLFLGARTIVAIETPCGFREFQQAREQWREVTRKQAKIFNIGVEWEWHAKPDPAKFEALVRELLNEETGLHWVRAAGPTFDRDQGRDLVAMWLTPPGLGQKLTAQQAESPVISRKILVQVKTRKKTVGKADIADVRDTLERHGADGILVVVSPGWSNDLYNYCERLAEKGVWVDLWGRSELEQRLARAPHVAKRFSGIVWEKK				NA	NA	NA	NA	NA
BMS010_03995	1134			hypothetical protein	ATGGCTTACGATCTCGCGAAAATCAGCATGACAGCCCTGATGCGGCCGGCTTTCGACGCCGGCATCGCGCTCACCCGTCTCGACGAGCGCATTGCTCGCTCGCCGGTTGGCGCAGGCTGGCTCGAACGCCAAAGTTTCGCCGACGCCTGCGCCTCGCTGTGGATCGACGGCGAGCTCGTCCACCTCGAAGACCTTGTCCTCCATGACGCCACCCGCGACATCCGCACGCCGACCCACGAACTGACCATCGCCCGCGACGTTTTACGAACCCGCCGACGCATTGCTGGTCAACCGCCGGATTGGGCGTTATCGGCAGAGGGTATCCGAACTTTGCGACAGACGTCGGACATCAACCCGGTCGGCGCCGGAGCGATGGAGTCGGCCGCCGTCAGTCGGCCCGCGGCCGCTGCAAAGGATCCGGAAGGGGAGGGGGACGATGTCGACGACGTCGAGAACCTTCCGGGTATCGACTACGCCGCGATCGACGCGATGCTGGCCCGATCAGAGGCGGCGATCGCAAAGGCAAAGCGGCCCGGCCGCGCTGATAGCTCCGAACGAGATCCTCTCGTCTATGATCTCGACTGGGACGAGGATGCCCGGCTCAACGAATGGCGTGGTGTGCTGCGTGAGGCCGAACACCTGCCGGCGATGCTGCAGGCCATCATCGGGCTCGATGCCTGGAACGAACTGTCCGTGCTGCAGCACGCGCCTTGGCTCGGCCGGCTGTTGGCCGCGTCGATCCTGCGGCAGGCCGGGCTCACCACCGGTGCGCATCTGGCCGCGATCAATCTCGGCCTCAAAACCATTGCCGTCGATCGGCGCCGGCATCGCGATCGCGAACCACGGCTGCTCGCCATCGCCCACGGCCTGATCGCGGCTGCCGAGATCGGCATGAAGGAACATGACCGGCTGGTTCTGGCGCGCGCGCTGTTCGAGCGGAAGCTGGAAGGGAGGCGGGCGTCTTCGAAATTGCCGGAGCTGGTCGAGTTGGTCATGGCCAAGCCGCTCGTTTCTGCCGGGATGGTAGCGAAGACGCTGGACATGACGCCGCAGGCGGCGCGGCGGATCGTGATGGAGCTCGGGCTGAGGGAGATGACGGGGAGGGGGAGGTTTCGGGCGTGGGGCGTCGTTTAG	MAYDLAKISMTALMRPAFDAGIALTRLDERIARSPVGAGWLERQSFADACASLWIDGELVHLEDLVLHDATRDIRTPTHELTIARDVLRTRRRIAGQPPDWALSAEGIRTLRQTSDINPVGAGAMESAAVSRPAAAAKDPEGEGDDVDDVENLPGIDYAAIDAMLARSEAAIAKAKRPGRADSSERDPLVYDLDWDEDARLNEWRGVLREAEHLPAMLQAIIGLDAWNELSVLQHAPWLGRLLAASILRQAGLTTGAHLAAINLGLKTIAVDRRRHRDREPRLLAIAHGLIAAAEIGMKEHDRLVLARALFERKLEGRRASSKLPELVELVMAKPLVSAGMVAKTLDMTPQAARRIVMELGLREMTGRGRFRAWGVV				NA	NA	NA	NA	NA
BMS010_03996	933			hypothetical protein	ATGCGCGAGAAACCCATGGCAAAACGGCAAGCCGCCAAACCGTCGCCGGCCCCCAAACGTCTTATCGGCTATGCACGCGTGTCCACCGACGATCAGGTCCATGACGCACAGATGGACGAGTTACGCGCGGCCGGCTGCGAGCGGATATTTCAGGAGCACGGATCCGGCGCATCACGGGCCCGGCCGGTTCTGACCAGACTGCTCGGCGAGCTCGCCGCTGGTGACGTGCTCGTCGTCGTCCGGCTGGATCGCCTCGCCCGTTCGGTCAGTCATCTGTTGCAGGTGATCGAGGATCTTGAAGAGCGCGGCGTCCATTTCCGATCGATCCGCGATCCGATTGACACGTCCACGCCGCAAGGCATGTTTTCTCTTCAGGTTCTCGGGGCCGTCGCACAGCTTGAGCGGGCGCTGATCGCAGAACGGACCAAAGCTGGCATCAAGGCGGCAAAGGCGCGTGGCAGGCTACCCGGCAACCCGGGACTTCGAGAGCGGCGGCCGGAAGCGATCAAAGCCGTGTCGAAGGCACGAGAGAAACTCTATCTCGACGAGTTGATCTCGACGGCCCAAACCTGGCTGCCCATGGTGCGACAGCTTCGCCCTCAGCATAGCTGGGACAATGTCGTCCGGGTCCTCAATCGCCGCGGCCACGACTGGACAGTCGAGCGACTGCGACGTGCGGTGCATCGCATGGTTCGCGAGAAGCTGGCCGAACCCGAGCTCTTAGCTCGCTCACCCCGCCGTGCGCCAGAAGATCATCTGATGAAGCTCGTTGCGGCGATTGCCATTGCCGATCCAGGCCTGTCGCTGCGCGACATTGCCGCCCAACTGGATCAGATGGGTGAGCGGCCGGTGCGAGGTGGACGCAAATGGCAACCGTCCTCTGTTCGTCATCTGCTGGATGAGGCACATAGGTTCGGTCTCATCCGTCATTGA	MREKPMAKRQAAKPSPAPKRLIGYARVSTDDQVHDAQMDELRAAGCERIFQEHGSGASRARPVLTRLLGELAAGDVLVVVRLDRLARSVSHLLQVIEDLEERGVHFRSIRDPIDTSTPQGMFSLQVLGAVAQLERALIAERTKAGIKAAKARGRLPGNPGLRERRPEAIKAVSKAREKLYLDELISTAQTWLPMVRQLRPQHSWDNVVRVLNRRGHDWTVERLRRAVHRMVREKLAEPELLARSPRRAPEDHLMKLVAAIAIADPGLSLRDIAAQLDQMGERPVRGGRKWQPSSVRHLLDEAHRFGLIRH				NA	NA	NA	NA	NA
BMS010_03997	1215			hypothetical protein	ATGAACAAAAATGCTGAAGCGCAGGCACCGTCCAGAGAGACGCTCGTTGGCCTTATAGACCGACATTCGTCGGCTCTTGCTGTTCAGTTGCAAGCTCACCATGTGAGCACGTTCCCGCCGACGGCGCAGAAGGGAATACGTCATTTTCAGCCATCGGAAGCAGCGAAGTTCGTTGGCGTCAAGGAAGTTTATCTTCGTCAGGTTTCCAACGATATCGATGATCTGGAGGTAAGTACGACCCCCGGCGGACGACGCTCCTACTCCGTGGATGATATCGACAAGATCCGCCGACATCTCGACAAGGTCGGCAGAGCGGACCGCAGATACTTGCCCCACCGCCGCGACGGTGAAGACCTCCAAGTTATTTCCGTCATGAACTTCAAGGGCGGCTCCGGCAAAACGACCACGTCCGTCCATCTCGCCCAATATCTTGCGTTAAGGGGTTATCGTGTCCTTGCCATCGATCTCGATCCGCAGGCTAGTATGTCCGCCATGTTTGGGCATCAGCCGGAACTCGATGTCCATCCGAATGACACGATGTACGGCGCAATCCGGTACGATGAGGCCCGGCGGTCGGTGAAAGAGATCATCCGGAAAACCTACATCCCCGCATTGGATCTTGTTCCTGGAAACCTCGAACTCATGGAGTTCGAGCATGACACGCCTCGCGCGTTGATGAAGCGGCAGGCAGGCGATGTAATGTTCTTCCAACGGCTGAGCGATGCCATCGACGATGTCAGCAACGGCTACGATATCGTCATCATTGACTGCCCCCCCCAGCTTGGCTACCTGACGCTCTCCGCCCTCACCGCGGCGACTTCGGTGCTCGTGACGGTCCACCCGCAGATGCTGGATGTCATGTCGATGAACCAATTCCTCGCGATGGTTGCTGATCTGCTGCGCGAGGTGGCCGCCGCCGGCGGTAATGTCGATTTTGCTTGGCTGCGTTACCTCATAACCCGCTTTGAACCGTCCGACGGCCCTCAAAATCAGATGGTAGGATATCTTCGGTCTATTTTTGGCGCCCACGTCCTAAACTTCCCGATGCTGAAATCTACGGCCGTCTCCGATGCCGGGCTTACAAACCAAACTCTGTACGAAGTCGAGCGCGGCCAATTCACACGCAGCACCTATGATCGAGCTATCGAGGCGATGAACAGCGTCAATGACGAGATTGAAACCCTCATCAAGAAAGCTTGGGGACGAGCGACATGA	MNKNAEAQAPSRETLVGLIDRHSSALAVQLQAHHVSTFPPTAQKGIRHFQPSEAAKFVGVKEVYLRQVSNDIDDLEVSTTPGGRRSYSVDDIDKIRRHLDKVGRADRRYLPHRRDGEDLQVISVMNFKGGSGKTTTSVHLAQYLALRGYRVLAIDLDPQASMSAMFGHQPELDVHPNDTMYGAIRYDEARRSVKEIIRKTYIPALDLVPGNLELMEFEHDTPRALMKRQAGDVMFFQRLSDAIDDVSNGYDIVIIDCPPQLGYLTLSALTAATSVLVTVHPQMLDVMSMNQFLAMVADLLREVAAAGGNVDFAWLRYLITRFEPSDGPQNQMVGYLRSIFGAHVLNFPMLKSTAVSDAGLTNQTLYEVERGQFTRSTYDRAIEAMNSVNDEIETLIKKAWGRAT				NA	NA	NA	NA	NA
BMS010_03998	966	noc_2		Nucleoid occlusion protein	ATGAGCAGAAAAAACCTCCTGAACCTGATCCAGGTCGATGCGGACATGCCCGTAAAAGCCGCCGCATCCGACAACAAGCTTGTCGGTCAGGTCGCCAACACGATGCGCGAAGAGAAAGCTCGTCAGGCGCGCGCCGACGAAATCGAGCGGCGCCTCGCCGAGGGCCAGGTCGTAATCGACCTTGACACGGCTCTCGTGGAGCCGTCTTTCGTTCGAGACCGCATGCCTGGCGATATCGACGGCCTTCTGTCCTCGATCCGTGCGCAGGGGCAGCAGGTACCGATCCTCGTCCGCCCTCATCCTGATAAGCCGGGACAATATCAGGTCGCCTTCGGCCATCGCCGCCTGCGCGCCGTCCAGGAGCTCGGCCTTCAGGTCAAGGCAGTGATACGCGCCTTGACGGACGAGGAACTGGTGATCGCCCAAGGGCAGGAAAACAATGAACGCGAAGATCTCTCCTACATCGAGAAGTCACGGTTCGCACAGCGGCTCAAGGAACGTTTCCCGCGCGAAGTCATCACATCCGCCATGTCGATCGACAAGGCCGAATTGTCGCGCATGCTTTCCGTTGTCGAGGCCATTCCCGCCGATCTGATCGACGCCATCGGGCCTGCTCCAGGCGTTGGCCGGCGAAGCTGGCAAGAGCTCGCAGAGCTGATTCTTAAAGCCGAAAGCAAGAACCCTGTGGACTTGGCAAGGTCCGACGAGCTGCAAAGGATGACCTCGCAGGATCGGTTCAAGGCGCTTCTCAACGCCCTCAAACCTCGCCGCCTCGTTCGTGGGCTGCCCGAAGTTCTTTCGACGTCGTCCGGTCAGCGATTGGGCCACATCAAGCACAGCAAGTCTAAAATCGAAATTACCCTCGACAGGAAGGAGGCGGGAGAGTTCGCGTCTTTCCTGCTCAATGACGCGGTGGCTCTTTTCGAAGAGCGCCGTGCGAAGTCCATTGGAAAAAAGGAAGCATAA	MSRKNLLNLIQVDADMPVKAAASDNKLVGQVANTMREEKARQARADEIERRLAEGQVVIDLDTALVEPSFVRDRMPGDIDGLLSSIRAQGQQVPILVRPHPDKPGQYQVAFGHRRLRAVQELGLQVKAVIRALTDEELVIAQGQENNEREDLSYIEKSRFAQRLKERFPREVITSAMSIDKAELSRMLSVVEAIPADLIDAIGPAPGVGRRSWQELAELILKAESKNPVDLARSDELQRMTSQDRFKALLNALKPRRLVRGLPEVLSTSSGQRLGHIKHSKSKIEITLDRKEAGEFASFLLNDAVALFEERRAKSIGKKEA	PGPT0014815_3834	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014815-parB|spo0J|yyaA-K03497	NA	NA
BMS010_04001	1212			hypothetical protein	ATGCATACGGAAAGTGTTACGACGCCCTTTGGGCGGCGGCCGATGACGCTTGCTCTTGTCAGGCGACAACAGGCGGTCGGCGAGGTATCCAGGAGCAAAGCCGCGGATAAGTGGAAGATCTTTCGCGATGCTTCTGCGGCGATGGAGCTGCTGGGGCTGCAATCGAGCAGCCTGGCTGTCCTGGACGCCCTACTCAGCTTTTACCCCGAAAAGGAACTGCGGGCTGATGCACAGATGGTGGTGTTCCCATCCAACATCCAGCTGTCGCTTCGTGCTCACAGCATGCCGGGATCGACCCTGCGCCGGCATCTGGCTGCACTGGTTGATGCAGGCCTGATCATCCGAAAGGACAGTGCCAACGGCAAACGCTTCGCACGGAAAGACGCCGGTGGTGATATCGAGAGCGCCTTCGGATTCGATCTGTCACCTTTGTTGGCTCGTGCCGATGAGCTAGCACTGCTGGCCCAACAGGTGACCGCGAGGCGCACAGCATATCGTAATGCCAAGGAGAAGCTCACGATCTGCCGGCGCGACACGCGTAAGCTTCTGACGGTAGCGATCGAGGAGGGAGTCGAGGGCGATTGGCAGGCGGCGGAGGACGCTTACGTCCGTCTGGTGGGGAGCTTTCCGAGGTCGCCGACCTTTGCCGAGGTGGAAGACGCGCTCGAGAGCATGGAGATGCTGAAGGAGGAAATCCTTAATCGGTTGGAAACAAAGGAAAATGCAGAAAATACTAGCAGCAATGATGCTCAAAATGAGCGCCACATACAGAATTCAAATCCCGAATCCACTATTGTACTTGAACCTCGCTCTGGAAAAGAGCAGGGCGCGAAATCGAGCAAACCAGCCAAGCCGAGGGAGCCGCTGAAGGCCTTCCCCCTCTCCGTTGTTCTGCGGGCCTGCCCGCAAATTTCGGACTACGCACCGAGCGGAACAATCGCGAATTGGCGCGATCTCATGTCCGCCGCTGTCGTGATCCGTTCAATGCTTGGCGTGAGCCCTTCGGCCTATCAAGAGGCATGCGAAGTCATGGGACCCGAAAACGCGGCGGTGGCCATGGCCTGCATCTTCGAGCGGGCAAACCTGATTAACACCGCCGGCGGCTATTTGCGTGACCTCACAAGACGCGCCGAGCTGTCGGAGTTTTCGCTCGGACCGATGATCATGGCGCTTTTAAAGGCCAATGGAGGGACGGAGCTGAAAACCGGGTAA	MHTESVTTPFGRRPMTLALVRRQQAVGEVSRSKAADKWKIFRDASAAMELLGLQSSSLAVLDALLSFYPEKELRADAQMVVFPSNIQLSLRAHSMPGSTLRRHLAALVDAGLIIRKDSANGKRFARKDAGGDIESAFGFDLSPLLARADELALLAQQVTARRTAYRNAKEKLTICRRDTRKLLTVAIEEGVEGDWQAAEDAYVRLVGSFPRSPTFAEVEDALESMEMLKEEILNRLETKENAENTSSNDAQNERHIQNSNPESTIVLEPRSGKEQGAKSSKPAKPREPLKAFPLSVVLRACPQISDYAPSGTIANWRDLMSAAVVIRSMLGVSPSAYQEACEVMGPENAAVAMACIFERANLINTAGGYLRDLTRRAELSEFSLGPMIMALLKANGGTELKTG				NA	NA	NA	NA	NA
BMS010_04002	189			hypothetical protein	ATGGCTTCCGACCAGGTGATGACGACGGCTTTCGTCTTAATGATTGCGCGCTTCCCGTTCTCCCGTTTCTGGCCGTCGTCTCATCATCGTGGCAGCCTGAAGCGTGGGCTCACGCTCCATTCGACGCGTGACGCTAAAATTCTATGGGAACATTTCAGGAGTGGTTTTGAATTGCCGTTTATGGCGTGA	MASDQVMTTAFVLMIARFPFSRFWPSSHHRGSLKRGLTLHSTRDAKILWEHFRSGFELPFMA				NA	NA	NA	NA	NA
BMS010_04003	1785			hypothetical protein	ATGGCAGGCCCAACGCTCGCATTCGGTAAGCATTCAAGCGGTAAGATCCTGCATATCTCGGAGGCTGCTCCTGGCGGCGATTGCCACTGTATCTGTCCAGAGTGTGATTTGCCTCTCGTTGCAAAGAAGGGTCATGTGACGCCGCACTTCGCGCACCACCCGGACGGCGGGGGCGGTACAGAAGGATGCGGAACAACCGGCCAGATGACTGCCCTTCACACGTTAGCGAGAGATCTGTTTCTCAGTGGGGGATACGTTCGGCTTCCGTCAGCGTCGCGCGACGGCCATCGTGCGGTTGATCCCGCGGAGGTCGAACTGACCGACGTCAGAACCGAACAACGGTTTGAAGGGCACCAACCCGACGTCATTTGCAGAGCCTCCGACAGACCCCTCCTGATCGAGATTGTCGTGACGCACAGGGTATCCGATCAGAAGGCGGCGCTCATCAGACGACAGCGGTTGGAATCGTTCGAGATCGTGATCAGTCCGGATTCTGTCTCCGGCAAACTGTCCCTTGCGGCGGTTGAAGACCACGTCCGACGCGGGGCAAACCGACATTGGATCTTCAATGAGAAACTGGAGAAATTCCTCCACGCTCGCTACCACCTTGATGGCGTGCCACCACGCGGACGACTGACCACGGATAAATCCAGGGCCCTGGCGCGGCTTTACGATCGACTCGCAGGGTTGCCTAAAGTATCTGCCCCTTCCCCGAACAAGACATCGCTATCGCAGTGGCTGGAAGGTACACGTCCATCATTCGAGGGCTATTTTCGAATGCCAGCAGATGAATGGCGTGCCTTCGTCCTGCTACAGTGTCAGCACGGTCCCGGTGTTCCGCTAAGCCGCATTGTCACGAAGCTTCAGAGGGCTGAACATTTACATGCTGAGCTCTCTCGGTTCTCTTGTTCCGCCACGGACTCCAACGAGGTAGGACTGCCTGAGTTCGGTGTAGAAGCATGCGTTTTTACCTTTTTGTCTGACCTCGAAAAGCAGGGTGCTGTCGTTTGTCTTCCAAGCGGCAATTGGCGTCTGCTGGTTGATTTGCCAGAGCAGCAACCGCTCTCGTCAGGGCGGCGGCCGGGGCTGCTGCCAAAGCCCGACTATATGGCAATGCGCCATCAGGAAATGGAGGCAAGTCTTCAGCGGATTGTAGCGAAGCTCGACCTGAGTGAAAGGGCGGAATTCGCAGAGGGCATCGGGGCGTGGTGGAAGAGACCGCTCATAGATGGCCGCTTAACGCCTCTCGATATCATCAAAGCCGGAGATTACCGGTGGACACGGTTAAAGAAGCAACTCGCAGCCGTCGAGCTGGCGCTGAACTCAGATGAACCCGGCCCCTTTAACCCAATTGGCCTTCCCATGAGCGCGGCAGCGGCAGTCTGGGCCGCTAAGGTCGCAGATGATGAAAACGAGAGGGCACGGCTCCGTTGCGAGAAACTGCAGGCAAGAGCCGTACAGAAATTCGGTCCGGGAATCGCACCGATGTGGCTTTCGACCAGACCATCTCGGAGAGGGCTGTCGCCCCTGGAGTTTGCAAGGGCGTCCGAAATCGGCCTTCAGGATGCCCTCCGGGAGTTGGAGCGTCGATTTGTAAGCACAGATCGGATCCCGGTGATCCAGGAGGAATTCAAGGTTTGGGTGGGGCGGAAATTCCGGGGCAAAGGACTTAGGTTCATCCAAACAAAGAACGACTCGCTCCCCGATCGCCGAACGCCCTTGGAATGCTGCTACGATGATGTCAGCCGCGTCCAAATGCAAAAATTGGTCGAAGAACGTTGTTAG	MAGPTLAFGKHSSGKILHISEAAPGGDCHCICPECDLPLVAKKGHVTPHFAHHPDGGGGTEGCGTTGQMTALHTLARDLFLSGGYVRLPSASRDGHRAVDPAEVELTDVRTEQRFEGHQPDVICRASDRPLLIEIVVTHRVSDQKAALIRRQRLESFEIVISPDSVSGKLSLAAVEDHVRRGANRHWIFNEKLEKFLHARYHLDGVPPRGRLTTDKSRALARLYDRLAGLPKVSAPSPNKTSLSQWLEGTRPSFEGYFRMPADEWRAFVLLQCQHGPGVPLSRIVTKLQRAEHLHAELSRFSCSATDSNEVGLPEFGVEACVFTFLSDLEKQGAVVCLPSGNWRLLVDLPEQQPLSSGRRPGLLPKPDYMAMRHQEMEASLQRIVAKLDLSERAEFAEGIGAWWKRPLIDGRLTPLDIIKAGDYRWTRLKKQLAAVELALNSDEPGPFNPIGLPMSAAAAVWAAKVADDENERARLRCEKLQARAVQKFGPGIAPMWLSTRPSRRGLSPLEFARASEIGLQDALRELERRFVSTDRIPVIQEEFKVWVGRKFRGKGLRFIQTKNDSLPDRRTPLECCYDDVSRVQMQKLVEERC				NA	NA	NA	NA	NA
BMS010_04004	1227			hypothetical protein	ATGTCCGATATACCGGCTACGCGCCGTTGCATTTACTGCTTCCAATGCAAACCCGTCGGTGAGTTTTCGTTGGAACATATCTGGCCTGACGCACTGGGTGGTTCGCTGTGCGATGACCTCTTCAAGACAAAAGAGGTCTGCGCCAAATGCAACAACATATGCGGCCTCTTCGTCGACGGCGCGTTCATCAAAAGCTGGTTTGTCCAGATGGAGATCGCAAACCAAGGCTACAAATTCCTCGATCCATCGAAACCGACCGCGGTACCGTTGCAATATCTCGGAGTGGAGCCTGATCTTTCAACCGATGCCGGCGAAATTTGCGAACGCTGGCAGGGTCCTGCCGGGGAACGCATCTACCATTTCCATCTCGCTGACGAGGACCGCTGGGATACCTTTGCTGGAGGCGACACCATCCGTCGAAAAACAAAGGATCCAGGCCGCGCTTATCTTGCTCTCAGCTCCCCTGAGGAATTTTGGTCGTTGACCGCTGCCTTTAGTTTCCGGCAGCAATTCGCAAAAGTTAAAAGATGCGTGTTGACCAAGGCGGAGATCGACAATCCGCGGTTCAAGCCCGTCATGCCCGTCCTCTTTCCGCAAGGAGATCCCGCGGATCCCCAAGAGGCCCGGGACCGGGCTATCCTGGCAGAGGCTCTGTCACGCAACCGGGTCCGATCGCGCATACCCGTTCAGGCGGATTTTGACGGCCGGTTTTTATGTAAGGTGGCGCTGGGCCTCGGCCACAAGATTTTCGGCGCACAAGATGGCGAGAGCGCCTATGGCGCGGAGCTGCGCAAAGGCCTTTGGGTCAGAGATGTTCGCGAACGGCGGGAGCTTAAAATTCGCGGGACGGGTATGCTTGGGGGAGGCGGCGGCACAATCCCTCAGCAACTACGCGAATTCCTGACCTGGCCGGGTGCTTGGACGATTTGCATCTGGAGCCATGCAGATCTCCTCACCGCGCACATCCATAGTCCGTCAGGCTCCCGGCTCTCCATCGTGATTGCGGAGGACATTACCCAGTACGCTGCGACCGACACGGCGCTATATATGGACGGCCAGATCTACATGATTTCGCTTCCCGGGGAATCCTCCGTTGGACCGATCGCCCTGCCCGACTTCCTTGGCCACAAACTCGGCAACAAGGCTGTTCCCGGCCTTCGCGCGATAGAACTGCGCGATGACATTGCAAACCTCCTTCCCCCGAAAAAGCTTCCGCTGCAATCCTAA	MSDIPATRRCIYCFQCKPVGEFSLEHIWPDALGGSLCDDLFKTKEVCAKCNNICGLFVDGAFIKSWFVQMEIANQGYKFLDPSKPTAVPLQYLGVEPDLSTDAGEICERWQGPAGERIYHFHLADEDRWDTFAGGDTIRRKTKDPGRAYLALSSPEEFWSLTAAFSFRQQFAKVKRCVLTKAEIDNPRFKPVMPVLFPQGDPADPQEARDRAILAEALSRNRVRSRIPVQADFDGRFLCKVALGLGHKIFGAQDGESAYGAELRKGLWVRDVRERRELKIRGTGMLGGGGGTIPQQLREFLTWPGAWTICIWSHADLLTAHIHSPSGSRLSIVIAEDITQYAATDTALYMDGQIYMISLPGESSVGPIALPDFLGHKLGNKAVPGLRAIELRDDIANLLPPKKLPLQS				NA	NA	NA	NA	NA
BMS010_04005	516			hypothetical protein	ATGCTGGAGGTCGCGCTGCGCAATCGCATCCACCAGGTCATGACCGAGACCTATGGCGATATGTGGTTCGACATGCAACAGCACCAGTTGAACGCCACCCAGGCTGACATGTTGGCCAGAGCCCGCGACGACCTCACCGACAAGGGGAAGGACCACACCCCTGCGCGGATCGTCGCGTCGCTCACCTTCGGGTTCTGGACGGCCATGCTCGGCAAAGACTACGAGACACTCTGGCAGCAGACACTGAAGAGCATCGCAAAGCGCGAGGACGGTAAGGGGCTTCGTCGCAAGGACTTCACCAGATCGCTTGGTCCGATCCGTACACTGAGAAACCGCCTCGCCCATCACGAGACGGTGCTTTATTGGGATCTGCCAAAACACTATGGAAATATCGTGCAAATGATTTCCTGGCTGTCCCCGGTCGCGGCCGACTGGTGTCGAGCCCATTGCCGGTTTCAGAGCCTTTATCCTGTCGAGGGTATCACTCTGATTTGCCAGGGACCCGGCGAGACGTGA	MLEVALRNRIHQVMTETYGDMWFDMQQHQLNATQADMLARARDDLTDKGKDHTPARIVASLTFGFWTAMLGKDYETLWQQTLKSIAKREDGKGLRRKDFTRSLGPIRTLRNRLAHHETVLYWDLPKHYGNIVQMISWLSPVAADWCRAHCRFQSLYPVEGITLICQGPGET				NA	NA	NA	NA	NA
BMS010_04006	492			hypothetical protein	ATGACCACCCAAGACAATACCGTCGTCGCCTTCCCGACCAAGCCTGATGGTCCTGCCCCAAGCAGCTTCGAGAGAATTTGGGGCAAGAAGGTAAAAAATCACGGCTACGCCGCGATCCCGACCATTCTCATCCGCTCGCAGCACCGCCTTGGCATCAACAGCACGCAGTTCTGCCTGCTGATCCACCTGCTCGATCTCTACTGGTCTCCGGATCGTCCCCCCTTCCCTACCAAGCAGCAGTTGGCAGACCGCATTGGCATCAAGCCCACCTCCATCAAGCCTAACATGAAGGCGCTGGAAACGGCCGGCCTGATCCAGCGGGTACAGCATAAGACCTCTGCAGGTGACTGGGGAGCGAACACCTACCACCTCGACGGCCTGATCCAGAAGATCAAGGACCTGGAGCCGGACTTTGACACGGAAAAGAAAAAGAGGCTGGCGGAGAGGAAGCGGGTGGAGACACCGAAGGGCAAGCGACCCAAGGAACAGTAG	MTTQDNTVVAFPTKPDGPAPSSFERIWGKKVKNHGYAAIPTILIRSQHRLGINSTQFCLLIHLLDLYWSPDRPPFPTKQQLADRIGIKPTSIKPNMKALETAGLIQRVQHKTSAGDWGANTYHLDGLIQKIKDLEPDFDTEKKKRLAERKRVETPKGKRPKEQ				NA	NA	NA	NA	NA
BMS010_04007	609			hypothetical protein	GTGGTTGCCTCGCGTTTTGTGTCCGGTCTGCGTGCCGTCACGCTTCCGGCCGGCCACGGTCTTGTGCGCGTGCATGCGCTCAATCGGGGACCGGTGTTCTTTGGACCGGCTCCCGGGAGCCGCCCTCAGAACCGCTTCGATGCGCCAGACCAGGAGTATCGGGTTCTTTATGCCGCTGAACACCTGGAAGGCGCCTTTGTCGAGACCGTATTGCGCCGGCCGGTCGGTCGGATCTTGCGGCGTGCCAGCGTCGAGGAGCGCGGCTGGAGCATTTTGCGCCCCTCGCGGCCTCTTGCCCTTGCCAAGCTCTTTGACGACGGCCTGCAATTTCACCAGATAGATGCCAGCGAAATCAGCGTCGATAATTATGCTCCCTCGCGGGCACTGGCGCTTGCACTCCATGCGGAGTTCAACGATCTCGATGGTCTCGCTTACCGGTCACGGTACAATAACGGCGAGATCTGTTACGCAATCTTCGACCGCATTGCGCCTGGCGGATTCGACCCGGGACCCGTCTCGCCGTTTGTCGACCACAAGGACAGGGTCGATGCGATGATGGAGCTCTACGGCGCCGTCTTCGACACCAGCCTGCCCATTCCGCCAATCTAG	MVASRFVSGLRAVTLPAGHGLVRVHALNRGPVFFGPAPGSRPQNRFDAPDQEYRVLYAAEHLEGAFVETVLRRPVGRILRRASVEERGWSILRPSRPLALAKLFDDGLQFHQIDASEISVDNYAPSRALALALHAEFNDLDGLAYRSRYNNGEICYAIFDRIAPGGFDPGPVSPFVDHKDRVDAMMELYGAVFDTSLPIPPI	PGPT0027799_4704	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-RES-Xre_TOXIN-ANTITOXIN_SYSTEM,PGPT0027799-toxin_eat5|res-na	NA	NA
BMS010_04008	942			hypothetical protein	ATGCATCGCTACCTGGCTGCGCCCGCCAATGTACCGATTGTGGGGTCCTCCAACCACGAAAATGACAGATCACACCTTTCGAACTCACTTCCTCTTAATTTCATGAGTGTGTCTGAAACCCGGACACTGGGGATCTATGGCCTTACGTTCTTTTTTTCGCGCATCGATCAGGGAGCACTGCTGCTCAGTTCGGCCCTAATTGAGGGATCGATGGGCCATTTCCGGCCGCGTCACGATCGCGTTCGCGTCAATCGGCCGCGCTCCTGGATGGACAATCTGGTCATCAGTTGCCGCGACCGATCTGCGGAAGTTCGCGAGGCCTTGAAATTCGAATGGGAGCCTACCGGGAGGGCGGCCGAGCTCGCGCTTGACGCGTTTAAGACGCTGAGTGAATTGACACAGACGAGCTGGGAACTCCAGCGGCTGTGCCAGGTGGACCGGCCGCGCGCATTCCACGAACTCGCCCTTCATTTGGAGCTTGCAACGCAACAGTTTGAACTGAACGCGCGGCTTGTTGCCGAGATTGAGGGTTTTGAGGCGCCCTCGCCTGCGTTGGAGCGCTTGAACGATGTCCAAACCGATCTGTTGACGCGGGCCGGAGGCGGGTTGTCGCTGACGGCGGCTGCCGATCGTCTCGGCATTTCGCGACAAGCGCTGCATAAACGAGCCAAGACTGGGTCGGCACTTGCCCTTATGCAGGGAACCGAACTTGTTCTGCCATTGGCGCAATGGGTTAGCACCGGAAAGTCTCTGACCTGGATCGACGGCCTGCCCATAGTCCTCAAGCTGTTCAAGACAGCCGGTGGCTGGTCTGCGTTGCAATTCTTGATCGAACAGGATCCGAACCTTGGCACAACGCCGCGACTCGCGCTGATCGATGGCAGGGTCGATGATGTCGTCTCCGCAGCCGAAGCCTATCTGGGAATAGAGGGAGAGGCATAA	MHRYLAAPANVPIVGSSNHENDRSHLSNSLPLNFMSVSETRTLGIYGLTFFFSRIDQGALLLSSALIEGSMGHFRPRHDRVRVNRPRSWMDNLVISCRDRSAEVREALKFEWEPTGRAAELALDAFKTLSELTQTSWELQRLCQVDRPRAFHELALHLELATQQFELNARLVAEIEGFEAPSPALERLNDVQTDLLTRAGGGLSLTAAADRLGISRQALHKRAKTGSALALMQGTELVLPLAQWVSTGKSLTWIDGLPIVLKLFKTAGGWSALQFLIEQDPNLGTTPRLALIDGRVDDVVSAAEAYLGIEGEA				NA	NA	NA	NA	NA
BMS010_04009	162			hypothetical protein	ATGAGAAACTTCTCGTCGCAATGCCCGGTGGATCCATTCGGCAACGCGAAGGCCTTCACGATTTGCGGCTATCTCGACGTCCGCCCTGATATCCTCTGGAATGCCGGCGGCGATCTGTGGTTCTGCCATGGCCGTATCTCCGTCCCGATGACGCGGGTTTAG	MRNFSSQCPVDPFGNAKAFTICGYLDVRPDILWNAGGDLWFCHGRISVPMTRV				NA	NA	NA	NA	NA
BMS010_04010	2127			hypothetical protein	ATGGCACAAGCCATCCAGAAAATCACCCTCAGTGCAGCCCGGGATATTCCCTTCAACAAGCTGGTGCTCAGCCAGCAGAACGTGCGCATGATCAAGGCAGGTATCTCGATCGAGGATCTTGCCGAAGACATCGCCCGTCGCGGTCTGCTCACCAGCCTCAACGTCCGTCCCGAACTCGATGGCGATGGCAACGAGACCGGCATCTATCGCATCCCGGCCGGCGGGCGTCGGTATCGTGCTCTCGAGCGCCTGGTTGCGCAGAAGCGCCTGGCCAAAACTGCCGGCGTTCCCTGCATCGTCAGCAAAGGCGAAACCCTTGAGGTCGAGGATTCGCTTGCCGAAAACGTCCAGCGCGTATCCTTGCATCCGCTTGATCAGTTCCGTGCCTTCCAGACCTTGCGCGATCAGGGTCTCGGCGAGGAGGAGATCGCCGCACGCTTCTTCGTCTCAGTTGCGATCGTCAGGCAGCGGCTGCGGCTGGCTTCCGTCTCCCCGCGGCTTCTCGATCTTTATGCCGAGGACGAAATGACGCTCGAACAGATCATGGCCTTCTCCATCACCAACGACCATGTTCGCCAGGAGCAGGTCTGGGATACGGTCTCCCGCTCCCATAGCCGTGAACCTTATTATATTCGCCGGCTGCTGACAGAGACCGCGATCCGTGCCAGCGACCGCCGCGCGGTCTATATCGGCATCGAAGCCTACGAGGACGCGGGAGGGGTGACGATGCGCGATCTGTTTGACCAGGATCAGGGCGGATGGCTTCAGGACCCGGCGCTGCTGGAGCAGCTTGTGATGGAGAAGCTGAAGGCTGACGCCGAGGCGATCCGCGAGAGCGAAGGCTGGAAGTGGGTCGAAGTGGCCTTCGACTTTCCTTACGGCCACACGTCGGGCCTTCGTCGCTTCTACGGCGAGCAGGCCGAAATGACTGAAGAGGAACTGGCGCGATACGACGCCACCCGCGCCGAATACGACAAGCTCGAGTTGGAATACGCGGAGGCGAATGAGTACTCGGAGGCGACCGAACAGAAGCTGGAGGACCTCGGTGACGAACTCGACCGCATCAGCGATCGACCGTACGTGTTCGATCCGCAGGAGGTCGCCCGCGGGGGTGTTTTTGTGTCGCTCGGCGCCAGCGGCGACCTCAAGATCGAGCGAGGTTTCGTTCGACCCGAAGATGAACCGAAGGATGAGACCGATCCCTCGGCTGATACCGGTGACGATGGTTCCGATCATGGCGGTGACCTGGCGACGACCGGCTCCGCCGGCGGCGACGCCCAACCAGACGACGAGGATGAAACGATCAAACCGCTTCCAGACCGCCTAGTTCTCGATCTAACGGCAGCTCGGACGATCGCATTGCGCAATGCGCTCGCGAACGATCCTGTCACCGCCTTTGTCGCCGTCCTGCATGCCTTCGTCCTGAAGACCTTCTACGTCTACGGCTCGGATTCATGCCTGGAGGTGACATTGCAAAGCGCCCGCTTCACACAGACGCCTGGGCTCGGCGATACGGTCTGGGCGAAGGAGATCGAGCAGCGGCACGAAGGCTGGGGCCAGGATCTTCCCAAGGACCCGGATGATCTCTGGGATTTCCTGATCAGGCTCGACGAGGTCAGCCGGCAGGCTCTGTTTGCCCATTGCGCTTCGCTGTCGCTCAACGCGGTCATCGAACCCTGGAACAAGCGGACCCGGGCGATCGCCCATGCCGACCAGCTGGCCCGCTCGATCGGCTTGGACATGGTGGAAGCCGGCTGGACACCGACCGCCGACAACTATCTCGGCCGTGTCACCAAGGCGCGCATCCTGCAGGCGGTTCGAGAAGCCAAGGGTGATCAGGCGGCCGAGCTGATCGGCCACCTCAAGAAGACCGACATGGCTCGCGAGGCCGAACGGCTGATGACAGGCAGCCGTTGGTTACCGGAACCACTTTGCATGACAAGTGCCGAAGGGATCAGCGAAGGCGACGCTCTAGCCGATGATGCCTCTGTCGGATCCAACGAGGGCGAAACGGCCTCGGAACTACCCGACCTGCCGACCTTCCTGCTCGACGAGACGGAAACATCGGATGGCACCGGCGATACCGAAAGTGGCATGGACGGCGAGCATCTCGCGGCGGCCGAGTAG	MAQAIQKITLSAARDIPFNKLVLSQQNVRMIKAGISIEDLAEDIARRGLLTSLNVRPELDGDGNETGIYRIPAGGRRYRALERLVAQKRLAKTAGVPCIVSKGETLEVEDSLAENVQRVSLHPLDQFRAFQTLRDQGLGEEEIAARFFVSVAIVRQRLRLASVSPRLLDLYAEDEMTLEQIMAFSITNDHVRQEQVWDTVSRSHSREPYYIRRLLTETAIRASDRRAVYIGIEAYEDAGGVTMRDLFDQDQGGWLQDPALLEQLVMEKLKADAEAIRESEGWKWVEVAFDFPYGHTSGLRRFYGEQAEMTEEELARYDATRAEYDKLELEYAEANEYSEATEQKLEDLGDELDRISDRPYVFDPQEVARGGVFVSLGASGDLKIERGFVRPEDEPKDETDPSADTGDDGSDHGGDLATTGSAGGDAQPDDEDETIKPLPDRLVLDLTAARTIALRNALANDPVTAFVAVLHAFVLKTFYVYGSDSCLEVTLQSARFTQTPGLGDTVWAKEIEQRHEGWGQDLPKDPDDLWDFLIRLDEVSRQALFAHCASLSLNAVIEPWNKRTRAIAHADQLARSIGLDMVEAGWTPTADNYLGRVTKARILQAVREAKGDQAAELIGHLKKTDMAREAERLMTGSRWLPEPLCMTSAEGISEGDALADDASVGSNEGETASELPDLPTFLLDETETSDGTGDTESGMDGEHLAAAE	PGPT0014815_249	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014815-parB|spo0J|yyaA-K03497	NA	NA
BMS010_04011	657			hypothetical protein	ATGCCTGACTTCACCATCGAGACCACCTATCATCTGCCGGTCTTCCGGCATCGAACCTACGCGGCCGACACGCTGAACGCGGCGTGCCGTGCCGCCGTCGGCGACGACAGCTGGGACATCGCCGAGAAGGACTTCGATTCCTCCGGTCCAGTTCATGTCACCGGTATCTGGGACGGCGCACATGCGGCCTATGCGGGTCCACCGCTCCAGATCCCCCAGCAATTCGACGAACCTGTCCAGCGGCGGGCGCGTAATTTCGAGATCCTGCTCGGACTGTTGAAGATGCTGTTGGATGACATTCGTGCGGCCCGGCCAACATCGGACTATTGGCTCGCCCGATCTGGCCGGGCGATTGCTCGAGGAGAAGCCATTCTCGCCGGCGAGCCGGATCCGGAAGAGCCGCTAAACCTACCAAATCCGTCCCACGTCCTGGTCAGGCTTGAGGAAAACGATGTCCGCGACGCAATCACCGCGATCCTCGACATCGATCCGAGCTTCAAAGCACTATCGCCCGAAGCTGTGACGGACGACGAGGTTCATGCCGCATGCGTTTCCATCGCCACCACGATGGACGTTTCCGATGTGGTCGGAAGCGCCGAATTCCAGGCGGCGCTCTCGGCGATCCGGTCGGCGCACCGCCGGCTGACGTCCGATTGA	MPDFTIETTYHLPVFRHRTYAADTLNAACRAAVGDDSWDIAEKDFDSSGPVHVTGIWDGAHAAYAGPPLQIPQQFDEPVQRRARNFEILLGLLKMLLDDIRAARPTSDYWLARSGRAIARGEAILAGEPDPEEPLNLPNPSHVLVRLEENDVRDAITAILDIDPSFKALSPEAVTDDEVHAACVSIATTMDVSDVVGSAEFQAALSAIRSAHRRLTSD				NA	NA	NA	NA	NA
BMS010_04012	1191			hypothetical protein	ATGAACTCTCTTGCTTCCACTAACCAGCCCGCTTCCTCCGCCTTTAAGGTCGACATCTCCCGCGGCGAGCGGATCGGCCGCGTTTCATCGGAATGGTTTGCGCGGCCCGACGACGAACGCTTCCTGTCGCTGACCGATCTCTACGACACCGTCCGGTCCCGCGCCGACCGGGCCCATGCCCGAACGATCGAAAGCGCTGCGATCCGCGTCGAGGCTACGCGCGACAATGCGGAGCGGCTTGAGCTTCTCGTTCCAGGTCAGCGCCAGCCGATCGCTCCCACCCACTGGAGCTATGGCCAGCTCTGCAGCCTGATAGGCGCCCCCGCCACCTATATGCGGCAACTGCCGGCGCCGCTTGCCGCCATCAATCTGCAGCACGGATTGCTCAATCACCGTGCCGAGTTGGTCAAAACGCTTGAGATGGATAATGGCCGGCTGGAACTGCGGGCCGTGACCGGACCTGAATACGGTCGTATCTGGGACCACGAACTCGTGTCGGCGGTGATGAATATCGCTGGCAACGGGACTGGCGACACGATGTGGAAAGTGCCGGGCGTCCTGGACTGGGCGACGATGACCCACAATCCCTTCGTCGACATCACCAAAGATACGACGACGCTTTATGCCAGCGACCGCGATGTCTTCCTGTTCCTCGTCGACGACACCCATCCGATCGAAGCCGGGCGATTGCCCAACGGTGAGCCCGACCTCTATTTTCGCGGCTTCTATGCCTGGAACTCGGAGGTAGGCTCGAAGACACTCGGCATCGCCTCTTTTTATCTGCGGGCGGTCTGCGCCAACAGGAACCTCTGGGGCACTGAGAATTTCGAGGAGATCACTATCCGCCATTCGAAGTTCGCCGCCCAGCGTTTTGCGTATGAAGCGGCACCCGCGCTGACCAGTTTTGCCAATTCCTCGCCGGCTCCCTTCATTGCTGGCATCAAGGCCGCGCGCGAGCGGATCGTCGCGCGCAAGGACGACGACCGCGAAACGTTCCTGCGTCGGCGCGGCTTCTCAAAAGGCGAGACCGGCAAAGTCATCGAGATGGTCTTGTCGGAGGAGGGGAGGCCGCCGGAATCGATCTTTGATTTCGTGCAGGGTATCACCGCGCTGGCGCGCACCAAGACCAATCAGGACACGCGTCTCGAACTCGAAGGCAAAGCCAAGAAGCTGCTGGAGAGCGCCTCCTGA	MNSLASTNQPASSAFKVDISRGERIGRVSSEWFARPDDERFLSLTDLYDTVRSRADRAHARTIESAAIRVEATRDNAERLELLVPGQRQPIAPTHWSYGQLCSLIGAPATYMRQLPAPLAAINLQHGLLNHRAELVKTLEMDNGRLELRAVTGPEYGRIWDHELVSAVMNIAGNGTGDTMWKVPGVLDWATMTHNPFVDITKDTTTLYASDRDVFLFLVDDTHPIEAGRLPNGEPDLYFRGFYAWNSEVGSKTLGIASFYLRAVCANRNLWGTENFEEITIRHSKFAAQRFAYEAAPALTSFANSSPAPFIAGIKAARERIVARKDDDRETFLRRRGFSKGETGKVIEMVLSEEGRPPESIFDFVQGITALARTKTNQDTRLELEGKAKKLLESAS				NA	NA	NA	NA	NA
BMS010_04013	255			hypothetical protein	ATGGCTATTCCCGATCATGCCCGCGCAAACTTCGACACGCTGCTGCGCGCCGCGTCTGACGGTAATCTTGCTCTTATCGAATGCCTCGATGCGTCTACACGCGAGCCGCGTTACGTTCTCTGCGCCGTCGGCCGCAGTGACGGTGAATACGTCTTCACGCCGTTCGGCCATCTCGCTGACGGCGATCCATACGGCGCCTACCTGCCGCCCGATCCCGACGATCCAACCGGTTTCATTGCGGGTCCTGCAACCTAA	MAIPDHARANFDTLLRAASDGNLALIECLDASTREPRYVLCAVGRSDGEYVFTPFGHLADGDPYGAYLPPDPDDPTGFIAGPAT				NA	NA	NA	NA	NA
BMS010_04014	4392			hypothetical protein	ATGAATGTCATCTCGCATCCTCAAACCGTTTCCGCCCCTTCGCGTATCGAGACCAAAAGCCGCGCTGACGAACTTATGGAAGCTGCCGGTCGGATCGCCTCGCTTTTGGAGCAAGGCAAAGTCGTCACTTCAGGTGACCTGCGAAAGATCATGACCGAAGTTTTCGGCGGCAGCGACGCCGAAGGCCTCTGGCTCTGGAAAGATGCCTATGAAGCGACCGAAGCCGCTCAGGTCCTATTCCTGCGCAAATTTCGCTCAATCGCCTCCAAGACCCAGGTGCCTCAATCGGCACTTGCGATGCTGACGATGGTGGCGCGGCTACTGCCGACCCACGCACGCCGATCCGAGGAGAGCCAGGCCTTGCAGCAGTTCTCGACACCGATCCCGCTCGCCTATGTCGCATCTCGTGCTGCCGGCATCACACCTGCTGACACGGTTCTCGAACCATCCGCTGGAACCGGCCTTATGGCGATCTTTGCGGAATTGGCAGGAGCCCGCCTGGCGCTTAACGAATATGCGGCTGCTCGGCACTCGCTGTTGGAGCAGCTCTTCCCCGGCGTTCCAATATCGCGGCACGACGCCGCGCATATCGACGATTACCTCGAGCGTTCCATGCGACCGAGCGTCGTCATGATGAACCCGCCCTTCTCGGCTGGCGTCCACGTCGAAGGTCATGTCGCCGACGCCGCCTGGCGGCATTTGACTTCCGCCTTTGCTCGTCTCGCTCCCGGTGGCCGGCTCGTCGCGATCACCGGTGCAAGCCTTTCTCCTGACAATCCAGCATGGCGCGACGATTTCGTTCGGCTGCAGGGGCAGGGTACGGTGCTGTTCACCGCGGCGATCGATGGGAGCATCTACGCCCCTCATGGAACGACAATGGAGACGCGGCTAACTGTGATCGAGAAGATCCCAGCAGAGGATCCGACGCAGCTCGCTTCGTCCAAGGGCACGGCGCCCGATCTGGAAATACTTCTCGACTGGATCGCTCATCTTCCAGAGCGCTCACCGTCGATCGTACCGAGTTCCATCGATACGCCCTCCCACGGTATCCAGCGCCCGGGCACGATGCGTAAAACAGCGGTCAACATACCCCCGCATCGCCCCCGAGTCGGCGGACAGACGCAGCCCTCGGTAGTCGCCCGTTCGGTGCCCGTCGATGACGAAATCATTGAACTCTCCTACGACCTGCGGGAAGCGCAGCCGAAGGATGACGCCACCGCTGCTGACGGCATCTACGAGCTCTATCGGCTGCAATCGATCCACATCCCGGACGCAAAACCGCATCCGGACAGGCTGGTCGAATCGGTCGCGATGGCTTCGGTGGCACCACCGAAGCCAAGCTATCGTCCACATCTGCCGAAGCGCGTCGTCGTAAGCGGCGATCTTTCCGACGCCCAGCTCGAAAGCGTCATTTATGCCGGCGAAGCGCATTGCAACTATCTCGCCGGCCACTGGAGCGTCGATGCCTCCTTCGACAATCTCAAGACGGTCGCATCCGATGCAGAACATGCTGTTCGTTTTCGCCGGGGTTGGTTTCTCGGCGACGGGACAGGCGCCGGCAAAGGTCGTCAGGCTGCCGGCATTATTCTCGACAACTGGCTGAAGGGCCGCCGGCGGCATGTCTGGATCTCAAAATCCGACAAGCTGATCGAGGACGCGCAGCGCGACTGGAGCGCGCTGGGTCAAGAGAAGCTCCTGGTCACTCCCCTGTCGCGTTTCCGGCAGGGAAAGCCGATCAAGCTGGAGGAAGGCATTCTCTTCACCACCTTTGCAACGCTTCGTACCGATGAGCGTGAGGGCCGACGCTCACGCGTGCAGCAGATCGTCGACTGGCTCGGCGTCGACTTCGATGGCGTTATTGTTTTCGATGAAGGCCATGCCATGGCCAACGCCGCCGGCGGCAAAACCGAGCGCGGCGACAAAGCCGCATCGCAGCAGGGTAGGGCAGGGCTGCGCCTGCAGCGCGCCCTTTCGAACGCTCGCGTCGTCTACGTCTCGGCGACCGGCGCGTCGGAAGTGGAGTCGCTCGCCTATGCCGAGCGCCTCGGCCTTTGGGGTAGCAGTGACTTTCCCTTTCCGACCCGTTCCGAGTTCATTGCCGCGGTCGAGGACGGCGGTGTCGCTGCGATGGAAGTTCTGGCGAGAGACCTGAAGGCCATGGGCCTCTACGCATCGCGCTCGCTCTCCTTTGAGGACGTCGAATACGAGATCCTCGAGCACGAGCTCACCGAGGAACAGATCCGCATCTACGATTCCTATGCGGAGGCGTTCCAGGTCATCCACAATCACCTCGATGCTGCCATGGAGGCTGCGGGCATAACCGGCAAATCAGGAACGCTGAACAAAAATGCCAAGGCCGCCGCCCGATCGGCCTTCGAAAGCTCGAAGCAGCGTTTCTTCAATCATCTCCTGACCTCGATGAAAACGCCGGCCCTTGTCGCGGCGACTGCAGCAGACCTGGAGGACGGTCATGCTGCCATCGTCCAGCTCGTCTCGACGGGGGCAGCGCTGACTGAGCGCCGGCTGGCCCAGATTCCGACCGAGGAATGGGGCGATCTGCAGGTCGACGTGACGCCGCGGGAGTATGTCATCGACTACCTGATGTACTCCTTCCCGGTGCAGCTCTTCGAGGAATTTTCCGACACTGACGGCAATCTCAGTTCCCGGCCCGTTCATGACGCGAACGGCAACCCTGTTATCTGCCGAGAGGCCGAACGTCGCCGCGACGAACTGGTCGAAACGCTGGGCAGCCTGCCGGCGATCCCGACCGCGCTCGACCAGATCGTCCAGCACTTCGGAACGAGCCAAGTCGCCGAGATCACCGGACGGTCACGCCGCATCGTCCGCCGCGAGGACAACAGCTCCATCGCGCGCTATGCGGTGCAGAGCCGGCCGGGCAGCGCCAATCTCGACGAGGCCCGCGCTTTCATGGACGACGAGAAAGGCATTCTCGTCTTCAGCGACGCCGGCGGAACCGGCCGATCCTATCATGCCGATCTTGCCGCGAAAAATCAGCGCCTGCGTCTTCACAACCTTCTGGAAGCTGGATGGCGTGCCGACGTTGCGATCCAGGGTCTCGGGCGCAGCCATCGCACCAACCAGAAACAACCGCCGCGCTTCCGAATGATCGCGACCAACGTCAAGGCAGAACGGCGCTTTCTTTCGACGATCGCCCGGCGTCTCGACACGCTCGGCGCCATCACCCGTGGTCAACGTCAGACCGGTGGGCAGGGTATGTTCCGGTCCGAGGACAATCTCGAATCGCAATATGCCCGCGACGCGCTGCGACAGTTCTACGGACTGCTGCATGCCGGCAGGATCGAAGGCTGCTCGCTAGAAACGTTCGAAAGCATCACCGGCCTGTCGCTGACATCCGACGAGGGCGGATTGAAGGATGAGCTGCCGCCGATCCAGACCTTCCTCAATCGCATGCTGGCACTGACCATCGCCATGCAAAATGTGCTCTTCGAAGCCTTCGAGCAGCTGTTGGCGGCCCGTATCGAGGGTGCGCTTACCGCCGGCATCTATGACAAGGGCCTGGAGACGATCACCGCAGACAGCATGACGGTCACCGATCGGCGTCTGATCTACACCCATCCCGTCACCGGCGCGCAGTCGCACTTGCTGACCATCGCACGCCGCGATCGCAATGCACCGATGCAGCTCGAGGAGGTTCAGAAGCTTGTGCAGCAGGATCCGCGCGCCAAGTTGATGGTCAATGGCAAGTCGGGCCGGCCGGCGGTGATGGTCCCAACGCGCGCGATCATGCTGGACGATGGTTCTATTCAGCCGCGCGTTTCACTGATACGGCCTATGGACGAGCTGCGCTTCGAAGTCAGACAGCTCAAAGAGACGAGTTGGGAGGAGATTGACGAGCAAGCATTCGTCCTCGCCTGGAATACCGAAGTCGCTGCTGTGCCGGAATTCTCGACATCGACGATGCACATCGTCAGCGGGTTGTTGCTGCCGATCTGGAAATTGCTGCCCCAGGACTTTTGCCGCGTGCGGCGTCTGCAGACCGATGACGGTGAACGGATCGTCGGTCGGGTCATCGCTCCGGATCGGCTCACCGGCCTTTGCCGCAACTTCGGGATCGATCAGACTGAAGTGCTAAGCGCCCACCAGGCCTGGGCATCGCTTGTCGATGGATCCTCTCTCGTCGGTCTTGCCGGCGACATGACGCTCCGCCGCGTGCGCGTCATGAACGAATACCGCGTCGAACTGGCAGGCTTCAACGACGGGATGCGCGACTGGCTGCGGTCGATCGGCCTGTTCTCTGAGATGATCAATTGGAAGCTGCGTTTCTTCGTGCCTGTGACAGACGAGGGTGCTGCGATCCTGTCGAAGCTGATCGAGCGCCATCGCCTCGTCGATATCGCGCGCCGGTCATGA	MNVISHPQTVSAPSRIETKSRADELMEAAGRIASLLEQGKVVTSGDLRKIMTEVFGGSDAEGLWLWKDAYEATEAAQVLFLRKFRSIASKTQVPQSALAMLTMVARLLPTHARRSEESQALQQFSTPIPLAYVASRAAGITPADTVLEPSAGTGLMAIFAELAGARLALNEYAAARHSLLEQLFPGVPISRHDAAHIDDYLERSMRPSVVMMNPPFSAGVHVEGHVADAAWRHLTSAFARLAPGGRLVAITGASLSPDNPAWRDDFVRLQGQGTVLFTAAIDGSIYAPHGTTMETRLTVIEKIPAEDPTQLASSKGTAPDLEILLDWIAHLPERSPSIVPSSIDTPSHGIQRPGTMRKTAVNIPPHRPRVGGQTQPSVVARSVPVDDEIIELSYDLREAQPKDDATAADGIYELYRLQSIHIPDAKPHPDRLVESVAMASVAPPKPSYRPHLPKRVVVSGDLSDAQLESVIYAGEAHCNYLAGHWSVDASFDNLKTVASDAEHAVRFRRGWFLGDGTGAGKGRQAAGIILDNWLKGRRRHVWISKSDKLIEDAQRDWSALGQEKLLVTPLSRFRQGKPIKLEEGILFTTFATLRTDEREGRRSRVQQIVDWLGVDFDGVIVFDEGHAMANAAGGKTERGDKAASQQGRAGLRLQRALSNARVVYVSATGASEVESLAYAERLGLWGSSDFPFPTRSEFIAAVEDGGVAAMEVLARDLKAMGLYASRSLSFEDVEYEILEHELTEEQIRIYDSYAEAFQVIHNHLDAAMEAAGITGKSGTLNKNAKAAARSAFESSKQRFFNHLLTSMKTPALVAATAADLEDGHAAIVQLVSTGAALTERRLAQIPTEEWGDLQVDVTPREYVIDYLMYSFPVQLFEEFSDTDGNLSSRPVHDANGNPVICREAERRRDELVETLGSLPAIPTALDQIVQHFGTSQVAEITGRSRRIVRREDNSSIARYAVQSRPGSANLDEARAFMDDEKGILVFSDAGGTGRSYHADLAAKNQRLRLHNLLEAGWRADVAIQGLGRSHRTNQKQPPRFRMIATNVKAERRFLSTIARRLDTLGAITRGQRQTGGQGMFRSEDNLESQYARDALRQFYGLLHAGRIEGCSLETFESITGLSLTSDEGGLKDELPPIQTFLNRMLALTIAMQNVLFEAFEQLLAARIEGALTAGIYDKGLETITADSMTVTDRRLIYTHPVTGAQSHLLTIARRDRNAPMQLEEVQKLVQQDPRAKLMVNGKSGRPAVMVPTRAIMLDDGSIQPRVSLIRPMDELRFEVRQLKETSWEEIDEQAFVLAWNTEVAAVPEFSTSTMHIVSGLLLPIWKLLPQDFCRVRRLQTDDGERIVGRVIAPDRLTGLCRNFGIDQTEVLSAHQAWASLVDGSSLVGLAGDMTLRRVRVMNEYRVELAGFNDGMRDWLRSIGLFSEMINWKLRFFVPVTDEGAAILSKLIERHRLVDIARRS				NA	NA	NA	NA	NA
BMS010_04015	1038			hypothetical protein	ATGCTAGCTGCCTCGGATCTGGCAGATCGTCTCGCGAAGGACGCAGAGGCGGTCTGCCGGCACTATCTCTCCGCCGGCCGCCGTGCCGGTAACTACTGGCTCGTCGGCGATGTTGGCAACAACAAGGGACGGTCCCTCTATGTGCATCTGACCGGTCCTCGCACCGGCCGATGGACCGATGCGGCGACCGGGCAATTCGGCGATCTGCTCGATCTCGTCCGAGAGACCTGCGGCCTCGTCGACTTCCGCGACGTTGCAGACGAGGCGCGTCAGTTCCTCAGCCTGCCTCGACCCAAGCCGCTGCCATTTGGCAACGGCGATACCGATGAACCTCAACGGATTGAACGGCCCACGGCTGAACGCGCCCGGCGTCTGTTTCGGATGACACAGCCATTGGAAGGCACATTGGCCGACGCCTATCTCCGCGAGCGCGGTACCCTGAGGGCATCTACCCATGCGGCGCTCCGTTTCCACCCGTCCTGCTACTATCGCGACCTCGTCACGGGCCGGACGAGCAGCTATCCCGCCCTGATCGCCGCCGTGACCGACTCTGCCGGCGCGATCACCGGTGTGCATCGCAGCTGGCTCGACCCTGACGGCGCCGGCAAGGCGAAGGTCGACGATCCGCGCCGCGCACTTGGCGGGCTCCTCGGGAATGGCGTCCGCTTCGGCTTTCCGGTCAATCCGACTGTGCCGGTGATGGCGGCAGGCGAGGGGCTTGAGACCATGCTGTCGCTCTCACACGTGATGCCCAGCATGCCGATGGTGGCGGCGCTCACGGCCAATCACCTTGCCGCCTTCCGCTTCCCGCCCGGTTGCCGGCGCATCTATATCGCCGCAGACGCGGATGCCGCCGGCCGGCGTGGGATCGAGGGCTTGAGCCGCAGGGCACAGGAATGCGGCATCCTGCCGCTGGTGCTGTCGCCGGAGCTCGGCGACTTCAACGAGGATCTGCGCTGGCTGGGGGCGGACCGGCTGACCGCAAGCCTCAGGGCTCAACTCACTCCGGAAGATGCAATGGCCTACCTGCCCGCGTGA	MLAASDLADRLAKDAEAVCRHYLSAGRRAGNYWLVGDVGNNKGRSLYVHLTGPRTGRWTDAATGQFGDLLDLVRETCGLVDFRDVADEARQFLSLPRPKPLPFGNGDTDEPQRIERPTAERARRLFRMTQPLEGTLADAYLRERGTLRASTHAALRFHPSCYYRDLVTGRTSSYPALIAAVTDSAGAITGVHRSWLDPDGAGKAKVDDPRRALGGLLGNGVRFGFPVNPTVPVMAAGEGLETMLSLSHVMPSMPMVAALTANHLAAFRFPPGCRRIYIAADADAAGRRGIEGLSRRAQECGILPLVLSPELGDFNEDLRWLGADRLTASLRAQLTPEDAMAYLPA				NA	NA	NA	NA	NA
BMS010_04016	942			hypothetical protein	ATGGACCTGATCCTTCACCCCGACTACACCTTCGAGCCCCACCACACGTCCTCCCCGACCGATCGCTTCATCTACGAGATGCAGGTCTTCGGGTATCGTCCCTTCCAGGACGAGCCCGATCCGCGGCCATTGCCGGAGGAGCCGCAGGTCCAGACTTCGATCACCACGATCTTTGACGCCCTCGCAGAAATGCTCGGTGACACCCGGCTGGAGCCCGATCTCGAAGACCTGTTCTGGTCGATCCCCAATCTCTTCCATCGGGCCGGCGAGCGTATCCAGCGCGAACTCGATCGAAACGAGGAGGCGCAGCGCACCGGCCAGCGTGAGCAGGACGGCTCGGAGGTGAAGAGTGTCGAGCTCGAACGCCTCATCGCCGAGGGCATCACGCTCCTGGAACGCAGGAATAGCTTCGAGTTCATGCGCGATTATGCGGCCGATCTCTACGAGGCGCAGACCGGCTCATCGTGGCGACCCCGCACCGGCTCCAAGGTCAACCACGCCAACATGACGGCGGCGATGATCGACAGCCGGGACTTCCTCTCCGCTCGCCGCCGCGCCGAGACCGAGGTGCTGATCCCGGCTGGCACCAAGATCGCGTTCGCCGGCGGTATGGACTACAATGATCATGAGCGTATCTGGACCAAGCTCGATCAGGCGCATGCCAAGCACCCCGACATGGTTCTGCTGCATGGCGGCTCGCCGAAGGGCGCCGAACGGATCGCCGCCTGCTGGGCGGAAGCTCGCAAGGTCACGCAGATCGCCTTCAAGCCCAACTGGACCAAACATGCCAAGGCTGCGCCCTTCCGGCGCAACGACGAGATGCTCTCAGTCATGCCCGCCGGATTGATCGTCTTTCCCGGAAACGGCATCACCGGCAATCTCGCCGACAAGGCACGTCGGCTCGGCATTCCTGTTTGGCAGGCTTCAGGAGACGGCGCGTAA	MDLILHPDYTFEPHHTSSPTDRFIYEMQVFGYRPFQDEPDPRPLPEEPQVQTSITTIFDALAEMLGDTRLEPDLEDLFWSIPNLFHRAGERIQRELDRNEEAQRTGQREQDGSEVKSVELERLIAEGITLLERRNSFEFMRDYAADLYEAQTGSSWRPRTGSKVNHANMTAAMIDSRDFLSARRRAETEVLIPAGTKIAFAGGMDYNDHERIWTKLDQAHAKHPDMVLLHGGSPKGAERIAACWAEARKVTQIAFKPNWTKHAKAAPFRRNDEMLSVMPAGLIVFPGNGITGNLADKARRLGIPVWQASGDGA				NA	NA	NA	NA	NA
BMS010_04017	261			hypothetical protein	ATGAAGCAGTTCACCACGGGCGACCTGAACAAACAGATCGGCGATATTACCGATGCCGCGAGCCGCGAGCCGGTCATGCTGACGCGGCATAAGAAGCCGCGCTTTGTGCTGATGAGCTACGAGCACTACGAGCGCATGCGCACGGGCGGCGACCCCCGCCGCGCCTATCATATCTCCGAAATGCCCGCCGAGCATGCGGAACTGTTCGACGAGGCGATCGATCGGCTGGCGCGTGGCGAAGGCTACGATGATGAGCCATGA	MKQFTTGDLNKQIGDITDAASREPVMLTRHKKPRFVLMSYEHYERMRTGGDPRRAYHISEMPAEHAELFDEAIDRLARGEGYDDEP				NA	NA	NA	NA	NA
BMS010_04018	423			hypothetical protein	ATGATGAGCCATGAATTCCGCCCCGGCGAGGTCATCTCTTATCCATATCTCTGGGCCTGGCAGCAGCAGCGCGGCGAGACCGAGGGTCGCAAGCAGCGCCCCGTCTGCGTCGTCATCGCCATCAAAAGTGCCGCTGATGGGAATACCCATCTAGCGCTCCTCGCCATCACCACCCAGCCGCCACAGACGGGTCGGTCCGCTCTGGAGATCCCGGACATCGAGCGCAAGCGCGCTGGCTTGAGCGATATGAAACAGTGCTGGATCATGGTCGACGAGTACAATTACGATATCGTCGAACGCTCCTGGTACATCGAGCCCGATCAGGACATCCTCGGCCGCTTCAGCAAACCCTTCATGGTGAAGATCGCCAGACTGTTTGCCGAGACGCGCGGCCGAACCAGCCGGGTCAACCGCCTCGATTGA	MMSHEFRPGEVISYPYLWAWQQQRGETEGRKQRPVCVVIAIKSAADGNTHLALLAITTQPPQTGRSALEIPDIERKRAGLSDMKQCWIMVDEYNYDIVERSWYIEPDQDILGRFSKPFMVKIARLFAETRGRTSRVNRLD				NA	NA	NA	NA	NA
BMS010_04019	324			hypothetical protein	ATGGCTACCACGATCGCAACCCTCACCGAAAAGACCGACGGATCGCTCGAAGGCGTCTTCGCCACTATCCGGGTCAACGCCCCGATCGCTCTCATCCCGAGCGCCAGCAAGGCGAGCGAAGAAGCCCCCGATTACCGCATCATCCATCGCAAGACCGGCTTTGAGATCGGCGCAGGCTGGAACCGCATCTCCCGCCAGACCGGCGAGGAATACATCTCCACGAAGCTCGAAGCGCCCGAGATCGGCGTGATCTTCGGTAACGTCGCCCCCGCGCCCGGTGGCGAGCCCGGCAAGAAGGTCATCCTCTGGAACAGCCCGGCCTGA	MATTIATLTEKTDGSLEGVFATIRVNAPIALIPSASKASEEAPDYRIIHRKTGFEIGAGWNRISRQTGEEYISTKLEAPEIGVIFGNVAPAPGGEPGKKVILWNSPA				NA	NA	NA	NA	NA
BMS010_04020	333			hypothetical protein	ATGAGTCGCTACACGATTACTGTCACCCGAACCGCATCCCGCCACTCAGACCCGGATGCCATCATCGGCTACGACCGCCCGCTTCAGACGTTCTTTCTCCAGGCATTTCCGGATGCCGAAGGCGAGAATCTTGAACTCTGGCTGGGTACGGACTTCCGGGAGTTCGAAACACTGTCGCAACTGAGGGCCGCGGCGATCACACGCGGGTTTGATTTTATACCCTTGGCATCCGGCATTCTTCACAATCTGCTCGACGACCATGCCCGCGAAGCCCATCGCGCGGTCAGTGACACGATTATCCAAGATCTTCGCAATGGGACATCCGCCCAATGA	MSRYTITVTRTASRHSDPDAIIGYDRPLQTFFLQAFPDAEGENLELWLGTDFREFETLSQLRAAAITRGFDFIPLASGILHNLLDDHAREAHRAVSDTIIQDLRNGTSAQ				NA	NA	NA	NA	NA
BMS010_04021	279	hupA_2		DNA-binding protein HU-alpha	ATGACAACAACCAATGAAATCGCCGACAAGATCGCAAGCGAGCATGGCCTGACCAAGGTTCAGGGCAAAGCCATCGTCGAGGCGGTGATCGCCTCGATCACCGAGGCGGCCGTAGCCGGCAACGAAACGAGCCTCCCCGGTTTCGGCAAATTCAAAGTCAAGGAAACGCCGGAGCGCGAGGCCCGCAATCCTGCGACCGGTGCGACGATCAAGGTTGCTGCCGCCAAGAAGCTTGCATTCACGCCTGCCAAGGCCCTGAAGGATGCGCTGAACAAGTAA	MTTTNEIADKIASEHGLTKVQGKAIVEAVIASITEAAVAGNETSLPGFGKFKVKETPEREARNPATGATIKVAAAKKLAFTPAKALKDALNK				NA	NA	NA	NA	NA
BMS010_04022	165			hypothetical protein	ATGCTTCTGGAACAACACATTGAAGAACTGCGGGCCGAATTGCGAAACGCCGTATACCGCGACGAACGCCGCGAAATCGAGGTAGAGTTGGAACTTGCCTGCGCCGAGCTGGCGGTAATCATGGCCGAGCAGGAGGGTGTCATCGACGTCGAGCCGCCCTTCTGA	MLLEQHIEELRAELRNAVYRDERREIEVELELACAELAVIMAEQEGVIDVEPPF				NA	NA	NA	NA	NA
BMS010_04023	426			hypothetical protein	GTGCTCGCAAATCGCATCGGTTGCGAGGACGAATTCTTGCTGGAACTGCACAACGAGCTCGCCGAAGGGCTGGCAGCGGCAATTGCGCGGCTGCGATCCATATCGGCGCTGGAGCGCCAACTTGCCAGCGAGCCGGACGAGGAAGGCCTCGCCGCTTTCCAGCTTCACGGCGAGAAGGAGTGCTTTGCCCGTTTCCGGATCACTTTGCTCGACGACCTCGAAATCGACTTCGACACGAACGAGTACCGTCTGAACGGCGGCGATTGGCACAATGCGCTCTCGGCCGATTGCGACGGCATCGAGGTCAGCTATCCGAGGCTTGTGGCCCTCACCGATGAGGAGCTGGGCACGCTCGCCCCGATCGTGCGCGCGATCCGCAGCGAGGCGGACATCGCTATCAGCATCGCACGCGTCATCTATGGTTGA	MLANRIGCEDEFLLELHNELAEGLAAAIARLRSISALERQLASEPDEEGLAAFQLHGEKECFARFRITLLDDLEIDFDTNEYRLNGGDWHNALSADCDGIEVSYPRLVALTDEELGTLAPIVRAIRSEADIAISIARVIYG				NA	NA	NA	NA	NA
BMS010_04024	738			hypothetical protein	ATGGTGCCGTTCACTGCGGACTGCCCTGACTGTGGTGCACAGACACGGTCCGCAGCTGTTGTCGTTGGCCCTTCAAGCCTGGTGGGGGACGCCGGGTCTGAGCCGGAAAGCGATATACTCGCGAAACCGCGCAGAACACTTGATGCCTTCGCATTCGTCGAGGCGCTAGGCGGTCAGACCGAACATGTCGAGCGATCCGTCGTCAACCGCTTCCATAGCACCTTCGCCTTCGTGAACGGCCAACTGACATCGATCTGCGAACACTGCGCGGAAAATCTTCCACCCGCAGCAATCCGCTCCGCCGTCATGAACGCCTTTGTTCGGCTTGGGAGGAAGCGCCTTCTGGTGAACGAGCGCTTGATGCTCTTTGCCTCTGAGGTGGTGCTAACGGAATTTCGTGGGGACACCTCTATAGAGGAAAGCGCGATGCGCGATCCGGATTACGCGCTCCTGCTCATCTGCGACGCGGATAGCGCAATCGGCGAGACCGGCATAGTTGAGATCTGGCACAGCATCGCGCGTGACGACTACGCGATCGTGGTCAAAGGCCACGATGGCCGCGAGGTGTTGCGAGACGCGGTTAACAGTGACCTGAAGGAGATCGTGACTACCGTTTCCGATCTCGGACTGGTGCTCACCCAGCTTCACCTGGCTCAGGCCTCGTCACCATATTGCGCGCTCGCCCGCGATCTTTTTCTCGAAGCCCTCGAACATGCCGGTTATCGGCAGGCAAGCTAG	MVPFTADCPDCGAQTRSAAVVVGPSSLVGDAGSEPESDILAKPRRTLDAFAFVEALGGQTEHVERSVVNRFHSTFAFVNGQLTSICEHCAENLPPAAIRSAVMNAFVRLGRKRLLVNERLMLFASEVVLTEFRGDTSIEESAMRDPDYALLLICDADSAIGETGIVEIWHSIARDDYAIVVKGHDGREVLRDAVNSDLKEIVTTVSDLGLVLTQLHLAQASSPYCALARDLFLEALEHAGYRQAS				NA	NA	NA	NA	NA
BMS010_04025	1131			hypothetical protein	ATGGATAGCGTTCCGCTTTCGCCTGTGAACAGACCGCATAAGATATCCTCGCGGAGCGTGCTTTGGCTCGCCGGCACGTCGGCTTTTCTGCTCGCCGGTTTCGCCTCCGGCCCCGATGACAGCAGCGATTACATCGTCTCGGGAAAGTCGACGCACGTCGCGCACAATGCCAACCGGACGGAGCTGAAGGCTGACGAGGTGGCAGCCGTCCCGCCAAATCCGGAGATTTCCGCCGCTGCTTTGACACGGGATGTCTCAACCATCGATTCCGCCAGCTTCAACGAGCGATTTAGCGGCCCGGTCACTGATGCGCTTCGGGTCAGCGCTCGCCCGTCGGAGTTCATCGGCGGGTTTAGTGACAGTGCTGGGCCATCATCAAGATCAGCGGCTGGGAGCGCGAATGACCGCCGGGAACGCGCAGTGCATTCGCTGGTCAGCGTCTATTCGTTTGATCAGACAACAGCCGTTCCCGAGGCCGCCGAGCCGGCAGCCGTACCTTATGTCAATGTCAGCAAGCCACCAGTACAGGCCCGACCGGATCTGTTATCCGGCGTTCCCACGGACTATGCCAAACTTGCGTTGACGGTTGCCGGGAAGGAGGAGGTGGATCCGAACTGGGTGCTTTCGGTCATGCGGGCCGAGAATGCCGGGTTCGATCCAGACCTGGTGAGCTCCGCCGGCGCCATCGGTTTGATGCAAGTCATGCCACGGATCGGCGAAGCCTTCGGTGCGACCGATCTAACCGATCCCGAACAGAACATCCGCGCCGGCACGCGATTTCTTCGTGTTCTGATCGGCAAGTACAAAAATCCTGTGTTGGTCGCCGCCGCTTATAATGCCGGCGAGCCGAATGTCGACCTTCGCCATTCAATGCCGCTGATCCGAGAGACCGCCGACTACGTCACCCGTGTCGTTGGATACTATACCGGCACGGCGACCATACCGGTCCTATCGACCGGAGGTCCGACCTCGGCCCCCCGCAGCACCGGGCGGGCCGCCCGGGCCAAATCCCCCATGCTTGTGTTCTCAGTTGCAAGCCCGTCCCCATCAGACGCCCGTCCTCAGCGTGATGAGGCTCAGAATGATGCTGGCGGGCCGGTCAAAATTGTCAAGGAAGAGGTGTCTCAATGA	MDSVPLSPVNRPHKISSRSVLWLAGTSAFLLAGFASGPDDSSDYIVSGKSTHVAHNANRTELKADEVAAVPPNPEISAAALTRDVSTIDSASFNERFSGPVTDALRVSARPSEFIGGFSDSAGPSSRSAAGSANDRRERAVHSLVSVYSFDQTTAVPEAAEPAAVPYVNVSKPPVQARPDLLSGVPTDYAKLALTVAGKEEVDPNWVLSVMRAENAGFDPDLVSSAGAIGLMQVMPRIGEAFGATDLTDPEQNIRAGTRFLRVLIGKYKNPVLVAAAYNAGEPNVDLRHSMPLIRETADYVTRVVGYYTGTATIPVLSTGGPTSAPRSTGRAARAKSPMLVFSVASPSPSDARPQRDEAQNDAGGPVKIVKEEVSQ				NA	NA	NA	NA	NA
BMS010_04026	372			hypothetical protein	ATGAATCCCATCGCAATGGCAGTCCAGACAGCCGTTCTCTACGGCAGCGTAGCCTGGTCCTCATTGGCCAAAAGGAAATGGGTCGGAAACGCTGCCATCGTGCTTGCGGGGAGCTTGATCCTGCTCGTCAGCCAGTACGAGCCGGCGGCGGCGCAGAACCTCGACGCGCTGCAAAATGCCGCCGACCGGCTCGTGCAGTTCTTCACTGGCCCGTTCGGTCGTTCGGTCGGAGCGATCGCCTTCATCGGCATGTTTCTGGCCGCAGCCTTCGGTTACTGGTCCTGGGGAGCGCTGCTTCGGGTTGGAGGAAGCCTTGCCGGCATGTTTGCCGCCGCCGAGCTCGTCGACTTCCTCGCTGGCAGCGGGTCTTAA	MNPIAMAVQTAVLYGSVAWSSLAKRKWVGNAAIVLAGSLILLVSQYEPAAAQNLDALQNAADRLVQFFTGPFGRSVGAIAFIGMFLAAAFGYWSWGALLRVGGSLAGMFAAAELVDFLAGSGS	PGPT0029875_53	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-CONJUGAL_DNA-PROTEIN_TRANSFER,PGPT0029875-virB2|lvhB2-K03197	NA	NA
BMS010_04027	327			hypothetical protein	ATGGCGGGAGCAGGGAACATCGCCGACGGTGGCGACGAATATATCGAATCCCATCCGGTCATATTGGCTCTCACACGACCGCCGACGGTGATGGGAATTCCGTACACCTACTTCCTGGCGGAATGTTTTGTTTCGCTGATGGTGTTCATGATCCTGGGATCCATTCTCTGGTTCCCCGTCTCATTCGTGGTCCTCCACAGCATTCTCTACGTGCTCACCGTCAAGCTCGATCTCTGGTTTTTCGAGATCGTCGGGCGCCTCAGCATGTGCGGTATCAACCCCCTTGGCCGAAAGCTCGGTGGCGGCGTCAGAACCTACGGGGTGTAA	MAGAGNIADGGDEYIESHPVILALTRPPTVMGIPYTYFLAECFVSLMVFMILGSILWFPVSFVVLHSILYVLTVKLDLWFFEIVGRLSMCGINPLGRKLGGGVRTYGV	PGPT0025415_38	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-TRB_SECRETION_SYSTEM,PGPT0025415-trbD-K20529	NA	NA
BMS010_04028	2520	virB4	COG3451	Type IV secretion system protein virB4	ATGAACACGATGGCGAGGTCGCTGAAAGGCAGTCTGTCGAAGGGTTGGGAGATCTTTGCGGACCGCAATGTCGCGACGCATGTTCCTTTCTACGTCCCGATCGAAAACGGCATCATCCGCCTGAAGAACGACTGCCTTGTCTCGACCTTGAAGCTTACCGGCTTTTCCTTCGAGACGGCGGATATCGAAACGATCAACATGTTGCAGCGGCAGCGCAATGCCGCCTTCCGTGCAATCTCCTCGATCGGCAGCTTCGCACTTTATACCCATGTGATCAGACGTAAAGTCGCGCCATCGTTGCCGTCAGCCTTCGCCGACCCCTTTATGGAGCGCCTCGATTACGTCTATCAGTCGAGCATCTCGAAGAACGAGATGTTCGTGAACGACACTTATGTCTCGCTGGTCGTGCGCCCCATGTTCCGGAAGGGATCCGCGCTCTCCCGCCTCGTGGGTGCTGGCGGCACGACCGTGCGCAAGGAACAGTTCCGCGCGATGCGCGACAAGCTGGTCGAGGCAACACGAGCGCTTGAGAAATCGCTCTCCGTATATGGGCCGAAGGTCCTTCGCGACGTGCAACGCGTCCAAGCTGACCTGGGCGAGAACAGAAAAGTCTTCCGCGATGTCTCTGAAGATATGGTCGTCGACGAAGCTGCGCGAAAAATTTGGTTCTCCGAACAATGTGAATTCTTCTACACACTGCTGAATGGTGGACGTGTCCGGCCGATCCGGCTTGGAAACATCCCGATCGACGAGATGCTGCCCGCCCGCAGGACATCAATCGGCAACCGCATCATTCACCTGCAGGGCGACATACCGGACGATGACCGCTATGCGGCGATGGTCTCGCTCAAGGAGTATCCGCCAGAGACCGGCGCTGGCATGCTCGACTATATCCTCAAGCTGCCATTTGAGTTGGTGCTGACGCAATCGATGTGCTTTGTCGACGATATGGCGGCGCGCAGCCGGATCGAGCGGCTGGACCGGCAGATGTCGAAGGCCGACGAAGGCGGATCGAGTGTCCAGGCCAATCTCGATATTGCCCGGGACGAACTTGCCCGCAAGCGGGTTGCCTTCACCGAACATCATCTCACGGTGATGCCGATCGCCAAAACCACCGCCCAGCTTGACGATGCCGTGGCTCTGATCGGCAACGAACTTGGCGCGCTCGGCGCCTCCTATGTCCGCGAAGACCTGAATGCGGAACCCGCCTACTGGGCGCAACTGCCCGGCAATCAGGCCTATATCGCCCGGCGAGGCCTGATCTCCACGCTGAACTGCGCCGGCTTGAGCAGCTTTCACGCCTATCCCTATGGCAAACCTGACGGCAACCATTGGGGGCCGGCGATCACGATCTTCGAGACGACGTCAGGCACGCCCTTCTTCTTCAACTTCCATCAAGGCGACGTCGGGCACACGACAGTCTTCGGCCCGACCGGTTCGGGCAAGACCGTCATCATGGCCTTCCTGATCCTGCAGGCCTATCGCGTCAGCCCGCGGCTGAAGACGATCGTCTTCGATAAGGACCGTGGTCTCGACATCATGGTCCGGGCGGCAGGCGGAACCTACATGTCACTGGAGCCCGGCCAACCGTCGGGATGGAACCCGCTACTGCTTGATGACACCGAGGACAACCGCGTTTTCCTCTATGGGCTCCTGAGCTTCATGCTGAAACCTTCCAAAGAGGGCGAAAGCCTGACGCCGCAGGAAGAAGCGATCATTCGCAACGCGATCAAGTCGGTCCTCAAGACGAGGGACAGGTCGTATCGCCGTCTTTCGTCACTGCGGGCGCTGCTCGCTGGCAGCGAGCGGACCGAGGGCAGCCTGATCGCCCGGCTCGACAAATGGGTCGACAAGGGACCCTACGCCTGGCTCTTCGACAACGCTGCCGACGATCTCGATATCTCGCGACCGATGATCGGCTTCGACATGACGTCGATCCTTGATGATCCGACGGTGCGCACCGCAGCCCTTCTCTACATGTTCCACCGGCTGGACGCGATTTACGACGGCAAGGCGCCGATCATCAACCTGATGGACGAAGCCTGGAAGCTGCTCGACGACGACGAGTTCAAGCGCACCATGAAAGACTATTTCAAGACCATCCGAAAAAGGAATGGTCTCGTCATCTTCGGCACGCAGTCGGCCGACGATGTGGTGCGTTCAAGCGTCAGCCGCACGATCATCGAACAGACGTCGACAAATATCTTCTTTGCCAATCCGAAGGCTGACGAAAACTCCTACATGGAGCATTTCGGCCTGTCGCGAGCGGAATTCGACTGGGTGAAGAACGGCGATCCGAGTTCGCGTTTCATGCTGATCAAGCAGGCAAAGAGCAGCGTGATCGCTCGCGTCGACATGTCCCACATGCCGGAGTTCATCAAGGTGCTCTCCGGGAGGGAAGAGACCGTGCGCGAAGTCGAGATGTTGCTCGACGAGTACGGCGACGATCCAAAGAACTGGCTCTCGAAATTCTGCGACTGGGATGGGGTGACGGTCGATGAAGCACGCAAAGCACCTTGA	MNTMARSLKGSLSKGWEIFADRNVATHVPFYVPIENGIIRLKNDCLVSTLKLTGFSFETADIETINMLQRQRNAAFRAISSIGSFALYTHVIRRKVAPSLPSAFADPFMERLDYVYQSSISKNEMFVNDTYVSLVVRPMFRKGSALSRLVGAGGTTVRKEQFRAMRDKLVEATRALEKSLSVYGPKVLRDVQRVQADLGENRKVFRDVSEDMVVDEAARKIWFSEQCEFFYTLLNGGRVRPIRLGNIPIDEMLPARRTSIGNRIIHLQGDIPDDDRYAAMVSLKEYPPETGAGMLDYILKLPFELVLTQSMCFVDDMAARSRIERLDRQMSKADEGGSSVQANLDIARDELARKRVAFTEHHLTVMPIAKTTAQLDDAVALIGNELGALGASYVREDLNAEPAYWAQLPGNQAYIARRGLISTLNCAGLSSFHAYPYGKPDGNHWGPAITIFETTSGTPFFFNFHQGDVGHTTVFGPTGSGKTVIMAFLILQAYRVSPRLKTIVFDKDRGLDIMVRAAGGTYMSLEPGQPSGWNPLLLDDTEDNRVFLYGLLSFMLKPSKEGESLTPQEEAIIRNAIKSVLKTRDRSYRRLSSLRALLAGSERTEGSLIARLDKWVDKGPYAWLFDNAADDLDISRPMIGFDMTSILDDPTVRTAALLYMFHRLDAIYDGKAPIINLMDEAWKLLDDDEFKRTMKDYFKTIRKRNGLVIFGTQSADDVVRSSVSRTIIEQTSTNIFFANPKADENSYMEHFGLSRAEFDWVKNGDPSSRFMLIKQAKSSVIARVDMSHMPEFIKVLSGREETVREVEMLLDEYGDDPKNWLSKFCDWDGVTVDEARKAP	PGPT0029885_146	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-CONJUGAL_DNA-PROTEIN_TRANSFER,PGPT0029885-virB4|lvhB4-K03199	NA	NA
BMS010_04029	1173	mltF_4		Membrane-bound lytic murein transglycosylase F	ATGAAGCACGCAAAGCACCTTGAGGGAGCCGCTGCTGGTGCTCTGGCCCTCGCTCTTATCTTTCCCGTTAGCACGGGGTACGCGCAAGTGCCGGTCATCGACCAGGCCCGCCAGAAGATTCAGCAGGCGACCGAGAACTGGTATCAGTCCTATCAGGCCGATACGCGCAAGGTCAAAGGCGCCTCGGGCGGAACGACCGACAGCCTCGCACCTGGTCAGGGCTCGGGCGCGCCGGCCGATTGCTCGGCCGATGGCCTGGGGGGAGCCACTGCGCCCGCGGCGCCATCGTCTCGGACACCGAGCCAGCAGGAAGTTGCCAGCATGGTGCAACAGGAGGCTATTCGGCAGGGCGTCGATCCGAACTTCGCGATGGCGATCGCCGAGCAGGAATCCCGTTTACGCCAGTCGGCACGCTCTGCGATCGGCGCCACCGGCGTCATGCAATTGATGCCGGGCACCGCCGCGCAGCTCGGAGTCAATCCCTATGACACGCGCGACAATATTCGCGGTGGCGTCAAATACATCAAGCAGCTCCAGGGAATGTTCGGTGACCGCTATGATCTGATCGCCGCCGGCTACAATGCCGGGCCGTATCGGCAGTCGCTGCAGAACGGTCAGATCCCCAACATCCCCGAGACGCAGGACTACGTCAAAAAGGTCTCCGCCTACTATGCCCGTAACAAGGCCCAGAACGGTGATAACACCCCGTCGGAGAGTACAGCCGAGCCAGAAACCGCGAGCTACGCTAATGGCTGCGGCGAGCAGCTGAAGAAGGCGGTCGACCGAAACACTCAAGCGCAGATCGAACGCGGTTCGGTTTGGAACGAGCTGCTTGGGAAATCGATCGCAGCGAACCAGCAATATCTGCAGCGCCTCCAGTCTGGCCTGCAATCCTCGTCGGCTAGCCTTCGTGGCAGTGGTGGCGGAAATTCGAAAGACCATGACGGCTCACTTGTCATGGCTGCGATCCGGTGCCCGACCAATATCATCGATACAGGCGGCACACGTTGCTTCGCTGTCCCGTCCAACGCCACCACAGAACAGATCCAGCACTGGCTGTCCGACCTGCAGGATGAGGCACGTGCAAATGGCGCGGTCGCGACCTTCACGGCGTTGCAGGATCCAGCGCTCGGCCTCGTCACGGTCGTCGATTCAAGGCCGACGTCAAACTGA	MKHAKHLEGAAAGALALALIFPVSTGYAQVPVIDQARQKIQQATENWYQSYQADTRKVKGASGGTTDSLAPGQGSGAPADCSADGLGGATAPAAPSSRTPSQQEVASMVQQEAIRQGVDPNFAMAIAEQESRLRQSARSAIGATGVMQLMPGTAAQLGVNPYDTRDNIRGGVKYIKQLQGMFGDRYDLIAAGYNAGPYRQSLQNGQIPNIPETQDYVKKVSAYYARNKAQNGDNTPSESTAEPETASYANGCGEQLKKAVDRNTQAQIERGSVWNELLGKSIAANQQYLQRLQSGLQSSSASLRGSGGGNSKDHDGSLVMAAIRCPTNIIDTGGTRCFAVPSNATTEQIQHWLSDLQDEARANGAVATFTALQDPALGLVTVVDSRPTSN				NA	NA	NA	NA	NA
BMS010_04030	792			hypothetical protein	ATGAAGACAGCAGTGATCGCAGCGGCGCTCGCCATCGTTTCCGTCCCTCAGGTTTATGCGCAAGTTCCGGTGAAGGACGCGGACAACATCGCGGTAAGCAAGGAGATCGAAAAGCTTTCAAGCAGCATCCGGGACGACACATCGATCGTCAAGGACAACACCGCGAAGACCTTGGCGGCGATCACTGGCGACCGAACGCAGGATGCGAGCCAGTTTGCCAAGCTTGCGACCGGCAACGGCTTCACCATGGGACAGGCGCCGGATTTCAGCACGGTGCTGTCGAGCAACGCAGCCGTGTTCGGCGGTATCAACGGTCAGTTCCAGAATACCGCGGCCAAGCTGATCAATGGCCTCAACCTTGTGAAGATGGCGGTCGATACCGTCAAGGGCGGTGAGCTCTCCGGCGCCAACCAAGCCTATTCGCAAGGGGTCAATGCGCTGACGACGCTAACAGCGCTGACCGACGCGATGAACAGCGCCACCAAGGACCGGCAGAATTCGTTCATGCAGGCCACCCAGGAGATCGGGACGGCGAAGGATCTGAAGGGCGCGCTGGAGCAGAACACCCAAATGGTGCTGCAGGGCAATCAGACCGCCAACGAAGCCGTCGGCTCGCTCAACAACCAGGTCATGCTGCTGAACCAGCAGTATAAGGCCGCCCTTGCCACCTCGTCGCAGAACCTCAAGACATTCGCGCCGCTTCCCGACAGTGTCATGCGTGACGGCGGTACTCAGCCGCAGGGCACGTCTGTTCGCGATCAGCTGAAGGCATTCGAGGATCAGAACCAGTGA	MKTAVIAAALAIVSVPQVYAQVPVKDADNIAVSKEIEKLSSSIRDDTSIVKDNTAKTLAAITGDRTQDASQFAKLATGNGFTMGQAPDFSTVLSSNAAVFGGINGQFQNTAAKLINGLNLVKMAVDTVKGGELSGANQAYSQGVNALTTLTALTDAMNSATKDRQNSFMQATQEIGTAKDLKGALEQNTQMVLQGNQTANEAVGSLNNQVMLLNQQYKAALATSSQNLKTFAPLPDSVMRDGGTQPQGTSVRDQLKAFEDQNQ				NA	NA	NA	NA	NA
BMS010_04031	1074			hypothetical protein	ATGGATCCCGTCAGCTACGCGATAAACTTCTATGGCGACGCGCTTCGATATTTCGACAAGATCAACGAGGCGTCGCTGGAACGGGCCTGGGGGCTGTTTGCCGAAAACAGAAACCTTATATCCGCCATCCTGGCGATCTTCCTGACCCTCTACTTCCTTTGGGGCGCGCTCGGGATATCGAGCGTTTCCCTTCAAGACATGGCGATCACCGCCTTCAAGATCACGCTCGCCTATACTCTCATCATGTCCTGGGCGCTCTTCTACGACAACATCGGCCAGTTCGTGCTGTCGGCCCCGCAGGATCTCGGATCGGCCATATCCTCGGCCATGGGCGGCCAGTCGGCTGGCGCGGATATCGCCCAGCAAGTCGCAAGCATGGCGCGAAAGGTCTACGACTTTGCCATGCAGCTCTTCAATTCTTATGAATCCGGGTGGCTGCCGAATGTGACCGGCGCCGTGGTGGTCTTTATCGTGCTGGTGTTCGGCCTCCTGCCGATGCTGCTGATCCTCACCGGCGTCACGCTCTTTGCCAAGATGATCACCGCCGTCATGCTGGCCATCGGTCCGATCGCGATCCTCTGCTATTTCTTCGGCATCAGCCGTTTCGTCTTCGATGCCTGGGTGAGGGGCGTTGCCTACGGGATGTTCATGCTGCTCTTCACCTATATCATGGCCGGCCTGTCGTTCGGCTTTCTGATCGGCATGATGGACACGATCAATGGCGATATGGCGACCAAGGAGAATGCTCTGGCGATCGTGCTCGCGATGGTGCTCTATCTCGCGCTGATCTCCTATTTCATCTTCCAGGTGCCGGATTTCGCGCGCAGCTTTGCCTACGGGGCAGCCTTCTCTGGCGTACCGGGCGGCGGTGGCGTGGACACCGCCTACAATACCGCACGCCGGCGGCTCTACTCCAGTAATTCCCGCGCCGGCCGGGCTGCGGCAATAGCACTTAGCACGCTTGCCGGGCCGAGGGGCGCCGTCACTGCTGCAGCGCTTGCGGGCCGCGGCAGTGTCGCTGGCGTCGGCGCGCTGGGTCGAATGCTCACCAATCGTCGGCGCAACAGCGAATGA	MDPVSYAINFYGDALRYFDKINEASLERAWGLFAENRNLISAILAIFLTLYFLWGALGISSVSLQDMAITAFKITLAYTLIMSWALFYDNIGQFVLSAPQDLGSAISSAMGGQSAGADIAQQVASMARKVYDFAMQLFNSYESGWLPNVTGAVVVFIVLVFGLLPMLLILTGVTLFAKMITAVMLAIGPIAILCYFFGISRFVFDAWVRGVAYGMFMLLFTYIMAGLSFGFLIGMMDTINGDMATKENALAIVLAMVLYLALISYFIFQVPDFARSFAYGAAFSGVPGGGGVDTAYNTARRRLYSSNSRAGRAAAIALSTLAGPRGAVTAAALAGRGSVAGVGALGRMLTNRRRNSE	PGPT0029895_541	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-CONJUGAL_DNA-PROTEIN_TRANSFER,PGPT0029895-virB6|lvhB6-K03201	NA	NA
BMS010_04032	735			hypothetical protein	TTGGCATTGTTCAAAAGGCAATTAAAGGCGGCGCCGGCCGATCGTGCGCCAGGACCACAAGAGATCTACGATCAGCACCTCTCCTGGGGCGAGAAGAACCGGTCGCTGCGGACTCTGATCGGTCTCATCCTGCTCGTCTTTGCGGTAGCGGGATGGATGGTTGCCGGCGTCCTGTCCTTTTCTGTCGCGCAGCTCTTTCCGCTGGTGCGCACCGAGGTCGTGCCGCTCATCGTCGACAAGAACACGGGCTACATGGAGACGGTGACGACACTCGACAAGGACCGGTCGAGCGTTTCAGAAATCCAGGCCGTCCGCGCCTCGTTCGTCGGCAACTACGTTATCCGTCGCGAGACCTATGATCCCCGCTATCTGTCGGAAAACTTCGACATGATTGCTCTTTGGTCGGACCCCGATTCACCAGCCTTCAAGGACTATTCGGAGTGGATGAATCCCTCCAATCCAAGAGGTCCGGTCAAGACCATGGGAACGACGGGCGAGATCCGACCCGAAATCCTGTCCGTCAATCCGCTCAATGCCACCACAATGTCGGTGCGCTTCGAGACCCGGGAACGGCGCCGCGGCGGCGATGTCGTCAACCGCTGGTCGGCGACGATCCGCTACCGCCAGATCAATCTCCCCGCCAGCAATCGGGTCCGGCTTTATAACCCCCTCGGCTTTGTCGTCACCGAATACGTCAAGGTTCCCGAGACGATGCCTTCGGGACTCACCCCATGA	MALFKRQLKAAPADRAPGPQEIYDQHLSWGEKNRSLRTLIGLILLVFAVAGWMVAGVLSFSVAQLFPLVRTEVVPLIVDKNTGYMETVTTLDKDRSSVSEIQAVRASFVGNYVIRRETYDPRYLSENFDMIALWSDPDSPAFKDYSEWMNPSNPRGPVKTMGTTGEIRPEILSVNPLNATTMSVRFETRERRRGGDVVNRWSATIRYRQINLPASNRVRLYNPLGFVVTEYVKVPETMPSGLTP	PGPT0029900_161	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-CONJUGAL_DNA-PROTEIN_TRANSFER,PGPT0029900-virB8|lvhB8-K03203	NA	NA
BMS010_04033	834	virB9	COG3504	Type IV secretion system protein virB9	ATGAGGCGGGTCAGAATCGCAATAATGCTGTCACTGCTGCTGACGGCCTCTTCGGTTCATGCGGAATTGACCGCCCGGCCGGGCAGGCTCGATCCGCGCGTGCGGACCTTGCCCTATTCGGCTGAACAGGTCTTCGTCGTCACCGGGACTTACGGGATGGTAACGACCATCCTCTTCGGTGCGGACGAAGAGGTCACCCAAGTCGTCGCGGGCGACACGGTCTCCTGGCAGATCCTAACATCGGCCGACCGGCGCTCGCTCACCCTGAAGCCGATGGAAAAAGACGCGCCGACCAACCTCTCCGTGGTGACGACGAAACGGACCTACTCATTCGATCTTGAGGTCAATGACAGCAAGGCCATCCAGAACCAGACCTTCAAGCTGCGCTTCATTTATCCGGAAGACGCCGGCCTGAAGGGCACGGCCGAACTGTGGAAGCAGGCGCAGGATGCAGAGCGCAACCCAAACATCAAAAATATCCGCCGCGACAAGGTCAACTATGACTATGGCTTCAAAGGAAGCGATGCCGCCAAGCCCTTGTGGGTGTTCGATGACGGGTTGAAGACCTTCATGAAGTTCACCGGGGACGTGCCGGCGATCTTCATTGTCGATAACAAGCGGCGCGAGAGCCTCGTCAATTACCGCCGTGAGGCCGACTACATCGTCATCGACACGGTCTCGCGGCAGTGGACGCTTCGTTACGGTACCGAGAACGAGACCTGCCTGTTCAATCTCAGGACCGCGCCCGCCGATGTGCCGGCGCCGATCGAGGGTGCCGTGGCGCCGAAGCGGCTCGGCTCGTCAGATGCTGGTTCACAATCAAAATCACGATAG	MRRVRIAIMLSLLLTASSVHAELTARPGRLDPRVRTLPYSAEQVFVVTGTYGMVTTILFGADEEVTQVVAGDTVSWQILTSADRRSLTLKPMEKDAPTNLSVVTTKRTYSFDLEVNDSKAIQNQTFKLRFIYPEDAGLKGTAELWKQAQDAERNPNIKNIRRDKVNYDYGFKGSDAAKPLWVFDDGLKTFMKFTGDVPAIFIVDNKRRESLVNYRREADYIVIDTVSRQWTLRYGTENETCLFNLRTAPADVPAPIEGAVAPKRLGSSDAGSQSKSR	PGPT0022205_295	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-CONJUGAL_DNA-PROTEIN_TRANSFER,PGPT0022205-virB9|lvhB9-K03204	NA	NA
BMS010_04034	1335			hypothetical protein	ATGTCTGATCCGAACTATCATTCGATAGACAATGACACCGCGATCGGCGGTCAGGTAAGGCGCTCCGGGGTTGGGTTGATGCGGCCAATCGCCGTGGTGGCGGCAATCGCCGGCGTTGCTGTGGTCCTCTATTTCCTTCTATCTGGCGGCGAGCGGGAACCGGCGATCGACAATACGCCGCATGAAGAATTCCGCCCGGTGCAGGCGCCTAGAAACGAAGTGTTCAATCCGCCGGCTCCGCCGCCTCTGCCGACGGTGCAGGTGCCGGAGGCGCCACCCCCTCCGCCACCCCCGCCACCGGCGCCCGTCATCCCGGCCCCGGCCCAGGTCGCGCCGCCGGTCGATGTCGATTGCTCGAGGGGTAAAAATCCTGACGATCCCAAATGCATCGAGCTTGCGAGGCAGGCTAAGCTGCTTGAGCGCGTGCGCTCCACCGCTGTCGTTTTCGATCAATCGGAACGCGCAGGCGGGGCGGCAAGCGCTTCGTCAGACGCCACGGGAGCCAGCTTGTTCGGCGCGAACGGCTCAACGGGTACGGCCGGCGCACCGTCGGAGTCGGGCGGTGCTGTCGATGGCGATCGCGCCTTCCTGAAGGCCATGGGAGGGCAGGGGGTGCAGGTGTCGGTTGCCGCCGAGAACCGCCGTATCGACGCCTGGATCCCGCAGGGCACGATGATCCGCGGCACATTGGAGACGGCGATCAATTCCGACCTCGCCGGCATGGTGAAGGCGATTGTCCGCGAGGATGTCTACTCCTTCGATGGCCGGCGCATCCTGATACCCGCTGGCTCCTCGCTGATTGGCGATTATAAATCCGGTGTCGAACGCGGGCAGGAGCGCCTGTTCATCGTCTGGACGCGGATGATCCGTGGTGACGGTGTTTCGGTCCAGCTCGGCTCTTATGGCACGGATCGTCTCGGCCGCTCCGGCATGACGGGTGCGGTCGACCGGAAATATTGGGAACGGTTTGGGCCGCCGGCGCTGATGACGATGATCGGCGGGCTCACGCAATACATTGCCCAGCTTGGTCAGAAACAGGATCGAAATATCACGGTCGTCAATACGGACGGAACCGTGACTAGCATTCCCCAGGATAACGGCACCACCTCGCAGGATCGGGCGCGCGAGATCGCCGCTGAAACGATCGCGTCGGGGATTCAGCAACTGGCGACCGAAGCCTTCCAGGACACGCGCAATATCCGGCCTACGATCCATATCGCCCAGGGCTCCGATATCACCGTCTTCGTCACCCGGGACCTTGATTTTTCGAATCTCTATCCAGACCCGGTGCGTGAAGAGTTCGATCGTTTGCGCAGAAAGAGGGCTGGGAAATGA	MSDPNYHSIDNDTAIGGQVRRSGVGLMRPIAVVAAIAGVAVVLYFLLSGGEREPAIDNTPHEEFRPVQAPRNEVFNPPAPPPLPTVQVPEAPPPPPPPPPAPVIPAPAQVAPPVDVDCSRGKNPDDPKCIELARQAKLLERVRSTAVVFDQSERAGGAASASSDATGASLFGANGSTGTAGAPSESGGAVDGDRAFLKAMGGQGVQVSVAAENRRIDAWIPQGTMIRGTLETAINSDLAGMVKAIVREDVYSFDGRRILIPAGSSLIGDYKSGVERGQERLFIVWTRMIRGDGVSVQLGSYGTDRLGRSGMTGAVDRKYWERFGPPALMTMIGGLTQYIAQLGQKQDRNITVVNTDGTVTSIPQDNGTTSQDRAREIAAETIASGIQQLATEAFQDTRNIRPTIHIAQGSDITVFVTRDLDFSNLYPDPVREEFDRLRRKRAGK	PGPT0029905_155	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-CONJUGAL_DNA-PROTEIN_TRANSFER,PGPT0029905-virB10|lvhB10-K03195	NA	NA
BMS010_04035	1050		COG0630	Type IV secretion system protein VirB11	ATGAATGCGCACCCCTCGATCTCCGCCGAGCAGCACTTCCTCTCCGAGGCGCTCGAACCCATCAGACAATTTCTTGACGATCCCGCAGTGGTCGAGATTTCCTGCCAGCGCAGCAACGAAATCTGGATCGAGCGGATCGGCCAGCTCAGCATGATCAGGCAAGAAGTCGATGGGCTCGATCAGGAGGCGATCCGGCATATGGCGTCGCGCGCGGCCTCGTTCACAAAGCAGACGATCAACGCTGAAAATCCTCTGCTGTCGGCAACGCTCACCAACGGTGAGCGCGTCCAGTTCGTGCTGAATCCGACCTCCGCCACCGGACATGCTTTTTCGATCCGCAAGCAATTTATCCGGCGCTTCGATCTCGACGACTATGAGAAAGCGGGCGCCTTCCGCTTCACCAAGGTCACGGGTGACGACTATATCGATGACGTCGATATTGAGTTGTCGCGCCTGCTGCGGGCGGGACAGGCGCGGGCGTTTCTGCAGCTCGCAGCGATCAACCACCGCAGCATGCTGATCTCGGGTGGCACCTCCACCGGCAAGACGACTTTCCTTAATACGATGCTGACGGCCATCCCCGACCATGAGCGCTTCATTCTCATGCAGGATACAGCCGAGCTGGAACCGCGCCAGGAAAACGTCGTCTCGCTCCTGGTCTCAAAGGGCGCCCAGGGAGAGGCGCGAGTGACGATGACCGACCTTCTGGCCTCCGCACTGCGCCTGCGGCCAGACCGGATTTTCATGGGCGAATTACGCGGTGACGAGGCTTTCGACTTCCTGAATGCGATCAACACCGGTCATCCCGGATCGATGTCGACGATCCACGCGAACTCGCCCCATCACGCTTTCAACCGGCTATCGACGCTGGTGCTGAACAGCAATGTCCGCATGGAGCGCGACGATATCATCCGCTATATCCGCTCGATCATCCCGATCGTGGTGCAGTTGAAAAAAAGCGATGGCGCCGGCGGCCGCGGTGTCAGCGAGATCTATTTTGCCGACGAGGTGGACGAAGATGGCAAGCGTATCCACGGACGCAGAGGCTGA	MNAHPSISAEQHFLSEALEPIRQFLDDPAVVEISCQRSNEIWIERIGQLSMIRQEVDGLDQEAIRHMASRAASFTKQTINAENPLLSATLTNGERVQFVLNPTSATGHAFSIRKQFIRRFDLDDYEKAGAFRFTKVTGDDYIDDVDIELSRLLRAGQARAFLQLAAINHRSMLISGGTSTGKTTFLNTMLTAIPDHERFILMQDTAELEPRQENVVSLLVSKGAQGEARVTMTDLLASALRLRPDRIFMGELRGDEAFDFLNAINTGHPGSMSTIHANSPHHAFNRLSTLVLNSNVRMERDDIIRYIRSIIPIVVQLKKSDGAGGRGVSEIYFADEVDEDGKRIHGRRG	PGPT0029910_155	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-CONJUGAL_DNA-PROTEIN_TRANSFER,PGPT0029910-virB11|lvhB11-K03196	NA	NA
BMS010_04036	2799			hypothetical protein	ATGGCAAGCGTATCCACGGACGCAGAGGCTGAACGCCTGAAGTGGACGAGGCTCCAGGAGGTCTCGGCCTTCACCTTCCCAGTGGCCGTTCTCGGCGCCGTGCTGATATGGTTGCTGTTCTTCACGCTGATCTACGACGCCTATGTCACATCCTTCGGGTCGGTCTCCTATTATGACTATGTCGGGCAGGCGCCTATTCTGGACAGTCTCGCCTACACGTGGTCGATCATCCGTACGCGAAGCACCGTCGGGCTTTCGATTCTGGCGATGGTACTGTCCTCACCGTTTCTGTTTTTTCTGCTGTGCCTTTGGATGCTGAAAGGCGGCAGGGCGTTATCGCGCAAGATCCTCTACCTCCTGCATGTGAGGTCGATGTTCACCCTGATCGCCCATACGGCGTTGGTATTCGCCGCGGCCTATGCCGCTGTCATTGTGTACGGCACGGCTTTTTATCTCGTTGCAAGCAAAGCCGGTGGGTTAAGCGGCGTAGCGGACTATTATGGCGCTCACCTTGCGGCGATGTATCAGGCACCCTTTGGAACCACCGACGCGGCCGGTACGTTTCAGCGACCCTCACGCCAGACTGTGTTCGCCGCTCTCGCCGGTCTGGCGGCCGCTGGAGCCGTGGTTGGGTTTCCGATCGGGGCAGCGATCCAGAAGCGCCAGCGCATGATTATGGGAAAAGCACGGCTGGCGACCCTGAAAGATGCCGCCGATTTCAAGCTGCGCGATAAGCACGGCATCGTCCTCGGTCTCAAGCAAGGTCTTCTTCTGCGCAATGACGGCGATCAGCATGTAATGGTCATCGGCTCGCCAGGACAGGGCAAGTCGCGCGGCTTCGTCATTCCGACGATGATGAGTTTTAAGGGGTCGCAGATGGTCCTCGACATGAGCGGCGAGCTGTTCGAGGAGACTTCGGGCTATCTGAGGGATCAGGGCTACGAGATTTTTCTACTGGCGCCGGGATCGAAGTTTACCGACGGCTATAACCCGCTCGATCTCATCAGTACCGACCCGAACCAGCGGATCACCGACCTGCAGAAGCTGACGCAGATGCTGCTGCCGGAGCGTCTGCGCTCCGATTCCTCCGACTTCTGGGAAGAGAGCGCCAGGATCCTGCTGACGGCCATGCTCGGTTTCGTGCTCGAATGCCCGGATACCCGGAAATCGCTGAGCGAGCTCTACCGCATCCTCAATTCGATGTCGGACGAGCGCAAGGCGATCATCCAGCTCCTCGAAAACTACGAAGCTGTTCTTTCCGATCAAACCCGCATGCAGCTTACCAAATTCGCCGGCCGGCATGAAAAGCTCGGCGAGGGGATCGCGGCGGAGATCGTCGCCAAGCTCAATTTTCTGCAGAACCCCCTCGTCGAGGCGCTGACCTCCATCACCACGATCCCGATCGACACGATCAGAAGGCGCAAATTGGTGATCTTCGTTCAGGCCGACTGGAATGCGATGCAGATCTACGAGCGACTGATTTCGATGTTCATCCAACAGATGGCCGACAAGCTCGTGCAGATGGGACCGTTGCGGAACGGCGAGCACGAAGTGCTGATGATGCTCGACGAGTTCGGTAATGGCGGGCGCATAGACACCGTGCTCACGCTTGCGCCATTGATCCGCAAGAACGGTGTTCGCTTCGTGTTTATCCTGCAGGACGGTGCGCAGCTCGAACGATTGTATCAGCGGTCCGGGCAGAAGATCCTGATGGGCGCATCGACGATCAAGCTGTTCATGAATTTCCAGAACCAGGAGGACGCGGCCGCCGTCTCTGCCGCGGCCGGCAGGACGACCGAGTGGGTCGAGCAGTCCTCTTATTCTCACCGCCATGGTCGCAGGCAACGATCGATCTCGAAGGTGCCAGTGTCCGTCGACCTGCTTCCCGTCAACACGCTGATGATGATGAAGCCAGAGGAGGCGATCCTCCAGGTCACCGGCATGCCACTCATGCGCATCATGAAACTCGACTCCGGCGGCGAGCGGATGTTCTCGAAGGTACGGAAGTTCAAGCCGGTGACCAGACCCTGCATCCAGCCGGTCGAATGGACGGTGGTCGACAGCGAAACTTTCGGGCCGCCGCAGCCTGAAACCACTCCATCAGCCAGATCGCAGAGCCGGTCGCCGGTCGTTGGGATGGACATCGATCTGGGCGCGGCAAACCCGCCAAACCGGCCACAGCACATTCGGTTTTTCGTCAAAGAGGGTGTGCGACACGTCTATATCTCGTCGCTCGACGAACTGCGTCAGCGTCTGGATCTCGACGAAACGCGCGAGGCCGGCCCGACAGAGGAACAACTGCGAGACGAAGAGCAGACTACGGCCCAGAAAAAGCAACGGCCAGCAACAGGCGGCCGTGAAGGAAACCGCGGCGCAGCGCGCGGTTCAGGGGCCATCCGGGTCGACGACGCCCATATCGAGCTGGATCATGCAAAGTTGGACCGCAATGTGTATTCAGGCTCTCCACGAGGATCACGGAATCGAGGTCAACGGAGTTCGGATGTTCAGGATGAGGCTGGGGATCTCCCCACCTCAGCTATTCTACGGCGACAGGATGTGCGTGGCGCATTCGGTACGGACATCAAGGCCCTGAACGACGCAATCTTTGAGCAGACGGATGCAGGCTCGTTCGACCCGATAGAGTTAAACGCAGATGTCGAGCTCTTGATCGGAACCCTCTCCGAGCGCCTCACGGAAGATAGCTCGAAAGCATTTCTGCGCGAATTTGTCGACCGCGCTCGCGATCCGCTGCGCGAAGAGGGTCCGCAACACGACGAGGCAGAAGACCCGTTTGCGTAG	MASVSTDAEAERLKWTRLQEVSAFTFPVAVLGAVLIWLLFFTLIYDAYVTSFGSVSYYDYVGQAPILDSLAYTWSIIRTRSTVGLSILAMVLSSPFLFFLLCLWMLKGGRALSRKILYLLHVRSMFTLIAHTALVFAAAYAAVIVYGTAFYLVASKAGGLSGVADYYGAHLAAMYQAPFGTTDAAGTFQRPSRQTVFAALAGLAAAGAVVGFPIGAAIQKRQRMIMGKARLATLKDAADFKLRDKHGIVLGLKQGLLLRNDGDQHVMVIGSPGQGKSRGFVIPTMMSFKGSQMVLDMSGELFEETSGYLRDQGYEIFLLAPGSKFTDGYNPLDLISTDPNQRITDLQKLTQMLLPERLRSDSSDFWEESARILLTAMLGFVLECPDTRKSLSELYRILNSMSDERKAIIQLLENYEAVLSDQTRMQLTKFAGRHEKLGEGIAAEIVAKLNFLQNPLVEALTSITTIPIDTIRRRKLVIFVQADWNAMQIYERLISMFIQQMADKLVQMGPLRNGEHEVLMMLDEFGNGGRIDTVLTLAPLIRKNGVRFVFILQDGAQLERLYQRSGQKILMGASTIKLFMNFQNQEDAAAVSAAAGRTTEWVEQSSYSHRHGRRQRSISKVPVSVDLLPVNTLMMMKPEEAILQVTGMPLMRIMKLDSGGERMFSKVRKFKPVTRPCIQPVEWTVVDSETFGPPQPETTPSARSQSRSPVVGMDIDLGAANPPNRPQHIRFFVKEGVRHVYISSLDELRQRLDLDETREAGPTEEQLRDEEQTTAQKKQRPATGGREGNRGAARGSGAIRVDDAHIELDHAKLDRNVYSGSPRGSRNRGQRSSDVQDEAGDLPTSAILRRQDVRGAFGTDIKALNDAIFEQTDAGSFDPIELNADVELLIGTLSERLTEDSSKAFLREFVDRARDPLREEGPQHDEAEDPFA	PGPT0029925_19	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-CONJUGAL_DNA-PROTEIN_TRANSFER,PGPT0029925-virD4|lvhD4-K03205	NA	NA
BMS010_04037	342			hypothetical protein	GTGGGCGAAATCCGATACCTCTCAAATCGAGGTCTTTTGGAAGACGAGAGTATCCAAAGAATTGTTGCCGCGGCCAAGGCTAACGCTGGTCTCTGGCTGATGGTCAAGGAGCGTGCAGTGGAAAAGCGCGCCATCAAAGCCGAACTCGAACGCCTAGGGGCGGATGCAAATGACCTGGACCGGCTCTTTCCGACAGGCCTGACGCCCACGATTGCCGAACTCGCAGACGAGCTTGTATCCACCATGTTCGGGGACTGCCTGCCGGAGATCGGCTCTCGTGTTCAGAGCGCTCTGCTCAAGGCCGCCGAATCCGAGCTTGATGGCGGTTCGCAACAGCCATAG	MGEIRYLSNRGLLEDESIQRIVAAAKANAGLWLMVKERAVEKRAIKAELERLGADANDLDRLFPTGLTPTIAELADELVSTMFGDCLPEIGSRVQSALLKAAESELDGGSQQP				NA	NA	NA	NA	NA
BMS010_04038	1347			hypothetical protein	ATGCGTATCGTGGTCCGCAATAGCCCGATCCATGTGTTGACTGAACTAAGCGACCGCGAGGCCGTCGCCTTGCGAGCCTGGTACGGCAACGCTGCATCAAGCGCCGATGAGGCAATTGCGCTTTCGGTGATACGGCGCGTCAAGGTGATGGATGGCTGGATCGAATGCGACTGCCTGGAGGCGCAGCATCAGCCGTTGCTTGCCCCGATCCAACAGGAACGCACCTTCACGCTGCGGCGACTGACGCCGAAGGACAATGCGCCCGGTCGGCATGCGGAGCGGCCAAACCACGCCCTTGCCTGCCCGTTCCACGTCGACAAGGACGCCAGCCCCGCCCTCATTGACCGAAGCTACCATCTTCGCCCCCTGCCCAAATCCGAGCGCTCCTACATCGATGCCCTTCCCGCCATTCCTGATCGCCTGGCCGATGTCTCAGGTCCGGATCCCGCGCGATCGAGCGAACGAAAAGACCGGCCGTCCAGACTCGGTGGCGTGCTATGGCGGATGCTTGATAGGGCGGGTACGAACGTGATCCCGCCGTTGCAAGATGGTGTTGATTTCACACTCGCCAATCAGTTGTCACGGTTGCGTTCCGTTTCCCGTGAGCTCAGAGTGCTCAGGACCTGGACGCTGAACGCGCTACTATCGACTTGGGGCCCCGACTTTTGGTATCCGGAGAGCCGTTGGCAGCAGCTGCTTGCGACCTCGCGCGGCGACTGGCCCGTGGGACTTCGCCGTACCGGCTTCATGCTGTTATTTTCCACCAGCGTTTCGACGCAAGCCATCATGCCGGCATCCACCTCGCGGACAATCGACATCCTCTCCAAGGTGCGCCAGCCGCTTCGGGGGGACCCGGCAAACCGAGGACCATTCCTGACGCTGCTGAACGTGGATTTTCAGGAGGACGATGAAGGCCCGGTTCGGGCTGTGCAAGCCTACGCCCAGCCGGTTTACAATGGGGATACGCTCTTCCCAGTCGAGTCCGGATTTGAGCGTGACGTTTCCCATCTGTTGTTCTGGCTACAGCAATCGCTCTTCGATGCCGCGCCAGAACTCCGGGTCTCAATTATCAAGCCCCTCTTCGCCATGGAAACGCCCATCGGCCTGTGCAGGCCTGACTTCGTTTTGGAGGTTACTTATAGAGATCAGCCACCGCGCAGACTGCTCGTCGAGGCCTTCGGGATGGAGACCCAGGAATATCGGGACGCCAAGGAAAAAACGATCCCGCGAATGAAACATCTCGGGCCGATCTTTGCTGTTTCTCTCGAGGATCTTACCGAGGCGAATTCTGAACGGACCGGGCGCCGGCTGCAGGCGTGGGTCGTCGACAAAATAGGCAATGGCTGA	MRIVVRNSPIHVLTELSDREAVALRAWYGNAASSADEAIALSVIRRVKVMDGWIECDCLEAQHQPLLAPIQQERTFTLRRLTPKDNAPGRHAERPNHALACPFHVDKDASPALIDRSYHLRPLPKSERSYIDALPAIPDRLADVSGPDPARSSERKDRPSRLGGVLWRMLDRAGTNVIPPLQDGVDFTLANQLSRLRSVSRELRVLRTWTLNALLSTWGPDFWYPESRWQQLLATSRGDWPVGLRRTGFMLLFSTSVSTQAIMPASTSRTIDILSKVRQPLRGDPANRGPFLTLLNVDFQEDDEGPVRAVQAYAQPVYNGDTLFPVESGFERDVSHLLFWLQQSLFDAAPELRVSIIKPLFAMETPIGLCRPDFVLEVTYRDQPPRRLLVEAFGMETQEYRDAKEKTIPRMKHLGPIFAVSLEDLTEANSERTGRRLQAWVVDKIGNG				NA	NA	NA	NA	NA
BMS010_04039	294			hypothetical protein	ATGGTATGGCTCGAACGGTTTGGCTATCGGATCGATCTACGGCGATTAGGAACAGCGGCCCTTCTTCTGGCACTCGCTTTCGTCGCTGCGCGGATGGCCTTTGAGGACAGTCTAACCCTTGGCTACGCGATGGTCGTCCCGACCTACGTCTTTCTGGCGGTCGTGATTGAAGGGGCTCGGACCGTGAGCGGCAGCTTCTGGGACATTCGCGGCTGGGCGGAGACGGTCGTGGCTGTCGCTGGCGCCGTTGGCGTCGGGTATCTCGGCTTCAGTCTTTGGTTGATGGGGTACTGA	MVWLERFGYRIDLRRLGTAALLLALAFVAARMAFEDSLTLGYAMVVPTYVFLAVVIEGARTVSGSFWDIRGWAETVVAVAGAVGVGYLGFSLWLMGY				NA	NA	NA	NA	NA
BMS010_04040	342			hypothetical protein	ATGCGGGGGTTGAAGCACGATAGCACCGACCAAGTTTCGAATGTGGTTGACCTGACGTCTCTCTCCTTCCAGGAACGGCTCGCCATCGGACTGATGCGGTTGAAGGCTCAGCGCCGGTTGACGAACAAGAAATTGGCCAAGCAACTCGGTGTATCCGAAGCGTACATGTCGCAAGTCACCCGCGGCATGCGGGATGTCAAGCTGTCGACCCTCGACAAGATGCAGCGCGAGTGGAAGGTCACAATCGAGGATTTGTTCAGCGTCACGGAAAGTGATGTGGCTCGGTTTGCGGCATGGAGAGCGCGTCGGAGGAAAAAGAAACCCACTGACGAGCCGGCGTAA	MRGLKHDSTDQVSNVVDLTSLSFQERLAIGLMRLKAQRRLTNKKLAKQLGVSEAYMSQVTRGMRDVKLSTLDKMQREWKVTIEDLFSVTESDVARFAAWRARRRKKKPTDEPA				NA	NA	NA	NA	NA
BMS010_04041	546			hypothetical protein	ATGAGACAGAGACTGATATTGGCTGCGATCGTTTCCGGATCGGCCTTTACGCCGTCGGCGACGCCCGTAAAGGCCGAGGACGCGTCCTGGGGATGCCAGGTTCTGCTTTGCGCCGCTTCACAGAACCCGTCCTGGCACGGCGTTTCCTACTGCGTTCCGCCTATGACAAAACTCATCGCGGCGATGAAGGAGCCCGGGTTTTCGTGGCCTATTTGCCATGAAGCCAAGGCCGGCACGCCTGGGCACGAGACCTACGAAGACTGCCCGGCAGGCACCACGGTTGGCAGCAGTTCGGAGACTGGCAGTGGCTGGAGCAGTGAACCTGACCAGTGCATCAGAACTGTTGATGTTTGCCGATCTCCAGGGCTCCGCGCTTCCCATGGCGATCAGAGCAATGCCGTGATACGGCGGAGCTTCGGCGATCGAGGCGATAGCTGCATTCAGCAGATCGCGACGCCCCGGCCGCGCCGTGCAGACCCCTACTACTTCGATATCCCTAACGAACAAGGCGTGAAGCAGAGGTTCTGGTTCAACCTGAACCATTAA	MRQRLILAAIVSGSAFTPSATPVKAEDASWGCQVLLCAASQNPSWHGVSYCVPPMTKLIAAMKEPGFSWPICHEAKAGTPGHETYEDCPAGTTVGSSSETGSGWSSEPDQCIRTVDVCRSPGLRASHGDQSNAVIRRSFGDRGDSCIQQIATPRPRRADPYYFDIPNEQGVKQRFWFNLNH				NA	NA	NA	NA	NA
BMS010_04042	378			hypothetical protein	ATGGCGCTGAACAAGCCGTCCCGAGGCGCGGTCTTGGTAGCCGCGATCGCCTTCCTGACGGGCACGACGGGCGGCTATGCGATCAACGAAATGATCAGGAGCGACCGCGAGACCGATCTGGAACACGAGGTTGCCCGGCTAAAAGGCGAAGCGTCACAGGACACGAAACCTGAGGTCCCGAGTGACGAGGAGGCAAGCGCTGCGCTTGCGAAATCCGGACGGTCGATGCGCATTTCGGAATGCAAACCGCGCCAGGCAGTGCCCGGTGTGACTTGCTCAGGCATGATCATGACAACCGCTGGATCATTTGCTGGAACAAGCCAACCCGGTGTGCTCTCCTTTGCGAAAATCGATGGAGTCTGGAGGCAAATCCAATGA	MALNKPSRGAVLVAAIAFLTGTTGGYAINEMIRSDRETDLEHEVARLKGEASQDTKPEVPSDEEASAALAKSGRSMRISECKPRQAVPGVTCSGMIMTTAGSFAGTSQPGVLSFAKIDGVWRQIQ				NA	NA	NA	NA	NA
BMS010_04043	312			hypothetical protein	ATGAGCCGAATTGTTGCAGCCGCTGTAGCGCTCCTACTGATAACCGGGTCGGCCTCGACGGCAATCGCCGGAGATGGCGCGACCCAGAAGCAGATAGAGCAGCGCGATCCGGACTTTTGCGGGGCCGGAGGTGCTGGCTGCGATCCTGCCGAGGTGCAACGGTGGAAAGTTGTTGGCAACAGGCTTGCCGATCTGTCGTCAGCTGATCTCAGTCAGTACGCCTACGCCTGCGCCAAACATCCTGATTGGAAAAAGGATTGCGAAACCAATCCGGCCGCTATCCTGAAACGGCTCGGGATCGAGGGATACTGA	MSRIVAAAVALLLITGSASTAIAGDGATQKQIEQRDPDFCGAGGAGCDPAEVQRWKVVGNRLADLSSADLSQYAYACAKHPDWKKDCETNPAAILKRLGIEGY				NA	NA	NA	NA	NA
BMS010_04044	624			hypothetical protein	ATGAAACTTGTTTCGCTGTCGATCATGTTTCTGACGATGACACTGGGTACCACGACGGCACAAGTCCGGCCGTCTGACATACCGCGCCAGATTTATGGAAAGGTCCAGGTCGTCGATGCGACCACCCTTGAATTCAGGAAGAGCGCACAGACAGTGCGGCTTGCTGGATACGAAGCCCCTCGCCTGGACCAGACAGCAACGAGCGATGGCGTCGACTGGCCGGCCGGTCAGGTCTCGCGGGCCTGGATGATCCTTCGTACACTTGGGCAGGAAGTCAACTGCGCACCGATCGCTCGCGACGCCAACGGTGTGATCCTCGCACACTGCTTCGTCGGGGAGACAAACCTCGCCGCCACGGCGATCGCAGAAGGGATCGGCTATGCGTTCAATTACCGCGGCGAACCTCAGGTTCCCGCCTATTTCGATATCGAGAGGAAGGCGCGCGGTCTCGGATACGGCGTCTGGTCATCGCCAGATCTCCTTCCTCCCTGGCTCTATACCGCGTCGACAGTCAATGGCGAGAAAGCCAAGGCTTCCACATCGGAACCCGACACCGGCATGCCCCTGCCTTTGCCCGTTGTCCCAGCCACATCATCCACTCCCAACGACTTACATGGAGGTTGA	MKLVSLSIMFLTMTLGTTTAQVRPSDIPRQIYGKVQVVDATTLEFRKSAQTVRLAGYEAPRLDQTATSDGVDWPAGQVSRAWMILRTLGQEVNCAPIARDANGVILAHCFVGETNLAATAIAEGIGYAFNYRGEPQVPAYFDIERKARGLGYGVWSSPDLLPPWLYTASTVNGEKAKASTSEPDTGMPLPLPVVPATSSTPNDLHGG				NA	NA	NA	NA	NA
BMS010_04045	633			hypothetical protein	ATGTTGATGTCGACGCTCGCAGCCTCCGGCCTTTTTGCAGGCATGTCCATCATACCCATGCTCGCCGGCTCGAACCTCGCAGAACTTCGTCGCTCCCAAGCTCCGATTATCCCGGTCCAGGCGATTGACAGCGAAGCGGCCGCCGCGGATAGCCCCGAAAGCGATGAGACCGAATTCGCGCCTTTTCCAGAACAGGCGCAATTCGAAACCGGCGACACCTGGATTTCCGGTGGACGGCGATATCGTCTCTATGGCCTGCAAGCGTGTTTGCGCGGGACCCCCGTCACAATATCGCCTGGTGTTGTGAGGGATTGCGGAGGGCTCAACCTGGTCATGGTCCAGGCGTTGATCAGAGATACGAAGCCCGTCTGCGCCACCATCAGGGATATCGATCAGAACAATGCCGTGGTTGGCTGCCAGACGACAACAGGCAAACGGCGCTATGACCTGGCAACGTACATGATCGCCGAGGGGTGGGGATTTGCCGCTGTCGATACCGCCGGCCATCTGGTCGTTCCCGGCTACAGGGTGGCGGAAGAAAGCGCACGATCGGCACGCGCTGGACTGTGGGCATATTCGGACATGCCTCACCCGGTCGCAATCCTTGCGAGCCAAGGGAGTGCAAAACGATGA	MLMSTLAASGLFAGMSIIPMLAGSNLAELRRSQAPIIPVQAIDSEAAAADSPESDETEFAPFPEQAQFETGDTWISGGRRYRLYGLQACLRGTPVTISPGVVRDCGGLNLVMVQALIRDTKPVCATIRDIDQNNAVVGCQTTTGKRRYDLATYMIAEGWGFAAVDTAGHLVVPGYRVAEESARSARAGLWAYSDMPHPVAILASQGSAKR				NA	NA	NA	NA	NA
BMS010_04046	696			hypothetical protein	ATGACGGACGCAAGCATGAATCCCGGCGCACGACGGCTCGCTCAAATCCTCTTCTGCACCATTGCATGCGCGACAAATGGCGTGGCGTTTGCGGCCGCAGAGGATGCAGTCTCAAGATTTGTCAGCTATTATCAGAAGGCCTACGCTGAAGGGCGCGATCTGATCCCTGCCCCGCAAAAGCCCCTCGATATCTCCTCGATCGTCGAGCGCCTCAACCTGCAATCCATCAGGCCTGAAGGCGCTTTGAGCGGAAGCGCGTTCCTCGCCTCCGACGGCACCGTCATTAAATTGGCCGGCGTGCAAGGCTGCCTCTCGACCAAGGACATGGAATTTGCCGACGTGCAGACCACATGCTCTATGGTCTCGCTCGCCGGTCTAACGGCCATACTCGAGGAGGCTGAGGCTGGCGCCGGCAACGCTTTCCCGTGCCATTTCCTCGGTCAGAATGCCGGCTCGCCGACCGTCCGTTTTGCCGAATGCTTCTTCATGAAGGACGGTGAAACACGACCGCTGTCCCAAGTGCTCATCAGCACCGGAGTAGCGTTCGCAACACGCGATCGTTCGGGCCGGCCACTGTTTCCGGAATATGCACAGGCAGAGGAAGTCGCGCGGAAGGCCAGAGCCGGAATATGGGCGAGCCCGCAGTTCCTACATCCTTACGGTGAGCGCTACCGCGCCAATCCCTCCATGAACTGA	MTDASMNPGARRLAQILFCTIACATNGVAFAAAEDAVSRFVSYYQKAYAEGRDLIPAPQKPLDISSIVERLNLQSIRPEGALSGSAFLASDGTVIKLAGVQGCLSTKDMEFADVQTTCSMVSLAGLTAILEEAEAGAGNAFPCHFLGQNAGSPTVRFAECFFMKDGETRPLSQVLISTGVAFATRDRSGRPLFPEYAQAEEVARKARAGIWASPQFLHPYGERYRANPSMN				NA	NA	NA	NA	NA
BMS010_04047	399			hypothetical protein	ATGTCGGTACAGCAAACGGCCATCAGGATCGTGACCTTCCCACTCCGGGCCGCATGGTTCCTGATTTTGAGCGTAAACTTTCTGGTCGTCACGGCCGCCTGCGTTTTGATTGCGGCCTTTGTTGCCTACGGCGTTGCGCTGACGATTTCGTATTTCTTTCTACCGGCGGAGTGGACGCGGGGATTATGGGAAGGGGCGGCTGGTCTGTACGTACAGTCCGTTTGGTTTAAAGGCGCGACGATAACATTCTTCGTGCTCCTTCTTCTGCCGATCCTGAAACTCTGGCCGGGCCGTGATCTCAAGGCAGACACAGACCGCAAGCGTGAGGCGATGAGGATTAACGACGATCTGATCGCGGCTCGCCGGCGCACGGAAGCCCAGGCAAAACTTCGAGGCTGA	MSVQQTAIRIVTFPLRAAWFLILSVNFLVVTAACVLIAAFVAYGVALTISYFFLPAEWTRGLWEGAAGLYVQSVWFKGATITFFVLLLLPILKLWPGRDLKADTDRKREAMRINDDLIAARRRTEAQAKLRG	PGPT0017355_2815	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017355-tctB-K07794	NA	NA
BMS010_04048	750			hypothetical protein	ATGACAGTCAAACCACTTTCGCTCGCGATCTCGACCTTCAAGGGCGGCGCCGGGAAATCGACCCTGAACGTCAATCTCGCTGCCGAGTTCGCCCAGCAAGGACACAGAACACTGCTTATCGACTGCGACGAGCAGGAATCGTCGACCCGTTGGTACAATGTCTCAATGAAGAGGGGCCTGCTCCCGACCGACGGCACGCTGATGCATCTGCGGGTCGCGCCGGAGGACCGGTTCGCAGATCGCCTCGCGCAGGCGCCTGCGGCTGATATCCGGATCTACGACGTTGGCGGATACGTTCACCAACGGGCAATCGAGGTCTATCACGAGTGCGATGCAGTCCTGATCCCGATCATTCCCGAACCGACGGCCGCGACCTCAGCCATCAAGGTGGCGACGATCCTGAAAGAGATCTCCAGGAAGCGGGCACAGGGTCCTATCCCGTATGCGGCCATCTGGAATTACGTGGACATGATCGCGCTTAAACACAATCGCTCTCTACCGGAGGTCCATGCCATCTTGACGAGCGGCCGAGTTCCGATGGTGGACACGGTCATCCGCAAGAGTAATCACTTCAGCGACGTCGGCGCCGGCTTTGGGTCGCTCTATTCCAAGCTTGCCAGCATCGAGAACAATCCAGCGCTGACACCGTCGGCCAAGCGGCGCGCCACAGAAAGCGTGCTTGACGCGATTGATCTGGTGAAAAAGATCAACAACGAATTCATCGGCCTCCTGCAGGCCGAGGCTGCCTGA	MTVKPLSLAISTFKGGAGKSTLNVNLAAEFAQQGHRTLLIDCDEQESSTRWYNVSMKRGLLPTDGTLMHLRVAPEDRFADRLAQAPAADIRIYDVGGYVHQRAIEVYHECDAVLIPIIPEPTAATSAIKVATILKEISRKRAQGPIPYAAIWNYVDMIALKHNRSLPEVHAILTSGRVPMVDTVIRKSNHFSDVGAGFGSLYSKLASIENNPALTPSAKRRATESVLDAIDLVKKINNEFIGLLQAEAA				NA	NA	NA	NA	NA
BMS010_04049	405			hypothetical protein	ATGTCGAGGGAAAGGACGCCCGCCGGTAACATTCTCGCTCTCGCCCGATCGAGAGAAGACCAGGCGAAGCATGTAGAGGAGGATGCGACCTCCTACATGCCGACTAGTCTCGATCTCGACAAGCTCATGCCGGAGGATCCTCCCCAGGCGCAAGCGCTGAGCATCGAGAAGGAAGTAGCGCCAGAACACCCCCGCCCGCCGGTCAAAAGCAAAGCCCGCGAAGAGCAAGCGATAAAGGACGAAACCGATGTCAACGTGGGATCGGTCAAGCGAAAGCGCATTTCCCTGTACCTCGACGACGATGTTCTGACGAAGATTTTCCGGGTATCGCTGGAACGGCATGAGCAGCTTTCATCGGCCACCCACAGACTGATCCTCGAAGCCCTCAAGGCAAGGGGGGTGTAG	MSRERTPAGNILALARSREDQAKHVEEDATSYMPTSLDLDKLMPEDPPQAQALSIEKEVAPEHPRPPVKSKAREEQAIKDETDVNVGSVKRKRISLYLDDDVLTKIFRVSLERHEQLSSATHRLILEALKARGV				NA	NA	NA	NA	NA
BMS010_04050	393			hypothetical protein	ATGCGCGAACCGGCCATCATGTTCCGCCTACCCTCCCATGTCCTCAGCAACGTGGAGCAACTTGCCGGGCGTCTCGATATCTCCGTCAACCTCATCGCGAAGCTCATCGTGACCAGGGAGATCATGGATATCCCCGCGATGCTGGAAGAGCATGATCGGCAGTTGGGAAACATACATCGGTTCCTTCGGGAGCTCGCCTTTCGCAACGAAGAGTTTCTATCGGAAGGGAGCAACCAAGACATCTTTGCGGCGGCGATCATGGCGAAGCTGGATGAAGTCATGGGCGCCTTGGACTCAATTCGTGATGCTGCTTGCGTCAGACCATCCACTTTTATCGCCGACCTGATCAGGAGACACGATGAACGACCTCACCAGAAGTCGCTCAGGGTCTAG	MREPAIMFRLPSHVLSNVEQLAGRLDISVNLIAKLIVTREIMDIPAMLEEHDRQLGNIHRFLRELAFRNEEFLSEGSNQDIFAAAIMAKLDEVMGALDSIRDAACVRPSTFIADLIRRHDERPHQKSLRV				NA	NA	NA	NA	NA
BMS010_04051	2025			hypothetical protein	ATGAACGACCTCACCAGAAGTCGCTCAGGGTCTAGGCCAGAAGGGCGCAGACTGCCGAGCTATTTCGAGCTCATCGAGGATGAGCTCCGACGACGGGGCGGCGGGGGCGGTGGAGCGAAAAAGCCGCCGCCAAGGAATAATGTCGCAACGCCCGCGATTGGGCGGAACGCCGGTGCAGCGACAGCGTTCAGTCGGGCGAGTGGCAATAACGCTGTTGTCGTCAAGGTCTTGTCCTATGGAGCAGGCGCGGCCTCGGCACGCAATCTGCTCGCCTATCAAAGCAAGGAAGAAAAGGCCCATGACCAGGACAGCCGAGAAGTCACCGATCTCAGCGCAGCAGTCCGATCCTGGGAGCGAGAGTTTGGAAATCGGAAGGGAAGCAAGGACGTTCTTCGGCTGACCTATGAGCTCGAGCCCACCGACCGCGAACAGGTCGCGGGCGCTCTGAGCGCGCTTGCATCCGAGGGATTCCGCGACGTCGGCGATACCGATCGCACCTACGCTTTCAGCGTCAGCGAAGGCGTGAAGGGCCGAACCCGTCTTAACCTCGTGCTGGTCATTGCCCATGAAAAGAGGGACCGATCCGACCGCAGCAGCCAGAATCGCATTCCGGCTGAAATCGATGACGTGCGCGCGATCGATGCGCGGGTGGACAAGGCATTGCGGACGGGGGGGATCACGCCGGTCTCACGCTATCCGGTAGAGTTCTCGAGCGGTCCGAAGGGGTTCACGGCGGCACTTCACGCGATGCAGCGGGGAGGCGCGGAAGTGACGCTTTCGACCAGGACACAGGTCGAGGAGCGTCCAGGAAAGAGTGGCCGCTATCATCAAGGCGTTGCACGGCGCGAGACAACGACAAGCGACCACAAGCAGGTCACGGCGGAAGGGAAGATTGTTGGCGCCCTCATGCAGACACGTCAGCCTCGCGACTTCATGCATCTGTTGTTGTCGGGGCCGGCCAATGTCGACCGTGATCAGTTCATCCTCGCTGGTCGAGATTTCCTGAGGGAGCAATTTTTCGGTCACCGCTACGCTTATGCCGTCCACAATCGCAATGACCTTGAGAAGCATCCGCATCTGCATGTGATCGTCGGGCTGCGTAACAGCAGCGGCAAGATGCTCAATCCCAATATCCGCGACTTCACGGAGTGGCGCACTCGCTTCTCCGAAAAGGCGCGAGAACGCGGTATCGCTATCGATCGTCAAAAGCGTCTCGAACGCGCCAGTCCTCCGCCGGTAAAGCGGTGGGAGTGGGAGATGTTCCGCCGTATGGGTGCCACGGCACCGACAAATGTCGTCGAAAAGGTAATCGCCAAGCTTCGGGACACGCCTACAGTCCCGAAATTGCAAGAAGCGAGGAAGCGGTTCGATCAGACCCACCGCTCCGTTGGGCGTGTCATTCAAATGTTGCAGGACGTTGCCAAGGACCGCAATGCAGCCAGCACGGCTCGCGAATTGAGCCACGATCTGTCGATCGGGCTGCAGCGTGAGTTTCGTAGATTGGAGACGGCGGTCCGAGAAGGACGTGATCCTACGAGGATGAAAGGGGAAGAACACATGCTGCGATCCACACCCATCAGCGCCGCTCAGGCAAAAGCTGCAAAGGAGACACTGGCAACCACTGCCATCAGCGTCGCCGCTAAGATTCTCAATCCAAGCGACCGGCTGCTCTTCGAGCAAGCGACCAATGTCATCAGCAAGGTCGTCGGGCTGCAGCTGGACTCGCGCGTGAGCAAGAACCGGGACCGCGCAAACGTCGGCAACGCCAAGCGCTCCTCCAATAGCTTGGAAACGAAGTCGGCTGCCGGTCGCGACCGCGTCGCCGAGCAGGGAGTGATCAACAAGAGTTCAAACAATCGCTCCCTTGACGCATTGCGCATCGGCCGGTCCAACGCGGAGCATATCCGACTGGAAGATCAAGGTTCGAACCGAGAGCGCCAGAAACCTCAGCAGCGCGACCCGGAAATGACAAAGTCGATGAAACTCCGCCCGCCCCTAGATAAGGATCGGGATCGCGGTCGTTGA	MNDLTRSRSGSRPEGRRLPSYFELIEDELRRRGGGGGGAKKPPPRNNVATPAIGRNAGAATAFSRASGNNAVVVKVLSYGAGAASARNLLAYQSKEEKAHDQDSREVTDLSAAVRSWEREFGNRKGSKDVLRLTYELEPTDREQVAGALSALASEGFRDVGDTDRTYAFSVSEGVKGRTRLNLVLVIAHEKRDRSDRSSQNRIPAEIDDVRAIDARVDKALRTGGITPVSRYPVEFSSGPKGFTAALHAMQRGGAEVTLSTRTQVEERPGKSGRYHQGVARRETTTSDHKQVTAEGKIVGALMQTRQPRDFMHLLLSGPANVDRDQFILAGRDFLREQFFGHRYAYAVHNRNDLEKHPHLHVIVGLRNSSGKMLNPNIRDFTEWRTRFSEKARERGIAIDRQKRLERASPPPVKRWEWEMFRRMGATAPTNVVEKVIAKLRDTPTVPKLQEARKRFDQTHRSVGRVIQMLQDVAKDRNAASTARELSHDLSIGLQREFRRLETAVREGRDPTRMKGEEHMLRSTPISAAQAKAAKETLATTAISVAAKILNPSDRLLFEQATNVISKVVGLQLDSRVSKNRDRANVGNAKRSSNSLETKSAAGRDRVAEQGVINKSSNNRSLDALRIGRSNAEHIRLEDQGSNRERQKPQQRDPEMTKSMKLRPPLDKDRDRGR				NA	NA	NA	NA	NA
BMS010_04052	609			hypothetical protein	ATGAAAACTGATCCGTACGAGTTTCACTGCATTTTTCGGCACATCGGATCCACTGGTCTTGTGATTTTCGAGAGGGACGACGTACTCCTGAGACGGGAGACACCTTTAAGAGATTTCACACTGGGCGACGTCAACGAGGATGTTGTTGAGGCGCTAAAGCAACTAAGAGACGCGAACCTTCGGTTTGGTTTTCTATCTGACCAACGTGGAATGGACGCCGGATCTCATGGTCTATACGAATTCGCTGCCTTGACCAGGACCCTCGATGACTTGCTGAGAATTAGAGGGGCCGTACCCGATTTTTGGCTCGGATGGGCGTCCCCGGCCAGCAAAATTAAGCTCCACCCTCGAGATCTCACTACACCGAAGCCGGAGGTAACAGCAATCTCGCGCGCTATGCAATGGTACGGCGTTTTAAAGGCTGAGGCCGTTTTCGTTGGGTACTCGTCGGCGGGTCTTAAGGCCGCAAACCGAAGCAATATCCATCGAATTCGGTATTCGGAATTGCTCCACGCGAACGTCCCTTCCACGGCGACGGCAGAAGCTCAACGACTTGCCAATGTTATCGGACGAGTCCTAGGCTTCGATCAGCGCCGGACGTATGTGTAA	MKTDPYEFHCIFRHIGSTGLVIFERDDVLLRRETPLRDFTLGDVNEDVVEALKQLRDANLRFGFLSDQRGMDAGSHGLYEFAALTRTLDDLLRIRGAVPDFWLGWASPASKIKLHPRDLTTPKPEVTAISRAMQWYGVLKAEAVFVGYSSAGLKAANRSNIHRIRYSELLHANVPSTATAEAQRLANVIGRVLGFDQRRTYV				NA	NA	NA	NA	NA
BMS010_04053	666	lasI	COG3916	Acyl-homoserine-lactone synthase	ATGTATCTTCTTGTTCAGGCACATGAATATCACAAACACGCTGAATTGCTCGATCAATCGTTCCGGCTGAGGAAAAGGGTGTTCGTGGACCGACTCGGCTGGGACGTCTCGGTGTCAGACCACCGCGAGCGAGATCGCTACGACGAACTTCACCCTGCATATCTGCTGTGGTGCGATGAGGATCGTCAGCAGCTTTACGGCTCAGTTCGGCTCATGCCAACGACTGGTCCCACCTTACTCTATGACGTGTTCCGCGCAACATTTCCTGATGCGTGCGACCTGATGGCACCTGGCATCTGGGAAGGTACACGGATGTGCATCGACGAAGATGCCATCTATCGAAACATGCCAGAATTGCGACTGGATAGAGCCTTTTGCCTTCTCCTACTCGCTTTGTGCGAAACAGCGCTTGCCCATGGCATACACACGATGGTCTCCAATTATGAGCCGCATATGCGCCGGGTTTATCAAAAGGCTGGCGCCGAACTCGATGAACTCGGGCGTTCCAGCGGATATGGTCGCTTCCCGGTCTGCTGCGGCGCGTTCGAGGTTTCGCACCGCGTTCTAATCGCAATGCGCAGCAAGCTTCAGGTAAACGAGTCGCTCTATCGCCGACCTGCGTACTCCCATCGCCCTACCGCTTCTCCAACATTGCTGTTTGCCTGA	MYLLVQAHEYHKHAELLDQSFRLRKRVFVDRLGWDVSVSDHRERDRYDELHPAYLLWCDEDRQQLYGSVRLMPTTGPTLLYDVFRATFPDACDLMAPGIWEGTRMCIDEDAIYRNMPELRLDRAFCLLLLALCETALAHGIHTMVSNYEPHMRRVYQKAGAELDELGRSSGYGRFPVCCGAFEVSHRVLIAMRSKLQVNESLYRRPAYSHRPTASPTLLFA	PGPT0015150_2	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI-1_CinI_PERCIPITATION|SIGNALLING|AHL|NAHL,PGPT0015150-cinI-K20248	NA	NA
BMS010_04054	750	vjbR	COG2771	HTH-type quorum sensing-dependent transcriptional regulator VjbR	ATGGAGAGCGCAAGCATACGACATCGATTTCAAGATCTTGCTCGTGAAATACAAAATGCATCAACTGTCGATCATGCGCTTCGAGCTATTGAGGCCGCATACGGCATCGACTTTTCCACATACCACCTAGCTTTAACCATAGCTGATATCGTCGATACGCCTTACGTCCGCACGACTTATCGCGATGCATGGGTTGCTCGCTACCTGCTGCGCGGATACGTGAAAGTCGATCCGGTCGTGCGCGAAGGCTTCTTGCGACAGATGCCGTTCGATTGGTCCGAAGTCGAGGTTGCACAGGCTGCACATGCGTTTCTGCTCGATGCTCAGGAACACGGTGTCGGAGCAAACGGGTATTCTATCCCCATTGTCGACAAAAAGCGCCGTGCTCTCCTCTCTTTGAACTCTAGGAAACCTAGAAGCGAGTGGAGCAAACTAGTAGAGGCATGCAGGCATGAGTGGCTTGATTTAGCGTTTCTGATCCACAGAAAGGCGGTATTCGAACTACACGGCGAGCACGATCCAATCCCACAACTCGGCCCACGGGAGAAAGAGTGCCTTCATTGGTCGGCTCTGGGAAAAACCAATGACGAAATCGCCGCAATCCTCGGTCTCTCAATGCACACTACCAACCGATACCTGATGTCGGCGCGACACAAGCTTGGGGCTGCATCGACCACGTCGGCAACTGCTCTCGCAATCCAGCTTCGCCTAATAAATCCATATGGCAATACGCAGGATTCTGGGAGCTAA	MESASIRHRFQDLAREIQNASTVDHALRAIEAAYGIDFSTYHLALTIADIVDTPYVRTTYRDAWVARYLLRGYVKVDPVVREGFLRQMPFDWSEVEVAQAAHAFLLDAQEHGVGANGYSIPIVDKKRRALLSLNSRKPRSEWSKLVEACRHEWLDLAFLIHRKAVFELHGEHDPIPQLGPREKECLHWSALGKTNDEIAAILGLSMHTTNRYLMSARHKLGAASTTSATALAIQLRLINPYGNTQDSGS	PGPT0025380_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_SENSING_REGULATORS	CE-QSR-OTHER_QUORUM_SENSING_REGULATED_GENES,PGPT0025380-cinR-K20252	NA	NA
BMS010_04055	1854			hypothetical protein	GTGAGTGGATGTCTCTTGCAGTGCGTAAAAATGTTGTCGGCAACAATCTCGCTGTCGATGCGCGCGAAAGTCGGAATCGCCATGGGATTGCTGCTTCTCAGCACCATAGGGTTGGGAGTCGCGGGATTGGATCGATTGAATGCTGTTAACGCCGCGGCGACGTCGATAGCCGATAAATGGCTCCCGTCCGCACAAAGTCTTGGCATGCTTGCCGCGCGCTTTGAGACCGTACGGTCACGTCAATTGCAGCTTCTTCTCTCGAGTGAGGATGATCGCAAAAAGGCCGAACGCGAACTCGAAACTGGTCTGCTCGATATGTCTGACTCCCTCAAGGAGTACGGCGCGCTGGCGGTCGGTGAGGACGAGACCAAGAACGCTGACAACATCTCCCTCACTTACGACGCTTACGTGAAATTCACAGCGCCTTTGGCCGGGATGCTCTCAGCGCGCGATACGGCTGGAGCGCATGACCTTCTTCTCGGTCAGTCACAACCATATCTGAAAGGGATTCGAGATGCGATCAAAAGGGGACAGCGATACCAGAAAGAGAACTCGGCATCCGCTGTTGCCTTAGGCACGAGAGCAGCCAAAGAAGCGAATTTATTTTTTATGGTCGGCTTGGCTGTGGTGAGCGTCGTATGCGTTGGCGCATTTGCATGGATGCAGTCCCGAGTTGCCTCGCCGATTGTTAGGCTTACCAACGCGATGCAGGCGTTGGCCACAGGCAATCGATCTATCGCAATTCCTGGTCTCAATCGACAAGATGAGATTGGTTCCATGGCTCAGGCGCTGGCCTTCTTTGGAAAAGCCGTGGAGGAGCGCCAAATTCTCGAGGACGAACAGAGGCGGTTACACGATGAGACGGATCATCGCTTGCGCTCGACTGAGCTGGCATTCGAGGCTGCGAGCATTGAGCAGCGACGAGCCCTGTTGGTACTTCGGGACGGGCTCGTACATCTGTCCAAGGGTGATTTGACGGTCCGGATCCACGAGACTCTCTCATCTGAATACGAAGATCTAAAAACGAATTTCAACGACGCAGTTGACGCATTGGAGCAAACCGTCGCTTCCGTCGTCGAGACGGTCGTCGCCGTAAACCAGACCGCCGCTCAAATGACCGCCATCTCTAATGAACTGGCGAGGCGAACTGAGCAACAAGCGGCTTCTGTCGAGGAGGCCGCAGCCGTACTGTCGGAAATTACCTCTACGGTCGGGCGGACCGCGGCCGGAGCCTCCAATGCCAACAAGGTCGTCCGGTCAGTCCAAAGGGAGGCCAGACAATCCGAAGCGGTCGTCGAGGATGCGGTCGCTGCGATGGGCGAGATCGAGGGGTCATCGTCGCAAATGTCGCAAATCATAGCAACAATCGATCGGATTTCGTTCCAAACAAATCTTCTGGCGCTGAATGCCGGCGTTGAAGCAGTGCGGGCCGGAGAGGCTGGAAAAGGATTCACAGTGGTCGCTGCCGAAGTTCGTTCGCTCGCACAAAGCTCGGCAAGCGCGGCGAAGGAGATCAATAACCTTATTTCGACCTCGGGAGGACAGGTTGCGCACGGTGTTGAGCTAGTCGCGAAAGCTGGAACGATCCTGAAGCTCATCGCATCGCGCTTTGAACAAATCGCGCTAATCGTCCACGAAATTTCTGTCGGCTCAAATCATCAAGCAGAAGGCTTGCGCGGGGTTAACGCAGCCGTCGATCACATCGACAAGATGACCCGAGAAAACGCTCATTTGGTGGATGATTGGAACAAAACCGTGCAAGAGATCCTGCGCAGGTCACAAGTTCTAAAGGTTGCGGTGAGCGGCCTCACCCTTCGATCGCAGGCGAGGCGCGAAGAAAGGATGATCGCGTGA	MSGCLLQCVKMLSATISLSMRAKVGIAMGLLLLSTIGLGVAGLDRLNAVNAAATSIADKWLPSAQSLGMLAARFETVRSRQLQLLLSSEDDRKKAERELETGLLDMSDSLKEYGALAVGEDETKNADNISLTYDAYVKFTAPLAGMLSARDTAGAHDLLLGQSQPYLKGIRDAIKRGQRYQKENSASAVALGTRAAKEANLFFMVGLAVVSVVCVGAFAWMQSRVASPIVRLTNAMQALATGNRSIAIPGLNRQDEIGSMAQALAFFGKAVEERQILEDEQRRLHDETDHRLRSTELAFEAASIEQRRALLVLRDGLVHLSKGDLTVRIHETLSSEYEDLKTNFNDAVDALEQTVASVVETVVAVNQTAAQMTAISNELARRTEQQAASVEEAAAVLSEITSTVGRTAAGASNANKVVRSVQREARQSEAVVEDAVAAMGEIEGSSSQMSQIIATIDRISFQTNLLALNAGVEAVRAGEAGKGFTVVAAEVRSLAQSSASAAKEINNLISTSGGQVAHGVELVAKAGTILKLIASRFEQIALIVHEISVGSNHQAEGLRGVNAAVDHIDKMTRENAHLVDDWNKTVQEILRRSQVLKVAVSGLTLRSQARREERMIA				NA	NA	NA	NA	NA
BMS010_04056	801	rspR_2	COG1802	HTH-type transcriptional repressor RspR	ATGTATTGGTATATTGTTGGGAAAATCGCCGCTCTAGCGCAGCTGTCGAACAGTATCCCAGAGGTGACCGTGGATCAAATCGTGCCGTTGTTTTCCCCCGACCAATTGGATGGCCGGACATCAAAATCAGCGCAGGTGTACGAACTCCTGCGCAACGCGATCATCTCGCTGAAGATGCCGCCGGACAGTGCGGTGGTTGAAAAGGATATTTGCGCCCAGTTGGGAATCTCGCGAACACCATTGCGCGAGGCAATCTTACAGCTGGCGAAAGAAAGTCTGATCAAAATCGCTCCAAGCGACGGAACTTTCGTGAACAAGATCATCCTCCGGGAGGTGTTGCAGGGCCAGTTGGTACGGGACACGATCGAGATGCGATTGACGCAACTGGCAGCCCGAAATTTTAAAGCGGAGTATGAAAAAGACTTTGAATTGGCGCTGTTCAAGCAGAAGGCCGCAGCAAAGAGGAAGGATGTTGATGAATTCTTTGCGCTCGACAACGAGTTCCACAGACTGATCTGTGAAACGGCTGGCTTTCCGGATGCGTGGCTGGCGATCCACAACGCAACAGGGCAGCTGGATCGCGTACGCAGGCAGGCTTTCCCTCTTGAGGGCCATTATTCGGTCGTTTTCGATGAGCACCGTGAGATCTACGAGCGGATAAGGAAGCGCGACGAGGCGGGCGCTGCAGCGGTTTTCCAAGTACAACTGGACAGCACTTTTCCGTCCATCCAGATCTTACGAGAAAAACGACCGGACCTAATCAGCGGCGACGCAGACATTTCGATCAACGACATCCGATAG	MYWYIVGKIAALAQLSNSIPEVTVDQIVPLFSPDQLDGRTSKSAQVYELLRNAIISLKMPPDSAVVEKDICAQLGISRTPLREAILQLAKESLIKIAPSDGTFVNKIILREVLQGQLVRDTIEMRLTQLAARNFKAEYEKDFELALFKQKAAAKRKDVDEFFALDNEFHRLICETAGFPDAWLAIHNATGQLDRVRRQAFPLEGHYSVVFDEHREIYERIRKRDEAGAAAVFQVQLDSTFPSIQILREKRPDLISGDADISINDIR				NA	NA	NA	NA	NA
BMS010_04057	1056	thrB_3		Homoserine kinase	ATGCTCCGATCAAAACCACATCCAGTCACGCCGGCCCTCACCGCGAAATCAACTCTGCTGACCTCTGACGAGGCCGCAGATATAGCGCTTCAGCATTACGGCCTCAAAGTTCGAGCTAACCGTCTGTCTGGAGAGAAAGACAGCAACTTCCGTATCTCCACCGAAGGTGGAGAGGAGTATTTGCTGAAAGTCGTTAATCCGGGGGAAGATCCGGCCGTCACGAACATGCATACCATGGCGCTACGGCATGTCGAGGAACGGGATCCGGGGATGCCGGTCCAACGGGTGGTCCCCAATCGTGATGGACGTTTGGATTTCGAGATTGATTATGGCCCCGATGACCGTCGCGCCGTGCGACTTGTTACATTCACCAAGGGCGAACTGCAGCGTAAAACTCCGCAGACCTCTCGGCAGCGCCGGAATATCGGGGCAAGTCTGGCTCGTCTACAAGAAGCGCTCGAAGATTTCCGTCACCCGGCTGAAAACCACTTCTCAACCTGGGATCTCAAGAACACGCTGTCCCTGAAGCCGATGATCGATGAGATCAAGGATGCGTCCAAAGCAGCGGAGCTCCTAAGTTGGGTGGATCGCTTTGCAATAGAAGTCGTTCCGAAAATTCCCTCCCTACGCGCTCAAGTGGTCCATAACGATCTCAACAGCGACAACGTCGTCGTCGACCCTCATGAAACCGACCGAGTCGTTGGCATCATCGATTTTGGCGACATGGTGCGCACGCCGGTTATCTTCGATGCCGCGGTCGCCGCGGCCTACCAGTTGACCGAGGCCGATGATCCAATGGCTGCGGCCTGCGATTTCCTCACGGGTTTCCATGGCAGACGCGCGTTGTTGGCCGAGGAAGTCGACGTGCTGTTTACGACCATTGTCGCACGCACGGTCATGCGCATCGCAATAACCGAATGGCGAGCTGTCCGGTTCCCGGAGAACCGCGCCTACATCCTGCGCAATACCCCGCAGGCCTGGCTCCAATTCCACCGTCTTGCCGAAATCCCCCATTCCCGGGCAGCAGACATGCTTGCTCGCGCATTGTCTTTTTAG	MLRSKPHPVTPALTAKSTLLTSDEAADIALQHYGLKVRANRLSGEKDSNFRISTEGGEEYLLKVVNPGEDPAVTNMHTMALRHVEERDPGMPVQRVVPNRDGRLDFEIDYGPDDRRAVRLVTFTKGELQRKTPQTSRQRRNIGASLARLQEALEDFRHPAENHFSTWDLKNTLSLKPMIDEIKDASKAAELLSWVDRFAIEVVPKIPSLRAQVVHNDLNSDNVVVDPHETDRVVGIIDFGDMVRTPVIFDAAVAAAYQLTEADDPMAAACDFLTGFHGRRALLAEEVDVLFTTIVARTVMRIAITEWRAVRFPENRAYILRNTPQAWLQFHRLAEIPHSRAADMLARALSF				NA	NA	NA	NA	NA
BMS010_04058	1338	dat_2	COG0160	Diaminobutyrate--2-oxoglutarate aminotransferase	ATGTCCTCATCCGCTTCCGCATATATGATCAACGGTTTCGATCCCGGCACGGTTGACAAGCTATCCGCCGATGAACAGGCGCTGATCGCGCGCCGGAGAAAGCTTCTCGGCCCCTCCTACAAGCTCTTCTACGAGCACCCGGTACATGTGGTGCGGGGCGAAGGCGTTTGGCTCTATGATCCAGAGGGCAATGCTTACCTGGACGTTTACAACAACGTCCCCTCCGTCGGTCACTGCCATCCTCGCGTCGTCGATGCCATAGCCAAGCAGTCCGCTATCCTGAACACCCACACCCGCTACCTGCATGACTCGATCCTCAAATATTCCGAGGACTTGCTCGCGACTTATCCGTCCGAAATTGCCAATGTCATGTATACCTGCACGGGTAGCGAAGCCGTCGACCTGGCACTGCGCATCTCTCGCTACTATACCGGCGGTACCGGCGTCATCGTCACCGCCAATGCCTATCACGGGCTCACGACCGCCGTCGCCGAGATCTCGCCTTCGATGGGTCCGAATGTTCCTATCGGCCAGCATGTCTATGTGGTCGACGCTCCGGACGAGTATCGCAGTGAGGGCGGGGACGTTGGCGAAGTGTTCGCCCAGCGCGTCGAAGACGCAATCAAGACGATGCAGCGCCATGGTATCAAGCTCGCGGCCTTCATCGCAGACGGCATCTTCTCGACCGATGGCATCCTGACCGAGCCAGCAGGTTTCCTCAAGAAGACGGTCGAAGTCGTTCACGCCGCCGGTGGCCTTTACATCGCTGACGAAGTTCAGCCCGGGTTCGGCCGCACCGGTACGCATTGGTGGGGCTTCCAACGCCACGGCATCGTTCCCGACCTCGTGGTCATGGGCAAGCCGATGGGCAACGGTATGCCGATCGCCGGTGTCGCAGCCAAGCCGGAAGTTTTGGAGCGCTTCGGCAACGATATCCGCTACTTCAACACTTTCGGCGCCAATACGGTTTCCATTGCTGCCGCTCAGGCTGTTCTCGACGTCATCAAGGACGAGAAGCTGATGGAGAATTCCGCCAAGATCGGTGATTACATGGTCGGCGGCATGCGAAAACTCCAGGAAAAGTACGAAAAAATCGGCGCCGTCCGCGGTGCAGGCCTGTTCATGGGCATGGAGTTCGTGACCGACCGCAAGTCGAAGACGCCGAACGGCAAACTCTCGCTTGGCGTTGTCAATGGACTTCGTGAAAAGCGCATGCTGATCAGCGCTTCGAGTTCATCCGGGCATGTCCTGAAGATACGTCCTCCCTTGCCGTTCACAGCGGAGAACGCCGACCTCTTTTTGTCCGCTTTGGACGAGGTACTCGCCGAACTCTCGTAG	MSSSASAYMINGFDPGTVDKLSADEQALIARRRKLLGPSYKLFYEHPVHVVRGEGVWLYDPEGNAYLDVYNNVPSVGHCHPRVVDAIAKQSAILNTHTRYLHDSILKYSEDLLATYPSEIANVMYTCTGSEAVDLALRISRYYTGGTGVIVTANAYHGLTTAVAEISPSMGPNVPIGQHVYVVDAPDEYRSEGGDVGEVFAQRVEDAIKTMQRHGIKLAAFIADGIFSTDGILTEPAGFLKKTVEVVHAAGGLYIADEVQPGFGRTGTHWWGFQRHGIVPDLVVMGKPMGNGMPIAGVAAKPEVLERFGNDIRYFNTFGANTVSIAAAQAVLDVIKDEKLMENSAKIGDYMVGGMRKLQEKYEKIGAVRGAGLFMGMEFVTDRKSKTPNGKLSLGVVNGLREKRMLISASSSSGHVLKIRPPLPFTAENADLFLSALDEVLAELS	PGPT0014253_10	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014253-argD|pqqI-K00821	NA	NA
BMS010_04059	762	occT		Octopine-binding periplasmic protein	ATGAAACTTTCGCTTATCGCTACCGCCAGCGCGCTGGCGCTCACGCTGATTTCTACCGCGCACGCGGAAGACACAATCAAGATCGCCACCGAGGGCGTCTACCCGCCGTTCAACTATGTCGAAGGCGGCAAGTTGACCGGCTTCGATGTCGACATCGCCAACGCGCTTTGCGAAAAGGCGAAGCTCAAGTGCGAGATCGTCACTCAGGAATGGGACGGCATGATCCCCGCTCTTGTCGCGCACAAGTTCGACGCCATCGTCGCGTCAATGAACATCACCGAAGAGCGCAAGAAGAAGATCGACTTCACCGCGAAATACTATGACACGCCGGCGAAGTTCATGGCTCCGAAGGATGCCAAGGTCACCGATATCTCGCCCACCGCTCTCGCCGGCAAGACGATCGGGGTCCAGGGGTCGACGACGCAGCAGAATTTCCTTGAAGCGAAATACAAGGATTCCACGATCAAGACCTATACAACAGTTGATGATGCAAGCGCCGATCTGGCCGCTGGTCGCCTTGATGTTGTCCTGTCCGACAAGATCCTGCTTGACGAATGGCTCAAGAAGTCGTCGGACGGGTCCTGCTGCGAACTGGTCGGCGACGATCTGCGTGATCCGTTGTTCGGCGCCGGCAAGGGTGTTGGTGTCCGCAAGGAGGATACGGCACTGCGTGAGAAGCTCGATGCCGCGCTGAAGGAAATCCTCGCCGATGGTACCTACAAGACCATCAATGCGAAGTATTTCCCCTTCTCGATTTACTGA	MKLSLIATASALALTLISTAHAEDTIKIATEGVYPPFNYVEGGKLTGFDVDIANALCEKAKLKCEIVTQEWDGMIPALVAHKFDAIVASMNITEERKKKIDFTAKYYDTPAKFMAPKDAKVTDISPTALAGKTIGVQGSTTQQNFLEAKYKDSTIKTYTTVDDASADLAAGRLDVVLSDKILLDEWLKKSSDGSCCELVGDDLRDPLFGAGKGVGVRKEDTALREKLDAALKEILADGTYKTINAKYFPFSIY	PGPT0020800_12851	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_04060	717	artQ_1	COG4215	Arginine ABC transporter permease protein ArtQ	GTGGATCTTCTTCATTTACTTTCATTAGGCCCTGAAGGTTGGGGCGGACCGCTGCTCGAAGGGCTTTCGCTGACGATCAGGCTGGCGCTCGCCACGCTTCCGTTCGGACTTCTGCTCGGCCTGGGTCTCGCACTGTTGATCAACGGCAAGCGGAAATGGCTTGCCGGAGTAGCAACCGTTTTTGCGACGACGTTTCGCGCACTTCCGGAACTGCTGACGCTGTTCATCATCTACTATGGCGGAGGCATGATCCTCCAGAGTGTTTCACAACTGCTGTTCGGCGTCCCTTTCGGGGAGTTCAGCGGGTTCCTCGCTGGCATGATCGCGCTCGGTATCGTTTTCGCTTCCTTCGCTTCAGAGACCTTCGTGGCGGCGCTGCGCTCTATTCCACGTGGTCAGCACGAGGCTGCCGCAGCACTCGGGTTATCGCGGTGGCGGACCTTTGCAAGCGTCATTGGACCCCAGCTCTGGCGGCTGGCCCTTCCTGGCCTCGGCAATCTTTGGTTCGTGCTTCTGAAAGATACGTCGCTGGTTTCCATCATCTCGCTTGCGGATCTTATGCGTCAGACAAACCTTGCCGTTGCCAATACCAAGGAACCGCTATTTTTCTACGCGGTGGCCTGTCTGATCTACCTCGTCGTCTCGATGATTTCATCGAGCGTGGTCGGCCTGCTTGAAGCGAGATCCAATCGCGGAATTTTGGGAGGTCGTTCATGA	MDLLHLLSLGPEGWGGPLLEGLSLTIRLALATLPFGLLLGLGLALLINGKRKWLAGVATVFATTFRALPELLTLFIIYYGGGMILQSVSQLLFGVPFGEFSGFLAGMIALGIVFASFASETFVAALRSIPRGQHEAAAALGLSRWRTFASVIGPQLWRLALPGLGNLWFVLLKDTSLVSIISLADLMRQTNLAVANTKEPLFFYAVACLIYLVVSMISSSVVGLLEARSNRGILGGRS	PGPT0020795_5650	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
BMS010_04061	726	occM_3		Octopine transport system permease protein OccM	ATGAATTTCGAGCTCCTGTCTAACTACGGTCCGAAAATTCTCTGGGGCCTCGTTGTCACGCTGCAACTTGTCCTCACGTCGGCGCTTATGGGCGCAGTCCTGGCTCTTCCGCTCGCGGTTGTCCGCAACAGCAACTATGCAATCCCTCGGTTTCTCGCAAAAGCGTATATCGTTTTCTTCAGGGGGACACCGCTGCTCGGGCAAATCTTCCTGATTTATTACGGTGCGGGACAGATCCGGTCCGAATTGACCAGCCTCGGTGTCTGGTGGTTCTTCCGCGATGCATACTTTTGCGCGTTGTTTGCGTTTACCCTGAACACCATCGCATACCAAGCCGAGATCCTCCGCGGCGCGCTCGGTGCCCTGCCCCGCGGTCAACTGGAAGCCGCCAATTCACTTGGTCTGAGCCGGACGACGACGTTCTTCCAGATTCTACTGCCCCAAGCGATGATCGTTGCACTGCGCCCCCTTGGAAACGAACTGATTCTGTCGCTGAAGGCTTCGGCCCTCGCGAGCGTTATCACGGTTCCCGAGCTTATGCAGGCTACGAAGTTGGCGTTCTCGCGTTCGTTCGATTTCCAGGTCTACATCTGGGCCGCAGTTCTCTACCTGATGATGGTGGAAACGGTCCGTCGGCTCTGGGGTGTCCTCGAACTTTATCTCACTCGACACCTCCGCCATCGCGTCACTCCGGCTAACAAGCCGCCGGTTGTCGTGCAGGCATGA	MNFELLSNYGPKILWGLVVTLQLVLTSALMGAVLALPLAVVRNSNYAIPRFLAKAYIVFFRGTPLLGQIFLIYYGAGQIRSELTSLGVWWFFRDAYFCALFAFTLNTIAYQAEILRGALGALPRGQLEAANSLGLSRTTTFFQILLPQAMIVALRPLGNELILSLKASALASVITVPELMQATKLAFSRSFDFQVYIWAAVLYLMMVETVRRLWGVLELYLTRHLRHRVTPANKPPVVVQA	PGPT0020795_5281	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
BMS010_04062	750	glnQ_3		Glutamine transport ATP-binding protein GlnQ	ATGGCCGGAAAATCAGGCAATTGCGCCGTGGAATTTGATAACGTTTCCAAATGGTATGGCAGCCATCAGGTCCTGACGGACATCAGCTTTCAGGTGAAGGAAGGAGAGCGGATTGTCATCGCCGGCCCCTCGGGATCAGGCAAATCGACAATGATCCGCTGTATCAACCATCTCGAGGAGCATCAGAAGGGCCGGATTCTGGTCGAAGGCGTTCAGCTGATGAATGAGCGCAAGCAGATCGAGGTCGTTCGCCGGGAGGTGGGAATGGTGTTTCAACACTTCAACCTGTTCCCCCATAAAACCATTCTCGAGAATTGCACCCTTGCTCTTAGGTCCGTCCGGGGCATGTCGCGAGCGGAAGCTAACGACGTCGCGATGGGTTTTCTGGAAAAAGTGAGAATCCCGGAGCAGGCCGACAAATATCCCGGCCAGCTTTCCGGGGGGCAGCAGCAACGCGTCGCTATTGCCCGTTCGCTCGCGATGAAGCCGAGAATCATGTTGTTCGATGAGCCGACTTCTGCGCTCGATCCGGAAATGATCAAAGAGGTTCTCGATGTCATGGTCAATCTTGCCGAAAGCGGAATGACCATGCTCTGCGTAACTCACGAGATGGGCTTCGCCAGACAGGTCGCAGATCGTGTGATCTTCATGGCGGATGGAAAGATCGTCGAGACCGCGCCGCCCACCGAATTTTTCGATAGTCCAAAGGAGCCGCGGACCCGTGCCTTCCTCCGACAACTCTTACATTAG	MAGKSGNCAVEFDNVSKWYGSHQVLTDISFQVKEGERIVIAGPSGSGKSTMIRCINHLEEHQKGRILVEGVQLMNERKQIEVVRREVGMVFQHFNLFPHKTILENCTLALRSVRGMSRAEANDVAMGFLEKVRIPEQADKYPGQLSGGQQQRVAIARSLAMKPRIMLFDEPTSALDPEMIKEVLDVMVNLAESGMTMLCVTHEMGFARQVADRVIFMADGKIVETAPPTEFFDSPKEPRTRAFLRQLLH	PGPT0020830_488	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_L-AMINO_ACID_TRANSPORT,PGPT0020830-aapP|bztD-K09972	NA	NA
BMS010_04063	795	udh_2	COG0451	Uronate dehydrogenase	ATGAAAACCATATTGATCACTGGCGCGGCCGGAAACGTTGGCCGTCTGATCCGCCCACTCATGAACGGCTCGTACAAACTCCGGGTTACCGGTCGTAGTGATTTTCCCGCGGATGACCGAGAGGAAAAGATCATAGGTGATCTGACATCCGAGGCGTTCTGTCGGGAGGTCGTCCAAGGTGTGGATGGCGTCGTGCATCTTGCCGGTCTTGTCGGTCCCGACTTCAGCTTCGAGGACACTCTCGAGCCAAACTATCGCGCTGTTCTATATCTTCTAGAAGCCTGCCGAGCCGCGGAAGTAAGCCGGTTCGTATTTGCCAGCAGTCATCACATAGTTGGTCAGTACCCGTCCGATCGGACGTACGACCATTCCGTCACGCCGGCACCCGATGGCTATTACGGTCTGAGCAAAGCCTTTGGTGAGGCAGCCTGCGCAATGTACGCGCATCGTTACGGTATCAAGACCATGCTGCTACGCATTGGTAATGCCGATCCAAAAGTCGTGGACGGCAGGCGCGAACGGATCTGGACGAGCGGAAGGGATATGGTCCAGCTCATCGATATTGGGCTGACGCATTCGGAAATCAGCTGCGATGTTGTCTATTCCGTTTCGAACTGCCCCGACCCTATCTTCGACAATAGCCGCGCTGAACTACTCGGCTATCGCCCTCAGGATTTTGCCAGCGAGCACAGAGCGCCGGAATTTCGATCGCTATCAGAGTTGCCGTCTGAAGCGACGACGAAGGTGGGAGGCTTTTTTGCGGTCAACCCGCTGCCCGTGACTACGAGCAACTAG	MKTILITGAAGNVGRLIRPLMNGSYKLRVTGRSDFPADDREEKIIGDLTSEAFCREVVQGVDGVVHLAGLVGPDFSFEDTLEPNYRAVLYLLEACRAAEVSRFVFASSHHIVGQYPSDRTYDHSVTPAPDGYYGLSKAFGEAACAMYAHRYGIKTMLLRIGNADPKVVDGRRERIWTSGRDMVQLIDIGLTHSEISCDVVYSVSNCPDPIFDNSRAELLGYRPQDFASEHRAPEFRSLSELPSEATTKVGGFFAVNPLPVTTSN	PGPT0018290_687	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLACTURONATE|GLUCURONATE_DEGRADATION,PGPT0018290-udh-K18981	NA	NA
BMS010_04064	1116	gci_1	COG4948	D-galactarolactone cycloisomerase	ATGAAAATCACGTCTGCAGAAGTCATTCTTGTTGAAATCCCCTTTGCGCTGCGCGGTACGGGCGTTGGCATCATGCCGACAGCGTGGAAGACGTTGGAATTTGCTCTTGTGCGATTGGAGGACGAGCTCGGTAATGTCGGGTGGGGTGAAGGCTTTGGCTATTCTCTGATAGACGCCTCTAAATCCGTGATTGATCGATTGATCCTGCCGCTTCTGATAGGGGCGGAGATCGATGACATCCCAGCGTGGAATGCAAAGACGCAGCGCCAGTTGCATATGTTCGGGCGTTACGGAGTGACGATCTTCGCGATTTCCGGTGTCGACATCGCTCTGTGGGATCTCAAGGCGAAACGAACCGGAAAGCCGCTGTACCAGTTGCTGGCAGGCGATCGGCAGATCCGCCACGAAATTCCTTTCTACGCCAGCCTTGTTCGGTATGCGGAGCATGACCTGGTCGTTGATGCATCGAAGCAGGTAAGGGATGCCGGTTTCAACCGCATCAAGTTGCACGAGATCACACTGCCTGCGATCACCGCATGCCGGCAGACGGTGGGAAACCACACGGATATTTGCGTCGACGTCAATTGCGCATGGTCTTATGAATTCATCGAAAACAACCTCGCCGAACTGAAGGCGCTCGCTCTCACATGGCTTGAGGAGCCGATCTACCCACCCGAGGATTTTGCGGCCCTAGCTTCTCTTCGCGGCAGAGGGATTAATATCGCAGCCGGTGAAAATTGGTGCACGAGCTTCCAAATCGAGCAGGCCTTAAAAGCCGGTGCCGTCGATTATCTGCAGCCGAGCATGACCAAGGTTGGCGGCATTTCCGAGTATCTACGGATTGTGGATCTGGCAGATGCCGCCAACACGACGCTAATGCCGCACTCCCCGTACTTCGGCCCTGGCTTTTACGCTTCACTGCAGGTTGCGGCTGCGCGTCCGTCGATCACTGCGCTTGAGTACAACTTTGTTCAACCGGACGCCTGGCTTGCTGACGTCGAGGGTATACGCAACGGCGATATGATCCGCGTCTCCGACCAACCCGGTATCGGCTTCGAGCCGGATCTGGATGTCATCAAGAAATACGGTCGCGTGCTAGGGAGTCGCAATCAATGA	MKITSAEVILVEIPFALRGTGVGIMPTAWKTLEFALVRLEDELGNVGWGEGFGYSLIDASKSVIDRLILPLLIGAEIDDIPAWNAKTQRQLHMFGRYGVTIFAISGVDIALWDLKAKRTGKPLYQLLAGDRQIRHEIPFYASLVRYAEHDLVVDASKQVRDAGFNRIKLHEITLPAITACRQTVGNHTDICVDVNCAWSYEFIENNLAELKALALTWLEEPIYPPEDFAALASLRGRGINIAAGENWCTSFQIEQALKAGAVDYLQPSMTKVGGISEYLRIVDLADAANTTLMPHSPYFGPGFYASLQVAAARPSITALEYNFVQPDAWLADVEGIRNGDMIRVSDQPGIGFEPDLDVIKKYGRVLGSRNQ				NA	NA	NA	NA	NA
BMS010_04065	837			2-dehydro-3,6-dideoxy-6-sulfogluconate aldolase	ATGAAGGCCAACAACATCAAGAAGATCTGGTCGGAGGGTGGCTGTGTCCTCAACGGCTGGCTGTCAATCGCCAACGCCTTTTCGGCCGAAATCATGGCCGAGCAAGGTTACGACAGCATCGGAATCGATTTGCAGCACGGGATCGTCGACTATCAGGCGGCAGTCTCGATGCTGCAGGGGATGCGGGCAAGTGGCGTGGTGCCACTTATTCGGGTTCCCTGGCTCGACCCCGCCCTGATCATGAAAGCGCTTGACGCTGGTGCTTATGGCGTCGTTTGCCCAATGATCAATTCGCGTGCTGAAGCTGAGGCGCTCGTATCCTACGTTCGGTATCCACCCAACGGAGTACGCAGTTTTGGGCCTTCCCGTGCTGCTATTTCGGCGGGAGCCAACTACGGCCAGGAAGCGGACGACCAGATACTTTGCTTCGCGATGATTGAAACAGCGGAAGCGATGCGAAATCTCGCCGAGATCGTTACGACGCCGGGCCTTGACGGTGTCTATATCGGGCCTGCCGATCTTACAATCGGGCTCACGGGCATGAAATATCCGACCGGTTTTGATCGGGAAGAACCAGAACTGGTCGAGAACATCAAGCGGATCTTGTCTGCAGCGCATGGCGCCGGGATCAAAGCGGCACTTCATTGCGGGACGCCAACCTATGCAGCCAAAGCTGCAGAATGGGGATTCGACATGGTCACCGTCTCGAATGACGTCAGGTTGCTGGCGGGCGCAGCTGCCGCGAGCGTCAAAACGTTCCGTGATCTGAGGAGCCCACCAAGGTCAGACGGGGCAACCGATCCGACGAAGCAATCGGGCAGCAAAAGCGCATACTGA	MKANNIKKIWSEGGCVLNGWLSIANAFSAEIMAEQGYDSIGIDLQHGIVDYQAAVSMLQGMRASGVVPLIRVPWLDPALIMKALDAGAYGVVCPMINSRAEAEALVSYVRYPPNGVRSFGPSRAAISAGANYGQEADDQILCFAMIETAEAMRNLAEIVTTPGLDGVYIGPADLTIGLTGMKYPTGFDREEPELVENIKRILSAAHGAGIKAALHCGTPTYAAKAAEWGFDMVTVSNDVRLLAGAAAASVKTFRDLRSPPRSDGATDPTKQSGSKSAY	PGPT0001575_232	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-SUCCINIC_ACID_ACID_BIOSYNTHESIS,PGPT0001575-hpaI|hpcH-K02510	NA	NA
BMS010_04066	762	menH_2		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGACAGTAAATGTTTCGCCGGCACAGGTTGTTGGCATTGGCCCCATAAGGATCATAGCGGTGACCGGTTGGATGGGCGATCACCGCCTGTTTGAGCCGTTCCTGCCGATCATCGACAAGGAGCGCTACAGCTTTGCGTTCCTCGATGCGCGCGGCTACGGCAGCCGGATCCAGGAAGACGGCCCCTACACTGTCGAGCAGATCGCGGCAGATGTCGTCGCCTGCGCCGATCAACTCGGATGGGATCGCTTTCACATGATTGGACACTCGATGGCGGGGATGTCAGCGCAACGGCTGGCGATTGATATCCCAGAGAGACTTCTTTCGGCGGTCCTGCTGGCACCCGTACCAGCTTCGGGGGCAAAGATCGATGATCAGCGCCGTGAGCTTTTGATGGCGGCAGTTCGTGATCCCGACGCAAGAAAGAAACTCATCAATGCAAACACCGGCGGCATCCGTTCTGATGATTGGCTCGAAAGGTTGCGCGACACCAGTCTCGCTGGCACCCGTCCCGACGTGCTGGAAGCCTACATGGCATCGTGGACCGGCGAAGGATTTGCCGACGAAATCCAAAATGCTCGCGTGCCGGTGCGTGTGATCGTCGGCGAGAAGGATCCGGGTGCGGTGCCGGAACGGCTGCGCGAGACGATCGGTTCCTGGTTCCCTGATTTCGAACTACGCGTGCTGAAGGGATGCGGCCACTATCCTATGTGGGAGGAGCCTGCAATCTTCTATGAGGCGTTGTTCGAAACGATTGCCTGA	MTVNVSPAQVVGIGPIRIIAVTGWMGDHRLFEPFLPIIDKERYSFAFLDARGYGSRIQEDGPYTVEQIAADVVACADQLGWDRFHMIGHSMAGMSAQRLAIDIPERLLSAVLLAPVPASGAKIDDQRRELLMAAVRDPDARKKLINANTGGIRSDDWLERLRDTSLAGTRPDVLEAYMASWTGEGFADEIQNARVPVRVIVGEKDPGAVPERLRETIGSWFPDFELRVLKGCGHYPMWEEPAIFYEALFETIA				NA	NA	NA	NA	NA
BMS010_04067	1731			6-deoxy-6-sulfo-D-gluconate dehydratase	ATGAAAAAGGCTCCCGAAACGCTGAGAAGCGCCAGATGGTTTGCCCCTGATGATCTCAAAGGATTTGGACACCGATCGCGCATCATGCAGATGGGCTACGGCGCGGAAGATTGGGCCGGCCGGCCTGTCATCGCGATCATCAATACCTGGTCGGATATCAACCCCTGCCACGCCCACTTCAAGACAAGAATCGATGACGTCAAGCGCGGGGTGTTTCAGGCCGGCGGCCTTCCGATAGAGCTGCCAGCACTGTCGCTTTCGGAAAATTTCGTGAAGCCCACGACCATGTTGTATCGCAACATGCTCGCTATGGAGACTGAAGAGCTCATTCGCTCCCATCCCGTCGACGGCGCGGTGCTCATGGGCGGCTGCGACAAGACCACGCCCGGATTGATCATGGGAGCGATCAGCGCGGGCGTCCCGGCGATCTACGTTCCTGCGGGGCCGATGCTGCGCGGCAACTGGAAAGGCAAGACGCTAGGCTCCGGTTCAGATGCCTGGAAGTTCTGGGATGAACGCCGTGCCGGCAATATTACCGACAAAGACTGGCAGGATATCGAGGGTGGCATCGCAAGAAGCCATGGCCACTGCATGACTATGGGCACGGCGTCAACGATGACGGCCATTGCTGAAGCGATCGGCATGACGCTGCCCGGCGCATCCTCCATCCCCGCCGCGGACGTGAACCACATCCGCATGTGTGCCGAAGCCGGGCGCCGCGTCGTCGATATGGTCTGGGAAGATCTGACGCCATCCAAAATTCTGTCCCGCAACGCCTTCGACAATGCCGTTGTAGTCTCGATGGCCATGGGTTGTTCAACCAATGCGGTGATTCATCTGGTCGCCATGGCACGTCGCGCAGGACACGATGTGACCCTCAACGACTTTGACCGGGTAAGCCGCATCATCCCCGTCATCGCCAATGTCCGGCCGAGCGGAGATACCTACCTGATGGAGGACTTCTATTACGCCGGCGGGCTGCCCGCGCTTATGAACCGTCTGGGTGACAGTCTGTTTCTTCAAGAACGCACCGTCAACGGCAAAACCATCGGCGATAATATTGCCGGCGCCGACGTCTACAATGACGATGTCATCCGGCCGCTGGACAATCCGATCTACGCCGAGGGCGCGCTCGCGGTCCTCAAGGGAAATCTTGCCGAGGACGGCGCGGTCATCAAGCCGAGCGCCTGCTCCCCGCAATATCTCAAGCACACCGGTCCAGCTCTCGTCTTCGATGATTTTCCCTCCATGAAGGCCGTCATCGATTCTGATGAGCTCGACGTGACCGCAGATCACGTACTGATCTTGCGCAATGCGGGACCTCAAGGCGGGCCGGGCATGCCTGAGTGGGGCATGCTTCCAATACCGAAAAAGCTTGTGAAGCAGGGTGTCCGTGACATGGTGCGCATTTCCGATGCACGGATGAGCGGGACCAGTTATGGAGCATGCATCCTTCACGTGGCGCCGGAAGCATACATCGGCGGCACGTTGGCCCTTGTCAGGACTGGCGATATGATCTCGATCGACGTCCCCAACCGGACGATCAAACTGGAGCTAGACGATGACGAGATCGCTCGCCGCCGCGCCACATATCAACCGCTCCCGCCATGTTTTACCCGAGGGTATGGAGCAATGTTCTCGAAGCACATTCAGCAAGCTGACAAAGGCTGCGACTTTGACTTCCTGGAATCGGCATACGGCGGTCCCACCGATGAGCCCGCTATATTCTGA	MKKAPETLRSARWFAPDDLKGFGHRSRIMQMGYGAEDWAGRPVIAIINTWSDINPCHAHFKTRIDDVKRGVFQAGGLPIELPALSLSENFVKPTTMLYRNMLAMETEELIRSHPVDGAVLMGGCDKTTPGLIMGAISAGVPAIYVPAGPMLRGNWKGKTLGSGSDAWKFWDERRAGNITDKDWQDIEGGIARSHGHCMTMGTASTMTAIAEAIGMTLPGASSIPAADVNHIRMCAEAGRRVVDMVWEDLTPSKILSRNAFDNAVVVSMAMGCSTNAVIHLVAMARRAGHDVTLNDFDRVSRIIPVIANVRPSGDTYLMEDFYYAGGLPALMNRLGDSLFLQERTVNGKTIGDNIAGADVYNDDVIRPLDNPIYAEGALAVLKGNLAEDGAVIKPSACSPQYLKHTGPALVFDDFPSMKAVIDSDELDVTADHVLILRNAGPQGGPGMPEWGMLPIPKKLVKQGVRDMVRISDARMSGTSYGACILHVAPEAYIGGTLALVRTGDMISIDVPNRTIKLELDDDEIARRRATYQPLPPCFTRGYGAMFSKHIQQADKGCDFDFLESAYGGPTDEPAIF	PGPT0017465_373	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017465-araC-K13875	NA	NA
BMS010_04068	921			4-sulfomuconolactone hydrolase	ATGACGAAAGATCCGGTTCTCGGCGTCGCCCATAGCGAGATTATTAGCAATATTCCCCAAGGTGCTTGCGACTGTCACGTCCACGTCTTTGGGAATGACGCCGAGTTTCCAATGTGGAAGGGCCGTTCCTACACGCCGCCGCCGGCGCCCGTCGAAGCTCTGGCAGTTCATCAACGCGCCTTGCGCTTCGATCGCGTTGTCATTGTCCAGCCGAGCATCTATGGCACCGACAATCGGTGCACGCTCGACGCAGTTGCGAAGATCGGCCGCGGTGCGCGAGCAATCGCAGTGGTGGATAACGAGACAACTCGGCGCGACCTTCAAGACCTGGCACATGGCGGCGTTGTCGGCATCAGGCTCAATCTGGCGGCCGCCGCGGCCGCAGATCTCGACAGGATTCGAAAGCAACTCTATCAAGCGGTTGAAATCGCGGAACCCCTTGGGTGGCATGTCCAGATCTTCACCGAGCTCAAGATCGTGGCTGCGTTGGAGAACGATTTCAGACAGGCACCGACGCCTTTGGTGATCGATCACTTTGGCCGCGCGAACGCTGGTGAAGGTACTAAGCAGCCCGGGTTCGACGTCTTGCTCGATCTTGTCGCAGCGGGGCATGTATATGTGAAACTCTCCGCGCCCTACCTCGTGTCGTCATCTCCAACGCAAGACGATGTTGTACCGCTAATGCGAGCATTGGTTCGCGCCAACAGCTCCAGGCTTCTCTGGGGATCGAACTGGCCACATCCAGGCGCAGGCACCGGTATCCCTGCGGACGGCATCGTTCCTTTGCGCCCGATTGATGACGGGGCAGCCGTCGACACATTCGCATCGGAACTGAACGACCCTGCGGTCTTCAAACGCATTCTCGTAGACAATCCGGCAAAGCTGTTTGGCTTTTCGGACAAGGACGGATTGATCCCATGA	MTKDPVLGVAHSEIISNIPQGACDCHVHVFGNDAEFPMWKGRSYTPPPAPVEALAVHQRALRFDRVVIVQPSIYGTDNRCTLDAVAKIGRGARAIAVVDNETTRRDLQDLAHGGVVGIRLNLAAAAAADLDRIRKQLYQAVEIAEPLGWHVQIFTELKIVAALENDFRQAPTPLVIDHFGRANAGEGTKQPGFDVLLDLVAAGHVYVKLSAPYLVSSSPTQDDVVPLMRALVRANSSRLLWGSNWPHPGAGTGIPADGIVPLRPIDDGAAVDTFASELNDPAVFKRILVDNPAKLFGFSDKDGLIP	PGPT0005265_141	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_AMINOBENZOATE_UTILIZATION,PGPT0005265-ligI-K10221	NA	NA
BMS010_04069	981	ligC		4-carboxy-2-hydroxymuconate-6-semialdehyde dehydrogenase	ATGAAGGTTTGCATGGTTGGCCACGGCATGATGGGCACGTGGCACTCCTACAGCTTAAAGGACGAGGATTGCGTCCTTCAGACCTTGGTCGGGCGCGAGTCCGGCCACACAGCAGACTTTGCGCAGACCTTTGGCTATCGCCAGTGGACCGTGAACTACACGGAAGCACTCGCCTCTGATGTAGACGTGGTCATTATTGCCGGGCCGAGTGCAACGCATGCCGCAATGGCTCTTGAAGCACTTGACGCGGGAAAACATGTGCTCGTGGAGATCCCGCTCGCCTTGAACTACAAAGACGCCGAAGCGGTTGTTGCTAAGGCTGAGCACAAAGGACTGGCACTCGGCGTCGTGCACCCCATGCGCTTTCGAAGCGAGCACATTGAACTCTGCAGAAGGGTTGCTGAGGGTAGCGAAAGGATCCGCCACGTTCACTCGCGGCTGTTTCTCCACCGCCTTGAAAACATCGGCTCAACCGGTCTTCGAAGAACCTGGACAGACAACCTCCTTTGGCATCACGGCGCTCATCTGATCGATGTCGGTCTCTGGCTTTGCGGTGGCGGCGATCCCGAAGCCGCCGCTAGCCGGATTTCGCGGTCGTTCTCGATAATGCCACCACCGCTTCCTCAAACGGGTATTCCGATGGAACTGGCTGCAATCGTCGAAACGGATGAGCATCAATCGATCGTGTGCACGGGATCCTATTACTCCCGCGAGAGGATCTTTGATGTTTTCGCGATAACCGATAGGGATTCCTACCGCCTGGATATCTTGAAGGGATCTATGTCAGTTGGCGGTCAGGAGCATTCCGTTCTGTCCGAACAAGACAACAATGCTCAGGTCAGTCGGGATTTTATCAACGCAGTTCGAGAGGGGAGAGCCCCTCGCGTCACCGGTCGATCTGTGCTTCCGGCTATGCGTCTTCTACAGGACATCGAGGATCAACAGTCGCAATGGTGGGCCAATCATGCGCAAGGAAATTGA	MKVCMVGHGMMGTWHSYSLKDEDCVLQTLVGRESGHTADFAQTFGYRQWTVNYTEALASDVDVVIIAGPSATHAAMALEALDAGKHVLVEIPLALNYKDAEAVVAKAEHKGLALGVVHPMRFRSEHIELCRRVAEGSERIRHVHSRLFLHRLENIGSTGLRRTWTDNLLWHHGAHLIDVGLWLCGGGDPEAAASRISRSFSIMPPPLPQTGIPMELAAIVETDEHQSIVCTGSYYSRERIFDVFAITDRDSYRLDILKGSMSVGGQEHSVLSEQDNNAQVSRDFINAVREGRAPRVTGRSVLPAMRLLQDIEDQQSQWWANHAQGN				NA	NA	NA	NA	NA
BMS010_04070	1821	gsiA_4	COG1123	Glutathione import ATP-binding protein GsiA	ATGAACTCTTTAACCCGCGACACCGGCAATCCGCCGATCCTCGAAGTCAAGAACCTGAGAACGTCATTTCTGATCAACGAGGCGTGGTGCCCCGTTGTTAAGGGCATCAGCTTCGATGTCCCGCGCGGACAAACGGTTGCAATCGTGGGCGAGTCAGGATCTGGCAAGAGCGTTACATCTTTGTCGATCATGCGATTGCTCGATGCGGCAAAATCCAAAACGGTGGGATCCGTAGTATTGGAGGGGAAGGAGCTTCTCTCACTTGGAGAGGAAGACATGCGCCGTACGCGGGGTCGAAAGCTTGCGATGATTTTCCAGGAGCCGATGACGAGTCTTAATCCGATTTTTTCAATCGGCCGTCAGATTTCCGAGGCGATGTTGTGCCACGGCGACATGTCCCCGTCGGCTGCGAAAGAAGAGGCGATCCGCCTGCTGGAAAAGGTTCGCATCGCCAACGCGGCGAACCGCTACGACGAATTTCCGCATCAGTTTTCAGGCGGGATGCGTCAGCGCGTAATGATCGCCATGGCGCTTGCTGCGAAACCGAGACTGCTGATCGCCGACGAGCCAACCACGGCACTCGACGTTACCGTCCAGGGCCAGATCCTCGACCTGATGCGGATGCTTCAGGAGGAGAGCGGCACCTCAATTCTGTTCATCACACACGACATGGGTGTGGTCGCGGAAATCGCGGACAAGACGCTCGTGATGTACAAAGGTCAGATCGTAGAGGAGGGCCCTTCTTCCGAGTTGTTCGCTAGGCCACGGCACCGCTATTCAAGGGCGTTGCTATCGGCGGTTCCCCGACTTGGGGCAATGACGGGCAAGCCTTCGCCCGCCCACTTCCCGCTGCTTCACGCAGAAGCAGCGAATACTGTGGCCCCCTACCATCACACGCCTCGCCCAACCAAGGTTTTGGAGGTGAAGAATCTCGTTACTAGGTTCGCTATCAGGTCGGGGTTCTTCAGCCGAATTGCAGGGGTAGTGCATGCGGTTCAAGATGTGAGCTTCCACATTCACGAAGGGGAAACACTCTCGCTGGTCGGAGAGTCGGGGTGCGGGAAATCGACCACAGGGCGCTCTATTCTTCGCATGGTCGAACCGACCGCGGGCACAGTTACCCTTGACGGGTATGATGTCCTCCGTCTCGAAAGACATGAAACCCGGACAATGCGCAGAAGCGCACAGATGATATTCCAGGATCCCTTCGCCTCGTTTAACCCGCGGCTGAGAATTGAAACGGCCGTGTGCGAACCATTCCTCGAGCACGCGTTGGGCACAAAAAACCATGCCCGGGAGAAAGCGGCGACGCTAATGGAACGCGTGGGGCTTTCTCCCGATATGCTCAGGCGCTATCCACATGAGTTCTCCGGCGGCCAGCGGCAACGCATATCAATCGCGCGAGCCTTGATGGTAGACCCCAAGCTGATCGTGGCGGATGAGTGCGTTTCTGCACTTGACGTGTCCATCAAGGCGCAGGTCTGCAATCTGCTGCTCGAACTGCAACAGAACTACAATTTGGCGTTTCTGTTCATCTCTCACGATATGGCCGTTGTGGAACGGATGAGCCACCGGGTCGCGGTCATGCGCCTTGGTGAGATCATGGAGATCGGAACAAGGCAGGCCGTCTTCGAAAATCCTCAACATGACTATACAAGGACGTTGATGTCCGCGGTTCCGGTTCCCGATCCCACCCGACGTCGGCAAAGGCGCGATCTTTCGACTGAGGAACTCAAAAATCCAATTCGCTTGCCCGACTATTCTGCACCGAAGCGTCAGTATCGGAGTGTCGGTCAAGATCATCTCGTGATTGTCGATTGA	MNSLTRDTGNPPILEVKNLRTSFLINEAWCPVVKGISFDVPRGQTVAIVGESGSGKSVTSLSIMRLLDAAKSKTVGSVVLEGKELLSLGEEDMRRTRGRKLAMIFQEPMTSLNPIFSIGRQISEAMLCHGDMSPSAAKEEAIRLLEKVRIANAANRYDEFPHQFSGGMRQRVMIAMALAAKPRLLIADEPTTALDVTVQGQILDLMRMLQEESGTSILFITHDMGVVAEIADKTLVMYKGQIVEEGPSSELFARPRHRYSRALLSAVPRLGAMTGKPSPAHFPLLHAEAANTVAPYHHTPRPTKVLEVKNLVTRFAIRSGFFSRIAGVVHAVQDVSFHIHEGETLSLVGESGCGKSTTGRSILRMVEPTAGTVTLDGYDVLRLERHETRTMRRSAQMIFQDPFASFNPRLRIETAVCEPFLEHALGTKNHAREKAATLMERVGLSPDMLRRYPHEFSGGQRQRISIARALMVDPKLIVADECVSALDVSIKAQVCNLLLELQQNYNLAFLFISHDMAVVERMSHRVAVMRLGEIMEIGTRQAVFENPQHDYTRTLMSAVPVPDPTRRRQRRDLSTEELKNPIRLPDYSAPKRQYRSVGQDHLVIVD	PGPT0004435_1963	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004435-ddpD-K02031	NA	NA
BMS010_04071	1596	gsiB_2	COG0747	Glutathione-binding protein GsiB	ATGAAGAGACGTAATGTTCTGAAGGGTATCGGCGGGGCGCTAACGCTCGCTGCAACAGGTGTTTCGCTTCCCGCAATCTCGCGCGCTCAAGGCGCTAATGTCCTGAAATTCGTCCCGCAGGCGGATTTGGCTGTCATCGACCCGATTATGTCAGCCGCTTTCGTGACGAGAAACCATGCCGCCATGGTTTTCGACACCCTTTGGGGCGTCGACAGCAGCTTTGCTCCCAAGCCTCAAATGGCCGCTGGCCATGTTGTCGAGAACGATGGCAAAACCTGGCGGGTTACGCTGCGCGACGGTCTCAAGTTTCATGACGATACGCCGGTCCTGGCCCGTGATGCTGCTGCGAGCGTCAAGCGGTGGATGGCAAGAGATTCCTGGGGCAAGGATGTCGCCGTTATGGTCGACGACATTTCCGCGGCGTCCGATAAGGAACTTGTGTTCAAACTCAAGCGACCCTATCGCCTGCTCGCAGATGCGCTTGGAAAGCCGGGTGGCAGCATGCCAGCGATCATGCCAGAGCGTCTGGCGACGACTGATCCCGCAAAGGCGGTCGCTGAAATTGTCGGAAGCGGTCCGTTCAAATATCTCATGTCCGAGCGCGTCGCAGGATCGCGCAATGTCTACGAGAAATTTGCCGGTTATGTGCCGCGTCAGGAAAAGGCGGACTTCACCTCAGGTGGCAAGGTCGCTCACTTTGACCGCGTGGAATGGATCACCATGCCTGATGCTGCAACTGCCGCAGCCGCCCTTCAGAATGGCGAAGTCGACTGGTGGGAACAGCCGACCGCAGACCTTTTGCCGATATTCAAGGACAATGCTGATTTCGTCACTGACGTTCTTGATCCTGGCGGACTGGTGATGATGATCCGCATGAACCACCTTCAGCCACCATTCAACAATCCGGCCATTCGCCGCGCGATCCTCGGCGCCATCAAGCAGAGCGACTACCTTATCGCCGCTATGGGTGTCGATCCAACGGCTTGGATTGACAATGTCGGGTTCTTCCAACCTCGCTCTAATCTTGCCAGCGACGTTGGCCTCGACGCTTTAGCTGGCGACCGCAATTTCGAGAAGGTGAAGGCCGATCTTGCAGCCGCTGGGTACAAAGGTGAGAAGGTCGTCCTGCTTGTACCGACGGATTTCCCTGTGCTGAATGCCATGAGCGAAGTCACGGCCGATATGCTGCGCAAGATCGGCATGAACGTCGACTTCCAGGCGATGGATTGGGGAACGCAGGTACAGCGCCTTAATTCAAAGGAACCGGTTGAGAACGGCGGCTGGTCGCTCTGGTGCAACTACGCTTCGGGCGCCGCGGCGATGACCCCTGCAGCGCACACCTATCTACGTGCGACAGGCGACGGGTCGATCTGGGGTTGGCCAAAATCGGCGACAATCGAAGATCTGCGCAACAAATGGATTGAGTCTTCCGATCTCGCGCAGCAGCAGGAGATTTGCCGCCAATTGCAAAAAGCGGCTTTCGAAGATCTCCCCTATGTTCCCCTAGGCATCGGTCTGCAGTCAACGACCTACTCGAAATCCCTGCAGGACATGCTCAAGGGCTTTCCGATTTTCTACAATGTGCGCCGGGCGTGA	MKRRNVLKGIGGALTLAATGVSLPAISRAQGANVLKFVPQADLAVIDPIMSAAFVTRNHAAMVFDTLWGVDSSFAPKPQMAAGHVVENDGKTWRVTLRDGLKFHDDTPVLARDAAASVKRWMARDSWGKDVAVMVDDISAASDKELVFKLKRPYRLLADALGKPGGSMPAIMPERLATTDPAKAVAEIVGSGPFKYLMSERVAGSRNVYEKFAGYVPRQEKADFTSGGKVAHFDRVEWITMPDAATAAAALQNGEVDWWEQPTADLLPIFKDNADFVTDVLDPGGLVMMIRMNHLQPPFNNPAIRRAILGAIKQSDYLIAAMGVDPTAWIDNVGFFQPRSNLASDVGLDALAGDRNFEKVKADLAAAGYKGEKVVLLVPTDFPVLNAMSEVTADMLRKIGMNVDFQAMDWGTQVQRLNSKEPVENGGWSLWCNYASGAAAMTPAAHTYLRATGDGSIWGWPKSATIEDLRNKWIESSDLAQQQEICRQLQKAAFEDLPYVPLGIGLQSTTYSKSLQDMLKGFPIFYNVRRA	PGPT0004430_9060	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004430-ddpA|ABC_PE_S-K02035	NA	NA
BMS010_04072	942	gsiC_5	COG0601	Glutathione transport system permease protein GsiC	ATGGCCGCCTTCATCGCGCGACGCATCATCGGGACGGTCCCGGTGATGCTGTTCGTCGCCTTTCTCGTCTTCAGTCTGCTTTATCTGGCGCCCGGCGATCCGGCAGCCGTGATCGCGGGCGACGCAGCAACGCCAGCGGATGTTGCCCGCATCCGGCAGACGCTCGGACTTGATCAGCCATTTTTCGTCCAATTCTCCGGGTGGCTTTGGCGGGTCCTTCACGGCGACTTGGGTGTCTCGATTTTCGCCCAGGCGCCGGTGACTCAACTGATTTTTCAGCGTCTGGAGCCAACTTTGTCACTGATGGTCATCACATTGATCATCTCAATCTCCGTTGCTGTTCCGCTTGGTGTTCTGGCGGCCTGGAAAGCCGGTACGCTTATCGATCGGATCATCATGAGCTTTGCCATTTTGGGCTTTTCGGTCCCGGTCTTCGTGATCGGCTACCTGTTGTCCTACGTCTTTGCCCTCGAACTTCGATGGTTACCGGTTCAGGGCTATAAACCGATTGCCAGTGGCTTCGGCCCCTGGCTCGCCGGTCTCATTCTGCCAAGCCTGGCGCTCGGGAGCGTCTACATCGCCCTCATTGCCAGAGTGACACGGGCAGCAACAATCGAGGTCCTATCGCAAGACTATATCCGCACGGCGAAGGCAAAGGGCGTCAGACAGCGAACAATCCTGTTCGCGCACGCCCTCAAAAATGCTGCGGTTCCCGTCATCACGGTCATCGGCATCGGAATAGCTCTCCTGATCGGAGGCGCGGTGGTGGTCGAAAGCGTATTCGCAATCCCGGGGATCGGCCGGCTTACAGTCGATGCCATTCTTCGACGCGACTACCCGATCGTCCAGGGCGTCGTCCTGTTCTTCAGCTTCGTCTACGTCATCGTCAACCTGCTTGTGGACCTGGCCTACAGCGTCGCAGATCCGAGGATACGCTATTGA	MAAFIARRIIGTVPVMLFVAFLVFSLLYLAPGDPAAVIAGDAATPADVARIRQTLGLDQPFFVQFSGWLWRVLHGDLGVSIFAQAPVTQLIFQRLEPTLSLMVITLIISISVAVPLGVLAAWKAGTLIDRIIMSFAILGFSVPVFVIGYLLSYVFALELRWLPVQGYKPIASGFGPWLAGLILPSLALGSVYIALIARVTRAATIEVLSQDYIRTAKAKGVRQRTILFAHALKNAAVPVITVIGIGIALLIGGAVVVESVFAIPGIGRLTVDAILRRDYPIVQGVVLFFSFVYVIVNLLVDLAYSVADPRIRY	PGPT0004445_12384	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004445-ddpB|appB-K02033	NA	NA
BMS010_04073	915	ddpC_3	COG1173	putative D,D-dipeptide transport system permease protein DdpC	TTGACCATCCTACCTTCTGAAAACGTCGTGTTTGACGACACCCCGGTCTTTCGAACAGGCCGTCTCGCCGTTTTGCGCCGGCGCACGGACTTCATCGGCAAGGCCGCCCGTAATCCGCTGATGTTCCTTGGCAGCACAATTCTCCTTTTGCTGTTGTTCATGGCCCTGCTTGCGCCTTATCTCGGCACTGTGGATCCGAGCGCTATCTCGCCTGCCGAACGGACGCGAGAACCGTCGGCAGCACACTGGTTCGGCACCGACATGCTGGGCCGTGATCTCTACTCCCGCGTCATCTACGGAGCTCGGATCTCGCTCTTGGTCGGTTTCACCGTGGCGATTGTTGCCTCCGTGATAGGTTTAGCGATCGGGCTTGTTTCTGGCTTCATGCGCCGTCTGGACGGTGTCGTCATGCGTGTCATGGATAGCATCATGTCAGTGCCACCAATCTTGCTTGCAATCGCTCTGATGGCGCTCACGCGCGGTAGTGTCTACAACGTCATTATTGCAATTTCGATCGCCGAGGTTCCCCGCGTTGCCCGCCTCGTCCGGGGCGTTGTTCTATCCCTGAGGGAAACCACGTACGTCGAGGCAGCGGTCGCAGGCGGGTCGCGCACCTCGACAATACTCCTGCGGCACATACTTCCCAACACACTCGCGCCTATGACCGTGCAGGCCACATACATCTGCGCCAGCGCCATGGTGATCGAGTCGATCCTCTCCTTCATTGGCGCCGGAACTCCGCCTACCATCCCCTCTTGGGGCAACATCATGGCGGAGGGCCGCGCCCTCTGGCAGGTAAAACCTTACATAGTCCTCTTCCCAGCTGCCTTTCTGTCATTGACTGTGCTTGCCGTTAACCTGCTGGGCGACGGTCTGCGGGACGCGATCGATCCACGCATGGCAACCAGAACCTGA	MTILPSENVVFDDTPVFRTGRLAVLRRRTDFIGKAARNPLMFLGSTILLLLLFMALLAPYLGTVDPSAISPAERTREPSAAHWFGTDMLGRDLYSRVIYGARISLLVGFTVAIVASVIGLAIGLVSGFMRRLDGVVMRVMDSIMSVPPILLAIALMALTRGSVYNVIIAISIAEVPRVARLVRGVVLSLRETTYVEAAVAGGSRTSTILLRHILPNTLAPMTVQATYICASAMVIESILSFIGAGTPPTIPSWGNIMAEGRALWQVKPYIVLFPAAFLSLTVLAVNLLGDGLRDAIDPRMATRT	PGPT0004450_5370	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004450-ddpC|appC-K02034	NA	NA
BMS010_04074	1446	aam_1	COG0154	Acylamidase	TTGAATAATCTGTGCGATCTTACCGCATCCGAATTGCTGCCGCTCTACGCGACGCGTCGGGTATCACCCGTAGATGTGACCAAAGCGGTTCTCAAACGTGCCCATGACATTCAGGGCGAACTTAATCCTTTTTGCCATATCGACGACGAAGGTGCGCTAGCGCAGGCCCGCCTTTCCGAAAGGGCGTGGATGGCTGGCGACAGCGTCGGAGCCTTGGAGGGCGTTCCCGTTTCGGTCAAGGATGTCGTAGCCGTGAAGGGCTGGCAGCTTGGTCGCGGCTCGCTTTTATCGGATCGCAACCCACCCGCGACAGCAGATGCGCCGAGCGCAGAGCGGTTGCGAAACGCTGGCGCGGTTCTCTTTGCCAGCACCACGACATGTGAGGGTGGCTGGAAGGCAGTTACGGATAGCCGCCGGACCGGCATTACCCGGAACCCGTATGACGCTTCGCTTACGCCGGGAGGGAGCAGCGGTGGGGCCGCGGCCGCTGTTGCAACCGGAGCGGGGCCGCTGGCGCTCGGTACCGATGGCGGGGGCTCCGTTCGCATCCCTGCGAGCTTCACCGGCATCTTCGGATTGAAGCCGCAATATGGTCGCGTGCCGCAGTTTCCTCTCGGTCCTCATTACGGCAACCTATCTCACCAGGGGCCGATGACCCGCAGCGTGCAAGACGCCGCCTTGATGCTGAAGGTCCTGGATGGGACCCATAACCTCGATCCTGACACGATCCCTGCCATTGATGGCGGCCGCTACAACGACATATCGAAACCGATTGCCGGAATGCGCATCGCGTTGACGAGAGATTTCGGGTTTATGCCAACGGATCGCGAGATCGGCCAGCTGGTCGAGCAAACCGCGGTCGTGTTGGGTCAACTTGGCGCCGTCGTGGAGGAATTGCCCGCTTTCGAGGACTGGCGTCCTGCTTACCGGAGCATATGGAGTGCCGGCGCATATCAGTCGCTTCGGCGTCTGTCTCAAGACGACCGGGACCTGGTCGACCAAGGCTTCGTGACGGTTGCGAACCAAGGGGCAAAGGTGCCTTTGGAGGAATATCTTGATGCCCAGATGCACCGAATTGGCCTGCGCGCGGCGATGAACCGCGTCTATGAGAATTTTGATGTGATCCTCTCGCCGGCCGTGGCGGTTCTTCCGTTTGCCGCGGGGGTCACTGTCCCGAACGACGGTTTTGCTGATTGGCTCGATTGGGCCGGACTCTCCCTGGCTTTTAACCTGACCGGCCAACCCGCGGCATCGGTGCCAATCGGTTTTGTTGACGGCTTACCAGTCGGTGGTCAGATCATCGGTCGTGTATTTGATGATATTTCGGTCTTGAGGGTTGCAGCAGCGATCGAAACTGCATTGCCGGATGCGCGCAATAAACCGACGATGCTTGTGAAGAAGTTCGTGGGCGCCTCCTGGAGCGAAGATGCAAAACGTATTCGATAA	MNNLCDLTASELLPLYATRRVSPVDVTKAVLKRAHDIQGELNPFCHIDDEGALAQARLSERAWMAGDSVGALEGVPVSVKDVVAVKGWQLGRGSLLSDRNPPATADAPSAERLRNAGAVLFASTTTCEGGWKAVTDSRRTGITRNPYDASLTPGGSSGGAAAAVATGAGPLALGTDGGGSVRIPASFTGIFGLKPQYGRVPQFPLGPHYGNLSHQGPMTRSVQDAALMLKVLDGTHNLDPDTIPAIDGGRYNDISKPIAGMRIALTRDFGFMPTDREIGQLVEQTAVVLGQLGAVVEELPAFEDWRPAYRSIWSAGAYQSLRRLSQDDRDLVDQGFVTVANQGAKVPLEEYLDAQMHRIGLRAAMNRVYENFDVILSPAVAVLPFAAGVTVPNDGFADWLDWAGLSLAFNLTGQPAASVPIGFVDGLPVGGQIIGRVFDDISVLRVAAAIETALPDARNKPTMLVKKFVGASWSEDAKRIR				NA	NA	NA	NA	NA
BMS010_04075	723	rspR_3	COG1802	HTH-type transcriptional repressor RspR	ATGCAAAACGTATTCGATAACGCTAAAATCGATGCTCGCCTTTCTAAGTCCCATCAGCTTTATGAGCATCTGCGGGCGGCAATCATCTCGATGAAGTTGGTGCCCGGAGAGCCTCTACCGGAGAAAGAACTTTGTGCGCATTTCGGGGTGTCAAAGACTCCATTTCGAGATGCGCTTAAGAAGCTCGTGGATGAAAGTCTCGTGACCGTCGTTCCAAGCGGAGGAACGTTCGTCAACAAAATGGTCCTGCGTGAAGTGCTCGAGGGGCAAATGGTGCGCGAGACCCTCGAAGTGAAGATGGTCCGTCTGGCAGCACGCAACTACCATCCGTCGTTCGATAAAAAATTCGAGCTACAACTCTTCACTCAGGAACTGGCAGCCCGCAATCCGAACGTCGATGAGTTCTTTGCGCTGGACAATGAGTTTCATAGACTGATCTGCCTCTGCGCCGGCTTTCCAAAGATTTGGCAAACCATCCACTACGCGACCGGCCAGCTTGATCGGGTCCGTCGACATTCTTACACGATGCGATCGCACTTTGACGACGTGTTGAAAGAACATCGGGAGATACATGACGCCATAAAAAGAGGTGACGAAGCGGGAGCAGCCAAAGCGTTCCAAATTCAGCTCGATGCGGTTATCCCCGTCTTCGAGCAACTGAGGCTGGAGGCGTCCGACATCATCGATGATTGTGCTGGCATTGGTGTAGAGCAGATCAGGTGA	MQNVFDNAKIDARLSKSHQLYEHLRAAIISMKLVPGEPLPEKELCAHFGVSKTPFRDALKKLVDESLVTVVPSGGTFVNKMVLREVLEGQMVRETLEVKMVRLAARNYHPSFDKKFELQLFTQELAARNPNVDEFFALDNEFHRLICLCAGFPKIWQTIHYATGQLDRVRRHSYTMRSHFDDVLKEHREIHDAIKRGDEAGAAKAFQIQLDAVIPVFEQLRLEASDIIDDCAGIGVEQIR				NA	NA	NA	NA	NA
BMS010_04076	384			hypothetical protein	ATGGCCGATCTGGAACTCAACAAGGCGAACGTCATCGCGTTTTATGAGTTAATGTTCAACGAATGCCGCCCACGAGAGGCGATCGAGCTCTTTGCCGGCGCGGACTACATCCAGCATAATCCTCATGTCGCGAACGGCAAGGATGGCTTCATCGAATACTTCGAGAGGATGGCGAAGGAATGGCCAGGCAAGCGCGTTGAGGTCAAGCGAGCCATTGCCGAAGGCGACTTTGTAGTGCTGCACTGCCATCAGCATTGGCCCGGCGATCATGATTATGCCGGTATCGATATTTTCCGCCTGGATCACGCCGGAAAGATTGTCGAACATTGGGACGTCTTGCAAATTCTCCCGGAGACGTCAGCAAATCCGAACGGCATGTTCTGA	MADLELNKANVIAFYELMFNECRPREAIELFAGADYIQHNPHVANGKDGFIEYFERMAKEWPGKRVEVKRAIAEGDFVVLHCHQHWPGDHDYAGIDIFRLDHAGKIVEHWDVLQILPETSANPNGMF				NA	NA	NA	NA	NA
BMS010_04077	189			hypothetical protein	ATGCATATCGAAATCAAGCGGCTCTTCGTCACCAGCCTGGCAGACTTCGAGCAGGATGATACGATCTCGCGGGTGAGCGAGCCAAAGTCCGCCGCCGTTGCCGAACTGCGACGTCGCCAAACCCACCCAATTGAGATGAGCAAGCAATCTCAAATTGGCTGCAAGCTGCGACCGATGTCTGCTTTCTAG	MHIEIKRLFVTSLADFEQDDTISRVSEPKSAAVAELRRRQTHPIEMSKQSQIGCKLRPMSAF				NA	NA	NA	NA	NA
BMS010_04078	759	srlR_1	COG1349	Glucitol operon repressor	ATGCTTGCTCAAGAACGTCAGGCCGTAATCCGAACCCAGCTGCAAACGAAAGGACGGGTCGTTGCAGCGGATCTGGCAAAGCAATTCGACGTTTCAGAGGACGCTATCCGGCGGGACTTGCGAGAGTTGGCACGGCTGGGCGCATGTCGTCGCGTCTACGGGGGAGCTTTGCTGCCGACCCCAGACAGCGGCGACATCGGTCACCGGGGCGCGAAAAAGAACGACATCAAGAAACGGCTCGCGTCTCAGGTTACAAGTCTTATCGAAGATGGCCACGCCATCCTGATCGATGCAAGCTCGACGAATGTCGTTGTCGCACAGGAGTTGCCGCGCGATAAGTCGCTAACGGTGTTTACAAACGCACCTGCCATCGCCCTCGCGCTGTCTGATCACAGGCTCTGCCGCACGGTTGTGTTGGGCGGTGTGTTCAACCCGTCAAAGGGCGCCTGCCTTGGAGGGCGCACCATCCGGGAGGCGAAAGGAATTTATGCTGACCTCTTTATCCTTGGGGCATGTGGTCTCGATTTAGATGCAGGTATCACTGCCATGGAGGCCGAAGAAGCGGAGGTGAAAAAATGCTTCATTGAGCAAAGCTCAAGGCTAATTGTCGCTCTTACCAGCGATAAGCTGGGCACTGCCTCACCGTTTAAGATTGCGAACGCTTCTGCGATTGAAGCAATAGCTGTCCAAGATGATGTTAATCAGGAAATTTTGGACGAGTACCGGGACATCGGGATCAGGATTCTGCAAAACGGCTGA	MLAQERQAVIRTQLQTKGRVVAADLAKQFDVSEDAIRRDLRELARLGACRRVYGGALLPTPDSGDIGHRGAKKNDIKKRLASQVTSLIEDGHAILIDASSTNVVVAQELPRDKSLTVFTNAPAIALALSDHRLCRTVVLGGVFNPSKGACLGGRTIREAKGIYADLFILGACGLDLDAGITAMEAEEAEVKKCFIEQSSRLIVALTSDKLGTASPFKIANASAIEAIAVQDDVNQEILDEYRDIGIRILQNG				NA	NA	NA	NA	NA
BMS010_04079	1158	ybjJ_1		Inner membrane protein YbjJ	ATGACATCAGCCCAGATGCCCTATGTAACTGGTGTACGCGAGCAGATTGCCACGCGTCTGACGTTTCTCATCGCCGGCTTGGGCATGGCAGCCTGGGCTCCGTTGGTGCCCTATGCCAAAGACCGTGTCGGAGCCGACAACGCCACGCTGGGTCTTTTATTGCTGTCCCTGGGTCTGGGATCGATAATCGCGATGCCGGCAACTGGCGTTCTCGCCAGCCGGTTTGGTTGCCGAGCGGTTATCATTACCGCGACTTGCCTCCTTTCAATCATGGTCCCGGTCCTTGCTTTTGTCGATACGCAGCCGCAATTGGCAATAGCACTCGCCATATTCGGTGCCAGTGTTGGCACTGTCGACGTGGCCGTAAACATTCAGGCCGTTATGGTGGAAAAAGACAGTGGTCGAAGCATGATGTCTGGATTTCATGGCCTCTTCAGCCTAGGCGGCATCATAGGCGCCGGCGGTGTCAGCTTTGCACTTGGCTCTGGTGTCCCCCTGCCCGCTGTAACCTACATGGTCGGCGGAGTGCTTATGGTCCTGCTGATGCTCGCTCACGCCGGCCTACTGCGATACGGGGATACCGAACAGGGTATCACACCTCTCTTTGTAGCACCGAAAGGCGTAGTCATGGTTCTGGGCCTCCTTTGCTTTCTCGTGTTCATGGGTGAAGGCGCGATCCTCGACTGGAGCGCTCTCTTCCTCGTCAACAATCATGGGTACGAGCAAGCGTCGGCGGGGATCGCTTACACCTCGTTTGCGGTCACAATGACGATCGGCCGGCTCCTTGGAGACCGCGTAGTTGCGCGTCTGGGTGGCACACGAACCGTTGTGTTCGGCGGATTGTTGGCGGCATCGGGGTTCGCGTTGGCGGTCTCGGCCACTGACGCGACTTTGGTTCTCGTTGGCTTCGGGCTTGTCGGGATGGGACTGTCCAACATCGCGCCCGTGTTCTTCACGGCTGCTGGCAGACAGACAGTTATGCCAGCCAGTCTGGCAGTTGCCGCGGTCTTCACGTTTGGCTACGCGGGGATACTGCTTGGGCCGGCGATGATTGGCTTCGTCGGACAGATCAGGAGCCTTGGTTTCGCCTTCCTTTTGCTTTCAGCCGCCATGTGTCTGGTCGCAGTGGTAGGGCCAATGGCAGCGCGCGGGAAGTGA	MTSAQMPYVTGVREQIATRLTFLIAGLGMAAWAPLVPYAKDRVGADNATLGLLLLSLGLGSIIAMPATGVLASRFGCRAVIITATCLLSIMVPVLAFVDTQPQLAIALAIFGASVGTVDVAVNIQAVMVEKDSGRSMMSGFHGLFSLGGIIGAGGVSFALGSGVPLPAVTYMVGGVLMVLLMLAHAGLLRYGDTEQGITPLFVAPKGVVMVLGLLCFLVFMGEGAILDWSALFLVNNHGYEQASAGIAYTSFAVTMTIGRLLGDRVVARLGGTRTVVFGGLLAASGFALAVSATDATLVLVGFGLVGMGLSNIAPVFFTAAGRQTVMPASLAVAAVFTFGYAGILLGPAMIGFVGQIRSLGFAFLLLSAAMCLVAVVGPMAARGK				NA	NA	NA	NA	NA
BMS010_04080	801	nimR_1		HTH-type transcriptional regulator NimR	TTGCAATCAGACAAAAACGCCGCGACCTGTTCACTTTGCGAATGTGATGGCTTCGGTGCGCGCACCATCGTCGCCAGGCTTGTCGAAATATCCGAAGTCACGACCTTCGCGATGGAGCGCCATCCATGGGGCCAGTTCGTGTATGCCTATGCCGGAGCAATCGAGCTGAAGGTGGAGGGAAGGAGATATGCTGCGCCGCCTGACTACGGTTTGTGGCTGCCGAAGGGGACCGAGCATCTTGCCTGGGCCGTCGCAGGAACATCCTACGCGCTCATCGATGTCGACTCTCGCTTATGTGAAAATCTGCCAACAGCTGCGACGGCTATCTCGGTCAGTCCGATTGCCGACGCTATATTCCAGGAATTGCGCAGGCGAGGGGGCTTTGATGTGGAAAGGCCCCAGAATGAGCGCCTGCTTCGCGTGCTGCTCGACCAGTTGACTGAAGGGACTGCCAGCGACGATTTCCTTCCGTTGTCAGAAGATCGTTTCCTGTCGCTGGTCCTCGAAGCCCTGATCTGCGATCCCGGCGACAGGAGGTCGCTCGCCGACTGGGCGCGCCATGTCAATGCCACCGAGCGGACCCTGGCGCGCAGATGCCTTCGTGATCTGGGCATGACGTTTCAGGGTTGGCGGCAGCAACTGCGGCTGTCTCGCGCCGTTGCTATGCTGTCGGAAGGCCGTTCAGTCCGCGTCATTTCGCAAGCGCTGGGCTACCGCACGCCGTCCGCCTTCATCACCATGTTCACTTCAGCCAAGGGCTGCACACCCACCGTATATCGTGCTCAATTGAGACGCACGTAG	MQSDKNAATCSLCECDGFGARTIVARLVEISEVTTFAMERHPWGQFVYAYAGAIELKVEGRRYAAPPDYGLWLPKGTEHLAWAVAGTSYALIDVDSRLCENLPTAATAISVSPIADAIFQELRRRGGFDVERPQNERLLRVLLDQLTEGTASDDFLPLSEDRFLSLVLEALICDPGDRRSLADWARHVNATERTLARRCLRDLGMTFQGWRQQLRLSRAVAMLSEGRSVRVISQALGYRTPSAFITMFTSAKGCTPTVYRAQLRRT				NA	NA	NA	NA	NA
BMS010_04081	1032	dcyD_1	COG2515	D-cysteine desulfhydrase	ATGTCTGCTTTGCATGCCCTTGAACAGCTTCCACGTCTCGATCTGCGGGGCTTTGTTTCTCCGGTCCAATATCTGGAGCGGTTTAGTGCCGCCATCGGCGCCGAGGTTTGGTGCAAGCGCGATGACATCGGCTCCGTCGGGCTTGCGGGAAACAAGGTTCGGAAACTCGAGGTCGAACTTGCCCACGCCCTTTCGCAGAGGGCAACTCATCTCGTCGCCGAAGGCTCACGTCTTTCCAATGCGACCCGCGCTGTAGCGGCGGCGAGTGCAGCGCTCGGCCTAAAATGCACCTTGGTGCTTTGCCATGACGATCCCAAGGAACCCGTCGGAAACCTCATGCTCGACGGACTGTTGGGCGCTGAGCTCAGGTTCGTCGGAAACATCGATTGGCATGAACTTTCCAGGAAGGCGGCCGAGGTCGTTGAGGAACTGGAGCGCTCCGGCGAACGCGTCTACCGATTACCGATCGGATGTGCGTCGGAGCGGAGCTGCCTCGGCTTTGCCATTGGATTCAATGAGCTTCGCGACCAGATGATCAAAGCAGGACGCCCGGCAGGAACGATCGTGCATGCCAGTTCGTCAGGGGGCACCCATGCGGGCATGGTCCTTGGCAATGCGCTTCATGGATCTGAGTGGAACATTCGAGGGATCGTCGTTGCAGGGGAGGTTTATCCTGACGTCGTGGGACAATACCTCGCTTTTGCACGCGGCGGAGCAGACCTTATTGGCGCCAACGTCGATCTACGGCGAAAGGATATCAACCTTACAGAGAAATATCTGGGTGAGGGTTATGGGCGTCCGTCGCCTGGTGTCTACGACGCTATCGATCTCTTGGCGACCACAGAAGGGATACTCACCGATCCGGTTTACAGCGGCAAAGCCGTCGCCGCTATCGTGGATCTTGCGTCGCGAAAGGAGCTGAAGGGGCCGATCGTATTCTGGCATACCGGAGGATACCATGCGCTGTTCGATCCACATTACGCGAGGAATGTGTGGTCATCGGTCGATCGGTTGGCGCAGATAGAGTTATAG	MSALHALEQLPRLDLRGFVSPVQYLERFSAAIGAEVWCKRDDIGSVGLAGNKVRKLEVELAHALSQRATHLVAEGSRLSNATRAVAAASAALGLKCTLVLCHDDPKEPVGNLMLDGLLGAELRFVGNIDWHELSRKAAEVVEELERSGERVYRLPIGCASERSCLGFAIGFNELRDQMIKAGRPAGTIVHASSSGGTHAGMVLGNALHGSEWNIRGIVVAGEVYPDVVGQYLAFARGGADLIGANVDLRRKDINLTEKYLGEGYGRPSPGVYDAIDLLATTEGILTDPVYSGKAVAAIVDLASRKELKGPIVFWHTGGYHALFDPHYARNVWSSVDRLAQIEL				NA	NA	NA	NA	NA
BMS010_04082	789	ydiB	COG0169	Quinate/shikimate dehydrogenase	ATGATCTCTGGCAGCACGAAGACTTTCTACATGATCGCTCACCCGATCCACCACGTCCGGACACCTGAGATTATCAATCCGGTATTCGAAGCGCGAGGGATCGACGCCATTATGGTCCCAGTCCATTTTACACCCGAGGACTTCAAGACCGGTTGGGAGGCGATAAGGCGCACTCAGAATCTGGGCGGGATCGTCGTCAGCGTTCCCTTCAAGGAGCTTGCATACGAACTTTCCGACGAAGTCGATGAGATGGCGCGCCCGCTTGGCGCTGTGAATGTTGTGCGCCGAACCGGCGTGGGAAAATTGGTCGCAACTAACCTTGATGGTGACGGTTTTCTTCGCGGCATGTTGAATGGCGGCCACGACGCGAAGGGACGCAAAGCTCTTGTTATCGGCGCGGGGGGCGCCGGAAAGGCAATCTCATTCGCGCTTGCCGGTAGCGGTTGTGCCTCACTGAGGATTACGGACGTAAACGGGGATAGAGCAACGGCATTGGTGGAAGATATCCGCAGGCGATATGGAGATCTGGATGTCACGGTCTCGGACAACGCTCTATCCGATGTAGACCTGGTCGTGAATGCAACGCCCTGCGGCCTTCATCCGGAGACCGATCCGCTTCCACTGGATACCGACCTGCTTCGGCCTGGAATGATCGTGGCCGACATCGTTATGAAGCCGCGAGACACCCCGTTGCTGAAGGCGGCCGTCTCCGCAGGCTGCGACGCCCGATACGGCGCTGGGATGCTCGATACTCAGATCGATCTGATGATCTCATATTTTGGGCTATAG	MISGSTKTFYMIAHPIHHVRTPEIINPVFEARGIDAIMVPVHFTPEDFKTGWEAIRRTQNLGGIVVSVPFKELAYELSDEVDEMARPLGAVNVVRRTGVGKLVATNLDGDGFLRGMLNGGHDAKGRKALVIGAGGAGKAISFALAGSGCASLRITDVNGDRATALVEDIRRRYGDLDVTVSDNALSDVDLVVNATPCGLHPETDPLPLDTDLLRPGMIVADIVMKPRDTPLLKAAVSAGCDARYGAGMLDTQIDLMISYFGL	PGPT0012890_5838	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-PHENAZINE_DERIVATES	BIOTIC_STRESS_RESISTANCE-PHENAZINE-1-CARBOXYLIC_ACID_BIOSYNTHESIS,PGPT0012890-aroE-K00014	NA	NA
BMS010_04083	447	pycA_1		Pyruvate carboxylase	ATGGAGGATGGCGAGGAACTGTTTGCCGATATCGAACGCGGCAAGACGCTGGTCATCGTCAATCAGGCCTCGTCCGGCACGGATGACAAGGGCATGGTGACGGTATTCTTCGAGATCAACGGCCAGCCCCGCCGCATCAAGGTGCCGGATCGTGCCCATGGCGCTTCCGGCTCCGCCGTGCGCCGCAAGGCCGAACCTGGCAATGCCGTCCATATCGGCGCGCCGATGCCGGGCGTGATCAGCCGCGTCTTCGTCAACCAGGGCCAGGAGGTCAAGGCTGGCGATGTGTTGCTCTCCATCGAGGCGATGAAGATGGAAACGGCGCTTCACGCCGAGCGGGATGGCAAGATCGCGGAAGTTCTGGTGCGCCCGGGCGACCAGATCGATGCGAAGGATCTACTGGTCGCTTACGAGCATGGGACTGTTGGCGCTTCCGGTGATCAGTGA	MEDGEELFADIERGKTLVIVNQASSGTDDKGMVTVFFEINGQPRRIKVPDRAHGASGSAVRRKAEPGNAVHIGAPMPGVISRVFVNQGQEVKAGDVLLSIEAMKMETALHAERDGKIAEVLVRPGDQIDAKDLLVAYEHGTVGASGDQ	PGPT0001420_589	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001420-pyc-K01958	NA	NA
BMS010_04084	1362		COG0402	8-oxoguanine deaminase	ATGACCGCCCTCTTCGCCGAACGCGCCCTGCTGCCCGAGGGCTGGGCCCGGAATGTCCGCTTCGAGATCGCTGCCGATGGCCTCATCGCCCGTGTGACGCCCGACGCCTCCGCGGACGGCGCCGAGCGCCTGCACGGTCCCGTGTTGCCCGGCATGCCCAATCTGCATTCCCACGCCTTCCAGCGCGCCATGGCCGGCCTCGCCGAAGTGGCCGGCAATCCGCAGGACAGCTTCTGGACCTGGCGCGAGCTGATGTACCGGATGGTTGGCCGGATCACCCCGGAGCAACTCGAGAGCATCGCCCGCCAGCTCTACATCGAGATGCTCAAGGCGGGTTATACCGGCGTCGCCGAATTCCATTACGTGCACCATGACAGCGACGGCCGGTCCTATGCCGACCCGGCTGAGCTGGCCCTGCGTATCGGCCGGGCGGCTCGCGACAGCGGCATCGGCCTGACCCTGCTGCCAGTGCTCTACAGCCATTCCGGCTTCGGCGGCCAGGCGCCCAACGACGGGCAGCGCCGCTTCATCCACGGCACCGACAGCTATCTGGCCCTGCTGCAACGCCTGGACGCCGCCCTACGGAACGAGCCGGCGCAACGCCTGGGCCTGTGCTTCCATTCCCTGCGCGCCGTCATCCCGGAACAGATCGACGCAGTGCTGGCGGCGGACGACGGGCAACGGCCTATCCATATCCACATCGCCGAGCAGCGCAAGGAAGTCGACGACTGCCTGGCCTGGAGCGGCCTGCGTCCGGTGCAATGGCTGTACGAGAACGTACCGGTGAACGAGCGCTGGTGCCTGGTGCATGCCACCCATGTCGCGGATGAGGAAGTTGCCGCCATGGCCCGCAGCGGCGTGGTGGCCGGTCTCTGCCCGACCACCGAGGCCAACCTCGGCGACGGGCTGTTCCCGGCAGTGGACTACTTGGCCCAAGGCGGTCGCCTGGGCATCGGCTCGGACAGCCATGTCTCGGTCAGCGTGGTGGAGGAATTGCGCTGGCTGGAATATGGCCAACGCCTGCGCGATCAGCGGCGCAACCGCCTGTTCCGCGCGGATCGGCCCAACGTCGGTCGCACCCTGTATGACGCTGCCCTGGCCGGCGGGGCCCAGGCTCTCGGGCAGAACGTGGGCGCCCTTGCCGCTGGCCGCCGCGCCGATCTGCTGGTGCTGGACGGCAACGATCCCTACCTGGCCACCGCCGAAGACGATGCCCTGCTCAATCGCTGGCTGTTCGCCGGTGGCGACCGCCAGGTACGCGATGTGATGGTGAACGGCCGCTGGGTGGTGCGGGACGGCCGGCATGCCGCCGAGGAAGAAACCGCCCGGGCGTTTGCCCAGGTGCTGCGCGCGTTGCTCTGA	MTALFAERALLPEGWARNVRFEIAADGLIARVTPDASADGAERLHGPVLPGMPNLHSHAFQRAMAGLAEVAGNPQDSFWTWRELMYRMVGRITPEQLESIARQLYIEMLKAGYTGVAEFHYVHHDSDGRSYADPAELALRIGRAARDSGIGLTLLPVLYSHSGFGGQAPNDGQRRFIHGTDSYLALLQRLDAALRNEPAQRLGLCFHSLRAVIPEQIDAVLAADDGQRPIHIHIAEQRKEVDDCLAWSGLRPVQWLYENVPVNERWCLVHATHVADEEVAAMARSGVVAGLCPTTEANLGDGLFPAVDYLAQGGRLGIGSDSHVSVSVVEELRWLEYGQRLRDQRRNRLFRADRPNVGRTLYDAALAGGAQALGQNVGALAAGRRADLLVLDGNDPYLATAEDDALLNRWLFAGGDRQVRDVMVNGRWVVRDGRHAAEEETARAFAQVLRALL	PGPT0020245_558	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020245-hutF-K05603	NA	NA
BMS010_04085	753	nagR_5	COG2188	HTH-type transcriptional repressor NagR	TTGAACGCCACGCCTTCCGAGCCGACTCCGCTGGCCGCGCAACTTGGCGACCAGCCCGCGCCGATCTATGCCCGGGTCAAGCAGATGATCGTTGCGCAAATCCAGTCGGGCGCTTGGCCGCCCCATCACCGCGTACCGTCCGAATCGGAACTGGTCAGCCAACTGGGCTTCAGCCGCATGACCATCAACCGCGCCCTGCGCGAGCTGACCGCCGAAGGGCTGCTGGTGCGCATGCAGGGTGTCGGCACCTTCGTCGCCGAGCCCAAGGGGCAGGCAGCCCTGTTCGAGGTGCATAACATCGCCGACGAAATCGCCGCCCGTGGCCATCGCCACCGTTGCGAGGTGATCCGCCTCGGCGAGGAGCTGGCCGGGCCGGAGCGTGCCGTGGCGCTGGATATCCGCGAAGGGCAGCGGGTATTTCATTCGCTGATCGTGCACTACGAAAACGACGTGCCGGTGCAGGTCGAAGACCGCTACGTGAACGCCGAACTGGCGCCGGACTACCTCAAGCAGGATTTCTCCAGCCTCACGCCCTATGCCTACCTGTCCCAAGTGGCGCCGCTCACCGAGGGTGAGCACGTGGTCGAGGCGATCCTCGCCGACGCCGAGGAATGCCGCCTGCTGCACATCGAGCGCCATGAGCCCTGCCTGTTGATTCGCCGCCGTACCTGGTCGGGCCGCCGCGCGGTGACCAGCGCCCGGCTGGTCTATCCCGGCTCGCGCTACCGCCTGGAGGGACGCTTCAGCTCATGA	MNATPSEPTPLAAQLGDQPAPIYARVKQMIVAQIQSGAWPPHHRVPSESELVSQLGFSRMTINRALRELTAEGLLVRMQGVGTFVAEPKGQAALFEVHNIADEIAARGHRHRCEVIRLGEELAGPERAVALDIREGQRVFHSLIVHYENDVPVQVEDRYVNAELAPDYLKQDFSSLTPYAYLSQVAPLTEGEHVVEAILADAEECRLLHIERHEPCLLIRRRTWSGRRAVTSARLVYPGSRYRLEGRFSS				NA	NA	NA	NA	NA
BMS010_04086	591	ves_2		Protein Ves	ATGACCGCGATAAGTCACCTGCGTGCCGCCGACTACCCGCGCATGCCCTGGAAGAACGGTGCCGGCAGTACCCTGGAGATTGCCCGCGACGCCGGCGACGACCTGGACGGCTTCGGCTGGCGGCTGTCGATTGCCGATGTCGGCGAGTCCGGGGCGTTTTCCCGCTTCGACGGTTACCAGCGGATCATCAGCGTGATCGAAGGCACCGGCATGCGCCTGACCGTCGACGGCCAGCCGTCGCGCGACCTGCGGGTGCTGGATGCCTTCGCCTTTTCCGGCGACAGCGCGGTGGACTGCCGGTTGCTCGACGGACCGATCCGCGACTTCAACCTGATCTACTCGCCGGCCCGCTACCACACCCGCCTGCAATGGCTGCGGCTGGACGGCGATGCCCAGGTGTTCGGCTCGGCGCCGCTGTGGCTGGTGTTCTCCCTGGCCGATGGGCTGGCGGTGCGCCTGGAAGGTGAAACAGTGGCGACCCTGGGGCGCCTCGATTGCCTGCAGGTGGGCAGCGCTTCCGCCGCCTTGAAGGAACTGCGCCTTGAGGGACAGGGCGCCTGTGCGCTGATCGAGTTACAGCCTTTGGCTTGA	MTAISHLRAADYPRMPWKNGAGSTLEIARDAGDDLDGFGWRLSIADVGESGAFSRFDGYQRIISVIEGTGMRLTVDGQPSRDLRVLDAFAFSGDSAVDCRLLDGPIRDFNLIYSPARYHTRLQWLRLDGDAQVFGSAPLWLVFSLADGLAVRLEGETVATLGRLDCLQVGSASAALKELRLEGQGACALIELQPLA	PGPT0020255_555	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MAINTENANCE	CE-BACTERIAL_FITNESS-HISTIDINE_REPLETION_RELATED_FITNESS,PGPT0020255-hutD|ves-K09975	NA	NA
BMS010_04087	1020			hypothetical protein	ATGGCCCCGCTCCGCACCCTCATTTCGCTCGTTGCGCTGGCGACGGCGCTGGTCGCCCCTGCCGCACGGGCGGAGTGCCCATATCCCAAGCCGGTGGTCTTCGCCGGTCTGAACTGGGAGAGCGGCATGTTTCTCACCGAGGTGCTGCGTTATGTCCTGGAAAAGGGCTACGACTGCCGCACCGATGCGCTGCCCGGTAACAGCGTGACCATGGAGAATGCGTTGGCGCAGAACGATATCCAAGTCTTCGCCGAGCAGTGGGCCGGGCGTAGCCCGGTGTGGCGCGAGGCGGAGGAGGCCGGCAAGGTCTTCGCCGTGGGCGAGCCGGTGAAGGGCGCCAGCGAGGGATGGTGGGTGCCGGAATACGTGGTCAAGGGCGATCCGCAGCGCGGCATCGAACCGCTGGCGCCGGAGTTGAGGAAGGTCAGCGACCTGCCGCGCTACAAGGCTCTGTTCCGCGACCCCGAGGACCCGGACAAGGGGCGTTTCTACAATTGCCCGACCGGCTGGACCTGCGAAACGGTCAACAGCCAGAAGCTCAAGGCCTATGGCCTGCTCGACAGCTACACCAACTTCCGCACCGGTGCCGGGCCGGCGCTGGATGCGGCCATCGCCTCGGCCTACCGGCGCGGCGAACCGATCCTTTTCTACTATTGGTCGCCGACCCCACTGATGGGGCGCTTCAAGCTGATCCAACTGGAGGAGCCGCCGTTCAGCGAAGAATCCTGGGCCACCCTGTCCGACCCCCGGCATCCCAATCCCATCGGCGGCGCCTCGTTGCCGGCGAAGATCAGCATCGGCGTCTCGCGCGACCTGCACGACCGGGCGCCCGGGTTGGTCGGAATGTTTGAGCAGGTCGAGGTTCCGCTGCCCCTGCTCAACCAGGTACTCGCCGAGATGGGCGAGCAACGGCGCGACGTAGCGGACATGCGCACGGCTTTCTTCCGCCAGCAGCGGGCGGTCTGGTCGCGCTGGGTACCCGACGAGGTGGCCGCACGGATCGACGCCAGCCTGAAATGA	MAPLRTLISLVALATALVAPAARAECPYPKPVVFAGLNWESGMFLTEVLRYVLEKGYDCRTDALPGNSVTMENALAQNDIQVFAEQWAGRSPVWREAEEAGKVFAVGEPVKGASEGWWVPEYVVKGDPQRGIEPLAPELRKVSDLPRYKALFRDPEDPDKGRFYNCPTGWTCETVNSQKLKAYGLLDSYTNFRTGAGPALDAAIASAYRRGEPILFYYWSPTPLMGRFKLIQLEEPPFSEESWATLSDPRHPNPIGGASLPAKISIGVSRDLHDRAPGLVGMFEQVEVPLPLLNQVLAEMGEQRRDVADMRTAFFRQQRAVWSRWVPDEVAARIDASLK	PGPT0013640_585	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013640-gbuC|proX-K02002	NA	NA
BMS010_04088	1329			hypothetical protein	ATGCACGACCAGCCGACCACCACCCTGGCCGCCAGCGGCGGCACACGCGCCGTCCTGCGCCTGCTGGGTTTCAGCCTGATCGGGCTGATCATCTTCTTCGTGCCCTTCGACATCGGCGGGCGCAACACCATCCTCCTCGACCACGCCGCCGGTGCGCTGATCGCCCATGCGCGGCCGCTGGTGATCGGCGTCGCCCTGCTGCTGATGGCCTACGGCGCGCTGGCGCCCTGGTTCGACGGCAGTTGGCGTCGGACCGCTGTGAGCCGGGTATTCAGCGTGCTCAAGGTGATCGGCCTGGCACTCGGCGCGGTGCACCTCGCCGGCCTGGCGCCCGCGGCGATCCAGGCGCCGGACATGCTGCCCTTCCTGTTCGACAAGCTGGTGCTGAACCTGGCGCTGATCGTGCCGCTGGGTTCGCTGGCCCTGGTGTTCCTGATCGGCTTCGGCCTGCTGGAGCTGGTCGGCGTGTTGATGCAGCCGGTGATGCGACCGCTCTGGCGCACACCGGGCAAGTCGGCCATCGATGCCGTGGCATCGTTTGTCGGCAGCTACTCGGTGGGGCTATTGATCACCGATCGCATGTACCAGCAGGGCCACTACAGCGTGCGCGAGGCGGCGATCATCGCCACCGGCTTCTCCACGGTGTCGGCACCGTTCATGGTCATCGTCGCCAAGACCCTCGGCCTGATGGCGCAGTGGAACCTGTACTTCTGGAGCGCGCTGGTGGTGACCTTCGCCGTCACGGCCGTGAGCGCACGCATCTATCCGTTGTCGCGGCTGCCCGATCAAGGCCGGCCCGACCCGCAACTGGAGCCGGGCGTCGGCCGGCTGCGCAGCGCCTGGCTGGCCGGCGTTACCCAGGCGCGTCAGGCGCCGGCCCTGCACCGTGCCTTGCTGGAAACCTTCGCCGACGGCCTGCGCATGGCCGCGGCGATCCTGCCGAGCATCCTCGCCGTCGGCCTGCTCGGGCTGCTGGCCGCCAAATACACCCCGTTGTTCGATGCCATCGGCGTGCTGCTCTACCCGGTCACCTGGCTGTTCGGCCTGCCCGAACCCATGGACGTGGCGCGCGCCATCGCCTCCGGGCTGGCCGAGATGTTCCTGCCGGCGATGCTGCTGAAGGATGCTGGCAGCCTGGTCAAGTTCGTGACCGCCATCGTCTCGGTGAGCAGCGTGCTGTTCCTCTCCGCCTCGATTCCCTGCGTGCTTGCCACGCGTATTCCGCTGCGCCTGCGCGATCTGCTGCTGGTCTGGCTGCAGCGCACGCTGCTCAGTCTGCTGTTCAGCATCCCCATCGCCTACCTGGCCCAGCACCTGGGCTGGCTCTGA	MHDQPTTTLAASGGTRAVLRLLGFSLIGLIIFFVPFDIGGRNTILLDHAAGALIAHARPLVIGVALLLMAYGALAPWFDGSWRRTAVSRVFSVLKVIGLALGAVHLAGLAPAAIQAPDMLPFLFDKLVLNLALIVPLGSLALVFLIGFGLLELVGVLMQPVMRPLWRTPGKSAIDAVASFVGSYSVGLLITDRMYQQGHYSVREAAIIATGFSTVSAPFMVIVAKTLGLMAQWNLYFWSALVVTFAVTAVSARIYPLSRLPDQGRPDPQLEPGVGRLRSAWLAGVTQARQAPALHRALLETFADGLRMAAAILPSILAVGLLGLLAAKYTPLFDAIGVLLYPVTWLFGLPEPMDVARAIASGLAEMFLPAMLLKDAGSLVKFVTAIVSVSSVLFLSASIPCVLATRIPLRLRDLLLVWLQRTLLSLLFSIPIAYLAQHLGWL				NA	NA	NA	NA	NA
BMS010_04089	1674	hutU_2	COG2987	Urocanate hydratase	ATGACCGCCCCGACCCGTTACCGCGACACCGAAATCCGCGCCCCTCGCGGCACCCGGCTGAACGCCAAGAGCTGGCTGACCGAAGCGCCGCTGCGCATGCTGATGAACAACCTCGACCCGGACGTGGCGGAAAACCCCAAGGAGCTGGTGGTCTACGGCGGCATCGGCCGTGCCGCGCGTAATTGGGAGTGCTACGACCGCATCGTCGAAACGCTCAAGGAACTGAACGACGACGAGACCCTGCTGGTGCAGTCCGGCAAGCCGGTGGGCGTGTTCCGTACCCACAAGGATGCCCCGCGCGTGCTGATCGCCAACTCCAACCTGGTGCCGCACTGGGCGACCTGGGAGCACTTCAACGAGCTGGACGCCAAGGGCCTGGCCATGTACGGGCAGATGACCGCCGGTAGCTGGATTTACATCGGCAGCCAGGGCATCGTCCAAGGCACCTACGAAACCTTCGTCGAGGCCGGCCGCCAGCACTACGGCGGCAACCTCGCCGGCCGCTGGGTGCTTACCGCCGGCCTCGGCGGCATGGGCGGCGCGCAGCCGCTGGCGGCGACCCTGGCCGGCGCCTGCTCGCTGAACATCGAGTGCCAGCAGAGCCGCATCGACTTCCGCCTGCGCACCCGTTACGTCGACGAACAGGCCAAGGACCTGGACGACGCCCTGGCCCGCATCGCCCGCTACACCGCCGAGGGCAATGCGATCTCCATCGCCCTTTGCGGCAACGCGGCGGAAATCCTGCCGGAGCTGGTCCGCCGTGGCGTGCGCCCGGACCTGGTCACCGACCAGACCAGCGCCCACGACCCGCTCAACGGCTACCTGCCGATCGGCTGGAGCTGGGAGCAGTACCGCGAGCGCGCCCAGAGCGAGCCGGCCGCCGTGGTGAAGGCGGCCAAGCAGTCCATGGCGGTCCACGTGCGGGCCATGCTCGATTTCCAGAAGCAGGGCGTGCCGACCTTCGACTACGGCAACAACATCCGCCAGATGGCCAAGGAAGAGGGCGTGGAGAACGCCTTCGACTTCCCCGGTTTCGTCCCGGCCTACATCCGTCCGCTGTTCTGCCGGGGCATCGGGCCGTTCCGCTGGGCCGCGCTGTCCGGCGAGGCCGAGGACATCTACAAGACCGACGCCAAGGTCAAGGAACTGATCCCGGACGACGCCCACCTGCACCGCTGGCTGGACATGGCCCGCGAGCGCATCGCCTTCCAGGGCCTGCCGGCGCGCATCTGCTGGGTCGGTCTGGGCCAGCGCGCCAAGCTCGGCCTGGCGTTCAACGAGATGGTCCGTTCCGGCGAGCTGAAGGCGCCCGTCGTCATCGGTCGCGATCACCTCGACTCCGGCTCGGTGGCCAGCCCCAACCGCGAGACCGAGGCCATGCGGGACGGCTCCGATGCCGTGTCCGACTGGCCGCTGCTCAATGCGCTGCTGAACACCGCCAGCGGTGCCACCTGGGTGTCGCTGCACCACGGCGGCGGCGTCGGCATGGGCTTCTCCCAGCATTCCGGCATGGTCATCGTCTGCGATGGCACCGACGAGGCCGCCGCGCGTATCGCCCGGGTGCTGACCAACGATCCGGGCACCGGCGTGATGCGCCATGCCGACGCCGGCTACCCGATCGCCATCGACTGCGCACGCGAGCAGGGCTTGAACCTGCCGATGCTCAAGGACTGA	MTAPTRYRDTEIRAPRGTRLNAKSWLTEAPLRMLMNNLDPDVAENPKELVVYGGIGRAARNWECYDRIVETLKELNDDETLLVQSGKPVGVFRTHKDAPRVLIANSNLVPHWATWEHFNELDAKGLAMYGQMTAGSWIYIGSQGIVQGTYETFVEAGRQHYGGNLAGRWVLTAGLGGMGGAQPLAATLAGACSLNIECQQSRIDFRLRTRYVDEQAKDLDDALARIARYTAEGNAISIALCGNAAEILPELVRRGVRPDLVTDQTSAHDPLNGYLPIGWSWEQYRERAQSEPAAVVKAAKQSMAVHVRAMLDFQKQGVPTFDYGNNIRQMAKEEGVENAFDFPGFVPAYIRPLFCRGIGPFRWAALSGEAEDIYKTDAKVKELIPDDAHLHRWLDMARERIAFQGLPARICWVGLGQRAKLGLAFNEMVRSGELKAPVVIGRDHLDSGSVASPNRETEAMRDGSDAVSDWPLLNALLNTASGATWVSLHHGGGVGMGFSQHSGMVIVCDGTDEAAARIARVLTNDPGTGVMRHADAGYPIAIDCAREQGLNLPMLKD	PGPT0020250_1576	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020250-hutU-K01712	NA	NA
BMS010_04090	963			hypothetical protein	ATGACACTCAAGAAGATGATGACCAGCCTGCTGTCCCTGGGGTTGCTGGCTGGCGCGGCGAGCGCGCAGGCCGATGGCTGGTGCGATTCCAAGCCGGTGAAGTTCGCCGGGATCAACTGGGAGAGCGGCATGCTGCTCACCGACCTGATGCAATTCGTCCTCAAGCACGGTTACGGCTGCGAAACCGACAGCCTGCCGGGCAACTCCATCACCATGGAGCAGGCGCTGAGCACCAACGACATCCAGGTGTTCGCCGAGGAGTGGATAGGCCGTAGCGATGCGTGGAACAAGGCAGCCAAGGCCGGCAAGGTGGTCGGTGTCGGCGCTCCCATCGTCGGCGCCACCGAGGGCTGGTACGTGCCGCGCTACGTCGTCGAAGGCGATGCCCAGCGCAACCTGGCAGCCAAGGCACCGGGGCTCGAGGCGGTTTCCGACCTGGCCCAGTACGCCGAGCTGTTCCGCGATCCGGAAGAACCGGGCAAGGGCCGTTTCTACAATTGCCCGGCCGGCTGGACCTGCGAGCTGGAAAACAGCGAGATGCTCAAGAGCTACGGTCTGGAAGACAAGTTCACCAACTTCCGTCCGGGTACCGGCCCGGCACTGGATGCGGCGGTGTTGTCGAGCTACCGGCGCGGCGAGCCTATCCTCTTCTATTACTGGTCGCCGACGCCGCTGATGGGGCAGGCCGACCTGGTCAAGCTGCGGGAGCGCGAAGGCGTGAACAAGGACGTGACCATCCAGGTCGGTCTGTCCAAGGCCTTCCACGACGAGGCGCCGGAGCTGGTGGCGGTGCTGGAGAAGGTCAACCTGCCGATCGACCTGCTCAACCAGAGCCTGGCCAGGATGGCCAAGGAGAAACTCGCCTCGGACACGCTGGCCAAGACGTTCCTCAAGGAGCATCCGGAGGTCTGGCACGCCTGGGTCAGCGACGACGCGGCGCAGAAGATCGAGGCGGCGCTCTGA	MTLKKMMTSLLSLGLLAGAASAQADGWCDSKPVKFAGINWESGMLLTDLMQFVLKHGYGCETDSLPGNSITMEQALSTNDIQVFAEEWIGRSDAWNKAAKAGKVVGVGAPIVGATEGWYVPRYVVEGDAQRNLAAKAPGLEAVSDLAQYAELFRDPEEPGKGRFYNCPAGWTCELENSEMLKSYGLEDKFTNFRPGTGPALDAAVLSSYRRGEPILFYYWSPTPLMGQADLVKLREREGVNKDVTIQVGLSKAFHDEAPELVAVLEKVNLPIDLLNQSLARMAKEKLASDTLAKTFLKEHPEVWHAWVSDDAAQKIEAAL	PGPT0013640_1657	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013640-gbuC|proX-K02002	NA	NA
BMS010_04091	852	opuAB_2	COG4176	Glycine betaine transport system permease protein OpuAB	ATGTTCCCCGAACGCCTGACTTTCTCCATCGCCGACTGGGTCAACGCCTGGGTCGACGCCCTGGTGACCAACTACGGCGATGTGTTCCGGCAGATATCCGATACCCTGCTGTGGGCCATCGTGAATCTCGAAGGCCTGCTGCGAGCGACGCCCTGGTGGCTGATGCTGGCGCTGGTCGCCGGCATCGCCTGGCATGCCATCCGCCGTCTGCTGCCGACCCTGCTGATCACCGGGCTGCTGTTCCTGGTCGGTGCGGTGGGGTTGTGGGACAAGCTGATGCAGACCCTGGCGCTGATGCTGGTGGCGACGCTGATCTCGGTGATCGTCGGCATTCCGCTGGGCATTCTCTCGGCCCGCAGCGACCGTTTGCGGTCTCTGCTGATGCCGCTGCTGGACATCATGCAGACCATGCCCAGCTTCGTGTACCTGATCCCGGTGCTGATGCTGTTCGGCCTCGGCAAGGTGCCGGCGATCTTCGCCACGGTGATCTATGCCGCACCGCCGCTGATCCGCCTGACCGACCTGGGCATCCGCCAGGTCGACCACGAGGTGATGGAGGCGGTCAACGCCTTCGGCGCCAACCGCTGGCAGCAACTGTTCGGCGTGCAACTGCCGCTGGCCCTGCCGAGCATCATGGCGGGGATCAACCAGACCACCATGATGGCGCTGTCGATGGTGGTGATCGCTTCGATGATTGGCGCCCGCGGGCTCGGCGAAGACGTGCTGATCGGCATCCAGACGCTGAACGTGGGTAAGGGGCTGGAGGCCGGACTGGCCATCGTCATCCTCGCCGTAGCCATCGACCGTATCACCCAGGCCTATGGCCGCTCCCGCCATGAGGTGCGCCAATGA	MFPERLTFSIADWVNAWVDALVTNYGDVFRQISDTLLWAIVNLEGLLRATPWWLMLALVAGIAWHAIRRLLPTLLITGLLFLVGAVGLWDKLMQTLALMLVATLISVIVGIPLGILSARSDRLRSLLMPLLDIMQTMPSFVYLIPVLMLFGLGKVPAIFATVIYAAPPLIRLTDLGIRQVDHEVMEAVNAFGANRWQQLFGVQLPLALPSIMAGINQTTMMALSMVVIASMIGARGLGEDVLIGIQTLNVGKGLEAGLAIVILAVAIDRITQAYGRSRHEVRQ	PGPT0013635_1966	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013635-gbuB|proW-K02001	NA	NA
BMS010_04092	831	gbuA_1		Glycine betaine/carnitine transport ATP-binding protein GbuA	ATGAACGGGGTCGCGATGGACAAGATCGTCGTCAAAAACGTCTACAAGATCTTCGGCCCGCGCGCCGAAAAGGCCCTGGCCGCGATCCGCCAGGGACGGAGCAAGGCCGAGGTGCTGGCCGATACCGGCTGCGTGGTCGGCGTGAACGATCTGTCGCTGAGCATCGGCGCCGGGGAAATCTTCGTCATCATGGGATTGTCCGGGTCCGGCAAGTCGACCCTGGTCCGCCACTTCAACCGGCTGATCGATCCCACCAGCGGTGAAATCCTGGTCAATGGCGAGAACATCCTCGCCTACGACATGCCGCGCTTGCGCGAATTCCGCCGGCGCACCATCAGCATGGTGTTCCAGAGTTTCGGCTTGCTGCCGCACAAGACGGTGCTGGACAACGTCGCCTACGGTCTCAAGGTGCGCGGCGAGAGCAAGGCGCTGTGTCGCGAGCGCGCCGCCCACTGGATCGCCATCGTCGGCCTGGCCGGTTACGAGGGCTCCTACCCGCACCAGTTGTCCGGCGGCATGCGCCAGCGCGTCGGCCTGGCCCGGGCGCTGGCGGCCGATACCGAGATCATCCTCATGGACGAGGCGTTCAGTGCCCTTGATCCGTTGATCCGCGCCGACATGCAGGAGCAATTGCTGGAGTTGCAGCAGAGCCTGCACAAGACCATCGTCTTCATCACCCACGACCTCGACGAGGCCCTGCGTATCGGCAACCGCATCGCCATCCTCAAGGACGGGCAGCTGGTGCAGGTGGGCACGCCGAGGGAAATCCTCGACCAGCCGGCCGACGATTACGTCGACCGTTTCGTCCAGCGCCGCGCGGCAGTGGTCTGA	MNGVAMDKIVVKNVYKIFGPRAEKALAAIRQGRSKAEVLADTGCVVGVNDLSLSIGAGEIFVIMGLSGSGKSTLVRHFNRLIDPTSGEILVNGENILAYDMPRLREFRRRTISMVFQSFGLLPHKTVLDNVAYGLKVRGESKALCRERAAHWIAIVGLAGYEGSYPHQLSGGMRQRVGLARALAADTEIILMDEAFSALDPLIRADMQEQLLELQQSLHKTIVFITHDLDEALRIGNRIAILKDGQLVQVGTPREILDQPADDYVDRFVQRRAAVV	PGPT0013630_2482	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013630-gbuA|proV-K02000	NA	NA
BMS010_04093	1548	hutH_3	COG2986	Histidine ammonia-lyase	ATGGACGGCATGCAGGCTTCCGCCCACATGCCGGTGGTGATCGGTGACACCCCGTTGCGCTGGCAGGATGTGGTCGCCGTGGCCCGTCATGGTGCCCGCCTGGCGTTGAGCGAAGCGGCCTGGGCGCGCATCGACAATGCCCGCGCCATCGTCGAGCGCATCGTCGAGAGGGGCGAACGCGCCTACGGCATCAGCACCGGCCTCGGTGCGTTGTGCAACGTCCTCTTGCAACCCGAACAACTCGGCCTGCTTTCCCGCAATACGCTGCTCAGCCACGCCTGTGGCGTCGGCGAGCCGCTGCGCGACGAGCAGACCCGGGCGATCATCTGCGCCGCCGTGGCCAACTACAGCCATGGCAAATCCGGCCTGCAACGGCAGGTGGTGGCTGCGCTGCTGGCGCTGCTCAATCACGGCATCACCCCGCGGGTGCCGGCGCAGGGCTCGGTGGGTTACCTGACCCACATGGCCCACGTCGGCGTAGCGTTGCTCGGTATCGGCGAGGTGAGCTACCGGGGGCGCATCGTCCCGGCCGCCGAAGCGCTGGCGATGGAGGGCCTGGCGCCGGTGGAACTGGGAGCCAAGGACGGGCTCTGCCTGGTCAACGGCACGCCCTGCATGACCGGCCTGAGCTGCCTGGCCCTGGCCGACGCCAACCGCCTGGCGCTGTGGGCCGACATCATCGGGGCTATGAGTTTCGAGGCTTTGCGCGGGCAGCTCGATGCCTTCGATGCCGAGATCATCGCGCTCAAGCCGCACCCCGGCATGCAGCGGGTCGGCGCCAACCTGCGCGCCCTGCTCAACGGCAGCGCAGTGCTCGCCGGCAGCCGTGGCATCCGCACCCAGGATGCCCTGAGCATCCGCTCGATCCCGCAGATTCACGGCGCCTGCCGCGATCAACTGGTACATGCCATGCGCCAGATCGAGGTGGAGTTGAACTCCGCCACGGACAATCCCTTGCTGCTGGGGACGCCGGACGATTACCGGGTGGTCTCGCAGGCCAACCCCCATGGCGAGTCGGTGGCCATGGCGGCCGACCTGCTGGCAATCGCCATGGCCGAGTTCGGCGGCCTCGCCGAGCGGCGCCTGGATCGTCTGATCAACCCGCTGGTCAGTGGTCTGCCGGCGTTCCTGGTCAGCCAGAGCGGGGTCAATTCGGGGATGATGATCGCCCAGTACGTGGCCGCCTCGCTGGTCGCCGAGAACCGCCAACTGGCGCAGCCGGCGGTGGTGGACAACTTCGTCACCTCGGCGCTGCAGGAGGACCATCTCAGCCTCGGTACCAACTCGGCGCTCAAACTCGCCAAGGCATTGGGCAACTGCACGCAGATTCTCGCCATCGAATACCTGATCGCCGCCCAGGCTTTCGAATTCATCGAGGGGCCGGGCTTCGGTACCGGCACGGCGCTGGCCTGGAAGCTGTTGCGCGAACGGGTGCCGCCCTACCACGAAGACCGCTGGCTGGCCCCGGATATTGCCAAGGCCGCCGAACTGCTGCGTGACGAGCAGGTGCTCAGCGGCATCGGCGCCGCCATCGGAGGATTGCAATGA	MDGMQASAHMPVVIGDTPLRWQDVVAVARHGARLALSEAAWARIDNARAIVERIVERGERAYGISTGLGALCNVLLQPEQLGLLSRNTLLSHACGVGEPLRDEQTRAIICAAVANYSHGKSGLQRQVVAALLALLNHGITPRVPAQGSVGYLTHMAHVGVALLGIGEVSYRGRIVPAAEALAMEGLAPVELGAKDGLCLVNGTPCMTGLSCLALADANRLALWADIIGAMSFEALRGQLDAFDAEIIALKPHPGMQRVGANLRALLNGSAVLAGSRGIRTQDALSIRSIPQIHGACRDQLVHAMRQIEVELNSATDNPLLLGTPDDYRVVSQANPHGESVAMAADLLAIAMAEFGGLAERRLDRLINPLVSGLPAFLVSQSGVNSGMMIAQYVAASLVAENRQLAQPAVVDNFVTSALQEDHLSLGTNSALKLAKALGNCTQILAIEYLIAAQAFEFIEGPGFGTGTALAWKLLRERVPPYHEDRWLAPDIAKAAELLRDEQVLSGIGAAIGGLQ	PGPT0020230_2232	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020230-hutH-K01745	NA	NA
BMS010_04094	1200	hutI_2	COG1228	Imidazolonepropionase	ATGAAACGACTCTGGCTGAACGTCCATGCCGCGACGATGCGCGGCGGGCGCTATTCGATCATCGAGGACGCCGCCCTGCTGGTGGAGGGCGGGCACATCGCCTGGATCGGCCCGCGCCATGAGGCGCCGGGCGGCGCGGACGAGACCGTCGATCTCGGCGGTGCCTGGATCACGCCGGGCCTGATCGACTGCCACACCCACGCGGTTTTTGGCGGCGACCGCAGCGGCGAATTCGAAATGCGCCTGCAAGGTGCCAGCTACGCGGAGATCGCCGCGGCCGGCGGTGGCATCGCCAGCACCGTGCGCGCCACCCGCGAAGCCAGCGAAGACGAACTGCTGGCCAGTGCCGAGCGGCGCCTGCGCAACCTGCTGCGCGACGGCGTGACCACGGTGGAGATCAAGTCCGGTTACGGCCTCGACCTGGCCAGCGAGCGCAAGATGCTGCGCGTCGCCCGCCGCCTGGGCGAACGCCTGCCGCTGTCGGTGCGCGCCACCTGCCTGGCGGCCCATGCGTTGCCGCCGGAATACGCCGGGCGGCCCGACGATTACATCAAACACATCTGCACCGAACTGCTGCCGGCCCTGGTCGCCGAGGGGCTGGTGGATGCGGTGGATGCTTTTTGCGAGCACCTGGCGTTCTCACCGGCGCAGGTGGAGCGGGTGTTCCAGGCGGCCACCGCGCTGGGCCTGCCGGTCAAGCTGCATGCCGAGCAACTGTCGTCGCTGGGCGGTTCCAGCCTGGCGGCGCGCTACCGGGCGCTGTCCGCCGATCACCTCGAATACATGACCGAGGACGACGTATGCGCCATGGCCACGGCTGGCACCGTCGCGGTGCTGCTGCCCGGCGCCTTCTACCTGCTGCGCGAAACCCGCCTGCCGCCCATCGATCTGCTGCGCCGGCACGGCGTGGCCATGGCCATCGCCAGCGACCTCAATCCCGGCACCTCGCCGGCGCTGTCGCTGCGCCTGATGTTGAACATGGCCTGCACCTCGTTCCGCCTGACCCCGGAAGAAGCCCTGGCCGGCGTCACCCTGCACGCCGCCCGGGCCCTCGGCCTGGACGCGGAACTGGGCAGCCTGGAGGTCGGCAAGCGCGCCGATTTCGTCGCCTGGGACATCCAGCGCCCCGCCGAGCTGGCCTACTGGCTGGGCGGCGATCTGCCCAAGCGGGTGGTTCGGCAGGGCGAGGACGTGCGATGA	MKRLWLNVHAATMRGGRYSIIEDAALLVEGGHIAWIGPRHEAPGGADETVDLGGAWITPGLIDCHTHAVFGGDRSGEFEMRLQGASYAEIAAAGGGIASTVRATREASEDELLASAERRLRNLLRDGVTTVEIKSGYGLDLASERKMLRVARRLGERLPLSVRATCLAAHALPPEYAGRPDDYIKHICTELLPALVAEGLVDAVDAFCEHLAFSPAQVERVFQAATALGLPVKLHAEQLSSLGGSSLAARYRALSADHLEYMTEDDVCAMATAGTVAVLLPGAFYLLRETRLPPIDLLRRHGVAMAIASDLNPGTSPALSLRLMLNMACTSFRLTPEEALAGVTLHAARALGLDAELGSLEVGKRADFVAWDIQRPAELAYWLGGDLPKRVVRQGEDVR	PGPT0020235_2037	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020235-hutI-K01468	NA	NA
BMS010_04095	816			hypothetical protein	ATGAACGACGCTTTCACCTTCCGGCAGGGCCGCGTGCCGCTGCTGATCAGCATGCCCCATGCCGGCACCCGCCTGACCCCGGCGGTCGAGGCCGGGCTGGTGCCGGCCGCGCTCAGCCTGCCGGATACCGACTGGCACATCCCCCGGCTGTACGATTTCGCCGATGAGCTGGGCGCCAGCGTGATCGCCGCCGGCTACTCGCGCTTCGTCATCGACCTCAACCGGCCGGAGGACGACACACCGCTCTATGCCGGCGCCACCACCGGGCTGTTCCCATCGACCCTGTTCGATGGCGAGCCGCTGTTCCAGGCCGGCACCGAGCCCTCAGCCGACGAGCGCACCCGTTATCTGCGGGAAATCTGGACGCCCTATCACCGCGCCCTGGCCGACGAGCTGGCGCGTCTCAAGCGTGAATTCGGCTACGCGCTGCTGTTCGACGCGCACTCGATTCGCTCGCAGGTGCCGCGCCTGTTCGATGGGCGCCTGCCGGATTTCAACCTGGGCACCTTCGACAACGCCAGTTGCGCACCGTCGATGGCCGCCCGGCTACAGGCTGTGTGCGCCGGCGCCGAGGGTTACAGCCATGTGCTCAACGGGCGCTTCAAGGGCGGCCACATCACCCGTCACTACGGGCGCCCGGCCGAGGATGTCCATGCGGTCCAGCTCGAACTGGCGCAGTGCACCTACATGAACGAATCCGAACCTTTCGCCTACCGCGAAGACCTCGCAGCGCCGACCCGGCGAATCCTGCGGCAACTCCTCGAAGAACTGCTGGCCTGGGGCCAAGAGCACCACGCACAGCGCCAAGGAAAATAA	MNDAFTFRQGRVPLLISMPHAGTRLTPAVEAGLVPAALSLPDTDWHIPRLYDFADELGASVIAAGYSRFVIDLNRPEDDTPLYAGATTGLFPSTLFDGEPLFQAGTEPSADERTRYLREIWTPYHRALADELARLKREFGYALLFDAHSIRSQVPRLFDGRLPDFNLGTFDNASCAPSMAARLQAVCAGAEGYSHVLNGRFKGGHITRHYGRPAEDVHAVQLELAQCTYMNESEPFAYREDLAAPTRRILRQLLEELLAWGQEHHAQRQGK				NA	NA	NA	NA	NA
BMS010_04096	1533	hutH_4	COG2986	Histidine ammonia-lyase	ATGAGCAAAACCACCCTGCATCTCACCCCTGGCCACCTGACCCTGGAGCAACTGCGCCTGGCCTACCGTCAGCCCGTCGCCCTGCGCCTGGATCCCGCCTGTTTCGCCGCCGTCGATGCTTCCAGCGCGGCGGTGGCAGAGATCATCGCCGGGGAGCGCACCGTCTACGGCATCAACACCGGTTTCGGCCTGCTGGCGCGGACCTCGATCCCCGCCGACCAGCTCAGCCGGTTGCAGCGTAATCTGGTGCTGTCGCACAGCTGCGGCACCGGCCCGTTGCTGGACGACGCCAGCGTGCGACTGATCATGGTGCTGAAGATCGGCTCCCTAGCTCGCGGCCACTCCGGCATCAGCCGGGGTGTGTTGGAGGCGCTGGTGGCGTTGCTCGACCGCGACATCTACCCGTGCATCCCGGCCCAGGGTTCGGTGGGTGCGTCCGGCGACCTGGCGCCGCTGGCCCATCTGGCGGCGGCGCTGCTCGGCGAGGGACAGGTGCGAATCGAGGGCCGGGTCATGCCGGCCGCCGAGGGACTGCGCCTGGCCGGGCTGGCACCGGTGGAGCTGGGACCGAAGGAGGGACTGGCATTGCTCAACGGCACCCAGGTCTCCACCGCGCTGGCCCTGCGCGGCCTGTTCCAGACCGAACAGTTGTTCGCCGCCGCCGTGGTGGCCGGTGCGCTGTCGGTAGAAGCCCTGAAGGGCTCCTATGTGCCCTTCGACGAACGCATCCAGGCGGTGCGCGGCCAGCCGGGGCAGATCACCGTCGCTGCGCTCTACCGCCATCTGCTCACCGACAGCGGCATCCACGATTCGCACATCCACTGCAAACGCGTGCAGGACCCGTATTCCCTGCGCTGCCAGCCGCAGGTGATGGGTGCCTGCCTGGATCATCTGCGCTTCGCCGCCGGGGTGTTCCTGCGCGAGGCCAATGCCGTTTCCGATAACCCGCTGGTATTCGCCGCCGATGGCGATGTGCTGTCCGGCGGCAACTTCCACGCCGAGCCGGTGGCCATGGCCGCCGACGTCCTGGCCCTGGCCATCGCCGAGATCGGCGCGTTGTCCGAGCGGCGCATCGCCCAGTTGGTCGACCCGGCGTTGTCCGGTCTGCCGGCGTTCCTGGTGGAAGAGGGCGGGCTCAACTCCGGCTTCATGATCGCCCAGGTGACCGCCGCAGCCCTGGCCTCGGAGAACAAGACTTGGGCCCACCCGGCCTCGGTGGACAGCCTGCCTACCTCGGCGAACCAGGAAGACCACGTGTCCATGGCCACCTTCGCCGCCCGCCGCCTGGCGGACATGGCCGGCAACAGCGCCGGGGTGGTCGCCATCGAACTGCTCGCTGCCGCCCAGGGCGTGGACTTCCACCGCCCGCTGAACACCACGCCGGCGCTGGAAGAGGTAATGGCTCTGATCCGCGCCGAGGTCCCGCGCTACAGCGCCGACCGCTACTTCGCCCCGGATATTGCCGCCGCTCGCGCCTGGGTGGAGCAAGGGCGGTTCCAGCGTTGGGTGGGCGCGGAAAGGTTATATGCGTGA	MSKTTLHLTPGHLTLEQLRLAYRQPVALRLDPACFAAVDASSAAVAEIIAGERTVYGINTGFGLLARTSIPADQLSRLQRNLVLSHSCGTGPLLDDASVRLIMVLKIGSLARGHSGISRGVLEALVALLDRDIYPCIPAQGSVGASGDLAPLAHLAAALLGEGQVRIEGRVMPAAEGLRLAGLAPVELGPKEGLALLNGTQVSTALALRGLFQTEQLFAAAVVAGALSVEALKGSYVPFDERIQAVRGQPGQITVAALYRHLLTDSGIHDSHIHCKRVQDPYSLRCQPQVMGACLDHLRFAAGVFLREANAVSDNPLVFAADGDVLSGGNFHAEPVAMAADVLALAIAEIGALSERRIAQLVDPALSGLPAFLVEEGGLNSGFMIAQVTAAALASENKTWAHPASVDSLPTSANQEDHVSMATFAARRLADMAGNSAGVVAIELLAAAQGVDFHRPLNTTPALEEVMALIRAEVPRYSADRYFAPDIAAARAWVEQGRFQRWVGAERLYA	PGPT0020230_2581	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020230-hutH-K01745	NA	NA
BMS010_04097	432			hypothetical protein	ATGCCGCCCAGACTATTTGTCGCCCCTCTTTTGCTTCTTTTTGCACTGGTCGCCGGTTGCGGGCGTGACGATCCACAAGCCGCGCTGGAAAAGGCCGTGCAGCAATTGCAGGAGAACATCGAGGCGAAGCGGACCGGCGACGTGCTCGACCAGTTGCACCCGCAGTTCATCGCCCGCCAGGAATTCGACCGCGACTGGGCCAAGCGCACCATGACCCTGTTGTTCATGCGCCACAAGAACATCAAGGTGCTGGCCCTGAGCAAGGACAGCCGGATCGACCCGACCTACCGGGACAAGGGCCGCACCGACGCCCAGGTCGCCCTGACCGGCGCCGAGGGGCTGATCCCCGACAGCGCCCGGCATTACAGCGTGAAGCTGGAGTGGTGGCTGGAAGACGGCGAGTGGAAGCTGGCGCGGCTGGACTGGGAATGA	MPPRLFVAPLLLLFALVAGCGRDDPQAALEKAVQQLQENIEAKRTGDVLDQLHPQFIARQEFDRDWAKRTMTLLFMRHKNIKVLALSKDSRIDPTYRDKGRTDAQVALTGAEGLIPDSARHYSVKLEWWLEDGEWKLARLDWE				NA	NA	NA	NA	NA
BMS010_04098	972	pip_2		Proline iminopeptidase	ATGCAGACTTTGTTTCCGGAGATTAAGCCTTACGCTCGCCACGAGCTGCCCGTGGAAGAACCGCACGTTCTCTACGTCGACGAGAGTGGCTCGCCGGACGGCTTGCCGGTGGTGTTCATCCATGGCGGACCGGGTGCCGGTTGCGATGCCCTGAGCCGCCGCTTCTTCGATCCCAACCTGTACCGCATCGTCACCTTCGATCAGCGCGGCTGCGGTCGGTCCACTCCCCACGCGAGCCTGGAAAATAACACCACCTGGCACCTGGTCGCCGACCTGGAGCGCATCCGCGAGCACCTGGGCATCGAAAAATGGGTACTGTTTGGCGGTTCCTGGGGCTCGACCCTGGCCCTGGCCTACGCCCAGACCCACCCCGACCGCGTGCATGCGCTGGTCCTGCGCGGTGTCTTCCTTTGTCGCCCGCAGGAGTTCCACTGGTTCTACCAGGAGGGGGCGAGCCGCCTGTTCCCCGACTATTGGCAGGACTACCTGGCGCCGATCCCGCCGGAAGAGCGCGGCGAGCTGATGCAGGCCTACTACAAGCGCCTGACCGGCGCCGACCAGATCGCCCAGATGCACGCCGCCAAGGCGTGGTCCTGCTGGGAGGGCCGCACCCTGACGCTGCGCCCCAACCCGCAAGTGGTGGACCGCTTCACCGAGTCGCACCGGGCGCTGTCCATCGCCCGTATCGAGTGCCACTACTTCCTCAACAACGCTTTTCTCGAACCCAACCAACTGCTCCGCGACATGCACAAGATCGCCCACCTGCCGGGCATCATCGTGCATGGCCGCTATGACGTGGTCTGTCCGCTGGACAACGCCTGGGAGCTGCACCAGGCCTGGCCGAACAGCGAGTTGCAGATCGTCCGCGATGCCGGCCACGCCGCTGGCGAGCCGGGGATCAGCGACGCCCTGGTGCGCGCCACCAACCAGATCGCCCGCCGCCTGCTCGACCTGGCCCCCGACGAAGCATGA	MQTLFPEIKPYARHELPVEEPHVLYVDESGSPDGLPVVFIHGGPGAGCDALSRRFFDPNLYRIVTFDQRGCGRSTPHASLENNTTWHLVADLERIREHLGIEKWVLFGGSWGSTLALAYAQTHPDRVHALVLRGVFLCRPQEFHWFYQEGASRLFPDYWQDYLAPIPPEERGELMQAYYKRLTGADQIAQMHAAKAWSCWEGRTLTLRPNPQVVDRFTESHRALSIARIECHYFLNNAFLEPNQLLRDMHKIAHLPGIIVHGRYDVVCPLDNAWELHQAWPNSELQIVRDAGHAAGEPGISDALVRATNQIARRLLDLAPDEA				NA	NA	NA	NA	NA
BMS010_04099	438	dtd	COG1490	D-aminoacyl-tRNA deacylase	ATGAAGGGGCTGATCCAGCGCGTCCGCGGTGCGCGGGTGGAAGTCGCGGGAGAGATCGTCGGCGCCATCGACCAGGGCCTGCTGGTGCTGGTCGGGGTGGAGCCGCAGGACACCGAGGCGAGCGTCGCCAAGCTGCTGCACAAGTTGCTCAACTACCGGGTATTCAGCGATGCCGAGGGCAAGATGAACCGCTCGCTGAGCGACGTCGGCGGCGGCCTGCTGCTGGTGTCGCAGTTCACCCTGGCCGCCGATACCAAGAGCGGCCTGCGCCCGAGCTTTTCCAGCGCCGCGCCGCCGGCCCAGGGCGAGGCCCTGTTCGATCTGCTGGTGAAGCAGGCGCGGGAGAAACACCCGCAGGTCGCCACCGGCCGCTTCGGTGCCGAGATGCAGGTGCATCTGGTCAATGACGGGCCGGTGACCTTTTTGCTGGAAGTCTGA	MKGLIQRVRGARVEVAGEIVGAIDQGLLVLVGVEPQDTEASVAKLLHKLLNYRVFSDAEGKMNRSLSDVGGGLLLVSQFTLAADTKSGLRPSFSSAAPPAQGEALFDLLVKQAREKHPQVATGRFGAEMQVHLVNDGPVTFLLEV				NA	NA	NA	NA	NA
BMS010_04100	990	yjiA_3	COG0523	P-loop guanosine triphosphatase YjiA	ATGACCTCCCCCACCCCCATCCCGGTCACGCTGCTGACCGGATTCCTCGGAGCCGGCAAGACCACCCTGCTCAACCGCCTGCTGCAAGCCGATCATGGCCAGCGCATCGCGGTGATCGAGAACGAGTTCGGCCCGGTGAACATCGACAGTGCGCTGCTGGTGCGCGACACCGCCGAAGTCATCGAGATGACCAACGGCTGCCTCTGCTGCACCATCCGCGGCGATCTGGCCGACCATCTGCGGGACCTGCACCGGCGGCGCGCATCCGGCGAGCTGACGTTCGACCGGCTGGTGATCGAGACCACCGGCCTGGCCGACCCGACGCCGCTGGTGCAGACCTTCTTCGGCGACCCGGACCTGCTCGAGACCTACCAGCTCGACGGTGTGCTCACCCTGGTCGATGCCGTGCACGCCGACCGGCAGCTCGACGAGCATGCCGTGGCGCGTAAGCAGGTCGGTTTCGCCGATCTGCTGCTGGTCAGCAAGGCCGACCTGATCAACGAACAGGACCTGATCGCCCTGGGCCAGCGGCTGGCCGCGATCAATCCGCTGGCCACGCAACACGTCCTCTGGCCCGGCGAGCTGCCCTATGCCGACTGGTTCGCGCTACGCAGCTTCCACCTCGACACCCGAGCACCGACCGGCCTCGTCGAGCCGGCGCGCTTTCGCCCGGTCACCCGTTCCTTCGCCGACGACATCGCCGCGCTGCACTGGCAGCACGACGGCCGGGTCGACCGGCAGAAGGTCGGCGCGGTGGTGCAGGGCCTGCTCGCCGAACGCAGCGACGACCTGCTGCGCTACAAGGGCGTGCTGGCCGTGCATGACGACCCGCGCCGCCTGATCTTCCAAGGCGTGCACCGGATCGCCGGGTTCGACTACGGCGAGGCCTGGGAGTCGGAGGACAGGGCGCGCTGCGACATCGTGCTGATCGGCCGGGACCTGCCGACGGAACGGTTGCGCACAGAGTTGGACGGTTGCGCCTTCGGCTAG	MTSPTPIPVTLLTGFLGAGKTTLLNRLLQADHGQRIAVIENEFGPVNIDSALLVRDTAEVIEMTNGCLCCTIRGDLADHLRDLHRRRASGELTFDRLVIETTGLADPTPLVQTFFGDPDLLETYQLDGVLTLVDAVHADRQLDEHAVARKQVGFADLLLVSKADLINEQDLIALGQRLAAINPLATQHVLWPGELPYADWFALRSFHLDTRAPTGLVEPARFRPVTRSFADDIAALHWQHDGRVDRQKVGAVVQGLLAERSDDLLRYKGVLAVHDDPRRLIFQGVHRIAGFDYGEAWESEDRARCDIVLIGRDLPTERLRTELDGCAFG				NA	NA	NA	NA	NA
BMS010_04101	195			hypothetical protein	GTGTTCGACACGCTGGGCAGGCTCGGCAAATACCTGGGGCAGGCGGCCAACCTAATGGTCGGCCTGCCCGATTACGACGCCTATCTCGAGCACATGCGGGAGAACCACCCCGAACGGGAACCGATGACCTACGAGGCGTTCTTCCGCGACCGCCAGGAAGCCCGCTACGGCGGCGGCCAGGGCCGCTGCTGCTAG	MFDTLGRLGKYLGQAANLMVGLPDYDAYLEHMRENHPEREPMTYEAFFRDRQEARYGGGQGRCC				NA	NA	NA	NA	NA
BMS010_04102	2067	cstA	COG1966	Peptide transporter CstA	ATGCCCCGACTGGCCAGCCATCTCGCCTGGATCGGTGTCGCCCTGCTCGGCGCCTTCGCGCTGGGAACCGTGGCGCTGCACCGCGGCGAAACCATCAATGCCCTCTGGATCGTCGCCGCTGCCGTGGCGGTCTATCTCATCGCCTACCGCTTCTACGCCCGCTTCATCGCCACCCGCGTGCTGCAACTCGACCCGCAGCGCATGACCCCGGCGGTGCGCCACAACGACGGCCTCGACTACGTACCGACCAACAGGCACGTGCTGTTCGGCCACCACTTCGCCGCCATTGCCGGCGCCGGCCCGCTGGTCGGCCCGGTGCTGGCCGCCCAGCTCGGCTACCTGCCCGGCATGCTGTGGATTCTCACCGGTGCGGTCCTGGCCGGGGCGGTGCAGGATTTCATCGTCCTGTTCATCTCCACCCGCCGCGACGGCCGCTCGCTGGGCGACCTGATCAAGTCCGAGATGGGGCCGATACCCGGCGTCATCGCCCTGTTCGGCACCTTCATGATCATGGTGATCATCCTCGCGGTACTCGCGCTGATCGTGGTGAAGGCCCTGGCCGAGAGCCCCTGGGGCACCTTCACCGTGATCGCCACCCTGCCCATCGCGGTGTTCATGGGTCTGTACAGCCGCTACCTGCGCCCCGGCCGCATCGGCGAGGTATCGATCATCGGCTTCGTCCTGCTGATGCTGGCCATCGTCGGCGGTGGCCAGGTCGCAGCCAGCCCCTACTGGGGGCCGCTGTTCACCTTCACCGGCGTGCAACTGACCTGGGCGCTGATCGGCTACGGCTTCGTCGCCGCCGTGCTGCCGGTGTGGCTGGTGCTGGCACCGCGCGACTACCTGTCGACCTTCCTCAAAATCGGCACCATTGTCGGCCTGGCCATCGGCATCCTGATCGTCGCCCCCGAGCTGAAGATGCCGGCGGTGACCCGTTTCATGGACGGCACCGGTCCGGTCTGGTCGGGCAGCGTGTTCCCCTTCCTGTTCATTACCATCGCCTGCGGCGCGGTTTCCGGCTTCCACGCGCTGATCTCCTCGGGCACCACGCCGAAGCTGCTGGAAAACGAAGCCCACGCGCCCTTCATCGGCTACGGCGGCATGCTGATGGAATCCTTCGTCGCGATCATGGCCCTGGTCGCCGCCGCCTGCATCGAGCCAGGCATTTACTTCGCCATGAACAGCCCGGCCGCCGTGCTCGGCAACAGCCCCGAATCCGCCGCCGAGGCGATCGCCCGCTTCGGCTTCGTGATCACCCCGGACATGCTTACCAGCACCGCCCAGGCGCTCGGCGAGCACAGCATCATTTCCCGTGCCGGCGGCGCGCCGACCCTGGCCGTGGGCATGGCCGAAATCCTTTCCAAGGTGTTCGGCGGCGACGGCATGAAAGCCTTCTGGTACCACTTCGCGATTCTCTTCGAGGCGCTGTTCATCCTCACCGCGGTGGACGCCGGCACCCGCGCCGGACGCTTCATGCTGCAGGATCTGCTGGGCAGTTTCCTGCCGCGCTTCAAGCGTACCGACTCCTGGACCGGCAACCTGATCGCCACCGCCCTCTGCGTCATGGCCTGGGGCTACTTCCTCTACCAAGGCGTGGTCGATCCGTTCGGCGGCATCAACACCCTCTGGCCGCTGTTCGGCATCTCCAACCAGATGCTCGCCGCCATCGCGCTGATCCTGGCCACCGTGGTGCTGTTCAAGCTCAAGCGTCATCGCTACGCCTGGGTCACCGCGCTGCCGGCAAGCTGGCTGTTGATCTGCACGCTTTCCGCCGGCTGGCTGAAGGTATTCTCCGACGACCCTCGCGTCGGCTTCCTCGCCCACGCCGCCAAATACCGCAACGCCCTGGCCGAAGGCACCGTGCTGGCGCCGGCGAAGAGCCTGGAGCAGATGCAGCGGGTGGTGTTCAACGACTACCTGGATGCCGGCCTGGCGCTGCTGTTCATGCTGGTGGTGTCGAGCGTACTGGTCTACGGCATCCGCACCTGCCGGCAGGCCTGGCTGAGCACCCATCCCACCGCGAGGGAAAGCGCCTTCCAGCGCCTGCCGCTGGGCAGCGAGGGCTGA	MPRLASHLAWIGVALLGAFALGTVALHRGETINALWIVAAAVAVYLIAYRFYARFIATRVLQLDPQRMTPAVRHNDGLDYVPTNRHVLFGHHFAAIAGAGPLVGPVLAAQLGYLPGMLWILTGAVLAGAVQDFIVLFISTRRDGRSLGDLIKSEMGPIPGVIALFGTFMIMVIILAVLALIVVKALAESPWGTFTVIATLPIAVFMGLYSRYLRPGRIGEVSIIGFVLLMLAIVGGGQVAASPYWGPLFTFTGVQLTWALIGYGFVAAVLPVWLVLAPRDYLSTFLKIGTIVGLAIGILIVAPELKMPAVTRFMDGTGPVWSGSVFPFLFITIACGAVSGFHALISSGTTPKLLENEAHAPFIGYGGMLMESFVAIMALVAAACIEPGIYFAMNSPAAVLGNSPESAAEAIARFGFVITPDMLTSTAQALGEHSIISRAGGAPTLAVGMAEILSKVFGGDGMKAFWYHFAILFEALFILTAVDAGTRAGRFMLQDLLGSFLPRFKRTDSWTGNLIATALCVMAWGYFLYQGVVDPFGGINTLWPLFGISNQMLAAIALILATVVLFKLKRHRYAWVTALPASWLLICTLSAGWLKVFSDDPRVGFLAHAAKYRNALAEGTVLAPAKSLEQMQRVVFNDYLDAGLALLFMLVVSSVLVYGIRTCRQAWLSTHPTARESAFQRLPLGSEG	PGPT0015060_1039	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CARBON_STARVATION_RESPONSE,PGPT0015060-cstA-K06200	NA	NA
BMS010_04103	1353			hypothetical protein	ATGCAGCTCAAACACAAGATCGTCGCCCTCGCCATCCTGCCCCTCCTGCTGGCCATCGCCGTGATCGGCGTGCTGGTCATGCTGCACGCCCAGCGTCTTGGCGAGCAGCAGGCGCACTTGCTGGAAAGCAGCATCCTCGCCAGCAAGCAGACCGAGCTGAAGCACTATGTCAGCCTCGCCCTGAGCACCATCGAACCGCTCTACGGCAGCGGTCGCGACGATGCCGCCACGCAGCAGCAGGTGCTGGAGACGCTGGGTGGGATGGAATACGGCAGCGACGGCTACTTCTTCGTCTACGATGGCAACGGCCGCAACCTGATGCACCCGCGCCAGCCGGAGCTGGTCGGGCGCAACCTGCTGCTGAGCATGAGCGACCCGGACGGTGCCCAGGCCTTGCGCGGCCTGCTGGAAAGCGCGCGCACCGGCGACGGTTTCCACCGCTACCGCTGGAAGAAGCCCTCCACCGGGCAGGTCACGGAGAAGCTGGCCCATGTGGTGATACTCGACCGCTGGGGCTGGATGCTCGGCACCGGCATCTACCTCGACGATATCGAACGGGCCACCGCCCAGGTCCGTGCCGAGGTGGCGAATAACGTCCGCCGGACCATGTGGGCGATTGCCGGGGTGGCCCTGGTCGCGGTGCTGTTGGTGTTCGCCGGCGGTGTAACCCTGAACGTCAGCGAGCACCGCCTGGCCGACCGCAAGCTGCAATTGCTGGCCCAACGCATCGTCACTTCCCAGGAAGAGGAGCGTTCGCGGGTCTCCCGTGAGCTGCACGACGGCATCAGCCAGGTGCTGGTCTCGGTGAAATTCCAGTTGGAGCTGGCCTGTCACGAGCTGGAGGCGGGCCGCGATCAAGCGTTGGATACACTGCGTGGCGGCCTGGCACGACTGGGCGAGGCGATAGCCGAGGTGCGACGGATTTCCCACGGCTTGCGTCCTTCGGTGCTGGACACCTTCGGCCTGGCGGCAGCCATCGGCCAGCTCGCCAGGGACTTCGAAGGTAGCAGCGGCCTGGCGGTGACCTATCGCGAGGGACTGGGCGAGGAGCGCCTGCCGGATCGCGAGTCGGTGGCGCTGTTCCGCATCGTCCAGGAAGCGCTGACCAACATCGAGCGCCATGCCCATGCCCGCCACGTCGCCATCGTCCTGGAGCGCAAGGGCGACACCGTGCGGCTGCGGGTTCGCGACGATGGCGTCGGCTTCGACCCGGCGCGCATCGAGCAGGCCCGCTCCGGCGGTATCGGCTTGCGCAACATGCGGGAACGGATCGCCCATCTGGGCGGTCGGTTTACGTTATCGTCGGCACCGGGTCGCACCGAGCTGTCCGTGAGTCTGCCGCTACCGGAGTGA	MQLKHKIVALAILPLLLAIAVIGVLVMLHAQRLGEQQAHLLESSILASKQTELKHYVSLALSTIEPLYGSGRDDAATQQQVLETLGGMEYGSDGYFFVYDGNGRNLMHPRQPELVGRNLLLSMSDPDGAQALRGLLESARTGDGFHRYRWKKPSTGQVTEKLAHVVILDRWGWMLGTGIYLDDIERATAQVRAEVANNVRRTMWAIAGVALVAVLLVFAGGVTLNVSEHRLADRKLQLLAQRIVTSQEEERSRVSRELHDGISQVLVSVKFQLELACHELEAGRDQALDTLRGGLARLGEAIAEVRRISHGLRPSVLDTFGLAAAIGQLARDFEGSSGLAVTYREGLGEERLPDRESVALFRIVQEALTNIERHAHARHVAIVLERKGDTVRLRVRDDGVGFDPARIEQARSGGIGLRNMRERIAHLGGRFTLSSAPGRTELSVSLPLPE				NA	NA	NA	NA	NA
BMS010_04104	639	degU_3	COG2197	Transcriptional regulatory protein DegU	ATGTCCGAAATGCCGTCCCAACCTACCCGCATTGCCCTGGTCGATGACCACGAACTGGTGCGCGACGGCCTGCGCGCGCTGCTGGCGGCCATGCCGCAACTGGAAGTGGTGGGCGAGGCCGGCAGCGGCGCCGAGGCGCTCAGCCTGGTGGAGCGGGTGCGGCCGGACCTGCTGCTGGTGGATATCGGCATGAAGGACATGAATGGCCTGCAACTCACCGAGCGGCTCTGCCGCGACTATCCCGGTTTGCGTGTGCTGATCCTGAGCATGTACGACCATCCCGAATACGTGACCAGCTCGATCCGTGCCGGTGCGCGCGGCTACGTGCTGAAGGACGCCGCCTCGCGTGAGATCGTCGCCGCCATCGATGCGGTGGCCGCCGGCGGCAGCTACTACAGCGCCGACCTGCTGCAGCAGATGGCCAGCCCGGCGCCAGTGGACAACGAGCTGACCCCGCGCGAACGCGAGGTACTGCGCATGCTTGCCGAGGGCCTGAGCAACAAGGCCATCGCCCGGGCCCTGGACATCAGCGTGCGTACCGTGGAGACCCACCGCCTGAGCATCCGCCGCAAGCTGGATATCGACACCCCGGCGGGACTGGTGAAATACGCGATGGAGCGCGGCTGGCTGAACTCCTAA	MSEMPSQPTRIALVDDHELVRDGLRALLAAMPQLEVVGEAGSGAEALSLVERVRPDLLLVDIGMKDMNGLQLTERLCRDYPGLRVLILSMYDHPEYVTSSIRAGARGYVLKDAASREIVAAIDAVAAGGSYYSADLLQQMASPAPVDNELTPREREVLRMLAEGLSNKAIARALDISVRTVETHRLSIRRKLDIDTPAGLVKYAMERGWLNS	PGPT0000550_1505	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	N-AQUISITION-NITRATE|NITRITE_SENSING,PGPT0000550-narL-K07684	NA	NA
BMS010_04105	420			hypothetical protein	ATGCGCCCATTGACCATCGACCTGCCACGCCTCGAAGCCGCCCTGGACGACGACAGCGGCAACGAGCACTACCTCGACCTGGAAACCGGCGGCATCTTCGTTGCCGCCCCGGAGGACCCGGTTCCGGGTGCCATGGAGAAATACGATGTGCAACCGGACCGCTACCTGCCCATCGACCCTCTGCCTACCGGCGAAGCCGTCGGCATGCGCGAGGGCTTCCTGTTCACCCTGCACGACCCGCATGCGCACACCGTGCTGAGCCACGCCCTGGCGGGCCGCAAGCCGCTGCGCACCTTCGACTACGAACTGGAGAAATACCCGGAGATCCGTCAGGCCTGGCTCGACTACCGGGCCGTGCACCTGCGCGAGCGGGCCCTGGAGTGGTTGCAGGAGAACGGCCTGGAGGCGGCACGGCGTTAG	MRPLTIDLPRLEAALDDDSGNEHYLDLETGGIFVAAPEDPVPGAMEKYDVQPDRYLPIDPLPTGEAVGMREGFLFTLHDPHAHTVLSHALAGRKPLRTFDYELEKYPEIRQAWLDYRAVHLRERALEWLQENGLEAARR				NA	NA	NA	NA	NA
BMS010_04106	498			hypothetical protein	ATGCTCTTCATCGTCTTGCTGGTCCTGCTCACCCTGCTCGCCGCCCTCGGCGATCGTCTCGGCGCACCCGGCCTCGCCGGCTGGCCGGCACGGATGCGCCTGGCCATGGCCCTGGCATTGCTCTTCGTCGGGTTCGATCACTGGCTGACGCCCGGCCGCTACCTGCCGATGATGCCGGACTACCTGCCCTACCATCTGCCGCTGGTGCTGTTCACCGGCGCCTGCGAACTGGCCGGCGCCGTCGGCCTGCTGCTACCGCAAACGCGGCGGCTGGCGGCGACGATGCTGGCGCTGTACTTCATCTGCGTGCTCCCGGCGAACATTCACAACGCGCTCAACGGCCTCAACGTCGACGGCCTGCCCAGTGTGCAGTGGTACTACTGGCTGCGCCTGCCGTTCCAGCCGCTGATCATCCTCTGGGCGTTGTATGCCGGCGGGGTGATCGGCCGCCGCGGCGCCAGCGCGCAGCCCGTCGGGACGATGCAGGCACAGGGCTGA	MLFIVLLVLLTLLAALGDRLGAPGLAGWPARMRLAMALALLFVGFDHWLTPGRYLPMMPDYLPYHLPLVLFTGACELAGAVGLLLPQTRRLAATMLALYFICVLPANIHNALNGLNVDGLPSVQWYYWLRLPFQPLIILWALYAGGVIGRRGASAQPVGTMQAQG				NA	NA	NA	NA	NA
BMS010_04107	585			hypothetical protein	GTGTCAACACTCGAGGATGATGGGGCTTCTGCGCGCCCGTATCACCATGGCGATCTCAAGGCTGCCTTGCTCGCGGCTGCGGGCGAGTTGCTGGTGGAAAAGGGCGAGGCGGGTATCAGTCTGCGGGAGGTGGCGCGCCGCGCTGGCGTTTCGCACAACGCGCCGTATCGGCACTTTCCGGATCGGGACAGCCTGCTGGCTGCCCTGGCGGCGGAAGGCTTCGACGAACTGTCCGAACGCAGCCGGCAGGCGGGCGAACTGGCGGGGCTCGGGCAATGCTACGTGGCGTTCGCCCTGGAGCAGCCCGGACGGTTTGCGCTGATGTTTTCCCCCGGACTGGACAAGTCGCGCCATCCCGAGCTGCAAGCCGCTGCGCTGCAGTTGTTCGATCTGCTGCGCGAAGCCGTGCGCCAGGCCGCACCGAAACGGGACGTGCAGATCGCCACGCTGGCGGCCTGGAGCCTGGTGCATGGCCTTTCGCAGTTGCTGCTCGACCGACAGTTGAGCGAGACGCTGCTGGGTGAACAACCGGCCGACGCGCTCAGCGAGCAGGTGACCCGGCTGTTCACCGAGGGGCTAGGCTAG	MSTLEDDGASARPYHHGDLKAALLAAAGELLVEKGEAGISLREVARRAGVSHNAPYRHFPDRDSLLAALAAEGFDELSERSRQAGELAGLGQCYVAFALEQPGRFALMFSPGLDKSRHPELQAAALQLFDLLREAVRQAAPKRDVQIATLAAWSLVHGLSQLLLDRQLSETLLGEQPADALSEQVTRLFTEGLG				NA	NA	NA	NA	NA
BMS010_04108	597	nahD		2-hydroxychromene-2-carboxylate isomerase	ATGATGAGTAAGTCCGTTGAATTCTTCTTCGACTTCGGCAGCCCCGCCAGCTACCTGGCCTGGACGCAGTTGCCGCGGATCGCCGCCGAGACCGGTGCGACCATCGTCTGGCGGCCGATGCTGCTCGGCGGTGTGTTCAAGGCCACCGGCAACCAGTCGCCCGTGGCCATCCCCGCCAAGGGACGCTACATGCTGCAGGACTTCGCCCGTTTCGCCCGCCGCTATGGCGTGCCGATGACCTTCAACCCGCACTTCCCGATCAACACCCTGCCACTGATGCGCGGCGCCACCGCCTATCTCGACACGCCGCTCTTCCAGCCCTACCTCACGGCAGTCTTCGAAGCCATGTGGCAACAGCAGAAGAATCTCGGCCAGCCCGAGGTGATCGCGGAAGCCCTGGCCACGGCCGGCTACGATCTCGAAGACTTCCAGCGGCGAATCGAGGACGAAGCGGTCAAGGAGCGCCTCAAGGCCACCACCGAAGAGGCCGTCCGGCGCGGCGCGTTTGGCGCACCGACCTTCTTTGTCGGTGACGAAATGTATTTCGGCCAGGACCGCCTGGATTTCGTCGTCGAAGCCCTGCAACGCGCCGGCTAG	MMSKSVEFFFDFGSPASYLAWTQLPRIAAETGATIVWRPMLLGGVFKATGNQSPVAIPAKGRYMLQDFARFARRYGVPMTFNPHFPINTLPLMRGATAYLDTPLFQPYLTAVFEAMWQQQKNLGQPEVIAEALATAGYDLEDFQRRIEDEAVKERLKATTEEAVRRGAFGAPTFFVGDEMYFGQDRLDFVVEALQRAG	PGPT0006330_20	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_NAPHTALENE|DERIVATE_DEGRADATION	XENOBIOTIC_NAPHTALENE_DEGRADATION,PGPT0006330-nahD-K14584	NA	NA
BMS010_04109	729			hypothetical protein	ATGAGCGACACCAAGGCGATGCTGGTCATGGGAGCGGGCGATGCCACCGGCGGCGCGGTGGCGAAGCGTTTCGCGCGAGAAGGCTATGTGGCCTGCGTGGCACGGCGCCACGCGGAAAAGCTGGAGCCCCTGGTGCAGGACATCGAGTCCGCCGGCGGCCAGGCCCGCGCCTTCGGGTGCGATGCACGGCAGGAAGACCAGGTTCGCGACCTGATCGAAACCATCGAGCGCGACATCGGCCCCCTCGAAGCCGTGGTCTTCAACATCGGCGCGAACGTGCGCTTTCCTCTCCTCGAAACCACCGAGCGGGTCTATCGCAAGGTCTGGGAAATGGCAGCGCTGGCCGGCTTCCTCACCGGTCGCGAAGCCGCCCGGGCGATGCTGCCGCGCGGACGCGGAACGATCATCTTCACCGGCGCCACCGCCTCGCTGCGCGGCCGCGACGGTTTCGCCGCCTTCGCCGGCGCCAAGTTCGCCCTGCGTGCGCTGGCCCAGAGCATGGCCCGCGAGCTGGGGCCGCAAGGCATCCACGTGGCCCATCCGGTGATCGACGGCGCCATCGACACCGCCTTCATCCGCGACAACTTCCCGGAGATGTATCAACGCAAGGACCGCGACGGCATCCTCGAGCCGGACCACATCGCCGAAATCTACTGGCAGATTCACGGCCAGCCGCGCGATTGCTGGGTCCATGAGATGGACCTTCGCCCCTGGCTGGAAACCTTCTGA	MSDTKAMLVMGAGDATGGAVAKRFAREGYVACVARRHAEKLEPLVQDIESAGGQARAFGCDARQEDQVRDLIETIERDIGPLEAVVFNIGANVRFPLLETTERVYRKVWEMAALAGFLTGREAARAMLPRGRGTIIFTGATASLRGRDGFAAFAGAKFALRALAQSMARELGPQGIHVAHPVIDGAIDTAFIRDNFPEMYQRKDRDGILEPDHIAEIYWQIHGQPRDCWVHEMDLRPWLETF	PGPT0020475_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020475-aao-K00273	NA	NA
BMS010_04110	498		COG1733	putative HTH-type transcriptional regulator	ATGCGTTGGGAAGAACTCGACCAGCAACCCTGTTCCCTGGCCCGTACCCTGTCGGTGGTCGGCGACCGCTGGACGCTGCTTGTCCTGCGCGACTGCTTCCTCGGCGTGCGCCGCTTCGATGATTTCGAGGCGCGCCTGGGCGTCACCCGGCATGTCCTGGCGGATCGCCTGAAGCGGCTGGTGGAGGCTGGCGTGCTGGCCAAGGTGCCTTATCAGGAGCGGCCTCGCCGCGAGGAGTACCGTCTTACCGAAAAGGGTCGGGACCTGCATCCCGCGGTGATGGCTCTGGTGAGTTGGGGCGACCGCTACATGGCAGGCGCGGAAGGCGCGCCGATCCGCCACCGACACAAGGGCTGCGGCCAAGTGATGCACGGCGTGCTGGTCTGTTCCGAATGCGGCGAGCCGCTGGTGCCGAAGGAGATCGAGCTGGAAGAAGCGCCGGAATGGCAGGGACAGCTCCTGCCGGCGCACCGGCATGCGCGGAGCGTTGAGGGCTAG	MRWEELDQQPCSLARTLSVVGDRWTLLVLRDCFLGVRRFDDFEARLGVTRHVLADRLKRLVEAGVLAKVPYQERPRREEYRLTEKGRDLHPAVMALVSWGDRYMAGAEGAPIRHRHKGCGQVMHGVLVCSECGEPLVPKEIELEEAPEWQGQLLPAHRHARSVEG	PGPT0028680_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-STREPTOMYCIN|KANAMYCIN|AMIKACIN,PGPT0028680-aadA-K00984	NA	NA
BMS010_04111	708			hypothetical protein	GTGAACCTGCTGCTCCTGAACGAGGCCGACTTCGTCGCGGCCGACCGAGTGGTCCTGCGCGACCGCCGGCTCAAGCACCTGCATGAGGTGCATCGCGCCGAATCCGGCGACCGCCTGCGCGTCGGCCGTCTCGGCGGGGCGATGGGCGAAGGTCACCTGCTGCGCCTGACCGCCGAGGAAGCGGAGCTGGAGGTACGCTTCGATCAACCGCCGCCGGACAAACTGCCGCTGACCCTGCTGCTCGCCCTGCCGCGCCCGAAGATGCTGCGCCGCGTGCTGCAGACGGTATCCGCCATGGGCGTGCCGCGCCTCGTCCTGCTGAACAGCTACCGGGTGGAAAAGAGCTTCTGGCAGACCCCCTTCCTTGAGCCCGAGGCGATCCGCGAACAGCTCATCCTCGGCCTGGAGCAGGCCCGCGACACCGTGCTGCCGGAGGTGATCGTGGAGAAGCGCTTCAAACCCTTCGTCGAGGACCGCCTGCCGGCACTGACCAACGGCACCCTCGGCCTGGTCGGCCATCCCGGTGACTACCCGGCCTGTCCGCGCGCCGTCGAACAGCCGGTGACCCTCGCCATCGGCCCGGAAGGCGGCTGGATTCCCTACGAAGTGGACAAGCTGCGCGAAGCCGGCCTGCAACCGGTGCAACTGGGCGAGCGCATCCTGCGGGTGGAGACGGCGGTGGCGGCGCTGTTGGCGCGACTCTTCTAG	MNLLLLNEADFVAADRVVLRDRRLKHLHEVHRAESGDRLRVGRLGGAMGEGHLLRLTAEEAELEVRFDQPPPDKLPLTLLLALPRPKMLRRVLQTVSAMGVPRLVLLNSYRVEKSFWQTPFLEPEAIREQLILGLEQARDTVLPEVIVEKRFKPFVEDRLPALTNGTLGLVGHPGDYPACPRAVEQPVTLAIGPEGGWIPYEVDKLREAGLQPVQLGERILRVETAVAALLARLF				NA	NA	NA	NA	NA
BMS010_04112	792	tatC_1	COG0805	Sec-independent protein translocase protein TatC	ATGACCGCAAAGCCGCAAGACGACCAGGAAATGCCTCTGGTTGCGCATCTGACCGAACTGCGCAAGCGCCTGCTCTACAGCGTGACCGCCGTGCTGGTGATCTTCGCCGGGCTGTTCTACTTCTCCCAGGATATCTATGCCCTGGTCGCCGCCCCGCTGCGCGCCTACCTGCCGGAAGGCGCCACCATGATCGCCACCGGTGTCGCCTCGCCCTTCCTCACGCCATTCAAGCTCACGCTGATGGTCGCGCTGTTCCTCGGTATGCCGGTGGTGCTCTACCAGGCCTGGGGCTTCATCGCACCGGGGCTGTACAAGCACGAAAAACGCATCGCCGTGCCGCTGCTGGTCTCCAGCGTGTTCCTCTTCTACGGCGGCATGGCCTTCGCCTACTTCGTGGTCTTCCCGATCATGTTCGGCTTCTTCGCCAGCGTGACGCCGGAAGGCGTGGCGATGATGACCGACATCGGCCAATACCTCGACTTCGTGCTCACGCTGTTCTTCGCCTTCGGCGTGGCCTTCGAGATTCCCGTGGCCACTTTCCTGCTGATCTGGGTCGGCATCGTCGACGTGGCCTCGCTGCGCAAGTCGCGGCCCTATGTGGTCGTCGGCTGCTTCATCGTCGGCATGGTGTTGACTCCGCCCGACGTGTTCTCCCAGACGCTGCTGGCCGTGCCCATGTGGCTGCTGTTCGAGGCCGGCCTGCTGTTCGGCAGCCTGGTGCGTCGCGAGGATGCCACCGAGGAAGCCGCCGAAGAAAAGTCCGGCGACCAGCCGCCCGCTCCGCGCCCGTGA	MTAKPQDDQEMPLVAHLTELRKRLLYSVTAVLVIFAGLFYFSQDIYALVAAPLRAYLPEGATMIATGVASPFLTPFKLTLMVALFLGMPVVLYQAWGFIAPGLYKHEKRIAVPLLVSSVFLFYGGMAFAYFVVFPIMFGFFASVTPEGVAMMTDIGQYLDFVLTLFFAFGVAFEIPVATFLLIWVGIVDVASLRKSRPYVVVGCFIVGMVLTPPDVFSQTLLAVPMWLLFEAGLLFGSLVRREDATEEAAEEKSGDQPPAPRP	PGPT0029295_1980	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TAT-TWIN-ARGININE_TRANSLOCATION_PATHWAY	CE-TAT-TWIN-ARGININE_TRANSLOCATION_PROTEINS,PGPT0029295-tatC-K03118	NA	NA
BMS010_04113	372	tatB_1		Sec-independent protein translocase protein TatB	ATGTTCGACGTGGGTTTTACCGAGCTGCTGCTGGTCGGTCTGGTCGCCCTGCTGGTGCTCGGGCCCGAGCGCCTGCCGAGTGCCGCGCGCACGGCAGGCCTCTGGATCGGCCGGCTGAAGCGCAGCTTCAACGCGATCAAGACCGAAGTCGAACGCGAGATCGGCGCCGACGAGATTCGTCGGCAGCTGCATAACGAGCAGATCCTGCAGCTCGAACGCGAAATGAAGCAGAGCATCCAGCCGCCCGCCGCGACGCCGACGCCGACGCCGACGCCGGGCAAGCTGCCGGACGCACCCGCGCAGGTCAGTGAGCAGCCCGCCGCCAGCGAGCCGCCCGCGGCGCCCAGCCAGGACAAGAACATCCAGCCATGA	MFDVGFTELLLVGLVALLVLGPERLPSAARTAGLWIGRLKRSFNAIKTEVEREIGADEIRRQLHNEQILQLEREMKQSIQPPAATPTPTPTPGKLPDAPAQVSEQPAASEPPAAPSQDKNIQP	PGPT0014360_2561	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TAT-TWIN-ARGININE_TRANSLOCATION_PATHWAY	CE-TAT-TWIN-ARGININE_TRANSLOCATION_PROTEINS,PGPT0014360-tatB-K03117	NA	NA
BMS010_04114	231	tatA_1		Sec-independent protein translocase protein TatA	ATGGGTATCGGCGGTATCAGCATCTGGCAGCTCCTGATCATCCTTCTCATCGTCGTCATGCTGTTCGGCACCAAGCGTCTGAAGAACCTCGGCTCCGACCTCGGCGATGCGATCAAGGGCTTCCGCAAGTCGGTGGGTGGCGAAGAAGAAAAGCCGTCCGTCGAGGAGCACAAGGGCCAGACCATCAACGGCGAAGCGCGCAAAGTCGAAGAGCCGATCAAGAAAGACTAA	MGIGGISIWQLLIILLIVVMLFGTKRLKNLGSDLGDAIKGFRKSVGGEEEKPSVEEHKGQTINGEARKVEEPIKKD	PGPT0029290_2915	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TAT-TWIN-ARGININE_TRANSLOCATION_PATHWAY	CE-TAT-TWIN-ARGININE_TRANSLOCATION_PROTEINS,PGPT0029290-tatA-K03116	NA	NA
BMS010_04115	333	hisE_1	COG0140	Phosphoribosyl-ATP pyrophosphatase	ATGAGTGACACCCTGACCCGCCTGGCCGAGGTGCTCGAGGCGCGCAAAGGCGCGGCGCCGGACAGCTCCTACGTGGCCAGCCTGTACCACAAGGGTCTGAACAAGATTCTGGAAAAAGTCGGCGAAGAATCGGTGGAAACCATCCTCGCCGCCAAGGACGCCGCTGCCAGCGGTGACTGCAGCGACCTGATCTACGAAACCGCCGACCTCTGGTTCCACAGCCTGGTCATGCTCGCCGCCCTCGGTCAGCATCCCCAGGCCGTGCTGGACGAGCTGGAGCGGCGCTTCGGACTTTCCGGGCACGCGGAAAAAGCCGCGCGCCCCCAGGCTTGA	MSDTLTRLAEVLEARKGAAPDSSYVASLYHKGLNKILEKVGEESVETILAAKDAAASGDCSDLIYETADLWFHSLVMLAALGQHPQAVLDELERRFGLSGHAEKAARPQA				NA	NA	NA	NA	NA
BMS010_04116	402	hisI_1		Phosphoribosyl-AMP cyclohydrolase	ATGAACGATTGGCTGGACGAAATTCACTGGAATGCCGAGGGCCTGGTACCCGCCATCGCCCAGGACCACGCGACGGGCCGGGTGCTGATGATGGCCTGGATGAACCGCGAGTCGCTGACCCTCACCGTTGCCGAGCAACGCGCCATCTACTGGTCACGTTCGCGTGGCAAGCTGTGGCGCAAGGGCGAGGAGTCCGGCCATGTGCAGAAGCTTCACGAACTGCGCCTGGACTGCGACGCGGATGTGATCATCCTGCGGGTCGAACAGCTCGGCGGCATCGCCTGCCACACCGGACGCGAAAGCTGCTTCTACCGCGTCTACGAGGACGGCGCCTGGAAAGCCGTCGACCCGGTGCTCAAGGACCCAGACGCCATCTACCACACGGGACACAGCCATGAGTGA	MNDWLDEIHWNAEGLVPAIAQDHATGRVLMMAWMNRESLTLTVAEQRAIYWSRSRGKLWRKGEESGHVQKLHELRLDCDADVIILRVEQLGGIACHTGRESCFYRVYEDGAWKAVDPVLKDPDAIYHTGHSHE	PGPT0007985_542	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0007985-ribA-K01497	NA	NA
BMS010_04117	1608	ubiB_2	COG0661	putative protein kinase UbiB	ATGAAGCTGCTCGCCGCCCGCCGTCTGCTCCGCATCCAGAGCGTGGTCATCCGCTATCGTCTCGACGACCTGCTCCTCGAACTGCCGCTGCCCTGGTGGCTGCGCACCCTCAGCTACGCCCTGCCCTGGCGCTGGCTGCCACGCCGCAAGACCCACCTGACCCGCGGCGAATGCCTGCGCCTGGCCCTGGAAGACCTCGGCCCGATCTTCATCAAGTTCGGCCAGCTGCTGTCCACCCGCCGCGACCTGCTGCCGCCGGACATCGCCGACGAACTGGCCAAGCTGCAGGACCAAGTGCCGCCGTTCGACCCGGAGCAATCCGTTGCCCTCATCGAGTCGCAGCTCGGCCTCAAGGTCAGCGAGGCCTTCGCCCGCTTCGACAGCAAGCCGCTGGCCTCGGCCTCGGTGGCCCAGGTCCACGCCGCCCAGCTCAAGACTGGCGAGGAAGTGGTGGTCAAGGTGATCCGCCCCGGCCTCAAGCCGATCATTCGCCAGGACATCGCCTGGCTGTTCCTGCTCGCCAAACTGGCCGAACGGATTTCCGCCGAGGCCCGCCGACTGCATCCGGTGGACGTGGTCAGCGACTACGAGAAGACCATCTACGACGAGCTCGACCTGCTCCGCGAGGCGGCCAACGCCAGCCAGCTGCGGCGCAACTTCGAGGACTCGCCGCTGCTCTACGTGCCGCAGATCTACTGGGACTGGTGCCGCCCCAAGGTGCTGGTGATGGAGCGCATCTATGGCATCCCGGTGACCGACATCGCCACCCTCGCCGACCAGCGCACCGACATGAAGTTGCTGGCCGAGCGCGGTGTGGAAATCTTCTTCACCCAGGTGTTCCGCGACAGCTTCTTCCACGCCGACATGCACCCCGGCAACATCTTCGTCAGCACCCGCCAGCCCTGGAACCCGCAGTACATCGCCATCGACTGCGGCATCGTCGGCAGCCTCACGCCGGAGGACCAGGACTACCTGGCGCGCAACCTGGTGGCCTTCTTCAAGCGCGACTACCGCAAGGTGGCGCAGTTGCACATCGACTCCGGCTGGGTGCCGGCGGAAACCAAGGTCAACGAATTCGAGGCGGCGATCCGCACCGTCTGCGAACCGATCTTCGAGAAGCCGCTGAAGGAAATCTCCTTCGGCCAGTTGTTGCTGCGCCTGTTCCAGACCGCGCGCCGCTTCAACATGGAGATCCAGCCGCAACTGGTGCTGCTGCAAAAGACCCTGCTGAACATCGAAGGGCTCGGCCGCCAGCTCTACCCCGACCTGGACCTCTGGACCACCGCCCAGCCCTTCCTGGAGCGCTGGATGCGCGAGCGGGTCAGCCCGAGAAGCCTGTTGCAGAACCTGCAGGCCCAGGTCGAGCAGGTGCCGCACCTGGCGCACATGACCCGCGACCTGCTGGAGCGCATGTCGCAGCCGCACGCCGCCGACCCTTCGCCGCCGTGGCGCGAGCGTCGGGACGATTGGGCCCTGCGCCTGATCGGCGGCATCCTGCTGGCGGGCGGCGGCACCCTGGCCGCGTCCAGCGTCACCTTCACCAGCCTCACCGCCTGGCCGGCCTGGCTGATGCTGGCGGCGGGGCTGGTACTGGTCGTGCGCCGATAG	MKLLAARRLLRIQSVVIRYRLDDLLLELPLPWWLRTLSYALPWRWLPRRKTHLTRGECLRLALEDLGPIFIKFGQLLSTRRDLLPPDIADELAKLQDQVPPFDPEQSVALIESQLGLKVSEAFARFDSKPLASASVAQVHAAQLKTGEEVVVKVIRPGLKPIIRQDIAWLFLLAKLAERISAEARRLHPVDVVSDYEKTIYDELDLLREAANASQLRRNFEDSPLLYVPQIYWDWCRPKVLVMERIYGIPVTDIATLADQRTDMKLLAERGVEIFFTQVFRDSFFHADMHPGNIFVSTRQPWNPQYIAIDCGIVGSLTPEDQDYLARNLVAFFKRDYRKVAQLHIDSGWVPAETKVNEFEAAIRTVCEPIFEKPLKEISFGQLLLRLFQTARRFNMEIQPQLVLLQKTLLNIEGLGRQLYPDLDLWTTAQPFLERWMRERVSPRSLLQNLQAQVEQVPHLAHMTRDLLERMSQPHAADPSPPWRERRDDWALRLIGGILLAGGGTLAASSVTFTSLTAWPAWLMLAAGLVLVVRR	PGPT0009520_2198	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009520-ubiB|aarF-K03688	NA	NA
BMS010_04118	624	ubiJ_2	COG3165	Ubiquinone biosynthesis accessory factor UbiJ	ATGCTCGGCACCGCCCTGCTCGCCGGCGTTGAGCACGGCGTCAACCGCGTCCTGCGGCTGGACGGGACCGCGCTGCCGCGCCTGGCGAAACTGGCCGGCAAGGTCATCGAGATCGACTGCCAGTCGCCCGCCGTCCGCCTCTATCTCCTGCCCGGTGCCGAAGGCCTGCAACTCGCCGGTCAATGGGAAGCGCCCGTCGACTGCCGCCTGAGCGCTCCCGCGGCGACTCTCCTGCGCCTCGCCACCACTCGCCACAAGACCGCCGTGCTGCATGGCCCGGACGTGGCCCTGAGCGGCGACAGCGGCGTGCTGCTCGATCTCGCAGGCGTCCTTCAGGATCTGGAGCTGGATTGGGAATACGAACTGTCGCACTGGCTCGGCCCGGTCGGCAGTCATCTGCTCGGCAGCCATCTGCGCAGCCGCGCGAACTGGGCCGGCAACAGCCTGGACAGCCTGCGCCAGGACCTCGCCGACTACCTCAGCGAAGAATCGCGCACCCTGGTCGGCCGCCGCGAAGCCGAAGCGCGATTCGCCGAACTGGACAGTCTCAAGCTCGCACTCGACCGACTCGACGCGCGCATCGAGCGCCTCACCGACAAACTCAAGCCCAGCGATAACGAATGA	MLGTALLAGVEHGVNRVLRLDGTALPRLAKLAGKVIEIDCQSPAVRLYLLPGAEGLQLAGQWEAPVDCRLSAPAATLLRLATTRHKTAVLHGPDVALSGDSGVLLDLAGVLQDLELDWEYELSHWLGPVGSHLLGSHLRSRANWAGNSLDSLRQDLADYLSEESRTLVGRREAEARFAELDSLKLALDRLDARIERLTDKLKPSDNE	PGPT0009560_721	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009560-ubiJ|yigP-K03690	NA	NA
BMS010_04119	771	ubiE_2	COG2226	Ubiquinone/menaquinone biosynthesis C-methyltransferase UbiE	ATGAACGATCCACGCAAAGGCAGCGATACCGAACCCACCACCCACTTCGGCTACCAGAACGTGCCGGAAAGCCAGAAGGCGCAGAAGGTGGCCGAGGTATTCCATTCGGTGGCCGCCAAGTACGACCTGATGAACGACCTGATGTCCGGCGGCGTGCACCGGTTGTGGAAGCGTTTCACCATCGAACTGTCCGGCGTGCGCGTGGGCAACCGGGTGCTCGACATCGCCGGCGGCACCGGCGACCTGACCAAACAGTTCGCCCGCCTGGTCGGCCCCACCGGCGAAGTGGTACTGGCCGATATCAACGAATCCATGCTCAAGGTCGGCCGCGACCGGCTACTCGACCTGGGCGTCGCCGGCAACGTCAAGTTCGTCCAGGCCGACGCGGAGAAGCTGCCCTTCCCGGACAACCACTTCGACTGCGTGACCATCGCCTTCGGCCTGCGCAACGTGACCCACAAGGAAGACGCCCTGCGCTCCATGCTGCGCGTGCTCAAGCCCGGCGGCCGCCTGCTGGTACTGGAGTTCTCCAAACCCACCAACGGCCTGCTGTCGAAGGCCTACGACGCCTACTCCTTCAGCCTGCTGCCGCTGATGGGCAAGCTGATCACCAACGACGCCGACAGCTACCGCTACCTCGCCGAATCGATCCGCATGCACCCGGACCAGGAAACGCTCAAGGCGATGATGGTCGACGCCGGCTTCGAGCGGGTGACCTACCACAACATGACCGGCGGCATCGTCGCCCTGCACCGCGGCATCAAGCCCTGA	MNDPRKGSDTEPTTHFGYQNVPESQKAQKVAEVFHSVAAKYDLMNDLMSGGVHRLWKRFTIELSGVRVGNRVLDIAGGTGDLTKQFARLVGPTGEVVLADINESMLKVGRDRLLDLGVAGNVKFVQADAEKLPFPDNHFDCVTIAFGLRNVTHKEDALRSMLRVLKPGGRLLVLEFSKPTNGLLSKAYDAYSFSLLPLMGKLITNDADSYRYLAESIRMHPDQETLKAMMVDAGFERVTYHNMTGGIVALHRGIKP	PGPT0009535_620	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009535-ubiE-K03183	NA	NA
BMS010_04120	276			hypothetical protein	ATGTCCCGCATTACCGTCGAACGCTCTCATTCGCTTGGCCGGACCGCCGCCCGGGCGAAAGCCGAGCACCTGGCCGAGCGTCTGGCCAGTGAATACCACGTCGAGTACCACTGGGAGGGCGATACCCTGGCCTTCAACCGCAGCGGCGCGCATGGGCGTATCGAGGTCGGCGAGGATCAGGTGCGGGTCGAGGTGAAGCTGGGGTTGCTGCTGTCGGCCCTGGGCAGCACCATCAAGCGGGAAATCGAGAAGGGGTTGGACGATTTCCTCGGTTGA	MSRITVERSHSLGRTAARAKAEHLAERLASEYHVEYHWEGDTLAFNRSGAHGRIEVGEDQVRVEVKLGLLLSALGSTIKREIEKGLDDFLG				NA	NA	NA	NA	NA
BMS010_04121	438			hypothetical protein	ATGGCCAAGGTAGCCGTTATCAAGAAAGCCGAAAGCAAGACCACGCTGATCAGCGATGCCAAATACTACGCACGGCAAATCTGGCTGGCGGGCCTGGGCGCCTATGCCAAGGCCGGCCAGGAAGGCGTCGAGTACTTCAAGGAGCTGGTGAAGACCGGCGAAGGCATCGAGAAGAAGGGCAAGAAGCTGGTCGACAAGCAGGTCGAGGCGGCCAACACCCAGATCGACACCGTGAAGAGCAGTGTGAAGGAGAAGGTCGACGTTCAGCTGGACAAGGTCGAGAAGGCCTTCGACAGCCGTGTGGCCAGCGCCCTGAACCGCATCGGTATTCCCTCCAAGCAGGATGTTGAGGCACTCTCTGCTAAGCTCGATGTGTTGAATGCGATGCTCGACCGTGTCGCTGAGACCAAGCTCGAGCGTGCCGCGAAGACTCAATAA	MAKVAVIKKAESKTTLISDAKYYARQIWLAGLGAYAKAGQEGVEYFKELVKTGEGIEKKGKKLVDKQVEAANTQIDTVKSSVKEKVDVQLDKVEKAFDSRVASALNRIGIPSKQDVEALSAKLDVLNAMLDRVAETKLERAAKTQ				NA	NA	NA	NA	NA
BMS010_04122	918			hypothetical protein	ATGGCAGGCAAGAAGAAAGTCGAAAAAGAAACCAGTTCCTGGATCGGCGAGGTCGAGAAGTATTCCCGCCAAATCTGGCTCGCAGGTCTGGGCGCCTATTCGAAGATCAGTCAGGACGGTACCAAGCTGTTCGACACCTTGGTCAAGGACGGCGAAAAGGCGGAAAAAATGGCTAAGACCGAAGTCGACAAGCAAGTCGAGGCGGTCAAATCTTCTGCCCTGTCAGCCAAAACCAGGGTGGCGGAGGTCAAGGGCAAGGCCCTGGGCAAGTGGAGCGAGCTGGAAGAGGCGTTCGACAAGCGTCTGAACAGCGCGATCTCGCGCCTGGGCGTGCCGAGCCGCAACGAGGTCAAGGAGCTGAACGCCAAGGTCGATTCCCTGACCAAGCAGTTGGAGAAGCTCACGGGCGTCTCGGCGGCCACGGTCAAGCCGGCAGCGGCGAAACCGGCTCCGAAGGCCGCCGCGAAACCGGTGGCTGCTGCCAAGAAGCCGGCCGCGAAAGCCGCCGCTTCGGCCGCCAAGCCCGCGGCGAAACCCGCGGCGAAGGCCGCGAGCAAGCCGGCAGCCAAACCCGCGGCGAAACCCGCGGCGAAGGCCGCGAGCAAGCCGGCAGCCAAACCCGCGGCCAAGGCTGCAGCGAAGCCGGCAGCCGCCGCCAAGCCCGCAGCGAAACCAGCCGCCAAGCCTGCCGCTAAACCCGCAGCCGCGGCGGCGAAGAAGCCGGTGGCGAAAAAGGCTGCTGCTCCGAAAGCGGCAACCCCCAAGGCGGCCGCACCGAAAGCCGCTAAGCCGGCCGCAGCCAAACCGGCAGCTGCAGCGAAGCCTGCAACACCGGCGACCACTGCCGCACCGGCGGCTGCTCCGGCCGCAACCCCGGCTCCCGCCGCTACTCCGGCGAATCCCGGCACTCCGTCCTGA	MAGKKKVEKETSSWIGEVEKYSRQIWLAGLGAYSKISQDGTKLFDTLVKDGEKAEKMAKTEVDKQVEAVKSSALSAKTRVAEVKGKALGKWSELEEAFDKRLNSAISRLGVPSRNEVKELNAKVDSLTKQLEKLTGVSAATVKPAAAKPAPKAAAKPVAAAKKPAAKAAASAAKPAAKPAAKAASKPAAKPAAKPAAKAASKPAAKPAAKAAAKPAAAAKPAAKPAAKPAAKPAAAAAKKPVAKKAAAPKAATPKAAAPKAAKPAAAKPAAAAKPATPATTAAPAAAPAATPAPAATPANPGTPS				NA	NA	NA	NA	NA
BMS010_04123	615			hypothetical protein	ATGAAAACCCGCGACCGCATCCTCGAATGCGCCCTGGCGCTGTTCAACCAACGGGGCGAACCCAACGTCTCCACCCTGGAAATCGCCACCGAAATGGGGATCAGTCCGGGCAATCTCTATTACCACTTCCATGGCAAGGAACCGCTGGTCCTCGCCCTGTTCGAGCGTTTCCAGGACGATCTGGCGCCGCTGCTCGACCCGCCCGGCGATGTCGAGCTGAGCGCCGAGGAGTACTGGCTGTTCCTGCACCTGATCGTCGAGCGCCTGGCGCAGTACCGCTTTCTGTTCCAGGACCTGTCCAACCTGGCCGGGCGCCTGCCTAAGCTGGCGCGTGGCATCCGTCAGTGGCTGAACGTGCTCAGGCGCACCCTGGCCACCCTGCTCGGCCAACTGAAGGCGCGCGATCAACTGGTCAGCGATACCCAGGCCCTCGGCCAACTGGTGGAACAGATCACCCTGACCCTGCTGTTCTCGCTGGATTACCAACGGATTCTCGGCAGCAACGGCGAGGTCCGGCTGGTGGTGTATCAGATAATGATGCTGGTGGCGCCCCACCTCACCAACGGCTCGCGCCAGGCGGCGGAGCAACTCGCCCGACGATACCTGGATACCTGA	MKTRDRILECALALFNQRGEPNVSTLEIATEMGISPGNLYYHFHGKEPLVLALFERFQDDLAPLLDPPGDVELSAEEYWLFLHLIVERLAQYRFLFQDLSNLAGRLPKLARGIRQWLNVLRRTLATLLGQLKARDQLVSDTQALGQLVEQITLTLLFSLDYQRILGSNGEVRLVVYQIMMLVAPHLTNGSRQAAEQLARRYLDT				NA	NA	NA	NA	NA
BMS010_04124	1683	phaC_1	COG3243	Poly(3-hydroxyalkanoate) polymerase subunit PhaC	ATGCGAGAGAAACCAGCGGCGAGCGCGTTGCCCGTCCCATCCACTTATATGAACGCGCAAAGCGCCATGGTCGGCCTCCGCGGCCGAGACCTGTTTTCCACCTTCCGCACCCTGGCCTTCCAAGGGCTGCGCCAACCAATCCTCAGCGCCCGGCATCTCGCGGCATTCGGCACCCAGCTCGGTCGGGTGCTGATCGGCGATACCCCCTACAAACCTAATCCGCAGGATTCCCGCTTCGCCGACCCCACCTGGCACCTCAATCCCTTCTATCGACGTGGCCTTCAGGCTTACCTGGCCTGGCAAAAACAGATCGCTGCCTGGATCGACGACAGCGACCTGGACGCCGATGACCGCGCCCGCGCCCGCTTCGTCCTCTCGTTGCTCAGCGATGCCCTCTCGCCGTCCAACAGCCTGCTCAACCCGCTGGCCGTCAAGGAGTTGTTCAACACCGGCGGCGCCAGCTTCTTCAAAGGGGTCAGCCACCTGTTCGAAGACCTGCTGCACAACAACGGTTTGCCCAGCCAGGTCAGCAAGCGAGCCTTCGAGGTCGGCCGCAACCTGGCCGTCACACCGGGCGCCGTGGTGTTCCGCAACGAGCTGCTGGAGCTGATCCAGTACAAGCCGATGAGCGAAAAGCAGTACGCCCGCCCGCTGCTGATCGTCCCGCCGCAGATCAATAAGTTCTACATCTTCGATCTGAGCCCGGAAAAGAGCTTCGTCCAGTACGCCCTGAAGAACGGCTTGCAGGTCTTCATCATCAGTTGGCGCAACCCGGACGCGCGCCATCGCGAATGGGGGCTGTCCACCTACGTACAGGCCGTGGAGCAGGCGCTGGACGTCTGCCGCGCCATCTGTGGGAGCCGCGACGTCAACCTGCTGGGCGCCTGCGCCGGCGGTCTGACCACCGCGGCCCTGCAAGGCCATTTGCAGGCCCGCCGCCAGTTGCGCAAGGTGGCCAGCTCCACCTACCTGGTCAGCCTGATGGACAGCCAGGTCGACACGCCGGCCACCCTGTTCGTCGACGAAAAGACCCTGGAAACCGCCAAGCGCCGCTCCTATCAACGCGGCGTGCTGGACGGCCGGGTCATGGCCAGCGTGTTCGCCTGGATGCGGCCGAACGACCTGATCTGGAACTACTGGATCAACAACTACCTGCTCGGCCGCCAGCCGCCCGCCTTCGATATCCTCTATTGGAACAACGACAACACCCGCCTGCCTGCGGCGCTGCACGGCGATTTCCTCGACCTGTTCAAGCACAACCCGTTGAGCCGTCCGGGTGGTCTGGAAGTCTGCGGCACCCCCATCGACCTGCAGAAAGTCACCGTGGACAGCTTCAGCGTGGCCGGCATTAACGACCACATCACGCCGTGGGACACGGTCTACCGCTCGACCCTGCTGCTCGGCGGCAACCGGCGTTTCATCCTGTCCAATAGCGGGCACATCCAGAGTATCCTCAACCCGCCGGGCAACCCGAAGGCGAACTATTACGAGGGCAGCAAGTTCAGTGGCGACCCACGTGCCTGGCAGCACGACGCCCAGCATGTCCAGGGCAGTTGGTGGCCGGAATGGTTGAAATGGATTCAGGAACACTCCGGCGAGCAGCACGAAACCCGGATGACCCTCGGCAATGCCAACCACCCCGCGATGGAGGCGTCCCCCGGCACCTACGTTCACGTACGCTGA	MREKPAASALPVPSTYMNAQSAMVGLRGRDLFSTFRTLAFQGLRQPILSARHLAAFGTQLGRVLIGDTPYKPNPQDSRFADPTWHLNPFYRRGLQAYLAWQKQIAAWIDDSDLDADDRARARFVLSLLSDALSPSNSLLNPLAVKELFNTGGASFFKGVSHLFEDLLHNNGLPSQVSKRAFEVGRNLAVTPGAVVFRNELLELIQYKPMSEKQYARPLLIVPPQINKFYIFDLSPEKSFVQYALKNGLQVFIISWRNPDARHREWGLSTYVQAVEQALDVCRAICGSRDVNLLGACAGGLTTAALQGHLQARRQLRKVASSTYLVSLMDSQVDTPATLFVDEKTLETAKRRSYQRGVLDGRVMASVFAWMRPNDLIWNYWINNYLLGRQPPAFDILYWNNDNTRLPAALHGDFLDLFKHNPLSRPGGLEVCGTPIDLQKVTVDSFSVAGINDHITPWDTVYRSTLLLGGNRRFILSNSGHIQSILNPPGNPKANYYEGSKFSGDPRAWQHDAQHVQGSWWPEWLKWIQEHSGEQHETRMTLGNANHPAMEASPGTYVHVR	PGPT0014740_1562	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_RELATED_GENES	CE-BIOFILM-POLYHYDROXYBUTYRATE_PRODUCTION,PGPT0014740-phbC|phaC-K03821	NA	NA
BMS010_04125	858	catD_1	COG0596	3-oxoadipate enol-lactonase 2	ATGCTGCAACCTTTCGTATTCCGCACCATCGACCTGGACGGCCAGACCATCCGTACCGCCGTGCGGCCGGGCAAGCCGCACCTCACGCCGCTGCTGATCTTCAACGGCATCGGCGCCAACCTGGAACTGGTGTTCCCCTTCGTCCAGGCGTTGGACCCGGATCAGGAAGTGATCGCCTTCGACGTGCCTGGCGTCGGCGGCTCCTCCACGCCGAGCAAGCCCTATCGCTTTCCCGGCCTCGCCAAGCTGGCGGCCCGGATGCTCGATTACCTGGATTATGGCCGGGTCAATGCCATCGGCGTGTCCTGGGGCGGCGCGCTGGCCCAGCAGTTCGCCCACGACTACCCGGAGCGCTGCAAGAAGCTGGTGCTCGCCGCCACCTCGGCCGGCGCCGTGATGATTCCCGGCAAGCCCAAGGTGCTCTGGCGCATGGCCAGCCCACGGCGCTACATCCAGCCGTCCTATGGCGTGCAGATCGCACCCGATATCTACGGCGGCGCCTTCCGCCGCGACCCCAACCTGGCCATGGCCCATGCGAGTAAGGTGCGTTCCTCGGGCAAGCTGGGCTATTACTGGCAGCTGTTCGCCGGCCTCGGCTGGACCAGTATCCACTGGCTGCACCGGATCAAGCAGCCGACTCTGATCCTCGCTGGCGACGACGACCCGATCATCCCGCTGATCAACATGCGTTTGTTGGCCTGGCGCATTCCGAATTCGGAACTGCATGTCATCGATGATGGTCACTTGTTCCTAGTGACGCGCGCGGAGGCAGTAGCGCCTATCATCATGAAGTTCCTACAAGAGGAACGGCAGCGTGCAGTGATGCATCCCCAGCCGGCTCCACTGCGCAGTCACTGA	MLQPFVFRTIDLDGQTIRTAVRPGKPHLTPLLIFNGIGANLELVFPFVQALDPDQEVIAFDVPGVGGSSTPSKPYRFPGLAKLAARMLDYLDYGRVNAIGVSWGGALAQQFAHDYPERCKKLVLAATSAGAVMIPGKPKVLWRMASPRRYIQPSYGVQIAPDIYGGAFRRDPNLAMAHASKVRSSGKLGYYWQLFAGLGWTSIHWLHRIKQPTLILAGDDDPIIPLINMRLLAWRIPNSELHVIDDGHLFLVTRAEAVAPIIMKFLQEERQRAVMHPQPAPLRSH				NA	NA	NA	NA	NA
BMS010_04126	1680	phaC_2	COG3243	Poly(3-hydroxyalkanoate) polymerase subunit PhaC	ATGACCCAGAAGAACAACGAAGACTTGCAACGCCAGGCGTCTGAAAACACTTTGAATCTCAACCCTGTCATCGGCTTACGCGGCAAAGACATCATCACCTCGGCCCGCATGGTGCTCTTGCAGGCCCTCAAGCAACCCATCCACAGCATCAAGCACGTCGGCCATTTCACCCTGGAACTGAAGAACGTTCTGCTCGGCCAATCCGAACTCACTCCGGAATCCGACGATCGCCGCTTCGCCGATCCGGCCTGGAGCCAGAACCCGCTGTACCGACGCTACCTGCAGACCTACCTGGCCTGGCGCAAGGAGCTTCATGACTGGATCGAGGACAGCAACCTCTCCGAGCTGGACACCAGCCGCGGTCACTTCGTGATCAACCTGCTGACCGAAGCCCTGGCGCCGACCAACAGCATGGCCAACCCGGCCGCGGTCAAACGCTTCTTCGAAACCGGCGGCAAGAGCCTGCTGGATGGCCTTTCCCACCTGGCCAAGGACCTGGTCAACAACGGCGGCATGCCCAGCCAGGTCAACATGGATGCCTTCGAGGTCGGCAAGAACCTCGCCACCACCGAAGGCGCGGTGATCTTCCGCAACGATCTGCTTGAACTGATCCAGTACAAGCCGACCACCGAGCAGGTCCATGAACGCCCCCTGCTGGTAGTGCCGCCGCAGATCAACAAGTTCTACGTCTTCGACCTGTCGCCGGAAAAGAGCCTGGCGCGTTTCTGCCTGCGTAACGGTTTGCAGACCTTCATCGTCAGTTGGCGCAACCCGACCAAGGCACAACGCGAGTGGGGCCTGTCCACCTACATCGAGGCGCTGAAAGAAGCCATCGACGTGATCCTCGCCATCACCGGCAGCAAGGATCTGAACATGCTCGGCGCCTGCTCCGGGGGCATCACCACCGCCTCGCTGCTCGGCCACTATGCCGCCACCGGCGAAACCAAGGTGAATGCCCTGACCCTACTGGTCAGCGTGCTGGATACCAAGCTGGATACCCAGGTCTCGCTGTTCGTCGACGAGCAGACCCTGGAAGCGGCAAAGCGTCGCTCCTACCAGGCCGGCGTACTGGAAGGCCGGGACATGGCCAAGGTGTTCGCCTGGATGCGGCCGAACGACCTCATCTGGAACTACTGGGTCAACAACTACCTGCTCGGCAACGAACCGCCGGTGTTCGACATCCTCTATTGGAACAACGACACTACGCGTCTCCCAGCCGCCTTCCATGGCGACCTCATCGAACTGTTCAAGAACAACCCGCTGACCCGTCCCTACGCCTTGGAAGTGTGCGGCACACCGATCGACCTCAAGCAGGTCAATAGCGACATCTTCTGCGTCGCCGGCACCACGGATCACATCACGCCCTGGGAAGCCTGTTACAAGTCGGCCCTGCTGTTCGGTGGGAAATGCGAATTCGTGCTCTCCAACAGCGGGCATATCCAGAGCATCCTCAATCCACCGGGCAACCCCAAGGCACGCTTCATGACCAACGAAACCCTGCCACCCAGCCCCAAGGCCTGGCAGGAAGACGCGACCAAGCACGCCGACTCCTGGTGGCTGCACTGGCAGACGTGGATGGCGGCTCGCTCCGGCGAGCTAAAGAAGGCCCCGGCCAAGCTGGGCAACAAGGCCTACCCGGCCGGCGAGGCCTCGCCCGGTACCTATGTGCATGAGCGCTGA	MTQKNNEDLQRQASENTLNLNPVIGLRGKDIITSARMVLLQALKQPIHSIKHVGHFTLELKNVLLGQSELTPESDDRRFADPAWSQNPLYRRYLQTYLAWRKELHDWIEDSNLSELDTSRGHFVINLLTEALAPTNSMANPAAVKRFFETGGKSLLDGLSHLAKDLVNNGGMPSQVNMDAFEVGKNLATTEGAVIFRNDLLELIQYKPTTEQVHERPLLVVPPQINKFYVFDLSPEKSLARFCLRNGLQTFIVSWRNPTKAQREWGLSTYIEALKEAIDVILAITGSKDLNMLGACSGGITTASLLGHYAATGETKVNALTLLVSVLDTKLDTQVSLFVDEQTLEAAKRRSYQAGVLEGRDMAKVFAWMRPNDLIWNYWVNNYLLGNEPPVFDILYWNNDTTRLPAAFHGDLIELFKNNPLTRPYALEVCGTPIDLKQVNSDIFCVAGTTDHITPWEACYKSALLFGGKCEFVLSNSGHIQSILNPPGNPKARFMTNETLPPSPKAWQEDATKHADSWWLHWQTWMAARSGELKKAPAKLGNKAYPAGEASPGTYVHER	PGPT0014740_1691	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_RELATED_GENES	CE-BIOFILM-POLYHYDROXYBUTYRATE_PRODUCTION,PGPT0014740-phbC|phaC-K03821	NA	NA
BMS010_04127	375			hypothetical protein	ATGCGGATACCCAGCGCCATCGAACTGCACAAAGCCTCGAAGACCCTCACACTGAAATACGATGAGGGCGAGAGCTATACCCTGCCGGCCGAATTCCTTCGCGTGCACTCGCCGTCCGCCGAGGTGCAGGGGCACGGCAACCCGATACTGCAATACGGCAAACTGCATGTCGGCCTCAGCAAAATCGAGCCGGCCGGGCAGTACGCCCTCAAGCTCAGCTTCGATGACGGTCACGACAGCGGCCTGTTCACCTGGGACTACCTCCACCACCTGGCCACCAACCAGGAACGCCTGTGGAAGGAATACCTCGCCGCCCTGGCCGCAGCCGGCAAATCCCGCGACCCCGACGAGTCGGTGGTCAAGCTGATGCTGTAG	MRIPSAIELHKASKTLTLKYDEGESYTLPAEFLRVHSPSAEVQGHGNPILQYGKLHVGLSKIEPAGQYALKLSFDDGHDSGLFTWDYLHHLATNQERLWKEYLAALAAAGKSRDPDESVVKLML				NA	NA	NA	NA	NA
BMS010_04128	1344	hslU_1	COG1220	ATP-dependent protease ATPase subunit HslU	ATGTCCATGACGCCCCGCGAGATCGTTCACGAACTCAACCGCCATATCATCGGCCAGGACGACGCCAAGCGCGCCGTGGCCATTGCCCTGCGCAACCGCTGGCGGCGCATGCAGTTGCCCGTCGAACTGCGCCAGGAAGTCACACCGAAGAACATCCTGATGATCGGCCCCACCGGGGTCGGCAAGACCGAGATCGCCCGTCGCCTGGCCAAACTGGCCAACGCTCCCTTCCTGAAGGTCGAGGCGACCAAGTTCACCGAGGTCGGCTATGTCGGCCGCGATGTGGAGTCGATCATCCGCGACCTCGCCGATGCCGCGGTGAAGATGCTCCGCGAACAGGAAATCCAGAAAGTCCGTTACCGCGCCGAAGATGCCGCCGAAGAGCGCATCCTCGATGCCCTGCTTCCGCCGGCGCGACCGGTCGGCTTCAGCGAAGAGCCGGTGCGCAGCGAAGATTCGAACACCCGCCAACTGTTCCGCAAACGCCTGCGCGAAGGCCAGTTGGATGACAAGGAAATCGACATCGAGGTGGCCGACGTGCCCTCCGGCGTGGAGATCATGGCGCCACCCGGCATGGAGGAGATGACCAGCCAGTTGCAGAACCTCTTCTCCGGCCTGGCCAAGGGCAAGAAGAAGAGCCGCAAACTCAAGGTCAAGGACGCGCTCAAGCTGATCCGCGACGAAGAGGCGGCACGCCTGGTCAACGAGGAAGAACTCAAGGCCCGTGCCCTGGAAGCGGTGGAGCAGAACGGTATCGTCTTCATCGATGAGATCGACAAGGTTGCCAAGCGCGGCAACGTTGGCGGTGCCGACGTTTCCCGCGAAGGCGTCCAACGCGACCTCCTGCCGCTGATCGAAGGCTGTACGGTGAACACCAAGCTGGGCATGGTGAAGACCGACCACATCCTGTTCATCGCCTCCGGTGCCTTCCACCTGTCCAAGCCCAGCGACCTGGTACCGGAGCTGCAGGGCCGCCTGCCGATCCGCGTGGAGCTGAAGGCCCTGTCGCCGCAGGACTTCGAGCGCATCCTCACCGAGCCGCACGCCTCGCTCACCGAGCAGTACCGCGAGCTGCTGAAGACCGAAGGGCTGGAAATCGAATTCGTCGAGGACGGCATCAAGCGACTCGCCGAGATCGCCTGGCAGGTCAACGAGAAGACCGAGAACATCGGCGCCCGTCGGCTGCACACACTGCTCGAACGCCTGCTGGAAGAGGTCTCCTTCAGCGCCGCCGACCTGGCCAGCGAGCACAGCGGCAAGCCGATCCGGATCGACGCCGCCTACGTCAACAGTCACCTCGGCGAACTGGCGCAGGACGAAGACCTGTCGCGCTATATTCTCTAA	MSMTPREIVHELNRHIIGQDDAKRAVAIALRNRWRRMQLPVELRQEVTPKNILMIGPTGVGKTEIARRLAKLANAPFLKVEATKFTEVGYVGRDVESIIRDLADAAVKMLREQEIQKVRYRAEDAAEERILDALLPPARPVGFSEEPVRSEDSNTRQLFRKRLREGQLDDKEIDIEVADVPSGVEIMAPPGMEEMTSQLQNLFSGLAKGKKKSRKLKVKDALKLIRDEEAARLVNEEELKARALEAVEQNGIVFIDEIDKVAKRGNVGGADVSREGVQRDLLPLIEGCTVNTKLGMVKTDHILFIASGAFHLSKPSDLVPELQGRLPIRVELKALSPQDFERILTEPHASLTEQYRELLKTEGLEIEFVEDGIKRLAEIAWQVNEKTENIGARRLHTLLERLLEEVSFSAADLASEHSGKPIRIDAAYVNSHLGELAQDEDLSRYIL				NA	NA	NA	NA	NA
BMS010_04129	534	hslV_1	COG5405	ATP-dependent protease subunit HslV	TTGACCACCATCGTTTCAGTCCGCCGCCACGGCAAAGTCGTCATGGGTGGCGACGGCCAGGTTTCCCTCGGCAACACTGTCATGAAAGGCAACGCGAAGAAGGTACGCCACCTGTACCACGGCCAGGTCCTGGCCGGCTTTGCCGGTGCCACGGCGGATGCCTTCACCCTGTTCGAGCGCTTCGAAGGCCAGTTGGAGAAACACCAGGGCCATCTGGTCCGTGCCGCCGTGGAGCTGGCCAAGGATTGGCGTACCGACCGTTCGCTGAGCCGGCTGGAGGCGATGCTCGCCGTGGCCAACAAGGACGCGTCGCTGATCATCACCGGCAACGGCGACGTGGTCGAACCCGAGCACGGCCTGATCGCCATGGGCTCTGGCGGCGGTTACGCCCAGGCCGCGGCCATGGCGCTACTGCAGCACAACGATGCGCTGTCCGCTCGCGAAGTCGCGGAAACCGCCTTGAAGATCGCCGGGTCCATCTGCGTCTTCACCAACCAGAATCTGACCATCGAGGAGCTGGACTCCGCCGTCTGA	MTTIVSVRRHGKVVMGGDGQVSLGNTVMKGNAKKVRHLYHGQVLAGFAGATADAFTLFERFEGQLEKHQGHLVRAAVELAKDWRTDRSLSRLEAMLAVANKDASLIITGNGDVVEPEHGLIAMGSGGGYAQAAAMALLQHNDALSAREVAETALKIAGSICVFTNQNLTIEELDSAV				NA	NA	NA	NA	NA
BMS010_04130	699	ftsN		Cell division protein FtsN	ATGGCGAAGAAAAAAGCAGCACCCAAGCGCGGCGCGAGCCGCTATCAGGCACCCAAGAACAAACCGGTGCCGGGCTGGGTGTGGATGGTCTGCGGCCTCGCCATTGGCGGTTTCCTGGTGTTCCTGATGAAACTGGAGCCGGGGCGCAACGAAGTGAAGCGGCCCAAGCCCGAACAGGCACGCCCCGGCACCACCAGCCAGCCGGCCAAGACCCCGCAGCCGGCGCAGCCCGAGAAGCCGAAGTACGACTTCTACACGCTGCTGCCCGAATCCGAAGTCATCGTGCAACCGGAAGCACTGCCGGAGCCGACACCGGCACCAACGCCCCCGCCGACACAGCCGCCGGTCAAGCTGACCCCGGAACAGGAGGCGGCCAAGGCCGAGGCGTTGCTCAACGGCAAGACGCCGCCACCGATTCCCACGCCCACGCCGCCGCCCACCGTGGCCAAGGCGCCGGTCACCCAGTTCTTCCTGCAGGCCGGCTCTTTCCGCCGCAAGGACGACGCCGAAGCGGTGCGGGCCCAGATCATCCTGCTCGGCCAGAACGTGAAGGTGGAATCCGGCACCGTGCGCGACGAAACCTGGCACCGGGTAATGGTCGGCCCCTTCGCCAACCGCGAGCAGCTCAACAGCGCGCAGAAGGAACTCAGCGCCAACGGTTTCAGCAACCTGTTGCTGCAACAGCGCCAGGTACGCTGA	MAKKKAAPKRGASRYQAPKNKPVPGWVWMVCGLAIGGFLVFLMKLEPGRNEVKRPKPEQARPGTTSQPAKTPQPAQPEKPKYDFYTLLPESEVIVQPEALPEPTPAPTPPPTQPPVKLTPEQEAAKAEALLNGKTPPPIPTPTPPPTVAKAPVTQFFLQAGSFRRKDDAEAVRAQIILLGQNVKVESGTVRDETWHRVMVGPFANREQLNSAQKELSANGFSNLLLQQRQVR				NA	NA	NA	NA	NA
BMS010_04131	1764	argS_1	COG0018	Arginine--tRNA ligase	ATGAAAGACACCATTCGCCAGCTGATCCAGCACGCCCTGAACCATCTCGCCAGCGAAGGCGTTCTGCCCGAAGGGCTGAGCCCGGCGATCCAGGTGGAAAACACCAAGGACAAGAGCCACGGCGACTTCGCCAGCAACATCGCCATGATGCTGGCCAAACCGGCCGGCATGAAACCGCGCGACCTGGCGGAAAAACTGATCGCCGCCCTGCCGGCCAACGAGCAGGTGGCCAAGGTGGAGATCGCCGGCCCCGGCTTCCTCAATTTCTTCCAGAACACCGGCGCCCTCGCCCAGCGCCTCGAAGCCGCATTGGCCGATGCCAAGCTGGGCGTAAGTAAAGCCGGTGCGAAGGAACGGGTCGTCGTGGACCTGTCCGCGCCCAACCTGGCCAAGGAAATGCACGTCGGCCACCTGCGTTCGACCATCATTGGCGACGGCGTGGCCCGGGTGCTGGAATTCCTCGGCGACGAAGTGATCCGCCAGAACCACGTGGGCGACTGGGGCACCCAGTTCGGCATGCTGCTGGCCTACCTGCAGGAAAACCCGGCCTCCGCCGAGAGCGAGCTGTCCGACCTGGAACAGTTCTATCGCGCCGCGAAGAAGCGTTTCGACGAATCCAGCGAATTCGCCGACCGCGCCCGCGAACTGGTGGTGCAGTTGCAGGCAGGCGATGCGGAATGCCTGCGCCTCTGGCACCGCTTCAACGACATCTCGCTGTCGCATTGCCAGAAGGTCTACGATCGCCTCAACGTCAAACTGACGCCCGCCGACGTCAAGGGCGAAAGCGCCTACAACGACGACCTGCCCAATGTGATCGCCGACCTGCGCAGCGCCGGCCTGCTCACCGAGAGCGAGGGCGCCCAGTGCGTGTTCCTCGACGAATTCAAGAATGCCGAAGGCAATCCGCTGCCGGTAATCGTGCAGAAGGCCGGCGGCGGTTACCTCTATGCCACCACCGACCTCGCCGCGATGCGCTACCGCAGCCGCGTACTCAAGGCCGACCGCGCCCTGTATTTCGTCGACCAGCGCCAAGCCCTTCACTTCCAGATGGCTTTCGCCGTGGCACGCCGTGCCGGCTTCGTCCATGACGGCATGGATCTCGAGCACATGGGCTTCGGTACCATGAACGGCGCCGACGGCCGTCCCTTCAAGACCCGCGACGGTGGCACGGTGAAGCTGATCGACCTGCTCGACGAGGCCGAAGAGCGCGCCTACAACCTGGTGAAGGAGCGTAACCAGCAGCGCGCCGAACGGGGCGAAACGCCGCTGAAAGAAGACGAGCTGCGCCAGATCGGCCGCGTCGTGGGCATCGACTCGGTGAAGTACGCCGACCTCTCCAAGCACCGCACCAGCGACTACAACTTCAACTTCGAGCAGATGCTCAGCTTCGAGGGCAACACCGCGCCCTACCTGCTCTACGCCTATACCCGCGTGGCCAGCGTGTTCCGCAAGCTGGGGAAGGGCTTCGACGAAATCGAGGGCCACATCGCCCTGGATGCCGAGCAGGAGATCGCCCTGGCGGCCAAGCTGGCACAGTTCGGCGAAGTGCTCAACAGCGTTGCCGAGAAAGGCGTCCCGCACCTGTTGTGCGCCTATCTGTATGATCTGGCCGGTCTGTTTTCCAGCTTCTACGAGCACTGCCCGATCCTCACCGCGGAGGAGCCGGCACAACAGCAGAGCCGCCTGCGCCTCGCGGCGCTGACCGGCCGAACCCTCAAGCAGGGTCTGGAACTGCTCGGGCTGGAAACTCTGGAACGCATGTAA	MKDTIRQLIQHALNHLASEGVLPEGLSPAIQVENTKDKSHGDFASNIAMMLAKPAGMKPRDLAEKLIAALPANEQVAKVEIAGPGFLNFFQNTGALAQRLEAALADAKLGVSKAGAKERVVVDLSAPNLAKEMHVGHLRSTIIGDGVARVLEFLGDEVIRQNHVGDWGTQFGMLLAYLQENPASAESELSDLEQFYRAAKKRFDESSEFADRARELVVQLQAGDAECLRLWHRFNDISLSHCQKVYDRLNVKLTPADVKGESAYNDDLPNVIADLRSAGLLTESEGAQCVFLDEFKNAEGNPLPVIVQKAGGGYLYATTDLAAMRYRSRVLKADRALYFVDQRQALHFQMAFAVARRAGFVHDGMDLEHMGFGTMNGADGRPFKTRDGGTVKLIDLLDEAEERAYNLVKERNQQRAERGETPLKEDELRQIGRVVGIDSVKYADLSKHRTSDYNFNFEQMLSFEGNTAPYLLYAYTRVASVFRKLGKGFDEIEGHIALDAEQEIALAAKLAQFGEVLNSVAEKGVPHLLCAYLYDLAGLFSSFYEHCPILTAEEPAQQQSRLRLAALTGRTLKQGLELLGLETLERM				NA	NA	NA	NA	NA
BMS010_04132	2235	priA_1	COG1198	Primosomal protein N'	TTGCCCGACGCCCAACCCCACTCGCCCATCCTGCGTCTTGCCCTGCCCTCGCCGCTGCGTCGCCTGTTCGACTACCGCGCGCCGGCCGGCGTACCGCGCGGAGCGCTGCAGCCCGGGGTGCGCCTGCGCGTGCCGTTCGGCCGGCGCGAGGTGGTCGGCGTCCTGGTCGAACTCAGCGATCACAGCGAGGTGCCCGTCGACAAACTCAAGGCCGCCCTCGAACTGCTCGACCAGCGCCCGCCATTGCCGGCGTCGCTGTTCAAGCTGTGCCTGTGGACCGCGCAATACTACCAACACAGCTTGGGCGACACCCTGAGCTGGGCACTGCCCGTACTGCTGCGTCAGGGCGAACCGGCCGAGGCGAGGCAGGAGCGTTTCTGGCACGCGGCGCAGGATGTGCGCCTCGATGACCCGCGCCTGGCGCGGGCTCCGCGTCAGAAACAGGCGCTGCAGACCCTCGCCCAGCACCCCCATGGCGTGGCGCATCAACTGCTCGGCAAACTGCAGATCAACAAGGACAGCCTCGACCTGCTCCTGGAAAAGGGCCTCGTGCGCATCGAGGTACGTAGACATCGGCCTGCCGAGCATCATGGTGGCTGGCTGGCGCAGCCCGAACTGCCGCTGAACGCCGAACAGCGCGCCGCCGCCGAGGCGGTACACGCCGGTTTTGGCCGGTTCGGCGCCTACCTGCTGGCCGGCGTCACCGGCAGCGGCAAGACCGAGGTGTACCTGCAATTGATCCGCCAGACCCTGGAAGCCGGCAAACAGGCCCTGGTGCTGATTCCGGAAATCAACCTCGGCCCACAAACGCTGGAACGCTTCGCCCGCCGCTTCAACGCCCGCATCGCCCTGCTGCACTCCAACGTAAACGACCGCGAGCGCCTGGACGCCTGGCTCGCGGCGCGCGACGGCGAGGCGGACATCGTCATCGGTACCCGTTCGGCGCTGTTCACGCCGCTGAAGAATCCGGGCCTGATCATCGTCGACGAGGAACACGACGCTTCTTATAAACAGCAGGAAGGGCTGCGTTATCACGCCCGCGATCTCGCTCTGGTCCGTGCCCGGCAGGAAGACGTGCCGATTCTGCTCGGCTCCGCCACGCCCTCGCTGGAAAGCCTGCAGAACGCCTATGCCGGCCGTTATGCCCTGCTCAAGCTCACCCAGCGCGCCGGCGGTGCGCGTCAGCCGCGCTTCCTGCGCCTGGACGTGAAGAGCCGTCCGCTGGACTCCGGCATCTCCGGGCCGATGCAACAGGCCATCGGCCAGACCCTGGAAGCCGGCCAGCAAGTGCTGGTCTTCCTCAACCGCAGGGGTTTCGCGCCGACCCTGCTCTGTCACGACTGCGGTTGGATCAGCCAGTGCCCACGCTGCGATGCACGAATGACCGTGCACCAGCGCTCCGGCGAACTGCGCTGCCACCACTGCGGTCACGCGCAGCGCCCACCGAGCAATTGCCCGGATTGCGGCAAGGTAGACCTGCGCCCGATTGGCGCCGGCACCGAGCGCGCCGAAGAGCGCCTGCGCATTCTCTTCCCGGAATACCCGGTACTGCGCATCGACCGCGACAGTACGTCGCGCAAGGGCGCGATGGACCAGTTGTTCGGCACCATCCAGCGCGGCCACCCATGCATCCTGGTGGGCACCCAGATGCTCGCCAAGGGGCACCATTTCCCCCGCGTCACCCTGGTGGCCATCCTCGATGCCGACGGGGGACTGTTCTCCGCCGACTTCCGTGCCAGCGAGCGCATGGCCCAATTGATCGTTCAGGTCGCCGGACGCGCCGGACGTGCCGAGGAGCCCGGCAAGGTCATCATCCAGACCCACCTGGCCGACCACCCTCTGCTCGTGCAACTCACCGAACAGGGCTACTTCGCCTTCGCCGAGCAGGCCCTGAGCGAGCGCCGCGCCGCCGGTCTTCCACCGTTCACCCACTTGGCGCTGCTACGCGCCGAAGCGCACAAGCCCGGCCAGGCCGAGGGTTTTCTCGACGAGGCCTGTACGGAAGCCGAGCGGCTCCTGGCCGAACTGCAACTGGGCAGCATCGAGCTGCTCGGCCCCGTTCCGGCACCGATGGAACGCCGCGCCGGCCGCTATCGCGCGCAACTCCTGCTGCAAGGTAACGCCCGCGCGCCGCTGCATCGCCTGATGAATGCCTGGTTGCCGATACTCGAACACCTGCCTGGCGGCCGCGCGGTACGCTGGTCGCTGGACGTGGACCCGATCGACCTGTTCTGA	MPDAQPHSPILRLALPSPLRRLFDYRAPAGVPRGALQPGVRLRVPFGRREVVGVLVELSDHSEVPVDKLKAALELLDQRPPLPASLFKLCLWTAQYYQHSLGDTLSWALPVLLRQGEPAEARQERFWHAAQDVRLDDPRLARAPRQKQALQTLAQHPHGVAHQLLGKLQINKDSLDLLLEKGLVRIEVRRHRPAEHHGGWLAQPELPLNAEQRAAAEAVHAGFGRFGAYLLAGVTGSGKTEVYLQLIRQTLEAGKQALVLIPEINLGPQTLERFARRFNARIALLHSNVNDRERLDAWLAARDGEADIVIGTRSALFTPLKNPGLIIVDEEHDASYKQQEGLRYHARDLALVRARQEDVPILLGSATPSLESLQNAYAGRYALLKLTQRAGGARQPRFLRLDVKSRPLDSGISGPMQQAIGQTLEAGQQVLVFLNRRGFAPTLLCHDCGWISQCPRCDARMTVHQRSGELRCHHCGHAQRPPSNCPDCGKVDLRPIGAGTERAEERLRILFPEYPVLRIDRDSTSRKGAMDQLFGTIQRGHPCILVGTQMLAKGHHFPRVTLVAILDADGGLFSADFRASERMAQLIVQVAGRAGRAEEPGKVIIQTHLADHPLLVQLTEQGYFAFAEQALSERRAAGLPPFTHLALLRAEAHKPGQAEGFLDEACTEAERLLAELQLGSIELLGPVPAPMERRAGRYRAQLLLQGNARAPLHRLMNAWLPILEHLPGGRAVRWSLDVDPIDLF				NA	NA	NA	NA	NA
BMS010_04133	213	rpmE_2	COG0254	50S ribosomal protein L31	ATGAAACCGGAAATCCATCCCGCGTACGATGAAGTCGTTGCCACCTGCAGCTGCGGCAACGTCATCAAGACCCGTTCCACCCTGTGCAAGCCGATCAGCCTGGACGTGTGCTCCGAGTGCCACCCGTTCTACACCGGCAAGCAGAAAGTGCTGGACACCGGCGGCCGTATCGATCGCTTCAAGCAGCGTTTCGGCGTGTTCGGCGCCAAGTAA	MKPEIHPAYDEVVATCSCGNVIKTRSTLCKPISLDVCSECHPFYTGKQKVLDTGGRIDRFKQRFGVFGAK	PGPT0014325_4141	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014325-rpmEB-K02909	NA	NA
BMS010_04134	801			hypothetical protein	ATGGGTTTTTCCGAGTCGATGAAAAAGGCGTCCCTTGTGGGCGCCTTTTTCGTTTCCGTTCTTTGGTTCTCCCCGGCGATGGCGTTCTGTCCGTCTCCGGGCAAGCTGCCGCAACTGCCGGTGCAGAAGGTGGTGGATGGCGACACCGTGCGCCTCGTCGATGGGCGCAGCATCCGGCTGATCGGCCTGAATGCACCGGAGTTGGGGCTCAAGGGGCGTTCCGACGAGCCCTTTGCCGAGGCGGCGCGCAAGCGCCTTGCTCAGCTCGTAGCGGCGAACGATGGTCGGGTCGGGCTACGCCCCGGTCGGCAGGCCAAGGACCACTATGGTCGTACCTTGGCGCATGCCTATGACGTCAGCGGCCGCAATATCGAGGCCGTATTGCTGGCGGAAGGGCTGGGCTTCGCCGTGGCGGTCGAGCCGAACGTGGCCCTGGCGGAGTGTCAGCGTGCCGCCGAGCGGGATGCGCGCGAGGCGCGGCGGGGGCTCTGGCGGCGTGCGCCCTGGCTGGAGGCGGCTGCGCTCGAGCAAAGCGGCTTCGCGTTGATCAGGGGGCGGGTGGCAAAAGTGGAGCGGAATCGTGGAGGTATCTGGCTCGAGATGGAGGGGCCGTTGGTCCTGCGTGTCGAGCCCCGACTGATCGCGTCCTTCGATGAGAAAGTGCTCATGGCATTGGCCGGCCGCGACGTGGAAGTGCGTGGTTGGGTGGTGGATAGGTCCCGCAGCGGGGAGGCCAGATCCGGGCAGGCCCGTTGGCTGCTGCCTCTCACTTCTCCCGCGATGCTGGAGGTCGTTCGATGA	MGFSESMKKASLVGAFFVSVLWFSPAMAFCPSPGKLPQLPVQKVVDGDTVRLVDGRSIRLIGLNAPELGLKGRSDEPFAEAARKRLAQLVAANDGRVGLRPGRQAKDHYGRTLAHAYDVSGRNIEAVLLAEGLGFAVAVEPNVALAECQRAAERDAREARRGLWRRAPWLEAAALEQSGFALIRGRVAKVERNRGGIWLEMEGPLVLRVEPRLIASFDEKVLMALAGRDVEVRGWVVDRSRSGEARSGQARWLLPLTSPAMLEVVR				NA	NA	NA	NA	NA
BMS010_04135	1434	bepA_3		Beta-barrel assembly-enhancing protease	ATGATGCGTCTTTGTGCTCTGCTCCTGGTGCCTTTCATTCTGGCTGGCTGTGCGGTGAATCCGGCGACCGGGCGCACCGATTTCGTGATGATGAGCGAGCGCGAAGAGATCGATCTCGGTCAGCGCTATAGCCAGGAAATCCTCAAGCAGAACCCGCGTTACGCCGATGAGAAACTCCAGGCCTATGTTCAGCAAGTGGGTGAGCGGGTGGCACGGCATGGGCACCGGAGCAGCTTGGCCTATACCTTCACGGTCATCGATAGCCCGGACATCAACGCCTTCGCCTTGCCCGGTGGGCACATCTATATCCATCGCGGGCTGCTCGCCTATCTGAACACCGAGGCGGAGCTGGCGGCCGTGCTGGGGCATGAGATCGGCCATGTTACCGCTCGCCACAGCGTACGCCAGCAGAGCCAGTCGACTGCCTGGGGGTTGTTGGGGCAGGCAGTGGCCATCGGCACCGGAGTCAGTGCCGCGGGCGACCTCACCAATGTGCTGGGCACGGCATTCGTGCGTGGCTACGGTCGGGACATGGAGCTGGAAGCCGACGGGCTCGGTGCCCAGTACTTGGCGCGCAGCGGCTACGATCCGCAGGCGATGATCGAGGTCGTGAAGATCCTGAAGAACCAGGAGACCTTTGCCCGGGATCAGGCGGCGAAGAGTGGCCAGCCGGCTCCTGCCAGTTATCACGGAATCTTCGATACCCACCCGGACAACGACCGTCGTTTGCAACAGGTGATCGGCCCGGCCCAGGCATTGGCGAGCGGGCAGCAGGAAGTTAACCGGGAGGCGTTCCTGAAGGCGCTGGAGGGGTTGCCTTTCGGCGATTCGGAGGCCAGTGGTGTGCGTCGTGGCCAGCAGTTTTATCACGCGGGGCTCGGTTTCACTCTGCGCTTTCCGGATGGCTGGCAGATGGTCAACCGTCCCGATGCCTTGATTGGTCTCTCTCCCGACCAGCAAGCCTTCGTCGCCATGGTGCTCGAGGAGCCCAAGCAAGGGATGACCCCGGCGGAGTTCCTACGTCAGCGCGTTCGGGCACAGCGCCTGGCTCAGGAAGAGCCGCTGCGTCAGGCTGGTCTGGAGGGGCATGCCGCGGTGATACCCGGCAATCCGGCCAAGCGCGTGGCTGTCCTGTACAAGGACGGCCATGCCTTTATCTTCCTGGCAGGTATCAAAGGTCGCGGCTCGCTGGAGAGCGAAGACGCCCGCTTCCTCTCGGTGATCAAGAGCTTCCGCCCGCTTGCGGCTAATGAGCGCAAGCTCGCCGAGCCGTTGCGCGTGCAGCTGGTTCGCGTCACTCCGGGGCAGCGCATGGCGGATATCGCCAAGTCTTCTCGGCTTCCCGGTGACTCGGAGGCCCGTCTCCGCCTTCTCAACAACCTCTACCCAAACGGCGAGCCGCATCCAGGAGACTGGCTTAAAGTCGTACGCTAG	MMRLCALLLVPFILAGCAVNPATGRTDFVMMSEREEIDLGQRYSQEILKQNPRYADEKLQAYVQQVGERVARHGHRSSLAYTFTVIDSPDINAFALPGGHIYIHRGLLAYLNTEAELAAVLGHEIGHVTARHSVRQQSQSTAWGLLGQAVAIGTGVSAAGDLTNVLGTAFVRGYGRDMELEADGLGAQYLARSGYDPQAMIEVVKILKNQETFARDQAAKSGQPAPASYHGIFDTHPDNDRRLQQVIGPAQALASGQQEVNREAFLKALEGLPFGDSEASGVRRGQQFYHAGLGFTLRFPDGWQMVNRPDALIGLSPDQQAFVAMVLEEPKQGMTPAEFLRQRVRAQRLAQEEPLRQAGLEGHAAVIPGNPAKRVAVLYKDGHAFIFLAGIKGRGSLESEDARFLSVIKSFRPLAANERKLAEPLRVQLVRVTPGQRMADIAKSSRLPGDSEARLRLLNNLYPNGEPHPGDWLKVVR				NA	NA	NA	NA	NA
BMS010_04136	1269	maeB	COG0281	NADP-dependent malic enzyme	ATGTCTGACCTGAAAACAGCCGCTCTCGAGTATCACGCCCAGCCCCGTCCCGGGAAGCTGAGCGTCGAGCTGACCAAGCCCACTGCCACTGCCCGTGATCTGTCTCTGGCATACAGCCCGGGTGTCGCCGAGCCGGTACGCGAGATCGCCCGCGATCCGGAACTGGCCTACCGCTATACCGGCAAGGGCAATCTGGTGGCAGTCATCTCCGATGGCACGGCTATTCTCGGTCTGGGCAACCTCGGCCCGCTGGCCTCCAAGCCGGTCATGGAAGGCAAGGGCGTGCTGTTCAAGCGTTTCGCCGGCATCGACGTGTTCGACATCGAAGTCGATGCCGAAAGCCCGCAGGCCTTCATCGACACTGTCAAGCGCATTTCCATCACCTTCGGTGGCATCAACCTGGAAGACATCAAGGCGCCGGAGTGCTTCGAGATCGAGCGCACATTGATCGATCAGTGCGATATTCCGGTCTTCCATGACGACCAGCACGGCACCGCCATCGTAACGGCCGCCGGCATGCTCAATGCGTTGGAAATCTCCGGCAAGACGCTCGAAGCGGCGAAGATCGTCTGCCTGGGCGCCGGCGCTGCGGCGATCTCCTGCATGAAACTGCTGGTGAGCATGGGGGCCAAGGTCGAGAACATCTATATGATCGACCGCAAAGGCGTGATCCATGCCGGTCGCGATGATCTGAACCAGTACAAGGCCGTGTTCGCCCACGAAACTGACAAGCGCACACTGTCCGATGCCTTGGAAGGTGCCGATGTGTTCGTCGGCCTGTCGGGCGCCAACCTGCTGAGCGCCGAAGACCTGAAGCGCATGGCGCCGAACCCGATCGTTTTCGCCTGCTCCAACCCGGACCCGGAAATCAAGCCGGAGCTGGCCCATGAAACCCGCAATGACGTGATCATGGCCACCGGTCGTTCGGACTATCCGAACCAGGTGAACAACGTGCTCGGTTTCCCCTTCATCTTCCGTGGTGCGCTCGATGTTCGCGCGACCCGCATCAACGAAGAAATGAAGATTGCCGCCGCCCTGGCGCTGCGCGACCTGGCCAAGCTGCCGGTTCCGCAGGAAGTCTGCGACGCCTACGGTGGCATCAAGCTGGAGTTCGGTCGCGAGTACATCATTCCGAAGCCGATGGATGCTCGTCTGATCACCGTGGTGTGCGACGCCGTGGCCAAGGCTGCGATCGAGAGCGGCGTAGCCACTCTGCCGTATCCGAAGCACTACCCGCTGAAGTCGGTGGACGACGTCTTCAACGGCTAA	MSDLKTAALEYHAQPRPGKLSVELTKPTATARDLSLAYSPGVAEPVREIARDPELAYRYTGKGNLVAVISDGTAILGLGNLGPLASKPVMEGKGVLFKRFAGIDVFDIEVDAESPQAFIDTVKRISITFGGINLEDIKAPECFEIERTLIDQCDIPVFHDDQHGTAIVTAAGMLNALEISGKTLEAAKIVCLGAGAAAISCMKLLVSMGAKVENIYMIDRKGVIHAGRDDLNQYKAVFAHETDKRTLSDALEGADVFVGLSGANLLSAEDLKRMAPNPIVFACSNPDPEIKPELAHETRNDVIMATGRSDYPNQVNNVLGFPFIFRGALDVRATRINEEMKIAAALALRDLAKLPVPQEVCDAYGGIKLEFGREYIIPKPMDARLITVVCDAVAKAAIESGVATLPYPKHYPLKSVDDVFNG	PGPT0001685_4052	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001685-maeB-K00029	NA	NA
BMS010_04137	2433	mrcA_1	COG5009	Penicillin-binding protein 1A	ATGCGTTTGTTGAAGTTTTTCTGGTGGTCTTTCGTCGCTGTTTTTTGTGGGCTACTGCTCAGTTTCAGCGGCGCATTCCTCTACCTCAGCCCTAGTCTCCCTTCAGTCGATTCCCTTCGTAGCATTCAGCTGCAAATCCCGCTTCGGGTTTATAGCAGTGATGCCAAGCTGATCGCAGAATTCGGGGAGATGCGCCGTTCGCCCATTCATTTCGCGGACATACCACAGGAGTTCATCCAGGCACTGCTTTCTGCCGAGGACGACAACTTCGCCAACCATTATGGCGTCGACGTGACCAGCCTGATGCGTGCTGCCACTCAATTATTGAAAAGCGGCCACATCCAGACGGGCGGTAGCACCATCACCATGCAGGTGGCGAAGAACTACTTCCTCACCAGCGAGCGGAGCTTTTCACGCAAGATCAACGAGATCCTCCTGGCCCTGCAGATCGAGCGCGAACTGAGCAAGGACGAGATCCTCGAGCTCTACGTCAACAAGATCTACCTGGGCAATCGCGCCTACGGAATCGAAGCTGCCGCCCAAGTCTATTACGGCAAATCCATCCGAGACTTGAGCCTGGCGCAGATGGCGACGATCGCCGGTCTGCCGAAAGCCCCCTCGCGCTTCAACCCCCTGGTCAACCCGACCCGAGCCAAGGAGCGCCGCGACTGGATTCTCGGCCGTATGTACCGCCTCGGAAAAATCGACGAAGCGAGTTACCAGGCCGCATTGGCAGAGCCTATCGATGCCAGCTACCACGTCCCCACACCGGAACTGAGCGCCCCCTATGTTGCCGAGATGGCGCGCGCCGAAATGGTCGGACGCTATGGCAGCGACGCCTACACCGAAGGCTTCCGCGTGACAACGACGGTGCCCAGCGACCTCCAGCAGGCGGCCAATCGCGCCCTGCGCGAAGGCTTGATCAGCTACGACCAGCGACATGGCTACAGGGGACCGGAAACCCGCCTGCCGAACATGACGCGGGAAGCGTGGCAGCAGGAGTTGAGCAAGCACCGCACCATTAATGGTCTCGAGCCGGCCATCGTCACACAGGTCGAGAAGAGCGGCATCCTCGTACTGACCCGTAATGGCGAGGAAGAAGCCGTCGCCTGGGACAGCATGAAATGGGCGCGCCCCTATCTCAACACCAACAGCCTTGGGCCCCGCCCGCAATCTCCTGCCGATGTCGTGCAACCCGGCGATCTGATTCGCGTGCAGCGTAGCGAAGAAGGCAGCCTGCTGTTCAGCCAGGTGCCCTCGGCCCAAAGCGCGCTGGTTTCCCTGGACCCGCAGAATGGTGCCATCCGTGCACTGGTCGGGGGCTTCTCCTTCGAACAGAGCAACTACAACCGGGCGGCCCAAGCCAAGCGCCAGCCCGGCTCGAGCTTCAAGCCCTTCCTTTATACAGCAGCACTGGACAGTGGCTTCACCGCGGCGACCATGGTCAACGATGCTCCCATCGTGTTCCATGAAGCCGGCATGGAAGAGGCCTGGCGACCGAAGAACGACAACAATACCTTCCTCGGCCCGATCCGGTTGCGCGAAGCGCTCTACAAGTCCCGCAACCTGGTTTCCATTCGCCTGCTCCAGACCATCGGCATCGACTATGCGCTGGACTACGTGACCCGGTTCGGCTTCAACAGGCAGGAGCTCCCGCGCAATCTGTCCCTCGCGCTGGGTACCGCCAACCTGACCCCCCTGGAAGTAGCCGGCGGCTGGACCGTCTTCGCCAATGGCGGCTACAAAGTGCAGCCCTACCTGATCGAGCGAATTGAGAGCCGGGAAGGCGAGCCTCTTTATGTAGCCAACCCGCCGAGCGTCCCAACCGAAGAGAACATGGCCCAACAGCCGGAGCCCTCCGAAGAAAGGGAAGCCACTATCACCCAGGTGAGTAACAGCCCCGCCGCCGCCACCGAACCGGCCATAGCCGAACGCGTGGTAGACCCACGCACCACCTACATCATGACCAGCATGCTGCAGGATGTGATCAAGCGCGGCACCGGACGCAGGGCGCTGAGCATGAAGCGAGGCGACATAGCCGGCAAGACCGGCACCACCAACGAATCCAAGGACAGCTGGTTCTCCGGCTACAACGCAGACCTGGTCACGACGGTCTGGGCCGGCTTCGATCAGCCGGAAAGCCTGGGACGCAATGAGTACGGCGGGACCGTTGCCTTGCCGATCTGGATCGATTTCATGAGCGCCGCGCTCAAGGAAAAGCCGGAGCACGTCCAGCCCGAGCCGGAGGGTCTGCTTACACTGCGCATTGACCCGATCACCGGTCGTGCAGCCTCACCGGGCTCGCCCAACGCCTACTTCGAACTGTTCAAGAGCGAGGATTCGCCCCCGCCCATGAACGAACTCGAACCAGGCATGGGCTTCCCGGGCAGTCCGTTACCCGCCGACGAAGCCGCACCCATCGATCTGTTCTGA	MRLLKFFWWSFVAVFCGLLLSFSGAFLYLSPSLPSVDSLRSIQLQIPLRVYSSDAKLIAEFGEMRRSPIHFADIPQEFIQALLSAEDDNFANHYGVDVTSLMRAATQLLKSGHIQTGGSTITMQVAKNYFLTSERSFSRKINEILLALQIERELSKDEILELYVNKIYLGNRAYGIEAAAQVYYGKSIRDLSLAQMATIAGLPKAPSRFNPLVNPTRAKERRDWILGRMYRLGKIDEASYQAALAEPIDASYHVPTPELSAPYVAEMARAEMVGRYGSDAYTEGFRVTTTVPSDLQQAANRALREGLISYDQRHGYRGPETRLPNMTREAWQQELSKHRTINGLEPAIVTQVEKSGILVLTRNGEEEAVAWDSMKWARPYLNTNSLGPRPQSPADVVQPGDLIRVQRSEEGSLLFSQVPSAQSALVSLDPQNGAIRALVGGFSFEQSNYNRAAQAKRQPGSSFKPFLYTAALDSGFTAATMVNDAPIVFHEAGMEEAWRPKNDNNTFLGPIRLREALYKSRNLVSIRLLQTIGIDYALDYVTRFGFNRQELPRNLSLALGTANLTPLEVAGGWTVFANGGYKVQPYLIERIESREGEPLYVANPPSVPTEENMAQQPEPSEEREATITQVSNSPAAATEPAIAERVVDPRTTYIMTSMLQDVIKRGTGRRALSMKRGDIAGKTGTTNESKDSWFSGYNADLVTTVWAGFDQPESLGRNEYGGTVALPIWIDFMSAALKEKPEHVQPEPEGLLTLRIDPITGRAASPGSPNAYFELFKSEDSPPPMNELEPGMGFPGSPLPADEAAPIDLF	PGPT0023875_2512	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023875-mrcA-K05366	NA	NA
BMS010_04139	1065	ftsA_2		Cell division protein FtsA	GTGCTAGGGCTCTTCACTAAGAAAGCGAATTCGCTGCTGGGGATCGATATCAGTTCGACCTCGGTCAAGCTCCTTGAATTGAGTCGCTCGGGCAGCCGCTACAAAGTAGAGGCTTACGCCGTCGAGCCGCTCCCACCCAATGCGGTCGTCGAGAAGAACATCGCCGAACTGGAAGGTGTCGGTCAGGCTTTGTCTCGCGTCCTGGCTAAAGCCAAGACCGGTGTCAAGACGGTCGCCGTCGCTGTCGCCGGTTCTGCGGTGATCACCAAGACCGTCGAGATGGAAGCCGGGCTTTCCGACGATGAGCTGGAAACTCAGCTGAAGATCGAGGCTGACCAGTACATTCCATATCCGCTGGAAGAGGTGGCCATCGACTTTGAAGTCCAGGGCCCTTCTCCACGCAATCCCGATCGCGTCGAAGTGCTTCTTGCGGCCTGCCGTAAAGAGAACGTGGAGGTCCGCGAGGCCGCCTTGGCGCTTGCCGGTCTGACGGCGAAGGTCGTCGATGTCGAGGCTTATGCGCTGGAACGTGCCTACGGATTGCTCGAGGCGCAACTCGGCAATGGTCATGACGAATTGACCGTCGCGGTAGTTGATATCGGCGCCACCATGACCACGCTGAGCGTGCTGCATAACGGGCGCACCATCTATACGCGCGAGCAGCTTTTCGGTGGCCGGCAGCTGACGGAGGAAATCCAGCGTCGCTATGGCCTCTCCGTGGAAGAGGCCGGACTCGCCAAGAAGCAGGGCGGTCTTCCGGACGATTACGAGAGTGAGGTCTTGCAGCCTTTCAAGGAGGCGGTGGTCCAACAGGTTTCTCGTTCCCTGCAGTTCTTCTTCGCTGCGGGTCAATTCAATGATGTCGACTACATTCTCCTGGCCGGCGGGACTGCTTCGATTCCCGACCTGGATCGTCTGATCCAGCAGAAGATCGGCACTCCGACCCTGGTCGCGAACCCCTTCGCTGACATGGCATTGAGTGGCAAGGTCAATGCGGGCGCGCTGGCGAGCGATGCCCCGGCATTGATGATTGCGTGTGGCTTGGCGATGAGGAGTTTCGACTGA	MLGLFTKKANSLLGIDISSTSVKLLELSRSGSRYKVEAYAVEPLPPNAVVEKNIAELEGVGQALSRVLAKAKTGVKTVAVAVAGSAVITKTVEMEAGLSDDELETQLKIEADQYIPYPLEEVAIDFEVQGPSPRNPDRVEVLLAACRKENVEVREAALALAGLTAKVVDVEAYALERAYGLLEAQLGNGHDELTVAVVDIGATMTTLSVLHNGRTIYTREQLFGGRQLTEEIQRRYGLSVEEAGLAKKQGGLPDDYESEVLQPFKEAVVQQVSRSLQFFFAAGQFNDVDYILLAGGTASIPDLDRLIQQKIGTPTLVANPFADMALSGKVNAGALASDAPALMIACGLAMRSFD	PGPT0015945_831	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015945-pilM-K02662	NA	NA
BMS010_04140	573			hypothetical protein	ATGGCGCGCATCAACCTACTTCCTTGGCGCGAACAGCTACGCGAAGAGCGAAAGCAGCAGTTTCTGGTAACTCTGGCGGGGGTTCTGATCGCTTCCGGTGCATTGGTGTTTCTGGGTGATCAGTATCTGAACAGCGCCATCGAGAACCAGAATGCACGCAACGCATTTATCCAGAAGGAAATTGCTGTCCTCGATGCACGCATCAAGGAAATCAGTGAATTGAAAACTCGCCGTCAGCAACTACTGGAACGGATGAAAATCATTCAGGATCTGCAGGGTAACCGGCCGATCATTGGTCGTGTGTTCGATCAACTGGTTCGCACGCTTCCTGATGGTGTCTATTTCACTGGCTTGAAGATGACTGGCAAAACGATCGCCATTGTCGGGGCTGCCGAATCCAACAATCGTGTTTCCAATCTGATGCGTAACCTTGATGCGTCCGAATGGCTCGAGGCGCCCAACTTGACCGAGGTGAAAGCCATTACGGCAGGCGGAGTGGATCAGGCGAACGTATTCCAGCTGACCGTACAGCAGACGCAGCCGTCCCTCGAGGCAGAAGGAGCCAAGAAATGA	MARINLLPWREQLREERKQQFLVTLAGVLIASGALVFLGDQYLNSAIENQNARNAFIQKEIAVLDARIKEISELKTRRQQLLERMKIIQDLQGNRPIIGRVFDQLVRTLPDGVYFTGLKMTGKTIAIVGAAESNNRVSNLMRNLDASEWLEAPNLTEVKAITAGGVDQANVFQLTVQQTQPSLEAEGAKK	PGPT0015940_949	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015940-pilN-K02663	NA	NA
BMS010_04141	624			hypothetical protein	ATGAGTCTGGCCGATTCGCTTGAAAGTCTGAAAAAGGTCGATCTTTCGGACCTCGATGTTAATAACCTGGGATCGTGGCCAGCTCCAGTTAAGGTCATCACCTGTATTTTGTTGATCATTGCCGTTCTTGCGCTGGGCTACAACTTTCATTTGAAGGATCTGCAGGCGCAGCTTGAGCAGCAACAGGCACAAGAGGAAACGCTGAAACAGCAGTTTTCCACCAAGGCATTCCAAGCTGCCAATCTCGAGGCTTACAAAGATCAGATGAAGGAGATGGAAGAGTCCTTCGGGGCCCTTTTGCGGCAGTTACCCAGCGACACTGAAGTTCCGGGTCTGCTTGAGGATATTACCCGTACGGGCCTGGGAAGTGGTTTGGAGTTCGAGGAGATCAAGCTCCAACCGGAGTCGGTCAAGCAGTTCTATATCGAATTGCCGATTCAGATCGTGGTGGTCGGTGGGTACCATGATCTGGCTACCTTTGTGAGTGGTGTTGCCAGCTTGCCGCGAATTGTGACGCTGCATGACTTCGAAATTAAGCCTGTCGATAAGGACAGTGTTTCGAAATTGCGGATGAGCATCGTTGCAAAGACGTATCGCTATAACGACAAGGGGCAGCAGCAATGA	MSLADSLESLKKVDLSDLDVNNLGSWPAPVKVITCILLIIAVLALGYNFHLKDLQAQLEQQQAQEETLKQQFSTKAFQAANLEAYKDQMKEMEESFGALLRQLPSDTEVPGLLEDITRTGLGSGLEFEEIKLQPESVKQFYIELPIQIVVVGGYHDLATFVSGVASLPRIVTLHDFEIKPVDKDSVSKLRMSIVAKTYRYNDKGQQQ	PGPT0015955_789	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015955-pilO-K02664	NA	NA
BMS010_04142	528			hypothetical protein	ATGAAGACCGCCCGCCTGATATTTGCTGGTCTGTTATTGGCTGGCCTCTCCGGATGTGATGCGGGGGGAGATTTCAGCGATTTGCAGGCTTACATGGATGAAGTTCGTGCGCGGCCTAAAGGTGCCATCGAGCCTCTGCCGAAATTCCAACCTTATGAAGCGTTCACCTATAGTGCTGCATCGCTGCGGAGCCCTTTCCAGCCGCCAGTGAAAATCGATCTGGCCAGCCAGAAGAAGGGCTCGAAAGATATCAAGCCGGATGAAACCCGCGTCAAACAGTTCCTCGAAGGGTTCAATATCGAAACCTTCGTGATGGTCGGCACGCTCTCGAACGATGCTGGAATGTTTGCTTTGGTTCAAGGCGCGGGTGGGGTCCATCGGGTTAAGGTTGGTGATTATCTGGGGCGCAACCATGGCCGCATCGTTGCCATCAATGAGGGGCAGATCGACGTGGTCGAGATCGTTCCGGATGGTGAAGGCGGCTGGCTGGAACGTCCGCGGAGCCTCACTCTGAAAGAACGCTCCTGA	MKTARLIFAGLLLAGLSGCDAGGDFSDLQAYMDEVRARPKGAIEPLPKFQPYEAFTYSAASLRSPFQPPVKIDLASQKKGSKDIKPDETRVKQFLEGFNIETFVMVGTLSNDAGMFALVQGAGGVHRVKVGDYLGRNHGRIVAINEGQIDVVEIVPDGEGGWLERPRSLTLKERS	PGPT0015950_602	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015950-pilP-K02665	NA	NA
BMS010_04143	2127	pilQ		Type IV pilus biogenesis and competence protein PilQ	ATGAACAGTTCCCTTTCGTTCCTCGGCATATCTCTCATGGCCGCCCTGATGTCGCCAGCACTGCTGGCGGCAGATCTGAAAGCTCTGGATGTCGCGGCATTACCGGGTGATAAGGTCGAGCTTAAGCTAGTTTTCGATGAGCCAGTTCAGGCGCCGCGTGGCTACACTATTGAACAGCCGGCGCGCATCGCACTCGACCTACCGGGTGTGAGCAACAAGTTGGGCGCCAAAAACAAGGAAATCGGTGTGGGTAACGCTCGTAGCGTTACCGTGGTCGAAGCGAAAGACCGTACCCGGCTGATCATTAATCTGACGACGCTTGCACCGTATAACACCCGCGTCGAAGGTAATAACCTTTTTGTCGTAGTTGGCGAAAGCGCCGTTCCCACGACGGCCGCCCGTCCTGTCGTTTCGGCGCCTGCTCCCGTTCAACCGGTCACCAAGCCTTATATCCCGGTCGGGCGCGCAATTAGCAATGTCGACTTCCAGCGCGGTGAACAGGGTGAGGGTAATGTTGTCATTGAGCTCTCCGACCCGTCCGTTAGCCCGGATATTCAGGAGCAGGGCGGCAAGATTCGGCTGGATTTCCCTAAGACCCAGCTTCCTGAACAGTTGCGAGTTCGTCTCGATGTGAAGGATTTCGCCACACCTGTCCAGTTCGTCAGTGCGACCGCTCAGGCCGACAAGTCTACGATTACCATCGAGCCGACGGGTTTCTATGACTACTTGGCGTATCAGGCTGATAACAAACTGACGATCAGTGTCAAACCGCTGACTCAGGATGATTTGGAGAAACGTAAAGCGGAACGGTTCACTTACTCCGGTGAGAAGTTGTCCTTGAATTTTCAAGATATTGACGTTCGCTCGGTTCTGCAATTGATCGCCGACTTTACCGACCTCAATCTGGTAGCGAGCGATACCGTTCAAGGCAATATCACGTTGCGTCTTCAGAACGTTCCATGGGATCAGGCTCTGGATCTCGTCCTCAAGACCAAGGGGCTGGATAAGCGGAAGGTCGGCAACGTTCTCTTGGTGGCTCCGGCAGATGAGATTGCTGCGCGTGAGCGGCAAGAATTGGAGTCTCAAAAGCAGATAGCGGAACTTGCTCCTCTGCGTCGTGAGCTGATTCAAGTGAATTATGCGAAGGCTTCCGATATGGCCAAGTTGTTCCAGTCGGTGACAACTACTGAAGGAAAGGAGGAGGAGCGAGGTTCGATTACTGTAGATGATCGTACCAATAGCATTATTGCTTACCAGACCCAAGAGCGTCTGGATGAGCTGCGTCGTATCGTTTCGCAGTTGGATATCCCTGTCCGGCAAGTCATGATTGAGGCTCGGATTGTCGAAGCGAATGTAGAGTATGGTAAGAATCTAGGGGTTCGCTGGGGAGGGGCGATTCGATCCGGAAATTGGAATACATGGGGTAAGGATGGGAATATTGGTATTGAAGATGGAGAAGAGGGTAGTTCCGGTAGCTGTGGCCCCTTCGCGGGAAATTGCACCTTGCCTACAACTGCTACAGGAAGCAATCCAACCCCATTTGTCGATTTGGGCGCCACGACCAGTACTTCAGGTATCGGTATTGGGCTGATAACAAATAACGCCATTTTGGATCTTCAGCTTTCTGCAATGGAGAAATCCGGTAATGGTGAAATCGTATCTCAGCCAAAGGTAGTTACATCAGATAAAGAAACGGCAAAAATCCTGAAAGGTGAAGAGGTCCCTTATCAAGAGGCAAGCTCGAGTGGCGCGACCTCCACCTCGTTCAAGGAAGCGGCTCTTTCGCTGGAAGTTACGCCTCAGATCACCCCGGATAATCGCATTATTATGGAGGTGAAAGTGAATAAGGACGCTGCCGATTTCACCAGGGCTGTTAATGGGGTTCCGCCGATCAATAAAAATGAAGTAAATGCCAAGGTACTGGTTGCCGATGGTGAAACCATCGTAATTGGCGGAGTTTTTACCAATACCCAACAAAAAAGTGTTGATAAGGTACCGTTCCTTGGGGATCTGCCTTTCCTGGGGCGTCTGTTCCGTCGGGATGAAATCACCGATAGCAAAACTGAGCTGCTTGTTTTCCTCACTCCGCGTATCATGAACAATCAGGCTATCGCTGTAGGTCGTTGA	MNSSLSFLGISLMAALMSPALLAADLKALDVAALPGDKVELKLVFDEPVQAPRGYTIEQPARIALDLPGVSNKLGAKNKEIGVGNARSVTVVEAKDRTRLIINLTTLAPYNTRVEGNNLFVVVGESAVPTTAARPVVSAPAPVQPVTKPYIPVGRAISNVDFQRGEQGEGNVVIELSDPSVSPDIQEQGGKIRLDFPKTQLPEQLRVRLDVKDFATPVQFVSATAQADKSTITIEPTGFYDYLAYQADNKLTISVKPLTQDDLEKRKAERFTYSGEKLSLNFQDIDVRSVLQLIADFTDLNLVASDTVQGNITLRLQNVPWDQALDLVLKTKGLDKRKVGNVLLVAPADEIAARERQELESQKQIAELAPLRRELIQVNYAKASDMAKLFQSVTTTEGKEEERGSITVDDRTNSIIAYQTQERLDELRRIVSQLDIPVRQVMIEARIVEANVEYGKNLGVRWGGAIRSGNWNTWGKDGNIGIEDGEEGSSGSCGPFAGNCTLPTTATGSNPTPFVDLGATTSTSGIGIGLITNNAILDLQLSAMEKSGNGEIVSQPKVVTSDKETAKILKGEEVPYQEASSSGATSTSFKEAALSLEVTPQITPDNRIIMEVKVNKDAADFTRAVNGVPPINKNEVNAKVLVADGETIVIGGVFTNTQQKSVDKVPFLGDLPFLGRLFRRDEITDSKTELLVFLTPRIMNNQAIAVGR	PGPT0015965_474	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015965-pilQ-K02666	NA	NA
BMS010_04144	306			hypothetical protein	ATGCAGGTACACGACACGACCACCGGCCCGCAGCGCTTGCCGATTTTCCGGCCGCAATACCGCACCACCTCCGGTAGCCAGTACCACGCCCCCCAAGTCGCACAGCTCGGCAAGCATAGCCTGCTCCCGATCACGAAAGCCCTGCTCCCCCTCGACATCGAAAATCCAGGGAATATCGGCTCCCGTCCGCTGCTCGATTTCCTTGTCGGAATCCTTGAACGGAAAACGCAGCTCTTTGGCAAGCAAACGCCCGATGGTGCTCTTTCCAGCACCCATCGGGCCCACAAGGATCACATTCCGCACTGA	MQVHDTTTGPQRLPIFRPQYRTTSGSQYHAPQVAQLGKHSLLPITKALLPLDIENPGNIGSRPLLDFLVGILERKTQLFGKQTPDGALSSTHRAHKDHIPH				NA	NA	NA	NA	NA
BMS010_04145	1107	aroB_2	COG0337	3-dehydroquinate synthase	ATGCGGACTCTTCAGGTCGATCTCGGCGAGCGTAGTTATCCCATCCACATCGGTGAAGGTTTGCTGGCGCAGCCGGAGCTGATCGTTCCCCATATCGCTGGTCGGCAGGTGGCTATTGTCACCAACGAAACCGTAGCTCCTCTCTATTTGGGCCGACTGACTCAAACATTGGTTGGCTACGGCGTGACGCCGATAGTTCTTCCCGACGGCGAGGCCTACAAGAATTGGGAAACGCTGCAAAGAATCTTCGATAGTCTTCTTGCCGAGCGCCATGATCGCCGAACGACCATCATCGCGCTTGGAGGTGGTGTGATAGGGGACATGGCCGGATTTGCAGCCGCCTGCTATCAGCGTGGGGTCGATTTCCTTCAGGTTCCGACTACGCTGCTTTCGCAGGTCGACTCGTCGGTAGGTGGCAAGACAGGCATCAATCACCCGCTGGGCAAGAACATGGTGGGTGCCTTCTATCAGCCGAAGGCGGTCATCATCGATACGTCGACCTTGTCCACTCTCCCCGCTCGCGAGCTTTCCGCCGGTCTTGCCGAAGTCATCAAGTATGGTTTGATCTGCGACGAGCCGTTCCTTGGTTGGCTCGAAGAAAACATGTCGGCGCTGCGTGCGTTGGATTCGGCCGTACTGACCGAGGCAATCGAGCGCTCCTGTGCGGCAAAAGCGCGGGTCGTCGGTGTGGATGAGCGGGAGTCGGGGCTTCGGGCGATCCTCAATCTGGGGCATACCTTTGGCCATGCCATCGAAACGCATCAGGGGTATGGCGTCTGGCTGCATGGCGAGGCTGTGGCGGCCGGTACCGTGATGGCTCTGGAAATGTCGGCGCGGCTGGGTTGGATATCTGCCGAGGAACGAAATCGTGGGATTCGTTTGTTGCAGAGGGCTGGCTTGCCGGTCGTGCCGCCAGTAGGCATGACGCCCGATGATTTTCTCGAGCATATGGCCGTGGACAAGAAAGTACTCGATGGGCGTTTACGCCTTGTGCTGGTGAGGCGGTTAGGGGATGCGGTCGTGACCAGCGATTTCCCGCAGGAGATTTTGCAAGCCACGTTGAGCGCCGATTACCGGACGCTGGTGGCTAAGCTCGGAGATGAATGA	MRTLQVDLGERSYPIHIGEGLLAQPELIVPHIAGRQVAIVTNETVAPLYLGRLTQTLVGYGVTPIVLPDGEAYKNWETLQRIFDSLLAERHDRRTTIIALGGGVIGDMAGFAAACYQRGVDFLQVPTTLLSQVDSSVGGKTGINHPLGKNMVGAFYQPKAVIIDTSTLSTLPARELSAGLAEVIKYGLICDEPFLGWLEENMSALRALDSAVLTEAIERSCAAKARVVGVDERESGLRAILNLGHTFGHAIETHQGYGVWLHGEAVAAGTVMALEMSARLGWISAEERNRGIRLLQRAGLPVVPPVGMTPDDFLEHMAVDKKVLDGRLRLVLVRRLGDAVVTSDFPQEILQATLSADYRTLVAKLGDE	PGPT0012865_1757	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-PHENAZINE_DERIVATES	BIOTIC_STRESS_RESISTANCE-PHENAZINE-1-CARBOXYLIC_ACID_BIOSYNTHESIS,PGPT0012865-aroA-K01735	NA	NA
BMS010_04146	1629	damX		Cell division protein DamX	ATGACCAGTTTGCATGCTGACGAAGCCTATCTCAGCCATTACCAGTTCAGTCACGACCCGTTCGCGGCGCGGGTGCCCGGATTCAAGTTCTTTCCAGCACAGCGCAAGCCCGTGCTGGGGCAGTTGCATCATCTTGCCCGATACAGCCAATTGCTATTGGTGGTCAGCGGCCCTCATGGCAGTGGCAAGACGTTGCTGCGCCAGGCCTTGGTGGCCAGCACCAACAAGCAGGCTGTGCAGAGCGTGGTGGTCACGCCGCGTAACGAGGCCGGCATCGGGTTGGTTCAGCAGATCGCCCAGGGGTTGGGCGTAGCATCGCCCGATCCCCGAGCCATCCTTGCCCAGGTGGCCCAGTTGGCGCTTACCGGCCAGGAGGTCTATCTGCTGGTCGATGACGCGGAGGAGCTGGACGATGCGGCGCTCGAACTGCTGCTCAGCCTGGCTGCGGGTAATGCCGAGGGGCGGCCGCATGTCTTCCTGTTCGGCGAGCCCTCTGTCGTGTCGCGGCTCGAGCGGCTGAGCGAGGATGAAGAGCGCTTCCATGCTATTGACTTGCAGCCCTATGAAGAAGAGGAAACCCGGGAATACCTGGCGCAACGACTCGAAGGGGCTGGGCGTGGTCTCGAAATCCTCAGTGATGGGCAGATGGCCGAAATTCACCATCAGTCCGGTGGTTGGCCAGGCGGGATCAATCAGGTGGCGCGGGATGTGCTGATCGAAGCCATGCTCGCCCAGCGCGGTTCGGTCCGGCGATCGGGGTTCGCTTTCAATCTGCCGAAGAAGCACCTGCTGGCATTGGTCGTGGTGTCCGTCGGGGTTGGAGCTGCCTGGCTGATGCAGGGACAGAGCGACAAGGCACCTGAGCCGACGCAAACGCAGTTGCCGCTCGGGCAAACCCAGGCCCCGGCTGCATCGGCAGAGACGCCGAATTCGACCACGTCTTCCAGCCAGGGGCAGGAGGCTCCGGCTATCGAATTCGCGGGTTCGACGCAGCCACTCCCGTTGCCGTTGGTGGGAGAGGCTCAGCCGGTGATCCGTTCTCCCCTGGCGGAAGCGGCAGGGCAGGCCGATGACGAAGAGGTGCCGAGTGCGACCATCGAGCTGCCACCGTCCTCGGCGAGTGCGGTTTCGCCCGTGGACATCACTCCGCCAGCGACGCCTGTGCCGGCTCCTGCTCCGACACCTGTGCAATCCGCTCCGCTACCACCACCCAGTCAGCCTATTGCGGCGGTGCCTCCGGCCCAGCCTGCCAAGCCAGTGCCCGCCCCGGCCCCTGCTGCACCGCCGGCACCGAAGCCTGCCCCGGCTCCCGTTACAGCCAAGCCGGCCGTCTCGGCAACTGTCGCGGGTGGCGATTGGTATCGTGCCCAGGCCGGTGCCCGCTATGCGTTGCAAGTGCTGGGAACGCGCTCGGAAAACAGCGCCAAGAGCCTCGTCAGCGAGCTCGGCGGCCAGTACCACTATTTCAAGAAGATGCACCAGGGCCAGCCACTTTATGTGGTCACCTATGGTAGCTTCGCCAGCCGAAATGCCGCGCAGGCAGCCATAAAGGGGCTCCCGGCAAAGGTCCAGGCGGGTAAGCCGTGGCCACGGAGTTTCGCCAGCATCCAGCAGGAAATGGCTCGCTAA	MTSLHADEAYLSHYQFSHDPFAARVPGFKFFPAQRKPVLGQLHHLARYSQLLLVVSGPHGSGKTLLRQALVASTNKQAVQSVVVTPRNEAGIGLVQQIAQGLGVASPDPRAILAQVAQLALTGQEVYLLVDDAEELDDAALELLLSLAAGNAEGRPHVFLFGEPSVVSRLERLSEDEERFHAIDLQPYEEEETREYLAQRLEGAGRGLEILSDGQMAEIHHQSGGWPGGINQVARDVLIEAMLAQRGSVRRSGFAFNLPKKHLLALVVVSVGVGAAWLMQGQSDKAPEPTQTQLPLGQTQAPAASAETPNSTTSSSQGQEAPAIEFAGSTQPLPLPLVGEAQPVIRSPLAEAAGQADDEEVPSATIELPPSSASAVSPVDITPPATPVPAPAPTPVQSAPLPPPSQPIAAVPPAQPAKPVPAPAPAAPPAPKPAPAPVTAKPAVSATVAGGDWYRAQAGARYALQVLGTRSENSAKSLVSELGGQYHYFKKMHQGQPLYVVTYGSFASRNAAQAAIKGLPAKVQAGKPWPRSFASIQQEMAR				NA	NA	NA	NA	NA
BMS010_04147	4449	gltB_2	COG0067	Glutamate synthase [NADPH] large chain	ATGAAAGCAGGTCTGTACCATCCTGATGAGTTCAAGGATAACTGCGGCTTCGGCTTGATCGCCCACATGCAGGGTGAGGCAAGCCACCACCTGTTGCAGACTGCCATTGAAGCCCTGACCTGCATGACCCACCGCGGTGGGATCAATGCCGACGGAAAAACGGGCGATGGTTGCGGTCTGCTGATCCAGAAGCCGGACGAGTTCCTCCGTGCGGTGGCCAAGGACGCCTTCTCCGCCGAGTTGCCCCAGCAATATGCCGTGGGCATGGTGTTCTTCAACCAGGACCCGGCCAAGGCGGAGCAGGCCCGCGCCAACATGAACCAGGCCATCGAAGCGGAAGGCCTGACCCTGATCGGTTGGCGCAAGGTGCCGGTCGATACCAGCGTACTCGGCCGCCTCGCGCTCGAGCGCCTGCCGCAGATCGAGCAGGTTTTCGTTGGCGGCGAAGGGCTGTCCGACCAGGCGTTCGCCATCAAGCTTTTCTGCGCCCGTCGCCGCTCCTCGGTGGCCAATGCCGAAGACGTCGATCACTACATCTGCAGCTTCTCGCACAAGACCATCATCTATAAGGGCCTGATGATGCCGGCCGACCTGGCCGCGTTCTATCCGGACCTGGGCGATCCGCGCCTGAAGACCGCGATCTGCGTCTTCCACCAGCGCTTCTCCACCAACACCCTGCCGAAGTGGCCGCTGGCCCAGCCGTTCCGCTTCCTCGCGCACAACGGCGAGATCAACACCATCACCGGCAACCGCAACTGGGCCCAGGCCCGTCGCACCAAGTTCGCCAACGAACTGATCCCCGAGCTGGATCAACTGGGCCCGCTGGTCAACCGCGTCGGCTCCGACTCTTCCAGCATGGACAACATGCTCGAGCTGATGGTCACCGGCGGCATCGACCTATTCCGTGGCGTGCGCATGATCATTCCGCCGGCGTGGCAGAACGTCGAGACCATGGACGCCGATCTGCGTGCCTTCTATGAATACAACTCCATGCACATGGAGCCCTGGGACGGTCCGGCCGGGGTGGTGCTGACCGACGGTCGCTACGCTGTCTGTCTGCTGGACCGCAACGGCCTGCGCCCGGCGCGCTGGGTCACCACCAAGAACGGTTACATCACCCTGGCGTCGGAAATCGGCGTATGGGACTACCAACCGGAAGACGTCATCGCCAAGGGTCGCGTCGGCCCTGGCCAGATCCTTGCCGTGGATACCGAGACCGGGCAGGTCCTGCACACTGAAGACATCGACAACCGCCTGAAGTCGCGTCACCCGTACAAGCAGTGGTTGCGCAAGAGCGCCGTGCGCATCCAGGCACGTCTGGACGACCAGGACTACGGTTCGCCGTTCTACGACGCCGACCAGCTCAAGCAGTACATGAAGATGTTCCAGGTCACTTTCGAAGAGCGTGACCAGGTGCTGCGTCCGCTCGGCGAACAGGGCCAGGAAGCCGTGGGCTCCATGGGCGACGACACGCCGATGGCGGTGCTGTCCAAGCGCGTGCGTTCGCCCTACGATTATTTCCGCCAGCAGTTCGCCCAGGTGACCAACCCGCCGATCGACCCGCTGCGCGAAGCGATCGTCATGTCCCTGGAAATCTGCCTGGGGGCCGAGCGCAATATTTTCAGCGAGTCGCCCGAGCACGCGACCCGCGTGATCCTGAGCAGCCCGGTGATTTCGCCGGCCAAGTGGCGCGCCCTGATGACCATGGACCGCCCCGGCTTCGAGCGCTATGTCATCGACATGAACTACGACGAGTCCGTCGGGCTCGAGGCGGCCGTGCGCAACATGGCCGATCAGGCCGAGGAAGCTGTGCGCTCCGGCAAGGTCCTGCTGGTGCTTTCCGACCGCCACATCGCGCCCGGCAAGCTGCCGGCCCATGCCGCGCTGGTTACCGGCGCCGTCCACCATCGCCTGGTGGAGAAGGGCCTGCGTTGCGACTGCAACATCCTGGTCGAGACCGCCACGGCCCGCGATCCGCACCACTATGCGGTGCTGGTGGGCTTCGGCGCGTCGGCCGTCTACCCGTTCCTCGCCTACGAGGTATTGGGCGACCTGATCCGCACCGGCGAAGTTCTGGGCGATCTGTTCGAAGTGTTCAAGCACTACCGCAAGGGCATCACCAAAGGCCTGTTGAAGATCCTGTCGAAGATGGGCATCTCCACCATCGCCTCGTACCGGGGTGCCCAACTGTTCGAGGCCGTGGGTCTGTCGGACGAGGTTACCGAGTTGTGCTTCCGTGGCGTCGCCAGCCGGATCAAGGGTGCGCGTTTCGTCGATATCGAGGCAGAGCAGAAGGCCCTGGCATTCGAGGCCTGGAACAACCGCAAGCCGATCCAGCAGGGTGGTCTGCTCAAGTTCGTCTATGGCGGCGAGTACCACGCCTACAACCCGGACGTGGTGAATGCGTTGCAGGCTGCCGTGCAGCAGGGCAGCTACGAGAAGTTCAAGGAATACACCGCGCTGGTGGATAACCGTCCGGTGGCGATGATCCGCGACCTGCTCAAGGTGAAGCTGGCCGCCCAGCCGTTGGCGCTGGAAGAGGTGGAGCCGCTGGAGTCCATCCTCAAGCGCTTCGACTCCGCCGGTATTTCCCTTGGCGCGCTGTCGCCGGAAGCCCACGAGGCGCTGGCCACGGCGATGAACCGCCTGGGCGCGCGTTCCAACTCCGGCGAGGGTGGCGAAGACCCGGCCCGTTACGGCACCGAGCGCAGCTCGAAGATCAAGCAGGTCGCCACCGGCCGCTTCGGTGTGACGCCTGAATACCTGGTCAATGCCGAAGTCCTGCAGATCAAGGTGGCTCAGGGCGCCAAGCCTGGCGAGGGGGGCCAGTTGCCGGGCGGCAAGGTCAACGGCCTGATCGCTCGCCTGCGCTATGCGGTACCCGGCGTGACGCTGATTTCGCCGCCGCCGCACCACGACATCTACTCCATCGAAGACCTTGCGCAGCTGATCTATGACCTCAAGCAGGTCAACCCGCAGGCGCTGGTTTCGGTGAAGCTGGTGGCCGAGCCCGGCGTCGGTACCATCGCCGCCGGCGTGGCCAAGGCCTATGCCGACCTGATCACCATTTCCGGCTACGACGGCGGTACCGGCGCTTCGCCGATCACCTCCATCAAGTACGCCGGCAGCCCCTGGGAACTCGGTCTGGCGGAAACCCACCAGACCCTGCGTGGCAACGACCTGCGCGGTAAGGTCCGGGTGCAGACCGACGGCGGCCTGAAGACCGGCCTCGACGTGATCAAGGCGGCGATCCTCGGCGCCGAGAGCTTCGGCTTCGGCACCGCGCCGATGATCGCGCTGGGCTGCAAGTACCTGCGCATTTGCCACCTGAACAACTGCGCCACCGGTGTCGCCACTCAGAACGACAAGCTGCGCAAGGACCACTTCATCGGCACCGTCGACATGGTGGTGAATTTCTTCACCTACGTCGCCGAGGAAACCCGTGAGTGGCTGGCCAGGTTAGGTGTTCGCAGCCTCGGCGAGCTGATCGGCCGTACCGACCTGCTGGAAGTCCTGCCGGGAGAAACCGAGAAACAACAGCACCTGGACCTGAGTCCGCTGCTCGGCAGCGATCTGATCCCGGCCGACAAGCCGCAGTTCTGCCAGGTCGAGAATAACCCGCCGTTCGACCAGGGCCTGCTGGCCGAGAAGATGGTCGAGTTGGCGAAAGAAGCCATCGCGGCCAAGAGCGGCGGCGAGTTCGAGCTGGAAATCTGCAACTGCGACCGCTCCATCGGTGCGCGGGTGTCCGGCGAGATCGCCAAGGCCCACGGCAACCAAGGCATGAGCGACGCACCGGTCACCTTCCGCTTCAAGGGCACCGCCGGGCAGAGCTTCGGCGTGTGGAACGCCGGAGGCCTGAACCTGTACCTGGAAGGCGATGCCAACGATTACGTCGGCAAGGGCATGACCGGCGGCAAGCTGGTGATCACCCCGCCGCAGGGCAGCCCGTTCAAGTCCGAGGAGTCGGCGATCATCGGCAACACCTGCCTCTACGGTGCCACCGGCGGCAAGCTGTTCGCCGCCGGAACCGCGGGTGAGCGTTTCGCCGTGCGCAACTCCGGCGCCCATGCGGTGGTGGAAGGCACTGGCGACCATTGCTGCGAATACATGACCGGCGGTTTCGTCTGCGTACTCGGCAAGACCGGCTACAACTTCGGTTCCGGCATGACCGGTGGTTTCGCCTACGTGCTCGACCTCGACAACAGCTTCTACGACCGGGTGAACCACGAGCTGGTGGAAATCCAGCGGATCAACAACGAGTCGATGGAAGCCTACCGCAGCCACCTGCAGCGCGTGCTCGCCGAGTACGTGCAGGAAACCGGCAGCGAGTGGGGCCGCAACCTATCGGAGAATCTGGACGACTACGTGCGCAAGTTCTGGCTGGTCAAGCCGAAGGCCGCGAGCCTGGCGTCGTTGTTGTCGACCACCCGGGCGAATCCGCAATAA	MKAGLYHPDEFKDNCGFGLIAHMQGEASHHLLQTAIEALTCMTHRGGINADGKTGDGCGLLIQKPDEFLRAVAKDAFSAELPQQYAVGMVFFNQDPAKAEQARANMNQAIEAEGLTLIGWRKVPVDTSVLGRLALERLPQIEQVFVGGEGLSDQAFAIKLFCARRRSSVANAEDVDHYICSFSHKTIIYKGLMMPADLAAFYPDLGDPRLKTAICVFHQRFSTNTLPKWPLAQPFRFLAHNGEINTITGNRNWAQARRTKFANELIPELDQLGPLVNRVGSDSSSMDNMLELMVTGGIDLFRGVRMIIPPAWQNVETMDADLRAFYEYNSMHMEPWDGPAGVVLTDGRYAVCLLDRNGLRPARWVTTKNGYITLASEIGVWDYQPEDVIAKGRVGPGQILAVDTETGQVLHTEDIDNRLKSRHPYKQWLRKSAVRIQARLDDQDYGSPFYDADQLKQYMKMFQVTFEERDQVLRPLGEQGQEAVGSMGDDTPMAVLSKRVRSPYDYFRQQFAQVTNPPIDPLREAIVMSLEICLGAERNIFSESPEHATRVILSSPVISPAKWRALMTMDRPGFERYVIDMNYDESVGLEAAVRNMADQAEEAVRSGKVLLVLSDRHIAPGKLPAHAALVTGAVHHRLVEKGLRCDCNILVETATARDPHHYAVLVGFGASAVYPFLAYEVLGDLIRTGEVLGDLFEVFKHYRKGITKGLLKILSKMGISTIASYRGAQLFEAVGLSDEVTELCFRGVASRIKGARFVDIEAEQKALAFEAWNNRKPIQQGGLLKFVYGGEYHAYNPDVVNALQAAVQQGSYEKFKEYTALVDNRPVAMIRDLLKVKLAAQPLALEEVEPLESILKRFDSAGISLGALSPEAHEALATAMNRLGARSNSGEGGEDPARYGTERSSKIKQVATGRFGVTPEYLVNAEVLQIKVAQGAKPGEGGQLPGGKVNGLIARLRYAVPGVTLISPPPHHDIYSIEDLAQLIYDLKQVNPQALVSVKLVAEPGVGTIAAGVAKAYADLITISGYDGGTGASPITSIKYAGSPWELGLAETHQTLRGNDLRGKVRVQTDGGLKTGLDVIKAAILGAESFGFGTAPMIALGCKYLRICHLNNCATGVATQNDKLRKDHFIGTVDMVVNFFTYVAEETREWLARLGVRSLGELIGRTDLLEVLPGETEKQQHLDLSPLLGSDLIPADKPQFCQVENNPPFDQGLLAEKMVELAKEAIAAKSGGEFELEICNCDRSIGARVSGEIAKAHGNQGMSDAPVTFRFKGTAGQSFGVWNAGGLNLYLEGDANDYVGKGMTGGKLVITPPQGSPFKSEESAIIGNTCLYGATGGKLFAAGTAGERFAVRNSGAHAVVEGTGDHCCEYMTGGFVCVLGKTGYNFGSGMTGGFAYVLDLDNSFYDRVNHELVEIQRINNESMEAYRSHLQRVLAEYVQETGSEWGRNLSENLDDYVRKFWLVKPKAASLASLLSTTRANPQ	PGPT0000635_3390	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0000635-gltB-K00265	NA	NA
BMS010_04148	1419	gltD_2	COG0493	Glutamate synthase [NADPH] small chain	ATGACTGAACGTCTGAACAACGACTTCCAGTTCATCGAGGTCGGGCGCAAAGACCCGAAGAAGAAGCTGCTGCGCCAGCGCAAGAAGGAATTCGTCGAGATCTACGACCTGTTCAAGCCGCAGCAGGCGGCGGACCAGGCCCATCGCTGCCTGGGTTGCGGCAACCCGTATTGCGAGTGGAAGTGCCCGGTGCACAACTTCATCCCGAACTGGTTGAAGCTGGTTTCCGAGGGCAACATCCTGGCGGCGGCCGAGCTGTCGCACCAGACCAACACCCTGCCGGAAGTCTGTGGCCGTGTTTGTCCGCAGGACCGTCTCTGCGAAGGTGCCTGCACCCTGAACGACGGTTTCGGCGCGGTGACCATCGGCTCGGTGGAGAAGTACATCACCGACACGGCCTTCGCCATGGGCTGGCGGCCGGACATGTCCAAGGTCAAGCCGACCGGCAAGCGTGTCGCGGTGATCGGTGCCGGTCCGGCCGGTCTCGGTTGTGCCGATGTGCTGGTGCGCAACGGCGTGACCCCGGTGGTCTTCGACCGCAATCCGGAGATCGGCGGCCTGCTGACCTTCGGCATCCCCGAGTTCAAGCTGGAAAAGACCGTGCTGAGCCGCCGTCGTGAAGTCTTCACCGGCATGGGCATCGAATTCCGCCTCAATACCGAGGTGGGCAAGGACATCACCATCGACCAGTTGCTCGCCGAATACGATGCCGTGTTCATGGGCATGGGCACCTACACCTACATGAAGGGCGGTTTCCCCGGCGAGGACCTGCCGGGCGTCTACGACGCGCTGGACTTCCTGATCGCCAACGTCAACCGCAACCTCGGCTTCGAGAAGTCGGCGGACGACTTCATCGACATGAAGGGCAAGAAGGTCGTGGTACTGGGCGGTGGCGATACCGCGATGGATTGCAACCGCACCTCCATCCGCCAGGGCGCGAAGAGCGTGACCTGCGCCTACCGCCGCGACGAAGAGAACATGCCGGGTTCGCGCCGCGAGGTGAAGAACGCCAAGGAAGAGGGCGTGAAGTTCCTCTTCAACCGCCAGCCCATCGCCATCGTCGGTGAGGACAAGGTGGAAGGCGTGAAGGTGGTCGAGACCCGTCTGGGTGAGCCGGATGCCCGCGGTCGCCGCAGCCCCGAGCCGATCCCGGGTTCCGAGGAAATCCTGCCGGCCGACGCGGTGGTCATTGCCTTCGGCTTCCGTCCGAGCCCGGCCCCGTGGTTCGAGCAGTTCGAAATCAAGACGGACAGCCAGGGCCGCGTGGTCGCACCGGAGCAGGGCCCGTTCAAGCACCAGACCAGCAACCCGAAGATTTTCGCCGGTGGCGACATGGTACGGGGCTCCGACCTGGTGGTAACGGCGATCTTCGAAGGCCGTCAGGCCGCCGAGGGCATCCTCGACTACCTGGGCGTCTGA	MTERLNNDFQFIEVGRKDPKKKLLRQRKKEFVEIYDLFKPQQAADQAHRCLGCGNPYCEWKCPVHNFIPNWLKLVSEGNILAAAELSHQTNTLPEVCGRVCPQDRLCEGACTLNDGFGAVTIGSVEKYITDTAFAMGWRPDMSKVKPTGKRVAVIGAGPAGLGCADVLVRNGVTPVVFDRNPEIGGLLTFGIPEFKLEKTVLSRRREVFTGMGIEFRLNTEVGKDITIDQLLAEYDAVFMGMGTYTYMKGGFPGEDLPGVYDALDFLIANVNRNLGFEKSADDFIDMKGKKVVVLGGGDTAMDCNRTSIRQGAKSVTCAYRRDEENMPGSRREVKNAKEEGVKFLFNRQPIAIVGEDKVEGVKVVETRLGEPDARGRRSPEPIPGSEEILPADAVVIAFGFRPSPAPWFEQFEIKTDSQGRVVAPEQGPFKHQTSNPKIFAGGDMVRGSDLVVTAIFEGRQAAEGILDYLGV	PGPT0000640_3104	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0000640-gltD-K00266	NA	NA
BMS010_04149	1068	hemE_1	COG0407	Uroporphyrinogen decarboxylase	ATGACCGCTCTGAAGAACGATCGCTTCCTTCGCGCCCTGCTCAAGCAACCCGTGGATGTCACCCCCGTCTGGATGATGCGCCAGGCCGGACGTTATCTCCCCGAGTACCGCGCCACCCGGGCCAAGGCCGGCGACTTCATGAGCCTGTGCATGAACCCGCAGTTGGCCTGCGAAGTCACCTTGCAGCCGCTGGATCGCTACCCGCAGATCGACGCGGCGATTCTCTTCTCCGACATCCTCACCGTCCCCGATGCCATGGGCCTCGGTCTGTACTTCGAGACCGGCGAAGGCCCGCGCTTCAAGAAGGTGGTGTCCAGCCCTGCGGATATCGAGGCCTTGCCGATTCCCGATGCGGAAAAGGACTTGGGCTACGTCATGGATGCGGTGCGCACCATCCGTCGCGAGCTGAACGGACGGGTGCCGCTGATCGGCTTCTCCGGCAGCCCCTGGACCCTGGCCACCTACATGGTGGAAGGCGGTTCGTCGAAGGACTTCCGCAAGTCCAAGGCGATGCTCTACGACAACCCGCAAGCCATGCACGCCCTGCTGGACAAGCTGGCGCAGGCGGTGACCGCCTACCTGAACGGCCAGATCGAGGCCGGCGCCCAGGCGGTGCAGATTTTCGATTCCTGGGGGGGCAGCCTGTCGGCGGCGGCCTATCAGGAGTTCTCCCTGGCTTACATGAAGAAGATCGTCGCGGGGCTGATCCGCGAACGTGAGGGCCGGCGCGTTCCGGTGATCCTGTTCACCAAGGGCGGCGGCCTGTGGCTGGAGTCCATGGCCGACAGCGGCGCGGAAGCCCTTGGTCTGGATTGGACCTGCGACATCGGCAGCGCCCGCGCCCGCGTCGGCGCCAAGGTGGCGTTGCAGGGCAACATGGACCCTTCGGTGCTCTACGCCAACCCGGCGGCGATCCGCGCTGAAGTAGCGCGCATCCTGGCCAGCTACGGCGAGGGCTCAGGCCACGTATTCAACCTCGGCCACGGCATCACCCCGGAAGTCGATCCGGCCAATGCCAAGGCGTTCTTCGAGGCGGTCCACGAGCTGTCCGGCCAGTACCACCGCTGA	MTALKNDRFLRALLKQPVDVTPVWMMRQAGRYLPEYRATRAKAGDFMSLCMNPQLACEVTLQPLDRYPQIDAAILFSDILTVPDAMGLGLYFETGEGPRFKKVVSSPADIEALPIPDAEKDLGYVMDAVRTIRRELNGRVPLIGFSGSPWTLATYMVEGGSSKDFRKSKAMLYDNPQAMHALLDKLAQAVTAYLNGQIEAGAQAVQIFDSWGGSLSAAAYQEFSLAYMKKIVAGLIREREGRRVPVILFTKGGGLWLESMADSGAEALGLDWTCDIGSARARVGAKVALQGNMDPSVLYANPAAIRAEVARILASYGEGSGHVFNLGHGITPEVDPANAKAFFEAVHELSGQYHR	PGPT0008465_1894	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008465-hemE-K01599	NA	NA
BMS010_04150	291			hypothetical protein	ATGTTCAGCCACAAGCACAAATTCGAGATCAACTACATCTACAAGAACGACCCGCGCGCGCAGATCGTCGAAGCGGACAGCGAACGCTTTCCGCGGGAGCGGGCCGCACGCTACCTGATGGAATTGCACCAGGCCGATGCGGAAAACAGCCTGGTGATGCCCGCGCCCGATGCCTCGGAAGAAGAGCTGCTACGCCAGGCACAGGTCGTGGGAATCACGGATATCCGGGTCACCAAGCTGGTTCGCGAACACGAACCGGGCACCACGCCGGGCCATTACCAACAGCCCTGA	MFSHKHKFEINYIYKNDPRAQIVEADSERFPRERAARYLMELHQADAENSLVMPAPDASEEELLRQAQVVGITDIRVTKLVREHEPGTTPGHYQQP				NA	NA	NA	NA	NA
BMS010_04151	327			hypothetical protein	ATGTCCAGTAAAGCCTGGGCTCTGACGCTGGCTGCCAGCCTGATCGCACTCGCTCCGCTGGCCCAGGCCGAGGTAGACGGCGAAGCGCTGTATCGTCAGCACTGCGCCCGCTGCCACGGCGACGATGGTCGGGCCAAGACCTGGCGCGGCTACCTGTTCTTCGCCCAGAACCTGAGCAAGGCGAGATGGCAGGAGCGGGAAAGCGACGAGGATATCCTCGAAGCGATCCGCAAGGGCCCCCGTGCCATGCCGGCGTTCGCCGACAAGCTCGACGACGCCGAGCAGCAGGCACTGGTGCACTACGTACGCTCGCTGCGCCAGCCCTGA	MSSKAWALTLAASLIALAPLAQAEVDGEALYRQHCARCHGDDGRAKTWRGYLFFAQNLSKARWQERESDEDILEAIRKGPRAMPAFADKLDDAEQQALVHYVRSLRQP				NA	NA	NA	NA	NA
BMS010_04152	444			hypothetical protein	ATGAAGAAAGCAACATGGATCGGCGCCGCCCTCATGCTCTGTGCTTTACCGGGGATCAGCCAGGCACGCGATACCACCCACTACCTGGACTTCGCCAGCGTGGTGGAGGAAGCCACCCAGGCCGGCCGCCTGGACGGCAGCGTGAAGTTCTACCTGGCCGGCAACCAACCGGCCGGCAAGGTCACGGTGGTCAACCCGAACATCACCACCAGCCAGAAGACCAACGCCTTCAACAAGAGCGACGAGGTTGCCTGCCGCTGGGTGCTGCAATCCGCCCTGATGCGCCTGCAGCAGGCAGCCAAGGCCGCCGGCGCCAACGCCGTGGTGAACATCGCCAGCAACTACAAGAACAAGGAGTACAAGGACGCGGCGAAGTACGAGTGCCATGCCGGCGCGCTGATGGCGGGTGTGGCGCTCAAGGGGCAGTTGGCCAATGTCCAGTAA	MKKATWIGAALMLCALPGISQARDTTHYLDFASVVEEATQAGRLDGSVKFYLAGNQPAGKVTVVNPNITTSQKTNAFNKSDEVACRWVLQSALMRLQQAAKAAGANAVVNIASNYKNKEYKDAAKYECHAGALMAGVALKGQLANVQ				NA	NA	NA	NA	NA
BMS010_04153	1236	fabF_2	COG0304	3-oxoacyl-[acyl-carrier-protein] synthase 2	ATGGCAACCTTGAAGCGAGTGGTGGTGACCGGCATGGCCGGCATCACCGCCCTGGGCAACGACTGGACGACGATCGAGGCGAACTTCGCCGCCAACCGCAGCGGCATCCGCCGCATGGACGAGTGGGACCGCTATACCGAGCTGAACACCCGCCTGGCCGGGCCGATCGACGACTTCGCCGTGCCCCGCCACTGGACCCGCAAACAACTGCGCAGCATGGGCCGGGTGTCGCGGCTGTCGGTGGCAGCGGCGGAGCGCGCCCTGGAGGACGCCGGCCTGCTCGGCGATCCCTGCATCCAGGACGGCCGCATGGGCGTGGCCAGCGGCTCGTCCACTGGCAGCACCGACGAGGTCAAGGCGTTCGGCAACATGCTGCTCAACTCGGTGGCGGACGGGCTCAATGCCAACTCCTACGTGCGCATGATGCCGCACACCACGGCGGCCAATATCAGCATCTTCTTCGGCCTCAAGGGCCGGGTGATCCCCACTTCCAGCGCCTGTACCAGCGGCAGCCAGGGCATCGGCTATGCCTACGAGGCGATCAAGTTCGGCCGCCTGCCGATGATGATCGCCGGCGGCGCCGAAGAACTCTGCCCCACCGAGGCCATGGTGTTCGACGCACTCTACGCCACCAGTCTGAAGAACGACGCACCGCATACTTCTCCGCGCCCCTACGACGGCGGCCGCGATGGCCTGGTGATCGGCGAAGGCGCCGGCATGCTGGTGCTGGAAGAGCTGGAACACGCCCTGGCCCGCGGTGCGCGCATCCACGCTGAGATTGTCGGCTTCGGCAGCAACGCCGACGGCCAGCACATCACCAAGCCGGAGCAGGCGACCATGCGCCGTGCCATGGAGCTTGCGCTGGAGGATGCCGGACTGGCGCCGGAGGCCATCGGCTACGTGAACGGCCACGGCACCGCCACCGAGCAGGGCGATATCGCCGAGACCCTGGCCACCCAGGAGTTGTTCGGCAGTCGCATGCCGATCAGCTCGCAGAAGAGTTTCCTCGGACACACCCTGGGGGCCTGCGGCGCGCTGGAATCCTGGTTCAGCATCGAAATGATGAACCGCGACCGCTACATCCACACGCTGAATCTGGAACAGGTCGACCCACGCTGCGGCGAACTCGACTACCTGATGGGCGAGCCGCGGCATATGAGCCATGGCTACGTGATGAACAACAATTTCGCGTTCGGCGGGGTGAACACCTCGCTGATCTTCCGCCGCTGGAGCTGA	MATLKRVVVTGMAGITALGNDWTTIEANFAANRSGIRRMDEWDRYTELNTRLAGPIDDFAVPRHWTRKQLRSMGRVSRLSVAAAERALEDAGLLGDPCIQDGRMGVASGSSTGSTDEVKAFGNMLLNSVADGLNANSYVRMMPHTTAANISIFFGLKGRVIPTSSACTSGSQGIGYAYEAIKFGRLPMMIAGGAEELCPTEAMVFDALYATSLKNDAPHTSPRPYDGGRDGLVIGEGAGMLVLEELEHALARGARIHAEIVGFGSNADGQHITKPEQATMRRAMELALEDAGLAPEAIGYVNGHGTATEQGDIAETLATQELFGSRMPISSQKSFLGHTLGACGALESWFSIEMMNRDRYIHTLNLEQVDPRCGELDYLMGEPRHMSHGYVMNNNFAFGGVNTSLIFRRWS	PGPT0008360_7196	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008360-fabF-K09458	NA	NA
BMS010_04154	729	fabG_5		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGACTGATCCGATTCTGGTAACCGGCTCCAGCCGCGGCATCGGCCGCGCCATCGCCCTGCGCCTGGCGCGCGCCGGGTACGACCTGGTGCTGCACTGCCGCTCGCGCCGTGACGAAGCCGAAGCGGTCCGCGCCGAGATCGAAGCCCTCGGCCGCCAAGCCCGCATCCTGCAGTTCGACGTCGCCGACCGCGATGTCTGCCGGGCCGCCCTGGAAGCCGACGTGGAGACCCACGGCGCCTATTACGGCGTGGTCTGCAACGCCGGCCTGACCCGCGACGGCGCCTTTCCGGCGCTGACCGACGAGGACTGGGATGCGGTGCTGCGCACCAATCTCGATGGTTTCTACAACGTGCTGCACCCGCTGATCATGCCGATGATCCGCCGCCGCCAGCCGGGCCGGATCGTCTGCATCACCTCGGTTTCCGGGCTGATCGGCAATCGCGGGCAGGTCAACTACAGCGCCTCGAAGGCCGGCGTCATCGGCGCGGCCAAGGCCCTGGCCATCGAACTGGGCAAGCGCCGGATCACCGTCAACTGCGTGGCGCCGGGGCTGATCGACACCGACATGCTGGACGAACAGGTGCCGGTGGAAGAATTGCTGAAGATGATCCCGGCCCAGCGCATGGGCACGCCGGAAGAAGTGGCCGGGGCGGTGAATTTCCTGATGTCCGAGGAGGCGGCCTACATCACCCGCCAGGTCCTCGCAGTGAACGGAGGGCTGTGCTGA	MTDPILVTGSSRGIGRAIALRLARAGYDLVLHCRSRRDEAEAVRAEIEALGRQARILQFDVADRDVCRAALEADVETHGAYYGVVCNAGLTRDGAFPALTDEDWDAVLRTNLDGFYNVLHPLIMPMIRRRQPGRIVCITSVSGLIGNRGQVNYSASKAGVIGAAKALAIELGKRRITVNCVAPGLIDTDMLDEQVPVEELLKMIPAQRMGTPEEVAGAVNFLMSEEAAYITRQVLAVNGGLC	PGPT0003180_20067	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0003180-ymfI|fabG|efpI-K00059	NA	NA
BMS010_04155	456			hypothetical protein	ATGATCGATTGGCCGATCGCCGAACTCCTGCCGCATTCCGGCGACATGATCCTGCTCGACGCGGTGGAGCGCTTCGGCGACGAAGACGTGGAGACCCGCGCCACCGTGCGCCCCGGCGGTCTGTTCAACCGCGAGGACGGCAGCCTGCCGGCCTGGGTCGGCGTCGAGCTGATGGCCCAGAGCGTGGCCGCCTACGCCGGCTGCCAGGCCCGCGTGCGCGGCGAGCCGGTGGAGCTGGGTTTCCTGCTCGGCACCCGCAGTTACCAGTGCAACGTCGAAGCCTTCGCCGCCGGTGCCGACCTGCACATCCATGCGACCCGTTCGCTGCAGGACGACAACGGCATGGGCGTTTTCGAGTGCCGGCTGAGCGGCCCCGGCATCGAGGCATTCGCCCGACTCAACGTGTTCCGGCCACCAGAAGTGGCCCGCTATCTTCAGGAGCCCGCTCATGACTGA	MIDWPIAELLPHSGDMILLDAVERFGDEDVETRATVRPGGLFNREDGSLPAWVGVELMAQSVAAYAGCQARVRGEPVELGFLLGTRSYQCNVEAFAAGADLHIHATRSLQDDNGMGVFECRLSGPGIEAFARLNVFRPPEVARYLQEPAHD	PGPT0013310_19	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0013310-fabB-K00647	NA	NA
BMS010_04156	1197			hypothetical protein	ATGACCGCCTACCTGAATGCCCTCGGAGTGATCTGCGCCCTCGGTGCCGGCAAACGCGCCGTGGCCGAGCGCCTGTTCGCCGGCGATGTTTCCGGCCTGCGCGAGCAGGACGGCTGGCGCAACGAGGGTCCGCTGCTGGTCGGTGCTGTGGACGTCCCGTTGCCGGCCATCCCCGACGGTTTCGCCGACCATGCGACGCGCAACAACCGGCTGCTGCTGGCCGCCGCCCTGGAAATCGAAGCGGACATCCGCCAGGCCATCGCCCGCTACGGCCGGGGGCGCATCGGCGTGGTGCTCGGCACCAGCACCTCCGGTATCCACGAAGCCAGCGGCGGCATCGCCCGTTATTTGCAGGACGGTCGTTTCCCCGACGACTACCGCTACCGCCAGCAGGAACTGGCCGCCCCCGCCGCCTTCCTCGCCGAATGGCTGCAGCTCGACGGCCCGACCTACGCCATTTCCACCGCCTGCACGTCCAGCGGACGAGCCCTGCTCAGCGCGCGCCGACTGCTCGACCTGAACCTCTGCGACGCCGTGCTGTGCGGCGGCGTGGATTCGCTCTGCGGCCTGACCCTGCAAGGCTTCGGCTCCCTGGAAGCGGTTTCCGCCCAGCGCTGCAACCCGTTTTCCGCGAATCGCAACGGCATCAATATCGGCGAAGCGGCGGCGCTCTTTCTTATGAGCAAAGAGCCAGAGCCGGCCCGAAAATACGCAATCGCGCTGCTTGGCGCCGGCGCCAGCTCCGATGCCCACCATATCTCCGCCCCGGAGCCGGAAGGCCGCGGCGCCCGCCAGGCGATGCTCAAGGCGCTGGCCGACGCCGGGCTGGAGGCCGGGCAGATCGGCTATCTGAACCTGCACGGCACCGCCACGGCGCACAACGACGCCATGGAGAGCCTGGCCGTGAACGCGGTATTTCCCGCTGGCGTGCCCTGCTCGTCCACCAAGCCGCTCACCGGCCACACCCTCGGTGCCGCCGGTGCGCTGGAAGCGGCATTCTGCTGGCTATGCCTGAGCCCGGAGAACCGCGACGGCCGGCTGCCGCCACACCGCTGGGACGGTGTCGCCGACCCGCAGTTGGCGCCACTGGCCTTCGTCGATGGCGACACCCGTCTCGGCGAACGGCAGCGCTATCTGATGAGCAATTCCTTCGCCTTCGGCGGCAATAACATCAGCCTGATTCTGGGGGCCGCATGA	MTAYLNALGVICALGAGKRAVAERLFAGDVSGLREQDGWRNEGPLLVGAVDVPLPAIPDGFADHATRNNRLLLAAALEIEADIRQAIARYGRGRIGVVLGTSTSGIHEASGGIARYLQDGRFPDDYRYRQQELAAPAAFLAEWLQLDGPTYAISTACTSSGRALLSARRLLDLNLCDAVLCGGVDSLCGLTLQGFGSLEAVSAQRCNPFSANRNGINIGEAAALFLMSKEPEPARKYAIALLGAGASSDAHHISAPEPEGRGARQAMLKALADAGLEAGQIGYLNLHGTATAHNDAMESLAVNAVFPAGVPCSSTKPLTGHTLGAAGALEAAFCWLCLSPENRDGRLPPHRWDGVADPQLAPLAFVDGDTRLGERQRYLMSNSFAFGGNNISLILGAA	PGPT0013310_1876	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0013310-fabB-K00647	NA	NA
BMS010_04157	513			hypothetical protein	ATGATCCGTTGCTGGCCGCTGCTCCTCGCCCTGCTGCTCGGCGCCTGTAGCCACCAGGCGCCTTTGCCCGTGGCTGCCCCGGCGCTCGACTGGCCGTTGCAGCTGCATGTGCTGCGCCAGCAGGACGACCAGCGCCAGGACTGGCTGCTGGTGGTGCAACGGGAAGACGGCGCGCTGCGCTGGTCGCTGCTGGACCCGCTGGGCATCCCCCGCGCCCGGCAGTTGCTGGTGCAACAAGACTGGCAAAACGACGGCCTGCTGCCGCCGAACCCGGAGGCACGCGAGCTATTCGCTGCCCTGCTGTTCGCCCTGACGCCGGCGGAGGAACTTGCACAACGTTATCCGTCGGTCCGCTGGACGGCCGACGACAAGGCGCGACAGCTGTTCGACAATGGCCAGCCACGCTGGCGAGTGGCCTACCACACACCGCTGGACTTCGACCTGGTGGCCGCCGACGGCCTGCATTACCGCGTCACTGCGCTCCCCGCGCATGAGCGAGGAGTCACACCATGA	MIRCWPLLLALLLGACSHQAPLPVAAPALDWPLQLHVLRQQDDQRQDWLLVVQREDGALRWSLLDPLGIPRARQLLVQQDWQNDGLLPPNPEARELFAALLFALTPAEELAQRYPSVRWTADDKARQLFDNGQPRWRVAYHTPLDFDLVAADGLHYRVTALPAHERGVTP				NA	NA	NA	NA	NA
BMS010_04158	729	tam_4		Trans-aconitate 2-methyltransferase	ATGGACCGCGCCGCCCCCACCTACGTCGAAGAGACCCTCTTCGGGTTCTGGTTCCTGCAGAGCCACACCTGGCAGCACCACGTGCTGCGCGTGGCGATCAACGATCTGCTGCGGCTGATCGACTCGCCGCTGCCGGAGCGCCCCGTGCTGCTGGATGCCGGCTGCGGCCAGGGCAAGTCCTTCCGCCTGCTGGCGGACGCCTTCCAGCCGGTCCGGCTCATCGGTCTCGATGCCGATCCGCATAGCCTCGACTGCGCACGCGCCGAGGCCGGGCGGCAGACGCTGGACGTCGAGCTGATCGCCAGCGATTGCGCGGCCATCCAGCTGCCCGATGCCAGCGTCGACCTGTTGTTCTGCCACCAGACCTTTCATCACCTGGTGGAGCAGGAAAAAGCCCTCGCCGAGTTCTGGCGCGTGCTCAAGCCCGGCGGCTGGCTGCTGTTCGCCGAATCGACTAAGGCCTACATCGACACCTGGGTGATTCGCTGGCTGTTCCGCCATCCGATGCACGTACAGAAGAGCGCCGACCAGTATCTCGGCATGCTGCGCCGGCAGGGCTTCGTGTTCGAGGAGCGGAATGTCTCCTACCCGTACCTCTGGTGGAGCCGGTCGACCGACTTCGGCCTGCTGGAGCGCTGGGGTCTGCGCCGGCCCAAGCCGTTCGGCCAGCGCGAGGAAACCCTGGTGAATGCGGCGGTGCGCAAACCCCTGGAGGTACCAGCCCGATGA	MDRAAPTYVEETLFGFWFLQSHTWQHHVLRVAINDLLRLIDSPLPERPVLLDAGCGQGKSFRLLADAFQPVRLIGLDADPHSLDCARAEAGRQTLDVELIASDCAAIQLPDASVDLLFCHQTFHHLVEQEKALAEFWRVLKPGGWLLFAESTKAYIDTWVIRWLFRHPMHVQKSADQYLGMLRRQGFVFEERNVSYPYLWWSRSTDFGLLERWGLRRPKPFGQREETLVNAAVRKPLEVPAR				NA	NA	NA	NA	NA
BMS010_04159	1239	mhpA_2		3-(3-hydroxy-phenyl)propionate/3-hydroxycinnamic acid hydroxylase	ATGGCGCAGCTTGAGACGCAACAACGAGAAGTCGTGATCATCGGCGCCGGCCCTTCCGGCGCGATCGCGGGAGCCTTGCTCAAGCGCCAGGGGCACGACGTGCTGGTACTGGAACGCCAGCGCTTCCCGCGCTTCTCCATCGGCGAGAGCCTGCTGTCGCACTGCCTGGACTTCGTCGAGGAAGCCGGCATGCTCGAGGCGGTCGAAGCGGCGGGTTTCCAGCGCAAGAACGGCGCGGCCTTCGCCTGGAACGAGCGCTACACCGACTTCGATTTCCGCGACAAATTCACCGAGGGCCATGGCTGGACCTTCCAGGTGCAGCGCGCCCATTTCGATCAGGTACTGGCCGACGACGCCGCCCGCCAGGGCGTGGAAATCCGCTACGAGGAAGAGATCGTCGCCGCCGACTTCGATGGCGATTGCCCGTGCCTGCGCGTGCGCCGGGCGGATGGCAGCGAGTACCGGGTGGAGTCCGCCTTCGTCCTCGATGCCAGCGGCTACGGCCGGGTCCTGCCGCGGCTGCTGGATCTGGAGGCGCCGTCGGCCTTCCCGGTGCGCCAGGCGGTGTTCACCCACATCGAGGACCGCATCGCCGGCTCCACCTTCGACCGCGACAAGATCCTCATCACCATCCACCCACAGCACCGCGACATCTGGTTCTGGACCATTCCCTTCAGCAACGGCCGCTGCTCCCTTGGCGTGGTCGCCGACGCCACCCGTTACCAGGGCCGGCCGCAGGACCTCGACGCCTGCCTGCGCCAGTTCGTCGACGAGACGCCGAGCCTGGCGCGGGTACTGGAGCATGCCGTCTGGGATACCCCGGCGCGCAGCCTGGGCGGCTATTCGGCGAACGTGAAGACCCTGCACGGCCGCGGCTTCGCCCTGCTCGGCAACGCGGCGGAGTTCCTCGACCCGGTGTTCTCCTCCGGGGTGACCATCGCCATGCGCTCGGCGAGCATGGCCGCGGGCCTGCTGCACCGCCAGTTGCAGGGCGAACCGGTGGATTGGCAGACGCAGTTCGCCGTACCGCTCAAACGCGGCGTGGATGCCTTCCGGGCCTACGTGGAGGGTTGGTACGATGGCCGCTTCCAGGACGTCATCTTCCACCGCAACGGTTCGCCGGAAATCCGCCGGATGATCTGCTCGATCCTCGCCGGCTACGCCTGGGACGAAAGCAACCCCTACGTTGCCGAACCCCAGCGCCGCCTGCGGGTATTGGCCGAATTGTGTGCGTCCTGA	MAQLETQQREVVIIGAGPSGAIAGALLKRQGHDVLVLERQRFPRFSIGESLLSHCLDFVEEAGMLEAVEAAGFQRKNGAAFAWNERYTDFDFRDKFTEGHGWTFQVQRAHFDQVLADDAARQGVEIRYEEEIVAADFDGDCPCLRVRRADGSEYRVESAFVLDASGYGRVLPRLLDLEAPSAFPVRQAVFTHIEDRIAGSTFDRDKILITIHPQHRDIWFWTIPFSNGRCSLGVVADATRYQGRPQDLDACLRQFVDETPSLARVLEHAVWDTPARSLGGYSANVKTLHGRGFALLGNAAEFLDPVFSSGVTIAMRSASMAAGLLHRQLQGEPVDWQTQFAVPLKRGVDAFRAYVEGWYDGRFQDVIFHRNGSPEIRRMICSILAGYAWDESNPYVAEPQRRLRVLAELCAS				NA	NA	NA	NA	NA
BMS010_04160	1155			hypothetical protein	ATGAGCGTCGCCCTGTTCTGGCTGCTGGCACTCGCGCTCTATGCCGCCGCCCTGTTGCTGGGCCGGCGTTTGGGCCTGTTCCCCATCGTCAGCCAGTTGTTGCTGGCCAGCCTGGCGATACCGGCGCTGCTGCTCGGCTGGATCGAACCGCATGCCGGACTGAGCGCCGCCGAGCTGCTCGCACCGGCCTGGTTGAATGCTCTGTACGGGCTCTGCTTCGCCCTGCTGCTGGGCTACATCCTCGGCGACGTGGTCGATCTGGAATTCAACCCGCAGAGCCTGAAGATCGCCCTGCCGAGTTTCCTGGTTCCCTTGTTCTGCGGCCTGGCCTGCGCCGGCTGGCTGCTGCCCTCGGCCGGCTGGCTGAGTGCGCTGGGCATCGGCCTGCTGTTTTCCATCACCGCCATCCCGGTGCTCTACCTGTATCTGCAGAACATCGGCTATCCACCGGCGGCGACCCGGCGCCTGCTGCACGCGGCAATCCTCATGGACCTGGCCTGCTGGGGCCTGTTCGCCCTCGCCCAGGGCAGCGCGCAGCCGCAGCACCTGCTCTGGCCCTTGCTGGCCGCCGTGCTGCCGCTGGTGCTGCGCGGCTTGCGTCTGCGCCACGACCTCGCCTTCAGCCTGCCGTTCTTCGCCCTGATGCTGCTGTTCCAGCAGTTGCACCTGAACGCGCTGCTGTTCGGCATCGGCTACCTGCTCTGCCTCGCCGCGCTGCGCCAGCCGCTGCGCCTGCCGCTGGCGCCGCGCCACTGGTTCTGGTTGCTGAACGGCTTGGCGATTCCGCTGATCCTCACGTTCGGCGTGCTGCAAGTGAATTTCCGCGAGGCTTGGCAGGGCTCGTCCTGGCTGCACCTCGGCGTGCTGCTGGTGCTGCCGGTGGCGAGCAAGCTGGCCGGCAATTGGCTCGGCCTGCACTGGGCCGACCGCCAGGCCCCGGCCGCGACGAAATGGCGGGAAAGCCTGCTGCTGAATATCCGCGGGCTGACCGAGATCGTTTTCCTCAATCTGCTGCTGCAACAGCGGCTGATCGACGAGCGGGTCTACTTCGGCCTGCTGCTCATGAGCCTGTTTTCCACCCTGCTGCCGACCCTGCTCGGCATCCGCCACCCCCAACAAGAACACCAAGCCAGGAGGCCCTATGGCGCAGCTTGA	MSVALFWLLALALYAAALLLGRRLGLFPIVSQLLLASLAIPALLLGWIEPHAGLSAAELLAPAWLNALYGLCFALLLGYILGDVVDLEFNPQSLKIALPSFLVPLFCGLACAGWLLPSAGWLSALGIGLLFSITAIPVLYLYLQNIGYPPAATRRLLHAAILMDLACWGLFALAQGSAQPQHLLWPLLAAVLPLVLRGLRLRHDLAFSLPFFALMLLFQQLHLNALLFGIGYLLCLAALRQPLRLPLAPRHWFWLLNGLAIPLILTFGVLQVNFREAWQGSSWLHLGVLLVLPVASKLAGNWLGLHWADRQAPAATKWRESLLLNIRGLTEIVFLNLLLQQRLIDERVYFGLLLMSLFSTLLPTLLGIRHPQQEHQARRPYGAA				NA	NA	NA	NA	NA
BMS010_04161	2328			hypothetical protein	TTGCCGACTGAGCGCCTGCTGCCCCGCCTGTTCCTGCTCGGCCTGCTGGCGCTGCTCGCGCTGGCCGCCTGGCAGTGGCGCTATGGCCCGCCGCTGTCCACCGACCTGATGGAACTGGTGCCCGGCGCGCCGCGCGATGCCTTGCAGCAACAGGCCGAACAGCGCATGCAGGAGCCCCTCAACCGCGAGTTGCTGGTGCTGCTCGGCTACCCGCAACGCGAGCAGGCGACCGAAGCGGCCCAGCGGCTGGAGCGGCGCTGGCAAGGCAGCGGGTCGTTCGAAAGCGTACAAGGCAGCCTGCAAACGGACCTGCCCGCACTGCGCCAGCAACTGCAGGATGGCCGGCTCGCCCTGCTCGACGAGGACGACCGGCGCCAACTGATCGAACAGCCCCAGGCGTTCATCCAGCAGCGCGTGCAGTCGCTGTTCGACACCTTCGCCGGCAGCCGCCTGCTGGCCAGCGATGAAGACTGGTTCGGGCTGGCCGAACGCATCCAGAACCACCTGCAACCCCAGGGCGCCTTGCAGGTGGACTTGGCCAGCGGTGCCCTGCTGGTCGAAGCCGAAGGTTTGCAATGGGCCCTGGTACGCGTCCGCACCCGGGCCGATGCCTTCGACCTCGATCTGCCGTTGCAGGTGGACGCGCTGGTCGACGCGGCCCGTCGCAAGACCGAGGCGAACGGCGGCCGACTGCTCGCCGCCAGCGGCCTGCTGCATGCGGCCGCCAGCCAGCGGCAGGCCACCCGCGAGATGAGCTGGATCGGCGGCGGCGCCGGCCTGGGCGCGGTGCTGCTGTTGCTGCTGGCGTTCCGCCGCGCCCGCGTGCTGCTGGCGATCCTCCCGGTGCTCGGCGGCCTGCTCGGCGGGGCGGTGGCCTGCGTCGCGCTGTTCGGCCAGATTCATGTGATCACCCTGGTGCTCGGCGGCAGCCTGATCGGCGTGGCCATCGACCCGCCGCTGCATTACCTGTCGAAGAGCTGGGCGCTGCGCCCCTGGAGCGCCTGGGGTGCGCTGCGCGCCACCTTGCCGGGCCTCGCCCTGAGCCTGGCGACCAACCTCATCGGCTACCTCGCCCTGGCGTTCGCGCCCTTTCCGGCGCTCAAGCAGATCGCCGTTTTCTCCGCCGCCGGCCTGCTCACCGCCTTCCTCTGTACCCTGTGCCTGCTGCCCGCGCTGTTCGCCGGACTCGACCTCAGTCCCAGGCCGGCGCCACTGATTCTGGCGGAACGCGCCTGGAACCTGCGTCAACGCCTGCTGCGGCGCGTGCCGTCGACCGTCCTGCTGGCCCTGCTGCTGGTCTTCTGCGTGGGTGGCCTATGGCGTCTGAACCTGACCCATGACCTTCGCCAGTGGGTCGCTACCTCGCCGCAGCTACTGGACGAAGCCAACACCATCGCCCGCCTGACCGGCCAGCGCCCCACCAGCCAGTTCTTCCTGGTGCGCGCCGCCGACCAGCAGCAGTTACTCGAGCGCCAGGCCCGGCTGAGCCAACGCCTCGATACCCTGGTCGCCGACGGACAGCTCGGCGGCTACCTGGCGCTCAGCCAGTTGGTCGCCCCGGCGGCGCAGCAGGAGCGTCTGCGCCAGGCGCTGGATAGGCTGCCCGGGCACTGGCAGCCGCTGCTCGACCTCGGCGTCCCGCGCGCAGCCCTCGAAGGCGAGCTGGACACCCTGCGCAAGCTCCCGACCCTGGACATCCCCGCCGCCCTGGCAGGGCCGCTCGGCGAGGCCTGGCGCCCCCTGTGGCTGGGCGAAAGCGATGGCGGCGTGGCCGGGCTGGTCAGCCTGCAAGGCTTGCACGACACGCACGGGCTGAACGCGCTGAGCGAAGGGCTGGACGGCATCCGCCTGATCGACCGCCTCGGCCAGCTCAACCGCAGCTTCACCGCCGCGCAGTGGACCGCCAGCGAACTCAAGCTGCTTTCCTGCGCGCTGATCGTCGTGCTGCTGAGTCTGCCGTTCGGCCTGCGCGGCGCCGTGCGGGTCGTCACCCTGCCGTTGCTGTCGGCGGCCGCCGCGCTGGCCACGCTGGGTTGGGTCGGCCAGCCGCTGACGCTGTTTGGCCTGTTCGGCCTGCTGCTGGTCACGGCGATCGGCGTGGACTACGCGATCCTGATGCGCGAACGCGTCGGCGGCGCGGCCGTCAGCCTCTTGGGCAATGCCCTGGCGGCCTTCACCACCTGGCTGTCGTTCGGTCTCCTGGCGCTCTCCAGCACCCCGGCGGTGAGCAACTTCGGCCTGGCGGTGAGCCTCGGCCTGGTGTTCAGCTTCCTGCTCGCGCCCTGGGCCGGCGAAGGCCACCGCCGTGCAGCCGGAGGCGCGCAATGA	MPTERLLPRLFLLGLLALLALAAWQWRYGPPLSTDLMELVPGAPRDALQQQAEQRMQEPLNRELLVLLGYPQREQATEAAQRLERRWQGSGSFESVQGSLQTDLPALRQQLQDGRLALLDEDDRRQLIEQPQAFIQQRVQSLFDTFAGSRLLASDEDWFGLAERIQNHLQPQGALQVDLASGALLVEAEGLQWALVRVRTRADAFDLDLPLQVDALVDAARRKTEANGGRLLAASGLLHAAASQRQATREMSWIGGGAGLGAVLLLLLAFRRARVLLAILPVLGGLLGGAVACVALFGQIHVITLVLGGSLIGVAIDPPLHYLSKSWALRPWSAWGALRATLPGLALSLATNLIGYLALAFAPFPALKQIAVFSAAGLLTAFLCTLCLLPALFAGLDLSPRPAPLILAERAWNLRQRLLRRVPSTVLLALLLVFCVGGLWRLNLTHDLRQWVATSPQLLDEANTIARLTGQRPTSQFFLVRAADQQQLLERQARLSQRLDTLVADGQLGGYLALSQLVAPAAQQERLRQALDRLPGHWQPLLDLGVPRAALEGELDTLRKLPTLDIPAALAGPLGEAWRPLWLGESDGGVAGLVSLQGLHDTHGLNALSEGLDGIRLIDRLGQLNRSFTAAQWTASELKLLSCALIVVLLSLPFGLRGAVRVVTLPLLSAAAALATLGWVGQPLTLFGLFGLLLVTAIGVDYAILMRERVGGAAVSLLGNALAAFTTWLSFGLLALSSTPAVSNFGLAVSLGLVFSFLLAPWAGEGHRRAAGGAQ				NA	NA	NA	NA	NA
BMS010_04162	711			hypothetical protein	ATGCCGGGGTGCCCTTCTTTTTGGTTACTTGTTCTGGCCGGCCGCCGCGCGGAAGCAAGAAAAAGTGACGCGCCCGGGGGGGCGCAACCCAAAGCCGATGCCAGCTCGATAATCGGACAGTTGCTGAAGCCCTTGAGCCTACTCGTTTTACTAATCCCAATGAGCACCTGGGCCTTCGACCTCGACCAGCTCGGCGCCCGGCTCGCCGCGCCCGAGGTGGTCCGCGGACCTTTCATCCAGGAAAAGCACCTGCGCGCCCTGCCCCAGCCGCTCATCAGCCAGGGCCGCTTCGTCCTGGCCAAGGGGCACGGCCTGCTTTGGCTGCTGCACAACCCGATCCACCAGGACTACCGCATCGACGATGACGGCATGGCCCAGCGCGGCGCCCAGGGCTGGCAACGCCTGCCGCAGCAGAGCGCCGCCGCCCGGCAGAACCGCCTGTTCCTCGCCGTGCTACAGGGCGACAGCAGCGGCCTGCAACGCGATTTCGAATTGGCGCTGAGCGGCACGGAAAACGACTGGCAACTGCGCCTGACGCCGCGCTCGGCCCTGCTCAAGCAGATCTTCGAGCGCATCGAGATCGGCGGCGACGCCCTGGTCCGGCGCATCGAACTGCGGGAAACACAGGGCGACCGTACCGTCCTGCGCCTGCCCGACAGCCAGCCCGGCACGGACCTGAACGACGCGGAGCGCGCCGACTTTGCCGACTGA	MPGCPSFWLLVLAGRRAEARKSDAPGGAQPKADASSIIGQLLKPLSLLVLLIPMSTWAFDLDQLGARLAAPEVVRGPFIQEKHLRALPQPLISQGRFVLAKGHGLLWLLHNPIHQDYRIDDDGMAQRGAQGWQRLPQQSAAARQNRLFLAVLQGDSSGLQRDFELALSGTENDWQLRLTPRSALLKQIFERIEIGGDALVRRIELRETQGDRTVLRLPDSQPGTDLNDAERADFAD				NA	NA	NA	NA	NA
BMS010_04163	426			hypothetical protein	ATGCGTAAGGATGGCGTACTGCAGGCCGAGGTGGAAATCCTCGTGCCCTTCTTCGATGTGGACTCGATGGACGTGGTCTGGCACGGCCACTACGTCAAATACCTGGAAGTCGCCCGTTGCGCCCTGCTCGACCGCATCGGCCACAACTACGTGCAGATGCGCGACGCCGGCTACGCCTGGCCGATCATCGATCTGCAGTTGCGCTACGTGCGCGGCGCGCGCTTCGGCCAGCGCCTCAGCGTCCGCGCCGATCTGGTGGAGTGGGAAAACCGCCTGAAGATCAACTACCTCATCACTGACGCCGAGACCGGCGAACGCATGACCCGCGGCAGCACGGTGCAGGTGGCGGTGGAAATCGCCACGCGGGAAATGCTGCTGGCCTCGCCGACCGTGTTCGTCGAGGCGGTGGAGAGGGCGCTGGCGTGA	MRKDGVLQAEVEILVPFFDVDSMDVVWHGHYVKYLEVARCALLDRIGHNYVQMRDAGYAWPIIDLQLRYVRGARFGQRLSVRADLVEWENRLKINYLITDAETGERMTRGSTVQVAVEIATREMLLASPTVFVEAVERALA	PGPT0001850_5412	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107	NA	NA
BMS010_04164	1533	cmdF		Tyrosine 2,3-aminomutase	ATGACGACTGATACCGTGGTTTTCGGCGAAGGCCACCTGGCCATCGAGGACGTCCTCGCCGTGGCGCAACGCCGTGCACCGGCCGCGTTGCAGGCGGACGCCGCGTTCCGCCAGCGCATCGCCAAGGGCGCGCAGTTCCTCGATACCCTGTTGGACAAGGAAGGCGTGATCTACGGCGTGACCACCGGCTACGGCGATTCCTGCGTGGTCACCGTGCCGCTGAAGCATGTCGAGGCCCTGCCGCGCCACCTCTATACCTTCCACGGCTGCGGTCTGGGTAAGCTGCTCGACGCCGAGGCCACCCGCGCCGTGCTCGCCGCCCGCCTGCGCTCGCTGTCCCACGGCGTGTCCGGCGTGCGCCTGGAACTGCTGGAGCGCCTGCAGGGCTTCCTCGCCGAAGACATCCTGCCGCTGATCCCGGAGGAAGGCTCGGTCGGCGCCAGCGGCGACCTCACGCCGCTGTCCTACGTCGCCGCCACCCTCGCCGGCGAGCGCGACGTCCTCTGGCGCGGCGAAGTGCGCAGCGCCGCCGAGGTGCACCGCGCCCTCGGTTGGACGCCGCTGACCCTGCGGCCGAAGGAGGCCCTGGCGCTGATGAACGGCACCGCGGTGATGACCGGCCTCGCCTGCCTGGCCTACGCCCGCGCCGACTACCTACTGCAACTGGCCACGCGCATCACCGCGCTCAACGTCATCGCCCTGCAAGGCAACCCGGAGCACTTCGACGAGCGCCTGTTCGCCGCCAAGCCGCATCCGGGCCAGACCCAGGTGGCCGCCTGGCTGCGCCAGGACCTGGCCATCGACGCGCCCACCGCGCCACTGCATCGCCTGCAGGACCGCTACTCGCTGCGCTGCGCTCCGCACGTGTTGGGGGTGCTGGCCGACAGCCTGGGCCTGCTGCGCCAGTTCATCGAGACCGAGCTGAACAGCGCCAACGACAACCCGATCATCGATGCCGAGGCCGAACGCGTGCTGCACGGCGGGCACTTCTATGGCGGGCACATCGCCTTCGCCATGGACAGCCTGAAGAACCTGGTGGGCAACGTCGCCGATCTGCTCGACCGCCAGCTCGCCCTGCTGGTGGACGTGCGCTACAACCACGGCCTGCCGAGCAACCTGTCCGGCGCGCCGGCTGACACGGCGATGATCAACCACGGCTTCAAGGCCGTGCAGATCGGCGCCAGCGCCTGGACCGCCGAGGCGCTGAAAAATGGCATGCCGGCGAGCCTGTTCTCGCGCTCCACCGAATGCCACAACCAGGACAAGGTGAGCATGGGCACCATCGCCGCCCGCGATGCCCTGCGCAGCCTGGAGCTGACCGAGCAGGTCGCCGCCGCCACGCTGCTCGCCGCCAACCAGGGTGTCTGGCTGCGCCAGCAGGGCGGCCATGAGGCCCTGCCGGCGCCGCTGGCGCGGATGCGCCAGCAACTGGCCGAAGACTTCCCGCCGCTGATCGAAGACCGCGCCCTGGAAGGCGAACTGCGCCTGTGCCTGGAGCGCATCCGCAGTCGCCACTGGAGCCTCTATGCGTAA	MTTDTVVFGEGHLAIEDVLAVAQRRAPAALQADAAFRQRIAKGAQFLDTLLDKEGVIYGVTTGYGDSCVVTVPLKHVEALPRHLYTFHGCGLGKLLDAEATRAVLAARLRSLSHGVSGVRLELLERLQGFLAEDILPLIPEEGSVGASGDLTPLSYVAATLAGERDVLWRGEVRSAAEVHRALGWTPLTLRPKEALALMNGTAVMTGLACLAYARADYLLQLATRITALNVIALQGNPEHFDERLFAAKPHPGQTQVAAWLRQDLAIDAPTAPLHRLQDRYSLRCAPHVLGVLADSLGLLRQFIETELNSANDNPIIDAEAERVLHGGHFYGGHIAFAMDSLKNLVGNVADLLDRQLALLVDVRYNHGLPSNLSGAPADTAMINHGFKAVQIGASAWTAEALKNGMPASLFSRSTECHNQDKVSMGTIAARDALRSLELTEQVAAATLLAANQGVWLRQQGGHEALPAPLARMRQQLAEDFPPLIEDRALEGELRLCLERIRSRHWSLYA	PGPT0020230_1525	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020230-hutH-K01745	NA	NA
BMS010_04165	936			hypothetical protein	ATGAGCGAACCGCTATCCGGCCAGCACTGGGCCGAGCACGAGGAGCGCGGCAGCTTCCTGCTGATGAGGTTCACCGCCTGGGCGGTGCGCCGCCTCGGCCGCCGAGCGCTGGCACCGCTGCTGTACCTGATCGTTTTCTATTTCTTCCTGTTCGGCCGCAGCGCGCGCCAGAGTGCCCGCCAGTATCAGCAGCACCTCGCCGAAGCCAGCGGCCGCGCCGACCTGCGTCCCACGCTGCGTTCGGTGTTCGGCCAGTTCATGAGCTTCGCCGACAGCCTGCTGGACAAACTCGATGTGTGGAACGGCCGCCTCGGCCTGGAGCAGATCGAACTGCACGACCCGGCCGGCCTGCGCCAGCAGTTGCGCGGCGCCCGCGGGCAACTGCTGGTCGGCGCGCACCTGGGCAATCTGGAAGTCTGCCGGGCGCTGGCCGAACTCGGCGAAAAGGTGCAGATGAACGTGCTGGTGCACACCCGCCACGCCGAGCACTTCAACCGCCTGCTGGGCGAGGCCGGCGCCAGCCACCTGCGGCTGATCCAGGTGAGCGAGCTGGACCCGGCGATCATGTTGCAACTCTCCGAGCGCCTGGATCGCGGCGAGTGGCTGGCGATTGCCGGCGACCGCGTGCCGCTGCATGGCGGCCGGCGCGTCACGGTGGATTTCCTCGGCCGTCCCGCCGACCTGCCGCAAGGCCCCTGGCTGCTGGCCGGGCTGCTGCAATGCCCGCTCAACCTGATGTTCTGCCTCAAGCAACAGGGCCGCTACCGGGTCCACCTGGAACCCTTCGCCGAGCGCATCCAGTGGACGCGCCGCGAACGCGAACAGGTCATCCGCGACTGGGCCCAGCGCTACGCCGACCGTCTCGGCGAACGCTGCCTGAACGCTCCCCTGCAATGGTTCAACTTCTACCCGTTCTGGAAACAGCATGACGACTGA	MSEPLSGQHWAEHEERGSFLLMRFTAWAVRRLGRRALAPLLYLIVFYFFLFGRSARQSARQYQQHLAEASGRADLRPTLRSVFGQFMSFADSLLDKLDVWNGRLGLEQIELHDPAGLRQQLRGARGQLLVGAHLGNLEVCRALAELGEKVQMNVLVHTRHAEHFNRLLGEAGASHLRLIQVSELDPAIMLQLSERLDRGEWLAIAGDRVPLHGGRRVTVDFLGRPADLPQGPWLLAGLLQCPLNLMFCLKQQGRYRVHLEPFAERIQWTRREREQVIRDWAQRYADRLGERCLNAPLQWFNFYPFWKQHDD				NA	NA	NA	NA	NA
BMS010_04166	786			hypothetical protein	ATGACTGAGCACAAGCCCTTCGTCCCCTCGCCCCACTGGGGAGAGAAGACCGCCTTCCACCCCTGCGCGGTGATCCCGGTCTACAACCACGAGCACGCCCTGCCGGTGGTGGTCGAGGCGCTGCGCCAAGCCCACCTGCCGTGCATCCTGGTGGACGACGCTTCCTCCCCGGCCTGCGCCGCGGTCATCGACCAACTGGCCGAAGACGAGTGGGTAAAGCAGGTCCGCCTGCCGGTCAACCAAGGCAAGGGCGGCGCGGTGATGGCCGGATTGCGCGAAGCGCAGCGGCTGGGCTTCAGCCACGCGTTGCAAGTGGATGCCGACGGCCAGCACGACCTCGAGGACGTCGAGGATTTCCTCGAGGCCGCGCGGGAAACGCCCGCCGCGCTGATCTGCGGCTACCCGCGCTATGATGACAGCGTGCCGAAGAGCCGCCTCTACGCCCGCTACCTGACCCATGTCTGGGTCTGGATCAACAGCCTGTCGCTGGGCATCCGCGACGGCATGTGCGGTTTCCGCGTCTACCCGCTGGCGCCGGTGGTCGAGCTGATCGACGCCGTCCGCCTCGGCACGCGCATGGACTTCGACCCGGAGATTCTCGTGCGCCTGGCCTGGCGCAACCAGCCGATGCGCTGGTTGCCGACCCGCGTGCACTACCCGCTGGACGGCCTGTCGCACTTCCGCCTCTGGCAGGACAACACGCTGATCTCGAAGATGCACGCCAAGCTGTTCTTCGGCATGTTGCTGCGCGCCCCGCGGATCCTCTACCGCCGGTGGCGCGCATGA	MTEHKPFVPSPHWGEKTAFHPCAVIPVYNHEHALPVVVEALRQAHLPCILVDDASSPACAAVIDQLAEDEWVKQVRLPVNQGKGGAVMAGLREAQRLGFSHALQVDADGQHDLEDVEDFLEAARETPAALICGYPRYDDSVPKSRLYARYLTHVWVWINSLSLGIRDGMCGFRVYPLAPVVELIDAVRLGTRMDFDPEILVRLAWRNQPMRWLPTRVHYPLDGLSHFRLWQDNTLISKMHAKLFFGMLLRAPRILYRRWRA	PGPT0023090_27	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0023090-ppgS-K22907	NA	NA
BMS010_04167	1680			hypothetical protein	ATGAGCTGGATCGGCATGGATCGCCTATTGCTGGATGCCCCCGTCGGACGTCTCGTGACCGTCGCTCCGACCCTCGACCTCGCCACCCTGGCCTGCCAGGCCGGGCGGCTCGCCGGTGGCTTGCAGGCACGCGGGGTGAAGCGACTGGCGCTGCACCTGGAAGACGCCGCCGAACTGGCCATCGCCCTGCTCGGCGCCTGGCGGGCGGACGTGGAGGTGGTGCTGCCGGCCGACCTGCAAGCGCAGAACCGACAGCGCCTGGCCGAGCGCGTCGACCTCTGGCTGACCGACCAGCCCGGCGACAGCCGCCTGGACGACCTCTACGACGACGCACTACCCGCCACCGCGCTCGACCTCGACCGCTGCCGCTTGATCCTGAGCACCTCGGGCTCCAGCGGCGAGCCCAAGCTGATCGGTAAATCCCTGCGCCAACTGGCCAACGAAGTGGCGGTGCTGGAGCAATGCTGGGGCGCCGAACTGGGCGGCGCGACCGTGCTCGGCAGTGTCGCCGCGCAACATATCTACGGCCTGCTGTTCCGTGTGCTCTGGCCGCTCTGCGCCGGGCGTCCGTTGCTCCGGCGCGCCCTGCCGTTCGGCGAGGACCTGCAACGGGCCAGCCTGGAACACCCCGACTTCGCCTGGGTCTGCAGCCCGGCGCTGCTCAAGCGCATGGGCGACAACCTCGACTGGCCGGCGCTCGGCCGGGTGCGCCGGGTGTTTTCCTCCGGCGGCGCCCTGCCCGCCGACGCGGCGCAGCAGCTCTTCGAGCGCCTCGGCCAATGGCCCACGGAAATCTACGGCAGCTCGGAAACCGGCGGCATCGCCTGGCGCCAGGGCGGCACGCACTGGCAGCCGTTCCCCGGCGTCGAACTGGGCCAGGACGCGGACGGCGCCCTGCGCGTCGCCTCGCCCTACCTGCCGGCCGGGCATATCGAACAGACCGCCGATGCCGTGCGCTTCGCCGACGATGGCCGCTTCGAACTGCTCGGCCGGCTCGACCGCATCGTCAAGCTGGAAGAAAAACGCATCTCCCTGCCCATGCTGGAGCAGGCCCTGGCCAGCCACCCCTGGGTGAGCGAATCCCGCCTCGGCGTGGTCCAGGAAAACCGCGCCTTCCTCGGCGCCCTGGTGGCGCTCAGCGAAGCCGGCCTGCATGCCCTGCGCAACCAAGGCCGACGTGCCGTCACCGAAGGGCTGCGCCGCCACCTCGCCGGCCATTGCGAGGCCCTCGCCCTGCCGCGCCGCTGGCGTCTGCTGCGGCGGCTGCCGAGCAACGCCCAGGGCAAGCTGCCACAGGCGGAGCTGGACGCCCTGCTGCGCGCGCCTCGGACCAGGCAGCCGGAGCTGCTCGGCGTGCGCCAGGAAGACGACCAGTGGCTGCTGGAACTGGAGGTGCCGCTGGACCTTGCCCACTTCACCGGGCATTTCCCGCGTACCCCGGTGCTGCCCGGCGTGGTGCAGATCGATTGGGCGCTACACCTGGCCAATGAATACCTCGCCGTGCCGCCGCGCTTCGCCGGCATGGAAGTGCTGAAGTTCCAGCAACTGGCCCGACCGGGCGACCGCCTGCAACTGACCCTGCGTTTCGATGCCGAACGCGGCAAGCTGCACTTCGCCTACCGCAACGGCGAGGCGCCCTGCTCGTCGGGACGAATCCTGCTGGCGGCCGGCGATGACTGA	MSWIGMDRLLLDAPVGRLVTVAPTLDLATLACQAGRLAGGLQARGVKRLALHLEDAAELAIALLGAWRADVEVVLPADLQAQNRQRLAERVDLWLTDQPGDSRLDDLYDDALPATALDLDRCRLILSTSGSSGEPKLIGKSLRQLANEVAVLEQCWGAELGGATVLGSVAAQHIYGLLFRVLWPLCAGRPLLRRALPFGEDLQRASLEHPDFAWVCSPALLKRMGDNLDWPALGRVRRVFSSGGALPADAAQQLFERLGQWPTEIYGSSETGGIAWRQGGTHWQPFPGVELGQDADGALRVASPYLPAGHIEQTADAVRFADDGRFELLGRLDRIVKLEEKRISLPMLEQALASHPWVSESRLGVVQENRAFLGALVALSEAGLHALRNQGRRAVTEGLRRHLAGHCEALALPRRWRLLRRLPSNAQGKLPQAELDALLRAPRTRQPELLGVRQEDDQWLLELEVPLDLAHFTGHFPRTPVLPGVVQIDWALHLANEYLAVPPRFAGMEVLKFQQLARPGDRLQLTLRFDAERGKLHFAYRNGEAPCSSGRILLAAGDD				NA	NA	NA	NA	NA
BMS010_04168	546			hypothetical protein	ATGAGCCGACTGATCGGCCTGGTGCTGGTCCTGGCCGGCCTCGCCTACCCGTTCGCCGTGTACTTCGGCATCGAGCACCTGTCGCCGCGCGTCTTCGCGCTGCTGCTCGGCGGGCTCTGGCTGGCGCGCGCGCTGAGCGTGCGCAAACGCCCCGGCGGCCGCTGGATGGCCGGCGCCGCCCTGGCCTTCTGCCTGCTGCTGGCCCTGGCCAATACCCCGGCGCTGCTGCGCTGGTACCCGGTGCTGATCAGCCTGCTGATGCTCGGCCTGTTCGGCCTCAGCCTGGTATATGGCCCGCCGCTGGTGGAACGACTGGCGCGCCTGCGCGAGCCGGAGCTACCGGAAGTCGCGGTGCGCTACACGCGCCAGGTGACCAAGGTCTGGGCGCTGTTCTTTCTCTGCAACGGCCTGCTCGCCGCCGCCCTTACCCTGTGGGCGCCGCTGAGCTGGTGGACGCTCTACAACGGCCTGATCGCCTATGCCCTGATGGGCCTGCTGTTCGCCGGCGAATGGCTGCTGCGCCAGCGGGTCAGGAGGCACGCATGA	MSRLIGLVLVLAGLAYPFAVYFGIEHLSPRVFALLLGGLWLARALSVRKRPGGRWMAGAALAFCLLLALANTPALLRWYPVLISLLMLGLFGLSLVYGPPLVERLARLREPELPEVAVRYTRQVTKVWALFFLCNGLLAAALTLWAPLSWWTLYNGLIAYALMGLLFAGEWLLRQRVRRHA				NA	NA	NA	NA	NA
BMS010_04169	252	acpP_2	COG0236	Acyl carrier protein	ATGCAAAACCGTGAAGACATCTTCGCCACCCTGCGCGACGCCCTGGTCGAGCTGTTCGAACTGGAGCCGGAGCGCGTCACCCTGGACGCCAACCTGTACCAGGACCTGGAAATCGACAGCATCGACGCGGTGGACCTGATCGACTACCTCAAGCGCCAGACCGGCAAGAAGATCGCCGCCGAAGACTTCAAGAGCGTGCGCACCGTGGGCGACGTGGTCGAGGCCGTGCATCGGATGGTCAACCCGGCATGA	MQNREDIFATLRDALVELFELEPERVTLDANLYQDLEIDSIDAVDLIDYLKRQTGKKIAAEDFKSVRTVGDVVEAVHRMVNPA	PGPT0011375_2857	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0011375-acpP-K02078	NA	NA
BMS010_04170	261	acpP_3		Acyl carrier protein	ATGAGCGAACTGGAACTTGAGATCACCCACCTCATCATCGAGGCCCTGGGTCTGGAAGACATCGGCCCGGAAGACATCGGCCGCGATCTGACGCTGTTCGGCGACGGCCTCGGCCTCGACTCGGTGGACGCCCTTGAACTCGGCCTGGCGATCCAGAAGCGCTTCGGCATCAAGATCGACGCCGACGCCAAGGACACCCGCAAGCACTTCGCCAACGTCGCCAGCCTGGCGGCGTTCGTCAGCGCCCGGCAGGCCGCGTGA	MSELELEITHLIIEALGLEDIGPEDIGRDLTLFGDGLGLDSVDALELGLAIQKRFGIKIDADAKDTRKHFANVASLAAFVSARQAA	PGPT0011375_2152	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0011375-acpP-K02078	NA	NA
BMS010_04171	810			hypothetical protein	ATGGAACTGGCAACGCAACCCCTGAAGCCACGGGCCAATGCCCCGTATCTGTGGCGCCTGATCGCCACCGGCCTGAGCTTCGCTCTGTTCGGCATCGGCGGCCTGTGCCTGCGCGTCCTGGTCTTTCCGCTGCTCGCCCTGCTGCCCGGCGACGCCCTGACCCGCCGCCGCCGCGCCCGGGCCACGGTGAGCCGGCTGTTCTGGCTGTTCGTCCAGTTCATGTACCGCAGCGGCGTGCTGACCTACGAGGTCGAGGGCGTGGAACGCCTCGGTCGGCCGGGACAGATGATCATCGCCAACCACCCCTCGCTGATCGATGTGGTGGTGCTGATCGCCTTCATCCGCGACGCCAACTGCGTGGTCAAGCAGAGCCTGTGGGACAACCCCTGCATGCGCGGGCCGATCCGCGCCGCGCAATACATCAGCAACAGCGGCAGCATGGATATGCTCGACGAGGCCGCCGACGCCCTGCGCGAAGGCCAGACCCTGATCGTCTTTCCCGAGGGCACCCGCACCACGCCGGGCAAGCTCCCCGAGTTCCACCGCGGCGCCGCCGCCATCGCCCTGCGCGGCGCACGCCTGGTGACGCCGGTGGTGATCAGCGTCGAACCGACCACCCTGACCAAGGCCGAGCCCTGGTACCGCATCCCGTCGCGGCGGTTCCATTTCCGCCTGCGCGTCGGCGAGGATATCGACCCCCAGGCGTTCGCCGCCCAGGGCAGCGCCCCCATCGCCTCGCGCAAACTCAACGATTACCTGCACCAGCACTTCATGAAGGAGCTCGCCCTAGATGAGCGAACTGGAACTTGA	MELATQPLKPRANAPYLWRLIATGLSFALFGIGGLCLRVLVFPLLALLPGDALTRRRRARATVSRLFWLFVQFMYRSGVLTYEVEGVERLGRPGQMIIANHPSLIDVVVLIAFIRDANCVVKQSLWDNPCMRGPIRAAQYISNSGSMDMLDEAADALREGQTLIVFPEGTRTTPGKLPEFHRGAAAIALRGARLVTPVVISVEPTTLTKAEPWYRIPSRRFHFRLRVGEDIDPQAFAAQGSAPIASRKLNDYLHQHFMKELALDERTGT				NA	NA	NA	NA	NA
BMS010_04172	720			hypothetical protein	GTGATTCACTTCAATATCGATCAATGGCGGGCCTGGGCGCCTGGCCTGGACAGCGCCGACGACTGGGCACGCTGGAGCCGTTCGCCCTGGCAGCCGCCCGCAGGGGACGAGCAGCCGGACGTCGGCTTTCTCCCGGCGATGCAGCGCCGCCGCCTGAGCCGGTTGGCGCGCATGGCGTTCCACGTCGCCTGGCCGCTGGCCGAGGGGCAACCGCCACTGCCCCTGGTATTCGCCTCGCGCCACGGCGAAACCCCGCGCACCTTCGCCATCCTCAGTGATCTGGCCCGCGGCGAGCCGCTCTCGCCGACCCAGTTCAGCCTCTCCGTGCACAACGCCATCATAGGCCTCTGGTCGATCCTGCGCGGCGACACCAGCGAGATGACCGCGATCGCTGCCGAGGGCGATGGCCTCGAGCATGCCGTCCTGGAGGCCGCCGCACTGCTCGCCGAGGGCGCGCCGGCCGTGCTGTTGGTGATCGCCGAGGAGCAGCCGCCGGCGGCCTATGCCGACTGGGTCGACGACGTGCCCTTTCCCTACGCCGTCGGCCTGCGCCTGACGGCGGGCCGCGACTGGCAACTCAGTTGCAGTTCCGGCGCGGCCGCCGAGGCTCTGGCGCCCTGGCCGCATGCCCTCGATTTCATCCTTACCCTGCTGCGCGACGCTGCGCAGTGCCAGCATCAGTGGAAGACGCGTGTATGGAACTGGCAACGCAACCCCTGA	MIHFNIDQWRAWAPGLDSADDWARWSRSPWQPPAGDEQPDVGFLPAMQRRRLSRLARMAFHVAWPLAEGQPPLPLVFASRHGETPRTFAILSDLARGEPLSPTQFSLSVHNAIIGLWSILRGDTSEMTAIAAEGDGLEHAVLEAAALLAEGAPAVLLVIAEEQPPAAYADWVDDVPFPYAVGLRLTAGRDWQLSCSSGAAAEALAPWPHALDFILTLLRDAAQCQHQWKTRVWNWQRNP				NA	NA	NA	NA	NA
BMS010_04173	771	soj_2	COG1192	Sporulation initiation inhibitor protein Soj	ATGCGCCGCGTGGTGTTCAATCAGAAAGGTGGAGTGGGCAAGTCCAGCATCGCCTGCAATCTGGCGGCGGTGAGTGCGGCGGAAGGCTACCGCACGCTGTTGATCGATCTCGATGCCCAGGCCAATTCGACCCATTACCTCACCGGCCTGACGGGCGACGAGATTCCCATGGGGATCGCCGACTTCTTCAAGCAGACCCTGTCTTCGGGGCCGTTCGCCAAGAAGGGCAAGGTCGACATCTATGAGACGCCGTTCGACAACCTGCACGTGGTGACCGCCACCGCCGAACTGGCCGACCTCCAGCCCAAGCTGGAGGCGAAGCACAAGATCAACAAGCTGCGCAAACTGCTCGACGAACTCGCCGAAGACTACGACCGCATCTACCTGGACACGCCTCCGGCGCTGAACTTCTACACCGTATCGGCGCTGATCGCCGCCGACCGCTGCCTGATCCCCTTCGACTGCGATAGCTTCTCCCGCCAGGCGCTGTACGGCCTGCTGGCGGAAATCGACGAGCTGAAGGAAGACCACAACGAAGACCTGGAAGTGGAAGGCATCGTGGTCAACCAGTTCCAGCCACGCGCCAGCCTGCCGCAGCAACTGCTGGACGAGCTGGTCGCCGAGGAAATGCCGGTACTGCCGGTGTACCTGATGAGTTCGGTGAAGATGCGCGAATCGCACCAGGCCTGCACGCCACTGGTGTTCCTCGACCCCCGCCACAAGCTGACCCAGCAGTTCGTCGAGTTGCATGGGTTGTTGGAGAACGGCTGA	MRRVVFNQKGGVGKSSIACNLAAVSAAEGYRTLLIDLDAQANSTHYLTGLTGDEIPMGIADFFKQTLSSGPFAKKGKVDIYETPFDNLHVVTATAELADLQPKLEAKHKINKLRKLLDELAEDYDRIYLDTPPALNFYTVSALIAADRCLIPFDCDSFSRQALYGLLAEIDELKEDHNEDLEVEGIVVNQFQPRASLPQQLLDELVAEEMPVLPVYLMSSVKMRESHQACTPLVFLDPRHKLTQQFVELHGLLENG				NA	NA	NA	NA	NA
BMS010_04174	798			hypothetical protein	ATGATCAACCACATTCTCGTCGCCCATGACCTGCGCGACACCGCCGACCTCGCCCTGAGGCGAGCGGCGCAACTGGCAAGACAGCACAACGCCCGACTCACCCTGCTTCACGTCTCCCCCGAAACCAATCCCTCCCAAGCCACCCAGGACCAGATTCACCAAGCCCTCGATACCAGCCTGACCCGCTTCGCGCCGCCCGGCAGCGAACTGCACCTGCGCAACGGCCGCCCGGCGGATGTGATCCTGTATGAGATTCAGGAGTTGGGCGCCGACCTGCTGGTCCTCGGCTCGCACCACCAGCGCCATGAGTTCTTCCCCGGTACTACGTTGGACCGCATTGCCCAGCGCTGCCCGATTCCGTTGCTGGTGGTCGCCCGCGAAGACGATACGCCGTACCGTCGCGCCCTCGCCGCCCTGGATTTCTCCCTGTGCGCCTGCCATGCCTTCAACCACGCTTACCACCTGCTGTCCACCGAAGCGGAACTGCATGCGGTGCACGTCTTCGATAGCGGCAAAGGGTCGGCCAAGCAGCTCCAGGCCGAACTGGACACCCAACGCGCCCTGATCGCCCAGTTGCTGCGCGACGAAACCCAGGACCTCCCGCCCGGCCCGACCCTCACCCATGAGGTTGAACCCGGCAGCCTGCCGCGCACCCTGCAGGAAGGCATCCGCAACCGCCAGGCGGAGCTGCTGGTGCTCGGCACCCATGGCCGCGGCACCCTGGCCAACGCCTTGCTCGGCGATCTGGTCCAGCACTTCCTGAACAAGGCGCCGTGCGATGTGTTGGTGGTGCATTGA	MINHILVAHDLRDTADLALRRAAQLARQHNARLTLLHVSPETNPSQATQDQIHQALDTSLTRFAPPGSELHLRNGRPADVILYEIQELGADLLVLGSHHQRHEFFPGTTLDRIAQRCPIPLLVVAREDDTPYRRALAALDFSLCACHAFNHAYHLLSTEAELHAVHVFDSGKGSAKQLQAELDTQRALIAQLLRDETQDLPPGPTLTHEVEPGSLPRTLQEGIRNRQAELLVLGTHGRGTLANALLGDLVQHFLNKAPCDVLVVH				NA	NA	NA	NA	NA
BMS010_04175	441			hypothetical protein	ATGCTGCCCGAACCCATCGCCCGCCAGCTCACCGAAGAAAGCATCGCCTTCGTCAAGCGCAGCGGCCTCGTCGCCGAACGGCTCGAACCCGGCCACGTGTGCCTGCGCATGCCGCTGGAGGGCAATCGCAACCATATCGGCAGCATGTACGCCGGTGCGCTGTTCACCCTCGCCGAGATACCCGGTGGCGCGCTGTTCCTCACCAGCTTCGACAGCCAGCGCTTCTATCCCGTGGTCAAGGAACTGAACCTGCGCTTCCGCCGCCCGGCCACCACCGACATCCGGGTCGAGGCGCGACTGTCCGCCGCGGACATCGAACGCCTGCAAAACGAAGCCGCCGAACAGGGCAAGAGCGAGTTTGTCCTGGAGCTGGCACTGACCGACGATACTGGCGAAATCGTGGCCGAGAGTCGGGGCTTGTACCAATTGCGAACGCGCTGA	MLPEPIARQLTEESIAFVKRSGLVAERLEPGHVCLRMPLEGNRNHIGSMYAGALFTLAEIPGGALFLTSFDSQRFYPVVKELNLRFRRPATTDIRVEARLSAADIERLQNEAAEQGKSEFVLELALTDDTGEIVAESRGLYQLRTR				NA	NA	NA	NA	NA
BMS010_04176	435	trxC	COG0526	Thioredoxin 2	ATGTCCGACTCGCTCGTGATCCCCTGCCCGCACTGCGGAACCCTGAACCGCGTCCCGACGGCACGCCTGCGTGAACAGCCGAACTGTGGCCGCTGCAAGAACGGCGTTCTCATGGACAAACCGTTCACCCTGAGCGAGGACGGTTTCGCCGCCCAGATCAAGGGCGACCTGCCGTTGCTGGTGGATGTCTGGGCGAACTGGTGCGGCCCCTGCCGGGCCTTCGCCCCGGTGTTCGAACAGGCCGCCAGCCAACTGCGCGGGCGCTGCCGGCTGGCGAAACTGGACAGCGAGGCCAACGGCCAGTTGTCGACGCAACTGGGCATCCGCTCGATTCCCAGCCTGATCCTGTTCAGGAACGGCCGCGAGATTGCCCGCCAGAGCGGAGCATTGCCCCTGCCGCAACTGCTCGCCTGGCTGAACGGCCAAGGCATCTGA	MSDSLVIPCPHCGTLNRVPTARLREQPNCGRCKNGVLMDKPFTLSEDGFAAQIKGDLPLLVDVWANWCGPCRAFAPVFEQAASQLRGRCRLAKLDSEANGQLSTQLGIRSIPSLILFRNGREIARQSGALPLPQLLAWLNGQGI	PGPT0013061_277	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013061-trxC-K03672	NA	NA
BMS010_04177	1791			hypothetical protein	ATGCTCCCGGACTCGCTGCCCCTGCTGTTCGTAGCTGCCCTGCTGGTATGGCTGCTGTATTCGTTCGTTCGCGAAAAGTGGAGCCCCGATCTCGTCGCCGCCATCGCCGTGGCCGCCCTGCTGGTGGCCCAGTTGCTCGAACCCAAGGAAGTGCTCAGCGTGCTGTCCAACTCGGCACCGGTCACCATCGCCTGCATGTTCGTGCTCTCCGCCGCGCTGGAGCGCACCGGCTGCATCGATGCCCTGGGCAACTGGCTGGGCAACCTGGTGGGCGTCAGTCCGACCCGGGTGCTCGCCGGCCTGACCATCACCGCCCTGGTGATTTCCGCCGGGCTGAACAACACCCCCGTGGTCGCCATCCTCACCCCGGTGGCCATCGCCCTGGCCAAGCGCGCCGGCACCCAACCATCCAAGCTGCTGATCCCGCTGTCCTACGCCACCATCCTCGGCGGTACCCTGACTCTGCTCGGCACCTCGACCAACATCCTGGTCGATGGCGTAGCGCGCAAGGCGGGGCTGGAACCCTTCGGCATCTTCGAGATGACCGGCGCCGGCCTGTTCATGGCGGCGGCCGGCATGGCCTACCTGCTGACCATCGGCAAGCGCCTGCTGCCGGAGCGCGCCACCCTGTCCAAGCAGTTGCGACCCGACCTCGACCGCACCTTCATGACCGAACTGCTGGTGCCCCACGATTCGCCGGTGATCGGCCGTACCCTGGCCGAAGCCAACCTCAACGGCGGCAGCGGCCTGCAGGTACTGAAGATTTTCCGTGAAAAGGCCGAGCTGACCGAGCCCGCCCACGACACCATGCTCGCCGCCGGCGATCGTCTGGTGCTGCACGGGCAAATGCAGGACGTGGTGGAGCTGCGCGAAAGCAACCGCCTGACCTTCAACCGCAACGAAGCCTTCGAAACCATCAGCAGCCACGACGTCATCCTCGCCGAGGCCATCGTCGGCCGTAACTCGCGCTACAGCCACCGGCCGATGCGCGACCTCGACCTCACCGCGCGCTACGGCATCGCCGTGCTGGCCGTGCACCGCCAGGACGAAAACGTGCAGGGCAACCTGGACGACTTCCAACTGCAGTTCGGCGACGTCATGCTGGTGGAAGGCACGCCGCAGCAGATCAAGCGCTTCGCCGACAACGGCGAACTGATCAGCCTCAACGCCGTGCAGGAACGTGCTTTCCGCCGCGACAAGGCGCCCATCGCCATCCTCGCCACCCTCTCGGTGATGCTGCTCGCCGCCTTCGGCGTGATGCCCATCGAGGGTCTGGCGATCATCGGCGCCGTGGTGGTGCTGACCACCCGCTGCCTCGACGTGGAAGACGCCTACAAGGCAGTGGATTGGAAGATCCTCAGCCTGATCTTCGGCATGCTGGCGATCAGCATCGCCATGGACAAGGTCGGCCTGGTCGCGCTGATCGTCCAACATGTGATGGCCCTGGTGCCCTGGGCCGGGCCGCTGTTCATGCTGTCCTTCATCTACTTGCTGACCTCGATGCTCACCGAGATGCTCTCGAACAACGCGGTCGCGGTGCTGGTCACGCCCATCGCCATCGGCTTGGCCCAGCAGCTCGGCGTCGACCCGCGCGCCTTCGTGGTGGCGGTGATGTTCGCCGCCAGCGCCAGCTTCGCCACACCCATCGGCTACCAGACCAACACCTTCGTCTACAACGCCGGCGGCTATCGTTTCAGCGATTTCCTCAAGGTGGGCATTCCGCTCAACCTCCTGCTATGGATCGTGGCGACCCTGGTCATCCCGCTGTTCTGGCCGTTGCACGCAGCCTGA	MLPDSLPLLFVAALLVWLLYSFVREKWSPDLVAAIAVAALLVAQLLEPKEVLSVLSNSAPVTIACMFVLSAALERTGCIDALGNWLGNLVGVSPTRVLAGLTITALVISAGLNNTPVVAILTPVAIALAKRAGTQPSKLLIPLSYATILGGTLTLLGTSTNILVDGVARKAGLEPFGIFEMTGAGLFMAAAGMAYLLTIGKRLLPERATLSKQLRPDLDRTFMTELLVPHDSPVIGRTLAEANLNGGSGLQVLKIFREKAELTEPAHDTMLAAGDRLVLHGQMQDVVELRESNRLTFNRNEAFETISSHDVILAEAIVGRNSRYSHRPMRDLDLTARYGIAVLAVHRQDENVQGNLDDFQLQFGDVMLVEGTPQQIKRFADNGELISLNAVQERAFRRDKAPIAILATLSVMLLAAFGVMPIEGLAIIGAVVVLTTRCLDVEDAYKAVDWKILSLIFGMLAISIAMDKVGLVALIVQHVMALVPWAGPLFMLSFIYLLTSMLTEMLSNNAVAVLVTPIAIGLAQQLGVDPRAFVVAVMFAASASFATPIGYQTNTFVYNAGGYRFSDFLKVGIPLNLLLWIVATLVIPLFWPLHAA				NA	NA	NA	NA	NA
BMS010_04178	699	ygeA_2		L-aspartate/glutamate-specific racemase	ATGCGAACACTGGGTGTGCTGGGCGGTATGAGTTGGGAGTCCACGGCAGTCTACTATCGGGCACTGAATGTCGGCGTTCGCGAGCGTTGCGGCGGACTGCATTCGGCACCGTTGCTGCTGCACTCGGTGGACTTCGCCGGCATCGCCGCCTTGCAGGCCGCGGGCGAGTGGGACGAGGCGGGCCGGCAGCTCGCCGTCGCCGCACAAGGATTGCAGCGCGCCGGCGCGGAGGCGCTGCTGCTGGCGACCAACACCATGCACAAGGTGGCCCCGACGATCCAGGCCGCCCTCGACATCCCATTGCTGCACATTGGCGATGCGGTGGGCGAAGCACTGCAGCGGAGCGGCGTGAAGCAGGCGGCGCTGCTGGGCACCCGCTTCACCATGCAGGAGGATTTCTATCGGCAGCGCCTGAACGAGCGGTTCGGCATCGATTTGCAGGTGCCGGATGCCGCGTCCATGGTCGAGATCGACCGGGTGATCTACGCCGAACTCTGCCGTGGCGAGATCAGGGCCGGTTCTCGCGACTTCTATCTGGAATGCCTGGAGCGGCTGCGTGACGAAGGCGCCGAGGCGGCGATTCTCGGCTGCACTGAGATCGGCCTCTTGCTCGACGGAGCAGACAGTCCGTTGCCCCTGGTGGACAGCACCGAGCGGCACGTGGCCATGGGGCTGGACTGGTTGCTCGGCGAGGCGTGA	MRTLGVLGGMSWESTAVYYRALNVGVRERCGGLHSAPLLLHSVDFAGIAALQAAGEWDEAGRQLAVAAQGLQRAGAEALLLATNTMHKVAPTIQAALDIPLLHIGDAVGEALQRSGVKQAALLGTRFTMQEDFYRQRLNERFGIDLQVPDAASMVEIDRVIYAELCRGEIRAGSRDFYLECLERLRDEGAEAAILGCTEIGLLLDGADSPLPLVDSTERHVAMGLDWLLGEA				NA	NA	NA	NA	NA
BMS010_04179	1461	selO_2	COG0397	Protein adenylyltransferase SelO	GTGAAAAGCCTGACCGACCTGACCTTCGACAACCGTTTCGCCCGCCTGGGCGACGCGTTTTCCACCGAGGTGCTGCCCGAGCCCATCGCCGAGCCGCGCCTGGTGGTGGCCAGCCCGGCAGCCATGGCGCTGCTCGACCTGGACCCGGAAGTGGCGGAACAGCCGGTGTTCGCTGAGCTGTTCGCCGGGCACAAGCTGTGGTCGGAAGCGGAGCCTCGGGCGATGGTCTATTCCGGGCATCAGTTCGGCGTCTACAACCCGCGCCTGGGCGATGGCCGAGGCCTGCTGCTCGGCGAGGTAGTCAATGCCGCCGGCGAGCACTGGGACCTGCACCTCAAGGGTGCCGGCCCGACACCCTATTCGCGCATGGGCGACGGGCGCGCCGTGCTGCGCAGCTCGATTCGCGAATTCCTCGCGTCGGAGGCCCAGCATGCCCTGGGCATCCCCACCACCCGCGCGCTCTGCGTGACCGGCTCGAGCACCCCGGTTTATCGGGAAAAGCGCGAGACCGCGGCCATGCTCCTGCGCCTGGCGCGCAGCCATGTGCGCTTCGGGCACTTCGAGTACTTCTATTACACGCGCCAGTTGGATCAGTTGAAGCAGCTCGGCGAGCACGTGCTGAACGAGCACTTCCGCCACTGCCTGGAGCAGGAAGCGCCCTACGCGGCGTTCTACCGCGAGGTGGTGGAGCGCACCGCCGAGCTGATCGCGCGCTGGCAGGCCTACGGCTTCTGCCACGGGGTGATGAACACCGACAACATGTCGATCCTCGGCGTGACCTTCGACTACGGCCCCTACGCCTTCCTCGACGATTTCGACGCCAACTTCATCTGTAACCATTCGGACGACACCGGCCGCTACTCCTTCAGCAACCAGGTACCCATCGCCCACTGGAACCTCGCTGCCCTGGCCCAGGCGCTGACGCCGATGGTGGAGATCGATTCGCTGCGTGCCAGCCTCGATCTGTTCCTGCCGCTCTACCAGACCCACTACCTGGACCTGATGCGTCGCCGCCTCGGCTTCGTGAGCGCCGACGACGGCGACGCCAGCCTGATCGAGCGCCTGCTGCAACTGATGCAGAGCAGCCCGGTGGACTACAGCCGGTTCTTCCGCGAACTGGGCGACAGCGCGCCGGAACAGGCGCTGGGGCGACTACGGGACGATTTCGTCGACCTCGCCGGATTCGACACCTGGGCCGCCGACTACCGCGCCCGCCTGGAGCGGGAAGGCGGTTCCCAGGACGAGCGCCGCGCCCGCATGCACACGGTCAATCCCCGCTACGTGCTGCGCAACTACCTGGCGCAGCAAGCCATCGAGGCGGCCGAACAGGGCGACTACGGGGTAGTGCGCGAACTGCATCGAGTGCTGTCCCGCCCGTTCGACGAGCAGCCGGGCATGGAACGCTATGCCGAGCGCCCGCCGGAATGGGGCAAGCACCTGGAGATCAGTTGCTCGTCCTGA	MKSLTDLTFDNRFARLGDAFSTEVLPEPIAEPRLVVASPAAMALLDLDPEVAEQPVFAELFAGHKLWSEAEPRAMVYSGHQFGVYNPRLGDGRGLLLGEVVNAAGEHWDLHLKGAGPTPYSRMGDGRAVLRSSIREFLASEAQHALGIPTTRALCVTGSSTPVYREKRETAAMLLRLARSHVRFGHFEYFYYTRQLDQLKQLGEHVLNEHFRHCLEQEAPYAAFYREVVERTAELIARWQAYGFCHGVMNTDNMSILGVTFDYGPYAFLDDFDANFICNHSDDTGRYSFSNQVPIAHWNLAALAQALTPMVEIDSLRASLDLFLPLYQTHYLDLMRRRLGFVSADDGDASLIERLLQLMQSSPVDYSRFFRELGDSAPEQALGRLRDDFVDLAGFDTWAADYRARLEREGGSQDERRARMHTVNPRYVLRNYLAQQAIEAAEQGDYGVVRELHRVLSRPFDEQPGMERYAERPPEWGKHLEISCSS				NA	NA	NA	NA	NA
BMS010_04180	3348	mscK	COG3264	Mechanosensitive channel MscK	ATGCCTTCTTTGCGTTCCCTCCTGCTGGCCGCCCTGCTCGGCCTTTGCCTGACCACTCCCGGCCTGCACGCGGCCGAGGCTCCCAGCCGGGAAAACGTGCAGCGCAGCCTGGACGGTCTCGCCGACCGCAAGCTGCCGGAGGCGGATCAGAAGGCCGTCCAGCAGACCCTGGAGCAGACCCTCGCACTGATCGACCAGGCGGCCGAGGACAGCCGGAAGCTCGCCGACCTCAAGCGCCAGCTGAACGATGCCCCGCGCCTGATCAACGAAGCGCAGCGCCAGCTCGAACGGCTCAAGGGCACGCCGCGCCTGGACGTCGCCCAGCGCTATGGCAGTACCCAGGTGCCGCAACTCGAACAACTGCTGTCCGAACGCAGCGCACAGATGGCCGAGTACCAGAAGGCGCTCACCGAAGCCAACAGCCTGATCATCACCTCCCAGACCCGCCCGGAGCGCGCCCAGGCGGAGATCAGCAACAACCAGACCCGCGCCCAGCAGATCAACACCCTGCTCAAGAGCGGCCGCGACGGCAACAAGCCGCTGAGCCCCGAGCAACGCGACAAGCTCAACGCCGAGCTGGCCGCCCTCGACGCCAAGACTCAGCTGCGCCGCCAGGAGCTGGCGGGGAACAGCCTGTTGCAGGACCTCGGCAGCGCCCAGCGCGACCTGCTGGTGGAGCGCATCGGCCGGCTGGAACAGGAGACCCTGGACTTCCAGTCGCTGATCAACGAGAAGCGCCGCGCGCAATCCGAGCAGACCGTCGCCGAACTGTCCCGCGATGCCAAGAAAGCCGGCTCCGACCGCCTGCTGGCCCGCGAAAGCGCGGCCAACCTGAAGCTGTCCGACTATCTACTGCGCGCCACCAACCGCCTCAACGAACTCACCCAGCAGAACCTGCAAACCAAGCAGCAGCTCGACAACCTGTCGCAGAGCGACCAGGCCCTGGAAGAGCAGATCAACGTACTGGAGGGCAGCCTGCTGCTGGCCAAGATCCTCTACCAGCAGAAGCGGTCGTTGCCGCAGATCCAGCCGGACGCCAGCCTCGCCGAGCAGATCGCCGACATCCGCCTGTACCAGTTCGAGCTGAACCAACAGCGCCAACAGTTGAGCGACCCCGCCAGCTACGTGGAGGCCCAGTTGGCCAAGCAGCCGCCGGAGGAAGTCACGCCGGAACTGCGCAAGGCCCTGCTGGAGCTGGCGACCACCCGCAACGATCTCCTCGAGCGGCTCAATCGCGAACTGAACGCCCTGCTCAACGAGTCCATCACCCTGCAGTTGAATCAGAAGCAACTGCTCAGCACCGCCAGCCAGTTGCGTGCCACCCTCGACGAACAGATGTTCTGGATTCCCAGCAACCGCCCGCTGGATCTCGCCTGGCTGAAGAACGTGCCGCGCCTGCTCGACCGCCAGATCGACGCCCTGCCCTGGCGCACTGTCTTCAGTGAGTTGAGCGCCGGCCTGGTGGAGCGACCGCTGGTGTTCCTGCCGCTGTTGCTGTTGATCGGCGCCCTGCTGTGGAAGCGCAGCTACCTGTATCAGAAGCTCGCCGAGCTGCATCAGGACATCGGCCACTTTAAGCGCGACAGCCAGTTGCACACGCCACTGGCCCTGCTGCTCAACGTCCTGCTGGCGTTGCCGGGCGCGCTGTTCCTCGCGCTCTGCGGCTTCGCCCTGCAGATGGATGCACGCGGGCAGAACGCCACCCTGGGCGACGCCCTGCTGCAGATGGCCCAGGCCTGGCTGGTGTTCTACACCGCCTACCGCATCCTCTCGCCCGGCGGCGTGGCCGAGCTGCACTTCCGCTGGGCACGGCCGCAAGTGGCCTTCCTGCACACCCAAATGCGCCGCCTGGGCGTGGTGGTGCTGGCCCTGGTGGCGGTGGCCGCCATCGCCGAGCGCCAGCCGGGCAAGCTGGCCGAGGATGTGATCGGCATCGCCGTGGTGCTCAGCTGCTACGCCCTGATGAGCTGGCTGCTGACCCGCCTGCTCCTGCGCGGCCCGGCCAGCGAGAACGCGCCGGCCTTCCGCCTGCTGATCGGCCTGCTGTTCAGCGCCCTGCCGGTGGCGCTGATCGTCGCGGTCGGCTTCGGCTACTACTACACCTCGTTGAAACTCACCGATCGCCTGATCGACACGCTCTACGTGCTGATGCTCTGGATCGTGGTCGAGGCCACCCTGGTGCGCGGCCTGTCGGTGGCGGCGCGGCGCCTGGCCTACCAGCGCGCCGTGGCCAAGCGCCAGGCGCAACCCAAGGAAGCGCCGGACGGCGGCGAGCTGATCGAAACCCCGGCGCTGGACATCGAGCAGGTCAACCAGCAGTCGCTGCGCCTGATTCGCCTGACCCTGTTCGGCCTGTTCCTCGGCGCGCTCTACTGGGTCTGGTCGGACCTGATCTCGGTGTTCTCCTACCTCGATAACATCGTTCTCTACGAATTCACCAGCGGCAGCGGCGATGCCGTCAGCAGCACACCGATCAGCCTGCGCGACCTGCTCGGCGCGCTGCTGATCATCGGTATCACCATCGCCCTGGCGCGCAACCTGCCGGGCCTGCTGGAAGTGCTGGTGCTGTCGCGCCTGCGCCTGGCCCAGGGCAGCGCCTACGCCACCACCACCCTGCTCTCCTACGCCCTGGCCGGCATCGGCATCGTCGCCACCCTGTCCACCCTGGGGGTGAGCTGGGACAAGCTGCAATGGCTGGTGGCGGCGCTCTCGGTGGGCCTCGGCTTCGGCCTGCAGGAAATCTTCGCCAACTTCATTTCCGGCCTGATCATCCTGTTCGAACGGCCGGTGCGGATCGGCGATGTGGTGACCATCGGCAACCTGTCCGGCACGGTCAGCCGGATTCGCATCCGCGCCACCACCATCACCGATTTCGACCGCAAGGAAATCATCGTCCCGAACAAGACCTTCATCACCGGCCAACTGGTGAACTGGTCGCTGCACGACACCGTCACCCGCGTGACCATCCGCATCGGCGTCGGCTACGGCTCCGATCTGGAGCTGGTGCGCAAACTGCTCTACCAGGCCGCCAACGAGAACCCGCGCGTCCTCAAGGAGCCGGCGCCGCTGGTGTATTTCCTCACCTTCGGCGAAAGCACCCTGGACCACGAGCTGCGCATCCACGTGCGCGAGCTGGGCGACCGCAACCCGGCCACCGACGAGATCAACCGTTTCATCGACGCGGAGTTCAAGAAGCACGGCATCAACATCGCCTTCCGCCAGCTCGACGTGTTCGTGAAGAACCTCGACGGCCAGGAGTTGCACCTGGTGCCGGCCGGCAAGAAGACGGAGGCCGCCAAGGACCAGCCCGAGCCGCCGGAAACCGACGTGGACGACGCCCCGCACTGA	MPSLRSLLLAALLGLCLTTPGLHAAEAPSRENVQRSLDGLADRKLPEADQKAVQQTLEQTLALIDQAAEDSRKLADLKRQLNDAPRLINEAQRQLERLKGTPRLDVAQRYGSTQVPQLEQLLSERSAQMAEYQKALTEANSLIITSQTRPERAQAEISNNQTRAQQINTLLKSGRDGNKPLSPEQRDKLNAELAALDAKTQLRRQELAGNSLLQDLGSAQRDLLVERIGRLEQETLDFQSLINEKRRAQSEQTVAELSRDAKKAGSDRLLARESAANLKLSDYLLRATNRLNELTQQNLQTKQQLDNLSQSDQALEEQINVLEGSLLLAKILYQQKRSLPQIQPDASLAEQIADIRLYQFELNQQRQQLSDPASYVEAQLAKQPPEEVTPELRKALLELATTRNDLLERLNRELNALLNESITLQLNQKQLLSTASQLRATLDEQMFWIPSNRPLDLAWLKNVPRLLDRQIDALPWRTVFSELSAGLVERPLVFLPLLLLIGALLWKRSYLYQKLAELHQDIGHFKRDSQLHTPLALLLNVLLALPGALFLALCGFALQMDARGQNATLGDALLQMAQAWLVFYTAYRILSPGGVAELHFRWARPQVAFLHTQMRRLGVVVLALVAVAAIAERQPGKLAEDVIGIAVVLSCYALMSWLLTRLLLRGPASENAPAFRLLIGLLFSALPVALIVAVGFGYYYTSLKLTDRLIDTLYVLMLWIVVEATLVRGLSVAARRLAYQRAVAKRQAQPKEAPDGGELIETPALDIEQVNQQSLRLIRLTLFGLFLGALYWVWSDLISVFSYLDNIVLYEFTSGSGDAVSSTPISLRDLLGALLIIGITIALARNLPGLLEVLVLSRLRLAQGSAYATTTLLSYALAGIGIVATLSTLGVSWDKLQWLVAALSVGLGFGLQEIFANFISGLIILFERPVRIGDVVTIGNLSGTVSRIRIRATTITDFDRKEIIVPNKTFITGQLVNWSLHDTVTRVTIRIGVGYGSDLELVRKLLYQAANENPRVLKEPAPLVYFLTFGESTLDHELRIHVRELGDRNPATDEINRFIDAEFKKHGINIAFRQLDVFVKNLDGQELHLVPAGKKTEAAKDQPEPPETDVDDAPH	PGPT0013825_508	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013825-mscK|kefA|aefA-K05802	NA	NA
BMS010_04181	1746	nhaP2	COG3263	K(+)/H(+) antiporter NhaP2	TTGGACGCGAATGCCATCAACAGCCTGTTTCTGATCGGCGCGTTGCTGGTGGGCGCAAGCATTCTGGTCAGCTCGGTCAGCACCCGGCTGGGCATCCCCATCCTGGTGATTTTCCTCGCCGTCGGCATGGTCGCCGGCGTCGACGGCGCCGGTGGCATCGTTTTCGACAACTACCCCATGGCCTACCTGGTAGGCAACCTGGCGCTGGCGGTGATCCTGCTCGACGGCGGCCTGCGCACGCGGGTGGCGAGCTTCCGGGTGGCGCTCTGGCCGGCCTTGTCGCTGGCCACAGTGGGCGTGCTGATCACCGCCGGGCTGACCGGCATCGCCGCGGCCTGGCTGTTCAACCTGCACTGGCTGGAAGGGCTGCTGATCGGCGCCATCGTCGGCTCCACCGACGCCGCCGCGGTGTTCAACCTGCTGGGCGGGCGCGGTCTCAACGAACGGGTCAGCGCCACCCTGGAGATCGAGTCGGGCAGCAACGACCCGATGGCGGTGTTCCTCACGGTGACCCTGATCGGCATGCTGGCCAGCGGCGAGACCGCATTCAGCTTCGGTTTCCTCTCCCAACTGGTCCAACAGTTCGGCATCGGCGCCCTGTTCGGCCTGGGTTTCGGCTGGTTGCTGCTGAATCTGATCAACCGCCTCAACCTGGCCAACGGCCTGTACCCGCTGCTGGTGGTAAGCGGCGGCCTCGCCCTGTTCGCCCTGACCAACGCCGTCGGCGGCAGCGGCTTCCTGGCCATCTACCTCTGCGGCCTGCTGCTGGGCAACCGGCCGATCCGTTCGCGCCACGGCATCCTGCACATGCTCGACGGCCTGGCCTGGCTCTCGCAGATCGGCATGTTCCTCGTCCTCGGCCTGCTGGTCACGCCGCACCAGATGCTGCCCATCGCCCTGCCGGCGCTGGGGCTGGCGCTGTGGATGATTCTCTTCGCCCGCCCGCTGTCGGTCTTCCTCGGCCTGCTGCCGTTCCGCGCCTTCCATGATCGGGAGAAGGTGTTCATCGCCTGGGTCGGCCTGCGCGGCGCGGTGCCGATCATCCTGGCGGTGTTCCCGATGATGGCCGGGTTGCCGAACGCACAACTGTTCTTCAACGTGGCTTTCTTCATCGTGCTGGTCTCGCTGCTGCTGCAAGGCGCCAGCCTGCCCTGGGCAGCCAGCCGCCTGCGGGTGACGGTGCCGCCGGAGCCGGCGCCGATCTCCCGCGCCGGGCTGGAAGTCCATCCCACCAGCGAGTGGGAGCTGTTCATCTATCGCCTGGGCGCGGAGAAATGGTGCATCGGCGCCGCCCTCCGCGAGTTGAAGATGCCCGACGGCACCCGCATCGCCGCGCTGTTCCGCGACCAGCAACTGCTGCACCCGTCCGGCAGCACCACGCTCAAGGCCGGCGACCTGCTCTGCGTGATCGGTCACGAGCACGATCTCCCGGCCCTCGGCAAGCTGTTCAGCCAGGCGCCACAGCGTGGCCTGGACCTGCGCTTCTTCGGCGACTTCGTGCTCGAAGGCGATGCCGAACTGCGCGCGGTGGCCGCCCTCTACGGCCTCAAGCTGGGCGACCTGGACGGCAGCCAGCCGCTGGGCCGTTTCATCGCCCGCGAAATCGGCGGCGAACCGGTGGTCGGCGACCAGGTCGAATGGAACGGCCTGACCTGGACGGTCGCCCTCATGGAAGGCCACAAGATTCGCAAGGTCGGGGTGAAATTTCCCGAAGGCGGGCGTCCCGGTCCCGGTCTGTTCCTTTAG	MDANAINSLFLIGALLVGASILVSSVSTRLGIPILVIFLAVGMVAGVDGAGGIVFDNYPMAYLVGNLALAVILLDGGLRTRVASFRVALWPALSLATVGVLITAGLTGIAAAWLFNLHWLEGLLIGAIVGSTDAAAVFNLLGGRGLNERVSATLEIESGSNDPMAVFLTVTLIGMLASGETAFSFGFLSQLVQQFGIGALFGLGFGWLLLNLINRLNLANGLYPLLVVSGGLALFALTNAVGGSGFLAIYLCGLLLGNRPIRSRHGILHMLDGLAWLSQIGMFLVLGLLVTPHQMLPIALPALGLALWMILFARPLSVFLGLLPFRAFHDREKVFIAWVGLRGAVPIILAVFPMMAGLPNAQLFFNVAFFIVLVSLLLQGASLPWAASRLRVTVPPEPAPISRAGLEVHPTSEWELFIYRLGAEKWCIGAALRELKMPDGTRIAALFRDQQLLHPSGSTTLKAGDLLCVIGHEHDLPALGKLFSQAPQRGLDLRFFGDFVLEGDAELRAVAALYGLKLGDLDGSQPLGRFIAREIGGEPVVGDQVEWNGLTWTVALMEGHKIRKVGVKFPEGGRPGPGLFL	PGPT0013860_221	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013860-cvrA|nhaP2-K11105	NA	NA
BMS010_04182	786	kefF_2	COG2249	Glutathione-regulated potassium-efflux system ancillary protein KefF	ATGAATATCCTGCTCGTTTACGCCCACCCCGAACCCCGCTCCCTCAACGGCTCGCTCAAGACGTTCACGATCAAGCGCCTCGAAGCCGCCGGGCATAGCGTCCAGGTCTCGGACCTGTATGCGATGAACTGGAAAGCGCAACTCGATGCCGACGACAGCATCCAGCGCCGGCCCGGCGAGCGCTTCGATCCTTCACTCGACTCCAGGCACGCCTACGAGAACGGCCTGCAAAGCCTGGATATCGTGCGTGAGCAGGAGAAGCTGCTGTGGGCGGATGCCGTCATCCTGCAGTTCCCGCTCTGGTGGTTCTCGATGCCGGCCATCCTCAAGGGCTGGGTGGAGCGCGTCTATGCCTACGGTTTCGCCTACGGCGTGGGCGAGCACTCCGACAGCCACTGGGGCGACCGCTACGGCGAAGGCACGCTGGCCGGCAAGCGCGCCATGCTGGTCGTCACCGCCGGCGGCTGGGAGCCGCACTACAGCCCGCGCGGCATCAACGGCCCGATCGACGACCTGCTCTTCCCCATCCACCACGGCATCCTTTATTACCCCGGCTTCGACATCCTGCCGCCGTTCGTGGTCTACCGCACCGGCAAGATCGACGAAACCCGTTACGCCGCGATCTGCGAGCAGCTCGGGCAGCGCCTGGACGAGCTGTTCACCACCGCGCCGATCCCCTTCCGCCCGCAGAACGCCGGCGCCTACGAAATCCCGGCCCTTACCTTGCGCCCGGAAATCGCGCCGGGGCGGACGGGGTTTGGAGTGCATGTCGGGGATGATGCGTAG	MNILLVYAHPEPRSLNGSLKTFTIKRLEAAGHSVQVSDLYAMNWKAQLDADDSIQRRPGERFDPSLDSRHAYENGLQSLDIVREQEKLLWADAVILQFPLWWFSMPAILKGWVERVYAYGFAYGVGEHSDSHWGDRYGEGTLAGKRAMLVVTAGGWEPHYSPRGINGPIDDLLFPIHHGILYYPGFDILPPFVVYRTGKIDETRYAAICEQLGQRLDELFTTAPIPFRPQNAGAYEIPALTLRPEIAPGRTGFGVHVGDDA	PGPT0009455_523	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009455-kefF|nqo|ywrO-K00355	NA	NA
BMS010_04183	894	syrM1		HTH-type transcriptional regulator SyrM 1	GTGAGTAATCTCGGAAGGCTCGACCTCAACCTGCTGGTCACCCTGGATGTGCTGCTGAGCGAGCACAACGTCACCCGTGCCGCCGAGCGCCTGAACCTGTCCCAGCCCGCGGTGAGCGTGCACCTTGCCAAGCTGCGGGAGTTCTTCGGCGATCCGCTGTTGCTGCCGGGCCCGCGCGGCATGCGCCCCACCGCCCGGGCGGACGAGCTGCGCGAGCCGTTGCGCCAGGCGCTGGAGGCGTTGGGGCACGCCGTGTCGCCCGCGCGGCCCTTCGATCCCGCCGAGGCTCGGCATACCTGGCGTGTCATGGCGTCCGACTACGGCGAGTCGACCATCGTGCTGCCGGCCCTGGCCGGGTTGCGCAAGGCGGCGCCGCATAGCCGACTGGCCGTGCTGGAACTGGTGCCGTCACGCATCGCCCGGCAGGCGGAGCAGGGTGAGATCGACCTAGCCTTTCATATCCTGGAGGATGCGCCGCCCGGTCTGCATGGCCGCGCCCTGTTCACGGAGCGCTACGTGCTGGTGGGACGGGCAGGTCATCCCGAGCTGGAACGGCCGCCCTCACTGGAGCGGTTCTGCCGGCTCGATCACGTGATCGTGTCGCCGAACGGCGGGGGCTTTCGCGGTGTGACCGACGAGGCGCTGGCGGCTGCGGGTTTGTCGCGCCGGGTGGCGCTGTCCGTGCCGCACTTCCTGTTCGTCGTGTCGGCCCTGATGGGCTCGGACCTGGTGGCGATGCTGCCCGAACGCCTGGTGCGCGGTAACGCCGCGTTGCAGGTGGTCGAGCCGCCGCTCCAGGTGCCGGGCTACGAGATGGTCATGCTCTGGCACGAACGCGTTCATCGCGACCCGGCCCATTGCTGGTTGCGCGAGCATATTGCGGCAGCGGTCTGA	MSNLGRLDLNLLVTLDVLLSEHNVTRAAERLNLSQPAVSVHLAKLREFFGDPLLLPGPRGMRPTARADELREPLRQALEALGHAVSPARPFDPAEARHTWRVMASDYGESTIVLPALAGLRKAAPHSRLAVLELVPSRIARQAEQGEIDLAFHILEDAPPGLHGRALFTERYVLVGRAGHPELERPPSLERFCRLDHVIVSPNGGGFRGVTDEALAAAGLSRRVALSVPHFLFVVSALMGSDLVAMLPERLVRGNAALQVVEPPLQVPGYEMVMLWHERVHRDPAHCWLREHIAAAV				NA	NA	NA	NA	NA
BMS010_04184	696	ktrA	COG0569	Ktr system potassium uptake protein A	TTGTTGGCTAAGTTCTTGTTCACCGAACAATTCGCCTTTTCCAAGGGCGACAGCGTGGTCGTCATCGGTCTCGGCCGTTTCGGCGGAGCGGTGGCGCAAACCCTGATGCGCCTCGGCCACGATGTCATGGGCATCGACCGCGACCCCGAGCCCGTCGATACCTGGGCGGACCTGCTGACCCATGCGGTACAGGCCGACTCCACCAACACCCAGGTGCTCCGCCAACTGGGCGTGGCCGACTTTTCCCATGCCATCGTCGGCATCGGCACCGACCTCGCCGCCAGCCTGATGACGGTCATGGCGCTGGTCGAACTGGGCATCGAGGACATTTGGGTCAAGGCGCTGACCAACGAGCACGGGCATATCGCCCAGCGGATCGGCGCCCACCATGTGGTCTACCCGGAAATGGACATGGGCGAACGCGTCGCCCACCTGATCACCGGCCGGCTGATCGACTTCATCGAATTCGACGATGGCTTCGGCATTGCCAAGATCCAGGCGCCCGCCCTGGCGCATAACAAGACCCTGACCGATTCCGGCATCCGTGAGAAATACGGCATCACCATCGTCGGCTTGAAGCGCCACAACGAAGACTTCCAGCACGCCACGCCCAGCACCCTCGTCCTGCCCGGCGACCTGCTGATCGTCACGGGTGCGACCCAGCTCATCCAGAAGTTTGCGGCCGAGCTGAAATAG	MLAKFLFTEQFAFSKGDSVVVIGLGRFGGAVAQTLMRLGHDVMGIDRDPEPVDTWADLLTHAVQADSTNTQVLRQLGVADFSHAIVGIGTDLAASLMTVMALVELGIEDIWVKALTNEHGHIAQRIGAHHVVYPEMDMGERVAHLITGRLIDFIEFDDGFGIAKIQAPALAHNKTLTDSGIREKYGITIVGLKRHNEDFQHATPSTLVLPGDLLIVTGATQLIQKFAAELK	PGPT0002710_2508	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002710-trkA|ktrA-K03499	NA	NA
BMS010_04185	1329	ktrB	COG0168	Ktr system potassium uptake protein B	ATGAAGCCTCTGCTCCACCCCGCCCGGGCCGTCGCCCTGGCCTTCCTCACCGTGATCCTGATCGGCACCGCCATCCTGATGCTGCCCATTTCCCAGGCGGAGGGGCAGGCCGCGCCCTGGACCGTCGCGCTGTTCACCGCCGTGTCGGCAGTCTGCGTGACGGGGCTGGTGGTGGTGGACACGGGGACCTACTGGTCGATGTTCGGCCAGTCGATGATCATGCTGCTGTTCCAGCTCGGCGGCTTCGGCATGATGACGCTGGCGACCGTGCTGGGCCTGCTGGTCAACCGGTCGTTCCGCCTGCACACCAAGCTGATCGCCCAGGCCGAGTCCCGCACGCTGGGGTTGGGCGACCTCTCCAGCGTCGCCCGGCTGGTCTTGATGGTGACGCTGGCGATCGAATTGAGCGTGGCGCTGCTGCTGACGCTCCGTCTTCACCTGGCCTACGGCCTTCCCTGGGGCGAGGCCGCCTGGAGCGGGCTCTTCCATGCCATTTCCGCCTTCAACAACGCCGGCTTTTCCATTCATGCCGACAGCCTGATGCGCTACGCCACCGACGCGCTGGTGCTGCTGCCGGTCATGGCTGCCATCGTCATCGGCGGGATCGGCTTTCCCGTGATCAGCGACCTGCGTAATAAACTGCGCGATCCCCGCCACTGGTCCCTGCACACCAAGCTGACCCTGCTCGGCACGCTGGTCCTGCTGCTGGGCGGGTTCGCCACGCTGCTGCTGTTCGAGTGGGCCAACCCGAAGACGCTCGGGCCCATGGCCTTCGGCGACAAGCTTCTGTCCGCCGCCTTCGCCTCCGTTTCCGCGCGGACCGCCGGCTTCAATTCCATCGACATCGGCGTGCTGACCCATGAAAGCTGGGGGCTGCACTACTTCCTGATGTTCATCGGCGGCGGCAGCGCCGGGACCGCCGGTGGCGTCAAGGTCGGTACCGTGGCGATCCTGGCCCTGCTGGTCATCGCGGAAATACGCGGCCGCAGCGACTCCGAGGCGTTCGGCCGGAGGGTCGGCCCTTCGGCCCAGCGCCAGGCCATCACGGTGCTTTTCCTGGGCAGCGCGATGATCGTGCTGGGAACGATCGTCATCCTGCGCGAGACCGATTTCCCGACCGACCAGGTCATCTTCGAGGTCATTTCGGCGTTCGGCACGGTCGGCCTGTCCACCGGCATCACTGCCTCGCTGCCGGAATCCAGCCAGCTCATGCTGATTCTGCTCATGTACGTGGGCCGGGTCGGCACCGTCACCCTGGCCACTTCGCTGGCCCTGGGCGAGCGCCGCATGCCCTACCGCTACCCGGAGGAACACCCCATTGTTGGCTAA	MKPLLHPARAVALAFLTVILIGTAILMLPISQAEGQAAPWTVALFTAVSAVCVTGLVVVDTGTYWSMFGQSMIMLLFQLGGFGMMTLATVLGLLVNRSFRLHTKLIAQAESRTLGLGDLSSVARLVLMVTLAIELSVALLLTLRLHLAYGLPWGEAAWSGLFHAISAFNNAGFSIHADSLMRYATDALVLLPVMAAIVIGGIGFPVISDLRNKLRDPRHWSLHTKLTLLGTLVLLLGGFATLLLFEWANPKTLGPMAFGDKLLSAAFASVSARTAGFNSIDIGVLTHESWGLHYFLMFIGGGSAGTAGGVKVGTVAILALLVIAEIRGRSDSEAFGRRVGPSAQRQAITVLFLGSAMIVLGTIVILRETDFPTDQVIFEVISAFGTVGLSTGITASLPESSQLMLILLMYVGRVGTVTLATSLALGERRMPYRYPEEHPIVG	PGPT0002735_5022	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002735-trkG|trkH|ktrB-K03498	NA	NA
BMS010_04186	1803	dmdC_1	COG1960	3-methylmercaptopropionyl-CoA dehydrogenase	ATGTCCGAAACCCTGCTCAGCTCCCGCAACCTGACCTTCGAACTCTACGAAGTGCTGGACGCCGAAGCCCTGACCCAGCGCGAACGCTTCGCCGAGCACAGCCGCGAAACCTTCGACGCCGCCCTCGGCACCGCCCGCAGCATCGCCGAAAATCTCTTCGCCCCGCACAACCGCAAGAACGACGAGAACGAGCCGGAGTACGTCAACGGCGAGGCCCGCCTGATTCCCGAGGTGAAGCCGGCGGTGGACGCCTTCCTCGAGGCCGGCTTCCTCAACGCCACGCGCACCTTCGAGCAGGGCGGCATGCAGTTGCCCAACCTGCTCTCCCAGGCCTGCTTCGCCCACTTCCAGTCGGCCAACATCGCCACCTCGTCCTACGCCATGCTGACCATGGGCGCGGCCAACCTGATCGAGGCCTTCGGCAGCGAGGAGCAGAAACAGCGCTTCCTCCAGCCGATGATCGAAGGCCGCTTCTTCGGCACCATGGCGCTGACCGAGCCCCATGCCGGCTCCTCCCTGGCGGACATCCGCACCCGCGCCGAACCGGCCGGCGACGGCACCTACCGGATCAAGGGCAACAAGATTTTCATCTCCGGCGGCGACCATCCGCTGTCGGAAAACATCGTGCACATGGTCCTGGCCAAGCTGCCGGACGCCCCGCCCGGGGTGAAAGGCATTTCCCTGTTCATCGTGCCCAAGTTCCTGGTCAACGATGACGGCAGCCTGGGCCAGCGCAACGACGTGCTGCTCGCCGGCCTGTTCCACAAGATGGGCTGGCGCGGCACCACCTCCACCGCGCTGAACTTCGGCGACAACGGTGAATGCGTCGGCTACCTAGTGGGCAAGCCGCACCACGGCCTGGCCTACATGTTCCAGATGATGAACGAGGCGCGCATCGGCGTCGGCATGGGTGCCATCATGCTCGGCTACGCCGGCTACCTGTACTCGCTGGAGTATGCCCGCGAACGCCCCCAGGGCCGCCTGCCGGACGGCAAGGACCCGACCTCCAAGCCGGTGCCGATCGTCCAGCACGCCGACGTGCGGCGCATGCTGCTGACCCAGAAGGCCTACGTGGAAGGCGCCTTCGACCTCGGCCTGTACGCTGCCCGCCTGTTCGACGACACCGAGACCCTGCCCACCGAGGATGAGCGCAAGCAGGCCCACGAACTGCTCGACCTGCTCACCCCCATCGTCAAGTCCTGGCCCTCGGAGTTCTGCCTGAAGGCCAACGAACTGGCGATCCAGATCCTCGGCGGCCACGGCTACACCCGCGAATACCCGGTGGAGCAGTACTACCGCGATAACCGCCTCAACCCGATCCACGAAGGCACCCACGGCATCCAGTCCCTCGACCTGCTCGGCCGCAAGGTGGCGCAGAACAACGGCGCCGGCCTCAAGCAACTGACCAGGCTGATCCAGGGCTGTTGCCGCCGCGCCGCCGAACATCCGTCGCTGGACACCCTGCGCCAGCCGCTGGAGCAACTCCTGGCGCGCCTCTCGGCGGTGACCCTGGCCCTGCTCGGCGACCTCATGCAGGGCAAGGTCAACCAGGCCCTGGCCAACTCCGCGCTGTACTTGAAGGCATTCGGCCACGCCGTGATCGGCTGGCGCTGGCTGGAACAGGCCATCCGTGCCGAACAGGGCTTGGCCGGCGGCAACCCGGCGGATGCCGACTTCTATAAGGGCAAGCTCCAGGCCGCGCGCTACTTCCTCACCTGGGAAGTCCCGTCCTGCCACCACGAACTGGCCCTGCTGGAAGCCCGCGATCCGACCTGCCTGGAGATGCAGGACGCCTGGTTCTGA	MSETLLSSRNLTFELYEVLDAEALTQRERFAEHSRETFDAALGTARSIAENLFAPHNRKNDENEPEYVNGEARLIPEVKPAVDAFLEAGFLNATRTFEQGGMQLPNLLSQACFAHFQSANIATSSYAMLTMGAANLIEAFGSEEQKQRFLQPMIEGRFFGTMALTEPHAGSSLADIRTRAEPAGDGTYRIKGNKIFISGGDHPLSENIVHMVLAKLPDAPPGVKGISLFIVPKFLVNDDGSLGQRNDVLLAGLFHKMGWRGTTSTALNFGDNGECVGYLVGKPHHGLAYMFQMMNEARIGVGMGAIMLGYAGYLYSLEYARERPQGRLPDGKDPTSKPVPIVQHADVRRMLLTQKAYVEGAFDLGLYAARLFDDTETLPTEDERKQAHELLDLLTPIVKSWPSEFCLKANELAIQILGGHGYTREYPVEQYYRDNRLNPIHEGTHGIQSLDLLGRKVAQNNGAGLKQLTRLIQGCCRRAAEHPSLDTLRQPLEQLLARLSAVTLALLGDLMQGKVNQALANSALYLKAFGHAVIGWRWLEQAIRAEQGLAGGNPADADFYKGKLQAARYFLTWEVPSCHHELALLEARDPTCLEMQDAWF	PGPT0002285_15	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0002285-bcd-K00248	NA	NA
BMS010_04187	3972	putA_2	COG0506	Bifunctional protein PutA	ATGGCAACCACCACGACCCTCGGGGTCAAACTCGACGAAGCGACCCGGGAGCGGCTGAAGGAAGCGGCGCGCAAGATCGATCGCACGCCCCATTGGCTGATCAAGCAGGCCATCTACAGCTACCTGGCGACCCTCGAGAGCGGTGTCAGCATGCCCGAACTGGAAGCCATCGCCACGCGCCTGGCCGAAGGCGACAACGAAGCCGTCGAGGCACTGGTGGACCCGGGCTTCCAGCCCTTCCTCGAATTCGCCGAAGGCATCCTGCCGCAATCCGTGCTGCGCGCCGCCATCACCGGCGCCTACCGTCGCCCCGAGCAGGAAGTGGTGCCCATGCTCCTGGAGCAGGCGCGCCTGCCGGCCGACCAGGCCGAAGCCTCGCAGAAGCTCGCCCAGCGTATCGCCGAAAAACTGCGCAACCAGAAGAGCGCCAGCGGCCGCGCCGGCATCGTCCAGGGCCTGTTGCAGGAATTCTCCCTCTCCTCCCAGGAAGGCGTGGCCCTGATGTGCCTGGCCGAAGCCCTGCTGCGCATTCCGGACAAAGGCACCCGCGACGCCCTGATCCGCGACAAGATCAGCACCGGCAACTGGAGCCAGCACCTCGGCCAGAGCCCGTCGATGTTCGTCAACGCGGCCTCCTGGGGCCTGCTGATCACCGGCAAGCTGGTGTCCACCCACACCGAGGCCGGCCTGTCCAACTCGCTCAACCGCATCATCGGCAAGAGCGGCGAACCGCTGATCCGCAAGGGCGTGGACATGGCCATGCGCCTGATGGGCGAGCAGTTCGTCACCGGCGAAACCATCGCCGAAGCCCTGGCCAACGCCAGCCGCTACGAAGCCAAAGGCTTCCGCTACTCCTACGACATGCTCGGCGAGGCCGCGCTGACCGAGGAAGACGCCCAGCGCTACCTGGCCTCCTACGAGCAGGCCATCCACGCCATCGGCAAGGCGTCCCACGGCCGCGGCATCTATGAAGGCCCCGGCATCTCCATCAAGCTGTCCGCCCTGCACCCGCGCTACAGCCGCGCCCAGTACGAGCGGATGATGGACGAGCTGTATCCGCGCCTGCTCGGCCTGACCGTCCTGGCCAAGCAGTACGACATCGGCCTCAACATCGACGCCGAAGAAGCCGACCGCCTGGAAATCTCCCTCGACATGCTCGAGCGCCTCTGCTTCGAGCCGCAACTGGCCGGCTGGAACGGCATCGGCTTCGTCATCCAGGCCTACCAGAAGCGCTGCCCGTACGTCATCGACTATGTCATCGACCTGGCCCGCCGCAGCCGCCACCGCCTGATGATCCGCCTGGTGAAAGGCGCCTACTGGGACAGCGAAATCAAGCGCGCCCAGGTGGATGGCCTGGAGGGTTACCCGGTCTACACCCGCAAGGTCTATACCGACGTCTCTTACATCGCCTGCGCCCGCAAGCTGCTGGCCGTGCCGGAAGTCATCTTCCCGCAGTTCGCCACCCACAACGCCCACACCCTGTCGGCCATCTACCAGATCGCCGGGCAGAACTACTACCCGGGCCAGTACGAGTTCCAGTGCCTGCACGGCATGGGCGAGCCGCTTTACGAGCAGGTGGTCGGCCCGGTTTCCGAAGGCAAGCTGAACCGTCCGTGCCGTATCTATGCCCCGGTCGGCACCCACGAGACGCTGCTCGCCTACCTGGTACGCCGCCTGCTGGAAAACGGCGCCAACACCTCGTTCGTCAACCGCATCGCCGACCAGTCCATTTCCATCAAGGAACTGGTCGCCGACCCGGTGCCGACCATTGAGCAGATGGCCGTGCAGGAAGGCCAGCTCGGCCTGCCGCACCCGCGCATCCCGCTGCCGCGCGACCTGTACGGCAAGGCGCGGATCAACTCCAGCGGCATCGACCTGGCCAACGAACACCGCCTCGGCTCGCTCTCCAGCGCCCTGCTGACCACCGCCCACGCCGACTGGAAGGCCGCGCCGATGCTCGGCTGCGACAGCAGCAGCGGCGTCGCCGTGCCGGTACTCAACCCGGCGGACCACCGTGACCTGGTCGGCCACGTGCAGGAAGCCAGCGTCGAGGACGTCAACAACGCCCTGCTCGCCGCGCTAGCCGCCGCACCGATCTGGCAGGCCACTCCGCCGGCCGAGCGCGCCGCCACCCTGGACCGCGCCGCCGACCTGATGGAAGGCCAGATGCAGACCCTGATGGGCCTGCTGGTGCGCGAAGCCGGCAAGACCTTCGCCAACGCCATCGCCGAAGTCCGCGAGGCCGTGGACTTCCTGCGCTACTACGCCGCCCAGGGCCGCGCCGACTTCGCCAACGACACCCACCGTCCGCTGGGCCCGGTGGTCTGCATCAGCCCGTGGAACTTCCCGCTGGCGATCTTCAGCGGTCAGGTCGCCGCGGCCCTCGCCGCCGGCAACACCGTGCTGGCCAAGCCCGCCGAGCAGACCCCGCTGATCGCCGCCCAGGCCGTGCGCATCCTCCTCGAAGCCGGCATTCCGGCCGGCGTGCTGCAACTGCTGCCGGGCCGCGGCGAGACCGTCGGCGCCGCCCTGGTGGGCGACGAGCGCGTCAAGGGCGTGATGTTCACCGGTTCCACCGAAGTCGCCGGCATCCTCTCGCGCAACGTCGCCGGACGCCTCGACGCCCAGGGCCGGCCGATCCCGCTGATCGCCGAGACCGGCGGCCAGAACGCCATGATCGTCGACTCCTCCGCCCTGGTGGAGCAGGTGGTCACCGACGTAGTCGCCTCCGCCTTCGACAGCGCCGGCCAGCGCTGCTCCGCGCTGCGCGTGCTGTGCGTGCAGGAAGACGTGGCCGAACGCCTGATCGCCATGCTCAAGGGCGCCATGGCCGAATGCCGTCTGGGCAACCCGGACCACCTGGGCACCGACATCGGCCCGGTGATCGACGGCGAAGCCAAGGCCGGCATCGAGCGCCACATCCAGGCCATGCGCGAAAAAGGCCGTAGCGTCTACCAGAACGCCCGCCTGGAAGGCGACGCGATCCGTCGCGGCACCTACGTGACGCCGACCCTGATCGAGCTGGAAAGCCTGTCCGAACTGGAACGCGAAATCTTCGGCCCGGTGCTGCACGTGGTGCGCTACAAGCGCAAGGACCTCGGCGCCCTGATCGAGCAGATCAACGCCACCGGCTACGGCCTGACCCTCGGCGTGCATACCCGCATCGACGAGACCATCGCCCAAGTCGTGAGCAAGGCCCACGCCGGCAACCTCTACGTCAACCGCAACATGGTCGGCGCGGTGGTCGGGGTGCAGCCGTTCGGCGGCGAAGGCCTCTCTGGCACCGGTCCGAAGGCCGGCGGCCCGCTGTACATGTACCGCCTGCTGTCGACACGTCCGGCCGACGCCATTGCCCGCGGCTTCGCCCGCAGCGATGCCGAGACACCGGCGGACGCCCAACTGCGTGCGGCCCTGCAACTGGACAAGCCCCTGGCAGCGCTCAAGTCCTGGGCGCAGAGCAACGACCAGCAGGCGCTGGCGGCCATCACCGAGGAATTCGGCGCCACCTCGCAAAGCGGCCTGACCCGCTTGCTGCCCGGCCCGACCGGCGAGCGCAACACCTACAGCCTGCTGCCGCGCGAACGCGTGCTGTGCCTGGCCGAGACCGAGCAGGACCTGCTGACCCAACTGGCCGCCTGCCTGGCGGTCGGCAGCAAGGCCCTCTGGGCCGAAGGCGAGCTGACCCGCGGCCTGGTCAAGCGTCTGCCGGACGAGGTCAAGGCGCGCATCGAACTGGTGGCCGACTGGCAGAAGGACGAGGTGCATTTCGACGCGGTGCTGCACCACGGCGACTCCGACCAGTTGCGCGCGGTCTGCCAGCAGGTGGCCAAGCGTTCCGGCCCGATCGTCGGCGTGCAGGGCCTGTCCCAAGGCGAAACGGCGATCCCGCTGGAGCGCCTGCTGATCGAACGCGCCCTTAGCGTCAACACCGCCGCTGCCGGCGGCAATGCCAGCCTGATGACCATCGGCTGA	MATTTTLGVKLDEATRERLKEAARKIDRTPHWLIKQAIYSYLATLESGVSMPELEAIATRLAEGDNEAVEALVDPGFQPFLEFAEGILPQSVLRAAITGAYRRPEQEVVPMLLEQARLPADQAEASQKLAQRIAEKLRNQKSASGRAGIVQGLLQEFSLSSQEGVALMCLAEALLRIPDKGTRDALIRDKISTGNWSQHLGQSPSMFVNAASWGLLITGKLVSTHTEAGLSNSLNRIIGKSGEPLIRKGVDMAMRLMGEQFVTGETIAEALANASRYEAKGFRYSYDMLGEAALTEEDAQRYLASYEQAIHAIGKASHGRGIYEGPGISIKLSALHPRYSRAQYERMMDELYPRLLGLTVLAKQYDIGLNIDAEEADRLEISLDMLERLCFEPQLAGWNGIGFVIQAYQKRCPYVIDYVIDLARRSRHRLMIRLVKGAYWDSEIKRAQVDGLEGYPVYTRKVYTDVSYIACARKLLAVPEVIFPQFATHNAHTLSAIYQIAGQNYYPGQYEFQCLHGMGEPLYEQVVGPVSEGKLNRPCRIYAPVGTHETLLAYLVRRLLENGANTSFVNRIADQSISIKELVADPVPTIEQMAVQEGQLGLPHPRIPLPRDLYGKARINSSGIDLANEHRLGSLSSALLTTAHADWKAAPMLGCDSSSGVAVPVLNPADHRDLVGHVQEASVEDVNNALLAALAAAPIWQATPPAERAATLDRAADLMEGQMQTLMGLLVREAGKTFANAIAEVREAVDFLRYYAAQGRADFANDTHRPLGPVVCISPWNFPLAIFSGQVAAALAAGNTVLAKPAEQTPLIAAQAVRILLEAGIPAGVLQLLPGRGETVGAALVGDERVKGVMFTGSTEVAGILSRNVAGRLDAQGRPIPLIAETGGQNAMIVDSSALVEQVVTDVVASAFDSAGQRCSALRVLCVQEDVAERLIAMLKGAMAECRLGNPDHLGTDIGPVIDGEAKAGIERHIQAMREKGRSVYQNARLEGDAIRRGTYVTPTLIELESLSELEREIFGPVLHVVRYKRKDLGALIEQINATGYGLTLGVHTRIDETIAQVVSKAHAGNLYVNRNMVGAVVGVQPFGGEGLSGTGPKAGGPLYMYRLLSTRPADAIARGFARSDAETPADAQLRAALQLDKPLAALKSWAQSNDQQALAAITEEFGATSQSGLTRLLPGPTGERNTYSLLPRERVLCLAETEQDLLTQLAACLAVGSKALWAEGELTRGLVKRLPDEVKARIELVADWQKDEVHFDAVLHHGDSDQLRAVCQQVAKRSGPIVGVQGLSQGETAIPLERLLIERALSVNTAAAGGNASLMTIG	PGPT0020210_116	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0020210-putA-K13821	NA	NA
BMS010_04188	840	rlmJ_2	COG2961	Ribosomal RNA large subunit methyltransferase J	ATGAACTACCGTCACGCCTTCCATGCCGGCAACCATGCCGATGTCCTGAAACACCAGACCCTGGCCCGGATTATCGCGCTGCTGAAGAAGAAAGAGGCGCCGTTCGCCTACCTCGACAGCCATGCGGGTATCGGTCTGTATGACCTGCAAGGCGACCAGGCCAGCCGTACCGGCGAATGGCAGGAAGGCATCGGGCGGTTGTGGGAGCGCCCGGATCTGCCGGAGGTTCTGGCCGATTACCTGGGCGTGATCCGGGCCCTGAACACCGACGGCTCGCTGCGCTTCTATCCCGGCTCGCCCGAACTGGCGCGCCAACTGAGCCGCGAGCAGGATCGCCTGCACCTCAACGAGAAGCATCCCGAGGATGGCCGGCTGTTGAAGGAAAACATGGCCGGCGACCGGCGTGTCGCGGTGCACCTGGGCGAAGGCTGGCACGTGCCGCGCGCACTGCTGCCGACCCGGGAAAAGCGCGCCCTGCTGCTGATCGACCCGCCCTTCGAGAAGGTCGACGAGCTGGAACGCTGTGCCCAGGCGATGAACGAGGCCATCGGCCGCATGCGCCAGGCAATCGTGGTGATCTGGTACCCGATCAAGGACCAGCGCCAGCTCAAGCGTTTCTATCAGGACCTGGAAAAAACCGGCGCCCCCAAGCTGCTGCGCGCCGAACTGATGGTTCATGCCCCCGACAACACCCTCGGCCTCAACGGCTCCGGCCTGGCCATCGCCAACCCGCCGTGGGGCCTGGAAGACGAACTGCGCCAACTGCTGCCCTGGCTGGCCGAGGCCCTGGCACAGACCCGGGGCGACTGGCGGCTCGATTGGATAATCGATGAAGCCTAA	MNYRHAFHAGNHADVLKHQTLARIIALLKKKEAPFAYLDSHAGIGLYDLQGDQASRTGEWQEGIGRLWERPDLPEVLADYLGVIRALNTDGSLRFYPGSPELARQLSREQDRLHLNEKHPEDGRLLKENMAGDRRVAVHLGEGWHVPRALLPTREKRALLLIDPPFEKVDELERCAQAMNEAIGRMRQAIVVIWYPIKDQRQLKRFYQDLEKTGAPKLLRAELMVHAPDNTLGLNGSGLAIANPPWGLEDELRQLLPWLAEALAQTRGDWRLDWIIDEA				NA	NA	NA	NA	NA
BMS010_04189	645	msrA_2	COG0225	Peptide methionine sulfoxide reductase MsrA	ATGGTTCTACGTTCGCAAATCCTCGCCCACAAACTGGAGCTGCCCACCGCCGAACAAGCCCTGCCCGGCCGTGATACGCCCATGCCGGTGCCGGAGGCGCACTACGTCAACGGCAATCCGTTGCAACCGCCCTTCCCCGCCGACCTGCAACAGGCGGTGTTCGGCCTCGGCTGTTTCTGGGGGGCCGAGCGGCGCTTCTGGCAGCAGCCCGGCGTCTGGACCACCGCGGTCGGCTATGCCGGCGGTGTCACGCCGAACCCGACCTACGATGAAGTCTGCTCCGGCCTGACCGGACACACCGAAGTGGTACTGGTGGTGTTCGATCCGCAGGTGACCAGCTACGAGGCCCTGCTCAAGGTGTTCTGGGAAGCGCACAACCCGACCCAGGGCATGCGCCAGGGCAACGACGTCGGTACCCAGTACCGTTCCGCCATCTATACCTTCGATGCCGCCCAGCGCGCCGCCGCCGAAAGTACCCGCGAACGCTTCCAGGCCGAACTGGCCAAGGCCGGCCTGGGCGAGATCACCACCGAAATCGCCGACGCCCCGCCGTTCTATTACGCCGAGGCCTACCACCAGCAGTATCTGGCGAAGAACCCCAACGGCTACTGCGGCCTGGGCGGCACGGGCGTATGCCTCGGTTAG	MVLRSQILAHKLELPTAEQALPGRDTPMPVPEAHYVNGNPLQPPFPADLQQAVFGLGCFWGAERRFWQQPGVWTTAVGYAGGVTPNPTYDEVCSGLTGHTEVVLVVFDPQVTSYEALLKVFWEAHNPTQGMRQGNDVGTQYRSAIYTFDAAQRAAAESTRERFQAELAKAGLGEITTEIADAPPFYYAEAYHQQYLAKNPNGYCGLGGTGVCLG	PGPT0013065_2302	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013065-msrA-K07304	NA	NA
BMS010_04190	2691			hypothetical protein	ATGAAAAGCCATCCCGATGCCGCCAGCCGTTCGGCGGCCGAGGTTGTGACGCAGTTGCCAGTCCCTTCGAGACTGGGTCTGCTGCGCTTCGAGCGACTGAACGAAGCCAGCTGGACGCTGCTCTACCTGGACCCCGCCTGCGAACGCCAACTGGGCCTGCCCGCCGGCGATCTCTGCTCGCTGATCGGCACCCCCTATGCCAGCCTGATGGAACCTGCCGAACGCTATCGGCTGCACGATGCCATCCAGCAGCAGCTCAGCGCCGGTCCGCATTACCTGGTGCAATACCGGCTGCACACGCCCCACGGCTCGCTCAACCTGCTGGAGCTGGGCGAACCCTTCCAGCAACACGGCCGCCAGTTGCTGCGCGGCTATCTGCTGGTGGCGGACGAGTCCCTGACCTCCGAGGAGCTGCAGCGGCAGATCGAACGGCAAGACGAGACCAGCCGGATCGAAGCCACCCTGGAACTCTACCAACTGTCCCAGGAAGACCACCTGAAGCACCTGGCCCGCTCCCGCGCACAGCAAAACCTCATCCTGCGCCTGGCGCGCCACCGCTACCAATCCGACGACCCGCTGCGCGAAGCCGCCGAACTGATCACCCAGGCCGCCAGCGAGGCCTATGACGTGGCCCGTGCCGGCATCTGGCGCCTGCAGGGCGAGCACATGGAGCCGGTGGCGCTCTATCGTCAAGACCTCGCCCGTCACGAGCCCGGCGAAACCATGGACGTCGGCCGCTACCCGCTCTATCTGGAAGCACTGCACAGCGGCCGCGCCATCGACGCCCACAACGCCGCCCGCGACCCGCGTACCAGCGAGCTGAGCGCGGACTACCTGCAACCCATGGGCATCACCGCCATGCTCGATGCCAGCATCCGCATCGGCGGCGAGGTGGTCGGCGTGCTATGCCTGGAACACGTGGGCACGCCGCGCATCTGGCAGACCGACGAAGTCGCCTTCGCCGGCGAGCTGGCCGATCAATACGCCCAGGTGCTGGTCAACCAGCAACGCCTGCATGCCACCGGCACGCTGCATCTGTTCCAGCGCGCCGTCGAGCAGAGCGCCAGCGCCTTCCTGCTGGTCAACCGCGAAGGCGTGGTCGAATACGTCAACCCCAGCTTCACCGCGATCACCCAGTACAGCGCCGAGGAAGTGCTCGGCCGCCGCCTGGCCGAACTGCCGGCGGTGGAGAACCTCAGCGAACTGCTGTTCGATGCCCGCTCCAGCCTGGCCCACGCCAACAGTTGGCAGGGCGAGTTCCGCAGCCGGCGCAAGGACTTCGAACCCTACTGGGGACAGTTGTCGATCTCCAAGGTCTTCGGCGAGCACGGCGAGCTGACCCACTACATCGGCATCTACGAAGACATCACCGAAAGCAAGCTGGCCCAGCAACGCATCGAACGACTGGCCTACACCGACAACCTGACCAGCCTGGACAATCGCCCCGCCTTCATCCGCCGCCTGGAAGAGCGCTTCGCGGAGCACCGCGACACCCCGGTCAGCCTGCTGCTGGTGGACATCGATAATTTCAAGCGGATCAACGACAGCCTGGGCCACCAGATCGGCGACAAATTGCTGATCGCCCTGGCCCGGCGCCTGCGCAATAGCCTCAGCCCGAGCGGCAACCTGGCACGCTTCGCCAGCAACGAGTTCGCCGTGTTGCTCGAAGATACCGACCTCGAGGCCGGGCAGGTGGTCGCCAGCCAAGTGCTGAACACCATCGGCAAGCCCCTGTTCGTCGAGAACCAGTTGATCAGCGTCACCGGCTCGGTCGGGCTGGCCAGCGCACCGCTGCACGGCCAGGACCCGCAGACCCTGATGAAGCACGCCGGCTTGGCGCTGCACAAGGCCAAGGCCAACGGCAAGCATCAGGTGCAGGTGTTCACCGAGGCCTTGAATGCCGAGGCGAGCTACAAGCTGTTCGTCGAGAACAACCTGCGCCGCGCCCTGACCCAGAACGAACTGGAAGTCTTCTACCAGCCCAAGCTGTGCCTGAAGAACGGCCAGTTGATCGGCATGGAGGCGCTGCTGCGCTGGAACCATCCGGAAAAGGGCATGATCCGCCCCGACCAATTCATCGCCGTGGCCGAGGAAACCGGCCTAATCATCCCCATCGGCAAGTGGGTCCTGCGCCAGGCCTGCCGGATGAGCAAGCAGCTCTCGGCGGTCGGCCTCGGCGAATTGCAGGTGGCGATCAACCTGTCGCCCAAGCAGTTCTCCGACCCGGATCTGGTGGGCTCCATCGCCGCCATCCTCCACGAGGAACAACTGCCGCCGGCGCTGCTGGAACTCGAACTCACCGAGGGGCTGCTGCTGGAAGCCTCCGACGACACCCGCCAGCAGCTCAACCGCCTGAAGAGCCTGGGCCTGTCCCTGGCGATGGACGATTTCGGGACCGGCTATTCGTCGCTGAGCTACCTGAAGAAATTCCCCATCGACGTGATCAAGATCGACCGCAGCTTCATCAAGGACATTCCCGACAGCCAGGACGACAAGGAAATCACCTCGGCGGTGATCGCCATGGCGCACAACCTGCGCCTGAAGGTCGTCGCCGAAGGTATCGAGAGCGCCGCCCAGCTCAACTTCCTGCGCCGGCAGCAATGCGATGTCGGCCAGGGCTACCTGTTCGACCGCCCGATCTCCGGCCGCGACCTGATCGACAGCCTGCGCCGCTATCCCTGCCGGACTTGA	MKSHPDAASRSAAEVVTQLPVPSRLGLLRFERLNEASWTLLYLDPACERQLGLPAGDLCSLIGTPYASLMEPAERYRLHDAIQQQLSAGPHYLVQYRLHTPHGSLNLLELGEPFQQHGRQLLRGYLLVADESLTSEELQRQIERQDETSRIEATLELYQLSQEDHLKHLARSRAQQNLILRLARHRYQSDDPLREAAELITQAASEAYDVARAGIWRLQGEHMEPVALYRQDLARHEPGETMDVGRYPLYLEALHSGRAIDAHNAARDPRTSELSADYLQPMGITAMLDASIRIGGEVVGVLCLEHVGTPRIWQTDEVAFAGELADQYAQVLVNQQRLHATGTLHLFQRAVEQSASAFLLVNREGVVEYVNPSFTAITQYSAEEVLGRRLAELPAVENLSELLFDARSSLAHANSWQGEFRSRRKDFEPYWGQLSISKVFGEHGELTHYIGIYEDITESKLAQQRIERLAYTDNLTSLDNRPAFIRRLEERFAEHRDTPVSLLLVDIDNFKRINDSLGHQIGDKLLIALARRLRNSLSPSGNLARFASNEFAVLLEDTDLEAGQVVASQVLNTIGKPLFVENQLISVTGSVGLASAPLHGQDPQTLMKHAGLALHKAKANGKHQVQVFTEALNAEASYKLFVENNLRRALTQNELEVFYQPKLCLKNGQLIGMEALLRWNHPEKGMIRPDQFIAVAEETGLIIPIGKWVLRQACRMSKQLSAVGLGELQVAINLSPKQFSDPDLVGSIAAILHEEQLPPALLELELTEGLLLEASDDTRQQLNRLKSLGLSLAMDDFGTGYSSLSYLKKFPIDVIKIDRSFIKDIPDSQDDKEITSAVIAMAHNLRLKVVAEGIESAAQLNFLRRQQCDVGQGYLFDRPISGRDLIDSLRRYPCRT	PGPT0023624_777	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-GGDEF|EAL|PAC|PAS-DOMAIN-CONTAINING_PROTEIN,PGPT0023624-GGDEF|EAL|PAC|PAS_domain_containing_protein-NA	NA	NA
BMS010_04191	531			hypothetical protein	ATGCGGCGGAGACTGACAAGGCGACTCGGTGGACTATTCCTCATTACGGCTCTATTCGGCTCTATTCCGGTCCATTCCGCCGAAATGGGGGCGGCGCTCAGCGGGGATGAACCTGCGCGTTACCTGGCGGAAATCAAACAGCTCTACCTGACCGAAGACGAGCGCAAGGCGCTCCTCGCACACTGCAACGACCTGCTGCAGACCTATGCCTTGCGGGCGGGCTACCAAGTCGGCCAGCCCGGTCGCCAGGACCTGCTGTACCGCCTCAGCCTCGGCGCGCCCGGCGAGCTGGTGGTGCGCGAGGAATCCCGGGCGGCGGAGGGGGGGCAGGTGGCGGTGCGCAATTCGCGGCTGTCGGTATTCGGCGTCGATCCCTTCATTCGCTACGACTGTCCGCACAACGGCGTGTCCTGCGTGCTGCTCAACCCCGCCGACGGCAGCCCCTGGCTGACCATCCTTCGCGATCACAATGGCGCCGCCGAACTGGCCAAGGCGCTGTCGTTCCTGATCCGCAACGTGCAGAAGGGTTGA	MRRRLTRRLGGLFLITALFGSIPVHSAEMGAALSGDEPARYLAEIKQLYLTEDERKALLAHCNDLLQTYALRAGYQVGQPGRQDLLYRLSLGAPGELVVREESRAAEGGQVAVRNSRLSVFGVDPFIRYDCPHNGVSCVLLNPADGSPWLTILRDHNGAAELAKALSFLIRNVQKG				NA	NA	NA	NA	NA
BMS010_04192	1650	aceF	COG0508	Dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex	GTGAGTGAGATTATCCGCGTACCCGATATCGGCAGTGGCGAAGGCGAGGTCATCGAGATCCTGGTCAAGGTCGGCGATCGCATCGAGGCCGACCAGAGCCTGCTGACCCTGGAATCGGACAAGGCCAGCATGGAAATCCCGGCGCCCAAGGGCGGCGTGATCAAGGCCCTGAAAGTGAAGCTGGGCGACCGCCTGAAGGAAGGCGACGAACTGCTCGAGCTGGAAAGCGAAGGCGGCGCTGCCGCGGCCGAAGCATCGGCACCCGCTGCCGAAGCGCCGAAGCCGGCCCAGGCCGTCGACGAAGCCGAGGCGCCGACCCCGGCCGCAGCCTCCGACACCGGCGCAGGAGCCGAGAGCAGCCAGGAAATCCGCGTGCCGGACATCGGTTCGGCAGGCAAGGCCAAGGTCATCGAAGTGCTGGTCAAGGTGGGCGACAGCGTCGCCGCCGACCAATCGCTGATCACCCTGGAATCGGACAAGGCGAGCATGGAAATCCCCTGCCCGCAGGCCGGCGTGGTAGAGAGCCTGTCGGTCAAGCTGGACGACGAAGTCGGCACCGGCGACCCGATCCTGACCCTGCGTGTAGCCGGTGCCGCCCCGGCGGCCAAGGCCGAATCCAAGCCTGCCGCCGCTCCGGCCCAGGCTGCGGAAGCCGCCAAGCCGTCCGCTGCGCCGGCAGCTGCGCCGTCCGCCAAGGCCGAAGCACCGCAACCGGTCGGCGCGCCCAGCCGTGACGGTGCCAAGGTTCACGCCGGCCCTGCCGTGCGCATGACCGCCCGCGAGTTCGGCGTCAACCTGGCCGAAGTCACCGGCACCGGTCCGAAGGGCCGCATCCTCAAGGAAGACGTGCAGGCCTACGTGAAGGCGATGATGCAGAAGGCCAAGGAAGCGCCGGCCGGCGCGACCGGTGGCGCCGGCATCCCGCCGATCCCGGAAGTCGACTTCAGCAAGTTCGGCGAAGTGGAAGAAGTGGCGATGACCCGCCTGATGCAGGTCGGTGCCGCCAACCTGCACCGCAGCTGGCTCAACGTACCGCACGTGACCCAGTTCGACTCGGCCGACATCACCGAACTGGAAGCGTTCCGCGTCGCCCAAAAGGCCGCGGCGGAAAAGGCCGGCGTAAAGCTGACCGTCCTGCCGCTGCTGCTCAAGGCCTGCGCGCACCTGCTCAAGGAGCTGCCGGACTTCAACAGCTCCCTGGCCCCCAGCGGCAAGGCCGTGATCCGCAAGAAGTACGTGCACATCGGCTTCGCCGTGGACACCCCGGACGGCCTGCTGGTCCCGGTGATCCGCGACGTCGACCGGAAGAGCCTGCTGCAACTGGCCGGCGAGGCCGCGGAACTGGCCGAGAAGGCCCGCACCAAGAAGCTCTCCGCCGACGCCATGCAGGGCGCCTGCTTCACCATTTCCAGCCTCGGCCATATTGGCGGCACCGGCTTCACGCCGATCGTCAACGCGCCGGAAGTGGCGATCCTCGGTGTGTCCAAGGCGACGATGCAGCCGGTATGGGACGGCAAGGCCTTCCAGCCACGCCTGATGCTGCCGCTGTCGCTGTCCTATGACCACCGCGTGATCAACGGCGCCGCCGCGGCGCGCTTCACCAAGCGCCTGAGCGAACTGCTGGCGGACATCCGCACGCTGCTGCTGTAA	MSEIIRVPDIGSGEGEVIEILVKVGDRIEADQSLLTLESDKASMEIPAPKGGVIKALKVKLGDRLKEGDELLELESEGGAAAAEASAPAAEAPKPAQAVDEAEAPTPAAASDTGAGAESSQEIRVPDIGSAGKAKVIEVLVKVGDSVAADQSLITLESDKASMEIPCPQAGVVESLSVKLDDEVGTGDPILTLRVAGAAPAAKAESKPAAAPAQAAEAAKPSAAPAAAPSAKAEAPQPVGAPSRDGAKVHAGPAVRMTAREFGVNLAEVTGTGPKGRILKEDVQAYVKAMMQKAKEAPAGATGGAGIPPIPEVDFSKFGEVEEVAMTRLMQVGAANLHRSWLNVPHVTQFDSADITELEAFRVAQKAAAEKAGVKLTVLPLLLKACAHLLKELPDFNSSLAPSGKAVIRKKYVHIGFAVDTPDGLLVPVIRDVDRKSLLQLAGEAAELAEKARTKKLSADAMQGACFTISSLGHIGGTGFTPIVNAPEVAILGVSKATMQPVWDGKAFQPRLMLPLSLSYDHRVINGAAAARFTKRLSELLADIRTLLL	PGPT0001390_2108	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0001390-aceF|pdhC-K00627	NA	NA
BMS010_04193	2649	aceE	COG2609	Pyruvate dehydrogenase E1 component	ATGCAAGACCTCGATCCAATCGAAACCCAGGAATGGCTGGACGCCCTGGAGTCCGTTCTCGACCGCGAAGGTGAATCCCGCGCCCATTATCTGATGACCCGGATGGGTGAACTGGCCACGCGCAGCGGCACCCAGCTGCCCTACGCGATCACCACGCCTTATCGCAACACCATCCCGGTAACCCACGAAGCGCGCATGCCGGGCGACCTGTTCATGGAGCGCCGCATCCGCTCGCTGGTGCGCTGGAACGCACTGGCCATGGTGATGCGCGCCAACCTGCAGGATCCGGACCTGGGTGGACACATCTCCACCTTCGCCTCCAGCGCGACCCTGTATGACATCGGCTTCAACTACTTCTTCCAGGCCCCGACCGACGAACACGGCGGCGACCTGATCTACTTCCAGGGCCACGCCTCCCCCGGCGTCTATGCCCGCGCCTTCCTCGAAGGCCGCATCAGCGAAGACCAACTGAACAACTTCCGCCAGGAAGTGGACGGCAAGGGCCTCTCGTCCTACCCGCACCCCTGGCTGATGCCGGACTTCTGGCAGTTCCCCACCGTTTCCATGGGCCTCGGCCCGATCCAGGCGATCTACCAGGCACGCTTCATGAAGTACCTGGAAGACCGGGGCTTCATCCCCGCCGGCAAGCAGAAGGTCTGGTGCTTCCTCGGCGACGGCGAGACCGACGAGCCGGAATCCCTGGGCGCCATCGCCCTGGCCGGCCGCGAGAAGCTGGACAACCTGATCTTCGTGATCAACTGCAACCTGCAGCGCCTGGACGGTCCGGTGCGCGGCAACGGCAAGATCATCCAGGAACTCGAGGGCGTGTTCCGCGGCGCCAACTGGAACGTCAACAAGGTCATCTGGGGCCGCTTCTGGGACCCGCTGTTCGCCAAGGACGAAGCCGGCCTGCTGCAGGCCCGCATGGACGAAGTGGTCGACGGCGAATACCAGAACTACAAGGCGAAGGATGGCGCCTTCGTGCGTCAGCACTTCTTCGGCGCGCGTCCGGAGCTGCTGGAGATGGTCAAGGACCTCTCCGACGAGGAAATCTTCAAGCTCAACCGTGGCGGCCATGACCCCTACAAGGTCTATGCGGCCTACCACCAGGCGGTCAACCACAAGGGTCAGCCGACCGTCATCCTGGCCAAGACCATCAAGGGCTATGGCACCGGCGCCGGCGAAGCGAAGAACACCGCGCACAACACCAAGAAGGTCGACGTCGACAGCCTGAAGAAATTCCGCGATCGCTTCGATATCCCGATCAAGGACGAAGACCTGGAAAAACTGCCGTTCTTCAAGCCGGAAGAAGGCAGCCCCGAAGCCAAGTACCTGCGCGAGCGCCGCGCCGCCCTCGGCGGTTTCGTGCCGCAGCGCCGGACCAAGAGCGTCAGCATCCCGACCCCGCCGCTGGATACCCTCAAGGCCATCCTCGACGGTTCCGGCGACCGCGAAATCTCCACCACCATGGCCTTCGTGCGCGTTCTCTCGCAACTGGTCAAGGACAAGGAACTGGGCAGCCGCATCGTCCCGATCATCCCGGACGAAGCACGTACCTTCGGCATGGAGGGCATGTTCCGCCAGCTCGGCATCTACTCCTCGGTCGGCCAGCTCTATGAGCCGGTGGACAAGGACCAGGTGATGTTCTACCGCGAGGACAAGAAGGGCCAGATCCTCGAGGAAGGCATCAACGAAGCCGGCGCCATGTCCAGCTGGATCGCCGCGGCGACCGCCTACAGCAACCACAACCAGCCGATGCTGCCGTTCTACATCTTCTATTCGATGTTCGGCTTCCAGCGTATCGGCGACCTGGCCTGGGCCGCCGGCGACAGCCAGGCACGCGGCTTCCTGGTCGGCGGCACCGCCGGCCGTACCACGCTGAATGGCGAAGGCCTGCAGCATGAGGACGGCCACAGCCACCTGATGGCGGCGACCATCCCGAACTGCCGCAGCTACGACCCGACCTACGGCTACGAGCTGGCGGTGATCATCCGCGAAGGCATCCGTCAGATGACGGAAGAGCAGCAGAACGTCTTCTACTACATCACCGTGATGAACGAGGCCTACACCCAGCCGGCCCTGCCGCAGGGCGCCGAGGAAGGCATCATCAAGGGCATGTACCTGCTCGAGGAAGACAAGCGCGAAGCCGCCCACCACGTGCAGCTGCTGGGCTCCGGCACCATCCTGCGCGAAGTGCGCGAAGCGGCGAAAATCCTCCGCGAGCAGTTCAACGTCGGCGCCGACGTGTGGAGCGTCACCAGCTTCAACGAACTGCGCCGCGATGGCCTGGCCATCGAGCGCTGGAACCGCCTGCACCCCGGCCAGAAGCCACGCAAGACCTATGTCGAGCAGTGCCTGAACGGTCGCAAGGGTCCGGTCGTGGCTTCCACCGACTACATGAAGCTGTTCGCCGACCAGATCCGCCAGTGGGTTCCGAGCAAGGAATACAAGGTGCTCGGCACCGACGGCTTCGGCCGCAGCGACACCCGCAAGAAGCTGCGTCACTTCTTCGAGGTGGATCGTCACTGGGTCGTTCTGGCTGCCCTCGAGGCCCTGGCCGACCGTGGCGACATCGAACCGAAAGTGGTGGCCGAGGCCATCGCCAAGTTCGGCATCGACCCCGAAAAACGCAATCCCCTGGACTGCTGA	MQDLDPIETQEWLDALESVLDREGESRAHYLMTRMGELATRSGTQLPYAITTPYRNTIPVTHEARMPGDLFMERRIRSLVRWNALAMVMRANLQDPDLGGHISTFASSATLYDIGFNYFFQAPTDEHGGDLIYFQGHASPGVYARAFLEGRISEDQLNNFRQEVDGKGLSSYPHPWLMPDFWQFPTVSMGLGPIQAIYQARFMKYLEDRGFIPAGKQKVWCFLGDGETDEPESLGAIALAGREKLDNLIFVINCNLQRLDGPVRGNGKIIQELEGVFRGANWNVNKVIWGRFWDPLFAKDEAGLLQARMDEVVDGEYQNYKAKDGAFVRQHFFGARPELLEMVKDLSDEEIFKLNRGGHDPYKVYAAYHQAVNHKGQPTVILAKTIKGYGTGAGEAKNTAHNTKKVDVDSLKKFRDRFDIPIKDEDLEKLPFFKPEEGSPEAKYLRERRAALGGFVPQRRTKSVSIPTPPLDTLKAILDGSGDREISTTMAFVRVLSQLVKDKELGSRIVPIIPDEARTFGMEGMFRQLGIYSSVGQLYEPVDKDQVMFYREDKKGQILEEGINEAGAMSSWIAAATAYSNHNQPMLPFYIFYSMFGFQRIGDLAWAAGDSQARGFLVGGTAGRTTLNGEGLQHEDGHSHLMAATIPNCRSYDPTYGYELAVIIREGIRQMTEEQQNVFYYITVMNEAYTQPALPQGAEEGIIKGMYLLEEDKREAAHHVQLLGSGTILREVREAAKILREQFNVGADVWSVTSFNELRRDGLAIERWNRLHPGQKPRKTYVEQCLNGRKGPVVASTDYMKLFADQIRQWVPSKEYKVLGTDGFGRSDTRKKLRHFFEVDRHWVVLAALEALADRGDIEPKVVAEAIAKFGIDPEKRNPLDC	PGPT0001385_2532	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001385-aceE-K00163	NA	NA
BMS010_04194	2946	glnE_2	COG1391	Bifunctional glutamine synthetase adenylyltransferase/adenylyl-removing enzyme	ATGAGCCTGCCTTCGCCGGTCGATCTGCCGGCCTCCCTGCTGCCCCTCGCCGACCGTGCCGAGCGTTCCTTCCAGACTGCCGTCGAGGCGCTCGGCGCTGAAGTCGCCGGGTATTTCTCCGCCTGGCCGGAGGCGCGTCGACAGGATTTTCGCCGCGTCTGCGCGAACAGCGAATTCGTTGCCGAACAGGCCCTGCGCGACCCGGAAATGCTGCTGGCATTGGCCGAGGCGGGGGAGCTGGAGCGTTCGCTGAACCCCGGCGAGCTGCGCCAGCAACTGGTCGAGGCCCTCGATGGCTGCGTCGATGAAAACGAGCTGGCGCGCCGCCTGCGTCGCTATCGGACCCGCCAGCAGGTGCGCATCATCTGGCGCGATATCACCCGTCGGGCCGATCTCAAGGAGACCTGCCGCGACCTCAGCGATCTCGCCGATGCCGGTATCGACCTGGCTTATCGCTGGCTCTACGACCAACTCAGCGCGCAGTCGGGAGTACCGACCGGCGCCCGCTCCGGCGCGCCGCAGCACATGGTCATCCTCGGCATGGGCAAGCTGGGGGCGGTGGAGCTGAATCTGTCGTCGGACATTGATCTGATCTTCGCTTATCCCGAAGGTGGCGAGACGGTCGGCGCCAAGCGCGCATTGGACAATCAGGAGTTCTTCACCCGGCTCGGCCAGCGGCTGATCAAGGCGCTGGACGCCATCACCCTGGATGGCTTCGTCTTCCGCGTCGATATGCGTCTGCGTCCTTACGGTTCGTCCGGCGCCCTGGTGCTCAGCTTCAGCGCCCTGGAGCAGTACTACCAGGACCAGGGGCGCGACTGGGAACGTTACGCCATGATCAAGGCGCGGGTGGTGGGCGGCGACCAGGTGGCCGGCAAGCAGTTGCTGGAGCTGCTGCGTCCGTTCGTCTATCGGCGCTACCTGGACTTCTCCGCCATCGAGGCGCTGCGCAATATGAAGCAGCTGATCCAGCAGGAAGTGCGGCGCAAGGGCATGGCGGAGAACATCAAGCTGGGCTCCGGCGGCATTCGCGAGGTGGAGTTCATTGCCCAGGCGTTCCAACTGATCCATGGCGGGCGTGACCTCAGCCTGCAGCAACGCCCCCTGCTCAAGGTGCTGGCGACCCTGGAGGGACAAGGCTACCTACCGCCGGCGGTGGTCGCCGAACTGCGCGACGGCTACGAATTCCTCCGCTATACCGAGCACGCCTTGCAGGCCATCGCTGACCGGCAGACGCAGATGCTGCCGGATAGCGACCTCGACCGCGCGCGGGTCGCCTGCATCCTCGGTTTCCCGGACTGGATGAGTTTTCTCGAACGTTTGGCGTTCTGGCGGGGCCGGGTCGACTGGCACTTCCGCCAAGTGATCGCCGACCCCGATGAAGAAGAAGGAGCACCGAGCGAAAGTTCGCCGGGCAGCGAATGGCTGCCGTTGTGGGAAGAAGCCCTGGATGAAGAATCCGCCTGCCGCCAGTTGAATGAGGCGGGTTTCGCCGACGCGCCGGCGGCCTGGAAGCGCCTCGCCGGGCTGCGCAACGGTCCGCAGGTGCGGGCCATGCAGCGTCTGGGTCGCGAACGCTTGGATGCCTTCATTCCGCGTCTGCTGACCATGGCGGTGGAACACGGTGAGCCCGATCTGGTGCTGGAACGGGTGCTGCCGCTGGTCGAGGCGGTGGCGCGGCGTTCGGCTTATCTGGTGCTGCTCAGCGAGAATCCCGGCGCGCTGGAGCGCCTGCTCATGCTGTGCGCGGCAAGCCCGTGGATCGCCGAGCAGATCACACGCTTTCCTTTGTTGCTCGATGAATTGCTCAACGAGGGACGGCTCTACAGTCCACCGCAGGCACCGGAGCTGGTCGCCGAGCTGAGCGAGCGGCTGATGCGCATCCCCGAGGACGACCTCGAGCAGCAGATGGAGGCGCTGCGGCACTTCAAGCTGGCCCACGGGCTGCGGGTGGCGGCGTCGGAAATCGCCGGGACCTTGCCGCTGATGAAGGTCAGCGACTACCTGACTTGGCTGGCCGAGGCGATTCTCGAGCAGGTGCTGGCGCTGGCCTGGCGGCAGAGCGTGGCCAAGTACGGCACGCCGCGCCGACCGGACGGCAGCCTGTGCGATCCGGATTTCATCATCGTCGGTTACGGCAAGGTCGGCGGAATCGAACTGGGGCACGGCTCCGACCTAGACCTCGTGTTCATCCACGACGGCGATCCGCAGGCCGAGACCGATGGGTCCAAACCCATCGACGGCGCCCAGTTCTTCACCCGTCTCGGCCAGCGGATCATCCACCTGCTGACGACGCAGACTCCGTCCGGGCAGCTTTATGAAGTCGACATGCGCCTGCGGCCAAGTGGCGCAGCGGGGTTGCTGGTCAGTTCGCTGGGCGCCTTCCAGCGCTACCAGGAGAGCGAGGCCTGGACCTGGGAGCACCAGGCCCTGGTGCGCGCCCGGGTGCTGGTTGGCTGCCGGCGGGTCGGGGCTGCGTTCGAGCAGGTTCGCGCCGTTGTACTCGGCCGGCCGCGCGAGCTGGAGGCGCTGCGCACCGAAGTCAGCGAGATGCGCGCCAAGATGCGCGACAACCTGGGCAGCCGGGAAACGGCCGGCGGCACTTCGGCGGACGCTTTCGAAGCCTCGTCTCCGTTCGATCTGAAGCAGGACGCCGGTGGTATCGTCGATATTGAATTTATGGTGCAATACGCGGCCCTGGCCTGGTCGCACCGGCATCCGGAGCTGCTGCGCTACACCGACAACATCCGCATCCTCGACGGCCTCGGCGAAGCCGGCCTGTTGCCCGGCGCGGATGTGCAGCTCCTGCAGGAGGCCTACAAAGCCTACCGTTCGGCGGCCCACCGACAGGCGCTGCAGAAACAGCCGGGCGTGGTGAGCGGGGATCAATTCCAGGCCGAGCGTCGCGAAGTGCTGCGCATCTGGCGGGAACTGGGACTCGGTTAG	MSLPSPVDLPASLLPLADRAERSFQTAVEALGAEVAGYFSAWPEARRQDFRRVCANSEFVAEQALRDPEMLLALAEAGELERSLNPGELRQQLVEALDGCVDENELARRLRRYRTRQQVRIIWRDITRRADLKETCRDLSDLADAGIDLAYRWLYDQLSAQSGVPTGARSGAPQHMVILGMGKLGAVELNLSSDIDLIFAYPEGGETVGAKRALDNQEFFTRLGQRLIKALDAITLDGFVFRVDMRLRPYGSSGALVLSFSALEQYYQDQGRDWERYAMIKARVVGGDQVAGKQLLELLRPFVYRRYLDFSAIEALRNMKQLIQQEVRRKGMAENIKLGSGGIREVEFIAQAFQLIHGGRDLSLQQRPLLKVLATLEGQGYLPPAVVAELRDGYEFLRYTEHALQAIADRQTQMLPDSDLDRARVACILGFPDWMSFLERLAFWRGRVDWHFRQVIADPDEEEGAPSESSPGSEWLPLWEEALDEESACRQLNEAGFADAPAAWKRLAGLRNGPQVRAMQRLGRERLDAFIPRLLTMAVEHGEPDLVLERVLPLVEAVARRSAYLVLLSENPGALERLLMLCAASPWIAEQITRFPLLLDELLNEGRLYSPPQAPELVAELSERLMRIPEDDLEQQMEALRHFKLAHGLRVAASEIAGTLPLMKVSDYLTWLAEAILEQVLALAWRQSVAKYGTPRRPDGSLCDPDFIIVGYGKVGGIELGHGSDLDLVFIHDGDPQAETDGSKPIDGAQFFTRLGQRIIHLLTTQTPSGQLYEVDMRLRPSGAAGLLVSSLGAFQRYQESEAWTWEHQALVRARVLVGCRRVGAAFEQVRAVVLGRPRELEALRTEVSEMRAKMRDNLGSRETAGGTSADAFEASSPFDLKQDAGGIVDIEFMVQYAALAWSHRHPELLRYTDNIRILDGLGEAGLLPGADVQLLQEAYKAYRSAAHRQALQKQPGVVSGDQFQAERREVLRIWRELGLG	PGPT0000655_1241	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-GLUTAMATE|GLUTAMINE_SYNTHASE|GLTS_PATHWAY,PGPT0000655-glnE-K00982	NA	NA
BMS010_04195	924	ilvE_2	COG0115	Branched-chain-amino-acid aminotransferase	ATGTCGATGGCCGATCGTGATGGCGTGATCTGGTATGACGGCGAACTGGTGCCGTGGCGCGATGCTACCACCCATGTGCTGACCCATACCCTGCACTATGGCATGGGCGTGTTCGAGGGCGTGCGTGCCTACAACACCCCGCAGGGCACGGCGATCTTCCGTCTGCAGGCGCACACCGACCGGCTGTTCGATTCCGCCCATATCATGGGCATGAAGATTCCCTTCACCAAGGACCAGATCAACGAGGCGCAGCGCGCCGCCGTCCGCGAGAACAACCTGGAAAGCGCCTACCTGCGCCCGATGGTGTTCTACGGATCGGAAGGCATGGGGCTGCGCGCCACCGGCCTGAAGGTCCATGTGATCGTCGCCGCCTGGAACTGGGGTGCCTACATGGGCGACGAAGCCCTGCAGGTCGGCATCAAGGTGCGCACCAGCTCCTTCACCCGTCACCACGTAAACATCTCCATGACCCGCGCCAAGGCCAACGGTCACTACATCAACTCCATGCTGGCCCTGCAGGAAGCCCTGTCCGCCGGTGCCGACGAAGCGCTGCTGCTCGACCCGGAAGGCTATGTGGCCGAGGGCTCCGGCGAGAACGTGTTCATCGTCAAGGATGGTGTGGTCTACACCCCGGAAGTCACCGCCTGCTTGAACGGCATTACCCGTAACACGGTGCTGCGTCTGGCCGACGAGCTGGGCATCAAGCTGGTCGAGAAGCGCATCACGCGCGACGAGGTGTACATCGCCGACGAGGCGTTCTTCACCGGTACCGCCGCCGAAGTGACCCCGATCCGTGAAGTCGATGGCCGCCAGATCGGTGCCGGCCGCCGTGGTCCGGTGACCGAGAAGCTGCAGAAGGCCTACTTCGACCTGGTGACCGGCCAGACCTCCGCCCACGCCGAGTGGCGCACCTTGGTCAAGTAA	MSMADRDGVIWYDGELVPWRDATTHVLTHTLHYGMGVFEGVRAYNTPQGTAIFRLQAHTDRLFDSAHIMGMKIPFTKDQINEAQRAAVRENNLESAYLRPMVFYGSEGMGLRATGLKVHVIVAAWNWGAYMGDEALQVGIKVRTSSFTRHHVNISMTRAKANGHYINSMLALQEALSAGADEALLLDPEGYVAEGSGENVFIVKDGVVYTPEVTACLNGITRNTVLRLADELGIKLVEKRITRDEVYIADEAFFTGTAAEVTPIREVDGRQIGAGRRGPVTEKLQKAYFDLVTGQTSAHAEWRTLVK	PGPT0008860_5065	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_VALINE_DEGRADATION,PGPT0008860-ilvE-K00826	NA	NA
BMS010_04196	1059	rfaF	COG0859	ADP-heptose--LPS heptosyltransferase 2	TTGAAGCTGCCCTTTATGAAGATACTAATCATCGGTCCCAGTTGGGTCGGCGACATGGTGATGGCGCAGACGCTGTTCACCTGCCTGAAACAGCGCCATCCCGACTGTGAGATCGACGTGCTCGCCCCCGAGTGGAGCCGGCCGATCCTCGAGCGCATGCCCGAAGTGCGTGAGGCGCTGAGCTTCCCGCTCGGCCATGGCGTGCTCGACGTGGCGACCCGTCGCTCGCTCGGCCAGTCGCTGCGCGGCCGCTACGATCAGGCGATCCTCCTGCCCAACTCGCTGAAGTCGGCGCTGGTGCCGTTCTTCGCCGGAATTCCCAAGCGCACCGGCTGGCGGGGCGAGATGCGATTCGGCCTGCTCAACGACATCCGCAAGCTGGACAAGGCGCGCTACCCGCTGATGATCGAGCGCTTCATGGCGTTGGCCTACGAGCCGGGTGCCGAGCTGCCCAAGCCGTATCCGCGACCGGCGCTGCGCATCGATCCGGCCAGCCGCGACGCGGCGCTGGCCACGTTCGGTCAGTCCCTGGACCGTCCGGTGCTGGCCCTCTGCCCGGGCGCCGAGTTCGGCGAGGCCAAGCGCTGGCCAGTGGAGCACTACGCCAAAGTCGCCGAAGTGAAGATCCGCGCCGGCTGGCAGGTCTGGCTGTTCGGCTCGAAGAACGACCGGGCGGTGGGCGAGGAAATCCGCGCCCGGCTGATCCCCGGTCTGCGCGAAGAGGCGACCAACCTGGCCGGCGATACCACCCTCGCCGAGGCCATCGACCTGATGTCCTGCGCTTCGGCAGTGGTGTCCAACGATTCCGGCCTGATGCACGTGGCCGCCGCGCTGAACCGCCCGCTGGTAGCTGTCTACGGCTCTACGTCGCCGCAGTTCACGCCGCCGCTGGCCGAGCAGGTGGAAGTCGTCCGCCTGGGTCTGGATTGCAGCCCCTGTTTCGACCGCACCTGCCGCTTCGGTCACTACAACTGCCTGCGCGAGCTGAAGCCGCGGGCGGTGATCGATGCGCTGGACCGCCTGGTGGGCGACCCTGCCGAACCCATCGAGGTCGAGTAA	MKLPFMKILIIGPSWVGDMVMAQTLFTCLKQRHPDCEIDVLAPEWSRPILERMPEVREALSFPLGHGVLDVATRRSLGQSLRGRYDQAILLPNSLKSALVPFFAGIPKRTGWRGEMRFGLLNDIRKLDKARYPLMIERFMALAYEPGAELPKPYPRPALRIDPASRDAALATFGQSLDRPVLALCPGAEFGEAKRWPVEHYAKVAEVKIRAGWQVWLFGSKNDRAVGEEIRARLIPGLREEATNLAGDTTLAEAIDLMSCASAVVSNDSGLMHVAAALNRPLVAVYGSTSPQFTPPLAEQVEVVRLGLDCSPCFDRTCRFGHYNCLRELKPRAVIDALDRLVGDPAEPIEVE	PGPT0022510_788	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_CORE_OLIGOSACCHARIDE_METABOLISM,PGPT0022510-waaF|rfaF-K02843	NA	NA
BMS010_04197	999	rfaC	COG0859	Lipopolysaccharide heptosyltransferase 1	GTGCGGGTATTGCTGATCAAGACGTCCTCCCTGGGCGATGTCATTCATACCTTGCCGGCGCTGACCGACGCTGCACGAGCGATCCCCGGCATCCAGTTCGACTGGGTGGTGGAAGAGGGCTTCGCCGAGATTCCTGCCTGGCACCCGGCCGTGGCGCGGGTGATTCCGGTGGCGATCCGCCGTTGGCGCAAGAATCTCTGGCAAACCCTGCGCAACGGCGAGTGGCGGCGCTTCAAGCAGCGCCTGCGCGAGGCGAAATACGATTTGGTGATCGACGCCCAGGGCCTGCTGAAAAGCGCCTGGCTGACCCGTTACGTCAAGGCTCCGGTGGCCGGGCTCGACCGTGAGTCTGCCCGCGAGCCGCTGGCTTGCCGCTTCTATGACCGAGCTTATCCCGTACCGCGTGAGCAGCACGCCTTGGAACGGGTGCGTCAGTTGTTCGCCCAGGCGCTGGACTACCCGCTGCCGGGCGGTATCGGCGATTACGGCCTGGACCGGACGCAACTGGCCGATCCGTCGGCGCAACCCTATCTGCTGTTCCTGCACGGCACCACTTGGCCGAGCAAGCATTGGCCGGAAGCCAACTGGCGCCAGTTGGCCGAGCGCATGAGCGAACTCGGCTGGGCGATCCGCCTGCCCTGGGGCAACGACACCGAGAAGGCGCGCGCCGAGCGCATCGTCGCCGGGTTGGACAAGGCCGCCGTGTTGCCCCGCCTCAACCTCGCCGGGGTGGCCAAGGTCATTGCCGGGGCGCGGGCCTGCGTGGCGGTGGATACCGGTCTCGGTCATCTGGCAGCGGCGCTGGACGTGCCGACGCTGTCGCTCTACGGCCCGACCCGGCCCGAGCGGGTGGGCGCCTACGGCCGTTCCCAGGTTCATCTGTGCGCCAGTGGCCCGAACGCCGGTAGCGGCGATCGCCACAAGCCCTGCTTCGATGACCTGCCGGCGGAACGTGTCGCCACCGAGCTGGAAGCCTTGCTGCTGAGCGAGGCGCCGTGA	MRVLLIKTSSLGDVIHTLPALTDAARAIPGIQFDWVVEEGFAEIPAWHPAVARVIPVAIRRWRKNLWQTLRNGEWRRFKQRLREAKYDLVIDAQGLLKSAWLTRYVKAPVAGLDRESAREPLACRFYDRAYPVPREQHALERVRQLFAQALDYPLPGGIGDYGLDRTQLADPSAQPYLLFLHGTTWPSKHWPEANWRQLAERMSELGWAIRLPWGNDTEKARAERIVAGLDKAAVLPRLNLAGVAKVIAGARACVAVDTGLGHLAAALDVPTLSLYGPTRPERVGAYGRSQVHLCASGPNAGSGDRHKPCFDDLPAERVATELEALLLSEAP	PGPT0022495_611	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_CORE_OLIGOSACCHARIDE_METABOLISM,PGPT0022495-waaC|rfaC-K02841	NA	NA
BMS010_04198	1122	rfaG		Lipopolysaccharide core biosynthesis protein RfaG	ATGCAATTAGCTTTCATCCTTTATAAATACTTTCCGTTCGGCGGCTTGCAGCGTGACTTCATGCGCATCGCCCTGGAGTGCCAGCGGCGCGGCCATGCCATCCGCGTCTACACCATGATCTGGGAAGGCGACATTCCGGACGGTTTCGAGGTGCTGGTGGCGCCGGTAAAGGCGCTGTTCAACCACCGGCGCAACGAGAAATTCACCGCCTGGGTGCAGGCCGACCTGGCGGAGCGGCCGGTGGATCGGGTGATCGGCTTCAACAAGATGCCGGGGCTGGACGTCTACTACGCCGCCGACCCCTGTTTCGAGGAAAAGGCGCAGACCCTGCGCAATCCGCTGTATCGCAAGTGGGGGCGCTACAAGCATTTCGCCGACTACGAGCGGGCCGTGTTCGCGCCGGAGGCCAGGACCGAAATCCTGATGATCTCCGAGGTGCAGCAGCCGCTGTTCGTCAAGCACTACCATACGCCCCGGCAGCGCTTTCACCTGCTGCCGCCGGGCATCGCCCAGGACCGCCGGGCGCCGCCGAACGCGGCGGAAATCCGTGCCGAGTTCCGCCGTGAGTTCGAACTGGGCGACGACCAGCTCCTGCTGGTGCAGATTGGTTCCGGCTTCAAGACCAAGGGCCTGGATCGCACGCTGAAAGCAGTCGCCTCCCTGCCGCGCGAGTTGAAGAAGCGTACCCGCCTGATCGTCATCGGCCAGGACGATCCCAAGCCCTTCCAGCTGCAGGTCAAGGCGCTGGGGATTTCCGAGCTGGTGCGCATCCTCAAGGGACGCAGCGATATCCCACGCTTCCTACTCGGCGCCGATCTGCTGATTCATCCGGCCTACAACGAGAACACCGGCACCGTGCTGCTGGAGGCGCTGGTCGCCGGCCTGCCGGTGCTGGTCACCGATGTCTGCGGTTATGCGCACTACATTGCCGAGGCCGATTGCGGCCGGGTGGTGCCAAGCCCGTTCGAGCAGGAGCGCCTCAACCGCATGCTCGCCGACATGCTGGCCGACGAGCGCCAGCGGGTATTCTGGCACCGCAACGGCCTGGCCTATGCCGACGAGGCCGATCTGTACAGCATGCCGCAGCGAGCGGCCGACGTGATCCTGGCGGAGCGCCCATGA	MQLAFILYKYFPFGGLQRDFMRIALECQRRGHAIRVYTMIWEGDIPDGFEVLVAPVKALFNHRRNEKFTAWVQADLAERPVDRVIGFNKMPGLDVYYAADPCFEEKAQTLRNPLYRKWGRYKHFADYERAVFAPEARTEILMISEVQQPLFVKHYHTPRQRFHLLPPGIAQDRRAPPNAAEIRAEFRREFELGDDQLLLVQIGSGFKTKGLDRTLKAVASLPRELKKRTRLIVIGQDDPKPFQLQVKALGISELVRILKGRSDIPRFLLGADLLIHPAYNENTGTVLLEALVAGLPVLVTDVCGYAHYIAEADCGRVVPSPFEQERLNRMLADMLADERQRVFWHRNGLAYADEADLYSMPQRAADVILAERP	PGPT0022515_474	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_CORE_OLIGOSACCHARIDE_METABOLISM,PGPT0022515-waaG|rfaG-K02844	NA	NA
BMS010_04199	807	rfaP		Lipopolysaccharide core heptose(I) kinase RfaP	ATGAAGTTGATGCTGGACGAGCCGTTCAAGAGCCTCTGGGCCGGGGGCGACCCCTTCGTCGAAGTGGAACGCCTCGAGGGGCAGGTCTATCGCGAGCTGGAAGGCCGCCGGACCCTGCGCACCGAAGTCGCCGGGCGCGGCTATTTCGTCAAGATTCACCGTGGTATCGGTTGGGGCGAGATCGCCAAGAACCTGCTCAGCGCCAAGCTGCCCGTGCTCGGTGCAGGCCAGGAGTGGGCGGCGATCCAGCGGCTGGAGCAGATCGGCGTGCCGACCATGACGGCGGTGGCTTATGGTGAGCGCGGTAGCAACCCCGCCGCCCAGCATTCGTTCATCGTCACCGAAGAGCTGGCGCCGACCATCAGTCTGGAAGATTACTGCCGCGACTGGCCGAGCCGTCCGCCGGAGCCGCGTCTGAAGTGGGCGCTGATCACCGAGATGGCGCGGATGGTCGGCACCATGCACCGCGCCGGAGTGAACCATCGCGACTGCTATATCTGCCATTTCCTGCTGCACACCGACAAACCGGTGCGTGCCGATGACTTCCGGATTTCCGTGATCGACCTGCACCGCGCCCAGACCCGTATCGCCACGCCGCGTCGCTGGCGCGACAAGGACCTGGCCGCGCTGTACTACTCGGCGCTGGAGATCGGCCTGACCCGCCGCGACAAGCTGCGTTTCCTGGCCGGCTATTTCCAGCGCCCGCTGCGGCAGATTCTCGCCGAAGAAGCTCCCTTGCTGGCACGGCTGGAGCGCAAGGCCGCCAAGCTGTATGCACGCAAGCAACGCTACGGGGATGCGCTTTGA	MKLMLDEPFKSLWAGGDPFVEVERLEGQVYRELEGRRTLRTEVAGRGYFVKIHRGIGWGEIAKNLLSAKLPVLGAGQEWAAIQRLEQIGVPTMTAVAYGERGSNPAAQHSFIVTEELAPTISLEDYCRDWPSRPPEPRLKWALITEMARMVGTMHRAGVNHRDCYICHFLLHTDKPVRADDFRISVIDLHRAQTRIATPRRWRDKDLAALYYSALEIGLTRRDKLRFLAGYFQRPLRQILAEEAPLLARLERKAAKLYARKQRYGDAL	PGPT0022545_94	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_CORE_OLIGOSACCHARIDE_METABOLISM,PGPT0022545-waaP|rfaP-K02848	NA	NA
BMS010_04200	735			hypothetical protein	ATGGCGGGTTGGAAGCTTGATCCGGCCTATGCCGGGCTGGCCAAGGATTTCGGCAGTCTCGACGCGGTGTTCGCCCTGACGGGGGAGCGGCTGACCAAGGACCCCCTCTCGGAAGTGATCCGCATCGAGCGCGATGGTGTGCGCTATTACGTCAAGCGCTACTGGGGCGCCGGTAAGGGGTTGCGCCGCTATCTCGGCCGTCCGCGGGTGAAAGCCGAGTGGCAGAACCTGCAGTATTTCCGCAAATGGGGCGTGCCTACCGCCCCTATCGTTGCCTGGGGCTTGGAGCGGAAGCTGGGTGCCTTCGTGCGAGGGGCGCTGATCACCCGCGAGCTAAGCGGTACCGAAGACCTCGCACTGCTCGCCAAGCGGCGCGATCCGCGTCTGGACGACCCCCGCTGGGTCGATGGCATCAGTCGGCAACTGGCGCGGGCCACCCGGACGTTGCATGACCACCATTTCGCCCACAACGATCTGAAGTGGCGCAACCTGCTGGTCAACGGAGAGGGCGAGCTGTTTCTCATTGACTGCCCGACCGGAGCCTTCTGGCGGGGGCCGCTGCTGCGCCACCGGGTCATCAAGGACCTCGCCTGCCTGGATAAACTCGCCAAGTACCAGCTATCGCGGACCCAGCGCCTGCGTTTCTACTTGCAATACCGTGGCCGCGAGCGCCTGGGCATCTGCGACAAGCGCCGCATCGCGCGCATCCTGGCTTTTTTCGAGGGGCGGGAATGA	MAGWKLDPAYAGLAKDFGSLDAVFALTGERLTKDPLSEVIRIERDGVRYYVKRYWGAGKGLRRYLGRPRVKAEWQNLQYFRKWGVPTAPIVAWGLERKLGAFVRGALITRELSGTEDLALLAKRRDPRLDDPRWVDGISRQLARATRTLHDHHFAHNDLKWRNLLVNGEGELFLIDCPTGAFWRGPLLRHRVIKDLACLDKLAKYQLSRTQRLRFYLQYRGRERLGICDKRRIARILAFFEGRE				NA	NA	NA	NA	NA
BMS010_04201	753			hypothetical protein	ATGAAGAACGAGGATTTCATCGCCGAGGAAGATCGCGCGCGGCTGCGAGCCAATGGTCTGGACGATTTCGATGCCCTCTGGCAGTTGCGGCTGGAGGCGGTGGATACGCCGAATACCGAGCGCGGCGGCTGGAGCAGTGTGTTCCGCCTGGAGCTCGACGGTGCCGCATACTACCTCAAGCGGCAGAGCAACCATCTCACCCGAAGCCTGGCGCATCCCTTCGGCGAGCCGACCTTCGCCCGCGAGTTCCGCAATATCCGGCGGTACCGGGAGCTGGGCATCCCCGCCTTGCAGGCCGCATTCTTCGGCATGCGCCGGATACCCGGCGAGCAGCGGGCGATCCTTCTGACCCGTGCGCTCGACGACTGGCGTGATCTGGATAGCTGGCTCTCCACCTGGCCTACCCTCGACGCGGAACGGCGCGTGGCGATCCTGCATGCCTGCGGAGGTCTGGCCAAGCGCTTGCACGAAGCCGGGCAGGTGCACGGATGTTTCTACCCCAAGCACATTTTCCTGCGCGAGCATGACGGCGCTTTCGATGCCTGCCTGATCGACCTGGAAAAGACCCGGCCGGTCCTGTTCGGCCAGCGTGACCGGGTCAAGGATCTGGAGCCGCTGGTGCGCCGTTCGAATGCCTGGAGCGAAGCGGATGTGCGGGAGTTCCTGACGGCCTATCTGCCGGATCGGCAGGCCGTTGAGGGCTGGAGCCAGCGTTTGTCGAAGCGACAGCGGCAGAAGGAGGCGCGTCGATGA	MKNEDFIAEEDRARLRANGLDDFDALWQLRLEAVDTPNTERGGWSSVFRLELDGAAYYLKRQSNHLTRSLAHPFGEPTFAREFRNIRRYRELGIPALQAAFFGMRRIPGEQRAILLTRALDDWRDLDSWLSTWPTLDAERRVAILHACGGLAKRLHEAGQVHGCFYPKHIFLREHDGAFDACLIDLEKTRPVLFGQRDRVKDLEPLVRRSNAWSEADVREFLTAYLPDRQAVEGWSQRLSKRQRQKEARR				NA	NA	NA	NA	NA
BMS010_04202	1455			hypothetical protein	ATGAAACTGCACGAACTGTCCCGCGCCGGGCGGGCACCGGCACTACCGTTCGCCGTCGAACTTGCCGATGCCGCCGGGACGGCGACCTTGAGCATGGAGCGATTGCTGCGGGTCCTGCCGGGCCAGCGCTATGTCGGTGTCGGGGAGTGGCGCGGGCGAACGGTGCTGGCCAAGCTGCTGGTCGGTGACCGGGCAGCGCGCCACTTCCAGCGCGAGCTGAACGGCGCGCGCCTGCTGGCCGAGCAGCAACTGACCACGCCGCTGCTGCTGGTCGACGGCCTGACCGAAGGCGAGGGCGGCTGGCTGTTGTTCGATTACCTCGAGGGCGCCGAAAGCCTGTGGGATGCCTGGCGCGCGGTAGAGGGTGAATCGCCGTTGTCCGAGGCCCAGACAGTGGTACTCGGCGAAGCCCTGGCGGCCATCGCCGGTCTGCATGCCAAGGGGCTCTGGCAGGCTGATTTGCATCTGGACAACCTGCTGCGTCAGGATGGCCAGCTGTACCTGATCGATGGTGGCGCGGTGCAGGCGGAAACCCCCGGCCAGCCGTTGTCGCGGGCACGAGTGCTGGAAAACCTGGGTGTGTTCTTCGCCCAGTTGCCGGCCGGCCTGGAGCCGTTCACCGAGGAGCTGCTGGTCTACTACCTGCTCGCCAATGGCGAACATGCCCTGCCGCTGGAGGCGTTGCTCAAGGAAGTGGCCAAGGTGCGGCGTTGGCGCCTGCGCGATTATCTGGGCAAGATCGCCCGCGATTGCAGCCTGTTCAGTGCCAGGATCGGTGCGTTCGGCCTGCGTGTGGTCCGGCGCGACGCCGCGGCGACGCTGGCCCCTTTGCTGGATGACCCCGATGCGGCGATCGCCCAGGGGCCTCTCTACAAGAACGGCGGCACCGCCACGGTGGCCGGTGCGGAACGGGATGGCCGGAAGCTGGTCATCAAGCGCTACAACATCAAGGGCTTCGGCCATTGGCTGAAGCGCTTCTGGCGTCCGAGCCGTGCCTGGCACAGTTGGGTTGAGGGCAACCGCCTGGATTTTCTCGGCATTTCCACGCCGAAACCCTTGGCGGTGATCGAGAATCGCTGGTGCTGGTTGCGTGGCCGCGCCTGGCTGATTACCGAATATGCCGCCGGGCAAGATATAATCGCGCGTTTTCAGCCGTACCTGGCCGGTTCGCCGCCGGAAGAAGAGCTGTTGGCGCTGGATCGCCTGTTCGCCGCCTTGCTGCGCGAACGCATCAGCCACGGCGATTTGAAGGGGCACAACCTGTTCTGGGACAACGGTCGCTGGCTGCTGATCGATCTCGACGCCGTGCGGCAGCATCGCAGTCCGGCACGTTTCGCCCGTGCCTATGCCAGGGACCGCGCTCGTTTTCTGCGCAACTGGCCGGTTGACTCGGCGCTGTACCGGTTGCTGGACCAACGTTTACCGCAGGCGCCCGACGCCCGCACCGAAGACTAA	MKLHELSRAGRAPALPFAVELADAAGTATLSMERLLRVLPGQRYVGVGEWRGRTVLAKLLVGDRAARHFQRELNGARLLAEQQLTTPLLLVDGLTEGEGGWLLFDYLEGAESLWDAWRAVEGESPLSEAQTVVLGEALAAIAGLHAKGLWQADLHLDNLLRQDGQLYLIDGGAVQAETPGQPLSRARVLENLGVFFAQLPAGLEPFTEELLVYYLLANGEHALPLEALLKEVAKVRRWRLRDYLGKIARDCSLFSARIGAFGLRVVRRDAAATLAPLLDDPDAAIAQGPLYKNGGTATVAGAERDGRKLVIKRYNIKGFGHWLKRFWRPSRAWHSWVEGNRLDFLGISTPKPLAVIENRWCWLRGRAWLITEYAAGQDIIARFQPYLAGSPPEEELLALDRLFAALLRERISHGDLKGHNLFWDNGRWLLIDLDAVRQHRSPARFARAYARDRARFLRNWPVDSALYRLLDQRLPQAPDARTED				NA	NA	NA	NA	NA
BMS010_04203	1758	tobZ		nebramycin 5' synthase	GTGGCATTGACGATTCTCGGCCTTTCCGGCGCGCTGAGCCATGATCCTTCCGCCGCCCTGTACATCGACGGCAAGCTGATCGCCGCCGCCGAAGAAGAGCGCTTCGTGCGCGACAAGCACGCGAAGAACCGCATGCCCTACGAATCGGCCAAGTTCTGCCTGGAGCAGGCCGGTATCAAGCCGTCCGATGTCGACGTGGTGGCGATTCCCTTCGCACCCATCAGCATCTTCGAGAAAGCGCGCTGGCATTACGCCAAGCGCTACTGGTACGCCCCGGACCGCGCCCTCGACGCGATCCTCATGGGCAACCGCCGCTATTACCGCTACAAGAAACGCATCCAGTGGTGCCTGCAGCAGCTTGGTTTCGATCTGAAGAAGATCAAGATCCAGCCGGTCGAGCACCACCTGGCCCATGCCTCCAGCGCCTATCATTGCTCCGGCTTCACCGAAAAGACCGCGATCATGGGCATCGACGGCAAGGGCGAGTACGCCACCACCTTCTTCGGCTGGGGCGAGAACGGCAGGATTCACAAGATCAAGGAATTCTACGACCCGGACTCCCTCGGCGGCCTGTACGGCGCGATCACCGAGTACCTCGGCTTCGAGATGCTCGACGGCGAATTCAAGGTGATGGGCATGGCGCCCTACGGCGACGCGGCCAAGTACGATTTCTCCCGCCTGGCGACATTCGAGAACGGCGAGCTGATCATCAACACCGATTACGCCAACGTCATCGGCTTCCGCCGCTACAAGGAAAAGGGCAAGGGCTACTACTTCTCGCCCAAGCTGATCGAGTGGCTGGGCCCCAAGCGCGAAGGCGACATCGCCGACGACCCCTACATCCACTATGCCGCCAGCATGCAGGCGCTGTTCGAAAAGCTGGCGCTGGAGATGATGGACTACTACCTGGGCGACATCATCAAGGAAACCGGCCGCATCGCCTTCGCCGGCGGCTGTGCGCTCAACGTCAAGCTGAACCAGAAGATCATCGCCCGTCCGGAAGTGAAGGAACTGTTCGTCCAGCCCGCCTCCGGCGACGCCGGCACTTCGGTCGGCGCGGCGGCGTATGTCTCGCATCAGCGCGGTGTGCCGGTGGAGAAAATGGAGCACGTCTACCTCGGCCCGTCCTACAGCAACGAGGACGTCATTGCCGCCTGCGCCCGCCATCCGAACAAACCGGTGTGGAAGAGGATCGACAACATGCCGCAGCGCATCGCGCGGATCATGGTCGATGGCAACCCGGTAGCCTGGTTCCAGGGACGCATGGAGTTCGGCCCGCGCGCCCTCGGCGGCCGTTCCATCATCGGTTGCCCGAGCGTGCCCGGGGTGGCCGACCGGATTAACGAGCAGATCAAGTTCCGCGAGCGCTGGAGACCCTTCTGCCCGTCGATGCTGGACACCGTCGGCCCGCAGATGCTCAAGGTCGATCACCCGTCGCCGTTCATGACCTTCACCTTCGAAGTGCATGAAGAGTGGAAGACCCGCGTGCCGGAAGTCGTGCATGAGGACGGCACCTCACGTGCCCAGGTGCTCAAGCGCGAATACAACCCGCGTTACTACGACATGATGAAGGAGCTGGAGAACCTCACGGGCAACGGCGTGTCGCTGAACACCTCGCTGAACCGCCGTGGCGAGCCGATGATCTGCTCCCCCACCGATGCCCTGAACATGTTCTACGGTTCCGACCTTCGCTACCTGATCATGGAAGACATCCTGGTCGTCAAAGAGGGTATGGACTGGTATGACTCGGTCAGCTGA	MALTILGLSGALSHDPSAALYIDGKLIAAAEEERFVRDKHAKNRMPYESAKFCLEQAGIKPSDVDVVAIPFAPISIFEKARWHYAKRYWYAPDRALDAILMGNRRYYRYKKRIQWCLQQLGFDLKKIKIQPVEHHLAHASSAYHCSGFTEKTAIMGIDGKGEYATTFFGWGENGRIHKIKEFYDPDSLGGLYGAITEYLGFEMLDGEFKVMGMAPYGDAAKYDFSRLATFENGELIINTDYANVIGFRRYKEKGKGYYFSPKLIEWLGPKREGDIADDPYIHYAASMQALFEKLALEMMDYYLGDIIKETGRIAFAGGCALNVKLNQKIIARPEVKELFVQPASGDAGTSVGAAAYVSHQRGVPVEKMEHVYLGPSYSNEDVIAACARHPNKPVWKRIDNMPQRIARIMVDGNPVAWFQGRMEFGPRALGGRSIIGCPSVPGVADRINEQIKFRERWRPFCPSMLDTVGPQMLKVDHPSPFMTFTFEVHEEWKTRVPEVVHEDGTSRAQVLKREYNPRYYDMMKELENLTGNGVSLNTSLNRRGEPMICSPTDALNMFYGSDLRYLIMEDILVVKEGMDWYDSVS	PGPT0015285_614	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-INHIBITION_OF_SALICYLIC_ACID|JASMONIC_ACID	ADAPTION_TO_PIS_REGULATION_BY_Nod_FACTORS,PGPT0015285-nodU-K00612	NA	NA
BMS010_04204	1131	mshA_4		D-inositol-3-phosphate glycosyltransferase	ATGACTCGGTCAGCTGAACCCCGCGTTCTGCAGTTCTGTCATGGCTATGACGGGCCGTTCCTCGACTGTGCCCGGCAATATGCCAGCCTGTTCGAAGGTAGCGGCTACCGGGTGACCACGGTGTTCCTCACCGGGGCGCCCGACCCGGACGTGGCTGTCGGCTGCGCATCCGACGAGGTGCTGTTTCTCGACTACAGCTCGAAGGAAGTGCGCGGCCTCAAGCTCGGCGCTATCCGCGACCTGCGCGAGATCGCCCGCTCGCGGGACTTCCGCTTCTGCATCGCGCACCGCTTCAAGCCGCTGTACATCGCTGCGCTGGCCACCCGTCTGCCGATCATTGGCGTGCACCATGCCTTCGGTGTGTACAAGCGCTTGCCCCGCCGTCTGTTCGCCAAACTGTTTCGCAAGCGCCTGACGCTGCTCGGCGTGTCCAATGCCGTGCGCGACGACATCCGCCAATGCCTGCCCGACTGGCCGGCCGAGCGCATCGAAACGCTGTACAACCGCATCGATGTCGCGGCACTGCGTGCGCAGCAGGTCGACCGGTTGGCGGCGCGCCAGCAATTGCGCCTGCCGGAAGATGCCTGGATCGTCGGTAATGTCGGCCGCCTGCATCCGGACAAGGACCAGGCTACGCTGCTTCGCGGTTTCGCCGCGGCATTGCCCAAGTTGCCGGAGAACGCCAGGCTGGCGATTCTCGGCAGCGGCCGCCTGGAAGACGAGCTGAAGGACCTGGCGCGCGAACTGGGCATCGCCCAGCAGGTGCTGTTCCTCGGCCAGGTGCCGGAGGCACGGCGCTATTTCAAGGCGTTCGATATTTTTGCCCTGAGCTCCGACCACGAACCCTTCGGTATGGTCCTGCTGGAAGCCATGGCGGCCGGCGTGCCACTGATCGCCACGGCCTGTGGCGGCGCCCGGGAAGTGGTGGAAGGGCTGGGCATCCTCTTCCCGCTGGGCGACGATATGGCGCTGGCGGAGGGCCTGGGCCACCTCAGTGCCCTGGATGCCAGGCAGCGTCGGGCCTGCGTCGCAGCGATGGATGCGCGCCTGCAAGAGCATTTCTCCGATGAGGCGGTGCGTCGCCAATTCTGGAAACTGGCCCTCCCTTCGTCGTTCAACGACGCGAAGTGA	MTRSAEPRVLQFCHGYDGPFLDCARQYASLFEGSGYRVTTVFLTGAPDPDVAVGCASDEVLFLDYSSKEVRGLKLGAIRDLREIARSRDFRFCIAHRFKPLYIAALATRLPIIGVHHAFGVYKRLPRRLFAKLFRKRLTLLGVSNAVRDDIRQCLPDWPAERIETLYNRIDVAALRAQQVDRLAARQQLRLPEDAWIVGNVGRLHPDKDQATLLRGFAAALPKLPENARLAILGSGRLEDELKDLARELGIAQQVLFLGQVPEARRYFKAFDIFALSSDHEPFGMVLLEAMAAGVPLIATACGGAREVVEGLGILFPLGDDMALAEGLGHLSALDARQRRACVAAMDARLQEHFSDEAVRRQFWKLALPSSFNDAK				NA	NA	NA	NA	NA
BMS010_04205	1269			hypothetical protein	ATGACGTCGACGGAAGGAGCCTGGAAGGACAAGGCCAGGGCATTGGACCGCTATCGCTGGGGGCTCCTGCGCGAACGCCACACGCTGCTCGGTGCAGCACTGCGTTACGGGCGCGACGCGCTGGTCGACCTGATTTTCGGCATGCGGGCCCGGTTGCGTATGCCGGCTGCATTCCCCTCCGCTACTCCCTGCGATTTTCTACTGTTGCAAGCCTCGCCCAAGGTCATCGCTCTTCGACGCAAGAAACTGCTGATCGAGACGCTGCGCCAGCGTGGCCATCGGCTGGAGGAAGTGGCGATCGAAGCGCCGCGCGAAGTCCTGCGCCAAGCCTTGCTGGCCCGGCCACCGGAGAAGGTGCCGCTCCGTTACCTCGGTTATGCCGCGCATGCCCAGTGGCTGGTGGAGCGCTATCAGCCGCGTATTCTGCTGAACGACCGCAACGGCAGCCTGCATTCGCCGTTCCTGCGGCTGGCGCTGAATGCGCGGGGGAGCCGGCTGGTGCATCTAGCCCATGCGACCACTGTGGAAGGCTCGCGCAAGCTGGGCATGAATGACTACGACTATTATCTGATTTTCGGCCAGAGCTCCTTCGATGCCCTGGCCGGGCGCGCCCTGCGTTTCGGTAGCTGCAAGGTCGTCCTGGCCGGCTCGCACATGATAGACGATGCCTACGACCTGCCGCCGGCAACCCCTCAGTGGCGTGCCTTGCTGGTGCTCGGCGTCGGTCCGGACAAGGAAAAGGAAGCCGGTTATCAGCGCACCTATGCGCTGCTCGGCGAATGGGCCCGGCGCCATCCCGAGTACCGGATTCTGGTGAAGCGCCATCCGCGCAGCCAGGTACCGTTCTGGCAGCAACTGAGCGAGAGTTTGCCGAACTTGCAGGTTTTGCCATCGGACTGTTCGCTGTCCGACGCCCTGGCGCAAGCCTCGGTGGTCGCGAATCTGATGTCCAATGCGGTGATCGAGGCGGCGTTGGCGGGGCGCCCGGTGGTGCCGGTCAACCTCAGCGATGACCGGGACATCTTTTCCCAGCCGCGTTTTTTCGGCGAAACCGTGACCACCGCCGACGAACTGGAAGCGCGCCTGCAGGATATCGAACAGCATTACGACGACTACGTGCGGCACGCCCGCGAGTTCGTCGAATTCCATCTGGCGCATGGCTCCAAAGGGCTCGAGAACAGTGTGCGGATCCTGGAAGCGCTCCTTCGGACGGGCGCGCTGGATGCGTCGGCGGCAGACGTCCGTGAGCTGCCGGGAAACTGCCGATAG	MTSTEGAWKDKARALDRYRWGLLRERHTLLGAALRYGRDALVDLIFGMRARLRMPAAFPSATPCDFLLLQASPKVIALRRKKLLIETLRQRGHRLEEVAIEAPREVLRQALLARPPEKVPLRYLGYAAHAQWLVERYQPRILLNDRNGSLHSPFLRLALNARGSRLVHLAHATTVEGSRKLGMNDYDYYLIFGQSSFDALAGRALRFGSCKVVLAGSHMIDDAYDLPPATPQWRALLVLGVGPDKEKEAGYQRTYALLGEWARRHPEYRILVKRHPRSQVPFWQQLSESLPNLQVLPSDCSLSDALAQASVVANLMSNAVIEAALAGRPVVPVNLSDDRDIFSQPRFFGETVTTADELEARLQDIEQHYDDYVRHAREFVEFHLAHGSKGLENSVRILEALLRTGALDASAADVRELPGNCR				NA	NA	NA	NA	NA
BMS010_04206	1113			hypothetical protein	ATGACGACTTTTCTTTTCTTTTCCTTGGCCAAGCACCAGACGATCTACTTCCGCCGTCTGCTCAATGAGACCGATCTGCGTGGCAAAGTAGTGGGGCCGCTGCAATGGCCCTTGCCGAGACCCTGGCAATGGTCGCGAGTGGCCGGCCGAATCGACTGGCCGGCGGTGATCGCGGAAAAGTGCCAGGAGCGCCTGGTCAAGCGGAAGTACGCCGGACGCCTCTATCGCCTGCTGGTGCGTCTGGAACTGGGCGTGATGGCCTTGCGCGCGGTGGCCCTGCTGGACCGGGAAAAGCCGGATGCGGTGGTGATGTGGAACGGTTCGCACCGCTACTGCCAGGTACTGCGCGCCGTGCTGCCGGCCGGCACCCGGACCTTCTTCTTCGAGAATGGCCTGCTGCCCAACACCACCACCCTCGATCCGCGCGGGGTGAATTATTTCAACTCGGTTCCGCGGGATGCCGAGTTCTTCCTGAACTACCGCTCGCCCAGCGGTCAGCCGGGTGATGCGCAGGCCGTGCAACTGGTGCCGCGCAAGCCGAGACAGACGGGGCTGCCGGAAATCGAGCTGCCCGAACGCTTTATCTTCATCCCCTTCCAGGACGATCGCGACACCCAGGTCCGCCTGTTCTCTCCCTGGATCAAGAGCATGCGCGAGCTGTTCGCGGTCGGTGAGCGATTGGCGCAGGCTTCCGGCATTCCCGTGGTGTTCAAGGAGCATCCGTCGAGTCGCGAAAGCTATCCCGACCTGCATGAGCGGGCGGGCAAGGGCGTGCTGTTCGCCAACGGCAACAGCACCCAGGCGCTGATCGAGGCCAGTCAGTATGTGGTGACGCTCAACTCCACGGTCGGCCTGGAGAGTCTGCTGCTCGGCAAGCCGGTCATGACGCTGGGGCAGGCCTTTTTCAACATCGAAGGCCTGGTGGTGCACGCCGACTCCTTGGAAGAGGTACTGCAACTGGCGAAAGACTTCCCGAACTGGTCGCTGGACGAACGGGTGCGCCAGCACTTCTTCCAGTACATGGCGGAGGAGTACTGCATTCCCGGCAGTTGGCGCAATGCGGACCAGACGCACCTGCGCAAGGTTGCGCAGCGCATGCTTGCGTCGTCATGA	MTTFLFFSLAKHQTIYFRRLLNETDLRGKVVGPLQWPLPRPWQWSRVAGRIDWPAVIAEKCQERLVKRKYAGRLYRLLVRLELGVMALRAVALLDREKPDAVVMWNGSHRYCQVLRAVLPAGTRTFFFENGLLPNTTTLDPRGVNYFNSVPRDAEFFLNYRSPSGQPGDAQAVQLVPRKPRQTGLPEIELPERFIFIPFQDDRDTQVRLFSPWIKSMRELFAVGERLAQASGIPVVFKEHPSSRESYPDLHERAGKGVLFANGNSTQALIEASQYVVTLNSTVGLESLLLGKPVMTLGQAFFNIEGLVVHADSLEEVLQLAKDFPNWSLDERVRQHFFQYMAEEYCIPGSWRNADQTHLRKVAQRMLASS				NA	NA	NA	NA	NA
BMS010_04207	1158			hypothetical protein	ATGCCTTTGATCTGTCAGCGGCGCTTGGTGACCTGGGCGTCGGCAGGGCTGGTCCTGCTGCTTTGCGCGCCCTGGATTCTCTCCAGCAACAAGCTCTATCACCAGATGATCAGCGTTTTGCTGTGGTTGCCGGCCGTGCTGTTTGTGGTGTGCCGCCGAGAGCTGCCGACGGGCTTGAAGAGCCCGGACATGGTGATCTTTCTGCTGTTCTCGGCCTGGACGCTGCTGGTCATCGCTGTGGCCGGTGGGGACCTCGGCAAGGCCAAACTACCGTTCTACGTGGGCTTGACCCTGCTCGCGATCACATTCATCGCACAAGCGGGGCGGGGGCATCTGACGTCGCTGCTGTTCTGGAGCAGCGTGGCGGGCGGCTGGGGCGCGGCGTTGTCCTGGGCAGTGTTCTATGGCGTCCAGAAGCACGCCTGGTCGGACCGGGTAATCGCTCTCGGTGTCTGGGATACACCGATCATGGCTGCCCACGCGGCTGGCGCATTGGCGCTGCTGGGGTTGTGCCTGGCGCCTGTGCGATCGAGCGGGTCGGCGATGGCGGCGATGCTGGTTGCGGCCATCGGCTATCTGCTGTTTCTGGGGTTCGGCCAGACCCGTGGCGTCTGGGTGGCGCTGGCGGCCAGCTTGCTGGTAACGGCTGCGCTGAGTCGGAGTCGTCTGATCCTGGCGGGGGTGGTCGTGATGGCGCTCGGCATGGCCGGTGTCTGGCTCGTCTGGCCAGACGTACTGCTGGAGCGCAGCCTGTCCTATCGCCCCACGTTATGGTCGGGTGGCATTCGTCTGATGGAGGAGCACTGGCTGTTCGGGATGGGCTTCAATGAATTCCATATTCCGGTTGAGGAATTACGACGCACCTTCAAGCATCCGCACAATTTGTTCCTCAATGTCGCCATGCGCCTGGGAGTGGTCGGGCTGCTGCTGTGGTTGGCGCTGTGGGTGGCGATAGGCTGGCGGGCGCTGCGGCATTACCGGGATGAGATGGGGCGGGCACTGATTGCGCTCTGGGTCTTCTCCGGGGTGGCTTTGCTGACCGATGGCTTCGGCCCTTGGCTGAAGCCTAGCGCGGACTGGCTGTTGACCTGGCTGCCGCTGGGTTTGAGCCTGGTTCTCGCGGGTGGGCCTGCAGAGGATTCTGCGAAGCCCGGCTAG	MPLICQRRLVTWASAGLVLLLCAPWILSSNKLYHQMISVLLWLPAVLFVVCRRELPTGLKSPDMVIFLLFSAWTLLVIAVAGGDLGKAKLPFYVGLTLLAITFIAQAGRGHLTSLLFWSSVAGGWGAALSWAVFYGVQKHAWSDRVIALGVWDTPIMAAHAAGALALLGLCLAPVRSSGSAMAAMLVAAIGYLLFLGFGQTRGVWVALAASLLVTAALSRSRLILAGVVVMALGMAGVWLVWPDVLLERSLSYRPTLWSGGIRLMEEHWLFGMGFNEFHIPVEELRRTFKHPHNLFLNVAMRLGVVGLLLWLALWVAIGWRALRHYRDEMGRALIALWVFSGVALLTDGFGPWLKPSADWLLTWLPLGLSLVLAGGPAEDSAKPG				NA	NA	NA	NA	NA
BMS010_04208	864			hypothetical protein	ATGCCAAGTCATGCAGACGCGGCACGAGAACGGGGGCCCCGTTCGTTCAACGATGTTCGCTGGAAATCCTTTGCCGAATGTCGGAATAGCCGCACCGGGGCGGTGTTCATCATTGCTTCGGGGCCATCCGCCCGGGATTTTCCCCTGACGCGCTATGCGGACTTCCCGATGTTCGCGATGAACGGGTCGATTCACCTGTTCGCCGAAGCCGGGCTGGCCCCGCTGTTCTATCTGTGCGATGACAGCAGTTTCGTGCGCAATCGGCTGCCGCTCCTGCTGGAGGGAATGCGTCGGAGCCATGAAGTCGCTTTCTCCGAACGCGTCGTTGCGGAACTGGCGAGGCTTTCGAGCGATAGCCCGGGGACCCGGTCGATCCATCGTCTGGAGCGGGCTGGCCGCATGAACAGGGCTGGCCGCGAATTGTCCGACCGCGAGTTCGCCCGGCGTGCCCGTCACGATCCCGACTTCGAATGCCGGTTTTCCTGGTTCCGGCAGAAGCCCAACCGCATCGGTTTCAGCCGCAATCTGGATAAGGGCTATTTCAATAGCCGCACCATTCCCTACGCGGGTATCCAGCTCGCTTACCACCTGGGTTTCAGCCGGGTCTTCCTGGTGGGCGTGGACCTGGATTCAAAGAAAGGGCGGTCCTACGAGAAGGATGAACAGGCCGTACCCAGTCGCCTGGATGGAGACTATGAGGATTACATCCTGCCCAGCTTCCAACTGTTGGCCGAGCGGGTAATCAATCCCGATTTCCAGGTCTTCAACCTGTCGCTGGACAGCCGTCTGCCGTCCAGCGTGGTACCGAAGATCAGCCTCGATCAGTTGGATGCGATGCTGAACTCTCCTCATAGCAGCGCATAA	MPSHADAARERGPRSFNDVRWKSFAECRNSRTGAVFIIASGPSARDFPLTRYADFPMFAMNGSIHLFAEAGLAPLFYLCDDSSFVRNRLPLLLEGMRRSHEVAFSERVVAELARLSSDSPGTRSIHRLERAGRMNRAGRELSDREFARRARHDPDFECRFSWFRQKPNRIGFSRNLDKGYFNSRTIPYAGIQLAYHLGFSRVFLVGVDLDSKKGRSYEKDEQAVPSRLDGDYEDYILPSFQLLAERVINPDFQVFNLSLDSRLPSSVVPKISLDQLDAMLNSPHSSA				NA	NA	NA	NA	NA
BMS010_04209	624			hypothetical protein	ATGCGGATTGTAACAGCGAACGAATTGCAAGGATGGCTCGATCAGGGAGAGGTACTGGAAAAGGACAGTCGAGGCCCCAAGGTCATCAAGCTCGCCGATGGTGACCTGCTGAAGATTTTCCGCAGCCGCCGCACCCTCATGGGCCGTTTGCGCCCGGATGCGCAACGCTTCGAGAAACATGCCCAGCACCTGCGCAAACTCGGTATCCGCACCCCGGAAATCAATGCCTGTTACTGGATCGACCCCAGCCAGCGGATCAGCGCCTGCCTCTACCGGCCACTGGAAGGTACCCCACTGGACAAGCTGTTCCACCGGTCGCGCGAAGAGTTCGACAGGCTGCTGCCCGAACTGGCGTCCTATATCCGCAAGCTGCACCGGAGCGGCATCTACTTCCGCTCCCTGCACCTGGGCAACATTCTGCGCACGCCCGAAAACGATTTCGGCCTGATCGATTTCCTCGATATCCGTTTCAAGGGCCGCCCGCTCGGTCGGCTGCTGATCCGCCGGAACTTCCAGCATTTGCAAAGCTACCTGCAACGCCGCAAGGTGCCGGATTTTCCCTGGGAACGACTTATGCGCTGCTATGAGGAGAGTTCAGCATCGCATCCAACTGATCGAGGCTGA	MRIVTANELQGWLDQGEVLEKDSRGPKVIKLADGDLLKIFRSRRTLMGRLRPDAQRFEKHAQHLRKLGIRTPEINACYWIDPSQRISACLYRPLEGTPLDKLFHRSREEFDRLLPELASYIRKLHRSGIYFRSLHLGNILRTPENDFGLIDFLDIRFKGRPLGRLLIRRNFQHLQSYLQRRKVPDFPWERLMRCYEESSASHPTDRG				NA	NA	NA	NA	NA
BMS010_04210	1791	msbA_2	COG1132	Lipid A export ATP-binding/permease protein MsbA	ATGGCCGACTCTGCCCAGCAATCCAGTCTCAAACTCTATCTGCGTTTGCTGAAATACGTTCTCCCTTATTGGGGAGCCTTTGCGATCAGTATCCTGGGTTTCCTGCTGTTCGCGTCCAGCCAGCCGATGCTGGCGGACATGCTGAAATACTTCCTGGACGGCCTGCAGTCACCCGACAACGCCATGTTGCTCGGCGTGCCGTTGGTATACGGCGTGCCGATGCTGATTGTACTCATTGCACTCTACCAAGGCATAGGTTCGTACCTGGGCAACTATTTCCTGGCCAAGGTCGCGCGTGGCGTGGTACATGATCTGCGCTGCGCACTGTTCGACAACCTGCTGACCCTGCCCAACCGCTATTTCGACAACCACAACTCGGGTCACCTGATCTCCCGGATCACCTACAACGTGACCATGGTGACTGGCGCCGCCACCGATGCGATCAAGGTGGTGATCCGCGAAGGCCTGACCGTGGTGTTCCTGTTCGGCTACCTCCTGTACAGCAACTGGCGGCTGACCCTCGTCCTGCTGGCGATCCTGCCGATCATCGCCCTGCTGGTGACCAGCGCCAGCAAGAAGTTCCGCAAGCAGAGCAAGAAGATCCAGGTGGCCATGGGCGACGTCACCCACGTGGCGTCGGAAACCATCCAGGGCTACCGGGTGGTGCGCAGCTTCGGCGGCGAGGAGTACGAGCAGAAGCGCTTCCAAAAGGCCAGCGCCGACAACATGAACAAGAGCCTGGGCATGACCCGTACCCAGTCGATCTATACACCGCTGCTGCAACTGGTCATCTACATCGGCATGGCGTTGCTGATGTACCTGGTGCTCTATCTTCGCGGCGATGCCTCGCCCGGCGAGCTGATCGCCTATATCACCGCGGCCGGTCTTCTGCCCAAGCCGATCCGCCAGCTCTCCGAGGTCAGCGCGACCATCCAGAAGGGCTTGGCCGGTGCCGAGAGTATCTTCGAACAGCTCGATCAGGAGCCGGAAGTGGACCTTGGCAGCATGGAGCGCGAGCGTGTCAGCGGGCGCCTCGAGGTGCGCGATCTGAGCTTCCAGTACCCGAACACCGACAAGCAGGTGCTGAACAACATCAGCTTCACGGCCGAGCCGGGGCAGATGGTGGCCCTGGTCGGCCGCTCCGGCAGCGGCAAGTCGACCCTGGCGAGCCTGATTCCGCGCTTCTATCACCACGAATCCGGGCAGATTCTGCTCGATGGCGTGGATGTCGAGGACTACCGACTGCGCAACCTGCGTCGGCACGTCGCACTGGTCACTCAGCAGGTCACGTTGTTCAACGATAGCGTCACCAACAACATCGCCTATGGCGACCTGGCTGGCGCGCCGATGGAGGACGTCCGTGAAGCCGCGGAGGCCGCTTACGCCGCCGAATTCATCGAGCGCATGCCGGACGGCTACGAAACGCTGGTCGGCGAGAACGGCGTGCTGCTCTCCGGCGGACAGCGGCAGCGCCTGGCGATTGCCCGCGCACTGCTGAAGAACGCGCCGGTGCTGATTCTCGACGAGGCCACGTCGGCACTCGACACCGAGTCCGAGCGGCACATCCAGGGGGCACTGGATCGCGTCATGAAGGGACGTACGACCCTGGTCATCGCCCATCGCCTCAGCACCATCGAGAAGGCCGATCTGATCCTGGTGATGGATCAGGGGCAGATCGTCGAGCGCGGCACCCATGCCGAACTGCTGGCGCTCAACGGCTACTATGCCCGTCTGCACGCCAAGCAGTTCGAGGATATGGATACCACCACCGAGGTGGCGCGGGAGGGCTGA	MADSAQQSSLKLYLRLLKYVLPYWGAFAISILGFLLFASSQPMLADMLKYFLDGLQSPDNAMLLGVPLVYGVPMLIVLIALYQGIGSYLGNYFLAKVARGVVHDLRCALFDNLLTLPNRYFDNHNSGHLISRITYNVTMVTGAATDAIKVVIREGLTVVFLFGYLLYSNWRLTLVLLAILPIIALLVTSASKKFRKQSKKIQVAMGDVTHVASETIQGYRVVRSFGGEEYEQKRFQKASADNMNKSLGMTRTQSIYTPLLQLVIYIGMALLMYLVLYLRGDASPGELIAYITAAGLLPKPIRQLSEVSATIQKGLAGAESIFEQLDQEPEVDLGSMERERVSGRLEVRDLSFQYPNTDKQVLNNISFTAEPGQMVALVGRSGSGKSTLASLIPRFYHHESGQILLDGVDVEDYRLRNLRRHVALVTQQVTLFNDSVTNNIAYGDLAGAPMEDVREAAEAAYAAEFIERMPDGYETLVGENGVLLSGGQRQRLAIARALLKNAPVLILDEATSALDTESERHIQGALDRVMKGRTTLVIAHRLSTIEKADLILVMDQGQIVERGTHAELLALNGYYARLHAKQFEDMDTTTEVAREG	PGPT0029415_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029415-comEC-K02238	NA	NA
BMS010_04211	1422	hldE	COG2870	Bifunctional protein HldE	ATGAAGCTGTCCATGCCCCGTTTCGACCAAGCCCCCGTTCTGGTGGTGGGCGATGTCATGCTCGACCGTTACTGGCATGGCGGTACCTCGCGGATTTCCCCGGAGGCGCCGGTACCGGTGGTCAAGGTCGAGCAGATCGAGGACCGTCCGGGCGGTGCGGCCAACGTCGCGTTGAACATCGCCGCACTGGGGGCGCCGGCCGTGTTGGTCGGGGTCACCGGTGAGGACGAGGCGGCCGAGAGCCTGAGCAACAGCCTGGCTGCCGCCGGGGTCAAGGCGCGCTTCCAGCGCATCGACGACCAGCCGACCATCGTCAAGCTACGGGTCATGAGCCGCCACCAGCAACTGCTGCGCCTGGACTTCGAGGAAGCCTTCGACACCGACGCCGCCGCCCTGGCCTCCGAGGTGGACGGGCTGCTCGCCGGGGTCAAGGTGCTGGTGTTGTCCGACTACGGCAAAGGCGCGCTGAAGAACCATCAGGCGCTGATCGAGGCGGCGCGTCGTCGTGGCATTCCAGTGCTGGCCGATCCCAAGGGCAAGGATTTTTCCATTTATCGCGGCGCCAGCCTGATCACCCCCAACCTCAGCGAGTTCGAGACCATCGTCGGCCGTTGTGCCGACGAGGCCGAGCTGGTGGCCAAGGGCGCGGCGCTGATGCGCGAACTGGAACTCGGCGCGCTGCTGGTTACCCGTGGCGAGCACGGCATGACCCTGCTGCGTCCCGGCCATCCGGCGCTGCACCTGCCGGCCCGTGCCCGCGAAGTGTTCGACGTCACCGGCGCCGGCGACACGGTGATCTCCACCCTGGCCGCCGCCATCGCTGCCGGTGAAGAGTTGCCCCAGGCCGTGGCCCTGGCCAATCTGGCGGCCGGCATCGTCGTCGGCAAGCTGGGGACCGCGGCCATCAGCGCCCCGGAACTGCGCCGCGCAGTGCAGCGCGAGCAGGGCTCCGAGCGTGGCGTGCTGAGCCTCGAACAGTTGCTCACCACCATCGAAGATGCTCGTGCCCACGGCGAGAAGATCGTCTTCACCAACGGCTGCTTCGACATCCTCCATGCCGGTCATGTGACCTACCTGGAACAGGCCCGCGCCCAGGGCGACCGGCTGATCGTCGCGGTCAACGACGACGGTTCGGTCAGCCGCCTGAAGGGGCCTGGCCGACCGATCAACTCCGTCGACCGGCGCATGGCTGTGCTGGCCGGCCTCGGGGCGGTGGACTGGGTGGTGAGCTTCAGCGAGGACACTCCCGAGCGCCTGCTCGCCGAGGTCAAGCCGGACGTGCTGGTCAAGGGCGGCGACTACGGCATCGACCAAGTGGTGGGGGCCGAGATCGTCAAGGCCTACGGCGGTACGGTGAAGGTGCTCGGCTTGGTGGAGAACAGCTCGACTACCGCGATTGTCGAGAAGATTCGTCAGAAATAA	MKLSMPRFDQAPVLVVGDVMLDRYWHGGTSRISPEAPVPVVKVEQIEDRPGGAANVALNIAALGAPAVLVGVTGEDEAAESLSNSLAAAGVKARFQRIDDQPTIVKLRVMSRHQQLLRLDFEEAFDTDAAALASEVDGLLAGVKVLVLSDYGKGALKNHQALIEAARRRGIPVLADPKGKDFSIYRGASLITPNLSEFETIVGRCADEAELVAKGAALMRELELGALLVTRGEHGMTLLRPGHPALHLPARAREVFDVTGAGDTVISTLAAAIAAGEELPQAVALANLAAGIVVGKLGTAAISAPELRRAVQREQGSERGVLSLEQLLTTIEDARAHGEKIVFTNGCFDILHAGHVTYLEQARAQGDRLIVAVNDDGSVSRLKGPGRPINSVDRRMAVLAGLGAVDWVVSFSEDTPERLLAEVKPDVLVKGGDYGIDQVVGAEIVKAYGGTVKVLGLVENSSTTAIVEKIRQK	PGPT0023040_1080	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-MANNO-HEPTOSE|-PHOSPHATE_MODIFICATION,PGPT0023040-gmhC|hldE|waaE|rfaE-K03272	NA	NA
BMS010_04212	1281	acrC_1		Acryloyl-CoA reductase (NADH)	ATGACCGATGTACAAGGCCGCGCCCTGGCCATGCTCAACCGTGTGGCCCAGGCCGACTGGCCGGACCGCCTCAAACTGCGTAAACCCTTCGAGAAACTCATCTACAGCGGTAGCCGCGCCAGCTTCCGTCTGGCCGCCGAGCGTACGGCCAAGCAAGGCAAGGTTCCGCGAAAGTCCGACCCGGATGCGCTGTTCGATCTGTCGCTGTCCGACGAGCAGCGGATGCTGATGGATATGCTCGACGGTTTCGCCGCCGAGGTGCTGCGCCTTGCTGCCCATGATGCCGACGAGACGGCATCGATTCCCGCCGAATTGCTCAATCAGGTTCAGGAACTGGGGCTGGCCTACTACGGCGTTGGCGAAGTGCATGGCGGCATGGCCGGTGAGCGCACCACCGTGACCAACGCCTTGATCGCCGAGTGCCTGGGCAAGGGCGACCTGTCCCTCGGCGCGGCGCTGCTGGTGCCGCTGTCCGCGGCCAATTGCATCCGCCGTTGGGGCAATGCGGAACAGCAGGAGCGTTGGCTGCCGGCCTTCGTCGGCGAGGAAGCGGCGCCGCTGATGGCCCTGGCGGTGAGCGAGCCGACGCTGATGTTCGATCCGCAGCAACTGGCCACCAAGGCCCGGCGTAAGGGTGGCAGCTATCTTCTGTCCGGTGAGAAGTGCCTGGTGCTGCGCGGCTTGGAGGCCAGCCACCTGATCGTTGCTGCCGAAGCCGAGCAGGGGCCCGCCTTGTTCATTGTCGATGCTTCCGCCAAGGGAGTGGAGCGGCGCGCCGACCCGGCCATGGGGCTGAAGGCCGGGGGGCTGGCACGCATTCGTCTGAAAAGCGTGAAGGTGCCGGCGGAGAATCGCCTGGCGGCCGAGCATTTCGATTACCGCTGCTTCGTCGACCACAGTGCGCTGGCCTGGTGTGCGCTGGCCGTGGGCACCGGGCAGGCGGCGCTGGATTACGTGACCGCCTACTGCAACGAACGTACGGCCTTCGGTGAGCCGATCAGTCACCGGCAGGGCGTGGCGTTCATGGTGGCGGACATCGCCATCGAACTGGATGCCATGCGCCTGATGGTCTGGCGCGCCTGTGCACGGGCCGAGCAGGGGCTGGATTTCCAGCGCGAAACCTATCTGGCGCGCCTGCTCTGCGCCGAGAAGGCGATGAAGATCGGCACTGACGCGGTGCAACTGCTCGGCGGCCATGGCTTCACCAAGGAGCACCCAGTCGAGCGCTGGTACCGCGATCTCCGAGCCCTGGCCGTAATGGCCGGCGGTCTGCATCTCTAA	MTDVQGRALAMLNRVAQADWPDRLKLRKPFEKLIYSGSRASFRLAAERTAKQGKVPRKSDPDALFDLSLSDEQRMLMDMLDGFAAEVLRLAAHDADETASIPAELLNQVQELGLAYYGVGEVHGGMAGERTTVTNALIAECLGKGDLSLGAALLVPLSAANCIRRWGNAEQQERWLPAFVGEEAAPLMALAVSEPTLMFDPQQLATKARRKGGSYLLSGEKCLVLRGLEASHLIVAAEAEQGPALFIVDASAKGVERRADPAMGLKAGGLARIRLKSVKVPAENRLAAEHFDYRCFVDHSALAWCALAVGTGQAALDYVTAYCNERTAFGEPISHRQGVAFMVADIAIELDAMRLMVWRACARAEQGLDFQRETYLARLLCAEKAMKIGTDAVQLLGGHGFTKEHPVERWYRDLRALAVMAGGLHL				NA	NA	NA	NA	NA
BMS010_04213	1206	caiA_2		Crotonobetainyl-CoA reductase	ATGAATCTGGAAACTCCGAAGAAATTCCGTGGCCTGGTGACCCAGGCGCATCAGGTGGCGGCCAATTATTTCCGGCCGATCTCGCGCAAGTACGACAAGGCCGAGCACGCTTATCCGAAGGAGCTGGACCTGCTGGCGGCGCTGCTCGATGGCATGAACGCCGGCTCGCCGGAAGCGGTCGGCGCCACCTCGGCGAGCAAGCGCAAGGGCGCTACTCAGGAGGAGGGCATGCGCAACGGCGGCAACCTGTCCGCCTGTCTGGGCGTGATGGAGCTGTGCTGGGGCGATGTCGGCCTGCTCCTGGCCATGCCGCGCCAGGGCCTGGGCAATGCGGCCATTGCCGCGGTGGCCAACGAAGAACAATTACAGCGCTTCGGCTCCACCTGGGCGGCTATGGCCATCACTGAACCGGGTTGCGGCTCCGATTCGGCGGCGATCCGCGCCACGGCGGTAAAGGATGGCGATCATTACGTGCTCAACGGCGAGAAAATCTTCGTCACCTCCGGCGAGCGCGCCGATGCCGTGGTGGTCTGGGCGTCCTTGGACCGTAGCCTGGGGCGGGCGGCGATCAAGTCCTTCGTGGTAGAGAAGGGGACGCCGGGGATGACCGTCACCCGGCTGGAGAAAAAACTCGGGATCAAGGCCTCGGACACTGCCTCCATCAGCTTCAACGATTGCCGCGTGCCGGCCGCCAATCTGCTGGGCAACCCGGAAATCGACGTGCAGAAGGGCTTCGCCGGGGTCATGGAAACCTTCGACAACACCCGCCCGCTGGTGGCCGGCATGGCGGTGGGCGTAGCCAAGGCGGCGCTGGACCGTACCCGCGAGCTGCTGAAGAAGGCCTGCCGTTTCGATTATGCCCGCCCGTTGCTGGCGGTCAGCCATGCCGAGGCGACCCTGTACCGCCTGGAAGCCGAGTGGGAGGCGGCGCGGCTGCTTACCCTCAAGGCGGCCTGGATGGCGGACAACAAGCTGCCCAACTCCAAGGAGGCCTCCATCGCCAAAGCCAAGGCCGGACGAGTGGCCAATGAAGTCACTCTCAAGTGTGTGGAGTTGGCCGGTACCCTGGGCTATGGCGAAGACGAACTGTTGGAGAAATGGGCCCGCGACTCGAAGATCCTCGACATCTTCGAAGGCACCCAACAGATCCAGTTGCTGATCGTCGCTCGCCGGCAGCTGGGCAAGAGTTCCAGTGAGTTGAAGTGA	MNLETPKKFRGLVTQAHQVAANYFRPISRKYDKAEHAYPKELDLLAALLDGMNAGSPEAVGATSASKRKGATQEEGMRNGGNLSACLGVMELCWGDVGLLLAMPRQGLGNAAIAAVANEEQLQRFGSTWAAMAITEPGCGSDSAAIRATAVKDGDHYVLNGEKIFVTSGERADAVVVWASLDRSLGRAAIKSFVVEKGTPGMTVTRLEKKLGIKASDTASISFNDCRVPAANLLGNPEIDVQKGFAGVMETFDNTRPLVAGMAVGVAKAALDRTRELLKKACRFDYARPLLAVSHAEATLYRLEAEWEAARLLTLKAAWMADNKLPNSKEASIAKAKAGRVANEVTLKCVELAGTLGYGEDELLEKWARDSKILDIFEGTQQIQLLIVARRQLGKSSSELK	PGPT0008385_4070	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008385-acd-K00249	NA	NA
BMS010_04214	909			hypothetical protein	ATGTCGCGTACCCTTGCCCGCAAGGACCCCAGTGCCTTCAAGACCCTGCCGCTTTTCGTCGAGGCCGGCCCGGACGGGCTCAGCTACCAGAGCCTCGGCCGACCGCTGAATTTCGCCCAGATGCTGGAAAAGCGCCGGCCGATCGAGGTGAACGACCCTAACCGCTTCGCGGTGGAACTGGCCAACCTCGGCGTCTCGGTGCGCCTGACGCTATCCTGGCAGGGCCGCGAATACTGGCTGCTGGTGCGCCAGCGCCGCCTCGACCGGGGCGACGTGGTACTCAAGCTGATCTCCGGCTACGTCCCGGCCCACGAACTCAACCTGCCGTTGCTGACTGCCATCCAGGAGGTCGCCGAGGAGTGCCTGCTGGAAACCCCGGAAGGCTGGCTGGCCGGCCGCTTCGGCGACACCTGGCTGCCAACGCCCTACCAGGGCGCCCTGCGCTATCGCGAGGCCACGCACTTCCGCCTCAGCCCCCTGTCCGGTGCAGCGCGCCCGATACGCTGCGGCAACCTGACGCTGATGGAGCGCCCGCGCGCCTACGTGCACCAGCCCACCGCCTCGCTACAGCTGGTCTACGACCTGCGCCTGGAGCTGCCGAAGGAAGCGCGTCAGCTCAGCCTGTTCCATGTCGACGAACGCTTGGAAGACGGCCAGCTCATCGCCCGCCTCGAACGCAGCCGACCGGACCTGTACCTGATTCCCCTCGACCAGGGCCGCCCCACCGGCGAATTGCTCACCCTCAAGCGCGGCATGCTGGCGCCGGCAGCGACCCGCGGCCTGTGGCTGGCAGAAAGCTTCGCCCCGCAGGACGGCTGGCTGGTGCGCGACGAACGCATCCGCTGGAAGGACTGGCTGGTCCAGCAGAACCTTGTTCCGGCCAAAAAAGCAGCGGCTGGCAGGCGATAA	MSRTLARKDPSAFKTLPLFVEAGPDGLSYQSLGRPLNFAQMLEKRRPIEVNDPNRFAVELANLGVSVRLTLSWQGREYWLLVRQRRLDRGDVVLKLISGYVPAHELNLPLLTAIQEVAEECLLETPEGWLAGRFGDTWLPTPYQGALRYREATHFRLSPLSGAARPIRCGNLTLMERPRAYVHQPTASLQLVYDLRLELPKEARQLSLFHVDERLEDGQLIARLERSRPDLYLIPLDQGRPTGELLTLKRGMLAPAATRGLWLAESFAPQDGWLVRDERIRWKDWLVQQNLVPAKKAAAGRR				NA	NA	NA	NA	NA
BMS010_04215	810			hypothetical protein	ATGAAGACCCTGCACGGCCTCGAACGGCCCTTCGGCGACACCGGCCTCATGGTCTCCCCGCTCGGCCTCGGCACGGTCAAGCTCGGGCGCGACCAGGGCGTGAAATACCCCAGCGGCTTCACCATTCCCGACGACCGGGAAGCGCGCCAGTTGCTGGACCTGGCCCGCGAACTCGGCATCAACCTGATCGATACGGCGCCTGCCTACGGCCGCAGCGAAGAACGGCTCGGCCCGCTGCTACGCGGCCAGCGCGATGCCTGGGTGATCGTCAGCAAGGTGGGCGAGGAGTTCGAGGGCGGCCAGTCGCACTTCGACTTCTCCCCGGCGCACACCCGCCTCTCCCTGGAACGCAGCCTGAAGCGCCTGGAAACGGACATCATCGATCTGGTGCTGGTGCATTCCGACGGCAACGACGTCGCCATCCTGCGCGACAGCGGCGTCTACGAGACCCTCGCCGAGCTGAAGCGCGAGGGCAAGATCCGCGCGTTCGGCCTCTCCGGCAAGACGGTGGAAGGCGGCCTGCTGGCCCTGGAGCGCGGCGATTGCGCCATGGTCACCTACAACCTCAACGAGCAAGGCGAGCGGCCGGTATTGGACTACGCCGCCGAGCACGGCAAGGGCATCCTGATCAAGAAGGCCCTGGCCAGCGGCCATGCCTGCCTAGGTGTCGGCGTGGACCCGGTGCGCGCCAGTTTCGAGCTGTTGTTCGGCCATCCCGGAGTGGCCAGCGCGATCATCGGCACCATCAACCCGCTGCATCTGTCCCATAATGTCGCGACGGCCGCCGCCGTGATTCGTGGCAGCCACTGA	MKTLHGLERPFGDTGLMVSPLGLGTVKLGRDQGVKYPSGFTIPDDREARQLLDLARELGINLIDTAPAYGRSEERLGPLLRGQRDAWVIVSKVGEEFEGGQSHFDFSPAHTRLSLERSLKRLETDIIDLVLVHSDGNDVAILRDSGVYETLAELKREGKIRAFGLSGKTVEGGLLALERGDCAMVTYNLNEQGERPVLDYAAEHGKGILIKKALASGHACLGVGVDPVRASFELLFGHPGVASAIIGTINPLHLSHNVATAAAVIRGSH	PGPT0018520_193	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018520-iolS-K06607	NA	NA
BMS010_04216	1176		COG0578	putative FAD-dependent oxidoreductase	ATGTCCCAACACCTTTCCACCGACGTGCTCATCGTCGGCGGCGGTATCGCCGGTCTCTGGCTCAACGCACGCCTGCGCCGCCAGGGTTTTTCCACCGTGCTGGTGGAGAACGCCAGCCTCGGCGGCGGACAGAGCCTGAAATCCCAAGGCATCATCCATGGCGGCACCAAATACGCCCTGCACGGAGCCCTGACCGGTGCCTCCGAGGCCATCGCCGACATGCCGCGCCGTTGGCGCGAAGCGCTGGCCGGCACGGGCGAGTTGGACCTGCGCGGCGTACGCCTGCTCTCCGATGCCCACTACCTCTGGTCGCCCGGCACCCTGGCCGGCAACCTGACCAGCTTCTTCGCCAGCAAGGCCGTGCGTTCCCGGGTCGATCAGGTGAAGGGCGACGCCCTGCCGCCGGCCCTGCAGCATCCCCGCTTCAAGGGCAAGGTCTACCGTCTCACCGAACTGGTACTCGACGTACCCAGCCTGATCGCCCGCCTGGCCGAGCTGGCCGGCGACAGCCTGCTCGCCGCCGACGAGATCGCCCCGCTGCGCGACAACGGCGAGCTGGCCGGCCTTGTCGTCGATGGTCGTGAAATCCGTGCCCAGCGCATCGTGCTCAGCGCCGGCGCCGGCAATGCCGCCCTGCTCAGCGCGCTCGGCCTGTCCGAGCCGGCCATGCAGCGCCGGCCGCTGCACATGGTGCTGGTCAAGGCCCCGACGCTGAAACCGCTCTATGCCCACTGCCTCGGCGGCGGACCCAAGCCGCGCGTCACCGTGACCACCCATCCGGCCGCCGACGGCCAGTGGGTCTGGTACCTCGGCGGCGACCTCGCCGAAGCCGACGGCGTGGCCCGCGACGAGTCCGCGCAGATCGCCGCCGCCCGCAAGGAGTTGAACGACTTGCTGCCCTGGATAGACCTGTCCCAGGCCCGTTTCGCTTGCCTGCGGGTGGACCGCGCCGAGCCGGCCCAATCCGGGCTGGTCCGCCCGGACAATGCCTTCCTCGCCGAACAGAACCGTCTGCTCGTCGGCTGGCCGACCAAGCTGGCGCTCGCCCCGGACTTCGCCGACCGCGTGCTGGCCAGCCTCGACCGCGACGGTATCCAACCCGGCGAACACGGCGGGCGGCCTGTCCTGCCCAGGCCGCCGGTCGGCCAGCCGGTGTGGGAGGAGCTGCTGCCATGA	MSQHLSTDVLIVGGGIAGLWLNARLRRQGFSTVLVENASLGGGQSLKSQGIIHGGTKYALHGALTGASEAIADMPRRWREALAGTGELDLRGVRLLSDAHYLWSPGTLAGNLTSFFASKAVRSRVDQVKGDALPPALQHPRFKGKVYRLTELVLDVPSLIARLAELAGDSLLAADEIAPLRDNGELAGLVVDGREIRAQRIVLSAGAGNAALLSALGLSEPAMQRRPLHMVLVKAPTLKPLYAHCLGGGPKPRVTVTTHPAADGQWVWYLGGDLAEADGVARDESAQIAAARKELNDLLPWIDLSQARFACLRVDRAEPAQSGLVRPDNAFLAEQNRLLVGWPTKLALAPDFADRVLASLDRDGIQPGEHGGRPVLPRPPVGQPVWEELLP				NA	NA	NA	NA	NA
BMS010_04217	333		COG2076	Multidrug transporter	ATGCCGGGCTATCTGTATCTGGGCATTGCCATCGCCGCCGAAGTGATCGCCACCACCTCGCTGAAAGCCGTGGAAGGTGTGGCCAGGCCGATTCCGCTGGCCCTGGTGGTGCTGGGCTACGGGTTGTCGTTCTGGATGCTGACGCTGGTGGTGAAAAGCATTCCGATCGGCATCGCCTATGCCATCTGGGCCGGGCTCGGGATCGTGCTGGTGAGTGTCGCGGCCGTATTCCTCTACCAGCAGAAACTCGACCTGCCGGCCATGCTCGGCATGGCTCTGATCGTTTGCGGGGTAGTGGTGATCCAACTGTTCTCCCGGTCCGTTGCACACTAA	MPGYLYLGIAIAAEVIATTSLKAVEGVARPIPLALVVLGYGLSFWMLTLVVKSIPIGIAYAIWAGLGIVLVSVAAVFLYQQKLDLPAMLGMALIVCGVVVIQLFSRSVAH	PGPT0029230_1260	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029230-emrE|qac|mmr|smr-K03297	NA	NA
BMS010_04218	885	cynR_3		HTH-type transcriptional regulator CynR	GTGCAATGGAATCTGGATCAGCTCAGCGCTTTCGTCGCCGTATGCGAACACGGCTCCTTCTCCGCGGCGGCTCGCGATTTGCGCCGTGCACAGTCGGCGGTGAGCCAAGTGGTGGCCTTGCTGGAAGAGGACCTTGGCGTACGGCTGTTCGAGCGCAGCGGCGGTCGGATGCCGCTGCTCACCGAGGCGGGCAAGGCCTTGCACGAGGAAGCACGTGCGGTGTTGCAGCAATGCCAGCGCCTGCAAGGACGTGCCAACGGGCTGCAGCGCGGCGAGGAAGCACGCCTGCGCCTGGCCCAGGACGAAGCCATGCCTTATCAGCCGGTACTCGCCAGTCTGGAGGCCCTGGCCCATGCCTTTCCGCTGTTGGAGGTGCAGTTGGCCAGCGGCGCGCAGGGCGACGTGGCGCGCAAGCTGGTGGAGCGACGCGCCGACCTCGGCCTGCTGTTCCACCACGAGCAGATGCCAGAAGCCCTAGAAAGGCAGCGCCTGGGAACGATCGAGATGGTGACCGTCTGCGGCGCTGGCCATCCCCTGGCGAGGGTGCCCTATGCCGACCGCCGAACCCTCGCGCAGCATCGGCAACTGTTGATGACGCCGCAGGACAGCCACTATTCCGGCGGCGAACAGATCAGCCCGTTGGTCTGGCGTGCCGACAGTTTCTACGCCATGGCCGAGCTGGTGATGCGCGATTTGGGTTGGGCCTGGTTGCCGCGTCACGTCGCCTCGTACCCCACCTACCAAGGCCACTTGCTGGAATTGCGCAGCGACTGGACGCCACCGCCGCTGGTGGTGGAGCTGGTCTGCCGTCGCGACGAGGCGCTGGGGCCGGCGGCGCGCTGGCTGGGCGATGCGCTGGCGCGGCATTTGGGAAGTGAAGGGTGA	MQWNLDQLSAFVAVCEHGSFSAAARDLRRAQSAVSQVVALLEEDLGVRLFERSGGRMPLLTEAGKALHEEARAVLQQCQRLQGRANGLQRGEEARLRLAQDEAMPYQPVLASLEALAHAFPLLEVQLASGAQGDVARKLVERRADLGLLFHHEQMPEALERQRLGTIEMVTVCGAGHPLARVPYADRRTLAQHRQLLMTPQDSHYSGGEQISPLVWRADSFYAMAELVMRDLGWAWLPRHVASYPTYQGHLLELRSDWTPPPLVVELVCRRDEALGPAARWLGDALARHLGSEG				NA	NA	NA	NA	NA
BMS010_04219	1278	waaA_2	COG1519	3-deoxy-D-manno-octulosonic acid transferase	ATGAATCGTCTCCTCTATACCCTGCTGTTTCACCTCGGTTTGCCCCTGATTGCCCTGCGCTTGGCCTGGCGGGCCTGGCGCGCGCCGGCCTATGCGCGGCGCGTCGGCGAGCGGTTTGGCTTCGGCTTGCCGACGGTGTCGGCCGGCGGTATCTGGGTGCATGCGGTGTCGGTGGGGGAGAGCATCGCCGCCGCGCCGATGATCCGCGCCTTGCAGGCGCGCCATCCGGGGCTGCCGATCACCGTCACCTGCATGACCCCGACCGGCTCGGAGCGCATTCGCGCGCTGTTCGGCGACAGCGTTCGGCATTGCTACTTGCCCTATGACCTGCCCTGGGCAGCCGCGCGCTTCCTGGATCAGGTGCAGCCGCGCCTAGCAGTGATCATGGAAACCGAACTGTGGCCCAACCATATCCATGCCTGCGCCCGGCGCGGCATTCCGGTGACTCTGGCGAACGCGCGGCTGTCCGAACGCTCCGCCCGTGGCTATGCGCGCTTCGCCAAGCTGACCGCGCCGATGCTGGCGGAGATGAGCTGGCTGGCGGTGCAGACCGAGGCCGAGGCCGAGCGCTTCCGCCGCCTGGGCGCGCGCCCGGAAGCGGTCAGCGTAACCGGTTCGATCAAGTTCGACCTGACTATCGACCCTGCACTGCTGGAGCGCGCCGCGCGCTTGCGCGAGCAATGGGGGCTGAACGGCAGGCCGGTGTGGATCGCAGCGAGCACCCATGCCGGCGAGGACGAAATCGTCCTGGCGGCCCATAGGCAGGTCCTGCAGCGCCATCCCGAGGCGTTGTTGATCCTGGTGCCGCGCCACCCGGAGCGCTTCAACGGCGTGTTCGAGCTGTGTCGCCGAGAAGGTTTCGCCAGCGAACGGCGCTCGGCCGGCGTGGCGGTGACCGGGCAGACCCAGGTGCTGGTCGGCGACACCATGGGCGAGCTGCTGTTCCTCTATGCGCTGGCCGATCAGGCTTTCGTCGGCGGCAGCCTGGTGCCGAATGGCGGACACAACCTGCTGGAACCGGCCGCCTTGGGCAAGCCGGTATTGAGCGGTCCGCACCTGTTCAACTTCCTCGATATCGCTGCGCAGCTCCGGGACGCTGGCGCGCTGCGCGAGACGGGCGACGCCACGGCATTGGCCGAAGCGCTGCTGCAGCTCTGGGACGAGCCCGCCCGTGCCGAGCGGATGCGCGCCGCCGGCCTGGCGGTTCTCCAAAGCAACCAGGGCGCCCTGCAGCGGCTGCTGGACGGCCTGGGCCGGCTGTTCGCCAAGGACCACTGA	MNRLLYTLLFHLGLPLIALRLAWRAWRAPAYARRVGERFGFGLPTVSAGGIWVHAVSVGESIAAAPMIRALQARHPGLPITVTCMTPTGSERIRALFGDSVRHCYLPYDLPWAAARFLDQVQPRLAVIMETELWPNHIHACARRGIPVTLANARLSERSARGYARFAKLTAPMLAEMSWLAVQTEAEAERFRRLGARPEAVSVTGSIKFDLTIDPALLERAARLREQWGLNGRPVWIAASTHAGEDEIVLAAHRQVLQRHPEALLILVPRHPERFNGVFELCRREGFASERRSAGVAVTGQTQVLVGDTMGELLFLYALADQAFVGGSLVPNGGHNLLEPAALGKPVLSGPHLFNFLDIAAQLRDAGALRETGDATALAEALLQLWDEPARAERMRAAGLAVLQSNQGALQRLLDGLGRLFAKDH	PGPT0022485_1969	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_CORE_OLIGOSACCHARIDE_METABOLISM,PGPT0022485-waaA|kdtA-K02527	NA	NA
BMS010_04220	369			hypothetical protein	GTGCCTACCGTCAAGATCCTCATGTGGAACACTCAGCACCTCAATCACCAGAACGAACGTAAGCCGATGAGCGAGGCGTACGAGGAAAAGCTGGATGCGTTGTTGACCACGCTGGCAACCCTGAAGCCCGAGATCGTCGCGCTCTTCGAAGTGGGTACCACCGGCAATCCCAATCTGCGATTGGTCGACGACCTCAAGGGCGCTTACGAAATGAAGGTGTCGCTGAGCCTGGAGGGCGGTCTGCGCAAGGGCACGACGCTGGGGTCGATGGTGTTCGTCCGCAGCGACATCGCGGCTGACTACTTCGAACCGTTCGAATTGCCCTTGGGTGAGAAGGCCATACGCGCCACACTGCTGCTGAGCGATTAG	MPTVKILMWNTQHLNHQNERKPMSEAYEEKLDALLTTLATLKPEIVALFEVGTTGNPNLRLVDDLKGAYEMKVSLSLEGGLRKGTTLGSMVFVRSDIAADYFEPFELPLGEKAIRATLLLSD				NA	NA	NA	NA	NA
BMS010_04221	546			hypothetical protein	TTGGAGCAGGTCCAGGACGATATCAAGTTGCTGGGCGGCTTCCAGGGCGAGGGCATCAAGCGATTGGTATTCTTCGGCGGCGATCTGAACACCCATGCCAGCGATGCGCCGGAAAGCATCACCTTGCCGGGGCATGACAAGATGTATCGCTGCGAGCCCGGCAATGCAGGTTTCACCCATATCTCCATCCGCAGCTCCGTGGCGCTGGCCAAACAGTTGTATCAGCAGGAGAAGAAGAATTCGCTGGGGCCGATGCAACTGAGCGAGAGCCAGTACGTGAACGCCACGATGGGGACGGATGTCGAGGCCGGCGACATCGCGGTTCCGTCACTGCTGGACTACGCCTATATCCACGAAAGCTGTCAGTGGAAATCGATCTGCCACGCGTCGATATCGGTCAGGACCTGGAGCGATAAGACAAAGAGCTTCGATTCCGTCGGCCAAATAAACTCGAACAAGGTCTATGCCACGGTGCAACGGATCTATCTGGGGAAGGTATTGCGAAGCGATCACTTCCCGGTGGCGTATCGGGTCGGGTACCCGTAA	MEQVQDDIKLLGGFQGEGIKRLVFFGGDLNTHASDAPESITLPGHDKMYRCEPGNAGFTHISIRSSVALAKQLYQQEKKNSLGPMQLSESQYVNATMGTDVEAGDIAVPSLLDYAYIHESCQWKSICHASISVRTWSDKTKSFDSVGQINSNKVYATVQRIYLGKVLRSDHFPVAYRVGYP				NA	NA	NA	NA	NA
BMS010_04222	1440	tolC	COG1538	Outer membrane protein TolC	ATGCTGCGCAGACTCTCCCTGGCTATCGCCATAGCCGCCGCCTCTGCCGGACCGGCCTGGGCAGAAGAAGCCCCCTTGTCAGCCAAGACCGACCTGGTCACTGTCTACCAGGAAGCGGTCGCCAACAACGCCGACCTCGCCGCTGCCCGTGCCAACTACGAGGCCAGCCGCGAAGTCGTGCCGCAGGCACGCGCCGGCCTGCTGCCGAACCTGTCAGCGGGCGCTTCGATGAACGACACCCGCACCGAGCTGGACTCGCCATCGGCCTCGTTCTCGCGCAGCGGAACCGTCTACCAGGCCAACCTGACCCAGCCGATCTTCCGCGCCGACCGCTGGTTCCAGCTGCAGGCCGCCGAAGCCACCAGCGAGCAGGCCGCCCTGGAATTCTCCGCGACCCAGCAGAACCTGATCCTGCAGAGCGCCGAAGCCTACTTCGCCGTACTCCGCGCCCAGGACAACCTGGCTGCCACCAAGGCCGAGGAAGCCGCGTTCAAACGCCAGCTCGACCAGGCCAACGAACGTTTCGATGTCGGTCTCTCGGACAAGACCGACGTGCTCGAGGCCCAGGCCGGCTACGACAGCGCCCGCGCCAACCGCCTGATCGCCCAGCGCCAGGTGGAGGATGCCTTCCAGGCGCTGGTCACCCTGACCAACCGCGACCACGGCTCGCTCGAAGGTATCGTACACACCCTGCCGGTGCTGGCGCCGACCCCGAACGACGCCACCGCCTGGGTGGACACCGCCGCCAAGCAGAACCTCAACCTGCTGGCCAGCAACTACGCGGTCGACGCGGCCGAAGAAACCCTGCGCCAGCGCAAGGCCGGTCACGCACCGACCCTGGACGCAGTGGCCAGCTACCAGAAGGGCGACAACGACGCCATGGGCTTCACCAACAGCCTGGGCAGCAGCACCCGCATCAGCGGCGACGTCGAGCAGCGCACCATCGGCCTGCAGCTCAACATCCCGATCTACAGCGGCGGTCTGACCAGCTCCCAGGTGCGCGAGTCCTACCAGCGCCTGACCCAGTCCGAACAGCAGCGCGAAAGCCTGCGCCGCCAGGTGGTGCAGAACACCCGCGACCTGCACCGCGCGGTGAACACCGACGTCGAACAAGTTCAGGCGCGCCGGCAGACCATCATTTCCAGCCAGAGCGCGCTGGAAGCCACCGAGATCGGCTATCAGGTCGGCACCCGCAACATCGTCGACGTGCTGGACGCCCAGCGTCAGCTCTACAGCTCGGTACGCGACTACAACAACGCGCGCTACGACTACATCCTCAACAACCTGCGCCTGAAGCAGGCCGCCGGCACCCTGAGCCCGGCCGACCTGGAAGACCTGGCCCGTTTCCTCAAGTCGGATTACGACCCGGACAAGGACTTCCTGCCGCCGGACCTGGCCAAGGCCGCCGAGGCCAGCCTGCGTAACAGCCAGGACTATTGA	MLRRLSLAIAIAAASAGPAWAEEAPLSAKTDLVTVYQEAVANNADLAAARANYEASREVVPQARAGLLPNLSAGASMNDTRTELDSPSASFSRSGTVYQANLTQPIFRADRWFQLQAAEATSEQAALEFSATQQNLILQSAEAYFAVLRAQDNLAATKAEEAAFKRQLDQANERFDVGLSDKTDVLEAQAGYDSARANRLIAQRQVEDAFQALVTLTNRDHGSLEGIVHTLPVLAPTPNDATAWVDTAAKQNLNLLASNYAVDAAEETLRQRKAGHAPTLDAVASYQKGDNDAMGFTNSLGSSTRISGDVEQRTIGLQLNIPIYSGGLTSSQVRESYQRLTQSEQQRESLRRQVVQNTRDLHRAVNTDVEQVQARRQTIISSQSALEATEIGYQVGTRNIVDVLDAQRQLYSSVRDYNNARYDYILNNLRLKQAAGTLSPADLEDLARFLKSDYDPDKDFLPPDLAKAAEASLRNSQDY	PGPT0003600_1446	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-AlgE-TYPE_MANNURONAN_C-5-EPIMERASE_TRANSPORT,PGPT0003600-tolC-K12340	NA	NA
BMS010_04224	1884	thiC_1	COG0422	Phosphomethylpyrimidine synthase	ATGAGTGCACAACAACAAAAGAATCTGAGCGAAAGCGCCCAGGTCGACCAGCAGTCCGTCCAACCCTTCCCGCGTTCGCAGAAAATCTATGTCCAGGGCTCGCGCCCGGACATCCGCGTGCCGATGCGCGAGATCAGCCTGGACGTCACCCCCACCGACTTCGGTGGCGAGATCAACGCGCCGGTCACCGTTTACGACACCTCCGGCCCCTATACCGACCCCAACGTGCAGATCGATGTGCGCAAGGGCCTGGCCGATGTGCGCAGTGCCTGGATCGAGGATCGCGGCGACACCGAGAAGCTGCCGGGGCTGTCCTCGGAATTCGGCCAGCGCCGCCTGAACGACGCCGAGCTGACCGCCATGCGTTTCGCCCACGTACGCAACCCGCGCAGGGCCAAGGCCGGGCACAACGTCAGCCAGATGCACTATGCCAAGAAGGGCATCATCACCCCCGAGATGGAATTCGTCGCCATCCGCGAAAACATGAAACTGGCCGAGGCGCGCGAAGCCGGCCTGCTCGACGAACAGCACGCCGGCCATAGCTTCGGCGCCGCCATCCCCAAAGAAATCACTCCCGAATTCGTTCGCCAGGAAGTGGCCCGCGGTCGCGCGATCATTCCGGCCAACATCAACCACGTGGAGCTGGAGCCGATGATCATCGGCCGCAACTTCCTGGTGAAGATCAACGGCAATATCGGCAACAGCGCCCTGGGCTCCTCGATCGAGGAAGAAGTGGCCAAGCTGACCTGGGGCATCCGCTGGGGCTCGGACACGGTAATGGACCTGTCCACCGGCAAGCACATCCATGAAACCCGCGAGTGGATCATCCGCAACTCGCCGGTGCCGATCGGCACCGTGCCGATCTACCAGGCACTGGAAAAGGTCGGCGGCATCGCCGAGGACCTGACCTGGGAGCTGTTCCGCGACACCCTCATCGAGCAGGCCGAGCAGGGCGTGGACTACTTCACCATCCACGCCGGCGTGCTGCTGCGCTATGTACCGCTGACCGCCAAGCGGGTCACCGGCATCGTCTCGCGCGGCGGCTCGATCATGGCCAAGTGGTGCCTGGCGCATCACAAGGAAAACTTCCTGTACACCCATTTCGAAGATATCTGCGAAATCATGAAGGCCTACGACGTCAGCTTCTCGCTGGGCGATGGCCTGCGTCCCGGCTCGATCGCTGACGCCAACGACGCCGCTCAGTTCGGCGAGCTGGAGACCCTCGGCGAGCTGACCAAGATCGCCTGGAAGCATGACGTGCAGACCATGATCGAAGGCCCCGGTCACGTGCCGATGCAACTGATCAAGGAAAACATGGACAAGCAGCTCGAGTGCTGCGACGAGGCGCCGTTCTACACCCTCGGCCCGCTGACCACCGACATCGCTCCTGGCTACGACCACATCACCTCGGGCATCGGTGCGGCGATGATCGGTTGGTTCGGTTGCGCCATGCTCTGCTACGTTACGCCCAAGGAGCACCTCGGCCTGCCGAACAAGGACGACGTGAAGACCGGCATCATCACCTACAAGATCGCCGCCCACGCCGCCGACCTTGCAAAAGGCCATCCGGGCGCGCAGATTCGCGATAACGCGCTGTCCAAGGCGCGCTTCGAGTTCCGCTGGGAAGACCAGTTCAACCTGGGCCTGGACCCGGACACCGCGCGCGCCTTCCACGACGAAACGCTGCCGAAGGATTCGGCCAAGGTGGCGCATTTCTGCTCCATGTGCGGTCCCAAGTTCTGCTCGATGAAGATCACCCAGGAAGTGCGCGACTATGCTAAAGAACAGCGTATCGACACGGTCGATCTGAATGTCGAGGAGGGGCTCAAGAGCAAAGCCGAGGAATTCAAGGCGCAGGGAGCGCAGCTCTATCACAAGGTGTGA	MSAQQQKNLSESAQVDQQSVQPFPRSQKIYVQGSRPDIRVPMREISLDVTPTDFGGEINAPVTVYDTSGPYTDPNVQIDVRKGLADVRSAWIEDRGDTEKLPGLSSEFGQRRLNDAELTAMRFAHVRNPRRAKAGHNVSQMHYAKKGIITPEMEFVAIRENMKLAEAREAGLLDEQHAGHSFGAAIPKEITPEFVRQEVARGRAIIPANINHVELEPMIIGRNFLVKINGNIGNSALGSSIEEEVAKLTWGIRWGSDTVMDLSTGKHIHETREWIIRNSPVPIGTVPIYQALEKVGGIAEDLTWELFRDTLIEQAEQGVDYFTIHAGVLLRYVPLTAKRVTGIVSRGGSIMAKWCLAHHKENFLYTHFEDICEIMKAYDVSFSLGDGLRPGSIADANDAAQFGELETLGELTKIAWKHDVQTMIEGPGHVPMQLIKENMDKQLECCDEAPFYTLGPLTTDIAPGYDHITSGIGAAMIGWFGCAMLCYVTPKEHLGLPNKDDVKTGIITYKIAAHAADLAKGHPGAQIRDNALSKARFEFRWEDQFNLGLDPDTARAFHDETLPKDSAKVAHFCSMCGPKFCSMKITQEVRDYAKEQRIDTVDLNVEEGLKSKAEEFKAQGAQLYHKV	PGPT0008905_1259	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BACIMETHRIN|CF3-HMP_DETOXIFICATION,PGPT0008905-thiC-K03147	NA	NA
BMS010_04225	612	nudF		ADP-ribose pyrophosphatase	ATGGCGGAGCGGATGGAACATCCGGATGTCGAGATCATCCAGCGCGAGTCCTGTTTCCAGGGCTTCTACAGGCTCGATCGCCTGCATTTGCGCCATCGCCAGTTCGCCGGGGGCATGGGGCCGGTGCTCAGTCGCGAGCTGTTCGTGCGGCACGATGCGGTCTGCGTGCTGCCCTACGATCCGCAGCGCGATTGCGTCGTGCTGATCGAACAATTCCGGGTCGGCGCCATGCAGAAGTGCAGCAACCCCTGGTTGCTCGAACTGGTCGCCGGCCTGATCGACAAGGCCGAGGAGCCGGAAGAGGTGGCTCACCGCGAAGCTGCCGAAGAGGCGGGGCTGACGCTCAGCTCGCTGTGGCCGATCACTACTTATTTCCCATCGCCGGGCGGCAGCGACGAACGCGTGTTCCTGTTCCTCGGCCGCTGCGACAGCGAGGGTGCCGGCGGCATCCACGGGCTGCCGGAGGAGGGCGAGGACATCAAGGTCCATGTCTGGCCGCTGGAGGACGCCTTGCAAGCGGTGAAAGATGGGCGGATCAGCAATGCCGCCAGCATCATCGCCTTGCAGTGGCTGGCGCTGAACCGCGCCGAAGTGCGAGGGCTGTGGTCGTGA	MAERMEHPDVEIIQRESCFQGFYRLDRLHLRHRQFAGGMGPVLSRELFVRHDAVCVLPYDPQRDCVVLIEQFRVGAMQKCSNPWLLELVAGLIDKAEEPEEVAHREAAEEAGLTLSSLWPITTYFPSPGGSDERVFLFLGRCDSEGAGGIHGLPEEGEDIKVHVWPLEDALQAVKDGRISNAASIIALQWLALNRAEVRGLWS	PGPT0021525_1379	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021525-nudF-K01515	NA	NA
BMS010_04226	447			hypothetical protein	GTGAATCTGCTGCGCGAGCGCTACCGGGTCGATCTGGTCGAGCTCCAGGCCGCCTGCGAAGCCAACTATGCCCGGCTGATGCGTCTGCTGCCGGAAATGCGCGACGGGCCGGGATCGCGGCGCGTGGCGCTGAGCCAGGGTGAATATCTGCTCGGCGTGCTGGCGCTGGACGTGGTGGAAACCTGCCCTTACACCACCACGCTGCAGGTTCGCCAGGAACACAGCCTGCCCTGGCTGCCGGTGCCGCGGATGGAGGTGCGGGTCTATCACGATGCGCGCATGGCCGAAGTGATCAGCGCGGAAAACGCGCGGCGCTTCCGCAGCATCTACGCCTACCCCAACGCCGCGATGCACCAGCCGGACGAGAAGTCGCAGCTCAACCTGTTCCTGGGCGAATGGCTCAGCCACTGCCTCGCCTGTGGCCATGAACTGGTTCCTGTGCTCTGA	MNLLRERYRVDLVELQAACEANYARLMRLLPEMRDGPGSRRVALSQGEYLLGVLALDVVETCPYTTTLQVRQEHSLPWLPVPRMEVRVYHDARMAEVISAENARRFRSIYAYPNAAMHQPDEKSQLNLFLGEWLSHCLACGHELVPVL				NA	NA	NA	NA	NA
BMS010_04227	816	cpdA_4	COG1409	3',5'-cyclic adenosine monophosphate phosphodiesterase CpdA	TTGCCGAGCGCGTCCACTTTCGCTGCTGATTCGTCGGTACTGCTGGTGCAGCTATCCGACAGTCATTTATTCGCCACGGCCGATGGCAAGCTCCTGGGCATGGATACCCAGGACAGCCTGCAGCGGGTGATAGAACGTGTTCTCAGCGAACAGCCGCAGATCGACCTGGTACTGGCCAGCGGGGATTTGTCGCAGGATGGCTCGCTGGAGTCCTACGAACATTTCCGTGAGCTGACGGCGCAGATTCCGGCCCCGGCGCGCTGGTTCCCCGGCAACCACGACGAACTGCCGAGCATGCGCGAGGCCTGTGCTGGCAGCGAGCTGCTGGAGCCGGTCGTCGATCTTGGCGCCTGGCGCATCATTCTCCTCGACTCTTCCATTCCCGGCGCGGTGCCGGGGCATCTGGGCGATGAGCAACTGGCGCTGCTCGACCGGGCCCTGGGCGAGGCGCCCGAGCGCCATCACCTGGTGTGCTTCCATCATCATCCGGTGCCGGTCGGTTGCCGCTGGCTGGACCCGATCGGCGTGTGCAATCCGGATGCGCTGTTCGCCGTGCTCGACCGTCACCCGCAGGTGCGGGCGGTGCTCTGGGGGCACGTCCACCAGGAATACGACCAAGTGCGCAAGGGCGTGCGACTGCTGGCATCGCCGTCCACCTGCGTCCAGTTCGCCCCCGGTAGCGAAGAGTTCCGGGTCGACAAGGAGCCGCCGGGATACCGCTGGTTGCGGCTATTCGGCGACGGGCGGCTGGAGACCGGCGTTTCCCGTGTCACCGGCATCGATTTCGAGATCGACTACAGCATCAAGGGATATTGA	MPSASTFAADSSVLLVQLSDSHLFATADGKLLGMDTQDSLQRVIERVLSEQPQIDLVLASGDLSQDGSLESYEHFRELTAQIPAPARWFPGNHDELPSMREACAGSELLEPVVDLGAWRIILLDSSIPGAVPGHLGDEQLALLDRALGEAPERHHLVCFHHHPVPVGCRWLDPIGVCNPDALFAVLDRHPQVRAVLWGHVHQEYDQVRKGVRLLASPSTCVQFAPGSEEFRVDKEPPGYRWLRLFGDGRLETGVSRVTGIDFEIDYSIKGY	PGPT0021595_1889	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|VFR_SIGNALLING_PATHWAY,PGPT0021595-cpdA-K03651	NA	NA
BMS010_04228	621			hypothetical protein	ATGTCCGACGTCACGCCTTCGATTCTCTATCTCCACGGCCTCAACAGCTCGCCGGCCTCGCTCAAGGCCAGCCAGTTGCTGCGTGCCATGCAGATGCTCGGTCTGGCCGAGCACCAGCGGGTGCCGGCGTTGCCGCACCATCCTCGCCAGGCCATCGCCCTGCTCGAGGAACTGATCGGCGAGCTGGGCCGGCCGGTGCTGGTCGGCAGTTCCCTGGGCGGCTACTATGCCACCCACCTGGCCGAACGCCATGGCTTGAAGGCGTTGCTGATCAACCCGGCGGTGAACCCGCACCGCTTGTTCGACGGCCATCTCGGGCCGCAGACGAACTACTACAGCGGCGAGACCTGGGAGCTGACGAAGGATCACGTGGACGCCCTCGCCGAGCTGGAAATGGCGCCGCCGAACGATCCGATGCGCTACCAGGTATGGCTGCAGACGGCCGATGAAACGCTGGATTACCGTCAGGCGGAAGCCTTCTACAGGGGATGCGCCCTGCGTATCCAGGCCGGGGGCGACCATGGCTTCCAGGGGTTCGCCGAGCGCCTGCCGGCACTCCTGGCGTTCGCCGGCTTCGCTCCCCAGCTCTGGAACGATTTCGACTTTTCCACTCTGAACTGA	MSDVTPSILYLHGLNSSPASLKASQLLRAMQMLGLAEHQRVPALPHHPRQAIALLEELIGELGRPVLVGSSLGGYYATHLAERHGLKALLINPAVNPHRLFDGHLGPQTNYYSGETWELTKDHVDALAELEMAPPNDPMRYQVWLQTADETLDYRQAEAFYRGCALRIQAGGDHGFQGFAERLPALLAFAGFAPQLWNDFDFSTLN				NA	NA	NA	NA	NA
BMS010_04229	1890	parE	COG0187	DNA topoisomerase 4 subunit B	ATGGCCAGTTACAACGCAGACGCCATCGAAGTCCTTTCCGGCCTCGACCCGGTGCGCAAGCGCCCGGGCATGTACACCGACACCACGCGCCCCAACCACCTGGCCCAGGAAGTCATCGACAACAGCGTCGACGAGGCCCTGGCCGGCCACGCCAAGTCGGTGCAGGTGATTCTTCACGAAGACAATTCCCTGGAAGTGATCGACGACGGGCGCGGCATGCCGGTCGATATCCACCCGGAAGAGGGTGTGCCGGGGGTCGAGCTGATCCTCACCAAGCTGCATGCCGGCGGCAAGTTCTCCAACAAGAACTACCAGTTCTCCGGTGGTCTGCATGGTGTCGGTATCTCGGTGGTCAACGCCCTTTCGACCCGCGTCGAGGTTCGCGTCAAGCGTGACGGCAACGAATACCGCATGACCTTCGCCGACGGTTTCAAGGCCAGCGAGCTGGAAGTGATCGGCACCGTGGGCAAGCGCAACACCGGGACCAGCGTGCACTTCTGGCCGGACGCCAAGTATTTCGATTCGCACAAGTTTTCCATCAGCCGGCTCAAGCACGTGCTTAAGGCCAAGGCAGTGCTGTGTCCCGGCCTCGCCGTCAGCTTCGAGGACAAGGCCAGCGGCGAGAAGGTCGAGTGGCACTACGAGGATGGCCTACGTTCCTACCTCGTTGACGCGGTGAGCGAGTATCCGCGCCTGCCCGACGAGCCGTTCTGCGGCAGTCTGGCCGGCAGCAAGGAAGCAGTGGACTGGGCCCTCCTGTGGCTGCCGGAAGGCGGCGAGAGCGTGCAGGAAAGCTACGTCAACCTGATTCCCACCGCCCAGGGCGGCACCCACGTCAATGGTCTGCGCCAGGGCCTGCTCGATGCGATGCGCGAGTTCTGCGAATTCCGCAACTTGTTGCCGCGCGGCGTGAAGCTGGCGCCGGAAGACGTCTGGGAGCGGATCGCCTTCGTGCTCTCGATGAAGATGCAGGAGCCGCAATTCTCCGGGCAGACCAAGGAGCGTTTGTCTTCCCGCGAAGCGGCGGCGTTCGTCTCCGGCGTGGTGAAGGATGCCTTCAGTCTCTGGCTCAATGCGCACCCGGAGCTTGGCCTGCAATTGGCGGAGCTGGCTATCAGCAACGCCGGCCGACGCCTCAAGGCGGGCAAGAAGGTGGAGCGCAAGAAAATCACCCAGGGCCCGGCGTTGCCCGGCAAGCTGGCGGATTGCGCCGGCCAGGACCCGATGCGCTCCGAGCTATTCCTGGTCGAGGGCGATTCGGCTGGTGGCTCGGCCAAGCAGGCGCGCGACAAGGAGTTCCAGGCGATCATGCCGCTGCGTGGAAAAATCCTGAACACCTGGGAAGTGGACGGCGGCGAAGTGCTCGCCAGCCAGGAAGTGCATGACATCGCCGTGGCCATCGGCATCGATCCGGGATCGTCCGACCTGAGCCAACTGCGCTACGGCAAGATCTGCATCCTCGCCGACGCCGACTCCGACGGCCTGCACATCGCCACCTTGCTGTGCGCGCTGTTCGTCCGTCATTTCCGCCCGCTGGTGGACGCCGGGCATGTGTACGTCGCCATGCCGCCGCTGTACCGCATCGACCTCGGCAAGGACATCTACTACGCGCTGGACGAAGCGGAGCGTGACGGCATTCTCGAGCGCCTGACCGCCGAGAAGAAGCGCGGCAAGCCGCAGGTGACCCGCTTCAAGGGGCTTGGCGAGATGAACCCGTTGCAACTGCGCGAGACCACCATGGACCCGAACACGCGGCGTCTGGTGCAGTTGACCCTGGACGATTTCGAAGTGACCAGCGAGATCATGGACATGCTGCTGGCGAAGAAGCGTGCCAGCGACCGCAAGGCCTGGCTGGAATCGAAGGGCAACCTGGCCGAGGTGCTGATTTGA	MASYNADAIEVLSGLDPVRKRPGMYTDTTRPNHLAQEVIDNSVDEALAGHAKSVQVILHEDNSLEVIDDGRGMPVDIHPEEGVPGVELILTKLHAGGKFSNKNYQFSGGLHGVGISVVNALSTRVEVRVKRDGNEYRMTFADGFKASELEVIGTVGKRNTGTSVHFWPDAKYFDSHKFSISRLKHVLKAKAVLCPGLAVSFEDKASGEKVEWHYEDGLRSYLVDAVSEYPRLPDEPFCGSLAGSKEAVDWALLWLPEGGESVQESYVNLIPTAQGGTHVNGLRQGLLDAMREFCEFRNLLPRGVKLAPEDVWERIAFVLSMKMQEPQFSGQTKERLSSREAAAFVSGVVKDAFSLWLNAHPELGLQLAELAISNAGRRLKAGKKVERKKITQGPALPGKLADCAGQDPMRSELFLVEGDSAGGSAKQARDKEFQAIMPLRGKILNTWEVDGGEVLASQEVHDIAVAIGIDPGSSDLSQLRYGKICILADADSDGLHIATLLCALFVRHFRPLVDAGHVYVAMPPLYRIDLGKDIYYALDEAERDGILERLTAEKKRGKPQVTRFKGLGEMNPLQLRETTMDPNTRRLVQLTLDDFEVTSEIMDMLLAKKRASDRKAWLESKGNLAEVLI	PGPT0027710_2523	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0027710-parE-K02622	NA	NA
BMS010_04230	984			hypothetical protein	ATGCGGCGCCTGCTGTTCGCCTGCGTCTTTCTCAGCGCCAGCGCCGCCGCCGAACCGCCCGTGGAGCCGCTCAAGCTGCTCACCGAGCATCCGGTGGAAGGCATGCGCGGCGGCAACCTGTCCGGCCTGGCCTGGTGTGGCGATGGGCTTTGGGCGGTTTCCGACCGCGATGACGATCGGCTCTACCGGCTGACTCCGGCCCAGGGCGAGCTTCACGCCGAGGCCGAGACGTTCGTTGCTCCCGAGCGGCCCGACAGCGGCCTGCCCTGGGGATTGCGCATGCGCAGTTGGGTGATGGGCAAGGTGCGTGGCGGCGACATGGATTTCGAAGGGTTGTCCTGCGACGCGATGGGTAACCGCTACCTGGTCAGCGAGGCCCATGCCGGCGTACTGCAGATCCCGCCGGCAGGCGAGCCGCAGTGGCTTGGTCTGCCGGAGAGCCTGGTGCGACAGGCACGTGCTAGCGGCATGCTGTTGCACTTCAATGCGCTGTTCGAGGGCATCGCAGTGGACCCGGCCGGCGAACGCCTTTGGCTGGCGGCCGAACGGGAACGCCGTGGGTTGGTGGTCATGCACCGGCAGCGCAGTCTGTGGAAGTGTACCGGTGGCTGCGTGCTGCTCAGCGAAGGTGGTATGGAGCTGCCGCCGGCACCGCTGGAAAGCAACGAGCCGTTGCCACGGGATTTCTCCGGGTTGGCCTTCTTCAACGAAAAACTTTTCACCCTGGAACGTCTGGTCCACCGCATCTGCCGGCGCAAGCCGAGCAACGGCGAGGTGGAACGCTGCTGGTCGTTTGCCGACGAGGCGTTGACCCCGGAGCGGCGCTACGACCAGCCCTATGGCATGGCGGAAGCCCTGTGGATCGACGAAGAAGGCGCCTGGATCGGCGTCGACAACGGCGGTCATGCCCGCGGCGACGGCGAAAGCCGGCCGATCGTCTGGCGTTTTGCCGCGCCCAAGGGCGGTTGGGGGAACGCTCGTTGA	MRRLLFACVFLSASAAAEPPVEPLKLLTEHPVEGMRGGNLSGLAWCGDGLWAVSDRDDDRLYRLTPAQGELHAEAETFVAPERPDSGLPWGLRMRSWVMGKVRGGDMDFEGLSCDAMGNRYLVSEAHAGVLQIPPAGEPQWLGLPESLVRQARASGMLLHFNALFEGIAVDPAGERLWLAAERERRGLVVMHRQRSLWKCTGGCVLLSEGGMELPPAPLESNEPLPRDFSGLAFFNEKLFTLERLVHRICRRKPSNGEVERCWSFADEALTPERRYDQPYGMAEALWIDEEGAWIGVDNGGHARGDGESRPIVWRFAAPKGGWGNAR				NA	NA	NA	NA	NA
BMS010_04231	486			hypothetical protein	ATGCTGGTGCTCGCCTGGGGCGCTGCGCTGCTGCTGGCCACCCGTTTCTTCGGCGAGTGGGAGGATGCCAAGCGCAATCCCAACCAGGCGCCGGAGTCCCGGCATGGCGACAGCTTCATCGAGGTGCGACTGGCCAGCGATGGCCGGGGGCATTTCGTCGCCAGCGGCGAGATCGATGGCCGGCCCGTGGAGTTCATGCTCGATACCGGCGCCACTGACGTGGCGGTTCCGGGCGAGCTGGCGAAACGACTTGGCCTCGCGCGCGGCGCGCCGATCACGGTGCTGACCGCCAATGGCCGCGGGACCGGTTTCCGAACCCGCCTGGCAGAACTGCAATTGGGCGACATCCGTCTTCACGACGTACGTGCCCTGATCGTTCCCGGTATGGACGGCGAACAGGTGCTGCTCGGCATGAGCGCCCTGAAACAACTCGAATTCACCCAGCGCGACGGCACCCTGGTGCTGCGCCATTACACGGAAAACTAG	MLVLAWGAALLLATRFFGEWEDAKRNPNQAPESRHGDSFIEVRLASDGRGHFVASGEIDGRPVEFMLDTGATDVAVPGELAKRLGLARGAPITVLTANGRGTGFRTRLAELQLGDIRLHDVRALIVPGMDGEQVLLGMSALKQLEFTQRDGTLVLRHYTEN	PGPT0015885_881	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-PILUS|FIMBRIAE_SYSTEM	MOTILITY-PILUS_SYSTEM,PGPT0015885-perP-K06985	NA	NA
BMS010_04232	2259	parC_2	COG0188	DNA topoisomerase 4 subunit A	ATGAGCGAATCCCTCGACCTGAGCCTGGAAGGCGTGGAGCGCCGCTCCCTCGCCGATTTCACCGAGCAGGCCTATCTCAACTACTCCATGTACGTGATCATGGACCGCGCCCTGCCGCATATCGGCGACGGCCTGAAACCGGTACAGCGGCGCATCGTCTACGCCATGAGCGAGCTGGGACTGGATGCCGACGCCAAGCACAAGAAATCGGCGCGTACCGTCGGCGACGTGCTCGGCAAATTCCATCCGCATGGCGACAGCGCCTGCTACGAAGCGATGGTGCTGATGGCCCAGCCGTTCAGCTACCGCTATCCGCTGGTCGACGGCCAGGGCAACTGGGGTGCGCCGGACGATCCCAAGTCCTTCGCCGCCATGCGTTATACCGAAGCCCGCCTGTCGCGCTATTCCGAAGTGCTGCTCAGCGAACTGGGGCAGGGCACGGCGGACTGGATTCCCAACTTCGACGGCACCCTGAACGAGCCGGCGGTGCTGCCGGCGCGCCTGCCCAACCTACTGCTCAACGGCACCACCGGGATCGCCGTGGGCATGGCCACCGACGTGCCGCCGCACAACCTGCGGGAAGTGGCTGCCGCCTGCGTCCGCCTGCTCGACGAGCCGAACGCCAGCGTGGAGCAGCTCTGTGAGCACATGCCCGGCCCGGATTTCCCCACCGAGGCGGAGATCGTTACGCCGCGCGCCGAACTGCTGAAACTCTACGAGACCGGCCGCGGCTCGGTACGCATGCGCGCGGTGTACCGCGTCGAGGATGGCGATATCGTCATCACCGCATTGCCGCACCAGATTTCCGGTGCCAAGGTGCTGGAGCAGATTGCCGGGCAGATGCAGGCGAAGAAGCTGCCGATGGTCGCCGACCTGCGCGACGAATCGGACCACGAGAACCCGACGCGCATCGTGATCATCCCACGCTCCAACCGGGTCAATGCCGAGGAGCTGATGCAGCACCTCTTCGCCACCACCGACCTGGAGTCCAGCTACCGGGTCAACATCAACATCATCGGCCTCGATGGCAAACCGCAGGTGAAGAACCTGCGCATGCTGCTGGGCGAGTGGCTGACCTTCCGCATCGGGACGGTGCGCCGGCGCCTGCAATTCCGCCTGGACAAGGTGGAAAAGCGCCTGCACCTGTTGGAAGGTTTGCTGATCGCGTTCCTCAACATCGACGAAGTGATCCGCATCATCCGCACCGAGGACCAGCCCAAGCCGGTGCTGATGGAGCGTTTTGGCCTCACCGACGTGCAGGCCGACTACATCCTCGACACCCGACTGCGCCAACTGGCCCGGCTGGAAGAAATGAAGATTCGCGGCGAACAGGACGAACTGGCCAAGGAGCGCGACAATCTTCTGGCGTTGCTCGGCAGCGAGACCAAGCTGCGCAAGCTGGTGCGCAAGGAGTTGATCGAAGACGCCGAGACCTACGGCGACGCCCGCCGTTCGCCGCTGGTCGAGCGCACGGAGGCACGTGCCCTGTCGGAAACCGAGCTGATGCCCACCGAGCCGGTCACCGTGGTGCTGTCGGAGAAGGGTTGGGTGCGTTGCGCCAAGGGCCACGACATCGATGCGACCGGCCTTTCCTACAAGGCCGGCGATGGCTTCAAGGCGGCCGCACCGGGTCGCTCCAATCAATTCGCGGTATTCATCGATTCGTCCGGGCGCAGCTACTCGCTTGCCGCCCATTCGCTGCCATCGGCGCGGGGGCAGGGCGAGCCGCTGACCGGACGGTTGGCACCTCCGCCTGGCGCGAGTTTTGAATGCGTTTTGTTGCCTGAGGACGAAGCGCTGTACGTGATCGCCTCGGATGCCGGCTACGGCTTCGTCGTCAAGGGCGAGGACCTGCAGGCCAAGAACAAGGCCGGGAAGACCCTGCTCAGCCTGCCGACGGGTGCCAAGGTGGTCCCGCCGCAGCCGGTCGGGAATATCGAGGAAGATTGGCTGGCGGCCGTGACCACTGAGGGCCGTCTGCTATTGTTCAAGGTCTCCGACCTGCCGCAGCTGGCCAAGGGCAAGGGTAATAAGATCATCGGGATTCCGGGTGATCGGGTGGCGAGTCGCGAGGAGTATCTGACCGATCTGGCAGTGTTGCCGGCTGGCGCTACCCTGGTGCTGCAAGCGGGTAAACGCACGTTGTCGCTCAAATCGGATGATCTGGAGCATTACAAAGGTGAGCGCGGACGCCGTGGCAACAAGTTGCCGCGTGGCTTCCAGCGGGTCGATGGGCTGCAGGTTGAAACCGTGGGTTGA	MSESLDLSLEGVERRSLADFTEQAYLNYSMYVIMDRALPHIGDGLKPVQRRIVYAMSELGLDADAKHKKSARTVGDVLGKFHPHGDSACYEAMVLMAQPFSYRYPLVDGQGNWGAPDDPKSFAAMRYTEARLSRYSEVLLSELGQGTADWIPNFDGTLNEPAVLPARLPNLLLNGTTGIAVGMATDVPPHNLREVAAACVRLLDEPNASVEQLCEHMPGPDFPTEAEIVTPRAELLKLYETGRGSVRMRAVYRVEDGDIVITALPHQISGAKVLEQIAGQMQAKKLPMVADLRDESDHENPTRIVIIPRSNRVNAEELMQHLFATTDLESSYRVNINIIGLDGKPQVKNLRMLLGEWLTFRIGTVRRRLQFRLDKVEKRLHLLEGLLIAFLNIDEVIRIIRTEDQPKPVLMERFGLTDVQADYILDTRLRQLARLEEMKIRGEQDELAKERDNLLALLGSETKLRKLVRKELIEDAETYGDARRSPLVERTEARALSETELMPTEPVTVVLSEKGWVRCAKGHDIDATGLSYKAGDGFKAAAPGRSNQFAVFIDSSGRSYSLAAHSLPSARGQGEPLTGRLAPPPGASFECVLLPEDEALYVIASDAGYGFVVKGEDLQAKNKAGKTLLSLPTGAKVVPPQPVGNIEEDWLAAVTTEGRLLLFKVSDLPQLAKGKGNKIIGIPGDRVASREEYLTDLAVLPAGATLVLQAGKRTLSLKSDDLEHYKGERGRRGNKLPRGFQRVDGLQVETVG	PGPT0027705_2361	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0027705-parC-K02621	NA	NA
BMS010_04233	714			hypothetical protein	GTGGTGCGTTTTGCTCATGGTGTATTGCTGGCCGGACTGATTGGCCTGACCGGCTGTACCGCTTTTCAACCGGTACCGCTTTATCAACTGGACAGCGGGAACCCCCACGTTCCCGAGCAGAAAAGCGGCCCGGCCGTGCTGCTGGGGCCGGTAGAGATTGCCGACTATCTGAACTGCGACCTGCTGCTGCAACGCCAGACCGATGGCAGTCTGACTGCAGCCAGACGTGCGCGCTGGGCCGGCAATCTGCCGAACGATATCGACCAACTGCTGCTGCGCCAGCTTGCCGGCCGTCTGGACAGCCAGCGTCTGGCCCTGGCACCCGCCGCGCCGGGCTTCACGCCCGAAGTGCAGGTGCAGCTTTCCATTACCCGGCTGGACTCCGGTCCGAAACAGCCTGCCGTGCTGGAAGCGCAGTGGCGTCTGCTGGACAAGCGTGGGCAACTGCGTGACACCCGTCTGGTTCGCCTGGAGGAGCCGCACCAGGGAGCGCCTGCGGATCAGGTGAAGGCCCAGAGTCTGGTGCTGCAGCGTCTTGCCGAGCAGCTTGCCTCCGCCATTCAACCGCTGGCGGCAGCCGAGGCCGAGGCGGCAGCGGCCGAAGAGGCGCGCAAGAATGCGGCGACCCGCACGCCGAAGAAGGTCGAGCCGACAAAGCCGCAGATTCCCATTCCGTCGCCGGTCCGGACGGACGTGGAAATCTACCGCTTCTGA	MVRFAHGVLLAGLIGLTGCTAFQPVPLYQLDSGNPHVPEQKSGPAVLLGPVEIADYLNCDLLLQRQTDGSLTAARRARWAGNLPNDIDQLLLRQLAGRLDSQRLALAPAAPGFTPEVQVQLSITRLDSGPKQPAVLEAQWRLLDKRGQLRDTRLVRLEEPHQGAPADQVKAQSLVLQRLAEQLASAIQPLAAAEAEAAAAEEARKNAATRTPKKVEPTKPQIPIPSPVRTDVEIYRF				NA	NA	NA	NA	NA
BMS010_04234	549	ybcI	COG1988	Inner membrane protein YbcI	ATGACCACGCTGATCACCCATCCGATCCCCATCCTGGCCCTCGGTGCCGCACTCGGCAGCCGGGTCGTTTCTCCGCGACTGGTGCTGGCCGGTATGCTTTTCGCTTGCCTGCCGGATGCCGATGTCCTGGCCTTCAAGTTCGGCATCGCTTATGCCGACGCCTTTGGTCATCGTGGTTTCAGTCATTCGCTGTTGTTCGCGATTTTTTGCGGCATTTTCGCGGCACTCTGCTGCCGCTGGCTCGATAGCGGACCGCTCAAGGCGGGGCTGTGGATAACCCTGGCCACCGCCTCCCACGGTTTGCTCGATGCCCTGACCAACGGAGGGCTTGGCGTGGCCTGGCTATGGCCTTGGAGCGAGCAACGCTATTTCCTGCCCTGGCGCCCCATTGAGGTATCGCCGTTCCTCTCCGGCTTCTTCAGCCCGCGCGGGCTTTCCGTCCTGCTCTCGGAGGCGCGCTGGGTCTGGCTACCTTCATTGGCGATCGCAACGACTGGCCTGGCGATGCGCCTGGCCTGGCGACGACGTGCCATGGTGGCGGCAGGCTGA	MTTLITHPIPILALGAALGSRVVSPRLVLAGMLFACLPDADVLAFKFGIAYADAFGHRGFSHSLLFAIFCGIFAALCCRWLDSGPLKAGLWITLATASHGLLDALTNGGLGVAWLWPWSEQRYFLPWRPIEVSPFLSGFFSPRGLSVLLSEARWVWLPSLAIATTGLAMRLAWRRRAMVAAG				NA	NA	NA	NA	NA
BMS010_04235	1491			hypothetical protein	GTGAACCGGCCCGCGCCCGTCAAGCCCGACAATTTTTTCCTGTTGATCTTCCACGCCCTGCGCCAGCGCCGTGTGCCCATCGCCCTGCGCATCGCCAGCCACAGCCTGCTGCTCGTCGCCCTGGCCCTGCTCATCTACGCCTGGGTCATGGGCATGCAGTTCAAGCAAGCCATGCAGCAGCAGGCGGACGCCCTGGGCCAGAGCCTGATCACCCAGACCGCCAGTTCCGCCACCGAACTGCTGGTGTCCAACGACATCCTCAGTCTCAACGTGCTGCTCAACAATCTGGTGAAGAACCCGCTGGTGGCCCACGCGGCAATCTATAGCGTGGACAACCGCATCCTCGCCGAAGCCGGTGCGCGTCCCAGCAAAGGGTTGCTGGGCGAGGCCGAAGGGCTCTATTCGACCCCCATCACGTTCCAGGAAGTGATCGCCGGGCACCTGCGCATCAGCCTGGACATGCAGCAATTCCAGCAGCCGATGACCATCAGCCTGCAAAGCATGGGGCTGCTCAGCCTCATCCTGCTGGCCCTTACCCTCTCGCTCAGCCTGCGCCTCGGCCGGCACATCTCCACCCCGCTGCTGCAACTGCGTCTGTGGCTGCGCGACCCCGACGATCCTGCCCCGGGCGCCGGCCGCCAGGATGAAATCGGCGACCTCGCCCGTCAGTTGCAGGCGCGCCTGGTACCGGAAAAACCGGAGCCAGTCGAGGAAGACGACTACGTCGAAGAAGACGAACACCTCTTTGAAGAAGACGACGAGCCGTTGTTCGACGAACACGACGACCACCCCATGGACTTGGCCGACGACGAGCCGCTCCCCGCGCAAGACCGCCTGGAAGCCGAGGACAGCGACGAAGACCCCTTCGCCGACCTGCGCCCGCAGGACGAAGCGCCCGCGCCGATTCACGACGAACCGGTGAAAAGCGCGGTGCTGGCCATCCAGCTGGGTGCCCAGGAGCAATTGCGCCGCCTGCCACGGGCTCGCCTGGTGGACCTGCTGGAACGCTACCGTGGCTGCCTCGACCAGGCTGCGTCGCTTTACCAGGGCGAGCTGCACACCCTGAACGACGGCAGCAGCCTGATGCTGTTCCACAGCCTGGATAGCGGCGAAGACTACCTGACCCACGCGCTCTGCTGCGGGGAGCTGATGCGCGCCCTCGGCCATGCCCTGCAGATCGAAGTCGCCGACAGCGGCATCACCCTGCAACTGCAACTGGGCCTGACCCAGGGCGAGGATCTGGTCGATCTCAGCCAGGGCGATCTGTTGCTCAGCGAAACCGCCCAGAATGCCCTGGCGCTGTCCCAGCACAGCCGCAACCTGCTGCTGGTCGAACGCAGCGTCAGCGAAGACCTGCTCGTCCGTGAGCGGGCACGCATTCGCGCCATCGCCAGCCCGGAAGGCGCCAGTTGCGTCGAGCGCCTGCTGGAGCCCTATCCTTCGCTGCTGGAACGGCAACTCGCGCTGATGCACGAAAACCACACCCCCTGA	MNRPAPVKPDNFFLLIFHALRQRRVPIALRIASHSLLLVALALLIYAWVMGMQFKQAMQQQADALGQSLITQTASSATELLVSNDILSLNVLLNNLVKNPLVAHAAIYSVDNRILAEAGARPSKGLLGEAEGLYSTPITFQEVIAGHLRISLDMQQFQQPMTISLQSMGLLSLILLALTLSLSLRLGRHISTPLLQLRLWLRDPDDPAPGAGRQDEIGDLARQLQARLVPEKPEPVEEDDYVEEDEHLFEEDDEPLFDEHDDHPMDLADDEPLPAQDRLEAEDSDEDPFADLRPQDEAPAPIHDEPVKSAVLAIQLGAQEQLRRLPRARLVDLLERYRGCLDQAASLYQGELHTLNDGSSLMLFHSLDSGEDYLTHALCCGELMRALGHALQIEVADSGITLQLQLGLTQGEDLVDLSQGDLLLSETAQNALALSQHSRNLLLVERSVSEDLLVRERARIRAIASPEGASCVERLLEPYPSLLERQLALMHENHTP	PGPT0023715_3	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-MEMBRANE_DAMAGING,PGPT0023715-smp|ytjB|aphA-K07186	NA	NA
BMS010_04236	1212	serB2_2	COG0560	Phosphoserine phosphatase SerB2	TTGCGCGAAATCGTCCTGATCAATATCACCGGTGGCGACCGTCCCGGTCTGACGGCCGCCATCACCGGCGTGCTCGCACAGGGTGGCGTGAACATCCTCGACATCGGCCAGGCGGTGATCCACGACACCTTGTCGTTCGGCATCCTCATCGAGATTCCGCATACCGAGCAGGCGTCCACGGTGCTCAAGGATGTGCTGTTCACCGCCTACAAGCTGGACCAGCAGGTGCGTTTCACGCCGGTTTCCGAAGCCGACTACCAGCAATGGGTGAGTGGCCAGGGCAAGCCCCGCCACATCGTCACGCTGCTGACCCGCAAGGTCACGGCCGAGCAATTGCAAAGGGTCAGCTCGATCACCGCCAAGTACGGTTTGAACATCGATCACATCGACCGTCTGTCGGGGCGCATGCCGCTGGACATGCCGGCCGACCAGGGCAAGGGCTGCATCGAGTTTTCCGTGCGCGGCGAGCCGGTCGATCCGGGAGCGTTACGCGCCGAGTTCCTCAGCGTGGCCCAGGAGCTGGACGTGGATATCGCTTTCCAGCGCGATAGCGTGTTCCGCCGCAACCGCCGTCTGGCGGTCTTCGACATGGATTCCACGTTGATCGAGGCCGAGGTGATCGACGAACTGGCCAAGGCTGCCGGGGTCGGTGAGAAGGTAGCGGAAATCACCGAACGGGCGATGCGCGGCGAGCTGGATTTCCGCGCCAGCTTCAAGGAGCGTCTGGCATTGCTCAAGGGGCTTCCGGAAAGCGTGCTGGCGGAGGTCGGTGCATCCCTGCGTCTGACCGAGGGCGCCGAAACGCTGTTCGTCGAACTCAAGCGCTTGGGCTACAAGACGGCGATCCTGTCCGGCGGATTCACCTACTTCGCTCGCCAGCTTCAGGCCAGGCTGGGAATCGACTACGTCTATGCCAATGAGCTGGAGATCGTCGACGGCAAGGTGACCGGTGTGGCCGTGGAGCCCATCGTCGATGCCCAGCGCAAGGCGGATCTGCTGACCCAGTTGGCGGAAAAGGAAGGGTTGCGTCTGGAACAGACTATTGCCGTCGGCGATGGCGCCAACGACCTGCCGATGTTGGGGCTGGCCGGCCTCGGCGTCGCCTTCCGCGCCAAGCCGCTGGTGAAGCAGTCGGCCAAGCAGGCGATTTCCACCCTGGGGCTGGATGGCATTCTGTACCTGCTGGGCTTCCGCGACCGCGAAACAGAATAA	MREIVLINITGGDRPGLTAAITGVLAQGGVNILDIGQAVIHDTLSFGILIEIPHTEQASTVLKDVLFTAYKLDQQVRFTPVSEADYQQWVSGQGKPRHIVTLLTRKVTAEQLQRVSSITAKYGLNIDHIDRLSGRMPLDMPADQGKGCIEFSVRGEPVDPGALRAEFLSVAQELDVDIAFQRDSVFRRNRRLAVFDMDSTLIEAEVIDELAKAAGVGEKVAEITERAMRGELDFRASFKERLALLKGLPESVLAEVGASLRLTEGAETLFVELKRLGYKTAILSGGFTYFARQLQARLGIDYVYANELEIVDGKVTGVAVEPIVDAQRKADLLTQLAEKEGLRLEQTIAVGDGANDLPMLGLAGLGVAFRAKPLVKQSAKQAISTLGLDGILYLLGFRDRETE				NA	NA	NA	NA	NA
BMS010_04237	2070			hypothetical protein	ATGGCCATCGAAAAAAAAACCATTCGACTGTTGCTTCTGGAAGACTCGCAGAACGAGGCCGAGCGCCTCGTCAGTCTGTTCCGTAACGCCGGCCACGCGACCCGCGTCCACCGCCTGACCTCCAGCGAGGATCTCAGCGAAGCCCTGCAACAGAGCTGGGACCTGCTGATCGCCGCCCCCAGCAGCGAGAACCTCGACCCCACCGAAGCGATCCACACCATCCGCCGCCTGTCCAAGGACATCCCCTTCATCCAACTGGTGGCGGGCAACGATTCCGATGACATCACCGAAGCGCTCGCCATGGGCGCCCAGGATGCCCTGCCGCAAGGCGAAGACGAACGTCTGGTGATGGTCGCCAACCGCGAGCTGGCCAACCTGGAAGAGCGCCGAGCCCGACGCGCGGCCGAAGTAGCCCTGCGCGAGGCGGAAAAACGCTGCCAGTTGCTGCTGGAAAGCTCCGTGGACGCGATCGCCTACGTCCACGACGGCATGCACATCTACACCAACCGCGCCTACCTGGAGCTGTTCGGCTACGAAGACGCCGACGAGCTGGAAGGCATGCCACTGATCGACCTGATCGCCAGCTGCGACCAGGGCAACTTCAAGGAATTCCTGAAGAACTACCGCAGCGCCGAAGGCAATGCCGAGCTGAACTGCTCCGGCATCCGCTCCGATGGCCAGGACTTCCAGGCGAACATGACGTTCTCGCCGGCCACCTACGACGGCGAGCCGTGCATCCAGCTCGTCATCCGCACCGAAAGCGGCAATGCCGAACTGGAAGAAAAGCTGCGCGAAATCAGCAGCCAGGACCTGGTGACCGGCCTGTTCAACCGCAACCACTTCCTCGAACTGATGGATGCCGCCGCCGAGCGCGCGGTGAACGCCGGGCAGCCGGCGAGCCTGGGCTACATCCGGGTCGACCGCTACGCCGCCATATTGGCCGACATCGGTATCGCCGGCATCGACCTGCTGCTGACCGACCTGGCCAACCTGCTGCGCGCCCACTTCGCCGGCGACGCCCAACTGGCCCGCTTCGGCGATGACGTTTTCACCGTGCTACAACCCGGCATGACGCCCGAACAGGCCGCTCCCGGCCTTTCCAGCCTGTTGAAGAAAGTGGAAGCCCACCTGTTCGACGCCGGCGGTCGAACCATCCAGACCACCCTGACGATCGGTGCCGCCGGGCTCAACGAGAAAACCGCCAAGGCCCAGGAAGTCATCGATCGCGCGCACCGCTGCGCCGACGAACTGGCCGACGGCAACGCCCTGAAGCTGTTCAATCCGGCCGACGAATTGGCCGCCGCCGCCAACCGCGGCAACGTCGTCGCCATGGTCCAGCAGGCATTGGAGAACAACAGCTTCCGCTTGCTGTTCCAGCCGATCATCAGCCTGCGCGGCGACACCCACGAGCACTACGAGGTGCTGCTGCGCCTGCTCAATCCGCAAGGCGAAGAAGTCCCCCCCAACGATTTCCTGAGCGCCGCCAAGGAGTCCGGGCTGGCCGAGAAGATCGACCGCTGGGTCGTGCTCAATTCAGTCAAGCTGCTCGCCGAGCACCGTGCCAAAGGCCACAGCACCCGCCTGTTCGTGCATCTCTCTAGTGCCAGCCTGCAGGACCAGACACTCCTGCCGTGGCTCAGTGTGGCGCTCAAGGCTGCCCGCCTGCCCTCGGATGCGCTGGTGCTGCAATTCAGCGAGCCGGACGCCATTGCCTACCTCAAGCAGGCGAAGGCCCTCACCCAAGGGCTTGCCGAACTGCATTGCAAGGTCGCCCTGAGCCAGTTCGGCTGCGCCCTGAACCCGTTCAACACCTTGAAGCACCTGAGCGTCGACTTCGTGAAGATCGACGGCTCCTTCTCCCAGGACCTGTCCAAGCCGGAGAACCAGGAAGCGCTCAAGACCCTGCTGACCAGCCTCCATGCCCAGGCCAAGCTGACCATCGTCCCCTTCGTCGAGAGCGCCAGCGTACTGGCCACCCTCTGGCAGGCCGGGGTCAACTACATTCAGGGCTACTACCTGCAAGGCCCCAGCCAGTCGATGGACTACGACTTCTCGGCTGGGGAGGAATAA	MAIEKKTIRLLLLEDSQNEAERLVSLFRNAGHATRVHRLTSSEDLSEALQQSWDLLIAAPSSENLDPTEAIHTIRRLSKDIPFIQLVAGNDSDDITEALAMGAQDALPQGEDERLVMVANRELANLEERRARRAAEVALREAEKRCQLLLESSVDAIAYVHDGMHIYTNRAYLELFGYEDADELEGMPLIDLIASCDQGNFKEFLKNYRSAEGNAELNCSGIRSDGQDFQANMTFSPATYDGEPCIQLVIRTESGNAELEEKLREISSQDLVTGLFNRNHFLELMDAAAERAVNAGQPASLGYIRVDRYAAILADIGIAGIDLLLTDLANLLRAHFAGDAQLARFGDDVFTVLQPGMTPEQAAPGLSSLLKKVEAHLFDAGGRTIQTTLTIGAAGLNEKTAKAQEVIDRAHRCADELADGNALKLFNPADELAAAANRGNVVAMVQQALENNSFRLLFQPIISLRGDTHEHYEVLLRLLNPQGEEVPPNDFLSAAKESGLAEKIDRWVVLNSVKLLAEHRAKGHSTRLFVHLSSASLQDQTLLPWLSVALKAARLPSDALVLQFSEPDAIAYLKQAKALTQGLAELHCKVALSQFGCALNPFNTLKHLSVDFVKIDGSFSQDLSKPENQEALKTLLTSLHAQAKLTIVPFVESASVLATLWQAGVNYIQGYYLQGPSQSMDYDFSAGEE	PGPT0016085_195	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-c-di-GMP_SIGNALLING_PATHWAY,PGPT0016085-fimX-K21025	NA	NA
BMS010_04238	1803	fimW		Cyclic-di-GMP receptor FimW	ATGGATAAACAGAGCCCTCACCTGCTGCTACGCGTCCCCACTCCCACCCAGCCGAGCCTGTCTTTCTGCGACGCAACGCCTCGCGACCTGAAGCGCTGGCTGGATGGGCTGCCGAAGGCCAATATCGGGGAAACCGCCCGCCAGCTCTACCAGGGGCTGGTCGAGCTCAATCAGTTGGTGACGCCAAGCACCAACCGGCTGCAGTTGCTGGAATTGTTACGTCCCGAGGTGCACTTCGTCTGCCAGCATCTGGAGCGGCACTTTCTCAACCAGGCCATCGTGCTCGACGACCGCCCGCGCAAGGTCGCCAACCTTTGCCAGGCCCTGCAGAACCATTTGGCGCTCGGCTACAAGCTGATCATTTCCCGCACGGCGCAGCGCTTCACCCGCGAGCGCGCCCAACTGCTCACCATCGCCCTGCAACGCGCCAGCCATAGCCTGTGCGGCCCACTGGTGCGCTCCAACCAGTTGTATTGCCCGGTGCCGGAAGGCCTCTGGCTGGAATTGCACCAGATCTACCAGATCGCCCGCAGCCACGATCTGCACCGGCTGGTGGTACGCGATCCGCTGGCTCGCCATACCCAGGGACTGAGCGTCGAGCAGACCTATCTCGTCGCCCTGCTGCTGGGCTGCGCCCGCTGCAACCAGATGCGCCAACAGGGCATCGCCCGCCTGGCCGATATGCTGGAAATCTGGTGCAGCCTGGCGCGCCTGCAAAGCCCCGATGCCCCCACCAGCCTGTTCCTTGTCGCGCCCCAGGTGGACGGGCCGCCGCGCTACCGGTCGCTGTTCCAGAACGAACCCCGCGACAACCTGCTCGGCATGAACCCCGAGCCGCTGGTCGACGCCATCAAGGAATACCTGCTGCTCGCTCCCGAGGATCGCCCCAAGGCACGGCTTCAGGTACCGGAAGGGTTCAGCCTGGACCTGCTGCAGCACCTCAGCTCGGCCTGGGGCGACATTTCCGAACGCACCTTCCAGCGCAATCCCGGCCAGGGCACGCTGACGCTGTGCATCGGCATGTCCGCCCTGCATTACTTCCTGGCCGGCCGCCGGCCTTTCGCCGACGTGCTCAAGCAGGAAGCCCAGCCGGTGCAATTCAAGCCAGTCACCGGCGGCCCGGACATCTGGAGCAAGGCCTTCGATGCCCAGCCGCAGACCCAATGGGAGGCCGGCCTGCCGCTGGAGGAAATCGAGTACAAGGTGGAAAAACCCGGCACCGCCACCGTGTCGAACGCTGGCCAGGAGGAGAACCATCCCACCTACGAGTTGCCCATCGTCAATCACAGCCCGGGCGGCTATTGCCTGGCATGGCCCAAGGAAGTGCCGGGCCAGTTGCAGGCCGGCGAACTGCTCGGCGTCCAAGACACCCCGGGCCAGGACTGGAGCGTCGCCGTGGTGCGCTGGATCAGGCAGGTACGCGGCGGCGGCACCCAGATGGGGATCGAGCTGATCGCTCCCCAGGCTCAGCCCTGCGGCCTGCAACTGGTACGCAAGACCGAACAGAGCAGCCAATACCTGCGCGCTCTGCTGCTGCCGGAAATCAGCGCGATTTCCCGCCCATCGACGCTGATTACGCCGCGCCTGCCGTTCCAGGAAGGCAGCAAGGTCATGATCAACCTGCACGGCGACGAACGCCGCGCCGTACTCAGCCAACGGCAGACCAGCACCGGCAGCTTCAGCCAGTTCGAATACCGGGAAGTCGACCGCTCACTCACAGAACGAGGGACACCCGTCACACCCCAAGGAACCCAGGCGAGCAGCGGCGAGGAAGACTTTGACTCACTTTGGAAGTCACTGTAG	MDKQSPHLLLRVPTPTQPSLSFCDATPRDLKRWLDGLPKANIGETARQLYQGLVELNQLVTPSTNRLQLLELLRPEVHFVCQHLERHFLNQAIVLDDRPRKVANLCQALQNHLALGYKLIISRTAQRFTRERAQLLTIALQRASHSLCGPLVRSNQLYCPVPEGLWLELHQIYQIARSHDLHRLVVRDPLARHTQGLSVEQTYLVALLLGCARCNQMRQQGIARLADMLEIWCSLARLQSPDAPTSLFLVAPQVDGPPRYRSLFQNEPRDNLLGMNPEPLVDAIKEYLLLAPEDRPKARLQVPEGFSLDLLQHLSSAWGDISERTFQRNPGQGTLTLCIGMSALHYFLAGRRPFADVLKQEAQPVQFKPVTGGPDIWSKAFDAQPQTQWEAGLPLEEIEYKVEKPGTATVSNAGQEENHPTYELPIVNHSPGGYCLAWPKEVPGQLQAGELLGVQDTPGQDWSVAVVRWIRQVRGGGTQMGIELIAPQAQPCGLQLVRKTEQSSQYLRALLLPEISAISRPSTLITPRLPFQEGSKVMINLHGDERRAVLSQRQTSTGSFSQFEYREVDRSLTERGTPVTPQGTQASSGEEDFDSLWKSL	PGPT0016080_46	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-c-di-GMP_SIGNALLING_PATHWAY,PGPT0016080-fimW-K23127	NA	NA
BMS010_04239	972			hypothetical protein	ATGACCGTACTCGCCACCTTCTGGGCGCGCCTGCTGCATGTGTTCGGCTGGCGCGCCAATGCCACCAGTCACCTGGAAAAAACCTTGTCGGCCCTGGGCGCCTTCTGCGGCATCGGGCTGATTTATGCCGTGACCCACTGGCTGTTGCCCAGCGAAGCCGCACTCTGGGTCGTCGCCTCCATGGGCGCCAGTGCCGTCCTGCTGTTCGCCGTGCCCCATGGCGTACTGTCGCAGCCTTGGGCGGTACTCGGCGGTCAATGCCTTTCCGCCGTGATTGGCGTGGCCTGCGCCCGTTGGCTCCCGGACAGCCCGCTGGCACCGGCCCTGGCCGTGGCGCTGTCGATCCTGGCCATGCATTACGCCCGCTGCATCCACCCACCGGGCGGAGCCACTGCCCTGACCGCCGTGGTCGGCGGGCCGGTGATCCATGACCTCGGCTTCAGCTTCGTGCTCCTGCCGGTGTTGATGAACGTCAGCGTGATTCTGCTCGCCGCCTTCCTCTTCAACAGCCTGTTTCCCTGGCGCCGCTACCCGGTGGCCCTGGCGCGCCTGCCCGAGCCGCCGAAAGCGCCGTCCGGCATGGCGCCGGAAGACTTCTACCACGCCCTGCGCCAGGTCGACTCCTACATCGATATCCAGTTCGACGACCTCCTGGAAATCATGCAGCTGGCCGAACAGCACGCCCGCGCGCAACGCCTCGAAGCGGACGACATCCTGCTCGGTGCCTGCTACAGCAATGCCCTGGCAGGTGCCGGCTGGGCCGTGCGCCAGGTGATCGACGACGCACCGAAGCAGCGCGGCCGGCGCGACCTGGTGATCTACAAAGTGGTGGCCGGCGCCGGCCAGGGCAACACCGGCGTCTGCCGGCGCCTGGACATGGCCAACTGGGCTGCCCATGCCGTGGCCACGGAAGGCAAGGGCTGGATTCGGGTCACCCCGGAAGAATCCGCCCAACGTGCCGCGCAACACTGA	MTVLATFWARLLHVFGWRANATSHLEKTLSALGAFCGIGLIYAVTHWLLPSEAALWVVASMGASAVLLFAVPHGVLSQPWAVLGGQCLSAVIGVACARWLPDSPLAPALAVALSILAMHYARCIHPPGGATALTAVVGGPVIHDLGFSFVLLPVLMNVSVILLAAFLFNSLFPWRRYPVALARLPEPPKAPSGMAPEDFYHALRQVDSYIDIQFDDLLEIMQLAEQHARAQRLEADDILLGACYSNALAGAGWAVRQVIDDAPKQRGRRDLVIYKVVAGAGQGNTGVCRRLDMANWAAHAVATEGKGWIRVTPEESAQRAAQH				NA	NA	NA	NA	NA
BMS010_04240	870	psd_2	COG0688	Phosphatidylserine decarboxylase proenzyme	ATGTCCATCAAAGATCGCCTGTTCATCCTCAGCCAGTACCTGCTGCCGCATCACCTGGTGTCGCGCCTGGCCGGCTGCCTCGCCGAATGCCGCATCCCCTGGATCAAGAACCCCTTCATCAAGTGGTTCGCCCGGCATTTCGACGTCGACATGAGCCAGGCCCTGGTCGAAGACCTAACCGCCTACGAGCACTTCAACGCCTTCTTCACCCGGGCCCTGAAGAGCGACGCGCGTCCGCTCGACTCGACGCCCAACGCCATCCTCTGCCCCACCGACGGCGCCATGAGCCAGCTCGGCCCGATCGAGAGCGGCCGCATCTTCCAGGCCAAGGGCCACAACTTCAGCGTGCTCGAACTGCTGGGCGGCGACGCCGAACGCGCCGCGCCCTTCATGGGAGGCGACTTCGCCACCATCTACCTGTCGCCGCGGGATTACCACCGCGTTCACATGCCACTGGCCGGCACCCTGCGCGAGATGATCTACGTGCCAGGACGCATCTTCTCGGTGAACACTGTCACCGCGCAGAACGTGCCGGAGCTGTTCGCCCGCAACGAACGGGTGGTCTGCCTGTTCGATACCGAGCGCGGGCCGATGGCGATGGTGCTGGTGGGCGCCATGATCGTCGCCAGCATCGAGACGGTCTGGGCCGGTCTGGTGACGCCGCCCAAGCGCGAACTCAAGACCTTCCGCTACGACGAAGCCGCCCGTGCACCGATCCAGCTGGAAAAAGGCGCGGAAATGGGCCGCTTCAAACTGGGCTCCACGGTGATCCTGCTGTTCGGCCCCGATCAGGTCCGCTGGACCGAAAGCCTCGCCGCCTTGAGCCCGGTCCGCATGGGCGAATGCCTGGGCCAGGCCCGCTCCGCCTGA	MSIKDRLFILSQYLLPHHLVSRLAGCLAECRIPWIKNPFIKWFARHFDVDMSQALVEDLTAYEHFNAFFTRALKSDARPLDSTPNAILCPTDGAMSQLGPIESGRIFQAKGHNFSVLELLGGDAERAAPFMGGDFATIYLSPRDYHRVHMPLAGTLREMIYVPGRIFSVNTVTAQNVPELFARNERVVCLFDTERGPMAMVLVGAMIVASIETVWAGLVTPPKRELKTFRYDEAARAPIQLEKGAEMGRFKLGSTVILLFGPDQVRWTESLAALSPVRMGECLGQARSA	PGPT0007700_1850	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DECARBOXYLASE_ACTIVITY,PGPT0007700-psd|PISD-K01613	NA	NA
BMS010_04241	816	rhdA	COG2897	Thiosulfate sulfurtransferase	ATGTCCGCCTTCTCATCCTTGCCGCTGGTCATCGAGCCAGCCGATCTGGCTGCGCGCCTCCAGGCGCCGGAGCTGATCCTGGTGGACCTGACCAGCCCGGCCCGCTATGCCGAAGGGCATATCCCCGGAGCCCGTTTCGTCGACCCCAAGCGCACCCAACTGGGCCAACCGCCGGCGCCCGGCCTGCTGCCGCCGCAAGCGCAACTGGAAGCCCTGTTCGGCGAACTGGGCCATCGCCCGGATGCGGTCTACGTGGTCTATGACGACGAAGGCGGCGGCTGGGCGGGGCGTTTCATCTGGTTGCTCGACGTGATCGGCCACGGTCGCTACCACTACCTCAATGGTGGGCTGCACGCCTGGCTCGCCGACGGCCGCGAGCTGTCCCGCGAGGTCCCGGCGCCAGTCGGCGGCCCGCTGCCGCTGACCCTGCATGACGAGCCCACCGCCACCCGCGAATACCTGCAAAGCCGCCTCGGTGCTGCCGACCTGGCGGTCTGGGATGCGCGCGCTCCCGGCGAATACCGGGGCGAGAAGGTTCTCACGGCAAAAGGCGGCCACGTGCCCGGCGCGATCAACTTCGAGTGGACTGCCGGCATGGACCCGAGCCGGTCCCTGCGTATCCGCGAAGACATCGCCGACGTGCTGAACGCCCTGGGCATCACCGCGGACAAAGAAATCATCACCCACTGCCAGACCCACCACCGCTCCGGCTTCACCTACCTGGTGGCCAAGGCGCTCGGTTATCCGCGCGTGAAAGGCTACGCCGGCTCCTGGTCGGAGTGGGGCAACCATCCCGACACCCCGGTCGAGGTCTAA	MSAFSSLPLVIEPADLAARLQAPELILVDLTSPARYAEGHIPGARFVDPKRTQLGQPPAPGLLPPQAQLEALFGELGHRPDAVYVVYDDEGGGWAGRFIWLLDVIGHGRYHYLNGGLHAWLADGRELSREVPAPVGGPLPLTLHDEPTATREYLQSRLGAADLAVWDARAPGEYRGEKVLTAKGGHVPGAINFEWTAGMDPSRSLRIREDIADVLNALGITADKEIITHCQTHHRSGFTYLVAKALGYPRVKGYAGSWSEWGNHPDTPVEV	PGPT0002045_5292	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0002045-sseA-K01011	NA	NA
BMS010_04242	1521			hypothetical protein	ATGACGCCTCAGTCCCTACCGCGCAACCTCGAAGCCTGGGTCAAATACCTGGATGCGGTACGCCTGCCGATTGCCGAGGAGAACCATGCACAGGTGCTGAGAGCGCTCGGCGACAGCCGTCGCTCGCTACGCGATATCGCCGACCTGCTGCAGGGCACGCCGGCCATGGCGCTGATCGTTCTGCGCGAAGCCAACAGCCATGGCAGCCAGCTCGGCGAGCCCGCGGAAAGCCTCGAAGTCGCCCTCACCCGCCTCGGGCTGAAACGCGCCGAAACATTGCTACAGCGACTTCCGCCCCTTCCCCGTAAGGACATTCCGCTTGCCCTGCGCCAATTGCAATTGATCAGCCAGCACGCCACGCAACAGGCCAACGGACTGTTCGCAGCACGACTGGCGCGGCTCTGGCAGGAGATTCACTGGGGCAGCCTGCTGTTTCTCGCACCGCTCTGGCCATTGGCGGCCGCCCAGCCACACCTGCTCGAAACCTGGGAGCAGCGTGTCATGGCCAAGGGCGAACCGGCCACCAAGGTGGAGCATGATCTGTTCGGTACGGCATTGCTGCCACTGTGCCTCGCACTGGCCGAGCGCTGGCGATTGCCGGACTGGATCATCCAGGGATACCGCCTGCTGGCCAACGATCACCGACTGCTGGTCAAGGCCCTGCACATCGCCCGCGACAACGAACATCCCCTGCAACAGCAGCACCGGCTCGACGACGACCCGCCGCTGCGGCGCTGGTTGACCCAGCCGGCCAATACCATCCTGCTGGCCAACGGCCTCGCACTGTCCGCCCATCAGGCTTGGGACAGTCCGCATCTGCTGCGCTGGCAACGCCTGGCCGGGCTCTATCTGCAATTACCACTGGGTGACGTACAGCAGGCGATCCATCAGCAGGCGGCACAAAGCGCACGGCAGCATGCCGAACTGGGACTCTGGCATCCCGCCGAGGCCCTGCTCTGGCCCTGGAACGCCCGACACCTGAATCCCCAGCCGGCAATCGCCCCCATCCCCACATCCGACGCCCTGGGCGAATGGCGCAAGCAGTGCGCACAATTGCTGCAGGACCCGACGCCCTTCACCAACGTGCCGCAGCTCACCGCCTGCGCCGGCGCCGCACTGGAAGCCTGCGGCCTGAAGCGGATCCTGCTGCTGCTCGCCGACCGCCAGCACAGCCGTCTGCAGGCCCAGTTCATCGCCGGTCTGCCGCGGCAGGCGCTCGGCCTGTCTCTGGACCCGGCACAAAGTCAGGTCCTGCGCCGGCTGCTTGCCGAACCCGGGCAACTGCGCCTGACTCCGACCAATACCGCGCAGTTCTCCGCAATGCTGCCCGGCAACCTCAAGTCGCTGTTTTCCGGCGATCAGATGCTGCTGCGCTCGTTGGCGAACAATGGACGCGTCGTGATGCTGCTGGTCGCCGACCAGAACGGCGCGCCTTTCGCCGAAGTTACCCTGCAGGCTTTCACCAAGACCGCGCAGTGTATCGAACGCGCCCTGGGCGCCTTCGCCCGGCGTAGCCGCTGA	MTPQSLPRNLEAWVKYLDAVRLPIAEENHAQVLRALGDSRRSLRDIADLLQGTPAMALIVLREANSHGSQLGEPAESLEVALTRLGLKRAETLLQRLPPLPRKDIPLALRQLQLISQHATQQANGLFAARLARLWQEIHWGSLLFLAPLWPLAAAQPHLLETWEQRVMAKGEPATKVEHDLFGTALLPLCLALAERWRLPDWIIQGYRLLANDHRLLVKALHIARDNEHPLQQQHRLDDDPPLRRWLTQPANTILLANGLALSAHQAWDSPHLLRWQRLAGLYLQLPLGDVQQAIHQQAAQSARQHAELGLWHPAEALLWPWNARHLNPQPAIAPIPTSDALGEWRKQCAQLLQDPTPFTNVPQLTACAGAALEACGLKRILLLLADRQHSRLQAQFIAGLPRQALGLSLDPAQSQVLRRLLAEPGQLRLTPTNTAQFSAMLPGNLKSLFSGDQMLLRSLANNGRVVMLLVADQNGAPFAEVTLQAFTKTAQCIERALGAFARRSR				NA	NA	NA	NA	NA
BMS010_04243	852	motA_1	COG1291	Motility protein A	ATGGCAAAAATCATCGGCATTATCGTCGTCTTCGCCAGCGTGCTCGGCGGATTCGTGCTTTCCGGCGGCAAGATCGGCGCGCTCATTCACCCCTTCGAGGTGTTGATCATCGGTGGTGCGGCGCTCGGCGGTTTCCTCCAGGCCAACCCTGGCAGTACCACCATGCTGGTATTCAAGAAATCGCTGAAAATGTTCAGCACGCGCTTCACGCATACCTTCTATCTGGAGGTATTGAGCATGCTCTACGAGATTCTCAACAAGAGCCGCCGTGAAGGAATGATGGCCATCGAAGCGGACATCGAGGACCCGAACGCCAGCCCCATATTCAGCAAGTATCCGGCCGTGATGAAGGATGAGCGGCTGACGGCCTATATCTGCGACTACCTGCGCATCATGTCTTCCGGGAACATGGCACCACATGAGTTGGAAGGCCTGTTCGATATGGAGCTGGCCAGCCTGAAGGAAGAGCTGGAGCATCCGTCCCATGCCGTTTCCCGGATTGCCGACGGCCTGCCGGCGATGGGGATCGTGGCGGCGGTGTTGGGTATCGTGATCACCATGTCGATCCTGGCCGAGGCGGACAACGCGACCATCGGTTACAAGGTGGGCGCGGCACTGGTCGGTACCTTCCTCGGTATTCTCGCCTCCTATGGCTTCTTCGGCCCGCTCGCCGCGGCGTTGGAACATGATGCCAAGGAAGAGCTGAACCTGTTCGAAGCGGTCAAGGCCACGCTGGTGGCTTCGGCGTCCGGAATGCCGCCGTCGCTTGCGGTGGAATTCGGTCGCAAGGTGCTTTTCCCCGCGCACCGCCCAACCTTTGCCGAGCTGGAGCAGGCTGTTCGCGGTCGTTAA	MAKIIGIIVVFASVLGGFVLSGGKIGALIHPFEVLIIGGAALGGFLQANPGSTTMLVFKKSLKMFSTRFTHTFYLEVLSMLYEILNKSRREGMMAIEADIEDPNASPIFSKYPAVMKDERLTAYICDYLRIMSSGNMAPHELEGLFDMELASLKEELEHPSHAVSRIADGLPAMGIVAAVLGIVITMSILAEADNATIGYKVGAALVGTFLGILASYGFFGPLAAALEHDAKEELNLFEAVKATLVASASGMPPSLAVEFGRKVLFPAHRPTFAELEQAVRGR	PGPT0015370_1295	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015370-motA-K02556	NA	NA
BMS010_04244	1032	motB_2	COG1360	Motility protein B	ATGGATAACAACCAGCCGATCATCGTCAAACGGGTCAAGAAGAGCGCTGCCGGTCATCATGGTGGCGCCTGGAAGATCGCATTCGCCGACTTTGCCACAGCGATGATGGCTTTCTTCCTGGTGATGTGGCTGATGTCATCGGCCACGCCAGAGCAGAAAAAAGCCATTTCCGGTTACTTCCAGGACCCTATCGGTTTCTCTGAAAGCGCCAGCCCCTATGCCATCGACCTCGGAGGCACGCCGACCCCTGCACCGGACAAGACGTTGAACCCGGAGATGCAGGACTCCCTGGTGGACGAGTCCAAGGTAGACAAGGACGCGGTGCAAGTAAGCCCTGACCAGGTCGAGACCATGGCCGAGCAGATCGAGCACGAACGGCTCGAGCTGCTGTTGCAAGAATTGCAGAACAAGGTCGAGCAGAACCCGGAACTGCAGCGTTTCAAGGACCAGATCCTGTTCGAGATCACCCAGGACGGGCTGCGCATCCAGATCATGGATGCCGAGAACCGGCCGATGTTCGCCCTTGGCAGTGCCGAACTGCAACCCTATTTCGAAGACATCCTGCTGGCCATGGCCGAGACCATCAAGGCGGTGCCGAACAAGATCAGCATCAGCGGGCACACCGATGCCAAACCGTTCGCCGGACGGGGCGATTTCGGCAACTGGGAGCTGTCATCCAACCGCGCCAACGCGGCGCGACGGGCGCTGGTCGCCGGTGGCTACCCGGAAGAGCAGGTGGCGCGGGTGGTGGGCTACGCTTCGTCGGCGTTGTTCGACCGCGAAAACCCGCTGAACCCGGTCAACAGGCGCATCGACATCATCGTGCTCACCAAGCGCGCCCAGCGGGAGATCGAAGGGGAGCAGGACAGCGGTCAGGAGGGCCAGGAGGCGACGCCGCCGGCCGATGCCGGTGTGGGCGTGGAATCCCCTGCGCCGACTTCTCCCGACGGGCCGATGCAGCCGCGCGAGCTGCGGCAGAAGCTGAATATCTTCGAGGAGGGGGTGCTCAAGTTCGAGCCGGTGGAAGGGTAG	MDNNQPIIVKRVKKSAAGHHGGAWKIAFADFATAMMAFFLVMWLMSSATPEQKKAISGYFQDPIGFSESASPYAIDLGGTPTPAPDKTLNPEMQDSLVDESKVDKDAVQVSPDQVETMAEQIEHERLELLLQELQNKVEQNPELQRFKDQILFEITQDGLRIQIMDAENRPMFALGSAELQPYFEDILLAMAETIKAVPNKISISGHTDAKPFAGRGDFGNWELSSNRANAARRALVAGGYPEEQVARVVGYASSALFDRENPLNPVNRRIDIIVLTKRAQREIEGEQDSGQEGQEATPPADAGVGVESPAPTSPDGPMQPRELRQKLNIFEEGVLKFEPVEG	PGPT0015375_572	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015375-motB-K02557	NA	NA
BMS010_04245	1032	rsgA	COG1162	Small ribosomal subunit biogenesis GTPase RsgA	ATGGCCAAACGCCACCTCAGTCGCCGGCAAAGCTGGCGCATCGAGAAAATCCAGGAAGAACGCGCCGCCCGCGCTGCCAAACGCGAGTCGCGCGCCCTCGAAGAGCTGGAGGGCGGCGATCTCGGCCCCGAGCAGACCGGCCTGGTGATCGCCCATTTCGGCGTGCAGGTGGAAGTCGAGGCGCAAGAAGGCGATCAGGCCGGCCAGGTATTCCGCTGCCACCTGCGCGCCAACCTGCCGACCCTGGTGACCGGCGACCGCGTGGTCTGGCGTCCCGGCAACCAGGGCGACGGAGTGATCGTGGCGCAACTGCCGCGCACCTCCGAGCTGTGCCGGCCGGACATGCGTGGCCTGCTCAAGCCGGTGGCGGCCAACGTCGACCAGATCGTGATCGTCTTCGCGCCGCGTCCGGAACCCCACGCCAACCTGATCGATCGTTACCTCATCGCCGCCGAACACGCGGGCATCAGCCCGCTGCTGCTGCTGAACAAGGCCGATCTGGTGGACGAGGAAAACGCCGCATCGCTGGACGCGCTGCTGAATGTCTACCGGCAGCTCGACTATCCTCTGCTGGAGGTATCCGCGCATCAGGGCGGCGGCATGGCCGATCTGCAGACCAAGCTGGACGGGCATGTCAGCGTCTTTGTCGGACAGTCCGGCGTGGGCAAGTCGTCGTTGGTGAACAGTCTGCTGCCAGGCATCGACACCCGTGTCGGCGCGCTCTCGGAAATCACCGGCAAGGGCACCCACACCACCACCACCGCCCGACTGTTCCACTTCCCCGGCGGCGGCGAGCTGATCGACTCCCCCGGCATTCGCGAATTCGGCCTCGGCCATGTCAGCCGCGATGACGTCGAAGCGGGCTTCATCGAATTCCGCGACCTGCTCGGCACCTGCCGCTTCCGCGACTGCAAGCACGACCGCGAACCCGGCTGCGCCCTGCTCAAAGCGGTGGAAGATGGCCGCGTCCAACCGCAGCGCATGTCCAGCTATCGGCACATCATCGCCAGCCTGCCGGAGCCCGAATACTGA	MAKRHLSRRQSWRIEKIQEERAARAAKRESRALEELEGGDLGPEQTGLVIAHFGVQVEVEAQEGDQAGQVFRCHLRANLPTLVTGDRVVWRPGNQGDGVIVAQLPRTSELCRPDMRGLLKPVAANVDQIVIVFAPRPEPHANLIDRYLIAAEHAGISPLLLLNKADLVDEENAASLDALLNVYRQLDYPLLEVSAHQGGGMADLQTKLDGHVSVFVGQSGVGKSSLVNSLLPGIDTRVGALSEITGKGTHTTTTARLFHFPGGGELIDSPGIREFGLGHVSRDDVEAGFIEFRDLLGTCRFRDCKHDREPGCALLKAVEDGRVQPQRMSSYRHIIASLPEPEY	PGPT0009020_2092	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0009020-rsgA|engC-K06949	NA	NA
BMS010_04246	807			hypothetical protein	ATGATCGCGCGGCTGCGCAATAGATTTCCGGCCTTGCTGGCGTTGCTTTGTCAGCTTGTCGCCGTGGCGCTGGTATTCGCCTGTCTGCAACTGCTTTCCGGGATGTCCGGCTGGCGCCCCACGCTGATGCAGGCGGCGCTGGCCCAGGGCGCGCTTGCTGCTGGGCTGGGTGTTTGGCTGGGGCTGTCGCGCTGGTGGCTGCCGATCAACCTGGTCTTCGTGCCGGGGCTGGTGCTGGCGATAACCTCGGCGTTGCCGCCCTGGGCCTATCTCTTGGGGTTTCTCTTTCTGTTGCTGGTCAACTGGAACAGCTTTGGCGAGCGGGTGCCGTTGTATCTCAGCGGCAAGGAGTGCGAGCGGAAACTGGGCGAGTTGCTCGCCGGGCAGCCGCCGGGGTTCGCTTTCGTCGACCTCGGTTGTGGGTTGGCCGGGACCCTGTGTCGTCTGGCGAAGCGGTATCCCAAGGGGCATTTCGTCGGGGTCGAGACAGCGCCCCTGGTCTTCCTGGTGGCCTGGTTGCGCAGCCTGCCGCTCGGCAACTGCCGGGTGCGCTATCTGAGCCTGTGGAAAACCGATCTGGCGGCCTTCGACGTCGTTTATTGCTTCCTCTCTCCGGCGCCGATGGCAGCGCTGTGGCGCAAGGCGCAGGCGGAAATGCAGCCGGGTGCGTTGCTGGTCAGCAATTCGTTCGCCGTTCCCGGAGTGGCGCCCTCGGAGGAAATCCCGCTGGAGGACTGGCGGCAGTCGCGCCTGTTGGTCTGGCGGATGGATGGCGCAGTGCCTGCTGGGCTCGAAGAAAACCGCTAA	MIARLRNRFPALLALLCQLVAVALVFACLQLLSGMSGWRPTLMQAALAQGALAAGLGVWLGLSRWWLPINLVFVPGLVLAITSALPPWAYLLGFLFLLLVNWNSFGERVPLYLSGKECERKLGELLAGQPPGFAFVDLGCGLAGTLCRLAKRYPKGHFVGVETAPLVFLVAWLRSLPLGNCRVRYLSLWKTDLAAFDVVYCFLSPAPMAALWRKAQAEMQPGALLVSNSFAVPGVAPSEEIPLEDWRQSRLLVWRMDGAVPAGLEENR				NA	NA	NA	NA	NA
BMS010_04247	543	orn	COG1949	Oligoribonuclease	ATGCAGAACCCGCAGAACCTGATCTGGATCGACCTCGAGATGACCGGTCTCGACCCCGATCGCGACGTCATCATCGAAATGGCCACCATCGTTACCGACAGCGACCTGAACGTGCTTGCCGAAGGGCCGGTGATCGCCATCCACCAGAGCGATGAGGTTCTCGCGGGCATGGATGAGTGGAACACCCGGACCCACGGACAGAGCGGGCTGACCCAGCGCGTGCGGGAGAGCCGCATCGATACCGCGCAGGCCGAGGCGATGACGCTGGAATTCCTGGAAAAGTGGGTGCCGAAGGGCAAATCGCCGATCTGCGGCAACAGCATCTGCCAGGATCGCCGCTTCCTCTATCGCCGGATGCCGAGGCTGGAAGCCTATTTCCACTACCGCAACCTGGATGTCTCTACCCTCAAGGAGTTGGCCGCCCGCTGGGCGCCGCAGGTTCGCGACAGCTTCAAGAAAGGCGGCGTGCACTTGGCATTGGACGACATTCGCGAGTCGATCGCGGAACTCCGCCACTACCGCGAGCACTTCATCAAGTACTGA	MQNPQNLIWIDLEMTGLDPDRDVIIEMATIVTDSDLNVLAEGPVIAIHQSDEVLAGMDEWNTRTHGQSGLTQRVRESRIDTAQAEAMTLEFLEKWVPKGKSPICGNSICQDRRFLYRRMPRLEAYFHYRNLDVSTLKELAARWAPQVRDSFKKGGVHLALDDIRESIAELRHYREHFIKY	PGPT0020150_39	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARAGINE_DEGRADATION,PGPT0020150-asnB-K01953	NA	NA
BMS010_04248	1065	queG_2	COG1600	Epoxyqueuosine reductase	ATGTCTACCTCCCTCGACGATCTCGCCGCACTCGCACATTCCATCAAGGAGTGGGGGCGTGAGTTGGGCTTCCAGCAGGTCGGCATTACGGACGTCGACCTGGCTGAGCATGAAGCCCACCTGCAACGCTGGCTGGACGCCGGCTACCACGGCGAGATGGACTACATGGCGGCTCACGGCACCAAGCGTTCGCGCCCCGCCGAGTTGGTCCCGGGCACCCTGCGGGTGATTTCGCTGCGCATGGACTACCTGCCGGGCGATACCCTCATGGCGCAGCGGTTGGCCGAGCCGGAGAAGGCCTATGTCTCGCGCTACGCCCTCGGACGCGACTACCACAAACTGATCCGCAAGCGCCTGCAGCAACTGGCCGAACGCATCCAGGCGGCCATCGGCCCGCTCGGCTACCGCGCCTTCGTCGACAGCGCCCCGGTGCTGGAAAAGGCCATCGCGGAACAGGCCGGGCTCGGCTGGATCGGCAAGAACACTTTGGTGCTCAACCGCAAGGCCGGCAGTTACTTCTTTCTCGGCGAGTTGTTCGTCGACGTGCCGCTACCCGTCGATGCGCCCCACGGCAGCGAACACTGCGGACGCTGCAGCGCCTGCCTGGACATCTGCCCGACCGCCGCCTTCGTCGGATCCTATGTGCTGGATGCACGGCGCTGCATTTCCTACCTGACCATCGAACTCAAGGGCAGCATCCCTGAAGCACTGCGTCCGCTGATCGGCAATCGTGTGTTTGGCTGCGATGATTGCCAGATCGTCTGTCCCTGGAACCGCTTCGCCCGCCCCAGCGCGCAGGGCGACTTCCAGCCTCGCCACGGCCTGGACAACGTGGAGCTGGCTGCACTGTTTCTGTGGAGCGAAGAGGAATTCCTCAGCCGCACCGAAGGCTCGCCGCTGCGCCGTGCCGGCTACGAGCGCTGGCTACGCAACCTGGCCGTAGGGTTGGGCAACGCCCCGGCGACGATTCCAGTGATCGAAGCGCTGAGAGCCCGGCGCGAGCATCCGTCGGAACTGGTGCGGGAGCATGTGGAATGGGCGCTCGCCCGGCATGGCGAGCGCTAA	MSTSLDDLAALAHSIKEWGRELGFQQVGITDVDLAEHEAHLQRWLDAGYHGEMDYMAAHGTKRSRPAELVPGTLRVISLRMDYLPGDTLMAQRLAEPEKAYVSRYALGRDYHKLIRKRLQQLAERIQAAIGPLGYRAFVDSAPVLEKAIAEQAGLGWIGKNTLVLNRKAGSYFFLGELFVDVPLPVDAPHGSEHCGRCSACLDICPTAAFVGSYVLDARRCISYLTIELKGSIPEALRPLIGNRVFGCDDCQIVCPWNRFARPSAQGDFQPRHGLDNVELAALFLWSEEEFLSRTEGSPLRRAGYERWLRNLAVGLGNAPATIPVIEALRARREHPSELVREHVEWALARHGER				NA	NA	NA	NA	NA
BMS010_04249	1500	nnr_1	COG0062	Bifunctional NAD(P)H-hydrate repair enzyme Nnr	ATGCCGCATCCTCACGACGATTTCCCTACGAGATTGCACACCGCCGCCCAGGTCCGTGACTTGGATGCCCGGCTGATTGCCGCGGGTACGCCCGGTTTCGAATTGATGCAGCGGGCAGCCCATGCCACCTGGCGCGCGTTGCGCCGGCGCTGGCCTGATGCCGGCTGCGTAACCGTGCTGGCGGGGCGCGGCAACAATGCGGGCGACGGCTACCTGGTGGCGGCATTGGCCCAGCGTGCCGGCTGGCAGGTGCAGGTGTTGGCCGTGGGCGATCCGGCACAGTTGTCCGGCGATGCGGCGCAGGCCCATGCCGAGGCGCGCGCCGCCGGCGCTCCCATCCAGGCATGGAGCGAATGCGCCGCCCTGCATGGGGTGCTGGTGGACGCCCTGCTCGGTACCGGCCTGAGCGGCGATGTGCGCGAACCCTATGCCCAGGCGATTCGCCTGATGAACGCCAGCGAGGCGCCGGTGCTGGCGGTGGATATCCCCTCCGGGCTCTGCGCGGATACCGGGCGGGTCCTGGGTGTTGCGGTGCGCGCCGATCTGACGGTGACCTACATCGGCCTGAAACTCGGACTATTCACCGCCGAGGCGCCGGCCCTGATCGGCGAGCTGGTGTTCGACGATCTGCAGGGCGAGGCCACGATCATCGCCCAGACGCCGGTGCAGGCAATTCGGCTGGCCCCTTCCAGCCTGCCCAGGCTGGCGCCGCGCCCACGTACGGCTCACAAGGGGCAATACGGTCATTTGCTGGTGGTCGGAGGCGACCGGGGCATGGGCGGTGCTGCTCTGCTGACGGCCGAAAGCGCTTTGCGCAGCGGCGCCGGAATGGTCTCCCTGGCGACCCGTGCCGAGCATGTGCCGGCTGTGTTGGCGCGTCGCCCGGAAGTGATGGCTGTCGCCGTGGCGTCGGCGAACCAGTTGCTTCCCCTCGCCGAACGGGCGGATGTGCTGGTGGTCGGGCCGGGCCTCGGGCAGATGGCCTGGGGGCGCAGCCTGCTTTCGGCGGTGGCTGGCGTCGGGCTGGCACAGGTCTGGGATGCCGATGCGTTGAATCTGTTGGCGGCTGGTGCTGTCTCTTTGCCGGAAGGTTGCGTGATCACACCGCATCCGGGGGAGGCCAGCCGTTTATTGGGGCAATCCGTCCAGGTTGTCCAAGGGGACCGTCCCTCCGCGGCCAGGGCATTGGCGGCGCGCTACCAGACAGTCGTTGTGCTCAAGGGCGCCGGCAGTCTGGTGGCGGCGCCGGACGGGCGGCTGGCATTATGCGATCGTGGCCATCCGGCCATGGCCAGTGCCGGGCTTGGCGATGTCCTGGCCGGCCTGACCGGCGCGCTCTTGGCGCAGGGGCTGCCCGCTTTCGAAGCGGCGTGCCTGGCCGTTTGGCTGCACGCCGTTGCCGGCGAACAGGTGGGTGCGCTGGGGCGGGGGCTGGCCGCGGGTGATCTGATCGCTACCGTTCGTCAACTGCTGGAGGAGCAGTCTCCGTGTCTGAAATGA	MPHPHDDFPTRLHTAAQVRDLDARLIAAGTPGFELMQRAAHATWRALRRRWPDAGCVTVLAGRGNNAGDGYLVAALAQRAGWQVQVLAVGDPAQLSGDAAQAHAEARAAGAPIQAWSECAALHGVLVDALLGTGLSGDVREPYAQAIRLMNASEAPVLAVDIPSGLCADTGRVLGVAVRADLTVTYIGLKLGLFTAEAPALIGELVFDDLQGEATIIAQTPVQAIRLAPSSLPRLAPRPRTAHKGQYGHLLVVGGDRGMGGAALLTAESALRSGAGMVSLATRAEHVPAVLARRPEVMAVAVASANQLLPLAERADVLVVGPGLGQMAWGRSLLSAVAGVGLAQVWDADALNLLAAGAVSLPEGCVITPHPGEASRLLGQSVQVVQGDRPSAARALAARYQTVVVLKGAGSLVAAPDGRLALCDRGHPAMASAGLGDVLAGLTGALLAQGLPAFEAACLAVWLHAVAGEQVGALGRGLAAGDLIATVRQLLEEQSPCLK				NA	NA	NA	NA	NA
BMS010_04250	468	tsaE	COG0802	tRNA threonylcarbamoyladenosine biosynthesis protein TsaE	GTGTCTGAAATGACGTTGTTCGCCGCCGACGAAGCGGCGATGCTCGAACTCGGGGCACGCATCGCCGAGGCCACCGCCGGACACGGGGTGATCTATCTGCATGGCGATCTCGGTGCCGGCAAGACCACCCTGTCGCGCGGCATCCTTCGCGGGCTGGGGCATGCGGGGGCGGTCAAGAGCCCGACTTTCACGCTGGTCGAACCGTACGAAATCGGCGAAGCGAGGGTCTATCACTTCGACCTGTATCGTCTTGCCGATCCGGAAGAACTGGAATTCCTGGGAATTCGCGACTATTTCGAGGGCGACGCCCTGTGCTTGGTGGAATGGCCCCAACGGGGTGCCGGCGTTTTGCCAAAGGCCGACCTGGACATTACCATTAGTCCGCAAATGGGCGGCCGTTCGCTTCGCCTGCAGGCGCAAGGTGCGCGTGGCGAAGCCTGGTGTGCCGCATTGGCCATGGGAGCATGA	MSEMTLFAADEAAMLELGARIAEATAGHGVIYLHGDLGAGKTTLSRGILRGLGHAGAVKSPTFTLVEPYEIGEARVYHFDLYRLADPEELEFLGIRDYFEGDALCLVEWPQRGAGVLPKADLDITISPQMGGRSLRLQAQGARGEAWCAALAMGA	PGPT0019050_148	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_MURAMATE_DEGRADATION,PGPT0019050-amgK-K07102	NA	NA
BMS010_04251	1440	amiC_1	COG0860	N-acetylmuramoyl-L-alanine amidase AmiC	ATGAAAAACATAATGGGGTTGGGTATGCGCTTGCGCGCGATGTTCGCCGGTTTGGGGGTCCTGCTTGCGGCCGTGGCCGTGGATGCCCTGGCGGCCACCGAGGTGCGTGGCGTACGTCTGTGGCGGGCTCCGGACAACACCCGGCTGGTCTTCGATCTGTCCGGGCCGGTGCAGCACAATGTATTCACCCTGACCGCGCCCAACCGCATCGTCATCGATGTCAACGGTGCGCAGCTCGCCACTCAGCTCGAGCAGCTTTCCCTCAGCAATACGCCGATCACGAGCATTCGCTCCGCGCAACGCACGCCCACCGACCTGCGGGTGGTGCTCGACCTTTCCGCGGCGGTCGATCCGAAGAGTTTCACCCTGGCGCCGAATCAGCAGTACGGCCATCGCCTGGTCGTCGACCTGTTCGACCAGAGCGCCGATACCGCTCCCAAGGTGCCGGCTACTACTACAGCTTCCGTTCCGCAGGCCCCGGTGACTCCGACCCAGCCGGCGGTGAAACTGCCAGCGATGCCCAATGCCAAGCGTGACATCGTCATTGCCATCGATGCCGGCCATGGGGGGGAAGACCCGGGTGCCATCGGCCCGAAAGGGGCGCGGGAAAAAGACGTGGTGTTGGCCATCGCCAAGGAGCTGCAGCGGCAGATCAACGCTGAGAAGGGCTTCCGTGCCGAGTTGGTGCGGACGGGCGATTACTTCATTCCTTTGCGTAAACGCACCGAGATCGCCCGCAAGCAGGGCGCGGACCTGTTCGTTTCCGTGCATGCCGATGCGGCACCGCGCAGCAGCGCGTTCGGGGCTTCGGTATTCGCCCTTTCCGATCGGGGCGCGACGTCGGAAACCGCTCGCTGGCTGGCCGACAACGAAAACCGCTCCGACCTGATCGGCGGTGCCGGCAGCGTGACCCTGGACGACAAGGACCGCATGCTCGCCGGCGTGCTGCTCGATCTGTCGATGACCGCCTCGCTATCCTCCAGCCTCGACGTGGGGCAGAAGGTCCTCAGCAGCATGGGGCGTATCACACCGCTGCACAAACGACGGGTGGAGCAGGCCGGGTTCATGGTGCTGAAGTCGCCGGACATCCCGTCGATCCTGGTGGAAACGGGCTTCATTTCCAATCCCGGTGAGGCTGCCAAGCTGGCCAGTGCCAGCCATCAGCAATCGCTGGCGCGCTCGATCCACACCGGCATTCGCCAATTCTTCCAGCGCAATCCGCCGCCCGGCACCTACATCGCCTGGCTGCGCGACGAGGGCAAGATCACCCAGGCGCCGCACGAGCACGTGGTGACGTCCGGCGAGAGCCTGGCGCTGATCGCCCAGCGTTACCAGGTCAGCCTGCCGGCGCTGCGTACGGCCAATGGCCTGAAAACCGATGTCATCAAGGTCGGGCAGGTCCTGAGCATTCCGGCGACGGCCCTGGCGGCTCAACCATGA	MKNIMGLGMRLRAMFAGLGVLLAAVAVDALAATEVRGVRLWRAPDNTRLVFDLSGPVQHNVFTLTAPNRIVIDVNGAQLATQLEQLSLSNTPITSIRSAQRTPTDLRVVLDLSAAVDPKSFTLAPNQQYGHRLVVDLFDQSADTAPKVPATTTASVPQAPVTPTQPAVKLPAMPNAKRDIVIAIDAGHGGEDPGAIGPKGAREKDVVLAIAKELQRQINAEKGFRAELVRTGDYFIPLRKRTEIARKQGADLFVSVHADAAPRSSAFGASVFALSDRGATSETARWLADNENRSDLIGGAGSVTLDDKDRMLAGVLLDLSMTASLSSSLDVGQKVLSSMGRITPLHKRRVEQAGFMVLKSPDIPSILVETGFISNPGEAAKLASASHQQSLARSIHTGIRQFFQRNPPPGTYIAWLRDEGKITQAPHEHVVTSGESLALIAQRYQVSLPALRTANGLKTDVIKVGQVLSIPATALAAQP	PGPT0024160_1687	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
BMS010_04252	1896	mutL_2		DNA mismatch repair protein MutL	ATGAGCCACTTCGAGGAACCGGCGGTGTTGCCGCGCATCCAGTTGCTCAGTCCGCGGCTCGCCAACCAGATCGCGGCGGGCGAGGTGGTCGAACGACCGGCTTCGGTCATCAAGGAACTGTTGGAGAACAGCCTGGATGCCGGCGCTCGCCGTATCGATGTCGAGATCGAGCAGGGCGGCATCAAGCTGCTGCGGGTGCGTGACGACGGTGGCGGCATTCCCGCCGACGATCTGCCGCTGGCCCTGGCGCGCCACGCCACCAGCAAGATTCGCGAGCTGGAAGACCTCGAGCGGGTGATGAGCCTGGGCTTTCGGGGTGAGGCCCTGGCGTCGATCAGCTCCGTGGCCCGCCTGACCCTCACCTCCCGAACCCGCGATGCCGAACAGGCCTGGCAGGTGGAAACCGAAGGGCGGGACATGGCGCCGCGCGTGCAGCCCGCCGCGCATCCGGTCGGCACCTCGGTGGAGGTGCGCGACCTGTTCTTCAATACGCCGGCGCGGCGCAAATTCCTGCGTGCGGAAAAGACCGAATTCGATCATCTGCAGGAAGTCATCAAGCGGTTGGCGTTGGCGCGTTTCGATGTGGCCTTCCATCTGCGGCACAACGGCAAGAGCGTCCTGGCGTTGCACGAAGCGCCCGATGAGGTCGCCCGTGCGCGCCGTGTGGCCTCCGTTTGCGGTCCAGCCTTCCTCGAACAGGCGCTACCCATCGAGATCGAGCGCAATGGCTTGCATCTCTGGGGCTGGGTCGGTCTGCCGACCTTCTCGCGCAGCCAGGCGGACCTGCAATATTTCTACGTCAACGGCCGCATGGTGCGCGACAAGTTGGTGGCGCATGCGGTACGCCAGGCCTATCGCGACGTGTTGTACAACGGCCGTCACCCCACCTTCGTGCTGTTCCTCGAGGTCGATCCCGCCGTGGTCGACGTCAACGTGCATCCGACCAAACACGAAGTTCGCTTCCGCGACAGCCGGATGGTCCACGACTTCCTCTATGGCACCTTGCACCGTGCCTTGGGCGAGGTGCGCCCCGAGGACCAGTTGGCGCCGCCCGCAGCCACGGCCGCCGTCGTTCGACCCACTGGCGCGGCGGCTGGTGAATTCGGCCCGCAGGGCGAGATGAGCCTGGCGGCCAGTGTGCTGGAGCAGCCGGCGGCCACCTCGTCCTGGCGCGGAACCGGTGGTGGTTACGTGCCGACGCCTCGGGAGACGCCTCCCTCTCTGGCGGAAGCCCAGGGCGCCTACCGGGAGTTCTTCTCGCCCTTACCCGATGCCCCGCGCTCCACACCTTTGCCGGAAACTGGCGGGGATATCCCGCCGCTGGGTTATGCGCTGGCGCAGCTCAAGGGCGTTTACATCCTGGCCGAGAACGCGCTTGGACTGGTACTGGTGGACATGCATGCCGCTCATGAGCGGATCACCTACGAACGCCTGAAAACGGCGATGGCCAGCGAGGGCTTGCGTGGCCAGCCGTTGCTGGTACCCGAATCCATTGCGGTCAGCCAGCGCGAGGCGGATTGCGCGGAGGAGCATGGCGGCTGGTTCCAGCGGCTGGGCTTCGAATTGCAGCGCCTCGGCCCGGAAACCCTGGCGATCCGACAGATTCCTGCACTGCTCAAACAGGCCGAGGCGACTCAACTGGTTCGCGACGTCCTGTCCGATCTGCTGGAATACGGCACCAGTGATCGCATCCAAGCGCATCTCAACGAGCTGTTGGCGACCATGGCCTGCCATGGTGCGGTTCGCGCCAACCGGCGGCTGACCATTCCAGAGATGAACGCTTTGCTGCGCGACATGGAGCACACCGAACGCAGCGGTCAGTGCAACCACGGCCGCCCGACCTGGACCCAACTGGGCATGGACGACCTCGACAAGCTATTTCTTCGCGGACGTTGA	MSHFEEPAVLPRIQLLSPRLANQIAAGEVVERPASVIKELLENSLDAGARRIDVEIEQGGIKLLRVRDDGGGIPADDLPLALARHATSKIRELEDLERVMSLGFRGEALASISSVARLTLTSRTRDAEQAWQVETEGRDMAPRVQPAAHPVGTSVEVRDLFFNTPARRKFLRAEKTEFDHLQEVIKRLALARFDVAFHLRHNGKSVLALHEAPDEVARARRVASVCGPAFLEQALPIEIERNGLHLWGWVGLPTFSRSQADLQYFYVNGRMVRDKLVAHAVRQAYRDVLYNGRHPTFVLFLEVDPAVVDVNVHPTKHEVRFRDSRMVHDFLYGTLHRALGEVRPEDQLAPPAATAAVVRPTGAAAGEFGPQGEMSLAASVLEQPAATSSWRGTGGGYVPTPRETPPSLAEAQGAYREFFSPLPDAPRSTPLPETGGDIPPLGYALAQLKGVYILAENALGLVLVDMHAAHERITYERLKTAMASEGLRGQPLLVPESIAVSQREADCAEEHGGWFQRLGFELQRLGPETLAIRQIPALLKQAEATQLVRDVLSDLLEYGTSDRIQAHLNELLATMACHGAVRANRRLTIPEMNALLRDMEHTERSGQCNHGRPTWTQLGMDDLDKLFLRGR				NA	NA	NA	NA	NA
BMS010_04253	969	miaA_2	COG0324	tRNA dimethylallyltransferase	ATGCCCCTTCCTCCCGCCATCTTCCTCATGGGTCCCACCGCGGCCGGCAAGACCGACCTCGCCCTGGAGCTGGCGCGGGTGTTGCCCTGCGAACTGATCAGCGTCGATTCGGCCTTGGTCTATCGCGGCATGGACATCGGTACCGCCAAGCCGTCGAAGGCCGTGCTCGCGGAATTTCCGCACCGTCTAATCGATATCCGCGACCCTGCCGAAAGCTATTCGGCCGCCGAATTCCGCGACGATGCCCTGGCGGCGATGGCGGAAATCACGGCAGCGGGCCGCATTCCGCTGCTCGTTGGCGGAACCATGTTGTATTACAAAGCGTTGCTGGAAGGCCTGGCCGACATGCCCAGCGCCGACCCGGCGGTGCGTGCCGAGCTGGAGGCGCGCGCAGCGGTGGAAGGGTGGTCCGCATTGCACCGGGAGCTGCAGGAAGTGGACCCGGAGTCGGCGGCGCGCATCCACCCCAACGACCCGCAACGCCTGACCCGGGCATTGGAAGTCTACCGGGTCAGCGGAATGACGATGACGGCACATCGCCAGCGTCAGGCCGCGCAAAATCCCGCTTTAGACGGCTCCGGCGCTGGGCATTTGCCTTATACTGTCGCGCACTTGGCCATCGCTCCGGCTCAGCGCCAAGTGTTGCATGAGCGCATTGCCCAGCGTTTTCGGCTGATGCTGGAACAGGGCTTTGTCGGGGAGGTCGAAACTCTGCGCGAACGAAGTGACTTGCATGCTGGCCTGCCGTCTATACGTGCAGTGGGTTACCGCCAGGTCTGGGATTATCTGGACGGCAGGCTGACCCGGGACGAGATGGAGGAGCGCGGCATCATTGCCACGCGCCAACTGGCCAAGCGGCAGTTCACCTGGTTGCGCAGCTGGACCAATCTGCACTGGCTTGACAGCTTGGCCCGCGACAATCTGCCACGTGCCTTGAAATACCTGGAGTCGGTCTCCATATTGACCTGA	MPLPPAIFLMGPTAAGKTDLALELARVLPCELISVDSALVYRGMDIGTAKPSKAVLAEFPHRLIDIRDPAESYSAAEFRDDALAAMAEITAAGRIPLLVGGTMLYYKALLEGLADMPSADPAVRAELEARAAVEGWSALHRELQEVDPESAARIHPNDPQRLTRALEVYRVSGMTMTAHRQRQAAQNPALDGSGAGHLPYTVAHLAIAPAQRQVLHERIAQRFRLMLEQGFVGEVETLRERSDLHAGLPSIRAVGYRQVWDYLDGRLTRDEMEERGIIATRQLAKRQFTWLRSWTNLHWLDSLARDNLPRALKYLESVSILT	PGPT0007210_1232	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0007210-miaA|ipt-K00791	NA	NA
BMS010_04254	255	hfq_1	COG1923	RNA-binding protein Hfq	ATGTCAAAAGGGCATTCGCTACAAGACCCTTACCTCAATACCTTGCGTAAGGAACGCGTCCCGGTTTCTATTTATCTGGTCAATGGCATCAAGCTGCAAGGCCAGATCGAATCCTTCGACCAGTTCGTGATTCTGCTGAAAAATACTGTCAGCCAGATGGTCTACAAACACGCCATTTCGACCGTGGTTCCGAGCCGTCCGGTGCGTCTGCCCAGCGCGACCGAATCCGAACAGCCCGAGCCCGGTAACGCCTGA	MSKGHSLQDPYLNTLRKERVPVSIYLVNGIKLQGQIESFDQFVILLKNTVSQMVYKHAISTVVPSRPVRLPSATESEQPEPGNA	PGPT0025560_1029	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI1|AI-2|CAI-1_PERCEPTION|SIGNALLING,PGPT0025560-hfq-K03666	NA	NA
BMS010_04255	1302	hflX_1	COG2262	GTPase HflX	TTGTTCTTCGAGCGCCCCGGTGGTGGTGAGCGGGCCATCCTGGTTCATCTGGATGGCCAAGATCCCGAAGCGCGTGAAGACCCGCAGGAATTCCAGGAGCTGGCACTTTCGGCTGGAGCCGATACGGTGGCTTTTGTCAGCGTATCGCGTACCCAGCCGACCGCCAGGTTTCTGATCGGCAGCGGCAAGGTCGAAGAACTTCAGCAGCGGGTCAAGGCCGAACAGGCCGAGCTGGTGATCTTCAATCACACGCTCACGCCTAGTCAGGAACGCAACCTCGAACGCGCCTTCGAATGTCGTGTGCTGGATCGTACCGGCCTGATTCTCGACATCTTCGCCCAGCGCGCGCGCACCCATGAAGGCAAGCTGCAGGTCGAGCTGGCCCAACTGGAGCACATGAGCACCCGTCTGGTTCGTGGCTGGACTCACTTGGAACGGCAAAAAGGCGGTATCGGCCTGCGCGGCCCGGGTGAAACCCAGTTGGAAACCGACCGCCGCTTGCTGCGTGTGCGCATCCGCCAGATCAAGCAGAAGCTGGAAAAGGTGCGAGGGCAGCGCGAGCAGGCTCGTCGTGGCCGCAAGCGTGCCGATATCCCCTCGGTTTCCCTGGTCGGCTATACCAACGCCGGCAAATCCACGCTGTTCAATGCCCTGACGTCTTCGGACGTGTATGCGGCCAACCAGTTGTTCGCCACCCTCGATCCCACCTTGCGCCGCCTCGAGCTGGATGACCTGGGACCGGTGGTGCTGGCCGATACGGTGGGCTTCATCCGGCATCTCCCGCACAAGCTGGTGGAAGCCTTCCGGGCGACGCTCGAGGAGTCGAGCAATGCCGATCTTCTTCTGCATGTGATCGACGCCCATGAGCCCGAGCGCATGGCGCAGATGGAGCAGGTCATGGCGGTGCTGGGGGAAATCGGCGCGGAAGGCTTGCCGATGCTCGAGGTATACAACAAGCTCGATCTGCTCGACGGCATGGAGCCGCAGATTCAGCGCGATGCAGAGGGCAAGCCGCAGCGTGTCTGGCTGTCGGCCCGTGACGGCCGCGGTCTCGATCTGTTGCGCCAGGCCATCGCCGAGCTGTTGGGCGACGACCTGTTCGTCGGTACCTTGCAATTGCCGCAACAGTTGGGGCGGCTGCGTTCACAGTTTTTCGCCATGGGGGCGGTGCTGAGCGAAGGGCACGACGAGGCGGGCAGCAGCCTGCTGGAAGTGCGTTTGCCGAGGGTTGAGTTGCACCGGCTGGTGAGCCGGGCGGGGCTGCAGCCGAACGAGTTCCTCGAACAACATACTTTGCAATAA	MFFERPGGGERAILVHLDGQDPEAREDPQEFQELALSAGADTVAFVSVSRTQPTARFLIGSGKVEELQQRVKAEQAELVIFNHTLTPSQERNLERAFECRVLDRTGLILDIFAQRARTHEGKLQVELAQLEHMSTRLVRGWTHLERQKGGIGLRGPGETQLETDRRLLRVRIRQIKQKLEKVRGQREQARRGRKRADIPSVSLVGYTNAGKSTLFNALTSSDVYAANQLFATLDPTLRRLELDDLGPVVLADTVGFIRHLPHKLVEAFRATLEESSNADLLLHVIDAHEPERMAQMEQVMAVLGEIGAEGLPMLEVYNKLDLLDGMEPQIQRDAEGKPQRVWLSARDGRGLDLLRQAIAELLGDDLFVGTLQLPQQLGRLRSQFFAMGAVLSEGHDEAGSSLLEVRLPRVELHRLVSRAGLQPNEFLEQHTLQ	PGPT0007245_2344	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007245-hflX-K03665	NA	NA
BMS010_04256	1161	hflK_2	COG0330	Modulator of FtsH protease HflK	ATGGCTTGGAATGAGCCGGGTGGCAATTCGAATAATCAGGATCCTTGGGGGGGGCGCCGTGGTGGCGACCGCAAGGGGCCGCCGGATCTCGACGAGGCCTTCCGCAAATTACAGGAGAGCCTGAACGGTCTCTTCGGTGGCAAGAAACGCGGCGCCGACGGCGATGGCAGGGGGAGTGGCGGCTTCGGTCTGGTCGGCATCGTGCTGGTCATTCTCGCGGCACTCTGGCTGTGGAGCGCGATCTACGTGGTCGACGAGCAAGAGCAGGCCGTGGTGCTGCGCTTCGGCAAGTACTACGAGACCGTCGGTCCGGGCCTGAACATCTATTTCCCGCCGATCGATCGCAAGTTCCAGGAAAACGTCACCCGCGAGCGTGCCTATAGCAAGCAGGGCCAGATGTTGACCATGGACGAAAATATCGTCGAAGTGCCGCTGACCGTTCAGTACAAGATCAGCAACCTGCAGGACTTCGTGCTGAACGTGGATCAGCCGGAAGTCAGCTTGCAGCACGCTACCGAAAGCGCCTTGCGCCATGTGGTCGGTTCCACCGAGATGGACCAGGTACTGACCGAGGGCCGTGTCGCCATGGCCAGTGAGATCAAGGAGCGCCTGCAGCGGTTCCTCGATACCTACCGCACCGGCATCACCGTGACCCAGGTGAACGTCCAGAGCGCCCAGGCACCCCGTGAAGTGCAGGAGGCATTCGACGACGTGATCCGTGCCCGCGAGGACGAGCAGCGCGAGAAGAACCAGGCCGAAGCCTATGCCAACGGCGTGGTACCCGAGGCGCGCGGCCAGGCGCAGCGCATTCTCGAGGATGCCAACGGCTACCGCGACGAAGTGGTTTCCCGTGCCAAGGGTGAGGCGGACCGCTTTACCAAGTTGCTCGCCGAATACCGCAAGGCGCCCGAGGTAACCCGCCAGCGCCTGTACCTGGACACCATGCAGCAGATGTACAGCAACACCAGCAAGGTTCTGGTGACCGGTGAAAGCGGCCAGAACAACCTGCTCTACCTGCCTTTGGACAAGATGATCGATAACCGTGGCGGCAGTGTCTCCGGTTCCGGTTCTTCCGGGCAATCGGCGACGGGCAGCGATATGGGAACGCGGATCGTCGATGATCTGCAGCAGCGTAACCTGCGTTCGAGGGAGAGCCGCTGA	MAWNEPGGNSNNQDPWGGRRGGDRKGPPDLDEAFRKLQESLNGLFGGKKRGADGDGRGSGGFGLVGIVLVILAALWLWSAIYVVDEQEQAVVLRFGKYYETVGPGLNIYFPPIDRKFQENVTRERAYSKQGQMLTMDENIVEVPLTVQYKISNLQDFVLNVDQPEVSLQHATESALRHVVGSTEMDQVLTEGRVAMASEIKERLQRFLDTYRTGITVTQVNVQSAQAPREVQEAFDDVIRAREDEQREKNQAEAYANGVVPEARGQAQRILEDANGYRDEVVSRAKGEADRFTKLLAEYRKAPEVTRQRLYLDTMQQMYSNTSKVLVTGESGQNNLLYLPLDKMIDNRGGSVSGSGSSGQSATGSDMGTRIVDDLQQRNLRSRESR				NA	NA	NA	NA	NA
BMS010_04257	870	hflC_2	COG0330	Modulator of FtsH protease HflC	ATGAGCAACAAGTCGCTGATCGCCCTGATTGTCGGCGTGGTCCTGGCGCTGGTCGCCTGGAACAGCTTCTACATCGTGGCGCAGACCGAGCGTGCCGTGCTGTTGCGTTTCGGTAAGGTGGTCGAGGCGGACGTCCAGCCCGGCCTGCACGTGAAAATGCCGATTGTGAACCAGGTGCGCAAATTCGACGCACGCCTGCTGACGCTTGACTCGGCTACCTCGCGCTTCCTGACGTTGGAGAAGAAAGCGGTCATGGTGGATGCCTACGCCAAGTGGCGTGTGGCGGATGCCGAACGCTTCTATACCGCGACCTCGGGCCTCAAACAGATCGCCGACGAGCGTCTGTCGCGCCGCCTGGAGTCGGGGCTTCGCGACCAGTTCGGTAAGCGTACCCTGCATGAGGTGGTATCCGGCGAGCGCGATGCACTGATGGCGGAAATCACCGGTTCGCTGGACCGGATGGCGCGCAAGGAGCTGGGGATCGAGGTGCTCGACGTGCGCGTCAAGGCCATCGACCTGCCCAAAGAGGTCAACCGCAGCGTATTCGAGCGGATGAGCACCGAGCGTGAGCGCGAGGCGCGTGAGCACCGTGCCAAGGGCCGTGAGCTGGCCGAGGGGATTCGCGCCGATGCCGATCGTCAGCGCCGAGTCCTTCTCGCCGAGGCCTACCGCGAATCGGAAGAAACTCGCGGTGATGGGGACGCCCAGGCAGCCGCGATCTACGCCAGCGCCTACAACCAGGATCCGGAGTTCTACTCGTTCTATCGCAGCCTGCAAGCCTATCGGGAAAGCTTCTCGAACAAGGGCGACGTGCTGGTGCTGGATCCGAAGAGCGAGTTCTTCAATTACCTGGAACAGGCCAAGCGCTGA	MSNKSLIALIVGVVLALVAWNSFYIVAQTERAVLLRFGKVVEADVQPGLHVKMPIVNQVRKFDARLLTLDSATSRFLTLEKKAVMVDAYAKWRVADAERFYTATSGLKQIADERLSRRLESGLRDQFGKRTLHEVVSGERDALMAEITGSLDRMARKELGIEVLDVRVKAIDLPKEVNRSVFERMSTEREREAREHRAKGRELAEGIRADADRQRRVLLAEAYRESEETRGDGDAQAAAIYASAYNQDPEFYSFYRSLQAYRESFSNKGDVLVLDPKSEFFNYLEQAKR				NA	NA	NA	NA	NA
BMS010_04258	186			hypothetical protein	ATGTGGCAGGAACTCGGCATAGCCTTTTGCTTGATGTTGGTGCTGGAAGGCATCCTGCCCTTCCTCTATCCGCGACGCTGGCGCGGGGCTCTCACGCAGTTATTGCAATTGCCTGATCGCCAACTGCGCCTCATGGGGCTGGCCAGCATGTTGCTGGGGACCACCCTCCTGTATCTGCTTCACTGA	MWQELGIAFCLMLVLEGILPFLYPRRWRGALTQLLQLPDRQLRLMGLASMLLGTTLLYLLH				NA	NA	NA	NA	NA
BMS010_04259	1188	hisZ_2	COG3705	ATP phosphoribosyltransferase regulatory subunit	ATGGCAACGGTAGACCGCTGGCTGCTGCCAGATGGCATCGAAGAAGTACTGCCGCCGGAAGCGGCGCGCATCGAAGCCGCACGGCGTCAGGTGCTGGACCTGTTCCATCGCTGGGGTTACGAATTCGTCGTGACGCCGCATATCGAATACCTTGAGTCGCTGCTCACCGGCGCGGGCCAGGATCTGGATCTGCGTACCTTCAAGGTGACGGACCCTTATTCCGGTCGGCTGATGGGCTTCCGCGCCGACATCACGCCGCAAGTGGCCCGGATCGACGCGCATACCCTGCGCCGCGAAGGACCGAGCCGCCTCTGCTATGCCGGCAGCGTGCTGCATGCCCAGCCGCGCGCACTGTCCACCTCGCGCAGCCCGATCCAATTGGGTGCCGAACTCTACGGCGATGCGAGCCCCGCCAGCGACGTCGAAGTCATCAGTCTGATGCTGGACATGCTCGAACTGGCTGAAGTGCCCGATGTGCACATGGACCTGGGGCATGTCGGTATTTACCGTGGCCTGGCTCGTGCGGCCGATCTGTCCGGCGAGGTCGAGCAACGGCTGTTCGATGCCCTGCAGCGCAAGGCGATGGACGAAGTCGCCGAGCTGACCGAAGGCCTGCCGCAGGCGCTGGCCTCCATGCTGCGTTCGCTGGCCGAACTCTGCGGCGGACGGGAAGTGCTCGAGCTGGCGCAGGCGTGCCTCGTCGAGGCGCCATCCGACGTGCATGCTGCGCTGGATGAGTTGATCGCCATCGCCGATGCCCTCGGCTTGCGCTATCCGGAATTGCCGCTGTACTTCGATCTCGGTGAGTTGCGCGGCTACCACTACCACACCGGGGTGGTCTTCGCGGCGTTCGTGCCGGGCGTCGGCCAGTCGATCGCCCAGGGTGGGCGCTATGACGATATCGGCGCCGATTTCGGTCGGGCGCGTCCGGCCACTGGTTTCTCCACCGATCTGAAGACCTTGGTCACCCTGGGTCGGATGCCGCTCGCCGAAACGGCTGGCGGTGTCTGGGCACCGGATAGCCACGATCTTTACCTCTGGCAGGCCATCCAGCGCCTGCGTCGCGCCGGCGAGCGGGTCGTTCAGGCCTTGCCGGGCCAGGGCGAGGCGGATGCCGCCGAGCTGGGTTGCGACCGCCAGCTGTCGCTGCGCGAGGGTTCATGGCAGGTCGTGCCGCTGGCGACCTGA	MATVDRWLLPDGIEEVLPPEAARIEAARRQVLDLFHRWGYEFVVTPHIEYLESLLTGAGQDLDLRTFKVTDPYSGRLMGFRADITPQVARIDAHTLRREGPSRLCYAGSVLHAQPRALSTSRSPIQLGAELYGDASPASDVEVISLMLDMLELAEVPDVHMDLGHVGIYRGLARAADLSGEVEQRLFDALQRKAMDEVAELTEGLPQALASMLRSLAELCGGREVLELAQACLVEAPSDVHAALDELIAIADALGLRYPELPLYFDLGELRGYHYHTGVVFAAFVPGVGQSIAQGGRYDDIGADFGRARPATGFSTDLKTLVTLGRMPLAETAGGVWAPDSHDLYLWQAIQRLRRAGERVVQALPGQGEADAAELGCDRQLSLREGSWQVVPLAT				NA	NA	NA	NA	NA
BMS010_04260	1296	purA_1	COG0104	Adenylosuccinate synthetase	ATGGGTAAGAATGTCGTAGTCCTGGGCACCCAGTGGGGCGATGAGGGCAAAGGCAAGATCGTCGATCTGCTGACCGATCAGGCAGCCGCCGTGGTGCGTTACCAGGGCGGGCACAATGCCGGCCATACCCTGGTCATCGAGGGCGAGAAGACCGTCCTGCACCTGATTCCGTCCGGCATCCTGCGCGAAGGCGTGCAGTGCCTGATCGGCAACGGTGTGGTGCTGGCACCCGACGCCCTGCTGCGTGAAATCGCCAAGCTGGAAGAGAAAGGCGTGCCGGTGCGCGAGCGTCTGCGCATCAGCCCGGCCTGCCCGCTGATCCTGCCTTACCACGTGGCCCTCGACCTAGCCCGTGAGAAGGCGCGTGGCGACGCCAAGATCGGCACCACCGGGCGTGGCATCGGTCCGGCCTACGAAGACAAGGTGGCGCGTCGCGGCCTGCGTGTCGGCGATTTGTTCCACCGCGAGCGTTTCGCCGCCAAGCTGGGTGAAATTCTCGATTATCACAACTTTGCGCTCCAGCATTACTACAAGGAGCCGGCGATCGACTTCCAGAAGACTCTGGACGAGGCCATGGTCTATGCCGACCAGCTCAAGCCGATGATGCTGGACGTCACTGCGCGCCTGCACGAGCTGCGCCGCGCAGGGGCCGACATCATGTTCGAAGGCGCCCAGGGCTCGCTGCTGGACATCGATCACGGCACCTACCCCTACGTGACCAGCTCCAACACCACCGCTGGCGGCACCGCCACCGGTTCCGGCTTCGGCCCGCTGTACCTGGACTACGTGCTGGGCATCACCAAGGCCTATACCACCCGCGTTGGTTCCGGTCCGTTCCCGACCGAGTTGTTCGACGACGTCGGTGCCTTCCTGGCCAAGCGCGGTCACGAGTTCGGTGCGACCACCGGTCGCGCGCGCCGCTGTGGCTGGTTCGATGCGGTGATCCTGCGTCGCGCCATCGAGATCAACAGCATCTCCGGTCTTTGCCTGACCAAGCTCGACGTGCTGGACGGCCTCGAGACCATCCGCATCTGCACCGGCTACAAAGACCAGCACGGCCAGCTCCTGACCGATGCCCCGACCGATGCCGACAGCTACATCGGCCTGCAGCCGGTCTACGAGGAAGTGCCCGGCTGGAAAGAATCGACCCTGGGCGCGAAGAGCCTGGAAGAGTTGCCGGCCAATGCGCGTGCCTACATCAAGCGCGTGGAAGAGCTGGTGGGGGCGCCGATCGATATCATTTCCACCGGCCCGGACCGTATCGAAACCATCATCCTGCGCCATCCGTTCGCCTGA	MGKNVVVLGTQWGDEGKGKIVDLLTDQAAAVVRYQGGHNAGHTLVIEGEKTVLHLIPSGILREGVQCLIGNGVVLAPDALLREIAKLEEKGVPVRERLRISPACPLILPYHVALDLAREKARGDAKIGTTGRGIGPAYEDKVARRGLRVGDLFHRERFAAKLGEILDYHNFALQHYYKEPAIDFQKTLDEAMVYADQLKPMMLDVTARLHELRRAGADIMFEGAQGSLLDIDHGTYPYVTSSNTTAGGTATGSGFGPLYLDYVLGITKAYTTRVGSGPFPTELFDDVGAFLAKRGHEFGATTGRARRCGWFDAVILRRAIEINSISGLCLTKLDVLDGLETIRICTGYKDQHGQLLTDAPTDADSYIGLQPVYEEVPGWKESTLGAKSLEELPANARAYIKRVEELVGAPIDIISTGPDRIETIILRHPFA	PGPT0020140_2468	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020140-purA-K01939	NA	NA
BMS010_04261	1935			hypothetical protein	GTGTCCGCCATCCTGTCCCTGTTGCGCAGTCGTCTGCTGCGTCCCGTCTTTTTTGCGCTGGGAATCGCCTTGCTGGTGCAAATCCTCGTCGCGGTTGCACTGACCCGAAGCACGGTCGAGGCCTTGGAGGCCGATCTGGGCAGCCGTCTGGAAGGCGACATGCAGCGACTGGGTGTCGAGCTCAAGCAGGCGGGCGGCGAGTTGTCCGCAGGGCTGGAAAGCCTGTCGGCCAGTACACGCGAGCGGTTGTCGGCGGGACTGTCTTCGCGATTGCAGGGTGAGCAGGAGCAATTACGGGTGACGCTGGAGAAAAGCCTCAAGGAGTCCGCCAACGACATGGCGCAGCTTCTGGCAGCTGTGGCGCCCAGGGCGATGTGGGACAACGACATACCGACGCTGTCGGAATTCGCCCGGCGGGCGCAACGCAATCCCAATGTGCTGTTCGTGATCTACGACGATGCCGAGGGCCAGCATCTGACCCGCTATCTCAATCGGCAAAGGCCGGAGATCAAGGCCCTGCTGGCGAAAGGTCAGGGCGAGCGGGCATTGGATCAGGTGCTCGAGGCGGCCCGGCACGATGAGTCGGTGTATTTCGTCGAGGCATCCATCAGTCCGAACGGGGTCGAAATCGGCAAAGTCCTGATGGGGGTCTCGACGGCGACCGTCGAGACCGAGCTGGCGGCCTTGGACACGCGCTTCAACGCACTCATCGCCAGCGGCGGGCAACTGGTGGCCGACAGCTTGGCGGGTGCGGCAGCCGACAGCTCGGCGGCGTTGAGTGCGCGATTACAGGCGGCCCAGGACGCGGCGGCCGGTATTTCGGCCGGGGCCCGCGAGTCGGTCCAGATGGCCGCCGGGACGTTGCGTTGGCGGATTGGCACCGGGCTGGTGATTATCGGAATCGGTGTCCTGCTGGTGCTGGCACTGGTGCTTGGGCGCACGGTAGTCAGCCGCTTGCGTTTGCTGATCGCGGCGCTGAACGACCTGGCGGCCGGCGAGGGGGACCTGACGCGGCGTGTCGAATTGCACAGTCGCGACGAGGTGGGTGACATGGCCGCGGCCGTCAATCGCTTTGTCGCCAAGCTGCAACCCATCGTCCGCGAGGCGGGGGAGGTCGCCCAGCGCACCGGCGTCGAAATCGCCGGGTTGAGTTCGCGTAGTGCGGCCGCCGAGGCTGCGGCGGGACGCCAGCGCGACGAAGTCTCCGGCAGCCTCCAGGCGCTGGCTGAAATGACCGAGCAGGCCCAGGCGGAGAGCCGCGCGATGCAGGAGGCATTGCATCGGGTCGAGTCGATTCGCAGGGCGGCTGGCGAGAACGCCGCCATTGCCGGCCGGGTCGGACACTCCATCGAGGAGCTGGTAGCACGCGTGGAAACCGGCTCGGCGGTAATCGAGCGGTTGGCGCGGCAGAGCGAGCAGATCGAAGTGGTGCTCAGCGTGATCCATGGTATCGCCGAGCAGACCAACCTGTTGGCGCTCAACGCTGCCATCGAAGCGGCCCGGGCAGGGGAGAGCGGGCGTGGTTTCGCCGTGGTGGCTGATGAGGTCCGGGCGCTGGCCAGCAAGACGCAGCAGTCTACCGGCGATATCCAGGCACACATCAACGCCTTGCAGCAGGGGGCCCGGGAGGCGGTAGCGGCCATTGGACAAGCCGGTCAGCAGGCGAGTGAAGGGTTGGCGGCGTTGCGGGAGAGCAGCGAATTGCAGCGTTCGATCCAGGTGGCTGTGGAGGATGTGCATGGTGCCATCGACTCGGCGACGCTGGCCGCCTCACGCCAAGCCGAGGGGGCGCTGGCGGTGAGGGGGAGGGTCGAGGTGATTCACGGGGAGGCGCAGCGGGCGGCGGAAGCCGTCGCGGCGACCGCGGCCAGCGGACGTGTATTGGATAACTTGGCCGGTCAGCTCAAAGCCAGCCTGGGGCAATTCCGCGCCTGA	MSAILSLLRSRLLRPVFFALGIALLVQILVAVALTRSTVEALEADLGSRLEGDMQRLGVELKQAGGELSAGLESLSASTRERLSAGLSSRLQGEQEQLRVTLEKSLKESANDMAQLLAAVAPRAMWDNDIPTLSEFARRAQRNPNVLFVIYDDAEGQHLTRYLNRQRPEIKALLAKGQGERALDQVLEAARHDESVYFVEASISPNGVEIGKVLMGVSTATVETELAALDTRFNALIASGGQLVADSLAGAAADSSAALSARLQAAQDAAAGISAGARESVQMAAGTLRWRIGTGLVIIGIGVLLVLALVLGRTVVSRLRLLIAALNDLAAGEGDLTRRVELHSRDEVGDMAAAVNRFVAKLQPIVREAGEVAQRTGVEIAGLSSRSAAAEAAAGRQRDEVSGSLQALAEMTEQAQAESRAMQEALHRVESIRRAAGENAAIAGRVGHSIEELVARVETGSAVIERLARQSEQIEVVLSVIHGIAEQTNLLALNAAIEAARAGESGRGFAVVADEVRALASKTQQSTGDIQAHINALQQGAREAVAAIGQAGQQASEGLAALRESSELQRSIQVAVEDVHGAIDSATLAASRQAEGALAVRGRVEVIHGEAQRAAEAVAATAASGRVLDNLAGQLKASLGQFRA				NA	NA	NA	NA	NA
BMS010_04263	2649	rnr_1	COG0557	Ribonuclease R	ATGGCCGACTGGCACTCCCTCGATCCCGAGGCCGCTCGCGAAGCGGAAAAATACGAGAATCCCATCCCCAGCCGTGAGCTGATCCTGAAGCACTTGGCGGAACGCGGTTCCCCGGCGAGCCGTGAGCAGTTGGTCGATGAGTTCGGACTGCATACCGACGATCAACAGGAAGCCTTGCGTCGCCGATTGCGTGCCATGGAGCGCGACGGCCAGTTGATCTATACGCGCCGCGGCGCCTATGCCCCGGTGGATAAGCTCGATCTGATCCTCGGCCGCATCAGCGGACATCGCGACGGATTCGGCTTCCTGATTCCGGACGACGGCAGCGACGATCTTTTTCTCAGCCCGGCACAGATGCGTCTGGTCTTCGATGGCGACCGGGTCCTTGCCCGGGTCTCGGGCTTCGACCGGCGCGGCCGCCGCGAGGGTTCGATCGTCGAGGTGATCTCCCGCGCTCACGAAACCATCGTCGGCCGCTATTACGAAGAAAGTGGCATCGGCTTCGTCGAGGCCGACAATCCGAAGATCCAGCAAGAGGTGCTGGTGACGCCCGGGCGTACCGCGGGCGCCAAGATTGGCCAGTTCGTCGAGATCAAGATCACCCATTGGCCGACCTCGCGCTTCCAGCCCCAGGGCGACATCGTCGAAGTCATCGGCAACTACATGGCGCCGGGCATGGAAATCGACGTGGCCCTGCGCAGCTACGACATTCCCCATGTCTGGCCGAACGCGGTGCTCAAGGAAGCAGCGAGGCTCAATCCGGAGGTCGAAGAGAAGGACAAGACCAAGCGTGTCGATCTTCGTCATTTGCCTTTCGTCACCATCGACGGGGAGGATGCCCGTGATTTCGACGATGCCGTGTATTGCGAGAAGGGCGGACTGTTTTCCGGTAGCTACCGATTGTTCGTCGCTATCGCCGATGTCTCCCATTACGTGAAGGTCGGTTCGGCCCTGGACGAGGAAGCGAAGAACCGCGGCAACTCGGTTTATTTCCCCGAGCGGGTGGTACCGATGCTGCCGGAAGAGCTGTCCAATGGCCTTTGCTCGCTGAATCCGCACGTCGATCGGCTGGCAATGGTCTGCGAGATGACCATCTCCCGCAGCGGCAAACTCAGCGACTATCAATTCTATGAAGCAGTGATCCACTCCCATGCGCGCCTGACCTACAACAAGGTCAGCGCCATGCTGGAACGGCCGAAGAGCCCGGAGGGCAAGCGGCTGTGCGGCGAGTACGCCGAGGTCCTGCCGCACCTCAAGCAGCTCTACTCGCTCTATAAGATACTGCTCAAGGCGCGCCACACCCGTGGTGCGATCGATTTCGAAACCCAGGAAACGCGGATCGTCTTCGGCTCCGGGCGCAAGATCGCTGAGATCCTGCCGACCCAGCGCAACGATGCGCACAAGCTCATCGAAGAGTGCATGCTGGCTGCCAACGTGGCCACCGCTGCCTTCCTGCAGAAGCATGAAATCCCCGCCCTGTATCGCGTACACGACGGCCCCCCGGCCGAGCGTCTGGAAAAGCTCAAGGCCTTCCTCGGCGAGCTGGGGCTGAGCCTGCATCGCAGCAAGGATGGTCCGACTCCGAAGGATTACCAGAAGCTGCTGGAGTCGATTCAGGAACGCCCGGATTTCCACCTGATCCAGACCGTGATGCTGCGTTCGCTGAGCCAGGCGGTCTACAGCGCCGACAACAACGGGCACTTCGGCCTGAACTACGAGGCCTATACGCACTTCACCTCGCCGATTCGTCGCTACCCGGACCTCCTGGTACACCGGGCGATCCGCAGTGTGATCCGCTCCAAGCGCGAGACGCCGCATGTCCGCCGCGCCGGGGCGGCGAGCATGCCCAAGGCGCGTATCTATCCCTACGACGAACCGGCCTTGGAGCAGCTCGGCGAACAGTGCTCGATGACCGAGCGGCGCGCCGACGAGGCGACCCGCGACGTGGTCAACTGGCTCAAGTGCGAGTTCATGCAGGATCGCGTCGGTGAGAGCTTCGACGGGGTGATCACGGCGGTGACCGGTTTCGGCATCTTCGTCGAGCTGAAGGACATCTATGTCGAGGGCCTGGTGCACGTCACCGCGCTGCCGGCGGACTATTACCACTTCGATCCGGTCCATCATCGCCTGTCCGGTGAGCGCAGCGGCCGCAGTTTCCGCCTTGGCGACAGCGTCGCGGTTCGGGTCATGCGGGTCGATCTGGACGAGCGCAAGATCGATTTCGAACTGGCCGAGGCGCAGTTGGAACGGCCGGTTGGGCGGAAGAAGCGTTCGCCGGAGCCTGAGTCGTCCAGCGATCGGCGCCCGGCCAAGAAAGGCCGGAAGGAAAAGGCGGGCGATGCGCCGCGCGGCAAGGGCAAGGCTGGAAAATCCGCGGCCCCGGTTGCGCCGGAGCTGTTGGCCCAGGCCGACGCCATGCTCGGCAACACCGACGTGAAGAAAAGCCGGGCTGTGAAGCAGGCCTTGCTCGCCGAGGCGAAGAGCGGCAAGCCGGGCAAGAAGAGCCCGCCCAAGGCGTCGTCGGGCAGCGCCGCGAAGAGCGACTCGGAGAAGAGCGGCGGCCCCAGGAAACACCGCAAGGGGCCGTCCAAGTCCTCCTCGGCCGCCAAGCCGGGAGCGACCCCGCGTAAACGTAAGGCGAAGTCATGA	MADWHSLDPEAAREAEKYENPIPSRELILKHLAERGSPASREQLVDEFGLHTDDQQEALRRRLRAMERDGQLIYTRRGAYAPVDKLDLILGRISGHRDGFGFLIPDDGSDDLFLSPAQMRLVFDGDRVLARVSGFDRRGRREGSIVEVISRAHETIVGRYYEESGIGFVEADNPKIQQEVLVTPGRTAGAKIGQFVEIKITHWPTSRFQPQGDIVEVIGNYMAPGMEIDVALRSYDIPHVWPNAVLKEAARLNPEVEEKDKTKRVDLRHLPFVTIDGEDARDFDDAVYCEKGGLFSGSYRLFVAIADVSHYVKVGSALDEEAKNRGNSVYFPERVVPMLPEELSNGLCSLNPHVDRLAMVCEMTISRSGKLSDYQFYEAVIHSHARLTYNKVSAMLERPKSPEGKRLCGEYAEVLPHLKQLYSLYKILLKARHTRGAIDFETQETRIVFGSGRKIAEILPTQRNDAHKLIEECMLAANVATAAFLQKHEIPALYRVHDGPPAERLEKLKAFLGELGLSLHRSKDGPTPKDYQKLLESIQERPDFHLIQTVMLRSLSQAVYSADNNGHFGLNYEAYTHFTSPIRRYPDLLVHRAIRSVIRSKRETPHVRRAGAASMPKARIYPYDEPALEQLGEQCSMTERRADEATRDVVNWLKCEFMQDRVGESFDGVITAVTGFGIFVELKDIYVEGLVHVTALPADYYHFDPVHHRLSGERSGRSFRLGDSVAVRVMRVDLDERKIDFELAEAQLERPVGRKKRSPEPESSSDRRPAKKGRKEKAGDAPRGKGKAGKSAAPVAPELLAQADAMLGNTDVKKSRAVKQALLAEAKSGKPGKKSPPKASSGSAAKSDSEKSGGPRKHRKGPSKSSSAAKPGATPRKRKAKS				NA	NA	NA	NA	NA
BMS010_04264	753	rlmB_2	COG0566	23S rRNA (guanosine-2'-O-)-methyltransferase RlmB	ATGAGTCAGTTGGAAAAAATCTACGGCGTGCATGCCGTGGAAGCGTTGCTGCGTCATCATCCCAAGCGGGTCAAGCAGCTCTGGTTGGCGGAAGGTCGGCACGATCCGCGCGTGCAGGCACTGATCCAGCTTGCTCAGGAGGCCAGGGTCACTGTCGGTCAGCGTGATCGCCGTGAGCTGGACGAATGGGCCGAGGACGGCGCCCACCAGGGCGTGGTTGCCGAAGTAAGCCCCAGCCAGGTCTGGGGCGAGGCCATGCTCGAGGAACTGCTCGATCGTGCCGAGGGGCCGCCCCTGTTGTTGGTACTGGATGGCGTGACCGATCCGCACAACCTCGGTGCCTGCCTGCGTACCGCCGATGCGGCGGGTGTGCTGGCGGTAATCATCCCCAAGGACAAGTCGGCTACCCTGAACGCCACGGTGCGCAAGGTCGCCTGCGGGGCGGCCGAAGTGGTGCCGCTGGTGGCGGTGACCAACCTCGCACGGACCCTGGAAAAGCTTCAGCAGCGCGGGCTGTGGACGGTCGGTACGGCCGGCGAGGCCGAACAGGAACTGTACCAGCAGGACCTCACCGGCCCCACGGTGCTGATCATGGGGGCCGAAGGCAAGGGCATGCGCCGCCTGACCCGCGAACATTGCGATTACCTGGTGAAGCTGCCGATGGCCGGTAGCGTCAGCAGCCTCAATGTGTCGGTCGCTACGGGCGTCTGCCTGTTCGAGGCGGTTCGGCAGAGGGGCAGCCACAAGCTTTAA	MSQLEKIYGVHAVEALLRHHPKRVKQLWLAEGRHDPRVQALIQLAQEARVTVGQRDRRELDEWAEDGAHQGVVAEVSPSQVWGEAMLEELLDRAEGPPLLLVLDGVTDPHNLGACLRTADAAGVLAVIIPKDKSATLNATVRKVACGAAEVVPLVAVTNLARTLEKLQQRGLWTVGTAGEAEQELYQQDLTGPTVLIMGAEGKGMRRLTREHCDYLVKLPMAGSVSSLNVSVATGVCLFEAVRQRGSHKL				NA	NA	NA	NA	NA
BMS010_04265	417	rpsF_2	COG0360	30S ribosomal protein S6	ATGCGTCATTACGAAATCATCTTTCTGGTTCACCCGGACCAGAGCGAGCAAGTCGGCGGCATGGTCGAGCGTTACACCAAGCTGATCGAAGAAGACGGCGGCAAGATTCACCGCCTGGAAGACTGGGGCCGTCGTCAGCTGGCTTATGCCATCAACAACGTGCACAAGGCTCACTACGTGATGATGAACGTCGAGTGCAGCGGCAAAGCCCTGTCCGAGCTGGAAGACAACTTCCGCTACAACGACGCCGTTATCCGTAACCTGGTCATCCGTCGCGACGAAGCCGTCACCGGCCAGTCCGAGATGCTCAAGGCCGAGGAAAACCGCAGCGAGCGCCGCGAGCGTCGTGATCGCGTTGAAGCTACTGACGGCGCCGAAGGCGACGACAGTGACAGCAGCGACAACGCTGACGAGTAA	MRHYEIIFLVHPDQSEQVGGMVERYTKLIEEDGGKIHRLEDWGRRQLAYAINNVHKAHYVMMNVECSGKALSELEDNFRYNDAVIRNLVIRRDEAVTGQSEMLKAEENRSERRERRDRVEATDGAEGDDSDSSDNADE				NA	NA	NA	NA	NA
BMS010_04266	231	rpsR_2	COG0238	30S ribosomal protein S18	ATGGCACGTTTTTTCCGTCGTCGTAAGTTCTGCCGTTTCACCGCTGAAGGCGTGAAAGAGATCGATTACAAAGATCTGAACACCCTGAAGGCCTACATCTCCGAAACCGGCAAGATCGTTCCTAGCCGTATCACCGGTACCAAGGCCAAGTATCAGCGTCAGCTGGCTACCGCTATCAAGCGCGCCCGCTTCCTGGCCCTGCTGCCCTACACCGACAGCCACGGCCGTTGA	MARFFRRRKFCRFTAEGVKEIDYKDLNTLKAYISETGKIVPSRITGTKAKYQRQLATAIKRARFLALLPYTDSHGR				NA	NA	NA	NA	NA
BMS010_04267	882			hypothetical protein	ATGCGTGCCCTGGCTGAGTTCATCATGCGCGGCCGCATGCAGGCCACCCTGGTGGTGGTCGGTTCGGCAGCCTTGCCGCTGCTGTTCTGGTTGAGTGCCGCCGCGGGCAGCCTGGTGCTGCTGCGGCGGGGCCTGAACGATGCCTTGGGCATTCTCGTCTGGGCGGTACTGCCGGCTCTGGCCTGGTGGTACTTCGGCGAACCGCGCACCCTGTTGGTGCTGCTGGGGGCGCTGGGGCTGGCGCTGATCCTGCGCGCCAGCATGTCCTGGGTGCGTGTGCTGCTCGGCAGCGTCGCCGTAGGCCTGGTCTACGGCCTGGCGCTCGGGGCCGTGTTCGGCGAACCCATCGCGGCGATGGCGGCGGAGCTGCAGAAGCTCATGCCGCAAGCGCTCGAAGGGGTCTACCAACAGTTGTCGGTAGACGAGCGGGCACGCCTGGAGGCCTTGTTGGCCCCGGTACTCACCGGTCTGTTGGCGGCACTGTTGCAGATCCTCAGTCTGCTCAGCCTGATGTTGGGGCGTTACTGGCAGGCGGCGTTGTACAACCCAGGTGGTTTCGGCCGCGAATTCCGCGCGCTGCGACTGCCGCTGGCACTGGCGGTCCTGCTGCTGGCGGGCATGCTGGTCGGTCCCAACCTGGGACCTCAACTGGCCATGCTGACGCCGATCTGTAGCGTGCCGCTGGCATTTGCCGGGCTGGCCCTGCTGCATGGGCTGGGGCTCGCCAGGTTCTGGCTGATAGGGCTGTACGTGACGCTGCTGCTGTTCATGCAGCTGATCTATCCGTTGCTGGTGGTTTTGGCCGTTGTCGACAGTCTGATTGATTTTCGCGGTCGCCTGGCGCGCAAGAACGGCGCCGGACCTGCGAACGGTGAAGGTTAA	MRALAEFIMRGRMQATLVVVGSAALPLLFWLSAAAGSLVLLRRGLNDALGILVWAVLPALAWWYFGEPRTLLVLLGALGLALILRASMSWVRVLLGSVAVGLVYGLALGAVFGEPIAAMAAELQKLMPQALEGVYQQLSVDERARLEALLAPVLTGLLAALLQILSLLSLMLGRYWQAALYNPGGFGREFRALRLPLALAVLLLAGMLVGPNLGPQLAMLTPICSVPLAFAGLALLHGLGLARFWLIGLYVTLLLFMQLIYPLLVVLAVVDSLIDFRGRLARKNGAGPANGEG				NA	NA	NA	NA	NA
BMS010_04268	447	rplI_2	COG0359	50S ribosomal protein L9	ATGGAAGTCATCCTGCTGGAAAAAATCGCCAACCTGGGCAACCTGGGCGACAAGGTGAATGTAAAAAGCGGTTACGCCCGTAACTTCCTCCTGCCGCAAGGCAAGGCCACTGCCGCTACCGCCGAGAACGTCGCTGCGTTCGAAGCCCGTCGCGCCGAGCTGGAGAAACTGGCTGCCGAGAAGAAAGCTTCCGCCGAAGCTCGCGCTGCCCAACTGTCCGAACTGGAAGTCACCATCACCGCTACCGCTGGCGATGAAGGCAAACTGTTCGGCTCCATCGGCACTGCCGACATCGCTGACGCCCTGACCGCCTCCGGCGTGGAAGTGGCCAAGAGCGAAGTCCGTCTGCCCAACGGTACCATCCGTCAGGTAGGCGAATACGACGTGGCCGTGCACCTGCACACCGACGTCGAAGCGACCGTCAAGCTGATCGTGGTCGCTGGCTGA	MEVILLEKIANLGNLGDKVNVKSGYARNFLLPQGKATAATAENVAAFEARRAELEKLAAEKKASAEARAAQLSELEVTITATAGDEGKLFGSIGTADIADALTASGVEVAKSEVRLPNGTIRQVGEYDVAVHLHTDVEATVKLIVVAG				NA	NA	NA	NA	NA
BMS010_04269	1395	dnaB_2	COG0305	Replicative DNA helicase	ATGAACGACATCACCACACCTGAGCAATACGATCTGGAAACCGCTGCCCTCAAGGTGCCGCCGCATTCCATCGAGGCCGAGCAGGCCGTGCTGGGCGGCCTGATGCTGGACAACAACGCTTGGGAGCGGGTACTCGATCAGGTCTCGGATGGCGATTTCTATCGCCACGACCACCGTCTGATCTTCCGTGCCATCTTCAAGCTGGCCGAACGCAACATGCCGTTCGACGTGGTGACCCTGTCCGAACAACTGGACAAGGAAGGGCAGCTCAGCCAGGTCGGCGGGCTCGCCTATCTTGGCGAGTTGGCCAAGAACACGCCGTCCGTGGCCAACATCAAGGCCTATGCGCAGATCATCCGCGAGCGGGCCACGCTGCGGCAGTTGATCGGCATCAGCAATGAAATCGCCGATGCCGCCTACGCACCCCAGGGGCGTACCGGAGAAGAAATCCTCGACGAAGCCGAGCGGCTGATCTTCCAGATCGCCGAGGCACGGCCGAAGACCGGCGGCCCGGTCGGGATCAACGACATCCTGGTCAAGGCCATCGACCGCATCGATACGCTGTTCAATGCCGGCGACGCGATTACCGGCCTATCCACCGGTTTCACCGATCTGGACAACCAGACCAGCGGCCTGCAGCCGGCCGACCTGGTAATCGTCGCCGGCCGTCCGTCGATGGGTAAGACCACCTTCGCCATGAACTTGGTGGAAAACGCGTTGATGCGCAGCGACAAGGCGATCCTGGTGTACTCCCTGGAGATGCCTTCCGAATCCATCGTGATTCGTATGCTCGCCTCGCTCGGGCGCATCGATCAGACCAAGGTACGTGCTGGTCGCCTCGACGATGACGACTGGCCGCGCCTGACCTCGGCGGTCAACCTGCTCAATGACCGCAAACTGTTCATCGACGACACCGCCGGCATTTCGCCCTCGGAAATGCGCGCCCGTACGCGCCGGCTGGCCCGCGAGCACGGCGAGATCGGCCTGATCATGGTCGACTACCTGCAGCTGATGCAGATTCCCGGTTCCAGCGGCGATAGCCGGGTCAATGAGATTTCCGAAATCTCCCGTTCGTTGAAGGCCCTGGCCAAGGAGTTCAACTGCCCGGTGATCGCGCTGTCGCAGTTGAACCGCTCGCTGGAGCAGCGGCCGAACAAGCGCCCGGTGAACTCCGACTTGCGCGAATCCGGTGCGATCGAGCAGGACGCCGACATCATCATGTTCGTTTACCGGGACGAGGTGTACCACCCGGAAACCGAATACAAGGGTGTCGCCGAAATCATCATCGGCAAGCAGCGTAACGGCCCCATCGGTACGGTTCGCCTGGCCTTCCTCGGCAAGTATTCGCGCTTCGAGAACCTGGCGCCCGGCTCGTACCAGTTCGACGACGAATAA	MNDITTPEQYDLETAALKVPPHSIEAEQAVLGGLMLDNNAWERVLDQVSDGDFYRHDHRLIFRAIFKLAERNMPFDVVTLSEQLDKEGQLSQVGGLAYLGELAKNTPSVANIKAYAQIIRERATLRQLIGISNEIADAAYAPQGRTGEEILDEAERLIFQIAEARPKTGGPVGINDILVKAIDRIDTLFNAGDAITGLSTGFTDLDNQTSGLQPADLVIVAGRPSMGKTTFAMNLVENALMRSDKAILVYSLEMPSESIVIRMLASLGRIDQTKVRAGRLDDDDWPRLTSAVNLLNDRKLFIDDTAGISPSEMRARTRRLAREHGEIGLIMVDYLQLMQIPGSSGDSRVNEISEISRSLKALAKEFNCPVIALSQLNRSLEQRPNKRPVNSDLRESGAIEQDADIIMFVYRDEVYHPETEYKGVAEIIIGKQRNGPIGTVRLAFLGKYSRFENLAPGSYQFDDE				NA	NA	NA	NA	NA
BMS010_04270	1080	alr_3	COG0787	Alanine racemase, biosynthetic	ATGCGCCCCCTTGTCGCCCACGTCGATCTCGCCGCCATCCGCCACAACCACGCCGTTGCCAGGCGCTGTGCGCCGGGGCGGCAGGTGTTTGGGGTGGTCAAGGCGAATGCCTACGGGCATGGCATTCGTGAGGTGGTTACGGCACTGCACGATGAGGCCGACGGTTTCGCCGTGGCCTGCCTGGAAGAGGCGGCCGAGGTGCGTGGTATGCACGGCGAAGCACGTATTCTGCTGCTGGAGGGCTGTTTCGAGCCGGCGGAATACCAGATGGCGGCCCGGCTGGGCCTGGATGTCGCCGTGCAGGGCGTCGAACAGGCGACCGCCCTGTTGGCGGCAAGCGTGCCTCGACCGCTGAATGTCTGGCTCAAGCTCGACAGCGGCATGCACCGCTTGGGCTTCGCTCCAGAAGCGTTGCGCGATTGGTACGGGCGCCTGCAGGAAGCGCAGCAGGTCGCCGAGCTGAACCTGCTGAGCCATTTCGCCTGTGCCGATGAGCGCGGTCACCCTCTTACCGAACAGCAACTGGAGTGCTTCCTCGCTCAGTTGGACCTGGATTTCACCCATCGCAGCCTGGCGAATTCCGCCGCCGTGCTGACGATTCCGGCCGCGCATATGGACTGGCTGCGACCGGGCATCATGCTCTACGGCGCTTCGCCATTCGTCGAACTATCCGCTGCCGAGCTGGGGCTGAAGCCGGCAATGACCCTGGCCGCGCAGGTGATCGCCTTGCGCGATATCGCGCCGGGGGAGAGCGTGGGTTACGGCGCTACCTGGGTGGCGCAACGGACGGCGCGTATCGCTACGGTCAGCTGTGGTTACGGTGATGGCTACCCCCGGCACGCGCCGTCCGGTACTCCGGTCGTTGTCCGGGGAATGCGCGTGCCTCTGGTCGGACGGGTCTCCATGGACATGCTGGCGGTGGACCTGACCGACGTACCGGACGCCACGGTCGGTGACCGTGTCGAGCTGTGGGGCGCACAACTGCCGGTGGACGAGATCGCCCACGCCTGTGGGACCATCGGTTACGAGCTGCTGACCAAGGTCACCGCGCGGGTACCGCGGCGTTATAGCGCGGCATAA	MRPLVAHVDLAAIRHNHAVARRCAPGRQVFGVVKANAYGHGIREVVTALHDEADGFAVACLEEAAEVRGMHGEARILLLEGCFEPAEYQMAARLGLDVAVQGVEQATALLAASVPRPLNVWLKLDSGMHRLGFAPEALRDWYGRLQEAQQVAELNLLSHFACADERGHPLTEQQLECFLAQLDLDFTHRSLANSAAVLTIPAAHMDWLRPGIMLYGASPFVELSAAELGLKPAMTLAAQVIALRDIAPGESVGYGATWVAQRTARIATVSCGYGDGYPRHAPSGTPVVVRGMRVPLVGRVSMDMLAVDLTDVPDATVGDRVELWGAQLPVDEIAHACGTIGYELLTKVTARVPRRYSAA	PGPT0020040_4397	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020040-alr-K01775	NA	NA
BMS010_04271	1911			hypothetical protein	GTGCGGCGCACGATCACCTTGTTCTTCTGTTGGCTAGGCTTGCTGGCCACCTTCGGTACGGCCCATGCCGCTCCCATCGAACTGACCCGCGACAGCAGCGGCACGGGGTTGAACGACCGTATCGAGCTGCTCGAGGACGTCGATGGCTCCCTGACCATCGATGACATGACCGACCCCGCCGTGCAGGCGCGCTTCCGCCCCGCCGACGGCCGTGCCAGCGTCGGGCAGAGCCGCAACCCCTGGTGGGTGAAGGTGCAATTGCAGCGCGCCGGCGACGCACCGCGGGAATGGTGGCTGGAAGTCGGGGCCGTCACCCTGCTGGATCTCCAGGTGTTCTTCCCCGGTGAACAAGGCGGCTGGCGAATGCGCCAGTCCGGCGAGCGCGTCGGCTTCGCCGAAGGGCGTGATCATCCCTATCGACGTGCCGTTTTCCGCCTTCCAGCACTGGCTGGGGAACCGTCGACCTTCTATCTGCGCACTTATGACCCGGCCGGCAATTCCTTCCCGCTGCGGGTCTGGCAACTGGCCGACCTCGACCTGACGGCCACCCGCGAGAACCTGGCGATCGGCCTGGTCTACGGCGTGATCTTCGCACTGCTGCTGTACAACCTGTTCATCCTCTTCAGCCTGCGGGACAGCGCCTATCTCTGGTACGTGCTGGCGACCGCCGGGGCCCTGCTCTTCATCCTCAGCATGACCGGCCACGGTTTCCAGTATCTCTGGCCTGGCTCGGCGGTACCTTTCTGGCTGGACCGCATCACCCTGCCGTCGGTGTGGGGCTTCTGCGCCTGCCGCTTCACCCAGAGCCTCCTGCAGACCCGTGTTCACGTTCGCTGGGCCCACCGCCTGCTGAGCCTGGCCTGCGTTGTCTATGTCGTCGCCATTGTGCTGGATGCTTTCGGCCTGCGCGGCCCGACAGCATGGCTCATCGCCCTGCTGTCGCTTTCCAGCATCCCTGCTGCGCTGGGCGCCGCCCTGATTCGCTGGCGACAGGGGTTCTTTCCGGCGCTGCTGTATCTCTGCGGCTACGGCCTGGTCCTGGGCAGCATCGGCATCCTGCTGCTACGCGCGACGGGTTTGCTGCAACCTTCACCGCTGAACGCGTTCGTCTTTCCGATTTCGGTGGCCGCCGAATCCATCTTGTTCTCCTTCGCCCTGGCCTATCGCATCCAGATTCTCAAACAAGAGAAAGCCGCCGCGCTGGAACAGGCCGACCGCGAGAAAACCGCCCGCCTCGCCCAGATGCAGGCCAGCGCGGACGAACTGCAGGCCGCGGTGGACCGGCGCACCGCCGAGCTGGCGGCAGCCAACCAGCGTCTGTCGGAGCGCGAGGCGGACCTTCGGCACGCCGCCTTCCACGACCCGCTGACCGAGCTGCCGAATCGCCGCTACCTGATCGAAAGGGTCGAAGGCACCTTGGCCGAAGCCAGGCGACGGCAGGAGTCCGTGGCGTTGATGCTGATCGATCTCGATCACTTCAAACCGATCAATGACCGTCACGGCCACGATGCGGGCGACCTGATGCTGCGCAGCATCGCCCAGCGGCTACGCCAGCAGGTTCGCAGCCACGACATGGTGGCGCGCCTGGGCGGGGACGAATTCGCCGTGCTGGTCGGAGGGACGAACGCCGAGGGTCATGCCTGTGAAGTAGCCGAACGCCTGCTCGCCGAGCTGTCGCAGCCAGTGCGCTATGGCGCCGAACGGCTGGCGGTGACCATCAGCATCGGTGTGGCGCTGTTCCCACAGCATGGCGGGCATTTTGCCGCGCTCTACAAGGCCGCCGACGAAGCGCTCTACCGGGTGAAGACGCAGGGACGCTCGGGTTTCTACCTGTGCGGGGCGGATGGCGGCCTGAGCGACAGCGACTGCCTGCAACTGGATGTGCTGAAAGTGCCGAGCGGCCTGCTGTGA	MRRTITLFFCWLGLLATFGTAHAAPIELTRDSSGTGLNDRIELLEDVDGSLTIDDMTDPAVQARFRPADGRASVGQSRNPWWVKVQLQRAGDAPREWWLEVGAVTLLDLQVFFPGEQGGWRMRQSGERVGFAEGRDHPYRRAVFRLPALAGEPSTFYLRTYDPAGNSFPLRVWQLADLDLTATRENLAIGLVYGVIFALLLYNLFILFSLRDSAYLWYVLATAGALLFILSMTGHGFQYLWPGSAVPFWLDRITLPSVWGFCACRFTQSLLQTRVHVRWAHRLLSLACVVYVVAIVLDAFGLRGPTAWLIALLSLSSIPAALGAALIRWRQGFFPALLYLCGYGLVLGSIGILLLRATGLLQPSPLNAFVFPISVAAESILFSFALAYRIQILKQEKAAALEQADREKTARLAQMQASADELQAAVDRRTAELAAANQRLSEREADLRHAAFHDPLTELPNRRYLIERVEGTLAEARRRQESVALMLIDLDHFKPINDRHGHDAGDLMLRSIAQRLRQQVRSHDMVARLGGDEFAVLVGGTNAEGHACEVAERLLAELSQPVRYGAERLAVTISIGVALFPQHGGHFAALYKAADEALYRVKTQGRSGFYLCGADGGLSDSDCLQLDVLKVPSGLL	PGPT0025890_572	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-Gac|Rsm_PATHWAY,PGPT0025890-ladF-K20971	NA	NA
BMS010_04272	2259			hypothetical protein	ATGCAAGCCGCCAAGCCGTTGTTCGACTATCCGAAATACTGGGCCGAATGCTTCGGGCCTGCACCTTTCCTGCCGATGAGCCGGGAAGAAATGGACCAGTTGGGCTGGGACTCCTGCGACATCATCATCGTGACCGGCGATGCCTACGTCGATCATCCCTCGTTCGGCATGGCCATCATCGGCCGCCTGCTGGAGGCCCAGGGCTTCCGCGTCGGTATCATCGCCCAGCCGGACTGGCGCTCGAAAGACGATTTCATGAAGCTCGGCGAGCCGAACCTGTTCTTCGGTGTGGCGGCGGGCAACATGGACTCGATGATCAACCGCTACACCGCGGACAAGAAAATCCGTTCGGACGATGCCTACACCCCCGGCGGCGAAGCCGGCAAGCGCCCGGACCGCGCCAGCCTGGTCTACAGCCAGCGCTGCAAGGAAGCCTACAGCCACGTGCCGGTGGTGCTCGGCGGCATCGAGGCCTCGCTGCGCCGCATCGCCCACTATGACTACTGGCAGGACAAGGTGCGCCGCTCCATCCTGATGGACGCCACTGCCGACATCCTCCTCTATGGCAACGCCGAGCGCGCTGTGGTGGAAATCGCCCAGCGGCTGTCCCGTGGCGAGTCCATCGACACCATCACCGATATCCGCGGCACCGCCTTCATCCGCCGCGATACACCCGAGGGCTGGTTCGAGATCGACTCCACGCGCATCGACCGGCCGGGCAAGATCGACAAGATCATCAACCCCTACGTCAACACCCAGGACACCGCTGCCTGCGCCATCGAGAAGGAAAAAGGCACGGAGCCGGTGGACGACCCGAACGAGGCCAAGGTGGTGCAACTGCTGCCGCACCCGAAGCTTGAGCGCGACAAGACGGTGATCCGCCTGCCGTCCTTCGAGAAGGTGCGCAACGATGCGGTGCTCTACGCCCACGCCAACCGCGTGCTGCACCTGGAGACCAACCCGGGCAACGCCCGTGCGCTGGTGCAGAAGCACGGCGACATGGACATCTGGCTGAACCCGCCGCCGATCCCGATGACCACCGAAGAGATGGACTACGTGTTCGGCCTGCCCTACGCCCGCGTGCCGCACCCGGCTTATGGCAAGGCGAAGGTCCCGGCCTACGAGATGATCCGCTTCTCGGTGAACATCATGCGCGGCTGCTTCGGCGGCTGTACCTTCTGCTCCATCACCGAGCACGAGGGGCGCATCATCCAGAGCCGTTCGGAGGACTCGATCATTCGCGAGATCGAGGAAATCCGCGACAAGGTGCCGGGTTTCACCGGGGTGATTTCCGACCTGGGTGGCCCGACCGCCAACATGTACCGCATCGCCTGCAAGAGCCGCGAGATCGAGTCGGCGTGCCGCAAGCCGTCCTGCGTCTATCCGGGTATCTGCGACAACCTCGACACCGACCACTCGGCGCTGATCCAGCTCTATCGCTCGGCCCGCGCCCTGCCTGGGGTGAAGAAGATTCTCATCGCTTCCGGCTTGCGCTACGACCTCGCCGTGGAATCGCCGGAATACGTCAGGGAACTGGTGACCCACCACGTCGGCGGCTATCTGAAGATTGCCCCGGAGCACACCGAGGAAGGGCCGCTGACCAAGATGATGAAGCCGGGCATCGGCACCTATGACCGCTTCAAGCAGATGTTCGAGAAATTCTCGAAGGAGGCGGGCAAGGAGCAGTATCTGATCCCGTACTTCATCGCCGCGCACCCGGGTACCACCGACGAGGACATGATGAACCTCGCCCTCTGGCTCAAGCGCAACGGTTTCCGTGCCGACCAGGTGCAGGCGTTCTACCCGTCGCCCATGGCCACCGCGACTGCCATGTACCACTCGGGCAAGAACCCGCTGCGCAAGGTCACCTACAAGAGCGACGGGGTGAATATCGTCAAGAGCGACCGCCAGCGCCGCCTGCACAAGGCCTTCCTGCGCTACCACGACCCGAACAACTGGCCGATGCTGCGCGAGGCGTTGAAGGATATGGGCCGCGCCGACCTGATCGGCAACGGCAAGCACCAACTCATCCCGGCGTTCCAGCCGGCGGTGGACGGTGGTTACCAGAGCGCCCGGCGGAAAAACTCCACCCCGGCGGGCAGCAAGAAGGGCGGCACACCCCTTCTGACCCAGCACACCGGCCTGCCGCCCCGCGCCAGCGACGGTTCCAAGCCCTGGACCAAGAGCGAGCAGGGTAAGGCTGCCGCTTTCGCCAAGGGCAAGAAGAAGCCCGGCAAACGTCCCCAAGCCCCGCGCTGA	MQAAKPLFDYPKYWAECFGPAPFLPMSREEMDQLGWDSCDIIIVTGDAYVDHPSFGMAIIGRLLEAQGFRVGIIAQPDWRSKDDFMKLGEPNLFFGVAAGNMDSMINRYTADKKIRSDDAYTPGGEAGKRPDRASLVYSQRCKEAYSHVPVVLGGIEASLRRIAHYDYWQDKVRRSILMDATADILLYGNAERAVVEIAQRLSRGESIDTITDIRGTAFIRRDTPEGWFEIDSTRIDRPGKIDKIINPYVNTQDTAACAIEKEKGTEPVDDPNEAKVVQLLPHPKLERDKTVIRLPSFEKVRNDAVLYAHANRVLHLETNPGNARALVQKHGDMDIWLNPPPIPMTTEEMDYVFGLPYARVPHPAYGKAKVPAYEMIRFSVNIMRGCFGGCTFCSITEHEGRIIQSRSEDSIIREIEEIRDKVPGFTGVISDLGGPTANMYRIACKSREIESACRKPSCVYPGICDNLDTDHSALIQLYRSARALPGVKKILIASGLRYDLAVESPEYVRELVTHHVGGYLKIAPEHTEEGPLTKMMKPGIGTYDRFKQMFEKFSKEAGKEQYLIPYFIAAHPGTTDEDMMNLALWLKRNGFRADQVQAFYPSPMATATAMYHSGKNPLRKVTYKSDGVNIVKSDRQRRLHKAFLRYHDPNNWPMLREALKDMGRADLIGNGKHQLIPAFQPAVDGGYQSARRKNSTPAGSKKGGTPLLTQHTGLPPRASDGSKPWTKSEQGKAAAFAKGKKKPGKRPQAPR				NA	NA	NA	NA	NA
BMS010_04273	1230			hypothetical protein	ATGCGTAGCGCCGCCTTGCCCGTGGTCGCCCTGTCCGTGCTGCTCGTTGCCTGCGGCGAGCAGGCGCCGGAGACCCACCTGGATTTCCAGAAAGACCTGCAGGCCCGCCTGATCAAGGCGAAGCCGGGGAGTGTCATCGAGATTCCCGCCGGTACCTACCAGCTCGACCGCAGCCTGAGCCTCAAGGTCAGCGGCGTGACACTGCGCGGCGCGGGCATGGACAAGACCATCCTCAACTTCAAGGGGCAGAAATCCGGGGCCGAAGGGCTGCTGGTGGATGCCTCGGACTTCACCATCGAGGACCTGGCCCTCGAGGACACCAAGGGCGATGCGCTCAAGGTGGTCGGCGGCAAGAACATCGTCATCCGCCGGGTGCGTACCGAATGGACCAACGGCCCAGCTACCGAGAACGGCGCCTACGGCATCTACCCGGTGCAGACCGAGAACACCCTGATCGACGGCAGCGTCGCCATCGGCGCGTCGGATGCCGGCATCTATGTCGGCCAGTCGCGCAACGTGGTGGTGCGCAACAGCCGCGCCGAGCGCAACGTCGCCGGCATCGAAATCGAGAACACCATCGGCGCCGACGTCTACGACAACGTCGCCACCGGCAACACCGGCGGCATCCTGGTGTTCAACATGCCCAACCTGCCGCAGCCGGGCTATGCCACGCGGGTCTACCGCAACCGGGTCGAGGGCAACAACCACAAGAACTTCGGCCACAAGGGCACGCCGGTGGCCAGCGTGCCGGCGGGATCGGGGGTGGTGATCAACTCCAACGACCAAGTGGAAATCTTCGACAACGACATCGGCGAGCACAAGACCGCCAATGTGATCATCAGCAGCTACTTCAGCACTGGCTACACCGAACTCTCCACCACCGAGGATTTCGATCCCTACCCGGAAGGCATCTATATCCACGGCAACCGTTTCGGGCCGGGCGGAGACAGCCCCGACCACCTCGACCTGAAGGCGCTGAAGATCACCCAGTTCGGCCTCAACGGCCGCCTGCCGGACATCCTCTGGGATGGCTATTTCGATCCGAAGAAACAGGTCGACGGCCGCCTGCCGCCAGAGCTGGCCATCTGCGTCGACAACGGCGAGGCTGGGCTGATCAACGTCGACGCGCCGAACGGCTTCAAGAACATCAGCACCGACATCACCCCGCATCGCTGCCAACTGGCCAAGCTGCCGGAGGTGCGCCTGGCGCTGGGCGAGCCTGGCGCATGA	MRSAALPVVALSVLLVACGEQAPETHLDFQKDLQARLIKAKPGSVIEIPAGTYQLDRSLSLKVSGVTLRGAGMDKTILNFKGQKSGAEGLLVDASDFTIEDLALEDTKGDALKVVGGKNIVIRRVRTEWTNGPATENGAYGIYPVQTENTLIDGSVAIGASDAGIYVGQSRNVVVRNSRAERNVAGIEIENTIGADVYDNVATGNTGGILVFNMPNLPQPGYATRVYRNRVEGNNHKNFGHKGTPVASVPAGSGVVINSNDQVEIFDNDIGEHKTANVIISSYFSTGYTELSTTEDFDPYPEGIYIHGNRFGPGGDSPDHLDLKALKITQFGLNGRLPDILWDGYFDPKKQVDGRLPPELAICVDNGEAGLINVDAPNGFKNISTDITPHRCQLAKLPEVRLALGEPGA				NA	NA	NA	NA	NA
BMS010_04274	1119			hypothetical protein	ATGAAGGGCCTGCTGCCGCTGCTCGCCGGCCTGTTGCTCGCTGCCTGTGGCGAAGCGCCGGCGCCGCTGTACCTGCCGCAGGGCGAGGATTACCCGGAAACCCTGTCCGCCTGGGGCATGCTGCACAGGGTGGACGGCCATCTGCAGCCGAATGCCGAGGTGTTGCCGTACGACCTCAACACGCCGCTGTTCAGCGACTACGCGCACAAGATGCGCACCGTCTGGATGCCGAAGGGGGAGGCGGCGGTCTATGCCGAGGCGCGTTTCGACTACCCGGTCGGCACGGTGCTGACCAAGACCTTCTACTACCCGAAGGACGAGCAGGGCGGCCTGTTGCGCACCAACCTGTCGGTCTACGACCCGCAACGTGGCCTCGACCTGAAGCGGGTGCGCCTGGTGGAGACGCGTATCCTGCTGCATCAGCGGGATGGCTGGGTGGCGCTGCCTTATGTCTGGGATGCGGATCAGCGCGATGCCCGCCTGGAGTGGGCCGGCGCCAGCGAGGCGATGACGCTGGTGAGTGATGCAGGGCAGACGCTGGCGGTGGACTACCAGGTACCCGATGCCAACCAGTGTGCCGGTTGTCACGAAGAACGCCACGGCTTGGGTATTCAGCCGCTGGGGCCGAAGGCGAGGCACCTGAACAAGGACTTCGCCTATGCCGACGGTGTGGATAACCAGCTCGTTCACTGGCAACAACGCGGCCTGCTCGAGGGTTTGCCGGCTGGCCTGGCCGGCGTTCCGCAGAATGCCTTGTTCGGCCAGCCGCGCGCCGGCGAGAGTTTGGAACAGCAGGCCCGCAGCTACCTGGACGCCAACTGCTCGCACTGCCACAACCCACAGGGGCCAGCGCGCACGTCCGGGCTGCTGCTCGACCCGGCGACACCTTTCGGCATCCGCTACGGCCGTTGCAAGCAGCCAGTGGCGGCCGGCAAGGGTTCCGGCAATCGCCTGGTCGATATCCAGCCCGGCGCCCCGGACGACTCGATCCTCATCTACCGCCTGGAAAGCCTCGACCCCAGCGCGATGATGCCGGAGCTGGGCCGTTCCACCGCGCACGCCGAAGGCGTGGAGCTGGTGCGGCGCTGGATCGCCAGCCTGGAGGGCGGCTGCTCGTAG	MKGLLPLLAGLLLAACGEAPAPLYLPQGEDYPETLSAWGMLHRVDGHLQPNAEVLPYDLNTPLFSDYAHKMRTVWMPKGEAAVYAEARFDYPVGTVLTKTFYYPKDEQGGLLRTNLSVYDPQRGLDLKRVRLVETRILLHQRDGWVALPYVWDADQRDARLEWAGASEAMTLVSDAGQTLAVDYQVPDANQCAGCHEERHGLGIQPLGPKARHLNKDFAYADGVDNQLVHWQQRGLLEGLPAGLAGVPQNALFGQPRAGESLEQQARSYLDANCSHCHNPQGPARTSGLLLDPATPFGIRYGRCKQPVAAGKGSGNRLVDIQPGAPDDSILIYRLESLDPSAMMPELGRSTAHAEGVELVRRWIASLEGGCS				NA	NA	NA	NA	NA
BMS010_04275	2481		COG2307	putative protein	ATGCCCGATCTGCTCGCCGACCTCCCGCACGACACGCGGGCCTACCACGAACTGCTCGACGCCAGCGGCCAGGTCCGTCCCCATTGGCGTCGGTTCCACCAGCACCTGACGCACAGCAACCCGGCGCAGCTGAGCCAGCGCCAGGCGCTGGTGGCGCGGCAGATCCAGGAAAACGGCATCACCTACAACGTCTACGCCGACCCCAAGGGCACCGACCGGCCTTGGGAGTTGGACCTGCTGCCGAACCTGATCGACGCCGAAGAGTGGCGCGGCATCGCCGCCGGCGTGGCGCAGCGGGCGCGCCTGCTGGATACGCTCCTGGCCGACCTCTATGGCCCGCAGCGACTGCTGCGCGAGGGGCTGCTGCCGACCGAACTGGTGTTCGGCCACAACAATTTTCTCTGGCCCTGCCAGGGCATCCAGCCACCGGGCGGGACCTTCCTGCATGTCTACGCGGCGGACCTGCGCCGCGCACCGGATGGTCGCTGGTGGGTCATCGCCGACCGCACCCAGACCCCTTCCGGCGCCGGCTATGCCCTGGAAAACCGGCAGATCATTTCGCGTACCTTCCCCGAGCTGTTCCGCGAACTGCGCGTGCAGCACCTGGCGAGCTACTTCCGTACCCTGCGCGAGACGCTGGTCAGCCAGGCGCCCTGCGATACGGGGGAAACGCCGCTGGTCGTCCTGCTGACGCCGGGGCGCTTCAACGAGACCTACTTCGAGCACTTGTACCTGGCCCGCCACCTGGGATTCCCGCTGGTGGAGGGCCACGACCTGACGGTGCGCGACGCCACCCTCTATCTGAAGACCCTCGGCGGCCTGCGCCGCGTGCATGCGCTGCTGCGCCGGCTGGACGACGATTTCTGCGATCCGCTGGAGTTGCGCAGCGACTCGGCCCTCGGCGTACCCGGCCTGCTCGAAGCGGTGCGCCAGGGGAGGGTGCTGGTGGCCAACGCGCTGGGCTCCGGGGTGCTGGAGTCGCCGGGTCTGCTCGGCTTTTTGCCGAAGATCCAGCAGCACCTGTTCGGCGACGAACTGCTGCTGCCCTCCATTGCGACCTGGTGGTGCGGCGAGCCGCCGGTGCTGGAGCAGGCGCTGGCCAAACTCGCCGACCTGCTGGTGCTGCCGACGTTCCCCTCGCAGAGTTTCGCCCCGGTGTTCGCCAACAGCCTCGACGAAGCCGGGCTGGCCAAGCTGGCGGCGCGCCTGCGGGCGCGGCCCTATGCCTATGTGGCGCAGGAAGTGGCGCAACTGTCCCAGGCGCCGGTCTGGCAGGACGACTGCCTGCAATCGCGCGCTATCGGCATGCGTGTCTATGCGGTGGCCAGCGCCGACGGTTACCGGGTGCTGCCCGGCGGGTTGACCCGCGTCGCCGCCGAGGCCGGTGCCGACGTCGTGGCCATGCAGAGCGGCGGCGGCAGCAAGGACACCTGGGTGCTGGCCGGCCGCGAAGCACTCGGCGAACCGCTGCGTCCGCGCCCGCTGGGCGTGCAGGACATCGTGCGGCGCGACCCTTACCTGCCGTCGCGGGTAGTGGAAAACCTGTTCTGGTTCGGTCGTTACGCCGAGCGCTGCGATGACATCAGCCGCCTGCTGCGGGTGATCCTTGTTCGCTACGTGGATGACGACGACGAGCCGCTGGCGCTGGAGGCTGCCGTCGATCTGGCGGCGCAGCTCGACCTCTTGCCCGGCGAAGGCGAGCTGGAAACGCGGTTGTTCCAGGCCTTGATCGGCGAGGACTGGCCGTTCAGCCTGCGCGCCAACCTGCAGCGCCTGAACGGCTCGGCAGCCCAGGTACGTGGGCGGTTGTCGCGGGAGAACTGGCATGCGCTGGTGGAAATCCAGCGCGAGACCCACTTGGTCGAACGCGACGAAGGCGATCTCGGTGAGCTGCTGGATTTCCTCAACCGTTTGCTGATGTCGCTCTCGGCGCTGTCCGGTTTCGCCCTGGACGACATGACCCGCGACGACGGCTGGCGCTTCCTGATGATCGGCCGGCGCATCGAGCGCCTGCAGTTCCTCGCCGAAGCCATCGCCGGGTTCCTCCTCGGACGCGCCGCGCAGGACCAGGCCGGCCTCGAATGGCTGCTGGAGCTGGGTAACAGCACCATCACCTACCGCTCGCGCTACCAGGCCGCGCCGCAGTTGATCCCGGTGCTCGACCTGCTGCTGCTCGACGAGCAGAACCCGCATGCCGTGTCGTTCCAGTTGAGCGAGCTGAAACGCGCGCTGCAGCAGCTCAGTGACGACTTCGGCGGTCCGCCGGAAGTGGGCCTCGATCTGCTCGGCGAACGCCTGCGCGCCGTGGACCTGGGCACCCTCGACAGCCCGCTGTTCGGTGAAGCCGGAATGCGCGCCGTGCTCGACGGGCTGGGCGACCTGCTGCGGGAAATCGCCGAGGCGGCCGGGCAGCTTTCCGATCGTCTCACCCTGCGCTATTTCGCCCACGTCGACGCCAGCCAGCAGACGGTTTCGCTATGA	MPDLLADLPHDTRAYHELLDASGQVRPHWRRFHQHLTHSNPAQLSQRQALVARQIQENGITYNVYADPKGTDRPWELDLLPNLIDAEEWRGIAAGVAQRARLLDTLLADLYGPQRLLREGLLPTELVFGHNNFLWPCQGIQPPGGTFLHVYAADLRRAPDGRWWVIADRTQTPSGAGYALENRQIISRTFPELFRELRVQHLASYFRTLRETLVSQAPCDTGETPLVVLLTPGRFNETYFEHLYLARHLGFPLVEGHDLTVRDATLYLKTLGGLRRVHALLRRLDDDFCDPLELRSDSALGVPGLLEAVRQGRVLVANALGSGVLESPGLLGFLPKIQQHLFGDELLLPSIATWWCGEPPVLEQALAKLADLLVLPTFPSQSFAPVFANSLDEAGLAKLAARLRARPYAYVAQEVAQLSQAPVWQDDCLQSRAIGMRVYAVASADGYRVLPGGLTRVAAEAGADVVAMQSGGGSKDTWVLAGREALGEPLRPRPLGVQDIVRRDPYLPSRVVENLFWFGRYAERCDDISRLLRVILVRYVDDDDEPLALEAAVDLAAQLDLLPGEGELETRLFQALIGEDWPFSLRANLQRLNGSAAQVRGRLSRENWHALVEIQRETHLVERDEGDLGELLDFLNRLLMSLSALSGFALDDMTRDDGWRFLMIGRRIERLQFLAEAIAGFLLGRAAQDQAGLEWLLELGNSTITYRSRYQAAPQLIPVLDLLLLDEQNPHAVSFQLSELKRALQQLSDDFGGPPEVGLDLLGERLRAVDLGTLDSPLFGEAGMRAVLDGLGDLLREIAEAAGQLSDRLTLRYFAHVDASQQTVSL				NA	NA	NA	NA	NA
BMS010_04276	936		COG1305	putative protein	ATGACTTCTTCCGACAAACGCTCCGATGCTGTGGCCAGCGCCCGCTACCGGGTCATGCACGATACCCACTACCGCTACGCCGTGCCGGTCTCCCTGGCGCAGCAACTGGCGCACCTGTGGCCACGCGAAAGCCCCTGGCAGCGCTGTCTGAGTCGGCAACTGACGATCAGTCCGGAACCGACTCGGCGGCGAGACGAGCAGGACGTGTTCGGCAATCCGCTGACCCGCCTGGCCTTCGAGCGTCCTCACGGCGAACTCGAAGTCGGCGCGCGTCTGGAGGTGGAAGTGCTGGCCCGGCCGGCCATTGATCTCGCCGCCTCGCCGTCCTGGGAAAGCGCGCGCGACGGCCTCGGCTACAGCGGCCAGCCCCTGGATACCGAGCGCCTGGAAGCCAGCCGCTTCCGCTTCGAATCGCCGGCGGTGCGGATAAAGCACGCCTTCGTGCTGTTCTCCGGCGACTGCTTCACGCCCGGCCGGCCGTTGTTGCAGGCGGTAGAAGCGTTGATGCGCAAGATATTCACCGACTTCACCTTCGACCCGGCCGCCACCCAGGTGGCGACGCCGTTGCTGGAGGTGCTGGAAAAGCGTCGCGGCGTCTGCCAGGACTTCGCCCACCTGATGCTCGCCTGCCTGCGCTCCCGTGGGCTGGCGGCCCGCTACGTCAGCGGCTACCTGCTGACCCAGCCGCCCCCCGGCCAGCCGCGGCTGATCGGCGCCGACGCCTCGCATGCCTGGGTGTCGGTGTATTGCCCGCGTTTCGGCTGGGTGGACTTCGACCCGACCAATGCCGTGCTGCCGAACCTGGAACACATCACCCTGGCCTGGGGACGCGACTTCTCCGACGTCTCACCGCTGCGCGGAGTGATCCTCGGCGGCGGCAGCCATGACCCGGAGGTGCGGGTGACAGTGTTGCCTGTCGACGAAGCGGAGCGTTAG	MTSSDKRSDAVASARYRVMHDTHYRYAVPVSLAQQLAHLWPRESPWQRCLSRQLTISPEPTRRRDEQDVFGNPLTRLAFERPHGELEVGARLEVEVLARPAIDLAASPSWESARDGLGYSGQPLDTERLEASRFRFESPAVRIKHAFVLFSGDCFTPGRPLLQAVEALMRKIFTDFTFDPAATQVATPLLEVLEKRRGVCQDFAHLMLACLRSRGLAARYVSGYLLTQPPPGQPRLIGADASHAWVSVYCPRFGWVDFDPTNAVLPNLEHITLAWGRDFSDVSPLRGVILGGGSHDPEVRVTVLPVDEAER				NA	NA	NA	NA	NA
BMS010_04277	1017	bamD_2		Outer membrane protein assembly factor BamD	ATGCAAGTGAAACACCTGCTGCTGATCGCCATCCTCGCCCTTACCGCCGCCTGTTCATCCAAAGAAGTGGTCGACGAGAACCTGAGCGAGACGGAGCTGTACCAGCAGGCGCAGGCCGACCTGGACAGCAAGAGCTACACCAGCGCGATCAGCAAGCTCAAGGCGCTCGAATCTCGCTATCCGTTCGGCCGTTATGCCGAGCAGGCCCAGCTCGAACTGATCTACGCCTATTACAAGAACGTCGAGCCGGAGGCCGCCAAGGCCGCGGCCGAGCGCTTCATCCGCCTGCACCCGCAGCATCCCAGCGTCGACTACGCCTACTACCTGAAAGGCCTCGCGTCTTTCGACCAGGACCGAGGCCTGCTGGCCCGCTTCCTGCCGCTGGACATGACCAAGCGCGACCCGGGTGCGGCCCGCGACTCGTTCAACGAATTCGCCCAACTCACCAGCCGCTATCCGAGCAGCCGTTACGCCCCCGATGCGAAAGCGCGGATGATCTACCTGCGCAACCTGCTGGCCGCCTACGAAATTCACGTTGCCCACTATTACCTGAAGCGCCAGGCCTACGTGGCCGCTGCCAATCGTGGCCGTTATGTCGTGGAAAACTTCCAGGAGACCCCATCGGTCGGTGACGGCCTGGCGGTCATGGTGGAAGCCTATCAGCGCCTGGGCCTGAACGACCTGGCCGCGACCAGCCTGGAAACCCTGAAGCTGAACTACCCGGACCACCCCAACCTCGAGGACGGCCAGTTCGTTCCCCGCGAGGAAGAAGCCGACAATCGCTCCTGGCTGGCCAAGGCCACGCTGGGCCTGATCGAGAGCGACACCCCGCTGCCGCCCGGCCAGACGCGCGCCAGCCAGGACGTCATCCGTCAGTACGAAGATGCCGAAGAACAGATTCCGGACGAACTGAAGCCGGAGAATCAGGACGAAGCGCGCGAGGATGCACGCGAAGCCGAAGGCAACGACGACGACCGCTCCTGGTGGAGCTACATGACCTTCGGCCTGTTCGATTGA	MQVKHLLLIAILALTAACSSKEVVDENLSETELYQQAQADLDSKSYTSAISKLKALESRYPFGRYAEQAQLELIYAYYKNVEPEAAKAAAERFIRLHPQHPSVDYAYYLKGLASFDQDRGLLARFLPLDMTKRDPGAARDSFNEFAQLTSRYPSSRYAPDAKARMIYLRNLLAAYEIHVAHYYLKRQAYVAAANRGRYVVENFQETPSVGDGLAVMVEAYQRLGLNDLAATSLETLKLNYPDHPNLEDGQFVPREEEADNRSWLAKATLGLIESDTPLPPGQTRASQDVIRQYEDAEEQIPDELKPENQDEAREDAREAEGNDDDRSWWSYMTFGLFD				NA	NA	NA	NA	NA
BMS010_04278	972	rluD_1	COG0564	Ribosomal large subunit pseudouridine synthase D	ATGTCCTCAAATACCGATCAGGCCATCCAACTCCGTGCCGAGGTGCCGTCCGAACTGGGCGGGCAACGTCTCGATCAGATCGCGGCTCAACTTTTCGCCGAACATTCCCGGTCGCGGCTGGCTGCGTGGATCAAGGACGGCCGGCTAACGGTGGATGGCGAGGTGCTGCGTCCCCGCGATATCGTCCATGGCGGTTCGCTGCTCGAACTGAATGCCGAGCAGGAAGCCCAGGGCGAATGGGTGGCGCAGGACATCGAGCTGAACATCGTCTACGAGGATGACCAGTTGCTGGTGCTCGACAAGCCGGCCGGGCTGGTCGTTCATCCGGCGGCGGGGCATGCCGATGGCACGCTGCTCAATGCCCTGTTGCATCATGTCCCGGACCTGATCAACGTGCCGCGTGCCGGCATCGTCCATCGCCTCGACAAGGACACCACCGGTCTCATGGTGGTGGCCAAGACACTGCAGGCGCAGACCCGCCTGGTCGAGCAGTTGCAAAAGCGCAGCGTCAGCCGGATCTACGAGGCCATCGTCATCGGCGTGATCACGGCCGGTGGCAAGATCGACGCTCCTATCGGCCGGCATGGCCAACAACGCCAGCGCATGGCCGTCGTCGAAGGCGGCAAGCCGGCCGTGAGTCATTACCGTGTGCTGGAGCGCTTCCGCTCGCACACTCACACCCGGATCAAGCTGGAGACCGGCCGGACTCACCAGATCCGCGTGCACATGAGCCACATCGGCTTTCCATTGGTGGGCGACCCCGTCTACGGTGGCCGTTTCCGCATCCCGCCGGCGGCCAGCCAGACGCTGGTCCAGGCGCTGAAGGACTTTCCCCGTCAGGCCCTGCATGCGCGCTTTCTCGAGCTGGACCACCCGCTGACTGGCCAACGCATGCGTTGGGAGTCGCCGTTGCCGGATGACTTCGTCTGGCTGCTGACGCTGCTGCGGCAGGATCAGGACTCTTTCGTCTGA	MSSNTDQAIQLRAEVPSELGGQRLDQIAAQLFAEHSRSRLAAWIKDGRLTVDGEVLRPRDIVHGGSLLELNAEQEAQGEWVAQDIELNIVYEDDQLLVLDKPAGLVVHPAAGHADGTLLNALLHHVPDLINVPRAGIVHRLDKDTTGLMVVAKTLQAQTRLVEQLQKRSVSRIYEAIVIGVITAGGKIDAPIGRHGQQRQRMAVVEGGKPAVSHYRVLERFRSHTHTRIKLETGRTHQIRVHMSHIGFPLVGDPVYGGRFRIPPAASQTLVQALKDFPRQALHARFLELDHPLTGQRMRWESPLPDDFVWLLTLLRQDQDSFV				NA	NA	NA	NA	NA
BMS010_04279	726	yfiH_2	COG1496	Polyphenol oxidase	ATGGGCGCCGACTGGCTGATCCCGGATTGGCCGGCCCCGGCTGGCGTCAGGGCCTGCGTCACCACGCGGGAAGGTGGAGTCAGCCAGCCGCCGTTCGACACCTTCAACCTTGGCGATCACGTAGAGGATGTACCTGCGGCGGTCGCCGACAACCGGACCCGGCTGATACGCAGCCTGGAATGCCAGCCCGCCTGGTTGCGCCAGGTTCATGGCATCCAAGTCACCAAGGCCGATCCCCATTGCGTGGACGAGGCCGATGCCAGTTGGACCGATACGCCAGGCATTGCCTGCGCGATCCTGACCGCCGATTGCCTGCCGGCGCTGTTCTGCCATCGCTCCGGCGATCGTGTGGCGGCTGCCCATGCCGGGTGGCGCGGATTGGCTGGCGGCGTACTGGAAGCGACGCTGGATGCGCTGGCTGTACCGGCCGATGAGGTATTGGTCTGGCTCGGACCTGCCATAGGCCCCACGGCGTTCGAGGTTGGGCCGGAAGTCCGCGAGGCGTTCGTCCGTAGCCATGCGCAAGCCGACTCGGCGTTCCGTCCCAGTGAGAATCAGGGCCGCTACATGGCGGATATCTACCAACTCGCCCAGATTCGTCTGGCTGCCCGTGGGGTGACAGCCGTATACGGCGGCGGCTGGTGCACATTTAGCGACCCGCGTTTCTTCTCGTATCGGCGCAGCGCCCGCACCGGGCGGTTTGCGTCCCTTATCTGGCTGGAATAG	MGADWLIPDWPAPAGVRACVTTREGGVSQPPFDTFNLGDHVEDVPAAVADNRTRLIRSLECQPAWLRQVHGIQVTKADPHCVDEADASWTDTPGIACAILTADCLPALFCHRSGDRVAAAHAGWRGLAGGVLEATLDALAVPADEVLVWLGPAIGPTAFEVGPEVREAFVRSHAQADSAFRPSENQGRYMADIYQLAQIRLAARGVTAVYGGGWCTFSDPRFFSYRRSARTGRFASLIWLE	PGPT0019965_3493	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_LIGNIN_DEGRADATION|LIGNINASES	PLANT_LIGNIN_DEGRADATION-POLYPHENOL_OXIDASE,PGPT0019965-yfiH-K05810	NA	NA
BMS010_04280	2565	clpB_2	COG0542	Chaperone protein ClpB	ATGCGAATCGACCGATTGACCAGCAAGCTGCAGCTTGCACTCTCCGACGCCCAGTCCCTGGCCGTCGGTCTCGACCATCCGGCGATCGAGCCGTTGCACCTCATGCAGGCGTTGCTCGATCAGCAGGGCGGTTCGATCAAGCCCCTGCTGATGCAGGTGGGGTTCGACATCAATGGCCTTCGTCAGGCCCTGACCCAGGAACTCGACCGGCTTCCAAAAATCCAGAACCCCACCGGCGACATCAACCTGTCCCAGGATCTGGCGCGCCTGCTCAACCAGGCCGACCGGCTGGCCCAGCAGAAGGGTGATCAGTTCATTTCCAGTGAATTGGTGCTGCTTGCGGCGATGGACGAAAACACCCGCCTGGGCAAGCTGTTGCTGGGGCAGGGGGTATCGAAGAAAGCGCTGGAAAACGCCATCGCCAACCTGCGGGGTGGCCAGGCGGTGAACGACCCCAACGCCGAGGAGTCCCGCCAGGCGCTGGATAAATACACCGTCGACCTGACCAAGCGCGCCGAGGAAGGCAAGCTCGATCCGGTGATCGGTCGTGACGACGAAATCCGCCGGACCGTCCAGGTCCTGCAACGCCGCACCAAGAACAATCCGGTGCTGATCGGCGAGCCCGGTGTCGGCAAGACGGCCATCGTCGAAGGGTTGGCCCAGCGCATCGTCAACGGCGAAGTGCCGGATGGCCTGAAAGACAAGCGCCTGCTGTCCCTCGACATGGGGGCCCTGATCGCCGGTGCCAAATTCCGCGGCGAATTCGAGGAGCGTCTGAAGGCCGTGCTCAATGAGCTGGCCAAGCAGGAAGGGCGCGTCATCCTGTTCATCGACGAACTGCATACCATGGTGGGCGCGGGCAAGGCCGAGGGCGCCATGGACGCTGGCAACATGCTCAAGCCGGCGCTGGCGCGGGGCGAGTTGCATTGCGTAGGCGCCACCACCCTGGATGAGTATCGCCAGTACATCGAGAAGGATGCGGCGCTCGAGCGGCGCTTCCAGAAGGTGCTGGTGGACGAGCCGAGCGAGGAGGACACCATTGCCATCCTGCGCGGCCTCAAGGAGCGCTACGAAGTGCACCACGGGGTGACCATTACGGACGGTGCGATCATCGCCGCGGCCAAGCTCAGCCATCGCTACATCACCGACCGCCAGTTGCCGGACAAGGCCATCGACCTGATCGACGAGGCAGCCAGCCGTATCCGCATGGAGATCGACTCCAAGCCGGAAGAACTCGATCGCCTGGAGCGCCGACTGATCCAGCTGAAGATCGAACGCGAGGCGCTGAAGAAGGAGGAGGACGAAGCGACCCGCAAGCGCCTGGCCAAGCTGGAGGAAGACATCGCCAAGCTGGAGAAGGAATACGCCGACCTCGAGGAAATCTGGAAGTCAGAGAAGGCCGAGGTACAGGGCTCGGCGCAGATCCAGCAGAAGATCGAGCAGGCCAAGACCGAGCTGGAGGCCGCACGGCGCAAGGGCGATCTGAACCGCATGGCCGAGTTGCAATACGGCGTGATTCCCGACCTGGAGCGCAGTCTGCAGATGGTCGACCAGCACGGTAAGGCGGAGAACCAGTTGCTGCGCAATAAGGTGACCGACGAGGAGATTGCCGAGGTGGTCTCCAAGTGGACCGGTATTCCGGTTGCCAAGATGCTCGAAGGCGAGCGCGAAAAGCTGCTGAAAATGGAAGACATGCTGCACCAGCGCGTGATCGGGCAGCACGAAGCGGTGGTTGCCGTGGCCAACGCCGTGCGGCGCTCCCGTGCCGGTCTGGCAGACCCGAACCGGCCGAGCGGGTCCTTCCTTTTCCTCGGCCCGACCGGGGTGGGTAAGACCGAGTTGTGCAAGGCGCTGGCCGAGTTTCTCTTCGATACGGAAGAGGCGCTGGTGCGCATCGATATGTCCGAATTCATGGAGAAGCACTCCGTGGCGCGGTTGATCGGTGCGCCTCCGGGATATATCGGCTACGAAGAGGGCGGTTACCTGACCGAAGCGGTGCGCCGCAAGCCCTATTCGGTGGTGTTGCTGGATGAAGTGGAAAAGGCGCACCCGGATGTGTTCAACATTCTCTTGCAGGTGCTCGAGGACGGCCGCCTGACCGATAGTCACGGCCGCACGGTGGACTTCCGCAATACCGTGGTGGTGATGACCTCCAACCTCGGTTCGGCGCAGATCCAGGAGCTGGTTGGCGATCCCGAGGCGCAGCGGGCGGCGGTCATGGATGCGGTCAGCAGTCACTTCCGTCCGGAGTTCGTCAACCGTATCGACGAGGTGGTGGTGTTCGAACCGCTGGCGCGCGAGCAGATCGCCGGTATCGCCGGCATCCAGTTGCAACGCCTGCGTAAGCGGTTGGCCGAGCGGGAGCTGAGTCTGGACCTGTCCGACGAGGCATTGGACAAGCTGATCGCGGTCGGTTACGACCCGGTATACGGGGCACGGCCGTTGAAGCGTGCGATTCAGCGTTGGATCGAAAACCCGTTGGCGCAGTTGATCCTGGCGGGCAAATTCGAGCCGGGTGCGAGCATCGCTGCCAAGGTGGAGGGCGACGAGATCATCTTTGCCTGA	MRIDRLTSKLQLALSDAQSLAVGLDHPAIEPLHLMQALLDQQGGSIKPLLMQVGFDINGLRQALTQELDRLPKIQNPTGDINLSQDLARLLNQADRLAQQKGDQFISSELVLLAAMDENTRLGKLLLGQGVSKKALENAIANLRGGQAVNDPNAEESRQALDKYTVDLTKRAEEGKLDPVIGRDDEIRRTVQVLQRRTKNNPVLIGEPGVGKTAIVEGLAQRIVNGEVPDGLKDKRLLSLDMGALIAGAKFRGEFEERLKAVLNELAKQEGRVILFIDELHTMVGAGKAEGAMDAGNMLKPALARGELHCVGATTLDEYRQYIEKDAALERRFQKVLVDEPSEEDTIAILRGLKERYEVHHGVTITDGAIIAAAKLSHRYITDRQLPDKAIDLIDEAASRIRMEIDSKPEELDRLERRLIQLKIEREALKKEEDEATRKRLAKLEEDIAKLEKEYADLEEIWKSEKAEVQGSAQIQQKIEQAKTELEAARRKGDLNRMAELQYGVIPDLERSLQMVDQHGKAENQLLRNKVTDEEIAEVVSKWTGIPVAKMLEGEREKLLKMEDMLHQRVIGQHEAVVAVANAVRRSRAGLADPNRPSGSFLFLGPTGVGKTELCKALAEFLFDTEEALVRIDMSEFMEKHSVARLIGAPPGYIGYEEGGYLTEAVRRKPYSVVLLDEVEKAHPDVFNILLQVLEDGRLTDSHGRTVDFRNTVVVMTSNLGSAQIQELVGDPEAQRAAVMDAVSSHFRPEFVNRIDEVVVFEPLAREQIAGIAGIQLQRLRKRLAERELSLDLSDEALDKLIAVGYDPVYGARPLKRAIQRWIENPLAQLILAGKFEPGASIAAKVEGDEIIFA	PGPT0014580_4661	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014580-clpB-K03695	NA	NA
BMS010_04281	339			hypothetical protein	ATGGAAAAAGAGCGTCGCCAGCAAGAGCGCCAAACAGCCGAACCGCCCCTGGATGCCTTCGAGTTGCATTCCGGGCGCAATCTGGGCCGCGTCGTCGATCTCTCCACCGAAGGCTTCATGCTGTTCAGCGAAGAGTTCCTGAATGCCGACTCGCTCTGGGAGTTCCGCCTGGTTCCAACCCAGACGATCGAAGGTATCGAAGAAATCCGCCTCGGTGCCGATTGCCTCTGGCAGCGCCCCGGCGCCGATGGCCAGCACTGCTGGGCCGGCTTTCATATCATCGATTTGGCCGAAGAGCAGGCCCAAGCGCTCAAACGCCTGCTGAAAGGCCACGGTTAG	MEKERRQQERQTAEPPLDAFELHSGRNLGRVVDLSTEGFMLFSEEFLNADSLWEFRLVPTQTIEGIEEIRLGADCLWQRPGADGQHCWAGFHIIDLAEEQAQALKRLLKGHG				NA	NA	NA	NA	NA
BMS010_04282	2271			hypothetical protein	ATGAGCTCCCAAGGCACCCCACCCGAAATCCCCAGAACCGTCAGCACCCTAGCCAACCGTGTCATCCAACCGCGTTTCAGCGAGCTGGTACAGGGTTGCCGCAAGCTGGCGATGAATCACCTGGCCGAACGCCTCGATCTGGTGTTCAGCCATGCCGAAGACACGCTGTTCGATTGCGCCGAGAAAGCCGAAAACAACCAGGTCCAAACCCTGTTCTTCGACAGCATGCGCGACATTCGCCAGCAATGGCCGCATATCGAACGCCTCTACCACCAGAGCATTGCCCGGCGCTTCGATGAGTTCATCGAAGGCCGCACCGACTCGGAAATACCGGTCGATCTGGACGCCGAGCAGCTTGCTTTGGTGCAGAACGACGAGTACGAAGAAAGCCTGCAGGTCAGCAACATGGTCAGCCGGGTCAAGGCGCGGTGTGCACAGTCGCTCTTCGCCCTCGACCAACGCCTGGCGGTCCTGAACGAGGGACGCAAGCTCGGCGAAGACAGCAATCCCTTCGGCCCCCTGGCGATCGCATCGTCGCTGCGCGAAGCGATGGCTCCCTGCGCCATGCACGTGAAGATCAAGACTATCCTTTATGTGCTCTTCGATCGTCTATTGATGCAGAACCTCGACGGCCTCTACGAAGCCTTGAACGCGCGGCTGATCGAGGCAGGCATACTGCCGAACCTGAAATACACTGCACAGCGCTCGCCCGCTCCGGTGGATAAGCCGACGAAAACGCCGGACGCCCCCTCCCCCGCGACGACACCCAGCGCAAGTGCGCTGCCTCAGGATTTGAGCGCCCCGCCCCCCAGCAATCCGGGTGCGCTATTCGGTGGTCTCACCGCCCTGCTGGACGATTACAGGCTGCACAAGACCGAAGCGCCGCTTCTGGGTGGCACGCCGAGTATCGATAGCTTCGCACCGCCCTCGGCCAAGCGAACCTACAGCGCCAGTGAACTGCTGGACGCACTGAATCGCTTGCAGGGCCAGTCCGCCGAGGAGCTTGCCCAACGGCTGCGGGAACCGCAGAAAGTCGATCGTTTGAAAGCAGAGCTCCACCAACAATTGGAAAGCCGGAGCGATGCGAGCGGCCAAGGGAGAATGGCCTCGGAACAGGCCGACGTGATCGACCTGGTGGGCATGCTGTTCGATTTCATCCTCGACGACGACGAATTGGGCGATAGCTACAAGATTGCCCTGTCGCACCTGCATACCCCCTACCTGAAACTGGCTCTTCAAGATCGGAGCCTGTTCACCGAACACAGCCACCCCGCACGCCGCCTGCTCAACAGCCTGGCCCAGGCAGCGGTCATCTATGGTGGCGATGGCGAAGACGGCGAATTGCTGAACAAGGTGCACTGGGTGGTGGAGCGCGTGATCCAGCACTTCGAGGGCGACCTGGGGCTGTTCGAAAGCCTGCTCGACGAGTTCACGCTATTCGTCGCCACCCTCAGGCACAGGGTGGAGCTTCGCGAGCGGCGCGCCATCGAGGCGGCGAAAGGCCGGGACAAACTGCTCGATGCTCGCCGACAGGCGACCGACGTCATCGCCCGCAGCCTCGCCGATCAGATGCCGCCTGCCGCGATCCGCAGTTTTCTCGAACAGAGCTGGACCGATGTACTGGTTTTCATCCAGCTACGCCACAGCGAACAGAGCAGCGAATGGCGACGCGCAAGCGAAGTAGCCGAACACCTGGCCCGTAACGGCAGCCACGAAAACCAGGAAACCGTGCAAGGAATACGGGAAGAATTACGCAAAGGGTTGCAGCTGCTTGGCCATCACGAAGACGACATCAGCCGCCTGCTCAAAGGCCTGAGCATCGACCAGCAGCCCAGGAAGAGTGAGCAGCACAGCCCAGTCATTCCGCCCGTTCCCATTCAGGCGTCGTCGAAAGCCGCGCCGGATGTGGGCACAGGTGTCGCCGCTGCGATCGATGCCGGAACCGAAGGGATCGCATTGACCGGGCGCAGCCGGCAGTTGGCCGACGAACTCCAGCGCGTCGAATTCGGCACCTGGTTCGAATTTGGCGGAGAGCAAAAACGCATTCTGAAGTTGTCGTGGTTCAGCTCGACCACACAAAACTACATGTTCGTCGATCACAGCGGCCAACGTGCCGCCGTGAAGTCCCTCGCGCAACTGGCCGGCGACATGGAGTCGGGCCTGGTGCGCATTCTGCCGACCGAGCCGCCCAAACCCCTGATGGACCGAGCCCTGAATGTCATTTACCGCCTGCTGCAGCGCCTGACTGGCCGCAGAAGTGATTCCCGCTAG	MSSQGTPPEIPRTVSTLANRVIQPRFSELVQGCRKLAMNHLAERLDLVFSHAEDTLFDCAEKAENNQVQTLFFDSMRDIRQQWPHIERLYHQSIARRFDEFIEGRTDSEIPVDLDAEQLALVQNDEYEESLQVSNMVSRVKARCAQSLFALDQRLAVLNEGRKLGEDSNPFGPLAIASSLREAMAPCAMHVKIKTILYVLFDRLLMQNLDGLYEALNARLIEAGILPNLKYTAQRSPAPVDKPTKTPDAPSPATTPSASALPQDLSAPPPSNPGALFGGLTALLDDYRLHKTEAPLLGGTPSIDSFAPPSAKRTYSASELLDALNRLQGQSAEELAQRLREPQKVDRLKAELHQQLESRSDASGQGRMASEQADVIDLVGMLFDFILDDDELGDSYKIALSHLHTPYLKLALQDRSLFTEHSHPARRLLNSLAQAAVIYGGDGEDGELLNKVHWVVERVIQHFEGDLGLFESLLDEFTLFVATLRHRVELRERRAIEAAKGRDKLLDARRQATDVIARSLADQMPPAAIRSFLEQSWTDVLVFIQLRHSEQSSEWRRASEVAEHLARNGSHENQETVQGIREELRKGLQLLGHHEDDISRLLKGLSIDQQPRKSEQHSPVIPPVPIQASSKAAPDVGTGVAAAIDAGTEGIALTGRSRQLADELQRVEFGTWFEFGGEQKRILKLSWFSSTTQNYMFVDHSGQRAAVKSLAQLAGDMESGLVRILPTEPPKPLMDRALNVIYRLLQRLTGRRSDSR				NA	NA	NA	NA	NA
BMS010_04286	363			hypothetical protein	ATGATGATGCGTTGGATAGCGATCACTTTCAGCTTATTGACTATTGCCGCCTGCAACGACAGCGCTCCCTCCGCCACTCCGGTTTCCAATGCGGCGGATAAAACGACGGTGATGTCTGGCAAGTGTGATGTTTTGCGGGACTATGAGGCGCCTTCGCAGCGCTTCGATGAGCGTGCCCAGGATTTGGCCCATGCGACAGGTTGCTTCATCGAGACCGATCTCTCCGAGACGGCTAGCGTGCAGGTACCCGCTGTGAAAGGAAACCTGAGCATTCGAGAGGCTATAGCCAAATCGCTCGAAGGAACGTCCTTGAAGATCACGCGCAACGAGCCCGATCTGATCGCCGTGGACGTGAATAAATGA	MMMRWIAITFSLLTIAACNDSAPSATPVSNAADKTTVMSGKCDVLRDYEAPSQRFDERAQDLAHATGCFIETDLSETASVQVPAVKGNLSIREAIAKSLEGTSLKITRNEPDLIAVDVNK				NA	NA	NA	NA	NA
BMS010_04287	1302	ndh	COG1252	NADH dehydrogenase	ATGTCCCATCGTATCGTGATCGTCGGCGGCGGCGCCGGCGGGCTGGAGCTCGCCACCCGTCTGGGTAGAAGCCTCGGCAAACGCGGCCAAGCGAACATCACCCTGGTCGACTGCAACCTGACCCATATCTGGAAACCGCTGCTGCATGAAGTGGCTGCAGGGTCGCTGAACTCATCCTGGGACGAGCTGAACTATGTCGCCCAAGCCAAATGGAACCACTTCGAGTTCCAACTGGGCCGCATGTCTGGTCTGGATCGCACCCGCAAATGCATCCAGTTGGCCGCCACCCACGACGAGCACGGTTTCGAATTGGTTCCGGAACGCGAGATCGGCTATGACACGCTGGTCATCGCAGTGGGCAGTACCACCAATGACTTCGGCACGCCAGGTGCGGCCGAGCATTGCATCTTCCTCGATACCCGCGAGCAGGCCGAACGCTTCCACAGCCAGTTCCTCAGCCACTATCTGCGCGCCCATGCCCGCGAGGGCAATGATGCCACGCAGATCGACATCGCCATCATCGGCGCCGGCGCCACTGGCGTGGAACTGGCGGCGGAATTGCACCACGCAGCCCATCAACTGGCCGCTTACGGCCTCGATGGCATCACGCCGGAGAACCTGCGGATCACCCTGATCGAGGCCGGCCCACGTGTGCTTCCGGCCCTGCCGGAGCGAATCGGCAAGCCAGTGCATGAAACGCTGGAAAAGCTCGGCGTGCGGGTAATCACCGGCGCGGCCGTCAGTGAAGTCACTCGTGACGGCTTGAAGACCAACCAAGGCCAGACGCTCGCCGCGAACCTGATGGTCTGGGCAGCCGGTATCCGCGCGCCAGCCTTTCTCCGCGAGCTGGGTGGCTTGGAAAGCAACCGCATCAATCAATTGCTGGTCCGGCCGACCCTGCAGACGACCCTCGATGACGACATTTTCGCCTTCGGCGATTGCGCTGCCTGCCCACAACCCGGCAGCGAGGGCCGCAACGTTCCTCCCCGGGCCCAGGCAGCCCACCAGCAAGCCTCTCTGTTGGCCAAGTCGATCAAGCTGCGGATCGCCGGCCAGGCGCTACCGGAATACCGCTACCGTGACTATGGCTCGCTGATTTCGCTGTCGAGCTTCTCGGCGGTGGGTAATTTGATGGGTAACCTAATGGGCAGCGTGAAGCTGGAGGGATGGCTGGCCCGGATGTTCTACATCTCCCTCTACCGTCTGCACCAAATGGCGCTGTACGGCACTACGCGCACGCTGCTCCTGATGCTCAGCGACCGGATCGGCCGCAGCACGGAACCGCGCTTGAAGCTGCACTGA	MSHRIVIVGGGAGGLELATRLGRSLGKRGQANITLVDCNLTHIWKPLLHEVAAGSLNSSWDELNYVAQAKWNHFEFQLGRMSGLDRTRKCIQLAATHDEHGFELVPEREIGYDTLVIAVGSTTNDFGTPGAAEHCIFLDTREQAERFHSQFLSHYLRAHAREGNDATQIDIAIIGAGATGVELAAELHHAAHQLAAYGLDGITPENLRITLIEAGPRVLPALPERIGKPVHETLEKLGVRVITGAAVSEVTRDGLKTNQGQTLAANLMVWAAGIRAPAFLRELGGLESNRINQLLVRPTLQTTLDDDIFAFGDCAACPQPGSEGRNVPPRAQAAHQQASLLAKSIKLRIAGQALPEYRYRDYGSLISLSSFSAVGNLMGNLMGSVKLEGWLARMFYISLYRLHQMALYGTTRTLLLMLSDRIGRSTEPRLKLH	PGPT0004020_2832	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0004020-ndh-K03885	NA	NA
BMS010_04288	174			hypothetical protein	ATGCCCAGCCGCCTGAGTCCTGACGACCAACAACGCGTCGACCAGTACCTGAGTGCTCCCCAGCATCAAGTCGAGCGCAAGCCATTCCGCCCCTGGCTGCTTCTGCTCCTAGTGCTCGCCGTCGTCATCGGCCTCGGTCTCCTTAGCCGCCTTCTGAGCCAACTGGTGCTATGA	MPSRLSPDDQQRVDQYLSAPQHQVERKPFRPWLLLLLVLAVVIGLGLLSRLLSQLVL				NA	NA	NA	NA	NA
BMS010_04289	630			hypothetical protein	ATGGATGACTCAGACTATCTGCGCCTGCTCACCCATCAGGCCGAACAAGCCAACGCGTTTCTCTCCAACGCCCGCAAATGGGAACGCGAGCGCTGGGTTTGCCAGCGCCTGTTGCAAGCGTTGAATGTCTCACACCGCATCGAGGAATTCGGCAGTGCAGGCCAGGAACCGCCGGATGTGCTGTTCCGTGACGCCAATTTCGAAGTGTTCTTCGTGCTGGATGAAGGACGTCGGCTGAACGAGGAATGGCGTGCAGAACTGGAGCGACGCCGCAGCGCGTTCTCCCTCAGCCAACTGGTGCGCCGCGAGAGCCGTCCACGGCGCATTCCCGCCACCGAACTCCAAGCCCGGCTGGCACCGACCCTGCGCAAGAAGGCGCATAACTATGTGGAGCGCGATCTGGATCTCGGCGACCTGGACCTGCTCGCCTTCGTCAATCTCAAGCGCGCGGTGCCCGACTTCAACAGCCACTTTCCGCCGCCGACCGAATACCTCCGCCAAGGCTGGCGATCGCTGTCCATGGTCGGCCCAACCTTCGCCCGCGTCCTGTTCGCCCATCCGGGCGCTCCGGACTTTCTGCGCAACAACCTCGGGCGCACCATCCTGTTCGATATCGGTATCGCGCTGTGA	MDDSDYLRLLTHQAEQANAFLSNARKWERERWVCQRLLQALNVSHRIEEFGSAGQEPPDVLFRDANFEVFFVLDEGRRLNEEWRAELERRRSAFSLSQLVRRESRPRRIPATELQARLAPTLRKKAHNYVERDLDLGDLDLLAFVNLKRAVPDFNSHFPPPTEYLRQGWRSLSMVGPTFARVLFAHPGAPDFLRNNLGRTILFDIGIAL				NA	NA	NA	NA	NA
BMS010_04290	426	ypeA	COG0456	Acetyltransferase YpeA	ATGCAGATTCGTTCGGTCTTGCCTGAGGATCATTCCGCATTGCTGGCGTTATGGGGACGCACCCCCGGTATTCGTATACGACCCGAAGATGCTTTCGAGCCTTTTTGCGCTTATCTGGCCCGAAATCCGGGACTGAGCCTGATCGCCGAGCATGAAGGGCAACTGGCCGGGTGCGTAATGGCGGGGCACGATGGCCGGAGAGGTTACCTGCAGCACTTGGTCGTCGATCCGGCATATCGTCGCCGCGGTATCGCTAGGGCTCTCCTGGCGGAGGTGCTGGCTCGTCTCGCTGAGCTTGGTGTGCACAAGTCCCACGTTTTCGTATTGAGCGATGCGCCCGAGGCGTTGGCCTTCTGGGCTGCCCAGGGCGGCTGGGAGCAGAGGCAGGATATCCAGGTGTTTTCCACCCATGGGGTGCGTTCATGA	MQIRSVLPEDHSALLALWGRTPGIRIRPEDAFEPFCAYLARNPGLSLIAEHEGQLAGCVMAGHDGRRGYLQHLVVDPAYRRRGIARALLAEVLARLAELGVHKSHVFVLSDAPEALAFWAAQGGWEQRQDIQVFSTHGVRS	PGPT0014247_186	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014247-argO-K22477	NA	NA
BMS010_04291	690			hypothetical protein	ATGATTGGCGCGGAACTGCTCTCCCCCGAAAGCCAGTGGCTGGGCTGGGCGCTGTATTTGCCGATCCTGCTCTGGGCAGCTTGGCGAGCGCCCTGGCTGGAGCTGTTCAGCGACATACGTCGGCAACACTTGCTGTTCGGTACGGTGCTGGCCCTGTTCTTCCTGTGGCTGGTGCGGCGTGATTTCGATTCCGGGCTTTCCTTGCATTTCATTGGCATGACCGCGGTGACGCTGCTGCTCGACTGGCCGCTGGCAATACTCAGCGGCTTGGCTGCACAGCTCGGTCTGATCGCTATCGGCCGTCAGGACGTCGCAGCGCTGGGAATGAACGGAGTGCTGTTGGTACTGATCCCAGTATTGGTGACGGAGGTATGCGCGACCTTGGTCGAGCGCGCACAGCCACGCAATCTGTTTGTCTACATCTTCTGTTCCGGTTTCTTTCCGGCCGCCCTGTCCGCACTGTTCTGCGTATTGGCCGGACTGGGTGTGCTGTGGATCGACGGGCGATTTCCCATGCCGCCCTGGATCGAGGAGTTCGCTGGTTACCTCTGGTTGGTGATGTTCCCCGAGGCTTTCATCAACGGCACCGCCATATCGGCCTTGGTGGTCTTCTACCCGGACTGGCTCGAGACGTTCAACCGCAGTCGTTATCTGCAAGCTCCCTGGAAGGGCGACGAGCCGCCTCGTTGA	MIGAELLSPESQWLGWALYLPILLWAAWRAPWLELFSDIRRQHLLFGTVLALFFLWLVRRDFDSGLSLHFIGMTAVTLLLDWPLAILSGLAAQLGLIAIGRQDVAALGMNGVLLVLIPVLVTEVCATLVERAQPRNLFVYIFCSGFFPAALSALFCVLAGLGVLWIDGRFPMPPWIEEFAGYLWLVMFPEAFINGTAISALVVFYPDWLETFNRSRYLQAPWKGDEPPR				NA	NA	NA	NA	NA
BMS010_04292	216			hypothetical protein	ATGGGCGTACACGATTGGGCGCGTCAGGCGTTGACCACCGAACTGAAGGCGGCAGAGGGAAACGGATTCGATGAAGCGATGGCACTGCGGGCTTTGCTGAGTGCCATCGTCGAGCGGAGCAAGTCTGTCCGGTCTATCGATGATCTGGCGCAAGAGCTTCAGTTCCTGGCCGACAATCTCGACGATGGGCGGGACTATGCCTTCATGCGCCCTTAA	MGVHDWARQALTTELKAAEGNGFDEAMALRALLSAIVERSKSVRSIDDLAQELQFLADNLDDGRDYAFMRP				NA	NA	NA	NA	NA
BMS010_04293	201	yacG_1	COG3024	DNA gyrase inhibitor YacG	ATGAGCCAACCCATGACCGTCGAATGTCCAACCTGCGGCGCGCCCGTGGAATGGGGTCCACAAAGCCCGAACCGACCGTTCTGCTCGGAGCGTTGCAAGTTGATCGACTTGGGTGCCTGGGCCGCGGAAGAACATGCGATACCCGGCGACCAACTGGAAGACGATCTGTTCTCCGGCGACCTTCCGCCCCGGGAGCACTAG	MSQPMTVECPTCGAPVEWGPQSPNRPFCSERCKLIDLGAWAAEEHAIPGDQLEDDLFSGDLPPREH				NA	NA	NA	NA	NA
BMS010_04294	612	coaE_1	COG0237	Dephospho-CoA kinase	ATGAGCAAACCCTGGATTCTGGGCCTGACGGGCGGTATTGGCAGTGGCAAGACCGCCGTCGCCCAGCATTTCATCGACCTTGGCGTCCATCTCGTGGACGCCGACCACGCCGCACGCTGGGTCGTCGAACCCGGGCGCCCGGCTCTGGATCGCATCGCCGAGCATTTCGGGCAGGAAGTTCTCCTGCCTGATGGACAACTGGATCGCGCCGCGCTGCGAGGGAGAATTTTCCAGAATCCCGAGGAGCGGCGCTGGCTGGAAAGTCTTCTGCACCCGTTGATCGGCCAGGAAATTCTGGCCCACCTCGGTCGTGCCGAGTCCCCCTACGCGATTCTGGTGTCTCCGCTGCTGGTCGAATCTGGACAGCATCGCCTGGCTCAGCGCGTCCTGGTGGTGGACGCCCCGGAGCACCTGCAACTCGCCCGGACTATCCAGCGCGATCAAGTGACCGAAGAGCAGGTACATGCCATCCTTCAAGTGCAGGCCAAGCGTGAGGAGCGCTTGCGCCATGCGGACGACGTGATCGTCAACGACCGCGATTTGAGCTGGTTGAAGGCCGAAGTCGAGCGGCTGCACCACTTCTACCTGACCTTGCGCGGAGGCCAGCCATGA	MSKPWILGLTGGIGSGKTAVAQHFIDLGVHLVDADHAARWVVEPGRPALDRIAEHFGQEVLLPDGQLDRAALRGRIFQNPEERRWLESLLHPLIGQEILAHLGRAESPYAILVSPLLVESGQHRLAQRVLVVDAPEHLQLARTIQRDQVTEEQVHAILQVQAKREERLRHADDVIVNDRDLSWLKAEVERLHHFYLTLRGGQP	PGPT0008835_2656	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0008835-coaE-K00859	NA	NA
BMS010_04295	873	outO		Type 4 prepilin-like proteins leader peptide-processing enzyme	ATGCCTTTGATCGACTTTTTGGCCAGCCATGTGCTGGCCTTTGTTTTATGTGCGCTGGTGCTGGGGCTGTTGATTGGCAGCTTTCTCAACGTGGTGATTCATCGCCTACCGAAGATGATGCACCGGGATTGGCAGAGCCAGGCCAGGGAACTGTTGGGATTGCCGGCTGAAGACAGCGGGCCTGTTTTCAATCTGGTATTGCCGCATTCTCGCTGCCCTCACTGCAACCACCAGATCAGGGCCTGGGAGAATATTCCCATCGTCAGTTATCTTGCGCTGCGCGGTAAATGTTCGGCGTGCAAGGCGCCGATCAGTATGCGCTACCCATTGATCGAGCTGGCCTGCGGTTTGTTGTCGGCTTACGTGGCTTGGCATTTCGGTTTCGGCTGGGCGGCCGGGGCGGCTCTGGTGCTAACCTGGGGCTTGTTGGCGATGAGTATGATCGATGTCGATCACCAGTTGCTGCCTGACGCCCTGGTGCTGCCGCTGCTCTGGCTGGGCCTGATCGTCAACAGCTTCGGGCTTTTCGCCAGTCTGGAGGATGCGCTCTGGGGGGCGGTGGCCGGTTATCTGAGCCTGTGGTCGGTGTATTGGCTGTTCAAGCTGATCACCGGTAAGGAAGGCATGGGCTATGGCGACTTCAAGTTGCTGGCCATGCTCGGCGCCTGGGGTGGCTGGCAGATTCTGCCATTGACCATCCTACTGTCATCTCTGGTTGGGGCCGTGCTGGGTGTGATCATGCTGCGCTTGCGCAACGCGGAAACCAGCACGCCGATTCCCTTCGGTCCTTATCTGGCCATCGCTGGCTGGATTGCTTTGCTCTGGGGTGATCAAATAACCGGTACCTATTTGCAGTTCGCCGGTTTCAAATGA	MPLIDFLASHVLAFVLCALVLGLLIGSFLNVVIHRLPKMMHRDWQSQARELLGLPAEDSGPVFNLVLPHSRCPHCNHQIRAWENIPIVSYLALRGKCSACKAPISMRYPLIELACGLLSAYVAWHFGFGWAAGAALVLTWGLLAMSMIDVDHQLLPDALVLPLLWLGLIVNSFGLFASLEDALWGAVAGYLSLWSVYWLFKLITGKEGMGYGDFKLLAMLGAWGGWQILPLTILLSSLVGAVLGVIMLRLRNAETSTPIPFGPYLAIAGWIALLWGDQITGTYLQFAGFK	PGPT0015925_633	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015925-pilD-K02654	NA	NA
BMS010_04296	1218	epsF_1	COG1459	Type II secretion system protein F	ATGGCGGAAAAAGCGTTGAAAACCAGTGTCTTCGCCTGGGAGGGCACAGACAAGAGAGGAGCCAAGGTCAAAGGCGAACTGGCCGGGCAAAACCCAGCTCTGGTCAAGGCTCAACTACGTAAACAGGGCATCAACCCGATCAAGGTACGCAAGAAATCGGTATCACTTTTCAGCGCCGGAAAAAAAATCAAACCACTGGATATTGCTCTGTTTACCCGCCAGATGGCAACCATGATGAAGGCGGGCGTTCCCTTGCTTCAGTCATTCGATATCATTAGTGAGGGTTTTGAAAACCCAAACATGCGCAAATTGGTAGATGAAGTTAAGCAAGAGGTAGCCGCCGGCAATAGCTTCGCAGCATCTTTACGCAAAAAGCCACAATATTTTGATGATTTATACTGTAATTTGGTAGATTCTGGTGAACAATCCGGTGCACTGGAAACTTTGCTTGATCGCGTAGCCACTTACAAAGAAAAAACCGAGGCACTAAAAGCCAAGATTAAGAAGGCTATGACATACCCAATAGCCGTTATTGTCGTAGCAATCGTCGTTTCCGCAATTCTATTAATCAAGGTAGTCCCACAATTTCAGTCTGTATTTGCAAATTTTGGAGCAGAACTACCCGCATTTACCATGATGGTAATTAATTTATCCGAACTCCTCCAAGAGTGGTGGTTTATTGTATTGATAATTTTCTTTGGATTTGCCTTTGCTATAAAAGAAATACATAAACGCTCTGAAAAATTTCGGAACTGGGTTGACCGAACCGTTCTGAAACTGCCCATTGTCGGCGACATTTTATATAAGTCCGCTGTAGCACGTTACGCGAGGACTCTCTCAACCACCTTTGCAGCGGGCGTTCCGCTGGTGGATGCTTTGGACTCCGTCTCCGGCGCTACGGGTAATATAGTTTTCAAAAACGCAGTTAACAAAATCAAACAAGATGTCTCAACAGGTATGCAGCTTAATTTCTCTATGCGTACGACTGCAGTATTCCCTGCAATGGCCGTCCAAATGACCGCCATTGGTGAAGAGTCGGGCGCTTTGGACACCATGCTCGATAAAGTGGCCAGCTTCTATGAGGAAGAAGTTGACAATATGGTTGATAACCTAACCAGCCTCATGGAGCCCATGATCATGGCCGTCCTCGGCGTGCTGGTCGGCGGTTTGATCATTGCCATGTACCTTCCGATCTTCCAGCTGGGCTCCGTGGTTTAA	MAEKALKTSVFAWEGTDKRGAKVKGELAGQNPALVKAQLRKQGINPIKVRKKSVSLFSAGKKIKPLDIALFTRQMATMMKAGVPLLQSFDIISEGFENPNMRKLVDEVKQEVAAGNSFAASLRKKPQYFDDLYCNLVDSGEQSGALETLLDRVATYKEKTEALKAKIKKAMTYPIAVIVVAIVVSAILLIKVVPQFQSVFANFGAELPAFTMMVINLSELLQEWWFIVLIIFFGFAFAIKEIHKRSEKFRNWVDRTVLKLPIVGDILYKSAVARYARTLSTTFAAGVPLVDALDSVSGATGNIVFKNAVNKIKQDVSTGMQLNFSMRTTAVFPAMAVQMTAIGEESGALDTMLDKVASFYEEEVDNMVDNLTSLMEPMIMAVLGVLVGGLIIAMYLPIFQLGSVV	PGPT0015920_901	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015920-pilC-K02653	NA	NA
BMS010_04297	1704			hypothetical protein	ATGAACGATAGCGTTTCCCTTTCCGGCTTGGCCAAACAGCTGGTGCTAGCTGAGCTGATGGACGAGAAAAGCGCCCAGCAGGCACAGGTCCAAGCCCAACGCAACAAGTTATCCTTGGTCACTTATTTGGTGCAGAACAAGCTGGTTAAAAGTCGGCTACTCGCCGAGCTGGCAGCCGATCAGTTTGGAGTTGCCTTCTTCGATCTGCGGGCTATTGACAAAGAAAGCCAACCCAAGGATTTGGTCAGCGAGAAACTCATTCGCCAACACCGAGCTCTTCCACTTTGGCGACGCGGCAATAAGCTATTCGTCGCTGTTTCCGATCCAGCCAATCATCAAGCAGTTACCGACATTCAGTTCAGCACCGGGCTCAACACTGAAGCCATCCTCGTGGAGGATGACAAGCTAGGCGATGCAATCGAAAAATTTTTCGAGAACAGTACGAGTGGCATGGAGGACCTCGGTGATGTCGATTTGGACGGTGTGGATATTGAGTCCGTCGACGAAGATAAGCAGGATACCTCAACGGGTGGAGACGCCGATGACGCCCCCGTTGTGCGCTTTGTCAATAAAATGTTACTCGATGCAATTAAAGGCGGGTCATCCGACCTTCATTTTGAGCCTTATGAAAAAGCTTATCGAGTTCGCTTTCGCACCGACGGGATTTTGCATGAGGTTGCAAAGCCACCAATCCAATTGTCTAGTCGTATCGCTGCTCGCTTAAAGGTGATGGCCAGTCTGGATATATCCGAAAGGCGCAAGCCGCAAGATGGCCGGATCAAGATGAAAATATCGAAATCCAAGGCCATCGATTTTCGCGTCAACACGCTTCCCACCTTGTGGGGCGAGAAGATTGTGATGCGTATCCTCGATCCATCCAGCGCACAGATGGGTATTGATGCCCTGGGTTACGAGGAGGACCAGAAGGAACTCTATATGAATGCCCTGAAACAACCCCAGGGCATGATTCTGGTCACTGGCCCTACCGGCTCCGGCAAGACTGTGTCTCTCTACACCGGCCTCAACATCCTCAATACGGTGGATATCAATATTTCCACGGCTGAGGACCCGGTGGAGATCAACTTGGAGGGCATCAACCAGGTCAACGTCAACCCACGCCAAGGTATGGATTTCGCCCAAGCGCTTCGTGCATTCCTGCGTCAGGACCCGGACGTGATCATGGTGGGCGAGATCCGCGATTTGGAAACCGCCGAAATCGCCATCAAGGCCGCACAGACCGGTCACATGGTGATGTCGACGCTCCACACCAACAGTGCCGCGGAAACGCTGACGCGTCTGCGCAACATGGGCGTCCCGGCGTTCAACATCGCTACGTCGGTCAACCTGATCATCGCCCAGCGTCTGGCACGCAAGCTTTGCGGCAGTTGCAAGAAAGAAATCGAGGTTCCTCGGGAAACCCTGCTGAAGGAAGGCTTTCCTGAAGAAAAGATTGGTACCTTCAAGATATACGGCCCTGCCGGCTGCGAGAACTGCAAGGGCGGCTACAAGGGCCGTGTCGGTATTTATGAAGTGGTTAAAATTACGCCAGCGCTCCAACGGATTATCATGGAAGAAGGTAATTCCATCGATATCGCTGCTCAGGCGCGAAGAGATGGCTTCAATGACCTACGCACCTCGGGCCTGCTCAAGGCCATGCAGGGCGTCACCAGCCTCGAAGAAGTCAACCGCGTGACCAAGGAATAA	MNDSVSLSGLAKQLVLAELMDEKSAQQAQVQAQRNKLSLVTYLVQNKLVKSRLLAELAADQFGVAFFDLRAIDKESQPKDLVSEKLIRQHRALPLWRRGNKLFVAVSDPANHQAVTDIQFSTGLNTEAILVEDDKLGDAIEKFFENSTSGMEDLGDVDLDGVDIESVDEDKQDTSTGGDADDAPVVRFVNKMLLDAIKGGSSDLHFEPYEKAYRVRFRTDGILHEVAKPPIQLSSRIAARLKVMASLDISERRKPQDGRIKMKISKSKAIDFRVNTLPTLWGEKIVMRILDPSSAQMGIDALGYEEDQKELYMNALKQPQGMILVTGPTGSGKTVSLYTGLNILNTVDINISTAEDPVEINLEGINQVNVNPRQGMDFAQALRAFLRQDPDVIMVGEIRDLETAEIAIKAAQTGHMVMSTLHTNSAAETLTRLRNMGVPAFNIATSVNLIIAQRLARKLCGSCKKEIEVPRETLLKEGFPEEKIGTFKIYGPAGCENCKGGYKGRVGIYEVVKITPALQRIIMEEGNSIDIAAQARRDGFNDLRTSGLLKAMQGVTSLEEVNRVTKE	PGPT0015915_1127	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015915-pilB-K02652	NA	NA
BMS010_04298	1866			hypothetical protein	ATGGCTGGTTATTGTATTAGGGGGCTGTTCTTTTTTTCTTTATTTTTTTCTTTATATTTTTTTCCTGTCCTTTTAGGATTTGATTGGCAGCGGTTGGAGCAGATCGGCGGCTATGGGCTCTGGAACGAGCTTATGTCTTTGCCGGAAATAAAGAAGGGAATTGTTATAAATTTTATGGGGCATGGTTGTATAGTTTTTTTTGCTTTTCTGGTCTTGATTTTGCTGGGGGAAGGAGTTTCATCTCGATTGAAAATCGATCCTTGGATAGGGGGGCTGTTAGTCGTTTCTGTCGGTTGGTTTTTCTTGGTGGCGGCTAATGGTTTTTTCTTTTCTTTGTCCAATTATTCTGTCCCTTTGGGGTGGGTGGCTAGTAAGCCTGTATTGTTTTTGTCGGGGGGGGTGTTAGGCGTTCTTGTGAGTTTGAATGGGTGGCGTTATGTCCTACTCGGAGGTGGGGTTGTTTTACTGGCTGGGTTTTTCTGGAGCGGAGTGGGGAAAGTAAGTGCTACTCCTACTCCTACTTCTAAGAATGTAATATTGATTGGTGTTGACTCTCTTTCTGCGGCGATATTTGAACGCTATAAGAGCGATATGCCGAACTTGGCTGCTTTGGTTGGGGGGGCGCAGTTATATCGTCGGGCATATACGCCGTTAGGGCGGACTTTTCCTGCATGGGTGAGTATTCTTAGTGGCAAGCCGCCAATCGAGACAGGGGCTTTCTTTAATTTAAGAAGCATTGAAATGATCTCGCGGAAAGGGCTGTTACCCGCAGCGCTCAGAGAAAAAGGGTATCAAACAGTTTTTGCGATTGATGAAAGGAGGTTTGCAAATATTGATGAGTCCTTTGGGTTTGATTCTGTTATAGGGCCTCGTGTTGGGGTTTTAGATTTTCTGTTGCAGCGCTTGAATGATGCCCCTTTGTCGAATATGGTTTTGCAAATGAAGTTGGGTAAGTACTTGTTACCCTATTCTTATGTTAATACTGCATCATATTCAAATTATTCAATGAGCATGTTTGTGAGGGATATATTGGGTGTTGTGGAGGATGATAAGCCGATTTTTTTGGCAGTGCACTTCGAGTCTGCTCATTTTCCTTATCGTACCAGGCATGCTGGCTCCAAAAGCGCTGGTGAGGACTCGTTCCTTGCCCGTCATGTTCAGGCATTAACTGTGGTTGATAAGCAAGTTAAAGCACTAATGGACGGGCTCCGAGAAAAAAAACGTCTGGATAATGCATTGGTGGTGTTTTTATCTGATCATGGTGAGGGGTTGGGGCTGGTTGAGCGTGAAGTGAGTCTCGATGGTGAATCTCGCGGGCTAAGTAGCTATGGGCACGGGGCAGATCTCTTAAGTGATTATCAAAATAGAATTCTTTTAGGGTGGATTGATTACCGAAATGGCAAGCCAAGCCAAGCTCCTCTTAGTCATAAAGAACAGGTCTCGTTGCTAAATATACGCCCGCTTGTTGAGCAATATGTGGCTAATGATCTCGCAAATATGGGGCCTCTACAGCCCTGCATGGTCGTGGAGACAGGGTTGCGTATAGAGTCAGCCTCAGACTACCGAAGTTTAAAAGAATCTCAGGTTGTAGCGGACTCTTTTAGGTTATACAAAATCGATGAGACTGGGCGCTTAAGTTTGAGAGAGGCTGAGCTGCCCGGATTGCTTGCCGCTAAGGACGTAGGGTGGCGATGCCTTGACCGGCTTACTTGGTACTCTCCAAAAAAGCGGCGTTATTATGCCTTTTTGCTTGACGAAAATGGTCTTCCGGTACAACAGATAACGCCGGATTCCAATGCAGTGTCTCAGATTGAGAAATATTATAAAAAATATGGAGTAAGAAATGAGATTTTTGAGAAATTCTGA	MAGYCIRGLFFFSLFFSLYFFPVLLGFDWQRLEQIGGYGLWNELMSLPEIKKGIVINFMGHGCIVFFAFLVLILLGEGVSSRLKIDPWIGGLLVVSVGWFFLVAANGFFFSLSNYSVPLGWVASKPVLFLSGGVLGVLVSLNGWRYVLLGGGVVLLAGFFWSGVGKVSATPTPTSKNVILIGVDSLSAAIFERYKSDMPNLAALVGGAQLYRRAYTPLGRTFPAWVSILSGKPPIETGAFFNLRSIEMISRKGLLPAALREKGYQTVFAIDERRFANIDESFGFDSVIGPRVGVLDFLLQRLNDAPLSNMVLQMKLGKYLLPYSYVNTASYSNYSMSMFVRDILGVVEDDKPIFLAVHFESAHFPYRTRHAGSKSAGEDSFLARHVQALTVVDKQVKALMDGLREKKRLDNALVVFLSDHGEGLGLVEREVSLDGESRGLSSYGHGADLLSDYQNRILLGWIDYRNGKPSQAPLSHKEQVSLLNIRPLVEQYVANDLANMGPLQPCMVVETGLRIESASDYRSLKESQVVADSFRLYKIDETGRLSLREAELPGLLAAKDVGWRCLDRLTWYSPKKRRYYAFLLDENGLPVQQITPDSNAVSQIEKYYKKYGVRNEIFEKF				NA	NA	NA	NA	NA
BMS010_04299	1602			hypothetical protein	ATGAGATTTTTGAGAAATTCTGAGCTTCTCTTGGAATGGCAGAGTCCTTCTTTCCTAGGTTTTTTGTTGGCGCTTTGTGTTTATTTGGCTTCTTCTTATTTTGTAAGTTATTGGCCCTTTTGTTTTTTGCAGTTTGTTTTTGTTGCTTTGAGTGAGGGGGTGTCCATTGAGTCGGTCGGTCAGCGATTTAAGAAAATATTGTTTCTTATGGTTTTTTTGGGGTCTCTCATTGTTGGTGCTGGATTAGTGGCTGCTGAGGGGGGGAGGGTTCTCACCTGGAGTGGTTTGATATATGCCTATGCGCATGTTGTGTGGTTGGTAGTGCATTTAAAAGAACGAAAGGGCATGCTGTTTTTTTTGCGTGTTTCTGTTTTCCTTTGCTTGCTCTTTTTTTCTATAATAAATTCAGGGTATTTATTTGAAAATCAGCTGAATATTGCTATTTTGGAGTTTTTGTTGAGTGTTCTGCTTTTTTCTGTGTTTGGTTTTTTTAATAGAGGGTGGAGGGTGTTTTTTTCGTTTTTTCTTGTGGTTTCTGGCGTTCTGACTGCTTCTAATCTTTTTGCAGTTTGGGATGGCGTTAGCTTTCCGGATTGGTGGCGGGTGGCTCAAGTTTTGGGGCATTTAGTGCTGAGCTGGGCTTTGGTGGTTTGGCTAAGAGCTGATAATTTGGCTATTCACTGGGTGGTTGGCGCGGTTCTTGGTGGGGTGGTGCTTTATTTTATAGTTTTGGCTAAATTTTGGTTGGGGCTGGATAATCCGAAAGCATTCGACTGGTTTGCATTCCCTCCACTGTATGAGCATATTCGTCATTTGGGATATTTTCTTTGTGTCGGCCTGGTAGTTGCTGCCTGGTCAGTTTTTTTTTATGGTGGTCGCTTGAGGTTTTTGTCTTGGTTAGTATATGTGCTGGTAATGTCTATGCTGCTTTGGAGTGGTGGGCGAGGAGCTTTTTTGGCTGCTGTTGGCGGAATTGCCACTCTCGCTGTTATGGCTCCTCCCGTGAAGTTTTCAAAAGTTTGGTCTTGGATATTGATCGGCTTTCTTTTGTCGCTGATTTTGTCCGCCTTCTTTGCAGTAGATCATCTAGGGCTTGGTTGGCTGTCAGCGTGGATTCGTTCAGAAAATGCAGATTCATTAAATAGGCTTAGTAGCAGCCGTTTATGGATATGGAAGACTTTATTGCCTTTCATTGGGGAAAGGCCTTGGTTTGGTTGGGGAGGGGAGGCTTTTAGAACGATCTGGAGCTTTGGGAAAATATCTCAGGCTCATAATGGCTTGTTTCAGGTTCTCCTTGAGTGGGGTGGTATCGGAGCGCTTGTGATTTTTATTCCTCTGGGAGTCTTTTTTTGGAGGGGCGCGCGCGATTATTGGCGGGCAGAAGAAGGTACAGTAAGTCAAGCTCAGTTAGCGCTTGGAGTGACTATCGTTCTTTCCTTGCTCTTGCTGAGCTTGGTGGATGGTGTTTTTTATTATGGCACTCCATCAGCATTTCTGGCGGTAGGTTTTGCTTTGCTAACGGTATGCAATTGCTCTAAGCGTAAAGAGACATACGTAAGAACAAAGGTAGGGCCTTTATTGCTTTTTAATCGTCATCAGTGA	MRFLRNSELLLEWQSPSFLGFLLALCVYLASSYFVSYWPFCFLQFVFVALSEGVSIESVGQRFKKILFLMVFLGSLIVGAGLVAAEGGRVLTWSGLIYAYAHVVWLVVHLKERKGMLFFLRVSVFLCLLFFSIINSGYLFENQLNIAILEFLLSVLLFSVFGFFNRGWRVFFSFFLVVSGVLTASNLFAVWDGVSFPDWWRVAQVLGHLVLSWALVVWLRADNLAIHWVVGAVLGGVVLYFIVLAKFWLGLDNPKAFDWFAFPPLYEHIRHLGYFLCVGLVVAAWSVFFYGGRLRFLSWLVYVLVMSMLLWSGGRGAFLAAVGGIATLAVMAPPVKFSKVWSWILIGFLLSLILSAFFAVDHLGLGWLSAWIRSENADSLNRLSSSRLWIWKTLLPFIGERPWFGWGGEAFRTIWSFGKISQAHNGLFQVLLEWGGIGALVIFIPLGVFFWRGARDYWRAEEGTVSQAQLALGVTIVLSLLLLSLVDGVFYYGTPSAFLAVGFALLTVCNCSKRKETYVRTKVGPLLLFNRHQ				NA	NA	NA	NA	NA
BMS010_04301	849	nadC_2	COG0157	Nicotinate-nucleotide pyrophosphorylase [carboxylating]	ATGCCCAACCTGACCCTCGCCGACCTGACCGCCGAAATCGAAAGCAACGTCCGCCGCGCGCTGGCGGAAGACATCGGCAGCGGCGACATCACCGCCCAACTGATTCCCGCCGAGCGACTGGCCCATGCCAGCGTGATCACCCGTGAAGCGGCCGTCATTTGCGGCACTGCCTGGGTCAATGCGGTGTTTCGCCAGCTCGATCCCCGTGTGGCCGTGCACTGGCAAGTCAACGACGGCGACCGTGTCGCACCCAATCAGACACTGTTTCACCTGGAAGGTCCCGCCCGCGCCCTGCTCAGTGGCGAACGCAGCGCTCTTAACTTCCTCCAGACGCTCTCGGCGGTCGCCACCCGCTGCCGTCACTACGCCGACCTGGTGGAAGGGACCGGCGTCAAACTCCTCGACACCCGCAAGACCCTCCCCGGCCTGCGCCTCGCCCAGAAATACGCCGTCACCTGCGGCGGCTGCCACAACCATCGCATCGGTCTGTACGACGCCTTCCTCATCAAGGAAAACCATATCGCCGCCTGCGGCGGCATCGCCCAGGCCATACAAACCGCCCACCACATCGCCCCGGGCAAGCCGGTGGAAATCGAAGTGGAAAGCCTGGATGAATTGAAAGAAGCCCTGGACGCCGGTGCCGACATCATCATGCTCGACGAACTCAGCCTCGCCGACATGCGCACCGCCGTCACCCTCACCGCCGGCCGCGCCAAACTCGAAGCCTCCGGCGGCATCAACGAAACCACCCTGCGCGGCATCGCCGAAACGGGCGTGGACTACATCTCGCTGGGAACCTTGACCAAGGACGTCAAGGCAGTGGACCTTTCGATGCGGCTGAGCCTGTAA	MPNLTLADLTAEIESNVRRALAEDIGSGDITAQLIPAERLAHASVITREAAVICGTAWVNAVFRQLDPRVAVHWQVNDGDRVAPNQTLFHLEGPARALLSGERSALNFLQTLSAVATRCRHYADLVEGTGVKLLDTRKTLPGLRLAQKYAVTCGGCHNHRIGLYDAFLIKENHIAACGGIAQAIQTAHHIAPGKPVEIEVESLDELKEALDAGADIIMLDELSLADMRTAVTLTAGRAKLEASGGINETTLRGIAETGVDYISLGTLTKDVKAVDLSMRLSL	PGPT0013370_3048	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013370-nadC-K00767	NA	NA
BMS010_04302	2322			hypothetical protein	ATGCAGACCGATGCGAATGTGGTCCACCTGAACAAGGTGACCTCTGAGCAATCGCCAACTTCGCCGGTAGGAAGGCTGCCCGTGGCGCTTATTCAGGTGCGCGATAAGGCTGCTCAGCAGCTCAAGGAGGCGTTGCAGGCGTTGTTCGATAACGCCGATGACACCTTGTTCGAAATGGCCGATCGTGCCACCAGCAACGCCGAGCAGAATTCCTTCTTCGAGGCCATGCGCGACTTGCGTCTGAAACGCAAGAGCATCGAGCGCGGCTTCCTGCAAAAAATCTTCGAGTCTTTCAGCGCACTCACTCAATACGAAATAGGCAAGCCGCCGCAGTTGGATGCGGTGGTTTCCTTCGACAGCCTGTCGCTGGTCCAGAATGACGAACTGGAAGAGACCGTGGCCATCGATGCCATGGTCGGCAAGGTGATGAGTCGCGACGCTACGGCGCTGGGCCATCTGACGACGCGCCTGAATACCCTGGTCAGCAAGAAGATCGAGGACAAGACCAACCCGCTGAGTCCGCGTGTGCTCTGTGAGGCTTTCCTGAGTGCGTGCAGCAGTCTCGGCGTGGAGATCAAGGTCAAGCTGATCATCCTCAAGCTCTTCGAGAAGTACGTTCTCAGCGATCTCGACCATCTTTATGCCGAAACCAACCAGATGCTGGTGGCGGCTGGCGTTCTGCCCGAGCTGAAGACCGCTCCGGTGCGCCGCAGTCCGGTCCGTTCGTCGACCTCATCCTCTTCCGGCAGCCATGCGCACGAGGGCGCTTCGGCGCTTGGCGGGGGATATGCCGACGAAGGTGTGCAAGAGGTGTTTGGCGTTCTGCAGGAGCTTCTGGCAGAAGTTCGTGGGAGTGCATTGCCGCGTCGTGAAGTACCCGCCGATGCGATGCCGATCACTACGCGTGACCTGACTCGCCTGCTGTCCCATATGCAGCAGCATTTGCCGATTCAGACGGCCGTCGATTTCGACCTGCGTACACAGCTCGAGTCGCTGCTCACCCGCGCCAGCGCCAAGAGCGGCAAGACCCGCGTGGTCGGCGAGGTGGACGAGGATGTGATCAACCTCGTTTCCATGCTGTTCGAGTTCATCCTGGACGACCGCACGCTGCCCGATTCGTTGAAAGCCTTGATCGGCCGGCTGCAGATTCCGATGTTGAAGGTTGCGGTACTGGACAAGACCTTCTTCAGCCGCGGCAGCCATCCGGCCCGTCGCCTGCTCAACGAGATCGCCGCCGCCGCCATGGGTTGGAGCGAGCAGGACGATGCGCAGCGCGACAGCCTGTACCAGCGTATCGAGCAGGTGGTTCAGCGTCTACTCAACGATTTCGTCGACGATCCGGCGATCTTCACCGATCTGTTGGCGGACTTCCTGGCCTTCACCGGTGACGAACGCCGTCGCAGCGAGTTGCTCGAGCAGCGCACCCGCGATGCGGAAGAGGGGCGTGCCAAGGCTGAGCTGGCCCGCCAGCAGGTCGAGCAGGCACTGAATGAACGCCTGCTCGGCAAGACCTTGCCGGAAGTGGTGGTGCGCCTGCTGCAAGAAGCCTGGAGCAAGGTCCTGCTGCTGACTTGCCTCAAGCACGGTACCGAGTCGGAAGAATGGCAGGCCGCGCTGGCCACGATGGACGATCTGATCTGGAGCGTGGAGCCACACGAGGAAGCCGAGGCGCGTTTGCGCCTGCTGGAGCTGGTGCCGGGCTTGCTGAAGTCCCTGCGCGAAGGCTTGACCAGTGCGGCCTTCGATCCGTTCTCGACCGGCGAATTCTTCAGCCAGTTGGAAGCCCTGCATGTCCAGGCCTTCCAGCGCTTCAAGCGGCCCGTGCCGGAGGTGGCAGAGGTCGACGTGCCCGTGACTGACGGCGCCCAGGTCGATCCAGAGGCATTGGCCGATGGCGGCGATCAGGCTGCCCTGGCTTTGCCGGCTGCGGTTGTTCCTGTTGCCGAACAGCCGAGCATGGTCGAGGTCATCGAGGAAATCGTCTTGTCGGCTCCAGGCGAAAGCCGCGAGCAGGAGGCCGAGGTTCACCTACCGGACGATGATGAGGCCTTGGCGCATGTCGACAGTCTGCGTGTCGGCAGCTGGGTGGAGATTCAGGAAGATGACGACCACAAGCTGCGTTGCAAACTGGCTGCGATCATCAAACCGACCGGCAAGTACATTTTCGTCAACCGCACCGGTATGAAGGTGCTGGAAAAGACCCGTATGGGGCTGGCCGTCGAGTTCCGTCGCGGCGCTATCCGGTTGCTGGACGATGCACTGCTTTTCGATCGTGCACTGGAGTCCGTGATCGGTAACCTGCGTCGCTTGAAAGGCGCCTGA	MQTDANVVHLNKVTSEQSPTSPVGRLPVALIQVRDKAAQQLKEALQALFDNADDTLFEMADRATSNAEQNSFFEAMRDLRLKRKSIERGFLQKIFESFSALTQYEIGKPPQLDAVVSFDSLSLVQNDELEETVAIDAMVGKVMSRDATALGHLTTRLNTLVSKKIEDKTNPLSPRVLCEAFLSACSSLGVEIKVKLIILKLFEKYVLSDLDHLYAETNQMLVAAGVLPELKTAPVRRSPVRSSTSSSSGSHAHEGASALGGGYADEGVQEVFGVLQELLAEVRGSALPRREVPADAMPITTRDLTRLLSHMQQHLPIQTAVDFDLRTQLESLLTRASAKSGKTRVVGEVDEDVINLVSMLFEFILDDRTLPDSLKALIGRLQIPMLKVAVLDKTFFSRGSHPARRLLNEIAAAAMGWSEQDDAQRDSLYQRIEQVVQRLLNDFVDDPAIFTDLLADFLAFTGDERRRSELLEQRTRDAEEGRAKAELARQQVEQALNERLLGKTLPEVVVRLLQEAWSKVLLLTCLKHGTESEEWQAALATMDDLIWSVEPHEEAEARLRLLELVPGLLKSLREGLTSAAFDPFSTGEFFSQLEALHVQAFQRFKRPVPEVAEVDVPVTDGAQVDPEALADGGDQAALALPAAVVPVAEQPSMVEVIEEIVLSAPGESREQEAEVHLPDDDEALAHVDSLRVGSWVEIQEDDDHKLRCKLAAIIKPTGKYIFVNRTGMKVLEKTRMGLAVEFRRGAIRLLDDALLFDRALESVIGNLRRLKGA				NA	NA	NA	NA	NA
BMS010_04303	564	ampD	COG3023	1,6-anhydro-N-acetylmuramyl-L-alanine amidase AmpD	ATGCAGCTGGATCCCGACAGCGGCTGGTGCCAAGGCATCCGCCACTGCCCGTCACCCAATTTCAACGCCCGTCCGGCCGGGGAAATCTCCTTGCTGGTCATCCATAACATCAGCCTGCCGCCGGGCCAGTTCGGTACCGGCAAGGTGGTCGAGTTCTTTCAGAACCGCCTGCCGGTCGATGAGCATCCTTTCTTCGCCGAGATTGCAGCGCTGCAAGTCTCCGCGCATTTTCTGATCGAGCGTGACGGAGCCGTCACCCAGTTTGTCTCCTGTCTGGATCGTGCCTGGCATGCCGGGGTGTCACGGTTCGAGGAGCGGGAAAGCTGTAACGATTTTTCCATCGGTATCGAGCTGGAAGGCACGGACCTCACGCCTTTCACCGATGAACAATACGAGGCGCTGATCGGCTTGAGCCGGGAGTTGCTCAAAAACTATCCGGCCATCACGTTGGCGCGCATCTGCGGGCACAGCGATATCGCTCCGGGCCGTAAGACCGACCCGGGGCCTGCCTTCGATTGGGCGAGGCTGCGGACGGCCCTGAAAGAACAAGGAGAGAAACAATGA	MQLDPDSGWCQGIRHCPSPNFNARPAGEISLLVIHNISLPPGQFGTGKVVEFFQNRLPVDEHPFFAEIAALQVSAHFLIERDGAVTQFVSCLDRAWHAGVSRFEERESCNDFSIGIELEGTDLTPFTDEQYEALIGLSRELLKNYPAITLARICGHSDIAPGRKTDPGPAFDWARLRTALKEQGEKQ	PGPT0024100_746	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0024100-ampD-K03806	NA	NA
BMS010_04304	837			hypothetical protein	ATGAGCTTTCTGGTACTGCTGCTGGTGGTGTGGGTCGAGAAGTTCTCGTCCTGGCGCTGGCGTATTCAGCAGGACGGTCCCTGGTTGCGCCAGTTGGCGAAGGTAGAGGCAAGCCCGCGGCTGAAGACGGCACCCTGGCTGGCCCTGGGGCTGCTGGTGTTGCTGCCGGTACTGGTGTTGGGGCTCGTGCTATGGATGCTGGAGCCGGTGGCCTATGGTTGGCTGGCACTACCGGTTCACCTGCTGGTGGTGATCTACAGCCTGGGGCGCGGCGATGTCCTGGCGGCGCTCGGGCCCTTTCGCGATGCCTGGCGGCGTGGTGACAGCCAGGCGGCGTACCACGTGGCCGAGCGCGATCTGGCGCTGGATGCCAGTGAGGGTGGGGCCTTGCTGCTGCGGGTGCAGGGGTATCTGCTGTGGCAGGCCTACCAGAGTTTCTTTGCCGTGATTTTCTGGTACGCGCTGCTCGGTCCGATGGCGGCGCTGGCCTATCGCTTGTTGGCACTGACGGCCGAGCATAGCCAGGAGCCCGCTCTACGCGAGCGGGCGGTGCAGTTGCGTCATGGCTTCGATTGGGTGCCGGTGAGGCTGCTCGCCGCCAGTTTTGCCCTGGTGGGCAATTTCGTCGCGGTCAGCCGGGCCTTGCTGCATGAACTGCTGAGCTGGGACGTTTCCGCTGCCCGGCTGGTGATCGATGCCGGCAGGGCGGCGAGCGAAAGTCCTGAGCCGGTGCTGGGTGAGGCGGGAGTCGCCAGCCTGGACGCGCTCTGGCAATTGCTGGTGCGCGCTGCGGTGCTCTGGTATGCGGCTTTCGCGATCTGGACGCTGCTGCTCTGA	MSFLVLLLVVWVEKFSSWRWRIQQDGPWLRQLAKVEASPRLKTAPWLALGLLVLLPVLVLGLVLWMLEPVAYGWLALPVHLLVVIYSLGRGDVLAALGPFRDAWRRGDSQAAYHVAERDLALDASEGGALLLRVQGYLLWQAYQSFFAVIFWYALLGPMAALAYRLLALTAEHSQEPALRERAVQLRHGFDWVPVRLLAASFALVGNFVAVSRALLHELLSWDVSAARLVIDAGRAASESPEPVLGEAGVASLDALWQLLVRAAVLWYAAFAIWTLLL	PGPT0028120_564	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028120-ampE-K03807	NA	NA
BMS010_04305	891	mak	COG1940	Fructokinase	ATGAGCGACACACTGCATCTGGGTATCGACCTGGGCGGCACCAAGATCGAACTCCTTGCTTTGCGCGGGGAACGAGAGCTTCTCCGGCAACGCCTGCCCACCCCGCAGGGCGACTACGACGCAACCCTGGATACCCTGGCGCATCTGGTCGAAGCCGCCGAAGCGCAACTCGGCGAACGCGGCAGCCTCGGCGTCGGTATTCCCGGCACCCGTTCGCCCGACCACGGCCTGATCAAGAACGCCAATTCCACCTGCCTGATCGGCCGCGACCTGCAGGGCGATCTGGAGCGACGGCTGGATCGCCCCGTCCGCCTGGCCAACGACGCGGACTGCTTCGCCCTGTCGGAAGCCACCGACGGCGCGGGTGCAGGCGCCTCCAGCGTCTTCGGTGTAATTCTCGGGACAGGCGTGGGCGGCGGAATGGTGATTCACGGGCGGCTGCTGTCCGGCCCGAACGCCATCGCCGGCGAGTGGGGACACAATTCGCTGCCCTGGCGCCAAGTATCGGACGGTCCGGCACAGCGCTGCTATTGCGGTAAGGAGGATTGCATCGAGACCTTTCTGTCCGGCCCCGGCTGGGCCGCACGCAGCGGGTTGGGTATGGATGCCAGTGCCATCGCGCAAGCGGCAGGTGCCGGGGACAAGGTAGCCAGCACAGCGCTGGAACGCTACTGCGACCAACTGGCGCGAGGGCTGGCCTCGGTGATCAACCTGATCGACCCGGAGGTCATCGTGCTCGGCGGCGGTCTTTCCAACATCGCCGCGCTGTATCGACAGGTGCCCTTGCTATTGCCGCGCTACGTGTTTTCCGACCGGGTCAACACACGCCTGGTACCTGCCCGGCATGGCGACTCCAGCGGTGTGCGCGGCGCCGCCTGGCTATGGCGCTGA	MSDTLHLGIDLGGTKIELLALRGERELLRQRLPTPQGDYDATLDTLAHLVEAAEAQLGERGSLGVGIPGTRSPDHGLIKNANSTCLIGRDLQGDLERRLDRPVRLANDADCFALSEATDGAGAGASSVFGVILGTGVGGGMVIHGRLLSGPNAIAGEWGHNSLPWRQVSDGPAQRCYCGKEDCIETFLSGPGWAARSGLGMDASAIAQAAGAGDKVASTALERYCDQLARGLASVINLIDPEVIVLGGGLSNIAALYRQVPLLLPRYVFSDRVNTRLVPARHGDSSGVRGAAWLWR	PGPT0017625_4577	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017625-scrK-K00847	NA	NA
BMS010_04306	2031			hypothetical protein	GTGAAGACCGCGTTGTATCCTGCCATCGCACTGATGAACCGGCTGAGCTTCGGCATGAAGTTCAGCCTGATCAGCGTATTGTTCTTCCTGCCGATGTCGATCACCAATTTCTACCTGGTGCGCGACTCCTACCGCGATTTCGTCGCCACCCGTGCGGAGCTGGAAAGCCTCGATCTGCTCAGGGCCAGCCTCGAACTCCGGCGCAACCTGGAAACCCTCAACGATCTGGCGCTGATCAACTCCGTCATCGGCCAGTCCGGCCAGGCCGCGGACGTGGAAGCACGGGTGAACCGCCTGGAGAACGATCTGACCCAGGCGTTGCAGAATTTATCCCCGGTGGTCAGCGATGCCGAGCAGGTGGCGGAATTCAACGCCAAGCGCGACGAGTTGCTGGCCGCGCTGAAAGGTGCCCAGGCGGAAACCTCGTTGCAGAGCAAGGCCGCTTTGGTGGAGAAGTTGCTCGGCAATGCCCAGGTGTTCATCAAGTTCATCGCCAGCCAGGCTGGCCTCAGCCAGGACGCGCAGCGCGACGTGAGGCAACTGGCGGAGCTGGTGACCACCGTCACGCCTGAAGTGACAGCCGCACTGGCCACCGGACGCGCCATCGGCGCCTATTCCCTCGGCCAGGGTTTCCTCAATTCCGCCGCCAGCACCAAGCTCGACGAACTCTTGCTGGAGCTGGAGAAACTGCACGCCGAGTACGGCTTGAAGCTGACCGACGTGCTGGACGACAGTCCCGCCGCGCGCACGGCACTCGACGGCCTGGCCAGCGCCAGCCGGGAAACCCTGAAGGAGGGCGGGCTGCTCTTCGAAGACAAGGTGATCGTCGCCGATACCCTGGACATGCCCTGGCCGCAATTCTATGAGCAGGTCACCGGTTTGATCGACAAGACCTACCAGCTCAACGATGCCGCCCTGGTGTTCCTCGACCATGAGCTGGAGCAGCGCCTGGGGCAGAACCGGGTGCAGATGATCCTGTTGGTGACGGCGCTGGTGCTGGTGTTCCTGTTGATCGGTTACCTCTACGGCGGCTTCTACGTATCGACCCGCAGCACCCTGAAGAACCTTGGCCAGGTGTTGGACAAGGTCGCCGCCGGCGACATGACGGTCAGCTTCCAGGCCCGCAGCCGGGATGAGTTGGGCGAGCTGGGCCAGGTGTTCAACGGGACCGTGGCGAAGATTCACGACCTGATCGAGCGGGTCGGCCAGACCGTGGCCGAAGTGGAGCGTCAGGCCGACCGGGTGGAAGTGGTGTCCGGTGAAAGCAATCAGGCGGTGTCCGGCCAGCTCGGCCAGATCGAGCAGGTGGCCACGGCGATGAACCAGATGTCCGCCACTGCGCAGGAAGTGGCGCGAAGTGCCGCCGCGGCAGTGGGCAGCGCCCAGAGCGTCAATCAGGAAACCGTCAGCGGCCGTGCCCTGGTGGAGTCCCAGGTCGGCAGTATCCAGCGGCTGGCGGGCGAGATCGATCAGTCGGTGCTGGTGATCAACCAACTGGCCAGCGACAGCAGTGCCATCAGCCAGGTACTGGACGTGATCAAGGGCATCGCCGAGCAGACCAACCTGCTGGCGCTGAACGCTGCCATCGAGGCGGCGCGGGCGGGCGAGCAGGGGCGCGGTTTCGCCGTGGTGGCCGACGAGGTGCGCAACCTGGCCAAGCGGACCCAGCAGTCCACCGAAGAAATCGAGCAGATGATCTCCCGGCTGCAAGGTGGCGTCGGCGCGGCGGTGAAAACCATGAACACCAGTCACCAGATGGCCGAGGGCACGGTGAGCCAGTCGAGCCAGGTGCAGCAGGCGCTGGAGAACATCCTCGGTGCAGTGGGCATGATCGTCGACCAGAACCAGCAGATCGCCGCTGCCGCCGAACAGCAGACGGCGGTGGCCCACGATATCGATCAGAACATCGTCGAGATCAGCCGCGCCGGCGAGCGCACCGCCGAAGGCGCCAGCCAAACCGAACAGGCCAGTCGCCAGATGAGCGAGCTGGTGGCGCAGTTGAAGCAGTTGATCGGCGCGTTCCGCGTTTAA	MKTALYPAIALMNRLSFGMKFSLISVLFFLPMSITNFYLVRDSYRDFVATRAELESLDLLRASLELRRNLETLNDLALINSVIGQSGQAADVEARVNRLENDLTQALQNLSPVVSDAEQVAEFNAKRDELLAALKGAQAETSLQSKAALVEKLLGNAQVFIKFIASQAGLSQDAQRDVRQLAELVTTVTPEVTAALATGRAIGAYSLGQGFLNSAASTKLDELLLELEKLHAEYGLKLTDVLDDSPAARTALDGLASASRETLKEGGLLFEDKVIVADTLDMPWPQFYEQVTGLIDKTYQLNDAALVFLDHELEQRLGQNRVQMILLVTALVLVFLLIGYLYGGFYVSTRSTLKNLGQVLDKVAAGDMTVSFQARSRDELGELGQVFNGTVAKIHDLIERVGQTVAEVERQADRVEVVSGESNQAVSGQLGQIEQVATAMNQMSATAQEVARSAAAAVGSAQSVNQETVSGRALVESQVGSIQRLAGEIDQSVLVINQLASDSSAISQVLDVIKGIAEQTNLLALNAAIEAARAGEQGRGFAVVADEVRNLAKRTQQSTEEIEQMISRLQGGVGAAVKTMNTSHQMAEGTVSQSSQVQQALENILGAVGMIVDQNQQIAAAAEQQTAVAHDIDQNIVEISRAGERTAEGASQTEQASRQMSELVAQLKQLIGAFRV	PGPT0015710_5524	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_04307	780	yjjV	COG0084	putative metal-dependent hydrolase YjjV	ATGCGATTGATCGACACCCATACCCATCTGGACTTTCCCGACTTCGACGACGACCGCAGCGAAGTGCTGAGGCATTGCCAGGCGCTGGGCGTCGAACGGCAGGTGGTGCTCGGGGTGTACCGCGACAACTGGCAGCGCCTATGGGACTTGGCCCAGCAAGAGCCCGGCGTGTACGCCGCGTTCGGCCTGCACCCGGTCTATCTGGACCGGCATCGCCCCGAGGACCTGGACGCCCTGCGCGACTGGCTGACTCGCTGTGCCGGGCATCCGAAGCTGTGTGCCGTGGGCGAGTTCGGCCTGGATTACTACCTGGAAGAGCTGGACCGCGAGCGCCAGCAGCCGCTGTTCGAGGCGCAACTGACCTTGGCCGCCGACTTCGAACTGCCGGTGCTCCTGCACGTGCGCCGGGCCCATGCCCCGACCATCGCCGCACTGAAGCGCTTCAAGCTGGAACGCGCCGGGATCGTCCACGCCTTCGCCGGCAGTGCGGAGGAAGCCAGGGAATACCTCAAGCTCGGCTTCAAGCTGGGCCTGGGCGGCGCGCCGACCTGGCCACAGGCCAAGCGCCTGCGCCGGACCATCGCCGATCTGCCGCTGGATGCCATCGTGCTGGAAACCGACTCGCCGGACATGGCGCCATCGATGCATCCGGAAGGACGCAACAGCCCGGAACACCTGCCGGATATCTGCACCGCGCTGGCCGAACTCAAGGGCATCGCCCCGGACGAACTGGCCGCCGCCAGCACCGCCAATGCCAAGGCCGTGTTTGGCTGGGACTGA	MRLIDTHTHLDFPDFDDDRSEVLRHCQALGVERQVVLGVYRDNWQRLWDLAQQEPGVYAAFGLHPVYLDRHRPEDLDALRDWLTRCAGHPKLCAVGEFGLDYYLEELDRERQQPLFEAQLTLAADFELPVLLHVRRAHAPTIAALKRFKLERAGIVHAFAGSAEEAREYLKLGFKLGLGGAPTWPQAKRLRRTIADLPLDAIVLETDSPDMAPSMHPEGRNSPEHLPDICTALAELKGIAPDELAAASTANAKAVFGWD				NA	NA	NA	NA	NA
BMS010_04308	993	cra_1	COG1609	Catabolite repressor/activator	TTGAAACTCAGCGACATCGCCCGTCTGGCCGGCGTTTCCGTCACCACGGCCAGCTACGTGATCAACGGCAAGGCCGCCCAGCGGCGTATCAGCCCGGCCACCGTGGAACGGGTGCGCGCCGTGGTCGAACAGCACGGCTACCAGCCGGACCCCCAGGCCGCCGGCCTGCGCAGCGGCCAGACCCGCAGCCTCGGCTTCATCCTCCCCGACCTGGAAAACCCCAGCTATGCACGGCTGGCCAAACTGCTCGAACAGGGTGCCCGCGCCCGTGGCTATCAACTCCTGATCGCCAGCTCCGACGACGAGCCGGACAGCGAACGGCAATTGCTGCAACTGTTCCGCATGCGCCGCTGCGACGCGCTGATCGTCGCCAGTTGCCTGCCGGAAGAGGACGACAGCTATGCCCGCCTGCTGGCCGACGGCCTGCCGGTGGTGGCGGTCGACCGGGTGCTCGACCCTGCGCGCTTCTGCTCGGTGATCAGCGACGACCGCCAGGCCAGCGCCCAGCTCACCGCCAGCCTGCTGGCAGCGGAACCGCCGCGACACATCGCCCTGATCGGCGCCCGCCCGGACCTGATCATCAGTCAAGAGCGTGCCGCCGGCTTCCGCCAGGCGCTGGGCAACTTTTCCGGCGCGGTACTGCTCGAACAAGGGGAAGCGTTCAGCCGGGCCTGCGGACGCCAATCGATGAACGCCCTGCTCGACCGCCTGGGCTTCCTGCCGGATGCGCTGATCACCACCGCCTACGTGCTGCTGGAAGGCGTCTTCGATGTGCTGCAAGCCCGTGGCGAATGGCCGGAACACCTGCGGCTGGGGACCTTTGGCGATACCCAGTTGCTCGACTTCGTGCCACTGCGGGTCAACTCCATGTCGCAGCAGCACGAACTGATCGCCGCCCAGGCCCTGGACCTGGCCCTGCGCGCCATCGAGAAAGACGACTACCGGGCCGGCGTGCAAGCGGTCAGCCGGACGTTCAAACAGCGTCGCCCCTGA	MKLSDIARLAGVSVTTASYVINGKAAQRRISPATVERVRAVVEQHGYQPDPQAAGLRSGQTRSLGFILPDLENPSYARLAKLLEQGARARGYQLLIASSDDEPDSERQLLQLFRMRRCDALIVASCLPEEDDSYARLLADGLPVVAVDRVLDPARFCSVISDDRQASAQLTASLLAAEPPRHIALIGARPDLIISQERAAGFRQALGNFSGAVLLEQGEAFSRACGRQSMNALLDRLGFLPDALITTAYVLLEGVFDVLQARGEWPEHLRLGTFGDTQLLDFVPLRVNSMSQQHELIAAQALDLALRAIEKDDYRAGVQAVSRTFKQRRP	PGPT0017585_551	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017585-fruR1-K03435	NA	NA
BMS010_04309	2859			hypothetical protein	ATGCTCGAATTGACCGCAGAGCAGATCCGGATGGGCCAGTCGGCCGCCGACAAATCCCAGGCCCTGCGCCTGATGGCCTCCACCCTGGAAACCGACGGCCTGGTCGCCCCCGGCTACCTCGCCGGGCTCGAAGCCCGCGAAGCCCAAGGCTCGACCTACCTGGGCCAGGGCATCGCCATCCCCCATGGCACGCCGGAAACCCGCGATCAGGTATTCACCACCGGCGTCCGTTTGCTGCAGTTTCCCGAGGGGGTCGACTGGGGCGATGGCCAGCAGGTCTACCTCGCCATCGGCATCGCCGCCCGTTCTGACGAACACCTGCATCTTCTGCAACTGCTGACCCGCGCGCTGGGTGAGGCCGATCTGGGCGAGGCCCTGCGCCAGGCGGATAGCGCCGAGCGGATCATCCAACTGCTCCAGGGCGCTCCCCAGGAACTGGCACTGGATGCCCAACTGGTCGGTCTCGGTCTGGCGGTGGACGACTTCGACGAACTGCTCTGGCAGGGCGCGCATCTGCTCAAGCGGGCGGACTGCGCGGATAGCGGGTTCGCCGCCAAGCTCCAGCAGACCGAGCCGCTGCCCCTGGGCGACGGCCTCTGGTGGCTGCACAGCGAGCAGGCGGTGAAGCGTCCGGGCCTGGCCTTCGTCACCCCGGAAAAAACCATCGTTCACCAGGGGCAGCCGCTCACCGGTCTGTTCTGCTTGGCCAGTCTGGGCGAGGCCCATCGCGCCTTGCTGGAGCGCCTGTGCGCGCTGTTGATCGAAGGGCGTGGCCAGGTCTTCAGCCAAGCCACCAGCCAGCGCGCGGTGCTGGAGGCCCTGGGCGGCGAATTGCCGGTGGACTGGCCGAGCGTGCGCGTGCCGTTGGCCAATCCCCACGGCCTGCATGCCCGCCCGGCGAACGTGCTGACTCACCTGGCCAAAAGTTTCGACGGCGAAATCCGCGTGCGGATCGCCGACAGCGGGGCTACGGCGGTGTCCGCCAAGAGCCTGAGCAAGCTGCTCAGCCTGGGGGCCCGGCGCGGCCAGGTGCTGGAGTTCCTCGCCGAGCCGGCCATCGCCGCCGATGCCTTGCCGGCCTTGCAGGCGGCGGTCGAGGAGGGCTTGGGAGAAGAGATCGAGCCGTTGCTGGCCGCCGGCGAGGGCGAGACGCTCGAGGCGCCGGCCGAAGCCCCGGTGGCGCCGGCTGCCGGCAGCATCCTGCCGGCCATCGCCGCCTCGCCGGGCATTGCCATCGGCCCGGCCTACGTGCGGGTGGCGCAGCGCTTCGAGTATCCGCAGCGCGGCGAATCGCCGGCGGCCGAGCGCGATCGCCTGGGCTCGGCGCTGACGGAAGTCCGCGACGAGATCACCGGGCTGATCCAGCGCAGCGAATCCAAGACCATCCGCGAGATTTTCGTCACTCATCTGGAAATGCTCGACGACCCGGCCCTGAGCGAGGACGTCGCGGCCCGCCTGCAACAGGGCGAGAGCGCCGAGGCGGCCTGGGCGGCGGTGATCGAGGCGGCGGCCAGCCAGCAGGAAGGCCTGCATGATGCGCTGCTGGCCGAGCGTGCCGCCGATCTGCGTGACGTCGGCCGCCGCGTGCTGGCGCAGCTCTGCGATGTGGAAGCGGCGGTGGAGCCGGACGAACCCTACATCCTGGTGATGGACGAAGTGGGCCCCTCCGACGTGGCGCGTCTGGATCGCGCACGGGTCGCCGGCATCCTCACCGCCCGTGGCGGCGCCACCGCACACAGCGCCATCGTCGCCCGCACGCTGGGCATCCCGGCGCTGGTGGGGGCTGGCCCGGCGGTGCTGGCACTGGCGCCACGTACCCTGCTGTTGCTGGATGCCGAACACGGACGCCTGCACGTGGCGCCGGATGCCGATGCCCTACGGCGTGCCGAGCAGGCGCGCAGCGAGCGCGAGCAACGCCTGCGTGCCGCCCAGGCCCAGCGTCTGGAACCGGCCCGCACGCGCGACGGCCATGAGCTGGAAGTCTGCGCGAACCTGGGCGACACCAAGGGCGCCACGGCGGCCGTGGAGCAGGGGGCGGACGGCGTCGGCCTGTTGCGCAGCGAGTTCGTCTTCATGGCCCACGCCCAGGCGCCGGACCAGGCCACCCAGGAGGCCGAGTACCGCCACGTGCTCGACGTCCTCGCCGGTCGTCCGCTGGTGGTGCGGACCCTCGACGTCGGCGGCGACAAACCGCTGCCGTACTGGCCGATCCCGGAAGAGGCCAACCCCTACCTCGGCCTGCGCGGTATCCGCCTGTGCCTGCAACGCCCGCAGGTCCTCGAGACCCAGTTGCGCGCCCTGCTGTCCGCCGCTGGCGAGCGGCCGTTGCGGATCATGTTCCCAATGGTCGGCAGCGTCGAGGAGTGGCGCCAGGCCCGTGACATGGCCTTGCGCCTGCGCGAGGAAATCCCGGTGGCCGACCTGCAGCTCGGCATCATGGTCGAGGTACCCTCGGCGGCCTTGCTGGCGCCAGTGCTGGCGCGCGAGGTGGATTTCTTCAGCGTCGGCACCAACGACCTGACCCAGTACACCCTGGCCATCGACCGTGGCCATCCGACCCTCTCGGCCCAGGCCGATGGCCTGCATCCGGCCGTGTTGCAACTGATCGACATGACCGTGCGCGCCGCCCATGCCCATGGCAAGTGGGTGGGCGTCTGCGGCGAACTGGCCGCCGACCCGCACGCGGTGCCGCTGCTGGTGGGCCTCGGGGTCGATGAACTGAGCGTCTCGGCGCGCAGCATCGCCGAGGTCAAGGCGCGGGTGCGCGAACTGACCCTGGCCGAGGCCCGGACCCTGGCGCAACGGGCGTTGGAGCTGCCCAGCGCGGCCGAAGTCCGTGCCCTGCTGGAGGTGCGGTGA	MLELTAEQIRMGQSAADKSQALRLMASTLETDGLVAPGYLAGLEAREAQGSTYLGQGIAIPHGTPETRDQVFTTGVRLLQFPEGVDWGDGQQVYLAIGIAARSDEHLHLLQLLTRALGEADLGEALRQADSAERIIQLLQGAPQELALDAQLVGLGLAVDDFDELLWQGAHLLKRADCADSGFAAKLQQTEPLPLGDGLWWLHSEQAVKRPGLAFVTPEKTIVHQGQPLTGLFCLASLGEAHRALLERLCALLIEGRGQVFSQATSQRAVLEALGGELPVDWPSVRVPLANPHGLHARPANVLTHLAKSFDGEIRVRIADSGATAVSAKSLSKLLSLGARRGQVLEFLAEPAIAADALPALQAAVEEGLGEEIEPLLAAGEGETLEAPAEAPVAPAAGSILPAIAASPGIAIGPAYVRVAQRFEYPQRGESPAAERDRLGSALTEVRDEITGLIQRSESKTIREIFVTHLEMLDDPALSEDVAARLQQGESAEAAWAAVIEAAASQQEGLHDALLAERAADLRDVGRRVLAQLCDVEAAVEPDEPYILVMDEVGPSDVARLDRARVAGILTARGGATAHSAIVARTLGIPALVGAGPAVLALAPRTLLLLDAEHGRLHVAPDADALRRAEQARSEREQRLRAAQAQRLEPARTRDGHELEVCANLGDTKGATAAVEQGADGVGLLRSEFVFMAHAQAPDQATQEAEYRHVLDVLAGRPLVVRTLDVGGDKPLPYWPIPEEANPYLGLRGIRLCLQRPQVLETQLRALLSAAGERPLRIMFPMVGSVEEWRQARDMALRLREEIPVADLQLGIMVEVPSAALLAPVLAREVDFFSVGTNDLTQYTLAIDRGHPTLSAQADGLHPAVLQLIDMTVRAAHAHGKWVGVCGELAADPHAVPLLVGLGVDELSVSARSIAEVKARVRELTLAEARTLAQRALELPSAAEVRALLEVR				NA	NA	NA	NA	NA
BMS010_04310	942	lacC	COG1105	Tagatose-6-phosphate kinase	ATGGCGCGCATCCTCAGCCTGACCCTGAACCCGGCCCTGGACCTCACCGTGCGCCTGCCGTTGCTGGAACCGGGTCAGGTCAATCGCTGCGAAGCGGTGATCAGCCACGCGGCCGGCAAGGGGCTCAATGTCGCCCAGGTGCTGGCCGACCTCGGCCACGAACTGACCGTCGCCGGCTTCCTCGGCGCCGACAATCCCCAGGCCTTTGAGGCGCTGTTCCTGCGTCGCGGGTTCCGTGACGAGTTCGTCCGGGTGCCGGGCGAGACACGCAGCAACATCAAGCTGGCGGAAGCCGGCGGGCGGATCACCGATCTCAACGGACCGGGGCCGGAGGTGAGTGTCGAAGCCCAGGCCGAGCTGCTGGCGCGGCTGGATGCGATTGCGCCCGGCCACGAGCTGGCGGTGGTCGCCGGTAGCCTGCCGCGGGGCGTCAGCCCCGAGTGGTTCGCCGAGCTGCTGGCGCGCCTGAAGCGCCTGGGCCTGCGGGTCGCCCTGGACACCAGCGGCGCGGCCCTGCACGCCGGCCTGGCGGCGGTGCCCTGGCTGATCAAGCCGAACACCGAGGAGCTGGCCGAAGCCTGCGGCACACCGGTGGTTTCCCGGGCCGCCCAGGCGGACGTGGCGCAGCGGCTGCATGCACAGGGCATCGAGCAGATCGTGATTTCCCAGGGCGCCGAAGGGGTGCACTGGTTCGGCCCGACCCAGGCGCTGGCGGCGTTGCCGCCCAAGGTGAAGGTGGCCAGCACCGTCGGCGCCGGCGACTCGCTGCTCGCCGGCATGCTCCATGGCCTGCTCAGCGGCTGGCCGGCCGAACGCACCCTGCGCCACGCCACCGCCATCGCCGCCCAGGCGGTGACCCAGATCGGATTCGGCATCGGCGATGCCGCACAGTTGGCTCGCCTGGAGTCCGCCGTGCAGGTCAGCGCCCTTCCAGAACAATAA	MARILSLTLNPALDLTVRLPLLEPGQVNRCEAVISHAAGKGLNVAQVLADLGHELTVAGFLGADNPQAFEALFLRRGFRDEFVRVPGETRSNIKLAEAGGRITDLNGPGPEVSVEAQAELLARLDAIAPGHELAVVAGSLPRGVSPEWFAELLARLKRLGLRVALDTSGAALHAGLAAVPWLIKPNTEELAEACGTPVVSRAAQADVAQRLHAQGIEQIVISQGAEGVHWFGPTQALAALPPKVKVASTVGAGDSLLAGMLHGLLSGWPAERTLRHATAIAAQAVTQIGFGIGDAAQLARLESAVQVSALPEQ	PGPT0017580_557	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0017580-fruK|fpk-K00882	NA	NA
BMS010_04311	1740	fruA	COG1299	PTS system fructose-specific EIIB'BC component	ATGAAACTCGCCATCGTCACCGCCTGCCCCAACGGCATGGTCACCAGCGTGATCAGCGCACGCCTGCTGGAAGCCGCCGCCCAGCGCCTGGGCTGGACCGTCCACGTGGAAGTGCAGGACCCGCAGCACCCCGAGGCGCGCCTGCCCGCCGAGACCATCGCCATCGCCGACTGGGTGTTGGTGGTCAGCAGCGGTTCCGTGGACCTCTCCCGTTTCGCCGGCAAACGCTTGATCCAGGCCGCGCCGGCCGATGCGCTGCGCGAGCCGGAGGGCTTTCTCCAGCGCGGTTCCGTCGAGGCCCAGCCCTACGTCGCCGAGCCCGCGCCCGCGACGCCAGCGGCCGGCGTGCCCAAGCTGGTGGCCATCACCGCCTGCCCGACCGGGGTGGCGCATACCTTCATGGCCGCCGAGGCGCTGCAGCAGGCCGCGCAGAAACTCGGCTACGACCTGCAGGTGGAAACCCAGGGTTCGGTGGGGGCACGCAACAAACTCAGCGAAGCGGATATCGCCGCCTCCGACGTCGTACTGCTGGCCGCCGACATCGAGGTGAACACCGAGCGTTTCGCCGGCAAGCGAATCTTCCGTTGCGGCACCGGTGTGGCGCTCAAGCAGGCCGAGGCCACGCTCAAGCGCGCCCTGGCCGAGGGTCGTGTCGAGGGGAGTACGCCGGCCAAAGGCACCGAGCCGGCCGCCACGCGCCAGGAAAAGACCGGGGTCTACAAGCACCTCCTCACCGGGGTGTCCTTCATGCTGCCGATGGTGGTGGCGGGCGGCCTGCTGATCGCCCTGTCGTTCGTCTTCGGCATCGAGGCGTTCAAGGAACAGGGCACCCTGGCGGCGGCGCTGATGCAGATCGGCGGCGACGCGGCCTTCAAGCTGATGGTGCCGGTGCTCGCCGGCTACATCGCCTACTCCATCGCCGACCGCCCCGGCCTGGCGCCGGGCATGATCGGCGGCCTGCTGGCCAGCACCCTGGGCGCCGGCTTCATCGGCGGGATAGTCGCCGGCTTCCTCGCCGGCTACAGCGCCTGGGCGGTGAACCGCTGGCTGCGCCTGCCGGCCAGCGTCGAGGCGCTCAAGCCGATCCTGATCATCCCGCTGCTGGCCAGCCTGTTCACCGGCCTGGTGATGATCTACGTGGTCGGCACCCCGGTGGCCGGGATGCTCGCGGGGCTCACCAGCTTCCTCGACAGCATGGGCACCACCAACGCCATCCTCCTCGGCGTGCTGCTCGGCGGGATGATGTGCGTGGATCTCGGCGGCCCCATCAACAAGGCGGCTTATGCCTTCTCGGTGGGCCTGCTGGCGTCGCAGAGCTACGCGCCCATGGCCGCGGTGATGGCAGCCGGCATGGTGCCGCCGATCGGCATGGGCATCGCCTGCTTCCTGGCTCGCCGCAAGTTCGCCCAGAGCGAGCGCGAGGCCGGCAAGGCGGCGCTGGTGCTGGGGCTGTGCTTCATCTCCGAGGGCGCGATTCCCTTCGCCGCCAAGGACCCGCTGCGGGTGATCCCGGCAAGCATCGCCGGCGGCGCCCTGACCGGCGCGCTGTCCATGCTGTTCGGCTGCAAGCTGCTGGCGCCGCACGGCGGGCTGTTCGTCCTGCTGATTCCCAACGCCATCAACCACGCGTTGCTCTACCTGCTGGCCATCGCCGCGGGCAGCCTGGTCACCGGCTTGATCTACGCCTTCATCAAGCGCGGCGAGGCGCAAGGGCTGGCGGTGGCGGCCGGAGCGGCCTGA	MKLAIVTACPNGMVTSVISARLLEAAAQRLGWTVHVEVQDPQHPEARLPAETIAIADWVLVVSSGSVDLSRFAGKRLIQAAPADALREPEGFLQRGSVEAQPYVAEPAPATPAAGVPKLVAITACPTGVAHTFMAAEALQQAAQKLGYDLQVETQGSVGARNKLSEADIAASDVVLLAADIEVNTERFAGKRIFRCGTGVALKQAEATLKRALAEGRVEGSTPAKGTEPAATRQEKTGVYKHLLTGVSFMLPMVVAGGLLIALSFVFGIEAFKEQGTLAAALMQIGGDAAFKLMVPVLAGYIAYSIADRPGLAPGMIGGLLASTLGAGFIGGIVAGFLAGYSAWAVNRWLRLPASVEALKPILIIPLLASLFTGLVMIYVVGTPVAGMLAGLTSFLDSMGTTNAILLGVLLGGMMCVDLGGPINKAAYAFSVGLLASQSYAPMAAVMAAGMVPPIGMGIACFLARRKFAQSEREAGKAALVLGLCFISEGAIPFAAKDPLRVIPASIAGGALTGALSMLFGCKLLAPHGGLFVLLIPNAINHALLYLLAIAAGSLVTGLIYAFIKRGEAQGLAVAAGAA	PGPT0017120_1661	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_FRUCTOSE_PTS_SYSTEM_I,PGPT0017120-fruA-K02770	NA	NA
BMS010_04312	1560	phoD	COG3540	Alkaline phosphatase D	ATGACCGATCCGGACAAGAATCGCCGTCGCCTGCTGCAAGGAATGGGCGCCGGCCTGCTGCTGCCGGGCCTGGGCGCCGCCCCGGCGCTGATCGCCGCGCCGAACGCGCGGCCGAAGCTCACCGACGGGGTACAGGCCGGCGACCTGCTGGGCGACTGCGCGGTGATCTGGAGCCGCTGCGACCGACCGGCGCGGATGATCGTCGAGTGGGATACCCGCAGCGCCTTCCGCCACCCGCGCCGGGTGGTCGGGCCGATGACCGACGGCCGCCTCGACTACACCGCCCGGATCGACCTGCGCGGGCTGCCCGCCGACCAGTCGATCTTCTATCGGGTGCGCTTCGAGGACGCCCGCGACGGCAGCCTCAGCGAGCCCTGGTTCGGCCACCTGCGCAGCGCCCCGGCGCGGCCGCGAGACATCCGCTTCGTCTGGGGCGGCGACACTGCCGGGCAGGGCTTCGGCATCAACCCGGACATCGGCGGCATGCGCATCTACGAAGCCATGCGCCTGCGCCGGCCGGACTTCTTCATCCACAGTGGCGACTGCATCTACGCCGACGGTCCGATTCCGGCGCAGATCCGCAGCGCCGACGGCGAGGTATGGACCAACCTGGTCACCGAGGCGAAGAGCAAGGTGGCCGAGACCCTCGACGAATTCCGTGGCAACTACCGCTACAACCTGATGGACGACAACCTGCGCCGCTTCAACGCCGAAGTGCCGCAAATCTGGCAGTGGGACGACCACGAAGTGACCAACAACTGGTCGCCCGGCAAGGTCCTGGACGACCGCTACCAAGTCAAGGACATCGACCTGCTCGCCGCCCGTGCGCGTCAGGCCTACCTCGAATACGCACCGATGCGCGTCAAGCGCGCCGACGAGTCGGGGCGGATCTACCGCAAACTCAGCTACGGCCCGCAACTGGACATCTTCGTGCTGGATATGCGCAGCTACCGCGCTGCCAACAGCGACAACCTGCAACCGCGCCAGGGCCCGGAAACCGCCTTCCTCGGCCACGCCCAACTGCAATGGCTCAAGCGCGAGCTGCGCGCCTCGCGGGCGCTGTGGAAGGTGATCGCGGCGGACATGCCCATCGGCTTGCACGTGCCGGATGGCCAGGACGCCCAGGGCCGGGCGCGCTGGGAAGCGATCGCCAACGGCGACGACGGCAAGGCCCTCGGCCGCGAGCTGGAAATCGCTGAGCTGCTGGCCTTCATGCGCCGTAGCGGGGTGCGCAACACGGTCTGGCTCACCGCCGACGTGCATTATTGCGCGGCGCACCACTACAGCCCCGAGCGGGCGGCGTTCCAGGACTTCGAGCCGTTCTGGGAATTCGTCGCCGGCCCGCTGAACGCCGGCAGCTTCGGCCCCAACCCGCTGGATGCCACCTTCGGCCCGCAGGTGGTGTTCGAAAAGGCACCGGCGGTGGCCAACAGTTCTCCGCTGGCCGGTTTCCAATTTTTCGGCGAAGTGGAGATCGAAGCCCAGAGCGGCCTGCTGACCGTCACCCTGCGTGACATCGATGGCGAGCCGGTCTTTACCCAGGAATTGCAGCCGGCCTGA	MTDPDKNRRRLLQGMGAGLLLPGLGAAPALIAAPNARPKLTDGVQAGDLLGDCAVIWSRCDRPARMIVEWDTRSAFRHPRRVVGPMTDGRLDYTARIDLRGLPADQSIFYRVRFEDARDGSLSEPWFGHLRSAPARPRDIRFVWGGDTAGQGFGINPDIGGMRIYEAMRLRRPDFFIHSGDCIYADGPIPAQIRSADGEVWTNLVTEAKSKVAETLDEFRGNYRYNLMDDNLRRFNAEVPQIWQWDDHEVTNNWSPGKVLDDRYQVKDIDLLAARARQAYLEYAPMRVKRADESGRIYRKLSYGPQLDIFVLDMRSYRAANSDNLQPRQGPETAFLGHAQLQWLKRELRASRALWKVIAADMPIGLHVPDGQDAQGRARWEAIANGDDGKALGRELEIAELLAFMRRSGVRNTVWLTADVHYCAAHHYSPERAAFQDFEPFWEFVAGPLNAGSFGPNPLDATFGPQVVFEKAPAVANSSPLAGFQFFGEVEIEAQSGLLTVTLRDIDGEPVFTQELQPA	PGPT0002575_1938	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0002575-phoD-K01113	NA	NA
BMS010_04313	2322			hypothetical protein	ATGCGTTCTCCCTTGTGTCTTCCCACCCTGCTGGTCGGCCTCGGCGGCGCCGTGGTTCTGCCGGCCGCCCAGGCCGCGCTGCTGATCTCCGAGTACATCGAAGGCAGCGGCAACAACAAGGCCTTGGAGTTCTACAACAGCGGCGACAGCACGCTGGACCTCAGCGGCTACCGCGTCGAGTTCTATTTCAACGGCGCCACCAGCGTCGGGCGCAGCCTGCCGCTCAGCGGCAGCCTGGCGGCGGGCGACGTCCATGTGCTCGCCCACAGCCAGGCCGACCCCGCGGTGCTGGCCGTGGCGGACCAGCTCAGCGATGGCAGTTGGTACAACGGCGACGACGCCATCGTCCTGCGCGACGCCGCCGGCCAGGTGCTGGACAGCTTCGGCCAGCTCGGCGTCGATCCCGGCAGCGCCTGGGGCAGCGGCGACACCCAGACCCAGGACCGCACCCTGCTGCGCAAGACCTCGGTGAGCGCGGGGGACCTCGAGCCCGCCGATGCCTTCGACCCGGCCGCCGAGTGGGACGGCTACCCGCAGGACACCTTCAGCCAGCTCGGCCGCTACGGCGCGGGAACCCCCGGCAATGGCGACGCCGGCTTCAAACGGATTCACGAAATCCAGGGCAGTGGCTCCGCCAGTCCGCTGGCCAACCAGGTCGTCACCGTGGACGCACTGGTGGTCGGTGACTTCCAGGGCGCCGACGAACTCAAGGGCTTCTTCATCCAGGAAGAGGACAGCGATGCCGATGGCGACCCGCTGACCTCCGAGGGCCTGTTCGTCTATGACGGCGGGACGGGCGTCGACGTGCGCGTGGGCGACCGCGTGCGGGTGCGTGGGCAAGTCCGCGAATTCAATGGCCTGACCGAACTGACCGGGGCGCTGCAGGTGAGCATCGTTGCGCGCGATGTGCCGCCGCCGAGCGCGGCGACGATCCACCTGCCGCTGGCCTCCGCCGATGCCCTGGAGCGTTACGAAGGCATGCGGGTACGGCTCGACCAGCGGCTGACCGTGAGCGAGGTCTACAACCTCGGGCGTTATGGCGAGGTGCTGCTGTCCTCCGGCGGCCGGCTGTGGATGCCGACCAACGTGGTCCTGCCGGGGGCGCCGGCCCGGGCACTGCAAGCGCAGAACGACCTCAACCGCATCCTGCTGGACGACGGCCGTAGCGGTCAGAACCCTGACCCGATCCGCTATCCGTCGCCCGAGCTGAGCGCCTACGACAGCCTGCGGGTAGGCGACGAGGTGAGCGGCGTGGATGGCGTGCTGGACTACACGGCGGGCAGCTACCGCATCCAGCCGGTCCGCCAGCCGGAATTCATCGCGGCGAACCCGCGTTCGGCCCAGCCGGAGCGCCTCGACGGGCGGCTGCGGATCGCCAGCTTCAACGTGCTCAACTATTTCAACGGCGACGGCCAGGGCGGCGGCTTCCCGACCTCGCGCGGCGCCAGCAACGCGGAAGAATTCCAGCGCCAGCGCGACAAGATCATCGCCGCCATCCTCGGTGCCCAGGCCCATATCGTCGGCCTGATGGAGATCGAGAATGACGGCTACGGCGAACGCAGCTCCATCGCCGATCTGGTGAACGGCCTCAACGCCGCCTCGCCGCGGGGGCAACGCTATGCCTTCATCGAGCCGGGCCGCGAGCGGCTGGGGAGCGATGAGATCGCCGTGGGGCTGATCTACCGCGAGGACCGCGTGCGTCCGCACAAGGCCACGGCGGTGCTGGACAGCACGGTGGACCCGCGCTTCGACGACGGCAAGAACCGCCCGGCGCTGGCCCAGACCTTCCGCGAACGGCACAGCGGCGAACGGCTGACAGTGGTGGTCAACCACCTCAAGTCCAAGGGCTCCAGTTGCGACGACGTGGGCGACCCGGACACCGGCGATGGCCAGGGCAACTGCAACCTCACCCGCATCCGCGCCGCCCAGGCCCTGGTGGACTGGCTGGCCAGCGACCCGACCCGCTCGAAGGACCCGGACGTGCTGATCGTCGGCGACCTGAACTCCTACGCCAAGGAAGACCCGATCACCCTGATCCGCTCGGCTGGCTACACCGACCTGATCGCCCGTTTCGCCAAGGGCAAGGGGTATTCCTACGTGTTCTCCGGCCAGTCCGGCTACCTCGACCACGCCCTCGCCAGCCCCTCCCTGGCACGCCAGGTACGCGGTGCCGCTGAGTGGCACATCAACGCCGACGAACCGCGGGTGCTGGACTACAACCTCGAGTTCAAGAGCGCGCGGCAACAGGCACTGCTGTACAGCGCCGAGCCGTACCGGGCGTCGGACCATGATCCGGTAGTGGTGGGGGTGGATTTGCGGTGA	MRSPLCLPTLLVGLGGAVVLPAAQAALLISEYIEGSGNNKALEFYNSGDSTLDLSGYRVEFYFNGATSVGRSLPLSGSLAAGDVHVLAHSQADPAVLAVADQLSDGSWYNGDDAIVLRDAAGQVLDSFGQLGVDPGSAWGSGDTQTQDRTLLRKTSVSAGDLEPADAFDPAAEWDGYPQDTFSQLGRYGAGTPGNGDAGFKRIHEIQGSGSASPLANQVVTVDALVVGDFQGADELKGFFIQEEDSDADGDPLTSEGLFVYDGGTGVDVRVGDRVRVRGQVREFNGLTELTGALQVSIVARDVPPPSAATIHLPLASADALERYEGMRVRLDQRLTVSEVYNLGRYGEVLLSSGGRLWMPTNVVLPGAPARALQAQNDLNRILLDDGRSGQNPDPIRYPSPELSAYDSLRVGDEVSGVDGVLDYTAGSYRIQPVRQPEFIAANPRSAQPERLDGRLRIASFNVLNYFNGDGQGGGFPTSRGASNAEEFQRQRDKIIAAILGAQAHIVGLMEIENDGYGERSSIADLVNGLNAASPRGQRYAFIEPGRERLGSDEIAVGLIYREDRVRPHKATAVLDSTVDPRFDDGKNRPALAQTFRERHSGERLTVVVNHLKSKGSSCDDVGDPDTGDGQGNCNLTRIRAAQALVDWLASDPTRSKDPDVLIVGDLNSYAKEDPITLIRSAGYTDLIARFAKGKGYSYVFSGQSGYLDHALASPSLARQVRGAAEWHINADEPRVLDYNLEFKSARQQALLYSAEPYRASDHDPVVVGVDLR				NA	NA	NA	NA	NA
BMS010_04314	396		COG2852	putative protein	ATGTCCCGCGCCACCCGCGACCAACGCGACTTCGCCCAGCACCTGCGACACGACCAGACCGACTGCGAACGCCGTCTCTGGCACCACCTGCGCAACCGCCAGCTCGGCGGCTTCAAGTTCCGCCGCCAATATCCCTGCCCGCCTTACGTGCTGGACTTCTACTGCGCCGATTGCCGCCTGGCGATCGAACTGGATGGAGGGCAGCACTATGACGATGAGGGACGGGCGAAGGATCGGGTGCGCTCGGAGTTTCTGGCGAGCCGAGGCATTCGGGTGATTCGGTTCGGCAATCATGACGTGCTGGGGAATTTTGAAGCGGTGCTGGAGGTGATTTTCGAGGCTTGTCGAGAGTTCGCATGCAGCTCCGCTCCAAGTGCCTCCAATCCCAGAACGTAG	MSRATRDQRDFAQHLRHDQTDCERRLWHHLRNRQLGGFKFRRQYPCPPYVLDFYCADCRLAIELDGGQHYDDEGRAKDRVRSEFLASRGIRVIRFGNHDVLGNFEAVLEVIFEACREFACSSAPSASNPRT	PGPT0027230_12	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_III_R-M_SYSTEM,PGPT0027230-mod-K07316	NA	NA
BMS010_04315	1584	prfC_2	COG4108	Peptide chain release factor RF3	ATGACCACTCAGGCCGCCGAAGTCGCCAAGCGCCGCACGTTCGCCATCATTTCCCACCCCGACGCGGGTAAGACCACCATCACCGAGAAGCTCCTGCTGATGGGCAAGGCCATTGCCGTCGCCGGCACGGTGAAATCGCGGAAATCCGACCGCCACGCCACCTCCGACTGGATGGAGATGGAAAAGCAGCGCGGCATCTCCATCACCACCTCGGTGATGCAGTTCCCCTACCGCGAGCACATGGTCAACCTCCTCGACACCCCCGGCCACGAGGACTTCTCGGAAGACACCTACCGCACCCTGACCGCGGTGGACAGCGCGCTGATGGTCCTCGACGGCGGCAAGGGCGTCGAGCCGCGCACCATCGCCCTGATGGATGTCTGCCGGCTGCGCGACACGCCGATCGTCAGCTTCATCAACAAGCTCGACCGCGACATCCGCGATCCCATCGAATTGCTCGACGAGATCGAGGCGGTGCTGAAGATCAAGGCCGCGCCCATCACCTGGCCGATCGGCTGCTACAAGGATTTCAAGGGCGTCTATCACCTGGCCGAAGACAAGATCATCGTCTACGTGCCGGGCCACGGCCACGAGCGCATCGAAGTGCCGGTGATCCAGGGCCTGGACTCCGCCGAAGCGCGTGCCCACCTGGGCGACATGTACGACGCGTTCGTCGAGCAGCTCGAGCTGGTCCAGGGCGCCTGCCACGAATTCGACCAGGACGCCTTCCTCAAGGGCGAGATGACCCCGGTGTTCTTCGGCACCGCGCTGGGCAACTTCGGCGTCGACCAGGTGCTCGACTGCATCGTCGACTGGGCCCCGCAGCCGCTCTCTCGCGCCGCCCACGAGCGGGTGGTGGAGCCGGTCGAAGAGAAATTCTCCGGCTTCGTGTTCAAGATCCAGGCGAACATGGATCCGAAGCACCGCGACCGCATCGCCTTCATGCGCATCTGCTCCGGCAAGTACGAGAAAGGCATGAAGATGCGCCATGTGCGGATCAAGAAAGACCTGAAGATCGCCGATGCCCTGACCTTCTTCTCCTCCGAACGGGAGATGCTGGAAGAGGCCTATGCCGGCGACATCATCGGCCTGCACAACCACGGCACCATCCAGATCGGCGACACCTTCACCGAAGGCGAGAGCCTGGGTTTCACCGGCATTCCGCATTTCGCCCCGGAACTGTTCCGCCGCGTGCGCCTGAAGGACCCGCTGAAATCCAAGCAACTGCGCCAGGGACTGCAGGAACTGGCCGAGGAAGGCGCCACCCAGGTGTTCTTCCCCGAGCGCAGCAACGACATCATCCTCGGCGCGGTGGGCGTGCTGCAGTTCGACGTGGTCGCCAGCCGCCTGAAAGAGGAATACAAGGTCGAGTGCGCCTACGAGGCGATCAACGTCTGGTCGGCCCGCTGGATCGAATGCGACGACAAGAAGAAGCTGGAAGACTTCAAGACCAAGGCCTTCGAGAACATCGCCATCGACGGCGGCGGCCACCTCACCTACCTGGCCCCGACCCGCGTCAACCTCAGCCTCATGGAAGAGCGCTGGCCCGACGTGAAATTCCGCGCGACGCGGGAACACCACTGA	MTTQAAEVAKRRTFAIISHPDAGKTTITEKLLLMGKAIAVAGTVKSRKSDRHATSDWMEMEKQRGISITTSVMQFPYREHMVNLLDTPGHEDFSEDTYRTLTAVDSALMVLDGGKGVEPRTIALMDVCRLRDTPIVSFINKLDRDIRDPIELLDEIEAVLKIKAAPITWPIGCYKDFKGVYHLAEDKIIVYVPGHGHERIEVPVIQGLDSAEARAHLGDMYDAFVEQLELVQGACHEFDQDAFLKGEMTPVFFGTALGNFGVDQVLDCIVDWAPQPLSRAAHERVVEPVEEKFSGFVFKIQANMDPKHRDRIAFMRICSGKYEKGMKMRHVRIKKDLKIADALTFFSSEREMLEEAYAGDIIGLHNHGTIQIGDTFTEGESLGFTGIPHFAPELFRRVRLKDPLKSKQLRQGLQELAEEGATQVFFPERSNDIILGAVGVLQFDVVASRLKEEYKVECAYEAINVWSARWIECDDKKKLEDFKTKAFENIAIDGGGHLTYLAPTRVNLSLMEERWPDVKFRATREHH				NA	NA	NA	NA	NA
BMS010_04316	1164	ldc_2		Lysine/ornithine decarboxylase	ATGCCTATCCAGGTCGAAGACTATTTCCCGCGCGAAACCTTCCAGCGTATGAAGGCCTTCGCCGACCAGCACGAAACCCCCTTCGTGGTCATCGACAAGCAGACCATCGCCAACGCCTACGATCAGTTGGTGACCTGCTTCCCCTTCGCCAAGATCTACTACGCGGTCAAGGCCAACCCGGCGGTGGAAATCATCGACCTGCTGCGGGACAAGGGCTCCAACTACGACATCGCCTCCATCTATGAGCTGGACAAGGTGCTCAAGCAGGGCGTGAGCGCCGACCGCATCAGCTACGGCAACACCATCAAGAAGTCCAAGGACATCCGCTACTTCTACGAGAAGGGCGTGCGCCTGTTCGCCACCGACTCCGAGGCCGACCTGCGCAACATCGCCAAGGCCGCGCCGGGCTCGAAGGTCTATGTCCGTCTGCTCACCGAGGGTTCCACCACCGCCGACTGGCCGCTGTCGCGCAAGTTCGGCTGCCAGACCGACATGGCCATGGACCTGCTGATCCTCGCCCGCCAGCTGGGCCTGGTGCCCTACGGCATCTCTTTCCACGTCGGTTCGCAGCAGCGCGACATCGGTGTCTGGGATGCGGCCATCGCCAAGGTCAAGGTGATCTTCGAGCGCCTGAAGGAAGAGGACGGCATCGTCCTTAAAATGATCAACATGGGCGGCGGCTTCCCGGCCAACTACATCACCAAGACCAACAGCCTGGAAACCTACGCGGAAGAAATCATCCGCTTCCTCAAGGAAGACTTCGGCGACGACCTGCCGGAGATCATCCTCGAGCCGGGCCGCTCGCTGATCGCCAACGCCGGCATCCTGGTCAGCGAAGTGGTGCTGGTCTCGCGCAAGTCGCGTACCGCCGTGGAGCGCTGGGTGTTCACCGACGTGGGCAAGTTCTCCGGCCTGATCGAAACCATGGACGAAGCCATCAAGTTCCCCATCTGGACCGAAAAGAAGGGCGAGATGGAGGAAGTGGTGATCGCCGGCCCGACCTGCGACAGCGCCGACATCATGTACGAGCACTACAAGTACGGCCTGCCACTCAACCTGGCCATCGGCGACCGCCTCTACTGGCTCTCCACCGGTGCCTATACCACCAGCTACAGCGCGATTGAGTTCAATGGCTTTCCGCCGCTGAAAGCGTTTTACCTGTAA	MPIQVEDYFPRETFQRMKAFADQHETPFVVIDKQTIANAYDQLVTCFPFAKIYYAVKANPAVEIIDLLRDKGSNYDIASIYELDKVLKQGVSADRISYGNTIKKSKDIRYFYEKGVRLFATDSEADLRNIAKAAPGSKVYVRLLTEGSTTADWPLSRKFGCQTDMAMDLLILARQLGLVPYGISFHVGSQQRDIGVWDAAIAKVKVIFERLKEEDGIVLKMINMGGGFPANYITKTNSLETYAEEIIRFLKEDFGDDLPEIILEPGRSLIANAGILVSEVVLVSRKSRTAVERWVFTDVGKFSGLIETMDEAIKFPIWTEKKGEMEEVVIAGPTCDSADIMYEHYKYGLPLNLAIGDRLYWLSTGAYTTSYSAIEFNGFPPLKAFYL	PGPT0007765_2017	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007765-speC|speF|ODC1-K01581	NA	NA
BMS010_04317	2316	fiu	COG4774	Catecholate siderophore receptor Fiu	ATGACAATCCGTAGTCGCAAGCATCACAAGACGAGCCACCTGGCAGCGCTGGTCGCGGCAGCCATCCCGGCCATGACCCTGGCCCAGACCGCCAAGACCGGGGACGAACTCAACCTGCCCGAGATGGTGGTGACGTCCAAGGCCGAGGTTCCCTACAAGGCCGACAAGAGCGCCAACCACAAGCTGACCGAGCCCCTGCTGGATACGCCCAAGACCGTCCAGGTGATCAAAAAGGAGATGCTCCGCGAGCAGGGCGCCACCAGCCTGATGGAAGCGCTGCGCAACACCCCCGGCATCACCATGCAGCTCGGCGAGAACGGCAATACCTCGGCCGGCGACACCTTCATGATGCGCGGCTTCTCCACCCAGCAATCGACCTTCGTCGACGGCGTTCGCGATCTCGGCGCGGTGGGCCGTGATGTGTTCAACCTGGAGCAGGTCGAGGTGGTCAAGGGCGCCGCCGGCTCCGACATCGGGCGTGGTGCCGCGTCGGGCTATATCAACCTGATCACCAAGCTGCCGACCCTGGAAGACTCGATCAGCGGCACCCTCGGCTACGGCACCGCCGACAACGCCCACATGACCGCCGATATCAACCAGGCTTTGAGCGACCACTCGGCCCTGCGCCTGAACCTGATGCGCCGCGACGGCGGGGTGGACGGCCGCGACTACGTGGAAAACAGCAGCTACGGCGTGGCGCCGTCCATCGCCTTCGGCCTGGAGACCGACACCCGCCTGTACGTCTATTCGCAGCACGTGCGCCAGGACAACACGCCGGATGGCGGCATCCCGACCATTGGCATGAAAGGCTTCTACAGCACGCAAACCAGCGCCGCCCAGGCCGCCCGCCTGAACACCGGCGGCAAGGTGGACCGCGAGAACTACTACGGCAGCAAGAGCGACTACGAGAAGGTCGACGCCGACATGCTGACCGTCAAGTTCGAGCATGATCTCGACGACGTGACGACCCTGCGCAACATCTCGCGCTATGGCAAGAGCAACGTCGACCGCATCCTCACCGGCCCCGCCGGTGGCACGACCGCGCTGAAAGCGACCAGCGCCGATCCGTCCACCTGGACCGTCGACCGTTCGCGCCAGTTGATCGACCAGGAAAACGAAATCCTCGCCAACCAGACCAGCCTGAACACCGAGTTCACCACCTTCGGCCTGCGCAACAGTCTGGCCAGCGGTGTCGAATTCATGCGCGAGAGCCAGCGCAACGAATCGGGCACTACTTCTCGTCAGATCATCGATGGTGTCGATTACGCCGCGGTGCTGCTGCCGTCGGCCAGCCTATACGACCCCAACCCACATGACGCCATGGGCAAGCCATACAAGACTGGCGTCTACAGTGATGGCACCACCGATACTGCGGCCATCTATGTCTTCGATACCCTGCACCTGAATGAACAGTGGTCGGTCAACGCCGGCTTGCGTTTTGAGCACTACAAGACCGATACCAAAGGGGCCTCGCTGACAGCCATTTCGGCCACGTCGATTACATATGATTACCTGCTCACTCCCTACAAGCTCAGCGACTCGGGTGATCTGACCAGTTGGAATACCGGTATCGTGTTCAAGCCGGCGGAGAATGGCAGCATCTACCTGGCTTATGCCAACTCGCTGACCCCGCCTGGTAGCTCTAACTTCGCCCTGTCCAGCTCCGAGAGCAGCGATAATCAGCCGAATCTCGATCCGCAGGAAACCAAGCACATCGAGCTGGGCACCAAGTGGGACCTGCTGAACGACCGGTTGAACCTGTCGGCGGCGATCTACCGCACCGAGAACAGCAACCAGGTGTCCTACGACACCCTGAGCGCCACCTACCAGCAGGACGGCACCATCCGGGTCAAGGGGATCGAGCTGGCGGCGGTGGGCCAGATCACCAACTTCTGGCAGGTCTCGGCGGGTATCGCCAGCATGGATACCGAGCAGATCGACCAGGTGAGCCGTTCCTCCTCCGGGGTGATCACCGAAAACACCGGGGTACGCTGGTCGCCCGACCTGACCGCGACGTTGTGGACCTCCTACACCCTGGGCGACTTCACCCTGGGCGGCGGGGCGCGCTATGTCTCCGAACAGGATCGCCTGATCGCCAAGGGGGCCGATCGCTCCACCACCAACATGCCGAGCATCCCGTCCTACTGGGTGGCCGACATGATGGCGGCCTACCGTCTCAACAAAAACGTCAACCTGCGCGTGAACCTGTACAACCTGTTCGATGAGGAATACATCGCCACCCTCAACAACAGCGGTGCGCGCATGGTCATGGGCGCCCCCCGTTCGGCGATGTTCACCACCGAATACAGCTTCTGA	MTIRSRKHHKTSHLAALVAAAIPAMTLAQTAKTGDELNLPEMVVTSKAEVPYKADKSANHKLTEPLLDTPKTVQVIKKEMLREQGATSLMEALRNTPGITMQLGENGNTSAGDTFMMRGFSTQQSTFVDGVRDLGAVGRDVFNLEQVEVVKGAAGSDIGRGAASGYINLITKLPTLEDSISGTLGYGTADNAHMTADINQALSDHSALRLNLMRRDGGVDGRDYVENSSYGVAPSIAFGLETDTRLYVYSQHVRQDNTPDGGIPTIGMKGFYSTQTSAAQAARLNTGGKVDRENYYGSKSDYEKVDADMLTVKFEHDLDDVTTLRNISRYGKSNVDRILTGPAGGTTALKATSADPSTWTVDRSRQLIDQENEILANQTSLNTEFTTFGLRNSLASGVEFMRESQRNESGTTSRQIIDGVDYAAVLLPSASLYDPNPHDAMGKPYKTGVYSDGTTDTAAIYVFDTLHLNEQWSVNAGLRFEHYKTDTKGASLTAISATSITYDYLLTPYKLSDSGDLTSWNTGIVFKPAENGSIYLAYANSLTPPGSSNFALSSSESSDNQPNLDPQETKHIELGTKWDLLNDRLNLSAAIYRTENSNQVSYDTLSATYQQDGTIRVKGIELAAVGQITNFWQVSAGIASMDTEQIDQVSRSSSGVITENTGVRWSPDLTATLWTSYTLGDFTLGGGARYVSEQDRLIAKGADRSTTNMPSIPSYWVADMMAAYRLNKNVNLRVNLYNLFDEEYIATLNNSGARMVMGAPRSAMFTTEYSF	PGPT0003875_970	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-OTHER_IRON_BINDING_PROTEINS,PGPT0003875-fiu|bfrD-K16090	NA	NA
BMS010_04318	678		COG3128	PKHD-type hydroxylase	ATGTTGCTGCATATCCCCCAGGTACTGAGCCGGGACGAAGTCGCCGCCCTGCGCACCGAGCTGGCGGCCCACGACTGGGTCGACGGCGTGCGAACCTCCGGCCCGCAGGCGGCGGGCCTCAAGCACAACCTGCAATTCCCCGCCGATTCGCCGGCTTTCGCCGGGTTGTCCCAGCGGGTCGCCGACGCCCTGGCCCGGCACCCGTTGTTCGTCTCCGCCGTGCTGCCGCGCCATGTCCTGCCGCCGATGTTCAACTGCTACAGCGGCGGCGGTCGCTACGGCAACCATGTGGACAACGCCTTGCAGCGCGACCGCTTCAGCGGGCTCCAGGTGCGCACGGATGTCTCCACCACGGTCTTTCTCAGCGAGCCGGACGAATACGCAGGCGGCGAACTGATCATCGAGGACACCTACGGCGAGCACGAGGTGAAGCTGGCGGCCGGCGATGCCATCGTCTACCCGGCCACCAGCCTGCATCGCGTCGAGCCGGTCACCGAGGGGGCGCGCATCGCCGCCTTCCTCTGGTCGCAGAGCTGGGTGCGCGACGCCTGGCAACGCAAGCTGCTGTTCGACCTGGACATGAACATCCTCAAGCTGCGCGGCCAGTTGGGCGACAGCGAGGAAGTCCTCGGGCTGACCAGCACCTACCATAACCTGCTGCGCCAGTGGAGCGAGTGA	MLLHIPQVLSRDEVAALRTELAAHDWVDGVRTSGPQAAGLKHNLQFPADSPAFAGLSQRVADALARHPLFVSAVLPRHVLPPMFNCYSGGGRYGNHVDNALQRDRFSGLQVRTDVSTTVFLSEPDEYAGGELIIEDTYGEHEVKLAAGDAIVYPATSLHRVEPVTEGARIAAFLWSQSWVRDAWQRKLLFDLDMNILKLRGQLGDSEEVLGLTSTYHNLLRQWSE				NA	NA	NA	NA	NA
BMS010_04319	1122	hmo		4-hydroxymandelate oxidase	ATGTCGCGCCTGCCGCCTCTCAGCCAGATTCCCGCGGACATGGTCGCCGCCAGCGACTACGAGCGTTACGCCCTGCCGCGCCTGGATGCCAATGCCCTGGCATACCTGGAAGGCGGCGCGGCGGATGAACTCACCTGCCGGGCCAACCTGCAGGCATGGCGGGAGTGGGCACTGTTGCCACGCATGTTGCGCGACCTGCGCGGCGGCAACACCTGCTGCGAGTTGCTGGGTGACGCATTGCAGCATCCGATCCTGCTGGCGCCGATCGCCTACCAGCATCTGTTCCATGCCGATGGCGAACGGGCCAGCGCATTGGCCGCTGGCGTCATGGGCGGTGCGGCGGTGCTCAGCTCCTTCGCCTCGACCCGCTTGGAAGACGTGGCCGAGGCCGCCCAGGGGCCGCTGTGGTTCCAGCTCTACTGGCAGGGCAACGAGCAGGACACCCTGGCCCTGGCAGAGCGGGCCGAAGCCGCCGGCTACCGGGCGCTGGTGCTGACCGTGGACGCGCCGGTGGCCGGGCTGCGCAACCGTGAGCAGCGGGCGGGGTTCCAACTGCCTGCCGGCGTCCGCGCCGTGAACATCGATAAATCCGTGGTGCTGCCGGAGGTGGCCGAAGGCGGCAGCCCGGTGTTCGATGGCCTGATGGCGGTGGCGCCGCGCTGGGAGGATGTGGCCGGGCTCTGTCGTCACAGCCGCCTGCCGGTGCTGCTCAAGGGCATCCTGCACCCGCAGGATGCGCGCCTGGCCATGGAGGCTGGCGCCGCGGGTGTCATCCTGTCGAACCATGGTGGGCGGGTGCTGGACTCGCAGTGGCCGGCGGTGCGTTCGTTGCCGGCAGTCCGCGCGGAACTGGGCGAGGGCGTTCCGGTGCTGGTGGACGGTGGCATCCGGCGCGGCACCGATGTGTTCAAGGCCCTGGCCCTGGGGGCTTCCGCCGTGCTGATCGGCCGTCCCTACATCCATGCCCTGGCCACAGCCGGGGCACTGGGTGTGGCGCACCTGCTCAAGCTGCTGCGGGAGGAGCTGGAGGTCGCCATGGCGCTGAGCGGTTGCCGCGAGCTGTCCTGCATTGGCCCCGACCTGCTGCGTCCGGCCCCGGCCAGTGACGGGAAGTACTTGTAA	MSRLPPLSQIPADMVAASDYERYALPRLDANALAYLEGGAADELTCRANLQAWREWALLPRMLRDLRGGNTCCELLGDALQHPILLAPIAYQHLFHADGERASALAAGVMGGAAVLSSFASTRLEDVAEAAQGPLWFQLYWQGNEQDTLALAERAEAAGYRALVLTVDAPVAGLRNREQRAGFQLPAGVRAVNIDKSVVLPEVAEGGSPVFDGLMAVAPRWEDVAGLCRHSRLPVLLKGILHPQDARLAMEAGAAGVILSNHGGRVLDSQWPAVRSLPAVRAELGEGVPVLVDGGIRRGTDVFKALALGASAVLIGRPYIHALATAGALGVAHLLKLLREELEVAMALSGCRELSCIGPDLLRPAPASDGKYL	PGPT0011050_225	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-NOCARDICIN_A-D_METABOLISM,PGPT0011050-nocN|hmo-K16422	NA	NA
BMS010_04320	2532			hypothetical protein	TTGTTCAAGAAAACCCTGTTTCAACTGCACTGGCTGTTCGGCATCAGTGGCGGGCTGGTCCTGGCCCTGATGGGCGTGACCGGTGCGCTCTATTCCTTCCAGGACGAAATTCTCCGGGCGCTCAACCCGGACGTGCTGCGCGTCGAGGCGGGCGACCGCGCCGTTCTGCCACCGGCCGAGCTGGTGGCGAAGATCGAGTCGGCCACCGGCGACAAGGTCGGCGGCCTGTGGGTCGAAACCTCCAGCGGCAACGCCGCCCGGGTGTTCTTCGTGCCGCCACCGGGCGAGCGCCGCGGCCCGGTCCGCTATTTCGACCCGTACACCGGCGATCTGCTCGGCGACCCCGTGGGGCAGGACTTCTTCGGCCTGATGCTGCAGCTGCACCGCTTCCTCGCCATGGGCGAGACCGGCAAGCAGATCACCGCCGCCTGTACCCTGATGCTGGTCTTCTTCTGCCTGTCCGGCCTCTACCTGCGCTGGCCCCGGCAGGTCGGCAACTGGCGCGCCTGGCTGGCCTTCGACTGGGCGAAGAAAGGCCGCGCCTTCAACTGGGACCTGCACGCCGTGGCCGGTACCTGGTGCCTGCTGTTCTATCTCTGCGCCGCGCTGACCGGCCTCTTCTGGTCCTATGACTGGTACCGCGCCGGCATGACCCGTCTGCTCGGCGATGCCCCGGCCCAGCAAGGCGGCCGTGGCGAGAGGCCGGGCGCTGGCCGGGAGCGTGCGGCAACCCCCGTGCGGGTGGATTATGCGGCTGTCTGGGACAGCATCCAGCGCGAAACCGGTCCGGGCCTGAACACTTACAACCTGCGCCTGCCGCCCCAGGGTGGTCAGCCGGCGACGGTCTTCTACCTGCTCGACGACGCCCCCCACGACCGGGCGCTGAACAAACTCGAACTGGACCCGGCCACCGGCGTGGTCTCGCGCAACCAGCGCTATGCCGAGCAATCCTTCGGCGGCCAATTGCTGGCGAGCAACTACGCCTTGCACGTGGGCAGCTACTTCGGCCTGCCCGGTCGCATCCTGATGACCCTGGCGAGCCTGGCGATGCCGCTGTTCTTCGTCACCGGCTGGCTGCTCTACCTCGACCGCCGGCGCAAGAAGCGCGCGGTGCGGGCCGCACAGGGCGGGGTGAGCGGTGGCTCGGGAGCCGATGGCTGGCTGATCGGCTTCGCCAGCCAGAGCGGTTTCGCCGAGCAACTGGCCTGGCAGACTGCCGGGCAATTGCAGGCAGCGGGACATCCGGTGAGCGTCCGGCCGCTGTCCGGGCTGGACGAACAGGGCTTGCGTCAGGCACGCCGGGCGTTATTCGTGGTCAGCACCTTCGGCGATGGCGAAGCGCCGGACAGCGCCCGTGGCTTCGAGCGCAAGCTGCTCGACCGGGCGCTGCGCCTGGACCATCTGAGCTACGCGCTGCTCGCCCTCGGGGACCGGCAGTACAGCCAGTTCTGCGGCTTCGCCCGGCGCCTGCACGGCTGGCTCGACCGTCAGGGCGCGCGCAGTCTGTTCGCCCCGGTGGAAGTGGATAACGGTGACGGCGGCGCCATCGCCGACTGGCATCGCCAACTGGGCTCGTTCACCGGGACGGACATGGCAGTGCCCACCGAACCGGCCTGGACCACCCTGACCCTGCGCGAGCGGCGCCTGCTCAATCCCGGCAGCCAGGGTGGCCCGGCTTTCCTGATCGGCCTGACGGCGGATGCGCCGCTGGACTGGCGGGCCGGCGACGTCGTGCAGATTCTCCCGCGCCACGGGGATGCGCCGGTGAGCGACTGGCTGGCCCGCTTCGGGCTGGACGGCGAGGCGCAGGTGACGCTGGACGGGCATGCGCAAACACTGCGCCAGGCCCTGGCCACGCGCGAACTGCCATCCACCTTCAGCCACCTGGTCGGCCTTCATCCGCAGGCGCTGCTGGAGGCGCTGGTGCCGCTGGCGCCGCGCGACTACTCCATCGCCTCGCTGCCCAGCGACGGCACGCTGGAACTGATCGTCCGCCAGGAGCGCCGTGCCGATGGCGCCCTGGGCGTGGGCTCCGGCTGGCTGACCGAATACCTGCCCGACGGCGGCAGCCTGTTGGGACGGGTGCGGCGCAACAGCGGCTTCCACGCGCCGGAAGACGACCGCCCGCTGATCCTGATCGGCAACGGCACCGGGCTGGCCGGTTTGCGCGGGCTGCTCAGGGCGCGCATCGGCGAAGGTCACGCGCGCAACTGGCTGATCTTCGGCGAGCGCAATGCCGACCATGACTACTTCTGTCGTGAGGAGTTGGAGCGCTGGCGGGCGGAAGGCTGGTTGGCGCGGCTCGATCCGGTCTTCTCCCGCGACCAGGCGGAAAAGCGCTATGTGCAGGATAGCCTGGGCGAGGCGGCGGACACCCTGCGCGCCTGGCTCGACGACGGCGCCGCGCTCTATGTCTGCGGCAGCCTCAAGGGCATGGCCGAAGGCGTCGACCGGGTGCTGCGCGAATGCCTGGGCGATGCCACGCTGCAGCGGCTGGTGGAGGAGGGGCGCTACCGGCGGGATGTCTACTGA	MFKKTLFQLHWLFGISGGLVLALMGVTGALYSFQDEILRALNPDVLRVEAGDRAVLPPAELVAKIESATGDKVGGLWVETSSGNAARVFFVPPPGERRGPVRYFDPYTGDLLGDPVGQDFFGLMLQLHRFLAMGETGKQITAACTLMLVFFCLSGLYLRWPRQVGNWRAWLAFDWAKKGRAFNWDLHAVAGTWCLLFYLCAALTGLFWSYDWYRAGMTRLLGDAPAQQGGRGERPGAGRERAATPVRVDYAAVWDSIQRETGPGLNTYNLRLPPQGGQPATVFYLLDDAPHDRALNKLELDPATGVVSRNQRYAEQSFGGQLLASNYALHVGSYFGLPGRILMTLASLAMPLFFVTGWLLYLDRRRKKRAVRAAQGGVSGGSGADGWLIGFASQSGFAEQLAWQTAGQLQAAGHPVSVRPLSGLDEQGLRQARRALFVVSTFGDGEAPDSARGFERKLLDRALRLDHLSYALLALGDRQYSQFCGFARRLHGWLDRQGARSLFAPVEVDNGDGGAIADWHRQLGSFTGTDMAVPTEPAWTTLTLRERRLLNPGSQGGPAFLIGLTADAPLDWRAGDVVQILPRHGDAPVSDWLARFGLDGEAQVTLDGHAQTLRQALATRELPSTFSHLVGLHPQALLEALVPLAPRDYSIASLPSDGTLELIVRQERRADGALGVGSGWLTEYLPDGGSLLGRVRRNSGFHAPEDDRPLILIGNGTGLAGLRGLLRARIGEGHARNWLIFGERNADHDYFCREELERWRAEGWLARLDPVFSRDQAEKRYVQDSLGEAADTLRAWLDDGAALYVCGSLKGMAEGVDRVLRECLGDATLQRLVEEGRYRRDVY	PGPT0002795_554	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002795-cysJ-K00380	NA	NA
BMS010_04321	852			hypothetical protein	ATGACCAAGCACTATCCCGCCGCCTACCAGGTGTCCAAGGGCGCCGCGCTTTCCGTGGACAAGGCTTTCTACGGCCGTATCCGGGAACGCCAGGAAGCGCGTACCCTGATCGAGTCGTTCGAAGTGCCGATCCGTAGCGGCCGGGCCTGGAAGGTGCCGGCCGGGCACCTGTTCCGCGTCACCGCGCCGAAGGGCCCGCAGGTCGGCGATTTCAACCTGTGGAACGCCAACGACCCGCGCGAGCGGCTGTGGGCAGCGCGTACCCGCCAGTTGCAGGGTGCCCATGTCAGCACCTTCGACCGGCTCTGGTCGAACCTGCCGTTCCTCCGTCCGCTGGTGACCATCACCGACGACAGCCTGGCCGACTATGGCGTCGACGAGCACGGCGGGCGGGTCCACGATCTGCTCGGCACCCGCTGCGATCCGTACATCAACAAGCTGCTCACCGGCGAGGACTTCCACCACCACTGCCACTCCAACCTGGTGCGTGCGGTGCTGCCCCACGGCCTGACCGAGTTCGACGTGCACGATGTGCTGAACATCTTCCAGGTCACCGGCCTCAACCATGACGACCTGTATTTCATGAAGGCCTGCCCGGCCAAGCCGGGCGACTACCTGGAATTCTTCGCCGAGATCGACCTGCTCTGCGCGCTCTCCACCTGCCCGGGCGGCGATCTGTCGTTGCCGATGTGGGGCCCGGATGCCAAGGACCCGCTGGAGGTGTGCCGCCCGCTCGGGGTGGAAATCTACCGCCTCGACGACAGCCTGCTGGAGGGCTGGAAGCAGCCGGAGCGCGCGCCGTACCACGGTCTGCACGGCCTGCAACTGGGCAAGGCGGCCTGGGAAGCCTGA	MTKHYPAAYQVSKGAALSVDKAFYGRIRERQEARTLIESFEVPIRSGRAWKVPAGHLFRVTAPKGPQVGDFNLWNANDPRERLWAARTRQLQGAHVSTFDRLWSNLPFLRPLVTITDDSLADYGVDEHGGRVHDLLGTRCDPYINKLLTGEDFHHHCHSNLVRAVLPHGLTEFDVHDVLNIFQVTGLNHDDLYFMKACPAKPGDYLEFFAEIDLLCALSTCPGGDLSLPMWGPDAKDPLEVCRPLGVEIYRLDDSLLEGWKQPERAPYHGLHGLQLGKAAWEA	PGPT0001000_214	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0001000-ycgI-K09967	NA	NA
BMS010_04322	753	pxpA3_1	COG1540	5-oxoprolinase subunit A 3	ATGAATTCAGGGCAGCGCATCCTGCTCAACTGCGACATGGGCGAGAGTTTCGGTGCCTGGAAGATGGGCGACGACAGCCACGCCATGCCGTTGGTGGACCAGGCCAACCTGGCCTGCGGCTTCCACGCCTCCGACCCGCTGACCATGCAGCGCACCGTCGATCTGGCGGTGCGGCACGACGTGGCCATCGGCGCGCACCCGGCTTACCCGGATCTGGTCGGCTTCGGTCGTCGGCACCTGGCCTGCTCGCCGGAAGAGGTGCGGGCCATGGTGCTGTACCAGATCGGCGCGCTGGATGCCCTCTGCCGCGCCGCGGGGACGCGGGTCGCCTACGTCAAGCCGCACGGCGCGCTGTACAACGACCTGGTGCGCGACGATGCGCTGCTCAGCGCCGTGCTCGACGCCTGCGCCCACTACCGCAAGGGCCTGCCGCTGATGGTGCTGGCCCTGGCCGACAACAGCCGCGAGCTGCGTCTGGCCGACGAAGCCGATGTGCCGCTGATGTTCGAAGCCTTCGCCGACCGCGCCTACCAGTCCGACGGGCAGTTGGCGCCACGGCGCCTGGCCGGGGCGGTGCACCACGATCCCGAGCGGATTCTCGCCCAGGCGTTGGCCATCGCCCGTGGCGAGGCGTTTCCGGACCAGGACGGCAAACCGCTGCGGCTGAACGCCGACAGCCTCTGCGTGCACGGCGACAACCCCGAATCCCTCGCCGTGCTGCGCCGCCTGCGCGCCCAGCTCGACACCCTCTGA	MNSGQRILLNCDMGESFGAWKMGDDSHAMPLVDQANLACGFHASDPLTMQRTVDLAVRHDVAIGAHPAYPDLVGFGRRHLACSPEEVRAMVLYQIGALDALCRAAGTRVAYVKPHGALYNDLVRDDALLSAVLDACAHYRKGLPLMVLALADNSRELRLADEADVPLMFEAFADRAYQSDGQLAPRRLAGAVHHDPERILAQALAIARGEAFPDQDGKPLRLNADSLCVHGDNPESLAVLRRLRAQLDTL				NA	NA	NA	NA	NA
BMS010_04323	681	pxpB_2	COG2049	5-oxoprolinase subunit B	GTGCGCACGCGTATCGAACCGGCCGGCGCCGAGGCCCTGCTGCTGGTGCTGGCGGACGCGCCGGACGAACACCTGCCGGCACGCATCGCCGCGCTGGCCGAGCGTATCCGCCATCACTGCGGCGCCTGCCTGACCGATCTGGTGCCGGGCTGGACCACGTTGCTGGTGCATTACGACCTGACCCGCACCGACCGCCGCCAACTGGCCGGGCGGCTGCAAGCGCTGCTCGATGCCTGGCAGGCCGAGCCCGTGGTGGCGGCGGTCGGCCGCCTGCATGAAATCCCCATCTGGTACGCCGGCGAGGACCTGCCTGCCGTCGCCGCCGTCTGCGGGCTCGACGAAGCAGAGGTGATCCGCCTGCACAGCGCGGGCGAGTACCGGGTCGGCGCCATCGGCTTCGCACCGGGTTTCGCCTACCTGGGCACGCTGGACGCGCGTCTTGCCTTGCCGCGCCGGGCCACGCCGCGGGGGCGCGTGCCGGCCGGCAGCCTGGCCATCGCCGAGCGGCAGACGGCGATCTATCCCCAGGCCTCGCCCGGTGGCTGGCACCTGCTGGGGCGCTGTCCGTGGACGCTGTTCGACCCCGCCCGTACCCCGCCGTGCCCGCTGGTACTGGGCGACCGGGTGCGGTTCGTCGCCATCGACGAGGCGACCTACCGGCGTGAGGGTGGCGTGTCGTGA	MRTRIEPAGAEALLLVLADAPDEHLPARIAALAERIRHHCGACLTDLVPGWTTLLVHYDLTRTDRRQLAGRLQALLDAWQAEPVVAAVGRLHEIPIWYAGEDLPAVAAVCGLDEAEVIRLHSAGEYRVGAIGFAPGFAYLGTLDARLALPRRATPRGRVPAGSLAIAERQTAIYPQASPGGWHLLGRCPWTLFDPARTPPCPLVLGDRVRFVAIDEATYRREGGVS				NA	NA	NA	NA	NA
BMS010_04324	924	pxpC_2	COG1984	5-oxoprolinase subunit C	GTGAGCGGCTTCGTGGTCATCAAGCCCGGTCCGCTCAGCCTGCTGCAGGATGCCGGTCGCGTGGGTTGGCAGCAGTGCGGCGTGTCGCCGGGCGGCCCGCTGGACCGGCACGCGGCGGCCTGGGCCAACCGGCTGCTGGACAACCCCTGGGGAACGCCGCTGCTGGAGATCGCCCTGGGCGGCGTCGAGCTGGAAAGCCAAGTGGATACCTGGGTAGCGCTGTGCGGGGCCGACCTTCCCATCGAATTGGACGGCCAGCCGCTGGCCCTTTGGACGCGCTTCCCGGTGCGCGTCGGGCAGCGCCTGCACCTGGGCTTTGCCCGCAGCGGTCAGCGGGCCTACCTGGCGGTGGCCGGTGGCTTCCGGGCGGAGCCGGTGCTGGGCAGCGTGGCCACGCAAGTGCGCGAGGGATTGGGTGGGCTGCGTGGCGACGGCTCCGCGTTGCAGGCCGGCGATGTACTGCATTGCTCGCCTTCGACGCGGCCGGGCGTGGCCAGCGTGCCCTGGCCTTACCGGCCGGATTACCGGGAGCCGCCGGTGTTGCGGGTGACCCTCGGCGGGGATGCACCGCTGTTCGCCGAGGCCGAACGCGTAGCCTTCTTCCGTCGCGAATGGCGGCTCAGCCCGCAGTCCGACCGCATGGGGGCGCGTTTGCTCGGCGAACCGCTACGCGCCCCGGCACGGCAGTGGTCGCTGGGGATCGCCACGGGCGCCATCCAGGTGCCGCCGGATGGCCAGCCGATCATCCTCATGGCCGACCGCCAGACCATGGGCGGCTACCCGATCCTCGGCTGGATACATCCCCTCGATCTCGATCGCCTGGCCCAATGCCCGGCGCACATGCCGCTGCGCTTCGCCGAAAGCGATCTGGACGAAGCACAGGCGGAATTGCGGACGTTCTATCGATTCTTCGGCCGACCTTGA	MSGFVVIKPGPLSLLQDAGRVGWQQCGVSPGGPLDRHAAAWANRLLDNPWGTPLLEIALGGVELESQVDTWVALCGADLPIELDGQPLALWTRFPVRVGQRLHLGFARSGQRAYLAVAGGFRAEPVLGSVATQVREGLGGLRGDGSALQAGDVLHCSPSTRPGVASVPWPYRPDYREPPVLRVTLGGDAPLFAEAERVAFFRREWRLSPQSDRMGARLLGEPLRAPARQWSLGIATGAIQVPPDGQPIILMADRQTMGGYPILGWIHPLDLDRLAQCPAHMPLRFAESDLDEAQAELRTFYRFFGRP				NA	NA	NA	NA	NA
BMS010_04325	996	ftsH_2		ATP-dependent zinc metalloprotease FtsH	ATGGCACGTGGCGAATTGATGAAAAAGTTGCTGGCTAGCTATGGCCGGGACGAGGAGTTCCGCGCTGTTGCCGAGCAGATCATTCTCGAAGAAGAGCAGAAGAACAATCGCGTTCTCGCCAGGTCTCTTCGTCACACGCTCGACAACGCTACGTCAGCGAACGTTCGCTCAAGCAAACAGCCACCCTCCCAAAAGCTGGCTTCGCTGATCCCATTCCCCGACGCTGCCGACGATTTCGTTGAGAGAGTCGATCCGGTTCATTCGCACAAAGACATCACCCTTTCGCACGCCAATACGCGCGTTTTTGATGGACTCCTCCAGGAATACCGGCGCTCCGAAGAAATTCGGCGTCATGGGTTGGCTGTGAGGTCCAAGCTTCTATTCTGCGGTCCGCCCGGGTGTGGCAAAACCCTCTGTGCTGAGGTGTTTGCCGCTGAGCTCGGGTTGCCTCTCTTCGTGGTAAAGCTCGATCAACTGATCTCGTCTTACCTGGGCGAAACTGCTGGAAACGTCCGGAAAATTTTTGAGTTTGCCAAGCGGCAACCGTGTGTCCTATTCCTCGACGAGTTCGACGCATTGGCTCGTTCGCGCGACGACTCAGCAGAGCACAACGAATTACGTCGGGTCGTGAATAGCCTCCTGTTGTTCATTGATCGCATGCAGCCACGCGGCTTCATGATCGCTGCGACCAACCTCGATAGTTCACTGGATCCGGCGATATGGAGACGGTTCGATGAGGTTATCTGGTTCGACAAACCAGACCAGGCACTCATCAAGCGTTTCCTGAAGACCAAGTTCAAAAATGTCGTAATCGACTTTGATCTGGATAAGTACATTGATCGTCTGGAAGGCTATTCTTTCGCGGAAATCGAGCGAATCTGTATTCAAACGATCAAGGCGCCTCTAATTGCTCGCCGCAAGGGAGTCGCCGAATCCGACTTCACCGCTGCGATTGCAGACGAGAGTCGTAGAAGGGCCGGATGCGCAAGGCTCTGA	MARGELMKKLLASYGRDEEFRAVAEQIILEEEQKNNRVLARSLRHTLDNATSANVRSSKQPPSQKLASLIPFPDAADDFVERVDPVHSHKDITLSHANTRVFDGLLQEYRRSEEIRRHGLAVRSKLLFCGPPGCGKTLCAEVFAAELGLPLFVVKLDQLISSYLGETAGNVRKIFEFAKRQPCVLFLDEFDALARSRDDSAEHNELRRVVNSLLLFIDRMQPRGFMIAATNLDSSLDPAIWRRFDEVIWFDKPDQALIKRFLKTKFKNVVIDFDLDKYIDRLEGYSFAEIERICIQTIKAPLIARRKGVAESDFTAAIADESRRRAGCARL				NA	NA	NA	NA	NA
BMS010_04326	2358			hypothetical protein	ATGGCCCGCTACGATCACCTTCGCTTAATTCGACTCCCAACGGAGCTCCCCCGCAGGAAAAAGCCAGGCTTCGGGTCGCAGGTTCCTCGGTCCCCCAGAGAGCACAGTGCTCGGCTCACAGATGAGCTGGCACAGGCTGTTGATCAACAAGTTGCTCGAAAGCGGCCAGGCATTGTCGATCCGTCGCTCATCCTCCGGGTGAGGATGACAGAGGGCTTACTGGAGCAGGACTGGCATAACGCGGGATTGGAGCTTTTATCCAGTGATCCGGACAAGACGCTAGTTCTCTTCTCGTCCAGCGGTGACCTCGCTCATTTTCGTAGGCAGCTCGCTGCGTTCGGTGGGGATATCCCCGCCGGGCAGAAAAATCCCCCCTATGCGGGTTTTGTCTCCGGAATTGAATCCATCGGAGCGGTCGAGCCGCGCGACCGATTGGGCATGCGCCTCAGAGAAGAGGGATTTGGTGACCTGGATGACATTAATCCAGAAGCTCAAATGCTGCTCGATCTTGAGATATGGAACATCGGGGCAGCCCAAATACGAGGCGCAAAGCTCGATGAGCTGACAGAATTCATTGAACAACAGGGCGGCAATGTCTATGACCGGTACAACGGGCCCGCGATTTCACTGCTGCGCATCGAAGTGCCAGGGCACCTTCTGATCGATCTCCTTTCCATTGAAGTCATCGCGGTCATCGACCTTCCTCCCCAGCCCGACACGTTCACTCGGGATGCTCTCGAGCTCAACTTGGCGGACTTCCCCGCAGTCGAAATCCTCGAGAACGCTCCGGTCATTGGAATCCTCGACAGCGGTATCAACGCGCATCCGTTGCTGGAAGGCGTCGTAGTCGGGGCTATTGGTGTACCTGAAAATCTGGGTGCTGCTGATGAATTTGGGCATGGAACTCGTGTGGCGGGAGTTGCTGCATTTGGAGATTTGCGAGCCCAGTTAGCCGAAGGTGGTGATCTGGTTTGTGCGGCGCGAATATGCTCGGCGCGCGTCGTCAATCATCGTGGGGGATTTGACGACCACAGCCTGATTACCAATCAGATGCGCGATGCCCTAACCACCTTGAACCGAGATTTTGGCTGTAGGATTTTCAGCATCTCTCTGGCTGATATAAAAAGCGCGCCGTATGCCGGCGGTAAAGTCGGTCCCTGGACAGCCACCCTAGATGAGCTTGCTCGCGAGCTGGATGTTCTGATCTTGGTATCGGCGGGTAATCGAATGCCGCGGCAGGGGGAGCGGCAGGAGGAAAGCGTCACTGGATATCCAGAGTATCTCTTAGAGCCTTCTAACCGCTTTCTGGAGCCATCAGCGGCTCTCAACGTCCTGACCGTTGGCTCTATTGCTCATGGAAATGGGGTCGACCAAGCGCTTCAAGATGCTGGAGTTGGCATTCGACCGATTACTGGTCCGTATGAGCCATCACCTTTCTCTCGCGCCGGTCCTGGCATTGGGGGGGCGATAAAACCAGATTTGGTGGATCTTGGGGGAACACTGGTTTATGACCCGCTTGCCGGCCCGCGTACCGGATACGATCAAGCAAGCGCGGGAATTCTTACGTTAAATCATCGCTACTTAGAGCAGATGCTTCAGACGGCCTCAGGCACGTCATATTCAACACCCATGGCCGCTCATAAAGCGGCCCAGCTACTGGGGCGCTTTCCCGGGGCCTCGGCAAACCTGTTAAGGGCTCTTTTGGTTGGAGCTGCAACGGTGCCGGACCAGGCCAAGCAGCGCCTGATCCATTTGGCCCCTGAGGCTACCCGCCACATCTGCGGCAACGGATTTATTGGTGTTGAAAGAGCCGTGTACTCCGATGACGCGCGTGTTGTCCTGTATGCAGAAGATGCCCTGCCCCTGGACAACTTTGCTGTCTTCGAGATCCCGATTCCTGAGTCGTACCTCAATCATCCAGGCGACCGGACGATAACGGTCACCCTGGCATACGACCCACCGGTGCGACATACAAGAGTCGACTATGCCGGCGTACACATGAGTTACCGCGTGCTTCGTGGCGTAAGCCTGGATGAAGTGGTAGAGCACTTCCGCTGGAGAACCAAACAGGAAGGTATCGCACCCCAGATTGCCGCTTCCAAGGTTTGCAACATGAATCCCGGGCCTACCTTGCGAGAGAAAGGCACGGTGCAAACAAGCTGCGTAATCTTTAAGCGTGGCGAGCTAACTCAGTACGGGGACACGTACTACCTAGTCGTCCGCTGCGAGTCTGGTTGGGCCGACTTTCTAACTGAGCAGCGATACGCAGTCGTTGTTGAAATTGCCCATCAGGCTGGTGTGCAGATCTACCAACACGTTGAGCAACGTGTCCGTGTCCGTCCGCGGATCTTGGCCTGA	MARYDHLRLIRLPTELPRRKKPGFGSQVPRSPREHSARLTDELAQAVDQQVARKRPGIVDPSLILRVRMTEGLLEQDWHNAGLELLSSDPDKTLVLFSSSGDLAHFRRQLAAFGGDIPAGQKNPPYAGFVSGIESIGAVEPRDRLGMRLREEGFGDLDDINPEAQMLLDLEIWNIGAAQIRGAKLDELTEFIEQQGGNVYDRYNGPAISLLRIEVPGHLLIDLLSIEVIAVIDLPPQPDTFTRDALELNLADFPAVEILENAPVIGILDSGINAHPLLEGVVVGAIGVPENLGAADEFGHGTRVAGVAAFGDLRAQLAEGGDLVCAARICSARVVNHRGGFDDHSLITNQMRDALTTLNRDFGCRIFSISLADIKSAPYAGGKVGPWTATLDELARELDVLILVSAGNRMPRQGERQEESVTGYPEYLLEPSNRFLEPSAALNVLTVGSIAHGNGVDQALQDAGVGIRPITGPYEPSPFSRAGPGIGGAIKPDLVDLGGTLVYDPLAGPRTGYDQASAGILTLNHRYLEQMLQTASGTSYSTPMAAHKAAQLLGRFPGASANLLRALLVGAATVPDQAKQRLIHLAPEATRHICGNGFIGVERAVYSDDARVVLYAEDALPLDNFAVFEIPIPESYLNHPGDRTITVTLAYDPPVRHTRVDYAGVHMSYRVLRGVSLDEVVEHFRWRTKQEGIAPQIAASKVCNMNPGPTLREKGTVQTSCVIFKRGELTQYGDTYYLVVRCESGWADFLTEQRYAVVVEIAHQAGVQIYQHVEQRVRVRPRILA				NA	NA	NA	NA	NA
BMS010_04327	621			hypothetical protein	ATGCGATTCGTTTGTACGCCCTCCACGAGGCTTGTGCTCGATCAGCCAAACGGCACTTTACCGATCCGAATCAGCGTCTATAGTCCCCGTAGTAGCACTATGCCAAGCAATGGATGGCCAGTCAGGGAACGCAGGGATGGCGAAACACCGCAAACAACACCCGCCGAAGACCTTTCCCCTATCGCCAGCCGCCTGCCCTGGTGGGCCAGCGTGCTGATGGCTGCTGGTGCCTGGTTCATCTTCCACTCCATCGCCATCAGCCAACCGGCACCCATCAGCAACCCCCACGAATTCAGTTCGCTGGTGACCGAGCAGGTTTTCCGCGCCTTCGCCCAGCTTGGGCAATGCCTGTTGCCACCTTTCTTCCTAATGGGTGCTTCCGCCTCCGTTGTCGGCCGAACTCGCCGACGTCGGTTGCTGGGCGCCGTGGCTAATGCCGCTCAACCTGGCAAGGCTCTGGATGGCATCGGTTGGCAGCAGTTTGAATGGCTGGTCGGTGAAATTTTCCTGGTGAGGCGGGTAGCGAAGAGAGGGATTAATTCACGGGGGTGTGTTTTGGGATATTCGATATATACGGGATGTGATGGAGGGTGCTTGGCTGCTAACGGCCGATTCTGTTGA	MRFVCTPSTRLVLDQPNGTLPIRISVYSPRSSTMPSNGWPVRERRDGETPQTTPAEDLSPIASRLPWWASVLMAAGAWFIFHSIAISQPAPISNPHEFSSLVTEQVFRAFAQLGQCLLPPFFLMGASASVVGRTRRRRLLGAVANAAQPGKALDGIGWQQFEWLVGEIFLVRRVAKRGINSRGCVLGYSIYTGCDGGCLAANGRFC				NA	NA	NA	NA	NA
BMS010_04329	501			hypothetical protein	ATGGAAGCAGCTTTCTCTCCCCTTACTCTTCACCGCTACGACCGCCCCTTGCGCGGTGTGATGATCGACGGCCAGCCCTGGTTCGCCGCCTGGGATTTCGCCCGTCTGATCGGCCATCGCCACCCCGAGCGCATCGGCCGGATGATGGAGGACGACCAGATCCGTACCGTGCGTTTCGCCCTGGCCAGCGGCGAGACGGAAGATGTCGAGGTGATCAGCGAGTCCGGCGCTTACCGGGCGCTATGGCGCTACAACCACCCGGAAAACCGCAGCCTGCGCCGCTGGCTGACATTGGAGGCGGTGTCGCTGCTGCGCGATGCCCGAGGCACGGGCCCTGCCTGCCCCAAGCGCACGTTGTTGCAGTGGGGGACGCAGCAGGTCGGGTTGCTGGAGTGGCAAGGGGTGTTGTGGGTGCCGTTCGATGCGCTGCCGAGGTTCGCGGAGCCGGTAGCGGAACGACGGCCAATGCGGCGTGGGTTGTTGGGGCGTTGGGGACGGTAA	MEAAFSPLTLHRYDRPLRGVMIDGQPWFAAWDFARLIGHRHPERIGRMMEDDQIRTVRFALASGETEDVEVISESGAYRALWRYNHPENRSLRRWLTLEAVSLLRDARGTGPACPKRTLLQWGTQQVGLLEWQGVLWVPFDALPRFAEPVAERRPMRRGLLGRWGR				NA	NA	NA	NA	NA
BMS010_04330	972	ddpF	COG1124	putative D,D-dipeptide transport ATP-binding protein DdpF	ATGAATGCCGTCCTGACCGCCCGCGACCTGACCCGTCACTACGAAATCTCCCGCGGTCTGTTCAAGGGCCACGCCACGGTACGCGCCCTCAACGGCGTGTCCTTCGAACTGGACGCCGGCAAGACCCTGGCGGTGGTCGGCGAGTCCGGCTGCGGCAAATCCACCCTGGCCCGCGCGCTGACGCTGATCGAGGAACCCACCTCCGGTTCGCTGCAGATCGCCGGCCAGGAAATCGCCGGCGCCGGCAAGGCCGAGCGCAAGCAACTGCGCCGCGACGTGCAGATGGTCTTCCAGAGCCCCTACGCCTCGCTCAACCCGCGGCAGAAGATCGGCGACCAGTTGGCCGAGCCGCTGGCGATCAACACCTCGCTGTCCCGCAGCGAACGCCGCGAGCGGGTGCAGGCGATGATGCAGCAGGTCGGCCTGCGCCCCGAGCACTACCAGCGCTACCCTCACATGTTCTCCGGCGGCCAACGCCAACGCATCGCCATTGCCCGGGCGATGATGCTCAACCCGAAGATCGTGGTCGCCGACGAGCCCACCTCGGCGCTGGACGTGTCCATCCAGGCGCAGGTGCTCAACCTGTTCATGGACCTGCAGGAGCAGTTCAACACCGCCTACGTGTTCATCTCCCACAACCTGTCGGTGGTGCAGCACGTCGCCGACCAGATCCTGGTGATGTACCTCGGCCGCCCGGTGGAAATGGGCGACGCGGAGCGCATCTACAGTCGCCCGCTGCACCCCTACACCCAGGCGCTGCTCTCCGCGACCCCGACCATCCACCCCGACCCGGCCAAACCGAAGATCAAGATCCAGGGCGAACTGCCCAACCCGCTCGACCCGCCGTCCGGCTGCGCCTTCCACAAGCGCTGCCCCTACGCGACCGAGCGCTGCGCGGTGGAAGTGCCGGAACTGCGCCTGCTCGATGCGCGCCAAGTGGCCTGCCACCACGCGGAGGTGATCAACCCTTGA	MNAVLTARDLTRHYEISRGLFKGHATVRALNGVSFELDAGKTLAVVGESGCGKSTLARALTLIEEPTSGSLQIAGQEIAGAGKAERKQLRRDVQMVFQSPYASLNPRQKIGDQLAEPLAINTSLSRSERRERVQAMMQQVGLRPEHYQRYPHMFSGGQRQRIAIARAMMLNPKIVVADEPTSALDVSIQAQVLNLFMDLQEQFNTAYVFISHNLSVVQHVADQILVMYLGRPVEMGDAERIYSRPLHPYTQALLSATPTIHPDPAKPKIKIQGELPNPLDPPSGCAFHKRCPYATERCAVEVPELRLLDARQVACHHAEVINP	PGPT0004520_525	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004520-dppF-K12372	NA	NA
BMS010_04331	975	dppD_2	COG0444	Dipeptide transport ATP-binding protein DppD	ATGAGCCTCCTCGACATCAAGAACCTCAGCGTGCGCTTCGGCGACGCCAACGCCGTCCCGGTGGTGGACGGTCTCGATCTGCGCGTGGACAAGGGCGAGGTGCTGGCCATCGTCGGCGAGTCCGGCTCGGGCAAGTCGGTGACCATGATGGCCCTGATGGGCCTGATCGACGCTCCCGGCATCGTCAGCGCCGACAGCCTCAGCTTCGACGGCACCGACATGCTCAAGCTCAAGGGCCGACAGCGCCGGCGCATCGTCGGCAAAGACCTGGCGATGGTCTTCCAGGACCCGATGACCGCCCTCAACCCCAGCTACACCGTGGGCTTCCAGATCGAAGAAGTGCTGCGCCAGCACCTCGGCCTGTCCGGCAAGGCCGCGCGCCAGCGGGCCCTGGAACTGCTCGAACGGGTCGAAATCCCCGGCGCGGCCAGCCGCCTGGATGCCTACCCGCACCAGCTTTCCGGGGGCATGAGCCAGCGCGTGGCGATCGCCATGGCCATCGCCGGCGAACCCAAGCTGCTGATCGCCGACGAACCCACCACCGCCCTGGACGTGACCATCCAGGCGCAGATCATGGACCTGCTGCTCGACCTGCAGCGCGACCAGGGCATGGCCCTGGTGCTGATCACCCACGACCTCGCCGTGGTGGCGGAAACCGCCGACCGCGTCTGCGTGATGTACGCCGGCCAGGCGGTGGAGGTCGGCCAAGTGCCGGCACTGTTCGAGGCGCCCACCCATCCCTACACCGAGGCGCTGCTGGCGGCGATTCCCGAGCACAGCCAGGGCGCGCGCCGGCTGGCCACCCTGCCGGGCATCGTCCCCGGCCGCTACGACCGTCCGCACGGCTGCCTGCTGTCGCCGCGCTGCCCCTACGCCCAGGCGAACTGCCGCGAGCGCCGGCCGGGGCTGGATGCCCACGAGCGCGGCGCGGTGCGCTGCTTCTATCCGCTCAACCTGTCTTCGGAGGTGGCCTGA	MSLLDIKNLSVRFGDANAVPVVDGLDLRVDKGEVLAIVGESGSGKSVTMMALMGLIDAPGIVSADSLSFDGTDMLKLKGRQRRRIVGKDLAMVFQDPMTALNPSYTVGFQIEEVLRQHLGLSGKAARQRALELLERVEIPGAASRLDAYPHQLSGGMSQRVAIAMAIAGEPKLLIADEPTTALDVTIQAQIMDLLLDLQRDQGMALVLITHDLAVVAETADRVCVMYAGQAVEVGQVPALFEAPTHPYTEALLAAIPEHSQGARRLATLPGIVPGRYDRPHGCLLSPRCPYAQANCRERRPGLDAHERGAVRCFYPLNLSSEVA	PGPT0004515_517	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004515-dppD-K12371	NA	NA
BMS010_04332	927	dppC_2	COG1173	Dipeptide transport system permease protein DppC	ATGAACACAACGACCCAACCTCTGCGCGCCGAGGCCCCCTTGGCCGAACCGGTGGCGCTGTACCCGTCCCCACTGAAGGAATTCTGGCAGGCGTTCTCGCGCAACAAAGGCGCGGTGGGCGGCCTGCTGTTCATGCTGCTGGTGGTGTTCTGCGCGCTGTTCGCCCCCTGGGTGGCGCCGCACAACCCCAGCGAGCAGTACCGCGACTTCCTGCTCACCCCGCCGATGTGGCTGGAGGGCGGGCAGGCGCAGTTCATCCTCGGCACCGACGAGCTCGGCCGCGACCTGCTCTCGCGCCTGATCCACGGCTCGCGGCTGTCGCTGCTGATCGGCCTGTCCTCGGTGCTGCTGTCGCTGCTGCCGGGCATCCTGCTCGGCCTGGTCGCCGGCTTCTTCCCGCGCCTGCTCGGCCCGTCGATCATGCGCCTGATGGACATCATGCTGGCCCTGCCCTCGCTGCTGCTGGCGGTGGCCATCGTCGCCATCCTCGGCCCGGGGCTGAACAACACGGTGTTCGCCATCGCCATCGTGCACCTGCCGGCCTACGTGCGCCTGACCCGTGCCGCGGTGATGGGCGAACTCAACCGCGACTACGTGACCGCCGCGCGTCTCGCCGGTGCCGGCCTGCCACGGCTGATGTTCGTCACCGTGCTGCCGAACTGCATGGCGCCGCTGATCGTCCAGGCCACCATGAGCTTCTCCTCGGCGATCCTCGACGCCGCCGCCCTGGGCTTCCTCGGCCTCGGCGTGCAACCGCCGACGCCCGAATGGGGCACCATGCTGGCCTCCGCCCGCGACTACATCGAGCGCGCCTGGTGGGTGGTCTCCCTGCCCGGCCTGACCATCCTGCTCAGCGTGCTGGCGATAAACCTGATGGGCGACGGGTTGCGCGACGCGCTGGACCCGAAGCTGAAGAATGCGGTGTGA	MNTTTQPLRAEAPLAEPVALYPSPLKEFWQAFSRNKGAVGGLLFMLLVVFCALFAPWVAPHNPSEQYRDFLLTPPMWLEGGQAQFILGTDELGRDLLSRLIHGSRLSLLIGLSSVLLSLLPGILLGLVAGFFPRLLGPSIMRLMDIMLALPSLLLAVAIVAILGPGLNNTVFAIAIVHLPAYVRLTRAAVMGELNRDYVTAARLAGAGLPRLMFVTVLPNCMAPLIVQATMSFSSAILDAAALGFLGLGVQPPTPEWGTMLASARDYIERAWWVVSLPGLTILLSVLAINLMGDGLRDALDPKLKNAV	PGPT0004510_54	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004510-dppC-K12370	NA	NA
BMS010_04333	1011	dppB_2	COG0601	Dipeptide transport system permease protein DppB	ATGCTAAGTTTCATCGCCCGCCGACTGGGGCTGCTGATCCCCACCTTCTTCGGCGTCACCCTGCTGACCTTCGCGCTGATCCGCCTGATTCCCGGCGATCCGGTGGAAGTGATGATGGGCGAACGCCGGGTCGACCCGGAAATGCATGCCCAGGCCATGGAGCGTCTCGGCCTGAACAAGCCGCTCTACGCCCAGTACCTCGATTACATCGGCAAGCTCGCCCAGGGCGACCTCGGCGAGTCGCTGCGCACCCGCGAGAGCGTGTGGAGCGAGTTCCTCACCCTGTTCCCGGCCACCGTCGAACTGGCCCTGGCCGCCCTGCTGTTCGCCGGCACCCTCGGCGTGCTCGCCGGGGTGATCGCCGCGCTGAAACGCGGCTCGCTGTTCGACCACGGGGTGATGGGCATTTCCCTCACCGGCTACTCGATGCCGATCTTCTGGTGGGGCCTGATCCTGATCATGTTCTTCTCCGTGGGCCTCGGCTGGACGCCGGTGTCCGGGCGCATCGACCTGCTCTACGACATCGAGCCGGTCACCGGCTTCATGCTGATCGACACCCTGCTCAGCGAGGAGGAAGGCGCCTTCGTCGATGCCCTGCGCCACCTGATCCTGCCGGCCATCGTACTGGGCACCATCCCGCTGGCGGTGATCGCCCGGATGACCCGCTCGGCGATGCTCGAAGTGCTGCGCGAGGACTACGTGCGCACCGCCCGGGCCAAAGGGCTGTCGCCGGCACGTGTGGTGTTCGTGCACGCCCTGCGCAACGCGCTGATCCCGGTACTCACGGTGTTCGGCCTGCAGATCGGCACCCTGCTGGCCGGCGCGGTGCTCACCGAAACCATCTTCTCCTGGCCAGGCATCGGCAAATGGCTGATCGAATCCATCGGCGCCCGCGACTATCCGGTGGTGCAGAACGGCATCCTGCTGATCGCCTGCCTGGTCATCCTGGTCAACTTCACGGTGGACATCCTGTATGGCCTGGCCAACCCCCGTATCCGCCACCAACGCTGA	MLSFIARRLGLLIPTFFGVTLLTFALIRLIPGDPVEVMMGERRVDPEMHAQAMERLGLNKPLYAQYLDYIGKLAQGDLGESLRTRESVWSEFLTLFPATVELALAALLFAGTLGVLAGVIAALKRGSLFDHGVMGISLTGYSMPIFWWGLILIMFFSVGLGWTPVSGRIDLLYDIEPVTGFMLIDTLLSEEEGAFVDALRHLILPAIVLGTIPLAVIARMTRSAMLEVLREDYVRTARAKGLSPARVVFVHALRNALIPVLTVFGLQIGTLLAGAVLTETIFSWPGIGKWLIESIGARDYPVVQNGILLIACLVILVNFTVDILYGLANPRIRHQR	PGPT0004505_447	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004505-dppB-K12369	NA	NA
BMS010_04334	1587	dppA_4	COG0747	Periplasmic dipeptide transport protein	ATGAATCCGACCCTGCGTTACCTGCCCCTGCTCCTGGCCCTCGGCAGCGCGCCGGCCCTGGCGAAGAACCTGGTGGTATGCACCGAGGCCGCGCCGGAAGGCTTCGATATCGTGCAGTACACCGGCGCGGTGACCAACGACGCCGCCGGCGAAGCGATCTTCAATCGCCTGCTGGCCTTCAAGCCCGGCACCGCCGAACTGATGCCGAGCCTGGCCGAGCGTTGGGACATCAGCGAGGATGGCCTGACCTACACCTTTCACCTGCGCCGGGGCGTGAAGTTCCACACCACCGACTACTTCACGCCGACCCGCGCGTTCAACGCGGACGACGTGGTCTGGAGCTTCCAGCGTCAGCTCGATCCCCAGCATCCGTGGCATGAGTCCTCGCCGCGCGGCTACGGATACTTCGAGTCCATGGGCATGGGCGACCTGATCAGGTCGGTGGAGAAGGTCGACGACCACACCGTACGCTTCACCTTGACTCGCCCGGAGGCGCCGTTCCTCGCCGACCTGGCCATGGGCTTCACCTCGATCTACTCGGCCGAGTACGCCGACCAGTTGCTCAAGGCCGGCAAGACCAACGACCTCAACAGCCGCCCCATCGGCACCGGGCCGTTCGTCTTCGCCCGCTACGCCAAGGACGCGCAGGTCCGCTACAAGGCCCACCCGGATTACTTCCTGGGCAAGCCGGCGATCGACAACCTGATCTTCGCCATCACCACCGATCCCAACGTGCGCATCCAGAAGGTCCGCGCCCGGGAATGCCAGGTGGCGCTCTATCCCAAGCCGGAAGACGTGCCGGCCTTGAGGCAGGACGAACGCCTCACGGTGGATGAGATGGAGGCGCTGCTCACCACCTACGTGGCGATCAATACCCAGCACAAGCCGCTGGATGACGTGCGGGTGCGCCAGGCCATCAACCTGGCGATCGACAAGCAGGCCCTGCTGGCCAGCGTGTTCGGGCCCGGCGCGGCGACTCCGGCGGTGCTGCCGTATCCGCCTACACTGCTGGGATACAACCACGCGGTGCGCGATTGGCCGCACGACCCGGCGCGGGCCAAGGCGCTGCTCAAAGAGGCCGGCGTGGAGGGATTGAAGGTCACGATGTTCATTCGCAACGGGACCTCCATCACCATTCCCAACCCGGCCCTGGCGGCACAGATCATGCAGGCTGACCTGGCCAAGGTGGGCATCGAAATGACCATCCGCTCCCTGGAGTGGGGCGAGCTGCTCAAGCGCGCCAAGAACGGCGAACACGACATGGTCATCCTCGGCTGGGCCGGCGACAACGGCGACCCGGACAACTTTGTCGGCCCGAACCTGAGCTGCGCGGCGGCGGAGTCCGGGGAGAACCATGCGCGCTGGTGCAACCGGCAGTTCGAGGACCTGATCCAGAAGGCCCGTGGCGTCACCGACAACGCCGAGCGGACCCGGCTCTACCAGCAGGCCAACGAGGTGTTCCACGAACAGGCGCCCTGGGTGCCGCTGGCGCATCCCAAGCTGTTCAACGTGCGCTGGAAGAACGTCCAGGGCTATGTCATCAACCCGATGACCAACAACAACTTCGCCACCACACGGGTGGAGTAG	MNPTLRYLPLLLALGSAPALAKNLVVCTEAAPEGFDIVQYTGAVTNDAAGEAIFNRLLAFKPGTAELMPSLAERWDISEDGLTYTFHLRRGVKFHTTDYFTPTRAFNADDVVWSFQRQLDPQHPWHESSPRGYGYFESMGMGDLIRSVEKVDDHTVRFTLTRPEAPFLADLAMGFTSIYSAEYADQLLKAGKTNDLNSRPIGTGPFVFARYAKDAQVRYKAHPDYFLGKPAIDNLIFAITTDPNVRIQKVRARECQVALYPKPEDVPALRQDERLTVDEMEALLTTYVAINTQHKPLDDVRVRQAINLAIDKQALLASVFGPGAATPAVLPYPPTLLGYNHAVRDWPHDPARAKALLKEAGVEGLKVTMFIRNGTSITIPNPALAAQIMQADLAKVGIEMTIRSLEWGELLKRAKNGEHDMVILGWAGDNGDPDNFVGPNLSCAAAESGENHARWCNRQFEDLIQKARGVTDNAERTRLYQQANEVFHEQAPWVPLAHPKLFNVRWKNVQGYVINPMTNNNFATTRVE	PGPT0004500_1413	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004500-dppA-K12368	NA	NA
BMS010_04335	1443	oprD_3		Porin D	ATGAAAACCACACTGAATCGACCGGCCACCGTCGGCCTCGCATTGCTCGCCCTCGCCGCGCCGGCCCTGGCGGAAGAGGAAACGGCGTCGCCACCGACGAACAACCCGGTGTTCTCCACCGAGGTGGAGGGGGTGACGGACGTCGCCGAGCCGCCCAAGGGCCAGGCCGGCGCCACCGGCTTCGTCGAGGGCCAGAGCCTGACCCTGTCCACCCGCAACTTCTATGCGCGTGAACACACCGAGGACAGCTTCGCCTTCCGCATTCCCAAGGACGGCGGCGCGGAGCGTACCCACGCCCGCAAGACCTGGGTGCAGGGCACCATCCTCAAGTACAGCTCCGGCTACACCCAGGGCACCGTGGGCTTCGGCCTGGACGTCGGCGCGTTCAGCGCGATCAACCTGGAGCGCGGCAAGGGCCGCATCGCCGGCGGCGGCAACCGGACCCTGGCGGACAGCAACGGCCATGGCGTGGACGAGTGGTCGAAGCTGGGCATCGCCGACGTCCGCCTGCGCGCCTCCAGCACCGAGCTGAAGGTCGGCCGCTTCCTGGTCGACACGCCGGTGTTCGGCTACATCGACAACCGCGCCCTGCCCTCCAGCTTCACCGGCGCGGCGCTGACCAGCGAAGAGCTGGACGGCCTGGTCCTGCAGGGCGGCAGCTTCACCCGGGTCAGCCCGCGTACCGGCGCCGGCGACGAAGACTTCACCACCGAATACGGCACCCGCGAGGTGGAAGCCGACCGCATGAGTTACCTGGGCGGCACCTACACGCCACTGGATAACCTGGAAGTCTCCGTCTACGGCGGCCTGTTCGAGGATGTGTGGAAACAGTATTACCTGAGCCTCACCCACGACCTGGGCGACAAGGAAACCCTCGCCCTGCGCACCGCTTTCAACGGCTACGCCACCCGCGACGCCGGCGACCGCAAGGCCGGCTACATCGACAACAACACCTGGAGCCTGGCATTCACCCTCGCCCACCAGGCGCACTCGCTGACCCTGGCCTGGCAGCAGGTCGATGGCGACGAGTACTTCGATTACGTGCACGAGACCGCCGCCATCTACCTGGCCAACTCGCTGCTCTCCGACTTCAACGGCCCCAACGAGAAGTCCGCGCAGATCCGCTACGCCACCGACTGGTCGCACTTCGGCGTGCCCGGTTTCAGCACCACCTTCTGGTACGCCAAGGGCTGGGACATCGACGGTACCCACTACGACGGCGACCGCAACGGCGCCTACGGCAACTACGCCGAGGTCCGCGCCCAGGACGGCGAGAAGCATCACGAGTACGGGCTGGTCGGTGCCTATACGGTGCAGAGCGGCGCGATCAAGGACAGCACCTTCAAGGTGAGCTATATGTCCCATCGCTCCAGCCGCAACCAGGTCGACGGCAGCCTCGACGAGCTGCGCATCGTCAGCACCTTCCCCTTCAACCTGCTGTAA	MKTTLNRPATVGLALLALAAPALAEEETASPPTNNPVFSTEVEGVTDVAEPPKGQAGATGFVEGQSLTLSTRNFYAREHTEDSFAFRIPKDGGAERTHARKTWVQGTILKYSSGYTQGTVGFGLDVGAFSAINLERGKGRIAGGGNRTLADSNGHGVDEWSKLGIADVRLRASSTELKVGRFLVDTPVFGYIDNRALPSSFTGAALTSEELDGLVLQGGSFTRVSPRTGAGDEDFTTEYGTREVEADRMSYLGGTYTPLDNLEVSVYGGLFEDVWKQYYLSLTHDLGDKETLALRTAFNGYATRDAGDRKAGYIDNNTWSLAFTLAHQAHSLTLAWQQVDGDEYFDYVHETAAIYLANSLLSDFNGPNEKSAQIRYATDWSHFGVPGFSTTFWYAKGWDIDGTHYDGDRNGAYGNYAEVRAQDGEKHHEYGLVGAYTVQSGAIKDSTFKVSYMSHRSSRNQVDGSLDELRIVSTFPFNLL	PGPT0028135_59	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028135-oprD-K18093	NA	NA
BMS010_04336	1599	dppA_5	COG0747	Periplasmic dipeptide transport protein	ATGCGCAAGAATTCCCGATTCCCGGCATGGCTCGCCGCCGGTCTCGCCCTCAGCGCCCCCTTCGCTTCCGCCAGCAACCTGGTGTTCTGCTCGGAAGGCAGCCCGGCCGGCTTCGACCCCGGCCAGTACACCACCGGCACCGATTTCGATGCGACCTCGGAACCCCTGTTCAACCGCCTGGCGCAGTTCCAGCGCGGCAGCACCCGCGCCGTTCCGGCACTGGCCGAGCGTTGGGATGTCAGCGATGACGGCCTGACCTACACCTTCCACTTGCGCCAGGGCGTGAAGTTCCACAGCACCGACTATTTCAAGCCGACCCGCGAGTTCAATGCGGATGACGTGCTGTTCACCTTCCAACGGATGCTCGATAAGGACCATCCGTTCCGCAAGGCCTACCCCTCCGAGTTCCCCTACTTCACCGACATGGGCCTGGACAAGACCATCGCCAAGGTGGAGAAGGTCGACGACCACACCGTGCGCTTCGTCCTGAACACTGTGGACGCCGCCTTCATCCAGAACCTGGCGATGAACTTCGCCGCCATCCATTCCGCCGAATACGCGGACCAGTTGCTCAAGGCCGGCAAGCCGCAGCAACTCAACCAGAAGCCCATCGGCACCGGTCCCTTCGTGTTCAAGCGCTACCAGAAGGACGCGCAGATCCGCTTCACCGGCAACAAGGACTACTGGAAGCCCGAGGACGTGAAGATCGACAACCTGATCTTCTCCATCAACACCGACGCCTCGGTGCGCGCGCAGAAACTCAAGGCCGGCGAGTGCCAGATCACCCTCAACCCGCGCCCGGCCGACCTCAAGGCCCTGCAGGACGACCCGAAACTGACGGTGCCCAGCCAACCCGGCTACAACCTCGGCTATATCGCCTACAACGTCACCCGCGCGCCCTTCGACAAGCTGGAAGTGCGCCAGGCGCTGGACATGGCGGTGGACAAGCAGGCCATCGTCGATGCCGTGTACCAGGGCGCCGGGCAACTGGCGGTGAACGGCATGCCGCCGACCCAGTGGTCCTACGATGAAACCATCAAGGACCGCGCCTACGATCCGGAGAAAGCCAAGGCACTACTGAAGCAGGCTGGCATCGCCGAAGGCAGCGAGATCACCCTCTGGGCCATGCCGGTGCAGCGGCCGTACAACCCCAACGCCAAGCTGATGGCCGAGATGATCCAGTCCGACTGGGCCAAGGTTGGCATCAAGGCACGCATCGTCAGTTACGAGTGGGGCGAGTACATCAAGCGTGCCCATAATGGCGAACACGACGCCATGCTGATCGGCTGGACCGGCGACAACGGCGACCCGGACAACTGGCTGGGCACGCTCTATGGCTGCGACTCGGTGGACGGCAACAACTTCTCCAAGTGGTGCGACGCCGACTACGACAAGCTGGTGAAGCAGGCCAAGGCCGTCACCGACGTGGAGCAGCGCACCGCGCTCTACAAACAGGCCCAGCACGTACTGCAGCAACAGGTGCCGATCACTCCCATCGCGCATTCCACGGTGTACCAGCCGATGCGCACCAGCGTTCAGGGCTTCCTGATCAGCCCGTTCGGACGCAACTCCTTCTATGGCGTGAGCAACGCGCCCTGA	MRKNSRFPAWLAAGLALSAPFASASNLVFCSEGSPAGFDPGQYTTGTDFDATSEPLFNRLAQFQRGSTRAVPALAERWDVSDDGLTYTFHLRQGVKFHSTDYFKPTREFNADDVLFTFQRMLDKDHPFRKAYPSEFPYFTDMGLDKTIAKVEKVDDHTVRFVLNTVDAAFIQNLAMNFAAIHSAEYADQLLKAGKPQQLNQKPIGTGPFVFKRYQKDAQIRFTGNKDYWKPEDVKIDNLIFSINTDASVRAQKLKAGECQITLNPRPADLKALQDDPKLTVPSQPGYNLGYIAYNVTRAPFDKLEVRQALDMAVDKQAIVDAVYQGAGQLAVNGMPPTQWSYDETIKDRAYDPEKAKALLKQAGIAEGSEITLWAMPVQRPYNPNAKLMAEMIQSDWAKVGIKARIVSYEWGEYIKRAHNGEHDAMLIGWTGDNGDPDNWLGTLYGCDSVDGNNFSKWCDADYDKLVKQAKAVTDVEQRTALYKQAQHVLQQQVPITPIAHSTVYQPMRTSVQGFLISPFGRNSFYGVSNAP	PGPT0004500_801	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004500-dppA-K12368	NA	NA
BMS010_04337	561	puuR_2		HTH-type transcriptional regulator PuuR	ATGACCGTAGATCGCATCGGCGAACGCCTGCGCCGCTATCGGCGAGCCGCCAAGAAGACACTCAACCAGGTCGCCGCGGAAGCCGGACTGACCGCCAGTTTCCTGTCCCAGGCCGAGCGCAATCTCACCGGCATCTCCATTTCGTCGCTGGCGAATATCGCCAAGTCCCTTGGCGTGCCGCTCAACGTGCTGTTCGACCAGCCGCCCCAGCCGCAGCCGGATTCCCACCAGGGCGAGCGGGTGCGCTATGCCATCGAGGGCCAGCCGCTGACCTATGAGCGGCTGTCCAGCAGCTTCCCCGGCAACCTGATCAACGCGGTGAAAATGAGCATGCCGGTGGGTTACCAGTCGGAGCTGATTTCCCACGAAGGTGCCGAGTTCGCCTATGTCCTCTCCGGGCAGATCCTCTACACCATCGAAGACCGCCAGTACCCGCTGGGTGCCGGCGATTCGGTGCACTTCGATGCGGGCAAGCCGCACTGCCTGGCCAACACCGGCAGCGATGTGGCCGAGGTGCTGACCATTACCACCATGGCCCTGTTCGACGATCCCAGCCGTTAA	MTVDRIGERLRRYRRAAKKTLNQVAAEAGLTASFLSQAERNLTGISISSLANIAKSLGVPLNVLFDQPPQPQPDSHQGERVRYAIEGQPLTYERLSSSFPGNLINAVKMSMPVGYQSELISHEGAEFAYVLSGQILYTIEDRQYPLGAGDSVHFDAGKPHCLANTGSDVAEVLTITTMALFDDPSR				NA	NA	NA	NA	NA
BMS010_04338	1218			putative peptidase	ATGACGCTCGGAGTAGGTGGTTGCACGGCGGAGCAGGCCCTGGCCAGCCTCGACATCATGACCGACGGCGCCGAACCCATCGGCTTGGCCGAATACCAGGCCCGCATCGCCCATGCCCAGGCGCTCATGCGGCAACAGGGTATCGCGGCGGCCTTCATCAACGCCGGCAGCAACCTGCGCTATTTCACCGGGGTGCAATGGCGTCCGAGCGAGCGTCTGGTAGGGGCGCTGCTGCCGGCCACGGGAGCGCTGGAATACCTGGCGCCGGCCTTCGAGGAAGGCACCGTGCGGGACTTCCAGGTGGTGCCCGGCACGATTCACACCTGGGAGGAACATGAAGACCCGTACCGCCTGCTGCTGGATGCCTTCGCACGCCTGGGCGTCCGGGCCGGCGACCGGGTGGGGCTGTGTTCGACGCTGCCGTTCGGCATGTACGAGCGCCTGCGCCAGTTGGGCTCCGGTTTTGTGTTCGTCGATGCGGCGGCGGTCACCGACGCCTGCCGGCAGTGCAAGTCGCCCGCCGAACTGGCCCTGATGCAGCGCGCCAAGCGCATGACCCTCGACGTGCACAAGGCGGCCGCCAGCATCCTGCGTGAGGGCATCAGCACCACCGAAGTGGCCGAGTTCATTCACCAGGCGCACCGCAAGGTGGGTGCCTCCGGTTCCACCTTCTGCATCGTCCTGTTCGGCCCCGCCACCGCCTTCCCCCATGGCGTGAAAGACCCGCAAATCCTCAAAGCGGGCGACATGGTGCTGATCGACACCGGCTGCCAGTTGCACGGCTACCAGTCGGACATCACCCGCAGCTACGTCTTCGGCACACCGAACGAGCGCCAGCGGGCCCTGTGGAACATGGAGAAAGACGCCCAGCTCGCCGCGTTCGAAGCGGCCCGGCTCGGCGCGCCCTGCGAAACCGTCGACGCGGCGGCCCGCGCGTCCCTGGAAGCCAACGGCCTGGGCCCCGGTTACCGCCTGCCCGGCCTGCCGCACCGTACCGGCCACGGCATCGGGTTGGACGTACACGAAGGCCCGTACCTGGTGCGCGGCGACGAAACGCCCCTGGCGGAAGGGATGTGCTTCAGCAACGAACCGATGATCTGCGTGCCCGGCGAATTCGGCATCCGCCTGGAAGACCACTTCTACATGACGGCCAACGGACCTCGCTGGTTCACCGAGCCGAGCCATTCGGTGGATGACCCGTTCGGGTTGGGTTGCTGA	MTLGVGGCTAEQALASLDIMTDGAEPIGLAEYQARIAHAQALMRQQGIAAAFINAGSNLRYFTGVQWRPSERLVGALLPATGALEYLAPAFEEGTVRDFQVVPGTIHTWEEHEDPYRLLLDAFARLGVRAGDRVGLCSTLPFGMYERLRQLGSGFVFVDAAAVTDACRQCKSPAELALMQRAKRMTLDVHKAAASILREGISTTEVAEFIHQAHRKVGASGSTFCIVLFGPATAFPHGVKDPQILKAGDMVLIDTGCQLHGYQSDITRSYVFGTPNERQRALWNMEKDAQLAAFEAARLGAPCETVDAAARASLEANGLGPGYRLPGLPHRTGHGIGLDVHEGPYLVRGDETPLAEGMCFSNEPMICVPGEFGIRLEDHFYMTANGPRWFTEPSHSVDDPFGLGC	PGPT0006760_1059	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0006760-opaA|pepQ-K01271	NA	NA
BMS010_04339	492			hypothetical protein	ATGGAAACAGCGTTTACTCCCCTCACCTTCCACCGCTTCAACCGCCCCTTGCGAGCCGTGCTGATCGACGGCCAGCCGTGGTTCGCGGCCAAGGATTTCGGCCTGTTGATGGGGCACCGGCACCCGGAGCGGATTTGCCGGTATGTGGATGACGACCAGTTGCGCAGCGTGCGCTTCGCCCTGGCGAGCGGTGGCGAGGAGGCGGTGCCGGTGATCAGCGAGTCCGGGGCGTACCGGGCGTTGTGGCGGTTCAATCACCCGGAACATCGCAACCTGCGGCGCTGGCTGACGCAAGAGGTGGTGCCGCTGTTGCGCGATGAACAGGCGGTACCAGCCATGGCGCCGCGGCGCACGTTGATGACGTGGGAGGCGCGGCGGGTCAGCCTGCTGGAGTGGCAGGGGGAGTTGTGGGTGCCGCTGAAGGCGTTGCCGGAGCTGGTGAGTGAAGGCGCGGTGCCGCGCCGGGGCCGGCTGGGACGCTGGTTGAGGTAG	METAFTPLTFHRFNRPLRAVLIDGQPWFAAKDFGLLMGHRHPERICRYVDDDQLRSVRFALASGGEEAVPVISESGAYRALWRFNHPEHRNLRRWLTQEVVPLLRDEQAVPAMAPRRTLMTWEARRVSLLEWQGELWVPLKALPELVSEGAVPRRGRLGRWLR				NA	NA	NA	NA	NA
BMS010_04341	330			hypothetical protein	ATGTCAATTCTAGACTCTAACACCATTGATATTTGGGCGATCCCCAAAGCAGCCCCCGAAGAAATTCACTTGGTGATTACCGATCATCTGGAATGGCGGAAGGAAGACGAAGGACAGCACTTGGAGTTACTTCAAGAAAAAATAAATACTTATCTAGCCTTCATAGAAAGCGGGGAAATGACCGAGACAATACCTTCATCGGAAGGAAAGACACCTGTTATCTATGTGGAGGGGAAATATCCCCTTTCAGAGCAGGCGTTAAAATTTTACTCTGCGGCGGATAAGATTTTAGAAGGCACAGGTATACAACTTCGATTTGAAGCGCATTAA	MSILDSNTIDIWAIPKAAPEEIHLVITDHLEWRKEDEGQHLELLQEKINTYLAFIESGEMTETIPSSEGKTPVIYVEGKYPLSEQALKFYSAADKILEGTGIQLRFEAH				NA	NA	NA	NA	NA
BMS010_04342	1269			hypothetical protein	ATGCCCAGCGTTTGCCAACCGGCATTGAAGAACACCCCACCGAAAAGCTGGCGAACACCCAAGGAACCAACCCCACCACAGCCGCAACTCGGCGGCTGGGAATTCGACAAGCAACCGCCTCGCGAACTCATCCGTCCCGCTCCACCCCCACCGCCACCGGCCGAGCCCCGGCCGCCAATGGCAAAGACGTTCGTCAAATGCTGCACCATCCCCGAGGGATTGATGGACCATCCCCCAGTCGGGGACGGATGGGTGAGAACGAGCGCGTTAAGAGACTACGGAAACTTCGCCCTGCTTGGCTCCAGGGAGAGGAATTCCGATGGAAGCATCCCCCTGAAAAAGATCGGCGGGAGCGCTCTTCCCCTCACAGGAACGCTCGCTATCGGCGCCACTGCCGTAGGCGAGACCGCTGGCGGGATTGCAACGGGCGTCACGACAGGGGTCTCGGTTGGGTTTCTGATTGGGCTCGTGTCGTTTCTATGGCCGACGCAAACAGGCGATTCGGCGATGTACACCGAGGACGAGCTGAGGGAACGCACCACGGCGAGGACACGGGCAAGGCTTCATATCGAAGAACAGCCAGACGGAACGCTGAAAGGCTATGCGTGGTACACCGCCCCCAACAAACGCGCTCTGCGATGGGAAACGGTGCCGGTCATCCCATTCCAGCCCCAAGGAGATGCCTTTGTCGCTGACTTTGGGAATGGGGCGAACCTGACGTGGACGCCAGCCGTAGACACGTCCAAAACCCTTGGAATCCCGGCCCTGGAAGCCTCTCCAGAAATGCCGGCGGTATGGGTTTATCCGCCTACCGAGACCGTGGACCAGATACTGGTCAATCCGGTGTATCCGCCCGACTTCAAAGACGCCATCCTGATCTTCCCGGCTGACTCAGGTGTGCCGCCGCTGTATGTCGTTATCAGTGAGCAGCTAATTAAAAACAAGAAACAGGGACAGGAATTCGAAGATGAAATATTTAAAGCTCGTCAAGCAAACAGCAGTGAGACAGCACGAGAAGTGACAGTTAAAACACAAAGCGGAGTTCGGACCCGCATGGATATATTGACCAAAGACGAAAACGGAAATGTATCCTGTGTCGAATGTAAATCTTCGGAAACTGCACCTATGACAAAAAATCAGAAAATAGCTTATCCTGAAATAGAGGAAAGTGGCGCTATCGTCGTTGGGAAGGGCAAGCCAGGATTCCAGGGCGGAACGAGAATCCCACCGACCAAGATTGAAATTGTAAGACCGAAAACAATTGAATAA	MPSVCQPALKNTPPKSWRTPKEPTPPQPQLGGWEFDKQPPRELIRPAPPPPPPAEPRPPMAKTFVKCCTIPEGLMDHPPVGDGWVRTSALRDYGNFALLGSRERNSDGSIPLKKIGGSALPLTGTLAIGATAVGETAGGIATGVTTGVSVGFLIGLVSFLWPTQTGDSAMYTEDELRERTTARTRARLHIEEQPDGTLKGYAWYTAPNKRALRWETVPVIPFQPQGDAFVADFGNGANLTWTPAVDTSKTLGIPALEASPEMPAVWVYPPTETVDQILVNPVYPPDFKDAILIFPADSGVPPLYVVISEQLIKNKKQGQEFEDEIFKARQANSSETAREVTVKTQSGVRTRMDILTKDENGNVSCVECKSSETAPMTKNQKIAYPEIEESGAIVVGKGKPGFQGGTRIPPTKIEIVRPKTIE				NA	NA	NA	NA	NA
BMS010_04343	1599	dppA_6	COG0747	Periplasmic dipeptide transport protein	ATGCGCAAAAACGCCGTCATTCCGTTTCTTCTCGGCGCAGGGCTGATCGCCGGCGCTCCCGTCGCCCAGGCCGCCAGCAACCTCGTGTTCTGCTCGGAAGGCAGCCCGGCCGGCTTCGACCCGGGCCAGTTCACCACCGGCACCGATTTCGATGCCGCGGCCGAGACCGTCTATAACCGCCTGAGCCAGTTCGAGCGCGGCGGTACCAAGGTCGTGCCGGGCCTGGCGGAAAGCTGGGACGTCTCCGACGACGGCCTGACCTACACCTTCCACCTGCGCAAGGGCGTGAAATTTCACAGCACCGACTTCTTCAAGCCGACCCGCGAATTCAATGCGGACGACGTGCTGTTCACCTTCCAGCGCATGCTCGACAAGGACCACCCGTTCCGTAAGGCCTACCCCACCGAATTCCCCTACTTCACCGACATGGGGATGGACACCAACATCACCAGCGTGGAAAAACTCGACGACCACACCGTCAAGTTCACCCTGGCTGCGGTCGACGCCGCGTTCATCCAGAACCTGGCGATGAGCTTCGCCTCGATCCACTCCACCGAGTACGCCGACCAGTTGCTCAAGGCCGGCAAGCCCGCCGACATCAACCAGAAGCCCATCGGCACCGGCCCCTTCGTGTTCAAGCGTTACCAGAAGGACGCGCAGATCCGCTTCACCGGCAACAAGGACTACTGGAACCCGGACGAAGTGAAGGTGGACAACCTGATCTTCTCTATCAATACCGACGCCTCGGTGCGCGCCCAGAAGCTCAAGGCCGGCGAATGCCAGATCACCCTCAATCCCCGCCCGGCCGACCTCGACGGGCTGAAGAAGGACCCGAACCTCGAAGTCGCCGAACAGCCCGGCTTCAATCTCGGCTACATCGCCTACAACGTCACCCACAAGCCGCTCGACCAGCTCGAAGTGCGCCAGGCATTGGATATGGCGGTGAACAAGAAGGCGATCATCGGCGCCGTGTACCAGGGCGCCGGCCAACTGGCCAAGAACGCCCTGCCGCCGACCCAGTGGTCCTATGACGACAGCATCCAAGACACTGTCTACGACCCGGAAAAAGCCAAGGAACTGCTGAAAAAGGCCGGCATCAAGGAAGGCACCGAAATCACCCTCTGGGCCATGCCGGTGCAGCGTCCGTACAACCCCAACGCCAAGCTGATGGCCGAGATGATCCAGTCCGACTGGGCCAAGGTCGGCATCAAGGCCCGTATCGTCACCTACGAATGGGGCGAGTACCTCAAGCGCTCCAAGGCCGGCGAGCACGACACCATGCTGATCGGCTGGACCGGCGACAACGGCGACCCGGACAACTGGCTGGGCACCCTCTACGGCTGCGACGCGGTGAACGGCAACAACTTCTCCAAGTGGTGCTACCCCGAGTACGACAAGCTGATCAAGGACGGCAAGCGCGTCACCGACCAGGACAAGCGCACCGCCCTCTACAAAGAGGCCCAGCACATCCTCAAGGGCCAGGTACCGATCACCCCGATCGCCCACTCCACCGTCAACCAGCCCATGCGCAAGACCGTGCAAGACTTCAAGGTCAGCCCGTTCGGGTTGAACTCCTTCTACGGCGTCGGCGTGAAATAA	MRKNAVIPFLLGAGLIAGAPVAQAASNLVFCSEGSPAGFDPGQFTTGTDFDAAAETVYNRLSQFERGGTKVVPGLAESWDVSDDGLTYTFHLRKGVKFHSTDFFKPTREFNADDVLFTFQRMLDKDHPFRKAYPTEFPYFTDMGMDTNITSVEKLDDHTVKFTLAAVDAAFIQNLAMSFASIHSTEYADQLLKAGKPADINQKPIGTGPFVFKRYQKDAQIRFTGNKDYWNPDEVKVDNLIFSINTDASVRAQKLKAGECQITLNPRPADLDGLKKDPNLEVAEQPGFNLGYIAYNVTHKPLDQLEVRQALDMAVNKKAIIGAVYQGAGQLAKNALPPTQWSYDDSIQDTVYDPEKAKELLKKAGIKEGTEITLWAMPVQRPYNPNAKLMAEMIQSDWAKVGIKARIVTYEWGEYLKRSKAGEHDTMLIGWTGDNGDPDNWLGTLYGCDAVNGNNFSKWCYPEYDKLIKDGKRVTDQDKRTALYKEAQHILKGQVPITPIAHSTVNQPMRKTVQDFKVSPFGLNSFYGVGVK	PGPT0004500_773	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004500-dppA-K12368	NA	NA
BMS010_04344	711			hypothetical protein	ATGCTTTCCCTCCCCCGTCTCGCCGCGCTGTTCAGCCTGAGCCTCGCGGCCCTCGCCAGCCTGCCGGCCGGTGCCGACGAACCCCGCTACAACCAGATCGCCCTGCGCGCCGAAGTCAGCCAGGAAGTGGCTCACGACCGTATGCACGTGCTGCTCTACAGCGAAGCGCAGAGCAGCGACCCGGCCAAGCTGGCCGGCGACATCACCCGTACCCTCAATGCCGCCGTCGACCAGGCGCGCAAGGTCAAGGGCGTGACCGTCAGCCTCGGCAGCCGCAACAGCTATCCGGTCTACGACGAGAAAGGCCAGAAGATCACCGCCTGGCGCGAGCGCGCCGAGCTGCGCCTGGAAAGCGCCGACTTCGCCGCCCTCTCCCAGCTCACCGCCGACCTGATGAGCAGCATGAAGATGGGCGGCATGGACTTCGCCATCTCCCAGGCTACCCGCAAGCAGCATGAAGACGCCCTGCTCAAGGAAGCCGTGGCCGCCTTCAAGGCCCGCGCCCAACTTGCCACCGAAGCGCTCGGCGGCAAGGGCTACAAACTGGTCAACCTGAATCTCAGCAGCGGCGGCTTCCCGCAACCGATGCCGCGCATGGCCATGAAAGGCATGGCCCTGATGGAAGCCAGCGCTCCGGCCCAGGACATCGAGGCCGGCACCAGCCAGATCACCCTGAACGCCGATGGCGTGATCGAAGTGGAAATGCCCTGA	MLSLPRLAALFSLSLAALASLPAGADEPRYNQIALRAEVSQEVAHDRMHVLLYSEAQSSDPAKLAGDITRTLNAAVDQARKVKGVTVSLGSRNSYPVYDEKGQKITAWRERAELRLESADFAALSQLTADLMSSMKMGGMDFAISQATRKQHEDALLKEAVAAFKARAQLATEALGGKGYKLVNLNLSSGGFPQPMPRMAMKGMALMEASAPAQDIEAGTSQITLNADGVIEVEMP				NA	NA	NA	NA	NA
BMS010_04345	1275	regB_1		Sensor histidine kinase RegB	ATGCTCGAACCCGTACAGCTTCTTTCCGCCAGCCGGCAGAATCTCTGGCGTCTCACGCTGATCCGCATCCTCGTGCTGGCCGCCCAGGCCGGCTCGGTAGGCATCGCCTACGTCTCCGACCTGCTGCCGCTGCCCTGGCTCGAGTTGAGCATGACCCTCTGTGTATCCGCCGGGCTGTGCCTGCTCACCGCGCTGCGCCTGCGCGGCCCGTGGCCGGTGACCGAGCTGGAGTATGCCGTCCAGCTCGCCTGCGACCTGATCATCCACAGCGTGCTGCTGTACTACTCGGGGGGCTCCACCAACCCCTTCGTTTCCTATTACCTGGTGCCGCTGACCATCGCCGCGGCGATCCTGCCGTGGTTCTACTCCATGGTGCTCAGCGGCCTGGCGCTGACCGGCTACACCGCGCTGCTGATCTGGTACCACCCGCTGCACATGGCCAACGTCCAGCACGAGGCCATGCTGATCAGCCTGCACCTGTTCGGCATGTGGCTGAACTTCGCCCTGTCGGCGGCCTTCATCACCTTCTTCGTGGTCAAGATGGCCGGGGCCCTGCGTCGCCAGGACCAGCTCCAGGCCGAGCGCCGCGAAGAGATGTTGCGCGACCAGCAACTGCTCGCCGTGGCGACCCAGGCCGCCGGCGCCGCCCATGAGTTGGGCACGCCGCTGGCGACCATGAGCGTATTGATCAAGGAGCTGCGCCGCGAGCACCCCGACCCGCTGCTGCAGGAGGATCTGGCGGTGCTGCAGGAGCAGGTCAAGCTGTGCAAGGACACCCTGCAGCATCTGGTCCGCGCGGCCGAGGCCGACCGTCGCCAGACCGTGGAAGAACAGAGCGCCGCTGCCTGGCTGGAGGCCGCGCTGAACCGCTGGCACCTGATGCGCCCGGAAGCCAGCTACCGCTACCAGCGCCTCGGCCAGGGCAGCGTGCCGCGCCTGGCGCCGCCGCCGGACCTGACCCAGGCACTGCTCAATCTGTTGAACAACGCCGCCGATGCCTGCCCGGACGATCTCGACATCTGCCTCGACTGGGACGCCTACGAGCTGTGCATCAGCATCCGCGACCACGGGGTCGGCGTGCCCCTGGCGATCGCCGAGCAACTCGGCAAACCCTTCTTCACCACCAAGGGCAAGGGCTTCGGCCTTGGCCTGTTCCTCAGCCAGGCCAGTGTGACCCGGGCCGGCGGGTCGGTGAAGCTCTACAATCACGAGGAGGGCGGAACGCTGACCGAGCTGCGCCTTCCGAGACTGGCAGCGAGAGACGACCATGAGTGA	MLEPVQLLSASRQNLWRLTLIRILVLAAQAGSVGIAYVSDLLPLPWLELSMTLCVSAGLCLLTALRLRGPWPVTELEYAVQLACDLIIHSVLLYYSGGSTNPFVSYYLVPLTIAAAILPWFYSMVLSGLALTGYTALLIWYHPLHMANVQHEAMLISLHLFGMWLNFALSAAFITFFVVKMAGALRRQDQLQAERREEMLRDQQLLAVATQAAGAAHELGTPLATMSVLIKELRREHPDPLLQEDLAVLQEQVKLCKDTLQHLVRAAEADRRQTVEEQSAAAWLEAALNRWHLMRPEASYRYQRLGQGSVPRLAPPPDLTQALLNLLNNAADACPDDLDICLDWDAYELCISIRDHGVGVPLAIAEQLGKPFFTTKGKGFGLGLFLSQASVTRAGGSVKLYNHEEGGTLTELRLPRLAARDDHE	PGPT0000545_895	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0000545-regB|regS|actS-K15011	NA	NA
BMS010_04346	561	regA_1	COG4567	Photosynthetic apparatus regulatory protein RegA	ATGAGTGAAAACCCCCAGATCGAAGGCGAAGAGCAGCCGCACCTGCTGCTGGTCGATGACGACGCCACCTTCACCCGCGTGATGGCGCGCGCCATGGACCGGCGCGGCCTGCGCGTGACCTGTGCCGGTTCGGCCGAAGAGGGCTTGAAGCTGGCGGAACAGGACCTGCCGGACTACGCCGTGCTGGACCTGAAGATGGAAGGCGACTCCGGGCTGGTCCTGCTGCCCAAACTGCTGGCGCTGGACCCGGAAATGCGCGTGCTGATCCTCACCGGTTATTCGAGCATCGCCACCGCCGTGGAGGCGATCAAGCGTGGCGCCTGCAACTACCTGTGCAAGCCGGCCGACGCCGACGACGTGCTCACCGCGCTGCTCTCCGAGCATGCCGACCTGGACAGCCTGGTGCCGGAAAACCCGATGTCGGTGGACCGCCTGCAATGGGAGCACATCCAGCGCGTCCTGGCCGAACATGACGGCAATATCTCCGCCACCGCCCGTGCCCTGGGCATGCACCGCCGCACCTTGCAGCGTAAGTTGCAGAAGCGCCCGGTCCGCCGCTGA	MSENPQIEGEEQPHLLLVDDDATFTRVMARAMDRRGLRVTCAGSAEEGLKLAEQDLPDYAVLDLKMEGDSGLVLLPKLLALDPEMRVLILTGYSSIATAVEAIKRGACNYLCKPADADDVLTALLSEHADLDSLVPENPMSVDRLQWEHIQRVLAEHDGNISATARALGMHRRTLQRKLQKRPVRR	PGPT0000540_411	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0000540-regA|regR|actR-K15012	NA	NA
BMS010_04347	942			hypothetical protein	ATGCTCCCTCTCGTCCTGCAGACGCTGAACATCACCCTTCCGGTCTTCGCGATGCTTTTCCTGGGCATCCTGCTGAAGCGCCTGGGGCTGATCGATGCCCATTTCGTCAACACCGCCTCCGGGCTGGTGTTCAACGTCAGCATGCCGGTCATGCTGTTCCTCGCCATTCTCCATGCCGACCTCAACACCGCACTGCAACCGGCGGTGATCGGCTATTTCGTGGCGGCGACCCTGGCCGGCTTCCTGCTCAGTTGGGGCTGGGCGATCTGGCGCTGCCCGCGCGCCGACCGGGGCGTCTATGTGCAGGGCTCGTTCCGCGGCAATAACGGCATCGTCGGTCTGGCGCTGGCCACCAGCCTGTACGGCGACTATGGCCTGTCCCTCGGTGGCGTGCTGGGCGGGGTGGTGATCCTCAGCTACAACACCCTGTCCGTGCTGGTGCTGGAGGTCTACAACCCGAACGTCAAGACCAGCGTCCGTCATATCCTGCGCAGCATTTTCACCAACCCGCTGATCCTCGGCGTGCTGCTGGCCATTCCCTTCGCCTACTGGAAGATTCCGCTGCCGGGCGCGCTGATCGTTTCCGGCGAGTACCTGGCGAAACTGACCTTGCCGCTGGCGCTGATCTGCATTGGCGGCACCCTGTCGCTGGCCGCGCTGCGTGCCTCCAGCCACCTGGCCATCGGCGCCAGCCTGATCAAGATGGTCTGGATGCCGCTGTTCGCCACGCTGGGTGCGTTCTTCTGCGGCTTCCGCGGCGCCGAGCTGGGCATCCTGTTCCTCTATTTTGCCAGCCCGACGGCGGCGGCCAGTTTCGTCATGGCCAAGGCGGCGGGCGGCAACCACGACCTGGCGGCGGCGATCATCGTGATCACCACCCTGGCGGCGGTGGTGACCACCAATATCGGTCTGGCGGTGTTGCAGTGGGGCAGTTGGATTTGA	MLPLVLQTLNITLPVFAMLFLGILLKRLGLIDAHFVNTASGLVFNVSMPVMLFLAILHADLNTALQPAVIGYFVAATLAGFLLSWGWAIWRCPRADRGVYVQGSFRGNNGIVGLALATSLYGDYGLSLGGVLGGVVILSYNTLSVLVLEVYNPNVKTSVRHILRSIFTNPLILGVLLAIPFAYWKIPLPGALIVSGEYLAKLTLPLALICIGGTLSLAALRASSHLAIGASLIKMVWMPLFATLGAFFCGFRGAELGILFLYFASPTAAASFVMAKAAGGNHDLAAAIIVITTLAAVVTTNIGLAVLQWGSWI	PGPT0007208_1455	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-ABSCISIC_ACID_DEGRADATION	PHYTOHORMONE-AUXINE|INDOLE‐3‐ACETIC_ACID|IAA_METABOLISM	PHYTOHORMONE-IAA-AUXIN_TRANSPORT_PLANT_LIKE,PGPT0007208-auxin_symporter-NA	NA	NA
BMS010_04348	792			hypothetical protein	ATGCGCATCCTCCCCTGTCTGCTCCTCGTCCTGGCTGCGTTCGTCGCAACGGCCCGGGCGGAGCCTTCCGTGTCCCTGGAAGGCCCTACGGCAGGCTGGCGCTATAACGGACTCAACGAGCGCGACGGCGAAGCCCGCGTCGCCTATCCCACCCCACCCATCGACCGGGGCGCCCAGCGTGGGCGCAGCCTGATCGAGGGGCGCCTGAAAGACCTCGCTGATGCCCGCCAGCCGTACCGCCTGGTGGTCAACGGCAACCCGCTGCCGCTCTACACCGATGCCGAAGGGCGTTTCGTGCGGCCCTATAACTTCGGCGCCGGCTCCAACAGCGTGGCTCTCAGCGTCGACGGCAAGACGGTCAAGCGCGTGCAGTTCTACGAGGCCAACCAGAGCAAGACGCCCGCGCGCCTGCGCATCGCCCTCGGTTGGGACGATCCCAAGGCCGAACTCGACCTGCATGTCATTACCCCGGACGGCCAGCACGCCTTCTGGGCCCACCCGGTGCTGAGCAACGGCGGCGGCCTGGACGTGGACAGCGTCGACGGCCCCGGACCGGAGATGTTCACCCTGGCCGCGCCGCCCCACGGCACCTACCTGGTGTACGTCAACTACTGGGGCAACCTCGGCCCGCAGGGCTACAACTTCCAGGCCGGCAGTAACCAGAACGACCTCATCACCGCCCAGATCAACCTGGTGTTCAACGAGAACACCGTGAACGAGAAGCGCGAGACCTTCGTGGTGCCGCTGCGCGCCATGGGCGACCTGCTGCTCGTCAAATCCTTCAACCATTGA	MRILPCLLLVLAAFVATARAEPSVSLEGPTAGWRYNGLNERDGEARVAYPTPPIDRGAQRGRSLIEGRLKDLADARQPYRLVVNGNPLPLYTDAEGRFVRPYNFGAGSNSVALSVDGKTVKRVQFYEANQSKTPARLRIALGWDDPKAELDLHVITPDGQHAFWAHPVLSNGGGLDVDSVDGPGPEMFTLAAPPHGTYLVYVNYWGNLGPQGYNFQAGSNQNDLITAQINLVFNENTVNEKRETFVVPLRAMGDLLLVKSFNH				NA	NA	NA	NA	NA
BMS010_04349	1731			hypothetical protein	ATGCGCGACTCTTCCTCCGCCTCCCAGAAAAGCGCCCGCTCCGGCCGCCTGCGCCTGCTGCTGATCGCCCTGGTCATTGCCCTGCCGGTGGCCGCCGGCGGCCTGTTCGCCTGGCTGCAGCAGCGGTCGGCGGGGGATCGCCATCTGGTCGAGCGCAATGCCCTGGGGCTCGACCTGGCGCGCCCCGACGTGCTGATCGAGAGTGAGTCCCTGAGCCGTCTGCCCCGGGACCTGCTGGCTGTCCCGTTGCTGCGCGACACCCTCACCGAGGACTTCGTCTTCTATTACGAGCAGAACGCCGACCGCCTGGGGCTGGCGGGCAGCCTGCGGCGCATCGTCTACGAACATGACCTCGAATGGCGCGACACCCTGCTCGACGAGTTGCTCGACCAGCCGGCCCAGGTCGCCCTCTGGCGCGACGCGGGCGGCCGGCTCCGGCATTTCCTCGTCGCCATCGAGCGTGGCGGGCTGGCCAGGCTGCTGGAACCGGTAGCCAAGCTGGCGCTGAACGACAGCCAACTGAGCGTGGCCGGCGAACTGAACGTGGACGGCATCGCCGTGCCGCTGTACCGCCTGCGCTACCAGAACCAGCGCTCGGTGCTTTTCGCCTCCCATGGCGACCGGCTGATCGTCGCGTCCAGCGCGGACATGCTGTTCGCCGAGATGCTGGCCAAGGCGTCGTCCAGTGAGGATGACAGCGCGCCGCTGGCCCAGGTCAGCGCCGAGACGGCGGAAAGCCTGCTCAGTGGCGGTCAGCCGTTCGATGCGCGTTTCGGCCTGGCGCCGCGCGAAGGGCTGGCACATCGCATCGCGCTCGGCTCGGAATACCTGGCGCTGGGCTATCAGCGCTTCATCCCCAGTTTCGCCGGGTTGCGCTTCGAGATGGGCGAGGGCGGCTGGCGCAGCTTCCTTGCCCTGCACGAGGTGGACGGCCAGCCGGCGTTCGACTTCGCCCCGGTGTGGCGCGCCATGCCGATGGGCGCCAGCGCTTGTGTCGCGCTGCCGGCGGCGCCGGCCATGGCGGAGCGGCTGCTGGATCGCGTCGGTGCCGGTGCGGAGGTGGCGACGCGGCTGTCGGCGCGGCTCAGCGGCACCGCCGGGTTGTGCTGGTACGCCGAGTCCCGCCTGCATTCGCCGCTGCTGGTCGGCCAGTTGACGGCCGCCCCCGACGAGCGGACGGATGCCGACATCGGCGCCCTGTTCGGGTCGGTGATCGGTGCCTGGGAGTCCTTCGCCGAGAACGGCAGCTTCCCCGTGCAGGAGGAGCAGCAGGGCGACCTGCATACCTGGCGACGCGAGGTCAGCTCCAACTTCGGCCAATACCCCGCCGACCAGGCGGAGCATGCCGACGCCATGGCCGCCCGTGGCTTCTTCCGCATCAGCCTGGCGCGGCGCGGCCAGACCCTGCTGTTCTCCCTCGACGACCAACTGGTGGACAAGGCCCTGGCCACCCTCGACAAGCGCTTCCCGCCGCTGGCCGAGGTGCTGCCGGGCGACGCCCTGGTGCCGGCCTTCCTGGCGCCGGAGGCCCTGGCCGCGCTGCTGGAGCGGGAAACTCTGGACAGCCTGCCCAAGGACATGGAGCCGGTCTTCCGTAACGCGGCGGAAACCCACCTGCTGCCCAAGCTGCGCGCCCTGGCCGGACACAAGCGCTACGCCCTGGCGGTGCCGCAAACCGAACACGCCGACGGCCGTTGGCAATGGCTGCCCCTGGAGTGGCGCGCACTGTGA	MRDSSSASQKSARSGRLRLLLIALVIALPVAAGGLFAWLQQRSAGDRHLVERNALGLDLARPDVLIESESLSRLPRDLLAVPLLRDTLTEDFVFYYEQNADRLGLAGSLRRIVYEHDLEWRDTLLDELLDQPAQVALWRDAGGRLRHFLVAIERGGLARLLEPVAKLALNDSQLSVAGELNVDGIAVPLYRLRYQNQRSVLFASHGDRLIVASSADMLFAEMLAKASSSEDDSAPLAQVSAETAESLLSGGQPFDARFGLAPREGLAHRIALGSEYLALGYQRFIPSFAGLRFEMGEGGWRSFLALHEVDGQPAFDFAPVWRAMPMGASACVALPAAPAMAERLLDRVGAGAEVATRLSARLSGTAGLCWYAESRLHSPLLVGQLTAAPDERTDADIGALFGSVIGAWESFAENGSFPVQEEQQGDLHTWRREVSSNFGQYPADQAEHADAMAARGFFRISLARRGQTLLFSLDDQLVDKALATLDKRFPPLAEVLPGDALVPAFLAPEALAALLERETLDSLPKDMEPVFRNAAETHLLPKLRALAGHKRYALAVPQTEHADGRWQWLPLEWRAL				NA	NA	NA	NA	NA
BMS010_04350	597			hypothetical protein	ATGAGCCTGGCACTGCACGCGGAGGAAACGCCGCCCCTGGATGCCGGACAATCCCAGGTGTTCCGCGCCTGGTTCGTGCGCATCGCCCAGGAACAATTGCGCCAGGGGCCGAGCCCGCGCTGGCACCAACAGGATTGTGCCGGGCTGGTGCGTTTCGCCGCCAACGAGGCGCTCAAGATCCACGACGGCAAGTGGCTGCGCGCCAACGGCCTGTCCAACCGCTACCTGCCGCCCGAGCTGTTTCTGAGCGACGCGCAACGCCAGTTCGCCCAGCGCTGGAACCAGGGCAACGGCCAGACCGGCCCGTACGTCAATGCGATCAAGCTGATCCAGCACAACAGCCACTTCGTCGGCCGCGACCTGAATCAGGCGCAGCCGGGCGACCTGATCTTCTACGACCAGGGCGATGACCAGCACCTGATGATCTGGATGGGCCGCTACATCGCCTACCACACCGGCAGCTCCACCCCGACCGACAACGGCATGCGTTCGGTCAGCGTGCAACAACTCATGAAATGGAAGGACACCCGATGGATTCCCGACGCAACCAACCCCAACTTCATCGGCGTCTATCGACTGCACTTCCTCACGCGATGA	MSLALHAEETPPLDAGQSQVFRAWFVRIAQEQLRQGPSPRWHQQDCAGLVRFAANEALKIHDGKWLRANGLSNRYLPPELFLSDAQRQFAQRWNQGNGQTGPYVNAIKLIQHNSHFVGRDLNQAQPGDLIFYDQGDDQHLMIWMGRYIAYHTGSSTPTDNGMRSVSVQQLMKWKDTRWIPDATNPNFIGVYRLHFLTR				NA	NA	NA	NA	NA
BMS010_04351	4542			hypothetical protein	ATGAGTGGCTTCGGTCGTGCGCTGGCGCTCTGCGCCCTGGTACTGTCGCCGCTCGCCGTCCAGGGCGAGGACGCGGTGGAGCCCAGCTACTACACGCCGGTCAGCGGCGAGTCCTTCTTTCTCCTGGCGGACAGCAGCTTCGCCGCCGACGAGGTGGCCCAGGTTCGCCTGGAGGCGCCCGGCCGCGACTATCGCCGCTACAGCATGGAGCCCTACGGCGGCGTGGACGTGCGTGTCTACCGCATCGACCAGCCGCTGGACTTCCTCAAGCGGCAGAAGAACCTGCACCGGGTGATGGTCGAGGGGCAGTTCCGGGGCGAGGGCTTGTCCAACACCCTGGCCTACCTGTGGGACAACTGGTACCGCAAGTCGCGGCGGGTGATGCAGCGGGCGTTCTCCTACGAATCGCGCAAGCAGGTCACCGACGAGGCGCCGGAGCTGCGCATGGGCGAGGCTATCAGCGCACCGACGCCGTTCGATCCGCAGCCGCAGTTCGCCCCCATGGCGGGCCTGCCGCTGGTCAGCCAGTTCCGCTACCCGCTGTGGGATGCGCAGCCGATCCAGCCGCCGAAGGACGTGACGCTGGCCGGCTCGTCCAGCCAGTTCACCAACGTCAATCCGGGCAACGTCTACATCCCGCTGGGCAAGCTGAAACCGGGCCTGTACCTGGCCGAGGCCATCGTCGGCAAGTACCGCGCCACCACCGTGGTGTTCGTGTCGAATACCGTTGCGGTGAGCAAGATTGCCGGCGACGACCTGCTGATCTGGACCGCCCGCAAGCATGAGGGCACCCCGGTGGCCGATGCCAGGCTGCTGTGGACCGACGGCCTCGGCGTGATGAGCAGCGGCAACACCGGTGCCGATGGCCTGTTGCGGCTCGCCCACGCCAGCCCGGAGCGCTCCTACGTGATCGGCGAGGATGCCGAGGGCGGTGTGTTCGTCTCCGAGAACTTCTACTACGACAGCGAAATCTACGACACCAAGCTCTACGCCTTCACCGACCGGCCGCTGTACCGGCCGGGCGACTGGGTGGAGGTGAAGATCGTCGGTCGCGAATTCAAGAATTCCCGCGACTCGGTGGCCCCGGTGGCGGCGCCGATCCGCCTCAGCGTGCTGGACGCCGCTGGGACCGTCCTGCAGACCCTCGATCTGCAACTGGATGGCAAGGCCGGCAGCCAGGGCCGCTTCCAGTTGCCGGAGAACGCCGTGGCCGGCGGCTACGAGCTGCGCTTCAGCTACCGCGACCAGCTCTACAGCAGCGCCTTCCGCGTCGCCGAATACATCAAGCCGCACTTCGAAATCGCCCTGGAGCTGGCCAAGCCGGACTTTCGCACCGGCGAGGCGGTGACCGGCCAGCTCGTCCTGCTCTACCCGGACGGCAAGCCGGTGGCCGATGCCCGCCTGCAGCTCAGCCTGCGCGCCCAGCAACTGTCCATGGTGGACAACGAACTGCAGTACCTCGGCCAGTTCCCGGTGGAACTGAGCAGCAGCGAGCTGACGACCGACGATCGGGGCCGCGCCACGCTCGAACTGCCGGCCGCGGAAAAGCCCAGCCGCTACCTGCTCACGGTGTTCGCCAGCGATGGCGCGGCCTATCGGGTCAAGACCAGCAAGGAAATCCTCATCGAGCGCGGCGCCGCGCGCTACCGCCTGGAAGCACCACGGCGTTTCAGCGCGGTGGGCGAGGCGGTGAAATTCAGCTACCGCAGCGAGCGCCCTACCGAGCTCAAGCCGACCCGCTACGAGTGGATACGCCTGGAAGACCGTGCCCAGGGCGGCGGCGAACTGACCGGCGACGCCAAGGGTTTCGAACTGGCCTTCGAGCGACCGGGCACCTATAGCCTGACGCTGAAGGACGCCCATGGACTGATCCTCGGCGGCACCGGTCATTCGGTGAGCGGCGAGGGCGTCAAGGCGGTGGCCGGAACCGTGGAAATCGTCCTCGACAAGGCCGAATACCACAGCGGCGATGAGGCCCAGGCGCTGATCACCTTCCCCGAGCCGGTGGGCGACGCGCTGCTGACCCTGGAGCGCGACCGGGTGGAGGCCACGGCGCTGCTCTCCAAGGGCGGCGACTGGTTGACCCTGGAACGCCTCAACGACACCCAATACCGGGCGCGCATCCCGGTGCGCGAGCACTTCTCGCCGAACCTGACCTTCTCGGTGCTCTACACCAAGGGCGGCGACTACAGCTTCCAGAACGCCGGGATCAAGGTGGCGATGCCGCAGATCGACATCGACATCGCCGCCGACAAGGAGCGCTACCAGCCGGGCGAGACCGTGACCGTCGAGCTGGCCACCCGCTTCGCTGGCAAGCCGGCGCCGACGCGCCTCACGGTGAGCGTGGTGGACGAGATGATCTACGCGCTGCAACCGGAGATCGCCCCCGGCATCGACCAGTTCTTCTACCACCCGCGGCGCAACAACGTGCGCACCAGCGCCAGCCTGTCGTTCATCGCCTACGACCTGGCCCTGCCCGGCAGCCCCAGCGCGCCCGGCCGGGCCAACCGCAGCGAGCGCGGAGTGAAGGTGCTGGAGCGGCCGCGCCGCGAGGACGTGGATACCGCCGCCTGGCAGCCGGATCTGGTCACCGACGCCGACGGCAAGGCGCGCTTCAGCTTCCGCATGCCGGACTCGCTGACCCGTTGGCGCATCACTGTGCGCGCCATCGACGAGGCGGGCCAGGTGGGGCAGAAGAAGCAGTTCATCCGTTCGGAAAAGCCGCTGTACCTGAAATGGAGCGGACCGACCCGTTTCCGCGCCGGCGACAAACCCTCCCTGGGCATGTTCGCCTTCAACCAGGGCGAGACGACTGGCAAGGCCGTGCTGGTCGTGCGCTACGCCGGCCAGGAACAGCGCCGCGAGGTGAGCCTCGAGAAGGGGGTGAATTACCTGGCGCTGCCGGCCGTCGCCCTGGGTGCCGGGGAACTGGTAGCCGAGCTGGAAACCGATGGGCAGGTGGTGGACCGGCTTGCGGTCGACTTGCAAGTAGACGGCCAGGGTTGGGCTGATAGGCAGACGCTGCGCCTCGACCTCATGGCAGGCGCCAACCCGCTGAACCTGCCGGCAGACGCCCGCGACATTCGCCTGAGCCTGGATAACAGCGCCGACGCGCTGTTCAGCAGCCGTCTCGACGACCTGCTGGCCTATCCCTACGGCTGCGTAGAGCAGACCGCCAGCCGCCTGCTGCCGTTGTCCCTGGCCTATCCGACCCTGGCCCGTGGCGAGGCACGCATCGGCGACCGCCTGCGCCTGATCATGCAGAACAGCCGGTTGCGCCTCGTGCACATGGCCGGCCCGGAAGCCGCCTTCAGTTGGTGGGGCGACGGTGGTGTGGAGAATGCCTTCCTCACCGCCTACGCCTACTACGCCGACTGGCACGCCAGCCGCGCCCTGGCCATCGCGCTGCCGCCGGATCACTGGCAGCGCGTGCTCGACCTCTACGCCAAGCAGGCAGGTGCCACGCCGCTGTTGCAGCGGGCCCTGATCCTCGGCTTCGCCCGCGACATGGAGCTGCCGGTGGCGAGCCTGGTGGAAGGGCTGCTAGCCGATCTGGCCACTGCGGGCGAGGGGCAGGGTGGCGAGGAGATGGACGATCCCCAGGGCAGCCTGATCATGGCGGCGCCGGATTCGCCCCTGGGCCTGGCCGTCGCGCGGGTGCTTGCCGCCGACCTGGCGCGCAAGACCAAGGTTGCCCTGCCGGCGGCCTTCAGCGCTCAGGTGGAGGGCGCACGCCAACGGCTGGACGCCAGCGATTACCCGCTCGCCGAAGCCGTACGTCTCCAACAGGCGCCGGACGCCGCTCGGGCGCGCGACCTGCTGCAACGGCTGGCCCCGGAACATTCGACCCTGGAGCGGGCCCTGGTCCTGACCTGGCTGCGTCGGAGCCTGGAGCGCGCGCCCACGGCGACTGTCCTGGAGCCGGGCGCAGGTTGGCGCAAGGAGCAGGGCGCCACCGGCTCCACCTTCTGGCGCTGGCAGGGCGAAGGGCTCCCGGCCGCACTGGACATCGCCGATGCGCAGGGAAGCCCGCTGAGCGCGACCCTGAGTTTCGCCAGCGCCCAGCCGGCACAGGGCGGTCTGCCGGTTGCGCTCAAGCGCCGCCTCCTGCGGCTGGTGCCGGGCGAGGAAGCCTTCAGCTTCAGTGTCGAGGAAGTGGGCGACGAGCCGCTGTCCAGCGACGAGCTGTACCTGGATGAACTGACCCTGACTACGGACGACGAACGTGCGTTGCGCTACGGCCTGCTGGAAGTGCCGCTGCCGCCAGGCGCCGATGTCGAGCGGACCACCTGGGGCATCACCGTCAGCGGTCTGGGCGGCGCGGAAGCGGCGCCGTTGGAAAAGGCCCGCCACGAGCCCGGCCAACTGCGTTACGCGGTACCGCTGGACAGCCTGCAAGGCACGGTCACGCTGCGTCATCTGGTGCGCTTCTCGCAGAAAGGCGAGTTCGCCCTGCCGCCGGCGCGCTACTTCCGCATGTACGCGCCGCAGGACCAGGCCCTGGAGGCACAACCGGCCCTTGCGGAACTGAAGGTGGAATGA	MSGFGRALALCALVLSPLAVQGEDAVEPSYYTPVSGESFFLLADSSFAADEVAQVRLEAPGRDYRRYSMEPYGGVDVRVYRIDQPLDFLKRQKNLHRVMVEGQFRGEGLSNTLAYLWDNWYRKSRRVMQRAFSYESRKQVTDEAPELRMGEAISAPTPFDPQPQFAPMAGLPLVSQFRYPLWDAQPIQPPKDVTLAGSSSQFTNVNPGNVYIPLGKLKPGLYLAEAIVGKYRATTVVFVSNTVAVSKIAGDDLLIWTARKHEGTPVADARLLWTDGLGVMSSGNTGADGLLRLAHASPERSYVIGEDAEGGVFVSENFYYDSEIYDTKLYAFTDRPLYRPGDWVEVKIVGREFKNSRDSVAPVAAPIRLSVLDAAGTVLQTLDLQLDGKAGSQGRFQLPENAVAGGYELRFSYRDQLYSSAFRVAEYIKPHFEIALELAKPDFRTGEAVTGQLVLLYPDGKPVADARLQLSLRAQQLSMVDNELQYLGQFPVELSSSELTTDDRGRATLELPAAEKPSRYLLTVFASDGAAYRVKTSKEILIERGAARYRLEAPRRFSAVGEAVKFSYRSERPTELKPTRYEWIRLEDRAQGGGELTGDAKGFELAFERPGTYSLTLKDAHGLILGGTGHSVSGEGVKAVAGTVEIVLDKAEYHSGDEAQALITFPEPVGDALLTLERDRVEATALLSKGGDWLTLERLNDTQYRARIPVREHFSPNLTFSVLYTKGGDYSFQNAGIKVAMPQIDIDIAADKERYQPGETVTVELATRFAGKPAPTRLTVSVVDEMIYALQPEIAPGIDQFFYHPRRNNVRTSASLSFIAYDLALPGSPSAPGRANRSERGVKVLERPRREDVDTAAWQPDLVTDADGKARFSFRMPDSLTRWRITVRAIDEAGQVGQKKQFIRSEKPLYLKWSGPTRFRAGDKPSLGMFAFNQGETTGKAVLVVRYAGQEQRREVSLEKGVNYLALPAVALGAGELVAELETDGQVVDRLAVDLQVDGQGWADRQTLRLDLMAGANPLNLPADARDIRLSLDNSADALFSSRLDDLLAYPYGCVEQTASRLLPLSLAYPTLARGEARIGDRLRLIMQNSRLRLVHMAGPEAAFSWWGDGGVENAFLTAYAYYADWHASRALAIALPPDHWQRVLDLYAKQAGATPLLQRALILGFARDMELPVASLVEGLLADLATAGEGQGGEEMDDPQGSLIMAAPDSPLGLAVARVLAADLARKTKVALPAAFSAQVEGARQRLDASDYPLAEAVRLQQAPDAARARDLLQRLAPEHSTLERALVLTWLRRSLERAPTATVLEPGAGWRKEQGATGSTFWRWQGEGLPAALDIADAQGSPLSATLSFASAQPAQGGLPVALKRRLLRLVPGEEAFSFSVEEVGDEPLSSDELYLDELTLTTDDERALRYGLLEVPLPPGADVERTTWGITVSGLGGAEAAPLEKARHEPGQLRYAVPLDSLQGTVTLRHLVRFSQKGEFALPPARYFRMYAPQDQALEAQPALAELKVE				NA	NA	NA	NA	NA
BMS010_04352	1647			hypothetical protein	ATGCCCCTGCGCTGGCTGCTGCCGTTGCTGATGTCCCTGCCTCTGCTCGCCGAGGCGGGGCCGGCGCCGTTGCAACTGGCGTGGCGTGGCGGGCAGGGGGATGAACTGCTGCAACTGGGGGCGAACGGCGTCATGGCGCGCGGGCCGCTGCCGGCGACCCTGGAGACGCCCCTGGGCAGCCTGTGGAAGCTGTTCGCCTTCGCCTATCTGGAAGATACCGGCCAGCCCGAGCGGACCTACACCTGCACCGGCCAGGACCGCGACGAGGTGTACTGCTGCGATCCGGGCGAACGCATTGCGCGCGACGAGGCGCTGGTCAAGTCCTGCGGGCTCTACTTCCAGCCGCAGCGCCTGGGGTTGGATGGAGCGCTCTGGCGCGACTACTGGCATGCGCGTGGGGCACCGGATTGGCTGGCTGACCTGGGCCGCCTGCAACCGCAGACCCGTGTGTCCGTGGCGGAGCTGCTCGACAGCCTTGCCCACCTGCCGGCCCAGGCCGAGGCGCGTGCGGTGCTGCTCGACGTGACGCTGAACGGTAGCGACGGAGCGGCGGTCGGCTCCCTGGGCGGACGTCTGCGGGTGAAGACCTGGAGCTGGCTGGCCGACGGTGATGCCCAGGCGCGCCAGGGTGGCTTCGCTGGTTGGCTGGCCGATGGTTCGCCGATCTGGCTGGGCGGTTCCGGGACCAGCCAGAGCATCCTGAAACGCCATGCCGAACTGCTGGGGCAGGTCTTGCCGACCTCATGGCCGAGCGAGCCGGGCGGCTGTGTCGAGGTGAACCTGTTCAGCCGCTATCCGCTGCGCCAGTTGCGCACGGCGGAAGGTCGCGTGGCGGAACCCGGCCGCCTGCAAGGGCGTTACGAGGCGGAATTCGAGAACGGCAGCCGGCTCGCCCTGGAAAGTGCCGGCGAGCTGGTGCTGAGCCGCGAGCAGGCGCGATGGCGGCTCACCGCGCGTCTGTCGCGCGAGGAATATGTCGCCCGGGTCCTCGACCGCGAGGCCTCCGCGCAACCGGAAGAGGCGGCCAAGGCATTGGCCGTGGCGATCCGCAGCTACCTGCAACAGCAGGCCGAGCGCCGGGGCGAATGCCTGGCCATCGACGACAGCAGCGCCAGCCAGCGGGTCGCGCCGCGCCCGGCCAGCCCCGCGGCACGGGCCATCGCCGCCTGGACGGCCGATCTGGTGCTGGCCGGCGGCCCGGTCACCTATCACCTGGATACGCCGGGGCCATCGCGCCTGGCCTGGACCGAGGCCGTGGCGCAGGCCGGTGCGGGGCTGCGCTACGACGCGATCTTGGCGCGGGCCTTCCCCTCAGCCAGCCTGAGCCGTTGGGACAACCCGGTCTCTGCCTGCCAGGCGCTGCCCGAGGCGGAGGATTGGCTGCGTCGCCAGCGGCGTGCCTGGCGCGAGCGTCTGGACGGCGAACCCGGCTATTTCGAACTCCCGCAATTCGCGGTGTGCCGGCTGGCAGCGGGGCGCCCCCACGTCGACCGCGCCCGCCAGCGCATCTTCGTGCGTGGACTGCACAGCCTGCAGGACCGCCTGGACCTGACCCACGAATACCTGCACCTCGCCTTCGAGGCCCACCCCAACGGCCAGGACGAGGACTATGTCGAACACCTCGCCCGCCAACTGCTTCTGGAATGA	MPLRWLLPLLMSLPLLAEAGPAPLQLAWRGGQGDELLQLGANGVMARGPLPATLETPLGSLWKLFAFAYLEDTGQPERTYTCTGQDRDEVYCCDPGERIARDEALVKSCGLYFQPQRLGLDGALWRDYWHARGAPDWLADLGRLQPQTRVSVAELLDSLAHLPAQAEARAVLLDVTLNGSDGAAVGSLGGRLRVKTWSWLADGDAQARQGGFAGWLADGSPIWLGGSGTSQSILKRHAELLGQVLPTSWPSEPGGCVEVNLFSRYPLRQLRTAEGRVAEPGRLQGRYEAEFENGSRLALESAGELVLSREQARWRLTARLSREEYVARVLDREASAQPEEAAKALAVAIRSYLQQQAERRGECLAIDDSSASQRVAPRPASPAARAIAAWTADLVLAGGPVTYHLDTPGPSRLAWTEAVAQAGAGLRYDAILARAFPSASLSRWDNPVSACQALPEAEDWLRRQRRAWRERLDGEPGYFELPQFAVCRLAAGRPHVDRARQRIFVRGLHSLQDRLDLTHEYLHLAFEAHPNGQDEDYVEHLARQLLLE				NA	NA	NA	NA	NA
BMS010_04353	807			hypothetical protein	ATGCGTCGTCATCTTTTCTCCCCCGTGCTTCTGGCTTGCCTGCTGCCATTGAGTGCTTCGCAAGCCGCCGAGGGGATACGCCTCGATACCCCGCGCTCCGGCTGGCGCCAGGGCTCCGGGGATGGCGCGCACTTCATGCAGGAGGTGAACTATCCGGCGTCTTCGGTGAACAGCGCGGCCGACCAGGCGGAAACCGCGCGGATCAAGGGGGCGATGCTGGAGCGGCCGAAGGATGCGTCGAAGCCGGCCCGGCTGATCGTCAATGGTGTGGCGATGCCGCTGAAGGTCCAGGAGGACGGCAGCTTCGACCGCCCGTTCGTGTTCCCTTCCGGCAGCAACAACGTGGAAGTGCGCAGCCAGGATGGCCAGCAGCGCCGCCGCGTGCAGTTCTACAACCTGAGCAGCGGCGAGACGCCGGCCAAGCTACGCGTGGTGCTGTCCTGGGACAGCGACAACACCGACCTCGACCTGCATCTGGTAACGCCCGACGGCGGGCACGTCTGGTACGGCGAGCGCTCCCTGGCCAACGGCGCCGTGCTGGATGTGGACGTCACCACCGGCTTCGGCCCGGAGATGATCGCCTCGCCGACGCCGCTCAAGGGCCAGTACCTGATCTACGTGAACTACTACGGCGGCGGCTACAACCGCGATGCGGACGGCGCGGAACAGGCCGGTCAGGCGCTGACCACCGCCCAGGTGACCTTGATCAGCGAAGAGGGCACGCCGGACGAGAAGCAGGAAACCTTCCTCATCCCCATGCGTGCCCCCGGCGAGCTGATGCTGGTCAAGCGCTTCAGCTATCCCTGA	MRRHLFSPVLLACLLPLSASQAAEGIRLDTPRSGWRQGSGDGAHFMQEVNYPASSVNSAADQAETARIKGAMLERPKDASKPARLIVNGVAMPLKVQEDGSFDRPFVFPSGSNNVEVRSQDGQQRRRVQFYNLSSGETPAKLRVVLSWDSDNTDLDLHLVTPDGGHVWYGERSLANGAVLDVDVTTGFGPEMIASPTPLKGQYLIYVNYYGGGYNRDADGAEQAGQALTTAQVTLISEEGTPDEKQETFLIPMRAPGELMLVKRFSYP				NA	NA	NA	NA	NA
BMS010_04354	387			hypothetical protein	ATGAGCGAAAACCGCGAACAGGGCCTGCAAGTCCGCCGCGAGGTGATGGGCGAGGCCTTCGTCGAGCGCGCCATGGGCTCGGCCACCGCGTTCACCCAACCGTTGCAGGACTTCGTCAACGAGCATGCCTGGGGCGGCGTCTGGACCCGTGAAGGGTTGCCGCGCAAGACCCGCAGCCTGATCACCCTGGCCGCGCTCACCGCCCTGAAATGCCCGCAGGAACTGAAGGGCCACGTGCGCGGCGCGCTGAACAATGGCTGCACGCCGGAAGAAATCCGCGAAGCCCTGCTGCACTGCGCCGTCTACGCCGGCGTACCGGCCGCCATCGACGCCTTCCGCGCCGCCCAGGAAGTCGTCGAAGCCTGGCAGGCCGAACAGAAAGCCTGA	MSENREQGLQVRREVMGEAFVERAMGSATAFTQPLQDFVNEHAWGGVWTREGLPRKTRSLITLAALTALKCPQELKGHVRGALNNGCTPEEIREALLHCAVYAGVPAAIDAFRAAQEVVEAWQAEQKA	PGPT0005005_2991	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005005-pcaC-K01607	NA	NA
BMS010_04355	1089			hypothetical protein	ATGACGTTGATGACTTTTGTCTACCTGATCGCCGGACTCGTCCTGCTGGTAGCCGGCGCAGAGGTTCTGGTACGCGGTGCGGCGCGGCTGGCGGCGATTTTCGGTATCCCGCCCCTGGTGATCGGCCTCACCGTGGTGGCCTTCGGCACCAGCGCACCGGAAACGGCCGTGAGCGTGCAGGCGGCGCTGAACGGCAGCGGCGATATCGCCATCGGCAACGTACTGGGCAGCAACATCGCCAACATCCTGCTGATTCTTGGCCTGTCGGCGATCATCGCCCCGCTCGTCGTCTCCCGGCAGTTGATCCGCCTGGACGTGCCGCTGATGATCGGCGCCAGCCTGGTCACCTTCGCCCTGGCCTGGGACGGCGAACTGAGCCGCCTCGATGGCGCCCTGCTGTTCAGCGGCGTACTGGCCTACACGACCTTCCTCATCATCAGCAGCCGTCGCGACAAGGCCGCCGGCAGCGGCGACGAGTTCGCCGAAGAGTTCGGCCTGCACGAACAACCCAAGCGCTTCGCCTGGCTGGTCAATCTGTTCCTGGTGATCGGCGGCCTCGTCCTGCTGGTGGCCGGCTCGAACTTCCTGGTCGAAGGCGCCGTCTCCCTGGCCCGCGCCCTGGGCCTGTCCGAACTGGTGATCGGCCTGACGGTGATCGCAATCGGCACCTCGCTGCCGGAGCTGGCGACCTCCATCCTCGCTGCCCTCAAGGGCGAGCGCGACATCGCCGTGGGCAACGTGGTCGGCAGCAACATCTTCAACCTGCTCTGCGTGCTCGGCCTTGCCTCGCTGGTCTCACCGAAGGCGATTTCCGTTTCGCCGAATGCCCTGGCCTTCGACTTCCCGGTGATGATCGCGGTGGCCGTGGCCTGCCTGCCGATCTTCTTCTCCGGCTACCGGATCAACCGCTGGGAAGGCCTGCTGTTCTTCGGCTATTACCTGGCCTACACGCTGTACCTAGTGCTGTTCGCCACCGGCGCGCCGTTGATGAGCGAATTCCGCGCCGGCATGATCGGCTTCGTTCTGCCGCTGACCGGCCTGACCCTGGCCGTGATCGCCGCGCGGTCCTGGCATCTGCAACGTCGTTGA	MTLMTFVYLIAGLVLLVAGAEVLVRGAARLAAIFGIPPLVIGLTVVAFGTSAPETAVSVQAALNGSGDIAIGNVLGSNIANILLILGLSAIIAPLVVSRQLIRLDVPLMIGASLVTFALAWDGELSRLDGALLFSGVLAYTTFLIISSRRDKAAGSGDEFAEEFGLHEQPKRFAWLVNLFLVIGGLVLLVAGSNFLVEGAVSLARALGLSELVIGLTVIAIGTSLPELATSILAALKGERDIAVGNVVGSNIFNLLCVLGLASLVSPKAISVSPNALAFDFPVMIAVAVACLPIFFSGYRINRWEGLLFFGYYLAYTLYLVLFATGAPLMSEFRAGMIGFVLPLTGLTLAVIAARSWHLQRR	PGPT0014400_346	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0014400-yrbG-K07301	NA	NA
BMS010_04356	414	rlpA_2		Endolytic peptidoglycan transglycosylase RlpA	ATGCGTCTGAGCCTCGCCCGGCCCCGCTGGGTATCCGCACTGTTCGTATCGTCCCTGCTGCTCGGCGGTTGCGCCGGTCTTCGCCCCGGCGGCGAGGAGGAACGCATCGATCCCTCCGGCTACCGCGCCGAAGGCAAGGCTTCCTATTACGGTTCCCGTCACCATGGCCGACGCACGGCCAGCGGCGAACGCTTCGACCAGAACGCCCTGACCGCCGCCCACCGGACGCTGCCGTTCGGTACCCGGGTCCGGGTCACCAACCTGAACAATGCCCGCACCGTGGTGGTCCGTATCAATGATCGCGGCCCCTACGGCCGTGGACGCATCATCGATCTCTCGTTCAAGGCCGCCCAGCAACTGGACATGATCCGCACCGGCATCGTACCCGTCCGCGTCGAGAGCCTGGTCGACTGA	MRLSLARPRWVSALFVSSLLLGGCAGLRPGGEEERIDPSGYRAEGKASYYGSRHHGRRTASGERFDQNALTAAHRTLPFGTRVRVTNLNNARTVVVRINDRGPYGRGRIIDLSFKAAQQLDMIRTGIVPVRVESLVD	PGPT0024465_3188	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024465-rlpA-K03642	NA	NA
BMS010_04357	1446	gatB_1	COG0064	Aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit B	ATGCAATGGGAAACCGTGATCGGGCTGGAAATCCACGCACAGCTCGCCACTCAATCGAAGATTTTCTCCGGTAGCGCCACCACCTTCGGCGCCGAACCGAATACCCAGGCCAGCCTGATCGACCTGGGCATGCCCGGCGTGCTGCCGGTGCTCAATGAAGAAGCGGTGAAGATGGCCGTGAAATTCGGCCTGGCAATCGACGCCGAGATTGGCCGCAAGAGCATCTTCGCGCGCAAGAACTACTTCTACCCGGACCTGCCCAAGGGCTACCAGATCAGCCAGTACGAGCTGCCCATTGTCGGCAAGGGCCACTTGGACATCACCCTGGAAGACGGCACCGTCAAGCGCATCGGCATCACCCGCGCGCACCTGGAAGAAGATGCCGGCAAGAGCCTGCACGAAGACTTCCACGGCATGAGCGGCATCGACCTGAACCGCGCCGGCACCCCGCTGCTGGAGATCGTCTCCGAGCCGGACATTCGCAGCGCCAAGGAAGCCGTGGCCTACGTCAAGGCGATCCATGCCCTGGTGCGCTACCTCGGCATCTGCGACGGCAACATGAACGAAGGTTCGTTGCGCTGCGACTGCAACGTCTCGGTGCGCCCCAAGGGCCAGGCCGAGTTCGGCACCCGCGCGGAGATCAAGAACGTCAACTCCTTCCGCTTCATCGAGAAGGCGATCAACCACGAAATCCAGCGCCAGATCGAATTGATCGAGGACGGCGGCAAGGTCATTCAGGAAACCCGCCTGTACGACCCGAACAAGGACCAGACCCGCTCCATGCGCGGCAAGGAAGAAGCCAACGACTACCGCTACTTCCCGGACCCTGACCTGCTGCCGGTGGTGGTCGAACAGGACTTCCTCGACAGCGTGCGCGCCACCCTGCCGGAACTGCCGCAGCAGAAGCGCGAGCGCTTCCAGGCCGAGTTCGGCCTGTCCGCCTACGACGCCAGCGTGCTGTCGGCCAGCCGCGAGATGGCCGACTACTTCGAGCAGGTCGCGGGCATCTGTGGCGACGCCAAGCTGGCGGCCAACTGGGTAATGGTCGAACTGGCCAGCCTGCTCAACAAGTCGGACCTGGAAATCGAGCAGTCGCCGGTATCCGCCGAACAACTGGGCGGCATGATCCTGCGGATCAAGGACAACACCATTTCCGGCAAGATCGCCAAGATGGTCTTCGAAGCCATGGCCAACGGCGAAGGTACGGCCGACCAGATCATCGAGGCCAAGGGCCTCAAGCAGGTCACCGACAGCGGCGCCATCGAGAGCATGCTGGACGAGGTACTGGCCGCCAATGCCGAGCAGGTCGAACAGTATCGCGCCAGCGACGAAGCCAAGCGCGGCAAGATGTTCGGCTTCTTCGTCGGCCAGGCGATGAAAGCCTCGAAAGGCAAGGCCAACCCGCAGCAGGTCAACGAACTGCTGAAGAAGAAGCTGGAAGGCTGA	MQWETVIGLEIHAQLATQSKIFSGSATTFGAEPNTQASLIDLGMPGVLPVLNEEAVKMAVKFGLAIDAEIGRKSIFARKNYFYPDLPKGYQISQYELPIVGKGHLDITLEDGTVKRIGITRAHLEEDAGKSLHEDFHGMSGIDLNRAGTPLLEIVSEPDIRSAKEAVAYVKAIHALVRYLGICDGNMNEGSLRCDCNVSVRPKGQAEFGTRAEIKNVNSFRFIEKAINHEIQRQIELIEDGGKVIQETRLYDPNKDQTRSMRGKEEANDYRYFPDPDLLPVVVEQDFLDSVRATLPELPQQKRERFQAEFGLSAYDASVLSASREMADYFEQVAGICGDAKLAANWVMVELASLLNKSDLEIEQSPVSAEQLGGMILRIKDNTISGKIAKMVFEAMANGEGTADQIIEAKGLKQVTDSGAIESMLDEVLAANAEQVEQYRASDEAKRGKMFGFFVGQAMKASKGKANPQQVNELLKKKLEG				NA	NA	NA	NA	NA
BMS010_04358	1452	gatA_2	COG0154	Glutamyl-tRNA(Gln) amidotransferase subunit A	ATGCATCAACTGACTCTGGCCGAGATCGCCCGCGGCCTCGCCGCCAAGGAATTTTCCTCCGTCGAACTGACCCGCGCGCTGCTCGCCCGCATCCATCAGCTCGACCCGCAGCTCAACGCCTTCATCAGCGTCACCGAGGACCTGGCCCTGCAACAGGCCCAGGCCGCCGACGCACGCCGCGCCGCCGGTGAGAACGGTGCCCTGCTGGGCGCACCGATCGCCCACAAGGACCTGTTCTGCACCCAGGGCGTGCGCACCAGCTGCGGCTCGAAAATCCTCGACAACTTCGTCGCCCCGTACAACGCCACCGTGGTCGAGAAGCTCGCCGCCGCCGGCGCCGTGAGCCTCGGCAAGCTGAACATGGACGAGTTCGCCATGGGCTCGGCCAACGAATCCAGCCACTACGGCCCGGTGAAGAACCCCTGGGACCTCGAGCGCGTGCCCGGCGGCTCCTCCGGCGGTTCCGCCGCGGCGGTGGCCGCGCGCCTGCTGCCGGCAGCGACCGGCACCGATACCGGTGGCTCGATCCGCCAGCCGGCGGCCCTGACCAACCTCACCGGCCTCAAGCCCACCTACGGCCGCGTCTCCCGCTGGGGCATGATTGCCTATGCCTCCAGCCTCGACCAGGGCGGCCCGCTGGCCCGTACTGCCGAGGACTGCGCGCTGATGCTGCAGGCCATGGCCGGCTTCGATCCGAAGGACTCCACCAGCGTCGACCAGCCCCTCGACGACTACCTCGGCGAGCTGAACAAGCCGCTCGACGGCCTGCGCATCGGCCTGCCCAAGGAGTATTTCGGCGCCGGCCTCGACCCGCGCATCGCCGAGATCGTCATGGCCAGTGTCGAGGAATTGAAGAAGCTCGGCGCCAGCGTCAAGGAAATCTCCCTGCCGAACATGAAGCACGCGATCCCGGCCTACTACGTGATCGCCCCGGCCGAGGCTTCCTCCAACCTGTCGCGTTTCGACGGTGTGCGCTTCGGCTACCGCTGCGCCAACCCGGAGAACCTCGAAGACCTGTACAAGCGCTCCCGCGCCGAAGGCTTCGGCGAAGAGGTCAAGCGCCGCATCATGGTCGGCACCTACGCGCTCTCCGCCGGCTACTACGATGCCTATTACCTGCAGGCGCAGAAAATCCGCCGGCTGATCAAGAACGACTTCATGGCGGCCTTCGCCGAAGTGGACGTCATTCTCGGCCCGACCACGCCGAGCCCGGCTTGGAAGCTCGGCGAGAAGAACAACGACCCGGTCGCCCAGTACCTGGAAGACATCTACACCATCACCGCCAACCTCGCCGGCCTGCCGGGGCTGTCCATGCCCGCCGGGTTCGCCGATGGGCTGCCGGTGGGCGTGCAACTGCTCGCCCCGTACTTCCAGGAAGCCCGCCTGCTCAACGTAGCGCACCGCTACCAGCAGGCGACCGATTGGCACACACGCGCTCCGGCCGGATTCTGA	MHQLTLAEIARGLAAKEFSSVELTRALLARIHQLDPQLNAFISVTEDLALQQAQAADARRAAGENGALLGAPIAHKDLFCTQGVRTSCGSKILDNFVAPYNATVVEKLAAAGAVSLGKLNMDEFAMGSANESSHYGPVKNPWDLERVPGGSSGGSAAAVAARLLPAATGTDTGGSIRQPAALTNLTGLKPTYGRVSRWGMIAYASSLDQGGPLARTAEDCALMLQAMAGFDPKDSTSVDQPLDDYLGELNKPLDGLRIGLPKEYFGAGLDPRIAEIVMASVEELKKLGASVKEISLPNMKHAIPAYYVIAPAEASSNLSRFDGVRFGYRCANPENLEDLYKRSRAEGFGEEVKRRIMVGTYALSAGYYDAYYLQAQKIRRLIKNDFMAAFAEVDVILGPTTPSPAWKLGEKNNDPVAQYLEDIYTITANLAGLPGLSMPAGFADGLPVGVQLLAPYFQEARLLNVAHRYQQATDWHTRAPAGF				NA	NA	NA	NA	NA
BMS010_04359	288	gatC_1	COG0721	Glutamyl-tRNA(Gln) amidotransferase subunit C	ATGGCGCTTGAACGCTCCGACGTGGAAAAGATCGCCCACCTCGCCCGCCTTGGGCTGAACGAAGCCGATCTGCCCCGCACCACCGAGACCCTCAACAATATTCTCGGCCTGATCGACCAGATGCAGGCGGTGGATACCGCCGGCATCGAACCCCTGGCCCACCCGCTGGAAGCCACCCAGCGCCTGCGTGCCGACGCGGTGAGCGAGGAAAACCGCCGCGACGCCTACCAGGCCATCGCCCCGGCGGTGCAAGACGGCCTCTATCTGGTTCCCAAGGTCATCGAGTAA	MALERSDVEKIAHLARLGLNEADLPRTTETLNNILGLIDQMQAVDTAGIEPLAHPLEATQRLRADAVSEENRRDAYQAIAPAVQDGLYLVPKVIE	PGPT0023460_3424	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023460-gtaC-K02435	NA	NA
BMS010_04360	1038	mreB	COG1077	Cell shape-determining protein MreB	ATGTTCAAGAAACTGCGTGGCATGTTTTCCAGCGATCTGTCGATCGACCTGGGCACTGCCAATACCCTTATTTATGTGCGCGAGCGCGGCATTGTGCTGAACGAGCCCTCCGTGGTCGCCATCCGTACCCACGGCAACCAGAAGAGTGTCGTGGCGGTCGGTACCGAAGCCAAGCGCATGCTCGGTCGTACCCCGGGCAATATTTCCGCCATCCGTCCGATGAAGGACGGCGTGATCGCCGATTTCAGCGTCTGCGAAAAGATGCTGCAGTACTTCATCAACAAGGTTCACGAGAACAGCTTCCTGCAGCCCAGCCCACGCGTGCTGATCTGCGTGCCGTGCAAGTCCACCCAGGTGGAGCGCCGTGCGATTCGTGAGTCGGCCCTCGGTGCCGGCGCCCGCGAAGTGTTCCTGATCGAAGAGCCGATGGCCGCGGCCATCGGTGCCGGCTTGCCGGTGGAAGAAGCACGTGGCTCGATGGTCGTCGATATCGGCGGCGGCACCACGGAAATCGCGCTGATCTCCTTGAACGGCGTGGTCTACGCCGAGTCCGTCCGCGTCGGCGGCGACCGCTTCGACGAAGCCATCATCACCTACGTGCGCCGCAACTACGGCAGCCTCATCGGCGAATCCACCGCCGAGCGCATCAAGCAGGAAATCGGTACCGCCTACCCGGGCGGCGAACTGCGCGAAGTCGATGTACGCGGCCGCAACCTGGCCGAAGGGGTGCCGCGCAGCTTTACCCTGAACTCCAACGAGGTGCTGGAAGCCCTGCAGGAGTCCCTGGCGACCATCGTCCAGGCGGTGAAGAGCGCCCTGGAGCAGTCGCCGCCGGAACTCGCTTCCGATATCGCCGAGCGTGGCCTGGTGCTGACCGGCGGTGGCGCGCTGCTGCGCGACCTGGACAAGCTGCTGGCCCAGGAAACCGGCCTGCCGGTGATCGTCGCCGAGGACCCGCTGACCTGCGTAGCCCGTGGCGGTGGCCGTGCCCTGGAAATGATGGACCGGCACACCATGGACCTGCTGTCCACGGAGTGA	MFKKLRGMFSSDLSIDLGTANTLIYVRERGIVLNEPSVVAIRTHGNQKSVVAVGTEAKRMLGRTPGNISAIRPMKDGVIADFSVCEKMLQYFINKVHENSFLQPSPRVLICVPCKSTQVERRAIRESALGAGAREVFLIEEPMAAAIGAGLPVEEARGSMVVDIGGGTTEIALISLNGVVYAESVRVGGDRFDEAIITYVRRNYGSLIGESTAERIKQEIGTAYPGGELREVDVRGRNLAEGVPRSFTLNSNEVLEALQESLATIVQAVKSALEQSPPELASDIAERGLVLTGGGALLRDLDKLLAQETGLPVIVAEDPLTCVARGGGRALEMMDRHTMDLLSTE	PGPT0027700_1813	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0027700-mreB-K03569	NA	NA
BMS010_04361	882	mreC	COG1792	Cell shape-determining protein MreC	ATGGTCGTGGATGCGCGTTTCGAGGCCCTGAAGCCGGTACGCAGCCAGATGGCGCTGGTGCTGACCCCCTTCTATTGGCTGGCGGACTTGCCGGTGCGGCTGTGGGATGGGGTCACCCAGCAGTTCACCAGCCGCAGCGAGTTGCTTGCCGAGAACGAGAAGCTCAAGGCCGAAGCGCTGCTGATGCAGCGGCGCCTGCAGAAGCTGGCCGCGCTCACCGAGCAGAACGTGCGTCTGCGCGAGTTGCTCAACTCCGCCGCGCTGGTCGACGAGAAGGTGCTGGTCGGCGAGTTGATCGGCGTCGATCCCAACCCGTTCACCCACCGGATTCTCATCGACAAGGGCGAGAAGGATGGCGTGTTCCTCGGCCAGCCGGTCCTGGATGCCCGGGGGTTGATGGGGCAGGTGGTGGAAGTCATGCCCTATACCGCCCGCGTGCTGCTGCTCACCGACACCACCCACAGCATTCCGGTGCAGGTGAACCGCAACGGCCTGCGGGCCATCGCCACCGGTACCGGTAACCCGGAGCGCCTGGAGCTGCGCCACGTGGCCGACACCGCCGACATCAAGGAAGGCGACCTGCTGGTCAGTTCCGGCATGGGGCAGCGGTTCCCGGCCGGCTATCCGGTGGCCACGGTGAAGGAAGTCATCCACGACTCCGGCCAGCCTTTCGCCATCGTCCGTGCGGTTCCCACCGCTGCGCTGAACCGCAGTCGCTATCTGCTGCTGGTGTTCACCGATACCCGTTCGCCGGAGCAGCGCGCCAACGACGCCGCCGAGGCGCAGGAAGAAGAAGATCGCAAGGCCGCCGGGCAGCCTCCCGCCGCTGCGGCGCAGCAGGCTCCCGAGCAGCCGGCGGCACCGGCCGAGGGAGCACAGTGA	MVVDARFEALKPVRSQMALVLTPFYWLADLPVRLWDGVTQQFTSRSELLAENEKLKAEALLMQRRLQKLAALTEQNVRLRELLNSAALVDEKVLVGELIGVDPNPFTHRILIDKGEKDGVFLGQPVLDARGLMGQVVEVMPYTARVLLLTDTTHSIPVQVNRNGLRAIATGTGNPERLELRHVADTADIKEGDLLVSSGMGQRFPAGYPVATVKEVIHDSGQPFAIVRAVPTAALNRSRYLLLVFTDTRSPEQRANDAAEAQEEEDRKAAGQPPAAAAQQAPEQPAAPAEGAQ	PGPT0025445_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-TRB_SECRETION_SYSTEM,PGPT0025445-trbJ-K20266	NA	NA
BMS010_04362	489	mreD	COG2891	Rod shape-determining protein MreD	ATGGTTGCCGTTCGTTCGAGCAATGGCTGGGTGATATGGCTCAGCTTCGCCGCCGCGCTGCTCCTCAGCGTGGCACCCATGCCGAATTTCATGGAGATCGGCCGCCCCTTGTGGGTAGCCCTGGCGCTGACCTACTGGACCCTGGCATTGCCGCACCGGGTCGGGATGACCACCGCCTGGCTGCTGGGGCTGGCCGAGGATGTCCTCTACGGCAGTCTGCTTGGGCAAAATGCCTTGATTCTCACCCTCATCACCTTCCTGGTACTGTCGCTGCACCAGCGCTTGCGCATGTTCCCGATGTGGCAGCAGAGCCTGGTACTGATGGTGGTGTTCGGCCTGGCCCAGTTGGTGCAACTGTGGCTCAATGCGTTAACCGGCAACCGCCCGCCGACCCTGGCGTTCGTGCTGCCGGCCCTGGTCAGCGCCTTGCTCTGGCCCTGGGCCTGCGTGCTCCTGCGCGGCCTTCATCAGCGTCTGAACGTCAACTGA	MVAVRSSNGWVIWLSFAAALLLSVAPMPNFMEIGRPLWVALALTYWTLALPHRVGMTTAWLLGLAEDVLYGSLLGQNALILTLITFLVLSLHQRLRMFPMWQQSLVLMVVFGLAQLVQLWLNALTGNRPPTLAFVLPALVSALLWPWACVLLRGLHQRLNVN				NA	NA	NA	NA	NA
BMS010_04363	603	yhdE_1	COG0424	dTTP/UTP pyrophosphatase	ATGGCCACGCTCTATCTGGCCTCCGCATCGCCGCGCCGGCGCGAATTGCTGGCGCAGATCGGCGTACCCTTTGTGACGCTGATCGCTTCGATAGATGAAAACCCCTTGCCCAACGAGCCGGCGAACGCCTATGTAGAGCGTCTCGCGCGCGAAAAGGCGCTTGCCGGGCTCGCCCGGGCGAACGACACGGCGGATGCCGTGGTGCTAGGTGCTGATACCGCGGTGGTGCTGGACGGGCGGATTCTCGGCAAGCCGCAGGATCGCGACGAGGCGCTGGACATGCTGCAGGCGCTGTCCGGTCGCGAGCACGAAGTCCTGACGGCGGTGGCACTGGCCAGTGAAGGGCGCTGCGAGTCACGCGTGGTGGCCAGCCGGGTCGGCTTCCGTCCGTTGAGCCAGGCCGAAGCGGAAGCCTACTGGGCGACCGGTGAGCCGCGGGACAAGGCGGGCAGCTATGGTATTCAAGGGCTGGCGGCGGTTTTCGTCAGCCATCTGCAGGGCAGCTACTCGGCGGTAGTGGGGTTGCCGCTCTGCGAAACCGCGCAATTGCTGGCCGGGTTCGGTATTCCGTGCTGGCAGTCGCAGGCGGCCGATAACAATTAG	MATLYLASASPRRRELLAQIGVPFVTLIASIDENPLPNEPANAYVERLAREKALAGLARANDTADAVVLGADTAVVLDGRILGKPQDRDEALDMLQALSGREHEVLTAVALASEGRCESRVVASRVGFRPLSQAEAEAYWATGEPRDKAGSYGIQGLAAVFVSHLQGSYSAVVGLPLCETAQLLAGFGIPCWQSQAADNN				NA	NA	NA	NA	NA
BMS010_04364	1458	rng	COG1530	Ribonuclease G	ATGAGCGAAGAAATCCTGATCAACATCACGCCGATGGAATCGCGCGTGGCGGTGGTGGAAAACGGTGTGCTGCAGGAAGTGCATGTCGAGCGCACCCAGCGGCGCGGCATCGTCGGCAACATCTACAAGGGCAAGGTCGTCCGTGTGTTGCCAGGCATGCAGGCGGCGTTCGTCGATATCGGCCTGGAGCGGGCCGCCTTCATCCATGCCTCGGAGATTTCGACCCGCGAAGGCAGCGCGGTGGAAAACATCAGCGCCCTGGTGCATGAAGGGCAGAGCCTGGTGGTGCAGGTGACCAAGGACCCGATCGGCTCCAAGGGTGCCCGCCTGACCACGCAACTGTCGATTCCCTCGCGCTACCTGGTCTACATGCCGCGCACCAGCCATGTCGGCATCTCCCTGAAGATCGAGGACGAAGGCGAGCGCGAGCGCCTCAAGCAGGTGGTGGCCGACTGCGTCAGTGCCGAGGGGATCGAGGAGAGCGGCGGTTTTATCCTGCGTACCGCCGCCGATGGTGCGCGTCCGGACGAGATTCTGGTGGACATCCGTTACCTGCGCCGGCTCTGGGACCAGATTGCCGCGCAGATGCAGAATGCCTCCGCGCCCTCGGTGATCTACGAAGACCTCAGCCTGGCCCTACGGACCCTCCGCGACTTGGTGAACCCGAAGATCGAGAAAATCCGTATCGACTCGCGGGAAACCTTCCAGAAGGTCAACCAGTTCGTCGCCGAGCTGATGCCGGAAATCGCCGACCGCCTGGAGCATTACCCCGGCGAGCGGCCGATCTTCGATCTCTACGGCGTGGAGGACGAAATCCAGAAGGCGCTGGAGCGTAAGGTCCTGCTCAAGTCCGGTGGTTACCTGATCATCGATCCGGCCGAGGCGATGACCACCATCGATGTGAACACCGGCGCCTTCGTCGGCCATCGCACCCTCGAAGAAACCATCTTCAAGACCAACCTTGAGGCGGCCACCGCCATCGCCCGCCAACTGCGCCTGCGCAACCTCGGCGGGATCATCATCATCGACTTCATCGACATGGAGGACGAGGAGCATCAGCGCCAGGTGCTGCGCACCCTGGAGAAGCAACTGGAGCGGGACCACGCCAAGACCAACATCATCGGCATCACCGAACTGGGCCTGGTGCAGATGACGCGCAAGCGCACCCGCGAAAGCCTCGAGCAGATTCTCTGCGAGCCCTGTGTCGCCTGCCAGGGACGCGGCAAGCTGAAGACGCCGGAGACCATCTGCTACGAAATCTTCCGCGAGATTCTGCGCGAGGCGCGTGCCTATCAGGCGGAAGGCTATTTGGTTCTGGCCAACCAGAAGGTGGTGGATCGCCTGCTCGACGAGGAGTCGGGAAATGTCGCCGATCTGGAAGCCTTCATTGGGCGGACCATCAAGTTCCAGGTCGAGGCCATGTATTCCCAGGAGCAATACGATGTGGTTCTGCTGTAA	MSEEILINITPMESRVAVVENGVLQEVHVERTQRRGIVGNIYKGKVVRVLPGMQAAFVDIGLERAAFIHASEISTREGSAVENISALVHEGQSLVVQVTKDPIGSKGARLTTQLSIPSRYLVYMPRTSHVGISLKIEDEGERERLKQVVADCVSAEGIEESGGFILRTAADGARPDEILVDIRYLRRLWDQIAAQMQNASAPSVIYEDLSLALRTLRDLVNPKIEKIRIDSRETFQKVNQFVAELMPEIADRLEHYPGERPIFDLYGVEDEIQKALERKVLLKSGGYLIIDPAEAMTTIDVNTGAFVGHRTLEETIFKTNLEAATAIARQLRLRNLGGIIIIDFIDMEDEEHQRQVLRTLEKQLERDHAKTNIIGITELGLVQMTRKRTRESLEQILCEPCVACQGRGKLKTPETICYEIFREILREARAYQAEGYLVLANQKVVDRLLDEESGNVADLEAFIGRTIKFQVEAMYSQEQYDVVLL				NA	NA	NA	NA	NA
BMS010_04365	3822			hypothetical protein	ATGGATCGCCTCGTACGCCTGTTGATCGCTCTGCTGCGTTTTTCCCTGGGGCTCTGTGCGCTGGGTCTGGTCCTGGCGGCGCTCTACGTGAGCCTCGGCCGCGAACTGGTGCCGCTGGTGGCGGAGTACCGGACGGAGGTGGAAGCCAAGGCCCGGGAAATCCTCGCGGCGCCGCTGCGGATCGACCGCCTGGAAGGTCGCTGGCGCGGCATGGCGCCCTTGCTGGTTGCCCATGACGTCACTGTCGGCGAGGGCAGCGATGCGGTGCGATTGGATCAGGTGCGGGTGATTCCGGATGTGCTGGGCAGTCTGCTGGCGCGGCAACCGCGTCTCGCCAGTCTGGAACTGGACGGCCTGCAACTCAGCCTGAAAGAAGAAGAGGATGGTCGCTGGCACGTAGAGGGGTTGCCGCTGCGCGAACCGGGCGAGCCGCTGGCGCCGGAGCAGGCCATTGCCCAACTGCGCAAGATTTCGCGATTGTCGCTGCTGAATAGTCAGGTCACCCTGGAACCCCGCGATCACGGCCCGCTCAGCCTCACCTACGTCAGCCTGACCTTGAGCAGCGGCGCCAGTCGGCAACGCCTGGATGGGCGGCTGCTGTTGCCGGATGGGCAGCCGGTCAGTTGGCAACTGCGGACGCGTTTGCGCCCGCAAGGATGGGCTGCCACCACGGCCGAGCTGTATCTGAGCCTGCCGCAGAGCGACTGGGCATCGTGGCTATTGCCTTCCCTGACCAAGGATTGGAAAGCCAAGACCCTGAAGGCCGGTGGCGAACTCTGGTTGAATTGGGACCAGGGGGCGGTACAGAAAGCCGTGGCGCGCCTGCATGCGCCGGAGCTGACGGGGGCCTACGCGAAGCGCGAAGCCGTGACCGTGCAGGACCTGGCGCTGACGGCCTATTTCAACCGCAACGAGCAGGGCTTCGACCTGCTCGTGGACTCCCTGGCGCTCAGCCTGGGGGACACGCGCTGGGGCGAAATGCGCCTCGGCGTGACCCGGCAGACGCCCGAGAACGAGGGCGAGTGCTGGCAGGTCAATGCCGACCGCCTGGACTTGGCCCCGCTGACCCCCTTGCTGAAGGCGCTGGCCCCGCTGCCGGAAAAGGCTGCGGACGTCATCCAGGGGCTCAAGGCTCGCGGGGCGTTGCGCAATGTTCAACTGGCCTACCGGCCCACGCGGGAGGATGCCGAACGGTTGCATTTTTCCGCCAACCTGGATCGTGTCGGCTTCGAGGCCTATGGTGGGGCACCGGCGGTGGAGAACGTCAGCGGAGGCATCGAGGGGAACCTGCAGCAGGGCGAGCTGCGGGTGGCGTCGGAGAATTTTTCGCTGCACCTCGATCACCTGTTTCCCCAGCCCTGGCAATACCGCCAGGCCAGTGGCCGGTTGCTCTGGACGCTGGACGACGAGGCGTTCACCCTGGCGGCACCCTACCTGCGGGTGGACGGGGAAGAAGGCAAGTTGGCCGGCGATTTCCTCATCCGCCTGCGGCGCGACCCGGCGGAAGAGGACTACATGGACCTGCGCGTCGGCTTGCGCGAGGGGGATGCCCGCTACACCGAGAAATACCTGCCGACTCTTTCGCCCGGGTTGTCTCCGGAGCTGGGCGCCTGGCTGAAAAGTGCGATCCGCGGCGGTGCGGTGGACGAGGGCTACTTCCAGTACCAGGGCTCCGTGAACAAGGGCGCCGAAGATACCGCCCGCAGCCTCAGCCTGTTCTTCAAGGTGCATGACGCGGAACTGGCGTTCCAGCCGGGGTGGCCCGCCTTGCGTGAGGCCCGTGGCGAGGTGTTCATCGAGGACACCGGTGTGCGTGTGCAGGCCTCCCATGGCAGGTTGCTGGACAGCCGGATCGAGATGGCGACGGCTTCCGTACCCCATGCAGGACCGGATGGCATACCGCGCCTGTTCGTCGAGGGCAGCGTAACGAGCAGCCTGGCCGATGGTTTGAAGATTCTCCAGGAGGCCCCCATCGGAACTGCCGAAACGTTCGCCGGTTGGCAAGGACAGGGCCCTCTGAACGGTGCGCTCAAGCTGGAGATTCCGCTACGCAAGGGCAACAAGCCGAAGGTGCAGGTGGATTTCGCCACGCTGGATGCCCAGCTCAGAGTTGCCCAGGCGAACCTCGATCTATCGCAATTGAGCGGCGCCTTTCGCTTCGACAGCGAGCAGGGGCTGAGCGCACCGGATATCCGTGCCCAGGTGTTCGGTCGTGCCGTACGGGGCAAGGCCGTCGCGGAAGGGCGCGGTGGGGCGGCACAGACGCGGATCGAGGCCCGTGGGCAGGTTGCCTTGAAGAGCCTGACCGACTGGCTGGCAGCCAGCCAGCCGTTGCCGTTGTCCGGTGAGTTGCCTTACCAGCTCCGCCTGACCCTCGATGGCGCCGATAGTCAACTGCGTGTCGATTCCAACCTCAATGGCCTGGCTATCGATCTGCCCGCGCCCTTCGGCAAGAAGGCCAGTGAGGTGCGCGACACCACTTGGCGGATGACCCTGCAGGGCAACGAACGGCGTTACTGGCTGGACCACGCCGAGCTGGCCAGCTTGGCCTTTGCCGCTCCGGCAGGGCAGTTGGCCGAGGGACGTGGCGAGCTGCGCCTGGGGCCGGGGGCCGCCAGTCTGCCGGGTGGCAAGGGCCTGCGTGTGCGTGGGCGGATCGACGAGCTGGACTGGTCAGCCTGGCAGACGGTGGCGAAGCAATACCGCAGCGAACAGGGCAATGCCCAGCAGTTGCTGCGTAGCGCCGACCTGAGGATTGGCCGCTTCCAGGGGTTCGGTACCGACATCACCGACCTGGGGGTGCAACTGGTACGTACCGACGCGGCGTGGCAACTGGATTTGGATAGTGCTTTGATCAAGGGCCGCGTGGGACTCCCGGACAGTGCCGAGGCACCGCTTCAGGTCGCCCTGGAGCATCTTCGACTGCCCAAGGCCGAGCCGCAGGAAGCGGAGCAGCCGGACGCCCCCGATCCCCTGGCCAATATGGACCCGCACCAGATTCCGGCGATGGACGTACGCATCGCCCAGGTTTCGCAAGGCGATGCGTTGCTGGGTGCCTGGTCGCTGAAGAGCCGACCGAACGAAAAAGGTGTGCGTTTCAGCGAGCTGAACCTCAATCTCAAGGGGCTGAAGATCCAGGGAGACGCGGGCTGGGAGGGCGTGCCCGGGAACGCCTCCAGTTGGTACAAGGGCCGTCTGGAGGGGGCGAACCTCGGCGATGTTCTGCTCGCCTGGGGGTTCGCTCCCACCGCGACCAGCGAAAAGTTCCATCTGGATGTGGATGGCCGCTGGCAGGGCTCGCCCGCCTGGGTCAGCCTGAAGCGGTTCTCCGGCAGCCTGGATGCGAGTTTGCGCAAGGGGCAGTTCGTCGAAGTGCAGGGATCGGCTTCCGCCTTGCGGGTCTTCGGTTTGCTCAATTTCAATTCCATCGGCCGCCGGTTGCGCCTGGATTTCTCCGACCTGCTCGGCAAAGGGCTGAGCTACGATCGGGTGAAGGGCGTTCTGGTGGCGAGCGAAGGCGTCTATGTCACACGTGAGCCCATCACACTTACCGGGCCATCGAGCAATCTGGAACTGGATGGCACGCTGGACATGGTCCGCGATCGTATCGACGCCAAGCTGGTGGTCACCTTGCCCGTGACCAACAACCTGCCGCTGGCCGCCCTGATCGTCGGGGCGCCAGCCATTGGCGGCGCGCTCTTCGTAGTGGACAAGCTGCTCGGCGACAAGGTGGCGCGCTTCGCCAGCGTGCAATACAAGGTCGAGGGTCCCTGGCAGGACCCGGCGATCACCTTCGACAAGCCTTTCGAGAAGCCCCGCTAG	MDRLVRLLIALLRFSLGLCALGLVLAALYVSLGRELVPLVAEYRTEVEAKAREILAAPLRIDRLEGRWRGMAPLLVAHDVTVGEGSDAVRLDQVRVIPDVLGSLLARQPRLASLELDGLQLSLKEEEDGRWHVEGLPLREPGEPLAPEQAIAQLRKISRLSLLNSQVTLEPRDHGPLSLTYVSLTLSSGASRQRLDGRLLLPDGQPVSWQLRTRLRPQGWAATTAELYLSLPQSDWASWLLPSLTKDWKAKTLKAGGELWLNWDQGAVQKAVARLHAPELTGAYAKREAVTVQDLALTAYFNRNEQGFDLLVDSLALSLGDTRWGEMRLGVTRQTPENEGECWQVNADRLDLAPLTPLLKALAPLPEKAADVIQGLKARGALRNVQLAYRPTREDAERLHFSANLDRVGFEAYGGAPAVENVSGGIEGNLQQGELRVASENFSLHLDHLFPQPWQYRQASGRLLWTLDDEAFTLAAPYLRVDGEEGKLAGDFLIRLRRDPAEEDYMDLRVGLREGDARYTEKYLPTLSPGLSPELGAWLKSAIRGGAVDEGYFQYQGSVNKGAEDTARSLSLFFKVHDAELAFQPGWPALREARGEVFIEDTGVRVQASHGRLLDSRIEMATASVPHAGPDGIPRLFVEGSVTSSLADGLKILQEAPIGTAETFAGWQGQGPLNGALKLEIPLRKGNKPKVQVDFATLDAQLRVAQANLDLSQLSGAFRFDSEQGLSAPDIRAQVFGRAVRGKAVAEGRGGAAQTRIEARGQVALKSLTDWLAASQPLPLSGELPYQLRLTLDGADSQLRVDSNLNGLAIDLPAPFGKKASEVRDTTWRMTLQGNERRYWLDHAELASLAFAAPAGQLAEGRGELRLGPGAASLPGGKGLRVRGRIDELDWSAWQTVAKQYRSEQGNAQQLLRSADLRIGRFQGFGTDITDLGVQLVRTDAAWQLDLDSALIKGRVGLPDSAEAPLQVALEHLRLPKAEPQEAEQPDAPDPLANMDPHQIPAMDVRIAQVSQGDALLGAWSLKSRPNEKGVRFSELNLNLKGLKIQGDAGWEGVPGNASSWYKGRLEGANLGDVLLAWGFAPTATSEKFHLDVDGRWQGSPAWVSLKRFSGSLDASLRKGQFVEVQGSASALRVFGLLNFNSIGRRLRLDFSDLLGKGLSYDRVKGVLVASEGVYVTREPITLTGPSSNLELDGTLDMVRDRIDAKLVVTLPVTNNLPLAALIVGAPAIGGALFVVDKLLGDKVARFASVQYKVEGPWQDPAITFDKPFEKPR				NA	NA	NA	NA	NA
BMS010_04366	852	nit1_2		Deaminated glutathione amidase	ATGTCCCTTGCCGTGATTCAAATGGTCAGCCAGAACGACGTCCTGGCCAATCTGGCTACCGCTCGTCGCTTGCTCGAGCAGGCCGCCGAAGGGGGCGCCCGCCTGGCGGTGCTGCCGGAAAACTTCGCTGCCATGGGGCATCGGGACCTGGCCGGCATCGGTCGAGCCGAGGCCGAAGGCCGGGGGCCGATACTGCCCTGGTTGAAACAGGTCGCTCGAGACCTAAAGTTATGGATAGTGGCCGGCACCTTGCCGCTGCCGCCGGACGATCGTCCCGACGCCCGTGCGCATGCCTGCTCGCTGCTGGTCGATGAGCACGGCGAACGGGTGGCGCGCTACGACAAGCTGCATCTGTTCGACGTGGACGTTGCCGACAACCGGGGGCGTTATCGGGAGTCTGACGATTATTCCCATGGCAGTCGCCTGGTGGTGGCCGACACACCGGAGGGCCGATTGGGCATGACGGTCTGCTATGACCTGCGCTTTCCCGAGCTTTACGGGGCATTGCGCGATGCCGGAGCCGAGCTGATCAGCGCGCCTTCGGCCTTTACCTCGGTGACCGGCGAAGCGCACTGGGAAGTGCTGGTGCGTGCCCGGGCCATCGAGACCCAGTGCTATCTGCTGGCGGCGGCCCAGGGCGGAACCCATCCGGGGCCGCGGGCCACGTATGGCCATTCGGCCATCGTCGATCCATGGGGGCGTGTGCTGGCCGAGCAAGACCAAGGCGAGGCGTTTTTGTTGGCCGACAGGGATGCCGCCGAGCAGGCGGCGATACGCCAGCGTATGCCGGTGCGCGATCACCGTCGTTTTTCTGTGTCGACCGTGGTGCGGTCGACTTCGGAGTTGTTATGA	MSLAVIQMVSQNDVLANLATARRLLEQAAEGGARLAVLPENFAAMGHRDLAGIGRAEAEGRGPILPWLKQVARDLKLWIVAGTLPLPPDDRPDARAHACSLLVDEHGERVARYDKLHLFDVDVADNRGRYRESDDYSHGSRLVVADTPEGRLGMTVCYDLRFPELYGALRDAGAELISAPSAFTSVTGEAHWEVLVRARAIETQCYLLAAAQGGTHPGPRATYGHSAIVDPWGRVLAEQDQGEAFLLADRDAAEQAAIRQRMPVRDHRRFSVSTVVRSTSELL	PGPT0000835_1181	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRP-DEPENDENT_PATHWAY_3,PGPT0000835-nitA|nitB|nitR|nit1-K01501	NA	NA
BMS010_04367	1443	tldD_2	COG0312	Metalloprotease TldD	ATGAGCGATCTGCTGTTACCCGTAAGCGAACACCTGCTGGCTCCTGGCGGGCTGAGCATCGACCAACTACCGTCGCTGCTCGGCGAACTGGCGGGTCCCGGCATCGATGCCGCCGACCTGTATTTCCAGAGCCAGGTCTCCGAGTCCTGGGTACTCGAAGACGGCATCGTCAAGGAAGGAAGCTTCCACCTCGACCAGGGTGTCGGTGTACGTGCCCAGTCGGGTGAAAAGACTGGTTTCGCCTACAGCAATGCGATCACCGCGCAGGCGCTGAGTGACGCCGCCCGCGCCGCTCGGTCCATCGCCCGGGCGGGGCAGGAAGGGCGCGTTCAAGTCTTCTCCACACCGACGGTGACGCGCCTGTACGGCCAGGACAACCCACTGGACGTGATCAGCCGGGCGGAAAAGGTCGAGTTGCTGCAACGGGTCGACGCGGCGACCCGAGCGCTGGACCCTCGGATCAAGCAGGTCACGGTGAGCCTGGCGGGCGTCTGGGATCGCATCCTGGTTGCGGCCAACGACGGCAGCCTGGCCGCGGACATCCGGCCGCTGGTGCGTTTCAACGTCAGTGTGATCGTCGAGCAGAACGGCCGTCGCGAGCGTGGCGGTCAGGGCGGCGGCGGACGGAGCGACTACCGCTATTTCCTCAGCGAAGACCGCGCCATGGGTTATGCCCGTGAAGCGCTGCGGCAGGCCTTGGTGAACCTCGAGTCGGTACCGGCGCCGGCGGGTACCTTGCCCGTGGTGCTCGGTTCCGGCTGGTCCGGCGTGCTGCTGCATGAGGCGGTCGGGCATGGCCTGGAGGGTGATTTCAATCGCAAGGGCAGTTCGGCCTATAGCGGGCGGATCGGCGAGAAAGTGGCGTCGAGCCTGTGCACCATCGTCGACGACGGCACCTTGGTTGGCCGCCGCGGCTCGCTGAGCCTGGACGACGAAGGGACGCCGACCCAGTGCACGACGCTGATCGAGAACGGCGTGTTGCGCGGCTACATGCAGGACAAGCTCAACGCCCGGCTGATGGGGGTGCCGGCTACCGGCAATGGTCGTCGCGAGTCCTATGCACACCTGCCGATGCCGCGCATGACCAACACCTACATGCTCGCCGGCGAAAGCGACCCGGAAGAAATCATCGCCTCGGTAAAGAAGGGCATCTATTGCGCCAGCCTGGGCGGCGGGCAAGTGGATATCACCAGCGGCAAGTTCGTGTTTTCCACTAGCGAGGCGTATCTGATCGAGAACGGCAAGATCACCACGCCGGTCAAGGGCGCGACTCTGATCGGCAACGGCCCCGACGTGATGAACAAGGTGTCCATGCTGGGCAACGACCTTGCGCTGGACAGCGGTGTCGGGACCTGCGGGAAGGAAGGTCAGTCGGTGCCGGTGGGCGTCGGTCAGCCGACCTTGAAGATCGACGCCATCACCGTGGGTGGGACTGGAGGGTAG	MSDLLLPVSEHLLAPGGLSIDQLPSLLGELAGPGIDAADLYFQSQVSESWVLEDGIVKEGSFHLDQGVGVRAQSGEKTGFAYSNAITAQALSDAARAARSIARAGQEGRVQVFSTPTVTRLYGQDNPLDVISRAEKVELLQRVDAATRALDPRIKQVTVSLAGVWDRILVAANDGSLAADIRPLVRFNVSVIVEQNGRRERGGQGGGGRSDYRYFLSEDRAMGYAREALRQALVNLESVPAPAGTLPVVLGSGWSGVLLHEAVGHGLEGDFNRKGSSAYSGRIGEKVASSLCTIVDDGTLVGRRGSLSLDDEGTPTQCTTLIENGVLRGYMQDKLNARLMGVPATGNGRRESYAHLPMPRMTNTYMLAGESDPEEIIASVKKGIYCASLGGGQVDITSGKFVFSTSEAYLIENGKITTPVKGATLIGNGPDVMNKVSMLGNDLALDSGVGTCGKEGQSVPVGVGQPTLKIDAITVGGTGG				NA	NA	NA	NA	NA
BMS010_04368	522			hypothetical protein	ATGCCTGAATTTCTCGACGACGACTTCTCCGAAGAGAAGAGCAAATCCCAGGTCAAGCGCGAACTGCATGCCCTGCAGGAGCTGGGCGAGCGCCTCACCACGCTCAAGCCCGACCTGCTGGCCCGCCTGCCGCTGACCGATCCATTGCGTCGTGCCCTTGCCGAAGCACCGAAGCACACCGCCCACATCGCCCGTAAAAGACACATCCAGTACATCGGCAAACTGATGCGCGACCAGGACATCGACGCCATCCTCGCCCTGGTCGAGCAGGTGGACGCATCCACCCGTCAATACAACGAGCGTTTCCATGCCCTGGAACGCTGGCGCGACCGCCTGCTGGGCGGAGACGACGAGGTCCTCGACAGCTTCGTCGCCGAATACCCCGACGCCGATCGCCAGTACCTGCGCCAACTGGTCCGCCAGGCCCAACAGGAAAGCGCCCGGAACAAACCACCGACCGCCGCCCGCAAGATCTTCAAGTACATCCGCGAACTGGACGAAACCAAACGCGGTCTGCGCTAA	MPEFLDDDFSEEKSKSQVKRELHALQELGERLTTLKPDLLARLPLTDPLRRALAEAPKHTAHIARKRHIQYIGKLMRDQDIDAILALVEQVDASTRQYNERFHALERWRDRLLGGDDEVLDSFVAEYPDADRQYLRQLVRQAQQESARNKPPTAARKIFKYIRELDETKRGLR				NA	NA	NA	NA	NA
BMS010_04369	1347	pmbA_2	COG0312	Metalloprotease PmbA	ATGAGTGAAGTAGCAGTGGTGGGACCGCAGGCGTTGCCGGAACTCGAGGCCAAGGTGGAACGCATCCTTGCCGAAGCCAAACGGCAGGGCGCCAGCGCCTGCGAGGTGTCGGTCTCGGTGGAGCAGGGATTATCCACCACCGTTCGGCAGCGTGAAGTGGAAACGGTGGAGTTCAACCGGGACCAGGGGTTTGGCATCACGCTCTATGTTGGCAAGCGCAAGGGCTCGGCGAGTACCTCGGCGAGCGGCGAGGACGCTATCCATGAAACCGTCGCGGCGGCCCTGGCGATCGCCAAGCACGCTTCGGAGGATGAGTGCGCGGGGTTGGCCGATGCGGACCTGATGGCCCGCGACCTGCCGGAGCTGGACCTGTTCCACCCCTGGCCGATCACGCCGGAGCAGGCCGTCGAACTGGCCTTGAATTGCGAGGCGGCCGCCTTCGCCACCGATTCGCGCATCCGCAATGCCGACGGCACCAGCCTGAATACCCATCAGGGTTGCCGTGTATACGGCAACAGCAACGGCTTCATCGGCGGCTATGCCAGTACCCGTCACAGCCTGAGCTGCGTAATGATCGCCGAAGGCGAAGGGCAGATGCAGCGCGACTACTGGTATGACGTCAGCCGCCAGGGCGACGCATTGGCTGACCCGGCGAGCATCGGCCGGCATGCTGCGGAACGTGCTGTCCGCCGCCTCGGTGCGCGCCCGGTGCCGACATGCGAGGTGCCCGTGCTGTTCGCAGCCGAATTGGCCACCGGCCTGTTCGGGCATTTCCTGGCTGCGATTTCCGGCGGCAACATCTACCGCAAGTCTTCCTTCCTCGAAGGTGCTTTAGGGCAGCGGCTATTCCCCGAATGGATGAAGCTGGACGAGCGCCCGCATATTCCCCGTGCGTTGGGCAGCGCCACCTTCGATGGGGATGGCCTGGCGACCTATGCCAAATCGTTCGTCGAGCAGGGCGAGCTGTTGTCCTACGTGCTCAGCACCTATTCCGGGCGCAAGCTGAACATGCCGAGCACCGCCAATGCCGGTGGTGTGCACAACCTGTTCGTCAGCCACGGCGACGAAGACCAGGCTGCCCTGATCCGCCGAATGGGCCGTGGGCTGTTTGTGACCGAGCTGATGGGGCAGGGGCTGAACCTGGTGACTGGCGATTACTCCCGCGGTGCGGCGGGCTATTGGGTCGAGAACGGAGAGATCCAGTTCCCCGTTCAGGAAGTCACCATTGCCGGAAACCTGCGTGACATGTTCCTCGGCATCGCTGCAGTGGGCAAAGATCTGGAGCGGCGCAGCAGCATCAGCACGGGCTCGGTGCTCATCGAGCGGATGACAGTCGCGGGGAGCTAA	MSEVAVVGPQALPELEAKVERILAEAKRQGASACEVSVSVEQGLSTTVRQREVETVEFNRDQGFGITLYVGKRKGSASTSASGEDAIHETVAAALAIAKHASEDECAGLADADLMARDLPELDLFHPWPITPEQAVELALNCEAAAFATDSRIRNADGTSLNTHQGCRVYGNSNGFIGGYASTRHSLSCVMIAEGEGQMQRDYWYDVSRQGDALADPASIGRHAAERAVRRLGARPVPTCEVPVLFAAELATGLFGHFLAAISGGNIYRKSSFLEGALGQRLFPEWMKLDERPHIPRALGSATFDGDGLATYAKSFVEQGELLSYVLSTYSGRKLNMPSTANAGGVHNLFVSHGDEDQAALIRRMGRGLFVTELMGQGLNLVTGDYSRGAAGYWVENGEIQFPVQEVTIAGNLRDMFLGIAAVGKDLERRSSISTGSVLIERMTVAGS				NA	NA	NA	NA	NA
BMS010_04370	273	ptsH	COG1925	Phosphocarrier protein HPr	ATGCCTGCCTGCGAAATCACCATTATCAACAAGCTCGGCCTGCACGCCCGCGCAGCCGCCAAGTTCGTTGGCGTTGCCGGACGCTACCCCTGCCAGGTCAAGGTAGGCCGCTCACCGGAAAGTCTCGTCGATGGCAAGAGCATCATGGCTGTCATGATGCTCGCCGCCGGGAAAGGGACGCCGATTCATCTCCACACCGAAGGCGAGCAGGACGACGATGCCCTGAACGCCTTGATCGAACTGATCAACAACCGCTTCGACGAAGGCGAATAA	MPACEITIINKLGLHARAAAKFVGVAGRYPCQVKVGRSPESLVDGKSIMAVMMLAAGKGTPIHLHTEGEQDDDALNALIELINNRFDEGE	PGPT0016875_1261	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE_PTS_SYSTEM_I,PGPT0016875-ptsH-K02784	NA	NA
BMS010_04371	858	rapZ	COG1660	RNase adapter protein RapZ	ATGCGCCTGATCATCGTCAGCGGACGCTCCGGTTCGGGCAAGAGCACTGCCCTCGACGTACTCGAGGACAATGGCTTCTATTGCATCGACAACCTGCCCGCCGGCTTGCTGCCTGAACTGGCCGAACGCGCGTTGCTCCATACCGAACTGCTGCATCCGCAGGTTGCGGTATCCATCGACGCACGCAACCTGCCCAGCCATCTGCAGCGTTTCCCCGACCTGTTGGAAGAGGTCCGCGCCCGCCACATTCTCTGTGACGTGCTCTATCTCGACGCCGATGACGAGACGTTGCTCAAGCGCTTCTCGGAGACCCGACGACGGCACCCACTGACCAACGAAACACGTTCCCTGGCCGAAGCCATCCATGACGAAGGCGGCCTTCTCGGCCCGATCGCCGATCTGGCCGACCTGAAGATCGATACCACCCACCTCAACCTCTACCAGCTCCGCGACACGATCAAGCTGCGCCTGCTGAACAAGCCGGAACCCGGCACGGCCTTTCTGGTCGAGTCGTTCGGATTCAAGCGCGGCATGCCGGTGGATGCGGATCTGGTATTCGATGTACGCTGCCTGCCGAATCCTTACTGGAAGCCGGAACTGCGCGACTTTTCCGGTCTAGACCAGCCAGTGATCGAGTACCTGGCGGCGCAACCCGATGTCGAAGATATGTATCAGGACATTCGCGGTTACCTGCAGAAGTGGCTGCCGCGATTCGCCGCGAGCAATCGCGCCTATGTCACCATCGCCATCGGTTGTACCGGCGGGCACCACCGCTCGGTGTACCTGGCGGAGCGGCTAGGTCAGGTCCTGAAAGAACAACTGAAGAACGTTCAGGTTCGCCACCGCGACCTCCGCTGA	MRLIIVSGRSGSGKSTALDVLEDNGFYCIDNLPAGLLPELAERALLHTELLHPQVAVSIDARNLPSHLQRFPDLLEEVRARHILCDVLYLDADDETLLKRFSETRRRHPLTNETRSLAEAIHDEGGLLGPIADLADLKIDTTHLNLYQLRDTIKLRLLNKPEPGTAFLVESFGFKRGMPVDADLVFDVRCLPNPYWKPELRDFSGLDQPVIEYLAAQPDVEDMYQDIRGYLQKWLPRFAASNRAYVTIAIGCTGGHHRSVYLAERLGQVLKEQLKNVQVRHRDLR				NA	NA	NA	NA	NA
BMS010_04372	465	ptsN_2	COG1762	Nitrogen regulatory protein	ATGATCCGACTAGAAAATATCCTGACCCCCGGCCGTTCCCTGGTGAACGTGCCGGGCGGCAGCAAGAAGCGTGTACTCGAACAGATAGCCAACCTGGTTGCTCGCGAAGTGCCCGAGCTGGATAGCCAGGATATATTCGAGAGCCTGATCGCCCGCGAAAAGCTCGGGTCCACCGGCTTCGGCAACGGCATCGCGATCCCCCATTGCCGGCTGCCCGGCTGTACCTCGCCGATCAGCGCTCTGCTCCGACTCGATTCCCCCGTGGACTTCGATGCCATCGACGGTGCCCCGGTCGATCTGTTGTTCGTCCTGCTGGTTCCCGAAGCGGCCACCGACGCACACCTCGAACTGCTCCGCCAGATCGCCAGCATGCTCGACCGTGGCGACGTACGCGAACGTCTGCGCCATGCGCCGAGCGGCGAAGCCCTGTATCAGGTGGTGGTAGACATCCAGAACGGCCGATAG	MIRLENILTPGRSLVNVPGGSKKRVLEQIANLVAREVPELDSQDIFESLIAREKLGSTGFGNGIAIPHCRLPGCTSPISALLRLDSPVDFDAIDGAPVDLLFVLLVPEAATDAHLELLRQIASMLDRGDVRERLRHAPSGEALYQVVVDIQNGR	PGPT0000135_1130	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-OTHER_NITROGEN_FIXATION_REGULATORS,PGPT0000135-ptsN-K02806	NA	NA
BMS010_04373	309	hpf_2	COG1544	Ribosome hibernation promoting factor	ATGCAAGTCAACATCAGTGGACATCAACTGGTTGTGACCGACGCCCTACGCGACTATGTCGCTGAAAAACTCAGTCGATTGGAACGCCACTTCGACCGAATCACCAACGTGCAGGTGATCATGGAGGTTGAGAAGCTGAAGCAGAAAATCGAAGCCACCCTGCACATCGCCGGCGGCGAGGTCGTCGCCAACGCCGAACATGAAGACATGTACGCGGCCATCGACCTTCTGACCGACAAACTCGATCGTCAATTGATCAAGCACAAGGAAAAGCAGCTCAATCGCCAGCAGGGTGCAATGGCCCGCTGA	MQVNISGHQLVVTDALRDYVAEKLSRLERHFDRITNVQVIMEVEKLKQKIEATLHIAGGEVVANAEHEDMYAAIDLLTDKLDRQLIKHKEKQLNRQQGAMAR				NA	NA	NA	NA	NA
BMS010_04374	1491	rpoN	COG1508	RNA polymerase sigma-54 factor	ATGAAACCATCGCTAGTCCTTAAGATGGGCCAGCAGCTGACGATGACACCTCAGCTGCAACAGGCCATCCGCCTGCTCCAACTGTCCACCCTGGATTTGCAACAGGAAATCCAGGAGGCTCTCGAATCCAACCCGATGCTCGAGCGTCAGGAGGAAGGCGACGATTTCGACAACTCCGACCCATTGGCCGATGGCGACGAGTTGCCCAATCCCGGCAGTCAGGAAGTGTCCTTCCAGGATGCCGCACCTACGGTGGAAACCCTGGAAGACGGCGAATGGCACGAGCGCATTCCCAGCGAACTGCCGGTCGACACCGCCTGGGAAGACGTCTACCAGACCAGCGCCAGCAGCCTGCCCAGCAGCGATGACGACGAGTGGGATTTCACTTCCCGCACCTCCGCGGGTGAAAGCCTGCAAAGCCACCTGCTCTGGCAATTGAATCTGGCACCGATGTCGGACACCGATCGCCTGATCGCCACCACCATCATCGATTGCATCGACAACAACGGCTATCTCGAGGAAAGCCTCGAGGAAATCCTCGAATCCTTCGACCCCGAGCTCGACATCGAACTGGACGAAGTGGAGGTGGTCCTGCACCGCATCCAGCAGTTCGAACCCGCCGGCGTGGGCGCCCGCGACCTGCGTGAATGCCTGACCCTGCAACTGCGCCAGCTCCCCGCCGACACGCCCTGGCTGGACGAAGCCAAGCGCCTGGCCAACGACTACCTCGACCTACTCGGCAGCCGCGACTACAGCCAACTGATGCGGCGCATGAAGCTCAAGGAAGACGAGCTGCGCCAGGTCATCGAACTGATCCAGAGCCTCAACCCGCGCCCCGGTTCGCAGATCGAGGCCAGCGAGCCCGAATATGTCGTGCCCGACGTGGTGGTGCGCAAGCACAACGACCGCTGGTTGGTGGAGCTGAACCAGGAGGCGGTGCCGCGCCTGCGGGTCAATCCTCATTACGCCGGTTTCGTCCGTCGCGCCGACTCCAGCGCCGACAACACCTTCATGCGCAATCAGTTGCAGGAGGCGCGCTGGTTCATCAAGAGCCTGCAGAGCCGCAACGAAACCCTGATGAAGGTGGCGACCCAGATCGTCGAACACCAGCGCGGCTTCCTCGAATACGGCGAAGAAGCGATGAAGCCTCTGGTCCTGCACGACATCGCCGAAGCGGTGGGCATGCACGAGTCGACCATTTCCCGGGTGACCACCCAGAAGTTCATGCATACCCCGCGCGGGATCTACGAACTGAAGTACTTTTTCTCCAGCCACGTCAGCACCTCCGAAGGCGGCGAATGCTCCTCCACGGCGATCCGGGCGATCATCAAGAAACTGGTCGCGGCGGAAAATCCGAAAAAGCCGTTGAGCGACAGCAAGATCGCTGGTTTACTGGAGGCACAGGGCATTCAAGTAGCCCGTCGCACGGTCGCCAAGTACCGCGAGTCGCTCGGGATAGCCCCCTCCAGCGAACGCAAGCGATTGATGTGA	MKPSLVLKMGQQLTMTPQLQQAIRLLQLSTLDLQQEIQEALESNPMLERQEEGDDFDNSDPLADGDELPNPGSQEVSFQDAAPTVETLEDGEWHERIPSELPVDTAWEDVYQTSASSLPSSDDDEWDFTSRTSAGESLQSHLLWQLNLAPMSDTDRLIATTIIDCIDNNGYLEESLEEILESFDPELDIELDEVEVVLHRIQQFEPAGVGARDLRECLTLQLRQLPADTPWLDEAKRLANDYLDLLGSRDYSQLMRRMKLKEDELRQVIELIQSLNPRPGSQIEASEPEYVVPDVVVRKHNDRWLVELNQEAVPRLRVNPHYAGFVRRADSSADNTFMRNQLQEARWFIKSLQSRNETLMKVATQIVEHQRGFLEYGEEAMKPLVLHDIAEAVGMHESTISRVTTQKFMHTPRGIYELKYFFSSHVSTSEGGECSSTAIRAIIKKLVAAENPKKPLSDSKIAGLLEAQGIQVARRTVAKYRESLGIAPSSERKRLM	PGPT0000795_775	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000795-ntrA|rpoN-K03092	NA	NA
BMS010_04375	726	lptB_4	COG1137	Lipopolysaccharide export system ATP-binding protein LptB	ATGGCCACCCTGAAAGCCCAGCACCTGGCCAAGAGCTACAAGGGCCGCCAGGTCGTCCGCGACGTCAGCCTGTCCATCGACAGCGGCCAGATCGTCGGCCTGCTCGGCCCCAACGGCGCCGGCAAGACCACTTGCTTCTACATGATCGTCGGCTTGGTCCAGGCCGATCAGGGGCGTATCCTGATCGACGATCGCGACGTCAGCCACCAGCCGATGCATGGCCGCGCCCGTGCCGGCATCGGCTATCTGCCGCAGGAAGCCTCGATCTTCCGCAAGCTCAGCGTGGCCGACAATATCATGGCGATCCTGGAAACCCGCAAGGACCTCGATCGCGCCGGCCGCCAGCAGGCCCTGGAAGCGCTGCTGCAGGAATTCCACATCAGTCATATCCGCGACAGCCTCGGCATGAGCCTGTCGGGCGGCGAGCGGCGCCGAGTGGAAATCGCCCGGGCGCTGGCCACCTCACCCAAGTTCATCCTGCTCGACGAACCTTTTGCCGGCGTGGACCCGATTTCCGTGGGCGATATCAAGCAAATCATCCACCACCTGAAGGGCAAGGGCATTGGCGTGTTGATCACCGACCATAATGTCCGCGAAACGCTGGATATCTGCGAAACGGCCTATATCGTCAACGACGGCCAGTTGATCGCCGAAGGCGATGCCGAGACAATCCTGGCCAACCAGTTGGTCAAGGAAGTCTACCTCGGCCACGAGTTCCGCCTGTAG	MATLKAQHLAKSYKGRQVVRDVSLSIDSGQIVGLLGPNGAGKTTCFYMIVGLVQADQGRILIDDRDVSHQPMHGRARAGIGYLPQEASIFRKLSVADNIMAILETRKDLDRAGRQQALEALLQEFHISHIRDSLGMSLSGGERRRVEIARALATSPKFILLDEPFAGVDPISVGDIKQIIHHLKGKGIGVLITDHNVRETLDICETAYIVNDGQLIAEGDAETILANQLVKEVYLGHEFRL	PGPT0023300_2317	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023300-lptB-K06861	NA	NA
BMS010_04376	546	lptA_2	COG1934	Lipopolysaccharide export system protein LptA	ATGAGGTTCGTTAACCCCCTCCCCCTTCTGCTCAGCTTGAGCGCCGCGCTGGGAAGCGTGAGCGCATGGGCATTGCCCAGCGACCGGGACCAACCGATCCGCGTCCAGGCCGATAGCGCCGAGCTCGACGACAAGCAGGGCGTAGCCGTCTATCGCGGCGACGTCGTGATCACCCAGGGCACCCTGAAGATCACCGGCAACACGGTAACCATCACGCAGAACAAGAACGGCGACATCGAAGTCTTCACGGCTGTCGGCAAGCCCGCGTATTACGAGCAGAAGCCGGCGGTGGACAAGGATATCGTCAAGGCCTACGGCCTGACCATCCAGTACTTCGCCGCCAACGAGCGCATCGTCCTGCTCGACCAGGCCAAGGTCATCCAGGAAGGCAACACCTTCGAAGGCGAAAAGATCGTCTATGACACCCAGCGCCAGATCGTCAACGCGGGTCGCGCCAGCGGCGCCGAGGTAACGACGCCGCGCCCGCGCATCGACATGGTCATCCAGCCGAGGAAGAAGGAACAGCCTGCGGAGCAGCCCCAGTAA	MRFVNPLPLLLSLSAALGSVSAWALPSDRDQPIRVQADSAELDDKQGVAVYRGDVVITQGTLKITGNTVTITQNKNGDIEVFTAVGKPAYYEQKPAVDKDIVKAYGLTIQYFAANERIVLLDQAKVIQEGNTFEGEKIVYDTQRQIVNAGRASGAEVTTPRPRIDMVIQPRKKEQPAEQPQ	PGPT0023301_1440	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023301-lptA|yhbN-K09774	NA	NA
BMS010_04377	570	lptC		Lipopolysaccharide export system protein LptC	ATGCTGCGTAAACTGCGCTTCATCGTCCTGTTCAGCCTGATCGCGGCCCTGCTGGCCGCCGTGGGCTACTGGAACATTCGTCCGGAAAGCTTTCTGGACCGCCCCGTCGCAACCGTCGACGAAAGCGCCATCGACTTCTATGCGATCAACGCGCGCAGCGTGCAATTCCAGGAAGACGGCAAACTTCGTTACGAGATGCGCGCCGACAGGCTGGACCACGTCAAGGCCACGGACGTCACCCTGCTGAACGAGCCGGACCTGCTGCTCTATCGCGGCACCGACTTGCCCTGGCACGTGCGCAGCGACCGCGGCGAAGTCGCCCCCGAAGGCCAGGAAGTCGAGCTGATCGAAGCCGTCCGCGTCGAACGCACCGACGCCAAGGGCCGCCCGACCATTCTCACCACCAGCCGCCTGACCGTGTTCCCCGAGAAGGAATATGCGCAGACCCAGCAAGCCGTTAGAATCGAGGCCGCCAACGGGGTGACCACGGCACAGGGAATGAAAGCGTATTTGAATGATGGCAGGATGCTCCTGCTGTCCAACGTAAGAGGCCAGCATGAGGTTCGTTAA	MLRKLRFIVLFSLIAALLAAVGYWNIRPESFLDRPVATVDESAIDFYAINARSVQFQEDGKLRYEMRADRLDHVKATDVTLLNEPDLLLYRGTDLPWHVRSDRGEVAPEGQEVELIEAVRVERTDAKGRPTILTTSRLTVFPEKEYAQTQQAVRIEAANGVTTAQGMKAYLNDGRMLLLSNVRGQHEVR	PGPT0023299_1367	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023299-lptC|yrbK-K11719	NA	NA
BMS010_04378	525	kdsC	COG1778	3-deoxy-D-manno-octulosonate 8-phosphate phosphatase KdsC	ATGAGCCTCGATCTCTTGCAGCGCGCCCAGGCGATCAAACTGGCGATCTTCGACGTAGACGGCGTTCTCACCGACGGCCGTCTCTACTTCCTCACCGACGGTAGCGAATTCAAGACGTTCAACACCCTGGACGGCCACGGCATCAAGATGCTGATCAACTCCGGCGTGCGCACCGCCATCATCAGCGGACGCAAGACCCCGGTGGTCGAGCGGCGCGCGCAGAACCTCGGCATCCAGCATCTTTACCAGGGCCGGGAAGACAAACTGGCGGTACTCGACGAATTGCTCAGCGAACTCGGCCTCGGCTACGAGCAGGTCGCCTACCTCGGCGACGACCTGCCCGACCTGCCGGTGATCCGCCGCGTTGGCCTGGGCATGGCCGTAGCGAGCGCTGATGCCTTCGTTCGCCAGCACGCCCACGGCGTGACCCGGGCCCGTGGCGGCGAAGGCGCCGCACGGGAATTCTGCGAACTGATCATGCGCGCCCAAGGCAGCCTCGAAGCCGCCCAGGCAGCCTATCTGTAA	MSLDLLQRAQAIKLAIFDVDGVLTDGRLYFLTDGSEFKTFNTLDGHGIKMLINSGVRTAIISGRKTPVVERRAQNLGIQHLYQGREDKLAVLDELLSELGLGYEQVAYLGDDLPDLPVIRRVGLGMAVASADAFVRQHAHGVTRARGGEGAAREFCELIMRAQGSLEAAQAAYL	PGPT0023070_1610	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-8-AMINO-3|8-DIDEOXY_D_MANNO-OCTULOSONIC_ACID_MODIFICATION,PGPT0023070-kdsC-K03270	NA	NA
BMS010_04379	1206	kdsD_2	COG0517	Arabinose 5-phosphate isomerase KdsD	ATGCAGCCTCCCTGGCAGACGCCGCGACCCGCAATGGGGACACCGCGCCCGCCTGCCGGGCCGGCCGGACAAGCCGCGCACTATAACATCGCTGCACTTGGCGCCCCAAGGCTGGAAAGGCCTTTGTTCAGCCTGAAGACAGCTTCGCAGAAGTTCTGCACCAAGAAAGGTGAGCAAATTCGCCTTTGCCGGTATAATCGTCGCCTTTTCGTTCAGCTACAGTCGTCCGCCATGAACCAGTCCAACAGCCTGATCCAGGCCGCCCAACGCACCATCCGCCTTGAGCTCGAGGCCGTCGAGGCCCTGCTCTCCCGCATCAACGGCGATTTCGTGCGGGCTTGCGAACTGCTGCTGGCCTGCAAGGGGCGCGTCGTGGTGGTCGGCATGGGCAAGTCCGGGCACATCGGCAGCAAGATTGCGGCCACCCTGGCCAGTACCGGTACTCCCGCCTTTTTCGTACATCCGGCCGAAGCCAGCCACGGCGACATGGGCATGATCACCCGCGACGACATCGTCCTGGCCCTGTCCAACTCCGGCTCCACCGCCGAGATCGTGACTCTCCTGCCGCTGATCAAACGTCTCGGCATCACGCTTATCAGCATGACCGGCAACCCGGACTCGCCGCTGGCCAAGGCCGCGGAAGTCAATCTGGACGCCCGTGTCCCGCAGGAAGCCTGCCCGCTGAACCTGGCGCCGACCTCTTCGACGACCGTCAGCCTGGTCCTCGGCGATGCCCTGGCCATCGCGCTACTGGAAGCACGCGGCTTCACTGCCGAGGACTTCGCGTTCTCCCATCCGGGCGGCGCGCTCGGCCGCCGTCTGCTGCTCAAGGTGGAGGATGTGATGCACAGTGGTGATCGCCTGCCCCGTATCCAGCGCGGCACGTCACTGCGCGAAGCGCTGCTGGAAATGACCGAGAAAGGCCTCGGCATGACCGTGGTGCTGGAGCAGGACGGACGCCTGGCCGGTGTCTTCACCGACGGTGACCTGCGTCGCACGCTGGACCGCGGCATCGACGTCCGTCAGGCCTGCATCGACGAAGTGATGACGGTGCACGGCAAAACCATCCTCCCGGAAATGCTCGCCGCCGAGGCACTGAAAATCATGGAAGACTTCAAGATCAACGCCCTGGTGGTGACCGACAAGGACGATCGCCCGATCGGCGCCCTGAACATGCATGACCTGCTACGCGCGGGAGTCATGTAA	MQPPWQTPRPAMGTPRPPAGPAGQAAHYNIAALGAPRLERPLFSLKTASQKFCTKKGEQIRLCRYNRRLFVQLQSSAMNQSNSLIQAAQRTIRLELEAVEALLSRINGDFVRACELLLACKGRVVVVGMGKSGHIGSKIAATLASTGTPAFFVHPAEASHGDMGMITRDDIVLALSNSGSTAEIVTLLPLIKRLGITLISMTGNPDSPLAKAAEVNLDARVPQEACPLNLAPTSSTTVSLVLGDALAIALLEARGFTAEDFAFSHPGGALGRRLLLKVEDVMHSGDRLPRIQRGTSLREALLEMTEKGLGMTVVLEQDGRLAGVFTDGDLRRTLDRGIDVRQACIDEVMTVHGKTILPEMLAAEALKIMEDFKINALVVTDKDDRPIGALNMHDLLRAGVM	PGPT0023075_1778	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-8-AMINO-3|8-DIDEOXY_D_MANNO-OCTULOSONIC_ACID_MODIFICATION,PGPT0023075-kdsD|kpsF-K06041	NA	NA
BMS010_04380	810	mlaF	COG1127	Intermembrane phospholipid transport system ATP-binding protein MlaF	ATGAGCGCCGAGAACGACTATGCGGTCGAACTGAAGGGCGTGACCTTCAAGCGCGGTGCGCGCAGTATCTTCAACAACGTCGACATCCGAATCCCGCGCGGCAAGGTGACGGGGATCATGGGGCCGTCCGGCTGCGGCAAGACGACCCTGCTGCGCCTGATTGCTGCCCAGCTCAAACCATCCGCCGGCGAAGTATGGGTCAACGGACAGAACCTGCCCAGGTTGTCGCGCAGCGAATTGTTCGACATGCGCAAGCAGATGGGGGTCCTGTTCCAGAGTGGCGCCCTGTTCACCGACCTCGATGTGTTCGAGAACGTCGCCTTTCCCCTGCGGGTGCACACCAAGCTGCCGGACGAAATGATCCGCGACATCGTGTTGATGAAGTTGCAGGCGGTCGGGTTGCGGGGTGCCATCGAGTTGATGCCGGATGAGCTGTCGGGCGGCATGAAACGTCGCGTGGCGCTGGCGCGCGCTATTGCGCTGGACCCGCAGATCCTCATGTACGACGAGCCTTTCGTAGGGCAGGACCCGATCGCCATGGGCGTTCTGGTGCGCCTGATCCGCTTGCTCAACGATGCGCTGGGTATCACCAGTATCGTGGTGTCTCACGACCTCGCCGAGACGGCCAGCATTGCCGACTACCTGTTCGTGGTGGGCGATGGCCAGGTGCTCGGGCAGGGCACGCCGAAAGAATTGATGAATTCCGATAACCCGCGTATCCGCCAGTTCATGCAAGGCACGCCGGATGGCCCGGTGCCTTTCCACTATCCGGCGCCCGATTACCGCGACGATCTTCTGGGGGGGCGCTGA	MSAENDYAVELKGVTFKRGARSIFNNVDIRIPRGKVTGIMGPSGCGKTTLLRLIAAQLKPSAGEVWVNGQNLPRLSRSELFDMRKQMGVLFQSGALFTDLDVFENVAFPLRVHTKLPDEMIRDIVLMKLQAVGLRGAIELMPDELSGGMKRRVALARAIALDPQILMYDEPFVGQDPIAMGVLVRLIRLLNDALGITSIVVSHDLAETASIADYLFVVGDGQVLGQGTPKELMNSDNPRIRQFMQGTPDGPVPFHYPAPDYRDDLLGGR	PGPT0007015_1702	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_PHOSPHOLIPID|CHOLESTEROL_TRANSPORT,PGPT0007015-mlaF|linL|mkl-K02065	NA	NA
BMS010_04381	798	mlaE	COG0767	Intermembrane phospholipid transport system permease protein MlaE	ATGCGCAAGACATCTGTGCTCGAACGCATTCGCCTGCTCGGCAAGGCGGGTATCGACGTGGTCGAGGCAATGGGTCGCTCGACCCTGTTCCTATTGCATGTGCTGTTCGGCCGGGACGGTGCGGGCAACGGCTTTCAGTTGCTGGTGAAGCAACTGTATGCGGTGGGCGTGCTGTCCCTGGCGATCATCGTGGTATCCGGGATTTTCATCGGCATGGTGCTGGCGTTGCAGGGCTACAACATTCTGGTCGACTATGGCTCCGAACAGGCCGTCGGACAGATGGTGGCGCTCACGCTATTGCGTGAGCTGGGACCGGTCGTAACCGGTCTGCTGTTCGCCGGGCGCGCCGGCTCCGCGCTGACCGCCGAGATCGGCAACATGAAATCCACCGAGCAGCTTTCCAGTCTGGAGATGATCGGCGTCGATCCGCTCAAGTACGTGATCGCGCCGCGCCTGTGGGCCGGTTTCATTTCCATGCCGTTGCTGGCGATGATCTTCAGCGTGGTCGGCATCTGGGGTGGGGCCATGGTCGCGGTGGACTGGCTCGGCGTCTATGAGGGCTCGTTCTGGGCCAACATGCAGAACAGCGTCGATTTTTCCGAAGACGTGCTCAACGGCGTGATCAAAAGCATCGTCTTCGCCTTCGTCGTGACCTGGATCGCCGTGTTCCAGGGTTACGACTGCGAACCGACCTCGGAAGGGATCGGTCGCGCAACGACTCGAACCGTGGTCTACGCCTCGCTGGCCGTGCTGGGCCTGGACTTCATTCTGACCGCCTTGATGTTTGGAGACTTCTGA	MRKTSVLERIRLLGKAGIDVVEAMGRSTLFLLHVLFGRDGAGNGFQLLVKQLYAVGVLSLAIIVVSGIFIGMVLALQGYNILVDYGSEQAVGQMVALTLLRELGPVVTGLLFAGRAGSALTAEIGNMKSTEQLSSLEMIGVDPLKYVIAPRLWAGFISMPLLAMIFSVVGIWGGAMVAVDWLGVYEGSFWANMQNSVDFSEDVLNGVIKSIVFAFVVTWIAVFQGYDCEPTSEGIGRATTRTVVYASLAVLGLDFILTALMFGDF	PGPT0007010_3349	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_PHOSPHOLIPID|CHOLESTEROL_TRANSPORT,PGPT0007010-mlaE|linK-K02066	NA	NA
BMS010_04382	471	mlaD	COG1463	Intermembrane phospholipid transport system binding protein MlaD	ATGCAAATCCGCACCCTGGAAATCGGTGTCGGCCTGTTCCTCCTGGCTGGGTTGTTGGCCTTGCTGTTGCTGGCGCTGCGGGTCAGTGGCCTGTCGGTGGGCAATAACGGCGACACCTACAAGCTCTATGCATATTTCGACAACATCGCCGGTCTAACCGTCAGGGCCAAGGTCACCATGGCCGGCGTCACCATCGGAAAGGTGACGGCGATCGACCTGGATCGCGACAGCTTCACCGGTCGCGTGACCATGGAAATCGAGGAGCGTGTCGACAATCTGCCGGTGGACTCCACCGCGTCGATTCTCACCGCCGGCCTGCTCGGCGAGAAATACGTCGGCATCAGCGTAGGTGGGGAGGACGAGTTGCTGAAGGATGGCGGCACCATACAGGACACCCAGTCGGCGTTGGTGCTGGAGGACCTGATCGGCAAGTTCCTGATCAACTCGGTCAATAGAGAGCAACCTAAGTGA	MQIRTLEIGVGLFLLAGLLALLLLALRVSGLSVGNNGDTYKLYAYFDNIAGLTVRAKVTMAGVTIGKVTAIDLDRDSFTGRVTMEIEERVDNLPVDSTASILTAGLLGEKYVGISVGGEDELLKDGGTIQDTQSALVLEDLIGKFLINSVNREQPK	PGPT0007005_9491	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_PHOSPHOLIPID|CHOLESTEROL_TRANSPORT,PGPT0007005-mlaD|linM-K02067	NA	NA
BMS010_04383	648			hypothetical protein	ATGATCTCTGTTTTGCGTCGCGGCCTGTTGGTGATGCTGGCCGTTCTTCCTCTTTTCGCCGTGGCTGCGCCGAGTGCGCACCAGATCGTGCAGCAAACGACCGACGAGTTGCTCAGCGACCTGAAAGCGAACAAGGATACCTATCGCAGCAATCCCAGTGCGTTCTACGACGCACTGAACCGCATTCTTGGTCCGGTGGTGGATGCCGATGGCATTTCCCGCAGCATCATGACCGTCAAATACTCGCGGAAAGCCTCGCCGGAGCAGATGAAGCGCTTCCAGGAAAACTTCAAGCGCAGTCTGATGCAGTTCTACGGCAATGCGCTGCTGGAGTACGATAACCAGGACATCCGCGTCCTGCCGGCCAAGCAGGAAGGTGCCGACCGCACCAGCGTCGGTATGGAAGTGCGCGACAGCAAGGGGACTGTCTACCCGGTTTCCTACACGCTGGTGAAGATCGACGATCAATGGATGCTGCGTAACGTGATCATCAACGGCATCAACATCGGCAAGCTGTTCCGCGATCAGTTCGCCGATGCCATGCAGCGCAACGGCAACGACCTCGACAAGACCATCGACGGCTGGGCCGATGTGGTGGCCAAGGCCAAGAATACCGAGGAAGGCCAGAAGGCCGCCGGTCATGAGTGA	MISVLRRGLLVMLAVLPLFAVAAPSAHQIVQQTTDELLSDLKANKDTYRSNPSAFYDALNRILGPVVDADGISRSIMTVKYSRKASPEQMKRFQENFKRSLMQFYGNALLEYDNQDIRVLPAKQEGADRTSVGMEVRDSKGTVYPVSYTLVKIDDQWMLRNVIINGINIGKLFRDQFADAMQRNGNDLDKTIDGWADVVAKAKNTEEGQKAAGHE	PGPT0007670_555	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_PHOSPHOLIPID|CHOLESTEROL_TRANSPORT,PGPT0007670-mlaC-K07323	NA	NA
BMS010_04384	309			hypothetical protein	ATGAGTGAGGCGAGCGTCAGCCTGGGAGCAAACGGCGAGCTGAGACTGGCCGGCGTTCTCGATTACAGCACGGGGCCTGCGCTCCGTGCCGAAGGGCAGGCGCTGGTCCGTCGCAGCGAGTCTTCCGAAGTCGTGTTGGACTGCTCCGCCGTGGAGAAGTCCAGCAGCGTAGGGCTGGCCCTGCTGCTGGCATTCATGCGCGATGCCAAGGCGGCAGGCAAGAGCGCCAGGCTGCGTGGTCTGCCCGCGGACATGCGGCAGATTGCTCAGGTGTCCGAGTTGCTCGAACTCTTGCCGCAGGAAGCTTGA	MSEASVSLGANGELRLAGVLDYSTGPALRAEGQALVRRSESSEVVLDCSAVEKSSSVGLALLLAFMRDAKAAGKSARLRGLPADMRQIAQVSELLELLPQEA	PGPT0007675_485	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_PHOSPHOLIPID|CHOLESTEROL_TRANSPORT,PGPT0007675-mlaB-K07122	NA	NA
BMS010_04385	240	ibaG	COG5007	Acid stress protein IbaG	ATGCAGGCCGTAGAAGTGAAAGACCTCCTGGAGGCAAAAATGCCGGGAACCCAGGTAGAAGTGGAAGGGGAAGGCTGCAACTTCCAGTTGAACGTGATCAGCGACGAGTTGGCCGGCATGAGCCCGGTGAAGCGTCAGCAGCAGGTTTACAGTCACCTGGATGCCTGGATTGCCGATGGCAGCATTCATGCCGTCACCATGAAATTCTTCAGCCGCGCCGCCTGGGCCGAGCGTTCCTGA	MQAVEVKDLLEAKMPGTQVEVEGEGCNFQLNVISDELAGMSPVKRQQQVYSHLDAWIADGSIHAVTMKFFSRAAWAERS				NA	NA	NA	NA	NA
BMS010_04386	1266	murA_1	COG0766	UDP-N-acetylglucosamine 1-carboxyvinyltransferase	ATGGACAAATTGATCATTACCGGCGGAACCCGCCTCGACGGCGAAATCCGCATTTCCGGCGCGAAGAACTCCGCCCTGCCGATTCTGGCCGCCACGCTGCTGGCCGACAGCCCGGTCACCGTGTGCAACCTTCCGCACCTGCACGACATCACCACCATGATCGAGCTGTTCGGCCGCATGGGCGTGCAGCCGGTGATCGATGAGAAGCTCAGCGTCGAGGTGGATGCTACCAACATCAAGACCCTGGTCGCACCCTACGAGCTGGTGAAGACCATGCGTGCGTCGATCCTGGTGCTCGGCCCCATGGTCGCCCGTTTCGGCGAGGCCGAAGTGGCGCTGCCGGGCGGTTGCGCCATCGGCTCGCGTCCTGTGGACCTGCACATCCGCGGTCTCGAGGCGATGGGCGCGAAGATCGACGTGGAAGGCGGCTACATCAAGGCCAAGGCTCCCGCCGGCGGCCTGCGCGGCGCGCACTTCTTCTTCGATACGGTCAGCGTGACCGGCACCGAGAACATCATGATGGCCGCGACCCTGGCCAACGGCCGCAGCGTGCTGGAAAACGCCGCCCGCGAGCCGGAGGTGGTCGACCTGGCTAACTGCCTGAACGCCATGGGCGCGCAAATCCGTGGTGCCGGCACCGACACCATCATCATCGACGGCGTGAAGCGCCTGAGCGGCGCGCGTTACAGTGTCATGCCCGACCGTATCGAGACCGGCACCTACCTGGTGGCCGCCGCTGCGACCGGCGGCCGGGTCAAGGTGAAGGATTCCGATCCCACCACCCTCGAAGCCGTCCTGCTCAAGCTGGAAGAGGCGGGCGCCCAGATCGACACCGGCAGCAACTGGATCGAGCTGGATATGAAGGGCAACCGGCCCAAGGCGGTCAACCTGCGTACCGCACCCTATCCGGCATTCCCAACCGACATGCAGGCGCAGTTCATCTCCATGAACGCCATCGCCGAAGGCACCGGTGCGGTGATCGAGACCGTGTTCGAAAACCGCTTCATGCACGTCTACGAGATGAACCGCATGGGCGCGCAGATCCTGGTCGAAGGCAATACCGCCATCGTCACCGGCGTGCCGCACCTCAAGGGTGCTCCGGTCATGGCCACCGACCTGCGTGCTTCCGCCAGCCTGGTGATCGCCGGCCTGGTTGCCCAGGGCGATACGCTGATCGACCGCATCTACCATATCGATCGCGGTTACGAGTGCATCGAGGAAAAACTCCAGTTGCTCGGCGCCAAGATTCGCCGCGTGCCGGGCTAG	MDKLIITGGTRLDGEIRISGAKNSALPILAATLLADSPVTVCNLPHLHDITTMIELFGRMGVQPVIDEKLSVEVDATNIKTLVAPYELVKTMRASILVLGPMVARFGEAEVALPGGCAIGSRPVDLHIRGLEAMGAKIDVEGGYIKAKAPAGGLRGAHFFFDTVSVTGTENIMMAATLANGRSVLENAAREPEVVDLANCLNAMGAQIRGAGTDTIIIDGVKRLSGARYSVMPDRIETGTYLVAAAATGGRVKVKDSDPTTLEAVLLKLEEAGAQIDTGSNWIELDMKGNRPKAVNLRTAPYPAFPTDMQAQFISMNAIAEGTGAVIETVFENRFMHVYEMNRMGAQILVEGNTAIVTGVPHLKGAPVMATDLRASASLVIAGLVAQGDTLIDRIYHIDRGYECIEEKLQLLGAKIRRVPG	PGPT0024090_3910	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLGLUCOSAMINE_MODIFICATION,PGPT0024090-murA-K00790	NA	NA
BMS010_04387	633	hisG_2	COG0040	ATP phosphoribosyltransferase	ATGTTGACCATCGCGCTGTCCAAGGGCCGCATTCTCGACGATACCCTGCCGCTGCTGGCCGCAGCCGGTATCGAGCCGACCGAGAATCCGGAAAAGAGCCGCAAGCTGATCATCCCCACCACCCAGGAGGATGTGCAGCTGTTGATCGTTCGCGCCACCGACGTACCGACCTATGTCGAGCATGGCGCCGCCGATCTCGGTGTGGCCGGCAAGGACGTGCTGATGGAATACGGCAGCCAGGGGCTCTATGAGCCGCTGGACCTGAAGATCGCCAATTGCAAGCTGATGACCGCCGGCAAGGTAGGCGCGCCGGAACCGAAAGGGCGTCTGCGGGTGGCCACCAAGTTCGTCAACGTCGCCAAGCGTTATTACGCCGAGCAGGGCCGTCAGGTCGAGGTGATCAAGCTGTACGGCTCCATGGAACTGGCTCCGCTGGTTGGTCTCGCCGACAAGATTATCGACGTCGTGGATACCGGCAATACGCTGCGTGCCAATGGTCTCGAACCGCAGGAGCTGATTGCCACCATCAGCTCGCGACTGATCGTCAACAAGGCATCGATGAAGATGCAGCACGGGCGCATCCAGGCGCTGATCGATACCCTGCGCGAGGCCGTGGAGCGACACCGGGCCTGA	MLTIALSKGRILDDTLPLLAAAGIEPTENPEKSRKLIIPTTQEDVQLLIVRATDVPTYVEHGAADLGVAGKDVLMEYGSQGLYEPLDLKIANCKLMTAGKVGAPEPKGRLRVATKFVNVAKRYYAEQGRQVEVIKLYGSMELAPLVGLADKIIDVVDTGNTLRANGLEPQELIATISSRLIVNKASMKMQHGRIQALIDTLREAVERHRA	PGPT0017400_4010	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_RIBOSE_METABOLISM|DEGRADATION,PGPT0017400-hisG-K00765	NA	NA
BMS010_04388	1311	hisD_1	COG0141	Histidinol dehydrogenase	ATGACCGCTCCAATCACCATCCGCCGTCTCAACGCTGCCGATCCGGATTTTGCGCGTCATCTGGATCATCTGTTGTCTTGGGAGAGCGTGTCGGACGAAGCGGTCAACCAGCGCGTGCTGGATATCATCCAGGCGGTGCGCGAGCGCGGCGACGCGGCCCTGGTCGAGTTCACCCAGCGGTTCGATGGGCTCCAAGTCGCCTCCATGGCTGATCTGATCCTGCCGCGCGAACGCCTGGAACTGGCGCTGACCCGGATCACCCCGGCGCAGCGCGAGGCCCTGGAGAGCGCCGCCGCGCGGGTGCGCAGCTACCATGAGAAGCAGAAGCAGGACTCCTGGACCTACACCGAGGCCGACGGTACCGTTCTCGGTCAGCAGGTCACCCCGTTGGACCGTGCCGGCCTCTACGTGCCGGGCGGCAAGGCCTCTTATCCCTCGTCGGTGCTGATGAACGCCATTCCGGCCAAGGTCGCCGGGGTCGCCGAGGTCGTCATGGTGGTGCCGACGCCGCGTGGCGAAGTGAACGAGCTGGTGCTGGCCGCCGCCGCCATCGCCGGGGTCGACCGGGTCTTCACCATCGGTGGCGCCCAGGCCGTGGCTGCGCTGGCCTATGGCACCGAGAGCGTGCCCCAGGTGGACAAGATCGTCGGTCCGGGCAACATCTATGTGGCGACCGCCAAACGTCACGTGTTCGGCCAGGTCGGCATCGACATGATCGCCGGGCCTTCGGAAATCCTCGTCGTGTGCGACGGGCAGACCGATCCGGACTGGATCGCCATGGACCTGTTCTCCCAGGCCGAGCACGACGAGGATGCCCAGGCGATCCTGGTCAGCCCGGATGCGGAATTCCTCGACCGGGTCGCCGAGAGCATCGGCAAGCTATTGCCGACCATGGAGCGCACCGAGATCATCCGCACGTCCCTCGAAGGCCGCGGTGCCTTGATCCAGGTGGCCGACATGGCCCAGGCGATCCAGGTAGCCAACCGCATCGCGCCTGAACATCTTGAGCTATCCGTAGCCGACCCGCAGCAGTGGCTGCCGCAGATCCGCCATGCCGGTGCGATCTTCATGGGGCGCTACACCGCCGAAGCGCTGGGCGATTACTGCGCCGGACCGAACCACGTGCTGCCGACGTCGGGGACCGCCCGCTTCTCGTCGCCCTTGGGTGTCTACGACTTCCAGAAGCGCTCGTCGATCATCTTCTGTTCGGCCGATGGGGCTTCCGCATTGGGCAAGACCGCGTCGGTTCTGGCCCGTGGCGAGTCGCTGACGGCTCACGCGCGTAGCGCCGAATACCGCATCAAGAACTAG	MTAPITIRRLNAADPDFARHLDHLLSWESVSDEAVNQRVLDIIQAVRERGDAALVEFTQRFDGLQVASMADLILPRERLELALTRITPAQREALESAAARVRSYHEKQKQDSWTYTEADGTVLGQQVTPLDRAGLYVPGGKASYPSSVLMNAIPAKVAGVAEVVMVVPTPRGEVNELVLAAAAIAGVDRVFTIGGAQAVAALAYGTESVPQVDKIVGPGNIYVATAKRHVFGQVGIDMIAGPSEILVVCDGQTDPDWIAMDLFSQAEHDEDAQAILVSPDAEFLDRVAESIGKLLPTMERTEIIRTSLEGRGALIQVADMAQAIQVANRIAPEHLELSVADPQQWLPQIRHAGAIFMGRYTAEALGDYCAGPNHVLPTSGTARFSSPLGVYDFQKRSSIIFCSADGASALGKTASVLARGESLTAHARSAEYRIKN				NA	NA	NA	NA	NA
BMS010_04389	1056	hisC_5	COG0079	Histidinol-phosphate aminotransferase	ATGAGCAAATTCTGGAGCCCTTTCGTCAAGGACCTGGTGCCCTATGTGCCGGGTGAACAGCCGAAGCTGGCCAAGCTGGTCAAGCTCAATACCAACGAGAACCCCTACGGCCCCTCGCCCAAGGCGATCGCCGCCATGCAGGCCGAGCTGGGCGACAGCCTGCGCCTGTATCCCGATCCGAACGGCGAGCGGCTGAAGCAGGCCGTGGCTGATTATTACGGCGTCCAGACCAGCCAGGTCTTTGTCGGCAATGGGTCGGACGAGGTGCTGGCGCATGCCTTCCACGGCTTGTTCCAGCACGGCAAGCCGCTGCTGTTCCCGGACGTCACCTATAGCTTCTATCCGGTCTATTGCGGGCTATACGGTATCGACTACGAAGCCTTGCCGCTGGACGGGCAATTCCAGATTCGAGCCGAAGACTATGCGCGGCCGAATGGCGGGATTATCTTCCCGAACCCCAACGCACCAACCGGTTGCCTGCTGCCGTTGGAAGCCATCGAACGCATCCTGCAGGCCAACCCGGACAGCGTGGTGCTAGTGGACGAGGCCTACATCGACTTCGGTGGCGAGACGGCGATCGCACTGGTGGACCGCTATCCGAATCTGCTGGTCACCCAGACACTCTCCAAGTCGCGCTCCCTGGCCGGATTGCGGGTCGGTCTGGCGGTAGGACATGCGGACTTGATCGAGGCGCTGGAGCGGATCAAGAACAGCTTCAATTCCTACCCGCTGGACCGCATGGCGATCGCCGGCGCAGCGGCGGCTTTCGAGGATCGGGACTATTTCGAGCAGACCTGCCGGCAGGTCATCGCCAGCCGCGAGGCGGTGGTGGCCGGGTTGCAGGGCCTTGGGTTCGAGGTGTTGCCATCGGCGGCCAATTTCGTCTTCGCCTGTCATCCGGGGAGGGACGCCGCCCAGCTGGCGGCGGCACTGCGCGAGCAGGGGGTTATCGTGCGCCACTTCAAGCAGGCGCGGATCGCCCAGTTCCTGCGCATTACCATCGGTGCGCCGGAGCAGAACCAGACGCTGCTCGATGCGTTGAAAGGTCTGGTCTGA	MSKFWSPFVKDLVPYVPGEQPKLAKLVKLNTNENPYGPSPKAIAAMQAELGDSLRLYPDPNGERLKQAVADYYGVQTSQVFVGNGSDEVLAHAFHGLFQHGKPLLFPDVTYSFYPVYCGLYGIDYEALPLDGQFQIRAEDYARPNGGIIFPNPNAPTGCLLPLEAIERILQANPDSVVLVDEAYIDFGGETAIALVDRYPNLLVTQTLSKSRSLAGLRVGLAVGHADLIEALERIKNSFNSYPLDRMAIAGAAAAFEDRDYFEQTCRQVIASREAVVAGLQGLGFEVLPSAANFVFACHPGRDAAQLAAALREQGVIVRHFKQARIAQFLRITIGAPEQNQTLLDALKGLV	PGPT0020305_7169	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817	NA	NA
BMS010_04390	1152	degS	COG0265	Serine endoprotease DegS	ATGCTCAAGGCCCTGCGCTTTCTCGGTTGGCCCCTGCTGGTTGGCGTGCTGCTGGCACTCCTGATCATCCAGCGCTATCCGCAATGGGTCGGCCTCCCGCATCAGGAAGCACAGGTACGCCAGGCCCCGATTTCGCTGCTGCCCCAGCAAGGGCCGGTTTCCTATGCCCAGGCGGTCAGCCGGGCCGCACCGGCGGTGGCCAACCTCTACACAGCCAAGGTCGTCACCCGGCCGAGCCATCCCTTGTTCGAAGACCCGGTGTTCCGCCGTTTCTATGGCGAACGCAGCCTGCCGCGCCAACGCCGCATGGAGTCGAGCCTCGGTTCCGCGGTGATCATGAGCCCGGAGGGCTATCTGCTGACCAACAACCACGTCACCGCCGACGCCGACCAGATCGTGGTGGCGCTGAAGGATGGCCGTGAGACCCTGGCGCGCGTGATCGGCAGCGACCCGGAAACCGACCTGGCGGTCCTCAAGATCGACCTGGAGAATCTTCCCGCCATTACCCTCGGCAGCTCTGACAACATCAGCATCGGCGATGTCGCCCTGGCCATCGGCAACCCCTTCGGTGTGGGCCAGACCGTGACCATGGGCATCATCAGCGCCACCGGGCGTAACCAGCTCGGGCTGAACACCTACGAAGACTTCATCCAGACCGACGCCGCAATCAACCCCGGCAACTCCGGCGGCGCCCTGGTGGATGCCCGCGGCAACCTCATCGGCATCAACACGGCGATCTTTTCCAAGTCCGGCGGCTCGCAGGGCATCGGCTTCGCCATCCCCGCCAAACTGGCGATGGAAGTGATGCAGGCGATCATCGAGCACGGCCAGGTCATCCGTGGCTGGCTGGGGATCGAGGTGCAGCCGCTGACGCCGGAGCTGGCCGAATCCTTCGACATGGAAGGCCGCCCGGGTATCGTCGTCGCCGGCATCTACCGCGATGGTCCGGCGGAGCGCGCCGGCCTGCAACCAGGCGACCTGATTCTCAGCATCGACGGCGAACCCGCCAATGACGGCCGTTCATCGATGAACCAGGTAGCCAGGACACGTCCCGGCGAAGTCATCGACATCGACGTGATGCGCAACGGCAAAGAGCTGAAACTTCAGGCGGAAGTGGGCGTGCGGCCTCCCGTCAGCAGCACGCCCGAGTGA	MLKALRFLGWPLLVGVLLALLIIQRYPQWVGLPHQEAQVRQAPISLLPQQGPVSYAQAVSRAAPAVANLYTAKVVTRPSHPLFEDPVFRRFYGERSLPRQRRMESSLGSAVIMSPEGYLLTNNHVTADADQIVVALKDGRETLARVIGSDPETDLAVLKIDLENLPAITLGSSDNISIGDVALAIGNPFGVGQTVTMGIISATGRNQLGLNTYEDFIQTDAAINPGNSGGALVDARGNLIGINTAIFSKSGGSQGIGFAIPAKLAMEVMQAIIEHGQVIRGWLGIEVQPLTPELAESFDMEGRPGIVVAGIYRDGPAERAGLQPGDLILSIDGEPANDGRSSMNQVARTRPGEVIDIDVMRNGKELKLQAEVGVRPPVSSTPE	PGPT0014286_941	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS_SIGNALLING,PGPT0014286-degQ|hhoA-K04772	NA	NA
BMS010_04391	759		COG0327	GTP cyclohydrolase 1 type 2	ATGGCCATTGCGCTGAGCACCCTGGTGGAAGAAGCGGACCGCTATCTCACGGCGGCGCGCATCCAGGATTACTGCCCGAACGGGCTGCAGGTCGAAGGGCGGCCGCAGGTGCGCCGCATCGTCAGCGGCGTGACCGCCAGTCAGGCCCTGCTGGATGCGGCGGTCGAGGCGGATGCCGATGTGGTCCTGGTGCACCACGGTTATTTCTGGAAGAACGAGAATCCCTGCGTCGTCGGTATCAAGCAGCGGCGCCTGAAGACCCTGCTCAACCACGACATCAGCCTGCTTGCTTACCACCTGCCGCTGGACGTCCACTCCGAGGTCGGCAACAACGTGCAGTTGGCCAGGGTGCTGGACCTGATCGTCGAGGGGCCGCTGGAGCCGGACAATCCCCGTTCGATCGGGCTGGTCGGTGCGCTGGCGGAGCCCTTGGCGCCGCGTGATTTTGCTCGTCGGGTGCATGAGGCATTGGGGCGAGAACCCCTGCTGATCGACGGCGAAGGGCCGATCCGCCGGATCGCCTGGTGTACCGGGGCGGCACAGGGCTACATCGACCAAGCCGTCGCTGCCGGAGTGGATGCCTATCTCACTGGCGAGGTGTCCGAGCCCACGGTTCACGCGGCGCGGGAAAACGGCATCAGTTTCATCGCCGCCGGCCATCACGCGACCGAACGCTACGGCGTGCAGGCGTTGGGCGACTATCTGGCACGGCGTTTTGCCATCGAACATTTGTTCGTCGATTGCCCAAACCCTGTGTAA	MAIALSTLVEEADRYLTAARIQDYCPNGLQVEGRPQVRRIVSGVTASQALLDAAVEADADVVLVHHGYFWKNENPCVVGIKQRRLKTLLNHDISLLAYHLPLDVHSEVGNNVQLARVLDLIVEGPLEPDNPRSIGLVGALAEPLAPRDFARRVHEALGREPLLIDGEGPIRRIAWCTGAAQGYIDQAVAAGVDAYLTGEVSEPTVHAARENGISFIAAGHHATERYGVQALGDYLARRFAIEHLFVDCPNPV				NA	NA	NA	NA	NA
BMS010_04392	918	cysD_2	COG0175	Sulfate adenylyltransferase subunit 2	ATGGTCGACAAACTGACGCATCTGAAACAGCTGGAGGCGGAAAGCATCCACATCATCCGTGAGGTGGCCGCCGAATTCGACAACCCGGTGATGCTGTACTCCATCGGCAAGGATTCCGCCGTCATGTTGCACCTGGCGCGCAAGGCATTCTTTCCGGGCAAGCTGCCGTTCCCCGTGCTGCACGTGGATACCCGCTGGAAGTTCCAGGACATGTACCGCTTCCGCGAGAAGATGGTCAGTGAGATGGGCCTTGACCTGATCACCCACATCAACCCCGATGGCGTGGCGCAGGACATGAATCCCTTCACCTACGGCAGTGCCAAGCACACCGACGTGATGAAGACCGAGGGCCTCAAGCAGGCACTGGACAAATATGGCTTCGACGCTGCCTTCGGCGGTGCCCGCCGTGACGAGGAGAAGTCCCGCGCCAAGGAGCGCGTCTACTCCTTCCGTGACAGCAAGCACCGCTGGGACCCGAAGAACCAGCGTCCGGAGCTGTGGAACGTCTATAACGGCAAAGTGAAGAAGGGCGAGTCGATCCGCGTCTTCCCGCTGTCCAACTGGACCGAGCTGGACATCTGGCAATACATCTACCTGGAGCAGATCCCGATCGTACCGCTGTACTTCGCCGCAGAGCGCGAAGTGGTGGAACTCAACGGCGCCCTGGTGATGATCGACGACGAGCGCATCCTGCAATACCTGACCCCCGAGCAGAAGGCCAGCATCACCAAGAAGATGGTGCGTTTCCGTACCCTTGGCTGCTACCCGCTGACCGGTGCCGTGGAATCCACCGCGACCACCTTGCCGGAAATCATTCAGGAAATGCTCCTGACCAAAACCTCCGAACGCCAGGGCCGCGTGATCGATCACGACCAAGCCGGCTCGATGGAAGAAAAGAAACGCCAGGGATACTTTTAA	MVDKLTHLKQLEAESIHIIREVAAEFDNPVMLYSIGKDSAVMLHLARKAFFPGKLPFPVLHVDTRWKFQDMYRFREKMVSEMGLDLITHINPDGVAQDMNPFTYGSAKHTDVMKTEGLKQALDKYGFDAAFGGARRDEEKSRAKERVYSFRDSKHRWDPKNQRPELWNVYNGKVKKGESIRVFPLSNWTELDIWQYIYLEQIPIVPLYFAAEREVVELNGALVMIDDERILQYLTPEQKASITKKMVRFRTLGCYPLTGAVESTATTLPEIIQEMLLTKTSERQGRVIDHDQAGSMEEKKRQGYF	PGPT0002405_1213	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002405-cysD-K00957	NA	NA
BMS010_04393	210			hypothetical protein	ATGGTCTGGCAAAGGGCCAGGCAGTTGGCGGTTGGGGTATTCAAGGAATTGGCCGATTGCCGGGACTTCGTTTTCAAGGACCAGATCGGTCGTTCGGCGCTCTCCGTTCCCAGCAATATCGCCGAGCGTATGGAACGGGGACAGACCGGGAGAAATGCCATTACCTGCGTATCGCCATGGGCTCCTGCGCGGAGTTGCGAACGCAGCTGA	MVWQRARQLAVGVFKELADCRDFVFKDQIGRSALSVPSNIAERMERGQTGRNAITCVSPWAPARSCERS				NA	NA	NA	NA	NA
BMS010_04394	1899	cysNC	COG0529	Bifunctional enzyme CysN/CysC	ATGAGTCACCAATCCGATCTGATCAGCGAGGACATCCTCGCCTACCTGGCCCAGCACGAGCGCAAGGAACTGCTGCGCTTTCTCACCTGCGGCAATGTCGATGACGGCAAGAGCACCCTGATCGGCCGCCTGCTGCACGATTCGAAGATGATCTATGAAGATCATCTGGAAGCCATCACCCGCGATTCGAAGAAGGTCGGCACCACCGGTGACGACGTCGACCTGGCGCTGCTGGTGGATGGCCTGCAGGCCGAGCGCGAGCAAGGCATCACCATCGATGTGGCCTATCGCTATTTTTCCACCGCCAAGCGCAAGTTCATCATCGCCGACACCCCCGGGCACGAGCAGTACACGCGCAACATGGCCACCGGCGCGTCCACCTGCGACCTGGCGATCATCCTCATCGATGCCCGCTACGGTGTGCAGACCCAGACTAGGCGGCACAGCTTCATCGCCTCGCTGCTGGGCATCAAGCACATCGTCGTCGCCGTCAACAAGATGGACCTGAAAGACTTCGACCAGGGCGTCTTCGAGCAGATCAAGGCGGATTACCTGAAGTTCGCCGAAGGCATCCAGCTCAAGCCGACCACCCTGCATTTCGTGCCGATGTCCGCCCTGAAAGGCGACAACGTGGTCAACAAGAGCGAGCGTTCGCCCTGGTACGAGGGGCAGTCGCTCATGGAAATCCTGGAGACCGTCGAGGTTGCCGGCGATCGCAATTTCAACGACATGCGCTTCCCGGTGCAGTACGTCAACCGGCCGAACCTGAACTTCCGCGGCTTCGCCGGCACCCTGGCGAGCGGCATCGTGCACAAGGGCGACGAAGTGGTGGCGCTGCCGTCGGGCAAGAGCAGCCGGATCAAGTCCATCGTGACCTTCGAGGGCGAGCTGGAGCAGGCCGGTCCCGGCCAGGCCATCACCCTGACCCTGGAAGACGAGATCGACGTTTCCCGCGGCGACATGCTGGTGCATGCCGACAACCGCCCGCAGGTGACCGACAGCTTCGAGGCCATGCTCGTGTGGATGGCCGAGGAGCCGATGCTGCCTGGCAAGAAATACGACATCAAGCGCGCCACCAGCTACGTGCCAGGCTCGATTCCAAGCATCGTCCATCGTGTCGACGTGAATACCCTGGAGCAGGGGTCGGCGAGCAGTCTGCAATTGAATGAGATCGGCCGGGTGAAAGTCGCGCTGGACGCACCGATCGCACTGGACGGATACGAGTACAACCGCACCACCGGGGCGTTCATTGTCATCGATCGCCTGACCAACGGCACCGTTGGTGCCGGCATGATCATCGCCGATCCGGTGGGCGCCCAGAGTGGCGGCCACCACGGCAAGCTGGCCCACGTCTCCACCGAGGAACGCGCCGCCCGCTTCGGCCAACAGCCAGCGACGGTGCTGTTCAGCGGCCTGTCCGGCGCGGGCAAGAGCACCCTGGCCTATGCCGTCGAGCGCAAGCTGTTCGACATGGGCCGTGCGATCTACGTCCTCGATGGGCAGAACCTGCGCCACGACCTGAACAAGGGGCTGCCGCAGGACCGCGCCGGACGCAAGGAAAACTGGCTGCGCGCCGCCCATGTGGCCAAGCAGTTCAACGAAGCCGGCCTGCTGACCCTGGCCGCCTTCGTCGCGCCGGATGCGGAAGGCCGCGAGCAGGCCAAGGCGTTGATCGGTGCCGAACGCCTGATCACCGTTTACGTCCAGGCCTCTCCGCAAGTCTGCCGGGAGCGCGATCCTCAGGGCCTCTACGCGGCCGGCAAGGACAACATCCCGGGCGAGTCCTTCGCCTACGATGTGCCGCTGGACGCCGATCTGGTGATCGACACCCAGAGCGTTTCGGTGGAAGAGGGCGTCAAGCAGGTACTCGACCTGTTGCGTAATCGCGGCGCCATCTGA	MSHQSDLISEDILAYLAQHERKELLRFLTCGNVDDGKSTLIGRLLHDSKMIYEDHLEAITRDSKKVGTTGDDVDLALLVDGLQAEREQGITIDVAYRYFSTAKRKFIIADTPGHEQYTRNMATGASTCDLAIILIDARYGVQTQTRRHSFIASLLGIKHIVVAVNKMDLKDFDQGVFEQIKADYLKFAEGIQLKPTTLHFVPMSALKGDNVVNKSERSPWYEGQSLMEILETVEVAGDRNFNDMRFPVQYVNRPNLNFRGFAGTLASGIVHKGDEVVALPSGKSSRIKSIVTFEGELEQAGPGQAITLTLEDEIDVSRGDMLVHADNRPQVTDSFEAMLVWMAEEPMLPGKKYDIKRATSYVPGSIPSIVHRVDVNTLEQGSASSLQLNEIGRVKVALDAPIALDGYEYNRTTGAFIVIDRLTNGTVGAGMIIADPVGAQSGGHHGKLAHVSTEERAARFGQQPATVLFSGLSGAGKSTLAYAVERKLFDMGRAIYVLDGQNLRHDLNKGLPQDRAGRKENWLRAAHVAKQFNEAGLLTLAAFVAPDAEGREQAKALIGAERLITVYVQASPQVCRERDPQGLYAAGKDNIPGESFAYDVPLDADLVIDTQSVSVEEGVKQVLDLLRNRGAI	PGPT0002395_591	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-INHIBITION_OF_SALICYLIC_ACID|JASMONIC_ACID	ADAPTION_TO_PIS_REGULATION_BY_Nod_FACTORS,PGPT0002395-cysNC-K00955	NA	NA
BMS010_04395	1608	malL_2	COG0366	Oligo-1,6-glucosidase	ATGACTATGCAGCAACCTCTCTGGTGGCAGTCCGGGATCATCTACCAGATCTATCCCCGCTCGTTCATGGACAGCAACGGCGACGGCATTGGCGATCTGCGGGGCATCCGCAGCCGGCTGGACTATCTGGAGTGGCTGGGTGTGGATGCCGTCTGGCTATCGCCCATCTATCCGTCGCCGATGGCCGACTTCGGTTACGACGTGTCCAACTATGTGGATATCGATCCGCAATTCGGCAGCCTGTCGGACTTCGATGCCTTGCTGGCGGATGTACATCGGCGCGGCATGAAGCTCGTTCTCGATTTCGTGCCCAACCACAGCTCGGATCAGCACCCGTGGTTCCAGGAGTCGCGCCGCTCGCGGGACAACCCGAAGAGCGACTGGTACATCTGGCGGGACCCCGCGCCCGATGGCGGACCACCGAACAACTGGTTGTCCAATTTCGGCGGCAGCGGCTGGACCTACGACGAAGCGCGCCAGCAGTACTACTACCATGCGTTCCTCAAGGAGCAGCCCGACCTCAACTGGCGCAACTCGGAAGTGCAGGACGCCATGCTCGAGCAGATGCGTTTCTGGCTCGAACGCGGCGTGGACGGTTTCCGGGTCGACGTGATCTGGCACCTGATCAAGGACGAGGATTTCCGCAACAACCCGGAGAACCCGGACTACCGCCCCGATGCCGGATCGCACAAGCGCCTGCTGGCCACCTACACCACCGACCGACCGGAAGTGCACGACGTCATCCGCAAGATGCGCCATCTGCTGGACAGCTATGACGAGCGGATGATGGTCGGCGAGATCTACCTGCCGGTGGAGCGCCTGGTGACCTACTACGGAGCTGGTGGCGACGGCGTGCACCTGCCGTTCAATTTCCAGTTGATTCTGCTGCCCTGGCAGGCCGAAACCATCCGCCAGGCGGTGGACCATTACGAAGCCGCCCTGCCGCCCCACGGCTGGCCGAACTGGGTGCTCGGCAACCACGACAACCACCGCCTGGCCAGCCGCTTCGGCACCGAGCACAGCCGCATCGCCGCAATGCTGCTGCTGACCCTGCGCGGCACTCCGACCCTCTATTACGGCGACGAGATCGGCATGATCGACGTGACCATCCGCCCGGAGCAGGTACAGGACCCGTTCGAGAAGAACATTCCCGGCCTGGGCCTGGGGCGCGACCCGGAACGTACCCCGATGCAATGGGACGGCAGCGCCAACGCCGGTTTCACCAGCGGCACATCCTGGCTCCCCGTCGCCCCGGATTACCGGACGACCAACGTGGCGGTGCAGCAGGAAGATCCGTCATCCGTCCTGACGCTGTACCGCGAGTTGATCCAATTGCGCCGCCGTGAAGCTGCGCTGAGCGTTGGCCGCTACCGCAGCTTCTGCACACCGCCGGGTGTGCTGGGCTACATGCGCGAATGGGGCAATCGCCGACTGCTGGTACTACTGAATTTCCAGCCCTGCGAACAGCGGATCGATCTGGAGATGCTGGGGGGTGAAATCCTGCTGTCCAGCCATCCTGGCCGGCACGAACGGGACGTGAAAGAACATTGCCTGCTGCGCCCCCACGAGGGTCTGATCATCGCCCTCCAGGAAAACGAGACACCCTGA	MTMQQPLWWQSGIIYQIYPRSFMDSNGDGIGDLRGIRSRLDYLEWLGVDAVWLSPIYPSPMADFGYDVSNYVDIDPQFGSLSDFDALLADVHRRGMKLVLDFVPNHSSDQHPWFQESRRSRDNPKSDWYIWRDPAPDGGPPNNWLSNFGGSGWTYDEARQQYYYHAFLKEQPDLNWRNSEVQDAMLEQMRFWLERGVDGFRVDVIWHLIKDEDFRNNPENPDYRPDAGSHKRLLATYTTDRPEVHDVIRKMRHLLDSYDERMMVGEIYLPVERLVTYYGAGGDGVHLPFNFQLILLPWQAETIRQAVDHYEAALPPHGWPNWVLGNHDNHRLASRFGTEHSRIAAMLLLTLRGTPTLYYGDEIGMIDVTIRPEQVQDPFEKNIPGLGLGRDPERTPMQWDGSANAGFTSGTSWLPVAPDYRTTNVAVQQEDPSSVLTLYRELIQLRRREAALSVGRYRSFCTPPGVLGYMREWGNRRLLVLLNFQPCEQRIDLEMLGGEILLSSHPGRHERDVKEHCLLRPHEGLIIALQENETP	PGPT0018560_4068	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187	NA	NA
BMS010_04396	1710	treS	COG0366	Trehalose synthase/amylase TreS	ATGGAAGCGAACGATGTCTGGTACGACAACGCGGTTGCCTACCAAGTGGATGTGGCGACCTTCTACGATTCCAACGATGACGGTATCGGTGATTTTCCCGGGCTCACTTCGCGCCTGGATTACCTGCGCCAACTGGGGATCAACTGCCTCTGGCTGATGCCTTTCCATCCCTCGTCCGAACAGGACGATGGCTATGACGTGATCGATCACTACGGTATCGATCCGCGCTTCGGCAGCTTCGGCGATTTCGCCGAGTTCCTCGACGAGGCCAAGGTACGCGGTATCCGCGTGCTAATGGATCTGGTGGTGAACCATACCTCCGACCAGCACCCCTGGTTCCAGGCCGCCCGGCAATCGAAGGATTCCCCATTCCGCGACTATTACATCTGGGAACGGGAGCCGAAGGACCACCAGCGCGACAAGCTGGTATTTCCGGATCGCTACGACAGCGTCTGGAAATACGATGAGGCGACTGGAGAGTATTACTTCCATCGTTTCCATGACTTCGAGCCCGACCTCAATCACGGTCATCCGGCGGTTCGCGACGAGGTGCGGCGCATCCTCGGCTTCTGGCTGGCGCTGGGGGTGTCCGGTTTCCGTGTCGATGCCGCGCCGTTCCTGATCTGGCCCAAGGGACCGGCCCAGCATTTCGACGATCCCCACGAGTACCTGCGCAAACTGCGTCGGCATGCGGTGCGCTATGGTTCGGGGGCCGTGCTGTTGGGGGAGGCCAATGTGGCGCCGGACAAGCTCGGTGAGTTCTTCGGCAACGGCGACGAACTCAACCAGCTCTTCAACTTCCTCGGGGCCGAGCGGATATTCCTCGCGCTAGCCCGCCAGGACGTCGGGCCGATCTGCCAGCTTTCCGATTTGCTGCCGGACCTGCCGCCGGGAACCCAGTGGCTGAATTTCCTGCGTCACCACGACGAGTTCAGCCTCGAATGGTTGAACGAGGAAGAGCGCCAGGAAATCTTCCAGGCCTTCGCCCCCGATCCGTCGATGCAGATCTACGGCCGTGGTCTGCGCCGCCGCCTGGCCGGTATGCTCGACGGCAACCAGGCGCGCATCCGCCTGGCGCTCAGCCTGCTGTTCAGCCGCAGCGGTTCGCCGATGCTGTTCTATGGCGACGAGATCGGCATGGGCGAGGACCTGTCCCTTCCTGATCGCTACCCGGTCCGCACCTGCATGCAGTGGTCGGACGAGGCCAACGCCGGCTTTTCCAAAGCCCCGCGCAAGTGCCTGACGCGTCCGGTGCTGGAGAAGGGCTCATTCGCGTTCGATAAGGTCAATGTCACCGCTCAGTGGCTGGACCCGAACTCCCAGTTGCATTGGGTGCGCCGGCTGATCGAGGTGCGTCGTGCCTGTCCCGAACTGGGGCTCGGCCAACACGAGGTACTGGAGTGCGATGGCGGCTCGGGTGTGCTGGCGGAGACGTTCTATTTCGACAGCGGGCGGGTAGTCTGCGTGCATAACCTGGAAGACCGGCCTTGCACGGTCCGCATTCAGGACCAGGCGCTGGCGGGGCAGCACTGCTTCGATCTGTTGCGGCGAAAACCCCACGATGCCTCGGCGGACGGGGAACTGGTCGTCGACTTGGAGGCGTATGGCTATTGCTGGTTGCGGGTGGGCTCGATCTTCGCACCTACCGAGGTCGGCGCCACCATCGCTAGCGCAATTGCGGAAGCACCTCGCTCGCAAAAGTCTCGATGA	MEANDVWYDNAVAYQVDVATFYDSNDDGIGDFPGLTSRLDYLRQLGINCLWLMPFHPSSEQDDGYDVIDHYGIDPRFGSFGDFAEFLDEAKVRGIRVLMDLVVNHTSDQHPWFQAARQSKDSPFRDYYIWEREPKDHQRDKLVFPDRYDSVWKYDEATGEYYFHRFHDFEPDLNHGHPAVRDEVRRILGFWLALGVSGFRVDAAPFLIWPKGPAQHFDDPHEYLRKLRRHAVRYGSGAVLLGEANVAPDKLGEFFGNGDELNQLFNFLGAERIFLALARQDVGPICQLSDLLPDLPPGTQWLNFLRHHDEFSLEWLNEEERQEIFQAFAPDPSMQIYGRGLRRRLAGMLDGNQARIRLALSLLFSRSGSPMLFYGDEIGMGEDLSLPDRYPVRTCMQWSDEANAGFSKAPRKCLTRPVLEKGSFAFDKVNVTAQWLDPNSQLHWVRRLIEVRRACPELGLGQHEVLECDGGSGVLAETFYFDSGRVVCVHNLEDRPCTVRIQDQALAGQHCFDLLRRKPHDASADGELVVDLEAYGYCWLRVGSIFAPTEVGATIASAIAEAPRSQKSR	PGPT0014120_1293	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-AMYLASE,PGPT0014120-treS-K05343	NA	NA
BMS010_04397	960	fgd1	COG2141	F420-dependent glucose-6-phosphate dehydrogenase	ATGACTCCGATCGGCTACCACGCCTCACACGAACAATTCTCCCCCAGCGAACTGCTGCGCCATCTCCAAGCGGCCGCCGAAGCCGGATTCGCCAGTGGGATGTGTTCGGACCATTTCCATCCCTGGAGCGAAAAGCAGGGACATAGCGGTTTCGCCTGGGCCTGGCTCGGCACCGCACTGCAGGCTACGCCGCTGGACCTGGGCGTGGTCAATGCGCCGATCTTTCGCTATCACCCTGCCTTGATCGCCCAGGCAGCCGCCACGCTCACGGAAATGTTTCCGGGACGCTTCTGGCTTGCGGTGGGCAGCGGGGAGGCGATCAACGAGGGTATTCTCGGCCGCCATTGGCCGCTCAAGGAAACCCGCAACGCCATGTTGCGCGAAGCGGTGGATATCATTCGCGCACTCTGGAATGGCGAAGAAATCACTCACCACGGGTTGATTACCGTCGAGCGGGCACGCCTTTACAGCCTGCCAGACGAAGCGCCCCGGTTGTTCGCCGCGGCCCTGACTCCGGAGACGGCCCGCTGGGCCGGCGAATGGGCAGATGGGCTGATCACCGTTTCCAGCGAACCGGAGGCCCAGCAGCGCCTCATCGATGCGTTCCGCGAGGGCGGTGGCGAAGGCAAGCCGCTGTACCTGCAGGTCAAGCTCTCCTATGCCGCCGACGAGGCCATGGCCCTGGCCGGGGCGCATGACCAATGGCGCACCAACGCGCTACCCGGCGAGCTGTCGCAGAACCTGTGCCATCCCCGGCAGTTCGAACTGGCCACCGCGCACCTGCGACCGGAGGACATGCACCGGTCGGTGCGCATATCGGCCAGCCCGGCTCGCCACCTGGACTGGCTGCAAGGCGATATCGAGCAAGGTTTCGATCGCCTTTACCTGCACAACGTCAATCGCGAACAACGCACCTTCATCGAGACTTTTGCGAGCGAGGTGCTTCCGCAATTGCGCTAG	MTPIGYHASHEQFSPSELLRHLQAAAEAGFASGMCSDHFHPWSEKQGHSGFAWAWLGTALQATPLDLGVVNAPIFRYHPALIAQAAATLTEMFPGRFWLAVGSGEAINEGILGRHWPLKETRNAMLREAVDIIRALWNGEEITHHGLITVERARLYSLPDEAPRLFAAALTPETARWAGEWADGLITVSSEPEAQQRLIDAFREGGGEGKPLYLQVKLSYAADEAMALAGAHDQWRTNALPGELSQNLCHPRQFELATAHLRPEDMHRSVRISASPARHLDWLQGDIEQGFDRLYLHNVNREQRTFIETFASEVLPQLR				NA	NA	NA	NA	NA
BMS010_04398	444			hypothetical protein	GTGGAACAGACGCTCACGGCCTGGTTGCTACCAGCCCTCACCCTGCTCGCCGGCATCGCCATCGGTTTCGTGGCGGCGCGCCTGATGCCCAACGCCGCGCCCAACCGGACGCAGCGCCAACTGGATGAACTGCAGGAACGCTTCGATACCTACCAGAGCGAAGTGGTCACCCACTTCAAGACCACCGCCGGCCTGGTGAAGAAGCTGACCCAGAGCTACCAGGAGGTTCAGGAGCATCTCTCCGAAGGTGCCAAGAACCTGGCCCTGGACGAACTGACCCGTCAACGTCTGCTCGCTGCCCTGCAGGCGGACGAAAACTACCGCAGCCCACGGGAGCGCCTGAAGCCGCCGGCCGGCACCGAAGCCCCGAAGGATTATGCACCCAAGAGCGGAGACGCCCCCGGCACGCTCGACGAAAGCTTCGGGTTGAAAGGCAAGTCCTGA	MEQTLTAWLLPALTLLAGIAIGFVAARLMPNAAPNRTQRQLDELQERFDTYQSEVVTHFKTTAGLVKKLTQSYQEVQEHLSEGAKNLALDELTRQRLLAALQADENYRSPRERLKPPAGTEAPKDYAPKSGDAPGTLDESFGLKGKS				NA	NA	NA	NA	NA
BMS010_04399	630			hypothetical protein	TTGCTCATGCGTGAAGTTTCCCAGACGCTCGAAGGTCCCTGCGGGGCGCTCGAAGCGCTTTATCTCGATGTGCCCGAGGCGCGCGGCCTGGCGCTGATCTGTCACCCCAACCCGGTCCAGGGCGGCACCATGCTGAACAAGGTGGTTTCCACCCTGCAACGCACCGCCCGCGATGCCGGCTACACGACCTTGCGCTTCAACTACCGCGGCGTTGGCGCGAGCGCCGGCAGCCATGACATGAGTAGCGGCGAGGTGGACGATGCCGAAGCCGCCGCCCGCTGGCTGCAGGCCCGGCACCCCGATCTGCCGCTGGTCCTGCTCGGTTTCTCCTTCGGCGGTTTCGTCGCCGCCAGCCTGGCCGGTCGCCTGGAGGGCCAGGGCAGGGCAGTGGACAGGCTGTTCATGGTCGCCCCGGCGGTATCCCGCCTGAAGGACGATGTCCCGCTATCCCGCCAGGCCGCACTCACCGTCATCCAGCCGGATAGCGACGAAGTGGTTCCGCCGGAAACCGTCTATGCCTGGAGCGAGGCACTGGATCGTCCCCATGAGCTGCTGAAAGTGGCAGAATGCGGCCACTTTTTTCATGGCAAGCTGACCGACCTCAAGGATCTGGTGCTGCCTCGCCTGTAA	MLMREVSQTLEGPCGALEALYLDVPEARGLALICHPNPVQGGTMLNKVVSTLQRTARDAGYTTLRFNYRGVGASAGSHDMSSGEVDDAEAAARWLQARHPDLPLVLLGFSFGGFVAASLAGRLEGQGRAVDRLFMVAPAVSRLKDDVPLSRQAALTVIQPDSDEVVPPETVYAWSEALDRPHELLKVAECGHFFHGKLTDLKDLVLPRL				NA	NA	NA	NA	NA
BMS010_04400	1362			hypothetical protein	ATGACCACGCGTATCCTCACCGGCATCACCACCACCGGCACTCCGCACCTCGGCAACTACGCCGGCGCCATCCGTCCGGCAATCCTCGCCAGCCGCGATCCGCAGGCCGACTCGTTCTATTTCCTCGCCGACTACCATGCCCTGATCAAGTGCGACGATCCGCAGCGCATCCAGCGCTCGCGCCTGGAGATCGCTGCCACTTGGCTGGCCTGCGGCCTGGACACTGATCGCGTGACCTTCTATCGCCAGTCGGACATTCCCGAGATTCCGGAACTGACCTGGCTGCTCACCTGCGTTGCCGGCAAGGGGCTGCTCAACCGTGCCCACGCCTACAAGGCGGCGGTGGACAAGAACATGGAAAGCGGGGAGGACCCGGACGCCGGCGTGACCATGGGCCTGTTCAGCTACCCGGTGCTGATGGCCGCGGACATCCTGATGTTCAACGCGCACAAGGTGCCGGTCGGGCGTGACCAGATCCAGCATGTGGAAATGGCCCGCGATATCGGCCAGCGCTTCAATCACCTGTTCGGCAAGGGCAAGGAGTTCTTCACCCTGCCTGAAGCCGTGATCGAAGAAAGCGTGGCGACCCTGCCGGGCCTCGACGGGCGCAAGATGTCGAAGAGCTACGACAACACCATCCCGCTGTTCGGCAGCGCCAAGCAGCTCAAGGAGGCCATCGCCCGCATCGTTACCGACTCCCGCGCGCCGGGCGAGCCCAAGGACCCGGACAGCGCCCACCTGTTCACCCTGTACCAGGCATTCGCCACGCCGGAGCAGACGGCCGGGTTCCGTCAGGAACTGCTCGACGGCCTGGCCTGGGGCGAAGCCAAGCAGCGCCTGTTCCAATTGCTCGACGGCGAACTGGGCGAGGCTCGCGAGCGCTATCACGCCTTGATCGAGAAACCGTCCGATCTGGAAGACATTCTGCTGGCCGGTGCCGCGAAGGCGCGCAAGATCGCTTCGCCGTTCCTCAATGAACTGCGTGAGGCCGTGGGGCTGCGCTCGTTCCGCAGCGACGTGCAGGCCAGCGGCCCGGCGAAGAAGAAGTCCGGCAAGAGCGCCCGGTTCGTCAGCTTCCGCGAGCAGGACGGTACGTTCCGTTTCCGTTTCCTCGCCGCCGATGGCGAGGAACTGCTGCTGTCTCGTCCGTTCGCCGATCCCAAGGCGGCGGGTGCCATCAGCCAACAGCTCGTGGCCCAGGGCGCTGATGCGCTGGAACTGCGGGCCGACGAAGGCGACCAGTTCACCCTGTGGATGGATGGCCAATGCCTGGCCGACAGCCCGGCCTATGCCGATCCGGACGCGCGCGACGCGGCGATGTTGCGCTTGCGCGATGCCATCGCCGGCCTGGCCGAGCAATAA	MTTRILTGITTTGTPHLGNYAGAIRPAILASRDPQADSFYFLADYHALIKCDDPQRIQRSRLEIAATWLACGLDTDRVTFYRQSDIPEIPELTWLLTCVAGKGLLNRAHAYKAAVDKNMESGEDPDAGVTMGLFSYPVLMAADILMFNAHKVPVGRDQIQHVEMARDIGQRFNHLFGKGKEFFTLPEAVIEESVATLPGLDGRKMSKSYDNTIPLFGSAKQLKEAIARIVTDSRAPGEPKDPDSAHLFTLYQAFATPEQTAGFRQELLDGLAWGEAKQRLFQLLDGELGEARERYHALIEKPSDLEDILLAGAAKARKIASPFLNELREAVGLRSFRSDVQASGPAKKKSGKSARFVSFREQDGTFRFRFLAADGEELLLSRPFADPKAAGAISQQLVAQGADALELRADEGDQFTLWMDGQCLADSPAYADPDARDAAMLRLRDAIAGLAEQ	PGPT0007120_396	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007120-trpS-K01867	NA	NA
BMS010_04401	1173	zapE_1	COG1485	Cell division protein ZapE	TTGAACGATCTGAGCACATTGCCAACAGCGGAGGGCGCGGCTAAAGTGTCGGCCCCGTTTCACTACCCCGACCCCGCCATGACCCCCCTTGAGCGCTATCAGGCCGACCTGAAACGTCCCGATTTCTTCCATGACGCCGCGCAGGAAAACGCCGTGCGTCACCTGCAGCGCCTGTACGAGGACCTGCTGGCCGAGTCCCAGAGCAAGCCGGGCCTGTTCGGCAAACTGCTCGGCAAGCGCCGCGAAGGGCCGGTCAAGGGGCTGTACTTCTGGGGCGGCGTCGGTCGCGGCAAGACCTATCTGGTGGACACCTTCTTCGAGGCCCTGCCGTTCAAGGAGAAGATGCGGACCCACTTCCACCGCTTCATGAAGCGCGTCCACGAGGAAATGAAAACCCTCAAGGGCGAGAAGAACCCGCTGACCATCATTGCCAAGCGCTTTTCCGACGAGGCGCGGGTGATCTGCTTCGACGAATTCTTCGTTTCCGATATCACCGACGCCATGATCCTGGCCACCCTGCTGGACGAGCTGTTCAAGAACGGCGTGAGCCTGGTGGCGACCTCCAACATCGTGCCGGACGGCCTGTACAAGGACGGCCTGCAGCGCGCCCGCTTCCTGCCGGCGATCGCCCTGCTCAAGGAACACACCGAGATTGTCAACGTCGACAGCGGCGTCGATTACCGCCTGCGCGCGCTCGAACAGGCCGAGCTGTTTCATTGGCCGCTGGGCCCAGAGGCCGAGGCGAGCCTGGAAAAGAGCTTCAAGAGCCTGCTGCCGGAGCACTGCGGCATCGAGGAAAACGAAACGCTGATGATCGAGAACCGTCCGATCGTTGCGCGCCGGGTTGGTGACGACGTCGCCTGGTTCGATTTCCGCGAGCTGTGCGATGGCCCGCGCAGCCAGAACGACTACATCGAGCTGGGCAAGATCTTCCACGCCGTACTGCTGAGCAACGTCGAGCAGATGAACGCGACCAAGGACGACATGGCGCGTCGTTTTATTAACCTGGTCGACGAGTTCTACGATCGCAACGTCAAGCTGATCATCTCCGCCGAAGTCGAGCTGAAAGACCTCTATGCCGGTGGCCGTCTGGAGTTCGAGTTCCAGCGTACGCTGAGCCGTCTGCTCGAAATGCAGTCGCATGAATTCTTGTCGCGGCCGCACAAGCCGTAA	MNDLSTLPTAEGAAKVSAPFHYPDPAMTPLERYQADLKRPDFFHDAAQENAVRHLQRLYEDLLAESQSKPGLFGKLLGKRREGPVKGLYFWGGVGRGKTYLVDTFFEALPFKEKMRTHFHRFMKRVHEEMKTLKGEKNPLTIIAKRFSDEARVICFDEFFVSDITDAMILATLLDELFKNGVSLVATSNIVPDGLYKDGLQRARFLPAIALLKEHTEIVNVDSGVDYRLRALEQAELFHWPLGPEAEASLEKSFKSLLPEHCGIEENETLMIENRPIVARRVGDDVAWFDFRELCDGPRSQNDYIELGKIFHAVLLSNVEQMNATKDDMARRFINLVDEFYDRNVKLIISAEVELKDLYAGGRLEFEFQRTLSRLLEMQSHEFLSRPHKP				NA	NA	NA	NA	NA
BMS010_04402	960			hypothetical protein	ATGCGTTGCTATCTGCTTGCCCTGCTGATGCTCTTCAGCGTCGGCGCCGTTGCCGATCCCTCGTGGAAACCCTTCCCTTACAACCAGAGCGCCTACGACTATTCCGGCGACAAGCTGCGTGAAGCCTGGCCGCGCCTGACCCGTGGCTTCGGCGACTATCCCTTCCCGGATGCCGACTGGGTCATCGAGACGGCCACCCGTAATCCCAAGGCCCTGGAGATGACCGTAGCCGGCGGTACCGGCTTCACCGGCAAGCCGGAGGAAGCCGAAGCCTATGCGGCCAAGCTGCAGGACGTCTGGCGCCTGCTGTTCCGTGGCGATTTCGCCCAGGCCAAGGAGCAAGGCCTCGCGCTGGGCGTTGGCGGGCAGGTCCCGGCGATGTTCGCCCAGGTTCTCTACGCCATGTTCCTGGCGCCGACCCAGGAGGAGAAACATCGCCTGCTGGAAGAGGTCATCGAGTACACCGACCAGGCCGGCGAACTGGTCCAGGCCGATATCGTCGCCATGTTCGGCCGGGTCTATGCCAAGGCCCGCCTCGGTGAAGAACTGTCAGTTCCGGTGGTACTCAAGCGTGGCTACACCAGCCAGATTCCCAAGGAACTGGACGCCCTCCTCGCCCGCCAACCGCAGCAGCCTTTCGCCCTGGCGCTGTATGGCGGCTACGAAGCCGGGGTGATCCGCAAAGTGGGCAAGATGGTCGGCCGGATGACCTACGGGGTCAGCGCGGACAAGATGGAGCTGTACTTCAACCGCTCCTTCAAGCAGGCCGACGACCTGCCCATCGGCCACTACGAATACGCCAATGCCCTCACCTACGTGTATGGGGACGACGAGCAGAAAAAGGTCTTGGAGCACCTGAAGCGCGCCGTGGCGATCAAACCGATCAGCGCCATGGAAGCCCTGGAAGTGGCTCACGCGCAGAAGCTGCTGAAAACGCAGGAGCAGTTGGCGCGGAACTGA	MRCYLLALLMLFSVGAVADPSWKPFPYNQSAYDYSGDKLREAWPRLTRGFGDYPFPDADWVIETATRNPKALEMTVAGGTGFTGKPEEAEAYAAKLQDVWRLLFRGDFAQAKEQGLALGVGGQVPAMFAQVLYAMFLAPTQEEKHRLLEEVIEYTDQAGELVQADIVAMFGRVYAKARLGEELSVPVVLKRGYTSQIPKELDALLARQPQQPFALALYGGYEAGVIRKVGKMVGRMTYGVSADKMELYFNRSFKQADDLPIGHYEYANALTYVYGDDEQKKVLEHLKRAVAIKPISAMEALEVAHAQKLLKTQEQLARN				NA	NA	NA	NA	NA
BMS010_04403	1005	cdhR_4	COG4977	HTH-type transcriptional regulator CdhR	ATGCCCATCAGACCATCCGCCACCCTGCGTCGCGTCAGCATCCTGGCCACCGAGGGCGTCTTCGCCTCCACCCTGATGCAGGCGAAAGATTTCTTTCACATGGCCAGCCTGCGCTACGGCAAGCAGCAAGGCCTCGGTCTCACGCCCGCCTTCGAGATCCACCTGGTCAGCCCGGATGGCCAGCCCGTGCGTAGCTTCAGTCATGTGCAGGTGCCTGTGGACGGCCCGCTGGACGAGGCGGACGTGATCCTCCTGCCCGCCTTCTGGGGCGACTTCGACGCGCTCTGCGTGCGTTATCCACAGGTCCTCGATTGGTTGCGTGAGCGGCACGCGGCCGGCAGCACCCTTTGCGGCGAAGCCACCGGCGTGTTCTGGATGGCCCAGGCCGGTCTACTCGATGGCAAGGAGGCCACCACGTACTGGCGCTTCTTCCGCGAATTCGCCGAACGTTTCCCCCAGGTGCTGCTGAACACCGAGAAGCACCTGTCGGATGCCGACAATCTCTACTGTGCCGGCGGCGTCACCTCGGTCTGCGACCTCTACATCTACCTGATCGAATGCTTCTGCGGCGCGGGCGTCGCCCAAGGCGTGGCACGCGACATCCTCTACGAAGTACAGCGCAGCTATACGCCCGGCCGGATCGGCTTCGGCGGGCAGAAGCTGCACCAGGACGTGACCATCCTGCAGATTCAGCAATGGCTGGAGGAACACTACGCCGACAAGTTCCGCTTCGAGGACGTGGCCCGCGACCACGGCATGAGCATCCGCAACTTCATGCGCCGCTTCCAGGCCGCCACAGGCGACAAGCCGCTGCACTACCTGCAACGGTTACGCATCGAAACAGCCAAGAGTCTGCTTTCCTCGACGCGCAAAAGCATCAAGACCATCAGTTACGAAGTGGGTTACGACGACGCGAGCTTCTTCGCCCGCCTGTTCCGTCAGCACACGGAGCTATCGCCTAACCAATACCGACGCCAGTTCCAGCAAAAGGACACCGCCGCCTGA	MPIRPSATLRRVSILATEGVFASTLMQAKDFFHMASLRYGKQQGLGLTPAFEIHLVSPDGQPVRSFSHVQVPVDGPLDEADVILLPAFWGDFDALCVRYPQVLDWLRERHAAGSTLCGEATGVFWMAQAGLLDGKEATTYWRFFREFAERFPQVLLNTEKHLSDADNLYCAGGVTSVCDLYIYLIECFCGAGVAQGVARDILYEVQRSYTPGRIGFGGQKLHQDVTILQIQQWLEEHYADKFRFEDVARDHGMSIRNFMRRFQAATGDKPLHYLQRLRIETAKSLLSSTRKSIKTISYEVGYDDASFFARLFRQHTELSPNQYRRQFQQKDTAA				NA	NA	NA	NA	NA
BMS010_04404	1137	mmgC_2	COG1960	Acyl-CoA dehydrogenase	ATGATTCCAAGAACCCTGTTCAGTTCGGACCACGAACTCTTCCGTGACAGCGTGCGCAAATTCCTCGAACAGGAAGCGGTTCCCTACCACCACCAATGGGAGAAGGACGGTCATATCGATCGCCAGCTATGGAACAAGGCCGGCGAGGCGGGGATGCTCTGCTCGCACATCCCCGAGGAATACGGCGGCATGGGGGCCGACTTCCTGTATAGCGCTGTGGTGATCGAGGAGATCAGTCGGCTCGGTCTTACCGGCATCGGTTTCTCCCTGCATTCCGACATCGTCGCGCCCTACGTCCTGCATTACGGCTCCGAGGCGCAGAAGCAGAAATACCTGCCGAGGATGGTATCCGGCGAGCTGGTGACCGCCATCGCCATGACCGAGCCGGGCGCCGGTTCCGACCTGCAAGGCGTGAAGACGACCGCTGTCCTGGACGGCGACGAGTACGTCATTAACGGCTCCAAGACGTTCATCACCAATGGCTATCTGGCCGACCTGGTAATCGTCGTGGCGAAAACCGACCCCAAGGCCGGCGCCAAGGGCACCAGCCTGTTCCTGGTGGAGGCGGGTACGCCAGGCTTCGCCAAGGGCAAGCGCCTGGAAAAGGTGGGCATGAAGGCGCAGGACACCTCCGAGCTGTTCTTCCAAGACGTCCGTGTACCCAAGGAAAACCTGCTCGGTCAGGCAGGGATGGGCTTCGCTTACTTGATGCAGGAGCTGCCCCAGGAACGGCTGACGGTGGGGGTCGGGGCTCTGGCTTCGGCCGAGGCAGCATTGAAATGGACACTGGACTACACCCGCGAGCGCAAGGCGTTCGGCAAGGCCATCGCCGATTTCCAAAACACCCGCTTCAAACTGGCGGAGATGGCGACCGAAATCCAGGTCGGGCGAGTCTTCGTCGACCGTTGCCTGGAATTGCACCTTGCCGGCAAGCTGGATGTGCCGACCGCGGCGATGCTCAAGTACTGGGGAACCGACCTGCAGTGCAAGGTGCTCGACGAGTGCGTGCAGCTTCACGGTGGCTACGGTTTCATGTGGGAGTACCCGGTCGCGCGGGCCTGGGCCGATGCGCGGGTGCAGCGGATCTATGCCGGCACCAACGAGATCATGAAGGAAATCATCGCCCGATCGCTTTGA	MIPRTLFSSDHELFRDSVRKFLEQEAVPYHHQWEKDGHIDRQLWNKAGEAGMLCSHIPEEYGGMGADFLYSAVVIEEISRLGLTGIGFSLHSDIVAPYVLHYGSEAQKQKYLPRMVSGELVTAIAMTEPGAGSDLQGVKTTAVLDGDEYVINGSKTFITNGYLADLVIVVAKTDPKAGAKGTSLFLVEAGTPGFAKGKRLEKVGMKAQDTSELFFQDVRVPKENLLGQAGMGFAYLMQELPQERLTVGVGALASAEAALKWTLDYTRERKAFGKAIADFQNTRFKLAEMATEIQVGRVFVDRCLELHLAGKLDVPTAAMLKYWGTDLQCKVLDECVQLHGGYGFMWEYPVARAWADARVQRIYAGTNEIMKEIIARSL	PGPT0008385_7569	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008385-acd-K00249	NA	NA
BMS010_04405	714	nfi	COG1515	Endonuclease V	ATGACCACACCCCTCACGCAGATCGAACCTTTCGCCGGTTGGGACGGCAGCATCGCTGGTGCGCGGACGTTGCAGAAGGAGCTGGCCGCGCGTGTCCGGCTGGTCGACGACTATCCGCCGCTGCATCTGCTGGCCGGGCTCGATGTCGGGTTCGAAGAAGGAGGGAGCGTGACCCGGGCGGCGGCCGTCCTGCTGGATGCCCACACCCTGGCGCCGATCGCCACCAGCCTGGCCAGGATTCCCACTCGCATGCCTTATGTGCCGGGGCTGTTGTCTTTCCGCGAACTGCCTGCGCTGTTGCAGGCGCTGGGTGAACTGCCGGCGGTTCCGGACCTGATCTTCGTCGATGGCCATGGGATCGCCCATCCCCGGCGCCTGGGAATCGCCGCACACCTGGGCGTGGTGACAGGACTACCGACCATCGGCGTGGCGAAGAAGATTCTGACGGGCAACCACGAAGAACTGGGGCTTCAGCGGGGCGACAGGGTCGACCTGCTGGAGAAGGGCGAAGTGATCGGTACGGTGCTGCGCAGCAAGGACGGGGTGCGCCCGCTGATCGTTTCGCCGGGCAACCGGGTCAGCCTGGCGAGTGCGCCGAGCCTGGTAATGGACTGCCTGACCCGCTATCGCCTGCCCGAGCCGACCCGGCTGGCGGATCGGCTCGCGTCACGACGGGACGCCGGCAAGGCACCCCGGCAGGGCGAGTTGCTATAG	MTTPLTQIEPFAGWDGSIAGARTLQKELAARVRLVDDYPPLHLLAGLDVGFEEGGSVTRAAAVLLDAHTLAPIATSLARIPTRMPYVPGLLSFRELPALLQALGELPAVPDLIFVDGHGIAHPRRLGIAAHLGVVTGLPTIGVAKKILTGNHEELGLQRGDRVDLLEKGEVIGTVLRSKDGVRPLIVSPGNRVSLASAPSLVMDCLTRYRLPEPTRLADRLASRRDAGKAPRQGELL				NA	NA	NA	NA	NA
BMS010_04406	1038	tas_2	COG0667	Protein tas	ATGGAATTTCGACGTCTGGGGCGCACCGACATCCAGGTCAGTGCACTCTGCCTGGGCACCATGACCTGGGGCGAGCAGAACACGGAAGCCGATGCCTTCACTCAGATCGACCGAGCGAAATCCGCAGGTATCAATTTCATCGATACCGCCGAGATGTATCCGGTGCCGCCGCGAGCCGAAACCTACGCCACCACCGAACGCATCATCGGAAACTATTTCAAGACCCGCGGTAATCGCGCCGAATGGGTGTTGGCGAGCAAGGTCGCCGGACCCGGCAACGGTATCGACTACATTCGCGGCGGCAACCCCAAACACAACCGCGAGCACATCGTCGCCGCGCTGGATGCCAGCCTGAAGCGCCTGCAGACCGACTGGATCGATCTTTACCAGTTGCACTGGCCGGAGCGCAGCACCAACTTCTTCGGCCAGCTCGGCTATCGCCACCGGGAAGAGCGCTTCACCCCACTGGAGGAAACCCTGGAAGTGCTCGACGAACAGGTCAAGGCCGGCAAGATCCGCCATATCGGCCTGTCCAACGAAACGCCCTGGGGAACCATGACGTTTCTGCAACTCGCCGAGAGCCGTGGCTGGCCCCGTGCGGTTTCGATCCAGAATCCCTACAACCTGCTCAACCGCACCTTCGAGGTCGGCCTGGCGGAGATCGCCATGCGCGAGCAATGCGGGCTGCTGGCCTATTCCCCGCTGGCGTTCGGCATGCTCTCCGGTAAATATGAGAACGGGGCTCGCCCAGCCAACGCGCGGCTGACCCTATTCAGCCGCTTCCAGCGCTACAACAACCCGCAAAGCGTGGCGGCGACCAGCCGCTACGTAGCGCTGGCCCGCGCCCACGGGCTCGATCCGGCCCAGATGGCGCTGGCCTTCGTCACTCGCCAGCCCTTCGTGACCAGCAACATCATCGGTGCGACCAGCCTGGAGCAGTTGGAAAGCAACTTGGCCAGTGCCGAGCTAAAACTGTCGGACGAGGTTTTGACCGCCATCGAGGCGATCCACGTAACCCAGCCCAATCCGGCGCCCTGA	MEFRRLGRTDIQVSALCLGTMTWGEQNTEADAFTQIDRAKSAGINFIDTAEMYPVPPRAETYATTERIIGNYFKTRGNRAEWVLASKVAGPGNGIDYIRGGNPKHNREHIVAALDASLKRLQTDWIDLYQLHWPERSTNFFGQLGYRHREERFTPLEETLEVLDEQVKAGKIRHIGLSNETPWGTMTFLQLAESRGWPRAVSIQNPYNLLNRTFEVGLAEIAMREQCGLLAYSPLAFGMLSGKYENGARPANARLTLFSRFQRYNNPQSVAATSRYVALARAHGLDPAQMALAFVTRQPFVTSNIIGATSLEQLESNLASAELKLSDEVLTAIEAIHVTQPNPAP				NA	NA	NA	NA	NA
BMS010_04407	429	rplM_1	COG0102	50S ribosomal protein L13	ATGAAGACTTTTACTGCTAAACCGGAAACCGTCAAGCGCGACTGGTATGTCGTCGACGCTGCGGGTCAGACCCTGGGTCGTCTGGCCACTGAAATCGCTAGCCGCCTGCGTGGCAAGCACAAGCCTGAATACACTCCGCACGTGGATACCGGCGACTACATCGTCGTGATCAATGCCGAGCAGGTTCGCGTCACCGGTGCCAAGACCACCGACAAGATGTACTACTCCCACTCCGGCTTCCCGGGTGGCATCAAGTCGATCAACTTCGAAAAGCTGATCGCCAAGGCGCCCGAGCGCGTGATCGAGACCGCGGTCAAGGGCATGCTGCCGAAGAACCCGCTGGGTCGCGACATGTATCGTAAGCTGAAGGTGTACAAGGGTTCCGTCCACCCGCACACCGCTCAGCAGCCCCAAGAACTGAAGATTTAA	MKTFTAKPETVKRDWYVVDAAGQTLGRLATEIASRLRGKHKPEYTPHVDTGDYIVVINAEQVRVTGAKTTDKMYYSHSGFPGGIKSINFEKLIAKAPERVIETAVKGMLPKNPLGRDMYRKLKVYKGSVHPHTAQQPQELKI				NA	NA	NA	NA	NA
BMS010_04408	393	rpsI_1	COG0103	30S ribosomal protein S9	ATGTCGGCGACTCAAAACTACGGCACTGGCCGTCGCAAGACTGCAACCGCACGCGTTTTCCTGCGTCCGGGTACTGGCAACATCTCCATCAACAACCGCAGCCTGGACAAGTTCTTCGGCCGTGAAACCGCCCGCATGGTGGTTCGCCAGCCGCTGGAACTGACCGAGACCGTCGAGAAGTTCGACGTGTACGTCACCGTCATCGGTGGCGGTGTCAGCGGCCAGGCCGGTGCGATCCGTCACGGTATCACCCGTGCGCTGATCGAGTACGACGAGAGCTTCCGCAGCTCGCTGCGCAAGGCTGGCTACGTTACTCGCGATGCCCGTGAAGTCGAGCGTAAGAAGGTTGGTCTGCGTAAAGCGCGTAAGCGTCCGCAGTACTCCAAGCGTTAA	MSATQNYGTGRRKTATARVFLRPGTGNISINNRSLDKFFGRETARMVVRQPLELTETVEKFDVYVTVIGGGVSGQAGAIRHGITRALIEYDESFRSSLRKAGYVTRDAREVERKKVGLRKARKRPQYSKR				NA	NA	NA	NA	NA
BMS010_04409	594	petA_2	COG0723	Ubiquinol-cytochrome c reductase iron-sulfur subunit	ATGAGCAATGACGGCGTGAATGCAGGCCGGCGTCGCTTCCTGGTGGCAGCCACTTCAGTGGTGGGTGCTGCCGGAGCGGTGGGTGCTGCGGTTCCGTTCGTGGGGTCATGGTTCCCCAGTGCCAAGGCGAAGGCCGCTGGTGCACCGGTGAAGGTGAATGTCAGCAAGATCGAGCCGGGCCAGCAGATGGTGGCCGAATGGCGTGGTCAGCCTGTCTTCATCGTGCGCCGCACCGAGGAAATCCTGAGCAATCTGGAAAAGATCGCCCCGAGCGTGGCCGATCCGGAGTCTCAGAAATCGGTCCAGCCCGAATATGTGGACCCCAAGGTGCGCTCGATCAAGCCGGAAATCCTGGTGCTGGTCGGTCTGTGCACCCACCTGGGCTGTTCTCCTTCCTTCCGTCCAGAAGTGGCTCCGGCCGATCTGGGTCCGGAGTGGGTGGGTGGTTACTTCTGCCCTTGCCACGGTTCCCGCTATGACCTGGCTGGCCGTGTCTACAAGTCGCAGCCCGCGCCCTTGAACCTGCCGGTGCCGCCGCACTCGTACGAGTCGGATGATGTGATCGTCGTCGGTGTGGACCAGGAGAAAGCCTGA	MSNDGVNAGRRRFLVAATSVVGAAGAVGAAVPFVGSWFPSAKAKAAGAPVKVNVSKIEPGQQMVAEWRGQPVFIVRRTEEILSNLEKIAPSVADPESQKSVQPEYVDPKVRSIKPEILVLVGLCTHLGCSPSFRPEVAPADLGPEWVGGYFCPCHGSRYDLAGRVYKSQPAPLNLPVPPHSYESDDVIVVGVDQEKA	PGPT0030835_1281	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-PHOTOSYNTHESIS_ELECTRON_TRANSFER,PGPT0030835-petA-K00411
BMS010_04410	1212	petB	COG1290	Cytochrome b	ATGAGCAAATTCATGGATTGGGTCGATGCGCGCTTCCCCGCGACCAAGATGTGGGAAGACCATCTGTCCAAGTACTACGCCCCCAAGAACTTCAACTTCTTCTATTTCTTCGGTTCGCTGGCACTGCTGGTGCTGGTCAACCAGATCCTCACCGGCATCTGGCTGACCATGAGCTTCACGCCGTCCGCCGAAGAGGCCTTCGCCTCCGTCGAGTACATCATGCGCGACGTGGAGTACGGGTGGATCATTCGCTACCTGCACTCCACCGGAGCCTCGGCGTTCTTCATCGTGGTCTATCTGCACATGTTCCGCGGCCTGCTCTATGGCTCGTACCAGAAGCCGCGCGAGCTGGTGTGGATCTTCGGCATGCTGATCTATCTGGCGCTGATGGCGGAAGCCTTCATGGGCTACCTGTTGCCGTGGGGCCAGATGTCCTACTGGGGCGCACAGGTGATCATCTCCCTGTTCGGTGCCATCCCGGTGATCGGCGATGACCTGACGCAGTGGATTCGTGGTGACTACCTGATTTCAGGCATTACCCTGAACCGCTTCTTCGCCCTGCACGTGATCGCCTTGCCGATCGTGCTGCTCGGCCTGGTCGTGCTGCACATCCTGGCGCTGCACGAAGTGGGCTCGAACAACCCGTTGGGCGTGGATATCAAGAAGACCAAGGACGAAGCCGGCGTGCCGCTGGATGGCATTCCGTTCCATCCGTACTACACCGTGAAAGACATCGTCGGTGTGGTGGTGTTCCTGTTCGTCTTCTGTGCCGTTGTGTTCTTCTTCCCGGAGATGGGCGGTTACTTCCTCGAGAAGCCCAACTTCGAAGTGGCCAACGCATTCAAGACGCCTGAACACATTGCTCCGGTGTGGTACTTCACCCCGTTCTACGCCATCCTGCGTGCGGTTCCGGACAAGCTCATGGGTGTTATCGCCATGGGTGCGGCCATCGCCATCCTGTTCGTGCTGCCGTGGCTGGATCGCAGTCCGGTCAAGTCCATGAAGTACAAGGGCTGGTTGAGCAAGATCTGGCTCCTGGTGTTCTGCATCTCCTTCGTCATCCTCGGTGTGCTCGGCGTTCTGGCTCCGACCCCTGAGCGTACCCTGTTGTCGCGGGTGTGCACGTTCCTGTACTTCGCCTACTTCATCCTGATGCCGTTCTACACCAGGATGGAAAAGACCAAAGCGGTTCCGGAAAGGGTGAATGGCTGA	MSKFMDWVDARFPATKMWEDHLSKYYAPKNFNFFYFFGSLALLVLVNQILTGIWLTMSFTPSAEEAFASVEYIMRDVEYGWIIRYLHSTGASAFFIVVYLHMFRGLLYGSYQKPRELVWIFGMLIYLALMAEAFMGYLLPWGQMSYWGAQVIISLFGAIPVIGDDLTQWIRGDYLISGITLNRFFALHVIALPIVLLGLVVLHILALHEVGSNNPLGVDIKKTKDEAGVPLDGIPFHPYYTVKDIVGVVVFLFVFCAVVFFFPEMGGYFLEKPNFEVANAFKTPEHIAPVWYFTPFYAILRAVPDKLMGVIAMGAAIAILFVLPWLDRSPVKSMKYKGWLSKIWLLVFCISFVILGVLGVLAPTPERTLLSRVCTFLYFAYFILMPFYTRMEKTKAVPERVNG	PGPT0030840_1424	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-PHOTOSYNTHESIS_ELECTRON_TRANSFER,PGPT0030840-petB-K00412
BMS010_04411	780	petC_1	COG2857	Ammonia monooxygenase gamma subunit	ATGAAAAAGCATTTCGCTGCATTGATTCTCGCTGCACTGCCAGTCTTCGCCTTTGCTGCGGGTGGTCATGTCGAGCTGGACAAGGTCGACATCGATCTGACCGATAAGGCCGCCATGCAGGATGGCGCGCGTACGTTCGCCAACTACTGCATGGGCTGCCATAGCGCTCAGTTCCAGCGTTATGAGCGCGTTGCCAAGGACCTGGGTATTCCGGAAGAGCTGATGCTGGAAAACCTGGTCTTCACTGGTGCCAAGATCGGCGACCACATGAAGATCGGCATGAAGCCTGCTGATGCCAAGGTCTGGTTCGGTGCCGCTCCGCCGGACCTGACACTGGTTGCCCGCGTGCGTGGCAATGACTGGCTGTATACCTACCTGCGCACTTTCTATGAAGACCCGGCCCGTCCGTGGGGCGTCAACAACAAGACCTTCCCGAACGTCGGTATGCCGAACGTCCTGGCACCTCTCCAAGGCCGCCAGGTGATCGGTTGCAAGCAGGTACAAGTGGTCGATAACGGCAAGAAGCAGTTCGATCCGCTGACCGGTACGCCGATCACCCACGAGGCATGCGATCAACTGACCGTGGTCCCGAAAACCGGCAAGCTGAGCGAGGCGGAGTTCGATGAGAAGGTCAAGAACCTAGTGACCTTCCTGGCCTACTCGGCCAACCCCGTGAAGCTGGAGAGCCAGCGCATCGGTACCTACGTGCTGCTCTACCTTGCCTTCTTCTTTGTGTTTGCCTATTTGCTCAAGCGCGAATACTGGAAGGACGTTCACTGA	MKKHFAALILAALPVFAFAAGGHVELDKVDIDLTDKAAMQDGARTFANYCMGCHSAQFQRYERVAKDLGIPEELMLENLVFTGAKIGDHMKIGMKPADAKVWFGAAPPDLTLVARVRGNDWLYTYLRTFYEDPARPWGVNNKTFPNVGMPNVLAPLQGRQVIGCKQVQVVDNGKKQFDPLTGTPITHEACDQLTVVPKTGKLSEAEFDEKVKNLVTFLAYSANPVKLESQRIGTYVLLYLAFFFVFAYLLKREYWKDVH	PGPT0030845_1486	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-PHOTOSYNTHESIS_ELECTRON_TRANSFER,PGPT0030845-petC-K00413
BMS010_04412	618	sspA_1	COG0625	Stringent starvation protein A	ATGGGCGTGACCAATAGGTTGGCCTGTTATTCCGACCCCGCCGACCACTACTCCCACCGCGTACGTCTTGTGCTCGCCGAGAAGGGTGTCAGCGCCGAAATCATCGATGTCGAGCCGGGGCGTTGTCCGTCCAGGCTGGCTGAGGTGAACCCCTACGGCAGCTTGCCGACGCTGGTTGATCGTGACCTTGCGCTGTACGAATCCACCGTAGTGATGGAATATCTGGACGAGCGTTACCCGCATCCGCCCCTGTTGCCGGTCTACCCGGTGGCGCGTGCGAACAGTCGGTTGCTGATGCACCGTATCCAGCGTGACTGGTGTGCCTTGGTGGATCAGATTCTCGACCCGCGCAGCAAGGAGGCGGTTCGTGTCCAGGCGCGCAAGGAATTGCGGGAAAGCCTGACCGGCGTATCGCCCCTGTTTGCCGATAAGCCGTTCTTTCTCAGTGAGGAATTGAGCCTGGTGGATTGCTGCCTGTTACCGATTCTCTGGCGCCTGCCCGTGCTGGGAATCGAGCTGCCGCGTCCGGCCAAGCCCTTGCTGGACTACATGGAACGGCAATTCGCCCGCGAGGCCTTCCAGGCCAGTCTGTCCACCGTCGAGCGCGATATGCGCTAA	MGVTNRLACYSDPADHYSHRVRLVLAEKGVSAEIIDVEPGRCPSRLAEVNPYGSLPTLVDRDLALYESTVVMEYLDERYPHPPLLPVYPVARANSRLLMHRIQRDWCALVDQILDPRSKEAVRVQARKELRESLTGVSPLFADKPFFLSEELSLVDCCLLPILWRLPVLGIELPRPAKPLLDYMERQFAREAFQASLSTVERDMR				NA	NA	NA	NA	NA
BMS010_04413	417	sspB	COG2969	Stringent starvation protein B	ATGAAGTCCAGTCGTCCCTATTTGGTTCGTGCCCTTTACGAGTGGATCGTCGATAACGATTGCACGCCCCATCTGCTGGTGAATGCCGAATTTCCCGGTGTTCAGGTGCCGCCTGGTTTCGCCAGCGACGGGCAGATCGTGCTGAACGTTTCTCCCAGTGCCGTACGGCATCTGCATATGGATAACGAGGCTGTCAGCTTCGAAGGCCGCTTTGGCGGCGTTGCGCACAGTCTCTATATACCGACCTCTGCGGTGCTGGCGATCTATGCCCGTGAGAACGGGCAGGGCATGGTGTTCGATCTGGAGCCTCCGATTCCGGAGGAGGATGACGAGGAACCCGGGCCGGACGACGATGGCCCTTCCGGCGGCGAGCCGCCGCGACCCAGTGGGCGGCCCAGCCTGAAGGTGGTCAAGTAA	MKSSRPYLVRALYEWIVDNDCTPHLLVNAEFPGVQVPPGFASDGQIVLNVSPSAVRHLHMDNEAVSFEGRFGGVAHSLYIPTSAVLAIYARENGQGMVFDLEPPIPEEDDEEPGPDDDGPSGGEPPRPSGRPSLKVVK	PGPT0007945_6	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007945-folA-K00287	NA	NA
BMS010_04414	531	osmY	COG2823	Osmotically-inducible protein Y	ATGATGCGCAACCCGCTGATCCTTTTTGTCCTGGCCCTCAGCCTGGTTCTGGGCGGCTGCGGTAGCCGCACCATCGGCAAGAAGATCGACGATCAGTTCATCCCTGGCCGGGTCGAGGCCAACATGGCCGAGGCCCACCAGGACCTGGTCCACTCGTCGCATATCGTGGTGACCAGCTACAACGGCGTAGTCCTGTTGGCAGGCCAGACGCCACGTGCTGAACTCAAGGAAATGGCTGAGCGGGCTGCTCGCTCGGTACAGGGCGTGCGCAAGGTGCACAACGAGCTGCAAGTCATACAGCCCTCCTCGGCACTGGCACGCAGCAACGACACCCTGCTGACCACCAAGATCAAGACGCAGATGCTGGCCGATAGCAACATCGCCAGCTCCCGTATCAAGGTCGTCACCGAGAACGGCATCGTCTATCTGCTCGGCCTGGTCACGCGCCCGGAAGCCGCCCGCGCCACCAACCTCGTACAGGGCGTGTCCGGCGTACAGAAGATCGTCAAGCTGTTCGAATACACGGACTGA	MMRNPLILFVLALSLVLGGCGSRTIGKKIDDQFIPGRVEANMAEAHQDLVHSSHIVVTSYNGVVLLAGQTPRAELKEMAERAARSVQGVRKVHNELQVIQPSSALARSNDTLLTTKIKTQMLADSNIASSRIKVVTENGIVYLLGLVTRPEAARATNLVQGVSGVQKIVKLFEYTD				NA	NA	NA	NA	NA
BMS010_04415	594	gmhA	COG0279	Phosphoheptose isomerase	ATGGACATGCAATCCCGTATCCGCCAGCTCTTCCAGGCCAGCATCGACACCAAGCAGCAGGCCATGGAAGTTCTCGTACCGTTCATCGAGCAGGCGAGCCAAGTCATGGTTCATGCCCTGCTCAACGAGGGCAAGATCCTTTCCTGCGGCAACGGTGGCTCCGCCGGCGATGCCCAGCACTTTTCCTCCGAGCTGCTCAACCGCTTCGAGCGCGAACGTCCGAGTCTGCCGGCCGTGGCCCTGACCACCGACAGCTCGACCATCACCTCGATCGCCAACGACTACAGCTACAACGAAGTCTTTTCCAAGCAGATTCGCGCGCTCGGCCAACCGGGCGACGTACTCCTGGCGATTTCCACCAGCGGCAACTCTGCAAACGTCATCCAGGCCATCCAGGCCGCACACGATCGCGAGATGGTGGTCGTGGCGCTGACTGGCCGAGACGGCGGCGGCATGGCCTCCCTGCTTCTTCCCGAAGACGTCGAAATCCGCGTGCCGTCCAAGGTCACCGCACGCATTCAGGAAGTGCACTTGCTGGCCATCCATTGCCTGTGCGATCTCATCGATAGTCAGTTGTTCGGGAGTGAAGAATGA	MDMQSRIRQLFQASIDTKQQAMEVLVPFIEQASQVMVHALLNEGKILSCGNGGSAGDAQHFSSELLNRFERERPSLPAVALTTDSSTITSIANDYSYNEVFSKQIRALGQPGDVLLAISTSGNSANVIQAIQAAHDREMVVVALTGRDGGGMASLLLPEDVEIRVPSKVTARIQEVHLLAIHCLCDLIDSQLFGSEE	PGPT0023030_1033	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-MANNO-HEPTOSE|-PHOSPHATE_MODIFICATION,PGPT0023030-gmhA|lpcA-K03271	NA	NA
BMS010_04416	366			hypothetical protein	ATGGGCAGCACGCAGGCCAGCGGTCGATCCGCCGAAGCATTGGCGCTTCGGCATCTCCAGCAGCAAGGCCTGCGCCTGCTGACGCAGAACTGGCTCTGCCGGCGCGGCGAGCTCGATCTGGTCATGCTCGATGGCGATACAGTAGTATTCGTCGAAGTACGCTACAGACGGCATTCCGCCTGGGGCGGTGCACTGGAAAGCGTGGATGCGCGCAAGCGCGCCAAGCTCGCCACCGCCGCTCAGCTTTTTCTGCAGAAGGAAGCGCGCTGGGCCAGATACCCGTGCCGCTTCGATGTGGTCGCCATCAATGACGATGGTCGCTCGCCCCCGCGCCTGAACTGGATCCAGAATGCCTTCGATACCTGA	MGSTQASGRSAEALALRHLQQQGLRLLTQNWLCRRGELDLVMLDGDTVVFVEVRYRRHSAWGGALESVDARKRAKLATAAQLFLQKEARWARYPCRFDVVAINDDGRSPPRLNWIQNAFDT				NA	NA	NA	NA	NA
BMS010_04417	1812	lpoA	COG3107	Penicillin-binding protein activator LpoA	ATGATCGCTCGCCTGCGCCCGCTCTCCGCCCTGTGTCTAGCCGGCCTGCTGGTCGCCTGCGGTAGCTCGCCCACGTCCAGCCTCGGGGAGTTGCCGCGCACGCCCCAGGCCAGCATCGAGCAACTGCTGCAACAGGCAGCCGAGAGCAAACCGGAGCAGGCGGCTCTGCTGCGTCTGTCGGCAGCCGATCTGGCCTACAAACAGAAGGACACGGGACGCGCCACGCGCATTCTCGAGCAGGTGCCGCTGGACGGGCTCAAGCCGGCACAACAGATTTTCGCCAGCACACTGGCGGCCGAACTCGCCATGACCCGCAACCAGCCCAAGGCAGCCCTCAAGGCCTTGAGCCACCCGAGCCTGGACCACCTGAGCGAGTTGCCGGTGGAACAGCAAATTCGCACTCAACTGGTGCGAGCCTCCGCCCTGGAAGCCGACGGCCAGACGCTGGCCGCCGCCCGGGAGCGCGTATTCATCGCACCGCTACTCAGCGGCCAGGCGCAAACCACCAATCAGGAAGCGATCTGGGGATTGGTCTCCAGCCTGCCGCTTGACCAGCTACAGGGGAATGGCGACGCCGACCTGAGCGGCTGGCTCGAACTGGCGCGCATCACCAAGAGTTCGGCAACCCTGGAGCAGCAGCAGGCTGCCATCGACGCCTGGCGCACCCAGAATCCTCAGCATCCTGCCGCCCAGCAACTACCGGAAGCCCTGGTCAAGCTGAAGGAACTCGCCAGCCAACCGCTCACCAAAATCGCCCTGCTGTTGCCCCAGGAGGGCCAGTTGGCGTCGGTATCCCGCGCCCTGCGCGACGGTTTCCTCGCTGCCCATTACCAGGCCCAGCAGGCAGGCCAGACTCCACCGGACATCGTTCTGTACGACAGCTCGCAGTTGCGCTCCATGGACGATTTCTACCGCCAGGCCCAGGCCGAAGGCGTACAACTGGTGGTCGGCCCGTTGGAGAAGCCGCTGGTCAAGCAACTCAGCGATCACGAGCAATTGCCGATCACAACCCTGGCGCTGAACTACAGCGAAGCAGGCCAGGAAGGCCCGGCACAACTGTTCCAGTTCGGCCTCGCCGCCGAAGACGAAGCCCGTGAAGTAGCCCGGCGCGCCTGGGCAGACGGCATGCGCCGCGCCGTAGCCCTGGTGCCGCGCGGCGAATGGGGCGACCGGGTATTGGGCGCGTTCCGGCAGAGCTGGGAAGCGGCCGGCGGCAGCCTGATCGCCGCCGAGCACGTCGAGCAGCCGGTGCAACTGGCCCAGCAGATCGCCGACCTGTTCCAACTGCGCCAGAGCGAAGCACGCGCCAAGCGCTTGCAGAATGTGCTCGGCACATCGGTCGCCGCGCAGCCGACCCGTCGCCAGGACGTGGACTTCATCTTCCTCGCCGCCACCCCACAACAGGCCCAGCAGATCAAGCCGACTCTCGCCTTCCAGTACGCGGGAGACGTGCCCGTCTACGCCACTTCACACCTGTTCACCGGCAGCAATGAACAACGCCAGTACCTCGACCTGAACGGCATCCGTTTTTGCGAAACCCCCTGGCTGCTGAACGTCAACGATCCGCTCCGCCAGCAGGTCAGTGCGCAATGGCCGCAAGCCGGCGGCAGCCTCGGCCGACTCTATGCCATGGGGGTCGACGCCTACCGCCTCGCTCCCCGGCTGAGCCAGCTCAAGACCCTGCCGGATACCCAGATTGATGGCCTCTCCGGCCGCCTCAGCCTGAGCCCTGCGCAACGCATCGAGCGCCAACTGCCGTGGGCGGAGTTCCGCGACGGCCAGGTCCAGCGACTGCCGGACGACAGCTACTGA	MIARLRPLSALCLAGLLVACGSSPTSSLGELPRTPQASIEQLLQQAAESKPEQAALLRLSAADLAYKQKDTGRATRILEQVPLDGLKPAQQIFASTLAAELAMTRNQPKAALKALSHPSLDHLSELPVEQQIRTQLVRASALEADGQTLAAARERVFIAPLLSGQAQTTNQEAIWGLVSSLPLDQLQGNGDADLSGWLELARITKSSATLEQQQAAIDAWRTQNPQHPAAQQLPEALVKLKELASQPLTKIALLLPQEGQLASVSRALRDGFLAAHYQAQQAGQTPPDIVLYDSSQLRSMDDFYRQAQAEGVQLVVGPLEKPLVKQLSDHEQLPITTLALNYSEAGQEGPAQLFQFGLAAEDEAREVARRAWADGMRRAVALVPRGEWGDRVLGAFRQSWEAAGGSLIAAEHVEQPVQLAQQIADLFQLRQSEARAKRLQNVLGTSVAAQPTRRQDVDFIFLAATPQQAQQIKPTLAFQYAGDVPVYATSHLFTGSNEQRQYLDLNGIRFCETPWLLNVNDPLRQQVSAQWPQAGGSLGRLYAMGVDAYRLAPRLSQLKTLPDTQIDGLSGRLSLSPAQRIERQLPWAEFRDGQVQRLPDDSY				NA	NA	NA	NA	NA
BMS010_04418	876	rsmI_2	COG0313	Ribosomal RNA small subunit methyltransferase I	GTGACGGCTCCGGGTGCTCTGAATTCCTCTGTCGGCACGCTCTTCGTTGTCGCCACACCGATCGGCAATCTGGACGATATCAGTGCGCGGGCGCTGCGGGTGTTGCGCGAGGTATCCCTGATCGCGGCGGAAGATACCCGTCATTCGGCCCGGCTGATGCAGCACTTCGGTATCTCCACGCCCTTGGCGGCCTGCCATGAGCATAACGAACGGGATCAGGGCGGTCGTTTTCTTGCCAGGCTGGAAGCGGGGGAAGATGTCGCGCTGATTTCCGATGCGGGTACGCCGCTGATTTCCGATCCGGGGTTCCATCTGGTCCGGCAGGCGCGCGCAGCCGGGATTCCCGTCGTACCGGTACCAGGCGCTTGCGCCCTGATTGCCGCATTATCGGCGGCGGGCTTGCCGTCCGATCGCTTCGTTTTCGAAGGGTTTCTGCCGGCCAAGGCGGCTGCGCGCCGGGCACGTCTGGCCTTGCTCAAGGAAGAGCCGCGCACGCTGATCTTCTACGAGGCGCCGCATCGGATTCTCGAGTGCATCGAGGATATGGAAGCGGCGTTCGGCGGTGACCGGCAGGCTGTCTTGGCGCGCGAACTGACCAAGACCTTCGAGACGCTCAAGGGGCTGCCTCTAGCTGAGTTGCGCGCCTGGGTGGCAGCCGATAGCAATCAGCAGCGCGGCGAATGCGTGGTACTGGTGGACGGCTGGCAGGCGCCCGAGGGGGACGAGGCCTTGAGTGCCGAGGCGTTGCGCGTGCTCGATCTGTTGCTGGCGGAGCTGCCGCTCAAGCGGGCGGCCGCAGTGGCGGCGGAGATAACCGGGGTGCGGAAGAACCTGCTCTATCAGGCGGCTCTGGAGCGCCGGCAGGGCGCGGATTGA	MTAPGALNSSVGTLFVVATPIGNLDDISARALRVLREVSLIAAEDTRHSARLMQHFGISTPLAACHEHNERDQGGRFLARLEAGEDVALISDAGTPLISDPGFHLVRQARAAGIPVVPVPGACALIAALSAAGLPSDRFVFEGFLPAKAAARRARLALLKEEPRTLIFYEAPHRILECIEDMEAAFGGDRQAVLARELTKTFETLKGLPLAELRAWVAADSNQQRGECVVLVDGWQAPEGDEALSAEALRVLDLLLAELPLKRAAAVAAEITGVRKNLLYQAALERRQGAD				NA	NA	NA	NA	NA
BMS010_04420	405	mraZ_2	COG2001	Transcriptional regulator MraZ	ATGCCGAGCCGGTATCGTGACGAGCTCGTTTCGCGTTGTGCCGGGCAGCTCATCGTTACCATCGATGCCGTCGACCCCTGCCTGTGTGTCTATCCATTGCCGGAATGGGAGCTGATCGAAGCCAAGCTTCGCGAGCTGCCTTCCCTGCGCGAGGAAACCCGCCGCTTGCAACGTCTGCTGATCGGTAATGCCGTTGACCTCGAACTGGATGGCAGCGGCCGTTTTCTCGTGCCGCCGCGTTTGCGCGAGTACGCCCGGCTCGACAAGCGGGCGATGCTGGTCGGTCAACTGAATAAGTTCCAACTGTGGGACGAAGATGCCTGGAACGCTGTGGCAGCAGCGGATCTGGCAGCCATTAAAGAGCCCGGCGGTCTGCCGGATGAATTGCGTGATCTGATCCTGTGA	MPSRYRDELVSRCAGQLIVTIDAVDPCLCVYPLPEWELIEAKLRELPSLREETRRLQRLLIGNAVDLELDGSGRFLVPPRLREYARLDKRAMLVGQLNKFQLWDEDAWNAVAAADLAAIKEPGGLPDELRDLIL				NA	NA	NA	NA	NA
BMS010_04421	942	rsmH_2	COG0275	Ribosomal RNA small subunit methyltransferase H	ATGACCAGCGGCTACCGCCACATCACCGTATTGCTTGACGAGGCTGTCGAGGCTCTCGCCGTGCGCGCGGACGGCTGCTATCTGGACGGCACCTTCGGTCGAGGCGGGCATAGCCGGTTGATCCTGGAACGGCTTGGTCCGGGAGGGCGGTTGCTGGGTTTCGACAAGGATCCCCAGGCGATCGCGACGGGGCAAGCACTGGCGGCCGAAGACGGCCGCTTCGTCATTGTGCAACGTAGTTTTGCCGAGCTGGGTGACGAGGTCGCTGCGCGCGGTTTGTCCGGCAAGCTGTCCGGCGTTCTGCTTGACCTAGGCGTTTCCTCTCCGCAACTGGATGACCCGGAGCGCGGATTCAGTTTCCTCAACGATGGCCCGTTGGATATGCGCATGGACCCGAGTCGGGGTATCAGCGCGGCCGACTGGATTGCCAGCGCCAGCGAGGACGAAATCGCCCGGGTGTTCAAGGAGTACGGCGAAGAGCGCTTCGCCAAGCGCATGGCGCGTGCCGTGGTGCAACGCCGTACGGAGAAGCCCTTCGTGCGCACCGCCGACCTGGCGGCCGTACTCAGTGCCGCGAATCCCGCCTGGGAAAAAGGCAAGAATCCCGCTACCCGTGCCTTTCAGGGCCTGCGTATCCATGTCAACAACGAGTTGGGCGATCTAGAGCAGGGACTTGCTGCTGCCCTGGAAGCGCTCGAGGTCGGCGGACGTCTGGTGGTGATCAGCTTCCATTCCTTGGAAGATCGCATCGTCAAGCAGTTCATGCGCCGCCAGGCCAAAGGCGAGGCGGATAATCTGCCCCGCGATCTGCCTGTCCGCCCTGCCGCGTTCGTTCCCCGCTTGAAGCTGCTCGGCAAACCGCAGTACGCCTCAGAGGCCGAAACCAAGGCCAATCCGCGCTCGCGCAGTGCGGTCATGCGCGTGGCGGAGAAGCTGCAATGA	MTSGYRHITVLLDEAVEALAVRADGCYLDGTFGRGGHSRLILERLGPGGRLLGFDKDPQAIATGQALAAEDGRFVIVQRSFAELGDEVAARGLSGKLSGVLLDLGVSSPQLDDPERGFSFLNDGPLDMRMDPSRGISAADWIASASEDEIARVFKEYGEERFAKRMARAVVQRRTEKPFVRTADLAAVLSAANPAWEKGKNPATRAFQGLRIHVNNELGDLEQGLAAALEALEVGGRLVVISFHSLEDRIVKQFMRRQAKGEADNLPRDLPVRPAAFVPRLKLLGKPQYASEAETKANPRSRSAVMRVAEKLQ				NA	NA	NA	NA	NA
BMS010_04422	294	ftsL	COG3116	Cell division protein FtsL	ATGAGCCGCGTCCTCCCCAAATCCATGCCGGCCGGCAGCTTTCTGTTGCTGCTGCTGTTCGTTGGGGTGCTGCTTTCCGCCATCGCGGTGTCCTACAGCGCGCATTGGAATCGCCAGTTGCTCAACGCGCTGTACGCGGAGCTGAGTGTGCGCGACAAGGCGCAGGCCGAATGGGGCCGACTGATCCTGGAGCAGAGCACCTGGACCGCACACAACCGCATCGAGACGTTGGCGAGCGAGCGTCTGAAGATGCGCATTCCCGAGCCTGCTGAAGTGCGGATGGTGGCGCCATGA	MSRVLPKSMPAGSFLLLLLFVGVLLSAIAVSYSAHWNRQLLNALYAELSVRDKAQAEWGRLILEQSTWTAHNRIETLASERLKMRIPEPAEVRMVAP				NA	NA	NA	NA	NA
BMS010_04423	1731	ftsI_3	COG0768	Peptidoglycan D,D-transpeptidase FtsI	ATGATCAAGCTGGAAGGTGCGCTCTATCCCTGGCGCTTCCGCCTGGTCCTGGTCCTGCTCGCCTTGATGAGTGGGGCGATCGCCTGGCGCATCATCGATTTGCAAGTGGTGGACCGTGACTTCCTCAAGGAGCAGGGTGACGCCCGCAGCATGCGGCACATCCCGATTCCTGCGCACCGTGGTTTGATCACCGATCGCAACGGAGAGCCGTTGGCGGTGAGTACCCCGGTTATCACTCTGTGGGCCAACGGCAAGGAATTGCAGGCCGCCCGCGACCAATGGCCTCGGCTCGCCGCCGCGCTGGGCCAAGAGCCTACGACCTTCGCCCAGCGCCTCGAGCAGAATGCCGGGCGTGAATTCATGTATCTGGTCCGTGGCCTGACCCCGGAGAAGGGCCAGAGCATTCTCGATCTGAAAATTCCGGGCGTTTACTCCATCGAGGAGTTTCGTCGTTTCTACCCGGCTGGTGAAGTGACCGCGCACGTGGTTGGTTTCACCGATATCGACGACCGCGGGCGCGAAGGCATGGAACTGGCGTTCGATGAGTGGCTGGCCGGTGTGCCGGGTAAGCGCCAGGTCCTAAAGGACCGTCGTGGCCGCTTGATCAAGGACGTACAGGTGGTGAAGAACGCCAAGGCCGGCAAGGCCCTGGCACTGTCGATCGACTTGCGCCTGCAATACCTGGCTCATCGCGAACTGCGCAATGCCATGCAGGAGTTTGGCGCCAAAGCCGCCAGTCTGGTGATGATCGACGTGAAAACCGGCGAGATTCTCGCCATGGTCAACCAGCCCACCTATAACCCGAACAACCGTCGCAACCTGCAGCCGGCGGCGATGCGCAACCGGGCGATGATCGATGTGTTCGAGCCGGGCTCGACGGTCAAGCCGTTCTCCATCGCCGCTGCGCTGGGCACCGGGCGCTGGAAGCCGGAGTCGACCGTCGACACCTATCCCGGCAGCCTGCAGATCGGTCGCTACACCATCCGCGACGTATCGCGCGGAGGGGTGCTAAACCTGACCGGCATCCTGATGAAGTCGAGCAACGTAGGGATCAGCAAGATTGCCTTCGACATCGGTGCCGAGCCGATCTATGCGGTCATGCAGCAGGCGGGTCTCGGCCAGGACACCGGATTAGGCTTCCCTGGCGAGCGCGTCGGCAACCTGCCCAATTACCGTGTTTGGAAGAAGGCCGAGACGGCGACCCTGGCCTACGGTTACGGCCTCTCCGTGACCGCCGTGCAATTGGCTCATGCCTATGCGGTGCTGGCCAACCAGGGGCAGAACGTACCGCTGTCCATGGTCCGTCTGGATAACAAGCCGGCGCCGACCCAGGTGATCGACCGGGAAATCGCCCACACCGTGCTGGGCATGCTGCAAGCGGTGGTGGAAGAACCGGGTGGCGGCGGCGCGCGCGCCAAGGTGCCGGGCTACCACGTCGGCGGCAAGAGCGGCACGGCGCGCAAGGCGGCGGTTGGCAGCAAAGGTTATGTCGAGCATGCCTATCGCTCGTTCTTCGCCGGCGTTGCGCCGATTGCCAACCCGCGTATCGCGGTGGTGGTGATGATCGACGAACCGAGTAATGGCGCCTATTACGGCGGCCTGGTTTCCGCACCGGTGTTCGGCAAGGTGATGGCCGGTGCGTTGCGCTTGATGAATATAGCCCCTGACGATCTGCCGCCAGCGGAAACCCAGACAGCGGATGCCAAAGACGGCAAAGGAGGGCGCACCTGA	MIKLEGALYPWRFRLVLVLLALMSGAIAWRIIDLQVVDRDFLKEQGDARSMRHIPIPAHRGLITDRNGEPLAVSTPVITLWANGKELQAARDQWPRLAAALGQEPTTFAQRLEQNAGREFMYLVRGLTPEKGQSILDLKIPGVYSIEEFRRFYPAGEVTAHVVGFTDIDDRGREGMELAFDEWLAGVPGKRQVLKDRRGRLIKDVQVVKNAKAGKALALSIDLRLQYLAHRELRNAMQEFGAKAASLVMIDVKTGEILAMVNQPTYNPNNRRNLQPAAMRNRAMIDVFEPGSTVKPFSIAAALGTGRWKPESTVDTYPGSLQIGRYTIRDVSRGGVLNLTGILMKSSNVGISKIAFDIGAEPIYAVMQQAGLGQDTGLGFPGERVGNLPNYRVWKKAETATLAYGYGLSVTAVQLAHAYAVLANQGQNVPLSMVRLDNKPAPTQVIDREIAHTVLGMLQAVVEEPGGGGARAKVPGYHVGGKSGTARKAAVGSKGYVEHAYRSFFAGVAPIANPRIAVVVMIDEPSNGAYYGGLVSAPVFGKVMAGALRLMNIAPDDLPPAETQTADAKDGKGGRT	PGPT0023865_3425	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023865-ftsI-K03587	NA	NA
BMS010_04424	1464	murE_2	COG0769	UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2,6-diaminopimelate ligase	ATGCCCATGCCACTCAATCAATTGTTGCCTCAGGCCGAGAGTTCCGTGCTGATCCGCGAATTGACGCTGGACAGCCGGAAGGTGCGCCCGGGTGATCTGTTCCTCGCGGTCCCGGGTGGACGCCAGGATGGACGTGCTCATATCGCCGACGCCATCGCGCGTGGCGCCGTAGCCGTAGCTTATGAAACCGAGGGAGCACCGGCGCTGCAGGCGGCCGGCGCGATATTGGTGCCGGTGAAGGAACTGGCCGATCAACTGTCGGCCATCGCCGGTCGCTTTTACGGCGAACCGAGCCGTGCGCTACGGTTGGTCGGGGTCACCGGTACCAATGGCAAGACCAGCGTCAGCCAGTTGGTGGCGCAGGCGCTGGACCGGCTCGGCGAGCGTTGCGGCATCATCGGCACCCTGGGTAGCGGTTTCCACGGCGAATTGAAAAGCGGCCTGCACACGACCCCCGACCCGATCGGCGTGCAAGCGGCCCTGGCGCAGCTCAAGCAGGCCGGTGCCCGCGCCGTGGCGATGGAAGTATCGTCCCATGGTCTCGATCAAGGTCGTGTGGCTGCGCTGGCCTTCGACGTCGCCGCGTTCACCAATCTGTCCCGCGACCACCTGGATTACCACGGCAGCATGGAAGCCTATGCCGCCGCAAAGGCCAGGCTGTTCGCCTGGCCGGAACTGAATTGCCGGGTGATCAATCTGGACGACGCGTTCGGCCGTGAGCTGGCAGGTCGCCAACACGATTCGCGGTTGATTTCCTACAGCCTGACCGATCCGGCCGCTTACCTGTTCTGCCGCGATGCCCATTTCAGTGACGATGGCGTACGGGCTGACCTGATTACACCGCGTGGCGAGGGCATTCTGCGCAGCTCGCTGCTCGGCCGGTTCAACCTGAGCAATCTGCTGGCGGTGGTCGGTTGCTTGCTGGGCATGGACTATCCGCTGGACGAAATCCTTCGGGTGATGCCCGATCTGCAAGGTCCCGCTGGCCGTGTGCAGCGCCTCGGTGGCGGAACGGCTCCGCTGGTGGTGGTGGATTACGCACACACCCCGGATGCCTTGGAGAAAGTGCTCGAAGCCTTGCGTCCCCATGCGAGCGGACGCCTGCTGTGCCTGTTCGGCTGCGGTGGCGATCGCGATCGCGGCAAGCGCCCGCTGATGGCCGCGGTCGCCGAGCGCCTGGCCGACGCCGTGCTGGTCACCGATGACAATCCGCGCAGCGAAGATCCGGCGCAGATCGTCGCCGACATCCGGGCGGGATTCAGTGCGCCGGAACGCGTCGAGTTCATGCACGGGCGCGGCCACGCCATCAGCCATCTGATCGCCTCCGCTCAAGTTGGCGATGTCGTCGTGCTGGCCGGCAAGGGGCACGAGGACTACCAGGAGATCGATGGGGTCCGTCAGCCGTTCTCCGACCTGAACGAAGCCAGCCAGGCGCTGGCCGCCTGGGAGGTCGCCCATGCTTAA	MPMPLNQLLPQAESSVLIRELTLDSRKVRPGDLFLAVPGGRQDGRAHIADAIARGAVAVAYETEGAPALQAAGAILVPVKELADQLSAIAGRFYGEPSRALRLVGVTGTNGKTSVSQLVAQALDRLGERCGIIGTLGSGFHGELKSGLHTTPDPIGVQAALAQLKQAGARAVAMEVSSHGLDQGRVAALAFDVAAFTNLSRDHLDYHGSMEAYAAAKARLFAWPELNCRVINLDDAFGRELAGRQHDSRLISYSLTDPAAYLFCRDAHFSDDGVRADLITPRGEGILRSSLLGRFNLSNLLAVVGCLLGMDYPLDEILRVMPDLQGPAGRVQRLGGGTAPLVVVDYAHTPDALEKVLEALRPHASGRLLCLFGCGGDRDRGKRPLMAAVAERLADAVLVTDDNPRSEDPAQIVADIRAGFSAPERVEFMHGRGHAISHLIASAQVGDVVVLAGKGHEDYQEIDGVRQPFSDLNEASQALAAWEVAHA	PGPT0024130_3612	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024130-murE-K01928	NA	NA
BMS010_04425	1368	murF_2	COG0770	UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D-alanine ligase	ATGCTTAAGCCGTTGCTTCTCAGCGAAATCGCCGATGCGCTCAGTGGCCGTCTGGTCGGGAATGATGTCGGCTTCTCTTCGGTGAGCACCGACAGCCGGGCGATCCAGCAGGGCCAGTTGTTCATTGCCCTGACCGGGCCGCGCTTCGACGGTCATGATTACCTGGGCGAAGTCGCCGGGAAGGGCGCCGTTGCGGCGCTGGTCGAGCGGGAGGTGCCGAATGTGGCGCTACCGCAATTGGTGGTGCGCGATACCCGCATGGCTCTCGGCCAGCTCGGGGCGCTGAACCGCCAGGCATTCGCCGGCAAGGTCGCGGCGGTGACCGGCTCCAGCGGCAAGACCAGCGTCAAGGAAATGCTTGCCAGCATCCTGCGGACCCAGGGGCCGGTACTGGCGACCCGCGGCAATCTGAACAACGACCTCGGTGTGCCGCTGACCCTGCTCGAACTGGCGCCCGAACATCAGGGCGCGGTAATCGAACTGGGCGCCAATCGGGTTGGAGAGATTGCCTACACCGTCAGCCTTACCCAGCCCCAGGTGGCGATCATCACCAACGCCGGTAGCGCCCACGTCGGTGAGTTCGGCGGTCCGGACAAGATCGTCCAGGCCAAAGGCGAGATTCTCGAGGGGCTGGGCAGTGGCGGTACCGCCGTGCTCAACCGCGATGACAAGGCGTTCTCCATCTGGCAGGCCCGCTCCAAGGGCGACAGGGTGCTCAGCTTTTCCCTGGGCGACGCTTCGGCCGATTTCCGCGCCAGCGAGCTGGCTCGTGACGCCCGTGGTTGTGTGACATTCACTCTGCAGGGGCTCGCCGGGACCGCACGTATCCAGCTCAACCTGCTGGGGACACACAACGTAGCCAATGCCCTGGCCGCCGCCGCTGCCGCCCATGCGCTGGGCGTACCGCTGGTCGGGATCGTTTCCGGGCTCGAGAGCCTGCAGCCGGTCAAGGGACGCGCCGTAGCGCAGTTGGCGCCGGACGGCACTCGGGTGATCGACGACAGCTACAACGCCAACCCCGCCTCCATGTGCGCGGCCGTTGATATACTCGCCGGTTTTTCCGGGCGCACCGTTCTGGTGCTCGGAGATATGGGCGAACTGGGCGAATGGGCTGAGCGGGGACACCGCGAAGTCGGCGCCTATGCGGCCGGTAAGGTCGATGCTCTCTACGCGGTGGGGCCATTGATGGCCCATGCGGTGAAGGCATTCGGCAGCCAGGGGCGCCATTTCGCCGACCAGGCCACCCTGATCGAGGCGCTACGCGCCGAGCAGGGCCAGAACACCACCATTTTAATAAAGGGCTCGCGCAGCGCGGCGATGGAAAAAGTCGTCGCGGCGCTCTGCGGTACCGGCGAGGGGAGTCATTAA	MLKPLLLSEIADALSGRLVGNDVGFSSVSTDSRAIQQGQLFIALTGPRFDGHDYLGEVAGKGAVAALVEREVPNVALPQLVVRDTRMALGQLGALNRQAFAGKVAAVTGSSGKTSVKEMLASILRTQGPVLATRGNLNNDLGVPLTLLELAPEHQGAVIELGANRVGEIAYTVSLTQPQVAIITNAGSAHVGEFGGPDKIVQAKGEILEGLGSGGTAVLNRDDKAFSIWQARSKGDRVLSFSLGDASADFRASELARDARGCVTFTLQGLAGTARIQLNLLGTHNVANALAAAAAAHALGVPLVGIVSGLESLQPVKGRAVAQLAPDGTRVIDDSYNANPASMCAAVDILAGFSGRTVLVLGDMGELGEWAERGHREVGAYAAGKVDALYAVGPLMAHAVKAFGSQGRHFADQATLIEALRAEQGQNTTILIKGSRSAAMEKVVAALCGTGEGSH	PGPT0024145_3555	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024145-murF-K01929	NA	NA
BMS010_04426	1083	mraY_2	COG0472	Phospho-N-acetylmuramoyl-pentapeptide-transferase	ATGCTGCTGCTGCTGGCAGAGTATCTGCAACAGTTCTACAAAGGCTTCGCGGTCTTCCAGTACCTGACGCTGCGCGGGATTCTGGGCGTGCTGACTGCGCTGGCACTGTCGCTCTGGCTGGGCCCCTGGATGATCCGCACCCTGCAGATCCGCCAGATCGGCCAGGCAGTACGCAACGACGGCCCGCAATCGCACCTGTCCAAATCCGGTACGCCGACCATGGGCGGTGCGCTGATCCTGTCCGCCATCACCATCAGCACTCTGCTGTGGGCGGACTTGAGCAACCGTTATGTCTGGGTCGTACTGGGCGTGACCCTGCTGTTCGGCGGTATCGGCTGGGTGGACGACTACCGCAAGGTGATCGAGAAGAACTCCCGCGGCCTGCCGAGCCGCTGGAAGTATTTCTGGCAATCGGTATTCGGTATCGGCGCGGCGGTCTTCCTTTATATGACTGCACAGACGCCGATCGAAACCACGCTGATCCTGCCGTTGCTGAAGAACATCGAGATCCCGCTGGGGATTTTCTTCGTGGTGCTGACCTATTTCGTCATCGTCGGTTCGAGCAACGCGGTGAACCTCACCGATGGCCTGGATGGGCTGGCGATCATGCCGACCGTCATGGTGGGTAGCGGTCTGGGTATCTTCTGCTATCTCTCCGGCAACGCGCGGTTCGCCGAATACCTGCTGATTCCCTACGTGCCGGGCGCCGGCGAGCTGATCGTGTTCTGCGGCGCGTTGATCGGTGCCGGCCTGGGATTTCTCTGGTTTAACACCTATCCGGCCCAGGTCTTCATGGGGGATGTGGGCGCGCTGGCGTTGGGTGCGGCGCTCGGCACCATCGCCGTGATCGTTCGCCAGGAGATCGTGCTGTTCATCATGGGCGGGGTGTTCGTCATGGAAACCCTGTCGGTGATGATCCAGGTCGCGTCCTTCAAGCTGACCGGCCGGCGTGTGTTCCGCATGGCGCCGATTCATCACCATTTCGAACTGAAGGGCTGGCCCGAGCCGCGCGTGATCGTGCGCTTCTGGATCATCACGGTGATCCTGGTGCTGATCGGCCTCGCCACCCTGAAACTGCGTTGA	MLLLLAEYLQQFYKGFAVFQYLTLRGILGVLTALALSLWLGPWMIRTLQIRQIGQAVRNDGPQSHLSKSGTPTMGGALILSAITISTLLWADLSNRYVWVVLGVTLLFGGIGWVDDYRKVIEKNSRGLPSRWKYFWQSVFGIGAAVFLYMTAQTPIETTLILPLLKNIEIPLGIFFVVLTYFVIVGSSNAVNLTDGLDGLAIMPTVMVGSGLGIFCYLSGNARFAEYLLIPYVPGAGELIVFCGALIGAGLGFLWFNTYPAQVFMGDVGALALGAALGTIAVIVRQEIVLFIMGGVFVMETLSVMIQVASFKLTGRRVFRMAPIHHHFELKGWPEPRVIVRFWIITVILVLIGLATLKLR	PGPT0024105_2411	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024105-mraY-K01000	NA	NA
BMS010_04427	1347	murD_2	COG0771	UDP-N-acetylmuramoylalanine--D-glutamate ligase	ATGAGCCTGATCGCTTCCGACCATTTCCGCATCGTTGTCGGCCTCGGCAAGAGCGGCATGTCCCTGGTGCGCTTCCTGGCGCGCCAAGGCTTGCCCTTTGCTGTTGCCGATACGCGCGAGAATCCGCCGGAACTGGCCGCCCTCAAGACGCAGTTCCCGCAGGTCGAGGTGCGTTGCGGTGCGCTGGACGTGGAATTCCTGTCCCGAGCCGGCGAGCTGTACGTCAGTCCGGGTCTGGCATTGGCTACGCCGGTGCTGCGTGAAGTCGCGGCGCGGGGCGTGAAGATGTCCGGCGATATCGATCTGTTCGTCCGTCATGCCAAGGCACCGATCGTCGCCATCACCGGCTCCAACGCCAAGAGCACCGTGACCACGCTGGTCGGCGAAATGGCCGCGGCGGCGGGGCGCAAGGTCGCGGTCGGCGGCAACCTGGGCACGCCGGCGCTGGACTTGCTGGATGATGCGGTGGAGCTCTACGTGCTCGAGTTGTCGAGTTTCCAGTTGGAGACCACCGAGCGGATGAATGCCGAAGTCGCCACCTGCCTGAATGTCAGCGAAGACCACATGGACCGCTATGACGATCTGCAGGCCTACCACCTGGCCAAGCACCGTATCTTCCGTGGCGCCCGCCAAGTGGTGGTGAACCGTCAGGACGCGTTGTCCCGGCCGCTGATCGCCGATCAGGTGCCGTGCTGGACCTTCGGCCTGGACAAGCCGGACTTCAAGGGCTTCGGCTTGATCGAGGAAAACGGCGAGAAGCACCTGGCCTTCCAGTTCCAGGCCTTGATGCCGGTGCGTGAGTTGAAGATGCGTGGCGCGCACAACCAGGCCAATGCTCTGGCTGCGCTAGCTCTTGGCCATGCCGTGGGCCTGCCGTTCGAGCCGATGCTGGATACGCTGCGTGGCTTCACCGGCCTGCCGCATCGCTGCCAGTGGGTGCGCGAGCGCAACGGTGTGAATTACTACGACGACTCCAAGGCCACCAACGTCGGTGCGGCGCTGGCGGCCATCGAAGGCCTGGGGGCGGACATTCCCGGCAAGCTGGTGCTGATCGCCGGTGGTGACGGCAAGGGGGCGGACTTCTCCGCCCTGCGTGCGCCGGTTGGCCGCTTCTGCCGGGCCGTGGTGTTGCTCGGCCGCGATGCCGAGCGTCTGGCCGAAGCATTGGACGGAGCGGCACCGCTGGTGCGGGTGAAGACGCTCGACGAGGCTGTCCGGAGTGCGGCCGAACTGGCGTCGTCCGGCGATGCGGTACTGCTGTCGCCCGCCTGCGCCAGCCTGGACATGTTCAAGAATTTCGAAGAGCGCGGACGTCTGTTCGCCCAGGCTGCGGAGGGGTTGCACTGA	MSLIASDHFRIVVGLGKSGMSLVRFLARQGLPFAVADTRENPPELAALKTQFPQVEVRCGALDVEFLSRAGELYVSPGLALATPVLREVAARGVKMSGDIDLFVRHAKAPIVAITGSNAKSTVTTLVGEMAAAAGRKVAVGGNLGTPALDLLDDAVELYVLELSSFQLETTERMNAEVATCLNVSEDHMDRYDDLQAYHLAKHRIFRGARQVVVNRQDALSRPLIADQVPCWTFGLDKPDFKGFGLIEENGEKHLAFQFQALMPVRELKMRGAHNQANALAALALGHAVGLPFEPMLDTLRGFTGLPHRCQWVRERNGVNYYDDSKATNVGAALAAIEGLGADIPGKLVLIAGGDGKGADFSALRAPVGRFCRAVVLLGRDAERLAEALDGAAPLVRVKTLDEAVRSAAELASSGDAVLLSPACASLDMFKNFEERGRLFAQAAEGLH	PGPT0024125_3251	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024125-murD-K01925	NA	NA
BMS010_04428	1224	ftsW_2	COG0772	putative peptidoglycan glycosyltransferase FtsW	ATGCTGTCCCTGCTGCGTCCGTACCCGTCCCCGCTGTTCAGCCGTCGCGGCCTGGATGTCGACTTCCCCTTGCTGGCCGGTTGTCTGGCGCTGCTCGGCCTGGGGCTGGTGATGATCACCTCGGCATCCTCCGAAGTGGCTGCCGCGCTATCCGGCAATCCGCTGTATCACATGATCCGCCACCTGGTTTATCTGGTGATCGGACTCGGTGTCTGCGGACTGGTGCTGATGATTCCGCTGTCCACCTGGCAGCGTCTGGGCTGGGTCCTGTTGATCGGCGCCTTCGGGTTGCTGGTGCTGGTGCTGGTGCCGCATATCGGGCGCGAGGTGAACGGCTCCATGCGCTGGATCGGCTTCGGTGCGTTCAACGTCCAGCCCTCGGAAATCGCCAAGGTCTTCGTGGTTCTCTACCTCGCCGGTTATCTGGTCCGCCGCCAGGAAGAGGTGCGCGAGAGCTGGGCCGGCTTCTTCAAGCCGTTCGTCGTGCTGCTGCCGATGGCCGGCCTGCTGCTGTTGGAGCCCGACTTTGGTGCCACTGTGGTCATGATGGGTTCGGCCGCCGCCATGTTGTTCCTCGGTGGTGTCGGCCTGTTCCGCTTCAGCTTGATGGTGGCGCTGGCCGTGGGTGCGGTGTTCGTCCTGGTACAGACCCAGGAGTACCGCCTGCAACGCCTGATCACTTTCACCGACCCCTGGGCCGACCAGTTCGGTTCCGGCTACCAGTTGACCCAGGCGCTGATCGCCTTCGGTCGGGGCGAATGGTTCGGCGTCGGGCTGGGCAACAGTATCCAGAAGCAGTTCTACCTGCCCGAGGCGCATACCGATTTCGTCTACGCGGTGCTTGCCGAAGAACTTGGCATGGTCGGCGCCTTGGCGACCCTGGGGCTGTTCCTCTTCGTCAGCGTGCGTGCCTTGTACATCGGGTTGTGGGCGGAGAAGGCCAAGCAGTTCTTCGCCGCCTATACGGCCTATGGTCTGGCGTTTCTCTGGATTGGCCAGTTCCTGATCAATATCGGTGTGAATATCGGCCTGTTGCCCACCAAGGGCCTGACCTTGCCGTTCCTCAGCTACGGCGGCAGCTCGCTGGTGATCTGCTGCCTCAGCCTCGGCCTGTTGCTGCGTATCGAATGGGAGCGCCGCACTGTGCTGGGGACAGAGGATGTGGAGTTTGCCGAAGAAGATTTTCCCGAAGACGGCACGGAGGGTGTGAGCCATGCCCGCTAA	MLSLLRPYPSPLFSRRGLDVDFPLLAGCLALLGLGLVMITSASSEVAAALSGNPLYHMIRHLVYLVIGLGVCGLVLMIPLSTWQRLGWVLLIGAFGLLVLVLVPHIGREVNGSMRWIGFGAFNVQPSEIAKVFVVLYLAGYLVRRQEEVRESWAGFFKPFVVLLPMAGLLLLEPDFGATVVMMGSAAAMLFLGGVGLFRFSLMVALAVGAVFVLVQTQEYRLQRLITFTDPWADQFGSGYQLTQALIAFGRGEWFGVGLGNSIQKQFYLPEAHTDFVYAVLAEELGMVGALATLGLFLFVSVRALYIGLWAEKAKQFFAAYTAYGLAFLWIGQFLINIGVNIGLLPTKGLTLPFLSYGGSSLVICCLSLGLLLRIEWERRTVLGTEDVEFAEEDFPEDGTEGVSHAR	PGPT0014810_1813	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014810-ftsW|spoVE-K03588	NA	NA
BMS010_04429	1071	murG_2	COG0707	UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglucosamine transferase	ATGCCCGCTAACGTGCTGATCATGGCGGGGGGCACCGGGGGCCATGTGTTCCCGGCACTCGCCTGCGCCCAGGAGTTCAAGGCGCGTGGTTATTCCGTGCATTGGCTGGGAACGCCGCGCGGTATCGAAAACGATCTGGTGCCCCAGGCCGGTCTGCCGTTGCACCTGATCCAGGTCAGCGGCTTGCGCGGCAAGGGCATTGCGTCGCTGCTGAAGGCGCCGTTCCAGTTGATCAAGGCGCTGTTCCAGGCGCGTCGGGTGATGCGCGAGTTGCAGCCGGTCTGTGTGTTGGGCATGGGCGGCTACGTGACCGGGCCAGGCGGCCTGGCTGCACGGCTGGCTGGCGTGCCACTGATCATTCACGAGCAGAACGCCGTGGCCGGGACTGCCAACCGTGCCCTGGCTCCGCTTTCGAGCCGGGTATGCGAGGCCTTCCCGGAAACCTTCGCCACGTCTGCCAAGCGTCGCACCACCGGCAACCCGGTGCGCGAGGAACTGTTCCTGGAAACGCCACGCCAGACGCTGCAAGGCCGCAAGCCGCGCTTGCTGATCCTGGGCGGCAGCCTGGGTGCCGAGCCACTCAACAAGCTGCTGCCGGAGGCGTTGGTCCAGGTGTCTGCGGAGTTGCGTCCCGAGGTGTTCCATCAGGCCGGCAGGCAGCACCACGAGATCACCGCCGAGCGCTACCGCACCGTCGGAGTCGAGGCGGAGGTGGCGCCCTTCATCAAGGACATGGCGCGTGCCTACGCCTGGGCCGATCTGGTGATCTGCCGCGCCGGCGCGCTCACCGTCAGCGAACTGGCCGCCGCCGGGCTGCCGTCGTTCCTGGTGCCGTTGCCGCATGCGATCGACGACCACCAGACCCGTAACGCCGATTATCTGGCGAAGGAGGGCGCCGCCGTCCTTCTGCCGCAACGCACGACTGACGCCGCCACGCTGGCCGCGCAGCTGACCGAGGTTTTGATGCAACCGGAAAAACTCAAGGCCATGGGCGCGACAGCCCGCCGTCTGGCCAAGCCCGACGCCACCCGCAGCGTGGTGGACATCTGCCTGGAGGTGGCCCATGGCTAA	MPANVLIMAGGTGGHVFPALACAQEFKARGYSVHWLGTPRGIENDLVPQAGLPLHLIQVSGLRGKGIASLLKAPFQLIKALFQARRVMRELQPVCVLGMGGYVTGPGGLAARLAGVPLIIHEQNAVAGTANRALAPLSSRVCEAFPETFATSAKRRTTGNPVREELFLETPRQTLQGRKPRLLILGGSLGAEPLNKLLPEALVQVSAELRPEVFHQAGRQHHEITAERYRTVGVEAEVAPFIKDMARAYAWADLVICRAGALTVSELAAAGLPSFLVPLPHAIDDHQTRNADYLAKEGAAVLLPQRTTDAATLAAQLTEVLMQPEKLKAMGATARRLAKPDATRSVVDICLEVAHG	PGPT0024150_4016	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024150-murG-K02563	NA	NA
BMS010_04430	1461	murC_2	COG0773	UDP-N-acetylmuramate--L-alanine ligase	ATGGCTAAATCGCCTGCTGCAGCCAAAGCCGAAATCCGGCGCATGCGCCGCATCCGCCGCATCCATTTCGTCGGGATCGGCGGTGCAGGCATGTGCGGTATCGCCGAAGTACTGCTGAACCTCGGCTACGAGGTTTCCGGCTCCGACCTTAAGGCCTCCGCGGTGACCGAGCGCCTGGAGAGTTTCGGTGCGCAGGTATTCATCGGCCACCGTGCCGAGAATGCCGAACAGGCTGACGTGCTGGTGGTTTCCAGCGCGATCAATACCGCCAACCCGGAAGTCGCGACGGCCCTGGCACGGCGCATTCCCGTGGTTCCGCGCGCCGAAATGCTCGCCGAGCTGATGCGCTATCGCCACGGCATCGCGGTGGCCGGCACCCATGGCAAGACCACTACTACCAGCCTTATCGCCTCGGTGTTCGCCGCTGGCGGGCTCGACCCGACCTTCGTCATCGGTGGCCGGCTGAATGCCGCCGGCACCAACGCGCAGCTGGGCACCAGCCGCTATCTGGTGGCCGAGGCCGACGAAAGCGATGCCAGCTTCCTGCATCTGCAGCCGATGGTCGCCGTGGTGACCAACATCGATGCGGATCACATGAGTACTTATGAAGGCGACTTCAACAAGCTGAAGAAGACCTTCATCGAATTCCTCCACAACCTGCCGTTCTACGGTCTGGCGGTGGTCTGCGTGGACGACCCGGTGGTGCGCGAAATCCTGCCGCAGGTGGCGCGCCCGACCCTGACCTACGGCTTCGCCGAGAACGCCGACGTGCGCGCCATCAACGTGCGCCAGGAAGGCATGCGTACCTACTTCACCGTGCTGCGCAAGGATCGTGAGCCGCTGGACGTCTCGGTGAACATGCCGGGCAACCACAACGTGCTCAACGCCCTGGCGACCATCGCTATCGCCACCGACGAAGGCATCAGCGACGACGCGATCGTCCAGGGGCTGTCGGGCTTCCAGGGCGTGGGCCGGCGTTTCCAGGTCTACGGCGAGCTGCCGGTGGATGGCGGTAGCGTGATGCTGGTGGACGACTACGGACACCATCCGCGCGAAGTGGCGGCGGTGATCAAGGCGGTACGCGGTGGCTGGCCGGAGCGCCGGCTGGTGATCGTCTACCAGCCGCATCGCTATACCCGCACCCGCGATCTCTATGACGACTTCGTGCAGGTCCTCGGAGAGGCCAACGTCCTGTTGCTGATGGAGGTCTATCCGGCGGGCGAGGAACCGATCCCCGGTGCCGACAGCCGTCATCTGTGCCACAGCATCCGCCAGCGCGGCCAACTGGACCCGATCTACGTCGAGCGTGGCGTCGACCTGGCGCCGACGCTCAAGCCGCTGCTGCGTGCCGGTGACATCCTGCTTTGCCAAGGGGCCGGCGACATCGGCGGCCTGGCACCGCAACTGATCCAGAGCCCTCTGTTCGCCGCCAGTGAAGCCGGCGAAAGGAGTTCGAAATGA	MAKSPAAAKAEIRRMRRIRRIHFVGIGGAGMCGIAEVLLNLGYEVSGSDLKASAVTERLESFGAQVFIGHRAENAEQADVLVVSSAINTANPEVATALARRIPVVPRAEMLAELMRYRHGIAVAGTHGKTTTTSLIASVFAAGGLDPTFVIGGRLNAAGTNAQLGTSRYLVAEADESDASFLHLQPMVAVVTNIDADHMSTYEGDFNKLKKTFIEFLHNLPFYGLAVVCVDDPVVREILPQVARPTLTYGFAENADVRAINVRQEGMRTYFTVLRKDREPLDVSVNMPGNHNVLNALATIAIATDEGISDDAIVQGLSGFQGVGRRFQVYGELPVDGGSVMLVDDYGHHPREVAAVIKAVRGGWPERRLVIVYQPHRYTRTRDLYDDFVQVLGEANVLLLMEVYPAGEEPIPGADSRHLCHSIRQRGQLDPIYVERGVDLAPTLKPLLRAGDILLCQGAGDIGGLAPQLIQSPLFAASEAGERSSK	PGPT0024120_1416	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024120-murC-K01924	NA	NA
BMS010_04431	948	ddl		D-alanine--D-alanine ligase	ATGAGTGTCGAACTGAAATCCACCCTCGATCCTAGGGCCTTCGGCCGCGTCGCCGTGCTTTATGGCGGCCGAAGTGCCGAACGCGAGGTCTCCCTGAAATCCGGTGCCATGGTGCTGCAGGCCCTGCAGACCGCTGGCGTGGATGCGTTCGGTATCGATGTTGGCGAGGATTTCCTGCAACGCCTGCTGGCCGAGCGGATCGACCGCGCCTTCATCGTCCTGCATGGACGGGGTGGCGAAGATGGCAGCATGCAGGGCTTGCTGGAGTGCGCCGGAATCCCCTACACGGGCAGCGGCATCCTGGCTTCCGCGCTGGCGATGGACAAGCTGCGCACCAAGCAGGTGTGGCACAGCCTCGGCCTGCCGACGCCGCGCCACGCCGTGCTCGCCAATGAATCCGACTGCCGGTCGGCTGCGGCGGAACTGGGCTTTCCGTTGATCGTCAAACCGGCCCATGAAGGTTCCAGTATCGGCATGGCCAAGGTGACCAGCGTGGAAGAGCTGATCGCCGCCTGGCAGGCTGCCAGCAGTTTCGATTCCCAAGTCCTGGTCGAGCAGTGGATCAACGGCCCCGAATTCACCATCGCCATGCTGCGCGGGCAGGTGCTGCCGCCGATCGGCCTGGGTACGCCGCACAGCTTCTACGACTACGACGCCAAGTACCTGGCCTCCGATACCCAGTACCGGATTCCCTGCGGCCTGGACGCGGCCAAGGAAGACGAGTTGAAGGCCCTGACCGCCCGCGCCTGCGAAGCGGTCGGCACCCAGGGCTGGGCGCGCGTCGATGTGATGCAGGACAGCGCCGGCCAATTCTGGCTGCTCGAAGTGAACACGGTTCCCGGCATGACCGACCACAGCCTGGTGCCCATGGCTGCACGCGCGGCCGGACTGGATTTCCAGCAATTGGTGCTGGCGATCCTGGCCGATAGCGTCGAGGCGAGGGGCTGA	MSVELKSTLDPRAFGRVAVLYGGRSAEREVSLKSGAMVLQALQTAGVDAFGIDVGEDFLQRLLAERIDRAFIVLHGRGGEDGSMQGLLECAGIPYTGSGILASALAMDKLRTKQVWHSLGLPTPRHAVLANESDCRSAAAELGFPLIVKPAHEGSSIGMAKVTSVEELIAAWQAASSFDSQVLVEQWINGPEFTIAMLRGQVLPPIGLGTPHSFYDYDAKYLASDTQYRIPCGLDAAKEDELKALTARACEAVGTQGWARVDVMQDSAGQFWLLEVNTVPGMTDHSLVPMAARAAGLDFQQLVLAILADSVEARG	PGPT0020050_4654	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0020050-ddl-K01921	NA	NA
BMS010_04432	879	ftsQ_2		Cell division protein FtsQ	ATGCACGGCGCCACTCTCCGTCATCAGCAACCCGGCAGCGGCCGCGCCTCCATGCGCAAGCCGGCGCCGCGGGGTGCCAGTCGGATGGTGGCCAAGGAACCGTTGTCGGCGCGTTTGCCGAAGCCCAATTTCGCGCTGTTCAAGCGTCTGGCCTGGCCGCTGTTGCTGGTTGGGCTGGGGTTCGGTGCCTACGAGCTGGCGCAGCGGTTGTTGCCTTATGCCGACCGGCCGATCGCCAAAGTCAGCGTGGAAGGCGACCTCAGTTACATCAGCCAGCAGGCGGTGCAGCAGCGTATCGCGCCGTTCGTCGAGGCGAGCTTCTTCACCGTCGACCTGGCCGGCATGCGCGGCGAGCTGGAGCAAATGCCCTGGATCGCCCATGCCGAGGTGCGTCGCGTATGGCCGGATCAGGTGCTGATCCGCCTGGAGGAGCAACTGCCGATCGCCCGTTGGGGCGACGAGGCGTTGTTGAACAACCAGGGGCAGGCGTTCGCCCCGCGCGAATCGGCGCACTACGAGCACCTGCCGCAGCTTTATGGGCCGAAGCGTGCGCAACAACGCGTCATGCAGCAGTACCAGGTGCTCAGCCAGATGCTGCGCCCGCTGGGCTTCTCCGTGGCGCGCCTGGAGCTGCGCGAACGGGGTAGCTGGTTCCTGACCACGGGGGCGGGCAGCGACGGCCAGTCCATCGAACTGTTGCTCGGACGCGACCACTTGGTGGAGAAGATGCGCCGCTTCATCAGCATTTACGACAAGGCGCTGAAAGAGCAGATCGCGAATATAGAGCGCATCGACCTGCGTTACCCCAACGGCCTGGCCGTGGCGTGGCGTGCGCCGGTGCCCGACGCGGCGGCGATGACCGCCCGCGCAGAGAATTGA	MHGATLRHQQPGSGRASMRKPAPRGASRMVAKEPLSARLPKPNFALFKRLAWPLLLVGLGFGAYELAQRLLPYADRPIAKVSVEGDLSYISQQAVQQRIAPFVEASFFTVDLAGMRGELEQMPWIAHAEVRRVWPDQVLIRLEEQLPIARWGDEALLNNQGQAFAPRESAHYEHLPQLYGPKRAQQRVMQQYQVLSQMLRPLGFSVARLELRERGSWFLTTGAGSDGQSIELLLGRDHLVEKMRRFISIYDKALKEQIANIERIDLRYPNGLAVAWRAPVPDAAAMTARAEN				NA	NA	NA	NA	NA
BMS010_04433	1248	ftsA_3	COG0849	Cell division protein FtsA	ATGGCAAGTGTGCAGAGCGGCAAGATGATCGTCGGCCTGGACATCGGCACCTCCAAGGTGGTGGCGTTGGTGGGCGAGGTTGCCGCGGACGGCCAACTGGAAATCGTCGGCATCGGGACGCACCCGTCGCGTGGCCTGAAGAAGGGCGTGGTGGTGAACATCGAGTCCACCGTGCAGTCGATCCAGCGTGCCGTCGAAGAAGCCCAGCTGATGGCCGGCTGCCGCATCCACTCGGCCTTCGTCGGGGTGGCCGGTAACCATATCCGCAGCCTGAACTCCCACGGCATCGTCGCCATCCGCGACCGCGAAGTGAGCCCGGCCGATATCGAGCGCGTGCTGGATGCCGCCCAGGCGGTGGCGATCCCGGCCGACCAGCGGGTGCTGCATACCCTGCCGCAGGATTACGTCATCGATAACCAGGAAGGCGTGCGCGAGCCGCTGGGCATGTCCGGCGTCCGTTTGGAGGCCAAGGTCCACGTGGTGACTTGCGCGGTGAATGCGGCGCAGAACGTCGAGAAATGCGTGCGCCGCTGTGGCCTGGAAGTCGACGACATCATTCTCGAACAACTGGCCTCGGCCTATTCGGTGCTTACCGAGGACGAGAAGGAACTGGGCGTCTGCCTGGTGGATATCGGCGGCGGCACCACCGACATCGCCATCTTCACCGAGGGCGCCATCCGTCACACCGCGGTGATTCCGATCGCCGGCGACCAGGTGACCAACGACATCGCCATGGCCCTGCGCACCCCGACGCAGTATGCCGAGGAAATCAAGATCCGCTATGCCTGTGCCCTGGCCAAGCTGGCCGGTGCGGGCGAGACCATCAAGGTGCCCAGCGTCGGCGATCGTCCGCCGCGCGAGCTGTCCCGCCAGGCCCTGGCCGAGGTGGTCGAGCCGCGCTACGACGAGCTGTTCACCCTGATCCAGGCCGAACTACGGCGTAGCGGCTACGAGGATCTGATTCCGGCGGGGATCGTTCTCACCGGCGGTACTTCGAAGATGGAAGGCGCGGTCGAGCTGGCCGAGGAAATCTTCCATATGCCGGTGCGCCTCGGTGTACCCCACAGCGTCAAGGGGCTGGCCGACGTGGTGCGCAACCCGATCTATTCGACCGGCGTGGGGCTGTTGCTCTACGGCCTGCAGAAGCAAGCCGACGGCGTGCCCATGTCCGGTTTCGGCAGTTTCAGCGATGAACCCAAAACACCTGTCCTGGAGCGGCTCAAACGCTGGGTCCAGGGCAATTTCTGA	MASVQSGKMIVGLDIGTSKVVALVGEVAADGQLEIVGIGTHPSRGLKKGVVVNIESTVQSIQRAVEEAQLMAGCRIHSAFVGVAGNHIRSLNSHGIVAIRDREVSPADIERVLDAAQAVAIPADQRVLHTLPQDYVIDNQEGVREPLGMSGVRLEAKVHVVTCAVNAAQNVEKCVRRCGLEVDDIILEQLASAYSVLTEDEKELGVCLVDIGGGTTDIAIFTEGAIRHTAVIPIAGDQVTNDIAMALRTPTQYAEEIKIRYACALAKLAGAGETIKVPSVGDRPPRELSRQALAEVVEPRYDELFTLIQAELRRSGYEDLIPAGIVLTGGTSKMEGAVELAEEIFHMPVRLGVPHSVKGLADVVRNPIYSTGVGLLLYGLQKQADGVPMSGFGSFSDEPKTPVLERLKRWVQGNF				NA	NA	NA	NA	NA
BMS010_04434	1182	ftsZ_2	COG0206	Cell division protein FtsZ	ATGTTCGAATTAGTAGACAACGTCCCACAAAGTGCAGTCATCAAAGTCATCGGCGTCGGTGGCGGTGGTGGCAACGCGGTCAATCACATGGCCAAGAGCAGCATCGAAGGCGTCGAGTTCATCTGCGCAAACACCGATGCCCAGGCGCTGAAGAACGTCGGCGCCCGTACGGTGCTGCAACTGGGTACCGGCGTGACCAAGGGCCTCGGCGCCGGCGCCAATCCGGAGGTCGGCCGTCAGGCCGCGCTGGAAGATCGCGACCGCATCGCCGAAGTGCTGCAAGGCACCGACATGGTCTTCATCACCACCGGCATGGGCGGCGGTACCGGTACCGGTGCGGCACCGATCATCGCTGAAGTGGCCAAGGACCTGGGTATCCTCACCGTGGCGGTAGTGACCCGTCCGTTCCCGTTCGAAGGCCGCAAGCGCATGCAGATCGCCGACGAAGGCATCCGCGCGCTGGCCGAGAGCGTCGACTCGCTGATCACTATCCCCAACGAGAAGCTGCTGACCATCCTGGGCAAGGACGCCAGCCTGCTGTCCGCCTTCGCCAAGGCCGACGACGTGCTCGCCGGTGCGGTGCGCGGCATCTCCGACATCATCAAGCGTCCCGGCATGATCAACGTCGACTTCGCCGACGTGAAAACCGTGATGAGCGAGATGGGCATGGCGATGATGGGCACCGGCTGCGCCAGCGGTCCGAACCGTGCGCGCGAAGCCACCGAAGCGGCGATCCGCAATCCGCTGCTCGAGGACGTGAATCTGCAGGGTGCCCGCGGCATCCTGGTGAACATTACCGCTGGTCCGGATCTGTCCCTCGGCGAATACTCCGACGTGGGTAACATCATCGAGCAGTTCGCTTCCGAGCACGCCACCGTCAAGGTGGGTACCGTGATCGATCCGGACATGCGCGACGAGCTGCACGTCACCGTGGTCGCCACGGGCCTGGGCGCGCGCATCGAGAAGCCGGTGAAGGTCGTCGACAACACCGTGCAGACCGCTGTGGCCGCACCTGCCGCCGCTGCACCGCGCAGCGAGCAAGGGGTCAACTACAAGGACTACGAGCGCCCCACCGTGCAGCGTCAGAGCCATGCCGGTGCAGCGACCGCAGCCAAGCTCAACCCCCAGGACGATCTGGATTACCTGGACATCCCGGCATTCCTGCGTCGTCAGGCTGATTGA	MFELVDNVPQSAVIKVIGVGGGGGNAVNHMAKSSIEGVEFICANTDAQALKNVGARTVLQLGTGVTKGLGAGANPEVGRQAALEDRDRIAEVLQGTDMVFITTGMGGGTGTGAAPIIAEVAKDLGILTVAVVTRPFPFEGRKRMQIADEGIRALAESVDSLITIPNEKLLTILGKDASLLSAFAKADDVLAGAVRGISDIIKRPGMINVDFADVKTVMSEMGMAMMGTGCASGPNRAREATEAAIRNPLLEDVNLQGARGILVNITAGPDLSLGEYSDVGNIIEQFASEHATVKVGTVIDPDMRDELHVTVVATGLGARIEKPVKVVDNTVQTAVAAPAAAAPRSEQGVNYKDYERPTVQRQSHAGAATAAKLNPQDDLDYLDIPAFLRRQAD	PGPT0027695_3071	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0027695-ftsZ-K03531	NA	NA
BMS010_04435	912	lpxC_2	COG0774	UDP-3-O-acyl-N-acetylglucosamine deacetylase	ATGATCAGACAACGCACCCTGAAGAACATCATCCGCGCCACGGGCGTCGGCCTGCACTCGGGGGAAAAGGTTTACCTGACCCTGAAGCCGGCGCCGGTGGATACCGGTATCGTGTTCTGCCGTACCGATCTCGATCCGATGGTGGAAATTCCCGCCCGGGCCGAAAACGTCGGCGAAACCACCATGTCGACCACGCTGGTCAATGGTGACGTCAAGGTGGACACCGTGGAGCACCTGCTTTCGGCCATGGCTGGCCTGGGCATCGATAACGCCTACGTCGAACTCTCCGCGTCCGAAGTGCCGATCATGGATGGCAGTGCCGGTCCCTTCGTATTCCTGATTCAATCCGCCGGCCTGCAGGAGCAGGACGCGCACAAGAAATTCATCCGCATCAAGCGCGAAGTGACGGTGCAGGAGGGCGACAAGCGCGCCACCTTCCTTCCCTTCGACGGCTTCAAGGTGAGTTTCGAGATCGACTTCGACCACCCGGTATTCCGGGGGCGTACCCAGACGGCGAGCGTGGATTTCTCCAGTACCTCGTTCGTCAAGGAAGTCAGTCGTGCGCGTACCTTCGGTTTCATGCGTGACATCGAGTTCCTGCGTTCGCAGAACCTGGCACTCGGCGGCAGCGTGGAAAACGCCATCGTGGTGGACGAGTACCGTGTGCTGAACGAAGACGGCCTGCGTTACGAGGACGAATTCGTCAAACACAAGATTCTCGACGCCATCGGCGATCTCTACTTGCTCGGTAACAGCCTGATCGGTGAGTTCCGTGGGTACAAGTCGGGCCATGCCCTGAACAATCGTCTGCTGCGCACGCTGATCGAGCAGAAAGACGCTTGGGAAGTGGTGACCTTCGACGATCCCAAGACCGCGCCGATCTCCTACATGCGCCCGGTAGCGGCCGTGTAA	MIRQRTLKNIIRATGVGLHSGEKVYLTLKPAPVDTGIVFCRTDLDPMVEIPARAENVGETTMSTTLVNGDVKVDTVEHLLSAMAGLGIDNAYVELSASEVPIMDGSAGPFVFLIQSAGLQEQDAHKKFIRIKREVTVQEGDKRATFLPFDGFKVSFEIDFDHPVFRGRTQTASVDFSSTSFVKEVSRARTFGFMRDIEFLRSQNLALGGSVENAIVVDEYRVLNEDGLRYEDEFVKHKILDAIGDLYLLGNSLIGEFRGYKSGHALNNRLLRTLIEQKDAWEVVTFDDPKTAPISYMRPVAAV	PGPT0022330_1628	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022330-lpxC-K02535	NA	NA
BMS010_04436	462			hypothetical protein	ATGATTTTTCGTCCCTTGCCGGCCCGGACACCCGCCGCGCTACTGAGCGAGGCGAAGCCGTTGAAAGCGCTGTTCAGCGAAGCCCAACGCCTCGCTCATCTGCAGCGTCTACTGGAAAGCCAGCTGCAACCGGCGGCGCGCGAACACTGCCATGTCGCCTCATGGCGCGACGGTTGCCTGTTGTTGATCATCACCGATGGCCATTGGGCCACCCGCTTGCGTTACCAGCAAAAACGCCTGCTACGGCAACTGCAGGTATTCGAAGAGTTCGCGACCTTAACGAAAATTCTCCTTAAGGTGCAACCTCCAACGCCCCAAAGGCGTGCACCCGGTCGCACTCTTTTCCTCTCCCCCTCCGCGTCGGAAAGCATCCAGGCGAGCGCCGAAACCGTCAGCGATCCCCGGCTCAAGGCAGCCCTGGAGCGTCTGGCCAGCCATGTGAAGCCTCACGAAGACGGCTGA	MIFRPLPARTPAALLSEAKPLKALFSEAQRLAHLQRLLESQLQPAAREHCHVASWRDGCLLLIITDGHWATRLRYQQKRLLRQLQVFEEFATLTKILLKVQPPTPQRRAPGRTLFLSPSASESIQASAETVSDPRLKAALERLASHVKPHEDG				NA	NA	NA	NA	NA
BMS010_04437	927			hypothetical protein	ATGCACATCATTTTCCTGAGCCGCCGTCATGGCGCGACGCGCTCATACAGCCTCGATCTGCGCCTGCTGTGCGGCGCAGTCTTTCTGCTGATCGGGTTGGCCCTGGGTGCCGGCGCTGCGCTGGGTGCCTGGTGGGCACCGCATTCGGCCACCGTTCCGCTGGATGAGCCGATGAATGCGTTGCTCGACGAACAGCGCGCGGAAATCAGTGCGACCCGCGACGATGCGCAGCGCCAACTGGATGCCTTCGCCGCCCACCTGGCGGAGTTGCAGGCCCGCCTGACCCGCCTCGATGCCTTGGGCGAGCGGCTCACCGAGCTGGCCAATCTGGACGCCAGTGAATTCGATTTCTCCCTGAACGTGGGGCAGGGCGGCCTCGACGAGCCGCTGGAAGGCTCGGCCTATGCACCGCCGCCGTTCATGGACAGCCTGGATAGCCTGTCCGAGCGCTTGGACAACCGCGAGCAGTTGCTCGAAGTGCTGGAGCAATTGCTGGCCGAGCGGCGCTTGAGCGAGGCCGAATCGTTGTCTGGGCGCCCTGTCCTGCAGGGCTATATGTCCTCGCCGTTCGGCCGTCGCAGCGACCCGCTGACCGGCCGTCTGAGCATGCACAAGGGCGTGGATTTCGCCGCCAAGCCCGGCAGCGATGTGGTCGCCGTGGCGGCGGGCGTGGTCACCTCCTCGGGGCGCAAGAACGGCTACGGCAATGTGGTCGAGATCAGCCATGCCGATGGCTATGTCACCCTTTATGCCCACAACCAGAAGAACCTGGTCCAGGTAGGAGACCTGGTACAGCGCGGTCAGACGATCGCCAAGGTCGGTAGTACCGGACGTTCGACTGGTTATCATGTTCACTTTGAAGTGCTGCACAACGGCATGGTGATCAATCCTGCCAGCTTCATCGCCCGTGCCAGCGCGGCGGAATAA	MHIIFLSRRHGATRSYSLDLRLLCGAVFLLIGLALGAGAALGAWWAPHSATVPLDEPMNALLDEQRAEISATRDDAQRQLDAFAAHLAELQARLTRLDALGERLTELANLDASEFDFSLNVGQGGLDEPLEGSAYAPPPFMDSLDSLSERLDNREQLLEVLEQLLAERRLSEAESLSGRPVLQGYMSSPFGRRSDPLTGRLSMHKGVDFAAKPGSDVVAVAAGVVTSSGRKNGYGNVVEISHADGYVTLYAHNQKNLVQVGDLVQRGQTIAKVGSTGRSTGYHVHFEVLHNGMVINPASFIARASAAE				NA	NA	NA	NA	NA
BMS010_04438	2817	secA_2	COG0653	Protein translocase subunit SecA	ATGCCCCCTTTGCACGCAGCCGTGGCGGCCCGCGGCCGTGCCTCCATCCCCAGAATGGAAGTCTTTGCCGATATGTTTGCGCCTTTGTTGAAGAAACTCTTTGGAAGCAAGAACGAGCGTGAAGTCAAACGCATGCTCAAGGCAGTACAGGCGATAAACGCACTGGAACAGCAGATGCTGGCGCTTTCGGACGAGCAACTGCGCGCCAAGACCGTAGAGTTCAAGGCCCGTCTGGCTAAAGGCGAAACCCTCGACCAAGTTCTGCCGGAGGCTTTCGCGGTCGCTCGCGAAGCCGGCAAGCGGGTGATGGGCATGCGTCACTTCGACGTTCAGCTGATCGGCGGCATGACGCTGCATGAAGGCAAGATCGCCGAAATGCGTACCGGTGAAGGCAAGACCCTGGTGGCGACCCTGGCGGTCTACCTCAACGCCCTCGAAGGCAAGGGTGTGCACGTGGTCACGGTGAACGACTACCTGGCCCGCCGCGATGCCAACTGGATGCGTCCGCTGTACGAATTCCTCGGCCTTTCGGTCGGCATCGTCACCCCCTTCCAGCCGCCGGAAGAAAAGCGTGCCGCCTATGCCGCCGACATCACCTACGGCACCAACAACGAACTCGGCTTCGACTACCTGCGCGACAACATGGCATTCAGCCTGGAAGACAAGTTCCAGCGCGAGCTGAATTTCGCCGTGATCGACGAAGTGGACTCGATCCTCATCGACGAAGCGCGTACACCGCTGATCATCTCCGGCCAGGCCGAAGACAGCTCCAAGCTCTACCAGCAGATCAACCAGCTCATCCCGCGCCTCAAGCAGCACATCGAGGAAGAGGAAGGCGTCGTCACCCAGGAAGGCCACTTCTCGGTAGACGAGAAGACCCGCCAGGTCGAGCTGAACGAACAGGGCCACCAGTTCATCGAGGAAATGCTCACCCAGGCCGGCCTGCTGGCCGAGGGCGAGAGCCTCTACTCCGCGCACAACCTGTCGCTGCTGACCCACGTCTATGCCGGCCTGCGCGCGCACAAGCTGTTCCATCGCAACATCGAATACATCGTGCAGAACAACCAGGTTCTGCTGATCGACGAGCACACCGGCCGCACCATGCCGGGCCGTCGTCTCTCCGAAGGCCTGCACCAGGCCATCGAAGCGAAGGAAGGCCTGCCGATCCAGGCCGAGAGCCAGACCCTCGCCTCGACCACCTTCCAGAACTACTTCCGCCTGTACAAGAAGCTGGCCGGCATGACCGGTACCGCCGACACCGAGGCGTTCGAATTCCACCAGATCTACGGCCTCGACGTGGTGGTGATTCCCACCAACAAGCCGCTGGCACGCAAGGACTTCAACGACCTGGTCTACCTGACCCAGGAAGAGAAGTACGCCGCGATCATCACCGACATCAAGGAATGCCAGGCCAATGGCCGTCCGGTGCTGGTGGGTACCGCGTCGATCGAGAGCTCGGAATACGTCTCCCAACTGCTGCAGAAGGAAGGCATCGAGCACAAGGTCCTCAATGCCAAGTTCCACGATAAGGAGGCCGAGATCATCGCCCAGGCCGGTCGTCCGGGGGCGGTGACCATTGCGACCAACATGGCCGGTCGTGGTACCGACATTCTTCTCGGCGGCAACTGGGAAGCCGAGGTGGCGATACTGGAGAGCCCCAGCGAGGAGCAGATCGCCCAGATCAAGGCGGACTGGCAGAAGCGCCACCAACAGGTGATCGAAGCGGGCGGCTTGCATGTGATCGCTTCCGAGCGCCATGAGTCCCGTCGTATCGACAACCAGCTGCGTGGCCGTGCCGGCCGCCAGGGCGACCCGGGTTCCAGCCGTTTCTACCTGTCGCTGGAAGACAACCTGATGCGCATCTTCGCCTCCGACCGGGTGAAGAATTTCATGAAGGCGCTGGGCATGCAGTCCGGCGAGGCGATCGAGCACCGCATGGTGACCAACGCCATCGAGAAGGCCCAGCGCAAGGTCGAAGGCCGTAACTTCGACATGCGTAAGCAGTTGCTCGAGTTCGACGACGTGGCCAACGAGCAGCGCAAGGTGATCTACCACATGCGCAACAGTCTGCTGGCCGCCACCGACGTCGGCGAGACCATTGCCGAATTCCGCGAGGAAGTGCTGACCAACGCCATCAACCAGCACATTCCGCCGCAGTCCCTGCCTGAGCAGTGGGATATCGGCGGGCTGGAAGCGGCCCTGCGCAGCGATTTCGGCGTCGACCTGCCGATCCAGCAGTGGCTCGACGAGGACGAGAAGCTCTACGAGGAAACCCTGCGCGAGCGTATCCTCCAGGCGCTGCTGGATGCCTACAAGGAGAAGGAAGACCTGGCCGGCGCCGAAGCGCTGCGGACCTTCGAGAAGCAGATTCTGCTTCGCGTCCTGGACGACCTCTGGAAAGACCACCTGTCGACCATGGACCACCTGCGTTACGGCATCCACCTGCGCGGCTATGCTCAGAAGAACCCGAAGCAGGAGTACAAGCGCGAGTCCTTCAACCTGTTCCAGGACCTGTTGGACTCCATCAAGCGCGACACCATTCGCGTGCTGTCCCATGTCCAGGTCCGTCGCGAAGACCCGGCCGAGGAAGAGGCACGTCTGCGGCGCGAAGCCGAGGCCCTGGCCCAGCGCATGCAGTTCCAGCACGCCGAGGCCTCCGCCCTGCAGCCGCCGCCTGAGCCCCAGAACGAGGCGGAGGAGGGTGGTGCTGCAGTGGCCCAGATGCCGGTTCGCCAAGAGCAGAAGATCGGCCGCAACGAACCGTGCCCCTGCGGGTCCGGCAAGAAGTACAAGCATTGCCACGGACAGGTCAACTGA	MPPLHAAVAARGRASIPRMEVFADMFAPLLKKLFGSKNEREVKRMLKAVQAINALEQQMLALSDEQLRAKTVEFKARLAKGETLDQVLPEAFAVAREAGKRVMGMRHFDVQLIGGMTLHEGKIAEMRTGEGKTLVATLAVYLNALEGKGVHVVTVNDYLARRDANWMRPLYEFLGLSVGIVTPFQPPEEKRAAYAADITYGTNNELGFDYLRDNMAFSLEDKFQRELNFAVIDEVDSILIDEARTPLIISGQAEDSSKLYQQINQLIPRLKQHIEEEEGVVTQEGHFSVDEKTRQVELNEQGHQFIEEMLTQAGLLAEGESLYSAHNLSLLTHVYAGLRAHKLFHRNIEYIVQNNQVLLIDEHTGRTMPGRRLSEGLHQAIEAKEGLPIQAESQTLASTTFQNYFRLYKKLAGMTGTADTEAFEFHQIYGLDVVVIPTNKPLARKDFNDLVYLTQEEKYAAIITDIKECQANGRPVLVGTASIESSEYVSQLLQKEGIEHKVLNAKFHDKEAEIIAQAGRPGAVTIATNMAGRGTDILLGGNWEAEVAILESPSEEQIAQIKADWQKRHQQVIEAGGLHVIASERHESRRIDNQLRGRAGRQGDPGSSRFYLSLEDNLMRIFASDRVKNFMKALGMQSGEAIEHRMVTNAIEKAQRKVEGRNFDMRKQLLEFDDVANEQRKVIYHMRNSLLAATDVGETIAEFREEVLTNAINQHIPPQSLPEQWDIGGLEAALRSDFGVDLPIQQWLDEDEKLYEETLRERILQALLDAYKEKEDLAGAEALRTFEKQILLRVLDDLWKDHLSTMDHLRYGIHLRGYAQKNPKQEYKRESFNLFQDLLDSIKRDTIRVLSHVQVRREDPAEEEARLRREAEALAQRMQFQHAEASALQPPPEPQNEAEEGGAAVAQMPVRQEQKIGRNEPCPCGSGKKYKHCHGQVN	PGPT0025735_1358	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025735-secA-K03070	NA	NA
BMS010_04439	1218	argJ	COG1364	Arginine biosynthesis bifunctional protein ArgJ	ATGGCTGTTGGTCTTGGCCCTCTGCCCACCCTGCACCCGGTTCCCGGTTTCGAACTCGGCATCGCCTCCGCCGGCATCAAGCGCCCCGGGCGCAAGGATGTGGTGGTGATGCGCTGTGCCGAGGGTTCCACCGTGGCCGGGGTATTCACCCTCAACGCTTTTTGCGCCGCGCCGGTGATCCTGGCGAAGAAGCGCGTGCTCGGCCCGGTCCGCTACCTGCTGACCAACACCGGCAACGCCAACGCCGGGACCGGTGAGCCGGGGCTGGCGGCGGCTGCACGGACCTGCGCCAAGCTGGCCGAACTGGCCGGGGTCGACGAGAACGCGGTGCTGCCGTTTTCCACCGGTGTGATCGGCGAACCGCTGCCGGTGGAGAAGATCGAGGCGGCACTGCCCGCCGCATTGGCCGACCTGTCGGAAGGCAACTGGGCCGCCGCCGCCACCGGCATCATGACCACCGACACCTTGCCGAAGGGCGCCAGCCGCCAGTTCGAGCACGACGGCGTCACCATCACTGTCACCGGCATTTCCAAGGGCGCCGGGATGATCAAGCCGAACATGGCGACCATGCTCGGCTACATCGCCACCGACGCGAAGGTCGCCCAGGGCGTGCTGCAGGACCTGCTGCGCGATGCGGCGAATAAGTCGTTCAACCGCATCACCATCGACGGCGACACCTCCACCAACGACTGCTGCATGCTGATCGCCACCGGCAAGGCCGGCCTGCCGGAGATCACCCAGGCCAGCGGCCCGCTGTTCGCCGCGTTGAAGCAGGCGGTGCTGGACGTTTCCATGGAGCTAGCCCAGGCCATCGTTCGCGACGGAGAAGGCGCCACCAAGTTCGTGACCGTGCAGGTCAACGGCGGCGCCACCCATCAGGAGTGCCTGGACGTCGGCTACGCCGTGGCTCACTCGCCGCTGATCAAGACCGCACTGTTCGCCTCCGACCCGAACTGGGGGCGCATCCTGGCTGCCGTCGGTCGTGCCGGCGTGCCCAAGCTGGATGTGTCGAAGATCGATGTCTACCTCGGCGAAGTCTGCATCGCCAGCCGTGGCGGCCGTGCCGCCAGCTATACCGAGGACCAGGGCGCAGCGGTCATGGCCCGCGAGGAGATCGGTATCCGTATCGAACTGGGTCGCGGTACCTGCAGCGAGACCATCTGGACGACCGACCTGTCCCACGAGTACGTGAAGATCAATGCGGAATACCGCACTTAA	MAVGLGPLPTLHPVPGFELGIASAGIKRPGRKDVVVMRCAEGSTVAGVFTLNAFCAAPVILAKKRVLGPVRYLLTNTGNANAGTGEPGLAAAARTCAKLAELAGVDENAVLPFSTGVIGEPLPVEKIEAALPAALADLSEGNWAAAATGIMTTDTLPKGASRQFEHDGVTITVTGISKGAGMIKPNMATMLGYIATDAKVAQGVLQDLLRDAANKSFNRITIDGDTSTNDCCMLIATGKAGLPEITQASGPLFAALKQAVLDVSMELAQAIVRDGEGATKFVTVQVNGGATHQECLDVGYAVAHSPLIKTALFASDPNWGRILAAVGRAGVPKLDVSKIDVYLGEVCIASRGGRAASYTEDQGAAVMAREEIGIRIELGRGTCSETIWTTDLSHEYVKINAEYRT	PGPT0014244_2053	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014244-argJ-K00620	NA	NA
BMS010_04440	633			hypothetical protein	ATGAAATTGGTAATCGGCAACAAGAACTACTCATCCTGGTCGCTGCGTGCCGCGCTGGTACTGGAGCTGACCGAAGAGCCTTACGAAGAGCTGCGTATCCCGCTCTATCAGTCGGACAGTCGGGCCCGGTTGCTCGCCGAGTCTCCGGCGGGCAAGGTGCCGGTGTTGCAGACGGAAGAGGGGCCGGTCTGGGACTCCCTGGCCATTGCCGAGTATCTCGCCGAACGCTTCGCCGAATCCCATCTCTGGCCACGCGGCCAGTATGCGCGTGCCGTGGCGCGCGCGGTCTGCGCGGAAATGCACAGCGGTTTCGTCGCCCTGCGCAGCCATCTGCCGATGGACCTCAAGCGCAACCAGCCGCTGGCACGTATCCCGGACGAGGCCGCGGCCGACATTGCTCGCGTCTGTGCGCTCTGGGCCGATTGCCGGGCGCGCTTCGGTCAGGATGGGCCTTTCCTGTTCGGCCACGCCAGCATCGCCGATGCCTTCTACGCGCCGGTGGCCGCGCGTTTCCGCAGCTACGCCGTGGAGCTGCCTGCGGAGGCGGCGGCCTATGTCGAGACCATCTACCGTTGGCCGGCTTTCCAGCGCTGGTATCAGGCTGCGCTGGAGGAGACGGAGAAGCTCGGATGA	MKLVIGNKNYSSWSLRAALVLELTEEPYEELRIPLYQSDSRARLLAESPAGKVPVLQTEEGPVWDSLAIAEYLAERFAESHLWPRGQYARAVARAVCAEMHSGFVALRSHLPMDLKRNQPLARIPDEAAADIARVCALWADCRARFGQDGPFLFGHASIADAFYAPVAARFRSYAVELPAEAAAYVETIYRWPAFQRWYQAALEETEKLG	PGPT0013170_15390	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS010_04441	939	thiE_3		Thiamine-phosphate synthase	ATGAAGCGGGTGCATGTCGCCGCCGCGGTGATTCGCGGGAGCGATGGCCGTGTGCTGATCGCCCGACGCCCCGAGGACAAGCATCAAGGCGGACTTTGGGAGTTCCCTGGCGGCAAGGTCGAAGAGGGCGAGGCGGTCCAGGCCGCGCTGGGCCGTGAGCTGGAGGAGGAGCTGGGCATCCGCGTGACGAGCGCCCGGCCGTTGATCCAGATTCATCATGACTACCCGGACAAGCACGTGCTGCTGGATGTCTGGGAGGTTTCCGGCTTCGACGGCGAACCCCATGGCGCCGAAGGGCAACCGCTGGCCTGGGTAACGCCACGGCAGCTGGCGGACTATGAATTCCCTGCGGCGAACCGGCCCATCGTAGCGGCCGCCCGATTGCCGGATCGCTACCTGATCACGCCGGATGACCTCGGTCCCGCCGAGCTGCTGCAAGGTCTGAAGGCTGCGCTGGACGGCGGCGTCAGGCTGGTCCAGCTACGCGCGCCGGATATGTTCGACGCCGAGTACCGCGACCTGGCCGTCGATGCCCAGGGGCTTTGCTCCGGTCGCGCCCAGCTCATGCTGAAAGGGCCGCTGGAGTGGCTCGGTGATTTCCCTGCGGCGGGCTGGCACCTGACCGCCCGGCAGTTGCGGGAGCTAGTGAGCGGTGGGCGACCGTTTCCCGCCGAACGCTGGTTGGCGGCTTCCTGCCACAGCGCCGAAGAGCTGGAACTGGCGGCGGAAATGGGGGTGGATTTCGTCACGTTGTCGCCCGTCCAGCCGACCCGGACTCATCCTGGCGCCGAGGTGCTGGGATGGGAGCGTGCCAGCGATCTGCTGCGTCGGTTCAACCAGCCGGCCTATCTGCTCGGTGGCCTGGCGCCGCAGGATCTGCCCCGCGCCTGGGAGGTGGGTGCCCAGGGCATTGCCGGTATCAGGGGATTGTGGCCATGA	MKRVHVAAAVIRGSDGRVLIARRPEDKHQGGLWEFPGGKVEEGEAVQAALGRELEEELGIRVTSARPLIQIHHDYPDKHVLLDVWEVSGFDGEPHGAEGQPLAWVTPRQLADYEFPAANRPIVAAARLPDRYLITPDDLGPAELLQGLKAALDGGVRLVQLRAPDMFDAEYRDLAVDAQGLCSGRAQLMLKGPLEWLGDFPAAGWHLTARQLRELVSGGRPFPAERWLAASCHSAEELELAAEMGVDFVTLSPVQPTRTHPGAEVLGWERASDLLRRFNQPAYLLGGLAPQDLPRAWEVGAQGIAGIRGLWP				NA	NA	NA	NA	NA
BMS010_04442	243			hypothetical protein	ATGAGGCCGGAAGATCTGGAGCTGTTGCTCATCCGCACCATGCCGTACGGAAAGTACAAGGGCCGGGCCATTGCCGATCTGCCCGGCCAGTACCTGGGCTGGTTTGCCCGGGAAGGTTTCCCGGCCGGCGAGATCGGTCGCCTCTTGGCGCTGATGCACGAGATCGACCACAACGGCCTGGGCGCGCTGCTGGAGCCCTTGCGCCGAAAGCTCCAGCAATCGCAATCGTCCGAGAAGCGCTGA	MRPEDLELLLIRTMPYGKYKGRAIADLPGQYLGWFAREGFPAGEIGRLLALMHEIDHNGLGALLEPLRRKLQQSQSSEKR				NA	NA	NA	NA	NA
BMS010_04443	540			hypothetical protein	ATGAAAGACCGTCTCGTCGAACTGATCACCCTGATAAGCTCGGGCTGCATGGGCCCGGAGGAGATCGAACGGATCGCCGACGAAGCCGCCCAGGCCTATGCGGACCCGCAGGGCTTCCTGAAGGCCAACCCGGATATCAACTACGACGAGGATTTCCCGATCCCGCTGGGCGAGTGGGTAGTGGTGGGCAGCCTGCCGGAAACCGTGCTGTTCCAGGCCGACCGCTTCGACGAGCTGTTGCAGCAGATCATGGACTCGTTCGGCAAGCAGGTGACGTTCAACCTCAAACCCAAGCAATTGGCCAAGGCCGACGCCTTGACCGCGCTGCGGCGGATTCAGGTCCAGCTCAGCGCCCTCTACCCGGAAAAGGGCGGCTACGTGCTGACCGACTTCAGCGACCCGCTGGATGACCTGCTGCAAACCGTACTGGTCTATACCTGCGACCTGCCCCGCGTGCTGGACCTGTGCCAGGCGCTGGACATCCACGCAGCCCCGTCCTACGAATTCCTTCGCGAAGAGCTGGAAGGGCCGGAAGCCTGA	MKDRLVELITLISSGCMGPEEIERIADEAAQAYADPQGFLKANPDINYDEDFPIPLGEWVVVGSLPETVLFQADRFDELLQQIMDSFGKQVTFNLKPKQLAKADALTALRRIQVQLSALYPEKGGYVLTDFSDPLDDLLQTVLVYTCDLPRVLDLCQALDIHAAPSYEFLREELEGPEA				NA	NA	NA	NA	NA
BMS010_04444	1029			hypothetical protein	GTGACCAGCGCCCCACTCTCTTCGGAAACCCGGCGGCGCGAAGGCCTGCACGCCGCCTGGGAAGCTTTCATCGTGCTGCTGGTCTGCCTCAACCTGGGGCTGATCCTGTTCGACAGCCTGTTCCAACTGGTGCCGATCAACCTGGCGTTGAACGCCCTGGTGCCGGAGCTGCACAGGCTCTATGCGGAAAAGGTCCACGCTCACTTCCAGTTCATCGACTTGGCTTTCGTCGCCGTTTTCATCCTCGATGTGCTGCTCGGCTGGACCGTCGCCATCGTCGAGAAGCGCTATCCGCGCTGGTACTACTACCCCTTCACTCACTGGTATGACGTGCTCGGCTGCATCCCGCTGAGTGGCATGCGCTGGCTGCGCGCCCTGCGCATCCTGGTCCTGGCCATCCGCCTGCAGCGGCTGGGCCTGATCGACATGCGCACCTGGGCGATCTACGGGTTCTTCAACCGCTACTACCAGTTGCTACTGGAAGAGCTGTCGGATCGGGTCATGGTCCGCCTGTTTTCGCGCCTGCAACAGGAGATCGGCACCAGCGACGATCTCACCCGCCGGCTGGTGGACGGCGTGATCCGGCCGCGCAAGGAACGCTTGATCGCCGACCTCTCGCGGCGCCTCGAAGCCATGCTGCAGGAGGGCTATCACGGCAACCGGGCGGCCATCGAGGCGCATGTCACCCAGCTCGTACGACGCGCCTTGGCGGAGAACCGCGAGCTGGCCCGGTTACGTCGGCTGCCGCTGGGCGATCGGCTCGCGGAAAGCCTCGACGATACCCTGACCGGCATCGCCCGGAGCCTGCTCCACGGTTCTATCGAGGCCCTGCAGTCCGATACCTTCAAGGCCACTGCCGCTCGCCTGGCGGATGTTTGCTTCGATGCCTGGCTCTACCAGGACGAAAACACCGACCTGGCCCTGGAGGAGCTGCTGGTCGATAGCATCGAGGTCCTCAAGCAGCAGATTCTCGACCGCCGCTGGAGCCGCTTCGTCGGGCCGGAACCGCCACCGACCCCACCCGAGTGA	MTSAPLSSETRRREGLHAAWEAFIVLLVCLNLGLILFDSLFQLVPINLALNALVPELHRLYAEKVHAHFQFIDLAFVAVFILDVLLGWTVAIVEKRYPRWYYYPFTHWYDVLGCIPLSGMRWLRALRILVLAIRLQRLGLIDMRTWAIYGFFNRYYQLLLEELSDRVMVRLFSRLQQEIGTSDDLTRRLVDGVIRPRKERLIADLSRRLEAMLQEGYHGNRAAIEAHVTQLVRRALAENRELARLRRLPLGDRLAESLDDTLTGIARSLLHGSIEALQSDTFKATAARLADVCFDAWLYQDENTDLALEELLVDSIEVLKQQILDRRWSRFVGPEPPPTPPE				NA	NA	NA	NA	NA
BMS010_04445	588	cobO_1	COG2096	Cobalamin adenosyltransferase	ATGGGCTATCGACTGTCGAAGATCTATACGCGTACCGGCGATGCCGGCGAAACCGGATTGGCCGATGGCCGCCGGGTCCCCAAGGATCATCCGCGGGTCGAGGCCATGGGCGAGCTGGACACCCTCAACAGCCAGCTCGGCCTGCTGCTCGCCGAACTGGCCGAACAACAGGCCCTGTGGCCAGGCCTGGGCGACGTGATCGAAGTCCTGGCGCCCTGCCAGCACCGGCTGTTCGACCTGGGCGGCGAACTGGCGATGCCGGCATACCGCGCGCTGGACCAGGCGGAAATCGAGCGCCTCGAAGCGGCCATCGATCGCTGGAACGACGAACTCGGCCCGCTGGAAAACTTCATCCTGCCCGGCGGCTCCCGCCTGGTCGCCCAGGCCCATGTATGCCGCAGCCTGGCCCGTAGCGCAGAGCGCCGCTGCCAGCAATTGAATGCCGTCGAACCGCTGGAAGGGGTCGGCCTGGCCTATGTCAACCGCCTGTCCGACCTGCTGTTCGTCGCCGCCCGCCTGATCGCCCGTCGCCAGCATGTCCAGGAAGTGCTCTGGCAGGCGGCACCCGCACCGGACAAGGGCAGGTGA	MGYRLSKIYTRTGDAGETGLADGRRVPKDHPRVEAMGELDTLNSQLGLLLAELAEQQALWPGLGDVIEVLAPCQHRLFDLGGELAMPAYRALDQAEIERLEAAIDRWNDELGPLENFILPGGSRLVAQAHVCRSLARSAERRCQQLNAVEPLEGVGLAYVNRLSDLLFVAARLIARRQHVQEVLWQAAPAPDKGR				NA	NA	NA	NA	NA
BMS010_04446	2022	sasA_12		Adaptive-response sensory-kinase SasA	ATGACCCTGCGCCAGTACCTCGAAAATCTTTCGGTCGGTCAGAAACTGTTGGCCGCCCTGCTGGTGCTGCTCGCCGCCGTCCTGCTGGTGGCCAACCTGACCTTCATCAGCGCGGCCTATTGGATTTCCCAGGAAAGCGTGGCGCCCGAGGCCTTGCAGACCCTGGGCCGGCTGATTGCCACGCCGTCCCTGAGCAAGGAGGCGCTGTCCTCCCCGGCCGCCGCCGAAGCCGTGCTCAAGCGCCTGGAGGAATACAAGCCGCTGCGCGCCGCCGCCATCTACGACCAGAACGGTATCAGCCTCGCCCAGCTCAAGCGCGGCGAGAAGCTCGAGCTGCCGGAGCGCATCGAGTTGCTGGAAAGCTGGCGACACAGCGAGTTCCGCGCCAATCAGGTGATCGAACTGCCGCAACCCAAGGGTCGCCCCGGCTATCTGCTGCTGGTCGCTTCCAGCGAGCTGCCCGGCGCCTTCTACACCGGTACCCTCACCGCCAGCCTGGTGATCCTCGCCATCAGCGTGCTGCTCTGGCTGCTGGTGGCACGGCAGATCCGACGCCTGATCACCCGGCCGATTCGCCGCCTGGAAGAGCTGTCGCGCCAGGTGACCCGCGAGGAAAACTATGCGCTGCGCGCCTCGCGCGGCAACCAGGATGAGATCGGCAGCCTGGCGGACGCATTCAACACCATGCTGTCGCGCATGGAAGCCCGCGAACAGCAGCTGCGACGCGCCCGCGATGAAGCCCAGTCGGCCTTCGACAAGGCCCGCAGCCTGGCCGAGGAGACCCGTCACTCCAACCGCAAGCTGGAACTGGAAGTGCAGGTGCGCAGCAAGATCGAGAAAAAGCTCACCGGCTTCCAGAACTACCTGAACAGCATCATCGACTCCATGCCTTCGGCGCTGATCGCCCTCGACGAGCAGTTGTACGTCACCCAATGGAACCAGGAAGCCAGCGCCCTTTCCGGGACGCGCCTGGACGAAGCCCTCAACCAGCCGGTATTCCTCGCCTTCCCGCCGCTCAAGCCGTTCCTGCCGCAGCTCAAACGCACCGCCGAACAGCACAAGGTGGAGAAGATCGACCGGGTGACCTGGACCAAGGACGACATTCCCCATCACTACGCCCTGACGTTCTACCCGTTGGTGGGCAGTGCGGGCCGTGGCGCGGTGATCCGGATCGACGACATCACCCAGCGCCTGTCCATGGAAGAGCTGATGGTACAGTCGGAAAAGATGCTCTCGGTCGGCGGGCTGGCCGCCGGCATGGCGCACGAGATCAACAACCCGCTGGGCGCCATCCTGCATAACGTGCAGAACATCCGCCGGCGCCTGTCGCCCGACCTGGCGAAGAACCTGCAGCAGGCCGAGGACCTCGGCATCGACCTGCAGACCGTCAACCGCTATCTGGACAGCCGTGAAGTCCCCCGATTGCTGGATGGCATCCAGCAGGCCGGTGCGCGCGCCGCGAAGATCGTCAGCCACATGCTCAGCTTCAGCCGGCGCAGCAACCGCGAGCTGGCACCCTGCCAGTTGCCCACGCTGATCGATCAGGCGGTGGAAATCGCCGGCAACGACTTCGCGCTGATGGAGGGCTTCGACTTCAAGGGCCTGGCCATCGTCCGCGACTTCGATCCGCAGCTGGGCCCGGTGCCCTGCACCGGCAACGAGCTGGAACAGGTACTGCTCAACCTGCTGAAGAACGCCGCGCAGGCCATCCACCAGCGCGAAGACAGTCCGAACCTGCAGCCCGGGCGCATCGTGCTGCGCACCCGCAACAACCCGCCGTGGGCGGAAATCCTCGTGGAAGACAACGGCGTCGGCATTCCCGAGTCGGTGCGCAAACGCATCTTCGAGCCGTTTTTCACCACCAAGGAGATCGGCCAGGGCACCGGGCTCGGTTTGTCGGTGTCCTATTTCATCATCACCAATAATCACAAGGGGCAGATGGAAGTGCAGTCCAAGCCCGGCCAGGGCACCTGCTTCACCCTGCGCCTGCCCTTGGCCGCTGCCGAAAACACGGGACTCTGA	MTLRQYLENLSVGQKLLAALLVLLAAVLLVANLTFISAAYWISQESVAPEALQTLGRLIATPSLSKEALSSPAAAEAVLKRLEEYKPLRAAAIYDQNGISLAQLKRGEKLELPERIELLESWRHSEFRANQVIELPQPKGRPGYLLLVASSELPGAFYTGTLTASLVILAISVLLWLLVARQIRRLITRPIRRLEELSRQVTREENYALRASRGNQDEIGSLADAFNTMLSRMEAREQQLRRARDEAQSAFDKARSLAEETRHSNRKLELEVQVRSKIEKKLTGFQNYLNSIIDSMPSALIALDEQLYVTQWNQEASALSGTRLDEALNQPVFLAFPPLKPFLPQLKRTAEQHKVEKIDRVTWTKDDIPHHYALTFYPLVGSAGRGAVIRIDDITQRLSMEELMVQSEKMLSVGGLAAGMAHEINNPLGAILHNVQNIRRRLSPDLAKNLQQAEDLGIDLQTVNRYLDSREVPRLLDGIQQAGARAAKIVSHMLSFSRRSNRELAPCQLPTLIDQAVEIAGNDFALMEGFDFKGLAIVRDFDPQLGPVPCTGNELEQVLLNLLKNAAQAIHQREDSPNLQPGRIVLRTRNNPPWAEILVEDNGVGIPESVRKRIFEPFFTTKEIGQGTGLGLSVSYFIITNNHKGQMEVQSKPGQGTCFTLRLPLAAAENTGL				NA	NA	NA	NA	NA
BMS010_04447	912	panE	COG1893	2-dehydropantoate 2-reductase	ATGAGCTGGCACATCCTCGGTGCCGGCAGCCTCGGCAGCCTCTGGGCCACCCGGTTGTCGCGCGCCGGTGTGCCGGTGCGGCTGGTGCTCCGCAACCGGGAGCGACTGGCTGCCTACCAGACCGCCGGCGGCCTGACCCTGGTCGAAGACGGCCAGGCGAGCCTCTACCCCATCGTCGCCGAAACGGCAGACGCCTCCACGCCCATCCGCCGCTTGCTGGTGGCCTGCAAGGCCTACGATGCCGAGGCCGCGGTAGCCAGCATCGCATCGCGCCTGAGCGCTGAAGCCGAGTTGATCCTGTTGCAGAACGGCATCGGCAGCCAACAGGAGGTGGCAGCACGGGTCCCCCGGGCACGCTGCATCCTGGCCTCGAGTACCGAAGGCGCCTTCCGCGACGGCGCCTTCCGGGTGGTCTTCGCCGGACGTGGGCACACCTGGCTGGGGACATCGGACGAGAGCCATGCGCCGGCCTGGCTGGAAGACCTGACGCGAGCCGGCATTCCTCACGACTGGACAGCGGACATCCTGACCCGGTTGTGGCGCAAGTTGGCATTGAACTGCGCCATCAATCCGCTGACCGTGCTCCACGACTGCCGCAACGGCGAATTGGCGAACCACCCGGAACAGGTCGCCAGCCTCTGCGCGGAGCTTGCCGAGCTGCTGCTGACCTGTGGCCAGACGGCGGCGGCCGAGGGACTGCTCGATGAGGTGCAACGGGTGATCCAGTCCACCGCCGCCAACTACTCGTCGATGCACCAGGACGTCGCCCAGGGACGTCGCACCGAGATCGGCTATCTGCTTGACCGCGCCTGCACGGAGGGGCATCGCCATGGCCTGGCGCTACCGCGCCTGACCGCGCTGCAGGCACGCTTGAAGGAAACCCTGGCCCTCCGCGGATTGCCCACCGACTGA	MSWHILGAGSLGSLWATRLSRAGVPVRLVLRNRERLAAYQTAGGLTLVEDGQASLYPIVAETADASTPIRRLLVACKAYDAEAAVASIASRLSAEAELILLQNGIGSQQEVAARVPRARCILASSTEGAFRDGAFRVVFAGRGHTWLGTSDESHAPAWLEDLTRAGIPHDWTADILTRLWRKLALNCAINPLTVLHDCRNGELANHPEQVASLCAELAELLLTCGQTAAAEGLLDEVQRVIQSTAANYSSMHQDVAQGRRTEIGYLLDRACTEGHRHGLALPRLTALQARLKETLALRGLPTD	PGPT0008745_4130	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0008745-panE|apbA-K00077	NA	NA
BMS010_04448	966	cheB_7		Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGCCCAACCCCCATCTCAGCATTTTGGTGGTGGACGATGCCAAGTTTTCCAGCGCCATGATCGGCCGTGCCCTCACCCAGGCCGGATACCAGGACGTGCGCTATGCCAATAGCGCCGCCGAGGCACTGAAACTGCTCGAGTCGCGCCCGGCCAGCGTGCTTCTGGCCGACTGGCTGATGCCGGAAATGGACGGCCTGGAGCTGACCGCCCGGGTCCGCCAGATCGACGAAATGGCCGATCACTACACCTACGTCATCCTGCTCACCGGCAAGGACGGCGAAAACGTGCTGAGCGAGGCCTTCGACCGGGGCGTCGACGACTTCATCAGCAAGGCCTCGATGAACGAACAACTGGTCCCGCGCATCTACGCCGCCGACCGTCTGTGCAATACCCTCCAGCGCCTGCTACAGGAGAAGCGCCTGCTGATGCAGAACATCGCCAGCCTGGAGCAGCGCAACCTGGTGGACCCGCTCACCGGCCTGGGCAATCCGCGCTACCTGCGCCAGAAGCTGGTGGACAGCCTGCGCCAGGTGGATGCCCGCGGCGGCGCGCTGTGCTATCTGACCATCGGCCTGCACAACGCCGGCGAGCTGCGCCAGCAATACGGCGAACGCTTCTACAACGAACTGCTGCATGGCATCGCCCGCCGCCTGCAGCAACTGGTTCGCCCCCTCGATGTTCTGGCGCGCCTGGACGACAACCATTTCGGCCTGATCACCCTGCTGGAAGACCTGCACGAATGCTCGCCGAGCAGCTTCAAGCGGCTCCATGAAGGACTGAACCTGAAGGCGTTCAAGACCAGCGAGGGCTTCATCACCCTCAAGGCCGGCATCAGCCTGATCGGCCTGGACAGCAAGGCATTGCCGGTGGAACCGGAACGCCTGATGGAGCTGGCTGCCGATCTGTTGCCAGAGTCCTATGCCAGCGGCCGGGTGGCGGCGCAGCGTCTGCCCTTGCCCACATGA	MPNPHLSILVVDDAKFSSAMIGRALTQAGYQDVRYANSAAEALKLLESRPASVLLADWLMPEMDGLELTARVRQIDEMADHYTYVILLTGKDGENVLSEAFDRGVDDFISKASMNEQLVPRIYAADRLCNTLQRLLQEKRLLMQNIASLEQRNLVDPLTGLGNPRYLRQKLVDSLRQVDARGGALCYLTIGLHNAGELRQQYGERFYNELLHGIARRLQQLVRPLDVLARLDDNHFGLITLLEDLHECSPSSFKRLHEGLNLKAFKTSEGFITLKAGISLIGLDSKALPVEPERLMELAADLLPESYASGRVAAQRLPLPT	PGPT0015900_1794	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-CELL_FATE_CONTROL	PUTATIVE-CELL_FATE_CONTROL-1,PGPT0015900-pleD-K02488
BMS010_04449	480			hypothetical protein	ATGCCCTCGTTCGACGTGGTGTCCGAACTGGACAAGCACGAAGTCACCAACGCCATCGACAATGCCATCAAGGAGCTGGACCGGCGCTACGACCTGCGCGGCAAGGGCAGCTTCGAACTCAAGGACCTGACCGTCAACCTGACCGCCGAGGCCGATTTCCAGCTCGAGCAGATGGTCGAAATCCTCAAGCTGGCCCTGGTCAAGCGCAAGATCGATATCCAGTGCCTGGAGTTCAAGGATGCCTATCCGTCCGGGAAAACCGTGAAGCAGGAAGTCATCCTGCGCGAAGGCATCGACAAGGAGCTGGCGAAGAAGATCGTCGCCCACATCAAGGACAGCAAGCTGAAGGTCCAGGCCGCGATCCAGGGCGAGCAGGTGCGCGTCACCGGCAAGAAGCGCGACGACCTGCAGGAAGCCATCGCGCATTTGCGCGCCAAGGACTTCGGCATGCCGCTGCAGTTCAACAACTTCCGCGACTGA	MPSFDVVSELDKHEVTNAIDNAIKELDRRYDLRGKGSFELKDLTVNLTAEADFQLEQMVEILKLALVKRKIDIQCLEFKDAYPSGKTVKQEVILREGIDKELAKKIVAHIKDSKLKVQAAIQGEQVRVTGKKRDDLQEAIAHLRAKDFGMPLQFNNFRD	PGPT0012210_2232	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0012210-yajQ-K09767	NA	NA
BMS010_04450	873	mscS_2	COG0668	Small-conductance mechanosensitive channel	ATGGAGCTGAATCTCGACTATCTCGTCAGCCTGTCCGAAGCCTGGCTACCGATTGCCCTGCACTACAGCGGCCAGTTGCTGCTGGCGCTGGCGACCCTGGCGATCGGCTGGTGGCTGGTCAACCGTTTGACCAACAAGGTCAGTGCGCTGCTGAAGAGGCGTAGCGTCGACCAGACCCTGCACGGCTTCATCGGCAGCCTGGCCAATATCGTCCTCAAGGTGCTGCTGCTGGTCAGCGTGGCCTCGATGGTCGGCGTCGAGACGACGTCCTTCATCGCCGCCATCGGTGCGGCCGGCCTAGCCATCGGTCTGGCGCTGCAGGGCAGCCTGGCGAACTTCGCCGGCGGCGTGCTGATCCTGCTGTTCCGCCCGTTCCGGGTGGGCGATTGGATCGAGGCGCAGGGCGTGAGTGGGACGGTCGACAGCATCCAGATCTTCCACACCACGCTGAAGACCGCCGACAACAAGGTGGTGATCGTGCCCAACGGCAGCCTGTCCAACGGCCACATCACCAACTACTCCCGCGAGGCCAAGCGCCGGGTGGATATCGTCCTGGGCATCGATTACGGCAGCGATATCAAGCTGGCGCGGCAGGTGCTCCTGGAGATCGCCAAGGATTCCCGCGTGCTGGAGGAGCCGGCACCGGTGGTGTTCGTCACCGGCCTGGGCGATAGCGCGGTGAACCTGTCGCTGCGGGTCTGGGTGGCCACCGCCGACTACTGGCCGGTGACCTTCGACTTCATCGAACAGGCCAAGGAGCGGCTGACGGCCGCTGGCGTCGGCATTCCCTTCCCGCAGCGGGTGGTGCATCTGCAACCGGCGGTCGGGGAACATCCGGCACCGCGCAAGCTGACCGCCGACCAGACGGCGTAA	MELNLDYLVSLSEAWLPIALHYSGQLLLALATLAIGWWLVNRLTNKVSALLKRRSVDQTLHGFIGSLANIVLKVLLLVSVASMVGVETTSFIAAIGAAGLAIGLALQGSLANFAGGVLILLFRPFRVGDWIEAQGVSGTVDSIQIFHTTLKTADNKVVIVPNGSLSNGHITNYSREAKRRVDIVLGIDYGSDIKLARQVLLEIAKDSRVLEEPAPVVFVTGLGDSAVNLSLRVWVATADYWPVTFDFIEQAKERLTAAGVGIPFPQRVVHLQPAVGEHPAPRKLTADQTA	PGPT0013773_2856	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013773-mscS|yggB-K03442	NA	NA
BMS010_04451	1797			hypothetical protein	ATGACCCGTCGTACCTGGCGCGATGCAGTCGCCGCCTACGCCAGCCCCGCCACCCTGGCCCTGCTTCTCCTGGGTTTTGCCGCCGGCCTTCCCTACATGCTGGTGTTTTCCACCCTGTCGGTCTGGCTCCGCGAAGCCGGGGTCGCCCGGGAGACCATCGGGTTCGCCAGCCTGATCGGCCTGGCTTATGCCTTCAAATGGGTCTGGGCGCCGATGCTCGATCAATGGCGGCTGCCGTTGCTCGGCAAGCTCGGGCGGCGGCGCTCCTGGCTGGTGCTGTCGCAGAGCCTGGTGGCCATCGGCCTGATCGGCATGGCCAACTTCGACCCGCAGATGCAATTGTCCTGGTTGATCGCGCTGGCCGTGCTGGTGGCCTTCGCCTCGGCCACGCAGGACATCGCGATCGATGCCTACCGCCTGGAGATCGCCGAAGACAGTCGCCAAGCCGCGCTGGCTGCCAGCTACATGGCCGGCTACCGGGTCGCCGCCCTGCTCGCCACCGCCGGCGCGCTGTATTTCGCCGAATGGTTCGGCTCCACCAACCAGTTGTACAAACATGCCGCCTGGGCCAACACCTACCTGCTGTTCGCCCTGCTGATGCTGCCGGGGCTGGCCACCAGCCTGTGGATGCGCGAACCTCCGGCTCCGCCGCATATCCACGCGGCACCGCCGAAGCACGGTTTCTTCCACCAGTTGCTGTCGATCCTCGTCGTGATCGCCCTGGCGATCTCCGTACCCGCCCTGTTCATTCAGTTCTATCAGAGCGATCTGGTGCTGATGTTCAAGGGGGATGTGGCGCCTCAGGATCTGCTTTACAACGACCGCGCCTTCCTGCGTGCACTGCTTTACACCGCCGTGGCTTGTATCTGCACTTCCGGCCTGTTCTGGGGCGGGCTGGCGCCGGTGCTGAAGACGGCGGCGGCAAAGTACGGCTTCTTCCACCAGTTGCTGTCGGTGCTGCTGCTGATCATTCTGCTGATCTCGGTACCGGCGATGGTCACCCAGTATTACGAGAGCGACCTGGATTTGATGCTGCGGGGCCAACTCAACCTGCAGCAGTTGCTGCTCTACGACCGCGCCTTCCTACGTGCGCTGCTCTATACCCTGCTCACCGGCTTGTCCATTTCCAGCCTGTTCTGGGGCGGCATGGCGCCGGTGCTGACACCGATAAACGACTTCATTCACCGCTACCGCTGGCAGGCGTTGCTGCTGCTCGGCCTGGTGGCGACCTATCGGATGTCGGATACGGTAATGGGGGTGATGGCCAACGTCTTCTACATCGACATGGGCTTCACCAAGGACCAGATCGCCAGCGTCAGCAAGCTCTTCGGTCTGGTCATGACTCTGCTCGGGGCCGGGGTCGGTGGGTTGCTGATCGTGCGCTTCGGGATCATGCCGATCCTGTTCATCGGCGGCGTGGCCTCGGCGGCCACCAACCTGCTGTTCCTCATGCTTGCCGGCATGGGCGCGCACCTGCCGATGCTGGTGGTGACCATTTCCTGCGACAACTTCAGCGCCGGTCTCGCCACGGCGGCCTTCGTCGCCTACCTGTCGAGCCTGACCAACCTGAAGTTCTCAGCCACCCAGTACGCCCTGCTCAGCTCCATCATGCTGCTCTTGCCGCGCCTGATCGGCGGTTATTCCGGCGTGATGGTGGAAAAGCTCGGCTACGCGCAGTTCTTCCTCGCCACCGCCCTGCTCGGCGTACCGACGCTGGTGCTGATTCTCTGGCAGTGGCGGAGGAATCGCGCCGAACCGAACGGTTCGGCGCCCATGGCGCCCTCGGAGCAGGCCTGA	MTRRTWRDAVAAYASPATLALLLLGFAAGLPYMLVFSTLSVWLREAGVARETIGFASLIGLAYAFKWVWAPMLDQWRLPLLGKLGRRRSWLVLSQSLVAIGLIGMANFDPQMQLSWLIALAVLVAFASATQDIAIDAYRLEIAEDSRQAALAASYMAGYRVAALLATAGALYFAEWFGSTNQLYKHAAWANTYLLFALLMLPGLATSLWMREPPAPPHIHAAPPKHGFFHQLLSILVVIALAISVPALFIQFYQSDLVLMFKGDVAPQDLLYNDRAFLRALLYTAVACICTSGLFWGGLAPVLKTAAAKYGFFHQLLSVLLLIILLISVPAMVTQYYESDLDLMLRGQLNLQQLLLYDRAFLRALLYTLLTGLSISSLFWGGMAPVLTPINDFIHRYRWQALLLLGLVATYRMSDTVMGVMANVFYIDMGFTKDQIASVSKLFGLVMTLLGAGVGGLLIVRFGIMPILFIGGVASAATNLLFLMLAGMGAHLPMLVVTISCDNFSAGLATAAFVAYLSSLTNLKFSATQYALLSSIMLLLPRLIGGYSGVMVEKLGYAQFFLATALLGVPTLVLILWQWRRNRAEPNGSAPMAPSEQA	PGPT0028125_61	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028125-ampG-K08218	NA	NA
BMS010_04452	396	ogt_2		Methylated-DNA--protein-cysteine methyltransferase	ATGATCGATGACGAAGACGACCAGCGGGAGGAGCGAAGCGAAGAGCCCGCCTGGCCTGCCTCGCCGCCGGAAAGTGCCGAGGCGAGGCGCGAAGCGCTCTATCTGACCTTGAGCCAGGTGCCGCCGGGCAAGGTGGTCAGTTACGGCCAGCTCGCCGAACTGGCCGGGCTCGGGCGCGCGGCACGCTGGGTCGGCCGCACGCTCTCGCAGTTGCCGGAAGGCACCAGCCTGCCCTGGCACCGCGTGCTCGGCGCCGGCGGGCGCCTCAGCCTGCCGGCCGGCACGGCTTCCGGCCACGAACAACGGGCACGCCTGCGGGCGGAGGGTGTGACGATCCACAACGATCGTGTGGATATCCGTCGGCACGGCTGGCGTCCGATGGAGCACAGCGGTTAG	MIDDEDDQREERSEEPAWPASPPESAEARREALYLTLSQVPPGKVVSYGQLAELAGLGRAARWVGRTLSQLPEGTSLPWHRVLGAGGRLSLPAGTASGHEQRARLRAEGVTIHNDRVDIRRHGWRPMEHSG				NA	NA	NA	NA	NA
BMS010_04453	1005			hypothetical protein	ATGTTGTCCAGAACTCTGCTGTGTATAGCTCTTACCGCCGCCTCGGCGTCCGCTATCGCCGATACCGTATGGCTGAAGAACGGTGACCGCCTGACCGGCAAGATCAAGGTCTTCGACGGGAGCCGCTTGGTCCTCGAGACCGATTACGGCGGCTCCATCCCCCTCGACTGGAAGAAGGTCGCGACGCTGGAAAGCAACCAGCAATTGCTGATCAAGGAAGACGACGTCACCGGAGAGCGCGCCAAGGCGTTGAAGCCGGCGGAAGAGGGCAAGGTCATCCTGGCCAACGGCGACCAGCCGAAGACCGTGGAGCTGGCCAGTATCGCCCAGATCATCCGGCCCAAGCCGGTGGTGGAAGACCTGACCTGGACCGGCAACGTCGACGTCGCCATGGACTACAAGCGGGCCGAGACCGATACCGACGACTACGACATCGATTTCAAGACCAAGGCACGCCACGGCCGCTGGCGGCATAACGCCAAGGGCGAATACAACCGCGAATTCCAGGATGACGTGAAGAGCACTGACAACTGGGAAGCGGAATACGCGCTGGACCGCTTCCTCGACGAGCACTGGTTCTGGCAGGGCCGCTTCGATTACAAGCGCGACAAGATCGAAGACCTGCGCCGCCAGCGCACCCTGGGTACCGGTCCCGGCTACCAGTTCTGGGACAACGAGCTGGGCGCGTTCTCCTTGGCGTCGCTGATCAACCGTGCGGATTACGAGTACGCCGACGGTGAGAAGGATAACTTCTACTCCCTGGCGGTGAAGTGGGACTACAACCGCTACCTGGTCGGCAAGACCATCGAGATCTTCAGCAACGGCGAAGTGGGCAAGCCGCTGGGCGGCGTCGCCGACTACTCGCTGGATGCCGAGGCCGGGCTGCGCTACAAGGTGACCGACTGGGCGTCGATGAACATGAAGGTGGAAAAGGACATGGTCAGCGGCTCGGACGGCGATCTCGACGAGACCCGCTATACCCTGGGCTTCGGCGTCGGCTGGTAA	MLSRTLLCIALTAASASAIADTVWLKNGDRLTGKIKVFDGSRLVLETDYGGSIPLDWKKVATLESNQQLLIKEDDVTGERAKALKPAEEGKVILANGDQPKTVELASIAQIIRPKPVVEDLTWTGNVDVAMDYKRAETDTDDYDIDFKTKARHGRWRHNAKGEYNREFQDDVKSTDNWEAEYALDRFLDEHWFWQGRFDYKRDKIEDLRRQRTLGTGPGYQFWDNELGAFSLASLINRADYEYADGEKDNFYSLAVKWDYNRYLVGKTIEIFSNGEVGKPLGGVADYSLDAEAGLRYKVTDWASMNMKVEKDMVSGSDGDLDETRYTLGFGVGW				NA	NA	NA	NA	NA
BMS010_04454	759	phaB_1		Acetoacetyl-CoA reductase	ATGGAATTGAAAGACAAGGTCATCATTATCACCGGCGGCTGCCAGGGCCTGGGCCGCGCAATGGGCGAATACCTGGCTGCCAAGGGCGCGAAGCTGGCGCTGGTGGACCTCAACCAGGAGAAGCTCGACCAGGCCGTGGCGGCCTGCAAGGCACTGGGCACCGAGGCACGTGCCTATCTGTGCAACGTTGCCAACGAAGAGCAGGTGGTGGACACCGTGGCCCGCATCGCCGAGGACTTCGGCGCCATCAACGGCCTGGTCAACAACGCCGGCATCCTGCGTGATGGCCTCACCGTCAAGGTGAAGGACGGCGAGATGACCAAGCTGAGCCTGGCGCAGTGGCAGGCGGTGATCGACGTCAACCTGACCGGTGTGTTCCTCTGCACCCGCGAAGTGGCGGCGAAGATGATCGAGCTGAAGAACCAGGGCGCGATCGTCAATATTTCCTCCATTTCCCGTGCCGGCAACATGGGCCAGGCCAATTACTCCGCGGCCAAGGCCGGTGTAGCCGCCGATACCGTGGTCTGGGCCAAGGAACTGGCGCGCTACGGCATCCGCGTCGCCGGCGTCGCTCCGGGCTTCATCGAGACCGAGATGACCGCCAGCATGAAGCCGGAAGCCCTGGAGAAGATGACCTCCGGCATTCCGCTGCGGCGCATGGGTAAACCTACCGAAATCGCCCACTCCGTGGCGTACATCTTCGAGAACGACTACTACACCGGTCGTATCCTCGAACTGGACGGCGGCCTGCGTCTGTAA	MELKDKVIIITGGCQGLGRAMGEYLAAKGAKLALVDLNQEKLDQAVAACKALGTEARAYLCNVANEEQVVDTVARIAEDFGAINGLVNNAGILRDGLTVKVKDGEMTKLSLAQWQAVIDVNLTGVFLCTREVAAKMIELKNQGAIVNISSISRAGNMGQANYSAAKAGVAADTVVWAKELARYGIRVAGVAPGFIETEMTASMKPEALEKMTSGIPLRRMGKPTEIAHSVAYIFENDYYTGRILELDGGLRL	PGPT0003180_10296	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0003180-ymfI|fabG|efpI-K00059	NA	NA
BMS010_04455	726			hypothetical protein	GTGAGCGTGAAAGCGGCCAAGCATGCCCGAGAATTGCTGCTCAAGGAATACCGTGGCGTGCTCTCCACCCATTCAAAGGCCATGCCGGGTTTTCCTTTCGGATCGGTGGTGCCTTATTGCCTCGACGAACGGGGCTGGCCGCTGATTCTGATCAGCCGTATCGCCCAGCACACCCACAACCTGCAAAAAGAGCCGAAATGCTCGCTGCTGGTGGGCGAGCGGGGCGCCGAAGACGTCCAGTCCGCCGGACGCCTGACCCTGCTCGCCGAAGCGCGGCAACTGGACGATCCGGCCGCCATCGAGGCCGCCGCGACGCGTTACTACCGCTATTTCCCCGCCTCGCGCGATTACCACAAGGCCCACGATTTCGATTTCTGGATGCTGGAGCCCGTGCGCTGGCGCTACATTGGTGGTTTCGGCGCGATTCACTGGCTCGACGAGGTGGCCCTGGCCAATCCGTTCGTCGGCGAATCCGAAACCGGGATGGTCGAGCATATGAACGCCGACCACGCCAACGCCATCGCCCACTACGTGGAGCTGGCCGGATTACCGAAAGGGGAGGCTGCCGAGCTGGCCGGCATCGACAGCGAGGGTTTCCACCTGCGTATCGGCCAGGCGCTCTACTGGCTGGCCTTCCCCCAACCGTGCGCCAATCCCGGTGCGGTACGCCAGGCGCTGGTCGCCCTGGCGCGCGCCGAGCGCTGGCCATCGGCCGAGGAGGCCTGA	MSVKAAKHARELLLKEYRGVLSTHSKAMPGFPFGSVVPYCLDERGWPLILISRIAQHTHNLQKEPKCSLLVGERGAEDVQSAGRLTLLAEARQLDDPAAIEAAATRYYRYFPASRDYHKAHDFDFWMLEPVRWRYIGGFGAIHWLDEVALANPFVGESETGMVEHMNADHANAIAHYVELAGLPKGEAAELAGIDSEGFHLRIGQALYWLAFPQPCANPGAVRQALVALARAERWPSAEEA	PGPT0003615_419	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-HEMOPHORES-HEME|HEMIN_UTILISATION,PGPT0003615-hugZ|hutZ|chuZ-K07226	NA	NA
BMS010_04456	462			hypothetical protein	ATGCGTGCTTTTCTTTTCCTGCTGTTGCTGTTCCCGCTGCTCGAACTCGCGGTGTTGATCAAGGTCGGCAGCGCCATCGGCGTGCTGCCCACGCTGCTGCTGATCATTTTCACTGCCATCCTCGGCAGCGTCCTGCTGCGTGTAGCCGGGTTGTCCACCGCATGGCGCGCCCGTGAGCGCCTGGCTCGTGGCGAGCTGCCGGAGCAGGAAATGCTCGAAGGCCTGCTGATTGCCGTGGGCGGTGGCCTGTTGCTGCTGCCGGGCTTCATCAGCGATATCTTCGGCCTGCTCTGCCTGTTCCCCTTCACCCGCCGTCTGATCGTCGCCAATCTGCGCAAGCGCGTCGAAGAGCAGGCCCTGCGCCAGCGTGCGTTCGCCGATGATCTGGCGGCCAGCCAGGGCCGGCCGGGAGCCGGTCGTCCGAATGTGATCGAAGGCGAATACGAGCGCCGGGATCGCTGA	MRAFLFLLLLFPLLELAVLIKVGSAIGVLPTLLLIIFTAILGSVLLRVAGLSTAWRARERLARGELPEQEMLEGLLIAVGGGLLLLPGFISDIFGLLCLFPFTRRLIVANLRKRVEEQALRQRAFADDLAASQGRPGAGRPNVIEGEYERRDR				NA	NA	NA	NA	NA
BMS010_04458	294	groS	COG0234	10 kDa chaperonin	ATGAAGCTTCGTCCTCTGCATGACCGCGTCGTCATTCGTCGCAGCGAAGAAGAAACCAAGACCGCTGGCGGCATCGTCCTGCCGGGTTCCGCTGCCGAAAAACCGAACCGTGGCGAAGTCGTCGCCGTCGGCACCGGTCGCGTGCTGGACAACGGCGAAGTGCGTCCGCTGGCCGTGAAAGTCGGCGACCAGGTGGTATTCGGTCCGTACTCCGGCAGCAACACCATCAAGGTTGACGGCGAAGACCTGCTGGTGATGGGCGAGAACGAAATTCTCGCTGTCATCGAAGCCTGA	MKLRPLHDRVVIRRSEEETKTAGGIVLPGSAAEKPNRGEVVAVGTGRVLDNGEVRPLAVKVGDQVVFGPYSGSNTIKVDGEDLLVMGENEILAVIEA	PGPT0014565_3057	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014565-groES|mopB-K04078	NA	NA
BMS010_04459	1641	groL	COG0459	60 kDa chaperonin	ATGGCTGCTAAAGAAGTTAAGTTCGGCGACTCCGCTCGCAAGAAGATGCTGGTTGGCGTGAACGTCCTGGCGGACGCCGTCAAGGCCACCCTCGGCCCGAAAGGCCGCAACGTGGTACTGGAAAAGAGCTTCGGCGCTCCGACCATCACCAAGGACGGTGTGTCCGTCGCCAAGGAAATCGAGCTGAAGGATCGCTTCGAGAACATGGGCGCCCAGCTGGTGAAAGACGTTGCCTCCAAGGCCAACGACGAAGCCGGTGACGGCACCACCACTGCCACCGTCCTGGCCCAGGCCATCGTCAACGAAGGCCTGAAGGCCGTCGCTGCCGGCATGAACCCGATGGACCTCAAGCGCGGCATCGACAAGGCCACCATCGCCATCGTCGCCGAGCTGAAGAACCTGTCCAAGCCGTGCGCCGACTCCAAGGCCATCGCCCAGGTCGGCACCATCTCCGCCAACGCTGACGAGTCCATCGGCCAGATCATTGCCGAAGCCATGGAAAAAGTCGGCAAGGAAGGCGTGATCACCGTTGAAGAAGGCTCGGGCCTGGAGAACGAACTGTCCGTCGTCGAAGGCATGCAGTTCGACCGCGGCTACCTGTCCCCCTACTTCATCAACAAGCCGGACACCATGGTGGCCGAGCTGGACAACCCGCTGATCCTGCTGGTCGACAAGAAAATCTCCAACATCCGCGAAATGCTGCCGGTGCTGGAAGCCGTCGCCAAGGCCGGTCGTCCACTGCTGATCGTTGCCGAAGACGTGGAAGGCGAAGCCCTGGCCACCCTGGTGGTGAACAACATGCGTGGCATCGTCAAAGTCGCTGCCGTCAAGGCTCCGGGCTTCGGCGACCGCCGCAAGGCCATGCTGCAGGACATCGCCATCCTGACCGGCGGTACCGTGATTTCCGAAGAAGTCGGCCTGAGCCTGGAAAGCGCCACCCTGGAGCACCTGGGTAACGCCAAGCGCGTCGTGCTGAACAAGGAAAACACCACCATCATCGACGGCGCTGGCGCCCAGAGCGACATCGAAGCCCGCGTGGCCCAGATCCGCAAGCAGGTCGAAGAGACTTCCTCCGACTACGACAAGGAGAAGCTGCAAGAGCGTCTGGCCAAGCTGGCCGGCGGTGTTGCCGTGATCAAGGTCGGTGCCGGCACCGAGGTCGAGATGAAAGAGAAGAAGGCCCGCGTCGAAGACGCCCTGCACGCTACCCGCGCTGCCGTGGAAGAGGGCGTGGTACCTGGCGGCGGTGTCGCCCTGGTGCGTGCCCTGCAGGCTATCGCTGACCTGAAAGGCGCCAACGAAGACCAGAACGTCGGTATCGCTCTGCTGCGTCGCGCGGTCGAATCTCCGCTGCGCCAGATCGTCGCCAACGCCGGCGACGAGCCGAGCGTGGTGGTCGACAAGGTCAAGCAGGGTTCCGGCAACTACGGCTTCAACGCCGCGACCGGCGAATACGGCGACATGATCGAGATGGGTATCCTCGATCCGGCCAAGGTGACCCGTTCCGCCCTGCAGGCTGCGTCCTCCATCGGCGGCCTGATGATCACCACCGAGGCCATGGTCGCCGAGATCGTGGAAGACAAGCCGGCCCCGGCCATGCCTGACATGGGCGGCATGGGTGGCATGGGCGGCATGATGTAA	MAAKEVKFGDSARKKMLVGVNVLADAVKATLGPKGRNVVLEKSFGAPTITKDGVSVAKEIELKDRFENMGAQLVKDVASKANDEAGDGTTTATVLAQAIVNEGLKAVAAGMNPMDLKRGIDKATIAIVAELKNLSKPCADSKAIAQVGTISANADESIGQIIAEAMEKVGKEGVITVEEGSGLENELSVVEGMQFDRGYLSPYFINKPDTMVAELDNPLILLVDKKISNIREMLPVLEAVAKAGRPLLIVAEDVEGEALATLVVNNMRGIVKVAAVKAPGFGDRRKAMLQDIAILTGGTVISEEVGLSLESATLEHLGNAKRVVLNKENTTIIDGAGAQSDIEARVAQIRKQVEETSSDYDKEKLQERLAKLAGGVAVIKVGAGTEVEMKEKKARVEDALHATRAAVEEGVVPGGGVALVRALQAIADLKGANEDQNVGIALLRRAVESPLRQIVANAGDEPSVVVDKVKQGSGNYGFNAATGEYGDMIEMGILDPAKVTRSALQAASSIGGLMITTEAMVAEIVEDKPAPAMPDMGGMGGMGGMM	PGPT0014570_3301	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0014570-groEL|mopA-K04077	NA	NA
BMS010_04460	3111			hypothetical protein	ATGGGCGTAATATGGCAATCCGACACCTCCCCCTCCGCGACTCCGGAAAGCGATGTCCCCGCGCTTTGCCAGCCTAAACCGCAAAAACGCCTATCGAAGCTGCGCCTGGTGCTCTGGCTCCTGGTCCTGCTGCTCCTGATCGCCCTCGCCATCGTCGCCGCCTACGAAATACAAACCTCGCACTTCCAGTCGCGGGGCTTCAGCCGCTATGCCGCGACGCTGGACTACGCCGTGCAAGCGGGGCCCAGCGACGCCATCCTGTTCCCCCGCGACGGCCCCTTCGACAAGCGCCTCGGCTACGCCTACCTGCCGATGTTCCTCGAACGCCTGCAGCAGCGCGGCTTCCAGATCCAGTCCCAGGCGCACTTTTCGCCGGCGCTGATGAACTACACACAGCGTGGTTTCTTCCCGCCCTACCAGGAAAAGGACCAGAGCGGCCTGTCCATCGACGACTGCCGCGGCGTGCCGCTCTACCGCTTCCGCTATCCGCAGCAGCGCTACGACGACTTCCACGACATCCCGCCGTTGATCGTCAACAGCCTGCTGTTCATCGAGAACCGCCAGTTGCTCGACCCCGAACGCCCCCTGGCCAACCCGGCGGTGGACTGGCCACGCTTCGCCATGGCGGCGATCTCCCAGGTCGGCAAGCTGCTCGACGTGCAGGACCAGTCGGCCGGCGGCAGCACCCTGGCCACCCAGTTGGAGAAGTACCGCCACTCGCCGGACGGCCTCACCTATTCCGCCGGCGAAAAACTCCGCCAGATGTTCTCCGCCAGCGTGCGTGCCTACCGCCAAGGCCCGGAAACCCTGGCCGCCAGCCAGACCGTCGTACGCGACTACCTCAACAGCGTGCCGCTCTCCGCCGCGCCCGGCCACGGCGAGGTGCACGGCCTGGCCGAGGGATTGCGGATCTGGTACGGCGCCGACTTCGATCAGGTCAACCGCCTGCTCGATCCGGCGCGCTCACCGGACGCCAGCAATGCCGAGCGCGGCCTGGCGCTGCGCCAGGTGCTCTCGCTGATGATCGCCCAGCGCCGCCCCTCCTTTTACCTGGCCCAGGGGCGCAGCGAGATGGAAGCGCTCACCGACAGCCACATCCGCCTGCTGGCCAACGCCGGGATGATCCCACCCGCCCTGCGCGACGCCGCCCTGGCCCAGCGTGCCGAATACCGGGACTGGACCATGCAGCCGCCGATGCAGGCCAACGAGACCAACAAAGGCATCAGCGTCGCCCGCAGCCGCCTGTCCGGCCTGCTCAACATGCCGCTATACGACCTCGACCGCCTCGACCTGAGTGCCACCAGCACCCTGCAGGGCGAGCTGCAACAGGCGGTCAGCGCCTACCTGCGCCGGCTCGCCGACCCGGCCTTCGCCGAGCAGATCGGTCTGTTCGGCGAGCGCCTGCTGTCGCCGGAGAAAACCCAGGACGTGCGCTACAGCTTCACCCTGTTCGAACGCACCCCGGACAGCTACCGGGTCCGGGTGCAGACCGACAGCACCGACCAACCCTTCGACATCAACGAAGGCAGCAAGCTGGAACTGGGCTCCACCGCCAAGCTGCGCGTCCTCACCACCTACCTGGAAATCATCGCCGAGCTGCACGATCGCTTCGCCGGCCAATCGCCGAAGGCCCTGCGCGCGGTGGAAGTCGAACCCATGGACCTGATCACCCGCTGGGCCCTCGACTACCTCGCCACCCGCTCCGACCACAACCTCCCGGCCATGCTCGACGCGGCCCTGGAACGGCGCTACTCGGCCAACCCCGGCGAACGCTTCTTCACCGGCGGCGGGCTGCACACCTTCGGCAACTTCCGCCGGGAGGACAACGGCCGCCTGCCGACCCTCAAAGAAGCACTGCGCGAATCGATCAACCTGCCGTTCATCCGCCTGATGCGCGACATCGTCCGCTACAGCACCTACCAGGCGCCGGGCAACAGCGCGGAACTCTTGAAGAACGACAAGGACCCACGCCGCGAGGAGTACCTGCGGCGCTTCGCCGACCGCGAAGGCACCGTGTTCCTCCTGCGCTTCTGGCGCAAGTACAAGGGCAAGGCCGAACAGGAACGCCTCGACACCTTCCTCGATGGCCTGCGCGCCACCCCGGTCCGTCTCGCGGCGGTGCATCGCTACCTGCGCCCGCGCGACGACCTGGCCACCTTCGCCGCCTTCCTGCGCAGCCGGGTGCCCCAGGAAAAACTCACCGACAAACGCATCGAGGAGCTGTACCGCAGCTACGGCCCGGGCGCCTACAACCTGCCGGACCAGGGCTACATCGCCCGCGTCCACCCGCTCGAACTCTGGCTGCTGGGCTACCTCAACGACAACCCGAAGGCGGAATTCAGCGACGCCGTGGAAGCCAGCCGCGACGAACGCCAGGAGGTCTACGGCTGGCTGTTCAAGACACGCCACCGCAGCGCCCGGGACGTCCGCATCCGCACCATGCTGGAGGTCGAAGCCTTCCTCGACATCCATCGTCGCTGGCAGCGCGTCGGCTATCCGTTCGACCATCTGGTCCCGTCCCTGGCCACCGCCATCGGCAGCTCCGGCGACCGCCCGGCGGCCCTGGCCGAGCTGATGGGGATCATCCAGAACGATGGCATCCGCCTGCCCACAGTGCGCATCGACAACCTCCATTTCGCCACCGGCACGCCGTACGAGACCCATTTCAACCAGGTTCCCAACCGCGGCAAGCGGGTGCTCCCCTCGGAAGTCGCCGCCGCCCTGCGCGACGTGCTCTCCACCGTGGTGGAAGGCGGCACCGCGCGGCGCCTGCAAGGCAGCTTCGCCCTGCCCGGCGGCCGGCCGCTGAGCGTCGGCGGCAAGACCGGCACCGGCGACAACCGTATCGAAAGCGTCGGCCCCGGCGGCCGCATCCTCAGCTCGCGGGCGATGAACCGTACCGCCACCTTCGTGTTCTTCATCGGCCAGGATCACTTCGGTACCCTGACCGCCTTCGTCCCGGGCCAAGCGGCGGAAAACTTCCGCTTCACCTCGGCCCTGCCGGTACAGGTGCTCAAAGGCATGGCCCCGGTCCTCAGCCCCTACCTCGAACCCAGCCTCGGCACCCGCTGCCAACCCCCGCTCGGCCCAGTGCAGGCGCGTTGGCAGTGA	MGVIWQSDTSPSATPESDVPALCQPKPQKRLSKLRLVLWLLVLLLLIALAIVAAYEIQTSHFQSRGFSRYAATLDYAVQAGPSDAILFPRDGPFDKRLGYAYLPMFLERLQQRGFQIQSQAHFSPALMNYTQRGFFPPYQEKDQSGLSIDDCRGVPLYRFRYPQQRYDDFHDIPPLIVNSLLFIENRQLLDPERPLANPAVDWPRFAMAAISQVGKLLDVQDQSAGGSTLATQLEKYRHSPDGLTYSAGEKLRQMFSASVRAYRQGPETLAASQTVVRDYLNSVPLSAAPGHGEVHGLAEGLRIWYGADFDQVNRLLDPARSPDASNAERGLALRQVLSLMIAQRRPSFYLAQGRSEMEALTDSHIRLLANAGMIPPALRDAALAQRAEYRDWTMQPPMQANETNKGISVARSRLSGLLNMPLYDLDRLDLSATSTLQGELQQAVSAYLRRLADPAFAEQIGLFGERLLSPEKTQDVRYSFTLFERTPDSYRVRVQTDSTDQPFDINEGSKLELGSTAKLRVLTTYLEIIAELHDRFAGQSPKALRAVEVEPMDLITRWALDYLATRSDHNLPAMLDAALERRYSANPGERFFTGGGLHTFGNFRREDNGRLPTLKEALRESINLPFIRLMRDIVRYSTYQAPGNSAELLKNDKDPRREEYLRRFADREGTVFLLRFWRKYKGKAEQERLDTFLDGLRATPVRLAAVHRYLRPRDDLATFAAFLRSRVPQEKLTDKRIEELYRSYGPGAYNLPDQGYIARVHPLELWLLGYLNDNPKAEFSDAVEASRDERQEVYGWLFKTRHRSARDVRIRTMLEVEAFLDIHRRWQRVGYPFDHLVPSLATAIGSSGDRPAALAELMGIIQNDGIRLPTVRIDNLHFATGTPYETHFNQVPNRGKRVLPSEVAAALRDVLSTVVEGGTARRLQGSFALPGGRPLSVGGKTGTGDNRIESVGPGGRILSSRAMNRTATFVFFIGQDHFGTLTAFVPGQAAENFRFTSALPVQVLKGMAPVLSPYLEPSLGTRCQPPLGPVQARWQ				NA	NA	NA	NA	NA
BMS010_04461	354			hypothetical protein	ATGAAGTTCACCCCCGGCCGCAATATGGCCATGAAAGTACCTCCGCATCAGTGGCAACAGACCGTGGCGTTCTACCGCGATGTGCTGGGCCTGCCGGTACTGGCCGAGCAAGCCGACTCATTGGCGTTCGATTTCGGCGGTGACCGGCGCCTGTGGATCGACCGGGTGGCGAGCATGAGCCAGGCCGAGCTGTGGCTGGAAATCTGCAGCGACGACCCGGTCGCCGCCGCGCGCTGGCTGGAGGAGCGCGGCGTGGTGCGTTGCGATGCCATCGAGCCGCTGCCGGAGGGTTTCGAGGGGTTCTGGATCGCCAACCCGGCGGGCATCGTCCACTTGCTTTCCCGCTCCGCCTGA	MKFTPGRNMAMKVPPHQWQQTVAFYRDVLGLPVLAEQADSLAFDFGGDRRLWIDRVASMSQAELWLEICSDDPVAAARWLEERGVVRCDAIEPLPEGFEGFWIANPAGIVHLLSRSA				NA	NA	NA	NA	NA
BMS010_04462	1158			hypothetical protein	ATGCAAAACGGACGTGATCACCGCATCGACTTCTTTCGCGGTATTGCGCTGATCTTCATCTTCTGGGACCACATCCCGGGGAATCTGCTCGGTCACTTGACCGTGCGCAACGTCGGGCTCAGCGATGCAGCGGAAATTTTCGTCTTCCTCGCCGGCTACGCCTCGGTGCTGGCCTACGGCAAGCTGCTCCGACGCGACGGCTACTGGATCGCCTGCATGCGCATCCTGCGCCGCGCCTGGGTGCTCTATGTTGCCCATATCTTCCTGCTGGCGGTGCTGATGGGCATCGTCTTCACCACCAACAGCCACATCGAAACCCGCGATTTCGTCGAGGAAATGGGCCTCGGCTACTTCCTCGCCAACCCGCAACAGGCCCTGGTCGACGAACTGCTGCTGCGCTTCAAGCCCAGCCTGATGGACCCGCTGCCGCTGTACATCGTGCTGCTCGCGGCGCTGCCGTTGATCCTGCCCGGGCTGCTGCGCCGACCGGAATACCCGGTGGGGCTGTCGCTGGCGCTGTACCTGCTGGCACCGTTGTTCGGCTGGAATTTCAGCTCCCAGCCGAACGGCCAGTGGTTCTTCAACCCGCTGGCCTGGCAGGTGCTCTTCGTGCTCGGCGGGGCGGCGGCGGTACAGGCACAACGCAAGGCGTCGACGCCCGCTCCATTGCCAGCGCGAAGCCTGCGGCAACAGCCGTTGTTCCTCGCCGCGGCGACCTACCTGGTGCTCTGTGCGGCGCTGGCGCTGTCCTGGAGATGGCCGGCGCTGCACGACGCGCTGATGCCACAGTGGCTCGCCGAGCGGATCTACCCGATCGACAAGACCAACCTGTCCCCGCTGCGCCTGCTGCATTTCCTGGCCCTGGCCTATTGCGTCGCGGTCGTCCTGCCGACCGGCGCCTGGCTCGAGCGCTGGCCGGCGCGGCAACTGTGCCGGATGGGCAGCTACTCGCTGGAGGTGTTCTGCCTGGGCGTCCTGCTCGCGCCGCTCACCGATGCCGCAGTCACGCTGCTCGGCAATGGCCTGGTGGTGCAGGTTGCCGGTGGCCTGGCCGGCGTGGCGCTGATGGCCGCGCTGGCGGCCTGGCTGGAGCTGAACAAACGGCTCGCCGCCTCCCGCAAGAGCGCGCCGGTCATGGCGCAAGCCAAGCCCGCCTGA	MQNGRDHRIDFFRGIALIFIFWDHIPGNLLGHLTVRNVGLSDAAEIFVFLAGYASVLAYGKLLRRDGYWIACMRILRRAWVLYVAHIFLLAVLMGIVFTTNSHIETRDFVEEMGLGYFLANPQQALVDELLLRFKPSLMDPLPLYIVLLAALPLILPGLLRRPEYPVGLSLALYLLAPLFGWNFSSQPNGQWFFNPLAWQVLFVLGGAAAVQAQRKASTPAPLPARSLRQQPLFLAAATYLVLCAALALSWRWPALHDALMPQWLAERIYPIDKTNLSPLRLLHFLALAYCVAVVLPTGAWLERWPARQLCRMGSYSLEVFCLGVLLAPLTDAAVTLLGNGLVVQVAGGLAGVALMAALAAWLELNKRLAASRKSAPVMAQAKPA				NA	NA	NA	NA	NA
BMS010_04463	429			hypothetical protein	ATGGAGCTACTGGTCAACATCGATGTGAACGACCTCCCGGAAGCCATCCGTTTCTACGAGCAGGCCCTGGGCTTGCGATTGGGGCGTTTGCTGTTCGAGGGAAGCGTCGCGGAGTTGCTCGGCGCGGCGGCGCCAGTCTACCTGCTGGCCAAGGCCGACGGTACGGCATGTTGCCCCGGGCAGCGGCGCGATTATCGACGGCACTGGACGCCGGTGCACCTGGATTTCGTCGTCGAGGACCTGGACGCCGCCGTCCACCGTGCGCTCGAGGCCGGCGCCCGGCTCGAAGGCGAGGTGCTGTCGCAGCCGTACGGGCGCCTGGCGACGTTCGCCGACCCGTTCGGCCACGGTTTCTGCCTCATCGAGTGGAAAGGCGAGGGCTACGCTGAGGTTTCCGAATCTGACAGGCTCGCCCAGGAGGAAACATGA	MELLVNIDVNDLPEAIRFYEQALGLRLGRLLFEGSVAELLGAAAPVYLLAKADGTACCPGQRRDYRRHWTPVHLDFVVEDLDAAVHRALEAGARLEGEVLSQPYGRLATFADPFGHGFCLIEWKGEGYAEVSESDRLAQEET				NA	NA	NA	NA	NA
BMS010_04464	429		COG2764	putative protein	ATGACCCAGCTCGCGAAGAACACCCGCAGCGCCCTGATCCCCTGCCTGCGCTACCGCGATGCGCCGGCCGCCATCGACTGGTTGCAACGGGCCTTCGGCTTCGAGGCGCTGATGGTGGTGCCGGACGAGCAGGGCGGCATCGCCCATGCCCAGCTTGGATTCGGCAATGGCATGGTGATGCTGGGTTCGGTGGCCGACAGCGAATACGGCCGGCTGATGGCGCAGCCGGACGAGACCGGCGGAGCGGGGACCCAGAGCGTCTACGTGGTGGTCAACAGCGCCGATGCGCTCTATACCCAGGCGAAGGCCGCCGGCGCCGATGTCGTCATCGAGTTGAAGGACGAGGATTATGGCGGGCGCGGTTTCACCTGCCGCGACCCGGAAGGCCACGTGTGGAGCTTCGGTACCTATGATCCGTGGCAGGAGTGA	MTQLAKNTRSALIPCLRYRDAPAAIDWLQRAFGFEALMVVPDEQGGIAHAQLGFGNGMVMLGSVADSEYGRLMAQPDETGGAGTQSVYVVVNSADALYTQAKAAGADVVIELKDEDYGGRGFTCRDPEGHVWSFGTYDPWQE				NA	NA	NA	NA	NA
BMS010_04465	825		COG0656	putative oxidoreductase/MSMEI_2347	ATGCAGACCATCGTTTTTCCGGACGGCGCAGAAGCCCCGGCCATCGGCCAGGGCACCTGGCGCATGGGCGAGGACCCCGCCGAGCGCCCGCGCGAAGTGGCGGCGTTGCGCCTGGGCCTCGAACTGGGGCTGACCCTGATCGATACCGCCGAGATGTACGGCGAAGGCGGCGCCGAAGAAGTGGTCGGCGAGGCCATCCAGGGGCGCCGCGAACGGGTGTTCCTGGTCAGCAAGGTCTATCCGCACAACGCCAGCCGCAGCGGTGTGGCGGCGGCCTGCGAGCGCAGCCTGCGGCGGCTCGGTTGCGACTATCTCGACCTCTACCTGTTGCACTGGCGCGGTCAGTATCCGCTGGCGGAAACCGTGGAAGCCTTCGAGCGGCTGCGCGAGCAGGGCAAGATCCGCCGCTGGGGCGTCTCCAATTTCGACCTGGACGACATGGAGGAGCTGGACAATGCCGCCTGCACCACCAACCAGGTGCTCTACAACCCGGAGCAGCGGGGCATCGAGTTCGACCTGCTGCCCTGGTGCCAGGCACGGCGCATGCCGGTCATGGCCTACTGCCCGCTGGGCCAGGGCGGCGCATTGCTGAAGCATCCCGCCCTGCTGGAAGTGGCCCGGCGCCAGGGGGCCACGCCGGCCCAAGTGGCGCTGGCCTGGGCTCTGCACCAACCCGGTGTGCTGGCGATTCCCAAGGCGGTGGAGGTGGAGCACGTGCACCTCAATGCCGGTGCGGCGCGGCTCGCTCTTTCCGCCGAGGAGCTGGCGATCATCGACGCCGCCTTCCCGCCGCCGGCGCGCAAGCGGTCCCTGGCGATGGTCTGA	MQTIVFPDGAEAPAIGQGTWRMGEDPAERPREVAALRLGLELGLTLIDTAEMYGEGGAEEVVGEAIQGRRERVFLVSKVYPHNASRSGVAAACERSLRRLGCDYLDLYLLHWRGQYPLAETVEAFERLREQGKIRRWGVSNFDLDDMEELDNAACTTNQVLYNPEQRGIEFDLLPWCQARRMPVMAYCPLGQGGALLKHPALLEVARRQGATPAQVALAWALHQPGVLAIPKAVEVEHVHLNAGAARLALSAEELAIIDAAFPPPARKRSLAMV				NA	NA	NA	NA	NA
BMS010_04466	984	hcaB_5		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGACCCGTAACACTCTGGAAGACGCCCTGATCGTGATCACCGGGGCTTCGAGCGGTATCGGCCGGGCGGCGGCGCTGGCATTCGCCGAGCGGCACGCCCGCCTGGTGCTGGCGGCACGCGACAAGACGGCGCTGGACGAGGTGGTGGCCGAATGCGAGGCGCTCGGGGCGCGGGCGCTGGCGGTGCCCACCGATGTCACCGACAGCGAGGCGGTGCACCGGCTCGCCGACAGCGCGGCATCCTTCGGCGACGGCCGCATCGATGTCTGGGTGAACAACGCCGGCATCGGTACCGTTGGTGCCTTCGACGAGACGCCCCTGGTGGCCCACGAACAAGTGGTGCAGACCGATCTGCTCGGCTACCTGCGCGGCGCCCACGCGGTGTTGCCGTACTTCAAGCAGCAACAGGCCGGTGTGCTGATCAACACCCTGTCCCTCGGCAGTTGGGTGGCACATCCCTATGCCGCCGCCTATGCGGCTGCCAAGTACGGCCTGCGCGGGTTCACCGAAGCGCTGCGCGGCGAGCTGACCCAATGGCCGCACATCCACATCTGCGATGTCTACCCGGCGGTGATGGATACCCCTGGTTTTCGCGATGCCGGCAACTACACCGGCCATAACATCCAGCCGATCCCGCCGGTCTACGATCCGCGCCGCGTCGCCGAGGCCATGGTCAGCCTGGCGCAACGGCCGCGCCGCAGCGTGACGGTGGGCGCCAGCGCGCGGTTGATCCGGCTCGCCCATTTCCTGGTACCGCATTTCGAGTCGCTGATCGGCCGCGCGACCCACTTCGCCCTGGGGAAGGCGGACCGCTCGCCGGCGTCGTCCGGCAACCTGTTCCATCCGCCGCTGGGCGAACGCCGGGTGGATGGCGGCTGGCGCAGCCCACCGCATGGCCAGCTCAACCTGCTGCTGGCAGGCACCGCGGTGGCGGCGCTGCTCGGCTTCTATCTGGTGCGGCGGGCGACCAACGGGCGGCACTGA	MTRNTLEDALIVITGASSGIGRAAALAFAERHARLVLAARDKTALDEVVAECEALGARALAVPTDVTDSEAVHRLADSAASFGDGRIDVWVNNAGIGTVGAFDETPLVAHEQVVQTDLLGYLRGAHAVLPYFKQQQAGVLINTLSLGSWVAHPYAAAYAAAKYGLRGFTEALRGELTQWPHIHICDVYPAVMDTPGFRDAGNYTGHNIQPIPPVYDPRRVAEAMVSLAQRPRRSVTVGASARLIRLAHFLVPHFESLIGRATHFALGKADRSPASSGNLFHPPLGERRVDGGWRSPPHGQLNLLLAGTAVAALLGFYLVRRATNGRH				NA	NA	NA	NA	NA
BMS010_04467	477			hypothetical protein	ATGAGCCAGCCGCAGCAAGAGTTCGTCAATCTGGTCACCCAGATCATGGAGCGCCTGGGCATTCAGTCCTTCGACACCCAGGCCACGTCCTACCGCTTCAGCTTCGCCAATGAGCCGGCCATCTTCCTCTGCTACCGCGGCGAAGGCTGGGCGGAACTGGTGACCGGCGCCGACAGGCTCACCGATGACCCGCGCCGGAAAACCGCATTGGCCTTGCTGGAACTGCAGGGCCAGCAGCCAAACCCGGCATTCTGCCTGGCCGCCGACAAGGAGAGCGGTGCGATCAGGGTGTTCCATCGCTTTCGCTTCGCGCAGTACCGCGCCCTCGACATCCTCGACACCCTCAAGGCCCTGCGGGCCTTTGCGAGCCAGGTGCGGGCGGTGATCGATCAAGCAGTGCCGCCAGCCGGTAGTGCGACGAGTGATGGCAGCGAGCGGTTCAAGCTCAACCCCCATTTGAGGCTGCAGAACTGGTAG	MSQPQQEFVNLVTQIMERLGIQSFDTQATSYRFSFANEPAIFLCYRGEGWAELVTGADRLTDDPRRKTALALLELQGQQPNPAFCLAADKESGAIRVFHRFRFAQYRALDILDTLKALRAFASQVRAVIDQAVPPAGSATSDGSERFKLNPHLRLQNW				NA	NA	NA	NA	NA
BMS010_04468	1923			hypothetical protein	ATGTGTCAGACACACAAGGCTAGGCCCATCCATTCAGTCATCCTCTCCATGAACACCATTCATTCGCTCACTACGGCGTCCTCCTCCATCCTTCGCCCCGAGGCTCCCGCCGAATCGACCACCCATGTCCACCAGGGGCGCCTGGGGGACGAGCAGGTGGAAGTCGGCACTTCACGACAGACACCGGGCCCTGTTGCCGACACGCCTCCATCCCACTCGGGGCCGCAGCCGTCTCATACGGCTATCGAGGTAGCCCCCGCCTCGCAACACGAAATCGAGGCGATGAACCTCGGCCAGACAACCTCGGCACCTGCTTCCAAAGGCATCAAGGACCGGTTCCTTTTCCTGTTCAAGAAAACCGACCTGGCCGCCGCCGTAGGGCAGTTCAACAATCGAGAGTACTTGGCCAACGAGCGTCAGCTCGCTCACTTGCCGGCATTCAAGCAAAGCGTGCAGGCCCTGCACGATGCCTGCCAGCACCCGGACATCCCGGCCCCCATGCGCAAGGAAATGAGCACCGTAACCCAAGGGCTCATGCACAAGATCGACCGGATCGCCCAGGACAGGTCCATGGGCTACCGCACCGCGGCGACCATGCTGTTCAGCCTGGCCAACGTCGGGCTGGCACTGCTGCCGACCCTGACCGCGCACAAGAACAAGGACAACCAATACTTCGCCCTGCTAGTGGCCGGCTACACCAAGACCCTGTGCATGCTGACGGGGATCGCGCTCAGTCGCACCGCCGACCATCGCTCCCATGGCCTGCATATCCAGGAACGGCATGTGCCCTACCTGCCGCCGAACCTGCCCTATGCCGTCAGCGCGTTCAACGAAAAAGCCAAGGCCTTCGAGGAGCACAATCCCATCCTGTTCCACTCCATGGCGGCCACCTTCACCGCCTCCGTGTTCGTGATGTCGTCCGCACCGCATCTGGTCACAAAGCCTCTGGCGGCCATCGGCGAGAAGATCAAGAACCTTTTCCAGAAGCCCGATGCGCAACCCCAGGAACAGGCCCGGATAACCGCCGAGCTGAGCGTGGATATCAACGACCTGCTGGACGCTGTCAATACCCAGCACAGTGCGTTCCGACAGCGGCGGAACCAGTTCGAAGGCGCCGGCAAGGAGCTGAACGACAGCCTCAATCTGCAACTCAGCGAGATCGACTCCGCCACCGAGCAGCTCGCCAAAACGGCAAGCGGGATTCTCGACCCCAGCCAAGAGGGGACCTCGCAGCCCCACGTCAAGAATGACGACCTTGCACAAAAGATGGCCTTCGTGGGCATTGCAGGAGCGCTTTGCCTGAGCTCCGCTGCCACCTATTACGATGAGCCCGCCGGCCTGGTCGATCTGGGGATGGATGCCGGCCTGACCGTTTTCGAGCTGGCCAAGACGGCCAGGAACCCCAACGAAAATACGCAGCAGGCGGCCAGCAAGTTCGCCAGTTACTCCGGCCTGTCCCCACTATTGCTGCCCTTCGGCATTCTCAACAAGGTCACCCATTTCACCGACAACACGGCGGGGCTGGTCGCAGGCACCGTGTTCCTGACCGCCTGCAACCTCACGCTGCCCCGCCCCGGAGGCGAAGCGCTAGCCAGCGCGGTGGTCAAGCTGATCAACGCCTTGAAAGGCACGCCGAACGAGCCGGAAGACCTCGAGCAAGGAGTGGTCGATAGCGGCCGCTTCACCGAAATCACCGATGATTCGCTTGCGCAGACATCGTCGACTCACAACGACGCTCCCCAGGAAGCCGAAGCCTTCTTCGATGCGCAACCGACCCTCGAGCCAGAAGGCGATGAAGAGTGGTCATCCTCCGCAGGCGACCTGTCGGACCGAAGCGAAGACTTCGAAACCGCACCCTCCAGCCCCGCGCAGGAGCAGGAAAACAGCGCGCCGTCCCGCAACCAGGGAGGCCGCCCGGCATGA	MCQTHKARPIHSVILSMNTIHSLTTASSSILRPEAPAESTTHVHQGRLGDEQVEVGTSRQTPGPVADTPPSHSGPQPSHTAIEVAPASQHEIEAMNLGQTTSAPASKGIKDRFLFLFKKTDLAAAVGQFNNREYLANERQLAHLPAFKQSVQALHDACQHPDIPAPMRKEMSTVTQGLMHKIDRIAQDRSMGYRTAATMLFSLANVGLALLPTLTAHKNKDNQYFALLVAGYTKTLCMLTGIALSRTADHRSHGLHIQERHVPYLPPNLPYAVSAFNEKAKAFEEHNPILFHSMAATFTASVFVMSSAPHLVTKPLAAIGEKIKNLFQKPDAQPQEQARITAELSVDINDLLDAVNTQHSAFRQRRNQFEGAGKELNDSLNLQLSEIDSATEQLAKTASGILDPSQEGTSQPHVKNDDLAQKMAFVGIAGALCLSSAATYYDEPAGLVDLGMDAGLTVFELAKTARNPNENTQQAASKFASYSGLSPLLLPFGILNKVTHFTDNTAGLVAGTVFLTACNLTLPRPGGEALASAVVKLINALKGTPNEPEDLEQGVVDSGRFTEITDDSLAQTSSTHNDAPQEAEAFFDAQPTLEPEGDEEWSSSAGDLSDRSEDFETAPSSPAQEQENSAPSRNQGGRPA				NA	NA	NA	NA	NA
BMS010_04469	921	metR_2		HTH-type transcriptional regulator MetR	ATGCTGGAAATACGTCACCTGAAAACCCTTCATGCCCTGCGCGAATCCGACAGCCTGGTGGAGGCCGCCGAGCGCCTGCACCTGACCCAGTCGGCGCTGTCCCACCAGTTCAAGGAACTCGAAGAGCGCCTGGGCATGCCGCTGTTCGTGCGCAAGACCAAGCCGGTCCGCTTCACCAGCGCCGGGCTGCGTCTGCTGCAATTGGCCGACGCGCTGCTGCCGCAACTGCGCAACGCCGAGCGCGACCTCGCCCGCCTCGCCGGCGGAACCGCCGGACGGCTGCACATGGCCATCGAATGCCACAGCTGCTTCCAGTGGCTGATGCCGACCATCGACCAGTTCCGCGACGCCTGGCCGGAAGTGGAACTGGACCTCGCCTCGGGCTTCTCCTTCGCCCCGCTGCCGGCGCTGGCCCGGGGCGACCTGGACCTGGTGGTGACCTCCGACCCGCTGGAGCTGGCCGGCATCACCTACGTGCCGCTGTTCACCTACGAGATGCAACTGGCAGTAGCCAACCAGCATCCGCTGGCGAACAAGCCCTACGTCGCTCCCGAAGACCTGGCCAGCGAAACCCTGATCACCTACCCCATCGAACGCGATCGCCTGGACATCTTCACCCGCTTCCTCGACCCGGCCGACGTCGAGCCGGCGCAGGTCCGGACCTCGGAACTGACGGTGATGATGATGCAACTGGTGGCCAGCGGGCGCGGCGTCTGCAGCCTGCCCAACTGGGCGCTGCACGAATACAGCTCGCGGGGCTACATGACCGCCAAGCGGCTCGGCGAGAAATCGCTGTACGCCACGCTGTTCGCGGCGATCCGCGCCGACATGCTGGACGCGCCGTTCATGCGCGACTTCCTCCTCACCGCCAAGGACACCTCCTTCGCCACCCTCGAAGGGGTCAGCGCGGCGCGGGGCTGA	MLEIRHLKTLHALRESDSLVEAAERLHLTQSALSHQFKELEERLGMPLFVRKTKPVRFTSAGLRLLQLADALLPQLRNAERDLARLAGGTAGRLHMAIECHSCFQWLMPTIDQFRDAWPEVELDLASGFSFAPLPALARGDLDLVVTSDPLELAGITYVPLFTYEMQLAVANQHPLANKPYVAPEDLASETLITYPIERDRLDIFTRFLDPADVEPAQVRTSELTVMMMQLVASGRGVCSLPNWALHEYSSRGYMTAKRLGEKSLYATLFAAIRADMLDAPFMRDFLLTAKDTSFATLEGVSAARG				NA	NA	NA	NA	NA
BMS010_04470	2301	metE_2	COG0620	5-methyltetrahydropteroyltriglutamate--homocysteine methyltransferase	ATGGCTTTGGCGCACACCCTCGGATTCCCCCGCATCGGCCGCGACCGCGAGCTGAAGAAAGCCCTGGAGGCCTACTGGAAGGGCGAACTGGACGAAGCCGGCCTGCGCGAGACCGGCCGCACTCTGCGTGCCGCGCACTGGCAGGTACAGCGCGACGCCGGCATCGAGCTGCTGCCGGTGGGCGACTTCGCCTGGTACGACCAGGTGCTCACCCACTCGCTGACCGTCGGCGTGATCCCGGAACGCTTCCGCCCGGCCGACGGCAAGGCCACCCTGGAGACCCTGTTCGCCATGGCCCGTGGCGTGTCCCGTTCCTGCTGCGGCGGCGGTGCCCAGGCGCAGGAGATGACCAAGTGGTTCGATACCAACTACCACTACCTGGTGCCGGAGTTCAGCCGTGACCAACGCTTCCAATTGAGCTGGGAGCAGCTCTTCGAAGAAGTGGCCGAAGCCCAGGCGCTGGGGCACAAGGTCAAGCCGGTGCTGCTCGGCCCGCTCACCTACCTCTGGCTCGGCAAGGCCAAGGGGGAGGCGTTCGACAAGCTGGAGCTGCTCGACCGCCTGCTGCCGCTCTACGGCGAAATCCTCGGCCGCTTGGCCGCCCAAGGGGTGGAGTGGGTGCAGATCGACGAGCCGATCCTGGTACTGGACCTGCCGCAAGCTTGGCGCAGCGCGTTCGAGCGGGCCTATCACCTGCTGCAATACGCGCCGCTGAAGAAGCTGGTCGCCACCTATTTCGGCGGCCTGGGCGACAACCTCGGCCTGGCGGTGAGCCTGCCGGTGGATGGCCTGCACATCGATCTGGTGCGCGGCCCGGAACAACTGACCGCGGTGGTCGACCGCCTGCCGTCGTACAAGGTGCTGTCCCTCGGCGTGGTGAACGGCCGCAACGTCTGGCGCTGCGATCTGGAGCAGGCGCTGCTACCGCTGCGCCTGGCCGCCGAGCGTTTCGCCGAACGGCTCTGGGTGGCGCCGTCCTGCTCGCTGCTGCACAGCCCGGTGGACCTCGCCCGTGAGGACCGACTGGACGAAGAGCTGCGCAGTTGGCTGGCCTTCGCCGTGCAGAAGTGCGCCGAAGTGGCGTTGCTGGCCCGTGCGGTCGACGAGCCGGATGCCGTCGAAGTGCGCGCCGCACTGGCCTACAACCGTGGCGTGCAGGACAGCCGCCGGCAGTCGCCGCGCATCCACAAGCCTGACGTGCAGGCACGCCTGGCGGCGGTAACGCCGACCGACAGCCGTCGCGCGGCGCCGTTCGCCGAACGTATCGGTAAGCAACGGGCGCACCTCGACCTGCCGGCGTTCCCCACCACGACCATCGGCTCCTTCCCGCAGACTGCGGCGATCCGCCAGGCGCGCCAGGCCTCCAAACAGGGCACCCTGGACGAAGCGGGATACCGTGCCGCGATGCAGGCGGAAATCCGCGAGGCGGTGGCCTTCCAGGAACGCATCGGTCTGGATGTGCTGGTACATGGCGAGGCCGAGCGTAACGACATGGTCGAGTACTTCGCCGAGCAACTCGACGGTTACGCCTTCACCCGCTTCGGCTGGGTACAGAGCTACGGTTCGCGCTGCGTCAAGCCGGCGGTGATCTACGGCGACATCAGCCGTCCGGCGCCGATGACCGTCGAGTGGATCCGCTACGCCCAGAGCCTGACCGACAAGCCGATGAAGGGCATGCTGACCGGCCCGGTGACCATGCTGATGTGGTCGTTCCCCCGCGACGATGTACCGCGCGAGGTACAGGCACGGCAACTGGCCTTGGCGATTCGCGACGAGGTGCTGGACCTGGAAGCCGCCGGGATTCGCATCGTGCAGATCGACGAAGCGGCTTTCCGCGAGGGCCTGCCGCTGCTCCAGGCCGACTGGGGCCCGTACCTGGATTGGGCGGTGGACGCGTTCCGCCTGTGCAGCTCCGGTGTACGCGACGAGACGCAGATCCACACCCACATGTGCTACAGCGAGTTCAACGACGTGATCGAAGCAATCGCTGCCATGGATGCGGACGTGATTACTATCGAGACCTCGCGCTCGCAGATGGAACTGTTGGAGGCCTTCGAAGGGTTCGCCTACCCCAACGAGATCGGACCGGGTGTGTACGACATCCACTCACCGCGCGTGCCGGACAGTACGGAGATGGTCGCGCTGTTGGAAAAAGCCGCCGAACGCATCCCTGCCGAACGCCTGTGGGTCAACCCGGACTGCGGCCTGAAGACCCGTGGCTGGGCGGAAACCGAAGCGGCATTGGCCAACATGGTGGCGGCAGCGCGGCAACTGCGGGCACGCAAGGCTAAGGCGGCCTGA	MALAHTLGFPRIGRDRELKKALEAYWKGELDEAGLRETGRTLRAAHWQVQRDAGIELLPVGDFAWYDQVLTHSLTVGVIPERFRPADGKATLETLFAMARGVSRSCCGGGAQAQEMTKWFDTNYHYLVPEFSRDQRFQLSWEQLFEEVAEAQALGHKVKPVLLGPLTYLWLGKAKGEAFDKLELLDRLLPLYGEILGRLAAQGVEWVQIDEPILVLDLPQAWRSAFERAYHLLQYAPLKKLVATYFGGLGDNLGLAVSLPVDGLHIDLVRGPEQLTAVVDRLPSYKVLSLGVVNGRNVWRCDLEQALLPLRLAAERFAERLWVAPSCSLLHSPVDLAREDRLDEELRSWLAFAVQKCAEVALLARAVDEPDAVEVRAALAYNRGVQDSRRQSPRIHKPDVQARLAAVTPTDSRRAAPFAERIGKQRAHLDLPAFPTTTIGSFPQTAAIRQARQASKQGTLDEAGYRAAMQAEIREAVAFQERIGLDVLVHGEAERNDMVEYFAEQLDGYAFTRFGWVQSYGSRCVKPAVIYGDISRPAPMTVEWIRYAQSLTDKPMKGMLTGPVTMLMWSFPRDDVPREVQARQLALAIRDEVLDLEAAGIRIVQIDEAAFREGLPLLQADWGPYLDWAVDAFRLCSSGVRDETQIHTHMCYSEFNDVIEAIAAMDADVITIETSRSQMELLEAFEGFAYPNEIGPGVYDIHSPRVPDSTEMVALLEKAAERIPAERLWVNPDCGLKTRGWAETEAALANMVAAARQLRARKAKAA				NA	NA	NA	NA	NA
BMS010_04471	993	rdmC		Aclacinomycin methylesterase RdmC	ATGATGCGTGTGCTGCTGCTTCTGGCCGCGCTGCTGTGCGGCCTGCCGACCTTGGCGGCTTCTCGTTGCGATGTCCGTGTACCTACCGAAACGGTGAGCCTGGGCGAGGTGCGCCTGGCCTACCAGAGCATCGGCCGGGAGACCGATCCGGCCCTGCTTTTGGTCATGGGCTTGGGTGGCCAATTGATCCACTGGCCCGATGAAGTGGTTGCGCGCCTGTGCGAGCAGGGCTTCCGGGTGATCCGTTTCGACAACCGCGATGTGGGCCTGTCCGCCTGGACGCATGGCGCGCCGACGATCAACCTGACCTACGAAGTGCTGCGCTATCGCCTGGGATTCCCGGTCAGCGCGCCGTACCGCTTGAGCGACATGGCCGACGATGCCCTGCACCTGATGGACAGCCTGGGTATCCAGCGCTTCCATGTCCTGGGTGCGAGCATGGGCGGGATGATCGCCCAGCACATGGCCGATCAGGCACCGGAGCGCCTGCAAAGCCTGACCCTGATCATGACCAGTTCCGGCGCCCAGGGCCTGCCGGCACCGAGCCAGGCGCTGCTGCAACTCCTTGCCCGCCGCGAAGCCCCCAGCCGCGAAGTGGCCATCGAACAACAGGCGGACCTGCTTGCCGCGCTGGGAAGTCCGGAAGTCAGCGACGACCGCGCCCTGTTGCTGCAGCAGGCGGCCCAGGCCTACGACCGCGCATTCGACCCCGAAGGTGTGCAGCGCCAGTTGCTCGCCATCCTCGCCGAGCCCAGCCGGGTCGAGTTGCTGAACCGGTTGCGCGTGCCGACCCTGGTAGTGCATGGCACCGCCGACCCGCTGTTGCCGGTCATGCACGGCGTCCACGTTGCCGCGCACATCAAGGGCGCCGAACTCAAACTGATCCCCGGCCTGGCCCATCGCTTCCAGGAAGCCTTCAAGGAACCGTTGCTGGCGGCGGTCCTGCCATATCTGAACGCGCACCGGCAGGCGGTGGGGTTGGCGCGGTTGTAG	MMRVLLLLAALLCGLPTLAASRCDVRVPTETVSLGEVRLAYQSIGRETDPALLLVMGLGGQLIHWPDEVVARLCEQGFRVIRFDNRDVGLSAWTHGAPTINLTYEVLRYRLGFPVSAPYRLSDMADDALHLMDSLGIQRFHVLGASMGGMIAQHMADQAPERLQSLTLIMTSSGAQGLPAPSQALLQLLARREAPSREVAIEQQADLLAALGSPEVSDDRALLLQQAAQAYDRAFDPEGVQRQLLAILAEPSRVELLNRLRVPTLVVHGTADPLLPVMHGVHVAAHIKGAELKLIPGLAHRFQEAFKEPLLAAVLPYLNAHRQAVGLARL				NA	NA	NA	NA	NA
BMS010_04472	1530	glpD_1	COG0578	Aerobic glycerol-3-phosphate dehydrogenase	ATGACTCAAAAGCAGACCCCGCCCCTTTCCGAAGTCTACGATCTCGCCGTTATCGGCGGCGGCATCAACGGTGCGGGGATCGCCGCCGACGCCGCGGGGCGCGGTCTGTCGGTGTTCCTCTGCGAAAAAGACGACCTGGCCCGGCACACCTCCTCCGCCAGCAGCAAGCTGATCCACGGCGGCCTGCGCTATCTCGAACACTACGAATTCCGCCTGGTCCGCGAAGCCCTCGCCGAACGCGAAGTGCTGCTGGCCAAAGCGCCGCATATCGTCAAGCCGCTGCGCTTCGTGCTGCCGCATCGCCCGCATCTGCGCCCGGCCTGGATGATCCGCGCCGGCCTGTTTCTCTACGATCACTTGGGAAAACGCGAGAAGCTGCCCGGTTCCCGCTCCCTGCGCTTCGGCGCCGGCAGCCCGCTGAAAGCCGAAATCACCCGCGGTTTCGAATATTCCGACTGCTGGGTCGACGACGCCCGCCTGGTGGTGCTGAACGCCATGGCCGCCCGCGACAAGGGCGCCCACGTACACACCCGCACCCGCTGCATCCGCGCGCGCCGCAGCAAGGGCCTCTGGCACGTGCATCTGGAACGCGCCGACGGCACCCTCTTCTCGATCCATGCCAAGGCCCTGGTGAACGCGGCCGGCCCCTGGGTGGCGCGCTTCATCAAGGACGACCTCAAGCAGCAATCGCCGTATGGCATCCGCCTGATCCAGGGCAGCCACATCATCGTGCCCAAGCTGTTCGACGCCGATCATGCCTTCATCCTGCAGAACGAAGACCGCCGCATCGTCTTCGCCATTCCCTACCTGGATCGCTTCACCCTGATCGGCACCACCGACCGGGAATACCAGGGCGACCCGGGCGAGGTGAAGATCAGCGACGAAGAAATCGAATACCTGCTGTCAGTGGTCAACGCCCACTTCAAGAAGCAGGTGGGCCGCGGTGACATCCTGCACACCTACGCCGGTGTCCGCCCGTTGTGCGACGACGAATCCGACGAACCCTCGGCGATTACCCGCGACTACACCCTGGCGCTGTCCGCCCATCCCGGCGAAGCGCCGCTGCTGTCGGTATTCGGCGGTAAGCTGACCACCTACCGCAAGCTGGCCGAGTCCGCCATGGGCCAGCTCGCTCCCTACTTCCCGAACATGAAACCGAGCTGGACAGCCAGCGCACCGCTGCCCGGCGGCGAGCAACTGGAAAGCCCGGCGGTGCTGGCCGACGCCCTGTGCAACCAGTTCGGCTGGCTGCCCAACAGCCTCGCCCTGCGCTGGGCCAGCACCTACGGCAGCCGCGCCTGGCGCCTGCTGGAAGGCGCCCACGGCATCGCCGACCTCGGCGAGCATCTGGGCGGCGGGCTCTACGCGCGGGAGGTGGAATACCTGTGCCAGGAAGAATGGGCGATGGAGAGCGACGACATCCTCTGGCGCCGCACCAAGCTCGGCCTGTTCCTCACCCCATCGCAACAGGCACGCCTGGAACAGTACCTGCGCGAACGCCCGGACCATCCGCGGGTGGATGCGGCTTGA	MTQKQTPPLSEVYDLAVIGGGINGAGIAADAAGRGLSVFLCEKDDLARHTSSASSKLIHGGLRYLEHYEFRLVREALAEREVLLAKAPHIVKPLRFVLPHRPHLRPAWMIRAGLFLYDHLGKREKLPGSRSLRFGAGSPLKAEITRGFEYSDCWVDDARLVVLNAMAARDKGAHVHTRTRCIRARRSKGLWHVHLERADGTLFSIHAKALVNAAGPWVARFIKDDLKQQSPYGIRLIQGSHIIVPKLFDADHAFILQNEDRRIVFAIPYLDRFTLIGTTDREYQGDPGEVKISDEEIEYLLSVVNAHFKKQVGRGDILHTYAGVRPLCDDESDEPSAITRDYTLALSAHPGEAPLLSVFGGKLTTYRKLAESAMGQLAPYFPNMKPSWTASAPLPGGEQLESPAVLADALCNQFGWLPNSLALRWASTYGSRAWRLLEGAHGIADLGEHLGGGLYAREVEYLCQEEWAMESDDILWRRTKLGLFLTPSQQARLEQYLRERPDHPRVDAA	PGPT0006775_4293	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0006775-glpA|glpD-K00111	NA	NA
BMS010_04473	759	glpR_2	COG1349	Glycerol-3-phosphate regulon repressor	ATGAGCCTAGCGCCCCGCCAACAGAACATTCTCGAACTGGCCCGCGAACGCGGTTACGTCAGCATCGATGAACTGGCCCAAGCCTTCGCCGTCACCCCCCAGACCATTCGTCGCGACATCAACCAACTGGCCGAACTGGGTCTGTTGCGCCGCACCCACGGCGGCGCGGCGAGCGAAGCCTCGAGCATCCAGAACACTGCCTATGGCATGCGCGCCGGGCAGATGCGCGACGAAAAGCAGCGCATTGCCGAAGCCATCGCCGCGGTGATCCCCAACCAGGCGTCGCTGTTCATCAACATCGGCACCACCACCGAAGCGATTGCCCGCGCCCTGCTCAACCACAAGGGCCTGAAGGTGATCACCAACAACCTGCACGTGGCCGCCCAGCTCAGCGCCAAGGAGGATTTCGAGGTGCTGGTGGCCGGCGGCACGGTACGCAGCGACGGCGGCATCGTCGGCCAGGCGGCGGTGGATTTCATCCATCAGTTCAAGGTGGACTACGCCCTGGTGGGCATCAGCGGCATCGACGAGGACGGCAGCCTGCTGGACTTCGACTATCAGGAAGTGCGCGTCTCCCAGGCGATCATCGAGAACGCCCGGCAGGTCTTCCTCGCCGCAGACTCCAGCAAGTTCGGCCGCAACGCCGTGGTGCGCCTGGGCCCCATCACCCTGGTGGACCGCGTCTTCACCGACCACGCCCCGCCCGTCCCGCTTACCCGCCTGCTGGCCGAGCACAAGGTTCACCTCGACGTGGTGTGA	MSLAPRQQNILELARERGYVSIDELAQAFAVTPQTIRRDINQLAELGLLRRTHGGAASEASSIQNTAYGMRAGQMRDEKQRIAEAIAAVIPNQASLFINIGTTTEAIARALLNHKGLKVITNNLHVAAQLSAKEDFEVLVAGGTVRSDGGIVGQAAVDFIHQFKVDYALVGISGIDEDGSLLDFDYQEVRVSQAIIENARQVFLAADSSKFGRNAVVRLGPITLVDRVFTDHAPPVPLTRLLAEHKVHLDVV	PGPT0018445_1345	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULE_REGULATION,PGPT0018445-glpR-K02444	NA	NA
BMS010_04474	471	ybaK_2	COG2606	Cys-tRNA(Pro)/Cys-tRNA(Cys) deacylase YbaK	ATGACACCAGCCATCGATCTCCTGAAGAAAGCCCGCGCGGAGCACCGCGTGCACAGTTATACCCATGATCCCAAGTCCGCCTCCTATGGCCTGGAAGCGGCCGAGAAGCTCGGCCTCGACCCGGCCCGGGTGTTCAAGACGCTGCTCGCCGCGACCGAAAAGGGCGAACTGCTGGTGGCGGTGGTGCCGGTGGCCGGCACCCTCGACCTCAAGGCGTTGGCCCAGGTAGCCGGGGCGAAGAAGGCCGACATGGCCGATCCGAACGCCGCGCAGCGCGCCACCGGTTATCTGGTGGGCGGCATCAGCCCGTTGGGCCAGAAGAAGCGCCTGCGCACCTTCATCGACGAAACCGCCCGGCAGCACCCCACCGTCTTCGTCAGCGCCGGCCGGCGCGGGCTGGAGGTGGAGTTGTCCGCCGAGCTGCTGGCACAGCATACCCAGGCCCGGTTCGCCGCCATCGGGCGCGACTGA	MTPAIDLLKKARAEHRVHSYTHDPKSASYGLEAAEKLGLDPARVFKTLLAATEKGELLVAVVPVAGTLDLKALAQVAGAKKADMADPNAAQRATGYLVGGISPLGQKKRLRTFIDETARQHPTVFVSAGRRGLEVELSAELLAQHTQARFAAIGRD				NA	NA	NA	NA	NA
BMS010_04475	1488	glpK_2		Glycerol kinase	ATGGCTCAGCATCTACTCGCCATCGACCAAGGCACCACCAGTAGCCGCGCCATTGTCTTCAGTGCCGAAGGCAGGCCCGTGGCCCGGGCCCAGCAGGAATTCCGCCAATATTTCCCGAACGACGGCTGGGTCGAGCACGACGGCGAGGAAATCTGGCAATCGACCCTGGACGTCTGTCGCGAAGCGCTGCGCCAGAGCGGGCTGGAAGCCGGGGACATCGCGGCGATCGGCATCACCAACCAGCGCGAGACCACCCTGGTGTGGGACGCCCGGACCGGCGAGCCGATCCATAACGCCATCGTCTGGCAGGACCGCCGCACCGCCGACTACTGCGCCAGCCTGAAGGCCGAGGGCCACGAGCCGATGGTCAGCGAGCGCAGCGGTCTGTTGATCGACCCGTATTTCTCCGCGACGAAGCTGCGCTGGATTCTGGAAAACGTGCCAGGCGCCCGCGAGCGCGCCGAGCGGGGCGAGCTGCGCTTCGGCACCGTCGACAGCTTCCTGCTGTGGCGCCTGACCGGTGGCAAATCGCACAAGACCGACGCCGCCAACGCCTCGCGGACCCTGTTGTTCAACATCCACACCCAGCAATGGGACGAAGAGCTGCTCGCCCTGTTCGACATCCCCGCCAGCCTGTTGCCGGAAGTGCTCGATTGCGCCGCCGACTTCGGTGCCTGCATGCCCGATCTGCTCGGTGCGCCGATCCCGGTGCTGGGCATGGCCGGCGACCAGCAGGCCGCGCTGGTCGGCCAGGCGTGCTTCCAGCCGGGCATGGTGAAGAGCACCTACGGCACCGGTTGCTTCATGATCCAGAACACCGGCGATACGCCGGTCACCTCGAAGAACCGCCTGCTGACCACGGTGGGCTACCGCCTGAACGGCAAGGTCACCTACGCGGTGGAGGGCAGCATTTTCGTCGCTGGTGCGGCGGTGCAATGGCTGCGCGACGGCATCAAGCTGATCAGCCATGCCCACGAGACCGAGGCGCTGGCAATGCAGACCGGCGATGCCTGCGGCGTTTACCTGGTGCCGGCATTCACCGGGCTGGGCGCGCCCTACTGGGACCCGAAGGCGCGCGGTGCCATCTTCGGCCTGACCCGCGACACGGGAATCAAGGAAATCGTCACCGCCGGCCTGCAATCGGTCTGCTACCAGACCCGCGACCTGCTCGAAGCCATGCGCCAGGACGGCGCCGCCTCGCCCAGCGCATTGCGGGTGGACGGCGGCATGGTGGTGAACAACTGGGTGATGCAGTTCCTCGCCGACATTCTCGGTGTGCCGGTGGAGCGCCCGGAAGTCACCGAGACGACTGCCCTCGGCGTGGCCTATCTGGCCGGCTTGCAGGCGGGTATCTACCGCGACCTGGAGGAGATTGCCGGCCACTGGCATCGCGAACAGCGCTTCGAACCGAAGATGGCCGACGAGCAGCGCGCCAAGCTTTACCTGGGTTGGCTGAATGCGGTGCAGCGGGTGCGCAGCGAGGGCTAA	MAQHLLAIDQGTTSSRAIVFSAEGRPVARAQQEFRQYFPNDGWVEHDGEEIWQSTLDVCREALRQSGLEAGDIAAIGITNQRETTLVWDARTGEPIHNAIVWQDRRTADYCASLKAEGHEPMVSERSGLLIDPYFSATKLRWILENVPGARERAERGELRFGTVDSFLLWRLTGGKSHKTDAANASRTLLFNIHTQQWDEELLALFDIPASLLPEVLDCAADFGACMPDLLGAPIPVLGMAGDQQAALVGQACFQPGMVKSTYGTGCFMIQNTGDTPVTSKNRLLTTVGYRLNGKVTYAVEGSIFVAGAAVQWLRDGIKLISHAHETEALAMQTGDACGVYLVPAFTGLGAPYWDPKARGAIFGLTRDTGIKEIVTAGLQSVCYQTRDLLEAMRQDGAASPSALRVDGGMVVNNWVMQFLADILGVPVERPEVTETTALGVAYLAGLQAGIYRDLEEIAGHWHREQRFEPKMADEQRAKLYLGWLNAVQRVRSEG	PGPT0018435_4945	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018435-glpK-K00864	NA	NA
BMS010_04476	318			hypothetical protein	ATGAGCCACGAAACCACCGATCGCTACACCCGCTTTGCCGACTTCTATCCGTACTACCTGCAGGAGCACAGCAACCCTGTCTGCCGCCGCCTGCACTACGTGGGCAGCCTGCTGGTGCTGGCCATCCTCGCCTATGCCATCGGCACCCAGCAGTGGCTGTGGCTGCTGGCCATGCCGTTCGCCGGCTATGGCTTCGCTTGGGTCGGCCATTTCGTCTTCGAGAAGAACCGCCCCGCCACCTTCAAGTATCCGCTGTACAGCTTCATGGGCGATTGGGTGATGCTCAAGGACGCCTTCACCGGCCGCATCCGCTTCTGA	MSHETTDRYTRFADFYPYYLQEHSNPVCRRLHYVGSLLVLAILAYAIGTQQWLWLLAMPFAGYGFAWVGHFVFEKNRPATFKYPLYSFMGDWVMLKDAFTGRIRF				NA	NA	NA	NA	NA
BMS010_04477	1002			hypothetical protein	ATGAGCGAACGTACCACCTCCTCGAGCTGGGCCCTGGGTATCGTCCAGGCGCTGGAAATGGGCGGTGTCGATTGCCGACGCCTGTTCACCGAACTGGACCTCGACTACGCCGCGTTGGAAGACCCCGATGCCCGTTTCCCGCAGGATGGCATGACCCGTCTGTGGCGCCGGGCGGTGGAGCTGTCCGGCAACCCGGCGATCGGCCTGAACATGGCCAAGGTGGTGCGACCGGCGTCGTTCCATGTAGTCGGCTACGCCTTGATGTCGAGCCGTACCCTGAAGGAGGGGTTCGCCCGGCTGGTGCGTTACCAGCGGATCATCGCCGAAGGCGCCGACCTGAGCTTCCGTCCGCTTCCCGATGCCTACGCGTTGGTGCTGGCGATCCATGGCGACCGCCTGCCGCCGGCCCGGCAGAGCGCCGAGGCTTCGCTGGCCTATGCGCTGGCCTTCTGCCGCTGGCTCACCGGACGCCCGATCAGACCGTTGCAGATCGATTTCCAGGGCGGTCCGCCCGAGGATCTGCAGCCCTACCAGCAGGTTTTCCAGGCACCGCTGCGTTTCAACGCGGAACATTATGCGCTGCTGTTCGAGCGGGCCGACATGGAAACGCCGCTGCCGACCGCCAACGAATCGCTGGCGCAGTTGCACGACCGTTTCGCCGGGGAGTACCTGGCGCGCTTCTCGGAAAGCCGGGTGACTCACCAGGCGCGGCAGGTGCTCTGCCGCCTGCTGCCCCAGGGTGAGCCCAAGCGCGAAGCGGTGGCACAGGCGCTGCACCTGTCGCAGAGAACCTTGCAGCGGCGCTTGCAGGAGGAGGGGACGAGCTTCCAGCAATTGCTCGACGACACCCGTCGCGAGCTGGCCGGGCAGTACTTGGCCCAGCCCAACCTGACGCTGCTGGAGATCGCTTACCTGCTGGGTTTTGCCGACCCGAGCAATTTCTTCCGCGCCTTCCGCCGTTGGTTCGACGTCACGCCGGGGGAATACCGCGCCCGGCTGTGA	MSERTTSSSWALGIVQALEMGGVDCRRLFTELDLDYAALEDPDARFPQDGMTRLWRRAVELSGNPAIGLNMAKVVRPASFHVVGYALMSSRTLKEGFARLVRYQRIIAEGADLSFRPLPDAYALVLAIHGDRLPPARQSAEASLAYALAFCRWLTGRPIRPLQIDFQGGPPEDLQPYQQVFQAPLRFNAEHYALLFERADMETPLPTANESLAQLHDRFAGEYLARFSESRVTHQARQVLCRLLPQGEPKREAVAQALHLSQRTLQRRLQEEGTSFQQLLDDTRRELAGQYLAQPNLTLLEIAYLLGFADPSNFFRAFRRWFDVTPGEYRARL				NA	NA	NA	NA	NA
BMS010_04478	1452	trkI_2	COG0168	Trk system potassium uptake protein TrkI	ATGGCTCTGCCGACGCTGCGCATCATCGGTTTTATTCTCGGCATCTTCCTCATCACCCTGGCCATCAGCATGGTCATTCCCATGCTGACCCTGCTGCTGTTCGAGCGCACCGACGACCTCAACGCCTTCCTCTGGTCCAGCTTGGCCACCTTCATCGGCGGCCTCGCCCTGGTGATTCCCGGGCGCCCGGAACATATCCAGCTGCGCCCGCGTGACATGTACATGCTGACCACCGCCAGTTGGCTGGTGGTCTGCATGTTCGCCGCCCTGCCGATGGTGCTGATCCACCACATCAGCTATACCGATGCCTTCTTCGAGACCATGTCCGGCATCACCACCACCGGCTCGACCGTACTGAGCGGCCTCGACCACGCCTCACCCGGCCTGCTGATGTGGCGTTCGATGCTGCAATGGCTGGGCGGCATCGGCTTCATCGGCATGGCGGTGGCGGTCCTGCCGCTGCTGCGCGTCGGCGGCATGCGGCTGTTCCAGACCGAATCCTCGGACTGGTCGGAAAAGGCGCTGCCGCGCTCGCATGTGGTGGCCAAGTCGATCCTGTTCGTCTATGTCGGCCTGACCTTCCTCTGCACCGTGGCCTTCTGGCTCAGCGGCATGACGCCGTTCGAAGCGATCAACCACGCGATGACCACCATCTCCACCGGCGGCTATTCCACCTCCGACAACTCCATGGCCAACTTCAGCCCGGCCGCGCACTGGGTCGCCATCGTCTTCATGCTGCTCGGGGGCCTGCCGTTCATCCTCATGGTCTCCACCCTGCGCGGCAACCGCTACGCGCTGGTGAAGGACCAGCAGGTCCGTGGCTTCGTGGCCATGCTCGGCCTCACCTGCCTGCTCTTCGCCACCTGGCTGTGGACGCACTCGGACTACGTGTTCCTCGATGCCTTGCGCATCGTCTCGCTGAATGTGATCTCGGTGGTCACCACCACCGGCTACGCCTTGGGCGATTACACGCTCTGGGGCGATTTCGCGATCATGGCGTTCTTCTACCTGACCTTCGTCGGCGGCTGCTCCGGCTCCACGTCCGGCGGCCTGAAGATTTTCCGCTTCCAGGTCGCCTATGCCCTGCTGCGTGCCAACCTGCAGCAACTGGTGCACCCACGGGCGGTGATCAAGCAGCAGTACAACGGGCACAATCTCGACGAAGAAATCGTCCGCTCGATCCTGACCTTCTCCTTCTTCTTCACCATTACCATCGGCGCCCTGGCGCTGGCGCTGGCGCTGCTCGGCCTGGATATGATGACCGCCCTGACCTCGGCCGCCACCGCGGTGTGCAACGTGGGCCCCGGCCTCGGCCCGATCGTCGGCCCGGCCGGCAACTTCTCCAGCCTGCCGGATGCCGCCAAATGGCTGCTGTCCGCCGGCATGCTGCTCGGCCGCCTGGAAATCATCACCGTGCTGGTCCTGATGACCCCGGCGTTCTGGCGCCACTGA	MALPTLRIIGFILGIFLITLAISMVIPMLTLLLFERTDDLNAFLWSSLATFIGGLALVIPGRPEHIQLRPRDMYMLTTASWLVVCMFAALPMVLIHHISYTDAFFETMSGITTTGSTVLSGLDHASPGLLMWRSMLQWLGGIGFIGMAVAVLPLLRVGGMRLFQTESSDWSEKALPRSHVVAKSILFVYVGLTFLCTVAFWLSGMTPFEAINHAMTTISTGGYSTSDNSMANFSPAAHWVAIVFMLLGGLPFILMVSTLRGNRYALVKDQQVRGFVAMLGLTCLLFATWLWTHSDYVFLDALRIVSLNVISVVTTTGYALGDYTLWGDFAIMAFFYLTFVGGCSGSTSGGLKIFRFQVAYALLRANLQQLVHPRAVIKQQYNGHNLDEEIVRSILTFSFFFTITIGALALALALLGLDMMTALTSAATAVCNVGPGLGPIVGPAGNFSSLPDAAKWLLSAGMLLGRLEIITVLVLMTPAFWRH	PGPT0002735_1874	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002735-trkG|trkH|ktrB-K03498	NA	NA
BMS010_04479	372			hypothetical protein	ATGTCCACCGATAATCCCTGCTTGACGTGCGGCGCCTGCTGCGCGCATTTCCGTGTGTCTTTCTTCTGGGGCGAGTGTTGTTCCTCGGGAGGCCAGGTTCCCGATGACCTGGTGGTTCAAGTGAGTCCCTACCATGTGGCGATGCGCGGCACGGAGAGCAAGCCGGCGCGCTGCGTCGGGTTGCTCGGCGACGTGGGGAACGGCGTCCGCTGTACGCTCTATGAGCAGCGCTCCAGCACCTGCCGGGAATTCGAGGCGTCATGGATCGACGGGGTGCACAACCCCAACTGCGATGCGGCCCGCGCCGCCCATGGCCTGCCGCCATTGACGCCGCCGCTGCAGCCAGACATGGCGCCGGAACGGGTGGCCTGA	MSTDNPCLTCGACCAHFRVSFFWGECCSSGGQVPDDLVVQVSPYHVAMRGTESKPARCVGLLGDVGNGVRCTLYEQRSSTCREFEASWIDGVHNPNCDAARAAHGLPPLTPPLQPDMAPERVA				NA	NA	NA	NA	NA
BMS010_04480	564	ydjA_1	COG0778	Putative NAD(P)H nitroreductase YdjA	ATGGAGGCTCTCGATGTTCTGCTCAAGCGTGTTTCCGTGGCTCGACTGGCCGAGCCCGCGCCAACGGCGGAACAGCGTGAACTCTTGTTCCGCGCGGCCATGCGTGCGCCCGATCATGGTCAGTTGCGGCCCTGGCGTTTCCTGACCATCGAAGGCGATGGCCGCGAACGTCTCGGCGAACTGTTCGCCCGGGTGGTGGCGGAGCGGGACGGCGATATGGTCAAGCCGGAAGTCTTGAATAAGGCCCGCCAGATGCCGTTTCGCGCGCCCCTGGTGGTGGCGGTGGTCGCCCATCTCCAGGCGCATCCGAAGGTTCCGGAGCTGGAGCAGATGCTGGCGGTTGGCTGCGCGGCCCACGGCATGCTGTTGGCGGCCCATGCACTGGGTATCGGTGCCATGTGGCGTACCGGCGAGCTGGCCTACGATCCACGCGTGGCGGCAGGTCTTGGGCTGGAAGCCAACGAGCGGGTGCTCGGCTTCCTGTATCTCGGTACGCCGGTTGGCGATCTGCGCATCCCGCCGGAGGTGGATGCGTCGGCGTTCGTCAGTGCCTGGAACGGCTGA	MEALDVLLKRVSVARLAEPAPTAEQRELLFRAAMRAPDHGQLRPWRFLTIEGDGRERLGELFARVVAERDGDMVKPEVLNKARQMPFRAPLVVAVVAHLQAHPKVPELEQMLAVGCAAHGMLLAAHALGIGAMWRTGELAYDPRVAAGLGLEANERVLGFLYLGTPVGDLRIPPEVDASAFVSAWNG				NA	NA	NA	NA	NA
BMS010_04481	1329	sasA_13		Adaptive-response sensory-kinase SasA	GTGCGTTCACTGTTCTGGCGCATCTTCGCCAGCTTCTGGCTGGCCATCGCCCTGGTCGCCGGGCTGTCCATCCTGCTCGGCCATGCGTTGAACCAGGACGCCTGGATTCTCAGCCGCCATCCCGGCCTAAAAGACATCGCGGAAGACTGGACGCGCCTCTACGAAAGCGAAGGCGAATGGGCCGCGCAGGGCTTCCTCGAACAACGCAAGTTCCGCTACCGGATCGATGTCCAGGTTCTCGGCGAGAACGGCCAGCCGGTGGTTCGCGGCACCTTCCCGCCACGCGCCGCCGCCTTCGAAGCCCGCAACAACGACCGCCGCCTGCCCTGGCGTCGCCTGACCGCGGAATACCGCAGCCCGACCAGCGGCGAAACCTACCTGTTCATCTACCGCATTCCCCACCCGGAGCTGGACGCCTGGCACCGGGGCAGCCTGCTCTGGCCAGTCAGCGCCCTGGGAATCGCCCTGGTGGTGCTGGCGCTGTTCAGCCTGTTCCTGACGCTGTCCATCACCCGTCCGCTGAACCGACTGCGTGGCGCGGTGCACGACCTCGGCCAGACCGCCTACCAGCAGCATACCCTGGCGCGCCTGGCGAACCGCCGCGACGAGTTCGGCGTCCTGGCCCGCGACTTCAACCGCATGGGCGCACGTCTGCAAAGCCTGATCGGCAGCCAGCGCCAGTTGCTGCGCGACGTCTCCCACGAACTGCGCTCGCCCCTGGCGCGCCTGCGCATCGCGCTGGCCCTGGCCGAGCGCGCCGCAGCGGATGAACGGGAACAGCTCTGGCCGCGCTTGACCCAGGAATGCGACCGCCTCGAGGCACTGATCGCCGAAATCCTCGCCCTGGCCCGCCTGGACGCCGACCCCGGCGCCGCTCACCCGATCGATATCGCCGCCCGGCTCGACAGCCTCAAGGCGGATGCCCAGCTCAGCGCACCGGAGCAGGACATTCGTATCGACGTGGAAAGCGGCCTCAACCTGCAAGGTTGGCCGGACATGCTGGAGCGTGCCCTGGATAACCTCCTGCGCAATGCCCTGCGCTTCAATCCGGCCGGGCAGCCCATCGAATTACGGGCCTGGAAAGAGGACGGTAACGTCCGACTGAGCGTTCGCGACCATGGACCGGGAGTGGCGGAAGAACACCTGCAACAGCTCGGCGAGCCCTTCTTCCGCGCACCGGGACAAGCGGCCCCCGGACACGGACTCGGCCTGGCCATCGCCCGCCGCGCCGCCGAACGGCACGGTGGCAGCCTGCATCTGGCCAATCATCCCGACGGCGGATTCATCGCGACACTGGAGATACCGTCGCTTCCCGTCCAGGGGGAATAG	MRSLFWRIFASFWLAIALVAGLSILLGHALNQDAWILSRHPGLKDIAEDWTRLYESEGEWAAQGFLEQRKFRYRIDVQVLGENGQPVVRGTFPPRAAAFEARNNDRRLPWRRLTAEYRSPTSGETYLFIYRIPHPELDAWHRGSLLWPVSALGIALVVLALFSLFLTLSITRPLNRLRGAVHDLGQTAYQQHTLARLANRRDEFGVLARDFNRMGARLQSLIGSQRQLLRDVSHELRSPLARLRIALALAERAAADEREQLWPRLTQECDRLEALIAEILALARLDADPGAAHPIDIAARLDSLKADAQLSAPEQDIRIDVESGLNLQGWPDMLERALDNLLRNALRFNPAGQPIELRAWKEDGNVRLSVRDHGPGVAEEHLQQLGEPFFRAPGQAAPGHGLGLAIARRAAERHGGSLHLANHPDGGFIATLEIPSLPVQGE	PGPT0004100_3309	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-CUS_TRANSPORT_SYSTEM,PGPT0004100-cusS|copS|silS-K02484	NA	NA
BMS010_04482	438			hypothetical protein	ATGCGCAAGACCCTTATCGCCCTTCTGTTCGCCGCCAGCCTGCCGGCCATCGCACTGGCGATGCCCGAAGGCGGCCCCTGCCGCGACGGCATGCCGGGACCGGGCGGCCACGGCAAAGGCGCGGCCATGATGTTCAAGGACCTGGACCTGACCAAGGAACAGCACCGCGAATTCCGCAAACTCATGGGCGAGCAGATGAAGAGCCGCCACGACATCACCCAGCGTTACCTTGACAAGCTGCCGGCCGCCGACAAGAAGGCCATGGAAGATGAAATCGCCGCCGCCCGGAAGAAGAACCAGGACGCCATGCGCGCCCTGCTCAAGCCCGAGCAGCAGAAAGCCTTCGACGAAGGCCTGAAGGAGATGGAAGCCCGCCGCGCGGAACGCGCCGAGTTCGAAGCCTGGAAAGCCGAACGCGACGCCAAGAAAGCGCAGTAA	MRKTLIALLFAASLPAIALAMPEGGPCRDGMPGPGGHGKGAAMMFKDLDLTKEQHREFRKLMGEQMKSRHDITQRYLDKLPAADKKAMEDEIAAARKKNQDAMRALLKPEQQKAFDEGLKEMEARRAERAEFEAWKAERDAKKAQ				NA	NA	NA	NA	NA
BMS010_04483	678	cpxR	COG0745	Transcriptional regulatory protein CpxR	ATGAGCGAACTGCTGCTGATCGACGATGACCAGGAGCTTTGCGAGCTGCTGGTGAGCTGGCTGAGCCAGGAAGGCTTCCAGGTCCGCGCCTGCCATGACGGCGGCAGTGCCCGCGCCGCACTGGCCGAGCGCACGCCCTCCGCCGTCGTGCTCGACGTGATGCTGCCGGATGGCAGCGGCCTGAGCCTGCTCAAGCAACTGCGCAGCGATTACCCGGACCTGCCGGTGCTGATGTTGTCCGCGCGCGGCGAGCCCCTCGACCGCATCCTCGGCCTCGAACTGGGCGCCGACGACTACCTGGCCAAGCCCTGCGACCCGCGCGAGCTGACCGCCCGCCTGCGTGCCGTGCTGCGCCGCAGCCTGCCCGCCGCCACGCCCAGCCAGCAGGCGCTGGGCGACCTGACGTACAGCCCGGCCCGCGGCGTCGCCACCGTCGGCGACCACGAAGTGAGCCTGACGCTGTCCGAAAGCCGCCTGCTCGAAGCCCTGTTGCGCCATCCCGGCGAGCCGGTGGACAAACAGGAGCTGGCGCAACTGGCGCTCGGCCGTAAGCTGACCCTCTACGACCGCAGCCTCGATATGCACGTCAGCAACCTGCGCAAGAAGCTCGGCCCGCACCCGGACGGCCGCCCACGCATCCTCGCGCTGCGCAGCCGGGGTTACTACTACAGCGTCTGA	MSELLLIDDDQELCELLVSWLSQEGFQVRACHDGGSARAALAERTPSAVVLDVMLPDGSGLSLLKQLRSDYPDLPVLMLSARGEPLDRILGLELGADDYLAKPCDPRELTARLRAVLRRSLPAATPSQQALGDLTYSPARGVATVGDHEVSLTLSESRLLEALLRHPGEPVDKQELAQLALGRKLTLYDRSLDMHVSNLRKKLGPHPDGRPRILALRSRGYYYSV	PGPT0015100_665	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0015100-cpxR-K07662	NA	NA
BMS010_04484	411			hypothetical protein	ATGCGCCACGCTTCCCTGTCAGTCTCATTCGCCCTGCTGCTCGGCAGCCCATTGCTCTGGGCAGAGGAAACCCCGCCCGCACCGGCGGCCAGCAATCCGCCCCTGGCCGCCGCCACCGCGGCGGAAGCGCTGGTCGACGAACTCGAACAGCGCCTGGCCGAAAGCGAGCGCCTGCGCCAAGAGCTCGAAGCGACCATCAGCGAGCGCGAAAGCAGCCAGCTCGCCCGCCTGCGCCAGGAAAACCAGCGCCTGCGCCTGCAACTGAAAGAAGCCCAGGCCCAGCAACCGCCCCCCTTGCTCGACGAACGGCAGCGCTGGCTCGCCATCGGCGGCGGTATCGCCCTCGGTGGCGTGATTCTCGGCGCCCTGCTGCGAGGCCGTCGCCGCTCCCGTCGTGAATGGATCAACTGA	MRHASLSVSFALLLGSPLLWAEETPPAPAASNPPLAAATAAEALVDELEQRLAESERLRQELEATISERESSQLARLRQENQRLRLQLKEAQAQQPPPLLDERQRWLAIGGGIALGGVILGALLRGRRRSRREWIN	PGPT0023725_733	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0023725-ygiM|htrG-K07184	NA	NA
BMS010_04485	300	yciI_1	COG2350	Protein YciI	ATGCTCTACGCCATCATCGCCACCGACGTGGAAAACTCCCTCGACAACCGCCTCGCCGCCCGCCCGGCCCATCTGGCACGCCTGGAGCAACTGAAAAGCGAAGGCCGTCTGGTCCTCGCCGGCCCGCACCCGGCCGTGGACAGTAACGACCCGGGCGCCGCCGGTTTCACCGGCAGCCTGATCGTCGCCGAGTTCGATTCCCTCCAGGCAGCCAAGGACTGGGCCGATGCCGATCCCTACCGGGCGGCCGGCGTCTACGCCAATGTGCTGGTGAAACCCTTCAAGCAGGTCTTTCCTTAA	MLYAIIATDVENSLDNRLAARPAHLARLEQLKSEGRLVLAGPHPAVDSNDPGAAGFTGSLIVAEFDSLQAAKDWADADPYRAAGVYANVLVKPFKQVFP	PGPT0014930_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014930-bolA-K05527	NA	NA
BMS010_04486	639	yciB_1	COG2917	putative intracellular septation protein A	TTGTTATTATGCCGCTACATCCCGCTTCTGGCTGCCGTTGTGAAACAATTCATCGATTTCATCCCGCTGATCCTCTTTTTCATCGTCTACAAACTCGAACCCCGCGCCGTAGAGCTCGCCGGCCAGTCCTTCACCCTCGGCGGCATCTTCAGCGCCACCGCCGTGCTGATCGCCGCCTCCGTGGTGGTCTACGGCACGCTCCTGGTATTGCAGCGCAAGCTGGAAAAGGGCCAATGGCTCACCTTGGTCGCCTGCCTGCTGTTCGGCGGCCTGACCCTGGCCTTCCACAGCGAAACCTTCCTCAAGTGGAAAGCCCCGGTGGTCAACTGGCTGTTCGCCCTGGCCTTCGCCGCCAGCCACTTCATCGGCGACAAACCGCTGATCCAGCGCGCCATGGGCCACGCGATCGGCCTGCCGCCACACATCTGGACCCGCCTGAACCTGGCCTGGGTCGTTTTCTTTTTGATCTGCGGCTTTGCCAATCTGTTCGTTGCCTTTACCTTTCCCAGCATCTGGGTCGACTTCAAGGTGTTCGGCAGCCTGGGCATGACCGTTCTGTTCCTGGTCGGCCAGGGCGTTTTCCTGGCCCGCCACGCCCACGATGTCGATCCCAAACCGACAGCCGAAACAAAGGAATGA	MLLCRYIPLLAAVVKQFIDFIPLILFFIVYKLEPRAVELAGQSFTLGGIFSATAVLIAASVVVYGTLLVLQRKLEKGQWLTLVACLLFGGLTLAFHSETFLKWKAPVVNWLFALAFAASHFIGDKPLIQRAMGHAIGLPPHIWTRLNLAWVVFFLICGFANLFVAFTFPSIWVDFKVFGSLGMTVLFLVGQGVFLARHAHDVDPKPTAETKE				NA	NA	NA	NA	NA
BMS010_04487	864	yciV	COG0613	5'-3' exoribonuclease	ATGCAAGTCGATCTGCACTGCCACAGCACCGCTTCCGACGGCGCCCTCGCGCCCTCCGAGGTGGTCGCGCGCGCCCATGCACGGGGCGTCCGCCTGTTGGCGCTGACCGATCACGACACCCTGGAAGGTATCGCCGAGGCGCGTGCCGCTGCGGTGAGGCTGGGTATGCAACTGGTGAACGGCATCGAACTTTCCAGTACCTGGGGTGGGGCGACCATCCATGTGCTCGGCTACGCTTTCTCCGAGGAGGCGCCGGCCTTGCGTCGGGCCATCGCGGATCTTCACGACGGCCGCTGGCAACGCGCCGAGGAAATCGGCCGGCGTCTGGCCGCCAAGGGCATGCCGGGCGCGCTGGAAGGCGCGCGGGCGGTGCAGCAGGAGTTGGGTGACAGCGGCAATGCACCGGCCCGGCCGCACTTCGCCGAGTTCCTGGTGCGGGCCGGGCACGTGACGGATCGCGCCGAGGCGTTTCGCAAGTGGTTGGGTGCGGGGAAGCTGGGCGACGTCAAGCAGCACTGGCCGACCCTGGAGCAGGCGGTCGGTACCCTGGTGGATGCCGGCGCCTGGATCAGTCTGGCGCATCCCTGGCAGTACGATTTCACCCGCAGCAAGCGGCGCAGGCTGGTCGGCGACTTCATTCGTGCCGGCGGGCATGCGCTGGAAGTGGTGAATGGCATGCAACCGGCGGAACAGGTCGGTGGCCTGGCCATACTGGTTCGCGAGTTCGGCCTGCTGGCGACTGTCGGCAGTGATTTCCATGCGCCGGGCGACTGGTCCGAGCTGGGCATGTACCGCCCGTTGCCGGATGACCTGCCGCCCCTCTGGGAGCGCTTCGATCATGTACGCGCTGCAGCTGCCCTCTGA	MQVDLHCHSTASDGALAPSEVVARAHARGVRLLALTDHDTLEGIAEARAAAVRLGMQLVNGIELSSTWGGATIHVLGYAFSEEAPALRRAIADLHDGRWQRAEEIGRRLAAKGMPGALEGARAVQQELGDSGNAPARPHFAEFLVRAGHVTDRAEAFRKWLGAGKLGDVKQHWPTLEQAVGTLVDAGAWISLAHPWQYDFTRSKRRRLVGDFIRAGGHALEVVNGMQPAEQVGGLAILVREFGLLATVGSDFHAPGDWSELGMYRPLPDDLPPLWERFDHVRAAAAL				NA	NA	NA	NA	NA
BMS010_04488	669	yciO	COG0009	putative protein YciO	ATGTACGCGCTGCAGCTGCCCTCTGAACAGGAAGGTTCCGTGAGTCAATTTTTCCAGGTCCACCCGGAGAATCCCCAGGCACGCCTGATCAAGCAGGCGGTGGAAATCATCAGGGCCGGCGGGGTGGTCATCTATCCCACGGATTCCTGCTACGCCCTCGGCTGCCATATCGGCGACAAGGCTGCGGTCGAGCGTATCCGCCGGTTGCGCCGGCTGGACGAGAGGCACAATTTCACCCTGGTCTGCCGCGATCTGTCGGAGCTGGGCCTGTTCGCCAAGGTGGACACCAGGGCCTTCCGTCTGCTCAAGGCGCATACGCCGGGGCCCTATACCTTCATCCTCAATGCCACCCGCGAGGTGCCGCGCATGCTGCTGCATCCCAAGCGGCGGACCATCGGCCTGCGCGTACCGAGCGAGCCCATCGCCCAGGCGCTGCTGGCGGAGCTGGGCGAGCCGCTGATGAGCGTCAGCCTGATCATGCCGGGCGAAGAGCTGCCGATGAGCGATCCCTATGAGATGCGCCAGTTGCTCGAGCATCAGGTCGACCTGATCATCGATGGCGGTTTCGGTGGGGTGGAAGCGTCGACGGTGGTCAACCTGGCGGACGGCGAGCCGGAAATAGTGCGCACGGGGTGCGGCGATCCTGCGCCTTTCCTGGAAGAGGCCTGA	MYALQLPSEQEGSVSQFFQVHPENPQARLIKQAVEIIRAGGVVIYPTDSCYALGCHIGDKAAVERIRRLRRLDERHNFTLVCRDLSELGLFAKVDTRAFRLLKAHTPGPYTFILNATREVPRMLLHPKRRTIGLRVPSEPIAQALLAELGEPLMSVSLIMPGEELPMSDPYEMRQLLEHQVDLIIDGGFGGVEASTVVNLADGEPEIVRTGCGDPAPFLEEA				NA	NA	NA	NA	NA
BMS010_04489	357			hypothetical protein	ATGAAAAACCTTCTCATGACCTTCAGCGCCATCCTCGCGCTGGCCTGCCTTGCCGTTCTGCTGCCCGCCCCGGCGCAGGCCGCGATGATTTCCACCGACGAAGTGATCGCGACGCAGGATGCCCAGGCCGATCGTGAAAAAGTGAAGGAATTCCTCGGTCGCGCCGACGTGGAGAAAAAACTGCAGGACATGGACGTACCGGCCAACGTCGCCCGCAAGCGGGTCGATGCCCTGACCGCCGAGGAAGCCGCCACGCTGGCCAAGCGGATCGATGCCCTGCCCGCCGGTGGCGCGCTCAGCGGAACGGACTTCATCATCATCCTGCTGGTCGCCATCCTGGTCGCGATACTGCTATAG	MKNLLMTFSAILALACLAVLLPAPAQAAMISTDEVIATQDAQADREKVKEFLGRADVEKKLQDMDVPANVARKRVDALTAEEAATLAKRIDALPAGGALSGTDFIIILLVAILVAILL				NA	NA	NA	NA	NA
BMS010_04490	1215			hypothetical protein	TTGAGCTTTGTCGACTCGCAACGTCGCGTACTGTCCGGGATGCGCCCCAGTGGCCGCCTGCACCTGGGGCATTACCACGGCGTGCTGAAGAACTGGGTCAGGTTGCAGCATGAATACGAATGCTTTTTCTGCATCGTCGACTGGCATGCGCTGACCACCGACTACGACGACGTGGGCCTCATCGCCGATCACGTCATGGACATGGCGGTGGACTGGCTGGCCGCGGGCGTCAGCCCGAGTTCGGCGACCCTGTTCATCCAGTCCCAGGTACCGGAACACGCCGAGCTGCACCTGCTGCTGTCGATGATCTGCCCGCTGAGCTGGCTGGAGCGCGTGCCGTCCTACAAGGAGCAGCAGGAGAACCTGCAGCACAAGGACCTGGGCACCTACGGTTTTCTCGGCTACCCGTTGCTCCAGGCCGCCGACATTCTGCTCTATCGTGCTGGCCTGGTGCCGGTGGGTGCGGACCAGTTGCCCCATGTCGAATTCGCCCGCGAAGTGGCGCGGCGCTTCAATCATCTCTACGGGCGCGAAGCCAATTTCGAGGAGAAGGCCGAAGCGGCGATCCTCAAGCTGGGCAAGAAAACCGCCAAGCTCTACAACAGCTTGCGCAAGGCCTATCAGGAGCAGGGCGACAGCGAGGCCCTGGAAACCGCGCAGGCGCTGCTCAAGGAGCAGCAGGCCATTACCTTGAGCGACAAGGAGCGGCTGTTCGGCTACCTGGAGGGCGGTGGCAAGGTCCTGCTGCCGGAACCGCGCCCGCTGCTCGGCGAAGCGCCGAAAGTGCCCGGCCTGGATGGCAGCAAGATGTCCAAGTCGCATGGCAATGTGATTCTTCTGCGCGACACGCCGGAAGAGATCGAGGAAAAGATCCGGCGCATGCCCACCGATACCGCGCGGGTACACCGCAGCGATCCGGGCGAGCCGACCCGCTGCCCGGTGTGGCAATGGCATGAGGCCTATTCCGACCAGGCGACCTGCGATTGGGCGCAGCAGGGTTGTCGCAGCGCGGGCATCGGCTGCCTGGAGTGCAAAGCACCGTTGATCCAAGCGGTACAGGAGGAGCTGCAGCCGCTGCGTTTCCGCGCCCTCGACTACGAGGGGAATCCGGACCTGGTGCGCGGCATCCTGGCCGAAGGCGCCGAGCGGGCACGGGACGCGGCGCGGGAGACGCTGGCTGAGGTGCGCTATGCCATGGGGCTGCATTACCGTTGA	MSFVDSQRRVLSGMRPSGRLHLGHYHGVLKNWVRLQHEYECFFCIVDWHALTTDYDDVGLIADHVMDMAVDWLAAGVSPSSATLFIQSQVPEHAELHLLLSMICPLSWLERVPSYKEQQENLQHKDLGTYGFLGYPLLQAADILLYRAGLVPVGADQLPHVEFAREVARRFNHLYGREANFEEKAEAAILKLGKKTAKLYNSLRKAYQEQGDSEALETAQALLKEQQAITLSDKERLFGYLEGGGKVLLPEPRPLLGEAPKVPGLDGSKMSKSHGNVILLRDTPEEIEEKIRRMPTDTARVHRSDPGEPTRCPVWQWHEAYSDQATCDWAQQGCRSAGIGCLECKAPLIQAVQEELQPLRFRALDYEGNPDLVRGILAEGAERARDAARETLAEVRYAMGLHYR	PGPT0007120_1146	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007120-trpS-K01867	NA	NA
BMS010_04491	828	scpA_1	COG1354	Segregation and condensation protein A	ATGCAGGACGAATCCACCGCCGCGGCACCCGCCGGGCAGCATCCCGAACAGCAGGAGCTGCCGTTCGCCCTGGTCTACGGGCAGGCGGTTACCGAGCTGCCGCTGGACCTGTACATCCCGCCGGATGCCCTGGAGGTCTTCCTCGAAGCCTTCGAGGGGCCGCTCGACCTGCTGCTGTACCTGATCCGCAAGCAGAACATCGACATTCTCGACATCCCGGTGGCGGAGATCACCCGGCAGTACATGGGCTACGTGGAGCTGATGAAGTCGGTGCGCCTGGAGCTGGCGGCGGAGTACTTGGTGATGGCCGCCATGCTCGCCGAGATCAAGTCGCGCATGCTGTTGCCGCGTTCCACCGAGGCCGAGGAAGAAGAGGAAGACCCGCGCGCCGAGCTGATCCGCCGCTTGCAGGAATATGAGCGCTTCAAGGCGGCGGCGGAGGGCATCGACCAGTTGCCGCGGCTCGGCCGCGATCTCACCGTGCCGCGCCTCGATGCGCCGGAAGCACGGGCGCGCAAGCTGTTGCCGGAGGTCAGCCTGGAGGAATTGCTGCTTTCCATGGCCGAGGTGCTGCGCCGCGCCGATATGTTCGAAAGCCACCAAGTGACGCGTGAAGCGCTGTCCACCCGCGAGCGCATGAGCGAGGTACTGGAGCGCTTGAAGGGCGGCGGCTTCGTGCCGTTCGTCCAGTTGTTCAGCGTCGAGGAAGGGCGCCTGGGGGTGGTGGTGACCTTCATGGCAGTGCTCGAACTGATCAAGGAGTCCCTGGTGGAACTGGTGCAGAATGAGCCCTTCGCCCCCATTCATGTGCGGACGCGCACGGAATGA	MQDESTAAAPAGQHPEQQELPFALVYGQAVTELPLDLYIPPDALEVFLEAFEGPLDLLLYLIRKQNIDILDIPVAEITRQYMGYVELMKSVRLELAAEYLVMAAMLAEIKSRMLLPRSTEAEEEEEDPRAELIRRLQEYERFKAAAEGIDQLPRLGRDLTVPRLDAPEARARKLLPEVSLEELLLSMAEVLRRADMFESHQVTREALSTRERMSEVLERLKGGGFVPFVQLFSVEEGRLGVVVTFMAVLELIKESLVELVQNEPFAPIHVRTRTE				NA	NA	NA	NA	NA
BMS010_04492	816	scpB_1		Segregation and condensation protein B	GTGAACCTTTCCGATCCCCAAGACCTCGCCGGGCTGCTCGAAGCCTTTCTCCTGGCGTCCGGAAAACCCCTGTCGCTGGAGCGCCTGGGCGAGCTGTTCGAAGAGGCCGAACGGCCCGAGCCGGCGCAGATCAAGGAAGCCCTCGAGGTGCTTCGGCAGTCCTGCGCGGGGCGCGCCTTCGAGTTGAAGGAAGTCGCCTCCGGCTATCGCCTGCAGGTGCGTGAGCGTTTCGCGCCCTGGGTCGGTCGGCTCTGGGAAGAGCGTCCGCAGCGCTATTCCCGCGCGATGCTGGAAACCCTGGCGCTGGTCGCCTACCGCCAGCCCATCACCCGTGGAGAGATCGAGGATATCCGCGGGGTGGCGGTCAATAGCCAGATCGTCAAGACCCTGCAGGAGCGCGAGTGGATTCGCGTAGTGGGCTATCGCGACGTGCCGGGCCGCCCGGCGATGTTCGCCACCACCAAGGCCTTTCTCGACCATTTCAACCTGAAAAGCCTCGACGAACTGCCGCCCCTGGCTGCCTTGCGCGAGCTGGAGCTCGAGCCGGCCCTGGCCCTGGATGATGACGCGCCGGTGCCGCCGGGCTTGCAGGCCCGCGCCGATCTGGCCGGGGAAGAGGGCGAGGAGGTACCGGCCGAACCGCGCGAGGAAACCAGCTTCCGTTCGCTGCTGGCCGAGCTGGACTCCATGGAACAGGGCCTGAAGATCGACTTCGAGGACATGCCCGTTGCCAATGAAGAGTCCGAGGAGGCGGCCGAGGCGGGAGGCGAGGACGTCGCCGAAGCCGCATCCGACGAGCCCGACGAGCGGACCTGA	MNLSDPQDLAGLLEAFLLASGKPLSLERLGELFEEAERPEPAQIKEALEVLRQSCAGRAFELKEVASGYRLQVRERFAPWVGRLWEERPQRYSRAMLETLALVAYRQPITRGEIEDIRGVAVNSQIVKTLQEREWIRVVGYRDVPGRPAMFATTKAFLDHFNLKSLDELPPLAALRELELEPALALDDDAPVPPGLQARADLAGEEGEEVPAEPREETSFRSLLAELDSMEQGLKIDFEDMPVANEESEEAAEAGGEDVAEAASDEPDERT				NA	NA	NA	NA	NA
BMS010_04493	483	mgsA_2	COG1803	Methylglyoxal synthase	ATGAGCCGCATCGCTTTCACCACCGCCACCTTGCCGGCGCGCAAGCGCATCGCCTTGGTCGCCCACGACCATTGCAAGGGCTTCCTCCTGGACTGGGCCAAACGCCAGCGCGAACGCCTGGCGCATCATGATCTGGTTGCCACCGGCACCACCGGCATGCTGCTGCGCGAAGAGCTCGGCATGCCGGTGGAAAGCATGATCAGCGGCCCGCTCGGCGGCGACCAGCAGATCGGCGCGCGCATCGCCGAACGCCGGGTGGACATCCTGGTGTTCTTCTGGGACCCGTTCGAACCGCAACCCCATGACCCCGACATCAAGGCGCTGCTGCGCGTCGCCGCGGTCTGGAACATTCCCGTGGCCTGCAACGAGAGCAGCGCCGACTACCTGCTCAGTAGCGCCTTGCTGGAGCAGGAGCACGAATGCCGGATTCCGGATTACGCCAGTTACCTGGCGGGACGCAGCGTTCCCCAAAGCGGGCCGTAG	MSRIAFTTATLPARKRIALVAHDHCKGFLLDWAKRQRERLAHHDLVATGTTGMLLREELGMPVESMISGPLGGDQQIGARIAERRVDILVFFWDPFEPQPHDPDIKALLRVAAVWNIPVACNESSADYLLSSALLEQEHECRIPDYASYLAGRSVPQSGP	PGPT0001780_228	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001780-mgsA-K01734	NA	NA
BMS010_04494	1005	gap_1		Glyceraldehyde-3-phosphate dehydrogenase	ATGACCCTACGCATCGCCATCAACGGTTTCGGCCGCATCGGCCGCAACGTCCTTCGCGCCCTGTACAGCGGCGCTTACCGGCAGCACCTGCAGGTCGTAGCCATCAACGACCTGGGCGATACTGCGATCAATGCCCACCTTTTCCGTTATGACAGTGTGCATGGCGCATTTGACGGTGTCGTCGAAGCCGACCAGGAAAACCTGATCGTCAACGGCGACCGCATCGCCGTCAGCGCCATCCGCAACCCGGCCGAACTGCCCTGGCGCGCCCTTGGCGTGGACGTGGTGTTCGAATGCACCGGCCTGTTCACCGACCGCGACAAGGCTGCCGCCCATCTGACCGCCGGCGCCCGCAAAGTGATCATTTCCGCGCCAGCCAAGGGCGCCGACTACACCGTGGTCTATGGCGTCAACCATGACGGGCTGCGGCAGAGCCACCAGATCGTCTCCAACGCCTCCTGCACCACCAACTGCCTGGCGCCGGTGGCCCAGGTGCTGCACCGCGAACTGGGTATCGAGCATGGCCTGATGACCACCATCCATGCCTACACCAACGACCAGAACCTCTCCGACGTCTATCACAGCGACCCGTACCGCGCGCGCTCCGCCACCCAGTCGATGATCCCGACCAAGACCGGCGCCGCCGAAGCCGTGGGCCTGGTGCTGCCAGAACTGGCCGGCAAGCTGACCGGCATGGCCGTGCGGGTGCCGGTGATCAACGTCTCGCTGGTCGACCTGACCGTGGAACTCCAGCGCGAAACCAGCGCCGGCGATGTCAACGCCCTGATGAAGGCCGCCAGCGAACAGTCCGCCGTGCTCGGTTACAACAGCCTGCCCCTGGTATCCTGCGACTTCAACCACAACCCGCTGTCGTCGATCTTCGACGCCAACCACACCAAGGTCAGCGGCAAGCTGCTCAAGGTGATGGCCTGGTACGACAACGAGTGGGGCTTCTCCAACCGCATGCTCGACAGTTGCCTGGCCCTTTGCCAGGCGCCGGAATGA	MTLRIAINGFGRIGRNVLRALYSGAYRQHLQVVAINDLGDTAINAHLFRYDSVHGAFDGVVEADQENLIVNGDRIAVSAIRNPAELPWRALGVDVVFECTGLFTDRDKAAAHLTAGARKVIISAPAKGADYTVVYGVNHDGLRQSHQIVSNASCTTNCLAPVAQVLHRELGIEHGLMTTIHAYTNDQNLSDVYHSDPYRARSATQSMIPTKTGAAEAVGLVLPELAGKLTGMAVRVPVINVSLVDLTVELQRETSAGDVNALMKAASEQSAVLGYNSLPLVSCDFNHNPLSSIFDANHTKVSGKLLKVMAWYDNEWGFSNRMLDSCLALCQAPE	PGPT0018000_7177	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0018000-gapA-K00134	NA	NA
BMS010_04495	1830	edd_1	COG0129	Phosphogluconate dehydratase	ATGCATCCTCGTGTGCTTGAGGTAACCGAACGGCTGATCGAGCGCAGCCGACCCACCCGCGAGCGCTATCTGGCGTTGATGGACGCCGCGGCCAGCGAGGGGCCGCAGCGCGGCAAATTGCAGTGCGCCAACTTCGCCCACGGCGTGGCCGGCTGTACCTCGGCTACCGACAAGCAGCGCCTGCGGTTGATGGACCAGGCCAACGTGGCCATCGTCTCGGCGTACAACGACATGCTCTCGGCCCACCAGCCCTACGAGCACTTCCCGGAAATCATCAAGCAGGCGCTGCGCGACATCGGCTCGGTCGGCCAGTTCGCCGGGGGCGTGCCGGCGATGTGCGATGGCGTGACCCAGGGCGAGGCGGGGATGGAGATGAGCCTGGCCAGCCGCGAAGTGATCGCCATGTCCACGGCGATCGCGCTGTCTCACAACATGTTCGACGCGGCGCTGTGCCTGGGCATCTGCGACAAGATCGTGCCCGGCCTGCTGATCGGTGCGCTGCGTTTCGGCCACCTGCCCACCGTATTCGTCCCCGGCGGGCCGATGCCGTCGGGCATCTCCAACAAGGAGAAGGCCGAGGTTCGCCAGTTGTTCGCCGAAGGCAAGGCCACCCGCGAGCAGTTGCTCGAATCGGAGATGAAGTCCTACCACAGCCCCGGCACCTGCACCTTTTATGGCACCGCCAACACCAACCAGATGGTGGTGGAGATCATGGGCCTGCACCTGCCGGGCTCATCCTTCGTCAATCCCTATACCCCGTTGCGCGACGAATTGACCCGCGAGGCCGCCCGCCAAGTCACGCGCATGACCAAGCAGAGCGGCTCGTTCATGCCGCTGTGCCGGATTATCGACGAGAAGGCGATCATCAATTCGGTGGTCGCAGTGCATGCCACCGGTGGCTCCACCAACCACACCCTGCACATTCCGGCCATCGCCCAGGCTGCCGGCATCCAGCTTACCTGGCAGGACATGGCAGACCTCTCCGAAGTGGTGCCGTCGCTGGCCAAGGTCTACCCCAACGGCAAGGACGACGTGAACCACTTCCACGCCGCCGGCGGTGTCGGTTTCCTGGTGCGCACACTGCTCGAAGCCGGGCTGCTCCATGAAGACGTCAATACCGTGGTCGGTCATGGTCTCAGCCGCTACACCCGAGAGCCTTTCCTCGAGGAGGGCAAGCTGGCCTGGCGCGAGGGCGCGGCGCAGAGCCTGGACGACAGCATCCTGCGGCCGGTCTCCAACCCGTTCTCGTCGGAAGGCGGCCTGCGGGTGATGGAGGGCAATCTCGGTCGCGGCGTGACCAAGGTCTCGGCGGTGGCGCCCGAGCATCGGGTGGTCGAGGCACCGGCGCGGGTCTTCCATGACCAGGCGGAGCTGGCCGCCGCCTTCAAGGCCGGCGAGCTGGAGCGGGACTTCATCGCCGTGGTGCGTTTCCAGGGACCCAGGGCCAACGGCATGCCGGAACTGCACAAGCTCACACCGTTCCTCGGGGTGCTGCAGGATCGCGGCTTCAAGGTGGCGCTGGTCACCGACGGCCGCATGTCCGGCGCGTCCGGCAAGGTGCCGGCGGCCATCCATGTCTGCCCCGAGGCGATCGACGGCGGCCCGCTGGCCAGGGTGCGCGACGGTGATCTGATCCGAGTCGATGGGGTGAAGGGGACCCTCGACGTGCTGGTCGATCCGGCCGAGTGGGCCGCGCGGGACACGGTGGCGCCGCCGGAAGACAAGGGCATTGGCTGCGGTCGCGAGCTGTTCGCCTTCATGCGCGCTGCGTTCAGTACGGCGGAGCGGGGCGCCAGCGCCTTCACTTCCAGCCTGGAGGCACTCAAGTGA	MHPRVLEVTERLIERSRPTRERYLALMDAAASEGPQRGKLQCANFAHGVAGCTSATDKQRLRLMDQANVAIVSAYNDMLSAHQPYEHFPEIIKQALRDIGSVGQFAGGVPAMCDGVTQGEAGMEMSLASREVIAMSTAIALSHNMFDAALCLGICDKIVPGLLIGALRFGHLPTVFVPGGPMPSGISNKEKAEVRQLFAEGKATREQLLESEMKSYHSPGTCTFYGTANTNQMVVEIMGLHLPGSSFVNPYTPLRDELTREAARQVTRMTKQSGSFMPLCRIIDEKAIINSVVAVHATGGSTNHTLHIPAIAQAAGIQLTWQDMADLSEVVPSLAKVYPNGKDDVNHFHAAGGVGFLVRTLLEAGLLHEDVNTVVGHGLSRYTREPFLEEGKLAWREGAAQSLDDSILRPVSNPFSSEGGLRVMEGNLGRGVTKVSAVAPEHRVVEAPARVFHDQAELAAAFKAGELERDFIAVVRFQGPRANGMPELHKLTPFLGVLQDRGFKVALVTDGRMSGASGKVPAAIHVCPEAIDGGPLARVRDGDLIRVDGVKGTLDVLVDPAEWAARDTVAPPEDKGIGCGRELFAFMRAAFSTAERGASAFTSSLEALK				NA	NA	NA	NA	NA
BMS010_04496	978	glk_2	COG0837	Glucokinase	GTGAAGCTCGGGCTGGTTGGCGATATCGGCGGTACCAACGCGCGCTTCGCTCTGTGGCGCGATGAGCGGCTGGAGGCGGTGCGGGTCCTGGCGACGGCGGATTTCCCGACGCCGGAGCAGGCGATCCGTGCCTACCTCGACGAGATCGGCCAGGCCGTCGCCGAGGTGGATGCGGTCTGCCTGGCCTGCGCCGGGCCGGTGCGGGGCGATGAGTTCCGCTTCACCAACAACCACTGGCGCTTGAACCGGCCGGATTTCTGCCGCCAGCTGGGGCTCAGCGAGCTGCTGCTGATCAACGATTTCTCGGCCATGGCCCTGGGCATGACCCGCGTCCTGCCGGAAGAGCTGGTGGAGGTCTGCCAGGGCAGCATCGATCCCGAGCGCCCGCGCCTGGTGATCGGCCCGGGCACTGGCCTCGGTGTCGGTACCCTGTTGCCCCTCGGCGACGATCTCTGGCGCGCATTGCCCGGCGAAGGCGGCCATGTCGACCTGCCGATCGGCAGCCTGCGCGAAGCCGAGCTGTGGCGGCACCTGCATGGCATCCAGGGCCATGTCAGCGCGGAGAACATCCTCAGCGGCAGCGGCCTGCTGACGCTCTATCGCGCCAGTTGCGCCCTCGATGGGCGCGAGACGCAATTGTCGTCGCCCGCCGAAGTGACCGACGCGGCCCTGGCCGGCGATGCCTTCGCCGTGCAGGTGCTGGAGCAGTTCTGCTGTTGGCTCGGCCGTGTGGCCGGCAACAACGTGCTGACCCTCGGTGCGCGGGGTGGCGTCTATATCGCTGGAGGCATGGTGCCGCGCTTCGCCGATTTCTTCCTGGTCAGCGGCTTCGTCCGATGCTTCCGGGAGAAGGGCTTCATGAGTCGGTATTTCGACGATATCCCGGTCTGGCTGGTGCGGGCCGAGTACCCGGGCCTGCTGGGGGCGGGTGTGGCGTTGCAGCAGGCGAGGGAAGGGCGGCAGGCCGGGCTCGCCTGA	MKLGLVGDIGGTNARFALWRDERLEAVRVLATADFPTPEQAIRAYLDEIGQAVAEVDAVCLACAGPVRGDEFRFTNNHWRLNRPDFCRQLGLSELLLINDFSAMALGMTRVLPEELVEVCQGSIDPERPRLVIGPGTGLGVGTLLPLGDDLWRALPGEGGHVDLPIGSLREAELWRHLHGIQGHVSAENILSGSGLLTLYRASCALDGRETQLSSPAEVTDAALAGDAFAVQVLEQFCCWLGRVAGNNVLTLGARGGVYIAGGMVPRFADFFLVSGFVRCFREKGFMSRYFDDIPVWLVRAEYPGLLGAGVALQQAREGRQAGLA	PGPT0017730_1272	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0017730-glk-K00845	NA	NA
BMS010_04497	741	ompR_3		Transcriptional regulatory protein OmpR	GTGAGCCAACCCGGAAAATCCATTCTCCTTGTCGACGATGACGAGGAAATTCGCGAACTGCTGCAAACCTACCTGAGCCGCGCCGGCTTCCAGGTGCGCACCGTCGGCGATGGCGCCGGCTTCCGCCAGGCCATCCAGGACGAAGTGGCCGATCTGGTGATTCTCGATGTGATGCTGCCCGACGAAGATGGCTTCAGCCTCTGCCGCTGGGTGCGCGAGCACCAGCGCCTGGCGCAGATGCCGGTGATCATGCTGACCGCCAGCTCCGACGAGACCGACCGGGTGATCGGCCTGGAGCTGGGCGCCGACGACTACCTGGGCAAGCCGTTCAGTCCGCGCGAGCTGCTGGCGCGGATCAAGGCTCTGTTGCGCCGTGCCCACTTCACCCAGGATCGACCCGCTGGCGATGTGCTGGCGTTCGACGAGTGGCGGTTGGACCTGATCAGCCACCGGCTGTTCCACGTGGATGGCGAGGAGGTGTTCCTCTCCGGCGCCGATTTCGCCCTGCTCAAGTTGTTCCTCGACCATCCCATGCAGATTCTCGACCGCGACACCATCGGCAATGCCACCCGGGGTCGCGAGGTGATGCCGCTCGAACGCATCGTCGATATGGCGGTGAGCCGCCTGCGCCAACGCCTGCGCGATACCGGCAAGGCGCCGCGGCTGATCCGCACCGTGCGCGGCGCCGGCTATCTGCTGGCAGCGCAGGTGGTGCCGTGCGGCGATGGGCACCGGCCGTGA	MSQPGKSILLVDDDEEIRELLQTYLSRAGFQVRTVGDGAGFRQAIQDEVADLVILDVMLPDEDGFSLCRWVREHQRLAQMPVIMLTASSDETDRVIGLELGADDYLGKPFSPRELLARIKALLRRAHFTQDRPAGDVLAFDEWRLDLISHRLFHVDGEEVFLSGADFALLKLFLDHPMQILDRDTIGNATRGREVMPLERIVDMAVSRLRQRLRDTGKAPRLIRTVRGAGYLLAAQVVPCGDGHRP	PGPT0012985_740	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OSMOLARITY_SIGNALLING,PGPT0012985-ompR-K07659	NA	NA
BMS010_04498	1494	sasA_14		Adaptive-response sensory-kinase SasA	GTGCGGCGATGGGCACCGGCCGTGAGCGTCGAAGAGAACACGGGGGAAGCCGCCCGGCGGCACTGGCGCTTGCCGGTGCCGCGCTCGCTGCTCGGACGCATGCTGTTCCTGACCCTGCTGGTGGTGCTGCTGGCCCAGGCGCTGTCCAGCCTGATCTGGGTCTCCCAGTTGCGCGCCAGCCAGATGGAAGGGCTGCTCACCAGTGCGCGTAGCCTGGCGCATTCCATGGCCGCCAGCGTCAGCTACTTCCGTTCCCTGCCGTTGGGCTACCGGCCGCTGGTGTTGGATCAGTTGCGCAGTATGGGCGGTACGCGCTTCTTCGTCTCGCTCAACCAGCGGCCGCTGAACATGCAGGTCCTGCCGGACACGCCGCGCAAGCGGGCGGTGCTGCAGGCGGTGGAGGAGGTGCTGCGGCAGCGCCTGGGCAAGTCGGTGGACCTGTCGGTGCAGTTCGTCAGCCCGGACGACCTGCGCATCTTCAATGGCGAAATCAGCCTGGACGAACTGCCGCGTTCCTGGGCCCATTACGCCCTGAGCCTGGAGCCGCTGAACCCGCCGGTGCTGGTCACGCAAATCCAGATCGCGCCGGACGAGTGGCTTTACCTCGCTTCGCTGATGCCGGCGCCTTACGTCAGCCTGGAACAGGAGGGGCTGCCGGCGCAGCAGATCGGCTTCATCGTGATGACCAGTACCTTCCTGCTGCTGTTCATCGGCTTGCTGGTGCACTGGCAGAGCCGGCCGCTCAAGCGCTTGGCGCGGGCGGCGCGGGAAATGTCCCTGGGCAGCGAGGTGGAGCCGCTGCCCGAGCACGGCGGCAGCGAGGTGGTGGAGGTCAGCCGTGCCTTCAACAGCATGCGCGAGCGCATCGGCCGTTATTTGAACGAGCGCAGCCAGTTGTTCAGCGCCATTTCCCACGACTTGCGCACCCCTATCACCCGACTGCGCCTGCGCGTCGAGCTGCTGGAGGACGAGGCCATGCAGGCCAAGTTCGGCCGCGACCTGGACGAGCTGGAGCTGCTGGTGAAAGGCGCGCTGCAATGCGTCAAGGACACCGACATCCACGAGAACATCGAGCCGGTGGACCTCAACCTGCTGCTCGATACCGTCACCGAGCCCTATCTCGCCCCCACCGGCAACGGCCGGGTAACCCTGGAGGGCAGGGCGGTGGCGCCCTATCCGGGCAAGCCGCTGGCACTCAAGCGCTGCATCGGCAACCTCCTGGACAATGCGCTCAAGTACGGTGAGAAAGCCCATTTGCATATCGAAGACGACGGTAGGGTGTTCACCTTGCACGTTGACGACGAGGGACCCGGCGTACCCGAGCAGCGCCTGGAGAAGGTCTTCGAACCGCATTTCCGCCTGGCCGGCAACCAGCAGGGCTACGGCCTTGGTCTCGGCATTGCCCGCAACATCGCCCATGCCCATGGAGGGGAGGTCACCTTGCAGAACCTGCGCGAAGGCGGGCTGCGGGTCACCTTGGTTTTGCCAAGGTGA	MRRWAPAVSVEENTGEAARRHWRLPVPRSLLGRMLFLTLLVVLLAQALSSLIWVSQLRASQMEGLLTSARSLAHSMAASVSYFRSLPLGYRPLVLDQLRSMGGTRFFVSLNQRPLNMQVLPDTPRKRAVLQAVEEVLRQRLGKSVDLSVQFVSPDDLRIFNGEISLDELPRSWAHYALSLEPLNPPVLVTQIQIAPDEWLYLASLMPAPYVSLEQEGLPAQQIGFIVMTSTFLLLFIGLLVHWQSRPLKRLARAAREMSLGSEVEPLPEHGGSEVVEVSRAFNSMRERIGRYLNERSQLFSAISHDLRTPITRLRLRVELLEDEAMQAKFGRDLDELELLVKGALQCVKDTDIHENIEPVDLNLLLDTVTEPYLAPTGNGRVTLEGRAVAPYPGKPLALKRCIGNLLDNALKYGEKAHLHIEDDGRVFTLHVDDEGPGVPEQRLEKVFEPHFRLAGNQQGYGLGLGIARNIAHAHGGEVTLQNLREGGLRVTLVLPR				NA	NA	NA	NA	NA
BMS010_04499	1254			putative sugar-binding periplasmic protein	ATGAAAGCGATCACTCGTCTCGCCGCTGCTGTTTCCCTTGCCTCCCTGATTCCGTTCGCCGCCCATGCCGGTGAAGTCGAAGTGCTTCACTGGTGGACCTCCGGTGGCGAAAAGCGCGCCGCCGATACCCTCAAGCAACTGGTCGAAGAACAGGGGCACACCTGGAAGGATTTCGCCGTGGCCGGTGGCGGTGGCGAAGCCGCCATGACCGTGCTGAAGACCCGCGCCGTATCCGGCAACCCGCCCGCCGCCGCGCAGATCAAGGGGCCGGACATCCAGGAATGGGGCGAGCTGGGCCTGCTCACCGACCTCGATGATGTCGCCAAGGAAAACAAGTGGGACGAGATTCTGCCCAAGCAGATCGCCGGCATCATGAAATACGACGGCGCCTACGTGGCCGTGCCGGTCAACGTGCACCGCGTCAACTGGCTGTGGATCAACCCCGAGGTGTTCGCCAAGGCCGGCGCCACCCCGCCGAAGACCCTCGATGAGTTCTTCGCCGCTGCCGACAAGCTCAAGGCGGCCGGCTTCGTGCCCGTCGCCCATGGCGGCCAGCCGTGGCAGGACGGCACCGTGTTCGAGGACATCGTGATCAGCGTCCTCGGCCCGGAGGGCTACCGCAAAGCCTTCGTCGATCTCGACAAGGACACCCTCACCGGCGACAAGATGGTCCAGGCCTTCGCCACCCTGAAGAAGCTGCGCGACTACATCGATGCCGATGCCGCCGGGCGTGACTGGAACACCGCCACCGCCATGGTGATCAACGGCAAGGCCGGCATGCAGATCATGGGCGACTGGGCCAAGAGCGAATGGACCGCCGCCAACAAGGTCGCCGGCAAGGACTACCAGTGCCTGCCGTTCCCCGGCACCCAGGGCAGCTTCGCCTTCAACGTCGACTCCCTGGCCATGTTCAAGCTGAGCAAGGAAGAGGACCGCAAGGCCCAGGAAGACCTGGCGCGGACCGTGCTCGGCTCCAAGTTCCAGCAGTTCTTCAACCAGAACAAGGGCTCCATCCCGGTGCGTCTGGATGAGGACATGAGTGCCTTCGACAGCTGCGCCCAGCAATCCATGGCCGACTTCAAGGAAGCCGCCAAGGGACCGGGCCTGCAGCCCAGCCTGGCCCACGGCATGGCCGCCTCCAGCTACGTGCAGGGTGCGGTGTTCGACGTGGTGACCAACTTCTTCAACGACCCGGCCGCCGATCCCAAGAAAGCGGCGCAGCAACTGGCCGCAGCGATTCAAGCGGTCCAGTAA	MKAITRLAAAVSLASLIPFAAHAGEVEVLHWWTSGGEKRAADTLKQLVEEQGHTWKDFAVAGGGGEAAMTVLKTRAVSGNPPAAAQIKGPDIQEWGELGLLTDLDDVAKENKWDEILPKQIAGIMKYDGAYVAVPVNVHRVNWLWINPEVFAKAGATPPKTLDEFFAAADKLKAAGFVPVAHGGQPWQDGTVFEDIVISVLGPEGYRKAFVDLDKDTLTGDKMVQAFATLKKLRDYIDADAAGRDWNTATAMVINGKAGMQIMGDWAKSEWTAANKVAGKDYQCLPFPGTQGSFAFNVDSLAMFKLSKEEDRKAQEDLARTVLGSKFQQFFNQNKGSIPVRLDEDMSAFDSCAQQSMADFKEAAKGPGLQPSLAHGMAASSYVQGAVFDVVTNFFNDPAADPKKAAQQLAAAIQAVQ	PGPT0016570_499	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0016570-gtsA|glcE-K17315	NA	NA
BMS010_04500	909	melD_5	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	ATGAGCTCAACCGCTGTCTTCGCCAAGGCTTCGCCGCTGGACGCGTTGCAAAACTGGCTACCCAAGCTGGTACTGGCGCCGAGCATGCTGATCGTGCTGGTCGGCTTCTACGGCTACATCTTCTGGACCTTCCTGCTGTCCTTCACCAACTCGCGTTTCATGCCCAGCTACAAGTGGGTGGGCTTCCAGCAGTACCTGCGCCTGTGGGACAACGACCGCTGGTGGGTGGCGAGCAAGAACCTGCTGGTATTCGGCGGCCTGTTCATCGCCATCAGCCTGGTGATCGGCGTGGTCCTGGCTGTGCTGCTCGACCAGCGTATCCGCCGCGAAGGCTTCATCCGCACCGTCTACCTGTATCCCATGGCCTTGTCGATGATCGTCACCGGCACCGCCTGGAAGTGGCTGCTCAACCCCGGCCTGGGCCTGGACAAGCTGCTGCGCGACTGGGGCTGGGAAGGTTTCCGTTTCGACTGGCTGGTGGACCCGGACCGAGTCGTCTACTGCCTGGTGATCGCCGCCGTCTGGCAATCCTCCGGCTTCGTCATGGCGTTGTTCCTCGCCGGCTTGCGCGGGGTCGACCCGTCGATCATCCGCGCCGCCCAGGTGGACGGGGCGAGCCTGCCGAGCATCTACCTGCGCATCGTCCTGCCGAGCCTGCGCCCGGTGTTCTTCAGCGCCCTGATGATCCTCGCCCACATCGCCATCAAGAGCTTCGACCTGGTGGCGGCAATGACCGCCGGCGGCCCCGGCTACGCCTCCGACCTGCCGGCGATGTTCATGTACGCCCACACCTTCACCCGCGGCCAGATGGGCCTCGGCGCGGCGAGCGCGATGCTCATGCTCGGCGCGGTGCTGGCCATCATCGTGCCCTACCTGTATTCGGAATTGAGGAACAAGCGCCATGACTAG	MSSTAVFAKASPLDALQNWLPKLVLAPSMLIVLVGFYGYIFWTFLLSFTNSRFMPSYKWVGFQQYLRLWDNDRWWVASKNLLVFGGLFIAISLVIGVVLAVLLDQRIRREGFIRTVYLYPMALSMIVTGTAWKWLLNPGLGLDKLLRDWGWEGFRFDWLVDPDRVVYCLVIAAVWQSSGFVMALFLAGLRGVDPSIIRAAQVDGASLPSIYLRIVLPSLRPVFFSALMILAHIAIKSFDLVAAMTAGGPGYASDLPAMFMYAHTFTRGQMGLGAASAMLMLGAVLAIIVPYLYSELRNKRHD	PGPT0016575_439	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0016575-gtsB|glcF-K17316	NA	NA
BMS010_04501	846	ngcG_3	COG0395	Diacetylchitobiose uptake system permease protein NgcG	ATGACTAGTGTGGTCGGGCACAAGCCCTTCAGCCCCAGCCGCTTGGCGATCCACGCGACCCTGCTGCTGGCTTGTGCGGTTTATCTGGTGCCGCTGGTGGTCATGTTGCTGACCAGCTTCAAGACTCCGGACGACATCCGCGGCGGCAACCTGTTGTCCTGGCCGGACGTGTTCACCGTCATCGGCTGGGCCAAGGCCTGGGACAGCGTCGGCGGCTTCTTCTGGAACTCGGTGAAGATCACCGTGCCGGCGGTGGTGATTTCCACGCTGCTCGGCGCGCTGAACGGCTACGTGCTGTCGATGTGGCGCTTCCGCGGTTCTCAGTTGTTCTTCGGCCTGCTGCTGTTCGGCTGCTTCCTGCCGTTCCAGGTGATCCTGCTGCCGGCCTCCTTCACCCTCGGCAAGATGGGGCTGGCCAACACCACGACGGGGCTGGTGCTGGTCCACGTGGTCTACGGCCTGGCCTTCACCACGCTGTTCTTCCGCAACTTCTACGTCAGCATCCCGGACGCCCTGGTGCGCGCCGCGCGGCTCGATGGGGCGGGCTTCTTCACCATCTTCGGGCGAATCCTGCTGCCGATGTCGGTGCCGACCATCATGGTCTGCCTGATCTGGCAGTTCACCCAGATCTGGAACGACTTCCTCTTCGGTGTGGTGTTCGCCAGCGGCGACTCCCAGCCGATCACCGTGGCGCTGAACAACCTGGTGAACACCAGCACCGGCGCCAAGGAATACAACGTCGACATGGCCGCCGCGATGATCGCCGGCCTCCCCACGCTGGTGGTCTATGTGCTGGCCGGCAAGTACTTCCTGCGCGGTCTGACGGCCGGCGCGGTCAAAGGTTGA	MTSVVGHKPFSPSRLAIHATLLLACAVYLVPLVVMLLTSFKTPDDIRGGNLLSWPDVFTVIGWAKAWDSVGGFFWNSVKITVPAVVISTLLGALNGYVLSMWRFRGSQLFFGLLLFGCFLPFQVILLPASFTLGKMGLANTTTGLVLVHVVYGLAFTTLFFRNFYVSIPDALVRAARLDGAGFFTIFGRILLPMSVPTIMVCLIWQFTQIWNDFLFGVVFASGDSQPITVALNNLVNTSTGAKEYNVDMAAAMIAGLPTLVVYVLAGKYFLRGLTAGAVKG	PGPT0016580_683	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0016580-gtsC|glcG-K17317	NA	NA
BMS010_04502	1149	sugC_2	COG3839	Trehalose import ATP-binding protein SugC	ATGGCATCCCTCGAACTGCGTAACGTCCACAAACGCTACGGCTCCGGCCTGCCCGACACGCTGAAGAACATCGACCTGAAGATCGAGTCCGGCGAATTCCTGATCCTGGTCGGCCCGTCCGGCTGCGGCAAATCCACCCTGATGAACTGCATCGCCGGCCTGGAAGACATCACCGGCGGCGAAATTCTCGTCGAAGGCTCGGATATCAGCGGCATGAGCCCGAAGGATCGGGACATCGCCATGGTGTTCCAGTCCTATGCGCTGTACCCGACCATGAATGTGCGCGACAACATCGCCTTCGGCCTGAAGATGCGCAAGGTGCCGCAGGAGAAGATCGACGAGGAGGTGGCGCGGGTCGCCAAGCTGCTGCAGATCGAGCACCTGCTGACGCGCAAGCCCTCGCAGCTCTCCGGCGGCCAGCAGCAGCGTGTGGCCATGGGGCGGGCGCTGGCGCGGCGGCCGAAGATCTACCTGTTCGACGAGCCGCTGTCGAACCTCGACGCCAAGCTGCGCGTGGAGATGCGCACCGAAATCAAGCTGATGCACCAGCGCCTGAAGACCACCACGGTCTATGTGACCCACGATCAGATCGAGGCCATGACCCTGGGCGACAAGGTGGCGGTGATGAAGGACGGCATCGTCCAGCAGTTCGGCACTCCGCAGCAAATCTACAACGACCCCGCCAACCTGTTCGTCGCCAGCTTCATCGGTTCGCCGCCAATGAACTTCATCCCGCTGCGCGTGCAGCGCCAGGGCGGGCAATGGCTGGCGATCCTTGACAGCGGGCAGGCTCGTTGCGAGCTGTCGCTGACGGTGGCAGACGACGCTGCGCTGGAAGGGCGCGACGTGATTCTCGGCGTGCGTCCGGAGCAGATCGTAGTGGGCAAGGGCGACGCCGGTCTGCCTGCTGTGCGCGCCGAGGTCGACGTGATCGAGCCCACCGGTCCGGACACCCTGGTGTTCGTTTCCCTCAACGACACCAAGGTCTGCTGCCGGGTGGCGCCGGACCTCGCCCCGCAGGTAGGCGAGAGCCTGACGCTGCAGTTCGACCCGGCGAAGGTGTTGCTGTTCGACGCGCAAAGCGGCGAGCGCCTGGGCGCGCAGCCCGCCGAGCGCCCGCGCAATGTGGCCCAGTTCAAAGGACGGTGA	MASLELRNVHKRYGSGLPDTLKNIDLKIESGEFLILVGPSGCGKSTLMNCIAGLEDITGGEILVEGSDISGMSPKDRDIAMVFQSYALYPTMNVRDNIAFGLKMRKVPQEKIDEEVARVAKLLQIEHLLTRKPSQLSGGQQQRVAMGRALARRPKIYLFDEPLSNLDAKLRVEMRTEIKLMHQRLKTTTVYVTHDQIEAMTLGDKVAVMKDGIVQQFGTPQQIYNDPANLFVASFIGSPPMNFIPLRVQRQGGQWLAILDSGQARCELSLTVADDAALEGRDVILGVRPEQIVVGKGDAGLPAVRAEVDVIEPTGPDTLVFVSLNDTKVCCRVAPDLAPQVGESLTLQFDPAKVLLFDAQSGERLGAQPAERPRNVAQFKGR	PGPT0016310_949	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0016310-msmX|msmK|malK|sugC|ggtA|msiK-K10112	NA	NA
BMS010_04503	1224	lamB_2	COG4580	Maltoporin	ATGAAAACAAGAAGAAGACTCGGCCTGGCACTGACGCTGGGTTCGCTGGCCCTGCCGGGCGCTGCCATGGCCCTGGATTTCAGCGGCTATCTGCGCAGCGGGGTGGGTGGTTCGACCGAGGGTGGGACGCAGTCCTGCTTCCAGTTGCCCGGTGCGCAATCCAAGTACCGTCTCGGTAACGAGTGCGAGCAGTACATCGAACTGGACCTGCGCCAGGACCTGTTCACCCTGGACGACGGTTCGGTCCTCAGCATCGAGGGCATGGCCCAGTTGTACAACCAGTACGGCCATACACCCAAGTTCACCGGCGACTACGGTTTCGCCCGGATGAACCAGATGTACGCCGAGTGGAGCAAGGTGCCGGCGCTCAACGGCGGTTCCCTGTGGGCCGGGCGGCGTTTCTACAAGCGGAACGACATCCATATCTCCGATTTCTACTACTGGAACCAGAGCGCCACCGGTGCCGGTATCGAGGACTACGAGTTGGGTGGGTTGAAGTACAGCTACGCCTTCTCGCGCAAGGACAGTGTGTTCCAGGAAGCCTATATCAACCGTCACGACTTCAACGTCGGCGGCTTCGATACCAACCCGGGCGGTGAGCTGGAGTTCGGCGTCAGCTACATCGACAAGCCGGACAGCACCGATGCCCACAGCGGCTGGGCGGTGACCGCGCAGCACAAGCAGGACGGCTTCCTCGGCGGCGGCAACACCTTCGCCGTGCAGTACGGGCGCGGGCCCGGTACCGGCCTCGGCTATACCGGTGACGTAACCCTGGATAACAGCGCGAAGAGCTGGCGCGTCGTGGAGTTCTTCGACTGGCAGGCCACGCCACGCTTCGGCGGGCAATTCCAGGTGGTCTACCAGAAGGACACCCGTGACGACGGCGCCGACCAGGACTGGCTGTCCATCGGCGTGCGGCCGTCCTACGCGATCACCGAGCAGTTCAAGCTGGTCACCGAACTCGGCCACGATCAGGTGGATGCCACCGACGGCACCCGCAAGCTGACCAAGTTCACCATCGCGCCGACCTGGTCGCCGTCTGGTCCCGGTTTCTGGGAACGCCCGGAAATCCGCCTGTATTACACCTATGCGAGCTGGAACAAGGCGGCGCAGGTGGCGGCGAGCCAGATGGACCCGGGCTCGGCGTTGTCCGATACCGGCACCTTCGGTACCGCGCGGCACGGTTCCAACTTCGGCGTGCAGGTCGAGTACTGGTGGAAGTGA	MKTRRRLGLALTLGSLALPGAAMALDFSGYLRSGVGGSTEGGTQSCFQLPGAQSKYRLGNECEQYIELDLRQDLFTLDDGSVLSIEGMAQLYNQYGHTPKFTGDYGFARMNQMYAEWSKVPALNGGSLWAGRRFYKRNDIHISDFYYWNQSATGAGIEDYELGGLKYSYAFSRKDSVFQEAYINRHDFNVGGFDTNPGGELEFGVSYIDKPDSTDAHSGWAVTAQHKQDGFLGGGNTFAVQYGRGPGTGLGYTGDVTLDNSAKSWRVVEFFDWQATPRFGGQFQVVYQKDTRDDGADQDWLSIGVRPSYAITEQFKLVTELGHDQVDATDGTRKLTKFTIAPTWSPSGPGFWERPEIRLYYTYASWNKAAQVAASQMDPGSALSDTGTFGTARHGSNFGVQVEYWWK	PGPT0016830_770	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MALTODEXTRIN_TRANSPORT,PGPT0016830-lamB-K02024	NA	NA
BMS010_04504	897	yeaD_1	COG0676	Putative glucose-6-phosphate 1-epimerase	ATGCACCCTGTTTCTCCTTCACTGGCCGGGCCGGATCGGTCCGGCCAGCTCTCCGAACATCCGTTCACCGGTTTGTTCCCCCTGCCGCGCGGGCAGCGTTTCGCCTGGGCGCGTCTGCACGGGCGTGAACTGCTGGTGCTCGACCATCCACGCTGCCAGGCGGTGTTCAGCCGCCAGGGCGGTCAATTGCTGCATTTCCAGCCGCGTGGCGAACGACCGATGCTCTGGTGCGCGCCACGCTGGCCGCAGGTGGGCGCCATCCGTGGCGGCGTCCCGGTGTGCTGGCCCTGGTTCGGTCGTCATCCGACCCAGAACGGTTGGCCGGCCCACGGCTGGGCACGGCTGGAAGAATGGAAGCTGTTGCGCAACGAGGCCGACGAGCAGGGCCTTTATGTCAGTTGGGAGTTGGAGCTGTGCGACTGGCGCGTGCGCCTGGATGCCGAGCTGGGCGATACGTTGCAACTGCGTCTGCAAACCTCCCACGAGGACAGTGAGCCCTGCCTGCTCAGCCAGGCGCTGCATGCCTATTGGCGCATCGGCGACATCGCCGGTGCCAGCCTGGGCGGCCTGCAAGGCAGGAAAGGCCTGGAGCTGCCGACGCGGCAGGACTTCAGCCAGCAGGGCGAGTTGCGCATCGGCGATGGCTGCGACCTGCTGTTCCAGCCGGGTGGGCCGCTGCGCTTGTACGACGGCATCTGGCAACGGCGCCTGCGCCTCGATACCGGCGGCAGTCCCGAGACCCTGGTCTGGCACCCCGGCAGCCGGCCGCTGCGCGATGTGAGTTGGAGCGAGGCGTTGGGTTTTCTCTGCGTCGAGGCGGCCGGCGGTATCCACGACAGCCTCTGCCTGAAGCCCGGCGAGGTCGCTTCGCTCGGTCTGAAGGCAGCCTTGGAGTAA	MHPVSPSLAGPDRSGQLSEHPFTGLFPLPRGQRFAWARLHGRELLVLDHPRCQAVFSRQGGQLLHFQPRGERPMLWCAPRWPQVGAIRGGVPVCWPWFGRHPTQNGWPAHGWARLEEWKLLRNEADEQGLYVSWELELCDWRVRLDAELGDTLQLRLQTSHEDSEPCLLSQALHAYWRIGDIAGASLGGLQGRKGLELPTRQDFSQQGELRIGDGCDLLFQPGGPLRLYDGIWQRRLRLDTGGSPETLVWHPGSRPLRDVSWSEALGFLCVEAAGGIHDSLCLKPGEVASLGLKAALE				NA	NA	NA	NA	NA
BMS010_04505	870	hexR_2	COG1737	HTH-type transcriptional regulator HexR	ATGGAGCGCGTGAGAAATCTCCTGGAGCAGATCCAAAATCGTCTCGAGGAACTGAACAAGGCCGAACGCAAGGTGGCCGAGGCGATCCTGCGCGACCCGCAACAGGCCACCCGCTTCAGCATCGCCGCCCTCGCCCAGGCGGCGAAGGTCAGCGAGCCGACGGTCAACCGCTTCTGCCGCTCCTTCAACGTCAGCGGCTATCCCGAACTGAAGATGCAATTGGCGCAGAGCCTCGCCAGCGGCGCCGCCTACGTCAGCCGCGCGGTGGAGGCCGACGACAGCCCCGAGGCGTACACCCGGAAGATTTTCGGCAGCACCATCGCCTCCCTGGACAGCGCCTGCCAGTCCCTCGACCCGCAGGTGATCAGCCGTGCCGTGGACCTGCTGATCCAGGCCCGGCAGATCCACTTCTTCGGCCTCGGCGCCTCGGCCCCGGTGGCACTGGACGCGCAGCACAAGTTCTTCCGCTTCAACCTCGCCGTATCCGCCCATGCCGACGTGCTGATGCAACGCATGCTCGCCTCGGTGGCACATACCGGCGATCTGTTCGTGATCATTTCCTACACCGGGCGCACCCGCGAACTGGTGGACGTGGCCAAGCTGGCGCGGGAAAACGGCGCCTCGGTGCTCGGCCTCACCGCCGCCGGCTCGCCGCTGGCCAAGGTCTGCACCCTGAGCCTGGATATCCCGCTGCCGGAGGACACCGACATCTACATGCCGATGACCTCGCGGATCATCCAGCTCACCGTGCTCGATGTGCTCGCCACGGGCGTGACCCTGCGCCGCGGCGTGGACTTCCAACCGCACCTGCGCAAGGTCAAGGAGAGCCTGGTGCCGACGCGCTACCAGGCCGACGAAGACCTCGGCTGA	MERVRNLLEQIQNRLEELNKAERKVAEAILRDPQQATRFSIAALAQAAKVSEPTVNRFCRSFNVSGYPELKMQLAQSLASGAAYVSRAVEADDSPEAYTRKIFGSTIASLDSACQSLDPQVISRAVDLLIQARQIHFFGLGASAPVALDAQHKFFRFNLAVSAHADVLMQRMLASVAHTGDLFVIISYTGRTRELVDVAKLARENGASVLGLTAAGSPLAKVCTLSLDIPLPEDTDIYMPMTSRIIQLTVLDVLATGVTLRRGVDFQPHLRKVKESLVPTRYQADEDLG	PGPT0017985_503	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017985-hexR|yebK-K19337	NA	NA
BMS010_04506	1470	zwf_1	COG0364	Glucose-6-phosphate 1-dehydrogenase	ATGCCAGCGATTACGGTTGACCCCTGTACCTTTGCCCTGTTCGGCGCGCTTGGCGATCTGGCGCTGCGCAAGCTCTTCCCCGCGCTCTACCAGTTGGATCGCGCCGGCCTGCTGCATGCCGATACGCGCATCCTGGCCCTGGCCCGCGATGTCGGCGACGAGCGCAAGCACCTGGCGTTCATCGACGAGCACCTGCGCCGTCACGTGCCGAACAAGGAAATCGACGAAACGGTCATGCAGCGCTTCCAGGCGCGCCTGAGCTACCTGACCATGGATTTCCGCGATGCCGCGGCCTACGCCACGCTGGCCGAGCGGGTCGCCGATGCGGAGACGCTGATCGCGTACTTCGCCACGCCGGCGTCGGTCTACGGGCCGATCTGCGAGAACCTCGCCGCCGCCGGGCTCGCCGAGCGCGCCCGGGTGGTGCTGGAGAAGCCCATCGGTCACGACCTGGAGTCGTCGCGTGTGGTCAACGAGGCGGTGGCGCAGTTCTTCCCGGAGAGCCGCATCTACCGGATCGACCACTACCTGGGCAAGGAGACGGTGCAGAACCTGATCGCCCTGCGCTTCGCCAACAGTCTGTTCGAAACCCAGTGGAACCAGCACCACATCTCCCACGTCGAGATCACCGTGGCGGAGAAGGTCGGCATCGAAGGCCGCTGGGGTTACTTCGACCAGGCCGGCCAGTTGCGCGACATGATCCAGAACCACCTGCTGCAGTTGCTCTGCCTGATCGCCATGGACCCGCCCAGCGACCTGTCTGCCGACAGCATCCGCGACGAGAAGGTCAAGGTGCTCAAGGCCCTGGCACCGATCACCGCCGACAAGCTCAGCCAGCGGGTGGTGCGTGGCCAGTACACCTCCGGCAGCAGCGACGGCAAGCCGGTGCCCGGTTACCTGGAGGAAGAAAACTCCAATGCCGAAAGCGACACCGAGACCTTCGTCGCCCTGCGTGCCGACATCTGCAACTGGCGCTGGTCCGGCGTGCCGTTCTATCTGCGTACCGGCAAGCGCATGCCGCAGAAGCTGTCGCAGATCGTCATCCATTTCAAAGAGCCGCCGTTCTACATCTTCGCGCCGGAGCAACGGGCGCTGATCAGCAACCGGCTGATCATCCGTCTGCAACCGGACGAGGGCATGTCGCTGCAGGTGATGACCAAGGACCAGGGTCTGGACAAGGGCATGCACCTGCGCAGCGGCCCGCTGCAACTGAATTTTTCCGAAACCTACAAGAGCGCTCGCATCCCCGACGCCTACGAGCGGCTCCTGCTGGAGCTGATGCAGGGCAACCAGTATCTGTTCGTACGCAAGGACGAGGTGGAGTACGCCTGGCGCTGGTGCGACCAGTTGATCGATGGCTGGAAGCGCCTGGGCGATTCGCCGAAGCCCTATGCGGCAGGTACCTGGGGACCGGTGGCATCGATCGCGCTCATTACCCGCGATGGGAGGTCCTGGTATGGCGATTTATAA	MPAITVDPCTFALFGALGDLALRKLFPALYQLDRAGLLHADTRILALARDVGDERKHLAFIDEHLRRHVPNKEIDETVMQRFQARLSYLTMDFRDAAAYATLAERVADAETLIAYFATPASVYGPICENLAAAGLAERARVVLEKPIGHDLESSRVVNEAVAQFFPESRIYRIDHYLGKETVQNLIALRFANSLFETQWNQHHISHVEITVAEKVGIEGRWGYFDQAGQLRDMIQNHLLQLLCLIAMDPPSDLSADSIRDEKVKVLKALAPITADKLSQRVVRGQYTSGSSDGKPVPGYLEEENSNAESDTETFVALRADICNWRWSGVPFYLRTGKRMPQKLSQIVIHFKEPPFYIFAPEQRALISNRLIIRLQPDEGMSLQVMTKDQGLDKGMHLRSGPLQLNFSETYKSARIPDAYERLLLELMQGNQYLFVRKDEVEYAWRWCDQLIDGWKRLGDSPKPYAAGTWGPVASIALITRDGRSWYGDL	PGPT0017380_4092	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0017380-zwf-K00036	NA	NA
BMS010_04507	717	pgl_1	COG0363	6-phosphogluconolactonase	ATGGCGATTTATAAAGTGGATCTGCCGGCCGGCGTGGTTGCCCACAGCCTGGTCGACGCAACGCAACACGCCAGCGCGATGGCCCAGGCCGTGGCCGAGGCCTTGCGCGCGGCCATCGACAGCCATGGTCGTGCGACCCTGGTGGTCTCCGGCGGTCGTAGCACGGCGGCGTTTTTCGAGGCGCTGTCCGGGCAGCAACTGGACTGGTCGCGCGTCCTGATCAGCCTGGCCGACGAGCGCTGGGTGCCAGTGGAGCACCCGGAAAGCAACGAAGGGCTGGTGCGCCGTCATCTGTTGCGCGGCGCGGCGGCTTCGGCTCGTTTCGTCGGTTTGTACCGGGCGGCGCCGACCCTGGAAGAGGCCGCTGCGCAGACCGACCACGCCCTGGCCGAGCTGGCGCTGCCGATCGACGTGCTGGTGCTGGGCATGGGCGACGATGGCCACTGTGCCTCGTTGTTCCCGCGCAGCCCGAACCTGGCCGACGCGCTGCATCCCGAATGCGAGCGGCGCTGTCTGTCGATGCAGGCGCCGAGCGTTCCGCGCCAGCGTCTGACCATGACCTACCCGCTGCTCGCCTCGGCGCGCCTGCCGCTACTGGCGATCCAGGGCGAGGCCAAATTGAACACCCTGCGAGCGGCGGTGGCCGGCGACGATGCCCTGGGCATGCCGATCCGCGCGTTCCTGCGACCCCCACTCGAGATTTACTGGTGCCCGTGA	MAIYKVDLPAGVVAHSLVDATQHASAMAQAVAEALRAAIDSHGRATLVVSGGRSTAAFFEALSGQQLDWSRVLISLADERWVPVEHPESNEGLVRRHLLRGAAASARFVGLYRAAPTLEEAAAQTDHALAELALPIDVLVLGMGDDGHCASLFPRSPNLADALHPECERRCLSMQAPSVPRQRLTMTYPLLASARLPLLAIQGEAKLNTLRAAVAGDDALGMPIRAFLRPPLEIYWCP				NA	NA	NA	NA	NA
BMS010_04508	648	eda_1	COG0800	2-dehydro-3-deoxy-phosphogluconate aldolase	ATGACCATGGCCGACAAGATCACCCTGATCGACGACCTCTGCGCCCGCGCGCGCATCCTCCCAGTGATCACCATCGCCCGTGAGGAAGACATCCTGCCCCTGGCCGATGCGCTGGCCGCCGGTGGCCTGCGCACCCTGGAAGTAACGCTGCGTTCCGCCCATGGCCTGACCGCGATCCGCCAGCTGCGCCGGGAGCGCCCGGACCTGTGCGTCGGCGCCGGTACCGTGCTGGATCTGGATATGTTCGCCGCGGCAGTGGAGGCCGGTGCCCAGTTCATCGTCACGCCGGGTTCGACCAAGGAATTGCTCGAAGCGGCGCTGGACAGCCCGGTACCGCTGTTGCCGGGTATTTGCACGCCCTCCGAGCTGATGACCGGCTATGCCCTGGGCTATCGCCGATTCAAGTTGTTCCCGGCGGAAGTCGCCGGTGGCGTCGCCGCGCTCAAGGCGTTGTCCGGCCCCTTCGGCGGTGTGCGCTTCTGCCCGACCGGCGGCGTCAGCCTGGATAACCTGAAGAGCTACATGGCCCAGCCCAACGTGATGTGCGTTGGCGGCACTTGGATGCTCGACAGCGGCTGGATCAAGAACGGCGACTGGGAGCGGGTCACCCGTACCAGTGCTGAGGCGCTGGCGCTGCTGGATTCCTGA	MTMADKITLIDDLCARARILPVITIAREEDILPLADALAAGGLRTLEVTLRSAHGLTAIRQLRRERPDLCVGAGTVLDLDMFAAAVEAGAQFIVTPGSTKELLEAALDSPVPLLPGICTPSELMTGYALGYRRFKLFPAEVAGGVAALKALSGPFGGVRFCPTGGVSLDNLKSYMAQPNVMCVGGTWMLDSGWIKNGDWERVTRTSAEALALLDS	PGPT0002060_307	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTURONATE|TAGATURONATE|ALTRONATE_DEGRADATION,PGPT0002060-eda-K01625	NA	NA
BMS010_04509	1245			hypothetical protein	ATGACCGAGCACGAAGATACCCCTCACGTCGCCCACGGCGAAAAACTGCAGAAAGTCCTGGCACGCATGGGCCTGGGCTCGCGGCGCGACATCGAAAGCTGGATCGGCGAAGGCCGGGTCAAGGTCAATGGTGCGGTCGCCAGCCTCGGCCAGCGCGTCGATTCCCATGACGCCATCAGCGTCGACGGCCGCCTGCTCAAGCGCGAAGAGGCCGCCGAGACGGTGCGCCGCGTCCTCATCTACAACAAGCCGGAAGGCGAAGTCTGCACCCGCGACGATCCGGAAGGCCGACCGACCGTCTTCGACCGCCTGCCGCGCCTGAAGGCGGGGCGCTGGATCAACATCGGCCGTCTCGACATCAACACCACTGGCCTGCTGTTGTTCACCACCGACGGCGAACTGGCCAACCGCCTGATGCACCCCTCCTACGAGATGGATCGCGAGTACGCCGTGCGTGTGCGTGGCGAAGTCACCGAGGAAATGATCGAGCGGCTGAAGACCGGAGTGATGCTGGAAGATGGTCCCGCTCGCTTCACCGACATCCAGGAAGCGCCCGGTGGCGAAGGCTTCAACCACTGGTTCCATTGTGTGGTGATGGAAGGCCGCAACCGCGAAGTGCGTCGCCTCTGGGAATCCCAGGGACTGGTGGTGAGCCGCCTGAAGCGGGTGCGTTTCGGTCCGGTATTCCTCACTTCCGAGCTGAGCATGGGCCGCTGGCGCGAGATGGGGCAGGGCGAGATCGACATCCTCAGCGCCGAAGTCGGCCTGAAGCCGGTTCCGCTGCCGGAAATGAAGGGCAAGTTCCGCGAAAAGCTGGAGCGTCTGCAGCGCAAGCCGGCCAAGCCCGTGGTGCCGCGTGGGCGCGCGCCTCGGCGCGAGGACGGCGACAGGCCGGCACGCGTACTGCGCGACCCGGAAACCGGCAAGCCGATGCGTACGCCGCGTCCCGAAGGGGGCGAGCGTCCGAACCGTGCCCCGCGTTCCGAGGGTGGCGAGCGTCCGGCTCGTGCACCGCGTCCGCAGGGCGAGCGCCAGGCGCCGGCGCGGGAACGCAAGCCGGGCGGTACGCCGCTGGCCGAGCGTCCGCGTGACGTGAACAAGAAGCGTCCGGCCAAGCAGGAGCGTCCGACGCCCGAGCTGACCGAGCGCCCGTCCCGCAAGCCCAAGCCGGCACCCGCCCCGGCCAAGCGCCGCGGCCCGCCGCCGAGCGAAGGGCAGCGCCCAGGGTTCGGGCGCAAGCGTTGA	MTEHEDTPHVAHGEKLQKVLARMGLGSRRDIESWIGEGRVKVNGAVASLGQRVDSHDAISVDGRLLKREEAAETVRRVLIYNKPEGEVCTRDDPEGRPTVFDRLPRLKAGRWINIGRLDINTTGLLLFTTDGELANRLMHPSYEMDREYAVRVRGEVTEEMIERLKTGVMLEDGPARFTDIQEAPGGEGFNHWFHCVVMEGRNREVRRLWESQGLVVSRLKRVRFGPVFLTSELSMGRWREMGQGEIDILSAEVGLKPVPLPEMKGKFREKLERLQRKPAKPVVPRGRAPRREDGDRPARVLRDPETGKPMRTPRPEGGERPNRAPRSEGGERPARAPRPQGERQAPARERKPGGTPLAERPRDVNKKRPAKQERPTPELTERPSRKPKPAPAPAKRRGPPPSEGQRPGFGRKR				NA	NA	NA	NA	NA
BMS010_04510	984			hypothetical protein	ATGGAATTCGCTCTAGAACCTTCGTCGTCGCTCCACGCGCATTCAAGGTGCCGCAGCATGGGCCAGCTCCCGCAAAACAACACGATCGATTTCGATGCAGCAAAACTGCAGCGCATGGGCTTCGCCAATACGCGTCAGAACGCTCGCCAGCCGATCAGTCTCGCCGAACTCCAGCGCCAGCTCAGCCTACAGTTGCAGACCAGCCTGGAAGCCGAGCGCATCCTCGATCTCTTCTTTCGCGAAGTACAGCGGCTGATTCCGCTGGATGCTCTCACCTATCAGCATCAGGGCAGCGACCTGCGCCTCGAATTCGGCAAGCGTGCCAGCCACTCGGCCGGTTACCGCCTCAGCCATGACAGCGAATACCTTGGCGAACTGACGTTCCGCCGCAACCAGCGCTTCAGCGATCACGATCTGGCCCAACTGGAATCCCTGCTCGCCAGCCTGATGTTCCCGCTGCGCAACGCCCTGCTTTATCGCAGGGCGATCCAGAACGCCTTGCGCGACCCGCTGACCGACACTGGCAACCGCATCGCCATGGATCAGGTCCTGCAACGGGAAGTGGACATGGCCCGCCGGCATCTGCAGCCGTTGTCGCTGCTGATGCTCGACCTGGACCACTTCAAGCGCATCAATGACACCTACGGCCACAGCACTGGCGACGAAGTACTGAAAGCCGTAGCCACCACCCTGAAAGAACAACTGCGCAACGTCGACATGGTGTTCCGCTTCGGCGGCGAGGAGTTTCTCGTGCTGCTGTCGAACACCAGCCGCGAGGCGGCCGAGATGATCGGGGAACGCCTGCGCAAGGCGGTGTTCCAGCTGCAATTCCTCGTCCAGGGGCACCCTATCGAACTGTCGATCAGCCTCGGCTGCGCCAGCCTGCTGCCCGGCGAATCGGTGGACAGCCTGCTGCGCCGCGCCGATAACGCGCTCTATACCGCCAAGCGCAGCGGTCGCAATCGGCTGACGATGGCTGGCTGA	MEFALEPSSSLHAHSRCRSMGQLPQNNTIDFDAAKLQRMGFANTRQNARQPISLAELQRQLSLQLQTSLEAERILDLFFREVQRLIPLDALTYQHQGSDLRLEFGKRASHSAGYRLSHDSEYLGELTFRRNQRFSDHDLAQLESLLASLMFPLRNALLYRRAIQNALRDPLTDTGNRIAMDQVLQREVDMARRHLQPLSLLMLDLDHFKRINDTYGHSTGDEVLKAVATTLKEQLRNVDMVFRFGGEEFLVLLSNTSREAAEMIGERLRKAVFQLQFLVQGHPIELSISLGCASLLPGESVDSLLRRADNALYTAKRSGRNRLTMAG				NA	NA	NA	NA	NA
BMS010_04511	741	yciK_2	COG1028	putative oxidoreductase YciK	ATGTTCCAATATTCCGCCCGCCCCGATCTGCTCAAGGACCGGGTGATCCTGGTCACCGGCGCCGGCCGGGGCATTGGCGCCGCCGCGGCGAAGACCTTCGCTGCCCATGGCGCCACCGTGCTGCTGCTGGGCAAGACGGAAGAGCATTTGACCCGCGTCTACGACGAGATCGAAGCCGCCGGGCACCCGCAGCCGGCGATCATCCCGTTCAACCTCGAAACCGCCATGCCGCATCAGTACGACGAACTGGCGGCGACGGTGGAGCGTGAATTCGGCCGCCTGGACGGGCTGCTGCACAACGCCGCCATCATCGGCCCGCGCACACCGCTCGAGCAGCTGTCGGGCGACAATTTCATGCGTGTCATGCAGGTCAATGTGAATGCCATGTTCATGCTTACCAGCGTGATGCTGCCCCTGTTGAAGCTCTCCAGCGATGCGTCGGTGGTCTTCACGTCCAGCAGCGTCGGCCGCAAGGGGCGCGCCTATTGGGGGGCCTACGCCGTCTCCAAGTTCGCCACCGAGGGGCTGATGCAGGTACTGGCCGACGAGGTGGAAGGCACCTGTGCCGTTCGCGCCAACAGCGTCAATCCCGGCGCCACCCGCACGGACATGCGCGCCCAGGCCTATCCTGGCGAGAATCCGATCAAGAACCCGGAACCGGAGCAGATTATGCCGGTCTATCTGTACCTGATGGGCCCGGACAGCACCGGCGTGAACGGCCAGGCCTTCGACGCGCAATAA	MFQYSARPDLLKDRVILVTGAGRGIGAAAAKTFAAHGATVLLLGKTEEHLTRVYDEIEAAGHPQPAIIPFNLETAMPHQYDELAATVEREFGRLDGLLHNAAIIGPRTPLEQLSGDNFMRVMQVNVNAMFMLTSVMLPLLKLSSDASVVFTSSSVGRKGRAYWGAYAVSKFATEGLMQVLADEVEGTCAVRANSVNPGATRTDMRAQAYPGENPIKNPEPEQIMPVYLYLMGPDSTGVNGQAFDAQ				NA	NA	NA	NA	NA
BMS010_04512	672	mupP_1	COG0546	N-acetylmuramic acid 6-phosphate phosphatase	ATGCGCCTGAGAGCGGTTCTTTTCGACATGGACGGCACCCTGCTCGACACGGCACCGGACTTCGTGGCGGTGGTCCAGGCGATGCGCGAAGCACGCGCCCTGCCCCCGGTGGACGAAACCCAGGTGCGCGATGTGGTTTCCGGCGGCGCCCGGGCCATGGTCATCAATGCCTTCGATGTGGACCCCTTCTCTCCCGAGTTCGAGGTGTTGCGCCTGGAGTTCCTCGAGCGTTACCAGAATCATTGCGCCGTCCGTACGCGCTTCTTCGACGGCATGGCCGAACTGCTGGAAGATATCGAGCGGGCCAGGCTGATCTGGGGTGTGGTGACCAACAAACCGGTGCGCTATGCCGAACCCATCATGCAGCAGCTCGGCCTGGCCGAACGCTCGGCGGTGCTGGTCTGCCCCGATCACGTGAAGAACAGCAAACCCGACCCGGAACCGCTGCTCCTTGCCTGCAGCCAGCTCGGCCTGGACCCGGCCAGCGTGCTGTTCGTCGGCGACGACCTGCGCGACATCGAATCCGGACGCGCCGCCGGCACCCGTACGGTGGCGGTGACCTACGGTTATATCCACCCCGAGGACAACCCGCGCAGTTGGGGCGCCGATGCCGTGATCGAGCACCCCCTGGAACTGCGCCGGCTGCTCGATCAGGCGATGTGTAGCTGCTAA	MRLRAVLFDMDGTLLDTAPDFVAVVQAMREARALPPVDETQVRDVVSGGARAMVINAFDVDPFSPEFEVLRLEFLERYQNHCAVRTRFFDGMAELLEDIERARLIWGVVTNKPVRYAEPIMQQLGLAERSAVLVCPDHVKNSKPDPEPLLLACSQLGLDPASVLFVGDDLRDIESGRAAGTRTVAVTYGYIHPEDNPRSWGADAVIEHPLELRRLLDQAMCSC	PGPT0019045_541	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_MURAMATE_DEGRADATION,PGPT0019045-mupP-K22292	NA	NA
BMS010_04513	699	ubiG_2	COG2227	Ubiquinone biosynthesis O-methyltransferase	ATGAGCAACGTCGACCACGCCGAAATCGCCAAATTCGAAGCCCTGGCCCATCGCTGGTGGGATCGCGAGAGCGAGTTCAAGCCACTGCACGACATCAACCCGCTGCGTGTGAACTGGATCGACGAGCGCGTCCAGCTCGCCGGCAAGAAGGTGCTCGACGTCGGCTGCGGCGGCGGCATCCTCAGCGAAGCCATGGCCAAGCGCGGCGCCACCGTCACCGGCATCGACATGGGCGAAGCGCCCCTGGCGGTCGCTCATCTGCACCAGCTCGAGTCTGGCGTGGAGGTGGAGTACCGGCAGATCACCGCCGAAGCGCTGGCCGAGGAGATGCCCGGCACGTTCGACGTGGTCACCTGCCTGGAAATGCTCGAACACGTCCCCGACCCGGCCTCGGTGATCCGCGCCTGCCATCGCCTGGTCAAGCCCGGTGGGCAGGTGTTCTTCTCCACCATCAACCGCAACCCCAAGGCCTACCTGTTCGCCGTGATCGGCGCCGAGTACCTACTGCGCCTGCTGCCACGCGGCACCCATGATTTCCGCAAGTTCATCCGGCCGTCCGAACTGGGCGCCTGGTCCCGCGCCGCCGGCCTGCAGGTGAAGGACATCATCGGTCTCACCTACAACCCGCTGACCAAGCATTACAAGCTGGAAGCGGACGTCGACGTCAATTACATGATTCAAACCCTGCGCGAGGAGTAA	MSNVDHAEIAKFEALAHRWWDRESEFKPLHDINPLRVNWIDERVQLAGKKVLDVGCGGGILSEAMAKRGATVTGIDMGEAPLAVAHLHQLESGVEVEYRQITAEALAEEMPGTFDVVTCLEMLEHVPDPASVIRACHRLVKPGGQVFFSTINRNPKAYLFAVIGAEYLLRLLPRGTHDFRKFIRPSELGAWSRAAGLQVKDIIGLTYNPLTKHYKLEADVDVNYMIQTLREE	PGPT0009545_1749	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009545-ubiG-K00568	NA	NA
BMS010_04514	1335	mtaD	COG0402	5-methylthioadenosine/S-adenosylhomocysteine deaminase	ATGCATGACCCCGCCGCCCCGCTCGACCTCCTGCTCCTGCCGACCTGGCTGGTGCCGGTCGAACCCGCCGGCGTCGTCCTCCAGGAGCATGCACTGGGCATCCGCGACGGTCGCATCGCCCTGATTGCGCCCCGCGCGGAAGCGCTCCGGCATGCCTGCAACGAGGTACGCGAACTGCCCGGCATGCTGCTCGCCCCCGGCCTGATCAACGCTCACGGTCACGCCGCGATGACACTGTTCCGCGGCCTGGCCGACGACCTGCCGCTGATGACCTGGCTGGAACAGCACATCTGGCCGGCCGAAGCCCGCTGGGTGGACGAAGCGTTCGTCCGCGACGGCACCGAGCTGGCCATCGCCGAACAGCTCAAGGGCGGCATCACCTGCTTCTCCGATATGTACTTCTATCCGGAAGTCGCCAGCGAACGGGTCCACAAGAACGGCATTCGGGCACAGATCTGCATTCCCGTCCTCGATTTTCCGACGCCCGGCGCTCGCGATGCCGCCGAAGCGCTGCGCAAGGGCGTGGCGCTGTTCGATGATCTCAAGCACCACCCGCGCATCAAGGTGGCCTTCGGCCCGCACGCGCCTTACTCGGTCAGCGACGACAAGCTGGAAAACGTGCGCATGCTGGCCGACCAGTTGGATGCCAACATCCATATGCATGTGCAGGAAACCGCCTTCGAGGTGCAGCAGGCCCTCGACCAGAACGGCGAGCGTCCGCTGGCGCGGCTGGCCCGCCTCGGCCTGCTCGGCCCGCGCTTCCAGGCCGTGCACATGACCCAGGTGAACGACGACGACCTAGCCCTGCTGGTAGAAAGCAACAGCAGCGTCATCCACTGCCCCGAATCGAACCTCAAGCTGGCCAGCGGTTTCTGCCCGGTCGAGCGGCTCTGGCAGGCCGGCGTCAACGTTGCCGTCGGCACCGACGGCGCGGCGAGCAACAACGACCTGGACCTGCTCGGCGAGACCCGCACCGCTGCGCTGCTGGCAAAAGCCGTGGCCGCTTCGGCCACCGCCCTGGATGCCCATCGCGCACTGCGCATGGCCACCCTGAACGGTGCCCGCGCCCTGGGCATCGACGATTGCACCGGTTCGCTGGAAATCGGCAAGTTCGCCGATCTGGCCGCCTTCGATCTGTCCGGGCTGGCCCAGCAGCCGATCTACGACCCGGTGTCGCAACTGATCTATGCCAGCGGTCGCGATTGCGTGAAGCACGTCTGGGTCGGCGGCAAGCAGTTGCTCGACCAGGGCCGCCTGACCCGCCTGGACGAAGAACGACTGGGCGCCAAGGCCCGCGAATGGGGCGCGAAGATCGCCGCACCCCGACACAATTGA	MHDPAAPLDLLLLPTWLVPVEPAGVVLQEHALGIRDGRIALIAPRAEALRHACNEVRELPGMLLAPGLINAHGHAAMTLFRGLADDLPLMTWLEQHIWPAEARWVDEAFVRDGTELAIAEQLKGGITCFSDMYFYPEVASERVHKNGIRAQICIPVLDFPTPGARDAAEALRKGVALFDDLKHHPRIKVAFGPHAPYSVSDDKLENVRMLADQLDANIHMHVQETAFEVQQALDQNGERPLARLARLGLLGPRFQAVHMTQVNDDDLALLVESNSSVIHCPESNLKLASGFCPVERLWQAGVNVAVGTDGAASNNDLDLLGETRTAALLAKAVAASATALDAHRALRMATLNGARALGIDDCTGSLEIGKFADLAAFDLSGLAQQPIYDPVSQLIYASGRDCVKHVWVGGKQLLDQGRLTRLDEERLGAKAREWGAKIAAPRHN	PGPT0023665_1522	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-SAM|QUEUOSINE|LIPID_METABOLISM,PGPT0023665-mtaD-K12960	NA	NA
BMS010_04515	1077	mtnA	COG0182	Methylthioribose-1-phosphate isomerase	ATGCGCGAGCGATTGCTGGCAGCGGAAAAGGTCAAGGCCATTGAGTGGCGGGATGGCAGGCTGCATCTGCTGGATCAGCGTCTGTTGCCGTCCGAGGAACGCTGGCTGGCCTACGACTCCGCCGAGGCTGTGGCCGAGGCGATTCGCAGCATGGTGGTCCGCGGGGCTCCGGCCATCGGCATCAGTGCCGCCTACGGCGTGGTGCTGGGCCTGCGTGCCCGGCTTGCGGAGGGTGGTGACTGGCGCGCTGCACTGGAGAGCGATTTCGACGTCTTGGCGGCTTCCCGGCCCACGGCAGTCAATCTGTTCTGGGCGCTGAACCGCATGCGCGAACGGTTGGAGCGGCTCAAGGAAGGCGAAACCCCGTTGGTAGCGCTGGAAGCCGAGGCCGAGGCCATTCACCTGAGCGACCGTGAAGCCAACCTGACCATGGCCCAGCTCGGCGTCGAGCTGATTCGCCGGGTCGGCTCGCGGCCGCAGGCGCTGCTGACCCACTGCAACACCGGTGCCCTGGCGACAGGTGGCTTCGGTACCGCCCTCGGCGTGATCCGGGCGGCGAACCTGGAGGGGCTGGTCGAGCGCGTCTACGCGGACGAAACCCGTCCCTGGCTGCAAGGCTCGCGCCTGACCGCCTGGGAGCTGGCCAACGAAGGCATCCCGGTAAGCCTGAACGTCGATTCGGCCGCCGCCCATATCATGAAGACCAAGGGCATCACCTGGGTCATCGTCGGTGCCGACCGCATCACGGCGAACGGCGACGTGGCCAATAAGATCGGCACCTATCAACTGGCGGTCAACGCCATGCATCACGGCGTGCGCTTCATGGTGGTGGCGCCCAGTTCGACCATCGACATGGCCCTGGAAACCGGCGACGACATCCCGATCGAAGAGCGCGACGGCAGCGAGTTGCTGGAACTGGGCGGCAAGCGCGTGGCGGCGGATGTCGAGGCGTTCAATCCGGTCTTCGATGTGACGCCGGCCGACCTCATCGATGCCATCGTGACCGAGAAAGGCGTGGTGGAGCGCCCGGACGCGGCGAAAATGGCGCAGCTCATGTGCCGCAAGCGCCTCCACTGA	MRERLLAAEKVKAIEWRDGRLHLLDQRLLPSEERWLAYDSAEAVAEAIRSMVVRGAPAIGISAAYGVVLGLRARLAEGGDWRAALESDFDVLAASRPTAVNLFWALNRMRERLERLKEGETPLVALEAEAEAIHLSDREANLTMAQLGVELIRRVGSRPQALLTHCNTGALATGGFGTALGVIRAANLEGLVERVYADETRPWLQGSRLTAWELANEGIPVSLNVDSAAAHIMKTKGITWVIVGADRITANGDVANKIGTYQLAVNAMHHGVRFMVVAPSSTIDMALETGDDIPIEERDGSELLELGGKRVAADVEAFNPVFDVTPADLIDAIVTEKGVVERPDAAKMAQLMCRKRLH				NA	NA	NA	NA	NA
BMS010_04517	2826	gyrA_1	COG0188	DNA gyrase subunit A	ATGGGCGAACTGGCCAAAGAAATTCTCCCGGTCAATATCGAAGACGAGCTGAAACAGTCCTATCTCGATTACGCGATGAGCGTGATCGTCGGACGTGCTCTGCCGGATGCGCGCGATGGCTTGAAGCCCGTGCACCGCCGCGTGCTCTACGCGATGAGCGAGCTCGGCAACGACTGGAACAAGCCCTACAAGAAATCCGCCCGTGTGGTCGGTGACGTGATCGGTAAATACCACCCGCACGGCGATACCGCGGTCTACGACACCATCGTGCGCATGGCCCAGCCGTTCTCGCTGCGCTACATGCTGGTGGACGGGCAGGGCAACTTCGGTTCGGTGGACGGCGACAACGCCGCGGCCATGCGATACACCGAAGTGCGCATGGCCAAGCTGGCCCACGAACTGCTGGCCGACCTGGACAAGGAAACCGTCGACTGGGTGCCGAACTACGACGGCACCGAGCAGATTCCGGCGGTCATGCCGACCAAGATTCCCAACCTGCTGGTCAACGGCTCCTCCGGTATCGCCGTGGGCATGGCCACCAACATCCCGCCGCACAACCTGGGCGAGGTGATCGATGGCTGCCTGGCATTGATCGACAACCCTGAGCTGACGGTCGACGACCTGATGCGCTACATCCCGGGCCCGGACTTCCCCACCGCCGGTATCATCAATGGCCGTGCCGGGATCATCGAGGCCTACCGCACCGGCCGTGGCCGCATCTATATGCGTGCCCGCGCCGAGGTCGAGGACATCGACAAGACCGGCAATCGCCAGCAGATCGTCATTACCGAGCTGCCGTACCAGTTGAACAAGGCGCGGCTGATCGAGAAGATCGCCGAGCTGGTGAAAGAGAAGAAGCTGGAAGGCATCACCGAACTGCGCGACGAGTCCGACAAGGACGGCATGCGCGTGGTCATCGAGCTGCGTCGCGGCGAAGTGGCGGAGGTGGTGCTCAACAACCTCTATGCCCAGACCCAGCTGCAGAGCGTGTTCGGCATCAACGTGGTGGCCCTGGTCGACGGCCAGCCGCGCACGCTGAACCTCAAGGACATGCTCGAAGTGTTCGTCCGCCACCGCCGCGAAGTGGTGACCCGGCGGACCGTCTACGAATTGCGCAAGGCACGCGAGCGTGGCCATATCCTCGAAGGCCAGGCCGTTGCCCTTTCGAACATCGATCCGGTGATCGAGCTGATCAAGACCTCGCCGACACCGGCCGAGGCCAAGGAGCGCCTGATCGCCACCGCCTGGGAATCCAGCGCAGTGGAAGCGATGGTGGAGCGTGCCGGGGCCGACGCCTGCCGACCGGAAGACCTCGATCCGCAGTATGGCCTGCGTGACGGCAAATATTATCTGTCGCCGGAACAGGCCCAGGCGATCCTCGAACTGCGCCTGCACCGTCTGACCGGCCTGGAGCATGAAAAGCTGCTGGCCGAGTACCAGGAAATCCTGGCCCAGATCGGCGAGCTGATCCGCATCCTGACCAGCCCCGTGCGCCTGATGGAAGTCATCCGCGAGGAGCTGGAGAAGGTCAAGGCGGAGTTCGGCGATGCGCGCCGCACCGAGATCGTCGCCTCCCAGGTCGACCTGACCATCGCCGACCTGATCACCGAAGAGGACCGTGTAGTAACCATTTCCCATGGCGGCTACGCCAAGTCCCAGCCGCTGGCCGCCTACCAGGCGCAGCGTCGCGGCGGCAAGGGCAAGTCGGCCACCGGTGTGAAGGACGAGGACTACATCGAGCACCTGCTGGTGGCCAACAGCCACGCGACCCTGCTGCTGTTCTCCAGCAAAGGCAAGGTCTACTGGCTGCGTACTTTCGAGATCCCGGAGGCTTCGCGCACGGCGCGTGGACGTCCGCTGGTCAACCTGTTGCCGCTGGACGAAGGCGAGCGCATTACCGCGATGCTGCAGGTCGATCTAGAGGCCCTGCAGCAAGGCTCTGGTGACGACGAGGACCTGGACGAAGCCGAAGGCGTGGTGATCGAGGGCGAAGCCGTCGAGGTGATCGAGGCCGAGGAAGTCGAGGAAGTCGAGGGCGAAACGCCTGAGCTGGTCGCCGAGCCGACGGGTGCCTACATCTTCATGGCCACCGCCTTCGGTACCGTGAAGAAAACCCCGCTGGTGCAGTTCAGCCGTCCGCGTAGCGCCGGCCTGATAGCGCTGAGACTGGAGGAGGGTGACACCCTGATCGCTGCCGCCATCACCGACGGCGCCAAGGAAGTCATGCTGTTCTCCGACGCTGGCAAGGTGCTGCGTTTCGCCGAGAGCAAGGTGCGCACCATGGGTCGTACCGCTCGCGGCGTGCGTGGCATGCGCCTGGGCAAGGACCAGCAACTTATCTCCATGCTGATTCCCGAGCCCGGTGCACAGATCCTCACCGCGTCCGAGCGTGGATTCGGCAAGCGTACGGGCCTGGGCAAGTTCCCGCGTCGCGGTCGTGGTGGCCAGGGCGTCATCGCGATGGTCACCAGTGAGCGTAACGGCAAGTTGGTTGGCGCAATCCAGGTGCAGGACGGCGAGGAAATCATGCTGATTTCCGACCAGGGCACCCTGGTGCGTACCCGTGTCGACGAGGTGTCCAGCTCCGGCCGCAATACCCAGGGCGTAACCCTGATCAAGCTCGCCAGCGACGAAAAACTGGTGGGCCTTGAGCGTGTGCAGGAGCCGTCGGTGGAAGAAGAGGCTGAGGATATCGAGGCTGCGCTTCCCGATGACGTGCTCGAGAAGGAAATGCCGGTAGCCAGCTCGGAGCCCAGCGAGGACGAGCTGTTGGGCGGTGTCGGCGATGTTCCCGCCGACGTCGTGCCGACCGACGACGAAGACTGA	MGELAKEILPVNIEDELKQSYLDYAMSVIVGRALPDARDGLKPVHRRVLYAMSELGNDWNKPYKKSARVVGDVIGKYHPHGDTAVYDTIVRMAQPFSLRYMLVDGQGNFGSVDGDNAAAMRYTEVRMAKLAHELLADLDKETVDWVPNYDGTEQIPAVMPTKIPNLLVNGSSGIAVGMATNIPPHNLGEVIDGCLALIDNPELTVDDLMRYIPGPDFPTAGIINGRAGIIEAYRTGRGRIYMRARAEVEDIDKTGNRQQIVITELPYQLNKARLIEKIAELVKEKKLEGITELRDESDKDGMRVVIELRRGEVAEVVLNNLYAQTQLQSVFGINVVALVDGQPRTLNLKDMLEVFVRHRREVVTRRTVYELRKARERGHILEGQAVALSNIDPVIELIKTSPTPAEAKERLIATAWESSAVEAMVERAGADACRPEDLDPQYGLRDGKYYLSPEQAQAILELRLHRLTGLEHEKLLAEYQEILAQIGELIRILTSPVRLMEVIREELEKVKAEFGDARRTEIVASQVDLTIADLITEEDRVVTISHGGYAKSQPLAAYQAQRRGGKGKSATGVKDEDYIEHLLVANSHATLLLFSSKGKVYWLRTFEIPEASRTARGRPLVNLLPLDEGERITAMLQVDLEALQQGSGDDEDLDEAEGVVIEGEAVEVIEAEEVEEVEGETPELVAEPTGAYIFMATAFGTVKKTPLVQFSRPRSAGLIALRLEEGDTLIAAAITDGAKEVMLFSDAGKVLRFAESKVRTMGRTARGVRGMRLGKDQQLISMLIPEPGAQILTASERGFGKRTGLGKFPRRGRGGQGVIAMVTSERNGKLVGAIQVQDGEEIMLISDQGTLVRTRVDEVSSSGRNTQGVTLIKLASDEKLVGLERVQEPSVEEEAEDIEAALPDDVLEKEMPVASSEPSEDELLGGVGDVPADVVPTDDED				NA	NA	NA	NA	NA
BMS010_04518	1086	serC_3	COG1932	Phosphoserine aminotransferase	GTGAGCAAACGCGCCTATAACTTCTGCGCTGGCCCGGCCGCGCTTCCCGAAGCCGTCCTGCAGCGTGCCCAGGCGGAACTCCTCGACTGGCAGGGCAAGGGTCTGTCGGTCATGGAGATGAGCCACCGTAGCGACGAGTACGTGGCCATCGCCGAGAAGGCCGAACAGGACCTGCGCGATCTGCTGACCATTCCGTCGAACTACAAGGTGCTCTTTCTCCAGGGCGGCGCCAGCCAACAGTTCGCCGAGATTCCCCTGAACCTGCTGCCGGAAGACGGCGTGGCCGACTATATCGACACCGGCATCTGGTCGCGCAAGAGCATCGAAGAGGCGCGCCGCTTTGGCAATGTCAACGTCGCCGCAAGCGCCAAGCCTTACGACTACTTCGCCATCCCCGGCCAGAACGAGTGGCAGCTCAGCAAGGATGCCGCCTACCTGCACTACGCCTCCAACGAGACCATCGGCGGCTTGCAGTTCGACTGGATTCCCGAAGTCGGCGACGTTCCGCTGGTGGTGGACATGTCCTCCGACATCCTCTCCCGTCCACTGGACGTTTCCCGTTTCGGCCTGATCTACGCTGGCGCGCAGAAGAACATCGGCCCGTCCGGCCTGGTGGTCGTCATCGTTCGCGAAGACCTGCTCGGCCGTGCCCGGTCGATCTGCCCGACCATGCTCAACTACAAGATCGCCGCCGATAACGGTTCGATGTACAACACGCCGGCGACCTTCTCCTGGTATCTCTCCGGCCTCGTCTTCGAGTGGCTGAAGGAGCAGGGCGGCGTCGAGGCGATGGAAAAGCGCAACCGCGCGAAGAAAGAGCTGTTGTACGGCTTCATCGACCGCAGCGAGCTGTACACCAACCCCATTGCCGCCAATGCCCGCTCCTGGATGAACATACCGTTCCGTCTGGCCGACGAGCGCCTGGACAAGCCCTTCCTCGCCGGCGCGGACGCCCGTGGCCTGCTGAACCTGAAGGGCCACCGCTCGGTGGGCGGCATGCGTGCCTCCATCTATAACGCCGTGGGCCTCGATGCGGTGGAGGCCCTGGTGGCGTACATGGCGGAGTTCGAGAAGGAGCACGGCTGA	MSKRAYNFCAGPAALPEAVLQRAQAELLDWQGKGLSVMEMSHRSDEYVAIAEKAEQDLRDLLTIPSNYKVLFLQGGASQQFAEIPLNLLPEDGVADYIDTGIWSRKSIEEARRFGNVNVAASAKPYDYFAIPGQNEWQLSKDAAYLHYASNETIGGLQFDWIPEVGDVPLVVDMSSDILSRPLDVSRFGLIYAGAQKNIGPSGLVVVIVREDLLGRARSICPTMLNYKIAADNGSMYNTPATFSWYLSGLVFEWLKEQGGVEAMEKRNRAKKELLYGFIDRSELYTNPIAANARSWMNIPFRLADERLDKPFLAGADARGLLNLKGHRSVGGMRASIYNAVGLDAVEALVAYMAEFEKEHG	PGPT0009160_3011	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009160-serC|pdxF-K00831	NA	NA
BMS010_04519	1098	pheA_2		Bifunctional chorismate mutase/prephenate dehydratase	ATGAGCGAGAAAGACCAGCTCAATGCACTGCGCCTGCGTATCGACAGCCTCGATGAAAAAATCCTCGAGCTGATCAGCGAGCGTGCGCGTTGCGCCCAGGACGTGGCTCGGGTGAAGATGCAGTCGCTGCCCGAAGGCGAGAAGCCGGTGTTTTACCGTCCCGAACGCGAGGCCTGGGTGCTCAAGCACATCATGGAACGCAACCAGGGGCCGCTGGACAACGAGGAAATGGCGCGGCTGTTCCGCGAAATCATGTCCTCCTGCCTAGCGCTCGAGCAGCCGCTCAAGGTCGCCTACCTCGGCCCGGAAGGCACCTTCTCCCAGGCTGCGGCGCTGAAGCACTTCGGTCATGCGGTCATCAGCGTGCCGATGGCGGCGATCGACGAAGTGTTCCGTGAGGTTGCGGCCGGCGCGGTGAACTTCGGCGTGGTGCCGGTGGAGAACTCCACCGAGGGCGCCATCAACCACACCCTGGACAGCTTCCTCGAACACGACATGGTGATCTGTGGCGAAGTCGAGTTGCGGATTCACCATCACCTGCTGGTGGGCGAGACGACCAAGACCGACCGCATCACCCGCATATACTCCCACGCCCAGTCCCTGGCCCAGTGCCGCAAATGGCTGGACGCGCATTACCCCAATGTCGAGCGCGTGGCGGTGTCGAGCAATGCCGATGCGGCCAAGCGGGTGAAGAGCGAGTGGAACTCGGCGGCGATTGCCGGCGACATGGCTGCGAGCCTGTACGGGTTGACCAAGCTGGCCGAGAAGATCGAGGACCGTCCGGACAACTCCACGCGCTTCCTCATCATCGGCAGCCAGGAAGTGCCGCCCACCGGCGACGACAAGACCTCCATCATCGTCTCCATGCGCAACAAGCCGGGGGCGCTGCATGAGTTACTGGTGCCGTTCCACAACAATGGCATCGACCTGACCCGCATCGAGACCCGCCCGTCCCGCAGCGGCAAGTGGACCTACGTCTTCTTTATCGATTTCGTCGGCCACCACAAGGACCCGCTGATCAAGGACGTACTGGAAAAGATCAACCAGGAAGCCGTGGCGCTGAAAGTGCTGGGCTCCTATCCCAAAGCGGTACTTTAA	MSEKDQLNALRLRIDSLDEKILELISERARCAQDVARVKMQSLPEGEKPVFYRPEREAWVLKHIMERNQGPLDNEEMARLFREIMSSCLALEQPLKVAYLGPEGTFSQAAALKHFGHAVISVPMAAIDEVFREVAAGAVNFGVVPVENSTEGAINHTLDSFLEHDMVICGEVELRIHHHLLVGETTKTDRITRIYSHAQSLAQCRKWLDAHYPNVERVAVSSNADAAKRVKSEWNSAAIAGDMAASLYGLTKLAEKIEDRPDNSTRFLIIGSQEVPPTGDDKTSIIVSMRNKPGALHELLVPFHNNGIDLTRIETRPSRSGKWTYVFFIDFVGHHKDPLIKDVLEKINQEAVALKVLGSYPKAVL				NA	NA	NA	NA	NA
BMS010_04520	1113	hisC_6	COG0079	Histidinol-phosphate aminotransferase	ATGAGTTGCGACTTTCTGACCCTGGCCCAGCCAGGGGTGCAAAAGCTGTCCCCCTACGTACCGGGCAAGCCGGTGGACGAGTTGGCCCGGGAACTGGATCTGGACCCGACGAAGATCGTCAAGCTCGCCAGCAACGAGAATCCCCTTGGACCAAGCCCGAAGGCGCTGGAAGCCATTCGTGCCGAACTCGCCGAGCTGACCCGCTATCCCGATGGCAACGGTTTCGAACTCAAGCGCAAGCTCGCCGAACGCTGCGGCGTCGCGCCGACCCAGGTGACACTGGGCAACGGCTCCAACGATATTCTCGAGCTGGTGGCGCGTGCCTATCTGGCGCCCGGTCTCAATGCGGTGTTCAGTGAGCATGCGTTCGCCGTCTACCCGATCGCTACCCAGGCCGTCGGCGCCCAGGGCAAGGTCGTACCGGCCAAGGATTGGGGGCATGATCTCGACGCCATGCTGGCTGCCATCGACGACGATACCCGCGTCGTCTTCGTTGCGAACCCGAACAACCCGACGGGCACCTGGTTCGGCGCGCAGGCGCTGGCTGACTTCCTGGCGCGAGTGCCTGAGCATGTTCTGGTGGTGCTGGACGAGGCCTACATCGAGTATGCCGAGGGCGATGAGCTGCCGGACGGGCTGGAATATCTCTCCCGGCACGCCAACCTGCTGGTCTCCCGGACCTTCTCCAAGGCCTATGGCCTGGCTGCGCTCCGCGTCGGCTATGGCATCTCTTCGGCTGCGATCGCCGACGTGCTGAATCGCGTACGCCAGCCGTTCAATGTCAACAGTCTGGCGTTGGCTGCTGCGTGCGCGGCACTGGATGATGCTACCTATCTTGCCGAAAGCCGCCGTCTCAACGATGCCGGCATGGCTCAACTGGAGGAAGGCTTCCGTAAGCTGGGGCTGGACTGGATTCCCTCCAAGGGCAACTTCATCGCCGTGAACATGGGACGGGATGCCGCGCCGTTGTACCAAGCGCTGCTCCGCGAAGGGGTGATCGTCCGGCCGGTGGGCGGCTACGGCATGCCCACCTATCTTCGTGTATCCATTGGTCTGCCCGAAGAGAACCAGCGTTTCCTCGACGCGCTGAGCAAGGTGCTCGACCGTGCTTGA	MSCDFLTLAQPGVQKLSPYVPGKPVDELARELDLDPTKIVKLASNENPLGPSPKALEAIRAELAELTRYPDGNGFELKRKLAERCGVAPTQVTLGNGSNDILELVARAYLAPGLNAVFSEHAFAVYPIATQAVGAQGKVVPAKDWGHDLDAMLAAIDDDTRVVFVANPNNPTGTWFGAQALADFLARVPEHVLVVLDEAYIEYAEGDELPDGLEYLSRHANLLVSRTFSKAYGLAALRVGYGISSAAIADVLNRVRQPFNVNSLALAAACAALDDATYLAESRRLNDAGMAQLEEGFRKLGLDWIPSKGNFIAVNMGRDAAPLYQALLREGVIVRPVGGYGMPTYLRVSIGLPEENQRFLDALSKVLDRA	PGPT0020305_2316	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817	NA	NA
BMS010_04521	2235	aroA_1		3-phosphoshikimate 1-carboxyvinyltransferase	ATGCCGCTGCAACAGGCGGCCCCTATTCTCGGCCGCCTGGTGGTGGTGGGGCTGGGCCTGATTGGCGGCTCCTTCGCCAAGGGATTGCGGGAAAAAGGGCTGTTCCGCGAAGTGATTGGTGTGGATCTCGATCCGGAGTCCAGGCGCCTGGCGGTGGAGCTGGGCGTGGTGGATCGCTGCGAAACGGAGCTGGCTGCCGCCTGTCAGGGCGCGGATGTGATTCAGCTGGCGGTGCCTATTCTGGCCATGGAGAGGCTGCTGGCCCAACTGGCCAGGCTGGAACTGGGGAATGCCGTGCTGACCGATGTCGGCAGCGCCAAGGGCAATGTGGTGCGAGCGGCGCAACAGTCCTTTGGCGGCATGCCGGCGCGCTTCGTGCCCGGGCACCCCATTGCAGGTTCCGAACAGAGCGGCGTGGAGGCAGCCAAGAGCAGTCTGTTCCAGCGCCATAAGGTGATTCTCACGCCGCTGGCCTCGACCGATGCCGATGCGCTGGCCCTGGTGGACAGGCTCTGGCGCGAACTGGGCGCGGATGTCGAGCATATGGAGGTAGGCCACCATGATGCAGTCCTCGCTGCGACCAGCCACCTGCCGCACCTGTTGGCTTTCACACTGGTGGATTCGCTGGCCAAGCGCAACGAAAACCTGGAGATATTCCGCTATGCGGCGGGCGGTTTCCGGGACTTCACCCGGATTGCCGGTAGCGACCCGGTGATGTGGCACGACATCTTCCTCGCCAACCGCGAGGCGGTGCTGCGGACATTGGACGATTTTCGCGGCGACCTCGACGCCTTGCGTGCGGCGGTCGACGCTGGGGACGGGCATCAATTGCTGGGCGTGTTCACCCGCGCCCGCGTTGCCCGCGAGCATTTCAGTAAAATCTTGGCCCGTAGGGCCTACGTGGATGCCATGAATTCGAATAACGATCTGATCTTCCTCGCCAATCCCGGTGGCCAGCTGTCCGGCCGCATTCGCGTACCGGGCGACAAGTCCATTTCCCATCGCTCCATCATGCTCGGCTCCCTGGCTGTAGGCACCACCGAGGTGGAAGGCTTCCTCGAAGGCGAGGACGCCCTGGCGACCCTGCAGGCATTCCGCGACATGGGCGTGGTGATCGAAGGCCCGCATCATGGCCGCGTGACCATTCACGGCGTCGGTCTGCAGGGCCTGAAGCCGCCACCCGGTCCGCTGTACCTGGGCAACTCGGGTACTTCCATGCGTTTGCTGTCCGGCCTGTTGGCAGCCCAGCCGTTCGATACCGTGCTGACCGGCGACGCTTCGCTGTCCAAGCGCCCGATGAACCGCGTCGCCAAGCCGCTGCGTGCCATGGGAGCGGTAATCGAGACCGGCCCGGAAGGGCGCCCGCCGCTGACCATTCGCGGTGGCCAACGTCTGACCGGCATGCATTACGAAATGCCGATGGCCAGCGCCCAGGTGAAGTCCTGTCTGTTGCTTGCCGGCTTGTATGCCGGCGGCGAGACTGCGGTGACCGAGCCGGCGCCGACCCGCGACCACACCGAGCGCATGTTGCGGGGCTTCGGCTATCCGGTGAGCGTCGAGGGCGCCACCGCGCGCGTCGAGTCCGGGCATAAGCTGAGCGCGACTCACATCGAAGTGCCGGCGGACATTTCCTCGGCAGCGTTCTTCCTTGTCGCCGCCAGCATTGCGGAGGGCTCCGAGCTGGTGCTCGAGCATGTCGGCATCAACCCGACCCGTATCGGCGTCATTGAGATTCTTCGCTTGATGGGGGGCGATATCAGTCTGGAGAACCAGCGTGAGGTCGGCGGCGAGCCGGTGGCCGACATTCGTGTGCGTTCGGCCAGGCTCAAAGGTATCGACATCCCGGAAAGCCTGGTCCCGCTGGCGATCGACGAATTCCCGGTGCTTTTCGTCGCGGCCGCCTGCGCCGAGGGCCGCACCGTGCTGCGTGGCGCGGAAGAGCTGCGGGTCAAGGAATCCGATCGAATCCAGGTCATGGCCGACGGCCTGCAGGCGCTTGGCGTCAAGGCCGAGCCGACACCGGACGGCATCATCATCGAAGGCGGGCCGATTGGCGGGGGCGAAGTGCACAGCCACGGCGACCACCGTATCGCCATGTCGTTCAGCGTGGCGTCGCTGCGCGCCAGTGCGCCGATCCGCATCCATGACTGCGCCAACGTTGCCACGTCGTTCCCGAACTTCCTCGGCCTGGCGGCCCAGGCGGGCATTCGCGTAAACGAGGAGGGCAAGTCATGA	MPLQQAAPILGRLVVVGLGLIGGSFAKGLREKGLFREVIGVDLDPESRRLAVELGVVDRCETELAAACQGADVIQLAVPILAMERLLAQLARLELGNAVLTDVGSAKGNVVRAAQQSFGGMPARFVPGHPIAGSEQSGVEAAKSSLFQRHKVILTPLASTDADALALVDRLWRELGADVEHMEVGHHDAVLAATSHLPHLLAFTLVDSLAKRNENLEIFRYAAGGFRDFTRIAGSDPVMWHDIFLANREAVLRTLDDFRGDLDALRAAVDAGDGHQLLGVFTRARVAREHFSKILARRAYVDAMNSNNDLIFLANPGGQLSGRIRVPGDKSISHRSIMLGSLAVGTTEVEGFLEGEDALATLQAFRDMGVVIEGPHHGRVTIHGVGLQGLKPPPGPLYLGNSGTSMRLLSGLLAAQPFDTVLTGDASLSKRPMNRVAKPLRAMGAVIETGPEGRPPLTIRGGQRLTGMHYEMPMASAQVKSCLLLAGLYAGGETAVTEPAPTRDHTERMLRGFGYPVSVEGATARVESGHKLSATHIEVPADISSAAFFLVAASIAEGSELVLEHVGINPTRIGVIEILRLMGGDISLENQREVGGEPVADIRVRSARLKGIDIPESLVPLAIDEFPVLFVAAACAEGRTVLRGAEELRVKESDRIQVMADGLQALGVKAEPTPDGIIIEGGPIGGGEVHSHGDHRIAMSFSVASLRASAPIRIHDCANVATSFPNFLGLAAQAGIRVNEEGKS	PGPT0012870_187	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012870-cyclohexadieny|prephenate_dehydrogenase|3_phosphoshikimate_1_carboxyvinyltransferase-K24018	NA	NA
BMS010_04522	690	cmk_2		Cytidylate kinase	ATGATCGCGCGGGTGCCGGTAATCGCCATCGATGGTCCCAGCGGTTCGGGCAAAGGTACGATCGCCGGCCTGCTCGCCAGGAAGCTGGGCTGGAGCCTGCTGGACTCCGGTGCGCTCTATCGTCTGCTGGCCTTCGCCGCGCGTAACCATGGCGTTGACCTTACCAACGAGGAGGCCCTGAAAGTTCTGGCTGCGCATCTGGACGTACAATTCGTCGCGGCGTCGGAGGGGCACGGCCAGCGCATCATCCTCGAAGGCGAAGAAGTGACCGACGTCATTCGCAACGAGCAGGTCGGCGCCGGGGCCTCCCAGGTAGCGTCCCTGCCGGCGGTGCGCGAGGCCCTGCTGCAGCGCCAGCGCGCCTTTCTCGAAGCTCCCGGTCTGGTGGCCGATGGCCGGGACATGGGAACCGTGGTGTTCCCCGACGCACCCTTGAAGGTTTTCCTGACCGCCAGTGCAGAAGAGCGCGCACGCCGGCGCTATCTGCAGTTGAAGGAAAAGGGGGATGATGTTAGTCTGAGTAGTCTGCTAGAAGAGATTCGGGCGCGCGACGAGCGCGATACCCAGCGAGTGGTCGCCCCGCTCAAACCGGCGTCTGACGCCATACAGCTGGATTCCACGGAGCTCTCCATCGAGCAGGTACTGGAGCGTATTCTGAGCGAAGTCGCCAATCGCGACCTCGCCGGGTGA	MIARVPVIAIDGPSGSGKGTIAGLLARKLGWSLLDSGALYRLLAFAARNHGVDLTNEEALKVLAAHLDVQFVAASEGHGQRIILEGEEVTDVIRNEQVGAGASQVASLPAVREALLQRQRAFLEAPGLVADGRDMGTVVFPDAPLKVFLTASAEERARRRYLQLKEKGDDVSLSSLLEEIRARDERDTQRVVAPLKPASDAIQLDSTELSIEQVLERILSEVANRDLAG	PGPT0021220_1094	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021220-cmk-K00945	NA	NA
BMS010_04523	1680	rpsA_2	COG0539	30S ribosomal protein S1	ATGAGCGAAAGCTTTGCAGAACTTTTTGAAGAAAGCCTGAAATCCCTCGACATGCAGCCGGGTGCCATCATCACCGGCATCGTGGTCGACATCGACGGTGACTGGGTCACCGTGCATGCCGGCCTCAAGTCCGAGGGCGTCATCCCGGTCGAGCAGTTCTACAACGAACAGGGCGAGCTGACCATCAAGGTGGGTGACGAGGTCCACGTCGCTCTGGACGCGGTTGAAGACGGCTTCGGTGAAACCAAGCTGTCCCGCGAAAAAGCCAAGCGCGCGGAATCCTGGATTGTTCTGGAAGCGGCTTTCTCCGCCGAAGAAGTGGTCAAGGGCATCATCAACGGCAAGGTCAAGGGCGGCTTCACCGTCGACATCAACGGCATCCGCGCGTTCCTGCCGGGTTCCCTGGTCGACGTCCGTCCGGTGCGCGACACCGCTCACCTGGAAGGCAAAGAGCTCGAGTTCAAGGTCATCAAGCTCGACCAGAAGCGCAACAACGTCGTCGTTTCCCGCCGCAGCGTGCTGGAAGCCGAGAACAGCGCCGAGCGCGAAGCCCTGCTGGAATCCCTGCAGGAAGGCCAGCAGGTCAAAGGTATCGTCAAGAACCTCACCGACTACGGTGCGTTCGTTGACCTGGGCGGCGTAGACGGCCTGCTGCACATCACCGACATGGCCTGGAAGCGCATCAAGCATCCGTCCGAAATCGTCAACGTTGGCGACGAGATCGACGTCAAGGTCCTGAAGTTCGACCGCGAGCGCAACCGCGTCTCCCTGGGTCTGAAGCAACTGGGCGAAGATCCGTGGGTCGCCATCAAGGCCCGTTATCCGGAAGGCACCCGTGTCATGGCCCGCGTCACCAACCTCACCGACTACGGCTGCTTCGCCGAACTGGAAGAGGGCGTGGAAGGCCTGGTGCACGTTTCCGAAATGGACTGGACCAACAAGAACATCCACCCGTCCAAGGTCGTTCAGGTCGGCGACGAAGTGGAAGTCATGGTTCTGGACATCGACGAGGAGCGTCGTCGTATCTCCCTGGGCATCAAGCAGTGCAAGTCCAACCCGTGGGAAGACTTCTCCAGCCAGTTCAACAAGGGCGACCGTATCTCCGGCACCATCAAGTCGATCACCGATTTCGGTATCTTCATCGGTCTGGACGGCGGCATCGACGGTCTGGTTCACCTGTCCGACATCTCCTGGAACGAGCCGGGTGAAGAAGCCGTACGTCGCTTCAAGAAGGGCGACGAGCTGGAAACCGTCATCCTGTCGGTCGATCCGGAGCGTGAGCGCATCTCCCTGGGCATCAAGCAGCTGGAAGACGATCCGTTCTCCAACTACGCCTCGCTCAACGAGAAGGGCAGCATCGTTCGCGGAACCGTCAAGGAAGTCGACGCCAAAGGCGCTGTGATCGATCTGGGCAGCGATATCGAAGGCATCCTGAAAGCCTCCGAAATCAGCCGCGACCGTGTGGAAGATGCGCGTAACGTGCTGAAGGAAGGCGACGAAGTCGAAGCCAAGATCATCAGCATCGACCGCAAAAGCCGCGTGATCAGCCTGTCCGTCAAGTCGAAGGACGTGGACGACGAGAAGGATGCGATCAAGGAACTGCGCAAGCAGGAAACCGAGAGCACCGGCCCGACCACCATTGGTGACCTGATCCGTGCACAAATGGAGAATCAGGGCTAA	MSESFAELFEESLKSLDMQPGAIITGIVVDIDGDWVTVHAGLKSEGVIPVEQFYNEQGELTIKVGDEVHVALDAVEDGFGETKLSREKAKRAESWIVLEAAFSAEEVVKGIINGKVKGGFTVDINGIRAFLPGSLVDVRPVRDTAHLEGKELEFKVIKLDQKRNNVVVSRRSVLEAENSAEREALLESLQEGQQVKGIVKNLTDYGAFVDLGGVDGLLHITDMAWKRIKHPSEIVNVGDEIDVKVLKFDRERNRVSLGLKQLGEDPWVAIKARYPEGTRVMARVTNLTDYGCFAELEEGVEGLVHVSEMDWTNKNIHPSKVVQVGDEVEVMVLDIDEERRRISLGIKQCKSNPWEDFSSQFNKGDRISGTIKSITDFGIFIGLDGGIDGLVHLSDISWNEPGEEAVRRFKKGDELETVILSVDPERERISLGIKQLEDDPFSNYASLNEKGSIVRGTVKEVDAKGAVIDLGSDIEGILKASEISRDRVEDARNVLKEGDEVEAKIISIDRKSRVISLSVKSKDVDDEKDAIKELRKQETESTGPTTIGDLIRAQMENQG				NA	NA	NA	NA	NA
BMS010_04524	282	ihfB_2	COG0776	Integration host factor subunit beta	ATGACCAAGTCGGAGTTGATCGAACGCATCGTTTCCCATCAGGGGCTGCTGTCATCGAAGGATGTCGAGCTGGCCATCAAGACCATGCTGGAGCAAATGTCCCAGGCATTGGCGACAGGCGATCGCATCGAGATTCGCGGCTTCGGCAGCTTTTCACTGCACTACCGTGCGCCACGGGTGGGGCGTAATCCTAAGACCGGTCAATCGGTGCGGCTCGATGGCAAGTACGTCCCGCATTTCAAGCCGGGCAAGGAATTGCGTGACCGGGTGAACGAGGAGTGA	MTKSELIERIVSHQGLLSSKDVELAIKTMLEQMSQALATGDRIEIRGFGSFSLHYRAPRVGRNPKTGQSVRLDGKYVPHFKPGKELRDRVNEE				NA	NA	NA	NA	NA
BMS010_04525	306			hypothetical protein	GTGAAAACCCTCAAGCGTTTCTTGGTTCTGGCTGGCTGCGTCATTCTGGCGGTTGCCGTTCTGGTATTCGTGCTGGAGAATCAGGCGCCTGTCGACCTGGTCGTTTTCGGCTGGCCGATGCCGGCATTGCCGGTTGCCGGTTACATGGCCGCTGCGTTCTTAGTCGGGATGATGATTGGCCCGCTCATCAGTTGGTTCTTCTATGGCCGTCTTCGGCTGAAAGTCGCATCGCAGCAGCGCGAGTTGGACGCTTGCCGCCGGCGCTTGGCTGATCTCGATAGTGCACAGGCTCCGGCCCGGCTTTGA	MKTLKRFLVLAGCVILAVAVLVFVLENQAPVDLVVFGWPMPALPVAGYMAAAFLVGMMIGPLISWFFYGRLRLKVASQQRELDACRRRLADLDSAQAPARL	PGPT0014665_1066	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_AFFECTED_LIPOPOLYSACCHARIDE_ASSEMBLY,PGPT0014665-lapA-K08992	NA	NA
BMS010_04526	1149	lapB	COG2956	Lipopolysaccharide assembly protein B	TTGATTGATAGTCTCTTCTGGCTGATCCTTTTCTTCCTCGCGCTGGCGATCGGCTGGGGACTGGGACGTTCGGGTATCTCCTGGTCTGCTCGTTCCCATGGCTCCGTTAAGCCCATTCCCTCCTATCCCTACGTTCCGCTGTTGGACGAGCAGTCGGACGAAGCGCTCCAGCGATTCATTCGCGCCCTTGAAATCAATGACAGTACGCTCGACGCGCATCTGGCCGTGGGCCGGCTGTTACGCAAGCGCGGCGAGGTCGACAAAGCCATTCAATTGCATGAGGGAATGCTGGCGAACCGGCAGCTCACCGATGCGCAGTCCTTTCAGGTGCATCTGGAGCTGGGCCGGGATTTTCTGGCGGCTGGCGTGCTTTCACGCGCCGAGACGTTATTTCTTGAGCTGGCAGAGGAGAAGGCGGTCAGGCTCGCCGCGCTGAAAGGGCTGTTACGGATATACGAGCAGGAGCACGAATGGTCAAAGGCGGTAGAGGTCTGTGAGCGCCTGATTGCGGAAGACAGTTATTACCATTCGGTCCTGGCTCATTATTTCTGTGAGTTGGCCGAGCAGGACACGCGTCACGGTCGCCCGAAGGACGCGCTCGGCTATCTGGAGCAGGCGCTACAGGCCGATTCGAGCTGTCTGCGCGCTTTTCTATTGCAGGCCAAGTTGTTTTCAAGGGCGGAGCGTCATGCCGACGCTTTTTCGGCGCTGATCCAGGCTTGCAGGCTTCAGCCGGCTCTCGTGGGGAGTGTGGGGAATGATGTCCTCGAGGCGGCGGAGAAGAGTGGTGCGGACCTTGAGGGCGCTCTCCGGGCGGTGATCGGGGAAGGCCGGGGGCTACCCGTAACCGCAGCCGTCCTGGTTCTCGCGCGCCAGATCGCCCAGCGTTCTACCTCTGAGGCGCTTCGTTTCGTCCAGGAGCATCTTCGTGCGCATCCTTCCTTGCTCGCGCTAAAGGGCTGGGTGGAGCTCTGCCAAATCTGCGGCGATTCGGGGAAAGTCGCTATGGAGGACATTGAGGGGGCGCTCGATAAGCTTTTGCTCGCAGATTCTCGCTACCGCTGCGATCGCTGTGGGTTTGCGGGCAAGCTGCTGCATTGGCAGTGCCCCGCCTGCCATGGCTGGGGGGTAGTAAAGCCGTTGTACTGA	MIDSLFWLILFFLALAIGWGLGRSGISWSARSHGSVKPIPSYPYVPLLDEQSDEALQRFIRALEINDSTLDAHLAVGRLLRKRGEVDKAIQLHEGMLANRQLTDAQSFQVHLELGRDFLAAGVLSRAETLFLELAEEKAVRLAALKGLLRIYEQEHEWSKAVEVCERLIAEDSYYHSVLAHYFCELAEQDTRHGRPKDALGYLEQALQADSSCLRAFLLQAKLFSRAERHADAFSALIQACRLQPALVGSVGNDVLEAAEKSGADLEGALRAVIGEGRGLPVTAAVLVLARQIAQRSTSEALRFVQEHLRAHPSLLALKGWVELCQICGDSGKVAMEDIEGALDKLLLADSRYRCDRCGFAGKLLHWQCPACHGWGVVKPLY				NA	NA	NA	NA	NA
BMS010_04527	1254			hypothetical protein	TTGCGTGAAGATGAAATCGATCTGGCCGAACTGATACGGTCTCTCTGGCAACAAAAATTGCTCATTGCTGGCGTAGCCTTGGGCGTTACGTTGTTGGCCGCGGCATATGCCTTTCTTGCGACGCCTTATTACAAGGTTCAGAGCGTGGTGAGGCCGGTGGACCAAGGTGCGCTGGATGCGCTGAACGGTACCGAAATCTATGAGCTCACCCCATCCGATGCCTTGGCCAGGGTGGCGGCAGCGCTTTCCTCCTATGAAAATCGACTCAAATACTTTCGCGAGAACCAGGCGCTGTTTGCTCCGCTGGCCGAACCGGGACGCTCGCTGGAGCAGGTTTTCGAAGAATTCAATGCGCAAGCGTTCACCATGCTGCAGCCCGATCCGAAGAAGGCGGGTGGCCTGAAAGAATACGTCGGTTTGTCGCTCGTCTATCCCAGGGGCGTCGACGGCGTGGCGGTAGTCAATGGAATGGTGATGGCTGCGATACGGGCCGAGCAGCAAGCGGTTGCCGAAGACTTGAAGGCATTGATTGCCAACCGTCTGGCCAACCTGGAGCAGAAGATCGAGGCCGCCAGGGCCAATTACAATGCCTCCAAAGAGGCTCAGATCGCTACGCTGCTCGAAGAGGACGCGTTGCAACGTGCCAAATTGCAGGATGAGCTGGAAGCCTTGCGAGGTGAGCTCAAGATGCGTCGCGAGAGCCGTATCAGCGAGCTGGATGAGGCGATTCGTATTGCTCAGTCGCTCGGCATAGCCAAACCCACTACGCCATCGGCCATGTCCGATGCCCAATCCCGGGGACAGGTCGTGCGGACCGAGGTCACTAGCCGTGAAATCCCTCTGTACTTCATGGGGACTGAAGCGCTCCAGGCTGAGCGGAAGGCCCTGAGTGAGCGAGGTTCGGATGATTTCGTCGAGCCTCGGATCGCCGAAATCAAGAAAGAGCTGGAGTTGCTGAAGCACAACCGGCAGGTCGAGTTGCTCAAGCAACGGCAGGATGAAGACCTTTACCTGAAGGACCTGGCTCTCTGGCGAGAGGAGGCTGCCCGATTGAAAGGTATCAAGTTCGACGCATCCGGCTTGCAACTTGTCAGGGTCGACCAAATGGCCTTGGAGCCTCTTTCCAGAGTGAAGCCGAAGCGGGCTCTGGTGTTGGTCTTGGGAGTGGTGATCGGCGGCATACTGGGGCTTTTCGTGGCCCTGTTGCACAACCTCTTGCGTAGAAATGAGCCTGGCGCAGCGGTGCCGGCTTAG	MREDEIDLAELIRSLWQQKLLIAGVALGVTLLAAAYAFLATPYYKVQSVVRPVDQGALDALNGTEIYELTPSDALARVAAALSSYENRLKYFRENQALFAPLAEPGRSLEQVFEEFNAQAFTMLQPDPKKAGGLKEYVGLSLVYPRGVDGVAVVNGMVMAAIRAEQQAVAEDLKALIANRLANLEQKIEAARANYNASKEAQIATLLEEDALQRAKLQDELEALRGELKMRRESRISELDEAIRIAQSLGIAKPTTPSAMSDAQSRGQVVRTEVTSREIPLYFMGTEALQAERKALSERGSDDFVEPRIAEIKKELELLKHNRQVELLKQRQDEDLYLKDLALWREEAARLKGIKFDASGLQLVRVDQMALEPLSRVKPKRALVLVLGVVIGGILGLFVALLHNLLRRNEPGAAVPA	PGPT0023265_9	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0023265-wzz|wzzB-K05789	NA	NA
BMS010_04528	1305			hypothetical protein	ATGGACCTTTCTGTGAATACGATTTCTGCCCACCTTCCCGTTCAACCTGCGCTGAACGACGAAATCGATCTGGCCGAGCTGTTTCGCTCGCTGTGGGCTCAGAAACTGCTGATCGTTGCGGTCACAGTCGCCGCCGCTCTGTTGGCAGGAAGCTATGCCTTCTTCCTCGCCACCCCTGAATATCAGGTACAGAGCCTGCTGCGCCCGGCCGCCATCAAGGACCTCGATGCGCTGAACGGAACGGAAGTCTATCCGCTCACTCCGGATGAAGCGTTGCGACGTGTCGGAACCGCTTTGGATTCGTACGAAACTCGCCTGGAGTTCTCCCGTGCCCATCCTGAGCTGTTCGAGGCGCTGCAAACGCCCCTTCGTTCTCCCGAGCAAGCCTTCGAGAAGTTCAATGAAGCCTTCCAGATGCTGCTGCCGGACCCGAAGGCGACGAGTCTGACCCCCTATGTCGGTATCCGGCTGACTTACCCTGAAGATGTTCAGGGCGTGTCGATCGTCAACGGCCTTGTGGAATTCGCCTTGCAGCGAGAGCGTGAGCTCATTGCTGCCGACCTGCAGGCAGTGATCAAGAATCGCCTCGACAAGCTGGAGCGAAAGATAGAGGCGGCCCGTGCCAGCTACGAAACCAGCAAGCAAGCCAAGATCGCAGCGCTGCTGGAAGCGGACGAACTCAAGCGGGCGGAACTCCAGGACGAACTCAGGGCACTCCGGCAGCAGCTGAAGACGCGCCGCGATGACCGCATCATGCAGCTGAACGAAGCGATTCGAATCGCCAAGTCCCTGGGCATTGCCAAGCCCACCACGCCTTCTGCGCTGGGTGATGAGGGACGATCCGCGCAGGGCAATGTGATTCGTACCGAAGTGAACAACCAGCAGATACCGCTTTATTTCATGGGTAGCGAGGCATTGGAAGCCGAACGGGATGCCCTGCAGCAACGGCGTTCGGACGATTTCACCGAGCCGCGCATCGCTCAGATCGCCAAGGAACTGCGGCTGCTGGAAAACAACCGCGAGGTGGAAATCCTCAAGCAGCGCGAGAACGACGATCTCTTCCTCAAGGACCTGGCGCTCTGGCGTGAGGAGGCGGCGCGTTTGCGTGCTTTGGACGTGGACGTTTCCAAGCTGAAGCTGGTCCATATCGACCAAGCGGCCGTGGAGCCGTCTAAACCGATAAAACCGAAGAAATTACTGATTCTGGCGTTGGGGATCGTATTGGGCGCCATGTTGGGCGTTTTCATTGCGCTCATCAGAAATATCGTGCGTCGCAAGCCCGATACCTTCGCCATCTCGCGATGA	MDLSVNTISAHLPVQPALNDEIDLAELFRSLWAQKLLIVAVTVAAALLAGSYAFFLATPEYQVQSLLRPAAIKDLDALNGTEVYPLTPDEALRRVGTALDSYETRLEFSRAHPELFEALQTPLRSPEQAFEKFNEAFQMLLPDPKATSLTPYVGIRLTYPEDVQGVSIVNGLVEFALQRERELIAADLQAVIKNRLDKLERKIEAARASYETSKQAKIAALLEADELKRAELQDELRALRQQLKTRRDDRIMQLNEAIRIAKSLGIAKPTTPSALGDEGRSAQGNVIRTEVNNQQIPLYFMGSEALEAERDALQQRRSDDFTEPRIAQIAKELRLLENNREVEILKQRENDDLFLKDLALWREEAARLRALDVDVSKLKLVHIDQAAVEPSKPIKPKKLLILALGIVLGAMLGVFIALIRNIVRRKPDTFAISR	PGPT0023285_1710	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-WZA-WZC-WZB-WEC_METABOLISM	CE-EPS-EPS-WZA-WZC-WZB-WEC_SYSTEM,PGPT0023285-etk_wzc|epsB-K16692	NA	NA
BMS010_04529	1455		COG1236	Ribonuclease	ATGCAATTTCCTCTCATCGACCACCACGGCGCCACCCGGGGCGTGACCGGCTCCTGCCATCAGTTGCGAATGGACGCGAACCATAGCCTGTTGATCGACTGCGGCCTGTTCCAAGGGGCGGAAACCTCCCCGGAGGGCCGCTCGGCAGCCGACAACCTGGCCATCGATTTTCCGCTGGATTCCGTCAAGGCGCTGGTCGCCACCCATGTCCACATCGACCATGTCGGACGGATTCCTTATTTACTGGCGGCAGGCTTCAAAGGACCGATTCTCTGCAGCGAGCCATCGGCGCGCTTGCTGCCTCTTGTGCTGGAGGATGCTTTCAAGCTCAGCGTCAGCCGCGACCAGGCGAAGGTCGAGCGTTATCTGCAACTGATCGAGCGGCGCATCATCGCCTTGCCCTACAAGACATGGTTCACCCTGGTCGATACGGCGGAGCTGCGTTGCCGCGTCAGGCTGCAGAGGGCAGGGCATATCCTTGGTTCGGCTTATGTCGAGGTAGACCTGACGTATCCGGGGCAGCGTGGAAAACGCATCCTCTTCTCCGGAGACCTGGGCGCGCCGCATGCTCCCCTTTTGCCGGCGCCGAAACCACCGTACCGGGCCGACGTCCTGATATTGGAAAGTACCTATGGCGATCGCCTGCACGAGGACCGCCGCACCCGGCGCCAACGCTTGCAAGCGGTGATCGAGCAGGCGCTGGCGGATCGCGGCACGGTGCTTATTCCCGCATTCAGCATCGGTCGTACCCAGGAATTGCTCTACGAGCTGGAGGACATCATCTTCCGTCGGGCTCGTCAGCGCGCCGCCACCGCGCCCCGCTCCAGGGGCCAGGGAGAATTGGGCGTCGATTGGCCCGAGCTGCCGATCATTCTGGATTCGCCCTTGGCTAGCCGGTTCACGACGGTTTATCGCCAGTTGCAGTCTTTCTGGGACCAAGAAGCGCTGCAACGTGTAAAATGCGGCCGCCGTCCACTTGGTTTTGAGCAGTTGATCACGGTGGATGAGCATGCCGATCACCTCCAGATGGTGCGGCACCTGGCCGATACGGCGCGACCGGCCATTGTGATCGCCGGCAGCGGCATGTGCTCCAGCGGCCGTATCGTCAATTACCTCAAGGCGATGCTGGGCGATAAGCGCCACAACGTGCTCTTCGTCGGTTACCAGGCGAAAGGCACGCCAGGGCATGCCCTCCAGACCCATGGGCCGAAAGGCGGATATGTGGACCTGGATGGCGAGCGGCATACTATTCGGGCCGGTATCGCCACCATCGGTGGCTATTCGGCTCACGCCGACCGGCACGGATTGCTGAACTTCGTGACCCGCATGCGGGAGTGGCCAAGCGAGATACGCTTGGTCCATGGCGAAGCATCGGCCAAGCGGGCGCTTGCAGAGCTTTTGCGTAGTTGCTACGAACAACGGAACCGGCCGGTGACCATCGTCACCCCGGATTAA	MQFPLIDHHGATRGVTGSCHQLRMDANHSLLIDCGLFQGAETSPEGRSAADNLAIDFPLDSVKALVATHVHIDHVGRIPYLLAAGFKGPILCSEPSARLLPLVLEDAFKLSVSRDQAKVERYLQLIERRIIALPYKTWFTLVDTAELRCRVRLQRAGHILGSAYVEVDLTYPGQRGKRILFSGDLGAPHAPLLPAPKPPYRADVLILESTYGDRLHEDRRTRRQRLQAVIEQALADRGTVLIPAFSIGRTQELLYELEDIIFRRARQRAATAPRSRGQGELGVDWPELPIILDSPLASRFTTVYRQLQSFWDQEALQRVKCGRRPLGFEQLITVDEHADHLQMVRHLADTARPAIVIAGSGMCSSGRIVNYLKAMLGDKRHNVLFVGYQAKGTPGHALQTHGPKGGYVDLDGERHTIRAGIATIGGYSAHADRHGLLNFVTRMREWPSEIRLVHGEASAKRALAELLRSCYEQRNRPVTIVTPD				NA	NA	NA	NA	NA
BMS010_04530	561	rfaH	COG0250	Transcription antitermination protein RfaH	ATGGCCCGGTTCATTGGCCAGGGGCAAGGTGATACGGATATGAAGAATGGCACTGCGGACCGCGCGACCAGTCAGTACCGGGACAAGTCCTGGTACCTCGTGCAGTGCAAGCCTCGGCAGGACGAACGTGCCGAGGAACATCTGACCCGCCAGGGGTACGCCTGCTACCGTCCTCATTGTCGGCGGGAGCGGCTGGTGCGCGGCCATCGGCAGGAGGCGACCGAATCGCTTTTCCCCGGCTACCTCTTCATCCACCTGGCTTCGAACGACAACTGGTCTCCCTTGCGCTCGACCCGTGGCGTCAATCGCGTGGTTTCCTTTGGCGGGCGGCCGATCATCGTTGATGACGCTTTGATAGCGCAATTGCAGCATCGCGCGGAACCCAGCGTCGAAAAGATGCTCCAACCCGGCGAAGCGGTACGCATCCTGGAGGGCAGCTTCGCCGAACTCGACGCCATTTTCCTGTCCATGGATGGCGATGATCGCGTCGTACTGCTCATGAACCTGCTCAATCGCCAGCAGCAGATCAGCCTGCCGCTGGCGAGTATTCGTGTGCATTGA	MARFIGQGQGDTDMKNGTADRATSQYRDKSWYLVQCKPRQDERAEEHLTRQGYACYRPHCRRERLVRGHRQEATESLFPGYLFIHLASNDNWSPLRSTRGVNRVVSFGGRPIIVDDALIAQLQHRAEPSVEKMLQPGEAVRILEGSFAELDAIFLSMDGDDRVVLLMNLLNRQQQISLPLASIRVH				NA	NA	NA	NA	NA
BMS010_04531	1275			hypothetical protein	ATGCCAGCCCACACCCTGACACGCCTGTTCAACCTCGCACTGCGCGGTGTGACGTTGGCCAGCAAGTTCCTGCTGATCTTCTTCCTGGCGCGCTTCCTCGAGCCGGCAGAGCTGGGGCTGTATGGCCTGCTGGCGGCGACCATCGGCTATGCCCTGTATCTGCTGGGGCTGGACTTCTACACCTACACCACCCGGGAATTGCTCAAGCGAGACCGTGAAGAATGGGGCGGGCTCCTTAAAGACCAAGGTGCACTGACGTTAGTTCTCTATGTGCTGTTCGTGCCGTTGCTGTCGCTGGTCTTCGCAACGGGGACGTTGCCTTGGCCGGTGGCGGGCTGGTTCTTCGGCCTGATCGTCCTCGAACACCTGAACCAGGAATTGATGCGGCTGCTGATCGCGATATCCCGTCCCGTGCTGGCGAACGTGGTGCTGTTCCTCCGCCAGGGGGCCTGGGCTGTAATCGCCACGGCGCTGATGTTCTTCGATCCGGAGACCCGCAACCTGGAGACCGTGTTGCTGGCCTGGACGCTGGGCGGCCTTGCCGCGCTTCTCCTGGCCGCCGGCCGGTTGTGCCAGTTGCGCATCGGTGGTTGGCGCAAGCGGGTCGATTGGTCCTGGATTCGCCAGGGCGTCAAGGTGGCGGTGCCGATGCTGGTGGCGACGCTGGCGATACGCGGCGTGTTCACCCTCGACCGTTACTGGCTGGAGGCCCTGTCAGGCTTGGAAGTGTTGGGCGCCTACGTGCTTTTCATGGGCATCGGCAACGCCATGATGTCTTTCCTCGACGCCGGGGTCTTCGCCTTCCTCTATCCCGGTCTGATCAGCGCGTTCCAGAAGGGAGACGCCGACGCCTTCCGCCAGGGCGTGAAGCGCTTTTTCATCCAGACGACAGTCTTCTCACTGTGTTTCGCCCTGGTGGCGCTGGTCCTGATCGATCCCCTGCTGAGTTGGCTGGACAAGCCGCTCTATCGCGAGCAGCAGGGAATGTTCCCCTGGATCCTGCTGGCCATCTTTCTTTATGCCCTGGGCATGATTCCTCACTATGCGTTGTACGCACAGGGAAGGGATCGACCGCTGATACACAGCCATATCGCCAGCTTGGTCGTTTTCATTCCGGCAACCTGGCTCTTTTCAATCCACTGGCCCCACCTTGCCGTTCCGCTCGGCCTGAGTGTCGCCTTTTTTCTGATACTCGTCTGGAAGACAACGGCCTATTTCCGGCTGACTCCAGTGCAGTATCGTCACTGCTGCCCTGAAACACAGGCTTCAATCTGA	MPAHTLTRLFNLALRGVTLASKFLLIFFLARFLEPAELGLYGLLAATIGYALYLLGLDFYTYTTRELLKRDREEWGGLLKDQGALTLVLYVLFVPLLSLVFATGTLPWPVAGWFFGLIVLEHLNQELMRLLIAISRPVLANVVLFLRQGAWAVIATALMFFDPETRNLETVLLAWTLGGLAALLLAAGRLCQLRIGGWRKRVDWSWIRQGVKVAVPMLVATLAIRGVFTLDRYWLEALSGLEVLGAYVLFMGIGNAMMSFLDAGVFAFLYPGLISAFQKGDADAFRQGVKRFFIQTTVFSLCFALVALVLIDPLLSWLDKPLYREQQGMFPWILLAIFLYALGMIPHYALYAQGRDRPLIHSHIASLVVFIPATWLFSIHWPHLAVPLGLSVAFFLILVWKTTAYFRLTPVQYRHCCPETQASI				NA	NA	NA	NA	NA
BMS010_04532	999	pseB	COG1086	UDP-N-acetylglucosamine 4,6-dehydratase (inverting)	ATGTTCAACGACAAGTCCATTCTCATCACCGGCGGCACCGGCTCGTTCGGCCATACCTTCGTGCCCATGATCCTGGCCCGCTACAACCCGCGGCGCGTGATCATCTATTCCCGTGACGAGATGAAGCAGTGGGAAATGGCCAAGAAGTTCCAGGGCGACAACCGTGTACGCTTCTTCATCGGTGACGTACGCGACCGTGAGCGTCTCTACCGTGCCCTGGATGGCGTGGACTACGTGGTCCATGCCGCCGCCACCAAGATCGTACCGACCGCCGAGTACAACCCGTTCGAGTGCGTGAAGACCAACGTCATCGGCGCCATGAACCTGATCGATGCCTGCATCGACAAGGGCGTCAAGCGTGTCGTCGCTCTGTCCACCGACAAGGCGAGCAGCCCGGTCAACCTCTACGGCGCCACCAAGCTGGCCTCCGACAAACTCTTCGTAGCCGGTAACTCCTATGCCGGCGGCCATGACACTCGCTTCGCCGTGGTGCGCTACGGCAACGTCATGGGCTCCCGTGGCTCGGTCATCCCGTTCTTCATGTCCATCAAGGACAAAGGCGTACTGCCCATCACCGACGAGCGCATGACCCGCTTCATGATTTCCCTGGAAGAGGGCGTCGAGCTGGTCTGGCATGCCTTCGAAGACATGGAAGGCGGCGAGATCTATGTGAAGAAGATCCCGTCCATGAAGGTGACCGATCTGGCCCGAGTCGTCGCACCGGAAGCCCGCCAGGAGATTGTCGGCATTCGCCCCGGCGAAAAGCTGCATGAGCAGATGATCAGCGCGGAAGACTCCTACTACACCTACGAGTACCCCGAGCACTTCAAGATCCTGCCGGTGATCAACAACTGGTCGTCCTGCGAGAAGCGCATCAAGGACGGCAAGAAAGTGCCGGAAGGCTTCGTCTACGCCAGCGACAACAACACCGAGTGGATGAGCGACGAAGAGCTGCAAGCCTGGATCGACAAGAACCGCGAAAAGATCGGGAGCATCTGA	MFNDKSILITGGTGSFGHTFVPMILARYNPRRVIIYSRDEMKQWEMAKKFQGDNRVRFFIGDVRDRERLYRALDGVDYVVHAAATKIVPTAEYNPFECVKTNVIGAMNLIDACIDKGVKRVVALSTDKASSPVNLYGATKLASDKLFVAGNSYAGGHDTRFAVVRYGNVMGSRGSVIPFFMSIKDKGVLPITDERMTRFMISLEEGVELVWHAFEDMEGGEIYVKKIPSMKVTDLARVVAPEARQEIVGIRPGEKLHEQMISAEDSYYTYEYPEHFKILPVINNWSSCEKRIKDGKKVPEGFVYASDNNTEWMSDEELQAWIDKNREKIGSI	PGPT0018935_932	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PSEUDAMINIC_ACID_MODIFICATION,PGPT0018935-pseB|wbjB-K15894	NA	NA
BMS010_04533	1161	arnB	COG0399	UDP-4-amino-4-deoxy-L-arabinose--oxoglutarate aminotransferase	ATGATTCCCTACGGTCGCCAGGACATCACCCAGGCCGACATCGATGCCGTCGTGGGTGTGCTGCAATCCGACTTCCTGACCCAGGGCCCGATGGTGCCGCGCTTCGAACAAGGCGTGGCCCGGCATGTGGGCGCCGAACACGCGCTGGCGGTGAACAGCGCCACCTCGGCCCTGCACATCGCCTGCCTGGCGCTGGGGCTCGGGCCGGGCGACCGGCTCTGGACCAGTCCGGTCACCTTTGTCGCTTCGGCTAACTGCGGCCTGTACTGTGGTGCCGAGGTGGACTTCGTGGACATCGACCCGCGCACCTACAACCTGTGCCCGAAGGCGCTGGAGGCGAAACTCCAGCAGGCCGAGCGCGACGGTACGCTGCCCAAGGTGGTGGTGCCGGTACACCTGTGCGGCCAGCCTTGCGACATGCAGGCCATCCATGCCCTGGCGACGCGCTACGGCTTCCGCGTCATCGAAGACGCCTCCCATGCCATCGGGGGTAAGTACCAGGGCGAGTTCATCGGTAACTGCCGCTACAGCGACATCACCGTTTTCAGCTTCCACCCGGTGAAGATCATCACCACCGCCGAAGGCGGCATGGCGCTGACCAACGATGCCGCGCTGGCCGAGCGCATGGCACTGCTGCGCAGCCACGGGATCACCCGTGAACCGTCGAAGATGACCCACGAATCGGACGGCCCCTGGTACTACCAGCAGATCGACCTCGGCTTCAACTACCGGATGACCGAACTGCAGGCCGCTTTGGGCGTGACCCAACTGGAGCGCCTCGACCGCTACGTCGCCCGTCGTCACGAACTGGCCCGGCGCTACGACCAGTTGCTGGCAGGGCTGCCGGTCACCACGCCCTGGCAACACCCGGACAGCTATTCCGGCCTGCACCTCTACGTGATCCGTCTGCAACTGGAGACGCTGCGCAGCAGCCACCGCCAAGTGTTCGAATCGCTGCGCGAGCAGGGCATCGGCGTCAACCTCCACTACATCCCGGTCCATACCCAGCCGTACTACCAGCGCATGGGCTTCCAGGCCGGTGACTTCCCCGAGGCCGAACGTTACTACCGCGAAGCCATCAGCCTGCCCATGTTCCAAACCATGACGGAACAGCAACAGGATGAGGTGATCGCCGCGCTGCACAAGGCAATCGACGCATGA	MIPYGRQDITQADIDAVVGVLQSDFLTQGPMVPRFEQGVARHVGAEHALAVNSATSALHIACLALGLGPGDRLWTSPVTFVASANCGLYCGAEVDFVDIDPRTYNLCPKALEAKLQQAERDGTLPKVVVPVHLCGQPCDMQAIHALATRYGFRVIEDASHAIGGKYQGEFIGNCRYSDITVFSFHPVKIITTAEGGMALTNDAALAERMALLRSHGITREPSKMTHESDGPWYYQQIDLGFNYRMTELQAALGVTQLERLDRYVARRHELARRYDQLLAGLPVTTPWQHPDSYSGLHLYVIRLQLETLRSSHRQVFESLREQGIGVNLHYIPVHTQPYYQRMGFQAGDFPEAERYYREAISLPMFQTMTEQQQDEVIAALHKAIDA	PGPT0022785_1061	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PEROSAMINE_MODIFICATION,PGPT0022785-per|rfbE-K13010	NA	NA
BMS010_04534	699	neuA	COG1083	CMP-N,N'-diacetyllegionaminic acid synthase	ATGAGGCTGGCAGTCATTCCCGCGCGCGGCGGTAGCAAGCGCATCCCACGCAAGAACATCAAGCCATTCTGCGGCAAGCCGATGATCGCACGCTCGATCGAGGCCGCCCTGGAGAGCGGCTGCTTCGACCGGGTGATCGTCTCCACCGACGATGCGGAAATCGCCGAGGTCGCCCGCCAGTACGGCGCGGACGTTCCCTTCGTGCGTCCGGCGGAACTGTCGGACGACTACGCCGGAACCGTTCCGGTCATTCGCCATGCAGTGGAGTGGTTCATCGCCAACGGCGAGGCCCCGGAGCAGGTGTGCTGCATCTACGCCACCGCGCCCTTCGTGACCGGCGAGAACATCCGCAGGGGACTGGAGGCGCTGGCCGGGAACGACTGCGACTACGCGTTCTCCGTCACCAGTTATGCCTTCCCCATCCAGCGAGCAATCCGCATCACGTCGGCGGGCCGCGTCGAAATGTTCAATCCCGAGCATTTCAACACACGCTCCCAGGACCTCGAAGAGGCCTATCACGATGCGGGCCAGTTCTACTGGGGCCGCGCCAATGCCTGGTTGGAAGGCAAGGTCCTGTTCGGGACACATGCCGTACCGGTTCTGCTACCTCGCCATCGCGTTCAGGACATCGACACCCTGGAAGACTGGGAGCGGGCCGAGTGGCTGTTCAAGGCCATGCAGGCCCAGGTGGAGCGGTAA	MRLAVIPARGGSKRIPRKNIKPFCGKPMIARSIEAALESGCFDRVIVSTDDAEIAEVARQYGADVPFVRPAELSDDYAGTVPVIRHAVEWFIANGEAPEQVCCIYATAPFVTGENIRRGLEALAGNDCDYAFSVTSYAFPIQRAIRITSAGRVEMFNPEHFNTRSQDLEEAYHDAGQFYWGRANAWLEGKVLFGTHAVPVLLPRHRVQDIDTLEDWERAEWLFKAMQAQVER	PGPT0022745_248	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PSEUDAMINIC_ACID_MODIFICATION,PGPT0022745-pseF-K15899	NA	NA
BMS010_04535	1089	pseG	COG3980	UDP-2,4-diacetamido-2,4,6-trideoxy-beta-L-altropyranose hydrolase	ATGAAGATCGCTTTCCGTGCGGACGCCTCGTTGCAGATGGGCAGTGGCCACGTCATGCGCTGCGTGACCTTGGCCGACGCCTTGAAGCAGAAGGGCGCGGAATGCCACTTCCTCTGCCGGGAGCACCCTGGCCACCTCATCGAACTGGTTCGCGGCAAGGGCCATGTCGTTCATGTCCTGCCTTGCGAACCGGAGAGCCCGATAGACCGAAATGGTCCGGCCCACGCCGCCTGGCTGGGCGCCACCCAGGAGCAGGATGCGCAGGCCTGCCTGCCTATCCTGCAGGCGCTCCAGCCAGATTGGCTGATCGTCGATCACTATGCCCTGGACATTCGTTGGGAAGAGAGCCTGCGGCCCTTCTGTCGACGGCTGATGGTCATCGATGATCTGGCTGATCGGGCCCACCAATGCGACTTGTTGCTCGATCAGAACCTGGGGCGAAAGCCCGAGGATTACGCCGGGCTGATTCCAGAGGCGTGCACCGTGCTCGCGGGGCCGCAATATGCCTTGTTGCGGCCCGAGTTTGCTGCTTTGAGAGAGACCAGCCTCAAGCGTCGGGACGAGCCCCGTTTGCGGAGCATACTCATCTCAATGGGAGGGGTGGATGGGCCCAACGCCACCAGTCGAGTTCTGGATGCGTTGAGAAAATGCGTACTCCCGGATGATTGTCAGTTGAGTGTGGTGATGGGACCCAAGGCTCCGTGGCTTCAACAGGTACGCGATGCCGCGAGAGAAATGCCTTGGCCAACGGAGGTATTGGTCAATGTCACTGATATGGGGGCTCTGATGGCGAGCAGTGACCTCTCCATAGGTGCTGCTGGGAGTACCTCATGGGAGCGCTGCTGTCTGGGGGTACCGAGCATCATTCTGGTATTGGCTGAAAACCAACGCTTCATCTCTTTCGAGCTGGACAAAGCCGGGGCGGCCAAGGCGATCAGCCTGGATGAGGGCAATCTGGAAGTTCAACTGAAGAAGGTGATCGATAGTTACCAGATACCTGTTCACCTCAAGGAAACCTCCAAAAAAGCGGCTTCGGTTTGTGACGGGGCAGGCGTAGAGCGTGTCGGGAGAATGTTGCTTGGAAAGTAA	MKIAFRADASLQMGSGHVMRCVTLADALKQKGAECHFLCREHPGHLIELVRGKGHVVHVLPCEPESPIDRNGPAHAAWLGATQEQDAQACLPILQALQPDWLIVDHYALDIRWEESLRPFCRRLMVIDDLADRAHQCDLLLDQNLGRKPEDYAGLIPEACTVLAGPQYALLRPEFAALRETSLKRRDEPRLRSILISMGGVDGPNATSRVLDALRKCVLPDDCQLSVVMGPKAPWLQQVRDAAREMPWPTEVLVNVTDMGALMASSDLSIGAAGSTSWERCCLGVPSIILVLAENQRFISFELDKAGAAKAISLDEGNLEVQLKKVIDSYQIPVHLKETSKKAASVCDGAGVERVGRMLLGK	PGPT0022735_101	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PSEUDAMINIC_ACID_MODIFICATION,PGPT0022735-pseG-K15897	NA	NA
BMS010_04536	663	arnA		Bifunctional polymyxin resistance protein ArnA	TTGGAAAGTAACTCAATCACAGTCCTTGTCGATAATGATTCCTGGATCATTCCCTATGCCAGAAAGCTGGTGGATATCCTGAGAGAAAAGGGTTTGGACGCGGCTTTTGCGGATAGTGCTGACAAAGTGCGAGTCGGCTGGATCAACTTCATGCTGGGTTGTACGCGGATCGTGAGTGATGACGTGTTGCAGCGAAACCAGCATAACCTGGTCGTGCATGAAAGCGACCTGCCGGAAGGCCGTGGGTTTGCTCCAATGGCTTGGCAAATTCTGGAAGGGAAACGACAGATTCCAATATGCCTTCTGGAGGCATCGGACGCGGTTGATGCTGGTGATGTCTGGATAAGGGATGTCATAGAGCTGAATGGGACTGAGCTGTGTGACGAGTGGCGAGCTCTGCAAGGGGAAAAAACCGTCCAGCTTTGCCTGAGGTTTGTGAATGAATACAAAGCGCTTGTTCCCGTAAAACAAGAGGGAACGCCTTCTTGGTACGCGCGCAGACGCCCCGCCGATAGCCGTCTGGATATCAATAAGTCGATGCGAGATCAGTTCGATCTGCTCAGGGTTGTGGATAACGAAAGATATCCCGCCTATTTTGAAATTGATGGGCAGGTTTATACGTTGCAGATATTCAAGGCCAGGGGGAAAGATGGCGGAGCATGA	MESNSITVLVDNDSWIIPYARKLVDILREKGLDAAFADSADKVRVGWINFMLGCTRIVSDDVLQRNQHNLVVHESDLPEGRGFAPMAWQILEGKRQIPICLLEASDAVDAGDVWIRDVIELNGTELCDEWRALQGEKTVQLCLRFVNEYKALVPVKQEGTPSWYARRRPADSRLDINKSMRDQFDLLRVVDNERYPAYFEIDGQVYTLQIFKARGKDGGA	PGPT0008125_6589	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008125-fmt-K00604	NA	NA
BMS010_04537	705	fmt_2		Methionyl-tRNA formyltransferase	ATGGCGGAGCATGAGACAGGGAAGGCTACGTATGTATTTGCCAGTTGCAAAGCATGGCATAGACCTTATTTCGACGCCTTGTCCAAAGAGGGGCATGCACAGTGGATTTGGGTATCGCAGCCATCGGAGTTGGTAGGCACCCTCGAGCGGACAAGTCCACGTTACATATTTTTCCTTCACTGGAATTGGCTTGTTCCCAAGTCGATCTGGGAGCGTCATGAATGCGTTTGCTTCCATATGACCGATGTGCCTTATGGCAGAGGGGGAAGCCCTCTTCAGAACCTGATCGTTGCCGGTCATAGCCAGACCAAGCTGACAGCTCTGCGGATGGTGGAGGAAATGGATGCCGGCCCGGTATATACGAAAAAAGATCTGGATCTTTCGGGTACTGCGCAGGAGATTTATGTTCGGGCAGGCGCATTAAGTACTGAGATCATCCGTTGGATGGTTTCGGTCGAGCCGGAACCTGTTCCGCAGTCCGGAGAGCCTGTCACGTTTCGGCGTCGCACCCCGGAGCAAAGCAGATTACCTGAATCCGGGGATATGGCCCGCCTATACGATTTCATCAGAATGCTGGATGCAGACGGTTATCCACATGCCTTCCTCGATTATGGGGATTTCAGGCTGGAGTTCAGAAAGGCTCAGCAGGATGATATGGAATTGAGTGCCCAAGTGAAGATATACAAGCGAAAGAACGAGGCTTGA	MAEHETGKATYVFASCKAWHRPYFDALSKEGHAQWIWVSQPSELVGTLERTSPRYIFFLHWNWLVPKSIWERHECVCFHMTDVPYGRGGSPLQNLIVAGHSQTKLTALRMVEEMDAGPVYTKKDLDLSGTAQEIYVRAGALSTEIIRWMVSVEPEPVPQSGEPVTFRRRTPEQSRLPESGDMARLYDFIRMLDADGYPHAFLDYGDFRLEFRKAQQDDMELSAQVKIYKRKNEA	PGPT0008125_6523	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008125-fmt-K00604	NA	NA
BMS010_04538	1047	pseI	COG2089	Pseudaminic acid synthase	ATGATTGCAGAAATCAATGGACGAAAGATTGGCAAAGGTCATCCTCCTTACATCATCGCCGAATTGTCAGCCAATCATAATGGCTCGTTGGAACGGGCATTCGAGACGATCAAAGCTGCCCATGAAAGTGGCGCCCATGCAATAAAGATTCAAACCTATACCGCTGACACCATGACCATTGATTGTGACCGCGAGGATTTCATGATCCATGGCGGTTTATGGGATGGGTATAAGTTGTATGACCTTTACAAGTGGGCCGAGACCCCCTTCGAATGGCATAAAGCGATATTCGATTATGCTGCCAATCTGGGAATCACCATCTTTTCTACTCCGTTTGATGAGTCGGCGGTGGATCTTCTGGAATCACTGAATACGCCCGCCTATAAGATTGCTTCCTTCGAGGCGACCGATCTCCCTCTGATCCGCTACGTTGCCAGTAAAGGTAAGCCGGTGATCATGTCCACCGGAATGTGTTCCGAATCGGAAATCTCGGAGGCCGTTGCTACGGCTCGGGAGGCCGGATGTGAAAACCTGATCCTGCTCCACTGCATTAGCAGTTATCCCGCACCAATGGATCAAGCGAATCTGTTGCAGATGCCGCGTTTGACGGAGCGTTTCGGGACTATCCCCGGACTGTCCGACCATACCTTGGGTACGACCGCTTCCGTGGCAGCAGTCGCACTCGGGGCTTGCGTGATCGAAAAGCACTTTACCCTCAGCCGAAACGACAAGGGACCGGACAGCGAGTTTTCTATCGAGCCTGATGAGCTGAAAAGGCTTTGCCAAGATACTTTCGATGCTTGGTCGGCGCTGGGCAAGCCTGGTTTCGAGCGCCAGAAAGCGGAAGAGGGGAACAAGCATTTCCGCCGTTCCGTATATTTCGTCAGGGATATGAAGGCTGGGGAAATCATCACTCCTGCCCATATTCGCCGTATCAGGCCTGGCTTCGGGCTACCCCCCAAGTACTTCGACCAGCTTATTGGCAAACGCGTCAAGGGAGATGTCGATCGCGGAACAGCGACCAGTTGGGAGTTGATCGATGAGTAA	MIAEINGRKIGKGHPPYIIAELSANHNGSLERAFETIKAAHESGAHAIKIQTYTADTMTIDCDREDFMIHGGLWDGYKLYDLYKWAETPFEWHKAIFDYAANLGITIFSTPFDESAVDLLESLNTPAYKIASFEATDLPLIRYVASKGKPVIMSTGMCSESEISEAVATAREAGCENLILLHCISSYPAPMDQANLLQMPRLTERFGTIPGLSDHTLGTTASVAAVALGACVIEKHFTLSRNDKGPDSEFSIEPDELKRLCQDTFDAWSALGKPGFERQKAEEGNKHFRRSVYFVRDMKAGEIITPAHIRRIRPGFGLPPKYFDQLIGKRVKGDVDRGTATSWELIDE	PGPT0025266_16	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025266-spsE-NA	NA	NA
BMS010_04539	672	bshB1	COG2120	N-acetyl-alpha-D-glucosaminyl L-malate deacetylase 1	ATGAGTAAGGTCGTTCTGGTCGTAGCCGCTCACTCCGACGATGAGGCTCTCGGGTGTGGTGGGACAATTGCCCGGCATGTGGCCGAAGGGGATACGGTCTATGCCGTATTCCTGGCCGACGGCGTCAGCTCCCGCGAAGGCACAGGAACCGTTGAGCTGAATAAGCGAATGGAGGCGGCTGAGCGCGCCCGTCAAATATTGGGTATTACCAAGAACTACTATCTGGGCCTACCAGACAATCGATTAGATACCTTGCCGTTGATCGAAGTTATTCACCCATTGGAAAAGGTTATCTCAGAAGTAAAGCCGCACACCATTTATACGCACCATTACGGTGACTTGAATGTAGATCACCGAATTGCACATCAAGCTGTTATGACGGCGTGTCGGCCTATGCCTAATAGCTCAGTGCGGAGCATTCTGGCCTTTGAAGTCATGTCCAGCTCCGAATGGAATACCCCGGGGGTTTTGCCCTTTACTCCCAATGTCTATAGCGATATTGCGTCTTTTCTAGATAAGAAAGTTGCTGCATTGCATGCCTACGCTCATGAAATGCGTGAAGTACCTCATTCTCGCAGTATTCATCACCTTGAAGTGTTGGCGCGACACCGTGGCGCCTGTGTTGGGTTGGTGGCGGCCGAGGCATTTATGCTGGTGCGAACGGTAGTTTAG	MSKVVLVVAAHSDDEALGCGGTIARHVAEGDTVYAVFLADGVSSREGTGTVELNKRMEAAERARQILGITKNYYLGLPDNRLDTLPLIEVIHPLEKVISEVKPHTIYTHHYGDLNVDHRIAHQAVMTACRPMPNSSVRSILAFEVMSSSEWNTPGVLPFTPNVYSDIASFLDKKVAALHAYAHEMREVPHSRSIHHLEVLARHRGACVGLVAAEAFMLVRTVV	PGPT0019570_1041	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0019570-bshB1-K01463	NA	NA
BMS010_04540	1017			hypothetical protein	ATGAAAGACTATAATGGTGATGTGATATTTGTCTGTCAGACACCCTTGCATTTCTATTTAACCCTTATGCTTTCTGGTGAATGGACCGGGAAAAAAGCTATTGTGTGGGTTTCAGAATCTAATGTAGATGAGCGGCTGCTCAGAATGGTTGCCGAAATTTCAATTTTTCGGATTCTGCGACTTCCTGGTGGGGCGCAAGTAGGGAGTAAAGTGCTCCGTATGTTGATTCGCAGCCTTAATGTGCTTCGTCTTAGGTTTTTTCAGAGAAGATTGCGGAGCCAGAGTTTGGTAGTATTTAACGATACTTCTCCTGAAACCCAGTATCTGATTGCTTCTTTTTACTCTCGAGGTGGAAGGGTGTTTCTGGCGGAGGATGGAGTAGCAACTTATTCAATCGGAGGAGTGGTGCCTGCAGGTATTATTTCTAGGTGGTTGGGAAAGATTTTGTATGGTTTTTGGTGGTCTCCTCAGGCAAAGATAGGCATGGATGATAGAGTCTCGGCTATATTTGCATCATATCCACAGCTTCTCAGAAGTGATGTTGTAAGGGCGAAAGATGTTCTGCAACTTCCCTCCTTGGAAACTCAGGATATCGATTTCTCCTTTGATCTTGGGCTGTATGATGACTTGTTATGTGTAATGCCTTTGGTCTCGTCTGTGGCTAATGATGAGCTTTGCCGTTTTTTAAAAGCTATAAAGACTAGTCGGAGATTGGCGATAAAATTACACCCCCGTGAGACAGATGCTGGCAGGGCGTATATTGATGAGCTTCTTGCTGGGAATGACTATTTTTATCTGCCCCGAGAAGCTCCAGTTGAGATTCTTTGTTTAAGTAATTCTAGTAAAATGGCAGTGGTGGGGTATAGAAGTTCTGCTCTGCATCTTTTGAAGTTTTTGAAGTCTGATTTGCGTGTTATGTATGTAGAATTTGCGTCAGATGATAAAGGGCGGGAATGGCTTGATTTTTATCGGCAGGTTGGGGTTGCAAATTTTTTTGATGATTACATGTTTTGCTGA	MKDYNGDVIFVCQTPLHFYLTLMLSGEWTGKKAIVWVSESNVDERLLRMVAEISIFRILRLPGGAQVGSKVLRMLIRSLNVLRLRFFQRRLRSQSLVVFNDTSPETQYLIASFYSRGGRVFLAEDGVATYSIGGVVPAGIISRWLGKILYGFWWSPQAKIGMDDRVSAIFASYPQLLRSDVVRAKDVLQLPSLETQDIDFSFDLGLYDDLLCVMPLVSSVANDELCRFLKAIKTSRRLAIKLHPRETDAGRAYIDELLAGNDYFYLPREAPVEILCLSNSSKMAVVGYRSSALHLLKFLKSDLRVMYVEFASDDKGREWLDFYRQVGVANFFDDYMFC				NA	NA	NA	NA	NA
BMS010_04541	1374			hypothetical protein	ATGGTTAATATAAATAGGGCACTTATAGTTTTGGGGGTGCTGCTCTTCGAGTTTTTTTTGACCTTGGCTGCTGAGTTGGATTTGATTCGCGGCGAGGGGGGAGTGCTTGGAAGCATAATTTTTCAGCTATTTTTGGCTATTCTTGGGGTAAAGATCTGCTTAAGGCAGAAGCAGTTTTTTTGCTCTCCCTTTTTTCTTTTTCTCTTTATGGTGGTGTTTTTCTCGGTCTTTGGGGAAGTTGTATTTATAGCGCGGGAGTATTTAGGGGTTGGATGGGGAGGGAGGCCTGATGAGGTCTCTATTTTTTTTAGACGCTTCTGTCTTGTTTCTTTTATTTTATTCATTCTGGCGTCTGGGATGAAGGTTGAAGTTTTATCTTTGTTTTCTTCTGATGAGATTGGTCGTGGGGTCGCTTTTAAATTTCTGACTCTTCTGTTTCTTGGGTATGTTGGAATTTTCATATCGACAAATGGCTTCTCTCAGGTTTCTCTTTTTAGTGAGAATCCTGATGCGGTTCGATATGAAAATAGGGAGGTTTCAAATGTTGCGGTGGGAAGTGTTTTTCTACTTGTTAGTACGTTGTCTGTTGTTCTTTTAATGGTCCTGAGGGAGGCTGGAAAGATCACTTTTCTATTCGGCTGTTTTATTTTTTTTATTTCCTACATTCCTTTGTTGTTGAGTGCTAGTCGTCTGCTCATGTTACTTCCATTTGTTTATGTGGCTATGATGAAAATTCAGTATCTTTCACGCTTGAAAGCTGCTTTCTTGTGGAAAGTGGCTGCTTTGGGAATTGTAGTGTTGTTATGTGCTTTTGTTTTTGGTGCTTATCGCACGTACGGTGATGATATTGATTTGAAAGCGGTCGTTAGATTCCTTGCTTCTGATATGTTTCCAGAGTTTTCGGGTACGGTCCGTACTCGTGAGCTCGTGAGTGATCAGGATTTCGTTACACCGCTCAGCACTGTCTTGAGTGGGCTTTTTCCTGGCAAATTTTTCCAGCTATTTGGTCTAGATAAATTTGAATATTTTCAGCTGGTTGGTCAGTTGGTTGGTGATATGTGGCGCTCGCAATATTCGATTCGGCTTTCACTGATGGGGGAGTTATATTACACAGATCTGTTGGGGCTTTTAGTCTTTTTTATTTTTCTTGCATTGTTTGTTTTTTATTTACATTGCAAGATCTTTTATTCTATAACGAATTATAGGTATATCTATGTTATGACTGGGGTTTTGGTGTCATTAAGTGTTCCGTATGGAGCCTTGTTCTTAGTTATTGCGATTCAGTTTTTTGTTTTTTCTCTTGCTCTTTTTAGTGTTATAAGGTTGGGGTGGCGGTCCTTGGTTATGCTTTCAAATAGTGGGAGAGAGGCGTGA	MVNINRALIVLGVLLFEFFLTLAAELDLIRGEGGVLGSIIFQLFLAILGVKICLRQKQFFCSPFFLFLFMVVFFSVFGEVVFIAREYLGVGWGGRPDEVSIFFRRFCLVSFILFILASGMKVEVLSLFSSDEIGRGVAFKFLTLLFLGYVGIFISTNGFSQVSLFSENPDAVRYENREVSNVAVGSVFLLVSTLSVVLLMVLREAGKITFLFGCFIFFISYIPLLLSASRLLMLLPFVYVAMMKIQYLSRLKAAFLWKVAALGIVVLLCAFVFGAYRTYGDDIDLKAVVRFLASDMFPEFSGTVRTRELVSDQDFVTPLSTVLSGLFPGKFFQLFGLDKFEYFQLVGQLVGDMWRSQYSIRLSLMGELYYTDLLGLLVFFIFLALFVFYLHCKIFYSITNYRYIYVMTGVLVSLSVPYGALFLVIAIQFFVFSLALFSVIRLGWRSLVMLSNSGREA				NA	NA	NA	NA	NA
BMS010_04542	273			hypothetical protein	ATGAATGGCAAAAGCATGAACAATATCAGGCATGAAATCGTCAATTGCAGAAAGCATTGCCTGCTTTTTATCATGGGAATAAAACATATCCCCAGCACCAAGAATCTTTCGAACGACCCCGCTCTCTACATAACTGGGTTGAGGTACAGTGTAAAGCGCACCTTCAACATTCAAATTCTCGGGACTTCCGGTACTAAAAAAAGCAACCGTATGACCATGCTCTCTCAAAACACGCGCCACCTCAAAATAAAATACCTCAGCCCCACCTTTTAG	MNGKSMNNIRHEIVNCRKHCLLFIMGIKHIPSTKNLSNDPALYITGLRYSVKRTFNIQILGTSGTKKSNRMTMLSQNTRHLKIKYLSPTF				NA	NA	NA	NA	NA
BMS010_04543	255			hypothetical protein	ATGCGTAAGATCGTGAGAGCGGGCCACTGCTTTCAAACTTTCCAACTCAGGCCCATCACCCACGATTTTTATCGGTACGGACGAATGCCGTGCTGCCTCTACGATACGGTCAACACCTTTCTCATCAACGAGGCGGCCGAAATACAAAGCATACTCTCCCGATGGCTCCACCCGGTACTCCGAAGCATCAAATGGGTTTCTCAAAAAGCCATGATCGAACTCAAAGTTTCCCCAAAAATCCTTTGTCTTCTCTAG	MRKIVRAGHCFQTFQLRPITHDFYRYGRMPCCLYDTVNTFLINEAAEIQSILSRWLHPVLRSIKWVSQKAMIELKVSPKILCLL				NA	NA	NA	NA	NA
BMS010_04544	219			hypothetical protein	ATGCGTGGCGGCATTCCCGAACTCGTCAATGAGGAGCGTGGCCTGTTGTTTGATCCTGATTGCGTTGAGCAATTGGTGGGATGCATGAACAAGTTGTGGGATAGCCCGGATCAATGTATTTCCATGGGACGCTCTGCGAGGCAGTTCGTTGAAAGCCAGTTCTCTGATGAAAGGTTCTATCAGGATCTGATGCTAAATTACCGGAGTGTCATGGCGTGA	MRGGIPELVNEERGLLFDPDCVEQLVGCMNKLWDSPDQCISMGRSARQFVESQFSDERFYQDLMLNYRSVMA				NA	NA	NA	NA	NA
BMS010_04545	909	galE_3	COG1087	UDP-glucose 4-epimerase	GTGAATGTATTGGTCCTTGGAGGTGGTGGGTTCATTGGCTCCCATATTGTTGAAGCGCTTGGCGCTCAGGAGATTAATGTCAGTGTCTTCAATCGAGGTATGCCCCTGCCTTGTTTGAATTGTGATTGGATTTCTGGCGACTTTCTTGACAAGCCTCTTTTGTTGAGCGCATTGCGAAATATCGACGTGGTGGTTCATAGTCTTGGAACATCGGTGCCTGCTACCAGTGCGATGGACCCCATTTTCGATGTTGAAAGTAATTTGGTCGGAACGCTTCAGCTTTTGGATGCCATGCGCGAGAGTGAAGTTTCGCGTCTTATTTATCTGTCTTCTGGTGGCACGGTTTATGGGAATTCCGGTATCGGTCTTGTATCCGAAAGATCGCCTTTGTCGCCTATTTCAAGCTATGGTGCTGTTAAAGTTGCTATTGAGAAGTTCATAGGGGTTGCTGCCCATGAGTGGGGGCTTCGCCCTGTAATACTTCGGCCATCTAACCCTTATGGGGAGCGGCAAACGATTGGTCGCCAGGGTTTGATAGCTAATATATTATATCGAGTACTCAAAGGTCAGCCGATAACGGTCTTTGGTGACGGTCTGAACGTTCGGGATTATATTTATGTTCGAGATCTCGCCGAACTTGTTGTTGCGGCGGTTCGTTCGGATGAAGTAGGGATATTTAACGTAGGGTCTGGCATCGGATATACGATCTTAGACATCATTCGCCTTGCTGAGAGTGTAACCGGAACGGTCATCCCGGTTGAGCGTTTGGCTGCTCGGCCATTCGATGTAAGAGAGATCGTTTTGGACTGCTCTTCTGCAGCTTCTGTGTTTGGATGGAGAGCGACTACTGATATTGATTCAGGCATGAAGGCTCATTTTGACTGGCTGAAGAAACAGGTTGCTTACTAG	MNVLVLGGGGFIGSHIVEALGAQEINVSVFNRGMPLPCLNCDWISGDFLDKPLLLSALRNIDVVVHSLGTSVPATSAMDPIFDVESNLVGTLQLLDAMRESEVSRLIYLSSGGTVYGNSGIGLVSERSPLSPISSYGAVKVAIEKFIGVAAHEWGLRPVILRPSNPYGERQTIGRQGLIANILYRVLKGQPITVFGDGLNVRDYIYVRDLAELVVAAVRSDEVGIFNVGSGIGYTILDIIRLAESVTGTVIPVERLAARPFDVREIVLDCSSAASVFGWRATTDIDSGMKAHFDWLKKQVAY				NA	NA	NA	NA	NA
BMS010_04546	1107			hypothetical protein	ATGAGCCGAAAGCTATTCATTCTAGGTATTCGGGGAGTGCCTGCCCAGCATGGCGGATTTGAAACCTTCGCTGAGAAGCTCGCGCTCTTTTTAGTCGAGCAGGGTTGGGAGGTTACGGTCTATTGCCAGGAAGATGGTTGCGGCCAAACTTGGGAGAGCGAGTGGTTCGGAGTCAGACGTATTCATATCCCGGTCTCTCGTGAGGGCGCGGCCGGAACCGTAATCTTCGATTGGCTGGCTACTCGACACGCGCTATCCCAGAAAGGGCTCTTTCTTACGCTCGGCTACAACACGGCTGTTTTTAACCTGCTGCAACGTGTCAAAGGTCAAGTCAATGTCATTAATATGGATGGCATCGAATGGCGCCGAGATAAATGGGGTACCGTCGCCAAGACCTGGTTTTGGTTGAATGAGCGGGCAGGCTGCTGGATTGGCAACCATCTGGTCGCCGATCATCCGAAGATCAAGGAGCATCTGGCCACTCGGGTATCAGCAGACAAAATAACCATGATCCCCTATGGCGGGGATGAGGTCATTGAAGCGGATACAGGCTTGTTGAGCCGTTACGACATCCAAGCCAATGAGTTTTCGGTCATCATTGCCCGCCCGGAACCCGAGAATTCGTTCCTTGAGATGGTGCGCGCGTTCAGTCGGAAGCGACGAAACCATAAGCTGGTTGTTCTTGGTAATTTCACGCCGGAAATCAATGCTTTCCATCGCCAGGTGATGGAGGCTGCCAGCGATGAGGTGGTGTTCCCAGGGGCAATATACGAGGCGCCCGTCGTGCAGGCGCTGCGCTTTCATAGTCGCTTCTACCTTCATGGTCACCGCGTTGGAGGGACCAATCCATCGCTCGTGGAGGCGTTGGGTGCCGGTTGTGCCGTCATCGCCCATGACAATCACTTCAATCGCTGGGTTGCCGGCCCCGAGGCAGCGTATTTCCAGAACGAAGCGGCTTGTGCCGAGCTATTCGACGGTCTTTTATACGACTTGGCATTGGTTGAGCGGATGAAGTCGGCTAGCCGGGCTCGTTTCAAGGAGCGCTTCACCTGGGAGCAGGTACTGCGGGAGTATGAGGACCTGTTGACCCGTTGGTATCCCAAATAA	MSRKLFILGIRGVPAQHGGFETFAEKLALFLVEQGWEVTVYCQEDGCGQTWESEWFGVRRIHIPVSREGAAGTVIFDWLATRHALSQKGLFLTLGYNTAVFNLLQRVKGQVNVINMDGIEWRRDKWGTVAKTWFWLNERAGCWIGNHLVADHPKIKEHLATRVSADKITMIPYGGDEVIEADTGLLSRYDIQANEFSVIIARPEPENSFLEMVRAFSRKRRNHKLVVLGNFTPEINAFHRQVMEAASDEVVFPGAIYEAPVVQALRFHSRFYLHGHRVGGTNPSLVEALGAGCAVIAHDNHFNRWVAGPEAAYFQNEAACAELFDGLLYDLALVERMKSASRARFKERFTWEQVLREYEDLLTRWYPK				NA	NA	NA	NA	NA
BMS010_04547	1098	rffG	COG1088	dTDP-glucose 4,6-dehydratase 2	ATGACTTCTCGCATTCTGGTCACCGGCGGCGCCGGCTTCATCGGCTCCGCCGTCGTTCGCCATCTGATCGGCAACACGGCATTCGAGGTCGCCAACCTCGACAAACTCACCTATGCCGGCAATCTGGAGTCCCTGGCGGCGGTGGCGGATTCGGCGCGTTATCGCTTCTATCACGTGGATATCTGCGATGCGCCTGCGCTGGAAAAGGTGTTTGCCGAGTTCCGGCCGACCGCGGTGATGCATCTGGCGGCGGAGTCCCATGTGGACCGTTCCATCGATGGGCCTGCGGATTTCATCGAGACCAATATCGTCGGTACCTACACATTGCTGGAGGTGGCGCGTCGCTATTGGAGCGCCTTGCCGGAGGAGGCGCGTAGTGCGTTCCGCTTCCATCACATCTCCACCGATGAGGTTTATGGCGATCTGGAGGGTACGGACGATCTCTTCACCGAGACCACGCCCTATGCACCCAGCTCCCCTTATTCGGCTTCCAAGGCCAGTTCGGACCATCTGGTTCGCGCCTGGCATCGCACCTATGGCCTGCCGGTGCTGGTGACCAATTGCTCGAACAACTACGGGCCGTACCACTTCCCGGAAAAGCTGATCCCTCACATGATCCTCAACGCGATCCATGGCAAGCCGCTGCCGGTGTATGGCGACGGCTCGCAGATTCGCGACTGGCTCTATGTGGAGGACCATGCGCGGGCTTTGTGCGAAGTGGTGTGCCGGGGCGTGGTGGGCGAGACCTACAACATCGGCGGGCATAACGAGAAGCGGAATCTGCAAGTGGTGGAGACGATCTGCGACCTGCTGGATGCCTTCGCCCGTGAGGGGAAATGCGTGAGGGGTGAGGGGTTGAAGTCCTTCCGAGACCTCATCACCTTCGTCAAGGACAGGCCCGGACACGACCGGCGCTACGCCATCGACGCGAGCAAGATCGAGCGAGAGCTGGGGTGGAAGCCGCAGGAGACGTTCGAGAGCGGAATCCGCAAGACGGTTCAGTGGTATCTGGATAACCGCCAGTGGTGGGAAAGGGTACTGAGTGGAGCGTATCGGTTGGAGAGAATTGGGAGTGAGGGGGGAGTGTGTGAGGTGTAA	MTSRILVTGGAGFIGSAVVRHLIGNTAFEVANLDKLTYAGNLESLAAVADSARYRFYHVDICDAPALEKVFAEFRPTAVMHLAAESHVDRSIDGPADFIETNIVGTYTLLEVARRYWSALPEEARSAFRFHHISTDEVYGDLEGTDDLFTETTPYAPSSPYSASKASSDHLVRAWHRTYGLPVLVTNCSNNYGPYHFPEKLIPHMILNAIHGKPLPVYGDGSQIRDWLYVEDHARALCEVVCRGVVGETYNIGGHNEKRNLQVVETICDLLDAFAREGKCVRGEGLKSFRDLITFVKDRPGHDRRYAIDASKIERELGWKPQETFESGIRKTVQWYLDNRQWWERVLSGAYRLERIGSEGGVCEV	PGPT0022625_1196	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0022625-rfbB|rmlB|rffG-K01710	NA	NA
BMS010_04548	321			hypothetical protein	ATGCAGGTGGTCGAGGAGGTTTATCGGTTGACCAAGGGCTTTCCTGCTTCCGAGCAATATGGGCTTACCAGCCAGATGAGACGGGCTGCGGTTTCGGTGCCGAGTAATATTGCCGAGGGCGCGGCCAGGGGCACTACGATGGACTTCGTTCGCTTCCTGGTTATCGCACGAGGTTCGCTCAGTGAATTGGAAACGCAATGTCTGCTCGCGCGGCAACTGGGTTTCCTGGATAACGCTGACACTCCTCTTGGCCTGATCGACCAAACGTTCTCCCAACTCGGCGGCCTGATCCATTCATTGAAGAACCGGACCACACAATGA	MQVVEEVYRLTKGFPASEQYGLTSQMRRAAVSVPSNIAEGAARGTTMDFVRFLVIARGSLSELETQCLLARQLGFLDNADTPLGLIDQTFSQLGGLIHSLKNRTTQ				NA	NA	NA	NA	NA
BMS010_04549	912	rffH	COG1209	Glucose-1-phosphate thymidylyltransferase 2	ATGACGTCACCCCTCACTACCACCCCCTCACCCCTCACCTATAAGGGCATCATTCTGGCCGGTGGCTCCGGCACCCGGCTGCACCCTATTACCTTGGGTGTCTCCAAGCAACTGCTGCCGATCTACGACAAGCCGATGATCTACTACCCGCTGTCGGTGCTGATGCTGGCGGGGATTCGCGAGGTGCTGGTGATTTCCACCCCGGACGACCTGCCGGGTTTCCAGCGCATGCTGCGCGACGGCAGCCAGTTCGGCATGAGCATCCAATATGCCGAGCAGCCGAGCCCGGACGGGTTGGCTCAGGCGTTCATCATTGGTGCGGATTTCATCGGCGACGACAACGTCTGCCTGGTGCTGGGCGACAACATCTTTTACGGCCAGCACTTCTCTGAGGCGCTGCAGGAGGCGGTTTCGCGGCAGAGCGGGGCGACGGTGTTCGGTTACCACGTGCAGGACCCGCAGCGCTTCGGCGTGGTGGAGTTCGATGCCCAGGGGCGTGCGGTGAGCATCGAGGAAAAGCCAGCCAAGCCGAAGTCCAACTACGCGGTGACCGGTCTGTACTTCTATGACAACGACGTGGTGGAGGTCGCCCGGGCTATCAAGCCCTCCGCCCGTGGCGAACTGGAAATCACCGATGTGAACAACGCGTACCTGAAACGCGGCGACCTGCATGTGAGCCTGCTGGGGCGTGGCTTCGCCTGGCTGGATACCGGCACCCACGATTCGCTGCTGGAGGCAGGCCAGTTCGTGCAGACCATCGAGCATCGCCAGGGGCTGAAGGTGGCCTGCCTGGAGGAAATCGCCTTCCGCCAGGGTTGGATCGATGCCGAGCGACTGCTGCGCCAGGCCGACGAGTTGAACAAGACCGGTTATGGCCAGTATCTGCGACGGGTAGCCGAGGGGTACCAGTAA	MTSPLTTTPSPLTYKGIILAGGSGTRLHPITLGVSKQLLPIYDKPMIYYPLSVLMLAGIREVLVISTPDDLPGFQRMLRDGSQFGMSIQYAEQPSPDGLAQAFIIGADFIGDDNVCLVLGDNIFYGQHFSEALQEAVSRQSGATVFGYHVQDPQRFGVVEFDAQGRAVSIEEKPAKPKSNYAVTGLYFYDNDVVEVARAIKPSARGELEITDVNNAYLKRGDLHVSLLGRGFAWLDTGTHDSLLEAGQFVQTIEHRQGLKVACLEEIAFRQGWIDAERLLRQADELNKTGYGQYLRRVAEGYQ	PGPT0022600_2141	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0022600-rfbA|rmlA|rffH-K00973	NA	NA
BMS010_04550	537	rfbC	COG1898	dTDP-4-dehydrorhamnose 3,5-epimerase	ATGAGGGTGATCGAGACGGCCATCGACGGGGTGAAGATCATCGAGCCGAGGGTGTTCGGCGACGAGCGCGGCTTCTTCCTGGAAACCTTCCAGGCCCGGCGCTATGCCGAGGAGGCGGGCATCGATCTGCCGTTCGTGCAGGACAACCACTCCCGCTCGGCGAAAGGTGTGCTGCGCGGGCTGCACTTCCAGAAGACCAAGCCACAAGGCAAGTTGGTGCGGGTGGTGCGGGGCGAGGTGTTCGACGTGGCGGTGGATGTCCGCCGCGATTCGCCGACCTTCGGTCGCTGGGAGGCGGTGATCCTCTCCGAGGAGAACAAGCGGCAGTTCTGGGTGCCGCCGGGCTTGGCCCATGGCTTCGTCGTGCTCTCCGAGACGGCCGACTTCGAATACAAGTGCACCGATTACTACGATCCCAGCGATGAGGCCTGCCTGATCTGGAACGACCCCACCGTGGGTATCGAATGGCCACTGGCGGAGCCACAGCTTTCCGCCAAGGATGCCCAGGGGCTGACGCTCCGGGAGCTGTTCGGATGA	MRVIETAIDGVKIIEPRVFGDERGFFLETFQARRYAEEAGIDLPFVQDNHSRSAKGVLRGLHFQKTKPQGKLVRVVRGEVFDVAVDVRRDSPTFGRWEAVILSEENKRQFWVPPGLAHGFVVLSETADFEYKCTDYYDPSDEACLIWNDPTVGIEWPLAEPQLSAKDAQGLTLRELFG	PGPT0014300_3833	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PUTATIVE_TRYLOSE_DERIVATES_MODIFICATION,PGPT0014300-rfbC|rmlC-K01790	NA	NA
BMS010_04551	873	rmlD_2		dTDP-4-dehydrorhamnose reductase	ATGAAGGTAGTGGTGACGGGGGCCAACGGCCAGGTCGGGCGTTCGCTGGTGGAGCGCCTGGAGCACTCGGACTGGCAATGGGAAGCCCATGGGCGGGATACCCTGGATATCGCTGATGCAGCGGCCGTGGCGGCGCTGCTGGAGCGCTTCCGGCCGGACGTGGTGATCAATGCCGCTGCCTATACGGCCGTCGATAAGGCCGAGGCGGAGCCGGATGCGGCACGGCGCGGCAACGTGGAGGGGCCGGCCGTGCTGGCCCGGGCGTGTCATGCGGTGGGCTGTGCATTGGTTCATCTCTCCACCGACTATGTGTTTTCCGGCGAGGCCGAACGGCCCTACGTGGAAACCGATCCCACCGCCCCCCAGGGTGTGTACGGGCGCACCAAGCTGGAAGGGGAGGCGGCCATTCGCGACGCCTGTCCGGCGCATGTGATCGTGCGTACTGCCTGGGTGTTCGGCGAGCACGGGCACAACTTCATGAAGACCATGCTGCGGCTGGCTGGCGAGCGCGATGAGTTGCGTGTGGTCGATGATCAGCAGGGGTGTCCGACCTATGCCGGCGATATCGCCGATGCCGTGCTGCGCATCGCCGAGCGGCTGGTCGCTGGGGGAGAAGGGTTGTATGGCACCTACCATTTCGCCGGCGACAAGGCGGTGACCTGGTGCGGGTTCGCCCGTGCGATCGTTGCCCGGGCAGTGGAGGTGGGGGCGATTGCCAAGGCTCCCCGGATCGTGGGAATCGCTACCCATGAATATCCCACGCCGGCAAAGCGCCCCGCCTATTCGGTGCTGGATTCGTCGCGCATCGGCGCGGCATTCGGCGTTCCGCCTTCCGATTGGCAAGGGGCGTTGGCCAGGATTCTGGTGGTCTGA	MKVVVTGANGQVGRSLVERLEHSDWQWEAHGRDTLDIADAAAVAALLERFRPDVVINAAAYTAVDKAEAEPDAARRGNVEGPAVLARACHAVGCALVHLSTDYVFSGEAERPYVETDPTAPQGVYGRTKLEGEAAIRDACPAHVIVRTAWVFGEHGHNFMKTMLRLAGERDELRVVDDQQGCPTYAGDIADAVLRIAERLVAGGEGLYGTYHFAGDKAVTWCGFARAIVARAVEVGAIAKAPRIVGIATHEYPTPAKRPAYSVLDSSRIGAAFGVPPSDWQGALARILVV	PGPT0022630_430	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PUTATIVE_TRYLOSE_DERIVATES_MODIFICATION,PGPT0022630-rfbD|rmlD-K00067	NA	NA
BMS010_04552	1389	wcaJ_2	COG2148	UDP-glucose:undecaprenyl-phosphate glucose-1-phosphate transferase	ATGCAGCCGATTCCTCGTTACCAGCCCACCTTTGCCGAGCGTTATCCCGTCCCGCTGTTCGCGGCCCTGCTCGATATCCTGCTGGTGATCGCCTCAGGCTTTCTGGCCTATTACGTTCGCTTCGGCACATTCGAGATGCCGGGGCGTTACAACACGGCGACGTTGTTGAGCGCCATCCTGGTGATGTTCTGCCTAATGATGGGTGGTGTATACGGCTCCTTGCGCGGGCTGAGCTTTCGTCGCCAGCTTAGTCTGATCACGGTCGGTTGGTTGGCAGCCGCCGGTATCCTCCTGTCGTTGTCGTTCTTTCTTAAGGTTTCCACTAATTATTCGCGGATCTGGTTCACCACCATGCTGCTGATCGGCGGCGGCTCGAGTGTCCTGCTCCGCCTGACCATCTTCCTGTTGTTGCGCCGCTTGCGCTCGGCCGGGCATAACCTGAAGTCGGTGCTGTTGGTGGATTCCGGTGGGCGCTCTGCCGAACTTCTCAACGGTGGTCGACGTCATCTGAGCGAGTACGGTTTCCGCATGGCCCACAACCTACCGTTCGAGCGCGGCGATGCCTGGCTGGACGAGCTGGTGACGACTGTGGAAGCACACGGGGTGCATGAAGTTTGGTTGTGCCTACGGTTGAACGAGGGTGATGCCATACGCGGCATTCTCTATGCATTACGCCACCATACCGTCGAGGTGCGCTTCATTCCGGAGTGGGGTGATATTCCTTTGCTCAACCATAAGGTCAGCCATATCGCCGGGTTGTACTCGCTCGACCTGAGCTGCAGCCCCATGGATGGCCCGGCGAGGATCGTCAAGCGCCTTGAGGACGTGCTGATCGGCGGACTCATCAGCCTCCTCATTCTGCCTGTCTGCCTAATCATTATCGTAGCGATCAAAACGACGTCTCCAGGCCCGGCGGTGTTCAAGCAGTACCGCACGGGTATCAACGGAAAGAAGTTCAAGGTCTACAAATTCCGCTCGATGGTGGTGCACAAGGAGTGCGATGGTGCCGTCACCCAGGCCACGCGCCAGGATGCCAGGGTCACGCGGGTCGGAGCCTTCCTGCGCCGGACCAGCCTCGACGAGTTGCCGCAATTCTTCAATGTGCTGCAGGGCCGAATGTCCATTGTCGGACCTCGGCCCCATGCGCTGGCGCACAACGAATATTACAAGGATCTGGTTGAATCCTACATGCAGCGACACAAGGTCAAGCCGGGGATCACCGGTTGGGCCCAGGTCTGCGGCTATCGGGGCGAGACGGACACTATCGAGAAGATGCAGAAGCGTGTGGAACACGATCTCTGGTATATCGATAACTGGTCACTCTGGCTGGATCTGAAAATAATTTTCTGGACGATCTTCAAAGGCTTCATCAATAAGAACGCCTATTGA	MQPIPRYQPTFAERYPVPLFAALLDILLVIASGFLAYYVRFGTFEMPGRYNTATLLSAILVMFCLMMGGVYGSLRGLSFRRQLSLITVGWLAAAGILLSLSFFLKVSTNYSRIWFTTMLLIGGGSSVLLRLTIFLLLRRLRSAGHNLKSVLLVDSGGRSAELLNGGRRHLSEYGFRMAHNLPFERGDAWLDELVTTVEAHGVHEVWLCLRLNEGDAIRGILYALRHHTVEVRFIPEWGDIPLLNHKVSHIAGLYSLDLSCSPMDGPARIVKRLEDVLIGGLISLLILPVCLIIIVAIKTTSPGPAVFKQYRTGINGKKFKVYKFRSMVVHKECDGAVTQATRQDARVTRVGAFLRRTSLDELPQFFNVLQGRMSIVGPRPHALAHNEYYKDLVESYMQRHKVKPGITGWAQVCGYRGETDTIEKMQKRVEHDLWYIDNWSLWLDLKIIFWTIFKGFINKNAY	PGPT0023345_836	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-COLANIC_ACID_METABOLISM	CE-EPS-COLANIC_ACID_BIOSYNTHESIS,PGPT0023345-wcaJ-K03606	NA	NA
BMS010_04553	1221			hypothetical protein	ATGAATTGGATTCGAGTCGACCAGGCGAACGCTGTGGTGAGGGTGTTGCTGGTTGTGCTGGGTGTTGGGGTATTCGCTCAGTTGTGTGGGTTGTTGTTCAATAATGATGGTAGCCGTTACGCAACGCAGCTCTATCTGGGGCTGTTCTTGCCAGCCTTGTTGCTATTGCTCGCGTTGCGGTTGGCACCGACGTTTTGGAAACAAGCGCCCTCCATCATATTTCTTCTATTGGCAGGGTGGGTGCTTCTCGCCACGCTGTTCGATAACTCCCAGGACGACTTCGCCCGGACTTTCAAGATAGTGACGCTCATAGCCCTCTACTTGTTCGCTGTGGGCTCCTTGGTTAGAAGCGAGCGGCATTTTCATGTGGTCCTGTTGGTAGCTGTAGCAGTGGTGGCTTTATTTGCCTGGTTGACGCTGTATTACCAGTTTGGAGTCTTGGAAAAATCTACTGAGTACAGCCAGTTTCGCTGGAATCGGCTTCATGAACTGGGTTGGGGTGGACTGGCTGACCTGAGACATCCAATCATCGCCGGGCTTTATTACGGTGTGTTCGCGATAGTCCTCAGCTATTTTTTTGTTCGCTTCAGATTATCCTTTTTACAAGTCGCATTAATCGCAGTTGCTATGTTCGGCTTGGCAGCTTACATCTTGTATACCGCTTCTCGTGGAGCATGGTTTTCCCTAGCAGTAGGAGCAACCGTGCTTCTGGTTGGTTTCGACAGTCGAAAGTCCTGGAGTCTTTTGGCTCTAGGAGGAATATTGCTGATCACTTCTATTTTGCTGTTTTGGCCCGAAATCCAAGCGGAAAAAAAAGTTGGGCTGAGTAATCGTGAATATATCTGGGCTGAGTGGTTACGTCGTTTCCCTGATTTCTGGTTACTGGGTGCTGGGTCTGGAGCGGAGTTCAAGTTTCGATTCCCGAGTGGATATACCGTCTTCCACAGCCACAGTCTCTACCTGCAACTTTGGTTCGAATACGGTCTCCCCGGCATTACCTTGTTCGCCCTGTTCATCGGCAGCCTGTTCTGGAAAGGATGGATGTGCAGGGCGCAGCCTTTGGCCAAGCTGGGAATAGCACTCCTGGTGTTCGCAATGGTGGCCATGGTGTCCGATATCTATGCCATCTTCCTTCGGCCCAACCCTTACTGGGTGGTGTTCTGGTTTCCAGTGGGGATTTTGCTGGGTGTAAAGCCTGAGAGATCGCTCCGTATTGGGTGA	MNWIRVDQANAVVRVLLVVLGVGVFAQLCGLLFNNDGSRYATQLYLGLFLPALLLLLALRLAPTFWKQAPSIIFLLLAGWVLLATLFDNSQDDFARTFKIVTLIALYLFAVGSLVRSERHFHVVLLVAVAVVALFAWLTLYYQFGVLEKSTEYSQFRWNRLHELGWGGLADLRHPIIAGLYYGVFAIVLSYFFVRFRLSFLQVALIAVAMFGLAAYILYTASRGAWFSLAVGATVLLVGFDSRKSWSLLALGGILLITSILLFWPEIQAEKKVGLSNREYIWAEWLRRFPDFWLLGAGSGAEFKFRFPSGYTVFHSHSLYLQLWFEYGLPGITLFALFIGSLFWKGWMCRAQPLAKLGIALLVFAMVAMVSDIYAIFLRPNPYWVVFWFPVGILLGVKPERSLRIG				NA	NA	NA	NA	NA
BMS010_04554	996	gnu	COG0451	N-acetyl-alpha-D-glucosaminyl-diphospho-ditrans,octacis-undecaprenol 4-epimerase	ATGCAGATCGAGTTTTCCTATAACAACAAGAAGGTGGGGCAGATGACGAGTCGCTGCTGCCTGGTCACTGGGGCATCCGGTTTTGTCGGGACGGCTCTTGTCGAGCGGCTCAGATCGGAAGGGCGCATTGTGCGTGTTTCTGTGCGGAGCGGCACCGTGGGGAATGGCGAGAAATTCGTTACGGGAGACCTCTGCGCCAATGTTGACTGGTCCTCCGCTTTGGATGGGGTGGATACGGTCGTCCACTGCGCCGCGCGCGTGCATGTGGTGCACGAGCGCCATGCCGATCCGCTGGCGGCGTTCCGCGCCGTCAATGTCCGGGGAACCCTGAGTCTGGCGCGGCAGGCTGCGGCTGCGGGGGTACGGCGGTTCGTCTTTCTCAGTTCGGTGAAGGTGAATGGCGAGGGAGGAACGGTGCCCTATAGCGCCGCTGATCCGGCCCAGCCCGCCGACCCCTACGCACTGTCCAAGTTCGAGGCCGAACAGGGCCTGCGTGAATTGGTCCGGACATCCAGCATGGAGCTTGTGATCATCCGGCCACCGCTGGTCTACGGGCCCGGTGTGAAAGCCAATTTCCTCAACCTGATGCGCTGGCTGTACCGGGGCGTGCCGCTACCCCTGGGGTGCGTCGATAACCGACGCAGCTTCGTGGCGCTGGATAATCTGATCGACCTCATCCTCCTGTGCCTCGACCATCCGGCGGCAGCGAACCAGACCTTTCTCGTCAGCGACGGGGAGGACCTGTCCACGGCGGACTGGCTGCGGCGGCTGGGCGTTGCGCTGGGGCGGCCGGCGCGTCTGTTGCCGGTCCCGGCGCCCTGGCTGGAGACGGGCGCCGCCTGGTTGGGCAAAGGCGACGTCGCTCGTCGGCTGTGTGGCTCGTTGCAGGTGGATATTGGCAAGACCCGCGAACTGCTTGGGTGGACGCCTCCGGTCGCTATCGATGAGGCGTTGCGGAGCACGGCCGAGGCTTTTCTCGAAGGGCGGGGCCGATGA	MQIEFSYNNKKVGQMTSRCCLVTGASGFVGTALVERLRSEGRIVRVSVRSGTVGNGEKFVTGDLCANVDWSSALDGVDTVVHCAARVHVVHERHADPLAAFRAVNVRGTLSLARQAAAAGVRRFVFLSSVKVNGEGGTVPYSAADPAQPADPYALSKFEAEQGLRELVRTSSMELVIIRPPLVYGPGVKANFLNLMRWLYRGVPLPLGCVDNRRSFVALDNLIDLILLCLDHPAAANQTFLVSDGEDLSTADWLRRLGVALGRPARLLPVPAPWLETGAAWLGKGDVARRLCGSLQVDIGKTRELLGWTPPVAIDEALRSTAEAFLEGRGR	PGPT0022965_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_D_QuiNAc_MODIFICATION,PGPT0022965-wbpV-K24310	NA	NA
BMS010_04555	1023	wecA		Undecaprenyl-phosphate alpha-N-acetylglucosaminyl 1-phosphate transferase	ATGAGCGCTTTCTGGCTGCTGCCGGTTGTCGCGGGGCTGGCGTTGCTGCTCACCGGGGCCATGCGACACTACGCGCTGTCGCGTAGCCTGCTGGATATTCCCAATGCCCGCAGCTCGCATTCGCAACCCACGCCGCGGGGTGGTGGGGTCGCGATCGTCATCAGCTTCCTGGCGGCCTTGCCATTGCTGGCGCTGTCCGGCCTGCTGCCGTGGCCGATGGTCTGGGCCTTGCTGGGCGCCGGGGGGCTGGCGGCTGGTGTGGGGTTTCTCGACGATCACAGCCATGTCGCGCCCCGCTGGCGCCTGCTGGCCCATTTTGCCGGGGCGCTCTGGCTGTTGGCCTGGCTGCAGGGGCTGCCGCCACTCGTCTTGCTTGGGCGAACCCTGGACCTGGGGCTGCTGGGAGATATGCTGGCAGCGTTCTATCTGGTCTGGTTGTTGAACCTGTACAACTTCATGGATGGCATCGATGGCATTGCCTCGGTGGAGGCCATCTGTGTCTGCCTGGGCGGTGCCGTGCTCTATGCGTTGGTCGGGCAGTCGCTCCTGGCGCTGATGCCCTTGCTGCTGGCCGCGGCGGTCGCTGGTTTTCTTTATTGGAATTTCCCGCCGGCGCGGATTTTTCTCGGGGATAGCGGCAGTGGCTTCCTCGGTATCGTCCTCGGTGGTCTATCGTTGCAGGCAGCCTGGGTCGATCCTCGTTTGCTATGGGGATGGCTGATCCTGTTGGGCGTGTTCCTGATGGATGCCACGCTGACACTGTTTCGACGCCTGGCCAGGGGGGAAAAGGTCCTCGAGGCCCATCGCAGCCATGCCTATCAAGTGGCGGCCCGTCGGTACGGCGGGCATCTACCGGTCACTCTGGCGACGGGGGCGCTGACACTGTTCTGGCTGTTGCCGATTGCCGCCTGGGTGGCGCTCGGTCGGCTGGATGGCCTGGTTGGGTTGTTGCTGGCCTATGCGCCCCTCGGCCTGCTGGTACTGCGGGAAACCGGTATGCGCGCCTGGAGTCCGGGAGGCTGA	MSAFWLLPVVAGLALLLTGAMRHYALSRSLLDIPNARSSHSQPTPRGGGVAIVISFLAALPLLALSGLLPWPMVWALLGAGGLAAGVGFLDDHSHVAPRWRLLAHFAGALWLLAWLQGLPPLVLLGRTLDLGLLGDMLAAFYLVWLLNLYNFMDGIDGIASVEAICVCLGGAVLYALVGQSLLALMPLLLAAAVAGFLYWNFPPARIFLGDSGSGFLGIVLGGLSLQAAWVDPRLLWGWLILLGVFLMDATLTLFRRLARGEKVLEAHRSHAYQVAARRYGGHLPVTLATGALTLFWLLPIAAWVALGRLDGLVGLLLAYAPLGLLVLRETGMRAWSPGG	PGPT0023190_153	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0023190-wbpL-K13007	NA	NA
BMS010_04556	2016	pglF	COG1086	UDP-N-acetyl-alpha-D-glucosamine C6 dehydratase	ATGGATCGCTTCGAGCTGCGTACATGGCTGTTGAGCTGGCCCAGAGGGTACAAGCGCCTGTTGCAGGTGGCCGTCGACGTCGTGCTGACCTGGCTGGCGCTGTGGCTGGCGTTCTGGGTGCGTCTGGGCAGCGAGCATCTGGTCGATCCGTTCGGCGTCTATGCCTGGCTCTTCCTGGTCTGCCCGCTGATCGCCATTCCGATCTATATCCGGCTCGGCATGTACCGTGCCGTGCTGCGTTACCTGGGCAACGATGCGTTGCTGACCATCTTCCGCGCAGTGACGTTGTCGTCCCTGGTTCTGGCGCTGGTGGTCTATTGGCACCGGGATGTACCCGCGGTGGTGCCGCGATCGCTGATTTTCAATTTCTGGTGGCTCAGCCTGCTGATGACCGGCGGTCTGCGGTTGTTGATGCGGCATTACTTCATGGGCGATTGGTTCAACGTACGCCAGGCCATGCACTTCGCTCCGCCGAAGAACGATGGCCTGCCGAAGGCTGCTATCTATGGTGCCGGCACCGCGGGTAACCAACTGGTGGCGGCATTACGGATGGGGCGGACGATCCGGCCGGTGGCGTTCATCGACGATGATGCCAGCCTTAATAACCGCACCATCGCCGGGCTCAAGGTGTACCGGCCGAAGTACCTTGCGCGGATGATCGAAGAGACCGGTGCCCAGCAGGTTCTCCTGGCGATGCCGTCGGTGACGCGCGCTCGCCGCCGGGAAATCCTGCAGTTGCTCGAAGGTTTCCCGCTGCATATCCGTACTGTGCCCGGTCTCATGGATCTGGCGAGTGGCCGGGTGAGGGTGGATGACATCCGGGAAGTGGATATTGCCGACCTGCTGGGGCGCGACCCGGTTCCGCCCCGTCAGGATCTGTTCGAGCGCTGCATTCGTGGCAAGGTGGTGCTGGTAACTGGCGCCGGCGGTTCTATTGGAGCGGAACTGTGCCGGCAACTGTTGGGCAGCGGACCACATACCCTGCTGCTGTTCGACCACAGCGAGTTCAACCTCTACAGCATCCATGCCGAACTGGAGGAGCGGGTGGTCCGCGAGTCGCTGCCTCTGCGCTTGGTTCCACTGCTAGGCTCCGTGCGCGATGGTCGCCAGATGCATGAGTTGATGCGGACCTGGTCGGTGGACACCGTCTACCATGCAGCCGCCTACAAGCATGTGCCGATGGTCGAGTACAACATTGCCGAGGGCGTGTTGAACAACGTGCTCGGCACGCTCAATACGGCCCAGGCCGCGATCATGTCCGGCGTCGGGCACTTCGTACTGGTATCCACCGACAAGGCCGTTCGGCCGACCAACGTGATGGGCAGCACCAAGCGGCTGGCTGAAATGCTCCTTCAGGCGTTGAGTCGGGAGCCGGCACCGCTGCTGTTCGGCGATGCCGATGGTGTGCATCGGCTCAATCAGACGCACTTCAGTATGGTGCGGTTCGGCAATGTGCTGGGATCGTCGGGCTCGGTGATTCCCCGCTTCCGCGAGCAGATTCGTGGAGGAGGACCGGTGACCGTGACGCACCCGCACATCACTCGCTATTTCATGACCATTACCGAGGCCGCCCAACTGGTCATCCAGGCGGGGGCGATGGGACAGGGCGGCGATGTATTCGTCCTGGACATGGGGCAGCCGGTAAAGATCCACGAACTGGCCGAGCGCATGATCCATCTCTCCGGGCTTAGCGTTCGCTCGGAGCGCAATCCCCATGGGGATATCGCAATCGAATTCACGGGGTTGCGCCCCGGGGAAAAACTCTATGAAGAACTGCTGATCGGCGGCGACACCAGCCCGACGGAACATCCGATGATCCTCCGCGCCAAAGAGGAATACCTGGCCTGGGAACCGCTGAAAGGCCTACTCCAAACCCTGTTCGACAACGTCGAGCGAGGCGACATGGCCAGGGTCCGGCAGCTGCTTCGTGAAGCAGTTAGCGGTTATGTGCCGGAAGGTGACATAGTTGACTGGAGCCACCAGAGACGCGTCTGGAATCTGGAAGAACGGGTTTGA	MDRFELRTWLLSWPRGYKRLLQVAVDVVLTWLALWLAFWVRLGSEHLVDPFGVYAWLFLVCPLIAIPIYIRLGMYRAVLRYLGNDALLTIFRAVTLSSLVLALVVYWHRDVPAVVPRSLIFNFWWLSLLMTGGLRLLMRHYFMGDWFNVRQAMHFAPPKNDGLPKAAIYGAGTAGNQLVAALRMGRTIRPVAFIDDDASLNNRTIAGLKVYRPKYLARMIEETGAQQVLLAMPSVTRARRREILQLLEGFPLHIRTVPGLMDLASGRVRVDDIREVDIADLLGRDPVPPRQDLFERCIRGKVVLVTGAGGSIGAELCRQLLGSGPHTLLLFDHSEFNLYSIHAELEERVVRESLPLRLVPLLGSVRDGRQMHELMRTWSVDTVYHAAAYKHVPMVEYNIAEGVLNNVLGTLNTAQAAIMSGVGHFVLVSTDKAVRPTNVMGSTKRLAEMLLQALSREPAPLLFGDADGVHRLNQTHFSMVRFGNVLGSSGSVIPRFREQIRGGGPVTVTHPHITRYFMTITEAAQLVIQAGAMGQGGDVFVLDMGQPVKIHELAERMIHLSGLSVRSERNPHGDIAIEFTGLRPGEKLYEELLIGGDTSPTEHPMILRAKEEYLAWEPLKGLLQTLFDNVERGDMARVRQLLREAVSGYVPEGDIVDWSHQRRVWNLEERV	PGPT0022960_26	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_D_QuiNAc_MODIFICATION,PGPT0022960-wbpM-K24300	NA	NA
BMS010_04557	327		COG1555	putative protein	ATGCGTAAATCGCATTTCTCTTCCCTTCTGTTCGCCCTCCTGGCCAGTGTTTCCGTAGCGGTTACCGCAGCGGAGGCCCCCAAGATTTCTCCCGTCGCTCCGGTTGCCGCGCAGGCCTCCGCCGAGGTGGGCAAGGTCAATCTCAATTCCGCCGATGCGGCTACGCTGCAGCGTGAGCTGAATGGTGTGGGTGAGGTCAAGGCGAAGGCGATCGTGGACTATCGCGATGCCAATGGCCCGTTCGCTTCGGTGGATGAGCTGCTGGAGGTGAAAGGGATCGGGGCGGCAACGCTGGAAAAGAATCGCGACAAGTTGACCGTTCAATAA	MRKSHFSSLLFALLASVSVAVTAAEAPKISPVAPVAAQASAEVGKVNLNSADAATLQRELNGVGEVKAKAIVDYRDANGPFASVDELLEVKGIGAATLEKNRDKLTVQ	PGPT0029410_3192	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029410-comEA-K02237	NA	NA
BMS010_04558	2847	rapA	COG0553	RNA polymerase-associated protein RapA	ATGGCGCAGCAGTATCAACCGGGGCAACGCTGGATCAGCGACAGCGAGGCGGAACTGGGGCTCGGAACCATCCTGGCGCAAGACGGCCGGCTGCTCACGGTGCTCTACCCGGCCACCGGCGATACCCGCCAATATGCCCTGCGCAACGCCCCGCTCACCCGTGTGCGCTTCGCGCCGGGCGACGAGATCACCCACTTCGAAGGCTGGAAGATGACCGTGCGCGAAGTCGAGGACGTCGACGGCCTGCTGGTCTACCACGGTCTCGACGGCCAGAACCAGGCACGCACCCTGCCGGAAACCCAACTGTCCAACTTCATCCAGTTCCGCCTGGCCAGCGACCGCCTGTTCGCCGGGCAGATCGACCCGCTGAACTGGTTCGCCCTGCGTTACCACACTCTGGAGCACCAGAGCCGCCTGCAACAATCCTCGCTGTGGGGCCTCGGCGGCGCCCGCGCCCAGCCGATCGCCCACCAGTTGCACATCGCCCGCGAAGTGGCCGATCGCATCGCCCCACGCGTCCTGCTGGCCGACGAAGTAGGCCTCGGCAAAACCATCGAAGCCGGCCTGATCATCCATCGGCAACTGCTCTCCGGCCGTGCCAGCCGGGTGCTGATCCTGGTTCCGGAGAACCTGCAACACCAGTGGCTGGTGGAGATGCGCCGGCGCTTCAACCTGCAGGTCGCGCTGTTCGACGCCGAGCGTTTCGCCGAAAGCGATGCCAGCAACCCCTTCGAAGACGCCCAACTGGCCCTGGTCTCCCTGGAGTGGCTGAAGAGCGACGAACGCGCCCAGGACGCCGCCTTCGCCGCCGGCTGGGACCTGCTGGTGGTGGACGAGGCGCACCACCTGGTCTGGCACCCGGATCAGGTCAGCACCGAATACGCCCTGGTGGAACAGCTCGCCGAAGTCATTCCCGGCGTGCTGCTGCTCACCGCCACCCCCGAGCAACTCGGCCAGGACAGCCACTTCGCCCGTCTGCGCCTGCTCGATCCGCACCGTTTCCACGACCTGGAAGCCTTCCGCGCCGAAAGCGCCCACTACCGTCCGGTGGCCGAGGCGGTACAGGAACTGCTCGATCAGGGCCGTCTGTCACCGGAAGCCCATGAAGTGATCCACGGCTTCCTCGGTGCCGAGGGCGAGGCCCTGCTCGCAGCGGTCAGCGACGGTGACATCGACGCCAGCGCCCGGCTGATCCGCGAACTGCTGGACCGCCATGGCACCGGCCGCCTGCTGTTCCGCAACACACGTGCCGCCGTGCAGGGTTTCCCGGAGCGCGAACTGCATCCCTACCCGCTGCCTTGCCCGGCCGAATACATGGAACTGCCGCTGGGCGAGCACGCCGAGCTGTACCCGGAAGTCAGCTTCCAGGCCCAGCAGGAAGGCGGCGAAGACGAACGCTGGTGGCGCTTCGACCCGCGCGTCGACTGGCTCATCGATACCCTGAAGATGCTGCGCAAGTTCAAGGTACTGGTGATCTGCGCCCACGCCGAAACCGCCCTCGACCTGGAAGACGCCCTGCGCGTGCGCTCCGGCATCCCCGCCACCGTGTTCCACGAAGGCATGGGCATCCTGGAGCGCGACCGCGCCGCCGCCTATTTCGCCGACGAGGAATTTGGCGCCCAAGTACTGATCTGCTCGGAAATCGGCAGCGAGGGCCGCAACTTCCAGTTCGCCCATCATCTGGTGTTGTTCGACCTGCCGGCCCACCCGGACCTGCTGGAACAGCGTATCGGCCGTCTCGACCGGATCGGCCAGAAGCATCGCATCCAACTGCACGTGCCGTATCTGGAAACCAGCCCGCAGGAGCGCCTGTTCCAGTGGTACCACCACGCCCTGAACGCCTTCCTCGCCACCTGCCCCACCGGCAATGCCCTGCAGCACCAGTTCGGCTCGCGCCTGCTGCCGTTGCTGGAAGGCGGCGATGACGGCGAGTGGCAGGCGCTGCTGGACGAAGCCCGCGCCGAACGCCTGCGCCTCGAGGGCGAACTGCACGCCGGCCGCGACCGTCTACTCGAACTCAACTCCGGCGGCGCCGGCGAAGGCGAGCAACTGGTCGAGGATATCCATGAGCAGGACGACCAGTTCGCCCTGCCGATCTACATGGAAGAACTGTTCGACGCCTTCGGCATCGACAGCGAAGACCACTCGGAGAACGCCCTGGTCCTGCGTCCCAGCGAAAAAATGCTGGATGCCAGCTTCCCGCTGGGCGACGACGAAGCAGTGACCATCACCTACGACCGCAACCAGGCCCTGGCCCGCGAGGACATGCAGTTCCTCACCTGGGAGCACCCCATGGTGCAGGGCGGCATGGACCTGGTGCTGGCCGGCTCCATGGGCAACACCGCGGTGGCGCTGATCAAGAACAAGGCGCTCAAGCCCGGCACCGTGTTGCTGGAGCTGCTGTACGTCAGCGAAGTGGTGGCGCCGCGCAATCTGCAACTAGGTCGCTACCTGCCACCGGCCGCCCTGCGCTGCCTGCTGGATGCCAACGGCAACGACCTAGCCTCGAAAGTCTCCTTCGACACCCTGAACGACCAATTGGAAAGCGTGCCACGTGCCAGCGCCAACAAGTTCGTTCAGGCCCAGCGCGATGTGCTGGCAGGACAGATCAACGCCGCCGAAGCCAAGATCGCTCCGCGCCATGCCGAGCGTGTCGCCGAAGCCCAGCGTCGCCTGAAAGCAGAACTGGATGAGGAACTGGCCCGCCTGACCGCACTCAAGGCCGTCAACCCGAGCGTACGCGACAGCGAACTGGAAGCCCTGAGCAAACAGCGCGAAGAGGGCTTGGCCATGCTGGACAAGGCTGCCCTGCGCCTGGAAGCCATCCGCGTGCTGGTGGCCGGCTGA	MAQQYQPGQRWISDSEAELGLGTILAQDGRLLTVLYPATGDTRQYALRNAPLTRVRFAPGDEITHFEGWKMTVREVEDVDGLLVYHGLDGQNQARTLPETQLSNFIQFRLASDRLFAGQIDPLNWFALRYHTLEHQSRLQQSSLWGLGGARAQPIAHQLHIAREVADRIAPRVLLADEVGLGKTIEAGLIIHRQLLSGRASRVLILVPENLQHQWLVEMRRRFNLQVALFDAERFAESDASNPFEDAQLALVSLEWLKSDERAQDAAFAAGWDLLVVDEAHHLVWHPDQVSTEYALVEQLAEVIPGVLLLTATPEQLGQDSHFARLRLLDPHRFHDLEAFRAESAHYRPVAEAVQELLDQGRLSPEAHEVIHGFLGAEGEALLAAVSDGDIDASARLIRELLDRHGTGRLLFRNTRAAVQGFPERELHPYPLPCPAEYMELPLGEHAELYPEVSFQAQQEGGEDERWWRFDPRVDWLIDTLKMLRKFKVLVICAHAETALDLEDALRVRSGIPATVFHEGMGILERDRAAAYFADEEFGAQVLICSEIGSEGRNFQFAHHLVLFDLPAHPDLLEQRIGRLDRIGQKHRIQLHVPYLETSPQERLFQWYHHALNAFLATCPTGNALQHQFGSRLLPLLEGGDDGEWQALLDEARAERLRLEGELHAGRDRLLELNSGGAGEGEQLVEDIHEQDDQFALPIYMEELFDAFGIDSEDHSENALVLRPSEKMLDASFPLGDDEAVTITYDRNQALAREDMQFLTWEHPMVQGGMDLVLAGSMGNTAVALIKNKALKPGTVLLELLYVSEVVAPRNLQLGRYLPPAALRCLLDANGNDLASKVSFDTLNDQLESVPRASANKFVQAQRDVLAGQINAAEAKIAPRHAERVAEAQRRLKAELDEELARLTALKAVNPSVRDSELEALSKQREEGLAMLDKAALRLEAIRVLVAG				NA	NA	NA	NA	NA
BMS010_04559	297			hypothetical protein	ATGCTGCCCCCTATTCCCCACATGCTGATGCCGGTGACGGCCCAGCAGGACCCGATCAAGCCCCGGCCTGACATTCCGCCGGTGACGCCCGCCCAGGAGAGCGCCAACGAAGCGGCCATCAGCCTGGACAAGCGCCATCCGCAGGATGCCATCGAGTTACTGCGCGAAGAGCAGCGCCGCCGCCAGCGCCGGGGCTACACACCCGAGGAGCTGGCCGAGGGCGAGGTGGCCAAGGCTGACGAACCGCTGATCGAAGAGCTGCCGCGCCAGGGGTTGTGGGTCGACGTCGAGGTGTGA	MLPPIPHMLMPVTAQQDPIKPRPDIPPVTPAQESANEAAISLDKRHPQDAIELLREEQRRRQRRGYTPEELAEGEVAKADEPLIEELPRQGLWVDVEV				NA	NA	NA	NA	NA
BMS010_04560	612			hypothetical protein	ATGAATACCCCGAGTCTGTTTACCGATCCCCTCATCGAATTGCCGGATGCCGAGCTGAAGCTGCTGCCCGGCTGGATCGATCCGGCCACGGCCGACGCCTGGCTGGCGACGCTGCTGGCCGAGACGCCCTGGGAACAACCGCAGATTCGCGTGCACGGCCGCGTTCACCCGATTCCACGTCTGACAGCCTGGTTTGGCGACCCGGAGGCCCGCTACCGCTATTCCGGTCTGCTGCAATGCCAGCTGCCCTGGACGCCGCTGCTCGCCGAGATCCGCTCGCGGTTGGAAGAGGAGGTCGGTCAGACGCTGAACGGCGTGCTACTCAATTACTATCGGGATGGGCAGGATTCCATGGGCTGGCACAGCGACGATGAAGCCGAACTGGGGCGCAATCCGTTGATCGCTTCGCTCAACCTGGGCGGCACCCGCCGATTCGACCTGCGCCGCAAGGGCACGGGGCGCATCCAGCACTCGCTGTTCCTCGAACACGGTTCGCTGCTGGTCATGAGCGGGCCGACGCAGCATCATTGGCAACATCAAGTGGCGAAGACGCGCACTGCCTGTGCGCCGCGCCTGAATCTCACGTTTCGCCGGGTGCGGCCCCATGAGTGA	MNTPSLFTDPLIELPDAELKLLPGWIDPATADAWLATLLAETPWEQPQIRVHGRVHPIPRLTAWFGDPEARYRYSGLLQCQLPWTPLLAEIRSRLEEEVGQTLNGVLLNYYRDGQDSMGWHSDDEAELGRNPLIASLNLGGTRRFDLRRKGTGRIQHSLFLEHGSLLVMSGPTQHHWQHQVAKTRTACAPRLNLTFRRVRPHE				NA	NA	NA	NA	NA
BMS010_04561	162			hypothetical protein	ATGAGTGACGACGACAAGCTGATCGACTTTGCCAGTGAGCGCGGCAAGCGCATCCATGACCTCCACGAAAAACGCCTGAACGAAGTCCGCCAGGCCTTCGAACAGGCCATGCCGTTGCCCAAGGGCAAGAAGAAATCCAAGGGCAAGCCGAAGAAACGCTGA	MSDDDKLIDFASERGKRIHDLHEKRLNEVRQAFEQAMPLPKGKKKSKGKPKKR				NA	NA	NA	NA	NA
BMS010_04563	117			hypothetical protein	ATGTTTATCGATGAAGTGGTACTCGCCGGAATTCTCACGGTCGGTCTGATGATCGTGTTCTGTGGCGGCGTCGGATATTTCATCTGGAAGGACTCGCACAAGCGCAAGCAAGGCTGA	MFIDEVVLAGILTVGLMIVFCGGVGYFIWKDSHKRKQG				NA	NA	NA	NA	NA
BMS010_04564	1089	ybhR	COG0842	putative multidrug ABC transporter permease YbhR	ATGATGAATCTGCGCCGGCTGGGCTCCATCGTGCTCAAGGAGCTGCGCCAGCTACGCCGCGACCGGCTGACCTTCGCCATGATCGTCGGCATTCCGACCATGCAGCTGATTCTGTTCGGCTACGCCATCAACCTGGACGTACGCGGACTCGAGGCGGCTGTACTGGATCAGGCCAATACCGCCCGCTCACGCGAACTGGTGGCGGAGATCGGCGCCACCCAGGTGCTCGACCTGCGTTATCGGCTGAGCACGCCGCAGGAGGTGGACGATCTGCTGCGCGCCGGCAAGATCAGCGCCGCCCTGGTGCTGCCGAACGACTTCGAAACGCGCCTGGAGCGCGGCGACCGTCCGGCCCTGCAGATCGTGGTGGATGGCTCAGACCAGGTGGTGCAGGCCTCGGCGCGGCAACTGGCCTCCTTCCCCCTGCCCGGCCGAGCCGCCAACGACGTCTCCGGCATCGAGGTGCTCAACCTGTACAACCCGCAGCGGCTGGCGCCGGTGAACACGGTGCCCGGCCTGATCGGCGTGATCCTCACCATGACCATGGTGCTGTTCACCGCCATGGCGCTGGTCCGCGAGCGCGAACGCGGCAACCTGGAAATGCTCATCGCCACGCCGGTATCGCCGTGGGAACTGACCCTGGGCAAGGTATTGCCCTTCGTCGGCATCGGGCTGGTCCAGGTGACCGTGGTGTTGCTGCTCGGCAAGCTGCTGTTCGCCGTGCCGCTGCGCGGCTCTCTGGCGGCGCTCTACAGCGCGGCGCTGGTGTTCATCTGCGCCAGCCTGGCGCTGGGCGTATTCATTTCCACCCTGGCACGCAGTCAGTTCCAGGCCATGCAGATGGCGTTCTTCACCTTCCTGCCGCAGATTCTGCTGTCCGGCTTCATGTTCCCCTTCGCCGGTATGCCAAAGGTGGCGCAGTGGCTGGCGGAAATACTGCCGCTGACGCACTTCCTGCGCCTGGTGCGCGGCATCATGCTGCGCGGCGCCGGGCTCGCCGAACTCTGGCCGGCGCTGGCCAGCCTCGCGCTGTTCACCGCGGTGATGCTGGGCATCGCCGTGACACGGGTGAGCAAGCGCCTGGATTGA	MMNLRRLGSIVLKELRQLRRDRLTFAMIVGIPTMQLILFGYAINLDVRGLEAAVLDQANTARSRELVAEIGATQVLDLRYRLSTPQEVDDLLRAGKISAALVLPNDFETRLERGDRPALQIVVDGSDQVVQASARQLASFPLPGRAANDVSGIEVLNLYNPQRLAPVNTVPGLIGVILTMTMVLFTAMALVRERERGNLEMLIATPVSPWELTLGKVLPFVGIGLVQVTVVLLLGKLLFAVPLRGSLAALYSAALVFICASLALGVFISTLARSQFQAMQMAFFTFLPQILLSGFMFPFAGMPKVAQWLAEILPLTHFLRLVRGIMLRGAGLAELWPALASLALFTAVMLGIAVTRVSKRLD	PGPT0006730_7733	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
BMS010_04565	945	ybhF	COG1131	putative multidrug ABC transporter ATP-binding protein YbhF	ATGAACGGCGCTGAGACGGTCATTCGAGCCCGCGGCCTGACCAAGCGCTTCGGCGACTTCACCGCGGTGGACAGCCTCGACCTCGACGTCCGCCGCGCCGAGGTTTTCGGCTTCCTCGGCCCCAACGGCTCCGGCAAATCCACCACCATCCGCATGCTCTGCGGCCTGCTCTCGCCCAGCGCCGGCGAGATCGAGGTGCTGGGCTGCCGGATTCCCCAGGACGCCGAAGCGCTGAAGCGGCGCATCGGCTATATGACGCAAAAATTCTCCCTCTATGACGACCTGAGCGTCGGCGAGAACCTCGACTTCCTCGCCGCCGTCCACGGCCTGCCCAAGCGCGAAGCCCGCCAGCGCATCGACGAACTGCTGGCGCTGTACCGCCTGGACGACCGCCGCCGGCAACTGGCCGGTACCCTCAGCGGTGGGCAGAAACAGCGCCTGGCCCTGGCCGGTGCGGTGCTGCACAAGCCGGACCTGCTGTTTCTCGACGAACCGACCAGCGCGGTCGACCCGCAATCGCGCCGGGACTTCTGGGACTCCCTGTTCGAACTGGCCGATGCCGGCACCACCCTGCTGGTCTCCACCCACTACATGGACGAGGCGGAACGCTGCACCCGCCTGGGCATCCTCGACGAGGGTCGGCTGGCCGCCGATGGCAGCCCGGAAGAATTGCTCGCCCAGTTGCCGGGCACTTCCCTGCTGGTGGAATGCGAGCAGCCCCGCCAGGCCCAGCGCGCGCTGCAAGGCGGCGAAGGCATCCTCGCCCTGGCACAGATAGGCGCGTCGCTGCGGGTGCTGGTGGAGGAAGGGCAAAGCGCCGAAGACATCCGTACCCGGCTGCATGAGGCCGGCATCGACGCCGAAGTCGGCGAAACCGCGCCAAACCTGGAAGACGTATTCGTCACCGCCACCCGCCGCCAGCCGGCCGACCGGGAGGAAACATGA	MNGAETVIRARGLTKRFGDFTAVDSLDLDVRRAEVFGFLGPNGSGKSTTIRMLCGLLSPSAGEIEVLGCRIPQDAEALKRRIGYMTQKFSLYDDLSVGENLDFLAAVHGLPKREARQRIDELLALYRLDDRRRQLAGTLSGGQKQRLALAGAVLHKPDLLFLDEPTSAVDPQSRRDFWDSLFELADAGTTLLVSTHYMDEAERCTRLGILDEGRLAADGSPEELLAQLPGTSLLVECEQPRQAQRALQGGEGILALAQIGASLRVLVEEGQSAEDIRTRLHEAGIDAEVGETAPNLEDVFVTATRRQPADREET	PGPT0006725_6763	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
BMS010_04566	966			hypothetical protein	ATGCGCCCTGATCGTCGACTGGCCTGCCTACTCGTCCTGCTCCTCGGTGCCTGTGACCGGCAAGCCCCACCGGAACTGGCCGGCACCCTGGAATGGGACCGGGTGGCCATTCCCGCGGAAACGTCCGAACCGGTGCTGCGCTGGGCCGTGGCCGAGGGTGACCGGGTCGAGGCCGGCACCCTCCTGCTGCAACTCGACCCGCGCCGCCTGGATGCCGCAGTGGCCCAGGCACAGGCCGAAGTGGAACAGGCCGCGGCACGGCTGGCGGAGCTGAGCAACGGGGCGCGCGAAGAGAACATCGAGGCGGCACGCGCCCAGTTGACCCGAAGCCGCGCCGCACTGGACGAAGCTGAGCGCAACCACCGGCGTATCGCCGCGTTGTATGCGCGCAAACAGGTTGCGGTGGCCGAGCTGGATCGTGCGCGCGCCAGTCGCGACCAGGCGCGGGCCGAACGGGATAGTGCGGCCGCTCAACTGAGCGAGCTGACCAACGGCACCCGCCCGGAACAGATCGAGCAGGCCACCGCCGTGCTCGCCGCTGCCCGCGCCACCCTGGCCCGCCGCCAGTTGGATCGAGAACGCCTCGACCTGCGCGCCCCACGCGCCGGCCGGGTCGATGCCCTGCCCTTCAAGCCCGGCGACCAGCCGCCGCAAGGCGCCACGCTGGTCAGCCTGCTGGTCGGCGAAGCGCCCTATGCACGGGTCTTCGTGCCGGCGTCGCAGCGCAGCAGACTGGCCATTGGCGACCCGCTGCAGATCAGCGTGGAAGGCATCGAACAATCCTTCGACGCCACCGTTCGCAGCATCGCCAGCGAAGCCAGTTTCACCCCCTACTACGCGCTGGTCGGCGACGATGCCAGCCGCCTGACCTACCGGGCCGAACTGCTGCTGCAAGACGAAAAGGCCCGTGAGTTGCCGGCTGGTCTACCGCTACGGGCACAACGGGTGAACGATGAACGGCGCTGA	MRPDRRLACLLVLLLGACDRQAPPELAGTLEWDRVAIPAETSEPVLRWAVAEGDRVEAGTLLLQLDPRRLDAAVAQAQAEVEQAAARLAELSNGAREENIEAARAQLTRSRAALDEAERNHRRIAALYARKQVAVAELDRARASRDQARAERDSAAAQLSELTNGTRPEQIEQATAVLAAARATLARRQLDRERLDLRAPRAGRVDALPFKPGDQPPQGATLVSLLVGEAPYARVFVPASQRSRLAIGDPLQISVEGIEQSFDATVRSIASEASFTPYYALVGDDASRLTYRAELLLQDEKARELPAGLPLRAQRVNDERR				NA	NA	NA	NA	NA
BMS010_04567	642	betI_3		HTH-type transcriptional regulator BetI	ATGAACACACCTCGCACACCCGGCCGCCCCGTCGGCGAGCCCCAACAGCGCGAACGCCTGCTGGATGCCGCCCTGGCGGCCTTCTCCCAGTCGGGCATCGCCGCCAGCAGCCTGCGCCACATCGCCACCCGGGCCGGGGTGACTCCCGCTCTGGTGAACTACTACTTCGGCAACAAGGACAAACTGCTCCAGGCGGTCATCGAGGAACGCCTGTTCCCTACTCTCCTCCAGCTCGCCCAGGCGCTGAGCAAGGCCGGCGACGAACCCGCCGCGCTGGTACGTGCGTTCGTCCTCGGCATGCGCGAACTGGTCGCCACTCACCCCTGGCTGCCGCCGCTGTGGGTCCGCGAGGTGCTTTGCGAAGGTGGGCTCCTGCGTCCGCTGCTGGTCGACCGCGTTGCCCCGTTGATCCCCCGGCCGCTGGCCGAACGCTTCGCCGCCGCCCAGCGCCGCGGCGCCCTGAACCCCGACCTCGACCCACGCCTGCTGGGCGTCTCGCTGATCGGGCTGACCCTGTTCCCCTACGCCGCCGCGCCCATCTGGCGTGGCCTGTTCCCCGCGCCCGAGCTGGATGACGAGGCCCTGGTCCGCCATACCCTCGTCCTGCTCGAACGCGGCCTGGAGATGCCCCATGCGCCCTGA	MNTPRTPGRPVGEPQQRERLLDAALAAFSQSGIAASSLRHIATRAGVTPALVNYYFGNKDKLLQAVIEERLFPTLLQLAQALSKAGDEPAALVRAFVLGMRELVATHPWLPPLWVREVLCEGGLLRPLLVDRVAPLIPRPLAERFAAAQRRGALNPDLDPRLLGVSLIGLTLFPYAAAPIWRGLFPAPELDDEALVRHTLVLLERGLEMPHAP	PGPT0029255_59	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIPLE_ANTIBIOTIC_RESISTANCE,PGPT0029255-cecR|ybiH-K23777	NA	NA
BMS010_04568	1989	aaeB	COG1289	p-hydroxybenzoic acid efflux pump subunit AaeB	GTGCGCGATACCTTGCAGGCAGTGCTGGCGCCGAGTTCGCTGGCGCTGCAATTCGCCGTCAAGACGCTCCTGGGCGCCGGCCTGGCGCTCTGGTGCGCCTTGCGCTTCGATCTGGAGCAGCCGCAGTGGGCATTGATGACCGCTCTTATCGTTGCCCAGCCGCTGTCCGGCATGGTGGTTCAGAAGGGCCTGGCGCGCCTGCTCGGAACCCTGGTCGGTACCTTCATGGCGGTGGTCTGCATGGCCTTGTTCGCCCAGGCGCCGGGGCTGTTCCTGCTGGCCTTGGCGACCTGGCTGGGCCTGTGTACGGCGGCTTCGACCCTGCTGCGCAGCGCCTGGTCCTACGCTTTCGTCCTGGCCGGCTACACGGTGGCGATCATCGCCTTGCCGGCCCTGAGCCAGCCGCTGCTGGTCTTCGATCATGCGGTGGCGCGCTGCACGGAAATCTGCCTCGGCATCCTTTGCGCCACGGCGGTGAACGCGGTGCTTTGGCCGCAGCGGGTCGAGCGTCAGTTGGTGCAGCAGGCGCGTGCCGCCTGGCAATCCGGTCTCGACACCGCCCAGGCGGCACTCAGCGGAAAGGCGGAGGCGCGCCAGGGGCTGTTGCAGATGCTCGGACGCATCGTCGCGGTGGATGCCCAGCGCGAGCATGCCTGGTTCGAAGGCACGCGAGGCCGCCAGCGCGCCCGCGCCATGCGTGGGCTGAGTCGGGCCTTGCTGAGCCTGTTGCGCATTGCCCGGGCCGTAGCGCGGCAGTGGGCGATGCTGGATGAGCACGATGCCGAGACCCTGGCGCCCTGGCTGAGCGAGGTGGAGGCCGCCCTTGGCCGCGCCGACGAGGCCGAGTTGCTGGCCCTGCGCGAGCGGCTGCAAGCGGCGGCCCGCGATCAGGCCGTTGGGGCGGCACCGCAGTATTGCCTGGGGCGCCTGGCGGTGCTGCTGCTCTATGCGATCGAGGCCGGGCGTGCCTTGGCGGCGGTGGAGCAGGGCCGGCTGACGGAACGCGCGGCGGGGGCGCTGTCCAGCCACCGGGACTACGCGCTGGCGCTGGTCTATGGGCTACGCAGCGGACTGGCGTTCCTGGCGCTGTCGGCGTTCTGGCTGGCGACTGCCTGGACCTCGGCCGGCGGCGCGATGATCCTCGCCGCGGTGGTCTGCAGCCTGTTCGCCAATCGGGAGAACGCGGTACAGATCGGCTTCAGCTTCATCCGCGGGATCGCCCTGGCGATTCCCGTCGCGTTCTTCGTAGGCCAGTTGCTTCTGCCGCAATGGAGCGGGTTCCCCTTGCTCTGCCTGGCGCTCGGCGTGCCGTTGTTCTTCGGCGCGCTGTGCATGGCCAAGCCGGCCATCGGTGCGACCGCCACCTCGTTCTGCCTGCATTTCATCGTGCTGGTGGGCCCGCAGAACGGCATGCGCTTCGATGTCGCCTTCTTCGCCAACGAGGCGTTGGGGATGCTGGTGGGCGTAGGCTGTGCGGTGCTGGCGTTCCGTCTGATCGGCCTGCGCAATCCGCACTGGCATGGTCGCCGTTTGTTGCGCGCCACTCTTGGCGATCTCGGGCGCCTGAGTCAGCGGGCCCTCGCCGGGGCGGATACCTGGTTCGCCGGACGCATGGCCGACCGCTTGCTGCAACTGGCCCGGCATTACCCGGCGCTTCCCGAAGTGGCGCGCAGCCGCTGGGATGACGGTCTGCTCGGGCTCGATCTGGGGGACGAACTCTTGCACCTGCGCTTCACCCTGGCTGCTGCCGGTCTGCTCGAGGGAGAGGCCCAGCGTCGTTATTTCCAGGCGCTCGAGCGGGTCTTCCAACAGGGCCCTGCGGCCGCCCGGATGGATGCCCTCGATGCGCCCGGCACGGCATTGCTGGCAACCCTGAGGGCAGTGCCCGACAACGATGCCGGACGCCTGGCGGAAGGCGCCGTCCTGCAACTGCAACACAGCTGGCGGCAGTGGTGCCGCCAGCGGGAGGACATCGATGGGCTTGCGTGA	MRDTLQAVLAPSSLALQFAVKTLLGAGLALWCALRFDLEQPQWALMTALIVAQPLSGMVVQKGLARLLGTLVGTFMAVVCMALFAQAPGLFLLALATWLGLCTAASTLLRSAWSYAFVLAGYTVAIIALPALSQPLLVFDHAVARCTEICLGILCATAVNAVLWPQRVERQLVQQARAAWQSGLDTAQAALSGKAEARQGLLQMLGRIVAVDAQREHAWFEGTRGRQRARAMRGLSRALLSLLRIARAVARQWAMLDEHDAETLAPWLSEVEAALGRADEAELLALRERLQAAARDQAVGAAPQYCLGRLAVLLLYAIEAGRALAAVEQGRLTERAAGALSSHRDYALALVYGLRSGLAFLALSAFWLATAWTSAGGAMILAAVVCSLFANRENAVQIGFSFIRGIALAIPVAFFVGQLLLPQWSGFPLLCLALGVPLFFGALCMAKPAIGATATSFCLHFIVLVGPQNGMRFDVAFFANEALGMLVGVGCAVLAFRLIGLRNPHWHGRRLLRATLGDLGRLSQRALAGADTWFAGRMADRLLQLARHYPALPEVARSRWDDGLLGLDLGDELLHLRFTLAAAGLLEGEAQRRYFQALERVFQQGPAAARMDALDAPGTALLATLRAVPDNDAGRLAEGAVLQLQHSWRQWCRQREDIDGLA				NA	NA	NA	NA	NA
BMS010_04569	207			hypothetical protein	ATGGGCTTGCGTGAGTGGTCGCTGGGCGGCGTGTTGCTCAGCCCCTTTCTGCTCTATGCGCTGCTGGCGTTGCTCGCCACCGGGCTGTTGCGCCTGGGCCTGCAGCGGACGCCGCTGGGGCGTTGGATCTGGCACGAGGCGCTGTTCGACTGCGCCTTGTTCGTCTGCGTGCTGGCGGCGGTCGTCGCGCTGCTGGGCCGTTTCTAA	MGLREWSLGGVLLSPFLLYALLALLATGLLRLGLQRTPLGRWIWHEALFDCALFVCVLAAVVALLGRF				NA	NA	NA	NA	NA
BMS010_04571	876	aaeA_1	COG1566	p-hydroxybenzoic acid efflux pump subunit AaeA	ATGCGTAATGCCGGGCGTATCGCCATCACCTTTTGCCTGGTCGGGCTGGCCATCCTCGCCGGCTACTGGCTGTGGCAGCACTACATGCTGTCGCCGTGGACGCGGGATGCGCGGGTCCGTGCCGATGTGGTGACCATTGCGCCGGACGTGTCCGGCTGGGTGGTGGACCTGAAAGTCCGTGACAACCAGCGGGTCGAGGCCGGCCAGGTGTTGTTCCACATCGACCGCGAGCGTTACCAGGCCGCCGTGGACAAGGCTCGGGCGGTAGCCGAGACGCGTAAACAACAGATGCGTTTGCGTGAGCACGAGGCGTCGCGGCGCTCCCATCTCGGCCCGCAGGCGATCAGCGCCGAGTTGAAGGAAAACGCCCAGATCAATGCCGATATCGCCCGGGGCGAATACCGCGAGGCCATGGTCGACGTGGCGGTGGCCGAGCTGAACCTGGCCCGCAGCGAGGTACGTGCCCCGCGCGCGGGGCAGGTCACCAACCTGCGCCTGGCCCAGGGCAACTATGTACAGGCCGGCCAGGCGGTGATGGCGCTGGTGGATGACGCTTCCTTCTATATCCAGGCCTATTTCGAAGAGACCAAGTTGCCGCGCATCCGCCTCGGCGCGCCTGTGAAGGTGTGGCTGATGGGCGCCGGGCAGGCGCTGGACGGTACGGTTGAAAGTATCAGCCGCGGCATTACCGACCGCAACTCCAGCCCCGACGCGCAACTGCTGGCGGATGTCGAGCCGACCTTCAATTGGGTGCGCCTGGCCCAGCGGATTCCGGTGCGGATCAGATTGGACCGGGTGCCCGACGATGTATTGCTCAGCGCCGGGATGACGGCCAGTGTGCAGGTGGTGTCGGACGACGCGTCCGCAGGCGAATGA	MRNAGRIAITFCLVGLAILAGYWLWQHYMLSPWTRDARVRADVVTIAPDVSGWVVDLKVRDNQRVEAGQVLFHIDRERYQAAVDKARAVAETRKQQMRLREHEASRRSHLGPQAISAELKENAQINADIARGEYREAMVDVAVAELNLARSEVRAPRAGQVTNLRLAQGNYVQAGQAVMALVDDASFYIQAYFEETKLPRIRLGAPVKVWLMGAGQALDGTVESISRGITDRNSSPDAQLLADVEPTFNWVRLAQRIPVRIRLDRVPDDVLLSAGMTASVQVVSDDASAGE	PGPT0023615_90	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYBENZOIC_ACID_GALLATE_RESISTANCE,PGPT0023615-aaeA-K15548	NA	NA
BMS010_04572	471	phaJ	COG2030	(R)-specific enoyl-CoA hydratase	ATGAGCCAGGTCAAGAATTTCCCCTACGACAGCCTCGAAGTCGGCCAACGCGCCAGCTTCGCCAAGACCGTGGAAGAGCGCGACATCCAGCTGTTCGCCGCGGTATCCGGCGACCGCAACCCGGTACACCTGGACGCCGAATACGCCGCCGGCACCCTGTTCAAGGAGCGCATCGCCCACGGCATGTTCAGCGGTGCGCTGATCAGCGCCGCCATTGCCTGCGAACTGCCCGGCCCGGGCACTATCTACCTCGGCCAGCAACTGCGCTTCACCCGCCCGGTCAAGCTGGGCGACAGCCTCAAGGTGGAGCTGGAAATCCTGGAAAAACTGCCGAAGAACCGCGTGCGCATCGCCACCCGCGTGTTCAACCAGAACGACGAGCAAGTGGTCGACGGCGAAGCCGAAGTGCTGGCGCCGAAGCAGGCACTGTCGGTGGAACTGCCGGAGCTGCCGCCGATTACCATTGGCTAA	MSQVKNFPYDSLEVGQRASFAKTVEERDIQLFAAVSGDRNPVHLDAEYAAGTLFKERIAHGMFSGALISAAIACELPGPGTIYLGQQLRFTRPVKLGDSLKVELEILEKLPKNRVRIATRVFNQNDEQVVDGEAEVLAPKQALSVELPELPPITIG	PGPT0014741_312	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_RELATED_GENES	CE-BIOFILM-POLYHYDROXYBUTYRATE_PRODUCTION,PGPT0014741-phaJ|croR-K17865	NA	NA
BMS010_04573	960		COG2267	Monoacylglycerol lipase	ATGCGCCACGACGCCTTCTGGCTCACCGCCAGCGATGCCGCTCCGCTGTACGTCAATCACTGGTCGCCCGAGCAACCGCCCAGGGCGGTGGTGATGCTGGCGCACGGCATGGCCGAACACAGTGGCCGCTATGCACGCTTCGGCGAGGCGCTGGCATCGGCCGGGGTCGCCCTTTACGGCCACGACCAGCGCGGCCATGGACGCACCGCACAACGCGGCGTGCTCGGGCACTACGCCGATCATGACGGCTGGCAGCGGGTGATCGCCGACCTGGCCAACCTCAACCACCATATCCGCCAACAGCACCCGGACGCGCCGATCTTCCTGCTCGGTCACAGCATGGGCAGTTACATCGGCCAGGCCTACCTGATGCGCCATAGCTGCAGCCTGCAAGGCGCGATCCTCTCCGGCTCCAATTTCCAGCCGCCGGCGCTTTACCGCACGGCCCGGCAAGTCGCGCGTTTCGAGCGCTGGCGCCAGGGGCCGGTGGGACGCAGTGCGCTGATCGAGTTCCTGTCCTTCGGCTCCTTCAACAAGGCGTTCAAACCCAACCGCACGGCGTTCGACTGGCTGAGCCGCGACCCGGACGAAGTCGACAAGTACGTCACCGACCCGCTGTGCGGCTTCCGCTGTACCAACCAGCTGTGGATCGACCTGCTGGGCGGGCTGGAAGAAATCTCCCAGGAGAAGAACCTCGCGCAGATCGACCACGACCTGCCGCTGCTGGTCGTCGGCGGCGCGCGCGATCCGGTCAGCCAGGGCGTCCGCCTGGAAAAACTGGCCGATGCCCTGTGCCGCGCCGGCCTGCGCAACGTCCAACTGAAGCTGTATCCCGACGCCCGCCATGAGTTGCTCAACGAAAGCAACCGCGACGAGGTGACCGCCTACCTCATCGACTGGCTGGAACGAACCCTCGTCGCCGGCCGGCACTGTCCACTTCCGACCCAGGAGATTGCATGA	MRHDAFWLTASDAAPLYVNHWSPEQPPRAVVMLAHGMAEHSGRYARFGEALASAGVALYGHDQRGHGRTAQRGVLGHYADHDGWQRVIADLANLNHHIRQQHPDAPIFLLGHSMGSYIGQAYLMRHSCSLQGAILSGSNFQPPALYRTARQVARFERWRQGPVGRSALIEFLSFGSFNKAFKPNRTAFDWLSRDPDEVDKYVTDPLCGFRCTNQLWIDLLGGLEEISQEKNLAQIDHDLPLLVVGGARDPVSQGVRLEKLADALCRAGLRNVQLKLYPDARHELLNESNRDEVTAYLIDWLERTLVAGRHCPLPTQEIA				NA	NA	NA	NA	NA
BMS010_04574	1689	fadD_2	COG0318	Long-chain-fatty-acid--CoA ligase	ATGCAACCTGATTTCTGGAACGACAAGCGCCCCGCCGGCGTGCCCAACGACATCGACCTGGGTGCCTACAAGTCGGTGATCGAGGTGTTCGAGCGCTCCTGCAAGAAATTCGCCGACCGCCCGGCCTTCAGCAATCTCGGCGTGACCCTGACCTATGCCGAGCTGGACCGACTTTCCGCCGCCTTCGCCGGCTACCTGCAGCAGCACACCGACCTGCAGCCGGGCGACCGCATTGCCGTACAGATGCCGAACATCCTGCAGTATCCGGTCGCCGTGTTCGGTGCCCTGCGCGCCGGGCTGATCGTGGTCAACACCAACCCGCTGTATACCGCCCGCGAGATGCGCCACCAGTTCAAGGATGCCGGTGTGCGTGCGCTGGTCTACCTGAACATGTTCGGCAAGCTGGTGCAGGACGTGCTGGCCGATACCGATATCGAATTCCTCGTCGAAGCGCGGATGGGCGACATGCAGCCGGCCCTCAAGGGGTGGCTGATCAATACGGCGGTGAAGAAGCTGAAGAAGATGGTCCCGGACTATCACCTGCCGCAGGCGGTGTCCTTCAAGGATGCGCTGCGCCAGGGCCACGGCCATGCGCTGCGGCCGGTGAAGGTCGGCCTCGAGGACATCGCCGTGCTGCAATACACCGGCGGCACCACCGGGGTGGCCAAGGGCGCCATGCTGACCCACGGCAATCTGGTGGCGAACATGCAGCAGGTACATGCTTGCCTGTCCCAGGAAGGGCCCGACGGCCATCCGCTGATGAAGGAAGGGCAGGAGGTGATGATCGCGCCGCTGCCGCTGTACCACATCTATGCCTTCACCGCGAACTGCATGTGCATGATGGTCAACGGCAACCACAACGTCCTGATCACCAACCCGCGCGACATCGCCGGCTTCGTCAAGGAATTGAAGAAGTGGCGTTTCTCCGCGCTGCTCGGCCTGAATACCCTGTTCGTCGCGCTGATGGATCATCCTGAATTCAAGAGCCTGGATTTCTCCAGCCTCAAGGTGACCAACTCCGGTGGCACCGCCTTGGTCAAGGCCACCGCCGAGCGTTGGCAGGCGATGACCGGCTGCGCGGTGGTGGAAGGCTACGGCCTGACCGAGACTTCGCCGGTGGTGAGCGCCAACCCGTACGGCGACAAGGCCCGCCTCGGCACCGTCGGTATTCCGGTACCCGGCACCGCCTTGAAGGTCATCGATGACGAAGGCCGCGAGCTGGGCATCGGCGAGCGTGGCGAGCTGTGCGTCAAGGGTCCGCAGGTGATGAAGGGCTACTGGCAGCGCCCCGAGGCCACCGCCGAGGTGCTCGACAGCGAAGGCTGGCTGAAGACCGGCGACGTGGCGGTGATCGATCCGGATGGCTTCGTGCGCATCGTCGACCGCAAGAAGGACCTGATCCTGGTGTCCGGCTTCAATGTCTATCCCAATGAGATCGAGGATGTGGTCATGGCCCATCCGAAGGTGGCCAGTTGCGCTGCCATCGGGGTACCGGACGAGAAGTCCGGCGAGGCGGTCAAGCTGTTCGTCGTCCCGCGCGAGGCCGGCCTGACGGTGGACGAGCTGAAGGCCTACTGCAAGGAGAATTTCACCGGCTACAAGGTGCCCAAGCACATCGTCCTCAAGGACGCCTTGCCGATGACGCCGGTGGGCAAGATTCTCCGTCGCGAACTGCGGGATATCGCCTGA	MQPDFWNDKRPAGVPNDIDLGAYKSVIEVFERSCKKFADRPAFSNLGVTLTYAELDRLSAAFAGYLQQHTDLQPGDRIAVQMPNILQYPVAVFGALRAGLIVVNTNPLYTAREMRHQFKDAGVRALVYLNMFGKLVQDVLADTDIEFLVEARMGDMQPALKGWLINTAVKKLKKMVPDYHLPQAVSFKDALRQGHGHALRPVKVGLEDIAVLQYTGGTTGVAKGAMLTHGNLVANMQQVHACLSQEGPDGHPLMKEGQEVMIAPLPLYHIYAFTANCMCMMVNGNHNVLITNPRDIAGFVKELKKWRFSALLGLNTLFVALMDHPEFKSLDFSSLKVTNSGGTALVKATAERWQAMTGCAVVEGYGLTETSPVVSANPYGDKARLGTVGIPVPGTALKVIDDEGRELGIGERGELCVKGPQVMKGYWQRPEATAEVLDSEGWLKTGDVAVIDPDGFVRIVDRKKDLILVSGFNVYPNEIEDVVMAHPKVASCAAIGVPDEKSGEAVKLFVVPREAGLTVDELKAYCKENFTGYKVPKHIVLKDALPMTPVGKILRRELRDIA	PGPT0008380_9494	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
BMS010_04575	1689	fadD_3	COG0318	Long-chain-fatty-acid--CoA ligase	ATGACCGAAAATTTCTGGAAGGACAAGTACCCTGTCGGGGTCGCTGCCGAGATCGATCCCGACCAGTATCCGAACATCCAGGCGGTGCTGAAACAGTCCTGCCAACGCTTTGCCGACAAGCCTGCCTTCAGCAACCTGGGCAAGACCCTGACCTACGGCGAACTCTACGAACTCTCCGGCGCCTTCGCCGCCTACCTGCAACAGCACACCGACCTGCAACCGGGCGACCGCATCGCCGTGCAGTTGCCGAACGTTCTCCAGTACCCCGTCGTGGTGTTCGGTGCGATGCGCGCCGGCTTCATCGTGGTCAACACCAACCCGCTGTACACCGCGCGGGAGATGGAGCACCAGTTCAACGATTCCGGCGCCAAGGCGCTGATCTGCCTGGCCAACATGGCCCACCTGGCCGAGGAAGTCCTGCCGAAGACCGGCGTGCGCCACGTCGTCGTCACCGAAGTCGGCGACATGCTGCCGCCGCTCAAGCGCCTGCTGGTCAACAGCGTGGTCAAGTACGTGAAGAAGATGGTGCCGGCCTACAACCTGCCGCAGGCGGTGAAGTTCACCGAGGCCCTGGCCAAGGGCCGCGGCAAGGCGCCGCAGGATGCCAACCCGGCCAGCGGCGACGTCGCCGTGCTGCAGTACACCGGCGGCACCACTGGCGTGGCCAAGGGCGCGATGCTGACCCACCGCAACCTGATCGCCAACATGCTGCAGTGCAAGGAGCTGATGGGCGCCAACCTGGACGAGGGCCGCGAGACGGTCGTCGCGCCGCTGCCGCTGTACCACATCTACGCTTTCACCTTCCATTGCATGGCGATGATGCTGAACGGCTGCCACAACGTCCTGATCACCAACCCGCGTGACCTGCCGGGCATGATCCGGGACCTGGAAAAGTACCGCTTCACCGGTTTCGTCGGCCTCAACACTCTGTTCGTCGCCCTGTGCAGCAACGAGGATTTCCGCCGTCTCGATTTCTCCCAGCTCAAGCTCACCCTGTCCGGCGGCATGGCGTTGCAACTGGCCACGGCTGAGCGCTGGAAGGAAGTCACCGGCTGCCCGATCTGCGAAGGCTACGGCATGACCGAGACCAGCCCGGTGGTGTCGGTGAACCCGTTCCAGAACATCCAGGTCGGCACCATCGGCATCCCGCTGCCGTCGACCCAGTGCAAGGTGATCGACGACGAAGGCAACGACTTGCCCATGGGGGCCATCGGCGAGCTGTGCGTCAAAGGCCCGCAGGTGATGAAGGGCTACTGGCAGCGTCAGGAGGCCACCGACGACATCCTCACCGCTGACGGCTGGCTGAAGACCGGCGACATCGCGGTGATCCAGGACGATGGCTACATGCGCATCGTCGACCGCAAGAAGGACATGATCCTGGTCTCCGGCTTCAACGTGTACCCGAACGAGCTGGAAGACGTGCTGGCGACCCTGCCGGGCGTGCTGCAGTGCGCCGCCATCGGCATCCCGGACGAGAAGTCCGGCGAGGCGATCAAGGTCTTCGTGGTGGTCAAGCCGGGTGAAAGCCTGACCAAGGAGCAGGTGATGGAGCACATGCGCGCCAACGTCACCGGCTACAAGGTGCCGAGGTCCGTCGAGTTCCGCGACAGCCTGCCGACCACCAACGTCGGCAAGATCCTGCGTCGCGAGTTGCGTGACGAAGAGCTGAAGAAACTCGGCAAGAAATAA	MTENFWKDKYPVGVAAEIDPDQYPNIQAVLKQSCQRFADKPAFSNLGKTLTYGELYELSGAFAAYLQQHTDLQPGDRIAVQLPNVLQYPVVVFGAMRAGFIVVNTNPLYTAREMEHQFNDSGAKALICLANMAHLAEEVLPKTGVRHVVVTEVGDMLPPLKRLLVNSVVKYVKKMVPAYNLPQAVKFTEALAKGRGKAPQDANPASGDVAVLQYTGGTTGVAKGAMLTHRNLIANMLQCKELMGANLDEGRETVVAPLPLYHIYAFTFHCMAMMLNGCHNVLITNPRDLPGMIRDLEKYRFTGFVGLNTLFVALCSNEDFRRLDFSQLKLTLSGGMALQLATAERWKEVTGCPICEGYGMTETSPVVSVNPFQNIQVGTIGIPLPSTQCKVIDDEGNDLPMGAIGELCVKGPQVMKGYWQRQEATDDILTADGWLKTGDIAVIQDDGYMRIVDRKKDMILVSGFNVYPNELEDVLATLPGVLQCAAIGIPDEKSGEAIKVFVVVKPGESLTKEQVMEHMRANVTGYKVPRSVEFRDSLPTTNVGKILRRELRDEELKKLGKK	PGPT0008380_8496	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
BMS010_04576	1686	mcpP_2	COG0840	Methyl-accepting chemotaxis protein McpP	ATGCTTTCGTCGCTTGGACTCCGCACCAAAATTCTCCTGCTGGCGCTCGGGCCGATCTTCGCCCTGGCGATCATCCTCAGCCTCGTTGCCACGCTGGTGCTCCAGCAGCTCGCCGACCAACAGGAGGAGCAGACCCGCCAGAGCCTGACCCAGGACCGACGCAACGAATTGCAGCATTACGTGGATCTGGCCCTCGATGCGATCCGCCCGATCCATGAGGCCTCCGCCCAGGACGACATGGCGGCGCGGGATGAAGCCGTGGCGTTGCTCAAGCGTCTGTCCTACGGCAACGGCGGTTATTTCTGGGGCTACGACGGCAATCACCGGCGGGTCTTCCAGGCGGATACCAACGAGCGCATCGGCGAGGACTTCAGCGATTACCGCGATCCCAACGGCGTCTATGCCATTCGCGAGCTGGTCAAGGCGGGCAAGGGCGGCAGCCATGTCGTTGCCTACAGCTTCGTCGTGCCGGGCAGCGATACCCTGGTGCCGAAGATCGGTTATGCCGAGTACCTGCCGAAATGGAACCTGGTGATCGGCACCTCGCTCAACCTGGATGGCGTCGAACGTGATGTGCAGAGCGCCCGCGAAGTGTTCCAGGAACGCATCGACCACCTGCTGCTGATCATGATGGGCTCGGCCCTCGCGTTGCTGGCGTTGATCGCCGTAACGGCGCTGCCGATCACCAACGGCATCCTGCGTCCGTTGCAATTGCTCAAGGCCAACCTGGACGACATGGCGGCAGGCGAGGGCGATCTCACCCACCGGCTGCCGGCGATGGGCAGGGACGAACTGGGCCAACTGGCGGTTTCCTTCAACCGCTTCGTCGAAAAGATTCATGCGCTGGTTCGCCAGGTGGCCGATACCACCACCCGGTTGTCCAGCCTGGTCAGCGCCGTGGCCGCACAGGCCGAGCGCTCGGAACAGGCGATGACCGGGCAACGCCACGAGACCGACCAGACCGCTACCGCGATCAACGAGATGTCCGCCGCTGCCCATGAAGTGGCGATGAGCGCCCAGCGTGCCGCCGAGGCCGCCAGCGAAACCGATCGCCAGGGGCACGACGCCAAGCGCGTGGTGGACCAGAGCATCGGCCAGATTCGCGAACTGGTCGTCGGCCTGGGCAGCACCAGCGATTCCCTCGAAGGCCTGCGCCAGGATGTGCAGGGCATCGTCGGTGTGCTCGAAGTGATCCGCTCCATCGCCGACCAGACCAACCTGCTGGCCCTCAACGCTGCCATCGAGGCGGCCCGCGCCGGCGAGGCCGGGCGTGGCTTCGCGGTGGTCGCCGATGAGGTCCGCGCCCTGGCCAGCCGCACCCAGCAGAGCACCGGCGAAATCCAGGGCATGATCGACCGCTTGCAGAACGCCACCCTCCAGGCGGTGGACGCCATGCGCCGGGCCAGCGACATGGGCGAGCAGACCAGCCTGCAGGCCAACCAGGCCGGCGAATCGCTGGATGCCATCGCCACCCTGATCGGCACCATCAATTCGATGAACGCGCAGATCGCCAGCGCGGCGGAAGAGCAGACCGCCGTCGCCGAGGAGATCAACCGCAGCGTGCACCAGATCGCCGTCGCCGTGGATGGCGTGGCCGATGACGCCAGCCAGGGCGCGCAGACCGCCCAGGAATTGAAGGCCCTCGGCGAGCAGTTGCAGCGGCTGGTGGGGCAGTTCCGTATCTGA	MLSSLGLRTKILLLALGPIFALAIILSLVATLVLQQLADQQEEQTRQSLTQDRRNELQHYVDLALDAIRPIHEASAQDDMAARDEAVALLKRLSYGNGGYFWGYDGNHRRVFQADTNERIGEDFSDYRDPNGVYAIRELVKAGKGGSHVVAYSFVVPGSDTLVPKIGYAEYLPKWNLVIGTSLNLDGVERDVQSAREVFQERIDHLLLIMMGSALALLALIAVTALPITNGILRPLQLLKANLDDMAAGEGDLTHRLPAMGRDELGQLAVSFNRFVEKIHALVRQVADTTTRLSSLVSAVAAQAERSEQAMTGQRHETDQTATAINEMSAAAHEVAMSAQRAAEAASETDRQGHDAKRVVDQSIGQIRELVVGLGSTSDSLEGLRQDVQGIVGVLEVIRSIADQTNLLALNAAIEAARAGEAGRGFAVVADEVRALASRTQQSTGEIQGMIDRLQNATLQAVDAMRRASDMGEQTSLQANQAGESLDAIATLIGTINSMNAQIASAAEEQTAVAEEINRSVHQIAVAVDGVADDASQGAQTAQELKALGEQLQRLVGQFRI	PGPT0015710_18812	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_04577	4041			hypothetical protein	ATGACCGCTCCGACGCCTTCCTTCGATCAACTGCTGAAGAACCTCGACCAGACCCTGATCGCCGACCGCCACCGTCTGCGCCGGCAGTTGCACGAGCTGCGCAAGGGCGGCGCGCCGGACGAGGCGAAGCTGGCGCAGTGGATCGAGCGCTTCCAGGCCTCCAAGGCCAGGGTCGAGGCGCGCCGGCAGAGCGTGCCGGCGATGCGCTACGACGACGCCTTGCCGATCGCCGCCAAGCGCGACGAGATCAAGGCCGCGCTGGACAAGCACCAAGTGGTGGTGATCGCCGGCGAGACGGGCTCCGGCAAGACCACCCAGTTGCCGAAGATCTGCCTGGAAATCGGCCGCGGCGTGCACGGCCTGATCGGCCACACCCAGCCTCGGCGCCTGGCAGCGCGCAGCGTGGCGACGCGGGTGGCGGAGGAGATCGGCAGCCCGTTGGGTGAGCTGGTGGGCTATCAGGTGCGTTTCGAGGACCAGTCCAACGAGCGCAGCCTGATCAAGCTGATGACCGACGGCATCCTCCTCGCCGAGACCCAGCACGACCGCTTCCTCGAACGCTACGACACCCTCATTGTCGACGAAGCCCACGAGCGCAGCCTGAACATCGACTTCCTGCTCGGCTACCTGAAGACCCTGCTGCCGCGCCGCCCCGACCTCAAGCTGATCATCACCTCGGCGACTATCGATCTGGAGCGCTTCTCCCGCCACTTCGGCGATGCGCCCATCGTCGAGGTGTCCGGGCGGACCTACCCGGTGGAAACCTGGTACCGGCCGCTGGCCGCCGAACTGGACGAAGAGGGCGAGCCGCTGTTCGACGACCTCAGCGTCGACCAGGGCATCCTGCGCGCGCTGGAGGAGATCGAGGCCCACGAGCGCAGCGTCGGCCAGCGTCCCGGCGATATGCTGGTGTTCCTGCCCGGCGAACGGGAGATTCGCGATGCCGCCGAGGTGTTGCGCAAGGCCAACTTGCGCCACACCGAAGTGCTGCCGCTGTACGCACGCCTGACCCCGGCCGAGCAGCAGAAAATCTTCCAGCCCATGCCGGGGCGCAAGATTGTCCTCGCCACCAACGTCGCCGAGACCTCGCTCACCGTGCCGGGTATCCGCTACGTGATCGACAGCGGCACCGCGCGGATCAGCCGCTACAGCTACCGTGCCAAGGTCCAGCGCCTGCCCATCGAGGCGGTATCCCAGGCCAGCGCCAACCAGCGTAAGGGCCGCTGCGGACGGGTCGAACCCGGCATCTGCGTGCGCCTGTACAGCGAGGAGGATTTCCTTGCCCGTCCCGAATTCACCGACCCGGAAATCCTGCGGACCAACCTCGCCGCGGTGATCCTGCAGATGCTCCATCTGCGCCTCGGCAACATCGAGGACTTCCCCTTCATCGAGCCGCCGGACGGCAAGGCGATCAAGGACGGCTTCACCCTCCTGCAGGAGCTCTCGGCGGTCAGCCGCGAAGGCCAGCTCACCCCCATCGGCCGCCAGTTGGCGCGCCTGCCGGTGGACCCGCGCCTCGGCCGGATGATCCTGGAGGCCTCACGCCAGGGCAGCCTGGAAGAAGTGCTGATCGTTGCCAGCGCACTGTCCGTGCAGGACCCGCGCGAGCGTCCGGTGGAGCGCCAGCAGGCCGCCGACCAGGCCCATGCCCAGTGGAAGGACCCGGATTCCGACTTCGCCGCGCTGATCAACCTTTGGCGCGGCTTCGAGGAGCAGCGTCAGGCGCTGGGCTCCAACGCCCTGCGCAACTGGTGCCGAAAGAACTTCCTCAATTACATGCGCTTGCGCGAATGGCGCGATGCCCACCGCCAATTGGTGCTGATCGCCCGTGAGTTGAAACTCTCCGAGAGCCAATCCGGAGCGCGCAAAGGCGAGCCAGGCGCCCAAGGAAAGCCTGTTCGCCAGCAAACCGACTTGCACAAACAGAACGCCGGAACATCACCCGGAAATGCCGGGGCGTCCGGCGATGCCGCCCGCCGCGACATCGATTACGCCGCCGTGCACAAGGCGATCCTGGCGGGCCTGCTCAGCCAGATCGGCCAGAAGACCGAAGAGGGCGACTACAATGGTGCGCGCCAGCGGCGCTTCTGGATTCACCCCTCCACGGTACTGGCGCGCAAGCGGCCGCAGTGGATCATGGCCGCCGAGCTGGTGGAGACCACCAAGCTGTTCGCCCGCATGGTGGCGCGCATCGAGCCGGACTGGATCGAGCCGCTGGCCGGCCACCTGATCAAGAAGAACCACCTGGAGCCGCACTGGGAGAAGAAGCGCGGCCAGGTCGTCGCTTACGAGCAGGTCAGCCTCTACGGACTGATCGTGGTCGGCCGCCGCCCGGTGCACTACGGCCCCATCGATCCGCCGGTGGCGCGCGAGCTGTTCATCCGCGAGGGGCTGGTGCGTGGCGAAATCAATAGTCGCGCCCGTTGCCTGAGCGCCAACCGCCAGCTGCTGGAGCGTCTCGACGAGCTGGAAGCCAAGGCCCGCCGGCGCGACATCCTGGCCGACGAGGAAACCCTGTTCGGCTACTACGACGCCCGCCTGCCGCAGGACATCTACCAGGCCGCCAGTTTCGAGAGCTGGTACAAGCGCGAGAGCGAGAAGAATCCGCAACTGCTGATCATGCGCGAAGAGGACGTGCTGGCCCGCGAGGCCAGCGAGGTCACCGCTGCGCAGTACCCGGACCGCCTGCGCCTGGGTGAGCTGGAGCTGCCGCTGACCTACCACTTCGAGCCCGGGCATCCGCGTGACGGCGTCACCGTGCGGGTGCCAGCGCCGCTGCTGCCGCAATTGCCGGGCGAGCGCCTGGACTGGCTGGTCCCCGGCTTGCTGGAAACCAAGGCCGTGGCGCTGGTGCGCAACCTGCCCAAGGCGATCCGCAAGAACTTCGTGCCGGTGCCCGATTTCGTCGGCGCCGCCCTGGCCAAGCTGGCATTCGGACAGGGCAGCCTGCCGGAATCCCTTGGCCGCGAATTGCAGCGCATGACCGGCGCCCGGGTGCCCGAGGAGGCTTGGGCGGAGGCCGCCGCGCAGTTGGACGGTCACCTGAAGATGAACATCGAGGTGGTGGATGCGCGCGGCAAGTTCCTCGGCGAAGGCCGCGACCTGGCCGAATTGACCGCGCGCTTCGCCGAAGCCAGCCAGGCGGCGCTGGCGCTACCGGAGCGCAAGGCCGAGGCCAAGCCGGTGGAGGCCAAGGCGTTCGCTCAGGTGGCGGAAAAGGCCCAGCAGAAGGTCGCCGGCCTGTCGCTGACGGTCTACCCGGCGCTGGTGGAAGAGGGTGGGGTGGTCAAGGAGGGGCGTTTCCCGACCCAGGCCGAAGCCGAGTTCCAGCACCGCCGCGCCTTGCAACGCCTGCTCCTGCAACAGTTGGCCGAGCCGGCGAAGTACCTGCGCGGCAAGCTGCCGGGGTTGACCGAGCTGGGCCTGCTCTATCGCGACCTGGGGCGTGTCGATGCACTGGTGGAGGACATCCTCCTGGCCAGCCTGGACAGCTGCGTCCTCGACGGCGAGCCCTCGTTGCCGCGCGACGGTGCGGCGCTTGCCGCACTCGCGGAGAAAAAGCGCGGCGCCTGGACCGAGCACGTCGAGCGCCTGGCCCGGCTGGTGCTGGACATTCTCAAGCTGTGGCATGGCCTGCAGAAACGCTTCAAGGGCCGTATCGACCTGGCCCAGGCAGTGGCGCTGAATGACATCAAGGCGCAGCTGGCCAATCTGGTCTATCCGGGCTTCGTCCGCGAGACGCCGGCCGAATGGCTCAAGGAGTACCCGCGCTATCTGAAGGCCGTCGAACAGCGCCTGGACAAGGTTGGCGCCCAGGTGCAGCGCGACCGTGTCTGGGCCGGCGAGCTGGCCGGCTACTGGGAGCAGTACCAAGCCCGGGCCGCCAAGCACGCCCAGGAAGGCAAGCGCGATCCGAATCTGACGCTGTATCGCTGGATGCTGGAGGAGTACCGCGTTTCGCTGTTCGCCCAGCAGCTCGGTACGAAGATGCCCGTTTCCGACAAGCGCCTGGGCAAGCAGTGGAGCGTGGTGGAGGCCTGA	MTAPTPSFDQLLKNLDQTLIADRHRLRRQLHELRKGGAPDEAKLAQWIERFQASKARVEARRQSVPAMRYDDALPIAAKRDEIKAALDKHQVVVIAGETGSGKTTQLPKICLEIGRGVHGLIGHTQPRRLAARSVATRVAEEIGSPLGELVGYQVRFEDQSNERSLIKLMTDGILLAETQHDRFLERYDTLIVDEAHERSLNIDFLLGYLKTLLPRRPDLKLIITSATIDLERFSRHFGDAPIVEVSGRTYPVETWYRPLAAELDEEGEPLFDDLSVDQGILRALEEIEAHERSVGQRPGDMLVFLPGEREIRDAAEVLRKANLRHTEVLPLYARLTPAEQQKIFQPMPGRKIVLATNVAETSLTVPGIRYVIDSGTARISRYSYRAKVQRLPIEAVSQASANQRKGRCGRVEPGICVRLYSEEDFLARPEFTDPEILRTNLAAVILQMLHLRLGNIEDFPFIEPPDGKAIKDGFTLLQELSAVSREGQLTPIGRQLARLPVDPRLGRMILEASRQGSLEEVLIVASALSVQDPRERPVERQQAADQAHAQWKDPDSDFAALINLWRGFEEQRQALGSNALRNWCRKNFLNYMRLREWRDAHRQLVLIARELKLSESQSGARKGEPGAQGKPVRQQTDLHKQNAGTSPGNAGASGDAARRDIDYAAVHKAILAGLLSQIGQKTEEGDYNGARQRRFWIHPSTVLARKRPQWIMAAELVETTKLFARMVARIEPDWIEPLAGHLIKKNHLEPHWEKKRGQVVAYEQVSLYGLIVVGRRPVHYGPIDPPVARELFIREGLVRGEINSRARCLSANRQLLERLDELEAKARRRDILADEETLFGYYDARLPQDIYQAASFESWYKRESEKNPQLLIMREEDVLAREASEVTAAQYPDRLRLGELELPLTYHFEPGHPRDGVTVRVPAPLLPQLPGERLDWLVPGLLETKAVALVRNLPKAIRKNFVPVPDFVGAALAKLAFGQGSLPESLGRELQRMTGARVPEEAWAEAAAQLDGHLKMNIEVVDARGKFLGEGRDLAELTARFAEASQAALALPERKAEAKPVEAKAFAQVAEKAQQKVAGLSLTVYPALVEEGGVVKEGRFPTQAEAEFQHRRALQRLLLQQLAEPAKYLRGKLPGLTELGLLYRDLGRVDALVEDILLASLDSCVLDGEPSLPRDGAALAALAEKKRGAWTEHVERLARLVLDILKLWHGLQKRFKGRIDLAQAVALNDIKAQLANLVYPGFVRETPAEWLKEYPRYLKAVEQRLDKVGAQVQRDRVWAGELAGYWEQYQARAAKHAQEGKRDPNLTLYRWMLEEYRVSLFAQQLGTKMPVSDKRLGKQWSVVEA				NA	NA	NA	NA	NA
BMS010_04578	426			hypothetical protein	ATGCGATTGATCCACGCGGTATTGCCTGTGCTGGCGCTGGCTGGCTGCTCGTCCTTTCCCGCAGCGCCGGACAAGGTGGCCCCGGTCCCGGAAGACCGCCTGCTGGCCTTTCAGGCGGCCGACGCGGGCAGCGGTCAACTGGTGGTGGAACGTGACCTCGGGTTCCTCGGCGGCGGCTGCTATGTCGCCGTGCTGGTGGACAAGCAGGTCGCCGCGCGCATCCATGTCGGCGAGTCGGCCAGTTTCCACCTGCCCCCTGGCGGCCATCTGGTCGGGATCGGCCCGGACGAGCAGGACGAGGGGCTGTGCGCCATGGCCCGCCTGAATATTCACCGGGCATTCCGGCTGCAGGATGGCGAGAACGTGCATTTCCGCATCGTCAGCGAGGCCAACGGCGGCTTCGATATTCGCCCGGTCGAGCGCTGA	MRLIHAVLPVLALAGCSSFPAAPDKVAPVPEDRLLAFQAADAGSGQLVVERDLGFLGGGCYVAVLVDKQVAARIHVGESASFHLPPGGHLVGIGPDEQDEGLCAMARLNIHRAFRLQDGENVHFRIVSEANGGFDIRPVER				NA	NA	NA	NA	NA
BMS010_04579	543	satA		Streptothricin acetyltransferase A	ATGGTTGAACTCCGACCCGTCGACGAATCGTTGTTCGCTTGGGCGCAGCAGGGCGATTTCGGCTTTCTGGTCGAACGTGAGCTCCTGCCTGCGTTCGACACGGATGTCAGTCACCGCCTGGCTCCGCTGGAACCCTATAGCAAGGACTACGAGAGCGACCTGGAAGACTATCGCGATTACCTGGATGCGCCGGACAAGGCATTGCTCGCGGCGGTCGTCGAGGGGAAGTGGGCCGGGTACCTGGCGATCAGTTGCCACTGGAATGGCTTCGCCCTGGTCGAAGACCTCGCCGTGGAGCGCACCATGCGCCGTCATGGCGTGGCGCGTGTGTTGATGGATGCCGCCGTGGCCTGGGCCAGACGCCAGGGGTTGGCTGGCGTCACCCTGGAAACCCAGTCCAACAACGTCGCGGCCTGCCTGTTCTACCAGCGCTATGGCTTCCGCCTGGAGGGTATCGACCGCTTCCTGTATCGCGGCCTGTCGCCGCAGACTCGCGAGATCGCGCTGTTCTGGTACTTGCCGTTCGAGGATGTTCCCCGTTAG	MVELRPVDESLFAWAQQGDFGFLVERELLPAFDTDVSHRLAPLEPYSKDYESDLEDYRDYLDAPDKALLAAVVEGKWAGYLAISCHWNGFALVEDLAVERTMRRHGVARVLMDAAVAWARRQGLAGVTLETQSNNVAACLFYQRYGFRLEGIDRFLYRGLSPQTREIALFWYLPFEDVPR	PGPT0028665_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-STREPTOMYCIN|KANAMYCIN|AMIKACIN,PGPT0028665-sat3-K19314	NA	NA
BMS010_04580	612	rhtB_5	COG1280	Homoserine/homoserine lactone efflux protein	ATGGCACTTCACCTCTGGCTCCTATACCTCACCGCCGTGATCGGCCTGTCGCTGACGCCCGGCCCCAATGGCCTGCTCGCGCTGTCCCACGGCGCGCTCTATGGGCACCGCCGGGCGCTGTTCACCGTGGCGGGCGGCCTGCTCGGTTTCGTCGTGCTGATGGCCTTGTCGATGTTCGGCATCGGCGCCTTGCTACAGGCATCCGCCGACGCGCTGACTCTCCTCAAATGGATCGGCGGCGCCTACCTGGTCTGGCTTGGCATCCAGCTCTGGCGCTCTCCGCCGCTGCGCCTGACCAACCTCGACGACGCGACGGCCAGGCCGGGCGCGCAACTGTTCCGCCAGGGCTTGTTCTCCGCCCTGTCCAATCCCAAGGTGATCCTGTTCTTCGGCGCCTTCCTGCCGCAGTTCCTCGACCCGCAGCGGCCTCTATGGCTGCAATTCGCGGTGATGGCGCTGACCTTCGCCCTGGTGGAAGGCATCGTCGAATACGTTCTCGCCCGCCTCGCTCACCGCATCCGCCCCTGGCTGGAGCGCAGCGGCAAGGGGTTCAACCGTGTCTGCGGCGGCTTGTTCGCCGTCATGGGCGCGGCGCTGCCGACGGTGAGATGA	MALHLWLLYLTAVIGLSLTPGPNGLLALSHGALYGHRRALFTVAGGLLGFVVLMALSMFGIGALLQASADALTLLKWIGGAYLVWLGIQLWRSPPLRLTNLDDATARPGAQLFRQGLFSALSNPKVILFFGAFLPQFLDPQRPLWLQFAVMALTFALVEGIVEYVLARLAHRIRPWLERSGKGFNRVCGGLFAVMGAALPTVR	PGPT0021036_1190	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_SENSING_RELATED_GENES	CE-QSR-PUTATIVE_TRANSPORTER,PGPT0021036-rhtB-K05834	NA	NA
BMS010_04581	966			hypothetical protein	ATGCGTATCCTCGCGCTCCTTGCCCTGTTGACGGGCAGTGCTTCGGCCGTCGCCCAATGCCCCGATTTCATCAGCCCCGCCAACCCGCCCGCGTTCACCAAACCGGCGAAGAAGAGCTTCCGCAACTTCGGCAACACTGTACTGGCCGGCCTCTACTCGCCCTGGCACATGGTGCACGACCAGATGGTCCGCAGCGGCCAGGCGGCGACGGTCACCGCCAAGTTCGACTACGACGCCGTGCTACATAAGGATCTGGAGGGCGAATACGTGCACGCCTATCTCTACGGCACCGGCATGAATGCCTGGGAATACCTCGGCCGCTACACCACCGACAGCGACGGCAAGATCAACGTCGCCACCGGTACCCGTCCGGTGGGCGAGTACCGGCTGCGTTTCGTGGTGGAAGGCGACCTCAGCCAGGTCGACGGTTATCTCAGCGTGGTCGATCCGAATCGCCCGGCCGTACTGTTCGATATCGACGGCACCCTGACGATCAACGATTTCGAGGCCTATGCCGACTATGTCGGCCTGAAGACCGCGCAAGCCTATTACTACGCCCCGGAAACGGTACGGGCGTACCGGGACAAGGGCTACCAGCTGGTGTTCCTGACCGCCCGGCCGTATTGGGTTACCCGCGACGCCCGCGAATGGTTCGACCATCAGAACCTGCCGCGCTGGCACTACCGCTCGAACCCCTATGGCGATGGGCCTATCCCACCGGATACCCAGGCGCACAAGACCAACTACATCAAGTACCTGCGTCAGGACGTAGGGCTGAACATCGTCCGTGCCTACGGCAATGCCACCACCGACATAGCCGCCTATGCCGATGCCGGGTTGCCCACGTCGGAAACCTGGATCATCGGCGAGCATGCCGGCGAGTCGGGCACCCAGGCACTGAACGGCGACTACAGCTACCACTTCAGTACCGTGGTCGCCAACACACCGAACGCGGCGTGCAATTGA	MRILALLALLTGSASAVAQCPDFISPANPPAFTKPAKKSFRNFGNTVLAGLYSPWHMVHDQMVRSGQAATVTAKFDYDAVLHKDLEGEYVHAYLYGTGMNAWEYLGRYTTDSDGKINVATGTRPVGEYRLRFVVEGDLSQVDGYLSVVDPNRPAVLFDIDGTLTINDFEAYADYVGLKTAQAYYYAPETVRAYRDKGYQLVFLTARPYWVTRDAREWFDHQNLPRWHYRSNPYGDGPIPPDTQAHKTNYIKYLRQDVGLNIVRAYGNATTDIAAYADAGLPTSETWIIGEHAGESGTQALNGDYSYHFSTVVANTPNAACN				NA	NA	NA	NA	NA
BMS010_04582	921	pgrR_8		HTH-type transcriptional regulator PgrR	ATGGCCTTCGACCGTATCGATGCGATGCGCGCCTTCTGCCGCATAGTCGAACTGGGCAGCTTCACCCGTGCCGCCGATGCCCTTGGCATTCCCAAGACCACGATTTCCGGCCAAGTGCAGGCGCTGGAAACGCAACTGGGGGTGAAGCTGCTGCACCGGACCACCCGCCGGGTTTCCCCGACCACCGACGGCGCCGCCTATTACGAACGCGCCCGCGCCCTGCTCGACGACATCGACGAACTGGAAGCCACGGTCTCGCGCAGCCGCAGCGTCGCGCGCGGCCGGGTACGGGTGGAAATGCCTTCGCCGGTGGGACGCTTCCTGATCATCCCCGCCCTCCCCGACTTCGTCGCCCGCTATCCCGATATCCAGCTCGACATCGGCTGCAGTGAACGCGTCGTCGATCTGGTGCAGGAAGGCGTCGATTGTGCGATCCGCGGCGGCCCGATCGACGACCCCGACCTGGTCTGCCGCCCTCTCGGCCAGATGCGCTTTACCCTCTGCGCCGCGCCCGCATACCTCGACCGAGCCCCGCCACTGGCATCGCCCGACGACCTGCAACGGCATCGCTTTCTGGCGTTCGTCTTCCCCGCGACCGGGCGCCAGTACCGGGTGGTGCTGCACAGGGACGGGCAGACGCACGAGATCGACCAGACGCCTGCCATGCGCTTCAACAGTGGCGGTGCCTACATCGCTGCCGCCGAAGCCGGACTCGGGCTGGTCGCGGTACCGACCGCCGAAGCCCGCCCCCAGCTCGATGCGGGCCGGCTCGTTCGCGTGCTGCCGGACTGGGCGCCAGCCGGCATGCCGATGAGCCTGGTCTACCCCTACTCCCGCCATCTTTCGGCCCGCGTGCGCGCATTCGCCGATTGGGCGAGCACGGTGTTGCAGAACGATCCGCTGTGGGCGCCGGATAGATGA	MAFDRIDAMRAFCRIVELGSFTRAADALGIPKTTISGQVQALETQLGVKLLHRTTRRVSPTTDGAAYYERARALLDDIDELEATVSRSRSVARGRVRVEMPSPVGRFLIIPALPDFVARYPDIQLDIGCSERVVDLVQEGVDCAIRGGPIDDPDLVCRPLGQMRFTLCAAPAYLDRAPPLASPDDLQRHRFLAFVFPATGRQYRVVLHRDGQTHEIDQTPAMRFNSGGAYIAAAEAGLGLVAVPTAEARPQLDAGRLVRVLPDWAPAGMPMSLVYPYSRHLSARVRAFADWASTVLQNDPLWAPDR	PGPT0028940_483	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-CHLORAMPHENICOL|TRIMETHOPRIN_EFFLUX_PUMP_BpeEF-OprC,PGPT0028940-bpeT-K18900	NA	NA
BMS010_04583	441			hypothetical protein	ATGAACACACCCCGTGTCCGCTACAGAGACGTCGCCCCCCATACCTTTACCGCGCTGCTCGGCCTGGAGAAGGTGCTTGCCGAATCGCTGCTGGAACCGTCCCTGCGCGAGCTGGTGAAAGTCCGTGCTTCCCAGCTCAACGGCTGCGCCTACTGCGTGGATATGCACAGCGCCGAGGCATTGAAGGCCGGCGAAACGGTACGCCGCCTGCTGTCCTTGCCAACCTGGCAGGAGACGCCGTTCTTCTCCGCGCGGGAGCGGGCGGCCCTGCTCTGGACCGAGACGCTGACCCTGCTGGCCGAGCGTCACGCGCCGGATGCCGTCTATGCCGAAGTGGCCGAGCAGTTCAACGAGCGCGAGCTGGCAGAGCTGACCTTCGCCATCGCCACGATCAATGCCTGGAACCGCATCGGCGTGGGTCTCGCCATGCAGCCGGAATGA	MNTPRVRYRDVAPHTFTALLGLEKVLAESLLEPSLRELVKVRASQLNGCAYCVDMHSAEALKAGETVRRLLSLPTWQETPFFSARERAALLWTETLTLLAERHAPDAVYAEVAEQFNERELAELTFAIATINAWNRIGVGLAMQPE				NA	NA	NA	NA	NA
BMS010_04584	1122		COG0332	Beta-ketodecanoyl-[acyl-carrier-protein] synthase	GTGCACAACGCAGTGATCAGCGGCACCGGTCTGTACACCCCGCCCCACAGCATTTCCAATGAAGAACTGGTGGCATCCTTCAATGCCTATGTGCATCAGTTCAATGCCGACAACGCCGCCGCCATCGAGCGGGGCGAGATCGAGCCGCTGGCCGAGTCCAGCGTGGCTTTCATCGAGAAGGCGTCGGGGATCAAGAGCCGCTTCGTGGTGAACAAGGACGGCATCCTCGATCCGCAGCGCATGGTGCCACGCATTCCCGAACGTCCGAACGAGGAGTGGGGCATTCTCTGCGAAATGTCCGTCGCCGCCGCGAAACAAGCCCTGGAGCGCGCCGGCCGCACCGCCGCCGACATCGACGGGGTGATCGTCGCCTGTTCCAACCTGCAGCGAGCCTACCCGGCGGTGGCCATCGAAGTGCAGGCCGCGCTCGGCATCCAGGGCTTCGGCTATGACATGAACGTTGCCTGCTCCTCCGCCACCTTCGGCCTGCAAGCGGCGACCAACGCCGTCCAGCTCGGCCAGGCTCGCGCCATCCTGATGGTCAACCCGGAAATCTGCACCGGCCACCTGAACTTCCGCGACCGCGACAGCCACTTCATCTTCGGCGATGCCGCCACCGCGGTGATCGTCGAGCGCGCCGACCTGGCGACCTCCGACTACCAGTGGGACATTCTCAGCACCAAACTGCTGACCCAGTTCTCCAACAACATCCGCAACAACTTCGGCTTCCTCAACCGTGCCGGCGAAGAGGGCATCGGCAAGCCGGACAAGTTGTTCATCCAGGAAGGCCGCAAGGTGTTCCGCGACGTCTGCCCGATGGTGGCCGAACTGATCGGCAAGCACCTGGAGGAGAACGACCTGCAGGTGTCGGACGTGAAGCGTTTCTGGCTGCACCAGGCCAATCTCAACATGAACCTGCTGATCACCAAGAAGCTGTTGGGCCGCGACGCCGAGCCGCACGAGGCGCCGGTGATCCTGGATACCTACGCCAACACCAGCTCGGCCGGTTCGGTGATCGCCTTCCACAAGAACCAGGACGACCTGCCCAAGGGCTCGCTGGGTGTGCTGAGTTCGTTCGGTGCCGGCTACTCCATCGGCAGCGTGATTCTGCGCAAGCGTTGA	MHNAVISGTGLYTPPHSISNEELVASFNAYVHQFNADNAAAIERGEIEPLAESSVAFIEKASGIKSRFVVNKDGILDPQRMVPRIPERPNEEWGILCEMSVAAAKQALERAGRTAADIDGVIVACSNLQRAYPAVAIEVQAALGIQGFGYDMNVACSSATFGLQAATNAVQLGQARAILMVNPEICTGHLNFRDRDSHFIFGDAATAVIVERADLATSDYQWDILSTKLLTQFSNNIRNNFGFLNRAGEEGIGKPDKLFIQEGRKVFRDVCPMVAELIGKHLEENDLQVSDVKRFWLHQANLNMNLLITKKLLGRDAEPHEAPVILDTYANTSSAGSVIAFHKNQDDLPKGSLGVLSSFGAGYSIGSVILRKR	PGPT0008355_521	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008355-fabH-K00648	NA	NA
BMS010_04585	609	rpoE_3	COG1595	ECF RNA polymerase sigma-E factor	ATGTCGCCCGCCGACGACGATCTGCTGCCACGTTTGCTGGCGGGCGAGGACCGGGCCTTTCGCGAACTGATCGGCGCCTACCAGGGCGCCATGCGCGCCGTGGCTTACGCCATCGTCGGCAGCCGGCACGCCGACGAAGTGGTGCAGGACGCCTGGCTCGCGGTGGTGCGCAGCCTGAATGGCTTCCAGGGCCGTGCCAGCCTGAAGACCTGGCTGCTGACCATTACCGCCAACACCGCCAAGAGCCGGCTCCGTCACGTTCGCCGCGAAGTGTTGCTGGACGACCTGCCGGCGCCCCACGGCACCGTTGGTGGCGAACGTTTCGCCAGCGACGGCCACTGGCTGACGCCGCCTTCCGCCTGGCACGAAGACTCCCCCGAAGCGCTGCTGAACGAAAGCGAATTGCGAGAGTGCCTGGAAAAGACCATCGCCAGCCTTTCCGAGCTGCAAGGGAGTGTGCTGGTGCTGCGTGAGCGGCAGGGGCTGGAGTTGGAGGAGATCTGTAATCTTTTGGACATTTCGCTCTCCAATGTCCGTGTGTTGCTGCACCGTGCCCGCTTGAAGGTTTTCGCTACCCTGGAACATTTCGAGGAGACCGGCCAATGTTGA	MSPADDDLLPRLLAGEDRAFRELIGAYQGAMRAVAYAIVGSRHADEVVQDAWLAVVRSLNGFQGRASLKTWLLTITANTAKSRLRHVRREVLLDDLPAPHGTVGGERFASDGHWLTPPSAWHEDSPEALLNESELRECLEKTIASLSELQGSVLVLRERQGLELEEICNLLDISLSNVRVLLHRARLKVFATLEHFEETGQC	PGPT0014960_5329	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
BMS010_04586	240			hypothetical protein	ATGTTGAGTTGTAAGGAACTGGTCGCCCACTCGAGCGATTTCCTCGATGGCCAGTTGAGTTTCCGCGAGCGGCTGGCCGTGAGAACCCACCTCGCCATGTGCCGTCATTGCCGCCGCTTCATCCGCCAGATGCGCCTGAGCCAGGCCGTGCTGCGGCGCCTGCCGGATACGCCGATTCCCGAGCTGGATGCCTTGTCCGCCCGCCTTGCCAAGCAGCGGCGGGATGATCTTGCTTCGTAG	MLSCKELVAHSSDFLDGQLSFRERLAVRTHLAMCRHCRRFIRQMRLSQAVLRRLPDTPIPELDALSARLAKQRRDDLAS				NA	NA	NA	NA	NA
BMS010_04588	282			hypothetical protein	ATGAAACACCTGAACACTGTTGCCGCTACCCTGGGTGCCGCTCTGCTGACTTCGGTCACCTGGTCCGCCCAGGCCGCGCAGAACCCGTTCGCTGCCCAGGAGCTGTCCAGCGGCTACAGCCTGGCAGCCCATGAGAAAGGCCATGAGGGCGCCTGTGGGGAAGGCAAATGCGGCGGCGAGATGAAGTCGACCCAAGGCGATACCGAAACCACGAAGGGGGAGAAGACCGCCGCGGAGGGTAAGTGCGGCGAGGGCAAGTGCGGCGCCGAGAAGCAAGGCTGA	MKHLNTVAATLGAALLTSVTWSAQAAQNPFAAQELSSGYSLAAHEKGHEGACGEGKCGGEMKSTQGDTETTKGEKTAAEGKCGEGKCGAEKQG				NA	NA	NA	NA	NA
BMS010_04589	843			hypothetical protein	ATGGACAGGTCGTTCGTCAGCGGCGCCGGGCTCGGCCTGCGTCGCGGCCTGCTCGCCGGGCTCGGGGAGAGTGCGGTCGGGCAGGTCGATTTCCTCGAAGTCGCGCCGGAGAACTGGATCGGCGTCGGCGGTCGCCTCGGCTGCCAGTTGCGCGTGCTGACCGAACGGCTGCCATTCCTCTGCCATGGCCTGTCGCTGAACCTGGGGGGCTTTGCCCCCTTGGACCGGGGGCTGTTGAAGGCGATCAAAGCCTTCCTCGATACGCACGGTATCCGCGCCTACAGCGAGCACCTGTCGGCCTGTGCCGGCGAGGGCATGCTGTATGACCTGATGCCGCTGCCGTTCGACGAGGCGACGGTGCGTCGCGTCGCCGAACGGGTGCGGATCGTTCAGGACGTTCTGCAGCGTCCGCTGATCATCGAGAACGTCTCGGCCTACGCGCGGCTGCCCGGCGAGCTGGACGAACCCGGCTTCGTCCGCGCCGTGCTGGAGGCCGCCGATTGCCAACTATTGCTGGACGTCAACAACGTCTACGTCAACAGCGTCAACTTCGGCTTCGATCCGGCCGCCTACCTGGCCGCCATGCCGAGCGAGCGCATTGCCTATCTCCACGTGGCCGGGCACTACGACGAAGCGCCGGGGCTGAAGATCGATACCCATGGCGCGGCGGTGGCCGATCCGGTCTGGTCCCTGCTGGCGCAGACCTACGCACTACATGGGGTGCGGCCGACCTTGCTGGAGCGGGACTTCAACTTCCCACCGCTGGGCGAGCTGTACGCCGAAGTGGAGGGTATCCGCCGCTTACAGGAGAAGGCGGAGGCGCAGCGGGGGTATGGCACATGA	MDRSFVSGAGLGLRRGLLAGLGESAVGQVDFLEVAPENWIGVGGRLGCQLRVLTERLPFLCHGLSLNLGGFAPLDRGLLKAIKAFLDTHGIRAYSEHLSACAGEGMLYDLMPLPFDEATVRRVAERVRIVQDVLQRPLIIENVSAYARLPGELDEPGFVRAVLEAADCQLLLDVNNVYVNSVNFGFDPAAYLAAMPSERIAYLHVAGHYDEAPGLKIDTHGAAVADPVWSLLAQTYALHGVRPTLLERDFNFPPLGELYAEVEGIRRLQEKAEAQRGYGT				NA	NA	NA	NA	NA
BMS010_04590	717			hypothetical protein	ATGACCGGCATCCAAGCGCAACGCAACTTCGCCGCGCGGATTCGCCAGCCCGGTGTTAATCCTCTGCCGGAGGGGGTTCCCGTCGAGCGGATGGCGATCTACGAGCAATTGTTCTTCAACACGATCGAGGGCTTCCTCTCCAGCGGCTTTCCCGTGTCGCGACGGCTGTTCGACGAGGCGCGCTGGCGCCGTCTGGTGGGGGATTTCCTCGCTGGGCATCGCTGCACCACGCCGTATTTTCCCGCAGTCGGCGAGGAGTTCCTCGGTTGGCTTTCCGACGGCCATTGCCCACACGCCAATGATCCACCGTTCCTGCTCGAACTGGCCCATTACGAATGGGTGGAACTGGCCTTGGAGCTGTCGCCGGCCGAGTTGCCGAGCGTCGGCTGGTCACCGTTGGCCTGGCCGCTGGCCTACGTCTGGCCGGTGCAGCGCATCGGCCCGGACTACCGGCCGGAGGTGCCACCGGAACAGCCGACCTGCCTGCTGGCCTGGCGTGATGGCCAGGACCGCGTGCGCTTCATGCAACTCGGCCCGTTCGCCTATCGACTGGCCCTGCGGCTGCGCGGGGGCGAGACGCCCGAGGTCGCGCTGAAACACTTGGCGGAGGAGAGCGGGATCGCTCCCGATGCCGCCTTTTACCAACACGCCGACGAACTGTTGGAAGCCTGGCGCCGCCAGGACATCTTCATCGGCTCAGGGAGTTTGCCATGCTGA	MTGIQAQRNFAARIRQPGVNPLPEGVPVERMAIYEQLFFNTIEGFLSSGFPVSRRLFDEARWRRLVGDFLAGHRCTTPYFPAVGEEFLGWLSDGHCPHANDPPFLLELAHYEWVELALELSPAELPSVGWSPLAWPLAYVWPVQRIGPDYRPEVPPEQPTCLLAWRDGQDRVRFMQLGPFAYRLALRLRGGETPEVALKHLAEESGIAPDAAFYQHADELLEAWRRQDIFIGSGSLPC				NA	NA	NA	NA	NA
BMS010_04591	600			hypothetical protein	ATGCTGACCTTTCTCAACCGTGCCCAGGATGCCCTGGACGCGACCCGCCGCCTGGATTTCCTCGGGCCGCTGCTGCTGCGCCTGTATCTGGTGCCGATTTTCTGGATGGCTGGCACCCACAAGCTGGCGGACATGGACGCCACCATCGCCTGGTTCGGCAACCCGGACTGGGGTCTCGGCCTGCCGTTCCCTACGCTGCTGGCCTGGCTGGCCGCCTTGACCGAGACGGGTGGCGCCGTGCTGCTGCTGTTCGGCCTGGCGGTGCGCTGGATCAGCGTGCCGCTGATGGTGACCATGCTGGTGGCGATGTTCAGCGTGCACTGGGAATTCGGCTGGCAGGCCATCGCCGATCCCTCGGCACCCTTCGCCAACGAGCGGGTGATGGCGGCGGCGGAGAAATTGGACAGGGCCCGGGCGATCCTCAAGGAGCATGGCAACTACGACTGGCTGACCGCGAGCGGCCGCTTCGTGGTGCTCAATAACGGCATCGAATTCGCCGCCACCTATTTCATCATGCTGCTGAGCCTGTTCTTCACGGGCGCAGGGCGCTGGGCCAGCCTGGATCACTGGCTGGCCGCGCGATTCCGCCAAGCGGATTGA	MLTFLNRAQDALDATRRLDFLGPLLLRLYLVPIFWMAGTHKLADMDATIAWFGNPDWGLGLPFPTLLAWLAALTETGGAVLLLFGLAVRWISVPLMVTMLVAMFSVHWEFGWQAIADPSAPFANERVMAAAEKLDRARAILKEHGNYDWLTASGRFVVLNNGIEFAATYFIMLLSLFFTGAGRWASLDHWLAARFRQAD	PGPT0028505_298	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROQUINONE-DERIVATE_RESISTANCE,PGPT0028505-catD-K15977	NA	NA
BMS010_04592	1299	oprO	COG3746	Porin O	ATGATCCGTAAGCACTTCGCCGGTTTCGCCGCCAGCGCCCTGGCCCTGGCCGTTTCCGCCCAGGCTTTCGCCGGTACCGTCACCACCGACGGCGCCGACATCGTTATCAAGACCAAAGGCGGCCTGGAAGTCGCAACCACCGACAAGCAGTTCGGTTTCAAGATCGGCGGCCGTCTGCAGGCGGACTACAGCACCTTCGACGAGTTCTACACCGTCAACGGTGAGCGCGCCGATGCCGCCTACTTCCGTCGCGCCTTCCTGGAAATCTCCGGCGTTGCCTTCACCGACTGGGCCTACGTCATCAACTACGATCTCTCCCACAACGCCGGCAGCTCGGAAGACGGCTACTTCGACGAGGCGTCCATCGCCTACAACGGCTTCAAGCCGCTGTCCATCAAGGTTGGCCGTTTCGACCCGGAGTTCGGCCTGGAGAAGGCCACCAGCTCCAAGTGGGTGACCGCCCAGGAGCGTAACGCCGCCTACGATCTGGTCGACTGGGCCAACTCCCACCAGAACGGCATGGGCATCCAGGCCCTGGGCACCGTGGGCGATTCGCTGTACGGCTCGGTCAGCCTGAGCGCCAAGGACCAGAACGACGTCGACGGCGAAAGCGTCAAGCAGTTCAACGTGCGCGGCGTGTTCGCCCCGATGCACGAAGCCGGCAACGTCCTGCACCTCGGCGTCAACTACGCCCAGCGCGATCTCTCCGATACCGCCTTCGACGGCCGTATCCGCAGCCGCCTGGGCATGCGTGGCGTGAGCACCTCCGGCGGCAACGACGCCGGCACCAACGGCAACCGCCTGCTGCTCGGCGGCGCCAACAACCTGCCGGCCGGCTCCTACGACGACGACAGCGCCTGGGGCCTGGAAGCCGCCTGGGCCATGGGCCCGTTCTCGATCCAGGGCGAATACATCAAGCGTGACCTGGAGGCCGACGACGACGCCTTCGAAGACATCAAGGCCAAGGGTTACTACGCCCAGGTCGCCTATACCCTGACCGGCGAGGCCCGCGGCTACAAGCTCGGCAAGTTCGACGCCATCAAGCCGGAGAACAAGCAGACCGGCGCCTGGGAAGTGTTCTACCGCTACGACAACATCAGCGTCGAAGACGACACCGTGGGCATCGATGGCTCCAAGGACGTCGAAGGCAAGGTGCACAACCTCGGTGTGAACTGGTACGTCAACGAAGCGGTCAAGCTCAGCGGCGCCTACGTCAAGGCCAAGGTGGACAACCAGGAAAATGCCAACGGCGACGACAGCGGCGATGGCTTTGTAGTTCGCGCCCAGTACGTTTTCTAA	MIRKHFAGFAASALALAVSAQAFAGTVTTDGADIVIKTKGGLEVATTDKQFGFKIGGRLQADYSTFDEFYTVNGERADAAYFRRAFLEISGVAFTDWAYVINYDLSHNAGSSEDGYFDEASIAYNGFKPLSIKVGRFDPEFGLEKATSSKWVTAQERNAAYDLVDWANSHQNGMGIQALGTVGDSLYGSVSLSAKDQNDVDGESVKQFNVRGVFAPMHEAGNVLHLGVNYAQRDLSDTAFDGRIRSRLGMRGVSTSGGNDAGTNGNRLLLGGANNLPAGSYDDDSAWGLEAAWAMGPFSIQGEYIKRDLEADDDAFEDIKAKGYYAQVAYTLTGEARGYKLGKFDAIKPENKQTGAWEVFYRYDNISVEDDTVGIDGSKDVEGKVHNLGVNWYVNEAVKLSGAYVKAKVDNQENANGDDSGDGFVVRAQYVF	PGPT0002640_480	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPHATE_TRANSPORT,PGPT0002640-oprO-K07221	NA	NA
BMS010_04593	1125			hypothetical protein	ATGCCGATCATGACCCTGCACCGACTTGCCGACCTGGAGCCTGCCGCCTGGGACGCGCTACTGCCTGATGACCAGCCTTTCCTGCGCCACGCTTTCCTGTCCGCCCTCGAAGACAGCGGTAGCGTCGGTGGCCGTAGCGGCTGGCGCTCCGCGCACCGGCTGCTTACCGACGCCGCCGGATGTCCGCTGGCAGCCTTGCCGCTGTATGTGAAAAGCCATTCCTACGGCGAATACGTGTTCGACTGGGGCTGGGCCGATGCCTGCCAGCGCGCGGGCATTCCGTATTACCCCAAGTTGCTCTGTGCGGTGCCGTTCAGCCCGGTGGCCGGTGCGCGCCTGCTCGGCCGTGGCGAGGCTGTCGCCGAGCTGCTCGACGAGCTGTGTGCGGGGCTGGAAGAGCAGGGGCTGTCCGGCCTGCATGTGAACTTCACCGACGCGACGGCGGATGACCTGCTACGCGGTCGCGACGGCTGGCTGGAGCGGCTGGGCTGCCAGTTCCACTGGAAGAACCGTGGCTACCGCGACTTCCAGGACTTCCTCGACGCCCTGGCCTCGCGCAAGCGCAAGCAACTGCGCAAGGAGCGCGAGCAGGTGGCGGGGCAGGGCATCGCCTTCGACTGGCGCGAAGGGCATACGCTGAGCGAAGCCGAATGGGACTTCGTCTACGCCTGCTACGCCAACACCTACCACGTGCGCGGCCAGGCGCCGTACCTGACCCGGGGTTTCTTCAGCCTGCTGGCCGAGCGCATGCCGGAAGCGATCCGTGTGGTGCTGGCGCTGCAACATGCGCGACCGGTGGCCATGGCCTTCAGCCTGCTCGGCGGCGACAGCTTGTACGGCCGCTACTGGGGTTGCCTGGCCGAGTTCGACCGGCTGCATTTCGAGACCTGTTTCTACCAAGGGCTGGAGTACGCCATCGGCCAGGGGCTACAGCGCTTCGACGCTGGCGCACAGGGCGAGCACAAGCTGATCCGCGGCTTCGAGCCGGTGATCACCCGCTCCTGGCATTACCTGGTCCATCCCGGGCTGCGTGCGGCCGTGGCGGACTTCCTCGAGGAGGAACGGCTGGGCATCCGCCAGTACGCGGAACAGGCCTGTGAGCTGCTGCCTTATCGGCAGGGGTAG	MPIMTLHRLADLEPAAWDALLPDDQPFLRHAFLSALEDSGSVGGRSGWRSAHRLLTDAAGCPLAALPLYVKSHSYGEYVFDWGWADACQRAGIPYYPKLLCAVPFSPVAGARLLGRGEAVAELLDELCAGLEEQGLSGLHVNFTDATADDLLRGRDGWLERLGCQFHWKNRGYRDFQDFLDALASRKRKQLRKEREQVAGQGIAFDWREGHTLSEAEWDFVYACYANTYHVRGQAPYLTRGFFSLLAERMPEAIRVVLALQHARPVAMAFSLLGGDSLYGRYWGCLAEFDRLHFETCFYQGLEYAIGQGLQRFDAGAQGEHKLIRGFEPVITRSWHYLVHPGLRAAVADFLEEERLGIRQYAEQACELLPYRQG				NA	NA	NA	NA	NA
BMS010_04594	1833		COG1132	Putative multidrug export ATP-binding/permease protein	ATGTTCTTCCGCCGTTTCGAACACCTCATCGATATCTTCCAGCCCGGCCCCGAGGGCGCTCCGCCCAGCCGGGTAACCGCGTTCTACCTGCACTACCTCCGCCAGGTCTGGCCGACCTTCGCCGTACTGCTGGTGGTCGGGCTGATCGTCGCCCTGATCGAGGTGGCGCTGTTCAGCTTCCTCGGCCAGATCGTCGATTGGGCACAAAGCACGCCAAGCGAACAGTTCTTCGAGCGCCATGGCCATGCCCTGCTCGGCATGGCGCTGGTGGCCTTGGTACTGCGCCCGCTATTCAATGCGCTGCACGACCTGCTGGTACACCAGAGCATTAACCCGAGCCTGGCCAACCTGATCCGCTGGCAGAACCACCGCTACGTGCTCAAGCAGAGCCTCGGCTTCTTCCAGAACGACTTCGCCGGCCGCATCGCCCAGCGCATCATGCAGACCGGCAACGCCCTGCGCGACTCCGCCGTGCAGGCGGTGGACGCTCTCTGGCACGTGCTGATCTATGCGATCAGCGCCCTGGTGCTGTTCGCCGAAGCGGATTGGCGGCTCGTGGTGCCGCTGGCCTTGTGGATTGTCAGCTACGTCGCCGCCCTCGCCTGGTTCGTCCCGCGGGTGAAGCAACGCTCGACGGTGGCCTCGGATGCCCGCTCCAAGCTGATGGGGCGGATCGTCGACGGCTACACCAATATCACCACGCTCAAGCTGTTCGCCCACACTCGCTTCGAGGAAGGCTACGCCCGCGATGCCATCGAAGAGCACGCGGACAAGATGCGCCTGAGCACCCGCATGGTCACCGGCATGGACGTCACCATCACGCTGATGAACGGGGTGCTGATCGCGGGTACCACCGGCCTCGCCCTCTGGCTCTGGACCCAAGGCACCCTCAGCGTCGGCGCCATCGCCCTGGCCACCGGCCTGGTGATCCGCATCAACAACATGTCCGGCTGGATCATGTGGGTGATCAGCGGCATCTTCGAGAACATCGGTCAGGTCCAGGATGGCATGCAGACCATCGCCCAACCGCGCCTGGTGACCGACCACGAACAGGCGCCGGCGCTGCGCGTCGAACGCGGCGAGGTGCGCTTCGAGGACATCCACTTCCATTACGGCAAGGGCAGCGGCGTGATCGCCGGCCTCGACCTGCATGTCGCGCCGGGCGAGAAGATCGGCCTGGTCGGGCCATCCGGCGCCGGCAAATCGACCCTGGTCAACCTGCTGCTGCGCCTTTACGACCTGGAGGGCGGACGCATCCTCATCGACGGCCAGGACATCGCCGGCGTGGCCCAGGAAAGCCTGCGCGAACAGATCGGCATGGTCACCCAGGACACCTCCCTTCTGCACCGCTCGATCCGCGACAACCTGCTCTACGGCAAGCCGGGCGCGAGCGATGCGGAACTCCGGGAGGCGGTGCGCAAGGCCCGCGCCGACAGCTTCATTCCACAACTGGCCGATGCCCAGGGCCGCCATGGTTTCGATGCGCATGTCGGCGAGCGTGGCGTGAAGCTGTCCGGCGGCCAGCGCCAGCGCATCGCCATTGCCCGCGTGTTGCTCAAGGATGCGCCGATCCTGATCCTCGACGAAGCCACCTCGGCGCTCGATTCGGAGGTGGAAGCGGCCATCCAGGAAAGCCTGGAAGCGCTGATGCAAGGCAAGACGGTGATCGCCATCGCCCACCGCCTCTCCACCATCGCCCGTATGGACCGCCTGGTGGTGCTGGATCAGGGCCGCATCGTCGAAACCGGCAGCCATGCCGAACTGGTGGCACGCGGCGGTCTGTATGCACGGCTGTGGCAGCACCAGACCGGTGGGTTCGTCGGGGTGGATTGA	MFFRRFEHLIDIFQPGPEGAPPSRVTAFYLHYLRQVWPTFAVLLVVGLIVALIEVALFSFLGQIVDWAQSTPSEQFFERHGHALLGMALVALVLRPLFNALHDLLVHQSINPSLANLIRWQNHRYVLKQSLGFFQNDFAGRIAQRIMQTGNALRDSAVQAVDALWHVLIYAISALVLFAEADWRLVVPLALWIVSYVAALAWFVPRVKQRSTVASDARSKLMGRIVDGYTNITTLKLFAHTRFEEGYARDAIEEHADKMRLSTRMVTGMDVTITLMNGVLIAGTTGLALWLWTQGTLSVGAIALATGLVIRINNMSGWIMWVISGIFENIGQVQDGMQTIAQPRLVTDHEQAPALRVERGEVRFEDIHFHYGKGSGVIAGLDLHVAPGEKIGLVGPSGAGKSTLVNLLLRLYDLEGGRILIDGQDIAGVAQESLREQIGMVTQDTSLLHRSIRDNLLYGKPGASDAELREAVRKARADSFIPQLADAQGRHGFDAHVGERGVKLSGGQRQRIAIARVLLKDAPILILDEATSALDSEVEAAIQESLEALMQGKTVIAIAHRLSTIARMDRLVVLDQGRIVETGSHAELVARGGLYARLWQHQTGGFVGVD	PGPT0029145_1014	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029145-vcaM-K18893	NA	NA
BMS010_04595	555	ppiA	COG0652	Peptidyl-prolyl cis-trans isomerase A	ATGCTGAAGAAACTTGTCCTCGCCGCCTGCACCCTGCTGTTCGCCGCCAACCTCCTGGCCGCGGAAAACCCGCATGTGCTGCTGACCACCAGCGCCGGCGAGATCGAAATCGAACTCGAGGCCGAGAAGGCGCCGGTCAGCGTGAAGAACTTCCTCGCCTACGTGGACAGCGGCTTCTACAACGGCACCATTTTCCACCGCGTGATTCCCGGCTTCATGATCCAGGGCGGCGGCTTCGATGCCGAGATGCAGCAGAAGGACACCCAGGCGCCGATCAAGAACGAGGCCGACAACGGCCTGCACAACGTGCGCGGCACCCTGGCCATGGCGCGTACCCAGGCGGTGAATTCCGCCACCAGCCAGTTCTTCATCAACCACCAGGACAATGCCTTCCTCGACCACGGCTCGCGCGACTTCGGCTACGCCGTGTTCGGCAAGGTGGTACGTGGCATGGACGTGGTCGACCAGATCGCCCAGGTACCTACCGGTAACCGCGGCATGTTCCAGAACGTCCCGCGCCAGCCGGTCGTGATTCTCTCCGCCAAACGCCTCTGA	MLKKLVLAACTLLFAANLLAAENPHVLLTTSAGEIEIELEAEKAPVSVKNFLAYVDSGFYNGTIFHRVIPGFMIQGGGFDAEMQQKDTQAPIKNEADNGLHNVRGTLAMARTQAVNSATSQFFINHQDNAFLDHGSRDFGYAVFGKVVRGMDVVDQIAQVPTGNRGMFQNVPRQPVVILSAKRL	PGPT0015110_1821	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0015110-ppiA-K03767	NA	NA
BMS010_04596	816	tgnD_2		(E)-2-((N-methylformamido)methylene)succinate hydrolase	ATGTCCTACTTCGAGCATCAAGGCTGCCAGCTCTACTACGAAGACCACGGCCAGGGCGCCCCGCTGGTGCTGGTACACGGCCTCGGCTCCAGCACGCGCGACTGGGAATACCAACTCCCCGCCCTGGTCGGCCGCTACCGGGTCCTGGCCATGGACATGCGTGGCCACGGCCGCTCCGGCAAGCCGCGCGAACGCTACAGCGTGGCCGGATTCGCCGCCGACGTGGCGGCACTGATCGAACACCTGGGACTCGGCCCGGTGCACCTGGTCGGCATCTCCATGGGCGGGATGATCGGCTTCCAGCTGGGCGTCGACCGCCCCGAACTGCTGAAAAGCCTGACCATCGTCAACAGCGGCCCGGAACTGAAGCCGCGCAGCCCGAGCGATTTCGTGAACCTGGCCAAGCGCTGGCTGCTCTCCCGGCTGTTCAACATGGAAACCATCGGCAAGGGGCTCGGCCGCCTGCTCTTTCCCAAGCCGGAACAGGCCGAACTGCGCGAGAAGGTCGAGCAGCGCTGGATGCTCAACGACAAGCGCGCCTACCTCGCCAGCCTCGACGCCCTCATCGGCTGGGGCGTGCGGGAACGACTCGCCGCCATTGCCTGTCCTACGCTGGTTGTCACCGCCGACCGCGACTACACCCCGGTATCGGTCAAGGAAAGCTACGTCCGGGAATTGCCCGACGCACGCCTGGTCGTGATCGAGGATTCCCGCCACGGTACCCCGCTGGACCAGCCGAAACGTTTCAACGCCACCCTGCTCGACTTCCTCGACGAGGTCGAACGACAACACTCCAAGGACCCTGAGAAATGCTGA	MSYFEHQGCQLYYEDHGQGAPLVLVHGLGSSTRDWEYQLPALVGRYRVLAMDMRGHGRSGKPRERYSVAGFAADVAALIEHLGLGPVHLVGISMGGMIGFQLGVDRPELLKSLTIVNSGPELKPRSPSDFVNLAKRWLLSRLFNMETIGKGLGRLLFPKPEQAELREKVEQRWMLNDKRAYLASLDALIGWGVRERLAAIACPTLVVTADRDYTPVSVKESYVRELPDARLVVIEDSRHGTPLDQPKRFNATLLDFLDEVERQHSKDPEKC	PGPT0004995_779	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0004995-pcaD|catD-K01055	NA	NA
BMS010_04597	927	yhaJ		HTH-type transcriptional regulator YhaJ	ATGAAAGCGCCCCGCGTGACCCTGGATCAATGGCGGACGCTGCAGGCCGTCGTCGACCACGGCGGCTTCGCCCAGGCCGCCGAGGCCCTGCACCGCTCGCAGTCGTCGGTCAGCTACACGGTAGCGCGCATGCAGGAACAACTCGGTGTGCCGCTGCTACGCATCGACGGGCGCAAGGCGGTGCTCACCGAAGCCGGCGAAGTGCTGCTGCGGCGCTCGCGGCAACTGGTGAAACAGGCCAGCCAACTGGAAGACCTGGCGCACCAGATGGAACAGGGCTGGGAAGCCGAGGTCCGCCTGGTGGTGGATGCCGCCTACCCCACCGCGCGCCTCGTCCGGGCCCTCAGCGCGTTCATGCCGCAAAGCCGCGGTTGCCGGGTGCGCCTGCGCGAGGAAGTGCTATCCGGTGTCGAAGAGGTACTGCGCGAAGGCACCGCCGACCTCGCCATCACCGCCCTGAACATCACCGGCCACTTGGGCAGCGAGCTGAGCCCCGTGGAGTTCATCGCTGTCGCCCATCCCGACCATCCGTTGCACCGCCTCGGCCGCACCATCAATTTCCAGGACCTGGAAACCCAGATGCAGGTGGTCACTCGCGACTCCGGTCGCCTGCAACCACGCGACGCCGGCTGGCTCGGCGCCGAACAGCGCTGGACGGTGGGCAGCCTGGCCACCTCGGCCACCTTCGTCAGCAGCGGCCTGGGCTTCGCCTGGCTGCCGCGCCACCTGATCGAGCGTGAGTTGAGGGACGGCCTGCTCAAGCCCCTGCCGCTGGAACAGGGCGGCACGCGCAACCCCTTGTTCATGCTCTATTCGAACCAGGACAAACCCCTGGGGCCGGCCACCCAGATCCTCGTCGAGCTGATCAGGACCTTCGATGCCGCTCCCCTGGACGCCCCCTTCGGCGCGCCGCAATCCCCGGTCTGA	MKAPRVTLDQWRTLQAVVDHGGFAQAAEALHRSQSSVSYTVARMQEQLGVPLLRIDGRKAVLTEAGEVLLRRSRQLVKQASQLEDLAHQMEQGWEAEVRLVVDAAYPTARLVRALSAFMPQSRGCRVRLREEVLSGVEEVLREGTADLAITALNITGHLGSELSPVEFIAVAHPDHPLHRLGRTINFQDLETQMQVVTRDSGRLQPRDAGWLGAEQRWTVGSLATSATFVSSGLGFAWLPRHLIERELRDGLLKPLPLEQGGTRNPLFMLYSNQDKPLGPATQILVELIRTFDAAPLDAPFGAPQSPV				NA	NA	NA	NA	NA
BMS010_04598	318			hypothetical protein	ATGAAAAGAATCTGCTGTGCGCTGATCGCCCTGCTGCCGTTGGCGGTTTTCGCGGCCTACCCGATCGAAGTGGAAAAGCAGCTCAACGGCGCCGAGGTGTCCTATACCACCCAGGACATCGACCACGACTTGGGGGCCATCACGCTTTACAACCTGGGGCAGAGCACGGCGCGCTGTACCGCCGTTTTCCGCAACGGCCCGGAAACGCCGCGCACCCGCAAGGCGGTGCTGAAGCCGGGACAGACGCTCAACCTCACCGCCAAGTTCACCCGCAGCATCATCAAGCTGCGTATTCAGCTGACCTGCGGCCTCGAGTGA	MKRICCALIALLPLAVFAAYPIEVEKQLNGAEVSYTTQDIDHDLGAITLYNLGQSTARCTAVFRNGPETPRTRKAVLKPGQTLNLTAKFTRSIIKLRIQLTCGLE				NA	NA	NA	NA	NA
BMS010_04599	600	azoR_2	COG1182	FMN-dependent NADH-azoreductase	ATGTCCCGTGTCCTGGTAATCGAAAGCAGCGCCCGCCAACAAGGTTCCGTCTCCCGCCAGCTCACCGAGCAGTTCATCGCTCGCTGGAAGCAGGCTCATCCGAGCGATGACGTCATGGTCCGCGACCTTGCCGCGCAGCCCGTTCCGCATCTGGATGCCGACCTGCTGGGTGGCTGGATGAAGCCAGCCGACCAGCAGAGCGAAGCCGAGCAGGCTGCCCTGGCCCGTTCCAACCTGCTGACCGAGGAATTGCTGGCGGCGGATGTGCTGGTGCTGGCAGCGCCCATGTACAACTTCGGCATTCCAAGCACCCTGAAGTCCTGGCTCGACCACGTGCTGCGCGCCGGCGTGACCTTCAAGTACACCGAGACCGGCCCGCAGGGCCTGCTCAGCGGCAAGCGCGCTTTCGTCCTGACCGCCCGCGGCGGCATCTATGCCGGCGGCAACCTGGACCAGCAAGAGCCCTACCTGCGCCAGGCGCTGGGTTTCGTCGGCATCCATGACGTCACCTTCATCCATGCCGAAGGCCTGAACATGGGCGCCGAGTTCATGGAGAAGGGCCTGGCCCAGGCCCAGGCGCAACTGGCCCAGGTGGCCTGA	MSRVLVIESSARQQGSVSRQLTEQFIARWKQAHPSDDVMVRDLAAQPVPHLDADLLGGWMKPADQQSEAEQAALARSNLLTEELLAADVLVLAAPMYNFGIPSTLKSWLDHVLRAGVTFKYTETGPQGLLSGKRAFVLTARGGIYAGGNLDQQEPYLRQALGFVGIHDVTFIHAEGLNMGAEFMEKGLAQAQAQLAQVA	PGPT0006790_2677	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS	XENOBIOTIC_AZO_DYE_DEGRADATION,PGPT0006790-acpD|azoR-K01118	NA	NA
BMS010_04600	900	rarD_3	COG2962	Protein RarD	ATGAACGTGTCCATGCAGGGCGTGCTGTTGTCGCTGGTCGCATCGTTGCTGTTCGCCCTGATGCCGAGCTATTTCCGTGCGCTGGCGCCGCTGGATGGCGTGCAGGTATTCGCCCAGCGCGTGTTCTGGTCGGTTCCGGCGGTGCTGTTGCTGGTGCTGCTGATGCGCCAGTGGCACACGCTGGCCAGCGCCTTCTTGCGTTTGCGTCGGGAGCCCCTGCTGCTCGCGGCATTGCCGTTGGCGTCGCTGCTGATCGGCGTGCAGTGGGGGCTGTTCGTCTGGGCGCCGTTGTCCGGGCATCTGCTGGACGTCACGCTCGGTTATTTCCTGCTACCACTGACCATGGTGCTGGTCGGCCGCCTGTTCTATGGCGAGCGTCTGCGTCCGTTGCAGTGGCTTGCGGTGGTCTGCGCGCTGCTCGGGGTGCTCCACGAGTTCTGGCTGACCGGCGCCTTCTCCTGGGTGACCCTGGCGGTCGCCGTCGGCTATCCGCCTTACTACATGCTGCGTCGCTGGATGCGCCTGGAAGCGCTCAACGGTTTCCTGCTGGAAGTGTTGCTGATGGTGCCGCTGGCCGTCTGGCTGGTCCGGGATTCCGGCGTTCTCACGCTGTTCGCCGAGGCACCGCGTTTTTACTGGATGCTGCCGGGGTTGGGCCTGTTCAGCGCGCTGGCGTTCGGCACGCTGATGGCGGCCAGTCGACGCCTGCCGTTGGGGTTGTTCGGGATTCTCAGCTATGTCGAGCCGGCGCTGTTGTTCGCGGTTTCGGTCGGTCTGCTGGGGGAGCCTTTCGCATCGACGCAACTCTGGACCTACGTGCCGATCTGGCTGGCGCTCGGGCTGATCGTCTGGGATGGGCTGCATCTGCTGCGCAAGCAGCAGCGGCGTGTGTCCGGGTGA	MNVSMQGVLLSLVASLLFALMPSYFRALAPLDGVQVFAQRVFWSVPAVLLLVLLMRQWHTLASAFLRLRREPLLLAALPLASLLIGVQWGLFVWAPLSGHLLDVTLGYFLLPLTMVLVGRLFYGERLRPLQWLAVVCALLGVLHEFWLTGAFSWVTLAVAVGYPPYYMLRRWMRLEALNGFLLEVLLMVPLAVWLVRDSGVLTLFAEAPRFYWMLPGLGLFSALAFGTLMAASRRLPLGLFGILSYVEPALLFAVSVGLLGEPFASTQLWTYVPIWLALGLIVWDGLHLLRKQQRRVSG	PGPT0003906_2004	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0003906-rarD-K05786	NA	NA
BMS010_04601	702	livF_4	COG0410	High-affinity branched-chain amino acid transport ATP-binding protein LivF	ATGCTGTATTTCGACAAGGTTTCCACCTTCTACGGCAAGATCCAGGCGCTGCACGACGTCAGCGTGGAAATCCAGAAAGGCGAGATCGTCACCCTCATCGGCGCCAACGGTGCCGGCAAGTCGACCCTGCTGATGACCCTCTGCGGCTCGCCGCGGGCGGCCAGCGGCAGCATCCGCTTCGAGGGCGAGGAACTGGTCGGCCTGGAGTCGTCCGAGATCATGCGCAAGGACATCGCCGTGGTCCCGGAAGGCCGGCGTATCTTCGCCCGCCTGACGGTGGAGGAGAATCTGGCCATGGGCGGCTTCTTCACCAGCAAGGAGGATTACCAGGTCCAACTGGACAAGGTCCTGCACCTGTTCCCGCGCCTGAAGGAGCGCTACAACCAGCGCGGCGGCACCATGTCCGGCGGCGAACAGCAGATGCTCGCCATCGGCCGTGCGCTGATGAGCAAGCCGCGCCTGCTGCTGCTCGACGAACCGTCCCTGGGCCTGGCGCCGATCATCATCCAGCAGATCTTCGACATCATCGAACAACTGCGGAAGGACGGCGTGACCATCTTCCTGGTCGAGCAGAACGCCAACCAGGCGCTGAAGCTGGCCGACCGTGGCTACGTGCTGGAGAACGGCCGGATCGTCATGCAGGGCAGCGGCGAAGCCCTGCTCAACGATCCCAAGGTGCGCGACGCCTACCTGGGCGGCTGA	MLYFDKVSTFYGKIQALHDVSVEIQKGEIVTLIGANGAGKSTLLMTLCGSPRAASGSIRFEGEELVGLESSEIMRKDIAVVPEGRRIFARLTVEENLAMGGFFTSKEDYQVQLDKVLHLFPRLKERYNQRGGTMSGGEQQMLAIGRALMSKPRLLLLDEPSLGLAPIIIQQIFDIIEQLRKDGVTIFLVEQNANQALKLADRGYVLENGRIVMQGSGEALLNDPKVRDAYLGG	PGPT0020785_9062	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020785-livF-K01996	NA	NA
BMS010_04602	768	lptB_5	COG1137	Lipopolysaccharide export system ATP-binding protein LptB	ATGAGCCGACCGATTCTCGAAGTGAGCGGCCTCACCATGCGCTTCGGCGGCCTGCTGGCCGTGAACAATGTGGGGCTGACCGTCAACGAAAAGCAGGTGGTCTCCATGATCGGCCCGAACGGCGCCGGCAAGACCACCGTGTTCAACTGCCTGACCGGGTTCTACCAGCCGACCGCCGGCCGGATCGTCCTCGATGGTGAGGAAATCCAGGGCCTGCCCGGCCACAAGATCGCCCACAAGGGTGTGGTGCGGACCTTCCAGAACGTACGCCTGTTCAAGGAAATGACCGCGGTGGAGAATCTGCTGGTCGCCCAGCACCGCCACCTGAACACCAACTTCTTCGCCGGCCTTCTGAAAACCCCGGGCTTCCGCCGCAGCGAGCGCGAAGCGATGGAGTTCGCCCACCACTGGCTGGAGCGGGTCAACCTGATGGAGTGCGCCAACCGCCCCGCCGGCACCCTCGCCTACGGCCAGCAGCGCCGCCTGGAGATCGCCCGCTGCATGATGACGCGTCCGCGCATCCTCATGCTCGACGAGCCGGCCGCCGGCCTCAACCCGCGCGAAACCGAGGACCTCAAGGCGCTGATCGCCATGCTGCGTGACGACCACAACGTCACTGTGCTGCTGATCGAGCACGACATGAAGCTGGTCATGAGCATTTCCGACCATATCGTGGTGATCAACCAGGGCTGCCCCCTGGCCGACGGCACGCCGGACGAAATCCGCGGCAACCCGGACGTGATCAAAGCCTATCTGGGGGAGGCGTAA	MSRPILEVSGLTMRFGGLLAVNNVGLTVNEKQVVSMIGPNGAGKTTVFNCLTGFYQPTAGRIVLDGEEIQGLPGHKIAHKGVVRTFQNVRLFKEMTAVENLLVAQHRHLNTNFFAGLLKTPGFRRSEREAMEFAHHWLERVNLMECANRPAGTLAYGQQRRLEIARCMMTRPRILMLDEPAAGLNPRETEDLKALIAMLRDDHNVTVLLIEHDMKLVMSISDHIVVINQGCPLADGTPDEIRGNPDVIKAYLGEA	PGPT0020780_6368	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020780-livG-K01995	NA	NA
BMS010_04603	1257			hypothetical protein	ATGACTCGCAACCTCAAGACCGCCTTCTTCAGCGCCCTGTTGGTGCTGGCCGTTTCCTACCCGGTGCTCGGCCTCAAGCTGACCACCGTCGGCATCGGCCTGCAGGTGCAGGGTGCCAGCCCGGCCACGCTGTGGACCATCGCCAGCGCCGCCGTGCTGATGTTCTTCTGGCAACTGTTCCGCGAACGCATCGGCGCGGCCTGGGCGAGCGCCCCGAACGCCCCGGCGATGCCCGGCAACGTGAAGAACTTCCTGACCCTGCAATCGACGCAGCGCTGGGCCGTCCTCGCCCTGGTGCTGCTCGCCCTGGCCTGGCCGTTCTTCGGCTCGCGCGGCGCGGTGGATATCGCCACGCTGATCCTGATCTACGTGATGCTCGGCCTCGGCCTGAACATCGTCGTCGGTCTCGCCGGCCTGCTCGACCTGGGTTACGTCGGCTTCTATGCCGTCGGCGCCTACAGCTATGCCCTGCTCTCCCATTACTATGGGTTCGGCTTCTGGACCTGCCTGCCGATCGCCGGCCTGATGGCAGCCTTCTTCGGCTTCATCCTCGGCTTCCCGGTGCTGCGCCTGCGCGGCGACTACCTGGCGATCGTCACCCTCGGCTTCGGCGAGATCATCCGCATCCTGCTGCGCAACATGACCGAGCTGACCGGAGGCCCCAACGGCATCAGCAACATCGACAAGCCGACCCTGTTCGGCCTCGATTTCAACCGCCGCGCGGAAGAAGGCTTCCAGACCTTCCATGAGTTCTTCGGCATCGCCTACAACTCGACGCACAAGGTCATCTTCCTCTACCTGGTGGCGCTGCTGCTGGTGCTGATCACTCTGTTCGTGATCAACCGCCTGCTGCGCATGCCCATCGGCCGCGCCTGGGAAGCCTTGCGCGAAGACGAGATCGCCTGCCGCGCCCTCGGTCTCAACCCGACGGCGATCAAGCTCTCCGCCTTCACCCTCGGCGCCTGCTTCGCCGGTTTCGCCGGCAGCTTCTTCGCCGCGCGCCAGGGGCTGGTCACGCCCGAGTCCTTCACCTTCATCGAGTCGGCGATCATCCTCGCCATCGTGGTGCTGGGCGGGATGGGCTCGCAGCTCGGCGTCATACTCGCAGCCATCGTGATGATCCTGCTGCCGGAACTCGCCCGTGAATTCAACGAGTACCGCATGCTGATGTTCGGCGCCCTGATGGTGCTGATGATGATCTGGCGTCCGCAGGGCCTCCTGCCCATGCAGCGCCCCCACCTGGAGCTGCGCCAATGA	MTRNLKTAFFSALLVLAVSYPVLGLKLTTVGIGLQVQGASPATLWTIASAAVLMFFWQLFRERIGAAWASAPNAPAMPGNVKNFLTLQSTQRWAVLALVLLALAWPFFGSRGAVDIATLILIYVMLGLGLNIVVGLAGLLDLGYVGFYAVGAYSYALLSHYYGFGFWTCLPIAGLMAAFFGFILGFPVLRLRGDYLAIVTLGFGEIIRILLRNMTELTGGPNGISNIDKPTLFGLDFNRRAEEGFQTFHEFFGIAYNSTHKVIFLYLVALLLVLITLFVINRLLRMPIGRAWEALREDEIACRALGLNPTAIKLSAFTLGACFAGFAGSFFAARQGLVTPESFTFIESAIILAIVVLGGMGSQLGVILAAIVMILLPELAREFNEYRMLMFGALMVLMMIWRPQGLLPMQRPHLELRQ	PGPT0020775_2703	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020775-livM-K01998	NA	NA
BMS010_04604	924	livH_5	COG0559	High-affinity branched-chain amino acid transport system permease protein LivH	ATGCCTGAGCTCTATCACTACCTGCAGCAGCTGGTGAACGGTCTGACCGTCGGCAGCACCTATGCCCTGATCGCCATCGGCTACACCATGGTCTACGGCATCATCGGCATGATCAACTTCGCCCACGGCGAGGTTTACATGATCGGCTCGTACGTAGCCTTCATCGCCATCGCCGGGCTCACCCTGCTCGGTCTCGACAACCTGCCCCTGCTGATGATCGCCGCCTTCGCGGCCAGCATCATCGTCGCCAGTGCGTACGGCTACAGCATCGAGCGCGTCGCCTACCGTCCTCTGCGCGGCAGCAACCGCTTGATCCCGCTGATCTCGGCGATCGGCATGTCGATCTTCCTGCAGAACGAAATCCTGCTGACCCAGGACTCCAAGGACAAGGCGATCCCCAACCTGATCCCGGGCAACCTGGTGATCGGTGAAAGCACCATGAACGGCGTGGTGATCTCCTACATGCAGATCCTCATCTTCGTCGTGACCTTCCTGGTGATGTACGCCCTGACCCTGTTCATCTCGCGCTCGCGTCTCGGCCGGGCCTGCCGGGCCTGCGCCGAAGACCTGAAGATGGCCAACCTGCTCGGCATCAACACCAACAACATCATCGCCCTGACCTTCGTCATCGGTGCCGCCCTGGCCGCCGTGGCGGCGGTATTGCTGGGCATGCAGTACGGCGTGATCAACCCGCACATCGGCTTCCTCGCCGGGATCAAGGCGTTCACCGCCGCGGTGCTCGGCGGCATCGGCAGCATCCCCGGCGCCATGCTCGGCGGTCTGGTGCTCGGCGTGGCCGAGGCCTTCGGCGCCGACGTCTTCGGCGATCAGTACAAGGACGTGGTGGCCTTCAGTCTGCTGGTCCTCGTGCTGCTATTCCGCCCCACCGGCATCCTCGGCCGCCCGGAGGTGGAAAAGGTATGA	MPELYHYLQQLVNGLTVGSTYALIAIGYTMVYGIIGMINFAHGEVYMIGSYVAFIAIAGLTLLGLDNLPLLMIAAFAASIIVASAYGYSIERVAYRPLRGSNRLIPLISAIGMSIFLQNEILLTQDSKDKAIPNLIPGNLVIGESTMNGVVISYMQILIFVVTFLVMYALTLFISRSRLGRACRACAEDLKMANLLGINTNNIIALTFVIGAALAAVAAVLLGMQYGVINPHIGFLAGIKAFTAAVLGGIGSIPGAMLGGLVLGVAEAFGADVFGDQYKDVVAFSLLVLVLLFRPTGILGRPEVEKV	PGPT0020770_3179	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020770-livH-K01997	NA	NA
BMS010_04605	1122	braC_2	COG0683	Leucine-, isoleucine-, valine-, threonine-, and alanine-binding protein	ATGAATAAGGCTACTAAGCAGCTTTCCAGACTGTTCGCAGCGATGGCACTGGCGGGTGCCACCAGCTACTCCATGGCCGCCGACACCATCAAGATCGCCATGGCCGGCCCGGTTACCGGTGCCGTCGCCCAGTACGGCGAGATGCAGTTCATCGGCGCGAAAATGGCCATCGAACAGATCAACAAGGCTGGGGGGGTGAATGGGGCCCAGCTCGAAGGCGTGGTCTACGACGATGCCTGCGATCCGAAACAGGCCGTGGCCGTAGCCAACAAGATCGTCAATGACGAAGTGAAGTTCGTGATTGGCCACCTCTGCTCCAGCTCCACCCAGCCGGCGTCCGACATCTACGAGGACGAAGGCATCCTGATGATCACCCCGGCGTCCACCAGCCCGGACATCACCTCCCGCGGCTACAAGCTGATCTTCCGCACCATCGGTTTGGACAGCCTGCAGGGCCCGACCGCCGGCAAGTTCATCGCCGAGCACATCAAGCCGAAAACCGTCGCGGTCATCCATGACAAGCAGCAGTACGGCGAAGGCATCGCCACCGCGGTCAAGCAGACCGTCGAGGCCGCCGGCATCAAGGTCGCCCTGTTCGAAGGCATCAACGCCGGCGACAAGGACTTCTCCGCCCTGATCGCCAAGCTGAAGAAAGCCGGTGTCGACTTCGTCTACTACGGCGGCTACCACCCGGAACTGGGCCTGCTCCTGCGCCAGTCCAAGGAAAAAGGCCTGGACGTCCGCTTCATGGGTCCGGAAGGCGTCGGCAACAAGGAAATCTCCGCCATCGCCGGCCCGGCCTCCGAAGGCCTGCTGGTGACCCTGCCGAAGTCCTTCGACCAGGATCCGAAGAACCAGGCACTGGTCGAGGCTTTCAAGGCCAAGAACGAAGACCCGAGCGGTCCGTTCGTGTTCCCGGCCTACGCCGCCGTCCAGGTCATCGCCGACAGCATCCAGAAGGCCGGCAGCACCGACACCGACAAGGTGGCCGAGGCGCTGCGCTCCAACTCCTTCGAGACCCCGACCGGCACCCTGGCCTTCGACGAAAAGGGCGACCTGAAGGACTTCAGCTTCGTCGTCTACGAATGGCACCAGGACGGCACCAAGACCGAAGCCAAGTAA	MNKATKQLSRLFAAMALAGATSYSMAADTIKIAMAGPVTGAVAQYGEMQFIGAKMAIEQINKAGGVNGAQLEGVVYDDACDPKQAVAVANKIVNDEVKFVIGHLCSSSTQPASDIYEDEGILMITPASTSPDITSRGYKLIFRTIGLDSLQGPTAGKFIAEHIKPKTVAVIHDKQQYGEGIATAVKQTVEAAGIKVALFEGINAGDKDFSALIAKLKKAGVDFVYYGGYHPELGLLLRQSKEKGLDVRFMGPEGVGNKEISAIAGPASEGLLVTLPKSFDQDPKNQALVEAFKAKNEDPSGPFVFPAYAAVQVIADSIQKAGSTDTDKVAEALRSNSFETPTGTLAFDEKGDLKDFSFVVYEWHQDGTKTEAK	PGPT0020765_13235	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020765-livK-K01999	NA	NA
BMS010_04606	318			hypothetical protein	ATGACGGAACACGCAAGCACCCTCTATGCCAAGCTGCTCGGCGAGACCGCGCCCATCACCTGGCAGGAATTGCAGCCTTTTTTCGCCCGCGGCGCGCTGCTCTGGGTGGAGGGGCATCTCGATCTGGTGGAAGTTGCGCTGGCCGTGGCCGAGGATGATCAGGCCAAGGTTGCCGGCTGGCTGGGCGCCGGACAGTTGGCCAAGGTGGAAGAGACGCGGGCCCAGGACCTGTTGGCGCGCGATCCGAGCCTGTGGGCGGTGGTGGTGGCGCCCTGGGTGTTGGTCCAGGAGCGCGCCGAAAGCCCCTCCCTGCACTGA	MTEHASTLYAKLLGETAPITWQELQPFFARGALLWVEGHLDLVEVALAVAEDDQAKVAGWLGAGQLAKVEETRAQDLLARDPSLWAVVVAPWVLVQERAESPSLH				NA	NA	NA	NA	NA
BMS010_04607	327			hypothetical protein	ATGGGCGACCAACCGGGGTATGCCGTCGACCTCTATTACGAGGTGCGCCAGGACCCGAAGGAAGGGCCGATGCTGCACTTCCGCATGGAGGGCGAGGTGGGCGGCAAGCGCTTCGAGGAAGAGTTCGAGATGCACCGCGACACCGCGTTCAATTTCGCCAGCGTCGCTACCCGCATTGCCGCGAAGCACGGATTGCCGACCAATCACAGCCTGATCATGCGCGCCCATGACGAGTACGACCGGATGTTCGAGGACATCCGCGAAAAGCTCGGTGCGCATTCTGGCGAGTCGGTCAATCTCGACCACCTGGAAAAAGACGGTCTATGA	MGDQPGYAVDLYYEVRQDPKEGPMLHFRMEGEVGGKRFEEEFEMHRDTAFNFASVATRIAAKHGLPTNHSLIMRAHDEYDRMFEDIREKLGAHSGESVNLDHLEKDGL				NA	NA	NA	NA	NA
BMS010_04608	768			hypothetical protein	ATGAAGCGCCTTGGCAATTACATCCTGTTGCTGACGCTGCTGGTGGCAGTGGCGGCTTCGTTCGTCTACCTCGGCATCGACCTCGGCGAACTGGGCAGCGCCCGCAGCCTGCGGCAGATGGGGCAGTACGCGGCGAATTTCCTCTCGCCGGACTTCTCCGCCGGGCACCTGCGCGCCATCGGCCAGGGCGCGCTGGAAACCCTGGCCATGTCAGCCATCGGTACGCTGCTGGCGGCGATTCTCGGCCTGGTCCTGGCACTACCGGCAGCCGGGCGTTGCGGCCGACTCGCCCTGAGTGCGTCGCGCCTGCTGCTCAACGCCCTGCGCGCCGTGCCGGAGCTGGTCTGGGCCGCGCTCATGGTGCTCGCCGCCGGCCTCGGCCCGAACGCCGGCACCCTGGCGCTCGCCCTGCACACCGCCGGAGTCCTCGGACGCCTGTTCGCCGAAGCGCTGGAAAACACCCCGCCGGAACCGGCCGAATCCGTACGTCTAGCGGGTGGCGGGCGCATCGCCGCCTTCTGCTACGGCACGCTGCCGACGCTCTGGCCGCAACTCTTGGCCTACATGCTCTATCGCTGGGAAAACAACATCCGCATGGCCAGTGTGCTCGGCTTCGTCGGCGCCGGCGGCCTGGGGCAAATGCTTTACGTGAGCCTCAGCCTGTTCCAGGAAGCCCAGGCTGCCACGGTGATCCTGGCCATGCTTCTGCTGGTGCTGGCGGTGGACGCGCTGAGCGGCTGGCTGAGGCAGCGCTGGGTGACGGGCTGA	MKRLGNYILLLTLLVAVAASFVYLGIDLGELGSARSLRQMGQYAANFLSPDFSAGHLRAIGQGALETLAMSAIGTLLAAILGLVLALPAAGRCGRLALSASRLLLNALRAVPELVWAALMVLAAGLGPNAGTLALALHTAGVLGRLFAEALENTPPEPAESVRLAGGGRIAAFCYGTLPTLWPQLLAYMLYRWENNIRMASVLGFVGAGGLGQMLYVSLSLFQEAQAATVILAMLLLVLAVDALSGWLRQRWVTG	PGPT0002530_3146	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002530-phnE-K02042	NA	NA
BMS010_04609	828	phnE	COG3639	Phosphate-import permease protein PhnE	ATGCTGAACGCTGCGCCCCGCGATCCCGCCGCGTTGCCGCGCCTGGTCCTGACCGTCCTGGCGCTAGCCCTGTTGTGGCCGGGCCTGCGGCTGAGCGAACTGGACCTGGGCGTGCTGGTGCAGGGCGACAACGCGCGCAGCATGGCCCGCTTCGTCTCCGCCTTCTGGCCACCGGAGCACGGCAGCGAATTCCTCGCACTGCTCGGCCGCGCCACCTTGGAAACGCTGGCCATCGCCACCGCCGGCATGTCCCTGGCGCTGCTCATCGCTTTTCCTGCCGCCCTGCTCGCCTCCCGCGCCCTGTCGCTGAGCGCCCTGCCACGTGGCGGGCGTCCGGCCTGGTGGGCGCGCTTGCTGCGCTGGCCGGTGCGCGGCCTGCTGATCGTCCTGCGCAGCGTGCCGGAGATCGTCTGGGCGCTGCTGTTCGTCCGCGCCGTCGGCCTTGGCCCCACGGCCGGCGTGCTGGCCGTCGCCATCACCTACAGCGGCATGCTCGGCAAGGTCTATGCGGAAATCTTCGAGTCGGTGGACGCCCGGCCGTCCCGCGCACTGCTGGTCGCCGGAAGCTCGCGGCTGGCCGCATTCGCCTATGGCATTCTGCCGAACGCGGCGGCAGAGATGCTCTCCTACACCGTCTACCGCTGGGAATGCGCGATCCGCGCCTCGGTGGTGATGGGCTTCGTCGGCGCCGGCGGGCTGGGCCAGCAGATCGACCTGTCGCTGCGCATGTTCGCCGGCGGCGAAGTGGCCAGCATGCTGCTCACCTTCCTTGCCCTGGTGCTGCTCGCCGACCAGCTCAGCCGTTTCCTGCGGGCACGCCTGACATGA	MLNAAPRDPAALPRLVLTVLALALLWPGLRLSELDLGVLVQGDNARSMARFVSAFWPPEHGSEFLALLGRATLETLAIATAGMSLALLIAFPAALLASRALSLSALPRGGRPAWWARLLRWPVRGLLIVLRSVPEIVWALLFVRAVGLGPTAGVLAVAITYSGMLGKVYAEIFESVDARPSRALLVAGSSRLAAFAYGILPNAAAEMLSYTVYRWECAIRASVVMGFVGAGGLGQQIDLSLRMFAGGEVASMLLTFLALVLLADQLSRFLRARLT	PGPT0002530_1667	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002530-phnE-K02042	NA	NA
BMS010_04610	807	opuCA	COG1125	Carnitine transport ATP-binding protein OpuCA	GTGAACCTGCGTCTGTCCGGCGTGGGCCTGACCCACGCCGACGGCCAGCCAGCGCTGCATGACATCGACCTGGACATCGCCCAGGGCGAGCGCGTCGCCCTCATCGGGCCGTCCGGCGCCGGCAAGACCAGCTTGCTTCGATTGCTGGCCACCAGCCTGAAACCCAGCGCCGGGCGGCTCGAACTGCTCGACGCAGAACCCTGGTCGCTGTCCGCGGCGGCCCGGCAGAAGTTGCGCGCCCATATCGGTCTGATCCACCAGTCCCCGCCCCTGCCGCCGCGCCAGCGGGTGGTCACCGCCGTTCTCGCCGGACGTCTCGGCCAGTGGTCGCTGGGCAAGAGCCTGCTCAGCCTGCTGCACCCGGTGGATAGCGCCGGCGCCGAAGCGGCCCTGGCGCGCCTGGACCTGGGCGACAAACTGTTCCAGCGCTGCGACCAGCTCTCCGGCGGCCAGTTGCAGCGGGTGGGCATCGCCCGCGTGCTCTACCAGGCGCCGGACCTGATCCTCGCCGACGAACCGGTCTCCGCCATGGACCCGGTCCTTGCCGGCCATACCCTCGGTGTGCTCAACCGTGAGGCCGAGGCCCGCGGCATCACCCTGCTCGCCAGCCTGCACGCGGTGGACCTGGCCCTGGCGCACTTCCCGCGCATCGTCGGCATCCGCGACGGCCGCATCGTCTTCGACCATCCGGCCCACGAGGTCGGCCAGGCCGAACTGGATGCGCTCTACGCCAACGAGCAATTGCAGGCCAGCGTGCCCGCCTCCGCCCCGCCGGCGCCGGTCACCCTGCACATCCCGCGATGCTGA	MNLRLSGVGLTHADGQPALHDIDLDIAQGERVALIGPSGAGKTSLLRLLATSLKPSAGRLELLDAEPWSLSAAARQKLRAHIGLIHQSPPLPPRQRVVTAVLAGRLGQWSLGKSLLSLLHPVDSAGAEAALARLDLGDKLFQRCDQLSGGQLQRVGIARVLYQAPDLILADEPVSAMDPVLAGHTLGVLNREAEARGITLLASLHAVDLALAHFPRIVGIRDGRIVFDHPAHEVGQAELDALYANEQLQASVPASAPPAPVTLHIPRC	PGPT0002520_1092	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002520-phnC-K02041	NA	NA
BMS010_04611	852	phnD1	COG3221	putative ABC transporter phosphite binding protein PhnD1	ATGCTCAAGCGTACCCTGGCGCTCGCCGCCGGCTTTGCCCTGTCTTTGTCCGCCGTTTTTTCCCATGCCGCCGAGGTACTGAAAGTCTCGGCCATTCCCGATGAAGCCCCCACCGAACTGCTGCGCAAGTTCAAGCCGCTGGGCGCCTATCTGGAAAAGGAACTGGGGATGGAAGTCCAGTTCGTACCGGTATCCGATTACGCCGCCGTGGTCGAAGCCATCGCCGCCGACCGCATCGACATGGCCTGGCTGGGGGGCTTCACCTTCGTCCAGACCCGCCTGAAGACCGGCAACGCCATCCCACTGGTGCAGCGCGAGCAGGACGAGAAGTTCACCAGCACCTTCATCAGCGCCGACCCCGCCGTCAAATCCCTGCAGGATCTCAAGGGCAAGACATTCGCCTTCGGCTCGGTGTCCTCCACCTCGGGCAGCCTGATGCCGCGCTATTTCATGCTGCAGGACGGCATCAAGCCGGAAGAATTCTTCAGCCGCGTCGCCTACTCCGGCGCCCATGACGCCACCGCTGCCTGGGTCGAGGCCGGCAAGGCCGACGGCGGCGTGCTCAACACCTCGGTCTGGGAAAAACTGGTCGCCGCCGGCAAGGTCGACACCAGCAAAGTCAAGGTCTTCGCCACCACCCCGACCTACTACGACTACAACTGGACCGTGCGCGGCAGTCTCGACCCGGCCCTGGCCCAGAAGATCAAGGCGGCATTCCTTGCCCTCGATCCGGCCAACCCCGAGCACAAGGCGATCCTCGACCTGCAGGCCGCCAGCCGCTTCGTCGAGACCAAGCCGGAGAACTACGCCGGAATCGAGGAAGCCGCCCGCGCGGCCGGCCTGTTGAAGTGA	MLKRTLALAAGFALSLSAVFSHAAEVLKVSAIPDEAPTELLRKFKPLGAYLEKELGMEVQFVPVSDYAAVVEAIAADRIDMAWLGGFTFVQTRLKTGNAIPLVQREQDEKFTSTFISADPAVKSLQDLKGKTFAFGSVSSTSGSLMPRYFMLQDGIKPEEFFSRVAYSGAHDATAAWVEAGKADGGVLNTSVWEKLVAAGKVDTSKVKVFATTPTYYDYNWTVRGSLDPALAQKIKAAFLALDPANPEHKAILDLQAASRFVETKPENYAGIEEAARAAGLLK	PGPT0002525_2732	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002525-phnD-K02044	NA	NA
BMS010_04612	891	garR_2	COG2084	2-hydroxy-3-oxopropionate reductase	ATGACCACCGCCCTGCCTTCCCTCGCCTTCGCCGGCATCGGCCTGATGGGGCTGCCGATGTGTCGTCGGCTGCTCGCCGCGGGCTATCCGCTGAGCGTCTGGAACCGCTCGCCGGAGAAGTGCGCGCCGCTGATGGAGCAGGGCGCCCGGAGCCTGGCGAATCCGGCCGAGCTGTGCGAGGCGGCGGACATCGTGATGCTCTGCCTGGCCGACACCGCCGTGGTGCGCGAAGTGGTGTTCGGCCCCGGTGGCATCGTCGAAGGCGCGCGGCCGGGTCAACTGCTGGTGGATTTCTCCAGCCTTGAGCCGGCCGCCACCCGGGAGATGGCGGCGGAACTGGAGCGTCGCAGCGGCATGCGCTGGGTCGATGCGCCGGTATCCGGCGGCACGCCCGGTGCGGCGGCCGGAACGCTGGCGATCATGGCCGGCGGGCGCGAAGACGATATCGAGCGGGTGCGCCCGGTGCTCGCCCATCTCGGCCAGCGCCTGACCCGCATGGGCGAGGTCGGCGCCGGCCAGGTGACCAAGGTCTGCAACCAGATGATCGTCGCCTGCAATGCCCTGGTGATCGCCGAAGTGGTGGCGCTGGCGGAAAAGGCCGGTGTGGATGCCGGGTTGATCGCCCCGGCGCTGGCCGGTGGTTTCGCCGATTCCAGGCCGTTGCAGATCCTCGCGCCGCAGATGGCGGCCAGCGAGTTCGAGCCGGTCAAATGGCACGTGCGCACGCTGCTCAAGGACCTCGATACGGCGGTCAGGCTGTCCCGCGAGCAGGGTTCGGCCACGCCCCTGAGCGGGCTGGCGGCGCAACTGATGCGCCTGCATGGCAGCCAGGGCAATCTCGAACGCGATCCGGCCACGCTGGTGGAAATGTTCCGGCAGCGCCAGGACTGA	MTTALPSLAFAGIGLMGLPMCRRLLAAGYPLSVWNRSPEKCAPLMEQGARSLANPAELCEAADIVMLCLADTAVVREVVFGPGGIVEGARPGQLLVDFSSLEPAATREMAAELERRSGMRWVDAPVSGGTPGAAAGTLAIMAGGREDDIERVRPVLAHLGQRLTRMGEVGAGQVTKVCNQMIVACNALVIAEVVALAEKAGVDAGLIAPALAGGFADSRPLQILAPQMAASEFEPVKWHVRTLLKDLDTAVRLSREQGSATPLSGLAAQLMRLHGSQGNLERDPATLVEMFRQRQD	PGPT0018170_227	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTARATE|GLUCARATE_DEGRADATION,PGPT0018170-garR|glxR-K00042	NA	NA
BMS010_04613	1602			hypothetical protein	ATGGTCCTGCTGCTGTGGAGCCTGCTGGGGAACGCCGCGGCGGCGGACAAAGTGCGCCTGCAATTACGCTGGCTGCACCAGTTCCAGTTCGCCGGCTACTACATGGCCCTGGAAAAAGGCTTCTACCGGGATGCCGGGCTGGACGTGGAAATCCTCGAAGGCGGCCCGGGCGCCATGAAGCCCATCGACGCCATGCTCGACGGCCGGGTCGACTTCGCCATCGCCAACAGCGGCCTGGTGATCGCGCGCATGGCCGGCAAGCCCGTCGTGGCACTGGCGGCGATCATGCAGACGTCGCCGATCGTATGGATCGTGCGGGGCGACTCGGCGATCTACACACCGCAGGACTTGGCGGGCAAGCGGGTGATGCTGATGCCCGCGCCGGAAAGCGGCGAGCTGCGCATTACCCTGCGTCGCGAAGGCATCGACTCCAGCCAGTTGCAGGTCCTCGACACCAGCTTCAATCCGCAGGACCTGGTGGACGGCAAGGTCGACGCCTTCGACGGCTACATCTCCAACGAGCCCTATTGGCTGATGCAGCACGGCGTGGACTATCGGCTGATCAACCCGCGGGAATACGGGGTGAACTTCTATAACGACGTGCTCGCCACCCGCGAATCCCTGATCGCCGCCCATCCGGAGCGGGTCGAGGCATTCGTCCGGGCCAGTCTCAAGGGCTGGCGCTATGCGCTCGAGCATGTGGAGGAAAGCGTGCAGCTCATCCATGGCCGCTACGCTTCACGCAAGAGCCTCGATCACCTGCGTTATGAAGCTTACGAACTGCAGAAGCTGATCATGCCCGAGCTGGTGCAGCTCGGGCACATGAACCCCGGCCGCTGGGAAGCCATCGCCAGCGCCTATGTGCAGATCGGGTTATCGCCCGGCCCGATCGAGCTGGAAGGCTTCCTCTACCACTACCAGGCCAAGGCCGACTACAGCCTGCTCTACAAGATCGCCGCCGGCGCGCTGCTCGCCCTGACGCTCGTGGGTGCCACCGCGCTGCGCTTCGCTCGTCTGTCACGCACGCTGCGCCAGGAGGTGCAATTGCGCCGTTCAATGGAGCGGCAACTGCGCGAGAGCAACCTGCAACTCGAACACCTGGCCAACACCGACCGCCTCACCGGCCTGTGGAACCGCCTGAAATTCGAGGAAGTGGCCACCCATGAGGTCAAGCGCGCCCAGCGCTATCGCCACGCCCTGTCGCTGGTGTTTTTCGACATCGACCGCTTCAAGGCGATCAACGACACCCATGGCCACGAAGGCGGCGATGCCATCCTGCGCGAAACGGCGCGCCGCGTGCGGACGCAACTGCGGGATTCCGACCTGCTCTGCCGCTGGGGTGGCGAAGAATTCGTAGTGCTCATGCCGCACACCGATCTGCCACATGCCCTTACCCTGGCGGAGAAACTCCGCGAGCTCCTGGCCCATCGCGATCCGTCGCAGTCCTGTGGCGTCACCGCCAGCTTCGGCGTCAGCCAGCTACGGGAAGGCCAGAGCCTGCAGGATCTCCTGCGCCAGGCGGACCAGGCGCTCTACCTGGCCAAGCAGCGCGGGCGCAACCGGGTCGAAACCCTGGACGCTTGCCACACCGGGCTGGTCTGA	MVLLLWSLLGNAAAADKVRLQLRWLHQFQFAGYYMALEKGFYRDAGLDVEILEGGPGAMKPIDAMLDGRVDFAIANSGLVIARMAGKPVVALAAIMQTSPIVWIVRGDSAIYTPQDLAGKRVMLMPAPESGELRITLRREGIDSSQLQVLDTSFNPQDLVDGKVDAFDGYISNEPYWLMQHGVDYRLINPREYGVNFYNDVLATRESLIAAHPERVEAFVRASLKGWRYALEHVEESVQLIHGRYASRKSLDHLRYEAYELQKLIMPELVQLGHMNPGRWEAIASAYVQIGLSPGPIELEGFLYHYQAKADYSLLYKIAAGALLALTLVGATALRFARLSRTLRQEVQLRRSMERQLRESNLQLEHLANTDRLTGLWNRLKFEEVATHEVKRAQRYRHALSLVFFDIDRFKAINDTHGHEGGDAILRETARRVRTQLRDSDLLCRWGGEEFVVLMPHTDLPHALTLAEKLRELLAHRDPSQSCGVTASFGVSQLREGQSLQDLLRQADQALYLAKQRGRNRVETLDACHTGLV				NA	NA	NA	NA	NA
BMS010_04614	2205		COG2200	putative signaling protein	ATGGAATGGATGGGGCTGCGTTTTCTCTCCAGTCTGCCCGAGGATGGGCAGGTCATCCTGGAATGCACCCACGACCCGCTGCTGGTCCTTTTGGCCTATCTGGTCGCCTCCATCGCCAGCCTGACGACGCTGGGCATGGCCGAGCGTATCGGCTATGCGGCCCACGAGCGGGCCCGCCTGTTCTGGCGCTGGGGTGGTGCTTTCTGCCTGGCGGGCGGCATCTGGGCGATGCACTTCATCGCCATGCTGGCTTTCAATGCGCCGGTGCCGCTGCACTATGACCTGCTGGGTACCGCCATCTCCCTGCTGATCGCCTTCATTGCCGCCCTGCTGGCGATGAATACGCTCAGCCATGCCCGCTTGCAGCCGTCCCAGTATCTGATCGCCGCGGTGTGCATCGGCCTGGGCATCGCGGCCATGCACTACAGCGGCATGGCCGCCCTGCGCTCCGAGGCCACCCTGTACTATGACGCCGGGTTGTTCGTGCTGTCGGTGTTCCTTGCCATCGCCGTCAGCCTGGCCGCCTTGCTGCTGGCGCTGTACTTCCGCCAGGGCAACGGCATTCTTAACCTGTTGTTGAAGTACCTGGCCAGCCTGGTGATGGGTGGCGCCATCGTTTCCATGCACTTCACCGGCATGTGGGCGCTGCACCTGGTGGTGCCCGTGGATACTCCTCTGGCCTTGCAGGGCGCGTCGGAAGTGCTGCCGCTGGCCCTGAGTCTGGGCTTGGTGATGTTGCTGATTCTGGGCGGCGGGCTCAGCGCGATCTGGGCCGACCGCAAGCTGGAAAGCAAGGAACGCGACCTGCTGCGGGTCAATACCCTGCTCAGCCAGTTAGACCAGGCGCGCACCTCGTTGCAGATGGCGGCGCACTACGATGCCCTGACCAACCTGCTCAACCGCCGCGGCTTCAACGAAGTGTTCGCCGAGCGCCTGGAGGAACACGCGCAACGCCACCAGTCCCTGGCGGTGATGTTCCTCGATATCGATCACTTCAAGCGGATCAATGACAGCCTCGGCCACGATGCCGGCGACGAGCTGCTCAAGGTGGTGGCGGAGCGCCTGCGCGGCACCTTTCGCGAACAGGACGTGGTCGCCCGTTTCGGCGGCGACGAATTCTGCGTGCTGGTCAGCCTGCACAATGCCGACGAGGCCCGCTACCTGGCCCAGCGGGCGATCCAGGCGATGAAGGAGCCCATCGCCCTGGCCGGACGCTGCATGGTGATGACTACCAGCATCGGCATCAGCCTGTTCCCCCAGGACGGCGAAACCTGCGAGGAACTGCTCAAGCACGCCGACCTCGCGCTTTACCAATCGAAGGGTAGCGGGCGCAACAACATGCACTTCTTCAGCGCCCACCTGAAAGCCAAGGCCACCGTCGAGCTGCAACTGGAAGAGGCGCTGCACATCGCCCTGCGGGAAGAACGCGGCCTGCAACTCTTCTACCAGCCGATCCTCGACCTGCGCAGCGGCGAGCTGAACAAGCTGGAGGCCCTGGTGCGCTGGCACCATCCGCAGCACGGCCTGCTTTCGCCGGATCGGTTCATCGGCATCGCCGAAGCCAACGGCTTCATCGACGAACTGGACGACTGGGTGCTGCGCCGCGCCTGCCAGGAACTCGCCCTGCTCTGCGGCAGCGGCTACCGCCTGAAGGTGGCGGTGAACTGCTCCGCACTCAACCTCGGCCGCGAGGACCTGGCGCAGGTGGTGGACCAGGCGCTGCGGTCCTCGGGCGTGGCGCCGGCCCTGCTGGAGATCGAGGTCACCGAGAATGCCCTCATGGGCAACATCAACCAGGCCGTACCGTTGCTGCAACGTATCCGTGAACTCGGCGTATCGCTGTCGATCGACGACTTCGGCACCGGCTACTCCTCGCTGGCCTACCTCAAGCGCCTGCCGCTGGACACACTGAAGATCGACCGCTCGTTCATCCAGGACATCAACAACTCGCAGCAGGATATGGAAATTGTCCAGGCCATCATCGTCATGGCCCATGCCCTGCGGCTCAAGGTAGTCGCCGAAGGGGTCGAGGATGCACAGCAACTGGCGTTCCTCCGCGACCACCGTTGCGATTTCGTCCAGGGCTACCTGATCGGGCGCCCCTTGCCACTGTCACAGTTGCGTGACTACCTTGAAACGGTCCCCTTGCCGCCGAGGATGGCGGCCAACGCCCCGGCGCAGGCGGCCATTCGAGCCGATTGCTGA	MEWMGLRFLSSLPEDGQVILECTHDPLLVLLAYLVASIASLTTLGMAERIGYAAHERARLFWRWGGAFCLAGGIWAMHFIAMLAFNAPVPLHYDLLGTAISLLIAFIAALLAMNTLSHARLQPSQYLIAAVCIGLGIAAMHYSGMAALRSEATLYYDAGLFVLSVFLAIAVSLAALLLALYFRQGNGILNLLLKYLASLVMGGAIVSMHFTGMWALHLVVPVDTPLALQGASEVLPLALSLGLVMLLILGGGLSAIWADRKLESKERDLLRVNTLLSQLDQARTSLQMAAHYDALTNLLNRRGFNEVFAERLEEHAQRHQSLAVMFLDIDHFKRINDSLGHDAGDELLKVVAERLRGTFREQDVVARFGGDEFCVLVSLHNADEARYLAQRAIQAMKEPIALAGRCMVMTTSIGISLFPQDGETCEELLKHADLALYQSKGSGRNNMHFFSAHLKAKATVELQLEEALHIALREERGLQLFYQPILDLRSGELNKLEALVRWHHPQHGLLSPDRFIGIAEANGFIDELDDWVLRRACQELALLCGSGYRLKVAVNCSALNLGREDLAQVVDQALRSSGVAPALLEIEVTENALMGNINQAVPLLQRIRELGVSLSIDDFGTGYSSLAYLKRLPLDTLKIDRSFIQDINNSQQDMEIVQAIIVMAHALRLKVVAEGVEDAQQLAFLRDHRCDFVQGYLIGRPLPLSQLRDYLETVPLPPRMAANAPAQAAIRADC	PGPT0026010_709	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0026010-mucR-K21023	NA	NA
BMS010_04615	1329	exuT		Hexuronate transporter	ATGCAGCATCCCCCGCAAGCGGCGAATGCATGGCGCATCCTGTGCCTGCTGTTCCTCGCCAATCTGTTCAACTTCTTCGACCGCACCATCCCGGCGATCATCATCGAGCCGATCCGGATGGAGTGGAGCCTCAGCGACTTCCAGATCGGCCTGATCGGCACGGCGTTCACCATCATCTACGCCATCGCCGGGGTGCCGCTCGGGCGTCTCGCCGATACCGGGGCGCGGCGCAAGATCATGGGCTGGGGCCTGGCGGCCTGGAGTGGGCTGACCGCCATCAACGGCCTGGCCTGGAACTTCTGGAGCTTCCTGCTGGTGCGCATGGGCGTCGGCGTGGGCGAGGCCAGCTACGCGCCGGCGGCCAACTCGCTGATCGGCGACCTGTTCCCGGCGCACCGGCGTGCCCGCGCCATGGGCATCTTCATGCTCGGCCTGCCGCTGGGGCTGCTGCTGGCGTATTTCACCATCGGCGCCATGGTCAAGGCGTTCGATAGCTGGCGCGCGCCCTTCTTCATCGCGGCGGTGCCCGGTCTGGTCCTGGCGCTGTTCATGTTCTTCATCAAGGAGCCGCAGCGTGGCGCGGCCGAGGCGGTGAAAAGCGCCACCACGCCGGTGGACAAACCCGTGCGCAAGGTCCTGGCGATCCGCACCTTCTGGTGGCTGGTGATCGCCGGGCTGACCTTCAATTTCGCCACCTACGCCTGCAACTCCTTCATGGTGCCGATGTTGCAGCGCTACTTCCTGCTTTCGCTGCAGCAGGCGGCACTGGCGACCGGCGTCATCGTCGGCGTCACCGGCCTGGTCGGGCTGACCCTGGGTGGCTGGGTCGCCGATCGCCTGCACCTGAAGAACGAGCGCGGCCGCTTGCTGTTCGGCGCCTTCAGCATGTTCGTCGCTTCTGTCGCCACCGGCTTCGCGCTGTTCTCGGGGCGGATCGAGATCGGCCTGTTCGTGACGGTGTTCAGCATCGGCTGGCTGTTCTCCTACAACTTCTATACCTGCGTCTACACCTCGATCCAGGATGTGGTCGAGCCGCGCCTGCGCGCCACCGCCATGGCCCTGTTCTTCGCCGGGCTGTACCTGCTCGGCGGCGGTTTGGGGCCGGTGGTGGTGGGGCTGCTCTCCGACCACTTCGCCCAGGCGGCGATGAGCGCGGCGGGGGCCGTCGAGATGACCGAAGCCTTCAAGGCGGTCGGCCTGCACGATGCCATGTACCTGATCCCGGCCGCGTTGTTCCTCGCCATGCTCTGCCTGGTGCAGGCGGCACGCAGCTTCGGTCGCGATGCGGCAAACATGCGCGCGGGACTGGTGGCGGCGGCTGCGGCCTGA	MQHPPQAANAWRILCLLFLANLFNFFDRTIPAIIIEPIRMEWSLSDFQIGLIGTAFTIIYAIAGVPLGRLADTGARRKIMGWGLAAWSGLTAINGLAWNFWSFLLVRMGVGVGEASYAPAANSLIGDLFPAHRRARAMGIFMLGLPLGLLLAYFTIGAMVKAFDSWRAPFFIAAVPGLVLALFMFFIKEPQRGAAEAVKSATTPVDKPVRKVLAIRTFWWLVIAGLTFNFATYACNSFMVPMLQRYFLLSLQQAALATGVIVGVTGLVGLTLGGWVADRLHLKNERGRLLFGAFSMFVASVATGFALFSGRIEIGLFVTVFSIGWLFSYNFYTCVYTSIQDVVEPRLRATAMALFFAGLYLLGGGLGPVVVGLLSDHFAQAAMSAAGAVEMTEAFKAVGLHDAMYLIPAALFLAMLCLVQAARSFGRDAANMRAGLVAAAAA				NA	NA	NA	NA	NA
BMS010_04616	342			hypothetical protein	ATGCGCCAACACCGCCGCGTCACCTTTCGCAACCAATTCCGTGTCCGCGTCCTCCTGCGGGAGAACGATGAACTGCTGGGCTATGCCGGCGACATCTCGTTCGGCGGTTTCCGGCTGATTTCCGATGCACCGGTCGAGGCCGGCAGCGAACTGGCGTTGCGCCTGAAGATTCGCGAGGCGGAAGACCGCACCCGCTATATCGACGTGGACGTGGTCTGTCAGTGGTCGCGGGCCAATCCCAAGCGCGACAACTTCGAAGCCGGAATGGCGCTGGACGGGCCCTGCGTCGCGTTCGCCGAGTACGTCCGCACCCTCGGCGCCGCCCGCGAAGCCCGCGTCTGA	MRQHRRVTFRNQFRVRVLLRENDELLGYAGDISFGGFRLISDAPVEAGSELALRLKIREAEDRTRYIDVDVVCQWSRANPKRDNFEAGMALDGPCVAFAEYVRTLGAAREARV				NA	NA	NA	NA	NA
BMS010_04617	414			hypothetical protein	GTGACCGTCTTTCGCATCGCCGCCGCCTGCCTGTTGGACGCCCAGGGCCGCCTGCTGCTGGTACGCAAGCGCGGCACCCGGGCCTTCATGCTGCCGGGCGGCAAGCACGAGCCGGGGGAATCGGCGCTGGAAGCCGTCCTGCGCGAGCTGAGCGAAGAGATCGAACTGTCGCTGCCGGCAGAGGCCCTGCACTATCTCGGGCGTTTCCAGGCACCCGCCGCCAACGAGCCGGATTGCCGGGTGGATGCCGATGTCTTCTGTGCCCGCCTCCTCCATCCGGTGCGCCCAGCCGCCGAGCTGGAGGAACTCGCTTGGCTCGATCCGGGCGGCCCGTTGCCGGACAACCTCGCCCCACTGCTGCGCGAGCAGGTGTTGCCCGTGCTGCAACGGCATCTGGAGGCCGAGACGGCCTGA	MTVFRIAAACLLDAQGRLLLVRKRGTRAFMLPGGKHEPGESALEAVLRELSEEIELSLPAEALHYLGRFQAPAANEPDCRVDADVFCARLLHPVRPAAELEELAWLDPGGPLPDNLAPLLREQVLPVLQRHLEAETA	PGPT0021230_1527	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021230-udk-K00876	NA	NA
BMS010_04618	561			hypothetical protein	ATGAAACCTTCCCTGATCTACTACGTGGCCGCCAGCCTGGACGGCTATATCGCCCGCCCCGACGGACGCATCGACTGGCTGCAGCCTTTCGAGGACAGCGGCGAAGACCACGGCTACAAGCGCTTCTACGCCAATATCGACGGCCTGCTGATGGGCCGCGCGACCTACGAAGCCCTGCTGGCCATGGGCATCGACTGGCCGTACCCCGGCAAGCCGTGCATCGTCCTGACCCGCGCCGAGCACCTGCCCATCGCCTCCTCCGACGTCCGCCTGCGACACGACCTGCCGGCGGAGGCCATCGCCGAACTGGAAGCGGCCGGCTGCCGGCGCATCTGGCTGGTGGGGGGCGGATCGCTGGCCGGCACTTGCTACGCCGCCGGGCTGCTCGACGAGCTGGTGGTCAACATGGTGCCGTACCTGCTGGGTGCGGGCATCCCGATGTTCGCTACCGGCCTCGAACACGGCCTCACCTTGCTGGACCAGCGGCATTTCGCCAACGGCGTGGTGCAGATGCACTATCGGCTGCAGGCGGATACGGATAGCCAGGAGGTCGCCGCGTGA	MKPSLIYYVAASLDGYIARPDGRIDWLQPFEDSGEDHGYKRFYANIDGLLMGRATYEALLAMGIDWPYPGKPCIVLTRAEHLPIASSDVRLRHDLPAEAIAELEAAGCRRIWLVGGGSLAGTCYAAGLLDELVVNMVPYLLGAGIPMFATGLEHGLTLLDQRHFANGVVQMHYRLQADTDSQEVAA				NA	NA	NA	NA	NA
BMS010_04619	417			hypothetical protein	ATGCTGAAACCCTCCCGCTTCGCCCTGCTCGGCACCGGCCTGGCGCTGATCCTGAGCGCCCAGCCCGGCCTGGCCGCGCCGAAACACGACAAAGGCAGCCACCAGGGCGGCCACGACAGCGGCGGCGCCAGTATCCAGATCAGCGGCCCGACCATCGACATCGGCCGGGTACGCATCGTCCTCGGCGAGAACCGCAACCTGATCGGCCCAACCACCGCCCTGCCGCCGGGCGTCAGCAAGAACCTCGAGCGCGGCAAGCCGCTGCCGCCCGGCATCGCGAAGAACTTCGACGGCCGCGTCCAGAGCCAGTTGCCGCACTACGACGGCTACGAATGGAAGCAGGTCGGCCGCGACGTGGTGCTGGTGGCCATCGCCACGGGGATCGTCTACGAAGTGCTGCGCAACGTACTCGACTGA	MLKPSRFALLGTGLALILSAQPGLAAPKHDKGSHQGGHDSGGASIQISGPTIDIGRVRIVLGENRNLIGPTTALPPGVSKNLERGKPLPPGIAKNFDGRVQSQLPHYDGYEWKQVGRDVVLVAIATGIVYEVLRNVLD				NA	NA	NA	NA	NA
BMS010_04620	1332	rhlE_2	COG0513	ATP-dependent RNA helicase RhlE	GTGTTCTCCCAATTCGCCCTGCATGAACGCCTGCTGAAAGCCGTGGCCGAGCTGAAGTTCGTCGAGCCGACGCCGGTCCAGGCGGCGGCCATTCCGCCGGCCCTGGAGGGGCGCGACCTGCGGGTGACGGCGAAGACCGGCAGCGGCAAGACCGCCGCGTTCGTCCTGCCGCTGCTCAACCGGCTGATCGGCGATGCCCAGCCGCGCGTGCGCATCCGGGCGCTGATCCTGCTGCCGACCCGCGAACTGGCCCAGCAGACGCTGAAGGAAGTGGAGCGTTTCTCCCAGTTCACCTTCATCAAGTCCGGCCTGATCACTGGCGGCGAGGACTTCAAGGTCCAGGCCGCCCTGCTGCGCAAGGTGCCGGACGTGCTGATCGGCACGCCGGGGCGCCTGCTGGAGCACCTGAACGCCGGCAACCTGGATCTGAAGGAGGTCGAAGTACTGGTGCTGGACGAAGCCGACCGCATGCTCGACATGGGCTTCGCCGATGACGTGCGGCGCCTGGCCGGTGAGTGTGCCGGCCGCCAGCAGACCATGCTGTTCTCCGCCACCACCGGCGGTGCCGCGCTGCGCGAGATGGTCGGTGAGGTGCTGCGCGAGCCGCAGCACCTGCTGCTGAACAGCGTGCGCGAGCTGAACGAGGGCGTCCGCCAGCAGATCATCACGGCCGACGATCCCGCTCATAAGGAGAAGCTGGTGGAATGGCTGCTGGTCAACGAGACCTACCAGAAGGCGATCGTCTTCACCAATACCCGTGCCCAGGCCGACCGGCTCTACGGCCATCTGGTGGCGGGCGACTACAAGGTGTTCGTCCTCCATGGCGAGAAGGACCAGAAGGAACGCAAACTGGCCATCGAACGCCTCAAGCAGGGCGGGGTGAAGGTCCTGGTGGCCACCGACGTGGCGGCGCGCGGCCTGGATATCGAGGGCCTGGACCTGGTGATCAACTTCGACATGCCGCGCTCCGGCGACGAGTACGTGCACCGCATCGGCCGTACCGGGCGTGCCGGCGGCGAGGGGCTGGCGATCTCGCTGATCTGCCACAACGACTGGAACCTGATGTCGAGCATCGAGCGCTACCTCAAGCAGCGTTTCGAGCGGCGGGTGATCAAGGGCCTCAAGGGTACCTACCAGGGGCCGAAGAACCTCAAGGCTTCGGGCAAGGCGGCCGGGACCAAGAAGAAGGACAAGACAGGCGACAAAAAGGCCGGCGCCAAGAGCGCCCCGAAGCGCAAGCCCACTACCCGGCCGAAGACCGGCACGCCTTCGGCCGTCGTCAGCCAGGACGGCATGGCGCCGCTCAAGCGCAAGAAGCCGGCGGCGGAGTAA	MFSQFALHERLLKAVAELKFVEPTPVQAAAIPPALEGRDLRVTAKTGSGKTAAFVLPLLNRLIGDAQPRVRIRALILLPTRELAQQTLKEVERFSQFTFIKSGLITGGEDFKVQAALLRKVPDVLIGTPGRLLEHLNAGNLDLKEVEVLVLDEADRMLDMGFADDVRRLAGECAGRQQTMLFSATTGGAALREMVGEVLREPQHLLLNSVRELNEGVRQQIITADDPAHKEKLVEWLLVNETYQKAIVFTNTRAQADRLYGHLVAGDYKVFVLHGEKDQKERKLAIERLKQGGVKVLVATDVAARGLDIEGLDLVINFDMPRSGDEYVHRIGRTGRAGGEGLAISLICHNDWNLMSSIERYLKQRFERRVIKGLKGTYQGPKNLKASGKAAGTKKKDKTGDKKAGAKSAPKRKPTTRPKTGTPSAVVSQDGMAPLKRKKPAAE	PGPT0013740_2632	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
BMS010_04621	681			2-haloacrylate reductase	GTGGCCGCGGCGAACAAATTGATTCCGCTGCCGGATGCCGATCCGCAGCAACTGGCGATGCTCACCGTCAACCCACCGACCGCCTACCTGATGCTGCGCGAGTTCGTCGACCTGCAACCGGGCGACTGGGTGATCCAGAACGTCGCCAACTCCGGCGTCGGCAGCTACCTGATCCAGTTGGCCAAGCTGCGCGGACTGAAGACGGTCAACGTGGTGCGCCGCGAGTCGGCGGTGGCCGGCGTCCAGGCCGAAGGGGGCGACGTGGTGCTGGTGGACGGCCCCGACCTGCACAAGCGCGTGCGCGAGGCGACCGGCGGCGCGGCCATTCGCCTGGGCATTGATGCCGTGGGCGGACGCGCCACCGACCACCTGGCCTCCTGCCTGGCCGAAGGCGGCACCCTGGTGAACTACGGCATGATGAGCGGCGAGCCGTGCCAGTTGTCGCCGGCCTCTTCGGTATTCCGCGACATCACCCTGCGCGGCTTCTGGCTGGCCCGCTGGTTCCGCAACGCCAGCCCGGCGGACCAGATGAAGGTCTACGGCGAACTGACCCAACTGATCGCCAGCGGCAAACTGCACGCCCGCATCGCCGCGACCTACGACGTCAGCGAGATCAAGCAGGCGGTGGCCGCCGCAGCCAGCGGCGAACGAGACGGGAAGATCCTGATCGTGCCGAAGTGA	MAAANKLIPLPDADPQQLAMLTVNPPTAYLMLREFVDLQPGDWVIQNVANSGVGSYLIQLAKLRGLKTVNVVRRESAVAGVQAEGGDVVLVDGPDLHKRVREATGGAAIRLGIDAVGGRATDHLASCLAEGGTLVNYGMMSGEPCQLSPASSVFRDITLRGFWLARWFRNASPADQMKVYGELTQLIASGKLHARIAATYDVSEIKQAVAAAASGERDGKILIVPK				NA	NA	NA	NA	NA
BMS010_04622	645			hypothetical protein	ATGCATACCCCTAACCAGACGACCCCTGGTCCCGATGGCCAAACCCGTGGCGGCACTTCGAGGGAGGCGCTGACCGAAGAACTGCAGGACAAGGCGAAACAGGCGACGGAAGAGGTGAAAGTCCAGGGCAAGGAGCAGTTGGACAGATACCGCGAGACGGCGGCCGACGAACTCGACCGGGTGGCCCAGGGCGCCCGCGCCGCCGCCTCCGAACTGGAGCGCCAGGACGACGCGTTCCTCTCCCACTACGTTGCCGATATCGCCGGCAGCCTCGGCCGGTTGGCCGACAACCTGCGCGGCAAGAGCGCCGACACCTTGTTCCGCGAGGCCAGCCAACTGGCCCGGGACAACCCGGCGCTGTTCATTACCGGCAGCATCGCCCTCGGTTTCGGCCTGACGCGCTTCGCCCGTGCTTCCGGCCGGCGTGACACGGACGAGCGCAGCAGCACGTCCGAGACCGGCATGTCCGCTACTGGCACGTCCACCAGCGCCATGGGCGCCACTTCCGGCAGTCGGCCGGCACCCGGTTCGTCGGGCTACAGCAGCCCGGCAACCCCCTCGGACAACGCCTCGACCTTCGCCAATGCATCCTGCTGCCCACCCGGCCGGGGCGATGGAAAAACCAGCAACGGAGGAACCCACTGA	MHTPNQTTPGPDGQTRGGTSREALTEELQDKAKQATEEVKVQGKEQLDRYRETAADELDRVAQGARAAASELERQDDAFLSHYVADIAGSLGRLADNLRGKSADTLFREASQLARDNPALFITGSIALGFGLTRFARASGRRDTDERSSTSETGMSATGTSTSAMGATSGSRPAPGSSGYSSPATPSDNASTFANASCCPPGRGDGKTSNGGTH				NA	NA	NA	NA	NA
BMS010_04623	441			hypothetical protein	ATGAGCCAGACGCAACCCCGTCAATTCGATAGCGCCGTTCGCCAGCCGACCCGTAGCCACCCGGAGGATTCGCATTCCGTCACCGGCCTGTTGCACCAGCTCGGCCGGGAGGTGCCTCTGCTCTTCACCAAGGAGCTGGCGCTGGCCAAGTCCGAAATCACCTCGTCCATCCACGCCACCAAGGTCGGAATCGCCAGCGTGGCCAGCGGCGGCGCAGTGCTCCTGGCCGGCTTCATCATTCTGCTGCAGGCCGCGGTCTATGGGCTTTCCCTGGTGGTACAGCCGTGGCTGGCGGCCTTGATCGTCGGTGCCGTGGTGGTCGTCGTCGGCCTGGCCATGGTGCAGGCCGGCAAGAAGAAACTCGAGCCGTCCGCCTTCACCCCTGACCGAACCCTGCACGCCCTGCAGAAGGACCAGGAAGCCATTCGGAGGAACGCCTGA	MSQTQPRQFDSAVRQPTRSHPEDSHSVTGLLHQLGREVPLLFTKELALAKSEITSSIHATKVGIASVASGGAVLLAGFIILLQAAVYGLSLVVQPWLAALIVGAVVVVVGLAMVQAGKKKLEPSAFTPDRTLHALQKDQEAIRRNA				NA	NA	NA	NA	NA
BMS010_04624	732			hypothetical protein	ATGAGTACGCAAAGCCGAATCGCCGCCGAGGCGCAGAAGGACCCGGAAACCCTGGAAAGGGAAATCGACCAGCAGCGCGAATCTATCAGCAGCATCGTCCACGAGCTGGAGAACAAACTGTCGCCCGGCGAACTGCTGGACCGGGCGTTGCGCTACGCCAAGGGCAATGGCGGGGAGTTCTTCGGCAATCTCGGTGAGACCGTCAAGGCCAACCCGGTGCCGACCCTGCTCACTGCGCTGGGGCTGACCTGGCTGATGATGGGGCAGAACCGCTCGGCGTCCGCGTCGGGCCATGCCAGCCTGTCGGACCAGGCTGCCGGTGCCAAACGCCAGGCTCAGCATCTGAAGGACAAGGCGGACCAGCTGCGTGACGAACTGGGCAGCAACTGGGATTCCACCCGGCAGCGACTGAGCGATTCCAGCCACCAGGCTGCCGATACGCTGCGGCATCAGGCCGAGCGGGCCCGTGATGGCGTCGAGCACATGCTCGCCGAGCAGCCGTTGGCGCTGGGGGCCATCGGCATTGCTGTGGGCGCGCTATTGGGTGCCACCTTGCCGCCGACCCGCCAGGAAGATCGCCTGCTGGGCGAAACCAGCGACCGGTTGACCGACAAGGCCAAGGCGCTGGCCGAGGAGGGCTACGCCAAGGCCAGCGAGGTCAGCCAGGAGCTGAGCCGGGAGGTGGCCGATCGGGTCCGGCAGGATGGTCGGACCCACAGTGGAATCCAGTAG	MSTQSRIAAEAQKDPETLEREIDQQRESISSIVHELENKLSPGELLDRALRYAKGNGGEFFGNLGETVKANPVPTLLTALGLTWLMMGQNRSASASGHASLSDQAAGAKRQAQHLKDKADQLRDELGSNWDSTRQRLSDSSHQAADTLRHQAERARDGVEHMLAEQPLALGAIGIAVGALLGATLPPTRQEDRLLGETSDRLTDKAKALAEEGYAKASEVSQELSREVADRVRQDGRTHSGIQ				NA	NA	NA	NA	NA
BMS010_04625	276			hypothetical protein	ATGAAACAAGCATTCGAAAGAGTTGCCGCCGCATTCCCCGATTTCAAACTGGCCACTCAGCCCCGACCCGATGGGTACTTCCTGCTGGTGCTGCAACGCCAGGACGGCAAGGAACTGAAGCGGGCCGTCCCTTCGGCGCAGTTCAGTGCGCCGGAGCGGGTGGACTGGCTGATCAGCGCCATCCGCCGCGACCTGGCCCAGGAAGCCGGGCTGCCGCCGCCATCGGTCACTACGCTGCAGAGCCAGAGTCGTTCCTGCCTGCCGACCTACCTGTGA	MKQAFERVAAAFPDFKLATQPRPDGYFLLVLQRQDGKELKRAVPSAQFSAPERVDWLISAIRRDLAQEAGLPPPSVTTLQSQSRSCLPTYL				NA	NA	NA	NA	NA
BMS010_04626	114			hypothetical protein	ATGCAAGGCGATGACGACGAGGTCGTCGAACGGCCGCCTACCGATGCCGATGACGACCAATTGGACGAAGCGCTGGAGGAAACCTTTCCGGCCAGCGATCCGATCTCTCCTTGA	MQGDDDEVVERPPTDADDDQLDEALEETFPASDPISP				NA	NA	NA	NA	NA
BMS010_04627	1515	lasB	COG3227	Elastase	ATGAAACACGCTTTACCTATCCCCGCGCTGTTCCTCAGTGCACTGAGTCTGCCTGCCGTTTCCTTCGCCGCCGATCTGGTGGATGTCTCCAAGGTCGAAGCGCGGCGCACCGTCGCCGGCGAAGCTGGCCTGCATGCCGATCTCGGCGCCAGCCCCGACGAGTTGAAAGTGCTGCGCCAGAGTGCAGTCGGCAAAGGCCGTGTGGTCACCCGTTACCAGCAGTTCTACAACGGCGTGCGAATCCGTGGGGAAGCCATCACCGAAGTGAGCGGAGCGCAGGACGGCGAGCGCACCAAGCGCTCCATCGATACCCCGGTTCCCGTGCGCCGCGGCCACTTCGTGACCAATATCGCCCCCGATCTGGTCGCCGATACCCGGCCGACCCTGAGTGCGGAGCAGGCGCTGAACCAGGCGAAGCTGCTCAAGGCGCAAGGGCGCAGGGCGGAGAACGAACGCACCGAACTGGTCATCGACCTGGATGCGCAGAACAAGGCGCGCCTGGTGTACGTGGTGTCCTATTTCCTGCCGGATGTGCCCTCGCGCCCGCACTTCCTCATCGATGCCAACGACGGCAGCGTGCTCCAGCAATGGGAAGGCCTCGCCCATCGCACCGAGGCCAGCGGTCCCGGCGGCAACGAGAAGACTGGCCGCTACCTGTATGGCAGCGACTACGGTCCTCTGGTAGTCACCAACGATTGCCACATGAACAGCGGCGACGTGCTGACCGTGGACCTCAACCACAGCACCAGCAACGCCAAGCGCACGCCGTTTCAGTTCGCCTGCTCGTACAACGACTACAAGCAGATCAACGGCGCCTTCTCGCCGCTCAACGACGCCCATTACTTCGGCAACGTGGTGTTCCGGCTGTACAACGATTGGTTCGGCCTGCGCCCGCTCAGCCAGAAGCTGTACATGAAGGTGCATTACAGCCGGGGCTACGATAATGCGTTCTGGGATGGCGAGTCGATGACTTTCGGCGATGGCGCACGGACCTTCTACCCGTTGGTCGCACTGGACGTGGTGGCTCATGAGGTCAGCCACGGTTTCACCGAGCAGAACGCCAACCTCCAGTACTACGGACAGTCGGGCGGAATGAACGAGGCGTTCTCCGACATGGCGGGGGAGACCGCCGAGTACTACATGAAGGGGCGCAACGACTGGAAGGTCGGCTTCGACATCACCAAGGGGACGGGGGCATTGCGCTACATGGATGATCCGACCAAGGACGGACGCTCCATCGGCCATGCCGCCGATTACCGCAGTGGCATGAACGTGCACTACTCCAGTGGGGTGTACAACAAAGCCTTCTATCTGCTGGCTAATACGGCGGGTTGGGATACCCGAAAGGCCTTCGAAGTTTTCCTCGATGCCAACCGCTTCTATTGGACCGAGACCAGCACCTTCGACCGGGGGGCCTGCGGGGTGATCCAGTCGTCGCAGAACCGTGGCTACGGCACCAGCGCCGTGGTGCAGGCATTCCGGCAGGTGGGGGTGAACTGCCCGAGCGCCCTGTGA	MKHALPIPALFLSALSLPAVSFAADLVDVSKVEARRTVAGEAGLHADLGASPDELKVLRQSAVGKGRVVTRYQQFYNGVRIRGEAITEVSGAQDGERTKRSIDTPVPVRRGHFVTNIAPDLVADTRPTLSAEQALNQAKLLKAQGRRAENERTELVIDLDAQNKARLVYVVSYFLPDVPSRPHFLIDANDGSVLQQWEGLAHRTEASGPGGNEKTGRYLYGSDYGPLVVTNDCHMNSGDVLTVDLNHSTSNAKRTPFQFACSYNDYKQINGAFSPLNDAHYFGNVVFRLYNDWFGLRPLSQKLYMKVHYSRGYDNAFWDGESMTFGDGARTFYPLVALDVVAHEVSHGFTEQNANLQYYGQSGGMNEAFSDMAGETAEYYMKGRNDWKVGFDITKGTGALRYMDDPTKDGRSIGHAADYRSGMNVHYSSGVYNKAFYLLANTAGWDTRKAFEVFLDANRFYWTETSTFDRGACGVIQSSQNRGYGTSAVVQAFRQVGVNCPSAL	PGPT0025350_37	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0025350-lasB-K01399	NA	NA
BMS010_04628	180			hypothetical protein	ATGCGCATCAAAGGCTCGAACAGCAAACCGAAACAGGAACCCGCCGTCGAAACCCGCGAATCCATCGAAGCGCAGGTGGCGGCCTTCCTCCAGTCGGGCGGCACGATCCAGGAGATCGCTGGCGGCGTCAGCGGCCAGGTCTGGACCGGCACCCGGCAGCTCAAGCTCGGCAAGAAGTAA	MRIKGSNSKPKQEPAVETRESIEAQVAAFLQSGGTIQEIAGGVSGQVWTGTRQLKLGKK				NA	NA	NA	NA	NA
BMS010_04629	210	capB_1		Cold shock protein CapB	ATGTCCAATCGCCAAACCGGTACCGTCAAGTGGTTCAACGATGAAAAAGGCTTCGGCTTCATCACCCCTGAGAGCGGTCCCGATCTGTTCGTTCACTACCGCTCCATCCAGAGCACCGGCTTCAAGAGCTTGCAGGAAGGCCAACAGGTTTCCTTCGTGGCCGTGAAAGGCCAGAAAGGCATGCAAGCCGATGACGTTCAGGTGATCTGA	MSNRQTGTVKWFNDEKGFGFITPESGPDLFVHYRSIQSTGFKSLQEGQQVSFVAVKGQKGMQADDVQVI	PGPT0014675_5276	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
BMS010_04630	1500	petC_2		Cytochrome b6-f complex iron-sulfur subunit	ATGGCAGCGATCTGGCAGGTGGCGAAAGACGACAACCAGGCCTATCCGGCGCTGGACGGCGACATCGAGACCGACGTGCTGGTGATCGGCACCGGCATCACCGGGCTGACCACGGCCCTGCAAGTGGCCGAAGCCGGCAAGCGTGTGGTGGTGCTCGAGGCACTGCGGGTCGGCGGCGGCACCACCGGGGCGTCCACCGGCAATCTGTATGCGCCGGTGACTAAGGGGCTGTCGACCTTGCGCAAGAAGTGGGGCGATAACGTCATTGGCCAGGTCGCTGCCTCCCGCACCGAGGCGGTCGATTACATCGAAGAAACGGCCCGGCGCCTCGGCGTCGACTGTGCCTTCCACCGCCGTCCGCTCTACCGGGTCCTGACCGACGACGATCCGGCCCTGAACAACAGCCTCGACGAAGAACTCGATGCGCTGCTCTGCGCCGGTCTCACAGCCAGCCTGGTGAGCGAGACGCCTTTGCCGTTCCCCATCCATCGCGGCCTGAAGCTGGACAACCAGGCTCAGTTCGATCCGCTGCGCTACGTGCAGGGATTGGCCCGCGAGCTGAGCCGGCTGGGCGTTGGCCTGTACGAATACAGCAGCGTGCTGGACATCGATTTCGACCAGTGCCGGGCCGAGACCGCCACCGGCAAGGTCAGCGCAGAGAGCATCGTCCTGGCGACCCATACGCCCAAGGGCATCAACCTGCTGCAGACCGGCATGGAGCCCTTGCGGGAATATGGCATCGCCGCCCGGCTCTCCGGCCAGGACTACCCCCAGGGCATTCTCTGGGTGCTAGATCCCTTCCATTCCATCCGCAGCTACCAGCATGCCGGCCAGGATTACCTGATCATGATCGGCGAGCAGCACAAGACCGGCGAAGGAGAGCCGGGCGTCGATTACTACGGGCGGATGGAAAGCTACCTGCGTTCGAAATTCCCGGTGGCCTCCGTCGACTATCGCTGGTCGGCCCAGCAGTACGGCTCGGCCGACGGCCTGCCATACATCGGCCGGCGCCATGGTAGCGAGCGGGTATTCCTGGCCACGGGCTTTGCCGGCGATGGCCTGACCTGGGGCACGGTGGCCGGGCGCCTGCTCGGCGACCTGATCCTTGGCCACGACAGCCGCTGGAGCGAGCTGTACGACGCGACCCGCTTCACTCCGGTCAAGTCAATGAAGGAGTGGGTCAAGGAAAACACCGCCGTAGCCAAGCACCTGGCCCAGGACTACCTGACGCCGACCGAGGTCAAGGCCCTGGACGATGTGCCGGTGGGAGAGGGACGGATCGTGGCCCTGGAGGGCGACAAGCTGGCGGTGTACCGCAACGAGCTGGGGCAGGTCAGCGCCGTGTCGGCGGTCTGCCCGCACCTGAAATGCCTGGTGCACTGGAACCCCGGCGACCGGACCTGGGATTGCCCCTGCCACGGCAGCCGCTTCGAGATCGACGGCAGCGTCATCGAAGGGCCGGCCTATCATCCCCTGGCTCGGCGCCTGTCGTCGGAATGA	MAAIWQVAKDDNQAYPALDGDIETDVLVIGTGITGLTTALQVAEAGKRVVVLEALRVGGGTTGASTGNLYAPVTKGLSTLRKKWGDNVIGQVAASRTEAVDYIEETARRLGVDCAFHRRPLYRVLTDDDPALNNSLDEELDALLCAGLTASLVSETPLPFPIHRGLKLDNQAQFDPLRYVQGLARELSRLGVGLYEYSSVLDIDFDQCRAETATGKVSAESIVLATHTPKGINLLQTGMEPLREYGIAARLSGQDYPQGILWVLDPFHSIRSYQHAGQDYLIMIGEQHKTGEGEPGVDYYGRMESYLRSKFPVASVDYRWSAQQYGSADGLPYIGRRHGSERVFLATGFAGDGLTWGTVAGRLLGDLILGHDSRWSELYDATRFTPVKSMKEWVKENTAVAKHLAQDYLTPTEVKALDDVPVGEGRIVALEGDKLAVYRNELGQVSAVSAVCPHLKCLVHWNPGDRTWDCPCHGSRFEIDGSVIEGPAYHPLARRLSSE				NA	NA	NA	NA	NA
BMS010_04631	555			hypothetical protein	ATGAACCGGCACTACTACATCAGCGATGACCTGGACGAGCTGGAACAGGTCGAGCAGGAACTGGAAGCCAGCGGCATCAGCACCGAGCAGATTCATGTGCTGAGCGAGAAGGATGCCGACATGGATCAACATCGTCTGCACAGCGTCTCCCCTTTCATGAAGACCGACGTGGTGAATTCGGGCCGGCGCGGGATTTACGTCGGTCTGGTGCTCGCCGCCGCGGTGCTGCTCGTCGCCTACTTCAGCGGCTGGACGCAGACGGTCGCCGGCTGGGTGCCCTTCGTGTTTCTCGCGCTGGTGTTGCTGGGCTTCTCAGCGTGGGAAGGCGGCTTCTTCGGTATTCAGGAACCGAATGGCTACTTCCGGCGCTTCCAGGAGCTGCTGCGGGAGGGCAAGCACGTGTTCTTCGTGGATGTCGAGCCGCCGCAGGAGCCGGTGCTGGAACAGGTCATCCGCCACCATCCCCACCTGCAGGTGGCGGGGACCGGCGCGGCCATGCCCCACTGGGTGATGAGCGGGCAACAGAAGCTGCATCGCTTCCGCAAGATGATCTGA	MNRHYYISDDLDELEQVEQELEASGISTEQIHVLSEKDADMDQHRLHSVSPFMKTDVVNSGRRGIYVGLVLAAAVLLVAYFSGWTQTVAGWVPFVFLALVLLGFSAWEGGFFGIQEPNGYFRRFQELLREGKHVFFVDVEPPQEPVLEQVIRHHPHLQVAGTGAAMPHWVMSGQQKLHRFRKMI				NA	NA	NA	NA	NA
BMS010_04632	279			hypothetical protein	ATGATCCGACATCTCTGGCTCCTCGCTCTGTTCTGTACTCCAGCCTTCGCCGACGAAGATGCCTACCACCAGTGCATCCTCACCTACCAGCGCCAGGCCAAGGAAGGACAGGCGGTCTACCTGATCGAACAGGCCTGCAACAAGCTGCACAACGAGGGCTCGTTCCTGTTCGAACGCGAAAAGGCCTACTACCGCTGCCTGCTGGAGAACCTGCCGGGGGTCGAGCACAGCTTCGCCGTGCAGAAGATCCGTAGCGCCTGTAATGAGATCAATAACTAG	MIRHLWLLALFCTPAFADEDAYHQCILTYQRQAKEGQAVYLIEQACNKLHNEGSFLFEREKAYYRCLLENLPGVEHSFAVQKIRSACNEINN				NA	NA	NA	NA	NA
BMS010_04633	171			hypothetical protein	ATGACTCGAACCCCTACCGCAACCTCGAAGGTGATCATCATGAGCAAAGGCATGGACATCAAACGGGAGACGAAGAAGAAGCCGCAGAAGACCGCCCAGGAGAAGCGCATGGCCAAGCGCGACCGGAAATCCGGGCATACGCTGCTGGGCAGCCATTCGCAGACCCCGTGA	MTRTPTATSKVIIMSKGMDIKRETKKKPQKTAQEKRMAKRDRKSGHTLLGSHSQTP				NA	NA	NA	NA	NA
BMS010_04634	1218			hypothetical protein	ATGGCCCGTTATATTCAGGTTGCCGCTCCGCTACTCGCCGCCAGTCTCCTGGCCTCCACACCGACCCTTGCCGACAGCCAGTCAGCCGACATCCGCCTGCGCTACATCGGCCAGCACATCATTCCCACCGGCACGCTGTTCGACGGCATCGAATTCGGCGGCATTTCCGGTATCGACCGTGTCGAGGACGGCAGCCGCTACGGCTCCTACTACGCAATCTCCGATGACCGCGGCGGCGAACGCGGCACGCCGCGCCTCTACCAACTCAGCCTGGAGTACGACGGCAATGGCTTCTACGGCGCGACCCTGTACCGCCAGGTATTCATGAAGCAGCCGGACGGCACGCCCTTCCCCGCCGATGCCCGCACCGTCGACCCGGAGGGCATCCGCGCGGCCCCCAACGGCAACCTGTACTGGTCCAGCGAAGGCAACTGGAACGCCGACCCGGCCCTGCGCCATCAACCTTTCGTCCGCGAGATGCGCCCGGACGGCCGCTTCGTCCGTGAATTCCGTACCCCGGCGATGTTCGACTACGTGGACAATGCCACCTGGGGTGCGCGCAGCAACAAGGTCTTCGAAGCGTTGGCCGTGGCACCCCGCGGGCCGCTCTGGCGGCCGGGCCACGCCAGCCACCTGCTGTTCACCGCCAACGAGGACGCCTTGATCCAGGACGGCGAATTGACCAGCCTGGAGGCCGGCAGCCGGGTACGGGTCACCGCGCTCGACCCGCTCACCGCCGATGCCCGCGCCCAATACGTCTACGAATTACCGCCGATTCCCAAGGCACCCACCGAAGCGCCCGGCTTCATGGACAACGGCCTGCCCGAACTGCTGGCCCTGTCCGACCGCGAGTTCATTGCCCTGGAGCGCGGCTTCGCTTCCGGTCCCGGCAACACCCTGCGCCTGGCCCTGGCGAGCACCGAGTGCGCCACCGACGTGCTGCGCCTGCCGAGCCTGGTCGATGCCCGCTACGTGCCGATGCGCAAGCGCTACCTGCTGGATTTCGATGAACTCAAGGCGCAGTACGGCCTCACCTTGGACAATGCCGAAGGGCTGTCCTGGGGCCATCGCCTGGCCAACGGCAACCGCACCCTGATCGTGGTCGCCGACAACAACTTCTCGACCGCCCAGGCCACCCAGTTCATCGCCTTCGAGGTGATCGCCACGCCGCGCCAGGGCAAGCCCGGCCGCCGTTGCCGCCCACATCCGGAGCGGTAG	MARYIQVAAPLLAASLLASTPTLADSQSADIRLRYIGQHIIPTGTLFDGIEFGGISGIDRVEDGSRYGSYYAISDDRGGERGTPRLYQLSLEYDGNGFYGATLYRQVFMKQPDGTPFPADARTVDPEGIRAAPNGNLYWSSEGNWNADPALRHQPFVREMRPDGRFVREFRTPAMFDYVDNATWGARSNKVFEALAVAPRGPLWRPGHASHLLFTANEDALIQDGELTSLEAGSRVRVTALDPLTADARAQYVYELPPIPKAPTEAPGFMDNGLPELLALSDREFIALERGFASGPGNTLRLALASTECATDVLRLPSLVDARYVPMRKRYLLDFDELKAQYGLTLDNAEGLSWGHRLANGNRTLIVVADNNFSTAQATQFIAFEVIATPRQGKPGRRCRPHPER				NA	NA	NA	NA	NA
BMS010_04635	1494	dgt_1	COG0232	Deoxyguanosinetriphosphate triphosphohydrolase	ATGGGCGAGCGGTTGGATTTCAAGGAAAAGATCAGTTGGCAGCGGCCCTACCACTCACGTAACGAAACGGCTTTCAAGGTGCCGGATTGCGACGTGCAGCGCCTCGTCGATCAGCTCGAAAGCGACCGTGGCCGCATCCTCAACTCCGCCGCCATCCGGCGCCTGCAACAGAAAACCCAGGTCTTCCCGCTGGAGCGCAATGCAGCGGTGCGCAGCCGTTTGACCCACTCGCTGGAGGTCATGCAGGCGGGGCGCTTCATCGTCAAGACGCTGTTCAAGCAACTGGGCGACAGGGCGGCGGAATACGGCCTCGATGGCCTCGACGGAGCCCTGGAAAGTCTGGTGGAAATGTCCTGCCTGATGCACGACATGGGCAACCCGCCGTTCGGTCATTTTGGCGAATACGCCATCAACCAATGGTTCGAGAGCCGGCTGGATGCCCTGTTCGAGCAGGCCGTACCGGAACCGGGCGACGCGGCGTTGAAGCGGCGTATGCTTACTGACTTGAAGAATTTCGAGGGCAACGCCCAGGCCATCCGCCTGGTGGTTCGCCTGCTGCGCCTGAACCTGACCTACACCCAGACGGCCGGGTTGCTGAAGTACGTGCGCCCGGCCTATGAGCCGAAGGAGGGCGCGGCGAATCCCTACCTGAACAAGAAGCCCGGCTTCTACCTCTCCGAGAAGGATTTCGTCGAGGGGCTCTGGAAGGCCCTGTCGATGCAGCCCGGCAGCCGTCATCCGGCGGTCTACATCATGGAAGCCGCCGACGATATCTCCTACTGCCTGGCGGACATCGAGGATTCGGTGGAGAAGGGCATCCTCGATATCGAGCAACTGAGCGACCTGTTGATCGAGAAGTTCGCCTCGCTATGGAAAACGCCCGGGGACGCCATTCCCGAAGCGCGCAAGACGTTCGGCGAGGTTGTCGAGTACGCCCGCGACCGGGCCCGGCGCGAGCCGGTCAACAAGGTCAGCGAATACTTCATCTGGCTCCGCGTCGGCATGATCCATCCGCTGATCAAGCATGCGGCCGAGCAGTTCATCGGCAACATCGAAGCCGTGTACCACGGGCGTCTGGATCGTGCGCTGATGGAAGACGACAGCCTCTACAGCGCCATCGTAGGCACCTTCAAAGAGGTTGCCCGGGAGCGGGTGTTCTGCCACCGCGAGGTGGAAACCCTGGAGTTGCAGGGCTTCCGTATTCTCCAAGGGCTGCTGGATTTCTATGCGCCGCTCCTGGCGGTGGACAGCGAAGCATTCAAGAAACTGGCCGAAGGGGCGGCACGCAAGCCGCTGCATCTCCACCTGCTGGTCAAGCGCTTGGCCGACAAGGACATCAAGGCCTATCTCGAAGCCTTGCATGCCCTGGAGGTTCCCGCCGAGAACCGTCCGCAGTGGGAGTTCTACTACCGCTGCCGCCTGTTGCAGGACTTCGTCAGCAGCATGACGGACCAGTCGGCGCTGGACGAATACCGCACCCTGTCGGCGCTGTGA	MGERLDFKEKISWQRPYHSRNETAFKVPDCDVQRLVDQLESDRGRILNSAAIRRLQQKTQVFPLERNAAVRSRLTHSLEVMQAGRFIVKTLFKQLGDRAAEYGLDGLDGALESLVEMSCLMHDMGNPPFGHFGEYAINQWFESRLDALFEQAVPEPGDAALKRRMLTDLKNFEGNAQAIRLVVRLLRLNLTYTQTAGLLKYVRPAYEPKEGAANPYLNKKPGFYLSEKDFVEGLWKALSMQPGSRHPAVYIMEAADDISYCLADIEDSVEKGILDIEQLSDLLIEKFASLWKTPGDAIPEARKTFGEVVEYARDRARREPVNKVSEYFIWLRVGMIHPLIKHAAEQFIGNIEAVYHGRLDRALMEDDSLYSAIVGTFKEVARERVFCHREVETLELQGFRILQGLLDFYAPLLAVDSEAFKKLAEGAARKPLHLHLLVKRLADKDIKAYLEALHALEVPAENRPQWEFYYRCRLLQDFVSSMTDQSALDEYRTLSAL	PGPT0021495_439	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021495-dgt-K01129	NA	NA
BMS010_04636	249			hypothetical protein	ATGATGCGCTTCGCCAGCCTCTTGTTCGCCGCCCTCGTTCTTGCCGGTTGTGCCAGCCAGCCGTCGCCGGAACAGCGCCCGTACACCGATGCCGAGATCAAGCAGTTCGCCCTGGAAATGCTCAACCGCAGCGGACTGCCCTACGAGGACTACATGAAAATCCGCAGCGCCCTGCTCGATCCGAATCACCGGATGTCCAACGCCATCCGCGATCCGGCCGAACTGGAGCGTCTATCGGTGGGCGGCTGA	MMRFASLLFAALVLAGCASQPSPEQRPYTDAEIKQFALEMLNRSGLPYEDYMKIRSALLDPNHRMSNAIRDPAELERLSVGG				NA	NA	NA	NA	NA
BMS010_04637	744		COG0726	Peptidoglycan-N-acetylglucosamine deacetylase	ATGACCTGGCGCCGCGCACTGCTCCTGACGATCCCGCCGCTCGTGCTCGGTGCTCTGTTCTTTGGCGCCTGGTGGCTGGTCAATGCACGCCATTTCCAGCTCGCCGGTGAACTGGTGAGCCGGGTGGAAACCGAGCGCAAGTGGGTCGCGCTGACCTTCGACGACGGCCCGGAGCCCGGCTTCACCGAAGAGCTGCTCGGCATCCTCGCCCACGAGCGGGTGCCGGCGACTTTCTTCTTGGTGGGCGAGGCGGTGTCGCGCAATCCGACGCAGGCACGCGCCATCGTCGAGGCTGGACACGAGCTGGGCAACCACTCCTACAGCCACCGGCGGATGCTATTCATGAGCCGGGAGGCGGTAGCCGACGAACTGGAGCGTACCGAGCGGCTGTTGCGCGAAGCCGGTTACCGCGGGCCACTGCACTTCCGCCCACCCTACGGGAAAAAGCTCTGGACGCTGCCGCGCTATCTCGCCGAGCGCGGCATTCTCAGCGTGACCTGGGACATCGAGCCGGACATCGGCCGGGACGGCCCTCCAACGACCGAAAGCATCATCACCGACGTGACAGCCAAGGTCCGACCGGGCTCGATCGTCCTGCTCCACGTGATGTCGCCGCAGCGCACCGCATCGATGCGGGCCGTGCCCGGGATCATCGCGGCGCTCCGAGAGCGGGGATACCGCTTCGTGCGCCTGTCGGAGCTGCTCGACGCCGGCGCGGCCGAAGAGACGGCACAGCGCCGATAG	MTWRRALLLTIPPLVLGALFFGAWWLVNARHFQLAGELVSRVETERKWVALTFDDGPEPGFTEELLGILAHERVPATFFLVGEAVSRNPTQARAIVEAGHELGNHSYSHRRMLFMSREAVADELERTERLLREAGYRGPLHFRPPYGKKLWTLPRYLAERGILSVTWDIEPDIGRDGPPTTESIITDVTAKVRPGSIVLLHVMSPQRTASMRAVPGIIAALRERGYRFVRLSELLDAGAAEETAQRR	PGPT0018645_3625	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
BMS010_04638	249			hypothetical protein	ATGAACCCCGCAGCGAACCTGCCCGACGACGAACAATCCGCAGGCTTCGACGACGGCCCCTCGCGACCGGCGGCCGACCTCGGCGACAACATCGCCGAGCTGCCGACCGCAGTGTCCGCACAGACCAGCGACGACCCCGCGGAAGCCCCGATCCCCGACCCGGACATCCAGGACCCAAGCATCCCCAAGGCCCCACCGGTGGACGAATCGGAAGCCGACATGCCCGATGACGGCGACAAGACCGGATGA	MNPAANLPDDEQSAGFDDGPSRPAADLGDNIAELPTAVSAQTSDDPAEAPIPDPDIQDPSIPKAPPVDESEADMPDDGDKTG				NA	NA	NA	NA	NA
BMS010_04639	723			hypothetical protein	ATGTCCACTTTCCATCCCGCCTGTTGTTCGCCGTTCGACTCCCAGTGGCCGCTGCCCCAGGCGCTGCCGGGTGCGCGTCTGGTGGCCTGTCGTTTCCACCCCGATCTGCTGATGGCGGAGGATTTTTTCCGCTGCGGCATCGAGGTGCCAGCCAGCATCCAGCGCTCCGTGGCCAAGCGGCAGGCGGAATTCCTCGCCGGCCGGCTCTGCGCGCGTGAGGCGATGCGCGGTCTGGGCGGGCCGGCCGTGGTGCCGGCGCTGGGAGAGGATCGGGCGCCGCAATGGCCGACCGGCTTCAGCGGCTCGATCACCCATGGCAAGGGTTGGGCCGCCGCAGTGGTGGCCCAGCAATCCGACTGGCGCGGGCTCGGTCTGGATGTCGAACAACTGCTCACCGAAACCCGTGCCGAACGCCTCGCCGGAGAAATCCTCACACCAGCCGAGCTGCAACGGCTGCGCCCAGGGCAGACGGCCCTGCAGGTCACCCTCACCTTTTCGCTCAAGGAGAGCCTGTTCAAGGCGCTCTATCCGCTGGTGGGCAAGCGCTTTTACTTCGAGGATGCCGAACTGCTGGACTGGCAGCCCGACGGCACGGCGCGCCTGCGCCTGCTGTGCGACCTGTCGGACGACTGGTGCCGAGGCGTCGAGCTGGAGGTGCAATTCGCCACCTTCGATGAGTATCTGCTGAGCCTGGTGGCGGTATCGGCGCGTCCGGGTCTTTAA	MSTFHPACCSPFDSQWPLPQALPGARLVACRFHPDLLMAEDFFRCGIEVPASIQRSVAKRQAEFLAGRLCAREAMRGLGGPAVVPALGEDRAPQWPTGFSGSITHGKGWAAAVVAQQSDWRGLGLDVEQLLTETRAERLAGEILTPAELQRLRPGQTALQVTLTFSLKESLFKALYPLVGKRFYFEDAELLDWQPDGTARLRLLCDLSDDWCRGVELEVQFATFDEYLLSLVAVSARPGL	PGPT0003225_166	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ENTEROBACTIN|ENTEROCHELIN|ACINETOBACTIN|ANGUIBACTIN|CHRYSOBACTIN_METABOLISM,PGPT0003225-entD|basI|angD|cbsD|cbsE|aebD-K02362	NA	NA
BMS010_04640	738	rpaR_2	COG2771	HTH-type quorum sensing-dependent transcriptional regulator RpaR	ATGCATGATATTCTTCACTTCATCTCTGCGTGTTACCAGACGGGAAGCGCCGACCGCGTTCGTTCCGAATTTGCAACGCTCATTCGCGATTACGGTTTCGACTATTTTCTTGTCAGCAGGCGGATGACCGGGGAGCTCGCCTCCACCGGACACATTCTTGCGCAACATCTGCCCGAAGGCTGGCTGGAGGTCTACAGGGCCAAGAAATACAATCTCGTCGATCCCGTCCGCAAGGTGATCGGCATGGTGCACAAGCCGTTTCAGTGGAAGGAAGCGCTGGACGGCCTGCCACGTGCGATGCATCGCAAAAGGGCGAGCGTCTTTTTCCACGATGCCGGCCGGTACGGTCTGCAGGGTGGTTACGCCTTCCCCGTGCATGGCCGCGCGGGCTTCATCGGTGCGGTCTTCATTGGCGGTCAGGATCGGCAATTGCCCTCTTTGCAGGTGGAACTTCTGGATGCGGCCACGCGTGCCGTGTTCTGGCGCCTGCTCGATCTTTCCGGTCAGTCCCACGGCTTCAGCAATGCTCCTGACGTTTCCGCTCTCGAGCTTACGAGGCGCGAAATGGAGGTGCTGACGCTGATGGCGGACGGCATGACCTCCACCGAAATTGGACGCCAACTATCGATCTCCAACCACACGGTCGATTGGTATATCAACGGAATTCAGCGCCGTTTCAGCGCAAAGAACCGGCAGCATACAGTGGCACTTGCTTTTCGTCATGGTTTGCTGAGCTAG	MHDILHFISACYQTGSADRVRSEFATLIRDYGFDYFLVSRRMTGELASTGHILAQHLPEGWLEVYRAKKYNLVDPVRKVIGMVHKPFQWKEALDGLPRAMHRKRASVFFHDAGRYGLQGGYAFPVHGRAGFIGAVFIGGQDRQLPSLQVELLDAATRAVFWRLLDLSGQSHGFSNAPDVSALELTRREMEVLTLMADGMTSTEIGRQLSISNHTVDWYINGIQRRFSAKNRQHTVALAFRHGLLS	PGPT0014495_195	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0014495-sidA-K07782	NA	NA
BMS010_04641	1767	ndvA	COG1132	Beta-(1-->2)glucan export ATP-binding/permease protein NdvA	TTGACCTTGTTTCAGGTTTACACACGCGCTCTGCGCTATCTGACCGTACATAAATGGCGGGTGACGGTGGTCGTCATCGCCAACGTCATTCTTGCAGCGATCACCATCGCCGAACCGGTGCTGTTCGGCCGGATCATCGACGCCATCTCTTCCGGCACCAACGTCACGCCCATTCTCATTCTTTGGGCGGGTTTCGGTGTCTTCAACACTGTCGCTTATGTGGCTGTCGCCCGCGAGGCGGACCGGCTGGCCCATGGCCGGCGCGCTTCGCTGCTGACGGAAGCCTTCGGGCGCATCATCTCCATGCCGCTTTCCTGGCACCATCAGCGCGGCACATCCAATGCCCTCCACACGCTGCTGCGCGCCAGCGAAACGCTGTTCGGCCTCTGGCTCGAATTCATGCGCACGCATCTGGCCACCTTCGTCGCACTGGTGCTGCTCGTCCCGACCGCCATGTCCATGGACCTGCGCCTCAGCTTCGTGCTGATCGGCCTCGGTATCGTCTACTGGTTCATCGGCAAGTGGGTGATGGGCCGCACCAAGGACGGCCAGGCTTCGGTCGAAGAACACTATCACAGCGTTTTTGCCCATGTCAGCGATTCCATCAGCAACGTCTCGGTGCTGCACAGCTACAACCGCATCGAGGCCGAAACGAAGGCGCTGAAATCTTTCACCGAAAAGCTGCTGAGCGCGCAATATCCGGTGCTCGACTGGTGGGCCTTTGCAAGTGCTTTGAACCGCACGGCCTCCACCGTTTCGATGATGATCATCCTCGTCATCGGCACCGTGCTGGTGAAGAATGGCGAGTTGCGCGTTGGTGATGTCATCGCCTTCATCGGTTTCGCCAATCTCCTGATCGGCCGTCTGGACCAGATGCGCCAATTCGTGACGCAGATTTTCGAAGCCCGCGCCAAGCTTGAGGATTTCTTCGTGCTGGAAGATTCCGTCAAGGAACGGGAAGAGCCGGGCGATGCGCGCGAATTGTCGAATGTCTCCGGCACCGTGGAGTTCCGCAACATCAATTTCGGTTTCGCCAACACCAAGCAGGGCGTTCACGACGTTTCGTTCACGGCCAAGGCCGGCGAGACAGTCGCGATCGTCGGACCGACGGGTGCCGGCAAGACCACGCTCATCAACCTTCTGCAACGGGTCTACGATCCCGATTCCGGCCAGATTCTGATCGATGGGACCGATATTTCGACGGTGACGAAAAATTCGCTCCGCAACTCCATCGCCACGGTGTTTCAGGATGCCGGCCTGCTGAACCGCTCCATTCGCGAAAACATCCGCCTCGGCCGTGAATCGGCCACCGATGCGGAAGTAGTGGAAGCAGCGGCAGCAGCAGCGGCGACGGATTTCATCGACAGCCGCATCAACGGCTATCTGACCCAGGTGGGTGAACGCGGCAACCGCCTGTCCGGCGGCGAGCGCCAGCGCATCGCCATCGCGCGCGCCATCCTGAAGAACGCTCCCATTCTGGTCCTGGATGAAGCGACCAGTGCGCTGGATGTGGAAACGGAAGCTCGGGTGAAGGCCGCTGTCGACGCGCTGAGAAAGAACCGCACGACCTTCATCATCGCCCACCGCCTTTCCACGGTCCGCGATGCCGATCTCGTCCTCTTCCTCGATCAGGGCCGGATCATCGAAAAGGGTACTTTCGATGAGCTGAGCCAGCGTGGCGGACGCTTTACCTCGCTGCTGCGCACCAGCGGCCTGCTGACGGAAGACGAAAACCAGCAGCCCCGGCCGAAGGCCATTGCCTCCTGA	MTLFQVYTRALRYLTVHKWRVTVVVIANVILAAITIAEPVLFGRIIDAISSGTNVTPILILWAGFGVFNTVAYVAVAREADRLAHGRRASLLTEAFGRIISMPLSWHHQRGTSNALHTLLRASETLFGLWLEFMRTHLATFVALVLLVPTAMSMDLRLSFVLIGLGIVYWFIGKWVMGRTKDGQASVEEHYHSVFAHVSDSISNVSVLHSYNRIEAETKALKSFTEKLLSAQYPVLDWWAFASALNRTASTVSMMIILVIGTVLVKNGELRVGDVIAFIGFANLLIGRLDQMRQFVTQIFEARAKLEDFFVLEDSVKEREEPGDARELSNVSGTVEFRNINFGFANTKQGVHDVSFTAKAGETVAIVGPTGAGKTTLINLLQRVYDPDSGQILIDGTDISTVTKNSLRNSIATVFQDAGLLNRSIRENIRLGRESATDAEVVEAAAAAAATDFIDSRINGYLTQVGERGNRLSGGERQRIAIARAILKNAPILVLDEATSALDVETEARVKAAVDALRKNRTTFIIAHRLSTVRDADLVLFLDQGRIIEKGTFDELSQRGGRFTSLLRTSGLLTEDENQQPRPKAIAS				NA	NA	NA	NA	NA
BMS010_04642	8496	ndvB	COG3459	Cyclic beta-(1,2)-glucan synthase NdvB	ATGTCATTTCATATTACCCCGACCGCCGCCGCCCGTGATTCCGAGACGAAGCAGATCGATCACAACGATTCGATCCGCGCGTCCTATATGACGGTGGAGGAACTGCATGATGCGGGCGCCGCGCTTTCGCGCGATGGCGCCGACAGTCTTCCCGGCTTCATGGAATTCGATTTCTTCGAGCGTCATCGCGAGAACGAGAAGGAAATCCTCAGGGTCTATCGTACCACGGCCGTCGATGCGGAAAATGGCGCGACGATAACGCCGGCGGCGGAATGGCTGCTCGACAATCACTACGTCATCGAAGAGGCGATCCAGGAAGTCCGCCGCGATTTTCCGCGCAAGTTCTATCGCCAGCTGCCGACGATGACGGTGGGCGGCGTGACGATCCCGCGGGTCATGGCGCTCGGCTGGCTTTATGTCGCCCATACCCACAGCACGGTTTCGCGCGAAAACATGACGGCGCTGGTGGATGGCTATCAGACCTCGAAGACGCTGCAGATCGGCGAATTGTGGGCTTTGCCGTCGATCATCCGTTTCGTCCTCATCGAAAATCTCCGCCGCATCTCCATTCGTGTGGAGCGTTCGCGCCGCATGCGCCAGAAGGCGAATGAGGTCGTTGATGAAATCATCCGTCTGAACGATGCCGAGGCGTCGGCCGCGCTTCTCAAGCAGGTCGATTCGCTGGTTGACGATCCGACTTTCGCGACGCAGTTCCTCTATCGTCTTCGCAATGGCTCACAGACCTCCGGTTTGGCGGTTGCGTGGCTTGAAGAGCGTCTTCATGCTGCCGGCACCGATGCCGAAAACGTCATGATGTCGGAACATAATCGCCTGGCATCCGGCAATGTGACGATGGGCAACATCGTCAAGAGCCTGCGCGAAATCGACGATACCGAATGGTCGGTGTGGTTCGAGGAAGTCAGCCATATCGACAAGGTTCTGCGCGAAGAGACCGACTACGAGGTTCTCGATTTCGGTTCGCGCAACACCTACCGCAACACGATCGAACTTCTGGCGCGCCGTTCTCCCAAGACCGAAGTCGAGGTGGCGCGCGCCGCCGTCGAAATGGCGCGTTCGGAGACGCCGGCGGGTGCGGATGAAACCCATCGCGTCAATGTCGGCTCCGTGCTTGTCGGCCAGCGCCGCTTCGAGCTTGAAAAGGCTTTGGGTTACCGGCCGCTGGTATCGCAGCGCATCGTGCGCTCGATGCGCAAGTTCAACTGGCTGGCAATCGCCGCGCCGGTGCTTCTGATCACTGCGCTCGCCATGCTTGCTGTCGGCTGGTTCCTGGCGCAGGCGGGCATGCCCTGGTATGTCGTGACCGCGTTCCTGCTGATGTTCGCATTGCCGGCATCCGAAGGCGCGACCGGCCTCTTCAACACCCTCGTCACCTTCTTCGTGAAACCGTTCCGGCTGGTCGGATACGAGTTCAAGAACGGCATTCCGCAGGATGCCCGCACATTGGTCGCCGTGCCCTGCATGTTGACCAGCCGCGACAGCGTCGACGAGATGATGCGCAATATCGAGGTGCATTATCTCGCCAATCCGCATGGCGAGATTTACTTCTCGCTGGTGAGCGACTGGCGCGATGCGCAGTATGAACAGTCCGACGATGACCTCGAGATTCTCGACTATGCCAAGCGCGAGCTTGCGGCGCTGAACAGCCGTTATGCCTTTGACGGCAAGACGCGCTTTTACCTGCTGCACCGCCGCCGCCTCTACAATCCGGCCGAAGGATGCTGGATGGGCTGGGAGCGCAAGCGCGGCAAGCTGCATGAGCTGAACATGCTGCTGCGCGGCGACAAGGATACGACCTTCCTCGGCGGTGCGAATATCGTGCCGGAGGGCGTGAAATACGTCATGACGCTGGATGCCGATACGCGCCTGATGCGCGATGCGGTGACCAAGCTCGTCGGCAAGATGCACCACCCGATCAACCGTCCGGTGATCGATCCGGTATCCGGACGGGTTGTCGAAGGCTACGGCCTGTTGCAGCCGCGCGTAACGCCTTCGCTGACGACCGGCAAGGACGCGTCCGTCTTCCAGCGCGTCTTCTCGATCAACCGCGGTATTGACCCTTATGTCTTCACCGTTTCCGACGTCTATCAGGATCTGACCTCCGAAGGTACCTTCACGGGCAAGGGTCTCTACGATGTGGATGCCTTCGAGTCGGCGCTGAAGGGCCGTATCGAGGAAAACTCCATCCTCAGCCACGATCTGCTCGAAGGCTCCTTTGCGCGCTGCGCGCTGGTGACCGATGTGGAGCTGGTGGAGGACTTCCCGACCCGTTACGAGGTGGAAGTGTCGCGCCAGCATCGCTGGGCGCGTGGCGACTGGCAGCTTCTGCCCTTTATCCTCGATCGTGCCCGTGGCGTTACCGCCATCGGCCGCTGGAAGATGGTCGACAATCTGCGTCGCTCGCTGACGCCGATCGCCTGGTTCTTCGCCTCGATCCTCGGTTGGTATTTCATGGATCCGCTCGGTGCGTTGATCTGGCAGATCCTGCTGATCTTCTCGCTGTTCGTCGCGCCCACGCTGTCCCTGCTGTCCGGCCTCGTGCCGCGCTCCACCGATATTGTACCGCAGGCGCATTTCCATACCATCTGGTCGGAAATCCGCGCCACCAATGCGCAGGTTGCGCTGCGTATCGTCTTCATCGCCGATGCCGCCTGCATGATGACGGATGCGATTGCCCGTTCGCTTTACCGCCTGCTCGTCAGCCACAAGCTGATGCTGGAATGGCGTACCGCCGCCAGCATGCAGTCGAGCGCGCAGGGCAGCATCGTCGATTATTATCGCCAGATGTGGCATGCGCCCGTGGTGGCGATGCTTGGCCTGTTGTTTGCGGCGCTGCCGGGCGACAACGCTTTCCTGATCGGCATTCCATTCACGCTGCTCTGGGTTCTGTCCCCCGCCGTTGCCTGGTATGTCAGCCAGTCGGCTGAAACCGAAGACCGGCTGTTCGTTTCGGAACATGTCTCCTTCGAGCTTCGCAAGATCGCGCGCCGCACCTGGCGTTATTACGAGGCTTTCGTGACGCCGCAGGAAAACCACCTGCCGCCGGACAACTTCCAGGAAACGCCGGAACCGATCGTTGCTTCGCGTACATCGCCGACCAATATCGGCGTCTATCTGCTCTCCGTCATCTCGGCGCGTCAGTTCGGCTGGATCAGCTTTGCCGATACGCTGGAGCGGATCGAGAACACGATCCAGACTGTCGAGAAGATGGAAAAATATCGTGGCCATCTCTACAACTGGTATCACACCGACACGTTGCAGACGCTTGGACCGCGCTATGTTTCGGCGGTCGATAGCGGCAACCTCGCCGGTCACCTTATTGCGGTTTCGTCCGCCTGCCGTGATTGGGCAGAAGCGCCGTCCGCGCATCTTCAGGGTAATCTGGACGGTATCGGCGATCTTGCCGGCATTCTGCGCGAAACGCTGAAGGCGCTGCCCGACGACCGCAAGAACCTGCGCCCGCTGCATCGCCGCCTCGAGGAGCGCATCATCGGCTTCTCGAACGCTCTCGCCTCCGTCAAGCGTGAGCATGAATTCGCCTCGATCCGCGTCATCAATCTCGCGGTTCTTGCGCGCGATATCCAGAAACTCGCAACCAACGTCGATCACGAGGTGAAATCCGCGCAGAGCGCGGAAGTGACGCGCTGGGCGCAATTGCTCGTCGATTGCTGCGAGGCGCATATTTCCGACAGCGCCATCGACCTCACCAATATGGAGCCGCTGCGCCAGCGTCTCGCATCGCTGCGCGACCGCAGCCGTAACCTTGCTTTCTCGATGGACTTCACCTTCCTTTACCGCAAGGATCGCCGTCTTCTGTCGATTGGCTACCGCGTCGAAAGCAAGGAGCTTGACGAGGCCTGCTACGACCTTCTGGCTTCCGAATGCCGCTTGACCAGCCTCTTCGCCATCGCCAAGGGCGATCTGCCGACCGAGCACTGGTACCGCCTCGGCCGCCAGGTGGTGCCGATTGGCGCGCAGGGCGCGCTGGTTTCCTGGTCCGGCTCGATGTTCGAGTATCTGATGCCGCCGCTTGTCATGCAGGAGCGTCAGGGTGGCATCCTCAACCAGACCAACAATCTGATCGTCAAGGAACAGATGAACCACGGCCGTCGTCTCGGCACGCCATGGGGCATTTCCGAAGCGGCATTTAATGCCCGCGATCACAACATGAACTACCAGTACACCAACTTCGGTGTGCCGACGCTTGGCCTCAAGCGTGGCCTTGGCCAGAATGCGGTGATCGCGCCTTATGCATCGATCCTCGCCAGCCAGTATGATCCCGATGGTGCGCTTGAGAACCTCGACAAGCTGCGCAAGCTTGGCGCGCTTGGCCAGTACGGCTTCCATGACGCGGTGGATTTCACGCCGACACGTGTGCCGGATGGCAAGGTCTGCGCGGTGGTCTACAACTATTATGCTCACCACCACGGCATGTCGATTGCGGCCGTCGCCAACGTCGCCTTTGACGGCGTGCTGCGCGAACTCTTCCACTCCGATCCGGTGATCGAGGCGGCAGAACTGCTGCTGCAGGAAAAGGCGCCGCGCGAAGTGCCGGTCATGAGCGCCAAATACGAGCCGGAAACCCCCGGCAAGGAACAGGCGGACCTGTTGCGTGCGGAAGTTCGTTCCATCACCGACCCGGCCGCGCGCGACCGCGAAGTGGTGTTCCTCTCGAACGGCCATTATTCGACCATGCTCACTTCCACGGGCGCGGGTTATTCGAAGTGGAACGGGCAGGCGATTTCCCGCTGGAAGGCCGATCCGACCGACGACCGCTGGGGCACCTTCATCTTCCTGCGCGACACCACCAATGGACAATGGTGGAGTGCGACAGCGGAGCCGCGTGTCTTCGAGGGTGAAAAAACCAAGACGGTCTTCACCGATGACAAGGCCGAATTCCACAAAACGACAGGCGATCTGCAGAGCGTGGTGGAATGCATCGTCGCCACCGAGCACGATGCCGAAGGCCGCCGCGTCACCCTGCTCAATGTCGGTTCCGAGGATCGCTATATCGAAGTGACCTCCTATTTGGAGCCGGTCATTGCGTCGGAGGATGACGACAATGCCCATCCGCTGTTCTCGCGCATGTTCGTGCAGACGGAGATCGGCCGCCGCGGCGACGTTATCCGCGCCTGGCGCAACCGCCGCAGCCCGAACGAACCCGGCACCGTCATCGCGCATCTGGCCGCTGACAATGCCGGCCCGTCTCGCCCGACGGAATTCGAGACGGATCGCGCCAAGTTCATCGGCCGCGGACGCTCGCTGCGCGAAGCGGCGGCTTTCGATGCCGGTGCGACGCTTTCCAGCACCGACGGCTTCACGCTTGATCCGATCCTGTCGCTGCGCCGCACCGTGCGCGTGCCGGCGGGCAAGAAGGTGAGCGTGATCTTCTGGACGATTGCCGCGCCGAGCCGCGAGGAAGTCGACAAGGCAATCGACCGTTACCGTCATCCGGACGCCTTCGCGCATGAACTCGTGCACGCCTGGACGCGCACGCAGGTACAGATGCGCCATGTGGGTGTGACCTCACAGCAGGCGGCCGCTTTCCAGCATCTCGGCCGTTATCTAACCTATCCCGACATGCATCTGCGGGCGGATTCGGAAACGCTGAAAACGGGTCTCGCGTCGCAGCGCGCCTTGTGGCCGCTTGCGATTTCGGGCGATTTCCCGATCTTCAGCCTGCGGATCAACGACGATATGGACATGGATATCGCCCGTGAAGCGCTGAGCGCCCATGAATATCTGCGTTCACGCGGTGTGATCTTCGATCTCGTCATCGTCAACGAACGGGCTGCGTCCTATGCGCAGGATATGCAGCATGCGCTGGATCATATTTCCGAGGCGCAGCGCCGCATCAATCCTGCCGATGGCGGACGTCCGCACGTCTTCTCGGTGCGCCGCGACCTGATGGATGAAGAGACCTGGAGCGCGCTTCTCGCCGCTTCCCGCGTCGTCCTCCACGTGCGCAACGGCAAGATCGTCGACCAGATCAACCGTGCGGTATCGCTGTTTGCGGCCCATCGCGGCCCCGACGGCACGAGCGATGCGGCACAGGCCCGTCTGCCTGTTCCGGTCTTCCCTGTGGCGGAGCCGGTGGAAGATGCGGGCGATCTCGATTTCTGGAACGGTTTCGGCGGTTTTACCAGAAGCGGTCAGGAATATGTCGTGCGCCTCAATGGCGGGCAGTCCACGCCGCATCCATGGATCAACGTCATCTCGAACGAGAATTTCGGCTTCCATATTTCGGCCGAAGGCGCCGGTTTCAGCTGGAGCCGCAATTCGCGCGACTATCAGCTGACACCCTGGAGCAACGATCCGGTCATCAACCGGCCGGGTGAGGCCTTCTATGTCGCCGATGTGGAGACAGGAAAGCTCTATACGCCCTGTGCCGCGCTGTCGCGCGATCCCGAAGCCATGTTCGAAACCCGCCACGGTCTCGGTTACTCCGTGTTGACGGGCGTGGCCGATACGCTGGAGGTGGAGCTGACGCAGACCGTGGACCGTGAAAAGCCGGTCAAACTCTCGCAGGTCATCGTTCGCAACAAGGGTTCGAAAAGCCGCCGCCTGAAGGTCTATGCCTATGTGGAATGGGTGCTCGGCAATAACGGCCAAAAATCCGCGCCGTTCATTCTGAGCAGGCACGATGCCGGCAACAATACGATCTTCGCGTCGAACCCCTACAGCATCGACTATAGCGCCCGCACGGCGTTCCTGACGCTCGACAGCGAGGCGAGCGGGTTCACCACCAGCCGCCGGGAATTCATCGGCCGCTTTGGGTCGGCGCAGGCGCCGCAGGGCATCGTGTCCGGGGCTGCACTCAGCGGCAGCACGGAGGTCGATGGCGATCCCTGTGCCGCGCTGATGCAGGAAATCCACCTGAAGCCCGGCGAAGAACGGCACATGACCTTCATTCTCGGAGATGCCGACAATGCGGAAGAGGCCGAGGCGCTGGTGAAGGATGTTCGTAAGGCGGACTTCCAGACGGTGCTGGATGAGAGCAAGGCGTTCTGGACGGGCTTTACCGGCCAGTTGCAGGTTTCCACGCCCGATTCCGGCTTCAACCACATGGTCAACAACTGGCTGCCCTATCAGGCGCTGGCATGCCGCATTCTGGCGCGTACTGCCTTCTACCAGTCGAGCGGTGCTTTCGGCTTCCGCGACCAGTTGCAGGATACGCTGGCCTTCCTGCTCTACCAGCCGGATCTCGCCCGCAAGCAGATCCTGCGTGCGGCAGGCCGCCAGTTCCCGGAAGGCGATGTGCAGCACTGGTGGCTGCCGCTGACGGGCGCCGGTGTTCGTACCACCATTTCGGACGATGTGGTCTGGCTCGCTTATGCGATCAACCAATATGTCTCGGCCACGGGTGATGCCGCCATCCTCGATGAAAGCATCCCCTTCCTGAAGGGGGCGGCATTGATGCCCGGCCAGCATGACGCTTTCTTCCAGCCGGAAACTAGCGACAGATCCGCCACGCTTTACGAGCATGCGGCGCTGGCGCTCGATCTTGCCATTCATCGCACCGGCGAAAATGGCCTGCCGCTGATCCTCGGCGGAGACTGGAACGACGGCATGAACCGTGTCGGCGTGGGCGGCAAGGGCACCAGCGTCTGGCTCGGCTGGTTCCTGTCCGGAGCGTTGCGCGATTTCATCGAGATTGCGGAAAAGCGTGGCGATACCGACCGCGTCGGCAAATGGGCGGCGCACCGGGAAAAGCTGCGCAATGCGCTGGAAACAGCGGGTTGGGATGGCAGCTATTACCGGCGTGGTTATTTCGATGACGGCACGCCGCTCGGTTCCGCCGAAAGCGAGGAATGCCGGATCGATTCGCTCGGCCAGAGCTGGAGCGTTCTCTCCGGCGAAGGCGAAGGGGCTCGGTCGCGGCAGGCAATGGATGCCGTCATGGAGCATCTGGTCGATGAGCAGACTGGCATTATCCGGCTGTTCACGCCGCCCTTCTCGCGTGCGCCGCATGATCCGGGTTACATCAAGGGATATCCGCCGGGTGTGCGCGAAAACGGCGGACAATATACCCATGCGGCGACCTGGGTGGTTCTTGCCCTTGCGAAGCAGGGTCGGGCGCAGGAGGCATGGAACTGCTTCAAGTTGCTTAACCCCGTCAATCACGCGCTCGATGCGGCAGCATCGGAAACCTATCGGGTCGAACCCTATGTGGTGACTGCGGATGTCTACGGTGAAGGCGCTTATGCGGGCCGTGGCGGCTGGAGCTGGTACACGGGTTCCGCCGGGTGGCTCTATCGCGCCGCTGTCGAGGGTATTCTCGGCATCACCCGCACCGACGGCAAGCTGCATATTTCGCCGTCGCTGCCGGAGGACTGGAGCGGTTTCTCGGTGAAGATCACGCTCGACGGCAAGGCCAGGGATATCGTCGTAAGCCGCAAGGCCGATACGGCGGAAGTCTCCGTTTCCGTCGATGGCAAGGCCCTGTCGGCAGGTGATCGGGTGATCCCCTTCGACTGA	MSFHITPTAAARDSETKQIDHNDSIRASYMTVEELHDAGAALSRDGADSLPGFMEFDFFERHRENEKEILRVYRTTAVDAENGATITPAAEWLLDNHYVIEEAIQEVRRDFPRKFYRQLPTMTVGGVTIPRVMALGWLYVAHTHSTVSRENMTALVDGYQTSKTLQIGELWALPSIIRFVLIENLRRISIRVERSRRMRQKANEVVDEIIRLNDAEASAALLKQVDSLVDDPTFATQFLYRLRNGSQTSGLAVAWLEERLHAAGTDAENVMMSEHNRLASGNVTMGNIVKSLREIDDTEWSVWFEEVSHIDKVLREETDYEVLDFGSRNTYRNTIELLARRSPKTEVEVARAAVEMARSETPAGADETHRVNVGSVLVGQRRFELEKALGYRPLVSQRIVRSMRKFNWLAIAAPVLLITALAMLAVGWFLAQAGMPWYVVTAFLLMFALPASEGATGLFNTLVTFFVKPFRLVGYEFKNGIPQDARTLVAVPCMLTSRDSVDEMMRNIEVHYLANPHGEIYFSLVSDWRDAQYEQSDDDLEILDYAKRELAALNSRYAFDGKTRFYLLHRRRLYNPAEGCWMGWERKRGKLHELNMLLRGDKDTTFLGGANIVPEGVKYVMTLDADTRLMRDAVTKLVGKMHHPINRPVIDPVSGRVVEGYGLLQPRVTPSLTTGKDASVFQRVFSINRGIDPYVFTVSDVYQDLTSEGTFTGKGLYDVDAFESALKGRIEENSILSHDLLEGSFARCALVTDVELVEDFPTRYEVEVSRQHRWARGDWQLLPFILDRARGVTAIGRWKMVDNLRRSLTPIAWFFASILGWYFMDPLGALIWQILLIFSLFVAPTLSLLSGLVPRSTDIVPQAHFHTIWSEIRATNAQVALRIVFIADAACMMTDAIARSLYRLLVSHKLMLEWRTAASMQSSAQGSIVDYYRQMWHAPVVAMLGLLFAALPGDNAFLIGIPFTLLWVLSPAVAWYVSQSAETEDRLFVSEHVSFELRKIARRTWRYYEAFVTPQENHLPPDNFQETPEPIVASRTSPTNIGVYLLSVISARQFGWISFADTLERIENTIQTVEKMEKYRGHLYNWYHTDTLQTLGPRYVSAVDSGNLAGHLIAVSSACRDWAEAPSAHLQGNLDGIGDLAGILRETLKALPDDRKNLRPLHRRLEERIIGFSNALASVKREHEFASIRVINLAVLARDIQKLATNVDHEVKSAQSAEVTRWAQLLVDCCEAHISDSAIDLTNMEPLRQRLASLRDRSRNLAFSMDFTFLYRKDRRLLSIGYRVESKELDEACYDLLASECRLTSLFAIAKGDLPTEHWYRLGRQVVPIGAQGALVSWSGSMFEYLMPPLVMQERQGGILNQTNNLIVKEQMNHGRRLGTPWGISEAAFNARDHNMNYQYTNFGVPTLGLKRGLGQNAVIAPYASILASQYDPDGALENLDKLRKLGALGQYGFHDAVDFTPTRVPDGKVCAVVYNYYAHHHGMSIAAVANVAFDGVLRELFHSDPVIEAAELLLQEKAPREVPVMSAKYEPETPGKEQADLLRAEVRSITDPAARDREVVFLSNGHYSTMLTSTGAGYSKWNGQAISRWKADPTDDRWGTFIFLRDTTNGQWWSATAEPRVFEGEKTKTVFTDDKAEFHKTTGDLQSVVECIVATEHDAEGRRVTLLNVGSEDRYIEVTSYLEPVIASEDDDNAHPLFSRMFVQTEIGRRGDVIRAWRNRRSPNEPGTVIAHLAADNAGPSRPTEFETDRAKFIGRGRSLREAAAFDAGATLSSTDGFTLDPILSLRRTVRVPAGKKVSVIFWTIAAPSREEVDKAIDRYRHPDAFAHELVHAWTRTQVQMRHVGVTSQQAAAFQHLGRYLTYPDMHLRADSETLKTGLASQRALWPLAISGDFPIFSLRINDDMDMDIAREALSAHEYLRSRGVIFDLVIVNERAASYAQDMQHALDHISEAQRRINPADGGRPHVFSVRRDLMDEETWSALLAASRVVLHVRNGKIVDQINRAVSLFAAHRGPDGTSDAAQARLPVPVFPVAEPVEDAGDLDFWNGFGGFTRSGQEYVVRLNGGQSTPHPWINVISNENFGFHISAEGAGFSWSRNSRDYQLTPWSNDPVINRPGEAFYVADVETGKLYTPCAALSRDPEAMFETRHGLGYSVLTGVADTLEVELTQTVDREKPVKLSQVIVRNKGSKSRRLKVYAYVEWVLGNNGQKSAPFILSRHDAGNNTIFASNPYSIDYSARTAFLTLDSEASGFTTSRREFIGRFGSAQAPQGIVSGAALSGSTEVDGDPCAALMQEIHLKPGEERHMTFILGDADNAEEAEALVKDVRKADFQTVLDESKAFWTGFTGQLQVSTPDSGFNHMVNNWLPYQALACRILARTAFYQSSGAFGFRDQLQDTLAFLLYQPDLARKQILRAAGRQFPEGDVQHWWLPLTGAGVRTTISDDVVWLAYAINQYVSATGDAAILDESIPFLKGAALMPGQHDAFFQPETSDRSATLYEHAALALDLAIHRTGENGLPLILGGDWNDGMNRVGVGGKGTSVWLGWFLSGALRDFIEIAEKRGDTDRVGKWAAHREKLRNALETAGWDGSYYRRGYFDDGTPLGSAESEECRIDSLGQSWSVLSGEGEGARSRQAMDAVMEHLVDEQTGIIRLFTPPFSRAPHDPGYIKGYPPGVRENGGQYTHAATWVVLALAKQGRAQEAWNCFKLLNPVNHALDAAASETYRVEPYVVTADVYGEGAYAGRGGWSWYTGSAGWLYRAAVEGILGITRTDGKLHISPSLPEDWSGFSVKITLDGKARDIVVSRKADTAEVSVSVDGKALSAGDRVIPFD	PGPT0018750_485	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_FACILITATING_PROTEIN	ROOT_COLONIZATION-BETA-1|2_GLUCAN_SYNTHESIS,PGPT0018750-chvB|cgs|ndvB|cbpA-K13688	NA	NA
BMS010_04643	1179	hipO_3	COG1473	Hippurate hydrolase	ATGACCAGACAGACCGCAAATCTCGCATCCTTTGCCAACCATATGCCGGATGTGGTGGCCATTCGCCGCCACCTGCACCGCAACCCCGAAATCGGCCTTTCGGAGTTCAAAACGTCGGATTTTATTGCCGAACAGTTGGCGGCAATGGGTTATGAGGTTACGCGGGGACTGGCCGGAACCGGTGTCGTCGCCACACTCCGCAATGGCGACAGCACCCGCACGCTCGGCATCCGCGCCGATATCGACGCCCTGCCGATCCATGAAGAAACCGGTGCGGATTATGCGAGCGCCAATCAGGGCGTGATGCATGCTTGCGGCCATGACGGCCACACCGCCATGCTGCTTGGCGCGGCGAAGATCATTGCGGAGCGCAAAAATTTCGACGGAACCCTGCATCTGATCTTCCAGCCGGCGGAAGAGAATTTCGGCGGCGCCCGCATCATGATCGAGGACGGGCTGTTCGAACGTTTTCCCTGCGATGCGGTTTTTGCCCTTCACAACGATCCCGGCGTGCCCTTCGGGCAATTCGTGCTGCGCGACGGGCCGATCCTCGCCGCCGTCGACGAGTGCAAGATTACCGTCAACGGTTACGGCGGCCACGGCGCCGAACCGCAGGATGCGGCCGATCCCATCGTGGCCGGCGCAAGCATCGTCATGGCGCTGCAAACCGTGGTGTCCCGCAACATCCATCCGCAACTATCGGCAGTCGTCACCGTTGGCGCGTTCCATGCCGGTGCTGCCAGCAATGTCATTCCCGAAACGGCGGAAATGCTGCTGACCATCCGCTCCTTCGATCCGGGCGTGCGCGACGAGCTGGAAAAGCGCATCCGGGCGATAGCCGAAGGCCAGGCGGCCAGCTACGGCATGAGCGTCACCATCGATTACGAGCGCGGTTACAATGCAACCGTCAACCACAAGGCGGAAACGGACTATGTCGCCGATCTCGCCCGGCGTTTTGCCGGGCCTGAAAAGGTAGCCGAGATGCAGCGCCCATCGATGGGTGCGGAAGACTTCGCCTATATGCTGGAGAAACGGCCAGGCTGTTATTTCTTCCTCGGCACCGCGCGCACCGATAACGACCCGCCGCTGCACCATCCGAAATTCGATTTCAACGACGATATCCTGCCGATCGGAACCGCTTTCTGGGTTGACTTGGCGGAAGATTACCTGAAGGCGTGA	MTRQTANLASFANHMPDVVAIRRHLHRNPEIGLSEFKTSDFIAEQLAAMGYEVTRGLAGTGVVATLRNGDSTRTLGIRADIDALPIHEETGADYASANQGVMHACGHDGHTAMLLGAAKIIAERKNFDGTLHLIFQPAEENFGGARIMIEDGLFERFPCDAVFALHNDPGVPFGQFVLRDGPILAAVDECKITVNGYGGHGAEPQDAADPIVAGASIVMALQTVVSRNIHPQLSAVVTVGAFHAGAASNVIPETAEMLLTIRSFDPGVRDELEKRIRAIAEGQAASYGMSVTIDYERGYNATVNHKAETDYVADLARRFAGPEKVAEMQRPSMGAEDFAYMLEKRPGCYFFLGTARTDNDPPLHHPKFDFNDDILPIGTAFWVDLAEDYLKA				NA	NA	NA	NA	NA
BMS010_04644	144			hypothetical protein	ATGTCTTATTCCAAGGCAGGAAAAGTAAAAGACTTTGTCTCGCAGCCCCAGTCGCCGCGCAACTGGAAAGATTCGGTTCATGCGGCTCTTGTCGGCGTCTGCGTGGCTTTTGTCGCTGCCGTCATTTTCGGTCTCGTTCCCTGA	MSYSKAGKVKDFVSQPQSPRNWKDSVHAALVGVCVAFVAAVIFGLVP				NA	NA	NA	NA	NA
BMS010_04645	1104	lhgD_1	COG0579	L-2-hydroxyglutarate dehydrogenase	ATGACGGATATCGACGCCATCATCATCGGAGCCGGGGTGATAGGGCTCGCGACAGCGCGTGAACTGGCGATGCGCGGCCTCACCGTCATCATCCTCGAAAGCGGGAAGGAATTCGGCTCTGCCACCTCCTCCCGTAACAGCGAAGTCATCCACGCCGGGCTCTATTATCCGGCCGGAAGCCTCAAGGCGCGACTTTGCGTGGAGGGCAAGGAGCGGCTCTATGCCTTCTGTCAAAGCCACGGCGTTTCACATCGTCGTTGCGGCAAGCTCATCGTCGCTACGAGCGATGAAGAGACGGCCATGCTCACCACCCTGCGCGAAAAAGGCAAAGCTAACGGCTGCAACGACCTTGAGCTGATCGATGCGCAACAGGCGCTATTGCTCGAACCCGCGCTCGCCTGCGTCGCAGCCCTGATATCGCCCTCGACCGGTATCATCGACAGCCACGGCTATATGCTGGCGCTGCTTGGAGACGCGCAGGATCATGGCGCTGCCCTTGCCCTGAACGCACCCTTCGAAAAGGCAGAGGCGATGGGCAATGGTTTCCGAGTTCATGTCGGCGGAACGGAACCCACCAGCCTGACATGCCGGCTGCTCGTCAATTCCGCCGGGCTTGTTGCACCCATGGTGGCAAGAAAGATCGAAGGATTGCCGGAGGACGGAATCCCGCAGGCGCGTTTCGCCAAGGGCAGCTATTTTTCGCTGGCCGGCAAGTCCCCGTTTTCACGGCTGATCTACCCCGCACCGCACACTCATGGCCTCGGCGTGCATCTCACGCTCGATCTCGCCGGCCAGGCACGTTTCGGGCCGGATGTGGAGTGGGTGGATACCATCGACTATGCGGTCGATCCCCGCCGTATGGAGGGTTTTGGCGATGCGATACGGCGCTATTGGCCGGGCCTTCCCGATGACGCGCTGATCCCGGCCTATTCCGGTATCCGGCCGAAGATTTCCGGCCCGGACGCACCGGCCATGGACTTCCGCATCGACGGACCGGAAACCCACGGCCTTGCCGGCCTCGTCAACCTTTTCGGCATAGAAAGCCCCGGCCTCACCGCCTCGCTGGCGATTGCCGGCGAGGTCGCGGCACGGCTCGAGGCCTGA	MTDIDAIIIGAGVIGLATARELAMRGLTVIILESGKEFGSATSSRNSEVIHAGLYYPAGSLKARLCVEGKERLYAFCQSHGVSHRRCGKLIVATSDEETAMLTTLREKGKANGCNDLELIDAQQALLLEPALACVAALISPSTGIIDSHGYMLALLGDAQDHGAALALNAPFEKAEAMGNGFRVHVGGTEPTSLTCRLLVNSAGLVAPMVARKIEGLPEDGIPQARFAKGSYFSLAGKSPFSRLIYPAPHTHGLGVHLTLDLAGQARFGPDVEWVDTIDYAVDPRRMEGFGDAIRRYWPGLPDDALIPAYSGIRPKISGPDAPAMDFRIDGPETHGLAGLVNLFGIESPGLTASLAIAGEVAARLEA				NA	NA	NA	NA	NA
BMS010_04646	975	thadh		L-threo-3-hydroxyaspartate ammonia-lyase	ATGACAGATATTTCGATGATAGAAGCCGCGCGTGGGCGCATCGGCAACCATGCGGTTCGCACGCCGCTTCTCTCATCGCCTTTTCTGGACGAAATTGCCGGGCGAAAGCTCTTCGTAAAAGCTGAATGCCTCCAGAGAACGGGTTCCTTCAAGTTTCGCGGCGGCTGGTCGGCCGTCTCCGGCCTTCCGGCGGAGGTGCGCGCCAAGGGCGTGATCGCCTTTTCCTCCGGCAACCATGCGCAGGGCGTGGCGCTTGCCGCCCGGCTGCACAATGTCCCTGCCGTCATCATCATGCCGTCGGATGCGCCGAAGATCAAAATCGACAATACCCGGGCCTATGGCGCGGAGGTAGTGCTCTATGACCGTGCGAACGAAGATCGCGACGCCATCGGTGATCGCATTTCGCGTGAGCGTGGGCTGACGCTGATCAGGCCCTATGACGAACCGCTGGTCATTGCCGGGCAGGGGACAGTGGGGCTGGAGATTGCCGAACAGGGCGCGGAGTTGGGCATCGGTGCGGCCGAGGTTCTGGTGCCCTGCGGTGGCGGCGGCCTCACCTCCGGCATCTCCCTGGCACTCGCAGCAAAAGCGCCGGACTACAAGGTCAGGACGTCGGAACCGGAGCGGTTCGACGATGTGGCGCGCTCCCTTGCTGCGGGTAAGATCGAGCGTAACGCCACGACCTCGGGCTCGATCTGCGACGCGATCGTCACGCCGCAGCCCGGCAACATTACTTTCCCCATCATGGCCGGGCTCTGCGGAAAAGGCATTGCCGTGACCGAGGAGGAAGCGCTGCGTGCTATGGTTCTCGCCTTTAACCGGCTGAAGATCGTTGTCGAACCCGGTGGCGCGGTGGCGCTGGCGGCGGCCCTCTTCCACGGCGATGAACTGGAAAGCGAAACGGTGATCGCGGTCGCTTCCGGCGGCAATGTCGATCCGGAGATCATGGCCGGCGCGCTGTCTCGTTTCGGTTGA	MTDISMIEAARGRIGNHAVRTPLLSSPFLDEIAGRKLFVKAECLQRTGSFKFRGGWSAVSGLPAEVRAKGVIAFSSGNHAQGVALAARLHNVPAVIIMPSDAPKIKIDNTRAYGAEVVLYDRANEDRDAIGDRISRERGLTLIRPYDEPLVIAGQGTVGLEIAEQGAELGIGAAEVLVPCGGGGLTSGISLALAAKAPDYKVRTSEPERFDDVARSLAAGKIERNATTSGSICDAIVTPQPGNITFPIMAGLCGKGIAVTEEEALRAMVLAFNRLKIVVEPGGAVALAAALFHGDELESETVIAVASGGNVDPEIMAGALSRFG	PGPT0001960_6091	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_THREONINE_DEGRADATION,PGPT0001960-ilvA|tdcB-K01754	NA	NA
BMS010_04647	1785	araC_3		L-arabonate dehydratase	ATGACCGACGAGAAGACACCGATGCGCCGCCTGCGGTCGCAGGACTGGTTCGACAATCCCGACCATCTCGACATGACGGCGCTCTATCTGGAGCGCTTCATGAATTACGGCGTGACGCCGGAAGAACTGCGTTCCGGCAAGCCGGTCATCGGCATCGCCCAAAGCGGCAGCGACCTGACGCCCTGTAACCGTGTCCATGTGGAACTCGTCAAGCGGGTGCGGGACGGTATCCGCGATGCGGGCGGCATTCCCATCGAGTTTCCGACCCATCCGATGTTCGAAAACTGCAAGCGCCCGACGGCGGCGCTTGACCGCAATCTCGCTTATCTCAGCCTTGTGGAAGTGCTTTACGGTTATCCGCTCGACGGCGTCGTTTTGACCACGGGCTGCGACAAGACCACGCCTTCAGCGCTGATGGCGGCAAGCACGGTCGATATTCCGGCCATCGTGCTTTCCGGCGGGCCGATGCTCGACGGCTACCATGATGGGGATCTGGTCGGTTCCGGCACGGTGATCTGGCGCATGCGCCGTAAATACGGCGCTGGCGAAATCACCCGCGAGGAGTTTTTGCAGGCGGCGCTCGAATCCGCTCCTTCCGTCGGCCATTGCAACACCATGGGTACGGCGTCGACCATGAATGCCATGGCGGAGGCGCTCGGCATGTCGCTCACCGGCTGCGGTGCCATTCCCGCCGCTTACCGTGAACGCGGCCAGATGGCCTATCGCACCGGCCGCCGTGCCGTCGAGCTGGTTGTCGAGAACATCAAGCCCTCCGACATCATGACCCGAGAGGCATTTTTGAACGCGATCCGCGTCAACTCGGCAATCGGCGGTTCCACCAACGCCCAGCCGCATCTGGCGGCCATGGCAAAACATGCGGGTGTGGAGCTTCGCGAGGAGGACTGGCAGGTCCACGGTTACGACATTCCGCTCATCGCCAATGTCCAGCCGGCCGGCAAATGGCTGGGTGAGAAATATCACCGCGCCGGCGGCACGCCCGCCATCATGTGGGAGCTTCTGAAGGCTGGCAAGCTCGACGGCAGCTGTCCGACCGTGACAGGTAAGACCATGGCGGAAAATCTGGAAGGCCGGGAATCCACCGACCGTGACGTGATCCTGCCTTATGACAAGCCGCTGAAGGAGCGGGCCGGTTTCCTTGTCCTCAAAGGCAACCTGTTCGATTTCGCCATCATGAAGACGAGCGTGATCTCGGCGGAATTCCGCCAGCGTTATCTGAGCGAACCGGGCCGCGAGGGCATTTTCGAGGGCAAATGTGTGGTGTTCGATGGTTCGGAAGACTATCACGCCCGCATCAACGATCCCTCCCTCGATATCGATGAGCGCACCATTCTCGTCATTCGCGGTGCGGGGCCACTCGGTTGGCCGGGTTCGGCAGAGGTCGTCAACATGCAGCCGCCGGATGTGCTGTTGAAAAAGGGTATCACCAGCCTCCCGACGATCGGCGACGGCCGGCAGTCGGGAACGGCCGACAGCCCGTCCATTCTCAACGCCTCACCGGAAAGTGCTGCCGGTGGCGGGCTGGCATGGCTTCGCACGGGCGATGTGATCCGCATCGATTTCAATGAGGGCGAGTGCAATGCGCTGGTGCCGGAGGAGGAGCTGGAAGCGCGCAAGGCTGACGGCATTCCTGCTGTTCCTGCGGATGCGACGCCCTGGCAGCGAATCTACCGCCAGTCGGTGACCCAGCTTTCGGATGGCGCGGTTCTGGAAGGGGCTGCGGATTTCCGCCGGATTGCCGAGAAGATGCCCCGGCACAATCATTGA	MTDEKTPMRRLRSQDWFDNPDHLDMTALYLERFMNYGVTPEELRSGKPVIGIAQSGSDLTPCNRVHVELVKRVRDGIRDAGGIPIEFPTHPMFENCKRPTAALDRNLAYLSLVEVLYGYPLDGVVLTTGCDKTTPSALMAASTVDIPAIVLSGGPMLDGYHDGDLVGSGTVIWRMRRKYGAGEITREEFLQAALESAPSVGHCNTMGTASTMNAMAEALGMSLTGCGAIPAAYRERGQMAYRTGRRAVELVVENIKPSDIMTREAFLNAIRVNSAIGGSTNAQPHLAAMAKHAGVELREEDWQVHGYDIPLIANVQPAGKWLGEKYHRAGGTPAIMWELLKAGKLDGSCPTVTGKTMAENLEGRESTDRDVILPYDKPLKERAGFLVLKGNLFDFAIMKTSVISAEFRQRYLSEPGREGIFEGKCVVFDGSEDYHARINDPSLDIDERTILVIRGAGPLGWPGSAEVVNMQPPDVLLKKGITSLPTIGDGRQSGTADSPSILNASPESAAGGGLAWLRTGDVIRIDFNEGECNALVPEEELEARKADGIPAVPADATPWQRIYRQSVTQLSDGAVLEGAADFRRIAEKMPRHNH	PGPT0017560_348	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017560-xylD-K22186	NA	NA
BMS010_04648	903	glxR_2	COG2084	2-hydroxy-3-oxopropionate reductase	ATGAGTGTTGGCGGGGAGGAGAAGAAGCGGTCTGTCGCCTTTATCGGCACGGGCCTGATGGGCGGACCGATGGCCCGGCGTCTGCTGGGGGCTGGCTTTTCGGTGACCGTCTGGAACCGCAGCGTCGATAAGGCCGAGGCACTTGTTGCCGATGGCGCGGTCGTCGCGGCATCGCCGGCGGAGGCCGCCAAAGGCGCCGATATCGTCATCACCATGCTGAGCGACGGCAAGGCTGTGGGCGAGGTGCTGTTTGCGGCCGGAGTGGCCGAAGCACTGAAAAAGGGTGCGGTCGTGATCGATAGCAGCTCGATTGCCCCGCCGATTGCGCGGGAACATTCCTCCCGGCTTCAAGCGCTCGGCATTTATCATGTGGACGCGCCGGTTTCCGGCGGTGTGCCGGGCGCGACGGCCGGTACGCTTGCGATCATGGCGGGTGGCGATGAGGCGCTGATCGCGGGTCTTGCCGATGTTTTCGCACCGATGGGCAGGCTCACCTATGTTGGTCCCTCGGGTGCGGGCCAACTCTGCAAGCTTGCCAATCAGCAGATCGTCGCCATCACCATCGGCGCGGTTGCCGAGGCGATGATGCTGGTGGAGGCGGGTGGTGCATCGCGTGAAGGGTTCCGCAACGCCATACGCGGCGGTTTTGCCGAAAGCCGGATCCTGGAACTGCATGGCGACCGCATGGTGAAGCGCAATTTCGTACCTGGCGGTCCCTCCAAGTTCCAGCTCAAGGATCTGAACGGCGTGCTGGCGACGGCGAAGGATCTGTCTCTCAACCTGCCGCTTACGCAGCAGGTGACGCGGGAATTTGACGATTTCGTTGGTGACGGCGGCGCCGATATCGACCATAGCGGCATCCTGCTTTACCTCGAAAAACTCAACAACCGGGAACAGGGCTGA	MSVGGEEKKRSVAFIGTGLMGGPMARRLLGAGFSVTVWNRSVDKAEALVADGAVVAASPAEAAKGADIVITMLSDGKAVGEVLFAAGVAEALKKGAVVIDSSSIAPPIAREHSSRLQALGIYHVDAPVSGGVPGATAGTLAIMAGGDEALIAGLADVFAPMGRLTYVGPSGAGQLCKLANQQIVAITIGAVAEAMMLVEAGGASREGFRNAIRGGFAESRILELHGDRMVKRNFVPGGPSKFQLKDLNGVLATAKDLSLNLPLTQQVTREFDDFVGDGGADIDHSGILLYLEKLNNREQG	PGPT0018170_181	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTARATE|GLUCARATE_DEGRADATION,PGPT0018170-garR|glxR-K00042	NA	NA
BMS010_04649	987	denD_2	COG0451	D-erythronate dehydrogenase	ATGCATATCGCAATCATCGGCGCCGCAGGCATGGTTGGCCGCAAGCTGACGCAGCGTCTCGTCAAGGACGGATCGCTGGGCGGCAAGCCAATCGAAAAGTTCACGCTTATCGACGTGTTCCAGCCCGAAGCGCCTGCCGGTTTTTCCGGTGCGGTCGATGCGCGTGCCGCCGATCTCTCCGCGCCGGGTGAGGCCGAAAAGCTGGTTGAAGCCCGCCCAGATGCCATTTTTCACCTCGCCGCCATCGTCTCCGGTGAAGCCGAGCTCGATTTTGACAAGGGCTACCGCATCAACCTCGACGGTACGCGTTATCTCTTCGATGCCATCCGCATCGCCAATGGCAAGGATGGTTATAAGCCGCGCGTGGTCTTCACCTCGTCCATCGCCGTTTTCGGTGCACCGCTTCCCTATCCGATCCCGGATGAATTCCACACCACGCCGCTGACCAGCTACGGTACGCAAAAGGCGATCTGCGAATTGCTGCTGTCCGATTACAGCCGCCGCGGTTTCTTTGACGGCATCGGTATTCGCCTGCCGACCATCTGCATTCGTCCCGGCAAGCCGAATGCGGCTGCTTCCGGCTTCTTCTCCAATATCCTGCGCGAGCCGCTGGTCGGCCAGGAAGCGGTTCTGCCGGTGCCGGAAAGCATTCGCCACTGGCACGCTTCGCCGCGTTCCGCCGTCGGTTTCCTGATCCATGGCGCAACGATCGATGTTGAAAAGGTCGGACCGCGCCGCAATCTGTCCATGCCCGGCCTCAGCGCCACCGTCGGCGAGCAGATCGAAGCGCTGCGCAAGGTCGCGGGCGAAAAGGCCGTTGCCCTCATTCGCCGCAAGCCGAACGAGATGATCATGCGCATGTGTGAAGGCTGGGCCCCCGGTTTCGAAGCCAAGCGCGCCCGCGAACTGGGCTTTACGGCTGAAAGCTCCTTCGAAGAGATCATTCAGGTTCATATCGAGGACGAACTGGGAGGTTCACTGAAATGA	MHIAIIGAAGMVGRKLTQRLVKDGSLGGKPIEKFTLIDVFQPEAPAGFSGAVDARAADLSAPGEAEKLVEARPDAIFHLAAIVSGEAELDFDKGYRINLDGTRYLFDAIRIANGKDGYKPRVVFTSSIAVFGAPLPYPIPDEFHTTPLTSYGTQKAICELLLSDYSRRGFFDGIGIRLPTICIRPGKPNAAASGFFSNILREPLVGQEAVLPVPESIRHWHASPRSAVGFLIHGATIDVEKVGPRRNLSMPGLSATVGEQIEALRKVAGEKAVALIRRKPNEMIMRMCEGWAPGFEAKRARELGFTAESSFEEIIQVHIEDELGGSLK	PGPT0019550_153	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ERYTHRONATE_UTILIZATION,PGPT0019550-denD-K22025	NA	NA
BMS010_04650	1446		COG0277	putative FAD-linked oxidoreductase	ATGACGATCGTGAGCGAAACCGATATCGGGGAATTGCGGTTCTCGTTGAAGAACAGGCTCGGCGAGGCTTTGATGCTGACATCGCAGGAAGACATGCTGCGCTATTGCCGCGACTGGCACGGCGATGTCACCAGCTCGGCCGTCGCCGTCATCCGCCCCCGCTCGACCAAGGAAGTCTCCGACACCGTTCGCGCCTGCGCGGAACTGGGCCTTGCCATCATCCCCCAGGGCGGTAATACCGGACTGGTGCTCGGCGGCATTCCCGATGCCCCCAAGCATCAGGTCGTATTGAGCCTGGAGCGCATGAATGCCATCCGCACCATCGATAGCGACGATTTTTCCGCCGTCGTGGAAGCCGGCTGCATTCTCTCGGAATTCAAGGATGCGGTTGAGGACAAAGGCATGTTTTTCCCGCTGTCGCTCGGCGCACAGGGCAGCTGCCGCATCGGCGGCAACGTCTCCACCAATGCCGGCGGCATCAATGTCCTGCGCTACGGCATGACCCGCGAACTGGTGCTGGGTCTCGAAGTCGTATTGCCGGACGGCACCATCTGGAACGGGCTGTCGACGCTGCGCAAGGACAATCGCGGCATCGATCTGAAGCAGCTCTTCATCGGCGCCGAAGGAACGCTCGGCATCATCACCGCGGTTGCCGTCAAGCTTTATCCCAATCCCGAACATGTCGAGACGGCGCTGCTCGGCCTCAATTCGCTTGACGATGCCATCAAGCTTTACCGCCGCGCCCGTCGCGAATGCTGCGACCTGATGTCCGCCTTCGAATTCATGCCGCCTGTCGCCTTCACACTCGCAATTGAAGCAATTCCCGATCTCAAGATGCCCATCGCCGGCGATTATCCTGCCTATGTGCTGATGGAAATTTCCGGCTCGGGGTTGGTCGATACCGCTGACCTGATGGGACGCTTCCTTGAGGGCGTGATGGAAGACGGGCTGGTGCTGGACGGCGTGATCGCTTCTTCACGGGCACAGGCCCAATCGCTCTGGCTGTTCCGCGAAGGCATGAACGAGGGCCAGGCGCTGCGCGGCGCGCATATGCGCACCGACATTTCCGTACCTTTGTCGAAACTCGCAGCCTTCGTGGCTGAAGCCGAGGCGGAACTTGCGGAAAAACTGCCGGAATGCCTGGCGGTTTCCTATGGCCATGTCGGAGACGGCAACGTCCACCTCAACGTGCTGCCGCCGAACGGTTCGACGCCACAAGAGCGCGACGCCTTCATCTACAAGTCCAAGACACTCGTTAACGAGGTTCTCGACCGTTACGTCGGCAGCATCAGCGCCGAGCACGGCATCGGTCGCCTGAAACGCTCCGATTTCGAAAGCCGGCTATCCGACGTGCAGCGCCGGATGATCACCGGCCTGAAAAATACCTTCGACCCTGATTTGCGGATGAATCCTGGTTGCCAGATAACCCTGCAACCGGATAGCTAA	MTIVSETDIGELRFSLKNRLGEALMLTSQEDMLRYCRDWHGDVTSSAVAVIRPRSTKEVSDTVRACAELGLAIIPQGGNTGLVLGGIPDAPKHQVVLSLERMNAIRTIDSDDFSAVVEAGCILSEFKDAVEDKGMFFPLSLGAQGSCRIGGNVSTNAGGINVLRYGMTRELVLGLEVVLPDGTIWNGLSTLRKDNRGIDLKQLFIGAEGTLGIITAVAVKLYPNPEHVETALLGLNSLDDAIKLYRRARRECCDLMSAFEFMPPVAFTLAIEAIPDLKMPIAGDYPAYVLMEISGSGLVDTADLMGRFLEGVMEDGLVLDGVIASSRAQAQSLWLFREGMNEGQALRGAHMRTDISVPLSKLAAFVAEAEAELAEKLPECLAVSYGHVGDGNVHLNVLPPNGSTPQERDAFIYKSKTLVNEVLDRYVGSISAEHGIGRLKRSDFESRLSDVQRRMITGLKNTFDPDLRMNPGCQITLQPDS	PGPT0001890_681	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001890-dld-K00102	NA	NA
BMS010_04651	717	lutR_8	COG2186	HTH-type transcriptional regulator LutR	ATGACGCTGGAGTTCAATCAGATACATCGCAACGATCATCTGCCCGGCCGTATCGCCGCGGAGATTGCGCGCGAAATCAATGATTCGAAGCTCGGACCGGGTGACAGGCTGCCGACCGAACATGTTCTGGCAAAAACCTTCGGCGTCAGCCGTTCGGTCATCCGCGAAGCGATTGCACAATTGCGCAACGAAGGCTTTGTCGAAACTCGGCAGGGCGTGGGCGCATTCGTCACCGATCCCCGGCAAAGACTGTCCATCCGCATCGAGCGGTCGCGGCTAAACGACCCGGAAAATTTCCGCGATCTTTTCCAGCTCCGCATGCCGCTGGAAATAGAGGCGGCGGGGCTTGCCGCATTGCACCGCAGCCCGCAGCAGCTGACGCGGCTGGCGGCAGCCTTGGAAAAGATGAAAACCGCCGATGATTGGTCGACGGAAGGCGTTGCCGCCGATCTCGACTTCCACCGCATTCTGGCGGAAGCGACTGAGAACGAATATTTCCTGATGTTCCTCGGCTTCATCGCGGAACGCATCAGCTCCGCCATCAACATCGCTTTCTCCCGCGCGGTTTTTGGTGAAATTCTCGAGGTGACGATTGCCGAACATGTGGCAATCTACGAAGCCGTCGAGAAGGCCGACGCCACTGCCGCCAAGAACGCCATGCGCAAGCACCTGATCGGCGCAGCCAGCCGGGTCAATCTCGAACTAGATATCTTCTGA	MTLEFNQIHRNDHLPGRIAAEIAREINDSKLGPGDRLPTEHVLAKTFGVSRSVIREAIAQLRNEGFVETRQGVGAFVTDPRQRLSIRIERSRLNDPENFRDLFQLRMPLEIEAAGLAALHRSPQQLTRLAAALEKMKTADDWSTEGVAADLDFHRILAEATENEYFLMFLGFIAERISSAINIAFSRAVFGEILEVTIAEHVAIYEAVEKADATAAKNAMRKHLIGAASRVNLELDIF				NA	NA	NA	NA	NA
BMS010_04652	1161			hypothetical protein	ATGACCGGTACAAGGTCCATCGACGCTACCGCAATTTTGCCTGAAGATTTCGAAAACGCGCTGCTCGTCGGCCGTGTCTGGTCGAAAAGCGAAGGCGGCCCCTGCCCCGTCCTGCTGAAGGGCGGCGTGCTTTATGACCTCACGTCGATTTCCCCCACCATGTCCGAACTTCTGGAGAAGGCGGATCTGGTGGAGCGGCTCGCCGACACCAGCACTTTCGTCGCACTCGGCGCACTGGAAGCGTTTCTGGACGGTTCCGCCGGCGAACTTCTTGCTCCCAACGACATTCAGGCCGTCAAGGCCGCCGGCGTCACCTTCGCCGACAGCATGCTGGAACGCGTGATCGAAGAGCAGGCCAAGGGCGATCCGCTGCGTGCGCAGGAAATTCGCGGACGGCTGGCACCGGTTCTCGGTGACAATCTCAAGGGACTTGAGGCCGGCTCCGAAAAAGCTGCCGAAGTGAAGAAACTGCTCCAGGAAATGGGCCTCTGGTCGCAATATCTGGAAGTCGGCATCGGCCCGGATGCGGAGATATTCTCCAAGGCGCAGGCCATGGCTTCCGTCGGCTGCGGCGCGCTGATCGGCGTTCACCCGAAATCGCAGTGGAACAACCCGGAGCCGGAAGTGGTGCTTGCCATCACCTCCGACGGCCGAATCGTTGGCGCAACGCTCGGCAACGACGTCAACCTGCGCGACTTTGAAGGCCGCTCTGCACTCTTGCTCAGCAAGGCGAAGGACAACAACGCTTCCTGCGCGATCGGTCCTTTCATCCGCCTGTTCGACGGCAACTTCACTATTGAAGATGTGAAGAAGTCACAGATATCGCTTCTGGTCGAGGGCGAAGACGGTTTCACCATGACGGGCGTCAGCCCCATGGAAGCGATCAGCCGCACGCCGGAAAACCTCGCTTCGCAGCTCTTGAACCGCAACCATCAATATCCTGACGGCGCCGTCTTTTTCCTTGGCACGATGTTCGCGCCGGTGAAGGATCGTCATGGCCCAGGCCTCGGTTTCACCCATTCAAAGGGCGACCGTGTCGAAATCTCCACGCCCAAGCTCGGTAAGCTGATCAATTGGGTCACCACGACCGACGAATGCCCGGAATGGACATTCGGCACCGCGGCCCTGATGCGCAACCTGGCGAAACGAGGGCTGCTCTAG	MTGTRSIDATAILPEDFENALLVGRVWSKSEGGPCPVLLKGGVLYDLTSISPTMSELLEKADLVERLADTSTFVALGALEAFLDGSAGELLAPNDIQAVKAAGVTFADSMLERVIEEQAKGDPLRAQEIRGRLAPVLGDNLKGLEAGSEKAAEVKKLLQEMGLWSQYLEVGIGPDAEIFSKAQAMASVGCGALIGVHPKSQWNNPEPEVVLAITSDGRIVGATLGNDVNLRDFEGRSALLLSKAKDNNASCAIGPFIRLFDGNFTIEDVKKSQISLLVEGEDGFTMTGVSPMEAISRTPENLASQLLNRNHQYPDGAVFFLGTMFAPVKDRHGPGLGFTHSKGDRVEISTPKLGKLINWVTTTDECPEWTFGTAALMRNLAKRGLL	PGPT0018165_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLACTURONATE|GLUCURONATE_DEGRADATION,PGPT0018165-aldH-K13877	NA	NA
BMS010_04653	531	yiaM	COG3090	2,3-diketo-L-gulonate TRAP transporter small permease protein YiaM	ATGCAAAAGACCATCAATCTCTTTTACCGGATTCTCGAAATCATTCTCGTCCTGCTGCTTGCCGGCATGTCGATCATGGTCTTCGTCAACGTCGTCATGCGTTATACGATGAACTCCGGCATCAACGTCTCGGAAGAACTGTCGCGTTATTTCTTCGTGTGGCTGACCTTCATCGGCGCCGTGTTGACCTTCCGTGAGAACAGCCACATGGGCATCGAAACGCTCGTGATGTTCCTGTCCCGTCGCGCCCGCATCGTCTGCATGATCGTGTCGAACATCATCATTCTGGCCTGTTCCGCCATCTTCTTCTGGGGCACCTGGAAGCAGTCCGGCATCAATGCCAGCATGCATGCGCCCGTCACCAAGCTTTCGATGATCTGGGTCTATGGCGTCGGCATGTTCACCGGCGGCCTGATGTTCATCATCGCACTGGAACGCCTGTACCGTTACTTGACGGGCGGCGTGACAGAAGACGAAATCGCCCAGTTTGCCGGCGAGAATCTCACGATCGAACAGCTTTCGGAGCGCTGA	MQKTINLFYRILEIILVLLLAGMSIMVFVNVVMRYTMNSGINVSEELSRYFFVWLTFIGAVLTFRENSHMGIETLVMFLSRRARIVCMIVSNIIILACSAIFFWGTWKQSGINASMHAPVTKLSMIWVYGVGMFTGGLMFIIALERLYRYLTGGVTEDEIAQFAGENLTIEQLSER				NA	NA	NA	NA	NA
BMS010_04654	1278	siaM_2	COG1593	Sialic acid TRAP transporter large permease protein SiaM	ATGACACTTCTCGTTTTTGTCGGCTCTCTGCTGGGAGCCATGGCGATTGGCGTTCCCGTCGCGTTCTCGCTGATGTTCTGCGGCGTCGTGCTCATGTGGTACATGGGCATGTTCAACACCGCCATCATTGCCCAAAACATGATCTCGGGCGCGGACACCTTCACCCTGCTTGCCATCCCCTTCTTCATTCTGGCCGGCGAACTGATGAATTCCGGCGGTCTGTCCCGCCGCATCATCGACTTTGCAATCGCACTCGTCGGTCATATCCGTGGCGGTCTCGGCATCGTGGCCATCGTTGCAGCCATCATCATGGCCAGCATTTCCGGTTCGGCCGCAGCCGATACCGCAGCCCTCGCCGCAATCCTCATCCCGATGATGGCAAAGGCCGGTTACAATATTCCCCGCTCCGGCGGCCTCATCGCCGCAGGCGGCATCATCGCCCCGGTCATTCCGCCATCCATGGCCTTCATCGTCTTCGGTGTTGCCGCCAACGTCTCGATCACCCAGCTTTTCCTTGCGGGTATCGTTCCCGGCATTCTGATGGGTGCATCGCTCATCATCGCCTGGCTGATCGTGGTCCGCAAGGATAACGTCAAGCCGCTGCCGAAGACCTCCGCCAAGGAACGTCTGACCGCCACTGCTCGCGCCGGCTGGGCGCTCGGCATGCCTGTCATCATTCTCGGCGGCATCAAGGCCGGCATCATGACGCCGACGGAAGCTGCCGTCGTTGCCGCTGTCTACGCGCTTTTCGTCGGTATGGTGATCTACCGCGAACTGAAACCGGCGGATCTGTTCCACGTGCTTCTGCGCGCCGCCAAGAGCACGTCCATCATCATGTTCCTGGTTTGCGCGGCACTTGTCTCCGCATGGCTCATCACGGCAGCGAACATTCCGAACGAAGTCGCAGGCTATATCGAGCCGCTGATCGACCGCCCGATGCTTCTGATGGCCGCAATGATGGTGCTGGTCTTCATTGTCGGAACCGCACTCGACCTGACGCCGACCATCCTGATCCTGACGCCTGTTCTGATGCCCATCGTCAAACAGGCGGGCATCGACCCGGTCTATTTCGGCGTTCTCTTCATCATCAACAACGCCATCGGCCTGATTACCCCTCCGGTTGGCGTGGTGCTGAACGTCGTCAGCGGCGTCGGCCGCATCCCGCTCGGCAAGGTCACGGTCGGCGTCTGGCCGTTCCTCGTTGCCGAAACCATCGTACTGGCGCTGCTGGTGATTTTCCCGGACATCGTCCTCGTACCGCTGCAGTATCTTCGTTAA	MTLLVFVGSLLGAMAIGVPVAFSLMFCGVVLMWYMGMFNTAIIAQNMISGADTFTLLAIPFFILAGELMNSGGLSRRIIDFAIALVGHIRGGLGIVAIVAAIIMASISGSAAADTAALAAILIPMMAKAGYNIPRSGGLIAAGGIIAPVIPPSMAFIVFGVAANVSITQLFLAGIVPGILMGASLIIAWLIVVRKDNVKPLPKTSAKERLTATARAGWALGMPVIILGGIKAGIMTPTEAAVVAAVYALFVGMVIYRELKPADLFHVLLRAAKSTSIIMFLVCAALVSAWLITAANIPNEVAGYIEPLIDRPMLLMAAMMVLVFIVGTALDLTPTILILTPVLMPIVKQAGIDPVYFGVLFIINNAIGLITPPVGVVLNVVSGVGRIPLGKVTVGVWPFLVAETIVLALLVIFPDIVLVPLQYLR	PGPT0017335_2706	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017335-dctM-K11690	NA	NA
BMS010_04655	1008			hypothetical protein	ATGAGAAAGCTTCTTCTGACCACCACGGCCATCGCTTTCGCCGTTGGCGCCGCCGCTCCGGCAATGGCCGAATTCAACAGCCGCAATATCCGCGTTTCGAACGGCATTAACCAGGATCATCCGGTCGGCAACGGCATCAAGGCCATGCAGGCCTGCCTTGACGACAAGTCCGGTGGCAAGCTGAAGCTGACGGCATTCTGGGGCGGCGCTCTCGGCGGTGACCTTCAGGCAACGCAGGCCCTGCGCTCCGGCGTTCAGGAAGCGGTCGTGACGTCCTCGTCGCCGCTCGTAGGTCTCATCCCGTCTCTCGGCGTCTTCGACCTGCCGTTCCTCTTCGCCAACGCCAAGGAAGCCGATGCCGTCATGGACGGCGCCTTCGGCGACATGATGAACAAGAAGCTGGAAGAACAGGGCCTCGTAAACCTGGCCTACTGGGAAAACGGCTTCCGCAACCTGTCGAACTCCAAGCATGCCGTGAACAAGTGGGAAGACTTCTCGGGCCTTAAGGTCCGCGTGATGCAGAACAACATCTTCCTCGACACCTTCCAGAACCTCGGCGCCAATGCAACGCCGATGGCCTTCGGCGAAGTCTTCTCGGCGCTGGAAACCAACGCGATCGACGCGCAGGAAAACCCCTATGTGACGATCGACACCTCGAAGTTCTACGAAGTGCAGAAATACATCACCGAGACGAACCACGCCTACACGCCGTTCCTCTTCCTCTTCTCCAAGCCGATCTTCGACAGCTACACGCCCGAAGAACAGGCCGCCCTGCGTGAATGCGCAATCGTCGGCCGCGACGAAGAGCGCAAGGTCATCCGCGAACTGAACCAGAAGTCGCTGGAGAAGATCAAGGCTGCCGGCCTCGAAGTGAACACGCTGTCTGCAGAAGAGCAGACCCGTATCCGCGAAAAGTCGATGGTCGTCTACGAAAAGCACAAGGCTGAAATCGGCGCAGACGTCGTCGACGCCGTTCTGGCGGACCTGAAGAAGATCCGCGGCCAGTAA	MRKLLLTTTAIAFAVGAAAPAMAEFNSRNIRVSNGINQDHPVGNGIKAMQACLDDKSGGKLKLTAFWGGALGGDLQATQALRSGVQEAVVTSSSPLVGLIPSLGVFDLPFLFANAKEADAVMDGAFGDMMNKKLEEQGLVNLAYWENGFRNLSNSKHAVNKWEDFSGLKVRVMQNNIFLDTFQNLGANATPMAFGEVFSALETNAIDAQENPYVTIDTSKFYEVQKYITETNHAYTPFLFLFSKPIFDSYTPEEQAALRECAIVGRDEERKVIRELNQKSLEKIKAAGLEVNTLSAEEQTRIREKSMVVYEKHKAEIGADVVDAVLADLKKIRGQ				NA	NA	NA	NA	NA
BMS010_04656	1956	acsA_1	COG0365	Acetyl-coenzyme A synthetase	ATGTCTGCCAAAATCTACCCGGTTCTCAAATCGGCGAAGGCCCGCACGCTCATCGATAATGAGCGTTACCAGAAATGGTACCAGGAGAGCGTCGAGGATCCGGAAAAGTTCTGGGACAAGCACGGCCGGCGGATCGACTGGTTCAAGCCCTATACCAAGGTCAAGAACACGTCCTTCAAGGGCAGGGTGCCGATCAAGTGGTTCGAGGACGGCCTGACGAACGTTTCCTATAACTGTATCGACCGGCATCTGAAGACGCATGGCGAGCGCACGGCGATCATCTGGGAAGGCGACAACCCCTATATCGACAAGAAGATCACCTATAACCAGCTCTACGACTATGTCTGCCGTCTGGCGAATGTGCTGAAGAAGCACGGCGTCAAGAAGGGCGACCGCGTCACGATCTATATGCCGATGATACCCGAGGCGGCTTACGCGATGCTCGCCTGCGCCCGCATCGGCGCCATCCATTCCGTCGTGTTCGGCGGGTTCTCGCCGGAAGCGCTGGCCGGCCGCATCGTCGATTGCCAGTCCACCTTCGTCATCACCTGCGATGAGGGCGTGCGCGGCGGCAAGCCGATCCCGCTCAAGGAAAATACCGACAAGGCGATCGATATCGCCGCCAAACAATATGTCATCGTCAACAAGGTTCTGGTGGTGCGCCGCACCGGCGGAAAGACCGGCTGGGCGCCCGGCCGCGATATCTGGTACCATCAGGAAATCGCCACCGTGAAGCCGGATTGCCCGCCGGTGAAGATGCGTGCGGAAGACCCGCTGTTCATTCTTTACACTTCGGGCTCCACTGGCAAGCCGAAGGGCGTGTTGCACACCACGGGCGGCTACCTCGTCTATACGTCGATGACGCACGAGTATGTCTTCGACTACAAGGACGGCGAGGTTTACTGGTGTACCGCCGACGTCGGCTGGGTCACCGGCCATTCCTATATCGTCTACGGTCCGCTTGCGAACTGCGCGACGACGCTGATGTTCGAAGGCGTTCCCAATTTCCCGGATCAGGGCCGCTTCTGGGAAGTCATCGACAAGCACAAGGTCAATATCTTCTACACCGCGCCGACGGCGCTCAGATCGCTGATGGGGGCGGGCGACCAGTTCGTCCAGCGCTCGTCGCGCGAGAGCCTGCGGCTTCTCGGCACGGTCGGCGAACCAATCAATCCGGAAGCCTGGGAGTGGTATTACCATGTGGTCGGCGAGGACAAGAGCCCGATCGTCGACACCTGGTGGCAGACGGAAACCGGCGGCATTCTCATTTCGCCGCTGCCGGGCGCGACCGATCTGAAACCCGGTTCGGCCACAAGGCCGTTCTTCGGCGTGCAGCCGCAGCTTGTCGATGCCGAGGGCAATGTGCTGGAAGGACCGGCCGACGGCAATCTCTGCATCATCGATAGCTGGCCGGGCCAGTCGCGCTCCGTCTATGGCGATCATCAGCGCTTTGTCGATACGTATTTCTCGACCTACAAGGGCAAGTACTTCACCGGCGACGGTTGCCGGCGTGACGAGGACGGTTATTACTGGATTACCGGCCGCGTCGATGACGTGCTGAACGTTTCCGGTCACCGCCTTGGCACGGCCGAGGTGGAATCGGCGCTGGTGTCGCATCACCTCGTTTCGGAAGCGGCCGTGGTGGGCTACCCACATGCCATCAAGGGCCAGGGCATTTATTGTTATGTCACGCTGATGGCGGGCCAGAATGGCGACTATGCGCTGCGCGAGGAGCTGGTGAAGCACGTGCGCAACGAGATCGGGCCGGTTGCGACACCTGACAAGATCCAGTTCGCGCCGGGCCTGCCCAAGACGCGCTCCGGCAAGATCATGCGGCGCATCCTGCGCAAGATCGCCGAGGACGACTTTGGTGCGCTGGGGGATACGTCGACGCTCGCCGATCCAGCGGTGGTCGAAGACCTCATCGCCAACCGGCAGAACCGCACCGCGTCCTGA	MSAKIYPVLKSAKARTLIDNERYQKWYQESVEDPEKFWDKHGRRIDWFKPYTKVKNTSFKGRVPIKWFEDGLTNVSYNCIDRHLKTHGERTAIIWEGDNPYIDKKITYNQLYDYVCRLANVLKKHGVKKGDRVTIYMPMIPEAAYAMLACARIGAIHSVVFGGFSPEALAGRIVDCQSTFVITCDEGVRGGKPIPLKENTDKAIDIAAKQYVIVNKVLVVRRTGGKTGWAPGRDIWYHQEIATVKPDCPPVKMRAEDPLFILYTSGSTGKPKGVLHTTGGYLVYTSMTHEYVFDYKDGEVYWCTADVGWVTGHSYIVYGPLANCATTLMFEGVPNFPDQGRFWEVIDKHKVNIFYTAPTALRSLMGAGDQFVQRSSRESLRLLGTVGEPINPEAWEWYYHVVGEDKSPIVDTWWQTETGGILISPLPGATDLKPGSATRPFFGVQPQLVDAEGNVLEGPADGNLCIIDSWPGQSRSVYGDHQRFVDTYFSTYKGKYFTGDGCRRDEDGYYWITGRVDDVLNVSGHRLGTAEVESALVSHHLVSEAAVVGYPHAIKGQGIYCYVTLMAGQNGDYALREELVKHVRNEIGPVATPDKIQFAPGLPKTRSGKIMRRILRKIAEDDFGALGDTSTLADPAVVEDLIANRQNRTAS	PGPT0002265_3268	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895	NA	NA
BMS010_04657	702			hypothetical protein	ATGGCTCAACAATTGCTCATGCCAAAGGCTACGGCTGTATGGCTGGTTGACAACACCGCGCTGTCGTTCGATCAGATCGCCACGTTCTGCAAACTGCATCCGCTCGAAGTCAAGGCGATTGCCGACGGTGAAGCCGCACAGGGCATCAAGGGTCTCGATCCGATTGCAACCGGACAGCTCTCCCGCGACGAGATCGCCCGCGCTGAAAGCAATCCCAACCACAAGCTCAAGCTTTCCGAGCCGAAGGTCCGCGTGCCGGAATCCAAGCGCCGCGGCCCGCGCTACACCCCGGTTTCCAAGCGTCAGGACCGTCCGAACGCCATTCTCTGGCTCGTTCGCAACCACCCGGAACTGAAGGATGCGCAGATCTCGCGTCTCGTCGGCACCACGAAGTCGACGATCGAGCAGATTCGCGACCGTACCCACTGGAACTCGGCCAACCTGACGCCGATGGACCCGGTGACGCTCGGCCTCTGCAGCCAGATCGATCTCGACCTCGAGGTCGAACGCGCCTCGCGCGGCCGTCCGCTGCCGACCGCCGAAGAGCTGGACAACACACTGCAGCCGGCGACGGCAACGGAAGGTCTGGATTACAACTTCCAGCGCGAAGAAGACGAGCAGATCGACGCAGATGCGGTCTTCAAGAAGCTCAGCTCGCTGAAGTCTACGCAGAAGGACGAAGACGAGGACGATAACTACTGA	MAQQLLMPKATAVWLVDNTALSFDQIATFCKLHPLEVKAIADGEAAQGIKGLDPIATGQLSRDEIARAESNPNHKLKLSEPKVRVPESKRRGPRYTPVSKRQDRPNAILWLVRNHPELKDAQISRLVGTTKSTIEQIRDRTHWNSANLTPMDPVTLGLCSQIDLDLEVERASRGRPLPTAEELDNTLQPATATEGLDYNFQREEDEQIDADAVFKKLSSLKSTQKDEDEDDNY				NA	NA	NA	NA	NA
BMS010_04658	660		COG0325	Pyridoxal phosphate homeostasis protein	ATGGAAATCGAAGCACGTCTTGAGGATGTCAGGCAGCGCATTGCCGATGTTGCGGAAAAATCCGGACGCAAGGCGGCGGATGTTGCCCTCGTCGCGGTCTCGAAGACCTTCGAGGCGGAGGCGATCCAGCCGGTCATAGATGCCGGCCAGCGCGTGTTCGGCGAGAACCGCGTGCAGGAGGCGCAGGGCAAGTGGCCGGCGCTGAAAGAGAAGACGCCTGATATCGAGTTGCATCTGATTGGCCCGCTACAGTCCAACAAGGCGGCGGATGCCGTGGCGCTGTTTGATGTGGTGCAGAGCGTCGACCGCGAAAAGATCGCCCGCGCGCTTGCCGAGGAGTGCGGCAAACAGGGGCGCAGCCTTCGTTTTTATGTGCAGGTTAATACAGGGCTTGAGCCGCAAAAGGCGGGTATCGATCCACGTGAGACCGTGGCTTTCGTCGCCTTTTGTCGGGATGAGTTGAAATTGCGGGTCGAAGGACTGATGTGCATTCCGCCGGCGGATGAAAATCCGGGTCCGCATTTTGCGCTTCTGGCGAAGCTTGCCAAACAATGTGGACTTGAGAAGCTTTCCATGGGCATGTCGGGCGATTTCGAAACTGCCGTGGAATTCGGCGCAACGAGCGTTCGTGTAGGCTCGGCGATCTTCGGTACGCGATAA	MEIEARLEDVRQRIADVAEKSGRKAADVALVAVSKTFEAEAIQPVIDAGQRVFGENRVQEAQGKWPALKEKTPDIELHLIGPLQSNKAADAVALFDVVQSVDREKIARALAEECGKQGRSLRFYVQVNTGLEPQKAGIDPRETVAFVAFCRDELKLRVEGLMCIPPADENPGPHFALLAKLAKQCGLEKLSMGMSGDFETAVEFGATSVRVGSAIFGTR				NA	NA	NA	NA	NA
BMS010_04659	2631	leuS_1		Leucine--tRNA ligase	ATGGCCATCGAACGTTACAATCCTCGCGACGCCGAGCCGCGCTGGCAGCAGAAATGGAACGAAGACAAGGTTTTCGTCACCGACAACAGCGATCCGCGCGAGAAATATTACGTTCTGGAGATGTTTCCCTATCCTTCGGGACGCATCCACATGGGCCATGTCCGCAACTATGCCATGGGCGACGTGGTTGCCCGCTACAAGCGCGCCCGCGGTTTCAACGTCCTGCACCCGATGGGCTGGGACGCCTTCGGCATGCCTGCCGAAAACGCCGCCATGCAGAACAAGGTTCACCCGAAGGACTGGACCTATCAGAACATCGCCACCATGCGCGGCCAGCTGAAATCCATGGGCCTTTCGCTGGACTGGACCCGCGAATTCGCGACCTGCGACGTGGAATATTACCACCGCCAGCAGGCGCTGTTCGTCGATTTCATGGAAAAGGGTCTGGTCTACCGCAAGCAGTCCAAGGTCAACTGGGACCCGGTCGACCATACGGTTCTCGCCAACGAGCAGGTGATCGACGGCCGTGGCTGGCGCTCCGGCGCGCTGGTCGAACAGCGCGAGCTGACGCAATGGTTCTTCCGCATCACCGATTTCAGCCAGGACCTGCTGGACGAGCTGGATACGCTCGACCAATGGCCGGAAAAAGTGCGCCTGATGCAGAAGAACTGGATCGGCCGCTCCGAAGGCCTGTCGCTGCGCTGGCAGACGGTCGCCGGGACAGTGCCGGAAGGTTTCTCCGACATCACCGTCTATACGACACGCCCGGACACCCTGTTCGGCGCCTCCTTCCTGGCAATTGCCGCCGACCACCCGCTGGCGAGAGAACTGTCCGCGAACAACCCGGCGATTGCCGAGTTCTGCGACGAATGCCGCCGCCATGGCACCTCGCTCGCAGCACTCGAAACGGCTGAAAAGAAAGGCATCGACACCGGCGTCAAGGTCGTACACCCGCTGGATCCCAATTGGGAACTGCCGGTCTACGTCGCCAACTTCGTGCTGATGGACTATGGCACCGGCGCGATCTTCGGCTGCCCGTCGGGTGACCAGCGCGATCTGGATTTCGCCCGCAAATACGGCCTGCCGGTTGTGGCCGTCGTCGCCCCTGAAGGCCCTGATGCTGCAAACTTCACCATCGATGATACCGCCTTCACCGATGACGGCGTGATGATCAATTCCGGCTTCCTGAATGGTATGAAAACGACGGATGCCTTCGAGGCGGTCGTGCAGAAGCTGTCGGCGCAGACGCTGGGCAACGCGCCCCAGGCCGAGCGCAAGGTCAATTTCCGTCTGCGCGACTGGGGCATTTCCCGCCAGCGTTATTGGGGATGCCCGATCCCGGTCATCCATTGCGAAGTCTGCGGCGTCGTGCCGGTCCCGAAGAAGGACCTGCCCGTCAAGCTGCCCGACGACGTGACGTTCGACGTGCCCGGCAACCCGCTGGACCGGCACCCCACCTGGCGTCATGTCTCCTGCCCGCAATGCGGCCATGATGCACGCCGCGAAACCGATACGATGGATACTTTCGTCGATTCCAGCTGGTATTACACGCGCTTCACCGCGCCGTGGGAAGACGCACCGACCGATCCGAAGGTCGCCAACCACTGGCTGCCGGTCGATCAGTATATCGGGGGCATCGAGCACGCTATCCTGCATCTGCTCTATTCGCGATTCTTCACCCGCGCCATGCGCGAAACCGGCCATGTCGGCGTCAAGGAGCCCTTCAAGGGCCTGTTCACGCAGGGCATGGTGGTGCACGAGACCTATAGCCGCGGCGAAGGCACCGCACGCGAATGGGTGCCGCCGGCCGACCTCAGGATCGAGGAAAGCGACGGCACGCGTCGCGCATTCCTGCTCTCGTCCGGCGAAGAGGTGAAAATCGGCTCCATCGAGAAGATGTCGAAGTCGAAGAAGAACGTGGTTGACCCCGACGATATCATCGCGTCCTACGGCGCCGATACCGCACGCTTCTTCGTGCTGTCGGACTCTCCGCCCGATCGTGACGTCATCTGGTCCGAAGCCGGGGTGGAAGGTGCAAACCGATTCGTCCAGCGCGTCTGGCGCATCATCGGCGAAGCGGCGGAAGAGCTGAGAACCGTTGAGCCGAAGCCTGCGACCGAAGGCGAAGGCTTGGCAGCCTCCAAGGCTGCCCACAAGACGCTGAAGGCTGTTCAGGAAGACTTGGACAAGCTCGCCTTCAACAAGGCCATCGCCCGCATCTACGAACTGGTCAACGCGCTGGCCGGCCCGCTCGCCGATGTTGCTTCTGGCGGCAAGTCTGAGGACGTCAAGGCGGCCGCGCGCGACGCCGTCGAAATCCTCATACGCATCATCGCCCCCATGACGCCGCATCTGGCGGAAGAATGCTGGTCCGCACTGGGCAATACGGGCCTCGTGGCCCAGACGCCATGGCCGGCCTTCGTCGCTTCGCTTGTCGAGGAAAACGATGTGGTCATGCCCGTGCAGGTCAACGGCAAGAAGCGTGGCGAATTGACAATCGCGCGCGATGCGGATCAAGATGCGGTCCGAACGGCCGCCCTTGCGCTGGATGCCGTCAAATCCATTCTTGCCGGTGGCGAGCCCAAGAAAGTCATCGTGGTTCCGCAGAGGATTGTGAACATTGTTGTCTGA	MAIERYNPRDAEPRWQQKWNEDKVFVTDNSDPREKYYVLEMFPYPSGRIHMGHVRNYAMGDVVARYKRARGFNVLHPMGWDAFGMPAENAAMQNKVHPKDWTYQNIATMRGQLKSMGLSLDWTREFATCDVEYYHRQQALFVDFMEKGLVYRKQSKVNWDPVDHTVLANEQVIDGRGWRSGALVEQRELTQWFFRITDFSQDLLDELDTLDQWPEKVRLMQKNWIGRSEGLSLRWQTVAGTVPEGFSDITVYTTRPDTLFGASFLAIAADHPLARELSANNPAIAEFCDECRRHGTSLAALETAEKKGIDTGVKVVHPLDPNWELPVYVANFVLMDYGTGAIFGCPSGDQRDLDFARKYGLPVVAVVAPEGPDAANFTIDDTAFTDDGVMINSGFLNGMKTTDAFEAVVQKLSAQTLGNAPQAERKVNFRLRDWGISRQRYWGCPIPVIHCEVCGVVPVPKKDLPVKLPDDVTFDVPGNPLDRHPTWRHVSCPQCGHDARRETDTMDTFVDSSWYYTRFTAPWEDAPTDPKVANHWLPVDQYIGGIEHAILHLLYSRFFTRAMRETGHVGVKEPFKGLFTQGMVVHETYSRGEGTAREWVPPADLRIEESDGTRRAFLLSSGEEVKIGSIEKMSKSKKNVVDPDDIIASYGADTARFFVLSDSPPDRDVIWSEAGVEGANRFVQRVWRIIGEAAEELRTVEPKPATEGEGLAASKAAHKTLKAVQEDLDKLAFNKAIARIYELVNALAGPLADVASGGKSEDVKAAARDAVEILIRIIAPMTPHLAEECWSALGNTGLVAQTPWPAFVASLVEENDVVMPVQVNGKKRGELTIARDADQDAVRTAALALDAVKSILAGGEPKKVIVVPQRIVNIVV				NA	NA	NA	NA	NA
BMS010_04660	549			hypothetical protein	TTGTTGTCTGACGTTTTTTCAAGATGGGGCCGCGTCGCGGCAGCGATTTCCGTCGTGACGATGGCTGGTCTTCTGGCAGGCTGCCAGGTGCGCCCGCTTTATGGGGAAGCTTCCGGAACCAAGGAGAGACTGGCGGCCGTCAGCGTCTCCGAGACCGGCGGCAGAGTTGGGCAGGAAGTCCGCAACCAGCTGATCTTTCTGATGTCCGGCGGCGCTGGCGAACCCGCCACCGCGCAATATAACGTCAAGGTTTCCGTAAGCTCGAGCGCGACGTCAACGGAAGTGCAGAATTACGACCTGACGACCCGCGCGAACAACAATTACGATGGCCCATACCCTGGTCGTGTCGTGATGAGCGGTCAATATGTGCTGACACGCGTTTCCGACGGTCAAATCCTGCGCTCTGCACGGCGTAGCGTGACGGCGCAGGTGGACCTGCCGCAGCAGGAATTCGCCAAGATCAGGGCAACCCGCGACGCCGAGAACCGTGCGGCCCGGGAACTGGCTGAAATCATCCGCACCGATATCGCCGCCACGCTCGGCCGCTGA	MLSDVFSRWGRVAAAISVVTMAGLLAGCQVRPLYGEASGTKERLAAVSVSETGGRVGQEVRNQLIFLMSGGAGEPATAQYNVKVSVSSSATSTEVQNYDLTTRANNNYDGPYPGRVVMSGQYVLTRVSDGQILRSARRSVTAQVDLPQQEFAKIRATRDAENRAARELAEIIRTDIAATLGR	PGPT0023297_871	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023297-lptE|rlpB-K03643	NA	NA
BMS010_04661	1038			hypothetical protein	GTGACGGAGATAAAGTCCCATGAATTTGAGCGCTTCGCCGAAAATCCGGCGGAGCGCTTTCGCGTTTTCGTGCTTTACGGCCCGGATCGCGGTCTCGTATCGGAACGCGCAGGCGTCATCGCCAAAAAGACCGGTATCGATCCCGATGACGCTTTCGCATCGCTGAAACTGACCGCATCCGATCTGCAGGGCGACCCCGGCCGTCTGCTCGACGAGGTGAATGCCATCGGCCTTTTCGGCGGCGAAAAACTCGTCTGGGTCAAAAGTGCTTCGGCCGAAAAGGCGCTGGTGGATGCACTCCAGATCCTTGCCGAGACGCCGCCGGAAGCAAGCTTCCTCATCATCGAAGCAGGCGACATCAAGAAGGGTACGGGACTGCGCAAGATCGCAGAACCGGCGCGCTCCATCGCTGCGATTCCCTGTTACGCCGACGATGCGCGCTCATTGAACGCATTGATCGATCAGGAACTCTCCGCCGATAATCTGCGCATTGCGCCAGCCGCAAGACAGAGGCTCATCGAATCGCTGGGTGGTGACCGTATCGCCTCGCGCAATGAAATCCGCAAGCTGGCGCTCTATTGCCGTGGGGCAGACGTGGTCGAGGAAGACGATGTGCTGGCGATCATCGGAGACGCCAGCACGGTTTCCGCAGACGATGCCGTCGACGCCATTCTGAAAGGCGACAGAAACGCCTTTTTCCACGCGACGCAGAAGATCGTCTCTTCGAAGACCCCGATCTTTCTTGTACTCCAGGGGTGCCTCAAGCAATTCCAGTTACTCGACCAGATGCGGGCCGAAATGGATGAGAAAAAACTGCAGGCCGGTCAGGTCATGCAGACACTCGGACGCCACATCCATTTCCGCAGAAAACCCATCATCGAAAGAGCCCTGCGAATCTGGCAGCCAGCGGCGATCGCACGCGAGATGAACCGTCTGCAGGCCGCTATCCTGCAAAGCCGTCAGCGGCAAAGCCTGGAAGAAAGCGTGGCCCTTCTGACATTGCTGTCGACCACGCTGCAATCCGGCCGCGGCGGATGA	MTEIKSHEFERFAENPAERFRVFVLYGPDRGLVSERAGVIAKKTGIDPDDAFASLKLTASDLQGDPGRLLDEVNAIGLFGGEKLVWVKSASAEKALVDALQILAETPPEASFLIIEAGDIKKGTGLRKIAEPARSIAAIPCYADDARSLNALIDQELSADNLRIAPAARQRLIESLGGDRIASRNEIRKLALYCRGADVVEEDDVLAIIGDASTVSADDAVDAILKGDRNAFFHATQKIVSSKTPIFLVLQGCLKQFQLLDQMRAEMDEKKLQAGQVMQTLGRHIHFRRKPIIERALRIWQPAAIAREMNRLQAAILQSRQRQSLEESVALLTLLSTTLQSGRGG				NA	NA	NA	NA	NA
BMS010_04662	339	fdxA_1	COG1146	Ferredoxin-2	ATGACATATGTCGTGACCGACAATTGCATCCGCTGCAAATATACCGATTGCGTTGAGGTCTGCCCCGTCGACTGCTTTTACGAGGGTGAAAATTTCCTCGCGATCAATCCCGATGAATGCATCGATTGCGGTGTGTGCGAACCGGAATGTCCCGCCGAAGCCATCAAGCCCGATACGGAGCCGGGTCTCGACAAATGGCTGAAGCTCAATGCCGAATATGCGGCAATCTGGCCTAATATCACGATCAAGCGCGACCCGATGCCGGAAGCCAAGGAAATGGACGGTGTAGAAGGCAAGCTTGAGCTCTATTTCTCCGCCGAGCCCGGACAGGGCGACTGA	MTYVVTDNCIRCKYTDCVEVCPVDCFYEGENFLAINPDECIDCGVCEPECPAEAIKPDTEPGLDKWLKLNAEYAAIWPNITIKRDPMPEAKEMDGVEGKLELYFSAEPGQGD	PGPT0030810_194	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-FE-S_CLUSTER_BIOGENESIS,PGPT0030810-fdxA-K05524
BMS010_04663	417	hslR_1	COG1188	Heat shock protein 15	ATGGGAAGCAACGAACAGCCACTGGAAAGCACGCGTCAGCGTCTGGACAAGTGGCTGTTCTTTGCCCGCATGGCAAAATCCCGTTCGCTTGCCCAGAGCTATATTCAGTCTGGCCACGTCAAGGTCAACGGCATTGCCATTCGCCAGTCCAGCCATGTGGTGAAGGCGGGCGACAGGCTGGAGATCGGCTTCGAGCGGATGGACAAGGTGCTGGTCGTCAGGTCCGGCGGAACACGGCGTGGACCCTATGAGGAAGCCAGACTTCTCTATGAAGACGAGACGCCGCCACGGGAACCTTCCGACAGGCTGACACCCCTCGAGCAGGCGTTGCGCCAGCCGGGCAGCGGGCGTCCCACCAAAAAAGAGCGCAGGGCGCTCGACAGGTTTCTGTCTGACAGCGACGGAAGCAAAGATTAG	MGSNEQPLESTRQRLDKWLFFARMAKSRSLAQSYIQSGHVKVNGIAIRQSSHVVKAGDRLEIGFERMDKVLVVRSGGTRRGPYEEARLLYEDETPPREPSDRLTPLEQALRQPGSGRPTKKERRALDRFLSDSDGSKD	PGPT0014620_456	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014620-hslR|yrfH-K04762	NA	NA
BMS010_04664	3081			hypothetical protein	ATGATCCTGAGCGGCCGCGGTGTCACGGCCGTTCTCGGCCCCACCAATACCGGCAAGACCCATTACGCGATCGAGCGGATGGTCGCGCATGGCAGCGGTGTCATTGGCCTGCCGCTGCGTCTTCTGGCGCGGGAGGTCTATACCCGCCTCGTTGAAAAGGTGGGTGCGCCGAATGTGGCGCTGATTACCGGCGAAGAAAAAATCGCGCCTCCCAAAGCCAAATATTCCGTCTGCACGGTGGAAGCCATGCCGCGCGAGACGACGGCCGCCTTCGTTGCGATCGACGAGGTGCAGCTGGCGGGCGATCTCGAACGCGGGCACATCTTCACCGACCGGGTGCTGCATCTGCGCGGGCGGGAGGAAACGCTGCTGCTCGGCGCCGGGACGATGCGTCCTATTCTCGAGAAGCTGCTGCCGGGAATAACCGTGGTCGAGCGGCCGCGCCTGTCGCAGCTCTTTTATGCGGGCCAGAAGAAGATAACCCGCCTGCCGCAGCGCACGGCGATTGTCGCCTTTTCCGCCGATGAGGTCTATGCCATCGCTGAGCTGGTGCGCCGCCAGCGCGGCGGTGCTGCCGTGGTGCTGGGCGCGCTTTCGCCGCGCACGCGCAATGCGCAGGTGGGGCTCTACCAGTCCGGCGACGTCGAATATCTGGTGGCGACGGACGCCATCGGCATGGGTCTCAACCTCGATGTCGACCATGTCGCCTTCGCGCAGGACCGAAAATTCGACGGCTATCAGTTCCGCAATCTCAATCCCGGCGAGATCGGCCAGATCGCCGGCCGCGCCGGCCGCCATCTTCGCGATGGCACATTCGGCGTGACGGGGCGTGTCGATCCGTTCGATGACGAGCTGGTGGAGCGGATCGAAACCCATCAGTTCGATGCGGTGAAGGTTCTGCAGTGGCGGACGAAAAATTTCGATTTTTCCTCCATCGCCAATCTGCGCCTGAGCCTCGATGCCGCGCCGGCGATCCAGGGACTTTCGCGCGCCCTGCCGGCAATCGACCAGCAGGCGCTGGAATATCTGTCGCGTTATCCCGAGATCATCGATGTGACGACGAGCGATGCGCGGGTGGAAAAACTCTGGGAGGCGTGCGCGCTTCCAGACTATCGCCGCATTGCTCCTGCCCAGCACGCGGACCTGATCTCCACGCTCTATTTCGACCTCGTCAAACGCGGGGCGGTGAATGAGGATTTCATGGCCGAGCAGGTGCGTCGCGCCGACCGGACGGATGGAGAGATCGATACCTTGTCTGCGAGGATTGCGCAGATCAGAACATGGACTTATGTATCGAACCGCCCAGGATGGCTTGCCGATCCGACACACTGGCAAGAAAAGACTCGGGAAATCGAGGATCGATTGTCCGATGCGCTACATGAAAGGTTGACGAAACGCTTTGTTGATCGCAGGACATCTGTGCTCATGAGGCGCCTGAGAGAGAATGCGATGCTTGAAGCTGAAATCAGTGTAAATGGTGATGTCTTCGTAGAAGGTCATCACGTCGGCCAGTTGGCCGGGTTCCGGTTCACGCCGGTGCCGGGAATGGAAGGGCCGGATCAGAAGGCCGTGCAGGCTGCGGCGCAGAAGGCGCTTGCGCTCGAATTCGAGGCGCGTGCCGCGCGTCTGCATGCCAGTGGAAATGGCGATCTCGCTTTGAGCTCCGATGGTCTGGTTCGCTGGTTGGGCGAACCGGTTGCCCGCCTTTCGGCCGGCGACAACATCATGAAGCCGCGGGTGATCCTGCTTGCCGACGAGCAGCTGAACGGCAATGCCCGTGATCACGCGCTGGCGCGCGTCGAGCGTTTCGTTAATCATCAGATTGCGACCGTGCTGAAGCCGCTGGACGATATTTCCCGCGCCGAAGACCTTCAGGGTCTGGCGAAGGGTCTGGCGTTCCAGCTCGTGGAAAATCTTGGCGTGCTATTCCGCCGCGACGTTGCCGAAGACGTGAAGTCTCTCGATCAGGATGCGCGCGCCTCCATGCGCCGTTACGGCGTTCGTTTCGGCGCTTATCACGTTTTCCTGCCAGCGCTTCTGAAGCCCGCTCCGGCGGAGCTTGTGACGCTGCTCTGGGCTTTGAAGAATGACGGTCTCGGCAAGCCGGGTTACGGCGATCTCATTCCGGTGCTGGCCGCAGGCCGTACCTCGGTCGTCACCGATGCCAGCTTCGAGCGCATGTTCTACAAGCTTGCCGGTTTCCGCTTCCTCGGAAAGCGCGCCGTGCGTATCGACATTCTCGAGCGTCTGGCCGATCTCATCCGCCCGCTGCTGCAGTGGAAGCCCGGTCAGCAGCCGCGGCCGGAAGGCGCTTATGACGGTCGCCGTTTCACGACAACGACCGCCATGCTTTCCATTCTCGGCGCGACGCTTGATGACATGGAAGAAATTCTGAAGGGCCTCGGTTACCGCGCCGATCAGGTGACGGCTGAAGAGGCGCAGGCCTTCCTCGCCAGCCACGCCGGTGCCTCTGCTCCGGCTGCCGCGGAAGCGGCGACGGCTGAAGAGGAAAGCGTCGAGACCGAGGAACACGAGCCGGCTTCCGAAGAACAGGTGTCCGAGACGGCGGCTGCTGTCGAAGGCGAAGCTGTCGAGGCGCCGGTTGCGGAAGCTGCCAGCGAAGAGGCTGTCGCAGCCGAGGCCGTGCCGGAAGGCGCCGAGGCCGCCGAGCCCAAGCCCGTTCTTCTGTGGCGTCCGGGTGGTCGCAACGAAAATCAGCGTGGCGAAAACCGTCGTCCCGGCAATCGCGGTCAGGGCCGCGGTGAAGGAGCGCGCGAACAGGGCGAGCGTCGCGGTGAAGGCCGTCGCGACAATCGTGACGGTGCAAACCGTGAAGCTGCCAATCGCAGTGGCGACGGTGAGCGCAAGCGCGATGGCGGCCGTCCGGACCGTGGCAACAACCGCAACAATGATCGTCACGATCGCGGGGAGCGCAAAGACCGGCCGGAACGCAATGACCGTGGCGGAAAGCCGCAGGGTCAGCAGCGCTTCGAAGCCAAGCCGCCGCGCAAGGAAAAGCCGCTCGATCCGGATTCGCCTTTTGCAAAGCTCGCTGCTCTCAAGGAGCAGCTGAAGAAGTAA	MILSGRGVTAVLGPTNTGKTHYAIERMVAHGSGVIGLPLRLLAREVYTRLVEKVGAPNVALITGEEKIAPPKAKYSVCTVEAMPRETTAAFVAIDEVQLAGDLERGHIFTDRVLHLRGREETLLLGAGTMRPILEKLLPGITVVERPRLSQLFYAGQKKITRLPQRTAIVAFSADEVYAIAELVRRQRGGAAVVLGALSPRTRNAQVGLYQSGDVEYLVATDAIGMGLNLDVDHVAFAQDRKFDGYQFRNLNPGEIGQIAGRAGRHLRDGTFGVTGRVDPFDDELVERIETHQFDAVKVLQWRTKNFDFSSIANLRLSLDAAPAIQGLSRALPAIDQQALEYLSRYPEIIDVTTSDARVEKLWEACALPDYRRIAPAQHADLISTLYFDLVKRGAVNEDFMAEQVRRADRTDGEIDTLSARIAQIRTWTYVSNRPGWLADPTHWQEKTREIEDRLSDALHERLTKRFVDRRTSVLMRRLRENAMLEAEISVNGDVFVEGHHVGQLAGFRFTPVPGMEGPDQKAVQAAAQKALALEFEARAARLHASGNGDLALSSDGLVRWLGEPVARLSAGDNIMKPRVILLADEQLNGNARDHALARVERFVNHQIATVLKPLDDISRAEDLQGLAKGLAFQLVENLGVLFRRDVAEDVKSLDQDARASMRRYGVRFGAYHVFLPALLKPAPAELVTLLWALKNDGLGKPGYGDLIPVLAAGRTSVVTDASFERMFYKLAGFRFLGKRAVRIDILERLADLIRPLLQWKPGQQPRPEGAYDGRRFTTTTAMLSILGATLDDMEEILKGLGYRADQVTAEEAQAFLASHAGASAPAAAEAATAEEESVETEEHEPASEEQVSETAAAVEGEAVEAPVAEAASEEAVAAEAVPEGAEAAEPKPVLLWRPGGRNENQRGENRRPGNRGQGRGEGAREQGERRGEGRRDNRDGANREAANRSGDGERKRDGGRPDRGNNRNNDRHDRGERKDRPERNDRGGKPQGQQRFEAKPPRKEKPLDPDSPFAKLAALKEQLKK				NA	NA	NA	NA	NA
BMS010_04665	1215	ubiL_1	COG0654	Ubiquinone hydroxylase UbiL	ATGCTGGACGTAGTGGTGGCAGGCGGCGGATATGTCGGTCTTTCCGTTGCTGTCGCAATCAAGCAGGCGGCCCGGCATCTTGATGTGCAGGTGGTTGAGGCCTCTCCCGAGGATGTCTGGTCGAAGGACGTTCGCGCTTCCGCCATTATTGCCGCAGCCACCCGGATGCTCGATGTTTTCGGCATATGGAACGAGATCGAGCCGGAAGCGCAGCCGATACACAAGATGATCGTCACCGATTCGAAGACCGCCGATCCGGTGCGTCCCGTGTTCCTGACTTTCGACGGCGCCGTGGAAGAAGGCAGGCCGTTTGCCCATATGGTTCCGAACGTCGCTCTGGTGGGCGCATTGCGAGGCCTGTGCGAGCGCCTTGGCATAAAAATCCGTCACGGTCTCAGTGTTTCCGATTTTTCCGCGGGTCCCCAGTCGACGGCCATTTGCCTTTCCGACGGCTCGACGCTCGAAGCGCGATTGCTGATTGCCTGTGACGGCGTTCGCTCCGCGCTCAGGGACATGGCCGGTATCAAGACCGTGCACTGGGCTTACGATCAGTCCGGTATCGTGACGACCGTTGAGCATGAGCGGCCGCATGAGGGCTGCGCCGAAGAGCATTTCCTGCCATCCGGCCCCTTCGCCATCCTGCCGCTGAAGGGAAATCGCTCTTCGCTCGTCTGGACCGAACGCACGGCCGATGCCGACAGGCTGGTAGCCTCCGACGATCTGGTGTTCGAGGAGGAACTGGAGCGCCGGTTCGGTCACAAGCTGGGTCCTCTTCGTCCGGTTGGTCCCCGCCGCGCCTTCCCACTGGGTCTGACGCTGGCGCGTTCTTTCGTTGCGCCGCGTTTTGCGCTTGCGGGCGATGCGGCCCACGGCATTCACCCGATTTCCGGGCAGGGCCTCAATCTTGGCTTCAAGGACGTGGCGGCTCTCGCCGAAACCGTGGTCGAGGCCGACCGGCTCGGCCTCGATATCGGCTCACTCAACGTTCTGGAGCGTTACCAGTCGTGGCGGCGTTTCGACACGTTGCGGATGGGCGTGACGACGGATGTGCTGAACCGGCTTTTCTCCAACGATATTGGCCCTATCCGTATCATGCGTGATTTCGGTCTCGGCGTGGTGGATCGTTTGCCGGGTCTCAAATCCTATTTCATCGGTCAGGCCGCCGGCACGACGGATGCGAATGCGCCGCGTCTGCTTGCCGGCGAGGCGCTCTGA	MLDVVVAGGGYVGLSVAVAIKQAARHLDVQVVEASPEDVWSKDVRASAIIAAATRMLDVFGIWNEIEPEAQPIHKMIVTDSKTADPVRPVFLTFDGAVEEGRPFAHMVPNVALVGALRGLCERLGIKIRHGLSVSDFSAGPQSTAICLSDGSTLEARLLIACDGVRSALRDMAGIKTVHWAYDQSGIVTTVEHERPHEGCAEEHFLPSGPFAILPLKGNRSSLVWTERTADADRLVASDDLVFEEELERRFGHKLGPLRPVGPRRAFPLGLTLARSFVAPRFALAGDAAHGIHPISGQGLNLGFKDVAALAETVVEADRLGLDIGSLNVLERYQSWRRFDTLRMGVTTDVLNRLFSNDIGPIRIMRDFGLGVVDRLPGLKSYFIGQAAGTTDANAPRLLAGEAL	PGPT0009550_1015	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009550-ubiH-K03185	NA	NA
BMS010_04666	885	tesB_1	COG1946	Acyl-CoA thioesterase 2	ATGTCGCATCCCTCGCAAACGTCAGACCCGATGGTCAATCTCATCGCCACACTCGATCTTGAGAAGCTGGAAGAGAACCTGTTCCGGGGCGAAAGCCCGCAGATCGGCTGGCAGCGGGTTTTCGGCGGCCAGGTCATCGCGCAGGCCCTGATCGCCGCGCAAAGGACCGTGGATAACGACCGTTTCGTGCATTCGTTACACGCCTATTTCATGCGCCCCGGCGATCCGCTGGTGCCTATCGTCTACCAGGTGAAGCGCATCCGCGACGGCGCGAGCTTCTGCACACGCCGGGTGGTCGCCATCCAGCATGGCAAGGCCATTTTTTCCATGTCGACGTCGTTTCAGATTTTCGAGGATGGTTTCGACCATCAGATCAAAATGCCTGACGTGACGCCGCCTGAAAAACTGATGAGCGAAGAGCAGATGCAGGCAGCCTTTCTTGCCAAGGCGCCCGCCTCTATCCGCAAATACTGGAGCAACAAGCGGCCGATAGAGATACGGCCGGTATCGCTGACCCACTATATCTCCAGGGAAAAACTCGAACCGCAACAGGATATCTGGGTTCGCGCCGTCGGCGATGTGCCTGATGATCCGCGCCTGCAATCGGCCATTCTCGCTTATCTCTCAGATATGACCCTGCTCGACACCTCGCTCTACGCCCATGGCACGACCATCTTCGATCCGTCCATTCAGGTGGCGAGCCTCGATCACGCCATGTGGTTCCACCGCCCCTGCCGACTGGATGACTGGCTGCTCTACACACAGGACAGCCCCAGCGCTTCCGGCGCACGCGGTTTGACCCGTGGCAATATTTTCACCAGACAGGGTGAACTGGTCGCCTCCGTGGCGCAGGAGGGTTTGATCCGCAAAAGGGCAAATGATTAA	MSHPSQTSDPMVNLIATLDLEKLEENLFRGESPQIGWQRVFGGQVIAQALIAAQRTVDNDRFVHSLHAYFMRPGDPLVPIVYQVKRIRDGASFCTRRVVAIQHGKAIFSMSTSFQIFEDGFDHQIKMPDVTPPEKLMSEEQMQAAFLAKAPASIRKYWSNKRPIEIRPVSLTHYISREKLEPQQDIWVRAVGDVPDDPRLQSAILAYLSDMTLLDTSLYAHGTTIFDPSIQVASLDHAMWFHRPCRLDDWLLYTQDSPSASGARGLTRGNIFTRQGELVASVAQEGLIRKRAND	PGPT0001835_691	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001835-tesB-K10805	NA	NA
BMS010_04667	372	glnB_1	COG0347	Nitrogen regulatory protein P-II 1	GTGCCGAGGACAAAACAAAGGATGGGAAACCAGATGAAAATTGTGATGGCCATTATCAAGCCGTTCAAGCTGGATGAAGTGCGCGAAGCGCTCACCGGCGTCGGCATCCAGGGCCTGACCGTGACCGAGGTAAAGGGTTACGGACGCCAGAAGGGGCATACCGAGATTTATCGCGGCACGGAATATGCGGTGAGCTTCCTTCCCAAGCTGAAGATCGAGATCGCAGTTCCATCCGACGTCGTCGACAAGGCCGTCGAAGCGATCGCGTCTGCGGCAAAGACCGGGCAGATCGGTGACGGCAAGATCTTCGTCTACTCTATCGAACAGGCCGTGCGCATCCGTACCGGCGAAACCAACACAGAAGCGCTTTGA	MPRTKQRMGNQMKIVMAIIKPFKLDEVREALTGVGIQGLTVTEVKGYGRQKGHTEIYRGTEYAVSFLPKLKIEIAVPSDVVDKAVEAIASAAKTGQIGDGKIFVYSIEQAVRIRTGETNTEAL	PGPT0000675_52	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-GLUTAMATE|GLUTAMINE_SYNTHASE|GLTS_PATHWAY,PGPT0000675-glnK|glnZ-K04752	NA	NA
BMS010_04668	1350	amtB_1		Ammonia channel	ATGCAACTCAACAAGTTTTCAACGCTCGGCAAGCTGGGCGCCGCAGCGGCGGCCCTGATGGCTCCGGCCATCGCCTTTGCCCAGGATGCAGCGCCGGCAGTGGCCGCGGCCGCTCCCGTTCCGGAAAAAGCCGACACCGCATTCATGTATGTCGCGACGATCCTCGTACTTTTCATGATCGTTCCGGGCCTCGCCCTGTTTTACGGCGGTCTTGTCCGCACCAAGAACATGCTCTCCGTTCTCATGCAGTGCACGGTCGTCGGCGCAGTCATGATGCTCGTCTGGGTAATCTACGGTTACTCCTTCGCCTTTGGCGGCGGCACCGGCCCTTATTTCGGCGGTTTCGGCAAGCTGTTTCTGTCGGGCGTTTCGCTTGACAGCACCTCGGCAACCTTCTCTGAGGGCGTCGTGATCTACGAATACACCTTCATCGCCTTCCAGATGACCTTCGCGGCCATTACGCCGGCGCTGATCATCGGCGCCTTCGCAGAACGCGTCAAATTCTCCGCCGTCATCCTCTTCACCATCCTGTGGGCCACCTTCGTCTATTTCCCGATCGCTCACATGGTCTGGGATGCAAACGGCCTGATCTTCGGCATGGGCGCTCTCGACTTCGCCGGCGGCACTGTCGTTCACATCAATGCCGGCATCGCAGGCCTGATCGGCGCGATCATGGTCGGCAAGCGTACCGGCTTCGGCAAGGACATGATGGCCCCCCACTCGATGACGCTGACGCTGGTCGGCGCAGCCATGCTGTGGTTCGGCTGGTTCGGCTTCAACGCCGGTTCCAACCTCGAAGCATCGGGCGGTGCGGTTCTCGCAACCATGAACACCTTCCTCGCAACCGCAGCCGCCATCGTTTCCTGGTCGCTGGTTGAAAGCTTCACCCGCGGCAAGGCCTCCATGCTGGGCGCCGCTTCGGGCATGATCGCCGGTCTCGTCGCCGTCACGCCGGCTGCAGGCTCCGTCGGCCCGATGGGTGCCATCGTTCTCGGCCTCATCGTCTCGCCGATCTGCTACTTCTTCGTCTCCGTAGTGAAGAACAAGTTCGGTTATGACGACACGGCTGACGTCTTCGGCGTCCACGGTATCGGCGGTATCATCGGCGCTCTCGGCACCGGCATCTTCACCTCGCCGCTGCTTGGCGGCACAGGCAAGGAAGACTTCTCCATCGCCTCGCAGGTCTGGACGCAGTTCGTCGCCGTCGCCATCACCATCGTCTGGTGCGCCATCGTCTCCGCGATCCTGTACAAGATCGTCGACGTGATCGTCGGTCTGCGGGTTCCGGTCGAAGCCGAACGCGAAGGTCTCGACCTCGCAACCCACGGCGAAGCCGCCTACCACTCCTGA	MQLNKFSTLGKLGAAAAALMAPAIAFAQDAAPAVAAAAPVPEKADTAFMYVATILVLFMIVPGLALFYGGLVRTKNMLSVLMQCTVVGAVMMLVWVIYGYSFAFGGGTGPYFGGFGKLFLSGVSLDSTSATFSEGVVIYEYTFIAFQMTFAAITPALIIGAFAERVKFSAVILFTILWATFVYFPIAHMVWDANGLIFGMGALDFAGGTVVHINAGIAGLIGAIMVGKRTGFGKDMMAPHSMTLTLVGAAMLWFGWFGFNAGSNLEASGGAVLATMNTFLATAAAIVSWSLVESFTRGKASMLGAASGMIAGLVAVTPAAGSVGPMGAIVLGLIVSPICYFFVSVVKNKFGYDDTADVFGVHGIGGIIGALGTGIFTSPLLGGTGKEDFSIASQVWTQFVAVAITIVWCAIVSAILYKIVDVIVGLRVPVEAEREGLDLATHGEAAYHS	PGPT0000840_3618	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-AMMONIUM_ASSIMILATION|USAGE	N-AQUISITION-AMMONIUM_TRANSPORT,PGPT0000840-amtB|ybaG|amt-K03320	NA	NA
BMS010_04669	2667			hypothetical protein	ATGCATTCTCCGACATTCGATGGTCGTCACACGCGCTTCGTGTTGACGGCGTTTTTCGTGCGTCAGATCATGGCTCTCGCCGGTTTCGCTCTGCTGGCCACGATTGCACTGGGCATCGCCGCGCTCGCGACATGGAATGTCGCGGATCCGAGCCTCTCCTACGCGACAGGAAACCAGCCTACCAATCTTCTGGGTTACGGCGGTGCGATTTTCGCCGATATCGTGATGCAGTTCCTCGGGCTTTCCGCAATCATCTCGCTCCTGCCCGTCATCGCCTGGGCGATCGCGCTGATCGCCGGCCGCAAATTCCACCGCATACCCGTTCGCCTTGTGGCCTGGGTCGCAGGCGCCATCGTCTGCGCCGCCTCGCTCGGCTGTTTTCCGGCCCCCGTGACATGGCCGCTGCCGAACGGCATCGGCGGCGTCATCGGTGACATGATCCTTCGTTTTCCCGCCCTTTTTATCGGCGCTTACCCCACCGGCACGATTGCCACGGTACTGGGCGTGATATTCGCGGCGCCTGCCGCATGGCTGATGCTGTTTGCCGCCGGTGTCGTTGGCGGTCTGGATGACGAGTTGGAACGCGAAGAGGCCGCTCCCGTCGCCACCAGCAAGACCCGCGCCGCCCGTGAGGCCGAAGAGGATGATGAAGACGACGGCGAGGGTTTCTTCGCCAATATGCTCGCCTTCGGCGCGCTGGCGCATTATTGGTACATCACCCAGGCGCGCCTGCGCCGCCTGTTCGGCCTGAAGTCGAAATCACTGCACGATGAATTCGAACATCCTTACGACTTCAACGAATATGAATTCGGCACGCTGAACGAACCGTCGCGCCTCAAGACCGCGATCAACCGCCTCGACCAGCGCGCAGAGCCGTCTTTCGAAGAACGCGCCGCATCGCGTCGCCAGATGTCACCTCCCTCCATCGCGCTCGATCATGACGAGGACATGGATGACGAACAAACCTTCGACGCGGATGGACGCAGGCTGCCGAACGGCATTCTCTCCGACGACGAGTCCGACCAGAAATTCACGGCCCGACAGGCGCCGGGACGCGGGCAGCCCAGAATAACCGCCCCTTCCGCACGCCCGAAGCCCAGTGAGCGCGTGGCAAGGGAAGCGCAGGCCTCTTTCATCGCCGCAGACGGTTTCCAGCTCCCCACCGTCCACCTTCTGGCAGAGCCGAAGAATGTCGTGCGCGACAATATGCTGAGCGAGGAAGTGCTGGAACAGAATGCCCGCCTTCTGGAAGGCGTTCTCGAGGATTTCGGCGTCAAGGGCGAGATCATTCATGTCCGCCCCGGCCCGGTCGTCACGCTCTACGAACTGGAACCGGCACCCGGCATCAAATCGTCGCGCGTCATCGGCCTTGCCGATGACATCGCCCGCTCCATGAGCGCGATCGCCGCCCGCGTCGCCGTCGTGCCCGGCCGCAATGCCATCGGCATCGAACTGCCGAACCAGACGCGCGAAACCGTGTTCCTGCGGGAACTGATCGGCAGCCGCGATTTCGAAAACAGCAAGGCCAAACTCGCCATGGCTCTCGGCAAGACCATCGGCGGCGAACCGGTCATCGCCGATCTCGCCAAGATGCCGCATCTGCTCGTTGCCGGCACCACAGGTTCGGGCAAGTCGGTCGCCATCAACACCATGATCCTGTCGCTGCTTTACCGCATGTCGCCGGAACAGTGCCGGCTGATCATGATCGACCCGAAAATGCTCGAACTGTCGATCTATGACGGCATTCCGCATCTGCTCTCTCCCGTCGTTACCGATCCGAAAAAGGCCGTCGTGGCGCTGAAGTGGACGGTGCGCGAGATGGAAGAGCGCTACAAGAAGATGTCGAAGATCGGCGTGCGCAATATCGACGGCTTCAACAGCCGCGTGCAGCAGGCGCTCGACAAGGGCGAGATACTCACCCGCACGGTACAGACCGGCTTCGACCGCCAGACGGGCGAGGCGATCTACGAAACGGAAGAGTTCGATCTGAAGCCCCTGCCCTATATCGTCGTCATCATCGACGAAATGGCCGACCTGATGATGGTGGCCGGCAAGGACATCGAAGGCGCGGTGCAGCGCCTGGCGCAGATGGCGCGCGCCGCGGGCATCCATGTCATCATGGCGACCCAGCGCCCCTCCGTCGACGTCATCACCGGCACGATCAAGGCAAACTTCCCGACCCGCATTTCCTTCCAGGTGACGTCGAAGATCGACAGCCGCACCATCCTTGGAGAACAGGGCGCCGAACAGCTGCTCGGCATGGGCGACATGCTCTATATGGCAGGCGGCGGACGCATCCAGCGCGTGCACGGTCCTTTCGTTTCCGACAACGAGGTGGAAGAGATCGTCGCCTATCTGAAAACACAGGGCGCACCGGAATATCTGGAAGCGATTACCGAGGAAGACGACGAGGAAGGCAATGGCGGCGGCCCGGCCAGCGCCGGCAGTTTCTCCGATTCCGAGGACCCTTACGATCAGGCCGTGGCCGTCGTGCTTCGCGATGGCAAGGCCTCCACATCCTATGTGCAGCGGCGTCTCGGCATCGGTTACAACCGCGCCGCCTCGCTGATCGAGCGCATGGAGCAGGAGGGCATTATCGGCCCCGCCAACCACGCCGGAAAACGTGAAATACTCGTACCGACGGAAGCAGACATCATCGAGCGGTAA	MHSPTFDGRHTRFVLTAFFVRQIMALAGFALLATIALGIAALATWNVADPSLSYATGNQPTNLLGYGGAIFADIVMQFLGLSAIISLLPVIAWAIALIAGRKFHRIPVRLVAWVAGAIVCAASLGCFPAPVTWPLPNGIGGVIGDMILRFPALFIGAYPTGTIATVLGVIFAAPAAWLMLFAAGVVGGLDDELEREEAAPVATSKTRAAREAEEDDEDDGEGFFANMLAFGALAHYWYITQARLRRLFGLKSKSLHDEFEHPYDFNEYEFGTLNEPSRLKTAINRLDQRAEPSFEERAASRRQMSPPSIALDHDEDMDDEQTFDADGRRLPNGILSDDESDQKFTARQAPGRGQPRITAPSARPKPSERVAREAQASFIAADGFQLPTVHLLAEPKNVVRDNMLSEEVLEQNARLLEGVLEDFGVKGEIIHVRPGPVVTLYELEPAPGIKSSRVIGLADDIARSMSAIAARVAVVPGRNAIGIELPNQTRETVFLRELIGSRDFENSKAKLAMALGKTIGGEPVIADLAKMPHLLVAGTTGSGKSVAINTMILSLLYRMSPEQCRLIMIDPKMLELSIYDGIPHLLSPVVTDPKKAVVALKWTVREMEERYKKMSKIGVRNIDGFNSRVQQALDKGEILTRTVQTGFDRQTGEAIYETEEFDLKPLPYIVVIIDEMADLMMVAGKDIEGAVQRLAQMARAAGIHVIMATQRPSVDVITGTIKANFPTRISFQVTSKIDSRTILGEQGAEQLLGMGDMLYMAGGGRIQRVHGPFVSDNEVEEIVAYLKTQGAPEYLEAITEEDDEEGNGGGPASAGSFSDSEDPYDQAVAVVLRDGKASTSYVQRRLGIGYNRAASLIERMEQEGIIGPANHAGKREILVPTEADIIER	PGPT0030468_3605	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION-ESS_SYSTEM,PGPT0030468-essC|eccC|ftsK|spoIIIE-K03466	NA	NA
BMS010_04670	675	lolA_2		Outer-membrane lipoprotein carrier protein	ATGAACGACCTCACCACCGGCGAAACGGCCAACGCAAACACACCGCAAAACGGCGTGACGCGTCGTGGCGTGCTGACGGCATTTTCCATGGCCGCAATCATGGCCGGCCTGTCACCGCTTGACGCCTTTGCCCAGGCGGCCGGCAACACGGCGACAGCGCAGAAAATCGCCAATCACTTCTCGTCGGTCAAAACCATGATGGGGGAATTCGTCCAGTTCGGCCCGCGCGGTGAACAGACCGGCGGCAAGTTCTACATCGAACGCCCCGGCAAACTCCGCTTCAACTACGAAGACCCCTCGCCCATGCGGGTCATCGCCGACGGCAAGAACGTCGTTATCGGCAATATGAAGCTCAAGACCTGGGATCTTTATCCGCTTTCCAAGACGCCGCTCAGCCTGCTTCTGTCCGACAAGATCGATCTCGGCAATCAGAAGGTCCGCAACGTCAAGGAAGAATCGGACCTGACCACCATCGTGCTGGGCGACAAGAGCGTCTTCGGCGATTCCACCATTACCCTGATGTTCGATCCGAAGACCTTCGATCTGAGGCAATGGACCACGACCGATGCCCAGAACAAGGACACGACCGTCATGATCTTCAACGTCCAGACCGGCGTGAACCTCGATGAACGCGTCTTCAACATCAATTACGAGGAAGTCCGCAAAGGCGGCTGA	MNDLTTGETANANTPQNGVTRRGVLTAFSMAAIMAGLSPLDAFAQAAGNTATAQKIANHFSSVKTMMGEFVQFGPRGEQTGGKFYIERPGKLRFNYEDPSPMRVIADGKNVVIGNMKLKTWDLYPLSKTPLSLLLSDKIDLGNQKVRNVKEESDLTTIVLGDKSVFGDSTITLMFDPKTFDLRQWTTTDAQNKDTTVMIFNVQTGVNLDERVFNINYEEVRKGG				NA	NA	NA	NA	NA
BMS010_04671	804	xthA_3	COG0708	Exodeoxyribonuclease III	ATGTCGTTTTCGATAACCACCTGGAACATCAACTCGGTCAGGCTCAGAATGCCGATCGTTGAGCAGTTTCTGGTACGTTACAAACCCGACATTCTCTGCCTGCAGGAAACGAAATGCCCGAATGGCGAGTTTCCGATGAAGCCGCTGAAGGCGCTCGGTTATGAGCACGTCATTATCCATGGCCAGAAGGGCTATCACGGCGTCGCCATTGCCTCGAAGATTCCGCTGATCGAAGACCATCGGCAGGATTATTGTGGCGTCGGCGATGCGCGGCATATTTCCGCGATTTTCCAGGTCGGATCGCGCCGCGTGCGACTGCATAATTTTTATGTGCCGGCAGGCGGTGACGAGCCGGATCGCTCGATCAATCCGAAATTCGGCCACAAGCTGGATTTTATCGAGGAGATGAAGGCGCTGCGCGCCGACGGTGTACCTGGCACCTCGTCCATTCTCGTCGGCGATCTCAACATCGCACCGCTCGAAAATGACGTCTGGTCGCACAAGCAGCTTCTGAAGATCGTCAGCCATACGCCTGTCGAAACCGAAGGCATGCTTGACATCATGAAGAAGGGCAACTGGCTCGATCTGATGCGCCTGAACGTGCCGGAGACGGAAAAGATCTATACCTGGTGGAGCTACCGCGCCAAGGACTGGGAAGCGGCTGATCGCGGCCGCCGCCTCGACCACATCTGGTCTTCGCAGGATCTCGGTTCCTCGCTCGAAAAAATCGACATATTGCGCGAGGCCCGCGGCTGGAACCGGCCATCCGACCATGTTCCCGTCACCGCCCATTTCCGGTTCTGA	MSFSITTWNINSVRLRMPIVEQFLVRYKPDILCLQETKCPNGEFPMKPLKALGYEHVIIHGQKGYHGVAIASKIPLIEDHRQDYCGVGDARHISAIFQVGSRRVRLHNFYVPAGGDEPDRSINPKFGHKLDFIEEMKALRADGVPGTSSILVGDLNIAPLENDVWSHKQLLKIVSHTPVETEGMLDIMKKGNWLDLMRLNVPETEKIYTWWSYRAKDWEAADRGRRLDHIWSSQDLGSSLEKIDILREARGWNRPSDHVPVTAHFRF				NA	NA	NA	NA	NA
BMS010_04672	456			hypothetical protein	ATGGCCTTGACGGACGATATCATGCTGCTGGGGCAAGTGCCGTTATTTGTGGGGTTCAGCGATGACCAGCTGCGGCTTATCGCCTTCGGTGCGGAGCGCCGCCGTGTATCGGCCGGACAGACATTGTTTCGGGAACACTCACCGGCCGAATGCGCTTTTGCGGTGACGGCTGGCCATTTCGAGCTTTTCACGGCAGGGCGGGATGGCAAGCCCGTGCTGCAGGCGACGCCGGGCAAGGGGGCGCTACTTTCGGAGCTCGCGCTTTTCACGCTCTGCGAACGAAAGTTTACTGCCGTGGCAGTGGAGGATTCCGAAGTCATCCGCATAACGCGCATCCTCTTCCACCGGCTGGTGGAGGAGTTTCCGGAGGTTGCCGATATCGTGTCGGCGCGTATTCGCGACAATATCGCGTCGCTGGCGGCGGGTGCGGCCCGTTTGCAGAACCGCTTCGTCTGA	MALTDDIMLLGQVPLFVGFSDDQLRLIAFGAERRRVSAGQTLFREHSPAECAFAVTAGHFELFTAGRDGKPVLQATPGKGALLSELALFTLCERKFTAVAVEDSEVIRITRILFHRLVEEFPEVADIVSARIRDNIASLAAGAARLQNRFV				NA	NA	NA	NA	NA
BMS010_04673	684	walR_1	COG0745	Transcriptional regulatory protein WalR	ATGACGGCTCGCACTATCCTTCTGGTGGACGATGACGACGATCTTCGGGAGACGCTGACCGAGCAATTGTCTCCCTATGAGGAATTCTCGCTGCTCAGCGGCGCCAATGCCGCGCAGGCGATGCAGACCGCCAAGACCGCCCAGGTCGATCTTCTGATCATGGATGTCGGCCTTCCGGATATGGACGGCCGTGAGGCGGTAAAGCTGTTGCGCAAGGGCGGCTTCAAGGCGCCGATCATCATGCTGACCGGGCATGATACAGATTCCGATACTATTCTTGGGTTGGAAGCCGGGGCGAACGACTATGTGACGAAACCCTTCCGTTTCGCCGTGCTTCTGGCGCGTATCCGGGCGCAGCTGCGTCAATACGAGCAGAGTGAGGATGCGGTTTTCACCGTCGGTCCCTATCAGTTCAAGCCCAGCCAGAAGCTGTTGACGACGGAGGACGGCAAGAAAATCCGGCTGACGGAAAAGGAAGCGGCGATCATCCGTTATCTCTACCGCGCCGGCAGCACCGTCGTTACCCGCGACGTCCTGCTGGAAGAGGTCTGGGGTTACAATTCCGGTGTGACAACGCATACACTGGAAACGCATGTCTATCGTCTGCGCCAGAAGATCGAACGCGACCCGTCCAACGCTGAAATTCTGGTGACCGAGAACGGCGGATACAAGATCGTTCCCTGA	MTARTILLVDDDDDLRETLTEQLSPYEEFSLLSGANAAQAMQTAKTAQVDLLIMDVGLPDMDGREAVKLLRKGGFKAPIIMLTGHDTDSDTILGLEAGANDYVTKPFRFAVLLARIRAQLRQYEQSEDAVFTVGPYQFKPSQKLLTTEDGKKIRLTEKEAAIIRYLYRAGSTVVTRDVLLEEVWGYNSGVTTHTLETHVYRLRQKIERDPSNAEILVTENGGYKIVP	PGPT0014763_105	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-ENVELOPE_REMODELLING_REGULATION	CE-ENVELOPE_REMODELLING_REGULATION_FACTOR,PGPT0014763-walR-NA	NA	NA
BMS010_04674	504			hypothetical protein	ATGGTTCGGCCCGCCCCCTCGAAAATCAGCCGCGCCATCGTCCAGCTCGGGCATCTCACCTTTCCCGCCGCGATCGGACGCAATGGCCGCACTGCGCTGAAACGCGAAGGAGACGGAAAATCTCCCATCTCCACCATCGGCCTGCTGCACGGGTTTTATCGCGGCGACCGCCTTGCCGGCATCGCCACGGCACTACCGATGCAGCGAACACGCAAGTCCATGCTGTGGTGCGACGAGCCCCGTAGTCCCAGTTACAACAGACTGGTCAAGGCGCCCTTCGCCGCGAGCTATGAAGAGATGATGCGCAAGGACAGCCTCTACGACGTCTGCCTGGTGCTCGACTGGAATATCACCTCGAGAAGCCGCAACCGCGGCTCGGCAATCTTCATGCATCTGATCAGACCGGGATATGAGCCGACGGCGGGCTGCGTCGCCCTCCATCCCCGTGACATGCGGCGCATCCTGCCGCATCTGCGCAAAGGCACGAAAATCCGCATCCTGTGA	MVRPAPSKISRAIVQLGHLTFPAAIGRNGRTALKREGDGKSPISTIGLLHGFYRGDRLAGIATALPMQRTRKSMLWCDEPRSPSYNRLVKAPFAASYEEMMRKDSLYDVCLVLDWNITSRSRNRGSAIFMHLIRPGYEPTAGCVALHPRDMRRILPHLRKGTKIRIL				NA	NA	NA	NA	NA
BMS010_04675	570	carD	COG1329	RNA polymerase-binding transcription factor CarD	ATGACGACCCAGCAGAAGAAATCTCCAGCACATCACGGTTTCAAGACCGGTGAAGCGATTGTGTATCCCGCTCATGGTGTCGGTACCATTTCTGCCATCGAGGAACAAGAAGTCGCCGGCATGAAGCTTGAGCTTTTTGTCATTGATTTCGAAAAAGACAAGATGCGTCTTAAAGTTCCCGTCGCCAAAGCCGTCAGCATCGGCATGCGCAAGCTTTCCGAAGGCGATTTTGTCGAGCGGGCGCTGAAAGTGGTGCAGGGCAAGGCGCGTGTGAAGCGTACCATGTGGTCGCGCCGCGCGCAGGAATATGATGCGAAGATCAATTCCGGCGATCTCATCGCGATTGCGGAAGTCGTGCGCGATCTCTACCGTGCGGAAAATCAGCCGGAGCAGTCCTATTCCGAGCGTCAGCTTTATGAAGCTGCTCTCGACCGCATGGCGCGCGAAATCGCCGCCGTCAACAAGATGTCCGAAACCGAGGCTGTTCGCCTGGTGGAAGTGAACCTTGCCAAGGGCCCCAAGCGCGGCAAGACCGTCGAAGAGGACGATTCTCAGGACGAAGCCGCTTAA	MTTQQKKSPAHHGFKTGEAIVYPAHGVGTISAIEEQEVAGMKLELFVIDFEKDKMRLKVPVAKAVSIGMRKLSEGDFVERALKVVQGKARVKRTMWSRRAQEYDAKINSGDLIAIAEVVRDLYRAENQPEQSYSERQLYEAALDRMAREIAAVNKMSETEAVRLVEVNLAKGPKRGKTVEEDDSQDEAA	PGPT0014830_355	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-STRINGENT_STRESS_RESPONSE,PGPT0014830-ydeB|carD-K07736	NA	NA
BMS010_04676	4761	gdhB_1	COG2902	NAD-specific glutamate dehydrogenase	ATGGGCTACAGAAACAATCCAAAACGCGAAAAACAGATCGAAAAAGCGCGCCAGCAGGCAATTGCCGAAAATGTCCAATTTCTTGATCCGGGTATTCTTTATGGAAGGGCAAGCGCCGACGATATAGAATATTATTCCGCTGAGATGCTGGCTGCGAGCGCCGCTCACAGTTTCGAGGCGCTTTCGCACTGGACCGGAGACGCTCCGTACATCGACATCTCCCAGGTGGAGGGCGTTTCGCCGCGGGATATTCCGGTAACGGTCCTGACCATTATTGGCCGCAATATGCCCTTCCTTTACGATTCTGTCATGGGCGAAGTCACCAGCAGCTATCGCGGTCTTTACCTCGCGGTGCATCCGATCCTGGTGCGCGACGAAAGCGCGCAGGCAGGCTACCGTCTTGCGGAACCCGAGGATGATCCCGCTGAAAATATCAGCCTCATCCAGCTGCATATCGCGCCGCTCACGCCGCAAGCCGCCGCAGCGCTGGAAGAAAGACTGCGCTTCGTGCTGACGCAGGTTCAGTTCGCCTATCGCGACTGGCGGCCCATGCTGGCGAAACTCGACGAGGCGCTGTATGAATTGTCCAGGCGCGGCTCGTCACGGCGCAAGACCGAGCGTGCGGAGGCCGTCGAATTCCTCAACTGGCTTCGCAACGACAATTTCACCTTCCTCGGCATGCGTGACTACACCTATTCAGGCAAGGGGAAGAACGCGAAGATCGAGCGCGGTGACGGCGTCGGCCTCGGCAGCCTCAGCGATCCGGATGTCCGCGTGCTGCGTCTCGGCAAGAATGCCGTGACGACGACGCCGGAAATCCTTGCCTTCCTCGACGGCCCGGATTTCCTCATCGTCACCAAGGCCAATGTGAAATCCATCGTGCACCGCCGTGCCTATATGGATTACATCGGCATCAAGCGCTTCGACGAGGACGGCAATGTCATCGGCGAACTGCGCATCGTCGGCCTCTTCACCGCCACCGCCTATACGCGCTCGGTCAAGCAGATACCGCTGCTGCGCGCCAAGGTGGCGGAAGTCGAGCGGCATTTCGGCTTCGATCCGAACAGCCACTCGGGCCGCATCCTGCAGAACACGCTGGAAGCCTATCCGCGTGACGATCTCTTCCAGATCGAAACCGATCTTCTGATCCGCTTCGTCGAGCAGATCATGGAACTGAGCGACCGGCCGCGCGTGCGCGTGCTTGCACGTATCGACCGTTTCGACCGTTTCGTTTCGGCCATCATCTTCGTTCCGCGCGAGGAGTATAATTCTTATGTGCGCGAGAAGATCGGCGATTATCTGAGCAGGGTCTATGACGGGCATATTTCCGCCTATTACCCCGCCTTCCCCGAAGGCGCCGTCGCCCGCGTCCACTTCATTGTCGGCCGAACCGAAGGCAAGACGCCGCGCATCGCCCAGGACAAGCTCGAAGACGCCGTCAGCGACATTGCAGCGCGCTGGATAGACCATTTCGTCGCCCTCTCCGAGCCGGGAGCACCGGTGCTGGAGGTCGATCAGGCCTATCAGGAAGCCTTCACACCGGAAGAAGCGATCGGCGACATGCCGGATATTCTCGGCGCCGCGAAGGGTGAGCCGGTCCGCATCGAATTTTACCAGCAGGAAGGTCAATCGGCGGAGACGCTGTCGCTGAAGATTTTCCACCGCGACGGCCACCTGCCGCTTTCGCGCCGCGTGCCGCTGCTCGAAAATCTCGGTTTCAACGTCATCAGCGAACGCACCTTCGATATCGGCGTCGTTTCGGACGGCGAAAAGCGCGACATCGTGCTGCACGACATGGAATTGTCCGTCGCCAAGGGAACGACGCTCGATCTGCCGCGCTATGGACAGAAACTCGAAGAAGCTTTCCTCGCCGCCTTCTCCGGCAAGGTCGACAATGACAACTTCAACCGCCTGATCCTCGCCTGCGGCCTCACCGTGCGCGAAGTCTCCGTACTGCGCGCCTATGCGCGTTATCTCCGCCAGACCGGCATCGTCTATTCGCAGGAGCATATTTCCGAAACGCTCTATAAGTATCCGGCGATTTCCCGCAATATTTTCGCGCTGTTCAAGGCCGGCTTCGATCCGTCCGTCGACGAAAAGAAGCGGCTGAAGAAACTCGCCGAAATACACAAGGCAATCGAAGCGGCATTGAGCGGCGTTCCCAATCTCGATGAGGACCGCACCCTCAGGCGTTACGTCAACGCCATCGACGCGACGCTGCGCACCAACTACTTCCAGAAAAATGCCGATGGTACGCCGCGTGACCTGTTGGCCTTCAAGTTCGATCCGAAACATCTGGACGGCCTGCCCGACCCACGGCCTTTCCGCGAAATCTTCGTCTACGGAACAGAGGTCGAAGGCGTGCATCTGCGCTTCGGCAAGGTCGCGCGCGGCGGTCTGCGCTGGTCGGATCGCGGCCAGGATTACCGCACGGAAGTGCTCGGCCTCGTCAAGGCGCAACAGGTCAAGAATGCGGTGATCGTTCCGGTCGGCGCCAAGGGCGGCTTCTTCCCGAAGAACCTGCCGGCCGGCGGCTCCCGCGACGAGGTCTTCAATGCCGGCCGCGAGGCCTACAAGACCTATATCCGCACCCTGCTATCCATCACCGACAATATCGTCGACGATGCCATCGTGCCGCCAGCCGATACGCTGCGGCTCGACGGTGACGACCCCTATTTCGTCGTCGCCGCCGACAAGGGAACGGCGACCTTCTCCGATACGGCGAACGGTCTTGCCCATGAGGCCGGTTTCTGGCTGGACGACGCCTTCGCATCGGGCGGTTCGGCCGGTTACGACCACAAGAAGATGGGCATTACCGCCCGTGGCGCCTGGGAAACGGTGAAACGCCATTTCCGTGAAATGGACACCGACATCCAGACCACCCCCTTCACTGTGGCGGGCGTGGGCGATATGTCCGGCGACGTTTTCGGCAACGGCATGCTGCTGTCGGAAAAGATCAGGCTGATTGCCGCCTTCGATCACCGCGACATCTTCATCGATCCGGATCCCGACACCGACAAGTCCTTTGCCGAACGCAAGCGGCTTTTCGAACTGCCGCGTTCCAGCTGGCAGGATTACGATCGTTCGGCCCTCTCCGCCGGCGCGATGATCATCTCGCGCTCGGAAAAATCGGTGACGCTGACACCGGAAGCCGTGGCCGCCATCGGCATCGACAAATCCGTCGCCACGCCCTTCGAGATCATGACGGCCATCCTGAAGGCGCCAACCGATCTTCTGTGGTTCGGCGGCATCGGCACCTACATCAAGGCGGCGGTGGAAACCAATGCCGAGGTGGGTGACAGGGCGAACGACCCCATTCGCGTCAACGCAACCGAGCTGCGCGCCAAGGTCATCGGCGAAGGCGCCAATCTCGGCATCACCCAGAAGGGACGCATCGCCTATGCGCTTTCGGGCGGGCGATGCAATTCCGACGCCATCGACAACTCGGCCGGCGTGAACTCCTCGGACGTCGAGGTCAACATCAAGATCGCGCTTGCCTCCGCCGTTAACAGCGGTCGCCTGACGATGCCGAAACGCAACCAGCTTCTTGCTTCCATGACGCCGGAAGTGGCGCAGCTGGTATTGCGCAACAACTACCTGCAATCGCTGGCGATCTCGCTGACGGAGCGGCTGGGCCTTTCGAACCGGGAAGAACTCGGCCGCCTGATGAGCGCGCTGGAGGCGACCGGACAACTGAACCGCAAGGTCGAAACCCTGCCCAACAATGCCGAATTCAGCGAAAGATACGCCACCGGCAAACCGCTGACCCGGCCGGAAATCGGCGTGCTCCTCTCCTATGCCAAGCTCACATTGTTCGATGCATTGGTGGCAAGCACGCTTCCCGACGAACCCTATCTCCAGCATCTTCTGGTCGATTATTTCCCGGCCAAGATGCAGAAGAACTATGCGGACGATATCAAGTCGCATCGTCTGCATCGCGAAATCGTCGCGACCGCGCTCGCCAATGCCGTCGTCAATCGCGGCGGCCCGGGCTTTGTGCAGAAGCTTGCCGATGCGAGCGGCCTTCTGGCGGCCGATGTCGTCAAGGCGGCAGTGATCGTCGAGGATGGTTTCGGTCTCAAACGCCTGTGGAGCGAAGTCGACGCGCTTGACGGCAAGGTCGGCGGTGAAGTCCAGAACGGACTTTATGCCACGATCACGCGTATCTTCTCGGATGCGAGCAGGCTTTACCTGCAAACCGGGAGCGCGGGTGCGGCCGCAGGTGACATGGCGACCGAAATCGAGCGCCTGAAAACTGCGATCAAGACCCTATCGCCGGCAGCGGCGAAGTATCGCCGCGAACTCGGCGTCACGGAAATCGACGGCGTTCCTTCCGGTCTTCTGGAGGAACTCGATACGCTTTCCCTGCTCGTCTATGTGCCGGAGATCATGCGCATCGCCGAAAGCGCCGGCACCACGCTTGCCCGCGCCGCCGAAAGCTACGCCACCGTCTCATCGACCTTCCGCGTCGCGCGTCTGCTGGATGCAAGCCAGCGCATCACACCGGCGGATCATTACGAGAGTCTGGCTCTCCTGCGCAGCCAGGACCAGATCTCCTCGTCGCGACGCCGAATCGTCATCTCCGCACTGACCGAATATGCCAAAGAAAAGGATCCGGTTCAGGCCTGGTATGCGGCGGACCGCGTGCGGGTCAACCGCATCGTCTCCGAACTCGGCGCGCTCAGCGACAGCGGCGATACCAACCTTGCCCGTCTGACGGTCGCGGCCGGGCTGCTTGGCGATATTGTTCAGGCACGCTGA	MGYRNNPKREKQIEKARQQAIAENVQFLDPGILYGRASADDIEYYSAEMLAASAAHSFEALSHWTGDAPYIDISQVEGVSPRDIPVTVLTIIGRNMPFLYDSVMGEVTSSYRGLYLAVHPILVRDESAQAGYRLAEPEDDPAENISLIQLHIAPLTPQAAAALEERLRFVLTQVQFAYRDWRPMLAKLDEALYELSRRGSSRRKTERAEAVEFLNWLRNDNFTFLGMRDYTYSGKGKNAKIERGDGVGLGSLSDPDVRVLRLGKNAVTTTPEILAFLDGPDFLIVTKANVKSIVHRRAYMDYIGIKRFDEDGNVIGELRIVGLFTATAYTRSVKQIPLLRAKVAEVERHFGFDPNSHSGRILQNTLEAYPRDDLFQIETDLLIRFVEQIMELSDRPRVRVLARIDRFDRFVSAIIFVPREEYNSYVREKIGDYLSRVYDGHISAYYPAFPEGAVARVHFIVGRTEGKTPRIAQDKLEDAVSDIAARWIDHFVALSEPGAPVLEVDQAYQEAFTPEEAIGDMPDILGAAKGEPVRIEFYQQEGQSAETLSLKIFHRDGHLPLSRRVPLLENLGFNVISERTFDIGVVSDGEKRDIVLHDMELSVAKGTTLDLPRYGQKLEEAFLAAFSGKVDNDNFNRLILACGLTVREVSVLRAYARYLRQTGIVYSQEHISETLYKYPAISRNIFALFKAGFDPSVDEKKRLKKLAEIHKAIEAALSGVPNLDEDRTLRRYVNAIDATLRTNYFQKNADGTPRDLLAFKFDPKHLDGLPDPRPFREIFVYGTEVEGVHLRFGKVARGGLRWSDRGQDYRTEVLGLVKAQQVKNAVIVPVGAKGGFFPKNLPAGGSRDEVFNAGREAYKTYIRTLLSITDNIVDDAIVPPADTLRLDGDDPYFVVAADKGTATFSDTANGLAHEAGFWLDDAFASGGSAGYDHKKMGITARGAWETVKRHFREMDTDIQTTPFTVAGVGDMSGDVFGNGMLLSEKIRLIAAFDHRDIFIDPDPDTDKSFAERKRLFELPRSSWQDYDRSALSAGAMIISRSEKSVTLTPEAVAAIGIDKSVATPFEIMTAILKAPTDLLWFGGIGTYIKAAVETNAEVGDRANDPIRVNATELRAKVIGEGANLGITQKGRIAYALSGGRCNSDAIDNSAGVNSSDVEVNIKIALASAVNSGRLTMPKRNQLLASMTPEVAQLVLRNNYLQSLAISLTERLGLSNREELGRLMSALEATGQLNRKVETLPNNAEFSERYATGKPLTRPEIGVLLSYAKLTLFDALVASTLPDEPYLQHLLVDYFPAKMQKNYADDIKSHRLHREIVATALANAVVNRGGPGFVQKLADASGLLAADVVKAAVIVEDGFGLKRLWSEVDALDGKVGGEVQNGLYATITRIFSDASRLYLQTGSAGAAAGDMATEIERLKTAIKTLSPAAAKYRRELGVTEIDGVPSGLLEELDTLSLLVYVPEIMRIAESAGTTLARAAESYATVSSTFRVARLLDASQRITPADHYESLALLRSQDQISSSRRRIVISALTEYAKEKDPVQAWYAADRVRVNRIVSELGALSDSGDTNLARLTVAAGLLGDIVQAR	PGPT0014290_1342	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014290-gdhB-K15371	NA	NA
BMS010_04677	1377			hypothetical protein	ATGACTGTCCCTTCCCCAAATGCGGAAACAGTGGTTGCCAAACGCGGCATCTGGGGCTGGGTGATGTTCGACTGGGCGGCGCAGCCGTTTTTCACGGTCGTCACGACCTTCGTTTTCGGACCCTATTTCGTCGCACGGCTTACCGATGATCCGATTTCGGCGCAGGCAACTTGGAGCAACATGGCGACGGTGTCGTCGATCATCATCGCCCTCTTCTCCCCCATTCTCGGCTCCATCGCCGACCAGTCCGGCGCACGCAAGCCGTGGATCGCCTTTTTTGCCGCCATCAAGATCGTCAGTCTTTTCTTCCTGTGGTTCGCAACACCCGGATCGCCGCTCATCCTGCCGATTATCTGTATTATCCTCGCTTCCATCGCGGCCGAATTCTCGATTGTCTTCAACGATTCCATGATGCCGCGGCTGACCAACCCGCAAAATGTCGGGCGCATTTCCAATGTCGCCTGGGGGCTTGGTTATCTCGGCGGGATGGTGGTGCTGACCGCCGTGGTGACGCTTCTGGCCGCAAGCCCTAAAACCGGGCTGACATTGGCCGGAATTACGCCGCTCTTAGGACTGGACCCCGCCAGCGGTGCGGATGCGCGAGTAACCGGGCCAATTGCCGCAATCTGGTATCTCGTCTTCATTCTACCAATGTTCCTGTTCACGCCCGATGCGAGAAGGGGCCTGCCCTTCGGCGTGGCGATCCGCTCAGGGCTTTCTGAACTTAACAACACGTTGCGTGAGCTGCGCAGCCGCCCGCTTCTGCTACGATTTTTCATCGCCCGGATGCTGTATCAGGATGGCGTGAATGGGCTCATCATCCTCGGAGGAACGTTTGCTGCCGGAATGTTCGGCTGGGAGACTATGGAAATAGGCCTTTTTGGCATTTTGCTTAATATAGTTGCCATCGCAGGCTGTTTCACGGCCGGGCGCGTCGATCAGACACTCGGCTCTCGTATCACCATTCTGATTAGCCTGTCGCTCCTGCTGCTCGCGACGCTCGGACTCGTCTCGACGGACAAAGACTCCACCCTGTTCGGCCTGCTACAATTGTCGACCGCAGATAATGGCGGCATCTTCGCCACCGGCGCGGAAAAGGCCTATCTGCTTTATGGCGTTTTGATCGGCCTTGCCTTCGGCCCCGTTCAGGCCTCGTCACGATCTTATCTCGCCCGCAACATCACCGTGGCGGAGGCGGGCCGTTATTTCGGTATCTATGCGCTCTCCGGACGCGCCACCAGCTTCATGGCGACGCTGTCGTTTTCCATAGCAACCACAATAAGCGGCTCAGCCCATATCGGCATGGCGACGCTCATCGTATTTCTGGGATCCGGATTCCTGCTGTTGCTGCGCGTGCCGGAAAGAACGGAAGGCTGA	MTVPSPNAETVVAKRGIWGWVMFDWAAQPFFTVVTTFVFGPYFVARLTDDPISAQATWSNMATVSSIIIALFSPILGSIADQSGARKPWIAFFAAIKIVSLFFLWFATPGSPLILPIICIILASIAAEFSIVFNDSMMPRLTNPQNVGRISNVAWGLGYLGGMVVLTAVVTLLAASPKTGLTLAGITPLLGLDPASGADARVTGPIAAIWYLVFILPMFLFTPDARRGLPFGVAIRSGLSELNNTLRELRSRPLLLRFFIARMLYQDGVNGLIILGGTFAAGMFGWETMEIGLFGILLNIVAIAGCFTAGRVDQTLGSRITILISLSLLLLATLGLVSTDKDSTLFGLLQLSTADNGGIFATGAEKAYLLYGVLIGLAFGPVQASSRSYLARNITVAEAGRYFGIYALSGRATSFMATLSFSIATTISGSAHIGMATLIVFLGSGFLLLLRVPERTEG				NA	NA	NA	NA	NA
BMS010_04678	576			hypothetical protein	ATGGCGAAACACGACGGCGAAACAATCATTAAAAAATACGCTAACCGGCGGCTCTACAACACCGGCACCAGCACCTATGTGACGCTCGATGATCTGGCGCAGATGGTCAAGCGCGGCGAGGACTTCAAGGTTCAGGATGCCAAGTCCTCCGAAGACATCACGCATGCGGTGCTGACGCAGATCATCGTCGAACAGGAGGCCAAAACCGGCAATACGTTGCTGCCGACGGCGTTTCTGCGGCAATTGATCTCCTATTACGGCGACCAGATGCAGATGGTCGTGCCGACATTTCTCGAACATTCGATGAAGACCTTTTCCGATCAGCAGAGCCAGATGCAGGAACATATGGCCAAGGCTTTCGGCGATGGCTCGCTTGCCCGCAATTTTCAGGCGCCGCTGCAAATGATGGAAGAGCAGATCCGCCGCAATACGGAACTGTTCCGGCAGGCGATGCAGGGTTTCACACCTTTCGCAATGCCGCAGGCGCCCAAGGAAACCCGCAAGCCGAATGCATCCGAAATCGATGAGCTGAAGGCGCAGTTGCGCGCATTGCAGCAAAAGCTCGATCAGCTTTGA	MAKHDGETIIKKYANRRLYNTGTSTYVTLDDLAQMVKRGEDFKVQDAKSSEDITHAVLTQIIVEQEAKTGNTLLPTAFLRQLISYYGDQMQMVVPTFLEHSMKTFSDQQSQMQEHMAKAFGDGSLARNFQAPLQMMEEQIRRNTELFRQAMQGFTPFAMPQAPKETRKPNASEIDELKAQLRALQQKLDQL				NA	NA	NA	NA	NA
BMS010_04679	1182	phaA_2		Acetyl-CoA acetyltransferase	ATGACCCTGCCTTCAATCGTGATTGCCAGCGCCGCGCGCACAGCCGTCGGCTCTTTCAATGGCCACTTCGCCAATACGCCAGCCCACGAACTCGGGGCGACCGTCATCAGCGCTGTGCTGGAGCGTGCCGGTGTCGCGGCAAACGAAATCGATGAAGTCATTCTCGGTCAGGTCCTGACGGCGGGCGAGGGGCAGAACCCGGCGCGGCAGGCTGCCATGAAGGCCGGCATTCCACAGGAAGCGACCGCCTTCGGTCTCAATCAGCTTTGCGGCTCCGGCCTGCGCGCCGTGGCCCTCGGCATGCAGCAGATCGCGACCGGCGACGCGAACATCGTCATTGCCGGCGGGCAGGAATCCATGTCCATGGCCCCTCACTGCGCCCATTTGCGCGGCGGCGTGAAGATGGGCGATTTAAAGATGATCGACACCATGCTGAAAGATGGCCTTACTGACGCCTTTTATGGCTATCACATGGGCATCACCGCTGAAAACATCGCCCGCCAATGGCAGCTTTCACGCGACGAGCAGGACCAATTCGCCGTCGCATCGCAAAACAAGGCCGAAGCCGCGCAAAGCGCCGGCCGTTTTGCAGATGAGATCGTGGCTTTCACGGTGAAGGGCCGCAAAGCCGATATCGTCATTGATACAGATGAGCATATCCGCGCCGGAGCTTCGCTGGAAACCATGGCCAAGCTGCGCCCCGCCTTCGACAAGGAAGGGACGGTCACGGCCGGCAATGCCTCCGGTCTGAACGATGGCGCCGCCGCCACGCTTTTGATGTCGGAACAGGAAGCAGGAAAGCGCGGCATCAGACCGCTCGCCCGTATCGCCTCCTGGGCGACGGCAGGCGTTGATCCGCAAATCATGGGCACCGGTCCCATCCCTGCCTCCCGCAAGGCGCTGGCCAAGGCCGGCTGGTCGATCAGCGATATTGGCCTTGTGGAAGCCAACGAAGCCTTTGCGGCCCAGTCCTGCGCCGTGGTGCGCGAACTTGGCCTTGATCCTGCTATCGTCAACGTCAATGGCGGCGCGATTGCCATCGGCCATCCGATCGGCGCATCCGGTGCGCGTGTCCTCAACACCCTGATTTTCGAAATGCGCCGCCGTAACGTGTCGAAGGGTCTCGCAACGCTCTGCATCGGCGGCGGCATGGGTGTCGCCATGTGCATCGAAGCACTCTGA	MTLPSIVIASAARTAVGSFNGHFANTPAHELGATVISAVLERAGVAANEIDEVILGQVLTAGEGQNPARQAAMKAGIPQEATAFGLNQLCGSGLRAVALGMQQIATGDANIVIAGGQESMSMAPHCAHLRGGVKMGDLKMIDTMLKDGLTDAFYGYHMGITAENIARQWQLSRDEQDQFAVASQNKAEAAQSAGRFADEIVAFTVKGRKADIVIDTDEHIRAGASLETMAKLRPAFDKEGTVTAGNASGLNDGAAATLLMSEQEAGKRGIRPLARIASWATAGVDPQIMGTGPIPASRKALAKAGWSISDIGLVEANEAFAAQSCAVVRELGLDPAIVNVNGGAIAIGHPIGASGARVLNTLIFEMRRRNVSKGLATLCIGGGMGVAMCIEAL	PGPT0008320_8694	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
BMS010_04680	726	phaB_2		Acetoacetyl-CoA reductase	ATGAGCCGGGTTGCGTTGATTTCCGGCGGGACGAGCGGCATAGGCGCCGCAATCGCCCGCGCCCTGCAGGCGGCCGGCTACCGGGTGGCCGTCAATTATGCCTTCACGACGGACAGGGCGGAAGCATTCCAGAAAGAAACCGGCATCCCCGCTTTTCAGTGGGACGTGCGCGACTATGACGCCTGCGTCAATGGCATAGCCAGGGTGGAAGAGACCTTCGGTCCCGTCGAGGTGCTCGTCAACAATGCCGGCATCACCCGCGATGCGATGTTCCATAAAATGTCGCCGCAGCAATGGCGCGAGGTTATCGATACCAACCTTACTGGCGTGTTCAACATGACCCACCCCGTATGGCCGGGCATGCGCGACCGCGGCTTCGGCCGCATCGTCAACATCTCCTCCATCAATGGCCAGAAAGGCCAGGCGGGACAGGCCAATTATTCCGCCTCGAAAGCGGGCGACATCGGGTTTACCAAGGCGCTCGCCCAGGAAGGCGCCAGCCGCAATATTACCGTTAACGCCATCTGCCCCGGCTATATCGGCACGGAGATGGTGAGAGCTATACCGGAGAAGGTTCTGGCAGAACGGATCGTGCCGCAAATTCCCGTTGGACGGTTGGGTGAGCCGGAAGAAATCGCACGCTGCGTTCTGTTTCTGGTTTCCGACGAGGCCGGTTTCATCACCGGTTCCACCATGACGGCCAATGGCGGACAATATTTCGCCTGA	MSRVALISGGTSGIGAAIARALQAAGYRVAVNYAFTTDRAEAFQKETGIPAFQWDVRDYDACVNGIARVEETFGPVEVLVNNAGITRDAMFHKMSPQQWREVIDTNLTGVFNMTHPVWPGMRDRGFGRIVNISSINGQKGQAGQANYSASKAGDIGFTKALAQEGASRNITVNAICPGYIGTEMVRAIPEKVLAERIVPQIPVGRLGEPEEIARCVLFLVSDEAGFITGSTMTANGGQYFA	PGPT0014735_1193	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_RELATED_GENES	CE-BIOFILM-POLYHYDROXYBUTYRATE_PRODUCTION,PGPT0014735-phbB|phaB-K00023	NA	NA
BMS010_04681	312			hypothetical protein	ATGCTGGTTTGCAGCTGCAATTACATCACCGATCACGATATCCGGGACGTCATCAACGAGCTCCTCGACGAGGACTGTTGGCAGCTCATCGTTCCTGCAAAAGTGTATCACGCCATGGAAAAACGCGGCCGCTGCTGCGGCTGTTTTCCCACCGTTGTCGACCTGATCATCAAAACCACTGAAGAATATCATGCCCGTCGCCACTCGACTGAGGCCGATGTTTTTGATTTTATGTCCCGCCTGAAGCAATTCCATGAAGAGAACAGGAGAGCGGACATTGAAAGGCGACAAAAAAGTCATCGAGCGGCTTAA	MLVCSCNYITDHDIRDVINELLDEDCWQLIVPAKVYHAMEKRGRCCGCFPTVVDLIIKTTEEYHARRHSTEADVFDFMSRLKQFHEENRRADIERRQKSHRAA				NA	NA	NA	NA	NA
BMS010_04682	486	bfr_2	COG2193	Bacterioferritin	TTGAAAGGCGACAAAAAAGTCATCGAGCGGCTTAACGAGGCCCTTTTTCTCGAACTCGGTGCGGTAAACCAGTACTGGCTTCACTATCGTTTGCTGGAAGACTGGGGCTACACGAAGCTCGCCAAAAAGGAACGTGCTGAATCCATCGAGGAAATGCAGCACGCCGACAAGCTGGTCGCACGCATCATCTTCCTTGAAGGCCATCCCAACCTTCAGACCGTCGCGCCCCTGCGCATCGGCCAGAACGTCAAGGAAGTTCTGGAATCCGACCTTGCCGGCGAATATGACGCCCGCACCTCCTACAAGAAATCGCGTGATATCTGTTATGAGGCCGGAGACTACGTCTCCATGAAGCTTTTCGAAGAACTGCTGATCGACGAGGAAGGCCATATCGACTTTCTCGAAACCCAGCTCGAACTGCTCGGCAAGATCGGCGAGGAAAAATACGGCCAGCTCAACGCCGATTCCGCCAACGAAGCGGAATAA	MKGDKKVIERLNEALFLELGAVNQYWLHYRLLEDWGYTKLAKKERAESIEEMQHADKLVARIIFLEGHPNLQTVAPLRIGQNVKEVLESDLAGEYDARTSYKKSRDICYEAGDYVSMKLFEELLIDEEGHIDFLETQLELLGKIGEEKYGQLNADSANEAE	PGPT0003965_864	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-RELATED_PROTEINS_FERRITIN,PGPT0003965-bfr-K03594	NA	NA
BMS010_04683	465	rppH_3	COG0494	RNA pyrophosphohydrolase	ATGGTGCTGAACGCCGAGGGCCTTGTCTGGGCCGGCAGGCGCATCAAGGAAGGCAATTCCGAATATGACGGCTCACCGCATCTGTGGCAGATGCCGCAGGGCGGCATCGATGACGGTGAACGGCCTCTGACGGCCGCCATTCGCGAACTCTACGAAGAAACAGGCATGAAAACGGTGAGCCTGCTTGCGGAGGCGAGCGACTGGATTCACTATGACCTGCCACCCGAACTGATCGGTATCGGCCTCAGGGGCAAATATCGCGGGCAGGCACAGCGCTGGTTTGCGTTCCGTTTCGAAGGCGACGAAAGCGAGATCCAGATCGATCCGCCGCCGACCGGGCACACGGCCGAATTCGACGCGTGGGACTGGAAGCCGATGGAAAGCCTGCCGGAGCTCATCGTACCGTTCAAGCGCGCCGTATACGAGCAGGTCGTGGCGGAGTTCCAGCACCTTTCCGGAAAATAA	MVLNAEGLVWAGRRIKEGNSEYDGSPHLWQMPQGGIDDGERPLTAAIRELYEETGMKTVSLLAEASDWIHYDLPPELIGIGLRGKYRGQAQRWFAFRFEGDESEIQIDPPPTGHTAEFDAWDWKPMESLPELIVPFKRAVYEQVVAEFQHLSGK				NA	NA	NA	NA	NA
BMS010_04684	1200			hypothetical protein	TTGCCTTCGGACCTGCGAAAACCGCTTCTGGGTCGTCAGAAAAAAAGCGCCGGTATCAACCGGCGCTTTTCCGTCATTATGGCTCTGTCGGTGCTTGCGGTTTTCTCAATCGGCGGCCTGTCCGTCTATACGGCGCTTTCGCCCGGCAATTTGCAGAAGACGGCGAGCGGGCCGGATGCACAGCCTCAGCTTGCCGAAAAGACACCTGAAATCGCACCGGCCGATGTAACGACTCCCGGCGACGCCGCCGGTCTCCAGCCGCAAAGCGGCCGCTCCGGCGCCAATATCAATCGCGAGACAATGCCGGATGGCAATGTCGTATCGGTGTACTCTCCCCGCCCGCGCGAGGGTGACGGACCGGTGCTGATGAGCGGCCAGACCTATGGTCAGGATCCGCGCATGGCGACGCGACCCAATGAGGAACTGCTGGAAGAAACCGCGTTTGGCAAATTGCCGGTTGTCGGTGCGGACGGTTTGCGGCCGATGGAGCAATATGCGCGGCCCTGGTCTGGCGCACGCGGCACCCGGGTGGCGATCGTGGTCGGCGGGCTGGGTCTCAGCCAGACGGGGTCGCAAAAAGCGATCCGGGAGCTGCCGCCGGAGGTGACGCTCGGTTTTGCCGCGAGCGGCAACAGCCTGCAGCGCTGGATGCAGGAAGCGCGCCGACAGGGACATGAAATCCTTCTGCAGATACCGCTTGAGCCTTTCGGTTACCCCGGCACCAATCCCGGCCCGGACACGCTGCTGGCGGGTGATCCCGCCAAGGTCAACATCGACCGGCTGCATCGCTCCATGGCGAAGATCACCAATTACACCGGCATCATGAATTATCTCGGCGGGCGTTTCCTTGCCGAGCAGGCGGCACTGGAGCCGGTAATGCGCGACATCGGCAAGCGTGGCCTGCTGTTTCTGGATGATGGTTCTTCGGCGCAGTCGCTGAGCGGCGGCATTGCCAAGGCGATTTCCGCGCCACAGGGTTTTGCCGATATTCTGCTCGACAGTGAAGTCACCGAAGCTGCCATTCTGCGCAAGCTGGACGAACTGGAGCGAATTGCACGGCGTAACGGTCAGGCGATCGGCGTTGCTTCGGCTTTCGATGAAAGCGTTGCCGCGATCTCCAAGTGGTCGCGCGAGGCTGGCGGGCGCGGCATCGAGATTGTCGGTGTTTCTGCGCTTGTTTCCGGGCAGGCAGGGCAGTAA	MPSDLRKPLLGRQKKSAGINRRFSVIMALSVLAVFSIGGLSVYTALSPGNLQKTASGPDAQPQLAEKTPEIAPADVTTPGDAAGLQPQSGRSGANINRETMPDGNVVSVYSPRPREGDGPVLMSGQTYGQDPRMATRPNEELLEETAFGKLPVVGADGLRPMEQYARPWSGARGTRVAIVVGGLGLSQTGSQKAIRELPPEVTLGFAASGNSLQRWMQEARRQGHEILLQIPLEPFGYPGTNPGPDTLLAGDPAKVNIDRLHRSMAKITNYTGIMNYLGGRFLAEQAALEPVMRDIGKRGLLFLDDGSSAQSLSGGIAKAISAPQGFADILLDSEVTEAAILRKLDELERIARRNGQAIGVASAFDESVAAISKWSREAGGRGIEIVGVSALVSGQAGQ				NA	NA	NA	NA	NA
BMS010_04685	1329			hypothetical protein	ATGATTCGTAAGGTTTCGCTTCTCCTTATCGGTGGGCTTATGGGCGCCACGGCGATGAGCGTGATTTATTCGGCGAGCATGCCGGCACAGGCGGCCGGGCCTTCGACCTATAAGGAACTGTCGATCTTTGGCGATGTGTTCGAGCGCGTGCGCGCACAATATGTGACGCCGCCGGATGACGAGAAGCTGGTGGAAAATGCCATTAACGGCATGCTGAGCTCGCTCGATCCGCATTCGAGCTTCATGAATGCCAAGGATGCCAACGACATGCGCACCCAGACCAAGGGTGAATTCGGCGGTCTCGGCATCGAAGTGACCATGGAGAACGAGCTCGTCAAGGTCATTACGCCGATCGACGATACACCGGCTTCCCGTGCAGGCATTCTCGCCGGCGACTTCATTTCGGAAATTGACGGTACCCCGGTTCGTGGCCTGAAGCTGGAACAGGCGGTCGAAAAGATGCGCGGCGCGGTGAAAACGCCGATCAAGCTGACGATCATCCGCCAGGGCGCTGACAAGCCGCTTGAATTCACCGTCATGCGCGATGTCATTGCCGTTCGCGCGGTGAAGTCCCGCGTCGAGGGCGACAATGTCGGTTATCTGCGCGTCATCTCCTTTACCGAGAAGACCTATGACGATCTCGAAAAGGCGATCAAGAAGATCAAGGCGGATGTGCCGGCCGACAAGCTGAAGGGTTATGTGCTCGACCTTCGCCTCAATCCGGGCGGTCTGCTTGATCAGGCGATCAATGTCTCCGACGCCTTCCTCGAGCGCGGTGAGGTGGTTTCGACCCGTGGCCGTAACCCCGACGAGACCCGCCGCTTCAACGCGACGGCTGGCGATCTGACCGATGGCAAGCCGGTAATCGTTCTCGTCAACGGCGGTTCGGCTTCGGCCTCGGAAATCGTTGCCGGCGCCCTGCAGGATCTGCGCCGTGCGACCGTGGTCGGCACGCGTTCCTTCGGCAAGGGTTCGGTCCAGACGATCATTCCGCTCGGCGAGGCGGGCGCGCTGCGCCTGACCACGGCGCTCTATTATACGCCGTCGGGTAAATCGATCCAGGGTACGGGCATTGAGCCTGACATCAAGGTCGAACAGCCTTTGCCGCCCGAGTTGCAGGGCAAGGTGACCACCGAAGGTGAATCCGGTCTTTCCGGCCACATCAAGGGTCAGAGCGAAACCGACGAAGGTTCGGGTTCCTCCGCTTATGTTCCGCCGGAAGCCAAGGACGACATCCAGCTCAACTATGCTCTGGACCTGTTGCGCGGCACAAAGACGGATCCGTCTTTCCCGCCGAACCCGGAAAAGGCTGTGGTCAACAAGCAGTAA	MIRKVSLLLIGGLMGATAMSVIYSASMPAQAAGPSTYKELSIFGDVFERVRAQYVTPPDDEKLVENAINGMLSSLDPHSSFMNAKDANDMRTQTKGEFGGLGIEVTMENELVKVITPIDDTPASRAGILAGDFISEIDGTPVRGLKLEQAVEKMRGAVKTPIKLTIIRQGADKPLEFTVMRDVIAVRAVKSRVEGDNVGYLRVISFTEKTYDDLEKAIKKIKADVPADKLKGYVLDLRLNPGGLLDQAINVSDAFLERGEVVSTRGRNPDETRRFNATAGDLTDGKPVIVLVNGGSASASEIVAGALQDLRRATVVGTRSFGKGSVQTIIPLGEAGALRLTTALYYTPSGKSIQGTGIEPDIKVEQPLPPELQGKVTTEGESGLSGHIKGQSETDEGSGSSAYVPPEAKDDIQLNYALDLLRGTKTDPSFPPNPEKAVVNKQ	PGPT0015095_5471	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0015095-prc|ctpA-K03797	NA	NA
BMS010_04686	1332			hypothetical protein	ATGGGCATCGGTCCAACCTATTCGCGCGACGATGCGGGCGCCGTTCCGGCCGCAGGCGATGATTCGTCGCCGGATGCGCTGCAAACGCTGGAGAAGCGCCGCGACCAGAACCGGCAGGATCTGGAGGAGCTGGTCGACAGCATCGGTCTTTCGGAAGACAAGACAAGGAAGCTTGAGGAAAGCATCGCCTCCCTCAATCAGGACAGCGCCCGCATCCGGGAAGAGCTGATCGCATCGGCCGCCCGGCGCAAGGCGCTGGAAACCAAGATCAGCGACGGTGAGGATCGCCTGGCCAAGCTTTCCGTGCGCGAGGATGGCGTCAAGGCGTCGCTGCGGGAAAGACGCGGCGTGCTGGCGGAGGTTCTGGCGGCGTTGCAGCGCATGGGCCGAAACCCGCCCCCCGCCCTTCTCGTCTCGCCGGAGGATGCGCTGGCGTCGGTGCGAAGCGCCATTCTTCTCGGCGCCGTCGTGCCCGGCATTCGCGGTGAAACCGACAAGCTGGTTGCCGCTCTCAAAGAATTGACCGATCTGAGACAGGCAATCGCTCGCGAAAAGGACGATCTTACGGGTATGATGACGGCAAGTCTGGAAGAGGAAAAACGCCTCGACCTGCTGATTGCCGAAAATGACCGCAAGAATACCCAGACGGCGGCGGAGCTGGAGGCGGAACGCAAGCGATCTGAGGAGCTTGCAAGCAAGGCGACGAGCCTCGAAGGGTTGGTCAGTTCGCTCGAAGGCGAGATTACCTCGGTGCGGGAGGCGATGGAAAAAGCGCGGGCGGAAGAGCAGCGCCTGGCCCGTCTTTCGGAGGCGGAACGCGAAAAGGAGCGGGCCGCGGCCGAGGCTGGAATGCCCGATAAAAACCGTATTGCGCCCGCATATCCGTTCGCGAGTTTGAAGGGAAAGCTGGAGCTGCCGGTTACCGGCGAAGTGCTGCGGCGCTTCGGCGATGCGGACGGAACGGGCCACTTTTCCAAGGGAATTGTCGTCGCGAGCGGACCGGAAGCCATCGTGACGGCGCCTGCAGACGGCTTCGTGGTGTTTGCCGGAGATTTTCGCAGTTATGGCCGGATGATCATCCTCAATACGGGTGATGGATATCATGTGGTGATGACGGGCATGGACAATGTGAGGACGCGGCAGGGAATGTTCGTGTTCTCCGGAGAGCCCATCGCCTCCATGGGTGCAAAAAGAGTAGCGAGTGCAGCAGCATTGGCGCTGGAAACCGACAGGCCAACGCTCTACATTGAGTTCAGGAAAGATGGTGTACCGGTTGATTCTCAGCCGTGGTGGACCGCAAAAAATACCGGAAGGGCGCACAATGATTCGTAA	MGIGPTYSRDDAGAVPAAGDDSSPDALQTLEKRRDQNRQDLEELVDSIGLSEDKTRKLEESIASLNQDSARIREELIASAARRKALETKISDGEDRLAKLSVREDGVKASLRERRGVLAEVLAALQRMGRNPPPALLVSPEDALASVRSAILLGAVVPGIRGETDKLVAALKELTDLRQAIAREKDDLTGMMTASLEEEKRLDLLIAENDRKNTQTAAELEAERKRSEELASKATSLEGLVSSLEGEITSVREAMEKARAEEQRLARLSEAEREKERAAAEAGMPDKNRIAPAYPFASLKGKLELPVTGEVLRRFGDADGTGHFSKGIVVASGPEAIVTAPADGFVVFAGDFRSYGRMIILNTGDGYHVVMTGMDNVRTRQGMFVFSGEPIASMGAKRVASAAALALETDRPTLYIEFRKDGVPVDSQPWWTAKNTGRAHNDS	PGPT0023855_312	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN-ENDOPEPTIDASE_ACTIVITY|LIPOPROTEIN,PGPT0023855-envC-K22719	NA	NA
BMS010_04687	483	rlmH_1	COG1576	Ribosomal RNA large subunit methyltransferase H	ATGCGGATTTCAATTTTTGCGGTGGGACGGCTGAAATCCGGCCCCGAAAAGGATCTTGCGGCCCGTTATATCGAGCGCTTGGCAAAGACCGGCCCGGCGATCGGGCTGGAGTTTTCACGGGTGATCGAGGTTGCCGAAAGCCGCGCTTCCAATGCGGAGACCCGCAAGCGCGAAGAAGCCGCGATGCTGGAAAAACATTTGGCCGATGGTGCTGCCCTCGTGCTGCTGGACGAGCGCGGAAAGGCGCTGGACAGTCCCGCCTTTGCTTCATTCTTTGGCGATTTGCGCGATAGCGGCAAACGAGACCTCGTGATCGCCATAGGCGGAGCCGATGGGCTCGATCCCGCGCTCTACGACAAGGCGACGGCCGTTCTCAATCTCGGCAAGCTGACATGGCCGCATCAGATCGTTCGTATCCTGATCGCAGAGCAGCTTTACCGTGCCGTCACGATCCTCTCCGGTCATCCCTATCATCGCGTTTGA	MRISIFAVGRLKSGPEKDLAARYIERLAKTGPAIGLEFSRVIEVAESRASNAETRKREEAAMLEKHLADGAALVLLDERGKALDSPAFASFFGDLRDSGKRDLVIAIGGADGLDPALYDKATAVLNLGKLTWPHQIVRILIAEQLYRAVTILSGHPYHRV				NA	NA	NA	NA	NA
BMS010_04688	240	rsfS_1		Ribosomal silencing factor RsfS	ATGGTCGTGGTCTCCGGGCGGTCGAACAGGCATGTTTCGGCGATTTGCGAGCATCTTCTCAAGGACATGAAGGATGAAGGGTTCGGAAACGCCCGCGTCGAAGGTCTCGAGACCGGAGACTGGGTGCTGATCGATACCGGCGACATCATCGTTCACGTGTTCCGACCGGAAATCCGCGCCTTCTACAACATTGAAAAAATGTGGGCGACGCCGGACATGCCGGAAGAGACGCTGCATTGA	MVVVSGRSNRHVSAICEHLLKDMKDEGFGNARVEGLETGDWVLIDTGDIIVHVFRPEIRAFYNIEKMWATPDMPEETLH	PGPT0013435_13	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013435-nadD-K00969	NA	NA
BMS010_04689	564	nadD_1		nicotinate-nucleotide adenylyltransferase	ATGGTTGTCGGCCTGTTCGGTGGTTCTTTCAATCCGCCACATGCCGGTCACGCGCTTGTTGCAGAGATTGCGCTGCGCAGGCTCCGTCTCGATCAGCTGTGGTGGATCGTTACACCGGGCAACCCGCTGAAAAGCCGCTCAGACCTGTCGTCTCTGGAAGATCGCATCGCCGCCTGCGAAAAGCTGGTCCACGATCCGCGCATCAAGGTGACGGCCTTCGAAAAATCACTGGGGATGAGCTATACGGCCAATACGCTCGCCAAGGTGAAGGCGAAAAATCCGCATGTCCGTTTCATCTGGATCATGGGAGCTGACAATCTGAAAAGCTTCCATCGCTGGCAGAAATGGCGGCGGATCGCCGAGACATTTCCGATTGCCGTGATCGATCGGCCAGGCTCCACGCTCTCTTATCTCTCCTCCACCATGGCGCAGGCCTTCAGCCATGCACGGGTGGATGAGGACGATGCCGGCGTTTTGTGGAAAAAAGCGGCCCCTGCCTGGGTCTTCATTCACGGTCCGCGCTCGACGCTCAGCTCCACGGCGCTGCGCAACGGTCGTAAATGA	MVVGLFGGSFNPPHAGHALVAEIALRRLRLDQLWWIVTPGNPLKSRSDLSSLEDRIAACEKLVHDPRIKVTAFEKSLGMSYTANTLAKVKAKNPHVRFIWIMGADNLKSFHRWQKWRRIAETFPIAVIDRPGSTLSYLSSTMAQAFSHARVDEDDAGVLWKKAAPAWVFIHGPRSTLSSTALRNGRK	PGPT0013435_2449	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013435-nadD-K00969	NA	NA
BMS010_04690	1287	proA_1		Gamma-glutamyl phosphate reductase	ATGCCTGAACAGGCCGTGAAGCAGAGCCATGATATTGACGTGCTGATGATGACCATCGGCGCTCAGGCGAAAGCTGCTTCGCGACCGTTGTCCATCGCCGGTACAGACCAGAAGAACCGCGCGCTGCTTGCCATGGCCTCCGCCATCGAGGCATCCAGGGATGCGATCCTTGCCGCCAACAGGAAAGATCTGGCTGCGGCGGAAAGCGCAGGCCTTGCCGCTTCCTTCGTGGACAGGCTGACCCTCAACGATACAAGGATCGCCGGTATTGCCGAAGGCATCCGTTCGGTTGCGGCGCTGCCCGATCCGGTCGGCGAAGTCATCGCCGCCTGGGATCGTCCGAATGGGCTGAAGATCGAGCGCGTGCGCACGCCGCTCGGCGTCATCGGTGTGATCTACGAAAGCCGCCCAAACGTGACGGCGGATGCCGGCGCTTTGTGCCTCAAGGCGGGCAATGCCGTCATTCTGCGTGGCGGCTCGGATTCTCAGCATTCATCGCGTGCTATCCATGCCTGCCTCGTGGAAGGTCTGAAGATAGCCGGTCTTCCCGAGCATGCCATTCAGCTGGTGCCGGTGACCGACCGCGCCGCTGTCGGCGCGCTTCTCAGCGGCCTGAACGGCACGGTTGACGTCATCGTGCCACGCGGCGGCAAAAGCCTCGTGGCGCGGGTGCAGTCGGAAGCCCGTGTGCCGGTCTTCGCGCATCTGGACGGCATTTGTCATGTCTACATCGACAAATCGGCCGATCTCGACATGGCGAAACGTATCGTCGTCAACGCCAAGATGCGTCGCACCGGTATTTGTGGGGCGGCTGAGACGCTGCTGGTGGATGCCGCTGCCGTTTCCACCCATCTTGCGCCGCTCGTCGAAGCTTTGATCGAAGCTGGCTGCGAAGTGCGCGGTTCGCAGGCCGTTCGCGACGTGGTGGCGGGTCTCGCACCGGCAACGGAAGAGGACTGGCGCACCGAATATCTCGATGCGATCATTTCGGTCGCCGTGGTGGAGGGTATTTCAGGCGCGATCGAGCATATCGGCACCTATTCGTCCAACCACACCGAGGCGGTTATCGCCGAGGATCCCGATGTGGTCGCGCGTTTCTTCAACGAACTCGATTCGGCCATTCTGCTGCACAATGCCTCCACGCAGTTCGCGGACGGCGGCGAGTTTGGCATGGGTGCTGAAATCGGCATTGCCACGGGTAAGATGCATGCGCGCGGCCCGGTGGGCGTCGAGCAGCTCACCTCGTTTAAATACCGTGTGCATGGCACCGGCCAGACACGGACCTGA	MPEQAVKQSHDIDVLMMTIGAQAKAASRPLSIAGTDQKNRALLAMASAIEASRDAILAANRKDLAAAESAGLAASFVDRLTLNDTRIAGIAEGIRSVAALPDPVGEVIAAWDRPNGLKIERVRTPLGVIGVIYESRPNVTADAGALCLKAGNAVILRGGSDSQHSSRAIHACLVEGLKIAGLPEHAIQLVPVTDRAAVGALLSGLNGTVDVIVPRGGKSLVARVQSEARVPVFAHLDGICHVYIDKSADLDMAKRIVVNAKMRRTGICGAAETLLVDAAAVSTHLAPLVEALIEAGCEVRGSQAVRDVVAGLAPATEEDWRTEYLDAIISVAVVEGISGAIEHIGTYSSNHTEAVIAEDPDVVARFFNELDSAILLHNASTQFADGGEFGMGAEIGIATGKMHARGPVGVEQLTSFKYRVHGTGQTRT	PGPT0014215_551	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014215-proA-K00147	NA	NA
BMS010_04691	1170	proB_1		Glutamate 5-kinase	ATGAGCCTGACGCGCAAGCCGCTGGCGAGCCATCACCGGATCGTCATCAAGATCGGGTCGGCGCTTCTGGTGGACCGGAAGACCGGTCTCAAGAAAGACTGGCTCGACGCCATCTGCGAGGATATCGCCGCGCTGAAGAAAAATGGCGCGGATGTGCAGGTTGTGTCTTCGGGCGCCATCGCGCTTGGCCGCACCGTGCTTGGCCTGCCTTCCGGTGCATTGAAGCTGGAAGAAAGCCAGGCGGCGGCGGCTGTCGGCCAGATCGCGCTGGCGCGGGCATGGTCGGAAAGCCTGTCGCGGCATGAGATCGTCGCCGGCCAGATTCTTCTGACGCTCTCCGATACCGAAGAGCGTCGCCGTTATCTCAATGCGCGCGCCACCATCAACCAGTTGCTGAAGATCGGCGCTATCCCGATCATCAATGAAAACGATACCGTGGCGACCACCGAAATCCGCTATGGCGACAATGACCGTCTGGCGGCGCGTGTGGCGACCATGACGGGCGCCGATCTTCTGGTGCTGCTTTCGGATATTGACGGGCTTTACACGGCTCCGCCGCATCTCGATCCCGACGCGAAATTCCTTGAGACGATTGCCGATATTACCCCCGAAATCGAGGCCATGGCGGGCGGTGCGGCATCCGAGCTTTCACGCGGCGGTATGCGCACCAAGATCGACGCGGGCAAGATCGCGACGGCTGCCGGCTGCGGCATGATCATCGCTTCCGGGAAGACGCTTAATCCTTTGAAGGCTATTGAAAACGGCGTGCGCTCCTCATGGTTTGCGCCTTCGGGCACGCCGGTGACGGCGCGCAAGACCTGGATTGCCGGGCAATTGCAGCCGGCCGGCGAAATCCATGTGGATGCCGGTGCGGAGAAGGCTCTTTATGCCGGAAAAAGCCTGCTTCCGGCGGGTGTGCGACTGGTGAAGGGCAATTTCGGCCGTGGTGATGCAATCGCCATTATCGGTGCGGAAGGCCGTGAAGTCGCTCGTGGTCTTGCGGGTTACGATGCTGAAGAGGCGCGTCTTATCATCGGTCACAAGTCCAACGAGATCGAGGCGATCCTCGGTTATGTCGGGCGGGCGGCCATGATTCATCGTGACGATCTGGTGATGACGGGCGCTGCCGTCAAAGTTAAAAATGCAAAAAAGGATGAGGTCCATGCCTGA	MSLTRKPLASHHRIVIKIGSALLVDRKTGLKKDWLDAICEDIAALKKNGADVQVVSSGAIALGRTVLGLPSGALKLEESQAAAAVGQIALARAWSESLSRHEIVAGQILLTLSDTEERRRYLNARATINQLLKIGAIPIINENDTVATTEIRYGDNDRLAARVATMTGADLLVLLSDIDGLYTAPPHLDPDAKFLETIADITPEIEAMAGGAASELSRGGMRTKIDAGKIATAAGCGMIIASGKTLNPLKAIENGVRSSWFAPSGTPVTARKTWIAGQLQPAGEIHVDAGAEKALYAGKSLLPAGVRLVKGNFGRGDAIAIIGAEGREVARGLAGYDAEEARLIIGHKSNEIEAILGYVGRAAMIHRDDLVMTGAAVKVKNAKKDEVHA	PGPT0014220_443	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014220-proB-K00931	NA	NA
BMS010_04692	1071	cgtA		GTPase Obg/CgtA	ATGAAATTTCTCGATGAAGCAAAAGTCTATATCAAGTCCGGTGACGGTGGCGCGGGCGCCGTTTCCTTCCGGCGCGAAAAATTCATCGAATTCGGCGGCCCTGACGGCGGTGATGGCGGACGCGGCGGCGATGTCTGGGTTGAGGTGGTCAACGGCCTCAACACGCTGATCGATTTCCGTTTCCAGCAGCATTTCAAGGCCTCGATCGGGCAGCACGGCATGGGCAAGACCCGCACCGGCGCCAAGGGCTCGGATGTGGTGCTGAAGGTGCCCGTCGGTACACAGATCTTCGAGGAAGACAATGAGACGCTGATCGTCGATCTGACGAAGGAAGGTCAGCGCTTTCGTCTTGCCGCCGGCGGTAATGGCGGCTTCGGCAATGCCTATTTCAAGTCGTCGACCAATCAGGCGCCCACCCATGCCAATCCGGGCCTCGCCGGCGAGGAAAAGACAGTCTGGCTTCGTCTGAAACTGATCGCCGATGCCGGTCTCGTCGGTCTGCCCAATGCGGGCAAATCCACGTTCCTTGCAACGGTCACCCGTGCGCGCCCGAAGATTGCCAATTATCCCTTCACCACCCTTCATCCGAATCTGGGCGTCGCGACCATCGATGGCCGTGAATTCGTGCTGGCCGATATTCCCGGCCTCATCGAAGGCGCGCATGAGGGTGTGGGCATCGGTGACCGTTTCCTCGGCCATGTGGAGCGTACCCGTGTGCTTCTGCATCTCGTTTCCGCGCAGGAAGAAAAGGTCGGCAAGGCCTATAAGACCGTTAAGGCCGAGCTGGACGCCTATGGCGGCGGGCTGACCGACAAACCGGAAATCGTGGCGCTGTCGCAGATCGACGTGCTTGATGAAAAAGAGCTGAAAAAGAAAGCCAAGGAACTGGAGAAGGCCTGCGGCCGTCCCCCGCTACTTCTCTCCGCTGCCGCCCATATCGGCATGACGGAAGCGCTGCGCGCCCTTCGCGATGTCATCGTCTCGGCGAGCAATGGCGGCGAAACCGCCCTGCCCGACCGGTCGATGCCGCATGAGGACAGCGAGGCCGAGGAAGAGGACGACCGTCTATGA	MKFLDEAKVYIKSGDGGAGAVSFRREKFIEFGGPDGGDGGRGGDVWVEVVNGLNTLIDFRFQQHFKASIGQHGMGKTRTGAKGSDVVLKVPVGTQIFEEDNETLIVDLTKEGQRFRLAAGGNGGFGNAYFKSSTNQAPTHANPGLAGEEKTVWLRLKLIADAGLVGLPNAGKSTFLATVTRARPKIANYPFTTLHPNLGVATIDGREFVLADIPGLIEGAHEGVGIGDRFLGHVERTRVLLHLVSAQEEKVGKAYKTVKAELDAYGGGLTDKPEIVALSQIDVLDEKELKKKAKELEKACGRPPLLLSAAAHIGMTEALRALRDVIVSASNGGETALPDRSMPHEDSEAEEEDDRL				NA	NA	NA	NA	NA
BMS010_04693	591			hypothetical protein	ATGAGCACGATAGAGCTTACCCGTCGCCGCGCCGCCACTGCCGTGGCGCCTCCCGGCCCCTGCCCTGTCATCGAGACAAAGCGTCTGGTGCTGCGGCCGCAGCGGCTTTCCGATGCCGGCAGCATTGCGGAATCGCTTGGCGATTTCGCCGTTACCAGAATGTTGGCCCGCGTTCCGGCGCCCTACCACAAGCAGGATGCGCTGGAATGGCTGGTCTTGCGCACCTCCGGCACCCTGCCCGACTGGGATTTTGCCATTACCAGCGGCGACGATACCCTGATCGGCGTCGTCTCGGTGGAATTGCGGCACGGCGAGTGGCATCTCGGCTATTGGCTCAACCGCTTCTACTGGGGCAAGGGTTACATGACCGAGGCGGTGGCCGCCGTGGTCGAGCGGTTTTTCCGTCGCATGCCCGGAGTGGTTCTGCATTCCGGCGTGTTTGCGGATAACCCCGCTTCGCTGCGTGTGCAGGAGAAACTTGGCTTCCGGGTGACCGGCTGCCACCAAATCTATGCCACGGCGCGCGCCGCCATGGTGGCGCATATCGATACGATGATCACGGCTGAAGATTTCATTCCGCCGCATCGCTAG	MSTIELTRRRAATAVAPPGPCPVIETKRLVLRPQRLSDAGSIAESLGDFAVTRMLARVPAPYHKQDALEWLVLRTSGTLPDWDFAITSGDDTLIGVVSVELRHGEWHLGYWLNRFYWGKGYMTEAVAAVVERFFRRMPGVVLHSGVFADNPASLRVQEKLGFRVTGCHQIYATARAAMVAHIDTMITAEDFIPPHR				NA	NA	NA	NA	NA
BMS010_04694	633			hypothetical protein	ATGCAAGCTGAATTGTTGAGGGTCGACCAATCACGGTCACCCGAAGAGCGGCCGAGGCCCGATCGGTCGAGGAGCGATTGCCCCGTTTTACTGTCGCAGAGGCTGGTTTTACGCAAGCCTCACGAAGAAGACATCGACGCCCTTGCCCATCTTGCCAACAATGCCAATATCGCGACCATGGTGTCGCGTATGCCGCACCCCTACACGGCGAAAGACGCCGCGGATTTTGTGCGACGCTCCAAAGCTGGCGAGATTGGCAAGTGCGTCTATGCGATTACCCGCATGGATAATGGCGAGTTTCTGGGCTGCTGCGCGCTCGAACCCCAGGAAGACGAAAAGACGCTGGAGATCGGTTACTGGCTGGGGGAACCTTACTGGAACCGGGGTTACATGACGGAAGCCGCGCATGCGCTGATCGACATGGCCTTCCGCACGCGTGAGATCGACCAGATCGATGCCCGTTGCCGGGTCACCAACATCGCGTCGCGCCGCGTCATCCAGAAATGTGGTTTCCAGTTCCAGGGCTCCGGCATGGTCGGTTCGCTGGCGCTTGGCGGCATGGTGCCGGTTGAATGGTACAGGCTGGACCGCAAGACCTGGGTTTCGCTGAAGAGCTGGGGGGATATGGGATGA	MQAELLRVDQSRSPEERPRPDRSRSDCPVLLSQRLVLRKPHEEDIDALAHLANNANIATMVSRMPHPYTAKDAADFVRRSKAGEIGKCVYAITRMDNGEFLGCCALEPQEDEKTLEIGYWLGEPYWNRGYMTEAAHALIDMAFRTREIDQIDARCRVTNIASRRVIQKCGFQFQGSGMVGSLALGGMVPVEWYRLDRKTWVSLKSWGDMG				NA	NA	NA	NA	NA
BMS010_04695	270	rpmA_1	COG0211	50S ribosomal protein L27	ATGGCACACAAAAAAGCTGGCGGTTCCTCGCGTAACGGTCGCGATTCCGAATCCAAGCGCCTTGGCGTAAAGAAGTTCGGCGGCGAAGCTGTCATTCCAGGCAACATTATTCTGCGTCAGCGCGGCACGCAGTGGCATCCGGGCGCCAATGTTGGCATCGGCAAGGACCACACGATTTTCGCACTGACCGCAGGTAACGTGAACTTCCGTACGAAGGCCAACGGCCGCGTATTCGTATCCGTGGCCCCGAAAGCGGAAGCCGCAGAATAA	MAHKKAGGSSRNGRDSESKRLGVKKFGGEAVIPGNIILRQRGTQWHPGANVGIGKDHTIFALTAGNVNFRTKANGRVFVSVAPKAEAAE	PGPT0019510_13	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0019510-icd2-K00030	NA	NA
BMS010_04696	315	rplU_1	COG0261	50S ribosomal protein L21	ATGTTCGCAGTCATCAAGACCGGCGGTAAGCAGTACCGCGTAGCGGCCGACGCCGTGCTGACCATCGAAAAGCTGGAAGCAGAGGCAGGCGCAACTGTAGAATTCACCGAAGTTCTCGTTGTTGGCGAAGGCGCCGACGCCAAGTTCGGTGCTCCCTTCGTCAAGGGCGCCATCGTAAAGGCTGAAGTTGTCGAGCACAATCGCGGCAAGAAGGTCATCGCCTTCAAGAAGCGTCGTCGTCAGAACTCCAAGCGTTCGCGCGGCCATCGTCAGCATCACACTGTCGTCCGCATCACGGACATCGTTGCTGCCTGA	MFAVIKTGGKQYRVAADAVLTIEKLEAEAGATVEFTEVLVVGEGADAKFGAPFVKGAIVKAEVVEHNRGKKVIAFKKRRRQNSKRSRGHRQHHTVVRITDIVAA				NA	NA	NA	NA	NA
BMS010_04697	441			hypothetical protein	ATGGCCCGCATAGACAAGACCGACGATTGGCGGGACCGCCACGCGCCGACACTTTCCGCCTTCGAGTCGCTTGCGATCGAGGCATATGGCCACCTGCCGGAAGAATTTCGCGCGCTGACGAAAGATCTCATCATCGAGATCGCCGATTTTCCGACCGATGACGTGTTCGAAGACATGGCGCTCGAAACACCCTTCGATCTTCTCGGACTGTTCGAAGGACGCGGCATCTCCGAACGTTTCACCATGGAAACGGGTGAGATGGTGAACCGCATCACGCTTTATCGCCGTCCCATTCTCGACTACTGGGCCGAGAACGAGGAAACCCTGGGCGATATCATCACCCATGTCCTCATCCACGAGATCGGCCATCATTTCGGCCTGTCGGATGACGACATGGAGCGGATCGAAGAAAGCGCCGACGAGGCCGCCGCCGATCGCTGA	MARIDKTDDWRDRHAPTLSAFESLAIEAYGHLPEEFRALTKDLIIEIADFPTDDVFEDMALETPFDLLGLFEGRGISERFTMETGEMVNRITLYRRPILDYWAENEETLGDIITHVLIHEIGHHFGLSDDDMERIEESADEAAADR				NA	NA	NA	NA	NA
BMS010_04698	207			hypothetical protein	GTGAAGGTCTATCGTTTCATAACCGGTCCCGACGACGCGAAATTCTGTCACCGGGTCACCGAGGCGCTGAACAAGGGATGGGAACTCGCGGGTTCGCCAAGCTACGCCTTCAACGCCGCAAGCGGCGTCATGCATTGCGGCCAGGCCGTGACCAAGGTGGTCGAGGGCAAGGAATACCATCCGGATATGAAGCTCGGCGAGCAGTGA	MKVYRFITGPDDAKFCHRVTEALNKGWELAGSPSYAFNAASGVMHCGQAVTKVVEGKEYHPDMKLGEQ				NA	NA	NA	NA	NA
BMS010_04699	912	mcl2	COG2301	(3S)-malyl-CoA thioesterase	ATGGTCAACTTTTCCGAAAATATTCTTGTGAGACCACGTCGTTCGTTGCTCTCCGTGCCGGCCATCAATGTCCGGGCACTGGAAAAAATCCGCTATCTCGATTGTGACGGAGTGATCCTCGATCTGGAGGATTCGGTCGCGCCCGGGATGAAGGACGAGGCGCGGGACAATCTGCAAAAGCTGTTTTCGCAAGCGCCCTTTGCAGCGGGCGAGATCATTATCCGCATCAACCCGCTTTCCACGCCCGACGGTAAGGCGGATTTGCAGCTTGTGCTTTCCTGCCGGCCGGATGCAATTCTTTTGCCGAAGGTGGAGCAGCCGGCCGATATTCACGATGTGGCCGATCTTCTGGCCGAGGCGGATGCGCCGGAGCACCTGAAAATCTGGGCGATGATCGAAACACCGCTTGGTGTCCTGAATGCGGCCTCGATTGCTGACGCAGCCCATACGCCGGATGCGCGGCTTTCGGCTTTTGTCATCGGGCTCAACGACCTGCGTAAGGCAACGAGGGTGTCGGCCCTTCCCGGACGCACTTATCTCGTGCCCTGGATGATGCAGGTGGTGCTTGCCGCCCGTGCCTATGGTCTGGATGTCATCGACAGCGTCTCGAACGATTTCCGCGATATCGCCGCTTTCGAAGCCGAATGTGAGCAGGGTCGCGCCATGGGGTTCGATGGCAAGATGCTGATCCACCCGGCACAGATCGAGCCGGCCAACCGGCGCTTCGCCCCGGACGAGGCAGCGGTTGCGGAAGCCCGCGAGATCATTGCCGCTTTCGCAAAACCCGAATCTGTGGAATTGAACGTCATCAACATGAACGGCCGCATGATCGAGCGGCTGCATGTGGGGCAGGCCGAAAGGCTGGTCGCCATGGCCGATATCATCGCACAAAGAGAGGCAAATAAGACGTGA	MVNFSENILVRPRRSLLSVPAINVRALEKIRYLDCDGVILDLEDSVAPGMKDEARDNLQKLFSQAPFAAGEIIIRINPLSTPDGKADLQLVLSCRPDAILLPKVEQPADIHDVADLLAEADAPEHLKIWAMIETPLGVLNAASIADAAHTPDARLSAFVIGLNDLRKATRVSALPGRTYLVPWMMQVVLAARAYGLDVIDSVSNDFRDIAAFEAECEQGRAMGFDGKMLIHPAQIEPANRRFAPDEAAVAEAREIIAAFAKPESVELNVINMNGRMIERLHVGQAERLVAMADIIAQREANKT	PGPT0019480_935	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_CITRATE_SENSING|UTILIZATION,PGPT0019480-citE-K01644	NA	NA
BMS010_04700	231			hypothetical protein	ATGCAAGGCATACGTTCGTTTTTCATCGCCGCATCCGGCATTGCAATTCTCGCGATAGTCGCCCTTTTCACCGCGTCGCTCACGGTCGCTTTTATCGGCGTGCTCGCGGTTCTCAGTGCTGCCCGCCTGCTTTCCGCGCGTCTGAAGCCGGCCCCCATTCCGGTCAAGCCCCGTAACCAGCGCGATATGCGCGTCTGGAACGACGGCAAGGGCACGATTATCGATCTCTGA	MQGIRSFFIAASGIAILAIVALFTASLTVAFIGVLAVLSAARLLSARLKPAPIPVKPRNQRDMRVWNDGKGTIIDL				NA	NA	NA	NA	NA
BMS010_04701	606	leuD1_1	COG0066	3-isopropylmalate dehydratase small subunit 1	ATGGAAAAATTCACCAAGCTGACGGGCGTTGCCGCGCCCATGCCGGTGGTCAATATCGACACCGATATGATCATTCCGAAAGACTATCTGAAGACCATCAAGCGCACCGGCCTCGGCAAGGGCCTCTTCGCCGAGTCGCGTTATCTTGAGGATGGTTCACCCAATCCGGATTTCGTACTGAACAAGCCCGCCTACCAGAACGCCCAGATTCTTGTCGCCGGTGACAATTTTGGTTGCGGCTCTTCGCGCGAACATGCGCCATGGGCGCTTCTCGATTTTGGCATCCGCTGCGTGATCTCCACCAGCTTCGCCGACATCTTCTACAATAACTGTTTCAAGAACGGCATCCTGCCGATCGTCGTCAGCCCCGAGAACCTCGAAAAGCTGCTGGACGATGCGTCGCGCGGATCGAACGCCGTTCTCTCCATCGATCTGGAAAGTCAGGAAATCAGCGGCCCCGATGGCGGTACGATCACCTTCGAGATCGATGAATTCAAGCGCCATTGCATGCTGAACGGTCTGGACGATATCGGCCTGACGCTCGAACATTCGGGCGCCATCGACACGTTCGAAAAGGCAAACGCCTCGGTCCGCCCCTGGGCCTGA	MEKFTKLTGVAAPMPVVNIDTDMIIPKDYLKTIKRTGLGKGLFAESRYLEDGSPNPDFVLNKPAYQNAQILVAGDNFGCGSSREHAPWALLDFGIRCVISTSFADIFYNNCFKNGILPIVVSPENLEKLLDDASRGSNAVLSIDLESQEISGPDGGTITFEIDEFKRHCMLNGLDDIGLTLEHSGAIDTFEKANASVRPWA	PGPT0001443_1963	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001443-leuD-K01704	NA	NA
BMS010_04702	1113	leuB_1	COG0473	3-isopropylmalate dehydrogenase	ATGACAGTCCGTTCGCTTTTCCTGCTGCCCGGTGACGGTATCGGCCCCGAAGCCATGGCCGAAGTTCGCAAGCTGATCGATTATATGAACAGCGCGCACAATGCCGGCTTCACCGTTGCGGAAGGTCTGGTCGGCGGCTCTGCTTATGACGCCCATGGCGTGGCGATTTCCGATGCGGATATGGAAAAGGCGCTTGCCGCCGATGCGATCCTATTCGGCGCCGTCGGCGGCCCGAAATGGGATGGCGTCCCCTACGAGCACCGCCCGGAAGCCGGTCTGCTTCGCCTGCGCAAGGATCTCGAACTTTTCGCCAATCTGCGCCCGGCCATCTGCTACCCGGCGCTTGCCGCGGCCTCTTCGCTGAAGCCGGAACTGGTCGAAGGCCTCGATATCCTCATCGTCCGCGAGCTGACGGGCGGTGTTTATTTCGGTGAGCCGAAGCAGATCATCGATCTCGGCAACGGCCAGAAGCGCGGCATCGACACGCAGATTTACGACACTTTCGAGATCGAGCGTATCGCCAGCGTCGCTTTCGAACTGGCCCGCACCCGCGACAACCGCGTCTGCTCGATGGAAAAGCGCAACGTGATGAAGTCAGGCGTTCTGTGGAACCAGGTGGTCACCGAAACCCACGCCGCCAAGTTCAAGGATGTTCAGCTGGAACATATGCTGGCCGATGCCGGCGGGATGCAGCTGGTGCGCAAGCCCAAGCAGTTCGATGTGATCGTCACCGACAACCTCTTCGGCGACATGCTCTCCGACGTCGCCGCCATGCTCACCGGCTCGCTCGGTATGCTGCCGTCCGCTTCGCTCGGCGCGCCTGACGCCAAGACGGGCAAGCGCAAGGCCATGTATGAGCCGGTCCACGGTTCGGCCCCGGATATTGCCGGCAAGGGCATCGCCAACCCCATCGCCATGATCGCGTCCTTCGCCATGTGCCTGCGTTACTCGTTCAACATGGTGGATGAGGCAACGAAGCTCGAAGCAGCGATCGCAAACGTGCTGGACAAGGGCATCCGCACCGCCGACATCATGGCCGAGGGCAGCCGTCAGGTCGGCACCTCCGAAATGGGCGACGCGGTTCTCGCCGAATTCAAGGCGCTTTCGGCGTAA	MTVRSLFLLPGDGIGPEAMAEVRKLIDYMNSAHNAGFTVAEGLVGGSAYDAHGVAISDADMEKALAADAILFGAVGGPKWDGVPYEHRPEAGLLRLRKDLELFANLRPAICYPALAAASSLKPELVEGLDILIVRELTGGVYFGEPKQIIDLGNGQKRGIDTQIYDTFEIERIASVAFELARTRDNRVCSMEKRNVMKSGVLWNQVVTETHAAKFKDVQLEHMLADAGGMQLVRKPKQFDVIVTDNLFGDMLSDVAAMLTGSLGMLPSASLGAPDAKTGKRKAMYEPVHGSAPDIAGKGIANPIAMIASFAMCLRYSFNMVDEATKLEAAIANVLDKGIRTADIMAEGSRQVGTSEMGDAVLAEFKALSA	PGPT0001441_700	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001441-leuB-K00052	NA	NA
BMS010_04703	1251	mauG		Methylamine utilization protein MauG	ATGATGAAACCCGGATTTTTTGTCTCCGCTGCTCTTGCCGCATCCATTCTGCTGGCCCCCTTGGGCACCGGTGTCGATGGTATGGCTGCCCACGGCGGTGAAGACTATGCGACGCTGGAAAAACTGGGTGCCGCGCTATTCGACGATCCCAGTCTTTCGATGAACCGCACCATGGCCTGTTCCACCTGCCATATGCAGGCCGCCGGTTTTTCCGATGCGCGGGAGAGCGACAAGGTGGGACGGGATGTATCGCTTGGCGATGACGGCATTTCACTGGGCGACCGCAACGCGCCGACTGCAGCTTATGCTCGCTTCACGCCGCCATTCGGCAGGAATGCGGCGGGAGAGTATGTCGGCGGGCAGTTCTGGGATGGCCGCGCCTCCCTGCTTGAAGATCAGGCGGGCGGTCCGCCGCTCAATCCCCTCGAAATGGGCATGCCGGACAAGGCCTCGGTCGTCAAACGGCTCAGGGAAAACCCGGACTATGTCGCGGCTTTTGGCACGCAGTTCGGCAAGGATGTTTTTGAAAGCGACGACACCGCCTATGCCGCGATGACGAAGGCGCTGGCGAGCTTTGAGCGTTCGGATGAGTTCTCCACCTTCGATTCCAAATATGACCGCTTCCTGCGCGGTGAGGAGAAGCTGACCGATCAGGAAGAGCTGGGTCGGGTTCTGATCTCCTCGACGCAATTCACCAATTGCAATACCTGCCATGAAATCCGTGGCGCTAGGGGTCTGGAAGACGGCCTCTTCACCAACCACAAATATTTCAACATCGGCGTTCCCGCCAATACATCGGTTCGGGCCGTGAACGGCTCCAAACCGGGCGCGGTCGATCTGGGTCTGGCGCAAAATCCGGAAGTTGCCGGCGATGCCGCCCAGCGTGGCAAGTTCAAGGTGCCGACGCTGCGCAATGTCGCCGTCACCGGTCCTTACATGCACAATGGCGTGTTCAAGGATTTGCGTACGGTAGTGTTGTTTTATGTGAAATATAAAAGCAAGAAGCCGAGCCGCCAGATCAATCCGGAAACGGGCAAGACGTGGGATGCGCCGGAAGTGCCTGAAAATATCGCCATGGTGGAACTGACATCCGCGCCGGCGCTGGACGACAAGCGTGTGGACGCCATCGTCGCCTTTCTGAAGACGCTGACTGACAAAAGATATGAGCATCTTCTGCCGAAGGAAGATGGGCAGGCAAAGGTGCCGCCTGCCCAGCCGGTTTCGTCGAGCGTTACGCCGAAAGCGCCTTGA	MMKPGFFVSAALAASILLAPLGTGVDGMAAHGGEDYATLEKLGAALFDDPSLSMNRTMACSTCHMQAAGFSDARESDKVGRDVSLGDDGISLGDRNAPTAAYARFTPPFGRNAAGEYVGGQFWDGRASLLEDQAGGPPLNPLEMGMPDKASVVKRLRENPDYVAAFGTQFGKDVFESDDTAYAAMTKALASFERSDEFSTFDSKYDRFLRGEEKLTDQEELGRVLISSTQFTNCNTCHEIRGARGLEDGLFTNHKYFNIGVPANTSVRAVNGSKPGAVDLGLAQNPEVAGDAAQRGKFKVPTLRNVAVTGPYMHNGVFKDLRTVVLFYVKYKSKKPSRQINPETGKTWDAPEVPENIAMVELTSAPALDDKRVDAIVAFLKTLTDKRYEHLLPKEDGQAKVPPAQPVSSSVTPKAP				NA	NA	NA	NA	NA
BMS010_04704	1317	cobB_1		Hydrogenobyrinate a,c-diamide synthase	ATGACGGCGCGGGCGATCATCATCGGTGCGCCGCGTTCGGGTTCCGGCAAGACCAGCGTAACTATCGGTCTGCTCCGGGCCTTTGCCCGACGCGGCATCAAGGTGCGCGGCATCAAGACCGGGCCTGACTACATCGATCCCGGTTTCCATACCTTCGCCACCGGCACAGCCGGTCTTAATCTGGATAGCTGGGCCATGCGGCCGGAATTGCTGCGGCACCTGTTTTCGCAGCAGGCCGAGGATACGGAGCTTGTTCTGATCGAAAGCGCCATGGGCCTGTTCGACGGCATTCCGGTTGCGGAAAATCGCACAGGTTCGGCGGCGGATTTGGCGCGGCTGTTCGGCATTCCCGTGTTGCTGGTGCTGGATGTGTCCGGCCAATCGCAGACGGCCGCTGCCGTCGCCCATGGTTTTGCCCACTACGATCCGGCCGTTACCATGGCGGCGGTGGTGCTGAACCGGGCGGGCAGCGAAAGACACCGGACGCTGTGCACGGAAGCCATCGAAAAAATCGGCCTTCCTGTTGCCGGCTGTGTGCTGCGTGATCCTTCGCTCATCCTGCCTGAACGGCATCTGGGGCTGGTGCAGGCCAGCGAACATCCGGAAATCGATGCGCATATCGAACGGCTCGCGGATGCGATGGAAAAATCCATCGATCTCGATGCCCTGCTTTCACTCGCCGCGCCGGTGAATGTGCCTTCTGGCTCGGTGGACGCGGCGATTGCACCGCCCGGCCAGCGCATCGCGCTGGCAGAGGATGCGGCGTTCACTTTCCTTTATCCGCATCTCAGAAAGCATTGGCAGGCAGCCGGAGCCGAGATCGTGCCGTTCTCGCCGCTCGCGGATGAGGCGCCCGACGGGAGCTGCGATATTTGCTGGCTGCCGGGCGGATATCCCGAGCTTTTTGCCGGAAAGCTTGCGGATGCGGCTGGTTTCAAGGCTGGTATTGCCCGCTTTGCTGCGACAAAGCCTGTTCATGGCGAGTGCGGCGGTTACATGGTGCTCGGAGAGGCGCTGGAAGATGCGGATGGTGTGACCCATGCGATGACCGGGCTTCTGTCGCATGCCACCAGCTTTGCGACGCGCAAGATGAATCTCGGCTACCGGCAGGCAACAATCGCGGCAAGCGGACCGCTCGGCGCGGTGGGAGATGTTCTGCGCGGCCATGAATTCCATTATGCGCGGGTTACCGATCCCGGTCGCGATGAGCCCTTCGCCCAGATTGCGGACGGGCAGGGTCGTCCGCTCGGGCCATCAGGTGGCAGAAGAGGGTTTGTCTCGGGCACCTTTTTCCATGCCATCGCCAGAGGCAGTTGA	MTARAIIIGAPRSGSGKTSVTIGLLRAFARRGIKVRGIKTGPDYIDPGFHTFATGTAGLNLDSWAMRPELLRHLFSQQAEDTELVLIESAMGLFDGIPVAENRTGSAADLARLFGIPVLLVLDVSGQSQTAAAVAHGFAHYDPAVTMAAVVLNRAGSERHRTLCTEAIEKIGLPVAGCVLRDPSLILPERHLGLVQASEHPEIDAHIERLADAMEKSIDLDALLSLAAPVNVPSGSVDAAIAPPGQRIALAEDAAFTFLYPHLRKHWQAAGAEIVPFSPLADEAPDGSCDICWLPGGYPELFAGKLADAAGFKAGIARFAATKPVHGECGGYMVLGEALEDADGVTHAMTGLLSHATSFATRKMNLGYRQATIAASGPLGAVGDVLRGHEFHYARVTDPGRDEPFAQIADGQGRPLGPSGGRRGFVSGTFFHAIARGS	PGPT0004605_1925	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004605-cbiA-K02224	NA	NA
BMS010_04705	789	cobA		Uroporphyrinogen-III C-methyltransferase	ATGTCGATAGCGCAGATTTTGAACAGCATTGCCGCAAAAGGTCCGGTCTTCGAGGCCGGTCACGTCTGGCTCGCGGGCGCAGGGCCGGGCGATGTGCGTTATCTGACGCTGGAAGTGGCGCTCGCGCTGTCTCAGGCCGATATCATCGTGCGTGATGCGTTGGTGAGCGACGAAGTCATAGCGCTTGGTCCGCAGGCGGAGATTGTGTTTGCGGGCAAAAGGGGTGGCAAGCCCTCCGCGACGCAGGATGATATTACCGCTTCGCTCATCGATTTCGCCGGCCAAGGCAAAAAGGTGCTGCGGCTGAAGGGCGGTGATCCCTTTATTTTCGGGCGCGGCGGCGAAGAGGCGGAGGCGCTTGTCCATGCCGGCATTCCATTTCGCATATTGCCGGGCATGACCTCGTCGTTCACCGCGCTCGCTTCCGCCGGCATCCCCGCCACCATGCGCGGCATCAGCCGCGCCATAACTCTTGCCACGGGCCACGCGGCGGGCACCGAAGAGGATCTGGACTGGCTGGCGCTGGCGAAAACACGCGAACCCATCGTCGTTTATATGGGGCTCAAGAATATCGGCACGATCGCCAGCCTTCTGATGCAGGGTGGCCGTTCCGCCAAAACGCCGGTCGCCGTCATTATGTCGGCAACGACAGCGCAGGAGCGGATTTTCATCGGCTCGCTGAAAAGCATAGCTGACGATGCAATCAGGCAAAATTTCGAAGCGCCGGCTTTGATCGTCATCGGCGAGATTGTTTCGATGCGGGCGCGTCTTGGAGTTTCCGGCTCATGA	MSIAQILNSIAAKGPVFEAGHVWLAGAGPGDVRYLTLEVALALSQADIIVRDALVSDEVIALGPQAEIVFAGKRGGKPSATQDDITASLIDFAGQGKKVLRLKGGDPFIFGRGGEEAEALVHAGIPFRILPGMTSSFTALASAGIPATMRGISRAITLATGHAAGTEEDLDWLALAKTREPIVVYMGLKNIGTIASLLMQGGRSAKTPVAVIMSATTAQERIFIGSLKSIADDAIRQNFEAPALIVIGEIVSMRARLGVSGS	PGPT0003685_1453	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0003685-sirA|ylnD|cysG|cobA-K02303	NA	NA
BMS010_04706	1167	cbiD	COG1903	Cobalt-precorrin-5B C(1)-methyltransferase	ATGACGGAAAAAGCCGTCCCGGCTATAGAAATTCATATGGATACGGATGGAAAGACCCTTCGCCGCGGCTGGACCACGGGCACCTGCGCGGCAGCCGCCACGAAGGCGGCCTGCGCCGCCCTTCTGACCGGCGAGTTTCCTTACCCTGTGGAGGTCGAACTTCCAAGCGGCGCGAGGCCGGCATTTTCCCTCGCCACCGAGGAAAAGGGCGAAAACTTCGCGCGCGCCGGCGTCGTCAAGGATGCCGGAGACGATCCGGACGTTACCCACGGTGCGCTGATCGAAAGCACGGTGCGGCAAGGTCAACCGGGAAGCGGGATTATCTTCAAGGCCGGAAAGGGCGTCGGCACCATCACCCGGCCGGGCCTGCCCCTGCCGCCGGGAGAACCCGCCATCAACCCCGTGCCGCGCAAGATGATCGAAACCGCCATTCGCGAAGTGGCTGGCGAGGAGGCCGATTTCGAGGTCGAGATTTCCGTCCGCGACGGCGAAAAACTGGCGGAAAAAACCCTGAACGGCAGGCTCGGCATCGTCGGCGGCATTTCCATCCTCGGCACCACCGGCATCGTCATTCCCTTTTCCTGCTCGGCATGGATCCACTCCATCTGGCGCGGCATCGATGTGGCGCGTGCGACCGGCTGCACCCATGTGCTTGGCGCTACCGGCAACACCTCCGAAAAAGCCGGGCAGACGCTTTACGATCTGCCGGAAACTGCGCTGATCGACATGGGCGATTTCATCGGCGGCATGCTGAAATATCTGCGCAGCCACCCCGTCGAGCGGGTAACGATTGCCGGCGGCGTCGCCAAGATGACCAAGCTCGCCCAGGGCATGCTCGACGTGCACTCCAAAAAGGGGCTGGCCGATCTCGATGCGCTGGCGGCATTGGCGACGGAAGCCGGAGGAGATGAAAATCTCGCCCTTGCCATCCGTCAGGCCAACATGGTCGCACACGCCTTCGAATTGGCCGAAGGCGCGGGGATAGACCTCGGTGCGGTAGTTGCGGAAAAAGCCTGGGTAACCGCAGCGGCGGCGCTGAAGACGCCGGCCATTGCGCTCGATATTCTGGTGTTCGATCGTCAGGGCGCGCTCAAGGGCCGCACCGCCTCCACGCCGTCGCATCAGCCCTTTGCATCTTCCTTCGGAGAGCGGAACCGCCGGACATAG	MTEKAVPAIEIHMDTDGKTLRRGWTTGTCAAAATKAACAALLTGEFPYPVEVELPSGARPAFSLATEEKGENFARAGVVKDAGDDPDVTHGALIESTVRQGQPGSGIIFKAGKGVGTITRPGLPLPPGEPAINPVPRKMIETAIREVAGEEADFEVEISVRDGEKLAEKTLNGRLGIVGGISILGTTGIVIPFSCSAWIHSIWRGIDVARATGCTHVLGATGNTSEKAGQTLYDLPETALIDMGDFIGGMLKYLRSHPVERVTIAGGVAKMTKLAQGMLDVHSKKGLADLDALAALATEAGGDENLALAIRQANMVAHAFELAEGAGIDLGAVVAEKAWVTAAAALKTPAIALDILVFDRQGALKGRTASTPSHQPFASSFGERNRRT	PGPT0004615_524	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004615-cbiD-K02188	NA	NA
BMS010_04707	774	cobM		Precorrin-4 C(11)-methyltransferase	ATGACGGTTCATTTCATCGGCGCCGGCCCGGGTGCTGCCGATCTCATTACGGTGCGCGGGCGCGATCTAATCGCTGCCTGCCCGGTGTGTCTTTATGCCGGCTCGCTGGTTCCGAAGGCGCTCATCGATTATTGCCCTCCAGGCGCCCGCATCGTCGATACGGCAGCACTTTCGCTTGACGAGATCGAGGCGGAATTCGTGGCCGCAGCAGAGGCCGGCAAGGATGTGGCGCGGCTGCATTCCGGCGATCTTTCCGTCTGGAGCGCCATGGGCGAGCAGATCCGCCGTCTGGAGCGACTGGGTCTCGATTATACCGTCACGCCCGGCGTGCCTTCCTTTGCCGCTGCGGCCGCCACTTTGCAGCGGGAACTGACGGTGCCGGAAGTGGCGCAGAGCCTTGTGCTGACCCGCATTTCCGGGCGCGCATCGAAGATGCCTGACGGTGAGACGCTGGAGGCTTTCGGTGCGACGGGCGCGACGCTTGCCGTCCATCTCGCCATTCATGCCATCGGCAAGGTGGTGGAAGAGCTGACGCCGCTTTACGGTTCGGATTGCCCGGTCGCTATCGTCGTACGCGCCTCCTGGCCGGATGAGCGGGTCATTCGCGGCACGCTGTTCGACATTGAGGACAAGCTCGCCGCCGAACCGGTGGAGCGGACCGCCCTTATCTTCGTCGGGCGTGGACTTGCCTCCACGGATTTTCGCGAAAGCGCGCTTTATAGCACCGACTATGTCCGGCGGTTCCGCTCTCCGAAGGAAGATGCAAAGGGCTGA	MTVHFIGAGPGAADLITVRGRDLIAACPVCLYAGSLVPKALIDYCPPGARIVDTAALSLDEIEAEFVAAAEAGKDVARLHSGDLSVWSAMGEQIRRLERLGLDYTVTPGVPSFAAAAATLQRELTVPEVAQSLVLTRISGRASKMPDGETLEAFGATGATLAVHLAIHAIGKVVEELTPLYGSDCPVAIVVRASWPDERVIRGTLFDIEDKLAAEPVERTALIFVGRGLASTDFRESALYSTDYVRRFRSPKEDAKG	PGPT0004625_823	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004625-cbiF-K05936	NA	NA
BMS010_04708	1260	cobL		Precorrin-6Y C(5,15)-methyltransferase [decarboxylating]	ATGACTTCTGAATATTCTGGAACGAGCGATGCTTCCACAGAAAAGAAAGAGAAGCCCTGGCTTTCCATCGTCGGCATTGGCGAGGATGGGCTAGAGGGGCTGGGCCGGAATGCGATAGAGGCGATAGAAGCGGCCGAGGTGGTTTTCGGCGGCAAACGCCATCTGGAACTGGCGGCCGCAGCCATCCAAGGTGAAGCACGGCGCTGGCCGGTGCCGTTCGATACGGATATAAGCGATGTCGTAGCGCTGCGTGGCAAGCGGGTTTGTGTGCTGGCTTCCGGCGATCCGTTCTTTTATGGCGTCGGTGTTACGCTTCTGCGACGTATCGATGCGGGTGAGACAGTTTGTTATCCCTCGCCCTCCGCTTTCTCGCTGGCTGCCGCACGGCTCGGTTGGGCGCTGCAAGCGGTCGACTGCGTTTCGCTGCACGGACGTTCCATCGATCTCCTGCGGCCGTATCTTCATGCCGGTGCGCGGATCATCGCGCTCACCTCGGACGCTCACGCGCCGGCCTTGATCGCGGAATTGTTGTCCGATTTGGGTTTCGGCCAGTCGGAATTCGTCTTGCTTGAAGCCTTGGGCGGAGAGCGGGAGAAGCGGCGGCATGTCAAGGCGGTTGATTTTACGTTTGCTGATATTGATGCACTGAATGTGGTGGCGATTGATGTCGTGGCTGATGAAGGTGCGCGTATTCTGCCTTTCACATGTGGGCTTGATGACAGCCTATTCGAACATGACGGGCAGATCACCAAGCGTGAAATCCGCGCCGTGACACTTTCTTCTCTTGCCCCACGGCGGGGCGAGTTGCTGTGGGATATCGGTGCCGGTTCGGGTTCGATCGGCATCGAATGGATGCTGTCCCATCCCTCGCTCCGTGCCATCGCCATAGAGCAACACCCGGAAAGGGCGGAGCGTATCGCCCGCAATGCCGAAGCTTTCGGTGTGCCGGCGCTTGAGGTCATGATCGGCGCGGCCCCTGCGGCTTTTGAAGGCCTGCCTCAGCCGGATGCTATTTTCATGGGTGGCGGCGGCAGTGAAGCGGGCGTGCTTGAGGGTGCCATGGAGGCCCTGAAACCGGGCGGGCGGCTGGTTGCCAATGCGGTGACACTGGAAATGGAGGCCGTGCTGCTTGCCGCCCACGCGCGGCACGGCGGATCGATGATCCGCCTGGATGTGTCGCGAGTGACGGCCGTTGGCTCCATGTCGGGCTGGCGTCCGGCAATGCCGGTGACGCAGTGGAGTTGGAACAAGCCATGGTGA	MTSEYSGTSDASTEKKEKPWLSIVGIGEDGLEGLGRNAIEAIEAAEVVFGGKRHLELAAAAIQGEARRWPVPFDTDISDVVALRGKRVCVLASGDPFFYGVGVTLLRRIDAGETVCYPSPSAFSLAAARLGWALQAVDCVSLHGRSIDLLRPYLHAGARIIALTSDAHAPALIAELLSDLGFGQSEFVLLEALGGEREKRRHVKAVDFTFADIDALNVVAIDVVADEGARILPFTCGLDDSLFEHDGQITKREIRAVTLSSLAPRRGELLWDIGAGSGSIGIEWMLSHPSLRAIAIEQHPERAERIARNAEAFGVPALEVMIGAAPAAFEGLPQPDAIFMGGGGSEAGVLEGAMEALKPGGRLVANAVTLEMEAVLLAAHARHGGSMIRLDVSRVTAVGSMSGWRPAMPVTQWSWNKPW	PGPT0009270_295	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0009270-cobL-K00595	NA	NA
BMS010_04709	687	cobK		Precorrin-6A reductase	ATGGCCGGTCGCACGCTCTCGCCGGTCGAACAGCCGGTGCCGATGCGCAGCGGCGGTTTTGGCGGCGCGGGCGGTCTCGCGGATTTCATTCGCGCAGAGAATTTCGATATTCTGGTGGACGCCACCCATCCCTATGCGGCGAAGATTTCCGCCAATGCCATTGAGGCCGCAGGGCTTGCCAAAGTTCCGCTGGTCGTCCTTTCGCGTCCTGCCTGGCAGCGCCAGCCGGGTGACAGGTGGCGTGAGGTGAACAGCGTCGAACAGGCTGTCACCGCGCTCGGCAGCGAAGGCAGGCGCGCGTTTCTGGCGCTCGGCCGACAGGAGCTTCTTCCTTTCGAAGCCGCGCCCCAGCACAACTATCTCATCCGCAGCGTCGACCCGGTGGAGCCGCCACTGAAACTGCCGCATGCGCGCTATATTACCGCGCGCGGCCCCTTTGCGCTGGACGACGAAATCCGCATGCTGGAAGAAAACCGCATCGAGACGGTGGTCTCGAAAAACTCCGGCGGCAGCGCGAGCTATGGCAAGATCGAAGCTGCAAGACGGCTTCGCCTGCCGGTCATCATGATCGACCGGCCGCGACAGCGGAACGACGCGTCCCTGGATGGCGCGACCGTGACGGATATTGCAGCTGCGCTCACCGCCATCCACCATCAGCTCTCTCTTCTCGAAAAACGCGGCGAATAA	MAGRTLSPVEQPVPMRSGGFGGAGGLADFIRAENFDILVDATHPYAAKISANAIEAAGLAKVPLVVLSRPAWQRQPGDRWREVNSVEQAVTALGSEGRRAFLALGRQELLPFEAAPQHNYLIRSVDPVEPPLKLPHARYITARGPFALDDEIRMLEENRIETVVSKNSGGSASYGKIEAARRLRLPVIMIDRPRQRNDASLDGATVTDIAAALTAIHHQLSLLEKRGE	PGPT0004640_377	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004640-cbiJ-K05895	NA	NA
BMS010_04710	762	cobJ		Precorrin-3B C(17)-methyltransferase	ATGACCGGCAGGCTGGTCGTTGTCGGCCTCGGCCCCGGCAGTGCGGCGCAGGTAACGCCGGAGGCGCTTGTCGCCGTCGAGGCGTCGGAGGATTTCTTCGGTTATATTCCCTATCTTGACCGTCTATCGTTGAGACCCGATCAACGCCGCCATGCTTCGGACAATCGTGAGGAAATCTCACGCGCCGAACAGGCGCTGCGGCTTGCGGCTTCCGGCGGCAAAGTCTGTGTGGTGTCCGGCGGCGATCCCGGTGTTTTCGCCATGGCGGCTGCGGTTTGCGAGGCGATCGAAAGTGGCCCCGCTGAATGGCGCGATATCGATTTCTCCGTCGTGCCGGGTGTGACTGCCATGCTGGCCGTGGCCGCAAAGGCCGGCGCGCCGCTTGGCCATGATTTCTGCGCCATTTCGCTGTCGGATAATCTGAAACCCTGGGGCATCATTGAAAAACGGCTGATCGCGGCGGCGGAAGCAGGCTTTGTGATGGCTTTCTACAATCCCGTCAGCAGGGCGCGGCCGCACCAGCTCGGTACCGCTTTTGATCTGTTGAGGGCGCATTTGCCCGGTTCGGTGCCGGTGATTTTCGGTCGTGCGGCAGGCCGGGCGGATGAGCGTATTCGGGTCGTGCCTCTTTCGGAAGCCTCGAGCGATATGGCGGATATGGCTACCTGCATCATCGTCGGCTCGGTTGAAACCCGTCTGATCGAACGTTCCGGCAAAGAACCGCTGGTTTATTCGCCGCGTTTTTCGAGAAGAGAGAGCTGA	MTGRLVVVGLGPGSAAQVTPEALVAVEASEDFFGYIPYLDRLSLRPDQRRHASDNREEISRAEQALRLAASGGKVCVVSGGDPGVFAMAAAVCEAIESGPAEWRDIDFSVVPGVTAMLAVAAKAGAPLGHDFCAISLSDNLKPWGIIEKRLIAAAEAGFVMAFYNPVSRARPHQLGTAFDLLRAHLPGSVPVIFGRAAGRADERIRVVPLSEASSDMADMATCIIVGSVETRLIERSGKEPLVYSPRFSRRES	PGPT0004635_496	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004635-cbiH-K05934	NA	NA
BMS010_04711	768	cobI		Precorrin-2 C(20)-methyltransferase	GTGAGCGCGGCTCTTTTTGAACATCCGAAGGGTAAACTCGTGGGCGTCGGCACCGGCCCCGGAGATCCCGAGCTTCTGACGCTGAAGGCTGTCCGCGCCATTGAAAATGCCGATGTGCTTGCCTTCTTCTGCAAGAAAGGCAGCAGCGGCAATGGTCGCGGTATTGTCGAAGCTTTCATCCGGCCCGGAACGCTGGAAATGCCGCTGGTCTATCCGGTAACAGTCGAAAGCGATAAAAACGGCGACGATTATCGCGGCGCGATCGCCGCCTTTTTCGATCAGTCGGCGAAAGACATCGCTGTGCACCTCGAAGCCGGGCGCAATGTCGCCGTGCTGTCGGAAGGCGATCCGCTGTTTTATGGTTCTTATATGCACCTTCATCTGCGGCTTGCACCATCTTACCCGGCGGAGGTCGTTGCTGGCATCACGGCCATGTCCGGTTGCTGGTCCATGGCTGGTTTGCCGCTGGTGCAAGGCGATGATATTTTGAGCGTGCTTCCCGGCACGCTGGGTGAAGATGTGCTGACGGAACGTCTCTCCGGCACGGATGGCGCGGTGATCATGAAGGTGGGGCGCAACCTGCCGAAGATTCGCCGGGCGCTGGAAAAGGCCGGTAAGCTTGAAGACGCGCTTTATGTCGAACGTGGCACAATGGCCAACAGCCATGCGGTGCGGCTCATCGAACGCGATACATCGCCTGCCCCCTATTTTTCGCTGGTTCTGGTACCGGGCTGGAAAACCAGACCCTCTGCAGGTGAAAAGCCATGA	MSAALFEHPKGKLVGVGTGPGDPELLTLKAVRAIENADVLAFFCKKGSSGNGRGIVEAFIRPGTLEMPLVYPVTVESDKNGDDYRGAIAAFFDQSAKDIAVHLEAGRNVAVLSEGDPLFYGSYMHLHLRLAPSYPAEVVAGITAMSGCWSMAGLPLVQGDDILSVLPGTLGEDVLTERLSGTDGAVIMKVGRNLPKIRRALEKAGKLEDALYVERGTMANSHAVRLIERDTSPAPYFSLVLVPGWKTRPSAGEKP	PGPT0004690_174	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004690-cbiL-K03394	NA	NA
BMS010_04712	633	cobH		Precorrin-8X methylmutase	ATGACCGACTATGACTATATTCGCGACGGCAATGCGATCTATGAGCGCTCCTTCGCCATCATTCGCGAAGAAGCGGACTTATCCGCCTTTACCGAAGAGCAGGCGGATATCGCCATTCGCATGATCCACGCCTGCGGGCAGGTGGAGGCGGCCAGCCATTTCCGCTTTTCACTGGATTTTGTTGCCGCGGCACGTGGTGCTCTACGAGCCGGCAAGCCTGTTCTCTGCGATGCGGAAATGGTTGCCCATGGCGTGACGCGCGCGCGCCTTCCGGCTGATAATGATGTGGTTTGCACCCTTCGCGATGCCCGCACGCCGGAGCTGGCGAAAAAGATCGGCAACACCCGCTCCGCCGCCGCACTCGATTTGTGGGCAGAGAAGCTGGATGGTGCTCTCGTTGCCATTGGCAATGCGCCGACTGCACTGTTCTATTTGCTTGAGATGCTGGAAAAAGGCGCCCCGCGCCCGGCCGCCATCATCGGCATGCCGGTTGGCTTTGTCGGTGCGGCGGAATCGAAAGACGCGCTGGAGGCAAGTTCGCTCGGCATTCCCTATGCTATCGTCAAGGGACGCATGGGCGGTTCGGCCATGACGGCTGCCGCTATCAATGCCGTTGCGAGGGCTGGCCTGTGA	MTDYDYIRDGNAIYERSFAIIREEADLSAFTEEQADIAIRMIHACGQVEAASHFRFSLDFVAAARGALRAGKPVLCDAEMVAHGVTRARLPADNDVVCTLRDARTPELAKKIGNTRSAAALDLWAEKLDGALVAIGNAPTALFYLLEMLEKGAPRPAAIIGMPVGFVGAAESKDALEASSLGIPYAIVKGRMGGSAMTAAAINAVARAGL	PGPT0004610_975	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004610-cbiC-K06042	NA	NA
BMS010_04713	1356			hypothetical protein	ATGATGGCCGCTGCCGATCCAGTTCAGCCATTCGGCCGCCGTGGCCTCTGCCCGGCCCTGTCCGCTCCCATGCGCACCGGCGACGGTTTTTTGTCGCGGATCGCTTTCGAGGCGGATATCGACCCGCGCGACATGGTGGTGCTTTGTCAGCTTGCCGAGCGGCATGGCAACGGATTGATCGACATTACCGCCCGCGGCAGCCTGCAATTTCGCGGCCTGACACCGGAAAGCGCCGGCGCTCTGGAAAAAGATGTGCTGGCCCTGGATTTGCCGCTGCGTGCGGGGCTCGCGGTCGAGACGTCGCCTCTCGCCGGTCGGGATGACGCGGAGATTGCCGATGGTGGTCCTGTCGCCGCGGAGATTCGAAAAGAGGTCGACAGGCTCGCTCTCCATGAAAAGCTTGCCGCTAAAATGTCTGTCGTCATTGATGGCGGCGGGCGTCTTTCCATGGAAGATTTGCTGGCCGATATTCGCCTGAGAGCTGTGTCGCTTGATGGGCGGGCCGTCTGGCGATTGCTCGTGGGTGGAGCGGAAAGCAGGGCGCTGAATGCCGGCTTGGTCGAGACGGACATAGCGGCGGGTGTCGTCCTGTCGCTGCTCGTCTATCTGGCCGGCGAAGGGCCGTTTGCCCGTGGCCGCGATCTGGACCATTCGACGATAAAAGAAATCTGCGGTGATCGCCTGCTGGATCGGGTGATTGATGATAACGCCAGAGCGGCTTCTGCGCCTCTGGGGCTGATGATGACGGGAAAGGATCGCTTCGCCATTGCCGTCGCGCCTGCTTTCGGGCAAATCCGGGGCTGCGATTTGTCGCATCTCTGCGAAGCGGCCGGTACCCTCGGCATCACGGCCCTGCGGCCGGCACCAAACCATAGCCTGCTATTCTTTGGATCGTCATCTGCCTGCGGCGGATCGCTCGAGATTGCAAGGGCGGCCGGTTTCATCACAACGGCAGGTGACGCGCGCTCTTCCATTGCCGCCTGTCCCGGCGCGCCGGGCTGCGCTTCGGCTTTTCTTCCCACCCATGAGTTGGCCGCCTTTGCGTCTGGGGAATGCGCCTCGTTGCTGGATGGCTCCTTCACGCTGCATATTTCCGGCTGCGGCAAAGGTTGCGCGCACCCCGCGCCGTCGCTTCTCACTTTTTCCGGCACCGCCGATGGTCTGGCCTTTTCGATTTCGGGCCGCGCCGGTGACCTGCCGGATGGCATTTTACCTTTTCAGCATCAGAGGACGGCGCTTTCGCGGCTTGCCCGTCTTTACGAAAAAGAACATAAGCCCGGTGAAAACGCCGCCACCCTGTTTGCCCGGCTGGGCAAACAGGCGATCGGTGCGGCGCTTCGACAGGATGACCGATGA	MMAAADPVQPFGRRGLCPALSAPMRTGDGFLSRIAFEADIDPRDMVVLCQLAERHGNGLIDITARGSLQFRGLTPESAGALEKDVLALDLPLRAGLAVETSPLAGRDDAEIADGGPVAAEIRKEVDRLALHEKLAAKMSVVIDGGGRLSMEDLLADIRLRAVSLDGRAVWRLLVGGAESRALNAGLVETDIAAGVVLSLLVYLAGEGPFARGRDLDHSTIKEICGDRLLDRVIDDNARAASAPLGLMMTGKDRFAIAVAPAFGQIRGCDLSHLCEAAGTLGITALRPAPNHSLLFFGSSSACGGSLEIARAAGFITTAGDARSSIAACPGAPGCASAFLPTHELAAFASGECASLLDGSFTLHISGCGKGCAHPAPSLLTFSGTADGLAFSISGRAGDLPDGILPFQHQRTALSRLARLYEKEHKPGENAATLFARLGKQAIGAALRQDDR	PGPT0009250_196	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0009250-cobG-K02229	NA	NA
BMS010_04714	3354			hypothetical protein	ATGCACATTCTCGCTACCACATCCTCGTCTCTGGACGACCTGATCGAGCCGGTTGATCTCAACCAGCCCCGGTCGGATGTGGTGATGCTGTCGTTTTCGGCAAGCGATCTGGCCGGCTTGGAACAGGCCTGGCGGCGAACACAGGTTGTGCTCTCCTCCCTGTCAGCCGCCAGCCTCTCCGAGCTTCGACATCCCATGTCGGTCGATCTCTGGATCGAAAAGACGGCGGAACATGCCAGGGTTATTCTTATCCGGATTCTCGGCGGTGCGGAACGCTGGCGTTACGGTGTCGATCAGCTTTCCATTCTTGCGCGCAGGCGCGGCATCAAGCTTCTGCTTTTGCCGGGTGAGTGCAGCGAAAGGGACGAGAAACTCGAAGCGGCCTCGACCGTCGATCGGCGAATTTTGGCCTCGGTCCTCTCCTTCTTTCGCGAGGGTGGGCAGGAGAATATGGACCGGCTTGCTCTTGGCCTCGCCGCTCTTGCAAGAGGCGAGGCATGGCCGGATATCGAAGCCGAGCCGCTGCCGAAAGCCGGTTTCTACCGGCCCGGCAGGGGCGTTGTGGATAGGGCGGAAGCCTGCGCGGGTTTTCCCGACGGTGCGCCCGTTCTGCCCATTCTGTTTTATCGTTCCATGCTTCTGGCGGCAGATGCAGCACCGGTGGACGCGCTTTTTAAGGCGCTCTCGCGGCGCGGTTTTGCACCCTTGCCGATTTTTGTCAGTGGCCTGAAGGATGGCGAGGCGATCCGCTTCCTCGAAACGGTGCTACCCGATCTGAAGCCCGCCGCCATCATTGCCGCCACCGCCTTCGCCAGCCAGACGGATGAAAACGGCGCAACGCTGTTCGACCGTCTCGGCGTGCCGGTGTTTCAGGTGGTGATGGCGACGACGCGGCGCGACGGATGGGTGGAAAATGCGCGCGGTCTCAATCCCTCCGATCTTGCCATGCATGTCGTCCTGCCGGAACTGGATGGCCGGATTCTCGCCGGTGCGATCTCGTTCAAACAGGTGCGAGTGGATGGCGGCGCGAGTTTGCTCAATGTACCCGAGGCTGATCGCGTCGAGCAGGTGGCAAATCGCATCGCCGCTTTCCTGCGGCTGAGGAATGCCCTTCCACGGGATCGCCGCATCGTCATTCTGATGCCCGATTATCCCGGTGCGGCACCCGGGCGAACCGGTTATGCCGTGGGTCTCGATGTGCCGCAAAGCGTTCTCGAAATGCTGCACGATCTTGCCGGGGCCGGTTATACGGTCAAGGATATTCCTAAGACCGCGCGGGCGCTGCTCGACTGTGTCGAACAGCAGGAAGCGGCAATTGATCTTTCCACCTACGAGGCTTTTTTCTCCGCCCTGCCGCCGGCATCCACCGCATCCGTAAACGCGACATGGGGCGTGGCAACCGATGACGATGCACTCATTGACGGCGCATTCCGGTTCCGCGCCGCCCGTTTCGGCGAAGTGTTCGTGACGCTTGCGCCGGACAGGGGCCGCAATGAGGATCGCCGGGTGGACTACCACGACCCTGCCCTGCCGCCGCGCCACGCGCTTGTTGCTTTCGGTGCATGGATGCAGCGGATTGCGGGTGCACATGCCATCGTGCATGTTGGCGCGCATGGAACGCTGGAATGGCTGCCGGGCAAGACGGTGGCGCTTTCCCGCAATTGTTTTCCCGAAATCGTCACCGGCTCGCTGCCGGTCGTCTATCCGTTCATCGTTTCCAATCCGGGCGAGGCGGCGGTCGCCAAGCGACGGATCGCGGCCGTGACCATCGGCCATGTCCCACCTGTGCTGGTCAATGCCGGGCTTTCGCCGGAACAGTCGGCGCTGGAGCAGCTGGTCGATGAATATGCGCAGGCGGATGGTCTGGATCGTCGCCGGCGTGACCGGCTGGCGAAACTGATCGTCGAGAAGGCGCTGGAGACCGGGCTTGCGGCGGAAGCGGGCGTGGCTGCGAAGGATGATGCCGATGCGGCCCTCTCACGCATCGACGCCTTTCTCTGCGACCTCAAGGATTTCGCCATCAAGGACGGCCAGCATGTTTTTGGCCGCTGTGCAAAAGACGAGACCGATCTTCTGAGGCTTGAAAGCGCCAAATCGGAAAAAGCTGCCCTGCTTGCCGCGCTCGATGGCCGGCATATCGTCGCCGGCCCTTCCGGCGCACCTGCGCGCGGACGCCTCGATGTGCTGCCCACGGGCCGCAATCTCTATGCCGCCGATCCGCGCACCATGCCGACGCCGACGGCGTTCGAGCTGGGCCGCATGGCGGGCGAAGAGGTGCTGCGCCATCATCTTCAGTCCCATGGCGACTGGCCGAAACATCTGGTTTTCGATCTGTGGGGCAGCGCCAGCCTGCGCAATGGCGGTGAGGATGTGGCGCAGGCGCTGCATCTGATGGGGGCGAGACCGATCCACGACCCCGCCACCGGCCGGGTCACCGGCATCGAGGTGCTGCCGCCGGCGAGCCTGGGGCGGCCGCGAGTAGACGTCACCTTTCGCATTTCCGGCCTGTTCCGCGACATGTTCCCTGCGCTGATCGCGCTTCTCGACGCCGCCGCCAAGGCCGTTGCGCGGCGGGAGGAAGCGCCGGGCGACAATCCGCTCGCGGAAGAGGCCGCCACGCTCGGGCATATTCCGGCGCGCATTTTTGGCTCCGCGCCCGGCACCTATGGTGCCGGTATCGAAGAAAAGCTGGCCAGCGGGAAATGGGACGAACGCGAGGAGTTGGGGCAGGCCTATCTCGATGCGGCGAGCCACGCTTTCGGTGGTGCGGACGGGCTGGAGATTTTCGAAGATACCGGTTTTGTGGAGCTGGTCAGGCGCGCCGATCTTCTGGTTCATACCGGGGACGATCCGGGCCGTGATCTTCTGGACGGTTCTTCGGATGTCGCCTTCATCGGCGGTTTTTCCGCCGCGAAGGCTGTGCTTGGCGGCGTCGCCGATATTGTTGCGCTGGATACGACAGATCCGGCACGCCCGCGTGCAAGGTCGATGACGCAGGCGCTGACGCGGGTGGTGCGCGCGCGTGCCATCAATCCCCGTTTCATTGCCGGTCAGATGCGGCACGGTCCGCGCGGGGCGGCGGAATTCCTCGAGACGGTGGACCGGTTGATCGGCTTTGCCGAAACCACCCATGCGGTGTCCTCCTCGTTGATCGAGGCGCTTTACGATGCCTATTTCGGCAATGAGGAGGTGCGCGATTTCATTCTGCGGGAAAACCCGAAGGCGGCGCAGGTGATGGCCAAACGCTTTTTATCCGCCCGCCGTCGCGGGCTGTGGCACAGCCGCCGCAACGCGGTGGATGCGGAACTTGAAATGCTGGTCCTTCCGCGCCCCCAAAGGGTGGAGGCGTTATGA	MHILATTSSSLDDLIEPVDLNQPRSDVVMLSFSASDLAGLEQAWRRTQVVLSSLSAASLSELRHPMSVDLWIEKTAEHARVILIRILGGAERWRYGVDQLSILARRRGIKLLLLPGECSERDEKLEAASTVDRRILASVLSFFREGGQENMDRLALGLAALARGEAWPDIEAEPLPKAGFYRPGRGVVDRAEACAGFPDGAPVLPILFYRSMLLAADAAPVDALFKALSRRGFAPLPIFVSGLKDGEAIRFLETVLPDLKPAAIIAATAFASQTDENGATLFDRLGVPVFQVVMATTRRDGWVENARGLNPSDLAMHVVLPELDGRILAGAISFKQVRVDGGASLLNVPEADRVEQVANRIAAFLRLRNALPRDRRIVILMPDYPGAAPGRTGYAVGLDVPQSVLEMLHDLAGAGYTVKDIPKTARALLDCVEQQEAAIDLSTYEAFFSALPPASTASVNATWGVATDDDALIDGAFRFRAARFGEVFVTLAPDRGRNEDRRVDYHDPALPPRHALVAFGAWMQRIAGAHAIVHVGAHGTLEWLPGKTVALSRNCFPEIVTGSLPVVYPFIVSNPGEAAVAKRRIAAVTIGHVPPVLVNAGLSPEQSALEQLVDEYAQADGLDRRRRDRLAKLIVEKALETGLAAEAGVAAKDDADAALSRIDAFLCDLKDFAIKDGQHVFGRCAKDETDLLRLESAKSEKAALLAALDGRHIVAGPSGAPARGRLDVLPTGRNLYAADPRTMPTPTAFELGRMAGEEVLRHHLQSHGDWPKHLVFDLWGSASLRNGGEDVAQALHLMGARPIHDPATGRVTGIEVLPPASLGRPRVDVTFRISGLFRDMFPALIALLDAAAKAVARREEAPGDNPLAEEAATLGHIPARIFGSAPGTYGAGIEEKLASGKWDEREELGQAYLDAASHAFGGADGLEIFEDTGFVELVRRADLLVHTGDDPGRDLLDGSSDVAFIGGFSAAKAVLGGVADIVALDTTDPARPRARSMTQALTRVVRARAINPRFIAGQMRHGPRGAAEFLETVDRLIGFAETTHAVSSSLIEALYDAYFGNEEVRDFILRENPKAAQVMAKRFLSARRRGLWHSRRNAVDAELEMLVLPRPQRVEAL	PGPT0009280_1692	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0009280-cobN-K02230	NA	NA
BMS010_04715	1038			hypothetical protein	ATGAGCACCCTTCTGGACCGCGTTCCCTGCACCATCGTCACCGGCTTTCTGGGGGCTGGCAAAACCACGCTGCTGCGCGGCCTTCTCGAAAAGCTGGACGGCAAGCGGCTGGCGATCATCGTCAACGAGTTCGGCGATATCGGCATCGATGGCGAGATTCTCAAGGGTTGCGGTATTGAAAGCTGCCCGGAAGAAAACATCGTCGAACTGGCCAATGGCTGCATCTGCTGCACGGTGGCGGATGATTTCCAGCCCGCCATCGAACAGATTCTGAGCCGTCAGCCGAAGGTGGAGCATATCCTCATCGAAACCTCGGGCCTCGCCCTGCCGAAGCCGCTGGTGCAGGCCTTCCAGTGGCCGGCGATCAAGAGCCGCGTGACGGTGGATGCCGTCGTGGCCGTGGTGGATGGCGCCGCCCTTGCTGAAGGACAGGTGGCGCACGACATGGAAGCACTCGCCGCCCAGCGGGCCAATGACGAGGCGCTCGATCACGATGACCCGGTCGAAGAGGTTTTCGAAGATCAGGTCGCCTGCGCCGATCTTATCGTGCTGACAAAGGCCGATCTTCTTGACGATGCCGGCCTCAACAAGGCCAAGGCGCATGTTCTCGAACATCTGCCGAAGGCGGCAAAGATCGTCGTGGCCTCCAATGGCGCCATCGAACCCGCCGTGCTGATCGGCCTTGGCCTTGCGGTAGAAGAGGACATCGAAAACCGCCGTACCCACCATGACGGTGAACTCGACCACGAGCATGACGATTTCGACAGCTTCGTCATCGATCTGCCGGCCGTGACCGATCCGGACGCGCTGGCAGCCCGTATCGCCGAGACGGCGGCTGCGGAAAATGTCCTGCGCATCAAGGGCTTTATCGAGGTTTCCGCAAAGCCTATGCGGCTGCAGGTGCAGGCTGTCGGCAGCCGCGTCAACCATTATTACGACCGGCCCTGGGCTGCGGGTGAGGAACGCCGCAGCCGCCTCGTCGTCATCGGCGAAAAGGGCATCAACCGCGAAAAGATCGAACAGATGCTGGCCGCCTGA	MSTLLDRVPCTIVTGFLGAGKTTLLRGLLEKLDGKRLAIIVNEFGDIGIDGEILKGCGIESCPEENIVELANGCICCTVADDFQPAIEQILSRQPKVEHILIETSGLALPKPLVQAFQWPAIKSRVTVDAVVAVVDGAALAEGQVAHDMEALAAQRANDEALDHDDPVEEVFEDQVACADLIVLTKADLLDDAGLNKAKAHVLEHLPKAAKIVVASNGAIEPAVLIGLGLAVEEDIENRRTHHDGELDHEHDDFDSFVIDLPAVTDPDALAARIAETAAAENVLRIKGFIEVSAKPMRLQVQAVGSRVNHYYDRPWAAGEERRSRLVVIGEKGINREKIEQMLAA				NA	NA	NA	NA	NA
BMS010_04716	363			hypothetical protein	GTGACCGTCTTCGTTTGCAGAAGCTGTCGCGATGAAGCCGATCCCAATGCCGAACCGCGCCCCGGTTCGCGTTTCGCCGATGCCGTCCTCGCAAAGGCGGAGGAAACGGGCGTCACCGTTCGTTACGTCAACTGCCTCGCCAATTGCAAGCGCGGGCTTAGCGCCGTGCTGCGCAGCGCCAATGGCTGGTCCTATGTCTTCGGCGGGCTGACGACCGGTGATGCGGAAGATTTGCTGACCGGTGCGCGGCTGCTGGCTGCCGCCCCCGACGGCCTGATGCCCTGGCGCGGCCGCCCCGAACCCTTAAAGCGCGGCATGGTGGCGCGCATTCCCCCATTCGATTTTACCGAGGAGAGATCATGA	MTVFVCRSCRDEADPNAEPRPGSRFADAVLAKAEETGVTVRYVNCLANCKRGLSAVLRSANGWSYVFGGLTTGDAEDLLTGARLLAAAPDGLMPWRGRPEPLKRGMVARIPPFDFTEERS				NA	NA	NA	NA	NA
BMS010_04718	618	cobO_2		Corrinoid adenosyltransferase	ATGACACGCGACATCAGCGACAGCGAAGCCGAACGTCACCGGCAGAAAATGGTCAACCGCAAGACGGTGCAGGACGCCGAAGTTGCGGAAAAGACCATCGAAAAAGGTCTGCTGATGATCAATACCGGTCCCGGCAAGGGCAAATCCACCGCCGCATTCGGCGTTGCCCTGCGCATGCTCGGCACCGGGCGGCGGGTCGGCGTCGTTCAATTCATCAAGGGCGCATGGTCGACGGGAGAACAGCAGGCGCTGACTTTGTTCGGCGACAGGGTCGTGTGGCGCACCATGGGCGAGGGGTTCACCTGGGACACGCAGGATTTGAAACGCGACATCTCAGCGGCGGCAAAGGCCTGGGAAGAAGCCCAAATCCTGATGGCCGACGAGACCATCGGCCTGCTGATCCTCGATGAGCTGAACATCGCACTCCGTTACGATTACCTGCCGCTGGAGGACGTGGTCGAAACGCTTTCCAGCCGCAGGCCCGATCTGCATGTCATCGTCACCGGCCGCAATGCCAAGCAACCGCTCATCGACGCGGCCGATATGGTGACGGAAATGACCCTCGTGAAACATCACTTCAAGGCGGGCGTAAAGGCGCAGGCAGGGATAGAATTCTGA	MTRDISDSEAERHRQKMVNRKTVQDAEVAEKTIEKGLLMINTGPGKGKSTAAFGVALRMLGTGRRVGVVQFIKGAWSTGEQQALTLFGDRVVWRTMGEGFTWDTQDLKRDISAAAKAWEEAQILMADETIGLLILDELNIALRYDYLPLEDVVETLSSRRPDLHVIVTGRNAKQPLIDAADMVTEMTLVKHHFKAGVKAQAGIEF	PGPT0004645_675	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004645-cobA|btuR-K19221	NA	NA
BMS010_04719	1458	cobQ_1		Cobyric acid synthase	ATGGCTGCACGCGCGCTGATGTTTCAGGGAACCGGCTCGGATGTCGGCAAATCGCTGATGGTGGCCGGCCTTGCCCGCGCCTTCGTCAGGCGCGGCCTGTCCGTCATGCCGTTCAAACCGCAGAACATGTCGAACAATGCGGCTGTGACCGCCGATGGCGGCGAGATTGGCCGCGCGCAGGCGCTGCAGGCTCGCGCAGCGGGCGTGCCGCTTTCCGTGCATATGAACCCGGTGCTCCTGAAGCCACAGAGCGAGACCGGCGCCCAGGTGGTGGTGCAGGGCAAGATTGCCGGCAATGCCAAAGCGGCCGATTATCAGCACATGAAGGCCGGGCTTATGCCGCGTGTGCTGGAAAGCTTCGAGCGCCTGAAACAACAGGCCGATCTGGTGCTGGTGGAAGGCGCGGGCAGCGCCTCCGAAATCAACCTGCGTGCCAATGACATCGCCAATATGGGTTTTGCCAGAGCTGCGGACGCGCCTGTGATACTGATCGGCGATATCGACCGGGGCGGCGTCATCGCCAGCCTTGTCGGCACGAAAGCCGTACTCGAAGCTGAAGACGCGGCGATGATCGAAGGTTTTATCGTCAATCGCTTTCGCGGGGATCCGGCCCTGTTTTCAGACGGCATGCGAATAATTGCGGAAAAAACCGGCTGGGCCTCTATCGGGCTCCTGCCGCATTTTTCCGATGCCGCGAAGCTGCCGGCTGAAGATGCTCTCGGGCTTTCCGGCCCGGCTGAACGGAAACCTGGCGCGAAGATCCGTATCGCCGTACCGATCCTGCCGCATATTTCCAATTTCGACGATCTCGATCCGCTGGACATGGAACCGGATGTCGAACTGATCCGCGTGCGGCCGGGCGAAACCATTCCCGCCGATTGCCGGCTGGTGCTGCTTTGCGGCTCGAAAGCCACCATTGCCGATCTTGCCGTGCTGAAAAATACGGGGCTCGACATCGATATCAAGGCGCATGTGAGACGCGGCGGCCATGTTCTGGGCCTTTGCGGCGGCTACCAGATGCTTGGAAAAACCGTTGCCGATCCCGAAGGCATCGAAGGACCGCCGGCAACAGTCGACGGGCTCGGCCTGCTGGATGTCGACACTGTTCTGACCGGTGACAAAAGGCTGGTTTCCGTTACAGGGAAAAGTTTCGACGGAATTGATTTATCCGGCTATGAAATGCATGTTGGTGAAACCGCGAGCGGAACCGACAGCCTGCCGTTTTCGAAAATTGATGGGCATGAAGACGGCGCTGTGTCGCCTGACGGCCGCATCTTCGGCACTTATATTCACGGCCTGTTTTCAGATGACCGCCAACGCGGCGCGTGGCTTGAGCGGCTTGGCGGACAGAACACGGAACTGAACTACGATGCGCGGGTGGACGCCGTTCTTGATCGCCTCGCGGCGCATATGGAACAGCACCTCGATCTCGACCGTCTGCTTGCTATAGCGCGATAA	MAARALMFQGTGSDVGKSLMVAGLARAFVRRGLSVMPFKPQNMSNNAAVTADGGEIGRAQALQARAAGVPLSVHMNPVLLKPQSETGAQVVVQGKIAGNAKAADYQHMKAGLMPRVLESFERLKQQADLVLVEGAGSASEINLRANDIANMGFARAADAPVILIGDIDRGGVIASLVGTKAVLEAEDAAMIEGFIVNRFRGDPALFSDGMRIIAEKTGWASIGLLPHFSDAAKLPAEDALGLSGPAERKPGAKIRIAVPILPHISNFDDLDPLDMEPDVELIRVRPGETIPADCRLVLLCGSKATIADLAVLKNTGLDIDIKAHVRRGGHVLGLCGGYQMLGKTVADPEGIEGPPATVDGLGLLDVDTVLTGDKRLVSVTGKSFDGIDLSGYEMHVGETASGTDSLPFSKIDGHEDGAVSPDGRIFGTYIHGLFSDDRQRGAWLERLGGQNTELNYDARVDAVLDRLAAHMEQHLDLDRLLAIAR	PGPT0004580_2140	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004580-cobQ|cbiP-K02232	NA	NA
BMS010_04720	966	cobD_1	COG1270	Cobalamin biosynthesis protein CobD	ATGTTTTTTGCTCTCGCTTTCCTGTCGCTCGTGATCGAACGTCTGACCGGCTATCCGGACTGGCTGTTCAAACGCATCGGCCACCCCGTCACCTGGATCGGTTCGCTTATCGCGCTGCTGGACAAAAAATGGAACCGGGAGAGCGCGTCATTTTCACAGCGCAAGGGGGCAGGCGTGGCGGCGCTCGTTGTTTTCGTCGGGCTGACGCTGCTTGTTGCATGGTTAGTGCAATCCGTTCTCCTCTTCCTGCCTTTCGGCCTTTTGCTGGTCGCTGTGCTTGGCGCTTCGCTTCCGGCGCAGAAAAGTCTCGAGCAGCATGTGGAGGCTGTCGCCACTGCGCTGGAACGCGAGGGTGTGGAAGGCGGCCGCAAGGCGGTATCGATGATCGTCGGGCGCGATCCGCAAAAGCTGGACGAGGCGGCAATTTGCCGCGCGGCGATCGAAAGTCTGGCAGAGAATTTTTCCGACGGCATCGTCGCTCCCGCCTTCTGGCTCGCCCTCCTGGGCCTGCCGGGCGGCGCGGCCTACAAGGCGATCAATACGGCTGACAGCATGATCGGCCATCGCTCCCCCCGCCATGAGGCCTTCGGCTGGGCCTCCGCCCGGCTGGACGATCTGGTCAATCTGCCGGCCTCACGGCTGAGCGGCGGTCTTTTCGTGGTTGCCGCGTTTTTTGTTAAGGGTGCATCACCCGGCGGGGCCATTGCCGCGATACGTCGCGATGCCCATCATCACCGTTCTCCCAATGCCGGCTGGCCGGAGGCGGCGCTGGCCGGCGCTCTCGGTTTTGCGCTCGCAGGGCCGCGCTCCTATGGCGGGCAGATGATCGAGGCGCGTTTCATGGGCGAAGGCGGCAGGGCGGCGCTGGTCGCCGGCGATATTCGCACAGCGTTGCGGCTTGCACGGGTTGCCGACCTGTTGTTGATCGGCCTGCTGGGACTTCTGGCGATCCTTATCGCGCTATAG	MFFALAFLSLVIERLTGYPDWLFKRIGHPVTWIGSLIALLDKKWNRESASFSQRKGAGVAALVVFVGLTLLVAWLVQSVLLFLPFGLLLVAVLGASLPAQKSLEQHVEAVATALEREGVEGGRKAVSMIVGRDPQKLDEAAICRAAIESLAENFSDGIVAPAFWLALLGLPGGAAYKAINTADSMIGHRSPRHEAFGWASARLDDLVNLPASRLSGGLFVVAAFFVKGASPGGAIAAIRRDAHHHRSPNAGWPEAALAGALGFALAGPRSYGGQMIEARFMGEGGRAALVAGDIRTALRLARVADLLLIGLLGLLAILIAL	PGPT0004660_1151	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004660-cbiB|cobD-K02227	NA	NA
BMS010_04721	975	cobD_2	COG0079	Threonine-phosphate decarboxylase	ATGTTTCCTGAAGCGCCGGAACCATGGATCGACCTTTCGACCGGGATCAATCCGCACTCCTACCCGCATTCGCCGATCCCTGCCAGCGCATTCGCGCGCCTGCCGGAACCGGACGCCGCCGAAGAATTGAGACATCTGGCCGCAGCGCATTTCGATGCGCCTTCCGCCCGGCATGTGGCGCTTTCCCCCGGCACCCAGATGCTGATGCCATTGCTGGCTCAGATCGCCCTCACCCGTGGGGCCAGGAGCGGCGCTGTGCTTTCACCCGCCTATGCGGAACATGCCCGGACCGCACGCATGGCCGGACTGGCTGTGACCAAGGTGGAAAACATCGAGGCGCTGTCGGCTCATGACTATGCCGTGGTGGTCAATCCCAATAATCCCGATGGCCGCATCACGGATCGCGCCGCATTGTTGTCGCTGGCCGAAGCCATGCGCCGCAGGGGTGGGCTGCTCGTGGTGGACGAGGCCTTTATCGAGACGGGACTTGCCGAAAGCCTCGCAGATGCCGCCGGTCAGGAGGCGCTGGTGGTCCTGCGCTCCTTCGGCAAATTTTACGGCATGGCGGGCGTTCGGCTGGGTTTCGCGATTGCGCAGCCCGATATCGCTGCCGACCTGGAGGCAAGGCTCGGCCCCTGGGCGGTTTCGGGCCCGGCGCTGCATATCGCGATGCAGGCTCTGGCGGATGGGAAATGGCAATCATCCATGCGTCTGCACCTTGCCGAAGACGCCCGGCGCATGAACGCCATGCTGGAGAAAGCGGGGCTGGCAATTGCCGGTGGCACCTCGCTGTTTACTCTGGTGCGGGATCCCCGCACCGCAGACCTGTTCAGCCATCTTGGCCGACATGGCATTTTGGTCCGCATTTTTGATGAAAGGCCGAACGACATGCGTTTCGGCCTTCCCGGTAGCGAAACGGAGTGGCAGCGGCTCGAGGAGGCGCTGTCATCCTTTGACTATTCCTCGAAGGTATAG	MFPEAPEPWIDLSTGINPHSYPHSPIPASAFARLPEPDAAEELRHLAAAHFDAPSARHVALSPGTQMLMPLLAQIALTRGARSGAVLSPAYAEHARTARMAGLAVTKVENIEALSAHDYAVVVNPNNPDGRITDRAALLSLAEAMRRRGGLLVVDEAFIETGLAESLADAAGQEALVVLRSFGKFYGMAGVRLGFAIAQPDIAADLEARLGPWAVSGPALHIAMQALADGKWQSSMRLHLAEDARRMNAMLEKAGLAIAGGTSLFTLVRDPRTADLFSHLGRHGILVRIFDERPNDMRFGLPGSETEWQRLEEALSSFDYSSKV	PGPT0004655_152	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004655-cobC1|cobC-K02225	NA	NA
BMS010_04722	1278		COG4948	L-fuconate dehydratase	ATGACCAAAATTACTGATCTGCGTGTTTTCGACCTGCGTTTTCCGACCTCTCAGAGCCTCGACGGTTCGGATGCGATGAACCCCGACCCGGATTATTCGGCGGCTTATGTCATTCTCGATACCGATGAGCCGGGTCTCAAAGGCCACGGGCTGACCTTCACCATCGGCCGCGGTAACGACATTTGCTGCATGGCCATCGAAGCGATGCGTCATCTGGTCGTCGGCACCGATCTTGCCATCGTCACCGAGAACCCCGGCAAATATTGGCGGCATCTGACCAGCGACAGCCAGCTGCGCTGGATCGGGCCGGACAAGGGTGCGATGCATCTCGCCACCGGCGCCGTCGTCAATGCCGTGTGGGATCTGCTGGCCAAGAAGGCGGGCAAGCCGGTCTGGCAGCTCGTTGCCGATATGAGCCCGGAAGAAATCGTCGATATCGTCGACTATCGTTATCTGACCGATGTGCTGACCCGTGACGAGGCGCTTGCGATCCTCAAAAAAGCCGAAAGTGGGAAGAAGGAACGTATCGAGACGCTGAAAAGCGAAGGTTATGCCTGCTACACGACCTCTGCCGGCTGGCTCGGTTATGACGACGCCAAGCTGCGCCGCCTTTGCCAGGAAGCCATCGATGCCGGATTCAACCATGTGAAGATGAAGGTTGGCCGCGATCTGGAAGACGACATCCGCCGCCTCACCATTGCCCGTGAGGTGATCGGTCCCGACCGTTACCTGATGATCGACGCCAACCAGGTATGGGAAGTGGATCAGGCAATCGACTGGGTGAAGAAGCTCGCTTTCGCCAAGCCATTCTTCATCGAAGAGCCGACCAGCCCGGACGATGTCGCCGGCCATCGCAAGATCCGCGCGGCCATCGGGTCCGTTAAGGTGGCGACCGGTGAAATGTGCCAGAACCGCATCATGTTCAAGCAGTTCATCGCCGAAGGCGCCATCGATGTGGTGCAGATCGATAGCTGCCGTATGGGCGGTTTGAACGAAGTGCTGGCGGTGCTGCTGATCGCCGCCAAATACAATCTGCCGGTTTGGCCGCATGCCGGCGGCGTCGGCCTTTGCGAATATGTGCAGCATCTGTCGATGATCGACTATCTGGTCGTATCAGGCACGAAGGAAGGCCGCGTGATCGAATATGTCGACCACCTGCATGAGCACTTCATCGAGCCCTGCGATATCAGAAATGCTGCTTACATGCCGCCGAAACTGCCGGGCTTCTCCATCGAAATGAAGCCGGAGTCGATTGAGACCTATACCTTCGAGGAATAG	MTKITDLRVFDLRFPTSQSLDGSDAMNPDPDYSAAYVILDTDEPGLKGHGLTFTIGRGNDICCMAIEAMRHLVVGTDLAIVTENPGKYWRHLTSDSQLRWIGPDKGAMHLATGAVVNAVWDLLAKKAGKPVWQLVADMSPEEIVDIVDYRYLTDVLTRDEALAILKKAESGKKERIETLKSEGYACYTTSAGWLGYDDAKLRRLCQEAIDAGFNHVKMKVGRDLEDDIRRLTIAREVIGPDRYLMIDANQVWEVDQAIDWVKKLAFAKPFFIEEPTSPDDVAGHRKIRAAIGSVKVATGEMCQNRIMFKQFIAEGAIDVVQIDSCRMGGLNEVLAVLLIAAKYNLPVWPHAGGVGLCEYVQHLSMIDYLVVSGTKEGRVIEYVDHLHEHFIEPCDIRNAAYMPPKLPGFSIEMKPESIETYTFEE	PGPT0017495_640	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FUCOSE_DEGRADATION,PGPT0017495-fucD-K18334	NA	NA
BMS010_04723	330	rhaM_2		L-rhamnose mutarotase	ATGCAGCGCATGGGCATGGTCATAGGCGTCAAACCGGAGATGATCGCGGAGTATAAAAGGCTGCATGCGGCTGTGTGGCCTGAAGTTCTGGCGCTTATCAGCGACTGCAATATACACAACTACACGATCTTCCTGCGCGAGCCGGAAAATCTGCTCTTCGGCTACTGGGAATATCACGGCAGCGATATCAGCGCCGACATGGCGAAGATGGCCGCAAGCCCCAAGAACCAGGAATGGTGGTCCTTCACCATTCCCTGCCAGCAACCGCTCGAAAGCCGGAAGGAAGGCGAGTGGTGGGCGATGATGGAAGAAACCTTCCACCACGATTGA	MQRMGMVIGVKPEMIAEYKRLHAAVWPEVLALISDCNIHNYTIFLREPENLLFGYWEYHGSDISADMAKMAASPKNQEWWSFTIPCQQPLESRKEGEWWAMMEETFHHD	PGPT0017795_641	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_RHAMNOSE_DEGRADATION,PGPT0017795-rhaM|rhaU|yiiL-K03534	NA	NA
BMS010_04724	1134	uxaB	COG0246	Altronate oxidoreductase	ATGACGCTCGATACGCCCATCCTGCAATTCGGCACCAGCCGCTTTCTTCTGGCACATGCGGATTTCTTTGTGTCGCAGGCGCTGGACAAGGGCGAGGCTCTCGGGCGTATCGCGATTGTCCAGACAACCGGCAATGCGGAGAGCCTGAAGCGAGTTGCGGCGCTGAACGGCGGGGCACCCTACCCCGTGCGTATTCGCGGCATCCGCGGTGGGCAGGAAGTGGATGAGGAAATTCAGGGCGGGGCTGTCGCGCGGGCGCTGACGGCTGCGACCGACTGGGCCGAAGTGCGCCGCCTTGCCTGCGAGGCCGCGGTCATTCTGTCCAATACGGGCGATCGCGGTTATGAGCTGGATTCGGCGGATAATGCCGGGCTTGCTGGCGATTTCACGGTCGTACCGAAAAGCTTTCCGGCGAAACTCTGCATGTTGCTGCTGGAGCGTTTTCAGCGCAATCCGGAAGCACCTGTGTCCGTCTTCCCCTGCGAACTCGTGCCGCGCAATGGCGAAAAGCTGAAACAGGTCATTCGCCGGCTTGCCGATGAGTGGCAATTGCCGGCGGGTTTTGCCTTTTATCTGAATGAGAAGTGCCGTTTTGCCAATAGTCTGGTGGATCGCATCGTCTCCGAGCCTATCGACCCGGTGGGTGCGGTGGCGGAACCCTATGCGCTATGGGCAATCGAGAAGCAGGACGGGCTTGTCCTTCCCTGCACGCACCCTGCCGTGGTGCTGACGGACGATCTCGATCACTATGAAAAGCTGAAGCTTTTCCTGCTCAATCTCGGCCATTCCTATCTGGCGGAACGCTGGTTGCAGGATGCGCGTGCGAAGGACGAGACGGTGCGTCAGGCAATGGCCGACGATGCTCTCGTTACGGATCTTGAGACGCTTTGGCGGGACGAGGTTCTGCCGGTTTTTGCTGCTGAAGGCATGGGGGATGATGCGCAGGCCTATATTGGCGTGCTGCGGGAGCGTTTGCGCAATCCCTTTCTCGCCCATCGGCTGGCCGATATCGCCGGCAACCACGATGAAAAGAAACGCCGCCGCTTCGCCCCGATCATTGCCGCAGCGGAACGGCTGGGATTGAGCCTGCCACAGTCGAAGCTGCGCGCTGCGCTCGCCACCATCAAGCAATAA	MTLDTPILQFGTSRFLLAHADFFVSQALDKGEALGRIAIVQTTGNAESLKRVAALNGGAPYPVRIRGIRGGQEVDEEIQGGAVARALTAATDWAEVRRLACEAAVILSNTGDRGYELDSADNAGLAGDFTVVPKSFPAKLCMLLLERFQRNPEAPVSVFPCELVPRNGEKLKQVIRRLADEWQLPAGFAFYLNEKCRFANSLVDRIVSEPIDPVGAVAEPYALWAIEKQDGLVLPCTHPAVVLTDDLDHYEKLKLFLLNLGHSYLAERWLQDARAKDETVRQAMADDALVTDLETLWRDEVLPVFAAEGMGDDAQAYIGVLRERLRNPFLAHRLADIAGNHDEKKRRRFAPIIAAAERLGLSLPQSKLRAALATIKQ	PGPT0018320_755	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTURONATE|TAGATURONATE|ALTRONATE_DEGRADATION,PGPT0018320-uxaB-K00041	NA	NA
BMS010_04725	1011	lgoD	COG1063	L-galactonate-5-dehydrogenase	ATGCTGGCGATTTTCTGCGAAACCCCAGGTCAACTCGTCTCCAAGGAACTGCCGAAACCAGTCCGTGGCGAAGGTGAAGTGCTGGTGCGTATTCGCCGCATCGGGGTTTGCGGCACGGACCTGCACATCTTCACCGGCAACCAGCCTTATCTTTCCTATCCCCGTATCATGGGCCATGAGCTTTCCGGCACGGTGGAAGAAGCGCCGCAAGGCAGCCATCTGTCCGCCGGCGATGTGGTCACCGTCATTCCCTATATCTCGTGCGGCGAATGTAGCGCCTGCCTGAAGGGCAAGAGCAATTGCTGCCGCAATATCGGTGTGCTGGGCGTTCATCGCGATGGCGGCATGGTCGAATATCTGAGCGTGCCGCAGCAATTCGTGTTGAAGGCGGAGGGGCTGAGCCTCGACCAGGCGGCGATGACCGAATTTCTGGCTATCGGTGCGCATGCGGTGCACCGTGGCGCAGTCGAGAAGGGGCAGAAGGTTCTGATCGTCGGCGCCGGCCCGATTGGCATGGCGGTTGCGGTTTTTGCGGTTCTCGATGGCGGCGAAGTAACGATGATCGACGGACGCACCGACCGGCTGGATTTCTGTAAGGAGCACCTCGGCGTTGCGCATACGGTGACACTCGGCGAGGGCGACAGGGATCGCCTCTCCGACATAACCGGCGGCGATTTTTTCGATGCGGTCTTCGATGCGACCGGCAATCCGAAAGCCATGGAGCGCGGCTTTTCCTTTGTCGGCCATGGCGGTTCCTATGTGCTGGTCTCCATCGTCGCCAGCGATATCAGCTTCAACGATCCGGAGTTCCACAAGCGGGAGACGACGCTGCTCGGCAGCCGCAATGCCACGCCTCAGGATTTCGAACGCGTCCTGCAGGCGCTGCGGGAAGGCAAGGTACCGGAAGCGCTGATCACCCATCGCATGACGCTTGCCGATGTGCCCTCCAGATTCGCCGGCCTGACCGATCCGAAGGCCGGAGTTATCAAGGGCATGGTGGAGGTCGCATGA	MLAIFCETPGQLVSKELPKPVRGEGEVLVRIRRIGVCGTDLHIFTGNQPYLSYPRIMGHELSGTVEEAPQGSHLSAGDVVTVIPYISCGECSACLKGKSNCCRNIGVLGVHRDGGMVEYLSVPQQFVLKAEGLSLDQAAMTEFLAIGAHAVHRGAVEKGQKVLIVGAGPIGMAVAVFAVLDGGEVTMIDGRTDRLDFCKEHLGVAHTVTLGEGDRDRLSDITGGDFFDAVFDATGNPKAMERGFSFVGHGGSYVLVSIVASDISFNDPEFHKRETTLLGSRNATPQDFERVLQALREGKVPEALITHRMTLADVPSRFAGLTDPKAGVIKGMVEVA	PGPT0018195_116	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTONATE_DEGRADATION,PGPT0018195-lgoD-K23007	NA	NA
BMS010_04726	822			hypothetical protein	ATGCTCATCGACGCTCACCAGCATTTCTGGCTGATGAAAGATCGCGCCGGGCAGTGGCCGCCGCCGTCGCTCGCCGCCATCTACCGGGATTTTCTCCCCGCCGACCTGTCGCCTTTGCTGGCCGCTGCCGGCGTTTCCGGCACCGTGCTAGTTCAGACGATGGAGACGGCGGCCGACACGGATTTCATGCTGGACCTGGCGGAAAAGACCGATTTCATCAAGGGTGTGGTCGGCTGGGTGGGCATGAAATCCGCCGATGCAGCGAGTGAAATCGCCCGTCGGGCAAAACATCCGGCATTCAAGGGTGTCCGCCCGATGTTGCAGGGCATGGAGGATGTCGCCTGGATCGATGATCCGGCACTCGATCCCGCCGTGGCGGCGCTGGTAAAACATGGTCTGACGTTCGATGCGCTGGTCCTGCCGCCTAATCTGCCGCATCTCCTCGCCTTTGCCCGCCGCCATCCGCAATTGGCGGTCGTCATCGACCATGGCGCGAAGCCCCTGATTGCTACCGGTCACTACAGCGACTGGCGTAAGGATATGGCCGCTCTGGCGGCTCTCCCGAATGTCCATTGTAAACTCTCCGGTCTGCTGACCGAGCGCGGTGAGCAGCGGCCGGAAGCGGTACGGCCTTATGCCGAGACCATTCTGGAACTCTTTGGCGGCAACCGCGTGATTTTTGGCAGTGACTGGCCGGTGTTGCGGCTGGCGGGCGATTATCAGGCATGGCTGGATTTCTGCCGCGATATCGTGCCGGCAGAGGACCATGCGGCAGTTTTCGGCGGTAACGCCATCCGTTTTTATTCCCTTTCCCACAGGTGA	MLIDAHQHFWLMKDRAGQWPPPSLAAIYRDFLPADLSPLLAAAGVSGTVLVQTMETAADTDFMLDLAEKTDFIKGVVGWVGMKSADAASEIARRAKHPAFKGVRPMLQGMEDVAWIDDPALDPAVAALVKHGLTFDALVLPPNLPHLLAFARRHPQLAVVIDHGAKPLIATGHYSDWRKDMAALAALPNVHCKLSGLLTERGEQRPEAVRPYAETILELFGGNRVIFGSDWPVLRLAGDYQAWLDFCRDIVPAEDHAAVFGGNAIRFYSLSHR				NA	NA	NA	NA	NA
BMS010_04727	1014	pld1		Pyridoxal 4-dehydrogenase	ATGAAAGTCTCCGATACACGTAAATTGCCGCGCCGCACCGTCGACGTCACCGTCATGGGCCTCGGTTGCGCCCAGATGGGTAATCTCTACCGCGTCACGCCCTATGAAGAGTCCAAGGGTGCGTTCGACAAGGCATGGGAAAGCGGCATGCGTTATTTCGATACCGCGCCGTTTTATGGCTATACGCGGTCGGAGCGTCGCATAGGCACAATGGTGACGGAGCATGACCGGAGCGAATATACGCTCAGCACCAAGGTCGGCCGTGTGATGGTGCCTGACGAGACCGTGGGTCCGGAGGAGGATGCCTATATAGCGCCCCTGCCGTTCCGCCCGGTCTATGATTACTCCTATGACGGTATCCTGCGTTCCTTCGAAGCAAGCCAGCAACGGCTCGGCGTTCTGAAGCCGGATATTCTTTATGTGCATGATATCGGCTCCTTCACCCATGGCGAAAAGCACCAGCATTACTGGGAGCAGCTGACCACCGGCGGTGGCTTCCGCGCGCTTGGCAAGCTGCGCGAGGAAGGATCGACGGGGGCCGTCGGCCTCGGCGTCAATGAGTGGGAAATCGTCAGCGACGCCATGGATGTCTTCGATATCGACGTCGCCATGCTCGCCGGTCGTTATACGCTGCTGGAGCAGCAGAGCCTTGCTTTCATGAACCGTTGCGCTGAAAGCGGTGTCGCCCTCGTTGTCGCCGGTGCATTCAATTCGGGCATTCTGGCCGGCAACCGCAAATTCAATTATGCCGACGCGCCTGCCGATATTCTCACGCGTGTCGATGCGCTGCAGGGTGTTTGCGAGGAACTCGGCGTATCGCTGCAGGCGGCCGCGCTGCAATTTCCGCTTGCCCATCCGGCGTCGGTCACGGTCGTTTCGGGTGCGCGCAATGCGCAGCAGCTCGCCTCCAATATCGAATGGTTCGAGCAGTCTATCCCGGATGAATTCTGGTCCGAACTGCACAGGCGCGGCCTGATTGCTGAAGGCGCGCCGGTGCCCGGCGGGAAGGCCTGA	MKVSDTRKLPRRTVDVTVMGLGCAQMGNLYRVTPYEESKGAFDKAWESGMRYFDTAPFYGYTRSERRIGTMVTEHDRSEYTLSTKVGRVMVPDETVGPEEDAYIAPLPFRPVYDYSYDGILRSFEASQQRLGVLKPDILYVHDIGSFTHGEKHQHYWEQLTTGGGFRALGKLREEGSTGAVGLGVNEWEIVSDAMDVFDIDVAMLAGRYTLLEQQSLAFMNRCAESGVALVVAGAFNSGILAGNRKFNYADAPADILTRVDALQGVCEELGVSLQAAALQFPLAHPASVTVVSGARNAQQLASNIEWFEQSIPDEFWSELHRRGLIAEGAPVPGGKA	PGPT0017915_471	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FUCOSE_DEGRADATION,PGPT0017915-pld-K00064	NA	NA
BMS010_04728	942	alsB	COG1879	D-allose-binding periplasmic protein	ATGAAGAAAATTGCGACTGCCCTTCTGACATCCGCAATTGCGCTGTGGAGCGTTTCCACCGTGCAGGCCGGTGAAATCGCCGTCATCGTCAAAACCGTCAACTCCACCTTCTGGCAGAACGTCCAGAAGGGCGCTGATGCGGCGATGAAGAACTCTTCCGGCAATACCATGACCTTCCAGGGGCCGGCTGCCGAGTCCGCCATTGCCGACCAGGTCAACATGGTCGAAAACGCCATCAACCGTAAGGTCGCGGGCATTGTTCTGGCACCTTCCGATCCGGACGCGCTGGTGCCTGCCGTCAAGAAGGCCTGGGAAGCCCGTATTCCGGTGGTTCTGATCGACTCGCAGCTCGCAAAGGGCTCGGAGCAATATTACCAGTCGTTTCTGGCGACCGATAACAAGAAAGCCGGTGAACTGGCAGCGCAGGCGCTGATCGACAAGGTGGGCAAGGAAGGCAAGATCGCCGTCATGTCCTATGTCGCCGGTGCCGGTTCTGAAATCGGCCGTGTCGGCGGTTTCACCGACTACATCCAGATGAACTCCAACCTGAAGATCGTCGGCCCATTCTATTCGCAGTCGCAGATGGCGACCGCGCTGAACCAGACGACCGACGTTCTGGCCGCCAATTCCGACCTCAAGGGCATTTTCGGCGCCAATGAGCCGACGGCAATCGGCGTCGGTCGCGCGCTCGCGCAGAGCGGCAAGGCCGGCAAGGTTGTCGCCATCGGCTTCGACGGCAACCAGGACCTTCAGGGCTTCGTCAAGGATGGCACGCTGGCCGGTATTGTGGTTCAGGGTTCCTATCAGATGGGTGAAAAGGGCGTAGAGACCATTTCCAAGCTCATCGGCAAGGAAAAGGTCGAAAAGTTCGTCGACACCGGCGTCGTTGTTGTCACCAAGGACAATATCGAAAAGCCGGAAGCCAAGAACGTTCTTTATTGA	MKKIATALLTSAIALWSVSTVQAGEIAVIVKTVNSTFWQNVQKGADAAMKNSSGNTMTFQGPAAESAIADQVNMVENAINRKVAGIVLAPSDPDALVPAVKKAWEARIPVVLIDSQLAKGSEQYYQSFLATDNKKAGELAAQALIDKVGKEGKIAVMSYVAGAGSEIGRVGGFTDYIQMNSNLKIVGPFYSQSQMATALNQTTDVLAANSDLKGIFGANEPTAIGVGRALAQSGKAGKVVAIGFDGNQDLQGFVKDGTLAGIVVQGSYQMGEKGVETISKLIGKEKVEKFVDTGVVVVTKDNIEKPEAKNVLY	PGPT0015740_5001	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0015740-rbsB-K10439	NA	NA
BMS010_04729	1023	rbsC_5	COG1172	Ribose import permease protein RbsC	ATGGCCAATATTGCAGAAACCAAGAAGAGCTTCGCAGTCAGCGACCGCCAGAAGGATATTATCCAGAAGTTTGCCGCACTTGGCAGCCTCTTTGCGCTTGTCGCGGTCTTTTCCGCCACCAGCAGCGCCTTCTTCACCGTCAATAACGGCATGACGATTGCGTTGCAGGTCACGTCCATCGCGCTGCTCGGCATCGGGGCTACCTGTGTCATCATCACCGGTGGCATCGATCTTTCCGTCGGTTCGGTGCTTGCGCTCGCCGGTGTCGTCGCCGCCCTTGCGGTGAAGGAACTTGGCATGCCGGTGCCGGTCGGCATGTTGCTCGGCATTCTGACGGGGTCACTCTGCGGTCTCATCAACGGTCTTCTGGTCACCCGTTTCAAGCTGCCGCCCTTCATCGCCACCCTCGGCATGATGTTGATCGCTCGTGGCGTAGCGCTGCAGATCACCGGTGCGCGCGCCGTCTCCGGCCTCGGCGAATCTTTCGGCGAACTCGGCAATGGCGCCCTCTTCCGCATCGTCACTATCGGTGACGACGGCTTTCCGAATGTGGTGTTTCCCGGCATCCCCTACCCCGTCATCCTGATGGTGGTGATTGCGCTTGCCGTTTCCTTCATGCTCAACCGCTCGATCCTCGGCCGTCACATTTACGCTGTCGGTTCCAACGCCGAAGCCGCGCGCCTTTCCGGCGTCAATGTCGCCCGCGTCACAAATTTCACCTACATCCTGTCCGGCACGCTCGCCGGGCTGACGGGCTGCGTGCTGATGTCTCGCCTCGTCACCGCCCAGCCGAACGAGGGTGTGATGTATGAGCTGGACGCCATTGCCAGCGCCGTTATCGGCGGCACATCGCTGATCGGCGGCGTGGGAACGATTTCCGGTACGGCCATCGGCGCTTTCGTCATTGGCATCCTGCGCAACGGTCTCAACATGAATGGCGTCTCCGCCTTCACACAACAGATCATCATCGGCCTCGTCATTCTGGTCACCGTCTGGATCGACCAGTTGCGCAACCGCCGCTGA	MANIAETKKSFAVSDRQKDIIQKFAALGSLFALVAVFSATSSAFFTVNNGMTIALQVTSIALLGIGATCVIITGGIDLSVGSVLALAGVVAALAVKELGMPVPVGMLLGILTGSLCGLINGLLVTRFKLPPFIATLGMMLIARGVALQITGARAVSGLGESFGELGNGALFRIVTIGDDGFPNVVFPGIPYPVILMVVIALAVSFMLNRSILGRHIYAVGSNAEAARLSGVNVARVTNFTYILSGTLAGLTGCVLMSRLVTAQPNEGVMYELDAIASAVIGGTSLIGGVGTISGTAIGAFVIGILRNGLNMNGVSAFTQQIIIGLVILVTVWIDQLRNRR	PGPT0016590_1587	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0016590-rbsC-K10440	NA	NA
BMS010_04730	1566	mglA_4	COG1129	Galactose/methyl galactoside import ATP-binding protein MglA	ATGTCGCAGGGCGCATCGACAATTCGAGGCGATTTTTCGCCTGAACAGATGGCGCATGGACAGCGCGTGGTGCTCCTGCGCCTCGATAACATCAGCAAGGAATTTCCCGGCGTCAAAGCACTGTCGAACGTGCATTTCGATCTGCGCGCCGGCGAGGTGCATGCCGTCTGCGGTGAGAATGGTGCGGGAAAATCGACGCTGATGAAGATCGTCAGCGGCGTCTATCAGCCGAGCGACGGCACCATCCTTCATAAAGGTGTAAAGGTGCAATATGCATCGCCGCTGGAGTCCGAAGCTGCGGGCATCGCCATCATTCATCAGGAACTCAACCTCGTTCCGCATCTTTCCGTTGCCGAAAACATCTATCTTGCGCGAGAACCGCGTCGCGGTTTCCTCGTTGACCGCAAGAAGCTGCGCCTCGATGCCAAGCGCTGTCTCGACCGGCTGGGTGTCGATATCGACCCCGACCAGATCGTCCGCGGCCTTTCGGTCGCCCAGTGTCAGATGGTGGAAATCGCCAAGGCGCTTTCTCTTGACGCTGAAGTGCTCATCATGGATGAGCCGACCTCTTCGCTGACCGAGCAGGAGACGCGGCTCCTGTTCAAGGTCATCCGCGATCTCAAGGCATCCGGTGTCGGGATCGTTTATATTTCCCACCGTCTCGATGAAATGGCCGAAATCGTCGACCGTGTGACGGTTCTGCGTGACGGACGTTATATTTCGACCGACGATTTCGCTTCGATCACCGTTGACGACATCGTCACGCGCATGGTCGGGCGTTCGCTGGAAGACAAATTCCCCGAGCGCACATCGCGTCCCACTGAAGATGTTATTTTTTCCGTCGAGGGCCTGACGCGCAGCGGCGTGTTCCACGACGTCGGTTTTTCGCTGCGACGTGGTGAAATCCTCGGTTTCGCCGGGCTGATGGGTGCTGGCCGTACCGAAGTCGCCCGGGCCATCTTCGGCGCAGATCCGCTTGATGCGGGCAGGATCGTTTTCAACGGGCGGAAGCTTTCGATCAGCTCGCCGCAGGACGCCATCGAAGAAGGCATCGCCTATCTCTCGGAAGACCGCAAAAGCGATGGCCTCGCCATCAAGATGTCGGTGGCGGCCAATACGACGCTTGCCAATCTCGGCGAGGTTTCCAACCGTTTCGGCCTGATCGATTTCAAGAAACATGACGATGTGGCAAAGCGCTACGTCGATCTCCTGAATATCCGTACTCCCTCCATCGGGCAGACGGTGCGGCTGCTTTCCGGCGGCAATCAGCAGAAAATCATCATCGGCAAATGGTTGTTCCGGCAATCTCGCGTGCTGTTCTTCGACGAGCCGACACGCGGCATCGATGTCGGCGCGAAATTCGCGATCTACAAGATCATGGACGAGCTCGCCGCGCAGGGCATCGGCGTCATTCTCATCAGTTCGGAACTGCCGGAAATTCTTGGGCTGACGGATCGTATCGCCGTTTTCCACCAGGGCCGGATTACGGGCGTGCTCGAAACCGCCAAGACCAATCAGGAAGAAATCATGCGGTATGCGTCCGGTTACGGCCGGACCGCGCAGTGA	MSQGASTIRGDFSPEQMAHGQRVVLLRLDNISKEFPGVKALSNVHFDLRAGEVHAVCGENGAGKSTLMKIVSGVYQPSDGTILHKGVKVQYASPLESEAAGIAIIHQELNLVPHLSVAENIYLAREPRRGFLVDRKKLRLDAKRCLDRLGVDIDPDQIVRGLSVAQCQMVEIAKALSLDAEVLIMDEPTSSLTEQETRLLFKVIRDLKASGVGIVYISHRLDEMAEIVDRVTVLRDGRYISTDDFASITVDDIVTRMVGRSLEDKFPERTSRPTEDVIFSVEGLTRSGVFHDVGFSLRRGEILGFAGLMGAGRTEVARAIFGADPLDAGRIVFNGRKLSISSPQDAIEEGIAYLSEDRKSDGLAIKMSVAANTTLANLGEVSNRFGLIDFKKHDDVAKRYVDLLNIRTPSIGQTVRLLSGGNQQKIIIGKWLFRQSRVLFFDEPTRGIDVGAKFAIYKIMDELAAQGIGVILISSELPEILGLTDRIAVFHQGRITGVLETAKTNQEEIMRYASGYGRTAQ	PGPT0016600_652	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0016600-rbsA-K10441	NA	NA
BMS010_04731	693	lldR_2	COG2186	Putative L-lactate dehydrogenase operon regulatory protein	ATGAGTGGTCAGGCCAAAATAGCGGAACCGCGCAGGCTTTATCAGCAGATTGCGGACCAGATACGCGAACTCATCGATATGGGTGAATTCCTGCCCGGCACGCGGCTTCCCGCCGAACGCGAACTTGCACAGAAGCTCGGCGTATCGAGGCCTTCCTTGCGCGAGGCGCTGATTGCGCTTGAAATCGACAACACCGTCGAAATTCGCATGGGTTCCGGGGTTTATGTGTCGGCGGAAGCGTTGCAGACGACCCACCATACCAAATCGCTGGGTGACAGCCCCTCCGAACTGATGCAGGCGCGCGCTGCGCTGGAGGGTGCCACCATCGTGCTGGCGGCAAGCCGGATGACCGATGAGACAATCGCGGCCCTCCGGCAAATACTCAATACCATGCAGCGGGAAATCGAGGCCGGTCGCAAGCCTCTGGATCAGGATCGGCTGTTTCATGTCACCATCGCCGAGCAATCCGGTAACAGCGTTTTGGCCCGAATGGTGGCCAACCTCTTCGATGAGCGCCACAGCCCCATTTCGGCCCAGCTTCGCGTGAAATTCGAAGACCGCGATACCTGGACCCATGCGCTTCAGGAACACGAGGCCATTCTGGCAGCGCTTGAACTGAAAGACCCGCTACTGGCGCAGGCCGCCATGCATACCCATCTGGAAGGTTCGAAGAGACGCTGGGTCGAAAACTGA	MSGQAKIAEPRRLYQQIADQIRELIDMGEFLPGTRLPAERELAQKLGVSRPSLREALIALEIDNTVEIRMGSGVYVSAEALQTTHHTKSLGDSPSELMQARAALEGATIVLAASRMTDETIAALRQILNTMQREIEAGRKPLDQDRLFHVTIAEQSGNSVLARMVANLFDERHSPISAQLRVKFEDRDTWTHALQEHEAILAALELKDPLLAQAAMHTHLEGSKRRWVEN	PGPT0018214_30	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_HEXONATE|HEXURONATE|HEXURONIDE_UTILIZATION,PGPT0018214-exuR-K19775	NA	NA
BMS010_04732	1533	garD_2	COG2721	Galactarate dehydratase (L-threo-forming)	GTGAGTGAGAATTCCGAGGCAACCATTTTGCTGAACGCCAACGACAATGTTGCGGTGGCACGTCGGTCCATTCCGGCCGGCGGCGCGACGGGCAGGGGCGATCTGGCGGCGCTCGAGCTGATCGGGCGCGGGCACAAGGTGGCCCTCAAATTCATCAAATCGGGCGATGAGGTGCTGAAATACGGACAGGTCATCGGTATCGCAACCCAGGATATCGAGCCCGGCCGCCACGTGCACCTGCACAATCTCGCCATGGTGCCTTCCGAACACGCGCATCAGTTCAGCGTTGATATCGAAGAAAAGGGCATGGTCCCGGAAGCCGAACGCCGGACGTTCAAGGGTTATGACCGTGGCCTCGGTGGCGTCGGAACACGAAACTATATCGGCGTCATCGCTTCGGTGAACTGTTCCGCCACGGTCTCGCGTTACATCGCGGATTATTTCAACAAGCAGGGCGGCCTTGATGGTTTCGACAATGTCGATGGCGTCGTGGCGCTGACCCATGGCGGCGGCTGTGCGCTGAATACGAAATCGGAAGGTTACCGCCTGCTGATCCGCACTATTCAGGGCTATGCCCGCCACCCGAATTTCGGCGGCATTCTGCTGATCGGCCTCGGTTGTGAAACCAACCAGATCGCGCCCATTCTCGAACATTACAAGATGGAAGAGGGTGAGCGGCTGCGCACCATGACGATCCAGCAGCATGGCGGCACCCGCAAGACGATCGATGCGGCGATTGCCGAGATCAAGGCCATGCTACCGATGGTCAATGCCGCCCGCCGAACGGAGCAACCGCTTTCCAAGCTGAAGGTGGCACTGGAATGCGGCGGCTCGGATGGTTATTCCGGCATTTCCGCCAACCCGGCTCTGGGTTATGCCTCCGACCTCATCGTCCGCAACGGTGGAACCACGGTCCTCTCCGAGACGCCGGAGATTTACGGCGCTGAACACCTCCTGACGAAGCGCGCCGTCACACCTGCCGTCGCCGAAAAGCTGCTACAGCGTATCGACTGGTGGCGTGATTATACCGCCCGCAATGGCGACGAACTGAATAACAACCCCTCCCACGGCAATAAGCTTGGCGGCCTCACCACCATTCTGGAAAAATCGCTGGGCGCGGTCGCCAAGGGCGGCTCCATGCCGCTGAAGGCGGTTTATGAATTCGCCGAAACCGTAACGGAGCAGGGTTTCGTCTTCATGGATACGCCCGGCTATGACCCCGTTGCGGTCACCGGCCAGGTCGCCGGCGGCTGCAACGTCATCTGTTTCACCACCGGCCGCGGCTCGGTTTCGGGCTTCAAGCCGTCACCATGCATCAAGATCGCCACCAATTCCGAAATGTATGAACACATGAAGGAAGACATGGATATCAATTGCGGTGAGATCGTCACCGGCGCTGAAACCATCGAAGAATCCGGCAAACGAATTTTCGAGCATATTCTGGCGGTGGCCTCCGGCGAAAAGACCGTCAGCGAGATCTACGACTACGGCGACAATGAATTTGTACCGTGGCAGGTCGGCGCAGTGACCTGA	MSENSEATILLNANDNVAVARRSIPAGGATGRGDLAALELIGRGHKVALKFIKSGDEVLKYGQVIGIATQDIEPGRHVHLHNLAMVPSEHAHQFSVDIEEKGMVPEAERRTFKGYDRGLGGVGTRNYIGVIASVNCSATVSRYIADYFNKQGGLDGFDNVDGVVALTHGGGCALNTKSEGYRLLIRTIQGYARHPNFGGILLIGLGCETNQIAPILEHYKMEEGERLRTMTIQQHGGTRKTIDAAIAEIKAMLPMVNAARRTEQPLSKLKVALECGGSDGYSGISANPALGYASDLIVRNGGTTVLSETPEIYGAEHLLTKRAVTPAVAEKLLQRIDWWRDYTARNGDELNNNPSHGNKLGGLTTILEKSLGAVAKGGSMPLKAVYEFAETVTEQGFVFMDTPGYDPVAVTGQVAGGCNVICFTTGRGSVSGFKPSPCIKIATNSEMYEHMKEDMDINCGEIVTGAETIEESGKRIFEHILAVASGEKTVSEIYDYGDNEFVPWQVGAVT	PGPT0018155_574	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTARATE|GLUCARATE_DEGRADATION,PGPT0018155-garD-K01708	NA	NA
BMS010_04733	1617	purH_1	COG0138	Bifunctional purine biosynthesis protein PurH	ATGGCCGTCGTGTCCAAGAAAATCCCCGCCCCCGATAAGGTCAAAATCCGCACGGCGCTTCTTTCCGTGTCCGACAAGACTGACATTATCGAGCTGGCGACGGTTCTGTCGAAGCTTGGCGTCAAGCTTCTGTCGACCGGTGGAACGGCGAAGGCCATTGCCGAAGCAGGCTTGCCGGTGACGGATGTCTCCGACGTAACGAATTTTCCCGAGATAATGGACGGCCGCGTCAAGACGCTGCATCCCAATGTCCATGGCGGGCTTCTGGCGATCCGGGACGATGCGGAACATGTCGAGGCGATGAAGGCGCACGGCATCGAGGCAATCGATCTCTCGGTCATCAATCTCTATCCCTTCGAGGAAGTTCGCGCCAAGGGCGGCGATTATCCGACGACGGTGGAGAACATCGATATTGGCGGCCCGGCGATGATCCGCGCTTCCGCCAAGAACCATGCCTATGTCACGGTGGTTACCGATCCGTCTGACTATCCCGATCTGGTTGAAGCCCTGCAGGCCGATGACGGCCAGACATCCTATGCGCTGCGCCAGCGTTTTGCCGCCAAGGCCTATGCCCGCACCGCCGCCTATGATGCGGTGATTTCCAACTGGTTTGCCGAGGCGCTTGTGATCGAAACGCCGGATTACCGCGCCATCGGCGGCGCGCTGAAGGAAAAGATGCGGTATGGCGAAAACCCGCATCAGAGCGCTGGTTTTTACCTCACCGGCGAAAAGCGTCCGGGCGTCGCAACGGCGACGCTGCTTCAGGGCAAGCAGCTTTCCTATAACAACATCAATGACACCGATGCAGCTTACGAGCTCGTGGCGGAATTCCTGCCGGAAAATGCGCCGGCAGTCGCCATCATCAAGCACGCCAATCCCTGCGGCGTGGCGACGGGTCCGACACTTGCCGAAGCTTACCGGCGCGCGCTGGCATGCGATTCCGTGTCGGCCTTTGGCGGCGTCATCGCCCTGAACCGCACGCTCGATGCGGAAACGGCGGAAGAAATCGTCAAACTCTTCACTGAAGTCATCATCGCGCCTGATGTTACCGAAGAAGCCAAGTCCATCATTGCCCGCAAGCCGAACCTGCGCCTTCTGGCCGCTGGCGGCCTGCCTGATCCCCGCGCGGCGGGCATTACCGCGAAGACCGTCTCGGGCGGCCTGTTGGTGCAGAGCCGCGACAATGGCATGGTCGAGGATCTCGACCTCAAGGTCGTCACCAAGCGTGCGCCGACGCCGCAGGAACTTGAAGATATGAAATTTGCCTTCAAGATCGCAAAGCATGTGAAGTCCAATGCCGTCATTTACGCCAAGGACGGGCAGACGGCTGGCATCGGCGCGGGCCAGATGAGCCGTGTGGATTCGGCCCGTATCGCTGCCCAGAAGGCGGAAGATGCCGCCAAGGCTCTTGGCCTTGCCGAACCGTTGACGCGCGGCTCCGCCGTCGCTTCGGAAGCATTTTATCCCTTTGCCGACGGTTTGCTCGCCGCGATTGCCGCAGGTGCCACCGCCGTCATCCAGCCGGGCGGCTCCATGCGCGATCAGGAAGTGATTGACGCCGCGAATGAGCACAATGTGGCGATGGTTTTTACCGGCATGCGCCACTTCCGCCACTAA	MAVVSKKIPAPDKVKIRTALLSVSDKTDIIELATVLSKLGVKLLSTGGTAKAIAEAGLPVTDVSDVTNFPEIMDGRVKTLHPNVHGGLLAIRDDAEHVEAMKAHGIEAIDLSVINLYPFEEVRAKGGDYPTTVENIDIGGPAMIRASAKNHAYVTVVTDPSDYPDLVEALQADDGQTSYALRQRFAAKAYARTAAYDAVISNWFAEALVIETPDYRAIGGALKEKMRYGENPHQSAGFYLTGEKRPGVATATLLQGKQLSYNNINDTDAAYELVAEFLPENAPAVAIIKHANPCGVATGPTLAEAYRRALACDSVSAFGGVIALNRTLDAETAEEIVKLFTEVIIAPDVTEEAKSIIARKPNLRLLAAGGLPDPRAAGITAKTVSGGLLVQSRDNGMVEDLDLKVVTKRAPTPQELEDMKFAFKIAKHVKSNAVIYAKDGQTAGIGAGQMSRVDSARIAAQKAEDAAKALGLAEPLTRGSAVASEAFYPFADGLLAAIAAGATAVIQPGGSMRDQEVIDAANEHNVAMVFTGMRHFRH	PGPT0008110_851	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0008110-purH-K00602	NA	NA
BMS010_04734	1692	fzlC		FtsZ-localized protein C	TTGTTAGGGTCCTTTGAAGGCAGCATGAATGCCGCCGGTCTTCTGTCGCGGATGGCGTATCGTCATCTGTGTGTCGGCCTCACCCCTTTGCGCCTGCATATGTCGCGATTTGCCACCCGTGCGCCAGATGGTCTGGTGGCGGCGCCGACCGATCTCAGAGCCATTGATCCCTATTTCGCCGAGGAACTGTTGCGGGGCCGCATCGCGCTGGCCGGGCGTGTTGTCGAAACCGGCGGAGCTTCGCCATTTCAGGTGGAATATCCCTCGGCGGTCTTTGAAGAACGGCTGCATGGATTCAGTTGGCTACGGCATATTCGCTCCGATAAATCGAGCGAGGCCTGCAAACGGGCGCGCCGTATCGTTGCGGAATGGATGGTGCTTCATGGCAAACGGCTTGCAGGCACTGCCTGGTCGCCGGAAATCGCCGCACAAAGGCTGATTGCCTGGCTTTCGCACTCTCCCGTGGTTTTATACGAGGCCGATGCCGGCTTTTATCGCCGGTTCCTGAAAAGCCTCGCCTTTCATGTGCGTTATCTCGAAAGAATCGTCAGACACGCGCCGGATGGCGAAGCGCGACTGAGGATCAGGATTGCCTTGGCCATGGCTTCCATCGCCATGCCAACGCGTCTTTCGCGGATCACGCGGAATGGAATGAAGCTGGCTCAGGAAATGGAACGCCAGATTCTGCCCGATGGCGGGCATGTTTCCCGCAATCCACGCGTCATGCTGGACCTGCTGCTCGATCTCCTGCCGCTTCGGCAAAGTTATATCAATCTTGGCCATGATCTGCCCTCCGGCCTGGTGCCGGCGATAGACCGCATGTTCCCGGCGATCCGGTTCTTCCGGCATCAGGGCGGCGATCTCGCGCTGTTCAACGGCGCCACGGCGACGCTCGCCAATGAGCTCGTTTCCGTGCTGCGTTATGACGAGACGGCCGGCCGACCCTCCAAGGTCCTGCCGGACGTGAATTACCACCGGCTTGCGACGGACGATACGGTCATCATCGTGGATACGGGCTATCCCGGCTCGGCGGAGCTTTCACGCAATGCCCATTCGGGTTGCCTGTCTTTCGAAATGTCCTGTGGCAAGAACCGCTTCATCGTCAATTCCGGCTTTCCACGAAACGCCGCGCCGGAATATCAGCGGGCCAGCCGTTCCACGGCGGCGCATTCCACCGTCACGCTTGCGGATACATCATCGTGCAGACTGTCGCGCTCGCGGTTGCTTGGTCCGATCATGGTGTCAGGCGTCAGCCACGTCGACAGCCGGCGTGTAACGGATGCAAACGGCAATGACATCCTGTGGGCGTCTCATGACGGCTATTTGCAGAATTTCGGCTGCCACCATGAGCGGGAAATAGAATTGAATGCGGCCGGCACCAAGATAAAGGGTCGGGATCTGCTTCGGGCCGATGCGAGTGCGGTAAAAACGCAATTTCAGTCGGTCACGGCGGTTTCACGTTTCCATATTCATCCCCACATTCAGATACACCAGCGGGATGAGGAGTCTGCCTATCTGGAGGCAGCGGATGGAACCGTCTGGTTATTTTCCGCACCGGGGCTGGAGCTTTTCGTCACCGAGGATGTCTTCATGGCCGATGCATCCGGTATGCGCCCGTCGCAGCAGATCGAGCTCCCCTTCAATCTCGCAAATACGCGGGAAATCCGCTGGCTCATCGAACGCCAGGCCTAG	MLGSFEGSMNAAGLLSRMAYRHLCVGLTPLRLHMSRFATRAPDGLVAAPTDLRAIDPYFAEELLRGRIALAGRVVETGGASPFQVEYPSAVFEERLHGFSWLRHIRSDKSSEACKRARRIVAEWMVLHGKRLAGTAWSPEIAAQRLIAWLSHSPVVLYEADAGFYRRFLKSLAFHVRYLERIVRHAPDGEARLRIRIALAMASIAMPTRLSRITRNGMKLAQEMERQILPDGGHVSRNPRVMLDLLLDLLPLRQSYINLGHDLPSGLVPAIDRMFPAIRFFRHQGGDLALFNGATATLANELVSVLRYDETAGRPSKVLPDVNYHRLATDDTVIIVDTGYPGSAELSRNAHSGCLSFEMSCGKNRFIVNSGFPRNAAPEYQRASRSTAAHSTVTLADTSSCRLSRSRLLGPIMVSGVSHVDSRRVTDANGNDILWASHDGYLQNFGCHHEREIELNAAGTKIKGRDLLRADASAVKTQFQSVTAVSRFHIHPHIQIHQRDEESAYLEAADGTVWLFSAPGLELFVTEDVFMADASGMRPSQQIELPFNLANTREIRWLIERQA				NA	NA	NA	NA	NA
BMS010_04735	1386	rsmB_2	COG0144	Ribosomal RNA small subunit methyltransferase B	TTGACATCCGATATTCAGAATAAGCCGGCGCGGTCCAGAAAACCGAGACCGGCAAATGGGAGGGGCCGTGAAGACGGCCTTTCGTCTTTCCAGGACAAGCCGGGTCTCGCCGCGCGCATCGCCGCGACCCGCATTCTGGCGGCCGTTCTGGAAAAGAAGACCTCGCTGGATGGGATGCTCGATAGCGAAAACGGCAATCCCGTCTATCGAGCCCTGTCGCTTGCGGACCGGGCGCTGGTGAGAGCCATCGTCAACAGCGCGCTTCGCCACCTCCCGCGGATTGAAACGGCATTGTCGATGCTGCTGGATGGGCCGCTGCCGCAGGGTGCGCGTTCGCTGCATCACGTTCTTGTCGTCGGTGCGGCGCAGATGCTTTACCTCGATGTGCCGGATCATTCGGCTGTCGATCTTGCGGTGGAACAAGCTCACCGCGATCCGCGCAACCGGCGTTTCGTCAAACTGGTGAACGCCGTTCTTCGACGGCTCGGTCGTGAAAAAGCGGATATAGAGAAGGCTGTCGCCGGCGTTCCGGTACTGCCGGACTGGTTCCATGCGCGGCTTGTTTCCGCTTACGGCAATGAGGTTGCGCAAAGGATTTCGGAGGCGCAGCTGACACCCTCCTCAATTGATCTGACGATCAAGGCTGATCCTGCTCTCTGGGCGGAAAAACTGGGCGGTTCGCTCATGCCGAATGGCAGCGTGCGCCTGGGTGAATTCGAGGGGCAGATCCCATCGCTTGAAGGCTTCGCTGAAGGTGCGTGGTGGGTGCAGGATCTCGCCGCCAGCATGCCGGTTCGGCTTATGGGCGACATAGCGGGTAAACGTGTCGCAGATCTCTGTGCTGCTCCGGGTGGCAAGACCGCGCAGCTTGCACTGGCGGGCGCCAATGTGACGGCGCTGGATCAGTCCGGTAACCGTCTTCGTCGCCTTAGGGAAAATCTCGACCGGCTCGGCCTCCGTGCCGAAACGGTTGAGGCCAATATGCTGAAGTACCAGCCGGAACAGCTTTTTGACGCAGTCCTCCTCGATGCGCCCTGTTCTTCCACCGGGACACTTCGCAAACATCCCGATGTCTGCTGGACCAAGGATGAGAACGACATTGCCAAACTCGCTGCCCTTCAGGGCCAGATGCTGCGGCATGCGTTGACGCTTGTTGGCCCCGGCGGCCTCGTGGTCTTTTCCAATTGCTCGCTCGATCCTTCCGAAGGAGAAGCGATGATTGCCGAGGTTCTGGCGGAAAATCCGGGTGTGGAGCGTGTTGCCGTCCGCCGCGAGGATTGGCCTGGAATGGAAGCGGCCATCAGCCCCGATGGCGATCTTCGCACGACACCGGACATGTTCGGCGGTGTCGATGGGTTTTTTAGCAGTGTCTTGCGTAAGAAGTAG	MTSDIQNKPARSRKPRPANGRGREDGLSSFQDKPGLAARIAATRILAAVLEKKTSLDGMLDSENGNPVYRALSLADRALVRAIVNSALRHLPRIETALSMLLDGPLPQGARSLHHVLVVGAAQMLYLDVPDHSAVDLAVEQAHRDPRNRRFVKLVNAVLRRLGREKADIEKAVAGVPVLPDWFHARLVSAYGNEVAQRISEAQLTPSSIDLTIKADPALWAEKLGGSLMPNGSVRLGEFEGQIPSLEGFAEGAWWVQDLAASMPVRLMGDIAGKRVADLCAAPGGKTAQLALAGANVTALDQSGNRLRRLRENLDRLGLRAETVEANMLKYQPEQLFDAVLLDAPCSSTGTLRKHPDVCWTKDENDIAKLAALQGQMLRHALTLVGPGGLVVFSNCSLDPSEGEAMIAEVLAENPGVERVAVRREDWPGMEAAISPDGDLRTTPDMFGGVDGFFSSVLRKK				NA	NA	NA	NA	NA
BMS010_04736	966	htpX_1	COG0501	Protease HtpX	ATGAACATGATGCGCACGGCAATGCTTCTGGCCTTCATGACCGCATTGTTCATGGGTGTCGGTTTTCTGATCGGCGGCAAGGGCGGCATGATGATCGCCCTGGTCATCGCGGCTGGTATGAATATTTTTTCCTACTGGAACTCTGACAAGATGGTTCTCTCCGCCTATCATGCGCGGGAGATCGATGAGGCGAATGCGCCCGAATTTTTTCACATGATCCACGACCTGTCGCAGAATGCCGGTCTGCCGATGCCGAAGGTCTATATTTACGATAGCCCGCAACCGAATGCCTTCGCGACCGGGCGGAATCCGCAGAACGCTGCTGTTGCCGCTTCGACAGGACTGCTAGAGCGTTTGACGCCCGAGGAAGTGGCCGGTGTCATGGCGCATGAGCTTGCGCATGTGCAGAACCGGGATACGCTGACCATGACAATCACCGCCACGCTGGCGGGCGCCATCTCCATGCTCGGCAATTTTGCCTTCTTCTTCGGCGGCAACCGGGAGAACAACAATAATCCGCTCGGATTTATCGGCGTGCTGGTCGCGATGATCGTGGCGCCGCTGGCAGCGATGCTGGTGCAGATGGCGATCAGCCGCACGCGGGAATATTCCGCTGACCGGCGCGGCGCGGAAATCTGCGGCAATCCGCTCTGGCTTGCTTCCGCCTTGCAGAAGATTTCGGGCATGGCGCAGCGCATCCACAATGACGATGCCGAGCGTAACCCGGCAACGGCGCATATGTTCATCATCAATCCGCTTTCCGGCGAGCGCATGGACAATCTCTTCTCCACCCATCCGAATACGGAAAACCGCGTGGCCGCGCTGCATGCCATGGCACAGGAGTTTTCCCCGCGAGGATCGACGCCGCCGCCATCGGGTGATAGACCTCTGCGCAAATCAGGCTCCGTTCCCAAAACAGGCTGGGGACGCGGCAATGAAAACGAGCGCAAGGGGCCGTGGTCTTGA	MNMMRTAMLLAFMTALFMGVGFLIGGKGGMMIALVIAAGMNIFSYWNSDKMVLSAYHAREIDEANAPEFFHMIHDLSQNAGLPMPKVYIYDSPQPNAFATGRNPQNAAVAASTGLLERLTPEEVAGVMAHELAHVQNRDTLTMTITATLAGAISMLGNFAFFFGGNRENNNNPLGFIGVLVAMIVAPLAAMLVQMAISRTREYSADRRGAEICGNPLWLASALQKISGMAQRIHNDDAERNPATAHMFIINPLSGERMDNLFSTHPNTENRVAALHAMAQEFSPRGSTPPPSGDRPLRKSGSVPKTGWGRGNENERKGPWS	PGPT0014605_646	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014605-htpX|ykrL-K03799	NA	NA
BMS010_04737	213			hypothetical protein	ATGCAGAATGCGGATAATGACAACGCCACAGACAGTGGCGCGGAAAGTGCAAAGCGACTTTCACCGGCGGCGCAGCGAGCGTTGAAAGAAGCGGAAGAACGGCGCAGGCAACAGGCCGATCTCCAGTTGCCGCCGGAAACCGGCGGCCGCGGCGGCGCGGAACCCGTGCGTTTCGGCGATTACGAAATAAAAGGCCGGGCTATCGACTTTTGA	MQNADNDNATDSGAESAKRLSPAAQRALKEAEERRRQQADLQLPPETGGRGGAEPVRFGDYEIKGRAIDF				NA	NA	NA	NA	NA
BMS010_04738	882	parB_1		Chromosome-partitioning protein ParB	ATGAGTGATGATCTTTCCAAGCGTCGGCTGGGGCGCGGTCTTGCCGCATTGATCGGAGAAATGGACCAGCCTGTGCCTGTGGGTGAGCCTCAGCGCGCTGTTAACGCCGATCGTACCATTCCCATCGAATTCATCGCTCGCAGCCAGAGGAACCCGCGGCGTCATTTCGATGAGAACGAGCTGCAGGATCTTGCTGCCTCCATTCGTCAGCATGGAATTGTTCAGCCTGTGGTCGTAAGAACGGTTGAAGTCAACCGATACGAGATTATTGCGGGCGAGAGGCGCTGGCGTGCGGCGCAGCTGGCGGGCTTTACCGATGTTCCCGTCATCGTCCGCGATGTGGATGATCGCACGGCGCTGGAACTGGCAATTGTCGAAAACGTACAGCGTTCCGACCTCAATCCGCTTGAAGAAGCGATGGGGTATGAGCAGCTGATCGCCGAACATGGCTATACGCAGAATGATCTCGGCGAAATCATCGGCAAGAGCCGAAGCCACGTTGCCAACAGCCTGCGGCTTTTGAAGCTTCCCGATCCGGTACGGGATATGCTGGCGGATGGCTCGCTCTCCGCAGGTCATGCCCGCGCGCTTGTTTCCACCTCCGATCCGGCGACGCTTGCTAAAACAATCGTATCCAAGGGACTTTCGGTGCGTGATGCCGAGCGCCTGGCGCAGAACGATATCAAATCGCAGGGCGATGTTGCGGAGAAGCGACCTGCTGGGGAAAAGGATTCCGATACGATCGCGCTCGAACGCAGCCTGTCCGATGCTCTCGGGCTGGATGTGAAGATCAGCCACAAGGGCGGATCGGGGCAAATCCGTATCGGTTACCGCACATTGGAACAGCTTGAAGCGGTATGCCGGCTTCTGGAGCAGAAATAA	MSDDLSKRRLGRGLAALIGEMDQPVPVGEPQRAVNADRTIPIEFIARSQRNPRRHFDENELQDLAASIRQHGIVQPVVVRTVEVNRYEIIAGERRWRAAQLAGFTDVPVIVRDVDDRTALELAIVENVQRSDLNPLEEAMGYEQLIAEHGYTQNDLGEIIGKSRSHVANSLRLLKLPDPVRDMLADGSLSAGHARALVSTSDPATLAKTIVSKGLSVRDAERLAQNDIKSQGDVAEKRPAGEKDSDTIALERSLSDALGLDVKISHKGGSGQIRIGYRTLEQLEAVCRLLEQK	PGPT0014815_6433	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014815-parB|spo0J|yyaA-K03497	NA	NA
BMS010_04739	795	parA_1		Chromosome partitioning protein ParA	ATGACTTTAGAAAAAAACCGGATTATCGCAGTTGCAAACCAGAAAGGCGGCGTTGGTAAAACAACAACCGCCATTAATCTGGCGACCGCGCTGGCGGCTATTGGTGAGCGCGTGCTGATTGTGGATCTGGACCCGCAGGGTAATGCGAGTACCGGGCTTGGAATCGACCGCAAGGAGCGAAAGCTTTCGTCCTACGATCTTCTGGTCGGAGATCATGGGGTAGCGGAAGTTGCTGTTCCCACCGCCGTTCCCAATCTCGACATCGTACCCTCCACCATGGATTTGCTCGGTTTCGAGATGCAGGTGGCGAATGTTTCCAACCGCGTTTTCCTGCTGCGTGCAGCCATGGAGACAAAGGAAGCCAGAGGCTACTCCTATATTCTCGTCGACTGCCCTCCTTCGTTCAATCTTTTGACGATGAATGCCATGACGGCCGCACATTCCGTGCTCGTGCCGCTGCAATGTGAGTTCTTTGCGCTGGAGGGCCTTAGCCAGTTGCTGGATACGGTCAGTCAGATTCGTGGATCGGTGAACCCGCAGCTCGATATACAGGGCATCGTTCTTACGATGTTCGATGCGCGAAATAATCTTGCACAACAGGTTGTTTCGGATGTGCGCACGCATCTGGGCGAAAAGGTCTACCACACGCTCATTCCACGCAATGTGCGTGTTTCCGAAGCACCGTCCTATGGTAAGCCGGCAATTCTCTATGATCTGAAATGTGCCGGCAGCCAGGCCTATCTGCAACTGGCGTCCGAAGTGATTCAGAGAGAGCGTCTGCGTAAAGCCGCCTGA	MTLEKNRIIAVANQKGGVGKTTTAINLATALAAIGERVLIVDLDPQGNASTGLGIDRKERKLSSYDLLVGDHGVAEVAVPTAVPNLDIVPSTMDLLGFEMQVANVSNRVFLLRAAMETKEARGYSYILVDCPPSFNLLTMNAMTAAHSVLVPLQCEFFALEGLSQLLDTVSQIRGSVNPQLDIQGIVLTMFDARNNLAQQVVSDVRTHLGEKVYHTLIPRNVRVSEAPSYGKPAILYDLKCAGSQAYLQLASEVIQRERLRKAA				NA	NA	NA	NA	NA
BMS010_04740	618	rsmG_1		Ribosomal RNA small subunit methyltransferase G	ATGAAGATAAACGGCCAGAGTGTTTCACGTGAAACACAGGCAAGGCTCGAACATTTTGTCGAGCTTTTTAAGAAGTGGAACAGAACCACAAATCTGGTAGCGCCTTCCACTCTTGCCGAGCTTTGGAACCGCCATGTGGCCGACAGCGCGCAGATATTCCAGCTCTCTCCTCAGCCAAAAAAGTGGATTGATCTTGGAAGCGGCGGCGGATTTCCAGGTGTCGTCACCGCGATTTTTCTGGCGGAGCTTGGCGACGGTTGGGTTGATCTGGTCGAAAGCAACAATAAAAAGGCGGCATTCTTGCGAATTGCACTGAAGGAAACCGGTGCAAGAGGTGCAGTCCACCCCGTCAGGATTGAGAAAGCACCGGAAATCATCAAAAATTGCGAGGCCGTTTCAGCGCGCGCGCTCGCCGAGCTGGATCTGCTTTTCGATTATATTCATCCCTGGGCGCAGAATAACCCAAATCTCAAGGCCTATTTTAATAAAGGCCGGGATTATGATTCTGAAGTGCAGAAAGCACATGGTCGCTGGGAGTTTGATCTGGTAAAACATCAGAGTGCCATTGAGGCAGATTCTGTTGTTCTTGAAATCAGCAACCTCGCTTTGAGGCGCTGA	MKINGQSVSRETQARLEHFVELFKKWNRTTNLVAPSTLAELWNRHVADSAQIFQLSPQPKKWIDLGSGGGFPGVVTAIFLAELGDGWVDLVESNNKKAAFLRIALKETGARGAVHPVRIEKAPEIIKNCEAVSARALAELDLLFDYIHPWAQNNPNLKAYFNKGRDYDSEVQKAHGRWEFDLVKHQSAIEADSVVLEISNLALRR				NA	NA	NA	NA	NA
BMS010_04741	1884	mnmG_1	COG0445	tRNA uridine 5-carboxymethylaminomethyl modification enzyme MnmG	ATGCACCAGTCATTCGATGTCGTTGTTATTGGCGGTGGCCACGCGGGCAGCGAAGCCGCGGCCGCTGCTGCGAGGCATGGTGCAAAAACCGCCCTTGTTACCCACAAGCGTGAGACGATCGGCGTCATGTCCTGCAACCCCGCCATTGGCGGTCTGGGAAAAGGCCACCTCGTTCGTGAGATCGATGCGCTGGATGGCTTGATGGGTCGTGTTGCCGATGCAGCGGGCATCCAATTCCGCATGCTCAATCGCAAAAAGGGACCGGCCGTCCGTGGTCCGCGCACGCAAGCCGACCGGCGGCTTTACCGCGACGCCATGCAACGCAAGATCGATGCGATTGAAAACCTCACCATTATTGAAGGCGATGCTTTCGATATTGAGATGGCCGATGATCGCGTCGCAGCCGTTATCATGAAGAACGGTAGCCGGATTCCTTGTGGCGCGGTTGTGCTGACGAGCGGAACCTTCCTGCGTGGTCTCATTCATATCGGTTCCGAAAAGATTCCGGCGGGACGTGTGGGAGAAATGCCGTCTGTCGGCCTCTCGGACACGCTCTCGCGGCTGGGCCTCGTTATGGGTCGCCTGAAAACCGGCACCCCTGCCCGACTGGACGGACGGACGATTGACTGGAATGCGGTGGATCGGCAGGCCGCCGATGAGGATCATGTCCCATTTTCCTTTATGACGGATCGTATTCTCAATCCGCAAATAGAATGTGGTGTAACTCGCACCACCCCGGCTAGCCACAAGATCATTCAGGACAACATTCATCTGTCGGCGATGTATTCTGGACAGATCGAAGGGGTCGGTCCGCGTTATTGCCCGTCGATTGAGGATAAGATCACCCGGTTCGGTGAACGGGACGGTCACCAGATATTCCTCGAGCCGGAAGGTCTGGACGATCACACCATTTATCCAAACGGCATATCGACGTCGCTTCCCGCTTCTGTTCAGGAGCAATTTATCCGAACGATACCGGGCCTTGAACAGGTGACGGTTCTGCAGCCGGGTTATGCGATCGAATATGATTATGTCGATCCGCGAGAGCTGAAGCCGTCGCTGGAATGCCGCAAGATTCCCGGATTGTTTCTGGCCGGTCAGATTAATGGTACGACGGGTTATGAAGAGGCGGGCGCTCAGGGTCTCGTCGCCGGCTTGAATGCATCGCTTTATGCGGGCAATGCCGATCCTATCTATTTTAGCCGAACCGAGTCTTATATCGGCGTCATGATTGATGACCTGACGTCGAAAGGTGTCAGCGAACCCTATCGCATGTTTACGTCCAGAGCGGAGTATCGTCTTTCGCTGCGCGTAGACAATGCGGATCTGCGGCTTACACCAGTTGGCCAGATGGCTGGCATTGTCGGCCGTGAACGGCAGGAACGCTTCGCCAATTTCATTTCTGATCTGGATAGCGGTCGAGAGCTGATGAAGGCGATTTCCATCAGCCCATCCCAGGCGGCGAAGCAGGGGTTGAAACTTAATCAGGACGGCCAACGCCGGTCCGTTTATGAATTGCTGGCCTATCCGGATATGACTCTCGAAGTCCTTACCGGACATTGGCCGGAATTGGGTGCTATTGACGGAAAAGTTGCCGAGGTCTTGCAGATCGAGGCGAGTTACGCGGTCTATATGCAGAGACAGAGCGCCGATATCATCGATATCAAGCGGGACGAAGACAGAAAAATCCCGGATGATTTTGATTTTAAGAGTCTGTCCGGCCTTTCCAATGAGCTTAAACAAAAGTTGGAAAAAGCCCGTCCTGAGAATATTGCCCAGGCCGCTCGTGTTGACGGCATGACGCCGGCTGCGATATCGCTGCTGCTCGCACTTCTGCGGAAGGATTCCGCAACGCGAAGTGAAAAATTACGCATGCACCAATAG	MHQSFDVVVIGGGHAGSEAAAAAARHGAKTALVTHKRETIGVMSCNPAIGGLGKGHLVREIDALDGLMGRVADAAGIQFRMLNRKKGPAVRGPRTQADRRLYRDAMQRKIDAIENLTIIEGDAFDIEMADDRVAAVIMKNGSRIPCGAVVLTSGTFLRGLIHIGSEKIPAGRVGEMPSVGLSDTLSRLGLVMGRLKTGTPARLDGRTIDWNAVDRQAADEDHVPFSFMTDRILNPQIECGVTRTTPASHKIIQDNIHLSAMYSGQIEGVGPRYCPSIEDKITRFGERDGHQIFLEPEGLDDHTIYPNGISTSLPASVQEQFIRTIPGLEQVTVLQPGYAIEYDYVDPRELKPSLECRKIPGLFLAGQINGTTGYEEAGAQGLVAGLNASLYAGNADPIYFSRTESYIGVMIDDLTSKGVSEPYRMFTSRAEYRLSLRVDNADLRLTPVGQMAGIVGRERQERFANFISDLDSGRELMKAISISPSQAAKQGLKLNQDGQRRSVYELLAYPDMTLEVLTGHWPELGAIDGKVAEVLQIEASYAVYMQRQSADIIDIKRDEDRKIPDDFDFKSLSGLSNELKQKLEKARPENIAQAARVDGMTPAAISLLLALLRKDSATRSEKLRMHQ				NA	NA	NA	NA	NA
BMS010_04742	1326	mnmE_1	COG0486	tRNA modification GTPase MnmE	ATGCCAGCTTCCGCCGATACGATCTATGCGCTTTCCAGCGGTGCCCTGCCGGCGGGTGTGGCTATTCTCAGGATCAGCGGCCCCAAGGCTTTCGATGCCCTGGAGATGTTGACGGGCCGGGAACTTCCTTTACCACGAAAGGCGACGCTCTGCTCGATTCGGAATCGAAACGATGAGATCATCGACCAGGCGCTGGTAATCGTTTTTCCAGCTCCAAATTCCTTCACGGGTGAGCATTGTGTTGAAATTCATAGCCATGGCAGTCGCGCGGTCATGGCTTCGATTTTTGCCGAGCTTGAAAATCTCGAAGGACTTCGGCCTGCCGATGCCGGTGAGTTCTCCCGTAGAGCCTTCGAGAATGGGAAGATGGATCTCCTTGAGGTCGAAGGCCTCGCCGATCTGTTGCAGGCTGAAACGGAAATGCAGCGGCGGTTGGCGGTGGAACAGAGCAGTGGCAAATTGTCGGCGCTCTATGATGGCTGGGCCAGCCGCCTGACGCGCGCTCGCGCGCTCATCGAAGCGGAACTGGATTTTGCCGACGAGGAGGATGTTCCGGATTCCGTGGCGGCTCAGGTTTGGGAAGCCATGGCGCTTCTCCAAAAGGAAATCCGTGATCATCTCCAGGGTGGCGAAAGCGGAGAAATCATTCGCGACGGGTTCAAGGTCGCGCTCGTCGGTGAACCGAATGCGGGCAAATCCACTCTTTTGAACGCTCTTAGCGGCCGCGATGTTGCGATCGTTACCGATATTGCCGGCACGACGAGAGATGTCTTGAGTGTTGACATCAATCTGGAAGGATATCTCGTCCGGATATTCGATACGGCAGGAATACGGGAAACACTGGATGTCGTGGAGCTCGAAGGTGTCCGACGCGCGGTTCTGACAGCGGAAACAGCAGACCTCATTCTGCTGCTGCAGGATAAGGATTCGCCTCCGAAACAATCTCTCGAATCATTCAAGAACCAGAGCTACTTGCGAGTTAGAACGAAAACAGCGCTTCATTCCCCTCTGGATGATGGATTTGATTTGTCTATCTCCGCCAAAGAAGGGATAGGTTTGAACGAACTGCGTTCGATGCTGAAGCAGGAGATAGAAAAACGCGTCGGTGCGGGCCAGACCTTGGTTCCGGCGCGCGCCAGACATAAAAAACGACTTGAAGAGACGCTGAACTATGTTAGTGATGCGCTCGATTCCGAGACCCTGGACCTTGCGATAAGGTCGGAATATTTAAGACTCGCGGCGACATCGCTCGGACGGATCACCGGCCGCGTTGATGTGGAAGATTTGCTAGGCGTGATCTTCTCGGAATTCTGCATAGGAAAATGA	MPASADTIYALSSGALPAGVAILRISGPKAFDALEMLTGRELPLPRKATLCSIRNRNDEIIDQALVIVFPAPNSFTGEHCVEIHSHGSRAVMASIFAELENLEGLRPADAGEFSRRAFENGKMDLLEVEGLADLLQAETEMQRRLAVEQSSGKLSALYDGWASRLTRARALIEAELDFADEEDVPDSVAAQVWEAMALLQKEIRDHLQGGESGEIIRDGFKVALVGEPNAGKSTLLNALSGRDVAIVTDIAGTTRDVLSVDINLEGYLVRIFDTAGIRETLDVVELEGVRRAVLTAETADLILLLQDKDSPPKQSLESFKNQSYLRVRTKTALHSPLDDGFDLSISAKEGIGLNELRSMLKQEIEKRVGAGQTLVPARARHKKRLEETLNYVSDALDSETLDLAIRSEYLRLAATSLGRITGRVDVEDLLGVIFSEFCIGK				NA	NA	NA	NA	NA
BMS010_04743	1266	rho_1	COG1158	Transcription termination factor Rho	ATGGCTGAAATGAAGCTTCAGGAACTTAAGAGCAAATCGCCTACCGACTTGCTGACTTTTGCCGAATCCCTGGAAGTTGAAAATGCGAGCACCATGCGCAAGCAGGAGCTCATGTTCGCAATCCTTAAGGTTCTCGCGAGCCAGGACATCGAAATCATCGGCGAGGGCGTCGTTGAAGTCCTGCAGGACGGTTTCGGGTTCCTGCGATCCGCAAATGCAAACTATCTGCCCGGTCCGGACGATATCTATATCTCGCCATCGCAGATCCGCCGCTTCTCGCTGAAGACCGGCGATACAGTCGAAGGCCCGATCCGCGGCCCCAAGGAAGGCGAACGTTATTTCGCGCTCCTCAAGGTTAATACGATCAATTTCGACGATCCGGAAAAGATCCGCCACAAGGTTCACTTCGACAATCTGACGCCGCTTTATCCGAACGAGCGCTTCAAGATGGAACTGGATGTTCCGACCTCGAAGGACCTGTCGTCGCGTGTGATCGATCTCGTCGCACCACTCGGCAAGGGTCAGCGCGGATTGATCGTCGCGCCGCCACGCACCGGTAAGACCGTTCTGCTTCAAAACATCGCCCATTCCATCACGGCAAACCATCCGGAATGCTACCTGATCGTTCTCCTGATCGATGAGCGTCCGGAAGAAGTGACCGACATGCAGCGTTCGGTGAAGGGTGAGGTTGTGTCCTCCACCTTCGACGAACCGGCCGTTCGTCACGTGCAGGTCGCCGAGATGGTGATCGAAAAGGCGAAGCGCCTGGTCGAACATGGTCGTGACGTCGTCATCCTGCTCGATTCCATTACGCGCCTCGGCCGTGCCTACAACACGGTTGTTCCCTCCTCCGGTAAGGTTCTGACGGGTGGTGTGGACGCCAACGCGCTGCAGCGCCCGAAGCGCTTCTTCGGCGCCGCTCGCAACATCGAAGAAGGCGGTTCGCTGACCATTATCGCGACTGCGCTGATCGATACCGGCAGCCGTATGGATGAAGTCATCTTCGAAGAATTCAAGGGTACCGGAAACTCGGAAATCGTGCTCGACCGCAAGGTTGCCGACAAGCGCATCTTCCCGGCACTTGATATTCTGAAATCCGGTACGCGTAAGGAAGACCTGCTGGTGCCGCGTCAGGATCTGCAGAAGATTTTCGTTCTTCGCCGTATTCTCGCGCCGATGGGTACGATGGACGCCATCGAATTCCTGATCGACAAGCTGAAGCAGACCAAGAACAATTCGGATTTCTTCGAATCGATGAATACCTGA	MAEMKLQELKSKSPTDLLTFAESLEVENASTMRKQELMFAILKVLASQDIEIIGEGVVEVLQDGFGFLRSANANYLPGPDDIYISPSQIRRFSLKTGDTVEGPIRGPKEGERYFALLKVNTINFDDPEKIRHKVHFDNLTPLYPNERFKMELDVPTSKDLSSRVIDLVAPLGKGQRGLIVAPPRTGKTVLLQNIAHSITANHPECYLIVLLIDERPEEVTDMQRSVKGEVVSSTFDEPAVRHVQVAEMVIEKAKRLVEHGRDVVILLDSITRLGRAYNTVVPSSGKVLTGGVDANALQRPKRFFGAARNIEEGGSLTIIATALIDTGSRMDEVIFEEFKGTGNSEIVLDRKVADKRIFPALDILKSGTRKEDLLVPRQDLQKIFVLRRILAPMGTMDAIEFLIDKLKQTKNNSDFFESMNT				NA	NA	NA	NA	NA
BMS010_04744	546			hypothetical protein	ATGAGCGGCGAAAAACAGACCTCCGCCCGTTCCGGAAACCGTGCGGCTTTGCGCGCCGGCATCGCGCTCGGTGTCTTTACTGCCTTCGTCGCCCTGTTATTTTATGCCGATCCGGCGGATCTCTATCTATGGGTCAAGGCGCTGCATATCATCGCCGTCATTTCCTGGATGGCGGCGATTTTTTACCTGCCACGGCTCTTCATCTACCACACCGATGCACTCGCCGGTTCGCAGCAATCCGAAACTTTCAAGGTAATGGAGCAGCGGCTGATCAAGGTGATCATGAACCCGGCGATGATGATATCCTGGATATTGGGACTTTATCTCGCCTGGTCGGTTTATGGTTTTTCCGGCGGCTGGCTGCATGCAAAGATCGCGCTGGTGGTGCTTCTGACTGTGACCCATGTTTATTTCACGCGCAGTGCAAAACGTTTCGCGCGGGATGAAAACAAGCGGCCTGCCCGTCACTGGCGGTTGATGAACGAGGTTCCGACGGTGCTGATGATCCTCATCGTCATACTTGTGGTTGTGAAACCCTTCGGTTAA	MSGEKQTSARSGNRAALRAGIALGVFTAFVALLFYADPADLYLWVKALHIIAVISWMAAIFYLPRLFIYHTDALAGSQQSETFKVMEQRLIKVIMNPAMMISWILGLYLAWSVYGFSGGWLHAKIALVVLLTVTHVYFTRSAKRFARDENKRPARHWRLMNEVPTVLMILIVILVVVKPFG	PGPT0008480_287	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008480-hemJ-K08973	NA	NA
BMS010_04745	1035	hemE_2	COG0407	Uroporphyrinogen decarboxylase	ATGAGCGAACGCAAGGTTATGACGGTGTTGAACGGGCAGACGGTCGCACCGCCGCCCATATGGCTGATGCGACAGGCTGGGCGTTATCTTCCCGAGTACAGGGAAACGCGTAAGAGCGCCGGTAGTTTCCTCGATCTCTGTTATAACCCCGAACTGGCGACGGAGGTTACTCTCCAACCCATTCGCCGGTTCGGGCTGGATGCCGCCATTCTCTTTTCCGATATTCTGGTGATACCGGATGCGCTTCACCGCAATGTGTCTTTCAGCGAGGGAAGAGGTCCGGCCATGGACCCGATCGATGTCAGCGGTATCGAGAAACTGGATGCCACAAATGTCATGGCGCATCTTTCTCCTGTTTTCGAAACCGTTTCCCGTCTGCGCACCTCTTTGCCGGGAGAAACGACGCTTCTCGGTTTTTGCGGCGCGCCGTGGACGGTTGCGACTTATATGATCGCGGGACACGGAACGCCGGATCAGGCCCCGGCGCGGCTATTCGGTTATCAGGAGCCGGTGGCCATGGAAAAGCTGCTGGCTTTCCTTGCCGACGTTTCCGCCGATTATCTGGTCGCCCAGATCGATGCAGGCGCGGATGCGGTTCAAATCTTCGATTCCTGGGCCGGTGTTCTCGGTGAAAAGGAATTTGAGGACTATGCGATAAAACCCGTTGCCCGCATTATCGCATCGGTGCGCGCCCGTCGGCCTTCGGCAAAAATCATCGCCTTCGCCAAGGGGGCTGGTTATCTTCTCAAGGATTATCGTCGCAAGACGGGCGCCGACGCAATCGGGCTCGACTGGTCGGTGCCGCTGAGCTTTGCCAGGGACTTGCAGAAGGAAGGGCCCGTGCAGGGCAATCTCGACCCCATGCTGATGGTGGCAGGAGGGAAGGCGTTACAGGATGGTATAGATGCCGTGCTGCAGGCTCTTGCACAGGGTCCGCTGATATTCAATCTCGGTCATGGCATCACTCCGCAGGCCGACCCGGAAAACGTCACCCGGCTGGTGCAGCGGGTGCGCTCCCGCGGAGCCGGGGCATGA	MSERKVMTVLNGQTVAPPPIWLMRQAGRYLPEYRETRKSAGSFLDLCYNPELATEVTLQPIRRFGLDAAILFSDILVIPDALHRNVSFSEGRGPAMDPIDVSGIEKLDATNVMAHLSPVFETVSRLRTSLPGETTLLGFCGAPWTVATYMIAGHGTPDQAPARLFGYQEPVAMEKLLAFLADVSADYLVAQIDAGADAVQIFDSWAGVLGEKEFEDYAIKPVARIIASVRARRPSAKIIAFAKGAGYLLKDYRRKTGADAIGLDWSVPLSFARDLQKEGPVQGNLDPMLMVAGGKALQDGIDAVLQALAQGPLIFNLGHGITPQADPENVTRLVQRVRSRGAGA	PGPT0008465_4136	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008465-hemE-K01599	NA	NA
BMS010_04746	822	yqfL	COG1806	Putative pyruvate, phosphate dikinase regulatory protein	GTGGAGAACAAAAAAAGCTTCTTCCATCTGCACCTGATTTCGGACTCAACGGGAGAGACTCTGATGTCGGCCGGTCGGGCCGTTTCGGCACAGTTCCACGCTTCCATGCCGGTGGAACATGTCTATCCAATGATTCGAAACCAGAAACAGCTCGCGCAGGTCGTTGATCTCATCGACAAGGAACCGGGCATTGTTCTCTATACGATCGTCGACCAGCAGCTGGCCGAGTTTCTGGATCTGCGGTGCCATGCGATCGGGGTGCCCTGCGTAAATGTCCTTGAACCCATCATCGGCATCTTCCAGACCTATTTAGGTGCGCCGTCCAGGCGGCGGGTGGGCGCGCAACATGCCTTGAATGCGGATTATTTCGCCCGGATCGAGGCGCTCAATTTTGCCATGGATCATGATGATGGGCAAATGCCCGAAACCTATGACGAGGCCGATATCGTCATCATCGGCATCAGCCGCACCTCAAAAACACCGACCAGCATCTATCTCGCCAACAGGGGAATAAAGACCGCCAATATACCGGTCGTTCCCAATGTGCCTTTGCCCGAAAGCCTCTATGCGGCCACGCGACCGCTGATCGTCGGGCTGGTCGCAACATCGGACCGGATATCGCAGGTGCGTGAAAACCGGGAACTCGGCGCGACGGGCGGATTTGACAGTGGTCGATACACGGACCGCGCCACCATTATGGAAGAGCTGAAATATGCGCGTGCGCTCTGCGCCCGCAACAATTGGCCGCTGATCGATGTCACGCGCCGCTCCATCGAGGAAACGGCGGCGGCCATCCTTGCCCTTCGTTCGAGGACACGATAA	MENKKSFFHLHLISDSTGETLMSAGRAVSAQFHASMPVEHVYPMIRNQKQLAQVVDLIDKEPGIVLYTIVDQQLAEFLDLRCHAIGVPCVNVLEPIIGIFQTYLGAPSRRRVGAQHALNADYFARIEALNFAMDHDDGQMPETYDEADIVIIGISRTSKTPTSIYLANRGIKTANIPVVPNVPLPESLYAATRPLIVGLVATSDRISQVRENRELGATGGFDSGRYTDRATIMEELKYARALCARNNWPLIDVTRRSIEETAAAILALRSRTR				NA	NA	NA	NA	NA
BMS010_04747	600	maf	COG0424	dTTP/UTP pyrophosphatase	ATGCAACAAGAATTGATCCTCGCCTCGTCCAGCGCATCCCGCCAGATGCTAATGCGCAATGCGGGGCTGACATTTTCGGCCATCCCCGCGGATATTGACGAGCGTGCGCTCGATGAACAGCTGGAACGAGACGGCGCCAATCCGGAAGAGGTTGCGCTGGAACTCGCCAGGGCCAAGGCTCTTGCGGTTGGCGCGCTTTATCCAGAAGCACTGGTTCTCGGCTGCGACCAGACCATGGCACTCGGCACCCGCGTTTATCACAAGCCGAAAACCATGGCGGAGGCCGAAGCGCATCTGCTGTCATTGTCCGGCAAGGTTCATCGCCTGAACAGCGCTGCCGTTCTCGTCCGACATGGTGAGGTGGTATGGCAGATCGTTTCCAGCGCGGAGTTGACCGTCCGGACCTTGAGCACCGAATTTGTCTCCCGCCACCTGCAACGGGTGGGAGAAAAGGCCCTGAGCAGCGTCGGCGCGTATCAGCTCGAAGGAGAGGGAATCCAGCTATTCACCTCGATTGAGGGCGATTATTTCACGATTCTGGGTCTGCCGCTTCTGCCGCTTTTATCGAAACTGCGCGACATGGATGTCATCGATGGCTGA	MQQELILASSSASRQMLMRNAGLTFSAIPADIDERALDEQLERDGANPEEVALELARAKALAVGALYPEALVLGCDQTMALGTRVYHKPKTMAEAEAHLLSLSGKVHRLNSAAVLVRHGEVVWQIVSSAELTVRTLSTEFVSRHLQRVGEKALSSVGAYQLEGEGIQLFTSIEGDYFTILGLPLLPLLSKLRDMDVIDG				NA	NA	NA	NA	NA
BMS010_04748	861	aroE_1	COG0169	Shikimate dehydrogenase (NADP(+))	ATGGCTGATTCACGTGAAACATTAACCATAAACGCCTTCGTTGTCGGCTATCCGATCAAGCATTCGCGATCGCCTATTATCCATTCCTACTGGCTGAAGAAATTCGGCATTGCCGGTTCGTATAAGGCCGTGGAAATTCCTCCGGACGATTTCGCGAATTTCATTGCAACGCTGAAGCAGGGCAAGCCGGGCACGGCCGTCGGCGGCAATGTCACCATTCCCCATAAGGAAGCGGCTTATCGGCTGGCAGACAGACCAGATGCTCTGGCGGAAGAACTCGGCGCCGCCAACACTGTCTGGATGGAGGAGGGTGAGCTTCACGCTACCAATACGGATGGTTATGGTTTCGTCTCCAATCTCGATGAGCGGCATCCGGGCTGGGACAGGACAGAGCGGGCAGTGGTTATGGGTGCCGGCGGCGCTAGTCGGGCGGTCATTCAGTCGCTGCGTGATCGCGGCATCGCCGAAATCCACGTCCTCAACCGTACCGTCGAACGGGCGCGCCAACTGGCCGACCGTTTTGGGTCGCGGGTTTTTGCCCATCCCCAGGCAGCGCTTCATGAGGTCATGCAGGGTGCCGGGATTTTCGTGAATACGACGTCGCTCGGCATGGATGGAACGGAAGCGCCACATATTGATTTTTCGCCGCTGGCAGATCAGGCCGTCGTAACCGATATCGTCTATGTGCCGTTGAAGACACCGATCCTGAGAATGGCGGAAGAGCAGGGCGTCGCAACCGTCGATGGGCTCGGCATGCTGCTTCATCAGGCTAAACCCGGTTTCAAGCGATGGTTCGGCAAAACGCCGGAAGTCGATGAGGCCCTGCGTTCGCTCATCATCGAGGATATGGAGAAACATTGA	MADSRETLTINAFVVGYPIKHSRSPIIHSYWLKKFGIAGSYKAVEIPPDDFANFIATLKQGKPGTAVGGNVTIPHKEAAYRLADRPDALAEELGAANTVWMEEGELHATNTDGYGFVSNLDERHPGWDRTERAVVMGAGGASRAVIQSLRDRGIAEIHVLNRTVERARQLADRFGSRVFAHPQAALHEVMQGAGIFVNTTSLGMDGTEAPHIDFSPLADQAVVTDIVYVPLKTPILRMAEEQGVATVDGLGMLLHQAKPGFKRWFGKTPEVDEALRSLIIEDMEKH	PGPT0012890_1684	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-PHENAZINE_DERIVATES	BIOTIC_STRESS_RESISTANCE-PHENAZINE-1-CARBOXYLIC_ACID_BIOSYNTHESIS,PGPT0012890-aroE-K00014	NA	NA
BMS010_04749	609	coaE_2	COG0237	Dephospho-CoA kinase	ATGATCGTCATCGGTCTCACCGGCTCGATTGGAATGGGAAAAACGACGACGGCGAAGCTGTTTGCCGGGGAAGGAGTTCCGGTTCTCGATTCGGATGAGGTGGTGCACGGGCTTTACCGGGCGGAAGCCGTGCCGCTGATTGAAGCGGCCTTTCCGGGCACCACCGTTTCCGGTGCGGTGGACAGGCAGAAACTCGGTGAGATCTTGCGGAAGAATCCGGCTAATTTCAGCAGACTGGAAGAGATCGTGCATCCGCTGGTGCGTGGAAGGCAGGAGGCGTTTCTGGCGCAGACGAGGAAAGAGGATCGGCAATTCGCCGTCCTCGATATTCCGCTGCTGTTCGAAACCGGGGCGGAAGGCCGGGTCGATAAAGTCGTTGTCGTCAGTTGCGCGCCGGAGATTCAGCGAGAGCGGGTTTTATCCCGACCTGGAATGACGGAAGAGAAATTCGAAATGATCCTCGCCCGCCAGATGCCTGACGCCGAAAAGCGCCGGCGTGCCGATTTTATCGTCGATTCCGGAAATGGTGTCGAAGCGGCACGGGATCAGGTAAGACAGATTCTGCAGAAACTGGCCGCTCAGTCGCGCCGCGGAGAGATGAATGCGTGA	MIVIGLTGSIGMGKTTTAKLFAGEGVPVLDSDEVVHGLYRAEAVPLIEAAFPGTTVSGAVDRQKLGEILRKNPANFSRLEEIVHPLVRGRQEAFLAQTRKEDRQFAVLDIPLLFETGAEGRVDKVVVVSCAPEIQRERVLSRPGMTEEKFEMILARQMPDAEKRRRADFIVDSGNGVEAARDQVRQILQKLAAQSRRGEMNA	PGPT0008835_2866	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0008835-coaE-K00859	NA	NA
BMS010_04750	699	dnaQ_2	COG0847	DNA polymerase III subunit epsilon	ATGCGTGAGATCATTTTCGATACGGAAACCACGGGCCTTGAATCGAAGCTAGACCGCGTGATTGAAATCGGCGGCATCGAGCTGATCAATCACTTTCCCACCGGCCGCACGCTGCATCTCTACATCAGCCCGGAAGATCGCAAGGTTCACCCCGACGCACTTGCCGTTCACGGGATTACCGACGAGTTTCTGAAGGATAAACCCAAATTCGCCGAGGTCGTCGACCAGATTCGCGACTTCTTCGAGGGCGCGCGCTGGGTGGCGCATAACGCCACATTCGACATGGGCTTCATCAACGCGGAATTCGCCCGTCTCGGCATTGAGCCGGTTGCCGCCGATCTGGTGACGGATACGCTTTCGCTCGCCCGTCGCAAGCACCCTATGGGACCGAACTCGCTCGACGCACTTTGCCGTCGTTACGGTATCGACAATTCCCACCGTACCAAGCACGGCGCTCTTCTCGACTCCGAGCTGCTCGCCGAAGTTTATATTGAAATGATCGGTGGGCGCCAGACGGCGCTCGGTTTCGGTTCCGCCGCCAAGCAGGAAACCATCATCGTCGAGGAAGACGTTGCGCTTGAGCCACTGCAAAGGCCGCGGGCTTTGCCCTCGAGGCTGGATGCGGAAACGGTCGCGGCCCATGGCAAACTGGTTCTCGGCATGGGCGATAAGGCGATCTGGAACCGTTACCAGAATTGA	MREIIFDTETTGLESKLDRVIEIGGIELINHFPTGRTLHLYISPEDRKVHPDALAVHGITDEFLKDKPKFAEVVDQIRDFFEGARWVAHNATFDMGFINAEFARLGIEPVAADLVTDTLSLARRKHPMGPNSLDALCRRYGIDNSHRTKHGALLDSELLAEVYIEMIGGRQTALGFGSAAKQETIIVEEDVALEPLQRPRALPSRLDAETVAAHGKLVLGMGDKAIWNRYQN				NA	NA	NA	NA	NA
BMS010_04751	483	secB_1		Protein-export protein SecB	ATGACCGCTGAAAATGGTGCACAGGGCGCAGTAAGTCCTTCCCTCAACATTCTTGCCCAGTACATCAAGGATCTTTCCTTCGAAAATCCGGGTGCTCCTCGCTCGCTTCAGGCCCGTGATAATGCGCCGTCGATCAACATCAATGTCAACGTCAATGCAAACCCGATCTCGGGTTCGGATTTCGATGTTGTCCTGACGCTGAACGCGGAAGCCAAGGATGGCAACAAGGTGCTGTTTGCGGCCGAGCTGGTTTATGGCGGCGTGTTCCGCATCGCCGGCTTCCCGCAGGAACATATGCTGCCGGTGCTGTTCATCGAATGCCCGCGCCTGCTATTCCCCTTCGCGCGCCAGATCATTGCGGACGTTACCCGCAATGGCGGTTTCCCGCCGCTGATGATCGATCCGATCGATTTTGCGCAGATGTTCGCCCAGCGCGTTGCCGAAGAACAGGCAAAGGCCAAGGTTCAGGCCGTACCGAACTAA	MTAENGAQGAVSPSLNILAQYIKDLSFENPGAPRSLQARDNAPSININVNVNANPISGSDFDVVLTLNAEAKDGNKVLFAAELVYGGVFRIAGFPQEHMLPVLFIECPRLLFPFARQIIADVTRNGGFPPLMIDPIDFAQMFAQRVAEEQAKAKVQAVPN	PGPT0025745_1006	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025745-secB-K03071	NA	NA
BMS010_04752	549			hypothetical protein	ATGCGTTTTTCCTTTCTCCCCATCGTCATCCTGATGATGCCCATCCTCGAAATTGCCGGTTTCATCATCGTCGGCAAAGCAATCGGTTTGTGGCTGACATTGGCGCTTGTCCTGTTCACCTCGTTTCTGGGGTTGCTCATCCTGCGGCTCGGCGGCATCGGCATGGTGAGAAATCTTCAGGATGCGGGACGTACCGGTGCGCAGCCGGCGGATGAGCTGGTGAATGGCGCCATGCGCGTTGTTGCCGGGATCCTGCTTTTCATTCCCGGTTTCATTACCGACATTCTCGGCCTTCTGCTTCTCTCGCCCACCGTGCGGCGCTTTTTCTGGAAAGCCTTCGGGCCGCGCGTCGTCGTTGCGGGTTCGTTTCGGCAATCCGGCCAGCAATCCGGTCCTCAGCCCGGTGATTTTTCCGGCTTTCGGAATGATCCGGGACATGCGCGCAATTCGAAGGTGGTGGATCTCGACGAGGAGGAGTTTCATCGCGAAGAGCCAAAGGGTTCGCCATGGTCGCGCAACCCGGACGATCGCGATCTGCCCAAACCCTGA	MRFSFLPIVILMMPILEIAGFIIVGKAIGLWLTLALVLFTSFLGLLILRLGGIGMVRNLQDAGRTGAQPADELVNGAMRVVAGILLFIPGFITDILGLLLLSPTVRRFFWKAFGPRVVVAGSFRQSGQQSGPQPGDFSGFRNDPGHARNSKVVDLDEEEFHREEPKGSPWSRNPDDRDLPKP				NA	NA	NA	NA	NA
BMS010_04753	699			hypothetical protein	ATGGGCTTCAGCGACTTTATCACATTGTTTTTTCTCGTTGCAGCGGTGCTGATCTTCTTTCAGCTGCGCAGTGTCCTCGGTCGCCGCACGGGCAATGAGAAGCCGCCATTCGACCCCTATAGCCCGCGAGATGTGGCCAAGGGTCCCGTTGCAGACGATAACAAGGTCGTGACCCTGCCGAGGCGCAGCGAGGGTGACGAAGAAAACCGTTTTGCCGAGGCGGATGCGCTTGCGCCCGTCGATACGCCGCTCAATGCGTCGTTGCGTGAGGTGATGACCAGGGACCCGTCCTTCGGGCCGAAGGAATTCCTGAACGGCGCCCGCATGGCCTATGAAATGATTGTCATGGGCTTTGCCGATGGCGACCGCAAGACGCTCAAGAACCTTCTGTCGAAGGAGGTCTTCGACGGTTTCGAGGCGGCCATTTCCGAGAGGGAAGGTCGTGGCGAGGTGGTGAAGTCCACCTTCGTGGGTATCGAGAAAGCAGATATCACCCAGGCCAGTGTGCGTGATTCCGAAGTGCAGATCACGCTGAGGATCGTCAGCCAGTTGATTTCGGCGACCTATGACAAGGATGGCAAGCTGGTGGATGGCGACCCGGATGCGGTTGCGGAGGTGGACGACATCTGGACCTTCTCGCGCGATATCCGCTCGCGCGATCCGAACTGGAAGCTGATCGCTACCGAATCCGAGCAATGA	MGFSDFITLFFLVAAVLIFFQLRSVLGRRTGNEKPPFDPYSPRDVAKGPVADDNKVVTLPRRSEGDEENRFAEADALAPVDTPLNASLREVMTRDPSFGPKEFLNGARMAYEMIVMGFADGDRKTLKNLLSKEVFDGFEAAISEREGRGEVVKSTFVGIEKADITQASVRDSEVQITLRIVSQLISATYDKDGKLVDGDPDAVAEVDDIWTFSRDIRSRDPNWKLIATESEQ				NA	NA	NA	NA	NA
BMS010_04754	1113			hypothetical protein	ATGACCGCGCCCTTTTCGATCGAAGAAGTTTCTTTCAGCGACCTGCCCGGATGGCGGCAAGACGATCCGGGCAAGCTTTTTCCGGCGATGGCGACAATCCTGTCGCATCTTCGGAATGCGAAACCCTACAGGACCGGCGCGCTCGGGGTCACGGCGGCGGAACTGGTCTCGCTTCTGGAAAGCGCAGAGAAAAACCAGACAAGCGACCCGGAACAGGCGCGACGGTTTTTCGAAACCAATTGCGTGCCTTTCAGGATTTCTCCGGCTCAGGGAAAAAGCGGTTTCGTGACCGCTTTTTACGAACCCGAACTGGAAGTGTCGTCTGAGCCCGACGACATCTGGCGTTATCCGATTTACCGCCGGCCGTCGGAACTGGTGAATATCGACGACGCCAATCGTCCTGCCGGTTTCAATACGTCCTATGCTTTCGGCAGGGAGGATGAAAACGGTATTTCCTATTTTCCCGACCGCCGGGAGATCGACGAAGGGTATCTGGAGGGCAGGGGCCTTGAGATTGCCTGGGCAAGATCGAAGGTCGACCTGTTTTTCGTTCATGTGCAGGGTGCGGCGCGTCTGGTGTTTCCCGACGGCTCGGTAAAGCGCATCACCTATGCCGCCAAGGCCGGGCACGCTTTTTCGCCGATTGGCCGTCTGCTTCTCGATCGCGGTGAACTCGATCCGAAAACCGTGTCGATGCAGACGATCCGCAAATGGCTCGCTGACCATCCGGATGAGGTGGATGGGGTATTATGGCATAACCGCTCCTATATTTTTTTCCGGGAGGCGGATGTGGCCGATCAGGACATGGGGCCGGTTGCAGCTGCTAAGGTTCCGTTGGTCGCAGGGCGAGCGCTTGCGGTGGACAGGCTCATCCACACTTTCGGGCTTCCCTTCTTCATCCATGCGCCGTCGCTTACCCATCTCGATGACGGAAAACCTCTCGCGCGGCTGATGCTGGCGCTCGATACCGGCTCGGCCATCGTTGGCCCGGCGCGTGGCGATATTTTCACCGGCTCCGGTTTCGAAGCGGGAGAGCTGGCCGGTACGGTGCGAAATGAGGCCGATTTTTATATACTGATACCGCAGGTGGCTGCGCAGAGGTATAGGCGATGA	MTAPFSIEEVSFSDLPGWRQDDPGKLFPAMATILSHLRNAKPYRTGALGVTAAELVSLLESAEKNQTSDPEQARRFFETNCVPFRISPAQGKSGFVTAFYEPELEVSSEPDDIWRYPIYRRPSELVNIDDANRPAGFNTSYAFGREDENGISYFPDRREIDEGYLEGRGLEIAWARSKVDLFFVHVQGAARLVFPDGSVKRITYAAKAGHAFSPIGRLLLDRGELDPKTVSMQTIRKWLADHPDEVDGVLWHNRSYIFFREADVADQDMGPVAAAKVPLVAGRALAVDRLIHTFGLPFFIHAPSLTHLDDGKPLARLMLALDTGSAIVGPARGDIFTGSGFEAGELAGTVRNEADFYILIPQVAAQRYRR	PGPT0023780_1275	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_TRANSGLYCOSYLASE_ACTIVITY,PGPT0023780-mltA-K08304	NA	NA
BMS010_04755	570			hypothetical protein	ATGAAGAGCAGTCGCAAGCTCGGCAAGGAAGAGCGCATTCTGTGGGGAAAGGTCGCAAAAACCACGCGGCCGATCTCCGGCAGACTGGAAGACCTGCTGGCCTTCGATGACATAGAGGAGCCTCCGGTGGAGCCCGATGTTCCGCAGACCGGCAAAGGCGTTTTTCCGCGCATGCTTTTGGAGCCGGCCGAGCCGTCGCCACCGTCTCCGGACAAGAAGCCGAAGATTCATCAGCCTATGGAAAAACCGGTCAAACGCAAGCTCACCCGTGGCCGGCTGCCGCTGGAAGGGCGGATCGATCTGCACGGCATGTTCCAGAGCGAAGCCCATGCGGTGCTGCTTGATTTTCTGTTGCGCGCGCATGAACGCGGTCTGAGGCATGTCCTCGTCATAACGGGTAAGGGCCGCTCCATCGGCAGCGACGGGGCGCTCAAAAGGGCGGTGCCCATGTGGTTTTCCAAGCCGGAATATCGCCACCTGATTTCATCCTATGAGGATGCATCCGCCAATCATGGCGGCGACGGTGCGCTTTATGTGCGGTTGGCGCGTCGGCGGGGTGAAAAATCATGA	MKSSRKLGKEERILWGKVAKTTRPISGRLEDLLAFDDIEEPPVEPDVPQTGKGVFPRMLLEPAEPSPPSPDKKPKIHQPMEKPVKRKLTRGRLPLEGRIDLHGMFQSEAHAVLLDFLLRAHERGLRHVLVITGKGRSIGSDGALKRAVPMWFSKPEYRHLISSYEDASANHGGDGALYVRLARRRGEKS	PGPT0023780_7	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_TRANSGLYCOSYLASE_ACTIVITY,PGPT0023780-mltA-K08304	NA	NA
BMS010_04756	366			hypothetical protein	ATGACGCCCTTTGCGGAGGCCGTGCGGCAGCTTCGCGAGCGCAAGGGCGTGACGCAGAAGGAAATGGCCGCCGCAATTGGCGTATCGCCGGCCTATCTCTCGGCGCTGGAGCATGGCAAGCGCGGCAAACCGAGCTTCGATCTCCTCCAGCGCATCGCCGGATATTTTAACATCATCTGGGACGAGGCGGAGGAATTGTTCTTTCTGGCCGGTTCGTCCGACCCGAAAGTGGTGATCGACACCATCGGCCTGCCGCCGCAATATACGGCTTTCGCCAACCGGCTGGCACGGGATATTCGCAAGCTGCCGCCGAGTGTGGTAGAGGAACTGTCAGCCGTGCTGCAAAAAAGCCGTTCTTGCGATTGA	MTPFAEAVRQLRERKGVTQKEMAAAIGVSPAYLSALEHGKRGKPSFDLLQRIAGYFNIIWDEAEELFFLAGSSDPKVVIDTIGLPPQYTAFANRLARDIRKLPPSVVEELSAVLQKSRSCD				NA	NA	NA	NA	NA
BMS010_04757	2436	gyrB_1		DNA gyrase subunit B	ATGACCGAAACATCGTCAAGCGAAGTCGGCGCGAACGCGGAATATGGAGCCGATTCGATCAAGGTCCTCAAGGGCCTTGATGCCGTGCGCAAACGGCCCGGCATGTATATCGGCGATACCGATGACGGTTCCGGCCTGCACCACATGGTCTATGAAGTCGTCGACAACGCTATCGACGAGGCGCTCGCCGGTCATGCCGATCTAGTGACGGTGACCCTGAATGCCGACGGCTCGGTGACGGTGACGGATAACGGACGCGGCATTCCGACCGACATCCATTCTTCCGAAGGCGTTTCCGCCGCCGAAGTCATCATGACCCAGCTGCATGCGGGCGGCAAATTCGACCAGAACTCTTACAAGGTGTCAGGCGGCCTGCATGGCGTCGGCGTCTCCGTGGTCAATGCGCTTTCCGTCTGGCTGAAGCTGAGAATCCGCCGCAACGGCAAGCTGCACGAAATCGGCTTTACGCATGGCGTTGCCGATGCGCCGCTTTCTGTCATTGGCGAATATGAAGGCCGCTCCGGCACGGAAGTGACCTTCCTTGCAAGCCCTGAAACCTTCACTATGACGGACTACGATTACGGAACGCTGGAGCATCGCCTGCGCGAACTCGCATTCCTGAATTCCGGCGTGCGCATCCTGCTCACCGACAAGCGCCATTCGGACATCAAGCAGGAAGAGCTGCTGTATGATGGCGGTCTCGAAGCCTTTGTTCGTTATCTCGATCGTGCCAAGAAGCCGCTGGTGGACAAGCCAGTCGCCATCAAGGGCGAAAAGGACGGCATTACGGTTGAGGTCGCGCTGTGGTGGAACGATAGCTACCATGAAAACGTGCTGTGTTTTACCAACAACATTCCCCAGCGCGACGGCGGCACCCATATGGCCGGTTTCCGCGCGGCTCTGACCCGTCAGGTGACCTCCTATGCCGAAACCTCGGGCATCCTGAAAAAGGAAAAGGTGAGCCTGCAGGGTGAGGACTGCCGTGAAGGTCTGACGGCCATTCTTTCCGTCAAGGTTCCCGATCCCAAGTTTTCCTCGCAGACGAAAGACAAGCTCGTTTCGTCCGAAGTGCGTCCGGTCGTGGAAAGCCTTGTCAACGAAGCGCTCTCCACCTGGCTGGAAGAACACCCTTCCGACGCAAGAATCCTCGTCGGCAAGGTGGTGGAAGCGGCGGTCGCCCGCGAAGCTGCCCGCAAGGCGCGCGAACTGACGCGCCGCAAGGGTGCACTCGATATCGCCTCTCTGCCCGGCAAGCTTGCGGACTGCTCCGAGCGCGATCCGGCGAAATCCGAACTCTTCCTCGTCGAGGGTGACTCCGCTGGCGGTTCGGCCAAGCAGGGCCGCTCGCGCGAAACCCAGGCGATCCTGCCGCTGCGTGGCAAAATCCTGAACGTCGAGCGCGCCCGTTTCGACAAGATGTTGTCCAGCCAGGAAATCGGCACGCTGATCACCGCGCTCGGTACCTCCATCGGCAAGGACGAGTTCAACGCCGACAAGCTGCGTTACCACAAGATCATCATCATGACGGATGCTGACGTCGACGGCGCCCATATCCGCACCCTGCTCCTGACCTTCTTCTTCCGCCAGATGCCGGAACTGATCGAGCGCGGCCATCTCTATATCGCTCAGCCGCCGCTTTATAAGGTCACGCGTGGCAAATCCGTGCAGTACCTCAAGGATGAAAAGGCGCTGGAAGAATACCTGATCTCCATGGGTATCGAGGAAGCGTCGCTGACGCTCGGTTCTGGCGAAGTGCGTATCGGCGCCGATCTTCGCGAGGTCATTCTGGATGCGGTGCGCATGCGCTCGCTGATCGACGGTCTGCATTCGCGTTACAGCCGCTCGATCGTTGAACAAGCGGCAATAGCCGGCGCGCTGAACCCCGAGCTTTCGGCCGATGCTGCCCGCGCCGAGGAAACCGTTTCCGAAGTGGCGCGGCGTCTGGATATGATCGCGGAAGAAACCGAACGTGGCTGGTCCGGCACGGTGCTGCAGGATGGCGGCTTGCGCTTCGAGCGCATGGTGCGCGGCGTCAAGGAAGTCTCGACGCTGGATATGGGACTGCTCGGTTCGGCCGATGCCCGCCATATCGATCAGCTCGCAGCCCGCACGCGCGATATCTACGCTACGCCGCCGGTTCTGCAACGCAAGGACGGCACCATGGAACTGGCCGGTCCACGCGCGCTTCTGGATGCGATTTTCGCCGCCGGCCGCAAGGGTCTTTCCATGCAGCGCTATAAGGGCCTCGGCGAAATGAATGCCGAGCAGCTGTGGGAAACCACGCTCGACGCCAATGTTCGCTCCCTGCTGCAGGTAAGGGTGAGTGACGCGACGGACGCCGACGGTCTGTTCGCCCGCCTGATGGGCGACGAGGTGGAACCGCGCCGCGACTTCATTCAGGAAAATGCGCTGAGCGTCGCCAACCTCGACATTTAA	MTETSSSEVGANAEYGADSIKVLKGLDAVRKRPGMYIGDTDDGSGLHHMVYEVVDNAIDEALAGHADLVTVTLNADGSVTVTDNGRGIPTDIHSSEGVSAAEVIMTQLHAGGKFDQNSYKVSGGLHGVGVSVVNALSVWLKLRIRRNGKLHEIGFTHGVADAPLSVIGEYEGRSGTEVTFLASPETFTMTDYDYGTLEHRLRELAFLNSGVRILLTDKRHSDIKQEELLYDGGLEAFVRYLDRAKKPLVDKPVAIKGEKDGITVEVALWWNDSYHENVLCFTNNIPQRDGGTHMAGFRAALTRQVTSYAETSGILKKEKVSLQGEDCREGLTAILSVKVPDPKFSSQTKDKLVSSEVRPVVESLVNEALSTWLEEHPSDARILVGKVVEAAVAREAARKARELTRRKGALDIASLPGKLADCSERDPAKSELFLVEGDSAGGSAKQGRSRETQAILPLRGKILNVERARFDKMLSSQEIGTLITALGTSIGKDEFNADKLRYHKIIIMTDADVDGAHIRTLLLTFFFRQMPELIERGHLYIAQPPLYKVTRGKSVQYLKDEKALEEYLISMGIEEASLTLGSGEVRIGADLREVILDAVRMRSLIDGLHSRYSRSIVEQAAIAGALNPELSADAARAEETVSEVARRLDMIAEETERGWSGTVLQDGGLRFERMVRGVKEVSTLDMGLLGSADARHIDQLAARTRDIYATPPVLQRKDGTMELAGPRALLDAIFAAGRKGLSMQRYKGLGEMNAEQLWETTLDANVRSLLQVRVSDATDADGLFARLMGDEVEPRRDFIQENALSVANLDI	PGPT0027710_386	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0027710-parE-K02622	NA	NA
BMS010_04758	603			hypothetical protein	GTGACGAACAGCAATTCCCGGCAATCAGAATATCCCGTCGATCCCCTCTTCCTCGATCGCTGGTCTCCGCGCGCCTTCGATGGCCATGCCATGCCGTCCCAGCATCTGATGACCATTCTGGATGCGGCACACTGGGCGCCGTCTGCTTCCAACTATCAGCCATGGCGGTTTGTCTATGCGCACAAGGATAGCGAAGACTGGCCGCTCTTCGTGGAACTGCTGATGGAGGGAAACCAGCGCTGGGCAAAAAACGCCTCCGTGCTGCTGTTTGTCATTTCCCGCGACTATAACATCTCGCGCGACGGTGAAAAAAAACCATCCGCGACCCATTCCTTCGATGCCGGCGCTGCCTGGTTTTCGCTTGCCATGCAGGCTCACCTGCTCGGTTACCACGCCCATGGCATGGCTGGCATATTGAAGGAAAAGATCGTTGAAAAACTGAACATCCCGGAAGGCTACAAGGTGGAGGCCGGGGTCGCCATCGGCACGCTGACCGACAAGTCCGTTCTCCCTGATGATCTGGCGGAGCGGGAAGTGCCGAGCAAGCGTCTGCCGCTTTCGGATGTGGCCTTCGAAGGGCGCTTCACCGGCAAGAGTGATTGA	MTNSNSRQSEYPVDPLFLDRWSPRAFDGHAMPSQHLMTILDAAHWAPSASNYQPWRFVYAHKDSEDWPLFVELLMEGNQRWAKNASVLLFVISRDYNISRDGEKKPSATHSFDAGAAWFSLAMQAHLLGYHAHGMAGILKEKIVEKLNIPEGYKVEAGVAIGTLTDKSVLPDDLAEREVPSKRLPLSDVAFEGRFTGKSD				NA	NA	NA	NA	NA
BMS010_04759	843			Ureidoglycolate lyase	ATGAAGTTGATGCGTGTCGGCCAGCCCGGCCAGGAAAAACCTGCAATCCTTGATGCGGAAGGAAAAGTCCGCGATCTGTCCGCCCATGTCAAAGACATTGGCGGCGAAGCCATTTCTCCCGAGGGCCTCAAGAAGATCGCCGCGATCGACCTCGGCACACTTCCGGTGCTGAACGAAGAGCGCATCGGCGCCTGCGTTGCCGGAACCGGAAAATTCATCTGCATCGGCCTCAACTTTTCCGACCACGCCGCCGAAACGGGTGCCACCGTACCGCCGGAACCGGTCATTTTCATGAAGGCAACCTCGGCTATCGTCGGTCCGAATGACAACGTCACCATTCCGCGCGGTTCTGAAAAGACCGACTGGGAAGTCGAGCTCGGCGTCGTCATCGGCAAGACCGCCAAATACGTCTCGGAAGCCGATGCTCTCGATTACGTCGCGGGTTATTGCGTTTCGCATGATGTGTCCGAACGCGCCTTCCAGACGGAGCGTGCGGGGCAATGGACCAAGGGCAAGTCCTGCGACACCTTCGGTCCCATCGGCCCCTGGCTGGTGACGAAGGACGAAATCACCGATCCGCAGAATCTCGGCATGTGGCTGAAGGTCAACGGCCAGACCATGCAGGACGGCTCCAGCAAGACCATGGTGTATGGCGTCGCGCACGTTGTCTCCTACCTCAGCCAGTTCATGTCGCTGCATCCCGGCGATGTCATTTCCACCGGCACCCCTCCTGGCGTTGGCATGGGCCTGAAGCCGCCGCGTTACCTGAAGGCTGGTGACGTCGTGGAACTCGGCATCGAGGGTCTCGGTTCCCAGAAGCAGACTTTCGTCGCCGACATCTGA	MKLMRVGQPGQEKPAILDAEGKVRDLSAHVKDIGGEAISPEGLKKIAAIDLGTLPVLNEERIGACVAGTGKFICIGLNFSDHAAETGATVPPEPVIFMKATSAIVGPNDNVTIPRGSEKTDWEVELGVVIGKTAKYVSEADALDYVAGYCVSHDVSERAFQTERAGQWTKGKSCDTFGPIGPWLVTKDEITDPQNLGMWLKVNGQTMQDGSSKTMVYGVAHVVSYLSQFMSLHPGDVISTGTPPGVGMGLKPPRYLKAGDVVELGIEGLGSQKQTFVADI	PGPT0001745_714	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001745-lra6-K18336	NA	NA
BMS010_04760	1233			hypothetical protein	GTGTTCTACCACCTCTATGAAATGAACCATGCGGCCATGGCGCCGCTGCGCGCCGGCGCCGACATGATGCGTCAGGCTTGCAACAATCCGCTCAACCCGCTTTCCAGCACGGCTTTCGGAAGAAGCCTCGATGCCGGTTTTGAGGTCTTTGAGCGCATGACGCGCCGTTACGCTAAACCGGAATTCGCTCTTTGCAGTACGACTGTCGATGGCCAGACCGTCAATGTTGTCGAAGAGACCGTCTGGTCGCGTCCCCTCTGCAATCTGCTTCATTTCAAGAAGGAACTCGATCCAGCCCGCCAGTCCGACCCGAAGGTGCTGCTGGTAGCGCCGATGTCCGGCCACTACGCCACCCTGTTGCGGGGAACTGTGGAGGCCCTGCTGCCTTCGGCGGATATCTACATCACCGATTGGACCGACGCCCGCACCGTGCCGGTGAGTGAGGGCACCTTCGATCTCGATGATTACATCAGCTACGTCATCGAGATGCTGCGCGTGATCGGACCGGGGGCGCATGTGGTCGCTGTCTGTCAGCCATCCGTGCCGGTACTGGCCGCCGTTTCCCTGATGGAGGCGGATGGGGATAAATTCGCGCCGGCATCCATGACGCTGATGGGTGGTCCGATTGACACGCGCATCAATCCAACGGCTGTCAACGGTCTTGCCAAGGCGAAACCCATTGAATGGTTCCGCGACAATGTCGTCATGCAGGTGCCGTGGCCGCAGCCGGCTTTTGGCCGCAATGTCTATCCGGGCTTCCTGCAACTCTCCGGTTTCATGTCCATGAACCTTGACAAGCACATGACGGCGCACAAGGATTTTTACCTCAACCTCGTCAAGAATGACGGCGATTCCGCTGAAAAACACCGCGAATTTTACGATGAATATCTAGCCGTCATGGATCTGACGGCGGAGTTCTATCTGCAGACAGTGGAAACCGTCTTTATCGACCATGCGCTTCCGAAAGGGAACATGCTGCACCGGGGCAGGGCGGTCGATCCCGCAGCCATTCGCAACGTCGCATTGTTTACGGTGGAAGGTGAGAATGACGATATTTCCGGCGTCGGCCAGACGAAGGCCGCGCATGATCTCTGCCGGAATATCCCTGAAGACAAACGCGCCCATTACATGCAGCCGGATGTCGGGCACTACGGCGTCTTCAACGGTTCGCGCTTCCGCAAGGAAATCGTGCCGCGCATGCTGGATTTTATCCGCAAACATCAGACAGCTTAA	MFYHLYEMNHAAMAPLRAGADMMRQACNNPLNPLSSTAFGRSLDAGFEVFERMTRRYAKPEFALCSTTVDGQTVNVVEETVWSRPLCNLLHFKKELDPARQSDPKVLLVAPMSGHYATLLRGTVEALLPSADIYITDWTDARTVPVSEGTFDLDDYISYVIEMLRVIGPGAHVVAVCQPSVPVLAAVSLMEADGDKFAPASMTLMGGPIDTRINPTAVNGLAKAKPIEWFRDNVVMQVPWPQPAFGRNVYPGFLQLSGFMSMNLDKHMTAHKDFYLNLVKNDGDSAEKHREFYDEYLAVMDLTAEFYLQTVETVFIDHALPKGNMLHRGRAVDPAAIRNVALFTVEGENDDISGVGQTKAAHDLCRNIPEDKRAHYMQPDVGHYGVFNGSRFRKEIVPRMLDFIRKHQTA				NA	NA	NA	NA	NA
BMS010_04761	768			hypothetical protein	ATGTTTTCGCTCCTCAGAAAATCCCTGAAGTCGCCGGTCCCAAAGAAGATTGCGCCCAGCCAGCGCACCGTCGCAGTGGCGGGCAGGCAGGTGCCGATTACGGTCCGGGAAAATCCGCGTGCCACGCGCATTACGCTGCGCATCGAACCCGGCGGCCGGGCGCTGAAGCTGACGATCCCGATGGGACTGCATCACCGCCAGGTGGATGATTTTCTCGAGAGGCATCAGGGCTGGCTGGAAGGCAAGCTTGTGAAATTCAGCCCCGACGACGGTTTGCGTTCGGGTGCGACCATCGATATTCGTGGCATAGCCCACCGCATTGACCATACTGGCAGCCTGCGAGGGCTGACACATGTCACGAAAGACGCCGATGGGATGGCCGTTCTGAAGGTCAGCGGCGCGCCGGAACATCTGAGACGGCGGATAGCGACCTTCCTCAAGAAGGAAGCGAAGGCGGATCTGGAACGGCTTGTGGCTGTTCATGCACGCACCGCCGGCCGGCCGGTGCGCTCCATCAGCATGAAGGATACGCGCAGCCGGTGGGGCTCCTGTTCCCATGATGGAAATCTGAGCTTTTCCTGGCGCATCGTCATGGCCCCGGAAAAGGTCATCGACTATCTCGCCGCCCATGAGGTCGCGCATCTGAGCGAAATGAACCATGGCCCGAAATTTTGGGCATTGTGCAAAAAGCTCTGCCCGCACACGGAAGAAGCCAAGAGCTGGCTGAAACGCCATGGTTCCAAACTTCACGCCATCGATTTCGATTGA	MFSLLRKSLKSPVPKKIAPSQRTVAVAGRQVPITVRENPRATRITLRIEPGGRALKLTIPMGLHHRQVDDFLERHQGWLEGKLVKFSPDDGLRSGATIDIRGIAHRIDHTGSLRGLTHVTKDADGMAVLKVSGAPEHLRRRIATFLKKEAKADLERLVAVHARTAGRPVRSISMKDTRSRWGSCSHDGNLSFSWRIVMAPEKVIDYLAAHEVAHLSEMNHGPKFWALCKKLCPHTEEAKSWLKRHGSKLHAIDFD				NA	NA	NA	NA	NA
BMS010_04762	663	trpF_1	COG0135	N-(5'-phosphoribosyl)anthranilate isomerase	ATGAAACCGGATATCAAGATTTGCGGATTGAAGACACCGGAAGCGCTGGAGCGCGCCGTCAGGCGTGGTGCGTCCCATGTCGGTTTTATTTTCTTTGAAAAAAGCCCGCGCAACATCGAGCCGGATCTTGCCGGCAGGCTGGCGGAAGGCGCTCGCGGCGCCGCCAAGGTGGTTGCCGTCACCGTCAATGCCGACAATGATTATCTCGATGAAATCGTCGATCTCGTCAAACCGGACATTCTGCAGCTTCATGGCAATGAAAGCCCGGAACGGCTGCTGAACATCAAGGCGCTGTATGGCCTGCCTGTCATGAAGGCGATTTCCATTCGCGATGCTGCTGATCTTGCCAAAATCGACCCTTATATTGGAATAGCCGACCGCTTTCTGCTGGATGCCAAGGCGCCTGCCGGTTCCGAGCTTCCGGGCGGCAACGGCGTCTCCTTCGACTGGACCATCCTGCGATCACTTGACGGAAGTGTGGATTACATGCTTTCCGGGGGATTGAACAAGGACAATGTCGCCGAGGCGCTGGCGGAGACCAGGGCAAGCGGACTAGATTTATCGTCCGGTGTGGAAAGTGCGCCGGGCGTCAAGGATTTGTCCATGATCGACGCATTTTTCGATGTGGTGAATGATTGGTCGAAAGGCCCAAAGGGAGCTTGA	MKPDIKICGLKTPEALERAVRRGASHVGFIFFEKSPRNIEPDLAGRLAEGARGAAKVVAVTVNADNDYLDEIVDLVKPDILQLHGNESPERLLNIKALYGLPVMKAISIRDAADLAKIDPYIGIADRFLLDAKAPAGSELPGGNGVSFDWTILRSLDGSVDYMLSGGLNKDNVAEALAETRASGLDLSSGVESAPGVKDLSMIDAFFDVVNDWSKGPKGA	PGPT0007115_1152	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007115-trpF-K01817	NA	NA
BMS010_04763	1221	trpB_1	COG0133	Tryptophan synthase beta chain	GTGAACGACGCGCCAACACCCAATTCTTTTCGCGCTGGTCCCGATGAGGACGGCCGTTTCGGCATTTACGGAGGTCGCTTCGTTGCCGAAACGCTGATGCCGCTCATTCTGGATTTGCAGGCGGAATGGGACAAGGCCAAGACCGATCCCGCGTTTCAGGCGGAACTCAAGCATCTCGGCGCACACTATACCGGCCGCCCGAGCCCGCTTTATTTTGCGGAACGCCTGACGGCGGAACTTGGTGGCGCGAAGATTTATTTCAAGCGCGAAGAGCTGAACCACACCGGCTCGCACAAGATCAACAATTGCCTCGGCCAGATCCTGCTTGCCAAGCGCATGGGCAAGACCCGCATCATCGCCGAGACCGGTGCCGGCCAGCACGGCGTTGCCTCGGCCACCGTCGCTGCACGCTTCGGCCTGCCCTGCGTCGTTTATATGGGCGCGACGGATGTTGCCCGTCAGGCCCCGAATGTGTTCCGCATGAAGCTCCTTGGCGCCGAGGTGAAGCCGGTCACGGCTGGCCATGGCACCCTGAAGGACGCCATGAACGAGGCCCTGCGCGACTGGGTCACCAATGTCGAGGACACCTATTATCTGATCGGCACTGCCGCCGGCCCGCATCCCTATCCGGAAATGGTTCGCGATTTCCAGGCCGTTATCGGCGAGGAAGCCAAGGCGCAGATGCTGGAGGCCGAAGGTCGCCTGCCGGATCTGGTTGTCGCGGCTGTCGGCGGCGGTTCGAACGCCATCGGCATCTTCCATCCTTTCCTCGATGACAAGAATGTCCGCATTATCGGCGTCGAAGCCGGCGGCAAGGGTCTTTCGGGCGACGAGCATTGCGCTTCCATCACCGCCGGTTCGCCGGGTGTGCTGCATGGCAACCGCACCTATCTGCTGCAGGATGAGGACGGTCAGATCAAGGAAGGCCATTCCATCTCCGCCGGCCTCGATTATCCCGGTATCGGCCCTGAACATTCCTGGCTGAACGATATCGGCCGCGTGGAATACGTGCCGATCATGGACCATGAGGCGCTGGACGCCTTCCAGATGCTGACGCGCCTTGAAGGCATCATTCCGGCTCTTGAGCCGAGCCACGCCCTGGCCGAGGTCATCAAGCGCGCGCCGAAGATGGGCAAGGATGAAATCATCCTGATGAACCTCTCCGGTCGCGGCGACAAGGATGTCCACACCGTCAGCAAGTTCCTTGGAATGGATGTATAA	MNDAPTPNSFRAGPDEDGRFGIYGGRFVAETLMPLILDLQAEWDKAKTDPAFQAELKHLGAHYTGRPSPLYFAERLTAELGGAKIYFKREELNHTGSHKINNCLGQILLAKRMGKTRIIAETGAGQHGVASATVAARFGLPCVVYMGATDVARQAPNVFRMKLLGAEVKPVTAGHGTLKDAMNEALRDWVTNVEDTYYLIGTAAGPHPYPEMVRDFQAVIGEEAKAQMLEAEGRLPDLVVAAVGGGSNAIGIFHPFLDDKNVRIIGVEAGGKGLSGDEHCASITAGSPGVLHGNRTYLLQDEDGQIKEGHSISAGLDYPGIGPEHSWLNDIGRVEYVPIMDHEALDAFQMLTRLEGIIPALEPSHALAEVIKRAPKMGKDEIILMNLSGRGDKDVHTVSKFLGMDV	PGPT0007075_2055	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007075-trpB-K01696	NA	NA
BMS010_04764	840	trpA_1	COG0159	Tryptophan synthase alpha chain	ATGACTGCACGTATGGACAAGCGCTTTGCCGATCTGCGCGCTGAAAATCGCCCGGCCTTGATTACCTATTTTATGGGCGGCGACCCGGATTTTGAAACCTCGCTCGGCATCATGAAAGCGCTGCCGGAAGCCGGTGCCGACGTCATCGAACTCGGCATGCCCTTTTCCGACCCGATGGCGGATGGCCCGGCCATTCAGCTGGCCGGCCAGCGCGCGCTGAAAGGCGGCCAGACGCTGAAAACCACGCTCGATCTCGCTCGCGAGTTCCGCAAGGGAGATGACGCGACGCCGATCGTGATGATGGGCTATTACAATCCGATCTATATCTACGGCGTCGAAAAATTTCTGGACGACGCAATCGCGGCCGGCATCGATGGCCTGATCGTTGTCGATCTGCCGCCGGAAATGGACGATGAACTCTGCATCCCGGCACTCGCGCGCGGCATCAACTTCATCCGTCTGGCGACGCCGACGACGGATGGCAAGCGCCTGCCTGCCGTCCTTAAAAATACCTCAGGTTTCGTCTACTACGTCTCGATGAACGGTATCACCGGTTCAGCACTTCCCGATCCCTCGTTGATCTCGGGCGCTGTCGGTCGTATCAAGGCGCATACGGAACTGCCGGTCTGTGTCGGTTTCGGTGTTAAAACGGCGGATCATGCAAAAGCGATCGGTGCCGTTGCGGATGGCGTTGTGGTCGGTTCGGCCATCGTCAACCAGATTGCGGGCAGCCTGACCAAGGACGGGCAGGCGACCGCCGATACCGTACCGGCCGTTACGACGCTGGTAAAAGGACTTTCAACGGGCGTGCGTGCATCGCGCCTTGCCGCTGCGGAATAA	MTARMDKRFADLRAENRPALITYFMGGDPDFETSLGIMKALPEAGADVIELGMPFSDPMADGPAIQLAGQRALKGGQTLKTTLDLAREFRKGDDATPIVMMGYYNPIYIYGVEKFLDDAIAAGIDGLIVVDLPPEMDDELCIPALARGINFIRLATPTTDGKRLPAVLKNTSGFVYYVSMNGITGSALPDPSLISGAVGRIKAHTELPVCVGFGVKTADHAKAIGAVADGVVVGSAIVNQIAGSLTKDGQATADTVPAVTTLVKGLSTGVRASRLAAAE	PGPT0007070_685	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007070-trpA-K01695	NA	NA
BMS010_04765	897	accD_1	COG0777	Acetyl-coenzyme A carboxylase carboxyl transferase subunit beta	TTGAACTGGATCACCAATTACGTACGGCCCCGGATCAATTCCATGCTTGGCCGCCGCCCGGAGGTTCCGGAGAACCTGTGGATCAAGTGCCCGGAAACGGGCGAGATGGTCTTCCATAAGGATCTGGAAGACAACAAGTGGGTCATCCCGGCTTCCGGCTACCATATGAAGATGCCGGCCAAGGCACGTCTTGCCGATCTTTTCGATGGCGGTGTCTATGAAGCACTGCCGCAGCCGAAGGTAGCGCAGGACCCCTTGAAGTTCCGCGATTCCAAAAAATACACCGACCGCCTGCGCGACAGCCGCACGAAGACCGAGCAGGAAGACACGATCCTTGCCGGTGTCGGTCACTTGAAGGGCCTGAAGATCGTCGCCGTCGTGCATGAATTCCAGTTCATGGGCGGTTCGCTCGGCATTGCCGCCGGCGAAGCGATCGTCAAGGCCTTCGAGCGTGCCATTTCCGAGCGTTGCCCGCTCGTGATGTTCCCGGCCTCGGGCGGTGCGCGCATGCAGGAAGGCATTCTTTCGCTGATGCAGCTGCCACGTACCACGGTTGCCGTAAACATGCTGAAAGAAGCCGGCATGCCCTATATCGTGGTTCTGACGAACCCGACGACCGGCGGCGTCACGGCCTCCTACGCCATGCTGGGCGATGTGCATATCGCCGAGCCGGGCGCCGAGATTTGCTTCGCAGGCAAGCGCGTGATCGAGCAGACCATTCGCGAAAAGCTTCCCGAAGGCTTCCAGACTTCGGAGTACCTGCTGGAGCACGGCATGGTGGACATGGTGATCGACCGCCGCGAAATACCCGACACGTTGGCCAATCTGCTCAAGATCATGACCAAAGCGCCTGCTGACAACGCAAATGCTGTCGTACCGTTGGCCGCTTCGGCCTGA	MNWITNYVRPRINSMLGRRPEVPENLWIKCPETGEMVFHKDLEDNKWVIPASGYHMKMPAKARLADLFDGGVYEALPQPKVAQDPLKFRDSKKYTDRLRDSRTKTEQEDTILAGVGHLKGLKIVAVVHEFQFMGGSLGIAAGEAIVKAFERAISERCPLVMFPASGGARMQEGILSLMQLPRTTVAVNMLKEAGMPYIVVLTNPTTGGVTASYAMLGDVHIAEPGAEICFAGKRVIEQTIREKLPEGFQTSEYLLEHGMVDMVIDRREIPDTLANLLKIMTKAPADNANAVVPLAASA	PGPT0001710_1186	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-VOLATILE_RELATED_FATTY_ACID_METABOLISM,PGPT0001710-accD-K01963	NA	NA
BMS010_04766	1344	fpgS		Folylpolyglutamate synthase	ATGACGAAGCCCGCGATCGGTGAGGCCGAGAAGATCATTGAAGAGCTGATGCAGCTCCACCCCAAGGGGTTCGATCTTTCGCTCGACAGAATTTCCCGTCTTCTTGAAAAACTCGGCAATCCTCAAAATAGAATGCCGCCCGCCATCCATGTTGCGGGCACCAATGGTAAGGGTTCCGTCACGGCCTTTTGCCGAGCGCTTTTAGAGGCGGCGGGCCTTTCTGTTCACGTCCATACTTCTCCACATCTGGTGAACTGGCACGAACGTTATCGTATCGGCGTTTACGGGGAAAAAGGCCGTTATGTCGAGGATGCTGTCTTTGCGGATGCGTTGCGCCGTATTGAAGCTGCCAATGCAGGCCAGACGATCACGGTTTTCGAAATCCTGACTGCCGCGATGTTCGTGCTTTTTGCGGAACAGCCCGCCGATGCAGCCGTCGTGGAGGTTGGTCTGGGTGGGCGTTTCGATGCGACCAATGTGATCAACAATCCGGCCGTCTCCGTCATCATGCCGATTTCGTTGGATCATCAGGCCTATCTTGGTGATCGGGTGGAGCTGATCGCCGCCGAAAAGGCAGGCATCATGAAGTCCGGTTCCCCCGTCGTCATAGGCCATCAGGAATATGATGCGGCGCTCGAAACGCTTGTCACCACGGCGGAGCGGCTCGGTTGCCCGGTTTCGGTCTATGGGCAGGATTTTTCCGCCCATGAAGAATTCGGCCGCATGGTCTATCAGGATGAGTTCGGCCTGGCCGATGCGCCGCTGCCGCGTCTTCCCGGCCGCCATCAGCTTGCCAATGCCGCCGCCGCGATCCGCGCCGTGAAGGCCGCCGGTTTCGAGGTGACGGAACGGATGATCGAAAAAGCCATGACCTCCGTGGAATGGCCCGGCCGTCTGCAGCGGATCCTGACCGGCAAAATCGCTGAAATGGCCCCAAAGGATTCGGAAATCTGGATCGATGGCGGCCATAACCCCGGCGCGGGCGAAGTCATTGCCGAAGCGATGGCCGGCTTTGAGGAAAAGACGCCACGCCCGCTGTTCATCATTGCAGGCATGATCAATACCAAGGATCCGGTCGGCTATTTCAAGGCCTTCGCCGATATTGCCGAATATGTCTTCACCGTCCCGATTGGCGGCACGGATGCGGCGATTGATCCCGTTGTACTTGCCCATGCGGCCTTCGATGCCGGTCTCGTGGCGGCCCCCACCTCGTCTCTCACGCATGCGCTGGAAGAGCTGTCGCGCCGCTTCGACCCCGAAGGACCGGCGCCGCGCATCCTGATCGGCGGCTCGCTTTATCTTGCCGGCAACGCGCTCGCCTTCAACGGCACCGTTCCTCAATAA	MTKPAIGEAEKIIEELMQLHPKGFDLSLDRISRLLEKLGNPQNRMPPAIHVAGTNGKGSVTAFCRALLEAAGLSVHVHTSPHLVNWHERYRIGVYGEKGRYVEDAVFADALRRIEAANAGQTITVFEILTAAMFVLFAEQPADAAVVEVGLGGRFDATNVINNPAVSVIMPISLDHQAYLGDRVELIAAEKAGIMKSGSPVVIGHQEYDAALETLVTTAERLGCPVSVYGQDFSAHEEFGRMVYQDEFGLADAPLPRLPGRHQLANAAAAIRAVKAAGFEVTERMIEKAMTSVEWPGRLQRILTGKIAEMAPKDSEIWIDGGHNPGAGEVIAEAMAGFEEKTPRPLFIIAGMINTKDPVGYFKAFADIAEYVFTVPIGGTDAAIDPVVLAHAAFDAGLVAAPTSSLTHALEELSRRFDPEGPAPRILIGGSLYLAGNALAFNGTVPQ	PGPT0007975_1192	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007975-folC-K11754	NA	NA
BMS010_04767	321			Thioredoxin C-1	ATGGCTACCGTAAAAGTCGATGCCGCCAACTTCCAGTCCGAAGTCCTCGAATCCGCCGAACCCGTCGTGGTGGATTTCTGGGCCGAATGGTGCGGCCCGTGTAAGATGATCGCGCCGAGCCTTGAAGAAATTTCGTCCGAGCTTGCCGGCAAGGTCAAGGTCGCGAAGCTCAACATCGACGAAAACCCGGAACTGGCTGCCCAGTTCGGCGTGCGCTCCATCCCGACGCTCGCCATGTTCAAGGGCGGCGAAGTGGCCGACATCAAGGTTGGCGCTGCTCCCAAGACAGCGCTGTCCGCCTGGATTTCGGGCGCCGCATAA	MATVKVDAANFQSEVLESAEPVVVDFWAEWCGPCKMIAPSLEEISSELAGKVKVAKLNIDENPELAAQFGVRSIPTLAMFKGGEVADIKVGAAPKTALSAWISGAA	PGPT0013055_8746	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671	NA	NA
BMS010_04768	3558	addA		ATP-dependent helicase/nuclease subunit A	ATGACGATTGATCCCTTCGATGCCGGCCCCGCCGCCGACACGCCTGAAAGCTGGATCGACTGGACCAGCGCCCGGCAGCGGCTTGCCTCCGATCCCGCAAGCTCTGCCTGGGTGTCGGCCAATGCCGGCTCCGGCAAGACCCATGTTCTGACCCAACGCGTCATTCGCCTGCTACTGGCCGGATGTCGACCTTCGGCGATTTTGTGCCTTACCTATACCAAGGCCGCGGCGTCGGAAATGTCCAGCCGCGTCTTCGACCGTCTGGCGGAATGGGCTACTTTGCCGGATTCCGACCTCAAGGACCGCATCGCCACCATCGAAGGCAAGGCGCCGGATCGCATCAAGCTTGCCGAAGCGCGCAGGCTGTTTGCCAAGGCGCTGGAAACGCCGGGCGGGTTGAAAATCCAGACGATCCACGCCTTCTGCGAGGCGTTGCTGCATCAGTTCCCGCTGGAAGCCAATGTCGCCGGCCATTTCTCCGTTCTTGACGACCGCGCCGCAACCACTCTGCTCGCCGAAGCACGCCGTTCGCTTCTAACGGCGGTTTCGACTGAGCGGGACGCGGAGCTGGCGCAATCGCTCGCTTATGTGCTCGATCTCGCCGACGAAAGCGGACTGGAATCGCTGCTTTCCGCCATCATCGCCAATCGCAGCGCCCTTCGCGCCTTTCTTCTGGACGCCAAACAGTCGGGCGGCATCGATGCACGGTTGCGGCAGGCGATGCAGATCGCAGATGGGGAAACCGAAGAAACCGCGGCAGCCGCCTTCTGGCCTCTGCCCGGCCTCTCAGGCCTTGCGCTCGATACGTATCTCGCCCTTGCCGACGAGGTGGGTGGATCACGCGTCATCGATGTCGCTTATGCGCTCAGGGAGGCAAAACGACAGCCGGACCCCGTGCGGCGGATGGAATTCATCGAAGCGGCACTGCTGACAGCCAAGGGCGAAAAGAAATCGGATGCCTATGTCATCAACAAGGGCATGCAGAAATCCGCCCCCGAACTTCTCGATGCGCTGACGCTGGCGCGGGACCATGTCGTTTCCTGCCGCAACCGATATCGTCTGGTGCGGATGCTGGCGGCGACAAAATGCGCCCTTGTTCTGGCCGAAAGGCTGATCGGCGATTTCGAAGACCTGAAGAAACAGCGAAGCCAGCTCGATTTCGAAGACTTGATCGAGCGCGCGGCCAACCTTCTCAACCGCGATACGGCCGGCGCCTGGGTGCACTACAAGCTGGATCAGGGCATCGACCATATTCTCGTCGATGAGGCGCAGGATACCAGCCCGGTGCAATGGTCGATCATCCAGTCGCTGGCGGCGGATTTCTTCACCGGCGAGAGCGCCCGCCTGGGGCGGCGCACGCTTTTTGCCGTGGGCGATGAAAAACAGTCGATCTATTCATTCCAGGGCGCGCGGCCGGAACGGTTTTCGCAGGAGCGCGAAGAAACCAAAAAGCGCGTCGATTCCGTCGATCAGGCCTTCCACCGTATCCGCCTGCCGCTTTCTTTCCGGTCCACGGAGGATGTTCTGGCCGCCGTCGATCAGGTCTTTTCAGACCCGAATAACGCCAGCGGCCTCAGTGCCGATAACGAGCCGGTGGAGCACCGATCCAACCGTGCCGGCCATCCCGGCACCGTGGAGGTGTGGGACATGGTGGCGCCGGAAACCGCCGAAGACGAAGAGGATTGGACAGCGCCCTTCGATGCGCTGCGGGAAAGCGCGCCGGCCACCATCGTCGCCCGCCGGATCGCCGCGCGCATCGCCGATATGATCGGAAGCGAGACCATCATCGAAAAGGGCGTCGAGCGCGCCGTGGAGCCCGGCGACATTCTGGTTCTCGTCAGAAAACGCCATGCCTTTGTCAATGCGCTGACGCGCGAGCTGAAACGACGCAAGAATATTCCCGTTGCCGGCGCCGACCGCCTTCGCCTGACCGACCACATTGCCGTGCAGGACCTTCTGGCGCTCGGACATTTCGTTGTCTTGCCCGAAGACGATCTTTCGCTCGCCGCATTGTTGAAGAGCCCGCTTTTCAACCTGACCGAAGATGACGTTTTCAACATCGCAGCCATGCGATCGGAAACGGAGAGCGTCTGGAAACGGCTGCAAATCCTTTCGCAGGAAGAGAATAGTCATCTTTTCACCGTTACCGCCAAGCTGGAAGGTTTCATCGCGCTTTCCAAAACGGCCACCGTGCATGATTTCTTTGCAGCGGTCCTCACCCTGCATGACGGACGCAAGAAATTCCTGGGCCGGCTTGGCAATGAGGCGAGCGACGTTCTGGATGAGTTCCTGTCCTTTGCGCTGGACCACGAAAGGACAGGTCTGCCCGGCCTTCAGGCCTTTCTCTCCGTTCTGGAAACCGATTCACCGGAAGTGAAACGCGAGCAGGACAAGGACCGTGGCGAAGTACGTATCATGACCGTGCACGCCTCCAAGGGCCTGGAAGCGCCGGTGGTTTTTGTCGTCGATGGCGGTTCGAAGGCCTTCAATCACAGCCATGTGCCGAAACTGCGCTTCGTCGAAGCGGGTGAAGACGCCTTCCCGGTCTGGCTGCCCGGTAGCGGCTTTTCCAACCATCTCATTCGCTCGGACGAAGAACGGCTGAAGACGGCCGCCGAAGACGAATATCGACGGCTGCTTTATGTGGCGATGACGCGCGCCGCCGATCACCTCGTCGTCTGCGGTTATCGCGGCCAGAAGGAAAACCCCGAATGCTGGCATGCCATCGTCAAGGCGGCGCTTGCCAACAATGAAGACCACTGCAAGCCGCAGCTTTTCACGGCCGATGGCGAGGAATGGCAAGGGCTTGTCTGGCGTAAATCCGAGGCTCGCGCGACATCTCTCCCGCAAAGGCTGCCGGAAAAGCAACAGGACGAAGAATATACTCTTCCGGCCGGGCTGCTTGCCCCCCTGCCTGCCCTGCCTTCCTTGCCAAGGCCGCTCAGCCCCTCCGGTGCAGGCACCATCATTGATGACGGTGCGGATGATCTTGCCGTGCGTTCGCCGCTTTTCGGCGAGAAGGCCGATGTCTCTTCGCTGGCGCTGCAGCGTGGCCGGCTGGTGCATCGCATGTTGCAGGCACTGCCGGATTTTGCCGAGGCGGAGCGGGAGGAGGCTGCCCGCCGCTATGCGGAGCGAGCGGCCCGTTTCTGGCCTACGGCCGAACGTGAGCATTTGATCCGGGCGGTTCTGCGGGTCATCTCCGAACCGGCGGTGCAACCGGCCTTTTCCGCCAACAGCCGCGCGGAAATCTCCATCATGGGCACGATGACCATCGGCCGGCAGCACTATGCCGTCTCCGGCCGTGTCGACCGGCTGGCGGTGGACGGTGATCGCGTTATTCTGGTAGACTACAAGACGAACCGGGTTCCGCCGCGTACGGCACGCGAGATACCTTTCTCCCACACCGCGCAGCTTGCCATCTATCGCGAAATTCTTGCACCGCTCTATCCGGGCAAGGAATTCGTCTGCGCGCTGATCTATACGGAAAATGCCGCTTTTGTGCGGGTTGACAATGATGCAATGTCGCAGGCCCTTGCCGCAATAAAGACAAAGTGA	MTIDPFDAGPAADTPESWIDWTSARQRLASDPASSAWVSANAGSGKTHVLTQRVIRLLLAGCRPSAILCLTYTKAAASEMSSRVFDRLAEWATLPDSDLKDRIATIEGKAPDRIKLAEARRLFAKALETPGGLKIQTIHAFCEALLHQFPLEANVAGHFSVLDDRAATTLLAEARRSLLTAVSTERDAELAQSLAYVLDLADESGLESLLSAIIANRSALRAFLLDAKQSGGIDARLRQAMQIADGETEETAAAAFWPLPGLSGLALDTYLALADEVGGSRVIDVAYALREAKRQPDPVRRMEFIEAALLTAKGEKKSDAYVINKGMQKSAPELLDALTLARDHVVSCRNRYRLVRMLAATKCALVLAERLIGDFEDLKKQRSQLDFEDLIERAANLLNRDTAGAWVHYKLDQGIDHILVDEAQDTSPVQWSIIQSLAADFFTGESARLGRRTLFAVGDEKQSIYSFQGARPERFSQEREETKKRVDSVDQAFHRIRLPLSFRSTEDVLAAVDQVFSDPNNASGLSADNEPVEHRSNRAGHPGTVEVWDMVAPETAEDEEDWTAPFDALRESAPATIVARRIAARIADMIGSETIIEKGVERAVEPGDILVLVRKRHAFVNALTRELKRRKNIPVAGADRLRLTDHIAVQDLLALGHFVVLPEDDLSLAALLKSPLFNLTEDDVFNIAAMRSETESVWKRLQILSQEENSHLFTVTAKLEGFIALSKTATVHDFFAAVLTLHDGRKKFLGRLGNEASDVLDEFLSFALDHERTGLPGLQAFLSVLETDSPEVKREQDKDRGEVRIMTVHASKGLEAPVVFVVDGGSKAFNHSHVPKLRFVEAGEDAFPVWLPGSGFSNHLIRSDEERLKTAAEDEYRRLLYVAMTRAADHLVVCGYRGQKENPECWHAIVKAALANNEDHCKPQLFTADGEEWQGLVWRKSEARATSLPQRLPEKQQDEEYTLPAGLLAPLPALPSLPRPLSPSGAGTIIDDGADDLAVRSPLFGEKADVSSLALQRGRLVHRMLQALPDFAEAEREEAARRYAERAARFWPTAEREHLIRAVLRVISEPAVQPAFSANSRAEISIMGTMTIGRQHYAVSGRVDRLAVDGDRVILVDYKTNRVPPRTAREIPFSHTAQLAIYREILAPLYPGKEFVCALIYTENAAFVRVDNDAMSQALAAIKTK				NA	NA	NA	NA	NA
BMS010_04769	3186			hypothetical protein	ATGACGCTCACCCACCACGCAAAGCGCGTTCTGACGATCGCTGCGGGAACGCCGTTCCTCAAGACGCTCGCGGAAACGCTGTGTGACGGGACACTGACAGCCGGCTATAAATACGACCCGGCCGATCCGCTGTCGCTTGCCAAGGTGACGATCTACGTGCCGACGCGGCGCTCCGCCCGTGTGCTGCGCTCCGAATTCGTCGATCTTCTGGGCGGCCGGTCCGCCATTCTGCCGGTGATCCGGCCGCTCGGCGAAACGGATGACGACAGCGGCTTTTTCGAGATCGAAAATCCTGAAATCATGGATCTGGCGCCGCCGATTTCCGGCACCGGCCGGCTGATCGAACTGGCGCGTCTCATTCTCGCCTGGCGCAACAGCCTGCCGGACGCCATCCGGGCAATTCACTCGGATTCGCCGCTTGTAGCCCCCGCCAGCCCCGCAGACGCCATATGGCTGGCGCGTGCGCTTGGCGAGGTGATCGATGCAATGGATACGGAAGAAAAGGACTGGGAAGCGCTTCAGCATCTCGATACTGGCGATCACGCCCAATGGTGGCAGCTGACGGCGGATTTCCTGCGGATAGCCAGCGTCTTCTGGCCGGCGCGGCTTGCCGAACTCAACCGTTCCTCGGCCGGTCGGCATCGCAACGCCATCCTGCGGGCGGAAGCGAACCGGCTTGCCAATTTGCCGGATACGGGACCGATCATTGTCGCCGGGTCGACGGGTTCCATTCCTGCCGCAGCCGATCTCATCGCCGCCGTTGCGGCCCTGCCCCAGGGCACCGTCGTGCTTCCGGGGCTAGACCTTGCCATGCCGGAGGAGCAATGGGAGGCAATCGCCGAGGACCCTACCGATCCTTCGAGCCGCACCCACTCGCAATACGGGCTTTATATGCTGCTGCAGAAGCTCGGCATCCTGCGCGACGATGTGGTTCAGATCGGCGCCATCGATAGCGATCTGGAAAAGCGCGCGGCCGTGTTTTCGGCCGCACTCGCGCCGGCCAAATCCACCAGCGACTGGAATCGCTGGCGCGAGGACAGGGAACCCGGCTTTTTCGACGACGCCTTCGCAACGGCCACGCTGATAGAAGCCGCCAATGAGCGCGAGGAGGCGACCGCCATCGCGGTGGCTTTGCGGCTGGCGCTTGAAGCGCCCGGCGCTGGGCGTCCATCTCAGGCGGCGCTGATAACACCGGACCGCGGGCTGGCGCGGCGCGTGGCGACGGAGTTGCAGCGCTTCGGCATCGAAGCCGACGACTCCGCCGGTACGCCGCTCTCCGCCACCCCACAAGCGGGGCTGACGCAACTGGCGCTGGAAGCGATCCTGAGGCCCGGTGACCCGGTGCCGATCATTTCCCTTCTGAAACATCCGCTCAGCCGTTTCGGACTTTCCGATGAAGCTTTCGCGAAAGCCTCCAAAGCGCTGGAGCTGATCGCGCTGCGTGGCGGCCGTGTGGAGACCGAAATCGGCAATCTGGAAGCGGTTCTGGAGGCGCAGCTTCTGGCGCGGCGCGATGACCGGCACCCGCCGGCCTGGCGGCTGGCGCTGCCGGAGGCAAGCGCGGAGGCCGCGCGCGACCTGACACGGCGGATTGCCGTTGCGACCGAGCCGCTCGGTTCCGCCTTTGTCCGCAGAGATCGGTCCGGCCGCGCCTTCACCGATAAATTGCCGCTGTCCGTTTGGGCGGAGCGTACGGGCCGCGTGATCGAAGCCATCTGTGCGGATGAAAACAGCGATCTTGCCGCGCTCTGGTCCGGTGAAGCGGGAGACAAGCTTTCCGAGCTGTTCGGCGAGCTGATGGAAAGCGGCGAAATCCTCGATGCGGATGGACCGCAATGGATCGATATTTTCGCGGCACTGGTAGCCGGTGAATCGATCAAGCCAAGATCGATGCGTCATCCGCGCATTTTCATCTTCGGCGCGCTTGAGGCACGGCTGCAAAGCGTCGATACCGTCGTCATCGGCGGTCTCAATGAAGGACTCTGGCCGGGGCAAACGGCGAATAATCCATTCCTGTCCCGCACCATGAAGACCGCCATTGGCCTCGAACCGCCGGAACGGCGTATCGGTCAGCTGGCGCATGATTTCGAGATGGCAAATGGCACCCGACAGATTTTTTACACCCGCGCGCTGAGGCAGGGCTCAACGCCTGCTGTCGCCTCACGCTGGCTGCAGCGTCTTCTGGCGCTGGGCGGCGAGGATTTTGCCGATAGACTGAGGAAGCGCGGCGAGACCTATCGCCATTGGGCGGGATTGATGGATGAAAGCATCGATCAGGAAGCGGCAAAGCGCCCTGCCCCGAAACCGCCAGCCGAGTTGCAGCCGACGCGCTATTCCTTCAGCGAAGTGGGGCGGCTGCGTCGCGATCCCTATTCGATCTATGCGCGACGCATCCTGAAGCTGGACCCGCTCGACCCCTTCAATCGCGATCCGAACGCCGCAGATCGCGGCACGCTCTATCACGCGATCATCGAGCGCTATTCCCGTGAGGGACATGTTCCCGGAACACCGGCCTCGCTTTCGGCCATGCAGCGCATTCTCGACGAATGTTTCGATGCGGAAAACCTGCCTCCCCATGTGGATGTCATCTGGCGGCCGCGTTTTGCAGCGGTAGCGCGCGCATTTATCGACTGGGAAAAAGAACGTCATCCATCCATTCGCCACAGCTTCTACGAGGCTCGCGCCGGGCAGGAAATCGTCGAGGCGGGCATAAGGCTGACGGGGATCGCCGACCGCATCGACATCAAGACAAACGGTCAGGCGGATATTATCGACTACAAGACGGGGCTTACGCCTTCCGTCAATCAGGCGCGCGCGCTGCTCGACCCGCAGCTTGCGCTGGAGGCGGCGGCACTGATGCGCGGCGCCTTCCGCGAAGCCGGTTCGCCCGCACCTGAAAACCTGATCTATGTTCGCCTGCGGCCTGGCGAGCGTTTTTTTGCCGATCAGGTCAATAACGAACATTCCAGCCGAAGCGGCAAAAGACCGCCGAAATCGGCGATTGAGCTCGCGACGGAATCGATCGAACAGCTCACCAAATTCGTTCATTCCCTGCGTGACGGCGAAAACGGCTTCGCCTCCCGCCTCGTGCCGGAAGAGCAACAATCCTATGGCGGGGAATATGACCACCTCGCCCGCGTTTCGGAATGGTCGACGGCAGAACCGGGAGACGGCGATGACGATTGA	MTLTHHAKRVLTIAAGTPFLKTLAETLCDGTLTAGYKYDPADPLSLAKVTIYVPTRRSARVLRSEFVDLLGGRSAILPVIRPLGETDDDSGFFEIENPEIMDLAPPISGTGRLIELARLILAWRNSLPDAIRAIHSDSPLVAPASPADAIWLARALGEVIDAMDTEEKDWEALQHLDTGDHAQWWQLTADFLRIASVFWPARLAELNRSSAGRHRNAILRAEANRLANLPDTGPIIVAGSTGSIPAAADLIAAVAALPQGTVVLPGLDLAMPEEQWEAIAEDPTDPSSRTHSQYGLYMLLQKLGILRDDVVQIGAIDSDLEKRAAVFSAALAPAKSTSDWNRWREDREPGFFDDAFATATLIEAANEREEATAIAVALRLALEAPGAGRPSQAALITPDRGLARRVATELQRFGIEADDSAGTPLSATPQAGLTQLALEAILRPGDPVPIISLLKHPLSRFGLSDEAFAKASKALELIALRGGRVETEIGNLEAVLEAQLLARRDDRHPPAWRLALPEASAEAARDLTRRIAVATEPLGSAFVRRDRSGRAFTDKLPLSVWAERTGRVIEAICADENSDLAALWSGEAGDKLSELFGELMESGEILDADGPQWIDIFAALVAGESIKPRSMRHPRIFIFGALEARLQSVDTVVIGGLNEGLWPGQTANNPFLSRTMKTAIGLEPPERRIGQLAHDFEMANGTRQIFYTRALRQGSTPAVASRWLQRLLALGGEDFADRLRKRGETYRHWAGLMDESIDQEAAKRPAPKPPAELQPTRYSFSEVGRLRRDPYSIYARRILKLDPLDPFNRDPNAADRGTLYHAIIERYSREGHVPGTPASLSAMQRILDECFDAENLPPHVDVIWRPRFAAVARAFIDWEKERHPSIRHSFYEARAGQEIVEAGIRLTGIADRIDIKTNGQADIIDYKTGLTPSVNQARALLDPQLALEAAALMRGAFREAGSPAPENLIYVRLRPGERFFADQVNNEHSSRSGKRPPKSAIELATESIEQLTKFVHSLRDGENGFASRLVPEEQQSYGGEYDHLARVSEWSTAEPGDGDDD				NA	NA	NA	NA	NA
BMS010_04770	738	murU_1	COG1208	N-acetylmuramate alpha-1-phosphate uridylyltransferase	ATGACGATTAAGAATGCGATGGTGCTGGCCGCCGGGCTTGGCACACGGATGCGCCCGATCACGGATACGATACCGAAGCCGCTCGTCCAGATCGCGGGCAAGCCGATGATCGATTATGCGCTCGACGCCCTTGTCGAAGCCGGTGCGGAAACCATTGTCGTCAATGTGCACCACCATGCGGAACAGATGGTCGCCCATCTTGAGCACCGCACCGACGCCGAAATCCTGATTTCCGACGAGCGATCGCAACTGATGAATTCCGGCGGCGGTCTCGCCAAGGGCCTGAAGCTTCTGGAACCCGGCCCGGTCTTTGTCATGAATGCCGATCTCTTCTGGATTGGCGAGCAGCTGAATGCGGTCAGCAACCTGCGCAAGCTTGCGCAATTCTTCGACCCGACCCGAATGGACATGGCGCTGCTCTGCGTCGACATGGACCGCACCACCGGGCACAATGGCAAGCGGGATTTCAACCTCTCCACCGATGGGAAACTGACGCGGTATCGCGATGGCGATCCGAACCCCGTGGTTTATGCCGGAGCCATCGCCATGGATTCGCGACTGCTGGACGATGCGCCGGCGGATGCCTTCAACCTCAATATCTATTTCGACCGCGCCATTGAAAGAGACCGGCTTTTCGGGCTTTCTCTGGATGGCCACTGGATCACCGTCGGCACGCCGGATGCGATAGACGATGCTGAAAGCATCATCCGCCAATTCAGGGAAAAACGCTCTGCATGA	MTIKNAMVLAAGLGTRMRPITDTIPKPLVQIAGKPMIDYALDALVEAGAETIVVNVHHHAEQMVAHLEHRTDAEILISDERSQLMNSGGGLAKGLKLLEPGPVFVMNADLFWIGEQLNAVSNLRKLAQFFDPTRMDMALLCVDMDRTTGHNGKRDFNLSTDGKLTRYRDGDPNPVVYAGAIAMDSRLLDDAPADAFNLNIYFDRAIERDRLFGLSLDGHWITVGTPDAIDDAESIIRQFREKRSA	PGPT0019055_250	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_MURAMATE_DEGRADATION,PGPT0019055-murU-K00992	NA	NA
BMS010_04771	1512			hypothetical protein	ATGAGCGAAGACATCCTGCCGATCACCATTCCCCTTGCGGGAGAAAAGGACACCATCAGGCTCGGTGAAGACCTTGCGCTGGCTTTGAAACCCGGCGATTGTCTGGCCCTGATCGGCGATCTCGGCGCCGGCAAATCGACGCTTGCCCGCGCCTTCATCCGGGCAATGGCGGACGAGCCGGATCTGGAAGTTCCAAGCCCTACCTTCACGATCGTCCAGACCTATGCCGCCCGCATTCCAGTCGCCCATCTCGATCTCTACCGGCTTTCGGATGTTTCGGAACTGGACGAACTCGGCATCGATGAGATGCTGGAGGATGGCATCTGCCTGATCGAATGGCCGGATATGGCCGCCGAGATCCTGCCGCCGGAGCAGACCGTCACGCTCCGGCTGACGCATTCCGGCGAAGGGCGGCTCGCCTCCATCGAGGCTCCGGCAAAGCTGAAAGCACGACTTGAACGGGTTTTCGCCATCCGCGCGTTTCTCGCAAAAAATGGCAAGGGCGACGCGGCCCGGCGTTTTCTCAGCGGTGACGCCTCCACACGCGCCTATGAGACCGTTTCCACTGACGGCCCGGACCTTATCCTTATGGATTGGCGACGTCCCCTCAAGGGTGCAATCATTGCGGATGGCAAGACCTACGCGGAAATCGCCCATCTTGCCCAGGACGCCCGCTCCTTCGTTGCGATCGGCAACTATCTTCGAAACAACGGCCTTTGCGCCCCTGAGATTCTGGCGGCAGATATCGATCAGGGTATTCTATTGCTAGAGGATCTGGGGCGGGATGGCGTACTTGCGCCTGACGGAACGCCTATCGAGGACCGCTATCTGCAAAGCGTCGCCTGCCTTGCCGCACTCCATCAGGCCCCGCGACCTGGCCTGCTGCCGGTGGGTGACGGCAGCGCCTATGAGGTTCCCCCGTTCGACCGACAGGCGATGAAAATTGAAGTATCGTTGCTGGTGGAGTGGTATCTGCCCTACAAACGCGGCACACAGCTCTCCGATGGCGAGAAGTACGACTATTACGCCCTGTGGGACAGGCTGATCGACGCGCTCGCTGGCTGCGAAACCGGCCTTCTGCTGCGCGATTTCCATTCGCCAAATATTCTGTGGCAGGCGCAGAATAACGGCATCCGGCAGGTCGGCCTGATCGATTATCAGGACGCGATGATCGGCCCGAGCGCTTACGATCTTGCGTCCATCGTGCAGGACGCCCGTGTCACCATCTCACCCGAATTGCAGGCGCGCCTGCTTTCGCACTATCTCGACAGCAGGAGAAGCGCGCCCTCTTTCGATGAGGCTCTTTTCCTCAAGGCTTTCGCCATCATGTCGGCGCAACGCAACTGCAAGCTCGCCGGTATCTGGGTGAGGCTGTTGGAACGGGACGGAAAACCCGGTTATATGAAACATATGCCGAGGACGTTCCGCTATCTCAGTGCAGCGCTTTCGCATCCGGAACTCGCACCGCTCAAAGGCTGGTGCCTGCGCATGGGCATGGAATTCGACGACTGA	MSEDILPITIPLAGEKDTIRLGEDLALALKPGDCLALIGDLGAGKSTLARAFIRAMADEPDLEVPSPTFTIVQTYAARIPVAHLDLYRLSDVSELDELGIDEMLEDGICLIEWPDMAAEILPPEQTVTLRLTHSGEGRLASIEAPAKLKARLERVFAIRAFLAKNGKGDAARRFLSGDASTRAYETVSTDGPDLILMDWRRPLKGAIIADGKTYAEIAHLAQDARSFVAIGNYLRNNGLCAPEILAADIDQGILLLEDLGRDGVLAPDGTPIEDRYLQSVACLAALHQAPRPGLLPVGDGSAYEVPPFDRQAMKIEVSLLVEWYLPYKRGTQLSDGEKYDYYALWDRLIDALAGCETGLLLRDFHSPNILWQAQNNGIRQVGLIDYQDAMIGPSAYDLASIVQDARVTISPELQARLLSHYLDSRRSAPSFDEALFLKAFAIMSAQRNCKLAGIWVRLLERDGKPGYMKHMPRTFRYLSAALSHPELAPLKGWCLRMGMEFDD	PGPT0019050_167	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_MURAMATE_DEGRADATION,PGPT0019050-amgK-K07102	NA	NA
BMS010_04772	2583	rcsC_16		Sensor histidine kinase RcsC	ATGTCGGTTCAAAATTCGGATCTGCGCAAGCAGACAGTTCAACGCGTTGAAAACACGCAAGCGGGCGTGGCATTGAGCGCGGCTCTAGCGCGTTGCCGGCAGGTCGTCAGTGCGGTTCAGACAGGCTTTGCGAGGCTTCCTGTCCTGCTTTCGGGCACGGTTCTCGCCGGCTCGACAACCGCTGTGATGGCCCAGGACGGCCTTGTGGCAAAGACCGGCGCGCGGTTGTTCTCGTCCGGAGAAACCATTACCTATTCGCTTTTCGTCGGCATGCTTTCGGCAACGCTGTTTTCCGTCGTCTGGCTGGTGCGCCAGCGCGGTAATATCGAGGCGGAAAGCAGCGAATACCGACAGGCGCTTGCCCAGTCCCACCACAAGATCGCGAAATACGAGGCGTTGATTTCAGACAAGAGCCGCCGCATCGTCATCTGGGATGGCGCGGACAAGCGGCCCGAATTTCTGGGACAGCTGCCCGCTGAGACGGGTGTGCCGCAGGCGGATCACGATTTTCTGGCCTTTGGCCGCTGGCTGAAGCCGGCATCCGCAAGCCAGCTTGAAAAATCCATCGAAAAACTCCGCAGCCATGCCCAGAGTTTCGATCTGACTATCGAGACGCAGCGCGGTGAAGTCATCGAAGTGCAGGGCCGGGTTTCCGGGGGCAATGCCTTTGCGCGTTTCATCGCGCTCAACAATTTGCGCGCCGAACTCGCGGAATTGCAGGTGGAGCGCGAGCGCCTGATCGCTTCCGTCTCGACCTTTCAGGAACTTCTCGATTCCATTGAGCAGCCTGTCTGGCGGCGCAATGGCGAAGGCGACCTCATCTGGGTCAACCACGCCTATGCCCAGGCGGTGGATGCCCGTGACACCGAACAGGCCGTTCATGAAAAACGCGAACTGCTGAACACGGTTACCCGGCAGAAGATACGCGCGGCCGCGACACCGGAATCGCCCTATCACGACCGTATTTCGACGGTGGTTTCCGGAAACCGCACCTTCTTTGACGTTGTCGACATCAAGACGGCGGGTGGGTCCGCCGGCATCGCCATCGATGCCACCGAGGCCGAGACCATCGGCGAGGAACTAAAGCGGGTTCTGAAGAGCCACGCCGAAACGCTCGATCATCTGGCAACGCCTGTCGCCATTTTCGACGGCCGGCAGCGGCTGCAATTCTACAATCAGGCTTTTGCGGCTCTCTGGGGTCTCGATCTCGTTTTCCTCGAATCCAGCCCTGACAATTCCGAGCTTCTGGACAGGCTGCGCACCGCCGGCAAATTGCCGGAGCAGCTGAACTGGAAGAACTGGAAGGAGACGGCGCTTTCCGTCTATCGTTCGCTGGACACCAAGACCGATCTCTGGCACCTGCCGAACGGCCAGACCCTGCGGGTCATCGCCACTGCCCATCCGCAGGGCGGCGCGACCTGGGTTTTCGAGAACCTGACCGAGCAGGTCGATCTGCAGATGCGCTACAACACGCTTGTAAAGGTGCAGGGCGAAACCATCGACCATCTGGCCGAAGGTGTGGCCGTGTTCGGTGCCGATGGGCGCATTCGCCTGTCCAACCCGGCATTCCGGGCGCTCTGGGGCGTGACCGCGGAACAGGCTGAGACCGGCACCCATATCCGCGCCATCGAAACCGCCTGCACGCAATCCTATGACAGGCCGGACGGCTGGCGTGCTTTCAGCCAGTTCATCACCAGCTTCGACGATGAGCGGCCGTCGCGGCAGGGCACACTGGAACTGCTTTCTGGCCTCGTGCTCGACTACGCCATCATTCCGCTGCCGGATGCGCAGACCATGCTGACCTTCGTCAACATGACCGACAGCGTGCGGGCCGAGCGGGCGCTGAAAGAAAAGAACGATGCGCTTCTGAAGGCCGACGAGCTTAAGAACGATTTCGTGCAGCATGTTTCCTACGAGCTGCGCTCACCGCTGACGAATATCATCGGCTTCACCGATCTCCTCAAGACACCCGGCATCGGCCAATTGACGGAACGGCAGGCGGAATATCTCGACCATATTTCCACCTCGTCCTCGGTGCTCCTGACCATCGTCAACGATATTCTCGATCTCGCGACCGTCGATGCCGGCATCATGCAGCTCAATTATTCGGAAAACGATCTGAACGAATTGCTTGAAGACGTTTCCGTGCAGATCGCCGACCGGCTGCAGGAGAGCGGAATTTCGCTCGAGATCGTTGCACCCGCCCATCTCGGCAGTCTGGTGGCCGATCATCAGCGGCTGAAGCAGATTCTCATCAAGCTCCTGACCAATGCGATCAATTTCGCACCCGAAGGTTCCTCCGTGCAGCTTTCCTGCCAGCGTAGCGAAGGCGACTTCGTGTTCTCCGTGGCGGATAAGGGTCCGGGCATTCCTGAGGACATGCTGAAGAGCGTGTTCGACCGCTTCGCGACGCGTGGCAATGGCGGGCGGCGAACCGGTGCGGGGCTTGGCCTTTCCATCGTCGAAAGCTTCGTCAGCCTGCATCATGGCACGGTCAGCATCGACAGCCGTCCCGGCAACGGCACCATCGTCACCTGCCGCATTCCTTCCGGCACACGGCCGCATTCCATCGCCGCAGAATGA	MSVQNSDLRKQTVQRVENTQAGVALSAALARCRQVVSAVQTGFARLPVLLSGTVLAGSTTAVMAQDGLVAKTGARLFSSGETITYSLFVGMLSATLFSVVWLVRQRGNIEAESSEYRQALAQSHHKIAKYEALISDKSRRIVIWDGADKRPEFLGQLPAETGVPQADHDFLAFGRWLKPASASQLEKSIEKLRSHAQSFDLTIETQRGEVIEVQGRVSGGNAFARFIALNNLRAELAELQVERERLIASVSTFQELLDSIEQPVWRRNGEGDLIWVNHAYAQAVDARDTEQAVHEKRELLNTVTRQKIRAAATPESPYHDRISTVVSGNRTFFDVVDIKTAGGSAGIAIDATEAETIGEELKRVLKSHAETLDHLATPVAIFDGRQRLQFYNQAFAALWGLDLVFLESSPDNSELLDRLRTAGKLPEQLNWKNWKETALSVYRSLDTKTDLWHLPNGQTLRVIATAHPQGGATWVFENLTEQVDLQMRYNTLVKVQGETIDHLAEGVAVFGADGRIRLSNPAFRALWGVTAEQAETGTHIRAIETACTQSYDRPDGWRAFSQFITSFDDERPSRQGTLELLSGLVLDYAIIPLPDAQTMLTFVNMTDSVRAERALKEKNDALLKADELKNDFVQHVSYELRSPLTNIIGFTDLLKTPGIGQLTERQAEYLDHISTSSSVLLTIVNDILDLATVDAGIMQLNYSENDLNELLEDVSVQIADRLQESGISLEIVAPAHLGSLVADHQRLKQILIKLLTNAINFAPEGSSVQLSCQRSEGDFVFSVADKGPGIPEDMLKSVFDRFATRGNGGRRTGAGLGLSIVESFVSLHHGTVSIDSRPGNGTIVTCRIPSGTRPHSIAAE				NA	NA	NA	NA	NA
BMS010_04773	1401	ahcY_1		Adenosylhomocysteinase	ATGAGCCTTGAGAAGGACTACATCGTCGCCGATATCAACCTTGCCGCATTCGGCCGCAAGGAACTGGACATCGCCGAAACCGAAATGCCGGGCCTGATGTCCTGCCGCAAGGAATTCGGCGAAAGCAAGCCGCTGAAGGGCGCACGCATCACTGGCTCTCTTCACATGACGATCCAGACCGGCGTTCTGATCGAAACGCTGAAGGAACTCGGCGCGGACATCCGTTGGGCGTCCTGCAACATTTTCTCGACGCAGGATCATGCAGCGGCCGCCATTGCTGCAGCCGGCATCCCGGTCTTCGCCGTCAAGGGTGAAACCCTGACGGAATATTGGGAATATACCGACAGGATCTTCCAGTGGGCCGATGGCGGCCTCTCCAACATGATCCTCGACGATGGCGGCGACGCCACCATGTACATTCTGCTCGGCGCACGCGCCGAAGCCGGTGAGGATGTTCTTTCCAACCCTGGTTCGGAAGAAGAGGAAATTCTCTTCGCGCAGATCAACAAGCGCCTCAAGGCTTCGCCCGGCTGGTTCACCAAGCAGCGCGACGCACTGAAGGGCGTCACGGAAGAAACGACGACCGGCGTTCACCGTCTTTACGATCTCAGCAAGAAGGGCCTGCTGCCCTTCCCGGCGATCAATGTCAATGACAGCGTCACCAAGTCGAAGTTCGACAACAAATACGGCTGCAAGGAATCGCTGGTGGACGGCATTCGCCGCGCAACCGACGTGATGATGGCCGGCAAGGTTGCCGTGGTCTGCGGTTACGGCGATGTGGGCAAGGGTTCGGCGGCATCGCTGCAGGGCGCCGGCGCCCGCGTGAAGGTCACCGAAATCGATCCGATCTGCGCGCTTCAGGCCGCCATGGACGGTTTCGAGGTCGTTCGTCTGGAGGACGTGGTTTCCTCCGCCGATATCTTCATCACCACCACCGGCAACAAGGACGTGATCCGCATCGAGCATATGCGCGAGATGAAGGACATGGCCATCGTCGGCAATATCGGCCATTTCGACAACGAGATTCAGGTCGCATCGCTGCGTAACCTGAAGTGGACGAACATCAAGCCGCAGGTCGACATGATCGAGTTCCCGAAGGGCAACCGCATCATTCTTCTGTCCGAAGGCCGCCTGCTGAACCTCGGCAACGCCACCGGTCACCCCTCCTTCGTCATGTCGGCCTCCTTCACCAACCAGGTGCTGGGCCAGATCGAGCTCTTCACCAAACAGGGCGAATACAAGAACGAAGTTTACGTGCTTCCCAAGCACCTCGACGAGAAGGTTGCGCGCCTTCATCTTGAGAAGCTTGGTGTGCGCCTGACCGAACTTTCCGACCTTCAGGCAGATTATATCGGCATCTCGAAGGAAGGTCCGTTCAAGGCCGAACACTACAGATATTAA	MSLEKDYIVADINLAAFGRKELDIAETEMPGLMSCRKEFGESKPLKGARITGSLHMTIQTGVLIETLKELGADIRWASCNIFSTQDHAAAAIAAAGIPVFAVKGETLTEYWEYTDRIFQWADGGLSNMILDDGGDATMYILLGARAEAGEDVLSNPGSEEEEILFAQINKRLKASPGWFTKQRDALKGVTEETTTGVHRLYDLSKKGLLPFPAINVNDSVTKSKFDNKYGCKESLVDGIRRATDVMMAGKVAVVCGYGDVGKGSAASLQGAGARVKVTEIDPICALQAAMDGFEVVRLEDVVSSADIFITTTGNKDVIRIEHMREMKDMAIVGNIGHFDNEIQVASLRNLKWTNIKPQVDMIEFPKGNRIILLSEGRLLNLGNATGHPSFVMSASFTNQVLGQIELFTKQGEYKNEVYVLPKHLDEKVARLHLEKLGVRLTELSDLQADYIGISKEGPFKAEHYRY				NA	NA	NA	NA	NA
BMS010_04774	276	ptsO	COG1925	Phosphocarrier protein NPr	ATGTCGCCATTCTCCCGGGAACTACCGATCATCAACAAACGCGGCCTTCACGCCCGGGCTTCTGCAAAATTCGTGCAGATGGTCGAAGGTTTTGACGCGACGATCACGGTTTCCAAGGATGGCATGACCGTTGGCGGCACCTCCATCATGGGCCTGATGATGCTGGCGGCAAGCCCCGGCTGCAGCGTTTATGTCGAGGCAAGCGGCAATCAGGCGAAAGAAGCGCTGGAAGCACTGGAGGCGCTTGTCGCCGACCGCTTCGGCGAAGAAGCCTGA	MSPFSRELPIINKRGLHARASAKFVQMVEGFDATITVSKDGMTVGGTSIMGLMMLAASPGCSVYVEASGNQAKEALEALEALVADRFGEEA	PGPT0016875_1055	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE_PTS_SYSTEM_I,PGPT0016875-ptsH-K02784	NA	NA
BMS010_04775	402	manX	COG2893	PTS system mannose-specific EIIAB component	ATGATCGGACTAGTGCTTGTCACCCATGGCAAGCTGGCTGAGGAGTTTCGCCATGCATTGGAGCATGTCGTCGGTCCCCAGAAATTGATCGAGACGGTCTGTATCGGTCCCGAAGACGACATGGATCAGCGCCGGCAGGATATCATCGACGCCGTTGCGCGCGCCAATGACGGTAATGGCGTGATCATCCTGACGGACATGTTCGGCGGCACGCCTTCCAATCTCGCGATTTCCGTCATGAATAACGGCAACGTCGAAGTCATCGCAGGGGTCAACCTTCCCATGCTGATCAAGCTTGCAGGCGTTCGCAGCGAAGATAATATGGACAAGGCCCTTCAGGATGCATCCGATGCCGGCCGCAAATATATCAACGTCGCCAGCCGCGTTTTGAGCGGCAAGTGA	MIGLVLVTHGKLAEEFRHALEHVVGPQKLIETVCIGPEDDMDQRRQDIIDAVARANDGNGVIILTDMFGGTPSNLAISVMNNGNVEVIAGVNLPMLIKLAGVRSEDNMDKALQDASDAGRKYINVASRVLSGK	PGPT0016995_1112	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MANNOSE_PTS_SYSTEM,PGPT0016995-manXa-K02793	NA	NA
BMS010_04776	465	hprK		HPr kinase/phosphorylase	ATGAACGCTGAACGCTTCAACCTGCACGCCACCGCCATCACCGTTCAAGACACCGGCATCCTTTTCGTCGGGCCTTCGGGCAGCGGCAAAAGCGAGCTTGCCTTCAGCTTCCTGACGGAGGCGGAACGCTGCGGATTGCCGGCGGCGCTGATCGCGGACGATCAGATTTTCGTGTATCGCGATGGCGACAACATCATTGCCGAGCGGCCGGAAGCGATCGCCGGCCTGCTGGAATTGCGCGGTAGCGGTATTGTTACCTTCAAAAGCATTGCGCGCGCTCCACTACATTTTGCGGTCACTACAGTCCTTTCAGGGAGGAATCCGAGACTTCCCGAAGATGACGAGGTGTTTTCCCTGCCCTGCGGCGGGCATATCAGGCTTCTGCGTATTCCGCTTTCCAGTCTTACGCCCTATGGAAAATTTGCTGCACTTGCTCAGAATCTTTTTGAAACGAATGTGAAGTGA	MNAERFNLHATAITVQDTGILFVGPSGSGKSELAFSFLTEAERCGLPAALIADDQIFVYRDGDNIIAERPEAIAGLLELRGSGIVTFKSIARAPLHFAVTTVLSGRNPRLPEDDEVFSLPCGGHIRLLRIPLSSLTPYGKFAALAQNLFETNVK				NA	NA	NA	NA	NA
BMS010_04777	1791	sasA_15		Adaptive-response sensory-kinase SasA	GTGTTGAAGAAAACGCCGGAAACCGTCTCGGACAGTGACGATGCCGAAGACCGCGGCAGCGAACGACGCCATCGTATCCATCCGTTGACGATCATCCGTCGCATTTTCGGCAATGCGGTGTTTTCCAGCCTCACGCGCCGCATCCTGTTCTTCAACGTCGCGGCGACGGTGGTTCTGGTCGGCGGCATTCTGTATCTCAACCAGTTCCGTGAAGGGCTGATCGATGCACGCGTGGAAAGCCTGCTGACGCAGGGCGAGATCATCGCCGGCGCTGTCTCCGCTTCCGCCTCGGTCGATACCAATTCGATTACCATCAATCCGGAAAAGCTGCTCGAATTGCAGGCGGGGCAAAGCATCACCCCTGCCCCCAATGATGAGGACCTGAGTTTCCCGATCAATCCGGAACGGGTGGCGCCGGTGCTGCGGCGGCTGATTTCGCCGACGCGTACCCGCGCGCGGCTGTTCGATGCCGACGCCAATCTGCTGCTCGATTCCCGTCATCTTTATTCGCGCGGTCAGGTGCTGCGCTTCGATCTGCCGCCGGTAACGCCGGAGACGCAGACCTGGGGCGACTGGTTCACCAGCATGTTCAACCGCATGCTGCAACCGAGCAGCCTGCCGCAATATAAGGAAGCGCCTGGCGGCGACGGCTCGATCTATCCGGAAGTGATGAACGCGCTGACGGGTGTGCGCGGCGCGGTGGTGCGCGTCACCGAAAAGGGCGAGCTGATCGTTTCAGTCGCCGTGCCGGTGCAACGCTTCCGGGCGGTGCTCGGCGTTCTGCTGCTCTCAACGCAGGCGGGCGATATCGACAAGATCGTGCATGCGGAGCGCCTCGCCATCATGCGTGTCTTCGGCATCGCCACGCTGGTCAATATCGTGCTGTCGCTGCTCCTGTCCTCCACCATCGCCACACCGCTGCGGCGGCTTTCCGCTGCCGCAATCCGCGTGCGCCGCGGGGCGAGAACCCGCGAGGAAATACCGGATTTCTCGGCGCGTCAGGATGAGATCGGCAATCTTTCGATTGCACTGCGTGAAATGACGACGGCGCTTTACGACCGTATCGACGCCATCGAAAGCTTCGCCGCCGATGTCAGCCATGAGCTCAAGAACCCGCTGACCTCGCTGCGCAGCGCCGTGGAAACCCTGCCGCGCGCCAAGACCGAAGAGTCGAAACAGCGCCTGACCGAAATCATCTTCCACGATGTGCGCCGCCTCGACCGCCTGATCAGCGACATTTCGGATGCCTCGCGGCTCGACGCCGAACTGGCGCGCGCCGACGCCTCGCCGCTCGATCTCGATGTGCTGATGAAGGGTCTGGTGGATATATCCCGCCAGATAAGCACCAAGAAGAAAAGCGTGACGATAGACTATGTCGTCGACCGGAAAGCGGGCGCGAAAACCTCATTCGTGGTGAATGGCCACGACTTGCGTATCGGCCAGATCGTCACCAACCTCATCGAGAATGCGCGCTCCTTCGTTACCGAGGAAAGCGGTCGCATCACCGTGCGCCTTTCCCGTCACAAGGATCGCTGCATCGTGCAGGTGGAGGACAACGGGCCCGGCATTCAGGCCGAAGACATCGACCGGATTTTCGAGCGCTTCTACACCGACCGGCCGGCGAGCGAAGGGTTCGGACAAAATTCCGGCCTTGGCCTTTCGATCAGCCGCCAGATCGCCGAAGCCCATGGCGGCAGTCTGCGGGCGGAAAACGTGGTCGACAAATATGGCGTGATTTCCGGCGCGCGCTTCACCCTGTCGCTGCCGGCGGCCGAAACCCATGAACGCTGA	MLKKTPETVSDSDDAEDRGSERRHRIHPLTIIRRIFGNAVFSSLTRRILFFNVAATVVLVGGILYLNQFREGLIDARVESLLTQGEIIAGAVSASASVDTNSITINPEKLLELQAGQSITPAPNDEDLSFPINPERVAPVLRRLISPTRTRARLFDADANLLLDSRHLYSRGQVLRFDLPPVTPETQTWGDWFTSMFNRMLQPSSLPQYKEAPGGDGSIYPEVMNALTGVRGAVVRVTEKGELIVSVAVPVQRFRAVLGVLLLSTQAGDIDKIVHAERLAIMRVFGIATLVNIVLSLLLSSTIATPLRRLSAAAIRVRRGARTREEIPDFSARQDEIGNLSIALREMTTALYDRIDAIESFAADVSHELKNPLTSLRSAVETLPRAKTEESKQRLTEIIFHDVRRLDRLISDISDASRLDAELARADASPLDLDVLMKGLVDISRQISTKKKSVTIDYVVDRKAGAKTSFVVNGHDLRIGQIVTNLIENARSFVTEESGRITVRLSRHKDRCIVQVEDNGPGIQAEDIDRIFERFYTDRPASEGFGQNSGLGLSISRQIAEAHGGSLRAENVVDKYGVISGARFTLSLPAAETHER	PGPT0000850_232	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-ACIDITY|NITROGEN_RELATED_REGULATION,PGPT0000850-exoS|chvG-K14980	NA	NA
BMS010_04778	747	baeR_1	COG0745	Transcriptional regulatory protein BaeR	ATGACCATGGAGACCAACTACATGCAGACGATCGCGCTTGTCGACGATGACCGGAATATTCTGACTTCGGTATCGATCGCGCTCGAAGCCGAAGGCTACCGGGTCGAAACGTATACGGACGGCGCTTCCGCGCTTGACGGGTTGATCGCCCGTCCCCCGCAGCTCGCCATTTTCGATATTAAGATGCCCCGCATGGACGGTATGGAGCTTTTGCGGCGCCTTCGCCAGAAGTCGGATCTGCCGGTTATCTTCCTCACCTCCAAGGATGAAGAGATCGACGAATTGTTCGGCCTGAAGATGGGTGCGGACGACTTCATCACGAAACCATTCTCGCAGCGCCTTCTGGTGGAACGCGTCAAGGCCATCCTGCGCCGCGCCAGCAGCCGCGAGGCGTCCGCCGCAACCGGCAGCGTGCTGAAGCCGACCGCCGATCAGCAGGCGCGCACACTGGAGCGGGGGCAGCTCGCCATGGACCAGGAACGCCACACCTGCACCTGGAAGGGTGAGCCGGTGACGCTGACGGTCACCGAATTCCTCATCCTGCATTCGCTGGCGCAGCGGCCGGGCGTGGTGAAAAGCCGCGACGCGCTGATGGATGCGGCCTATGATGAACAGGTCTATGTGGACGACCGCACCATCGACAGCCACATCAAGCGCCTTCGCAAGAAGTTCAAACTGGTCGATGGCGACTTCGATATGATTGAAACGCTTTATGGCGTAGGATATCGCTTCCGCGAAGCGGCGTGA	MTMETNYMQTIALVDDDRNILTSVSIALEAEGYRVETYTDGASALDGLIARPPQLAIFDIKMPRMDGMELLRRLRQKSDLPVIFLTSKDEEIDELFGLKMGADDFITKPFSQRLLVERVKAILRRASSREASAATGSVLKPTADQQARTLERGQLAMDQERHTCTWKGEPVTLTVTEFLILHSLAQRPGVVKSRDALMDAAYDEQVYVDDRTIDSHIKRLRKKFKLVDGDFDMIETLYGVGYRFREAA	PGPT0014455_81	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_ACIDIC_STRESS	ACIDIC_STRESS-LOW_ACID_SIGNALLUING,PGPT0014455-chvI-K14981	NA	NA
BMS010_04779	1611	pckA_1	COG1866	Phosphoenolpyruvate carboxykinase (ATP)	ATGAACGAGCTTGGGGTTCATAATCCTGCCAACGGAGTTGCGGAACTCGGACTGGGCGAGGCCTCCCGCGTCTTTTATAACCTCAACGAGAGCGAATTATACGAAGAGGCTATCCGCAATGGTGAAGCAGAGCTAACCATCGATGGCGCGCTGCGTGCCGTCACCGGCCAGCACACGGGTCGTTCTCCGAAGGACAAATTCGTCGTCCGCGACGCTTCCACCGAGAACACCATCTGGTGGGACAATAACAAGCCGCTCTCGCCGGAAAACTTCGAGCTGCTGCACAAGGACATGCTGGCCCATGCCGCCGGAAAGACGCTCTATGTTCAGGACCTGATCGGCGGCGCCGATGAGGAAAACGCTCTGCCGACGCGCGTCGTCACCGAGCTTGCCTGGCATTCGCTGTTCATCCGCAATCTGCTGATCCGTCCGAAGCAGGAAAAACTGGCAGGCTTCAAGCAGAAGCTCACCATCATCAACCTGCCGAGCTTCAAGGCCGATCCGGCCCGTCACGGTGTCCGTTCGGAAACCGTCATCGCCTGCGATCTGACCAACGGCCTCGTTCTGATCGGCGGCACCTCCTATGCCGGTGAAAACAAGAAGTCGGTCTTCACGGTGCTGAACTACCTGCTGCCGGCAAAGGGCGTGATGCCCATGCATTGCTCGGCCAATGTCGGTCCGCAGGGTGATTCCGCCGTTTTCTTTGGCCTTTCCGGCACCGGAAAGACCACGCTGTCGGCTGATCCGTCGCGCACGCTGATCGGCGATGACGAACATGGCTGGGGCGAACACGGTATCTTCAATTTCGAAGGCGGCTGCTATGCCAAGGCGATCAAGCTTTCGGCTGAAGCCGAGCCGGAAATCTACGCCGCGACCCGCCGTTTCGGCACGGTTCTCGAGAACGTCGTGCTGGACGAAAACCGCGTTCCCGATTTCAACGACAACTCGCTGACGGAAAATACTCGCAGCGCCTATCCGCTGCACTTCATTCCGAATGCATCGGAAACGGGCATTGCAGGCCATCCGAAGACGATCATCATGCTCACGGCGGATGCCTTCGGCGTGCTGCCGCCGATTGCCCGGCTGACGCCGGAACAGGCCATGTACCACTTCCTCTCCGGTTACACCGCAAAGGTCGCCGGCACGGAAAAGGGCGTGACCGAGCCGGAAGCGACCTTCTCCACCTGCTTCGGCGCACCCTTCATGCCGCGCCACCCGGCGGAATACGGCAACCTGCTACGCGAACTGATCGGCAAGCATGGTGTGGATTGCTGGCTAGTCAATACCGGCTGGACCGGCGGTGCTTACGGCATCGGCAAGCGCATGCCCATCAAGGCAACCCGCGCGCTTCTGACCGCCGCACTGACCGGCGACCTGAAGAATGCGGAATTCCGCACCGACGCGAATTTCGGTTTCGCCGTGCCGCTGTCGCTGGATGGCGTCGACAGCGCGATCCTCGATCCGCGTTCGACCTGGGCCGATGGCGCAGCCTATGACGCGCAGGCAAAGAAGCTGGTCTCCATGTTCGTCACGAACTTCACCAAGTTCGAAGATCACGTCGACAGCAAGGTTCGCGATGCAGCCCCGGGCCTTTTGCTCGCGGCTGAATAA	MNELGVHNPANGVAELGLGEASRVFYNLNESELYEEAIRNGEAELTIDGALRAVTGQHTGRSPKDKFVVRDASTENTIWWDNNKPLSPENFELLHKDMLAHAAGKTLYVQDLIGGADEENALPTRVVTELAWHSLFIRNLLIRPKQEKLAGFKQKLTIINLPSFKADPARHGVRSETVIACDLTNGLVLIGGTSYAGENKKSVFTVLNYLLPAKGVMPMHCSANVGPQGDSAVFFGLSGTGKTTLSADPSRTLIGDDEHGWGEHGIFNFEGGCYAKAIKLSAEAEPEIYAATRRFGTVLENVVLDENRVPDFNDNSLTENTRSAYPLHFIPNASETGIAGHPKTIIMLTADAFGVLPPIARLTPEQAMYHFLSGYTAKVAGTEKGVTEPEATFSTCFGAPFMPRHPAEYGNLLRELIGKHGVDCWLVNTGWTGGAYGIGKRMPIKATRALLTAALTGDLKNAEFRTDANFGFAVPLSLDGVDSAILDPRSTWADGAAYDAQAKKLVSMFVTNFTKFEDHVDSKVRDAAPGLLLAAE	PGPT0001405_1339	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001405-pckA-K01610	NA	NA
BMS010_04780	435	arfB_2	COG1186	Peptidyl-tRNA hydrolase ArfB	ATGGCCAGCGACCCGCTTTACATCAGCAACCGTATCACCATCGCCGGCTGGGAGCTGACGGAGCAATTCGTGCTGGCCGGCGGGCCGGGCGGCCAAAACGTCAACAAGGTCTCTACGGCGGTTCAGCTGTTTTTCGATATTGCCAATTCGCCCTCCCTTCCGGACCGGGTAAAGACCAACGCACTGCGCCTCGGTGGCAGGCGCGTTTCGAAAGACGGCGTGCTGATGATCGAGGCAAGCCGGTTTCGCAGCCAGGAGCGCAATCGCGAAGATGCACGCGAGCGGCTTAAGGAGTTGATCCTGGAGGCGGCGGCTCCGCCGCCACCGGTTCGCAAGGCCACCAAGCCGACAAAAGGCTCGGTCGAGCGTCGTCTGAAGGCAAAGTCCGGCCGTTCGGATATCAAGAAGATGCGCGGCAAGCCCTCCGGCGACTAA	MASDPLYISNRITIAGWELTEQFVLAGGPGGQNVNKVSTAVQLFFDIANSPSLPDRVKTNALRLGGRRVSKDGVLMIEASRFRSQERNREDARERLKELILEAAAPPPPVRKATKPTKGSVERRLKAKSGRSDIKKMRGKPSGD	PGPT0013740_337	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
BMS010_04781	1002	coaA_1	COG1072	Pantothenate kinase	ATGAATGTCGAGGCAGGCAGCGGGGAGAGAGGCATGCCGAGCACACTCGATCATTTCCGACCGGATGAATATTCGCCCTACCACTTCTTCAGTTCGGAAGAATGGTCGAAGTTTCGTGCCGATACACCACTGACGCTTTCCGCCGACGAGGTCAAACGGCTGCGCTCGCTGGACGACCCGATCGATCTGGACGAGGTGCGGCGCATTTACCTGTCATTGTCGCGCCTCCTGTCATCGCATGTGGAGGCGTCGCAGCTGCTGTTCGAACAGCGCAACCGCTTCCTCAACATGGCGGATGTCAACAAGACGCCTTTCGTTATCGGCATTGCCGGCTCCGTGGCGGTTGGAAAATCGACGACGGCGCGTATCCTGAAGGAGCTTCTGGCGCGCTGGCCCTCCAGCCCCAAGGTCGATCTCATCACGACAGACGGATTTCTTTATCCGAATGAGGTTCTACGGCGCGAGAACCTGATGGAGCGCAAGGGTTTTCCCGAAAGCTACGATATCGGCGCGCTCCTGCGTTTCCTGTCGGCGATCAAGGCGGGCCAGCCGAATGTGAAGGCACCGCGTTATTCGCACCTGACCTACGACGTTCTGCCGAACGAGTTCACTGTCATCGACCAGCCCGATATTCTCATCTTCGAAGGCATTAACGTGCTGCAATCGCGCGATTTGCCGGCGGGCGGGCGGATCGTGCCGATCGTTTCCGACTTCTTCGATTTCTCAATCTATATCGATGCCGATGAGGGCCTTATTCACAACTGGTATGTGAACCGGTTCATGAATCTGAGAAAAACCGCCTTCCGCGATCCCAGTTCGTTCTTCAACCGTTATGCCTCGATCAGTGAAGAAGCGGCGTTGAGCATTGCCGAAGGGCTCTGGCAGAACATCAACCTGAAGAACCTGCGGCAGAACATCGTGCCGACGCGCCCGCGCGCCGATCTTATTCTACGCAAAGGCAGGAACCATCTGATCGACACCGTTGCGCTTCGTAAGCTCTGA	MNVEAGSGERGMPSTLDHFRPDEYSPYHFFSSEEWSKFRADTPLTLSADEVKRLRSLDDPIDLDEVRRIYLSLSRLLSSHVEASQLLFEQRNRFLNMADVNKTPFVIGIAGSVAVGKSTTARILKELLARWPSSPKVDLITTDGFLYPNEVLRRENLMERKGFPESYDIGALLRFLSAIKAGQPNVKAPRYSHLTYDVLPNEFTVIDQPDILIFEGINVLQSRDLPAGGRIVPIVSDFFDFSIYIDADEGLIHNWYVNRFMNLRKTAFRDPSSFFNRYASISEEAALSIAEGLWQNINLKNLRQNIVPTRPRADLILRKGRNHLIDTVALRKL	PGPT0008770_95	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0008770-coaA-K00867	NA	NA
BMS010_04782	324	hisE_2	COG0140	Phosphoribosyl-ATP pyrophosphatase	ATGAGCGCATTTTCCCTTTCCGATCTGGAGCACATCGTCGCGACCCGTGCCGCTGCCTCTCCTGACGAATCCTGGACGGCCAAGCTGGTTGCGGCGGGCCAGGAGCGCGCGGCGAAAAAACTCGGCGAAGAAGCGGTCGAAGCCGTTATCGCGGCCATCGCGAAAGATCGCGACGGGCTGAAGAACGAGGCGGCCGATCTGCTCTACCATCTGCTGGTGGTGCTGAAGATCGCAGATATTCCGTTGGACGACGTTTTTGCCGAGCTGGAGCGTCGTACGGGGCAAACCGGCCTTGCGGAAAAAGCGGCGAGGCCGACATCATGA	MSAFSLSDLEHIVATRAAASPDESWTAKLVAAGQERAAKKLGEEAVEAVIAAIAKDRDGLKNEAADLLYHLLVVLKIADIPLDDVFAELERRTGQTGLAEKAARPTS	PGPT0007595_20	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007595-ispF-K01770	NA	NA
BMS010_04783	777	hisF_1	COG0107	Imidazole glycerol phosphate synthase subunit HisF	ATGACCCTCAAAGCCCGCGTTATTCCCTGCCTCGATGTGAAAGACGGCCGTGTCGTCAAGGGCGTGAACTTCGTCGATCTGATCGACGCCGGCGACCCGGTCGAGGCGGCGAAAGCCTATGATGCGGCGGGAGCGGACGAACTCTGCTTCCTCGACATCACCGCCTCTTCGGATAATCGCGACACGATCTTCGATGTCGTCTCGCGCACCGCCGATCATTGCTTCATGCCGCTGACCGTCGGTGGCGGAGTTCGCGCCGTCGCCGACATCCGCAAGCTGCTTCTGTGCGGCGCGGACAAGGTCTCTATCAACTCTGCGGCCGTCAAGGATCCGGATTTCGTGGCGCAGGCGGCCGACAAGTTCGGCAACCAGTGCATCGTCGTTTCCATCGACGCCAAGCGGGTTTCGAAGGATGGAGAAGAAGGCCGCTGGGAAATCTTCACGCATGGCGGACGCCAGCCCACCGGTATCGACGCCGTGGAATTCGCCATCAAGATGGTCGAACGCGGCGCTGGCGAATTGCTTGTTACCTCGATGGATCGCGACGGCACCAAGAGCGGATACGATATCGGCCTGACACGCAGCATTGCCGATCAGGTTCGCGTGCCCGTCATCGCCTCCGGCGGCGTCGGCACGCTGGACGATCTGGTGGCGGGCGTGTGCGATGGCCATGCAACTGCGGTGCTCGCTGCCTCCATCTTCCACTTCGGCACCTATTCGATCGGGCAAGCCAAGAACTACATGGCGGAGCACGGCATCGCCATGCGTCTCGATTGA	MTLKARVIPCLDVKDGRVVKGVNFVDLIDAGDPVEAAKAYDAAGADELCFLDITASSDNRDTIFDVVSRTADHCFMPLTVGGGVRAVADIRKLLLCGADKVSINSAAVKDPDFVAQAADKFGNQCIVVSIDAKRVSKDGEEGRWEIFTHGGRQPTGIDAVEFAIKMVERGAGELLVTSMDRDGTKSGYDIGLTRSIADQVRVPVIASGGVGTLDDLVAGVCDGHATAVLAASIFHFGTYSIGQAKNYMAEHGIAMRLD	PGPT0007095_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-HQQ|PQS_BIOSYNTHESIS,PGPT0007095-trpE|phnA-K01657	NA	NA
BMS010_04784	744	hisA_1	COG0106	1-(5-phosphoribosyl)-5-[(5-phosphoribosylamino)methylideneamino] imidazole-4-carboxamide isomerase	ATGATTCTTTTTCCCGCAATCGACCTTAAAGACGGCCAGTGCGTTCGCCTGAAACTCGGCGATATGGACCAGGCCACCGTTTATAACGAGGACCCCGGCGCACAGGCCAAGGCCTTCGAGGATCAGGGCTTCGAATGGCTGCATGTCGTTGATCTCAACGGCGCATTCGCCGGCCAGACCGTGAATGGCGAGGCAGTCGACGCCATTCTGAAAGCCACGAAAAACCCGGTACAGCTGGGTGGCGGCATCCGCACGCTCGATCATATCGAAGCGTGGCTGAGCCGTGGGCTTGCCCGTGTCATTCTCGGGACCGTTGCGGTGCGCGACCCGGTTCTGGTCATCGAAGCCTGCAAGCGTTTCCCCGGCCAGGTCGCCGTCGGCATCGATGCCAAGGGCGGCAAGGTCGCTGTTGAGGGCTGGGCGGAAGCGTCCGAACTCGGCGTCATCGAACTGGCCAAACGTTTCGAGGGTGCCGGCGTCGCCGCCATCGTCTATACCGATATCGATCGCGACGGCATTCTGGCCGGCATCAACTGGGCTTCGACGCTGGAACTGGCCGACGCCGTTTCCATCCCGGTCATTGCCTCCGGCGGTCTCGCCTCCATCGACGACATCAAGCGCATGTTGCAGCCGGATGCCGCAAAGCTCGAAGGCGCGATTTCCGGCCGCGCGCTTTACGACGGCCGTATCGACCCTGCTGAGGCGCTTGCCCTTATCAAGGCTGCAAAGGAGGTAAACGCATGA	MILFPAIDLKDGQCVRLKLGDMDQATVYNEDPGAQAKAFEDQGFEWLHVVDLNGAFAGQTVNGEAVDAILKATKNPVQLGGGIRTLDHIEAWLSRGLARVILGTVAVRDPVLVIEACKRFPGQVAVGIDAKGGKVAVEGWAEASELGVIELAKRFEGAGVAAIVYTDIDRDGILAGINWASTLELADAVSIPVIASGGLASIDDIKRMLQPDAAKLEGAISGRALYDGRIDPAEALALIKAAKEVNA				NA	NA	NA	NA	NA
BMS010_04785	651	hisH_1	COG0118	Imidazole glycerol phosphate synthase subunit HisH	ATGCGTGTCGCGATCATCGACTACGGTTCGGGCAACCTGCGTTCGGCCACAAAAGCTTTCGAGCGTGCCGCCCGCGAAGCCGGCATCAATGCAACCATCGACCTGACCGACAAGCCGGATCATGTCGCCTCGGCGGATCGCATCGTTCTGCCTGGTGTGGGCGCCTATGCGGATTGCCGTGCAGGCCTCGATGCCGTTCCCGGCATGCATGACGCACTCATCGAAGCCGTGGAGAAAAAGGCCCATCCCTTCCTCGGCATTTGCGTCGGCATGCAGCTCATGTCCTCGCGCGGGCTGGAAAAGACTGTCAGCAAGGGCCTTGGCTGGATCGAAGGCGATGTCGTGGAAATGACGCCGTCCGATCCGAGCCTCAAGATTCCGCAGATCGGCTGGAATACGCTGGAAATCCGCCACGCACACCCTCTTTTCGACGGCATCAAGACCGGCGCGGACGGGTTGCACGCCTATTTCGTGCATTCCTATCATCTGGCCGCCAAGCATTCGACCGATGTCATCGCCACCACCAATTACGGGGGCGCGATGACGGCTTTCGTCGGTCGTGACAATATGGCGGGTGCGCAATTCCACCCGGAAAAGAGCCAGACGCTCGGCCTTGCCCTGATTTCCAATTTCCTGCGCTGGAAGCCCTGA	MRVAIIDYGSGNLRSATKAFERAAREAGINATIDLTDKPDHVASADRIVLPGVGAYADCRAGLDAVPGMHDALIEAVEKKAHPFLGICVGMQLMSSRGLEKTVSKGLGWIEGDVVEMTPSDPSLKIPQIGWNTLEIRHAHPLFDGIKTGADGLHAYFVHSYHLAAKHSTDVIATTNYGGAMTAFVGRDNMAGAQFHPEKSQTLGLALISNFLRWKP				NA	NA	NA	NA	NA
BMS010_04786	495			hypothetical protein	ATGACAAGCTATCTCGTTCTGGAAGCCCCCAACGGGCCGGACAGGGACCACAAGACGACCCGCTTTGTTGCCGATCGTTTCGTTTGGCTTGCTCTCATTGCGCCATGGTTATGGCTTGCGATCAACCGGCTGTGGCTGGCGACGGCGGTTGTTGTGATCGCCCTCATTCTGGCCGGGCAGGTCTCGATATTAGCCGGATTCGAACCGGTTGGCCTTCTCTGCGGTTTCGCCATCGGGCTCATCACGGCGCTGGAGGGACGCAATTTTCTCGTCCGGCACCTGATCCGCAAGGGCTGGACGCTGACATCCGTCGTTTCCGCCCCTGATCTTTCGAGCGCCGAAGACATATATTTCTCCGGTCTCTCCGAAAACACCGAGAGGGCGGAACAGCTGTCCCAGCCGGTCTGGACCCCTTCGCCGCAAAAGAGCGGCGACAAAAACTTCGTCAACGATCCCGCCGGATCGTTTCTTTTCGACTTGAATGGAAGGCGCTGA	MTSYLVLEAPNGPDRDHKTTRFVADRFVWLALIAPWLWLAINRLWLATAVVVIALILAGQVSILAGFEPVGLLCGFAIGLITALEGRNFLVRHLIRKGWTLTSVVSAPDLSSAEDIYFSGLSENTERAEQLSQPVWTPSPQKSGDKNFVNDPAGSFLFDLNGRR				NA	NA	NA	NA	NA
BMS010_04787	597	hisB_1	COG0131	Histidine biosynthesis bifunctional protein HisB	ATGGCAGAACGTAAAGGCGAGATTATCCGCAAGACCAACGAGACCTCGGTTTCGGTGCGTGTGGATATCGACGGCACCGGCAAATCGAAAATTTCCACCGGCGTGGGATTTTTCGACCATATGCTGGACCAGCTCAGCCGCCATTCGCTGATCGACATGGAGATCGAGGTAGAGGGCGACCTGCATATCGACGACCACCACACCGTGGAAGATACCGGCATCGCCATCGGCCAGGCGATCGCGAAGGCGCTTGGCGACCGGCGTGGCATTACCCGCTACGCCTCGCTCGATCTTGCCATGGACGAGACGATGACCAAAGCCGCCGTCGATATTTCCGGCCGTCCTTTCCTCGTCTGGAACGTCAATTTTTCCGCGCCGAAGATAGGCACGTTCGACACGGAACTGGTGCGCGAGTTCTTCCAGGCGCTGGCGCAGAATGCCGGTATCACATTGCATATCCTGAACCATTACGGCGCCAACAACCATCATATCGCCGAGACATGCTTCAAGGCCGTTGCCCGCGTTCTTCGCACGGCAACCGAGATCGACCCCCGGCAGGCAGGCCGCGTTCCCTCCACGAAGGGCATGCTGGCCTGA	MAERKGEIIRKTNETSVSVRVDIDGTGKSKISTGVGFFDHMLDQLSRHSLIDMEIEVEGDLHIDDHHTVEDTGIAIGQAIAKALGDRRGITRYASLDLAMDETMTKAAVDISGRPFLVWNVNFSAPKIGTFDTELVREFFQALAQNAGITLHILNHYGANNHHIAETCFKAVARVLRTATEIDPRQAGRVPSTKGMLA	PGPT0020305_15	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817	NA	NA
BMS010_04788	483	hslV_2	COG5405	ATP-dependent protease subunit HslV	ATGGCTGGCGATGGTCAGGTAAGCCTTGGCCAGACGGTCATGAAGGGCAATGCCCGCAAGGTTCGCCGCATCGGCAAGGGCGAAGTGATTGCCGGTTTTGCCGGTGCAACGGCGGATGCTTTTACGCTGCTTGACCGTCTTGAAAAGAAACTCGAGCAATATCCCGGCCAGCTCATGCGCGCCGCCGTAGAGCTTGCGAAGGACTGGCGCACGGATAAATATCTGCGCAATCTCGAAGCCATGATGCTGGTGGCCGATAAATCCACCACGCTCGCCATCACCGGCAATGGCGATGTGCTGGAGCCCGAGCACGGCGCGATCGCCATCGGTTCCGGCGGCAACTACGCCTTTGCGGCTGCCCGCGCCATGATGGACACGGACAAATCGGCGGAGGAGGTGGCGCGCCAGTCGCTCGATATCGCTGCCGATATCTGCGTTTATACCAACCACAATCTCGTCGTCGAAACGCTCGACGCCGAATAA	MAGDGQVSLGQTVMKGNARKVRRIGKGEVIAGFAGATADAFTLLDRLEKKLEQYPGQLMRAAVELAKDWRTDKYLRNLEAMMLVADKSTTLAITGNGDVLEPEHGAIAIGSGGNYAFAAARAMMDTDKSAEEVARQSLDIAADICVYTNHNLVVETLDAE				NA	NA	NA	NA	NA
BMS010_04789	1308	hslU_2	COG1220	ATP-dependent protease ATPase subunit HslU	ATGACCACTTTTTCTCCCCGGGAAATCGTCTCGGAACTCGACCGCCACATCATCGGCCAACATGATGCAAAACGCGCGGTGGCGATTGCGCTGCGCAACCGTTGGCGCCGCCAGCAGCTCGATGAGAGCCTGCGCGACGAAGTCATGCCGAAAAACATTCTCATGATCGGGCCGACCGGTGTCGGCAAGACGGAGATTTCCCGCCGCCTCGCAAAGCTGGCCGGCGCGCCCTTCATCAAGGTCGAGGCGACGAAATTCACCGAAGTCGGTTATGTCGGCCGCGATGTCGAACAGATTATTCGCGATCTGGTCGAGATCGGCATCGGCCTCGTGCGTGAAAAGAAGCGCGCCGAAGTACAGGCCAAGGCGCATCAAAGCGCCGAAGAGCGGGTGCTCGATGCGCTGGTTGGCGCAACCGCATCGCCCGGTACGCGTGAAAGCTTCCGCAAGAAGCTGCGCGACGGCGAACTGGACGACAAGGAAATCGACATCGAAGTGGCGGATAGCGGATCGGGCATGCCCGGTTTCGAAATTCCCGGCATGCCGGGCGCCAATATCGGCGTTCTCAACCTGTCGGAAATGTTCGGCAAGGCCATGGGCGGCCGCACCAAGAAGGTGCGCACGACGGTATCGAAATCCTATGCCGATCTGATCCGCGATGAATCCGACAAGCTGCTCGACAATGAAATGATCCAGCGCGAGGCGGTGAAATCGGTCGAAAATGACGGCATCGTCTTCCTCGACGAAATCGACAAGATCGCCGCCCGTGACGGCGGCATGGGCGCCGGCGTCTCGCGCGAAGGCGTGCAGCGCGATTTGCTTCCGCTTGTCGAAGGCACGACGGTTTCGACGAAATACGGGCCGGTAAAAACCGACCACGTTCTTTTCATCGCATCGGGCGCTTTCCATGTGGCAAAGCCGTCGGATCTTCTGCCGGAGCTTCAGGGCCGTCTGCCGATCCGTGTGGAGCTGAAGCCGCTGACCAAGGAGGATTTCCGCCGTATCCTGACGGAGACGGAAGCAAGCCTCATCCGCCAGTATAAAGCGCTGATGGCGACGGAAGAACTCGACCTCGATTTCACCGATGATGCAATCGATGCCCTGGCCGATGTGGCTGTTCATCTCAATTCGTCGGTCGAGAATATCGGTGCGCGCCGTCTGCAGACGGTGATGGAGCGTGTTCTGGACGAGATTTCCTTCAATGCGCCGGATCGCGGTGGTTCCGCCGTCAAGATCGATCAGGAATATGTCCGCAAACATGTCGGCGATCTCGCCGCCGATACGGATTTGTCCCGCTATATTCTCTGA	MTTFSPREIVSELDRHIIGQHDAKRAVAIALRNRWRRQQLDESLRDEVMPKNILMIGPTGVGKTEISRRLAKLAGAPFIKVEATKFTEVGYVGRDVEQIIRDLVEIGIGLVREKKRAEVQAKAHQSAEERVLDALVGATASPGTRESFRKKLRDGELDDKEIDIEVADSGSGMPGFEIPGMPGANIGVLNLSEMFGKAMGGRTKKVRTTVSKSYADLIRDESDKLLDNEMIQREAVKSVENDGIVFLDEIDKIAARDGGMGAGVSREGVQRDLLPLVEGTTVSTKYGPVKTDHVLFIASGAFHVAKPSDLLPELQGRLPIRVELKPLTKEDFRRILTETEASLIRQYKALMATEELDLDFTDDAIDALADVAVHLNSSVENIGARRLQTVMERVLDEISFNAPDRGGSAVKIDQEYVRKHVGDLAADTDLSRYIL				NA	NA	NA	NA	NA
BMS010_04790	966			hypothetical protein	GTGCGCAAAACTCTTCTGGCATTTGCCGCTGCTTTGACGTTCACCGTCACCGCGTCTTCTTACGTCGAAGCCGCGACGGTCGTTCCGCCAGGCAATCGCAATGCCGAACAGCCCGGCGTTCCCGGCGCTTCCGCAAAAAGAACAAAGGCGTCCAACACCTCCTTCGAGCGCAAATACCAGAAGGTCATCGACCTTTTGTCCTCCGACAAGGCGCTGATCGCCAAGATCAAGTCGACGGCCGGGCGCTACGGCATCGATCCGATCCATATGATAGGCGCGATCGTCGGCGAACATACCTATAATGTCGACGCCTATGACCGGCTGCAGTCCTATTACGTCAAGGCGGCGTCTTATGCGGGCAACAGCTTCCGTTTCGGCTACAAGGACGAAACCATTGCGCAGTTCCTGACCCATTCGCAATTTGCCAAATGCCAGTCGAAAAAGGATTCCTACAGCCTCTGGAACTGTCGGGAAGATGTCTGGGAAGACAGTTTCCGCGGCAAGACGGTTGATGATGTCGCCTACCCGAACAACCGTTTCAGCGCCGTGTTTTTCCAGCCCTTCTATGCCGGTCAGACCTTCGGCCTCGGCCAGATCAACCCGCTGACGGCGCTGATGTTGTCCGATATGGTGTCCAGAACTTCGGGCTATGAGAAGCTGGATGAGAACGACGCCACCGCCGTCTACACCGCCATCATGGACCCTGACCGGTCGCTCGCTTTCATGGCGGCGTCCATCCGCAAGTCTATCGACGACTATAAATCTATTGCCGACATGGATATTTCGAAAAATCCGGGTGTGACCTCCACGCTTTATAATGTCGGCGGGTCGCAGCAGCGTGCCGCTGCGCTTGCCCAGAAGAACCGCCAGCGCGCCTCAGGCGGGGAGCAGCCCCTGTTGCCGGAGGAAAATTATTACGGCTGGCTGGTGAATGATCGCATCAAGGATTTGCAGGCGCTTTTGTAA	MRKTLLAFAAALTFTVTASSYVEAATVVPPGNRNAEQPGVPGASAKRTKASNTSFERKYQKVIDLLSSDKALIAKIKSTAGRYGIDPIHMIGAIVGEHTYNVDAYDRLQSYYVKAASYAGNSFRFGYKDETIAQFLTHSQFAKCQSKKDSYSLWNCREDVWEDSFRGKTVDDVAYPNNRFSAVFFQPFYAGQTFGLGQINPLTALMLSDMVSRTSGYEKLDENDATAVYTAIMDPDRSLAFMAASIRKSIDDYKSIADMDISKNPGVTSTLYNVGGSQQRAAALAQKNRQRASGGEQPLLPEENYYGWLVNDRIKDLQALL				NA	NA	NA	NA	NA
BMS010_04791	2169	glcB_1	COG2225	Malate synthase G	GTGAGCCGCACGAATAAATTCGGTCTTTCCATCGATGACAGGCTTTATGCCTTTTTGACTGACGACGTCCTGCCGGGCACGGGTCTGGACAGTGAGGCGTTCTTCGAAGGTTTTTCGACCATTGTTCACGAGCTTTCTCCGAAGAACCGCGAATTGCTGGCAAAGCGTGACGCCCTGCAGGAAAAGCTGGATGGCTGGTATCGGCAGAATGGCGCGCCGGCGGATTTTGACGCCTATGAGGGCTTTCTGAAGGAAATCGGCTATCTGCTGCCGGAAGGTCCCGGCTTCCAGGTGGAAACCAGCAATGTCGACCCTGAAATCGCCGCCGTTGCCGGCCCGCAGCTCGTCGTTCCGGTCATGAATGCGCGTTATGCGCTGAATGCGGCCAATGCCCGCTGGGGTTCGCTTTACGATGCGCTTTACGGCACGGATGCCATTTCTGATGCCGATGGTGCGGAGAAGGGCAGGGGGTATAATCCGAAGCGCGGTGAAAAGGTCATTGCCTGGGCGCGAAACTTCCTCGATGAATCCGCTCCGTTGGAAACGGGAAGCTGGTCCGAGGTGACCGGTTTCAAGATCGAAAATGGCCTGTTGCAGCTTGCTATCGGCGACGCCAGGACTGGTCTCAAGGATGCAGCCCAGTTCAAGGGTTTCAGCGGCGAAGCGGCAAAGCCTGCAACGATCCTGCTCGGCAAGAATGGTTTGCACACCGAAATCGTCATCGATCCCACGACCGAAATCGGCAAGGGCGACAAGGCGGGCATCTCCGATGTCATTCTCGAATCCGCGCTCACGACCATCATGGATTGCGAAGATTCGGTTGCCGCCGTCGATGCCGAAGACAAGGTGCTGGTTTATGGCAACTGGCTTGGCCTGATGCGCGGCGACCTGACCGAAGAAGTATCCAAGGGCGGAAAGACCTTCACCCGCAGCCTCAACCCTGATCGCTATTACACGGCTCCCAATGGTGCCGCGCTGACCTTGCCGGGCCGGTCACTGATGTTGGTGCGCAATGTCGGTCATCTGATGACCAATCCGGCGATCCTCGACAGGGATGGTCGGGAGGTTCCTGAAGGCATCATGGACGCCGTCGTCACGGCGTTGATCGCCCTTTATGATGTCGGTCCATCCGGGCGGCGTCAGAATTCCCGCGCCGGCTCCATGTATGTCGTCAAGCCGAAGATGCACGGGCCGGAGGAAGTGGCCTTCGCCAACGAAATCTTCAGCCGGGTCGAAAAGCTTGTCGGCATGGCGCAGAACACCATGAAGATGGGCATCATGGATGAGGAGCGCCGCACCACGGTCAACCTCAAGGAAAGCATTCGCGCTGCGAAGGATCGCGTCGTCTTCATCAATACGGGCTTCCTCGACCGCACTGGCGACGAAATCCACACCTCGATGGAGGCGGGTCCGATGATCCGCAAGGGCGACATGAAGCAGGCGGCATGGATCGCGGCTTACGAGAACTGGAACGTCGATATCGGCCTCGAATGCGGCCTTTCCGGCCATGCGCAGATCGGCAAGGGCATGTGGGCCATGCCGGACCTGATGGCGGCTATGCTGGAGCAGAAGATCGCGCATCCGAAGGCCGGCGCCAATACGGCCTGGGTGCCGTCGCCGACGGCGGCGACGCTGCATGCCACGCATTATCACAAGGTCGATGTCGCTGCTGTTCAGGAAGGTTTGAAAAGCCGCGGCCGTGCGAAGCTTTCCGATATTCTGTCGGTGCCGGTCGCGCCGCGTCCCAACTGGACGCCGGAAGAAATCCAGCGCGAACTCGACAACAACGCGCAGGGCATTCTCGGATACGTCGTGCGCTGGGTCGATCAGGGCGTTGGCTGCTCCAAGGTGCCGGATATCAACAATATCGGGCTGATGGAAGACCGCGCCACGCTTCGCATCTCCGCGCAACACATGGCGAACTGGCTGCGCCACGGCGTGGCGACAGAGGACCAGATCGTCGAAACCATGAAGCGCATGGCCGCCGTGGTCGATGCGCAGAATGCCGGCGATCCGGCCTATCTGCCGATGGCATCCGACTTCGACGGATCGGTCGCATTTCAGGCGGCTGTCGAACTGGTGCTGAAGGGCCGCGAACAGCCGAACGGCTACACCGAGCCGGTTCTGCACCGCCGTCGTCTGGAACTGAAGGCCAAGCAGGCGGCCTGA	MSRTNKFGLSIDDRLYAFLTDDVLPGTGLDSEAFFEGFSTIVHELSPKNRELLAKRDALQEKLDGWYRQNGAPADFDAYEGFLKEIGYLLPEGPGFQVETSNVDPEIAAVAGPQLVVPVMNARYALNAANARWGSLYDALYGTDAISDADGAEKGRGYNPKRGEKVIAWARNFLDESAPLETGSWSEVTGFKIENGLLQLAIGDARTGLKDAAQFKGFSGEAAKPATILLGKNGLHTEIVIDPTTEIGKGDKAGISDVILESALTTIMDCEDSVAAVDAEDKVLVYGNWLGLMRGDLTEEVSKGGKTFTRSLNPDRYYTAPNGAALTLPGRSLMLVRNVGHLMTNPAILDRDGREVPEGIMDAVVTALIALYDVGPSGRRQNSRAGSMYVVKPKMHGPEEVAFANEIFSRVEKLVGMAQNTMKMGIMDEERRTTVNLKESIRAAKDRVVFINTGFLDRTGDEIHTSMEAGPMIRKGDMKQAAWIAAYENWNVDIGLECGLSGHAQIGKGMWAMPDLMAAMLEQKIAHPKAGANTAWVPSPTAATLHATHYHKVDVAAVQEGLKSRGRAKLSDILSVPVAPRPNWTPEEIQRELDNNAQGILGYVVRWVDQGVGCSKVPDINNIGLMEDRATLRISAQHMANWLRHGVATEDQIVETMKRMAAVVDAQNAGDPAYLPMASDFDGSVAFQAAVELVLKGREQPNGYTEPVLHRRRLELKAKQAA	PGPT0001445_60	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-OXALACETIC_ACID_BIOSYNTHESIS,PGPT0001445-aceB|glcB-K01638	NA	NA
BMS010_04792	714			hypothetical protein	ATGCGCATCCGTACCCCATTGACCGCACTCGGTCTGACGGCAGCACTGGCTCTGGCCGGCTGCGCCGAAACTACCTCCCAATCCTCCGCTCCGACCTCCGGCAAGATCGCAGCGTCCGTACCGGTTGCTGACCCCGTTCCGGCAAAGGTCGAAACCGTCCAGATATTCAACGATGTCTACGGTCCCGTGACCGATGCGGGCTATGCGCTGCCGGCCATTCCAATCAATCGTGTGAATGAGAAGTATCGCCGTCAGATCGTCGAATTCCAGACATCCGAACGCGCCGGCACCATCATCGTCAATACGCGTGAGCGTTACCTCTATTACATCCTGTCCGGCAACCGCGCGGTTCGTTACGGCATCGGCGTCGGCAAGGCAGGTTTCGCCTGGGCCGGTGAGGCCTATGTCGCCTGGAAGCAGGAATGGCCGATGTGGCATCCGCCGAAAGAAATGGCGGACCGTAAGCCGGAAGTCGCCAAATATGTCGAGGCTGGCATGGGTCCGGGTCTTACCAACCCGCTCGGCGCGCGCGCCATGTATCTCTTCAATGAAAAGGGACAGGACACGCTGTTCCGCATCCATGGTTCGCCCGAATGGGCCTCGATCGGCACCGCCGCCTCTTCCGGCTGCATCCGCATGATCAACCAGGACGTCATCGACCTTTACAGCCGCGTTCGTCCCGGCCGCAGCACCAAGGTCATCGTGATCCAGTAA	MRIRTPLTALGLTAALALAGCAETTSQSSAPTSGKIAASVPVADPVPAKVETVQIFNDVYGPVTDAGYALPAIPINRVNEKYRRQIVEFQTSERAGTIIVNTRERYLYYILSGNRAVRYGIGVGKAGFAWAGEAYVAWKQEWPMWHPPKEMADRKPEVAKYVEAGMGPGLTNPLGARAMYLFNEKGQDTLFRIHGSPEWASIGTAASSGCIRMINQDVIDLYSRVRPGRSTKVIVIQ				NA	NA	NA	NA	NA
BMS010_04793	486			hypothetical protein	ATGACTATTCTTTCCGTTACCAACAATAATCCGTTAATAGACGGTCGCCAGTCGGACAAGGCGATGCTGGTCCGCCGCGGCGTTCAGGTGCTTTTGCACGAAATGCGCCATTCGGTGCTGCCCGAACTGCCGCTTGCAAGCGGGCGGCGGGCAGATCTCATCAGCCTGTCGGTCAAGGGTGAGATCTGGATCATCGAAATCAAATCCTCCATCGAGGATTTCCGTGTCGATCGCAAATGGCCGGAATACCGCCTGCATTGCGACCGCCTGTTCTTCGCCACCCATCCTGAAGTGCCGACCGACATATTCCCGGAGGAGTGCGGGCTGATCCTGTCGGATGGATATGGCGCCCATATGCTGCGCGATGCGCCCGAGCATAAATTGCCGCCCGCGACCCGCAAGTCGGTGATGCTGGATTTCTCGCGAACCGCTGCGACCCGGCTGATGCTGGCGGAATGGACGACCGGGCGCAGCTTCGGAGAATGA	MTILSVTNNNPLIDGRQSDKAMLVRRGVQVLLHEMRHSVLPELPLASGRRADLISLSVKGEIWIIEIKSSIEDFRVDRKWPEYRLHCDRLFFATHPEVPTDIFPEECGLILSDGYGAHMLRDAPEHKLPPATRKSVMLDFSRTAATRLMLAEWTTGRSFGE				NA	NA	NA	NA	NA
BMS010_04794	588	regA_2	COG4567	Photosynthetic apparatus regulatory protein RegA	ATGAAGATAGAAGACCAGAACAACTCCACCAGCGCGCCAACGGACGACATCGACCCGATCGGACCCGACAGATCGCTGCTGATCGTCGATGATGACGGCCCGTTCCTGCGCCGGCTTGCCCGGGCAATGGAAACACGCGGCTTTACCGTCGACACCGCCGAGACGGTCAGCGATGGCATTGCCCGCTCCAGAGCTGCACCGCCGAAATATGCGGTTGTCGATCTGAGGCTTGCGGATGGCAACGGTCTGGAAGTCATCGAGGCCATCAGGCAGAACCGGGACGATACGCAGATCGTCGTTCTGACCGGTTACGGCAATATCGCAACCGCCGTTACCGCCGTGAAGCTTGGAGCGCTGGATTATCTCGCCAAGCCCGCCGATGCGGACGATGTGTTCAATGCGCTGACGCAGCGCAAGGGCGAAAAGACCGAAGTCCCCGAAAACCCGATGTCGGCAGACCGGGTTCGGTGGGAGCATATTCAACGTGTCTATGAAATGTGCGAGCGCAACGTTTCGGAAACCGCCCGCCGGCTGAACATGCACCGGCGAACGCTGCAGCGCATTCTCGCCAAGCGCGCACCCAAATAA	MKIEDQNNSTSAPTDDIDPIGPDRSLLIVDDDGPFLRRLARAMETRGFTVDTAETVSDGIARSRAAPPKYAVVDLRLADGNGLEVIEAIRQNRDDTQIVVLTGYGNIATAVTAVKLGALDYLAKPADADDVFNALTQRKGEKTEVPENPMSADRVRWEHIQRVYEMCERNVSETARRLNMHRRTLQRILAKRAPK	PGPT0000540_95	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0000540-regA|regR|actR-K15012	NA	NA
BMS010_04795	1335	regB_2		Sensor histidine kinase RegB	ATGATGAACAGGGCAAAGGAGATGAAGGTGGCTGGCCATTCTATCGAAACCACGAGGCTCGGCCGCGCCAGCCGCAGGATAAGGCTGCAGACCATCGTCTGGCTGCGCTGGCTGGCGGTTGCGGGACAGACGGCAACGATCCTGCTTGTCGCTTTCGGGCTCAATTTCCCCCTGCCGCTTCTGGCCTGCGGTCTTCTGATCGCGGCGCTCGCTCTTGCAAATCTGTTTCTCACCGCCCGCTTTCCCTCCACCTATCGTCTGGAGCCCTGGGAAGCGACATTGCTGCTGGCCTTCGACCTGCTGCAACTGACGGCGCTCATTTATATCACCGGCGGACTTTCCAATCCCTTCGCGCCGCTGATCTGCGTGCAGGTCATCATTGCCTTTGCCTCCCAGCCACTGCGACATTCGCTCATTCTCCTCGGCTTTGCCGTCATCTGCTCGACCGCGATCGCTTTTTCACCCTTTCCGGTTCCGTGGTATCCCGGCGAGGTTTTGCCGATCCAGCTTCTGCTGCATGTCGGCACCTGGGTCGCGATCATCGCCACGACCTCGTTTGCGGCCTTTTACGCCTATCGCGTTTCGCACGAGGCAAATCAGCTGGCGGATGCGCTGGCTGCAACCGAACTGGTGCTGGAGCGGGAAAAACATCTCTCGCAGCTGGATGGGCTTGCGGCGGCAGCGGCGCATGAGCTCGGTACGCCGCTCGCGACCATCAGTGTCGTCGCGAAGGAGATGGAGCGGGAACTCGGAAACGACGAAAAATTTGGCGAAGATATAGCCCTGCTGCGCAGCCAGAGCGAAAGATGCCGTGACATTCTGCGCCGCCTCACCTCGCTTTCCGCCGACAATGAGGAGCACATGCGCCGCCTGCCGCTCTCCTCGCTGATAGAGGAAGTGATGGCGCCGCACCGGGAATTCGGCATCCGCCTCGAACTCGTTGAAAAGAACAATCGCGCCGACGAGCCGGTCGGCATCCGCAATGCCGGCATCATCTACGGTCTTGGCAACCTCATTGAAAACGGCGTGGATTACGCGCGGGAAAAGGTGACCGTGACGGTGGATTACGACCAGCAGAACGTCGCCGTCATCATTGAAGACGATGGACCGGGTTATGCCCATGACGTGCTTGCCCGTATCGGCGAGCCCTATGTGACCGAACGTCACAATGACACACGGGCGGGCGGGCTCGGGCTCGGGCTTTTCATCGCCAAGACCTTGCTGGAGCGCTCCGGCGCCACCGTCACCTTTGAAAATCGTGGCACGAGCGGAACCGGAGCACGGGTCACAATCGTCTGGCCTCGGGCGCTTATGGACGATAAAAGAAGCCGTTGA	MMNRAKEMKVAGHSIETTRLGRASRRIRLQTIVWLRWLAVAGQTATILLVAFGLNFPLPLLACGLLIAALALANLFLTARFPSTYRLEPWEATLLLAFDLLQLTALIYITGGLSNPFAPLICVQVIIAFASQPLRHSLILLGFAVICSTAIAFSPFPVPWYPGEVLPIQLLLHVGTWVAIIATTSFAAFYAYRVSHEANQLADALAATELVLEREKHLSQLDGLAAAAAHELGTPLATISVVAKEMERELGNDEKFGEDIALLRSQSERCRDILRRLTSLSADNEEHMRRLPLSSLIEEVMAPHREFGIRLELVEKNNRADEPVGIRNAGIIYGLGNLIENGVDYAREKVTVTVDYDQQNVAVIIEDDGPGYAHDVLARIGEPYVTERHNDTRAGGLGLGLFIAKTLLERSGATVTFENRGTSGTGARVTIVWPRALMDDKRSR	PGPT0000545_434	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0000545-regB|regS|actS-K15011	NA	NA
BMS010_04796	2487	hrpB_1	COG1643	ATP-dependent RNA helicase HrpB	ATGACCAGAATGCCCGTTCCTATAAAGACCGAGTTGCCCGAACTTCCCGTAAGTGCCGTTCTCGGCGATATCGCCGAGGCTCTGGCCGGGGCGAAGCGCGCAGTTCTTTCGGCTCCACCGGGCGCGGGTAAAACGACGCTCGTGCCGCTTAATCTTTTGCAGCAGGACTGGCGGGGTGACGGCAAGATCATTCTTCTCGAACCACGCCGGCTTGCCGCCCGTGCCGCAGCCGGGCGCATGGCCGAACTGCTTCACGAGGATGTCGGGCAAACCGTCGGCTATCGCATGCGGCTCGACAATCGCGTCTCCTCGAAAACCCGGATAGAAGTGGTGACCGAAGGCGTGTTTGCCCGGATGGTTCTGGACGATCCTGAACTTGCCGGCGTTTCGACGGTGATTTTCGACGAGTTTCACGAACGTTCGCTCGACGGCGATTTCGGACTGGCGCTTGCACTCGACGTGCAGGGTGGGTTGCGCGACGATCTGCGTATCCTCGTCATGTCCGCCACTCTCGATGTCGAACGCATCAGCACGCTCATGGCAGGCGCGCCGGTCATTCAGAGCCTTGGGCGGACGTTTCCAATCGAGGTCCGTTATGAGGATCGTTGGCAGGGCATGCCGATTGAAGAGAAAGTCACCAAGGCGATCACCGAAGCCCATGGGTCGGAAACCGGCTCCATCCTCGCCTTTCTACCGGGACAGGCGGAAATTATCCGAACGGCCACGCGGCTGGAGGGACGTTTTCCCGGCGATACGGATATCATCGCGCTTTACGGCAACCTTTCGCAGAAAGAGCAGGATGCAGCGATAAAGCCGGCGCCGGCCGGACGACGCAAGATCGTGCTCGCCACCTCGATTGCGGAGACCTCGATTACCATCGATGGCGTGCGTGTGGTGATCGACAGCGGATTGCAGCGACTACCTGTCTTCGAGCCGGCAACGGGAATCACTAGACTGGAGACGGTGCGGGTGTCGCGCGCTTCCGCCGACCAGCGGGCGGGTCGCGCCGGGCGGACAGAACCCGGTGTTGCGATCCGCCTGTGGCATCCGGGGCAGACGGCGGCGCTCAACGCCTTTACGCCACCGCAAATTCTGGCGAGCGATCTTGCCGGCCTTGCGCTCGATCTCGCCCATTGGGGCGTTCAGGATCCCTCTTCTCTTGCCTTTCTGGATATGCCCCCCGAAGCCGCCCTTAAAGAATCGGTGGCGCTTCTCAAAAATCTGGGCGCGCTCGACAAAGGCGGAGCGCTGACGCAGCGCGGCCGTCTGATGCGCGGCCTTTCACTACCGCCACGGCTGGCGGCCATGGTGATTGCGGCGGCAAGCGAAGGCGCGGGAAAAAAGGCGGCGATGCTGGCCGTCATGCTGACGGAACAGGGGCTCGGCGGAAACGATATCGATCTCGATGAACGGCTGCGGCGCTTTCTCTCCGACAGGAGCGAAAGGGCGCAGGCAGCGCGCAAGCTGGCATCGAGGCTGCTCGACGCGATCGGCGACAAAACGGCGACAGCCGAGTTGCCCAGCGAGGCCGGTCCGCTGCTGCTGCATGCCTATCCGGACAGGATCGCCCTTCAGCGCGGCGCGCGGGGACGTTATGTGATGGCCAACGGGCGTGGCGCAGAGCTTGCCGAGACAGAACGGCTGGCGGCGAGCAAAATGCTAGTGGTTGCCGATATTACGGGGCGAGCGGCGCAGCCGCGCATCCTTGCGGCGGCAGGCATAGAGAGGAGCGATGTCGAAGAGCGGATGCCGCATCTCATCGTTCAGCAGGACCAGTTGCTTTTCGACAAGGCGAGCGGCCAGGCGCGCGCGCGAAAGGTGACGCGGCTTGGCGCCATCATCCTCGATGAGACACCCCTGCCCCGTCCCGAGGGCGAGCAGGCGGCACAGGCGCTCGCCAATGGCGTTCGGGAATTGGGCATCGGCATTCTTCCTTTTTCGAAAGAGACGCTGCAGTTGCGCGACAGGATCGGCTTTCTGAACGCCAGTATCGGGGAGCCCTGGCCGGATGTCAGCGACGAGGCATTGCTTTCCAGGCTGGACGAATGGTTCGTCCCTTTTCAGAACGGTGCGCGCAGCCTGCAGGACATCCGGCCCGGCAGCCTCTCCGAAGGGATCCTGTCTCTGGTGCCGCATGAGGTGGCGCGCGATCTCGCCAAGCTGGCGCCGACGCATTTCGAAGCACCGACGGGCCAGCGGCATCCCATCCGTTACGACGCCAGCGAACCGACGCTTTCCATTCGCGTGCAGGAACTTTTCGGGCTGAGAGCCCACCCGTCCATTGCGCAGGGACGGTTGCCGCTGCTGCTGGAATTGACCTCCCCGGCGCACAGGCCGATACAGACGACACGCGATCTTCCCGGCTTCTGGTCGGGGTCCTGGAAGGATGTACGGGCGGATATGCGCGGGCGTTATCCACGCCATCCATGGCCGGAAGACCCGGCATCGGCCCTGCCGACCAGCCGTGCAAAACCGCGCGGGACGTGA	MTRMPVPIKTELPELPVSAVLGDIAEALAGAKRAVLSAPPGAGKTTLVPLNLLQQDWRGDGKIILLEPRRLAARAAAGRMAELLHEDVGQTVGYRMRLDNRVSSKTRIEVVTEGVFARMVLDDPELAGVSTVIFDEFHERSLDGDFGLALALDVQGGLRDDLRILVMSATLDVERISTLMAGAPVIQSLGRTFPIEVRYEDRWQGMPIEEKVTKAITEAHGSETGSILAFLPGQAEIIRTATRLEGRFPGDTDIIALYGNLSQKEQDAAIKPAPAGRRKIVLATSIAETSITIDGVRVVIDSGLQRLPVFEPATGITRLETVRVSRASADQRAGRAGRTEPGVAIRLWHPGQTAALNAFTPPQILASDLAGLALDLAHWGVQDPSSLAFLDMPPEAALKESVALLKNLGALDKGGALTQRGRLMRGLSLPPRLAAMVIAAASEGAGKKAAMLAVMLTEQGLGGNDIDLDERLRRFLSDRSERAQAARKLASRLLDAIGDKTATAELPSEAGPLLLHAYPDRIALQRGARGRYVMANGRGAELAETERLAASKMLVVADITGRAAQPRILAAAGIERSDVEERMPHLIVQQDQLLFDKASGQARARKVTRLGAIILDETPLPRPEGEQAAQALANGVRELGIGILPFSKETLQLRDRIGFLNASIGEPWPDVSDEALLSRLDEWFVPFQNGARSLQDIRPGSLSEGILSLVPHEVARDLAKLAPTHFEAPTGQRHPIRYDASEPTLSIRVQELFGLRAHPSIAQGRLPLLLELTSPAHRPIQTTRDLPGFWSGSWKDVRADMRGRYPRHPWPEDPASALPTSRAKPRGT				NA	NA	NA	NA	NA
BMS010_04797	504			hypothetical protein	GTGGATTTCCTGGCCGACCTTGGTCAGTTGGGCGATGCCCACCTTGATGTGTTGGCTCTGGCCGAGGGTGAGGTGGTCGTCGGGTTTGACTTCCGCCTTGCGGTCGGCGAACACGGTGAGGTGTTCCTCGGCGCGGAATTCGCTGTAGCTGTTGGCCTCGACGGTGTCGTGGCGTTCGTGGCCGACGCGGAGGGTCTGGTCGTGCTCGATGTTCTCGTCCCAGTCCTTTTGGGCGTGGATGAAAATCTGCTCCTGGCCCTTCTTGTCCTCGATGCGCAGCTCGTTATAGCCCCCGCCACCGGGTGTGCTGAGGGTCTTGAAGACGGTGCGGGTCTTGTTCGCCGGCAGGTCGTAGGGGTCCTCATGCTCTTTGTGAAACAGCCAGCCGCTGATCACTGCCAGTATTTCGGCTGCCAACTCGTGCTTCTCCAGCAAGCGCCGGAAGTTGAGGATGGTGGTTTCATCGGGTGTGCGCTCCAGGCTCAGACCGGCAAACTGGCGTAG	MDFLADLGQLGDAHLDVLALAEGEVVVGFDFRLAVGEHGEVFLGAEFAVAVGLDGVVAFVADAEGLVVLDVLVPVLLGVDENLLLALLVLDAQLVIAPATGCAEGLEDGAGLVRRQVVGVLMLFVKQPAADHCQYFGCQLVLLQQAPEVEDGGFIGCALQAQTGKLA				NA	NA	NA	NA	NA
BMS010_04798	210			hypothetical protein	ATGAAGCAGATGGCCTTCGCCGACGCCGAGTATGCCGGCAAGCGCAAACAGACCCGCAAGGAGTTATTCCTGATCGAGATGGATCAGGTGGTGCCGTGGAAGGGTTTGATTGCCCTGATCGAGCCGCACTACCCGAAGGGCGAAGGTGGCCGTCCGGCCTATCCGAGGCACTGTACGAGAGCATCATCCTACGCCAGTTTGCCGGTCTGA	MKQMAFADAEYAGKRKQTRKELFLIEMDQVVPWKGLIALIEPHYPKGEGGRPAYPRHCTRASSYASLPV	PGPT0030605_2579	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030605-IS5_family-K07481	NA	NA
BMS010_04799	783			hypothetical protein	ATGAAAAACACATCAAGGCTATTACTAATCACTACGCTAATTTTAACAACTGCATGTTATGGCGAATGCAATCTTCCAGCAGATAATGAAATACACGACCCGATAAAGACTCCGGACGATAACTATATTATCTTCAAGAAAACAGAGTTACCCAACACAGTAAATGCTCAAAATGATTATCAAATTACTCTGGGCGCGTATAACTGCACAACAAATGTTTTCGAAGAAATCGATAAGCTTCAATTCTTAGCCAGCCCAGGAGAGATTGCGGCAGCCTTCTTTGCCGAAGTCGAGCCTGAAAATAAAGATCGTCTTTTTATCATTCAACGTTTCGAGGTAAGCAACTCAGCAACTGGCGTAAATTATACCGGAGATTATTACGATGTGCGCGCATACAAGAAGAGCGCAAGTAGATTTGAAGTAGACAATGCCTCGACTAATTTCTTCGGAGCTGGCGGAGACATCTATGAAGGCGACATAGAAAATATCATCTACAAATATCCATACAAGAAAGAATCCAGCATCAGGCGCATAATATCAACTTCAGATTATGCTGCGCTGATATTAGGAAAGACACTAGAAAAACATATCGCCCGTAAAGCCTATATGTACAGTGAACCACTTGAAAGTTCTAAAACAAAAAAATACTTAATACCGAATGATCCGGTACATCTTTATTCACACATTTCCGGTTGGTGCTTAGTCGGGTACGACAACCGCAAATATGGAGAAATCAAGGCATGGATAAGCTGCGAAAGCATAAGTGACCTTTTCAATCCATGA	MKNTSRLLLITTLILTTACYGECNLPADNEIHDPIKTPDDNYIIFKKTELPNTVNAQNDYQITLGAYNCTTNVFEEIDKLQFLASPGEIAAAFFAEVEPENKDRLFIIQRFEVSNSATGVNYTGDYYDVRAYKKSASRFEVDNASTNFFGAGGDIYEGDIENIIYKYPYKKESSIRRIISTSDYAALILGKTLEKHIARKAYMYSEPLESSKTKKYLIPNDPVHLYSHISGWCLVGYDNRKYGEIKAWISCESISDLFNP				NA	NA	NA	NA	NA
BMS010_04800	3186			hypothetical protein	ATGAGCGAAACAAGCAAGGTCAACAACTGGAGCTTTCCCTTCAAGACAGCGGGCGAAAACAGCAAGGAAGTCACCGATCCACAGCTGTATTTCGATGCGCTGGCCAAAGCCGAAAACGGCTACTACCCCCTTGGAGCCAACGGGCTCTGGCATGGCGGTGTGCATTTCGATAAAGGCACCGGCGCTTTACTGAATCAGAGCGAAGTGCGCTGCATTGCCGATGGCGAAGTTGTCGCCTATCGAATCGACAAGCAATATCCCCGAACGTCATACGGCACCACTCAATCCAACAGCGACACGACAATCGGAGCCCCATACTCGACCGGTTTTGTGCTCGTGAAGCATCGGCTGGAATTACCCTCCCCCCCTGTTCCCGCATCCTCGACAGAGGAAGCTACATCCTCTCCCGCAACCCCCGAGCCCCAAGCAGCGGCTTCCAGCGATAGCGAGGCTCTTACCTTTTACAGCCTGTACATGCACCTGCTCGACTGGGCCGGCTACCAGGCACAGCCCACACTCAAGCGCCCAGCCTTCTGGGGGGATGGACTCTACAAGGTTAAGGAAACGGCATCCGATAAAGTGCTCGGTCTAAATGTCCGCGAGCACTACAAGGTAGGTCCGGCAGATACAAATTATGCAAAGTACCAAAACAAGCTAACTACTTTGCCGCGCGGTACGAAGGTTGTAACCGGCGAAACGAGTCCTGATGGAAAATGGTTAAAGGTAGTCAGCGTAACCCCAGCGATCGCAGGCTTGCCCAGTAATGCCGGTTGGGTCTTCAAGACGGAAATGAAAAAGCTGGCCGAAAACAACTATCTAGTCTCGGAGTCCGTATCGAAAGACGCTCCAGCCCTCGAACAACTAGGTCTCAATGTCCGTGAAAGCGCAAATGCACACGGTGAAATTCTGGCGGTCTTGCCGCGTGGAACTCAGGTAAGAATCGGCACTGACGGAGCAACCGGCAAATATAGGAAGCTTGATGCCATTGTCAGTGGTAGTGCTGTTCCCCCCTTGATGGAAAATGCCGAAGGTAAACTCCCCGGGTACATCTGGTTGGACTCATTAGAGACTCAACAAACGCCCAGTACTGACTCACAAGATGCGGTGTATGTCCTTTCCTCGCCTTACAAGATTAAGGCTGGAGAGCTGATCGGTCATTTGGGCCTTTACCAAGATCACGACCAGCCGGTTGCCAATCCCCGACTGCATCTGGAAGTGTTCAGTTGCGATGACGTCCCTGCCTTCATTGCCAAAAGCCAGGAACGAGCCGCAACCCTTCCCGAGGCCAAGAAAACCTTGATCAAGGTGCACAAAGGCTCAACGATCATCCAGCCCGTAGCCTCTAACGCACAAATCGAATCGGGCCAGGATGTACGCTTGTGCAGCGACTCGCCTAAGGAGGGGCGTTGGGTCAAGGTGCAGAAATACGCAACTTGCATCGCTGAGAAAAGCACTGAACTTGGCAGCATCAGCAGTGGTTCCTATTCACTTAACGCTACACAGAAGGGGATTTTGGCTACCCGAATGGGTGTTGCGGCTGCCGATATGCCAGACAAGGTCGACTTTCTGAAAATCTACTTCAACTCGGCTGATGGCAATGATCCGCAAAACTACACAGGAGGGAACATACCTGCGTCTCATTCATGGCGGAAAGTCGGTGCGACGGTTGGCAACCCTACCTGGGTCGAGCGCGCCAAGCTGAATGCCCAAGGGCACCGTATAAGCAACGATGAGGTCCTGCCCGCCTGGACACACTTCCCTCTGCAAAGCTCCAGCAATGGCGCCAAATCTGGTTTCGACCGTATTCTACCCGCCGCCTCCTGGGACGGCCTGCCCCATGAAGCCAAGGCTATCGATCACGACAAGGTTCGTTGGTGGTATGTGACTGTTGGTGACGAGGCCGGCAACGATGCCTCTGGCTGGGCTCCGGAGAAAGACCTTATTGTGACCCGCCACTCTCCATGGGAATGGCCCGGTTTTAGTTTGATCCAGGAAGCAGCTACCCCGGCAGACCTCCATGCCCGCAGCTTACAGGCCGAAGGTAATGCCACATCGGAAGAGATGACCCTATTGCAAGGGCGCGTCGATATCGCCGAGCGTGGACCATTGTTACAGAAGCTCTACGACATCATCGACCAATCGAATGCGACTAAAACACGTGACGGCCTACTGACCCGTGATGAATTTAAGGCCGCGCTAAACAAACCCTGGCTGGCTCAGCAACTCTCGCTTCTGATTACACAATATGAGAGCGAATGGCTCCGGAACGATGCCAAATGGAATGATCTTGATGTGCATATGGCTGACGACTTGGTGGAATGGGGCAAAGAGAAAGAGCGCATTAAGAAATTAGCTTGGTGGGATAGCTTAGCTAATCGGCATGAAATACAGAAAGAAGGCTTGGCCTGGCACTTCCATCCTGTAGGACTTATCGGATGCCTACATAACCCCAACGTTATTAGCTGCACAAAGTGCGGACGAAACATCTCTTTAACTTATGAATTCTTCAAGGAAATCTCTTACTCTTCGGCTTCCGATACTATGCTAGCCGAACTAGCAAACAATATGAATTTCTTGCTCAAGAAGTACGAAGCAAATTCGTGCTCACAAATTAAGCACTTATTAGCGCAAGCAAAAAAAGAAACCAAAGGATTTTCTGCTTTCCGAGAACCACTAAACTATGTCAGCTACACCGGCCAAAGCTTATATGCCATGGCCCCCACAGCAATAAACAATGGATTCATTAGAAAAGAAATTACATTTTCCAGCCACGAAGAAAAAATTCAATGGATACAAAACCATCTTATAAATAATGATGCCGCCTATGGGGAGCATGCTTTTGGCAGCGATGAACAGCCGGGGAAAGACTACAGAGGTCGTGGCCTCTTGCATCTAACCCATTACAACACATATAAGACCTGTGGCTTAGCTATACAGTCACCTATCCATACCAATCCAGAGCTAGTCGAGAGCGATCCTAAAATCATCGTAGAAACAGGTCTATGGTTCTGGAAAGAAAACAAACTAAAAAATATCGCTGAGGATCCAAGCCTGACTATTGACGAAGCAGTAACAAAAATAACTCTAATTATCAACGGTGGATATCAGGGCCTTGAAGAGAGAAAACAATTCATGAGTCAAATCTCAACTGTTTTCGCTAAAGCCTTTGGAGGACCATGCGCATGA	MSETSKVNNWSFPFKTAGENSKEVTDPQLYFDALAKAENGYYPLGANGLWHGGVHFDKGTGALLNQSEVRCIADGEVVAYRIDKQYPRTSYGTTQSNSDTTIGAPYSTGFVLVKHRLELPSPPVPASSTEEATSSPATPEPQAAASSDSEALTFYSLYMHLLDWAGYQAQPTLKRPAFWGDGLYKVKETASDKVLGLNVREHYKVGPADTNYAKYQNKLTTLPRGTKVVTGETSPDGKWLKVVSVTPAIAGLPSNAGWVFKTEMKKLAENNYLVSESVSKDAPALEQLGLNVRESANAHGEILAVLPRGTQVRIGTDGATGKYRKLDAIVSGSAVPPLMENAEGKLPGYIWLDSLETQQTPSTDSQDAVYVLSSPYKIKAGELIGHLGLYQDHDQPVANPRLHLEVFSCDDVPAFIAKSQERAATLPEAKKTLIKVHKGSTIIQPVASNAQIESGQDVRLCSDSPKEGRWVKVQKYATCIAEKSTELGSISSGSYSLNATQKGILATRMGVAAADMPDKVDFLKIYFNSADGNDPQNYTGGNIPASHSWRKVGATVGNPTWVERAKLNAQGHRISNDEVLPAWTHFPLQSSSNGAKSGFDRILPAASWDGLPHEAKAIDHDKVRWWYVTVGDEAGNDASGWAPEKDLIVTRHSPWEWPGFSLIQEAATPADLHARSLQAEGNATSEEMTLLQGRVDIAERGPLLQKLYDIIDQSNATKTRDGLLTRDEFKAALNKPWLAQQLSLLITQYESEWLRNDAKWNDLDVHMADDLVEWGKEKERIKKLAWWDSLANRHEIQKEGLAWHFHPVGLIGCLHNPNVISCTKCGRNISLTYEFFKEISYSSASDTMLAELANNMNFLLKKYEANSCSQIKHLLAQAKKETKGFSAFREPLNYVSYTGQSLYAMAPTAINNGFIRKEITFSSHEEKIQWIQNHLINNDAAYGEHAFGSDEQPGKDYRGRGLLHLTHYNTYKTCGLAIQSPIHTNPELVESDPKIIVETGLWFWKENKLKNIAEDPSLTIDEAVTKITLIINGGYQGLEERKQFMSQISTVFAKAFGGPCA				NA	NA	NA	NA	NA
BMS010_04801	2130	vgrG1_1	COG3501	Actin cross-linking toxin VgrG1	ATGTTCAATCCCGCCAACGAAACCCATTTCAGCCTCGTCATCGACGGTCTCGAACACGACCTGCAAGTGCTCGAATTCCGGGGCAAAGAGGCCATCAGCACGCCCTACCGCTTCGACCTCGAACTGGTCAGCGAAAAGCCCGACCTCGACCTGGAAAGCCTGCTGCATCGGCCCGCCTTCCTCGCCTTCACCCCGGACGGGCTCGGCGTGCATGGGCTGATCCATCGCGTCGCCCAGGGCGAATCCGGCAAGCGCCTGACCCGCTACCGCCTGAGCCTGGTGCCGCAACTGGCCTACCTCGCCCACTGCACCGACCAGCGCATCTTCCAGCACCTCACCGTGCCGCAGATCGTCGCCATCGTCCTGCAGGAGCACGGCATCCTGGGCAACGCCTACCGCTTCCAACTCGGCCCCACCGTCTATCCCCAGCGCGACTACTGCGTGCAGTACGACGAAACCGACCTGCACTTCATCCAGCGCCTGTGCGAAGAGGAAGGCATCCACTACCACTTCGAGCACTCGCCGGAAGGCCACGTCCTCGTCTTCGGCGACGACCAGACCGCCTTCCCCAAGCTCGGCCAGCCCACCGCCTACATCCAGGACAGCGGCCTGGTGGCCGACGAGCCGGTGATCAAGCGCTTCGGCCTGCGCGTGGAAGCGCGGACCAGCCGCGTCACCCGCCGCGACTACGACTTCGAGCAACCCCACGTGCAGATGGAGGCCGCCTACAAACCAACCCGTGAGGCCGACGCCCACCCCGAGCCCGACCTCGAAGACTACGACTACCCTGGCCGCTTCACCGACCGCACCCGTGGCAAGCACCTGGCCAAACGCGCCCTCGAACGCCACCGCGCCGACTACCAGCTAGCCGAAGGCGACAGCGACCAGCCGAAACTGGTCAGCGGCCACTTCCTGGAAATCTCCGACCACCCTCACCGGGACTGGAACGACCTCTGGCTGCTCACCGCTGTCCACCACCACGGCAAACAGCCGCAAGTCCTGGAAGAAAGCATCACGTCCTCGAACCCACTCGGTTCGGCTCCCTCGCCCCTCTGGGGAGAGGGCTGGGGTGAGGGGGCGGACTCAACCACCCGAACAGGGCCAACCCCCGGCGCAAACTTCACCCAAGGCTACCGCAACCACTTCACCGCCACCCCCTGGGACATCCACTTCCGCCCGGCGCTGAAGCACCCCAAGCCCCAGATTCTCGGCAGCCAGACCGCCGTGGTCACCGGCCCACCCGGCGAAGAAATCCACTGCGATCCATACGGCCGCGTGAAAGTCCAGTTCCACTGGGACCGCGACGGCGAACTCAACGAACACACCAGTTGCTGGCTGCGCGTCTCCAGCAGTTGGGCCGGTGACCGCTACGGCGGCGTCGCCATCCCGCGCATCGGCATGGAAGTACTGGTCACCTTCCTCGAAGCCGACCCGGACCAGCCCTTGATCACCGGCTGCCTCTACCACAAGGAAAACCAGGTTCCCTACGACCTGCCGGCGAACAAGACCCGCACCGTCTTCAAGACCCTCAGTACGCCTGGCGGCGGGGGCTATAACGAGCTGCGCATCGAAGACAAGAAGGGGCAGGAGCAGATTTTCATCCATGCCCAAAAGGACTGGGACGAGAACATCGAGCACGACCAGACCATCCGCGTCGGCCACGAACGCCACGACACCGTCGAGGCCAACAGCTACAGCGAATTCCGCGCCGAGGAACACCTCACCGTGTTCGCCGACCGCAAGGCGGAAGTCAAACCCGACGACCACCTCACCCTCGGCCAGAGCCAACACATCAAGGTGGGCATCGCCCAACTGACCAAGGTCGGCCAGGAAATCCACCTCAAGGCCGGACAGAAACTGGTCATCGAAGCCGGCATGGAACTGACCCTCCAGGCCGCCGGCAGCTTCATCAAGCTCGACCCCAGCGGCATCACCGTCTCCGGCCCCCTGGCCAAACTCAACGCCGGCGGCTCACCGGGCAAAGGCACCGGCATCGCCATCAAGCCCCCCACCCCACCGGGCGCGGCGGACGCGGACAAGGCGGGGAACCTGCTGGATAAGGCGCTGCTGAACCAGCTCGAACCCATCGAACCCCAGAAACTCAAGCGGATGATCAACTTCTCGGGCTGA	MFNPANETHFSLVIDGLEHDLQVLEFRGKEAISTPYRFDLELVSEKPDLDLESLLHRPAFLAFTPDGLGVHGLIHRVAQGESGKRLTRYRLSLVPQLAYLAHCTDQRIFQHLTVPQIVAIVLQEHGILGNAYRFQLGPTVYPQRDYCVQYDETDLHFIQRLCEEEGIHYHFEHSPEGHVLVFGDDQTAFPKLGQPTAYIQDSGLVADEPVIKRFGLRVEARTSRVTRRDYDFEQPHVQMEAAYKPTREADAHPEPDLEDYDYPGRFTDRTRGKHLAKRALERHRADYQLAEGDSDQPKLVSGHFLEISDHPHRDWNDLWLLTAVHHHGKQPQVLEESITSSNPLGSAPSPLWGEGWGEGADSTTRTGPTPGANFTQGYRNHFTATPWDIHFRPALKHPKPQILGSQTAVVTGPPGEEIHCDPYGRVKVQFHWDRDGELNEHTSCWLRVSSSWAGDRYGGVAIPRIGMEVLVTFLEADPDQPLITGCLYHKENQVPYDLPANKTRTVFKTLSTPGGGGYNELRIEDKKGQEQIFIHAQKDWDENIEHDQTIRVGHERHDTVEANSYSEFRAEEHLTVFADRKAEVKPDDHLTLGQSQHIKVGIAQLTKVGQEIHLKAGQKLVIEAGMELTLQAAGSFIKLDPSGITVSGPLAKLNAGGSPGKGTGIAIKPPTPPGAADADKAGNLLDKALLNQLEPIEPQKLKRMINFSG	PGPT0030410_3233	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0030410-vgrG-K11904	NA	NA
BMS010_04802	1002	pknD_3		Serine/threonine-protein kinase PknD	ATGAGCGATCCCTTGCTGGCTTCCGCGGAAGCCTCCGACCTGACCTACTTCGCCTTCGCCGCCAGCGCCGTCGACAAACCGGTCGCACGGGCGGAGCCGGAGACGCCCCGCATCGCCCCCGGCGAACTGCCGGAGGTGCTCGGCGGGCGCTACCGCATCGAACGCCTGCTCGGCGTCGGCGGCATGGGCGCGGTATACCGTGCGCGCGACCTGCTGCGCGAGCAGTTCGGCGACCCGGAGCCCTACGTGGCGCTGAAGACCCTCAGCGAAGACTTCGCCGAATACCCCGACGCCAACGCCCTGCTCTACAGCGAATTCGCCCTCACCGCACGGCTCAGCCACCGGCACGTAGTGCGCCTGTTCGGCTTCGAGGTGGACACCGCCTGCCAGCGCGCCTTCATCACCCTCGAACTGCTCAAGGGGCCGACCCTCGACCAGTTGCTCAGCGAGCGCCCCGGGGGCCTGCCCTGGCAGGCGCTGAGCGAGATCGTCATCCCGCTGCTGGAGGCCCTGGCCTACTCCCATAGCCTCGGCGTGCTGCACGGCGATCTCAAACCCAGCAATGTGATGCTCGCCGACGACGGCCTGCGGCTGTTCGACTATGGTCTCGGCCAGCCGCTCGACGGCGTGCTGCCCGGCCTGCCGCGCCTGTGCCGCAGCCGTTTCGCCGCCTGGACGCCGCGCTATGCCGCCCTGGAACTGCTGGAAGGCGCGCCGCTCACCGCCACCGCCGACGTCTACGCGCTGGCCTGTGTGATCTACGAACTGAGCAGCGGCAGCCACCCGTTCCGCCGCCTCAGCGCCAAGCAGGCCAAGGCGATGGAACTGGACCGCGAACTGCAGCGCCCGGCGAACCTGCCGGCGCACTGCTGGCCGGCGCTGCGCACCGCCCTGGCGTTCGACGAAGCCCGGCGAGGCATCGACGCCGCCGGCCTGCTGGACGCTTTCCGCCGCCCCGCACCGGGGCTGCTGCAGCGGTTGCTGCGGCGTACCAATGGATGA	MSDPLLASAEASDLTYFAFAASAVDKPVARAEPETPRIAPGELPEVLGGRYRIERLLGVGGMGAVYRARDLLREQFGDPEPYVALKTLSEDFAEYPDANALLYSEFALTARLSHRHVVRLFGFEVDTACQRAFITLELLKGPTLDQLLSERPGGLPWQALSEIVIPLLEALAYSHSLGVLHGDLKPSNVMLADDGLRLFDYGLGQPLDGVLPGLPRLCRSRFAAWTPRYAALELLEGAPLTATADVYALACVIYELSSGSHPFRRLSAKQAKAMELDRELQRPANLPAHCWPALRTALAFDEARRGIDAAGLLDAFRRPAPGLLQRLLRRTNG	PGPT0030450_36	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0030450-stk1-K11916	NA	NA
BMS010_04803	732	prpC_3	COG0631	Protein phosphatase PrpC	ATGGAGATCAGTGTCAGCCCCTGGCGCAGCGCTGCACGCACGGACATAGGCAAGGTCCGTGCGGGCAACGAAGACGCCTTCCTCGACCTGCCCGACCAGGGCCTGTGGGTGGTCGCCGACGGCATGGGCGGTCACCAGAACGGCGCTCTGGCCAGCCGGCTGATCGTCGAGAATCTCGCCGAGCTGCCGGCCGAAGGCGGGCTGGAAGAGCGTGTCGGGCGGGTACGCCAGTGCCTGCACCACCTCAACCGCCGGCTCGGCCAGGAACTCACGGTGACGGCCGACCGCCCCGACCCGGTGATCGGCAGCACCGTGGTCGCCCTGCTGACGGACAACGAGCGCGCCGCCTGCATCTGGGCCGGCGACAGCCGCTGCTACCTCTGGCGGCGCGGCCGGCTCTACCAGCTCTCGCGCGACCACTCGCTGGTCCAGCAGTTGATCGACGAAAACCAGCTCAGCCCCGAAGAAGCGGCACGCCACCCCGCCGCCCACGCGCTGACCCGCGCGGTGGGCGCCAGCGAGCATCTGGTACTGGACATCCTCGAATTCGACACCTACCCCGGCGACACCCTGCTGCTGTGCAGCGATGGCCTCTACCAGAGCCTGTCGCCGGATGCCCTCGGCGCCGCCCTCAACCTGCCGTCCACCGGCATGGCGTTGCAGCGCCTGTTCGACCTGGCGCTGGACGGCCCGGCCCGCGACAACCTCAGCGCGGTGGTGATCCGCCGATGA	MEISVSPWRSAARTDIGKVRAGNEDAFLDLPDQGLWVVADGMGGHQNGALASRLIVENLAELPAEGGLEERVGRVRQCLHHLNRRLGQELTVTADRPDPVIGSTVVALLTDNERAACIWAGDSRCYLWRRGRLYQLSRDHSLVQQLIDENQLSPEEAARHPAAHALTRAVGASEHLVLDILEFDTYPGDTLLLCSDGLYQSLSPDALGAALNLPSTGMALQRLFDLALDGPARDNLSAVVIRR	PGPT0002605_23	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_REGULATION,PGPT0002605-stp1|pppA-K11915	NA	NA
BMS010_04804	3543			hypothetical protein	ATGAAGGATTTCTTCGGCAAGCTTGCCGCCTTTTTCCGCAAGACCTGGGTCTGGAGCCTGTGCCTGCTGCTGGTACTGTCGCTGCTGATCTGGTTCGTCGGCCCGCTGTTCGCGGTCAACGACTACAAATTCTGGGAATCCCCGACCAGCCGCCTGCTGACCATCGCCGCGCTGTGCCTGGCCTGGGGCCTGTTCATCGTCTTCACCAGCTGGCGCGCCACCCGCCGCAAGCAGGCCGAGGCCAGCGACGAGGAGGCCCAGGAGCGCCTGCGCCGCGAGGGTCTGATCACTGAAGAACAGAGCATCCTCACCCGCCGCTTCAAGGACGCCCTGGTCACTCTGCGCAGTTCCAGCCTCTACCGTGGCCGCAGCGAACGCTGGCGCAACGAGCTGCCCTGGTACCTGGTGATCGGCCCGGCGAAGAGCGGCAAGACCAGCCTGCTGGATTTCTCCGGCCTGGACTTCCCGCTCAACCGCGGTACCAACGAGCGCCTGACCAAGGACGTCTCGGGCACCCGCTACGCCGACTGGTACTTCGCCGACCACGCGGTGCTGATCGACACCGCCGGCCGCTACCTGACCCAACCCGACGCGCAGGTCGACGGCCGCGCCTGGGACACCCTGCTCGGCCTGCTGCGCCGTCGCCGGGCCCGTCCGCTCAACGGCGTGCTGGTGAACATCCCGGTGGACACGCTGCGCCACAGCACCGAAGCCGAACAGGAAACCCTGGCCCGCCAGGTCCGCCAGCGCCTCCAGGAAATCCGCCAGCGCCTCGGCGCCGACGTGCCGGTCTACTTGGTGATGAGCAAGGCCGACCAGTTGCTCGGCTTCGACGAATTCTTCGACCAGCTTTCCCGCGAGGAGAGCGACCAGGTGCTCGGCGTCAGCTTCCGCAAGGAACAGAACGGCACCGACGCCGGCGTGGTGCGCCAGGAGTTCGAAGAGCTGCTGCGCCGCCTGAACAGCCAGGTCATCCTGCGCATGCACCAGGAGCGCGACACCCAGCGCCGTGGCCGCATCCTCGACTTCCCGCACCAGCTCGGGAAGATCGGCGAACCCCTGTGCCTGTTCATCGAACTGGCCTTCGCCGGCAACCGCTACCAGCAGGAAAGCCAGCTGCGCGGCTTCTACCTGACCACCGCACCCTACCTCACCAAGGCGCTCGACGAGGAAACCGCCGCCCTCGGCGACAACCTGGGCGGTTTCGCCACCAAGGCCCTGCCCATGCTGCGCGCCGGCCGTGCCCGCTTCATCAACCATCTGCTGAGCCGGGTGATCTTCCCCGAGGCCGACCTCGCCGGGCTGGACCAGAAGGAGGTCCGCCGCATCGACTGGGGCCAGCGCGCCCTCTATGCCGGCGCCTTCGCCTGCCTGGTGCTGTTCGGCCTGTTCTGGGCCAACGGCTTCTCGGCCAACCACGACCGCCTCGAACAACTGCGCGACATCGCCCAGAAGCTCGGCCGCGAGCGCCAGGCGATCGACCCGCAGGACGATGCCCTGCAAACCCTCAAGGCCCTGGACAACAGCTACGCCGCGACCCAGGTCTTCCCGCCCAAGGCCGACGTCTCCTACTTGCAGCGCGGCGGTTTCTACCAGGGCGAGCAGGTCGATCCGACCGTCCACCAGGCTTACCGCCGGCAACTGGAGGAACTGCTCCTGACCCGCGTCGGCCGGCAGCTCGAAGCGCAGATCCGCGCCAACCTGAACGACCGTGAGCGCCTGCTCGGCAGCCTGCGCGCCTACCTCATGCTGAACCTGGAAGAGCGCCGCGACGCGGGCTTTCTCAAGGAGTGGCTGGCCGCCGACTGGTCCCTGCGCTATGCCGGCAACGCGGTGGCGCAGAACGGCCTGAACAGCCACTTCGACCGCCTGCTCGGCGAGTCCTTCACGCCCTACCCGCTCAACGCCCCGCTGGTCGCCCAGGCGCGCCAGGTGCTGCGCAGCGAATCGCTGGCCAACGTGGTCTACCGCATGCTCCGCGACCAGGCCCGCAGCCTGCCGGACTACCGCCTGAGCCAGCGCCTTGGCCCGCAAGGCGCACTGTTCGTCGGCGCCGACTACGCCATCCCCGGCTTCTACACCCAGAACGGCTACCAGAAATTCTACGTTGCCCAGGGTGCCGACCTGGTGCGCGAGATCCTGCGCGACAACTGGGTGCTGGGCGAAGGCGACAGCCTCAGCGCCAACGACCTCGGCCGCCTGATGGTGGAGATGGAGCAGCTGTACTTCCGCGACTACGCCAACTACTGGGGCGAAGCCCTGTCGCAACTGGCGCTGGAGCCCATCGGCAACGCGGCGCAGGGCGCCCTGCAACTGACCGGGCTGACCGCGGCCAACTCGCCGCTGCTGCAACTGCTGGTGGAAATCCGCGACAACACCCGCTTCGCCGGTCTGGCCGAAGCCGCGGACAGCGCCGGCGAAGCCGCCGGTGCGCTGGAAGGCGCCAAGGGCAAGCTCGGCAAGGCCGCCAAACTGGCCAGCGCCGCCGCCGAACAGGCCCAGGCCGCCCTGGCGAAGAACGTCCCCGACACCGCACGCAAGACCCTGGAGCGTCGCTTCGAACCGCTGCACCGTCTGCTCGACGACAACGGCGGCGCCTCCGCCGAACTGGCGCCGACCCTGCAGGCCCTCGACGCCCTGCAACTGCAACTGGCCGGCCTCGCCCACGCCAGCGCGCCGGACCAGGCCGCCTTCGAACTGGCCAAGGCCCGCATGGGCGGCCAGCGCGACGCCATCAACCAGTTGCGCGGCAGCGCCGCGCGCCTGCCGCAGCCGGTCGGCAACTGGCTCGGCCTGCTCGCCGAAGACAGCTGGATGCTGGTGCTCAACGACGCCTACCACTACCTGAACCAGCGCTACCAGAGCGAGCTGTACGCCTTCTACAAAAGCTCCCTGCGCCAGCGCTATCCGTTCAGCGCCCACAGCGCGAGCGACGTGGCGATCGCCGACTTCCGCGAGTTCTTCAAGGCCCAGGGGGTCGCCGACAGCTTCTTCGACCGCTACCTGAAGCCCTTCGTCAGCGGCAGCGCCGGCGAATACCAGTTGCGCCGGGTCGACGGCCGCGGCCTGCCGCTGTCGCGCGAGTTCCTCGCCCAGATGAGCCACGCGCAAACCATCCGCCGCAGCTTCTTCGCCGAGAACCCGAACGAGCCGCTGGTGCTGTTCAAGCTGGAACCCTACTCGCTGGACTCCAGCCTCGGCCGCGCCGACTTCCGCTTCGGCGACCAGCAACTGGAATACCGCCACGGCCCCATCGTGCAGACTGCGTTCCGTTGGCCCGCCGAAGGCAGCGACGGGCGCACCAGCCTGGTGGTGGAAGAACTGGGCGGACGCAAGGTGGGCATCGAGAAGAACACCGGCCCCTGGTCGCTGTTCCGCCTGCTCGATCTGATGCAGGTGGACTACCACAGCGGTCGCGACGTGCTGATCCTCAAGGCGGACCTCGGCGGCCTGCGCGCCAACTACCTGCTGCACAGCCAGCGCTCGCCGAACCCGTTCGACATCGCCCTGCTGCGCGACTTCAAGCTGCCGGCGACGCTCTGA	MKDFFGKLAAFFRKTWVWSLCLLLVLSLLIWFVGPLFAVNDYKFWESPTSRLLTIAALCLAWGLFIVFTSWRATRRKQAEASDEEAQERLRREGLITEEQSILTRRFKDALVTLRSSSLYRGRSERWRNELPWYLVIGPAKSGKTSLLDFSGLDFPLNRGTNERLTKDVSGTRYADWYFADHAVLIDTAGRYLTQPDAQVDGRAWDTLLGLLRRRRARPLNGVLVNIPVDTLRHSTEAEQETLARQVRQRLQEIRQRLGADVPVYLVMSKADQLLGFDEFFDQLSREESDQVLGVSFRKEQNGTDAGVVRQEFEELLRRLNSQVILRMHQERDTQRRGRILDFPHQLGKIGEPLCLFIELAFAGNRYQQESQLRGFYLTTAPYLTKALDEETAALGDNLGGFATKALPMLRAGRARFINHLLSRVIFPEADLAGLDQKEVRRIDWGQRALYAGAFACLVLFGLFWANGFSANHDRLEQLRDIAQKLGRERQAIDPQDDALQTLKALDNSYAATQVFPPKADVSYLQRGGFYQGEQVDPTVHQAYRRQLEELLLTRVGRQLEAQIRANLNDRERLLGSLRAYLMLNLEERRDAGFLKEWLAADWSLRYAGNAVAQNGLNSHFDRLLGESFTPYPLNAPLVAQARQVLRSESLANVVYRMLRDQARSLPDYRLSQRLGPQGALFVGADYAIPGFYTQNGYQKFYVAQGADLVREILRDNWVLGEGDSLSANDLGRLMVEMEQLYFRDYANYWGEALSQLALEPIGNAAQGALQLTGLTAANSPLLQLLVEIRDNTRFAGLAEAADSAGEAAGALEGAKGKLGKAAKLASAAAEQAQAALAKNVPDTARKTLERRFEPLHRLLDDNGGASAELAPTLQALDALQLQLAGLAHASAPDQAAFELAKARMGGQRDAINQLRGSAARLPQPVGNWLGLLAEDSWMLVLNDAYHYLNQRYQSELYAFYKSSLRQRYPFSAHSASDVAIADFREFFKAQGVADSFFDRYLKPFVSGSAGEYQLRRVDGRGLPLSREFLAQMSHAQTIRRSFFAENPNEPLVLFKLEPYSLDSSLGRADFRFGDQQLEYRHGPIVQTAFRWPAEGSDGRTSLVVEELGGRKVGIEKNTGPWSLFRLLDLMQVDYHSGRDVLILKADLGGLRANYLLHSQRSPNPFDIALLRDFKLPATL	PGPT0025960_963	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025960-impL|vasK|icmF-K11891	NA	NA
BMS010_04805	876			hypothetical protein	ATGACCACCAAGGAAATGGAATACGGCCAGGATGACAAGACGGTCATCCTCAACCGCAAGGGCGATGCTCCGGCGCAGAGCCCACTGACCGATTTCGCCGCCGCGCCGAAGTTCGAGCAGTTGGAAGAGCGCATGATCTACGCCGCCCGCCTGCGCCCGGCGGAAACCTTCAACATCAGCCTCAACCCACTGGTGGCCGCCGCCGCCCCGCTGCTGTCGGAAGTGGTGCGGCTCAAGCACAGCCAGGAGACCGAGGACCTGCGCGCCCTCAACGCGAGCCTGAGCAGCGCCATCAAGCTGTTCGAGCACCACGCCCTGCACGACGGCGCCGAGAGCAGTCAGGTCATGGCCGCGCGCTACGTGCTCTGCACCGTGGTCGACGAAGCGGTGGTCACCACCCCCTGGGGCAACGAGAGCGCCTGGTCGCAGATGAGCCTGCTGTCGAGCTTCCACAACGAAACCTTCGGCGGCGAGAAGTTCTTCCAGTTGCTCGAACGCCTCTCGCGCAACCCGGTCAAGCACCTGCCGATGCTGGAGCTGATGTACCTCTGCCTGTCCCTGGGCTTCGAGGGCAAGTACCGCGTACAGCCGCGCGGCATGCTCGAACTGGAAGCGGTGCGCGACAGCCTCTACCGGCAGATCCGCCAGTTGCGCGGCGACGTTCCGCGCGAGGTCTCGCCGCACTGGCAGGGCCTGAAGGACACCCGCCGGCGCCTGGTGCGCATCGTGCCCTGGTGGCTGGTCGCCCTGTTCACCCTGGTCTGCCTGGGCGTGATGTACGCCGGCTTCGCCTGGGTTCTCGACCAGCAGCGCGACACCGTTCTGCAACCGTACCAGCCCGTCGACCCGACCACCCAGGTCGAGCAACAGCCGTAA	MTTKEMEYGQDDKTVILNRKGDAPAQSPLTDFAAAPKFEQLEERMIYAARLRPAETFNISLNPLVAAAAPLLSEVVRLKHSQETEDLRALNASLSSAIKLFEHHALHDGAESSQVMAARYVLCTVVDEAVVTTPWGNESAWSQMSLLSSFHNETFGGEKFFQLLERLSRNPVKHLPMLELMYLCLSLGFEGKYRVQPRGMLELEAVRDSLYRQIRQLRGDVPREVSPHWQGLKDTRRRLVRIVPWWLVALFTLVCLGVMYAGFAWVLDQQRDTVLQPYQPVDPTTQVEQQP	PGPT0025955_735	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025955-impK|ompA|vasF|dotU-K11892	NA	NA
BMS010_04806	1326			hypothetical protein	ATGACCATGCAAAAAGTGATCTGGCAGGAAGGCATGCTGCTGCGTCCGCAGCACTTCCAGCAGAGCGACCGCTACTATGACTACCAACTCAAGACCCGCACCCGCACGCTGGAACTCTACGCCTGGGGCTTCTTCGACCTGGAGATCGACCGTCAGTCCCTCAACACCGGCAAGCTGGTGGTCAACCAGGCCAGCGGCATCCTGCCGGACGGCACCCTGTTCGAGATCGACCGCGAAGCGATCGCCATCGACGTGCCGCCGAACACCAGCAACATGCCGGTCTACCTGGCGCTGCCGCTGGCCACCGGCAACCACATCGAGGCCCGCCGCCCCGATCAGAAGGACGTGCTGGCGCGCTACATCGCCTTCGACGAGGAAGTCGCCGACACCAATGCCGGCGAGAACAGCAGCAGCCAGGTGAGCACCGGCCACCCGGACTTTCGCCTGCTGCTGGGCGAACAGCAGAGCGACCACGCCTACGTAAAGCTCAAGCTCTGCGACATCCTCGACACCACGCCGGACAAGGCGATCACCCTCGACCCGGACTACATCCCGACCTTCATCGACTTCCAGGCCTCCGGCTACCTGCTGTCCTGCCTGAAGGAAGTGATCAGCATGCTCGGCCACCGCGGCGACATCCTCGCCGAGCGCATCCGCGCCACCGGCAAGGTGGGTGGCGCCGAGGTCGGCGACTTCATGATGCTGCAACTGATCAACCGCTACGAACCGGTGCTGCGCCATTACCTGGGCGTCGAGCGGGTGCACCCCGAGCAGATCTACCGCGAACTGCTCGGCCTGCTCGGCGAGCTGGCGACCTTCTCCAGCGAGACCAAGCGTCCGCGCCTGGACAGCCGCTACCAGCACAGCGACCAGGGGCTGTCGTTCCGCAAGCTGATGGACGCCATCCGCCAAGTGCTGTCGATGGTGCTGGAACAGCACGCCATCGAGCTGCTCCTGCAACAGCGCCAGTACGGCATCCAGGTCTCTCCGCTGCACGACCACAAGCTGCTCGGCTCAGCCTCCTTCGTGCTCGCCGCCAGCGCCGAGTGCGATTCCGAGGAATTGCGCAACCGCTTGCCGGCGCACCTCAAGGTCGGCCCGGTGGAGCGCATCCGCCAACTGGTCAACCTGCACCTGCCGGGCATCAAGGTGAAACCGTTGCCGGTGGCGCCACGGCAGATCCCGTTCCACTCCGGCAAGACCTACTTCGCCTTGGAGCTCAGCTCCGAGGAGCTGGCGCAGTTGGAGCGCTCCGGCGGCTTCGCCTTCCACGTATCCGGCGAGTTCACCGGGCTTGAGCTGAAATTCTGGGCGATCAGGAACTGA	MTMQKVIWQEGMLLRPQHFQQSDRYYDYQLKTRTRTLELYAWGFFDLEIDRQSLNTGKLVVNQASGILPDGTLFEIDREAIAIDVPPNTSNMPVYLALPLATGNHIEARRPDQKDVLARYIAFDEEVADTNAGENSSSQVSTGHPDFRLLLGEQQSDHAYVKLKLCDILDTTPDKAITLDPDYIPTFIDFQASGYLLSCLKEVISMLGHRGDILAERIRATGKVGGAEVGDFMMLQLINRYEPVLRHYLGVERVHPEQIYRELLGLLGELATFSSETKRPRLDSRYQHSDQGLSFRKLMDAIRQVLSMVLEQHAIELLLQQRQYGIQVSPLHDHKLLGSASFVLAASAECDSEELRNRLPAHLKVGPVERIRQLVNLHLPGIKVKPLPVAPRQIPFHSGKTYFALELSSEELAQLERSGGFAFHVSGEFTGLELKFWAIRN	PGPT0025950_1370	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025950-impJ|vasE-K11893	NA	NA
BMS010_04807	483			hypothetical protein	ATGCCTCGCCTCATCACCCTGGCCCTGCTCGCCACCCTGTCCGTCCTCGGCGGCTGCTCCGCGCTGTCGCCCTACTCGGACCTCACCAAGCTGGACCTGCAACTGGCCGGCAGCGAGCGGCTCAACCCCGACCTCAACGGCCGGCCCTCGCCCATCGTCGTGCGGCTGATCGAACTCAAGCACCCGGTGGCCTTCGAGAACGCCGATTTCTTCTCGCTCTACCAGCGTCCGAAGGAAGCCCTGTCACCCGACCTGGTGACCCAGGAAGAACTCGAACTGCGCCCCGGCGAGACGCGCGAATTGAAGCTCACCACCCAGGAAGGCAGCCGCTACGTCGGCGTGCTGGCCGCCTACCGCGACCTGCCGGAAGCCAACTGGCGCTTCGTCATCCCGATCGAGGCCAAGGCGCTCAACCGTGCCGAACTGAACCTCGACGAGCGTGGCATCCACGCCGTCGACCCGCTCGCCAAGAAGGACGACTAA	MPRLITLALLATLSVLGGCSALSPYSDLTKLDLQLAGSERLNPDLNGRPSPIVVRLIELKHPVAFENADFFSLYQRPKEALSPDLVTQEELELRPGETRELKLTTQEGSRYVGVLAAYRDLPEANWRFVIPIEAKALNRAELNLDERGIHAVDPLAKKDD	PGPT0030425_1002	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0030425-vasD|lip-K11906	NA	NA
BMS010_04808	1194			hypothetical protein	ATGGAACTGGTCTTCGATATGGTCGGCGCGCAGCAATTCGTGCCCGGCCTGCTGACGACGAAAACCTTCAAGCAGGCGGGCGGCGTGATCGGCCGTGCCGAGGATTGCGACTGGGTGATCCCCGATCGCAAGAACGTGGTGTCCAAGCACCACGCCCAGGTCAGCTACCGCGATGGCGCGTTCTACCTGACCGACACCAGCAGCAACGGCATCCAGCTCAAGGACAGCGGCGCCAGCCTGCAACGCGGCCGGCCGCAGCGCATCGAGCACGGCGGCATCTATTGCCTGGGCGACTTCGAGATTCGCGCACGTCTGATCCAGGACCCGGCCTCGTTCGAAGGCGATATCGGCCGTCCGCAGCCCGCCGGCAGCATCATCCCCGACGACGCCTTTCTCGATCTCGACCCGCTGACCGCCCTCGACCAGCAGGAGCGCGTCTACGCCGAAGTGGACGAACTGATCGCCCTGACCACGCCGCGTCAGCAGCCGGCGCAGCAGCGCGACTACGCGCGCATCGACATGGAGAGCCTGCCGGTCCCCGAGCTGGTGATGCCGGAAGCGGCGCCCCTGCCGAAGCCCGCGCCCGAACCGGAACGCCTGCCGCCAAGCTTCTGGGAACGCTTCGGCGAGGCCCTCGGCGTGCGTCTCGACGACCTCGACGACGACGCCCGCGAAGCCCTGGCGCTGAACGCCGCCCGGCTGCTGCGCCTGAGCGTCGGCAACCTGCAGCAGAGCCTGCGCACCCGCGCCGAGCTGAAGAACGAGATGCGCCTGGGCCTGACCACCGTGCAGAGCGCCGGCAACAACCCGCTCAAGCACAGCAGCGACGCCCGCGAGGCGCTGAACGTGCTGCTGCGCGGCGGCAAGCCCGGCCAGCTACCTGCCGAGCAGGCCATCGGCCGCGCCTTCCGCGACCTGCAAGCGCACCAGGTGGCGCTGGTCGCCGCCAGCCGCGCGGCGGTCAAGGCGATGCTCGAACAGCTCTCGCCGGAACAGCTCAGCCTGCGTTTCGAGCGCGAGAGCAAGCCGCTGGTCGCCACCGCCGGCAGCCGCTGGCGCGCCTACCGCCGTCTGCACGACGCCATGCAGCGCGACGACGACTGGAGCGAGCGCCTGTTCGCCCGCGACTTCGCCCAGGCCTATGAAGAACAGGTGCGCCTCATCGCCACCCTCGACACGAACCTCCAAGGATGA	MELVFDMVGAQQFVPGLLTTKTFKQAGGVIGRAEDCDWVIPDRKNVVSKHHAQVSYRDGAFYLTDTSSNGIQLKDSGASLQRGRPQRIEHGGIYCLGDFEIRARLIQDPASFEGDIGRPQPAGSIIPDDAFLDLDPLTALDQQERVYAEVDELIALTTPRQQPAQQRDYARIDMESLPVPELVMPEAAPLPKPAPEPERLPPSFWERFGEALGVRLDDLDDDAREALALNAARLLRLSVGNLQQSLRTRAELKNEMRLGLTTVQSAGNNPLKHSSDAREALNVLLRGGKPGQLPAEQAIGRAFRDLQAHQVALVAASRAAVKAMLEQLSPEQLSLRFERESKPLVATAGSRWRAYRRLHDAMQRDDDWSERLFARDFAQAYEEQVRLIATLDTNLQG	PGPT0025945_310	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025945-impI|vasC-K11894	NA	NA
BMS010_04809	135			hypothetical protein	ATGCAGTACCGCCATTGGCCCGCCGCCCTGTTGATCCTGGCCCTGTCCCTGGCCGGTTGCAGCGGCAACTACAAGTTCAACGACGACGAATACCGCCCGCTGGGCGATCCGCAAGCGGTCAACCGCGGCAACTGA	MQYRHWPAALLILALSLAGCSGNYKFNDDEYRPLGDPQAVNRGN				NA	NA	NA	NA	NA
BMS010_04810	1518	norR_1		Anaerobic nitric oxide reductase transcription regulator NorR	ATGTTCGCCCAGGTTCCCCAGCCGCTGCGCTACGCCGAGACCCTGCTCGAATGCTTCGCCAGCCTGGCCCGGGCGGCGGATGCCGACAGCCTGCTCGGCCGCCTGGTGGAAGCGTCGGCGCAACTGTGCGGCTGCGAGCTGAGCCAGCTCTACCTGCTGGACGATACCCACACACGGCTGATGCTCAGCGCGGCGTGGCACGACGGCCGCCTGCAACCGTGCGAGGCCAGCCTGTCCAGCGACTTCGACGGCTATGACAGCGAACAACTGCTGCAGTACTGCCTGCGCCAGAACCAAGTACTGAGCCTGGCGGAACTGGAGCCCGGCCTGCATGAGACCGGCTTTCTCCCGGAAACCGCATACCCCTGGCGCAGCCTGCTGTGCATACCGCTGCACGACGAGCAGGGCCACGTCAGCGGGTTGCTGCTGGCCGCCGCCCAGTCCTCCCGCGACCTCGGTGTGTTCGCCGATTCGCTCGGCCGCCTCGGCGCCTTCGTCGTCGCCCAGCATCACCTGCTGCTGCGCCTGCGCGCCCCGCGCGACGAAGCGCCCAGCCAGCCGGCCGCGCAGCCCGGCGGCAACGCCTACGGCCTGATCGGCGACAGTGCCAGCATGCGCGCCGTCTACCAGTTGATCGGCAAGGTCCTTCACAGCCCGGTCAACGTGCTGCTCACCGGCGAGACCGGCACCGGCAAGGAACTGGTGGCCCGCGCCATCCACGATTGCGGCCCGCGCCGAAGCAAGCCCTTCGTCGTGCAGAACTGCGCGTCGCTGCCGGAACACCTGTTGGAGAGCGAGCTGTTCGGCTACCGCAAGGGTGCCTTCACCGGTGCCGACCGCGACCGCCCCGGCCTGTTCGACGCGGCCAACGGCGGCACCCTGTTCCTCGACGAGATCGGCGACATGCCCCTGCCGCTGCAGGCCAAGCTGCTGCGCGTGCTGCAGGAAGGCGAGGTGCGCCCGCTGGGCTCCTCCGAGACGCACAAGGTGGACGTGCGCATCGTCGCCGCCACCCACCGCGACCTGCACACCCTGACCGAGGAAGGCCAGTTCCGCGAGGACCTGTTCTATCGCCTGTCGCACTTTCCCATCGAGCTGCCGCCGCTGCGCGAGCGCGAGGAGGACATCCTCCACCTTGCCCGCCATTTCGCCGACAAGGCCTGCGCCTTCCTCCAGCGCGACCTCTGCCGCTGGTCCGACGCGGCGCTGGAGCACCTGGCCGGCTACGCCTTCCCGGGCAACGTGCGCGAACTCAAGGGCCTGGTCGAGCGCGCCGTGCTGCTCTGCGAGGGCGGCGAGCTGCTGCCCGAACACTTCAGCCTGCGCCAGGAGCTGATCGCCACGGATTGCAGCCTGAACCTGCGCGAACGCCTGGAGCGCGTCGAACGCAACCTGCTGGTGGACTGCCTGCGCAAGAACCGCGGCAACCAAACCAGCGCCGCCCAGGAACTGGGCCTTCCGCGCCGCACCCTGCTGTACCGCATGCAGCGCCTGCGCATCAGCCCGGCCGATCTCTGA	MFAQVPQPLRYAETLLECFASLARAADADSLLGRLVEASAQLCGCELSQLYLLDDTHTRLMLSAAWHDGRLQPCEASLSSDFDGYDSEQLLQYCLRQNQVLSLAELEPGLHETGFLPETAYPWRSLLCIPLHDEQGHVSGLLLAAAQSSRDLGVFADSLGRLGAFVVAQHHLLLRLRAPRDEAPSQPAAQPGGNAYGLIGDSASMRAVYQLIGKVLHSPVNVLLTGETGTGKELVARAIHDCGPRRSKPFVVQNCASLPEHLLESELFGYRKGAFTGADRDRPGLFDAANGGTLFLDEIGDMPLPLQAKLLRVLQEGEVRPLGSSETHKVDVRIVAATHRDLHTLTEEGQFREDLFYRLSHFPIELPPLREREEDILHLARHFADKACAFLQRDLCRWSDAALEHLAGYAFPGNVRELKGLVERAVLLCEGGELLPEHFSLRQELIATDCSLNLRERLERVERNLLVDCLRKNRGNQTSAAQELGLPRRTLLYRMQRLRISPADL	PGPT0030460_76	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_REGULATION,PGPT0030460-sfa2-K11914	NA	NA
BMS010_04811	2619	clpV1_3	COG0542	Protein ClpV1	ATGATCAATGTCGATTTGCAACAACTGGTACAGGCGCTGGACGCCGAGACCCGCCGCGACCTGGAAGCGGCCGCCGAACGCTGCGTGATCCGCGGCGGCAGCAAGATTCTCGTCGAAGACCTGCTGCTCGGCCTGTTAGAGCGCCCGGAAAGCCTGCTGACCCGTGCCTTGCAGGATGCCGAAGTGGAGCCCGGCGAACTGGCCAAGGCGCTGCAACCGCGCGGCGAGTACAGCGAATCGCGCAACCCGGTGTTCTCCACCGAACTGGTGCAATGGCTGCAGGACGCCCTGCTGGTGGCCAGCCTCGAACTCGGCCAGAGCCAGATCGACCAGGCCGCGCTGATCCTCGCCCTGCTGCGCAACCCGCTGCGCTACGCCGGTAGCCACTACCAGCCGCTGCTGGCGCGGATCGACATCGAGCGCCTGCGTGAGTTCGCCCTGGCCCAGCAGCCGCAGCAGGTCACCGGCAAGCCTGCCGCCGGCGGCGAATCCAACCTGGCACGCTTCACCCACAACTTCACCCAGCAGGCCCGCGACGGCAAGCTGGACCCGGTGCTCTGCCGCGACGCGGCGATCCGCCAGATGATCGACATCCTCGCCCGTCGGCGGAAGAACAACCCGATCGTGGTCGGCGAGGCCGGCGTCGGCAAGACCGCCATCGTCGAGGGCCTGGCCCTGCGCATCGCCACCGGCGAGGTGCCGGAGGTGCTCAAGGGCGTCGAGCTGCTCTGCCTGGACCTCGGTCTGCTGCAGGCCGGCGCCAGCGTGAAGGGCGAGTTCGAACGGCGCCTGCAAGGCGTGATCGATGAGGTGAAGGGCTCACCGAAGCCGATCATTTTGTTCATCGACGAAGCCCACACCTTGATCGGCGCCGGTGGACAAGCCGGCGGCTCGGACGCCGCCAACCTGCTCAAGCCTGCCCTCGCCCGGGGCGAGCTGCGCACCATCGCCGCCACCACCTGGAGCGAATACAAGAAGTACTTCGAGAAGGACCCGGCCCTGGCCCGCCGCTTCCAGCCCGTGCAACTGCACGAGCCGACTGTGGACGAAGCGGTCACCATCCTGCGCGGCCTGGCGCCGGTCTACGAGAAGAGCCACGGCATCTACCTGCGCGACGACGCAGTGGTCGCCGCCGCCGAGCTGTCCGCCCGCTACCTCGCCGGCCGCCAGTTGCCGGACAAGGCGGTCGATGTACTCGACACCGCCTGCGCCCGCGTGCGCATCAGCTTGGCCGCCGCGCCGGAAGCCCTGGAACGCCTGCGCGGCGAGATCGCCGAGGGCGAGCGCCAGCGCGAGGCCGTACGCCGCGACCTGGATGCCGGCCTGAAGATCGACGAAGAAGCCCTGGCGCACCTGGAAGCCCGCCTCGCCGAGGCCTGCGCCGAGCTGGAACAACTGGAAACCCGCTGGGACCGGCAACGCGAACTGGCCGAGCGTCTGCTCGACCTGCGCAAGCGCTGCGCCACCGCGCGCCAGGTGGCGGCCGTGGAAGCCCAGGAAGAAGAAACCACTGCGGGCGAGGCGCAGCCGAGCCTGGCGCAACTGGAAGCCGAGCTGCGCGAAGCCCAGGCCGAACTGGCCGCCGCCCAGGCCAGCGAGCGCCTGGTCAGCCATGAAGTCTGCCCGCGCCTGGTCGCCGAAGTGATCAGCCACTGGACCGGCGTGCCGCTGTCGCAACTGGCCCGCGAGCACAACAGCAAGATCGTCACCTTCGCCAGCGACCTGCGCCAGCGCGTGCGTGGCCAGGAGCAGGCCATCGCCGCCCTCGACCGCGCCATGCGCGCCACCGCCGCCGGGCTGAACAAGCCGGATGCGCCGGTCGGCGTGTTCCTGCTGGTCGGCCCGAGCGGCGTCGGCAAGACCGAAACCGCCCTGGCCCTGGCCGACCTGCTGTACGGCGGCGAGCGCTTCCTCACCACCATCAACATGTCCGAGTTCCAGGAGAAACACACCGTCTCCCGCCTGATCGGCGCGCCTCCGGGCTACGTCGGCTACGGCGAGGGCGGCATGCTCACCGAGGCGGTGCGGCAGAAGCCCTACTCGGTGGTGCTGCTGGACGAGGTGGAGAAGGCCGACCCGGACGTGATGAACGTCTTCTACCAGATCTTCGACAAGGGCGTGGCCAACGACGGCGAAGGGCGCGAAATCAACTTCCGCAACACCCTGATCCTGATGACCTCCAACCTGGCCAGCGAGCGCATCGCCAGCCTCTGCCAGGGCGGCCAGCGCCCGGCGGCGGAAGACCTGGAACTGGCGATCCGCCCGGTGCTCAGCCAGCACTTCAAGCCGGCGCTGCTCGGCCGCATGCGCGTGGTGCCCTACTACCCGGTGGATGGCGAAGTACTGCGCGAGCTGGTCGCGCTCAAGCTGGCCCGCTTCGGCGAACGCCTGGAGCGCCGGCAGTTGCAGTTCAGCCACTGCGAAGCCCTGGTGGACAACCTCGCCGAGCGCTGCACCCACGCCGACAGCGGTGCGCGGCTGATCGACCACCTGATCGACCAGCACCTGCAACCGCTGGTGGTGGACCGCCTGCTCGACGCCATGGCGGCCGGCGAATCCCTGCAGCGCGTGCACGCTACCCTGGATGGCGAAGGTTCGGTGGTCTGTGAGTTCGCTTAA	MINVDLQQLVQALDAETRRDLEAAAERCVIRGGSKILVEDLLLGLLERPESLLTRALQDAEVEPGELAKALQPRGEYSESRNPVFSTELVQWLQDALLVASLELGQSQIDQAALILALLRNPLRYAGSHYQPLLARIDIERLREFALAQQPQQVTGKPAAGGESNLARFTHNFTQQARDGKLDPVLCRDAAIRQMIDILARRRKNNPIVVGEAGVGKTAIVEGLALRIATGEVPEVLKGVELLCLDLGLLQAGASVKGEFERRLQGVIDEVKGSPKPIILFIDEAHTLIGAGGQAGGSDAANLLKPALARGELRTIAATTWSEYKKYFEKDPALARRFQPVQLHEPTVDEAVTILRGLAPVYEKSHGIYLRDDAVVAAAELSARYLAGRQLPDKAVDVLDTACARVRISLAAAPEALERLRGEIAEGERQREAVRRDLDAGLKIDEEALAHLEARLAEACAELEQLETRWDRQRELAERLLDLRKRCATARQVAAVEAQEEETTAGEAQPSLAQLEAELREAQAELAAAQASERLVSHEVCPRLVAEVISHWTGVPLSQLAREHNSKIVTFASDLRQRVRGQEQAIAALDRAMRATAAGLNKPDAPVGVFLLVGPSGVGKTETALALADLLYGGERFLTTINMSEFQEKHTVSRLIGAPPGYVGYGEGGMLTEAVRQKPYSVVLLDEVEKADPDVMNVFYQIFDKGVANDGEGREINFRNTLILMTSNLASERIASLCQGGQRPAAEDLELAIRPVLSQHFKPALLGRMRVVPYYPVDGEVLRELVALKLARFGERLERRQLQFSHCEALVDNLAERCTHADSGARLIDHLIDQHLQPLVVDRLLDAMAAGESLQRVHATLDGEGSVVCEFA	PGPT0025985_1368	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025985-vasG|clpV-K11907	NA	NA
BMS010_04812	1023			hypothetical protein	ATGGACGCCACGCATGGGCATGCAGCCCCTGCTCTGAGCCGGCTCAGCCAAGGCATCCGCGAGTACAACCTGTTCCAGGGTGTGCTGCTGGTGCTGGACCGGCTGCGCCAGGAAAATCGCGACAAGGCCGACGAAGAGACGCTGTACGAGCGCATCGAATTCCAGGCCAACCCCAGCCTGGGCTTCCCCGGCAGTGATATCGATCGCGTGCAATTTTTCACCGAGCACGGCGAGACCCGCGCGCGCCTGCGTATCAACTTGGTGAGCCTGTTCGGCGCCGGCTCGCCGCTGCCTGCCTTCTACGGCGAACAGGCCCTGGGCGACAGCGCCGAAGGCGGCAACCCGACGCGCGACTTCCTCGACCTGTTCAACAACCGCCTGCAACGCCTGATGCTGCCGATCTGGCAGAAGTACCGCTACCGCGTGCAATTCCGCAGCGGCGCCGAGGACCCGTTCTCCGAGCACCTGTTCGCCCTGATCGGCCTTGGCGGCGAGGCGCTGCGCGAAACGAAAGAGCTGAACTGGAAGCGCCTGCTGCCCTACCTCGGCCTGCTCAGCCTGCGCGCCCACTCGGCGGCGCTGATCGAATCGGTGCTGCGCTACTACTTCAAGCATGCCGAACTGAACATCGAGCAGTGCCTTGAGCGCCGGGTGGAAATCATCCCAGCGCAGCGCAACCGCCTCGGCCGCGCCAACAGCCAGCTCAGCGAAAGCCTGGTGCTCGGCGAGCGGGTCCGCGATCGCGGCGGCAAGTTCCGCATCCACATCCGCCAGCTCGGCTGGGAACGTTTCCACGAATTCCTGCCGATCGGCACGGGCTACCAGCCGCTCTGCGCACTGGTGCGCTTCACCCTGCGCGATCCGCTCGACTACGACCTGCGCCTGGAGCTGCGTCCGGAAGAAATCCGCGACCAGCGCATCGGCGCGGAAAACCCCTGCCGCCTCGGCTGGACCAGCTGGCTCGGTCGCGAACGCGCCGACGGCCTGGTCACCCTGGGCCATTCAAGGACCGAAAAACGATGA	MDATHGHAAPALSRLSQGIREYNLFQGVLLVLDRLRQENRDKADEETLYERIEFQANPSLGFPGSDIDRVQFFTEHGETRARLRINLVSLFGAGSPLPAFYGEQALGDSAEGGNPTRDFLDLFNNRLQRLMLPIWQKYRYRVQFRSGAEDPFSEHLFALIGLGGEALRETKELNWKRLLPYLGLLSLRAHSAALIESVLRYYFKHAELNIEQCLERRVEIIPAQRNRLGRANSQLSESLVLGERVRDRGGKFRIHIRQLGWERFHEFLPIGTGYQPLCALVRFTLRDPLDYDLRLELRPEEIRDQRIGAENPCRLGWTSWLGRERADGLVTLGHSRTEKR	PGPT0025940_1277	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025940-impH|vasB-K11895	NA	NA
BMS010_04813	1794			hypothetical protein	ATGTCTTTCAACCACTACTACCAGAGCGAACTGACTGCCCTGCGCCAGCTCGGCAAGCGCTTTGCCGAGCGTAGTCCGGCGCTGGCGCCGTTTCTCGGGCAGAGCGGGCGCGATCCGGATGTGGAGCGTCTGCTGGAGGGTTTCGCCTTTCTCACTGGCCGGTTGCGGCAGAAGCTGGACGACGAGCTGCCCGAACTGACCCATTCGCTGATGCACCTGCTGTGGCCCAATTACATGCGTCCGCTGCCGTCGTTCAGCATGTTGCAGTTCGAGCCGTTGCAGCGACCGGGGCCGGCGTTGCGGGTGGCGCGGGGTACGCCGGTGGAATCCGAGCCGATCCAGGGCGTGAAGTGCCGCTTCCGTACCTGCTACCCCACCGATGTCCTGCCGCTGGATCTGACCGGCCTGAACTACTCGGCGAAAGGCGACGGCGCGCTGCTCGACCTGCGGCTGACGATGACCGCCAAGGGCCATGTCAATGATCTGGGGTTGAAGCAGTTGCGCCTGCATCTGCACGGCGAGCGCTACATCGCCCAGTTGCTCTACCTGAGCCTGCTGCGCTACCTCGGCCGAATCGAAGTGGTGCTGCTGGATGCCGAGGGCCAGCCGCTGAGCAAGGACGCCAACGGCAACGCCCAGGCCGACCTGACCCTCGGCGCCGACAAGGTGAGCCCGGTGGGGTTCGCCGAGGACGAAGCGCTGATCCCGTATCCGCTGAACACCTTCCGCGGCTACCGCTTCCTGCAGGAGTACTACGCCTTCCAGGACAAGTTCCTGTTCGTCGATATCGGCGGGCTGGAGGCGATCCGGCGGCTGCCCGAGGCGCTGCTCGAAAAGACCCAGGGCCTGATGCTGCGCTTCCACATCCAGAAGGCCGGCGCGCAGCGCATCCGTCCCACGCGGGACAACGTGCGCCTGTACTGCACGCCGGTGGCGAACCTGTTCAGCCACGACGCCATCCCGATCCGCCTGGACGGCAAGCAGGACCAGTACCTGCTGCTGCCGGCGGAATTCGACTCGCGTCACTGCGGTGTGTTCTCGGTGGATCGCGTCACCGGCTGGAAGCCCGGCGGCACCGGCTACGAGGAATACGTACCGTTCGAATCCTTCGAACACGACCAGAGCTTCGACGTCCCGGTGGCGCGGCCGCATTACAGCGTGCGCCAGCAGCCGTCCATGCTCGGCGACGGCCTGGAGACCTACCTGAGCTTCGGCCTGCGCGACCTGGAGCAGCACGAGACGCTGTCCATCGAGCTGACCTGCACCAACCAGAACCTGCCGAGCCAGTTGAAGGAAGGGGCGATCTGCGAGGCCAGCGAAGGTACCCCGGAATTCCTCAAGTTCCGCAACATCTGCGCGGCGACGCCGAGCTACGCGCCGCCGCTGCACCGCGACTTCCTTTGGAAGCTGATCAGCAACATGTCGCTGAACTACCTGTCGCTGGCCAACGTCGAGGCGCTCAAGGTGATCCTCGAGACCTACGACCTGCCGCGCTACTACGACCAGAAGGCCGCCAGGGTCAGCCGCAAGCAGCTCGACGGGCTGATGAGCATCCGCCACCAGCACGTCGACCGACTGTACCGCGGCCTGCCGGTGCGCGGCGTGCGCACCGAGCTGGAAATCGACCCGCAAGGCTACATCGGCGAAGGCGACGTGTTCGTCTTCGCGTCGGTACTCAATGAATTCTTCGCCCTCTACGCCAGCCTCAACTCCTACCACGAGCTGCGCGTGAAGAGCACCCAAGGAGAGGTATACGAATGGACGCCACGCATGGGCATGCAGCCCCTGCTCTGA	MSFNHYYQSELTALRQLGKRFAERSPALAPFLGQSGRDPDVERLLEGFAFLTGRLRQKLDDELPELTHSLMHLLWPNYMRPLPSFSMLQFEPLQRPGPALRVARGTPVESEPIQGVKCRFRTCYPTDVLPLDLTGLNYSAKGDGALLDLRLTMTAKGHVNDLGLKQLRLHLHGERYIAQLLYLSLLRYLGRIEVVLLDAEGQPLSKDANGNAQADLTLGADKVSPVGFAEDEALIPYPLNTFRGYRFLQEYYAFQDKFLFVDIGGLEAIRRLPEALLEKTQGLMLRFHIQKAGAQRIRPTRDNVRLYCTPVANLFSHDAIPIRLDGKQDQYLLLPAEFDSRHCGVFSVDRVTGWKPGGTGYEEYVPFESFEHDQSFDVPVARPHYSVRQQPSMLGDGLETYLSFGLRDLEQHETLSIELTCTNQNLPSQLKEGAICEASEGTPEFLKFRNICAATPSYAPPLHRDFLWKLISNMSLNYLSLANVEALKVILETYDLPRYYDQKAARVSRKQLDGLMSIRHQHVDRLYRGLPVRGVRTELEIDPQGYIGEGDVFVFASVLNEFFALYASLNSYHELRVKSTQGEVYEWTPRMGMQPLL	PGPT0025935_1105	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025935-impG|vasA-K11896	NA	NA
BMS010_04814	396			hypothetical protein	ATGAAAAATAAAGTAAGGGCCTGCGCTATAAACCTATGCGTACACAGCGCAGCCTTCACCCTGTTGATTGGACTTAACGATATCGCGCACAGGCTCTATAAAGCCTGTATCGGCGATTTCGGTTCAAGAGGCATAGCCCCTGGCTCCGTTACCCTTTTGGTGATTTTGCTTTTTATTGGATTCAACGTTCCCGCAGCGATTATTCCGCTCAAAGCGGTGAAGATTTCGCTGGGTGTGGCATTTGTTCTGACTACCGCTTGGTTTCTATTGCCAACTCACCCATTACGTGCGGCGCTCTACTGCATTGCCGGAGGTCTGCTGACGTTCGCCTCAATTTTCGTAGCGTCGCGGGTCAATGGCCTCGTCTTCCGCACGAAACACCCCAGCGCCGACTGA	MKNKVRACAINLCVHSAAFTLLIGLNDIAHRLYKACIGDFGSRGIAPGSVTLLVILLFIGFNVPAAIIPLKAVKISLGVAFVLTTAWFLLPTHPLRAALYCIAGGLLTFASIFVASRVNGLVFRTKHPSAD				NA	NA	NA	NA	NA
BMS010_04815	369			hypothetical protein	ATGAGTCGGCAACGAATCATCGCACTTATCTGCCACGGCGTGGCGTGTTTGCTGTTTCCCGTAGCGACAAGCCTAGGCTTTCATTTTTACACGGCCTTATTTGGCGCCCCGTTCGCCAGGGGAGCCGCACTCGGCCTCGCCGTTCAGCTCATTTTTATTGTTTTTATCTTGACGAACATTTTGATCGCTCTGATATCCAGCATGAAAGCGAAGGCAGTACTCGCCTGCATGCTAGCCGCCGCAGTGCTTATTTATCTGATTCCAGAGCATCCATTGCGTGGGCTGTTCTTTGCGGGCCTCTCCGGTGGCTTGTCACTTGTAGCCATCTATGTGTCAAGGCAGTTGGCGCATATGAGCAACAACAAATGA	MSRQRIIALICHGVACLLFPVATSLGFHFYTALFGAPFARGAALGLAVQLIFIVFILTNILIALISSMKAKAVLACMLAAAVLIYLIPEHPLRGLFFAGLSGGLSLVAIYVSRQLAHMSNNK				NA	NA	NA	NA	NA
BMS010_04816	849			hypothetical protein	ATGGAAACCCTCATCACCATCGACGGAGCTTCCTATACCTTCGAGACCAAAGACGGCAAGACCGAACTCAAGGTGCAGTCCGAAAGCACACCGAGCGAGGACAAGAAGGCGCCGAAGATCAAAGTTCCCAACGCCTGGCTGATTACCCGAAAGAACGGTTTCCCTTTGTTCGCCGTCCGGCCTAAACAGGGCGAAAAGACTTTCCGCATCATTACCGCCGACAAGCTGTACTCGGAAAAGGTCCAATGGTTCGAACCTCTGGCTGATAACTATAGGGAGCGAATCTGGCTGCACCCGGATTCATCCAAGCCGGGCTCCGAAGCCTACTCCGCATATAAGCACTTCACGTGGAAGCAGATTATCGACTTCGCCATCGTGGATCGGTGGTCATTGAGCTTTTCCAAAAGGATGCCTGGCGACTGGAAGGCAAACCCCGAAGGAGGCGCCGGCTTCCTGATGGTTATGGTCGATAACTTACCTTATTGGACCGACGGGGTCGGACAAATTCCTTTCGCCGTCGACACGTTCAGAAAGTACCTAGAAGAACTGCGAACTAAACCAGCAGCCATCAGCAAAACAGTACGGATTGGCATGGAATACGGCGACGGTAATCCATTCTCTCCGAAAAACGATCCGACCAACGAATACGATAACTACATGGTGCTTCGAGGGGCACTCTGGGCCTCCGAGAATTTTCAGCTGGTCATTAAAAAGGAGCTACTACAGACACCGCATACCGCCCGCATGATTGAACGTGCAAGTACGGTGTATCAACCAGGACCATTGCAGTATTTGCAAAATCCTATCTCTGCCGGCTCCCTTACTCAATATGGGGAATGGAAGAAATGA	METLITIDGASYTFETKDGKTELKVQSESTPSEDKKAPKIKVPNAWLITRKNGFPLFAVRPKQGEKTFRIITADKLYSEKVQWFEPLADNYRERIWLHPDSSKPGSEAYSAYKHFTWKQIIDFAIVDRWSLSFSKRMPGDWKANPEGGAGFLMVMVDNLPYWTDGVGQIPFAVDTFRKYLEELRTKPAAISKTVRIGMEYGDGNPFSPKNDPTNEYDNYMVLRGALWASENFQLVIKKELLQTPHTARMIERASTVYQPGPLQYLQNPISAGSLTQYGEWKK				NA	NA	NA	NA	NA
BMS010_04817	510			hypothetical protein	ATGTCCGGAAAACCCGCCGCCCGTCTCGGAGACCCCACCGCCTGCCCGGTCCCCGGCCACGGCACCAACCCCATCGTCGCCGGCTCGCCCAACGTCCTCTTCGACGGCAAGCCCGCCGCCCGCCAGGGCGACCCCACCGCCTGCGGCAGCGCCCTGGCCAGCGCGACGATCCCCAACGTGCTGATCAACGGCATGCCCGCCACCACCATCGGCACCGTGGGCAGCCACGGCAATACCGTGGTCGCGGGGTCGGGGACGGTGTTGATTGGGACGAGTGTGGTGGTGGCGGAGTTTACCGAGCCAAGTCCGGTCTCTTTGACGGCCGGTTTCGACCGTTTGTTCTCCCTTGAAACGGAGGACGGCCAGCCCCTGAAGAACCTTGCGTATCGCATCGTCTCAGAGAGCGGCATCGTCAGGCAGGGCGCCACTTCGGGCAGCGGCATGACCGGCAATATTTCCACCGGCGGCCAACAAGAGGCCCTTACGCTGTACATCTCCGGAGAAGACTGA	MSGKPAARLGDPTACPVPGHGTNPIVAGSPNVLFDGKPAARQGDPTACGSALASATIPNVLINGMPATTIGTVGSHGNTVVAGSGTVLIGTSVVVAEFTEPSPVSLTAGFDRLFSLETEDGQPLKNLAYRIVSESGIVRQGATSGSGMTGNISTGGQQEALTLYISGED				NA	NA	NA	NA	NA
BMS010_04819	408			hypothetical protein	ATGAACGGATACGGCAGCCTCTTCGAACGCCTCGGTGGCGAAGCCGGCCAACGCGCCGGCTGGAGCCGCGAGGTCGCCGTCATGGCGTCGGTGGCTGCCCATCTGGCCAAGATGCTCAGCACCCGTGCGGGCAGCGTGCAAACGCTGCCCGACTACGGGTTGCCCGATCTGAACGATATGCGTCTGTCGCTGCACGACGCCTTGCAACAGGCCCGCAGCGCCATCGAAGGCTTCATCGAAAAATACGAACCGCGCCTGAGCCAGGTCCGGGTGGTTTCACTGCCCCGCGACCACGACCCGCTGACCCTCGCCTTTTCCATCGAGGGCCTGCTGGAAGTCGACGGCTTCAAGCGCCAGGTCAGCTTCTCCGCGCGCCTGGATGGCAGCGGACAGGTCAAGGTGAACTAA	MNGYGSLFERLGGEAGQRAGWSREVAVMASVAAHLAKMLSTRAGSVQTLPDYGLPDLNDMRLSLHDALQQARSAIEGFIEKYEPRLSQVRVVSLPRDHDPLTLAFSIEGLLEVDGFKRQVSFSARLDGSGQVKVN	PGPT0030405_467	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0030405-tssE-K11905	NA	NA
BMS010_04820	1476			hypothetical protein	ATGAGCACTAGCGCAGCAGTGGAAAGCGGCCGCAGCGCCGCCGAACTCGGCATTCTCGACCGCATCATCGCCGAGACCAAACTGACCCCGGACGACGAGGCCTACGACATCGCCAAGCGCGGCGTCTCCGCCTTCATCGAAGAACTGCTCAAGCCGCAGAACGACGGCGAGCCGGTGAAAAAGGCCATGGTCGACCGCATGATCGCGGAAATCGACGCCAAGCTCAGCCGGCAGATGGACGAGATTCTCCACCACCCGCAATTCCAGGCCCTGGAATCCTCCTGGCGCGGCCTGAAGCTGCTGGTGGACCGCACCAACTTCCGCGAGAACATCAAGCTGGAAATCCTCAACGCCTCCAAGCAGGACCTGCTGGATGACTTCGAGGACAGCCCGGAAATCGTCCAGTCCGGCCTCTACAAGCACATCTACACCGCCGAGTACGGCCAGTTCGGCGGCCAGCCGGTCGGCGCCCTGATCGCCAACTACTTCTTCGATCCGAGCGCCCCGGACGTGAAGACCCTGCAGTACGTTGCCAGCGTCGCCTGCATGTCCCACGCCCCGTTCATCGCCGCCGCCGGCCCGAAATTCTTCGGCCTGGAAAGCTTCACCGGCCTGCCGGACCTGAAGGACCTCAAGGACCACTTCGAAGGCCCGCAATTCGCCAAGTGGCAGAGCTTCCGCGAGCAGGAAGACGCCCGCTACGTCGGCCTGACCGTACCACGCTTCCTCCTGCGCAACCCGTACGATCCGGAAGACAACCCGGTGAAGACCTTCGTCTACAAGGAAAACGTGGCCAACAGCCACGAACACTACCTGTGGGGCAACACCGCCTACACCTTCGCCAGCCGCCTGACCGACAGCTTCGCCAAGTTCCGCTGGTGCCCGAACATCATCGGCCCGCAGAGCGGTGGCGCGGTGGAAGACCTGCCGCTGCACCACTTCGAGAGCATGGGCGAGATCGAGACCAAGATCCCGACCGAAGTGCTGGTCTCCGACCGTCGCGAATACGAGCTGGCCGAAGAAGGCTTCATCGCCCTGACCATGCGCAAGGGCAGCGACAACGCCGCGTTCTTCTCCGCCAACTCCACCCAGAAGCCGAAATTCTTCGGCATCAGCGAGGAAGGCAAGACCGCGGAGCTGAACTACAAGCTCGGCACCCAGCTGCCCTACCTGTTCATCGTCAACCGCTTGGCGCACTACCTGAAGGTGCTGCAGCGCGAGCAGATCGGCGCCTGGAAAGAGCGCACCGACCTCGAGCTGGAACTCAACAAGTGGATTCGCCAGTACGTGGCCGACCAGGAGAACCCCAGCTCCGAAGTCCGCAGCCGCCGCCCGCTGCGCGCCGCCCAGGTGATCGTCAGCGACGTGGAAGGTGAACCGGGCTGGTACCGCGTCAGCCTCAGCGTACGCCCGCACTTCAAGTACATGGGTGCGGACTTCACTCTGTCGCTGGTCGGCAAGCTGGACAAAGAGTGA	MSTSAAVESGRSAAELGILDRIIAETKLTPDDEAYDIAKRGVSAFIEELLKPQNDGEPVKKAMVDRMIAEIDAKLSRQMDEILHHPQFQALESSWRGLKLLVDRTNFRENIKLEILNASKQDLLDDFEDSPEIVQSGLYKHIYTAEYGQFGGQPVGALIANYFFDPSAPDVKTLQYVASVACMSHAPFIAAAGPKFFGLESFTGLPDLKDLKDHFEGPQFAKWQSFREQEDARYVGLTVPRFLLRNPYDPEDNPVKTFVYKENVANSHEHYLWGNTAYTFASRLTDSFAKFRWCPNIIGPQSGGAVEDLPLHHFESMGEIETKIPTEVLVSDRREYELAEEGFIALTMRKGSDNAAFFSANSTQKPKFFGISEEGKTAELNYKLGTQLPYLFIVNRLAHYLKVLQREQIGAWKERTDLELELNKWIRQYVADQENPSSEVRSRRPLRAAQVIVSDVEGEPGWYRVSLSVRPHFKYMGADFTLSLVGKLDKE	PGPT0025920_1321	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025920-impC-K11900	NA	NA
BMS010_04821	507			hypothetical protein	ATGGCCAAAGAAGGCTCGGTTGCCCCCAAGGAACGCATCAACGTCACTTTCAAGCCGGCCACCGGTAACGCTCAGGAAGAGATCGAACTCCCCCTGAAACTGATGGTGCTCGGCGACTTCACCCAGCGCGCCGACGATCGCAAGATCGAAGACCGCAAGCCGATCAGCATCGACAAGAACAACTTCGACGAGGTCCTGGCCAAGCAGGAACTGAACCTGACCTTCGCCGTGCCCAACCGCCTGCAGGACGAAGCCACCGATGACGAGCTGGCCGTCCAGCTCGAAATCAACTCAATGAAGGACTTCAACCCGGCCAACCTGGTCGACCAAGTCCCCGAGCTGAAGAAGCTGATGGAACTGCGCGACGCCCTGGTCGCCCTGAAAGGCCCGCTGGGCAACGCCCCAGCCTTCCGCAAGGCGATCGAGAGCGTGCTCGCCGACGACGTCTCGCGCGATCGCGTGCTCGGCGAACTCGGCCTCGCCGCCAAAGACAAGCTGGACGCCTGA	MAKEGSVAPKERINVTFKPATGNAQEEIELPLKLMVLGDFTQRADDRKIEDRKPISIDKNNFDEVLAKQELNLTFAVPNRLQDEATDDELAVQLEINSMKDFNPANLVDQVPELKKLMELRDALVALKGPLGNAPAFRKAIESVLADDVSRDRVLGELGLAAKDKLDA	PGPT0025915_845	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025915-impB-K11901	NA	NA
BMS010_04822	1563			hypothetical protein	ATGACGTATTCAAGCAAACTCACCGCCCATTATCTCGAGCTGGCAAAATCCCCTGTTTCGGAGGGGAATTTCGCTGGCGAAGATGTGCGTTATTCCCCCGAATACGAGTTGCTCGAAACGGAGCTGGGCAAGGCTTCGTCGCTGCACGAAACCGGCGGCATCGACTGGCAGAAGGTCCGCGAAGGCAGCGAGACGCTGCTCCGCCAGCATTCGAAAGACCTGCGTGCCGCCACCTGGCTGACCTGGAGCCTGCACCAGCGCGAATCCTTCGTCGGCCTGCAGGCCGGCCTGGCCCTGCTGCATCACCTCTGTGCCCAACACTGGGCCGAACTTCACCCCCGCAAGCCCCGCACCCGCATCGCCGCGTTCAACTGGCTGCTGCCGCGCCTGGAACAGGCCCTGGCCGAACACGTGCCGGTGAGCGAGCAACTGCCACTGTTCCGCGCCTTGGGCGAGCACCTGCGCGGCCTGGAAACCTGTCTCTCCGGGCATCTGGGCGAAGACGCTCCCTTGCTGCTGCCGCTCTGCCGGCGGGTCGACGAGATGGTCAACCGCGCCAGCCAGGGCCAGCCGGAGCCCGGCACCGTCGGCGCCGCCATCGCCCAGGTCAAGCAGGTCGCCACCCAGATCCTCACCAGCAACACGCCGATCGACAACGAGAAGGACGCCCACAAGGGCCTGCGCCAACTACAGGACCAGGCCCGTCCGCTGTGCGCCTGGTGGCTCAAGCAGAAGGCCAGCGACCTGCGCGCCCTGCGCCTGTCACGCACCCTGTTGTGGCTGCCGATCGACAGCCTGCCGGAGCGCAACGCCGAACAGATCACAGCCCTGCGCAACCTGCCGGCGGACAAGCTGGCCAGCTACCGCGAACGCTTCCAGCAAGGCCAGTACGCCGACCTGTTGGTGGACCTGGAAGCCAGCATCGCCCGCGCGCCGTTCTGGCTCGACGGCCAGCGCCTGGTCTGGGAATGCCTGCAGGAACTGAACGCCGAACAGGCCATGCGCGAAGTGGAAATCCAGCTCGGCCTGTTTCTCGAGCGCGTGCCCGGTCTCGAAGAACTGCGCTTCCACGACGGCCAGCCGTTCGCCGACGCCGAGACCCGCGCCTGGATCGGCGGCTACGTCATGCCCCACCTGCAAGCGCCGGAAGCCGTGCACGACAGCGCGCCCGCCGAACAAGGCGCGGCGCCCGCCTGGGAAGAAGCGCTGCAACAGGTCCTGCCGCAGTTGCGCAAGGACGGCCTCAAGCCCGCCGTGCAGAAACTCAAGCAGGGCCTGGCCCAGGCCCGCGGCGGCCGCGAGCGCTTCTTCTGGCAGCTCACCCTGGCCCGCCTCTGCTACCAAGCGAAGAAGTACGAACTGGCCAAGACCCAACTCGAATCCCTCGATCAGACGCTCGAAGCCTCCGGCCTCGGCGCCTGGGAACCCGATCTCGCCCTGGAAGTGCTGCGCCTCCTGCACAGCTGCTGTGAGCTGCTGCCGCAGAACCACGCGGTGCGTGAACGCAAGGAAGAGATCTATCGAAGACTGTGCCACCTCGACCTCGAAGTGGTGCTCGATTAG	MTYSSKLTAHYLELAKSPVSEGNFAGEDVRYSPEYELLETELGKASSLHETGGIDWQKVREGSETLLRQHSKDLRAATWLTWSLHQRESFVGLQAGLALLHHLCAQHWAELHPRKPRTRIAAFNWLLPRLEQALAEHVPVSEQLPLFRALGEHLRGLETCLSGHLGEDAPLLLPLCRRVDEMVNRASQGQPEPGTVGAAIAQVKQVATQILTSNTPIDNEKDAHKGLRQLQDQARPLCAWWLKQKASDLRALRLSRTLLWLPIDSLPERNAEQITALRNLPADKLASYRERFQQGQYADLLVDLEASIARAPFWLDGQRLVWECLQELNAEQAMREVEIQLGLFLERVPGLEELRFHDGQPFADAETRAWIGGYVMPHLQAPEAVHDSAPAEQGAAPAWEEALQQVLPQLRKDGLKPAVQKLKQGLAQARGGRERFFWQLTLARLCYQAKKYELAKTQLESLDQTLEASGLGAWEPDLALEVLRLLHSCCELLPQNHAVRERKEEIYRRLCHLDLEVVLD	PGPT0030430_324	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0030430-vasJ-K11910	NA	NA
BMS010_04823	918	yeaD_2	COG0676	Putative glucose-6-phosphate 1-epimerase	ATGAACCCCTCCCGCCAATCCCCGCAGATCGAACGGGTCGAGATGGACGAACTGGTCTGCTGGCGCGTCCGCACCGACGCCGCCGAGCTGCTGGTCGCCCAGCAGGGTGCGCAGGTCCTAAGCTACCAGCGCGATGGCCAGCCACCGTTGATCTGGCTCAGTGAGCAGGCCGGCTTCAGGAAGGGCCAGTCGGTGCGCGGCGGCATCCCGGTGTGCTGGCCCTGGTTTGGCGACCTGGCGCGCAATCCCCTGGCCGTCCAGGCGATGCGCCGCAGCGAGCAACCGGCCCCGGCCCACGGCGAAGTCCGCGGGCTGGACTGGGAGCTGCTCGGCGCCAATGCGGAAGAGGGCGCGGTGCGCCTGGAGTTCGCCTTCATCCAGCCGGAAGGCGGCCTGCCGGATTGGCCGCACCCGGTCGCCCTGACGCTCGCCATCCAGCTCGACGAACGCCTGACCCTCACCCTGACCAGCCACAACCAGGGCAACATGCCGGTGTCCCTGACCCAGGCGCTGCACAGCTACTTCGCGGTCAGCGACATCCACCAGGTGCGCGTCGAGGGGCTGACCGGCAAGCGCTATATCGAAACCCTGGAGAACTGGCAGGAACGCCATCAGGACAGCGACCTGCGCTTCACCGGCGAGACCGACCGCATCTATCTGGACACACCGGCGCGGATCGCCATCCTCGACCCGGGCTGGCAGCGCAGCATCCAGCTCGAAGCCAGTGGCTCGCATTCGGCAGTGGTGTGGAACCCGTGGATCGACAAGGCGCGGCGGCTTTCCCAGTTCGCCGACGATGCCTGGCAGCGGATGCTCTGCATCGAAACGGCCAACCTGCTGGACGACGCCGTGCACCTGGCGCCCGGCGAACGCCACAGCCTGACCGTCAGTCTCTGGTCCGAAGCCTTGGCGAACTGA	MNPSRQSPQIERVEMDELVCWRVRTDAAELLVAQQGAQVLSYQRDGQPPLIWLSEQAGFRKGQSVRGGIPVCWPWFGDLARNPLAVQAMRRSEQPAPAHGEVRGLDWELLGANAEEGAVRLEFAFIQPEGGLPDWPHPVALTLAIQLDERLTLTLTSHNQGNMPVSLTQALHSYFAVSDIHQVRVEGLTGKRYIETLENWQERHQDSDLRFTGETDRIYLDTPARIAILDPGWQRSIQLEASGSHSAVVWNPWIDKARRLSQFADDAWQRMLCIETANLLDDAVHLAPGERHSLTVSLWSEALAN	PGPT0001875_3	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0001875-ilvD-K01687	NA	NA
BMS010_04824	1152	macA_1	COG0845	Macrolide export protein MacA	ATGCGCAAGTTGCTGATCATCGTCACACTTTCGCTGCTACTCGGCGCGCTGATCTGGTGGTGGCAGCGCCCGCAACCCCTGACCGTGCGGCTCGCCGAGGTGGAGCGGGGCGCGGTGGAAACCCTGGTTGCCAACACCCGCGCCGGCACGCTCAAGCCCTGCCGACGCACGCACCTGTCCTTCAACCTCGGCGGCCAGGTGACCGAGCGGCGGGTGGACGAAGGGCAGCGGGTCGCCACCGGCGACGTGCTGATGCACCTGCGGCAGGACGAGCAGCAGGCCCGGGTCCGCGAAGCCGAGGCACGCCTCGATGCCCAGCGCAACAACCGCGAGCAGCGCTGCAACCAGGCCAGCCTGGACAAGCGCGACCTGCAGCGCCTGCGTCATCTGGCCGAGCGCAAACTGGCCGCCGCCGACCGTCTCGACCAGGCCGAGACCAAGGCGCGTCTCTCGCAACTGGCCTGCGCCGCCAGCGATGTGCTGATCCGCGAGGCTGAGGCGAGCCTGGCCTTGCAGCGCTCCCTGTTCGACCAGACGGTACTGCGCGCGCCCTTCGATGGCATCGTCGCTGAGATCAACGGCGAGGTGGGGGAGTTCGTCACGCCGTCGCCGCCGGGCATCCCGACTCCGCCGGCCATCGACCTGATCGACGACAGTTGCCTGTATGTGGAGGCGCCCATCGATGAGGTGGATGCCGCCCGCGTGCGCCTCGGCATGCCGGTGCGGATCAGCCTGGACGCATTCCGCGGGCGCCATTTCGACGGCAAGGTGAGCCGCATCGCGCCCTTCGTCCGCGACTTGGAAAAGCAGGCGCGCACCGTGGACGTGGAGGTGCGCTTCGACCAGCCGCCGACGGACGTGGCCCTGCTCACCGGCTACAGCGCCGACGTGGAAATCCTCCTCGAACAGAAGCCCGACGCCCTGCGCATTCCCACCGAGACCCTGCTGGAAGGGCGCAAGGTGCTGCGCTACGAGCCGGCCGACGGCGTGCTGCGCGAAGTGCCGGTGGAGACCGGTCTGGCCAACTGGCGCTGGACCGAGGTGACCGCCGGTCTGGAGCCGGGCGCGCGCATCCTCTCCAGCCTCGACCAGGAAGGCATCGAGGATGGCGTGAAGGTGATAGCGGAGGACGCCGGGGAGCGGCCGCGATGA	MRKLLIIVTLSLLLGALIWWWQRPQPLTVRLAEVERGAVETLVANTRAGTLKPCRRTHLSFNLGGQVTERRVDEGQRVATGDVLMHLRQDEQQARVREAEARLDAQRNNREQRCNQASLDKRDLQRLRHLAERKLAAADRLDQAETKARLSQLACAASDVLIREAEASLALQRSLFDQTVLRAPFDGIVAEINGEVGEFVTPSPPGIPTPPAIDLIDDSCLYVEAPIDEVDAARVRLGMPVRISLDAFRGRHFDGKVSRIAPFVRDLEKQARTVDVEVRFDQPPTDVALLTGYSADVEILLEQKPDALRIPTETLLEGRKVLRYEPADGVLREVPVETGLANWRWTEVTAGLEPGARILSSLDQEGIEDGVKVIAEDAGERPR				NA	NA	NA	NA	NA
BMS010_04825	696	yknY_1	COG1136	putative ABC transporter ATP-binding protein YknY	ATGATCCGCCTGCGCGGCGTGACCCGCTGCTTCCAGCTCGGCGAGCAACGGGTGATGGGGTTGGACGACGTCGACCTGGACGTGGCGGCGGGCGACTACGTGGCGGTGATGGGGCCGTCCGGTTCCGGCAAGTCGACCCTGCTCAACGTGCTCGGCCTGCTGGACGCGCCGGACGCCGGCGAATACTGGCTGCAGGACGAGGCCACCGCCGGACTCAGCGAGGGGCGCCGGGCCGAGCTGCGCAGCCGGTTGATCGGCTTCATCTTCCAGTCCTACCACCTGATCCCGCGCCTGACCGCGCTGGAAAATATCGAGTTGCCGATGCTGCTGGCCGGCATCGACCCCGCCGAGCGACGCCGGCGCAGCAGCGCGCTGGTCGAACGGCTCGGCCTCGGCGACCGCATCGCCCACCGGCCGGGCGAGTTGTCCGGCGGCCAGCGCCAGCGGGTGGCGATTGCCCGGGCGATGATCATGCAGCCCTCGCTGCTGCTCGCCGACGAGCCCACCGGCAACCTCGACAGCCGCTCCGGCGCCGAGGTGGTGGCCTTGCTGGAGGAGCTGAACGGCGAGGGCCTGACCCTGATCGTGGTGACTCACGACCCCTCCCTCGGCCAGCGCGCGGCGCGCCAGTTGAACATGCGCGACGGCCGGATCATCGAAGATATCCAGCGGGAGCGGCGCGATGCGCGCGGCTGA	MIRLRGVTRCFQLGEQRVMGLDDVDLDVAAGDYVAVMGPSGSGKSTLLNVLGLLDAPDAGEYWLQDEATAGLSEGRRAELRSRLIGFIFQSYHLIPRLTALENIELPMLLAGIDPAERRRRSSALVERLGLGDRIAHRPGELSGGQRQRVAIARAMIMQPSLLLADEPTGNLDSRSGAEVVALLEELNGEGLTLIVVTHDPSLGQRAARQLNMRDGRIIEDIQRERRDARG	PGPT0013345_12812	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
BMS010_04826	1212	macB_1	COG0577	Macrolide export ATP-binding/permease protein MacB	ATGCGCGCGGCTGATGTCTTCGCGTTCTGCCTCGGCGGCCTGCGTGGGCACCGTTCGCGCAGCCTGATGCTGCTGCTGGCGGTGGGCATCGGCGTGATCGCGGTGAACCTGCTCACCGGCCTCGGCGAAGGTGCGCGGACCTTCGTGCTCGGCGAGTTCTCCGTGCTCGGGCGCAATACCCTGATCGTCCTGCCCGGACGCAAGGAAACCACCGGCGGCATGCCGCCGATCACCGGTCTGGCGCCGCGCGACCTGAGCGTCCAGGACGCTGAGGCCATCGCCCGCCTGCCCGGCATTCGCCGGGTCGCGCCGTTGCAGGCCGGGCAGATGGAAGTGGTGGTCGGCAACCGCAACCGCGAAGCCTTCACCATGGGCACCACCCACGAATTCTTCGCCATCCGCCAGCTCGACGTCGCCCAGGGCCAGCCGCTGCCGGCGATGGAAATGGGCCGGGCGGAATCGGTCTGCGTGATCGGCGGCAAGCTCAAGCGCGAGCTGTTCGGCGACCGCCAGGCCCTCGGCGAATGGCTGCGCGCCGGCGACCGGCGTTTCCGCGTGGTTGGTGTGCTCGGCGAGCGCGGTGAGTCGTTGGGCATGGACTTCGGCGAGATGCTCATCATTCCCCTGGCCAACGCCCAGGCGCTGTTCAACCGCGAAGGGCTGTTCCGGGTGTTCGCCGAGGTGCGTGGGCCGGCCTTCGTCGAGAGCGGCAAGCGGCAGATCCTGGCGACGATCAAGGAACGTCACGAAGGCAAGGAAGACATCACCGTGATCAGCCAGGACAGTATGCTCGCCGCCTTCGACGACATCCTCGCCGCGCTGACCCTGGCGGTGGCCGGGATCGCCGCCATCAGCCTGCTGGTGGCGGGCATCCTGATCATGAACGTCACCTGGATTGCGGTGAGTCAGCGCACGGCGGAGATCGGCCTGCTCAAAGCCATCGGCGCCACGGCCGGGCAGGTGCGGTTGCTGTTCCTCGGCGAGGCGGCGCTGCTCGCTCTCAGCGGTGCGCTGGCCGGGCTGCTGCTCGGCGAAGCGCTGCTCTGGCTCGGTCGCCAGGCCTGGGGCCTGCCGCTGCATGCGCCGCTCTGGGCACGGGTCAGTGCGGTGTTGCTGGCGTTGTTCACCGCGCTGTTGTTCGCCTGGCTGCCGGCCAGCCGCGCGGCGAGGCTGGAGCCGGTGGTGGCGTTGCGGCCGGCGGGGGCGCGTTGA	MRAADVFAFCLGGLRGHRSRSLMLLLAVGIGVIAVNLLTGLGEGARTFVLGEFSVLGRNTLIVLPGRKETTGGMPPITGLAPRDLSVQDAEAIARLPGIRRVAPLQAGQMEVVVGNRNREAFTMGTTHEFFAIRQLDVAQGQPLPAMEMGRAESVCVIGGKLKRELFGDRQALGEWLRAGDRRFRVVGVLGERGESLGMDFGEMLIIPLANAQALFNREGLFRVFAEVRGPAFVESGKRQILATIKERHEGKEDITVISQDSMLAAFDDILAALTLAVAGIAAISLLVAGILIMNVTWIAVSQRTAEIGLLKAIGATAGQVRLLFLGEAALLALSGALAGLLLGEALLWLGRQAWGLPLHAPLWARVSAVLLALFTALLFAWLPASRAARLEPVVALRPAGAR	PGPT0013350_17581	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
BMS010_04827	1320	macB_2		Macrolide export ATP-binding/permease protein MacB	GTGCCGGGCATTTCCCGGATTGCGCTGCGCTTATCCGGGCTACGGGGCGTGCGCTCGCAGGTGCGAGCTTTGATCGCGAAGCGGTTTCGCAGGCATCTGAACGGTGGGGGCGGTAAGGCCATGATGCGCTGGGAGGATGGCTTCCGGCTCACCGCGTCGGCGCTGGTCAGCCGTCCGCTGCGCAGCATCCTGACGCTGCTCGGCGTGGCCATCGGCATCGCGGCGGTAGCGTTGCTCACCGCCATCGGTGAGGGGCTGCGCAGCTACGTGCTGGATAACTTCTCCCAGTTCGGCACGCGCATCGTCGCCATCCATCCGGGCAAGACCCAGACCGGCGGGCTCGGCGGCCTGCTCAGCAGCGTGCGTCCGCTGAGCATCGCCGACGCCGATGCCTTGCGCCGGCTCGGTCATGTCGACGCGGTGGTGCCGATCATCCAGGGCAGCGGCGACGTCCAGTTCGGCCAGCTCAGCCGGCGCAGCGATGTCATCGGCGGCGGCCACCAGTTGGCCGAGGCCTGGCGCTTCAAGCTGGCGCTCGGGCAATTCCTCCCGCCGTCCCGCGACGGCCGCTCGCCGCCCTACGTGGTGCTGGGCCACAAGCTGCGCACCGAGCTGTTCGGCGAGGAGAATCCGCTGGGCGAGCTAGTGCGGGTCGGCGGCACGCGCTTCCGGGTGATCGGCGTGATGGAAAAGAAGGGCCAGTTGCTCGGCTTCGATCTCGACGACATCGCCTACATCCCGGTGGACTGGGCGCAGAGCCTGTTCAACCGCGAGGGGCTGATGGAAATCGACGTGGTGTTCAACGCCGGCATCGGCTCGGCGCAGATGGCCGAGCGCATTCGCCGTCTGCTGATCGAGCGGCATGGCGAAGAGGATTTCAACCTCACCACCCAGGACGACATGCTCGGCAGCCTGAACCGCATCCTCGGGACCCTGACCATCGCCATCGGCGCGCTTGGCGGCATTTCCCTGCTGGTGGGGGCGGTGGGCATCCTCACCATCATGACCACCACGGTCGGCGAGCGCACCGCCGAGATCGGCCTGCTGCGCGCCATCGGCGCGAGCCCAAGGCAGGTGCTCGGGCTGTTCCTCGCCGAAGCGACCCTGCTGTCCCTGGCCGGCGGTGTGCTCGGCCTGGGTGCGATGGGCCTGCTGCTGCTCGCCCTGCACCTGGGCGTGCCGGCATTGCCGTTGAGTCTGCAACCGTTGTTTCTGCTCCTGGCGCTGGTGTTGTCGGCGCTGATCGGCATCCTCGCCGGCCTGGCCCCGGCGCGGCGGGCGGCGCGGTTGCATCCGGTGGAGGCGTTGAGGGATGAGTGA	MPGISRIALRLSGLRGVRSQVRALIAKRFRRHLNGGGGKAMMRWEDGFRLTASALVSRPLRSILTLLGVAIGIAAVALLTAIGEGLRSYVLDNFSQFGTRIVAIHPGKTQTGGLGGLLSSVRPLSIADADALRRLGHVDAVVPIIQGSGDVQFGQLSRRSDVIGGGHQLAEAWRFKLALGQFLPPSRDGRSPPYVVLGHKLRTELFGEENPLGELVRVGGTRFRVIGVMEKKGQLLGFDLDDIAYIPVDWAQSLFNREGLMEIDVVFNAGIGSAQMAERIRRLLIERHGEEDFNLTTQDDMLGSLNRILGTLTIAIGALGGISLLVGAVGILTIMTTTVGERTAEIGLLRAIGASPRQVLGLFLAEATLLSLAGGVLGLGAMGLLLLALHLGVPALPLSLQPLFLLLALVLSALIGILAGLAPARRAARLHPVEALRDE	PGPT0013350_18832	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
BMS010_04828	1722	xpsE	COG2804	Type II secretion system protein E	ATGATGGCCGCTGAGCACATTGTGCCCGCCACGGAACAGCCCGACCTCGGGCTCGCCCTGGTCCGGGCCGGGCGTTTGTCGGAGGCGGATTACAACCGCGTGCGACGCATGCAGGCCGCGCAGGACGATGGACCGCCGCTGGCGACGCTGCTCAACCGCCTCGGATTGGTCTCCGAGCGCGATATCGCCCAGCAACTGGCCGAGCTGCTGGACGTGCCGCTGGTGGATGCGGCGGAGTTCCCGGTGGCGCCGCTGCTGGGAGAGCGCCTGTCCTATCGCTTCCTCAAGGAATGCCGGGCGCTGCCCCTGGAACTCAACGACGGCGAGTTGCTGGTGGCCATGGCCGACCCGCAGGACCGCTTCGTCCGCGAGGCGCTGGCGCTGGCAGCGGGTTGCCGGATCGCTCCGCGCGTCGCCCTGGGCTCGGAGATCGAGGCCGCCATCGAACGTATCCACGGCCAGGGCAAGAGCCAGATGGGCGACATCCTGTCCAAGGTCGAGCCGGCCGAGCAGGACCGCGTCGAGGACGTCGAGCAACTGCGCGACCGCGCCAGCGAGGCGCCGGTCATCCGCCTGGTCAACCTGATCATCCAACGCGCGGTGGAGCGGCGCGCCTCGGACATTCACGTCGAGCCCTTCGAGAGCCGCCTGAAAGTGCGTTATCGCATCGACGGTGTGCTGCAGGAAACCGAGGCGCCGCCGGTGCAGTTGTCGCCGGCGGTGATTTCGCGGATCAAGCTGATGGCGCGGCTGAACATCGCCGAGCGGCGACTGCCGCAGGACGGCCGCATCGAGATGCGCGTGCAGGGCAACGACCTCGACATTCGCGTCTCCACGGTGCCGACCATGCACGGCGAAAGCGTGGTGCTGCGCCTGCTCAACCGCGAGAGCGTGGTGCTGGATTTCGCCGCCCTCGGCTTCAGCGAGCAGCCGCTGCAACGGTTGCGCAGCGTGCTGCGGATTCCCCACGGCGTGCTGCTGGTCACCGGGCCCACCGGCAGCGGCAAGACCACCACCCTCTACACCGCGCTGAACACCCTGAACACCAGCGAGAGCAAGCTGATCACTGTGGAAGACCCGGTGGAGTATCAGCTCGAAGGAGTCAACCAGATTCAGGTCAAGCCCGCCATCGGCCTGACCTTCGCCAATGCCTTGCGCGCCATCGTCCGCCAGGACCCGGACGTGATCATGGTCGGCGAGATGCGCGACCTGGAAACCGCGCGCATCTGCATCCAGTCGGCGCTGACCGGCCACCTGGTGCTCTCCACCCTGCACACCAACGACGCGCCGAGCAGCATCGCCCGCCTGCTGGAGATGGGCGTGGAGGACTATCTGCTGACCTCCACCCTCAACGCCGTTCTCGCCCAGCGCTTGGTGCGCAAGCTCTGCGTGCACTGCCGCGAACCCTACCAACCGCTGCCGGAGATGCTCCGTGAGATGCGCCTGGAGGCGTTCGCCGCCGGCCAGCCGGTGACGCTCTACCATGCCCGTGGCTGCCCGCTCTGCAACGGTACCGGCTACCACGGCCGCATCGCCATCATCGAGGTGCTGACCCTCAGCGATACGCTGCGCCGCTTGATCCTCCAGCATGCCGACGCCGGCAGCCTGATGCTCTGCGCCCGCGAAGAGGGCATGTTGACCATGTACGAGGACGGCTGCCTGAAAGCGCTGGCCGGGGTCACCAATCTCGAGGAAGTGATTCGCGTCACTCAGGAGTCCTGA	MMAAEHIVPATEQPDLGLALVRAGRLSEADYNRVRRMQAAQDDGPPLATLLNRLGLVSERDIAQQLAELLDVPLVDAAEFPVAPLLGERLSYRFLKECRALPLELNDGELLVAMADPQDRFVREALALAAGCRIAPRVALGSEIEAAIERIHGQGKSQMGDILSKVEPAEQDRVEDVEQLRDRASEAPVIRLVNLIIQRAVERRASDIHVEPFESRLKVRYRIDGVLQETEAPPVQLSPAVISRIKLMARLNIAERRLPQDGRIEMRVQGNDLDIRVSTVPTMHGESVVLRLLNRESVVLDFAALGFSEQPLQRLRSVLRIPHGVLLVTGPTGSGKTTTLYTALNTLNTSESKLITVEDPVEYQLEGVNQIQVKPAIGLTFANALRAIVRQDPDVIMVGEMRDLETARICIQSALTGHLVLSTLHTNDAPSSIARLLEMGVEDYLLTSTLNAVLAQRLVRKLCVHCREPYQPLPEMLREMRLEAFAAGQPVTLYHARGCPLCNGTGYHGRIAIIEVLTLSDTLRRLILQHADAGSLMLCAREEGMLTMYEDGCLKALAGVTNLEEVIRVTQES	PGPT0026430_732	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026430-gspE|epsE-K02454	NA	NA
BMS010_04829	1221	epsF_2	COG1459	Type II secretion system protein F	ATGGCGCTCTTCCATTACCGCGCGGTGAGCGACAGCGGCGAGGTCCAGCAGGGCCAGGTGGAGGCGGCCGATGAACAGGCCGTGCTCGAACAGTTGCGCGCGCGCAGCCTGATCCCCATCGAGATCGGCAACCGACGTGGCTGGCAGGGCTGGTTGCAGGGGGACGTCGGCGCGCTGCTGCAACGCTCGCGCGGGCATCGGCTGGTGCTGTTGTTCACCCAGCAGTTGGCCTCGTTGCTGCAGGCGGGCGTACCGCTGGATCGCTCGCTGGAGATCATGCAGCGGGTCAGCGTCGACCTGCCGATGCAGCAACTGATCGCGCCGATCCAGGAGGGCGTGCGGCGGGGCGCCAGTCTGTCGCGGGTGCTCGGCGAGCGCCCGGAGCTGTTTTCCGGCTTCTACATCAGCCTGGTGCAGGCCGCCGAAGTGGCCGGCGACCTGGCGGAAGGGCTGGGCAGCCTGGCCTATTACCTGGAGCGCAGCAAATCGCTGCGCGACAAGCTGGTCTCCGCGCTGATCTACCCGCTGATTCTGCTCGGCGTCTCGGCCACTTCGCTGCTGGTCATCCTCGTCTACGTCATCCCGCAGTTCCGCCAGTTGTTCGACGACATGGGCGCGAGCCTGCCGTTTTCCACCCAGGTGGTGATCGGCCTCGCCGAGGGCTTGCGCGTGGCCGGACCCTGGCTGCTGCTGGCGGCGCTGGCCGCCGCCTGGGGCGTGCGCCGGGCGCTCCGTCAGCCGGATTACCGCCGCCGCTGGGACCAGGCCGTGCTGCGCCTGCCGTTGCTCGGAAGCTTGCGCCGGCGCATCGAAACCGCCCGCTTCACCCGCAGCCTGGGCACCCTGCTGAAAGGCGGCGTGGCCCTGTTGCAGGCCCTGAACATCGCCCGCCAGACCCTCGGCAACCAGCTGATGCTGGAGCAGGTGGGCATCGCCGCGGAGAGCCTCAAGCAGGGCCGCCAGTTGGCGGCGCCGCTGCTCGCCACCGGGCTGTTCCCGGCGCTGGCGATGCAGATGATCCAGGTGGGCGAGGAAACCGGCCATCTCGACGAGATGCTGCTGAAGGTCGCGGACACCTACGACCGCGAAGTGGAGATATCGATGCAGCGCCTGCTGGCGGTGCTCGAACCGCTGCTGATCGTCGGCCTGGGTCTGCTGATCGCCGGCATCATCCTGTCGGTGCTGGTGGCCATCATGAGCATCACCGAACTACCGATCTGA	MALFHYRAVSDSGEVQQGQVEAADEQAVLEQLRARSLIPIEIGNRRGWQGWLQGDVGALLQRSRGHRLVLLFTQQLASLLQAGVPLDRSLEIMQRVSVDLPMQQLIAPIQEGVRRGASLSRVLGERPELFSGFYISLVQAAEVAGDLAEGLGSLAYYLERSKSLRDKLVSALIYPLILLGVSATSLLVILVYVIPQFRQLFDDMGASLPFSTQVVIGLAEGLRVAGPWLLLAALAAAWGVRRALRQPDYRRRWDQAVLRLPLLGSLRRRIETARFTRSLGTLLKGGVALLQALNIARQTLGNQLMLEQVGIAAESLKQGRQLAAPLLATGLFPALAMQMIQVGEETGHLDEMLLKVADTYDREVEISMQRLLAVLEPLLIVGLGLLIAGIILSVLVAIMSITELPI	PGPT0026435_580	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026435-gspF|epsF-K02455	NA	NA
BMS010_04830	444	xcpT_1	COG2165	Type II secretion system protein G	ATGAATCCTGAACCGCGCCCCTCGTCCCCGTGCCGCCGTCACGCGGGTTTCACCCTCCTGGAAATCCTCGTGGTGCTGGTCATCCTCGGCCTTATGGCGAGTCTGGTCGGCCCGCAGGTGTTCAAGCAACTGAGCGGCTCCAAGACCAAGGCGGCGGCGTTGCAGATCCAGGAGCTGAGCGCCGCGCTGGACCTCTACCGCCTGGAACTGGGCAGCTACCCCACCACCGAACTGGGCCTGGAGGCGCTGATCACCAAGCCGCGCAACCTGGACAACTGGAACGGCCCGTACCTGAAGAAAAGCGTGATCCGCAAGGACCCCTGGGGTAACGACTACCAGTACCGCTCGCCGGGCGAGCACGGCGAGTTCGATCTGTGGAGCCTGGGCGCCGACAACCGCGAGGGTGGCGACGGGGAAAACCGCGATGTGCACAGTTGGGACTGA	MNPEPRPSSPCRRHAGFTLLEILVVLVILGLMASLVGPQVFKQLSGSKTKAAALQIQELSAALDLYRLELGSYPTTELGLEALITKPRNLDNWNGPYLKKSVIRKDPWGNDYQYRSPGEHGEFDLWSLGADNREGGDGENRDVHSWD	PGPT0026440_2206	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026440-gspG|epsG-K02456	NA	NA
BMS010_04831	480			hypothetical protein	ATGTGCACAGTTGGGACTGACAGCCGTGGCTTCACCCTGCTGGAGCTGCTGGTGGTGCTGGTGGTCGCCAGCCTGGCCATGGGCTTGGTCGGGCCGGCGTTCCAGCGGCTGCTGCCGGGTCTCCAACTGGAGACCGAAGGGCGCAAGGTGGCGGCGCTGCTGCGGCATGCGCGCAGCCAGGCGATCCTCAGCGGCGCACCGGTGGCGATCAGCCAAGACGCCGAGACCGGCGGCCTGCGCCTGAGCTACCGCGAGCAGCCCTACCGCCTGCCGGCACACCTGACCCTGAGCCTGGAAGGCGGCCCCGCTGGCGACAGCGAGCAGACAGGCAGCACGCGCATCTTCTTCTATCCACAGGGCGACTCGTCCGGCGGCAGCCTCAGCCTGGAGGGCGAAGAAGGGCGCGGCCAACTGATCGAGGTCGACTGGCTGAGCGGCCGGGTGCTGCGCAGTGCGGCCAAGGCGGATGACGATGAATAA	MCTVGTDSRGFTLLELLVVLVVASLAMGLVGPAFQRLLPGLQLETEGRKVAALLRHARSQAILSGAPVAISQDAETGGLRLSYREQPYRLPAHLTLSLEGGPAGDSEQTGSTRIFFYPQGDSSGGSLSLEGEEGRGQLIEVDWLSGRVLRSAAKADDDE	PGPT0026445_402	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026445-gspH|xcpU|epsH-K02457	NA	NA
BMS010_04832	450			hypothetical protein	ATGAATAACAGGCCGTTGAAAAATGCAGTATCGGCAACGCAGGTAGTTTCTCAACGGCCTGTCAAGGAAAGCGGCTTCACCCTGCTCGAAGTGCTGGTCGCCTTCCTCATCCTCGCCCTGAGCATGGCCGTGCTGATGCGCATCGTTTCCCAGGGGCTCGACGTGCTCGGGCGGGCCGAGCGGCACCAGGTCGCCCTGCAACTGGCCGAATCCCGGCTGGTGGAAGTGATCGCCCGTTTCCGTCCGGAAGACCGCGGCACCCAGGAAGGGCGACTGAGCGGCGGCTACCGCTGGCGAAGCGAGATCGAGCCGTTCCGGTTCGATAACCAGGAGGCCGGCGAGCGCTACAGCATCGCGCCCTGGCAGATTCGTGTCTCGGTGAGCTGGGGCCGGCGTCCGGGCGAGCGGGTCACCTTGAGCACCGTTCGCCTGGTCCGGGAGGCGCCATGA	MNNRPLKNAVSATQVVSQRPVKESGFTLLEVLVAFLILALSMAVLMRIVSQGLDVLGRAERHQVALQLAESRLVEVIARFRPEDRGTQEGRLSGGYRWRSEIEPFRFDNQEAGERYSIAPWQIRVSVSWGRRPGERVTLSTVRLVREAP	PGPT0026450_308	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026450-gspI|epsI-K02458	NA	NA
BMS010_04833	666			hypothetical protein	ATGAAACGCCGGGCGCAGGGCTTCACCCTGATCGAGCTGATGGTCGCCCTGACCCTCACCACGCTGGTGGCGATGCTCGCCTACGGTGGGTTGCAGATCACCCTGGACAGTTGGCAGCGGGCGGAAGCCCGGCAGCAGGCGATGGAACTGCGCTCGCTGTCGCAATCCCTGCTGCGCCGGCTGCTGGAAAGCCCGGTGCCGTTCAGCGTGACCGACGACGAGGAGGTGGCCCAGGCCGCCTTCCGGGGCGACGAGGGGACGCTGCTCTTCGTCGCGCGCCTGCCGGCCCTGGACCAGGGCGAGCGGCTCTATTGGATTCAGCTCGCCCAGGAAAAACAACTGACGCCCAAGGGGCTTCGCTGGCGCCTGCTCATGCGCTACCTGCCGTTCGAAGAGCGCCAGACGCTGAACTGGGCGCTGCTGGAGCAGACCCTGGTCGACAGCGCCGAGCCACGGGTGCTGCTCGACGGCATGCCCAGGGCCTGGCGTTTCGCCTACCTCGACCCGCGCGCGGAACGCGGCAGCGAATGGCTGACGGAATGGCGGCAGCGTGGCGACCTGCCGATGCTGATCCGGCTCACGCCGGCCAAGCGCCGCGGCGAGGCGATGGGAGAGCTGGTGGTGGCACCCCGGGAGCGCGCCCATGCGATCCTCGGCAGCCGTTGA	MKRRAQGFTLIELMVALTLTTLVAMLAYGGLQITLDSWQRAEARQQAMELRSLSQSLLRRLLESPVPFSVTDDEEVAQAAFRGDEGTLLFVARLPALDQGERLYWIQLAQEKQLTPKGLRWRLLMRYLPFEERQTLNWALLEQTLVDSAEPRVLLDGMPRAWRFAYLDPRAERGSEWLTEWRQRGDLPMLIRLTPAKRRGEAMGELVVAPRERAHAILGSR				NA	NA	NA	NA	NA
BMS010_04834	945			hypothetical protein	ATGCGATCCTCGGCAGCCGTTGAAATCGCCCGCCGCGATGGCGGCGTCGCCCTGGTCAGCGTGCTCTGGCTGCTGGTGCTGGTGTCGCTGCTGGCGCTCAACCTCTCCGTCGGCAGCCGAACCGAACTGCAACTGGCCGGCAACCTGCGTCTGGCCGCCGGCGCTCGGCTCGCTGCCGACGCGGGGGTGAGCTGGGGCCTGTGGAGCCTGATGCAGGCGGACGGTGCCGGCTGGCTGGCGGACGGCAGCAGCCGGACCCTGGCGCTCGACGGCTACGGCGTGGAGGTCGCGCTGTTCGACGAGCAGGGCAAGATCGACCTCAACGAAGGCGATCCGCTGCTGTTGCAGGGGCTCTTCCAGTCCGTGGGCCTGGATGAAAAGGCCGCCCTGGCCCTGACCGACGCGGTGCTCGACTGGCGCGACGAGGACCAGTTGGTGCGGCCGCAGGGCGCCGAAGAGGAGGCGTACAAGGCGGCCGGCCTGCTCGGTCCGGGCAATGGCCCGTTCGAGCGGCTGGAGGACCTGCGCAAGGTGCTCGGCATGAGCGAGGCCCTGTACCGGCAGGTGTTGCCGGCGCTGACCCTGTATTCCAACAAGGCCGAGATCAATCCCTTGGTGGCGCCGCGCGAAGTGCTGCTGGCGCTGCCCGGCGTGGACCCGGCCAGCGTCGACCGTTTCATCGAAGAGCGCCGGCGGAACTTCGAGAGCGGCCAGCGTCCGCCGATGCTCGGCGGGGTCGATTCGCGGTTGCTGGCTCCCAATGCGCCGGGAGTGAACTACTCTATCGTTACGCATACAGCCGTGGGTGCAGGCGCACGGGTCGGGCAGCTGGTAGTGGTCAATCTGCGCGGCCGCGGGCAAGGCTTCGATATCCTGCAGACCGCTCCGCTGGGCGATGGGGCAATCACTGTTGAAGGTTCCTTCGATAAAAGGGACGTTCCATGA	MRSSAAVEIARRDGGVALVSVLWLLVLVSLLALNLSVGSRTELQLAGNLRLAAGARLAADAGVSWGLWSLMQADGAGWLADGSSRTLALDGYGVEVALFDEQGKIDLNEGDPLLLQGLFQSVGLDEKAALALTDAVLDWRDEDQLVRPQGAEEEAYKAAGLLGPGNGPFERLEDLRKVLGMSEALYRQVLPALTLYSNKAEINPLVAPREVLLALPGVDPASVDRFIEERRRNFESGQRPPMLGGVDSRLLAPNAPGVNYSIVTHTAVGAGARVGQLVVVNLRGRGQGFDILQTAPLGDGAITVEGSFDKRDVP	PGPT0026460_1022	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026460-gspK|epsK-K02460	NA	NA
BMS010_04835	1131			hypothetical protein	ATGACGAACCACGTCCAATGGGGAGCGCTCGGCCCCACGGTCAGCTCGCTGACCACCCTGGCGCAACGCTTCTGGCTCTGGTGGAGCCAGGAACTGCTCGGCCTGATCCCGCCGGCCTGGCGCGAGCGCCTGCGGCGCCGCGGCAACCTCCTGCTCATCGCCCTGCACGACAGCCACTGCGACATCCGTTGCGGTACCTACACGCAAACCGAAACGGCGATCAGCAGCCCGTTCGGCGCCGACGGCGAATGGCCGCCAACCCTCGCCGCCACCCTGCTCGAACGCGCGCCGAAGGCCGACCGGGTGATCCTTTTGCTGCCGCCCGGAAAGGTGCTGCGTAAGGTCATCGGCCTGCCGTCGGCCACCGAGAGCGGCCTGGAAAACGTGCTGCGTTTCGAGATGGACCGGCACACCCCGTTCAGCAGCGAGCAGGTCTACTTCGGTTATCGCATCCTCGAACGCGACCGTGCCCGCCAGCGCCTCCAGGTGGAGCTGCTGGTGGTCCTGCGCGAATACCTGGACGGTCTGCTCAAGCACCTCGACAACCTTGGCGTGCGGCCCTCGCTGGTGACCCTCGGCAATGATGACGGGCGCTGGAGCGGCGATGCGGTCAACCTGCTGCCGGGCAGCCGCCGTCGCGGGCGCTCCGGGCGCTGGCGCGGCAATCCGCGTTTGCAGGCGATCGCCGGCCTGGTGATCGTCGCGCTGCTGGTGGTCTTCCCGCTGCTGCTGCAACGCCAGCGGACCGCCAGCCTGAACGATGCGCTGAGCGGACCGCAGGCGGTGGCCGAGCGGGCGGCGAAAGTGCGCGACGACATACAGCGCCTGGAAAGCGGGCGCGACTATCTCCAGGCACAGCGAATGCGCGCCACGGAGCCCCTGCTGCTGCTCAAGGAGCTGACCGGACTGTTGCCGGACGGTACCTGGCTCAGCCGTTTCGAGCTGATCGGCGAACGGGTGCGGATGGAGGGCGAATCGACCGAGGCGTCCGCGCTGATCGGCCTGCTCGAGCAGTCGCGGATGCTGCAGAACGTCAGCTTCGCCTCGCCGGTCACCAGCAATCCGCGAACCCAGAGAGACCGCTTCAGCCTGGTTGCCGAGCGCCGTGCGCCGGCGGAGGGGACGCCATGA	MTNHVQWGALGPTVSSLTTLAQRFWLWWSQELLGLIPPAWRERLRRRGNLLLIALHDSHCDIRCGTYTQTETAISSPFGADGEWPPTLAATLLERAPKADRVILLLPPGKVLRKVIGLPSATESGLENVLRFEMDRHTPFSSEQVYFGYRILERDRARQRLQVELLVVLREYLDGLLKHLDNLGVRPSLVTLGNDDGRWSGDAVNLLPGSRRRGRSGRWRGNPRLQAIAGLVIVALLVVFPLLLQRQRTASLNDALSGPQAVAERAAKVRDDIQRLESGRDYLQAQRMRATEPLLLLKELTGLLPDGTWLSRFELIGERVRMEGESTEASALIGLLEQSRMLQNVSFASPVTSNPRTQRDRFSLVAERRAPAEGTP	PGPT0026465_1048	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026465-gspL|epsL-K02461	NA	NA
BMS010_04836	594			hypothetical protein	ATGATCCCGCTGCGTCTGCGCCAGTTGCTGGCGCTGCTGATCCTCCTGGCGCTGCTCGCCGCCGTGATCGGCCTGGTGCTCGGCCCGCTGGTCGAGCGCTTCCTCAGCGACGAGGAAAGCATCGACAGCCTCAGCCACCGGCTGGAGGTCTACCAGCGCCTGGCCCACGAACTGCCCGCCCAGGAAGCGCGCCTGGCCGGGTTGCAGCGCAGCGATCCGATGAGCCGCCTGGTGGTGACGGAGAGTCGCCCGGCGCTGGCCGGCGCCGGCCTGCAGCAACTGATCGGCCATCTGATCGGCGGGGTGGGCGCGCAGGTGGTGAGCACCCAGATCGTCAGCCGGGCGGAAGCCGAATCGCCGCTCCCGGCGGTGGGACTCAAGGTGCACATGCGCGGCGAGAACGAGCAACTGGTGCGCCTGCTCTACGACCTCGCCTACCACGAGCCGTTGCTGCTGGTGGAGAACCTGGTGGTGCTGAGCAACCCGCGCGTCGACATGCAGCGCCTGCGCCGGCCGGAAGACCTCCAGGCGGTGCCGTCGCTGGACATCAGCTTCGACGTCAAGGCGTTCATCGCCAAGGAGGCCAAGCCATGA	MIPLRLRQLLALLILLALLAAVIGLVLGPLVERFLSDEESIDSLSHRLEVYQRLAHELPAQEARLAGLQRSDPMSRLVVTESRPALAGAGLQQLIGHLIGGVGAQVVSTQIVSRAEAESPLPAVGLKVHMRGENEQLVRLLYDLAYHEPLLLVENLVVLSNPRVDMQRLRRPEDLQAVPSLDISFDVKAFIAKEAKP	PGPT0026470_161	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026470-gspM|epsM-K02462	NA	NA
BMS010_04837	558			hypothetical protein	ATGAGCCGGCTTCCGTATCTTCGGCGCGCGCTGCTCGGCGGTCTGGCGCTGGCCGCCCTGGCAGGGGCCGAAGAACCGCCGCCCACGCCGGACACGGCCTCCGCCACGGGGGCGCCGCCCTTCGGCGAATTTCGCGAAATGCTCGAACGACCGCTGTTCAGCAGCACCCGCCGCCCGCTGGTGCTGCTCGGCGAAGCCCAGGAAAACCTCGACGCCAGGCAGTTGCGCGAAGCCTGGCGCCTGACCGGCATCGTGCTGCAGGACGGCCGCCAGCTGGCGACCTTCAGCCAGCGCCAGGGCGATCAGCGGCTACGCCTGGAGGAGGGCATGGTGCTGGTGGACGACTGGCGTCTGGAGCGCATCGAGCGCGATCAGGTGCTGCTCGGCAACGACATCGGCCAGGTGGAAATGATTCTGCGCGAACCGACCGCTGCGGAGACACCACCGGCCCTGCCGGCGGCGGCCGACCAGCCGGAGCGGAGCGCGCCAGCGACCGGCGGGGAACAGCCCCCGCCGGCGGAAAAGCCGGCACCGGCCGAACCGGCCAAGCAGGGCTGA	MSRLPYLRRALLGGLALAALAGAEEPPPTPDTASATGAPPFGEFREMLERPLFSSTRRPLVLLGEAQENLDARQLREAWRLTGIVLQDGRQLATFSQRQGDQRLRLEEGMVLVDDWRLERIERDQVLLGNDIGQVEMILREPTAAETPPALPAAADQPERSAPATGGEQPPPAEKPAPAEPAKQG				NA	NA	NA	NA	NA
BMS010_04838	2169	sctC_3		Type 3 secretion system secretin	ATGAAGACTTTCACGCGTTTCGGTCGGTCCTGCCAGATCGGCGGCTACTACCTGCTGCTGGTGTCCTGCGCGACCATGCCCGGCAGCGACCGCGCCACCTTCGACAACCCCTGGGCCCGCGGCGACGATGCCGCCTCGGCCGAGGTTCCGGTTCCCGCCTCGGCCAGGACGGCCGGCCCGACGCCGGCCGAGCTGCTGCGCCGCGACAACGTGCTGCCGGCCGCGCGCACCGCCAGCGGCCCGCGCGCGGAGATCTACCGGGGCTCCGGCAGCCTGGTCGATCTCGGCAGCGGCGCCGCCGAGCCGGCGTCCGAGGAGGGCGAGATCACCCTCAACTTCCAGCAGATGGAGATCGCCGAGGTGGTGAAGATCATCCTCGGCGAAATCCTCGGGGTGAACTACGTGCTGGACAAGAACGTGACCGGAACGGTCAACCTGCAGACCAGCCGGCCGCTGACCCGCGACGCCCTGCTGCCGACCCTGGAGACGCTGTTGCAGGTCAACGGCGCGGCGCTGGTCAAGTCGCGCAACTTCTACGAAGTGGTGCCGATCGAGGCCGCGCCCTCAGCGGCGCTGGTGCCGCGCCTGCACGTCGCGGACATGCGCGGCTATCAATTGCTGGTGGTGCCGCTGCGCTACATCTCGGCGGGCGAGCTGCAAAAAATCCTCGAGCCGATGAAGCCGGCCAAGGGCCTGATGAACGTCGACGAGCGGCGCAACCTGCTGATGGTGGCCGGCACCCAGGAAGAGCTGAACAACATCCGCGAGACCGTGCGGGTGTTCGACGTGGACCAGTTGCGTGGCATGTCTGTCGGCCTGTTCCGCCTGGAAACGGTGGACGCGCGGGTGGTGCTCAAGGAGCTGGAGACGATCTTCGGCGATGCCGCCAGCGGGCCGCTGGCCGGCATGGTGCGCTTCCTGCCCATCGAGCGGCTCAACGCCTTGCTGGTGATCACGCCCCAGGCCAAGTACCTCGACGACGCCCGCCAATGGGTCGAGCGCCTCGACCGTACCGAGGGCGGCCAGGGCTCGAACATGTACGTCTACTACGTGCAGAACGGCAAGGCCGAGCGCATGGCCGAGATTCTCAGCCAGCTCTTCGAGCGGCAGAAGCCCGCCGGCGAGGGCAATCGGCCCAACGTCGCGCCGCCACCGGTGCCGGCCGCGGGCGAGGTGGCCGCCGGTACCGAGCCGGTGCTGGTCGCGCCCGGCGGCGACGGCACCAGCCTGGAAGTCGGCGAGGTCAGCATCATCGCCGACGACGAGAACAACGCCCTGCTGATCATGGCCTCGCCGATCGACTACGAGAAGGTCATGCGGGCGATCCAGAAGCTCGACGTGCTGCCGTTGCAGGTGCTGGTCGAGGCGACCATCGTCGAGGTCAACCTGGAAGACGAACTGCGCTACGGCCTGCAGTGGTTCTTCAAGAATTCCATCGACGGCAAGACCCTGCGCGGCACCCTGGGCCGTTTCCCGCTGACCACGCCGACCGATCTCACACCCACCGGCTCGCTGACCCTGTTCGACGCCGCCGGCGCGCGGGTGCTGCTCGACCTGCTGGCGTCCGACTCGAAGATCAACGTGATTTCCTCGCCGACCCTGCTGGTGCAGGACAACCGCACCGCCACCATCCGCGTCGGCGATCAGGTGCCGGTGCGCACCTCGGAAACCACCAACACCAGCGGCACCGTGGGCGAGGATTCGGCGCTGGTGACCAGCACCATCCAGTTCCGCGACACCGGCGTGCTGCTGGAGGTGAAGCCGCGGATCAACGCTGGCGGCATGATCGCCCTGGAAATTACCCAGGAAGTGAACGACGTCAAGCCGACCACCACCTCCGGCATCGACTCGCCCACCATCACCCAGCGGCGGATCAACACCAGCGTCGCCATCCAGAGCGGCGAAACCCTGGTGCTCGGCGGGCTGATCAAGGAGAACAACGGGCGGACCAATGAAGGACTGCCCTACCTGCGCCACGTCCCGGTGCTTGGCTGGGCCTTCGGCAGCAAGGGCAAGAGCCTGAGCCGCACCGAGCTGGTGGTGATGATCACGCCGACGGCCGTGACCAAGCTCGACGAAGCCCGCGAAGTGACCCGGGAATACCGCAGCAAGCTGAAGGACGTGAGCCTGCCCCAGGACGCCTGGTTGCGGCAGGGGCGGCAGTTGTAG	MKTFTRFGRSCQIGGYYLLLVSCATMPGSDRATFDNPWARGDDAASAEVPVPASARTAGPTPAELLRRDNVLPAARTASGPRAEIYRGSGSLVDLGSGAAEPASEEGEITLNFQQMEIAEVVKIILGEILGVNYVLDKNVTGTVNLQTSRPLTRDALLPTLETLLQVNGAALVKSRNFYEVVPIEAAPSAALVPRLHVADMRGYQLLVVPLRYISAGELQKILEPMKPAKGLMNVDERRNLLMVAGTQEELNNIRETVRVFDVDQLRGMSVGLFRLETVDARVVLKELETIFGDAASGPLAGMVRFLPIERLNALLVITPQAKYLDDARQWVERLDRTEGGQGSNMYVYYVQNGKAERMAEILSQLFERQKPAGEGNRPNVAPPPVPAAGEVAAGTEPVLVAPGGDGTSLEVGEVSIIADDENNALLIMASPIDYEKVMRAIQKLDVLPLQVLVEATIVEVNLEDELRYGLQWFFKNSIDGKTLRGTLGRFPLTTPTDLTPTGSLTLFDAAGARVLLDLLASDSKINVISSPTLLVQDNRTATIRVGDQVPVRTSETTNTSGTVGEDSALVTSTIQFRDTGVLLEVKPRINAGGMIALEITQEVNDVKPTTTSGIDSPTITQRRINTSVAIQSGETLVLGGLIKENNGRTNEGLPYLRHVPVLGWAFGSKGKSLSRTELVVMITPTAVTKLDEAREVTREYRSKLKDVSLPQDAWLRQGRQL	PGPT0026425_1037	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026425-gspD|epsD-K02453	NA	NA
BMS010_04839	270			hypothetical protein	GTGACCTTCAAGCAGACCTACAAGCCGGACGGCAGCTCCATCCTCGGTTCGCTGGGAACACCGGGCACCCTGCCCTTCAACAACCTCGCCAGCGCCCAGGGCACCGGAGTGCTCCGTGGGGTGCCCATCGGCCCGCTCACCGACGATGCCAGCACGAGTGACGAAACGGGCTTGGAGAGGAGAAGGGCGCTGCAGGACAGCGCCTTTTTTCATACCTGTATCACCTCGCGAACGAACCATGCCGCCTGGCGATTGCCCGCAAGCCCATAA	MTFKQTYKPDGSSILGSLGTPGTLPFNNLASAQGTGVLRGVPIGPLTDDASTSDETGLERRRALQDSAFFHTCITSRTNHAAWRLPASP				NA	NA	NA	NA	NA
BMS010_04840	2703			hypothetical protein	ATGCACACGCATCAGTTATTGCAATCGTTGCCGCGCTGTCTACTGAGCGCGGCGCTGGTGGCGGGGATGGCGTCCACGGCTGGAGTCTATGCCGTCGACGGCGCACCGCCTGGACTGTTCGAACTGGATGGCAACACGGTCGACGGCGCCGCAGCCGGCGATGACTGGGGCAGCCTGCACCTGGGCAACCAGGCGGGTTCGCCGGCGGCCTTCACCGGAATCCTGTCGGACCCGGCACCGGTCACCATCTATACCCAGGGTGGATCGAAGGATGTCAACGACGTCACCCAGTGGCGCTACACCAACGGCTCGGTGCCGGACAAGGACGACATCACCAACGCCTACGCCACGGCCTACGTGAACCCGGCCGATGTGACACATGACGGTCAGGTGGTACACGCGGCGGGTGACCTGATCATCTACTTCGGGCTGGATCGCTTCGCCAACAACGGCGATGCCTTCGCCGGCTTCTGGTTCTTCCAGGACAACGTCACCCTGGGCGCCAACGGCCGCTTCAACGGCCAGCATGTCGCCCGCCAGGGCATGGAAGGCCAGCCGGGGTATGTGCCGGGGGACCTGCTGGTGCTGGTCGAGTACCCGCAGGGCGCCAATGCCCAGCCGGAAATCAAGGTCTACGAGTGGGACCCGCTGGACCTGGATCATGACAACGTGGCACCCAATCTCGACCAGCGCTACAGCTCGGCTGCCGCCAAGTGCGATGGTTCGGGCAACAAGCTGGCTTGCGCCATCACCAACGTGGCCAACCTGCCGGGTGCGCCGGAATGGCCCTACACACCGAAGAACGGTTTTGCCGGCATTCCCTTCGAGAGCTTCTTCGAGGGCGGCATCAACGTGTCGAAATTGCTTGGCGGCGATGTTCCCTGCTTCAGCAGCTTCCTCGCGGAAACCCGCTCGTCGCGTTCGGAGACCTCGCAGTTGAAGGACTTCGTGCTGGGCGACTTCAACCTCTGCAGCATCGCGGTGACCAAGCAGTGCACGGCAGCCGTGGATGCGGGCGATGGCGGCAACAGCGTGCTGGTCAACTACAGCGGTACCGTGACCAACGATGGCGGCCTGCCGCTGTTCGATGTGACCGTGACCGATGACATGGGCACCGCGAACACCGCCGACGACGTGGTGGTCTTCGGACCGGCCACCCTGCAACCGGGCGAGTCGCAGCCTTACAACGGCAGCTACAGCACCCTGTCCATCCCGGCCACGGACGAAGTGACCGCGGTCGGCCATCGCAACGGTACGTCGGTGGAAGCCACGGCGGAAGCATCCTGCTCGCCGACGGTTACTCCGGCCCTGGCGGTGGACAAGGCATGCACCGCGAACATCGCCTCGGGTGGTGCGGGTATCGACGTGCTGTTCAACGGCACGGTGACCAACACCGGCAACGTGGCACTGGAAAACGTCATGGTGGTGGATGACGGCGGCACGCCGGGCGACACCAGCGACGATGTGACGGTGCTCGGCCCGGTCACCCTGAATGCCGGCGAGTCGATGCCGTACAACGGTAGCTTCAGTGCCAGTGGCAGCAACAGCTCCACCGACACCGTGACCGCCACCGGCTCCGACGTGCTCACCCAGAGTGCGGTCCAGGCCACGGCGCAAGCGACCTGTGAGGCGGATGTGGCACCGGCCATCGAGGTCACCAAGCAGTGCAGCGCGAACATCAATACCGGCGGTACGGGTATCGATGTGCTGTTCACCGGTACGGTGACCAACACCGGCGACGTCGCCCTCGGCAACGTCACGGTGGTGGATGACAACGGCACGCCGGGCGATTTCAGCGATGACGTCACGGTGCTCGGCCCGATCAGCCTCGCTCCCGGGGAGTCGGCGAACTACAACGGCAGCTTCAGTGCCAGTGGTTCCAGCTCCACCGATACGGTGACCGCAAGCGGTGCCGATGTGCTGACTCAGAGCCCGGTGGAAGCGCAAGCCTCCGCTTCGTGCAGTGCGGATGTGACACCGGCCATCGAGGTCACCAAGCAGTGCACCGATGCACCGGCCTTCGGCCAGGCGATCCTGTTCGACGGCACGGTGACCAACACCGGCAACGTGGCACTGCTGAACGTGACGGTGGTGGACGACAACGGCACGCCGGGGGATACCTCGGACGACGTGACCTTCAACCTCGGTGACCTGGCTCCGGGAGCCGCGGCCAACTACAACGGCGCCTATACGCCGAGCCTGGCCGGCTCCTACACCAACACCGTGGTGGCCACCGCCGAAGATGCCGTGGAAAGCTCGCCGGTATCGAGCAGTGCGGACGCCACCTGCGAGGTCCCGCCGCCGCCGGAAGGCGAAGGCTGCACCCCGGGCTTCTGGAAGAACAGCCCCGGCAGTTGGGGCCCGACCGGCTACAGCCCGAACCAGACCGTGGGTTCGGTGTTCAGCCTGCCCAGCGGCCAGTTGGCCAACCAGCTCGGCGGCAACAGCCTGATCCAGGCGCTGAACTATGCCGGTGGCAACAACCTGCTCGGCTCCGCGCAGATCCTCCTGCGCGCGGCGGTATCGGCGGTGCTCAACGCCAGCCATCCTGACGTGGATTACCCACGGACGGCGGCTTCGGTGATCGCCGACGTCAACGCGGCCCTGGCCACCAAGGATCGGGCAACGATCCTGGCCCTGGCAGCGGCGCTGGATGCCGACAACAACCTGGGATGCGATCTGGCGAACGACAATTCGTTCTGA	MHTHQLLQSLPRCLLSAALVAGMASTAGVYAVDGAPPGLFELDGNTVDGAAAGDDWGSLHLGNQAGSPAAFTGILSDPAPVTIYTQGGSKDVNDVTQWRYTNGSVPDKDDITNAYATAYVNPADVTHDGQVVHAAGDLIIYFGLDRFANNGDAFAGFWFFQDNVTLGANGRFNGQHVARQGMEGQPGYVPGDLLVLVEYPQGANAQPEIKVYEWDPLDLDHDNVAPNLDQRYSSAAAKCDGSGNKLACAITNVANLPGAPEWPYTPKNGFAGIPFESFFEGGINVSKLLGGDVPCFSSFLAETRSSRSETSQLKDFVLGDFNLCSIAVTKQCTAAVDAGDGGNSVLVNYSGTVTNDGGLPLFDVTVTDDMGTANTADDVVVFGPATLQPGESQPYNGSYSTLSIPATDEVTAVGHRNGTSVEATAEASCSPTVTPALAVDKACTANIASGGAGIDVLFNGTVTNTGNVALENVMVVDDGGTPGDTSDDVTVLGPVTLNAGESMPYNGSFSASGSNSSTDTVTATGSDVLTQSAVQATAQATCEADVAPAIEVTKQCSANINTGGTGIDVLFTGTVTNTGDVALGNVTVVDDNGTPGDFSDDVTVLGPISLAPGESANYNGSFSASGSSSTDTVTASGADVLTQSPVEAQASASCSADVTPAIEVTKQCTDAPAFGQAILFDGTVTNTGNVALLNVTVVDDNGTPGDTSDDVTFNLGDLAPGAAANYNGAYTPSLAGSYTNTVVATAEDAVESSPVSSSADATCEVPPPPEGEGCTPGFWKNSPGSWGPTGYSPNQTVGSVFSLPSGQLANQLGGNSLIQALNYAGGNNLLGSAQILLRAAVSAVLNASHPDVDYPRTAASVIADVNAALATKDRATILALAAALDADNNLGCDLANDNSF				NA	NA	NA	NA	NA
BMS010_04841	2325			hypothetical protein	ATGCGCCTGTCCCGGCCCTTCGCCGCGTCCCTGCTCTGCACCTGCGTGCTCGTCGCCAGCACCTCCCTCGCCGCAGCCGCTTCCCATACGGACCATGAGCACACCGCCACCGCGGCCCACGCCAGCGAGGCCCGCGAGGCCGCCAGCGCACGCACCACGGAACTCCTGACCCAGTACAAGCGCTGGCTCAAGGCCGATGCCAGCCAACGCACCAGCCTGCGCCAGCAGCTCGCCGCCAAGGCCGAGCAGCGCCGCCAACTGCTCGGCGAACTGGTCCAGAACCATCCAGCCGAGGTGCTGCGCGTGGTCATCCCGGAAGACCGCCAGAGCGGCATGCCGGCCGAGGTGCTCGCCAAGCTGGAACAGCGCGTGGATCTGGAAGGCGAACTGGACGTGCTCTACGAAGACTACGAGGACGGCTCCCACAAGCTGCGCCACTTCCTCAAGACGCCCTTCGGCGAGCGCTTCGAACTGCACTTCGCCCGTCGCGACAAGGAATGGCAGAGCGGCACCCCGGTGCGCGCCCAGGGCTGGCTGCTGGAAAGCGCCCAGCCCGGTCTCGACCCGATCCAGGGCGACCTGGTGATCGCCGACGACAGCACCCTGCTGCTCGCCGATGGCGCCACCACGACCACCCCCTCCACCGGCACCACTAGCGCCCTACCCAACACCCTGGGCGCCCAGCGCACCCTGGCCATCCTGGTCAACTTCCAGGACGCGCCGAGCGACAAGCCGTGGACCGCCAGCCAGGCCAACAGCCTGCTGTTCGGTGCTGGCGGCGTCAGCGATTTCTTCAAGGAAAACTCCAGCCAGCAGACCTGGCTCACCGGCACGGTCGCCGGCTGGTACACCCTTCCGGTCAGCAGCACCGTGTGCGACGGCTTCGCCATCGAGAAGTACGCCAAGGAAGCGGCCCAGGCTTCTGGCTACACCCTGGCCAACTACGACCGCTTCGTCTATGTCTTCCCGAAGAACGCCTGCGGCTACAGCGGCATGGGCCAGGTCGGCACCAAGCCTTCCGCCGCCTGGATTCATAACAGCCTGATCCTGCGCACCGTCGCCCACGAGATGGGCCATAACCTCGGCCTGCACCACGCCCACGCGCTGGATTGCGGCGACACCATCCTGGGCAGCACCTGCACCGCCCAGGAGTACGGCGACACCCTCGACATCATGGGTTACTCCGGCACCGTCGGGCACTTCAACGGTTTCGCCAAGGAGCGCCTGGGCTGGCTGGCCAGCGGCAACCTGATCACCGTCGGCAGCGCCGGCAGCTTCTATCTCAAGCCCATGAGCAGCGCCACCAGCAGCGCGAAGATTCTGAAGATCGCCAATGGCACCGATGCCAACGGCCAGCCCAGCTACCTCTATGTGGAATTCCGCCAGCCGATCGGCTTCGACGCGCAGCTCACCGACCGCGGCGTAGTCGACGTGAACAACGTGTTCAAGGGCGTCTCCGTGCGCCAGGCCAGCCCGGCCAACGGCAACAGCGGCTACCTGCTGGACATGACCGCCGGCAGCAACTTCGTCGACATGAAGGATGCCGCCCTGGTCGGCGGCCGCAGCTTCAGCGCCAACGGCATGACCCTCACCACCCAGTGGACCGACGCCAGCCAGGCCCTGGTCAGCGTCGACTTCGGCGGCAGCGCCGCCGCCCCCACCTGCACCCGTGCCGCGCCGAGCATCAGCGTCACCCCCGGCCAGAGCACCTGGCTGCCGGCCGGCAGCAGCTACACCTACACCGTCAGCGTGACCAACAAGGACAGCGCCGGCTGCGCCAGCAGCAGCTTCAGCCTGAGCGCCAACAAGCCGAGCGGCTGGAACGCCAACCTGGGCAGCGCCAGCCTCAGCCTGGCTCCTGGCGCCAGCGCCAGCACCACCCTGCAGGTCAGCGCGGCGAGCACCGCCGTCGATGGCTTCTACAGCGTCGGCGCCACCGCCACGGCCAACGGTCTGTCCGCCACCGGCAGCGCCAGCTTCGTGGTGGACAACCCGGCCAGCGTCGCCAACCAGGCGCCGAAGGCGGTGAACGACAGCGCCACCCTGGCCAGCATCTCCGCCGTTACCATCGCCGTCATGGCCAACGACAGCGACCCGGATGGCGACGCGATCAACGTGGTCACCTTCACCCAGGGCGGCAAGGGCAGCGTCAAGCTGAACAGCAACGGCACCCTCACCTACACCCCGGCCAAGGGCTTCAAGTCCAGCGACCAGTTCAGCTACACCATCAGCGACGGCAAGAACAGCGCCTCGGCTACCGTCAGCGTCAGCCTGTCCGGCAGCAGCACCACCATCAGCGGTGGCAAGGGGAACGGCAACCGCTGA	MRLSRPFAASLLCTCVLVASTSLAAAASHTDHEHTATAAHASEAREAASARTTELLTQYKRWLKADASQRTSLRQQLAAKAEQRRQLLGELVQNHPAEVLRVVIPEDRQSGMPAEVLAKLEQRVDLEGELDVLYEDYEDGSHKLRHFLKTPFGERFELHFARRDKEWQSGTPVRAQGWLLESAQPGLDPIQGDLVIADDSTLLLADGATTTTPSTGTTSALPNTLGAQRTLAILVNFQDAPSDKPWTASQANSLLFGAGGVSDFFKENSSQQTWLTGTVAGWYTLPVSSTVCDGFAIEKYAKEAAQASGYTLANYDRFVYVFPKNACGYSGMGQVGTKPSAAWIHNSLILRTVAHEMGHNLGLHHAHALDCGDTILGSTCTAQEYGDTLDIMGYSGTVGHFNGFAKERLGWLASGNLITVGSAGSFYLKPMSSATSSAKILKIANGTDANGQPSYLYVEFRQPIGFDAQLTDRGVVDVNNVFKGVSVRQASPANGNSGYLLDMTAGSNFVDMKDAALVGGRSFSANGMTLTTQWTDASQALVSVDFGGSAAAPTCTRAAPSISVTPGQSTWLPAGSSYTYTVSVTNKDSAGCASSSFSLSANKPSGWNANLGSASLSLAPGASASTTLQVSAASTAVDGFYSVGATATANGLSATGSASFVVDNPASVANQAPKAVNDSATLASISAVTIAVMANDSDPDGDAINVVTFTQGGKGSVKLNSNGTLTYTPAKGFKSSDQFSYTISDGKNSASATVSVSLSGSSTTISGGKGNGNR				NA	NA	NA	NA	NA
BMS010_04843	249			hypothetical protein	ATGATCGAAAGCGGACGCAGGTCATCCGACCACCCACCGCCGGCCTCGACCGGTCGATGCGACGCCGGGTCGAACACCGGGAACGCGGACAACAACGGCTTGACCGTTTTCCCCCTGTTCGGCGACACCCCCTTCCTCGCCTGGCAACACCTGCATCGCAAGACGCGGGTCCTGCAGCACATCCACCCCAGCGGCAAACCGGTGATCCTGCTGTGGGACGAAGTCGACGACACCGACCTGCTGCCCTGA	MIESGRRSSDHPPPASTGRCDAGSNTGNADNNGLTVFPLFGDTPFLAWQHLHRKTRVLQHIHPSGKPVILLWDEVDDTDLLP				NA	NA	NA	NA	NA
BMS010_04844	1359	norR_2		Anaerobic nitric oxide reductase transcription regulator NorR	ATGTCCGCGACAGCCCGTCCATTGCCAGAATCACCCCGCCGCGCCCTTCTTCTCGATCTGCCCGGCGATGAACATCTGCATGCAGATTTGCAGATTCCTGACTGGGTCTTCGATCGCGCCAGCGGCACCGTCATGGCCCAGTCGCTGCTCAAGCAGCACGCCTACCGCGTGGGCATCGCCCTGCTGCGCGGGGTCAACGAGGAACGCTACGAACAGCTCGAGGAACTCCTGGCCGCCGACGAGCACGTCTCCTGGCTCGCCCTGACCCGCCCGGAAGACCTGCAGAACCTCGACTTCCGCCGCCTGATCTACGAGCACTTCTACGACTATTTCACCCTGCCGCTGAGCGACAACACCCACCTCAAGTGCGCCCTCGGCCACCTGCACGGCATGTCCCGCCTCCGCGACCTGGAGCAGAACGTGTTGCTGCCGGTGGAAGAGTTCCACATGGTCGGCGGCAGCAAGCAGTTCCTGGCGATCTTCGACCAGATTCGCCGGGTCTCCGCCGTCGATGCGCCGGTGCTGATCCGTGGCGAGACCGGCGTCGGCAAGGAGATGATCGCCCGTGCCATCCACCAGCGCTCCCAGCAACGCAGCGGGCCCTTCGTCGCGGTGAACTGCGGCGCGCTGCCGGAAACGCTGATCCATGCCGAGCTGTTCGGCTACGAGAAGGGCTCCTTCACCGGCGCCTACAAGCGCAAGATCGGGCGCATCGAGGCCGCGCAGAACGGCACCATCTTCCTCGACGAGATCGGCGACCTGCCGCCGCAGTTGCAGGTCTACCTGCTGCGCTTTCTCGAACAGAAGACCATCGAACGCCTCGGCGGCAACCAGAGCCTGACCAGCAACGCGCGGGTGATCGCCGCCACCCACGCCAACCTGGAACGCGCCGTCGACGAAGGACGCTTCCGCGAGGACCTCTACTACCGCCTCAATGTGCTCAACATCAATGTCCCGCGCCTGGCCGAACGCGGTAGCGACATCGAACTGCTGGCGCTCTACTTCCTGCACAAGTTCGGCAAGGAATACGGCACCAGCGCACGCGGTTTCACCCGCCAGGCCATGTCCGCCATGCTGCAATACAAGTGGCCGGGGAATGTCCGGGAAATGATCAACCGCATCCGCCGCGCCCTGGTGATGAGCGAGAACCGCATGATCACGCCGAAGGACCTCGGCCTGGAGGAAAGCAAGCCGGAGGAAAAGGTGGTCCCCCTCGAACAGGCGCGCGCCCATGCCGAAGAACTCGCCGTGCGCAGTTGCCTGAGCCACGCCATGAACAACGTCTCGCAGGCCGCCAAGATGCTCGGCGTTTCCCGCGTCACGCTCTACCGCATGATGGAGAAGTACGGCATCCGCTAG	MSATARPLPESPRRALLLDLPGDEHLHADLQIPDWVFDRASGTVMAQSLLKQHAYRVGIALLRGVNEERYEQLEELLAADEHVSWLALTRPEDLQNLDFRRLIYEHFYDYFTLPLSDNTHLKCALGHLHGMSRLRDLEQNVLLPVEEFHMVGGSKQFLAIFDQIRRVSAVDAPVLIRGETGVGKEMIARAIHQRSQQRSGPFVAVNCGALPETLIHAELFGYEKGSFTGAYKRKIGRIEAAQNGTIFLDEIGDLPPQLQVYLLRFLEQKTIERLGGNQSLTSNARVIAATHANLERAVDEGRFREDLYYRLNVLNINVPRLAERGSDIELLALYFLHKFGKEYGTSARGFTRQAMSAMLQYKWPGNVREMINRIRRALVMSENRMITPKDLGLEESKPEEKVVPLEQARAHAEELAVRSCLSHAMNNVSQAAKMLGVSRVTLYRMMEKYGIR	PGPT0004315_973	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK_HOMEOSTASIS,PGPT0004315-zraR|hydG-K07713	NA	NA
BMS010_04845	1749			hypothetical protein	ATGTACAGTCACTACTTCGGCTTCACCGAACTGCCCTTCACCATCGCCCCGGACCCGCGCTACCTGTACCTCAGCGCACAGCACCGCGAAGCCCTGGCCAACCTGCTCTACGGCATCAACTGCAACGGTGGTTTCGTGCTGCTCACCGGCGATGTCGGTACGGGCAAGACCACCGTCTGCCGCTGCCTGCTCGAACAGTTGCCGGCCTCGACCGAAGTGGCCTTCATCCTCAACCCGAAGTACGGCATCACCGAGCTGCTGGAAGCGATCTGCGACGAGTTGAAGATCGATTACCAGCACAGCCGCAACCGTATCAAGAGCTACATCGACGCCCTCAATGCGCACCTGCTGGCGGCCCATGCCCGCGGTGTGAACACCGTGCTGATCATCGACGAGGCGCAGAACCTCGGCCTCGACGTGCTGGAGCAGATCCGCCTGCTGACCAACCTGGAAACCAGCAGCCAGAAGCTCCTGCAAATCATCCTGATCGGCCAGCCGGAGCTGTTGGACAAGCTGGCCCGGCCGGAACTGCGCCAGCTCGACCAGCGCATCACCGCGCGCTACCACCTGAATGCGCTGACCCGTGCCGAGCTGGATGCCTACGTCAGCCATCGCCTTGCGGTGGGCGGCAGCGATGCGCCGCTGTTCAGCCGTGCCGCGCTGCGCCGGTTGCATCGCCTGACCCGCGGCGTGCCGCGCATGGTGAACATTCTCTGCGACCGCGCTTTGCTCGGCGCTTTCGTCGAGCGCCGCAACAAGGTCGGCTGGCGGATCGTCAATCAGGCGGCGCGTGAGGTCCTGGGCAGTCGTCCGAGGCCGATGCCGGTCTGGCGGATGGCGTTGTTTTCGCTGTTTCTCCTGGTGCTGCTGCTGGCCGGCTTTCTCTATCCGGGCGGGCGCGACATTGCCGCCCTGGTGCGTCTGCCCGGCCAGGAGACGCCCTCGCCGGCCGCCACGCCCGCGCCGGTACCGGAAGCGAGTGTGGCGCCGGTTGCTGCACCGGAGGTCGAGCCGGACCTGCTGGTCGCCTCGCTGGAGCCGACCGCGGCGGGACCTGCCGAGGGACTGACGCCCGCGTCCTACGAACCGATGCCTTCGCGCAGCGGCCCGGGCGACTGGCGCTGGCCAGAGGGCACCGATCTCGCGGCCACCGAGCCGATGGCCTATCAGGCGCTGTTCCGTGCCTGGGGGATCGCCTATGACCCGACCACGGCGCCGGTGGTCTGCCGCTTCGCCCGCAGCCATCAGCTCGGTTGCCTGTTGCAGCCGGTGGACCTGGACGAACTGCTCAAGTTGAACCAGCCGGCAGTGGTCAGCCTGAACAACGCGTTAGGGCAGCGTTTCTTCGCCACCCTGCTGCGCATCGATACCCAGACCGGCGTCGCCACCCTGGAGGTCGCCGGGGAAAACCGCGAGGTCGACCTGGCCGAGCTGCGCGTCTGGTTGAACGACCGCCAACTGGTGCTCTGGCGCTTGCCGCCGGGCTACCAGGCACCGTTGCGTCCAGAGGCCAGCAGCCCGCTGGTGGGATGGCTCGATCAGCGTTTCGCGCAGTTGCAGAAGCGGCCGCCGCGCACCTTGAAAGGCGAGCGCTACGACGAGGAACTGCAATTGCTGGTGCTGTCCTTCCAGCACCATTACCAGTTGGTCACCGACGCGGTAGTGGGGCCGCAGACGCTGATCCAGCTGAGTGCCCTGACCGAGCCGGATATCCCGCGGTTGACGGCCACGGAGCCCGAATGGGAGTGA	MYSHYFGFTELPFTIAPDPRYLYLSAQHREALANLLYGINCNGGFVLLTGDVGTGKTTVCRCLLEQLPASTEVAFILNPKYGITELLEAICDELKIDYQHSRNRIKSYIDALNAHLLAAHARGVNTVLIIDEAQNLGLDVLEQIRLLTNLETSSQKLLQIILIGQPELLDKLARPELRQLDQRITARYHLNALTRAELDAYVSHRLAVGGSDAPLFSRAALRRLHRLTRGVPRMVNILCDRALLGAFVERRNKVGWRIVNQAAREVLGSRPRPMPVWRMALFSLFLLVLLLAGFLYPGGRDIAALVRLPGQETPSPAATPAPVPEASVAPVAAPEVEPDLLVASLEPTAAGPAEGLTPASYEPMPSRSGPGDWRWPEGTDLAATEPMAYQALFRAWGIAYDPTTAPVVCRFARSHQLGCLLQPVDLDELLKLNQPAVVSLNNALGQRFFATLLRIDTQTGVATLEVAGENREVDLAELRVWLNDRQLVLWRLPPGYQAPLRPEASSPLVGWLDQRFAQLQKRPPRTLKGERYDEELQLLVLSFQHHYQLVTDAVVGPQTLIQLSALTEPDIPRLTATEPEWE	PGPT0026410_94	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026410-gspA-K02450	NA	NA
BMS010_04846	750			hypothetical protein	ATGTCCTACATCCTCAACGCCCTCAAGCATTCGGAAAGCCTGCGGACCCGCAGTGACGTTCCGCACATCGATACCCAGCAGGAGTTCGTCGAGCTGCACCAGCAGCGGATGGAGGGCCGCCATTGGAAAGCGCTGGCGCTGCTGGTCGCGGGCGCGCTGCTGGCGATCCTGGCCGCGTGGCTGTTGCGCAGCCCACCGGATGAACCGGTTGTACCCGCGCCCGTGCCGATGGCGCCCGTCGCGAAGGAAGCCCCGCCTCCGGCCCCGACAGCCGTGATCGACGAACCCGCTCCGCCCGCAGAAGCCGCACCGGGAGCGTCCACACTGCAAGGGATGGCCGGGGTGCGCATCCAGGTCGAGGACGAGGAGACCCAGGCCGCGCCGCTGGCCCTCGAATTGCCGGTGCGGGCCGGACGTGTCCCGGCTGCCGTACCTGCGCCGGCACAACGGCAGGTAGCGCCGCCGGTAGCCGTCTCGCCTCCTGCGGATGCAGTCGAACCGCCGGCGGACGAACTGGGCGATGCGCAGCACTGGAAGAAGTTGCCCTCGGCGATCCAGAAACAGTTGCGCGACATGGCCTTCAACGCCCATGTCTATTCGGCGAACCCGTCGTCGCGTTTCATTCGTGTCAGCGGCCGGACGCTGCATGAAGGCGATGCGCTCAACGCCGAGCTGCGCCTGCAACAGATCACCCGCGACGGCCTGGTGTTCACCTACCGGAACGGGCGCTATTGGCTGCGTTTGAATTGA	MSYILNALKHSESLRTRSDVPHIDTQQEFVELHQQRMEGRHWKALALLVAGALLAILAAWLLRSPPDEPVVPAPVPMAPVAKEAPPPAPTAVIDEPAPPAEAAPGASTLQGMAGVRIQVEDEETQAAPLALELPVRAGRVPAAVPAPAQRQVAPPVAVSPPADAVEPPADELGDAQHWKKLPSAIQKQLRDMAFNAHVYSANPSSRFIRVSGRTLHEGDALNAELRLQQITRDGLVFTYRNGRYWLRLN				NA	NA	NA	NA	NA
BMS010_04847	1377	dctM_2	COG1593	C4-dicarboxylate TRAP transporter large permease protein DctM	ATGGCTGAGTTGATGGCGATTCTGCTGTTCGTCAGCATCTGCATCGCGCTGATGGCGGGCTACCCGGTAGCCTTCACCCTCGGCGGCATGGCCCTGGCCTTCGCCGGCATCGGTGTCCTCACCGGCACCTTCGACGCCGGCTTCCTGCATGCCCTGCCGAACCGCCTGTTCGGCATCATGAACAACCAGACCATGCTGGCCGTGCCGCTGTTCGTGTTCATGGGGGTGATGCTGGAGAAATCACGGGTCGCGGAAGACCTGCTGGAATCCATGTCGCGGCTGTTCGGCACCCTGCGCGGAGGCCTGGCGATTTCCGTCTGCGTGGTCGGCGCATTGCTCGCCGCCAGCACCGGCATCGTCGGTGCCACCGTGGTGACCATGGGCCTGCTGGCGCTACCGACCATGCTGCGCCGCGGCTACGACCCGGCGGTGGCCACCGGCACCCTGGCGGCCACCGGCACCCTGGGCCAGATCATCCCGCCGTCGATCATCCTGGTCCTGCTCGGCGACGTGATGTCCAGCGCCTACCAGCAGGCCCAGCTGAAGATGGGCATCTACTCGCCGAAGACCGTTTCCGTGGGCGACCTGTTCGTCGGCGCGCTGATTCCCGGCCTGGTGCTGGTCGGCCTGTACATCCTCTATCTGATCTTCGTCGCCGTGACCCAGCCGAAGAAGCTGCCGGCCCTGCCCCAGGAAGAACTCGGCCCGATCGAATGGGGCAAGCTGTTCAGCGCCCTGATGCCGCCGCTGATCCTGATCGCCGCCGTGCTCGGCTCGATCCTCGCCGGCTACGCCACGCCCACCGAGGCAGCGGCGCTCGGCGCCCTCGGCGCGATGCTGCTGGCGCTGCTCAAGCGCAAACTGAGCTTCACCCAGCTCCGCGAAGTCGCCTACGGCACCACCGAAATCACCTCGATGGTGTTCCTGATCCTGATCGGCGCCTCGCTGTTCTCCCTGGTGTTCCGTGGTTTCGGCGGCGAAGTGCTGATCGAGGACGTATTCGAGCAACTGCCCGGCGGCGTGTTCGGCGCCTTCTTCGTGGTGATGCTGGTGATCTTCCTGCTCGGCTTCATCCTCGACTTCATCGAGATCACCTTCGTCGTCGTACCCATCGTCGGCCCGGTGCTGTTGGCCATGGGCCTGGACCCGGTATGGCTCGGCGTGATGATCGCGCTGAACCTGCAAACCTCGTTCCTCACGCCGCCCTTCGGCTTCTCGCTGTTCTACCTGCGCGGGGTCACGCCGAGTTCGGTGCCGACCAGCACTATGTACAAGGGCGTGGTGCCGTTCATCCTGATCCAGCTCGGCATGCTGGCGATCGCCTATCTCTGGCCGTCAATCATCACCTGGCTACCGAGCGTGGTGTACGCCAAGTGA	MAELMAILLFVSICIALMAGYPVAFTLGGMALAFAGIGVLTGTFDAGFLHALPNRLFGIMNNQTMLAVPLFVFMGVMLEKSRVAEDLLESMSRLFGTLRGGLAISVCVVGALLAASTGIVGATVVTMGLLALPTMLRRGYDPAVATGTLAATGTLGQIIPPSIILVLLGDVMSSAYQQAQLKMGIYSPKTVSVGDLFVGALIPGLVLVGLYILYLIFVAVTQPKKLPALPQEELGPIEWGKLFSALMPPLILIAAVLGSILAGYATPTEAAALGALGAMLLALLKRKLSFTQLREVAYGTTEITSMVFLILIGASLFSLVFRGFGGEVLIEDVFEQLPGGVFGAFFVVMLVIFLLGFILDFIEITFVVVPIVGPVLLAMGLDPVWLGVMIALNLQTSFLTPPFGFSLFYLRGVTPSSVPTSTMYKGVVPFILIQLGMLAIAYLWPSIITWLPSVVYAK				NA	NA	NA	NA	NA
BMS010_04848	546			hypothetical protein	ATGTCCGATAAAGTCCCTCCCTTGCTCCGCGTCGCGCACGGGCTCGATGCGCTCAACTCCCTGTTCGGCCGAGGCTGCGCCTGGCTGACCCTGTTCCTGGTCCTGGGCACGGCGGTAGTCGTGGTGCTGCGCTACGGCTTCGGCATCGGCGCGACCGCCCTCCAGGAGGCGGTGCTCTATGCCCACGCCCTGGTGTTCATGGGTGCCGCCGCCTGGACGCTGCAACGCGGCGCCCACGTGCGGGTGGACATCTTCTACCAGAAGTTTTCCGGGCGCCGCCAGGCGCTGGTGGAGATCGTCGGCAACCTGCTGTTCCTGATCCCGGTGTGCCTGTTCCTCGGCTGGAACAGCTGGGACTATGTGACCACCTCCTGGGCGACCGCCGAGAAGTCCAACGAGGCCGGCGGTCTCGCCTTCGTCTACCTGCAGAAGAGCATCATCCTGGTTCTGGTCGTCAGCCTGCTGCTGCAGAGCGTGGCCGAGCTGATCAAGGCCGGCTACCTGCTTACCGGCCGCCAGCCCGTCACGGAGGTGAAGCATGGCTGA	MSDKVPPLLRVAHGLDALNSLFGRGCAWLTLFLVLGTAVVVVLRYGFGIGATALQEAVLYAHALVFMGAAAWTLQRGAHVRVDIFYQKFSGRRQALVEIVGNLLFLIPVCLFLGWNSWDYVTTSWATAEKSNEAGGLAFVYLQKSIILVLVVSLLLQSVAELIKAGYLLTGRQPVTEVKHG				NA	NA	NA	NA	NA
BMS010_04849	1098		COG4663	Monocarboxylate 2-oxoacid-binding periplasmic protein	ATGAAACGTCGCGACATACTCACCGCCGCCGGGGTCGGTCTGGCCGCCACTGCGCTGGCCGGTTGCCAAAAGCAGACCGAGACCGCATGCGAACAGCAAAGCACTGGTCAGACCTTCAACTGGAAGATGGTCACTTCCTGGCCGAAGAACTTCCCCGGTGTCGGCGTGGGGGCCGAACGCTTCGCCAAGCTGGTCGAGGAAATGAGCAACGGCCGCCTGAAGATCAAGGTCTACGCGGCTGGCGAACTGGTCCCGGCGCTGGAAGTCTTCGACGCGGTTTCCCGCGGCACCGCCGAGATGGGTCACGGCGCTCCCTATTACTGGAAAGGCAAGGTCCCGGCCGCGCAGTTCTTCTGCGCCCTACCGTTCGGCCCGAATGCCCAGGAAATGAACGCCTGGCTGCACAAGGGCGGCGGCATCCAGCTGTGGGAAGAGGTGTACAAGCCGTTCGGCGTGCTGCCGATGGCCTGTGGCGCTACCGGCGTGCAGACCGCCGGCTGGTTCAACAAGGAAATCAACTCGGTCGACGACTTCAAGGGCCTGAAGATGCGTACCCCGGGCCTGGGCGGCGAAGTGCTGACCCGCATGGGCGGTACCGTGGTCAACATGCCGGCCGGCGAGATCTTCACCGCCCTGCAGACCGGCGCCATCGACGCCACCGAGTGGATCGGCCCGTACAACGACCTGGCCCTGGGCCTGCACAAGGCCGCCAAGTACTACTACACCCCGGGCTGGCAGGAGCCGAACGTCACCTTCGAACTGGACGTCAACATCAAGGCCTGGGAAACCCTGCCGGCTGACCTGCAGGCCATCGTTCGCGCGGCCGCCCGCGACGTCAACGGCGACATGCTGGATGACTACAACGCGCGCAACATGGAAGCGATGGAAACACTGAAGAAGGAAGGCGTGGATGTGCGCCGCCTGCCCGACGAGGTGCTGGCCAAGCTGCGCGAAGTCGCGGCCGAGGTGGTGGACGCCACCGCCGCCGCCGACCCGGTGGCGACCAAGGTCTGGGAACAGCAGAAGGCCTATCTCCAGCGCCTGTCCGACTACGCGGAAGTCAACGAACGGGATATCTACAACATCCGCCGCAGCTGA	MKRRDILTAAGVGLAATALAGCQKQTETACEQQSTGQTFNWKMVTSWPKNFPGVGVGAERFAKLVEEMSNGRLKIKVYAAGELVPALEVFDAVSRGTAEMGHGAPYYWKGKVPAAQFFCALPFGPNAQEMNAWLHKGGGIQLWEEVYKPFGVLPMACGATGVQTAGWFNKEINSVDDFKGLKMRTPGLGGEVLTRMGGTVVNMPAGEIFTALQTGAIDATEWIGPYNDLALGLHKAAKYYYTPGWQEPNVTFELDVNIKAWETLPADLQAIVRAAARDVNGDMLDDYNARNMEAMETLKKEGVDVRRLPDEVLAKLREVAAEVVDATAAADPVATKVWEQQKAYLQRLSDYAEVNERDIYNIRRS				NA	NA	NA	NA	NA
BMS010_04850	405		COG1607	putative acyl-CoA thioester hydrolase	ATGAACGATTTAGAACAGGAAGACCCGATCCCCCAAGGCGATCTGGCCTTGCAGATCACCGCACTGCCGCGCGAAACCAACGGTTTCGGCGACATCTACGGTGGCTGGCTGGTATCCCAGATGGACCTGGCCGGCACCGCCATGGCCAGCAAGGTGGCCGGCGGCCGCGTCGCCACGGTGGCCATCGACCGCATGGCATTCCTGGTCCCGGTGGCGGTGGGGGCGCAATTGTCCTTCTACACCCAGACCCTGGAGATCGGCCGCAGCTCGATCCAGATGCTGGTCGAGGTATGGAGCGACGACCCGCTCTCCAGTGAATGGCGCAAGGTCACCGAGGCGGTGTTCGTCTTCGTCGCCATCGACGGCAGCGGCCGTACCCGCCCGGTTCCGCCACGGCGCAGCTGA	MNDLEQEDPIPQGDLALQITALPRETNGFGDIYGGWLVSQMDLAGTAMASKVAGGRVATVAIDRMAFLVPVAVGAQLSFYTQTLEIGRSSIQMLVEVWSDDPLSSEWRKVTEAVFVFVAIDGSGRTRPVPPRRS	PGPT0001830_344	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001830-yciA-K10806	NA	NA
BMS010_04851	969	pstS_1	COG0226	Phosphate-binding protein PstS	ATGAAACTGAAGCGTTTGATGGCGGCCCTGACTTTCGTCGCCGCTGGCGTGAGTGCCGCAACCGCGATCGCCTCTGTCGATCCGGCCCTGCCGAACTACGAAAAGACTTCCGGCGTTTCCGGTAACCTGTCCAGCGTCGGCTCCGACTCCCTGGCCAACCTGATGACGCTCTGGGCCGAAGAGTTCAAGCGTAACTACCCGAACGTCAACATCCAGATTCAGGCTGCCGGTTCCTCCACCGCGCCGCCGGCCCTGACCGAAGGCACCGCCAACCTCGGCCCGATGAGCCGCGCCATGAAGGACAACGAGCTGCAGGCCTTCGAAGAGAAGTATGGCTACAAGCCGACCGCCATCCCGGTGGCCATCGACGCCCTGGCCGTGTTCGTGCACAAGGACAACCCGATCAAGTCCCTGGATATCGCCCAGGTCGACGCCATCTTCTCCAGCACCCGCCTATGCGGTGGCGAGAAGGACATCAAGACCTGGGGCGACCTGGGCCTGACCGGCGAGTGGGCGAGCAAGCCGATCCAGCTGTTCGGTCGTAACTCGGTATCCGGCACCTACGGCTACTTCAAGGAAGAAGCCCTGTGCAAGGGCGACTACAAGTCCAATGTCAACGAGCAGCCGGGTTCGGCTTCCGTGGTGCAGTCCATCTCCAGCACCCTGAACGCCATCGGTTACTCGGGCATCGGCTACAAGACCTCCAGCGTCCGCGCCGTACCGCTGTCGAAGAAAGGCGGCGAAGCCTTCGAAGCCAGCGAAGAGAACGCCCTGGCTGGCAAGTTCCCGCTGGCTCGCTTCTTCTACGTCTACGTCAACAAGGCGCCGAACAAGCCGCTGAGCCCGCTGGACGCCGAGTTCGTCAAGCTGGTCCTGTCCAAGCAAGGCCAGGAAGTGGTGGTGAAGGATGGCTACATCCCGCTGCCGAAGAAAGTGATCGACAAGACCATGAAGGAACTGGGTCTCTGA	MKLKRLMAALTFVAAGVSAATAIASVDPALPNYEKTSGVSGNLSSVGSDSLANLMTLWAEEFKRNYPNVNIQIQAAGSSTAPPALTEGTANLGPMSRAMKDNELQAFEEKYGYKPTAIPVAIDALAVFVHKDNPIKSLDIAQVDAIFSSTRLCGGEKDIKTWGDLGLTGEWASKPIQLFGRNSVSGTYGYFKEEALCKGDYKSNVNEQPGSASVVQSISSTLNAIGYSGIGYKTSSVRAVPLSKKGGEAFEASEENALAGKFPLARFFYVYVNKAPNKPLSPLDAEFVKLVLSKQGQEVVVKDGYIPLPKKVIDKTMKELGL	PGPT0002625_5025	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE-PUTATIVE_PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002625-pstS|phoS-K02040	NA	NA
BMS010_04852	2286			hypothetical protein	ATGAATGACTTGGCTAACGCTTCCATGACCGCTTCCTCGAATTCGCACCGGTTGGACTTCAATACCCCGGCCCTGCAGCGCAAGCGCCGCATCCGTGCCCTGAAAGACCGTCTGGCCCGCTGGTGTGTGTCGATCGGTGGCCTGGCCGTGCTCGGGGCCATCACGCTGATCTTCTTCTATCTGGCCCATGTGGTCCTGCCCATGTTCCAGGGCGCCGAAATGACGGCGCGCAAGCCGCAGTCGGCGGCCTGGCTGGCCGAGGCGGGCGAGCCCCTGCTGCTGGCCATCGAAGAGCAGAACCAGATCGCGATGCGCCTCAGCCGCAATGGCCAGGTCCAGTTCTTCGACGTGAAGAGCGCCGCGCCGCTGAATCGCATCGAATTACCGATCCCGCAAGGCGTGCAGGTCGCTTCGGTCGGCCAGGACGTCCCCGGCAGCAACCGCGTCGTGCTCGGCCTGTCCAACGGCCAGGCCCTGGTGTTCCGGCACGTCTACAAGGTCACCTACCCGGACAACAAGAAGACCATCAGTCCGCAGATCGAATATCCCTACGGCGAAACGCCAATCGTTCTCGACCCGAACGGCAACGCGCTCGATCACGTGGCGATCAGTGAGAGCAGTTCCGGCCCGATGCTGGCGGGTTCCACCGGCAGCGAAGTGCACCTGCTCAGTCTGAGTCGCGAAGAGAACCTGCTGACCGGCGAGGTCAATCTGGAAGAAGAGCGCATCGCTCTCCCGCAGATCGCCGATCCGATCAAGCAACTGCTGATCGACCCGCGCCAGCTCTGGCTCTATGTCTTCAACGGCCGCGCCACCGCTGACGTGTTCGACCTGCGCAAGCGGGTGTTGAACGGCCGCTATACCCTGCTGCAGGACCCCCAGGCCGAAGTCTCCAGCGTGTCCGCGCTGCTCGGCGGCATCTCCCTGATGGTCGGTGACTCCAAGGGCGGCATCCAGCAGTGGTTCATGGTCCGCGACGCCAACGGCAAGGCGGAGCTGAAGAACATCCGAGGCTTCCAGTTGGGCAACGCCGCCATCAGCCAGATCGTTCCGGAAGAGCGCCGCAAGGGCTTCATCGCCCTGGATACCGCCGGCAAGCTGGGGATTTTCCATAGCACCGCGCACCGGACCCTGCTCACCGAGCCGGTCGCCGAAGGTATCGCCATCGCCGCACTGTCGCCGCGAGCGAACCGCCTGGTAGTGGAATCCAAGGACCAGTTGCAGCGTTTCCTGGTCAATAACCCGCACCCGGAAATCTCTTGGAGCGCGCTCTGGGGCAAGGTCTGGTACGAGAGCTACGACGAACCCAAGTACGTCTGGCAGTCCACCGCCGCCAACTCCGACTTCGAGCCCAAGCTGAGCCTTTCGCCGCTGGCCTTCGGTACCCTCAAGGCGGCCTTCTACGCCATGCTGCTGGCGGCCCCGCTGGCGATTGCCGCGGCGATCTACACCGCTTACTTCATGGCCCCGGCAATGCGCCGCAAGGTCAAGCCGGTAATCGAGCTGATGGAAGCGCTGCCGACGGTCATCCTCGGCTTCTTCGCCGGCCTGTTCCTGGCGCCGTACGTGGAGAACCACCTGCCGGGCATCTTCAGCCTGCTGCTGCTGACACCATTGGGCATCCTGCTCGCCGGCTACGTCTGGAGCCGCCTGCCCGAATCGGTGCGCCTGCGCGTGCCGGACGGCTGGGAAGCGGCGCTGCTGATCCCGGTGGTGCTGGCGGTCGGCTGGTTCGCCCTGGGCATGAGCGGGCACGTGGAGAACTGGCTGTTCGACGGCAACATGCGCCTGTGGCTGTCCAACGACCTGGGCATCCCCTTCGACCAGCGCAACGCCCTGGTGGTCGGCCTGGCCATGGGCTTCGCGGTGATCCCGAACATCTATTCGATCGCCGAAGACGCCGTGTTCAGCGTGCCGAAGAGCCTCACCTTCGGCTCCTTGGCCCTGGGCGCAACGCCCTGGCAGACGCTCACCCGCGTGGTGATCCTCACCGCCAGCCCCGGCATCTTCTCGGCATTGATGATCGGCATGGGTCGCGCCGTCGGCGAGACCATGATCGTGCTGATGGCCACTGGCAACACGCCGATCATGGAAGCGAACATCTTCGAGGGCCTGCGTACCCTCGCCGCCAACGTGGCGGTGGAAATGCCGGAATCCGAGGTGGGCAGTACCCACTACCGCGTGCTGTTCCTCGCCGCGCTGGTGCTGCTGTTGTTCACCTTCGTGATGAACACGCTGGCCGAGCTGATCCGTCAGCGGCTGCGCGGCAAGTATGCGTCTCTATAA	MNDLANASMTASSNSHRLDFNTPALQRKRRIRALKDRLARWCVSIGGLAVLGAITLIFFYLAHVVLPMFQGAEMTARKPQSAAWLAEAGEPLLLAIEEQNQIAMRLSRNGQVQFFDVKSAAPLNRIELPIPQGVQVASVGQDVPGSNRVVLGLSNGQALVFRHVYKVTYPDNKKTISPQIEYPYGETPIVLDPNGNALDHVAISESSSGPMLAGSTGSEVHLLSLSREENLLTGEVNLEEERIALPQIADPIKQLLIDPRQLWLYVFNGRATADVFDLRKRVLNGRYTLLQDPQAEVSSVSALLGGISLMVGDSKGGIQQWFMVRDANGKAELKNIRGFQLGNAAISQIVPEERRKGFIALDTAGKLGIFHSTAHRTLLTEPVAEGIAIAALSPRANRLVVESKDQLQRFLVNNPHPEISWSALWGKVWYESYDEPKYVWQSTAANSDFEPKLSLSPLAFGTLKAAFYAMLLAAPLAIAAAIYTAYFMAPAMRRKVKPVIELMEALPTVILGFFAGLFLAPYVENHLPGIFSLLLLTPLGILLAGYVWSRLPESVRLRVPDGWEAALLIPVVLAVGWFALGMSGHVENWLFDGNMRLWLSNDLGIPFDQRNALVVGLAMGFAVIPNIYSIAEDAVFSVPKSLTFGSLALGATPWQTLTRVVILTASPGIFSALMIGMGRAVGETMIVLMATGNTPIMEANIFEGLRTLAANVAVEMPESEVGSTHYRVLFLAALVLLLFTFVMNTLAELIRQRLRGKYASL	PGPT0002620_81	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE-PUTATIVE_PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002620-pstC|phoW-K02037	NA	NA
BMS010_04853	1671			hypothetical protein	GTGAAAAAGGATTCCCTGAAAACCTGGTTCAAGAGCGGCTCTCCCTGGGTCTGGCTGAATGGCGGCGCGGTATCGATCGCCATCATCATGACCCTGGGCCTGCTGGCGTTGATCGCCGTGCGCGGCCTCGGCCATTTCTGGCCGGCCAACATCATCGAAGGCACCTACCAGATTCCCGGCGAGCCGGCGAAGACCCTGGCCGGTGAAGTGGTCCAGGCCGAAGAGGTGCCGCGCGCGCGCCTGGCGGCCACGGGCCTGCCGGTGAACGTGGAAGGCGGCGAATTCATGACCCGCGAGCTGCTCAAGGTTGGCAACCGCGAAATCTTCGGCGCCGACTTCAGCTGGGTGATCGGCGAGTGGCTGAGCGATGTGCGCCGCCCGGCCGAGCTGATGGCTATCGAGCGCCGCGAGTGGGGCAACTTCTACGGTTATCTGGTCAACGTCAAGGAAAGCGGCCAAGTGGTGGCCGAGGGCGAGGGCGCCTGGGACGAATTCCAGAAGCGCATCGAGCGCGTGGACCTGCTGCATACGCAGATCGAGCGCCTGGAGAAAAAGGACATCGGTCGCATCAACGCCGGTCTCGAACGCCTGCGTCTGAAAACCCGCAAGCTGGAGCTGCAAGGACGCCTGGACGCCATTGCGCAGGCCGAGCTGGACGCCGAGCGCGCCGAACTGGATGCCGAGTACAAGGTGCTGGAGAGCCAGCTTTCCGACCTCCACCAGCAGTTCCAGCGCGACAGCGTCACCGTGAAGGTGAGCGATGGCCGCGAGATCGAGCTGAACATGGGCAAGGTGGTCCGTGCCTTCCGCCCGAACGCGATGTCCATGCTGCAGAAGTTCGGCTTCTACTTCGGCAAGCTCTGGGAGTTCGTCAGTGACGACCCGCGCGAGGCGAACACCGAAGGCGGCATCTTCCCGGCGATCTTCGGCACCGTAATGATGGTGCTGCTGATGGCCGTGCTGGTAACCCCGTTCGGCGTGATCGCCGCGGTCTACCTGCGTGAATACGCCCGCCAGGGTCCGCTGACCCGCGTCATCCGAATCGCTGTGAACAACCTCGCCGGCGTGCCGTCGATCGTCTACGGTGTGTTCGGCCTGGGCTTCTTCGTCTATGTCCTGGGCGGCTCGCTGGACCGGCTGTTCTTCCCCGAGGCCGCACCGGCGCCGACCTTCGGCACCCCCGGTCTGATGTGGGCCTCGCTGACCCTGGCCATCCTCACCCTGCCGGTGGTGATCGTCGCCACCGAGGAAGGCCTGGCGCGGATTCCCCGTGCGGTGCGCGAAGGCTCCCTGGCGCTGGGCGCGACCAAGATCGAAACCCTGTGGAACGTGGTCATCCCGATGGCCAGCCCGGCGATGATGACCGGCCTGATCCTCGCCGTGGCGCGTGCCGCCGGCGAAGTGGCGCCGCTGATGCTGGTCGGTGTGGTCAAGCTGGCGCCGAGCCTGCCGCTGGACGGTAACTATCCGTACCTGCACCTGGACCAGAAGATCATGCACCTGGGCTTCCATATTTACGATGTCGGCTTCCAGAGCCCCAACGTCGAGGCCGCGCGGCCGCTGGTATACGCCACCGCGCTGCTGCTGGTGGTAGTGATCGCCCTGCTGAATTTCAGCGCGGTGTACATGCGCAACCACCTGCGCGAGAAATACAAGGCCCTGGACCATTAA	MKKDSLKTWFKSGSPWVWLNGGAVSIAIIMTLGLLALIAVRGLGHFWPANIIEGTYQIPGEPAKTLAGEVVQAEEVPRARLAATGLPVNVEGGEFMTRELLKVGNREIFGADFSWVIGEWLSDVRRPAELMAIERREWGNFYGYLVNVKESGQVVAEGEGAWDEFQKRIERVDLLHTQIERLEKKDIGRINAGLERLRLKTRKLELQGRLDAIAQAELDAERAELDAEYKVLESQLSDLHQQFQRDSVTVKVSDGREIELNMGKVVRAFRPNAMSMLQKFGFYFGKLWEFVSDDPREANTEGGIFPAIFGTVMMVLLMAVLVTPFGVIAAVYLREYARQGPLTRVIRIAVNNLAGVPSIVYGVFGLGFFVYVLGGSLDRLFFPEAAPAPTFGTPGLMWASLTLAILTLPVVIVATEEGLARIPRAVREGSLALGATKIETLWNVVIPMASPAMMTGLILAVARAAGEVAPLMLVGVVKLAPSLPLDGNYPYLHLDQKIMHLGFHIYDVGFQSPNVEAARPLVYATALLLVVVIALLNFSAVYMRNHLREKYKALDH	PGPT0002610_322	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE-PUTATIVE_PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002610-pstA-K02038	NA	NA
BMS010_04854	834	pstB_1	COG1117	Phosphate import ATP-binding protein PstB	ATGCAACACGAAACCCACAGCCATGGCATCGACATCGCCGCCCTTGGCCGCGATAAGCAGAACCTGCGCCTGGCCGAGGAGACCGTGGCGATCGAAGTGCCCGGCCTGAACCTGTTCTATGGCGACAAGCAGGCGCTGCACGGCGTGTCGATGAACATCCCGAAGCAGCGCGTCACCGCCTTCATCGGCCCGTCCGGCTGCGGCAAGTCGACCCTGCTGCGCTGCTTCAACCGGATGAACGACCTGGTGGATGGCTGCCGCGTGGACGGCGAGATCAACCTGGACGGCCGCAACATCTACCGCAAGGGCGAGGACGTCGCCGAGCTGCGTCGCCGCGTCGGCATGGTGTTCCAGAAGCCCAACCCGTTCCCCAAGAGCATCTATGAGAACGTGGTCTACGGCCTGCGCATCCAGGGCATCAACAAGAAGCGCGTGCTCGACGAAGCGGTCGAGTGGGCCCTCAAGGGCGCCGCGCTCTGGGACGAGGTCAAGGACCGCCTGCACGAGTCCGCCCTCGGCCTCTCGGGCGGCCAGCAGCAGCGTCTGGTGATCGCCCGCACCATCGCCGTGGAGCCGGAAGTCCTGCTGCTCGACGAGCCCTGCTCGGCACTGGACCCGATCTCCACCCTCAAGGTGGAAGAGCTGATCTACGAACTGAAATCCAAGTACACCATCGTCATCGTGACCCATAACATGCAGCAGGCCGCCCGGGTGTCCGACTACACGGCGTTCATGTACATGGGCAAGCTGATCGAGTTCGGTGACACCGATACGCTGTTCACCAACCCGGCGAAGAAGCAGACCGAAGACTACATCACCGGACGCTACGGTTAA	MQHETHSHGIDIAALGRDKQNLRLAEETVAIEVPGLNLFYGDKQALHGVSMNIPKQRVTAFIGPSGCGKSTLLRCFNRMNDLVDGCRVDGEINLDGRNIYRKGEDVAELRRRVGMVFQKPNPFPKSIYENVVYGLRIQGINKKRVLDEAVEWALKGAALWDEVKDRLHESALGLSGGQQQRLVIARTIAVEPEVLLLDEPCSALDPISTLKVEELIYELKSKYTIVIVTHNMQQAARVSDYTAFMYMGKLIEFGDTDTLFTNPAKKQTEDYITGRYG	PGPT0002615_881	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE-PUTATIVE_PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002615-pstB|phoT-K02036	NA	NA
BMS010_04855	723	phoU_1	COG0704	Phosphate-specific transport system accessory protein PhoU	ATGATCGACAAAGACAGCCTTACCCACCATATCTCCCAGCAATTCAACGCCGAGCTGGAGGAAGTGCGCAGCCACCTCCTGGCCATGGGCGGGCTGGTCGAGAAGCAGGTCAACGACGCGGTCACCGCGCTGATCGACGCCGACTCCGGCCTGGCCCAGCAGGTGCGCGAGATCGACGACCAGATCAACCAGATGGAGCGCAACATCGACGAGGAGTGCGTCCGCATCCTCGCCCGTCGCCAGCCGGCGGCCTCCGACCTGCGCCTGATCATCAGCGTGTCGAAGTCGGTGATCGACCTTGAGCGCATCGGCGACGAAGCCTCGAAGATCGCCCGCCGGGCCATCCAGCTCTGCGAGGAAGGCGAGTCGCCGCGCGGCTACGTCGAAGTCCGCCACATCGGCGACCAGGTGCGCAGGATGGTGCAGGAGGCGCTGGACGCCTTCGCCCGCTTCGACGCCGATCTGGCGCTGTCGGTGGCGCAGTACGACAAGACCGTCGATCGCGAATACAAGACCGCCCTGCGCGAACTGGTCACCTACATGATGGAAGATCCGCGCTCGATCTCCCGCGTGCTCAACGTGATCTGGGTGCTGCGTTCGCTGGAACGCATCGGCGATCATGCGCGCAACATCGCCGAACTGGTGATCTACCTGGTGCGCGGCACCGACGTGCGCCACATGGGTCTGGCGCGCATGCAGGAAGAAGTGCAGGGCAAGGAATAA	MIDKDSLTHHISQQFNAELEEVRSHLLAMGGLVEKQVNDAVTALIDADSGLAQQVREIDDQINQMERNIDEECVRILARRQPAASDLRLIISVSKSVIDLERIGDEASKIARRAIQLCEEGESPRGYVEVRHIGDQVRRMVQEALDAFARFDADLALSVAQYDKTVDREYKTALRELVTYMMEDPRSISRVLNVIWVLRSLERIGDHARNIAELVIYLVRGTDVRHMGLARMQEEVQGKE	PGPT0002630_277	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ARSENIC_RESISTANCE	ARSENIC_RESISTANCE-PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002630-phoU|phoY-K02039	NA	NA
BMS010_04856	906	cheB_8		Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGACTAAAGTCCGTGTGCTGGTGGTGGACGACGCATCCTTCATTCGTGATCTGGTGAAGAAGGGGCTGCGCGACCACTTTCCCGGCATCCAGATCGAAGAAGCGATCAATGGGCGCAAGGCCCAGCAGATGCTGTCCCGCCAGCCGGTCGACCTGATCCTCTGCGACTGGGAAATGCCGGAGATGTCCGGCCTGGAATTGCTCGTCTGGTGCCGCGAACAGGCCGAGCTGAAGGGCGTTCCCTTCATCATGGTCACCAGCCGCGGCGACAAGGAGAACGTGGTCCAGGCCATCCAGGCGGGCGTCTCCGATTACATCGGCAAACCCTTCTCCAACGACCAGTTGATCACCAAGGTGAAAAAGGCCCTGCACCGCGCCGGGCGCCTCGAAGCCCTGGCCGCCAGCGCCCCGGCACGCAGCCTCGCCGGCGGTCTGCCGAACGATTCGCTGGCCGCGCTGACCGGCGGCAAGGCCGAGGTGATCAAGCCCACGGCACCGGAACCCGCACCCCGTGCCGCCCCCACCCCCGCCCCGACGGCCTCGGCCAAGCCCGCCGCCCAGGCGCCCGGCGGCCGTGGCCAGGGGCAGCTGCGCCTGCCGGGCGGCAACATGGCCTGCGTGATCAAGGCCCTGAGCCTCAAGGAGGCCCTGGTGGTGGTGCGTCGCGGCGACCCGCTGCCGCAGGTGCTGGAAAGCGCCGTGCTCGACCTGGAGCAGGGTGAAAGCGCCGAAGTGGCGCGCCTGAACGGCTACCTTCATGCCGTCGCCGCGCTGGAACCCAAGCCCGACAGCGAATGGCTGCAACTGACCTTCCGCTTCGTCGACCGCGATCCGCAGAAGCTCGACTACCTGTCCCGCCTGATCGCCCGCGGCACCGCGCAGAAGCACTTCGTACCCGGCGCCTGA	MTKVRVLVVDDASFIRDLVKKGLRDHFPGIQIEEAINGRKAQQMLSRQPVDLILCDWEMPEMSGLELLVWCREQAELKGVPFIMVTSRGDKENVVQAIQAGVSDYIGKPFSNDQLITKVKKALHRAGRLEALAASAPARSLAGGLPNDSLAALTGGKAEVIKPTAPEPAPRAAPTPAPTASAKPAAQAPGGRGQGQLRLPGGNMACVIKALSLKEALVVVRRGDPLPQVLESAVLDLEQGESAEVARLNGYLHAVAALEPKPDSEWLQLTFRFVDRDPQKLDYLSRLIARGTAQKHFVPGA				NA	NA	NA	NA	NA
BMS010_04857	897			hypothetical protein	ATGCTAGGGCGCCTGATTCTTCTCTGCGGTTTGTTGACCGCGACCGCGCCGGTCGCGGCCCTGACCATCTACAAGTACACCGATGCCAACGGCGTGGTCACTTACAGCGACAAAGCCGTGGCAGGGGCGGAGGTGTTCGTCTTCCGCGACCGTATGGTCGAGCGGCTGGACAACCTGGTGAAGCTGGAGACCAAGAAGCACGACGCCGGCGAGACGCTGCTGGTGCGTAACGATCTCTATGCACCGGTGGAAGTCGAGTTGAGCCTCAAAGGCGTGGAGAACGCCCTCGGTGCGCCGGAGAAGCCGATTCGCTGGGTACTGCCGCCGCGCAGCAATATCCGCCTCGCCACCCTGGCGCCCCGCGATGCCGACAAGCCGATGCGCTACACGCCCAAGCTGCGCTACGCCATGGGCGATCCCCGCCTGAAGCCGAGCCTGCACCGTTATCCGCTGCCCTGGCGCGGCGGCCCGTTCCGCCTGACCCAGGGCGCCAACGGCAAGTACAGCCACTTCACCCCGAAGGGCCGCTATGCCATGGACATCGCCATGCCCGAGGGTACGCCCATCGTCGCCGCGCGCAGCGGGATGGTGGTGAAGATCGAGAACGGGCAGAGCGGACGCGGTAACAACCCTTCCGGCAACTACGTGCGCATCCTCCACGACGACGGCACCATGGGCGTCTACCTGCACCTGATGAAAGGTTCGGTCAGCGTCCGCGAAGGCCAACGGGTGGAGGCCGGCAGCTTCATCGCCCGCTCCGGCAATACCGGCAACAGCACTGGGCCGCACCTGCACTTCGTGGTTCAGCGCAACGTCGGCCTGGCCCTGGAGTCGATCCCCTTCCAGTTCGCCCAGCCGGTGGACAGCCTGCCCAACTTCGCAGTTGGCGGCGAATAA	MLGRLILLCGLLTATAPVAALTIYKYTDANGVVTYSDKAVAGAEVFVFRDRMVERLDNLVKLETKKHDAGETLLVRNDLYAPVEVELSLKGVENALGAPEKPIRWVLPPRSNIRLATLAPRDADKPMRYTPKLRYAMGDPRLKPSLHRYPLPWRGGPFRLTQGANGKYSHFTPKGRYAMDIAMPEGTPIVAARSGMVVKIENGQSGRGNNPSGNYVRILHDDGTMGVYLHLMKGSVSVREGQRVEAGSFIARSGNTGNSTGPHLHFVVQRNVGLALESIPFQFAQPVDSLPNFAVGGE				NA	NA	NA	NA	NA
BMS010_04858	1338			hypothetical protein	ATGGACCCTTCCGGTTTTAGCGCCAGCGCTTATTTCGCCGACTTCGGCCTGACTCTCTTCGCCCTCTTCCTCGTTCTGCTCAACGGTTTCTTCGTCGCCGCCGAGTTCGCCATGGTCAAGCTGCGCGGCACCCGCGTGGAGACCATCGCCGACCTGCACGGCTGGCGCGGCAGCCTGCTGCGCCGCGTGCACAGCCAGCTCGACGCCTACCTGTCGGCCTGCCAGTTGGGCATCACCCTCGCCTCCCTCGGCCTCGGCTGGGTCGGCGAGCCGGCCTTCGCCCACCTGCTCGAACCGCTGCTGACTTCCCTCGGCATCGGCTCGCCGGCGCTGATCCACGGCATCGCCTTCTTCAGTGCCTTCTTCATCATTTCCTACCTGCACATCGTGATCGGCGAGCTGGCGCCCAAGTCCTGGGCGATCCGCAAGCCCGAGCTGCTCTCGCTGTGGACGGCCGCGCCGCTGTACGCCTTCTATTGGCTGATGTACCCGGCGATCTGGCTGCTCAACGCCAGCGCCAACGCCATTCTGCGCATCGCCGGCCAGGGCGAGCCCGGCCCGCACCATGAGCATCACTACAGCCGCGACGAACTGAAGCTGATCCTGCACTCCAGCCGCGCCCGCGACCCCAGCGACCAGGACATGCGCGTGCTGGCCTCGGCCGTGGAGCTGGGCGAACTGGAAGTGGTGGACTGGGCCAACTCCCGCGAGGACCTGGTCTACCTCGAACGCAACGCGCCGCTGCACGAAGTGTTCAGCGTGTTCCGCCGGCACAAGTACAGCCGCTACCCGGTGTACGACGAGGAAGCCGGCCAGTTCATCGGCCTGCTGCACATCAAGGACCTTCTGCTGCAACTGTCGCTGCTGGAAATGCTGCCCTCGGCGCTCAAGCTCAGCGACCTGATCCACCCCATCGAGCATGTCTCCAAGCACATGCCGCTGTCGCATCTGCTGGAACAGTTCCGCAAGGGTGGCTCGCACTTCGCCCTGGTCGAGGAAGCCGACGGCAAGGTGATCGGCTACCTGACCATGGAAGATGTGCTGGAAGTGCTGGTCGGCGATATCCAGGACGAACACCGCAAGGCCGAGCGCGGCATCCTCGCCTACCAGCCGGGCCGCCTGCTGGTACGTGGCGACACCCCGCTGTTCAAGGTGGAACGCCTGCTCGGCCTCAACCTCGACCACATCGAAGCGGAAACCCTGGCCGGCCTGGTCTACGAGACCCTCAAGCGCATGCCGGATGAAGAAGAAGTGGTGGAGACCGAAGGCCTGCGCATCGTCATCAAGAAGATGAAAGGCCCGAAGATCGTCCTGGCCAAGGTCCTCAAATTAGCCTAA	MDPSGFSASAYFADFGLTLFALFLVLLNGFFVAAEFAMVKLRGTRVETIADLHGWRGSLLRRVHSQLDAYLSACQLGITLASLGLGWVGEPAFAHLLEPLLTSLGIGSPALIHGIAFFSAFFIISYLHIVIGELAPKSWAIRKPELLSLWTAAPLYAFYWLMYPAIWLLNASANAILRIAGQGEPGPHHEHHYSRDELKLILHSSRARDPSDQDMRVLASAVELGELEVVDWANSREDLVYLERNAPLHEVFSVFRRHKYSRYPVYDEEAGQFIGLLHIKDLLLQLSLLEMLPSALKLSDLIHPIEHVSKHMPLSHLLEQFRKGGSHFALVEEADGKVIGYLTMEDVLEVLVGDIQDEHRKAERGILAYQPGRLLVRGDTPLFKVERLLGLNLDHIEAETLAGLVYETLKRMPDEEEVVETEGLRIVIKKMKGPKIVLAKVLKLA				NA	NA	NA	NA	NA
BMS010_04859	1302	phoR		Phosphate regulon sensor protein PhoR	GTGAATCAAAACTGGCGCGGCGCCGTGGTGCGCCGCCTGCTGCTTCTGTTGGGCGGCTGCCTGCTGCTCGGCCTGATCACGGGGCAATACGCCTGGGCGCTGGTGATCGGCCTCGGCGCCTATCTCGCCTGGACGCTGACGCAGCTCCTGCGTCTGCACAAATGGCTGCAGGAACACAAACCCGACGAGCCGCCGCCGGACGGCTACGGCCTGTGGGGCGAGGTGTTCGATAGCATCTACCACCTGCAACGCCGCGACCAGAAGGTCCGCGGGCGCCTGCAGGCGGTGATCGACCGCGTACAGGAATCCACCGCGGCCCTGCGCGACGCGGTGATCATGCTCGACAGCGACGGCAACCTGGAGTGGTGGAACCGCGCGGCGGAAACCCTGCTCGGGTTGAAGACGCCGCAGGACAGCGGCCAGCCGATCACCAACCTGGTCCGCCATCCGCGCTTCAAGGAATACTTCGAGCAGGGCAACTACCGCGAGCCGCTGGACCTGCCCTCGCCGATCAGCGACCGCCTGCGCCTGCAATTCCTCATCACCCGCTACGGCAACCGCGAGCACCTGATGCTGGTCCGCGACGTCACCCGGCTGTACCAGCTGGAGCAGATGCGCAAGGACTTCGTCGCCAACGTCTCCCATGAGCTGCGCACGCCGCTGACGGTGATCGCCGGCTACCTGGAAACCCTGGTGGACAATGTCGAGGACGTGAACCCGCGCTGGCTGCGCGCGTTGCAGCAGATGCAGCAGCAGGCCGGACGCATGCAGAACCTGCTCAACGACCTGCTCCTGCTGGCCAAGCTGGAGGCCACGGATTATCCGTCGGACAGCCAGCCGGTGGCCGTCGACCTGCTGCTGCTCTCCATCAAGAACGATGCCCAGGCCCTGTCCGGCGAGCGCAACCACCGCATCAGCCTGGAGGCCGACCCGCACCTGCGTCTCAAGGGCAGCGAGGCGGAGCTGCGCAGCGCCTTCTCCAACCTGGTGTTCAATGCGGTGAAGTACACCCCGAGCGAAGGCGAGATCCGCATCCGCTGGTGGGGCGACGACCAGGGCGCGCACCTCGCCGTGCAGGATTCCGGCATCGGCATCGAAGCCAAGCACCTGCCGCGCCTGACCGAGCGCTTCTACCGGGTCGACTCCAGCCGGGCCAGCAACACCGGCGGCACCGGGCTGGGACTTGCCATCGTCAAGCACGTACTGATCCGCCACCGTGCGCGCCTGGACATCAGCAGCACGCTCGGCAAAGGCAGCATCTTCACCTGCCACTTCCCGGCACAACAGGTGGTCAAGCGCTGA	MNQNWRGAVVRRLLLLLGGCLLLGLITGQYAWALVIGLGAYLAWTLTQLLRLHKWLQEHKPDEPPPDGYGLWGEVFDSIYHLQRRDQKVRGRLQAVIDRVQESTAALRDAVIMLDSDGNLEWWNRAAETLLGLKTPQDSGQPITNLVRHPRFKEYFEQGNYREPLDLPSPISDRLRLQFLITRYGNREHLMLVRDVTRLYQLEQMRKDFVANVSHELRTPLTVIAGYLETLVDNVEDVNPRWLRALQQMQQQAGRMQNLLNDLLLLAKLEATDYPSDSQPVAVDLLLLSIKNDAQALSGERNHRISLEADPHLRLKGSEAELRSAFSNLVFNAVKYTPSEGEIRIRWWGDDQGAHLAVQDSGIGIEAKHLPRLTERFYRVDSSRASNTGGTGLGLAIVKHVLIRHRARLDISSTLGKGSIFTCHFPAQQVVKR	PGPT0002705_3004	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002705-phoR-K07636	NA	NA
BMS010_04860	690	phoB_1	COG0745	Phosphate regulon transcriptional regulatory protein PhoB	ATGGTTGGCAAGAACATCCTCATCGTTGACGACGAAGCCCCGATCCGCGAAATGATCGCGGTGGCCCTGGAAATGGCCGGCTACGAGTGCCTGGAAGCGGAGAACACCCAGCAGGCCCACGCCGTGATCGTCGACCGCAAGCCCGATCTGATCCTGCTCGACTGGATGCTGCCCGGCACCTCCGGCATCGAACTGGCGCGCCGCCTGAAGCGCGACGAACTGACCGCCGGCATCCCGATCATCATGCTCACCGCCAAGGGCGAAGAGGACAACAAGATCCAGGGCTTGGAGGTCGGCGCCGACGACTACATCACCAAGCCCTTCTCGCCGCGCGAACTGGTCGCCCGCCTGAAGGCCGTGCTGCGCCGCGCCGGCCCCAGCGATACCGAGGCGCCGATCGAGGTCGGCGGCCTGTTGCTCGACCCCATCAGCCACCGGGTCACCATCGACGGCAAGCCGGCCGAAATGGGGCCCACGGAATACCGCCTGTTGCAGTTTTTCATGACCCACCAGGAACGCGCCTATACCCGCGGTCAGTTGCTCGACCAGGTCTGGGGCGGCAACGTCTACGTCGAGGAGCGCACGGTGGATGTGCACATCCGCCGCCTGCGCAAGGCGCTCGGCGATGCCTACGAGAATCTGGTGCAGACGGTGCGCGGCACCGGCTATCGTTTCTCCACCAAAAGCTGA	MVGKNILIVDDEAPIREMIAVALEMAGYECLEAENTQQAHAVIVDRKPDLILLDWMLPGTSGIELARRLKRDELTAGIPIIMLTAKGEEDNKIQGLEVGADDYITKPFSPRELVARLKAVLRRAGPSDTEAPIEVGGLLLDPISHRVTIDGKPAEMGPTEYRLLQFFMTHQERAYTRGQLLDQVWGGNVYVEERTVDVHIRRLRKALGDAYENLVQTVRGTGYRFSTKS	PGPT0002660_1233	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002660-phoB-K07657	NA	NA
BMS010_04861	891	ubiA_1	COG0382	4-hydroxybenzoate octaprenyltransferase	ATGTACCTGAACCTGCTGCAACAGCTCAATCGCCTGCATCCCCGCGCCTGGGACTTCATCCAACTGACGCGCCTGGACAAGCCGATCGGCATCTACCTGTTGCTGTGGCCGACCCTGTGGGCGTTGTGGGTGGCGGCCGAGGGCATGCCGAGCGCGAAGAACCTGTTCATCTTCGTCTTCGGCGTGATCCTGATGCGCGCCGCCGGCTGCGTGATCAACGACTACGCCGACCGCAACTTCGACGGCCACGTCAACCGCACCAAGGCCCGCCCCCTGGCCAGCGGCAAGGTCCGCCCGCGCGAGGCGCTGATCCTGTTCGCCGTGCTGGTGACACTGAGCTTCGTACTGGTGCTGTTCACCAATGCGGCCACCATCTGGCTGTCGTTCGGCGGCCTGGCCCTGGCCGCGACCTATCCGTTCATGAAGCGCTACACCTTCTATCCGCAGGTGGTGCTGGGTGCGGCCTTTTCCTGGGGCATGCCGATGGCCTTCACCGCCGAGACCGGCAGCCTGCCGGCCGAAGCCTGGCTGCTGTACATCGCCAACCTGCTGTGGACGGTGGCCTACGATACCTACTACGCCATGGCCGACCGCGAGGACGACCTGAAGATCGGGGTGAAGTCCACCGCCATCCTGTTCGGTGAGGCCGACCGCCTGATCATCGCCACCCTCCAGGGCATGGCGCTGTTCTGCCTGTTGCTGGCCGGCAGCCGCTTCGAGCTGGGCATCTGGTTCCATGCCGGCCTGCTGGTCGCCATGGCCTGCTTCGCCTGGGAATACCGCAGCACCCGCGACCGCGATCCGCAGAAGTGCTTCGCCGCCTTCCTGCATAACCACTGGGCCGGGCTGGCGATCTTCGTCGGCCTGGTACTGGACTACGCGCTGCGTTGA	MYLNLLQQLNRLHPRAWDFIQLTRLDKPIGIYLLLWPTLWALWVAAEGMPSAKNLFIFVFGVILMRAAGCVINDYADRNFDGHVNRTKARPLASGKVRPREALILFAVLVTLSFVLVLFTNAATIWLSFGGLALAATYPFMKRYTFYPQVVLGAAFSWGMPMAFTAETGSLPAEAWLLYIANLLWTVAYDTYYAMADREDDLKIGVKSTAILFGEADRLIIATLQGMALFCLLLAGSRFELGIWFHAGLLVAMACFAWEYRSTRDRDPQKCFAAFLHNHWAGLAIFVGLVLDYALR	PGPT0009515_1193	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009515-ubiA-K03179	NA	NA
BMS010_04862	552	ubiC	COG3161	Chorismate pyruvate-lyase	GTGCCTGACGCCGCCCTTGCCCATCCCCCCCGCTGGCTGACCGCCACGCAATTGCATCCCGCACCTTGCGCCGGTGTACGCGACTGGCTGTTCGACCAGGGGTCGCTGACCCGCCGCCTGACCGCCCTGTCTCAAGGCGCCTTCGTCGTCGAGCCGCTGGTGCAGGGCTGGCAGGTGTTGCGTGCCGACGAGTGCGCCGCCCTCGACGTGCCCGCCGGCAGCCAGGGCTGGGTACGCGAGGTCTACCTGCGCGGCCACGGCGACGCCTGGGTATTCGCTCGCAGCGTGGCAGCCCGCAGCGCCCTGGAAGGTTCTGGGCTCGCGCTCGGCGAGCTGGGCAGCCGCTCCCTGGGCGAGCTGCTGTTCAGCGACCGTGCTTTCGTTCGCGGCCCCATCGAAGTCACCCGCTATCCCGCCGTCTGGTTGCCCACCGAGGTTCGCGCGGAACGCCTGTGGGGCCGCCGCTCCTGCTTCCGCCGGGGCGAGCTGGGCGTGCTGGTGGCGGAAGTCTTCCTGCCGGCGCTCTGGCACAAGGCCGAGCTCGACGCCTGA	MPDAALAHPPRWLTATQLHPAPCAGVRDWLFDQGSLTRRLTALSQGAFVVEPLVQGWQVLRADECAALDVPAGSQGWVREVYLRGHGDAWVFARSVAARSALEGSGLALGELGSRSLGELLFSDRAFVRGPIEVTRYPAVWLPTEVRAERLWGRRSCFRRGELGVLVAEVFLPALWHKAELDA	PGPT0009525_594	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009525-ubiC-K03181	NA	NA
BMS010_04863	777	glcC_1	COG2186	Glc operon transcriptional activator	ATGCCCTTGGAAACGACACCGGAACAACGCCGCCAGCTCGCCGATGTGGTGGCCGAGCGCATCGAGCGACTGATCCTCGACGGCGTGCTCAAGGTCGGCCAGGCGCTGCCCTCGGAACGGCGTTTATGCGAGAAGCTGGGCATCTCGCGTTCGGCACTGCGCGAGGGCCTGCGCGTGCTGCGCGGGCGCGGCATCGTCGAGACGGCCCAGGGGCGCGGCTCCTTCGTTGCCCGCCTGACCCAGCCGAGCGACGCCAGCCCCCTGATGCACTTGTTCAGCTCGCAGCCGCGCACCCTCTACGACCTGCTGGAAGTCCGCGCGCTACTGGAGGGTGAATCGGCGCGTCTGGCGGCGTTGCGCGGCACCGACGCGGATTTCATCCTGCTCACCCGCCGCTACGAGGAAATGCTCGCCGCCCACGCCGAGCCGCACAGCCACGATCCGCACGAGCATGCCCGCCTCGACCATGCCTTCCACCTGGCGATCTGCGAGGCTTCGCACAACCCGGTGCTGGTGCATACCCTGCAATCCTTGACCGACCTGATGCTGAGCACGGTGTTCGCCTCGGTGAACAACCTTTACCACCGCCCACCCCGGATGAAGCAGATCGACCGCCAGCATGCGCGCCTCTATCACGCAGTGATCGAACGCCTGCCGGAACAGGCCCAGCGCGCCGCCCGCGAACATATCCACAGCATTCGCGACAACCTCAAGGAGATCGAGCAGGAGGAGCAGCGCCTGGTGCGCGCCACCATGCGGCTGGAAGGTTGGACATAA	MPLETTPEQRRQLADVVAERIERLILDGVLKVGQALPSERRLCEKLGISRSALREGLRVLRGRGIVETAQGRGSFVARLTQPSDASPLMHLFSSQPRTLYDLLEVRALLEGESARLAALRGTDADFILLTRRYEEMLAAHAEPHSHDPHEHARLDHAFHLAICEASHNPVLVHTLQSLTDLMLSTVFASVNNLYHRPPRMKQIDRQHARLYHAVIERLPEQAQRAAREHIHSIRDNLKEIEQEEQRLVRATMRLEGWT				NA	NA	NA	NA	NA
BMS010_04864	1500		COG0277	putative FAD-linked oxidoreductase	ATGAGCATCCTGTACGACGAGCGCGTCGACGGCGCGCTGCCCAAGGTCGACAAGGCGGTGCTGCTTGCCGAACTGCAGCAGCATCTGCCCGACCTGGAAATCCTGCACCGCCGGGAAGACCTCAAGCCCTACGAGTGCGACGGCCTGTCCGCCTACCGCACGACTCCCATGCTGGTGCTGCTGCCGCGTCATGTGGAAGAGGTGGAGGCGATCCTCAAGCTCTGCCACCGGAGCAAGGTCCCGGTGGTTGCCCGTGGCGCCGGCACCGGCCTGTCCGGCGGGGCGCTGCCGCTGGAGCAGGGCGTGCTGCTGGTGATGGCGCGCTTCAACCGGATTTTCGACGTGAACCCGGAGGCCCGCCTGGCGCGGGTCCAGCCCGGCGTGCGCAACCTGGCGATCTCCCAGGCCGCCGCGCCCCATGGTCTTTATTACGCTCCCGACCCGTCCTCGCAGATCGCCTGCTCCATCGGCGGCAACGTGGCGGAGAACGCCGGGGGCGTGCATTGCCTGAAATACGGCCTGACCGTGCACAACCTGCTCAGCGTGGAGATCGTCACCGTCGAGGGCGAGCGCCTGACCCTCGGCTCCGATGCGCTGGACAGCCCCGGCTTCGACCTGCTGGCGCTGTTCACCGGTTCCGAAGGCATGCTCGGCGTGGTCACCGAGGTCACCGTCAAGCTGCTGCCCAAGCCGCAGGTGGCGAAGGTGCTGCTGGCCAGCTTCGACTCGGTGGAGAAAGCCGGCCGCGCGGTGGGCGACATCATCGCCGCCGGCATCATCCCCGGCGGCCTGGAGATGATGGACAACCTGGCGATCCGCGCCGCCGAGGACTTCATCCACGCCGGCTACCCGGTGGAGGCCGAAGCCATCCTGCTCTGCGAGCTGGACGGCGTAGAGGCCGACGTCCACGACGATTGCGAGCGGGTGCGCCAGGTGTTGGAAGCGGCCGGCGCCACCGAGGTGCGGCTGGCCCGCGACGAGGCCGAGCGGGTGCGCTTCTGGGCCGGACGCAAGAACGCCTTCCCGGCAGTGGGGCGCATCTCCCCGGACTACTACTGCATGGACGGCACTATCCCGCGCCGCGAGCTGCCCGGCGTGCTGCGCGGCATCGCCGAGCTGTCCGCCGAGTACGGCCTGCGCGTGGCCAACGTGTTCCACGCCGGCGACGGCAACATGCACCCGCTGATTCTCTTCGATGCCAACCAGCCCGGCGAACTGGAGCGCGCCGAGGCCCTCGGCGGCAAGATCCTCGAACTCTGCGTGAAGGTGGGCGGCAGCATCACCGGCGAGCACGGCGTCGGCCGCGAGAAGATCAACCAGATGTGCGCCCAGTTCAACGCCGACGAGCTGACCACCTTCCATGCAGTGAAGGCGGCTTTCGACGCCACCGGCCTGCTCAACCCCGGCAAGAACATCCCGACCCTGCACCGCTGCGCCGAATTCGGCGCCATGCACGTCCACCACGGCCAGTTGCCGTTCCCCGACCTGGAGCGTTTCTGA	MSILYDERVDGALPKVDKAVLLAELQQHLPDLEILHRREDLKPYECDGLSAYRTTPMLVLLPRHVEEVEAILKLCHRSKVPVVARGAGTGLSGGALPLEQGVLLVMARFNRIFDVNPEARLARVQPGVRNLAISQAAAPHGLYYAPDPSSQIACSIGGNVAENAGGVHCLKYGLTVHNLLSVEIVTVEGERLTLGSDALDSPGFDLLALFTGSEGMLGVVTEVTVKLLPKPQVAKVLLASFDSVEKAGRAVGDIIAAGIIPGGLEMMDNLAIRAAEDFIHAGYPVEAEAILLCELDGVEADVHDDCERVRQVLEAAGATEVRLARDEAERVRFWAGRKNAFPAVGRISPDYYCMDGTIPRRELPGVLRGIAELSAEYGLRVANVFHAGDGNMHPLILFDANQPGELERAEALGGKILELCVKVGGSITGEHGVGREKINQMCAQFNADELTTFHAVKAAFDATGLLNPGKNIPTLHRCAEFGAMHVHHGQLPFPDLERF	PGPT0001890_13	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001890-dld-K00102	NA	NA
BMS010_04865	1053			hypothetical protein	ATGACTGCCCACGACGCCAGCGAAGCCCTGCTGGAACAGGTCAACCGCGCCCTGGCCACGCGCACGCCGCTGCGCATTCGCGGTGGCGACAGCAAGGCCTTCCTCGGCCGCGAGACGGCCGGCGAGACACTCGACCTGCGCGCCCACCGGGGCATCGTCACCTACGACCCCACCGAGTTGGTGGTCACCGTCCGCGCCGGTACGCCCCTGGCCGAGCTGGAAGCGGCGCTGGACGCCCAAGGCCAGTTGCTCGGCTGCGAGCCGCCGCACTTCGGGGACGCCACGGTGGGCGGGATGGTCGCTGCCGGGCTGTCCGGCCCGCGCCGGCCCTGGTACGGCGCAGTGCGCGATTTCGTCCTCGGCACCCGGCTCATCACTGGCCAGGGCAAGCACCTGCGCTTCGGCGGCGAAGTGATGAAGAACGTCGCCGGCTACGACCTGTCGCGGCTGATGGCCGGCAGCTTCGGCTGCCTCGGCGTGATCACCGAAGTCTCCCTCAAGGTGCTGCCCAAGCCGCGCCGCCGCCTGAACCTGCGTCTGGAGCTGGACATCGAGCGCACCCTGCTCAAGCTGGCCGAGTGGGGCCAGCAGCCGATCCCGATCACCGCCGCCAGCCATGACGGCCAGGCACTGCACCTGCGCCTGGAAGGCGGCGAAGGCTCGGTGGCCGCCGCCCGCGAACGCCTGGGCGGCGAGGACCTGGACGACAGCTACTGGCACGACCTGCGCGAGCAGCGCCTGGACTTCTTCCGCGACCCGCGCCCGTTGTGGCGGCTGTCGCTGCCCAACCACACGCCGGCGCTGACGCTGCCCGGTACTCAATTGATCGACTGGGGCGGCGCCCAGCGCTGGCTGAAGTCCGAGGCCGAGGCGGAGGTCATCCGCGCCATCGTCGCCGAGGTCGGCGGCCACGCCAGTTGCTTCACCCCCGGCCGGGCCGCCAGCCCGCTCCACCCCCTTTCGCCGACGCTGCTGCGTTACCACCGCCAGCTCAAGGCACAACTCGACCCGCTGGGAATCTTCAACCCCGGGCGGATGTACGCGGAGGTCTGA	MTAHDASEALLEQVNRALATRTPLRIRGGDSKAFLGRETAGETLDLRAHRGIVTYDPTELVVTVRAGTPLAELEAALDAQGQLLGCEPPHFGDATVGGMVAAGLSGPRRPWYGAVRDFVLGTRLITGQGKHLRFGGEVMKNVAGYDLSRLMAGSFGCLGVITEVSLKVLPKPRRRLNLRLELDIERTLLKLAEWGQQPIPITAASHDGQALHLRLEGGEGSVAAARERLGGEDLDDSYWHDLREQRLDFFRDPRPLWRLSLPNHTPALTLPGTQLIDWGGAQRWLKSEAEAEVIRAIVAEVGGHASCFTPGRAASPLHPLSPTLLRYHRQLKAQLDPLGIFNPGRMYAEV				NA	NA	NA	NA	NA
BMS010_04866	1218	lutA_3		Lactate utilization protein A	ATGCAAACCAACCTGAGTGAACACGCCAAGCGACTGCCGCGCGCCGACGAGGCCGAGCGCATCCTGCGCAGTTGCGTGCATTGCGGCTTCTGCAATGCCACCTGCCCGACCTACCAGCTGCTGGGCGACGAGCTGGACGGCCCGCGCGGGCGCATCTACCTGATCAAGCAGGCGCTGGAAGGCGGCGATATCAGCGAGAGCACCCAGGCGCACCTGGACCGCTGCCTCACCTGCCGCAACTGCGAGACCACCTGCCCCTCTGGCGTGCAGTACCACAACCTGCTGGACATCGGCCGCGCCTATGTCGAGGCGCGTGTGCCCCGGTCGCTGGGCGAACGGGCCCTGCGCGAGGGGCTGCGCCGGATCGTGCCGAATCCGACCCTGTTCACGACGTTGTTACGCACCGGCCAAGCGTTTCGCCCGCTGTTGCCGGAAGCACTCAAGGCCAAGCTGCCGCGTGCGGTGAAGTCGGCGCGGTCGAGGCCGCAGACGGACCATCCGCGCCGCGTGCTGATGCTGGAAGGCTGCGTGCAGCCGGGTCTGTCACCGAACACCAACGCCGCCACCGCCCGCGTGCTCGACCGTCTCGGCATCGCCGTCACGCCGGCACGGGAAGCCGGCTGCTGCGGGGCGGTGGACTATCACCTGAATGCCCAGAACGCCGGCCTCGAACGGGCGCGGCGCAACATCGACGCCTGGTGGCCGGCCATCGAAGCCGGTGCCGAAGCCATCGTGCAGACCGCCAGCGGCTGCGGTGCCTTCGTCAAGGATTACGGCCACCTGCTCGCCGGCGACCCGGCCTATGCGGCCAAGGCGGCGCGGGTCAGCGCCCTGGCCAAGGACCTGGTGGAAGTGTTGCGCGCCGAGCCGTTGGAGCGCCTCGGCGCGCACGGCGACCTGCGCCTGGCCTTCCACTGCCCCTGCACCCTGCAGCATGCCCAGAAGCTGGGCGGTGCGGTGGAGGACGTGCTGCGCCGCCTCGGTTTCCACCTGACCGAGGTGCCCGATGCGCACCTCTGCTGCGGTTCGGCCGGCACCTACTCGATCACCCAGCCCGAGCTGTCGCGGCAGTTGCGCGACAACAAGCTCAACGCCCTGGAAAGCGGCAACCCGGACGTGATCGCCACCGCCAACATCGGCTGCCAGACCCACCTCGACGGCGCGGGCCGGACGCCGGTGCGGCACTGGATCGAGCTGGTGGACGAGGCGATGGGATGA	MQTNLSEHAKRLPRADEAERILRSCVHCGFCNATCPTYQLLGDELDGPRGRIYLIKQALEGGDISESTQAHLDRCLTCRNCETTCPSGVQYHNLLDIGRAYVEARVPRSLGERALREGLRRIVPNPTLFTTLLRTGQAFRPLLPEALKAKLPRAVKSARSRPQTDHPRRVLMLEGCVQPGLSPNTNAATARVLDRLGIAVTPAREAGCCGAVDYHLNAQNAGLERARRNIDAWWPAIEAGAEAIVQTASGCGAFVKDYGHLLAGDPAYAAKAARVSALAKDLVEVLRAEPLERLGAHGDLRLAFHCPCTLQHAQKLGGAVEDVLRRLGFHLTEVPDAHLCCGSAGTYSITQPELSRQLRDNKLNALESGNPDVIATANIGCQTHLDGAGRTPVRHWIELVDEAMG				NA	NA	NA	NA	NA
BMS010_04867	399			hypothetical protein	ATGTACAGCAAAGCCGTCCTGACCCAGCAGGAAGTCAGCCGAATCCTCGCCGCCGCGCGGGCCGAGGCCGAGCGCAACCAGTGGGCCGTGGCCATCGCCGTGGTCGATGACGGCGGCCATCCGCTGGCCCTGGAGCGCCTCGACGGCTGCGCGCCGATCGGTGCCTACATCGCCACCGAGAAGGCACGCACCGCCGCCCTCGGCCGGCGCGAATCGAAAGGCTACGAAGAGATGGTCAACGGCGGGCGCAGCGCCTTTCTCTCCGCGCCGCTGCTGACCTCGCTGGAAGGCGGCGTGCCGATCAGGGTCGACGGCCAGGTGATCGGCGCGGTCGGCGTTTCCGGTGTCAAAGCCGAACAGGACGCCCAGGTGGCGAAAGCGGGAACGGCGGTGCTCTGA	MYSKAVLTQQEVSRILAAARAEAERNQWAVAIAVVDDGGHPLALERLDGCAPIGAYIATEKARTAALGRRESKGYEEMVNGGRSAFLSAPLLTSLEGGVPIRVDGQVIGAVGVSGVKAEQDAQVAKAGTAVL				NA	NA	NA	NA	NA
BMS010_04868	2178	glcB_2	COG2225	Malate synthase G	ATGACCGAACGCTTGCAACGCCACCGCCTGCACATCGCCGCCAACCTGCTGCGCTTCATCGAGGAAGAAGCCCTGCCGGGTTCCGGCCTGGACCCGGAGAACTTCTGGCAGGGCTTCGACGCCCTGGTCCACGACCTGGCGCCGAAGAACCGTCAACTGCTGCTGGAGCGCGACCGCCTGCAGGCCGAGCTGGATACCTGGCATCGCGAACATCCGGGGCCGATCGCCGATATGCCGGCCTATCGTGCCTTCCTCGAATCCATCGGCTACCTGCTGCCAACGCCCGCTTCGGTGCAGGTCAGCACCGCCAACGTCGACCGCGAGATCACCGAACAGGCCGGGCCTCAGTTGGTGGTGCCGGTGATGAACGCGCGCTACGCGTTGAACGCCGCCAACGCCCGCTGGGGCTCGCTGTACGACGCGCTCTATGGCACCGACGCCATCGGCGAAGAGGGCGGTGCGCAGAAAGGGCCAGGCTACAACGAAGTGCGCGGCGCCAAGGTGATCGCCTTCGCCCGTGCCTTCCTCGACCAGGCTGCACCCCTGGTCGACGGCAGCCATGCCGATGCCACGGCTTACACGGTGGTGGACGGACGCCTGCAGGTTGCCCTGAACAACGGCAGCCGCACCGGCCTCGCCCAGCCGGAGAAGTTCGTCGGCCACCAGGGCGATGCCGCCCAGCCCGTGGCCGTGCTGCTGAAGAACAACGGCCTGCACATCGAGATCCAGATCGACCCGGCCAGCCCCATCGGCCGGACCGACGCCGCCGGCGTGAAGGATCTGCTGCTGGAGTCTGCGCTGACCACCATCATGGACTGCGAAGACTCGGTGGCCGCCGTCGATGCCGAGGACAAGGTGCTGGTCTACCGCAACTGGCTGGGCCTGATGCGCGGCGATCTGGTGGAAGAGCTGGACAAGGGCGGCCGGCGCATCACCCGCCGGCTCAACCCGGACCGCACCTACACCGGTGCCGACAGCGCGCCGCTGACTCTGCATGGCCGCTCGCTGCTGTTCGTGCGCAACGTCGGCCACCTGATGACCAACCCGGCGATCCTCGACGGCGACGGCCGGGAAATCCCCGAAGGCATCCTCGATGGCGTGCTGACCAGCCTGATCGCCCTGCATGACCTGCAACGCCGCGGCAACTCGCGCACCGGCAGCGTCTATATCGTCAAGCCGAAGATGCACGGTCCCGCCGAAGTGGCCTTCGCCGACGAACTGTTCGGCCGCGTCGAAGACCTGCTCGGCCTGCCGCGCCACACCCTGAAGATGGGCATCATGGACGAGGAACGGCGCACCAGCGTCAACCTCCAGGCGTGTATTGCCGCCGCTTCGGCGCGGGTGGTGTTCATCAACACCGGTTTCCTCGACCGCACCGGCGACGAGATGCACAGCGCCATGGAAGCCGGTCCGATGCTGCGCAAGGGCGACATGAAGAACAGCGCCTGGATCCAGGCCTACGAGCGCAACAACGTGTTGGTCGGGCTGGCCTGCGGGCTGCGCGGCAAGGCGCAGATCGGCAAGGGCATGTGGGCCATGCCGGACCTGATGGCGGCCATGCTCGAACAGAAGATCGCCCACCCCCGCGCGGGCGCCAACACCGCCTGGGTACCGTCGCCCACCGCCGCCACCCTGCATGCCCTGCATTACCACCAGGTCGATGTGCAGGCGGTCCAGCGCGAGCTGGAGGCCGTCGATCCGGCCGCCGAGCGCGACGCGCTGCTCAAGGGCCTGCTCAGTGTGCCGGTGGTGGCCCAGCGGCACTGGAGCCCGCAGGAAATCCAGGAAGAGCTGGACAACAACTGCCAGGGCATCCTCGGCTATGTGGTGCGCTGGGTCGAACAGGGCGTCGGCTGCTCCAAGGTACCGGACATCCACAACATCGGCCTGATGGAAGACCGCGCCACCCTGCGCATCTCCAGCCAGCACATCGCCAACTGGCTGCACCACGGCGTGGTCAGCGAGGCGGCGGTGCGCGAAACCCTGGAGCGCATGGCCAAAGTGGTCGACCGGCAGAACGAAGGCGACCCGGCCTACCGCCCGATGGCCGCGGACTATGCCGGTTCTGCCGCGTTCCAGGCGGCCTGCGACCTGATCTTCAAGGGCCGCGAACAGCCCAGCGGCTACACCGAGCCGCTGCTGCACCAGTGGCGGCAGCGCTTCAAGGCCCGGGGGTGA	MTERLQRHRLHIAANLLRFIEEEALPGSGLDPENFWQGFDALVHDLAPKNRQLLLERDRLQAELDTWHREHPGPIADMPAYRAFLESIGYLLPTPASVQVSTANVDREITEQAGPQLVVPVMNARYALNAANARWGSLYDALYGTDAIGEEGGAQKGPGYNEVRGAKVIAFARAFLDQAAPLVDGSHADATAYTVVDGRLQVALNNGSRTGLAQPEKFVGHQGDAAQPVAVLLKNNGLHIEIQIDPASPIGRTDAAGVKDLLLESALTTIMDCEDSVAAVDAEDKVLVYRNWLGLMRGDLVEELDKGGRRITRRLNPDRTYTGADSAPLTLHGRSLLFVRNVGHLMTNPAILDGDGREIPEGILDGVLTSLIALHDLQRRGNSRTGSVYIVKPKMHGPAEVAFADELFGRVEDLLGLPRHTLKMGIMDEERRTSVNLQACIAAASARVVFINTGFLDRTGDEMHSAMEAGPMLRKGDMKNSAWIQAYERNNVLVGLACGLRGKAQIGKGMWAMPDLMAAMLEQKIAHPRAGANTAWVPSPTAATLHALHYHQVDVQAVQRELEAVDPAAERDALLKGLLSVPVVAQRHWSPQEIQEELDNNCQGILGYVVRWVEQGVGCSKVPDIHNIGLMEDRATLRISSQHIANWLHHGVVSEAAVRETLERMAKVVDRQNEGDPAYRPMAADYAGSAAFQAACDLIFKGREQPSGYTEPLLHQWRQRFKARG	PGPT0001445_613	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-OXALACETIC_ACID_BIOSYNTHESIS,PGPT0001445-aceB|glcB-K01638	NA	NA
BMS010_04869	1704	lutP_2	COG1620	L-lactate permease	ATGAATCAGACGCTGCTCTCTCTCCTGGCCTTCTCGCCACTGGTGCTGGCCGGCGTGCTGCTGGTCGGCTTCCGCTGGCCGGCCAAGTACGCGATGCCGGTGGTCTTCCTGCTCACCGCGGCCATCGGCCTGTTCGCCTGGGACATGTCGCTGACCCGGGTGATCGCCTCCAGCCTGCAAGGGCTGATCCTCACGGCGGCGATCCTCTGGATCATCTTCGGTGCGATCCTGCTGCTCAACACTCTCAAGCATTCCGGCGGCATCAGTGCGATCCGGCGCGGCTTCTCCGGCATCAGCCCGGACCGCCGGGTGCAGGCGCTGATCGTCGCCTGGTTGTTCGGTTGCTTCATCGAAGGCGCTTCCGGCTTCGGCACTCCGGCGGCGGTGGCCGCGCCGCTGATGGTGGCCCTGGGCTTCCCGGCCCTGGCGGCCGTGGTGGTGGGCATGATGGTGCAGTCCACCCCGGTGTCCTTCGGCGCGGTGGGTACGCCGATCCTGGTGGGCGTCGGCGCCGGTCTGGACAAGACCGGCCTCAGCGCCCAGTTGGCCAGCGTCGGCAGCGACTGGGACACCTTCTTCCAGCTCATCACCTCGCGGGTGGCGATCACCCATGGCCTGTGCGGCATCCTCATGCCGCTGGTGATGGTCATGGTGATGGTGCGCTTCTTCGGCAAGAACCAATCGTGGAAGGAGGGCCTGGCCATCGCGCCTTTCGCGATCTTCACCGGCGTCAGCTTCGTCGTGCCCTACATGGCGGCGGGCGTGTTCCTCGGCCCGGAATTCCCCTCCATGATCGGTGCCCTGGTCGGCCTGGCCATCGTGGTGCCGGCGGCCAAGGCCGGCTTCCTGCTGCCGCGCGAACAGTGGGATTTCGCCGACCCGAAGGACTGGCCGGCGGAGTGGATGGGCAGCATCCAGATGAAGCTCGACGAGGTGGCCGGCAAGGCACCGATTTCCGTGCCCATGGCCTGGGCACCGTACCTCATCCTGGCGCTGCTGCTGGTGATCACCCGCGCTTTCCCCGAGGTCAAGGCGACGCTGATGGCATTCAGCTTCGGCTGGAAGGACATCCTCGGCGAGACCGGTATCTCCGGCACGCTGGAGCCGATCTACCTGCCCGGCGGCATCCTCTGCATCGTCGTGCTGCTGACCTACTTCCTGCATCGCATGCGCTTCGCCGAACTCAGGGCGGCGGTCAGCGAATCCAGCCGCACCCTGCTCGGCGCGGGCTTCGTGCTGATCTTCACCATCCCCATGGTGCGCATCCTGATCAATTCGGGGGTGAACGGCGCCGACCTGGTGTCGATGCCGGTGGCCATGGCCAAGCTGGTGGCGGACAGCGTGGGCGCGGTCTATCCGTTCTTCGCCCCTTCGGTGGGTGCCCTCGGGGCCTTCATCGCCGGCTCCAACACGGTGTCCAACCTGATGCTCGCGCAGTTCCAGTTCAACACCGCGACACTGCTCAGCGTCTCCGGCGCCATGCTGGTAGCGGCCCAATCGGTGGGCGCGGCGGCGGGCAACATGATCGCCATCCACAACGTGGTCGCGGCCTCGGCCACCGTGGGCATGCTCGGTAGGGAGGGGATCACCCTGCGCAAGACCATTCTGCCGACCCTCTACTACCTGATCCTCGCCGGCAGCCTGACCATGCTGGCGCTGTATGGTCTGGGGATCAGCGACCCGTTGGTGGCGGCGAACCCCTGA	MNQTLLSLLAFSPLVLAGVLLVGFRWPAKYAMPVVFLLTAAIGLFAWDMSLTRVIASSLQGLILTAAILWIIFGAILLLNTLKHSGGISAIRRGFSGISPDRRVQALIVAWLFGCFIEGASGFGTPAAVAAPLMVALGFPALAAVVVGMMVQSTPVSFGAVGTPILVGVGAGLDKTGLSAQLASVGSDWDTFFQLITSRVAITHGLCGILMPLVMVMVMVRFFGKNQSWKEGLAIAPFAIFTGVSFVVPYMAAGVFLGPEFPSMIGALVGLAIVVPAAKAGFLLPREQWDFADPKDWPAEWMGSIQMKLDEVAGKAPISVPMAWAPYLILALLLVITRAFPEVKATLMAFSFGWKDILGETGISGTLEPIYLPGGILCIVVLLTYFLHRMRFAELRAAVSESSRTLLGAGFVLIFTIPMVRILINSGVNGADLVSMPVAMAKLVADSVGAVYPFFAPSVGALGAFIAGSNTVSNLMLAQFQFNTATLLSVSGAMLVAAQSVGAAAGNMIAIHNVVAASATVGMLGREGITLRKTILPTLYYLILAGSLTMLALYGLGISDPLVAANP	PGPT0001800_435	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_LACTATE_TRANSPORT,PGPT0001800-lctP-K03303	NA	NA
BMS010_04870	168	rubA1_1	COG1773	Rubredoxin-1	ATGAAGAAGTGGCAATGTGTGGTCTGCGGCCTGATCTACGACGAGAGCCTGGGCTGGCCCGACGAGGGCATCCAGGCCGGAACGCGCTGGGAAGACGTGCCGGAAGAATGGCTGTGCCCGGACTGCGGCGTGGGCAAGGCCGATTTCGAAATGATCGAAATCGCCTGA	MKKWQCVVCGLIYDESLGWPDEGIQAGTRWEDVPEEWLCPDCGVGKADFEMIEIA	PGPT0021900_48	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021900-rubB|alkT-K05297	NA	NA
BMS010_04871	2334			hypothetical protein	ATGTTCACTTACCTGATGCCTACTATTGGGCGTTGGGCCGTTCCCATGCTGGTGTCGTTTTTCTCTGCGAGCGCATTCGCGGAAAACTGTACCGACCAGCCGATGAGCGGCCGACTCTATACCCTCGTCAATGCCGGCAGCGGCCTGGCCATGGACGTGGCCGGCGCTTCCACCGCCAACGGCGCCAATGTCCTCCAGTGGACGCCCAACGGCGGTGCCAACCAGGCGTTCACCTTGCAGGACCTGGGCAATGGCTACTGGTCCATCCGCCCGTCCCACAGCGGTCGTTCGCTGGATGTCTGGGAGTGGTCCACGAAAGACGGCGGCACCATCAAGCAGTGGGACTACCACGGCGGCAACATCCAGCAGTGGCAGTTGAAGCAGACCGACACGGGCAGCTTCGAAATCGTCTCCCGGCACAGCGGCAAGGCCGTCGCCGTGGCGGGCGGGAAGCGCGGTAGCGATGTCTACCAGCAGACCTACACGGGCAGCGCCTATCAGCGCTGGTATATGAATCCCAAGGATGGCGCCTGCGCCTCGACATCTGTGTTGAAGCCGACCGCAAACCTATCGGCCTGTACCCAGGGTGCGGCGGGTACGCAGTGGGGCGGGAGTTGCTCGACAACGGCCCGCCCGCAATGCGTGGAGGGTACCTGGCAAGCTCTGCCCGCGACCCTCGTGAGCAGCGACGACCAGCCGTTGCGCATGGAAAGCGAGCACTTCGCCCTGTACTGGCGTGACGGCACCAACCTGTCCACGGCGGAGGCGCAGACGCTGGTCGGCAAGCTGGAGGGGCTGTGGAAGTCCTATTACGGTGCCCCGATCAACTTCCCCGAGATGCAGTGCAACTCTTCGACGAAGTGGAAAGTCGCGGTGCAGATCGGCAATGACTATCCACTCCGAGGCGGCACCGGGATGAGGATCGGCCCGCTGGCGATAAAAGACGACTGGGGACTGGCACACGAGTTCGCCCACGTCGTGCAGGCTGGTAGCGGAGCCCCCCGGGCCTGCGGCGGAATAGGGTGCTGGATCTTCGAGAGCCACGCCAACTGGATGGCCCATCAACTCTACCCGGACAACGCCCATTGCTCCGAGATGCAGGCCAACATGCCGCACCTCTACTACGGGCATACCCGCACGATGTACTGCAACTGGCAGTTCTTCGAATTCCTGAAGGATAAGTACTGCCCCTCGCTGGTCAACGAGATGTGGACCTACCAAACGCTCGGCGGACTCGACGATCCCTGGCAGAAGCTGATGGCGAGCCAGGGCTGGGACATCGAAGCGCTCAACGACGTGTTCGGCGACTGGGCCCTGCACAACGTCACCTGGGATTACCAGAGCCCGGATGGCTCCAATAAGTCCGCCTTCTTCCAAGAGAAATACGGCCCGATCAATGCCGCTCCGGGTGACTTCACGGAACGCCGGCTACGCCTGACCGAGCTGGAATCCCTGGATGGCGACTGGAAGAACAACCACCGCTTCGTATCCCCTTACCACTGGGCGCCGCAGCGCTGGGGCTATAACGTCATCCGGCTGTACCCGGAAGCGGGAGCCGGCAGCGTCAAGGTGTCCTTCCGAGGCGTGAAGCAGCCGGAAGCCCTGCCGGGCTGGCGCTGGGGCATCGTCGCCACCGACAGCACCCTGCAGCACACCCGCTACAGCGAGCTGCAACGTGGTGCCGACGGCGAGCTGGACTTTTGCTTCCAGGAAGGCGAAGAGCTGTACTTGGTGGTCCTGGCCGCGCCGACCGAATACCAGAAACTGGTATGGAACAACCCGGCCGATGGCCATCCCTATCCGTCCATCTACCGTTATCCCTACATGATCGAGCTGCAAGGCGCTTGGCCCCAGGGCTTTCGCGACGGCGAGCGGGATGCCTGCCCGGAAGGCACCCAGCGCCACGCCAACGGCGGCGGCTGTGCCCTGGCCAGCGTGCCGGACTCCGTCTACGTCGGCCCCTACGCCAAGGTGTTGGGCGGCAACGTCACGGGTAACGCACGCATCGAAGACCATGCCAAGGTCATCGACGGCAACGTCAGCGGCGGCACCGTGGGCGGCCTGAGCCTGATCGGCGTCACCAGCCACCCTGGCCATCAGCGAGCGACCTTCGATGTCAGCGGTGATGCCAAGGTGCAGACGACGTTCTATCCGCTGGGCTGGTTCAACCCCAGCGCCTCCGCCAGTGGCAGCGCCCGCCTGCTGGGTGACATCGAGTTCTGGTCGGCCAACAAGTCCGGCAATACCTTCTACGGGCTGGTGGATGACGACTGGAACGGCGAAGCCTCCGTCGAAGAAGTGACCATCAAGCCGCCATACGCCTGGCGCCCGTAA	MFTYLMPTIGRWAVPMLVSFFSASAFAENCTDQPMSGRLYTLVNAGSGLAMDVAGASTANGANVLQWTPNGGANQAFTLQDLGNGYWSIRPSHSGRSLDVWEWSTKDGGTIKQWDYHGGNIQQWQLKQTDTGSFEIVSRHSGKAVAVAGGKRGSDVYQQTYTGSAYQRWYMNPKDGACASTSVLKPTANLSACTQGAAGTQWGGSCSTTARPQCVEGTWQALPATLVSSDDQPLRMESEHFALYWRDGTNLSTAEAQTLVGKLEGLWKSYYGAPINFPEMQCNSSTKWKVAVQIGNDYPLRGGTGMRIGPLAIKDDWGLAHEFAHVVQAGSGAPRACGGIGCWIFESHANWMAHQLYPDNAHCSEMQANMPHLYYGHTRTMYCNWQFFEFLKDKYCPSLVNEMWTYQTLGGLDDPWQKLMASQGWDIEALNDVFGDWALHNVTWDYQSPDGSNKSAFFQEKYGPINAAPGDFTERRLRLTELESLDGDWKNNHRFVSPYHWAPQRWGYNVIRLYPEAGAGSVKVSFRGVKQPEALPGWRWGIVATDSTLQHTRYSELQRGADGELDFCFQEGEELYLVVLAAPTEYQKLVWNNPADGHPYPSIYRYPYMIELQGAWPQGFRDGERDACPEGTQRHANGGGCALASVPDSVYVGPYAKVLGGNVTGNARIEDHAKVIDGNVSGGTVGGLSLIGVTSHPGHQRATFDVSGDAKVQTTFYPLGWFNPSASASGSARLLGDIEFWSANKSGNTFYGLVDDDWNGEASVEEVTIKPPYAWRP				NA	NA	NA	NA	NA
BMS010_04872	300			hypothetical protein	ATGCAACCCCTCAAACCTCCCCCCTCACCCCTAACAACCACCACCCTCACCCCCTTCCGCCGCTGCAACGACGGCCGTCACTCCCTGTTCGCCGTACAGCCGGGCGTGCCGATCCTGGCGGCACTGGAGCACACCGCCAATCTCCTGGATATCGCGGAATCACTGGCGGAGCAGTCGGCCCACCTCGGCGCGCCGGACAGCCAGCAGCTCGGTCATGCCTGCGGTTATCTGGTCGAGATGGCCAAGGCCACGGTGGAGGCGTGTCTGGAGGGGTTGCAGGCGGGAGATATTCGCACCTGA	MQPLKPPPSPLTTTTLTPFRRCNDGRHSLFAVQPGVPILAALEHTANLLDIAESLAEQSAHLGAPDSQQLGHACGYLVEMAKATVEACLEGLQAGDIRT				NA	NA	NA	NA	NA
BMS010_04874	378			hypothetical protein	ATGCCCCTTCGACAGAGTCAGAACACCCGCCGCGCCATCGCCGAGGCGATCGTCAGCATGGATGAACACTGGGTAGCCCTGTTCGGCGAACTCGGCATCGGCGACTCCTGCTACAGCGACCTGCTGGTCAACATGTGGCTGCGCCGCAGCGAATCCTTGCGCAAGACCGATCTCTACCCCTTCATGCCCGGCATCAGCCGGCGCACCGCCGTGAAATACGTGCAGGAAATGATCGACGCCGGCCTGCTGGACGAGAGCGGCACCGAGGACGACAAACGCGTCCGCCACGTAACCCTCACCCCGATCCTGTCCCGCCGCCTGGAGCGCTACTTCGACCAGGTGTACGCCCTGTTCGAGGCCATCGAACCGACGGATTGA	MPLRQSQNTRRAIAEAIVSMDEHWVALFGELGIGDSCYSDLLVNMWLRRSESLRKTDLYPFMPGISRRTAVKYVQEMIDAGLLDESGTEDDKRVRHVTLTPILSRRLERYFDQVYALFEAIEPTD				NA	NA	NA	NA	NA
BMS010_04875	168	rubA2	COG1773	Rubredoxin-2	ATGCGCAAATGGCAATGCGTGGTGTGCGGCTTCATCTACGACGAGGCCGAAGGCCTGCCGGAAGAGGGCATCGCGCCCGGTACCCGCTGGGAAGACATCCCGCCGGATTGGGTCTGCCCGGATTGCGGGGTGGGCAAGATCGATTTCGAGATGATCGAGATTTCCTGA	MRKWQCVVCGFIYDEAEGLPEEGIAPGTRWEDIPPDWVCPDCGVGKIDFEMIEIS	PGPT0021900_23	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021900-rubB|alkT-K05297	NA	NA
BMS010_04876	1152	alkT	COG1251	Rubredoxin-NAD(+) reductase	ATGCGTGCACCCGTCGTGATCGTCGGTACCGGCCTGGCCGGCTACAACCTGGCCAAGGAGTTCCGCAAGCTGGACAGCGAGACGCCCTTGCTGCTGATCAGCGCCGACGATGGCCGCTCCTACTCCAAGCCGATGCTGTCCACCGGCTTCGGCAAGAACAAGGATGCCGACGGCCTGACCATGGCCGAACCCGGCGCCATGGCCGAGCAGTTGAACGCCGAAATCCGCACCCATACCCGCATCACCGGGATCGATCCGGGGCACAAGCGCGTCTGGATCGGCGAGGAGGCGGTGCCCTACCGCGACCTGGTGCTGGCCTGGGGAGCCGAGACCATCCGCGTTCCAGTGGCCGGCGATGCCCTGGATGCGATCTACCCAATCAACGATCTCGAGGACTACGCCCGGTTCCGCGCCGCGGCCACGGGTAAGCGGCGCGTGCTGTTGCTCGGCGCCGGCCTGATCGGCTGCGAATACGCCAACGACCTCAGCGTCGCCGGTTATCAGGTGGAACTGGTGGCACCCTGCGAGCAGGTGATGCCGGCGCTGTTGCACCCGGCCGCCGCCGCGGCGGTCCAGGCCGGGCTGGAAAGCCTCGGCGCGCGCTTCCACCTCGGTCCGACCCTGGCCAGCCTGAACCGCCTGGACGACGGCAGCCTGGATGCGCACCTGTCCGACGGCACCCGCATCGCCTGCGACCTGGTGCTCTCCGCCGTCGGCCTGCGCCCGCGCATCGAACTGGCGGCGGCCGCCGGCCTGGCGGTCAACCGTGGGGTGATGGTGGACCGTCATCTGCGCACGTCCCACGAGAACATCCATGCCCTTGGCGACTGCGCCGAGGTGGATGGCCTCAACCTGCTCTACGTGATGCCGCTGATGACCTGCGCCCGCGCCCTGGCGCAGACCCTGGCCGGCAACCCGACGGCGGTGAGCTACGGGCCGATGCCGGTAACGGTGAAAACGCCGGTCTGCCCGCTGGTGGTATCGCCGCCGCCACGCGGCATGGAAGGGGAGTGGACGGTGGAGGGCTCCGGCGCCGACCTCAAGGTGCTTTGCCGGGATGCCGAGGGGCGTCTGCTTGGCTATGCGCTGACAGGCACGGCGGTGCAGGAAAAACTGGCGCTGAATAAGGAACTTCCGCCACTGTTGGCGTAA	MRAPVVIVGTGLAGYNLAKEFRKLDSETPLLLISADDGRSYSKPMLSTGFGKNKDADGLTMAEPGAMAEQLNAEIRTHTRITGIDPGHKRVWIGEEAVPYRDLVLAWGAETIRVPVAGDALDAIYPINDLEDYARFRAAATGKRRVLLLGAGLIGCEYANDLSVAGYQVELVAPCEQVMPALLHPAAAAAVQAGLESLGARFHLGPTLASLNRLDDGSLDAHLSDGTRIACDLVLSAVGLRPRIELAAAAGLAVNRGVMVDRHLRTSHENIHALGDCAEVDGLNLLYVMPLMTCARALAQTLAGNPTAVSYGPMPVTVKTPVCPLVVSPPPRGMEGEWTVEGSGADLKVLCRDAEGRLLGYALTGTAVQEKLALNKELPPLLA	PGPT0021900_344	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021900-rubB|alkT-K05297	NA	NA
BMS010_04877	273	hupB_2	COG0776	DNA-binding protein HU-beta	ATGCGTAAACCGGAACTCGCCGCCGCTATCGCCGAGAAGGCCGATTTGACCAAGGATCAAGCCAACCGCGTTCTCAACGCCGTTCTCGAAGAAATCACCAGCGCGCTGAACCGCAAGGACAGCGTGACCCTGGTCGGCTTCGGAACCTTCGTGCAGCGTCATCGTGGCGCCCGCACCGGCAAGAACCCGCAAACCGGTCAGCCGGTCAAGATCAAGGCCAGCAACACCGTGGCTTTCAAGCCGGGGAAGTCGCTGAAAGACGCCGTCAACTGA	MRKPELAAAIAEKADLTKDQANRVLNAVLEEITSALNRKDSVTLVGFGTFVQRHRGARTGKNPQTGQPVKIKASNTVAFKPGKSLKDAVN				NA	NA	NA	NA	NA
BMS010_04878	393			hypothetical protein	ATGAAATTCCGCTTTCTTCTCTGGATGCTGGGCCGCCTGATGGCCAAGGCCAGCCGCGAAAATCCCGATTTCCAGCAGCAACTGGCAGGCAAGGACCTGACGTTCCAGTTGCACACCCTGGACGGGAAGATCGCCCGTCATTTCATCGTCAAGGACCAGCGCATCCAGAGCAAGCGCGGCCCCGCCCGGGAGCCGGCCTTCGCCCTCGGCTTCAAGGATGGCGCCTATGGCTTCGCGACCATGACCGCTAAGAACAAGCAACTGGCCTTCATGCAGGGCATCCAGAACAAAGACATCCAGATCCAGGGCAACCCGGCGCTGGTGATGTGGTTCCAGGGCTTGACCAAGTACCTGGTGCCGAAGAAGAAGCCCATCGAAAAGAAAGCCGCCTGA	MKFRFLLWMLGRLMAKASRENPDFQQQLAGKDLTFQLHTLDGKIARHFIVKDQRIQSKRGPAREPAFALGFKDGAYGFATMTAKNKQLAFMQGIQNKDIQIQGNPALVMWFQGLTKYLVPKKKPIEKKAA				NA	NA	NA	NA	NA
BMS010_04879	783			hypothetical protein	ATGCGTGCTCTCTTTCTGCTCCTGGCCCTGCTGCCTGGTCTGCCCGTTCAAGCGGCCGAATCCACTCCGGCGAAGCCCGATGCTTCGGCCGTTTCACCTTCCCCCGTCGCCCCCCAGGCGCTGGTCCGGTTCCTGGACCTGGCTGGTGTCCGTCTGCTCTGCGAACAGGCCGCGCCACTCCTGCAGAACGGTTTTCCCGCCGAGCAACAGGCCCGGCTCGGCGAGGCGTTCGCCGCCGATACGCTGTGCGGTGATCTGGCGGCCCGGTTGGCGCCGCAGGTGAATGCCGAGCAGCTCCAGGAGGCGGAGCGCCTGCTGGACAGCCCACTGGCCCGACGCTTCACCGAAGTGGAGCGGGCGGTGGGCGAGAGCGGCGCCGAGGGGCTGGCCCAGTACCGGGCGCAATTGGGCGACCGTCCGCCGCGTCCCGAGCGGCTGGCACTGGTCAAACGCCTGGACGCCGCCGCGCGGACCAGCGAACTGGCGGCGCTGCTGCGCTACGAGGTGGGCAAGACCCAGGCATTGCTGGCGCTGTGGGCGCGCAACCAGAACCTGGACGAGGCGGCGCTGGCCAAGCAGACCGCCAGCCAGGCGGAAAAGCTGCGCGAGTCCAGTCGCCAGGGGGTGGAGTCGTACATGCTGTACGCCTACCGCCAGCAGCCCAGCGGCCAGTTGGCTGCCTACGCGGAACTCTACGAGCGGCCGGAAGTGAGCGATCTGCTCGGGGCTTGCGTGGCGTTGCTGCCGGAAGTCTTCGCCGCCCGCCGTGCGGCCTTGAGGTGA	MRALFLLLALLPGLPVQAAESTPAKPDASAVSPSPVAPQALVRFLDLAGVRLLCEQAAPLLQNGFPAEQQARLGEAFAADTLCGDLAARLAPQVNAEQLQEAERLLDSPLARRFTEVERAVGESGAEGLAQYRAQLGDRPPRPERLALVKRLDAAARTSELAALLRYEVGKTQALLALWARNQNLDEAALAKQTASQAEKLRESSRQGVESYMLYAYRQQPSGQLAAYAELYERPEVSDLLGACVALLPEVFAARRAALR				NA	NA	NA	NA	NA
BMS010_04880	1407			hypothetical protein	ATGACCGAAGCCGCCCTCGCTCCCGCCGCCCCGCAACCGCCCACCATGATCCAGCAACTCTTGGAAAAACTCGGCATCCCCTACCAGGTACGCCGCGACCGGGTCGACCTGGCACCGGCACAACGGGCCCAGGCGGTGTTGCTGGAGGACGCGGTCGGCTCGCTGCTGGTGCTCTTCCCGCAGAGCCAACTGCTCGATCTCAACCGTCTCGCCGAACTCACCGGACGCAAGCTCGCCGCGGTCAAGCCGGACCGCCTGGAACGCATGCTCGGCAAGCACAGCCTCTGCGTACTGCCGGCACTGCCGCCGCTGACCGTTTCCCCCTGCCTGTACGACGAGCGCCTGCTGCAGGTGCCCTCGCTGCTGGTCGAGTCGGGCGAAGCCGGCGTGCTGCTGGAAATCGGCATCGACGCCTACCGCAACCTGCTGAGCAAGGCCAGCGCCGCACGGTTCGGCGAACCCTTGGAGAACATCCGGCCGAACCTCGACCGTCCGCACGACGACCGCGCCGAGATCACCCAGGCCGTGCAGGCCTTCACCGCCCGGCGCATCCAGCAGCGCCTGGAAGAAACCATCGAGATTCCGCCGCTGCCGGCCACCGCGCAGAAGATCATCAAGCTGCGCGTCGACCCGGACGCCACCGTCGACGACATCACCGGCGTGGTGGAAACCGACCCGGCCCTGGCCGCCCAGGTGGTGAGCTGGGCCTCGTCACCCTACTACGCCGCACCGGGCAAGATCCGCTCGGTGGAAGACGCCATCGTCCGCGTGCTGGGCTTCGATCTGGTGATCAACCTGGCGCTGGGCCTGGCCCTCGGCAAGACCCTGAGCCTGCCCAAGGACCAGCCGCAGCAGGCCACCCCCTACTGGCAGCAGGCGATCTACACCGCCGCGGTGATCGAGGGCCTGACCCGCGCCATGCCGCGCGCCCAACGCCCGGAAAACGGCCTCGCCTACCTCGCCGGCCTGCTGCACAACTTCGGCTACTTGGTCCTGGCCCACGTCTTCCCGCCACACTTCTCGCTGATCTGCCGCCATCTCGAGGTCAACCCGCACCTCGACCACAGCTATGTGGAACAACACCTGCTGGGCATCACCCGCGAACAGATCGGCGCCTGGCTGATGCGCTACTGGGACATGCCGGAAGAGTTGGTCGCCGCGCTGCGCTTCCAGCACGACTCCGAGCACCAGAGCGAAAACGCCGTCTATCCCAACCTGATCTACCTGGCCGTCAGCCTGCTGCGCGAGCACGACATCGGCGAGGGCCCGAAGCGGCCGCTGCCGCCGGAACTGTTCGAGCGTCTGGGATTGAGTCAGGAAAAGGCCGAAGAGGCCGTGCGCAAGGTACTGGATGCCGAAGTCGCCCTGCGCGAACTGGTGTCGCAGTTCCCCGGCGCCCATGGCTGA	MTEAALAPAAPQPPTMIQQLLEKLGIPYQVRRDRVDLAPAQRAQAVLLEDAVGSLLVLFPQSQLLDLNRLAELTGRKLAAVKPDRLERMLGKHSLCVLPALPPLTVSPCLYDERLLQVPSLLVESGEAGVLLEIGIDAYRNLLSKASAARFGEPLENIRPNLDRPHDDRAEITQAVQAFTARRIQQRLEETIEIPPLPATAQKIIKLRVDPDATVDDITGVVETDPALAAQVVSWASSPYYAAPGKIRSVEDAIVRVLGFDLVINLALGLALGKTLSLPKDQPQQATPYWQQAIYTAAVIEGLTRAMPRAQRPENGLAYLAGLLHNFGYLVLAHVFPPHFSLICRHLEVNPHLDHSYVEQHLLGITREQIGAWLMRYWDMPEELVAALRFQHDSEHQSENAVYPNLIYLAVSLLREHDIGEGPKRPLPPELFERLGLSQEKAEEAVRKVLDAEVALRELVSQFPGAHG				NA	NA	NA	NA	NA
BMS010_04881	2076	recG_1	COG1200	ATP-dependent DNA helicase RecG	ATGACCGAACTGGCGAGAATCCCGGTCACCACCCTGAAAGGGGTGGGCGCGGCACTAGCCGAAAAGCTGGCCAAGGTGGGGTTGGAAACCCTGCAGGACGTGCTCTTCCACCTGCCGCTGCGCTACCAGGACCGCACCCGCATTACCCCCATCGGCGCGCTACGCCCCGGCCAGGATGCCGTGGTCGAGGGCACCATCGCCGGAGCCGATGTGGTCATGGGTCGTCGGCGCAGCCTGCTGGTCCGCCTACAGGACGGCAGTGGCACCCTCAGCCTGCGCTTCTTCCATTTCAGCCAGGCGCAGAAGGAAGGGCTCAAGCGCGGTACCACCCTGCGCTGCTACGGCGAAGTCCGTCCGGGAGCCTCCGGCCTGGAGATCTACCACCCGGAATACCGTGCCCTGGCCGGTGCCGAGCCGCCCCCGGTGGAACAGACCCTGACGCCCATCTACCCGACCACCGAGGGCCTGACCCAGCAGCGCCTGCGCGGCCTCAGCCAGCAGGCCCTGGCGCGTCTCGGACCGCATAGCCTGCCCGACTGGCTGCCCGAGGAACTGGCCCGCGATTACCGCCTCGGCCCGCTCGACGAAGCGATCCGCTACCTGCACCGACCGCCGCCGGACGCCGACTTGGAAGAGCTCGCCGAAGGCCGGCACTGGGCCCAGCACCGCCTGGCTTTCGAAGAACTGCTCACCCATCAGTTGTCCCTGCAACGCCTGCGCGAAGCCGTGCGCGCCCAGGCCGCGCCGACACTGCCGCCGGCGAAGAAGCTGCCGCAACGCTTCCTCGCCAACCTGGGCTTCAAGCCCACCGGCGCGCAGCAGCGGGTCGGCGCCGAGATTGCCTACGACCTCAGCCAGCACGAGCCCATGCTGCGCCTGGTGCAGGGCGACGTCGGCGCAGGCAAGACGGTGGTGGCCGCCCTCGCCGCCTTGCAGGCGCTGGAGGCCGGCTATCAGGTGGCGCTGATGGCGCCAACCGAGATTCTCGCCGAACAGCACTTCCTCAATTTCAGCCGCTGGCTGGAGCCGCTCGGCATCGAAGTCGCCTGGCTGGCCGGCAAGCTCAAGGGCAAGGCCCGCGCGGCCGCACTGGAACAGATCGCCAGCGGCTGCCCGATGGTGGTCGGCACCCACGCACTGTTCCAGGATGAGGTGCAGTTCAAGCGCCTGGCCCTGGTGATCATCGACGAACAGCACCGCTTCGGCGTGCAGCAGCGCCTGGCCCTGCGCCAGAAAGGCGTCGACGGCCGGCTCTGCCCGCACCAACTGATCATGACCGCCACGCCCATCCCGCGGACCCTGGCGATGAGCGCCTACGCCGACCTGGACACCTCGATCCTCGACGAACTGCCGCCCGGCCGTACCCCGGTGAACACCCTGGTGATCGCCGACAGCCGCCGCCTGGAAGTGATAGAGCGCGTCCGCGCCGCCTGCCGCGAAGGCCGCCAGGCCTACTGGGTGTGCACGCTGATCGAAGAATCCGAGGAGCTGACCTGCCAGGCGGCGGAAACTACCTTCGAAGAACTTTCCTCGGCCCTCGGCGAGCTGCGTGTCGGGCTGATCCACGGGCGCATGAAGCCGGCGGAAAAAGCCGCTGTGATGCAGGAATTCAAGGAAGGCCGGCTGCAATTGCTGGTGGCCACCACGGTGATCGAGGTGGGCGTCGACGTGCCCAACGCCAGCCTGATGATCATCGAGAACCCCGAACGGCTCGGCCTGGCCCAATTGCACCAGTTGCGCGGCCGGGTCGGCCGGGGCAGCGCCGCCAGCCATTGCGTACTGCTCTACCACGCCCCGTTGTCGCAACTCGGCCGCGAGCGCCTGGCGATCATGCGCGAGACCTGCGACGGCTTCGTCATCGCCGAGAAAGACCTCGAACTGCGCGGCCCCGGCGAGATGCTCGGCACCCGCCAGACCGGCCTGCTGCAGTTCAAGGTGGCCGACCTGATGCGCGACGCCGACCTGCTGCCGGCGGTACGCGATGCCGCCCAGGCCCTGCTGGCACATTGGCCCCAGCATGTCAGCCCGTTGCTCGAGCGCTGGCTACGGCATGGTCAGCAGTACGGACAAGTGTGA	MTELARIPVTTLKGVGAALAEKLAKVGLETLQDVLFHLPLRYQDRTRITPIGALRPGQDAVVEGTIAGADVVMGRRRSLLVRLQDGSGTLSLRFFHFSQAQKEGLKRGTTLRCYGEVRPGASGLEIYHPEYRALAGAEPPPVEQTLTPIYPTTEGLTQQRLRGLSQQALARLGPHSLPDWLPEELARDYRLGPLDEAIRYLHRPPPDADLEELAEGRHWAQHRLAFEELLTHQLSLQRLREAVRAQAAPTLPPAKKLPQRFLANLGFKPTGAQQRVGAEIAYDLSQHEPMLRLVQGDVGAGKTVVAALAALQALEAGYQVALMAPTEILAEQHFLNFSRWLEPLGIEVAWLAGKLKGKARAAALEQIASGCPMVVGTHALFQDEVQFKRLALVIIDEQHRFGVQQRLALRQKGVDGRLCPHQLIMTATPIPRTLAMSAYADLDTSILDELPPGRTPVNTLVIADSRRLEVIERVRAACREGRQAYWVCTLIEESEELTCQAAETTFEELSSALGELRVGLIHGRMKPAEKAAVMQEFKEGRLQLLVATTVIEVGVDVPNASLMIIENPERLGLAQLHQLRGRVGRGSAASHCVLLYHAPLSQLGRERLAIMRETCDGFVIAEKDLELRGPGEMLGTRQTGLLQFKVADLMRDADLLPAVRDAAQALLAHWPQHVSPLLERWLRHGQQYGQV				NA	NA	NA	NA	NA
BMS010_04882	936	oxyR_1		Hydrogen peroxide-inducible genes activator	ATGACCCTCACCGAACTGCGCTACATCGTCACGCTCGCCCAGGAACAGCACTTCGGCCGCGCCGCCGAGCGCTGCCACGTCAGCCAACCCACGCTCTCGGTCGGCGTGAAGAAACTGGAGGACGAACTCGGCGTGCTGATCTTCGAGCGCAGCAAGAGCGCGGTGCGCCTGACCCCGGTGGGAGAGAACATCGTTACCCAGGCGCAGAAGGTGCTCGAACAGGCCCAGGGCATCCGCGAACTGGCCCAGGCCGGCAAGAACCAGTTGGCCGCCCCGCTGAAGATCGGCGCCATCTACACCGTCGGGCCCTACCTGTTCCCGCACCTGATCCCGCAGTTGCACCGGGTGGCACCGCAGATGCCGCTGTACATCGAGGAAAACTTCACCCATGTGCTGCGCGACAAGCTGCGCACCGGCGAGCTGGACGCCATCATCATCGCGCTGCCCTTCCAGGAAGCGGACGTCCTGACCAAACCGCTCTATGACGAACCCTTCTACGTATTGATGCCCGCCGGCCACCCCTGGACCGGCAAGCACACCATCGACAGCGAGTTGCTCAACGACAAGAGCCTGCTCCTGCTCGGCGAAGGCCACTGCTTCCGCGATCAGGTGCTGGAAGCCTGTCCGACCCTGCACAAGGGCGAGGAAGCCAGCAAGCACACCACGGTGGAGTCCAGCTCGCTGGAAACCATCCGCCACATGGTCGCCTCCGGCCTCGGCGTTTCGGTTCTGCCGTTTTCCGCCGTGGACAGCCACCACTATTCCCCCGGCGTGCTCGAAGTGCGTCCGTTCACCCCGCCAGTGCCCTACCGCACCGTGGCCATCGCTTGGCGCGCCAGCTTCCCGCGGCCCAAGGCCATCGAAATCCTCGCCGACTCGATCCGCCTCTGCTCGGTGGCGCGCCCGCAATTGGTGGAAGAAAAGCAGCCGGCATGA	MTLTELRYIVTLAQEQHFGRAAERCHVSQPTLSVGVKKLEDELGVLIFERSKSAVRLTPVGENIVTQAQKVLEQAQGIRELAQAGKNQLAAPLKIGAIYTVGPYLFPHLIPQLHRVAPQMPLYIEENFTHVLRDKLRTGELDAIIIALPFQEADVLTKPLYDEPFYVLMPAGHPWTGKHTIDSELLNDKSLLLLGEGHCFRDQVLEACPTLHKGEEASKHTTVESSSLETIRHMVASGLGVSVLPFSAVDSHHYSPGVLEVRPFTPPVPYRTVAIAWRASFPRPKAIEILADSIRLCSVARPQLVEEKQPA	PGPT0012965_1012	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0012965-oxyR-K04761	NA	NA
BMS010_04883	864			hypothetical protein	ATGACCCAGGCGCCTACGGTGCTGATCGCCGGCTGCGGCGATGTCGGCAGTCGGCTCGGCGAGGCGTTGGCCGTCGATGGCTGGCGTGTATATGGCGTGCGCCGTAACGTGGCGGCGCTACCGCGATCGATCCTGCCGGTGGCCGGCGATCTACAGGCGCCGCAGTGCCCGCCGGACTGGCCGGAGGGGGCGCTGGATTACCTGGTCTACAGCGCGGCGGCGAGCCAGCACGACGAGGCGGGCTATCGTGCCGCCTATGTCGACGGGCTTCGTCATGTGCTGGCCTGGCTGGCGCAGCGGGGGCAGAGGCCGCGGCGACTGCTGTTCGTCTCCAGCAGCGGGGTCTACGCCCAGCAGGACGGCGAGTGGGTGGACGAGAATTCGCCGGCCGAGGCCGAGGGCTATTCCGGCCGGGTGATGCACGAGGCCGAGCAGATCGCCCTGGCCAGCGGCATTCCGGCGACCGTGGTACGCCTGACCGGCATTTACGGGCCGGGCCGCGAGTGGCTGCTCAATCAGGTGCGCCAGGGCTACCGGGTGGCCAGCGAGCTACCGTTGTTCGCCAACCGTATCCATCGCGACGATGCCGCCGGGCTGCTGGCCTTTCTGTTACGCGCCGATGCCGCCGGCACCGCCCTGGCCGATTGCTACCTGGGGGTTGACGATACCCCGGCACCGTTGCAGGAGGTGGTTGCCTGGCTGCGCAACCGGCTGGGCGTCACCGAGTGGGCCGAGGAGGCCACGGTGGTGCGCCGGGCCGGCAGCAAGCGTTGCAGCAACGCACGGGCCCGCGCCCTGGGCTGGGCGCCGCGCTATCCGAGCTACCGGGAAGGTTATGCGGCGATCCTGGAGAACGCCGGGTGA	MTQAPTVLIAGCGDVGSRLGEALAVDGWRVYGVRRNVAALPRSILPVAGDLQAPQCPPDWPEGALDYLVYSAAASQHDEAGYRAAYVDGLRHVLAWLAQRGQRPRRLLFVSSSGVYAQQDGEWVDENSPAEAEGYSGRVMHEAEQIALASGIPATVVRLTGIYGPGREWLLNQVRQGYRVASELPLFANRIHRDDAAGLLAFLLRADAAGTALADCYLGVDDTPAPLQEVVAWLRNRLGVTEWAEEATVVRRAGSKRCSNARARALGWAPRYPSYREGYAAILENAG				NA	NA	NA	NA	NA
BMS010_04884	807	rhaS_13		HTH-type transcriptional activator RhaS	GTGAGCGCCAACCGCCTGCTGGCGCGGCCCTGGCTACCGGGGGTGGAGTTGTTCCATGCCGATTTTTCCGGGCAGGCGTTCGGTCGCCACAGCCACGATGCGTTTGCCATCGGCGCCATCCTGCACGGTGTGGGCGGCTACCAGTGCCGTGGCGCGCGGCATGCCATCCCGGCCGGCAAGCTGTCACTGATGAATCCCGAGGAGCCGCATACCGGCCATGCCGAGTCGGAACGGCTGGTCTACCGCATGCTTTATATCGAGGAAGCGCGCCTGCCGGTGCTGCTCGGGCGCAAGGTCCTGCCGCGCGGCTTTCGCGAGTTGAACCCGGCGGATGACGGTGCGGTGGCCGCCGGGTTGGCTCGGCTGGCAGCCGAATTCGAAAGGAATGACGCCCTGGCCCTGGAGAGCGAACTGCTGGCGGTGCTGGAGCTGGTTTTCGTACGCCATGGCGGCTTGCGTGCGGCGGGGCCGGCGAGTCGTGACAGCGGCGTTACGGCACGCCTGCGCGACTATCTGGAGACGCACTACACCGAGGCGGTCGGCCTGGAACAACTGGCGGCGCTGGTCCAGCGCCATCCGCGTCATCTGATCGACGCTTTCCGCCGTGCCTACGGTGTGCCGCCGCATACCTACCTGTTGCAGCGGCGGGTCCGCGAGGCCAAGCGCCGCCTGTTGCAGGGCGAGCCACTGCTGGATGTGGCCTTGGCGCTCGGCTTCTACGATCAGGCGCATTTCTCCGGGACCTTCAAGCGTTTCACCGGGGTGACGCCGGGGCATTTCCGGCGCAGCGCGGGCATGCCGGCCTGA	MSANRLLARPWLPGVELFHADFSGQAFGRHSHDAFAIGAILHGVGGYQCRGARHAIPAGKLSLMNPEEPHTGHAESERLVYRMLYIEEARLPVLLGRKVLPRGFRELNPADDGAVAAGLARLAAEFERNDALALESELLAVLELVFVRHGGLRAAGPASRDSGVTARLRDYLETHYTEAVGLEQLAALVQRHPRHLIDAFRRAYGVPPHTYLLQRRVREAKRRLLQGEPLLDVALALGFYDQAHFSGTFKRFTGVTPGHFRRSAGMPA				NA	NA	NA	NA	NA
BMS010_04885	633			hypothetical protein	ATGCTCGCTCTGTTCCTCTTGGTCGCCGGTACCCATTTTGCGGCGCTGCTCTCGCCAGGGCCGGATTTCTTTCTGTTGATCCGGGCGGCGCTGCTGCAAGGCCGGCGCCAGGCCGATGGCTGCGCTGGCGGGATCGCCTTGGCCAATCTGATCAGCATGTCGATGGTCCTGCTCGCCTTGAGCCTGCTGCCGGGAGAAGGCGGCTGGCTGTGGCGGCTCATCCAGGGTATCGGCGGAGGCTATTTCGTCTGGCTCGGTCTCCAGGTCCTGGGCTCTCGCCGCGAGCTGGCGTTGCCGGAGCAGGGCGAGCGGCAGGGTGGGCGCTGGTCCGACGGGCTGGTCCAGGGGTTGTTGGCCAGCAGCCTCAACCCGAAGCTGCCGATCTTCTATGCCGGGCTGTTCGGCGTACTGCGCGAAGCGGCCATGCCGGGTTGGGCCCTGGCCTTGAGCATGGGCTGGATGACGCTGGTGGTGCTGTTCTGGGATATGGCGCTGGTCCGTCTGCTCGACCATGCGCGCTGGCGGACCTGGCTGCGGCGCCGGGTCGGCCTGCTCGACCGGATCTGCGGCGCGCTGCTGCTGGTACTGGGCGGCTGGCTGGCGATTGGAGCCGTTCAGCCGGGCTGGGCGTGA	MLALFLLVAGTHFAALLSPGPDFFLLIRAALLQGRRQADGCAGGIALANLISMSMVLLALSLLPGEGGWLWRLIQGIGGGYFVWLGLQVLGSRRELALPEQGERQGGRWSDGLVQGLLASSLNPKLPIFYAGLFGVLREAAMPGWALALSMGWMTLVVLFWDMALVRLLDHARWRTWLRRRVGLLDRICGALLLVLGGWLAIGAVQPGWA				NA	NA	NA	NA	NA
BMS010_04886	732			hypothetical protein	ATGCGTTACCCCCTCGCCCTGCTCGCCTGCGCCGCGCTGCTCGCTGGCTGCGCCAGCCACCCCCAAGACCCCAGCGGAGTCTGGATCAACCAGGCGGCCATCGATGCCGCGGCCGAAGGCCAGAGTCTCCGCGAAGCCCTGATGGCCTATGGGCCCAACCTCGAATGGCAGATCGACGGGCAACGCGGGATCGCCAGCTACAGCAATGGCTTCGAACTCGGTGAAGGCCAACTGGTACTCGATGACGGCAAGCGCTGGCGCGTGGATTTCTACGGCGACTACCACGAATACCTGCGCTTGAAAGGCGACGAGCTCCTGCAGGAAGGCAGCGAAGTCTGGCCGGAGCAACGCTTTGCCCGTGCCGAATCGCGCGCAGGCGGTACCCCGCCGGGCAGCCGCTTCGAAACGGCGCTGTATGCCGCCTACCTCGGCGGCGACTGGTTGATCCGCGAGGGCCAGGGCAAGGGCGGACTGGTGCGCTTCCATGCGGACGGCCGTCTCGAAGGCCTGCCCGGCGCCGACCGCTATGCACTTTGCCTGGCCGGCGACTGCGCCAGCATGAGCGGCGAGAACGATGCCCTCTGGCTACAGCTCGGCGAGCAGGGCCGGGAATGGCTGTTCAGGCGCGACGGCGACACCCTGGAAATCCTCGAAGCCCGCAACCGCGCCCAGTTCGATGAAATGCCGGACTACCATCCCGGCGCCCGTGCCTGGCTGCTGGAGCGCGACTGA	MRYPLALLACAALLAGCASHPQDPSGVWINQAAIDAAAEGQSLREALMAYGPNLEWQIDGQRGIASYSNGFELGEGQLVLDDGKRWRVDFYGDYHEYLRLKGDELLQEGSEVWPEQRFARAESRAGGTPPGSRFETALYAAYLGGDWLIREGQGKGGLVRFHADGRLEGLPGADRYALCLAGDCASMSGENDALWLQLGEQGREWLFRRDGDTLEILEARNRAQFDEMPDYHPGARAWLLERD				NA	NA	NA	NA	NA
BMS010_04887	381	yabJ_2	COG0251	2-iminobutanoate/2-iminopropanoate deaminase	ATGAGCAAGAGCGTGATCAACAGCGACAAGGCTCCCGCCGCCATCGGCACCTATTCCCAGGCGATCAAGGCCGGCAACACCGTGTACATGTCCGGGCAGATCCCGCTGGACCCGAAGACCATGGAACTGGTGGAGGGCTTCGAAGCCCAGACCGTGCAGGTGTTCGAGAACCTCAAGGCCGTCGCCGAAGCGGCCGGTGGCTCGTTCAAGGACGTGGTCAAGCTGAACATCTTCCTCACCGACCTGTCGCACTTCGCCAAGGTCAATGAAGTCATGGGCCGCTACTTCGAGCAGCCCTACCCGGCTCGCGCCGCTATTGGCGTGGCTGCGCTGCCGCGCGGCGCCCAGGTGGAAATGGACGCCATCCTGGTCATCGAGTAA	MSKSVINSDKAPAAIGTYSQAIKAGNTVYMSGQIPLDPKTMELVEGFEAQTVQVFENLKAVAEAAGGSFKDVVKLNIFLTDLSHFAKVNEVMGRYFEQPYPARAAIGVAALPRGAQVEMDAILVIE	PGPT0020030_3176	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020030-ridA|tdcF-K09022	NA	NA
BMS010_04888	2109	spoT	COG0317	Bifunctional (p)ppGpp synthase/hydrolase SpoT	ATGCCGAGCATAGATACCCTCGCCGAACGGCTGTCGACCTACCTCGGCCCGGACCAGGTCAACCTGGTCCGCCGTGCCTATTTCTATGCCGAGCAGGCCCATGACGGCCAGCGCCGGCGCAGCGGCGAAGCCTACGTCACCCATCCCCTGGCCGTCGCCGGTATCCTCGCCGACATGCACATGGATCATCAGAGCCTGATGGCCGCCATGCTGCATGACGTGATCGAGGACACCGGCATCGCCAAGGAAGCGCTGTCTTCCCAGTTCGGAGAGACGGTGGCGGAACTGGTCGACGGGGTCAGCAAGCTGACCCAGATGAACTTCGAGACCAAGGCCGAAGCCCAGGCGGAAAACTTCCAGAAGATGGCCATGGCCATGGCCCGCGACATCCGCGTGATCCTGGTCAAGCTGGCCGATCGTCTGCACAACATGCGCACCCTGGAAGTGCTGTCCGGCGAGAAACGACGACGCATCGCCAAGGAAACCCTGGAAATCTACGCCCCCATCGCCAACCGGCTGGGCATCCACAGCATGCGCGTGGAGTTCGAAGACCTGGGTTTCAAGGCCATGCACCCGATGCGCTCCGAGCGCATCCGCCAGGCGGTCAAGCGCGCCCGCGGCAACCGCAAGGAAATCGTCAACAAGATCGAAGAGTCGCTCAAGCACTGCCTGGAGCGCGAAGGGCTCGAAGGCGAAGTGATCGGCCGCGAGAAGCACCTCTTCAGCATCTACCAGAAGATGCGCGGCAAGCGACGGGCGTTCAACGAGATCATGGACGTCTACGCCTTCCGCATCATCGTCGACAAAGTCGACACCTGCTACCGCGTGCTCGGCGCGGTGCACAGTCTCTACAAACCACTGCCCGGCCGCTTCAAGGACTACATCGCGATACCCAAGGCGAACGGCTACCAGTCGCTGCATACCACCCTCTTCGGCATGCACGGCGTGCCCATCGAGATCCAGATCCGCACCCGCGAGATGGAAGAAATGGCCAACAACGGCATTGCCGCGCATTGGCTATACAAGTCCAACGAAGACGACTCGCCCAAGGGCACCCATGCCCGCGCGCGGCAGTGGGTCAAGGGTGTGCTGGAGTTGCAGCAGCGCGCGGGCAACTCGCTGGAATTCATCGAGAGCGTGAAGATCGACCTGTTCCCGGACGAGGTCTACGTATTCACGCCCAAGGGCCGCATCATGGAGCTGCCGAAAGGCTCCACCGCGGTCGATTTCGCCTACGCCGTGCATACCGACGTCGGCAACACCTGCATCGCCTGCCGCATCAACCGCCGCCTCGCGCCGCTGTCGCAGCCGCTGGAAAGTGGCGCCACGGTGGAGATCGTGACTGCGCCGGGCGCGCGGCCGAATCCGGCATGGCTGAACTTCGTGGTCACCGGCAAGGCCCGCACCCACATCCGCCACGCCCTCAAGCTGCAACGCCGCTCGGAGTCCATCAGCCTCGGCGAGCGCCTGCTGAACAAGGTGCTGGCCGGTTTCGACAGCCACCTGGACAAGATTCCCGCCGAACGCATCCAGCAAGTGCTGGGCGAGTACCGCCTCGAAGTGCTGGAAGACCTGCTGGAAGACATCGGCCTCGGCAACCGCATGGCCTATGTGGTCGCCCGCCGCCTGCTGGCCAGTGACGGCGAGGAAGCGCCGAGCAGCGAAGGTCCGCTGGCGATCCGCGGTACCGAGGGCCTGGTGCTGAGCTACGCCAAGTGCTGCACACCGATCCCCGGCGACCCCATCGTCGGCCATCTGTCGGCCGGCAAAGGCATGGTGGTGCACCTGGAAAGCTGCAAGAACATCGGCGAAATCCGCCACAACCCGGAGAAGTGCATCCAGCTCTCCTGGGCCAAGGACGTCACCGGCGAATTCAACGTCGAACTGCGGGTCGAGTTGGAACACCAGCGCGGCCTGATCGCCCTGCTCGCCGGCAGCGTCAACGCCGCCGACGGCAACATCGAAAAAATCAGCATGGACGAGCGCGACGGCCGCATCAGCATCGTGCAGATGGTGGTCAGCGTGCATGACCGCGTCCATCTGGCCCGAGTGATCAAGAAACTGCGTGCACTCAAGGGTGTGGTCCGCATCACCCGCGTTCGCGCGTGA	MPSIDTLAERLSTYLGPDQVNLVRRAYFYAEQAHDGQRRRSGEAYVTHPLAVAGILADMHMDHQSLMAAMLHDVIEDTGIAKEALSSQFGETVAELVDGVSKLTQMNFETKAEAQAENFQKMAMAMARDIRVILVKLADRLHNMRTLEVLSGEKRRRIAKETLEIYAPIANRLGIHSMRVEFEDLGFKAMHPMRSERIRQAVKRARGNRKEIVNKIEESLKHCLEREGLEGEVIGREKHLFSIYQKMRGKRRAFNEIMDVYAFRIIVDKVDTCYRVLGAVHSLYKPLPGRFKDYIAIPKANGYQSLHTTLFGMHGVPIEIQIRTREMEEMANNGIAAHWLYKSNEDDSPKGTHARARQWVKGVLELQQRAGNSLEFIESVKIDLFPDEVYVFTPKGRIMELPKGSTAVDFAYAVHTDVGNTCIACRINRRLAPLSQPLESGATVEIVTAPGARPNPAWLNFVVTGKARTHIRHALKLQRRSESISLGERLLNKVLAGFDSHLDKIPAERIQQVLGEYRLEVLEDLLEDIGLGNRMAYVVARRLLASDGEEAPSSEGPLAIRGTEGLVLSYAKCCTPIPGDPIVGHLSAGKGMVVHLESCKNIGEIRHNPEKCIQLSWAKDVTGEFNVELRVELEHQRGLIALLAGSVNAADGNIEKISMDERDGRISIVQMVVSVHDRVHLARVIKKLRALKGVVRITRVRA	PGPT0014310_4292	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014310-spoT-K01139	NA	NA
BMS010_04889	264	rpoZ_2		DNA-directed RNA polymerase subunit omega	ATGGCCCGCGTCACCGTTGAAGACTGCCTGGAAAACGTCGATAACCGCTTCGAGCTGGTCATGCTCGCCACCAAGCGTTCCCGTCAACTCGCCACCGGTGGCAAGGAACCCAAGGTCGCCTGGGAAAACGACAAGCCGACCGTCGTCGCCCTGCGTGAAATCGCCGCCGGCCTGGTCGACTACGACGTGATTGCCCAGGACGACATCGTCGAAGAAGAGCCGATCTTCGCTGCCTTCGAGGACGAGGCCAACGAGGCCCTGTAA	MARVTVEDCLENVDNRFELVMLATKRSRQLATGGKEPKVAWENDKPTVVALREIAAGLVDYDVIAQDDIVEEEPIFAAFEDEANEAL				NA	NA	NA	NA	NA
BMS010_04890	621	gmk_2	COG0194	Guanylate kinase	ATGCCCGCCACCACCGGCACCCTCTACATCGTTTCCGCACCGTCCGGCGCCGGCAAGACCAGCCTGGTCAAGGCCCTGATCGATGCCCTGCCCCAGGTCCGCGTATCGGTATCGCACACCACCCGGGGCATGCGTCCGGGCGAAGTGGACGGGGTGAACTACCACTTCGTCAGCCGTGATTCCTTCGTCGAGATGCTCGATCGCAACGAGTTTCTCGAACACGCCGAAGTCTTCGGCAATCTCTATGGCACCTCCCAGCGCTGGCTGGAGGAGACCCTGGCCGAAGGCTACGACCTGATTCTCGAAATCGACTGGCAGGGCGCCCAGCAGGTCCGCCGGTTGATGCCCCAGGCACGCTCCATCTTCATCCTGCCGCCTACCCAGCAGGCCCTGCGCCAGCGCCTGACCAACCGCGGCCAGGACAGCGACGAGGTGATCGAGCGGCGCATGCGCGAAGCGGTCAACGAGATGAGCCACTACGTCGAGTACGATTACCTGGTGATCAACGACGATTTCGCCACCGCACTGGATGACCTCAAGGCCATCTTCCGCGCCAACCAGTTGCAGCAAGGCTCGCAGCAACAGCGCCACGCCGATCTATTGAGCCAGCTTTTGGCGTGA	MPATTGTLYIVSAPSGAGKTSLVKALIDALPQVRVSVSHTTRGMRPGEVDGVNYHFVSRDSFVEMLDRNEFLEHAEVFGNLYGTSQRWLEETLAEGYDLILEIDWQGAQQVRRLMPQARSIFILPPTQQALRQRLTNRGQDSDEVIERRMREAVNEMSHYVEYDYLVINDDFATALDDLKAIFRANQLQQGSQQQRHADLLSQLLA	PGPT0021475_2757	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021475-gmk-K00942	NA	NA
BMS010_04891	864			hypothetical protein	ATGGTGCACAGCATGACCGCCTTCGCCCGGGCCGAGCGGGCCGGCGCCCACGGCACCCTGAGCTGGGAGCTGCGCTCGGTCAATCACCGTTACCTGGAACCGCTGCTGCGCCTGCCCGAAGCCTTTCGCGATCTCGAAGGCGCGGTGCGCGAGGCGTTGCGCCAGGGCCTGTCGCGCGGCAAGGTGGAATGCACCCTGCGCTTCGCCGAGGAAACCGCGGGCAAACCGCTGCAGGTGAACCGCGAGCGCGCCACCCAACTGATCGCCGCCGCCGAAAGCGTCTCTGCCCTGATCAGCCAGCCGGCTCCGCTCAACCCGCTGGAAGTCCTGGCCTGGCCTGGCGTGCTGGTGGCCGACGCGGCCGATCCGCAGGCGCTCAATGCCGAAGCCCTGGGCGTATTCGCCGAAGCCCTGGCCCAGCTCAAGACCGGCCGCGCCCGCGAAGGCGCCGAGCTGGCCCGCCTTCTGGAAGAGCGCCTGGATAGCATTCTCGACGAAGTGGCCGCCCTGCGTACCCTGGTTCCGCAGATGCTCGCCGCACAGCGGCAAAAGATTCTCGACCGTTTCGCCGAACTGCAGATCGAGCCGGACCCGCAGCGCCTGGAGCAGGAACTGGTCCTGCTGGCCCAGAAGAGCGACGTCGCCGAAGAGCTGGATCGCCTGAGCACTCACGTCAACGAAGTGCGCCGCGTGCTCAAGGCTGGCGGTGCCGCCGGTCGGCGCCTGGACTTCCTGATGCAGGAACTCAACCGCGAAGCCAATACCCTGGGCTCGAAGGCATTCGACCCGCGCAGCACCCAGGCGGCGGTAAACCTTAAGGTGCTGATCGAGCAGATGCGCGAACAGGTGCAAAACATCGAATGA	MVHSMTAFARAERAGAHGTLSWELRSVNHRYLEPLLRLPEAFRDLEGAVREALRQGLSRGKVECTLRFAEETAGKPLQVNRERATQLIAAAESVSALISQPAPLNPLEVLAWPGVLVADAADPQALNAEALGVFAEALAQLKTGRAREGAELARLLEERLDSILDEVAALRTLVPQMLAAQRQKILDRFAELQIEPDPQRLEQELVLLAQKSDVAEELDRLSTHVNEVRRVLKAGGAAGRRLDFLMQELNREANTLGSKAFDPRSTQAAVNLKVLIEQMREQVQNIE				NA	NA	NA	NA	NA
BMS010_04892	723	rph_2	COG0689	Ribonuclease PH	ATGAAGCGTCCCAGTGGCCGCACCGCCGATCAGCTGCGCTCGATCCGCATCAGCCGAAACTACACCAAGCATGCCGAAGGCTCCGTGCTGGTGGAGTTCGGCGATACCAAAGTGATCTGCACGGCCAGCGTCGAATCCGGCGTGCCGCGTTTTCTCAAGGGGCAGGGGCAAGGTTGGCTGACGGCCGAATACGGCATGTTGCCTCGGGCCACCGGCGAGCGGACCCAGCGTGAAGCCAGCCGTGGCAAGCAGGGCGGCCGGACTCTGGAGATCCAGCGTCTGATCGGCCGCTCGCTGCGCGCCGCGCTGGACATGTCCAAGCTCGGCGAGAACACCATCTACATCGACTGCGATGTGATCCAGGCCGACGGTGGCACCCGCACCGCATCCATTACCGGCGCGATGGTGGCGTTGGCCGATGCACTGAAGGTCCTGAAGAAGCGCGGCACCCTGAAAGGCGGCGAGCCGCTGAAACAGATGGTCGCTGCGGTGTCCGTGGGCATCTACCAGGGCGAGCCGATCCTCGATCTGGATTATCTGGAAGATTCCGCGGCCGAGACCGATCTGAACGTGGTGATGACCGACGCGGGCGGTTTCATCGAGGTGCAGGGTACCGCCGAAGGCGCGCCGTTCCAGCCGGAAGAGCTGAACGCCATGCTGGCCCTGGCGCAACAAGGCGTGCGTGAGCTGTTCGAATTGCAACGCGCGGCACTGGCCGACTGA	MKRPSGRTADQLRSIRISRNYTKHAEGSVLVEFGDTKVICTASVESGVPRFLKGQGQGWLTAEYGMLPRATGERTQREASRGKQGGRTLEIQRLIGRSLRAALDMSKLGENTIYIDCDVIQADGGTRTASITGAMVALADALKVLKKRGTLKGGEPLKQMVAAVSVGIYQGEPILDLDYLEDSAAETDLNVVMTDAGGFIEVQGTAEGAPFQPEELNAMLALAQQGVRELFELQRAALAD	PGPT0021590_9	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021590-rdgB-K02428	NA	NA
BMS010_04893	369			hypothetical protein	ATGAACGATGAGCAGGTTCCCGCCCCCATGCCGAGCCAGGAGGCTCGCCAGTGGGCCATGTTCTGCCATTTCGCGGCCTTTCTCGGCCTGGTCTTTCCGTTCGGCAATCTACTAGGTCCGCTGATCGTCTGGCAGATCAAGAAGGACTTCGATCCGTTCGTGGATACGCAGGGCAAGGAGGCGCTGAACTTCCAGATCACCGTCGCCATCGCCGTGGTGGCGTGCTTCCTGCTGATGCTGGTGGTGATCGGCTTCCCGTTGCTGGCGCTGGTAAGCATCGGGGCGCTGGTGCTCACCATCATCGGTGGGATCAAGGCCAATGAAGGACAGGCCTATCGTTACCCCTTCTGCCTGCGCCTGGTGAAATGA	MNDEQVPAPMPSQEARQWAMFCHFAAFLGLVFPFGNLLGPLIVWQIKKDFDPFVDTQGKEALNFQITVAIAVVACFLLMLVVIGFPLLALVSIGALVLTIIGGIKANEGQAYRYPFCLRLVK				NA	NA	NA	NA	NA
BMS010_04894	780	exoA	COG0708	Exodeoxyribonuclease	ATGCGGATCATCAGTGTGAACGTGAATGGTATTCAAGCTGCCGCCGAGCGAGGACTCCTCAGCTGGCTGCAAGCTCAGAATGCCGACGTCATCTGCGTGCAGGATACCCGCGCCTCCGCCTTTGAACTGGACGACCCAGCCTTCCAACTGGATGGCTATTTCCTTTATGCCTGCGATGCCGAAGTGCCCGCCCAAGGCGGCGTGGCGCTCTATTCGCGGTTGCAACCCAAGGCGGTGATCAGCGGTCTCGGCTTTGAAATGGCCGACCGCTACGGACGCTACCTGCAGGCCGATTTCGACAAGGTGAGTATTGCCACCCTGCTCCTGCCCTCCGGGCTGGGCGGTGACGAGAACCTGAACCACAAGTTCAAGTTCATGGACGACTTCACCCATTATTTGGACAAGCAGCGCCGCAAGCGCCGCGAGTACATCTATTGCGGCTCGCTCTACGTTGCCCATCAGAAGCTGGATGTGAAGAACTGGCGCGATTGCCAGCAACTGCCTGGTTTCCTGGCGCCCGAGCGCGCCTGGATGGACGAAGTGGTCGGCAACATGGGGTATGTGGATGCGCTGCGCGAAGTCACCCGCGAGGGCGACCTGTACAGCTGGTGGCCGGACAGCGAACAGGCCGAGATGCTCAATCTCGGCTGGCGCTTCGACTATCAATTGCTCACGCCCGGCCTTCGCCGCTTCGTGCGCAGCGCCCGCCTGCCGCGACAGCCGCGTTTCTCGCAGCACGCTCCGCTGATCGTCGATTACGACTGGATGCTGAGCGTCTGA	MRIISVNVNGIQAAAERGLLSWLQAQNADVICVQDTRASAFELDDPAFQLDGYFLYACDAEVPAQGGVALYSRLQPKAVISGLGFEMADRYGRYLQADFDKVSIATLLLPSGLGGDENLNHKFKFMDDFTHYLDKQRRKRREYIYCGSLYVAHQKLDVKNWRDCQQLPGFLAPERAWMDEVVGNMGYVDALREVTREGDLYSWWPDSEQAEMLNLGWRFDYQLLTPGLRRFVRSARLPRQPRFSQHAPLIVDYDWMLSV				NA	NA	NA	NA	NA
BMS010_04895	642	pyrE_2	COG0461	Orotate phosphoribosyltransferase	ATGCAGGCGTATCAACGCGATTTCATTCGTTTTGCCATCGAGCGCGGCGTATTGCGCTTCGGCGAGTTCACTCTCAAGTCCGGGCGGACCAGCCCTTACTTCTTCAATGCCGGCCTGTTCAACAGCGGGCTCGCCCTGGCCCAGCTGGGGCGCTTCTATGCGGCTGCGGTAGTAGACAGCGGTATCGCGTTCGACGTGCTGTTCGGGCCGGCGTACAAAGGCATTCCCCTGGCGGCGGCGACTGCCGTGGCCCTGGCCGAGCGGCATCAGCTCGACGTGCCCTGGTGCTTCAATCGCAAGGAAGCCAAGGATCATGGCGAAGGTGGCACTTTGGTCGGCGCGCCCTTGAAAGGTCGCGTATTAATTGTCGACGATGTGATCACTGCAGGTACGGCGATCCGCGAAGTGATGCAGATTATCCAGGCGCAAGGCGCCCAGGCCGCCGGAGTGCTGATCGCTCTCAATCGACAGGAGCGCGGACAGGGGGAGCTGTCGGCGATCCAGGAAGTGGAGCGGGATTTCGGCATGCCGGTGGTCAGCATCGTCTCTCTGGAGCAGGTGCTGGAATACCTGGCCGGCGACACCGAGCTCAAGCGGTATCTGCCGGCGGTGGAGGCCTATCGCGCGCAATACGGAATTTGA	MQAYQRDFIRFAIERGVLRFGEFTLKSGRTSPYFFNAGLFNSGLALAQLGRFYAAAVVDSGIAFDVLFGPAYKGIPLAAATAVALAERHQLDVPWCFNRKEAKDHGEGGTLVGAPLKGRVLIVDDVITAGTAIREVMQIIQAQGAQAAGVLIALNRQERGQGELSAIQEVERDFGMPVVSIVSLEQVLEYLAGDTELKRYLPAVEAYRAQYGI	PGPT0021200_1665	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021200-pyrE-K00762	NA	NA
BMS010_04896	594			hypothetical protein	ATGACCAAGGGTGCGATCCGCTTTACCGCGCTGTTGACGCTGTTGCTGCCCTGCTGGGCGAGTGCCGCCGAGCTGTATCGTTATGTCAATGACAAAGGGGTGACCGTGCTGGACCGGCAGGGTGTGCCGCCTCAATACATCGGCAAGGGTTACGAGGTGCTCAACGAGCAGGGCCGTGTGGTCCGGGTTGTGCCGCCTGCGCCGACACCCGAAGAAGTACGGCGCATGCTGAAAGCCAAGGAGCAGGCCAAGTCGGATGCTCAGCTGATGAGACTCTACACCAGCGTGGATGACGTCGACCGCGCCAGGAGCCGCAGGTTGGCGGAGCTGGACGGTCTGATCGGCGTCACCCGGGGCAACCTCCAGTCGCTGCGCACCCAGCAGGACAACCTGCAGCGTCAGGCTGCCGATCACGAGCGGGCTGGCCGCCAGGTTCCGGAAGAGCTGGTCAAGCAGATCGAGAATGTGAAGAGCGACCAGCGGCGTCTGCAGAAGGACGTTGCTCGCTACCAGGCCCTGCGTGAGCAGGCCGAGACCAGTTTCGCCGCGGAGCGTATCCGCGTCGGTGAGTTGCTGGGGGGAAGCGCTCGCTAA	MTKGAIRFTALLTLLLPCWASAAELYRYVNDKGVTVLDRQGVPPQYIGKGYEVLNEQGRVVRVVPPAPTPEEVRRMLKAKEQAKSDAQLMRLYTSVDDVDRARSRRLAELDGLIGVTRGNLQSLRTQQDNLQRQAADHERAGRQVPEELVKQIENVKSDQRRLQKDVARYQALREQAETSFAAERIRVGELLGGSAR				NA	NA	NA	NA	NA
BMS010_04897	906	argB_2	COG0548	Acetylglutamate kinase	ATGACCCTCAGCCGTGACGCCGCCACCCAAGTCGCCAAGGTACTGTCCGAGGCGTTGCCCTATATCCGTCGCTTCGTCGGCAAGACGCTGGTGATCAAGTACGGCGGCAACGCCATGGAGAGCGACGAGCTGAAAACCGGCTTCGCCCGCGACGTGGTGCTGATGAAGGCGGTCGGCATCAACCCGGTGGTGGTACACGGCGGCGGCCCGCAGATCGGCGACCTGCTCAAGCGGTTGTCCATCGAAAGCCACTTCATCGACGGTATGCGCGTCACTGACGCGCAGACCATGGATGTCGTGGAAATGGTGCTCGGCGGCCAGGTGAACAAGGACATCGTCAATCTGATCAACCGCCATGGCGGCAGCGCCATCGGCCTGACCGGCAAGGATGCGGAGCTGATTCGCGCGAAGAAGCTCACCGTGACCCGTCAGACGCCGGAAATGACCCAGCCGGAAATCATCGACATCGGCCATGTCGGCGAGGTAGTCGGGGTCAACACCGAACTGCTGAACATGCTGGTCAAGGGCGACTTCATTCCGGTGATCGCCCCGATCGGCGTCGGCGCCAACGGTGAGTCCTACAACATCAACGCCGACCTGGTGGCCGGCAAGGTGGCCGAGGCGCTCAAGGCCGAGAAGCTGATGCTGCTGACCAACATCGCCGGCCTGATGAACAAGCAGGGCGAAGTGCTGACCGGGCTGTCGACCGAGCAGGTCAACGAGCTCATCGCCGACGGCACCATCTATGGCGGCATGCTGCCGAAGATTCGCTGCGCTCTCGAGGCGGTACAAGGCGGCGTAACCAGCGCGCACATCATCGACGGTCGCGTACCGAATGCCGTGCTGCTGGAAATCTTCACCGACAGCGGCGTCGGTACCTTGATCACCAACCGCAAGCGTCACTGA	MTLSRDAATQVAKVLSEALPYIRRFVGKTLVIKYGGNAMESDELKTGFARDVVLMKAVGINPVVVHGGGPQIGDLLKRLSIESHFIDGMRVTDAQTMDVVEMVLGGQVNKDIVNLINRHGGSAIGLTGKDAELIRAKKLTVTRQTPEMTQPEIIDIGHVGEVVGVNTELLNMLVKGDFIPVIAPIGVGANGESYNINADLVAGKVAEALKAEKLMLLTNIAGLMNKQGEVLTGLSTEQVNELIADGTIYGGMLPKIRCALEAVQGGVTSAHIIDGRVPNAVLLEIFTDSGVGTLITNRKRH	PGPT0014249_1073	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014249-argB-K00930	NA	NA
BMS010_04898	2607	glmM_3		Phosphoglucosamine mutase	GTGAAACTCTTCAAGCGCAGCGCCAAGGACAGCGGGGCGATCGCCGTGCCCAGCGAATCGGACAAATCCACCCGGACCGGCGCGGGCTTGCGCCCCCTGCTGCCCGGCCTGGCCGCCGCCGCTATAGGGCTGCTCGCCGCATCGGCCCTGCTCTGGTTCGGCACGCTCGGCAGTGCCCGCCAGCAGCAGCAGGCCCAGCTCGCCCAGGCCTGGGGCAGCAGCCAGGCCGCCGCTCTGCAACAGACCCTCGACCAGATCGGCGCGGACACCCGTGCCGCCGCGCGCAACCCGGCGCTGCTGCAAGCGCTGCAGAGCCAGGACAGCACCAGAATTCAGGCGGCCGAGCGCAGCCTGGCGTATTGGGACGGCGTCGTCGATGCCTATATCAATCAACGTGGCCAGGCCACGCAGAACACTACCCGCCCCGCCCCGATGAACTTCGCGGCGCTGGACCTGCTGCAACGTGCCGAAAGCGGACAGAATCCCGCGCCGGAAGCCTATAAGGTCGGGCAGCGCTGGCTGCTCTACAGCGCCGCACCGCTGCGCCTGAATGACAACATGCCAACCCAGGGCTCCCTGCTGCTGGTGTTCGACCTGGAGCGGCTGCTGAGCGCCTTGCCGCCCATGCCGGCGGACATCGGCCAACTGCAGCTCACCCAGAAGTTCGGCAACGCTCCGGAGCAGGTCCTGTTGCAACGCGGACAAGGGCAAGGCAGCCCGTTCATTTTCAGCAGCGGCAACCCGAACTGGAAGATGAGCTTGATTCCGGGCCCGGCTCTGAGCCAGGTGGGCGTCTCGCCGGTCATCCTGATCATCGCGGCGTTGATCGCCCTGGCCGGCGCCCTGCTGGGCCTGCAACTGGTCCTGAGCGGACAGCAGAAGCGGTTGCGTGACGACGTTCTCCTTCTTGGGCAGATGGTTCAGGAACTCTCCAGCGGCAAGACCATCAAAACTCCCAGCTTGAGCGTAGCGGCACTTGGCGCCCTGGCTCAGAGCCTGGCCCGCCTGTCCAAGCGCAGGAACGAGCCGGCGATGGCCAACGGCACCAGCCAGAAGACGGCGTCCAGCAAACCCGTCGAGCCCCCGCGACCCGCCAAGCCAAGCAAACCCGCCGAGTTGGTCGATCCGCTATTCCAGGACACTGACATTCTCGACATCGATATTCTCGACGAGGACCAGGACCTCCTTGGCCTCGACACTCTGGAGCGAGATTCCGCCATGAGCACCCAAGCGCCCAAGCTGCCCGCCAGCATCTTCCGTGCATACGACATCCGCGGCGTGGTCGGCGACAGCCTGACCCCGGAAACCGCCTACTGGATCGGCCGCGCCATCGGCTCCGAGAGCCTGGCCAAGGGCGAGCCGAACGTCTCGGTTGGCCGCGACGGCCGTCTGTCCGGCCCCGAGCTGGTGCAACAACTGATCCAGGGCCTGCTCGATTGCGGCTGCAAGGTCAGCGACATCGGCATGGTGCCGACCCCCGTTCTGTACTACGCGGCCAATATCCTGGCCGGCAAGTCCGGCGTGATGCTCACCGGCAGCCACAACCCGCCGGATTACAACGGCTTCAAGATCGTGGTGGCCGGCGATACCCTGGCCAACGAACAGATCCAGGTGCTGCGCCAGCGCATCGAGAACAACGACCTGGCCAGCGGCGTGGGCAGCATCGAGCAGATCGACGTGCTCGACCGCTACTTCAAGCAGATCCGCGACGACATCGCCATGGCCCGTAAGCTCAAGGTGGTGGTGGATTGCGGTAACGGCGTCGCCGGCGTGATTGCGCCGAAACTGATCGAAGCCCTGGGCTGCGAAGTGATCCCGCTGTTCTGCGACGTGGACGGCAACTTCCCCAACCACCACCCGGACCCGGGCAAGCCGGAGAACCTCGAAGACCTGATCGCCAAGGTCAAGGAAACCGGCGCCGACCTCGGCCTGGCCTTCGACGGCGACGGCGACCGCGTCGGCGTGGTGACCAATGCCGGCACCATCATCTATCCCGACCGCCTGCTGATGCTGTTCGCCAAGGACGTCGTATCGCGCAACCCCGGTGCCGACATCATCTTCGACGTCAAGTGCACCCGCCGCCTGACCGGCCTGATCAGTGGCTATGGCGGCCGCCCGGTGATGTGGAAGACCGGCCACTCGTTGATCAAGAAGAAGATGAAGGAAAGCGGCGCCCTGCTCGCCGGCGAGATGAGCGGTCACATCTTCTTCAAGGAGCGCTGGTTCGGCTTCGACGACGGCATCTACAGCGCCGCCCGCCTGCTGGAGATTCTCAGCCAGGACAAGCGCGACGTGGAGCAGGTGTTCGCCGCATTCCCCAGCGACGTGTCCACGCCGGAAATCAACGTCAAGGTGACCGAAGAAAGCAAGTTCACCATCATCGACGCCCTGCAGCGCGATGCCCAGTGGGGCGAGGCCAACCTCACCACCCTGGACGGCGTGCGCGTCGATTATCCCAAGGGCTGGGGCCTGGTCCGCGCCTCCAACACCACGCCGGTGCTGGTCCTGCGCTTCGAGGCCGATAGCGACGACGAACTCAAGCGCATCCAGGACGTCTTCCGCAGTCAGCTCTACAATGTAGCCCCTGACCTCAATCTGCCGTTCTGA	MKLFKRSAKDSGAIAVPSESDKSTRTGAGLRPLLPGLAAAAIGLLAASALLWFGTLGSARQQQQAQLAQAWGSSQAAALQQTLDQIGADTRAAARNPALLQALQSQDSTRIQAAERSLAYWDGVVDAYINQRGQATQNTTRPAPMNFAALDLLQRAESGQNPAPEAYKVGQRWLLYSAAPLRLNDNMPTQGSLLLVFDLERLLSALPPMPADIGQLQLTQKFGNAPEQVLLQRGQGQGSPFIFSSGNPNWKMSLIPGPALSQVGVSPVILIIAALIALAGALLGLQLVLSGQQKRLRDDVLLLGQMVQELSSGKTIKTPSLSVAALGALAQSLARLSKRRNEPAMANGTSQKTASSKPVEPPRPAKPSKPAELVDPLFQDTDILDIDILDEDQDLLGLDTLERDSAMSTQAPKLPASIFRAYDIRGVVGDSLTPETAYWIGRAIGSESLAKGEPNVSVGRDGRLSGPELVQQLIQGLLDCGCKVSDIGMVPTPVLYYAANILAGKSGVMLTGSHNPPDYNGFKIVVAGDTLANEQIQVLRQRIENNDLASGVGSIEQIDVLDRYFKQIRDDIAMARKLKVVVDCGNGVAGVIAPKLIEALGCEVIPLFCDVDGNFPNHHPDPGKPENLEDLIAKVKETGADLGLAFDGDGDRVGVVTNAGTIIYPDRLLMLFAKDVVSRNPGADIIFDVKCTRRLTGLISGYGGRPVMWKTGHSLIKKKMKESGALLAGEMSGHIFFKERWFGFDDGIYSAARLLEILSQDKRDVEQVFAAFPSDVSTPEINVKVTEESKFTIIDALQRDAQWGEANLTTLDGVRVDYPKGWGLVRASNTTPVLVLRFEADSDDELKRIQDVFRSQLYNVAPDLNLPF	PGPT0017725_23	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0017725-pmm_pgm-K15778	NA	NA
BMS010_04899	456	dut_2	COG0756	Deoxyuridine 5'-triphosphate nucleotidohydrolase	ATGCACGCTCTGCAAGCCAAGATTCTGGATTCCCGCCTGGGCAGCGAATTCCCGCTGCCACAGTACGCCACGCCCGGCTCCGCCGGTCTCGACCTGCGCGCCATGCTCAAGCAAGACCTGACCCTGGAGCCGGGCCAGACCGTGCTCATCCCGACCGGATTGTCCATCCATATCGCCGACCCCGGGCTGGCCGCGCTGATCCTGCCACGCTCCGGCCTCGGCCATAAGCACGGCATCGTCCTCGGCAACCTCGTCGGCCTGATCGACTCGGACTACCAGGGCGAGCTCATGGTGTCCTGCTGGAACCGTGGCAACGACGCCTTCACCATCGCCATTGGCGAACGCATCGCCCAGCTCGTGCTGGTACCGGTGGTGCAGGCGCATTTCGAGCTGGTCGACGAGTTCGACGAAAGCCTGCGCGGCGCCGGCGGTTTCGGCCATTCGGGCAAGCAATGA	MHALQAKILDSRLGSEFPLPQYATPGSAGLDLRAMLKQDLTLEPGQTVLIPTGLSIHIADPGLAALILPRSGLGHKHGIVLGNLVGLIDSDYQGELMVSCWNRGNDAFTIAIGERIAQLVLVPVVQAHFELVDEFDESLRGAGGFGHSGKQ	PGPT0021355_2966	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021355-dut-K01520	NA	NA
BMS010_04900	1209	coaBC_2	COG0452	Coenzyme A biosynthesis bifunctional protein CoaBC	ATGCAGCGGCTGTATCGGAAACGCATCGTCCTGGGCGTCGGCGGCGGCATTGCCGCCTACAAGAGCGCAGAACTGGTCCGCCGACTCCGTGACCAGGGCGCGGAAGTCCGCGTGGTGATGACCCAGGGCGGCCGGGAATTCATCACACCGCTGACGCTCCAGGCCCTGTCCGGGCACCCCGTCCACCTGGACCTCCTCGACCCGGCCGCCGAAGCCGCCATGGGTCATATCGAGCTGGCCCGCTGGGCCGACCTGGTGCTGATCGCACCGGCTACCGCCGATCTCATGGCCCGCTTGGCCCAGGGCGTCGCCGACGACCTGCTGACCACCCTGGTGCTGGCCACCGATGCCCTGGTCGCCCTCGCACCCGCTATGAACCAGGCGATGTGGCGCGACCCGGCCACCCAGGCCAACGCCCAACTGCTCGCCGAACGCGGTTTCCGCCTTTTCGGGCCAGCCTCGGGCAGCCAGGCCTGCGGGGACGTCGGCCTGGGCCGCATGCTCGAAGCGGACGACCTGGCGCAGCTTGCCGCCGACTGCTTCGAGCGTAAAGCGCTGAGCGGGCGCCACGTGCTGATTACCGCGGGACCGACCCAGGAAAATATCGATCCTGTGCGCTATATCACCAACCACAGCTCCGGAAAGATGGGCTTCGCCCTGGCCGAAGCCGCCGCCGAAGCCGGCGCCAAGGTCACCCTGATCACCGGGCCGGTGCACCTGCCGACACCGGATCGTGTCGACCGCATCGATGTGGTCAGCGCCCGCGACATGCTGGCCGCCTGCGAAGCCGCCATGCCCTGCGACCTGCTGATCGCCGCCGCCGCCGTGGCCGACTACCGCCCGGAAGTAGTGGCACAGCACAAATTGAAGAAAGACCCCACCAGCGGTGATGGCTTGTTGTTGCAGCTGGTGCGCAACCCGGACATTCTCGCCACGCTGGCCCGACGGTCCGATCGCCCGTTCAGCGTCGGCTTCGCCGCGGAAACCGAGAACCTCCTCGAATACGCCGCCCGCAAGCTGAAGGACAAGAATCTCGACCTGATCGTCGCCAACGACGTCGCCAACCCCTCCATCGGCTTCAACAGCGAGGAGAACGCCGTGAGCGTGATCGACCGCGAGCTGCTGGAAACCCGTTTCGCCCAGACCAGCAAAGGCAAGATCGCCCGGCAGCTGATTACCTTTATCGCCGAACGCCTGAACAAGAACTGA	MQRLYRKRIVLGVGGGIAAYKSAELVRRLRDQGAEVRVVMTQGGREFITPLTLQALSGHPVHLDLLDPAAEAAMGHIELARWADLVLIAPATADLMARLAQGVADDLLTTLVLATDALVALAPAMNQAMWRDPATQANAQLLAERGFRLFGPASGSQACGDVGLGRMLEADDLAQLAADCFERKALSGRHVLITAGPTQENIDPVRYITNHSSGKMGFALAEAAAEAGAKVTLITGPVHLPTPDRVDRIDVVSARDMLAACEAAMPCDLLIAAAAVADYRPEVVAQHKLKKDPTSGDGLLLQLVRNPDILATLARRSDRPFSVGFAAETENLLEYAARKLKDKNLDLIVANDVANPSIGFNSEENAVSVIDRELLETRFAQTSKGKIARQLITFIAERLNKN	PGPT0008815_2739	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0008815-coaBC|dfp-K13038	NA	NA
BMS010_04901	675			hypothetical protein	ATGAGCATTCGCGATTGGCCCGCGGCGGAACGCCCGCGGGAGAAACTGTTGAACCAGGGCGCGGCGGCCCTCACAGACGCCGAACTTCTCGCCATTTTCCTGCGCACCGGTGTCTCCGGGCAGAGCGCCGTGGATCTGGCGCGCCATCTGCTCAACGACTTCGGCGGCCTGCGGCAATTGATGGAGGCGGACTTGAAGACCTTCAGCCGCCACCTCGGCCTGGGGCCGGCCAAGTTCGCCCAGCTACAGGCCGTTCTGGAAATGGCGCGGCGGCATCTGGCGGAGCGCATCCGCCGCGATTCGGCGCTGGAGAGTCCGCAGGCGGTGCGCGATTACCTCAAGGCGCGTCTGCGGCATGAGCATCACGAAGTGTTCGCATGCCTGTTCCTCGATGCCAAGCACCGGGTGCTGGCGTTCGAAGTGCTGTTCCACGGCTCCATCGATGGCGCCTCGGTGTACCCGCGCCAAGTGGTCAAGCGCGCCCTGGCGCACAATGCGGCGGCCTTGATTCTCACGCACAACCATCCTTCCGGCGTCGCCGAGCCCAGCCAGGCCGACCGCCATCTGACGTTGCGCCTGAAAGAGGCGCTGGCCCTGATCGATGTGCGGGTGCTGGATCACTTCATCGTTGGCGACGGGGAGCCGTTGTCCCTGGCCGAATACGGCTGGCTTTAA	MSIRDWPAAERPREKLLNQGAAALTDAELLAIFLRTGVSGQSAVDLARHLLNDFGGLRQLMEADLKTFSRHLGLGPAKFAQLQAVLEMARRHLAERIRRDSALESPQAVRDYLKARLRHEHHEVFACLFLDAKHRVLAFEVLFHGSIDGASVYPRQVVKRALAHNAAALILTHNHPSGVAEPSQADRHLTLRLKEALALIDVRVLDHFIVGDGEPLSLAEYGWL				NA	NA	NA	NA	NA
BMS010_04902	1584	dppA_7	COG0747	Periplasmic dipeptide transport protein	ATGCGACTTGCCGCCCTCGCCCTGCTGCTCGCTCCCCTTTCCTTATATAGCCAGGCCGCCAGCCTTACGGTGTGCACCGAAGCCAGCCCGGAAGGCTTCGACGTGGTCCAGTACAACTCGCTCACCACGACCAATGCCTCCGCCGACGTACTGATGAATCGCTTGGTGGAATTCGATGCCGAGCGCGGTGAACTGGTACCGAGCCTCGCCCAGGAATGGTCGGTTTCCGCCGATGGCCTGGTTTACGACTTCCAGTTGCGCCAGGACGTGAAGTTCCACACGACCGATGCCTTCAGCCCCAGCCGCGAGCTGAATGCCGAAGACGTTCTGTTCAGCTTCCAGCGCATGCTCGATCCACAGCATCCCTGGCACAAGGTCGCCAAGACCGGTTACCCCCACGCCCAGTCGATGCAGTGGCCCACCTTGATCGACAAGATCGAAGCCCCCGATCCGCATCATGTCCGCATCACCCTGCGCCACCCGGATGCCACCTTCCTCGCCACGCTGAGCATGGGTTTCGCTTCTATTTATTCCGCCGAATACGCTACCCAGTTGATGGCCGCCGGAACGCCGGAAAAACTCAACGCCCAGCCGATCGGCAGCGGACCGTTCGTGTTCCGCCGTTTCCAGAAAGATGCCGTGGTCCGCTACCAGGCCAACGACGCCTACTTCGGCGGCAAGCCCCAGGTGGACGACCTGATCTACGCCATCACGCCCGACGCCAACGTGCGCCTGCAGAAGCTGCGGCGCGGCGAATGCCAGGTCGCGCTGTCGCCCAAGCCGCAGGATGTCGCCAGCGCCCGCGGCGATGCCGCCTTGCAGGTCATCGAGACACCGGCCTTCATGACCGCCTTCGTCGCCATCAATACTCAGCATCCACCGCTGGACAAACCAGCGGTGCGCCAGGCAATCAACCTTGCCTTCGACAAGACCAACTACCTCAAGGCGGTCTTCGAAGGCAGCGCCGTTCCAGCGAACGGTCCCTACCCGCCGAATACCTGGAGCTATGCCCGCTCGCTGCCGGGTTATCCACAGGACCAGGCCAAGGCGCGTGCCCTGCTGGCCGAAGCCGGCTTCAAGGATGGCTTCAAGACCACCCTCTGGACGCGTCCCTCGGGCAGCCTGCTCAACCCCAATCCCAGCCTGGGCGCGCAACTGCTGCAGGCGGACCTGGCGAAGATTGGCATCCAGGCGGAGATCCGCGTGATCGAATGGGGCGAGCTGATCCGCCGGGCCAAAGCCGGCGAGCACGATCTGCTGTTCATGGGCTGGGCCGGCGATAACGGCGACCCGGACAACTTCCTCACGCCGCAGTTTTCCTGCGCCTCGGTGGAATCTGGACTCAACTTCGCCCGCTATTGCGACAAGGCGCTGGACAACCTGATCACCGAAGGCAAGCGCCTCAGCAACCAGACCGAGCGTGCCCAACGCTACGAACAGGCCCAGCGAATCATTCAGGAGCAGGCGCTCTGGCTGCCGTTGGCCCACCCCACCGCCAGCGCGCTGCTGCGGGCCGGCGTGAGCGGTTACAAGGTCAACCCGTTCGGCCGGCAGGATTTCTCCACGATCAGCCTGGGTCGCTGA	MRLAALALLLAPLSLYSQAASLTVCTEASPEGFDVVQYNSLTTTNASADVLMNRLVEFDAERGELVPSLAQEWSVSADGLVYDFQLRQDVKFHTTDAFSPSRELNAEDVLFSFQRMLDPQHPWHKVAKTGYPHAQSMQWPTLIDKIEAPDPHHVRITLRHPDATFLATLSMGFASIYSAEYATQLMAAGTPEKLNAQPIGSGPFVFRRFQKDAVVRYQANDAYFGGKPQVDDLIYAITPDANVRLQKLRRGECQVALSPKPQDVASARGDAALQVIETPAFMTAFVAINTQHPPLDKPAVRQAINLAFDKTNYLKAVFEGSAVPANGPYPPNTWSYARSLPGYPQDQAKARALLAEAGFKDGFKTTLWTRPSGSLLNPNPSLGAQLLQADLAKIGIQAEIRVIEWGELIRRAKAGEHDLLFMGWAGDNGDPDNFLTPQFSCASVESGLNFARYCDKALDNLITEGKRLSNQTERAQRYEQAQRIIQEQALWLPLAHPTASALLRAGVSGYKVNPFGRQDFSTISLGR	PGPT0004500_1662	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004500-dppA-K12368	NA	NA
BMS010_04903	237	rpmB_2	COG0227	50S ribosomal protein L28	ATGTCGAGAGTCTGTCAAGTGACCGGTAAGGGTCCGGTTACCGGGAACAACATTTCCCACGCGAACAACAAAACCCGTCGTCGTTTCCTGCCGAACCTGCAGCATCATCGCTTCTGGGTCGAGTCCGAGAAGCGCTTCGTGCGTCTGCGCGTTTCCGCCAAGGGTATGCGCGTGATCGACAAGCGCGGCATCGATGTAGTGCTGGCCGAGCTGCGCGCTCGCGGCGAAAAGGTTTAA	MSRVCQVTGKGPVTGNNISHANNKTRRRFLPNLQHHRFWVESEKRFVRLRVSAKGMRVIDKRGIDVVLAELRARGEKV				NA	NA	NA	NA	NA
BMS010_04904	156	rpmG_1	COG0267	50S ribosomal protein L33	ATGCGTGAACTGATCCGTTTGGTGTCCAGCGCCGGTACCGGCCACTTCTACACCACCGACAAGAACAAGCGCACCACGCCCGACAAGATCGAAATCAAGAAATTCGATCCGGTCGTGCGCAAGCACGTGATGTACAAGGAAGCCAAGATCAAGTAA	MRELIRLVSSAGTGHFYTTDKNKRTTPDKIEIKKFDPVVRKHVMYKEAKIK				NA	NA	NA	NA	NA
BMS010_04905	366			hypothetical protein	ATGAGCATCGACACTCTGATCGACCTCGCCCAGGCCACGACGGCCGCCGAGCACTACCGCCCCGCCGCGGAAAAAATCCTCGCCGGCGATCCCGCGCAAAGCGTGCGCAACCATTACGCCAGCCCTTGCGGCCAGTTCAACGTCGGAATCTGGGAAGGGGCAGTCGGCCGCTGGACAGTCGCCTACACCGAGCACGAGTACTGTGAAATCCTCCAGGGCGTTTCGGTGATACGCGACGCCACGGGTGCCGCCAAAACCGTACGCGCCGGTGATCGCTTCGTAATCCCGGCCGGCTTCAGCGGTACCTGGGAGGTGCTGGAACCCTGCCGCAAGGTCTATGTGATCTTCGAGCAGAAGCCGGACTGA	MSIDTLIDLAQATTAAEHYRPAAEKILAGDPAQSVRNHYASPCGQFNVGIWEGAVGRWTVAYTEHEYCEILQGVSVIRDATGAAKTVRAGDRFVIPAGFSGTWEVLEPCRKVYVIFEQKPD				NA	NA	NA	NA	NA
BMS010_04906	1314	bauA_3	COG0161	Beta-alanine--pyruvate aminotransferase	ATGAACAGAAAAAACCACAACCTCGACGATTTCTGGATGCCCTTCACCGCCAATCGCCAGTTCAAGGCCAGACCGCGCCTGCTGGAGAGTGCCGAGGGCATGTACTTCACCGCTAGCGATGGCCGGCAAATCCTGGACGGCACCGCCGGCCTCTGGTGCTGCAATGCCGGCCATGGTCGCCGGGAAATCAGCGAGGCGGTCAGCCGGCAGGTCGCCCGGCTGGATTTCGCTCCCACGTTCCAGATGGGTCACCCGCTCCCCTTCGAGCTGGCCGAGCGGCTCGCCGAGATCGCACCGGAAGGCCTGAACAAACTGTTCTTCACCAACTCCGGTTCGGAATCCGCGGATACCGCGCTGAAGATCGCCCTCGCCTACCAGCGCGCCATCGGCCAGGGTACCCGTACCCGCCTGATCGGCCGCGAGCTGGGCTATCACGGTGTCGGCTTCGGCGGGCTGTCGGTCGGCGGCATGGTCAACAACCGCCGTGCCTTCCCGCTGCAACTTCCCGGTGTGGATCACCTGCCGCATACCCTGGATATCCCGCGCAATGCCTTCAGCCGGGGCCTGCCGGAATTCGGCGTGGAAAAGGCCGACGAGCTAGAGCGACTGGTCACTCTGCATGGCGCCGAGAACATCGCAGCGGTCATCGTCGAGCCGATGGCCGGGTCGGCCGGGGTCATCCTGCCGCCGAAGGGCTACCTGCAGCGGCTGCGGGAGATCACCGCCAAGCACGGCATCCTGCTGATCTTCGATGAAGTGATCACCGGTTTCGGCCGGGTCGGCGAGGCTTTCGCCGCGCAACGCTGGGGCGTGACGCCGGACATTCTCACCTGCGCCAAGGGCCTGACCAATGGCGCCATTCCCATGGGTGCGGTGTTCGTCGACGAGCGCATCCACGATGCCTTCATGCAAGGGCCGGACGGTATCGAGTTCTTCCATGGCTACACCTACAGTGGCCATCCGGTAGCGTGCGCCGCCGCCCTGGCAACCCTGGACATCTATCAACGCGATGGTCTGTTCCGCCAGGCGCTCGACCTGGAATCGTACTGGAGCGATGCGCTGCACAGCCTCAAGGGCCTGCCCAACGTCATCGACATCCGCGCCGTCGGGCTGGTCGGCGGCGTGCAACTCGCGCCCAGCGACAAGGGCATCGGCAAGCGCGGCTACCAAGTCTTCGAAGACTGCTTCTGGAATGACCTGATGGTGCGCGTGACCGGCGATACCCTGGCCATGTCGCCACCCTTGATCGTCGAGGAGGTACAGATCGACAGCATGGTCGAAAAACTCGCCGACGCCATTCGCAAGGCTGCCTGA	MNRKNHNLDDFWMPFTANRQFKARPRLLESAEGMYFTASDGRQILDGTAGLWCCNAGHGRREISEAVSRQVARLDFAPTFQMGHPLPFELAERLAEIAPEGLNKLFFTNSGSESADTALKIALAYQRAIGQGTRTRLIGRELGYHGVGFGGLSVGGMVNNRRAFPLQLPGVDHLPHTLDIPRNAFSRGLPEFGVEKADELERLVTLHGAENIAAVIVEPMAGSAGVILPPKGYLQRLREITAKHGILLIFDEVITGFGRVGEAFAAQRWGVTPDILTCAKGLTNGAIPMGAVFVDERIHDAFMQGPDGIEFFHGYTYSGHPVACAAALATLDIYQRDGLFRQALDLESYWSDALHSLKGLPNVIDIRAVGLVGGVQLAPSDKGIGKRGYQVFEDCFWNDLMVRVTGDTLAMSPPLIVEEVQIDSMVEKLADAIRKAA	PGPT0007865_472	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007865-spuC-K12256	NA	NA
BMS010_04907	1494	puuC_2	COG1012	NADP/NAD-dependent aldehyde dehydrogenase PuuC	ATGACTACCCTGACCCGCGCCGACTGGGAACAGCGTGCCCAGAGCCTGGCGATCGAAGGCCGCGCCTTCATTCATGGCGAATACACGGGCGCCGCTTCCGGCGAGACGTTCGAGTGCATCAGCCCGGTCGACGGTCGTCTGCTCGGTCGTGTGGCGAGCTGCGATGCGGCCGATGCCGACCGCGCGGTGAGCGATGCGCGAGCCGTCTTCGAGTCCGGCGTGTGGTCGCGCCTGGCGCCGGTCAAGCGCAAGGAGACGATGATCCGCTTCGCCGACCTGCTGGATGCCCATGCCGAGGAGCTGGCCCTGCTGGAAACCCTGGACATGGGCAAGCCGATCGGCGATTCGCTGAATATCGACGTGCCCGCCGCATCCCGTGCCATTCGCTGGAGCGGCGAGGCGATCGACAAGATCTACGACGAAGTGGCCGCTACCCCGCACAACGAGCTGGGCCTGGTGACCCGTGAGCCGGTGGGCGTGGTCGCTGCCATCGTGCCGTGGAACTTCCCCCTGCTGATGGCCTGCTGGAAACTCGGCCCGGCACTGGCCACCGGCAACTCGGTGGTGCTCAAGCCGTCCGAGAAGTCGCCGCTGACCGCCATCCGCATCGCCCAATTGGCCATCGAGGCCGGCATCCCCGCTGGTGTGCTCAATGTGCTGCCGGGCTATGGCCATACCGTGGGTAAGGCGCTGGCGCTGCACATGGATGTCGATACCCTGGTCTTCACCGGTTCGACCCGGATCGCCAAGCAGCTGATGATCTACGCCGGCGAATCGAACATGAAGCGGGTCTGGCTCGAGGCCGGTGGCAAGAGCCCGAACATCGTCTTCGCCGATGCGCCCGATCTCCAGGCGGCCGCCGAAGCCGCGGCCGGTGCCATTGCCTTCAACCAGGGCGAAGTCTGCACGGCCGGTTCGCGCCTGCTGGTGGAGCGTTCGATCAAGGATCGTTTCGTGCCCATGGTGGTCGAGGCCCTGAAGGCCTGGAAGCCGGGCAATCCGCTGGACCCGGCCACTAATGTCGGCGCGCTGGTGGATACCCAGCAGTTGAACACCGTGCTCGGCTACATCGAAGCCGGCCATGCCGAAGGCGCCAAGCTGATGGCGGGTGGCAAGCGCACCCTCGAGGAAACCGGTGGCGTCTATGTCGAGCCGACCCTGTTCGACGGCGTGAGCAACGCGATGAGGATCGCCCGCGAGGAAATCTTCGGCCCGGTGTTGTCGGTGATCGCCTTCGACTCCGTCGAAGAGGCCGTGCAGATCGCCAACGATACGCCCTATGGCTTGGCCGCGGCCGTCTGGACCAGCAACCTGTCCAAGGCTCACCTCGCCGCCAAGGCGTTGCGCGCCGGCAGCGTATGGGTGAACCAGTACGACGGCGGCGACATGACCGCGCCGTTCGGTGGCTTCAAGCAGTCGGGCAATGGCCGCGACAAGTCGCTGCACGCGTTCGACAAGTACACCGAACTGAAAGCCACCTGGATCAAGCTGTAA	MTTLTRADWEQRAQSLAIEGRAFIHGEYTGAASGETFECISPVDGRLLGRVASCDAADADRAVSDARAVFESGVWSRLAPVKRKETMIRFADLLDAHAEELALLETLDMGKPIGDSLNIDVPAASRAIRWSGEAIDKIYDEVAATPHNELGLVTREPVGVVAAIVPWNFPLLMACWKLGPALATGNSVVLKPSEKSPLTAIRIAQLAIEAGIPAGVLNVLPGYGHTVGKALALHMDVDTLVFTGSTRIAKQLMIYAGESNMKRVWLEAGGKSPNIVFADAPDLQAAAEAAAGAIAFNQGEVCTAGSRLLVERSIKDRFVPMVVEALKAWKPGNPLDPATNVGALVDTQQLNTVLGYIEAGHAEGAKLMAGGKRTLEETGGVYVEPTLFDGVSNAMRIAREEIFGPVLSVIAFDSVEEAVQIANDTPYGLAAAVWTSNLSKAHLAAKALRAGSVWVNQYDGGDMTAPFGGFKQSGNGRDKSLHAFDKYTELKATWIKL	PGPT0007645_157	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007645-puuC|kauB-K12254	NA	NA
BMS010_04908	1149	ycaD_5		putative MFS-type transporter YcaD	ATGCGTTGGGCAACCTATTTCGCGGTTTGTATGTCGGTAATCAGCGTCGGTTTGGCGCTGGGCGTGACCCTGCCGCTGGTGTCGTTGCGCCTGGAAGGTTGGGGCTACGGGCAGTTCGCGATTGGTGTGATGGCGGCCATGCCGGCGGTGGGCGTGCTGTTCGGCGCCAGCCTGGCCGGGCGCCTCGCCGCCTGGATCGGTACGCCGCGGCTGATGCGCCTGTGCCTGCTGGCGGGGGCGCTGTCCGTGGTCCTGCTGGCGCTGCTGCCGAGCTATCCCCTATGGCTGCTGCTGCGACTGTTGATCGGTGTGGTGCTGACCGTGGTGTTCATCCTCGGCGAAAGCTGGATCAACCAGCTCGCCGTCGAACAGTGGCGCGGCCGTCTGGTGGCGCTGTACGGCACCGGTTATGCCCTCAGCCAGTTGTCCGGCCCTCTGCTGCTGGGCCTGCTCGGCACCGCCGATGACGTCGGCTTCTGGACCGGCGCTTGCCTGCTGGTGGGTGGGTCCCTATTGCTGCTCGGGCGCGATGGCGCGCCCAGTGTGGAAGCCCACGGCAATGCCTGGCGCGACCTGATCCGGTTCTCCCGGCGGATGCCTGCGGTGGCTTGGGCCGTGGTGTTGTTCGCGGCGTTCGAGGCGATGATCCTCACCCTCTTGCCGATCTACGGGCTGCGTCAAGGGTTCAGCCAGGAAACCGCCTTGCTGATGGCCAGCGTCGTGGTGGTTGGCGATGCCGTGTTGCAGTTGCCGGTCGGCTGGCTGGCCGACCGGGTGCCGCGCCAGTCGTTGTTCCGTACCTGCGGCGTGGCGTTGCTGGTGTCGAGCCTGGGCATGCCGGTGTTGCTGCAGACGCCGCTGATCTGGCCGTTGCTGGTGCTGTTCGGCGCGAGCGCGGGCGGCCTGTTCACCCTGTCGCTGATCCTCATCGGCGAACGCTTCCGTGACGATGCCTTGGTGCGTGCCAACGCCCATGTCGCCCAGCTCTGGGGAATTGGCTGCCTGCTCGGCCCGTTGACCACCGGCGCCGCTAGCCAGTGGTTGAGCAGCCATGCCTTGCCGTTGGTGATGGCCCTGGGCGCAGCGGGCTTCGTATTCCTGGCCTGGCAGCGTGCGGCGATCGGCGGGCCGGCGGAGGCGATGGATTGA	MRWATYFAVCMSVISVGLALGVTLPLVSLRLEGWGYGQFAIGVMAAMPAVGVLFGASLAGRLAAWIGTPRLMRLCLLAGALSVVLLALLPSYPLWLLLRLLIGVVLTVVFILGESWINQLAVEQWRGRLVALYGTGYALSQLSGPLLLGLLGTADDVGFWTGACLLVGGSLLLLGRDGAPSVEAHGNAWRDLIRFSRRMPAVAWAVVLFAAFEAMILTLLPIYGLRQGFSQETALLMASVVVVGDAVLQLPVGWLADRVPRQSLFRTCGVALLVSSLGMPVLLQTPLIWPLLVLFGASAGGLFTLSLILIGERFRDDALVRANAHVAQLWGIGCLLGPLTTGAASQWLSSHALPLVMALGAAGFVFLAWQRAAIGGPAEAMD				NA	NA	NA	NA	NA
BMS010_04909	957	pal_4		Peptidoglycan-associated lipoprotein	ATGTACAAGGGCATGGCTGTGTTGAGCATGGGGATCGCCGGCGTTGCAGCGGCGTTGGCGGCCGATCTTCCGGGGAGCGCCGATCATCCGCTCATTCCGCGTTACCAGGACGCGGAGATCATCAAGTACGACACCCAGGCCTACACCGACCGGCGTTTTTTCAACGCCCCGGCCAAGGCGTATGGCGGCCTGGAGAAGAATCTCGAGTCGACCGTTGCCCTGGAGGGCAAGCTCACTGGTCTGGTCTACCGCGCCCCGGCGGAACGCACGCCGCTGGAAGTGCTGCGCAACTACCAGCAGGCATTGCAGGAGGCCGGCTTCGAAGAGCTGTTCGCCTGCGAGAAGGAAGCCTGCGGTGGACGCAACTTCAATCATGCCGTCACCACTGACAACGACTTGCGCGAATACCAGCAGGACCAGCGCTATCTACTCTCGCGCCTCTCGCGTCCGGAGGGGGATGTGTATGCCGCGCTCTACGTGGTGCTGAACAAGAGCGGTGGCGGGGAGAACCGAGGGCGCAGCATGATCCAGTTGGACGTGCTGGAACAGAAACCCATGGAGCAACGCATGGTGGTGGTCGATGCGCCCGCCATGCAGCGTGATCTCGATAGCAAGGGCCGGGTCGCCCTGTATGGCATCTTCTTCGACTTCGACAAGGACAGCATGCGCGCCGACTCCAAGCCACAACTCGATGAGATCGCTGCGCTGCTGAAGGCCGGTCCGATGCACGTGCTGGTGGTCGGGCACAGCGATGCCAAGGGTGCGCTGGATTACAACCGCGAGCTGTCGCAGCGGCGTGCCCAATCCATTGTCGAGGCGTTGGTACGGGACTACGGCATCGCTCGCGAGCGGCTCAGCGCGGTGGGTGTCGGCATGGCTGCCCCGGTGGCGAGCAACCGGACCGAAGAGGGGCGGGCGCAGAACCGGAGGGTGGAGCTGGTCGACCGCGGCGAGTGA	MYKGMAVLSMGIAGVAAALAADLPGSADHPLIPRYQDAEIIKYDTQAYTDRRFFNAPAKAYGGLEKNLESTVALEGKLTGLVYRAPAERTPLEVLRNYQQALQEAGFEELFACEKEACGGRNFNHAVTTDNDLREYQQDQRYLLSRLSRPEGDVYAALYVVLNKSGGGENRGRSMIQLDVLEQKPMEQRMVVVDAPAMQRDLDSKGRVALYGIFFDFDKDSMRADSKPQLDEIAALLKAGPMHVLVVGHSDAKGALDYNRELSQRRAQSIVEALVRDYGIARERLSAVGVGMAAPVASNRTEEGRAQNRRVELVDRGE	PGPT0022215_3417	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-SURFACE_ATTACHMENT	SURFACE_ADHESION	OTHER_SURFACE_ADHESION_PROTEINS,PGPT0022215-ompA_ompF_porin|oprF-K03286	NA	NA
BMS010_04910	1554	clsC_1	COG1502	Cardiolipin synthase C	GTGCGCGTCTGCCTACTGTTGTTGGCCTTGCTCTGCCTGGCCGGCTGCGCCAGCACGAACCAGCCGGTACCAACCCAAGCCCTGGCGTCACGGGAGTCACTGCTCGGCGCCGCGGTGCAGCGGCTCGCCCACGAGCATCCACAGGGGCAGTCCGGCTTTCGCCTGCTGGCCGACAACACCGAGGCCTTCAGCGTTCGCGCCGAGCTGATCCGCACGGCCCGGCGCAGCCTCGACCTGCAGTACTACATCGTCCATGACGGTTTCAGTACCCGTGCGCTAGTACACGAGCTATTGCAGGCGGCCGACCGTGGCGTCCGTGTGCGCCTGCTGCTGGACGACACCACCAGCGCGGATATCGACGCCGAGATCGCCGTGCTTGCCGCCCACCCACAAATCCACGTGCGCGTCTTCAATCCGCTGCACTTGGGGCGCAGTACCGGCGTGACCCGCACCCTGGGGCGTCTCCTCAACCTGTCGCGGCAGCACCGGCGCATGCACAACAAGCTGTGGCTGGCCGACAGCAGCGTGGCCATCGTCGGCGGGCGCAACCTCGGCGACGAATATTTCGACGCCAAGCCGGACCTGAACTTCACCGATATCGACCTGCTCGGCGCCGGGCCGGTGGCCGAACAATTGGCGCACAGCTTCGACCAGTATTGGAACAGCGCGCTGAGCAAGCCGATCCAACAGTTCCTCTGGAGCCCGCCGACCGTCGAAGACCTGCTCGACCTGCGCCAGGAGCTGAGCGCCTACCTCGAAGCCTCGCGCAAGGACCGCCCGCGCATCTACCGCCGCCTGATGGCCTATCAGCAGAACCCGCGCCTGCATGACTGGCTGAACGAACTGACCTGGGCCCACAGCCAGGCGCTCTGGGACGCTCCCAGCAAGGTGCTGGCGCGCGGCGAGCCGGACTCGCAGCTCCTCCTCACCCATCAGCTCGGGCCGGAGCTGGCGAAGGTCAGCAAGGAACTGCTGCTGGTTTCCGCCTATCTGGTGCCCGCCGACACCGGCCTCGGCTACCTGACCAACCGAGCCGACCACGGCGTTGCCGTCAGCCTGCTGACGAACTCGCTGGAAGCCACCGACGTTCCCGCCGTGCATGGTGGCTACGCCCCCTACCGCAAACCGTTGCTGGAGCACGGCGTGAAGCTGTTCGAACTGCGCCGGCAACCGGACCAGACGAGCGGGGTCTCACTGGGCAGCAGCGGCTCGTCGAACTCCAGCCTGCACAGCAAGGCGATGGTCTTCGACCGGCAGAAGGTGTTCATCGGCTCGCTCAACCTGGACCCGCGTTCGGTGCTCTGGAACACCGAGGTGGGCATCGTGGTGGACAGCCGGCCCCTGGCCGAGGAGGTGCGAGCGCTGACGCTGGAGGGTATGTCGCCGGCGATCAGCTACGAAGTGCGCCTGGAAAAACGTGACGGTCGCTCGCGCCTGGTCTGGATCGCCGAAGACGACGGCCGCCGGCATACCCTGGACAAGGAACCCGGCGGCCTCTGGCGGCGCTTCAATGCCTGGCTGTCCCAGGCGATCGGCCTGGAAAAGATGCTTTGA	MRVCLLLLALLCLAGCASTNQPVPTQALASRESLLGAAVQRLAHEHPQGQSGFRLLADNTEAFSVRAELIRTARRSLDLQYYIVHDGFSTRALVHELLQAADRGVRVRLLLDDTTSADIDAEIAVLAAHPQIHVRVFNPLHLGRSTGVTRTLGRLLNLSRQHRRMHNKLWLADSSVAIVGGRNLGDEYFDAKPDLNFTDIDLLGAGPVAEQLAHSFDQYWNSALSKPIQQFLWSPPTVEDLLDLRQELSAYLEASRKDRPRIYRRLMAYQQNPRLHDWLNELTWAHSQALWDAPSKVLARGEPDSQLLLTHQLGPELAKVSKELLLVSAYLVPADTGLGYLTNRADHGVAVSLLTNSLEATDVPAVHGGYAPYRKPLLEHGVKLFELRRQPDQTSGVSLGSSGSSNSSLHSKAMVFDRQKVFIGSLNLDPRSVLWNTEVGIVVDSRPLAEEVRALTLEGMSPAISYEVRLEKRDGRSRLVWIAEDDGRRHTLDKEPGGLWRRFNAWLSQAIGLEKML	PGPT0007730_754	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_GLYCEROPHOSPHOLIPID-CARDIOLIPIN_SYNTHASE_ACTIVITY,PGPT0007730-clsC|ymdC-K06132	NA	NA
BMS010_04911	1494	norG_3	COG1167	HTH-type transcriptional regulator NorG	ATGGTCTATTTTGCTTTCCATCTGTATGGTCAACGACTCTTCATCATGACTCTGTATGTAGCGCTCGCGGAGCTGATCGGCTCCCGCATCCAGCAAGGGCTCTATCTGCCGGGCGACCGCCTGCCCTCGGTCCGTGCCCTCAGCCAGGAGCACGGCGTCAGCCTGAGCACCGTGCAGCAGGCCTATCGACAGTTGGAAGACGACGGCCTGGTGGAGCCGCGACCGAAGTCCGGCTACTTCGTGCCACCGAGCAGACAGAAGCCGGCACTGCCCATGGTGAGCCGTACAGCACAGCGCCCGGTGGAGGTGTCGCAGTGGGACCAGGTGCTGGAGCTGGTCAGCACCCCGCCCTATGGCGACGTGGTGCAGCTCGGCCGTGGCATCCCCGATATAGAGGCACCGACCCTCAAGCCCCTGCTGCGCAGCCTGTCGCGCCTGAGCCGGCGCCAGAGCCTGAAGGAGCTGAGCTATGGCTGTGTGGAGGGCGAGATCAGCCTGCGCGAACAGATTTCGCGCCTGGTGCTGGACTCCGGCTGCCGTATCCCGCCCGAAGACATCGTCGTCACCACCGGTTGTCACGAGGCGCTATCTGCCGCGCTGCGCGCCATCTGCCAGCCCGGCGACATCGTGGCGGTGGACTCGCCGAGCTTTCACGGTGTAATGCAGGCGCTCAAGGGCTTCGGCCTCAAGGCCCTCGAGCTGCCGACCGATCCGCTCACCGGGATCAACCTGGAGGCGCTGGAAATGGCGCTGGAGCAGTGGCCGATCAAGGCCATCCAACTGACGCCAAGCTGCAACAACCCGCTCGGCTACATCATGCCCGAGGCCAACAAGCGCGCCCTGCTGGAGCTGGCCCAACGCTACGACGTGGCGATCATCGAGGACGATATCTACGGCGAGCTGGCTTACCGTTACCCACGTCCGCGCACCATCAAGTCATTCGACGAAGACGGCCGTGTGCTGCTGTGCAGCTCCTTCTCGAAAACCCTGGCGCCGGGCCTGCGCATCGGCTGGATCGCCCCCGGCCGCTACCTGCAGCGGGTGCTGCACATGAAATACATGAGCACCGGCATGAGCGCCCAACTACCGCAGCTGGCACTGGCCGAGTTCATCGGTGGCGGTCTGTACGAGCCGCACCTGCGGCGCATGCGCAGCCAGTACGCCCGTGGTCGCGAACTGATGACCGGCTGGGTCAGCCAGTACTTCCCCGCCGGCACCCGAGTCAGCCAGCCGCAGGGCGGTTTCATGCTCTGGGTGGAGATGCCGCAGGGCTTCGATAGCCAGCGCCTCAACCGTCTGCTGGCGCCGCACAAGGTGCAGGTGGCGCCGGGCAGTATCTTTTCCGCCGCGGGCAAATACCGGAACTGCCTGCGGATGAACTTCGCTCCCAAGCCCGACGCACGGCAGGAACAGGCCGTGCGCCGCGTCGGCGAAACCGTCTCGGCGCTGCTCGCGGAACAGGAGACCGGGCTGGAGGAAATGTCGGTCCGCTGA	MVYFAFHLYGQRLFIMTLYVALAELIGSRIQQGLYLPGDRLPSVRALSQEHGVSLSTVQQAYRQLEDDGLVEPRPKSGYFVPPSRQKPALPMVSRTAQRPVEVSQWDQVLELVSTPPYGDVVQLGRGIPDIEAPTLKPLLRSLSRLSRRQSLKELSYGCVEGEISLREQISRLVLDSGCRIPPEDIVVTTGCHEALSAALRAICQPGDIVAVDSPSFHGVMQALKGFGLKALELPTDPLTGINLEALEMALEQWPIKAIQLTPSCNNPLGYIMPEANKRALLELAQRYDVAIIEDDIYGELAYRYPRPRTIKSFDEDGRVLLCSSFSKTLAPGLRIGWIAPGRYLQRVLHMKYMSTGMSAQLPQLALAEFIGGGLYEPHLRRMRSQYARGRELMTGWVSQYFPAGTRVSQPQGGFMLWVEMPQGFDSQRLNRLLAPHKVQVAPGSIFSAAGKYRNCLRMNFAPKPDARQEQAVRRVGETVSALLAEQETGLEEMSVR				NA	NA	NA	NA	NA
BMS010_04912	234			hypothetical protein	ATGCGCGAATGGAGCGAGGTACTGGTTGTCACGCGGGAGCGGGATGCACAGGCGGGAGGCATCCGCTTCACCACGGGAAATGCCGGCGAAGGGCGCTGGCAGCGCTTCTGGCGCCGCCTGACCACCCGGCACGCCCTGGCGCGCTTGGATGATGCCCAATTGCGCGACATCGGCCTGACCCGCCAGGAGGCGCTGGCGGAGGTGTATAGGCCGGTCTGGCAGCTCTGGGACTAA	MREWSEVLVVTRERDAQAGGIRFTTGNAGEGRWQRFWRRLTTRHALARLDDAQLRDIGLTRQEALAEVYRPVWQLWD				NA	NA	NA	NA	NA
BMS010_04913	1314	puuB_4		Gamma-glutamylputrescine oxidoreductase	ATGGATGCCCGCGCTCGCCAGCCCGTTCACACCGAGCAGCATGCCCCTTCCTATTACGCCGCCACGGCCAATCGACAACTGTCCTTCCCTCCCCTGACCGGGGACGAGCAGGCCGATGTCTGCATCGTCGGCGGTGGCTTCACCGGCCTGAATACCGCTATCGAACTGGCCGAGCGCGGCCTGTCAGTGGTGTTGCTGGAAGCCCGCCGGATCGGCTGGGGCGCCAGCGGACGCAACGGCGGGCAGTTGATCCGCGGCGTCGGCCACGATCTCGAACAGTTCCGCCCGGTGATCGGCGACGAAGGCGTGAAAGCCCTCAAGCTGATGGGCCTGGAAGCGGTGGAGATCGTTCGCGAGCGTATCGCCCGCCATGCCATTCCCTGCGATCTGACCTGGGGCTACTGCGATCTGGCCACCAAGCCACGCCATGTGGAGGACTTCCAGGCCAGTTACGACGACCTCAAGGCACTCGACTACCGCCACGAACTGCGCCTGGTTCCGGCGGAAGAGATGCGCAGCGTGGTTGGCTCCGACCGCTACCTGGGCGGTCTCATTGATATGGGGTCCGGGCATCTGCATCCGCTCAACCTGGCGCTCGGCGAGGCATCCGTGGCGCAGAGCCTGGGCGTGCGGCTGTTCGAGCAATCGCCGGTCACGCGCATCGACCACGGCAGCGAGCTGCGCATCCATGGCGAACGGGGAACCGTGCGCGCCCGCACCTTGGTAATCGCCTGCAACGCTTACATCAACGGCCTGCAACCCGAGCTGGCCGGCAAGGTGCTGCCGGCCGGCAGCTACATCATCGCCACCGAGCCGCTGGACGAAGCCCTGGCGCGCGAGCTGTTGCCGCAGAACATGGCGGTCTGCGACCAGCGTGTCGCGCTGGATTATTTCCGCCTGTCCGCCGACCGCCGCCTGCTGTTCGGTGGCGCCTGCCACTATTCGGGACGCGACCCCGCCGACATCGCCGCCTACATGCGACCGAAGATGCTGAAGGTATTTCCGCAGCTCGCCGACGTGCGCATCGACTACCAATGGGGCGGAATGATCGGTATCGGTGCCAACCGCCTGCCGCAGATCGGCCGGCTGCCGGACCAGCCCAACGTGTACTTCGCCCAGGCCTACTCCGGCCACGGGCTGAACGCCACACACCTGGCCGGCAAGCTGCTCGCCGAGGCCATCGCCGGCCGGGAGAGCCGCGGCCTTGACCTGTTCGCCCGGGTCCCACACCTGACCTTCCCCGGCGGCCCGCGCCTGCGCTCGCCGCTGCTGGCGCTGGGGATGCTCTGGTATCGGCTCAAGGACTTCTTTTAG	MDARARQPVHTEQHAPSYYAATANRQLSFPPLTGDEQADVCIVGGGFTGLNTAIELAERGLSVVLLEARRIGWGASGRNGGQLIRGVGHDLEQFRPVIGDEGVKALKLMGLEAVEIVRERIARHAIPCDLTWGYCDLATKPRHVEDFQASYDDLKALDYRHELRLVPAEEMRSVVGSDRYLGGLIDMGSGHLHPLNLALGEASVAQSLGVRLFEQSPVTRIDHGSELRIHGERGTVRARTLVIACNAYINGLQPELAGKVLPAGSYIIATEPLDEALARELLPQNMAVCDQRVALDYFRLSADRRLLFGGACHYSGRDPADIAAYMRPKMLKVFPQLADVRIDYQWGGMIGIGANRLPQIGRLPDQPNVYFAQAYSGHGLNATHLAGKLLAEAIAGRESRGLDLFARVPHLTFPGGPRLRSPLLALGMLWYRLKDFF	PGPT0007637_305	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007637-puuB|ordL-K09471	NA	NA
BMS010_04914	489	lrp_7	COG1522	Leucine-responsive regulatory protein	ATGCGTACCCAGCATCAGACCAAGCGGGAACTGGACAAGATCGACCGCAATATCCTGCGCATCCTGCAGCAGGACGGACGGATTTCCTTCACCGAGCTGGGCGAGCGCGTCGGCCTGTCCACCACGCCCTGCACCGAGCGCGTCCGGCGACTGGAACGCGAAGGCATCATCATGGGCTACTCCGCGCGGCTCAATCCGCAGCACCTGAAGGCCAACCTGCTGGTGTTCGTGGAGATCAGCCTGGCCTACAAGTCCGGTGATATCTTCGAGGAATTCCGCCGCGCCGTGCTCAAGCTGCCCCACGTGCTGGAGTGCCACCTGGTCTCCGGCGACTTCGACTACCTGGTGAAGGCGCGCATCAATGAGATGGCCTCCTACCGCAAGCTGCTCGGCGACATCCTGCTCAAGCTGCCCCACGTGCGGGAGTCGAAGAGCTATATCGTGATGGAAGAGGTCAAGGAATCGCTGAACCTGCCGATCCCCGACTGA	MRTQHQTKRELDKIDRNILRILQQDGRISFTELGERVGLSTTPCTERVRRLEREGIIMGYSARLNPQHLKANLLVFVEISLAYKSGDIFEEFRRAVLKLPHVLECHLVSGDFDYLVKARINEMASYRKLLGDILLKLPHVRESKSYIVMEEVKESLNLPIPD	PGPT0014049_198	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014049-doeX-K15782	NA	NA
BMS010_04915	1299	dadA1_4	COG0665	D-amino acid dehydrogenase 1	ATGCGTGTTCTGGTACTCGGCAGCGGTGTGATCGGTACTGCCAGCGCCTATTATCTGGCCCGCGCCGGTTTCGAAGTGGTGGTGGTCGATCGCCAGCCCGCCCCGGCCATGGAAACCAGCTTCGCCAATGCCGGCCAGGTGTCTCCTGGCTATGCCTCGCCCTGGGCCGCGCCGGGCATTCCGCTGAAAGCCATGAAGTGGCTGCTGCAGCGCCACGCGCCGCTGGCCATCAAGGCCACCGCCAACATCGACCAGTACCTGTGGATGGCGCAGATGCTGCGCAACTGCACTGCCGCCCGCTACGCGGTGAACAAGGAGCGCATGGTGCGCCTGTCCGAGTACAGCCGCGACTGCCTCGACGAACTGCGCGCGGAAACCGGCATCGCCTATGAAGGCCGTACCCTCGGCACCACCCAATTGTTCCGTACCCAGGCCCAGCTCGATGCCGCGGCCAAGGACATCGCCGTGCTCGAGCAGTCCGGCGTGCCTTATGAGGTGCTGGACCGCGCCGGTATCGCCCGCGTCGAGCCCGCCCTGGCCAAGGTCACCGACAAGCTGGCCGGCGCCCTGCGCCTGCCCAACGACCAGACCGGCGACTGCCAGATGTTCACCACCAAGCTGGCCGAAATGGCGGTCAAGCTGGGCGTGGAATTCCGCTTCGTCCGCAACATCGAGCGTCTCGACCATGCCGGCGACCGCATCAACGGCGTATGGATCGACGGCAAGCTGGAAACCGCCGACCGCTACGTGCTGGCCCTCGGCAGCTACTCCCCGCAGTTGCTCAAGCCGCTGGGCATCAAGGCGCCGGTCTATCCGCTCAAAGGCTATTCGCTGACCGTACCGATCACCAATCCGGGCATGGCGCCGACCTCGACCATCCTCGACGAGACCTACAAGGTCGCCATCACCCGTTTCGACAATCGCATCCGTGTCGGCGGCATGGCCGAGATCGCCGGTTTCGACCTGAGTCTGAACCCGCGTCGCCGCGAGACCCTGGAAATGATCACCGGCGATCTCTACCCTGAAGGTGGCGATCTGACCCGGGCGGAATTCTGGACCGGCCTGCGCCCGGCGACCCCCGACGGTACCCCCATCGTCGGCGCCACGCCGATGCGCAACCTGTTCCTCAACACCGGCCACGGCACCCTCGGTTGGACCATGGCCTGTGGCTCCGGCCGCCTGCTCGCCGACCTGATGGCCTCGAAGCGCCCGCAAATCAGCGCCGAAGGCCTCGATATCTTCCGTTACAGCACTCGTAAGGAGTCCCCCGAGCATGTCAATCCGGCGCCTGCGCACTGA	MRVLVLGSGVIGTASAYYLARAGFEVVVVDRQPAPAMETSFANAGQVSPGYASPWAAPGIPLKAMKWLLQRHAPLAIKATANIDQYLWMAQMLRNCTAARYAVNKERMVRLSEYSRDCLDELRAETGIAYEGRTLGTTQLFRTQAQLDAAAKDIAVLEQSGVPYEVLDRAGIARVEPALAKVTDKLAGALRLPNDQTGDCQMFTTKLAEMAVKLGVEFRFVRNIERLDHAGDRINGVWIDGKLETADRYVLALGSYSPQLLKPLGIKAPVYPLKGYSLTVPITNPGMAPTSTILDETYKVAITRFDNRIRVGGMAEIAGFDLSLNPRRRETLEMITGDLYPEGGDLTRAEFWTGLRPATPDGTPIVGATPMRNLFLNTGHGTLGWTMACGSGRLLADLMASKRPQISAEGLDIFRYSTRKESPEHVNPAPAH	PGPT0020315_355	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_D-AMINO_ACID_DEGRADATION,PGPT0020315-dadA-K00285	NA	NA
BMS010_04916	354	rutC_1	COG0251	Putative aminoacrylate peracid reductase RutC	ATGTCAATCCGGCGCCTGCGCACTGAAGCCCGCTACAGCGAAATCGTCATCCATAACGGCACCGTCTACCTGGCGGGCCAACTGGACGAACACCATAGCGCCGGCATCGAAGCCCAGACCCGCGAGACCCTGGCGAGCATCGACCGTATGCTCGCCGAGGCCGGGACCGACAAGACCCGCATCCTCTCGGTGACCATCTTCCTCAAGGACATGGCCGCCGATTTCGCCGGCATGAACGCCGTCTGGGACAGCTGGGTGCCGAAAGGCGCCGCGCCGGCCCGCGCCACCGTCGAGGCGAAGCTGTATTCGCCCGATGTGCTGGTGGAAATGACCGTCATCGCCGCACTGCCCTGA	MSIRRLRTEARYSEIVIHNGTVYLAGQLDEHHSAGIEAQTRETLASIDRMLAEAGTDKTRILSVTIFLKDMAADFAGMNAVWDSWVPKGAAPARATVEAKLYSPDVLVEMTVIAALP	PGPT0020030_24	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020030-ridA|tdcF-K09022	NA	NA
BMS010_04917	1089	alr_4		Alanine racemase	ATGCGTCCCGCCCGTGCCCTGATCGACCTCCAAGCCCTGCGTGCCAACTACCGGCTGGCCCGCGAAGCCTCCGGCGCCCGTGCGCTGGCGGTGATCAAGGCGGATGCCTACGGACATGGCGCGGTGCGCTGCGCCCAGGCCCTGCTGGACGAGGCGGACGGGTTCGCCGTGGCCTGTATCGAAGAGGCGCTGGAACTGCGCGAAGCCGGCATCCGCGCGCCCATCCTGCTGCTGGAAGGCTTCTTCGAGGCGGAAGAGCTGGAACTGATCGTTCGCCACGATTTCTGGTGCGTCGTCCATTCGATGTGGCAACTGGAAGCCATCGAGCGCGCCAGCCTGGCCATGCCTCTGTGCGTCTGGCTGAAGCTGGATACCGGCATGCACCGTGTCGGCCTGGAGCCCGCCGATTACCAGGCTGCTTACCAGCGCCTGCTGGCCAGTGGCAAGGTCGGCAAGATCGTCCTGATGAGCCACTTCGCCCGCGCCGACGAGCTGGGCTGTCCGCGCAGCGCCGAGCAGCTGCATGTCTTCGAGCAGGCCCGCCAGGGGCTGGTGGCGGAGATCAGCCTGTGCAACTCCCCGGCGATCCTCGGCAACCGGCTGCTGTTCCCGAGGCCGCTGAGCAGCGATTGGGTGCGTCCGGGCCTGATGCTCTACGGCGCCTCGCCTTTCGAGGGCCCGCAGGCGGCGGCCGATGGCTTGCAGCCGGTGATGACCCTGGAGTCACGGATCATCGGTGTGCGCGAACTGCCGGCAGGCGAGCCGGTGGGCTACGGCGCGCGCTTCGTCAGCGAGCGGCCGACCCGCGTGGGCGTGGTTGCCATGGGCTATGCCGACGGTTATCCGCGCCACGCACCGACCGGGACGCCGGTGAGCATCGATGGCCAGCCGAGCCGTCTGATCGGCCGGGTGTCCATGGACATGCTCACCGTCGACCTGACCGACCTGCCCCAGGCGGGCCTGGGCAGCCGGGTCGAGCTCTGGGGCCGGGAAGTACTCGCCAGTGACGTTGCGGCCTGGGCCGGGGCCATTCCCTATCAACTGTTCTGCAATCTGAAACGGGCGCCGCGCGTCTATTCCGAGAGGTAG	MRPARALIDLQALRANYRLAREASGARALAVIKADAYGHGAVRCAQALLDEADGFAVACIEEALELREAGIRAPILLLEGFFEAEELELIVRHDFWCVVHSMWQLEAIERASLAMPLCVWLKLDTGMHRVGLEPADYQAAYQRLLASGKVGKIVLMSHFARADELGCPRSAEQLHVFEQARQGLVAEISLCNSPAILGNRLLFPRPLSSDWVRPGLMLYGASPFEGPQAAADGLQPVMTLESRIIGVRELPAGEPVGYGARFVSERPTRVGVVAMGYADGYPRHAPTGTPVSIDGQPSRLIGRVSMDMLTVDLTDLPQAGLGSRVELWGREVLASDVAAWAGAIPYQLFCNLKRAPRVYSER	PGPT0020040_3820	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020040-alr-K01775	NA	NA
BMS010_04918	549	puuR_3		HTH-type transcriptional regulator PuuR	TTGGACGTCGGTGTTCGACTGCAATCCATTCGCAAACTCAAAGGCCTTTCCCAGCGTGAACTCGCCAAGCGGGCCGGCGTTACCAACAGCACCATTTCGATGATCGAGAAGAACAGTGTCAGTCCCTCGATCAGCTCGCTGAAAAAAGTCCTCAGCGGCATTCCCATGACACTGGTGGAGTTCTTCTCCATCGACTACGAGCAGGACACTCCCCCTCAAGTCGTCTACCGGGCTGACGAGCTGACCGACCTCTCCAGCGGCGCCGTGACCATGAAACTGGTCGGCAAGGCGCAACCCAACCGGGCCCTGGCTTTCCTCGACGAGACCTACCCGCCGGATGCCGACACCGGCGAAGAGATGTACGCCCACGAGGGCGAAGAAGCCGGCATCCTGGTGGAAGGCCGACTGGAACTGACCGTCGGCAGCGAGGTGTACATCCTCGAGGCGGGCGACAGCTACTACTTCGAGAGCCACCAGCCCCACCGTTTTCGCAATCCGTTCGACAAGCCGGCACGCCTGATCAGTGCCACTACGCCGGCGAATTTCTAG	MDVGVRLQSIRKLKGLSQRELAKRAGVTNSTISMIEKNSVSPSISSLKKVLSGIPMTLVEFFSIDYEQDTPPQVVYRADELTDLSSGAVTMKLVGKAQPNRALAFLDETYPPDADTGEEMYAHEGEEAGILVEGRLELTVGSEVYILEAGDSYYFESHQPHRFRNPFDKPARLISATTPANF	PGPT0019781_117	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0019781-puuR-K14056	NA	NA
BMS010_04919	423			hypothetical protein	GTGAACCTGATTAACAAGATGCTGGTGGCCAAAGCCGCTCTGTTGGCCCTGTGGGCTGTTAGCGCCCAGGCTGCGACCAACGACGATATCGCCGAGCGCATCAAGCCGGTGGGCGAGGTCTGCGTGATGGGCCAGGAATGCAAGGGTGTCGAAGCCGTGGCGGCTGCCGCGGGCGGTGGCGCACGCAGCGCCGACGACGTGATTGCCAAGCACTGCAACGCCTGCCATGGCGCCGGTGTGCTGGGTGCGCCGAAGATCGGCGACGGTGCCGCTTGGAAGGCACGTGCCGATGCCGCCGGTGGTATCGACGGCCTGCTCAAGCATGCCATCTCCGGTATCAACGCCATGCCGCCGAAAGGTACCTGCGGCGATTGCTCGGACGACGAGCTGAAAGGCGCCATCGAGAAAATGTCCGGCCTCTGA	MNLINKMLVAKAALLALWAVSAQAATNDDIAERIKPVGEVCVMGQECKGVEAVAAAAGGGARSADDVIAKHCNACHGAGVLGAPKIGDGAAWKARADAAGGIDGLLKHAISGINAMPPKGTCGDCSDDELKGAIEKMSGL				NA	NA	NA	NA	NA
BMS010_04920	2133			butyrate:acetyl-CoA coenzyme A-transferase	GTGCCACGCTGCTCGCTGGAACAGGCCGTCGAACAGGTCCTGGCGCGAATCGACGGTCCCATCCGCCTGGGGCTGCCGTTGGGCCTGGGCAAGCCGAACCGTTTCGCCAATCTGCTCTATCGCCGGGTCAAGGCGGACGCTTCGCGCTCGCTGACCATCTATACCGCTCTTTCGCTAGGGCGTCCCCAGGGTGGCAGTGAGCTGGAGCAACGATTCAGCGCGCCGTTCTTCGAACGCGTCTATGGCGACTACCCCGAACTGGATTACCTGGCCGATCTGCGGCGAGGGGAGTTGCCGCCGAATATCCGGCTCGAAGAGTTCTACCTGAGTCCGGGCAGCCTGCTCGGCAATCCGTTGGCGCAGCAGCAGTACGTCAGCCTGAACTACAGCCAGGTCGCGCGCGGGCTGGATCTCAAGGGCATCAATGTCATTGCCCAGTTGGTCGCACGTTCGCCGCACCGACCGGGGTGGTTGAGCCTGTCGTGCAACCCCGACATCACCCTGGACCTCTTGCCGCGGCTGGCGGCGCGACGTGCGGCGGGCGAGCCGATTCTGTGCGTCGCCCAGGCACATGCGGAACTGCCGTACATGCCGGGGGATGCGGAGCTGGCCAAAGAGGAGTTCGATCTCGTCATCGAGCCCGTCGAGCGCAGCACCCTGTTCTCGACGCCGAACATGCCGGTGAGCCTGCAGGACCATGCCATCGGGCTGCATGCCAGTACCCTGGTGCGGGACGGCGGCACCCTGCAGGTCGGCATCGGCGCCATGGGCGATGCACTCACCGCGGCGCTGCTGGCACGGCAGGGCGACAACGCGGGTTATCGCGCCCTGCTGGAGGATATGCAGGTGCCGCAACGCTGGGAGCGGCTGATCGAGCGGGAGGGTGGGCTCGCGCCTTTCGCCGAAGGGCTCTACGGGTGCAGCGAGATGTTCGTCCTCGGCCTGCTGGCGCTGATCGAGGCAGGGGTGATCCGCCGGCGGGTCTATCCCGACGAAGGCCTGCAATGGCTGGCCAACCTCGGTGCGTTGGATGCCGAGGGACGTCCCCGCAGCCTGAGGCTACTGCTGGAGGCGGGGCTGCCGACCCATCTGGAAGAGCCGATGTTGGCCTGGTTGCAGGAGCGTGGCCTGCTGGCCAGCGAGATCGAGCGGCTTGGCGACATGCTGCTCCTGCCGGACGGGCGCCGCGTGCCCGCCGATCTGCGTGACACCGCCGCGCAGGAGGCGCTGGAGCCTTATCTGAAGGCTGCGCCGGGCGGTGTGCTGGTGCATGGCGGCTTCTTCCTCGGCCCGCAGGCATTCTACGAACGCCTCACTGAATTGAGCGATGCCCAGCGTGAACGCATCGGTATGACCGCCATCGGCTTCATCAACCGGCTGTATGGCAATGAGCGGCTCAAGCGTCTGCAGCGGCGCGATGCTCGCTTCATCAACAGTGCGTTCGCCATGACCCTGTTGGGGGCAGGGATCGCCGATCAGCTGGAAGACGGCCGGGTAGTCAGTGGCGTCGGCGGCCAGTACGACTTCGTCGCCCAGGCCCACGAGCTGGAAGGCGCGCGTTCGATCCTCATGCTACGCAGTTGGCGCGAGAGTGGCGGCGAGGTCACTTCGAACATCGTCTGGCAGTACGGGCATGCCACCATTCCACGCCACCTGCGCGACATCGTGGTCACCGAATATGGTATCGCCGACTTGCGCGGGAAGAGCGATGCCGAGGTGATCGAGGCGCTGATCCGCATCGCCGATTCGCGCTTCCAGGAAGACCTGATCGACCAGGCCCAGCGGGCCGGCAAGCTGCCCGAGGACTTCGAGCTGCCCTGGGCGTACCGGCAGAACACGCCCTGGCGCCTGCTGGCCTTGCAGGCGCAGCATCCCCGCCTGTTCGCCGAATACCCGCTGGGCAGCGATTTCACCGGACACGAGCAGGACCTGTTGCGTGCCCTGCGCTGGTTGAAGAGCAAGCTCAAGCTCAGCGAAATCCTCGAATTGGGTATGGCTACGCTGTTCGACCTGCCCGATCCGCAGACTTATGCCGGCCATCTCCAGCGCATGGGCCTGGCCGAGCCCGAGGGGTTGCGCGAGCAGCTCTATCAGAAGCTAGTGCTGGCCGGGCTCAAGGCTACCGCCACCTGA	MPRCSLEQAVEQVLARIDGPIRLGLPLGLGKPNRFANLLYRRVKADASRSLTIYTALSLGRPQGGSELEQRFSAPFFERVYGDYPELDYLADLRRGELPPNIRLEEFYLSPGSLLGNPLAQQQYVSLNYSQVARGLDLKGINVIAQLVARSPHRPGWLSLSCNPDITLDLLPRLAARRAAGEPILCVAQAHAELPYMPGDAELAKEEFDLVIEPVERSTLFSTPNMPVSLQDHAIGLHASTLVRDGGTLQVGIGAMGDALTAALLARQGDNAGYRALLEDMQVPQRWERLIEREGGLAPFAEGLYGCSEMFVLGLLALIEAGVIRRRVYPDEGLQWLANLGALDAEGRPRSLRLLLEAGLPTHLEEPMLAWLQERGLLASEIERLGDMLLLPDGRRVPADLRDTAAQEALEPYLKAAPGGVLVHGGFFLGPQAFYERLTELSDAQRERIGMTAIGFINRLYGNERLKRLQRRDARFINSAFAMTLLGAGIADQLEDGRVVSGVGGQYDFVAQAHELEGARSILMLRSWRESGGEVTSNIVWQYGHATIPRHLRDIVVTEYGIADLRGKSDAEVIEALIRIADSRFQEDLIDQAQRAGKLPEDFELPWAYRQNTPWRLLALQAQHPRLFAEYPLGSDFTGHEQDLLRALRWLKSKLKLSEILELGMATLFDLPDPQTYAGHLQRMGLAEPEGLREQLYQKLVLAGLKATAT				NA	NA	NA	NA	NA
BMS010_04921	573	xpt	COG0503	Xanthine phosphoribosyltransferase	GTGGAGCTACTGAAGCAGAGCATTCGCCAGCGCGGCATCGCCCTTTCCGAGCAGGTGCTCAAGGTGGACGCCTTTCTCAATCATCAGATCGATCCGCTGCTGATGCAGGCCATCGGCCGTGAATTCGCCGCACGTTTTCGCGAGGACGGCGTCACCAAGATCGTCACCATCGAGGCCTCCGGCATCGCACCGGCGGTGATGACCGGCCTGGAACTGGGCGTACCGGTGATCTTCGCCCGCAAGCATCAGTCCCTGACCCTGACCGACAACCTGCTGGTCGCCTCGGTGTACTCCTTCACCAAGCAAGTGGAAAGTACCATCGCCATTTCCACCACCCACCTGTCGGCCCATGACCGGGTGCTGATCATCGATGACTTCCTGGCCAACGGCAAAGCCGCCAAGGGCCTGATCTCGATCATCCAGCAGGCCGGCGCGAGCATCGCCGGGCTCGGTATCGTGATCGAGAAATCCTTCCAGCAGGGCCGCGCCGAGCTGGAGGAAATGGGCTTTCGCATTGAATCCCTGGCCCGTGTGATCTCGCTGAAGGACGGCCAGATCACTTTCCTCGACTGA	MELLKQSIRQRGIALSEQVLKVDAFLNHQIDPLLMQAIGREFAARFREDGVTKIVTIEASGIAPAVMTGLELGVPVIFARKHQSLTLTDNLLVASVYSFTKQVESTIAISTTHLSAHDRVLIIDDFLANGKAAKGLISIIQQAGASIAGLGIVIEKSFQQGRAELEEMGFRIESLARVISLKDGQITFLD	PGPT0007305_889	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0007305-xpt-K03816	NA	NA
BMS010_04922	2010	rep_2	COG0210	ATP-dependent DNA helicase Rep	ATGTCCCGACTCAATCCCCGGCAGCAGGAAGCCGTGACCTATGTCGGCGGCCCTCTCCTGGTGCTCGCCGGCGCCGGCTCCGGCAAGACCAGCGTCATCACCCGCAAGATCGCCTACTTGATCCAGCAGTGCGGCATCCGGGCCCAGCACATCGTCGCCATGACCTTCACCAACAAGGCCGCGCGCGAAATGAAGGAACGGGTCGGCACCCTGCTGCGTGGTAGCGAAGGCAAGGGCCTGACGGTGTCGACCTTCCACAACCTCGGACTGAACATCATCCGCAAGGAGCACGCCCGCCTCGGCTATAAGCCGGGCTTCTCGATCTTCGACGAGGGCGACATCAAGGCGCTGCTGACCGACATCATGCAGAAGGAATACGCCGGCGATGACGGCGCGGACGAGATCAAGAACTACATCGGCAACTGGAAGAACGATCTGGTGCTGCCCGACGAGGCCCTGGCCCAGGCGCGCAACCCCAAGGAACAGACCGCCGCCATCGTCTACCTGCACTACCAGCGCACCCTCAAGGCGTACAACGCGGTCGACTTCGACGACCTCATCCTGCTGCCGGTGAAGCTGTTCCAGGAACACGCGGACATCCTGGAGAAGTGGCAGAACCGCATCCGCTACCTGCTGGTGGACGAATACCAGGACACCAACGCCAGCCAGTACCTGCTGGTGAAGCTGCTGGTCGGCATGCGCAACCAGTTCACCGTGGTCGGCGACGACGACCAGTCGATCTATGCCTGGCGCGGCGCGCGGCCGGAAAACCTGATGCAGCTGAAGGAGGACTACCCCTCCCTCAAAGTGGTGATGCTGGAGCAGAACTATCGCTCCACCAGCCGCATCCTCAAATGCGCCAACGTGCTGATCGCCAACAACCCACACGTGTTCGAGAAGCAGCTGTGGAGCGAGATGGGCCATGGCGACGAAATCCGCGTGATCCGCTGCCGCAACGAAGAGGCCGAGTGCGAGCGGGTGGCCATGGAAATCCTCACCGAGCACCTGCGTACCCAGCGCCCGTACAGCGATTTCGCCATCCTTTACCGTGGCAATTACCAGGCGAAGCTGATGGAGCTGAAGCTGCAGCATCACCAGATTCCCTACCGGCTCTCCGGCGGCACCAGCTTCTTTGCCCGCCAGGAGGTGAAGGACCTGATGTCCTATTTCCGCCTGCTGGTGAACCCGGACGACGACAACGCCTTCCTGCGGGTGATCAACGTGCCGCGCCGCGAGATCGGCTCGACCACCCTGGAGAAGCTCGGCAACTACGCCACCGAACGCAAGATCAGCATGTACGCCGCAGCCGGCGAAATCGGCCTCGGCGAGCACCTGGACAGCCGCTTCACCGAACGCCTGGCGCGCTTCACCCGCTGGATGGACGGCGTGCGTCAGCAATGCGCACAGAACGATCCGATCGCCGCGCTGCGCAGCATGGTCATGGACATCGACTACGAGAACTGGCTGCGGCAGAACGCCTCCAGCGACAAGGTCGCCGAAGCGCGCATGGGCAACGTCTGGTTCCTCATCGAGGCGCTGAAGAACACCCTCGAGAAGGACGAAGAGGGCGAGATGACCATCGAGGAAGCCATTGGCAAGCTGGTCCTGCGCGACATGCTCGAGCGCCAGCAGGAGGAGGAAGAAGGCGCCGAAGGGGTGCAGATGATGACCCTGCACGCCTCCAAGGGCCTGGAGTTCCCCTCGGTGTTCATCCTTGGCGTCGAGGAGGAAATTCTCCCGCACCGTTCCAGCATCGAGGCCGATACCATCGAAGAAGAACGCCGCCTGGCCTATGTCGGCATCACCCGCGCGCGGCAGAACCTGACCCTGACCTTCGCCGCCAAGCGCAAGCAGTACGGCGAGATCATCGACTGCACGCCGAGCCGCTTCCTCGATGAGCTGCCGCCGGAAGACCTGATCTGGGAAGGCCAGGAAGACGCCCCGGTGGAAGTCAAGGCCGCGCGCGGCAACAACGCCCTGGCGGATATCCGTGCCATGCTCAAGCGCTGA	MSRLNPRQQEAVTYVGGPLLVLAGAGSGKTSVITRKIAYLIQQCGIRAQHIVAMTFTNKAAREMKERVGTLLRGSEGKGLTVSTFHNLGLNIIRKEHARLGYKPGFSIFDEGDIKALLTDIMQKEYAGDDGADEIKNYIGNWKNDLVLPDEALAQARNPKEQTAAIVYLHYQRTLKAYNAVDFDDLILLPVKLFQEHADILEKWQNRIRYLLVDEYQDTNASQYLLVKLLVGMRNQFTVVGDDDQSIYAWRGARPENLMQLKEDYPSLKVVMLEQNYRSTSRILKCANVLIANNPHVFEKQLWSEMGHGDEIRVIRCRNEEAECERVAMEILTEHLRTQRPYSDFAILYRGNYQAKLMELKLQHHQIPYRLSGGTSFFARQEVKDLMSYFRLLVNPDDDNAFLRVINVPRREIGSTTLEKLGNYATERKISMYAAAGEIGLGEHLDSRFTERLARFTRWMDGVRQQCAQNDPIAALRSMVMDIDYENWLRQNASSDKVAEARMGNVWFLIEALKNTLEKDEEGEMTIEEAIGKLVLRDMLERQQEEEEGAEGVQMMTLHASKGLEFPSVFILGVEEEILPHRSSIEADTIEEERRLAYVGITRARQNLTLTFAAKRKQYGEIIDCTPSRFLDELPPEDLIWEGQEDAPVEVKAARGNNALADIRAMLKR				NA	NA	NA	NA	NA
BMS010_04923	1662			hypothetical protein	GTGACGTGCCAGACCGATTTCTCCCGACTGCTCATCCTTTCGCGGGAATCCCATTGGATCTCCCTGCTGGATCGGCTGTTGGCCGAGCAACCGGAGCCGGTCTGGCTGTTCGCCGCCAGTAGCTGGAGCGACGCCCAGCACCTCTATCAGGACCACCTGCCCGATCTGGTCTTCGCCACGCCCGATTGCCTGCCCACCGCCAGCCAGTGCCCCTTGCCGCCGATCCTGCTGCTGGACAGTGCGCCGAGCCAACTGCCGGCGGACATCTGCGACTGGCTGGCGCGCGACAGCCTTAATGGCGAAGTGCTACGACGCTGCCTGCACTATAGCCGGCAATTGCTGTCCATGCAGCGTTTGTCGAAACAGGACGCGCTCACCGGCATTCCAAACCGCCAGGGCTTCCAGGCGCTGCTGCCCAAGCGCCTGCAACTGAACCGGGGGCGTGGCCTGTTGCTGGGTTATCTCGACCTGGACAACTTCAATCACGCCAATGACAGCCTGGGCCACCAGGCCGGCGACGAACTGATCCAGCAGGTCGTGGAGCGTCTGAAGCCCCTGCTGGAGCCGCAAGACATCCTGGCGCGGATCGGTGGCGACGAATTCGCCCTGTTGCTGGACGTGAGCGCCGATCCGAAACGGGTCGACTGCCTGGTGCAGAACATCCTGGAGTCGTTGGGTGAGCCGTACTGGATCCAGGGGGAGAGCCTCTCGCTGGGATGCAGCCTGGGCCTGGCCTATTGCCGTGCCGGCGAGGACGCCGATGCGTTGCTCTGGCACGCCCATCTGGCCATGCAGCAGGCCAAGAGTCGCCAGGGTTGCACCTGGCATCTATACGACGAGCGTATTTCCAGCGACGTGCGTAGCCTGGCGGACCTCGAAGCGGAACTCCGCCGAGCCTTGCGCCGCGATGAACTGGAGCTGCATTACCAGCCGCGCCTGCACCTGGAGAGCGGCGAGATCGTCGGCCTCGAAGCACTGGTGCGCTGGCGTCATCCGGCGCGGGGTTTGCTCTATCCGCAGGATTTCATTCCCCTGGCCGAGCAATGCGGACTGATCGTCCCCCTCGGCTACTGGGTCATTTCCCGTGCCTTGCAGGACATGCGCTGGCTGGCCGAACAGGGCCGCGGGCTGCACATGGCGGTGAACCTGTCCTTCAGCCAGTTCCAGGACAGCCAACTGCTGACCACCGTGCAACGCCTGATCGAGGGTTGCAAGGTGGACACCCGCTGGCTGGAGTTCGAGCTGACCGAAACCGCGGTCATGCAGCGCAGCGACTACGTACTCGGAACCATGCATACCCTCGGTGAACTGGGCGTGCGTTTTTCCCTGGATGACTTCGGCACGGGCTTCTCCTCCTTCGTCCACCTCGCCAGCCTGCCGATCGCCCTGCTCAAGCTGGACAAGAGTTTCGTCTCCGGCATGCACGTGCGGCCCGAGCAGTGCCGGCTGGTCAAGGCCATGATCAACCTGGCCGGCAATCTCGGCCTGGAGGTGGTGGCGGAGGGCGTCGAGTCGCCGGAAGAGCTGGAACTGTTGCGCCAGTTCGGCTGCGACCAGGCCCAGGGTTACCTGATCAGCAAACCCCTGCCGTTGCGCGAGCTTGAGCGGCTGCTGCAGCATCGGCACGGTCATCCGTCGGTACGTGCGTCTGCCCTGCAGTGA	MTCQTDFSRLLILSRESHWISLLDRLLAEQPEPVWLFAASSWSDAQHLYQDHLPDLVFATPDCLPTASQCPLPPILLLDSAPSQLPADICDWLARDSLNGEVLRRCLHYSRQLLSMQRLSKQDALTGIPNRQGFQALLPKRLQLNRGRGLLLGYLDLDNFNHANDSLGHQAGDELIQQVVERLKPLLEPQDILARIGGDEFALLLDVSADPKRVDCLVQNILESLGEPYWIQGESLSLGCSLGLAYCRAGEDADALLWHAHLAMQQAKSRQGCTWHLYDERISSDVRSLADLEAELRRALRRDELELHYQPRLHLESGEIVGLEALVRWRHPARGLLYPQDFIPLAEQCGLIVPLGYWVISRALQDMRWLAEQGRGLHMAVNLSFSQFQDSQLLTTVQRLIEGCKVDTRWLEFELTETAVMQRSDYVLGTMHTLGELGVRFSLDDFGTGFSSFVHLASLPIALLKLDKSFVSGMHVRPEQCRLVKAMINLAGNLGLEVVAEGVESPEELELLRQFGCDQAQGYLISKPLPLRELERLLQHRHGHPSVRASALQ	PGPT0026010_2771	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0026010-mucR-K21023	NA	NA
BMS010_04924	1671			hypothetical protein	TTGTCTGCGCTCGTCGAACCTCTGCGCCTGTTGCTCCTGACCGACGATCCCTCCTGGGGCCGCCTGCTCGATCGGTGCCTGGCAACGCTGGGTGCGCCGCCGGTCATCACCGCGCCGTCCTGGGATATCGCCAGCAGCCTGTTCGATGAAACCCCCGAGGGATTGGTGCTGGCCACGCCGGATTACCTGCCCTCCGGCAGCGAGTGCCCCTTGCCGATGGTGGCGTTGCTCGAGGCCGAGCCGGAGTTCTCACCGGCTGGCGCCTGCGACTGGCTGGTCCGCGGCAGCCTGACCCCCGAACTCCTGCGTCGCTGCCTGCGCTACGCGCGCGAACGCTGCACATTGCAGGGCAGCCTGGACCGGCTCGCCGAACAGGACCCGCTGACCGGCATCGCCAACCGCCAGGGCTTCCACACCCTGCTCGCCGCCCGGCTGGCCGAGTGCCCGGAAGGGCTGGTCCTCGGCCATCTCGATCTCGACAACTTCCGCCATGCCAACGACGCCCTCGGCCACCAGGCCGGCGATCACCTGATCCTCCAGGTCGTCGCCCGGATCAAGGCCGAACTGGAGGCTGGCGACCAGTTGGCTCGCCTGGGCAGCGACGAATTCGCCCTGCTGCTCGACGTGCGGCGTGACGGCCAGCGGGCGCAGCGGGTCGCCGAACGTATCATCGAAGCCCTCGCCGAGCCGTACCGGGTGGACGACGAGAGCCTGCTGATCGGTTGCAGCCTGGGATTGGCCCACGCCCAGGCCGGGACGGGCGCCGACCCGCTGATGTGGCACGCCCACATCGCCATGCGCCAGGCCAAGAGTCGCCAGGGTTGCACCTTCCATTTCTACGACGCGCGGATCAACCGCCACGCGCGCAGCCTGGCCGATCTCGAAGGCGAGTTGCGCAGGGCGCTGCGCCGCGAAGAGCTGGAGCTGCACTATCAGCCGCGCCTGCACCTGGAGAGCGGCGAGATCGTCGGGCTCGAGGCGCTGGTGCGCTGGCGCCACGCCGAACGCGGCCTGCTGGGGCCGGACGAGTTCGTGCCGCTGGCCGAGCAGTGCGGCCTGATCGTGCCGCTCGGCTACTGGGTCATCGCCCGTGCCCTGCGCGACATGCAGTGGCTGCGCGGGCGGGGCCTGCCGAGCCTGCACATGGCGGTAAACCTGTCGTTCCGCCAGTTCCAGGACAGTCAATTGCTGCCCACCCTCAAGCGTCTGATCCGCGAACGGGGCGTCGCCGCCGAGTGGCTGGAATTCGAGCTGACCGAAACCGCCGTGATGCGCCGTAGCGACCAGGTGCTACAGACCATGCAGGCGCTCGGCAAGCTGGGCGTGCGCTTCTCCCTGGACGATTTCGGCACGGGCTTCTCCTCCTTCGTCCACCTCAACAACCTGCCGATCACCCTGCTGAAGATCGACCGCAGCTTCGTCGCCGGCATGAGCGAGCGCCCCGGGAACCGTCAACTGGTGCGGGCCATGATCAGCCTGGCGCACAACCTCGACCTGAAGGTGGTCGCCGAAGGCGTGGAGAATGACGAGCAACTGGAGACGTTGCGGGAATTCGGCTGCGATCAGGTGCAAGGCTATCTGATCAGCAAGGCGCTACCGATCAACGATCTGGCACGCTTCCTCATGTTCGGCATCCGTCGTTCGCTGCTGGAAGGCTCGCCAGTCGCTTAA	MSALVEPLRLLLLTDDPSWGRLLDRCLATLGAPPVITAPSWDIASSLFDETPEGLVLATPDYLPSGSECPLPMVALLEAEPEFSPAGACDWLVRGSLTPELLRRCLRYARERCTLQGSLDRLAEQDPLTGIANRQGFHTLLAARLAECPEGLVLGHLDLDNFRHANDALGHQAGDHLILQVVARIKAELEAGDQLARLGSDEFALLLDVRRDGQRAQRVAERIIEALAEPYRVDDESLLIGCSLGLAHAQAGTGADPLMWHAHIAMRQAKSRQGCTFHFYDARINRHARSLADLEGELRRALRREELELHYQPRLHLESGEIVGLEALVRWRHAERGLLGPDEFVPLAEQCGLIVPLGYWVIARALRDMQWLRGRGLPSLHMAVNLSFRQFQDSQLLPTLKRLIRERGVAAEWLEFELTETAVMRRSDQVLQTMQALGKLGVRFSLDDFGTGFSSFVHLNNLPITLLKIDRSFVAGMSERPGNRQLVRAMISLAHNLDLKVVAEGVENDEQLETLREFGCDQVQGYLISKALPINDLARFLMFGIRRSLLEGSPVA	PGPT0026010_2771	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0026010-mucR-K21023	NA	NA
BMS010_04925	1395	mdtK_2	COG0534	Multidrug resistance protein MdtK	ATGACGCAACCCCTTCGCAACGAACTCCGGGCCATCCTGCACTTGGCCGGTCCGCTCATCGCGGCCCAGTTGGCGCACGTACTGATGGTCTTCACCGACACGGTGATGATGGGCCTGCTCGGCCCCGACGCCCTGGCCGGCGGCGGCCTGGGCGCGGCCAGCTATTCGTTCGTGTCGATCTTCTGCGTCGGCGTGCTGGCTTCGGTGGGCAACCTTGTCGCGATCCGTCATGGCGCCGGCGATGCGCTGGGCGCCGCGCGCCTGGCACAGACAGGGCTGTGGCTCGGCTGGGGACTGGCGCTGGCGGCGGGATTGCTCCTGTGGAATCTGCAGCCGTTGCTGCTGCGCTTCGGCCAGGCGCCGGACAGCGTCGAGGGCGCCATGCAGTTTCTCTCCACCCTGGTGTTCGCCCTGCCCGGCTACCTCAGCTTCATGACCCTGCGCGGCTTCACCAGCGCCATCGGCCGCGCCGGCCCGGTCATGGCGATCAGCATCGGCGGAGCGCTGGCCAATGTGGTTCTGAACTACGCACTGATCCAAGGCTGGTTCGGCCTGCCGCGCCTGGGCCTGGCCGGTATCGGCCTGGTCACCGCGCTGGTGATGAACGGCATGGCCCTGTTACTGGCAAGGCATATCGCTCGGCATCCCGCTTACGACGTCTATCCACTGATTGCCGGGCTTTGGCGGCCGTCGCGCGCGGCCCTGGGCGAATTGCTGCGCCTGGGCCTGCCGATCGGCGGCACCTATGCGGTGGAATCCGGTCTCTTCGCGTTCTCCGCGCTGTGCATGGGCGCGCTTGGCAGCACCCAACTGGCGGCGCACCAGATCGCCATTCAGTCGGTCTATGTGGCCTTCATGGTGCCGGTGGGGATTTCCTACGCCGTGACCTTCCGTATCGGCCAGCACTATGGCGCGGGACGCCTGCTCGATGCGCGCCGGGCCGGGCGCCTGGGCATCGTCTTCGGTGCCGCCTGCATGCTCGGCTTCGCCGCGCTGTTCTGGCTGGCCCCGACCTGGGTGGTCGGCCTGTTCCTCGACGGAGCCGACCCGGCGTTCCACGACGTCTTCGAACTGGCCGTAGCCCTGCTCGCCGTGGCGGCCTGGTTCGAACTGTTCGACGGGACCCAGACCATCGCCATGGGCGCGATTCGCGGCCTGAAGGATGCCAAGACCACCTTCTGGGTCGGCCTCGCCTGCTACTGGCTGGTCGGCGCGCCGGCGGCCTGGCTGCTGGCGTTCCCCCTCGGTTGGGGCGCCACCGGCGTCTGGTGGGGGTTGGCCCTGGGCCTGGCCTGCGCGGCGCTCGGCCTGACCCTGGGTTTCGAGTGGAAGACCACGCGTCTGCTCGATCCGGATCGCGGCGATGCTACCGACGCGCGGGCCGCACTGCTTTAA	MTQPLRNELRAILHLAGPLIAAQLAHVLMVFTDTVMMGLLGPDALAGGGLGAASYSFVSIFCVGVLASVGNLVAIRHGAGDALGAARLAQTGLWLGWGLALAAGLLLWNLQPLLLRFGQAPDSVEGAMQFLSTLVFALPGYLSFMTLRGFTSAIGRAGPVMAISIGGALANVVLNYALIQGWFGLPRLGLAGIGLVTALVMNGMALLLARHIARHPAYDVYPLIAGLWRPSRAALGELLRLGLPIGGTYAVESGLFAFSALCMGALGSTQLAAHQIAIQSVYVAFMVPVGISYAVTFRIGQHYGAGRLLDARRAGRLGIVFGAACMLGFAALFWLAPTWVVGLFLDGADPAFHDVFELAVALLAVAAWFELFDGTQTIAMGAIRGLKDAKTTFWVGLACYWLVGAPAAWLLAFPLGWGATGVWWGLALGLACAALGLTLGFEWKTTRLLDPDRGDATDARAALL	PGPT0029115_6177	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029115-TC_MATE|norM|mdtK|dinF-K03327	NA	NA
BMS010_04926	921	gcvA_5		Glycine cleavage system transcriptional activator	ATGCGTCGCCTGCCGCCGCTCTATGCCCTGCGTGCTTTCGAAGCCGCCGCCCGGCATGCCTCCTACACCCGTGCCGCCGAAGAACTGGTCATCACCCAGAGTGCGGTGAGCCGGCACATCCGCACGCTGGAAGAGCACTTCGGCTGCCGGCTGTTCCAGCGCCAGGGCCGCAACCTGCGGCTGAGCGAGCAGGGCCGCCTGCTGCTGCCGGGGATCAGCGACGGCTTCGATGCCCTGGTGCGGGCCTGCGCGACCCTGGAGGTGGACGACCGCATCCTGCGCCTGAAGGCGCCCTCGACCTTGACCATGCGCTGGCTGCTGGCGCGCCTCAGTCGTTTCCGTCACCAGCACCGTGATATTGAAGTGCAACTGACCAGCGCCTGGATGGATGTGGACAAGGCGGATTTCGCCAACGAGCCCTTCGATTGTGCAGTGCTGCTTCTGGGCGAAGGTGCCGCTCACCCGGACTGGGAAATGACGCTGCTGTTTCGCGAATGGTTGATCCCGGTCTGCGAGCCATCGCTGGCCGCCGAGGAGACCTGGACGGCGGAGCGACTGGCGCAGGCGGAGTTGCTGCACCCGACACCGGACCGCCGCGACTGGCGCAAATGGCTGCAGCGCATGGGTTTGAGAGAGCAAGTCTCGATCAAGGGCGGGCAGGTATTCGACACGCTGGAGCTGGGCATGGTCGCGGCGGCACGAGGATATGGCGTGTCCATCGGCGACCTGGTGATGATCGCCGAGGACATCGAGCAGGGCCGCATCGGCCTGCCCTGGCCGAGCGCGGTCGCCAGCGGCGAAAGCTACTACCTGGTCTGGCCGAAGGGGCGGGGCGGGCAGGAGCGGCTGCAGCGGTTGCGCGACTTTCTGGTGGCCGAGCTGGCGGCGATGCGCCTGCCAGCGGTGAAGCTGTTGGACTAG	MRRLPPLYALRAFEAAARHASYTRAAEELVITQSAVSRHIRTLEEHFGCRLFQRQGRNLRLSEQGRLLLPGISDGFDALVRACATLEVDDRILRLKAPSTLTMRWLLARLSRFRHQHRDIEVQLTSAWMDVDKADFANEPFDCAVLLLGEGAAHPDWEMTLLFREWLIPVCEPSLAAEETWTAERLAQAELLHPTPDRRDWRKWLQRMGLREQVSIKGGQVFDTLELGMVAAARGYGVSIGDLVMIAEDIEQGRIGLPWPSAVASGESYYLVWPKGRGGQERLQRLRDFLVAELAAMRLPAVKLLD	PGPT0026360_2812	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
BMS010_04927	978	gnl_2		Gluconolactonase	ATGAGCCCGCATTTCATCGCCTACAGCGAAGCCTTTCACGACGTCACCGGTCCCGATCCGCGGTTCTTCACCCTGGTAGAAACCAATGCCCACGAGGGGCCGGTGTATGTGCGGGACGAGGACGCGCTGTATTTCACTACCGTCCCGCAGAATGTCGAGGTTCCGCTGCCGGGTTTCCAGCGGGTCGATATCAAGCGGGTCTCGCTGGCCGGCGAGATATTTCCGCTGCCTGCCGAGGCGGTCACGACCGTCCGCGCCAACGCCAACATGGCCAACGGCATGACGCTGGACCTCGAGGGCAACCTGGTGGTTTGCGAGCAGGGCAGCAAGACCGAGCCCGCGCGCATCACCCGGATGAGCCAGCAGGGCGGGGCAGTGGAAACCCTGGTCGACCAATGGCGCGGGCTGCGCTTCAACTCGCCCAACGACGTGGTGGTTAAAAGCGACGGGACGGTGTGGTTCACCGATCCGAGCTACGGCGCCTTGCAGGGCTTCAAGGATGCGCCGCTGCTGGGGGATTTCGTCTATCGCTACGATCCGCGCAGCGGGATGCTGTCAGTGGTGGCGGATGGCTTCGACAAACCCAACGGGCTGGCCTTCTCGCCGGACGAGTCGGTGTTCTATGTCACCGACAGCGGCGCGATCCAGGGTCCTGGCAGCTATGTGGTCGACCGCCCGCACCATATTCGTGCCTTCGACGTGCGCGGCGGTCGCCACCTGGCCAACGAGCGACTGTTCGCCGTGGTCGCGCCGGGCATCCCCGACGGCATCAAGCTGGACAGCGCTGGGCGCGTCTACAGCTCGTCGGCCAGCGGTATCCAGGTATTCGAGCCGTGCGGCGACCTCATCGGCGAGATCGTCGCGCCGGGGGTGGCGAACTTCTGCTTCGGCGGTCAAGGGAACGACACGCTGTTCATTCTCGCGGACACCGTCATCTGGGCCGCGCGCATCCAGGCGGTGGGCGCGGCGCGGAGCTGA	MSPHFIAYSEAFHDVTGPDPRFFTLVETNAHEGPVYVRDEDALYFTTVPQNVEVPLPGFQRVDIKRVSLAGEIFPLPAEAVTTVRANANMANGMTLDLEGNLVVCEQGSKTEPARITRMSQQGGAVETLVDQWRGLRFNSPNDVVVKSDGTVWFTDPSYGALQGFKDAPLLGDFVYRYDPRSGMLSVVADGFDKPNGLAFSPDESVFYVTDSGAIQGPGSYVVDRPHHIRAFDVRGGRHLANERLFAVVAPGIPDGIKLDSAGRVYSSSASGIQVFEPCGDLIGEIVAPGVANFCFGGQGNDTLFILADTVIWAARIQAVGAARS	PGPT0001285_529	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION_D_GLUCONATE_BIOSYNTHESIS,PGPT0001285-gnl-K01053	NA	NA
BMS010_04928	1494	comM_2	COG0606	Competence protein ComM	ATGTCCCTGGCTATCGTCCATAGCCGCGCCCAGGTCGGTGTCGAAGCACCGGCCGTCACCGTCGAAGCCCACCTGGCCAACGGCCTGCCCTCCCTGGCCCTGGTCGGCCTTCCGGAAACCGCCGTCAAGGAAAGCAAGGACCGCGTTCGTAGCGCCATCCTCACCTCCGGCTTCGAATTCCCGCCGCGTCGAATCACATTGAATCTCGCGCCAGCCGACCTTCCCAAGGACGGTGGACGCTTCGATCTGGCCATCGCCCTGGGCATTCTTGCCGCCAGCGGCCAGTTGCCCCCCGATAGCCTGGACCGCGTCGAATGCCTGGGCGAGCTGGCGCTCTCCGGCGCCCTGCGCTCCGTCCAGGGCGTCCTCCCTGCCGCACTCGCCGCCCGCGACGCCGGACGCACCCTGGTGGTGCCGCGGGCCAATGCCGAGGAAGCCTGCCTCGCCAGCGGCCTGACGGTGATCGCCGCCGACCACCTACTGGAGCTGGCCGCGCATTTCAACGGCCATACGCGCTTGTCGCCCTACCAGGCGCAAGGTCTGCTGCGGCAAACCCGCCCTTACCCGGACCTCGCCGAGGTCCAGGGACAGAGCGCCGCCAAGCGCGCCCTGCTGGTGGCTGCGGCGGGATCGCACAATCTGCTGTTCAGCGGCCCGCCCGGCACCGGCAAGACCTTGCTGGCCAGCCGACTGCCCGGCCTGCTGCCACCATTGGATGAGCGTGAGGCGCTGGAAGTCGCCGCCATCCATTCGGTGGCCAGCCACACGCCGCTGGACGCCTGGCCACAGCGCCCGTTCCGCCAGCCTCACCACAGCGCATCGGGCCCGGCCCTGGTGGGAGGAGGTAGTCGCCCGCGTCCCGGCGAGATCACATTGGCGCATCAGGGCGTGCTTTTTTTAGATGAGCTTCCCGAGTTCGACAGGAAGGTCTTGGAAGTCCTGCGCGAGCCCATGGAAAGCGGCGAGATCGTGATCGCCCGCGCCCACGACAAAGTCCGCTTCCCGGCCCGCTTCCAGTTGGTCGCGGCGATGAATCCCTGCCCTTGCGGCTACCTGGGCGACCCCAGCGGACGCTGCCGCTGCTCGCCCGACCAGATCCAGCGCTACCGCGCCAAGCTCTCCGGGCCGCTGCTCGACCGCATCGACCTGCACGTGACGGTCGCCCGCGAAGCCACGGTGCTGAATGCTCGCACCATCGACGGCCCGGACAGTGCCGGCGCCGCCCGCGAGGTGGCCCGGGCGCGGGAGCGCCAGTTGAGTCGCCAGGGCCGTGCCAACGCCTTCCTCGACCTGCCCGGCCTGCGCCAGCACTGTGCCCTCGACGAAGACGACCAGCGCTGGCTGGAAACCGCCTGCGAGCGTCTCGGCCTGTCCCTGCGCGCCGCTCACCGCATCCTCAAGGTGGCGCGCACCCTTGCCGATCTGGAGCAGGCCGAACGGATCGGCCGGCAGCATCTGGCCGAAGCGCTGCAATACCGCACCAACCTCGGCTGA	MSLAIVHSRAQVGVEAPAVTVEAHLANGLPSLALVGLPETAVKESKDRVRSAILTSGFEFPPRRITLNLAPADLPKDGGRFDLAIALGILAASGQLPPDSLDRVECLGELALSGALRSVQGVLPAALAARDAGRTLVVPRANAEEACLASGLTVIAADHLLELAAHFNGHTRLSPYQAQGLLRQTRPYPDLAEVQGQSAAKRALLVAAAGSHNLLFSGPPGTGKTLLASRLPGLLPPLDEREALEVAAIHSVASHTPLDAWPQRPFRQPHHSASGPALVGGGSRPRPGEITLAHQGVLFLDELPEFDRKVLEVLREPMESGEIVIARAHDKVRFPARFQLVAAMNPCPCGYLGDPSGRCRCSPDQIQRYRAKLSGPLLDRIDLHVTVAREATVLNARTIDGPDSAGAAREVARARERQLSRQGRANAFLDLPGLRQHCALDEDDQRWLETACERLGLSLRAAHRILKVARTLADLEQAERIGRQHLAEALQYRTNLG				NA	NA	NA	NA	NA
BMS010_04929	273	ubiK_2		Ubiquinone biosynthesis accessory factor UbiK	ATGCTGCCGCCCAAAGCCTTGCTCGATGCCCTCGGCACCCATGCTTCGCGCCTGTTCAACGGCGATGCGCCGCTGCCGCGCCAGGAATTCGAAACCCAGTTCAAGGCCTTGTTGCAGAGCGCTTTCAGCAAACTCGACCTGGTCAGCCGGGAAGAATTCGACAGCCAGATGGCCGTGCTCGCGCGGACCCGCTCCCGCCTGGAAACGCTCGAAGCCAAGGTCGCCGAACTGGAAGCGAGACTCACCCAGGAAACCACGCCGCCCACCGAGTGA	MLPPKALLDALGTHASRLFNGDAPLPRQEFETQFKALLQSAFSKLDLVSREEFDSQMAVLARTRSRLETLEAKVAELEARLTQETTPPTE				NA	NA	NA	NA	NA
BMS010_04930	339	glnK	COG0347	Nitrogen regulatory protein P-II 2	ATGAAGCTAGTCACTGCCATCATCAAGCCGTTCAAGCTGGACGACGTGCGCGAGTCGCTGTCGGAGATCGGCGTGCAGGGCATCACCGTCACCGAAGTCAAGGGTTTCGGTCGGCAGAAAGGCCACACCGAGCTGTACCGTGGCGCCGAATACGTCGTCGACTTCCTGCCCAAGGTGAAGATCGACGTGGCTATCGCCGACGACCAGCTCGACCGCGTCATCGAGGCCATCACCAAGGCCGCCAACACCGGCAAGATCGGTGACGGCAAGATCTTCGTGGTGAATCTGGAACAGGCTATCCGTATCCGGACCGGCGAAACCGGCACCGACGCGATCTAA	MKLVTAIIKPFKLDDVRESLSEIGVQGITVTEVKGFGRQKGHTELYRGAEYVVDFLPKVKIDVAIADDQLDRVIEAITKAANTGKIGDGKIFVVNLEQAIRIRTGETGTDAI	PGPT0000675_218	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-GLUTAMATE|GLUTAMINE_SYNTHASE|GLTS_PATHWAY,PGPT0000675-glnK|glnZ-K04752	NA	NA
BMS010_04931	1314	amtB_2		Ammonia channel	ATGACTCTGCGAAAAATCGCAGGGCTAGGAGCCCTTTTGTCCCTCGTACCGGGCCTTGCCCTGGCCGAGGAACCGACCTTGAACAGTGGCGACACGGCCTGGATGCTGGTCGCGACTGCGTTGGTGCTGTTCATGACCATCCCCGGCCTGGCGTTGTTCTACGCCGGTATGGTGCGTTCCAAGAATGTCCTCTCGGTGCTCATGCAGTGCTTCGCCATCACCGGGCTGATCAGTGTCCTGTGGGTGATCTACGGCTACAGCCTGGCGTTCGACACCACGGGCATGGAGCAGGGCGTCACCAATCTCAATTCTTTCATCGGCGGCCTGTCGAAAGCCTTCCTCGCCGGTCTGGGTACCGAGAGCCTGGTGGCCAGCATCCCGGAAAGCGTGTTCATCACCTTCCAGATGACCTTCGCCATCATCACGCCCGCCCTGATCGTCGGTGCTTTCGCCGAGCGCATGAAGTTCTCCGCCATGCTGATCTTCATGGCGGTCTGGTTCACCGTCGTTTATGCGCCCATCGCCCACATGGTCTGGAGCGGTGACGGCGCACTGATGTGGGACTGGGGCGTGCTCGACTTCGCCGGCGGCACCGTGGTGCACATCAACGCCGGTATCGCCGGCCTGGTGGCCTGCCTGGTGCTGGGCAAGCGCAAGGGTTATCCGACCACCGCCATGGCGCCGCACAACCTCGGCTACACCCTGATCGGCGCCAGCATGCTCTGGGTCGGCTGGTTCGGCTTCAACGCGGGCTCCGCCGTGGCCGCCAACGGAACCGCCGGCATGGCCATGCTGGTCACCCAGATCGCCACCGCCACCGCGGCCCTGGCCTGGATGTTCGCCGAGTGGATCACCCACCGCAAACCCAGTGTCCTGGGCATCGCCTCCGGCGCCGTCGCCGGCCTGGTGGCCATCACCCCGGCTTCCGGCACTGCCGGCCCGATGGGGGCACTGGTGATCGGCCTGGCCGCCGGTGTCATCTGCTTCTTCTGCGCCACCAGCCTGAAACGCAAGCTGGGCTACGACGACTCGCTGGACGTCTTCGGCGTGCACGCCGTCGGCGGCATTGTCGGCGCGATCCTGACCGGTGCGTTCGCCGCGCCGTCGCTAGGCGGTTTCGGTGAGGTGGAAAGCATCGCCGGGCAGCTCTGGGTGCAGATCGAAGGCGTGCTGTTCACGGTCATCTACACCGCTGTGGTGACCTTCGTGATCCTGAAAGTGATTGACCTCGTGATGGGCTTGCGTGTCAGCGAAGAGGAAGAGACCGTCGGCCTCGATCTCTCCCTGCACAACGAGCGCGGATACAACCTATAA	MTLRKIAGLGALLSLVPGLALAEEPTLNSGDTAWMLVATALVLFMTIPGLALFYAGMVRSKNVLSVLMQCFAITGLISVLWVIYGYSLAFDTTGMEQGVTNLNSFIGGLSKAFLAGLGTESLVASIPESVFITFQMTFAIITPALIVGAFAERMKFSAMLIFMAVWFTVVYAPIAHMVWSGDGALMWDWGVLDFAGGTVVHINAGIAGLVACLVLGKRKGYPTTAMAPHNLGYTLIGASMLWVGWFGFNAGSAVAANGTAGMAMLVTQIATATAALAWMFAEWITHRKPSVLGIASGAVAGLVAITPASGTAGPMGALVIGLAAGVICFFCATSLKRKLGYDDSLDVFGVHAVGGIVGAILTGAFAAPSLGGFGEVESIAGQLWVQIEGVLFTVIYTAVVTFVILKVIDLVMGLRVSEEEETVGLDLSLHNERGYNL	PGPT0000840_4511	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-AMMONIUM_ASSIMILATION|USAGE	N-AQUISITION-AMMONIUM_TRANSPORT,PGPT0000840-amtB|ybaG|amt-K03320	NA	NA
BMS010_04932	1251	amtB_3		Ammonia channel	ATGGAAAACACCGCTTTGATTCCTTTGCAGTACGCATTGGATACCTTCTACTTTCTGGTTTGCGGCGCGTTGGTGATGTGGATGGCGGCGGGGTTCGCCATGCTCGAAGCCGGCCTGGTGCGGGCCAAGAACACTACCGAGATCCTCACCAAGAACGTGGCGCTGTATGCCGTCGCCTGCGTGATGTACATGCTGATCGGCTACCACATCATGTACTCCAGCCCGGAAGGCGGCATCCTCCCCAGCATCGGTTTCCTGCTCGGTGACGAGCATGCCGTCGACGTGGTCGCGGCCGGTGGCGAAGACGCGCCGTATTACTCCGCGCGTGCCGACTTCTTCTTCCAGGTGGTGTTCGTTGCCACCGCCATGTCGATCGTTTCCGGCGCCGTCGCCGAGCGCATGAAGCTCTGGACCTTCCTCGCCTTCGCGGTGGTGATGACTGGCTTCATCTACCCGGTGGAAGGCTACTGGAAGTGGGGCTCGGGCTTTCTCAACGCGGCCGGTTTCCTTGACTACGCCGGCTCCGGCGTGGTGCACATGACCGGTGCCGCCGCGGCCCTGGCCGGTGTCCTGCTGCTCGGCCCGCGCAAGGGCAAGTACGGCGCGAATGGCCAGGTCAACGCGATTCCCGGCGCCAACCTGCCGCTGGCCACCCTTGGCACCTTCATCCTGTGGATGGGCTGGTTCGGCTTCAACGGCGGTTCGCAGCTCAAGACCAGCACCATCGAAGATGCCAGTGCCGTGGCGAACGTGTTCGTCAACACCAACATGGCCGCTGCCGGTGGCCTGATCGCCGCGCTGATCGTTGCCCGCATTCTGTTCGGCAAGGCCGACCTGACCATGGCCCTCAACGGCGCCCTGGCCGGCCTGGTGGCGATCACCGCCGAGCCGCTGACCCCGAGCGCCATCCAGGCCACCCTGATCGGGGGCGTCGGTGGCGTGCTGGTGGTGTTCAGCATCCTGGGTCTGGACAAGCTGAAGATCGACGATCCGGTCGGTGCCATCTCGGTTCACGGCGTGGTTGGCATCTGGGGCCTGCTGGCCGTCTGCCTGACCAACGCCGATGCGAGCATCGGTGCCCAGTTGCTGGGGATCGGCTGCATCTTCGCCTGGGTGTTCGTAGCCAGCCTGATCGTCTGGGGCATTCTCAAACTGGTCGTCGGCTTGCGTGTCAGCGAGGAAGAAGAATACGAAGGCGTGGATATCGCCGAATGCGGCATGGAAGCCTATCCGGAATTCACCAAGCAGTGA	MENTALIPLQYALDTFYFLVCGALVMWMAAGFAMLEAGLVRAKNTTEILTKNVALYAVACVMYMLIGYHIMYSSPEGGILPSIGFLLGDEHAVDVVAAGGEDAPYYSARADFFFQVVFVATAMSIVSGAVAERMKLWTFLAFAVVMTGFIYPVEGYWKWGSGFLNAAGFLDYAGSGVVHMTGAAAALAGVLLLGPRKGKYGANGQVNAIPGANLPLATLGTFILWMGWFGFNGGSQLKTSTIEDASAVANVFVNTNMAAAGGLIAALIVARILFGKADLTMALNGALAGLVAITAEPLTPSAIQATLIGGVGGVLVVFSILGLDKLKIDDPVGAISVHGVVGIWGLLAVCLTNADASIGAQLLGIGCIFAWVFVASLIVWGILKLVVGLRVSEEEEYEGVDIAECGMEAYPEFTKQ	PGPT0000840_5943	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-AMMONIUM_ASSIMILATION|USAGE	N-AQUISITION-AMMONIUM_TRANSPORT,PGPT0000840-amtB|ybaG|amt-K03320	NA	NA
BMS010_04933	423			hypothetical protein	ATGTGGCAGCAGAGCCTGATTACCCTGCGTGCGCGCCCTCGAGGTTTTCATCTGATCACCGATGAGCTGGTGGCGGCATTGCCGGAACTGTCTCGTTGCAAGGCAGGTCTGTTACATCTCTGGCTGCAGCACACATCGGCGTCCTTGACCATCAACGAGAATGCCGACGCTGCGGTGCGGCGGGACTTCGAGCGGTTCTTCAACCGTCTGGTGCCCCAGGGCGCGGAAGGCTACGAACACGATTACGAAGGTCCGGACGACCTGCCAGCGCACTTCAAGGCGAGCCTGCTCGGCTGTCAGGTGAGCCTGCCGGTGAGCGAGGGGCGTCTGGCGCTGGGGACCTGGCAGGGGATCTACCTGGGGGAGCACCGCGATCACGGCGGTGCCCGCCGGGTCCTGGCGACCCTGCATGGCGATTTTTGA	MWQQSLITLRARPRGFHLITDELVAALPELSRCKAGLLHLWLQHTSASLTINENADAAVRRDFERFFNRLVPQGAEGYEHDYEGPDDLPAHFKASLLGCQVSLPVSEGRLALGTWQGIYLGEHRDHGGARRVLATLHGDF	PGPT0015021_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015021-yugU-NA	NA	NA
BMS010_04934	321	sutA		Transcriptional regulator SutA	ATGAGCGACGAAGAACTGGAACAAGACGAGCTGGAAGGGGCTGACGAGGAGGACGGCGAGGAACTGGCCGCCGCGGATGAGGGTGATGCCGAGGTCGAGAGCGATGACGAGCGCGTAGCCGCGCCTGGCAAGAAAGCCAAGGCGGCTGTCGAGGTCGACGAATTGCCGAGTATCGAAGCCAAGCAGAAGGAACGCGAAGCGCTGGCCCGGGCGATGGAAGAGTTCCTCGCGCGTGGCGGCAAAGTGCAGGAAGTCGAGCCGAACGTAGTCGCTGACCCGCCGAAAAAGCCGGACAGCAAATACGGTAGCCGGCCTATCTGA	MSDEELEQDELEGADEEDGEELAAADEGDAEVESDDERVAAPGKKAKAAVEVDELPSIEAKQKEREALARAMEEFLARGGKVQEVEPNVVADPPKKPDSKYGSRPI				NA	NA	NA	NA	NA
BMS010_04935	693	yigB	COG1011	5-amino-6-(5-phospho-D-ribitylamino)uracil phosphatase YigB	ATGACGATTCACCTGATCACCTTCGATCTCGACGACACCCTTTGGGACGTCGCGCCGGTGATGAACAACGCCGAGGCGGCGTTGCGCGAATGGCTCGGCCTGTACGCCCCACGCCTCGGCCCGGTACCGATCGAACACCTATGGGCGATCCGCGCCCGCCTGCTGGAAAAAGAGCCCGCCTTGAAGCATCGCCTCAGCGAGCTGCGCCGGCGCATCCTCTTCCATGCCCTCGAAGACGCCGGCTATCCGTATCGGGAGGCCATGGCGCTCGCCGAAGGCGGTTTCCAGGTCTTTCTCGCCGCACGGCATAAGGTAGAGCTGTTCCCCGAAGTACACCCGACCCTGGAAGTCCTCGCCAATCGCTACCGCCTCGGCGTGCTCACCAACGGCAATGCGGACGTCCGCCGCCTGGGACTGGCCGATTATTTCCAGTTCGCTCTCTGCGCCGAGGAGCTGGGTGTGGGCAAGCCCGATCCCCACCCCTTCCGCGAAGCGCTCAAGCGCGCCGCTGTGGAGGCCGAATATGCCGTCCATATCGGCGACCATCCCAGCGACGACATCCAGGGCGCGCAGGCCGCCGGACTCCGGGCCATCTGGTACAACCCGCAAGGCAAGGTCTGGCCGGCAGAACGCGCACCGGACGCGGAAATCCGCAGCCTGGCGGAATTGCCGGCACTGCTGTCGGGCTGGTGA	MTIHLITFDLDDTLWDVAPVMNNAEAALREWLGLYAPRLGPVPIEHLWAIRARLLEKEPALKHRLSELRRRILFHALEDAGYPYREAMALAEGGFQVFLAARHKVELFPEVHPTLEVLANRYRLGVLTNGNADVRRLGLADYFQFALCAEELGVGKPDPHPFREALKRAAVEAEYAVHIGDHPSDDIQGAQAAGLRAIWYNPQGKVWPAERAPDAEIRSLAELPALLSGW	PGPT0008585_729	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008585-yigB-K20862	NA	NA
BMS010_04936	906	xerC_5	COG4973	Tyrosine recombinase XerC	TTGAAGCTCGCTGCTGACCTTGACACCTATCTCGAACACTTGCGCCGCGAGCGGCAGGTCTCGTCGCATACGCTGGATGGCTATGCCCGCGATCTGCGCAAGGTGCTGGAGTTCTGCGAGAGCGAAGGGCTGGGTGAGTGGTCCGGGCTCGATACGCCGCGGCTGCGCCGCTTCGTCGCCAAGCTGCACATGCGTGGCCAATCCAGCCGCAGTCTGGCCCGGCTGCTTTCGGCCGTGCGCGGCTTCTATCAGTACTTGGTGCGCGAAGGCCGCTGTCGTCACGACCCAGCCGCCGGCCTGAGCCCACCCAAGGGCGAGCGCCGCCTGCCCCGCACGCTGGACACCGACCGCGCCCTGCAATTATTGGAGGATGCCGTGGAGGACGATTTCATCGCCCGCCGCGACCAGGCCATGCTGGAGCTGTTCTATTCCTCCGGGCTGCGTCTTTCCGAACTGGTGGGGCTCGACCTGGATGGCCTGGATCTGCCCGCGGGGCTGGTCCGGGTACGCGGCAAGGGTAACAAGGTGCGTGAGCTGCCGGTGGGCAGCAAGGCACGCGAAGCACTGGAGGCCTGGCTGCCGTTGCGCGCCCTCGCCCGTCCGGCCGACGGCGCGGTTTTCGTCAGCCAGCAAGGCCGGCGTCTCGGTCCCCGTGCCGTACAGTTGCGGGTGCGCCAGGCCGGCGTGCGCGAACTGGGCCAGCACCTGCACCCGCACATGCTCCGACACAGTTTTGCCAGCCATTTGCTGGAATCGTCCCAGGACCTGCGGGCCGTACAGGAGCTGCTTGGACACGCCGACATCGCTACCACGCAGATTTACACGCATCTGGACTTCCAGCACTTGGCGACGGTGTATGACAGCGCCCATCCCCGGGCCAAACGCAGTAAGGACAACACCGAATGA	MKLAADLDTYLEHLRRERQVSSHTLDGYARDLRKVLEFCESEGLGEWSGLDTPRLRRFVAKLHMRGQSSRSLARLLSAVRGFYQYLVREGRCRHDPAAGLSPPKGERRLPRTLDTDRALQLLEDAVEDDFIARRDQAMLELFYSSGLRLSELVGLDLDGLDLPAGLVRVRGKGNKVRELPVGSKAREALEAWLPLRALARPADGAVFVSQQGRRLGPRAVQLRVRQAGVRELGQHLHPHMLRHSFASHLLESSQDLRAVQELLGHADIATTQIYTHLDFQHLATVYDSAHPRAKRSKDNTE	PGPT0021995_3150	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0021995-xerC-K03733	NA	NA
BMS010_04937	702			hypothetical protein	ATGACCGACCAGCGCCAGGACCCGCCCGTCACGCTCGACTCCGAGACCGTCGCCGCCTACCTGCGCCTGCACCCGGAGTTCTTCGTCGATCACGAAGAGCTTATCCCGGAACTGCGCATCCCGCACCTGCCGGGGGAAGCTGTTTCCTTGGTGGAACGCCAGGTCAAGCTGCTGCGCGAGCGCAACATCGAGATGCGCCACCGTCTGTCCCAACTGATGGACGTGGCGCGCGACAACGACCGGCTGTTCGACAAGACCCGCCGCCTGGTCCTCGACCTGCTCGATGCGGCCAGCCTCGAGGAAGTCGTCAGCGCGGTGGACGACAGCCTGCGCCATGAGTTCCAGGTACCCTTCGTCAGCCTGATCCTGTTCAGCGAATCGGCCCTGCCGGTGGGCCGCTGGGTCAGCATCGCCGAAGCGCACCAGGCGATCGGCGGCCTGCTCACCGGCGGCAAGACCATCTGCGGCGTACTGCGCCCGCATGAGCTGGCGTATCTCTTCGGCGAAGACCAGGGCCCGCAGGTGGGTTCGGCGGCAGTGGTCGCCCTCACCCACCAAGGACTGCACGGCGTGCTGGCGATCGGCAGCCCCGATCCGCAACACTACAAGAGTTCCCTGGGAACCTTGTTCCTCGGCTATGTCGCCGAGGTGCTTTCCCGCGTTCTCCCGCGTTTCGCCACCCCGCTGCGCTCGGTGCGCTAG	MTDQRQDPPVTLDSETVAAYLRLHPEFFVDHEELIPELRIPHLPGEAVSLVERQVKLLRERNIEMRHRLSQLMDVARDNDRLFDKTRRLVLDLLDAASLEEVVSAVDDSLRHEFQVPFVSLILFSESALPVGRWVSIAEAHQAIGGLLTGGKTICGVLRPHELAYLFGEDQGPQVGSAAVVALTHQGLHGVLAIGSPDPQHYKSSLGTLFLGYVAEVLSRVLPRFATPLRSVR				NA	NA	NA	NA	NA
BMS010_04938	831	dapF_1	COG0253	Diaminopimelate epimerase	ATGCTATTGCGCTTCACCAAGATGCACGGCCTCGGCAACGACTTCATGGTCCTCGATCTGGTCAGCCAGCACGCGCACATCCAGCCCAAGCACGCCAAGCAATGGGGCGACCGGCACACCGGCATCGGCTTCGATCAATTGCTGATCGTCGAGCCGCCGACCAACCCGGACGTGGATTTCCGCTACCGCATCTTCAATTCCGACGGTTCGGAAGTGGAGCAATGCGGCAACGGCGCGCGCTGCTTCGCCCGTTTCGTGCTGGATAAGCGGCTGACCGTCAAGCGACGCGTCCGCGTCGAGACCAAGAGCGGCATCATCGAACTGGACGTGCGCCCGGATGGGCAGATCCGCGTGGACATGGGCGCGCCGCGCCTCGCCCCGGCCCAGATCCCCTTCCAGGCCGAGGCGGAAGCGCTGAGCTATCCAGTCGAGGTGGACGGCCAGCAGGTCGAGCTGGCCGCGGTCTCCATGGGCAACCCTCACGCCGTGCTGCGCGTCGATAGCGTCGCCAGCGCGCCGGTGCATGAGCTGGGGCCGAAGCTGGAGCATCACCCGCGCTTCCCGCAGCGCGTCAACGTCGGCTTCCTGCAGGTGGTCGACCGCCAGCATGCCAAGCTGCGCGTCTGGGAACGTGGCGCCGGGGAAACCCAGGCCTGCGGTACCGGCGCCTGCGCCGCCGCCGTCGCCGCGATCCGCCAGGGCTGGATGGATTCGCCGGTGCAGATCGAACTGCCGGGCGGCCGCCTGTCCATCGAGTGGGCAGGCCCGGGGCAGCCGGTTATGATGACCGGGCCCGCTGTCCGCGTGTATGAAGGACAGGTTCGTCTATGA	MLLRFTKMHGLGNDFMVLDLVSQHAHIQPKHAKQWGDRHTGIGFDQLLIVEPPTNPDVDFRYRIFNSDGSEVEQCGNGARCFARFVLDKRLTVKRRVRVETKSGIIELDVRPDGQIRVDMGAPRLAPAQIPFQAEAEALSYPVEVDGQQVELAAVSMGNPHAVLRVDSVASAPVHELGPKLEHHPRFPQRVNVGFLQVVDRQHAKLRVWERGAGETQACGTGACAAAVAAIRQGWMDSPVQIELPGGRLSIEWAGPGQPVMMTGPAVRVYEGQVRL	PGPT0007230_3169	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007230-dapF-K01778	NA	NA
BMS010_04939	1248	lysA_2	COG0019	Diaminopimelate decarboxylase	ATGCAAGCCTTCACCTATCGCGACGGCCGGCTGTTTGCGGAGGACGTGGCGCTGTCCGCCATCGCCGAGCGTTTCGGCACCCCGACGTACGTTTATTCGCGTGCCCACATCGAGGCCCAGTACCACGCCTATGCCGATGCCCTGACCGGCATGCCGCACTTGGTCTGCTTCGCCGTCAAGGCGAACTCCAATCTGGGCGTGCTGAATGTCCTCGCGCGCCTCGGCGCGGGCTTCGATATCGTTTCCCGTGGTGAACTGGAACGCGTCCTGGCCGCTGGCGGCGCGCCGGACAAGATCGTCTTCTCCGGCGTCGGCAAGAGCCGCGAGGACATGCGCCGCGCCCTGGAAGTCGGCGTGCATTGCTTCAACGTCGAATCCACCGAGGAGCTGGAGCGCCTGCAACGGGTCGCCGCCGACATGGGCACCACCGCATCCATCTCGCTGCGGGTCAATCCGGATGTGGATGCCGGTACCCACCCCTACATTTCCACCGGCCTCAAGGAAAACAAGTTCGGCATCGATATCGAGCAGGCCGAGGCGGTCTACGCCCGTGCCGCCGCACTGCCGAACCTGCGCATCCTCGGCGTCGACTGCCACATCGGCTCGCAGCTCACCAGCCTGCCGCCGTTCCTCGATGCGCTGGATCGCCTGCTGGTCCTCGTCGATCGCCTCGCCGCGCGCGGCATCCAGATCCGCCACCTGGATCTCGGCGGCGGCCTGGGCGTGCGCTACAAGGATGAAGAGCCGCCATTGGCCGGCGACTACATCGCCGCTGTGCGCGAGCGCATCAAGGGCCGTGACCTGGCCCTGGTGTTCGAGCCCGGCCGCTTCATCGTGGCCAATGCCGGCGTGCTGCTGACCCGTGTCGAGTACCTCAAGCACACCGAACACAAGGATTTCGCCATCATCGATGCGGCGATGAACGACCTGATCCGTCCGGCCCTCTACCAGGCCTGGATGGATGTGTCCGCCGTGCAGCCGCGCGAGGGCGAATCGCGCCGCTACGATCTGGTCGGACCGATCTGCGAGACCGGCGACTTTCTCGCCAAGGATCGCGAACTGACCCTGGCCGAAGGCGACCTGCTGGCCGTTCGCTCGGCCGGCGCCTATGGTTTCGTCATGAGCTCGAACTACAACACCCGCGGCCGCGCTGCCGAGGTGATGGTCGACGGTGCGCAGGTCTTCGAAGTCCGTCGCCGCGAAACCCTCGAGGAACTCTACGCCGGCGAAAGCCTGCTTCCGCAGTGA	MQAFTYRDGRLFAEDVALSAIAERFGTPTYVYSRAHIEAQYHAYADALTGMPHLVCFAVKANSNLGVLNVLARLGAGFDIVSRGELERVLAAGGAPDKIVFSGVGKSREDMRRALEVGVHCFNVESTEELERLQRVAADMGTTASISLRVNPDVDAGTHPYISTGLKENKFGIDIEQAEAVYARAAALPNLRILGVDCHIGSQLTSLPPFLDALDRLLVLVDRLAARGIQIRHLDLGGGLGVRYKDEEPPLAGDYIAAVRERIKGRDLALVFEPGRFIVANAGVLLTRVEYLKHTEHKDFAIIDAAMNDLIRPALYQAWMDVSAVQPREGESRRYDLVGPICETGDFLAKDRELTLAEGDLLAVRSAGAYGFVMSSNYNTRGRAAEVMVDGAQVFEVRRRETLEELYAGESLLPQ	PGPT0023875_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023875-mrcA-K05366	NA	NA
BMS010_04940	141	lppL	COG5567	Lipopeptide	ATGAAGCGCCTGCTGCTTCCCTTCCTCGCGCTCGTCATCCTCGGCGCCGGCCTCGCCGGCTGCGGCCAGAAAGGCCCGCTCTACCACCCGGACGATGAAAAAGCCGCCAAAGAACACAGCAAAGACCGTTACGAATTCTAA	MKRLLLPFLALVILGAGLAGCGQKGPLYHPDDEKAAKEHSKDRYEF				NA	NA	NA	NA	NA
BMS010_04941	1059	virS_4		HTH-type transcriptional regulator VirS	ATGGAGATTGCCGAACCGCTGGCCAGTTCGGTGTCGGTGGCTTATCTGCAGGGATTGGTGGATTTTCTGCAACGCCGGGGCGTCGAGCCGGCGGCTTTCCTCGCCCGCGTCCAGTTGCCTGTGACGATCCTCGCCCAGCGCGACCAGCGTATCGCCGCCAGTGCCTACCTGGAGCTGCTCGGCCAGGCCGTCGAACTGACCGGCGACCCGGACCTCGGCCTGCACCTGGGTGAGGCGGTGCGCCCCGGTTACTACGGCGTGCTCGGTTATCTGGTGATGAGTTGCGCGACCCTGGCCGATGCGTTGCACCGGCAGGCGCGCTATGCCTCGCTGGTGGGCAATCTCGGCCGTGTCGGGCTGGCCGACGAGCCGCCGCGGGCCGGACTGGAGCCCCAGGTGGCGCACAGTTGGGAGCCGTTGCTGCCGCAGCAGCGCCGGCAGATCAGTGAGGAGACCCTGGCCGGCTGGGCCACCTTCGGCCGTTGGGTCAGTGGCCTGGACATTCCGCCCACCGAGGTCCGCTTCCAGCATCCGGCCCCGCCCGATATCGGCGAGCACCAACGGATTTTTCGCTGCCCGGTGCTGTTCGATCAGGTCGATAACGCCTTGGTGTTCCCCAAGCGCCTGCTCGCCACGCCGCTCGGCCAGGCGGATGCTCAGGTGCGGCGGATGCTCGACGCCTATGCCGATCGCCTGCTCGGCGAGCTGCGCCAGGGGCCGCATGTGCTGGATCGCGCCCGCCTGGAACTGGCCCGCCAGCTTCCGGAACAGGGTGCCGATCTGGAGCGGCTGGCCCAGGCGCTGGCGCTCAGCGCCCGCACGTTGCAACGGCGTCTGCGCGAAGCCGGGTTATCCTTCAGCCAACTGGTGGATGAAACGCGCCAGCAACTGGTGCTGCATTATCTGCGCGACCCGGCGCTGGAGTTGGCCGACATCGCCTTTCTCGTCGGTTTCAGCGAGCCCGGTTCGCTGGCCCGTGCGTTCCGCCGCTGGACCGGACAGAGCCCCGGCGAGTACCGTCGGCATCTTTCACTCATTTCCGAGGACCCCGCCCCATGA	MEIAEPLASSVSVAYLQGLVDFLQRRGVEPAAFLARVQLPVTILAQRDQRIAASAYLELLGQAVELTGDPDLGLHLGEAVRPGYYGVLGYLVMSCATLADALHRQARYASLVGNLGRVGLADEPPRAGLEPQVAHSWEPLLPQQRRQISEETLAGWATFGRWVSGLDIPPTEVRFQHPAPPDIGEHQRIFRCPVLFDQVDNALVFPKRLLATPLGQADAQVRRMLDAYADRLLGELRQGPHVLDRARLELARQLPEQGADLERLAQALALSARTLQRRLREAGLSFSQLVDETRQQLVLHYLRDPALELADIAFLVGFSEPGSLARAFRRWTGQSPGEYRRHLSLISEDPAP				NA	NA	NA	NA	NA
BMS010_04942	333	cyaY	COG1965	Iron-sulfur cluster assembly protein CyaY	ATGACCCTTAGCGAAGCCCGCTTCCACGATCTGGTCGATGCCGCCCAGGAGGCAGTGGAGGATGTGTTCGATAGCAGCGACCTGGATGTCGACCTGGAAAACTCGGCGGGGGTGCTCACCGTCCGCTTCGAGAACGGCAGCCAAGTGATCCTCAGTCGCCAGCCGGCCCTGCGCCAGCTATGGGTGGCGGCGCGTTCCGGCGGCTTCCATTTCGATTACGATCCGGACAGCGGCCGCTGGATCTGCGATACCAGCGAGGAGCCGCTGGGCGAGCTGATGGAGCGGGTGACCCGGGAGCAGATCGGTGAAGGACTCGAGTTCGAAGACCTCTGA	MTLSEARFHDLVDAAQEAVEDVFDSSDLDVDLENSAGVLTVRFENGSQVILSRQPALRQLWVAARSGGFHFDYDPDSGRWICDTSEEPLGELMERVTREQIGEGLEFEDL	PGPT0004050_149	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDATIVE_STRESS_RELATED_PROTEIN,PGPT0004050-cyaY-K06202	NA	NA
BMS010_04943	408	rnk	COG0782	Regulator of nucleoside diphosphate kinase	ATGACCAGTACACCGTCGATCACCATTACCCGCCTCGATCTGCAACGCCTGGAAAAGCTGCTCGATGGCCTGGAGGAATACGGCCCCGCAGCCCAGGCGTTGGAGCAGGAGCTGGCGCGGGCCCAGGTGGTCGGGCATGACGAGGTGCCGCCGGGCGTGGTGACGATGAATTCGCGCGTTCACTGCCGCGACGACAACAGTGGCAAGGAATACCACCTGACCCTGGTCTATCCGCAGGAAGCCGGCGCCGAAGGCACCGTCTCCATCCTCGCGCCGGTGGGCTGCGCGTTGCTCGGCCTGTCCGTGGGCCAGCACATCGACTGGCCGACACCGTCTGGCAAGCCGCTGCGGCTGACCCTGCTGGATGTCGAATACCAGCCCGAAGCGGCCGGGGAATACCGCCGCTAG	MTSTPSITITRLDLQRLEKLLDGLEEYGPAAQALEQELARAQVVGHDEVPPGVVTMNSRVHCRDDNSGKEYHLTLVYPQEAGAEGTVSILAPVGCALLGLSVGQHIDWPTPSGKPLRLTLLDVEYQPEAAGEYRR				NA	NA	NA	NA	NA
BMS010_04944	843			hypothetical protein	ATGTCCAGTCTTCCCCTCTACTTCCCCCAAGACTTCTCCCTACCACAGGCGTTGTTGTGCGCCAATCTGGTGGAGTCCGCCTACGACCAGTACACCCAGTGGCAGACGCAGGGCAAACCGCGCCGGCCCCAGGACTTCACCTGGCAGACGCCGGATATGGGCGGCTGGCGCTTCTCGGCGCCGATCTGGAGCATTCTCAGCGAACTGCACTTCCTCAACGAATCCGAGCCGTTCGGTTTCGCTGCCCGCGACCCGCAGGGCGAGGTCTATCTGGTGTTCCGTGGAACCGAGTCGGTGCAGGACTGGCTGGACGATCTGGATGCGGACCAGCAGACCTACCCCTGGCAACCGGGCCTTGGCTCGGTGCATGCCGGCTTCCTCAAGCTGTATGGCTCCCTGCGCGACCTGGCCTTGCAAGCGGTGGACAGCCTGCAGCCGGGCGGCCAACTGTGGTCATGCGGGCACAGCCTGGGCTGTGCACTGTCGAGCCTGGCGGTGCTCGACCTGCGCGAGCGCTACCCGGACCTGCCGTTGCAACACTACAACTTCGCCAGCCCGCGCCTGGCCGCGCCGAGCTTCGCCGACAGCTACAACGGGCTCAACGTGCCGACCTACCGGGTCGTCAACGACAGCGACGTGGTGCCCGAAGTGCCGCCCGGCGTGACCGGGGGTTGGCTCTATCAGCACATCGGCCTGGCGGTCACCTTCACCGCCAGTTACGCCAGCATCGAAGACAACCACAGCATGGCCGACTGTTACCTGTACGCCCTGAAGAATCCGAACGCGCCGATGCGCCAGGGCGTGACGGTCGCCGTATCCGAAGCACGGGTGGCCGTGACGTGA	MSSLPLYFPQDFSLPQALLCANLVESAYDQYTQWQTQGKPRRPQDFTWQTPDMGGWRFSAPIWSILSELHFLNESEPFGFAARDPQGEVYLVFRGTESVQDWLDDLDADQQTYPWQPGLGSVHAGFLKLYGSLRDLALQAVDSLQPGGQLWSCGHSLGCALSSLAVLDLRERYPDLPLQHYNFASPRLAAPSFADSYNGLNVPTYRVVNDSDVVPEVPPGVTGGWLYQHIGLAVTFTASYASIEDNHSMADCYLYALKNPNAPMRQGVTVAVSEARVAVT	PGPT0024445_1851	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_LIPASE_ACTIVITY,PGPT0024445-lip|lipC-K01046	NA	NA
BMS010_04945	1230	serA_2	COG0111	D-3-phosphoglycerate dehydrogenase	ATGAGCAAGACCTCTCTCGACAAGAGCAAGATCAAGTTCCTTCTCCTGGAAGGCGTCCATCAAACCGCCGTGGACACCATCAAGGCAGCCGGTTACAGCAACATCGAGTATTTCACCGGTTCGCTGCCGGAAGACCAGCTCAAGGAGAAGATCGCCGATGCTCACTTCATCGGCATTCGCTCGCGCACCCACCTGACCGAGGAAATCTTCGACCACGCGAAGAAACTGGTCGCCGTCGGCTGTTTCTGCATCGGTACCAACCAGGTCAACCTGGAAGCCGCCCGCGAACGCGGCATCGCGGTGTTCAACGCGCCCTATTCGAATACCCGCTCGGTGGCCGAGCTGGTACTGGCCGAAGCCATCCTGCTGCTGCGCGGCATCCCGGAGAAGAACGCGTCCTGCCACCGCGGCGGCTGGATCAAGAGCGCGGCCAACTCCTTCGAAATCCGCGGCAAGAAGCTCGGCATCGTCGGCTACGGTTCCATCGGCACCCAGCTCTCCGTGCTGGCCGAGGGCCTGGGCATGCAGGTGTATTTCTACGACGTGGTGACCAAGCTGCCGCTGGGTAATGCCCAGCAGATCGGTTCGCTGCACGAACTGCTCGGCATGGCCGACATCGTCACCCTGCACGTGCCGGAAACGCCCGCCACCAAGTGGATGATCGGCGAGAAGGAAATCCGCGCCATGAAGAAGGGCGGCATCCTGATCAACGCCGCCCGCGGCACCGTGGTGGACCTGGAGGCCCTGGCCGCCGCGATCAAGGACAAGCACCTGATCGGCGCCGCCATCGACGTGTTCCCGGTGGAGCCGCGCTCCAACGACGAGGAGTTCGTCAGCCCGCTGCGTGGCCTGGACAACGTGATCCTGACCCCGCACATCGGCGGCTCGACGGCCGAAGCACAGGCCAACATCGGCCTGGAAGTGGCGGAGAAACTGGTCAAGTACAGCGACAATGGTACCTCGGTCTCCTCCGTCAACTTCCCGGAAGTGGCCCTGCCGTCGCACCCGGGCAAGCATCGCCTGCTGCACATCCACGAGAACGTGCCGGGCGTGATGAGCGAGATCAACAAGGTCTTCTCGGACAACGGCATCAACATCTCCGGCCAGTACCTGCAGACCAACGAGAAGGTCGGCTACGTGGTCATCGATATCGATGCCGAGTACTCGGACCTGGCACTGGAGAAGCTGCAGCAAGTGCGCGGCACCATCCGCAGCCGCGTGCTGTTCTGA	MSKTSLDKSKIKFLLLEGVHQTAVDTIKAAGYSNIEYFTGSLPEDQLKEKIADAHFIGIRSRTHLTEEIFDHAKKLVAVGCFCIGTNQVNLEAARERGIAVFNAPYSNTRSVAELVLAEAILLLRGIPEKNASCHRGGWIKSAANSFEIRGKKLGIVGYGSIGTQLSVLAEGLGMQVYFYDVVTKLPLGNAQQIGSLHELLGMADIVTLHVPETPATKWMIGEKEIRAMKKGGILINAARGTVVDLEALAAAIKDKHLIGAAIDVFPVEPRSNDEEFVSPLRGLDNVILTPHIGGSTAEAQANIGLEVAEKLVKYSDNGTSVSSVNFPEVALPSHPGKHRLLHIHENVPGVMSEINKVFSDNGINISGQYLQTNEKVGYVVIDIDAEYSDLALEKLQQVRGTIRSRVLF	PGPT0009155_3905	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058	NA	NA
BMS010_04946	1416		COG0277	putative FAD-linked oxidoreductase	ATGAATGATCCGAGAGTTCCGCAGATGACCGATACCGCTTTGATCGAAGAGCTGAAAACCCTGGTCGAGCCAGGCAAAGTCCTGACTGACGCCGATTCCCTGAGCGCTTACGGCAAGGATTGGACCAAGCATTTCGCCCCCGCTCCGTTGGCGATCGCCTTCCCGAAGACTATCGAGGAAGTCCAGGCGATCGTGCGCTGGGCCAATGAGAAGAAGGTCGCCCTGGTGCCCTCCGGCGGCCGTACCGGCCTGTCCGCCGCCGCCGTCGCCGCCAATGGCGAAGTGGTGGTGGCCTTCGACTACATGAACCGTATCCTCGATTTCAACGCCACGGACCGCACCGTGGTCTGCCAGCCGGGCGTGATCACCGCCCAGTTGCAGCAGTTCGCCGAAGACAAGGGCCTCTATTATCCGGTGGACTTCGCCTCCGCCGGTTCCAGCCAGATTGGCGGCAACATAGGCACCAATGCCGGCGGGATCAAGGTGATTCGCTACGGCATGACCCGCAACTGGGTGGCCGGTCTCAAGGTGGTCACCGGCAAGGGCGACCTGCTGGAGCTGAACAAGGACCTGATCAAGAACGCCACCGGCTACGACCTTCGCCAGCTCTTCATCGGCGCCGAGGGCACTCTGGGCTTCGTGGTCGAGGCCACCATGCGTCTGGAGCGCCAGCCCACCAACCTCACCGCGATGGTCCTCGGCACACCGGACTTCGACTCCATCATGCCGGTCCTGCATGCCTTCCAAGACAAGATGGACCTGACCGCCTTCGAATTCTTCTCCGACAAGTGCCTGGATAAGATACTCGAGCGCGGCGATGTGCCGGCGCCCTTCGAGACCCGCGCGCCGTTCTATGCACTGCTGGAATTCGAAGCCACCACCGAGGAGCGTGCCGAGCAGGCCCTGGCCACCTTCGAGCATTGCGTCGAGCAGGGTTGGGTGATCGACGGCGTGATGAGCCAGAGCGAGCAGCAGCTGAAGAACCTGTGGAAGCTGCGTGAGTTCATCTCCGAGACCATCTCTCACTGGACGCCGTACAAGAACGACATCTCCGTCACCGTGTCCCGCGTTCCGGCGTTCCTCGCCGACATCGACGCTATCGTCAGCCAGAACTACCCGGACTTCGAGGTGCTCTGGTACGGTCACATCGGCGACGGCAACCTGCACCTGAACATCCTCAAGCCGGAAAGCCTGAGCAAGGAAGAGTTCTTCACCAAGTGCGCCACGGTGAACAAGTGGGTGTTCGAGACCGTGCAGAAGTACAACGGCTCGATCAGCGCCGAGCATGGCGTCGGCATGACCAAGCGCGACTACCTGGAGTACAGCCGTTCGCCGGCCGAGATCGCCTACATGAAGGCGGTGAAGGCGGCGTTCGACCCGAACGGCATCATGAACCCCGGCAAGATCTTTAACTAA	MNDPRVPQMTDTALIEELKTLVEPGKVLTDADSLSAYGKDWTKHFAPAPLAIAFPKTIEEVQAIVRWANEKKVALVPSGGRTGLSAAAVAANGEVVVAFDYMNRILDFNATDRTVVCQPGVITAQLQQFAEDKGLYYPVDFASAGSSQIGGNIGTNAGGIKVIRYGMTRNWVAGLKVVTGKGDLLELNKDLIKNATGYDLRQLFIGAEGTLGFVVEATMRLERQPTNLTAMVLGTPDFDSIMPVLHAFQDKMDLTAFEFFSDKCLDKILERGDVPAPFETRAPFYALLEFEATTEERAEQALATFEHCVEQGWVIDGVMSQSEQQLKNLWKLREFISETISHWTPYKNDISVTVSRVPAFLADIDAIVSQNYPDFEVLWYGHIGDGNLHLNILKPESLSKEEFFTKCATVNKWVFETVQKYNGSISAEHGVGMTKRDYLEYSRSPAEIAYMKAVKAAFDPNGIMNPGKIFN				NA	NA	NA	NA	NA
BMS010_04947	666	ycgM	COG0179	putative protein YcgM	ATGAGCTATCAGCACCAGTATATCGACGGCACCCCCATCCATTTCCCCCTGGGCAAGGTCGTCTGCATCGGCCGCAACTACGCCGAGCATGCCAAGGAACTGAACAACCCGGTGCCGAGCGAGCCGCTGCTGTTCATCAAGCCGGGTAGCTGCGCGGTGCCGCTGGAAGGCGGTTTCGCCATTCCGGCGGACCGTGGCGCCGTGCACTACGAGGCGGAGATCGCCGTGCTGATCGGCAAGCCGCTGTCGCGCCAGCCGAGCCGCGAGGAAATCCTCGACGCCATCTCCGGCTTCGCCCCGGCACTGGACCTGACCCTGCGCGACGTCCAGGCGCGCCTGAAGGAAAAGGGCTACCCCTGGGAAATCGCCAAGTCCTTCGACGGCGCCTGCGTGCTGGCGCCCTTCGTGCCGGGCGACGCGGTGGAAGACACCACCGACATCGGCATCCGCCTGACCATCAACGGCGAAGTCCGCCAGGACGGCAACAGCCGCGACATGCTCAACCCGATCCTGCCGCTGATTCAGCACATCAGCGGCCATTTCAGCCTGCAACCGGGCGACGTGGTACTGACCGGCACGCCGGTGGGCGTCGGCCCGCTGAATTCCGGGGACAGCCTGGCGCTGGAATTGGTAGGGTTGTCGCGTTTCGAAAGCCGGGTGCTCTGA	MSYQHQYIDGTPIHFPLGKVVCIGRNYAEHAKELNNPVPSEPLLFIKPGSCAVPLEGGFAIPADRGAVHYEAEIAVLIGKPLSRQPSREEILDAISGFAPALDLTLRDVQARLKEKGYPWEIAKSFDGACVLAPFVPGDAVEDTTDIGIRLTINGEVRQDGNSRDMLNPILPLIQHISGHFSLQPGDVVLTGTPVGVGPLNSGDSLALELVGLSRFESRVL	PGPT0001625_427	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001625-ycgM-K01557	NA	NA
BMS010_04948	942			hypothetical protein	ATGCTCCGTTCCCTCGCTCCCCTCCCGTTTCGCCCTCTTTGGCTGTTGCTGGCCGGGGTGCTGGTCGTCAGTGCCACGCTGGTGAATTACCTGCACTGGGACGATCGCCTCTATTACTGGTTCAAGGAGCGCCACCTGACCAAGGGTGAGCGGGAGGCGAATATCTGGCTGCCGGGTTATTACGCTGCCCTTCAGGGTAAGCCGCTGGCCGGGCTGGAGAACGACGAGACGTCCGGCCTGACCTTCAACCCTGCGACCCGAACCCTCTTTACCGTGACCGGCAAGCACCCTCTGTTGGTCGAGCTGTCGCTGGAGGGCGAAGTCCTGCGGCGGATAGAGCTGCGGGGGTTCAGCAATCCCGAGGGGGTCGAGGCGTTGGGCGATGGCCGGCTGGCGATCATCGATGAACGCAAGCGCCAGCTCGCGGCGTTCTGGCTGTCGGAAACCGACCAGAGCATTGACCTGCGGCGGCTGGAGACCTTCGACCTGGGCTTCGCCGAGGCCGGCAACAAGGGCTTCGAGGGGATTGGCTGGGATGCGCGGCACCAGCGTCTTCTGTTGGCCAAGGAGCGCAGTCCGCTGGGCCTGTTCAGCCTGCCGTTCCCCGGCGAGGACGGCGCACCTGGCAAGCTGGAGCCGCTGTCTCCGGACGACTTGTTCGTCCGCGACCTGTCCTCGGTGACGGTGGACCCGCGCACCGGCCACATCCTGGTGCTGTCCGACGAGTCGCGCCTGCTGCTGGAGCTGGACGGCGACGGCAAGCCGATCAGCTTCATCAGCCTGATCGGCGGCTTCAACGGGTTGGACGAGGGCATCCAGCAGGCCGAAGGGGTGACCATGGACGACGACGGCAACATCTACGTGGTTGGCGAGCCCAACCTGTTCTATGTCTTCCGCAAGGACACTCGCGAGCCGGACCCCTGGCAACTGGGCCGGCTCTGA	MLRSLAPLPFRPLWLLLAGVLVVSATLVNYLHWDDRLYYWFKERHLTKGEREANIWLPGYYAALQGKPLAGLENDETSGLTFNPATRTLFTVTGKHPLLVELSLEGEVLRRIELRGFSNPEGVEALGDGRLAIIDERKRQLAAFWLSETDQSIDLRRLETFDLGFAEAGNKGFEGIGWDARHQRLLLAKERSPLGLFSLPFPGEDGAPGKLEPLSPDDLFVRDLSSVTVDPRTGHILVLSDESRLLLELDGDGKPISFISLIGGFNGLDEGIQQAEGVTMDDDGNIYVVGEPNLFYVFRKDTREPDPWQLGRL				NA	NA	NA	NA	NA
BMS010_04949	1038	aphB	COG0123	Acetylpolyamine amidohydrolase 2	ATGCTGACCCTCTACAGCGACGATCACCACCTGCATCACGGCAAGCACGAGCTGATCGGCGGCCAATTCCAGCCCTGCTTCGAGAAACCCAGCCGCGCCGACATGGTGCTGGAGCGCGTACGCGCGGTGAAACTCGGCGACGTGCGCAACCCCCAGGACTTCGGCCTGGCGCCGATCCGCCGGGTGCACGACGCCGACTTCTTGCGTTTCCTACAAAATGCCTGGAGCGACTGGCAGGCCATCGGCCGCGATCACGACATGCTGCCCATCGCCTGGCCGACGCGGCGCCTGCGCCAAGTCGAACCGACCGATATCGACGGCCGCCTCGGCTACTACTCCTTCGACGCAGGCGCGCCGATCACCGCCGGCACTTGGCAGGCCATCCTCAGCTCGGCCAACGTCGCCCTCAGCGGCCAGGCCGAACTGGCCAAGGGCGCCCGCGGCGTCTTCTCGCTGTGCCGCCCGCCGGGCCACCACGCCGCGGCGGACTACATCGGCGGCTACTGCTACCTGAACAACGCCGCCATCGCCACCCAGGCCCTGCTCGACCTGGGCGCGAAACGGGTGGCCATCCTCGACGTCGACTATCACCACGGCAACGGCACCCAGGACATCTTCTACGACCGCGCCGACGTGCTGTTCACCTCGATCCATGGCGATCCGCGCTTCGAGTACCCCTACTTCCTCGGTTTCGCCGATGAAAAGGGTATGGGTGTCGGCGAGGGCTTCAACTTCAACTACCCGCTGGCCGCTGGGAGCGACTGGTCGGTGTGGGGCCTGGCACTGGCCGACGCCTGCCGGCAGATCGCCGCCTATGCACCGGATGCCCTGGTGGTCTCACTGGGCGTGGACACCTTCAAGGAAGACCCGATTTCCCAGTTCAAGCTGGACAGCCCGGACTACCTGCGGATGGGCGAAGCCATCGGCAGGCTGGGCCTGCAAACGCTGCTCGTGATGGAAGGCGGTTACGCGGTGGAGGAAATCGGCATCAACGCGGTGAACGTGCTGCAAGGATTCGACAGCGTCCAGTCGCGCTGA	MLTLYSDDHHLHHGKHELIGGQFQPCFEKPSRADMVLERVRAVKLGDVRNPQDFGLAPIRRVHDADFLRFLQNAWSDWQAIGRDHDMLPIAWPTRRLRQVEPTDIDGRLGYYSFDAGAPITAGTWQAILSSANVALSGQAELAKGARGVFSLCRPPGHHAAADYIGGYCYLNNAAIATQALLDLGAKRVAILDVDYHHGNGTQDIFYDRADVLFTSIHGDPRFEYPYFLGFADEKGMGVGEGFNFNYPLAAGSDWSVWGLALADACRQIAAYAPDALVVSLGVDTFKEDPISQFKLDSPDYLRMGEAIGRLGLQTLLVMEGGYAVEEIGINAVNVLQGFDSVQSR				NA	NA	NA	NA	NA
BMS010_04950	1047	spuE_1	COG0687	Spermidine-binding periplasmic protein SpuE	ATGACCTTACGCCGTACCCCGCTCGCGCTTTCCCTGCTACTGAGCCTGGGCCTCAGCGCCACCGCCCATGCCGCCGGCACCCTGCACTTCGCCAACTGGTCGGATTACTACCCGCCCGAGCTGCTGAAAAAATTCGAGGCGGACACCGGCATCAAGGCCTCGCTGGACGCCTACGACTCCAACGAGACTCTGCTGGCCAAGCTCAAGGCTGGTGGCGGCAGCTACGACGTGGTGGTGCCCTCGGACAGCTTCATCGAAATCATGGTGGCGGACGGCCTGCTCCAGAAGTTCGACAAGAGCAAGCTGCCGAACCTGAAGAACCTCAAGGCGAATTTCCAGGACCTGCGCTTCGACCCCGGCCATGACTACAGCGCGCCCTACCTCTGGGGGACCACCGGCTATAGCTACGACAGCGCCAAGGTGCCGGGCGGCGTTCTGGAAGAAAGCTGGAAACCCTTCTTCGAGCCGCCGGCCGAGCTGAAAGGCCAGGTGGTGGCGCTCAACTCCATCGAAGACCTGTACATCCCCGCCGCGCTCTACCTGGGCGTCGACCGTTGCACGGAAGACCCGAAGGAAGCGAAGAAGATCCAGGACCTGCTGCTGAAACAGAAACCCATGCTGGCCATGTACAACAGCGACGGCACCATCGAACGCATGGCGGCCGGCGAGGTGGTGATGCACCAGCAATGGAACGGCGCCTTCCACCGCGCCCATGAGCAGCGCGACAGCCTGGTGTACGTCTATCCCAAGGAGGGCGTGCACGTATTCATCGACAACTTCGCCATCCCCAAAGACGCCGCCAACGTCGAGGAAGCCCACGTCTTCATCAACTGGATGCTGCAGCCGGAAAACATCGCCGCCGCCTCCAACTTCGCCAAGTACAACAACGCGGTGGAAGGCTCGGAAAAATTCATGGACAAGGCGCTGTTCGACGACCCGGCGATCAACACGCCACAGGACAAGCTCGACCGCCTGCGCCCCTTCCAGCTCTGCTCGCCCAAGGCCTTGAACCTGCGCACCAAGGTCTGGACCAAGCTGAAGAAATAA	MTLRRTPLALSLLLSLGLSATAHAAGTLHFANWSDYYPPELLKKFEADTGIKASLDAYDSNETLLAKLKAGGGSYDVVVPSDSFIEIMVADGLLQKFDKSKLPNLKNLKANFQDLRFDPGHDYSAPYLWGTTGYSYDSAKVPGGVLEESWKPFFEPPAELKGQVVALNSIEDLYIPAALYLGVDRCTEDPKEAKKIQDLLLKQKPMLAMYNSDGTIERMAAGEVVMHQQWNGAFHRAHEQRDSLVYVYPKEGVHVFIDNFAIPKDAANVEEAHVFINWMLQPENIAAASNFAKYNNAVEGSEKFMDKALFDDPAINTPQDKLDRLRPFQLCSPKALNLRTKVWTKLKK	PGPT0007825_2662	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007825-potD-K11069	NA	NA
BMS010_04951	789	ydcV_4		Inner membrane ABC transporter permease protein YdcV	ATGAACCGACGCAACCCCCTGTGGCGCTTCACCGGCGTGCGGCCGACCGCCTGGTTGTTCTTCGCCTTCCTTTATGTGCCGATCGTCGTCCTGGTGGCCCTGAGCTTCAACGGCGGCCAATCGGCGACGCTATGGAACGGCTTCAGCCTGAAGTGGTACGCGGCGGTGGCCAACGACCCGGAAATCGTCCGCGCGGCGAAGAACTCGCTGATCGTCGCCAGCCTCGCCACCCTGATCGCCACTATCCTGGCCACCCTGGCGGCGCTGGGCATGCACGGCCGGACGTTCCGAGGGCAGACGCTCATGGGAGGCGTGCTCGGCCTGCCCTTGCTGATACCGGAGATCGTCACGGCGGTAGCGACCTTGATGTTCTTCTCCTTCATCGGCCTGAAGCTGTCGCTGTTCACCATCCTCATTGCCCATGTGGTGTTCTGCATTCCCTTCGCCTACCTGCCGATCCGCGCCCGCCTTCAGGGCATGGACCCGCGCCTGGCGGAAGCCGCCGCCGACCTATACGCCTCGCCCTGGCGGGCCTTCTGGCGGGTGGATTTTCCACTGCTGCTGCCGGGTATCCTGTCCGGGGCGATGCTGGCGTTCATTATTTCCATGGACGACTTCGTCATCACCTACTTCGTCGCCGGGGCCGGCGCGACCACCCTGCCGGTATACATCTTCAGCGCCATCCGCATGGGCATCTCGCCGAAGATCAACGCGATTTCCTCGATCATCCTCCTGATTTCGATTCTGTTCGTTGCGCTTTCCTATTACGTCGGCCAACGCCGACGCTGA	MNRRNPLWRFTGVRPTAWLFFAFLYVPIVVLVALSFNGGQSATLWNGFSLKWYAAVANDPEIVRAAKNSLIVASLATLIATILATLAALGMHGRTFRGQTLMGGVLGLPLLIPEIVTAVATLMFFSFIGLKLSLFTILIAHVVFCIPFAYLPIRARLQGMDPRLAEAAADLYASPWRAFWRVDFPLLLPGILSGAMLAFIISMDDFVITYFVAGAGATTLPVYIFSAIRMGISPKINAISSIILLISILFVALSYYVGQRRR	PGPT0007830_1997	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007830-potC-K11070	NA	NA
BMS010_04952	912			hypothetical protein	ATGAGCACGTTGCAACAGCGTCAACAGGCACGGCAGTTACGCCATCGACTGCTGCTCAGCGCACCGGCGATGGCCATGCTCGGGGTGTTCCTGTTGGTGCCGCTGGGCATCATGCTGCTGGTCTCCGTGTTGCAGGGCGGCGACTACGGCGGCGTGAAATGGGGCGAGTACTCGTTCGAGGCCTATGTCAGCTTCTTCTATGAGCGCGATCTCGACGACAGCCTGGTGTTCAATACCGACTACCTGCAAATCTTCCAGCGCTCCTTGTGGCTCTCGGTGCTTACCACCGCCGGCTGCCTGCTGATCGGCTTTCCCACCGCGCTGTACCTGGCTTTACAGGACGAGAAGCGCCGCAACCTGTTGCTGTTCCTGGTCACGGTGCCGTTCTGGACCAACCTGCTGGTGCGGGTGTACGCCTGGATACTGCTGCTGCGCAACGGCGGGCTGGTGGACAGCGGCCTGGGGCTGTTCGGCTTCGACGGCAGCCTGGGCATCCTCTACAGCGACGCGGCGGTGATCGTCGGCCTGCTCTACAGCTTCCTGCCGTTCATGGTGCTGCCGATCTACACCAGCCTGGAGAAGCTCGACTGGCGCCTGGTGGAAGCGGCCTTCGACCTCGGCGCCAACCGGCGCAAGGCGCTGCAACGGGTGATCGTCCCGCTGGCGATGCCGGGCATCGTCGCCGGCACGCTGCTCGTCTTCATCCCCTCGCTGGGCAACTACATCATTCCCGAGCTGCTTGGCGGCGGTAAGTCGCTGATGATCGGCAACCTGATCCAACTGCAGTTCGGCACCGCCCACAACTGGCCGCTCGGGGCGGCGCTGGCGTTCGTCCTGCTGGCCCTGGTGCTGCTGGCGATGCTGTTCTACAACCTGCGCTTCCGGCAGCCGGCCATGGAAGGCCACGCATGA	MSTLQQRQQARQLRHRLLLSAPAMAMLGVFLLVPLGIMLLVSVLQGGDYGGVKWGEYSFEAYVSFFYERDLDDSLVFNTDYLQIFQRSLWLSVLTTAGCLLIGFPTALYLALQDEKRRNLLLFLVTVPFWTNLLVRVYAWILLLRNGGLVDSGLGLFGFDGSLGILYSDAAVIVGLLYSFLPFMVLPIYTSLEKLDWRLVEAAFDLGANRRKALQRVIVPLAMPGIVAGTLLVFIPSLGNYIIPELLGGGKSLMIGNLIQLQFGTAHNWPLGAALAFVLLALVLLAMLFYNLRFRQPAMEGHA	PGPT0007835_607	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007835-potB-K11071	NA	NA
BMS010_04953	1017	potA_5		Spermidine/putrescine import ATP-binding protein PotA	ATGGAATTCGGCGAGCCGGGGCAAGGGATGAAGGCCCTGGACGATGTCTCCCTGGAAATCCGTGCCAACGAATTCTTCACCCTTCTCGGCCCTTCCGGCTGCGGCAAGACCACCCTCCTCAGGCTGATCGCCGGCTTCGAACAGCCGACCTCCGGCGTCATCCGCCTGTACGGCGAAGCCATGCAGGACCTGCCGCCGTTCCGCCGCCCGGTGAATACCGTCTTCCAGAGTTATGCCCTGTTCCCACACATGACAGTGGCGCAGAACATCGCCTTCGGCCTGGAGATGCGCGGACTTGGCCGAGCCGAGATCGACCGCACGGTAAGCGCCATGCTGGAGCTGGTGAAGCTGCCGGACGTCGGCCGGCGCCGTGCCGATCAGCTTTCCGGCGGCCAGCAGCAACGCATCGCCCTGGCCCGTGCCCTGGCCAATCGGCCGAAGGTGCTGCTGCTCGACGAATCGCTGTCGGCCCTGGATCTCAAGTTGCGCAAGGAGATGCAGATCGAGCTGAAGCGTTTGCAGGCGGACACCGGCATCACCTTCATCTTCGTCACTCATGACCAGGAAGAAGCCCTGACCATGTCCGACCGCATCGCGGTGATGAGCAAGGGCCGCATCCTGCAGATTGGCACGCCCAGCGCAATCTACGAGGCGCCGGTCAATCGCACCGTGGCCGACTTCATCGGCGAGACCAACTTCCTTACCGGCGAAGGGACACCGGAGGGCCTGCGCCTGGCCGATGGACAGTGCCTCGCCCTGAACGAACCGGCCAGCGGACCGCTGACCCTGGCGGTCCGCCCGGAACGCATCCGCCTGAGCGACCAGGGCAATCTGGAAGGCCGCCTGGAGGACATCGTCTACCTTGGCACCGACACCATCTACCTATTGGAAGTCGCCGGCCAGAACGGTTTTCGCGTGCGCCGGCAGAACGACGAGGGCGCCGGAAACGGGCCGCATCCCGGTGCGCGGATCAGAATCCAGGTGCCGGCCGCGGCATTGCGGGTACTCGCCGAATGA	MEFGEPGQGMKALDDVSLEIRANEFFTLLGPSGCGKTTLLRLIAGFEQPTSGVIRLYGEAMQDLPPFRRPVNTVFQSYALFPHMTVAQNIAFGLEMRGLGRAEIDRTVSAMLELVKLPDVGRRRADQLSGGQQQRIALARALANRPKVLLLDESLSALDLKLRKEMQIELKRLQADTGITFIFVTHDQEEALTMSDRIAVMSKGRILQIGTPSAIYEAPVNRTVADFIGETNFLTGEGTPEGLRLADGQCLALNEPASGPLTLAVRPERIRLSDQGNLEGRLEDIVYLGTDTIYLLEVAGQNGFRVRRQNDEGAGNGPHPGARIRIQVPAAALRVLAE	PGPT0007840_2512	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007840-potA-K11072	NA	NA
BMS010_04954	1395			hypothetical protein	ATGCCTTCTTCTTCTCCTCGCGTCGCCATTCTGGGGACGGCCGAGTCGAGCCTGTCTCTTTCGCCGCTCGACCGCTTCGGCGATCTCTCCGAACTGCTCGCCGCGCCCGCCTATGACGTCCTCCTGCTCGACTTGCCCGGCCCGCTCGCCGGCCAGGCGCTCCGTAGCCTGCGCCTGAGCGAAAGCTATCGCTTCAGCCTGATCTACTGCTGCCGCGACCAAGATGCCTGGTGCACCGCCCTGGGCGATGGCACGCCGCCGGCCGACCTGGGTGCGCTGACGCCGTTGTGGCGGTTGTGGAAGGAGCGTTTCGCCCTGTTCAACCGCGGGACGGCGCCGGAGCGTTTCGAGACGCGCGTGCTGGCCTGGCTGTGGCTGCGTTCGCGGGGCGACATCCATGCCCTGCGCGATCCGCAGGTGCCGCAGCACTACCGCTACCCGCTGCTCGAGGCGCTGGCCATCGACGAGTCGGTGAATGCGTTCGTCTGGCTGCAACTGATGACCCAGCAGGGCCTGCTCGAAGAGGGCGAGCTGGTGGACCGCCTGCGCCTGTGCATCGGCTGTGGCTCGGGCCGATTGAACTACGTGGATGTCTGCGCCGAGTGCCACTCCCTGGACATCGCGCGGCAGCCATCGCTGCATTGCTTCACCTGCGGCCACGTCGCGCCGCAGGAGCATTTCCTCAAGGACGGCCTGCTGCTCTGCCCGAACTGCCTGAGTCGGCTGCGCCACATCGGCAGCGACTACGACCGGCCGCTGGAAAACTACCGCTGCCGCGGTTGCCAGGCGTTCTTCGTCGATGCCGCCGTGGAGGCCCGCTGCCTGGACTGCGGCCAGGTGCACGAACCAGAGAAGCTGCGGGTGCGCGAAGTGCGGCATTTCCGCTTGGCCGAAGCCGGTCGGTTGCGCTGCCGGCAGGGCTTCGTCAGTGAGACGAGCCACAGCGAGCAATTCGGCCGGCTCAACCTGCTGGGCGCGCGTACCTTCCGCGAAATGCTCGGCTGGCAGATCCAGATCGTCCGCCGCTACCGCGAGCCGGCGTTCTCCCTGCTCGGGCTGCGCTTTGTCAACCTGGCCAGCACCTTGGCCAAGCTTGGCGAACTGAGCGGCCACGCGCTGGTGGACAGCCTGGTGGAGCGCTTGCAGGAAGCGGTACGCGAGACCGACCGCTTCACCCGCAGCAGCGAGGAACATCTCTGGCTGTTGCTGCCGAACACCGGTGCCGAAGGGCTCGCCAGTCTGCGCCAGCGGCTGGCCCGCGTGGCCGAGTTGCTGAAGACCTCGGAGGCCCGCGACATCGAGTTGCGTATGGTGGGCTTCAGTGCGCCGCAGGACCTGCTCGAACAGGAAGATGGCGAGCTGTTGCTGGCGCGGCTGGCGGGTGAGTTGGCCTGA	MPSSSPRVAILGTAESSLSLSPLDRFGDLSELLAAPAYDVLLLDLPGPLAGQALRSLRLSESYRFSLIYCCRDQDAWCTALGDGTPPADLGALTPLWRLWKERFALFNRGTAPERFETRVLAWLWLRSRGDIHALRDPQVPQHYRYPLLEALAIDESVNAFVWLQLMTQQGLLEEGELVDRLRLCIGCGSGRLNYVDVCAECHSLDIARQPSLHCFTCGHVAPQEHFLKDGLLLCPNCLSRLRHIGSDYDRPLENYRCRGCQAFFVDAAVEARCLDCGQVHEPEKLRVREVRHFRLAEAGRLRCRQGFVSETSHSEQFGRLNLLGARTFREMLGWQIQIVRRYREPAFSLLGLRFVNLASTLAKLGELSGHALVDSLVERLQEAVRETDRFTRSSEEHLWLLLPNTGAEGLASLRQRLARVAELLKTSEARDIELRMVGFSAPQDLLEQEDGELLLARLAGELA				NA	NA	NA	NA	NA
BMS010_04955	1329			hypothetical protein	ATGATCGGCTTCTTCGAACAGGCCCAGGCGCTGCTCGTCGACTTGTCCGGCCCGGATGGGCTGAGCCAGTTGTTCATGAGCCTGTTCCCGTTCTTCCTGCTGTTCGAGCTGCCGCTTAACGTGCTGGTGCTGCTCGGCGTGCTGCGCTGGTTCGCGCGCCGGCGCAGCCGCACGCCCCAGCACAGCCTGTACCAGCCGCGGGTGTCGTGCATCATCACCTGCTACAGCGAAGGGCTGGACGTACAGAAGACCCTGCTCAGCCTGTGCGAGCAGGCCTATCCGGGCCATATCGAGATGATCCCGGTGGTCGACGGCGCCACCGCCAACCAGACGACTCTGCGTGCGGTACGCGATTTCCGCCTGAATACCGATCTCTATCCGCGCCGGCAACTGCGGCCGATTGCCAAGTGGCAGCGTGGCGGGCGGGTCTCGTCGCTGAACGCCGGCCTGGCCCATGCCACCGGCGAGATCGTCATGGCGCTGGATGGCGACACCTCGTTCGACAACAACATGGTCAGCGCCATGGTCCGCCATTTCGCCGACCCCGAGGTACCGGCGGTGGCCGGCAGCTTGCGCGTACGCAATGCCTGGGCGTCGCTGAGCACGGCAGTGCAGGCGCTGGAGTACCTGCTGTCGATCCACATGTCGAAGATCGGCCTCGGCGAGTGGAACCTGGTGAACAACGTGTCCGGGGCCTTCGGTGCGTTCCGACGCAGTTTCCTCGAACGCATCGGCGGCTGGGACACCCATACCGCCGAGGACCTCGACCTCACCCTGCGGATCAAGAGCTACTTCGGCCGCCGGCCGTTGCGCATTCCCTTCGAGCCGGAGGCCATCGGTCACACCGACGCGCCGGCGACCCTGCGCCAGTTCCTCCTGCAACGCCTGCGCTGGGACGGCGACCTGTTCTTCCTTTATATCCGCAAGCACAGCCACAGCATCACGCCACGTCTGCTCGGCTGGCCGAATTTCCTGATGACCCTGGTCAGCGGCTTCTTCTTCCAGTTGGTGTTGCCGTTCATCATCCTCAGCTACAGCCTGGCGGCGCTGTTCCTGTTGCCGGGCTCGACCCTGCTGCTGTTGTTCGTGTTGGTCTACACGCTTTACCTGACGATCACCCTGCTGTTCTACCTGGCGATGCTGGTGATGGTCTCCGAACGCCCGCGCCAGGACCTGCGCCTGGCCCTGTTGGTACCGATCTTTCCGCTGTTCATGCTGATGATGCGCTGCTGGAGCGCGGTGGCGATGCTCAACGAAGCGCTGCGCCGCGGCCATGAGGAAACCAGCATGGCGCCCTGGTGGGTTCTGAAGAAGGCTACGAAGTTCTGA	MIGFFEQAQALLVDLSGPDGLSQLFMSLFPFFLLFELPLNVLVLLGVLRWFARRRSRTPQHSLYQPRVSCIITCYSEGLDVQKTLLSLCEQAYPGHIEMIPVVDGATANQTTLRAVRDFRLNTDLYPRRQLRPIAKWQRGGRVSSLNAGLAHATGEIVMALDGDTSFDNNMVSAMVRHFADPEVPAVAGSLRVRNAWASLSTAVQALEYLLSIHMSKIGLGEWNLVNNVSGAFGAFRRSFLERIGGWDTHTAEDLDLTLRIKSYFGRRPLRIPFEPEAIGHTDAPATLRQFLLQRLRWDGDLFFLYIRKHSHSITPRLLGWPNFLMTLVSGFFFQLVLPFIILSYSLAALFLLPGSTLLLLFVLVYTLYLTITLLFYLAMLVMVSERPRQDLRLALLVPIFPLFMLMMRCWSAVAMLNEALRRGHEETSMAPWWVLKKATKF	PGPT0023485_485	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-POLY-N-ACETYL-GLUCOSAMINE_METABOLISM	CE-EPS-POLY-N_ACETYL-GLUCOSAMINE_BIOSYNTHESIS,PGPT0023485-pgaC|icaA-K11936	NA	NA
BMS010_04956	2079			hypothetical protein	ATGTTGCGTCTGTTGCTCCTACTATCCTGCCTGTTCAGCCTGCCCGCGATGGCGGCGCCGTTGCCCCTGGCCGATCTATTGAACGGGCTGGAGAACGACCCCGCCTGGCTCGCCGACCAGGCCGAGAGCGAGGCCTTGCGCGCCGAGCGCGAGCTGCGCGAGGACGAGGCGGGGTGGCAGCTTTTCGCCGGTACCAGCGCCGGGCATTACCGTGAGCTGGTGACCGACGATGTGCGTGACGAGTACGACGGGCTCGACCTGGCGGTGGGCGTGCGCCACCCGCTGCTGGGTAGCCTGAAGCGCCAGGCCGATGCGGTACAGGCCAGCCAGCACGACATCCAGCGCCAGCAACTGCGCTCGGCCCTGCGCCGTGCCGAACAACGCCTGGCCCTGCGCGGCGCCTATGCCGACTGGTGGCGCGCCCAGCAGGAGCAGCGCTGGTGCGTGGCCCTGGCACCTGGGCTGACGGCGGCCGAGCGGCGTATCCAGCAGCGTCAGGCGGGCGGCTGGTTGCTGGCCTCCGAAGCGCAGTTGCAGCGCAGCCGCTGGCAGGAACTGGCCCGTCGCTGCGCGGAAACGGCACGGGTGACCGATGAAGTGCGCGTGGCCGTGGCGGCCTATGCCAGTGCTCCCGTGGAGACCGATGCCGAAGCGCTCGCCGAGCCGCTGGCCAACCGGCCGCAGGCGCAGGAGCGCTGGCTGGCCCTGCTCGAACGGCATCCCCGCCTGGCCGAGCGCCAGGACCGTCTGGCGCAGGCCGAACAGGGGCGCGAGAGTCCGTGGTATGCCGGAGTGGATTCCAGTTTCAGCCTCGCCCAAAGCGTCGAAGAGCGTAGCGGCGGCGGTGCCCCCGGTACCGGTCTGGTGGCCAGCCTCAACTTTTCCACGCCTTTCGACCTGCTCGGCAACGACCGGGCTCGGGAGCGTCTCGGCGAAGCGCGTTACCAGGCGGCTCTGCGCCAGGTGGACGTCGAGCGGCGGACCCTGGCGCGGGAGCTTGGCCGTACCCTGCGGGCCCAGCGGGCGGCGCTGTCGACCCTGACGCTGCGGCGCGAGCAATTCGAGGCGGCCCGGGCCGCCTGGCGCGAGCGGCGCGCCCGTGGCGAACGGGACCTCGAGCAAAGCGTGCTGCCGGAGCTGGTTGCCGAGCGGGAGTTCTACCTCAGTGGCTTCGCCCTGATCGCCGCCTGGCATGCCGCCTGGCTGCGCGAGGCGGAGCTGGGCGTATTCGGCGACGACGATGCCGCCTTCGCCGCGCTGCTCGGCGACAGCCGCCAACCGTGGCTCGCCCTGGATGCTGCCCGGGACAACAGGGTGTCGAAGGGCGCCGAGTGGAGCCAGGCCAGCTACCTGTGGGACAGCCACGCACTGCTCGATCCGAAGCGTCGCGCGGGGGAACTGCGCGCCTTGCGGCGGGCCGGGATGACGGCGATCTACCTCGGGCTCGACAAGGCGCAGGTGGATGCCCTGCCGGCCACCCGTGCCGCGTTGGGCGAGCTGTTGGCCGTGGCCGGGCGCGAGGGGCTGCGGGTCAGTCTGCTGCTGGGCGATCCCGCCTGGCTGAACGCCGACCAGCGTGACGGACTGATCGCGTTGATCGAGCAACTGCGGAGCCTGCCATTCGCCAGCCTGCACCTCGATCTGGAAGTGGAGCAGCTCGGCTGGCCGGTGCCTACCAGCCGTCTGCAGGATTTGCTCGACACACTGAAGGCCGCTGCCCAGGTCAGTCCCTGGCCCCTGGAGCTGTCGAGCCATCCGCGCTGGTTCGCCGAGCCCGCTGCCGACCAGCCCTGTATACCCTGCGCGCTGCCCGGTCTGGGTGTGCGCAGCGTCAGCCTGATGATCTACACCCGCAATGCCGAGCGCAGTGGCGCCCTGGCCGAAGACATCGCCCGGCGCTGGCCAGCGGTGCGCTTCCGCCTGGCGCAGAGCGTCGAGCGCATGCTGCCGGCCGAGGAAAGCTGGGCCGGTGTGCCGGCGGTGGAATTGCGCCGGCAAGCCGAACGCTGGCGCACCCAGTTGCAGCCCGTCGGTGTCAGCGGCCTGGATTGGCAGGCCTGGACCGATTTCCCCAAGTGA	MLRLLLLLSCLFSLPAMAAPLPLADLLNGLENDPAWLADQAESEALRAERELREDEAGWQLFAGTSAGHYRELVTDDVRDEYDGLDLAVGVRHPLLGSLKRQADAVQASQHDIQRQQLRSALRRAEQRLALRGAYADWWRAQQEQRWCVALAPGLTAAERRIQQRQAGGWLLASEAQLQRSRWQELARRCAETARVTDEVRVAVAAYASAPVETDAEALAEPLANRPQAQERWLALLERHPRLAERQDRLAQAEQGRESPWYAGVDSSFSLAQSVEERSGGGAPGTGLVASLNFSTPFDLLGNDRARERLGEARYQAALRQVDVERRTLARELGRTLRAQRAALSTLTLRREQFEAARAAWRERRARGERDLEQSVLPELVAEREFYLSGFALIAAWHAAWLREAELGVFGDDDAAFAALLGDSRQPWLALDAARDNRVSKGAEWSQASYLWDSHALLDPKRRAGELRALRRAGMTAIYLGLDKAQVDALPATRAALGELLAVAGREGLRVSLLLGDPAWLNADQRDGLIALIEQLRSLPFASLHLDLEVEQLGWPVPTSRLQDLLDTLKAAAQVSPWPLELSSHPRWFAEPAADQPCIPCALPGLGVRSVSLMIYTRNAERSGALAEDIARRWPAVRFRLAQSVERMLPAEESWAGVPAVELRRQAERWRTQLQPVGVSGLDWQAWTDFPK				NA	NA	NA	NA	NA
BMS010_04957	1047			hypothetical protein	ATGAAGATTCGTTTCGACAGCCGCAAAGAACACAACCCCACCCGGGAACAAGGCCTGGAGGTGCTCTATGCACCGGGCAAGCGCGTGGCCTTCCGGTTGCGCTGGTACCTGATTCTGTTTCTCGTCGCCAGCCCGTTGCTGTGGTTCGTCGGCAAGGTGCTGTACGGCTTCTGGCTGGTGGATGCCCCGGCCCAGCTGCGCATGCCGGTGGTGGAGCTTCGTGCCCGCGACGCCGGTGTGGTGACCCATCTCGATGTCCGGGCTGGTGACCGGGTGGAGGCGGGGCAGCGCCTGATCCAGTTGGACAATCCCGAATGGCGTGCGCGCATGGCGCAGCTCCGGGCGTTGCCGGCCGGGCTGGAGGCGTCGGCTCCGCAATCGATCGACGGCCATGAGCGGCAGGTGCTGAGCCGCCAGCTCGAGCGCGCCCGTCAGCGCGTCGGCCAGGTACAGGCTTTGCTGGCGCAGGGCGCGGCGACCCGGGCCGAACTGATCGCCGCCGAAAGCGAACGCGACGCTCGTGAAAGCGATCTGCTGGCGTTCGACCGTCGCCAGCGCGAGCTGAGCCAGCGGCCTTACGGGGAGGCGCGCGACCTGCTCCAGCAGCATGCCGAGCAGGCTTGGCTGGAGTCCCGCCTGCAAGGTCTCGAATTGCATGCCAGTGCCCCTGGCCTGGTCGCCGAGGTGCTGGTCGGCGAAGGCGAGAACGTCGGCCCCGGCACCCTGCTGATGCGCCTGGAAGGCATGGGCGAGCCGGTGCTCTGGATCTACCTGGAGCCGCGTTATGGTCGCTATGCACAACCGGGGCAGCCGCTGGAAGTCCGCATGCCGGACGGCAACTGGCTGAGGGCGCGGATTCTGCAACAGGCCGACCGCGCCGGGCGCCTGCCGAGCGACCTGCGCTCGCCGTTCGCGGCGAGCCAGTTGGGCCTGTTGGTGCCGGCGGCGCTGGAGGAACCGCTGCCGGAACGCTGGCGGGTCGACCAATTGCCCTTGCAGACCCGCTTCCCCAACGACTGGGCCGGCGTGTTCAGCGCCGGTCGTTGA	MKIRFDSRKEHNPTREQGLEVLYAPGKRVAFRLRWYLILFLVASPLLWFVGKVLYGFWLVDAPAQLRMPVVELRARDAGVVTHLDVRAGDRVEAGQRLIQLDNPEWRARMAQLRALPAGLEASAPQSIDGHERQVLSRQLERARQRVGQVQALLAQGAATRAELIAAESERDARESDLLAFDRRQRELSQRPYGEARDLLQQHAEQAWLESRLQGLELHASAPGLVAEVLVGEGENVGPGTLLMRLEGMGEPVLWIYLEPRYGRYAQPGQPLEVRMPDGNWLRARILQQADRAGRLPSDLRSPFAASQLGLLVPAALEEPLPERWRVDQLPLQTRFPNDWAGVFSAGR				NA	NA	NA	NA	NA
BMS010_04958	1053			hypothetical protein	ATGGCCGAGCGTTACCTGAAGCCGGAGTTCTTAGTGTCCTCAACCCTCGATTTCCAACCACACACCACCTTCAAACCCGCCTGGTGGCTACCCGGCCCGCACCTGCAGACGCTCTGGTCACCGTTCTGCCGCCAGGCGCCGAGCCTCGAGCGGACGCGGGAGCGGCTGTGGCTGGCGGATGGCGACTTCCTCGATCTCGACTGGCATGGCCCGCACTCGGCGGATGCGCCGCTGGTGCTGGTGCTGCACGGCCTGACCGGCTGCTCCAGCTCGCTCTACGTGCTCGGCCTGCAACAGGCCCTGGCCGCCCAGGGCTGGGCCAGCGTGGCGTTGAACTGGCGCGGCTGTTCCGGCGAGCCGAACCTGTTGCCGCGTGCCTATCACTCCGGTGCCAGCGACGATCTCGCCGAGGTCATCGCCCATCTGCGCGCCCAGCGGCCGTTGGCGCCGCTCTTCGCGGTGGGCTATTCGCTGGGTGGCAACGTGCTGCTCAAGCACCTGGGTGAAAGCGGGGCGGACTGCGCCCTGCAAGGTGCGGTGGCGGTGTCGGTGCCGTTCCGCCTGGATCAGTGCGCCGACCGCATCGGCCTGGGCTTTTCGCGGGTGTACCAGGCGCACTTCATGCGCGCCATGGTCGCCTACGTGAAGGATAAGCAGCGCCTGTTCGCCCACCAGGGGCTGGCTGATCGGCTGTCGGTGCTTGAGAAACTCGGCCCGCTGGACGGCATGCGCACTTTCTGGGATTTCGACGGCCGCATCACCGCGCCGCTGCATGGCTATGTGGATGCCCTGGACTATTACCGACGCGCGTCGAGCCGCTACTTCCTCGGCGCCATCCAGGTACCGACGCTGATCATCCAGGCCGCCGACGATCCCTTCGTGTTCTTCCACAGCCTGCCGGAGCCCGGCGAGCTGTCCGCCAGCACCCGCTTCGAGCTGCATGCCAAGGGTGGGCATGTCGGCTTCGTCGAAGGGCCGCCGAATCGGCCCGGCTATTATCTGGAACGGCGCATTCCCGCCTGGTTACGGACGCGGGTCAACGACCGGCGCTGA	MAERYLKPEFLVSSTLDFQPHTTFKPAWWLPGPHLQTLWSPFCRQAPSLERTRERLWLADGDFLDLDWHGPHSADAPLVLVLHGLTGCSSSLYVLGLQQALAAQGWASVALNWRGCSGEPNLLPRAYHSGASDDLAEVIAHLRAQRPLAPLFAVGYSLGGNVLLKHLGESGADCALQGAVAVSVPFRLDQCADRIGLGFSRVYQAHFMRAMVAYVKDKQRLFAHQGLADRLSVLEKLGPLDGMRTFWDFDGRITAPLHGYVDALDYYRRASSRYFLGAIQVPTLIIQAADDPFVFFHSLPEPGELSASTRFELHAKGGHVGFVEGPPNRPGYYLERRIPAWLRTRVNDRR				NA	NA	NA	NA	NA
BMS010_04959	852			hypothetical protein	ATGGCCCCCATGCCCGCTGCCGAACCTGTCGACGCCGCCGCACGTCGCGCCGTCCGTCCTGTTGTCGTTTATCCGAACGGGACGCTTGAGATGCCAGACCTCGCGCGTCTGGAAGAAGCCAAACGAAGCATGGAAAAGATCGATGAGGTCATCGTGCCGCCGCGTGACGGTCGCACTTTTCATGTGCCAAAGGGGCACTTCTTTCGCATCGTAAGCGTTGAAGGTCCGCAGGTCGGAGACCTGAACCTCTGGAACGCCCATGATCTGACCGAGCGGTTTTTTAGCGGCAAGACCCGCGCCCTGCACGCCACCCATGTTTCGATCGGCAACCGACTGTGGAGCAACCTGCCGTCCCTGCGGCCGATGGCGACGATCACGCATGATACGCTATCATGGTATGGCTTCGACGAAGACGGCGGCAGTGTGCATGACGTGATCGGCACACGCTGCGATCCCTATACCAACAAGCTGCTGAGCGGCGGCGATTACCACCATTGCTGCCATTCCAATCTTACCAATGCGCTGGCCTCCGCCAGGGGCCTGTCATTCCGGCAGGCGGAGCCGCATGTGCATGACGTCCTCAACGTCTTCATGTGCACGGGTTTCACCCGCGACACACACCAATATTTCATGAAGGCGAGCCCGGTGCGGTCTGGTGATTATCTGGAGCTTTTTGCCGAGATCGATCTTATCGGCGCGCTTTCCGCCTGCCCGGGCGGTGATTGCAGCGCCACGCATTCGAGCGATACGGCGGCCTGTTATCCGCTGAAGGTGGAAATATTCCGGCCCGATATGACGGTGCTTGAGGGCCGGCCATGGCCGGAGAGGAATGCTTACCGTTCTCCGGAATGA	MAPMPAAEPVDAAARRAVRPVVVYPNGTLEMPDLARLEEAKRSMEKIDEVIVPPRDGRTFHVPKGHFFRIVSVEGPQVGDLNLWNAHDLTERFFSGKTRALHATHVSIGNRLWSNLPSLRPMATITHDTLSWYGFDEDGGSVHDVIGTRCDPYTNKLLSGGDYHHCCHSNLTNALASARGLSFRQAEPHVHDVLNVFMCTGFTRDTHQYFMKASPVRSGDYLELFAEIDLIGALSACPGGDCSATHSSDTAACYPLKVEIFRPDMTVLEGRPWPERNAYRSPE	PGPT0001000_158	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0001000-ycgI-K09967	NA	NA
BMS010_04960	804	gcvA_6		Glycine cleavage system transcriptional activator	ATGACGGCAACCGCCGTCAGCCAGCACGTGCGCAATCTGGAGGCTTGGCTCGGTGTGGCGCTGTTCGAGCGGCATGCGAGGGGTGTGAGGCTTACCCCGGCCGGAAAGGAATTCGGCACGACGGTTTCGACCGCCCTACGCCAGATCGCTTCTGGCGCCGCCCGGATCCGTCAGGGAAATGACCGCATGACCGTCCGCCTTGCCAGCCTGCCCTCTGTCGTGGCGCATTTTCTGACGCCCCGCTTGCCTCGCTTTCGGGCGCTTTACCCCGATATACAGGTATCCATCAGCTATTCCGGCGCGCATCACGCAATACCGGCCGATCTCACCATAGGACATGGCATCGCCTCCGGGGAAAACGCGGTCGCGCTTTTCAGCGCAGAGACACGGCCGACATGCGCGCCGGGCTATGTCGCTAAATTCGGTCCTTTCGACAATGTTGACAGCCTGTTACGAGCGGAATTGCTGCACGACGACACCGAGGCGGCGTGGCAGAACTGGTTCGCAGCCGGGGGGATATCTATGCCCGATAACGCCGGTCCGGTTTTCGCGGATTTCAATCTGCTCGTGACCGCTCTCAAAGCCGGTCAAGGCATCGGCCTCTGCCCGACGGCGCTGCTTCACGACGAGATTGCCGAAGGACAACTGACCGTGCTCTTCGACCGGGCGGCCGATAGGGAGAAATATTACTGGCTGATGGAAGCCGAAGAGATGACGGCACCATCCCGCATCCTGTCGAACTGGCTTCTTGCAGAGGCCCGAGGGAGCGAAATGCGTGGCAGTTATTCCGCCGCGACGATCTGA	MTATAVSQHVRNLEAWLGVALFERHARGVRLTPAGKEFGTTVSTALRQIASGAARIRQGNDRMTVRLASLPSVVAHFLTPRLPRFRALYPDIQVSISYSGAHHAIPADLTIGHGIASGENAVALFSAETRPTCAPGYVAKFGPFDNVDSLLRAELLHDDTEAAWQNWFAAGGISMPDNAGPVFADFNLLVTALKAGQGIGLCPTALLHDEIAEGQLTVLFDRAADREKYYWLMEAEEMTAPSRILSNWLLAEARGSEMRGSYSAATI	PGPT0026360_6193	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
BMS010_04961	951			hypothetical protein	ATGCGACTCTTTGCGGCAGAGCGTTTTGTACTTGGCATTATCGCCATATTATTCGTTGTCGATGCGGTATTGATTGCGGCCAAAGGCATTCAAGTCGACTACGCAGGATATCTTCTATGCGTTCTGGCAGGCGTCGGTGTTTTTATCCTCGGCCAGGTTTATCGCACTACCGGGCGCGATCTTCGCATTGCTGCCGCCCTGATTTCTGGCGGGTTATTCATCCTGTTCACGCTTGTTGCTTCGGTTTTCAACTACATGTTCCTACCCGTGGCCTTTCCGGCGATTGATCATGTGCTTTTCAGTGTGGATGCGGCGTTTGGCTACAGCTGGACAGGCATCGTCCTGTGGGCGGCAGCCCACCCATGGATCGGAACCGGCCTGTTTTTCGTCTATGCCTCATCGTTGCCGCAGCTTTTGGTGATCGTCCTGACGCTTGGATTTACCGGCAACGAGCGGATGCTGCACCATTTCCTCGTGACGGGAGTACTGGGTGCATTTGCATGCATCGTCTTTTGGATATTCTTGCCCACATTCGGGCCTTCGGCCTATGTGCAATTGCCGCAATGGGTATCGCAGGCCATTCCGTTGGCCGTTGATAATACCTACGGTCAGGAGTTGAACCGCCTCATAACGGAGGGAGTGGTCTATCTTTCGCCTAAAAATGTGCTGGGGTTGATCGGCTTTCCATCGTTTCACATCGTCATGGCGGCAATGTCAGTCTGGTTCATACCGCGTCACTGGGCGGTGATGGCGGTGATCTTGCCGATAAACCTCTTGATGCCGCTGGCCGTTCTTGTTCAGGGTGGACACCATCTTTCAGATGTTTTCGGTGGTCTCGCTGCTTTTGTTGTCATTTGTGCTGCATCCGCCCGCTTGCTCAACTGGCTGTCGGCGAGGGAACGGATGGAAGAGGCGGCAGCCTCTCGTGTTCAGATCGTCGCGGCGGAATAA	MRLFAAERFVLGIIAILFVVDAVLIAAKGIQVDYAGYLLCVLAGVGVFILGQVYRTTGRDLRIAAALISGGLFILFTLVASVFNYMFLPVAFPAIDHVLFSVDAAFGYSWTGIVLWAAAHPWIGTGLFFVYASSLPQLLVIVLTLGFTGNERMLHHFLVTGVLGAFACIVFWIFLPTFGPSAYVQLPQWVSQAIPLAVDNTYGQELNRLITEGVVYLSPKNVLGLIGFPSFHIVMAAMSVWFIPRHWAVMAVILPINLLMPLAVLVQGGHHLSDVFGGLAAFVVICAASARLLNWLSARERMEEAAASRVQIVAAE				NA	NA	NA	NA	NA
BMS010_04962	345			hypothetical protein	ATGATGACCGAACATTGGTGGGCGCCTTATCTCTTCATCGCGATTGCCGGCTGGCTGGCGACCGATCTCTGGCGCTGGCTCGGCGTTCTCGCCGGTAACCGCCTGAAGGAGGATTCCGAAGCGCTGCACTGGGTAAGGGCCGTCGCCACCGCACTCGTCATGGCCGTCACCGCCAAGCTGATCGTCTTTCCAACCGGAACGCTGGAAGCATCGCCCCTGTGGCTGCGCATCGGCGCCGCCGCACTCGGCTTCATCGCTTTTCTGATGGCAGGCCAGCGGGTCATCGTCGGCGTGGCGGTGCCGATCCTGCTTCTGGCGGGTGGTTTGTTCGCGCTCGGTTTCTAG	MMTEHWWAPYLFIAIAGWLATDLWRWLGVLAGNRLKEDSEALHWVRAVATALVMAVTAKLIVFPTGTLEASPLWLRIGAAALGFIAFLMAGQRVIVGVAVPILLLAGGLFALGF				NA	NA	NA	NA	NA
BMS010_04963	759			hypothetical protein	ATGCAGACTGCCGACAGCGATACCATCCCCCTGAGCGGCTGGTTTTTCCGGGGAATGCGGGGCATATTTTCGCTGCCCTCGCTCATTCTGATGACATCTTTCGTCGGTTTCAGCGCCTTCGCGCTGGAATCCGGTGTCGCGCGCGGTGAAGCCGTGTTCATGACGCTGATGATCTGGGCCCTGCCGGCCAAGATGATCCTGATCGGCTCCATGGTCGGCGGCGCCAATCTTGCCGCCTGCTTTCTGGCGGTGACGCTGTCCTCGGTCCGGATGATGCCGATGGTCGCCTCCATCGTGCCAGAAATGCGCGGCGCGAAGACGCCGACATGGATCTTGCTGTTTCTCTCCCACTTCGTCGCAATCACGGCCTGGGTTTTTGCCACGCAAAATCTTTCCAAGGTGCCGCGCGAAGCACGCGCCGCCTGGTTCGCCGGTTTCGGCATGACGCTCACCGTGGTCAATGCCATCATCGTCGGCCTGTGTTACGGCGTTGTCGCCGCCTTTCCGCCGCTTGTCGCCGGCGTGCTGTTTTTTCTCACGCCGGTCTATTTCGTGGCATCGATCTGGGCCTCGGCCCGTCATTCCGTCGTCAAGGTCGCCTTCGTCATCGGGGTCATCGCCGGGCCGGCCTTCGCGGTCATCGCACCGGAATTCGATATTCTCTATGCCGGGATCGGCGGGGGCACGGCGGCCTATCTGATCGACCGCCTCGTGTTCCGCCGTCGGATAAAACCCGTCTCACCGGAGAGCGAACCATGA	MQTADSDTIPLSGWFFRGMRGIFSLPSLILMTSFVGFSAFALESGVARGEAVFMTLMIWALPAKMILIGSMVGGANLAACFLAVTLSSVRMMPMVASIVPEMRGAKTPTWILLFLSHFVAITAWVFATQNLSKVPREARAAWFAGFGMTLTVVNAIIVGLCYGVVAAFPPLVAGVLFFLTPVYFVASIWASARHSVVKVAFVIGVIAGPAFAVIAPEFDILYAGIGGGTAAYLIDRLVFRRRIKPVSPESEP				NA	NA	NA	NA	NA
BMS010_04964	2514	clpA_2	COG0542	ATP-dependent Clp protease ATP-binding subunit ClpA	GTGCCAACTTTTTCCCCAAGTCTCGAGAAGGCGCTGCACCAGGCACTGACCTTTGCAAATGAGCGTCACCACGAATATGCGACGCTGGAACATCTCCTTCTGGCGCTGATCGACGACGCGGATGCCGCAGCCGTCATGGGCGCCTGCAATGTCGATCTCGATGCGCTTCGCAAGACTGTCAGCGATTACGTCGACAATGAACTGACGAACCTCGTCACGGGTTATGACGAGGATTCCAAACCCACATCCGGCTTCCAGCGAGTCATCCAGCGGGCCGTCATCCATGTTCAATCGTCCGGCCGCGAGGAAGTGACCGGCGCGAACGTGCTTGTGGCCATTTTCGCCGAGCGCGAAAGCCACGCCGCCTATTTCCTGCAGGAGCAGGAGATGACCCGTTACGACGCGGTCAACTACATCTCCCACGGCATCGGTAAGCGCCCCGGCACGTCGCAGACGCGCACGCCGCGCGGTGCCGATGAACCGGAAAGCGAAAACAAGGCGAGCCGCAGCAATCCCGAGGAAGACGGATCGTCCGCCAAGAAGCAGCAGGATGCGCTGAAGGCTTACTGCATCAACCTCAATGAAAAGGCGAAAAACGGCAAGATCGATCCGCTGATCGGCCGCCACGACGAGGTCAACCGCACCATCCAGATCCTCTGCCGCCGCTCCAAGAACAACCCGCTTTATGTGGGCGATCCGGGCGTGGGCAAGACGGCGATTGCCGAAGGTCTCGCCAAGCGTATCGTCGAAGGCAAGGTGCCGGAGGCGCTCGCCAATGACACCATCTTCTCGCTCGACATGGGCACGCTGCTCGCCGGCACCCGCTATCGCGGTGATTTTGAAGAGCGTTTGAAGCAGGTCGTCAAGGAACTCGAAGAATATCCGGGCGCGGTTCTGTTCATCGATGAAATCCACACCGTCATCGGTGCGGGCGCGACCTCGGGTGGCGCGATGGATGCATCGAACCTCTTGAAGCCTGCCTTGTCTTCGGGTGCGATCCGCTGCATCGGCTCGACCACCTATAAGGAATATCGGCAATTCTTCGAAAAGGATCGCGCGCTTGTGCGCCGTTTCCAGAAGATCGACGTCAACGAGCCGTCCATCGATGACGCCATCGCGATCATGAAGGGGCTGAAGCCCTATTTCGAGGACTACCACCACCTCAGATATTCCAACGAGGCGATCAAGGCTGCCGTGGAACTGTCGGCCCGCTACATTTCCGACCGCAAGCTGCCGGACAAGGCGATCGACGTGATCGACGAGACCGGTGCGGCGCAGATGCTGCTGCCGGCCTCCAAGCGCCGCAAGCTGATCACCGAGCGGGAAATCGAGGCCACCATCGCGACGATGGCCCGCATTCCCCCGAAGACGGTCTCCAAGGATGACGAGATGGTTCTCGCCAACCTTGAAAAGGAACTGCGCTCGGTCGTTTATGGTCAGGACATCGCCATCGAGGCGCTTGCCATGGCCATCAAGCTGGCGCGTGCGGGCCTGCGCGAACCGAACAAGCCGATTGGCTCCTATGTCTTTTCCGGCCCGACGGGCGTGGGCAAGACGGAAGTGGCCAAGCAGCTTGCCGCCTCGCTCGGCGTCGAGATGCTGCGCTTCGACATGTCGGAATATATGGAGCGTCATACCGTGTCGCGCCTGCTCGGCGCACCTCCCGGTTATGTCGGCTTCGATCAAGGCGGTCTGTTGACCGACGGAGTCGACCAGCATCCGCATTCCGTGGTGCTGCTGGACGAAATCGAAAAGGCGCATCCGGATATCTACAACATCCTGTTGCAGGTGATGGACCACGGCTCGCTGACCGACCATAACGGCAAGAAGATCGACTTCCGCAACGTCATCCTCATCATGACGACGAATGCGGGTGCATCCGAAATGGCGAAATCCGCCATCGGTTTCGGTTCTTCGCGCCGTACGGGTGAAGATGAAGAGGCAATCAACCGCCTGTTCACGCCGGAGTTCCGCAACCGTCTGGACGCGATCATTCCGTTCTCGCCGCTGCCGACCGCTGTCATCCACAAGGTCGTGCAGAAGTTCGTCATGCAGCTGGAAACCCAGCTCTCCGAACGCAACGTCACTTTCGATCTGCATGAAGATGCGATCTCCTGGCTGGCGGAGAAGGGTTACGACGAGAAGATGGGCGCCCGTCCTCTGTCGCGCGTGATCCAGGAAAACATCAAGAAGCCGCTCGCCAACGAAATCCTCTTTGGCAAGCTCAAGAAGGGCGGCGTCGTCAGCGTCACCGTCGGCAAGAAGGATGACGGCTCCGATGGTCTCATACTCGAGGTCCTGCCGGAGACGGCACCCGTGAAGCCGCAGCCGGAGGCCGAACTGAAGGCGGCCAAATCGCCCGGCAAGGCGAAGGCCAAAACGAAACCCGCTTCCAAGGCGGCGAAGGCCAATGAAGAGGCGGATGTCCTTGTTGCCGAGGCCGATAAGTCGGACGAGGACAGCAAGCCACGGCGCAAGACCAATGCGGTGCCGAAAGTGCCGAAGAAGAAATGA	MPTFSPSLEKALHQALTFANERHHEYATLEHLLLALIDDADAAAVMGACNVDLDALRKTVSDYVDNELTNLVTGYDEDSKPTSGFQRVIQRAVIHVQSSGREEVTGANVLVAIFAERESHAAYFLQEQEMTRYDAVNYISHGIGKRPGTSQTRTPRGADEPESENKASRSNPEEDGSSAKKQQDALKAYCINLNEKAKNGKIDPLIGRHDEVNRTIQILCRRSKNNPLYVGDPGVGKTAIAEGLAKRIVEGKVPEALANDTIFSLDMGTLLAGTRYRGDFEERLKQVVKELEEYPGAVLFIDEIHTVIGAGATSGGAMDASNLLKPALSSGAIRCIGSTTYKEYRQFFEKDRALVRRFQKIDVNEPSIDDAIAIMKGLKPYFEDYHHLRYSNEAIKAAVELSARYISDRKLPDKAIDVIDETGAAQMLLPASKRRKLITEREIEATIATMARIPPKTVSKDDEMVLANLEKELRSVVYGQDIAIEALAMAIKLARAGLREPNKPIGSYVFSGPTGVGKTEVAKQLAASLGVEMLRFDMSEYMERHTVSRLLGAPPGYVGFDQGGLLTDGVDQHPHSVVLLDEIEKAHPDIYNILLQVMDHGSLTDHNGKKIDFRNVILIMTTNAGASEMAKSAIGFGSSRRTGEDEEAINRLFTPEFRNRLDAIIPFSPLPTAVIHKVVQKFVMQLETQLSERNVTFDLHEDAISWLAEKGYDEKMGARPLSRVIQENIKKPLANEILFGKLKKGGVVSVTVGKKDDGSDGLILEVLPETAPVKPQPEAELKAAKSPGKAKAKTKPASKAAKANEEADVLVAEADKSDEDSKPRRKTNAVPKVPKKK	PGPT0014575_50	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014575-clpA-K03694	NA	NA
BMS010_04965	357	clpS_2	COG2127	ATP-dependent Clp protease adapter protein ClpS	ATGATCGCTAGGCCGATCTACATGCAGGGCGAGGGCGAAGGGGAAGACGGCGGCGGCACCAACCGCGGAACGTCTGTTATCACCCGCGTCAAGCCAAAAACAAAAAGACCGAATTTGTACCGTGTTCTTTTACTGAATGACGACTACACTCCCATGGAATTCGTCATCCACATTCTGGAGCGTTTTTTCCAGAAGGATCGCGAAGCGGCAACCCGCATCATGCTGCACGTGCACCAGCACGGCGTGGGTGAATGCGGGGTGTTTACATATGAGGTCGCAGAGACGAAAGTAAGCCAGGTCATGGATTTCGCCCGACAGCACCAGCATCCGCTGCAATGCGTCATGGAAAAGAAATGA	MIARPIYMQGEGEGEDGGGTNRGTSVITRVKPKTKRPNLYRVLLLNDDYTPMEFVIHILERFFQKDREAATRIMLHVHQHGVGECGVFTYEVAETKVSQVMDFARQHQHPLQCVMEKK	PGPT0014575_3	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014575-clpA-K03694	NA	NA
BMS010_04966	2586	cckA_1		Sensor kinase CckA	ATGACACGGGTGCGCGAGACAAGCGACAACGACCTTCCGCTGGTGGACAGGCGCGCCCGTTCCGGCACGGTCCTGCGTATTCTGCTTCTGGCGCTGGTTCTGATCGCCGCCGCTGCCGCCTTCGTCTATTTCAAGGATTCGCTCGAAAACGAAATCGTGCTCGGCATTCTCGGCGTGCTGGCCATGATGGGCATCTTCTTTCTGGTATCGTCGATCATCGGCTTCATCGAGGTCATGCCGCAGTCGCAATCCGACGGGCTTGCCCGCCGCTTTCTCTCGGCCCATCCCGAAGGCACGCTGATCACCGACGCCAAGGGGCATATGGTCTATGCCAATGCCACCTATTGCCGGATGAGCGGCACCACCAAGGCGAGCGATATCCAGAGTCTCGAAACGCTTCTGTCGCGCAGCCGGGAATCGACCGAAGCGCTTTACCGGCTCATCAACGTGCTGCGCGAAGGCCGCGACGGTTACGAAGAGTTCCGGCTGCTGAAGCCGCTGGGTGAGGATTCCAATGCAGGCCCGCACTGGTACAGGCTGAAGGGCCGGGTGCTGAAGGATGCGGGCGGCGAGGGGCTGCACGTCTTCCAGATCGCCGATATCACGCCGGAGCGCGAGGATCAGGAGCGCTTCTTCCGCGAATTGCAGAATGCCATCGATTACCTCGATCACGCCCCGGCCGGTTTCTTTTCCGCCGGGCGCAAGGGCGAGATCGTTTATCTGAACGCTACCCTGTCGGAATGGCTCGGCATCGATCTGGCGCAGTTCTCACCCGGTTCTATGACCGTTTCCGATATCGTCGCCGGCGAGGGCATGGCGCTGATCGAATCGGTGCATCCGCAGGGCACGGCGAAGCGCACTGAAATCCTCGATCTCGACATGCGACGGGTGAACGGCCAGAGCATGCCGGCCCGCCTCGTGCATCAGGTCACCTCGAAGGATGGCGCGCCCGGCGAGAGCCGCACCATCGTCCTGATGCGCCCAAAGGGGCAGGAGGATACGGAATCCTCCTCCGCCATGCGTTTCACCCGCTTTTTCAACAACACGCCGATGGCGATTGCCTCGCTCGACGGCGAAGGCCGCATCCTGCGCATCAACGCGCCCTTCCTGAAATTGTTCTCCGGCGTTGTCGGACGCGACGATATCGATCGCGGCGTCGCGCTTGAGACCGTGCTTCATGACAATGAGAAGCCGCGACTGGAACAGGCGCTGGCCGAAGCCAAGGATCGCCAGGGTGATATCGCGCCCTTCGATTCCCGCCATCCGAGCGATGAGACGAGACATTTCCGGTTTTACGTCAATGCCGTCATCGATCAGGACGACGAGGCGCCCGAAGAGGTGGCGATTGTCTATGCCATAGAGGTGACAGAGCAGAAGGCGCTCGAAACCCAGATGGCGCAGACGCAGAAGATGAATGCGGTAGGAACCCTTGCGGGCGGCATCGCCCACGACTTCAACAATGTGCTGACCGCCATCCTGCTGTCATCAGACCATCTGCTGCTGCAGGCACGGCCTGCCGATCCGAGCTTCGCCGATCTCATGGAGATCAAGCGCAACGCTAACCGCGCGGCCGTGCTGGTACGCCAGCTTCTGGCGTTCTCGCGCAAGCAGACCATGCGTCCGGCCATCCTCAACCTGACGGATGTGATCGGCGATCTGCGCATGCTGGTGGACAGGCTGATTTCCGGCACCAATGTCAAGCTGGAGGTCGATTACGGCCGCGATCTGTGGCCGGTAAAGACGGATCTGTCGCAATTCGAGCAGGTGCTCATCAATCTCTGCGTCAATGCACGCGACGCCATGCCCGACGGCGGCAAGATCACTATCAGGACGCGCAACGTCGACGCGAAGGAAATCGCAGCGCTTGGCCGCCCTGAATTCCCTGCGGAAGACATGGTCATGGTGGAAGTCGCCGATAATGGCACGGGTATTCCGCCGGAGATCATGGACAAGATTTTCGAGCCCTTCTTCACCACCAAGGAAGTCGGCAAGGGCACCGGCCTTGGCCTGTCGATGGTCTATGGCATCGTCAAACAGTCGGGCGGTTATATCTATCCCGAATCGGAAGTGGGCAAGGGAACCGCCTTCCGCATCTACCTGCCGCGCCATGTGGTGGAGGCCGTTCAGAGCAACGGGCAGCCCGGCGAGGCGGCGCTTGCTCCGGTCATCGCAGCCGAGCCGGTGAAGGAAGAGCCGCTGGACCTGACCGGCAAATCCGCCGTCGTGCTTCTGGTGGAGGACGAGGAGGCGGTGCGACGTGGCGGCAAGCGCATGCTGGAAACCCGCGGCTATACCGTGCACGAAGCCGGCTCCGGCACCGAAGCCCTGGAGGTGATGGACGAACTGGAAGGCAAGGTCGACATCGTCGTTTCCGACGTCGTGATGCCGGAAATGGACGGTCCGTCGCTGCTGAGGGAACTGCGAAAGTCCTATCCGGACCTGAAATTCATCTTCGTTTCGGGTTATGCCGAGGATGCTTTCGCAAAGAACCTGCCGGCCGACGCCAAGTTCGGTTTCCTGCCCAAACCCTTCTCGCTCAAGCAGCTCGCCATCGCCGTTCGCGAAATGCTCGACGACAAGGAATAA	MTRVRETSDNDLPLVDRRARSGTVLRILLLALVLIAAAAAFVYFKDSLENEIVLGILGVLAMMGIFFLVSSIIGFIEVMPQSQSDGLARRFLSAHPEGTLITDAKGHMVYANATYCRMSGTTKASDIQSLETLLSRSRESTEALYRLINVLREGRDGYEEFRLLKPLGEDSNAGPHWYRLKGRVLKDAGGEGLHVFQIADITPEREDQERFFRELQNAIDYLDHAPAGFFSAGRKGEIVYLNATLSEWLGIDLAQFSPGSMTVSDIVAGEGMALIESVHPQGTAKRTEILDLDMRRVNGQSMPARLVHQVTSKDGAPGESRTIVLMRPKGQEDTESSSAMRFTRFFNNTPMAIASLDGEGRILRINAPFLKLFSGVVGRDDIDRGVALETVLHDNEKPRLEQALAEAKDRQGDIAPFDSRHPSDETRHFRFYVNAVIDQDDEAPEEVAIVYAIEVTEQKALETQMAQTQKMNAVGTLAGGIAHDFNNVLTAILLSSDHLLLQARPADPSFADLMEIKRNANRAAVLVRQLLAFSRKQTMRPAILNLTDVIGDLRMLVDRLISGTNVKLEVDYGRDLWPVKTDLSQFEQVLINLCVNARDAMPDGGKITIRTRNVDAKEIAALGRPEFPAEDMVMVEVADNGTGIPPEIMDKIFEPFFTTKEVGKGTGLGLSMVYGIVKQSGGYIYPESEVGKGTAFRIYLPRHVVEAVQSNGQPGEAALAPVIAAEPVKEEPLDLTGKSAVVLLVEDEEAVRRGGKRMLETRGYTVHEAGSGTEALEVMDELEGKVDIVVSDVVMPEMDGPSLLRELRKSYPDLKFIFVSGYAEDAFAKNLPADAKFGFLPKPFSLKQLAIAVREMLDDKE				NA	NA	NA	NA	NA
BMS010_04967	279			hypothetical protein	ATGTTCCAGTCATTGCGCATTAACGGCTCCTCCGCACGGCATTTGATGCGTGTCGTTTTGCTGTTGCCACCGTTTTTCGCGTTTCCGTATTCGATAGACGGGGCCGAAGAAAAGGTGCCGGACAACGCCGCGACCATGGCGGAGTTCGTGCGCGACAATCCTTCCTGCGTCGACTTCACGGACGGATGCTCGGTTTGCACCGTCGCTGACGGCAAGATCGTCTGTTCCGCGCCGCGCATTCAATGTCAGGTGAAGGAGCTTACCTGTACAAGGCCGTAG	MFQSLRINGSSARHLMRVVLLLPPFFAFPYSIDGAEEKVPDNAATMAEFVRDNPSCVDFTDGCSVCTVADGKIVCSAPRIQCQVKELTCTRP				NA	NA	NA	NA	NA
BMS010_04968	1248			hypothetical protein	ATGATGGAAGATTTTATCGGCGCTTATGGAAACCGTCTCATCGTCGCTGTCGTCGGTGTGGGTGTGGCCCTGCTTGTTCTGGCGATTGCGCTGTGGCTTCTGCGCAGGCGCAGCGGTTCTGCCCCTTTCATCCGCGGCGGGCGCAACCGGCAGCCGCGACTGCAGGTTCTCGATGCAACGGCCGTGGACGCACGCCGCCGTCTGGTGCTGGTGCGCCGTGACAATGTCGAGCATCTCGTCATGATCGGCGGCCCAACGGATATCGTCATCGAAAGCGGTATAGGCGCGATCCCCATTGTCAGGGACGTGCAGGAGCCGGAATTGAAGGCGCTGCCGCGCCACGAAAGCGAGCAGAAGAGAGCCGAGCCCGCGATCCAGCAGGAGCGTCGCCCCGCCCTGCCGCAACAGCAGCCCGTTGTGGCTGCGGCTCCCGTTTCCGTGCCTGAAGAACCCGTCAAGCAAGCACAGCGGCCGGAGCCGCCGGCACCTGTGGCGTCCCCGCGTCCAGCACCCATTGCGGCGGCCGCCGCTCAGGTTCCGCCACGCCCATCGACCCCGCCGCAACCCGTACCCACGCCTTCTACGGCGCGCGAAACCGCGCCGCCGGCAAGACAGGCGGCACCCGAGCGGGAGATAGCGCGCCCCACGCCACCGCCAATACCGGTTGCAGCGGCTCCGGTCGCTGCGGTCTTGCCCCTGGCGGCGGCATCGCTCGATATGGCTGCGGCCCGAACGGAACCCAGGCGTGCCGAGCCCGTCGTGCCCGCTCCGGCTCCGGCACCGGTCGCACCGCCGATCCCTGCACAGGCGCCGATAGAGGCAAAGGCGGAAGAACGGACTGCGGAATTCGCTCCGCCGGTCTTTGCCGCGCGCGAGCCGGTGATCGACCAATCCATCGCCGCCGATTTTCTCGACGCCGCACGGGAGCGCGTTCTTCCCGACCTGAAGCCGGGACAAACAACGCCGCCCGCACCTTTCCCGCCCAAGCCTGAAAATCCGGCTGTGGCTTCGAACGACGCCGAGCCGAAATTTTCCGACGAGCTCGCCAGTGATTTCGAAAGCTTCCTTGAGGCGGAGATCGCCAAGAGCAAGGAGGCGGATAACGAACCGTCCATCGCCCCTGTCGCGGAAAAGCAGATCAAGCCGCAGCCAGCTTCCCCGCCTGTCACCGGCGCTTCACCGGATGGAGACATGCAGAAGGAAATGGCGCGTATTTTCGGAGAGCTTTCCGTGACCCGCGACCGCTGA	MMEDFIGAYGNRLIVAVVGVGVALLVLAIALWLLRRRSGSAPFIRGGRNRQPRLQVLDATAVDARRRLVLVRRDNVEHLVMIGGPTDIVIESGIGAIPIVRDVQEPELKALPRHESEQKRAEPAIQQERRPALPQQQPVVAAAPVSVPEEPVKQAQRPEPPAPVASPRPAPIAAAAAQVPPRPSTPPQPVPTPSTARETAPPARQAAPEREIARPTPPPIPVAAAPVAAVLPLAAASLDMAAARTEPRRAEPVVPAPAPAPVAPPIPAQAPIEAKAEERTAEFAPPVFAAREPVIDQSIAADFLDAARERVLPDLKPGQTTPPAPFPPKPENPAVASNDAEPKFSDELASDFESFLEAEIAKSKEADNEPSIAPVAEKQIKPQPASPPVTGASPDGDMQKEMARIFGELSVTRDR				NA	NA	NA	NA	NA
BMS010_04969	420	dksA_2	COG1734	RNA polymerase-binding transcription factor DksA	TTGAGTGAGAAGATCGATCTTAGCAAATATGTGCTCTCGGAAGACGATGAGTTCATGAATGCCAGCCAGCGGGCTTACTTCCGCGCGAAGCTGGTCGCCTGGAAAAATGACATCCTGAGAGAAGCGCGCGAGACCCTCGGACATCTCGCCGAAGAAAGCGCCAACCACCCCGATCTCGCCGATCGGGCTTCTTCCGAAACGGACCGGGCGATCGAACTTCGCGCCCGCGACCGTCAGCGCAAGCTGATTTCCAAGATCGATGCGGCTCTTCAGCGGATCGAAGACGGTACTTACGGTTACTGTGAGGAAACGGGCGAGCCTATCGGCCTCAAGCGTCTGGACGCCCGCCCGATTGCAACGCTCTCCATCGAGGCGCAGGAACGCCACGAGCGTCGCGAAAAAGTCTATCGCGACGAATAA	MSEKIDLSKYVLSEDDEFMNASQRAYFRAKLVAWKNDILREARETLGHLAEESANHPDLADRASSETDRAIELRARDRQRKLISKIDAALQRIEDGTYGYCEETGEPIGLKRLDARPIATLSIEAQERHERREKVYRDE	PGPT0014560_1771	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|CRP_SIGNALLING_PATHWAY,PGPT0014560-dks-K06204	NA	NA
BMS010_04970	510			hypothetical protein	TTGACAGCATCTTCCCCGAGCCGAGTTTATCTTCTGCGCCACGCCAAGGCCGCCTGGGCGGCGCCGGGAGAACGGGATTTCGACCGGGGATTGAACGAAGCGGGTTTTGCCGAGGCGGAGATCATCGCCGACCTTGCCGCCGACCGGCATTACCGCCCCGATCTGCTTCTGTCATCCACGGCTGCGCGTTGCCGGCAGACCACGCAGGCCTGGCAGCGTGCCTTCAACGAAGGCATAGACATCTTCTACGTCGATGAAATGTATAATGCGCGCAGCGAAACCTATCTCTCCCTCATCGCCGCGCAGGCGCAGGCGCAATCGGTGATGCTGGTGGGCCACAACCCCACCATGGAGGCGACGCTGGAAGCGATGATCGGTGAGGATTTGCTGCATGCCGCCCTGCCCTCGGGTTTTCCGACATCGGGCCTTGCGGTTCTCGACCATGATGACAGCGCCGCAAACGGTAAAAACAGCTGGCGGCTGGTCGATTTTCTCGCGCCGGGCAAATAA	MTASSPSRVYLLRHAKAAWAAPGERDFDRGLNEAGFAEAEIIADLAADRHYRPDLLLSSTAARCRQTTQAWQRAFNEGIDIFYVDEMYNARSETYLSLIAAQAQAQSVMLVGHNPTMEATLEAMIGEDLLHAALPSGFPTSGLAVLDHDDSAANGKNSWRLVDFLAPGK				NA	NA	NA	NA	NA
BMS010_04971	1479	ycjX	COG3106	putative protein YcjX	TTGCCGCCTTCTCTTACGTCCCTGACAGACAGCGCGCTTATCGCATTCGATAATCTGGCCGACCGTGCGAGCAACCTCACCCACCCGACATTGCGGCTTGGCGTCACCGGCCTTTCGCGGGCGGGCAAGACGGTTTTCATCTCTTCCCTCGTCCACAATCTCCTGAATGGCGGCCGGCTGCCGTTGTTCGAGGCCATGCGCTCAGGGCGCGTCTCGAATGTGCGGCTGGAGCCGCAGCCGGATGACGCCATTCCGCGTTTTCAATATGAGGATCATATTCAGGCGCTGGTGCGCGACCGGCTGTGGCCGGATTCGACACGGGCGATCTCGGAACTCAGGATAACGCTGGATTATCAGAGCGCCAGCGGCTGGGGCCGATGGTTTTCGGCCGGCAAACTTTCCATCGATATTGTCGATTATCCCGGCGAATGGCTGCTCGACCTGCCGCTTCTGTCGCAGGACTATAAACAGTTCAGCGACGCGACCGTCGCCCTTGCCGGAAGCGGCATCCGCGCCGAACTGGCGCAGGAATGGCTGGCGATCGCCTCTTCGCTCGATATCAACGCACCCGCCGACGAGATGACGGCCCGAGGTCTGGCCGAAAGTTTCGCAGCCTATCTGAAGGCCTGCAAATCCGATGAAAGATCGCTATCCACCCTGCCGCCCGGCCGTTTCCTGATGCCCGGCGATCTGGAAGGATCGCCCGCGCTCACCTTCGCACCGCTTCCCGGCCTGACGGATGAGAAAGCGCCCAAGGGCTCCCTGCGCGCCATGATGGAACGGCGCTATGACGCCTACAAGTCGATAGTGGCCAAACCCTTCTTCCGCGAGCATTTCGCCCGCCTCGACCGGCAGATCGTTCTGATCGACACGCTGCAGGCGGTCAATCGCGGCCCTGAAGCCGTGCAGGATTTGGAGCGGGCGCTGGGCGACGTGCTTGCCTGTTTCCGCCCCGGCACCAACAGTCTGCTGTCGTCGCTGATCGGCAGGCGTATCGACAAGGTGCTGATTGCCGCTACCAAGGCCGATCACCTGCACCACGAAAGCCACGACCGGCTGGAACGCCTGACCCGCCGTCTGGTGGACCGCGCCATCACCACCATCGGCATGAATGGCGCCGGCATCGAGGTCATGGCGCTCGCTTCCGTGCGCGCCACCAGAGAGGCAAGCGTGCGACAGGATGGCCACGAGCTGCCCGTTATCGTCGGCACGCCCATGGCCGGTGAAACCATCAATGGCGAGACCTTCGACGGCAATCGCAAGACGGCGATCTTTCCCGGCGATCTGCCCGAGGATCCGGAACCGCTTTTCCGCAGCATCGACAGGGATGGCGACAAGGCGTCGCTGCCGGACGTCAATGTCGTGCGATTCCGCCCGCCGAATATAGACGAGCCGGGCAGCGGCGGCATCCGTCTTTCCGTTCCCCATATCAGGCTCGACCGCGCCATGCAGTTCCTGTTCGGAGACAAGCTCGCATGA	MPPSLTSLTDSALIAFDNLADRASNLTHPTLRLGVTGLSRAGKTVFISSLVHNLLNGGRLPLFEAMRSGRVSNVRLEPQPDDAIPRFQYEDHIQALVRDRLWPDSTRAISELRITLDYQSASGWGRWFSAGKLSIDIVDYPGEWLLDLPLLSQDYKQFSDATVALAGSGIRAELAQEWLAIASSLDINAPADEMTARGLAESFAAYLKACKSDERSLSTLPPGRFLMPGDLEGSPALTFAPLPGLTDEKAPKGSLRAMMERRYDAYKSIVAKPFFREHFARLDRQIVLIDTLQAVNRGPEAVQDLERALGDVLACFRPGTNSLLSSLIGRRIDKVLIAATKADHLHHESHDRLERLTRRLVDRAITTIGMNGAGIEVMALASVRATREASVRQDGHELPVIVGTPMAGETINGETFDGNRKTAIFPGDLPEDPEPLFRSIDRDGDKASLPDVNVVRFRPPNIDEPGSGGIRLSVPHIRLDRAMQFLFGDKLA				NA	NA	NA	NA	NA
BMS010_04972	1080			hypothetical protein	ATGAAGCTTCCCACACAAAACGATCCGCAGGCGCGCCGCCCGGCCGCTTTCACGCTTGAAACCGAAGAGACGGCACGACCGTCCGCCGCACAGAAACGCGCGCCGCGCAGCTTCGACGCCGAGATTTCGCTGACGCCCGACGAGGACGATCCGTTTCTGGCGCCTGAGGAGATCGATGCCGCCGCGCTGCCGGTGGCGTCTCCGAAGAAAAGCCGCTTCTCCTTCGGCAAGCTTGCGCTCGGCGCGCTTGGCGTCCTGTTCTCGCTTGCCTTCGGGCTCTGGGCGGATCAGCTCATCCGCAACCTGTTCTCCCGTTCCGACTGGCTGGGTTACACGGCCACTACCGCTCTTATTGTGGCGCTTTTCGCCGTTCTCGTTCTCGTCGGCCGGGAAGTCTTCGGCATCATGCGGCTTAACGCCGTGCAATCCTTGAAGGCCGATGCCGAGACGGCGAGCCTCGACAAGAGCCCGAAACCCGCACGCGCCATCGTCACCCGCCTGAATGCCGTTCTCTCCCACAGGGCCGAAACGGCCAAGGGGCGTGCGGCGCTGAAGGAAACGGAAAACGATGTGATCGACGGCCCGCATCTGATCGAGCTTGCCGAACGTGAGTTGCTCGTTCCGCTCGACAGGCAGGCCCGCGCCCTCATTCTCAATTCGTCCAAGCGCGTCTCTGTCGTCACCGCCGTCAGCCCGCGCGCGGTGGTCGATCTCGCTTATGTGCTGTTTGAAGTGACGCGGCTGGTGCGCGCCATGGCGGAGCTTTATGGCGGCCGTCCCGGCACACTCGGCATGCTGAAGCTCCTGCGTGATGTCGTCGCCCATCTTGCCGTCACGGGCTCGATCGCCGTTGGCGACGGGCTCGCCCAGCAGGTTCTCGGCCACGGTCTTGCCTCGAAACTCTCGGCGCGACTCGGCGAAGGCGTCATCAACGGCCTGATGACGGCGCGAATCGGCATTGCCGCGATGGATCTGTGCCGTCCGCTGCCGTTCCGGGCGGTGAAGCGGCCGGGGATCGGCGATTTCATGTCCGATCTCACACCCGATTTAAGCGGTGGAAAAACCGGTGAAAAAGCCTGA	MKLPTQNDPQARRPAAFTLETEETARPSAAQKRAPRSFDAEISLTPDEDDPFLAPEEIDAAALPVASPKKSRFSFGKLALGALGVLFSLAFGLWADQLIRNLFSRSDWLGYTATTALIVALFAVLVLVGREVFGIMRLNAVQSLKADAETASLDKSPKPARAIVTRLNAVLSHRAETAKGRAALKETENDVIDGPHLIELAERELLVPLDRQARALILNSSKRVSVVTAVSPRAVVDLAYVLFEVTRLVRAMAELYGGRPGTLGMLKLLRDVVAHLAVTGSIAVGDGLAQQVLGHGLASKLSARLGEGVINGLMTARIGIAAMDLCRPLPFRAVKRPGIGDFMSDLTPDLSGGKTGEKA				NA	NA	NA	NA	NA
BMS010_04973	561			hypothetical protein	ATGTATTCGCGCTTCTTTTCGCTTGTGGGCGGGCTTGCCGCCATATTGTCCGTCAGCGGCGGTTTCGGCATGTCTGACGTCCATGCCGCATCGCGCGATCGCGACGACGTGTTCTTCCGCTCCGTGGCCGGTGTGTGGAAAGGCCCGGGCGAAATCGTCGCTGGCAAATACAAGGGCACGAAGTTCACCTGCGATCTGACCGGCGAGCCGCTCGACGACAAGCAGACCGGCATCAAGCTCGGCGGCACCTGCCGCGTCGGCGTCTTCAGCCAGCCCATGTCGGCCGTCATCAGCCAGAAGGGCAACTCTTACGAGGGCAAATTCCTCGACGGTGCTGAAGGCAAGGGGCTGGACATCACCTCCGGACAGGTCAGCGGCGACAAGGTCGTCGTCGGCATCAACCGCGCCAAGCTCAACGGTGCAATGGTCGCCCGCGTCTCGAACGACAATTCGATGAACATCACCATTTCGGTCAAGGTCGCCGACCAGATGATCCCGGTCATCGGCGTGACGCTGGCGCGCGATATCGACCAGCTCGCCGTTGGTTCGATCAAGCCGTAA	MYSRFFSLVGGLAAILSVSGGFGMSDVHAASRDRDDVFFRSVAGVWKGPGEIVAGKYKGTKFTCDLTGEPLDDKQTGIKLGGTCRVGVFSQPMSAVISQKGNSYEGKFLDGAEGKGLDITSGQVSGDKVVVGINRAKLNGAMVARVSNDNSMNITISVKVADQMIPVIGVTLARDIDQLAVGSIKP				NA	NA	NA	NA	NA
BMS010_04974	537			hypothetical protein	TTGAACACCGTGCCTGAAAAATTGACCGTCGCCACCTTGGGGCTCGGCGGCAATATCGGCGATCCCGCCGCCGCCATGTCAAGGGCGCTCCGCGAACTCGATGCGCGTGACAATTGCCGCCTGCTAGCCGTTTCCGACCTTTACCGCACGCCGCCCTGGGGTAAGACGGATCAGGCGGATTTTTTCAATTGCTGCGCCTTGGTCGAAACCTCGCTTTCAGCGCCTGGGCTGCTGCAATTATGCCTCGACATCGAAAAGGGTATGAAGCGGGTGCGCACGGAGCGCTGGGGGCCGCGCACCATCGATATCGATGTGCTGACCTATGGGAATGAATCTCTCGTAACGGAAAGCATCGAGGTGCCGCATCCGCGCATGACGGAGCGCGCTTTCGTGCTGATACCGCTTGCCGATATCGCGCCCGACCTTGAGGTAAAAGGCAGGCCCGTGCGGGAATGGCTTCAGCAGGCGGACAAGACCGGCATTGTCAGCGCAAACGAAAAACGGGAGTGGTGGACACTCCCGCTTGGCGATGGCTGA	MNTVPEKLTVATLGLGGNIGDPAAAMSRALRELDARDNCRLLAVSDLYRTPPWGKTDQADFFNCCALVETSLSAPGLLQLCLDIEKGMKRVRTERWGPRTIDIDVLTYGNESLVTESIEVPHPRMTERAFVLIPLADIAPDLEVKGRPVREWLQQADKTGIVSANEKREWWTLPLGDG	PGPT0007910_842	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007910-folK-K00950	NA	NA
BMS010_04975	366	folB_1	COG1539	Dihydroneopterin aldolase	ATGAGCCGCTATACCATTATCCTGAAAAACTGTTCTTTCTTCGCCCGTCATGGTCTTCTCGAGCAGGAGGAGGTGCTGGGCCAGCGCTTTTTCGTCGATGCCGAGATGGAAGTCGAGGCGGGTGATGCGCTGGAAACCGACGATATCGAAAACACCGTCGATTATGGCGTGGCTTTCGCCGTCATCGAAAAAATCGTCGTCGGCCAGCGCCGTTATCTCATCGAGGCGCTGGCGAACGACATCGCCAAGGCGCTTCGCGCCCGTTATCCGCAGATCGTCTGGCTCAGGATAACGGTACGCAAACCCTCGGCACCGGTTCCGGGCATTCTCGATTATGCGCAGGTGAGCGTTGAACACCGTGCCTGA	MSRYTIILKNCSFFARHGLLEQEEVLGQRFFVDAEMEVEAGDALETDDIENTVDYGVAFAVIEKIVVGQRRYLIEALANDIAKALRARYPQIVWLRITVRKPSAPVPGILDYAQVSVEHRA	PGPT0007905_1947	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007905-folB-K01633	NA	NA
BMS010_04976	861	folP_1		Dihydropteroate synthase	GTGATAACAGCCGGCAGCAACGCGTGGCAAGCGGCCCATGGCCGCTCCCTGAAACTTGATGGGCGTGGCCGTATTATGGCCATCGTCAATGCAACGCCCGATTCCTTTTCCGATGGCGGCCGTTATCTCGCCGTCGATGCGGCTTTTTCCCATGCGCTGACCTGTGTGGAAGAGGGCGCTGACATCATCGATATCGGCGGCGAATCCACCCGGCCGGGAGCGGCCGCGGTGACGGAAGCCGAAGAACAGGACCGGGTGCTTCCCGTCATCGAAAAATTGCGCCGCGAGACGGATGTGCTGATTTCCGTCGATACCTATCGCGCCTCGACAGCGCGGCTGGCGGTCGGGGCAGGCGCACATATCGTCAATGATGTCTTCGGCCTGCAGAAGGACGCGGAAATGGCCGGTGTGGTCGCCGCCACCCGCGCCGGCGTATGCATCATGCATACCGGCCGCGACCGGCAGAAGCTTGCCGATGTCATCGCCGACCAGTTCGTATTCCTCAATCGCTCGCTTGAGATCGCCGAGGATGCGGGTATTGCCCGTGACGCCGTCGTGCTCGATCCCGGTTTCGGTTTCGCCAAGGACGAGAGCGAAAATGTCGCGCTGATGGCGCGTTTCGGCGAACTTGCCGCCTTCGGCCTGCCGGTTCTGGCCGGTACGTCGCGCAAGCGTTTCATCGGGTCGCTGACGGGCCGGGATGCGGCCCATGAACGGGATATCGGAACGGCTGCGACAACCGCGATACTGCGGCTTGCCGGCGCTTCGATTTTTCGCGTGCATAATGTCGCCGCAACCCGCGATGCGCTGGCAATCGCCGATGCGGTTCTTGCCAAAACGTCGGCAAAGGCCGATGCGTAG	MITAGSNAWQAAHGRSLKLDGRGRIMAIVNATPDSFSDGGRYLAVDAAFSHALTCVEEGADIIDIGGESTRPGAAAVTEAEEQDRVLPVIEKLRRETDVLISVDTYRASTARLAVGAGAHIVNDVFGLQKDAEMAGVVAATRAGVCIMHTGRDRQKLADVIADQFVFLNRSLEIAEDAGIARDAVVLDPGFGFAKDESENVALMARFGELAAFGLPVLAGTSRKRFIGSLTGRDAAHERDIGTAATTAILRLAGASIFRVHNVAATRDALAIADAVLAKTSAKADA	PGPT0007915_2209	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007915-folP-K00796	NA	NA
BMS010_04977	627			hypothetical protein	ATGACCAAATCATCACGTGCTCTTTGCGCCGCTTTAGCGGCCGCGGTGGCACTTTCCCTACCCGGATCGGCTTTTTCCGAAACCATCGTCCGCAAGACCTATTCCTATTTTTCGATCAGCGGCAAAACCGCCGCTGACCTTGACCAGCAGCTTTCCAGGCACGGCCCGCTGACGCGCAATACCGGTGCGCGCCATCCAGGCGCCACCGAAATCAAATTCGGCGGCGAGCTCACCTATGTCGAGAAAAACGGCCTTTGCAGCGTCGGAACGGCCAAAGTGGTGCTGAATACCCGCATTCTCCTGCCGCAATGGAAAAACCGCCGCCGCACCACGGCGGAACTGGCCTTCATCTGGGATACGCTGCTTGCCGATATCAAGCGCCACGAGGAGCGCCACGCGGAAATCGCCCGCACCCACGCCCGCTCGCTTGAAAGACAGCTGACGTCGCTTCGCCCGCAGAAAAGCTGCGAGACGCTGCAGGAAATGGTCGGCAAGATCACCCAGACGGTGATGGACGAGCATGACAAGGACCAGATGCGCTTCGATGTGGTGGAATCGAAAAATTTCGATGCCCGCATGACACGGCTTTTGAAAAACCGGCTCGAGCAGGGCCAGAACCGCCGCTGA	MTKSSRALCAALAAAVALSLPGSAFSETIVRKTYSYFSISGKTAADLDQQLSRHGPLTRNTGARHPGATEIKFGGELTYVEKNGLCSVGTAKVVLNTRILLPQWKNRRRTTAELAFIWDTLLADIKRHEERHAEIARTHARSLERQLTSLRPQKSCETLQEMVGKITQTVMDEHDKDQMRFDVVESKNFDARMTRLLKNRLEQGQNRR				NA	NA	NA	NA	NA
BMS010_04979	321	fdxE	COG0633	Ferredoxin-6	ATGACAAAACTGACCATCGTTGCCTTTGATGGCACGCCCCATGAACTCGACGTGAGCAATGGCTCCACCGTCATGGAGAATGCGGTGCGCAACTCCATTCCCGGCATCGATGCGGAATGCGGCGGCGCCTGTGCCTGTGCGACCTGTCATGTCTATGTCGACGACGCCTGGGCCGAGCGCGTCGGCGGCCCGGAACCGATGGAAGAAGATATGCTGGACTTCGCCTTTGACGTGCGCCCCACCTCGCGCCTTTCCTGTCAGATCAAGATGAACGACGAGCTCGATGGTCTCGTCGTTCATGTTCCCGAACGTCAGGGCTGA	MTKLTIVAFDGTPHELDVSNGSTVMENAVRNSIPGIDAECGGACACATCHVYVDDAWAERVGGPEPMEEDMLDFAFDVRPTSRLSCQIKMNDELDGLVVHVPERQG	PGPT0006786_1592	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-FE-S_CLUSTER_BIOGENESIS,PGPT0006786-fdx|cndB-K04755
BMS010_04980	369			hypothetical protein	ATGGCAGCGGTCAGTATTGCTTTCGAAGCTCCCGACAATTGCGGCGGTGCGCCCGCCGCCGGTAAAAAACCGATCGATTTCGATCATCTCGCCCGTCAGACGATGGGCGACAAGGATCTGGAGATCGAAGTGCTGCAACTCTTCAGCCGCAACGCCCGCGCCGCCCTGCATGAAATGGCGGGCGCCGACGACAAGGCTGTCATGGCAACGGCCCATCGTTTGAAGGGGTCTGCGCAGGCCGTCGGCGCCTCGGCCGTCTCCGCGGCCGCAGCCGTGGTGGAGGACAAGGGCAATGACAGCGCGGCGATCGCAAAACTCGCGGCGACCATCGTCGAGGCCGAAAATTTCATCCTCAAGCTCTGCCGCTGA	MAAVSIAFEAPDNCGGAPAAGKKPIDFDHLARQTMGDKDLEIEVLQLFSRNARAALHEMAGADDKAVMATAHRLKGSAQAVGASAVSAAAAVVEDKGNDSAAIAKLAATIVEAENFILKLCR				NA	NA	NA	NA	NA
BMS010_04981	6348			hypothetical protein	ATGGCGAATAACAAGATCAGCGACTCTGTCGACGAGACTGCATTTCAGGCGTTGGAAGATGCCCTGCAGCTTGGTGCTTTCGAAGAAAAGCCGGAGACGCGGAAAACTGCAGCGCCGAAGCAGCCGGAGGCCAGATTGAAGGAAGCAAGCAGACAGACCCCTGCTCCCGAGGCCGCCCGCGCGCCTGCCGAACAGACGCCCAGATCGCCCAATCTCGAAGCGGCCAATGACGGCTCCAAGCGCAGCCCGGCCATGATCCTGAAATCGCTGGAAGGCGGCTCCATCGGCGGCGCGCTGCGCAACGCCACGATCATGTCGGTCATCTGGGCGCTCGGCGGTCTTGGCATCGCACATCTTCTTTATGGCAACGCGCTGTGGAACATCGGATCGGTCGCCGATCTCACCGCGATCCCCGGCCTGATGGCGATCGTCGTCGGCATCCTCATTCCCATCATGCTGTTCTTCGCCTTTGCGATCATGATGGCGCGCGCCCGCGATCTGCGCAACGCCGCCCGCTCCATGGCCGAAGTCGCCCTTCGCCTTGCCGAGCCGGAAACGGTCGCGTCCGACCGCATCATGTCCGTCGGCCAGGCGGTTCGCCGTGAAGTCTCGGCCATGAATGACGGTATCGAGCGCACGATCGCCCGCGCGACGGAACTCGAGACCCTCGTGCATTCCGAGGTCAACGCGCTTGAGCGCAGCTATGCCGACAACGAACTGCGCGTGCGCAGCCTCGTGCAGGAACTGACCGCCGAGCGTGACGCCATCGTCAATCACGCCGAGCGTATCCGCTCCTCCATCGTCGGTGCGCAGGAACAGATCAAGGAAGAGCTTTCCATCGTCGGTGAAGAGCTTTCGATGCGGATCGCCACGACTGGCGAGGCCTTCGCTTCGATGATCGACACCCGCTCGGCCGCGCTTTTGGAAAAATCGCGCGCCTCGACCGAAGCGATGGGCAGCCTGATCGCCGCCAAGACCGAAAATCTGCTTCAGGCGCTGAATTCCTCCGGCGCGACGCTGTCCAACGAATTCGACATGCGCCTGCACAACCTCACCTCGACGCTGGATGAGCGCGGTGAAGTCCTGCTCGAGCGTTTCGCAATCCATGCGTCGACGCTGGATAGCGGTGCGGAAAGCCTCAACAGCGCGCTTGAAGAGCGCACCCGCCAGCTCAACGAAACGCTGTCCACGCGCACGCTCGAACTCAACCGCAATATCGACCGCGGCCAGCAGATCATCGGCGGTTCGCTGGATACCGTTCTCGACAAGCTGTCCACGACGCTTGAAGAAAAGGGTCTCTCCTTCCGCCAGAGCCTGCAGAGCACGGCGGACGATGCGATCATGGATCTCGACCTTCGCTCCGGCCTCTACGAAGAGCGCATGCAGGCGACGGTCGGCCAGGTCAACTCCGCCTTCGACGAGCATGTCGCGCAGTTCGCCAGCGCCTTCGACCAGCGCGCCGGCAGCCTCGACAGCAAGCTGATGGAAAGCCTCGCCCGCATCAACGAAACCGTTGCCGGCGGCTCCGAAGCGCTCGACACCATGCTGAGCGCCGGTCTGGAGCGCATCGGCACCACCATGACCGATCAATCGCTGGCGCTCGCAACTGCGCTCGGCACGGGCCAGGAAATGCTGGAAAGCGCCCTTGAAAGCCGGACACAGGCCTTCAGCGACGCAATCGGCCAGCGTACCGCCGAAATCACCGATGCCTTCACCAGTTCGCACGAGAAGATCGACGCCGTGCTGGCGGAGCGCAGCAATGCCCTGTTCGGCGCGCTTTCGGCCAGCCAGAACCGTTTCGACGAAGCGCTCGCCAGCCGTTCGATGGCGATTACCGGCTCCGTCTCCGGCACGGCCGAACGTCTCGCCGCCATGCTCGACGAACGTGCCGCCGCGATCAACAGCGTCGTCGCCGATGTCGAGCGCCGTCTTGCCGAAACGCTCGAAACCCGGGCAGCAGCCATCACCGGCGCGGTTTCCGGCATCGAGGACCGCATTTCCGACACGCTGGAAAGTCGTACGGCTGCCCTGCATGACGTCGTCTCCGGCGCGGAGAGCCGTATCGCCGATACGCTTGACGGCCGCACGGCCGCGCTTTCCAGCGCCATTTCCGGCGTCGAGGAACGTATTGCCGACACGATGGACAGCCGCACGCTATCGCTCGACATGACCTTTGCCAATGTCGAGGAAAGACTTTCCGAGACGCTCGACAACCGCACCTCTGCCCTCACCGGCATCGTCGCAAGTGCTGAGGAAAAGATTGCCGGCGCGCTCGACAGCCGCACGGCCACCTTCGGAGACGTGGTCGCCGGTGCTGAAACCCGCATCGCGGAAACGCTGGATGGCCGCACCGCAGCCCTCAACGCCGTTGTCTCCGGTGCTGAAGAACGCATCGCCGATGCGCTCGACAGCCGTACCATGGCGCTCGACATGGCATTCTCCGGCGCGGAAGAAAAAATCGCCGAAGCGCTCGACACCCGCACCGCAGCCCTTGGCGAGCTGGTTGCCGGCGCCGAGACCCGTATTGCCGGGGCGCTCGACAGCCGAACCGAGTCGCTGAAGACCGTCGTTTCCGGCGCGGAAGAGCGCATCACCGATGTGCTCGACAGCCGCACCATGGCGCTCGATATGAGCTTCTCCGGTGTCGAGGAAAAGATCGCCGATATTCTCGACGGTCGCACCACAGCGCTGCAGAATGCCGTTTCCGGTGTCGAAGACCGCATTGCCGGCGCGCTTGACAGCCGTACTGCGGCCCTCTCGGGCATCGTCTCCGGTGCGGAGGAGCGCATCGCGGACGCGCTCGACAGCCGCACCATGGCGCTCGACATGGCGATTTCCGGCGTCGAGGACCGTATTGCCGAGGCCATGGATGCCAGAGCATCGTCGCTTTCGCTTGCGGCAGCCGGCGTCGGCCAGCGCCTAGAAGCCACCGCATTCACGCTTGAAAACGCGCTTGCCAGCGGCCACGAGCGGCTCGAAACCATGCTCGGTTCGCAGGCTGAACGCATTGCCGGATCGCTGGAGCGCAATAGCGGCCTGATCGAGCAGAGCGTCTCGGGTGCGGCCAACCGCATCGAAAGCGTCGTTGAAGACGGCAGTACCCGTTTTGCCCAGACTGTGGAAGAAGGCGTGTCCCGCCTCGAAAGCAATCTGTCGCAATCGCATGAGGATATTCGCACCGCGCTCGATCAGCGCCAGGCAGATCTTGCCGCGACGCTCAGCTCCGCCACGACCCAGATGGGCGACATGCTCTCCGAACAGGCGATGATGATCGGCACCACGGTCGCCTCCAGCGCCAGCATGCTCGAACTGTCGCTCGAAACCCAGCAGGAAGCGCTGCAGAAGGCGATCGATGGCAGTGCGCAGACGCTGGAAGAGCGCCTGCGCAACAGCGCCGGCGACATCGCCGTCAAGATCGGCGAGGCTGCCCGCGAAATTGGCGGTGCGACGGATGCCCTGTCCTCGAAAATCGAGACCTCCATCGGCAATGTCACCACCCGTCTCGACGAGACCGGCGCCCGTATCGAGACCTCGCTCGATACGCTGCAGGCACGCGTCGGCGGCGATCTGGCCAATGTGAACACCTCGATCGAAGATGCCGGCCGCCGCTTTGCCGAAGCGCTGGAAGACAAGACGGCCGTGTTCGCCCGCGCCAGCGACGAGGCGGCCGAGCGTATCACGGGCATTCTGGACGAACAGACCACGCGTGTCGCAGACACGTTCGAAAACCGGACCAACCGTCTGGCAGAGACCTTCGATACCGGCACGGCCCGTATCGATGAACGCCTCGGCACCATGGACCGGGCGTTGACCATCGGTCTTGAAAACGTCAACCGCACCATTGAAGGTAAGGCGAGCGATCTCGCCGTCAGCCTGCGCGGCGCGGTTACCTCCGCCACCCAGAGCATCGGCGAAGAAGCCGTGCGCTCCACCTCCCTTTTCGCCAAGTCCGGTTCGGAATTCGCAGAACAGGTGCAGGCGCAGAACGAGGCCTTCACCAAGGCCATCGAGGAACGTTCCGGCGAGATCGTCAACCGCATTTCGGATGCGCAGACCCGTCTCTCCGGTCAGGCCGCCGCCGTCGCCCAGACCTTCTCCGAGGCAGGCAACATCATCGTCAACAAGGTTGCCGAGGCTGAAGCCGTCGTTCGCTCTCAGGTCGGCGTCATTTCCGAGACACTCACCAGTGTCGAATCCGCCCTCGACGCCCGCGGCGAATCCATCCGCTCGGCGCTGGACAACCGCACCCGCGAACTCAACTCGATGCTGGCCAGCCGCTCCGCCGAGCTTTCGCGCCTGATCGAGGAGAAAGCCAAGCCTGTCGTCGACGAATACGCCACCATCGGCCGCGAAGCCGCCGAAAAGATCGTTTCCGCAGCCCAGCAGAGCGCGGACCTTCTGTCGCAGAGCAACAGCGGCATGGTCGGCATGGTGGAACAGGCGATCAGCGATTATGCCGCTGCCGGAACGGATGCGGCAAGCAAGCTCGTCGCCGCGACCCGCCAGAGCACCGACATGCTGTCCGAAACGCATACGGCCATGGCGGACGCCGTCGAACAGGGCATCGACAAATATGCCCGCGCCGGCAGCGATGCGGCCAACAAGCTGGTGGCCGCCACCCGCCAGAGCACGGATATGCTGTCGCAGACCCATAACAGCATGGCGGAGATCGTCGAACAGTCGGCAACCAACTTCAACTCCGCTGTCGAGCGCGCCGCACAGGGCTTCGGCGCGGCAGACGAGGCATTGAACGCCTCGGCGACGCGCTTCTCCGAATCCGCCTCGCAGGCCGCCGACATGGTGTCCAGCTCCAGCCGTCTGCTCGAAGGAAAGATCGACCGCCTGTCGAATATTTCCGGCCAGACGCTGGCGCAGGTTGCCGGCATCGTCGGCCGTTTCGAGGAACATTCGAAGGTGCTGAGCCAGGCTTCCGAGCTCCTCGATGCCGCACAGTCGAGCCTCGTCGGCACGCTGGAAGAGCGCCAGGACGCGCTGCGCAGCCTGTCCGTCGGCCTCGTCAAGCGTTCCGAGGAAATCGAAAGTGCCATGCGCAACGTCATCGGCGTGGTGGAAACCACGCTCAACGAGGCCGAGGAGCGTTCGCAGAACGTCGCCGGCAATCTGCGCGACAATCTGCAGGCCTCCTTCTCCGATATCGGCCGTTCGCTTGATGAGACCGAACAGCGCGCCCGCTCGGCAGCACAGACCATGCGGGGCGCCCTGCTGTCGGCCGGTCAGGATGCCAGCCGCTCCATTGAAAGCACGTTGTCCGACGCGCAGAAATATTCCGACGAGCTGGTCAACCGCCTGCGTGGCGGTGTCGAATCCTCGCTTTCGGAAGTGGACAATCTTCTCGGCAGCGCCTCGGAAAAATCGAATGCCGCCGCAGCCAGCCTCAAGGAGACGCTGCGTCAGGCCGTCGAGGAGGCCGTGAGCCGCTTTGCCGGTGCGACGGACGAGATCCGCCGCTCGAGCCACGATATCCGCCGCGAACTGGATGCGACCCGTGCGGAACTGAAGCGCGGCGCCTTCGACCTGCCGGAAGAAGCCAAGGAAAGCGCTGCCGCCATGCGTCGCGCCGTTTCCGAACAGATCAAGGCCCTGCAGGATATTTCCCAGCTCGTTGGTCGTTCGACCCACCAAATGGAAGTCTCCGAACCGGTTGCCCGCGCCATCGCCGCAACCCAGCCGGCGGCCGAGCGCCGTGTCGAGACACGTCCGCAGCCGGCAGCTCCGGTTCAGCAGCAGCGCCCGGCCCAGCCGCAGCCTGCTCCCGCACCGGCCGCATTGCGCGGCACCCTGCCCCTTGAGAACCGTCAGGTCGAGAACCGTCAGGCGCCTGCCCCGGCTCAGCCGGGTGCTCCGGCCGGACGCCGCGAAGAAGGCGGCGGCTGGATCAGCGATTTGCTGCGCGGCGCATCGCAGGAAACGCCAGCGGCATCCGCACCACGCGCCGGCGCGGAACAGCAGCCGACCCGTGCGGCCGACACCCGCAATCCGCGCCACATGGTGGAATCGCTGAACTCGCTTTCGGTCGACATCGCCCGCGCCATCGATCACGACGCCTCCGTGGAGTTGTGGCGGCGCTACCAGCGCGGCGAGCGCGACGTCTTCACCCGTCGCCTCTATACGCTGAAGGGTCAGACCACCTTCGACGAAATCAAGCGCAAATATGAGCGGGAAGCGGAATTCCGCACCGCCGTGGACCGCTACATCACCGATTTTGAGAAGCTGCTTGCCGACGTGGCCCGCACCGACCGCGACCGGACCGTGACACAGTCCTACCTCACCTCCGATACCGGCAAGGTCTATACGATGCTTGCCCATGCGGCGGGCCGGTTCAACTGA	MANNKISDSVDETAFQALEDALQLGAFEEKPETRKTAAPKQPEARLKEASRQTPAPEAARAPAEQTPRSPNLEAANDGSKRSPAMILKSLEGGSIGGALRNATIMSVIWALGGLGIAHLLYGNALWNIGSVADLTAIPGLMAIVVGILIPIMLFFAFAIMMARARDLRNAARSMAEVALRLAEPETVASDRIMSVGQAVRREVSAMNDGIERTIARATELETLVHSEVNALERSYADNELRVRSLVQELTAERDAIVNHAERIRSSIVGAQEQIKEELSIVGEELSMRIATTGEAFASMIDTRSAALLEKSRASTEAMGSLIAAKTENLLQALNSSGATLSNEFDMRLHNLTSTLDERGEVLLERFAIHASTLDSGAESLNSALEERTRQLNETLSTRTLELNRNIDRGQQIIGGSLDTVLDKLSTTLEEKGLSFRQSLQSTADDAIMDLDLRSGLYEERMQATVGQVNSAFDEHVAQFASAFDQRAGSLDSKLMESLARINETVAGGSEALDTMLSAGLERIGTTMTDQSLALATALGTGQEMLESALESRTQAFSDAIGQRTAEITDAFTSSHEKIDAVLAERSNALFGALSASQNRFDEALASRSMAITGSVSGTAERLAAMLDERAAAINSVVADVERRLAETLETRAAAITGAVSGIEDRISDTLESRTAALHDVVSGAESRIADTLDGRTAALSSAISGVEERIADTMDSRTLSLDMTFANVEERLSETLDNRTSALTGIVASAEEKIAGALDSRTATFGDVVAGAETRIAETLDGRTAALNAVVSGAEERIADALDSRTMALDMAFSGAEEKIAEALDTRTAALGELVAGAETRIAGALDSRTESLKTVVSGAEERITDVLDSRTMALDMSFSGVEEKIADILDGRTTALQNAVSGVEDRIAGALDSRTAALSGIVSGAEERIADALDSRTMALDMAISGVEDRIAEAMDARASSLSLAAAGVGQRLEATAFTLENALASGHERLETMLGSQAERIAGSLERNSGLIEQSVSGAANRIESVVEDGSTRFAQTVEEGVSRLESNLSQSHEDIRTALDQRQADLAATLSSATTQMGDMLSEQAMMIGTTVASSASMLELSLETQQEALQKAIDGSAQTLEERLRNSAGDIAVKIGEAAREIGGATDALSSKIETSIGNVTTRLDETGARIETSLDTLQARVGGDLANVNTSIEDAGRRFAEALEDKTAVFARASDEAAERITGILDEQTTRVADTFENRTNRLAETFDTGTARIDERLGTMDRALTIGLENVNRTIEGKASDLAVSLRGAVTSATQSIGEEAVRSTSLFAKSGSEFAEQVQAQNEAFTKAIEERSGEIVNRISDAQTRLSGQAAAVAQTFSEAGNIIVNKVAEAEAVVRSQVGVISETLTSVESALDARGESIRSALDNRTRELNSMLASRSAELSRLIEEKAKPVVDEYATIGREAAEKIVSAAQQSADLLSQSNSGMVGMVEQAISDYAAAGTDAASKLVAATRQSTDMLSETHTAMADAVEQGIDKYARAGSDAANKLVAATRQSTDMLSQTHNSMAEIVEQSATNFNSAVERAAQGFGAADEALNASATRFSESASQAADMVSSSSRLLEGKIDRLSNISGQTLAQVAGIVGRFEEHSKVLSQASELLDAAQSSLVGTLEERQDALRSLSVGLVKRSEEIESAMRNVIGVVETTLNEAEERSQNVAGNLRDNLQASFSDIGRSLDETEQRARSAAQTMRGALLSAGQDASRSIESTLSDAQKYSDELVNRLRGGVESSLSEVDNLLGSASEKSNAAAASLKETLRQAVEEAVSRFAGATDEIRRSSHDIRRELDATRAELKRGAFDLPEEAKESAAAMRRAVSEQIKALQDISQLVGRSTHQMEVSEPVARAIAATQPAAERRVETRPQPAAPVQQQRPAQPQPAPAPAALRGTLPLENRQVENRQAPAPAQPGAPAGRREEGGGWISDLLRGASQETPAASAPRAGAEQQPTRAADTRNPRHMVESLNSLSVDIARAIDHDASVELWRRYQRGERDVFTRRLYTLKGQTTFDEIKRKYEREAEFRTAVDRYITDFEKLLADVARTDRDRTVTQSYLTSDTGKVYTMLAHAAGRFN				NA	NA	NA	NA	NA
BMS010_04982	918	phzF_1		Trans-2,3-dihydro-3-hydroxyanthranilate isomerase	GTGGCGCTGAACTACGATATCTACGATGTCTTTACCGAGACGAAAATGGCGGGAAACCCGCTGGCGGTCATGTATGACGCCGATGATCTTCCCCAGGCCACGATGCAGGCGATCGCGCGGGAGATGAATCTCTCCGAGACGGTTTTCGTCAACCGGTCCAGCAATCCGGCCCATGCCGCTTCGCTGCGCATCTTCACGCCATCGGGTGAATTGCCCTTCGCAGGCCATCCGACAGTCGGCGCGGCGGTGGCCATTGCCGAACGAAATCGCGGCGAGGGCGATGACGATATCGATATGGTCTGCGTGCTGGAAGAGCAGGTGGGTCCGGTGCGTTGCGCGGTGAAGATGCGTGCCGGCGCGGTCAGCTTCGCGGAATTCGACCTGCCGCGCAAATCGTCCCGCGTGGAACTACCGCTCGATCATACCGCACTTGCCGATGCGTTGGGCGTCAGCGAGGCGCATCTTGGCTTTGAAAACCATGTACCGTCGATCTGGACGGCCGGGGTGCCGTTCCTCATCGTACCGCTGCACAATATCGCCGCCATCAGGGACATGGATTTCGATGCCAATCTGTGGCTGCGCACCGCCCCTCTGGTCGAAGGACGCCTGACGGCGGCCTATATCTACTGTCGCGGCGGCGTCAATCACGCTGCGAAGTTCCACGCCCGCATGTTCTCTCCTGATATGGGCATTTCGGAAGACCCCGCCACCGGTTCCGCCGCCGCTGCCCTTTCCGGTGCCATCCACCATTTCGATGGCCTGACTGATGGCCATTATCCTCTGCTGATCGAGCAGGGCGTGGAGATGGAACGACCGTCCCATATCCACCTGCGTATGGACGTCAAGGACGGCGAAATCGCCCGCGCCCGCATCGGCGGCCACGCGGTGCGCGTTGCTTCGGGCACGTTCGAGATTTGA	MALNYDIYDVFTETKMAGNPLAVMYDADDLPQATMQAIAREMNLSETVFVNRSSNPAHAASLRIFTPSGELPFAGHPTVGAAVAIAERNRGEGDDDIDMVCVLEEQVGPVRCAVKMRAGAVSFAEFDLPRKSSRVELPLDHTALADALGVSEAHLGFENHVPSIWTAGVPFLIVPLHNIAAIRDMDFDANLWLRTAPLVEGRLTAAYIYCRGGVNHAAKFHARMFSPDMGISEDPATGSAAAALSGAIHHFDGLTDGHYPLLIEQGVEMERPSHIHLRMDVKDGEIARARIGGHAVRVASGTFEI	PGPT0012805_212	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-HHQ|PQS_PERCIPITATION|SIGNALLING,PGPT0012805-phzF|yddE-K06998	NA	NA
BMS010_04983	774	NADK	COG0061	NAD kinase	ATGTCGCATTCTACCTATTCACTGTCCTTCGTCGCCTCGGCAACCGAGGAGGCCCAGACGGCGCTGAAAGAGCTGAAAGGCATGTACGGCGATACGCCATTCGAAGAGGCGGAAGTGATCGTCGCGCTCGGCGGCGATGGCTTCATGCTGCAGATTCTCAACGAGACGATGAATTCCGGCAAGCGGGTCTATGGCATGAACCGGGGGTCCGTCGGCTTCCTGATGAATGACTACCGGGTGGACGGCCTGCTGGAACGCATCGCGGTGGCGAGCGGCAACGATTTCCATCCCCTGCGCATGACGACGACGGATTCCGACGGCGACGAGTTTACGGCACTCGCCATGAACGAGGTCAGCCTGTTTCGCCAGTCGCATCAGGCCGCCAAGCTTCGTGTGGAGGTGGACGGCAAGGTGCGGCTTGAAGAATTGATCTGCGACGGCATGATGGTGGCGACGCCGGCAGGGTCGACAGCCTACAATTTCTCCGCCCATGGACCCATCCTGCCGCTGGAATCGCCGCTGCTTGCGCTCACCCCGGTCAGTGCTTTCCGGCCGCGGCGCTGGCGCGGCGCGCTTTTGCCGAATAAGGTAACGGTCGATATTCATGTTCTCGAACGGGACAAGCGCCCTGTGAATGCGGTGGCCGACCACACCGAGGTGAAATCCGTTCGTCACGTTCGGATCGCACAATCGCAGGACAGGACGGCCAGAATTCTCTCGGATCCGGATCGTTCATGGTCGGACCGGGTTCTCGCCGAACAGTTCAACAATTGA	MSHSTYSLSFVASATEEAQTALKELKGMYGDTPFEEAEVIVALGGDGFMLQILNETMNSGKRVYGMNRGSVGFLMNDYRVDGLLERIAVASGNDFHPLRMTTTDSDGDEFTALAMNEVSLFRQSHQAAKLRVEVDGKVRLEELICDGMMVATPAGSTAYNFSAHGPILPLESPLLALTPVSAFRPRRWRGALLPNKVTVDIHVLERDKRPVNAVADHTEVKSVRHVRIAQSQDRTARILSDPDRSWSDRVLAEQFNN	PGPT0013490_6020	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013490-ppnK-K00858	NA	NA
BMS010_04984	507			hypothetical protein	ATGGCCATGCAACTGACAAGACCTATCCTTGCTGCCTTTCTTTTCGCCGTCGCCGTGCTTCCCGCGCGGGCGCAGACGGAAGCAATTGACGCGCTGCCGGTTTCGGCAATCTTCGTCGTCAGCAGCGGCATGTGGGAAGATCGCAATCTTGAACCGGTGAAAGGCCCAGACGGACAGCTGCGGCCGCCGCCTGCCTCGCCCACGCGCGGCTATTACAAGGTCATCGCCATCCGCCAGGGCGACGGCACGGCGAAAATCTACCTGCAGCGAATCGTCTTTACCGCCGATGGGCCGAATCTCCTGGAAAACATCGAGCTGGAAGAATTCAGCCAGATGAAATCCTATGTCACGGATATTCGTCCCGAAAGCTCGAATGGCGCACCCGCCTCGCCCGGCCTGTTCGTGACCGTCTACCTGAAGACGGACCCGATAGCCAAGGAAGCGGAAAGCTGGACGATCCTGATCGACGAGCTGGGCGAGATGAAGATCGAGAAAGCGTCCAACTGA	MAMQLTRPILAAFLFAVAVLPARAQTEAIDALPVSAIFVVSSGMWEDRNLEPVKGPDGQLRPPPASPTRGYYKVIAIRQGDGTAKIYLQRIVFTADGPNLLENIELEEFSQMKSYVTDIRPESSNGAPASPGLFVTVYLKTDPIAKEAESWTILIDELGEMKIEKASN				NA	NA	NA	NA	NA
BMS010_04985	471			IS66 family transposase ISPpu30	ATGAGACAGGCGCTCTATATCGTTGACGTCCAGCCAAGCTTCAATCCGCCGGCTGCGCTGGTGGCGGAAATATCCGCTCTCGCCCTGACAATGCCCAGCATCGCCACTGTCGAGCGCCATGACGAAAGCGTAACACCCTTCGAGCGGCAACTCGGCTGGAAACCGGGCAGGGACGACGAGTCGCTTGTTGCGGCAGATCGCATATTCGTCAAACACGGTTATGCGCCACCCCGGGAGGTCATCGACCATCTTCTGTCGCTGAAACTGGACAGGGTGCTGGTCTGCGGCATTCAGGCCGATACCTGCGTGCTGGCCGCTGGTTTTGCCCTCTTCGATGCGGGGCTGCATCCCACGCTGTTGCCGTGGCTTACGGTGGGCTCCAGTCTCGACCGCAGCGGTGAACTCGGTGCGAGATTGTGGAAACATCATTTCGGTGCGGTTCTTGCCGGGCCGGAGGTGCTGCAAGCGTAA	MRQALYIVDVQPSFNPPAALVAEISALALTMPSIATVERHDESVTPFERQLGWKPGRDDESLVAADRIFVKHGYAPPREVIDHLLSLKLDRVLVCGIQADTCVLAAGFALFDAGLHPTLLPWLTVGSSLDRSGELGARLWKHHFGAVLAGPEVLQA				NA	NA	NA	NA	NA
BMS010_04986	1029	prfB_1	COG1186	Peptide chain release factor RF2	TTGAATAACAAGGCAGAGGACCCGACCCTCTGGAACGATGCCACTGAAGCCCAGAAGCTGATGCGCGAACGCCAGCAGCTGGATGACAGCATCAATGGCGTCAAGGCGCTGGAGCAGCAGCTCAAGGACAATATCGAGCTGATCGAACTCGGCGAGATGGAAGGTGATGACGAGATCGTCAAGGACGCCGAAGACGCATTGAAAGCGTTGAAGAGCGAGGCGAACCGCCGTCAGGTGGAAGCCATGCTTTCAGGCGAAGCCGATACCAACGATACCTATCTCGAAGTGCATTCGGGTGCCGGCGGCACCGAAAGCCAGGACTGGGCGAACATGCTTCTGCGCATGTATACCCGCTGGGCCGACCGCGAAGGTTTCAAGGTCGAGGTGCTCGAAGTTCACGACGGCGAAGAAGCCGGCATCAAGTCCGCGACGATCCTCGTCAAGGGCCACAATGCTTTCGGCTGGCTGAAGACGGAATCGGGCGTGCATCGCCTCGTTCGTATTTCGCCCTATGACAGCAATGCGCGTCGCCACACATCGTTCTCTTCCGTCTGGGTTTACCCCGTCGTCGACGATTCGATCCAGATCGACATCAACGAGAGCGATTGCCGCATCGATACCTATCGTTCGTCCGGCGCAGGCGGCCAGCACGTCAACACCACCGACTCGGCGGTGCGTATCACGCATATTCCGACCGGTATTGCCGTTGCCTGCCAGCAGGAGCGTTCCCAGCACAAGAACCGCGCCAAGGCGTGGGACATGCTGCGCGCCCGCCTCTACGAGGTGGAGCTGCAGAAGCGGGAAGAGGCGGCCAATGCGCAGGCCGCATCCAAGACCGATATCGGCTGGGGCCACCAGATCCGTTCCTACGTTCTGCAGCCCTATCAGCTGGTCAAGGACCTGCGCACCGGCGTGGAAAGCACCGCACCCGGCAACGTACTGGACGGCGATCTGAACGAGTTCATGGAAGCGGCCCTCGCGCATCGCATCAGCGGCGGCGCGGATGTGGAAGTCGCGGATATCGACTGA	MNNKAEDPTLWNDATEAQKLMRERQQLDDSINGVKALEQQLKDNIELIELGEMEGDDEIVKDAEDALKALKSEANRRQVEAMLSGEADTNDTYLEVHSGAGGTESQDWANMLLRMYTRWADREGFKVEVLEVHDGEEAGIKSATILVKGHNAFGWLKTESGVHRLVRISPYDSNARRHTSFSSVWVYPVVDDSIQIDINESDCRIDTYRSSGAGGQHVNTTDSAVRITHIPTGIAVACQQERSQHKNRAKAWDMLRARLYEVELQKREEAANAQAASKTDIGWGHQIRSYVLQPYQLVKDLRTGVESTAPGNVLDGDLNEFMEAALAHRISGGADVEVADID				NA	NA	NA	NA	NA
BMS010_04987	2448	mrcA_2	COG5009	Penicillin-binding protein 1A	ATGATCAGACTGATTGGATATTTTTTCGGCTTGGCCAGCGTGCTCTTCCTGTGCGCCGCCGCCGCCGGTGCGATTTATTTGCACGGCGTGACGAAGGACCTGCCGGATTACGCAGTTTTGAGCACCTATGAGCCGCCGGTGACGACCCGCGTGCATGCCGGCAACGGCGCGCTGATGGCGGAATATGCGCATGAAAAACGCCTGTTCCTGCCGATCCAGGCCATTCCCGACCGGGTGAAGGCTGCTTTCCTTTCGGCGGAAGACAAGAATTTCTACAACCATCCGGGTGTGGATGTCTTCGGCCTCGGCCGCGCCATTCTCGTCAATATCCAGAATTTCGGCTCCGGCCGCCGTCCGGTCGGCGCCTCCACCATCACCCAGCAGGTGGCGAAGAACTTTCTGCTCACCAATGACCAGACCATCGACCGCAAGCTCAAGGAAGCCATTCTGTCCTTCCGCATCGAGCAGACCTATTCCAAGGACAAGATTCTCGAGCTTTATCTCAACGAGATTTTCTTCGGCCTGAATTCCTACGGCATTGCCGGTGCGGCGCTCACCTATTTCAACAAATCGGTGACGGAATTGACGATTGCGGAAACAGCCTATCTCGCATCGCTGCCGAAGGGTCCGGCCAATTACCATCCGATCCGCCGCGAAAAAGCGGCTCTTGAGCGTCGCGACTGGGTGATCGACCGCATGGCCGAAAACGGCTACATCACGGTCGCCGACGCCACGGACGCCAAAAAGCAGCCGCTTGGCGTCAATCTGCGTCGCGGTGGCGCGCATATCTTCGCGTCTGACTACTTCGCGGAGGAAGTCCGCCGCCAGATCGTCGAGAAATACGGCGAGGAAGCGCTTCTCGAAGGCGGGCTCTCGGTCCGCACCTCTTTCGATCCGCAGATCCAGATGGAAGCCCGCAAGGCGCTTCAGGACGGTCTGGTGCAATATGACGAGCGTCGCGGTTTCCGCGGACCCGTCGAAAAGATTGAGACTGCGGGTGACTGGACGGCGGCGCTCGCCAAGGTCAAGGGCCTGCGCGACGTTCCGGAATGGAAAGTCGCTGTGGTGCTTGCCGTCGCTGCCGATGGCGTCGACATCGGCGTGCAGCCGGACACGGAAACGGAAGATGGCGACAAGCGCACCCGCGGCCATATCTCCGCTGAAAACATGCGCTGGGCTTTCCGCGATGCGACCGGCAAGAAGGCCACCGCCAAGTCGCCGGTTGGCGTCCTCTCCGCCGGTGACGTGGTTTATGCGCAGCCGCTTTCCAATTCTGGTAACGAATATCGCCTGCGCCAGCCGCCGAAAGTGCAGGGCGGCATGGTGGTGATGGACCCGCATACCGGCCGTGTTCTGGCCATGGTCGGCGGTTTCTCCTATGCGCAGTCGGAATTCAACCGCTCGACGCAGGCGATGCGCCAGCCGGGCTCCTCCTTCAAGCCGTTCATCTACGCGGCGGCGCTCGATAACGGCTATACGCCGGCGTCGGTCATTCTCGATGCGCCGATCGAGGTCGTTTCCGGCAATCAGGTCTGGAAGCCGCAGAATTACGGCGGCGGTTCCGCCGGCCCGTCGACCCTGCGTCTCGGTATCGAGAAATCCCGTAACCTCATGACGGTGCGTCTGGCGCAGGATATGGGCATGAATCTGGTTGCGGAATATGCCGAACGCTTCGGTATCTACGACAAGATGCCGCCGCTTCTGTCCATGTCGCTGGGTTCCGGTGAAACGACGGTGATGCGCATGGTCTCGGCCTATTCGGTCATCGCCAATGGCGGCAAGCAGATCAAGCCGACACTGATCGACCGCATTCAGGACCGTTACGGCAAGACGATCTTCCGGCATGAGGAGCGCGCCTGCGAAGGCTGCAACGCGACAAGCTGGCAGAACCAGGATGAGCCCGTCATCGTCGACAATCGCGAACAGGTTCTCGACCCGATGACCGCCTATCAGACGACCTCGATGCTGGAAGGCGTCGTGCAGCGCGGCACGGCGGCGGGCAAGATCAAGGTCGATCTGCCGGTTGCCGGCAAGACGGGCACGACCAACGATGAAAAGGATGCCTGGTTCGTCGGTTACACGCCGGACATGGTCGCCGGCCTCTATATCGGTTTCGATTCGCCGGCCCCTCTCGGCCGTGGCGGCACGGGCGGCTCGCTGTCGGCGCCGATATTCGGTGAGTTCATCTCCGATGCGGCCAAGCACATGGAGCCAAGCAAATTCATCGTACCTGCCGGCATGAATTTCGTCGCCGTCAACCGCAAGACCGGCATGGCGGCGGTCGAGGGCGAGCCCGATACCATCATGGAAGCCTTCAAGCCCGGCACGGGTCCTGCTTCCACCTTCTCTGTCATCGGCGATGACGGATACATGTCGCAGGAAGACATTCTGAAGACGTCGCCGCAGGCGCAGCAGGCCATCACCGGCGGTGGCGGCGGTCTTTATTGA	MIRLIGYFFGLASVLFLCAAAAGAIYLHGVTKDLPDYAVLSTYEPPVTTRVHAGNGALMAEYAHEKRLFLPIQAIPDRVKAAFLSAEDKNFYNHPGVDVFGLGRAILVNIQNFGSGRRPVGASTITQQVAKNFLLTNDQTIDRKLKEAILSFRIEQTYSKDKILELYLNEIFFGLNSYGIAGAALTYFNKSVTELTIAETAYLASLPKGPANYHPIRREKAALERRDWVIDRMAENGYITVADATDAKKQPLGVNLRRGGAHIFASDYFAEEVRRQIVEKYGEEALLEGGLSVRTSFDPQIQMEARKALQDGLVQYDERRGFRGPVEKIETAGDWTAALAKVKGLRDVPEWKVAVVLAVAADGVDIGVQPDTETEDGDKRTRGHISAENMRWAFRDATGKKATAKSPVGVLSAGDVVYAQPLSNSGNEYRLRQPPKVQGGMVVMDPHTGRVLAMVGGFSYAQSEFNRSTQAMRQPGSSFKPFIYAAALDNGYTPASVILDAPIEVVSGNQVWKPQNYGGGSAGPSTLRLGIEKSRNLMTVRLAQDMGMNLVAEYAERFGIYDKMPPLLSMSLGSGETTVMRMVSAYSVIANGGKQIKPTLIDRIQDRYGKTIFRHEERACEGCNATSWQNQDEPVIVDNREQVLDPMTAYQTTSMLEGVVQRGTAAGKIKVDLPVAGKTGTTNDEKDAWFVGYTPDMVAGLYIGFDSPAPLGRGGTGGSLSAPIFGEFISDAAKHMEPSKFIVPAGMNFVAVNRKTGMAAVEGEPDTIMEAFKPGTGPASTFSVIGDDGYMSQEDILKTSPQAQQAITGGGGGLY	PGPT0023875_2386	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023875-mrcA-K05366	NA	NA
BMS010_04988	1290			hypothetical protein	ATGACTGAAATACGGAATTTCTTGAAGACCATGAATTTCACGCGCAACGCAGCGATATTCGGTGGGAGAGGGCGGCTTGGCGCGCGAATCGCGCGGCTTGCGGCGGCTCTGGCATTTTCCGCCGTCGCCTCTGTTTCCGCCGCGCCTGCAGCCCATGCCGTGGAGCCGCTCGTCGTTCATCAGGCGCGGATCATCGGCGATGAGGCGCGCACGCGCATCGTTCTCGACTTCGCCGAAGAGCCGGAATTCGACGTTCACTATCTCGATTCGCCCGCCCGCATCGTTGTGGACTTTCCGGCGGTGAATTTCAGCTTTCCCGCATCCGACCTGAAGCCGACCGGTCTTTTTTCGGATATCCGTTTCGGCAGCATGGGGCAGAACAGCGCCCGCATCGTGCTGACGGCGAAAAAGCCGGTTCAGGTGGCGGTTGCCGAAACCAAAAAGACCGATAACGGCCAATCTTTCCATTTCGTGCTCGATACGGAAATCACCACCAAGGGCAAGTTCGCGGAACTGGTGAAGGATCAGCAGTGGCAGGCGCCAGCCCCGGTGACGACTGCCGCGATCACGCCGGATGACAAGACGTCGCGGCCAGCGGAATTCGTCATCGCTGTCGATGCCGGCCATGGCGGCATCGATGCGGGCGCCACCGGCGGCACCACCGGCACCGAGGAAAAGGTCATTACGCTGACTTTCGCCAAGGAACTTGCCGAGCGGCTGAACCGCGAGCCAGGCATCAAGGCTTTCCTGACGCGCGATTCCGATACGTTTCTCGCCTTGTCGGAACGGGTGACCATCGCCCGCCAGAACAATGCCAACCTCTTTATTTCCCTTCATGCGGATACGTTGAAGCAAAAGGGCATCCGGGGCGCGACCGTCTATACATTGTCGGACCGGGCATCGGACCGGCAGGCGCAGGAACTGGCGGAGCGCGAAAACAAGTCTGACCAAATCGCGGGCGTCGCTGCTTCCAGCGAGCCGCCGGAAGTGGCCGATATTCTTCTTGATTTCACCCGCCGTGAAACGCAGGCCTTTTCGGTGACGCTGGCTGAAAACATCGTCTCCTCCTTTGAGGGGCAGGTGGGGCTCATCAACAATCCGCACCGTTACGCCGGTTTCATGGTGCTGCGCGCCCACGATGTGCCGTCGGTGCTGCTGGAACTCGGTTTCCTCTCCAATCCGGAAGACGAAAAGCTGCTTCTCGATGGGGAATGGCGCAAGAAGGTGGCCGATACGCTGGCAACCGCCGTTGGGCGATACCGCGCCAAGGCCATGGCAAATGGCGGCTGA	MTEIRNFLKTMNFTRNAAIFGGRGRLGARIARLAAALAFSAVASVSAAPAAHAVEPLVVHQARIIGDEARTRIVLDFAEEPEFDVHYLDSPARIVVDFPAVNFSFPASDLKPTGLFSDIRFGSMGQNSARIVLTAKKPVQVAVAETKKTDNGQSFHFVLDTEITTKGKFAELVKDQQWQAPAPVTTAAITPDDKTSRPAEFVIAVDAGHGGIDAGATGGTTGTEEKVITLTFAKELAERLNREPGIKAFLTRDSDTFLALSERVTIARQNNANLFISLHADTLKQKGIRGATVYTLSDRASDRQAQELAERENKSDQIAGVAASSEPPEVADILLDFTRRETQAFSVTLAENIVSSFEGQVGLINNPHRYAGFMVLRAHDVPSVLLELGFLSNPEDEKLLLDGEWRKKVADTLATAVGRYRAKAMANGG	PGPT0024160_3050	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
BMS010_04989	144			hypothetical protein	ATGCCATATTATTGGTGGAATTTCCGGGTTAACAATTGGTTCACCAAGGCCTGCGATTGTGGGGCGCAAACGCGCAAACTATCGTACGGCGTGGTCGAAACGGCACTGTTGCCGGCGTTTTTCCTCGCCGTTTATCGAAAATGA	MPYYWWNFRVNNWFTKACDCGAQTRKLSYGVVETALLPAFFLAVYRK				NA	NA	NA	NA	NA
BMS010_04990	2895	rne_1		Ribonuclease E	ATGGCAGACAAAATGCTTATCGACGCCTCCCACGAAGAGGAGACACGCGTAGTCGTTGTCCGTGGGAACCGGATCGAAGAATTCGATTTCGAATCGGAGCACAAGAAACAGATCCGCGGCAATATCTACCTTGCCAAGGTCACGCGCGTTGAGCCTTCCCTCCAGGCGGCCTTCGTCGACTACGGTGGAAACCGCCACGGCTTTCTCGCTTTTGCGGAAATCCATCCGGACTATTACCAGATTCCGCTCGCCGACCGTCAGGCCCTCCTGAAAGCGGAAGCCGAGGATCATCGCCGCAGCGACGATTTCGAATCCGCTGACGCACCCGAGCCCGGCGCCCCCATGATCGACCTTTCGCAGGTGGATCAGCCGGATGTCGGCATTGTTTCCGCCAGCGAAACCACTGAAACGGTCGTCGCGGAAGAGACTGCGCCTGCCGCGGAAGAGGTTTCCGGAGAAGCGGCCGTCGAGGCCGTAGCCGAAGAAGCGCCCGCCGAGGAAGAAAAGCCGAAGAAGCGCACCCGCCGCCCCCGCGCCAAGAAGAAGACGGCAGAAGAAGAAGCCGCAGCAGCCGAGGCCGCCGAAGCTTCTTCCGAAGACGACGGCAGCGTCGGCGGCGAAATGGCCGCCATGGTCGATACCGACACGATTTCCGAGGAAGTCGAGGGTCTTCGCCGCGGCAATGACGATGATGACGACGACGATGACGATCACCACGAAAAGGAAGTGATCGAATCTGTCGGCGCCGAAGACGCCATGGAAGAGGTTCCGGACCGCGTCGCCCGCAAGCCGCGCAAGCAGTATCGCATTCAGGAAGTCATCAAGCGCCGCCAGATTCTTCTGGTGCAGGTGGCCAAGGAAGAGCGCGGCAACAAGGGCGCGGCGCTGACCACTTACCTGTCGCTCGCCGGCCGTTATTCCGTTCTGATGCCGAATACGGCGCGTGGCGGCGGTATTTCCCGCAAGATCACACAGCCGGCCGACCGCAAGCGCCTGAAGGAAATCGCGCGCGATCTGGAAGTGCCGCAGGGCATGGGCGTCATCCTGCGCACCGCCGGCGCAAACCGCACCCGCGTCGAAATCAAGCGCGACTTCGAATATCTGATGCGCCTGTGGGAAAATGTCCGCACGCTGACGCTGAATTCCACGGCCCCCTGCCTCGTTTACGAGGAAGGCTCGCTCATCAAGCGTTCGATCCGCGATCTCTACAACAAGGATATCGGCGAGATCATCGTTTCGGGCGAAGACGGCTACCGTGAAGCCAAAGACTTCATGAAGATGCTGATGCCGAGCCACGCCAAGGTGGTTCAGCCTTACCGCGACATTCACCCGATCTTCTCGCGCTCCGGTATCGAAGCGCAGCTTGACCGGATGCTGCAGCCGCAGGTCACGCTTAAGTCGGGCGGCTATCTCATCATCAATCAGACGGAAGCGCTGGTTTCCATCGACGTCAACTCGGGCCGTTCGACCCGCGAGCACTCCATTGAGGAAACCGCGCTGACAACGAACCTCGAGGCGGCGGAAGAAGTGGCGCGCCAGCTGCGCCTGCGCGACCTTGCCGGTCTTGTCGTCATCGACTTCATCGACATGGAAGAAAAGCGCAACAACCGCGCTGTCGAGAAGAAGCTCAAGGATTGCCTGAAGAACGACCGCGCCCGCATCCAGGTCGGCCGCATCTCGCATTTCGGCCTTCTGGAAATGTCGCGCCAGCGCATCCGCGCTTCGGTGCTGGAATCGACCACGCAGGTCTGCCAGCATTGCGGCGGCACGGGCCATGTTCGCTCGGAATCCTCCATCGCGCTGCATGTGCTGCGCGGCGTCGAGGAATATCTGCTGCGCAACACCACCCACAACATCACGGTGCGCTGCACGCCGGAAACGGCGCTCTACCTGCTCAACCACAAGCGCGGCACGATCGTCGATTATGAAGGCCGCTTCGGCGTGTCGATCATCATCGCTGCTGACGCCGGCGTCGGTGCGCAGCATTTCGCCATCGATCGCGGTGAAGCCGTCGAAAATCCGGTGAAGATCGAAAGCCTCATCCAGATGCTGCCGAACTTCGTGGAAGAGGAAGACGATTTCGTCGCCGAGGTGGAAGAGGACGAAGACGAGGAAGAAATCGTCAAGGCGCAGACCGCCGAGCCACGCCAGCAGCAGCAGGGCGACAATGGCGAGGAAGGCAAGCGCAAGCGCAAGCGTCGCCGCCGCCGTCGCGGCAAGGGCGGTCAGGGCGAGCAGAACGGCGCGCTAGACGCCCAGTCCGGCGATGCGGAAGGCGATGATGCCGAAGGTGATGACGATGGCGTCGAAACCGATGAAGCCGATACTGAAACCGAAAACGGTGCAGCGGAAGCCGTAACCTCCGAAGAGGACGGCAAGCGCAAGCGCCGCCGTCGCGGCAAGCGCGGCGGACGTCGCAACCGTGCGGAAGACGAGGCTCTCGATGCCGCCGACTCGGAAGCCGAAGGTGAAAGCGAAGAGGCTTCCGCCGAAGCATCCGTAACCGAAGAGCCGACCGCCGCCGAGGTGGTGGAAGGTGCGGTTGCCGAGGTCGCGGAAGAGGACGTGCCGAAAAAGCCGCGCCGCACCCGCAAAGCGAAAGCCAAGACTGAAACTGAGGAAGCGCCGAAGGCCGAAGCCGTTGAAACGGTGGAGCCGGTGATCGTTGAGGAAACCGTGGTGGACGTCGCCATTGAAGAAGCGGGTGAGGCTTCGGCCGATCTGGCTTCGGAAGCGGAAGCACCGGCCACGGAAGAAAAGGTCCGCGCGAACCGGGGCAGCAATGTCTCGAGCTCGGAGCCGGTAGTCACCTCTTCCGGTTCCTCCACCCCCGCTGATGGCGACGAGCCGAAGCCCCGCAAGGGCGGCTGGTGGCAGCGCAAGGGCTTCTTCTGA	MADKMLIDASHEEETRVVVVRGNRIEEFDFESEHKKQIRGNIYLAKVTRVEPSLQAAFVDYGGNRHGFLAFAEIHPDYYQIPLADRQALLKAEAEDHRRSDDFESADAPEPGAPMIDLSQVDQPDVGIVSASETTETVVAEETAPAAEEVSGEAAVEAVAEEAPAEEEKPKKRTRRPRAKKKTAEEEAAAAEAAEASSEDDGSVGGEMAAMVDTDTISEEVEGLRRGNDDDDDDDDDHHEKEVIESVGAEDAMEEVPDRVARKPRKQYRIQEVIKRRQILLVQVAKEERGNKGAALTTYLSLAGRYSVLMPNTARGGGISRKITQPADRKRLKEIARDLEVPQGMGVILRTAGANRTRVEIKRDFEYLMRLWENVRTLTLNSTAPCLVYEEGSLIKRSIRDLYNKDIGEIIVSGEDGYREAKDFMKMLMPSHAKVVQPYRDIHPIFSRSGIEAQLDRMLQPQVTLKSGGYLIINQTEALVSIDVNSGRSTREHSIEETALTTNLEAAEEVARQLRLRDLAGLVVIDFIDMEEKRNNRAVEKKLKDCLKNDRARIQVGRISHFGLLEMSRQRIRASVLESTTQVCQHCGGTGHVRSESSIALHVLRGVEEYLLRNTTHNITVRCTPETALYLLNHKRGTIVDYEGRFGVSIIIAADAGVGAQHFAIDRGEAVENPVKIESLIQMLPNFVEEEDDFVAEVEEDEDEEEIVKAQTAEPRQQQQGDNGEEGKRKRKRRRRRRGKGGQGEQNGALDAQSGDAEGDDAEGDDDGVETDEADTETENGAAEAVTSEEDGKRKRRRRGKRGGRRNRAEDEALDAADSEAEGESEEASAEASVTEEPTAAEVVEGAVAEVAEEDVPKKPRRTRKAKAKTETEEAPKAEAVETVEPVIVEETVVDVAIEEAGEASADLASEAEAPATEEKVRANRGSNVSSSEPVVTSSGSSTPADGDEPKPRKGGWWQRKGFF				NA	NA	NA	NA	NA
BMS010_04991	705	fabG_6		3-oxoacyl-[acyl-carrier-protein] reductase	ATGTCGGCAGAAAAAGTAGCGATTGTAACGGCAGGCGGCAGCGGCATGGGGGCCGCCGTGGCGAAACGTCTGGCCGCGGATGGCTACAAACTCGCGATCCTGTCTTCGTCCGGCAAGGGGGAGGCGCTGGCGCAGGAGCTGGGCGGTATCGGCGTTACCGGCTCCAACCAGTCCAATGACGATCTCCAGCGGCTCACGGATCTGACACTCGAAAAATTCGGCCGCATCGATGTGCTGGTCAACAGCGCCGGCCATGGCCCGCGCGCCTCCATTCTCGATATTACCGATGAGCAATGGCACACCGGCCTCGATGTCTACCTCATGAACGTCATCCGCCCGACGCGGATCGTCGCCCCCGTTATGGTGAAACAGAAGGCGGGCGCCATCGTCAATATCTCGACCGCCTGGGCTTTCGAACCGAGCAGCATGTTCCCGACATCCGCCGTGTTCCGCGCCGGTCTTGCCTCCTACACCAAGATTTTCGCCGATACCTATGCGGCCGACAATGTGCGCATGAACAATGTTCTGCCCGGCTGGATCGACAGCCTGCCGGCGACGGAGGAACGCCGCGAGAGCGTGCCGATGCAGCGTTACGGCAAGAGCGAGGAAATCGCCGCCACCGTGGCATTCCTTGCCTCTGATGGGGCCGGTTATATTACCGGTCAGAATATCCGCGTTGATGGCGGGCTGACGCGGTCTGTTTGA	MSAEKVAIVTAGGSGMGAAVAKRLAADGYKLAILSSSGKGEALAQELGGIGVTGSNQSNDDLQRLTDLTLEKFGRIDVLVNSAGHGPRASILDITDEQWHTGLDVYLMNVIRPTRIVAPVMVKQKAGAIVNISTAWAFEPSSMFPTSAVFRAGLASYTKIFADTYAADNVRMNNVLPGWIDSLPATEERRESVPMQRYGKSEEIAATVAFLASDGAGYITGQNIRVDGGLTRSV				NA	NA	NA	NA	NA
BMS010_04992	360			hypothetical protein	ATGATCGCCGTTATCTTCGAGGTCTGGCCCGCTGAAGGCGAGAAGCAGCATTATCTCGACATCGCGGCAGGCCTGCGGGCTGAGCTGGAAACCATCGACGGCTTCCTGTCCGTCGAGCGGTTTCAAAGCATCGGCAATCCGGACAAGATGCTCTCTCTGTCCTTCTTCCGGGATGAGGAGGCGGTGAGGGCATGGCGCAACACCATGCCGCATCGCGCCGCGCAGTCGCTGGGCCGGTCCGGTGTTTTTTCCGATTACCGGCTGCGTATCGCGCAGGTGATCCGCAACTATGGCCTGGAGGAGAGGGAGGAAGCGCCAGCCGACAGCCGGAAAGCCCATCCGGGAGAGGGAACAGCTTAG	MIAVIFEVWPAEGEKQHYLDIAAGLRAELETIDGFLSVERFQSIGNPDKMLSLSFFRDEEAVRAWRNTMPHRAAQSLGRSGVFSDYRLRIAQVIRNYGLEEREEAPADSRKAHPGEGTA				NA	NA	NA	NA	NA
BMS010_04993	327			hypothetical protein	ATGCTGACCTGTTTCATCCGCTACGAGATCGATCCTTTCAAGGTCGACGCCTTTGAACGATATGCCCGCACATGGGGTGAGGCGATACCGCGCTGCGGGGCCGATCTGATCGGCTATTACGCTCCGAAGGAGGGATCGAGCACCATTGCCTACGGTGTCTACAACATCGAAAATCTCGCCGCCTACGAAGCCTACAGGGCACGGCTCGCCGCCGATCCTGCAGGGCGGGAAAATTACGAATTCGCCCGCCGCGAGCAGTTCATCCGCCGCGAGGACCGGCTTTTCCTGCGTCTCGCCTCCGCTCCGCACGCCGGAGGCGGACAATGA	MLTCFIRYEIDPFKVDAFERYARTWGEAIPRCGADLIGYYAPKEGSSTIAYGVYNIENLAAYEAYRARLAADPAGRENYEFARREQFIRREDRLFLRLASAPHAGGGQ				NA	NA	NA	NA	NA
BMS010_04994	684			hypothetical protein	ATGAAAGACGGACCTCTGATCGCCAATGTTGCCGCGCTGATCGGCGACCCTGCCCGCGCCAACATTCTAACGGCGCTGATGGACGGACGTGCGCTGACCGCAAGCGAGCTTGCCGAAGCCGCCGGCGTGACCCTGCAGACCGCCAGCGGGCATCTGTCGAAGCTATCCGAGGCGCAACTCCTGAAAGCGGAAAAACAGGGGCGTCACCGCTATTTCCGTCTTTCCGACGAGGATGTGGCGCATGTTCTGGAAGCGTTGATGGGTCTTGCCCAGCGCACGGGCGCAGTCCGCGTCCGCACGGGACCGAAGGACAAGGCGCTGCGGGAAGCGCGCATCTGCTACGATCATCTGGCCGGGGAAAGCGGCGTGGCGCTGCTTGCGGCCATCACCGCAAAAGGGCTCGTGACGTTAGGTGATGATCCTGCCCTAACGGAGAGCGGGCGCGACTTCTTCTCAAGCTTCGGCATCGACCTTTCGTCACTCGAAAAGGCCCGTCGCCCCGTCTGCCTGCATTGCCTGGACTGGAGCGAACGCCGCCATCACCTCGGCGGCGGGCTTGGCGCGTCGCTTCTCGAAGCCATGCAGCAGCGCGACTGGCTGCGGCGCGGAAACGGCCGGGTGCTGACCTTCACTGCAAAGGGCGAGAAGGCGTTCAACAGCACCTTCGGCTGCACGCCCGCCTGA	MKDGPLIANVAALIGDPARANILTALMDGRALTASELAEAAGVTLQTASGHLSKLSEAQLLKAEKQGRHRYFRLSDEDVAHVLEALMGLAQRTGAVRVRTGPKDKALREARICYDHLAGESGVALLAAITAKGLVTLGDDPALTESGRDFFSSFGIDLSSLEKARRPVCLHCLDWSERRHHLGGGLGASLLEAMQQRDWLRRGNGRVLTFTAKGEKAFNSTFGCTPA				NA	NA	NA	NA	NA
BMS010_04995	1164	aspC_2	COG0436	Aspartate aminotransferase	ATGCCCTTGATTACGATGTCGAAGCGGAGCGCAGTCGAACCCTTTCACGCCATGGATATTCTGGCGGAAGCGAATCGGCGCAGGCAGGCGGGCCGCCCCGTCATTTCCATGGCGGTCGGCCAGCCCTCGCATCCCGCGCCGAAAGCCTCGCTTGCGGCGGCTGAGGCGGCGCTGAAGCACGGGCGGATCGGTTACACAGATGCGCTGGGTCTGCGTGAGCTGCGCGAGGCGATTGCCGGCCATTACCGGCTGCGCCACCAGGTCGCCATCGATCCGGCCCGCATCGCCGTGACCACGGGCTCATCCGCAGCCTTCAATCTCGCTTTCCTCAGCCTTTTCGATGCGGGCGATTGTGTCGCCATCGCAAGGCCTGGCTATCCGGCCTATCGCAATATTCTGAAGGCTCTCGGCCTCAATGTCGTGGAAGTGCCGGTCACGGCGGAAACCGGCTATACGCTCACCCCGGCAAGTCTGGAGCGAGCGGAGACAAAGGCCGGCTGCAAGCTGAAGGGTGTGCTTCTGGCAAGCCCGGCCAATCCGACCGGCACCGTTACCGGCCGTGAGGCGCTGAAGCGGCTTGCGAGCTACTGCGAAAGCCGCGACATGGCTTTCATTTCCGACGAGATTTATCACGGCCTTACCTTTGTCGGCGAAGAGACGAGTGCGCTTGAAATCACCGACAATGCCGTGATCATCAACTCCTTCTCCAAATATTATTGCATGACCGGCTGGCGCATCGGCTGGATGGTGCTGCCCGAAAATCTGGTCCGTCCCGTCGAGTGTCTGGCCCAGAGCCTTTATATTTCCGCGCCCGAACTGTCGCAGCTTGCGGCGACAGCGGCCTTTTCGGCGGCGGAGGAACTGGATGTCTACCGGGAAAGCTATCGCACCAACCGCGATTTCCTGATGGCGCGCCTGCCGGAGATCGGCCTGCCGCTGGCATCCCCTATGGATGGCGCTTTTTACGCCTATGTCGATACCAGCCGTTTTTCTAATGACAGCATGGATTTTGCCAAGCGCATGCTGGCGGAAATCGATGTGGCGGCGACGCCGGGCATGGATTTCGATCCCGAGGAAGGGCACAGGGCGCTTCGCATTTCCTATGCGGGTTCCGTGTCGGATATCGCCGAGGCCGTTGGACGTATTGCCGGCTGGCTGAAATAA	MPLITMSKRSAVEPFHAMDILAEANRRRQAGRPVISMAVGQPSHPAPKASLAAAEAALKHGRIGYTDALGLRELREAIAGHYRLRHQVAIDPARIAVTTGSSAAFNLAFLSLFDAGDCVAIARPGYPAYRNILKALGLNVVEVPVTAETGYTLTPASLERAETKAGCKLKGVLLASPANPTGTVTGREALKRLASYCESRDMAFISDEIYHGLTFVGEETSALEITDNAVIINSFSKYYCMTGWRIGWMVLPENLVRPVECLAQSLYISAPELSQLAATAAFSAAEELDVYRESYRTNRDFLMARLPEIGLPLASPMDGAFYAYVDTSRFSNDSMDFAKRMLAEIDVAATPGMDFDPEEGHRALRISYAGSVSDIAEAVGRIAGWLK				NA	NA	NA	NA	NA
BMS010_04996	768			hypothetical protein	ATGGCGCATTTTCTCCGTTCCACCCTTCTCGCCAGCGTGACGGCCCTTTCGACGGTATTCGCCTCCCTGCCCGCCCATGCGCTCGACGAGCAGCAGAAGAAGGAAATGGGCGAGTTCATCAAGCAATATCTGATCGAGAACCCGGAGATCATGCTTGAGGTTCAGGATGCGCTTGAGCGCAAGCAATATGCGGCGCGCAACGCCAAGGCGGCGGAAGCCGTCGCCGACAACAAGAAGGCTATCTTCGAATCGAAATTCGATCTGGCGCTCGGCAACCCGGACGGCGACGTCACGCTGGTCGAGTTCTTCGACTACAATTGCGGTTATTGCAAACGCGCCATGGGCGACATGGACAACATCCTGAAGAGCGACAAGAAGGTGCGCGTCGTCCTCAAGGAATTCCCGATCCTCGGACCGGAATCGGTTGCGGCCCACCGTGTCTCCAATGCCGTGAAGCTGCTTGCGCCGGCCAAGTACCCCGAATTCCAGCGCACGCTGCTCGGCGGTCGCGGACGGGCGAATGAGGACAGCGCCATGGAAGTCGCGACCTCGCTCGGCCTCAAGGAAGCCGACATCCGCAAGTCGATGGCGGAGAACCCCAATGACGAGCAGGTGCAGGAGACTTACAAGCTGGCAACCAGCCTCGGCATCACCGGAACGCCCTCCTATATCGTCGGCGACGAGGCGGTTTTCGGCGCCGTCGGCGCTGACCCGCTGAAGGAAAAAATCGCCAATATGCGCAGCTGTGGAAAAGCCACCTGCTCCTGA	MAHFLRSTLLASVTALSTVFASLPAHALDEQQKKEMGEFIKQYLIENPEIMLEVQDALERKQYAARNAKAAEAVADNKKAIFESKFDLALGNPDGDVTLVEFFDYNCGYCKRAMGDMDNILKSDKKVRVVLKEFPILGPESVAAHRVSNAVKLLAPAKYPEFQRTLLGGRGRANEDSAMEVATSLGLKEADIRKSMAENPNDEQVQETYKLATSLGITGTPSYIVGDEAVFGAVGADPLKEKIANMRSCGKATCS				NA	NA	NA	NA	NA
BMS010_04997	438	aroQ_1	COG0757	3-dehydroquinate dehydratase	ATGAGCAACATCATCATCGTCATCAACGGCCCCAATCTCAATATGCTGGGAAAAAGGGAACCGGGTATCTATGGTGGCAAGACGCTGAAGGACATCGAGAATGATTGCCTTCAAGCCGGTGCCGATCTCGGTTTCGCAGTGGAATTCCGCCAGTCCAACCACGAAGGCGTGCTGGTGGACTGGTTGCAGGAGGCGGGCGAGCGGGCGGTAGGCGTCGTCATTAATCCCGGCGCCTACAGCCACACATCGATCGCGTTGCATGACGCCATTCGCGCGATTTCCACGCCCGTCGTGGAAGTGCACATTTCCAACATCCACGCCCGCGAAGAGTTCCGTCACAAATCGATGGTATCACCCGCGGCAAAGGGCATGGTCTGCGGTTTCGGACCATATGGATACATCATGGCGCTTCATGCGCTGAAAAACATCACGGCATAA	MSNIIIVINGPNLNMLGKREPGIYGGKTLKDIENDCLQAGADLGFAVEFRQSNHEGVLVDWLQEAGERAVGVVINPGAYSHTSIALHDAIRAISTPVVEVHISNIHAREEFRHKSMVSPAAKGMVCGFGPYGYIMALHALKNITA	PGPT0012905_3109	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_QUINATE_CATABOLISM,PGPT0012905-aroQ|qutE-K03786	NA	NA
BMS010_04998	492	accB_2	COG0511	Biotin carboxyl carrier protein of acetyl-CoA carboxylase	ATGTCTGAAAAGAAACAGGGTATCGACAAGGAACTGATCCGCGAACTCGCGAATATCCTCAACGATACCGACCTTTCGGAAATCGAAGTGGAGCAGGACGACCTGCGCATCCGCGTTTCCCGCGCCGCTCCCGCCGCCACGGTCTATGCCGCAGCGCCTGCTGCTTATGCGCCCGCACCGGCAGCAGCCCCCGTTGCTGCACCGGTCGCAGCCGCGCCGGCCGCCCCTGCGGCCTCCGCAGCGCCTGCCCGCAACCCGGCCAACACCGTGTCCTCGCCCATGGTCGGCACGGTCTATCTTTCGCCTGCCCCGGGCGCACGTCCCTTCATCGAAGTGGGTGCAACCGTCAAGGAAGGCCAGACCATCCTCATCGTCGAAGCCATGAAGACCATGAACCAGATCCCGGCTCCCAAGTCCGGCAAGGTCGTGGAAATCATCGTCAACGACGCTCAGCCCGTGGAGTATGGCGAAGCCCTCGTGGTCATCGAATAA	MSEKKQGIDKELIRELANILNDTDLSEIEVEQDDLRIRVSRAAPAATVYAAAPAAYAPAPAAAPVAAPVAAAPAAPAASAAPARNPANTVSSPMVGTVYLSPAPGARPFIEVGATVKEGQTILIVEAMKTMNQIPAPKSGKVVEIIVNDAQPVEYGEALVVIE	PGPT0001700_1208	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0001700-accB|bccP-K02160	NA	NA
BMS010_04999	1347	accC_2	COG0439	Biotin carboxylase	ATGGTTTCGAAGATCCTCATAGCCAACCGCGGCGAGATCGCGCTACGCGTCCTGCGCGCCGCCAAGGAACTTGGCATTCCGACGGTGGCCGTGCATTCCACGGCCGACGCGGATGCCATGCATGTGCGCCTTGCCGACGAAAGTGTGTGCATCGGCCCGCCGCCCTCGCGTGACAGCTACCTCAACATCCACCAGATCGTTGCGGCCTGCGAAATCACAGGTGCGGACGCCGTTCACCCGGGTTACGGCTTCCTGTCGGAAAATGCCAAGTTCGCAGACATTCTCGACGCGCACGGCATCACCTTCATCGGGCCGACCGCCGAACATATCCGCATCATGGGCGACAAGATCACCGCCAAGCAGACGGCGCAGGAACTCGGCATTCCCGTGGTTCCCGGTTCCGATGGCGAAGTGAAGCCTGAAAACGCGCTCGAAATCGCCCGGACGATCGGCTTCCCGGTCCTCATCAAGGCGACGGCGGGCGGCGGTGGTCGCGGTATGAAGGTGGCCAAGACCGAAGCCGATCTGGAAGAGGCCGTTGCGACGGCCCGATCCGAAGCGGCAGCAGCCTTCGGCAACGACGCCGTCTACATGGAAAAATACCTCGGCAAACCGCGCCATATCGAAGTGCAGGTTTTCGGCGATGGCGAAGGCAATGCCGTTCACCTCGGCGAACGCGATTGCTCGTTGCAGCGCCGCCACCAGAAGGTGCTGGAAGAAGCCAATTCGCCGGCTCTGACCGTCGAACAGCGCATGAAGATCGGCGAGATTTGCGCGAGCGCCATGCGCAAGCTGAAATATCGCGGCGCCGGCACCATCGAGTTCCTTTATGAAAACGGCGAGTTCTATTTCATCGAAATGAACACCCGTCTGCAGGTGGAGCATCCGGTGACGGAAGCCATCACCGGCATGGATCTCGTGCAGGAACAGATCCGGGTCGCTTCCGGCCAGGGCCTTTCGGTCACGCAGGACGATATCGAATTCCATGGCCATGCCATCGAATGCCGTATCAATGCCGAGGACCCGCGCACCTTCGTTCCCTCACCGGGCACGCTGACCTATTTCCACACACCGGGCGGTCTTGGTGTGCGCGTCGATTCCGGTGCCTATCAGGGCTACAAGATCCCGCCCTATTACGACAGCATGATCGGCAAACTGATCGTTCACGGCCGCGACCGTGACGAATGCATTCGCCGTCTGCGTCGGGCGCTCGACGAATTCGTCGTTGATGGCATCAAGACCACGCTGCCGCTTTTCCAGGATCTCCTTCAGAACGAGGATATCCTGAAGGGCGATTACGACATTCACTGGCTGGAAAAATATCTGGCCGGTGACGCGTCTCACTAA	MVSKILIANRGEIALRVLRAAKELGIPTVAVHSTADADAMHVRLADESVCIGPPPSRDSYLNIHQIVAACEITGADAVHPGYGFLSENAKFADILDAHGITFIGPTAEHIRIMGDKITAKQTAQELGIPVVPGSDGEVKPENALEIARTIGFPVLIKATAGGGGRGMKVAKTEADLEEAVATARSEAAAAFGNDAVYMEKYLGKPRHIEVQVFGDGEGNAVHLGERDCSLQRRHQKVLEEANSPALTVEQRMKIGEICASAMRKLKYRGAGTIEFLYENGEFYFIEMNTRLQVEHPVTEAITGMDLVQEQIRVASGQGLSVTQDDIEFHGHAIECRINAEDPRTFVPSPGTLTYFHTPGGLGVRVDSGAYQGYKIPPYYDSMIGKLIVHGRDRDECIRRLRRALDEFVVDGIKTTLPLFQDLLQNEDILKGDYDIHWLEKYLAGDASH	PGPT0001705_3599	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-VOLATILE_RELATED_FATTY_ACID_METABOLISM,PGPT0001705-accC-K01961	NA	NA
BMS010_05000	645	aat_2	COG2360	Leucyl/phenylalanyl-tRNA--protein transferase	ATGGTTGGGCGGCGCAGCAGAAATAACGGCATAACGGTCGATATCCTGCTGCGCGCCTATTCCGCCGGCCTGTTCCCAATGGCCGATTCGGCTGACGATCCCGAGCTTTTCTGGGTCGAGCCGGAAATTCGGGGAATCATCCCGCTCAATGGTTTTCACGTTTCCAAAAGCCTCGCCAAGGCGATGCGCAGGAAGCCGTTCGAGATTCGCTTCAACACCGCCTTCGAAGCGGTGATGGCCGGATGTGCGGCGGAAGCGCCGGACAGACCAAGCACCTGGATCAATGCCACCATCCGCAGGCTCTATACCGAATTGCACCAGATCGGCCACGCCCATAGCGTCGAGGCGTGGGAGGGCGAGGAGCTCGTCGGCGGGCTGTACGGCGTCTCGCTGGGCGCCGCCTTCTTCGGCGAGAGCATGTTTTCCCGCCGCACCAATGCATCGAAGATTTGCCTCGTGCATCTGGTCGAGCGTTTGCGGCAGCAGGGATTTACGCTGCTCGACACGCAATTTACGACCGAACATCTGAAGACATTCGGGGCAATCGATATTCCAAAATCGGAATATGCCACGATACTTGAAGCGGCTGTCGACAGGCCGGACGTACCCTTCGAAAAATTGTCTGCGCAAGAAAATCCCCGCTGA	MVGRRSRNNGITVDILLRAYSAGLFPMADSADDPELFWVEPEIRGIIPLNGFHVSKSLAKAMRRKPFEIRFNTAFEAVMAGCAAEAPDRPSTWINATIRRLYTELHQIGHAHSVEAWEGEELVGGLYGVSLGAAFFGESMFSRRTNASKICLVHLVERLRQQGFTLLDTQFTTEHLKTFGAIDIPKSEYATILEAAVDRPDVPFEKLSAQENPR				NA	NA	NA	NA	NA
BMS010_05001	444			hypothetical protein	ATGCGCTGGATTGCGGCCTTGTTATTGATGTTGACGCCGGCGGCGAATGTCACCGCTGCCGAACAGCGCCCGAACCCGCAGGCCGCCTGGCGAAGCGAAATTTCCCGAGCCTTGACGGGCGTAACCGGCCGCCCGGAATTCAAGGTCGTCCGGACGAACAAGAAGCAGGTGCTCCTTGTTACTTTCCGCGTTGACCCGGCGGGAAAGATGCAGGCCGTTCAGGTCAAAAACATAAGGGATAGTACCTATCAGACAAGAATGGCCGTGAAGAGGGCATTTTCCGAAATCAGGTTCCCCTCACCGCCCGCCGGCGATCAGCCCAACAAGTTCACCGTTCCGATTGTGATCGAGCCTGAACTGACACGGGAGGAAATGATCGAACAACTGGAAAGCAAAAGCAAAGCCCTGGCCGATTTGGCCGAGAAGCTCAGACGCCAGAAATAG	MRWIAALLLMLTPAANVTAAEQRPNPQAAWRSEISRALTGVTGRPEFKVVRTNKKQVLLVTFRVDPAGKMQAVQVKNIRDSTYQTRMAVKRAFSEIRFPSPPAGDQPNKFTVPIVIEPELTREEMIEQLESKSKALADLAEKLRRQK				NA	NA	NA	NA	NA
BMS010_05002	438			hypothetical protein	ATGAGGAAATTCACGCGGGATCGTTCTTTGCGTGCGCTGACAGTCTCGCTGTTTGCAGCGGTCTCTGCTGTCATCCTCATTTCGCCCGTTTATGCTGCTCGTCTTGAAAACCGTGTGGCGGTGTTTTCCGGCATCGACAAGATCACCGGCCGCATCACTTCCTTCGATGTCTATATCGATGAGACCGTGCAGTTCGGCGCGCTTCAGGTGACGCCGAAAGTCTGCTATTCCCGCGACCAGACGGAAGCGCAGAAGATCGATGCCTTCATCGAGGTGGATGAAATCACCCTCGACCGCAAGATCAAGCGGATTTTCACGGGCTGGATGTTCGCCGACAGCCCCGGCCTCAACGCCGTGGAACATCCCATCTACGACGTGTGGCTGACGGGCTGCAAGCAGGACTCGGAAGTTCCCGCTCCCTCAACGGCAAGCAAGTAA	MRKFTRDRSLRALTVSLFAAVSAVILISPVYAARLENRVAVFSGIDKITGRITSFDVYIDETVQFGALQVTPKVCYSRDQTEAQKIDAFIEVDEITLDRKIKRIFTGWMFADSPGLNAVEHPIYDVWLTGCKQDSEVPAPSTASK				NA	NA	NA	NA	NA
BMS010_05003	399			hypothetical protein	ATGAAGACTCTCCTGACGCAAATCTTCACCTGGTGGAACGGCCAGACGATCGGAACGCGGTTTCATACCTGGCGTTTCGGCAAGAAGGTAGGACAGGACGAGTTGGGCAACACCTATTACGAAGGCGGCACCACCTCCTGGGGTATGCCGCGCCGCTGGGTGATCTACAACGGTTATGCCGAAGCGTCGGCCATTCCGCCCGGCTGGCATGGCTGGATGCATTACCGCACCGACGTGCCGCCGAGCCAGGAAAGCTACGTTGCGCGCGACTGGCAGAAGCCGCATCAGCCGAACCTCACCGGTTCCTCCAAGGCCTATCGCCCTCAGGGGTCGCTGGCCGTGGCTGGCGAGCGCCCGCGCGTGACCGGCGACTACGACGCCTGGACCCCCGGCAACTAA	MKTLLTQIFTWWNGQTIGTRFHTWRFGKKVGQDELGNTYYEGGTTSWGMPRRWVIYNGYAEASAIPPGWHGWMHYRTDVPPSQESYVARDWQKPHQPNLTGSSKAYRPQGSLAVAGERPRVTGDYDAWTPGN				NA	NA	NA	NA	NA
BMS010_05004	474			hypothetical protein	ATGAATGAGAAACTTCAACAACTGATCATCCGCACGGCGCGCGAAGACGATCTTCCGGCACTCGCCGCCATTTTTGCCGCCGACGAGATCGGCGGCCACGGCGATACGGCGGAAGAATCGGCGCAGCCGGATTATCTCGCCGCTTTCCGCGCCATCGAAGCGTCGCCGAGCGAAACGCTCTATGTGGCGGAACTGGATGGCGAGGTGGTCGGCACCTTCCAGACGGCGATCCTGACCAAGCTCGTCGGGCGAGGGGCAAAGTCCATGGTGATCGAGGCGGTGCAGACGCGTGCCGACATGCGCGGTCGCGGCATCGGCGCGGTGATGATCAATCATTGCCTGGACGAAGCCCGCCGTCAGGGCCTGAACGCCGCGCAGCTGACGTCCAACATGGCCAGGCTGGACGCTCACCGCTTCTATGAGCGGCTGGGTTTCGAGAAGCGGCATTTAGGCTTCAGGATGAAGCTGAAATAG	MNEKLQQLIIRTAREDDLPALAAIFAADEIGGHGDTAEESAQPDYLAAFRAIEASPSETLYVAELDGEVVGTFQTAILTKLVGRGAKSMVIEAVQTRADMRGRGIGAVMINHCLDEARRQGLNAAQLTSNMARLDAHRFYERLGFEKRHLGFRMKLK				NA	NA	NA	NA	NA
BMS010_05005	498			hypothetical protein	ATGTTCTTCATCCGCACGGCAAGCCTGCGTGACATCGAGCCGGTGCGCACCCTGCTCGCCACGACGTGGCACGCGACCTATGATGCGATCTATGGCGTGGACAAGGTCAACCAGCTGATCCTCGCATGGCATTCGCCGCAGGCCATGAAGGACCGCATCGAGAAAAAGGGCGGCGAGTTTCTGGTGGCTGACGACGGCAAGCGGATTGGCGGCATGGCCTATGGCTCCATGTCCACCAAGATGGCGAAGACAGCCCTGCTGCACCAGCTCTATGTCGCGCCTGACCTTCAGCGGCAGGGCGTCGGCCGCGATCTCTTCGCCGAACTGGAAACCTGTTTTCCGGATGCGGAAATCATGCGGCTGGAAGTCGAGCCTAAAAATACTGTCGCAATCGCCTTTTATGAAGGCGTCGGATTTGTCGAGGTCGACCGAATCGAGCGCATGGCGGGCATCGAGGGTCTGCCCGGCGTCGTTATGGAAAAGAGCCTGACCCGATGA	MFFIRTASLRDIEPVRTLLATTWHATYDAIYGVDKVNQLILAWHSPQAMKDRIEKKGGEFLVADDGKRIGGMAYGSMSTKMAKTALLHQLYVAPDLQRQGVGRDLFAELETCFPDAEIMRLEVEPKNTVAIAFYEGVGFVEVDRIERMAGIEGLPGVVMEKSLTR				NA	NA	NA	NA	NA
BMS010_05006	1575	gatB_2	COG0064	Aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit B	ATGTCTTGCGCCCGCGCTCCATTTGTTCTACCCACCAAGGCCAAAGAACCCGTATATCGTGAGCTTCAGATGACCCTTGTAGACGTGCGCACCCCCGACCCGAAACGCTTCATTCCCGGCGCCACCGGCGATTGGGAAATCGTGATCGGCATGGAGGTGCATGCGCAGGTTCTCTCCAATTCCAAGCTGTTTTCCGGTGCATCGACCACCTTCGGCAATGCGCCGAATTCCAACGTGTCGCTGGTGGATGCCGCCATGCCGGGCATGCTGCCCGTTATCAACGAGGAATGCGTGAAGCAGGCGGTGCGCACCGGTCTTGGCCTGAAAGCCAAGATCAACCATCGCTCGATCTTCGACCGCAAGAACTACTTCTATCCGGATTTGCCGCAGGGCTACCAGATTTCGCAGTTCAAGGACCCGATCGTCGGTGAGGGCACCATCACCATTTCGCTCGGTCCGGACCGTCAGGGCAATTTCGAAGATATCGAAATCGGCATCGAGCGTCTGCATCTGGAGCAGGACGCCGGCAAGTCCATGCATGACCAGCACCCCACCATGTCCTTCGTGGACCTGAACCGTTCGGGCGTGGCGCTGATGGAAATCGTCTCCAAGCCGGATATGCGCTCGTCTGACGAAGCCAAGGCCTATCTCACCAAGCTGCGTTCCATCGTGCGTTACCTCGGCACCTGCGACGGCAACATGGATGAAGGCTCGATGCGCGCCGACGTCAACGTCTCCGTGCGCCGTCCGGGCGAAGGTTTCGGCACGCGCTGCGAAATCAAGAACGTCAACTCCATCCGCTTCGTCGGTCAGGCCATCGAATATGAGGCGCGCCGCCAGATCGCCATTCTGGAAGATGGTGGCGTCATCGATCAGGAAACCCGCCTGTTCGACCCCGGCAAGGGCGAGACGCGGTCCATGCGCTCCAAGGAAGATGCGCATGATTACCGTTATTTCCCCGATCCGGACCTCTTGCCGCTCGAATTCGACGATGCTTTCGTCGAGGCGCTGAAGGTCGATCTGCCGGAACTGCCTGACGAGAAGAAGGCCCGTTTCGTGGCCGATCTCGGCCTGTCGGTCTATGACGCCTCGATCCTCGTTTCGGAAAAGGCGATTGCCGATTATTACGAGGCCGTCGCCGCCGGTCGCGATGCGAAGGCCGCCGCCAACTGGGTCATCAACGATCTGCTCGGCGCGCTGAACAAATCGGGCAAGGATATCGAGACGACGCCGGTTTCGCCCGAACAGCTCGGTGGCATCATCGATCTCATCAAGGCCGAGACCATTTCCGGCAAGATCGCCAAGGACCTGTTCGAAATCGTCTGGAACGAGGGCGGCAACCCGGCGGAAATCGTTGAAGCCCGTGGCATGAAGCAGGTGACCGATACCGGCGCCATCGAAAAGGCCGTCGACGAGATCATCGCCGCCAACCCGGATCAGGTCGAGAAGGTGAAGGCAAAGCCGACGCTTGCCGGCTGGTTCGTCGGTCAGGTCATGAAAGCGACGGGCGGCAAGGCCAACCCGCAGGCGGTGCAGGCGCTGGTGAAGGCCAAGCTCGGTATCGAGGAAGAGTAA	MSCARAPFVLPTKAKEPVYRELQMTLVDVRTPDPKRFIPGATGDWEIVIGMEVHAQVLSNSKLFSGASTTFGNAPNSNVSLVDAAMPGMLPVINEECVKQAVRTGLGLKAKINHRSIFDRKNYFYPDLPQGYQISQFKDPIVGEGTITISLGPDRQGNFEDIEIGIERLHLEQDAGKSMHDQHPTMSFVDLNRSGVALMEIVSKPDMRSSDEAKAYLTKLRSIVRYLGTCDGNMDEGSMRADVNVSVRRPGEGFGTRCEIKNVNSIRFVGQAIEYEARRQIAILEDGGVIDQETRLFDPGKGETRSMRSKEDAHDYRYFPDPDLLPLEFDDAFVEALKVDLPELPDEKKARFVADLGLSVYDASILVSEKAIADYYEAVAAGRDAKAAANWVINDLLGALNKSGKDIETTPVSPEQLGGIIDLIKAETISGKIAKDLFEIVWNEGGNPAEIVEARGMKQVTDTGAIEKAVDEIIAANPDQVEKVKAKPTLAGWFVGQVMKATGGKANPQAVQALVKAKLGIEEE				NA	NA	NA	NA	NA
BMS010_05007	333			hypothetical protein	ATGGTGACGGTCGCTCTCTGTTTCATAACCTATATCGCCTTCAATCTTTTCGTCTTTCTTGTCTATTGGTGGGACAAGGAAGCGGCGAGAAATGGCGGATGGCGCATCCGGGAAAGCACGCTGTTATCGCTTGCGCTCATCGGCGGCAGCCTGGGCGCGATCTCGGCACAACGGCTGCTCCGGCATAAAACACGCAAGGAACCGTTCCGCAGCATCCTGATATCGATCGTGATATTGCAGATTGGCCTTGTCGCATCGCTCGCCATCACGCCGGACTGGCCGATGCGGCTGGTGGAGGCTCTGCAAACTCTGTCTCAGAAAGCCGGCCCATAA	MVTVALCFITYIAFNLFVFLVYWWDKEAARNGGWRIRESTLLSLALIGGSLGAISAQRLLRHKTRKEPFRSILISIVILQIGLVASLAITPDWPMRLVEALQTLSQKAGP				NA	NA	NA	NA	NA
BMS010_05008	510			hypothetical protein	TTGATCGTCATTCGCAATGCGCATGAGCAGGAAGCGGAGGTTCTGGCGGCCATCGGCCTCAGGGCATGGCGACAGGCAACCGCGGCTCTCGGCATCACCCCGACCCTTTACGACAATGCAGCCAGCGCCTTTTCCAATTTTACCCGCTCGTCATGGCTGGCGATCAGGGTGGCGGAGTTTGGCGGCTCGGTTGCCGGATGGGCGGCGCGTGAGCATTTCGACGAGACGATTTCCGATTTCTGGATCGATCCTGATTTTCACCGCAGAGGTGTCGGCAGCCACCTGTTGGGCGATGTTGAAAGGCTGATTGAGGACAGGGGGTTCGAGACCATCCGGCTTGAAACCCATGCCCAGAATGAGCCGGCCGTCGCCTTTTTCCGCCACCATGGCTATAGCGTCCGCTGGCTCTCCGTCTCCTATGCGCCGAAACTCGACCGCGAAGTGCAGTCGGTAGGCCTGCAGAAGCAATTGGCCGAAGTCGAGAGCGGTCTTTATGGGCCGGCTTTCTGA	MIVIRNAHEQEAEVLAAIGLRAWRQATAALGITPTLYDNAASAFSNFTRSSWLAIRVAEFGGSVAGWAAREHFDETISDFWIDPDFHRRGVGSHLLGDVERLIEDRGFETIRLETHAQNEPAVAFFRHHGYSVRWLSVSYAPKLDREVQSVGLQKQLAEVESGLYGPAF				NA	NA	NA	NA	NA
BMS010_05009	1230			hypothetical protein	GTGCTTCAGAGATTACTACCCTACCTCAAGTCAGGTGACAAAATCCCACACGATCTAATGCTCTCCGCCTTAAACGAAATCACGGATGGATTGTTTAGTAATGATCGTCGTGCAGTAGTAACTGCTATTTCTAAAAAAGCCGGTCAGTATCTGCCAAATGAATATCTTTTAGATTTCATAAGCGCGAATATAAGCGAAAGCCAAATATCAAAGATAATAAATGAGAGAGAAATCTTCATAAATAGGCTTCAAGATCTGCTTCCATCTCTCGCTCAGATTCTGGGCATAATGGAGATTGACGACATTAACTCTGCCGTCCACCAAATCAATGATTGTTGTCGGGACTATCCCTCCGTCATTGAGTCTGAATATTTCAGCAAGCAGCGAAAAAACATCCTCTCTGGTATCAACGCTCTAATAGCTAGAACTACCGAGTTGGAGAGCTTACTGGGTAAGATCGGCCGCCATATAGACATTCCGTACGCGCACCACAAAAGCGCGTTGCATCAAATAATGAACGGCGACTCCCGATACCCTATCCAACGGATCGAGGACCTTCAGAACGAGCTAAAAATTCTACGTTTCGCCGCCGAGCTAGCACTATATGAAGATGAGAATGGCGACGCAGGGCTTTATGTGGGAGACAATAAAGGGCGGACACACATCGTAGAGTGCGCATATCGCATTTCCCTGCAATTTAAATCACCCGAATTCGTAACGACTCCTGGGTCATCATTCTCGATTTTGTGCAGTCTGATATTCGAACTCGCAAGCGGCCTTCCTGATGAGAGCCTAGCCGGAGCGATAAACAGATTTGCTCGAAGCGACCTACGAGCTGAGATAGATCGGGATGACACAATTTCCCGCTACGAGAACAGCGACGAGGGGATAAGAGAGTTCGAGGCGGATAACTTTGCAGCGGTTAAACAACGGATCGCAACGCTCGTAAAATCTGAAGGATTCTGGCGAAAAATGATTTCCGCTCGAAAATGGGATGAGTTTTCAGAGCGCCAAATAATCCTCCGACTCGTAGATGTTTTGGACCAACACGAAAGAGCAACTCTTACACAGGGCCCCCATTTGGTTTGGGCTAGCCAGATAAGCGCATCAACAAGACAATCCTATTGGAACGAATTGTTAGATCGTGAACAACAAACGTTGAGATTGGCGATGGAGGTCGGGCAGCGGAAACGCCAAGACAGTTTATTGACCCGCTTTTCGGACAAATAG	MLQRLLPYLKSGDKIPHDLMLSALNEITDGLFSNDRRAVVTAISKKAGQYLPNEYLLDFISANISESQISKIINEREIFINRLQDLLPSLAQILGIMEIDDINSAVHQINDCCRDYPSVIESEYFSKQRKNILSGINALIARTTELESLLGKIGRHIDIPYAHHKSALHQIMNGDSRYPIQRIEDLQNELKILRFAAELALYEDENGDAGLYVGDNKGRTHIVECAYRISLQFKSPEFVTTPGSSFSILCSLIFELASGLPDESLAGAINRFARSDLRAEIDRDDTISRYENSDEGIREFEADNFAAVKQRIATLVKSEGFWRKMISARKWDEFSERQIILRLVDVLDQHERATLTQGPHLVWASQISASTRQSYWNELLDREQQTLRLAMEVGQRKRQDSLLTRFSDK				NA	NA	NA	NA	NA
BMS010_05010	1482	gatA_3	COG0154	Glutamyl-tRNA(Gln) amidotransferase subunit A	ATGACCGACCTGACGAGCCTGACCATTGCCGAAGCCCGCGAAAAGCTGAAGGCCAAAGAATTTTCCGCCCTCGAGCTGACCGACGCCTATCTCTCCGCCATCGATGCGGCCAACGGCGCGCTGAACGCCTATGTCGCCTTGACGCCTGAAAAGGCGCGCGACATGGCAAAAGCCTCCGACGACCGCATCGCCGCCGGCAAGGCTGGCGAGCTGGAAGGCGTTCCGCTCGGCGTGAAAGACCTTTTCGCCACCCGTGACGTGCACACGCAGGCGTGTTCGCATGTTCTCGACGGCTTCAAGCCGAAATATGAATCCACCGTCACCCAGAACCTCTGGGATCAGGGCGCCGTCATGCTCGGCAAGCTCAACATGGACGAATTCGCCATGGGTTCGTCCAATGAAAGCTCCTGGTACGGTCCTGCCATCAACCCTTGGCGCGCCAACGGCTCCGACCAGAAGCTGGTGCCCGGCGGCTCCTCCGGCGGTTCGGCTGCAGCCGTGGCCGCGCATCTCTGCGCCGGCGCCACCGCAACCGATACCGGCGGCTCCATCCGCCAGCCGGCCGCCTTCACCGGCACCGTCGGCATCAAGCCCACCTATGGCCGCTGCTCGCGCTTCGGCATCGTCGCTTATGCTTCCTCGCTCGATCAGGCAGGCCCGATTGCCCGTGACGTGCGTGATGCCGCGATCCTGCTGAAGACGATGGCAAGCGTCGACGCCAAGGACACGACCTCCGTCGACCTGCCGGTGCCGGACTACGAAAAGGCCATCGGTCAGTCGCTCAAGGGCCTGAAGATCGGTATTCCGAAGGAATATCGCGTCGACGGCATGCCGGAAGAAATCGAAAAGCTCTGGGCCAAGGGCGTGGAATGGCTGCGTGATGCCGGTGCCGAGGTCATCGATATCTCGCTGCCGCACACCAAATACGCGCTGCCCGCTTATTACATCGTCGCGCCGGCGGAAGCCTCGTCTAACCTTGCCCGTTATGACGGCGTCCGTTACGGTCTGCGCGTCGACGGCAAGGACATTGCCGACATGTACGAAAAGAGCCGCGCCGCCGGTTTCGGTAAGGAAGTGCAGCGCCGCATCATGGTCGGCACCTATGTGCTGTCCGCCGGTTATTATGACGCCTATTACCTGAAGGCGCAGAAGGTCCGCACCCTCATCAAGCGCGATTTCGAAAACGTCTTCCACGAAGGCGTCGACGCCATTCTGGCGCCGATCACCCCGTCTTCCGCCTTTGCAGTCGGTGACGAGGAACTCGCCTCCGATCCGGTCAAGATGTACCTGCAGGACGTTTTCACCATCACGGTCAACATGGCCGGTCTTCCTGGCCTCTCGGTTCCGGCCGGCCTCGACGGCAAGGGCCTGCCGCTCGGCCTCCAGCTTATCGGCAAGCCTTTCGAGGAAGAAACGCTGTTCAAGACGGCGCATGCCATCGAGCAGGCAGCCGGCAAGTTCACGCCCGCCAAATGGTGGTGA	MTDLTSLTIAEAREKLKAKEFSALELTDAYLSAIDAANGALNAYVALTPEKARDMAKASDDRIAAGKAGELEGVPLGVKDLFATRDVHTQACSHVLDGFKPKYESTVTQNLWDQGAVMLGKLNMDEFAMGSSNESSWYGPAINPWRANGSDQKLVPGGSSGGSAAAVAAHLCAGATATDTGGSIRQPAAFTGTVGIKPTYGRCSRFGIVAYASSLDQAGPIARDVRDAAILLKTMASVDAKDTTSVDLPVPDYEKAIGQSLKGLKIGIPKEYRVDGMPEEIEKLWAKGVEWLRDAGAEVIDISLPHTKYALPAYYIVAPAEASSNLARYDGVRYGLRVDGKDIADMYEKSRAAGFGKEVQRRIMVGTYVLSAGYYDAYYLKAQKVRTLIKRDFENVFHEGVDAILAPITPSSAFAVGDEELASDPVKMYLQDVFTITVNMAGLPGLSVPAGLDGKGLPLGLQLIGKPFEEETLFKTAHAIEQAAGKFTPAKWW				NA	NA	NA	NA	NA
BMS010_05011	288	gatC_2	COG0721	Glutamyl-tRNA(Gln) amidotransferase subunit C	ATGTCCGTCGATCTCGCCACCGTAAAGCGCGTTGCGCGCCTTGCCCGTATCGCAGTCAGCGAAGAAGAAGCACAGAATATGCTCGGCCAGCTGAACGGCATACTCGGTTTCGTGGAGCAGCTTTCGGAAGTGAATGTCGACGGCGTTGAGCCGATGACCTCGGTGACCCCGGTGGACATGAAAAAACGCGCCGACGTGGTGACCGACGGCAACAAGGCGGAAGACATTGTCGCCAACGCGCCTGCGACCGACCGGGACTTCTTCATGGTCCCGAAAGTGGTCGAATAA	MSVDLATVKRVARLARIAVSEEEAQNMLGQLNGILGFVEQLSEVNVDGVEPMTSVTPVDMKKRADVVTDGNKAEDIVANAPATDRDFFMVPKVVE	PGPT0023460_3027	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023460-gtaC-K02435	NA	NA
BMS010_05012	705			hypothetical protein	ATGAAAATCACCTGGCTCGGCCATTCCGCCTTCCGCCTCGAAAACGGCAGCGCGAAGATACTCATCGATCCGTTCTTCACCGGTAACCCCGGTTTTGTCGGACAGGATGGAAAGTCGGCAGCCGAAGGCATCACCCATATTCTCCTGACCCACGGCCATGGCGACCATGTCGGCGATACCGTCCAGCTTGCCCGCGAAACCGGCGCGACCGTTCTTGCCAATGCCGATCTTGCCGCCTGGCTTTCCGCCAAGGGCGTCGCGAAGGTCGATATGGGCAATACCGGCGGCACGGTGCATTTCGACGGTTTTTCCGTCACCTTCACCAATGCGCTGCATTCCTCCGCCCAGATCACCGAAGACGGCGTCTCCCATTCGCTCGGCAATGCCAACGGTCTGATGCTGCATTTCGAAGATGGCCCGGCCGTCTATCACATGGGCGATACCGACATCTTTTCCGACATGAAACTCATCAATGAACTGCATCAGCCGGATATCGGCCTTGTGCCGATCGGTGACCGCTTCACCATGGGCGGAGCCGTCGCCGCGCTCGCATGCCAGCGCTTCTTCAATTTCGGCAATGTCATTCCCTGCCATTACGGTTCCTTCCCGATCATCGACCAGACGCCGGAGAAGTTCGTGGCCGGCATGGAAGGGGCGCAAGCGCGCGTCCACACGCCGAAGGCCGGCGATACGCTGTCCTTCTGA	MKITWLGHSAFRLENGSAKILIDPFFTGNPGFVGQDGKSAAEGITHILLTHGHGDHVGDTVQLARETGATVLANADLAAWLSAKGVAKVDMGNTGGTVHFDGFSVTFTNALHSSAQITEDGVSHSLGNANGLMLHFEDGPAVYHMGDTDIFSDMKLINELHQPDIGLVPIGDRFTMGGAVAALACQRFFNFGNVIPCHYGSFPIIDQTPEKFVAGMEGAQARVHTPKAGDTLSF				NA	NA	NA	NA	NA
BMS010_05013	303			hypothetical protein	ATGGCCGCAAATGATGACGAGTACGTGTATGACGAGGCGACCGGTGAATGGCGACCGGCCTCCGAGCTGGCTGCAGAAGCGGCGCGTACGAATGAAGTGCGCGATGCGGCGGGCAATGTGCTGGCGGATGGCGATTCCGTCACCCTTATCAAGGATTTGAAGGTCAAGGGCACCAGCACGGTCATCAAGCAGGGTACCGTCATCAAGTCGATCCGCCTGACCGATAATCCGGAAGAGATCGATTGCAAACATGATGCGGTGAAGGGTCTGGTGCTGCGCACCGAATTCGTCCGCAAACGATAA	MAANDDEYVYDEATGEWRPASELAAEAARTNEVRDAAGNVLADGDSVTLIKDLKVKGTSTVIKQGTVIKSIRLTDNPEEIDCKHDAVKGLVLRTEFVRKR	PGPT0030500_2258	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030500-phnA|yjdM-K06193
BMS010_05014	480	yrrK	COG0816	Putative pre-16S rRNA nuclease	ATGGCAACACTCACCATTGAGGAACTGGCGCAGGCGCTTCAGCCGGGACAGGCGATTGCCGGCCTCGACCTTGGCACGAAGACGATCGGGCTTGCCATGTCGGACCTGTCGCGGCGTTTCGCAACGCCGCGCCCCGTCATCAAACGGGTGAAATTCACGCAGGATGCGGAAGTGCTGCTGGCCTTTGCCGAAAAGGAAAAAGTTTTCGCCTTCATCATCGGCCTGCCGATGAACATGGATGGTTCGGCCGGTCCCCGCGTGCAGGCGACGCGCGCCTTTGTGCGGACGATGAGCGAAAAAACCGCCCTGCCCTTCATTTTCTGGGATGAGCGGCTTTCGACGGTCGCGGCCGAGCGCGCATTGCTGGAAATGGACGTCTCACGCGCAAAGCGGGCCGAACGCATCGATTCAGCCGCCGCGAGCTTCATTCTTCAGGGCGCGCTGGACAGGCTTTCCGCACTCACCCGCGCGGCCGACTGA	MATLTIEELAQALQPGQAIAGLDLGTKTIGLAMSDLSRRFATPRPVIKRVKFTQDAEVLLAFAEKEKVFAFIIGLPMNMDGSAGPRVQATRAFVRTMSEKTALPFIFWDERLSTVAAERALLEMDVSRAKRAERIDSAAASFILQGALDRLSALTRAAD				NA	NA	NA	NA	NA
BMS010_05015	318			hypothetical protein	ATGAAGTGGTTTCTGATCCTCTGGGCCGGTCCCGTTGCGCTGCTGGGCAGCTGGTACTGGCTTTCCTATTACGACATGAGCTTCGGCTTCTACATGCTCACACGCCAGACCCATGATCTGGTGTTCGAGATTTACGGCAATATTCTCGGCCTGCCGCCGGAAAGCCTGCCGCCCCTGGCGGCACGCGCCATTGCCGTCGACAGCCTGATCGTTTTTGCGATTCTCGCCTTCCGCAAGAGAAAGCAGATTGCGGCCTGGTGGCAGGGCCGTCAGTCGGCCGCGCGGGTGAGTGCGGAAAGCCTGTCCAGCGCGCCCTGA	MKWFLILWAGPVALLGSWYWLSYYDMSFGFYMLTRQTHDLVFEIYGNILGLPPESLPPLAARAIAVDSLIVFAILAFRKRKQIAAWWQGRQSAARVSAESLSSAP				NA	NA	NA	NA	NA
BMS010_05016	132			hypothetical protein	ATGACGTTTTTTGTGATGCTGCCGTTGGATATCGACGCGCCGGCGCTGAACCTCTGCCTTATGGCCGTGGTGCGCTGGGCGGTGCTTGCCGGCGTTCCCGATACGATGTTTGTGCGGGGGCAGGCGGCATGA	MTFFVMLPLDIDAPALNLCLMAVVRWAVLAGVPDTMFVRGQAA				NA	NA	NA	NA	NA
BMS010_05017	645			hypothetical protein	ATGCTGGCGACCGCAGAGGCGATTTCAGCCGACAGACCGGAAAAACGCATCAAGGATCGCGCTCAGACCGAGAAGGCGATTTTTAATGCGGCGCGGTCGCTGCTTGCCGAAGAGGGATTTCAGGGTTTTGGCATCAATGCCGTTGCCCGCCGCGCCGGCTGCGACAAGCAGCTCATCTACCGTTATTTCGGCGGCCTCGACGGCCTGATCGAGGCGATTGGCGAGGACCTCGGTTCCTGGGTGAGGGATCGCATTCCGGAAGATACCGGCGGCATGTTCCTTTTGACCTATGGCGACCTCATGGAAAAGCTGGCGCTTTATTTCATGGATGCGCTACGCAGCGATCCTCTCGTCTGCAAGATCATTGCCTGGGAAGTGTCTGACGGTTCACCGCAGGTGAGACAGCTTGCCGAAGCCCGCGCCAAATCGCTGGGCAAGTGGCTGGAGCGGATGCGCGGTTCGCTGGCGGCGCCGAAGGGTGTGGATACAGCGGCGGTCAATGCCGTACTGTTCGCTGCCATTCAGCACCTCGTCATTTCCGCTGCGACCAGCGGTCAGTTCGCTGGCGTACCGCTGAAATCAGACCGGGACTGGGACAAGATAGCCACTGCCGTCAAAAGGCTGGTGCGCGGCGTTTACGGCTGA	MLATAEAISADRPEKRIKDRAQTEKAIFNAARSLLAEEGFQGFGINAVARRAGCDKQLIYRYFGGLDGLIEAIGEDLGSWVRDRIPEDTGGMFLLTYGDLMEKLALYFMDALRSDPLVCKIIAWEVSDGSPQVRQLAEARAKSLGKWLERMRGSLAAPKGVDTAAVNAVLFAAIQHLVISAATSGQFAGVPLKSDRDWDKIATAVKRLVRGVYG				NA	NA	NA	NA	NA
BMS010_05018	297			hypothetical protein	ATGCCGACGCGTAACGTCGTTCTGACACAGCATCACGAAGAGATCATAGACGAACTCGTTAAATCTGGCCGCTATCAAAATGCCAGCGAAGTGCTGCGCGAGGGCTTACGATTGATCGAAAGGCGCGAGCGCCTTGAGGTAACCAGATTGGAAGCCTTGAGGGTGGCGGCGCAACAGGGCTTCGCAGACCTTGATCAAGGCCGTTTTACGGATGTGGCGGAGGATGATCTCGACGACTTCATTTCCGCTCTCGGGCGCGACGCTGAAGCGCGCCTTGCCAAATCTGATAAGGCATGA	MPTRNVVLTQHHEEIIDELVKSGRYQNASEVLREGLRLIERRERLEVTRLEALRVAAQQGFADLDQGRFTDVAEDDLDDFISALGRDAEARLAKSDKA	PGPT0027540_126	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-ParE-ParD|paaAR_TOXIN-ANTITOXIN_SYSTEM,PGPT0027540-antitoxin_parD1_3_4-K07746	NA	NA
BMS010_05019	612		COG0454	Putative acetyltransferase OgpAT	ATGCTGACCTTCCGTTCCGCCCGCGCCGAGGATGAAGACGCGCTCTACGCCATAAGCCTTGCCACCGGCGATGCCGGGCAGGACGCCACCGCCCTTTACAATGATGGCCGTATGGTCGGGCATATCTATTCCGTGCCCTATCTGCATCTCTGGCCCGATGCCGTTTTCGTGGCGGAGGATGAGGAAGGTGTGTGCGGTTATATCGTGGGCGCACTCGATACGGCGGTGCACGAAGAACGGCTGGAGCGGGAATGGTGGCCGCATCTGCGCAGCCTTTATCCCGATCCCGGCGGCGACCAGCAGACATGGGACGCCGACCAGCGCCGCGCCCAGTTCATCCACCATCCGCGCCGCACGCCCACCTGGCTTACCGACCCGTTTCCGGCCCATATCCACATGAACCTCCTGCCGCGCACGCAGGGCAAGGGCGGCGGCACCCGGCTTCTGTCGCGCTGGCTCGATATGGCGAGACAGAACAACGTCTACGGCATCCACCTCGGCGCCAGCGAACGCAACCATGCGGGTATGCGCTTCTGGGAAACCCGCGGGTTCAAACGCCTCGAAAGCCACGAAACGCCGGGCAGCGTATGGTTCGGCATGGCGCTGGAGTAA	MLTFRSARAEDEDALYAISLATGDAGQDATALYNDGRMVGHIYSVPYLHLWPDAVFVAEDEEGVCGYIVGALDTAVHEERLEREWWPHLRSLYPDPGGDQQTWDADQRRAQFIHHPRRTPTWLTDPFPAHIHMNLLPRTQGKGGGTRLLSRWLDMARQNNVYGIHLGASERNHAGMRFWETRGFKRLESHETPGSVWFGMALE				NA	NA	NA	NA	NA
BMS010_05020	1653	aidB_1	COG1960	Putative acyl-CoA dehydrogenase AidB	ATGACCCAGAATTCCCGGACAGAAGAAACGCTCGCCGAACTGAACCAGCCAAGCCTCTGGTCCGGTATCAACGCCTATCGTTCCGATCCGCTGATCGTCGACCTGACCTCCGGCCTGTCGCGCAATCTGAGAGACGAGTTCGACCAGCTCGGCCGTTACGTCACGTCGCATGAGGCGCAGGAGCTGGCGCGCATGGCCAATCAGGGCGTGCCGCAGCTGCATACCCACGGCCCGCGTGGCGAGCGTCTGGATCAGGTGGAGTTCCACCCAGCCTGGCACGCGCTGATGCGCCGTTCCATGTCGTCAGGCTTGCATTCCAGCGTCTGGGAAAATTCTCCCGATACGCGCGGCAATGAGCACAAGGCCCGCGCCACGAAATTCTACCTGACCTCGCAGCTCGAGGCCGGGCATCTTTGCCCGCTCACCATGACCAGCGCCTCCGTCGCTGCCATCATGGCTTCGCCGCGCGTGCAGAAGGAATGGGCGCCGAAGATTCTCTCGCGCAAATATGATTCCTCGCAGAAACCGGCCCTGCAGAAAACCGCCGTCACCATTGGCATGGGCATGACGGAAAAGCAGGGCGGCACGGATGTGCGCGCCAACCGAACCACGGCGGAGCGGGTGGGCGAGGGCATCTATCGCCTGTCCGGTCACAAGTGGTTCCTGTCCGCGCCGATGAGCGACGGTTTCGTCATGCTCGCCCAGATGGGCGACGGCATGGGCTGCTTCCTCGTGCCGCGTTATCTGGAAGACGGTTCGAAGAACGGCCTGCATTTCCAGCGCCTCAAGGACAAGCTCGGCAACCGCTCCAACGCTTCCGCCGAAGTCGAATTCACCGATGCCTTCGGTTATCTGCTGGGCGATCCCGGCAGCGGCATCCGTACCATTCTCGACATGGTGACACTGACGCGGCTCGATTGCGCGCTTGCCTCCGCCGGCATGATGCGCGCCTCGCTTGCCGAAGCCGTGCATTATGCCCGTGGCCGTTCTGTTTTCGGCAAGATGCTGGTCACGCAACCGATCATGACGCGTGTTCTCGCCGACATGGCGCTGGATGTGGCGGCGGCCACTGCGCTCTCCTTCCGGCTGGCGACCGCATTCGACGCCGCCCGCAACAATCCGGCCGAGGCCGCCTATGCGCGGGTGATGACGCCCATCGTGAAATACTGGTGCTGCAAGATCGCGCCGGCGCTTATCTATGAGGCCATGGAGTGCCTTGGCGGCAACGGTTACGTGGAAGAGCGGCCGATTGCCCGCCACTATCGCGAAGCGCCCGTCAACGCCATCTGGGAAGGCTCCGGCAACGTCATGGCGCTGGATGTGCTGCGGGTTCTCCAGCGCGGCAAGGATCTGTTCGATCTCGTCTTCCAGACGCTGGAGCGCGATCTGGGTGCAGCCGGCAAAAAGACCACCGACGTGCTGCGCGCCGCAATCGCCCTTGCCGAACGTGACGAGGGAGCGGCCCGCCTGTTGGTGGAGCAGTTCGCGCTTGCGGCCGCTGCCGCCGAGCTTTGCCGCCTCGGCGCCGGCAAGATTGCCGATGCCTTCCTCGAGACCCGTCTCGCGGGCGGCTGGCGGCATACTTACGGCATGCTCGATTCCCGCTTCGATCCGAATTATATAATCGATCTTCTTTATCCGCCTGCATCTTGA	MTQNSRTEETLAELNQPSLWSGINAYRSDPLIVDLTSGLSRNLRDEFDQLGRYVTSHEAQELARMANQGVPQLHTHGPRGERLDQVEFHPAWHALMRRSMSSGLHSSVWENSPDTRGNEHKARATKFYLTSQLEAGHLCPLTMTSASVAAIMASPRVQKEWAPKILSRKYDSSQKPALQKTAVTIGMGMTEKQGGTDVRANRTTAERVGEGIYRLSGHKWFLSAPMSDGFVMLAQMGDGMGCFLVPRYLEDGSKNGLHFQRLKDKLGNRSNASAEVEFTDAFGYLLGDPGSGIRTILDMVTLTRLDCALASAGMMRASLAEAVHYARGRSVFGKMLVTQPIMTRVLADMALDVAAATALSFRLATAFDAARNNPAEAAYARVMTPIVKYWCCKIAPALIYEAMECLGGNGYVEERPIARHYREAPVNAIWEGSGNVMALDVLRVLQRGKDLFDLVFQTLERDLGAAGKKTTDVLRAAIALAERDEGAARLLVEQFALAAAAAELCRLGAGKIADAFLETRLAGGWRHTYGMLDSRFDPNYIIDLLYPPAS				NA	NA	NA	NA	NA
BMS010_05021	432			hypothetical protein	ATGGAGGCCAGCGTAAGAAGGCTCTTCGAGCGATATGAGCGATTTTTCAATAAGTCTCTCAAGGGTGACATGGATATGGAGGAGGTCGCCTCCCTCTACGCCTCCGACTTTATCGCCGCCTCCCCCGCCGGGGTGATGACCGGAAAGAACGATGACCACTTGAAGCAGGTCATGATGAAGGGCTACGAGCGCTATCGGACGATCGGAACGAAGGAAATGCGGATACGCGACATCCGTATCTCGCCCATCGACGACCATCATTGCCTTGCCCATGTTGCCTGGACGGCGACCTTTGATCGCAAGCGGCAACCGGATGTCGCAATCGATTTCGATGTTCATTACTTCGTCCAGAGGCTGGACGGAGCCCCGAAAGTTTTCGGCTGGGCGTCAGGAGACGAGCAGGCGCTTTTGAAGGAGCATGGCATCGTTTAA	MEASVRRLFERYERFFNKSLKGDMDMEEVASLYASDFIAASPAGVMTGKNDDHLKQVMMKGYERYRTIGTKEMRIRDIRISPIDDHHCLAHVAWTATFDRKRQPDVAIDFDVHYFVQRLDGAPKVFGWASGDEQALLKEHGIV				NA	NA	NA	NA	NA
BMS010_05022	942	pyrB_1	COG0540	Aspartate carbamoyltransferase	ATGGTCTTCTTCCCCCATCGCCATCTCCTCGGCATCAAGGGGCTTTCCCATCAGGATATTACCCTGCTTCTCGACAAGGCCGACGAGGCGGTGAAAATCAGCCGCCAGCGCGAGAAAAAGACCTCGACGCTTCGGGGCCTGACGCAGATCAACCTGTTCTTCGAAGCCTCGACGCGCACGCAGTCCTCCTTCGAGCTTGCCGGAAAGCGCCTTGGTGCAGACGTGATGAACATGTCGGTCGGCAATTCCTCGGTGAAGAAGGGCGAAACGCTGATCGACACGGCGATGACGCTGAACGCCATGCGCCCGGACGTGCTGGTCGTGCGCCATTCTTCCGCCGGTGCGGCAGCGCTTCTAGCGCAAAAGGTCGCCTGCTCCGTCGTCAATGCCGGCGACGGCCAGCATGAGCACCCGACGCAGGCGTTGCTCGACGCACTGACCATCCGCCGCGCGAAGGGCGAACTGTCCGGCATTACGGTGGCGATCTGCGGGGACGTGCTGCATTCACGCGTCGCCCGCTCCAACATCATCCTGCTCAACCAGATGGGTGCGCGCGTTCGCGTCGTCGCCCCCGCCACGCTTCTTCCTTCCGGTATCCGCGACATGAGCGTCGAAGTATTCCACGACATGAAGGAAGGACTGAAGAACGCCGATGTGGTGATGATGCTGCGCCTGCAGCGCGAGCGTATGTCCGGCTCCTTCGTGCCTTCGGTGCGCGAATATTTCCATTATTACGGTCTGGATGCCGAAAAGCTGAAAGCGGCGAAGGAGGATGCGCTGGTCATGCATCCCGGCCCGATGAACCGCGGCGTGGAAATCGCCTCCGACGTGGCCGACGGTCCGCAGAGCGTGATCGAAAGTCAGGTCGAAATGGGGGTTGCCGTGCGCATGGCGGTCATGGAAACCCTGCTTGTCTCGCAAAATCAGGGTGAGCGCGTATGA	MVFFPHRHLLGIKGLSHQDITLLLDKADEAVKISRQREKKTSTLRGLTQINLFFEASTRTQSSFELAGKRLGADVMNMSVGNSSVKKGETLIDTAMTLNAMRPDVLVVRHSSAGAAALLAQKVACSVVNAGDGQHEHPTQALLDALTIRRAKGELSGITVAICGDVLHSRVARSNIILLNQMGARVRVVAPATLLPSGIRDMSVEVFHDMKEGLKNADVVMMLRLQRERMSGSFVPSVREYFHYYGLDAEKLKAAKEDALVMHPGPMNRGVEIASDVADGPQSVIESQVEMGVAVRMAVMETLLVSQNQGERV	PGPT0021160_2719	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021160-pyrB-K00609	NA	NA
BMS010_05023	1293	pyrC_2	COG0044	Dihydroorotase	ATGAGTGCCGTTACCGTTCTCAACAATCTCCGCATCGTCGATCCTTCCCGGAATCTCGACGAGACCGGCAGTGTGATCATCGGTGCCGACGGCACCATTCTGGCGGCAGGCAAGGACGCCCATAATCAGGGCGCTCCCGAAGGGGCGACTGTTCGCGACTGCAAGGGTCTGCTGGCTGTTCCCGGTCTGGTGGACGCCCGTGTTTTCGTGGGTGAGCCTGGTGCCGAACACCGCGAAACCATCGAATCCGCCTCGCGCGCAGCAGCAGCCGGCGGCGTCACCAGCATCATCGTCATGCCCGATACCGATCCTGTTATCGATGACATCGCGCTGGTCGAATATGTGAAAAAGACGGCGCGCGACAAGGCGCTCGTCAACGTGCATCCTGCAGCAGCCCTGACCAAGGGTCTGAACGGCGAGGAAATGACCGAATTCGGCATGCTGAAGGAAGCCGGCGCGGTGGCCTTCACCAATGGCCGCAAGGAGCTTTCCGATACGCTGGTGCTACGCCGCGCCATGACCTATGCGCGCGAGCTGGGCACAGTGATCGCGCTCGAGACACGCGACAAATATATCGGCGGCGGTGACATGAACGAGGGGCTTTTCGCAAGCTGGCTCGGGCTGTCGGGCGTTCCGAAGGAGGCCGAGATCATCCCGCTGGAGCGCGACCTGCGCATTGCCGGGCTGACACAGGCGATCTACCACGCCGCCAAGATTTCCGTGCCCGAATCCGCGGAAGCGATCCGCGTTGCGCGGCAGCGGGGCGTCAAAGCCACCTGCGGCATCTCGATCAACCATCTGACGCTCAACGAGAACGATATCGGCGAATATCGCACTTTCTTCAAGCTCTCCCCGCCGCTGCGCGCCGAAGACGACCGCAAGGCCATGGTGGAAGCACTGAAGGACGGCACCATCGACATTATTGTCTCCTCGCACGACCCGCAGGATGTCGACACCAAGCGGCTGCCGTTTTCGGATGCGGCGAGCGGCGCGGTCGGGCTTGAAACCCTGCTGGCGGCGGCGCTGCGCCTGCACCATAGCGGCGAAGTTCCGCTGATGCGGCTGATCGATGCGCTCTCCACCCGCCCGGCCAAGATTTTCGGACTGGATGCCGGAACGCTGAAGGCGGGCGCGAAGGCCGATATCACGCTGATCGACCTCGACGAGCCATGGCTCGTGGCAAAGGAGCAGCTGGTCTCGAAATCCAAGAACACCCCGTTCGAGGATGCCCGTTTCAGCGGCCGCGCGGTTGCCACTTATGTGGCTGGCAAAGCCGTTCATTCCTTGGCATAA	MSAVTVLNNLRIVDPSRNLDETGSVIIGADGTILAAGKDAHNQGAPEGATVRDCKGLLAVPGLVDARVFVGEPGAEHRETIESASRAAAAGGVTSIIVMPDTDPVIDDIALVEYVKKTARDKALVNVHPAAALTKGLNGEEMTEFGMLKEAGAVAFTNGRKELSDTLVLRRAMTYARELGTVIALETRDKYIGGGDMNEGLFASWLGLSGVPKEAEIIPLERDLRIAGLTQAIYHAAKISVPESAEAIRVARQRGVKATCGISINHLTLNENDIGEYRTFFKLSPPLRAEDDRKAMVEALKDGTIDIIVSSHDPQDVDTKRLPFSDAASGAVGLETLLAAALRLHHSGEVPLMRLIDALSTRPAKIFGLDAGTLKAGAKADITLIDLDEPWLVAKEQLVSKSKNTPFEDARFSGRAVATYVAGKAVHSLA	PGPT0021145_2644	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021145-pyrC-K01465	NA	NA
BMS010_05024	618	plsY_1	COG0344	Glycerol-3-phosphate acyltransferase	ATGAGTGCTTTGACTGACTGGCAGACGGCGCCTGCCCTTCTCGCGCTTGCAGCGCTGATCGGCTATCTGTTCGGTTCCATTCCTTTCGGCCTCATTCTTACCCGCATGGCGGGGCTGGGTGACGTGCGCAAGATCGGCTCCGGCAACATCGGCGCGACCAATGTGCTGCGCACGGGCAACAAGAAGCTCGCCGCCGCAACCCTGCTGCTGGACGCGCTGAAGGGCACGGCGGCGGTGTTGGTCGCGAATGCGCTCTGGGGTTACGAAGCGTCGCTGGTCGCCGGTTTCTTCGCCTTCCTCGGCCACCTGTTTCCGGTGTGGCTCGGCTTCAAGGGCGGCAAGGGTGTGGCAACCTATATCGGCGTGCTTTTGGGGGCCGCACCGCTGATGATGCTGGCCTTTGCGCTCATCTGGCTCGCAACCGCCTTCATCACCCGCTACTCGTCGCTGTCGGCGCTTTTGGCCATGCTGGTCATTCCCGTCGCCCTCTGGGTGCTCGGACCTGAAAAGACGGCTCTGCTGGTTACGCTGCTGAGTGCGATTTCATGGTGGAAGCACCGCGAGAACATCGCGCGCCTGCTGGCGGGCACTGAAAGCAGGATCGGGCAAAAGGGCTGA	MSALTDWQTAPALLALAALIGYLFGSIPFGLILTRMAGLGDVRKIGSGNIGATNVLRTGNKKLAAATLLLDALKGTAAVLVANALWGYEASLVAGFFAFLGHLFPVWLGFKGGKGVATYIGVLLGAAPLMMLAFALIWLATAFITRYSSLSALLAMLVIPVALWVLGPEKTALLVTLLSAISWWKHRENIARLLAGTESRIGQKG	PGPT0024375_1798	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024375-plsY-K08591	NA	NA
BMS010_05025	1143			hypothetical protein	ATGCCGCATGAGGAAACGACACGGCAGGGCATAGAGCTTTCCGCGCGGCAGCGGGTCGCGTGGCTGAGGCTCATCCGCAGCGACAATATCGGCCCCGTCACCTTCCGCGAACTCATCAATCATTTCGGCAGCGCCGAAAAGGCGCTCGATGCCCTGCCCGAGCTTTCAAGGCGCGGCGGCTCGTCGCGCAGTCCGCGCATCGCGACGCAAGCGGAGGCGGAACGCGAGATCGAGACCGCGGAGAAATCCGGCGCGCGTTTCGTCGGCATCGGCGAGCCCGATTACCCACCTGCCCTGCGGCAGCTGGATGGCGCGCCGCCGCTGATCGCCATGAAAGGATCGGCAGCGACCGCGACAAGACCGAGCATCGGCATCGTCGGTTCGCGCAACGCCTCCATCAACGGCGCGAAATTCGCCGCCATGCTGGCGCGCGATTGCGGCCGCGCCGGCTATAGCATCGCTTCGGGGCTGGCGCGCGGCATTGATGCGGCCGCACACCGGGCAAGCCTTGCAACCGGCACGGTTGCCATGCTGGCCGGTGGTCTCGACCGCCCCTACCCGCAGGAAAATTTCGGGCTTTTGCAGGAAATATATGACCAGGGCGGCGCGACGATCAGCGAAATGCCCTTTGGCTGGGAACCGCGCGCCCGCGATTTTCCCCGCCGCAACCGATTGATCGCCGGCGTCTCCCTCGGTGTCGTCATCGTCGAAGCGGCGGAGCGCTCCGGTTCGCTGATAACGGCAAGGCTTGCCGGAGAAGCGGGGCGGCTCGTTTTCGCCGTACCCGGCTCCCCGCTCGATGCACGCTGCGAGGGCACCAACCGGCTGATCAAGGAAGGCGCGATGCTGACCACGGGCGCGGCTGATATTCTGGAAGCGCTGCGGCCGCTGATGGAGCCGCAATTGCCCTATGAACGCAAGATCGAGGAACCGAGATCCGACACGGAGATGTCACCACCAGGGGACGACGAGCGCAGCATCATCGCCGCCGCTCTCGGTCCCTCGCCTGTGGAAACGGACGATATCATCCGTCACACAGGTTTTTCCGCTGCAACCGTTCACCTGGTGCTGCTGGAGCTTGATATCGCCGGACGTCTAAACCGGCATGCCGGGGGGCGTGTGTCGCTCTTCATCGCGGATTGA	MPHEETTRQGIELSARQRVAWLRLIRSDNIGPVTFRELINHFGSAEKALDALPELSRRGGSSRSPRIATQAEAEREIETAEKSGARFVGIGEPDYPPALRQLDGAPPLIAMKGSAATATRPSIGIVGSRNASINGAKFAAMLARDCGRAGYSIASGLARGIDAAAHRASLATGTVAMLAGGLDRPYPQENFGLLQEIYDQGGATISEMPFGWEPRARDFPRRNRLIAGVSLGVVIVEAAERSGSLITARLAGEAGRLVFAVPGSPLDARCEGTNRLIKEGAMLTTGAADILEALRPLMEPQLPYERKIEEPRSDTEMSPPGDDERSIIAAALGPSPVETDDIIRHTGFSAATVHLVLLELDIAGRLNRHAGGRVSLFIAD				NA	NA	NA	NA	NA
BMS010_05026	234			hypothetical protein	ATGGTCCCCAACGCAACAAACAATAATGCCGATAATGAAGGGACCAGAGAGAACTTGGCTTACATTCGCCAGATGCTCGCGGAACTGCGGCAGGTCGCAAGCCGCGAGGGGGCCGACATGCTGTGTTATCTGATCGAGATGGCCTATGTCGAAGTCGGCGATATCCAGAGCGGACGGCGCAAGCTGTCAATCCGCGATGAAGAGCGACACACGCCCCCCGGCATGCCGGTTTAG	MVPNATNNNADNEGTRENLAYIRQMLAELRQVASREGADMLCYLIEMAYVEVGDIQSGRRKLSIRDEERHTPPGMPV				NA	NA	NA	NA	NA
BMS010_05027	2685	topA_1	COG0550	DNA topoisomerase 1	ATGAATGTCGTCGTCGTAGAATCTCCTGCCAAAGCCAAGACGATCAACAAGTATCTTGGCTCGGGCTACAAGGTTCTTGCATCCTTTGGCCACGTCAGAGACCTTCCTGCCAAGGACGGATCGGTGCTGCCCGACCAGGATTTCGAAATGTCCTGGGAGGTCGACAGCGCATCCGCCAAGCGCATGAAGGATATTGCCGATGCGGTAAAATCCTCCGACGGCCTCATTCTCGCAACCGACCCGGATCGCGAAGGCGAGGCCATTTCCTGGCACGTTCTCGATCTTTTGAAGAAGAAGCGCGTCCTCGGCGACAAGCCGGTAAAACGCGTGGTCTTCAACGCCATCACCAAAAAGGCAGTGCTGGACGCCATGGCGAACCCGCGCGACATCGACGTGCCGCTGGTCGACGCCTATCTCGCCCGCCGCGCGCTGGATTATCTCGTCGGCTTCAACCTGTCGCCGGTGCTGTGGCGCAAGCTGCCCGGCGCGCGTTCCGCCGGCCGCGTTCAGTCGGTTGCGCTGCGTCTCGTCTGCGACCGCGAATCCGAGATCGAACGTTTCGTTTCCGAAGAATACTGGAACATCAGCGCGCTTCTGAAGACACCGCGCGGTGACGAGTTCGAAGCCAAGCTGGTTTCGGCCGATGGCAAGCGCCTGCAAAGCCGCTCGATCAAGACCGGAGACGATGCGAACCGGCTGAAGGCGCTGCTGGAAGGCGCGAGCTATGTGGTCGAAAGCGTCGAGGCGAAACCGGTCAAGCGCAATCCCGGCCCACCCTTCACCACTTCGACGCTGCAGCAGGCGGCCTCCTCGCGCATGGGCTTTTCCGCCTCGCGCACCATGCAGGTGGCGCAGAAGCTTTACGAAGGCATCGACATCGGCGGCGAGACTGTCGGTCTGATCACCTATATGCGTACCGACGGCGTGCAGATGGCCCCGGAAGCGATCGATGCCGCCCGCCGCGCCATTGGCGAGCAGTTCGGTGGCCGTTACGTGCCGGAAAAGGCGCGTTTCTATTCCACCAAGGCCAAGAACGCCCAGGAAGCGCACGAGGCGATCCGCCCGACCGATTTCAACCGCACGCCGGATCAGGTGAAGCGTTACCTCGATCCCGATCAGCTGCGTCTCTATGACCTGATCTGGAAGCGCGGCATAGCGAGCCAGATGGCCTCGGCGGAAATCGAGCGGACGACGGTGGAAATCCTCGCCAGCAATGGCGGCGAAAAGGCAGGCCTGCGCGCCGTCGGCTCTGTCATCCGCTTCGACGGCTTCATCGCCGCCTATACCGACCAGAAGGAAGATGGCGAGCAGAGCGATGACGGTGACGACGAAGGCCGTCTGCCGCCGATCAACGAGCGCGAGAACCTCGCCAAGCAGAAGATCAATGCCAGCCAGCACTTCACCGAACCGCCGCCGCGTTATTCGGAAGCCTCGCTGATCAAGAAGATGGAAGAACTCGGCATCGGCCGTCCTTCCACCTATGCGGCGACGCTGAAGACGCTGAGCGACCGCGAATATATCGTCGTCGACAAGCGCAAGCTGGTGCCGCATTCGCGCGGACGGCTGGTGACGGCTTTCCTCGAAAGCTTCTTCACCAAATACGTCGAATATGATTTCACCGCAGCGCTTGAAGAAAAGCTCGACCGGATTTCCGCCGGCGAACTGGACTGGAAGCAGGTGCTGCGCGATTTCTGGAAGGATTTCTTCGCCCAGATCGAAGACACCAAGGAACTGCGTGTCACCAACGTTCTGGATGCGCTGAACGAGGTTCTGGCGCCGCTGGTCTTCCCCAAGCGCGAGGACGGCTCCGATCCGCGCATCTGTCAGGTTTGCGGCACCGGCAATCTTTCGCTGAAGCTCGGCAAATACGGCGCTTTCGTCGGTTGCTCCAACTATCCGGAATGCAACTACACCCGCCAGTTGACCTCGGACGGTTCGGAAGCCGAAGCTGCGGCTTCGAACGAGCCGAAGGCGCTGGGTGCCGATCCGATGACCGGCGAGGAGCTGACGTTGCGGTCCGGCCGTTTCGGGCCCTATATCCAGCGCGGCGACGGCAAGGAGGCCAAGCGCTCCTCGCTGCCCAAGGGCTGGAAGCCTGAGGATATCGACCACGAAAAGGCCTTAGCGCTCATCAACCTGCCGCGCGATATCGGCAAGCATCCGGAAACCGGCAAGATGATTTCCGCCGGCCTCGGCCGCTACGGGCCGTTCCTGTTGCATGACGGTTCCTATGCGAACCTTGAAAGCATCGAGGACGTGTTCTCTATCGGCCTCAACCGCGCCGTGACCGTGATTGCCGAAAAGCAGAGCAAGGGACCGGGCCGCGGCCGCAGCGGCACGCCGGCGGCGCTGAAGGAACTGGGCGACCATCCCGATGGCGGCGCGATCACCGTTCGCGACGGGCGTTATGGCGCTTACGTCAACTGGGGCAAGGTCAACGCCACCATTCCGAAGGGTCAGGACCCGGCTTCGGTGACGCTGGACGAGGCGCTGGTGCTGATCGCCGAGCGCATCGCCAAGACCGGCACCGGCGGCAAGCCTGCCAAGGGCAGGAAGACGGCTGCCAAGAAGGCCGATGGTGACGCCGCAGCTAAGCCGAAGGCGACCAAGGCCAAGGCGGCAACGAAGAGCAAGACGGCCGCCAAGCCGAAGGCAGCGGCCAAACCCAAGAAGGCAGCAGAGTGA	MNVVVVESPAKAKTINKYLGSGYKVLASFGHVRDLPAKDGSVLPDQDFEMSWEVDSASAKRMKDIADAVKSSDGLILATDPDREGEAISWHVLDLLKKKRVLGDKPVKRVVFNAITKKAVLDAMANPRDIDVPLVDAYLARRALDYLVGFNLSPVLWRKLPGARSAGRVQSVALRLVCDRESEIERFVSEEYWNISALLKTPRGDEFEAKLVSADGKRLQSRSIKTGDDANRLKALLEGASYVVESVEAKPVKRNPGPPFTTSTLQQAASSRMGFSASRTMQVAQKLYEGIDIGGETVGLITYMRTDGVQMAPEAIDAARRAIGEQFGGRYVPEKARFYSTKAKNAQEAHEAIRPTDFNRTPDQVKRYLDPDQLRLYDLIWKRGIASQMASAEIERTTVEILASNGGEKAGLRAVGSVIRFDGFIAAYTDQKEDGEQSDDGDDEGRLPPINERENLAKQKINASQHFTEPPPRYSEASLIKKMEELGIGRPSTYAATLKTLSDREYIVVDKRKLVPHSRGRLVTAFLESFFTKYVEYDFTAALEEKLDRISAGELDWKQVLRDFWKDFFAQIEDTKELRVTNVLDALNEVLAPLVFPKREDGSDPRICQVCGTGNLSLKLGKYGAFVGCSNYPECNYTRQLTSDGSEAEAAASNEPKALGADPMTGEELTLRSGRFGPYIQRGDGKEAKRSSLPKGWKPEDIDHEKALALINLPRDIGKHPETGKMISAGLGRYGPFLLHDGSYANLESIEDVFSIGLNRAVTVIAEKQSKGPGRGRSGTPAALKELGDHPDGGAITVRDGRYGAYVNWGKVNATIPKGQDPASVTLDEALVLIAERIAKTGTGGKPAKGRKTAAKKADGDAAAKPKATKAKAATKSKTAAKPKAAAKPKKAAE				NA	NA	NA	NA	NA
BMS010_05028	2355	rnr_2	COG0557	Ribonuclease R	GTGAGCAAAGCGCCGCGTCAGAGACAGGGTTCAGCCAGCGACGGTTTCGGACGCACCGGGCGCGGCAAGCGGGTGAGTGAAGGCGAAGGCATCATCCATGGCGAGGTGCCTTCCCGCGAAGTGCTGCTGAAATTCATTGCGGACCATCCGCAGCAGGCCTCCAAACGCGAAATCGCCAAGGCTTTCGGGCTGAAGGGGGAAAACCGCGTTGTCCTCAAGGCGCTGCTGAAGGAACTCGAAGTTGACGGCATGGTGCACAAGAGCCGCAAGTCGCTGACGCGACCGGGTGGCCTGCCGCCTGTGACGGTACTCGACATCACCACCCGCGACAAGGATGGCGAGCTGATCGGACGCCCGGCGGAATGGCCCGAGGATCTGGGCGCAGCGCCGGCCGTGCTGATCCGCCAATCCTCGCAGGACCGTGGCAAGAAAGCGCCAGCCGCCGGTCTCGGCGACCGTATTCTCGCGAAAATCTTCCCCTCCAAGGAAAGCACCGGCCCCGCCTACACGGCCCGCGTCGTCAAGCTGATCGACCGTCGCCAAAATGCACTGCTCGGCGTGTTCAAGGAAACGCCCGGTGGCGGCGGACGGCTGATGCCGATCGACCGGCGCGGTGAGGAAATGGTCATCGACCCCGATGGCGTCGGCGATGCCAAGGACGGCGATCTGATCGAGGTGGAAACCTCGCGCAACAGCGGCCGTTACGGGCTGACGCGCGCCAAGGTGCTGTCGGTCATCGGCTCCGTTGCCTCGGAAAAGGCGATCTCGATGATCGCGATCCATTCCCACGGCATTCCGCATATCTTTCCCTCGAACGTTCTTGCCGAGGCGGATGCCGCCAAGGCGGCCAGCATGTCGCACCGCGAGGACTGGCGCGACCTGCCGCTCATCACCATCGATCCGGCCGACGCCAAGGACCATGACGATGCGGTCTATGCCGAGCCCGACACGTCGCCCGACAATCCTGACGGTGTCATCGTCACCGTCGCCATTGCCGATGTCTCCTGGTATGTGCGTTCCGGCTCGCCGCTGGACCGCGAAGCGCTGAAACGCGGCAACTCGGTCTATTTCCCCGACCGCGTCGTGCCGATGCTGCCGGAGCGCATTTCCAACGATCTCTGCTCGCTGAAGGAAGGCGTCGACCGCCCTGCCCTTGCGGTGCGGATGACGTTTTCGAAGGAAGGTCGTAAGGCCGGCCACACCTTCCACCGCATTATGATGAAGAGCGCTGCCAAGCTCTCCTACCAGCAGGCGCAAGCCGCCATCGACGGACGGCCGGATGACAAGACCGGCCCGCTGCTGGAGCCGATCCTGAAGCCGCTGTGGCATGCCTATGCGGTGATGAAGCGCGGCCGCGACCGCCGCCAGCCGCTGGAACTCGACATGCCGGAGCGCAAGATCCAGCTGAGGCCAGACGGCACAGTGGACAAGGTCGTCATTCCCGAACGCCTCGACGCGCACAAGCTGATCGAGGAAATGATGATCCAGGCGAATGTCGCCGCCGCCGAGACGCTGGAAAAGAAGAAGCAGCCGCTGGTCTATCGCGTCCACGATGCGCCCACGCTTTCCAAGCAGGAAGTGCTGCGCGAATTCCTCGGCACCATCGGCATTTCCATGGCCAAGGGTGCGGCGATGCGCGCCAATTCCTTCAACGGCATTCTGGCCCGCGCGCTCGATACGCCGCACCAGATCATGGTCAACGAGATGGTGCTGCGCAGCCAGAGCCAGGCGATCTACAGCCCGGAGAATATCGGCCATTTCGGCCTCAACCTGATGAAATATGCGCATTTCACCTCGCCGATCCGCCGTTATGCCGACCTCATCGTGCATCGCGCGCTGGTCGGGTCGCTTGGCCTCGGCGAAGGCGGCATCACACCGCAGGAAGAGGCGACGCTGGATAACATCGCCGCCGAAATCTCGACCTTCGAGCGGCGCGCCATGGCAGCAGAGCGCGATACCGTCAACCGGCTGATCGCGCATCATCTTTCCGAACGGGTGGGTGAAGAATTCGAGGGTCGCGTCGGCGGTGTCACCAAGGCGGGACTTTTTGTCGCGCTTCCGCAATTTGGCGCGGACGGTTTTGTTCCTATATCTACACTCGGAACCGACTATTTCCTTTACGATGAGGCCCATCAGGCCCTGACAGGAGAGAAGACCGGCCTCGGATACCAGCTTGGCGATACGGTTCAGGTGCGGCTTGCGGAAGCGGTGCCTTTGGCAGGCGCGCTTCGTTTCGATATGCTGAGCCCGGGGCGCAAGATGCCGGTCGGCTCGCGGTCGTTCCACAAGGCAGGCCGGCGAACGTCGCGTTCTGCCGCAAAGCCCGGGACGCGGCCGCCCAGAAGGCGACGGTAA	MSKAPRQRQGSASDGFGRTGRGKRVSEGEGIIHGEVPSREVLLKFIADHPQQASKREIAKAFGLKGENRVVLKALLKELEVDGMVHKSRKSLTRPGGLPPVTVLDITTRDKDGELIGRPAEWPEDLGAAPAVLIRQSSQDRGKKAPAAGLGDRILAKIFPSKESTGPAYTARVVKLIDRRQNALLGVFKETPGGGGRLMPIDRRGEEMVIDPDGVGDAKDGDLIEVETSRNSGRYGLTRAKVLSVIGSVASEKAISMIAIHSHGIPHIFPSNVLAEADAAKAASMSHREDWRDLPLITIDPADAKDHDDAVYAEPDTSPDNPDGVIVTVAIADVSWYVRSGSPLDREALKRGNSVYFPDRVVPMLPERISNDLCSLKEGVDRPALAVRMTFSKEGRKAGHTFHRIMMKSAAKLSYQQAQAAIDGRPDDKTGPLLEPILKPLWHAYAVMKRGRDRRQPLELDMPERKIQLRPDGTVDKVVIPERLDAHKLIEEMMIQANVAAAETLEKKKQPLVYRVHDAPTLSKQEVLREFLGTIGISMAKGAAMRANSFNGILARALDTPHQIMVNEMVLRSQSQAIYSPENIGHFGLNLMKYAHFTSPIRRYADLIVHRALVGSLGLGEGGITPQEEATLDNIAAEISTFERRAMAAERDTVNRLIAHHLSERVGEEFEGRVGGVTKAGLFVALPQFGADGFVPISTLGTDYFLYDEAHQALTGEKTGLGYQLGDTVQVRLAEAVPLAGALRFDMLSPGRKMPVGSRSFHKAGRRTSRSAAKPGTRPPRRRR				NA	NA	NA	NA	NA
BMS010_05029	444			hypothetical protein	ATGAGTGCACATCAGGGCTCGGAAACAGTCACCTTCGGAGACGATAGCGCGGAACGGCCGCTTGGCCGCTCGATCATGCGGGGAATGGCCAATCGCTGTCCTGCGTGCGGAAGCGGACGCCTGTTCCGGGCCTTTCTGAAGCCGGTGGACGCCTGTGCCGCCTGCGGCGAAGAAATGCATCACCACCGGTCCGATGACCTGCCGCCCTATATTTCCATCGTCATCATCGGCCATATCGCCGTCGGCGGTTTCATGATGACCGATATGGTGTTTTCCGTTCCCATGTGGGTGCATTTCGCCATCTGGGTGCCGATCACCATTCTCGCCGCACTTTTGACGCTGCAACCCATCAAGGGGGGCGTCATTGGCCTGCAATGGGCGCTGAAGATGCACGGCTTCGACCGAAAACAGCAAAAAGCGCAGATCGACGGCTCATCGCACTGA	MSAHQGSETVTFGDDSAERPLGRSIMRGMANRCPACGSGRLFRAFLKPVDACAACGEEMHHHRSDDLPPYISIVIIGHIAVGGFMMTDMVFSVPMWVHFAIWVPITILAALLTLQPIKGGVIGLQWALKMHGFDRKQQKAQIDGSSH				NA	NA	NA	NA	NA
BMS010_05030	627			hypothetical protein	ATGCGGCCGCGCGACGCCGCCTCCATCATTCTGTTCGACCGCTCCGGCTCGCAGCTCAGGGTGCTGATGGGCCAACGCAGCAGCGCCCATGTCTTCATGCCGGGCGCTTTTGTGTTTCCCGGCGGCAAACGTGATCCGCGCGACCATGCGCTGCCCTTTTCGGGCGATCTGCATCCCGCCGTCCTCCACAGCCTCACCGCCTCCGCGGCGCGGCGGCTGAGCGCTGCTGGCGCGAGAGCTCTGGCGCTTGCCGCCGCGCGCGAACTTTTCGAGGAAACCGGTGTGGATCTCGGCTTGAGCACCAGAGGCCCCGATCTTTCCCGTTTCCGATATGTGGCCCGCGCTATCACCCCACCCGGCAATGTGCGGCGCTACGACACGCGATTCTTCTGCTGTTATGCCGACGAATTGCGGCTGGATACCCGGCTAACCCGTGATTCTGACGAGTTGCACAATGTGCAATGGCTTGACATGACAGACCTTTCCGGTCTGAACATGCCGAAAATCACGCGCACGGTTCTCGAAGATGTCACAAAACTCATGATAGGTGATCCCTCATTGCCCTTTGAAAGCCCCGCGCGGCTCTATGTCACGCGCCACGGCCGGTTCATTCGAGACTTTGTATAA	MRPRDAASIILFDRSGSQLRVLMGQRSSAHVFMPGAFVFPGGKRDPRDHALPFSGDLHPAVLHSLTASAARRLSAAGARALALAAARELFEETGVDLGLSTRGPDLSRFRYVARAITPPGNVRRYDTRFFCCYADELRLDTRLTRDSDELHNVQWLDMTDLSGLNMPKITRTVLEDVTKLMIGDPSLPFESPARLYVTRHGRFIRDFV				NA	NA	NA	NA	NA
BMS010_05031	1176	ycaD_6		putative MFS-type transporter YcaD	ATGTCACAAATGAAATGCGAAGAAGCGGACGCCATTCACTGGCCCTCACTGATCGCCGCCATTTCCGCCATCAGTGCGGTCGGTGTCGCCATCGGCCTTGGCCTTCCGCTCCTGTCGATCATCCTTGAGAAGCGCGGCATCTCTTCCACCATGATCGGGGTGAATTCGGCCATGGCCGGCGTCGCGGCGATGATGGCGGCCCCCGTGACCACCAAGATCGCCCATGATTTCGGCGTGGCGCGAACCATGCTGTTCGCAGTCGTCATTTCGGCGCTGAGCGCGCTCGGTTTTTATTTCGCCGAGGCCTTCTGGATGTGGTTTCCGCTGCGAATCGTTTTCCATGGCGCCACCACTACGCTTTTCATTCTCTCCGAATACTGGATCAACATGACCGCGCCGCCCAGAAAACGCGGCATGGTTCTCGGCATCTACGCCACCGGCCTTGCGGTCGGTTTCGCGGTCGGTCCGCTGCTGTTTTCCGTGGTCGGCAGCGAAGGCATATTGCCGTTTCTGGTCGGCGCGGCGATCATCCTGCTCGCCGCGATCCCGATCTTCATGGCGCGCGGCGAAAGCCCGGAGCTGGACGAAGGGCCCAACCACCATTTCGTCCGTTATGTCTGGCTGGTGCCCATGGCGTCCGCGGCGGCCTTCGTCTTTGGCTCGGTGCAGGCCGGCGGCCTTTCGCTGTTTCCGATCTATGCGACGCGGGAGGGCTTCAACGAATCGCAGGCAGCGCTTCTCCTCACCGTGATGGGCATCGGCAATATGGTCTTCCAGATACCGATCGGCCTGCTTTCGGACCGGATGAAGGACCGGCGGACGATGCTGGGGCTGATGGCCTTTGCCGGCGTCTGCGGCACGCTGGCGCTGCCTTTCCTGGTGGAAAGCTGGCTTCTGGTGGCGGCCCTGCTGCTGTTCTGGGGCGGGCTGGTCTCCGGCATGTATACTGTAGGCCTCACCCATCTCGGATCGCGCCTGAAAGGCGCCGATCTGGTCGCCGCCAATGCCGCCTTCATCTTCTGTTACGCCGTCGGCACGATTGCGGGGCCGCAGGCCGTGGGCATTTCCATGGACCTTGCCGGAACCGACGGCTTTGCCTGGTCGCTGGCGGTATTTTTCGGGCTTTACGTGGTGCTTTATATCGTCCGTTTTGTTTTCCGGGCAAAACAGGCTTGA	MSQMKCEEADAIHWPSLIAAISAISAVGVAIGLGLPLLSIILEKRGISSTMIGVNSAMAGVAAMMAAPVTTKIAHDFGVARTMLFAVVISALSALGFYFAEAFWMWFPLRIVFHGATTTLFILSEYWINMTAPPRKRGMVLGIYATGLAVGFAVGPLLFSVVGSEGILPFLVGAAIILLAAIPIFMARGESPELDEGPNHHFVRYVWLVPMASAAAFVFGSVQAGGLSLFPIYATREGFNESQAALLLTVMGIGNMVFQIPIGLLSDRMKDRRTMLGLMAFAGVCGTLALPFLVESWLLVAALLLFWGGLVSGMYTVGLTHLGSRLKGADLVAANAAFIFCYAVGTIAGPQAVGISMDLAGTDGFAWSLAVFFGLYVVLYIVRFVFRAKQA				NA	NA	NA	NA	NA
BMS010_05032	168	rpmG_2	COG0267	50S ribosomal protein L33	ATGGCGAAAGCTACAACAATCAAGATCAAGCTGCTGTCGACAGCCGACACCGGTACCTTCTACGTCACCACCAAGAACAGCCGTACGTTCACGGACAAGATGACGAAGACGAAGTACGACCCGGTTGTACGCAAGCACGTTGAATTCAAGGAAACCAAGATCAAGTAA	MAKATTIKIKLLSTADTGTFYVTTKNSRTFTDKMTKTKYDPVVRKHVEFKETKIK				NA	NA	NA	NA	NA
BMS010_05034	1371	pleD_1		Response regulator PleD	ATGACGGCGAGAGTTCTGGTTGTTGACGATATTCCGGCCAATGTGAAGCTTCTCGAAGCCCGTCTTCTGGCGGAATATTTCGATGTCGTCACCGCCGAGGATGGTTTCAAGGCGTTGGCTATCTGCGACGAAGAACAGGTCGATATCATCCTTCTCGATATCATGATGCCGGGCATGGATGGTTTCGAGGTCTGCGAAAGGTTGAAGGCCAATCCGAATACCGCACATATTCCGGTGGTGATGGTCACGGCACTCGATCAGCCGTCGGACCGCGTGCGCGGACTCAAGGCCGGCGCCGACGATTTTCTCACCAAGCCGGTCAATGACCTTCAACTCATCGCCCGTGTCAAAAGCCTCGTGCGCCTCAAGGCCGTCAGCGACGAATTGCGGCTGCGTGCCGAAACCGCACGGCAGATCGGCATCGAGGAGATGCTGCGCAGCGATGGCCTGATGCAGACGCCCGGCCGCGTGCTGGTTGCGGATGGTCGCGCCAGCTCGCAGGAACGTATCGTCCGGGCGCTGAAGCCGGTTGCAGAGGTGGATGCCGTCACGGAGCCGCAGGCGGCCTTGCTCAAGGCCGCGGGTAATCCGTTCGAGCTCGTCATCGTCAATTCCAATTTCGAGAATTACGATCCGCTGCGGCTGTGCTCGCAGCTTCGCTCGCTGGAACGCACCCGTTTCCTGCCGCTGCTTCTGGTGGCGGAGCAGGGGGCGGACGACATGGTGGCGCGGGCGCTCGATCTCGGCGTGAATGATTACATTCTCCGCCCGATCGATCCGAACGAACTCGTCGCGCGCTCGCTGACGCAGATCAGGCGCAAGCGCTACAACGAGCATCTGCGGCTCAATCTCCAGCACACGATGGAACTCGCCATTGTCGACGGGCTGACCGGCCTCAACAATCGCCGTTATCTCGACAACCACCTGAAGATACTCTTCGACCGTGCTGCCGTTCGCGGCCGCCCGATTTCCATCTGCATGACCGATATAGACCGCTTCAAGCTGGTCAACGATACCCATGGTCACGATGTCGGCGATGAGGTGCTGCGGGAATTTGCAGCGCGCATCCGCAGCACGGTGCGCGGCGCGGATCTCGCCTGCCGTTATGGCGGGGAGGAGTTCGTCGTCGTCATGCCCGATACGCCGATGGAGCTTGCGGCAAGCGTCGCCGAGCGCCTGCGGTCGATAGTCGAGGACAAGCCTTTTTATGTTCGTTCCATCGACCGGGAATTGAGCATTACCGCCTCCCTCGGCATTGCGACCAGCAGCGGCGCCTTCGGTGCGCCGGACGAAATCCTGAAGCAGGCGGACAAGGCGCTCTACGAGGCGAAACACGCCGGCCGCAACCGCGTCGTTGCTGCCGCTGCCTGA	MTARVLVVDDIPANVKLLEARLLAEYFDVVTAEDGFKALAICDEEQVDIILLDIMMPGMDGFEVCERLKANPNTAHIPVVMVTALDQPSDRVRGLKAGADDFLTKPVNDLQLIARVKSLVRLKAVSDELRLRAETARQIGIEEMLRSDGLMQTPGRVLVADGRASSQERIVRALKPVAEVDAVTEPQAALLKAAGNPFELVIVNSNFENYDPLRLCSQLRSLERTRFLPLLLVAEQGADDMVARALDLGVNDYILRPIDPNELVARSLTQIRRKRYNEHLRLNLQHTMELAIVDGLTGLNNRRYLDNHLKILFDRAAVRGRPISICMTDIDRFKLVNDTHGHDVGDEVLREFAARIRSTVRGADLACRYGGEEFVVVMPDTPMELAASVAERLRSIVEDKPFYVRSIDRELSITASLGIATSSGAFGAPDEILKQADKALYEAKHAGRNRVVAAAA	PGPT0015900_920	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-CELL_FATE_CONTROL	PUTATIVE-CELL_FATE_CONTROL-1,PGPT0015900-pleD-K02488
BMS010_05035	372	divK		Polar-differentiation response regulator DivK	ATGCCCAAGCAGGTCATGATAGTCGAAGACAACGAGCTGAACATGAAGCTCTTTCGCGACCTGATCGAGGCGTCCGGTTATACGACCATCCAGACGCGCAACGGCATGGAAGCGCTCGATCTCGCCCGCAAGCACCGCCCGGACCTCATCCTCATGGATATCCAGCTTCCGGAAGTCTCAGGGCTGGAGGTGACGAAGTGGCTGAAGGAAGATGACGAGCTGCATGTCATTCCGGTCATCGCGGTCACGGCTTTCGCCATGAAGGGCGACGAGGAACGGATCCGTCAGGGCGGATGCGAGGCCTATGTGTCGAAGCCGATTTCCGTTCCGAAGTTCATCGAAGTCATCAAGACTTATCTGGGCGATGCGTGA	MPKQVMIVEDNELNMKLFRDLIEASGYTTIQTRNGMEALDLARKHRPDLILMDIQLPEVSGLEVTKWLKEDDELHVIPVIAVTAFAMKGDEERIRQGGCEAYVSKPISVPKFIEVIKTYLGDA	PGPT0015900_519	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-CELL_FATE_CONTROL	PUTATIVE-CELL_FATE_CONTROL-1,PGPT0015900-pleD-K02488
BMS010_05036	309			hypothetical protein	ATGCTGCGCGATACGAAAAACAAAGGCAATGCCGGCCAGGATCCGCAAGAAACGGCAGCCGCCATACTTGGCTGGCTGGCAAACGAGCCCGAAATGCTGGCGCGTTTTCTGGCGCTGAGCGGGTTGCAGGCCAATATGCTGCGCCAGGCCGTCAGCGACCCCGGCTTTCTTGCGGGCCTCACCGATTTTCTGATGAGCCATGAACCGGACCTGATGGCGTTTTGCGCCGCGACCGGTACTTCCCCCGAAACAGTGGCGGCCGCCTGGCATCACTTTTCCGGGCCGGGGCTGGATTCAGGCGTGTATTGA	MLRDTKNKGNAGQDPQETAAAILGWLANEPEMLARFLALSGLQANMLRQAVSDPGFLAGLTDFLMSHEPDLMAFCAATGTSPETVAAAWHHFSGPGLDSGVY				NA	NA	NA	NA	NA
BMS010_05037	1284	dinB_2		DNA polymerase IV	ATGTCCACGTCGCAACCCTATGATCCCGGTTTTTGCCGCGACTGTCTGGCCGGCCAGCCAGAGGGGCTGAGGCGTTGCCGCGCCTGTGGCAGCCCGCGGCTTGTTTATCATCCCGAACTCTACGATCTGAGCATTGCCCATATCGACTGCGACGCTTTTTATGCCTCCGTTGAAAAACGGGACAACCCTGAACTGGCCGACAAGCCTGTGATCGTTGGCGGCGGCAAACGTGGGGTGGTTTCCACCGCCTGTTATATCGCCCGCATTCACGGCGTGCGTTCCGCCATGCCCATGTTCAAGGCACTGGAAGCCTGTCCTGACGCCATCGTCATCAAGCCGGATATGGAAAAATACAGCCGTGTCGGACGCGAAATCCGGGCGATGATGCAGGAATTGACGCCGCTCGTGCAGCCGCTTTCCATAGACGAGGCGTTTCTCGATCTTTCCGGCACCGAGAAGCTGCATCACGATCCACCGGCCCGTGTGCTGGCAAAATTCGCTAGGCGCGTGGAAAAGGAAGTGGGCGTGACCGTTTCAGCCGGGCTTTCCTACTGCAAATTTCTGGCCAAGGTCGCGTCCGACCTGCAAAAGCCGCGCGGCTTTTCGGTGATCGGCGAAACGGAGGCGCTGTCCTTTCTGGCGGCACGGCCGGTCACCATCATCTGGGGCGTGGGCAAGGCCTTTGCGGCGACGCTGGAGGCGGACGGTATCCGCATGATCGCGCAGTTGCAGGAGATGGAGGAAAGCGAGCTGATGCGCCGTTATGGCGTGATGGGGCAACGCCTCTTCCGGCTTTCGCGCGGCATCGACGAGCGGCACGTGCACAATAACGACCCCGTCAAAAGCGTCTCTTCCGAAACCACCTTCTTCAACGATATTTCCCGCCATGAGGATCTGGTGCCGATCCTGCGCTCGCTTTCCGAAAAGGTTGCCTGGCGGCTGAAAAAGAGCGGCATTGCCGGCCAGACGGTGGTGCTGAAGATGAAGACGGCAGACTTCAAGCTGCGCACCCGCAACCGCAAGCTGGACGACCCCACGCAGCTTGCCGACCGGATTTTCCGCACCGGCCTTTCGCTGCTGGAAAAGGAAACGGACGGCACCAGGTTCCGCCTCATCGGCATCGGGGTCAGCGATCTGCGCGATGCAGGTCTCGCCGATCCGCCCGATCTGGTCGACAAACAGGCGGGGCGCCGGGCTGCGGCGGAAGCGGCGATGGACAAGCTGCGCGACAAGTTCGGCAAGGGCAGCGTCGAGACCGGCTATACGTTCGGAACGCGCAAATAA	MSTSQPYDPGFCRDCLAGQPEGLRRCRACGSPRLVYHPELYDLSIAHIDCDAFYASVEKRDNPELADKPVIVGGGKRGVVSTACYIARIHGVRSAMPMFKALEACPDAIVIKPDMEKYSRVGREIRAMMQELTPLVQPLSIDEAFLDLSGTEKLHHDPPARVLAKFARRVEKEVGVTVSAGLSYCKFLAKVASDLQKPRGFSVIGETEALSFLAARPVTIIWGVGKAFAATLEADGIRMIAQLQEMEESELMRRYGVMGQRLFRLSRGIDERHVHNNDPVKSVSSETTFFNDISRHEDLVPILRSLSEKVAWRLKKSGIAGQTVVLKMKTADFKLRTRNRKLDDPTQLADRIFRTGLSLLEKETDGTRFRLIGIGVSDLRDAGLADPPDLVDKQAGRRAAAEAAMDKLRDKFGKGSVETGYTFGTRK	PGPT0014881_875	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ADAPTIVE_MUTATION	CE-BACTERIAL_FITNESS-ENVIRONMENT-INDUCIBLE_DNA_POLYMERASES,PGPT0014881-dinB-K02346	NA	NA
BMS010_05039	3501	dnaE1		DNA polymerase III subunit alpha	ATGGGCGATGCGGTTGTGCGTGGAGAGACCTCTGGCGAGACGCTAAAAACTCCCGGTTTCGTCCATTTGCGGGTTCATTCCGCCTATTCCCTGCTTGAGGGGGCCTTGCCCCTCAAGAAAATCATGTCCAAGGCCGTGGCCGACGGTCAGCCGGCCATTGCCATTACCGATACAAACAACCTCTTTGTCGCGCTGGAATTTTCCGAAAAGGCGCGCGATGAAGGTTTGCAGCCCATCATCGGCTGCCAGCTGTCGATCGACATGCAGGATGCGGCGGAGGACCGCCGCAACCATAACAGCCACCTTCAGAAACTTCCCGCCATAGTGCTCCTTGCCGCCAATGCCGAAGGTTACGAGCGGCTGGTGGATATCGTCAGCCGCGCCTATCTGGAAGGTGAGGGCAGCGGCCATTCGGTGCATATCACCCGTGCATGGCTGGAGGAAGCTTCCAATGCCGGCCTGATCGCGCTGACGGGCGCTTCCGGCGGTCCGGTGGATATGGCCTTGAAGGAAGGTCACGCTGCCCAGGCGAAGGAACGGCTGCTGACGCTGAAGTCACTCTTCGGTGATAGGCTTTATATCGAATTGCAGCGCCAGTCCGGGTATGACCGTTCCCATGAGCGGCGCATGATCGGCCTTGCTTATGACCATGATATTCCGCTGGTTGCCACCAACGAGGCGTTTTTCCCTTCCAAGGCCGATTACGAGGCGCATGATGCGCTGATGGCGGTGGCGCATAACGCCATCGTCTCCGATGACAGCCGGTTCAGGCTCACGCCCGATCATTACCTCAAAAGTCGAGCGGAAATGGCGGCGCTGTTTGCCGATCTTCCCGAGGCGCTGGAAAATACCGTCGAGATCGCGCTGCGCTGCTCCTATGTGCTGAAGAAGCGCGGGCCGATCCTGCCGCGTTTCACCGGCGCCAGCGACGACCCGGAGGCGGCGGAACACGCCGAAGCCGAAGAGCTTCGCCGCCAGGCGGTGGAGGGGCTGGATCAGCGGCTGGCGGCGCTCGGCATGGCTGCCGGCTATACCGAGCAGGACTATCGCGACAGGCTGGATTTCGAACTCGGCGTCATCTCGCGCATGAAGTTCCCCGGTTACTTCCTGATCGTTGCCGACTTCATCAAATGGGCCAAGCAGCACGATATTCCGGTCGGGCCGGGCCGCGGTTCGGGTGCGGGCTCGCTTGTCGCTTATGCGCTCACGATTACCGACGTCGATCCTCTGCGCTTCTCGCTGCTGTTCGAACGCTTCCTCAATCCCGAACGCGTTTCGATGCCCGACTTCGATATCGACTTCTGCCAGGACCGTCGCGAAGAGGTGATCCGTTACGTGCAGGCCAAATATGGCCGCGAGCAGGTGGCGCAGATCATCACCTTCGGTTCGCTGCAGGCGCGCGCGGCCTTGCGCGACGTCGGCCGCGTGCTTGAAATGCCCTATGGGCAGGTGGACAAGATCTGCAAGCTGGTGCCCAACAACCCGGCCAACCCGACACCCCTGTCGAAAGCCATCGAGGAAGAGCCGCGCCTGCAGGAAGAGGCGGACAAGGAGCCGGTCGTCGCCCGCCTTCTGGATATCGCCCAGAAGATCGAAGGGCTTTACCGCCACGCCTCCACCCACGCCGCCGGTATCGTCATCGGTGACCGCCCGCTGTCGAAGCTGGTGCCGATGTATCGCGATCCGCGCTCGGATATGCCGGTCACCCAGTTCAACATGAAATGGGTGGAAAGCGCCGGTCTCGTCAAATTCGACTTCCTCGGCCTGAAGACGCTGACAGTGCTGAAGGTCGCCGTCGATTTCGTTGCCAAGCGCGGTATCAAGGTCGATCTCGCGGCGATCCCGCTGGATGACGCCAAAACCTACGAGATGCTCTCGCGCGGCGAAACCATCGGCGTGTTCCAGGTGGAAAGTGCCGGCATGCGCAAGGCGCTGATCGGCATGCGGCCGGACTGCATAGAGGACATCATCGCGCTGGTGGCGCTTTATCGTCCCGGACCGATGGAAAACATCCCGGTCTATAATGCGCGCAAACATGGCGAGGAGGAGCTGGAGTCCATCCACCCCACCATCGACCATCTGCTCAAGGAAACGCAGGGCGTTATCGTCTATCAGGAACAGGTGATGCAGATCGCCCAGGTTCTCTCCGGTTATTCGCTCGGCGAAGCCGATCTTCTGCGCCGCGCCATGGGCAAGAAGATCAAGGAGGAGATGGACAAGCAGCGCGAACGTTTCGTGGATGGCGCCATCAAGAACGGCGTCTCGAAGCCGCAGGCCAACACCATCTTCGACCTTCTCGCGAAATTCGCCAATTACGGCTTCAACAAGAGCCACGCTGCGGCCTACGCCATCGTGTCCTACCAGACCGCCTATATGAAGGCGCATTATCCGGTGGAGTTCCTGGCGGCCTCCATGACGCTCGATATGGCGAACACGGAAAAACTCAACGATTTCCGCCAGGATGCCGGCCGCCTTGGTATCGAGGTCGTCGCACCTTCGGTGCAGACGTCGTTCCGGCAATTCGAGACGGGCGAGAACCGCATCTATTATTCGCTCGCCGCCATCAAGGGCGTGGGCGAGGGGGCGGTGGAGCACATCGTCCAGGTACGCGACGGCAAGCCGTTCACGAGCCTTGAGGATTTCTGCCTTCGCATCGATCCCAAGCAGATCAACCGGCGTGTGCTGGAAAGCCTGATCAATGCCGGCGCTTTCGATTGTTTCGGCCGCGACCGCGCCGAGCTGATCGGCGGGCTGGACCGCATTATCGGTTATGCGCAGATGGCGCAGAACAACCGCACCATCGGCCAGTCGGACATGTTCGGCTCCGGTGGTGGAAGCGGCCCGGAAAAGCTTATCCTGCCGGCTTTCCAGCCGTGGCTTGCCTCCGAAAAGCTGCTGCGTGAATATCAGGTGCTCGGTTTTTACCTCACCGCCCATCCGCTCGATACCTACCGCCCCGTGCTGGAAAAGCTGCGGGTGCAGAATTTCGCGGATTTTTCCGCCGCGGTGAAACAGGGCGCGACCGCCGGGCGTCTGGCCGGCACCGTGACCGGCAAGCAGGAGCGCAAGACCCGCACTGGCAACAAGATGGGCATCGTCACCTTCTCGGACGCATCGGGCCAATATGAGGCGGTGCTGTTTTCCGAAGGGCTCGGCCAGTTCCGCGATCTGCTCGAGGTCGGTAAATCGCTGGTCATCACCGTGCAGGCGGAAGAACGCCCGGAAGGCATCGGTCTTCGTATCCAGACGGCACAGTCGCTGGAAGAGAAATCCGTGCAGATGCAGAAGGCGCTGCGTGTTTATGTGCGCGATTCCGGCCCGCTGAAAACGGTGGCCCGCCACCTCAATACGAAAGGCGATGGCTCAGTCTATTTCATCGTCATCAAGGATGAGGGCAGCCGTGAGATCGAGGTGGAGCTGACGGAGAAATACCGCATCTCGCCGGAAATCGCCGCTGCGCTGCGCTCCGCGCCCGGTGTCGTCGATGTGGAACTGGTGTGA	MGDAVVRGETSGETLKTPGFVHLRVHSAYSLLEGALPLKKIMSKAVADGQPAIAITDTNNLFVALEFSEKARDEGLQPIIGCQLSIDMQDAAEDRRNHNSHLQKLPAIVLLAANAEGYERLVDIVSRAYLEGEGSGHSVHITRAWLEEASNAGLIALTGASGGPVDMALKEGHAAQAKERLLTLKSLFGDRLYIELQRQSGYDRSHERRMIGLAYDHDIPLVATNEAFFPSKADYEAHDALMAVAHNAIVSDDSRFRLTPDHYLKSRAEMAALFADLPEALENTVEIALRCSYVLKKRGPILPRFTGASDDPEAAEHAEAEELRRQAVEGLDQRLAALGMAAGYTEQDYRDRLDFELGVISRMKFPGYFLIVADFIKWAKQHDIPVGPGRGSGAGSLVAYALTITDVDPLRFSLLFERFLNPERVSMPDFDIDFCQDRREEVIRYVQAKYGREQVAQIITFGSLQARAALRDVGRVLEMPYGQVDKICKLVPNNPANPTPLSKAIEEEPRLQEEADKEPVVARLLDIAQKIEGLYRHASTHAAGIVIGDRPLSKLVPMYRDPRSDMPVTQFNMKWVESAGLVKFDFLGLKTLTVLKVAVDFVAKRGIKVDLAAIPLDDAKTYEMLSRGETIGVFQVESAGMRKALIGMRPDCIEDIIALVALYRPGPMENIPVYNARKHGEEELESIHPTIDHLLKETQGVIVYQEQVMQIAQVLSGYSLGEADLLRRAMGKKIKEEMDKQRERFVDGAIKNGVSKPQANTIFDLLAKFANYGFNKSHAAAYAIVSYQTAYMKAHYPVEFLAASMTLDMANTEKLNDFRQDAGRLGIEVVAPSVQTSFRQFETGENRIYYSLAAIKGVGEGAVEHIVQVRDGKPFTSLEDFCLRIDPKQINRRVLESLINAGAFDCFGRDRAELIGGLDRIIGYAQMAQNNRTIGQSDMFGSGGGSGPEKLILPAFQPWLASEKLLREYQVLGFYLTAHPLDTYRPVLEKLRVQNFADFSAAVKQGATAGRLAGTVTGKQERKTRTGNKMGIVTFSDASGQYEAVLFSEGLGQFRDLLEVGKSLVITVQAEERPEGIGLRIQTAQSLEEKSVQMQKALRVYVRDSGPLKTVARHLNTKGDGSVYFIVIKDEGSREIEVELTEKYRISPEIAAALRSAPGVVDVELV				NA	NA	NA	NA	NA
BMS010_05040	684	lolD_2	COG1136	Lipoprotein-releasing system ATP-binding protein LolD	ATGGCAAAAAAAACAGTGCTGCGGCTTACTGGCGTCGAGAGAACCTATGGTCAGGGCGAGACGTCGCTTTCCATTCTGCGCAAGGCTGATTTCGAATTGAAGAGCGGCGAGATGGTGGCGCTGGTCGCCCCTTCGGGAACCGGTAAATCCACGCTGCTGCATCTGGCGGGACTTCTCGAACATCCAGATGCCGGCGAGGTCTATATCAACGGCGCACCCTGCAATGACCTGCCGGATGAAACGCGAACCGCGATCCGCCGCAGCGATATCGGCTTTGTCTACCAGTTCCACCATCTCCTGCCGGAATTCTCGGCGGTGGAAAATGTGATGATGCCGCAGCTCATCGCCGGTCTGACACAGGCCGAAGCCCACAAGCGCGCCAGTGCGCTGCTCGACTATATGCGGGTGGGGCATCGCGGTGAGCACCGCCCGGCGGAACTCTCCGGCGGTGAACAGCAGCGTGTCGCCATCGCCCGCGCCGTCGCCAACGCACCGCTTTTGCTGCTCGCCGATGAGCCGACCGGTAATCTCGATCCGGAAACAGCGCATTATGTATTCGACGCGCTGGAGGCGCTGGTACGCCAATCCGGCCTTGCGGCGCTGATCGCCACCCACAATCATGAACTCGCCGCCCGCATGGACCGGCGCGTGACGCTGGCCGACGGCAAGATCGTCGATTTCTGA	MAKKTVLRLTGVERTYGQGETSLSILRKADFELKSGEMVALVAPSGTGKSTLLHLAGLLEHPDAGEVYINGAPCNDLPDETRTAIRRSDIGFVYQFHHLLPEFSAVENVMMPQLIAGLTQAEAHKRASALLDYMRVGHRGEHRPAELSGGEQQRVAIARAVANAPLLLLADEPTGNLDPETAHYVFDALEALVRQSGLAALIATHNHELAARMDRRVTLADGKIVDF	PGPT0024515_1940	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_TRANSPORT,PGPT0024515-lolD-K09810	NA	NA
BMS010_05041	1308	lolE_1	COG4591	Lipoprotein-releasing system transmembrane protein LolE	ATGGCACAAGCCGAGGCTGACAAGGGTGCGGCTGTTTCCGCCGGGGCAAAAACCGCCCGGCCGTTTTCCGCTTTTGAACGTATGGTGGCCTGGCGTTATCTGCGGTCGCGGCGCAAGGAAGCGTTCATTTCCGTCATTGCCGGGTTTTCCTTTGTCGGCATCATGCTGGGCGTGGCGACGCTCATCATCGTCATGGCGGTGATGAACGGGTTCCGCACCGAGCTCATTTCGCGCATTCTCGGCATCAACGGCCATATGATCGTGCAGCCTATCGACCAGCCCTTCAATAATTATGATGAGCTGGCGAAGAAGTTTGCCGCCGTTCCCGGCGTCACCATGGCCCTGCCGCTGGTGGAGGGCCAGACGCTCGCCTCCGGCCGCGGCGGCGCGGGCTCCGGCGCTCTGGTGCGCGGCGTTCGCCAGGAAGATATCGACAAGGTCAAGGAAGTCGCCACCAACATCAAGACCGGCGATCTGGTCGGCTTCATGGCCGGAGATGGTGTTCTCGTCGGCTCAAGGCTTGCCGCCCAGCTGGGCGTAACGGCCGGCGACGATATTACCCTCATTTCCCCGGAAGGCGACGTGACGCCGATGGGCGTCAATCCGCGCGTCAAATCCTACAAGATATCCGGCGTCTTCGAGATCGGCATGTCGGAATATGACGCCTCGATGATCTATATGCCCCTGTCCGAAGCCCAGCTTTATTTCAATGCCGAAGGCCTCGTGCAATCCATCGAACTTTATGTCAGCCGCCCCGACGATGTCGACGGAATCCGCCCGCTGGTGGAACAGGCCGCCGAACGCCAGATTTATATCACCGACTGGAGACAGCGGAACCAGACCTTCTTCTCCGCCCTGCAGGTGGAAAGAAATGTAATGTTCATGATCCTCACTCTCATCGTTCTGGTGGCGGCGCTGAACATCATTTCCGGCCTCATCATGCTGGTGAAGGACAAGGGCAGCGACATCGCCATTCTGCGCACCATGGGCGCAAGCTCCGGCTCCGTGATGCGCATCTTCTTCATGACCGGGGCGGCCATTGGCATGGTCGGCACCTTTGCGGGCGTGGCGCTCGGCGTCATCGTCTGCCTCAATGTGGAATCCATCAGGCAGTTCTTCTCGTGGATATCCGGCACGGTGCTGTTTGACCCGCAGCTTTATTTCCTGAGCCAGCTTCCGGCCGAAATGGATATCAGCGAGACCATTTCCGTTGTCATCATGGCGCTGACGCTCTCTTTTCTGGCAACGATCTTTCCAGCATGGCGGGCTTCCAAGCTCGATCCGGTGCAGGCCCTGCGTTACGAATAA	MAQAEADKGAAVSAGAKTARPFSAFERMVAWRYLRSRRKEAFISVIAGFSFVGIMLGVATLIIVMAVMNGFRTELISRILGINGHMIVQPIDQPFNNYDELAKKFAAVPGVTMALPLVEGQTLASGRGGAGSGALVRGVRQEDIDKVKEVATNIKTGDLVGFMAGDGVLVGSRLAAQLGVTAGDDITLISPEGDVTPMGVNPRVKSYKISGVFEIGMSEYDASMIYMPLSEAQLYFNAEGLVQSIELYVSRPDDVDGIRPLVEQAAERQIYITDWRQRNQTFFSALQVERNVMFMILTLIVLVAALNIISGLIMLVKDKGSDIAILRTMGASSGSVMRIFFMTGAAIGMVGTFAGVALGVIVCLNVESIRQFFSWISGTVLFDPQLYFLSQLPAEMDISETISVVIMALTLSFLATIFPAWRASKLDPVQALRYE	PGPT0024510_310	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_TRANSPORT,PGPT0024510-lolC_E-K09808	NA	NA
BMS010_05042	1323	proS_2	COG0442	Proline--tRNA ligase	ATGCGTCTCAGCCGTTATTTCATGCCCATCCTGAAGGAAAACCCCAAGGAAGCGGAGATCGTCTCCCACCGCCTCATGCTGCGCGCCGGCATGATCCGGCAGCAATCGGCTGGCATCTATTCCTGGCTACCGCTCGGCAAGCGCGTGCTGGACAAGGTCAACAGGATCATCCGCCAGGAGCAGGATCGCTCCGGCGCCATCGAGCTTCTGATGCCGACGCTGCAATCGGCCGAGCTCTGGCAGGAAAGCGGCCGTTACGATGACTACGGCAAGGAAATGCTGCGCATCAAGGATCGCCAGGACCGCCAGATGCTCTATGGCCCCACCAATGAGGAGATGATCACCGACATCTTCCGTTCTTATGTGAAGTCCTACAAGAACCTGCCGCTGAACCTCTACCATATTCAGCTCAAGTTCCGCGACGAGGTACGTCCGCGTTTCGGCACCATGCGTTCGCGTGAGTTCCTGATGAAGGATGCCTATTCCTTCGACCTGACCAAGGAAGACGCGATCCATTCGTATAACAAGATGTTCGTGGCTTACCTGCGCACCTTCGAGCGCCTTGGCCTGCGCGCCATTCCCATGCGTGCCGATACCGGCCCGATCGGTGGCAATCACAGCCATGAATTCATCATTCTGGCCGATACCGGCGAATCCGAAGTCTTCTGCCACAAGAGCTTCCTCGACCGCGCCATTCCCGCCGAAAACACTGACTTCGACGATGTCGCGGCGTTGCAAGGCGTATTCGATGAGTGGACGGCCGATTATGCCGCCACGTCCGAAATGCATGACGAAGCCGCTTACAATGCCATTCCCGATGGCGAGCGCCTTTCCGCGCGCGGCATTGAAGTCGGCCACATCTTCTATTTCGGCACCAAATATTCCGAGCCGATGGGCGCGAAAGTGCAGGGTAAGGATGGCAAGGAACACCCTGTCCACATGGGTTCCTATGGTATCGGGCCGACACGCCTTGTTCCCGCCATCATTGAAGCATCGCATGATGAGAACGGAATCATCTGGCCGGCCTCGGTCGCTCCCTTCGATGTCGTGATCATCAACATGAAGGCTGGCGATGCTGCCTGTGATGCGGCTTGTGAAAAGCTGTATTACTCGCTCTCCAACGCCGGCAAGGATGTTCTTTACGACGACACGGACGACCGTGCAGGCCAGAAATTCGCCACCGCCGATCTGATTGGCGTGCCGCTGCAGATCATTGTCGGCCCGCGTTCGGTCGCGAATGGCGAAGTCGAAGTGAAGGATCGCAAGACCGGTGAGCGGGAGACCGTGACGATCGAGGCGGCGATGAACAGAGTACTCGGCTGA	MRLSRYFMPILKENPKEAEIVSHRLMLRAGMIRQQSAGIYSWLPLGKRVLDKVNRIIRQEQDRSGAIELLMPTLQSAELWQESGRYDDYGKEMLRIKDRQDRQMLYGPTNEEMITDIFRSYVKSYKNLPLNLYHIQLKFRDEVRPRFGTMRSREFLMKDAYSFDLTKEDAIHSYNKMFVAYLRTFERLGLRAIPMRADTGPIGGNHSHEFIILADTGESEVFCHKSFLDRAIPAENTDFDDVAALQGVFDEWTADYAATSEMHDEAAYNAIPDGERLSARGIEVGHIFYFGTKYSEPMGAKVQGKDGKEHPVHMGSYGIGPTRLVPAIIEASHDENGIIWPASVAPFDVVIINMKAGDAACDAACEKLYYSLSNAGKDVLYDDTDDRAGQKFATADLIGVPLQIIVGPRSVANGEVEVKDRKTGERETVTIEAAMNRVLG				NA	NA	NA	NA	NA
BMS010_05044	270			hypothetical protein	ATGCCGCTTCTTTCGGCCTTCGCCGTTTATTTCATCGTCTGGTGGACGGTGCTTTTCATCGTGCTGCCGATTGGCCTGCGCACTCAGGATGAGGAGGGCGATGTGGCGCTGGGCACGGTCGCCAGTGCGCCATCAAGGTTCAGGGGCGGGCGGATCGTTTTGTGGACGACCCTGATCTCGGCCCTGATCTGTGGGCTGTGGTACGGCGGAACCTGGTGGTTCGGCGTCAGCCTCGATGACCTGCCGAGAATTATTCCCGTTTTCGATTGA	MPLLSAFAVYFIVWWTVLFIVLPIGLRTQDEEGDVALGTVASAPSRFRGGRIVLWTTLISALICGLWYGGTWWFGVSLDDLPRIIPVFD				NA	NA	NA	NA	NA
BMS010_05045	1668	rnj	COG0595	Ribonuclease J	ATGGCTAAACAGGACGAACTGGTCTTTGTGCCGCTTGGCGGCGTGGGTGAAATCGGCATGAATCTGGCGCTTTACGGCTACGGGCCGGAAAGCAAGCGCCAATGGATCATGGTGGATTGCGGCGTGACCTTCGCCGGCCCGGACCTGCCGGGCGTCGATCTGGTGCTGCCCGACATCAGCTATATCGCCGAGCAGAAAAAGAACCTCAAGGGCATCATCATCACCCACGCCCATGAGGATCATTACGGCGCGCTGAACGATCTGTGGCCCGGCCTCAATGTGCCGGTCTATGCCTCGCCTTTCACCGCCGGCATGCTGGAAGCCAAGCGCGCCTATGAGGGCACGCGTGCCGAAATTCCGGTGACGATCTTCAAGGCGGGCGACCGCATCAATGTCGGCCCGTTCGAAATCGAGGCTGTCGGCGTCAACCACTCCATTCCGGAGCCGATGTCGCTGGTCATTCGCACGCCGCTCGGCAATGTCATCCACACCGGCGATTGGAAAATCGACGAAGCCCCGTCGCTCGGTCCGTTGACGGATGAGGCCCGTTTCCGCGCCATCGGCGAAGAGGGCGTGCTGGCGCTGATGTGCGACAGCACCAATTCGGTGCGCGATGGCGTATCGCCCTCCGAACACGAGGTTTCCGAAGGCCTGCGGCAGATCATTGAAAGTGCCGAGGGTCGTGTGGCCGTCACCACCTTCTCCTCCAACGTCGGTCGCATCCGCTCGATTGCGCAGGCCGCGGAAGCAGCCGGCCGCGAGGTGCTGCTGCTCGGCTCGTCGCTGAAGCGCGTCGTCAACGTCTCGCAGGATCTCGGCATCATGGAAGGCATCAAGCCGTTCCTCGCCGAAGACGAATATGGCTATATTCCGCGCGACCGGGTGGTGCTAATCCTGACCGGTTCGCAGGGCGAGCCGCGCGCCGCACTCGCCAAGCTTTCGCGTGACGAGATGCGCAATGTGGCGCTGGCTTCCGGCGATACGGTGGTGTTCTCATCGCGCGCCATCCCCGGCAACGAGAAGGCGATCATCGACATCAAGAACGGCCTCATCGAGCAGGGCGTCCATATCGTCACCGACAATGAGGCGCTGGTGCATGTCTCGGGCCATCCGCGACGCAACGAACTTCTGAAGATGTATGAATGGACGAAGCCGCAGATCGTTGTGCCCGTCCATGGCGAGGCGGCGCATCTGGTGGCGCAGAAGGAACTGGCCGAACAGGCCGGCATTTCGCAGGTGCCGAAGGTGCGCAACGGCAATGTTCTGCGCCTCGCACCCGGCCCGGCGGAAGTCATCGACGACGTGCCGCATGGCCGCGTCTTCAAGGATGGCAATCTCGTCGGCGATATGGACGAGATGGGCATCAGCAACCGGCGCAAGCTGTCCTTCGCCGGCCATGTGGCCGTCAATGTCGTGCTGGATAGCCGTTATGATTTCCTCGGCGATCCCGATGTCGTGCCCTTCGGCCTGCCGGAATTCGACGACGAGGATGAGGCGATGGAAGACACGCTCTATGACGCCGTTCTCGGCGCCGTAGAAAGCATTCCGCGTGCCCGCCGCAAGGATCTGGATCTGCTGCGCGAAGCGGTGCGCCGCGCCGTGCGCGCCGCCGCCAACCAGAGCTGGGGCAAGAAGCCGATCGTGACGGTTTTTGTAACCAAGGTCTGA	MAKQDELVFVPLGGVGEIGMNLALYGYGPESKRQWIMVDCGVTFAGPDLPGVDLVLPDISYIAEQKKNLKGIIITHAHEDHYGALNDLWPGLNVPVYASPFTAGMLEAKRAYEGTRAEIPVTIFKAGDRINVGPFEIEAVGVNHSIPEPMSLVIRTPLGNVIHTGDWKIDEAPSLGPLTDEARFRAIGEEGVLALMCDSTNSVRDGVSPSEHEVSEGLRQIIESAEGRVAVTTFSSNVGRIRSIAQAAEAAGREVLLLGSSLKRVVNVSQDLGIMEGIKPFLAEDEYGYIPRDRVVLILTGSQGEPRAALAKLSRDEMRNVALASGDTVVFSSRAIPGNEKAIIDIKNGLIEQGVHIVTDNEALVHVSGHPRRNELLKMYEWTKPQIVVPVHGEAAHLVAQKELAEQAGISQVPKVRNGNVLRLAPGPAEVIDDVPHGRVFKDGNLVGDMDEMGISNRRKLSFAGHVAVNVVLDSRYDFLGDPDVVPFGLPEFDDEDEAMEDTLYDAVLGAVESIPRARRKDLDLLREAVRRAVRAAANQSWGKKPIVTVFVTKV				NA	NA	NA	NA	NA
BMS010_05046	741	birA_2	COG0340	Bifunctional ligase/repressor BirA	ATGTCCATCGATGACTTCCGGCGCGAGGCGATGGCGGAAACGCCATCGACCAATCTTGAATGTTTCGCCCAGGCAAGGGCGGGCGATGGCGGCAATCTGTGGATCACCGCCATACGCCAGACCAGCGGACGCGGCCGTCGCGGCCGTCCATGGGTCTCCGAACCCGGCAATCTCTACGCCTCGCTTCTTCTGATCGATCCCGCTCCGATGGATCGCATAGGGTCTCTGCCGCTTGCCTTCGCGCTGGCTGTTTATCGCGCCATCCGCGCGGTGCTGCCGACGGGCGGTGAGCCGCTGGAAATCAAATGGCCGAACGACGTGCTGATCGGACGCCGCAAGACCTGCGGCATTCTGATGGAGGCGGAGCTGCTGCCGGATGGCCGACGCGCCATCGTCATCGGCATCGGCATCAATATCGCCCATAAACCGGAAAATCCGCTTTACCCCGTCACCATGCTTTCCGAACATGGTGCGTCCTGCTCGCCCGACGAATTGTTCGCCCATCTTTTCCGTGAGACGGCGGAGGTGCTGGGGGCTTGGGACGAGGGCAGGGGCGTTGCCGGCATCATGGCTGGCTGGCGTGCCGCCGCCTGCGGCATCGGCGAACATATCACCGTCAACTTTCCGGACCGTTCGATTGGCGGGCGTTTCGTCGGGATTGATGATAATGGTTATCTGCTGCTGGATGAGGATGAGGGCGCAAGGCGCTCGATTGCCGCCGGCGACGTGTTTTTCGGATGA	MSIDDFRREAMAETPSTNLECFAQARAGDGGNLWITAIRQTSGRGRRGRPWVSEPGNLYASLLLIDPAPMDRIGSLPLAFALAVYRAIRAVLPTGGEPLEIKWPNDVLIGRRKTCGILMEAELLPDGRRAIVIGIGINIAHKPENPLYPVTMLSEHGASCSPDELFAHLFRETAEVLGAWDEGRGVAGIMAGWRAAACGIGEHITVNFPDRSIGGRFVGIDDNGYLLLDEDEGARRSIAAGDVFFG	PGPT0022055_4409	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022055-birA|bpr-K03524	NA	NA
BMS010_05047	1443	nuoN_1	COG1007	NADH-quinone oxidoreductase subunit N	ATGACCGCTGAAATCCTTTTTGCCAGTCTGCACATTGCGACGCCCGAGCTGATCCTTGCGGTCGGCGCGCTGGCGCTGCTCATGATTGGCGTCTTCTCGGGCGACAAGTCGACAACGACGGTCACCGGCCTTGCCGTTGCCCTCCTGCTCGTCGTCGGTCTCTGGATCATCTTTGCCCCCGCTTCGGGCGTGGCCTTCGGCGGTGTCTACATCGCCGATGCCTTCGGCAACTTCATGAAGGTGCTGGCGCTGATCGGCTCCATCACCGCCATGATCCTCGCCGTCGGTCAGGGCCGTTTCGAACCCATCGGCCGTTTCGAATATCCGGTACTGCTGGTTCTTGCGACGCTGGGCATCCTGCTGATGATCTCGGCCAACAACCTGATCTCGCTCTACATGGCGCTGGAATTGCAGTCGCTGGCGCTCTACGTCGTCTGCGCCATCAATCGTGAAAGCCTGCGCTCCACGGAAGCGGGCCTGAAGTATTTCGTGCTCGGCGCGCTGTCTTCCGGCATGCTGCTTTACGGCATGTCGCTGGTCTACGGCTTCACCGGCAATACCGGCTTCACCGAAATCGCCCAGGTTCTGGCCTCGGAAACCCGTTCGCTCGGTCTGGTCTTCGGCCTGGTCTTCGTTCTCGCCGGTCTCGCCTTCAAGATTTCCGCCGTGCCGTTCCACATGTGGACGCCGGACGTTTATGAAGGTGCGCCGACCCCGGTAACGGCGTTCCTGTCGGCTGCGCCGAAGATCGGCGCCATGGCGATCCTCGTTCGCATCGTCATCGAGGCGTTCCAGCCGGTCTTCGCCGACTGGCAGCAGATCGTCGTGTTCATCTCCATCGCCTCCATGCTGCTCGGCTCCTTTGCCGCAATCGGCCAGAAGAACATCAAGCGCCTGATGGCTTATTCCTCCATCGGTCACATGGGTTATGCGCTGGTCGGTCTCGCTGCGGGCACCGAAGCCGGTGTTGCCGGCGTCATCCTCTACATGACCGTTTATATGGTCATGACGCTCGGCACCTTCGCCTGCATTCTCTCCATGCGCCGCAAGGAAATCGGCAATGTCGAGACTGTCGAGGATCTGGCCGGTCTTTCGTCCTCCAACCCCTTCATGGCGGTTGTACTGACGATCCTCATGTTCTCGCTTGCCGGCATCCCGCCGCTCGCCGGCTTCTTCGGCAAGTATTACGTCTTCCTCGCAGCCATCGAGGCGAAGCTCTATCCGCTCGCCATCATTGGTGTGATCGGCTCGGTTGTCGGCGCCTATTATTATATCCGCGTCGTCAAGGTCATGTGGTTCGATGAAGCCAAGGACAAATTCGAGCGTCCCGCAGGTGAACTCAAGGTCGTTTATGCGCTTTCCGGCCTCTTCGTTGTCGCCTTCATCGTCTTCGGCGGTGCACTCGGCAACGCGGTGACAGTTGCGGCGAAGACCTTCTTTTGA	MTAEILFASLHIATPELILAVGALALLMIGVFSGDKSTTTVTGLAVALLLVVGLWIIFAPASGVAFGGVYIADAFGNFMKVLALIGSITAMILAVGQGRFEPIGRFEYPVLLVLATLGILLMISANNLISLYMALELQSLALYVVCAINRESLRSTEAGLKYFVLGALSSGMLLYGMSLVYGFTGNTGFTEIAQVLASETRSLGLVFGLVFVLAGLAFKISAVPFHMWTPDVYEGAPTPVTAFLSAAPKIGAMAILVRIVIEAFQPVFADWQQIVVFISIASMLLGSFAAIGQKNIKRLMAYSSIGHMGYALVGLAAGTEAGVAGVILYMTVYMVMTLGTFACILSMRRKEIGNVETVEDLAGLSSSNPFMAVVLTILMFSLAGIPPLAGFFGKYYVFLAAIEAKLYPLAIIGVIGSVVGAYYYIRVVKVMWFDEAKDKFERPAGELKVVYALSGLFVVAFIVFGGALGNAVTVAAKTFF	PGPT0026860_2636	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026860-nuoN-K00343	NA	NA
BMS010_05048	1512	nuoM_1	COG1008	NADH-quinone oxidoreductase subunit M	ATGACCGATTGGCCCATTCTTTCAACGGTCACCTTTTTGCCGCTCGTCGGCGTGGTGCTCCTGCTCCTGACGAATGAGAACGGCCCCTATGGTCGCCGCAACATTCTTAATGTCTCGCTGCTGACGACGGTCTTCACCTTCATCGTTTCGCTGTTCATCTGGATCGGTTTCGACAATTCGAACCCCGGTTTCCAGATGGTCGAGAAGCATCAGTGGTTCGGCAACATCGCCGCCTATCATCTGGGTGTCGACGGCATCTCCATGCTCTTCGTCATCCTCACCACTTTCCTCATGCCTTTCTGCGTGCTGGCAAGCTGGGATTCGATCGAGAAGCGCATCAAGGAATACATGATCGCCTTCCTGCTCTTGGAAGTCGTCATGATCGGCGTTTTCGTGGCGCTGGATACGGTTCTCTTCTACGTCTTCTTCGAAGCGACGCTGATCCCGATGTTCATCATCATCGGTGTGTGGGGCGGCAAGGATCGCGTTTACGCGTCCTACAAGTTCTTCCTCTACACGCTGCTCGGCTCGGTTCTGACCATGCTCGCCATCATGGCCATGTACTGGCAGGCCGGCACCACCGACATGACGGAACTTCTGAAATACGGCTTCCCGGCCGGCATGCAGACCTGGCTGTGGCTTGCCTGTTTCGCCGCCTTCTCGGTCAAGATGCCGATGTGGCCGGTGCACACCTGGCTGCCGGATGCCCACGTTCAGGCGCCGACCGCCGGTTCCGTCATCCTTGCCGGCGTCATGCTGAAGCTCGGCGGTTACGGTTTCATCCGCTTCTCGCTGTCGATGTTCCCGCTGGCCTCTGATTATTTCGCCCCCTTCGTCTTCACGCTATCGGTTCTCGCCATCATCTACACCTCGCTGGTGGCGATGATGCAGGACGACATCAAGAAGCTGATCGCCTATTCCTCCGTCGCCCACATGGGTTACGTGACCATGGGCATCTTCGCCGCCAACGTTCAGGGCGTGCAGGGTGCGATCTTCCAGATGCTGTCGCACGGTATCGTCTCGGGCGCGCTCTTCCTCTGCGTCGGCGTTGTCTATGACCGTCTCCACACCCGCGAGATCGCGGCCTATGGCGGCCTCGTCAACAACATGCCGAAATATGCCGTCGCCTTCATGATCTTCACCATGGCCAATGTCGGTCTGCCCGGCACCTCCGGCTTTGTCGGTGAATTCCTGACGCTGATCGGCGTCTTCCGCGCCAACACGCTGGTCGCGCTGTTTGCGGCAACCGGCGTCATCCTCTCGGCCGCTTATGCGCTGTGGCTTTACCGCCGCGTGATCTTCGGTGCGCTGGAGAAGGAAAGCCTGAAGTCGATGCTCGATCTGTCGACCCGCGAAAAGGTCATCCTTTATCCGCTGGTTGTGCTGACGATCTTCTTCGGCGTCTATCCGGCGCCGGTGTTCGATGCGACAGCCGCATCGGTCGATCTTCTGGTAAACAACTATTCGGCTGCATTGCAGGCGGCGCAAAATGTTGCGCTCTCTATGAATTGA	MTDWPILSTVTFLPLVGVVLLLLTNENGPYGRRNILNVSLLTTVFTFIVSLFIWIGFDNSNPGFQMVEKHQWFGNIAAYHLGVDGISMLFVILTTFLMPFCVLASWDSIEKRIKEYMIAFLLLEVVMIGVFVALDTVLFYVFFEATLIPMFIIIGVWGGKDRVYASYKFFLYTLLGSVLTMLAIMAMYWQAGTTDMTELLKYGFPAGMQTWLWLACFAAFSVKMPMWPVHTWLPDAHVQAPTAGSVILAGVMLKLGGYGFIRFSLSMFPLASDYFAPFVFTLSVLAIIYTSLVAMMQDDIKKLIAYSSVAHMGYVTMGIFAANVQGVQGAIFQMLSHGIVSGALFLCVGVVYDRLHTREIAAYGGLVNNMPKYAVAFMIFTMANVGLPGTSGFVGEFLTLIGVFRANTLVALFAATGVILSAAYALWLYRRVIFGALEKESLKSMLDLSTREKVILYPLVVLTIFFGVYPAPVFDATAASVDLLVNNYSAALQAAQNVALSMN	PGPT0026850_2320	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026850-nuoM-K00342	NA	NA
BMS010_05049	1998	nuoL_1	COG1009	NADH-quinone oxidoreductase subunit L	ATGATCTACAAGGCTATCGTCTTTCTTCCACTGATCGGCTTCCTGATCGCCGGCCTGTTCGGCCGCTCCATCGGCGCCAAAGCTTCCGAATATGTCACCACCGGTCTGATGATCGTGGTCGCCATCCTGTCCTGGATCGTCTTCTTCACCGTAGCACTCGCCCATGGCGAGCCGGGCGAGGTGATCAAGGTCACCGTGCTTCGCTGGATCCAGTCCGGCGGCATCGATGTCGAATGGGCGTTCCGCATCGATACGCTGACGGCCGTCATGTTCGTCGTGGTCAACACCGTCTCGACGCTGGTGCATCTCTATTCGATCGGATACATGCACCACGATCCGCATCGTCCGCGTTTCTTCGCCTATCTGTCGCTCTTCACCTTCGCCATGTTGATGCTGGTGACCTCGGACAACCTGCTGCAGATGTTCTTCGGCTGGGAAGGCGTGGGTCTGGCGTCCTATCTGCTGATCGGCTTCTGGTTCAAGAAGCCGTCCGCTTCGGCCGCCGCTATGAAGGCCTTCATCGTCAACCGCGTCGGTGACTTCGGCTTCATTCTCGGCATCGGCGGCGTGTTCGTGCTGTTCGGTTCGATCAATTTCGAAACGATCTTCGCTGCCGCTGCGACCTATCTGCCGGCTGAAGGCGCTGCTTCCACGGATACGGTTATCAATCTGTTCGGCATGCATCTGGACAAGGCCAATGCGATGACGGGCGTGTGCCTGCTGCTCTTCATGGGCGCGATGGGTAAATCGGCGCAGTTCCTGCTGCACACCTGGCTGCCGGACGCGATGGAAGGCCCGACCCCGGTGTCTGCCCTCATTCACGCCGCAACCATGGTCACCGCCGGCGTCTTCCTTGTCGCCCGCATGTCGCCGCTGTTCGAACTGTCGCATGATGCGCTGACCGTCGTGACGCTGATCGGCGCGATCACCGCCTTCTTCGCAGCAACCGTCGGCCTCGTGCAGAACGACATCAAGCGCGTGATTGCCTATTCGACCTGCTCGCAGCTCGGTTACATGTTCGTGGCGCTCGGCGTCGGCGCTTATGGCGCGGCGGTATTCCACCTCTTCACGCACGCCTTCTTCAAGGCCCTGCTGTTCTTGTGCGCCGGCTCGGTCATCCATGCCGTCGATGGTGAGCAGGACATGCGTTACATGGGTGGCCTGCGCAAGCATATCCCCATCACCTTCTGGACCATGACCGTCGGCACGCTGGCGCTGACCGGCGTTGGTATTCCGGGTACGATGATCGGTTTTGCCGGCTTCTTCTCGAAGGACGTCATCATCGAATCCGCTTACGCGTCCCATTCGGTTCTCTCCGGCGTCGCCTTCACGCTGCTGGTCATCGCGGCCCTGTTCACCAGCTTCTACTCCTGGCGTCTGGCCTTCATGACCTTCTTCGGCAAGCCGCGCGCTTCGGCCGACGTCATGCACCATGTGCATGAATCGCCGATGGTCATGCTGATCCCGCTCTTCATCCTCACTGTCGGTGCGATCTTCGCCGGTGTGGCCTTCGAAGGTTATTTCTTCGGCCATGAATATGCCGAGTTCTGGAAGGGCGCTTTGTTCACGCTTCCGGAAAACGAGATCCTCGAAGAGTTCCACCACGTTCCGCTGTGGGTGAAGTGGAGCCCGTTCTTCGCCATGGCCCTTGGTTTCGTGACCGCCTGGTACATGTACATCAAGTCGCCGGAGACCCCGAAGCGTCTGGCCGAGACCCATCGCGGCCTCTACCAGTTCCTTCTCAACAAGTGGTATTTCGACGAACTCTACGACTTCCTCTTCGTTCGTTCCGCAAAGGCGCTCGGCCGCTTCCTGTGGAAGAAGGGCGACGTCGCCGTCATCGACCACTATGGACCGAACGGCATTGCAGCGCGTGTGGTTGACGTGACCAACCGCATGGTCCGCCTGCAATCCGGTTATCTTTATCATTATGCCTTTGCGATGCTGATCGGCATCGCGGCGCTTGTCACCTGGATGATGCTCGGGAGTGCCCTCTGA	MIYKAIVFLPLIGFLIAGLFGRSIGAKASEYVTTGLMIVVAILSWIVFFTVALAHGEPGEVIKVTVLRWIQSGGIDVEWAFRIDTLTAVMFVVVNTVSTLVHLYSIGYMHHDPHRPRFFAYLSLFTFAMLMLVTSDNLLQMFFGWEGVGLASYLLIGFWFKKPSASAAAMKAFIVNRVGDFGFILGIGGVFVLFGSINFETIFAAAATYLPAEGAASTDTVINLFGMHLDKANAMTGVCLLLFMGAMGKSAQFLLHTWLPDAMEGPTPVSALIHAATMVTAGVFLVARMSPLFELSHDALTVVTLIGAITAFFAATVGLVQNDIKRVIAYSTCSQLGYMFVALGVGAYGAAVFHLFTHAFFKALLFLCAGSVIHAVDGEQDMRYMGGLRKHIPITFWTMTVGTLALTGVGIPGTMIGFAGFFSKDVIIESAYASHSVLSGVAFTLLVIAALFTSFYSWRLAFMTFFGKPRASADVMHHVHESPMVMLIPLFILTVGAIFAGVAFEGYFFGHEYAEFWKGALFTLPENEILEEFHHVPLWVKWSPFFAMALGFVTAWYMYIKSPETPKRLAETHRGLYQFLLNKWYFDELYDFLFVRSAKALGRFLWKKGDVAVIDHYGPNGIAARVVDVTNRMVRLQSGYLYHYAFAMLIGIAALVTWMMLGSAL	PGPT0026845_1275	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026845-nuoL-K00341	NA	NA
BMS010_05050	309	nuoK_1	COG0713	NADH-quinone oxidoreductase subunit K	ATGGAAATCGGTCTTTCCCACTACCTGACGGTCAGCGCGATCCTCTTCACGATCGGTGTCTTCGGCATCTTCCTTAACCGGAAGAACGTCATCGTCATCCTCATGTCGATCGAACTCATCCTGCTTGCGGTCAACATCAACATGGTGGCCTTCTCGGCCTTCCTGAACGATATCGTCGGCCAGGTCTTCGCTTTGTTCATTCTGACCGTTGCAGCCGCCGAAGCGGCCATCGGTCTTGCAATACTCGTTGTCTTCTACCGCAACCGCGGATCGATCGCCGTCGAAGACGTCAATATGATGAAGGGCTGA	MEIGLSHYLTVSAILFTIGVFGIFLNRKNVIVILMSIELILLAVNINMVAFSAFLNDIVGQVFALFILTVAAAEAAIGLAILVVFYRNRGSIAVEDVNMMKG	PGPT0026840_972	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026840-nuoK-K00340	NA	NA
BMS010_05051	615	nuoJ_1	COG0839	NADH-quinone oxidoreductase subunit J	ATGGGTCTGCACGCTGTATTCTTTTATATATTCGCTTTCGTCGCCGTGGCGTCTGCGTTCATGGTCATCGCATCGAAGAACCCAGTTCATTCGGTGCTCTTCCTGATTTTGACCTTCTTCAACGCAGCCGCGCTGTTCCTGCTGACGGGCGCCGAATTCCTCGGCATGATCCTGCTGGTGGTTTATGTCGGCGCCGTGGCGGTGCTCTTCCTCTTCGTCGTCATGATGCTGGATGTGGATTTTGCAGAGCTTCGTTCGGGCGTGCTGCAATATGCCCCGGTCGGTGCGCTGATCGGTGTCATCCTGGCGGCGGAACTGATCGTCGTGGTCGGCGGCAGCATGCTGAACCCGATTGCGGCCAAGTCCATCACCATGCCGATCCCGCCTGTCACCGAACGTACCAATACGGCCGCACTCGGCGATGTGCTCTATACCAATTACGTCTACTTCTTCCAGCTCGCCGGCCTCGTGCTGCTGGTGGCCATGATCGGCGCCATCGTGCTGACGCTGCGTCATCGCACCGACATCAAGCGGCAGGATATCTCCACGCAGGTCGGCCGCGACCCGAAGACCGCCGTCACCACGGTCAAGGTCAAGCCGGGCCAGGGCATCTGA	MGLHAVFFYIFAFVAVASAFMVIASKNPVHSVLFLILTFFNAAALFLLTGAEFLGMILLVVYVGAVAVLFLFVVMMLDVDFAELRSGVLQYAPVGALIGVILAAELIVVVGGSMLNPIAAKSITMPIPPVTERTNTAALGDVLYTNYVYFFQLAGLVLLVAMIGAIVLTLRHRTDIKRQDISTQVGRDPKTAVTTVKVKPGQGI	PGPT0026835_1401	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026835-nuoJ-K00339	NA	NA
BMS010_05052	492	nuoI_1	COG1143	NADH-quinone oxidoreductase subunit I	ATGGCAAGCCTCTCCCAAGCCGTCAATTCGCTGTTCCTGAAGGAGTTCGTCGGCGCGATCCTGCTCACGATGCGCCACTTCTTCAAACAGAAGGCAACGGTGAACTATCCTTTCGAAAAGGGCCCGGTCTCTCCGCGCTTCCGTGGTGAACATGCGCTGCGCCGTTATCCGAACGGTGAAGAGCGCTGCATCGCCTGCAAGCTGTGTGAAGCGATCTGTCCCGCTCAGGCGATCACCATCGAAGCCGGCCCGCGCCGCAATGACGGCACCCGCCGCACGGTGCGTTACGATATCGACATGGTGAAGTGCATCTATTGCGGTTTCTGCCAGGAAGCCTGCCCGGTGGATGCCATCGTCGAAGGCCCGAACTTCGAATTCGCGACGGAAACCCGCGAGGAGCTTTATTTCGACAAGCAGAAGCTTCTCGACAATGGCGACCGCTGGGAGCGTGAAATCGCACGCAACCTCGCACTGGATGCGCCTTACCGTTAA	MASLSQAVNSLFLKEFVGAILLTMRHFFKQKATVNYPFEKGPVSPRFRGEHALRRYPNGEERCIACKLCEAICPAQAITIEAGPRRNDGTRRTVRYDIDMVKCIYCGFCQEACPVDAIVEGPNFEFATETREELYFDKQKLLDNGDRWEREIARNLALDAPYR	PGPT0026830_2009	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026830-nuoI-K00338	NA	NA
BMS010_05053	1047	nuoH_1	COG1005	NADH-quinone oxidoreductase subunit H	ATGGAACAGTTTTTCTGGAGCTACGTCTGGCCCGCGCTGATCATGGTCGGCCAGTCCCTGCTGCTTCTCGTTTGCCTTCTGGTGTCCATCGCGTTCCTGCTGCTTGCCGACCGCAAGGTCTGGGCGGCGGTACAGCTGCGCCGTGGTCCGAACGTCGTTGGTCCCTTCGGTCTCTTCCAGTCCTTCGCCGACCTTCTGAAGTTCATTCTGAAGGAGCCTGTCATTCCGGCCGGCGCCAACAAGGCCGTTTTCCTTCTGGCGCCGCTGGTAGCGGTGACGCTGGCGCTCGCCACCTATGCCGTCATTCCCTTCAACGAAGGCTGGGTTGTCGCCAATATCAATGTCGGCATTCTCTATATCTTCGCGATTTCTTCGCTTGAAGTATACGGCATCATCATGGGCGGCTGGGCTTCGAACTCGAAGTACCCGTTCCTCGGCGCGCTGCGTTCGGCCGCGCAGATGGTGTCCTACGAAGTGTCGATCGGCCTCGTCATCGTCACCGTTCTGCTCTGCGTCGGTTCGCTGAACCTGACGGACATCGTGCTTGCCCAGAAGACCGGCCTCGGCACCATGCTCGGCCTGCCGGCCTCGTTCCTCGACTGGCACTGGCTGTCGCTCTTCCCGATGTTCATCGTGTTCTTCATTTCGGGCCTTGCCGAAACCAACCGTCCGCCCTTCGATCTTCCGGAAGCGGAATCGGAACTGGTCGCCGGTCACATGGTCGAATATGGCTCCACGCCTTACATGATGTTCATGCTCGGCGAATATGCTGCGATCGTGCTGATTTGCTGCCTGACGACGATCCTGTTCATGGGCGGCTGGCTGCCGATCGTGGATGTGTGGTTCCTGAACTGGGTTCCGGGCATTGTCTGGTTCGCATTGAAGGGCTGCATGGTCTTCTTCATGATCGCGCTGACCAAGGCTTTCGTTCCGCGTTACCGTTATGACCAGCTCATGCGTCTCGGCTGGAAGGTGTTCCTGCCGCTGTCGCTCGCCATGGTCGTTATTGTTGCATTCGTATTGAAGCTGACGGGGTGGGCCGGTTGA	MEQFFWSYVWPALIMVGQSLLLLVCLLVSIAFLLLADRKVWAAVQLRRGPNVVGPFGLFQSFADLLKFILKEPVIPAGANKAVFLLAPLVAVTLALATYAVIPFNEGWVVANINVGILYIFAISSLEVYGIIMGGWASNSKYPFLGALRSAAQMVSYEVSIGLVIVTVLLCVGSLNLTDIVLAQKTGLGTMLGLPASFLDWHWLSLFPMFIVFFISGLAETNRPPFDLPEAESELVAGHMVEYGSTPYMMFMLGEYAAIVLICCLTTILFMGGWLPIVDVWFLNWVPGIVWFALKGCMVFFMIALTKAFVPRYRYDQLMRLGWKVFLPLSLAMVVIVAFVLKLTGWAG	PGPT0026825_1742	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026825-nuoH-K00337	NA	NA
BMS010_05054	2082	nqo3	COG1034	NADH-quinone oxidoreductase chain 3	ATGGCAAAGCTCAAGGTTGACGGTAAAGAGATCGAGGTTCCGGATCATTTCACGCTGTTGCAGGCGTGCGAGGAGGCTGGCGCCGAAGTTCCGCGCTTTTGTTTTCATGAGCGCTTGTCGGTCGCGGGTAACTGCCGCATGTGTCTCATCGAGGTGAAGGGCGGACCGCCCAAGCCCGCCGCTTCCTGCGCCATGGGCGTTCGCGACGTTCGCGGCGGCCCGAACGGCGAATTGCCGGAAATCTTCACCAACACGCCAATGGTCAAGAAGGCCCGCGAAGGCGTGATGGAATTCCTGCTCATCAACCACCCGCTGGATTGCCCGATCTGCGACCAGGGCGGCGAATGTGACCTGCAGGACCAGGCCATGGCCTTCGGTATCGCCGGTTCGCGTTATGCGGAAAACAAGCGTGCGGTTGAAGACAAGTACATCGGACCGCTCGTCAAGACTGTCATGAACCGCTGCATCCACTGCACGCGCTGCGTCCGTTTCACCACGGAAGTGGCCGGCATTGCCGAACTCGGTCTCATCGGCCGCGGCGAAGATGCGGAAATCACCACCTATCTCGAGCAGGCCATGACCTCGGAGCTGCAGGGCAACGTCGTTGACCTCTGCCCGGTCGGCGCGCTCACCTCCAAGCCTTTCGCCTTCACCGCCCGCCCGTGGGAACTGAACAAGACCGAAACCATCGACGTGATGGACGCGCTCGGTTCGGCCATCCGCGTCGATACTCGCGGCCGCGAAGTCATGCGCGTCATGCCGCGCGTCAACGAGGCGATCAACGAAGAGTGGATTTCCGACAAGAGCCGCTTTATCTGGGACGGCCTGAAGACTCAGCGCCTCGACCGGCCTTACGTCCGCAAGGATGGTCGCCTTCAGCCCGCCACCTGGGGTGAAGCCTTCGGCGCGATCAAGCAGGCTGTTGCCGCAACGTCCGGCAACAAGATCGGCGCGATTGCCGGCGATTTGTCGTCCGTCGAAGAAATGTTCGCGCTGAAGTCGCTTCTCGCGTCGCTCGGCTCGGCCAATGTCGATTGCCGTCAGGATGGCGCAGCGCTTGACCCGTCGCTCGGCCGCGCCAGCTACATCTTCAATTCCACCATTGAAGGCATCGAGCAGGCCGACGCCCTGCTGATCGTCGGTTCCAACCCGCGCTACGAAGCGGCCGTGCTCAATGCCCGCATCCGCAAGCGCTGGCGTCGCGGCGGTTTCCCGATCGGCGTAATCGGCGAAGCTGGCGAACTGCGCTACAATTACGAATATCTCGGTTCCGGCGCTGAAACGCTCTCCGATCTGGCCAATGGCTCGCACAGCTTCATCGACAAGCTGAAATCCGCCAAGAACCCGCTGATCATCATCGGCCAGGGTGCTCTGGCGCGCGCCGATGGCGCAGCCGTACTGGCTGCCGCCGCCAAGCTCGCTACCTCGGTAGGTGCTGTCACCGAAGAGTGGAACGGATTCTCTGTCCTGCACACCGCCGCTTCCCGCGTCGGCGGTCTCGATATCGGCTTCGTGCCGGGCGAGGGCGGTGTTGCCGCCGCTGACATGGTCGCCTCCATGGACGTTCTCTTCCTGCTCGGCGCCGATGAACTCGACCTGTCGAACAAGGGCGCCAAGTTCACCGTTTATATCGGCAGCCATGGCGACCAGGGCGCGATGAATGCCGACGTCATCCTTCCGGGTGCGGCCTATACCGAAAAATCCGGGATCTGGGTGAACACCGAAGGTCGCGTCCAGGTTGGCAACCGCGCCGGTTTCGCACCGGGCGAAGCCCGCGAAGACTGGGCGATCCTGCGTGCGTTGTCCGATGTTCTCGGCAAGAAGCTGCCGTTCGATTCGCTGTCGGCGCTCCGCGGCCAGCTCTATGTAGCGCATCCGCATCTGGCGGAAACGGACGAGATCGTCGCCGGCAACGGCAAAGATATCGAAGCGTTGGCTGGCAAGACCGGCTCGCTCAACAAGTCGGCGTTTGCCTCGCCGGTAAAAGACTTTTATTTGACGAACCCGATTGCGCGCGCATCCGCCGTCATGGCCGAGTGCTCCGCATTGGCCCGCAACAATTTCCAGGCTGCGGCAGAGTAA	MAKLKVDGKEIEVPDHFTLLQACEEAGAEVPRFCFHERLSVAGNCRMCLIEVKGGPPKPAASCAMGVRDVRGGPNGELPEIFTNTPMVKKAREGVMEFLLINHPLDCPICDQGGECDLQDQAMAFGIAGSRYAENKRAVEDKYIGPLVKTVMNRCIHCTRCVRFTTEVAGIAELGLIGRGEDAEITTYLEQAMTSELQGNVVDLCPVGALTSKPFAFTARPWELNKTETIDVMDALGSAIRVDTRGREVMRVMPRVNEAINEEWISDKSRFIWDGLKTQRLDRPYVRKDGRLQPATWGEAFGAIKQAVAATSGNKIGAIAGDLSSVEEMFALKSLLASLGSANVDCRQDGAALDPSLGRASYIFNSTIEGIEQADALLIVGSNPRYEAAVLNARIRKRWRRGGFPIGVIGEAGELRYNYEYLGSGAETLSDLANGSHSFIDKLKSAKNPLIIIGQGALARADGAAVLAAAAKLATSVGAVTEEWNGFSVLHTAASRVGGLDIGFVPGEGGVAAADMVASMDVLFLLGADELDLSNKGAKFTVYIGSHGDQGAMNADVILPGAAYTEKSGIWVNTEGRVQVGNRAGFAPGEAREDWAILRALSDVLGKKLPFDSLSALRGQLYVAHPHLAETDEIVAGNGKDIEALAGKTGSLNKSAFASPVKDFYLTNPIARASAVMAECSALARNNFQAAAE	PGPT0026820_2147	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026820-nuoG-K00336	NA	NA
BMS010_05055	1305	nqo1	COG1894	NADH-quinone oxidoreductase chain 1	ATGTTAAAAGATCAGGATCGCATCTTTACCAATCTCTACGGCCTCAAGGACAAGTCCCTGAAGGGCGTGAGAGCGCGCGGCCATTGGGACGGCACCAAGCAGATCATCGAAAAGGGCCGTGACTGGATCATCAACGAGATGAAGGCTTCCGGCCTTCGCGGTCGCGGCGGCGCTGGCTTCCCGACGGGTCTCAAATGGTCCTTCATGCCGAAGGAAAATGACGGCCGCCCGCATTACCTCGTCGTCAACGCCGACGAATCCGAGCCCGGCACCTGCAAGGACCGCGAAATCCTGCGCAACGATCCGCATACGCTGATCGAAGGCTGCGTGATCGCCGGTTTCGCGATGGGCGCGCATACCGCCTATATCTACGTTCGCGGCGAATATATGCGTGAGCGTGAGGCGCTGCAGGCAGCCATCGACGAGTGCTACGATGCCGGCCTGCTCGGCAAGAACAACAAGAACGGCTGGGATTTCGACATCTACGTCCATCACGGCGCAGGTGCCTATATCTGCGGCGAAGAGACGGCTCTGCTCGAAAGCCTTGAAGGCAAGAAGGGCCAGCCGCGCCTGAAGCCGCCGTTCCCGGCCAATATGGGCCTCTATGGCTGCCCGACGACCGTCAACAACGTCGAATCCATCGCCGTTGCGCCGACCATCCTGCGCCGTGGCGCGGCATGGTTCTCGTCCATCGGCCGTCCCAACAATGTCGGCACCAAGCTGTTCATGGTCTCCGGCCATGTCGAGCGTCCGTGCACCTTCGAAGACGCGTTGGGCCTGTCCTTCCGCGAGCTGATCGAACACCATTGCGGTGGCATTCGCGGCGGCTGGGACAATCTGCTCGGCGTCATCCCCGGCGGCGCATCCTGCCCCATCGTTCGCGGTGAGGACATGAAGGACGCCATCATGGATTTCGACGGCATGCGTGAAGTGAAATCCTCCTTCGGCACCGGCGGCATGATCGTCATGGACAAGTCCACCGACGTCATCAAGGCGATTGCCCGCATCGCGGCCTTCTTCAAGCATGAAAGCTGCGGTCAGTGCACGCCGTGCCGTGAAGGCACGGGCTGGATGTGGCGCGTGCTGGAACGCATGGTCAAGGGCAATGCCCAGAAGCGCGAAATCGACATGCTGTTTGAAGTGACGAAGCAGATCGAAGGCCACACCATCTGTGCGCTCGGCGACGCCGCCGCATGGCCGGTACAGGCGCTGATCCGCAATTTCCGTCCGGAAATCGAAAAGCGCATCGACCAATATACCTACAGGGCCATGGATGATGGCGCTGTTCTGGAAGCCGCTGAATAA	MLKDQDRIFTNLYGLKDKSLKGVRARGHWDGTKQIIEKGRDWIINEMKASGLRGRGGAGFPTGLKWSFMPKENDGRPHYLVVNADESEPGTCKDREILRNDPHTLIEGCVIAGFAMGAHTAYIYVRGEYMREREALQAAIDECYDAGLLGKNNKNGWDFDIYVHHGAGAYICGEETALLESLEGKKGQPRLKPPFPANMGLYGCPTTVNNVESIAVAPTILRRGAAWFSSIGRPNNVGTKLFMVSGHVERPCTFEDALGLSFRELIEHHCGGIRGGWDNLLGVIPGGASCPIVRGEDMKDAIMDFDGMREVKSSFGTGGMIVMDKSTDVIKAIARIAAFFKHESCGQCTPCREGTGWMWRVLERMVKGNAQKREIDMLFEVTKQIEGHTICALGDAAAWPVQALIRNFRPEIEKRIDQYTYRAMDDGAVLEAAE	PGPT0026815_2199	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026815-nuoF-K00335	NA	NA
BMS010_05056	1098			hypothetical protein	ATGTCCGTTCGTCGACTAGCCGAAGATCAGTTCCAGCCCGTGGCGTTTGCCTTCAATGCGGAAAATACCGCATGGGCTGAAAAGACGATCAAGAAATATCCCGAGGGACGCCAGCAATCGGCGGTCATACCGCTGCTCATGCGTGCGCAGGAGCAGGACGGCTGGGTTACCCGCGCCGCCATCGAGAAAATCGCCGACATGCTGGATATGGCCTATATCCGCGTCATGGAAGTGGCGACCTTCTATACCCAGTTCCAGCTGAAGCCGGTCGGCACGCGCGCCCATGTTCAGGTTTGCGGCACCACGCCCTGCATGCTGCGCGGCTCGGAAGCGCTGATGGACGTCTGCCGCAAGAAGATCCACCACGATCCGCTGCACACCAATGAGAGCGGCACGCTGTCCTGGGAAGAAGTGGAATGTCAGGGCGCCTGCGTCAACGCGCCGATGGTCATCATCTTCAAGGACGCCTATGAGGACCTGACGCCCGAGCGTCTGGAAGAGATCATCGATACGTTCGAGGCAGGCAAGGGCGACACCGTCAAGACCGGCCCGCAGATCGACCGTCACCAGTCGGTCCCGGTCGGCGGCCTCACGACGCTGACGGAAGAGATCAAGCCGGATCGCTCCAATCTCGACAAGCCGGCCGAAGTGGCTGCGGACGCCGCACCGGTTCCGCCCTCCAACGCCGCCAAGCCGAAGACGGATGCGCCTGAAACCGATCCGAAGCTGAAGACGCCGGTGACCGCGCCGAAGGCTGCCGAAGCCAATGTGAAGACCGCCGAAAAGGAAGCTTCGGGATCTGCGAAGCCGTCGCTCGATTCCAAGGATCGTCCGGCAGGCATCGAAAAGCCCGCAACGCCCGACGACCTGAAGCTGATTTCCGGTGTAGGCCCCAAGATTGAGGGTACGCTGAACGAGCTCGGCATCTTCACCTATGCGCAGATCGCCGGCTGGAAGCAGGCCGAATGCGACTGGGTCGATGGTTATCTGAATTTCAAGGGCCGTATCGGCCGTGATGACTGGGTCAAGCAGGCCGGGGCGCTCGCCAAGGGTGGCGAAGCCGAGTATATCAAGGTCTTCGGCAAGAAGCCGCGGTAA	MSVRRLAEDQFQPVAFAFNAENTAWAEKTIKKYPEGRQQSAVIPLLMRAQEQDGWVTRAAIEKIADMLDMAYIRVMEVATFYTQFQLKPVGTRAHVQVCGTTPCMLRGSEALMDVCRKKIHHDPLHTNESGTLSWEEVECQGACVNAPMVIIFKDAYEDLTPERLEEIIDTFEAGKGDTVKTGPQIDRHQSVPVGGLTTLTEEIKPDRSNLDKPAEVAADAAPVPPSNAAKPKTDAPETDPKLKTPVTAPKAAEANVKTAEKEASGSAKPSLDSKDRPAGIEKPATPDDLKLISGVGPKIEGTLNELGIFTYAQIAGWKQAECDWVDGYLNFKGRIGRDDWVKQAGALAKGGEAEYIKVFGKKPR	PGPT0026810_178	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026810-nuoE-K00334	NA	NA
BMS010_05057	261			hypothetical protein	ATGCGTCTGCCGCTGGCCATACCGGCTTTTCTCGCTGCGATGTCTGCCTCCGCTCTCGCCCAGACGGCGACGGACGAGGGCGGCATATCGCTGTCGAGCGGCGGCTCTTCGACCATCAAGCAGCTTCTGTCGTCGGGATACGAGATCAAGGCCTCGGTTCCCAATGGCAGCAAGTTCATCGTGTTCATGCAGAAAGACAAGGCGGCTTACGCCTGCGAATTCGTCACGGTGGCGAGATCGCGTTGTGAGACGTTAAACTGA	MRLPLAIPAFLAAMSASALAQTATDEGGISLSSGGSSTIKQLLSSGYEIKASVPNGSKFIVFMQKDKAAYACEFVTVARSRCETLN				NA	NA	NA	NA	NA
BMS010_05058	1191	nuoD	COG0649	NADH-quinone oxidoreductase subunit D	ATGACTGAGCATAACGTCCGCAATTTCACGATCAACTTCGGTCCGGAACATCCGTCCGCGCACGGCGTGCTGCGTCTGGTTCTGGAACTGGATGGCGAAATCGTCGAACGCGTCGATCCGCATATCGGTCTCCTGCATCGCGGCACCGAAAAGCTGATCGAGACCAAGACCTATCTGCAGGCCGTTCCTTATTTCGACCGCCTCGACTACGTCGCGCCGATGAACCAGGAACACGCTTTTGCGCTCGCTGTCGAAAAGCTGCTCGGCCTCGAAATCCCGATGCGCGGTCAGTTGATCCGCGTCCTGTATTCGGAAATCGGCCGCATCCTGTCGCACATCATGAACGTGACGACGCAGGCCATGGACGTCGGCGCGATGACGCCGCCGGTCTGGGGCTTCGAAGAACGCGAAAAGCTGATGGTGTTCTATGAGCGCGCCTGCGGCGCCCGCATGCACTCGGCTTACGTCCGTCCGGGCGGCGTGCATCAGGACCTGCCGCCGGAACTGGTGGATGATATCGGCAAGTGGTGCGATCCGTTCCTCACCGTTCTCGACAATATCGAGGGCCTTTTGACCGACAACCGCATCTACAAGCAGCGTAACGTCGATATCGGCGTCGTCTCGCTTGAAGACGCCTTCGCCTGGGGTTTCACGGGCGTGATGGTGCGCGGCTCGGGCGCTGCCTGGGATTTGCGCCGCGCGCAGCCCTATGAGTGCTATTCCGATCTCGAATTCGACATTCCCGTCGGCAAGAACGGCGATTGCTATGATCGTTACCTGATCCGCATGCAGGAAATGCGCGAATCCGTAAAGATCATGAAGCAGTGCGTCGACCTTCTCTCCGGCAAGCATCGCATCGGCCCGGTCTCGTCGCTAGACGGCAAGGTAGTTCCGCCGAAGCGTGGCGAGATGAAGCGTTCGATGGAAGCGCTGATCCATCACTTCAAGCTTTACACCGAAGGTTATCACGTTCCCGCCGGCGAAGTTTACGCCGCCGTCGAAGCGCCGAAGGGCGAGTTCGGCGTTTATGTGGTCGCAGACGGTTCGAACAAGCCCTATCGCTGCAAGATCCGCGCGCCGGGCTACGCACACCTGCAGGCCATGGATTTCCTGTGCAAGGGCCATCAGCTTGCTGACGTTACAGCCGTGCTCGGCTCCCTCGACATCGTGTTCGGGGAGGTCGACCGCTGA	MTEHNVRNFTINFGPEHPSAHGVLRLVLELDGEIVERVDPHIGLLHRGTEKLIETKTYLQAVPYFDRLDYVAPMNQEHAFALAVEKLLGLEIPMRGQLIRVLYSEIGRILSHIMNVTTQAMDVGAMTPPVWGFEEREKLMVFYERACGARMHSAYVRPGGVHQDLPPELVDDIGKWCDPFLTVLDNIEGLLTDNRIYKQRNVDIGVVSLEDAFAWGFTGVMVRGSGAAWDLRRAQPYECYSDLEFDIPVGKNGDCYDRYLIRMQEMRESVKIMKQCVDLLSGKHRIGPVSSLDGKVVPPKRGEMKRSMEALIHHFKLYTEGYHVPAGEVYAAVEAPKGEFGVYVVADGSNKPYRCKIRAPGYAHLQAMDFLCKGHQLADVTAVLGSLDIVFGEVDR	PGPT0026805_1991	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026805-nuoD-K00333	NA	NA
BMS010_05059	429			hypothetical protein	ATGAGCCAAGCCCCCGCGACAGAGCATGGACAATGTCTTTGCGGCGCCGTCGGCCTCAATGCCGTCATCGGTGCCCGCGAATTCGGCGTTTGCCATTGCTCCATGTGCCGCCGCTGGTCCGGCGGTGCCTTTCTGGCTGTCGAATGCGCTGATATCTCCGTTGAGAACGAAGAGAACCTCGGCGTCTATTCCTCGTCGGAATGGGGTGAGCGCTGCTTCTGCAAGAACTGCGGCAGCACGCTGATGTGGCGCTCCAAGGATGGCAAGCATTTTGCCGTTTCGCTGCAGGCTTTCGATAACCCTTCCAGTTTCACGTTCGCGTCGCAGATTTTCACGGATGAGAAGCCTTCGAGCTATTCCTTCGCTGAGACCACGCAGAACATGACCGGCCCCGAATTCATCGCCATGATCACCTCGGCGGAGCACTAG	MSQAPATEHGQCLCGAVGLNAVIGAREFGVCHCSMCRRWSGGAFLAVECADISVENEENLGVYSSSEWGERCFCKNCGSTLMWRSKDGKHFAVSLQAFDNPSSFTFASQIFTDEKPSSYSFAETTQNMTGPEFIAMITSAEH				NA	NA	NA	NA	NA
BMS010_05060	603	nqo5	COG0852	NADH-quinone oxidoreductase chain 5	ATGAGCGAAGCTCTCAACGATCTTGCTGCTTACGTTAAGGAAGCGCGCGGTTCCCTCGTGGTGTCGGCTGATATCGCCTATGGCGAGCTGACGCTGAACACGACGCCTGAAAGCGTGATCGCGCTTTTGACCTTCCTGCGTGACGACGTGCAGTGCGGTTTCGTCAACATCATCGATATTTGCGGTGTCGACTGGCCGCAGCGCGAGAAGCGTTTCGATGTCGTCTATCACCTGTTGTCGCCGCGCCAGAACCTGCGCGTACGCGTCAAGCTGCAGGTGGCGGAAGACGAGGGCGTACCGTCTTCGACCTCGGTTTATATGGGTGCCGAATGGTTCGAGCGCGAAGCCTGGGACATGTATGGCATTCCGTTCGAAGGCCATAAGGATCTCCGCCGCATCCTCACGGACTACGGTTTCGAAGGCCATCCGCTGCGCAAGGATTTTCCGGTTACCGGCTTTGTGGAAGTGCGTTACGATGACGTGCTGAAACGGGTTCTTTATGAACCGGTTGAACTGAAACAGGAATTCCGCAACTTCGATTTCCTTTCCCCCTGGGAAGGGACCGAATATGTTCTCCCGGGTGACGAAAAGGCCAAGCAATGA	MSEALNDLAAYVKEARGSLVVSADIAYGELTLNTTPESVIALLTFLRDDVQCGFVNIIDICGVDWPQREKRFDVVYHLLSPRQNLRVRVKLQVAEDEGVPSSTSVYMGAEWFEREAWDMYGIPFEGHKDLRRILTDYGFEGHPLRKDFPVTGFVEVRYDDVLKRVLYEPVELKQEFRNFDFLSPWEGTEYVLPGDEKAKQ	PGPT0026790_1635	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026790-nuoC-K00332	NA	NA
BMS010_05061	585	nuoB_1	COG0377	NADH-quinone oxidoreductase subunit B	ATGGGCATGAGCCAGAACAACACCACGCTCGTTGCGCCGCAGCCGAAGGGGATCATCGATCCCTCGACCGGCAAGCCGGTTGGCAGCAACGACGCCTACTTCACGGAAATCAATGACGAGCTGGCCGACAAGGGTTTTCTCGTCACCTCGACCGACGAGCTGATCACCTGGGCCCGCACCGGCTCGCTGATGTGGATGCAGTTCGGTCTGGCCTGCTGCGCCGTCGAAGGCCTGATGCAGGCGTCCGGCCCGCGTTATGACATGGAGCGCTTCGGCGTTGCCCCGCGCGCCTCACCGCGCCAGTCGGACGTCATGATCGTCGCCGGCACGCTGACCAACAAGATGGCGCCCGCTCTGCGCAAGGTCTATGACCAGATGCCCGAGCCGCGTTACGTGATTTCCATGGGCTCCTGTGCCAATGGCGGCGGCTATTACCATTATTCCTACGCTGTCGTGCGCGGCTGCGACCGCGTCGTGCCGGTGGATATCTACGTTCCGGGCTGTCCCCCCACGGCGGAGGCGCTGCTTTACGGCGTGCTTCTGCTGCAGAAGAAGATTCGTCGTACCGGTACGATCGAGCGCTAA	MGMSQNNTTLVAPQPKGIIDPSTGKPVGSNDAYFTEINDELADKGFLVTSTDELITWARTGSLMWMQFGLACCAVEGLMQASGPRYDMERFGVAPRASPRQSDVMIVAGTLTNKMAPALRKVYDQMPEPRYVISMGSCANGGGYYHYSYAVVRGCDRVVPVDIYVPGCPPTAEALLYGVLLLQKKIRRTGTIER	PGPT0026785_862	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026785-nuoB-K00331	NA	NA
BMS010_05062	366	ndhC_1		NAD(P)H-quinone oxidoreductase subunit 3	ATGACTGAACTCCTCAGTTCCTACATTCCGATCGCAATATTCATCGGTATCGCTCTCGTCATCGGCCTGGCGCTTCTCATTGCGCCGTTCGCTGTCGCTTACAAGGCGCCGGACCCGGAAAAGCTTTCTGCTTTCGAGTGCGGTTTCAACGCCTTCGACGATGCCCGCATGAAATTCGATATCCGCTTTTACCTCGTGTCGATTCTGTTCATCATCTTCGACCTGGAAGTCGCCTTCCTGTTCCCTTGGGCGGTGTCTTTCGGCGAGATGGGCTGGTTCGGTTTCTGGTCGATGATGGTTTTCCTTCTCGTTCTCACCATCGGCTTTATCTATGAGTGGAAGAAGGGAGCGCTGGAATGGGCATGA	MTELLSSYIPIAIFIGIALVIGLALLIAPFAVAYKAPDPEKLSAFECGFNAFDDARMKFDIRFYLVSILFIIFDLEVAFLFPWAVSFGEMGWFGFWSMMVFLLVLTIGFIYEWKKGALEWA	PGPT0026780_1751	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026780-nuoA-K00330	NA	NA
BMS010_05066	126			hypothetical protein	ATGTCGATCGACGCGTTTGTAACACTCGCGCTTATTGCGCTGCCTGTTTATATTTTTTTCCGCTGGGTCCAGCAGGACTCGGAAAAACAAGATACTCCCAAAAGCAAGAATTCCATGGGGCGGTGA	MSIDAFVTLALIALPVYIFFRWVQQDSEKQDTPKSKNSMGR				NA	NA	NA	NA	NA
BMS010_05067	2199			hypothetical protein	ATGGCGTTCCGATTTTCTCAAATGGCTTTGACCGCCGCGCTGCTCACGTCCGCAGCCATCCCGGCCGCGGCCGAGCCGGTTTTCAACCGCATCGCATCTTTCCCGGTGGCGAAAAACCTTCCCGCGGACAAGGACGCCAAATCCGTCACCTCGGCTGAGATCATTACCGCCAGCGAAGACGGCAAGACACTGATCTATTCGGACAGCCCGCTTGGCGGCATCGGTTTCATCGACATCACCGACGCCAAGGCTCCCAAGGCCGGCGGCGCGCTGCTGCTCGAAGGCGAACCGACCTCCGTTGCTGTCGCAGGCGTCAAGGTTCTGGCCGGCGTCAACACGTCGGAAAACCGCGCGAAGCCCTCCGGCAAGCTGGTGACGGTCGATATTGCTACCAAGAAGATCGAAGCAAGCTGTGATCTCGGCGGCCAGCCCGATTCCGTCGCCGTTTCTCCGGACAAGACCTTCGCCGCCATCGCCATTGAAAACGAGCGCGATGAAGAGGTAAACGAAGGTGCCCTGCCGCAGATGCCAGCCGGTTATCTGGTGACTGTCGGTCTTAAAGACGGCGTTGCCGATTGCGCGACGCTGAAGAAGATCGAACTCACCGGCCTTGCCGAAATTTCCCCTGAGGATCCGGAGCCGGAATTCGTGTCGATCAACGCCAATGGCGAGATAGCGCTGACTCTTCAGGAAAACAATCATATCGTCATTCTCGACGGCAAGACCGGTACGGTGAAGACGCATTTCTCCGCCGGCAAGGTCGATCTTGAAGGCATCGATACGAAGACCGACGGCCAGCTGAAGTTCACCGACAAGCAGGAAGGCCGCAAGCGCGAGCCGGATGCCGTGAAGTGGCTGGACAATGACCGTATCGTCATCGCCAATGAGGGCGACTGGCAGGGCGGTTCGCGCGGCTTCACCATCTTCGACAAGACCGGCAAGCTCGTCTACGAATCCGGCGCCTCGCTCGAACACGCGGTTGCGGCCATCGGTCACTATCCGGAAAAGCGCTCCAAGGCCAAGGGCATCGAGCCTGAAGGTCTGGAAGCAGCGACCTTCCGCGACCAGAAGTATTTCTTCGTGCTGTCCGAACGTGCCTCTGTCGTCGCTGTCTACAAGGACACCGGCAAGGAGCCGGAACTGACGCAGCTCCTGCCTTCGGGCGTTTCGCCGGAAGGCGCTGTCGCCATCCCGTCGCGCAACCTCCTTGCCACGGCCAATGAGGTCGATCTGATCGAAGACGGCGGCGTGCGCTCGCATGTCATGCTCTATGAGCGCGGTGAAGGTGAAGCAGCCTATCCGCAGCTGGCTTCCGCCACCGTCGATGGTGCGCCGATCGGCTGGGGCGCTCTTTCGGGTCTGGTCGGCGATGCCGAAAAGCCCGGCATTCTCTATGCCGTGTCCGACTCGGTCTATGGCAACCAGCCGTCGATCTTCACCATCGATGCGACGAAAAAGCCCGCCACCATCACCAGCGTGCTGCGCGTCAAGCGTGACGGCATCGCCGCTCAAAAGCTAGACATCGAAGGCATCACGCTGGACGGCAAGGGCGGTTTCTGGCTGGCTTCTGAGGGCGACAGCGCCAAGCTCGTTCCGCACGCGCTCTATAACGTCAACGCCAAGGGCGAGATCAAGGCCGAGATCGCATTGCCGAAGGAACTTCTCGCCGGCGACACCCGCTTCGGTTTCGAAGGCGTGACCATGATCGGCAAGGGCGACGACGCGACGCTGTGGATGGCTGTGCAGCGTGAATGGGGCACGGATGAGAAGGGCTTCGTCAAGCTGGTCTCCTATAATCCGAAATCCAAGGAGTGGGGCGCCGTCCGTTACCCGCTCGACAAGACCGAGGCAGGCTGGGTCGGCCTCTCCGAAATCGCCGCGCAGGGCGACTATGTCTATATAGTCGAGCGCGACAACCAGATCGGCGACAAGGCGAAGATCAAGAAGCTCTACCGTGTTGCGATCGCGGACCTGAAGCCGGGCAAGATCGGCGGCGACCTGCCGCTGGTGGCCAAGCAGGAAGCCCATGACTTCCTGCCCGACCTCAAGGCCCAGACCAACGGTTATGTCGTCGACAAGCTGGAAGGCTTCACCTTCGACAAGGCGGGAACGGCCTATGCCGTGACCGACAATGACGGCGTGGACGATTCTTCCGGCGAAACGCTGTTCTTCACCGTCAATATGAAGGCGATCAACTGA	MAFRFSQMALTAALLTSAAIPAAAEPVFNRIASFPVAKNLPADKDAKSVTSAEIITASEDGKTLIYSDSPLGGIGFIDITDAKAPKAGGALLLEGEPTSVAVAGVKVLAGVNTSENRAKPSGKLVTVDIATKKIEASCDLGGQPDSVAVSPDKTFAAIAIENERDEEVNEGALPQMPAGYLVTVGLKDGVADCATLKKIELTGLAEISPEDPEPEFVSINANGEIALTLQENNHIVILDGKTGTVKTHFSAGKVDLEGIDTKTDGQLKFTDKQEGRKREPDAVKWLDNDRIVIANEGDWQGGSRGFTIFDKTGKLVYESGASLEHAVAAIGHYPEKRSKAKGIEPEGLEAATFRDQKYFFVLSERASVVAVYKDTGKEPELTQLLPSGVSPEGAVAIPSRNLLATANEVDLIEDGGVRSHVMLYERGEGEAAYPQLASATVDGAPIGWGALSGLVGDAEKPGILYAVSDSVYGNQPSIFTIDATKKPATITSVLRVKRDGIAAQKLDIEGITLDGKGGFWLASEGDSAKLVPHALYNVNAKGEIKAEIALPKELLAGDTRFGFEGVTMIGKGDDATLWMAVQREWGTDEKGFVKLVSYNPKSKEWGAVRYPLDKTEAGWVGLSEIAAQGDYVYIVERDNQIGDKAKIKKLYRVAIADLKPGKIGGDLPLVAKQEAHDFLPDLKAQTNGYVVDKLEGFTFDKAGTAYAVTDNDGVDDSSGETLFFTVNMKAIN	PGPT0002570_37	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0002570-phoA-K01077	NA	NA
BMS010_05068	276		COG0776	DNA-binding protein HRL18	ATGAACAAGAACGAGCTCGTCTCTGCTGTTGCCGAAAAGGCTGGTCTCACGAAGGCAGATGCTGCTTCCGCTGTTGATGCTGTATTCGAAACTGTACAGAGCGAACTGAAGAACGGTGGCGACATTCGCCTGGCCGGCTTCGGCAGCTTCTCCGTCAGCCGTCGTGAAGCCTCCAAGGGCCGTAACCCTTCCACGGGTGCTGAAGTCGATATCCCGGCTCGCAACGTACCGAAGTTTTCCGCAGGCAAGGGCCTGAAGGACGCCGTCAACTCGTAA	MNKNELVSAVAEKAGLTKADAASAVDAVFETVQSELKNGGDIRLAGFGSFSVSRREASKGRNPSTGAEVDIPARNVPKFSAGKGLKDAVNS				NA	NA	NA	NA	NA
BMS010_05069	2418	lon_2		Lon protease	ATGACGAACATCACGTCTGCGGCATCTGGCGGTACCTATCCGGTACTTCCCCTGCGCGACATTGTCGTTTTCCCGCATATGATCGTTCCCCTGTTCGTCGGGCGGGAAAAATCCATCCGTGCGCTCGAGGAAGTCATGGGGTCGGACAAGCAGATCATGCTTGTTACCCAGATCAACGCCAGCGATGACGATCCTGCCCCGGAGGCCATCCACAAGGTCGGCACGGTCGCCAATGTCCTGCAGCTTCTGAAGCTTCCCGACGGCACCGTGAAGGTGCTGGTGGAAGGCAAGGGCCGCGCCCAGATCGACAGCTACACCGGTCGTGAAGACTTCTATGAAGCCACTGCGACGCCGTTGCAGGAGCCTGCCGAAGATCCGGTCGAGATCGAGGCGCTGTCGCGTTCGGTCGTGTCTGAATTCGAGAGCTATGTGAAGCTCAACAAGAAGATTTCGCCCGAGGTTGTCGGCGCTGCCGGCCAGATCGACGATTATTCGAAGCTTGCCGATACGGTCGCTTCGCACCTGTCGATCAAGATTACCGAAAAGCAGGAAATGCTGGAAACCGTCAGCGTGAAGCAGCGGCTTGAAAAGGCGCTCGGCTTCATGGAAGGCGAAATTTCCGTGCTCCAGGTCGAAAAGCGCATCCGCTCGCGCGTCAAGCGCCAGATGGAGAAGACACAGCGCGAATATTACCTGAACGAACAGATGAAGGCGATCCAGAAGGAGCTTGGCGACGGCGAGGACGGCCGTGACGAGATGGCCGAGCTGGAAGAGCGCATCGCCAAGACCAAGCTTTCCAAGGAGGCCAAGGAAAAGGCCGAAGCGGAAATGAAGAAGCTGCGCCAGATGAGCCCGATGTCCGCGGAAGCGACCGTCGTGCGCAACTATCTGGACTGGCTGCTCGGTCTGCCATGGGGCAAGAAGTCCAAGATCAAGGCGGACCTCAACAATGCCGAGAAGATCCTGGATCAGGACCACTTCGGTCTGGACAAGGTCAAGGAGCGTATCGTCGAATATCTGGCCGTGCAGGCCCGTGCGACGAAAATCCGTGGCCCGATCCTCTGCCTCGTCGGCCCGCCCGGCGTCGGCAAGACCTCGCTCGCCAAGTCGATCGCCAAGGCGACCGGCCGCGAATATGTGCGCATGGCGCTGGGTGGCGTTCGTGACGAGGCGGAAATCCGCGGTCACCGCCGTACCTATATCGGCTCTATGCCGGGCAAGATCGTCCAGTCGATGAAGAAGGCCAAGAAGGCGAACCCGCTCTTCCTGCTCGACGAAATCGACAAGATGGGCATGGATTTCCGTGGCGATCCGTCGTCGGCTCTGCTCGAGGTGCTCGATCCGGAACAGAACTCCACCTTCATGGACCATTACCTTGAAGTGGAATACGACCTGTCCGACGTGATGTTCGTGACCACGGCCAACACGCTGAACATTCCCGGCCCGCTGATGGACCGCATGGAAGTGATCCGCATTGCCGGTTACACGGAAGACGAAAAGCGCGAAATCGCCAAGCGTCACCTGTTGCCTAAGGCGATCAAGGAACATGCCCTGCGTCCGGAAGAGTTCTCGGTTACCGATGACGCCCTGATGGTCGTCATCCAGCAGTACACCCGCGAGGCGGGCGTGCGCAGCTTCGAACGCGAGCTGATGAAGCTGGCGCGCAAGGCTGTCACCGAGATCATCAAGGGCAAGGTCAAGTCCGTTGAGGTTACCGCAGCAAACGTTCCGGATTATCTGGGCGTTCCGCGGTTCCGCCACGGCGAGGCCGAGCGCGAGGATCAGGTCGGTGTCGTCACGGGTCTGGCCTGGACGGAAGTTGGTGGTGAGCTGCTCACCATCGAAGGCGTGATGATGCCGGGCAAGGGCCGTATGACGGTGACCGGCAACCTCAAGGAAGTGATGAAGGAATCCATTTCGGCGGCGGCATCCTATGTCCGTTCGCGCGCCGTGGACTTCGGCATCGAGCCGCCCCGCTTCGACAAGAGCGACATCCACGTGCACGTTCCGGAAGGTGCGACCCCGAAGGACGGACCGTCCGCCGGCGTTGCCATGGCGACCGCCATCGTCTCCATCATGACGGGTATCCCGGTCTCGAAGGATGTGGCGATGACGGGTGAGATCACGCTTCGCGGTCGCGTGCTGCCGATCGGCGGCCTGAAGGAAAAGCTGCTTGCGGCCCTTCGCGGCGGCATCAAGAAGGTGCTGATCCCGGAAGAAAACGCCAAGGATCTGGCGGAAATTCCGGACAATGTGAAGAACGAGATGGAAATCATCCCGGTGTCGCGCATGGGCGAGGTCATCAAGCACGCCCTTATCCGCCAGCCGGAGCCCATCGAGTGGGACGGCAGCATCGAGACGCCGGTGATCGCAACCGTCGAAGGCGTCGACGACGGCAGCCAGACCATCGCGCATTGA	MTNITSAASGGTYPVLPLRDIVVFPHMIVPLFVGREKSIRALEEVMGSDKQIMLVTQINASDDDPAPEAIHKVGTVANVLQLLKLPDGTVKVLVEGKGRAQIDSYTGREDFYEATATPLQEPAEDPVEIEALSRSVVSEFESYVKLNKKISPEVVGAAGQIDDYSKLADTVASHLSIKITEKQEMLETVSVKQRLEKALGFMEGEISVLQVEKRIRSRVKRQMEKTQREYYLNEQMKAIQKELGDGEDGRDEMAELEERIAKTKLSKEAKEKAEAEMKKLRQMSPMSAEATVVRNYLDWLLGLPWGKKSKIKADLNNAEKILDQDHFGLDKVKERIVEYLAVQARATKIRGPILCLVGPPGVGKTSLAKSIAKATGREYVRMALGGVRDEAEIRGHRRTYIGSMPGKIVQSMKKAKKANPLFLLDEIDKMGMDFRGDPSSALLEVLDPEQNSTFMDHYLEVEYDLSDVMFVTTANTLNIPGPLMDRMEVIRIAGYTEDEKREIAKRHLLPKAIKEHALRPEEFSVTDDALMVVIQQYTREAGVRSFERELMKLARKAVTEIIKGKVKSVEVTAANVPDYLGVPRFRHGEAEREDQVGVVTGLAWTEVGGELLTIEGVMMPGKGRMTVTGNLKEVMKESISAAASYVRSRAVDFGIEPPRFDKSDIHVHVPEGATPKDGPSAGVAMATAIVSIMTGIPVSKDVAMTGEITLRGRVLPIGGLKEKLLAALRGGIKKVLIPEENAKDLAEIPDNVKNEMEIIPVSRMGEVIKHALIRQPEPIEWDGSIETPVIATVEGVDDGSQTIAH	PGPT0014315_2367	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014315-lon-K01338	NA	NA
BMS010_05070	1278	clpX_2		ATP-dependent Clp protease ATP-binding subunit ClpX	ATGAGCAAAGTCAGCGGCAGCAACGGCGGCGACTCTAAGAATACACTCTATTGTTCATTCTGCGGCAAGAGCCAGCACGAAGTCCGGAAACTCATTGCCGGACCGACGGTATTCATCTGCGATGAATGCGTCGAATTGTGCATGGACATCATCCGCGAGGAGAACAAGACGTCGATGGTGAAGTCGCGTGAGGGTGTTCCCACCCCGCAGGACATCATCAAGATCCTCGACGAATACGTCATCGGCCAGAAGCAGGCGAAGAAGATCCTGTCTGTTGCCGTTCACAACCACTACAAGCGCCTCGCGCACGCCTCCAAGAATGGCGATGTCGAGCTTGCGAAGTCGAACATCATGCTCGTCGGTCCGACGGGCTGCGGCAAGACCTATCTTGCCCAGACGCTCGCCCGCATCATCGACGTTCCCTTCACCATGGCGGACGCAACGACGCTGACCGAAGCCGGTTACGTCGGCGAGGACGTGGAAAACATCATCCTGAAGCTGTTGCAGGCTGCGGATTACAATGTCGAGCGCGCCCAGCGCGGTATCGTCTATATCGACGAAGTCGACAAGATTTCCCGCAAGTCGGACAACCCGTCCATCACGCGCGACGTGTCGGGCGAGGGCGTTCAGCAGGCGCTTCTGAAGATCATGGAAGGCACGGTCGCTTCCGTACCGCCTCAGGGCGGTCGCAAGCATCCGCAGCAGGAATTCCTGCAGGTGGATACGACCAACATCCTGTTCATCTGCGGCGGCGCGTTTGCCGGTCTCGACAAGATCATCTCGGCCCGTGGTGAAAAGACCTCGATCGGCTTCGGTGCGACCGTCAAGGCGGAAGATGATCGCCGCGTCGGCGAGGTTCTGCGCGAGCTGGAGCCCGAAGATCTGGTGAAGTTCGGTCTCATCCCGGAATTCATCGGCCGTCTGCCGGTTCTCGCCACGCTGGAAGACCTCGACGAGGATGCGCTGATCCAGATCCTGTCCGAGCCGAAGAACGCGCTGGTCAAGCAGTATCAGCGCCTGTTCGAGATGGAAGATGTGGAACTGACCTTCCACGAGGACGCCCTTCGCGAAATCGCCCGCAAGGCGATCACCCGCAAGACCGGTGCCCGTGGCCTGCGCTCGATCATGGAAAAAATCCTTCTGGACACCATGTTCGAACTGCCGACGCTGGAAGGCGTGCGCGAAGTGGTCATTTCCGACGAGGTCGTCAGCGGCCTTGCACGTCCGCTCTACATCTATGCGGATCGTCAGGAAGAAAAGACCAACGTTTCTGCCTGA	MSKVSGSNGGDSKNTLYCSFCGKSQHEVRKLIAGPTVFICDECVELCMDIIREENKTSMVKSREGVPTPQDIIKILDEYVIGQKQAKKILSVAVHNHYKRLAHASKNGDVELAKSNIMLVGPTGCGKTYLAQTLARIIDVPFTMADATTLTEAGYVGEDVENIILKLLQAADYNVERAQRGIVYIDEVDKISRKSDNPSITRDVSGEGVQQALLKIMEGTVASVPPQGGRKHPQQEFLQVDTTNILFICGGAFAGLDKIISARGEKTSIGFGATVKAEDDRRVGEVLRELEPEDLVKFGLIPEFIGRLPVLATLEDLDEDALIQILSEPKNALVKQYQRLFEMEDVELTFHEDALREIARKAITRKTGARGLRSIMEKILLDTMFELPTLEGVREVVISDEVVSGLARPLYIYADRQEEKTNVSA	PGPT0014600_2324	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0014600-clpX-K03544	NA	NA
BMS010_05071	633	clpP_3		ATP-dependent Clp protease proteolytic subunit	ATGAAAAATCCAGTTGATACCGCCATGGCTCTGGTGCCGATGGTCGTTGAGCAGACCAATCGCGGCGAACGCTCCTACGACATATTTTCCCGTCTTCTCAAGGAACGCATCATTTTCCTCACCGGCCCGGTGGAAGACCAGATGGCTTCGCTCGTCTGCGCGCAGCTGCTGTTCCTCGAGGCTGAAAACCCGAAGAAGGAAATCGCGCTCTACATCAATTCGCCGGGTGGTGTTGTGACCGCCGGCATGGCGATCTACGATACGATGCAGTTCATCCGCCCTGCGGTCTCCACGCTCTGCGTCGGCCAGGCTGCCTCCATGGGCTCGCTGCTTCTGGCTGCCGGTGAAAAGGGAATGCGTTTCGCAACCCCGAACGCCCGCATCATGGTGCACCAGCCTTCCGGCGGTTTCCAGGGGCAGGCATCGGACATCGAGCGCCACGCCCGCGACATCATCAAGATGAAGCGCCGCCTCAATGAAGTCTACGTGAAGCACACGGGCCGTACGCTCGAAGAGGTTGAAAAAACCCTCGATCGCGACCACTTCATGGATGCAGACGAGGCGAAGGACTGGGGCGTGATCGACAAGATCCTGACCTCGCGCCAGGAAATCGAAGGCGCCGCCGCGAATTGA	MKNPVDTAMALVPMVVEQTNRGERSYDIFSRLLKERIIFLTGPVEDQMASLVCAQLLFLEAENPKKEIALYINSPGGVVTAGMAIYDTMQFIRPAVSTLCVGQAASMGSLLLAAGEKGMRFATPNARIMVHQPSGGFQGQASDIERHARDIIKMKRRLNEVYVKHTGRTLEEVEKTLDRDHFMDADEAKDWGVIDKILTSRQEIEGAAAN	PGPT0014595_4231	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014595-clpP-K01358	NA	NA
BMS010_05072	1248			hypothetical protein	ATGCTGGATGCAAAGACGAGCACGCTACTGTGGGCGGCGGAAACGTTCACCCTTGCCGTGCTTTTGGGAACGCTGTGGCTGCACCGCCCTTCCCGCCGGCATAATCTCTTTTTCGCCGCCGGTTTCCTCGCCACGGGCTTCGGCGCTGTCATGGTGGCGTTTCGCGGGGATATTTCCAGTTTTCTGTCCATCCAGGTCGGCAATACGCTCGCACTTTCCGCCTTCGGTTTCTGGCTTGCGGGCCTGCTGTGCTTCGAACAGCGGAAAATCGGCGGCTGGGTCGCCATTCCGGCTCTCCTGTGGATCGCCGGAATGTTCCTGCCGCCCGTGCGTGAAAACATGGTGGCCCGCATCCTGCTTTATCACGCCAGTGCGGCCACGGGTTATTTCATGCTCGCCGGCGTCCTTCTGGCCAGCAAGGCGCGCGCCTCACGCAGCCGCCGGGTTCTGGCCGCGATCCTGATCCTGCAGGCTTTTGCCGGGGCGTTCGTCGCATCCATCGTCATCCCCGTCAATGCCGCCATCCCCAACGCCATTCCCATGACATCGGCGCTTGCCCTCTCCGGCATGCTCGGCTTCACGGCCATCATCATGATCAGCGCCAAGATCATCATGGAGGATACGGAAAGCCGCCTCCATCGCCTCGCCATGACCGATCATCTGACCGGCGTTCTCAACCGGCGCGGCCTGCTGGAGGAGTTCGAGCGTATCAAGAAAAGGTCGCCGGCCTCCAGCCGTTACGTGGCTCTGGTGCTGTTCGATATCGACCATTTCAAGAAGATCAACGACAGATACGGCCACCAGTCCGGCGATGCGGTCCTCGTGCATTTTTGCAATATCGCCCAGCGCGCAATCGGCGATCGCGGCCTTTTCGTCAGGATGGGAGGCGAGGAATTCGCGCTGGTTGCCGAAGTCGAAAGCCCTTCCAGCACGGCGACGCTTGCGGAAGCCATCCGCAGCAATCTGCGCCTTTCGAAGATCAGTTCGCGCGGTGAAGCCATCGAGGTGACCACCAGCGTCGGCATATCGGAAGCCATGATCAAGGCCGCCGACCTCAACACGATGATGACGGAAGCCGACCGCGCGCTTTATGCCGCCAAGAAGGCCGGGCGCAACCGGACGGTCATCCATGTCAATTCAGCCAATGTCGTCGTGCCCGCCTCGGACCGCGACGAAAATCCGATGGACAACAATGCCGACCGCCAGGTCGCGGCGCTGAACCGGATAGCCGCCATCGCCAGCCGATGA	MLDAKTSTLLWAAETFTLAVLLGTLWLHRPSRRHNLFFAAGFLATGFGAVMVAFRGDISSFLSIQVGNTLALSAFGFWLAGLLCFEQRKIGGWVAIPALLWIAGMFLPPVRENMVARILLYHASAATGYFMLAGVLLASKARASRSRRVLAAILILQAFAGAFVASIVIPVNAAIPNAIPMTSALALSGMLGFTAIIMISAKIIMEDTESRLHRLAMTDHLTGVLNRRGLLEEFERIKKRSPASSRYVALVLFDIDHFKKINDRYGHQSGDAVLVHFCNIAQRAIGDRGLFVRMGGEEFALVAEVESPSSTATLAEAIRSNLRLSKISSRGEAIEVTTSVGISEAMIKAADLNTMMTEADRALYAAKKAGRNRTVIHVNSANVVVPASDRDENPMDNNADRQVAALNRIAAIASR				NA	NA	NA	NA	NA
BMS010_05073	1254	pksS	COG2124	Polyketide biosynthesis cytochrome P450 PksS	ATGGGCATGACAGCGACATTTCCGTTTCTCAAAATCGATCCCGCCACCCGCCGCATTTCCCTTGATGCCCGCGACCCGGCTTTCTACAGCGATCCGAACCCGGTCTATGCGGCCCTGCACGCTGAATGTCCCACCTTCTACTGGGAAGAACAGCGGCAATGGTTTTTCACCGGATACGACCACGTGAGCGCGCTGTTGCGCGACCGCCGCTTCGGACGGCAGATCCTGCATGTGGCAAGCCGCGAAGAGATCGGCCTGGCGGAGCCGCTCGAACATGTGAAGCATTTCGACGCTGCCGAGCAGCATTCGCTTCTGGAACTGGAACCGCCGGAGCACACGCGGCTGCGCACGCTCATCAACCGCGCCTTCGTGTCGCGGCACGTCGACAAGATGAAGCCGGAAATCGAGGAACTCGCCAACCGTCTGATCGACGCCTTCGAAGCAAATGGCGAAACGGAGTTGCTCTCTTCCTATGCCGATATCATTCCGGTGACGATGATCGCCCGCATGATCGGCATTCCCGAGGAGATGGGGCCGCAGCTTCTGAAATGGTCGCACGCCTATGTCGGCATGTATATGTTCAAGCGCACGCCGGAAGACGAGCTGCTGGCCGACAGGGCCGCGCATGAGTTTTCAGACTATGTGCGCAGCGTGATCGCCGAGCGGCGGGCGGAGCCGAAGGACGATCTGCTGAGCCACATGATCCATACGGAGCACAAGGGCCAGTATCTGACCGACGACGAGCTGGTCTCCACCACCATCGTGCTGCTGAATGCCGGGCACGAGGCGACCGTGCACCAGATCGGCAATTCCGTGCGCATCATTCTGGAAAGCGGCATCTCCCCCGAGACGCTGTTTAACGACGATGCCGCCACGGAACGCACGGTGGAAGAAACCCTACGCATCTGCGCGCCGGTGCATATTTTCCAGCGCTGGGTTCTGGAGCCCGTCGAAATTGACGGCGTCGCGTTCAGGCGCGGCGACAAGGTCAGCCTCATCCTCGCCGCCGCCAATCTCGATCCGGCAAAATTCTCCGATCCCCTGACCTTCCGGCCGGACCGCAACGAGGGCGCCAACGTCTCCTTCGGCGCCGGCATCCATTTCTGCATCGGCGCGCCGCTGGCAAGGCTGGAGCTCAATCTTGCCCTGCCCCTGCTTTTCAAACGCCTGCCGGGCCTGAAGATCGCCGAGCCGCCCAGGGTCAAGGATGTCTATCATTTCCATGGTCTGGAGCGGCTCGATCTCAGCTGGTGA	MGMTATFPFLKIDPATRRISLDARDPAFYSDPNPVYAALHAECPTFYWEEQRQWFFTGYDHVSALLRDRRFGRQILHVASREEIGLAEPLEHVKHFDAAEQHSLLELEPPEHTRLRTLINRAFVSRHVDKMKPEIEELANRLIDAFEANGETELLSSYADIIPVTMIARMIGIPEEMGPQLLKWSHAYVGMYMFKRTPEDELLADRAAHEFSDYVRSVIAERRAEPKDDLLSHMIHTEHKGQYLTDDELVSTTIVLLNAGHEATVHQIGNSVRIILESGISPETLFNDDAATERTVEETLRICAPVHIFQRWVLEPVEIDGVAFRRGDKVSLILAAANLDPAKFSDPLTFRPDRNEGANVSFGAGIHFCIGAPLARLELNLALPLLFKRLPGLKIAEPPRVKDVYHFHGLERLDLSW				NA	NA	NA	NA	NA
BMS010_05074	342			hypothetical protein	ATGACGAATTTTCTGTCCTTCGATGATATCGCCGAGCTGGAATACGGTGCACCCGCCCCGGAAAGACTGATTTCCGGCGATCCCAAATTCACCACATGGAATATCGAGGAAGCTCCGGGCGGCATCTATGCCGGCATCTGGCAGTCCACGCCCGGCAAATGGCGGGTGGTCTATGACGAATGGGAATATTTCAACATTCTCGAAGGCCATTCCATCCTGACCGAAGACGGCGGTGCGCCGCGCGATCTGAGACCGGGCGACCGCGTTATCCTGCGTCCTGGCTTTACGGGCACGTGGGAGGTCGTCGAGACGACGCGGAAGGATTATGTCATCCGGCTCTGA	MTNFLSFDDIAELEYGAPAPERLISGDPKFTTWNIEEAPGGIYAGIWQSTPGKWRVVYDEWEYFNILEGHSILTEDGGAPRDLRPGDRVILRPGFTGTWEVVETTRKDYVIRL				NA	NA	NA	NA	NA
BMS010_05075	495			hypothetical protein	ATGCTCCGTATTGTCGCCCTTCTCCTTGCGATCGGGGTTGCGGGTGTGGCTGACATACAGGTCGTAGCTTCGGTTTCGCCGGCAAAGGCCGAGGCGGAGTATTTCCCGACGCAGCAGGATTTTGTCGGAAAATGGAAGCTCACCGGTGCAACCAGCCGCCCGCCGCGCGATATGAGGACTGCGCCCGCCGCCCAGCAGGAAGCGGATGCGACACTGTTCCAGGAAACGGTGACGACATTTTACTCCGCGTTTGATTATCTGGAGATCACGGCGGACGGTCGCTACAATTTTGATCAACCCGGCGATCCCTCAGGTTCATGCGTCTGGTGCGGCACATGGTCCTTTGACAAGAGTTCGCTGTGGCTGAAGCTGGATACCGCGCCCCGGCTCGATATCTACGCGAAGAACGGCGATATACAGATGACGTACACCGCCGAACCCGACAAGAAGTCGAAATACAGCTGGCTGGTTTTCGGCTGGACGAAGATTGAGTAG	MLRIVALLLAIGVAGVADIQVVASVSPAKAEAEYFPTQQDFVGKWKLTGATSRPPRDMRTAPAAQQEADATLFQETVTTFYSAFDYLEITADGRYNFDQPGDPSGSCVWCGTWSFDKSSLWLKLDTAPRLDIYAKNGDIQMTYTAEPDKKSKYSWLVFGWTKIE				NA	NA	NA	NA	NA
BMS010_05076	1284		COG2873	O-acetyl-L-homoserine sulfhydrylase	ATGCCGAGCAGCAATCCCGGGTTTTCGACGCTGGCCGTTCATGCGGGCGCGCAACCCGATCCGACCACCGGCGCGCGTGCCACGCCCATTTATCAGACCACGGCCTATGCTTTCCGCGACGCTGATCACGCCGCCGCCCTGTTCGGACTGAAAGAGTTCGGCAATATCTACACCCGCATCATGAACCCCACCCAGGCGGTTCTGGAAGAGCGCGTGGCAGCACTTGAGGGCGGCACGGCCGCGCTTGCCGTCGCGTCCGGCCATGCCGCGCAATTGCTGGTCTTCCATACGCTGCTGCAATCCGGCGACAATTTCGTCGCCGCCCGCCAGCTCTATGGCGGCTCGATCAACCAGTTCGGCCATGCCTTCAAGGGCTTCGACTGGCAGGTCCGCTGGGCCGACGCCACCGATCCGGCCAGCTTCGAGGCGCAGATCGACGAGCGCACGCGTGCCGTCTTCATCGAAAGCCTTGCCAATCCGGGCGGTACTTTCGTGGATATCGCCGCAATCGCCGATGTTGCCCATCGGCATGGCCTGCCGCTGATTGTCGACAACACCATGGCGAGCCCCTATCTGCTGCGGCCGCTGGAACACGGCGCGGATATCGTGCTGCATTCGCTGACGAAATTTCTCGGCGGCCATGGCAACTCCATGGGCGGCATCATCGTGGACGGCGGAACCTTCGACTGGTCGGCGACGGACCGATATCCGGCGCTGTCACAGCCCCGGCCGGAATATTCCGGCGTCGTGCTGCACCAGACCTTCGGCAATTTCGCCTTCGCCATCGCCTGCCGTGTGCTTGGCTTGCGTGACCTCGGCCCGGCGATCTCGCCCTTCAACGCCTTCCTCATCCTGACCGGCATCGAGACGCTGCCGCTGCGCGTTCAGCGCCATTCCGACAATGCGCTTGCCGTCGCGAAATGGCTGAAGGCGCATCCCAAGGTTGGCTGGGTGCATTATGCGGGGCTGGAAGACAGCGATAACCACGCTATCCAGCAGCATTATTCGCCAAAGGGGGCGGGCTCCGTCTTCACCTTCGGCGTCAAGGGTGGTTATGCGGCCGGCAAGGCGCTGGTGGAAGGACTGCAACTCTTCTCCCATCTCGCCAATATCGGCGACACTCGCTCTCTCGTCATCCACCCGGCCTCCACCACCCATGCGCAGCTGACACCGGAACAGCAGACGGCCGCCGGCGCCGGGCCGGATGTGGTTCGCTTGTCGGTCGGTATCGAGGACGTCAAGGACATCATCGCCGATCTCGAGCAATCGCTCGCCAAGGTCTGA	MPSSNPGFSTLAVHAGAQPDPTTGARATPIYQTTAYAFRDADHAAALFGLKEFGNIYTRIMNPTQAVLEERVAALEGGTAALAVASGHAAQLLVFHTLLQSGDNFVAARQLYGGSINQFGHAFKGFDWQVRWADATDPASFEAQIDERTRAVFIESLANPGGTFVDIAAIADVAHRHGLPLIVDNTMASPYLLRPLEHGADIVLHSLTKFLGGHGNSMGGIIVDGGTFDWSATDRYPALSQPRPEYSGVVLHQTFGNFAFAIACRVLGLRDLGPAISPFNAFLILTGIETLPLRVQRHSDNALAVAKWLKAHPKVGWVHYAGLEDSDNHAIQQHYSPKGAGSVFTFGVKGGYAAGKALVEGLQLFSHLANIGDTRSLVIHPASTTHAQLTPEQQTAAGAGPDVVRLSVGIEDVKDIIADLEQSLAKV	PGPT0001995_267	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0001995-metC-K01760	NA	NA
BMS010_05077	435	yccU	COG1832	putative protein YccU	ATGCAGCATGATAGTTACGAGCCCGACTACCTCAGAAGAATTCTGACCGATGTCAAAACCATCGCCCTGCTCGGTGCTTCGCCCAACCCGGACAGGCCGAGCCACGGCGTGATGCGCTTCCTGCTGTCCAGGGGGTATCGTGTGTTTCCGGTCAATCCCGGCCAGGCAGGCAAGGAGATACTTGGGCAGAAGGTCTATGCCAAACTCGCCGATATTCCCGAGCCGGTGGACATGATCGACGTTTTCCGGGCGCCGGAATATTTGTCGGCAATCGTCGAGGAGGCGATCTTGCTGCCGGAGCGGCCATCGGTAATCTGGGGCCAGCTTTCCGTTCGCGATGACAATGCCGCCGCCAAGGCGGAAGCCTACGGTATGGAAGTCGTGATGGATCGTTGCCCTGCAATTGAGTATCCCCGTCTCAATATTGTGCGATAG	MQHDSYEPDYLRRILTDVKTIALLGASPNPDRPSHGVMRFLLSRGYRVFPVNPGQAGKEILGQKVYAKLADIPEPVDMIDVFRAPEYLSAIVEEAILLPERPSVIWGQLSVRDDNAAAKAEAYGMEVVMDRCPAIEYPRLNIVR				NA	NA	NA	NA	NA
BMS010_05078	837			hypothetical protein	GTGACATTCGACATTCTTCTTCTGGTACTCCTGGGCGCGATGCTGCATGCCGGATGGAATGCGCTGGTCAAAGCCGGATCCGACAAATCGCTGGACGCCTCGCTGATCGCGGCGGGCGCTGCGGCCTGTTCGCTACCGTTTCTGCCTTTCCTGCCATTTCCCGCGCCGGTCGCCATTCCTTTCCTGATCGCTTCGGCCGTTCTGCAATTCGCCTATTTCCGGCTTGTCGCCGCCGCCTATACGATCGGCGACATCGGCCTTGTCTATCCCGTCATGCGCGGCGTGGCGCCCCTGATCGTCGCGGCGACGAGCAGCCTGTTCCTGAGCGAGATTTTAAGCCCGCTAGCCCTTGCCGGCATCGCCGTCATCTCCGGCGGCATTCTGACGCTCGCTTTCGAGGCGCGACGCGGTGGCGGAAAGGCGATCATGGTCGCCCTGCTCAACGCCTTCGTGATCGCGTCCTACACCTTCGTCGACGGTGTCGGCGCAAGGCTTTCCGGCAACGCCATCTCCTATACGCTGTGGATGTCGCTTCTGCCGCCCGTGCTGCTTTTCGGTTTCGCCTTTTACCAGCGCGGCGTGGGCCCGGTCGCGGACCATGTCCGGCGCAACTGGTGGCGCGGCCTGATCGGTGGCGGCGGCTCCATTCTCTCCTATGGGCTGGCACTTTACGCCATGACCAAGGCGCCCGTCGCCGTGGTTGCGGCGCTCCGGGAAACCTCCATTCTCTTTGCGCTGGTGATCTCCGTGGTGATCCTGAAAGAACGTGCCAGCATCTGGCGTTATCTTGCCGGAGGCATCATTGCAGCGGGCGTTCTGGTGATGCGACTGGGGTAA	MTFDILLLVLLGAMLHAGWNALVKAGSDKSLDASLIAAGAAACSLPFLPFLPFPAPVAIPFLIASAVLQFAYFRLVAAAYTIGDIGLVYPVMRGVAPLIVAATSSLFLSEILSPLALAGIAVISGGILTLAFEARRGGGKAIMVALLNAFVIASYTFVDGVGARLSGNAISYTLWMSLLPPVLLFGFAFYQRGVGPVADHVRRNWWRGLIGGGGSILSYGLALYAMTKAPVAVVAALRETSILFALVISVVILKERASIWRYLAGGIIAAGVLVMRLG				NA	NA	NA	NA	NA
BMS010_05079	465	rplM_2	COG0102	50S ribosomal protein L13	ATGTCTACTTTCGTTCAGAAGCCTGCTGAGGTGGAGAAGAAGTGGGTCATCATCGACGCCGAAGGCCTCGTTGTTGGTCGCCTCGCCACCATCGTTGCAACCCGCCTGCGCGGCAAGCACAAGGCTACCTACACCCCCCACGTTGATGATGGCGACAACGTCATCGTTATCAACGCGGAAAAGGTTGCCTTCACCGGCAACAAGTACTCCGACAAGAAGTACTACTGGCACACCGGTCACCCGGGTGGCATCAAGGAGCGTACGGCTCGCCAGATCATCGAAGGCCGCTTCCCGGAGCGCGTCGTTGAAAAGGCCATCGAGCGCATGATCCCGCGCGGCCCGCTCGGCCGTCGCCAGATGAAGAACCTGCGCGTTTACGCCGGCTCGAACCATCCGCACGAAGCACAGCAGCCCACCGTTCTCGACGTGGCCGCGCTTAACAAGAAGAACGTAAGGAGCGCCTGA	MSTFVQKPAEVEKKWVIIDAEGLVVGRLATIVATRLRGKHKATYTPHVDDGDNVIVINAEKVAFTGNKYSDKKYYWHTGHPGGIKERTARQIIEGRFPERVVEKAIERMIPRGPLGRRQMKNLRVYAGSNHPHEAQQPTVLDVAALNKKNVRSA				NA	NA	NA	NA	NA
BMS010_05080	468	rpsI_2	COG0103	30S ribosomal protein S9	ATGGCCGATCTTTCCTCTCTGAAAGACCTCGCCCCGGCATCGGAAGCTTCGGCTCCCGTGCATGTCCGCAAGGTTGACACCCTCGGCCGCTCCTACGCGACCGGCAAGCGCAAGAACGCCGTAGCCCGCGTATGGGTGAAGGCCGGTTCTGGCAAGATCATCATCAACGGCCGCGATTTCACCACGTATTTCGCACGTCCGGTTCTGCAGATGATCCTTCAGCAGCCGATCGTCGCCGCTGCCCGCACGGGTCAGTTCGACATCATCGCCACCGTTGCCGGTGGTGGTCTGTCCGGTCAGGCCGGCGCCGTTCGTCACGGCCTGTCCAAGGCCCTCACCTACTTCGAACCGGGCCTGCGCTCCGTTCTGAAGAAGGGTGGCTTCCTGACCCGCGACAGCCGCGTTGTCGAGCGTAAGAAGTACGGTAAGGCCAAGGCCCGCCGTTCGTTCCAGTTCTCGAAGCGCTAA	MADLSSLKDLAPASEASAPVHVRKVDTLGRSYATGKRKNAVARVWVKAGSGKIIINGRDFTTYFARPVLQMILQQPIVAAARTGQFDIIATVAGGGLSGQAGAVRHGLSKALTYFEPGLRSVLKKGGFLTRDSRVVERKKYGKAKARRSFQFSKR				NA	NA	NA	NA	NA
BMS010_05081	366	higB2	COG4683	Putative toxin HigB2	ATGAATTATGTCGTCGAGTATACGGACGAATTCGGAACATGGTGGGAAACGCTTGAAGAAAGCGAACACATCAGCATCGACGCTCATGTTCAGAAACTGGAAGAACGTGGCCCTCGCCTGCCGTTCCCCTATTCGAGCGGCATTCATGGATCGCGTCACGCGCATATGCGCGAATTGCGAATCCAAAGTAGCGGAAAGCCGTTGCGGATTTTTTATGCCTTCGATCCCCGTCGAATGGCGATCCTCTTGATTGGAGGCGACAAGACGGGAGACAAACGGTTTTATGACCGCATGATCCCGATTGCCGACGACCTTTATGACGAGCATCTGGCCGAGCTTGAAAAGGAGAAACACAATGAGCGGTAG	MNYVVEYTDEFGTWWETLEESEHISIDAHVQKLEERGPRLPFPYSSGIHGSRHAHMRELRIQSSGKPLRIFYAFDPRRMAILLIGGDKTGDKRFYDRMIPIADDLYDEHLAELEKEKHNER	PGPT0027571_2970	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HigB-HigA_TOXIN-ANTITOXIN_SYSTEM,PGPT0027571-toxin_higB1-na	NA	NA
BMS010_05082	333			hypothetical protein	ATGAGCGGTAGGCACAGTTTTGCGCGGTTGCGCAATCGGATGTCGGACGACGCGCGTGTTAAGTCGAAAGCCGAAGCAGATCGTCTGGAAGAAGAAATGGACCTTGCGGATGTTCGCAGGGCGCTGAAACTCTCGCAGGACGAAATAGCGCAGGCGCTGGATATCGGCCAAAGCTCCGTCGCAAAACTGGAAAAGCGCGCTGATATGTATGTTGGGACCTTACGCCGGTTCATCGAGGCGATGGGCGGCGAACTTGAAATCGTCGCGCGCTTCGACGGCCGCGCGATCAAAATTCGCAACTTCGCCGATCTTGCAGAAAAGGCGGATAAATAA	MSGRHSFARLRNRMSDDARVKSKAEADRLEEEMDLADVRRALKLSQDEIAQALDIGQSSVAKLEKRADMYVGTLRRFIEAMGGELEIVARFDGRAIKIRNFADLAEKADK				NA	NA	NA	NA	NA
BMS010_05083	954	speB	COG0010	Agmatinase	ATGCCCAACAAAACCATCGACCATGCCTTCACCGCAACGACCCTGACATCGGCCGCCACCGACCCGACGCATGCGGGCGTCCTCTCCTTCATGCGGCGCAAATATACCAAGAACCTCAAGGGTGTATCGACGGCCATCTGGGGCATTCCTTTCGACGCTGCCACCTCCAATCGGCCGGGCGCCCGTTTCGGGCCGCAGGCGATCCGCCGCGCCTCGGCGATCTTCGACAACGATCCGCAATATCCTTTCGCGCGCGATCTCTTCGCCCATATGCCGACCATCGACTATGGTGACTGTCTGTTGGACTATGGCAATCACTGGAAAACGCCTGATACGATCGAAAAGGAAGCGCGCCGGATCATCTCCAAGACGGATTACCTGCTGACGCTTGGCGGCGATCACTTCATTACCTGGCCGCTTTTAAAGGCGCATGTGGCCAAGCATGGGCCATTGGCGCTGGTGCAGTTCGATGCGCATCAGGACACCTGGTTCGATGACGGCAAGCGCATCGACCACGGCTCCTTCGTGGCCCGCGCCGTGCGCGATGGCTTGATCGACCCCGACCGGTCGATCCAGATCGGCATCCGCACCCATGCGCCTGACGATTTCGGCATTCGCATTCTCCACGGTTATGAGGTGGAGGAAATGCGGGCGAGCGATATCGCCTCGCTGATCGTCAAACATACTGCCGGCATGCCCGCCTATCTGACCTTCGATATCGATTGCCTCGATCCCGCCTTTGCGCCGGGAACGGGCACGCCGGTGGCCGGCGGGCCGACCAGTGCCAAAATTCTCTCCGTTCTGCGCGGGCTTGGCCAGCTCGATATTCGCGGCTCGGACGTCGTGGAGGTAGCACCCGCATATGACCATGCTGACATTACCGCCATTGCCGGAGCCACCGTTGCAATGTATATGCTTGGCCTGCGCGCCGAACGGCTGGCCAAGGCCGGCTGA	MPNKTIDHAFTATTLTSAATDPTHAGVLSFMRRKYTKNLKGVSTAIWGIPFDAATSNRPGARFGPQAIRRASAIFDNDPQYPFARDLFAHMPTIDYGDCLLDYGNHWKTPDTIEKEARRIISKTDYLLTLGGDHFITWPLLKAHVAKHGPLALVQFDAHQDTWFDDGKRIDHGSFVARAVRDGLIDPDRSIQIGIRTHAPDDFGIRILHGYEVEEMRASDIASLIVKHTAGMPAYLTFDIDCLDPAFAPGTGTPVAGGPTSAKILSVLRGLGQLDIRGSDVVEVAPAYDHADITAIAGATVAMYMLGLRAERLAKAG	PGPT0007775_1633	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007775-speB-K01480	NA	NA
BMS010_05084	933	argC_1	COG0002	N-acetyl-gamma-glutamyl-phosphate reductase	ATGACAGCGAAGATCTTCATCGATGGCGAACACGGCACCACGGGTCTGCAGATCCGCACGCGCCTTGCCGGTCGCCGCGATATTGAGCTGCTGTCCATACCCGAGGCCGAGCGCCGCAATGCGGCGATGCGCGAGGATATGCTCAACAATGCCGACATTTCGATCCTCTGCCTGCCGGACGATGCTTCCCGGGAAGCGGTCTCGATGGTGGCCGGCAATAACAATGTCCGCATTATCGATACCTCGACCGCCTATCGCGTTCACCAGGACTGGGCCTATGGCTTTGCCGAAATGGACAAGGAACAGGGCGAGAAGGTTCGTTCCGCCCGTCTCGTCGCCAATCCGGGCTGCTACCCGACCGGCGCGATCGCCCTTCTGCGCCCGCTGCGCGCCGCACGCCTGCTGCCGGACGGTTATCCGGTCAGCGTCAATGCGGTTTCCGGTTACACCGGCGGCGGCAAGCAGATGATCGCCCAGATGGAAGACCAGAGCCGCGATGACGCGATCAGCGCCAATAATTTCCTTTATGGCCTGACGCTCAAGCACAAGCACGTGCCGGAAATGACCATTCATGGCCAGCTCGACCGCGCACCGCTGTTTTCGCCTTCCGTCGGTCGTTTCCCGCAGGGCATGATCGTGCAGGTGCCGCTGTTTGCTGCCGACCTGAAGGAAGGCGCGACCGTGGAAACGATCCATGCGGCGCTGACTGCCCACTATGCGGGACAGGACATCGTCAACGTGGTGCCGCTTGCCGAAAGCAAGGGGCTCGCTCGCATCGACGCCGAGGAACTGGCAGGCAAGGACACGATGAAACTGTTCGTCTTCGGTACGCCGGGCGGCGAACACATCAACCTCGTCGCGCTGCTCGACAATCTCGGCAAGGGCGCATCCGGTGCTGCCGTGCAGAACATGGAACTGATGCTCTCCGCATGA	MTAKIFIDGEHGTTGLQIRTRLAGRRDIELLSIPEAERRNAAMREDMLNNADISILCLPDDASREAVSMVAGNNNVRIIDTSTAYRVHQDWAYGFAEMDKEQGEKVRSARLVANPGCYPTGAIALLRPLRAARLLPDGYPVSVNAVSGYTGGGKQMIAQMEDQSRDDAISANNFLYGLTLKHKHVPEMTIHGQLDRAPLFSPSVGRFPQGMIVQVPLFAADLKEGATVETIHAALTAHYAGQDIVNVVPLAESKGLARIDAEELAGKDTMKLFVFGTPGGEHINLVALLDNLGKGASGAAVQNMELMLSA	PGPT0014251_4285	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014251-argC-K00145	NA	NA
BMS010_05085	843			hypothetical protein	GTGACCACCACCCCATCTTTTCCGGCCTCGTGGAATATCGAGGCCGCAAAACAGATTGCCGATACGCCGGCCGGGGTGGTTTACGAGCTTACGCGCGGCGCCGGTTCCCTCGCCGTCGCCAAGGTTCTGAAACAGAGAGTACTGAAGGACAGCCTTCGCGGCGCGGATTTCATTAAATGGCGCGCCGGCATCGGCTGCGTGGAGCTGCTCGACCGCTCCGACGATATTCTGCTGATGGAACATGCCGGCACGGAGACCCTGCGCGACGTGCTGTTTCGCGACGGCAATGACAATGCCACCACGGAAATCGCCGCCGATGTCCTGCTCAGATATCATCAGCCATCGCAGCAGCCGCCGCCTTCAAGCCTGCTGACGCTGCCGCTCTATTTTGAGAGCCTGTTCCGCAAGGCCGAACAGGACCGTACTGACGGCGTGGACAGCCCCTATATCGAGGGCGCCGCGCTGGCGCAGGCACTGATCGACCGGCAGCGAGATATCAAGCCGCTGCACGGCGATCTGCATCACGAGAACATCATGCGCAGTGAACGCGGCTGGATCATCATCGACCCGGCCGGCTTGATCGGCGATGCGGCGCTCGATGTCGCCAACATGTTCTCCAACCCGCTCGACCGTTTCGACCTTACCCGCAGCGAGGCGCGCATCGCCTCCATGGCGGCGATTTTTGCGAAGGCTTTACAACGGGACGAACGGCTATTGCTGCAATATGCCTTTGCCTATGGCTGCCTTTCTGCCGCGTGGCACGAAGAGGATGGCAATGCGGAGGAACGCGACAACGAACTCGCCGTCGCGGCCACCATCAAAACGGTGCTCGGGCAGTTCTAA	MTTTPSFPASWNIEAAKQIADTPAGVVYELTRGAGSLAVAKVLKQRVLKDSLRGADFIKWRAGIGCVELLDRSDDILLMEHAGTETLRDVLFRDGNDNATTEIAADVLLRYHQPSQQPPPSSLLTLPLYFESLFRKAEQDRTDGVDSPYIEGAALAQALIDRQRDIKPLHGDLHHENIMRSERGWIIIDPAGLIGDAALDVANMFSNPLDRFDLTRSEARIASMAAIFAKALQRDERLLLQYAFAYGCLSAAWHEEDGNAEERDNELAVAATIKTVLGQF	PGPT0028755_616	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-STREPTOMYCIN|KANAMYCIN|AMIKACIN,PGPT0028755-strB-K04343	NA	NA
BMS010_05086	1119	ctaA_1	COG1612	Heme A synthase	ATGCGTTCGAGCGGCATGACGATGGCAAATGGTTCTGCGGAAATGGTGGTGGAGGCTGCCCTGCAGAAACAGGAGAAGGACCGCCGCCTGCTGCGCATCTGGCTGCGCGTCGTGCTTTTCACGCTCTTCTGTCTGGTCCTCGTCGGCGGCGCCACGCGGCTTACCGAATCCGGCCTGTCGATTACCGAGTGGAAGCCGATCCACGGCGCCATTCCGCCGCTTTCAGTCGCCGAATGGGAAGAGGAATTCCAGCTCTACAAGCGCATTCCCCAATATCAGGAAATCAACAAGGGCATGTCGCTCGACGAATTCAAGACGATTTTCTGGTGGGAATGGGCGCATCGACTGCTTGCCCGCACCATCGGCGTCATCTTCGCTTTGCCGCTCGCCTTCTTCTGGCTCACCGGTCGCGTCGAAAAGCGCCTGCGCCTGCCGTTGGTCGGCCTTCTGGCGCTTGGCGGCTTTCAGGGCTTCATCGGCTGGTGGATGGTGTCCTCCGGCCTCGTTAACCGCACGGATGTCTCGCAATATCGCCTTGCCACACATCTGACCATCGCCTGCCTCATCTTTGCGGGCTGCATTTGGATATTGCGCGGGCTGTCGCATCATTCGCCTGATGCCGCCGACGAAAAGACGGGCAGGGGTTTTGCCGCGCTGCTGACGGTGCTCTGTCTCTTCCAGATCTATCTCGGCGCATTGGTGGCGGGGCTGAATGCCGGCCTTTCCTATAATACCTGGCCGCTGATGGACGGCTCGCTGGTGCCGGGCGATCTCTTCCTGCAACAGCCCTGGTGGATCAACCTCTTCGAGAACCCCAAGACGGTGCAATTCGTCCACCGCCTCGGCGCCTACACGCTGTTTGCCGCCACGCTGTGGCATATGGTGTCTATGGCGCGCGCCTTGCCCAATACACCGCATGCCCGCCGCGCGGTGCTGTTCTTCGTGCTCGTCTCCATTCAGGCGGCGCTCGGCATCACCACGCTGCTCATGCATGTGGATATTCACATCGCGCTCGCCCATCAGGGCATGGCGCTGATCGTGCTCGGTTTCGCCGTCGCCCACTGGCGCGGTTTTATCGGCGAATATCCGGCGCCCGTTGCGGTCGAAGTCAGGGACTGA	MRSSGMTMANGSAEMVVEAALQKQEKDRRLLRIWLRVVLFTLFCLVLVGGATRLTESGLSITEWKPIHGAIPPLSVAEWEEEFQLYKRIPQYQEINKGMSLDEFKTIFWWEWAHRLLARTIGVIFALPLAFFWLTGRVEKRLRLPLVGLLALGGFQGFIGWWMVSSGLVNRTDVSQYRLATHLTIACLIFAGCIWILRGLSHHSPDAADEKTGRGFAALLTVLCLFQIYLGALVAGLNAGLSYNTWPLMDGSLVPGDLFLQQPWWINLFENPKTVQFVHRLGAYTLFAATLWHMVSMARALPNTPHARRAVLFFVLVSIQAALGITTLLMHVDIHIALAHQGMALIVLGFAVAHWRGFIGEYPAPVAVEVRD	PGPT0008525_899	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008525-ctaA-K02259	NA	NA
BMS010_05087	213			hypothetical protein	ATGCACCCTCGCCTCAGATCGCTTATCGGCACCATCGTCATCATCTGCCTCGTCGTCGTTTACGCCGTGGTGGCGACGGCCATTGCATCGGCGGCGCTGGCGCAATCGCCCTGGTGGGTGCATCTCGCTTATTTCGTGCTGACCGGAATCTTGTGGGTTCTGCCGGCGATGCTGATCATCAAATGGATGGCCGGACCCAAAAAGCAGGGTTAA	MHPRLRSLIGTIVIICLVVVYAVVATAIASAALAQSPWWVHLAYFVLTGILWVLPAMLIIKWMAGPKKQG				NA	NA	NA	NA	NA
BMS010_05088	1227			hypothetical protein	ATGGCGGCTGAGGGGCCGGTCTTTATCAGCGATGAGCAAGCACCAGCCGCCGTGCAAAACGAGCGGCGGAGTGCTGATCGTCTGTTGATCGATCTGGTCGATGACGCCTCCACCATCCGCTCCGACTGGGAGCGACTGGAAAACGACCCGCTCAATTCGCTGCATCAGGGTTTCGGCTGGTGCTCCATCTGGGCGCAGACGCAGGACAGCGCGCTCCTGACGCTTCGCGGCCGTCAGGGCGGCAAGACGATCTTTCTGCTGCCGCTCGAAATCGTACTGGAAGGCGGCATCCGCAAGGCGCGTTTTCCCGGCGGCCGTTTCAACAATATCAATACGGGGCTTTTCGACCCCTCCTTTGCCGAACAGGCCGGACAGGAAATCGCAGCAGCGATTGCCCGCGAGGCGCGCAAGCTGCTGCATGGCCGGGCGGATATTTTGGCTTTGCAGAACATACCGCTGACGTGGCGCAACAGGACCAATCCCCTCTCGCATCTTGCTTCCGTCGAAAACCAGAATCCGGCCTTCCAGCTTCCCCTGTTCGAAAGCTTCGAAGCCACGCTCCGGCAGGTCAATGCCAAGAGGCGACGGAAGAAATTCCGCATCCAGAGCCGAAGGGCAGAGGAAATGGGCGGTTACAGCCATGTGATCGCACGGTCGCCACAGGAAAAGTGCGAATTGCTGCAGGCGTTTTTCCGCCAGAAGGCCGCCCGTTTCGCCTCGCAGGGCATTCCGGATGTGTTTCGGGATCAATCGGTGCGGGATTTCTTCTACGATCTGGCCAATTTTCCCGAGACGGGCACGGACAGTCTGCTGGAACTGCATGCCATTCGCCTGCATGGCGAAAGCGAGGGCGTCATCGCCGCGATAGCCGGCCTTTCGCGCAAGCAGGATCACATCATCTGCCAGTTCGGTTCGATCGATGAATCCGTTTCGGAACTCAGCCCCGGTGAATTGCTGTTCTGGTTGATGATCGAAAGGGCATGCCGCGAAAAGGCGGCAATCTTCGATTTCGGCGTCGGCGACCAGCTCTACAAACGCAGCTGGTGCCCGCTTTTCACCGTGCAGCACGATATATTCCTGCCGGTGACGTTGAAGGGTCGTGTTGCGGCCTCGGCCTATGTCGCCATCGCCCGGACGAAAAGCCTGATCAAATCCAATCCGGCGCTTTATGCGCTCATTCAGCGTTTTCGCGCCGGACGCTCGAAGATGGACACCGCCACCGACTGA	MAAEGPVFISDEQAPAAVQNERRSADRLLIDLVDDASTIRSDWERLENDPLNSLHQGFGWCSIWAQTQDSALLTLRGRQGGKTIFLLPLEIVLEGGIRKARFPGGRFNNINTGLFDPSFAEQAGQEIAAAIAREARKLLHGRADILALQNIPLTWRNRTNPLSHLASVENQNPAFQLPLFESFEATLRQVNAKRRRKKFRIQSRRAEEMGGYSHVIARSPQEKCELLQAFFRQKAARFASQGIPDVFRDQSVRDFFYDLANFPETGTDSLLELHAIRLHGESEGVIAAIAGLSRKQDHIICQFGSIDESVSELSPGELLFWLMIERACREKAAIFDFGVGDQLYKRSWCPLFTVQHDIFLPVTLKGRVAASAYVAIARTKSLIKSNPALYALIQRFRAGRSKMDTATD				NA	NA	NA	NA	NA
BMS010_05089	2268			hypothetical protein	ATGAACGGCGATCGCATTGACGACAGGGATGTGGATATCGATCTTGCGCAGCTTGTCGCGGCCATTTGGCAGCGCAAGGGCCGGATCGCGGCAATCACGCTTCTTGCCGGGGGCGCCGCCTTCGTGATCTCAAGCATGATGTCGCCCGCCTACAAGGGCGAGGCGCGCGTGCTTATCGAATCCCGCGCGGCCTCCTTCGGTGCCTCGCAGCAGTCCAATGCGCCCGCCGAACCCGTGCTCGACGAATTGACCGTTTCCAGCCAGGTGCAGATCCTGCAATCGGTCGACCTCATCAAGCAGGTCGCCAAAGACATGAAGCTTTACGAGCTGGATGAGTTCGATCCGGAGGCCCATCCTTCGCTCATCTCGCAGCTCCTGGTCGCCGTCGGCGTCAAGAAGGACCCGCTTCAGGTGCTGCCCGAAGAGCGGGTGCTGAGTGCCTTCCGGGAAAAGCTGCAGGTCTATCAGGTCGAAAGCTCGCGCGTCATCACGGTCGAATTTTCCTCGCAGGACCCCAAGCTGGCCGCCGCCATCCCCAATGAGATGATGAAGGCCTATATCGCCCTGCAAAGCGGCGCGAAGCTGGATACAAGCACGGAAGCGGCGCGCTGGCTGGAGCCGGAAATCGCCAATCTGCGCGAAAAGGTGCGCGAGGCCGACAGAAAGGTCGCGGATTACCGCGCCTCCTCCGATCTTCTCTCGGCGGGGCAGGGCGAAACGCTCGCCACCCGCCAGCTCAGCGATATCTCCACCGAACTTGGCCGTATCCGCGGAGAGCGCGCCAATGCGGAGGCGCGGGCGGAAGGCGTGCGCAGCGCGCTTGCAAGCGGCCGCCCGCTCGATACTTTTCCCGATGTCGTCGGTTCCCCGACGATCCAGAGGCTGAAGGAAAACGAAACGACCATCCGCAGCCAGATTTCCGATCTCTCGTCCTCGCTGCTGGAAGGCCATCCGCGCATCCGCGCGCTGCGCAACCAGCTCGACGGCATACAGCGGCAGATTCAGGAAGAGACCCGCAAGGTGCTGGCGAGTCTCGAAAACGAGGCCAATGTTTCGCGCCTGCGGGAGCGACAGCTGGTCCAGCAGCTGAACATGCTGAAATCGGAAAGCGTGCGTGCGGGCGAACAGCAGGTCGGCCTCAACGATCTGGAGCGGGAAGCCTCAGCGCAAAGGCAGCTTCTGGAAACCTATCTTGCCCGTTACCGCGAAGCGACATCGCGCGCCGGCTCGGTGGATTCCACGCCGGCCGATGCGCGCGTCATCTCGACGGCGGTGGAGCCGCGCGAACCCTATTTCCCGAAGACGGGCGCCATCACCATCGTTGTGACGCTGGCGGCGTTTCTGCTGTCCTGCATCGTCGTCATGCTGGTGGAGCTTTTCACCGGCCGGGCTCTAAAGCCGATGGGCAGGAATCAGGTTCCGCCTCTCTCCGATCCGCCTTCTCCTTCGCGTGCTCCAGCCGATCCGGACAAGACCACGGACGTGCCGGAACAGCCTGTAGCGGCGCGCCATGAAACCATGCAGCCTGCTGCGCGGGCCATGCCGGTCGCGGCATACCAGCCCGTCGCCGAAGAGGAAGAACGGCATGTACCGGCGGTCGCTGCTGCTGCCATGCCGGCCTTACCGGTGGAAGATGTCGCGACTGCGAAAGAGGAGGCAATGGAGGAGGCAATCGATACCGATGACGATTTCTCCATCGACGCGGTCGCAGGTTTCCTGGCCACCCGCCTCGCCAAACCGGTCGCCGCAATCGTGTCGCCGGCCGGTGATAGCGGCTCGACCACGTCCGTCATGCTGGCGCGTGCTTTGTCCGAAATGGGCCGTTCGGTCGTTCTCGTCGACATGACGGCGTCAGCCTGTCCGACGCGGTTGATGGCGCCGGAAGCCGGGCTTCCCGGTGTCATGGACCTTCTGGCGGGCGCGGCCGCCTTCGGTGAAACCATTCACGGCGACCGCCTGTCCGACGCCCATATCGTGCCGCGCGGCAATGCGCAGCCGCGTGAGGCCATGCGCGCGATAGACCGTCTGACGATGATCCTCGGCGCGCTCTCCGACGCTTATGATACCGTCCTCGTCGAATGCGGCGCGGTGCAGATTTCGAGCCTCGGGAAAATGCTGCGCAACCTGCCGGCGGAAATCATCGTCTCGGTTCCCGGCAAGGATAGCGAATTGTTGGAAAAGACGCTCGGTGAACTGGTTGCTGAGGGCTATGAACAGGCATTGCCGATGACCGGCATGCGCAAGCCGGACCATCTGAGCGCGGCCTGA	MNGDRIDDRDVDIDLAQLVAAIWQRKGRIAAITLLAGGAAFVISSMMSPAYKGEARVLIESRAASFGASQQSNAPAEPVLDELTVSSQVQILQSVDLIKQVAKDMKLYELDEFDPEAHPSLISQLLVAVGVKKDPLQVLPEERVLSAFREKLQVYQVESSRVITVEFSSQDPKLAAAIPNEMMKAYIALQSGAKLDTSTEAARWLEPEIANLREKVREADRKVADYRASSDLLSAGQGETLATRQLSDISTELGRIRGERANAEARAEGVRSALASGRPLDTFPDVVGSPTIQRLKENETTIRSQISDLSSSLLEGHPRIRALRNQLDGIQRQIQEETRKVLASLENEANVSRLRERQLVQQLNMLKSESVRAGEQQVGLNDLEREASAQRQLLETYLARYREATSRAGSVDSTPADARVISTAVEPREPYFPKTGAITIVVTLAAFLLSCIVVMLVELFTGRALKPMGRNQVPPLSDPPSPSRAPADPDKTTDVPEQPVAARHETMQPAARAMPVAAYQPVAEEEERHVPAVAAAAMPALPVEDVATAKEEAMEEAIDTDDDFSIDAVAGFLATRLAKPVAAIVSPAGDSGSTTSVMLARALSEMGRSVVLVDMTASACPTRLMAPEAGLPGVMDLLAGAAAFGETIHGDRLSDAHIVPRGNAQPREAMRAIDRLTMILGALSDAYDTVLVECGAVQISSLGKMLRNLPAEIIVSVPGKDSELLEKTLGELVAEGYEQALPMTGMRKPDHLSAA	PGPT0026560_892	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT-1,PGPT0026560-exoP|vpsO-K16554	NA	NA
BMS010_05090	573			hypothetical protein	ATGCCGCTCGCCGGATCACGACATGTCACCGCACTGACGCTCGCCGTTCTGACGGCCCTTTCCGGCTGCGCGGCATATCAACCCGCTCCGAGGTCCTTCAACGAAGCCGCCCTGCAGCCTTATCATGTCGATAGCGGCGACAGGCTGCGCATCAACGTGTTCGAGCAGGCCGGGCTGACCAATACCTATACGGTCGATCAGGCCGGTTATGTCGCCTTCCCGCTCGTCGGTCAGGTTCCGGCACGCGGCAAGACCCTGCCGCAGCTCGAAGCCGCCATCGCCGCCAAACTGCGCCAGGGTTATCTTCGCGATCCGGACGTGACGATCGAGATCGACCGTTATCGCCCGGTCTTCATCATGGGCGAAGTCGGCCGTCCCGGCCAATATTCCTACGTGCCGGGCATGACCGTGCAAAACGCCATCGCCATTGCCGGCGGCTTCACCCCGCGCGCCAATCAGGCCGATGTCGACATTACCCGCAAGATCAATGCCGAGGTGATGACCGGCCGGATCGGTATCACCGCCCCCATTCTGGCCGGCGATACCGTCTATGTGCGTGAACGCTTCTTCTGA	MPLAGSRHVTALTLAVLTALSGCAAYQPAPRSFNEAALQPYHVDSGDRLRINVFEQAGLTNTYTVDQAGYVAFPLVGQVPARGKTLPQLEAAIAAKLRQGYLRDPDVTIEIDRYRPVFIMGEVGRPGQYSYVPGMTVQNAIAIAGGFTPRANQADVDITRKINAEVMTGRIGITAPILAGDTVYVRERFF	PGPT0025530_4067	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT-1,PGPT0025530-wza|gfcE|epsA-K01991	NA	NA
BMS010_05091	1146	mshA_5		D-inositol-3-phosphate glycosyltransferase	GTGTCGGATGACGGCCCTCCCCTGCGCATCATTCACTGCTTCCGCTCCCCGGTGGGCGGTGTCTTCCGCCATGTGCGCGACCTCATCGAAGAACATGTGAAACAGGGCCACAAGGTCGGCATCGTCTGCGACAGCTCCACCGGCGGCGCGCATGAGGAACGGCTTTTCGCACAGATCACCCCGATGCTGGAGCTTGGCCTCACCCGTCTGCCCATCCGTCGGTCCATCAGCCCCGGCGACTTCATGGCGCTGTGGAAATCTTACAAGCACATCAAAAGTTTGCGGCCGGACATTCTGCACGGGCACAGCGCCAAGGGTGGCGCTCTTGCCCGGCTGATCGGCTCACTCCTGCGGGCGAACAGGTATCGCGTAGCCCGCCTCTATTCACCGCATGGCGGCAGCCTGCATTACGCCAGAAACAGCCTCAAAGGGCAGCTTTTCCTGCGGCTGGAGCGATTTCAGGAGCATTTCACCGATGCGCTCTGTTTCGTCTGCAATTTCGAGCAGGCGACTTACGAGGCCAAGGTCGGCAGGCCGCGCACCCGAACCGCGATGATCTATAACGGCGTGCAGGAAAGCGAGTTCGAAACCGTGCCCGCCCGCGAAGATGCCGCCCGTTTTCTCTATATCGGCATGTTGCGCGACCTCAAGGGACCGGATGTCTTCATCAGGGCATTTGCCAAAATGGAACGCAGCATCGGCCAGCCGATGACCGGCGTGATCGTCGGCGACGGACCGGACAGGGACAAATATGCGGCGATGATCGACAAGGCCGGGCTTTCCCGACGGATTTCCATGCATGCAGCAATGCCCGCCAGGCAGGCCTTCGAACTGGCAACGACGGTGGTGGTGCCGTCGCGCGCCGAAGCCATGCCCTATATCGTGCTCGAAGCGCTTGCGGCGGGAAAAACGGTCATCGCCTCGCATGTCGGCGGCATTCCCGAAGTCCTTGGAAAAGACAGCGAGGCGCTCGTGCCGGCTGGCGACGCCGATGCGCTGGCACGGATCATGGTCAAGGATGCCGAGGATGCCGGCTGGGCGCAGCGGATCATGCCTCGCCCGGACAGCTTCAAGGCGAAATTTTCAACCCCGGTCATGGCGGATGAGATGATGAAACTCTATCGCGACCTGTTATCGACCCAATAG	MSDDGPPLRIIHCFRSPVGGVFRHVRDLIEEHVKQGHKVGIVCDSSTGGAHEERLFAQITPMLELGLTRLPIRRSISPGDFMALWKSYKHIKSLRPDILHGHSAKGGALARLIGSLLRANRYRVARLYSPHGGSLHYARNSLKGQLFLRLERFQEHFTDALCFVCNFEQATYEAKVGRPRTRTAMIYNGVQESEFETVPAREDAARFLYIGMLRDLKGPDVFIRAFAKMERSIGQPMTGVIVGDGPDRDKYAAMIDKAGLSRRISMHAAMPARQAFELATTVVVPSRAEAMPYIVLEALAAGKTVIASHVGGIPEVLGKDSEALVPAGDADALARIMVKDAEDAGWAQRIMPRPDSFKAKFSTPVMADEMMKLYRDLLSTQ				NA	NA	NA	NA	NA
BMS010_05092	1554			hypothetical protein	ATGACCAAGACTGACAAGGACAGGCTGCAATTCGATCTGGCGTCATTGCGCAAGAAACTCTCCGACCATGAAGCCGGCGGGGCTGCGGCCTCCGAAACCGTCGTTCTCAATCCGCTTGCACGGCAGATCGCCAACCAGCTTCGCGCCGGCAACCATTCGCCCAACATGGTGATCGGGCAATTGCGGCTTCTGGAATTCACGATGCTCGTCGTCATCGCCGCCATCGTCAACGGCATCGCAGCCGATCGCGGTCTCGAAACCTTTCTGTCGGTTTTCGGCGGCGGCGTGCTGGGGGCGGCGCTCTGCGTGTTTCTGTTGCAGGCCGGTGATTGCTATCAGCTTCCGACACTGCGCACGCCGCTGAAGATGTTCGCCCGCATTCAGGGCGCAGTGTGCCTCTCCTTCGTGGGAATTGCCTGTTTCCTTCTCCTCTTCTTTCCCGATGCGCTGCATTCCTGGCAGGCCTTCGGCATCTGGTATGCAACGGGTGCGGTGGCGATCTTCGCCGGGCGGCTGATCCTCGGCTTCGCCATTCGCCACTGGGGCCGCAACGGCGTCATGGAACGCCGTGCCGTCATCGTCGGCGGCGGCGATACCGCCAAGGACCTTATCCGCTCGCTGGAGCAGCAGTCCGATAACGATATCCGCATCTGCGGTATCTTCGATGACCGGAAAAGCGCCCGTTCTCCCGAGGTTGTCGCCGGCTATCCCAAGCTCGGCACCTTTGCGGAACTGGTGGAATTTGCCCGCCTGACGAAGCTGGACATGCTGATCATCGCCCTGCCGCTCAGCGCAGAGGCGCGCATTCTCCAGCTTCTGCGCAAGCTGTGGGTGCTGCCGGTCGATATCCGCATTGCGGCGCATGCCAATAAATTGCGTTTCCGCCCCCGCGCCTATTCCCATGTCGGCAAGGTGCCGATGCTCGATGTGTTCGACAAGCCGATCCGCGACTGGGATTCGGTGGCGAAACGGGTGTTCGACATCACCTTCAGCCTCATCGGCATCGCCCTTTTATGGCCGGTGATGGTGGGCGCGGGAATTGCCGTGAAAGCGACCTCGAAAGGCCCGGTCCTCTTCAAGCAGAAGCGCCACGGCTTCAACAATGAGACGATCAACGTCTGGAAGTTCCGTTCCATGTATACGGAACTCAGCGATCCGACCGCGAAAAAGGCCGTGACGAAGAACGACCCGCGCGTCACGCCCGTCGGCCGCTTCCTGCGCAAATCCTCGATGGACGAGCTGCCGCAGCTTTTCAACGTTCTTTATGGCGATCTTTCGCTCGTCGGACCGCGTCCGCATGCCGTTCATGCCCAGACGGGCGACCTGAAATATACCGAGGTGGTGGAGCACTATTTCGCGCGCCACAAGGTCAAGCCAGGTGTTACCGGCTGGGCGCAGATCAACGGCTGGCGCGGCGAGATCGACCATGGCGACAAGATCAAGTTCCGCACCGAATACGATCTCTATTACATCGAGAACTGGTCGCTGTTCCTCGATCTGAAGATCCTGTTCCTCACACCGATACGGCTGCTGAAATCGGAAAACGCCTATTGA	MTKTDKDRLQFDLASLRKKLSDHEAGGAAASETVVLNPLARQIANQLRAGNHSPNMVIGQLRLLEFTMLVVIAAIVNGIAADRGLETFLSVFGGGVLGAALCVFLLQAGDCYQLPTLRTPLKMFARIQGAVCLSFVGIACFLLLFFPDALHSWQAFGIWYATGAVAIFAGRLILGFAIRHWGRNGVMERRAVIVGGGDTAKDLIRSLEQQSDNDIRICGIFDDRKSARSPEVVAGYPKLGTFAELVEFARLTKLDMLIIALPLSAEARILQLLRKLWVLPVDIRIAAHANKLRFRPRAYSHVGKVPMLDVFDKPIRDWDSVAKRVFDITFSLIGIALLWPVMVGAGIAVKATSKGPVLFKQKRHGFNNETINVWKFRSMYTELSDPTAKKAVTKNDPRVTPVGRFLRKSSMDELPQLFNVLYGDLSLVGPRPHAVHAQTGDLKYTEVVEHYFARHKVKPGVTGWAQINGWRGEIDHGDKIKFRTEYDLYYIENWSLFLDLKILFLTPIRLLKSENAY	PGPT0018548_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLUCOMANNAN_METABOLISM	CE-EPS-GLUCOMANNAN_BIOSYNTHESIS,PGPT0018548-gmsA-na	NA	NA
BMS010_05093	1242			hypothetical protein	TTGACCCACACCGGCTACCAGCACGCACCGGATTTCGACGCGCCGCTGGCCGCCATGCGGCTCGTCGGTTCGTTCTTCATCGCATTCGGCGTGTTCCTTTCCGGTTTCGTCATTTCCGAGCCGGCGCCCTATGAGCTGATGATGGTGGGACAGGTGGCCCTGTGGTTCCTGCTCGGCCTTCGCCTCTCGCGCACCGTCGTCCTGCTTCTGTGCCTGCTGCTTGCCTTCAATGTCGGCGGTTATCTTTCGCTCACCACCATGGCCGATCTGGATGAGGGGCCGCTTTATCTCGCCGTCTCGACCTTTCTGGCGCTGACCTCGGTTTTTTATGCGGCGATCATAGAGGACAAATACCAGCGGCTGCTTTTGATTTTCCGGGCCTGGCTTGCGGCGGCGCTCATCACCGCCCTGCTCGGCATCATCGGATATTTCCACGCCATTCCGGGTTTCGAAGTCTTTACCCTTTACGACCGCGCCAAGGGCGCCTTTCAGGACCCGAACGTTTTCGGCCCCTTTCTGGTGACGCCCTCGCTTTACCTCATTTACGGCCTTCTCACCGGCAAGGCGATGCATGGGCCCTGGCGGATCGCCGGGCTGCTCATCCTTTCGCTTGCCGTGTTCCTGTCGTTCTCGCGCGCGGCCTGGGGCCTGTTTCTGTTCGCCACCATCCTCCTCGTCTTCGTGATGCTGCTGAAGGAGCGCACGGCCGCGTTTCGCCTGAAGATACTCGTGCTGTTTCTTGTCGCCGCCGGGCTGATGGTCGCGGCGGTCATCATCGCGCTGCAGTTCAAGCAGGTGGCGGATCTGTTCTCCAGCCGCGCTTCGGCGGTGCAATCTTATGACGGCGGCCATCTCGGGCGTTTTGCCCGCCACTATCTCGGCTTCCTGCTCGCCATGGAACACCCGCTCGGCATCGGCCCCATGGTGTTCGACAATATCTTTCCCGCCGCCGAACATAATATCTGGCTGAAGAGCCTGACGACGCATGGCTGGTTCGGTTTCGTGATCTATCTCGTGTTGATCTGCTGGACCATCGCCGCCGGTTTCAGGCACCTGCTGCGGCCACGGCCCTGGCAGCCGTTCCTCATCATTTCCTGGGTGACGTTCGTGGGACATGTAATGATCGGCGCCGTCATCGATACCGACCACTGGCGACACTTCTTCCTGCTGCTCGGCATATTGTGGGGATGCATGGCGCTTGAAAAACGCGAAAGCCTGCGCCGCCGCACGCGTGTCGCCTAA	MTHTGYQHAPDFDAPLAAMRLVGSFFIAFGVFLSGFVISEPAPYELMMVGQVALWFLLGLRLSRTVVLLLCLLLAFNVGGYLSLTTMADLDEGPLYLAVSTFLALTSVFYAAIIEDKYQRLLLIFRAWLAAALITALLGIIGYFHAIPGFEVFTLYDRAKGAFQDPNVFGPFLVTPSLYLIYGLLTGKAMHGPWRIAGLLILSLAVFLSFSRAAWGLFLFATILLVFVMLLKERTAAFRLKILVLFLVAAGLMVAAVIIALQFKQVADLFSSRASAVQSYDGGHLGRFARHYLGFLLAMEHPLGIGPMVFDNIFPAAEHNIWLKSLTTHGWFGFVIYLVLICWTIAAGFRHLLRPRPWQPFLIISWVTFVGHVMIGAVIDTDHWRHFFLLLGILWGCMALEKRESLRRRTRVA				NA	NA	NA	NA	NA
BMS010_05094	150			hypothetical protein	ATGACGCAGACCAATAATCTCTATCTCATTATCGGCGCACTCATCGTGGTCATCGCAGGCCTTGGCGTCTATGTCTGGCACGAGGAAAGCAAGCCGAAGGGGATCGAGATGAATATCGGCCCGAACGGCGTCTCCGTTCAGGAGAACTGA	MTQTNNLYLIIGALIVVIAGLGVYVWHEESKPKGIEMNIGPNGVSVQEN				NA	NA	NA	NA	NA
BMS010_05095	654			hypothetical protein	ATGGTCTCCTCCATCGACCTGTCCACACGCCTCACCGCCACCAGACTGGCCCTCAAGGCCATCAAGGAGCAGGAAGACAATTCCGCCGCAACATCCTCCTCCTCGACGCGGACGTCTCTCCTCGATTCCTACGGGCTGGACACCTCCTCCTCCTCGTCTTCCACCAACACGCGGCTCACGCAGCTTCTGGCGCAATATGCTGAGACCTCGAACGAGGATACGCAGACAGACGACACGGATACCCAGCTTTCTTCCGGCGATATTACCAAGGCCGATTTCATGAAGGAGCTGAAGGAGACGCTGGAAGAACTGACCGCGGATCCGGACAAGGCTTCGCAGGCCAAGGCCATGCTGGAGGCTTTGACGGCCGGCACGCTGACCGTCTCCGATCCCGCCGAGGGTGCGCAAATAAAGGCCTGGGATGTGGCCTCCGATACAGAAACCACCTCCAGGCCGGCCACGGATATCGCCATGACGGGATGGAGCGACTTTCTGAAAGACCATCTCAAGCGCGACGGCTCGGCCTATGCGAGAAGCGAGGCCGGCGCCTATGTCGATACCGTTTCCGGCGACAACGCGTTTTTCGGCAGTGTCGGCAGCCGCTATTATTATCTCACCTGGCCGCAGGCGAAAAACGGCACGTTGACCGTATAA	MVSSIDLSTRLTATRLALKAIKEQEDNSAATSSSSTRTSLLDSYGLDTSSSSSSTNTRLTQLLAQYAETSNEDTQTDDTDTQLSSGDITKADFMKELKETLEELTADPDKASQAKAMLEALTAGTLTVSDPAEGAQIKAWDVASDTETTSRPATDIAMTGWSDFLKDHLKRDGSAYARSEAGAYVDTVSGDNAFFGSVGSRYYYLTWPQAKNGTLTV				NA	NA	NA	NA	NA
BMS010_05096	537			hypothetical protein	ATGTCCGAACTCGTCGTTGTTGGTTTTGACGGAACGGAAGTGGCCGACAGGGTGCTTCTGAAGCTTGCAGGCCTGAAAAAGGAATATCTGGTCGATCTGGAAGATGCCGTGGTTGTCGTTCGCGATGAAGATGGCAAGGTGCATCTGAAACAGAGCGTCAATCTGACGGCGATCGGCGCAAGCTCCGGTTTCCTGTCCGGCGGTCTCTGGGGCGGCCTCGTCGGCCTGCTTTTCCTCAATCCACTGGCGGGATTTGCCATCGGCGGCGCGATCGGTGCCGGCACGGGGGCTCTTGCGGGTTCGCTAACGGATTTCGGCATCGATGACGATTTCATCAAATCGCTCGGGGAGACCATTCCCAACGGTTCTTCGGCGCTGTTCGTGCTGATCCGCAAGGTGCAGCCGGAAAAGGTGCTGGCGGAATTCGAAGGCCTGCGCGGGCGGGTCATCAAGACGTCGCTCTCGCCGGCGCAGGAAGCGCAGTTGCAAAAGGCGCTTTCCGGCGGAGCCGAACCGGCTGCCGCGCCTGCCGTCTGA	MSELVVVGFDGTEVADRVLLKLAGLKKEYLVDLEDAVVVVRDEDGKVHLKQSVNLTAIGASSGFLSGGLWGGLVGLLFLNPLAGFAIGGAIGAGTGALAGSLTDFGIDDDFIKSLGETIPNGSSALFVLIRKVQPEKVLAEFEGLRGRVIKTSLSPAQEAQLQKALSGGAEPAAAPAV				NA	NA	NA	NA	NA
BMS010_05098	261			hypothetical protein	ATGGCCAAAAAAACGAAGATAGAACACTCAGAATTCTCGGGCGAGTTTGAAGACGACGGCATCACGGTTCTGGTTGATATCTACCGGCCCGCTGGCACCCAGCAGGACTGGACGCTCGAGGTCATCAGCGAGCACGACGATGTCACCACCTGGGACGAACCCTTCGCGACCGACAAAGACGCCTGGGAAGAATTTCTGGCAACGTGTGAGAAGGACGGGATTCGCAGCTTTCTGGATGGCGAAGAACCGTCTGTTCACTAA	MAKKTKIEHSEFSGEFEDDGITVLVDIYRPAGTQQDWTLEVISEHDDVTTWDEPFATDKDAWEEFLATCEKDGIRSFLDGEEPSVH				NA	NA	NA	NA	NA
BMS010_05099	207			hypothetical protein	ATGTCCGACGCTGAAAAAATCACCCCCACACGGCCTGACGACATAGCCGGATATGTCATCCAATGTCACGACGGCGATGCGAAGGCGGCTGTCGAAGCTCTTCTCGGCGAAATCGAGCATCTGCAGGAACAGCTTTCCCTGGCGGTCGCCATTATGGGAAGGGGATATACGCGCGGATGGACGCCGCTGGACGGGATTGGGCGCTGA	MSDAEKITPTRPDDIAGYVIQCHDGDAKAAVEALLGEIEHLQEQLSLAVAIMGRGYTRGWTPLDGIGR				NA	NA	NA	NA	NA
BMS010_05100	228			hypothetical protein	ATGGATATCGATGAAGAGAAAATCGATGACACGGTGCTTGCACTGTTATGGCTGACCCTTCACAACGATTACTACGCTTGGAAGGGGCATGACTGGGATGTGCTGGAGCGTTTGCACCAGAAGGGCATGATCGATAACCCTGTTAATAAATCGAATTCGCTGGGGCTGACGCATGAAGGGCGTCAGCGTTCGGAGGCGTTGTTTCGGCAACTCTTTACGCGACAGTGA	MDIDEEKIDDTVLALLWLTLHNDYYAWKGHDWDVLERLHQKGMIDNPVNKSNSLGLTHEGRQRSEALFRQLFTRQ				NA	NA	NA	NA	NA
BMS010_05101	498	ftnA	COG1528	putative bacterial non-heme ferritin	ATGGCAAACAAAGTTATCGAAACGACGCTGAACGATCTCCTCAATGGCGAGCTGCGCGCACACCACGCCTATCTTCAGGCGGCCGCATGGGCGGCGGAACGCAATCTCGACGGTTGCTATAAATTCCTGCTCGGCCACGCGGCGGAAGAGCTGGAGCACATGCACCGCATCTTCGGCTTCCTGAACGATCTCGGCGCGCGCGTCACCTTTTCCGAGCTGCCGACGCCGCAGGTCACGGCAAACGACATCAAGGGGCTGTTCAGCATCGTGACGGAGCACGAATCCCGCGTCACCGCCGCCATCAACGCGGCAGTCGATCTTGCCCACGTGGAAAAAGACCACGCCACAACCTCATTCCTGCAATGGTTCGTGGATGAGCAGCATGAGGAAGACAGCCTTTGCCGCACCATACTCGGCAAGATCGAGCTGATCGGCGACGGCCCCAATGCGCTTTACCTGATCGACCGCGAAATCGGTCAGCTGGCGGACAAGGGCTGA	MANKVIETTLNDLLNGELRAHHAYLQAAAWAAERNLDGCYKFLLGHAAEELEHMHRIFGFLNDLGARVTFSELPTPQVTANDIKGLFSIVTEHESRVTAAINAAVDLAHVEKDHATTSFLQWFVDEQHEEDSLCRTILGKIELIGDGPNALYLIDREIGQLADKG	PGPT0003970_1251	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-RELATED_PROTEINS_FERRITIN,PGPT0003970-ftnA|ftn-K02217	NA	NA
BMS010_05102	456	pazS_2		Pseudoazurin	ATGAAACGATTTTTGATGACGCTTGCCACGGCTTTGGCCGTAATCCTGCCCGCCACGCCATCCCTTGCCGCAGAACACAAGATCCTGATGCTCAATTACGGCAAGGATGGCGGCATGGTGTTCGAGCCTTCATACGTGAAGGCGGAGCCGGGTGACACCATTACCTTCGTGCCGCAAAATTCCAGCCACTATGTGCAGTCCTATGCGGTTCCGGAAGGCGTTAGCCCCTGGAAAAGCAAGCTCGATGAGGCCTTCACCGTCACTGTCGAGAAGGAGGGTGTCTATCTCTATTATTGCCCGCCGCATCTGATGATGGCGATGATCGGCATCATTCAGGTCGGCAAGCCCGTCAATCTCGAAGCCGTCAGACAAAAGGCCGAGAAGCTGCGGCCCAAGCTCGTCATGAAGAGCGAAAGGCTTGAGACGGTGCTGGGGCAGGTGACGCCCGCACAATAA	MKRFLMTLATALAVILPATPSLAAEHKILMLNYGKDGGMVFEPSYVKAEPGDTITFVPQNSSHYVQSYAVPEGVSPWKSKLDEAFTVTVEKEGVYLYYCPPHLMMAMIGIIQVGKPVNLEAVRQKAEKLRPKLVMKSERLETVLGQVTPAQ				NA	NA	NA	NA	NA
BMS010_05103	822	fepC	COG1120	Ferric enterobactin transport ATP-binding protein FepC	ATGATGGTTCTGGATAATATTTCCGTCGAACGGGGCGGGCAGGTTATTGTGAGAGACCTCTCGGCACGCCTGGAGCCCGGGCAAATCCACGCCGTCATCGGCCCGAACGGCACAGGTAAGACGACGCTTCTCAGAGCGATCTTCGGCGACCTGCCGCTCGCTGCAGGCGCGATCAGCCTCGGTGATCGTCGCCTTCAGGCCGGGGAAAGGGCAGGGCGGCACAGAAGGGAATGGCGGGATCGTTTCGCCTATATGCCGCAGGACACGGCCGCCGATATAGCGCTCAGTGTGCTGGAGGTGGTGGCGCTCGGCCGCTTCGGCCGGCTTTCGCTTCATATCGACGACGAAACGCTCGATCTGGCGATGACACGCCTGCATCAGGCCGGAATAGCCCATCTGGCGGGCAGGGAGATCGCCTCGCTCAGCGGCGGGCAACGGCAGATGGCGCTTTTCGCGCAGGTTCTGATGCGTGAACCGCAGGCGATGCTGCTCGATGAGCCTGTCAGCGCGCTGGACCTCAAGCATCAGGTGGCGCTTCTCGATCTGGTGCGGCAGGAAACCCGCGCCAATGGCCGGGTGACGCTTGTTGTGCTGCATGATCTCAATCTCGCCTGCCAATATGCCGACAACCTGCTGGTGATTTCGGATGGCGCGCTGAAGGCGACCGGCGCACCGGGCGATATCGTCACGCCGAAGCTCATTTCCGAAACCTATGGCGTTGCCGTGGAGGTGTTGCGCGACCGGCGCGGCAATCCCGTCATCCAGCCGGCGGGCGACCCGCCGCTCGAACATTTCAAAACCCTTGAAGGAATAATTGCATGA	MMVLDNISVERGGQVIVRDLSARLEPGQIHAVIGPNGTGKTTLLRAIFGDLPLAAGAISLGDRRLQAGERAGRHRREWRDRFAYMPQDTAADIALSVLEVVALGRFGRLSLHIDDETLDLAMTRLHQAGIAHLAGREIASLSGGQRQMALFAQVLMREPQAMLLDEPVSALDLKHQVALLDLVRQETRANGRVTLVVLHDLNLACQYADNLLVISDGALKATGAPGDIVTPKLISETYGVAVEVLRDRRGNPVIQPAGDPPLEHFKTLEGIIA	PGPT0003760_1976	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003760-yusV|ABC_FEV_A|feuD-K02013	NA	NA
BMS010_05104	1053	btuC_1		Vitamin B12 import system permease protein BtuC	ATGACAATTGCCGCCCGCAATGCCGAAGCCATCGGTGCGCACCGGCTGCGTGAACGTCGTCGCTGGCGCGTCGTCTTGGTCTTTTTCGTGCTGATGGCGGTGAGCCTCGTTCTCGATATCGCCACCGGTCCCTCGCTGCTGTCGCCCGCCGAAGTGGTGAAGTCGCTGACCGGCCTTGGCGAACGGGCGGCGATGACCGATTCCATCGTGCGCGGCCTTCGCCTGCCCATGGCGCTGATGGCGCTTGCCGTCGGAGCGGCGCTCGGCGCCGGCGGCGCGCAGATGCAGACCTTGCTGAATAATCCCATGGCAAGCCCCTATACCCTCGGCATGGCGGCTGCGGCGGGCTTTGGCGCCGCGCTGGTGCTTTCGCTCGGCGGTCTCGGGCTGGATGCCATGATTGCCGTTCCGCTCGGCGCTTTCGTCTTCTCCATGCTTGCCGCGCTCTTTCTCTTCATGCTGGCCTCCATGCGGCAGATGACGGCCGAAACCATCATTCTCGGCGGCATCGCGCTTCTTTTCCTGTTTCAGTCGCTACTGTCGCTCATCCAGTTCCTGTCCTCGCCGGAACTGTCGCAGCAGATTCTTTTCTGGCTGTTCGGCAGCCTGACCAAGGCGACCTGGCCAACGCTTGGTTTGACAGCCGCCGTCACCGCTTTCTGCTGCGCCCTGCTGATGGCGGATTGCTGGAAACTGACGGCGCTGAGGATGGGGGAAATGCGGGCAGCCAGCCTCGGCATCAATGTGCGCCTGCTGCGCATGAAGGTTCTCATCATCGTCGCCATCATGACAGCGACGGCAACGAGTTTTGTCGGGGTCATCGGTTTCATCGGGCTGGTCGCGCCGCATATCGCCCGTATGACGGTGGGCGAGGATCAGCGCTTCTTTTTGCCCATGTCGGTACTGAGCGGCGCGCTGATGCTCTCGGCAGCCTCGATTCTCTCCAAATCGATCATTCCCGGCGCTCTGTTCCCGGTCGGCATCGTAACCGCCATTGTCGGCGTGCCGTTTCTCCTGTGGCTGATTTTCGCTCCGAAGAGGCGCGGCCGATGA	MTIAARNAEAIGAHRLRERRRWRVVLVFFVLMAVSLVLDIATGPSLLSPAEVVKSLTGLGERAAMTDSIVRGLRLPMALMALAVGAALGAGGAQMQTLLNNPMASPYTLGMAAAAGFGAALVLSLGGLGLDAMIAVPLGAFVFSMLAALFLFMLASMRQMTAETIILGGIALLFLFQSLLSLIQFLSSPELSQQILFWLFGSLTKATWPTLGLTAAVTAFCCALLMADCWKLTALRMGEMRAASLGINVRLLRMKVLIIVAIMTATATSFVGVIGFIGLVAPHIARMTVGEDQRFFLPMSVLSGALMLSAASILSKSIIPGALFPVGIVTAIVGVPFLLWLIFAPKRRGR	PGPT0003770_3258	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_TRANSPORT,PGPT0003770-feuB|feuC|chuU|yfhA|hmuU|ABC_FEV_P|fatC|fatD-K02015	NA	NA
BMS010_05105	1113	btuF_2		Vitamin B12-binding protein	ATGACCCGCAAAAAATTTATCGGCGGCCTTGCCGCATCGTTCTTATCCGTTTTCTTTATCGCACCTTCCGCCACCGCTGCAGAGAAGACCATCACTGACGTCATCGGACGCGAGGTGAAGGTTGATCTTCCTGCAAAACGCGTCGTTCTCGGTTTCTATTTCGAGGACTACATGGCGGTGGGTGGCGAAAAGGCCTATGATTCCGTCGTCGGCATTTCCCGCGAAGCGTGGGAAGGCTGGGTTCCCGCCAACTGGAAAATGCATCTCGCTCACCGCGCCTCGCTTGCGGATATTGCCGATGTCGGCGAAGTCGAAGCCCAGACCTTCTCGGTCGAAAAAGTGCTGAGCCTCAATCCCGATCTGGTGATCTTGGCGGATTGGCAATACAAGGCGCTCGGTCTCGATGCCGACCGTCTGGAAGAAGAGGGTATTCCCGTCGTTGTCGTCGACTATAACGCCCAGACGGTCGAGCGCCACGTCGCCTCCACCCGGCTTTTCGGCGAACTCACCGGCCAGCAGCAGCGCGGCAAGGAAATTGCCGAATTCTACGCCGGTTCGCTGAAGGATGTCGCCGAACGGGTGGCGAAATCCGGTCAGCCGAAACCGAAGGTCTATGTCGAATTCGGCAATAAGGGACCGGCCGAATATTCCTTCACCTATGGCAAGAACATGTGGGGCGCCATGTCCACCGCCGCTGGCGGCGACAATATCGCAGCACCTTTCGTCGAGTGGTGGGGACCGATCAATCCCGAGCAGGTTCTGGCTTCGAAGCCCGACGCCATCTTTATTTCCGGCCGTGAAAACAACAAGAACCCCGCAGCGCTGGCGATGGGGCAGGCGGTGAAGGCAGCGGATGCCCGCGAAAAGCTCAAGGCCTTCGAAACCCGTCAGGGCTGGAGTGAAGTGCCGGCCATCAAGAACGGGCAGCTGTTCGGTGTCTATCAGGGCGCGTCGCGTACGCTCTCCGATTTCGCCATGGTGCAATATATCGCCAAGCAGCTTTATCCCGAGCAGTTCAAGGATGTCGATCCGATCGCGAACTATCTCGGCTATTACAGGAAGTACCTGCCGGTCACGCCTGAAGGCACCTTTGCCATCGCCGTCAAGGATTGA	MTRKKFIGGLAASFLSVFFIAPSATAAEKTITDVIGREVKVDLPAKRVVLGFYFEDYMAVGGEKAYDSVVGISREAWEGWVPANWKMHLAHRASLADIADVGEVEAQTFSVEKVLSLNPDLVILADWQYKALGLDADRLEEEGIPVVVVDYNAQTVERHVASTRLFGELTGQQQRGKEIAEFYAGSLKDVAERVAKSGQPKPKVYVEFGNKGPAEYSFTYGKNMWGAMSTAAGGDNIAAPFVEWWGPINPEQVLASKPDAIFISGRENNKNPAALAMGQAVKAADAREKLKAFETRQGWSEVPAIKNGQLFGVYQGASRTLSDFAMVQYIAKQLYPEQFKDVDPIANYLGYYRKYLPVTPEGTFAIAVKD	PGPT0003765_1597	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003765-feuA|yvrC|ABC_FEV_S|fatB-K02016	NA	NA
BMS010_05106	588			hypothetical protein	ATGCGAAGATTTTGGAAGTGCTCCTTTTGGGGCATGGGTATTGCTGTGCTTGCCGCAGGCGGTTACCTCTACGCCATTCAGCTCCTGGGCAATTTTCACGAGGTTGTCGCGGGGCAGCTTTATCGCTCCAACCAGCCGAGCAATGAGCAGCTCGTCCGCTATACCAAAGACCATGGTATCAGGACGGTCATCAATCTGCGCGGTGCGAACGAATCCAAGGCCTGGTATCGCGATGAGGTCGAAACCGCCCGCGAACTGGGACTTAATCATATCGATTTCGGCATGTCGGCAAGTCAGGAGCTCGACATGAACAGGGTCAACGAGCTGGTCGCCATCATGCGCGATGCGCCGAAGCCCATCCTCATTCATTGCAAGGCCGGTGCGGACAGGACAGGCCTCGCCACCGCGCTCTATCTCAGCCGCGTGGCAAAGCTTGATGAGGAACAGGCGGAAAGCCAGCTTTCCTTCCGCTTCGGCCATATCGGCATTCCCTATCTCTCGGAAACTTACGCCATGGACCGGACCTGGGAGAACGCGGAAAAGATGCCAGTCGTCGACGATTTCGCCATCGCCTCCAACGAGTTCTGA	MRRFWKCSFWGMGIAVLAAGGYLYAIQLLGNFHEVVAGQLYRSNQPSNEQLVRYTKDHGIRTVINLRGANESKAWYRDEVETARELGLNHIDFGMSASQELDMNRVNELVAIMRDAPKPILIHCKAGADRTGLATALYLSRVAKLDEEQAESQLSFRFGHIGIPYLSETYAMDRTWENAEKMPVVDDFAIASNEF				NA	NA	NA	NA	NA
BMS010_05107	588			hypothetical protein	ATGCTGAAAAACATCTATGCCTGGACGATGGCGCTCGCCGCGCGCAAAACCGCCGTGTGGTGGCTGGCAATCGTGGCTTTCGTGGAAAGCTCCATCTTCGTTGTGCCTGCCGATGTGCTTTTCCTGCCCATGGTGCTGGCCAGACCGAAAAAGGCGATGTTTTATGCGCTCGTGGCAACTGTCGCCTCGGTTCTTGGCGGCATCGCCGGCTGGTTCCTTGGCCACTATGCCTTTGAAAGCATCGCGCGGCCCATTCTCGAATTTTACGGCAAGCTCGACAGCTTCGAGCATCTGAAGAACTCCGTTGACTACGAAACCATCGTTCTCCTGCTGGTGACATCGGGGCTCGCGCATCTGCCGCCGATCAAGGTCGTGACTATCCTCTCCGGCGCGGCCAATATCAGCCTTGGTCTGTTCATTCTTTCGGCCGTCGTCACGCGCGGCGCGCGCTTTTTCATCCTTGCCGGATTGCTGCAGAAATACGGGGAATCGGTGCGTCATTTCATCGAAAAACGCCTCGGCGCCATCACCGCGGCAGCCGCCGCCGCGCTCATCGCGGTCTATGCGGTTTACGTTTTCGTGCGTTGA	MLKNIYAWTMALAARKTAVWWLAIVAFVESSIFVVPADVLFLPMVLARPKKAMFYALVATVASVLGGIAGWFLGHYAFESIARPILEFYGKLDSFEHLKNSVDYETIVLLLVTSGLAHLPPIKVVTILSGAANISLGLFILSAVVTRGARFFILAGLLQKYGESVRHFIEKRLGAITAAAAAALIAVYAVYVFVR				NA	NA	NA	NA	NA
BMS010_05108	102			hypothetical protein	ATGGACTATGTAAACTTCGTTACATCGATCAATCCGGTCATACTTGTCATTCTGCTGGTGGTTCTTCTTGCAGGCGCCTACAGTAGCTGGGTTTCGCACTAA	MDYVNFVTSINPVILVILLVVLLAGAYSSWVSH				NA	NA	NA	NA	NA
BMS010_05109	645			hypothetical protein	ATGACGAACGAATTCGCATTCACTGATACGTCTGAAAAGCTCAGCACTACGCTTGAGAAGCTGATAGGAAAGTTGCAGGGTCAGACGATAACGTTGCGCGAGTTAATGGAAGCGATCGGCGAACAGGGCCTTTTGCTCATCTGCGCAATCGCCTCCCTGCCCTTTCTCATCCCGGTTTCCATTCCCGGCGTCAGCACGGTCTTTGGCGCGGCGATCATTCTTGTCAGCCTGGCAATCACCCTCAACCGCCTGCCATGGCTGCCGGCAAAAATCCTCGACCGGCAGATGGAGACGGCAAAGCTCGTTCCCGCCCTTCAAAAAGGCGTCGCCATTGTCTCCAAGCTCGACGGTTTCATTCGTCCGCGCATCCCCGCGCTGACGACCGGCATCATCGCCAACCGCATAAACGGACTTGCGCTGATGACGGCGGGCGTATTGCTGATGATGCCGCTCGGCTTCATTCCCTTCTCCAACACCCTTCCAGGCGTTGCGATCCTGCTTTTTTCGGCAGGGATGATTCAGAGGGATGGCGTGACCGTGCTCGGCGGCTACCTGTTTCTGGGGCTAACGGCGATTTATTTCGCAGCGCTCGCCTATGCGGCCTTCTGGGCTGGCCAGGGCATCAGCAGTTCCATCGGCGCATAA	MTNEFAFTDTSEKLSTTLEKLIGKLQGQTITLRELMEAIGEQGLLLICAIASLPFLIPVSIPGVSTVFGAAIILVSLAITLNRLPWLPAKILDRQMETAKLVPALQKGVAIVSKLDGFIRPRIPALTTGIIANRINGLALMTAGVLLMMPLGFIPFSNTLPGVAILLFSAGMIQRDGVTVLGGYLFLGLTAIYFAALAYAAFWAGQGISSSIGA				NA	NA	NA	NA	NA
BMS010_05110	219			hypothetical protein	ATGCCGCGTTCGCGTGTCGGCAGGATTGCGACGGGCTCGGCGCTGGTGGTGGGCGGAACGCTGGGTTTCCTGCCCGTTCTCGGCTTCTGGATGGTTCCGCTCGGTCTCGTCGTGCTTTCCCACGATCTGCCGGCGGTTCGCCGCCAGCGGCGACGGCTGGCGGTCTGGTGGGCATCGCGGCAGAACCGCCGCGACACCCGCAATGGCGACCGGCAATAG	MPRSRVGRIATGSALVVGGTLGFLPVLGFWMVPLGLVVLSHDLPAVRRQRRRLAVWWASRQNRRDTRNGDRQ	PGPT0018570_428	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0018570-malQ-K00705	NA	NA
BMS010_05112	390			hypothetical protein	ATGAGCCATGACCGCGAAGCCGCAATCCGTGAAAAAGCGCGCGCAATATGGGAGAGGGAAGGAAGACCCGACGGGCACCATGAACGACACTGGATCGAGGCGGAACGGGAGCTTTCCGCAGATGCGGAAGCGGCGAAGGCCAAAAGCGGAAATGGCGTGAAGAAGGCTGCTGCCGCGAAGGCGCCTGCGAAGAAGACGCCAGCGAAAAAGGCAACTCCGGCAAATGCCAAATCACCCGCGGTAAAATCGCTTGAGAAAGAGCGGAAATCTACGGATAAGAACAAGGAAGACGATCTCACCGAGAGCCTTGAGGAGAGTTTTCCGGCAAGCGATCCTCCGGCGCTTACCAACGCCACGAAGGCGACGAAGCGGGCGGTCAAAAAGAACTGA	MSHDREAAIREKARAIWEREGRPDGHHERHWIEAERELSADAEAAKAKSGNGVKKAAAAKAPAKKTPAKKATPANAKSPAVKSLEKERKSTDKNKEDDLTESLEESFPASDPPALTNATKATKRAVKKN				NA	NA	NA	NA	NA
BMS010_05113	240			hypothetical protein	ATGACCACCCAGCAGAAGCCGAAAACCGAACCGCTTGATATTGAGGACGATGATGTCGCGCGGTTCGAAACAGACAGCGAGCTGAAAGCCAAAGATGTCGAGATTTACCCGGACGAGAGCGTGAGCCTGCGTGCGCGCCGGCAGGCCGCAAGGCAGCACGAGGACGCCTTCATCGTCGCCACAGACCTTGAGGACGACGACCAGCGCGACGCAGCACCTGGCACCAGAGAGCAGCCTTAG	MTTQQKPKTEPLDIEDDDVARFETDSELKAKDVEIYPDESVSLRARRQAARQHEDAFIVATDLEDDDQRDAAPGTREQP				NA	NA	NA	NA	NA
BMS010_05114	375			hypothetical protein	ATGCTGAACCAGGCAGAAAAATACACCGGGCTGCATGAGTCCAAGAACAACAAGAGCCTCAAGAACATTCTTGGCGCAAATCCGCGCAGCACCCCATGGTGCGGCCTTTTCCTGCATGCGGTCGCCAGCAAGGCCGGCCGGCAATCTCCCAAATCCTATGGATTTGCGAAGTCCTGGACATCTTTCGGTTATGCCGTGCCAGTCAGTCAGGCGAAGCCCGGCGATGTCGTCGTCATTCGCAATGGCCGCGGTTACCACGCCGGCATTTTGAAGAGCATGAGCGGCAAGACCGCCCAGATCCTCGGCGGCAACCAGTCCGGCCGGGTGCAGGTGTCGAACTTCAACCGCAAGGCCATCGTTTCGGTCCGCCGATAA	MLNQAEKYTGLHESKNNKSLKNILGANPRSTPWCGLFLHAVASKAGRQSPKSYGFAKSWTSFGYAVPVSQAKPGDVVVIRNGRGYHAGILKSMSGKTAQILGGNQSGRVQVSNFNRKAIVSVRR				NA	NA	NA	NA	NA
BMS010_05115	558		COG0350	DNA base-flipping protein	ATGAGCAACCACTACGGCTATATTGTTTTTCCCACAGCCCTCGGCCATTGCGGCCTTACATGGGCAGGCCGGGGCATTGTGCGTTTGCAATTGCCCGGCTCTGACGCCGGCGAGACCGAAAAACTTCTCCAGAAGCGCCTGCCATCCGCCTCCATCGCCGTTCCCGACACACGCATGCGTGAGGTGATTGCGATGATCACCCGTTATTTCGGCGGCGAGGAGATCGATTTTACCGCCGTTGAACTCGATCTCGCCGGGCAAGAGCGTTTTTTCCTCGATGTTTACGCCGTTGCGCGGCAGATCGGCTGGGGCGACACGACGACCTATGGCGGCATCGTAAAAACGCTAGGCCTCGGTATGGAAAAGGCCCGCGATGTCGGTCAGGCCATGGCGAAAAATCCGGTGCCGTTGATCATTCCCTGCCATCGGGTTCTCGCCGCCGGCGGCAGGCTTGGAGGCTTCTCCGCACCGGGCGGAACCACCACCAAATTGCGTATGCTGGATCTCGAAAATGCCGGCCGCAGCCGCACCGATGAGGCGCAGGGCAGCCTGTTTTGA	MSNHYGYIVFPTALGHCGLTWAGRGIVRLQLPGSDAGETEKLLQKRLPSASIAVPDTRMREVIAMITRYFGGEEIDFTAVELDLAGQERFFLDVYAVARQIGWGDTTTYGGIVKTLGLGMEKARDVGQAMAKNPVPLIIPCHRVLAAGGRLGGFSAPGGTTTKLRMLDLENAGRSRTDEAQGSLF				NA	NA	NA	NA	NA
BMS010_05116	270			hypothetical protein	ATGTTGCTGAATGACGTTAAGTGGGAAAAGCCCGTTACCATCTCCCTTGAAAACGGTGCTCCCCGTATTTTCAATGGCGTTTACGAAGCCTTCGATTTTCTCCAGCACGAATGGCCTGAGCGTGGCGACAAGGTGCATGAACAGGCGCTGCGCCTGTGCCGCGCCTCGCTGATGGGCGACGTGGCGGGGGAAATTGCCCGCACGGCCTTCGTTGCCGCCAGCCGGCAGGCGCGGTGCCTTGTGGAAGAGCCGGGCAAAATCGCGTCCTGA	MLLNDVKWEKPVTISLENGAPRIFNGVYEAFDFLQHEWPERGDKVHEQALRLCRASLMGDVAGEIARTAFVAASRQARCLVEEPGKIAS				NA	NA	NA	NA	NA
BMS010_05117	1440	phrA	COG0415	Deoxyribodipyrimidine photo-lyase	ATGCCGACAACAGCCTCCCCCGCCATCGTCTGGTTCCGCAAGGACCTGCGCCTTTCGGACAACCTCGCTTTGCTTGCCGCCGTGGAGCATGGCGGCCCCGTCATCCCCGTCTATATCAGGGAAAAATCATGCGGCCCGCTGGGCGGCGCGCAGGAATGGTGGCTTCACCACTCCCTCACGTCCCTTACCACCGCACTGGAAAAAATCGGCAGTCGCCTCGTGCTTCTGAGCGGCGACGCCGGCGAGACATTGCGCCATCTGATATCCGAAACCGGTGCGGAGGCGGTATTCTGGAACCGCCGATACGATCCCGCCGGTATGGCGAGGGACAAGGCGCTGAAACAGACGCTTCGGGATGACGGCCTGACCGTCCGCAGCTTCTCCGGCCATCTGCTGCATGAGCCATCGAGGCTTCAGACGAAATCCGGCGGTCCCTACCGGGTCTATACGCCCTTCTGGCGGGCGCTGGAGGGCGGCGAGGAGCCACATGCGCCGGCGGATGCGCCGAAGGGTCTGAAGGCGCCGAAGACGTGGCCGAAATCGGAAAAGCCTGGCGATTGGAAACTGTTACCCACCAAGCCGGACTGGGCGAAACACTTCGGCGACATATGGTCTCCCGGCGAAGGCGGGGCGCGGGAAAAACTCGACGATTTCATCGATGGCGCTTTGAAGGGTTATGAAGAAGGCCGCGACTTTCCGGCAAAGGACGCCACCTCTTTGCTTTCGCCGCATCTGGCGTCCGGCGAAATATCGCCTTCTACCGTCTGGCATGCGACGAAGGGGCTTTCCCGCCATATCGCCTCAAACGATATCAGCCGTTTTCGCAAGGAAATCGTCTGGCGGGAATTCTGCTATCACCTGCTGTTTCATTTTCCCGAACTCGACGAAAAGAACTGGAACGACAGTTTCGACGCCTTCCGCTGGCGAGACGATGAAAAATCCTTCACGACGTGGACCCGCGGGATGACGGGATATCCGATCGTCGATGCCGGCATGCGGCAATTGTGGAAACACGGCACCATGCATAACCGGGTGCGTATGATCGTGGCGTCCTTCCTCATCAAACATCTGCTGATCGACTGGCGGAAGGGCGAGAAATGGTTCCGCGACACGCTTGTCGATGCGGACCCGGCCTCCAACGCAGCCAACTGGCAATGGGTGGCGGGATCAGGCGCGGACGCCTCGCCGTTTTTCCGCATCTTCAACCCCATATTGCAGGGCGAAAAATTCGACTCCGATGGCGATTATGTGCGCCATTTCGTGCCGGAGCTGGAAAAGCTTGAGCGAAAATACATCCACAAGCCGTTCGAAGCGCCAAAAGAGGCCTTGAAGAAGGCGGGCATCGAGCTTGGCAAGACTTATCCGCTGCCGATTGTCGACCATGGAAAAGCACGGGAAAGAGCGCTTGCGGCCTATGCCGACGTCAAGAAGAACGCATAA	MPTTASPAIVWFRKDLRLSDNLALLAAVEHGGPVIPVYIREKSCGPLGGAQEWWLHHSLTSLTTALEKIGSRLVLLSGDAGETLRHLISETGAEAVFWNRRYDPAGMARDKALKQTLRDDGLTVRSFSGHLLHEPSRLQTKSGGPYRVYTPFWRALEGGEEPHAPADAPKGLKAPKTWPKSEKPGDWKLLPTKPDWAKHFGDIWSPGEGGAREKLDDFIDGALKGYEEGRDFPAKDATSLLSPHLASGEISPSTVWHATKGLSRHIASNDISRFRKEIVWREFCYHLLFHFPELDEKNWNDSFDAFRWRDDEKSFTTWTRGMTGYPIVDAGMRQLWKHGTMHNRVRMIVASFLIKHLLIDWRKGEKWFRDTLVDADPASNAANWQWVAGSGADASPFFRIFNPILQGEKFDSDGDYVRHFVPELEKLERKYIHKPFEAPKEALKKAGIELGKTYPLPIVDHGKARERALAAYADVKKNA				NA	NA	NA	NA	NA
BMS010_05118	1038	cysK_1		Cysteine synthase	ATGACCATTCACTCCTCTGCGCTCAGTGCTATCGGCAACACGCCGCTCATCCGTCTGAAAGCCGCCTCTGAAGCGACGGGGTGTGAAATCCTCGGCAAGGCGGAATTCCTCAATCCCGGGCAATCGGTGAAGGATCGCGCCGCACTCTACATTATCCGCGATGCCGAGCGGCGCGGTCAGCTGCGACCGGGCGGCACCATTGTGGAGGGTACTGCGGGCAATACCGGCATCGGTCTGTCGCTGGTCGCCAATGCGCTGGGTTACAAGACGGTCATCGTCATTCCCGAAACGCAGAGCCAGGAAAAGAAGGACGCGCTGAAGCTTCTCGGCGCCAAGCTGGTCGAGGTTCCGGCCGCCCCCTATTCCAACCCGAACAATTACGTGAAGGTTTCCGGCCGGCTGGCAAAACAGCTTGCCGCGACGGATGAAAACGGCGCGATCTGGGCCAACCAGTTCGACAACATCGCCAACCGTCAGGCCCATATCGAAACGACGGCCCCCGAAATCTGGGACCAGACGGACGGCAAGGTGGACGGCTTCATCTGCTCGGTCGGTTCCGGCGGAACGCTTGCGGGCGTGGCCGATGGCCTGCGCGACTTCAACCCCGACATCAAGATCGGCCTTGCCGATCCCGAGGGTGCGGCTCTCTATGAATTTTACAAGCACGGCGTGCTGAAATCCGAAGGCTCGTCCATCACCGAAGGCATCGGACAGGGGCGCATCACCGCCAATCTGGAAGGTTTTACGCCTGACTTCTCCTATAGGATTTCGGATGCGGAAGCGCTGCCGGTGCTGTTCGATCTGGTGACGAAGGAAGGGCTTTGCCTTGGCGGCTCCTCCGGCATCAACATTGCCGGCGCAATCCGCCTTGCCCGCGAGCTCGGTCCGGGGCATACAATCGTGACGATACTGTGCGACTACGGCAATCGTTATCAGTCGAAGCTTTTCAATCCGGATTTCCTGCGTTCCAAGGGACTTCCGATCCCACAGTGGCTGGCGACGAAAAGCGAGATTGCGGTTCCGTACGAAACCGTTTGA	MTIHSSALSAIGNTPLIRLKAASEATGCEILGKAEFLNPGQSVKDRAALYIIRDAERRGQLRPGGTIVEGTAGNTGIGLSLVANALGYKTVIVIPETQSQEKKDALKLLGAKLVEVPAAPYSNPNNYVKVSGRLAKQLAATDENGAIWANQFDNIANRQAHIETTAPEIWDQTDGKVDGFICSVGSGGTLAGVADGLRDFNPDIKIGLADPEGAALYEFYKHGVLKSEGSSITEGIGQGRITANLEGFTPDFSYRISDAEALPVLFDLVTKEGLCLGGSSGINIAGAIRLARELGPGHTIVTILCDYGNRYQSKLFNPDFLRSKGLPIPQWLATKSEIAVPYETV	PGPT0002810_2023	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0002810-cysK-K01738	NA	NA
BMS010_05119	738	alaS_2	COG0013	Alanine--tRNA ligase	ATGCCTGTGAATGCCCTGTTCCGTGACGATTTTTATCTTTCCACCGCAGAAGCGATCGTCACGGCGGTGCATGAGGATGGCGGCATAGAACTGGACCAGACATGCTTTTACGCCACCTCCGGCGGCCAACCCGGTGATAGCGGTTTTCTCGAGCGGGCCGATGGTTCACGCATCGAACTCGGTATCACCAAAAACGGCGCCGACAAGAGCGTGATCATCCATGTGCCGCTCGAAGGCCAGCCTTCTCCTGAAGTCGGCGAAAAACTCACCCTGCATGTGGACTGGCCGCGTCGCTACAAGCTGATGCGGATGCACACCGCCTGCCATCTGCTCTCCGTCGTGTGCCAATGGCCGATCACCGGAGCCGCCGTCGGCGAGGATGAATCGCGTGTCGATTTCGACATGTCCGAGACCATCGACAAGGACGAAGTCACGGCAAAGCTTATGGAGCTGGTGAAAGCCAACCATCCCGTCTTCCTGCAATGGATCACCGACGAGGAGCTGCAGGCCAATCCGGGCATCGTCAAATCCAAGAATGTGCGCCCGCCAATGGGCCTTGGCCGGGTCAGCCTCGTCTGCATCGGCGAAAACTCCAGCATCGACAGCCAGCCCTGCGGCGGCACCCATGTTTCCGAAACGCAGGAAGTGGGCGATATTCACATTGCCAAAATAGAAAAGAAGGGCAAGGAGAACAGGCGATTCCGCATTCGTTTCGGCGCGCCTGAAGCTGTTGCCTGA	MPVNALFRDDFYLSTAEAIVTAVHEDGGIELDQTCFYATSGGQPGDSGFLERADGSRIELGITKNGADKSVIIHVPLEGQPSPEVGEKLTLHVDWPRRYKLMRMHTACHLLSVVCQWPITGAAVGEDESRVDFDMSETIDKDEVTAKLMELVKANHPVFLQWITDEELQANPGIVKSKNVRPPMGLGRVSLVCIGENSSIDSQPCGGTHVSETQEVGDIHIAKIEKKGKENRRFRIRFGAPEAVA				NA	NA	NA	NA	NA
BMS010_05120	1422			hypothetical protein	GTGAGCACGGATAAGAGCCGTTTCGTCGTTTCGGCGGACTGGGTGGAAAAGCAGCTCGGCACGGCCGGGTTTCGTGTCGTTGATGCCTCCTGGTATCTGCCGGCGCACAAGCGCAACGGTGCGGAAGAATATGCGGCGGGTCACCTGCCAGGTGCGGTATTCTTCGATCAGGACAAGATCGCCGATCATACCACCGGCCTGCCGCATTCCCTGCCCTCGCCGGAATTCTTCGCGGAACAGGCCGGTGCGCTTGGCCTCAGCGACACCGATACGATCGTGGTCTATGACGGCCCCGGCTTCTTTTCCGCGCCGCGCGTGTGGTGGATGCTGCGGGTGATGGGCGTGCGCAAGGCCTATGTGCTGGATGGCGGCCTCGATGGCTGGAAACGCGAAGGCCGGCCGCTCGAAACCGGTACGCCGGAAATCGAGCCGGCAACCTTTACGCCTGATTTCAACGAGAAGCGCGTAACCTCGCTTGACGCCATGCGCGGCATTGTCGACAGCGGCGAAAAACAGATTGCCGACGCCCGTGGCGCCGGGCGCTTTACCGGCGACGAGGCCGAGCCGCGTGCCGGCATGCGTTCCGGCCACATGCCGGGTGCGCGCAGCCTGCCTGCGACGGCCTTTTCCGAAAACGGCAATTTCAAGGACCTCACCGCCATCCGCAAGATGGTGACCGATGCCGGCATCGATCTTTCGAAGCCCGTCGTCACCAGTTGCGGCTCGGGCGTCACCGCCGCCGTCATTACGCTTGCGCTGGAATCGCTCGGTCACAAGGATAATTCGCTTTACGACGGCTCATGGTCGGAATGGGGCGGATTGCAGGATACGCCGGTGGTTACTGGTCCCGCGGATGCAATCCCCACCTTGTCGCACGGACCGCTGAAGGCGCATGTGACGCAGCTGGAAATGACGGCTCCGCCGAAGGTCAGCCTGCCGATCCCGGTCAACATCCAGACGGCGCTGATGCGGGTCAACAATATTCCCCTGCATTTCTACCGCTATCTCTACTGGCGGGTGGGGAAACGCTGGCACTGGCAAAAGCGCATGCGCATGAGCGATGCGGAGCTTTCCTCCATTCTGCGCGATCCGAAAAACAGCGTTACGGTTCTTTATATGAACGGTGCGCCCGCCGGTTTCTTCGAACTGAACAAGGCGAGCGACGAGGTGACCGAGCTTTCCTATTTCGGGCTGCTCGAAGAGGCGATCGGTGCAGGCGTCGGCAAGTGGTTCCTGTTGCAGGCGCTTTACGCCGCCTGGCAGGACAATCCGCAACGGGTGACGGTGACCACCAACACGCTCGACCATCCGCGCGCGCTGCAGCTTTACCAGATGATGGGCTTTTCGCCCGTCGGCACCTATGAGGCCTGGGTGGAGCCGCTTGCCGATACCGAGCTTCTGGAGATATCGCTGCGCAACTGA	MSTDKSRFVVSADWVEKQLGTAGFRVVDASWYLPAHKRNGAEEYAAGHLPGAVFFDQDKIADHTTGLPHSLPSPEFFAEQAGALGLSDTDTIVVYDGPGFFSAPRVWWMLRVMGVRKAYVLDGGLDGWKREGRPLETGTPEIEPATFTPDFNEKRVTSLDAMRGIVDSGEKQIADARGAGRFTGDEAEPRAGMRSGHMPGARSLPATAFSENGNFKDLTAIRKMVTDAGIDLSKPVVTSCGSGVTAAVITLALESLGHKDNSLYDGSWSEWGGLQDTPVVTGPADAIPTLSHGPLKAHVTQLEMTAPPKVSLPIPVNIQTALMRVNNIPLHFYRYLYWRVGKRWHWQKRMRMSDAELSSILRDPKNSVTVLYMNGAPAGFFELNKASDEVTELSYFGLLEEAIGAGVGKWFLLQALYAAWQDNPQRVTVTTNTLDHPRALQLYQMMGFSPVGTYEAWVEPLADTELLEISLRN	PGPT0002045_33	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0002045-sseA-K01011	NA	NA
BMS010_05121	645			hypothetical protein	GTGCCAAAGGTTGTCGTTCGCAATTTCGCCATCTCGCTTGACGGATACGGCGCGGGCCCAGACCAGAGCCTGCAGAACCCGCTGGGTGTGAACGGCGAGGAGCTGCACCAATGGGCTTTCAAGACCCGCACCTTTCATCGCATGTTCGGTAAGGACGGCGGTTCGACTGGGACGGACGAGGATTTTTCGGAAAAGAGCTTCGAAAATATCGGCGCCTGGATTTTAGGGCGCAACATGTTCGGGCCGGTGCGCGGCGCATGGCCGGATGAAAACTGGAAGGGCTGGTGGGGCGAAGAGCCGCCATATCACGTTCCCGTTTTCGTCCTGACGCACCATGCGCGCCCGTCCTTCGCGATGAAGGGCGGCACCGTGTTCCATTTCGTGACCGACGGTATCGAGGCGGCGCTCGACATGGCGCTGAAGGCGGCGGACGGCCGGGATGTCCGCATCGGCGGCGGCGTTTCCACCATCCGGCAATATATGGCGGCGGGCATGATCGATGAGCTGCATCTGGCGCTGGCGCCGGTTTTTCTCGGCAAGGGTGAACATTTGTTCGATGGGATGGACCTGCCCGCGCTCGGTTACCGCTGTACCGGGACCGTGGCGGGCGAGGGCGCTACCCATCTGATTATCGACAGGGCATAA	MPKVVVRNFAISLDGYGAGPDQSLQNPLGVNGEELHQWAFKTRTFHRMFGKDGGSTGTDEDFSEKSFENIGAWILGRNMFGPVRGAWPDENWKGWWGEEPPYHVPVFVLTHHARPSFAMKGGTVFHFVTDGIEAALDMALKAADGRDVRIGGGVSTIRQYMAAGMIDELHLALAPVFLGKGEHLFDGMDLPALGYRCTGTVAGEGATHLIIDRA				NA	NA	NA	NA	NA
BMS010_05122	888			hypothetical protein	ATGTTCCGTCGTTTTCTGGCAGCCGTTCCGCTGGCTTTCGTTTCGTTGACGGCTCCGATTGACGCCGAGGCGCAGGTCGCCTCCGGTCTCGATGGCCTGTCCGACGAACAGCTTCAGCAGGCGGTCAATTTCGTCATCGGCAATGCGATCTTCTCGCTATATCACGAAGGTGCGCGCATGCTGGTCTCGGATTTCGGAACGGCGGACACGGCAAGTGTGCAGGCGCCGGCCGATCAACTGGCTGGCACGCTCATCCTCCAGGCCAACGAGGAATGGCTCGACACCGCGCTCGTCAATGCCACGGACAGCTGGTATCTGGCGCGTGAGGCGGAGACCTTGCCTGAGCACGAAGCCCCGGTCTTCTCCGCGCTGGTGCCTGACAGGAGCCGCGATCGCAACATGGCCTGCCTGATGGTCGGCCGTGACAAGGACGGTTATGGCGATCTGGCCGCCATGATGGGGCTCAACAATGCCGAATTCGACAAATGCGCCGCCGCCTATCCGGGCGTTGCTTCGGCCTGGGAGAATTTTCTGAGCCCCCACCGCAGCCAGACCCCTTCCAGATTCTCCGTCAGCTACGTGCCGCCGCGCGACCCGGAGCTTGAGCCCTACGCCATCATGATCAAGGAATCGAAGGTTCTCGATCTCATCAGCCGCAGTTTTAGCGGCTATGGCTTGAAGGGGGACGTCAAGCTGACGGCCAAGTCCTGCGGCCGTCCCGACGTCTACTGGTCGGCGGAAAAGCGCGAGATCACCTATTGCTATGAACTCGGCAAGTTCCAGGCGGAACTGATTGCCGATCACCTGTTAAACACCGTCACGGAAGACAAGGGCGCTGCCGGCGGGCAAATCCCGACGGCCGCCGCTAATCTGGAACGGGAAATCTGA	MFRRFLAAVPLAFVSLTAPIDAEAQVASGLDGLSDEQLQQAVNFVIGNAIFSLYHEGARMLVSDFGTADTASVQAPADQLAGTLILQANEEWLDTALVNATDSWYLAREAETLPEHEAPVFSALVPDRSRDRNMACLMVGRDKDGYGDLAAMMGLNNAEFDKCAAAYPGVASAWENFLSPHRSQTPSRFSVSYVPPRDPELEPYAIMIKESKVLDLISRSFSGYGLKGDVKLTAKSCGRPDVYWSAEKREITYCYELGKFQAELIADHLLNTVTEDKGAAGGQIPTAAANLEREI				NA	NA	NA	NA	NA
BMS010_05123	468			hypothetical protein	ATGACCGATCTCGTTTTCACTGCAATGCCGGCTAAGGAAGCCGAAGCCTACCGGGCGGGAGCCGCCGACGCCTATGGCAATCCGCCGGAGAGAGCCGTTTCTCCCGGCGGCATGCCCTGCCGCCACTGCTTTTCCCAGATCGGGGAAGGCGAAGGGATGTTGATCCTCGCCTACCGGCCCTTTCCCTCGCTGCAGCCCTATGCGGAAACGGGCCCGGTGTTTTTGCATGCCGACGCCTGTGAGCGCTATCCGCAGACGCAGGTCATTCCGCCGATGCTGGACAGCCCCGATTATATCGTGCGCGGTTATGGAGCCGATGACCGCATCGTCTACGGCACCGGCGCGGTGACGGCCACAGGCGAGATCGTTTCGCGCGCGCGGCACCTTCTGGAGCGCGCGGATGTGGCTTATGTACATGTGCGCTCCGCCCGCAATAATTGCTATCAGTGCCGTATCGACACAGCATAA	MTDLVFTAMPAKEAEAYRAGAADAYGNPPERAVSPGGMPCRHCFSQIGEGEGMLILAYRPFPSLQPYAETGPVFLHADACERYPQTQVIPPMLDSPDYIVRGYGADDRIVYGTGAVTATGEIVSRARHLLERADVAYVHVRSARNNCYQCRIDTA				NA	NA	NA	NA	NA
BMS010_05124	336			hypothetical protein	ATGACAAACAACCTTAATATGGCGACCCGGACCGCGCCCCGCAGCAAGACCAGGATTTTTGCGACCGTGCATTATTTCAGCCAGTCGACCAGAGGGCGTGTGGTCGATCTTTCCGCTACCGGAATGGCGCTCGAGCTGGATGGACCTTTCGCCGCCGCGAAGGGCAGCCGGGTCAAGGTGCAGAGTGAGGATCTGGGCTTCATCGAGGGCGTCGTGCAATGGCAGCACATGAACCGCCTCGGCCTGCAGCTCAAGCTTTCCACCAACACGCTGGCGCAGCTCTCCTCCTATTTCCGCTTCTTCCACGAAGAAGTGAAACCGACGCTGGCCCGCTGA	MTNNLNMATRTAPRSKTRIFATVHYFSQSTRGRVVDLSATGMALELDGPFAAAKGSRVKVQSEDLGFIEGVVQWQHMNRLGLQLKLSTNTLAQLSSYFRFFHEEVKPTLAR				NA	NA	NA	NA	NA
BMS010_05125	1989	yfkN_2	COG0737	Trifunctional nucleotide phosphoesterase protein YfkN	ATGTCGTCGCTTCTCGCTCTCCACCCCATTACCCGGCGTTCGCTTCTGGGCGGCATCGCAGCCTCCTCGGCGCTGGTGATGCTGCACCCTTTTGCTGCGCGTGCGGCGACCAACCAGGCGCATCTGCGCATCATGGAAACGACCGATATCCATGTTCACGTCTTTCCCTATGATTATTACGCCGACAAACCGAACGACACGATGGGACTGGCGCGCACGGCCTCGATCATAGACACCATCCGCGCCGAAGCCGGAAACTCGATGCTGGTGGACAATGGCGACTTCCTGCAGGGCAACCCGCTCGGCGACTATATCGCCTATGAGCGCGGCATGAAGGCCGGCGACAAGCACCCCGTGATCAACGCCATGAACGTGCTGGGTTACGATTGCGGCACGCTCGGCAACCACGAATTCAATTACGGTCTCGACTATATGTCGAACACGCTGGCGGGTGCGGGTTTCCCTTACGTCTGCGCCAACCTCACCAAGGGCCAGCTTGCTTCCGATCCGAAGAACGACGAGCTGTTTTTCAAGCCCTATGTCATTCTGGAAAAGCAGATCCGCGACGGCGGCGGCGTGACGAGCCCGGTCAAGGTCGGCATCATCGGCTTCGTGCCGCCGCAGATCATGATGTGGGATTCCAAGAACCTCGAGGGCAAGGCGCAGACGCGCGATATCGTCGAGGCGGCGAAAGCCTGGGTTCCGGTCATGAAGGAGGAAGGTGCGGATATCGTCATCGCACTTTCCCATTCCGGTATCGACGGCAAGGGCCAGACCGAGCGCATGGAAAACGCCTCGCTTTATCTGGCGGGTGTCGAAGGCATCGACGCGATCTTCACGGGCCACCAGCATCTCGTCTTCCCCGGTCCGAAGACCTGGGACGGTATCGAGGGTGCGGATGCCGTCAAGGGCACGCTGATGGGCAAGCCGGCGGTAATGGCCGGCTTCTGGGGCTCGCATATGGGCCTCATCGACCTGCTGCTCGAAAAGGACGGCAATAGCTGGAAGATCGTTGACTTCACCTCCGAAGCCCGGCCGATCTACCACCGCGACGAAAACCGCAAGGTCGTCGCCGATTTCACGGACAAGGCGGAAGTCCTCGCCGCCGCCAAGGCCGATCACGAGGCGGCCCTCGCCTATGTGCGCCGTCCCGTCGGCAAGACCTCCGCGCCGCTCTATTCCTATTTCGCGCTGGTGGCCGACGATCCTTCCGTACAGATCGTCTCCAATGCCCAGACCTGGTACATCAAGGACATGCTGAAGGAAGGGCAATATAAGGATCTGCCCGTGCTTTCGGCGGCAGCCCCCTTCAAGTCCGGCGGTCGCGGCGGTGCGGATTATTATACCGATGTCCCCGCCGGTGACATCGCCATCAAGAACGTCGCCGATCTCTACCTCTACCCCAACACGGTGCAGGCGGTGCTGATCAACGGTGCGCAGGTAAAGAACTGGCTGGAAATGTCGGCCGGCATGTTCAATACGGTCGAGGCCGGCGCAAAGGATGCGCCGCTGCTGAATGCGGATTTCCCGTCCTATAATTTCGATGTCATCGACGGCGTGACCTATCAGATCGACATTTCCAAACCGGCGAAATTCGACAAGGATGGCAAGGCCATCAACCCGGACAGCAACCGCATCGTCAACCTGCAATTTGAAGGCAAGCCGATCGATCCCGAGCAGAAATTCGTGGTGGCGACCAATAATTACCGGGCCAGCGGCGGCGGCAAATTCCCCGATATCGCTGGCGACAAGGTGATCTTCGTGGCCCCCGACACCAACCGCGACGTGATCGTGCGCTATATCATCGATCAGGGCACCATCAACCCGTCTGCGGATGCAAACTGGTCCTTCGCGCCGGTGGCCGATACCACGGCGATCTTCGAAACCGGCCCCAAGGGCCGCCACTATGCGGCCGATATCAAGGGCGCAAAGATCGAGGATGCCGGCGACGGCGCGGAAGGTTTCGCGAAGTTCCGTCTGGTTCTTTGA	MSSLLALHPITRRSLLGGIAASSALVMLHPFAARAATNQAHLRIMETTDIHVHVFPYDYYADKPNDTMGLARTASIIDTIRAEAGNSMLVDNGDFLQGNPLGDYIAYERGMKAGDKHPVINAMNVLGYDCGTLGNHEFNYGLDYMSNTLAGAGFPYVCANLTKGQLASDPKNDELFFKPYVILEKQIRDGGGVTSPVKVGIIGFVPPQIMMWDSKNLEGKAQTRDIVEAAKAWVPVMKEEGADIVIALSHSGIDGKGQTERMENASLYLAGVEGIDAIFTGHQHLVFPGPKTWDGIEGADAVKGTLMGKPAVMAGFWGSHMGLIDLLLEKDGNSWKIVDFTSEARPIYHRDENRKVVADFTDKAEVLAAAKADHEAALAYVRRPVGKTSAPLYSYFALVADDPSVQIVSNAQTWYIKDMLKEGQYKDLPVLSAAAPFKSGGRGGADYYTDVPAGDIAIKNVADLYLYPNTVQAVLINGAQVKNWLEMSAGMFNTVEAGAKDAPLLNADFPSYNFDVIDGVTYQIDISKPAKFDKDGKAINPDSNRIVNLQFEGKPIDPEQKFVVATNNYRASGGGKFPDIAGDKVIFVAPDTNRDVIVRYIIDQGTINPSADANWSFAPVADTTAIFETGPKGRHYAADIKGAKIEDAGDGAEGFAKFRLVL	PGPT0021400_459	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021400-cpdB-K01119	NA	NA
BMS010_05126	1890			hypothetical protein	ATGAGAGATCCGTTTTATTGTGGTCGCGGTGTGCGTTCCCGCCTCGCGTTGTTCGGCATTCTGCTGTGTATGGTTTGCTCAGGCAATGCGGCCGAGGCGCACAGGAGGCCGAATATTCTGTTGATCATGGTCGATGATCTGGGCAACAACGATATCGCCAGTTGGGGAGATGGCAAGGCGCCAACCCCCGTGCTGGATGCGTTCAGTCGAAGCGCAGTACGTCTGCGCCGACATTACACAGACAGCACATGCTCGCCCAGCCGGGCCAGTCTGATCACAGGGCGTCATCCGGTGAGCCTGGGCTTCCAGGCAGATGGCCTGGGCCTTTCTCCAGACCTGGATACCTTGCCCAAGAGTCTGAAAGCGCTGGGTTATCGAACCCTGCACGTGGGTAAATGGCATATTGGTGAAGCATTGGAATATGACGAAATCCAGCCTGGCCATCAGGGCTTCGACTACTGGTTCGGCATGCTCAACCACTTTGTTCTGCAGGGACCGGGCCCTGATGGGCGCCTGCTGCGTCGGCAACCGACCCACATCGACCCCTGGCTTCAGGACAACGGTGCCGCACCGGCTCAGCACCATGGCTATCTGGACGACATCCTCACCGACAAGGCCGTCGAACTGATGAAGACAGGTGCGGGCGAGGCACCGTGGTTCATCAACCTCTGGCTGTTCTCGCCACATACGCCTTACCAGCCGAACCCCGTCTTCAGCCGGAATTTCCCGGATACGCCCGAAGGCCGCTACTTTGCCATCCTCAGCGAGCTCGACAGCAACGTGGCACGCTTGCTGGCAGCAGTCGAGGAAAGCGGCCAGGCGCAGAATACAATTGTGCTTTTTGCCAGCGACAATGGTGGTGCCAATATCGATCGGGATAACAACTACCCGCTGATTGGAAAGAAGGCGACCTATACCGAAGGGGGGGTACGCACACCGCTGCTGCTGCGTTGGCCGGGGCGTTACGAGAACAAGGACATCCTGGAGCCGACGGTATTCATGGATCTGTACCCGACGTTGGTATCCCTGGCGGGAGGCAAGCCACCCGCAGGTCTGGCAGGGCGCGATCTGCAGCCTCTGCTGGAGGGCGGAAGTGTGCCCGGTCTCAATGCCCTCTATTGGGCGGGTGACAGCGGTGGCGCCTTGGGAATGACCTACTCCTCCCATCTGCTGAATGAGGGCCGGTTCTTTTACCGGGAGCCTCTGGGAGAGCTGAGTAGTGGCCTTGTCACTCCGGCGATCACCGGGCAACAGCCCGAAAAGCGGACTGTTCAGGCGTTCGACAGGGCGCAGGCCAGTGCTCTCATCCGGGAGTGGGAGTGGCAGGTCCGCCCCATTCCGTTGAACTGGGAGGCGGCTGCCCAAGGAAAGCCGGGACGGTTGATGGGGCGGGATTTTCAGCGGGCTCCGGTATTCGGTGGCTACAGTCTGGGTCTGTCGTTGCGAGACGTACGCTTGGCCGACACCGTTCAGACCCTGCTGGATCAGCCCGGTGTATGGGGCGTGCGCTTGCTTCCGGACGGGCGGCTTGAAGTTCGTCATGGCGATGTCGTACAGGTCAGCGAGCCGGTACAACCGCACGGGCGTTGTGACAGCCTGGTGGTCAGCACCCACGTGAAGGCGGCAAGCACCTTCCCGTTCCCCGGGCCTGCCACGACTCGTCTGCTTCTCTTCTGGAACGGCCAGCCTGTGCTGGATAGCACCCAGGTGCTGGGGTGGCCCGATACGGCGAGGGGCTTGGCCAACCCGACTTATGTCGGAGCGCGCTCCGATGGAAGGGAGCCGTTTCTCGGCGCTCCTCCAGGCCAGCCACTCGTGATCAACAAGCAATTGCTACCCGAGCAGGAGGGGCTTGCCTTGGACGATATGCTCGGGCGGCTGTGCCGCTGA	MRDPFYCGRGVRSRLALFGILLCMVCSGNAAEAHRRPNILLIMVDDLGNNDIASWGDGKAPTPVLDAFSRSAVRLRRHYTDSTCSPSRASLITGRHPVSLGFQADGLGLSPDLDTLPKSLKALGYRTLHVGKWHIGEALEYDEIQPGHQGFDYWFGMLNHFVLQGPGPDGRLLRRQPTHIDPWLQDNGAAPAQHHGYLDDILTDKAVELMKTGAGEAPWFINLWLFSPHTPYQPNPVFSRNFPDTPEGRYFAILSELDSNVARLLAAVEESGQAQNTIVLFASDNGGANIDRDNNYPLIGKKATYTEGGVRTPLLLRWPGRYENKDILEPTVFMDLYPTLVSLAGGKPPAGLAGRDLQPLLEGGSVPGLNALYWAGDSGGALGMTYSSHLLNEGRFFYREPLGELSSGLVTPAITGQQPEKRTVQAFDRAQASALIREWEWQVRPIPLNWEAAAQGKPGRLMGRDFQRAPVFGGYSLGLSLRDVRLADTVQTLLDQPGVWGVRLLPDGRLEVRHGDVVQVSEPVQPHGRCDSLVVSTHVKAASTFPFPGPATTRLLLFWNGQPVLDSTQVLGWPDTARGLANPTYVGARSDGREPFLGAPPGQPLVINKQLLPEQEGLALDDMLGRLCR				NA	NA	NA	NA	NA
BMS010_05127	795			hypothetical protein	ATGAATGGGGCGAACTTTCCGAAGTTGTCAGGCAGCCAAGTCATGGAACCGGCTTCCTCCGGACTGCTGGTCGACTACGACGCATTGCGCGCAGCAGCCGCGGAACTGGGTGAAATCTACCGGACCAACGATCCCTTTCCTCATATCGTCATCGACAACTTCCTGCCGCAACCGACCGTGCAACGTCTCTTGGCGGAATATCCTTACGATCAGCGTCTCCCGGTATGGAATGACGCCACCCACCGGGACAAGACGAGTGGCGACTACGTGCAAAAGGACAAGCGCAACATCCGCGACAGCCTGCGCATGCCACCGACCTATCGGCAACTGTTCTGGGAACTGAACTCTCATTATTTCCTTGATTTCCTTACAACGCTCAGTGGCATCTCCAACCTGATCCCGGACCCCAACCTGCGCGGTGCAGGCATTCACCAGATAGGTACCGGCGGCTTCCTGAAGGTCCATGCGGATTTCACCATTCATCGTGAATTCGGCCTGGACCGCCGACTCAACTTTCTTCTTTATCTGAATCAGGATTGGCCGGAAGAATATGGTGGTCATCTCGAACTCTGGGACAAGGACATGCAAGGCCCGCCGCAGCGAGTCCTGCCGCTTCTCAATCGTTGTGTGATATTCAGCACCACCGCCAATTCCTTCCATGGCCACCCTCGTCCACTGACCTGTCCCGAAGGCGTCTATCGAAAATCGATAGCCCTGTACTTCTACACCAATGGCCGCCCCGAAGGGGAAGCCGATCCGGTATTCGCCACGGACTGGCGCGACGTGCCCTACTGA	MNGANFPKLSGSQVMEPASSGLLVDYDALRAAAAELGEIYRTNDPFPHIVIDNFLPQPTVQRLLAEYPYDQRLPVWNDATHRDKTSGDYVQKDKRNIRDSLRMPPTYRQLFWELNSHYFLDFLTTLSGISNLIPDPNLRGAGIHQIGTGGFLKVHADFTIHREFGLDRRLNFLLYLNQDWPEEYGGHLELWDKDMQGPPQRVLPLLNRCVIFSTTANSFHGHPRPLTCPEGVYRKSIALYFYTNGRPEGEADPVFATDWRDVPY				NA	NA	NA	NA	NA
BMS010_05128	1152	oatA		O-acetyltransferase OatA	ATGGGGCACGGAGTACCCGAGGGACTGCGCCGGCCTGCCAGCTATCTTCCGGAGCTGGAGAGCTGGCGTGGCTGGGCAATCCTCCTCGTGGTTCTGTTTCATTACCTAGGCATTCTTGCTGGCGGCTCTCCGCTCCTGAACGGTGAGGCACCGCTCTGGCTGAGTTGGATCGCCGCAGGCAATACCGGTGTGACCCTGTTCTTCGTCCTGAGTGGCTTTCTGCTGTCTCGCCCGTTCATCGATGGCCTGAGACAGGGGGACCCTATCGATCTCATTGGATTCTATAGCGCACGCATCCTGCGTATCGTGCCGCTCTATTACATGGTTGTACTGCTGGCCTGGGGCGTCACGGCCAACAGTGAAGCACTGAAAGCTCTTCTTTTCATTCCCATTGGTTTTGGTGCATTTCCATTCAGTGTGCCCTGGTGGTCGCTGTGTACCGAGGCGCAGTTCTATCTGGCGCTGCCTTTGGTTTTCTGGTTATTGCGACAGCATGGCGGACAGTTGCTGTTCATGGTGCTGCTGGCCGTCTGGCTCCTGCTACAGGTCTACTTCTTTCATCTGCCTGGTTGGCTGGCACCGAACAATGGATGGGAAAGTTCTCTGTTCGGCCGCGGAGCCGCATTCCTGCTGGGAGGGCTATTCGCCTGGTTTTCTCGGACGCCCGGCTTCTCATGGCTATCTCGTTCGAGGCTGGCGACCAACGTGCTCTTCTTCGTAGCGCTGGGTGCGTTGCTCACATTGCTGGCCTGGTATGGGGAAACCGGGCAGCGTCAGGCACTGATGCGTTTTCCGCTCTATCACCATACCGAGGCGATGCTATGGGGGCTGCTGCTGTTGGCGTCGCTGAGCCCGATGCTGTTGTGCAAGCGCTTGTTCATTAACGGCCCGACCAGGCATCTGGGCACGATTTCCTATTCGCTGTACCTGGTTCATGTGCCGGTCCAGTTCTACCTGATCTATCCGCAGGTCGGTGGGGCCGGTCAGCGGGCAGAGCTGCTGCAGTCCAGCGTCGTGTGGATCGTATGCGCCAGTGCGTTGGTGGCCTGGCTACTGGCGCTGCTGAGCTATCACTGCATCGAGCGGCCCTTCCTGCGACTCAAAGCGAGACTGCCAAAACGGGAAAAACCGATGGCACTGGCGAGTCAGTAG	MGHGVPEGLRRPASYLPELESWRGWAILLVVLFHYLGILAGGSPLLNGEAPLWLSWIAAGNTGVTLFFVLSGFLLSRPFIDGLRQGDPIDLIGFYSARILRIVPLYYMVVLLAWGVTANSEALKALLFIPIGFGAFPFSVPWWSLCTEAQFYLALPLVFWLLRQHGGQLLFMVLLAVWLLLQVYFFHLPGWLAPNNGWESSLFGRGAAFLLGGLFAWFSRTPGFSWLSRSRLATNVLFFVALGALLTLLAWYGETGQRQALMRFPLYHHTEAMLWGLLLLASLSPMLLCKRLFINGPTRHLGTISYSLYLVHVPVQFYLIYPQVGGAGQRAELLQSSVVWIVCASALVAWLLALLSYHCIERPFLRLKARLPKREKPMALASQ				NA	NA	NA	NA	NA
BMS010_05129	768			hypothetical protein	ATGACTCTCGTCTACATGCCACCGTCGATTCGCCATTTCGAACCGTTACACATGGTGTTCAGCACCTGGGTCGATCACCTGCCGTTCGGTTATGACTTGGTTGCTGCGCTGCGGCCGAAGACTCTGGTCGAATTGGGCACTCACAAGGGGCTGTCCTACTTCACTTTCTGCCAGGCGATGAAAGAGCAGGAAATCGACGGGCTTTGCTACGCCGTGGATACCTTTGAGGGAGATGCTCATACAGACAAATACGACGAGTCGGTCTTCACGATGGTGAACAACCACAACCGTCAGCATTACCACGGTTTCTCCTACCTGATGCGGATGTTCTTCAACGATGCGCTCCGCCATTTCAGCGAAGACAGCGTCGATCTGCTGCATATCGATGGCTTTCATACCTATGAGGCGGTCAGCGAGGATTTCGCCAACTGGTATCCGAAGGTAAAGCCGGGCGGCATCATTCTTTTCCACGACGTACAGGCGCGCCTGCAGGATTTCGGTGCCTGGAAGTTCTGGGAAGAAATACGCGGCCAGCACGAAACGTTCACGTTCAATCACGGGTTCGGACTTGGAGTGCTGCGCAAGCCGGGAGGGGATCGCAGTGCAGACCCTGAATTGTTGAAGTTGCTTTTCGGGAACGGTGAAGAAGAGGCGGCTTCGCTGCGAGCCTTCTATGTCCATGCCAGCAAACATCTGGAGAACATGCGCAAGCTGAAGCGCTTGCAGGGACAGGCACAGGCTCAAGGGCAGGCCAAGGCAGCGAGCTGA	MTLVYMPPSIRHFEPLHMVFSTWVDHLPFGYDLVAALRPKTLVELGTHKGLSYFTFCQAMKEQEIDGLCYAVDTFEGDAHTDKYDESVFTMVNNHNRQHYHGFSYLMRMFFNDALRHFSEDSVDLLHIDGFHTYEAVSEDFANWYPKVKPGGIILFHDVQARLQDFGAWKFWEEIRGQHETFTFNHGFGLGVLRKPGGDRSADPELLKLLFGNGEEEAASLRAFYVHASKHLENMRKLKRLQGQAQAQGQAKAAS				NA	NA	NA	NA	NA
BMS010_05130	1077			hypothetical protein	ATGATTCGTAACGGGCGCATCAAGGGACTCGATGGCCTGCGAGGTGTCGCGATCTTGCTGGTGCTGGCTTATCACACCTGGACGGAGAGCAGCGGTCTAGCTGCGTTGGGAGAGGGGCCGTTTTTTCTTTCCTTGCTGTATGCGGGCAGCACCGGCGTGACGCTGTTCTTTGCGCTTAGTGGTTTCCTTGTGGGGCGACCTTTCATCGAAGCGATGCGAGAGAGGCGCCCGTTGCCGTTGCTTGGGCGATACGCATCACAGCGGGCCCTGCGTATCTTGCCGACCTACTACATCGTTGCCTTGACCGGTGTGCTGCTGACATCTCGTCACGACCAGCTTGTCCCGGCCTTGACCTTGACCGCCCAGGCTTATGACGTCGGTCAGTTCAGCACCGTCTGGTGGAGCCTGGCAACCGAGGTCCAGTTTTACGTACTTCTCCCCCTGGCTTTCCTGCTTATGGCCCGGTTGCCAGGAATCGGGGGTATCCTCGTCCTGGTGGTGGTCTCGGGGGGCGTCTACTGGAGCGTTGTTACCAAGGCCTGGTCGGGTATCGATACAGGTTTTGAAACCCAATACCGATTGATACTTTCCGTGCTGGGTCAATTGCCGGCATTCCTGGCGGGTATCGTAGTTTTCCTCTGCCTTCCTTCGGGTGACGTCCGTCTATCCGAACCCTTGGCCCGGCTGCTGACAGTAGTGATGCTCGTCGTGTTGATGTTCGTTCTCCTACCTGCCGCTCAGGTCGGGCCACGCGGCCATATCTGGACAGCCCCCTGGTATGTCGTGCCGGAGTCGCTGGTCTGGGGAGCGATCATGTGGATTGCCGTTGCGCGTGCAGGCGAAACCGAGACGCTGTTGGATAACCGGCTCACTCGTTACTTTGGAAAGATTTCCTTTCCCCTCTATCTAGTACACATGCCGGTCATCCATGGAGTCATGGATCACACGGACCTGCCACTGGGCTCCACTGTTGCGTTGGCCCTGGCTTTTTCCCTGCTTGCTGCGTACTTGCTCCACAGGCTCGTGGAAGCGCCCTTCCTATCTCTGAAACGCAAGCTGACACCGGTGCCGGCTTGA	MIRNGRIKGLDGLRGVAILLVLAYHTWTESSGLAALGEGPFFLSLLYAGSTGVTLFFALSGFLVGRPFIEAMRERRPLPLLGRYASQRALRILPTYYIVALTGVLLTSRHDQLVPALTLTAQAYDVGQFSTVWWSLATEVQFYVLLPLAFLLMARLPGIGGILVLVVVSGGVYWSVVTKAWSGIDTGFETQYRLILSVLGQLPAFLAGIVVFLCLPSGDVRLSEPLARLLTVVMLVVLMFVLLPAAQVGPRGHIWTAPWYVVPESLVWGAIMWIAVARAGETETLLDNRLTRYFGKISFPLYLVHMPVIHGVMDHTDLPLGSTVALALAFSLLAAYLLHRLVEAPFLSLKRKLTPVPA				NA	NA	NA	NA	NA
BMS010_05131	987			hypothetical protein	ATGACGCGTCCGCTGCTGTCGGTGATCGTCATCGTCTACGACATGCCGCGCCAGGCGTTGAACACGTTGCGTAGTCTGGCGCCGGATTATCAGGAAGGCGTCGCAGCGGAAGATTACGAAGTCATCGTGGTGGAGAACCGATCCCGGCGGAACATGGATACGCGCGCGATCGAGGCGTTGCCGGGTAACTTCCGTTACTTTTTGCGCGATGAGCCAGGTGTGTCGCCGGCAGCGGCGATCAACTTCGGATTCGTTCAGGCGCGGGGAGAACAGGTTGGCTTGATGATCGACGGGGCCCGGATGGTCAGCCCTGGTGTTCTGCACTACGCCCTGTTGGCCCAGCGCATCTGTGATGACGCACTGGTTGTAGTGCCTGGCTACCACCTGGGTGAGCAGGAACAGCAATTCCATCTCACCCACGGTTACACGGAGGAGAAAGAGCAGGCGATGCTGGATGAGATCGACTGGCACGGTAACGGCTACAGGCTCTTTGATATTTCTTGCCTCAGTGGCGCCAATCCCAACGGAATCTTCCACCCGTTCATGGAGTGCAATTGCCTGTTCATGGCCGCCGATGTCTTTCGCGATATCGGTCAGGCTGACGAGCGCTTCGATCTACCTGGTGGAGGGGCACTGAATCTTTACATCTATCGCCAGGCTGCGATGCACCCGCGGACTCGCTCGTTCATGCTGGCCGGGGAAGGATCCTTCCACCAGTTGCATGGGGGGGTGACGACCTCTGAGGTCGTGCAGCGCGACGCTATCCTTCGGCGGCAGAGCGAGCAGTTGAATGCGTTGCTGGGGCAGCCTTTCCGTTCCCCCACCGTCGAGCCGATTCTGTTGGGCAAGGTGAAAGGTCCCGCACTCCGCTACCTGCAGCACTCGGTGGAGCGTGGATTGCATCGACTCAGACGTTGTGCCGAGCGCAACGAAGACATGTACGCCGATGAGCAGCAGAAGCTGCGTTTGCGCCAGGGGATCAAATGA	MTRPLLSVIVIVYDMPRQALNTLRSLAPDYQEGVAAEDYEVIVVENRSRRNMDTRAIEALPGNFRYFLRDEPGVSPAAAINFGFVQARGEQVGLMIDGARMVSPGVLHYALLAQRICDDALVVVPGYHLGEQEQQFHLTHGYTEEKEQAMLDEIDWHGNGYRLFDISCLSGANPNGIFHPFMECNCLFMAADVFRDIGQADERFDLPGGGALNLYIYRQAAMHPRTRSFMLAGEGSFHQLHGGVTTSEVVQRDAILRRQSEQLNALLGQPFRSPTVEPILLGKVKGPALRYLQHSVERGLHRLRRCAERNEDMYADEQQKLRLRQGIK				NA	NA	NA	NA	NA
BMS010_05132	924			hypothetical protein	ATGCCGCTGTTTCGTCGCAAACCACTGCTTTCGATCGTCATCATCGTCTACAAGATGCCCGAACAGGCAGAAAAGACCCTGCTCTCCCTGAGTCCGTCCTACCAGCAAGGCGTCCGCGGGCAGGATTACGAAGTGATCGTGGTGGAAAATCACTCGGATCGATTGCTCGGGGCCGAGCGAGCCATTCGGCATGCCGACAATGTGCGTTACTACCACCGCCACGAAACCCAGCGCACGCCAGTGCACGCCATTAACTTCGGGGCCGCGCAGGCAAGGGGACGATACGTAGCCATCATGATCGACGGTGCCCGCATGCTATCTCCCGGCGTGGTGCGCCATACGCTCTCGGCATTCAAGGCCGATCCCGAAGCCGCAGTTTCCGCGCCTGGTTACCACATCGGCCATAAGCTGCAGCAGGTCGCGGTGAATGAAGGCTATGACGAAACCGTAGAAGCAGGTCTTCTGCAGAGTATTTCCTGGCCAGAGGATGGATATCGGCTGTTCGACATTGCCGTACTGAGTGGATCCTGCCAGGGCGGTTTCTTCCAAGCCAATTACGAGAGCAATTTCATCGCCATGCCGGTCAAGAAATGGAAGGCGCTTGGCGGTGTGGATTCGCGCTACGACGACTTTGGCGGGGGTAACGCAAACCTCGATCTGTACAAGCGCCTGCTCGAATACCCGGGTACACCGTTCTACATGCTGTTCGGAGAGGGCTCCTTCCACCAGTTTCACGGTGGTGTTACCACCGGGACACGAAAGGAAGAGCGAGACCGCATCTACAAGGCCCTTGACGATCAGGATCGCGCCTTGCGCGGCGACAACCGTAAGCCGCCCGCTGTGCGTCCGATTCTTTACGGTACGCCCCATCCCAGCGTCTATCGTTTCATCCGCCATTCCCTCGATAAGGTACTGCCGCAATGA	MPLFRRKPLLSIVIIVYKMPEQAEKTLLSLSPSYQQGVRGQDYEVIVVENHSDRLLGAERAIRHADNVRYYHRHETQRTPVHAINFGAAQARGRYVAIMIDGARMLSPGVVRHTLSAFKADPEAAVSAPGYHIGHKLQQVAVNEGYDETVEAGLLQSISWPEDGYRLFDIAVLSGSCQGGFFQANYESNFIAMPVKKWKALGGVDSRYDDFGGGNANLDLYKRLLEYPGTPFYMLFGEGSFHQFHGGVTTGTRKEERDRIYKALDDQDRALRGDNRKPPAVRPILYGTPHPSVYRFIRHSLDKVLPQ				NA	NA	NA	NA	NA
BMS010_05133	783			hypothetical protein	ATGATCGAAATGCCCAAGAACAACTACAAGAGGCTTTTCATGCGGTTCATTCGCACTTTGTTCTCGCGCGCCCGTCCCCCCAGGGAGGGTGGAGTTGGCATCGGCTCACCCTTGATGGTGGTGGGGATGCACCGCAGCGGCACCAGCTTCCTGACCGGCTCCCTGCAACAGGCGGGGTTGGAACTGGGCAAGCACAGCGCATGGAACCCCCACAACCTGAAGGGGAATCGGGAAAACGAGGACATCGTTGCGTTCCACGATACAGTGCTTCGTGACAGAGGATATGCCTGGGACAACCCTCCGGAGCAGGATATTGCCTGGACACCGGACGAACGGCAGCGGGCTCAGGCGCTTATCGATGGTTACCGGGGGGTAGCCCGTTGGGGCTTCAAGGACCCCCGGGCGCTGTTATTGGTCGAGGGATGGCGCGGGCTTTTGCCAGCGCTGGGTTTCGTTGGCATCTTTCGCCATCCGACCGCCGTTGCCCAGTCGCTGGCTGCGCGTGGCGGAATGCCGGAGGCGCAAGCGTTTGCCCTGTGGCGAGCCTATAACATTCGTCTGTTGCGCCTCTATCAGCAGCAACCCTTCCCTTTGCTGTGCTTCGATGAAGATGAGTCCGTATTGCATCGGAAACTCGATGAGGTCCTACGGGAGTTGGGCCTCTTCCCTCTGACGGAGGAGCGCTTCTTCAGCGCCGAACTCAAGCATCACGGCCGTCTGGAAAAAAGCCTGCCCGTCGAACTGGATGCGATCTACCAGGAGCTTCGTTCCTGCGCCCGCTGA	MIEMPKNNYKRLFMRFIRTLFSRARPPREGGVGIGSPLMVVGMHRSGTSFLTGSLQQAGLELGKHSAWNPHNLKGNRENEDIVAFHDTVLRDRGYAWDNPPEQDIAWTPDERQRAQALIDGYRGVARWGFKDPRALLLVEGWRGLLPALGFVGIFRHPTAVAQSLAARGGMPEAQAFALWRAYNIRLLRLYQQQPFPLLCFDEDESVLHRKLDEVLRELGLFPLTEERFFSAELKHHGRLEKSLPVELDAIYQELRSCAR				NA	NA	NA	NA	NA
BMS010_05134	756	tagG	COG1682	Teichoic acid translocation permease protein TagG	ATGAACTACCGGGATTTACTTTTTTACGGGGTTTACAGTGATCTTCGCACCGAGATCGCCAGGCGATTCCTGGGGTTTCTCTGGTGGATCATCGAGCCGGTCATGTACATGGCCGTCTTCTACATTGTCTTTGGCTTGGCCCTGCGTCAAGGCGGTCCCGACTATGTGCCTTTCCTGCTCTGCGGCATGATCGCCTGGAAATGGTTCGATGGGTCGGTACGCCAGGCGAGCATCTCGATCACTGGCAACTCCGGGTTGATCCAGCAGATTTTCGTGCCCAAGAGCCTGCTCGCGCTGATTCAGATACTCGGCAACACGTTCAAGTTCCTTATCGTTCTACTCCTTCTGCTGACATTCCTCCTGCTCATCGGTAAACGACCCTCCTGGCACTGGCTCAGCCTGCTGCCGATCATGCTGACGCAACTATTCCTCATCGTATCCCTCGGGCTATTGCTGGCGGCGATCATCCCGTTCGCCCAGGATTTCAAGCAGGTGGTGGATAACTTGATGATGCTGCTGATGTTCATGTCAGGGATTTTCTTCAGTGCGGACAGTGTGCCGATGTCCATGCGCCCGCTTTTCGAGCTGAACCCTATGGTCCTGCTGATCGAGTCCTACCGGGCCGTACTGCTGAACAACCAGTGGCCGGGCTGGAGCGGGCTAAGCTATGTATGGATGGTGGGAACGCCGATGCTACTGGCCGCCCTATTCACGATCCGCCGCAACGAGCGGCGCTACCCGAAGATGATGATCTGA	MNYRDLLFYGVYSDLRTEIARRFLGFLWWIIEPVMYMAVFYIVFGLALRQGGPDYVPFLLCGMIAWKWFDGSVRQASISITGNSGLIQQIFVPKSLLALIQILGNTFKFLIVLLLLLTFLLLIGKRPSWHWLSLLPIMLTQLFLIVSLGLLLAAIIPFAQDFKQVVDNLMMLLMFMSGIFFSADSVPMSMRPLFELNPMVLLIESYRAVLLNNQWPGWSGLSYVWMVGTPMLLAALFTIRRNERRYPKMMI	PGPT0023304_2086	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023304-ABC_2_LPSE_P|wzm|rfbA|tagG-K09690	NA	NA
BMS010_05135	759	btuD_11		Vitamin B12 import ATP-binding protein BtuD	ATGAGCGGCCGCATCATTTTCAACGCGCACAACCTGGGGGTTTCCTACCGCCAGCGCACCGGCCTGCTCAGATACGAGAAATTCTGGGCCCTGCGGGATGCCAGCTTCACCCTGCACGCCGGAGAAACCCTGGGTGTAATCGGTGCCAATGGCGCAGGCAAGAGCACGCTGCTGCGCCTCATCGCCGGCATCATCGAACCCGACCGCGGCCACCTCTGGCGTCATCCTCATATGCGGGCCAGCCTGCTGGCTCTCAACGTCGGCTTCAAACCGGAGCTATCGGGGCGAGAAAACGCCATCATCAGCGGGTTGCTCCTTGGGCTCAGTCTGCAACGGATCAAAGCGCTGACCGACGACATCCGCCAGTTCAGCGAGCTGGGAGATTTCTTCGAGCGCCCGGTGGGCACCTACTCGACCGGCATGCGTGCCCGCCTGGGATTCGCCGTCGCGATACACGCCGATCCGGACATCCTGCTGATCGACGAAGTCCTCGGCGTCGGCGACCAGAACTTCAAGGACAAATCGCACGATGCGATGAAGGAAAAGATCAAGTCGAACAAAACTGTCGTTCTGGTTTCTCACAGCATGGATGCCATCCGCTCGCTCTGCGATCGGGTGCTCTGGATCCATGAAGGTAAAAGCATCATCTGCGGCGAAGCCGAGACGGTCATACGGGGCTACCTGGAGACCATCCGCATCGCCGTCCGGGATGAACAGGCGCAGAAGCGCGCAGCCGCCCGAAAGGCCGCCGTGCTCTAG	MSGRIIFNAHNLGVSYRQRTGLLRYEKFWALRDASFTLHAGETLGVIGANGAGKSTLLRLIAGIIEPDRGHLWRHPHMRASLLALNVGFKPELSGRENAIISGLLLGLSLQRIKALTDDIRQFSELGDFFERPVGTYSTGMRARLGFAVAIHADPDILLIDEVLGVGDQNFKDKSHDAMKEKIKSNKTVVLVSHSMDAIRSLCDRVLWIHEGKSIICGEAETVIRGYLETIRIAVRDEQAQKRAAARKAAVL	PGPT0023305_1675	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023305-ABC_2_LPSE_A|wzt|rfbB|tagH-K09691	NA	NA
BMS010_05136	3270			hypothetical protein	ATGAGCGCTCAACGTAGGAAAGTGCTGGCCGTCCTTGGCATGCATCGCAGCGGCACCAGCGCCATCACACGCGGACTGGAAGTCCTCGGGGTCGACCTCGGCGGCAACCTGATGCCTGCGGCCAAGGACAACAATGAGAAAGGCTTCTTCGAAGACCTGGATATCCACGCCTTCAATGGCAAGCTCCTGACGAGCCTTGGCTCGGCCTGGGATCGTCTTGGCGCGATCCAGGCCAAACAGTTATTGGAGCCTCGCTTCGCTCCTCTTCAGGACGAAGCCGAGGCACTGCTGACAGGGAAACTGGCAGCCACCGGGATTTTTGCCTTCAAGGACCCGCAGACGTCCCTACTCATTCCCTTCTGGCACGCCATCTTCGAGCGCATGGAGTTGGATGCGCACTATCTGATCTGTTTCCGAAACCCTTTGAGCGTGGCGGCTTCTCTACGCAAAAGAGACGGCATGACGCCCGCCAAGGCCCAACTGCTATGGGCGAAGTACTCGCTGGCCGCTTTGCGCGATACCAACTCCTGCTCGCGCCTGCTCTTGGACTACGACGCGCTGATGGACGCTCCGGCTTCTCAGCTTGGCCGTATCGCCTTGGCGTTCGGTCTCTCTGCGCCGGAACGGAATCCAGCAGGCCTTGAAGCCTTCTGCCAGGAATTCCTCACCCCGACCTTACGCCATACGCGCTTCGACAGGAACCAATTGGATGCCCCGACAGAAGTGATTCGATTGGTCCGGCAGCTTCATGCCTTGCTGGAGTTCGCGGTAGCGACGCCTGGCCAGCTCGATACCCAACAGGAGATTGAAGCCCTCCAGGCTGCGCTCGCAGTTCTCGAACCCATCGTGTCGGATATCGACACTTTGAGCGCACGGCAAGCCCAGCTTGAAACAGAACGCATGCAACTGCTTGCCCAGTTGCATGCCACGCGCGACGAGTGTGGAGAGGCCTGGAAGCTGCACGATCAAGCCAGGAAAGAAATCCAGCGGCTCGCCGATGAACATTCCTACCTCGGACAACTACACAACGAGGCGGCCGCCCGTAATGACCAGATCCAAACACAATGCGACCAACTACGCAGGAGTCGTGACGACCTGCAAGTAGAGCTTCAGCGTATCTACGCCAGTCATTCATGGCGTTTGCTCGGGACGTTGCGTCTGCTGCGCCAGCACTATCGGAATCCAGTTTTTCTGGTACGCGTATTAGTGTCGAAAGGTGCTCGCCTGGCCTGGCGACACCTGCCTGCTACGATCAACCGCAAGCAACGCCTCAAAGCCACCATTTTTCGTATGGCTTCGCCCATTCTCCGGCAGACCCAGGCCTATCAGGACTGGCAGCGGATGACCGGCCAAGAGCCCGGTTCTCTCCCGGCGCCAACAACTCCTCTCGTACGAGTCGATGAGCCAGTCGAGGCCATACGGCGATTACAAGGCCCCGCCATTGAAGAAGCCGCTCGGCTGATCGCCTTCTATCTACCTCAGTTCCACCCTATTGCCGAGAACGATGAATGGTGGGGCGAAGGCTTTACGGAATGGACCAATGTGCGGCCCGCGCGCCCTCAATACGATGGGCATTATCAACCCCATGAGCCCGGCGATCTCGGCTATTACAGCCTCGACGAGATCGAGACCCAGCGTCAGCAGGTGGAAATGGCCAAGCTCTATGGCATCGGCGGCTTCTGTTTCTACTTCTACTGGTTCGGTGGGAAACGCCTACTGGAAAAGCCAATCGAACGCTACCTGCAGAACCCCGAGCTGGATCTCCCGTTCTGCCTGTGCTGGGCGAACGAGAACTGGAGCAGGCGTTGGGATGGGCTCGACGAGCATATTCTCATCGGCCAAAGCCACTCCAGCGAAGACGACCTGGCATTCATCGCGCATCTTTCCCAGTACTTGCGCGATCCACGCTACATCCGTATCGATGGCAGACCACTTCTGCTCGTCTACCGCCCCGCACTGTTGCCGAACGCACAAGCCACAGCGCGACGCTGGCGTACCTGGTGTCGCGATAACGGCATCGGCGAAATCTATCTTGCCTATACGCAGTCGTTCGAAAGCGTGCCGCCCGGCAAGTACGGCTTCGACGCTGCCGTCGAGTTTCCCCCGAACAACACTACGCCACCGGACGTCACCGCGAACGTCCAACCGTTGTGTGAAGGATTCGCTGGCAAGGTCTATGACTGGAGCGTCTATCCAAAACGCAGCGCCGCTTACAGCCGACCGCCTTACACCTTATTCCGCGGCGTTTGCCCCGCATGGGATAACACGCCGAGACGCAAGGAGCGCGGCATTTCCTTCGTCAATAGCTCCCCCCGTGGCTATCAGGAATGGCTGCTGAATGCCATTCGCGACAGCCATCGACATCACCATGGCTCGGATGATCGTCTGGTCTTCATCAACGCTTGGAACGAATGGGCCGAAGGGGCGCATCTGGAGCCTGACCAGCGCTACGGGTACGCCTACCTGGAGGCCACCCGCATGGCCCATGTGCGTGCCCGCCTGTTGACGAATCCAGCTCCAGCAGAGAGCAAGGCGGTCGCGGTGGTCATCCATGCCTACTACCCGGACATTTTCGAGGAAGTCGTCGCTTACTTGTCGAAAATCCGAGATTTCACGCTGAAACTCTATATCTCGACGCCGTCAGGAAGCGCGGATGCCATACGCGAGCGACTCACAACCTGCCCTCACGAGTACATACTTGAGGAACTACCCAACCATGGACGGGACATCCTGCCGTTCCTGACGCTACTTCCCCGCGTGGCGGCGGACGGTTTTCAGTATCTCGTCAAGGTCCATACCAAGAAATCCATACACCGCAACGATGGAGATACCTGGCGCCGCGATCTCTATGAAAAATTGCTGACCAGCCGAGCGATGAAGCAAGCCCTCGACGAGTTCTACAGCGATACCGGCCTGGGATTGCTGGGCCCTGCCGGCCATGTGGTGCCGATGAGTTTTTACTGGGGCTCGAATGCCCGCACGGTCGAGCGACTGGCTTGCCGGATGGGTATTCGTCCGTCGGAACTGCACCAGCTCGATTTCGTCGCCGGCACCATGTTCTTTGCTCGAGTCGACGCCTTGCGCCCTTTGCTGAACCTGGCTATCGACAGGAACGATTTCGAACCGGAGGAGGGGCAAGTCGACGGCACTTTCGCTCATGCCTTGGAGCGCGCCATGAGTGTCAGCGCCTACGCAGCGGGAATGAGCATTCGCAGCAACGAAGGTGCTCCGACCAATGTCCGATACGGATTCGCAGAAGCGACCGCCTGA	MSAQRRKVLAVLGMHRSGTSAITRGLEVLGVDLGGNLMPAAKDNNEKGFFEDLDIHAFNGKLLTSLGSAWDRLGAIQAKQLLEPRFAPLQDEAEALLTGKLAATGIFAFKDPQTSLLIPFWHAIFERMELDAHYLICFRNPLSVAASLRKRDGMTPAKAQLLWAKYSLAALRDTNSCSRLLLDYDALMDAPASQLGRIALAFGLSAPERNPAGLEAFCQEFLTPTLRHTRFDRNQLDAPTEVIRLVRQLHALLEFAVATPGQLDTQQEIEALQAALAVLEPIVSDIDTLSARQAQLETERMQLLAQLHATRDECGEAWKLHDQARKEIQRLADEHSYLGQLHNEAAARNDQIQTQCDQLRRSRDDLQVELQRIYASHSWRLLGTLRLLRQHYRNPVFLVRVLVSKGARLAWRHLPATINRKQRLKATIFRMASPILRQTQAYQDWQRMTGQEPGSLPAPTTPLVRVDEPVEAIRRLQGPAIEEAARLIAFYLPQFHPIAENDEWWGEGFTEWTNVRPARPQYDGHYQPHEPGDLGYYSLDEIETQRQQVEMAKLYGIGGFCFYFYWFGGKRLLEKPIERYLQNPELDLPFCLCWANENWSRRWDGLDEHILIGQSHSSEDDLAFIAHLSQYLRDPRYIRIDGRPLLLVYRPALLPNAQATARRWRTWCRDNGIGEIYLAYTQSFESVPPGKYGFDAAVEFPPNNTTPPDVTANVQPLCEGFAGKVYDWSVYPKRSAAYSRPPYTLFRGVCPAWDNTPRRKERGISFVNSSPRGYQEWLLNAIRDSHRHHHGSDDRLVFINAWNEWAEGAHLEPDQRYGYAYLEATRMAHVRARLLTNPAPAESKAVAVVIHAYYPDIFEEVVAYLSKIRDFTLKLYISTPSGSADAIRERLTTCPHEYILEELPNHGRDILPFLTLLPRVAADGFQYLVKVHTKKSIHRNDGDTWRRDLYEKLLTSRAMKQALDEFYSDTGLGLLGPAGHVVPMSFYWGSNARTVERLACRMGIRPSELHQLDFVAGTMFFARVDALRPLLNLAIDRNDFEPEEGQVDGTFAHALERAMSVSAYAAGMSIRSNEGAPTNVRYGFAEATA				NA	NA	NA	NA	NA
BMS010_05137	963			hypothetical protein	ATGCTCAAGGACATCATCTCTTCCGACACACCTACAATTGGGAACCCATCGCGCGTCGCCATCCTTCTATCGACCTACAACGGCGAACGCCATCTGGCCGAACAGCTCGACTCGATCCTTGCCCAGGCACACCAGGACTGGCTGATTGCCGCCTCGGATGACGGCTCCAGCGATACGACGCTGGCCATCCTCCAACGTTATCGCGCCACGGTTGGTGCGAATAGAATGACGATTCTGAAAGGCCCGCGGCAGGGTTTCGTCGCCAACTTTCTCTCCCTCGCCTGCGAACCGTCGTTGGAAGCGGACTTCTTCACCTTTTGCGACCAAGACGATATTTGGCACGTCGACCGACTCGAAAGAGCCCTGAACTGGCTCCGCCAAGTACCTGCCGAGCGCCCCGCCCTGCATTGCGGCAGGACCCATCTGGTAGACAACCAAGGCCGCCATCTAGGCGAATCTCCGTTGTTCCCGAAGGAGCCCTCGTTTGCCAACGCCTTGGTCCAGAGTCTGGCGGGAGGTAATACCATGGTCTTCAACCGGACCGCCCGGATGCTGCTGATGAGAGCAGGCAATGTTCCGGTCGCATCGCATGACTGGTGGACTTATATGTTGATTACCGGATGCGGAGGTATCGTCCATTACGACCCAATCCCCACTATCGACTATCGTCAGCATGGCGCCAACCTGATTGGTGCCAACTCCAGCCTGAAGGACCGCCTGCATCGCCTGAAGCGCATGTTCGCTGGACATTTCAAGGATTGGAACACTCTCAACGTGGCCGCCATGCAACGCAACAACGCATTACTCACCCCAACGCATCGAGCCACCTTCCAGATGTTTGCTGCCACCCGAGAGGCTGATCTCCTGCCACGCTGCTTGGGCGTGCTACGTTCCGGTGTCCATCGACAAACGCTGTTCGGCGATCTCGGCCTGATTGCCGCCGCCGCTCTTGGCAAGATTTGA	MLKDIISSDTPTIGNPSRVAILLSTYNGERHLAEQLDSILAQAHQDWLIAASDDGSSDTTLAILQRYRATVGANRMTILKGPRQGFVANFLSLACEPSLEADFFTFCDQDDIWHVDRLERALNWLRQVPAERPALHCGRTHLVDNQGRHLGESPLFPKEPSFANALVQSLAGGNTMVFNRTARMLLMRAGNVPVASHDWWTYMLITGCGGIVHYDPIPTIDYRQHGANLIGANSSLKDRLHRLKRMFAGHFKDWNTLNVAAMQRNNALLTPTHRATFQMFAATREADLLPRCLGVLRSGVHRQTLFGDLGLIAAAALGKI	PGPT0023115_78	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0023115-rgpB-K12997	NA	NA
BMS010_05138	597	cysC_2	COG0529	putative adenylyl-sulfate kinase	TTGGATCGAAACAACGACATTGTCTGGCAAGCAACCCAGGTCAGCCCGCAAGAACGCGCTCTGCTTCTGGGTCAGCGCCCCGTCACACTGTGGCTGACGGGCTTGAGCGGCTCGGGGAAATCCACCTTGGCATTTGCTCTGGAACAGCGACTGGTGCAGCAGGGAAAGCCTTGCTTCGTTCTGGACGGAGACAACATCCGCCATGGTCTCAATCGCGATCTCGACTTCACACCGGACGCCCGCGCAGAGAACATTCGTCGCATAGCCGAAGTTGCCAAGCTGATGAACATGGCAGGCCTTATCGTAATCGCATCTTTCATTTCTCCGTACCGCCAGGACCGTCAAATGGCCCGCGAAATAGTCGGTGCGGATACCTTCCGTGAGATTCATCTCAGCACAGCGCTGGAACAGTGCGAGGAACGTGACCCCAAAGGACTGTACCGCAAGGCCAGGGCAGGCCTGATCCCGGATTTTACTGGCGTCTCGGCGCCTTACGAGCCGCCCAGCTCTCCTGATCTACGTCTGGATACTGCAGCACTCACGGTCGATGACTGCTTGGAACACCTTACGCATATGATTCGTGGTTTCCTGACGTAA	MDRNNDIVWQATQVSPQERALLLGQRPVTLWLTGLSGSGKSTLAFALEQRLVQQGKPCFVLDGDNIRHGLNRDLDFTPDARAENIRRIAEVAKLMNMAGLIVIASFISPYRQDRQMAREIVGADTFREIHLSTALEQCEERDPKGLYRKARAGLIPDFTGVSAPYEPPSSPDLRLDTAALTVDDCLEHLTHMIRGFLT	PGPT0002780_2328	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002780-cysC-K00860	NA	NA
BMS010_05139	216			hypothetical protein	ATGGAACATATCCTTAGTTCCGACCTGTTTGTCGATGCCCCCGAAGCCAGCTCGAAAGCCCCTTGGCCGCTGCGTGTAATCGCTACCCTGACCCTGTGGCAGCGTCGTATCTCCAGCCGCCATCAGTTGGCCCGTCTGGATGCTCGCCTCCTGGCCGATGCCGGGATCAGCGAAGCCCAGCGTTACGCCGAACTGAACAAGCCGTTCTGGCGTTGA	MEHILSSDLFVDAPEASSKAPWPLRVIATLTLWQRRISSRHQLARLDARLLADAGISEAQRYAELNKPFWR				NA	NA	NA	NA	NA
BMS010_05140	207			hypothetical protein	ATGGACCGCACCCTGACTCATCGGCCCACCCTCCCCAAGACAGACCGCCTTTCCAAGGTTCTGGACCTCTACGCCATCTTCTGCCTCTGGCGCCAGCGAGCCCGCACGCGTCGGCAACTGGCCGTACTCGACGAGCGCATGCTCGCCGACGCTGGCATCAGCATCGCGGAAAGAGAAGCGGAGCTGGATAAGCCATTCTGGCGCTGA	MDRTLTHRPTLPKTDRLSKVLDLYAIFCLWRQRARTRRQLAVLDERMLADAGISIAEREAELDKPFWR				NA	NA	NA	NA	NA
BMS010_05141	318			hypothetical protein	ATGGCTGCTTTCCGCCTGTTCAGCGCTGCCACTCTGCTGGCGCTTTCCACCGCTACTTCCGCTTCCAGCTTCATCGTTACCACCGATACGGTCGTCGGGGCGCTTGGGGAGTCGCTGCAGGCTTCCACCGACATGACGTCGTCATTGCGCGACGACAAGGTGGTGCTCGCAGCACGTGAGGATGCGGCCAGCTTCGTTGCGAGCCAGGGCGAGATTCGTGGCGCACGGCTGGAAGCGGCCCTGACCCATATCCGCGAGCAGGCGCCCCACCTGTCGGCCAGCGACCTGCAACTGGCCCAGGCGATCCTGGCGCTCTGA	MAAFRLFSAATLLALSTATSASSFIVTTDTVVGALGESLQASTDMTSSLRDDKVVLAAREDAASFVASQGEIRGARLEAALTHIREQAPHLSASDLQLAQAILAL				NA	NA	NA	NA	NA
BMS010_05142	321			hypothetical protein	ATGCGCACGTCCTTGCTCGTCGCTACCACCGCCCTGTTCCTGTCCGTCGGCGCCGCCCAGGCGCAGACGCTGGTCGCCACCAGCAACATTGTGGTCCGTGCGCTGGACCGCACCGTCGATTTCACCTCCGACACCACCACCTCGATCCGTGACATGAAAGTCGTGGTCGAGGCCCGCGACGATGCCGCCAGCTTCGTCGCCAGTCAGGGTGAAATCCGTGGCGCCCGCCTGGAAGCAGCCCTCGATGCCATCCGCAGCCAGGTGCCGGAAGCACGCGGCGCCAGCGATCTGGCACTGGCCGAAGCCATCCTCGCCCGCTGA	MRTSLLVATTALFLSVGAAQAQTLVATSNIVVRALDRTVDFTSDTTTSIRDMKVVVEARDDAASFVASQGEIRGARLEAALDAIRSQVPEARGASDLALAEAILAR				NA	NA	NA	NA	NA
BMS010_05143	1950			hypothetical protein	ATGCTTTCGCGCCTGCTCTGCGCCACCCTGCTGCTGGTCGCCGGCCCTCTCCAGGCCGGTCTGCGGCTGGAGCTGCAAGACGACGGCCTGACAACGCCACAACGCGAGGCCAGCCAGGCCCTGCTCGACGAAGCCCTGGATGCCCTGCCGCCACGTTTCGTCGAACGCCTCGACCGCCGCGTGGAGGTCCTCTGGCGCAACGATCTGCCTGACAACGGCTACGGCCGGGTCACCCACCTCGATGCCCTGGCGCTGAACGCAAAACTGCTCGACGGCCTGGTCGATGGCTCTGCCGCACGCGAGCGCACCAACCGTCCCCACGGCACGGTACGCCGCGAGCTGCTGGCTACCGTGCTGCACGAACTCACGCACCTGTACGACCGCGCCCGCCTCTGGCCCGATGGCGAATGGCAGCGCCTGCAGCGTTGCCGCCGGCAGGCCGCCGATCTCGGCCCGGTCGGCCTGCCGGACCGTTGCCGTGGCCAGACCGCCCGCCGCTTCACCCTCAGCGACGACCCGCGCCTGCTCGATCTGGCCGGCTGGGCGCAGCGCGTCGGCAGCCGCGGCCAGCGCGAACGGCACAACGGCCAGGTCGCGCGCAGCCCGGACCTCTACGAGTTGAGCAACCCGCGTGAGTTCGTCGCGGTGAACATGGAGTATTTCCTCCTCGACCCGAGCTATGCCTGCCGCCGCCCGTCCCTGTACCGCTACTTCAGCGAACACTTCGGCTGGTCTCCAGTCGACCGTGACACTTGCCTGGACGGTTACGCCTACCTCAACGCCGGGCGTGATTTCGGCCGGGTACCGCTGGGCAAGCTGGACCCGGAACGGGTCTACGAAGTGGACTACCTGTTCGCCGAAGCCAACGATGCCTGGGTCAGCCGCTGGGGCCATAGCATGCTGCGCCTGGTGGTCTGCGCCCCCGGGCGGCCGCGTGGTCCGGCCTGCCGGCTCGATCTCGACCAGCACCTGGTGCTGTCCTACCGTGCCTTCGTCGGCGATGTGCAACTGTCCAGCTGGGACGGCCTTACCGGCGTCTACCCCTCACGGCTGTTCGTGCTGCCGTTGTCGCAGGTGATCGACGAATACACCAAGGTGGAGATGCGCAGCCTGGCCTCGGTCCCATTGCGCCTGAATCGCACCGAACAGGACATGCTGGTCGCCCGCGCAGCCGAGCTGCACTGGAGCTACGACGGCGACTATTACTTCCTCTCCAACAATTGCGCGGTGGAGACCCTCAAGCTGTTGCGCAGCGGCACCGACCGCCCGGAGCTGGTCGGCCTCGACAGCATCATGCCCAACGGCCTGCTCGACCTGCTGATCGCCCGCGGCCTGGCCGACCGTAGCGTGCTCGACGATCCCAAGGAGGCCCTGCGCCTGGGCTATCGCTTCGATTCCTTCCGTGACCGCTACCAGGCGATGTTCGCCGTACTGCGCCAGCGCCTGGCGGTGCCCCAGGCGCGCGTCGAGGATTGGCTCGCCCTGCCCGCCGAGCGCCGCCGGCCCTGGTTCGAGAATGCCGACCTGCGCGCCTCGGCAGCCTTGCTCCTCTTGGAACAGGCCGCCCTGCGCCGGCAACTGCTGCTGGCCCAGGACGAACTCAAGCAGCGCTACCTCGGCCCACGCGCCGACGACGACGAGCTTCTCGCCAAGGCCGGCGACACCCTCGAAGGCATCCTCGCCAACAGCGGCTTCCTCAGCCGCCCCGCCGAAATGCTAGACAGCGGCTACGGCCTGCCCCAGGCCGGCGAATGGCAGCGCCTGGAAGCGGAGGCATCCGAACGCCAGCAGACGCTGCATCGGCTGAGCGACGACCTCGACCGCGAGGTGCGCCTGCTCCTGTTGCCGGAGCGCCGCAGCGAGCTGGAAGCCAGCGAAGCCAACCTGGCCCGCCTTGGCGAACACCTGCGCGCGCTGCATAAGGCCGGTGGCGGGCTGGAACTCCCCTGA	MLSRLLCATLLLVAGPLQAGLRLELQDDGLTTPQREASQALLDEALDALPPRFVERLDRRVEVLWRNDLPDNGYGRVTHLDALALNAKLLDGLVDGSAARERTNRPHGTVRRELLATVLHELTHLYDRARLWPDGEWQRLQRCRRQAADLGPVGLPDRCRGQTARRFTLSDDPRLLDLAGWAQRVGSRGQRERHNGQVARSPDLYELSNPREFVAVNMEYFLLDPSYACRRPSLYRYFSEHFGWSPVDRDTCLDGYAYLNAGRDFGRVPLGKLDPERVYEVDYLFAEANDAWVSRWGHSMLRLVVCAPGRPRGPACRLDLDQHLVLSYRAFVGDVQLSSWDGLTGVYPSRLFVLPLSQVIDEYTKVEMRSLASVPLRLNRTEQDMLVARAAELHWSYDGDYYFLSNNCAVETLKLLRSGTDRPELVGLDSIMPNGLLDLLIARGLADRSVLDDPKEALRLGYRFDSFRDRYQAMFAVLRQRLAVPQARVEDWLALPAERRRPWFENADLRASAALLLLEQAALRRQLLLAQDELKQRYLGPRADDDELLAKAGDTLEGILANSGFLSRPAEMLDSGYGLPQAGEWQRLEAEASERQQTLHRLSDDLDREVRLLLLPERRSELEASEANLARLGEHLRALHKAGGGLELP				NA	NA	NA	NA	NA
BMS010_05144	426	osmC	COG1764	Peroxiredoxin OsmC	ATGAAAAAGCACGCATCGGCGGTCTGGCAGGGCAACCTCAAGGATGGCAAGGGCACCCTCAGCACCCAAAGCGGCGCGCTCAAGGACAACCCCTACGGCTTTAACACTCGCTTCGAAGACCAGCCGGGCACCAACCCGGAAGAGCTGATCGGCGCGGCACACGCCGGTTGTTTCTCCATGGCGCTGTCGATGATGCTCGGCCAAGCCGGACTCACCGCCGAGCGTATCGAAACACAGGCCGTGGTGACCCTGGACAAGGTGGGTGAGGGTTTTGAAATCACCACCGTCGACCTCACCCTGAAGGCGAAGATTCCCGGTGCCGACGTCAACCAGTTCCAGCAGATCGCCAATCAGGCGAAGGAAGGCTGCCCGGTCTCCAAGCTGCTTAAGGCACGCATCAACCTCAACGCCACCCTGGAAAGCTGA	MKKHASAVWQGNLKDGKGTLSTQSGALKDNPYGFNTRFEDQPGTNPEELIGAAHAGCFSMALSMMLGQAGLTAERIETQAVVTLDKVGEGFEITTVDLTLKAKIPGADVNQFQQIANQAKEGCPVSKLLKARINLNATLES	PGPT0013160_2210	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013160-ohrB|osmC|ohr|ykzA-K04063	NA	NA
BMS010_05145	1188			hypothetical protein	ATGTTTGCCCAAGAAAGTCAGGTGGTTGAAGAATTTCTCCATACCCCGTACGGGCAGCAATTGCGGCAAGGTTTCCGTTGGCTGCGCTTTTCCTCTTCCCTGGAGCGCGAGTTCCGCGCCCAACTCAACGAGCAGTCGCGTCTTTCCCAATTCCTCGCCGGCCTACTGCTGACTCTGGTGGTCGGTGGCTATCTGTACATTGAGCAGGTCTTCATCGTTGCCTACCAGCCGGTGTGGCTGACGGAAGTGACACTGATCCGCCTGGCACTGATCGGCATCGGCGGCATGGTCCTGCTGATGAGCGGCAGTCGCCGTGGACGGCGGATCGCAACGAAGCTCTATCCGCTATTGCTGGTGGTGATCGGCGGTCTCGCCTCTCATGTCGACTTGCATTACGAGGCCAGCCGGCTGCCGCTGGTGCTGCGTTACGAAGCAGGGTTGTTGATCGTTTCGTCGTTCTTCTTTCTCGGCATCACGTTCTGGACGGCGCTGTGTTGCGGCCTGTTGATCATGTTGGTGGACGGCGTGATGGCGCAGTGGCGGCTGGAAGGACCATTGCTGGCCGAGCACTGGATCGCCACCGGTTACTACCTGGTCCTTCTGTTCATCGGGGCGACCGGCCGCTTCGTGCATGAATTTTCCCAGCGCGAGCAGTTCCTCATGCGCAAGCTGCTCGGTTGGGTGGCCGAGCATGACGCCCTGACCGGCCTGGCGAACCGGCGTCACTACGATTCGTCGCTGCGGGTACGCCTGTCGCAGGCGCGACGTGATCGGATGCCCATGGCGCTGCTGTTGGCCGATCTGGATGATTTCAAGGTCTACAACGATACCCTGGGGCACCCGGCGGGCGATGAGCTGTTGCGGGTCTTCGGCGTGCGCTTCGCCGAATTCGCCCGGCGCCCGCTGGACGTAGCGGCCCGGACCGGCGGCGAAGAGTTCGCCCTGCTGTTGTACGACACCGACGAAGCGGGGGCCGAGGTCATTGCCGGGAACATCCTCAAGAGCCTGCGTGAAAATGCGTTGCCGCATCCTTCGGAATGGCCGCGCGGACCGTTGACCCTGAGCATCGGCGTTGCCGTCGCCAACGAGCGGGACACCGCCGAGACCCTGTACAAGCGCGCCGACACGGCGTTGTACCGGGCCAAGGCGGGGGGCAAGAACCGCTTCGTGCTCAGCTGGCTGCCCTGA	MFAQESQVVEEFLHTPYGQQLRQGFRWLRFSSSLEREFRAQLNEQSRLSQFLAGLLLTLVVGGYLYIEQVFIVAYQPVWLTEVTLIRLALIGIGGMVLLMSGSRRGRRIATKLYPLLLVVIGGLASHVDLHYEASRLPLVLRYEAGLLIVSSFFFLGITFWTALCCGLLIMLVDGVMAQWRLEGPLLAEHWIATGYYLVLLFIGATGRFVHEFSQREQFLMRKLLGWVAEHDALTGLANRRHYDSSLRVRLSQARRDRMPMALLLADLDDFKVYNDTLGHPAGDELLRVFGVRFAEFARRPLDVAARTGGEEFALLLYDTDEAGAEVIAGNILKSLRENALPHPSEWPRGPLTLSIGVAVANERDTAETLYKRADTALYRAKAGGKNRFVLSWLP				NA	NA	NA	NA	NA
BMS010_05146	906			hypothetical protein	GTGACTGCCCTGCTGCTCGCCCTCTGGCCCCTGTTCGCCCTGATCGTCGGCGGTTATCTGCTGCGCCGTTGGGACTTTCCCAGCGAGGCCTTCTGGCCGGGCGCCGAACGCCTGAACTACTTCATTCTCTTCCCCGCCCTGCTGTTCAGCAGCCTGGCCACCGCTCCGTTGGACAACCCCGCGCTGCCCCGCCTGGCCCTGGCGGTCCTGCTTGCCCTGGGTCTGGCCTGGATCGCCCTGCTCGTTGCCCGTCGGCTACGTGGTTGGTCGGCGGCACGATTCGGCGCCGTCACCCAGGGCGTGCTGCGCTTCAACACCTACCTGGGCTTGGCTGCGGTGGGCAGTCTGTTCGGCAAGGAGGGCCTGACCCTGGCCGCGTTGATGCTGGCACTGATGGTACCGACGGTGAACGTGATGTCGGTCTGGGCACTCACCGCCGAGCGCGGCGTCAGCGCCCGCTCGCTGCTGCTGCCGATCGCCCGGAATCCACTGATCCTCGCCTGCCTGGCCGGAGCGCTGGTCAACCTCTCCGGCCTCGGCCTGCCCGGCGGCACCGACCGCCTGCTCAGCCTGCTCGCCGCCGCCAGCCTGCCGCTCGGCCTGCTCTGCGTCGGCGCCGCGCTGCGACCGCAGGAACTCGGCGGCGAAGTCCCGGCCCTCGGCTGGAACTGCGCGATGCGCCTGCTGGCCATGCCGCTCCTGGCGTTCGGCGTGGCCTTGGCGCTGCACCTGCCGGCCATGGAAAGCAGCCTGCTGATCCTGTTCTTCGCCCTGCCCACTGCCCCTACCGCCTACGTCCTGACCCGCCAGCTCGGCGGCGACAGTCATTTGATGGCCGGGATCATTACCCTGCAAACGCTGCTGGCCGCGGCCAGCCTGCCGTTGGTGATGGGATGGGTGGGCTGA	MTALLLALWPLFALIVGGYLLRRWDFPSEAFWPGAERLNYFILFPALLFSSLATAPLDNPALPRLALAVLLALGLAWIALLVARRLRGWSAARFGAVTQGVLRFNTYLGLAAVGSLFGKEGLTLAALMLALMVPTVNVMSVWALTAERGVSARSLLLPIARNPLILACLAGALVNLSGLGLPGGTDRLLSLLAAASLPLGLLCVGAALRPQELGGEVPALGWNCAMRLLAMPLLAFGVALALHLPAMESSLLILFFALPTAPTAYVLTRQLGGDSHLMAGIITLQTLLAAASLPLVMGWVG	PGPT0007208_5871	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-ABSCISIC_ACID_DEGRADATION	PHYTOHORMONE-AUXINE|INDOLE‐3‐ACETIC_ACID|IAA_METABOLISM	PHYTOHORMONE-IAA-AUXIN_TRANSPORT_PLANT_LIKE,PGPT0007208-auxin_symporter-NA	NA	NA
BMS010_05147	1857	recD	COG0507	RecBCD enzyme subunit RecD	ATGGCGCTCGCTGATCTTCCCCTCGGCCCCCTGGAGCGCGCCTTCGTCGACAGCCTGCAACGCCTCGATCCGCAGGCGGACGACGCGGTGCTGGCTGCCGCCGCACTCTGCTGCCAGGTGCTGGCCGAGGGCGATGTCTGCCTGCCCTTGGGGCGCCGCGCGGGCAAGCCCGCCTGGCCGGAAGCGGACGCCGGCTTCGTGCTGCCGCCCCTGGCGGCGTGGCGTGCGCACCTGGAGGCGTCGCCCTTGGTGGCCAGGCCGGGCGAGTTCGCCCCGCTGATCCTCGACCGTGACCGTCTCTACCTGGCGCGCTACCACGCTTACGAAAGCCAGCTCGCCGAACGCCTGTTGACACGGGCGGCGGACCGACCGGAGGTGGACGAAACGCTGCTGGCCGACTCCCTCGCCCGCCTGTTTGCCCGCAACACCCAGTCGCCGGACTGGCAGCGCCTGGCGGCGGCGCAGGCGGTTCGTCGGCGTCTGGCGGTGATTTCCGGCGGCCCCGGAACCGGCAAGACCACGACTGTGGTGCGCCTGCTCGCCGCCTTGCTCGAGCAACGTGGCGGCGAGTCCCTGGCCATCGGCCTCGCGGCGCCCACCGGCAAGGCGGCGGCGCGGATGGCCGAGGCGATCCGCAACGCCAAGGCCGAACTGCCGGTCAGCGAGGCGATCAAGGCGGCGCTGCCTGAGGAGGCGCGCACCCTGCACCGGCTGCTCGGCAGCCGCGGCGACAGCCCCCAGGTGCGTCACGACGCGTCCAATCCGCTGCCCCTGGACGTGCTGGTGGTGGACGAGGCCTCCATGGTGGACTTGGCGCTGATGGCCAAGCTGCTCGCCGCCCTTCCCCCCGCGGCGCGGCTGATTCTGCTCGGCGACAAGGACCAGCTCGCCGCCGTCGAGGCTGGCGCGGTGTTCGCCGAACTGTGCGAGGGACGTGGTTTCGATGCACGTGCGGCGACCGATCTGCAACGCCTCACTGGCCAACCGGTGCCGGTGGAGAAGCCCCGTTCGAAGCTGGGCGATGCGGTGGTGCTGCTCACCCACAGCCATCGCTTCGCCGGCGACAGCGGCATCGGCGAGTTGGCGCGGCGGATCAATGCCGGTGACGCCAAGGGCACCCAGGCACTGCTGCGGGAAAACCGCGCCGACCTGGCCTGGAACGCCCATCCGACGCCTGCCGGCCTGCTGGAGCGACTGGATGCGGGCTACGCGCCGTATCTCGCCGCCGCCCGCCAGAGCGATCCGGGGGCTGCCTTCGCTGCGTTCAACACCTTCCGCGCCCTCACCGCCCAACGCGAAGGCCCCTGGGGCGTGGCCGGGATCAACGAGGCCCTGGAGGCGCGCATCAAGCGCCGTCTCGGTCTGGCCAGCCGGGAGCGCTGGTACCCTGGCCGTGCGGTGATGGTGCGGCAGAACGACTACGCCCTGGGGCTGTTCAACGGCGATATCGGCCTGTGCCTGCCGACGCCCAACGGCCTGCGGGTGTTCTTCGAGGGTGAGGACGGCCACCGACCCTTCGCCCCGGCGCGCCTGCCCAGCCACGACAGCGCTTTCGCCATGACCGTGCACAAGAGCCAGGGCTCGGAATTCGCCGAGGTGCTGCTGGCACTGCCGGAACAGCCCAGCCCGCTGCTGACCCGCAGCCTGTTCTACACCGGCATCACCCGCGCCAAGCGCAAAGTGGAAATATGGGCCCTGGCGCCCCGCCTGAGCGAAGCGGTGAACACCCGCGCCGAACGCGCTGCCGGTCTGGCCGAGCGACTGGGCGTGCCACCAGCCGCCAGCGCCGAGCCAGTCGCGCCGGCTCCGCCGAAGCCTGTCGATCCGGCAGCCAAGGGGCAGTTGGACTTGTTCTAG	MALADLPLGPLERAFVDSLQRLDPQADDAVLAAAALCCQVLAEGDVCLPLGRRAGKPAWPEADAGFVLPPLAAWRAHLEASPLVARPGEFAPLILDRDRLYLARYHAYESQLAERLLTRAADRPEVDETLLADSLARLFARNTQSPDWQRLAAAQAVRRRLAVISGGPGTGKTTTVVRLLAALLEQRGGESLAIGLAAPTGKAAARMAEAIRNAKAELPVSEAIKAALPEEARTLHRLLGSRGDSPQVRHDASNPLPLDVLVVDEASMVDLALMAKLLAALPPAARLILLGDKDQLAAVEAGAVFAELCEGRGFDARAATDLQRLTGQPVPVEKPRSKLGDAVVLLTHSHRFAGDSGIGELARRINAGDAKGTQALLRENRADLAWNAHPTPAGLLERLDAGYAPYLAAARQSDPGAAFAAFNTFRALTAQREGPWGVAGINEALEARIKRRLGLASRERWYPGRAVMVRQNDYALGLFNGDIGLCLPTPNGLRVFFEGEDGHRPFAPARLPSHDSAFAMTVHKSQGSEFAEVLLALPEQPSPLLTRSLFYTGITRAKRKVEIWALAPRLSEAVNTRAERAAGLAERLGVPPAASAEPVAPAPPKPVDPAAKGQLDLF				NA	NA	NA	NA	NA
BMS010_05148	3549	recB	COG1074	RecBCD enzyme subunit RecB	ATGAGCCTCGACCTCCTCGCCTCGCCCTTCGACGGCCGCAGCCTGATCGAGGCCAGCGCCGGCACCGGCAAGACCTGGACGCTGACCGCGCTCTACGCGCGGCTGCTGCTGGAGCGGCAGTTGTCGGTCGGGCAGATTCTGGTGGTGACCTACACCACGGCGGCCACGGCCGAACTGCGCGAGCGCATCCGTGCCCGGTTGGCCGAGCTGCTGGCGATCTACGAAGGCACGCCGAGCGGCGATGACTTCCTCACCCGCCTGCATGCCCAATACCCCGGCGAAGATGCACACCGGCGCCTGTTGCTGGCGGTGCATGGTTTCGATGAGGCGGCGATCTTCACCATCCACGGTTTCTGCCAGCGCGCCCTGCAGGACGCGGCGTTCGAGGCCGGCGGGGATTTCGACAGCGAGCTGGCCACCGACGATCGCGAGGTGCTCGACGCCGTGCTGGCCGATGCCTGGCGCCATGAGCTGGCCGAGGCGGATTCGGCCTGGGCGCGCTTCCTCGCCAAGCAGCGCATCACCCCGGCCTGGCTGCGCCAGCGGCTGCGCAGTCATCTGGGCAAGCCGTACCTGCGCATCGAGCCGCGCGAGGATATCGACGCGGCGGACCTGTCTGCGGCCGGCGCCGCCTGGGAGCGTGCCGCAGCGCTGTGGCGGAGTACGGGCTACGCCTGGGTCGAAGAACTGCGGGCCCATGGCGGACTCAGCCAGACCACTCACAAGCAGGAGAAATTCGCGCTCTGGTCCAGTGAGCTGGATGCTTATTTCGCCGATCCGGCCGCCCTCTTCGACCCGCCACAAGGCTTGGACAAACTCGGTATCCAGGCGCTGGCGAAAGCCTGCAAGAAGGGTTTCGACGCGCCGGTATGCGAGCTGGCGGAGGCCCTGGACATTCTGCGCGAAACCCTGGAAGAAGCGATTCCGGCCGGCGAACGACGCTTGATCGCCCTGCAGGTGCGCCTGCTCGACCAGCTCAACCGCGAATTGCCGGCGCGCAAGGCGGCGCAGCGCATTCTCGCCTTCGACGACCTGCTGAACCGTCTCAACGAAGCCCTGTACGGCCCGGCCGGCGATGAGCTGGCGGCGACCCTGCGCGAGCGCTATCCGCTGGCGCTGATCGACGAGTTCCAGGACACCGACCCGATCCAGTACGCCATCTTCGATCGCATCTACCGTCCACGTGGCGATGCGCCGGCGGGAGACCTGTGCTTCGTCGGCGATCCCAAGCAGGCCATCTATGCCTTCCGCGGCGCGGACCTGGCGACCTACCTGAAGGCCCGCGACGAAGCCGGTCGGCACTACGACCTGCCATTCAACTACCGTTCCACGCCGGAGCTGATCGCCGCGCTCAATCTCCTCTTCGATCGTCCCCGGCCATTCGCCGAAGAGGGCCTGGACTACCCGCCGGTTCGTCCGGGGCAGAAAGACCGTGCCCGGCTGGTCCTGCCGGAACAGGAGTCGCCGCTGGCGCTGGTCTGGCTCGGCGACGAGCCGCTGATCAAGGGCGAGGCGGGCCGCCTGGCGGCGCAGGACACCGCACGTCGCATCGCGGCGATCCTGGCGGCCAGCGCCGAAGGGCAGGCGTATTTCGAGCAGGACGGCACGCGCACGCCGCTCAAGGGGGGTGACATCGCCGTGCTGGTGGCCAGCCACCGGCAGGCCGCCGACATCGCTGCCGAACTGGCTGCGCGTGGGGTACCCAGCGTGCGGCGCGGGCGCGACAGCGTCTGGCACAGCGAGGAGGCGGAAGAGCTTGCTGCGGTGCTCGCCGCCTATGCCGAGCCGGGGCGCGAGGGGCTTTTGCGCTACGCCCTGGCCACGCGCCTGCTTGGCCGCGACGCCCTGCAATTGGCGCGCTGCCAGGATGACGAACTGGCCTGGGACGCCGAGCGCGAAGCGGCGGAGAAATACCATCAGCTCTGGCAACAGCACGGCTTCATGCGCGCTTTCCGCGCCTGGCTGGACGAACAGGGTGTGGCCGGGCGACTGCTCGGGCTGCCCGATGGCGAGCGCCGGCTGACCAACCTCCTGCACCTGGCCGAACTGTTGCAGACCGAGAGCCTGCAACGCCCCGGCCTGGAGCCGCTGCTCGCCTGGCTGAATGCCCAGCGCACCAGCGAAGGCGCCGGCGACGATGCGCTGCTGCGCCTGGAAAGCGATGCCGAGCGGGTGCAGATCGTCACCGTGCACACCAGCAAGGGCCTGGAATACCCGTTGGTGTTCTGCCCGTACCTGTGGGACGGCGGCCTGCTGCGCAAGGACGAGGACGTCACCTGCCACGCCGCCGACGGTACACCGCTGCTCGACCTGGGCAGCGCCGACTGGGACGACCATCGCCGACGTGCCCGCCAGGAGCGTTTCGCCGAACGCCTGCGGCTGGCCTATGTCGCCCTGACCCGTGCCCGTGATCGGCTTTGGCTGCATTGGGGGCCGGTCGCCTTGCCCAAGGCGAAGAAAGACGGCGAACTGCCCGAGGATGGCCTGCACAGCAGCGCCCTCGCCTGGCTGCTGCATGGCCGCGACCTGCCGGGCGACGATGCCCTGGCCGAACTGGCGACACATCTGGCCGCATGCGAGCCGGCGCAGTTGCGCGAGGAGTTGGACGCGCTGGCCAGCGACAGTGCCGGCACCCTCGCCCGCATCCCGCTGCTGGAGCGTGAGGCCAGTGCCCAGGGTCAGCACCGCGCCACACCGCCCGCCGAGCTGGCGTTGTTGCCGCGCAGCCTGCACAGCGCCTGGCGGATCGGCAGTTTCTCCGGTCTGGCCGCCGGGGTACACATGGAAGCACCGGACCGCGACACCCTGGCCATGCCGGATGCCAGCGAGCCGGGCAGCGGCTTCTTCGCCTTCCCTCGCGGTGCACGTGCCGGTACCTGTCTGCACGCGATCCTGGAGCACTGGGCGCGGGGCAAGGGCAGCCTGGAGGAACTGGTCGCCCCGGCTCTGCGTGACCACGGCCTGCCCGAGGACTGGGCACCGCTGACCGTGGCCCATCTGCAACAGGTGCTGGACACCCGGCTGGACGAGCACGGCGAATTGCGCCTGTCCGCCCTGGCGCCGGAGCGCCGCTTGCCCGAGCTGGGCTTCACCTTCCCGGTGGCCGGCCTGGATGTCCAGCGCCTGCGCGCCCTGCTCTGCGACCCGGCTCATGGCTTGGCCGAACCCCTGCGCGAGGCGGCGGCACGCCTGGAATTCGATGCGCTGAAAGGCTTCCTCAAGGGTTTCATCGACCTGACCTTCGAGCACGACGGTCGCTGGTACATCGCCGACTACAAATCCAACTGGCTCGGCCCGGATACCGGGCACTACGGCGGCGACCGCCTGCTCCAGGCCCTGGCCGGCGAGCACTATTACTTGCAATACCTGATCTATCTGGTGGCGCTGCGCCGCTTCCTGCGCCAGCGTCTCGCGGATTTCCGCGACGAACAGCTTGGTGGCGCCTATTACCTGTTCCTGCGTGGCATGCCGGACGCCGGCGTGTACTTCGCCCGCCCGGCGGACGGCCTGTTGGATGCGCTGGACCGGCTGTTCGAGGAGGGGGCATGA	MSLDLLASPFDGRSLIEASAGTGKTWTLTALYARLLLERQLSVGQILVVTYTTAATAELRERIRARLAELLAIYEGTPSGDDFLTRLHAQYPGEDAHRRLLLAVHGFDEAAIFTIHGFCQRALQDAAFEAGGDFDSELATDDREVLDAVLADAWRHELAEADSAWARFLAKQRITPAWLRQRLRSHLGKPYLRIEPREDIDAADLSAAGAAWERAAALWRSTGYAWVEELRAHGGLSQTTHKQEKFALWSSELDAYFADPAALFDPPQGLDKLGIQALAKACKKGFDAPVCELAEALDILRETLEEAIPAGERRLIALQVRLLDQLNRELPARKAAQRILAFDDLLNRLNEALYGPAGDELAATLRERYPLALIDEFQDTDPIQYAIFDRIYRPRGDAPAGDLCFVGDPKQAIYAFRGADLATYLKARDEAGRHYDLPFNYRSTPELIAALNLLFDRPRPFAEEGLDYPPVRPGQKDRARLVLPEQESPLALVWLGDEPLIKGEAGRLAAQDTARRIAAILAASAEGQAYFEQDGTRTPLKGGDIAVLVASHRQAADIAAELAARGVPSVRRGRDSVWHSEEAEELAAVLAAYAEPGREGLLRYALATRLLGRDALQLARCQDDELAWDAEREAAEKYHQLWQQHGFMRAFRAWLDEQGVAGRLLGLPDGERRLTNLLHLAELLQTESLQRPGLEPLLAWLNAQRTSEGAGDDALLRLESDAERVQIVTVHTSKGLEYPLVFCPYLWDGGLLRKDEDVTCHAADGTPLLDLGSADWDDHRRRARQERFAERLRLAYVALTRARDRLWLHWGPVALPKAKKDGELPEDGLHSSALAWLLHGRDLPGDDALAELATHLAACEPAQLREELDALASDSAGTLARIPLLEREASAQGQHRATPPAELALLPRSLHSAWRIGSFSGLAAGVHMEAPDRDTLAMPDASEPGSGFFAFPRGARAGTCLHAILEHWARGKGSLEELVAPALRDHGLPEDWAPLTVAHLQQVLDTRLDEHGELRLSALAPERRLPELGFTFPVAGLDVQRLRALLCDPAHGLAEPLREAAARLEFDALKGFLKGFIDLTFEHDGRWYIADYKSNWLGPDTGHYGGDRLLQALAGEHYYLQYLIYLVALRRFLRQRLADFRDEQLGGAYYLFLRGMPDAGVYFARPADGLLDALDRLFEEGA				NA	NA	NA	NA	NA
BMS010_05149	2049			hypothetical protein	ATGACCCAACCCTACTCGCTGGACGATCTGTCGCTGTTGGTTGAAACCGTCGAACTGGAGTGCAAGCTCGCCCAGGGTCAGGACGGCAAGGGTGAGGTGCCGAAGGATTTCTGGACGACCTATTCCGCCTTCGCCAATACCCATGGCGGCGTCGTGTTGCTCGGTGTTCGGGAGAAGGATGGCCAGTTCAGCGTGGCTGGCTTGTCGAATGTCGAGAAGGTCCGCACTGACCTGTTCAATACCCTGAACAACCCGGCCAAGGTCAGCATCAATCTGCTGACGGACGATGATGTCGTGGTTCGTGAGCTGGAGGGCAAGCGGATTCTCGAGGTGCACGTCCCCGCCGCCTCGCGCAAGCAGAAGCCGGTTTTCCTCAACGGCCAGCCGTTGGGTAATACCTATCGGCGGTTGCATGAGGGCGACCGGCGTTGCGACGAGGAAAGCGTCAAGCGTATGTTCGCCGAGCAGGTGGAGGACTCCCGGGACGAACGCATCCTGCCCCACTACGACCTGAGCGATATCGATCCAGACAGCCTGCGCATATACCGGCAGATGCTCAGCGACCGCAAAGCCAATCATCCGGCGCTGGAGCATCAGGGTGTCGACTTCCTGCGCCAGATCGGCGGATGGCGGCGGGACCGTGCCACTGGGCAGGAGGGCCTGACAGTTGCGGGGTTGTTGATGTTCGGCCGCTGGTTGTCGATCCAGGAAGCCATGCCTCATTACTTCCTCGATTACCAGGAGCGGCCGCAGGCGAAGACCGAGTTGCGCTGGGTCGACCGGTTGGTGCCGGATGGCACTTGGTCAGGCAACCTGTTCGACTTCTATCGGCGGGTCTACCGCAAGCTGACCGAGGATTTGAAGGTGCCTTTCGCCCTCAAGGGCGATCAGCGCCAAGACGATACGCCTGTGCACGAAGCCTTGCGCGAAGCCTTGGTCAACACGCTGGTGCATGCCGATTACACGGGGCGTGTGTCCGTGCTGGTGGTCAAGCGTCCCGACCTGTTTGGTTTCCGTAACCCCGGTGGCCTGCGTTTGCCGTTGGAGCAAGTGCTGCAAGGCGGTACGAGCGATTGCCGGAACCGGCTGATGCATCAGATGTTCCTGATGATCGGCTTGGGCGAGCGTGGTGGCTCCGGGGTACCGAAGATTTACAGTGGCTGGCGCAGCCAGCATTGGCGCCCGCCGGCACTATACGAGAAGGATGAGCCCGAGCAGACCCTGCTCGAGCTGCGTATGGTCGATCTGCTGCCTGCCGAGGCGGTAGAGCAACTGCGCGAGCGTTTCGGAGAGCGTTTCGACCGGCTCGACCATACCGCCCGGATGATCCTGGCCACGGCCGCCATCGAGCGGGTGGTCAATCATAATCGTCTGTTGGAACTCTGCGATGCCCATCCCCACGACCTCAGCCAGATGCTGAGCCGGCTGGTCAAGGAGGGCATGCTGGTCTCGGATGGGCGGTCGCGCGGCATGATGTATCACTTGCCGGGTGAGGTCATGCCGACGCCCGAGCAGGTGTTCGAGGGACCGCAGCCCATGCCGGGCTATGGTTCCCCGGCCAAGTTGGGCCCCAGCTCCGAACATTGGAATTTAAGCTCCGAACATTTCGCTGTCAGCTCCGAACATTGGAATTCAAGCTCCGAACATTTCGCTGTCAGCTCCGAACATTGGAATTCAGGTTCGGAGGAGAGCGATAGCAATAGGGACGAAGTGGGACGCTGGATCAGTCCTCACCTACCCTTGCCGGTCGTGGACTCTCTCGACTGTCTGGACGAAAACTTCCGCACGAGGCTGGAAACGATGGCTGCCGAGCCCCGGCGGAAAAAGAAACTGGCCAGGGAGCGCATGCAGCAGGTGCTGACGGCGTTGTGCCGGGAGCAGTTCATGACGCTGAACGTGCTGGCCCGGCTGGTCGAGCGTAACCCCGATGCGCTACGCCAGCAGTATTTGAACGAGATGGTGCGTCATCGGCAGATCCAACTGGCGTTCCCGTCGCGCCCCACGCATGAGCGCCAGGCGTATCGGGCGGCATCGGCGACGGATGAGTGA	MTQPYSLDDLSLLVETVELECKLAQGQDGKGEVPKDFWTTYSAFANTHGGVVLLGVREKDGQFSVAGLSNVEKVRTDLFNTLNNPAKVSINLLTDDDVVVRELEGKRILEVHVPAASRKQKPVFLNGQPLGNTYRRLHEGDRRCDEESVKRMFAEQVEDSRDERILPHYDLSDIDPDSLRIYRQMLSDRKANHPALEHQGVDFLRQIGGWRRDRATGQEGLTVAGLLMFGRWLSIQEAMPHYFLDYQERPQAKTELRWVDRLVPDGTWSGNLFDFYRRVYRKLTEDLKVPFALKGDQRQDDTPVHEALREALVNTLVHADYTGRVSVLVVKRPDLFGFRNPGGLRLPLEQVLQGGTSDCRNRLMHQMFLMIGLGERGGSGVPKIYSGWRSQHWRPPALYEKDEPEQTLLELRMVDLLPAEAVEQLRERFGERFDRLDHTARMILATAAIERVVNHNRLLELCDAHPHDLSQMLSRLVKEGMLVSDGRSRGMMYHLPGEVMPTPEQVFEGPQPMPGYGSPAKLGPSSEHWNLSSEHFAVSSEHWNSSSEHFAVSSEHWNSGSEESDSNRDEVGRWISPHLPLPVVDSLDCLDENFRTRLETMAAEPRRKKKLARERMQQVLTALCREQFMTLNVLARLVERNPDALRQQYLNEMVRHRQIQLAFPSRPTHERQAYRAASATDE				NA	NA	NA	NA	NA
BMS010_05150	225			hypothetical protein	ATGACGGATCACTCCACTTTACGAACCGTGCTTCTGGCGGCGACACCCGTTACGGGCGAGAGTATTGGCAACCCGGCACTGTTCGAACGGTCACGTCGGTACCGGCTGGATCTCTCCCACGAGAGCGATGCCAACACGTGTGACTCCAGGATTGTCGAAAACATGATGGCCAAATGGCTGCCCAGGCAAATCCCCGTCGAGTGCACGGCGCAGAGGGCGGCATGA	MTDHSTLRTVLLAATPVTGESIGNPALFERSRRYRLDLSHESDANTCDSRIVENMMAKWLPRQIPVECTAQRAA				NA	NA	NA	NA	NA
BMS010_05151	3258	recC	COG1330	RecBCD enzyme subunit RecC	ATGCTCGACCTCTACCACGCCCCTGACCTGGAAACCCTCGGCGAGCTGGCCACCACCTTGCTCGCCCAGCCGCAGCGCGACCCGCTGGCGCCGGCCCAGGTCGTGGTGCCGAGCCAGGGCATGGGCCGTTGGCTGACCCTGGAGCTGGCGCGCAAGCAGGGCATCGCCATGCAGGTGGAGATGCAGTTGCCGGCGCGCTTCGTCTGGGAACTGGCGCGGCAGGTGCTCGGCCAGTTGCCGGAGCAATCGGCCTTCGCCCCGGCGACGCTCGCCTGGCGGCTCTACGACTGGCTGTGCGAGCCGGCCAATCGCGAACGTGCGCCGCGTCTGGCGCAGTACCTGGAGGGCGGTGACGAGCGCCGACGGCTATCTTTGGCGACGAAGATCGCCGATGTTTTCGACCAATACCTGCTGTATCGCGACGACTGGCTGGCTGCCTGGGAGCGTGGCGAGCGCCTCGACCTGGGCGCCGACGAAGACTGGCAGGCCCTGCTCTGGCACGAGTTGACCGCCGACGGCCACCCGCACCGCGCCCGCCTGCTGGAAGAGCTGCTGCGTCGCCTGTACACGGGCGAGCCGATCCCCGGTCTGCCCGAGCGCCTGCTGGTGTTCGGCATCAGTAGCCTGCCGCCGCACCACCTGCGGGTGCTGGACGGTCTGGCCCGGCACATCGACGTGGTGATCTGCGCGCTCAACCCCTGCCGCGAGGCCTGGGGCGATATCCGCGACATTCGCGAGCTGGCCCGGCAACCGGTCGGCACGGGGCTGGACGACTGGTACCTGGACGTCGGCCACCCGCTGCTCGCCAGCCTCGGCAAGCAGGGCCGCGACTTTTTCGACAGCCTGTTCGCCCTCGGCGGCAACGAGACCGGCCTGTATTCCGAAGACGCCGACCTGTGCGACGACAGCCTGCTGCACGCTTTGCAGAACGACATCCTGCGCCTGCGCACCCGGACACCGGAGGAGCGCCTGGCGCTACGCGCGGATGATCGCTCCCTGGAGGTGCATATCGCCCACTCGCCCCTGCGCGAGGTGGAAATCCTCCACGACCAGTTGCTCGCCCGCTTCGCCGCCGACCCGGGCCTGACACCCGACCAGGTGGTGGTGCTGACCCCCGACATCGAGCGCTATGCGCCCTACATCGAAGCGGTGTTCGCCCCCCGCGAAGGCGCGCCGCGCATCCCCTACAGCCTCGCCGACCGCAGCCTGCGTGCGGAAATCCCGCTGATCGAGGCGTTCCTCGACCTGCTCGCCCTGCCAGACAGCCGCTTCACCGCCGAAGACATCCTCGGCTGGCTGGAGCAACCGGCCATCGCCATCCGCGCCGGCATCGAGGATGAAGACCTGCCGCTGCTGCGCGACTGGCTGCGCGAGGCCGGGGTGCGCTGGGGCCGCGACGCCGATCACCGCGCCGGTCTCGGCTTGCCGGCGGATGCCGCGTTCACTTGGCGCCAGGGCCTGGACCGGCTGCTGCTGGGCTTCGCCGCGCCGCCACGGCTGGCCGGCCATGCCGCCCCGCTGCTCGGCGACAGCTGGCCGCTGGATGCGCTGGAAGGCGCCCGTGGGCAGTTGCTCGGGCGGCTGGCCGGGTTCGTCCAGCGCCTCGCCGCGCTGGCGCAGGACCTGGCCCGGCCGCGCCCGCTGGCAGACTGGGCGGAGACCCTGCAAGGGCTGATCGACACCCTGTTCGACGAACGCAGCGCCGGCGAAACCCTGCTGCTGCTCTCCAAGGCCTGTGCCGCCCTGCGCGAACAGGGTGAGGCGGCCGGCATCGCACGGCCGCTGGAGCTGGCGCTGGTGCGCCAGCAACTGGCCGCCTCGCTGGAGCAAGGCAGCGGCGCCAGTGGTTTCCTCACCGGCGCGGTGACCTTCTGCACTATGGTGCCCATGCGCAGCCTGCCGTTTCGTCTGGTCTGCCTGCTCGGCCTGGACGACGGCGCCCTGCCCCGGCGCACCCCGGCGGCCGGCTTCGACTTGATCGCCCGCCACCCCCGGCGCGGCGACCGTGCGCGGCGACTGGACGACCGCTACCTGCTGCTGGAAACCCTGCTCAGCGCCCGCGATGCGCTCTTCCTCAGCTATGTCGGCCGCGACCCACGGGACAATGCCGTGCTGCCGCCGTCGGTACTGGTCAGCGAAATCCTCGAAGCGGTGGACCTGACGGCGGTCCAGCCGGATTCGGCCCTGCAGGCCAGCGCCGGCCTGACCGTCGCCCACCCGCTGCAACCGTTCGCGCCGGGCAACTTCGAGGGCGGTCGCCGCGCCGGTTTCGCCGTCCCCTGGTTCCGCGCCGCCCAGCGTCTCGCCGCGCCGCCGCAGCCGGCTTCGGCAGCCTTCACCGTGCGCCTGCCCGAGCCGGACGACGACTGGCTGACCCTGGAGCCCTCGCTGCTGTTGCAATGCTTCCGCCATCCGGCGCGTTTCCTGCTCGAACAACGTCTCGGGCTGCGCCTGCCCGATGCCGAGGAGGCATTGGCCGGCGATGAACCCTTCGCCCTGGAAGGCCCGGCTTGGCGCGGCCTGCGCCAACTGGCGCTGGAGGCCGTGGAACGTGGCTGGTCCGAGGAAGAGGAGCGCCGGATTGCCCGCGCCGCCGGCTGGCTGCCCACCGGCGAGCTGGGCCAGGCGCTGTGGGGCAAGCTGCGCGGTCCGGTGAGAGCCTTCGCGCCTCGCCTCTTCGAAGCACGGCCGGACGAGACGCCGCAGCCGTTGCTGGTGGATGTCCGCCTGGCCGGCGTGCGCGTCCATGGCTGGCTCGATGGCGTGACCTCCCATGGGCTGTTCGGCTGGCGCCTGAATCGCCTCGGCGAATGGGACCTGGCGCCTTTCTGGCTACGCCATCTGCTGCTCAACCTCGCGGCCGGCGACGGCATTCGCCGCGAGAGTCTGCTGCTCTCCCCGGACGGCGACTGGCAACTCGGCCCGCTGCCGGACGCCGCCGCCCTGCTGGAGCCCTGGCTGGCCGCCTATCGCGAAGCCATATGCCAACCGTTGCCGCTGCTGACCAAGAGCAGCCATGCCTTCGCCAACGGCCTGCGTAAGCCAGGACGCGGCGAGCCCTTGGACACCGCCCGCAAACGCGCCTGCGCCGCCTGGGAGGGCACCGACTTCGGTCCCGCCGGCGAATGCCGCGACCCCTGGTACGCCCTCGCCTTCCGCGACGCCGACCCGCTCGGCGAGCGCTTCGAGCAGTTGGCGGAAGCCCTGCTGGGGCCGGCGATGGATGCGCTGAAGCAAGGTGGAGAGGACGCAGGATAA	MLDLYHAPDLETLGELATTLLAQPQRDPLAPAQVVVPSQGMGRWLTLELARKQGIAMQVEMQLPARFVWELARQVLGQLPEQSAFAPATLAWRLYDWLCEPANRERAPRLAQYLEGGDERRRLSLATKIADVFDQYLLYRDDWLAAWERGERLDLGADEDWQALLWHELTADGHPHRARLLEELLRRLYTGEPIPGLPERLLVFGISSLPPHHLRVLDGLARHIDVVICALNPCREAWGDIRDIRELARQPVGTGLDDWYLDVGHPLLASLGKQGRDFFDSLFALGGNETGLYSEDADLCDDSLLHALQNDILRLRTRTPEERLALRADDRSLEVHIAHSPLREVEILHDQLLARFAADPGLTPDQVVVLTPDIERYAPYIEAVFAPREGAPRIPYSLADRSLRAEIPLIEAFLDLLALPDSRFTAEDILGWLEQPAIAIRAGIEDEDLPLLRDWLREAGVRWGRDADHRAGLGLPADAAFTWRQGLDRLLLGFAAPPRLAGHAAPLLGDSWPLDALEGARGQLLGRLAGFVQRLAALAQDLARPRPLADWAETLQGLIDTLFDERSAGETLLLLSKACAALREQGEAAGIARPLELALVRQQLAASLEQGSGASGFLTGAVTFCTMVPMRSLPFRLVCLLGLDDGALPRRTPAAGFDLIARHPRRGDRARRLDDRYLLLETLLSARDALFLSYVGRDPRDNAVLPPSVLVSEILEAVDLTAVQPDSALQASAGLTVAHPLQPFAPGNFEGGRRAGFAVPWFRAAQRLAAPPQPASAAFTVRLPEPDDDWLTLEPSLLLQCFRHPARFLLEQRLGLRLPDAEEALAGDEPFALEGPAWRGLRQLALEAVERGWSEEEERRIARAAGWLPTGELGQALWGKLRGPVRAFAPRLFEARPDETPQPLLVDVRLAGVRVHGWLDGVTSHGLFGWRLNRLGEWDLAPFWLRHLLLNLAAGDGIRRESLLLSPDGDWQLGPLPDAAALLEPWLAAYREAICQPLPLLTKSSHAFANGLRKPGRGEPLDTARKRACAAWEGTDFGPAGECRDPWYALAFRDADPLGERFEQLAEALLGPAMDALKQGGEDAG				NA	NA	NA	NA	NA
BMS010_05152	1131	pilT_1	COG2805	Twitching mobility protein	ATGGACCAGAGCCCCACCGGCGCCAGGCCGGACATTTTCCCGTACCTGTACCTGCTGCATCAGCGGGGCGGCTCGGACATGTTCCTCAGCGTCGGCGCGCCGCCGCACATCAAGCTGGAAGGGCGTACCCAGCCGGTCGCCGAACCGCCGCTGGTGCCGGGTTCCGTGCAGCACATGGCCTACCAGTTGATGACCCAGAAGCAGATCGTCGAGTTCGAACGCGACCTGGAAATGAACCTGGCGATCAGCCTGCCGAATTCCGGGCGGTTCCGGGTCAACGTCTACCTCCAGCGCGGCGAGGTGGCCATGGTGGTACGCCTGGTGAAAAGCGAAATCCCGCGCATCGCCACCCTCGGCCTGCCGCCGATCCTCGAACGCCTCGCCCTGCTGGATCGCGGCCTGGTCCTGGTGGTCGGCGCGGCCGGCTCGGGCAAGTCCACCACCCTGGCGTCGATGCTCGACTACCGCAACAGCAACAAATCCGGGCATATCCTCTGCATCGAGGACCCCATCGAATTCATCCACCAGCACAAGCGCTCGGTGATCGACCAGCGCGAAGTCGGCCTCGACTGCCACAGCTTCGCCGATGCCCTGCGCAATGTGCTGCGCGAGGCGCCGGACGTGATCATGCTTGGCGAAGTGCGCGACCTCGACACCATGCAGCACGCCCTGCACTACGCCGAAACCGGCCACCTGTGCCTGGCGACCCTGCACGCCACCGGCAGCGTGCAGACACTGGAGCGGATCGTGCACTTCTTCCCGGAAGAGGCCCGCCGCCAGATCCTCGCCGACTTGGCGCAGAACCTGGTGGCGGTGATCGGCCAGCGCCTGGTGCCGGGCGTGGCGCAGAAGCGCGTGGCCGCGGTGGAACTGATGCTCGCCACCCCTTACATCCGCGACCTGATCCAGCGCGACCAGTTCGACGACCTCCGCAGCGCCATCGCCCGCGCCGGCGAACAGGGCCTGCAGACCTTCGACCAACACCTCTACCAGCTCTACGAGAACGGCCGCATTTCCCTCGAAGAAGCCCTGCGACACGCCGACTCGCGCACCGACCTGACCCTGCGGATCAAGCTGGAGCACGGCTTCGGCGCGAACGAGGCGGAGAAGAAAGTGTTGCGGGACAGCTAG	MDQSPTGARPDIFPYLYLLHQRGGSDMFLSVGAPPHIKLEGRTQPVAEPPLVPGSVQHMAYQLMTQKQIVEFERDLEMNLAISLPNSGRFRVNVYLQRGEVAMVVRLVKSEIPRIATLGLPPILERLALLDRGLVLVVGAAGSGKSTTLASMLDYRNSNKSGHILCIEDPIEFIHQHKRSVIDQREVGLDCHSFADALRNVLREAPDVIMLGEVRDLDTMQHALHYAETGHLCLATLHATGSVQTLERIVHFFPEEARRQILADLAQNLVAVIGQRLVPGVAQKRVAAVELMLATPYIRDLIQRDQFDDLRSAIARAGEQGLQTFDQHLYQLYENGRISLEEALRHADSRTDLTLRIKLEHGFGANEAEKKVLRDS	PGPT0015880_801	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015880-pilU-K02670	NA	NA
BMS010_05153	1710			hypothetical protein	ATGCTCACCCTGCTCAACCTGCTGTCATCCATCGCCTTGCTGGTATGGGGAACCCATATCGTCCGCACCGGCATCCTGCGGGTCTACGGCTCGCAGTTGCGGCGCATGCTCAGCCACAGCCTGGACAACCGTTTGCTGGCGTTCTCCTCGGGGATCGGTGTCACCGCGCTGGTGCAGAGCAGCAATGCCACGGCGCTGCTGACCACCTCCTTCGTCGCCCAGGGCCTGATGGCACTGGCGCCGGCCCTGGCGATCATGCTCGGCGCCGACGTCGGGACGGCGCTGATGGCACGGGTGCTGACGCTGGACCTGTCGTGGCTGTCGCCGCTGCTGATCTTCCTCGGGGTAATCTTCTTCCTCTCGCGCAAGCAGACCCGCGCCGGTCAGCTCGGCCGGGTGGCCATCGGCCTGGGGCTGATCATCCTGGCGCTGGAGCTGATCGTCAGCTCCGCCACGCCGATCACCGAATCGCGCGGCATCAAGGTGCTGTTCGCGTCGCTCACCGGTGATCTGCTGCTGGATGCGCTGGTCGGCGCGCTGTTCGCCCTGATCACTTATTCGAGTCTCGCTGCCGTGCTGCTGACCGCGACCTTGGCCGGCGCCGGGCTGATCAGCCTGCCGGTGGCCATCGGCCTGGTGATCGGCGCCAACATCGGTAGCGGCATCCTCGCCTTTCTCAACGCCAGCATGCAGAACGCCGCGGGCCGGCGGGTGGCGCTCGGCAGCCTGCTGTACAAGCTGCTCGGCCTGTTGCTGGTGATGCCGCTGCTCAGGCCGATGGTGGACTGGATGGGCGGCCTGGCGCTGAGCCCACAAGGCATGGTGATCGGCTTCCATCTTGTCTACAACGGGCTGCGCTGCACGCTGTTGCTGCCCACCGTGGGGCCGATGGCGCGGCTGTGTACCTGGCTGCTGCCGGAGCGGCAAGTGGACAACGGCGTCGCCCGGCCGCGGCACCTGGACCGCAGCGCCCTGGGCACGCCGAGCCTGGCACTGGCCAACGCGGTGCGCGAAACCCTGCGCATCGGCGATCTGGTGGAGCAGATGCTGACCCATCTGCTGGAAGTGCTGCGCCATGGCGAGACAGCGCCGGGCAAGGAAATCCGCCGTCTGGACGATGACGTGGATGCGCTCTACAGCGCGGTGAAGCTGTACCTGGCGCAGGTCCCACGGGACGAGCTGGGCGACCATGACAGCCGCCGCTGGGCGGAGATCATCGAACTGGCGGTGAACCTGGAGCAGGCCGGGGACATCATCGAGCGGATGCTGGGCAAGTTGCAGAACCAGAAGACGGCCCAGCGCCATTCGTTCTCCGACAGCGGCCTGGAGGAGCTGTCCAGCCTGCATGCCCAGTTGATGAGCAACCTGCGCCTGGGGCTGTCGGTGTTCCTTTCCGGGGATCGCGAGAGCGCCCGCCGCCTGCTGCGGGAGAAACGCAGCTTCCGCGCCCGCGAACGGCGCCTGGCCCATGCCCATGTGCATCGCCTGCACCGGCAGGTGGTGCAGAGCATCGAGACCAGCTCCCTGCATCTGGAGCTGATCGCCGATATGAAGCGCTTGAATTCGCTGTTCTGCTCCAGCGCCTATGCGGTGCTGGAGGCAGGGGAGACCGGCGCGTTGCACGCCGGTGAGGATAACGATCCCGCCGAGGCGACGATCAGCCTTGCCGACGACGACGCTGTAGCCAGACCACCAGGCCGAACAGCATGA	MLTLLNLLSSIALLVWGTHIVRTGILRVYGSQLRRMLSHSLDNRLLAFSSGIGVTALVQSSNATALLTTSFVAQGLMALAPALAIMLGADVGTALMARVLTLDLSWLSPLLIFLGVIFFLSRKQTRAGQLGRVAIGLGLIILALELIVSSATPITESRGIKVLFASLTGDLLLDALVGALFALITYSSLAAVLLTATLAGAGLISLPVAIGLVIGANIGSGILAFLNASMQNAAGRRVALGSLLYKLLGLLLVMPLLRPMVDWMGGLALSPQGMVIGFHLVYNGLRCTLLLPTVGPMARLCTWLLPERQVDNGVARPRHLDRSALGTPSLALANAVRETLRIGDLVEQMLTHLLEVLRHGETAPGKEIRRLDDDVDALYSAVKLYLAQVPRDELGDHDSRRWAEIIELAVNLEQAGDIIERMLGKLQNQKTAQRHSFSDSGLEELSSLHAQLMSNLRLGLSVFLSGDRESARRLLREKRSFRARERRLAHAHVHRLHRQVVQSIETSSLHLELIADMKRLNSLFCSSAYAVLEAGETGALHAGEDNDPAEATISLADDDAVARPPGRTA	PGPT0002650_1451	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0002650-yjbB-K03324	NA	NA
BMS010_05154	2550			hypothetical protein	ATGCATGACAAGCAACTGTCCACCGAAGAACTGATCGCCCAGGACGTCGGCGCGCGCCTTCCGGGGGCCCCGATGGCGCAGATCATCGCCGGCCTGGCGCTGCTCTGGTCGCTGTTCCAGTTGTGGATCGCCTCGCCGCTGCCGTTCGTGTTCGGCTTCGGCGTGTTCAACGACACCGAGACCCGCGCCATCCACTTAGCGTTCGCCTTGCTGCTGGCGTTTCTCGTCTACCCGGCCTTCAAGCGCTCGCCGCGCAATTACGTGCCGCTGCTGGACATCGCCCTCGGCCTGGTGGCCTGCGCCGCGGCGGCCTATCTGTTCCTGGCCTACGAGCAACTGGCGCAGCGGCCCGGCAACCTGACCACCCTCGACCTGATCACCGCCTGCATCGGCATTCCGCTGCTGCTGGAAGCCACCCGCCGCGCCCTCGGCCCGGCCCTGGCGGTCATCGCCCTGGTCTTCCTCGTCTACAGCGTCGCCGGCCCGTACATGCCGGGATTGCTGGCCCACCGCGGCGTGAGCTTCACCGCGCTGGCCAACCACCAGTGGATCACCACCGAAGGCGTGTTCGGCATCGCCCTCGGCGTGTCCACCAGCTTCGTGTTCCTCTTCGTGCTGTTCGGCGCCCTGCTCGAACGGGCCGGCGCCGGCCATTACTTCATCCAGCTCGCCTTCAGCCTGCTCGGCCACCTGCGCGGCGGCCCGGCCAAGGCGGCGGTGTTGTCCTCCGGCCTGACCGGGATGATTTCCGGCTCGTCGATCGCCAACGTGGTCACCACCGGCACCTTCACCATCCCGATGATGAAACGCACCGGCTTCTCCTCGGAGAAGGCCGGCGCGGTGGAAGTGGCCTCCTCGGTGAACGGCCAGATCATGCCCCCGGTGATGGGCGCCGCGGCGTTCCTGATGGTCGAATACATCGGCATGCCCTATGTGGAGATCATCAAGCACGCCTTCCTGCCGGCGGCCATCTCCTACATCGCACTGCTCTACATCGTTCACCTGGAGTCGCTCAAGCTCGGCCTGCAGCCCATCGGCAACCAGCAGCCGAAGACCTGGCTACGTCGCCTGACCGGCTTCGCCTTCGGCGCGGCGCTGATTTCCGGCTTGTCGCTGGCGGTCTACTACGGCCTCGGCTGGCTCAAGCCGGCCCTCGGCCCGTACGCCCTGGAAGGCATCGGCGTGCTGCTGGCGCTGGTCTACCTGGGCCTGCTGAAAATCGCCGCCAGCGTGCCGGTGCTGCCGCCGGAAGACCCGAACGCGCCCCTCGATGCTCTGCCGGAAACCCGCGCGGTGCTGCTCTCCGGCCTGCACTTCCTGCTGCCGGTGGTGGTGCTGGTCTGGTGCCTGATGGTGGAACGCCTGTCCCCCGGCCTGTCGGCCTTCTGGGGCTCGGTGATGCTGGTGATAATCCTGCTCACCCAGCGTCCGCTGCTCAGCTGGATACGCCATGACGGCAGCCACGACCACGGCACCTTCATGGACGGCGTGATCGACCTACGCGAAGGCATGATCGCCGGCGCGCGCAACATGATCGGTATCGGCATCGCCACCGCCGCGGCCGGCATCATCGTCGGTGCGGTGTCGCAGACCGGAGTCGGCCTGGTGCTGGCCGACCTGGTCGAACTACTGTCGATGGGCAACCTGCTGTTGATGCTGCTGCTCACCGCCGTGTTCAGCCTGATCCTCGGCATGGGCCTGCCGACCACCGCCAACTACATCGTGGTGTCCAGCCTGCTGGCGCCGGTGGTGGTGACCCTCGGCCAGCAGAACGGCCTGATCGTGCCGCTAATCGCGGTGCACCTGTTCGTCTTCTACTTCGGCATCATGGCCGACGTGACGCCGCCGGTGGGCCTCGCCTCGTTCGCCGCCGCCGCCGTGTCCAAGGGCGACCCGATCAAGACCGGCGTCACCGCCTTCTACTACAGCCTGCGTACCGCGGCGCTGCCGTTCCTGTTCATCTTCAACACCGACCTGCTGCTGATCGACGTAGACTTCTGGCACGGCGTGCTGATCTTCGCCGTGGCGACCGTCGCCATGCTGATCTTCGCCGCCGGCACCCAGGGCTTCTTCCTGGTGCGCAGCCGCTGGTACGAGAACGTGCTGTTGCTGCTGGTGGCGTTCACCCTGTTCCGTCCGGGCTTCTGGATGGACCTCGTGCACGACCCCTACCGCGACATCGCGCCCGCCGAGCTGGCCCAGGCCCTCGACGACGTGGAGCCGGACAGCCAGTTGCGCCTGCGTGTCCGCGGCGAAGATGCGGTGGGCGACCAGCGCACCTTCTCGCTGCTGCTGGCGATCCCCGACGGCGCCAACGGCCAGGAGCGCCTGGAAAAGCTCGGCCTCGCCCTCTACGAGCAGGATGGCAAGACCCTGGTGGACACGGTTGCCTTCGGCAGCCCGGCCGCCGAGGCCGGCCTCGAGTTCGACCAGGAAATCCTCAGCGTGCGGGCGCCCACCCAAAGCTGGCCGAAGGAACTGATGTGGATTCCCGGCTTCATGCTGTTCGGCCTGGTGGTCTGGCTACAGCGTCGTCGTCGGCAAGGCTGA	MHDKQLSTEELIAQDVGARLPGAPMAQIIAGLALLWSLFQLWIASPLPFVFGFGVFNDTETRAIHLAFALLLAFLVYPAFKRSPRNYVPLLDIALGLVACAAAAYLFLAYEQLAQRPGNLTTLDLITACIGIPLLLEATRRALGPALAVIALVFLVYSVAGPYMPGLLAHRGVSFTALANHQWITTEGVFGIALGVSTSFVFLFVLFGALLERAGAGHYFIQLAFSLLGHLRGGPAKAAVLSSGLTGMISGSSIANVVTTGTFTIPMMKRTGFSSEKAGAVEVASSVNGQIMPPVMGAAAFLMVEYIGMPYVEIIKHAFLPAAISYIALLYIVHLESLKLGLQPIGNQQPKTWLRRLTGFAFGAALISGLSLAVYYGLGWLKPALGPYALEGIGVLLALVYLGLLKIAASVPVLPPEDPNAPLDALPETRAVLLSGLHFLLPVVVLVWCLMVERLSPGLSAFWGSVMLVIILLTQRPLLSWIRHDGSHDHGTFMDGVIDLREGMIAGARNMIGIGIATAAAGIIVGAVSQTGVGLVLADLVELLSMGNLLLMLLLTAVFSLILGMGLPTTANYIVVSSLLAPVVVTLGQQNGLIVPLIAVHLFVFYFGIMADVTPPVGLASFAAAAVSKGDPIKTGVTAFYYSLRTAALPFLFIFNTDLLLIDVDFWHGVLIFAVATVAMLIFAAGTQGFFLVRSRWYENVLLLLVAFTLFRPGFWMDLVHDPYRDIAPAELAQALDDVEPDSQLRLRVRGEDAVGDQRTFSLLLAIPDGANGQERLEKLGLALYEQDGKTLVDTVAFGSPAAEAGLEFDQEILSVRAPTQSWPKELMWIPGFMLFGLVVWLQRRRRQG				NA	NA	NA	NA	NA
BMS010_05155	972			hypothetical protein	ATGAAAGGCAAATCCTTGGCATGGGCCCTGACGGCGGCCCTGGCGGGCACCACGCTGGGCGGCACGGTACAGGCACAGGACAAGTTCGTCACCATCGGCACCGGCGGCCAGACCGGCGTCTACTACGTCGCCGGACAGTCCATCTGCCGTTTCCTCAATCGCGGCTCCGCCGACCACGGCATCAAGTGCAACGCGCCGGCCAGCGGCGGCGGCGTGGCCAACGTCAACGGCATCCGTAATGGCGAATTCAACTTCGGCATCATGCAGTCCGACCACCAGTTCAAGGCCATGAAGGGCCTGGAACCGTTCAAGGCCGAAGGTCCGATGGAAGACATCCGCGCGGTGTTCTCCCTGCAGAGCGAAGTCTTCACCGTGCTGGCCCGCCGCGACGCCAACATCAAGGGCCTCGACGACCTCAAGGGCAAGCGCGTCAACGTCGGCAACCCCGGCTCCGGCCAGCGCGACACCCTCGAGGAAATCATGCGCGTGAAGGGCTGGGACAAGTCCGTCTTCGCCCTCGCCGCCGAGCTGAAGCCGGCCGAACAGGCCAGCGCGCTGGGCGACAACAACATCGACGCCATGACCTATTTCGTCGGCCACCCGAACGGCGCCATCCAGGAAGCCACCACCACCACCGACGCCGTGCTGGTACCGATCACCGGTCCGGAAATCGACAAGCTGCTGGCCGAGAAGTCCTACTACACCAAGGCCGAGATCCCCGGCGGCGTGTACAAGGGCAACGACCAGCCGACCCCGTCCATCGGTGGCAAGGCGGTGCTCTCCACCTCCGCCAAGACCGACCCGGAAGTGGTCTACCAACTGGTCAAGTCGGTCTTCGACAACCTCGAGCGCTTCCAGCGCCTGCACCCGGCATTCAAGGACCTGAAGGCCGAAGACATGATCAAGGTCGGCCTGTCCGCCCCGCTGCATGAAGGCGCCCAGCGCTACTACAAGGAAAAGGGCTGGCTGTAA	MKGKSLAWALTAALAGTTLGGTVQAQDKFVTIGTGGQTGVYYVAGQSICRFLNRGSADHGIKCNAPASGGGVANVNGIRNGEFNFGIMQSDHQFKAMKGLEPFKAEGPMEDIRAVFSLQSEVFTVLARRDANIKGLDDLKGKRVNVGNPGSGQRDTLEEIMRVKGWDKSVFALAAELKPAEQASALGDNNIDAMTYFVGHPNGAIQEATTTTDAVLVPITGPEIDKLLAEKSYYTKAEIPGGVYKGNDQPTPSIGGKAVLSTSAKTDPEVVYQLVKSVFDNLERFQRLHPAFKDLKAEDMIKVGLSAPLHEGAQRYYKEKGWL				NA	NA	NA	NA	NA
BMS010_05156	381			hypothetical protein	ATGACCGACGTCAATATCGGCATGGCGCTATCCACTAAAGTGCAATGGCCATCCGCCACCCTCTGGCCGACCATGCCTCCAGCCACAGCCTGCCTGCTGATCGCCAGCGGCGACCGGGACCTCGCGAATCGACTGCGCCAACACCTGGCCGCGGCGGACCTGCCCTGCGACGTCCTGGCGGAAAGCGCCGACTGCCATGAAGCGCCGCTGTGCCGCTGGCTGCGGGCCGATCCGGTGAGCGAGCCGGCCCGCCTGAGGGCGGCGCTGATGGATGCCGTCGGCGTGCTCGAACGCACCCGTCACGCCTTCAAGTCGCGCGAACTGGGCGAGCTGCGGCGACGCCTGGAGGCGCTGCTGGAGGCATCGGCCGGACGGGATTGA	MTDVNIGMALSTKVQWPSATLWPTMPPATACLLIASGDRDLANRLRQHLAAADLPCDVLAESADCHEAPLCRWLRADPVSEPARLRAALMDAVGVLERTRHAFKSRELGELRRRLEALLEASAGRD				NA	NA	NA	NA	NA
BMS010_05157	2247			hypothetical protein	ATGGATGATCGGCTTCGCGGGTTGCTCAGACGGATCGGGCTGGACAGGGCGGAAATCGCCGAACGCTGCCGCTTCCTGGACTGGCGGACCGAGGACGCGGAACGCCTGGGGGGGATGGCCGAGGCCATGGAGCCGGCCCATGGCGCCTTCGTCGACAGCCTTTACCAGCACCTCGGCCGTTTCGAGGCGCCGCTGGCGATCCTCGGCGGCGAAGAGGTGGTCACCCGTCTCAAGCACAGCCAGCTCGGCTATTACCGGCGTCTGTGGCTCGGCCCCTACGACCGCGACTACGTGGCCGACCGCCTGAACATCGGCCTAATCCACCAGCGTGTGGGCGTCGAGCCCAAGTGGTACCTGGGTGCCTACCGCCTCTATCTGGACCATATGCTCGCCCGGCTGCTGTGCGAGCATCCGGCCGCCGCCACCTGTGCCAGCCTGCTGAAGGTGGTGTTCTTCGACATGACCCTGGCCATCGACACCTACATCGCCGCCCAGCGCCAGGCCCTGGAAGACAGCGAAGCGCGTTTCGCCCGCGCCTTGCGCGGCGCCAACGACGGCCTCTGGGACTGGGACATCGAGACCGACCGCCTGTACCTCTCGGAGCGCTGGACCGGCATGCTCGGCCTTCCGGCGGACAGCCTGAGCGCCGACAGCGCCGCCTGGCTCGAACGCGTCCATCCGGAAGACCTGCCCCCACTGCGCGATGCCATCGCCGCCCATCTGCGCGGTGAAACCGCTTCGCTGCACCACGAATACCGCATCCGCCGGCACGACGGCGACTATGCTTGGGTGCTGGTGCGCGGCGTGGCCGAGGCGAGCGTACCCGGCTCCGCCGAAATCGGCCGCCGGATGGCCGGCTCGCAGACCGACATCAGCCAGCGCAAGGCCGCCGAAGAGCAACTGCGCCACGCCGCCCGTCACGATCCGCTCACCGGGCTGGCCAACCGCACGCGCCTGGGCGAACTGCTGCAGCAGGCCCTGCACCGCCTGAACCGCCCCGGTGCACGCCAGGCGGCGCTGCTGTTCGTCGACCTCGACCGCTTCAAGCTGATCAACGACAGCCTGGGCCACGCCACGGGCGACCGGGTCCTGATCGAAGTGGCGAAACGGCTGAGCGCCTGCCTGCGCCCCGGCGATCACCTGGTCCGTTTCGGCGGCGATGAGTTCGTCGCCCTGCTCGACGACCTGGCCCACCAGAGCGACGCCGAGCGCGTCGCCCAACGCATGCTGGAAAGCCTGCACCAGCCGCTGCATCTGGACGAGCGGGTGCTGGTGGTCAGCGCCAGTATCGGCATCGCCCCGCTGCGCGAGACGGACGGCGCGCTGGATGCCCTGCAGGCCGCCGACCTCGCCCTGTACCGGGCAAAAGCGGCGGGCAAGGCGCAATTCGCCCGCTACAGCGACGAGTTGCAGGGCATGGCGCAGCGCCAACTGGAACTGGAGAGCGCGCTGGCCCAGGCGCTGGGCAAGGACGAGTTCGAGCTGCACTACCAGCCGATCTGCCGCCTGGACCAGGGCCAGCCCTACCTGCAAGCCGTGGAAGCGCTGTTGCGCTGGCGCCAGGACGGGCGCCTGGTTTCGCCCTTGGAGTTCATCCCGGTGCTGGAGGAATCCGGCGAGATCGTCCGTGTCGGTGACTGGGTGCTGCGCCAGGCCTGCCGGCAGACCCGCGCCTGGCAGCTCGCCGGGCAGGACCGGCTGCGCTGCTCGGTGAACCTGTCCAGCCGCCAGTTGCGACAGCCCGATTTCGCCGCACGGCTCGCCGATATCCTGCTGGACAGCGGCCTCGCCCCGGGCAGCCTGGTGCTGGAAATCACCGAGAGTCTGCTGATGCAGGACAGCGCGGAAACCCTCTCCAGCCTGCGCGAGCTGGCCAGCCTGGGTGTGCGCCTGGCCCTGGACGACTTCGGCACCGGCTACTGCTCCCTCGGCTACCTGACCCGCTTTCCATTGCACATCCTGAAGGTGGACAAGAGCTTCATCGGCGGCGCCCCGCACGATCCGGAAATGACTGCGATCAGCCGCGCCATCATCGGCCTCGGCGCCAGCCTAGGCCTGGAGGTGGTGGCCGAAGGCGTGGAAACCGAGGCCCACCTGGCGTTCCTGGCCGCCGAAGGCTGCCGTTATGCCCAGGGCTACTGGTTCGGCCGGCCGAAGCCACCGCAGGAATTGCAGCGGCTGTTCAGCGGCGAGGATTGCTTCGACGGGCACTGGTGCCTGCTGCCGGAGCCCAGCGGCATGGTCTGA	MDDRLRGLLRRIGLDRAEIAERCRFLDWRTEDAERLGGMAEAMEPAHGAFVDSLYQHLGRFEAPLAILGGEEVVTRLKHSQLGYYRRLWLGPYDRDYVADRLNIGLIHQRVGVEPKWYLGAYRLYLDHMLARLLCEHPAAATCASLLKVVFFDMTLAIDTYIAAQRQALEDSEARFARALRGANDGLWDWDIETDRLYLSERWTGMLGLPADSLSADSAAWLERVHPEDLPPLRDAIAAHLRGETASLHHEYRIRRHDGDYAWVLVRGVAEASVPGSAEIGRRMAGSQTDISQRKAAEEQLRHAARHDPLTGLANRTRLGELLQQALHRLNRPGARQAALLFVDLDRFKLINDSLGHATGDRVLIEVAKRLSACLRPGDHLVRFGGDEFVALLDDLAHQSDAERVAQRMLESLHQPLHLDERVLVVSASIGIAPLRETDGALDALQAADLALYRAKAAGKAQFARYSDELQGMAQRQLELESALAQALGKDEFELHYQPICRLDQGQPYLQAVEALLRWRQDGRLVSPLEFIPVLEESGEIVRVGDWVLRQACRQTRAWQLAGQDRLRCSVNLSSRQLRQPDFAARLADILLDSGLAPGSLVLEITESLLMQDSAETLSSLRELASLGVRLALDDFGTGYCSLGYLTRFPLHILKVDKSFIGGAPHDPEMTAISRAIIGLGASLGLEVVAEGVETEAHLAFLAAEGCRYAQGYWFGRPKPPQELQRLFSGEDCFDGHWCLLPEPSGMV	PGPT0023624_18	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-GGDEF|EAL|PAC|PAS-DOMAIN-CONTAINING_PROTEIN,PGPT0023624-GGDEF|EAL|PAC|PAS_domain_containing_protein-NA	NA	NA
BMS010_05158	1227			hypothetical protein	ATGCTTAACGGCCTGTGGCTCGGCTTCTTCCTGGTGGCGGCGTTGGCCGCACTGGTGCGCTGGATCGGTGGGGACCCTACGGTCTGGGCGGCGTTGGTGGAAAGCCTGTTCGCCATGGCCAAGGTCTCCGTCGAGCTGATGGTGGTGCTGTTCGGCACGCTGACCCTCTGGCTGGGGTTCTTGCGCATCGCCGAGAAAGCCGGCCTGGTGGACCTGCTGGCCCGCCTGCTCGGCCCGCTGTTCGCCCGCCTGATGCCCGAGGTGCCGCGCGGGCACCCGGCCCTGGGCCTGATTACCCTGAACTTCGCCGCCAACGGCCTGGGGCTGGACAACGCCGCCACGCCGATCGGCCTCAAGGCGATGCGCGCCTTGCAGGACCTGAATCCGAGCCAGACGGTGGCGAGCAATGCGCAGATCCTGTTCCTCGTGCTCAATGCCTCTTCGTTGACGCTGCTGCCGGTGTCGATCTTCATGTACCGCGTCCAGCAGGGCGCCGACGATCCCACCCTGGTCTTCCTGCCGATCCTGCTCGCCACCAGCGCTTCCACCCTGGCCGGCCTGGTCAGCGTGGCCATCGTCCAGCGGCTGCGGCTGTGGGACCCGGTGGTGCTGGGCTACCTGGTTCCCGGAGCCCTGCTGCTCGGCGCCTTCATGGCCCTGCTCAGCACCCTGTCCGCCACGGCCTTGAAGGAACTCTCCAGCCTGCTCGGCAACCTGACCCTGTTCGGCCTGATCCTGGCCTTCCTGCTGGTCGGCGCCCTGCGCAAGGTGCCGGTCTACGAGAGCTTCGTCGAAGGCGCCAAGGAAGGCTTCGATGTCGCCCGCAACCTGCTGCCCTATCTCGTCGCCATGCTCTGCGCGATTGGCGTGTTGCGGGCTTCCGGCGCCCTGGACTATGGCCTCGATGGCGTTCGGGCGCTGGTCGAGTGGTTCGGCTGGGACACCCGCTTCGTCGATGCGCTGCCGACCGCGCTGGTCAAGCCGTTCTCCGGCAGCGCGGCACGCGCCATGCTGATCGAGACCATGCAGAGCCAGGGCGTGGACAGCTTCCCGGCGCTGGTGGCGGCGACCATCCAGGGCAGCACCGAAACCACCTTCTACGTGCTGGCCGTGTACTTCGGCGCGGTCGGCATCCAACGCGCCCGTCATGCGGTGGGCTGCGCCTTGATCGCGGATGTCGCCGGGGTCCTGGCAGCGATCGCCATCTGCTACTGGTTCTTTGGCTGA	MLNGLWLGFFLVAALAALVRWIGGDPTVWAALVESLFAMAKVSVELMVVLFGTLTLWLGFLRIAEKAGLVDLLARLLGPLFARLMPEVPRGHPALGLITLNFAANGLGLDNAATPIGLKAMRALQDLNPSQTVASNAQILFLVLNASSLTLLPVSIFMYRVQQGADDPTLVFLPILLATSASTLAGLVSVAIVQRLRLWDPVVLGYLVPGALLLGAFMALLSTLSATALKELSSLLGNLTLFGLILAFLLVGALRKVPVYESFVEGAKEGFDVARNLLPYLVAMLCAIGVLRASGALDYGLDGVRALVEWFGWDTRFVDALPTALVKPFSGSAARAMLIETMQSQGVDSFPALVAATIQGSTETTFYVLAVYFGAVGIQRARHAVGCALIADVAGVLAAIAICYWFFG				NA	NA	NA	NA	NA
BMS010_05160	465	ivy		Inhibitor of vertebrate lysozyme	TTGAGAGTGAAACGGCCGCAAGCGCTGCTGGCCGCTCTATTGCTGAGCGCCAGCGCGGTTGCCCACGCTGCCGACACGGATGCCGAGTTCCGCCTCAACGAGGTGCTGACGGACGAGGAATACCGCGAGACCTGGCAGGAGCTGGTCGAGGACGAACTCCGGCTGCCGGAATGGGTCATGAATCTGACCGGCAAGGGAGCGCCGATGAAGGCAGTGGAAAGCAAGGACGGCAAGTACCTGGTTGGCCGGCTCTGCGATGAGCAGGATTGCTTCCATCAGCGGCTCTACGTCGCGTTCAGCTGGGACAAGGACAAGGTTTACGCGCTCTACGTCCAGGTACCGCAGGGCATGCCTGCGGACAAGGCGCCCAGCCGGCATGCCAGCTTCCGCTGGCTGGGCGAGCCGGACGAAGAGCAGAAAAGGCTTCTCGACGAGCAGTTGAGGGCCGATCCGGATTGGCATTGA	MRVKRPQALLAALLLSASAVAHAADTDAEFRLNEVLTDEEYRETWQELVEDELRLPEWVMNLTGKGAPMKAVESKDGKYLVGRLCDEQDCFHQRLYVAFSWDKDKVYALYVQVPQGMPADKAPSRHASFRWLGEPDEEQKRLLDEQLRADPDWH				NA	NA	NA	NA	NA
BMS010_05161	168			hypothetical protein	ATGTTGAGCTGGGCTATTACCTTTCTGATCATTGCCATCATCGCCGGGGTACTCGGCTTCGGTGGTATAGCAGGTACAGCCACCGGCATCGCGAAGATCCTGTTCGTGCTGTTCCTGGTGCTGTTCGTCGCGTCGTTCATCTTCGGCCGCATGAGGGGGCCACGTTGA	MLSWAITFLIIAIIAGVLGFGGIAGTATGIAKILFVLFLVLFVASFIFGRMRGPR				NA	NA	NA	NA	NA
BMS010_05162	285			hypothetical protein	ATGAAACAACGCCAATCCAATGAAGGTCTATTGCTCAAGAGTGTTATTGCTGGACTGGCAGTGCTGCTGATGCAGGGCAGTTTCGGGACGGTGACGGAGCGTTTTCAGGAAAGCCGGAACCCACAGCCCCTGCTTCAGCCGCAGATCCAGCAGCAGGTGCAGATTCTGCAATCGCAACTGCGGTCGCAGAGATCGGGCATCCAGCATGCGGTACCGGTTCTGGAGCGCGAGCCCCAGACGCAAGCCTGGAGCGAGCTGCCCCGCCGACAGAGCTGGGTGTTCTGA	MKQRQSNEGLLLKSVIAGLAVLLMQGSFGTVTERFQESRNPQPLLQPQIQQQVQILQSQLRSQRSGIQHAVPVLEREPQTQAWSELPRRQSWVF				NA	NA	NA	NA	NA
BMS010_05163	435			hypothetical protein	ATGACCCGAACCACAGCGCAATTGAACGAGCTGATCGAGATCACCCGTGATGGCGAGCGTTTCTACCAGCATGCCATCGAGGAAGTGAAGGACACCCGGCTGCAAAGCCTGTTCCGCGACATGGCCCAGGCGAAGACCGAGGTGATCCAGGCCTTGGCGGTGAAAGTCGCGGCGAATCATGAACAACCGGCGCAGGGCGGTACCGCGCTGGGCAAGCTGCGCGAAGTCTATGCCGATACGCGTGCGACCTTGGCGAAAGACGAGAACGGCGCCTACATCGCCCAGTTGGAAGGAGCAGAGGATCGCATCGTCCATGCGTTCGAAGACGCGCTCGAGAGCGCCGAGCCCGACGTGCGCGCCCTGCTTTCCGTGGAAATGCCCAAGGTCCGTGCCTGCCATGACCGCATGCGCAGCCTGAAACAGAGCCTTGGATGA	MTRTTAQLNELIEITRDGERFYQHAIEEVKDTRLQSLFRDMAQAKTEVIQALAVKVAANHEQPAQGGTALGKLREVYADTRATLAKDENGAYIAQLEGAEDRIVHAFEDALESAEPDVRALLSVEMPKVRACHDRMRSLKQSLG				NA	NA	NA	NA	NA
BMS010_05164	1347	algB	COG2204	Alginate biosynthesis transcriptional regulatory protein AlgB	ATGGAGTCGATGTTGGAAACCGGCGGGCGCATCCTGCTCGTGGACGATGAAGCGGCAATTCTTCGGACCTTCCGCTACTGCCTGGAAGACCAGGGCTACAGCGTGTCCACCGCCAGCAGTGCGGCACAGGCCGAAGCGCTGTTGCAGCGCCAGGTCTTCGATCTCTGTTTTCTCGATCTGCGCCTCGGGGCCGACAACGGCCTGGATGTGTTGCAGCAAATGCGCAACCTGGCGCCCTGGATGCGGGTGGTCATCATCACCGCCCATTCCGCGGTGAACACCGCGGTGGACGCCATGCAGGCCGGCGCCGCGGATTACCTGGTCAAGCCGTGCAGCCCGGACCAACTGCGCCTGGCGGCCGCCAAGCAACTGGAGATGCGCCAGCTGGCGGCGCGCCTGGAGGCCCTGGAAGGCGAGCTGCATCGCCCCAGCGATACCCTCAACTCCAACAGTCCGGCCATGATGGCGGTGCTGGAGACCGCCCGCCAGGTCGCGGTTACCGATGCCAACATTCTCATCCTCGGCGAGTCGGGCTCCGGCAAGGGCGAGCTGGCACGCGCCATCCATGGCTGGAGCCGCCGCGCCAAGAAGGCCTTCATGACCATCAACTGCCCGTCGCTGTCGGCCGAGCTGATGGAAAGCGAACTGTTCGGCCACAGCCGCGGCGCCTTCACCGGCGCCACCGAAAGCACCCTGGGCCGGGTCAACCAGGCCGACGGCGGCACCCTGTTCCTCGACGAGATCGGCGACTTCCCGCTGACGCTGCAGCCCAAGCTGCTGCGCTTCATCCAGGACAAGGAATACGAGCGGGTCGGCGATCCGGTCACCCGTCGCGCCGACGTGCGCATTCTCGCGGCGACCAACCGCAACCTGGAGGAAATGGTCAGCCAGGGACGCTTCCGCGAGGACCTGCTTTACCGCCTCAACGTGATCACGCTGAACCTGCCGCCGCTGCGGGAAAGGCCAGAAGACATCGTGGCCCTGGCCGAACGCTTTCTCGCCTACTTCGTCAAAACCTATTCGAGGCCCGCACGGGGGTTCAGCGAGCGGGCGCTGGAAGCGCTCGGCAGCTATCGCTGGCCGGGCAACGTGCGCGAGCTGCGCAACGTGATCGAACGCGCCTGCATCATCTGTCCACAGGAGTGGCTGGAGGTCAGCCACCTCGGGCTCGCCGAGCAGCCCAGCACCAATGCGCCACGGGTGGGTGAATCCATGAGCCTGGAAGAACTGGAGAAAGCCCATATCGCGGCGGTCATCGCCACCAGCGAGACCCTCGAGCAGGCGGCGAAAGTGCTCGGCATCGATGCCTCTACGCTGTACCGCAAACGCAAGCAGTACGGCCTATGA	MESMLETGGRILLVDDEAAILRTFRYCLEDQGYSVSTASSAAQAEALLQRQVFDLCFLDLRLGADNGLDVLQQMRNLAPWMRVVIITAHSAVNTAVDAMQAGAADYLVKPCSPDQLRLAAAKQLEMRQLAARLEALEGELHRPSDTLNSNSPAMMAVLETARQVAVTDANILILGESGSGKGELARAIHGWSRRAKKAFMTINCPSLSAELMESELFGHSRGAFTGATESTLGRVNQADGGTLFLDEIGDFPLTLQPKLLRFIQDKEYERVGDPVTRRADVRILAATNRNLEEMVSQGRFREDLLYRLNVITLNLPPLRERPEDIVALAERFLAYFVKTYSRPARGFSERALEALGSYRWPGNVRELRNVIERACIICPQEWLEVSHLGLAEQPSTNAPRVGESMSLEELEKAHIAAVIATSETLEQAAKVLGIDASTLYRKRKQYGL	PGPT0026155_70	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_EXTERNAL_SIGNAL_SENSING,PGPT0026155-algB-K11384	NA	NA
BMS010_05165	1794	kinB	COG5000	Alginate biosynthesis sensor protein KinB	ATGAACAGACACCTGCCGGTCAAGCTGCGTACCCGACTGTTCCTCAGCATTTCAGCCCTGATGACGGTAGCCCTCCTGGGGCTCATCCTCGGCCTGACCGGGGTGGTACAGATGGCCAACTCGCAGAAGGAGCTGATCAACCAGAACTACGGGACGATCAAGAATGGCATCCAGTTGCGCCAGGCCTTCACCGACCAGTTGGTGATCCTGCTCAACGAGCATCCGGACTTCGATGCGTTGCACGAGGCCCAGCGCGAATTCCAGGACTACCTGAGCGTGGCCTTGGAGGAATCGCGCAACGACTCACGCTACAACCATTACCAGGCGGTAGCGGCCAACTACGCGAAGTTGCTGGAAGTACTCGACCAGCCGCCCCAGCGACGCCGGGAGATTCTCGACGACGCCGCGTTCGCAGAGGCGATCAGCTCGTTGCAGCGCAGCCTGATCGACGTGCAGCAGCAGAGCATCGACAACGTACTGGTCATGGAGGCGCATTCGCGGGAGCGCGCCTTGCTGGTCGCAGGTCTGCTCGGCATCGTCGGGGTCGCCGTGCTGCTGATCGGCTTCGTCACCGCCCACAGCTTCGCGCGCCGCTTCAGCGCGCCCATCGAACAGCTCGCCCACGCAGCGGACGAGATCGGCCAGGGCAACTTCCAGATCACCCTGCCGATCGCCCCCGAAGCCGAGCTGTCGTCGTTCATCCGTCGCTTCGGCCTGATGGCCGAGGCCCTGAGCCTGTTCAAGCAGACCAACGTCGAGGCCCTGAGCAGCGGCCAACGGCGCCTGCAAGCGGTGCTCGACAGCATCGACGACGGCCTGCTGATCATCGACCGCCAGGGCCGCCTGGAACACGCCAACCCGGTGGCCCAGCGCCAGCTCGGCTGGACCTCGGAGCACATCGGCCAATCCCTCGGCGCGGCCTTGGACCACGCCGAGCTGGACGAAGCCGTGCAGCAGGTGCTGAACAACCAGCCGCTGGAAAAACCGTTGCAGGACCTGGAAATCCAAGTGGACGGCGACACCCGCCTGCTGAACTGGCGGCTCAGCACCGTAAGCCACGACGACGGCCGCGTAATGGGTGCGGTGATGGTGCTGCGCGACGTCACCGAACAGCGCGCCTTCGAGCGAGTGCGCAACGAATTCGTGCTGCGCGCCTCCCACGAGCTGCGCACGCCGGTCACCGGCATGCACATGGCCTTCGCCCTGCTCCGCGAACGGCTGCGCTTCTCGCCGGAGGCGCGGGAAAGCGAACTGCTGCGGACCGTGGACGAGGAAATGCACCGGCTGGTCCGGCTGATCAACGACCTGCTGAACTTCTCGCGCTACCAGAGCGGCCAGCAGAAACTCGAACTGTCGCCCTGCGACGTCGGCGAACTGCTCGAACGCACACGCCTGCGTTTCGCCGCCCAGGCCGCCGAACACGACATCAGCCTCAAGGTGGAACTGCAGGGCCCGTTGCCGCGCCTGCTGGCCGACCACCTGCAACTGGAGCGGGCGCTGGACAACTTGGTCGGCAACGCACTGCGGCACACACCCAACGGCGGGCAAATCTGCCTGCAGGCGCGTCGCCATGGCGATCGGCTAATCATCAGCGTCGAAGATACCGGCGAGGGCATCCCCTACAGCCAGCAGGCCCGCATCTTCGAGCCGTTCGTTCAGATCGGCACCAAGAAGGGCGGCACCGGCCTGGGGCTGGCGCTGTGCAAAGAGATTGCACAACTGCACGGCGGAAGGCTCGGCGTTCACTCGCGCCTCGGCCAGGGCACCATCTTCTACCTCGCCCTGCCGGTCTAA	MNRHLPVKLRTRLFLSISALMTVALLGLILGLTGVVQMANSQKELINQNYGTIKNGIQLRQAFTDQLVILLNEHPDFDALHEAQREFQDYLSVALEESRNDSRYNHYQAVAANYAKLLEVLDQPPQRRREILDDAAFAEAISSLQRSLIDVQQQSIDNVLVMEAHSRERALLVAGLLGIVGVAVLLIGFVTAHSFARRFSAPIEQLAHAADEIGQGNFQITLPIAPEAELSSFIRRFGLMAEALSLFKQTNVEALSSGQRRLQAVLDSIDDGLLIIDRQGRLEHANPVAQRQLGWTSEHIGQSLGAALDHAELDEAVQQVLNNQPLEKPLQDLEIQVDGDTRLLNWRLSTVSHDDGRVMGAVMVLRDVTEQRAFERVRNEFVLRASHELRTPVTGMHMAFALLRERLRFSPEARESELLRTVDEEMHRLVRLINDLLNFSRYQSGQQKLELSPCDVGELLERTRLRFAAQAAEHDISLKVELQGPLPRLLADHLQLERALDNLVGNALRHTPNGGQICLQARRHGDRLIISVEDTGEGIPYSQQARIFEPFVQIGTKKGGTGLGLALCKEIAQLHGGRLGVHSRLGQGTIFYLALPV	PGPT0026150_150	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_EXTERNAL_SIGNAL_SENSING,PGPT0026150-kinB-K11383	NA	NA
BMS010_05166	411			hypothetical protein	ATGATCGCCAGTCTCAACCCCAGCCGCGAACAACTGGCCGCTTTCGCCGAACGGATGCCGGCCGCCACGCCGATTCTCATGCTCAACCTGCTGCGCTACCGGGAACAAGCCGACTATCCCGCAGACAGCGGCCAGCCGCCGTGCAGCGGTCGCGAGGCCTATGCCCGCTACAGCCGCACCGCCCTGGCCAAGGTCCGGGGAGTGGGTGGCGAAGTCGAGATCCTGGCCAGTGCCCACGCCACGCTGATCGCTCCGGAGGGCGAGCGATGGGACAGCATCCTGTTGGTGCGCTATCCGTCCAAGGAGGCGTTCCTGAGCATGCTGGCCGACCCGGAGTACCGCGCCGCCACCGTTCACCGCACGGCCGCGCTGGCCGACTCGCGCCTGATCGGTAGCACCCTCGAACGTTAA	MIASLNPSREQLAAFAERMPAATPILMLNLLRYREQADYPADSGQPPCSGREAYARYSRTALAKVRGVGGEVEILASAHATLIAPEGERWDSILLVRYPSKEAFLSMLADPEYRAATVHRTAALADSRLIGSTLER				NA	NA	NA	NA	NA
BMS010_05167	1554	pdeB_1	COG4943	putative cyclic di-GMP phosphodiesterase PdeB	ATGGCCCTGCTGGCGGTCCTGTTGAGCGCCGCGGTGCTTCTGTTGGGGAGTCTCACACTCGCGGCGCAGCAGGCGAGGATGGTGGAGAGCGAGCAGATGAATGCCCGCGGCGAACGCTTCCTCCAGCGTCTGGAGCAAGTCTTCGGCCAGTTGCGCCAGGGGCTGGACCAGTTGGAGGCGCAACCGTTGCGCGGCTGCGACATCGCCATGGTCGAAACCCTGCGGCAGGTCGCCTTCAAGCATCGCTTCATCTACGAAGCGGCTTTCGTCGGCGGCCGGCAGCGTTGTTCGTCCTGGCCCCGGCAGAGTTCGCTGGGCGCCGAGCGGCCGGCGGATATCCAGGATGAAACCTACCGCTACTGGCTGAACACGGCCTCCCAGGTCAACGATGACCTGGCGGCCCTGGTAGTGGGGCGTGGCTACTTCCGCGTTTCCGTGTCGCGCGGGCATTTCGCCGACGTGGTCGACCTGCCCGAAGGTGGCAGCCTGCTGTTCGTGCCCAGGGCCGGCGGTGCGCCGCTGCCGATTCTCGGCCCCGAACATTACTGGCCGCCCGTCGAGGGCTGGCCGCCGAAGGACGACGACGCCCTGGTGCTCACCGAGGGGCAACTGATCTACCGCATGCCGAGCCGGATTCCCCAGTACGATCTGGTGCTGGCCGTTCCGCGCGACGATCTGATGCAGAAGGTGCGCGACGGCTGGCGCATGCTGGTGCCCGGCAGCCTGATCCTGGCTCTGCTGATCGGTGCACTGGTGCTGCAACTGGTCCGTCACCGCCAGTCCCTCAGCGGCGAGCTGGAAGGTGCCCTGCACCGCCGCGAGCTGCGGGTGCGTTACCAGCCCATCTTCGACCTCGCCAGCCGCCGCTGCGTCGGCGCCGAGGCGCTGGTGCGCTGGATGCGCCCGGATGGCACGCTGGCCACGCCGGACCTGTTCGTGCCCCTGGCCGAGGCGACCGGGCAGATTCGCGACATCACCGACTACGTGCTGGAGCAGGTGCTGGAAGACCTCGGCGACCTGCTGCAACAGAATCCGCACCTGTATATCTCGGTCAACCTGGCAGCCTGCGACGTCACCGAGCCGCGCATCGGCCAGGTCGCGGCGAGCCTGCTGGCGCAATACCGGGTGCCGGCCTCGCAGATCGCCTTCGAGATTTCCGAGCGCGGGCTCACCGACATCGAGGCAGCGCGTGGCCAGTTGATGGCGCTACGGGCGAACGGCCACCGGGTGCTGATCGACGATTTCGGTACCGGTTATTGCAGCCTGGCGCACCTGCAGAACCTGCCGGTGGACTACCTGAAGATCGACAAATCTTTCGTCGATGCCCTCGGCCACGACGCCGCCAGCAGCGGTGTGGCGCCGCACATCATCCGCATGGCCCATGCGCTCAAGCTGAAGGTGATCGCCGAAGGCATCGAGCAGGAAGCCCAGGCGCGCTTGCTCGGCAGCGAAGGCGCCCACTACGGCCAGGGTTGGCTGTTCGCCCAGCCGCTGACTGCGGACAAGCTGCGGACATTGGTGGAGCAGGATATTCCGGTGATTCGCGCGGCTTAA	MALLAVLLSAAVLLLGSLTLAAQQARMVESEQMNARGERFLQRLEQVFGQLRQGLDQLEAQPLRGCDIAMVETLRQVAFKHRFIYEAAFVGGRQRCSSWPRQSSLGAERPADIQDETYRYWLNTASQVNDDLAALVVGRGYFRVSVSRGHFADVVDLPEGGSLLFVPRAGGAPLPILGPEHYWPPVEGWPPKDDDALVLTEGQLIYRMPSRIPQYDLVLAVPRDDLMQKVRDGWRMLVPGSLILALLIGALVLQLVRHRQSLSGELEGALHRRELRVRYQPIFDLASRRCVGAEALVRWMRPDGTLATPDLFVPLAEATGQIRDITDYVLEQVLEDLGDLLQQNPHLYISVNLAACDVTEPRIGQVAASLLAQYRVPASQIAFEISERGLTDIEAARGQLMALRANGHRVLIDDFGTGYCSLAHLQNLPVDYLKIDKSFVDALGHDAASSGVAPHIIRMAHALKLKVIAEGIEQEAQARLLGSEGAHYGQGWLFAQPLTADKLRTLVEQDIPVIRAA				NA	NA	NA	NA	NA
BMS010_05168	828	amiD_2	COG3023	N-acetylmuramoyl-L-alanine amidase AmiD	ATGAGAGTCTTCCTGCTTGCCTCGATCCTCAGCGTACTGGCCGGTTGCGGCGGGTTGCGCATCGATACCAGCCACACCTCCCAGGGCCAGGACAGCCGGGTACAGTTCGTCATCCTGCACTACACCTCCAGCGACCTGCCGCGCTCCCTGGCGACCCTCACCCACGGCGAGGTGAGCAGCCATTACCTGATCGGCGCCAAGCCGCCGACCATCTACCGCCTGGTCGATGAGAACCGCCGCGCCTGGCATGCCGGCGAGAGCGAATGGCGCGGTCGGACCTGGTTGAACGCCAGCTCCATCGGCATCGAACTGATCAACCCCGGCTACACCGAGACCGCCGATGGCCAGCGGCTCTGGTATCCCTATCCCGACGAGCAGATCGATGCCTTGATCCTGCTGCTCAAGGACATCGTCCGCCGGCACGGCGTGCCGCCGGGCAACATCATCGGCCACAGCGACATCGCGCCGCTGCGCAAGGTCGATCCGGGGCCGCTGTTCCCCTGGAAGCGCCTGGCCGATGCCGGCCTCATCGTCTGGCCCGATGCTCGCGAAGTGATCCGCTGGCAGACGCGTTTCGCCCGCGGCGGCCTGCCGGACGTGGCCTGGTTCCAGCAGCAGCTGGAGCAACAGGGCTATCGGGTACCGCGGCACGGCGAGCTGGACGAGGCCACGCGCCGCGTCATCGCGGCGTTCCAGATGAAATACCGTCCGTCGCGTTTCGACGGCGAGCCGGATGCGGAAACCGCGGGCCTGCTCGCGGTGCTGAACGGCGATGCACCGGCGGATGTGCCTCTGGCGGCGGATCCTGGACAGGGCGTCTCCATGTAG	MRVFLLASILSVLAGCGGLRIDTSHTSQGQDSRVQFVILHYTSSDLPRSLATLTHGEVSSHYLIGAKPPTIYRLVDENRRAWHAGESEWRGRTWLNASSIGIELINPGYTETADGQRLWYPYPDEQIDALILLLKDIVRRHGVPPGNIIGHSDIAPLRKVDPGPLFPWKRLADAGLIVWPDAREVIRWQTRFARGGLPDVAWFQQQLEQQGYRVPRHGELDEATRRVIAAFQMKYRPSRFDGEPDAETAGLLAVLNGDAPADVPLAADPGQGVSM	PGPT0024155_655	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024155-amiD-K11066	NA	NA
BMS010_05169	594			hypothetical protein	ATGGATATCTTCGGCATCGCCGTCCTGATCTTTCTGGTAACCGATCCTTTCGGCAATATCGCCATCTACCTGGCCGCCCTGAAGAACGTCGCCCCGGAGCGGCGGGTGCGCGTGGTGGCGCGCGAGCTGCTGTTCGCCCTCGCCCTTTTGCTGCTGTTCCTCACCTTCGGCGCGAAGATCCTCAGCGGCCTCGGCCTGTCCCGCGAAGCGACGGCGATCGCCGGCGGCATCATCCTGTTCGTCATTGCCATGCGGCTGATCTTCCCCAGTCCCCAGGGCCTGCTCGGCGACCTGCCGGACGGCGAGCCCATGCTGGTGCCGCTGGCCACGCCGGCGGTGGCGGGTCCTTCCGCGCTGACCGTGCTGATGACCCTGCGCAACACCCACGAAGGGGCACTGTGGGAGCTCTACCTCGCGGTGTTCCTGGCCTGGGCGGCGACCTCCCTGATCCTCCTCCAGGCGGCGTTCCTGCAACGCTTCCTCGGCCCGCGCGGTCTCACCGCCATAGAGCGTCTCGCCGGCATGCTGCTGATCATGCTCAGCGTCGACATGCTGTTGGATAACCTGCAGAGCGTGCTACACATCGTCCCATGA	MDIFGIAVLIFLVTDPFGNIAIYLAALKNVAPERRVRVVARELLFALALLLLFLTFGAKILSGLGLSREATAIAGGIILFVIAMRLIFPSPQGLLGDLPDGEPMLVPLATPAVAGPSALTVLMTLRNTHEGALWELYLAVFLAWAATSLILLQAAFLQRFLGPRGLTAIERLAGMLLIMLSVDMLLDNLQSVLHIVP	PGPT0029250_3008	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIPLE_ANTIBIOTIC_RESISTANCE,PGPT0029250-marC-K05595	NA	NA
BMS010_05170	1422	cry		Cryptochrome DASH	ATGCGCCGCGTATTGCTCTGGTTCAAACAGGACTTGCGTCTCGACGATCACTCCGCCCTGCGCGATGCGCTGGATGCCGATTGCCTGCTGCCGCTGTTCATATTCGACCCTTCGCTGCTGGAGAACGGCCCGCTGGGCAGCCGTCGGCTGGGCGTGCACCGCGCGCGCTTCCTGCTGGAAAGCCTGGCGGCACTGGACGGCGCCCTGCGCCAGCGCGGCTCGCGATTGCTGGTTCGCTCCGGCACGCCGGAGCTGATCATCCCGGCACTGGCCGAGCAGTTCGGTCTGCGCGAAGTGCTGACCCTGGAAGAAATCGCACCGGATGAGCGGGCGCAGCTAGCTCGCCTGCGCCAGGCCCTCGGGCCGGTGGCTCTACGCGAGCAGCCCGGCAACGGCCTGTTCCGCACCGAAGAGCTGCCCTGCCCGCCCGAGGCCTTGCCGAAGGTGTTCAGCCGCTTCCGCGAACTGATGGACCAGCGCCCGACGGTGTTCCAGCCGCAACCGGCGCCGGACGACCTGCCCCCCTTGCCGGACGGAGCGGACAGCCTGCTGGAGCCGCTGCCCAGCCTGTCGCAGCTCGGCCTCGGAGAGCCCCTGGCCGTGCCGGGCAGCGCCTTCCCCTTCGCCGGGGGCGAGGCCGCGGGCCAGGCGCGCGTGCGCGAATACCTGTGGGAAAGCCTGGGCGTACGCACCTACGAAGAAACCCGCAACGGGCTGACCGGTACCGAATATTCGTCGAAGTTCTCGCCCTGGTTCTCCACCGGCTGCCTGTCGTCCCGCCGTGTCGCCGCCGAGCTGCGCCGCCACGAGGCGCAGTACGGCCGGAATGACTCCACCCGCTGCCTCTGGCAGCAGTTGCTATGGCGGGAATTCTTCCGCTGGACGCTGGTCCGCCACGGCGACGCGCTGTTCCGCGCCGGCGGCCTGAAAGCCACGGCACATGCACCGCAGAACCTCGACGAACGTTTCGAACAGTGGTGCCAGGGCCGCACCGGCGTGCCCCTGGTGGATGCCTGCATGCGCGAACTGGCCGCCACCGGCTTCCTCGCCAACCGCGGCCGGCAGATCGCCGCCAGTTACCTGATCCACGACCTGGAGCAGGATTGGCGGCACGGCGCGGCCTGGTTCGAAGAGCACCTGCTGGACTACGACCCGGCGAGTAACTGGGGCAACTGGGCCTATCTCGCCGGCGCGGGCAGCGATCCGCAGCGCCGTGCCGCATTCAACGTGCTGCGCCAGGCCCAACGGTTCGACCCCGAGGGCGATTACGTCGGCCTCTGGCTGCCCGAACTGCAACACGTCCCGCCAGCCCTGCGGCATACGCCGTTCCTGCTGCCGCGCCTGCAACTCGAGACCCTGCAATATCCTCGTCTGGAACGCATTCCCAGCGATTGGCGGCCGTATCTGCCTAGCGTTGCCTGA	MRRVLLWFKQDLRLDDHSALRDALDADCLLPLFIFDPSLLENGPLGSRRLGVHRARFLLESLAALDGALRQRGSRLLVRSGTPELIIPALAEQFGLREVLTLEEIAPDERAQLARLRQALGPVALREQPGNGLFRTEELPCPPEALPKVFSRFRELMDQRPTVFQPQPAPDDLPPLPDGADSLLEPLPSLSQLGLGEPLAVPGSAFPFAGGEAAGQARVREYLWESLGVRTYEETRNGLTGTEYSSKFSPWFSTGCLSSRRVAAELRRHEAQYGRNDSTRCLWQQLLWREFFRWTLVRHGDALFRAGGLKATAHAPQNLDERFEQWCQGRTGVPLVDACMRELAATGFLANRGRQIAASYLIHDLEQDWRHGAAWFEEHLLDYDPASNWGNWAYLAGAGSDPQRRAAFNVLRQAQRFDPEGDYVGLWLPELQHVPPALRHTPFLLPRLQLETLQYPRLERIPSDWRPYLPSVA				NA	NA	NA	NA	NA
BMS010_05171	1881			hypothetical protein	ATGAGTGACGACGGCCAGCGCTGGAAAGCCAAGTACCTGGAAAACCTGGAGCAACAGGAGAAGCTCGAACGGCGCTGGGATGCCCGCCTCGACCTGCTGCGCCGTGGCTTGGTGCGCAGCAGCCTTGCCGCCGAGGGCGCGGACAAGGCGGTCGACCAGTGCATGCAGGAGATGCGTGAGATTCTCCGCCGCGATGAGATCGATGCCGGCCTCTCGGCGTTGATTCCCCGTCTGGAGAAGGCGGTGCTGGATTCCGAGCAGCGCCGTCAGGAGCGGGCCGCGCAGATCGTCTCGGCGCTGTCTTCCCTTGCCGGCCAGCTCCAGGCGTTGCCGTTGCCGCGCGAGGTGCGCAAGCCGCTGAAGGGTTTCACCAAGCGCCTCGAAAGTCGCGCCGGCCAGATTCGCGAGCTTCCCGCCCTGCTGGCCGAGCTGAGCCAGTTGCAGCGCCAGGCCCTGGCATTGCTGGAGCGTGAGGAGGTCGAACGGCCTGGCCTGCTGCAACGGCTGTTCGGTGGGCGCGAACGCACCTCCGACGAGTCGGACGAGGCACCTGCGATCACCCCGCCGACACCGGCTGCTCAGGTCGTGCTCACGCAGCCCGAGTCGCAGCCGGACAGCGCTGAAACCCCGGCAGCCGTTGCGCCCATCGAGACACCCCGTCCGCTCTCCGCCGAGCCGGTCGAGACCATACCGCCACCGCGTGCCCCGCTGCTCGACAGCCTGCCGCTGTCGGCGTCGTTGCTGACCGAATCGACGCCCTCCGCTGCGGACAGCCCCGCTCCGCCTTCCGAGCCGGTCGACGCCGAGTACGCCCTGCCGCCCTCCCCCGAGCCGGGTTACAGCGCCATTGCCGAACACGTCGAGGCGACGCTGCTCGGCCTGCTCGACGAGCTGAGCCTGCCGGATCGGCACCAGGCCCAGACCGAGGGGCTGCGCGAGCGCATCCGCCATGGCCTCAACTGGTACGAGCTGGTGCCGGTGCTGGACGACGTCTCGGTACTGATGCTGGCAGTGGCCGGCGGCAGCCAGCAGGAATTCGAGCGTTACCTGAAGCAGCTCAACGAACGGCTGTCGGCCTTCCAGGAGGGCCTGCAATTTGCCCGCGAGGGCTACAGTGACAGCTTGGAGGCCGCGCGCGAGCTGGACAGCGAGCTGCGCGAGCAGATGGACGACCTGCACAGCAGCGTGCGCGACGCGGTGGATCTGGAAAGCCTCAAGCGTACCGTCGAAAACCGCCTGGACGGCCTGCTGGGCAGCATGGACCGCTACCAGCGGCTGCGCGACGAGCGCGAGCAGACGATCGCCGACCGTTTGCAACATCTGGTGGAGCGCGTCGCGAGCATGGAGCAGGAGGCCAAAGGCTTCCGCGAGCACCTCGAAGAGCAGCGGCAGAAGGCCCTGGTCGACCCGCTGACCGGCCTACCGAATCGCGCTGCCCTGGATGAACGCCTGGAGCTGGAGGTGGCGCGCTGGCAGCGTTACGGCGGAGACCTGCTGCTGGCGGTGCTGGACATCGATCACTTCAAGCGGATCAACGACAACTATGGCCATCTCGCCGGCGACAAGGTGCTGAAGATCATCGCCGGAGAGTTGGCCAAACGTTTGCGCAAAACCGACTTCATCGCCCGCTTCGGCGGCGAGGAGTTCGTCCTGCTGGTGCCTTCGACGCCCCTGGAAGGGGGCCAGCAGCTGCTGGAAACGCTGCGAGCCGCCATCGAGGCCTGCCCGTTCCACTTCCGTGGCGAACGCTTGACCATCACCCTGTCCGCCGGGCTCGCCGCCTTTGCCGACGGCGAGCGAAGCGAACGGACCTTCGAGCGCGCCGACCAGGCGCTCTACCGGGCCAAGCGCGGCGGGCGCAACCGCATCGAAACCGCCTGA	MSDDGQRWKAKYLENLEQQEKLERRWDARLDLLRRGLVRSSLAAEGADKAVDQCMQEMREILRRDEIDAGLSALIPRLEKAVLDSEQRRQERAAQIVSALSSLAGQLQALPLPREVRKPLKGFTKRLESRAGQIRELPALLAELSQLQRQALALLEREEVERPGLLQRLFGGRERTSDESDEAPAITPPTPAAQVVLTQPESQPDSAETPAAVAPIETPRPLSAEPVETIPPPRAPLLDSLPLSASLLTESTPSAADSPAPPSEPVDAEYALPPSPEPGYSAIAEHVEATLLGLLDELSLPDRHQAQTEGLRERIRHGLNWYELVPVLDDVSVLMLAVAGGSQQEFERYLKQLNERLSAFQEGLQFAREGYSDSLEAARELDSELREQMDDLHSSVRDAVDLESLKRTVENRLDGLLGSMDRYQRLRDEREQTIADRLQHLVERVASMEQEAKGFREHLEEQRQKALVDPLTGLPNRAALDERLELEVARWQRYGGDLLLAVLDIDHFKRINDNYGHLAGDKVLKIIAGELAKRLRKTDFIARFGGEEFVLLVPSTPLEGGQQLLETLRAAIEACPFHFRGERLTITLSAGLAAFADGERSERTFERADQALYRAKRGGRNRIETA				NA	NA	NA	NA	NA
BMS010_05172	885			hypothetical protein	ATGCTGCGCCGTTGGAGCAATGACCGTGCAGTGGGTTTGCACAGCCCCCGGGTCAACCCGCATTGCCTCGATGCGAGCGGGTTACCCGCCAACGGCCGGCTACGGCTGCTCAGTTTCAATATTCAGGTCGGCATCAGCACCCAGCGCTATCGCCATTACCTGACCCGCAGCTGGCAGCACCTGTTGCCGCACCAGGGGCGTGCGCTGAACCTGCAACGGATCGGCGACTTGCTCGCCGATTTCGACCTGGTGGCCTTGCAGGAGGCCGACGGCGGCAGCCTGCGTTCGGGCTTCGTCAATCAGGTGGAACACCTCGCCCACCTGGGCGCCTTTCCCTATTGGTACCAACAGCTCAACCGCAACCTGGGGCGTTTCGCCCAGCACAGCAACGGCTTGCTCAGCCGCCTGCACCCCGGGCTGCTGGAAGACCACCCGTTGCCGGGCCCGCCGGGGCGGGGTGCCATCCTGTTGCGCTTCGGCGAAGGGCCGGACGCGCTGGCCGTGGTGATGATGCACCTGGCCCTCGGCCCGCGAACCCGTACCCGCCAGCTCGCCTACATCCGCGAGTTGATCGGTGGCTACCGCCATCAGGTGCTGATGGGCGACATGAACACCCATGCCGTCGATCTGCTCGAACATTCTCCCTTGCGCGACCTGGGCCTGCTGGCGCCGCAGGTCGAGGCGACCTTCCCGAGCTGGCGGCCGCAGCGCTGCCTCGACCATATCCTCATCAGCCCGAGCCTGACGCTGGAGCGCGTACAGGTGCTGGCCCAGCCGATCTCCGATCATCTGCCGGTGGCTGTGGATATCCGTTTGCCCGAATCGGTCGGTAACGATGTATCGCTTGTCCCGGCGAAGCCTGCCGTCGAGCGAAACCATGAGTGA	MLRRWSNDRAVGLHSPRVNPHCLDASGLPANGRLRLLSFNIQVGISTQRYRHYLTRSWQHLLPHQGRALNLQRIGDLLADFDLVALQEADGGSLRSGFVNQVEHLAHLGAFPYWYQQLNRNLGRFAQHSNGLLSRLHPGLLEDHPLPGPPGRGAILLRFGEGPDALAVVMMHLALGPRTRTRQLAYIRELIGGYRHQVLMGDMNTHAVDLLEHSPLRDLGLLAPQVEATFPSWRPQRCLDHILISPSLTLERVQVLAQPISDHLPVAVDIRLPESVGNDVSLVPAKPAVERNHE				NA	NA	NA	NA	NA
BMS010_05173	642	dsbA	COG0526	Thiol:disulfide interchange protein DsbA	ATGCGTAACCTGATTTTCAGTGCCGCTCTCGCCACCGCGAGCCTGTTCACCGCCCTTGTCGCCGCTCCGCTGCAGGCGGCCGATATCCAGGCCGGCAAGCAGTATGTCGAACTGAACAGCCCGGTGCCGGTCGCCCAGCCCGGCAAGATCGAGGTGGTGGAGCTGTTCTGGTACGGCTGCCCGCACTGCTTCCAGTTCGAGCCGACCCTCAACCCCTGGATCGCCAAACTCCCTGAAGACGTCAACTTCGTGCGCATCCCGGCCCTGTTCGGCGGCCTGTGGAACGTCCACGGCCAACTGTTCATCGCCCTGGAGTCGATGAAGGTCGAGCAGAAGGTTCACGACGCGATCTTCCATGCGATCCACAAGGAAGGCAAAAAGCTGTCGACCCCGGACGAAATGGCCGAATTCCTTGCCACCCAGGGCATCGACAAGGATGCCTTCCTCAAGGCCTACAACTCCTTCGCCGTGAAAGGCCAGATGGAAAAGGCCAAGAAGCTGGCGATGGCCTACCAGATCACCGGCGTACCGGTGATGGTGGTCAACGGCAAGTACCGCTTCGACATCGGCTCGGCCGGTGGTCCTGAGCAGGCACTGGAAGTCGCCGACTTCCTGATCGCCAAGGAGCGCGCCGCCCAGTGA	MRNLIFSAALATASLFTALVAAPLQAADIQAGKQYVELNSPVPVAQPGKIEVVELFWYGCPHCFQFEPTLNPWIAKLPEDVNFVRIPALFGGLWNVHGQLFIALESMKVEQKVHDAIFHAIHKEGKKLSTPDEMAEFLATQGIDKDAFLKAYNSFAVKGQMEKAKKLAMAYQITGVPVMVVNGKYRFDIGSAGGPEQALEVADFLIAKERAAQ	PGPT0015115_1074	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0015115-dsbA-K03673	NA	NA
BMS010_05174	606	cc4	COG2863	Cytochrome c4	ATGAACAAAGTACTCGTGAGTCTGCTGTTGACCCTGGGCATCACCGGTATGGCCCACGCTGCCGGCGACGCCGCCGCTGGCCAGGGCAAGGTTGCCGTGTGTGGCGCCTGCCATGGCATGGACGGCAACAGCCCTGCCCCCAACTTCCCCAAGCTGGCCGGCCAGGGTGAGCGCTACCTGCTCAAGCAACTGAACGACATCAAGAGCGGCAACCGCGTCGTGGTGGAAATGACCGGCCTACTGGACAATCTGAGCGAGCAGGACTTGGCCGACATCGCCGCCTACTTCGCCAGCCAGAAGATGAGCGTGGGCGCCGCCGACCCGAAACTGGTCGAGCGTGGCGAAGCGCTGTTCCGCGGCGGCAAGCTGGAAGAAGGCATGCCGGCCTGCACCGGTTGCCACTCCCCGGACGGTTCGGGCAACGCCCAGGCCGGCTTCCCGCACCTGGGCGGCCAGCATGCCCAGTACGTGGCCAAGCAGCTGACCAACTTCCGCGAAGGCGACCGCACCAACGATGGCGACACCATGATGATGCGCGCCATCGCCGCGAAGCTGAGTAACAAGGACATCGAAGCCGTTTCCAGCTATATCCAGGGCCTGCACTGA	MNKVLVSLLLTLGITGMAHAAGDAAAGQGKVAVCGACHGMDGNSPAPNFPKLAGQGERYLLKQLNDIKSGNRVVVEMTGLLDNLSEQDLADIAAYFASQKMSVGAADPKLVERGEALFRGGKLEEGMPACTGCHSPDGSGNAQAGFPHLGGQHAQYVAKQLTNFREGDRTNDGDTMMMRAIAAKLSNKDIEAVSSYIQGLH				NA	NA	NA	NA	NA
BMS010_05175	294		COG3245	Cytochrome c5	ATGAAGAAATTGCTGATCGCAGCCGGCGTACTGCTGCTGCCGTTTACCGCCACCCAGGCTGCGCAGGACCCGGAAGCCGTCTATAACCGCTCCTGTGCCGCCTGCCACAACGGGCAGTTGCCGATGGCGCCGAAGAAGGGCGACAAGGCCGCCTGGGAACCGCGTCTGGCCCAGGGCATGGACGTGCTGGTGCAGCACGTGACCTACGGATTCAACGCCATGCCGCCCCGCGGCCTGTGCATGGATTGCAGTGCCGAGGATTACCAGGCCGTCATCCAATGGATGAGCCAGTAA	MKKLLIAAGVLLLPFTATQAAQDPEAVYNRSCAACHNGQLPMAPKKGDKAAWEPRLAQGMDVLVQHVTYGFNAMPPRGLCMDCSAEDYQAVIQWMSQ				NA	NA	NA	NA	NA
BMS010_05176	645	engB_2	COG0218	putative GTP-binding protein EngB	ATGCCGCCGAAGAATCCCATCCTGGGCCTGTGCCAACAGGCTGCCTTCATGCTCAGCGCCGCCAAGGTCGACCAGTGCCCGGACGACCAGGGCTACGAAGTCGCCTTCGCCGGCCGCTCCAATGCCGGCAAGTCCAGCGCGCTCAATACCCTGACCCACGCCAACCTGGCGCGTACCTCGAAAACCCCGGGGCGCACCCAGTTGCTGAACTTCTTCCGCCTGGACGACGAGCGCCGCCTGGTCGACCTGCCCGGCTACGGCTACGCCAAGGTGCCGATCCCGCTGAAGCAGCACTGGCAACACCATCTGGAAGCTTATCTGGGCAGCCGCGAAAGCCTGGTCGGCGTGGTGCTGCTGATGGATATCCGCCACCCGCTGACCGAGTTCGACCGGCTGATGCTGGACTGGTCCGCCGCCAGCCAGATGCCGCTGCACATCCTGCTCACCAAGGCCGACAAGCTGGCCTTCGGCGCCGCCAAGAACGCGCTGCTCAAGGTGCAGAACGACGTGCGCAAGGGCTGGGGGAAAGGCGTCAGCGTGCAACTGTTCTCGGCACCCAAGCGCCAGGGCATCGAGGAAGCCCACGGCGTGCTGGCGCAGTGGCTGGGCCTGCTGGAAGAAGACGAGGCGCCGGCTGCACCGTGA	MPPKNPILGLCQQAAFMLSAAKVDQCPDDQGYEVAFAGRSNAGKSSALNTLTHANLARTSKTPGRTQLLNFFRLDDERRLVDLPGYGYAKVPIPLKQHWQHHLEAYLGSRESLVGVVLLMDIRHPLTEFDRLMLDWSAASQMPLHILLTKADKLAFGAAKNALLKVQNDVRKGWGKGVSVQLFSAPKRQGIEEAHGVLAQWLGLLEEDEAPAAP	PGPT0003655_8	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003655-hemB-K01698	NA	NA
BMS010_05178	2739	polA_2	COG0258	DNA polymerase I	ATGTCACACGCTCCCCTCGTGCTGGTGGATGGTTCATCTTACCTGTATCGCGCCTTTCACGCCCTGCCGCCGCTCACCACGTCGACCGGGATGCCCACCGGCGCGGTGAAAGGCGTGCTGAACATGCTGCTGAGTCTGCGCAAGCAGTACCCGGACAGCCCTTTCGCGGTGGTCTTCGATGCCAAGGGCAAGACCTTCCGCGACGAACTGTTCGAGCACTACAAATCGCACCGCCCGCCGATGCCGGACGATCTGCGCGTGCAGGTCGAACCGTTGCACGCGAGCATCCGCGCACTCGGTCTGCCGCTGCTGTGCGTCGATGGCGTGGAGGCGGACGACGTGATCGGCACCCTGGCCCGGCAGAGCGCCGCGCGGGATTGCCCGGTGGTGATCTCCACCGGCGATAAGGACATGGCGCAGTTGGTCGACGGCCACATTACGCTGGTCAACACCATGACCGGTAGCAGCCTGGATGTGGATGGCGTGAAGGAGAAATTCGGTGTCGGTCCTGAGCTGATCATCGATTTTCTCGCCTTGATGGGCGACAAGGTGGACAACATCCCCGGCGTGCCGGGCGTCGGCGAGAAGACCGCCTGCGGCCTGCTAAACGGCGTCGGCGGCGGGCTGGAAGTGCTCTATGCCAACCTGGACAAGGTGCCCGAACTGCCGATCCGTGGCGCCAAGAGCCTACCGGCCAAGCTCGAAGAACACCGCGAGATGGCCTTCCTGTCCTACCAGTTGGCGACCATCAAGACCGACGTGCCCCTGGACATCCACGTCGAGGCGCTGCACCCGAAAGCACCGGACCGCGAGGCGTTGATCCGCCTGTATCGCGAGCTGGAGTTCAAGGCCTGGCTGGACGAACTGCTGCGCGAGGCCAAGGCTTCCGGGGAAACGGTCGCTACACCGGAGCAGGAGGCCGTACCGGAGGCGCGCTACGAGATCGTTCTCGAGCCGGCACGCTTCCAGGCCTGGTTGGAGAAGCTGCGCCAGGCCGAGCTGATCGCCTTCGACACCGAGACCACCAGCCTGAATGCCCAGCAGGCGCAACTGGTGGGTTTGTCCTTCGCCGTCGAGGCCCATGAGGCGGCCTATATCCCGGTGGCGCACAGCTACATGGGCGTGCCGACGCAACTGGACCGCGACGAAGTGCTCGCCGCGCTCAAGCCGATCCTCGAAGACCCGGCCAAGGCCAAGGTCGGCCAGCATGCCAAGTACGACATGAACGTGCTGGCGCTCTACGGGATCGAGGTGCAGGGCCTGGCCTACGACACCATGCTGGAGTCCTACGTGCTGGACTCCACCGCCACCCGCCACGACATGGACAGCCTGGCCCTGAAATACCTGGGGCACAGCACCATCCGCTTCGAGGACATCGCCGGCAAGGGCGCCAAGCAACTGACCTTCGACCAGATCGCCCTGGAGCAGGCCGGCCCCTATGCCGCCGAGGATGCCGACGTCACCCTGCGCCTGCACCAGCATCTGTGGCAGAAGCTGGAGGCCATCCCCAGCCTGGCCAAGGTATTGCGGGAAATCGAGATGCCGCTGGTGCCGGTCCTGGCCCGCATCGAGCAGCAAGGTGCGTTGGTGGATGCCCGTCTGCTCGGCCAGCAGAGCCTGGAGTTGGGCGAGAAGATGGTCGAGCTGGAACGCCAGGCCTACGAACTGGCCGGCGAGGAATTCAACCTCGGTTCGCCCAAGCAGCTCTGCGCCATCCTCTATGAAAAGCTCGGCCTGCCGGTGATCGCCAAGACCGCCACCGGTCAGCCGTCCACGGCGGAAAATGTCCTCGCCGAGCTGGCGGAACAGGACTTCCCGCTGCCCAAGGTGATCATGCAGTACCGCACGGTGAGCAAGCTGAAGAGCACCTACACCGACCGTCTGCCGGAGCAGATCAACCCGCGTACCGGGCGCATCCACACGTCCTATCACCAGGCGGTGGCCGCCACCGGGCGCCTGTCCTCCTCAGACCCGAACCTGCAGAACATCCCGATCCGTACCGCCGAAGGGCGGCGCATCCGCCAGGCGTTCGTCGCGCCGCGCGGCTACAAGCTGGTGGCCGCCGACTATTCGCAGATCGAGCTGCGCATCATGGCTCACCTGGCCAAGGACGAGGGCCTGCTGGACGCCTTCCGCCACGACCGCGACGTGCACCGCGCCACCGCCGCCGAGGTGTTCGCCGTCACCCTGGAAGACGTCAGCCATGACCAGCGGCGCAGCGCCAAGGCGATCAACTTCGGCCTGATCTATGGCATGAGCGCCTTCGGCCTGGCCAAGCAGCTCGGCGTCGATCGCAAGGAGGCCCAGGCCTACATCGACCGCTATTTCGCCCGTTATCCGGGCGTGCTGGCCTACATGGAGCGTACCCGCGAGCAGGCCGGGGCGCAGGGGTTCGTCGAGACCCTGTTCGGTCGCCGGCTGTACCTGCCGGAAATCCATTCGAAGAACGGCGCCATGCGCAAGGCGGCCGAGCGCACTGCGATCAACGCGCCCATGCAGGGCACCGCGGCGGACATCATGAAGCGCGCCATGGTGCGGGTGGACGGCTGGCTGGCGGAGTCCGGCTTGGATGCCAAAGTCATCCTGCAGGTGCACGACGAACTGGTCCTGGAAGTCCGCGAGGATTTGGTCGATCAGGTGAAGGAAGCGATCCGGCCGTTGATGAGCGGTGCCGCCGAACTGGACGTGCCGCTGGTGGTGGATGTGGGGGTAGGTGACAACTGGGACGAGGCCCACTGA	MSHAPLVLVDGSSYLYRAFHALPPLTTSTGMPTGAVKGVLNMLLSLRKQYPDSPFAVVFDAKGKTFRDELFEHYKSHRPPMPDDLRVQVEPLHASIRALGLPLLCVDGVEADDVIGTLARQSAARDCPVVISTGDKDMAQLVDGHITLVNTMTGSSLDVDGVKEKFGVGPELIIDFLALMGDKVDNIPGVPGVGEKTACGLLNGVGGGLEVLYANLDKVPELPIRGAKSLPAKLEEHREMAFLSYQLATIKTDVPLDIHVEALHPKAPDREALIRLYRELEFKAWLDELLREAKASGETVATPEQEAVPEARYEIVLEPARFQAWLEKLRQAELIAFDTETTSLNAQQAQLVGLSFAVEAHEAAYIPVAHSYMGVPTQLDRDEVLAALKPILEDPAKAKVGQHAKYDMNVLALYGIEVQGLAYDTMLESYVLDSTATRHDMDSLALKYLGHSTIRFEDIAGKGAKQLTFDQIALEQAGPYAAEDADVTLRLHQHLWQKLEAIPSLAKVLREIEMPLVPVLARIEQQGALVDARLLGQQSLELGEKMVELERQAYELAGEEFNLGSPKQLCAILYEKLGLPVIAKTATGQPSTAENVLAELAEQDFPLPKVIMQYRTVSKLKSTYTDRLPEQINPRTGRIHTSYHQAVAATGRLSSSDPNLQNIPIRTAEGRRIRQAFVAPRGYKLVAADYSQIELRIMAHLAKDEGLLDAFRHDRDVHRATAAEVFAVTLEDVSHDQRRSAKAINFGLIYGMSAFGLAKQLGVDRKEAQAYIDRYFARYPGVLAYMERTREQAGAQGFVETLFGRRLYLPEIHSKNGAMRKAAERTAINAPMQGTAADIMKRAMVRVDGWLAESGLDAKVILQVHDELVLEVREDLVDQVKEAIRPLMSGAAELDVPLVVDVGVGDNWDEAH				NA	NA	NA	NA	NA
BMS010_05179	285			hypothetical protein	ATGCGCACACTGAATCGCCTGTTGCTGGCCAGCCTGCTGGCAATGCCGCTCGCCACCCTGGCCGAAGAAGGCCCGGTGACCGGCGACCCGGATGTGACCATCCGCCAGGAGGGCGACAAGACCATCGAGGAATACCGCGTCAATGGCTTCCTCTACGCCATCAAGGTCACGCCGAAAGGTGGCAAACCCTATTTCCTGGTTCGGGCCGATGGCAGCGACGGCAACTTCGTGCGCTCCGACCAGCCGGACATGCTGATTCCCGCCTGGGAAATCTTCAAATGGTAA	MRTLNRLLLASLLAMPLATLAEEGPVTGDPDVTIRQEGDKTIEEYRVNGFLYAIKVTPKGGKPYFLVRADGSDGNFVRSDQPDMLIPAWEIFKW				NA	NA	NA	NA	NA
BMS010_05180	951	thrB_4	COG2334	Homoserine kinase	ATGTCGGTCTTCACCCCCCTCGAACGGCACGAGCTGGAAGTCTTCCTCGAGCCGTACGGTCTCGGCCGCCTGCGCGACTTCCAAGGTATCGCCGCCGGCAGCGAGAACAGCAATTTCTTCGTCAGCCTGGAGCAGGGCGAATTCGTTCTGACCCTGGTGGAACGGGGGCCGACGCAGGACCTGCCGTTCTTCATCGAACTGCTCGATGTGCTGCACGATGCCGACCTGCCGGTGCCCTACGCCCTGCGTACCGGTACCGGCGAGGCCCTGCGCAGCCTGGCGGAAAAGCCCGCGCTGCTGCAGCCGCGCCTGCCCGGCAAGCATGTCGCCCAGCCCAACGCCCATCATTGCGCCGAGGTCGGCACTTTGCTGGCACGCCTGCACCTGGCGACCTGCGGACGCATCATCGAGCGCAAGAGTGACCGTGGCCTGGACTGGATGCTGCAAGAAGGCCCGTGCCTGGCCCTGAAGCTGCCCGAGGACCAGCTCCCGCTGTTGCGCGACGCCCTGGCGGAAATCGCCGAAGTGAAGGACAAGGTACTCGCCCTGCCACGGGCGAACCTGCATGCCGACCTGTTCCGCGACAACGTGCTGTTCGACGGCCCGCACCTGGCCGGGGTGATCGACTTCTACAACGCCTGCTCGGGGCCGATGCTCTACGACCTGGCCATCGCTCTCAACGACTGGTGCTCGGAGCCGGACGGCCGCCTGAACGAAGACCTCGCCCACGCCCTGCTCGGCGCCTACGCCACGCTGCGTCGTTTCACCGCCGCCGAGGCCCGGATCTGGCCGGCCATGCTGCGGATCGCCTGCGTGCGCTTCTGGCTGTCGCGGCTGATCGCCGCCGACTCCTTCGCCGGCCAGGAAGTGCTGATTCACGATCCTGCCGAGTTCCAGCGTCGCCTGAAACACCGACAGCAGGTCGACTTGGCGCTGCCTTTCGCGCTCTGA	MSVFTPLERHELEVFLEPYGLGRLRDFQGIAAGSENSNFFVSLEQGEFVLTLVERGPTQDLPFFIELLDVLHDADLPVPYALRTGTGEALRSLAEKPALLQPRLPGKHVAQPNAHHCAEVGTLLARLHLATCGRIIERKSDRGLDWMLQEGPCLALKLPEDQLPLLRDALAEIAEVKDKVLALPRANLHADLFRDNVLFDGPHLAGVIDFYNACSGPMLYDLAIALNDWCSEPDGRLNEDLAHALLGAYATLRRFTAAEARIWPAMLRIACVRFWLSRLIAADSFAGQEVLIHDPAEFQRRLKHRQQVDLALPFAL	PGPT0020285_1053	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020285-thrB2-K02204	NA	NA
BMS010_05181	327			hypothetical protein	ATGCGCAAGACGAGGTGGCTGTTCGCTGGAGGGGCTGTACTGCTGGCAGGGATAACCGGCATGGCCGGGTACGCGGTGGGCCTGCAGGCATCCGGTGATCGTGACCTGTTTTGTCCGGGCGGCTTTCAGGACTACCGTACCCGCGTCGTCCTGCGGGGCGACCAGGGCGTGACGATTCCGGCCGATACCGTGCTGCGCCTGCGTTTCTGCGAATACAACGCCCAGGCGCGGCTGGAATTCCGCTTGGACAAGGGCGACTTCGATACCGTCGAGCCGTTGCCTGACGATCCTGAACGGGGGCGTTGGCTATACGGGTTGGGGCCCTGA	MRKTRWLFAGGAVLLAGITGMAGYAVGLQASGDRDLFCPGGFQDYRTRVVLRGDQGVTIPADTVLRLRFCEYNAQARLEFRLDKGDFDTVEPLPDDPERGRWLYGLGP				NA	NA	NA	NA	NA
BMS010_05182	681			hypothetical protein	ATGACCGTGAAGATCGACAAGCGCATCAAGAGCTTCAAGGTGATCGACGAGCGTGTCGCGCCGCCGCCGGTCTCCGAAGCCGGCGCGCCGGTGGAGATGGACGAGAGCCTGGAGCGCCCGGAAACGTTGGTGGGGGTGACCTACAAGATCAAGTCGCCGCTGTTCGAGCATGCGCTCTACGTGACCATCAACGACATCCTGCTGAACGCCGGGACACCCTACGAGCAGCGGCGGCCTTTCGAGATTTTCATCAACTCGAAGAACATGGACCACTTCCAATGGATCGTGGCCTTGACCCGCATCATGTCGGCCGTGTTCCGCAAAGGCGGAGACTGCACCTTCCTGGTGGAAGAGCTGAAGGCGGTGTTCGATCCGCGTGGCGGCTATCTCAAGCGCGGCGGGGTGTACATGCCCTCGATCGTGGCGGAGATCGGCGCGGTGCTGGAGCGGCACATGATTGCCATCGGCCTGCTGCCGGGACAACCGCTGGATGAGGCCCAACGGCGCTACCTGGCGGAAAAGCGCGCGGCCTACGAGGCCAGCCAGAATGCCGTGGCGGTCGAGCCCGGCGACGGCTTCCCGCCGGGCGCGCAACTCTGCGGCGCCTGCCATACCCAGGCGGTGGTGCAGGTAGAAGGTTGTGCCACCTGCCTGAACTGTGGGCATTCGAAGTGTGGGTGA	MTVKIDKRIKSFKVIDERVAPPPVSEAGAPVEMDESLERPETLVGVTYKIKSPLFEHALYVTINDILLNAGTPYEQRRPFEIFINSKNMDHFQWIVALTRIMSAVFRKGGDCTFLVEELKAVFDPRGGYLKRGGVYMPSIVAEIGAVLERHMIAIGLLPGQPLDEAQRRYLAEKRAAYEASQNAVAVEPGDGFPPGAQLCGACHTQAVVQVEGCATCLNCGHSKCG	PGPT0021340_4232	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021340-nrdA|nrdE-K00525	NA	NA
BMS010_05183	2142	nrdZ		Vitamin B12-dependent ribonucleoside-diphosphate reductase	ATGGCGAAGACCGGCGGTACCACCACGGCGCAGCTCCAGGGCATCCCCCTGCAGGCCGCCTCGGTGGAAATCTGGGAAGTGAAATACCGGCTGCGCGACCGCGACGGTTCGCCGCTGGAAAGCCGGATCGACGAAACCTGGCAGCGCGTTGCCCGCGCCCTGGCGGACATCGAGGCGCCGGAGCTGCGCGAACATTGGTATGAGCAGTTCCTCTGGGCGCTGCGCAACGGCGCGGTGCCGGCCGGGCGGATCATTTCCAACGCCGGGGCGCAGAGCTACAAGCCGGCCACCTCGACGATCAACTGCACCGTCTCCGGCACCATCGGCGACTCGATGGACGACATCCTCGGCAAGGTCCACGAGGCCGGCCTGACCCTCAAGGCCGGCTGTGGCATCGGCTACGAATTCTCCACCCTGCGGCCGCGCGGCGCCTATGTGTCCGGCGCCGGCGCGCACACCAGCGGGCCGCTGTCGTTCATGGATATCTTCGACAAGATGTGCTTCACCGTCAGCTCGGCAGGCGGGCGGCGCGGCGCGCAGATGGCCACCTTTGACGTCGCCCACCCGGACGTGCGCGAGTTCATCCGCGCCAAGCGCGAGGACGGCCGGCTGCGCCAGTTCAACCTGAGCCTGCTGATCACCGACGAGTTCATGCAGGCGGTGGAAGCCGATGCGGACTGGCCGCTGCTGTTCCCGGTGCACGCCAAGGAGCACGACGAGCTGGACCTCGACGACCCGGCCCAGGTGCGCTGGCGCGAATGGCCGCTGCACGAAGGTTACTGCACACGGGCAGACGGCCTGGTGGCCTGCAAGGTCTACGGCAGCGTGCGCGCCCGTCACCTGTGGGACCTGATGATGGTCTCCACCTACGATTACGCCGAGCCGGGTTTCATCCTCATCGACCGGGTCAATCAGTCGAACAACAACTGGTGGTGCGAGGACATCCGCGCCACCAACCCCTGCGGCGAACAGCCGCTGCCGCCCTACGGCTCCTGCCTGCTCGGCTCGATCAACCTGACCGGCTTCGTGCTCGACCCCTTCACTGCCGACGCCCGTTTCGACTGGGTCCGGTTCCGCCAGGTGGTGCGCATCTTCACCCGCCTGCTGGACAACGTGGTGGAGATCAACGGCCTGCCACTGGAGCCGCAACGCCGCGAAATCCTTGACAAGCGCCGCCACGGCATGGGCTTCCTCGGCCTTGGCTCTGCGCTCGCCCTGCTTCGCCTGCGCTACGGCAGCCCGGAGGCCTGCGTGTTCACTGAAGAAGTGGCGCGGGAAATGGCACTCACCGGCTGGCAGGTGGCGCTCGAACTGGCCCGGGAGAAAGGCCCGGCGCCGCTGCTGGCGCAGACCTTCGAGGTCAGCGCCGAGATGTTGCGCAAGCGCCCGGAAATGATTGCCGACGGCTACAAGGTGGGCGACCGCCTGCCCGGTCGGGTGCTGCACGCCCGCTATTCGCGCTACATGCAGCGCCTCGCCGAGCATGCGCCGGAGCTGGTGGCGGCACTGGCCGAGCACGGGGCGCGCTTTACCCACCACAGCTCCATCGCACCCACCGGCACCATCAGCCTGAGCCTGGCGAACAACGCCTCCAACGGCATCGAACCGAGCTTCGCCCACCAGTACTCGCGCAACCTGATCCGCGCCGGCCGCAAGAGCAAGGACAAAGTGGAGGTGCTCAGCTACGAACTGCTGGCCTACCGCGCCCTGGTCAATCTACGCGCACGCCCCGGTTCGGACGACCCCGCCGAGCGCCTGCCGGATTACTTCGTCACCGCCGACGACATCGGCCCTACCCAACATGTGGATATCCAGGCGGCGGCACAGAAGTGGGTGGACTCGTCCATCTCCAAGACCGCCAACGTGCCCACCGACTACCCCTTCGAGGCATTCAAGGACATCTACCGCTACGCCTGGAAGCAGGGGCTCAAGGGCTGCACCACCTTCCGCTTCAATCCGGCCGCGTTCCAGGGCGTGCTGGTGAAGGAAGCCGACCTGGAGAAGACCCGCTACCGCTTCGAGCTGGAAGACGGCAGCGTGGTGGAGCTGAAGGGCAACGAGGAGGTGGAGTACGACGGCGAGGTGCATACCGCCGCCAACCTCTTCGATGCGCTGAAGGAAGGCTATTACGGCAAGTACTGA	MAKTGGTTTAQLQGIPLQAASVEIWEVKYRLRDRDGSPLESRIDETWQRVARALADIEAPELREHWYEQFLWALRNGAVPAGRIISNAGAQSYKPATSTINCTVSGTIGDSMDDILGKVHEAGLTLKAGCGIGYEFSTLRPRGAYVSGAGAHTSGPLSFMDIFDKMCFTVSSAGGRRGAQMATFDVAHPDVREFIRAKREDGRLRQFNLSLLITDEFMQAVEADADWPLLFPVHAKEHDELDLDDPAQVRWREWPLHEGYCTRADGLVACKVYGSVRARHLWDLMMVSTYDYAEPGFILIDRVNQSNNNWWCEDIRATNPCGEQPLPPYGSCLLGSINLTGFVLDPFTADARFDWVRFRQVVRIFTRLLDNVVEINGLPLEPQRREILDKRRHGMGFLGLGSALALLRLRYGSPEACVFTEEVAREMALTGWQVALELAREKGPAPLLAQTFEVSAEMLRKRPEMIADGYKVGDRLPGRVLHARYSRYMQRLAEHAPELVAALAEHGARFTHHSSIAPTGTISLSLANNASNGIEPSFAHQYSRNLIRAGRKSKDKVEVLSYELLAYRALVNLRARPGSDDPAERLPDYFVTADDIGPTQHVDIQAAAQKWVDSSISKTANVPTDYPFEAFKDIYRYAWKQGLKGCTTFRFNPAAFQGVLVKEADLEKTRYRFELEDGSVVELKGNEEVEYDGEVHTAANLFDALKEGYYGKY	PGPT0021340_5333	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021340-nrdA|nrdE-K00525	NA	NA
BMS010_05184	963	znuA_1	COG4531	High-affinity zinc uptake system protein ZnuA	GTGTTCCGCCTTTTCCTTCCGCTCGTACTTTGCGCCTTTTCTTCCCTGGCCCAGGCCGAGGTGCGTCTGCTCACCAGCATCAAGCCTCTGCAGCTGATCGCCGCCGCCGTACAGGATGGCGTGGCAAAGCCGGACGTGCTGCTGCCGCCGGGAGCGTCGCCGCATCACTTCGCCCTGCGCCCTTCCGACGTGCGGCGGGTGCGCGAGGCCGACCTGTTCTACTGGATCGGCCCGGACATGGAGAGCTTCCTCATCCGCGTGTTGGAAGGCCGCGACAAGCCGAGCCTGGCCGTACAGGGCCTGGCGGGCCTGCACCTGCGCCATTTCGGCGAGGAAAGCCATCACGAAGAGGCCGACGACGAGCATGGCCACGAGCACAACGAGCATGCCGGCGAACACCACGAGGAAGACAGCGACGAGCATGATCATGCCCACCGTCCCGGCAGCCTGGATGCCCACCTCTGGCTGCTGCCGGCCAACGCCCGGACGATCGCGGCGCGCATGGCCGCCGATCTGAGCGCCGTCGACCCGGCCAACGCCGCGCGCTATCAGGCCAACCTGGCGGCCTTCCAGCAGCGCCTCGACGCCCTCGACCAGCGCCTCGCGGCCCGCGTGAGGCCGTTGGCCGGGAAGCCCTTCTTCGTCTTCCACGAGGCGTTCGACTACTTCGAGGCGGCCTACGGCATTCGTCACGCCGGCGTGTTCAGCGTCGCCGCCGAGGTGCAGCCGGGCGCCCGTCACGTCGCCGCCATGCGCGAGCGCCTGAAGACGGCCGGTCCGACCTGCGTGTTCAGCGAACCGCCGCTACGCCCGCGTCTCGCCGAAACCCTGAGCGCCGGCTTGCCGGTGACCCTCGCCGAGCTGGATGCCATGGGCAGCGGCGTTGCCGTCGATGCCGGCGGCTACGAGCGCCTGCTGGATAATCTGGCGGGTGGGCTGGCGGGCTGCCTCGAGAACCTCTGA	MFRLFLPLVLCAFSSLAQAEVRLLTSIKPLQLIAAAVQDGVAKPDVLLPPGASPHHFALRPSDVRRVREADLFYWIGPDMESFLIRVLEGRDKPSLAVQGLAGLHLRHFGEESHHEEADDEHGHEHNEHAGEHHEEDSDEHDHAHRPGSLDAHLWLLPANARTIAARMAADLSAVDPANAARYQANLAAFQQRLDALDQRLAARVRPLAGKPFFVFHEAFDYFEAAYGIRHAGVFSVAAEVQPGARHVAAMRERLKTAGPTCVFSEPPLRPRLAETLSAGLPVTLAELDAMGSGVAVDAGGYERLLDNLAGGLAGCLENL	PGPT0004220_2567	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_FACILITATING_PROTEIN	ROOT_COLONIZATION-ZINK_TRANSPORT_LIPOPROTEIN,PGPT0004220-znuA-K09815	NA	NA
BMS010_05185	483	zur_1	COG0735	Zinc uptake regulation protein	ATGAAAACACCCCTGGCCTGCCGCCCCCATGACCACTCCCGCTGCGTGCACAGCGCCCTCAGCGAAGCCGACGCGCTCTGCGCGCGCCAGGGCGTGCGGCTGACCGCCCTGCGCCGGCGCGTGCTGGAGCTGGTCTGGCAGAGCCACAAACCGCTGGGCGCCTACGACATCCTCGCCGTGCTGAGCGAGGAAGACGGTCGCCGCGCCGCACCGCCCACCGTCTACCGTGCCCTGGACTTCCTGCTGGAAAACGGCCTGGTGCACCGCATCGCCTCGCTCAACGCCTTCGTCGGTTGCAACCACCCGGAGCACGCCCACCAAGGCCAGTTCCTCATCTGCCGCCAATGCCACACCGCCATCGAGCTGGAGCAACCGGCGATCAGCGAGGCGATCGTCGCCGGCGCGCGGACGGTGGGCTTCACCGTGGAAGGGCAGACCGTGGAAATCGTCGGCCTGTGTGCCGCCTGCCGGGAGGCCGCATGA	MKTPLACRPHDHSRCVHSALSEADALCARQGVRLTALRRRVLELVWQSHKPLGAYDILAVLSEEDGRRAAPPTVYRALDFLLENGLVHRIASLNAFVGCNHPEHAHQGQFLICRQCHTAIELEQPAISEAIVAGARTVGFTVEGQTVEIVGLCAACREAA	PGPT0003905_801	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0003905-zur-K09823	NA	NA
BMS010_05186	774	znuC	COG1121	Zinc import ATP-binding protein ZnuC	ATGAGCGATGCGCTGATACGCCTGAGCGGAGTCGGCGTGCGCTACGCCGGCCAGGCGGTGCTGGAAGACGTCCAGTTGAGCGTGAAGCCGGGCGAGATCGTCACCCTGATCGGTCCCAACGGCGCCGGCAAGACCACCCTGGTGCGCGCCGTGCTCGGCCTGCTGACCCCGGACCAGGGCGAGGTCTGGCGACGGCCGCGCCTGCGCATCGGCTACATGCCGCAGAAGCTCCAGGTGGATGCCACCCTGCCGCTGACCGTGCTGCGCTTCCTGCGCCTGGTGCCTGGCGTGGACCGCCCGAAGGCGCTGGCGGCGCTGGGCGAGGTGGGTGCGGAACAGGTGATCGACAGTCCCTTGCAGAGCATTTCCGGCGGTGAGTTGCAGCGCGTGCTGCTCGCCCGCGCCCTGTTGCGCGAGCCGGAGCTGCTGGTGCTGGACGAGCCGGTGCAGGGCGTCGACGTGGCCGGGCAGGCCGAGCTGTATCGTCTGATCACCCGTCTGCGCGACCGCCACGGCTGCGGCGTGCTGATGGTCTCCCACGACCTTCACCTGGTGATGAGCACCACCGACCAGGTGGTCTGCCTCAACCGCCATGTCTGCTGTTCCGGCCACCCGGAGCAGGTCAGCGGCGACCCGGCGTTCGTCGAGCTGTTCGGCCAGGACGCCCGCAGCCTGGCCATCTACCACCACCATCACGACCACGCCCACGATCTGCACGGCAGCGTGGTGGTCGGCAAACCCCACGTGCACGGGCCGAACTGCAATCATGGCTGA	MSDALIRLSGVGVRYAGQAVLEDVQLSVKPGEIVTLIGPNGAGKTTLVRAVLGLLTPDQGEVWRRPRLRIGYMPQKLQVDATLPLTVLRFLRLVPGVDRPKALAALGEVGAEQVIDSPLQSISGGELQRVLLARALLREPELLVLDEPVQGVDVAGQAELYRLITRLRDRHGCGVLMVSHDLHLVMSTTDQVVCLNRHVCCSGHPEQVSGDPAFVELFGQDARSLAIYHHHHDHAHDLHGSVVVGKPHVHGPNCNHG	PGPT0004230_710	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZNU_TRANSPORT_SYSTEM,PGPT0004230-znuC-K09817	NA	NA
BMS010_05187	789	znuB_1	COG1108	High-affinity zinc uptake system membrane protein ZnuB	ATGGCTGATTTCCTGTTCAACGCCCTGCTCGCCGGCCTCGCCCTGGCCCTGGTGGCCGGCCCGCTCGGCTCCTTCGTGGTCTGGCGGCGCATGGCCTATTTCGGCGACACCCTGTCCCACGCGGCGCTGCTCGGCGTCGCCCTGGGCCTGCTGCTGGACGTCAGCCCGACCCTGGCGGTGACCGCCGGCTGCGTGCTGCTCGCCGTGCTCCTGGTGGCCCTGCAACAGCGCCAGCCACTGGCCTCCGACACCCTGCTCGGCATCCTCGCCCACAGCACCCTGTCCCTCGGCCTGGTGGTGCTGAGCTTCATGAAGGACGTGCGCGTCGACTTGATGAGCTACCTGTTCGGCGACCTGCTCGCCGTCGGCCCCGGCGACCTGGCCTGGATTCTCGGCGGCAGCGCGCTGGTGCTGCTGATCCTGATTCCGCTCTGGCGGCCGCTGCTGGCGATCACCGTCCACGAGGAACTGGCCAAGGTCGAAGGGCTGCCGGTGGCGGCCATCCGCCTCGCCCTGATGCTGCTGATCGCCGTGGTGATCGCGGTGGCGATGAAGATCGTCGGCGTGCTGCTGATCACCTCGCTGCTGATCATCCCGGCCGCCGCCGCCCAGCGCCATGCGCGCACCCCGGAGCAGATGGCCCTGGGTGCCAGCGCCCTCGGGCTGGTGGCGGTCTGTTGCGGGCTGGCGCTGTCCTGGTACGAGGACACCCCGGCCGGCCCGTCCATCGTGGTCAGCGCCGCCTCGTTGTTCCTGCTCAGCTTCGTGCTGCCGCGCCGCACGGCGTGA	MADFLFNALLAGLALALVAGPLGSFVVWRRMAYFGDTLSHAALLGVALGLLLDVSPTLAVTAGCVLLAVLLVALQQRQPLASDTLLGILAHSTLSLGLVVLSFMKDVRVDLMSYLFGDLLAVGPGDLAWILGGSALVLLILIPLWRPLLAITVHEELAKVEGLPVAAIRLALMLLIAVVIAVAMKIVGVLLITSLLIIPAAAAQRHARTPEQMALGASALGLVAVCCGLALSWYEDTPAGPSIVVSAASLFLLSFVLPRRTA	PGPT0004225_2771	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZNU_TRANSPORT_SYSTEM,PGPT0004225-znuB-K09816	NA	NA
BMS010_05188	834			hypothetical protein	ATGACGCCATTCGCCACCCGTTACCTGCCCGTTGCGCTGATATCGCTGCTGCTGGCCGCCTGCCAGCAGCACCCGAGCCAGCCTTATGAGGCGCCCGTCGATGAGCGCGTCGCGGCGTTCCGCCAGTTGGAACAGAGCCTGAACGGCGGCAACCTGGAAAGCGCCGAAAGCCAGCTCGCGACGCTCCAGCGGAACGCGGCCGGCGATACCCGCCTGGAGCAGTACCAGCGGCAACTGGCCGAGGCCTACCTGCAACAGGGCCAGACAGCCTTGCAGAACAACGACCTGGACGCCGCCGCCAAGGCCCTCAGCCATGCACGCAGCCTGATGCCCAACGCCCCGGCGCTGGCCACCGGCCTGGACGGCGCGCTCAACCAGGCCCGCGAGGCCGAGAAGCAGGCTGCCGAACGAGCCGCCCGCGAAACGGCGGCGCGCAACGAACAGGCCCGCCGTCTTCAGGAGGCCGCCGAGCGGCAGGCCCAGGCGATCCAGGCCACCCGATTGCCCGGTGCGCCGCAGGAAGAAAAGCCCGCGCCGGCCAAGCCGAGCGCACGCCTGATCGACCCGGCCGCCGCCAGCAGCGCCGTGCCGCTGCCGATGCTGGACAGCCAGGACAACGACAGCCTGCGCGAACTGCTCGATGCCGTGGCCGCCGACGTGGTGGCGTTCGATTGCGCTGTGCGCGTCGAAGTCCGCCAGGCCAAGGACTACCCCTGGGTCGCCGCGCTGCTGTCGGCCCGGGTGAAGAAGCTCGACCCGGCCTTCGGCCTGCGCCTGAGCCAGTCGCTGAAGCCGGAACAGGTCCCGCGCCTGGTGCTCAGCCCGCGCCGGTGA	MTPFATRYLPVALISLLLAACQQHPSQPYEAPVDERVAAFRQLEQSLNGGNLESAESQLATLQRNAAGDTRLEQYQRQLAEAYLQQGQTALQNNDLDAAAKALSHARSLMPNAPALATGLDGALNQAREAEKQAAERAARETAARNEQARRLQEAAERQAQAIQATRLPGAPQEEKPAPAKPSARLIDPAAASSAVPLPMLDSQDNDSLRELLDAVAADVVAFDCAVRVEVRQAKDYPWVAALLSARVKKLDPAFGLRLSQSLKPEQVPRLVLSPRR				NA	NA	NA	NA	NA
BMS010_05189	1008	metN_1	COG1135	Methionine import ATP-binding protein MetN	GTGATCGAGTTTCAGCAGGTTTATAAAACCTACCGCGTCGCCGGACGCGACATCCCCGCCCTGCAACCCACCACCATGGATATCCAGGGCGGCCAGGTGTTCGGGCTGATCGGCCATTCCGGTGCCGGCAAGAGCACCCTGCTGCGCCTGATCAACCGCCTGGAAGAGCCCTCCGGCGGGCGCATCGTCATCGACGGGACCGACGTCACCGCGCTGGACGCCGACGGCCTGCGGCGCTTCCGCCAGCGTGTCGGGATGATCTTCCAGCACTTCAACCTGCTCGCCTCCAAGACCGTGGCCGATAACGTCGCCATGCCGCTGCGCCTGGCCGGCGAACTGTCGGCGGCGGAGATCGATGCGCGCGTCGCCGAGCTGCTGGCCCGTGTCGGCCTCGGCGACCACGCGAAGAAGTACCCGGCGCAACTCTCCGGCGGCCAGAAGCAGCGCGTCGGCATTGCCCGCGCCCTGGCCACCCGACCGAAGATCCTGCTCTGCGACGAAGCCACCAGCGCCCTCGACCCGCAGACCACCGGCCAAGTCCTGCAACTGCTGGCCGAGATCAACCGCGAGCTGGGCCTGACCATCGTACTGATCACCCATGAGATGGACGTGATCCGCCGCGTCTGCGACCGCGTCGCGGTGATGGACGGCGGGGTGATCGTCGAACAGGGCCCGGTGGCCGACGTCTTCCTCCACCCGCAACATCCGACCACCCGCCGCTTCGTCCTGGAAGCCGAGCACGTGGACGAGGACGAACAACACGACGACTTCGCCCATGTGCCGGGCCGTATCCTGCGCCTGACCTTCCGCGGCGAGGCCACCTATGCGCCGCTGCTGGGCACCATCGCCCGCGACACCGGCGTGGACTACAGCATCCTGGCCGGGCGTATCGACCGCATCAAGGAGACGCCCTACGGCCAACTGACCCTGGCGCTGGTCGGCGGTGACGTCGAATCCGCCCTCATCCGTCTCAACGCGGCCGATGTACACGTGGAGGTGCTGCGCTGA	MIEFQQVYKTYRVAGRDIPALQPTTMDIQGGQVFGLIGHSGAGKSTLLRLINRLEEPSGGRIVIDGTDVTALDADGLRRFRQRVGMIFQHFNLLASKTVADNVAMPLRLAGELSAAEIDARVAELLARVGLGDHAKKYPAQLSGGQKQRVGIARALATRPKILLCDEATSALDPQTTGQVLQLLAEINRELGLTIVLITHEMDVIRRVCDRVAVMDGGVIVEQGPVADVFLHPQHPTTRRFVLEAEHVDEDEQHDDFAHVPGRILRLTFRGEATYAPLLGTIARDTGVDYSILAGRIDRIKETPYGQLTLALVGGDVESALIRLNAADVHVEVLR	PGPT0020520_3442	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020520-metN-K02071	NA	NA
BMS010_05190	666	metP_1	COG2011	Methionine import system permease protein MetP	ATGGAAGCCCTGTTCACCCATGTCGACTGGTACGAAATCTGGCTGGCGACCCTCGACACCCTACTGATGCTCGGCGGCTCGCTGCTGTTCACCGTGATCCTCGGCCTGCCGCTGGGCGTGCTGCTGTTCCTCACTGGGCCGCGCCAGTTGTTCGAGCAGAAGGCGCTCTACGGGCTGCTCTCGCTGCTGGTCAACGTGTTGCGCTCGCTGCCGTTCATCATCCTGCTGATCGTGATGATTCCCTTCACCGTGCTGCTCACCGGCACCTCGCTGGGCGTGGCCGGCGCCATCCCGCCGCTGGTGGTAGGCGCCACGCCGTTCTTCGCCCGCCTGGTGGAAACGGCGCTGCGCGAAGTGGATCGCGGCATCATCGAGGCCACTCAGGCGATGGGCGCCACCACCCGCCAGATCATCTGGAACGCCCTGCTGCCGGAAGCGCGGCCGGGCATCTTCGCCGCCGTCACCGTCACCGCCATCACCCTGGTCTCCTACACCGCGATGGCCGGCGTGGTCGGCGCGGGCGGCCTCGGCGACCTGGCCATCCGCTTCGGCTACCAGCGCTTCCAGACCGACGTGATGGTGGTCACCGTGGTCCTGCTGCTGGTGCTCGTACAGATTCTGCAAACCGTCGGCGACAAGCTGGTGGTGCATTTTTCCCGTAAATGA	MEALFTHVDWYEIWLATLDTLLMLGGSLLFTVILGLPLGVLLFLTGPRQLFEQKALYGLLSLLVNVLRSLPFIILLIVMIPFTVLLTGTSLGVAGAIPPLVVGATPFFARLVETALREVDRGIIEATQAMGATTRQIIWNALLPEARPGIFAAVTVTAITLVSYTAMAGVVGAGGLGDLAIRFGYQRFQTDVMVVTVVLLLVLVQILQTVGDKLVVHFSRK	PGPT0020515_2167	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020515-metI-K02072	NA	NA
BMS010_05191	771	metQ_1	COG1464	D-methionine-binding lipoprotein MetQ	ATGAAAAAACTGCTCGCTGCCGTCGCCGCCTTCGCGGCCTTCTCCGCCCAGGCCGAAAGCCTGACCGTCGCCGCCACCGCGGTACCGCACGCGGAAATCCTCGAATTCGTCAAACCGGCCCTGGCCAAGGAAGGGGTCGAGCTGAACGTGAAGGTCTTCACCGACTACGTGCAGCCGAACATCCAGGTCGCCGAGAAGCGCCTGGACGCCAACTTCTTCCAGCACCAGCCGTACCTGGATGAGTTCAACAAGGGCAAGGGCACCGAGCTGGTCGCCGTCACCGGTGTGCACGTCGAACCGTTCGGCGCTTACTCCAGCAAGATCAAGAGCCTCGACGAGCTGCCCCAGGGCGGCACCGTGGTCATCCCCAACGACGCCACCAACGGCGGCCGCGCCCTGCTGCTGCTGGACAAGGCCGGCGTGATCAAGCTGAAGGACAAGAGCAACATCCTCGCCACGCCGAAGGACATCGTCGAGAACCCGAAGTCGCTGAAAGTCCGTGAACTGGAAGCCGCCACCCTGCCGCGCGTGCTGACCCAGGTCGACCTGGCGCTGATCAACACCAACTACGCCCTGGAAGCCAAGCTGAACCCGACCAAGGACGCCCTGGTGATCGAAGGCAGCGACTCGCCCTACGTGAACATCCTCGTCGCCCGCCCGGACAACAAGGACCGCGACGCCATGCAGAAACTGGCCAAGGCCCTGAACAGCGCCGAGGTGAAGCAGTTCATCGAAGAGAAGTACAAGGGCGCCGTGGTGCCGGCGTTCTGA	MKKLLAAVAAFAAFSAQAESLTVAATAVPHAEILEFVKPALAKEGVELNVKVFTDYVQPNIQVAEKRLDANFFQHQPYLDEFNKGKGTELVAVTGVHVEPFGAYSSKIKSLDELPQGGTVVIPNDATNGGRALLLLDKAGVIKLKDKSNILATPKDIVENPKSLKVRELEAATLPRVLTQVDLALINTNYALEAKLNPTKDALVIEGSDSPYVNILVARPDNKDRDAMQKLAKALNSAEVKQFIEEKYKGAVVPAF	PGPT0020510_5637	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020510-metQ-K02073	NA	NA
BMS010_05192	867	yofA_2	COG0583	HTH-type transcriptional regulator YofA	ATGCTGCGTGAGTTGAAGACCTTCGTCACCGTGGCCCGCCTGGGCACTTTCGCCGCCGCCGGCCAGCGGATCGGCCTGACGCAATCGGCGGTCAGTGCGCAAATCCGCGTGCTGGAGCAGGGCCTCGGCGTTCGCCTGTTCGACCGTAGCGGTCGGGCGGCTGTCCTCAACGCTGCCGGCCGGCACGCCCTGCCGCTGGCCGAGCAGATGCTCTCCCTTTACGGGCAGATGGCGCTGCCCTCGGATGTGGCCGAGTGGCGCGGCGAGCTGAAGATCGGCGCCATCGCCACGTTGCAGACCGGGCTGCTGCCGGAGGCCTTGCCGCGCTTTCGCGAGAAGGCACCGCACATCGAGTTGAAGCTGGTGCCGGGCGTATCGCTCAACCTGCTGGGCCAGGTGGATGCCGGCGAGCTGGACCTCGCCCTGCTGATCAAGCCGCCCTTCGCACTGCCCAAGGAGCTGCTGGAAGTCTCGCTGGCCCGCGAGCCCTTCGTGCTCATCGCCCCGGAAAGCCTGCCCGGCGACGATCCCCTGCAACTGCTCGCCGAGCAGCCCTTCGTACGCTACGACCGCGCCTCCTTCGGCGGGCGGCTGGTCAACGGCTTTCTCCGCGAACAGCGCTTGCAGGTCCGCGAGGCGCTGGAGCTGGACGAACTGGAGGCCATCGTGCGGATGGTCGAGTGCGGCCTGGGAGTCTCCCTGATTCCGCGTGCGGGGCTCTGGCTGCAACGGCCGACCCGGCTGCGGGTGATCGAACTGGGCGAACTGACCTTCCACCGCGAACTGGTGGCGGTCATGCGCCGTGCCCAGCGGCAACCGGCGCTGGAGTGCCTGTTGGATTGCCTGCGAGGGGTCGCCTCTGTGTAA	MLRELKTFVTVARLGTFAAAGQRIGLTQSAVSAQIRVLEQGLGVRLFDRSGRAAVLNAAGRHALPLAEQMLSLYGQMALPSDVAEWRGELKIGAIATLQTGLLPEALPRFREKAPHIELKLVPGVSLNLLGQVDAGELDLALLIKPPFALPKELLEVSLAREPFVLIAPESLPGDDPLQLLAEQPFVRYDRASFGGRLVNGFLREQRLQVREALELDELEAIVRMVECGLGVSLIPRAGLWLQRPTRLRVIELGELTFHRELVAVMRRAQRQPALECLLDCLRGVASV				NA	NA	NA	NA	NA
BMS010_05193	426			hypothetical protein	ATGAGCCTTGCCCCCTTTCATTTGGCGATACCCGTCTACGACCTGGCCGCCGCCCGGCATTTCTACGGCGAAGTCTTCGGCTGCCCCGAAGGCCGCAGCAGCGAGCATTGGGTGGATTTCGACTTCTTCGGCCATCAACTGGTGATCCACGAGGCGCCGAAGACCGATTCCCAGGAGCAGGCCCACAGCAACCCGGTGGACGGTCACGACGTACCGGTGCCGCATTTCGGCGTGGTGCTGGCCTGGGAGGACTGGGAACGCCTGGCCGAACGGCTCAAGGCGCGCGGCACGACGTTCGTCATCGAACCTTACGTGCGCTTCAAGGGGCAGGTGGGCGAGCAAGCCACCCTGTTCCTCCTCGACCCCTGCGGCAACGCGCTGGAGTTCAAGGCGTTCAAGGACATCGGCCAGTTGTTCGCGAAGTGA	MSLAPFHLAIPVYDLAAARHFYGEVFGCPEGRSSEHWVDFDFFGHQLVIHEAPKTDSQEQAHSNPVDGHDVPVPHFGVVLAWEDWERLAERLKARGTTFVIEPYVRFKGQVGEQATLFLLDPCGNALEFKAFKDIGQLFAK				NA	NA	NA	NA	NA
BMS010_05194	636			hypothetical protein	ATGACCCGAGTCCAGAAAACCGTCTTCATCCTCGTTGCCCTGATCGCCCTGGTGATCGGCCTGACCTTCTCCAAGGTGCTCAACGCGCCGCGCCAGGCCGATCCGACCCAACTGCTCGACGCCGGTATCGTGCTGCTGCCGCAGAGCCGGACGCTCCCCGAACTGCAACTGACCGACCAGGATGGTCAGCCGATGCGGATGGATCAGTTGAAGGATCGCTGGAGCCTGCTGTTCTTCGGCTACACCTTCTGCCCGGACGTCTGCCCCACGACTTTGGCGCAGCTGCGGCAGATCAAGGGCATGCTGCCGGAAGCGATGCGCGGCGACCTGCGCATGGTGCTGGTCAGCGTTGACCCCAACCGCGACACCCCCGAGCAGCTCAAGCAGTACCTGGGCTATTTCGACGCCGGCTTCGAGGGCGTGACGGGCGATCTCGCGGATATCCAGAAACTGGCCAATGCGGTGAGCATTCCCTTCATTCCGGGCGATACCAGCAAGGAAAACTACACCGTCGATCACAGCGGCAACCTGGTGATCATCGGCCCCGACGGCACCCAACGCGGCTTTATCCGCGCCCCGCTGAACGGCCAGAAGCTCGCCACGCAATTGCCGGAGTTGATGAAACCGCGGGGTTGA	MTRVQKTVFILVALIALVIGLTFSKVLNAPRQADPTQLLDAGIVLLPQSRTLPELQLTDQDGQPMRMDQLKDRWSLLFFGYTFCPDVCPTTLAQLRQIKGMLPEAMRGDLRMVLVSVDPNRDTPEQLKQYLGYFDAGFEGVTGDLADIQKLANAVSIPFIPGDTSKENYTVDHSGNLVIIGPDGTQRGFIRAPLNGQKLATQLPELMKPRG				NA	NA	NA	NA	NA
BMS010_05195	900	ctaB_2	COG0109	Protoheme IX farnesyltransferase	ATGACGACCCTGCTGCGCGAACGAAGTGCCCACGCGAGTTGGCGCGACTACCTGGAGCTGACCAAGCCGAAGGTGGTGGTGCTGATGCTGATCACCTCGCTGGTCGGCATGTTCCTCGCCACCCGTGCCGGCGTGCCCTGGACCGTGTTGCTGTTCGGCAACCTCGGCATCGGCCTCTGTGCCGGGGCGGCGGCGGCGGTCAATCATGTGGTGGACCGGCGCATCGACTCGATCATGGCGCGTACCCACAAGCGGCCGCTGGCCGAGGGGCGCGTGTCGCCGGCTGCGGCCCTGGGCTTCGCCCTGCTGCTGGCGGTGCTGGGCATGTCCCTGCTGCTGGTGTTCACCAACGAGCTGGCGGCCTGGCTGACCCTGGCCTCGCTGCTCGGCTACGCGGTGGTCTACACCGGCTTCCTCAAGCGCGCCACGCCGCAGAACATCGTCATCGGCGGCCTGGCCGGCGCCGCGCCGCCGCTGCTCGGCTGGGTCGCCGTCACCGGCTATCTGTCCGCCGAACCGCTGCTGCTGGTGCTGATCATCTTCGCCTGGACGCCGCCGCACTTCTGGGCCCTGGCCATCCACCGCAAGGCGGAGTACGCCAAGGCGGATATCCCCATGCTGCCGGTCACCCACGGCGAGGGCTACACCAAGCTGCACATCCTGCTCTACACCCTGGTGCTGCTGGCGGTGAGCCTGCTGCCCTACGCCATCCACATGAGCGGGCCGCTCTACCTCGCCGGTGCGCTGCTGCTCGGCGGGCGCTTCCTGCACTGGGCCTGGGTGCTGTACCGTGACGCCCGGCCGCACGCTGCGATCAACACCTTCAAGTACAGTATCTGGTACCTGTTCCTGCTGTTCATCGCGCTGCTCGTCGATCACTACCTGTTGTTGGCCCTATGA	MTTLLRERSAHASWRDYLELTKPKVVVLMLITSLVGMFLATRAGVPWTVLLFGNLGIGLCAGAAAAVNHVVDRRIDSIMARTHKRPLAEGRVSPAAALGFALLLAVLGMSLLLVFTNELAAWLTLASLLGYAVVYTGFLKRATPQNIVIGGLAGAAPPLLGWVAVTGYLSAEPLLLVLIIFAWTPPHFWALAIHRKAEYAKADIPMLPVTHGEGYTKLHILLYTLVLLAVSLLPYAIHMSGPLYLAGALLLGGRFLHWAWVLYRDARPHAAINTFKYSIWYLFLLFIALLVDHYLLLAL	PGPT0008520_3105	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008520-ctaB|cyoE-K02257	NA	NA
BMS010_05196	1083	ctaA_2		Heme A synthase	ATGGATAGAGCCCTGCGCAGAGCCGGTTATCGTCTGGCAATCGTCGCCACCCTGCTGGCGCTGGTGGTGGTGCTGCTCGGCGCCTACACCCGCCTGACCCACGCCGGCCTCGGTTGCCCGGACTGGCCGGGCTGCTACGGCTTCATCGGCGTGCCCAAGACCGAGGCGCAACTGGCCCACGCCGAGCGCCACTTCCCCGACGCGCCGGTGGAGGCGGAGAAGGGCTGGAACGAGATGGTCCACCGCTACTTCGCCGGCACTCTCGGCCTGCTGATCCTCGTCCTGGCGATCCGTTCGCTGCGCCGCCGTGGCCGCGACGGGCAGCCGCTGAAGCTGCCCTTGCTGCTGCTCGGCGTGGTGATCACCCAGGCGGCGTTCGGCATGTGGACGGTGACCCTCAAGCTCTGGCCGCAGGTGGTAACCGCGCACTTGCTCGGCGGTTTCACCACCCTGGCGTTGTTGTTCCTGCTCTGCCTGCGGTTGTCGCGGGAATTCCCCGTCCTGCCCGGGGTGCCCCGGCGGCTGCGTGCCCTGGCGGCGCTCGCCCTGCTGCTGGTGATCGGCCAGATCGCCCTGGGCGGCTGGGTCAGCAGCAACTACGCGGCGGTGGCCTGCATCGACCTGCCCACCTGCCACGGCGAATGGTGGCCGGCGATGGACTTCGCCAACGGCTTCCACCTGACCCAGCACATCGGCCCCAACTACCTCGGCGGACAACTCGACAGCGATGCCCGCACCGCCATTCACATGACCCACCGTCTCGGCGCCCTGACCGTCACCCTGGTGCTGCTGGCGCTGGCCTGGCAACTGCGTCGCCACGGCCTGTCGCGGCTGGCCGGCCTGTTGCTGCTGGCGCTGGCCGTGCAGGTCGGGTTGGGCATCAGCAACGTGCTGTTCCATCTGCCGCTGGGGGTGGCAGTCGCCCACAACGGCGGCGGGGCTCTCCTGCTGCTGGTGATGGTGGCGGTCAATTACCGGCTGCGTTCCGTTCCGCAGCCCGCCCGTCAGCCGGAGCGGCAAGCCTGGGTGTCGCTGCAACCGACCCCCACTCCGAGATCACTCGCCATAAGGAGATCATCATGA	MDRALRRAGYRLAIVATLLALVVVLLGAYTRLTHAGLGCPDWPGCYGFIGVPKTEAQLAHAERHFPDAPVEAEKGWNEMVHRYFAGTLGLLILVLAIRSLRRRGRDGQPLKLPLLLLGVVITQAAFGMWTVTLKLWPQVVTAHLLGGFTTLALLFLLCLRLSREFPVLPGVPRRLRALAALALLLVIGQIALGGWVSSNYAAVACIDLPTCHGEWWPAMDFANGFHLTQHIGPNYLGGQLDSDARTAIHMTHRLGALTVTLVLLALAWQLRRHGLSRLAGLLLLALAVQVGLGISNVLFHLPLGVAVAHNGGGALLLLVMVAVNYRLRSVPQPARQPERQAWVSLQPTPTPRSLAIRRSS	PGPT0008525_1542	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008525-ctaA-K02259	NA	NA
BMS010_05197	579			hypothetical protein	ATGAATCCAGCCATCGCCCTGCCTGAAGCCCCGGCACGTCGCCGACGTGGCCGCTGGCAGCTGATCCTGCTGATCGCCGTGGCGGTCGGCCCCATGCTGCTGGCCTCGGGCATGTACCACTGGCGTTTCTGGGTGCCGGACGGGCGCAGCTACCACGGCGAGCTGATCGGCAACGGCCTCGGTCGCACCGACATCGGCGTGACGGCCGACGAGCACCTCTGGCAGTTGTTGGTCACCGCACCGCAGGACTGCGCCCAGGAGTGCCAACAACTGGTCTACCTGGCCCGGCAGATTCATATCGGCCTCGGCCGCGAGGCGTCGCGTGCCGGCCATGCGTTGGCCAACGCCCGGCCGCTGGACGATGACTTCGCTACCCGCCTCGAACGCGAATACCCGCAACTGCAACGCTATGGCCTGGATGCCGACGCCTATGCCCGTGGCACCCACGACCTCGGCGGCGCGCAGCTGTGGATCGTCGACCCGCACGGCAACTTGGTGCTGCGCTATGACGCCAAGGCGAACGGCAAGCAAATCCTCAACGACCTTCGCCATCTGCTGAAACTGTCGAAGATCGGCTGA	MNPAIALPEAPARRRRGRWQLILLIAVAVGPMLLASGMYHWRFWVPDGRSYHGELIGNGLGRTDIGVTADEHLWQLLVTAPQDCAQECQQLVYLARQIHIGLGREASRAGHALANARPLDDDFATRLEREYPQLQRYGLDADAYARGTHDLGGAQLWIVDPHGNLVLRYDAKANGKQILNDLRHLLKLSKIG				NA	NA	NA	NA	NA
BMS010_05198	732			hypothetical protein	ATGAGCCGCTTCCGGCCCGGACTGGCGCCGACCCTGGTGGTGCTGGCGCTGTTGCCGCTGCTTGTCTGGCTGGGGTTCTGGCAGTTGCAGCGGGCGGACGAGAAACGCGCCCTGCTCGCCGCCCAGGCCGCGCGCCTGCAAGCCGCGCCGGTGGCGGTCGGCGAGCTGGAGCGCAGCCGCGACCCGGCGTTCCTGCGGGTGCGCCTGGAGGGTTTCTTCGACGACCACCACCGCCTGATCCTCGACAACCGCAGCCGTGACGGCCAGGTCGGCGTCGAGCTGCTGCAACCCTTCTACGACCAGCCGAGCGGGCTCTGGCTGCTGGTCAACCGGGGCTGGCTGCCCTGGCCGGACCGGCGCCAGCCGCCGCGCTTCGACACCCCGGAACAACCCCTGGCGCTGACCGCCTGGGTCTACGTGCCAGCCGGCAAACCCTTCCAGTTGCGCGCCGATGCCGCGTCCGACGGTTGGCCGCGACTGGTCACGGCGGTCGAGCCGGCGGTGCTCTGGCAGCGTCTCGGGCGTGGCGGCCTGCCCTACGAAATCCGTCTCGAACCGGGCCCGGCGGCCTACCGGGCAGAGTGGCCGGTGGTCGCCATGGGCCCGGAAAAACACCTCGGCTATGCCGTGCAGTGGTTCGCCCTGGCGGCTGCCCTGCTCGGCTTGTTCGTTTACCTCGGACTGCACAATGCGCGGGAGAAAAAAGATGAATCCAGCCATCGCCCTGCCTGA	MSRFRPGLAPTLVVLALLPLLVWLGFWQLQRADEKRALLAAQAARLQAAPVAVGELERSRDPAFLRVRLEGFFDDHHRLILDNRSRDGQVGVELLQPFYDQPSGLWLLVNRGWLPWPDRRQPPRFDTPEQPLALTAWVYVPAGKPFQLRADAASDGWPRLVTAVEPAVLWQRLGRGGLPYEIRLEPGPAAYRAEWPVVAMGPEKHLGYAVQWFALAAALLGLFVYLGLHNAREKKDESSHRPA				NA	NA	NA	NA	NA
BMS010_05199	204			hypothetical protein	ATGCTCAAGGCCGCAATCGTCCTCTTGCTGCTCGCCACTGTGGTCAGTCTGTTCAGCGGCCTGTTCTTCCTGATCAAGGACGAGGGCCGCACCAACCGGCTGGTCAACGCCCTGTTCGTCCGCGTGACCCTGGCCGCCCTCACCCTGGCCCTGATCGCCTGGGGTTTCTACAGCGGCCAGCTCACGACTCATGCCACCTGGTAA	MLKAAIVLLLLATVVSLFSGLFFLIKDEGRTNRLVNALFVRVTLAALTLALIAWGFYSGQLTTHATW				NA	NA	NA	NA	NA
BMS010_05200	888	ctaE_2	COG1845	Cytochrome c oxidase subunit 3	ATGGCAACTCACGAGCAGTACTACGTTCCCGCCCAGAGCAAATGGCCGATCATCGCCACCATCGGGTTGGCGACCACCGTCTACGGCCTCGGCACCTGGTTCAACGACCTCAAGGCCGGGCGCGACGAATCCAACGGCCCGCTGATTTTCTTCATCGGCGGCCTGCTGGTCGCCTACATGCTGTTCGGCTGGTTCGGCAATGTCATCAAGGAAAGCCGCGCCGGGCTGTACAGCGCACAGATGGACCGCTCGTTCCGCTGGGGCATGAGCTGGTTCATCTTCTCCGAGGTGATGTTCTTCGCCGCCTTCTTCGGTGCGCTCTTCTATATCCGCTACTGGACCGGCCCCTGGCTGGGCGGCGAGGGCGACAAGGGCATCAGCAACATGCTCTGGCCGAATTTCGAGTACACCTGGCCGCTGTTGAACAACCCGGACCCGAAGCTGTTCCCGGCGCCGGAAGGCATCATCGATCCGTGGAAGCTGCCGCTGATCAACACCCTCCTGCTGGTGACCTCCAGCTTCACCGTGACCTTCGCCCACCATGCCCTGCGCAAGGGCGAGCGGCAGAAGCTCAAGCTCTGGCTGGCGGCAACCATCCTGCTGGGCGTGACCTTCCTGGTGCTGCAGGTCGAAGAGTACGTACATGCCTACACCGAACTCGGCCTGACCCTGGGCTCGGGCATCTACGGGGCGACCTTCTTCATGCTCACCGGCTTCCACGGCGCCCACGTGACCCTTGGCGCGCTGATCCTCACGGTGATGCTGGTCCGCATCCTGCGCGGGCACTTCACCCCCGAGCACCACTTCGGCTTCGAAGCCGCCAGCTGGTACTGGCACTTCGTAGACGTGGTGTGGATCGGGCTGTTCACCTTCGTCTATGTGCTTTAG	MATHEQYYVPAQSKWPIIATIGLATTVYGLGTWFNDLKAGRDESNGPLIFFIGGLLVAYMLFGWFGNVIKESRAGLYSAQMDRSFRWGMSWFIFSEVMFFAAFFGALFYIRYWTGPWLGGEGDKGISNMLWPNFEYTWPLLNNPDPKLFPAPEGIIDPWKLPLINTLLLVTSSFTVTFAHHALRKGERQKLKLWLAATILLGVTFLVLQVEEYVHAYTELGLTLGSGIYGATFFMLTGFHGAHVTLGALILTVMLVRILRGHFTPEHHFGFEAASWYWHFVDVVWIGLFTFVYVL	PGPT0004035_327	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004035-coxC|ctaE-K02276	NA	NA
BMS010_05201	549	ctaG_2	COG3175	Cytochrome c oxidase assembly protein CtaG	ATGAGCGAAGCCCTGAGCACCCGTCGCCTGGTCCAGCGCCTGTTGCTGGTGGTGGTGGCGATGTTCGCCTTCGGCTTTCTCCTGGTGCCGATCTACGACGTCATGTGCCAGGCCTTCGGTATCAACGGCAAGACCGCCGGGGCCTACCAGGGATCGCAGCAGGTGGACGAGGCGCGCCAGGTGCGCGTGCAGTTCCTCGCCACCAACTCGGCGGGCATGGTCTGGGAGTTCCGGCCGAAGGCCGAAGAGCTGACGGTGAAGCCGGGGGCCACCAACGAAATACTGTTCGTGGCCTACAACCCCACCGACAAGCCGATGACCGCCCAGGCCATTCCCAGCGTGTCGCCGTCCAAGGCGGCCGCCTATTTCCACAAGACCGAGTGCTTCTGCTTCACCCAGCAGGTGCTGCAACCGGGCGAGCGCATCGAGATGCCGGTGCGCTTCATCGTCGACCGCGACCTGCCCGCCGACGTTCGCCACCTTACCCTTGCCTACACGCTGTTCGACATCACTGCCCGCCAGCCGCCCGTTGCCCACAACGGCGGCTAA	MSEALSTRRLVQRLLLVVVAMFAFGFLLVPIYDVMCQAFGINGKTAGAYQGSQQVDEARQVRVQFLATNSAGMVWEFRPKAEELTVKPGATNEILFVAYNPTDKPMTAQAIPSVSPSKAAAYFHKTECFCFTQQVLQPGERIEMPVRFIVDRDLPADVRHLTLAYTLFDITARQPPVAHNGG				NA	NA	NA	NA	NA
BMS010_05202	1596	ctaD_2	COG0843	Cytochrome c oxidase subunit 1	ATGAGTGCAGTGATCGACACTGATACCGGTCATGCCGGGCATGACCACCACCACGGCCCGGCCAAGGGCCTGATGCGCTGGGTGCTGACCACCAACCACAAGGACATCGGCACGATGTACCTGTGGTTCAGCTTCTGCATGTTCCTGCTCGGCGGCAGCATGGCCATGGTCATCCGCGCCGAGCTGTTCCAGCCGGGGCTGCAGATCGTCCAGCCGGAATTCTTCAACCAGATGACCACCATGCACGGCCTGATCATGGTCTTCGGCGCGGTGATGCCGGCCTTCGTCGGCCTGGCCAACTGGATGATCCCGCTGATGGTCGGCGCGCCGGACATGGCCCTGCCGCGGATGAACAACTTCAGTTTCTGGCTGCTGCCGGCGGCCTTCACGCTGCTGGTCTCGACCCTGTTCACCGAGGGCGGCGGGCCGAACTTCGGCTGGACCTTCTATGCGCCGCTGTCCACCACCTACGCGCCGGAAAGCGTCACCTTCTTCATCTTCGCCATCCACCTGATGGGCATCAGCTCGATCATGGGCGCGATCAACGTGATCGCCACCATCCTCAACCTGCGCGCCCCCGGCATGACCCTGATGAAGATGCCGCTGTTCGTCTGGACCTGGCTGATCACCGCCTTCCTGCTGATCGCGGTGATGCCGGTGCTGGCTGGCGTGGTGACCATGATGCTGATGGACATCCACTTCGGCACCAGCTTCTTCAATGCCGCCGGCGGTGGCGACCCGGTGCTGTTCCAGCACGTGTTCTGGTTCTTCGGCCACCCCGAGGTATACATCATGATCCTGCCCGCCTTCGGCGCGGTCAGCTCGATCATCCCGGCGTTCTCGCGCAAGCCGCTGTTCGGCTACACCTCGATGGTCTATGCCACCGCGGCGATCGCCTTCCTCTCGTTCATCGTCTGGGCGCACCACATGTTCACCGTGGGCATCCCGCTCACCGGCGAGCTGTTCTTCATGTACGCCACCATGCTGATCGCCGTGCCCACCGGGGTGAAGGTGTTCAACTGGGTAAGCACCATGTGGCAGGGCTCGCTGACCTTCGAGGCGCCGATGCTGTTCGCCGTGGCCTTCGTCATCCTGTTCACCATCGGCGGTTTCTCCGGGCTGATGCTGGCAATCGCCCCGGCGGACTTCCAGTATCACGACACCTACTTCGTGGTGGCGCACTTCCACTACGTGCTGGTGCCGGGGGCGATCTTCGGTATCTTCGCTTCCGCGTATTACTGGCTGCCCAAGTGGACCGGGCACATGTACGACGAGACCTTGGGCAAGCTGCACTTCTGGCTGTCCTTCATCGGCATGAACATGGCCTTCTTCCCGATGCACTTCGTCGGTCTGGCCGGCATGCCGCGACGTATCCCCGACTACAACCTGCAGTTCGCCGACTTCAACATGGTCTCGTCCATCGGTGCCTTCACCTTCGGCGCGACCCAGTTCCTCTTCCTGTTCATCGTCATCAAGTGCATCCGTGGCGGCAAACCCGCCCCGGCCAAGCCCTGGGACGGCGCGGACGGGCTGGAGTGGACCGTGCCGTCGCCGGCGCCCTACCACACCTTCAGCACCCCGCCGGAAGTGAAGTGA	MSAVIDTDTGHAGHDHHHGPAKGLMRWVLTTNHKDIGTMYLWFSFCMFLLGGSMAMVIRAELFQPGLQIVQPEFFNQMTTMHGLIMVFGAVMPAFVGLANWMIPLMVGAPDMALPRMNNFSFWLLPAAFTLLVSTLFTEGGGPNFGWTFYAPLSTTYAPESVTFFIFAIHLMGISSIMGAINVIATILNLRAPGMTLMKMPLFVWTWLITAFLLIAVMPVLAGVVTMMLMDIHFGTSFFNAAGGGDPVLFQHVFWFFGHPEVYIMILPAFGAVSSIIPAFSRKPLFGYTSMVYATAAIAFLSFIVWAHHMFTVGIPLTGELFFMYATMLIAVPTGVKVFNWVSTMWQGSLTFEAPMLFAVAFVILFTIGGFSGLMLAIAPADFQYHDTYFVVAHFHYVLVPGAIFGIFASAYYWLPKWTGHMYDETLGKLHFWLSFIGMNMAFFPMHFVGLAGMPRRIPDYNLQFADFNMVSSIGAFTFGATQFLFLFIVIKCIRGGKPAPAKPWDGADGLEWTVPSPAPYHTFSTPPEVK	PGPT0004025_3924	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004025-foxA|coxA|ctaD-K02274	NA	NA
BMS010_05203	1101			hypothetical protein	ATGGGACTCCTGCTGTGGTCGATTTTCAGCCAGGCGCAGGCTGCCTGGACTGTAAACATGTCTCCGGGGGCGACTGAGGTCAGCCGCTCCGTCTTCGATCTGCACATGACCATTTTCTGGATCTGCGTCGTCATTGGCGTCTTGGTCTTCGGGGCCATGTTCTGGTCGATGATCATCCACCGCCGCTCCACCGGCCAGGAGCCCGCCCACTTCCACGAGAACACTCGCGTCGAGGTGCTCTGGACGGTGATCCCGCTGCTGATCCTGATCGGCATGGCCGTGCCCGCGACCCGGACGCTGATCCACATCTACGACCCGTCCGAATCCGAACTGGACGTGCTGGTCACCGGCTACCAGTGGAAGTGGCACTACAAGTACCTGAACCAGGACGTCGAGTTCTTCAGCAACCTGGCTACCCCGCGCGAGCAGATCAGCAACCAGGTCGACAAGGACGAGCACTACCTGCTGGAGGTGGACCAGCCGCTGGTCCTGCCGGCCGGCGCCAAGGTGCGCTTCCTGGTCACCGCCGCCGACGTGATCCACTCCTGGTGGGTGCCGGCCCTGGCGGTGAAGAAGGACGCCATCCCCGGCTTCGTCAACGAGTCCTGGACCCGCGTCGACCAGCCCGGTCTCTACCGCGGCCAGTGCACCGAGCTGTGCGGCAAGGATCACGGCTTCATGCCCATCGTGGTGGAGGTGAAGTCGAAGGAAGACTTTGACGCCTGGATGGGCGAGCGCAAGGCCGAAGCGGCCAAGCTGAAGGAGCTGACCAGCAAGGAGTGGACGATGGAAGAGCTGGTCGAGCGCGGCGAGAAGGCCTACCTGACCAACTGCGCCTCCTGCCACCAGCCCACCGGCGAGGGTCTGCCACCGATGTTCCCGGCCCTGAAAGGATCGGCCATTGCCACCGGGCCGAAAGAAGGTCACATGAATATCGTGATCAACGGCAAGCCGGGCACCGCCATGGCCGCGTTCGGCAAGCAACTGTCGGAAGTCGACATCGCCGCGATCGTCACCTACGAGCGTAATGCCTGGGGTAACAAGGTCGGCGACATGGTCACACCGAAAGACGTGCTGACCTTCAAACAGGCCCAGGAATAG	MGLLLWSIFSQAQAAWTVNMSPGATEVSRSVFDLHMTIFWICVVIGVLVFGAMFWSMIIHRRSTGQEPAHFHENTRVEVLWTVIPLLILIGMAVPATRTLIHIYDPSESELDVLVTGYQWKWHYKYLNQDVEFFSNLATPREQISNQVDKDEHYLLEVDQPLVLPAGAKVRFLVTAADVIHSWWVPALAVKKDAIPGFVNESWTRVDQPGLYRGQCTELCGKDHGFMPIVVEVKSKEDFDAWMGERKAEAAKLKELTSKEWTMEELVERGEKAYLTNCASCHQPTGEGLPPMFPALKGSAIATGPKEGHMNIVINGKPGTAMAAFGKQLSEVDIAAIVTYERNAWGNKVGDMVTPKDVLTFKQAQE	PGPT0004030_807	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004030-foxB|coxB|ctaC-K02275	NA	NA
BMS010_05204	657			hypothetical protein	ATGAACACCGCCGCCTTGCGCGAGCTCATCCGCAACGCCCAGCAGCAGGAAACCGCCAGCGGCCAGCTCGCCGGCCAACTGGACGCCCAACTGGCCCACCTGCATCCGTCGATCCGCCTGCCGAGCAACGGTGCGCGGGACCTGCTGGGGCGCTTCGTCTCGGCCTACATCGACCAGGTGCCGGACGTGCTCGACGCCGCCAACAGCGTCGCCCGCGAAGCCGGCATCGAGGCGCAGATCAGGCCGGTGCTGAAGATCGCCGAGCAGTTCTTCCTGCAACCCCCGGCGGCGGTGACGGAGCACCCGGGCCTGGCCGGGCTGCTCGACGAGGCCTACCTGGCCCACCGCCTGGTGGAAGAAGTGAACGACCGCTACATCGCCCACCTCGGTCAGCCGCTGATCCCGCTGGATACCACCGTGGCCAACCTGATCGCCCATCAGTTGATCGGCGAGCCCTTCGCCAACCAACTGGACGAAGCGGTGCACCACGCCGTGGACGGCTTGCTCGACGAAACCACCTTCGCCCAGGCGTCGGTACAGGCCTACCGCGAACGGCTGGCCAGCCCGCAGACGGAAAGCGCCTGGAAGCGCTGGCCCTGCCTGTCGCGCCAGCTCGGCCTGGAGCTGGACCTGAACGAGGTGCAACGGGCGAGCTGA	MNTAALRELIRNAQQQETASGQLAGQLDAQLAHLHPSIRLPSNGARDLLGRFVSAYIDQVPDVLDAANSVAREAGIEAQIRPVLKIAEQFFLQPPAAVTEHPGLAGLLDEAYLAHRLVEEVNDRYIAHLGQPLIPLDTTVANLIAHQLIGEPFANQLDEAVHHAVDGLLDETTFAQASVQAYRERLASPQTESAWKRWPCLSRQLGLELDLNEVQRAS				NA	NA	NA	NA	NA
BMS010_05205	258			hypothetical protein	GTGGAGACCTTTCTCGACCTGCTGCAATGGCCGGCCATGCTGGCCACGGTGATCGCCGCCTGGCTGATCGGCTCGCTGAACAAGCGTCGGCGTACCTGGGGCTTCTGGTGTTTCCTGCTGAGCAATGTGCTCTGGGTGATCTGGGGCTGGTACGCCTCGGCCTGGGCGTTGATCGCCCTGCAGGTTTGCCTGGCCGTGCTGAACATCCGGGGCGTCAGGAAGAACGATCCGGACCAGGCGCGGCTGGCGGAGTCCTGA	METFLDLLQWPAMLATVIAAWLIGSLNKRRRTWGFWCFLLSNVLWVIWGWYASAWALIALQVCLAVLNIRGVRKNDPDQARLAES				NA	NA	NA	NA	NA
BMS010_05206	1530			hypothetical protein	ATGTCTGTCGAAACCCTGAAATCCACGCTGCCACGGGACGCCCTGGCGTCCGTGGTGGTCTTTCTCGTGGCCCTGCCGCTGTGCATGGGCATCGCCATCGCCTCGGGCCTGCCGCCGGCCAAGGGGTTGGTCACCGGTATCGTCGGCGGTCTGGTGGTCGGCTTCCTGGCCGGCGCGCCGTTGCAGGTCAGTGGGCCGGCCGCCGGCCTTACCGTGCTGGTCTTCGAGTTGGTGCAGCAATACGGCGCCGCCATGCTCGGGCCGATCCTCCTGCTCGCCGGTGCGATCCAGTTGCTGGCCGGGCGATTGCGCCTCGGCTGCTGGTTCCGCGTCACCGCGCCGGCGGTGGTGTACGGCATGCTCGCCGGCATCGGCGTGCTGATCGTGCTGTCTCAGCTCCACGTGATGCTGGATGCGTCTCCCCAGGCTTCCGGCCTGGACAATCTGCAGGCGTTCCCCGCCGCCCTGCGCGAGGCGTTGCCGCTGATCGGTGCGGGGGACGGGTTCGCCGCCGGGTTGTTGGGCCTGCTGACCATAGGCCTGATGGCGCTGTGGGATCGCTTCCGTCCCGGTCGCCTGCGCCTGTTGCCGGGCGCGCTGCTCGGGGTGGCGGCAGCGACCCTGGTCGGCCTGTGGATGGGGCTCGATGTGCGCCGGGTCGAGGTGCCGGCCAACCTCGGCGAGGCCATCGACTGGTTGCGGCCTGGCGACCTGCTGAGCCTGGCCGAGCCGGGCATTCTCATCGCCGCGTTGGCGGTGGCTTTCATCGCCAGCGCCGAGACGCTGTTGTCCGCCGCCGCGGTGGATCGCATGCACCAGGGGCCGCGTGCGGACTTCGACCGCGAGCTGTCTGCCCAGGGTATCGGCAACATGCTCTGCGGCCTGCTCGGCGCCTTGCCGATGACCGGGGTGATCGTGCGCAGTTCGGCGAACGTCCAGGCCGGCGCCCGTACCCGGCTGTCCGCGATGCTCCATGCGGTCTGGCTGCTGGCCTCGGTGGTGCTGCTCGCCGGATTGCTGGAGCAGATTCCGGTGGCGGCCCTGGCGGCGGTGCTGGTCTATACCGGGATCAAGCTGGTCGATCTCAAGGCGCTGCGCTACCTCGGGCGCTATGGCCGCATGGCGATGTTCATCTACGCCGCCACGGCCCTGGCGATCGTTTCCACCGACCTGCTCACCGGTGTGTTGATCGGCTTCGCCCTGACCCTGGCCCAGCTCGCCTGGCGCGCGTCGCGGCTGAAGATCAACCTGATCCAGGAAGAAGGCAGCCGCCATGCGGAACTGCGCATGATCGGCGCGGCGACCTTCCTCAAGGTGCCGCAACTGGCCAAGGCGCTGGCATCGGTGCAGCCGGACTGCCACCTGCACGTGCCGCTGGATCGTCTGAGCTACATCGATCATGCCTGCATGGAGCTGCTGGATGAGTGGCAGCGCGCCCATCGGGCCAGCGGGGCACGCCTGATCATCGAGCAGCATGCCCTGAAACGACGGCTGGAAGGCCGCCGCCGGCGCCTGGCCCTGGGCGCCTGA	MSVETLKSTLPRDALASVVVFLVALPLCMGIAIASGLPPAKGLVTGIVGGLVVGFLAGAPLQVSGPAAGLTVLVFELVQQYGAAMLGPILLLAGAIQLLAGRLRLGCWFRVTAPAVVYGMLAGIGVLIVLSQLHVMLDASPQASGLDNLQAFPAALREALPLIGAGDGFAAGLLGLLTIGLMALWDRFRPGRLRLLPGALLGVAAATLVGLWMGLDVRRVEVPANLGEAIDWLRPGDLLSLAEPGILIAALAVAFIASAETLLSAAAVDRMHQGPRADFDRELSAQGIGNMLCGLLGALPMTGVIVRSSANVQAGARTRLSAMLHAVWLLASVVLLAGLLEQIPVAALAAVLVYTGIKLVDLKALRYLGRYGRMAMFIYAATALAIVSTDLLTGVLIGFALTLAQLAWRASRLKINLIQEEGSRHAELRMIGAATFLKVPQLAKALASVQPDCHLHVPLDRLSYIDHACMELLDEWQRAHRASGARLIIEQHALKRRLEGRRRRLALGA	PGPT0002415_395	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002415-cynT|can-K01673	NA	NA
BMS010_05207	735	cynT_1	COG0288	Carbonic anhydrase 1	ATGAACGATCGCGAACCCACTCGACCCGAGCCCACCGGTGCATTGCCCCAGGCGGAAGGTGCGCAGGAGGCGCTGCAACACATCGTCGAAGGCTTCCAGCGTTTCCGGCATGAAGTCTTCCCCCAGCAGGAAGAGCTGTTCCGGAAACTGGCCAACGCCCAGCGGCCGCGCGCCATGTTCATCACCTGCGCGGACTCGCGCATCGTCCCCGAGCTGATCACCCAGAGTTCGCCGGGCGATCTGTTCGTCACCCGTAACGTCGGCAACGTCGTACCGCCCTACGGGCAGATGAACGGCGGCGTATCCACGGCCATCGAATATGCGGTGATGGCCCTGGGCGTTCATCACATCATCATCTGCGGCCATTCCGACTGCGGTGCCATGAAGGCAGTGATGGACCCGCAGACCCTCGAGCGCATGCCCACGGTCAAGGCCTGGCTGCGGCATTGCGAAGTGGCCAAGACGGTGGTGGCGGAGAACTGCCATTGCTGTGGCGGCCAGGAAACGCTGGAGGTGCTGACCGAAGAGAACGTCGTCGCCCAGCTCAACCACCTCTGTACCCATCCTTCGGTGGCCTCGCGCATCGCCAGCGGCCAGTTGTTCATCCACGGTTGGGTCTATTGCATCGAAACCAGCGAGATCAAAGCCTACGACGCCGAGCTCGGTGCCTTCCGCCCGCTCGATGGCGAAGGGCCGGTGCCCTTGGCGACACCCAGACCGCGCTACCAGCAGTGA	MNDREPTRPEPTGALPQAEGAQEALQHIVEGFQRFRHEVFPQQEELFRKLANAQRPRAMFITCADSRIVPELITQSSPGDLFVTRNVGNVVPPYGQMNGGVSTAIEYAVMALGVHHIIICGHSDCGAMKAVMDPQTLERMPTVKAWLRHCEVAKTVVAENCHCCGGQETLEVLTEENVVAQLNHLCTHPSVASRIASGQLFIHGWVYCIETSEIKAYDAELGAFRPLDGEGPVPLATPRPRYQQ	PGPT0002415_2082	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002415-cynT|can-K01673	NA	NA
BMS010_05208	1062			hypothetical protein	ATGTCCCATCCAACCCTTCCCCCGCGTGGCCGCGGTACGGCCAGCAATCCCCACAACCGTTTCGCCCCGACCCGCGCCGAAGCCTACGACGACGGCTGGTTCCAGGAAGTCCCGCCCTGCCGCGCCACCGAGGTGCGCAGCGAGACGGCGAAGACGGTGATCACCCGCAACAATTCGCCGGACGTGGGTTTCGACCGTTCGGTGAATCCTTATCGGGGCTGCGAACATGGCTGCATTTACTGCTTCGCGCGGCCCAGCCATGCGTACTGGGACATGTCGCCGGGGATCGATTTCGAGACCCGGCTGATCGCCAAGACCAATCTCGTCGCTTCCCTCGAACAGGAACTGAGCAAGCCGGGCTACGTGCCGCAGCCCATCGCCCTGGGCATCAACACCGACGCCTACCAGCCGATCGAACGGGAGCAACATCTGACCCGCGGCGCGCTGGAGGTGCTGCTGCGCTACCGCCATCCGGTGCACATCATCACCAAGAGTTCGCTGATCCTGCGCGACCTCGACCTGCTCAGCCAACTGGCCGAACAACGGCTGGTCAGCGTGGCGTTGAGCCTGACCACCCTGGACGACGAACTGAAACGCATCATGGAGCCCCGCACCGCCTCGCCGTCGGCCCGCCTGCGGACGCTACGCGTGCTGCATGAGAACGGTGTGCCGGTGAACGTGCTGTGCGCGCCGATCATCCCGATGATCAACGACATGGAGCTGGAGCGCCTGCTGGAGGCCGCGCGCGACACCGGCGCCCGTTCGGCCGGCTACGTGCTGATCCGCCTGCCTCATGAAATCGCCGAGCTGTTCGAGGAATGGCTGCGGGCGCATTTCCCCGACCGCGCCGAGCATGTGATGAGCCTGATCCGCCAGTGCCGGGGCGGCAAGAACTACGACAGTCGCTTCGGTACCCGCATGCGCGGCGAAGGCATTTATGCCGACCTGCTGGCGCAGCGTTTCCAGATCGCCATCCGCCGGCTCGGCCTCAATCGCCGCGACTACGGTCCCCTGGATTGCAGCCGCTTCGCCCCGCCGGGTGGGCAGATGTCCTTGTTGTGA	MSHPTLPPRGRGTASNPHNRFAPTRAEAYDDGWFQEVPPCRATEVRSETAKTVITRNNSPDVGFDRSVNPYRGCEHGCIYCFARPSHAYWDMSPGIDFETRLIAKTNLVASLEQELSKPGYVPQPIALGINTDAYQPIEREQHLTRGALEVLLRYRHPVHIITKSSLILRDLDLLSQLAEQRLVSVALSLTTLDDELKRIMEPRTASPSARLRTLRVLHENGVPVNVLCAPIIPMINDMELERLLEAARDTGARSAGYVLIRLPHEIAELFEEWLRAHFPDRAEHVMSLIRQCRGGKNYDSRFGTRMRGEGIYADLLAQRFQIAIRRLGLNRRDYGPLDCSRFAPPGGQMSLL				NA	NA	NA	NA	NA
BMS010_05209	282			hypothetical protein	ATGAGCGACGCGCCTTCCAAGGTGACTGCGAAACGCTTCATCGCCGGTGCCGTGTGCCCGGCGTGCAGCCAGATGGACACCATCAAGATGTGGGATGAGGACGGCGTGCCGCACCGCGAATGCGTCGCCTGTGGCTACGCCGACACGCTCAACGCCCAGGGCCAGTCGGTACCCAAGGAGCTGAGCACGCGGGTCAACAAGACCGCGCCCAAGCCGGCCAACCCGAAGGTGCAGCCGGTGCAGTTCTTCCCAAATCCGAAGCTGAAGAAGCCGAAGGAATAG	MSDAPSKVTAKRFIAGAVCPACSQMDTIKMWDEDGVPHRECVACGYADTLNAQGQSVPKELSTRVNKTAPKPANPKVQPVQFFPNPKLKKPKE				NA	NA	NA	NA	NA
BMS010_05210	2049	prlC	COG0339	Oligopeptidase A	GTGTCTGCGAACAACCCCTTGCTGCAGCCTTTCGACCTGCCACCCTATTCCGCCATCCTTCCGGAACACGTCGAGCCGGCCATCGATGCGATCCTTGCCGACAATCGCGCGGCCATCGCCGACCTGCTTTCCCGACAGTCTGGCACACCGAGCTGGGACGGGCTGGTGCTGGCCCTGGACGAACTGGGCGAGCGCCTCGGCCGCGCCTGGAGCCCGGTCAGCCACCTGAACGCGGTGCGCAACAGCCAGGACCTGCGCCAGGCGTATGAAGCCTGCCTGCCGAAGCTGTCCACCTACTGGACCGAACTGGGCCAGAATCGCACGTTGTTCGATGCCTACAAGGCGCTGGCCGAAAGCCCCGAGGCGAGCGCGTTCGACGTGGCGCAGAAGACCATCCTCGACCACGCCCTGCGCGACTTCCGGTTGTCCGGTATCGATCTGCCGGAAGCCGAGCAGAAGCGCTACGCCGAGATCCAGATGAAGCTGTCCGAGCTGTCCAGCCGCTTCTCCAACCAGTTGCTCGATGCGACCCAGGCCTGGACCAAGCAGGTGACCGATGAAGCCGCTCTGGCCGGGCTGACCGATTCGGCCAAGGCGCAGATGGCCGAGGCCGCCAAGGCGAAGAACCTCGACGGCTGGCTGATCACGCTGGAATTCCCCAGCTATTACGCGGTGATGACCTACGCCGACGACCGCGCCCTGCGCGAGGAAGTCTATGCGGCCTACTGCACCCGCGCTTCCGACCAGGGGCCGAACGCCGGCCAGTTCGACAACGGCCCGCTGATGGAGGAAATCCTCGGCCTGCGCCAGGAACTGGCCAAGCTGCTCGGCTACGCCAATTTCGCCGAACTGAGCCTGGCCACCAAGATGGCCGAGTCCAGCGAGCAAGTGTTGCACTTCCTTCGCGATCTGGCGGTACGCAGCAAGCCGTTCGCCGAGCAGGACCTGGCCGAGCTGAAGGCGTTCGCCGCCGAGCAGGGTTGCACCGACTTGAAGAGCTGGGACGTCGGCTATTACAGCGAGAAGCTGCGCCAGCAGCGCTACAGCATTTCCCAGGAAGCGCTGCGTGCCTACTTCCCCATCGACAAGGTGCTTTCCGGGCTGTTCGCCATCGTCGAGCGCCTGTATGGCATCCAGATCCAGGAGCTGTCCGGCTTCGACAGCTGGCACCCGGACGTGCGCCTGTTCGAGATCCGCGAGCATGGCCAGCACGTCGGCCGCTTCTTCTTCGACCTCTACGCCCGCGCCAACAAGCGCGGCGGCGCCTGGATGGACGGTGCCCGCGACAAGCGCCGCACCGCCCAGGGCGAGCTGGTCAGCCCGGTGGCCAATCTGGTGTGCAACTTCACCCCGCCGGTGGGTGGCAAGCCGGCGCTGCTCACCCACGACGAAGTGACCACCCTCTTCCACGAATTCGGCCACGGCCTGCACCACCTGCTGACCCGCATCGAGCATGCCGGCGCCTCCGGCATCAACGGTGTGGCCTGGGACGCGGTAGAACTGCCCAGCCAGTTCATGGAGAACTGGTGCTGGGAGCCGGAAGGCCTGGCGCTGATCTCCGGCCATTACGAAACCGGCGAGCCGCTGCCCCAGGACCTGCTGGACAAGATGCTGGCGGCGAAGAACTTCCAGTCCGGCCTGATGATGGTGCGCCAGTTGGAGTTCTCCTTGTTCGACTTCGAGCTGCACGCCACCCATGGCGACGGCCGCAGCGTGCTGGACGTGCTGGAAGGCATCCGCGACGAGGTGGCGGTGCTGCGTCCGCCGGCGTACAACCGTTTCGCCAACAGCTTCGCCCACATCTTCGCCGGCGGTTATGCGGCGGGTTACTACAGCTACAAGTGGGCCGAGGTGCTGTCCGCCGATGCCTTCTCGCGCTTCGAGGAAGAAGGCGTGTTCAACCCCGAGACCGGCCGGGCCTTCCGCGAGGCGATCCTGGCCCGTGGCGGCTCCCAGGAGCCGATGGTGCTGTTCGTCGACTTCCGCGGTCGTGAGCCGTCCATCGATGCCCTGTTGCGCCACCTCGGCCTGAGCCAGGAGGCGGCATGA	MSANNPLLQPFDLPPYSAILPEHVEPAIDAILADNRAAIADLLSRQSGTPSWDGLVLALDELGERLGRAWSPVSHLNAVRNSQDLRQAYEACLPKLSTYWTELGQNRTLFDAYKALAESPEASAFDVAQKTILDHALRDFRLSGIDLPEAEQKRYAEIQMKLSELSSRFSNQLLDATQAWTKQVTDEAALAGLTDSAKAQMAEAAKAKNLDGWLITLEFPSYYAVMTYADDRALREEVYAAYCTRASDQGPNAGQFDNGPLMEEILGLRQELAKLLGYANFAELSLATKMAESSEQVLHFLRDLAVRSKPFAEQDLAELKAFAAEQGCTDLKSWDVGYYSEKLRQQRYSISQEALRAYFPIDKVLSGLFAIVERLYGIQIQELSGFDSWHPDVRLFEIREHGQHVGRFFFDLYARANKRGGAWMDGARDKRRTAQGELVSPVANLVCNFTPPVGGKPALLTHDEVTTLFHEFGHGLHHLLTRIEHAGASGINGVAWDAVELPSQFMENWCWEPEGLALISGHYETGEPLPQDLLDKMLAAKNFQSGLMMVRQLEFSLFDFELHATHGDGRSVLDVLEGIRDEVAVLRPPAYNRFANSFAHIFAGGYAAGYYSYKWAEVLSADAFSRFEEEGVFNPETGRAFREAILARGGSQEPMVLFVDFRGREPSIDALLRHLGLSQEAA	PGPT0020985_1033	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020985-prlC-K01414	NA	NA
BMS010_05211	543	yrdA_1	COG0663	Protein YrdA	GTGTCGATTCGCACCTACCAGCACTTCACTCCGCAGCTCGGCGAGCGGGTCTTCGTGGACGCCTCCGCCGTGGTACTCGGCGACGTGGAGATCGGCGCCGACAGCTCCGTCTGGCCCCTGGCGGTAATCCGCGGCGACATGCACAGCATCCGCATCGGCGAACGCACCAGCGTGCAGGACGGCAGCGTGCTGCACATCACCCACGCCGGCCCCTTCAACCCCGGAGGCTACCCCCTCACCATCGGCGACGACGTGACCATCGGCCACAAGGTCATCCTTCACGGTTGCAGCATCGGCAGCCGCGTGTTGATCGGCATGGGCAGCATCGTCATGGACGGCGTGGTGATCGAAGACGAAGTCGTCCTCGGTGCCGGCAGCCTCGTCCCGCCGGGCAAGCGCCTGGAAAGCGGCTACCTCTACGTCGGCAGCCCCGCCAAACAGGCCCGCCCGCTCACCGACAAGGAACGCAGCTACTTCCGCTACAGCGCCGACAACTACGTACGGCTGAAGGACCAGCACTTGGTGGAGGGGTATCAGGGGTGA	MSIRTYQHFTPQLGERVFVDASAVVLGDVEIGADSSVWPLAVIRGDMHSIRIGERTSVQDGSVLHITHAGPFNPGGYPLTIGDDVTIGHKVILHGCSIGSRVLIGMGSIVMDGVVIEDEVVLGAGSLVPPGKRLESGYLYVGSPAKQARPLTDKERSYFRYSADNYVRLKDQHLVEGYQG	PGPT0002425_595	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002425-GAMMACA_like-K01726	NA	NA
BMS010_05212	741			hypothetical protein	ATGAGTACTGAACCCCGGCCTGCCGGTCATTTCATCAAGGTCGGCGGTTTGCGCGTCGAGGTGGTGCGCAAGGACATCAAGAACCTGCACCTGGGGGTTTATCCGCCGTCCGGTCGGGTGCGCGTGGCGGCTCCCTTGACGGTCGACGACGAGGCGGTGCGCCTGGCTGTGGTTGGCAAGCTGGGTTGGATCAAGCGGCAACGAGCCAGGTTCCAGGGCCAGCCCAGGCAATCGCAACGGCGCATGCTCAGCGGCGAGAGTCATTACTTCATGGGCCGGCGCTATCGCTTGCGGGTGATTGAGCAGGCTGTTTCACCGGGCATCGTTCTGCGTGGCAAGGCCGCCATGTTTCTGACCGCGCGTCCCGGTAGCAGCGTCGAGCAGCGTGAGCGGTTGTTGCTGGCCTTTTACCGTCAGCAGTTGAAGAGCCTGGTTCCCGAACTGCTGCAGAAATGGCAGCCGGTCATCGGCGTGCAGGTGGCTGCCTGGGGCATCAAGCGGATGAAGACCAAGTGGGGGACCTGCAACATCGAGGCCCGGCGCATCTGGTTGAATCTGGAGCTGGCGAAGAAGCCGGTGCAGTGTCTGGAATACATCCTGGTCCATGAGTTGGTGCACCTGCTCGAGCGCCGGCATAACGAACGTTTTCGTAGCCTGATGGACCAATTCATGCCGCAATGGCGGGTCCATCGAGACGAACTCAAGGATTCGATGCTGGCCCAGGAACACTGGACTTACTGA	MSTEPRPAGHFIKVGGLRVEVVRKDIKNLHLGVYPPSGRVRVAAPLTVDDEAVRLAVVGKLGWIKRQRARFQGQPRQSQRRMLSGESHYFMGRRYRLRVIEQAVSPGIVLRGKAAMFLTARPGSSVEQRERLLLAFYRQQLKSLVPELLQKWQPVIGVQVAAWGIKRMKTKWGTCNIEARRIWLNLELAKKPVQCLEYILVHELVHLLERRHNERFRSLMDQFMPQWRVHRDELKDSMLAQEHWTY	PGPT0027180_1205	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_I_R-M_SYSTEM,PGPT0027180-hsdM-K03427	NA	NA
BMS010_05213	3141			hypothetical protein	ATGAGCGCAATCGGCCAGATCGAAAGGAAAACCCAGGCACGCCTGGTCGAGTTGCTCCAGAAGACCCTGCACTACGACTACCTGGGCGACTGGAGCAAGCGCGAGGACAACCGCAATATCGAGCCGGCCTTGCTGCGCGATTGGCTGAGTGGGCGCGGCGTCGAGCAGCCGCTGATCACCCGCGCCCTGTTCGAGCTGGAAAAGCTTGCCGGCGATGCCAGCAAGAGCCTGTACGAGCGCAATAAGGCGGTCTATGAGCTGTTGCGCTACGGCGTCAAGGTCAAGCCGGAGCTGGGCGAGAACACCCGGACGGTCTGGCTGATCGACTGGAAAGAGCCGCAGAACAACCACTTCGCCCTCGCCGAGGAGGTGACGGTCAAGGGCAGCAGCGCCAAGGCCAGCACCAAGCGCCCGGACATCGTGCTGTATGTCAACGGCATCGCCCTCGGGGTGTTGGAACTCAAGCGCTCGATCACCTCCGTCAGCCAGGGCATTCGGCAGAATCTGGACAACCAGAAGGCCGAGTTCATTCAGCCGTTCTTCTCCACCCTGCAGTTGGTCATGGCCGGCAACGATAGCCAGGGGCTGCGCTACGGCACCATCGAAACCGGCGAGAAATATTACCTGACCTGGAAGGAAGACAGCCCGGTGGAAAGCCTGTTGGATCGCCATGTCCAGCAGCTCTGCAGCAAGCCGCGCCTGCTGGAGCTGATCCATGACTTCACGGTGTTCGACAGCGGCATCAAGAAGCTCTGCCGGCACAACCAATACTTCGGCGTGCGTGCCGCCCAAGACTTCATCCGCCGCCGCGAGGGCGGGATCATCTGGCACACCCAGGGTTCGGGCAAAAGCCTGACCATGGTCTGGCTGACCAAATGGATTCGCGAAAACGTGCCGGATGCGCGGGTACTGATCATCACCGACCGAACCGAGCTGGACGAGCAGATCGAGAAAGTGTTTTCCGGCGTCAACGAAGCCATCTATCGCTGCAAGAGCGGTGCGGACCTGATCGCCAAGCTGAACGCCAACACGCCCTGGCTGCTCTGCTCGCTGATCCACAAGTTCGGCGGCAAGGCCGATGCCGAAGCCGATGTGGAAGGCTTCGTCGCCGAGCTGGCCCAGTCGCTACCCTCGGATTTCAAGGCCAAGGGCGATCTCTACGTGTTCGTCGACGAGTGCCACCGCACCCAGTCCGGCGAGCTGCACAAGGCGATGACCGCCATCCTGCCCAATGCCCTGCTGATCGGCTTCACCGGCACGCCGCTGCTCAAGGCCGACAAGCAGAAGAGCATCGAGGTGTTCGGCCGCTACATCCACACCTACAAGTTCGACGAGGCAGTGAAGGACGGCGTGGTGCTGGACCTGCGCTACGAGGCGCGGGACATCGACCAGAGCCTGACCTCGCCGAAGAAGATCGACGAGTGGTTCGAGGTCAACACCAAGGGCCTGAACGATCTGGCCAAGGCCCAGTTGAAGGCGCGCTGGGGCACCCTGCAGAAGGTGCTGTCGAGTCGGGACCGGCTGGCGAAGATCGTCGCCGACATCTGGCTGGACATGAAGAAGCGGCCACGGCTGATGGACGGACACGGCAACGCCATGCTGGTGACCAGCAGCATCTTCGAGGCGTGCAAGTGCTACGAGATGTTCATGGACACCGACCTGGCCGGCAAATGCGCCATCGTCACCAGCTACAAGCCCGCCCCCGGCGACATCAAGGGAGAGGAAACCGGCGAGGGCAAGACCGAGAAAATCCGCCAGTACGACATCTACCGCAAGATGCTGGCCCGCTGGTTCGACGAGCCGGAGGAGCAGGCGATGAAGCGGGTGGAGGAGTTCGAAAAGGAGGTGAAGCGCACCTTCATCGAGGAGCCGGGGCAGATGCGCCTCCTGATCGTGGTGGACAAGCTGCTGACCGGTTTCGATGCGCCTTCGGCCACCTACCTCTACATCGACAAGCAAATGCACGACCACGGCCTGTTCCAGGCCATCTGCCGAGTCAATCGGCTGGATGGCGAGGACAAGGAGTACGGCTACATCATCGATTACAAGGACCTCTTCAAGTCGTTGGAGGGCTCCATTCGCGATTACACCAGCGGAGCATTCGATGCTTATGACAAAGCGGACGTCGAAGGGCTGCTGGAAAACCGCCTGAGCAAGGCCAGGGATGATTTGGAAGATGCCCGCGAGGCAATCAAGGCGTTGTGCGAGCCGGTGGAGCAACCGAAAGACGAACAGGCCTACCTGCGCTTCTTCTGCGGTACCGAGTCCGGCGATGCGGAGCAGCTCAAGGCGTTGGAACCTCGCCGCCTGAATCTATACAAGATGACCTCCGCCCTGCTGCGCTGCTTTGCCAACCTGGCCAACGAACTGGACGAGGCCGGTTACAGCCCCACGGAAATCGCCGAGCTGAAGGCGGAAGTGGCTCACTTCGAGAAGGTGCGCAGCCTGGTGAAACTCAAGAGCGCGGATTATATCGACCTCAAGATGTACGAGCCGGCCATGCGCCAACTGATCGACAACTACATTCGCGCCGAGGAGAGCGAGAAGATTTCCGCGTTCGACGACCTGTCGCTGATCCAGTTGATCGTCGAGCGCGGCGCGAAGGCCGTGGAGGCGTTGCCCAACGGTATTCGCAACAACCACGAAGCGGTGGCCGAGACCATCGAGAACAACGTGCGCAAGCTGATCATCGACGAGTCGCCGATCAACCCGAAGTACTACGAGACCATGTCCGCCTTGCTGGATGCGCTGATCGTCAAGCGCAAGAAGGATGCGCTGAGCTACCAGAAATATCTGGCTGAAATAATCGAGTTGACCAGGAAAGCCAAGTCGCCGGGCGAGTCTTCCAGCTATCCCGCCAGCCTGACGACGGCCGCGCGGCGCAACCTGTACGACAACCTGGGCAAGGACGAGGCGCTCACGCTGGCGGTGGATGGGGCAGTTCTGTCGGCGCGACAAGACGAATGGCGAGCCAACCCGTTCAAAGTCAAGAAGGTGAGATTGGCCATCAGGGAAGTCCTCGAAGCTTCCGGTGTGTTGGGGGCCGGTAGTGGAGAAGTCCGTGCCGACTACGATGTGACGCCCGGTATCAGTCGCCTGGATGAAGTTCTGGAACTGGTGAAGAACCAGCATGAGTACTGA	MSAIGQIERKTQARLVELLQKTLHYDYLGDWSKREDNRNIEPALLRDWLSGRGVEQPLITRALFELEKLAGDASKSLYERNKAVYELLRYGVKVKPELGENTRTVWLIDWKEPQNNHFALAEEVTVKGSSAKASTKRPDIVLYVNGIALGVLELKRSITSVSQGIRQNLDNQKAEFIQPFFSTLQLVMAGNDSQGLRYGTIETGEKYYLTWKEDSPVESLLDRHVQQLCSKPRLLELIHDFTVFDSGIKKLCRHNQYFGVRAAQDFIRRREGGIIWHTQGSGKSLTMVWLTKWIRENVPDARVLIITDRTELDEQIEKVFSGVNEAIYRCKSGADLIAKLNANTPWLLCSLIHKFGGKADAEADVEGFVAELAQSLPSDFKAKGDLYVFVDECHRTQSGELHKAMTAILPNALLIGFTGTPLLKADKQKSIEVFGRYIHTYKFDEAVKDGVVLDLRYEARDIDQSLTSPKKIDEWFEVNTKGLNDLAKAQLKARWGTLQKVLSSRDRLAKIVADIWLDMKKRPRLMDGHGNAMLVTSSIFEACKCYEMFMDTDLAGKCAIVTSYKPAPGDIKGEETGEGKTEKIRQYDIYRKMLARWFDEPEEQAMKRVEEFEKEVKRTFIEEPGQMRLLIVVDKLLTGFDAPSATYLYIDKQMHDHGLFQAICRVNRLDGEDKEYGYIIDYKDLFKSLEGSIRDYTSGAFDAYDKADVEGLLENRLSKARDDLEDAREAIKALCEPVEQPKDEQAYLRFFCGTESGDAEQLKALEPRRLNLYKMTSALLRCFANLANELDEAGYSPTEIAELKAEVAHFEKVRSLVKLKSADYIDLKMYEPAMRQLIDNYIRAEESEKISAFDDLSLIQLIVERGAKAVEALPNGIRNNHEAVAETIENNVRKLIIDESPINPKYYETMSALLDALIVKRKKDALSYQKYLAEIIELTRKAKSPGESSSYPASLTTAARRNLYDNLGKDEALTLAVDGAVLSARQDEWRANPFKVKKVRLAIREVLEASGVLGAGSGEVRADYDVTPGISRLDEVLELVKNQHEY	PGPT0027170_2253	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_I_R-M_SYSTEM,PGPT0027170-hsdR-K01153	NA	NA
BMS010_05214	1365			hypothetical protein	ATGAACGAAAACCAGCACATCGAATGGAAGGAAAACTGGCGCGACGAGTACCTGAAATGGCTCTGCGGCTTCGCCAATGCGGACGGTGGCGTGCTGGTGATCGGCCGCAACGATAAGGGCGAGGTGGTGGGGCTCAAGGATGCGCGCAAGCTGTTGGAGGACATCCCCAACAAGGTGCGCGATGTGCTGGGCATTCTGGTGGATGTGAACCTGTGCAGCGAGGCCGGCAAGGATTACCTGGAAATCCGCGTGGAGCCCTACCCCAGCCCGATCAGCTACAAGGGCGAGTACCACTACCGCAGCGGCAGTACCAAGCAGGAGCTCAAGGGGGCGGCGCTGGAACGCTTTCTGCTGCGCAAGCGCGGCCGTCACTGGGACGGCGTGCCGCAGCCGGGCGTCCGGGCCGCCGCCTTCAGCGCCGAGGCGTTCCGCTTGTTCGCCCAGCGCGCCGCCCGCAGCGGACGCATGGACGAGGCGGTGCTACATGACAGCCGCGAGGCCATTCTCGACAATCTGGAGTTGAGCGAAGGCCCCTATTTCAAGCGGGCGGCCTGCCTGCTGTTCGCCGAGCGGCCGCAGCGCTATGTCAGTGGTGCCTGGATCAAACTCGGTTTTTTCGTCAGCGACGACGACCTGCGCTACCAGGATGAGATCACCGGCAATCTGTTCACCCAGGTGGAGCAGTGCCTGGAGGTGCTGCGCGCCAAGTACCTCAAGGCCTATATCAGCTACCAGGGCGTACAGCGCCTGGAGACCTTCCTGTTCCCCTTCGCCGCGCTGCGCGAGGCGCTGCTCAACGCGGTGGTGCACAAGGACTACAGCAGCGGCATCCCGATCCAAATCAGCGTCTACGACGACCGCATCGTGATCTGGAATCCCGGCCAGTTGCCGCAGGACTGGACGCTGGAGCGGCTGATGGGCAAGCACCCGTCCTGCCCGTTCAACCCGCTGTTGGCCAACGCCTTCTTCCGCGCCGGTTACATCGAGTCATGGGGGCGCGGCATCGAGAAGATCAACCGCGAGTGCCGCGAACACGGCATTGCCCCGCCGGAGTACGACTATGGGCTGTCCGGCCTGATGCTGACCTTCCGTGCCAGTGCGCAGCAGCTTGCGGACGCGCGGGGGGAAAAGGTCGGAGAAAAGGTCGGAGAAAAGGTCGGAGAAGGGCTGACGGAGAACCAGCGGCGCATCCTCGATCTGCTGGCGCAGCACGCCAGGCTGTCGGCACGGGAGCTGGCCGAACGGGTCGGTATCTCCAGCCGCAAGATCGAACAGAACATCGCCCGCCTCAAGGCGCTTGGTTTGTTGCGGCGCATCGGCCCCGCCAAGGGGGGGTATTGGGAAGTGGCGGACAAGGGTGAGTAG	MNENQHIEWKENWRDEYLKWLCGFANADGGVLVIGRNDKGEVVGLKDARKLLEDIPNKVRDVLGILVDVNLCSEAGKDYLEIRVEPYPSPISYKGEYHYRSGSTKQELKGAALERFLLRKRGRHWDGVPQPGVRAAAFSAEAFRLFAQRAARSGRMDEAVLHDSREAILDNLELSEGPYFKRAACLLFAERPQRYVSGAWIKLGFFVSDDDLRYQDEITGNLFTQVEQCLEVLRAKYLKAYISYQGVQRLETFLFPFAALREALLNAVVHKDYSSGIPIQISVYDDRIVIWNPGQLPQDWTLERLMGKHPSCPFNPLLANAFFRAGYIESWGRGIEKINRECREHGIAPPEYDYGLSGLMLTFRASAQQLADARGEKVGEKVGEKVGEGLTENQRRILDLLAQHARLSARELAERVGISSRKIEQNIARLKALGLLRRIGPAKGGYWEVADKGE				NA	NA	NA	NA	NA
BMS010_05215	1245			hypothetical protein	ATGAGTGCGGAGGTTAGGCCGGGCTATAAGCTGACCGAGGTGGGGGTGATTCCGGAAGATTGGGGTGCCGTTCTGTTAGATTCCGTTGCAAAGCGCGGAAGCGGACATACTCCAAACAAGAAACAGCCAGAATATTGGGGGGGGGCTATTAAGTGGGTATCCCTGCAAGACTCCAATCAACTCGACTCGCTCTATCTATACGACACTGTTGCCAAGATAACTCCTGCGGGTATTGCTAATTCGTCCGCTGTTTTGCATCCCGCAGGGACTGTCGTTCTGAGCCGTGATGCAGGAGTCGGAAAAAGCGCAATTATAAAAGACGACATGGCGGTCAGTCAGCATTTTATGGCTTGGTTTTGCGGTGCCAAGCTAGATAATCATTTTCTTTATTATTGGCTGCAAGCAAGAAAATCAGAATTTGAAAGGGTAGCCAACGGAAATACCATTAAGACCATTGGGCTTTCTTATTTTAAGGAATTGAAGGTTCCGCTACCTGAGCTGGAAGAACAAAAGAAGATTTCTTCGGCGCTTTCTGGAGTGGATGCCCTGATCAGCAACCTGGATCAGCTTATCGCCAAAAAGCGCGACATCAAACAAGCCGCCATGCAGCAACTGCTTACCGGCCAAAAGCGCCTGCCCGGCTTTAAAACAACATGGATTCAAGTCAAAGCCGGTGATATTGGTAAATTTCGTGGGGGGAGTGGATTCCCCGTAAAAAATCAAGGTGAGACAGAGGGCGACTATCCATTCTTCAAAGTTTCCGACATGAACAATGAAGGTAACGATGTTTTTATGAGTAATGCTAATAATTTTGTTAGCGAGAGTGCTCGGAGGATAATCGGGGCAACGCTTTTTCCGGAAAAATGTGTTGTTTTTGCAAAAGTTGGGGCGGCAGTTTTTCTTGAGCGAAAGAAGATTCTTGCTAAAGAAAGCTGTTTGGATAACAACATGGCTGCTTTCATATTCGATACTGCTAAGTTAAATAGTCGATTCGTTCACTATATGTTTCAGAATATCCGGCTTGGTGACTTAGTAAGCACAACAGCGTTGCCATCGCTTAGCGGTAGCGTATTGTCATCAATTGAAATGGGGCTGCCATCGTTTGAAGAACAAACCGCCATCGCCACCCTCCTCTCCGATATGGACGCCGAACTCGCCGCGCTGGAACAACGCCGCGACAAGGCCAGGCTGCTGAAACAAGGCATGATGCAGGAACTGTTGACCGGACGGATTCGGCTCTTATGA	MSAEVRPGYKLTEVGVIPEDWGAVLLDSVAKRGSGHTPNKKQPEYWGGAIKWVSLQDSNQLDSLYLYDTVAKITPAGIANSSAVLHPAGTVVLSRDAGVGKSAIIKDDMAVSQHFMAWFCGAKLDNHFLYYWLQARKSEFERVANGNTIKTIGLSYFKELKVPLPELEEQKKISSALSGVDALISNLDQLIAKKRDIKQAAMQQLLTGQKRLPGFKTTWIQVKAGDIGKFRGGSGFPVKNQGETEGDYPFFKVSDMNNEGNDVFMSNANNFVSESARRIIGATLFPEKCVVFAKVGAAVFLERKKILAKESCLDNNMAAFIFDTAKLNSRFVHYMFQNIRLGDLVSTTALPSLSGSVLSSIEMGLPSFEEQTAIATLLSDMDAELAALEQRRDKARLLKQGMMQELLTGRIRLL	PGPT0027175_2522	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_I_R-M_SYSTEM,PGPT0027175-hsdS-K01154	NA	NA
BMS010_05216	2430			hypothetical protein	ATGGCCATCAAGAAATCCGAACTCTATTCCTCCCTCTGGAAATCCTGCGACGAGCTGCGCGGCGGCATGGATTCGTCGCAATACAAGGATTACGTGCTCGTCCTGCTGTTCATGAAGTACGTCTCCGACCGCCGCGACAGCATGGTCGAGGTGCCGGTCGGTGGCAGCTTCGCCGACATGGTGGCGCTCAAGGGCGACAAGGAGATCGGCGACAAGCTCAATGTGATTATCCGCAGCCTGGCTGAGGCGAATAACCTCACCGGGGTGATCGACGTGGCCGACTTCAATGACCCGGACAAGCTCGGCAAGGGCAAGGAGATGGTCGATCGCCTCTCCAACCTGATCAGCATCTTCGACAACCCGGCGCTGGATTTCCGTGGCAACAATGCCCAGGGCGATGACCTGCTCGGCGATGCCTATGAATACCTGATGCGCCACTTCGCCACCGAGTCCGGCAAGAGCAAGGGGCAGTTCTACACCCCGGCGGAAGTCTCGCGGGTGATGGCCAAGGTGATCGGTATCGGCAGTGCCACCGACAGCAAGCAGAGCATCTACGACCCCACCTGCGGCTCGGGCTCGCTGCTGCTCAAGGCGCATGACGAAGCCAAGGCCGCCACCGGGCTGGACCTGGCGATCTACGGCCAGGAAATGGACAACGCCACCTGCGCCCTGGCCAAGATGAACATGTTCCTGCACCAGTGCCCGACGGCGGAAATCTGGCAGGACAACACCCTCTCCAGTCCTCACTTCAAACATAAGAGCGACGGCAGCCTCAAACTGTTCGACTTCGCCGTGTGCAACCCGCCCTTCTCCACCAAGGCCTGGAGCAACGGTTTCAACCCGGCGGCGGACGAGTTTCACCGCTTCGAATACGGCATCCCGCCGGAGAAGAATGGCGACTACGCCTTTCTCCTGCACATCCTCGCCAGCCTGAAGAGCACCGGCAAAGGCGCGGTGATCCTGCCCCATGGCGTGCTGTTCCGTGGCGGCGCCGAGGCGGCCATTCGCAAGCGCATCCTCCAGCAGGGCTTCATCAAGGGCATCATCGGCCTGCCGGCCAACCTGTTTTTCGGCACCGGCATTCCCGCCTGCATCATCGTGCTGGACAAGGAGCACGCGGTGGCCCGGCGCGACGTGTTCATGCTCGATGCCAGCAAGGGCTTCAGCAAGGACGGCAACAAGAACCGCCTGCGCGAGCAGGACATCCACCGGATCGTCGATACCTTCACCCAGCAGCGCGAGGTGGAGAAATACGCACGCCTAGTGCCCTTCGCCGAAATCGAAGCCAACGACTTCAACCTGAACATCCCGCGCTATATCGACAGCAGCGAGCCGGAAGACCTGCAAGACATCGAGGCGCACCTCAAGGGCGGCATCCCCAACCGCGATATCGACGCCCTGGCTGCCTACTGGCAAGTACTCCCCGGCGTGCGGAACGCGCTGTTCTCCCCTCTCCCGCTTGCGGGAGAGGGGCCGGGGGAGAGGGCAAGTGGTTACAGCGACCTCAAAGTCGACATCCCCGCCATCAAACCCAGCATCTTCGAACATCCCGAGTTCGATGCCTTCCGGCAGACCATCGACGCCCTGTTCCGCCAATGGAAGACCGCCAACCTGCCGCGCCTCAACGGCATCTCCATCGGCGACCAGCCCAAGCGGCTGATCGAAACCCTGGCCGAGGACCTGCTGGCCACCTTCCAACAGGCGCCACTGCTCGATGCCTACGACGTCTACCAGCACCTGCTCGACTACTGGCACGACAGCATGCAGGACGATGTGTACATGCTGGTCAGCGATGGCTGGCAGGCGCTGCTGGTCGATGGTCCGCAAAAGGGCCAACCGAACACCGACCTGATCCCACCCAGCCTGATTGTCGAGTGCTATTTCCATGAAGAGGCCCGCGCGGTGGCGGAGCTGGAAGCCAAGCGCGAGGCCCTGGGCCGCGAACTGGAAGAACTGGACGAAGAGCATGGCGGCGAAGACGGGCTGCTGTTCGAGGCGCGGACCGAAAAGGGCAAGCTGACCCGCGCCAGCGTCAAGGCCCGGCTCAGCGCGGCACGCGAAGGCGGCGCCGACGTGGCCGAGCCCGGCGAGATCGACCTGCTGGAGCAGGTGCTCGCCCTGATGGAACGGGAAGCCGCCGCCGGCAAACGGGCCAAGGATGCGCAGAAAGCCCTGGACGCCAAGGTACTCGCCCACTACGCCACGCTCAGCGAGGCGGAAATCAAGACGCTGGTGGTCGAGGACAAATGGCTGACCACCCTGCGCGCCGATGTGCAGACCGAACTGGACCGGGTGTCCCAGGCCCTGGCCGGGCGTATTCGCCAACTGGCCGAGCGCTATGCCACGCCGCTGCCGCAACTGAGCGAACAGGTCGAGGTACTGGCGGCTAAGGTGGACGAGCATCTGCGCAGGATGGGGTTTGCGCTATGA	MAIKKSELYSSLWKSCDELRGGMDSSQYKDYVLVLLFMKYVSDRRDSMVEVPVGGSFADMVALKGDKEIGDKLNVIIRSLAEANNLTGVIDVADFNDPDKLGKGKEMVDRLSNLISIFDNPALDFRGNNAQGDDLLGDAYEYLMRHFATESGKSKGQFYTPAEVSRVMAKVIGIGSATDSKQSIYDPTCGSGSLLLKAHDEAKAATGLDLAIYGQEMDNATCALAKMNMFLHQCPTAEIWQDNTLSSPHFKHKSDGSLKLFDFAVCNPPFSTKAWSNGFNPAADEFHRFEYGIPPEKNGDYAFLLHILASLKSTGKGAVILPHGVLFRGGAEAAIRKRILQQGFIKGIIGLPANLFFGTGIPACIIVLDKEHAVARRDVFMLDASKGFSKDGNKNRLREQDIHRIVDTFTQQREVEKYARLVPFAEIEANDFNLNIPRYIDSSEPEDLQDIEAHLKGGIPNRDIDALAAYWQVLPGVRNALFSPLPLAGEGPGERASGYSDLKVDIPAIKPSIFEHPEFDAFRQTIDALFRQWKTANLPRLNGISIGDQPKRLIETLAEDLLATFQQAPLLDAYDVYQHLLDYWHDSMQDDVYMLVSDGWQALLVDGPQKGQPNTDLIPPSLIVECYFHEEARAVAELEAKREALGRELEELDEEHGGEDGLLFEARTEKGKLTRASVKARLSAAREGGADVAEPGEIDLLEQVLALMEREAAAGKRAKDAQKALDAKVLAHYATLSEAEIKTLVVEDKWLTTLRADVQTELDRVSQALAGRIRQLAERYATPLPQLSEQVEVLAAKVDEHLRRMGFAL	PGPT0027180_637	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_I_R-M_SYSTEM,PGPT0027180-hsdM-K03427	NA	NA
BMS010_05217	462			hypothetical protein	ATGCACATACTTCAAACCACCTCCTACCTCCGCCACAAACGCTACCTCCGTGCCCTGCTCCTGGATAACCAGCCCTGGTTCGTCGTCCGTGATCTGGGGCGCCTGATCAACCATCCGTTGGAGCGTCAGTTGAGTCGCAGCCTGGATGACGACCAGTTGCGCCGGGAAGGTATCCAGAATGCCCAGGGGCGTTATGAGGAGGTATTGCTGGTCAGCGAATCGGGTGTCTACGTCACCCTGATCAACTACTTCCACCCGGAAAATTGCGGTATCCGCCGCTGGATCAGCGGTGAAGTGGTGCCGGCGCTTCGCGATACCCATGCCTCCAGCGCCGCTGAGCCTCGGCGGCGCATGGTGAACTGGGATAACCACCGGTTCAGCGTCCTGCAATGGCAAGGCCAGACCTGGGTGCCGTTCGCCGAACTGCCGCGCTTGATGGAGCGTGGCTCCGTCGCCGGCTGA	MHILQTTSYLRHKRYLRALLLDNQPWFVVRDLGRLINHPLERQLSRSLDDDQLRREGIQNAQGRYEEVLLVSESGVYVTLINYFHPENCGIRRWISGEVVPALRDTHASSAAEPRRRMVNWDNHRFSVLQWQGQTWVPFAELPRLMERGSVAG				NA	NA	NA	NA	NA
BMS010_05218	231			hypothetical protein	ATGCCCCGCTACACCCTTGCCCTGACCCTCAGCCTCCTGGCCACGCCGTTGCTGGCCGCGCCCAAGCCCTGTGAGGAGTTGAAGGAAGAGATCGAAGTGAAGATCCAGGCCGCGGGCGTCACGACCTACACCTTGGAGATCGTGCCCAACGACGAGGTGGAGGATCAGAGCATGGTGGTGGGCAGTTGCGATAACGGCACCCGGAAGATTATTTACCAGAAGAACGGCTGA	MPRYTLALTLSLLATPLLAAPKPCEELKEEIEVKIQAAGVTTYTLEIVPNDEVEDQSMVVGSCDNGTRKIIYQKNG				NA	NA	NA	NA	NA
BMS010_05219	1101			hypothetical protein	ATGCCGCGCCTTCCAGCCCCCTCTCTCGACCGTTTCGCCCGGCCCTGGGTTCCCTTGCTGCTCGTCGTCTGGCTGAACGGTTGTTCCAGCGTCGCCTACTACGGCCAGTTGCTGGAAGGCCAGCTCGACCTGCTGAGCCGCCGCGAGCCGATCGCCGGGCTGGTGAGGGACGACAGCCGCGACGCCCGCCTGCGCCAGCGCCTGGCCCTGGCGCTCCAGGCCCGTGCCTTCGCCAGTGCCGAACTGGGCCTGCCGGACAACGACAGCTACCGCCTCTACGCCGACATCGGCCGGCCCTACGTGGTGTGGAACGTCTTCGCCGCGCCGGAGCTGTCCCTGGAACCGCTGACCCACTGTTTCCCGGTCGCCGGCTGTGTCGCCTACCGTGGCTACTACCGCCAGGGCGCGGCCCGCGGTGCGGCGGCCGTGTTGCAGCAGGATGGCTGGGATACGTACGTCGCCGGCATCCCGGCCTACTCGACCCTCGGCTGGTTCGACGACCCGATCCTCAACTCCATGCTGCACTGGGACGACGACCGCCTCGCCGCGACGATCTTCCACGAACTGGCGCACCAGATGTTCTACGTGCGTGACGACACCGCCTTCAACGAATCCTTCGCCAGCTTCGTCGAGCGCGAAGGCCTGCGCCAATGGCGCGCCCACCGCGGCCTGCCCCCGGCCGACCCGGCCGCGCTGCGCCAGCGCGAACAATTCACCGCCCTCGTCCTCGCCACCCGCGAAGCACTGCAACGGCTCTACGCCAGCGACCTGCCGGACGCCGAGAAGCGCCAACGCAAGGCCGCCACCTTCGAACGTCTGCGCCAGGACTACCGCCACCTGCGCGACAGCCATTGGCACGGCGACCGCCGCTACGACGCCTGGATCGAAAGCCCCCTCAACAACGCCAAACTCCTCCCCTTCGGCCTCTACGACCGCTGGGTCCCCGCCTTCGCCGCGCTGTTCGAACGGGAGGGGAAGGACTGGCAGAGGTTCTACGGGGCGGTGGAGCGGTTGGGGAGGTTGTCGGCGGAAGAGCGACAGCGGAGACTGCAGCAACTGGAGGCCGGCGGGGAAACGCCGGCCTCGGCAACTGCCGATTGA	MPRLPAPSLDRFARPWVPLLLVVWLNGCSSVAYYGQLLEGQLDLLSRREPIAGLVRDDSRDARLRQRLALALQARAFASAELGLPDNDSYRLYADIGRPYVVWNVFAAPELSLEPLTHCFPVAGCVAYRGYYRQGAARGAAAVLQQDGWDTYVAGIPAYSTLGWFDDPILNSMLHWDDDRLAATIFHELAHQMFYVRDDTAFNESFASFVEREGLRQWRAHRGLPPADPAALRQREQFTALVLATREALQRLYASDLPDAEKRQRKAATFERLRQDYRHLRDSHWHGDRRYDAWIESPLNNAKLLPFGLYDRWVPAFAALFEREGKDWQRFYGAVERLGRLSAEERQRRLQQLEAGGETPASATAD				NA	NA	NA	NA	NA
BMS010_05220	516			hypothetical protein	ATGCTCGAAGAGCGACGCGGCAGCGCAAGCCTGAGCGCTCCGCGTGGCGAATGTCCATACCTGATCCTCACTGCCTCTGCGGAGTTCAGCATGCGTGGTTTTTCTGTCTCTTTCATTCTCATCGGCCTGCTCGCGCTCTCCGGCTGCGGCCTGTTGATGCCGCGCCCCGATCCCAACCAGGCCTGGGTCGATCTCGATCCCGCCCACGCCAGCCGCCTGCACGCCGCCGAAGTGGACGAGCGGCCCTGGGACGACCGCCGCTATTTCCAGGTACCGCCCGGTGCCCATGAGCTGGGCATGCGCTACCAGTTCGAGGTCAGCGGCGACGATATCGGCCTGGACAGCCAGCCGCACCAGCGCGATTGCCGCCTGCGTCTGCGCTACGACAGTTTCGGCGCCGGCCAGCGCTATCGCCTGCAGGCCGGCCAGGTGGGCTTCCGCGCCTGGGTGAAGCTCTACGATCAGGACGACCGCCTGCTGGCACGAGGGCAGGAGATGCGCTGCGGCGGGGTCTGA	MLEERRGSASLSAPRGECPYLILTASAEFSMRGFSVSFILIGLLALSGCGLLMPRPDPNQAWVDLDPAHASRLHAAEVDERPWDDRRYFQVPPGAHELGMRYQFEVSGDDIGLDSQPHQRDCRLRLRYDSFGAGQRYRLQAGQVGFRAWVKLYDQDDRLLARGQEMRCGGV				NA	NA	NA	NA	NA
BMS010_05221	420			hypothetical protein	ATGCGCCTGCTGCCCGCCCTGCTCCTGCCCACCCTGCTGACCGCCTGCGCCAGCCCGCTGCCGCGCCATGAGCCGCAACAGGCCTGGATCGACCTCTACACCACCGCCGACAACCTGCTGATGGCCCAGCGCCTGGACGACAAGCGTTGGGGCGACGGCCGCTATTTCCAGGTCAGCCCCGGCGCCCATGAGCTGGAGGTCAACCTGCGCTTCGAGGTGGCCGGAGGGGGCGCCTTGTCGAATGTCAGCGAGCCCGTGCAGATGACCTGCGAACTGCGAATCCGCTACGACAATTTCGCCGCCGGGAAACGCTATCGCCTGGAGGCACGCCCCATGATCATGAAGGCCCAGGCCTGGCTGTACGACGACCAGCGCAACGTGCTGGCCCGGGGCAAGGTGTTGCGCTGCGGGACGTTCTGA	MRLLPALLLPTLLTACASPLPRHEPQQAWIDLYTTADNLLMAQRLDDKRWGDGRYFQVSPGAHELEVNLRFEVAGGGALSNVSEPVQMTCELRIRYDNFAAGKRYRLEARPMIMKAQAWLYDDQRNVLARGKVLRCGTF				NA	NA	NA	NA	NA
BMS010_05222	1362			hypothetical protein	ATGAATTTCCTCGAATGGATGACGGTACTGGGCACGCTGTTGCTCATCCTTGCCCTGGCGTCCGCATACCTGCGCTGGCTGCCGGTCACCACCTCGGTGATCTACCTCGGCTTCGGCCTGCTGATCAGCCAGATGGGCGTCGGCCTCTGGCAGGTGGATTTCTTCGCCGTGACGCCCTGGCTGGAGCACCTCACCGAAGTCGCCGTGCTGGTCTCGCTGTTCTTCAGCGGGCTCAAGCTGCGGCTGCGCTTCCGCGATCCGGCGTGGGTCGGCGCCGCCCTGCTGACCGGGCCGGTGATGCTGGTCAGCATCCTCGGCGTGTGCCTGTGCTGTCGCTACCTGTTCGGCCTGGATTGGGGCGTGTCGCTGCTGATCGGCGCGCTGCTGGCGCCCACCGATCCGGTACTGGCCAGCCTGGTGCAGGTGAACCACGCCCGCGACTGCGACCGGGTGCGCTACGGACTGACCGGCGAGGCCGGGCTGAACGATGGCATGGCCTTCCCCTTCGTGGTGCTGGCCTTGCTGGTAATCGAGCATGACCGGCTGACCGCCGACTGGCTCGGGCAGTGGACGCTGCACCGCTTGCTCTGGGCCATTCCGGCGGGCCTGCTGCTGGGCTTCTTCCTCGGCCGGGTGGTGGGCCGGCTGGCGATCTACCTGCGCGCCCGGCATGCGGACACCGCCATGTCGCCGAACGATTTCCTCGCCCTGGCGCTGATCGCCCTGTCCTACGCCGGCGCCGAGATGATCGGCGCCTGGGGCTTCCTTTCCACTTTCGCCGCCGGCGTCGGCCTGCGTCGCGCCGAGGTGGACTCCTCCGGCCGCTCGCCGGTGCCGGCCGAAGAGCTGACCCTGCAATCGGTGCCGCGCGCGTCCGGCGAAGCCACGCCCATCGACGGCCAGCGCATCGCCGAGCCGAAGATCGCCGCCGGGGTGCTGATCGGCGACATCCTGACCTTCGGCAACCTGCTGGAGCGCAGCCTGGAGGTGCTGTTGGTCACCCTGCTCGGCGTGCTCCTGCCGGCCCACTGGGACAGTCGCGCGCTGTGGCTCGGCCTTGCTCTGTTCTGCGTCATCCGTCCGCTGGGGGTGCGTCTGCTGATGCCCGCCTCGGTGGTGAGCGCCGAGCAGCGCCGGCTGATCGGCTGGTTCGGCATCCGCGGCATCGGTAGCCTGTATTACCTCACCTACGCGCTGACCCACGGCTTGCACGACCCGGCCACCACCGAGGTGGTCGGCCTAACCTTGTCGGTGGTGGCGCTGAGCATCCTGGTCCATGGGCTGAGCACCCAGCCGCTGCTGGAACGCTACGAGCGGCGCAACGGGCCCTCGTTGCCGGAATGCGCCAAGCCGCGCGAATGA	MNFLEWMTVLGTLLLILALASAYLRWLPVTTSVIYLGFGLLISQMGVGLWQVDFFAVTPWLEHLTEVAVLVSLFFSGLKLRLRFRDPAWVGAALLTGPVMLVSILGVCLCCRYLFGLDWGVSLLIGALLAPTDPVLASLVQVNHARDCDRVRYGLTGEAGLNDGMAFPFVVLALLVIEHDRLTADWLGQWTLHRLLWAIPAGLLLGFFLGRVVGRLAIYLRARHADTAMSPNDFLALALIALSYAGAEMIGAWGFLSTFAAGVGLRRAEVDSSGRSPVPAEELTLQSVPRASGEATPIDGQRIAEPKIAAGVLIGDILTFGNLLERSLEVLLVTLLGVLLPAHWDSRALWLGLALFCVIRPLGVRLLMPASVVSAEQRRLIGWFGIRGIGSLYYLTYALTHGLHDPATTEVVGLTLSVVALSILVHGLSTQPLLERYERRNGPSLPECAKPRE	PGPT0013856_305	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013856-NHA1_like|SOD2_like-K24160	NA	NA
BMS010_05223	996			hypothetical protein	ATGAGCCGACTGTCCGATATCGCGATTTCCATCCTCGACCTGGCGCCGGTGCGCGACGATGGCGACGCCGCCCAGGCCCTGCACAATTCGCTGGCCCTGGCCCGGCACGTGGAGCAGCTCGGCTTCACCCGTTTCTGGGTCGCCGAACACCACAACATGGAGGGCATTGCCAGCTCCGCCACGGCCGTGCTGATCGGCTACCTGGCGGCCGCCACCTCGCGCATCCGCCTCGGCGCCGGCGGGGTGATGCTGCCCAACCATTCGCCTCTGGTGGTTGCCGAGCAGTTCGGCACCCTGGCGGCGCTCTATCCGGGGCGGATCGACCTGGGCCTCGGTCGCGCGCCCGGCGCCGATCAGTACACCGCCCACGCCCTGCGCCGCGACCGGCTCGGCACGGCCGACGATTTCCCGAAGGATGTCGAAGAGTTGCAGCACCTGCTCGGCCCGCGCCAACCCGGCCAGCGGGTGATCGCCATGCCGGGCGTGGACAGCCAAGTGCCGATCTGGCTGCTCGGCTCCAGCCTGTTCAGCGCCCAGCTGGCGGCAGCCAAGGGCCTGCCCTACGCCTTCGCCTCGCACTTCGCGCCGCGCTACATGCACGAGGCGATCCGCCTGTACCGGGAGAACTTCCAGCCCTCGGATGTGCTCGACAAGCCCTACGTGATGCTCGGCGTGCCGCTGGTCGCCGCTCCCACCGACGAAGAGGCCGAATACCTGGCGACCACCGCGTTCCAGCGGGTGCTGGCGCTGCTGCGCGGGGAAAGCCTGGTGCTGCGCCCGCCAGTGCGGAGCATGCAGGGCCTGTGGCTGCCCCACGAGCAGGATGCGGTGGGCAGTTTCCTCGGCATGGCGGTGATCGGCGGGCCGGAGAAGGTGCGGGCGCGACTGGACATCCTGCTGGAGCAGACCCGGGCGGATGAGCTGATCTTTACCTGCGATCTGTACGAGCAGGAGCATCGGCGGCGTAGTTTCGAGATTCTGGCAGGGTTGAGGTGA	MSRLSDIAISILDLAPVRDDGDAAQALHNSLALARHVEQLGFTRFWVAEHHNMEGIASSATAVLIGYLAAATSRIRLGAGGVMLPNHSPLVVAEQFGTLAALYPGRIDLGLGRAPGADQYTAHALRRDRLGTADDFPKDVEELQHLLGPRQPGQRVIAMPGVDSQVPIWLLGSSLFSAQLAAAKGLPYAFASHFAPRYMHEAIRLYRENFQPSDVLDKPYVMLGVPLVAAPTDEEAEYLATTAFQRVLALLRGESLVLRPPVRSMQGLWLPHEQDAVGSFLGMAVIGGPEKVRARLDILLEQTRADELIFTCDLYEQEHRRRSFEILAGLR	PGPT0030680_2	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030680-putative_transposase-K07496	NA	NA
BMS010_05224	225			hypothetical protein	ATGAAAAAACTGATAGGGGTGTTGGCGCTGTCCAGCCTGGCCGGTACGGCGCTGGCTGCCGGTAAGCCATGCGACGAACTGAAGGCGGAAATCGACGCGAAACTCCAGGCCAAGGGTGTCAGCGCCTACAGCCTGGAGGTCGTGGACAAGGGCAGCGCGACCGACAAGCAGGTGGTCGGCAGTTGCGAAGGCGGAACCAAGGAAATCGTCTACCAGCGTGGGTGA	MKKLIGVLALSSLAGTALAAGKPCDELKAEIDAKLQAKGVSAYSLEVVDKGSATDKQVVGSCEGGTKEIVYQRG				NA	NA	NA	NA	NA
BMS010_05225	216		COG3360	Dodecin	ATGTCCGACCATCACACCTACAAGAAGATCGAACTGGTGGGCTCTTCCACCACCAGCATCGAAGACGCCATCAACAATGCCCTGGCCGAAGCTTCGAAGAGCCTGCAGCTTCTCGAATGGTTCGAAGTGACCGAGACCCGTGGGCACATCCGCAACGGCGCGGTGGCGCATTTCCAGGTGACCGTGAAGGTGGGTTTCCGCATCGCCGACAGTTGA	MSDHHTYKKIELVGSSTTSIEDAINNALAEASKSLQLLEWFEVTETRGHIRNGAVAHFQVTVKVGFRIADS				NA	NA	NA	NA	NA
BMS010_05226	216			hypothetical protein	ATGCAGCGCGCCCGGGTCAACTCCTCCAGCCTGCGCTCGGTCGGCTACGACCCCGAGCGGCGCGTGCTGGAGGTGGAGTTCAGCAACGGCAGCCTCTACCAGTACGAGGGCGTGCCGGGGGAGATCGTCCGCGAGCTGCTCGCCGCCGACTCCCTCGGGACCTACTTCAACCAAATCTTCAAGTCCTGCGACTTCCCCTATCGGCGACTAGAGTGA	MQRARVNSSSLRSVGYDPERRVLEVEFSNGSLYQYEGVPGEIVRELLAADSLGTYFNQIFKSCDFPYRRLE				NA	NA	NA	NA	NA
BMS010_05227	1785	msbA_3	COG1132	Lipid A export ATP-binding/permease protein MsbA	ATGGCCCGCCCGCTCGGCCGGCGCGAGCAAGTGCTGCCGAGCCGGCCGATCCCGTTCCTCTGGCGCTACGTGCGCCTGCGCCCCTGGCATTTCGGCGTTCTCGCCGCGGTGATCGTCGGTGCTGCCGCCAGCGCGGTGGCGGTGCAGTACGGCATGAAGCTGCTGGTGGATGCCATGGCGGCCGGAGGCGAGCGCCGCAGCGCCGATGTGTGGACGCCGCTGGCGCTGTTCCTCGGCCTGATCGTGCTGGAAAACGCCCTCTGGCGGACGGGTGGCTGGCTCGGCTGCCGGACCGTGGTGGCGAGCTGCGTGGACCTGCGCATCGACCTGTTCAAGTACCTGACCGGCCACCCGATGCGCTACTTCAACGAGCATTTCGCCGGTGCCCTGGGCAACCGCATTACCGCCACCGGTACGGCGGCGGGTTCGATCTACGGGGGCCTGGCCTGGAAGATCACCCCGCCGGTAGTGGACTTCCTCGGTGCCGTGGTGGTGCTGTTCACCGTCGATTGGCGCATGGCCGTGGCGCTGATCGGCTTCGTGCTGCTGGTGGCGCTGCTGATCACCGGTTTCGGCATCCGTGGCCGCTCCCGGCACCAACGCTACGCGGCGCAGGCGGCGCACGTCGGCGGCGAGCTGGTGGATGCGGTGTCCAACGTCTGGACCATCAAGGCGTTCTCCGCCCGCGACCGCGAGAGCGAGCGGCTGGCCCAGGAGATCGGCATCGAGGCCCGCGCCCACCGGCGCAGTTGGATGTACCTGGAAAAAGCGCGGGTGATCCACGACCTCTGCCTGGCGGTGATGGCCGGCGGCATGCTGCTCTGGGCCATCGTGCTCTGGCGCGCCGGACAGGTGACGCCCGGCGACGTGGTGCTGGTCAGCGCCCTCACCTTCCGCATCCTCCACGGCTCGCGCGACCTGGCCCTGGCCCTGGTGGACGCGACCCAGCAGCTCGGCGCCATCGCCGACACCCTGCGGGTGATCGTCCAGCCCCACGCGCTGGACGACCCCGACCGGCCGCTGGAGGCTGCCGACGGTACCCTCGATCTGATCGACGTGCGTTTCAGCTACCCGGACGGCCGCGAGGTGTTCCGTGGCCTCGACCTGCACATCCCGGCCGGGCAGAAGGTGGGGATCGTCGGCCCATCCGGCGCCGGCAAATCGACCCTGGTGCACCTGATCCAGCGTCTCGACGATGTCGGCGGCGGGCGCATCCTCATCGACGGCCACGACATCCGCGCGGTCAGCCAGGACAGCCTGCGCGCCATGATCGCCGTGGTGCCGCAGGAGACCGCGCTGTTCAACCGCAGCATCCGCGAAAACATCCGCTACGGCCGCCCGGCCGCCAGCGACGCGGAGGTGGAAGAGGCCGCGCGGATGGCCTTCTGCGACAGCTTCATCCGCGACCTGCCGGAGGGTTACGACACCCTGGTGGGCGAGCGCGGGGTGATGCTTTCCGGCGGCCAGCGGCAGCGCCTCGGCATTGCCCGGGCCTTCCTCAAGGACGCGCCGATCCTGATCCTCGACGAGGCCACCTCGGCGCTGGATACCCATTCCGAGGCCGAGATCCAGGTCGCCCTGGCCGGGTTGGTGCGGGGCCGCACGGTGCTGGCGGTGGCGCACCGCTTGTCCACGGTGGCCAACTTCGACCGCATCCTGGTGCTGCACGACGGCCGCATCGTCGAAGACGGCCCGCCGGGTCGCCTGCTGGAGCAGGGCGGGCTGTACGCGACCCTGTGGCGGATGCAGGTGGAAGGCTTCCGCCGGGATGTCGGGCCGGAGTGA	MARPLGRREQVLPSRPIPFLWRYVRLRPWHFGVLAAVIVGAAASAVAVQYGMKLLVDAMAAGGERRSADVWTPLALFLGLIVLENALWRTGGWLGCRTVVASCVDLRIDLFKYLTGHPMRYFNEHFAGALGNRITATGTAAGSIYGGLAWKITPPVVDFLGAVVVLFTVDWRMAVALIGFVLLVALLITGFGIRGRSRHQRYAAQAAHVGGELVDAVSNVWTIKAFSARDRESERLAQEIGIEARAHRRSWMYLEKARVIHDLCLAVMAGGMLLWAIVLWRAGQVTPGDVVLVSALTFRILHGSRDLALALVDATQQLGAIADTLRVIVQPHALDDPDRPLEAADGTLDLIDVRFSYPDGREVFRGLDLHIPAGQKVGIVGPSGAGKSTLVHLIQRLDDVGGGRILIDGHDIRAVSQDSLRAMIAVVPQETALFNRSIRENIRYGRPAASDAEVEEAARMAFCDSFIRDLPEGYDTLVGERGVMLSGGQRQRLGIARAFLKDAPILILDEATSALDTHSEAEIQVALAGLVRGRTVLAVAHRLSTVANFDRILVLHDGRIVEDGPPGRLLEQGGLYATLWRMQVEGFRRDVGPE	PGPT0029145_263	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029145-vcaM-K18893	NA	NA
BMS010_05228	1155			hypothetical protein	ATGTACCTACCCTCCCTATTCGACAGCTTCTTCATGGGTGGCTTCGAATGCTCTACTCACCGGCGCCATGACGGTCGCCGGCTCGACCTGATCGCCGCCACCGGCCACGACCGCCATGCACCGGCGGACTACGCCGCCCTGCGCCGCCAGGGCCTGCGCAGCGTGCGCGATGGGGTGCGCTGGCATCTGATCGAGACGGCACCCGGACGCTATGACTGGTCGAGCCTGCTGTCCATGCTGCGTGCCACCCGCGAGCAGCGGGTACAGGTGATCTGGGACCTCTGCCACTACGGCTGGCCGGACGACCTCGACATCTGGCAGCCGGCCTTCGTCGAGCGCTTCGCCCGTTTCGCCGGTGCCGTGGCGCGACTGGTGCGCGATGAGGGCATCGAGGTGCCCTTCTATGCGCCGGTCAACGAGATTTCCTACTGGGCCTGGGCCGGTGGCGACCAGGCGCACTTCAACCCCATGGCCCAGGGGCGTGGGCAGGAACTCAAGCACCAACTGGTGCGCGCCAGCATCGCCGCCATCGAGGCGATCCGCGCCGAGGCGCCGAAGGCACGCTTCGTCCAGATCGACCCGGTGATCCATGTGGCGCCTGCCAGCGACCGTCCCGACGACCAGGCCGCCGCCGAGGCCTATCGCCAGGCCCAGTACGAAGCCTGGGACCTGCTCACCGGGCGCGCCTGGCCGGGACTCGGCGGGCGGCCGGAGTATCTCGACATCCTCGGCATGAACTACTACTCGGACAACCAGTGGTTCCACGGTGGCGCGACCATCCCGCCCGGGCATCCGGCCTACCGTCCGTTCCAGGGCATCCTCGCCGAGGTCTACCAGCGCTATCGGCGGCCGCTGCTGGTGGCCGAGACCGGAGCCGAGGGCGAGGCGCGCGGTCCCTGGCTGCGCTACGTCGCCGAGCAGGTGATGACGGCCCTGGAGCGTGGCGTGCCGGTGGAGGGCATCTGCCTGTATCCGGTGCTCGACTATCCCGGCTGGACCAACGAACGCTACTGCCCGGCGGGCCTGCTCGGCTATCCCGATGCGGACGGCACACGGCCGGTCTGTGCGGAGCTGGAGCAGGAGCTGCGTCGTCAACAAGCGCGCCTGGAGAGGCTGCGCGAAGAACGGGGCCGGCTGGCCTCGGCGTTGCCGTGA	MYLPSLFDSFFMGGFECSTHRRHDGRRLDLIAATGHDRHAPADYAALRRQGLRSVRDGVRWHLIETAPGRYDWSSLLSMLRATREQRVQVIWDLCHYGWPDDLDIWQPAFVERFARFAGAVARLVRDEGIEVPFYAPVNEISYWAWAGGDQAHFNPMAQGRGQELKHQLVRASIAAIEAIRAEAPKARFVQIDPVIHVAPASDRPDDQAAAEAYRQAQYEAWDLLTGRAWPGLGGRPEYLDILGMNYYSDNQWFHGGATIPPGHPAYRPFQGILAEVYQRYRRPLLVAETGAEGEARGPWLRYVAEQVMTALERGVPVEGICLYPVLDYPGWTNERYCPAGLLGYPDADGTRPVCAELEQELRRQQARLERLREERGRLASALP	PGPT0026085_7	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PEL_POLYSACCHARIDE_METABOLISM	CE-EPS-PEL_POLYSACCHARIDES_BIOSYNTHESIS,PGPT0026085-pelF-K21011	NA	NA
BMS010_05229	1182	rfbD_2		UDP-galactopyranose mutase	ATGCGCGATGAACTGAACGCGGTCGGCCGCAAGGGCTTCGACTACCTGATCGTCGGCGCGGGGTTCGCCGGCAGCGTGCTCGCCGAGCGGCTGGCGGCCGGGCTGGGCAAGCGGGTCCTGCTGGTCGACCGCCGCCCGCATATCGGCGGCAACGCCTACGACCACTACAACGACGACGGCATCCTGGTGCACCGCTACGGGCCGCATATCTTCCACACCAATGCCCCGCGCATCGTCGAATACCTCTCGCGCTTCACCGAGTGGCGCCCCTATGAGCACCGGGTGCTGGCCGAGGTGGACGGCCAGCAGGTGCCGATCCCGATCAACCTCACCACCCTCAACCGCCTCTACGGCCTCGATCTCGACGAAGCGGGCGCGGAGCGTTTCCTCGCCAGCCGTGCCGAGCCGGTGGCGGATATCCGCACCTCCGAGGACGTGGTGATCAACCAGATCGGCCGCGAGCTGTACGAGAAATTCTTTCGCGGCTATACCCGCAAGCAGTGGGGCCTGGATCCCTCGCAACTGGACAAGTCGGTGACCTCGCGGGTGCCGACCCGCACCAACGCCGACGACCGCTACTTCGGCGACAGCTTCCAGATGATGCCCCTGCACGGCTACACGCGGATGTTCGAGAAAATGCTCGACCATCCCAACATCAAGGTGATGGTCAACACCGACTTCAAGGAAATCCGCGACGAGGTGCAGTACGACCACTTGGTGTACTGCGGGCCCATCGACGAATACTTCGGCTACTGCTACGGCAAGCTGCCCTACCGCTCGCTGCGGTTCCAGCACGAGACCGTCGACCGGGAGCGCTTCCAGCCGGTGGCGGTGGTCAACTACCCCGCCGAGGATGTGCCTTACACCCGCATCACCGAGTACAAGCACCTCACCGGCCAGCAGCACCACAAGACCAGCCTGACCTACGAATACCCCTCCGCCGAGGGCGATCCCTACTACCCGATCCCGCGCCCCGAGAATGCCGAGCTGTACAAGCGCTACCAGGCTCTCGCCGACGCCACGCCGGGGGTGACCTTCCTCGGCCGGCTGGGCACCTATCGTTACTACAACATGGACCAGGTGGTCGGCCAGGCGCTGGCGCTGTACAAGCGCATCGAGGAGGCGGAGCACCCTCAGGCCGAGGTCGAGCTGGAAGAGCCCTTGGCCCGGCAGGCCACCTGA	MRDELNAVGRKGFDYLIVGAGFAGSVLAERLAAGLGKRVLLVDRRPHIGGNAYDHYNDDGILVHRYGPHIFHTNAPRIVEYLSRFTEWRPYEHRVLAEVDGQQVPIPINLTTLNRLYGLDLDEAGAERFLASRAEPVADIRTSEDVVINQIGRELYEKFFRGYTRKQWGLDPSQLDKSVTSRVPTRTNADDRYFGDSFQMMPLHGYTRMFEKMLDHPNIKVMVNTDFKEIRDEVQYDHLVYCGPIDEYFGYCYGKLPYRSLRFQHETVDRERFQPVAVVNYPAEDVPYTRITEYKHLTGQQHHKTSLTYEYPSAEGDPYYPIPRPENAELYKRYQALADATPGVTFLGRLGTYRYYNMDQVVGQALALYKRIEEAEHPQAEVELEEPLARQAT	PGPT0022675_521	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GLYCAN_BIOSYNTHESIS,PGPT0022675-glf-K01854	NA	NA
BMS010_05230	1197			hypothetical protein	ATGAGCTGGGCGGGGCCTTTCCAATACGACCTCGGTAAATCCCGCACGTCGAATGCCGGTGCAGCACCGGCGCCGGACGTTCAGTACGCACCCGACGCACCGATCCTGCTGTGTCTCTCGCACTTGCGCTGGAGCTTCGTCTACCAGCGGCCGCAGCATCTGATGGCACGTTTTGCCCGCGACTATCCGGTGCTGTTCTTCGAGGAACCCATCGCCAGCGATGAGCCCCGGCCCTGGCTGGAATCCCGTCGCGAGGAAGGCGGCGTCGAGGTGCTGGTGCCGCGTCTGCCGCATGGCTGGGTAGGATGGGAGGCGGAACAGGCACAGCGCGAACTGCTCGATGGCTTCCTTGCCGAACGCGGCCGGGAGCGGTTGATTCTCTGGTACTACACGCCGATGAGCCTGGCCTTCACCGATCACCTGAAGGCGGACGCGGTGGTCTACGACTGCATGGACGAACTGTCCGCCTTCCGCGGCGCGCCGCCGGAACTGGTGACGCGCGAACGTGAGCTGCTGGCCCGGGCCGACCTGGTGTTCACCGGCGGCTACAGCCTGTACGAGGCCAAGCGCGAGCTGCATGCCAACGCCCACCCCTTCCCCAGCAGCGTCGACATCGCCCATTTCGGTGCGGCCCGCGATCCGCAGCCGGACCCGGCCGACCAGGCGTCGATCGGCCGTCCGCGCCTGGGCTTCTACGGGGTGATCGACGAACGCTTCGACGTCGAGCTGCTCGCCGCCGTCGCCGAGCGGCGACCGGACTGGCAGTTCGTGATGATCGGCCCGGTGGTGAAGATCGACCCGGCCAGCCTGCCGCAGCGACCCAGCGTGCACTTCCTCGGCGGCAAGGTCTACGACGAGCTGCCGCAGTACCTGGCCGGCTGGGACGTGGCGTTGATGCCCTTCGCGCTGAACGAATCGACCCGTTTCATCAGCCCGACCAAGACCCCCGAATACCTCGCCGGCGGTTGTCCGGTGGTGTCCACGCCGATCACCGATGTGGTGCGTACCTACGGCGACAGCGGCGTGGTGCGCATCGCCGGGAGCGCCGACGAGTTCGTCGGCGCCTGTGAAGCTGCCTTGCGCGACGCCGCCGACCGCGACCGCCTGCTGCGCACCGCCGATGCGGTGCTGGCCGACATGTCCTGGGATACCACCTGGGCCCAGATGAAGGAGAAGATCGAATGCGCGATGAACTGA	MSWAGPFQYDLGKSRTSNAGAAPAPDVQYAPDAPILLCLSHLRWSFVYQRPQHLMARFARDYPVLFFEEPIASDEPRPWLESRREEGGVEVLVPRLPHGWVGWEAEQAQRELLDGFLAERGRERLILWYYTPMSLAFTDHLKADAVVYDCMDELSAFRGAPPELVTRERELLARADLVFTGGYSLYEAKRELHANAHPFPSSVDIAHFGAARDPQPDPADQASIGRPRLGFYGVIDERFDVELLAAVAERRPDWQFVMIGPVVKIDPASLPQRPSVHFLGGKVYDELPQYLAGWDVALMPFALNESTRFISPTKTPEYLAGGCPVVSTPITDVVRTYGDSGVVRIAGSADEFVGACEAALRDAADRDRLLRTADAVLADMSWDTTWAQMKEKIECAMN	PGPT0022675_30	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GLYCAN_BIOSYNTHESIS,PGPT0022675-glf-K01854	NA	NA
BMS010_05231	1056	galE_4	COG1087	UDP-glucose 4-epimerase	ATGATTTTGGTAACCGGGGGTGCGGGTTACATCGGTTCGCATACCGTGCTGGAACTGCTCGAAGCCGGCCATCGTGTCGTGGTGCTGGATAACCTGTGCAACAGCTCGCGGCTGGCGCTGGAGCGCGTGGAGCAACTGACCGGGAAACGGGTCGAGTTCGTCCTCGGTGACATCCTCGACCGCGACCTGCTGGAGCGCGTCTTCCGCGATTATCCGATCGAAGCCGTGATGCACTTCGCCGGGCTGAAGGCGGTGGGCGAGAGCGTCCGCGAGCCGCTGCACTACTACGAAACCAACGTCGGCGGCAGCATCGCGCTGTGCCAGGCGATGCGCAACGCGGGGGTCTACAAGCTGGTCTTCAGCTCCTCGGCGACCGTCTACGGCGAATCGGTGAGCATGCCGATCCGCGAGGACTGCCCCACCGGCATCCCCACCAACCCCTATGGCCAATCCAAGCTGATGGCGGAAAACGTCCTCAAGGGACTGGCCAACTCCGATCCGTGCTGGTCCATCGGCCTGCTGCGCTACTTCAACCCCATCGGCGCCCACCCGTCCGGCCGGATCGGCGAAGACCCCAACGGCATCCCCAACAACCTGCTGCCCTATATGCTGCAAGTGGCGGTGGGGCGCCTGAAGCGCCTCAGCATCTACGGCAACGACTACCCCACCGCCGACGGCACCGGCGTGCGTGACTACATCCATGTGGTGGACCTGGCCAAGGGGCATCTCAAGGCCCTGGAACGACTCGATCGCCAGCAGGGCGTCTCGGTCTGGAACCTCGGCACCGGCCAGGGCTACTCGGTACTGCAAATGGTGCGCGCCTTCGAAGAGGTGATCGGCCGGCCGCTACCGCACCGCTTCGTCGCCCGCCGGCCGGGAGACATCGCCCAGTGCTGGGCCGACCCCGGCAAGGCCCTGCGCGAACTGGGCTGGCACGCCGAACGCGACCTGCACGCCATGCTCAGTGACGCCTGGCGCTGGCAGACCCAGAACCCCAACGGCTACCGCGAGCCGGCCCGCAAGCCGGAAAAGGTCAAGGTTTCGCTGGCCAGCTAA	MILVTGGAGYIGSHTVLELLEAGHRVVVLDNLCNSSRLALERVEQLTGKRVEFVLGDILDRDLLERVFRDYPIEAVMHFAGLKAVGESVREPLHYYETNVGGSIALCQAMRNAGVYKLVFSSSATVYGESVSMPIREDCPTGIPTNPYGQSKLMAENVLKGLANSDPCWSIGLLRYFNPIGAHPSGRIGEDPNGIPNNLLPYMLQVAVGRLKRLSIYGNDYPTADGTGVRDYIHVVDLAKGHLKALERLDRQQGVSVWNLGTGQGYSVLQMVRAFEEVIGRPLPHRFVARRPGDIAQCWADPGKALRELGWHAERDLHAMLSDAWRWQTQNPNGYREPARKPEKVKVSLAS	PGPT0017825_19	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GALACOTOSE_METABOLISM|DEGRADATION,PGPT0017825-galK-K01785	NA	NA
BMS010_05232	954	trpI		HTH-type transcriptional regulator TrpI	ATGAGCCGAGACCTACCTCCGCTGAATGCCTTGCGAGCCTTCGAGGCTGCTGCTCGCCTGCAAAGCATCAGCCGCGCCGGCGCGGAGTTGCACGTCACCCACGGGGCCATAAGCCGACAGATTCGTGCGCTGGAAGAACAACTAGGGGTCAGTCTGTTCGACAAGGATGGCCGTGGGGTGAAACTTACCGGTGCCGGCGTGCGCCTGCGTGATGCCGCGTCCGATGCATTCGAGCGGTTGCGCGGTGCTTGCGCCGAGCTGAAACGGCACCAGGCCGATGCCCCGTTCGTCCTCGGCTGTCCGGGCAGCCTGCTGGCGCGCTGGTTCATTCCGCGCCTGGACCGGCTCAACCGCGCCTTGCCGGAATTGCGCCTGCAACTCTCGTCCAGCGAAGGCGACCTCGACCCGCGCCGCCCCGGCGTGGACGCCACCCTGCTGTTCGCCGAAAAGCCCTGGCCGGCTGATATGCAGGTCTTCGAACTGGCGGCCGAATGCATCGGCCCGGTGCTCAGCCCCCGCTATGCCCGATCAGCCGAACTGAGCGGTGCGGCACCGGACGCATTGCTGAGTGAGGCCCTGCTGCACACCGCCTCGCGCCCGCAGGCCTGGCCTAACTGGGCTGCCGCCAACGGCCTACCGCCCGCGGCGCTGCGCTATGGACAGGGATTCGAGCACCTGTATTACCTGCTGGAAGCGGCGGTGGCGGGTCTCGGCGTGGCCATCGCCCCCCAGCAACTGGTGGCGGACGACCTCGCCGCCGGCCGACTGATCGCCCCCTGGGGCTTCGTCGAAACCCCGGCGCGACTGGCGCTGTGGGTGCCGGCCCGGCACAACGACCCCCGTGCCGAGCGGTTGGCGGCGTGGTTGCGGGCTCAACTGAGGCCCGCTTCGGAAGCTGATCTACGGAGTAAAAAATGGGCGCAAGATGCGCCCATGCTGCCCAAGTCGCCTTAG	MSRDLPPLNALRAFEAAARLQSISRAGAELHVTHGAISRQIRALEEQLGVSLFDKDGRGVKLTGAGVRLRDAASDAFERLRGACAELKRHQADAPFVLGCPGSLLARWFIPRLDRLNRALPELRLQLSSSEGDLDPRRPGVDATLLFAEKPWPADMQVFELAAECIGPVLSPRYARSAELSGAAPDALLSEALLHTASRPQAWPNWAAANGLPPAALRYGQGFEHLYYLLEAAVAGLGVAIAPQQLVADDLAAGRLIAPWGFVETPARLALWVPARHNDPRAERLAAWLRAQLRPASEADLRSKKWAQDAPMLPKSP	PGPT0026360_1427	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
BMS010_05233	501			hypothetical protein	ATGAAGCACGGAATGAAGATAGCGGGAATGGCACTTGCTGTGATGGTGGGAGCGGCCCAGGCACAAACGACGGAGCTGGATGGGATCGGCGTATCCCGCGACGTGCCCTGTAACGGCCAGGACGTAAGCATCAGCGGCAACGGCAATCGGTTTCGCCTGAGTGGCGGCTGCGGCCAGGTCGTAGTGCATGGCTCGGAGCAAAGGATCGAACTTGGCGACGCGAGCCGTGTGGAGATCACCGGCGTTGGAAACCAGGTACAAGCCGGACGGATTAACCAACTGGATGTGAGCAGCACCGGGCATCGGGTGAAGGCCACTCTGCATGGTGAGGCCGAGCGGCCGGCACAAGTCATGGTATATGGCGCGGAGAATATTCTGACCCTCGGCTTCGAGGGCCCCGCGCAGGTGGATATCAGTGGTACTGGCCAGCAGCTCGACTGGCGCGGAGACGAGCCGCAAATCTCCACCAGCGGTGTCGATCATCGGATCGAGCGACACTAG	MKHGMKIAGMALAVMVGAAQAQTTELDGIGVSRDVPCNGQDVSISGNGNRFRLSGGCGQVVVHGSEQRIELGDASRVEITGVGNQVQAGRINQLDVSSTGHRVKATLHGEAERPAQVMVYGAENILTLGFEGPAQVDISGTGQQLDWRGDEPQISTSGVDHRIERH				NA	NA	NA	NA	NA
BMS010_05234	1215	trpB_2	COG0133	Tryptophan synthase beta chain	ATGACCTCATACCGCACCGGCCCCGACGCCACCGGCCTGTTCGGCCAGTTCGGCGGGCAGTACGTCGCCGAAACCCTGATGCCGCTGATCCACGACCTGGCCGCCGAGTACGAGAAGGCCAAGACCGATCCGGCGTTTCTCGAGGAACTCGCCTACTTCCAGCGCGATTACGTCGGCCGGCCGAGCCCGCTGTACTTCGCCGAACGCCTCACCGAACATTGCGGCGGCGCGAAGATCTACCTCAAGCGCGAAGAGCTGAACCACACCGGCGCGCACAAGATCAACAACTGCATCGGCCAGATCCTCCTGGCCCGGCGCATGGGCAAGCAGCGCATCATCGCCGAGACCGGCGCCGGCATGCACGGCGTGGCCACCGCCACCGTGGCCGCGCGCTTCGGCCTGCAGTGCGTGATCTACATGGGCACCACCGACATCGACCGCCAGCAGGCCAACGTCTTCCGTATGAAGCTGCTGGGCGCCGAGGTGATCCCGGTCACCGCCGGCACCGGCACCCTCAAGGACGCGATGAACGAAGCCCTGCGCGACTGGGTGACCAACGTCGAGACCACCTTCTACCTGATCGGCACCGTCGCCGGCCCGCACCCGTACCCGGCCATGGTCCGCGACTTCCAGGCGGTGATCGGCAAGGAGACCCGCGAGCAGCTGATGGAGAAGGAAGGGCGCCTGCCCGACAGCCTGGTCGCCTGCATCGGCGGCGGCTCCAACGCCATGGGCCTGTTCCACCCGTTCCTCGACGATGCCAGCGTGAAGATCGTCGGCGTCGAAGCCGCCGGCCACGGCATCGAGACCGGCAAGCACGCGGCCAGCCTGAACGGCGGCGTGCCCGGCGTACTGCACGGCAACCGCACCTTCCTGCTGCAGGACGAAGACGGCCAGATCATCGATGCTCACTCGATCTCCGCCGGTCTCGACTACCCGGGCATCGGCCCGGAACACGCCTGGCTGCACGACATCGGCCGCGTCGAGTACACCTCGATCACCGACCACGAGGCCCTGGCCGCCTTCCACCAGTGCTGCCGCCTGGAGGGCATCATCCCCGCGCTGGAGTCGTCCCACGCCCTGGCCGAAGCCTTCAAGCGCGCGCCGACGCTGCCCAAGGACCACCTGATGGTGATCAACCTGTCCGGCCGCGGCGACAAGGATATGCAGACCGTCATGCACCACATGCAGGAACAGAAGGAGTCCGTCGTATGA	MTSYRTGPDATGLFGQFGGQYVAETLMPLIHDLAAEYEKAKTDPAFLEELAYFQRDYVGRPSPLYFAERLTEHCGGAKIYLKREELNHTGAHKINNCIGQILLARRMGKQRIIAETGAGMHGVATATVAARFGLQCVIYMGTTDIDRQQANVFRMKLLGAEVIPVTAGTGTLKDAMNEALRDWVTNVETTFYLIGTVAGPHPYPAMVRDFQAVIGKETREQLMEKEGRLPDSLVACIGGGSNAMGLFHPFLDDASVKIVGVEAAGHGIETGKHAASLNGGVPGVLHGNRTFLLQDEDGQIIDAHSISAGLDYPGIGPEHAWLHDIGRVEYTSITDHEALAAFHQCCRLEGIIPALESSHALAEAFKRAPTLPKDHLMVINLSGRGDKDMQTVMHHMQEQKESVV	PGPT0007075_1925	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007075-trpB-K01696	NA	NA
BMS010_05235	807	trpA_2	COG0159	Tryptophan synthase alpha chain	ATGAGCCGCCTGCAGACGCGCTTCGCCGAACTGAAAGAACAGAACCGCGCCGCCCTGGTGACCTTCGTCACCGCCGGCGATCCCGGCTACGACGCTTCCCTGGCGATCCTCAAGGGCCTGCCGAAAGCCGGTGCCGACGTGATCGAACTGGGCATGCCGTTCACCGACCCGATGGCCGACGGCCCGTCGATCCAGCTCGCCAACATCCGCGCCCTGGCGGCCAAGCAGGACCTGGTCAAGACGCTGCGGATGGTCCGCGAGTTCCGCCAGGACGACCAGAGCACCCCGCTGGTGCTGATGGGCTACTTCAACCCGATCCACAAGTACGGCGTGCCGCGCTTCATCGCCGACGCCAAGGAAGCCGGCGTGGACGGCCTGATCGTGGTCGATTTGCCGCCGGAGCATAACGTCGACCTGTGCGACCCGGCCCAGGCCACCGGGCTGGACTTCATCCGCCTGACCACCCCGACCACCGACGACAAGCGCCTGCCCAAGGTGCTGAACGGCAGCTCCGGCTTCGTCTATTACGTCTCGGTGGCCGGCGTCACCGGCGCCAATGCGGCGACCCTGGAGCACGTCGAGCAGGCCGTCGCCCGCCTGCGCCGGCATACCGAGCTGCCGGTGTGCATCGGCTTCGGTATCCGCACCCCGGAGCACGCGGCGAGTGTCGCCCGTCTGGCCGACGGCGTGGTGGTGGGTTCTGCCCTGGTGGACCGCATCGCCAAGGCGGAAACGCCCGGGCAGGCCGTCGAGGATGTCCTCGGCCTGTGTCGCGAACTGGCCGAAGGCGTGCGCGCCGCACGCTGA	MSRLQTRFAELKEQNRAALVTFVTAGDPGYDASLAILKGLPKAGADVIELGMPFTDPMADGPSIQLANIRALAAKQDLVKTLRMVREFRQDDQSTPLVLMGYFNPIHKYGVPRFIADAKEAGVDGLIVVDLPPEHNVDLCDPAQATGLDFIRLTTPTTDDKRLPKVLNGSSGFVYYVSVAGVTGANAATLEHVEQAVARLRRHTELPVCIGFGIRTPEHAASVARLADGVVVGSALVDRIAKAETPGQAVEDVLGLCRELAEGVRAAR	PGPT0007070_2059	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007070-trpA-K01695	NA	NA
BMS010_05236	384			hypothetical protein	ATGCCGCTGAAAAAACTCCATCACGTCGCCCTGATCTGCTCGGACTACCCGCGCTCGAAGCACTTCTACACCCAGGTGCTGGGGCTGGAAGTGATCGCCGAGACCTACCGCGCCGAACGCGACTCCTGGAAGCTCGACCTGCGCCTGGGCGACAGCCAACTGGAACTGTTCTCCTTCCCCGGCGCGCCGCCCCGCCCGTCCTACCCGGAGGCCCGTGGGCTGCGACACCTGGCGTTCGCGGTGGACGATCTGGACGCGGCAATCGCCGAACTCAATGCCCAGGGCGTGGCCACTGAACCGGTGCGTAGTGATGCGCTCACCGGCAAGCGCTTCACCTTCTTCGCCGACCCGGACCATTTGCCGCTGGAGCTCTACGAAGCCTGA	MPLKKLHHVALICSDYPRSKHFYTQVLGLEVIAETYRAERDSWKLDLRLGDSQLELFSFPGAPPRPSYPEARGLRHLAFAVDDLDAAIAELNAQGVATEPVRSDALTGKRFTFFADPDHLPLELYEA				NA	NA	NA	NA	NA
BMS010_05237	321	yqjD	COG4575	putative protein YqjD	ATGGGCCTGTTCAATTCACACCAGCCCACTACGGCCGAGCAGATCGAGCGAGAAATCCACAACCTGATGGCCGCCCTCGACGAACTCAAGCAAGGCGCCAGCAAGGAATCGCGGCACACCCTGGATAACCTGCGGGCGCGGGCCGAACACCTCTGGGAATATTCCTCCCCGCGCCTGGAGCGCATGTCGCTGCAAACGCGCCGGGCGGGGCAACTGGCCAACCAGTACGCCCACGAGCATCCCTGGTCCACCGCCGTGCTCGGCCTGGGCCTGATCGTCGGCGCCGCCACCCTGGTCGGCCTGATGCTGTCGCGGCGTTGA	MGLFNSHQPTTAEQIEREIHNLMAALDELKQGASKESRHTLDNLRARAEHLWEYSSPRLERMSLQTRRAGQLANQYAHEHPWSTAVLGLGLIVGAATLVGLMLSRR				NA	NA	NA	NA	NA
BMS010_05238	672			hypothetical protein	ATGAAGAACGCTGAAACCCGTGTGCTCAAACTCGCCCTTTACGGGGCGCATTCGAGCCTGGGCAGCGCGCTGCTGAGCGAGTGGCTCAGCCGTCAACATGAAGCGGTAGCGGTGGTCGGCGACCTTAACGCCATCGACGTACACCCCGGCCTGCGCGCCAAGCTCGGCGATCTGTACGACCCGCTGAGCGTCAGCGAGAGCGTGGCCGGGATGGATGCCGTGGTGATCTATCACCAGGCGTCAAACCTGCCCGACGGCGCCGCCGACAGACCGCCGAACAGTGCCGGTTCTCCCCTGGACATGCTGGCGGCGCTGAACGTCGGCCTGCTCCGGGTCGGGGTAAAACACCTGTTGCTGATCATCGAGCCCGACCTGATCGGCGACGCCGAGCGCCATCTGTTGCTCGACGGCCCGCTGGACTGGACCCTGGTCACGCCGCCGCCGATCACTTGGCGCTTCGACCTCGACGATTTCCGCGACGCCGTGCATGCCGATCCGGACAGCGAGCTGTATCGCCTGCGCCGCTTCGCCGCCGCCCTGGCCGACGAACTGGAGTCGCCGCAGCACCTGCGCCAGCGGATCACGATCCGCTATACGGCTCCCGACGACGTTGCGTTCTCTTCGGCCAGCTCCGCCTGTAACCAGTCGACGAAGCGCTGGGTCAACCGCTGA	MKNAETRVLKLALYGAHSSLGSALLSEWLSRQHEAVAVVGDLNAIDVHPGLRAKLGDLYDPLSVSESVAGMDAVVIYHQASNLPDGAADRPPNSAGSPLDMLAALNVGLLRVGVKHLLLIIEPDLIGDAERHLLLDGPLDWTLVTPPPITWRFDLDDFRDAVHADPDSELYRLRRFAAALADELESPQHLRQRITIRYTAPDDVAFSSASSACNQSTKRWVNR	PGPT0020900_1670	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020900-putative_saccharopine_dehydrogenase-K07118	NA	NA
BMS010_05239	933	gcvA_7		Glycine cleavage system transcriptional activator	ATGCAAGAAACCTCTTCCGCGATGCCGCTCGACCTGCTCAGGGTGTTCGAGTCCGCCGGCCGCCAGTTGAGTTTTACCGCTGCCGCCCTGGAGCTGGGCACCACCCAGCCGGCGGTGAGCCAGCAGATCAAGCGGCTGGAAAAGCAGCTCGGTGCGCGGCTGTTCGACCGGGTCTACCGGGGTATCGAACTCACCGAAGCCGGCCGCGTCCTGCTGGAGCATGTGCAGGCCGGGCTTGCGGCCATCGAGGAAGGTATCGAGGCGGTCACCGCCCGGCCGCAGCACGAGGTGTTGCAGGTGGCCACCGACTTCGCCTTTGCTGCGTACTGGCTGATGCCTCGCCTGCCGCGCTTCCACCAGCTCCACCCGGAGATCGACGTCAGCTTGGTGACCAGCGACCGCGGGCTCAACCTGCTGCGCTCCGACATCGACGTCGCCGTGGCTTTCGGCGACGGCCGTTTCAAGCACGGCGAAGCGCAACTGCTGTTCATCGAAGAGGTGTTCCCCATTGCCAGCCCGAGGCTGCTGGAAGGCCGGCAACTGCCCCTGGCGCCGTCGGCCCTGGCGGATTTTCCGCTGCTGCATTTGAAGCCGGAAACGCGCAGTCGCTGGTTCGACTGGAGCGGCCTGTTCCGCGCTCTCGGCATCGCCCAGGCGCCCGTTCCGGGCCTGCTGCGCTTCGACAACTACACCCTGCTGATCCAGGCGGCGCTCGCCGGGCAGGGCGTGGCCATCGGCTGGCGCCACTTGGTCGATGACCTGCTGGAACAGGGGCTGCTCTGTCCGCTGCTGAAGGAGCGGGTACGCTCGTCGTACGGCTATTACCTGGTGCTGCCGGAGCGCAAGCGGCGTCAGCGGTTGACCCAGCGCTTCGTCGACTGGTTACAGGCGGAGCTGGCCGAAGAGAACGCAACGTCGTCGGGAGCCGTATAG	MQETSSAMPLDLLRVFESAGRQLSFTAAALELGTTQPAVSQQIKRLEKQLGARLFDRVYRGIELTEAGRVLLEHVQAGLAAIEEGIEAVTARPQHEVLQVATDFAFAAYWLMPRLPRFHQLHPEIDVSLVTSDRGLNLLRSDIDVAVAFGDGRFKHGEAQLLFIEEVFPIASPRLLEGRQLPLAPSALADFPLLHLKPETRSRWFDWSGLFRALGIAQAPVPGLLRFDNYTLLIQAALAGQGVAIGWRHLVDDLLEQGLLCPLLKERVRSSYGYYLVLPERKRRQRLTQRFVDWLQAELAEENATSSGAV	PGPT0026360_3451	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
BMS010_05240	1509	betC_1	COG3119	Choline-sulfatase	ATGAAGCGTCCGAACATCCTCTTCATCATGGCCGACCAGATGGCCGCGCCGATCCTGCCGATCCACGACCCGGCCTCGCCGATCAAGATGCCGAACCTCAGCCGCCTCGCCGCCGAGGGTGTGGTCTTCGATGCCGCCTACTGCAACAGCCCGCTGTGCGCGCCCTCGCGCTTCAGCCTGGTGAGCGGCCAGTTGCCGTCGAAGATCGGCGCCTACGACAACGCCGCCGACTTCCCGGCCGACGTGCCGACCTATGCCCACTACCTGCGCCGCCTCGGCTACCGCACCGCGCTATCCGGCAAGATGCACTTCTGCGGCCCGGACCAGTTGCACGGCTACGAGGAACGCCTGACCAGCGACATCTACCCGGCCGACTACGGCTGGGCGGTGAACTGGGACGAGCCGGAGGTGCGGCCGAGCTGGTACCACAACATGTCGTCGGTGCTGCAGGCCGGCCCCTGCGTGCGCACCAACCAGCTGGACTTCGATGAAGAAGTGCTGTTCAAGGCGCAGCAATACCTCTACGACCATGTGCGCGGCGACGATACCCGGCCGTTCTGCCTGACAGTGTCGATGACCCATCCCCACGACCCCTACACCATCCCGGCCAAATACTGGAACCGCTACCAGGACGACGACATTCCGCTGCCGCGCCAGACGATTCCCCAGGCCGAGCAGGACCCGCACTCGCAGCGCCTGCTCAAGGTCATCGACCTCTGGGACAAGCCGCTGCCGCCAGAAAAGATCCGCGACGCCCGCCGCGCCTACTTCGGCGCCTGCAGCTACATCGACGACAACATCGGCAAGCTGCTCGGCACCCTGGAAGCCTGCGGCCTGGCCGACGACACCCTGATCGTGTTCTCCGGCGACCATGGCGACATGCTGGGCGAGCGGGGACTCTGGTACAAAATGCACTGGTTCGAGATGGCCGCGCGGGTGCCGCTGCTGATTCATGCGCCGCGCCGCTTCGCAGCCCATCGGGTAGGTGCGGCGGTATCGACCATTGACCTGCTGCCGACCCTGGTCGAACTGGCCGGCGGCAGCCTGGAACCGCACCTGCCGCTGGATGGCCGCTCGCTGCTGCCGCACCTGGCGGGCGAGGGCGGCCACGACGAAGTGTTCGGCGAGTACATGGCCGAAGGCACCACCAGCCCGCTGATGATGATCCGGCGCGGGCGCTACAAATACATGCACTCGGAGCAGGACGCGCCGTTGCTCTTCGACGTGCTCGAAGACCCGCAGGAGCAGCGCAACCTGGCGCTCGATCCGGCCTATCGCGCACTGCTCGACGACTTCATCGGCGAAGCCCGCACCCGCTGGGACATCCCGGCAATCCATGCGGCGACCCTGGCCAGCCAGCGCCGCCGTCGCTTCGTCGCCGCCGCGCTGGAGCAGGGCACGCGCACCAGTTGGGACCACCAGCCTTGGGTCGATGCCAGCCAGCAGTACATGCGCAATCACATCGATCTGGACGATCTGGAGCGCCGGGCGCGCTATCCCAGGCCGTAG	MKRPNILFIMADQMAAPILPIHDPASPIKMPNLSRLAAEGVVFDAAYCNSPLCAPSRFSLVSGQLPSKIGAYDNAADFPADVPTYAHYLRRLGYRTALSGKMHFCGPDQLHGYEERLTSDIYPADYGWAVNWDEPEVRPSWYHNMSSVLQAGPCVRTNQLDFDEEVLFKAQQYLYDHVRGDDTRPFCLTVSMTHPHDPYTIPAKYWNRYQDDDIPLPRQTIPQAEQDPHSQRLLKVIDLWDKPLPPEKIRDARRAYFGACSYIDDNIGKLLGTLEACGLADDTLIVFSGDHGDMLGERGLWYKMHWFEMAARVPLLIHAPRRFAAHRVGAAVSTIDLLPTLVELAGGSLEPHLPLDGRSLLPHLAGEGGHDEVFGEYMAEGTTSPLMMIRRGRYKYMHSEQDAPLLFDVLEDPQEQRNLALDPAYRALLDDFIGEARTRWDIPAIHAATLASQRRRRFVAAALEQGTRTSWDHQPWVDASQQYMRNHIDLDDLERRARYPRP	PGPT0013620_482	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_CHOLINE-O-SULFATE|PHOSPHORYLCHOLINE_UTILIZATION,PGPT0013620-betC-K01133	NA	NA
BMS010_05241	927			hypothetical protein	ATGAAAAGACTCAACGCAGTACTCGCCGGCGGTTGTCTGCTGGCGGCCGCCACGTTCCACGCCCAGGCCGAGGACGCCAGCTGCGCCACGGTGAAGCTGGCCGATCCGGGCTGGAGCGACATCGCCGTGACCAACGGCATCGCGACCTTCCTGCTCGACGGCATGGGCTACCAGACCAAGGTCGATACCCTCGCGGTGCCGATCATCTTCGGCGGGCTCAAGGACGGTCTGGTGGATGCCTTCCTCGGCAACTGGATGCCGGCCCAGCAGAGCTACCACGACAAGTTCGTCGCCAACGGCGATGTGGAGCAGTTGGCGAAGAATCTGGAGGGCACTGAATTCACCCTGGCGGTTCCGACCTATGTCTGGGAAGCCGGGGTGAAGGATTTCGCCGACCTGAACAAATTCGCCGACCGCTTCAACCAGAAGATCTATGGCATCGGCTCGGGCGCACCGGCCAATCAGTCGCTCCAGCAGATCATCGCCAAGAACGAGTTCGACCTGGGCAAATGGCGGCTGGTGGAGTCGGGCGAACAGGCCATGCTCTCCGAGGTGTCCCGCGCGGTGAAGCGGCAGCGCTTCATTGTCTTCCTCGGCTGGACGCCGCATCCGATGAACGTGCAGATCGACATGCGCTACCTGAAGGGCGGCGAGGCCTACTTCGGCAGCAGCGGCAGCGTCTACACCCTGACCCGCAAGGGCTACCAGCAGGCTTGCCCGAACGCCGCCCGGCTGCTCGCCAACCTGAGCTTCACCCAGGAAATGGAGAACAGCATCATGGCCTCCGCGCTGGAGAAGAAGGGCAGCAACGCCGAGGCGGTGAAAGCCTGGATCGCGGCGCATCCCGAGGTGCTCGACCAATGGCTGGAAGGCGTGACCACCCGCGACGGCGGCGAAGCCCTGGCGGCGGTGAAGGCCAAGCTGTGA	MKRLNAVLAGGCLLAAATFHAQAEDASCATVKLADPGWSDIAVTNGIATFLLDGMGYQTKVDTLAVPIIFGGLKDGLVDAFLGNWMPAQQSYHDKFVANGDVEQLAKNLEGTEFTLAVPTYVWEAGVKDFADLNKFADRFNQKIYGIGSGAPANQSLQQIIAKNEFDLGKWRLVESGEQAMLSEVSRAVKRQRFIVFLGWTPHPMNVQIDMRYLKGGEAYFGSSGSVYTLTRKGYQQACPNAARLLANLSFTQEMENSIMASALEKKGSNAEAVKAWIAAHPEVLDQWLEGVTTRDGGEALAAVKAKL	PGPT0013640_3062	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013640-gbuC|proX-K02002	NA	NA
BMS010_05242	1569	dauA_1	COG0659	C4-dicarboxylic acid transporter DauA	ATGCGCCGTCCCGATCTGATCACGTTGCTCCCCTTCCTTGCCTGGTTGCCCCGGCAGAACCGCGCCAGCGTCGGCCAGGACCTACTGGTCGGCCTGACCGGCGCCATCCTCGCCCTGCCGCAATCCATCGCCTACGCGCTGATCGCAGGCCTGCCGGCGGAATACGGCCTCTACGCGGCCATCGTGCCGGTAATCGTCGCCTGCCTGTGGGGCTCGTCCTGGCACCTGATCGGCGGGCCGACCGCGGCCATTTCCATCGTGCTGTTCACCAGCGTCAGCCCGCTGGCGGCTCCCGGCAGCGCCGATTACGTCGGGCTGGTCCTGCTGCTGACCTTCCTCGCCGGGCTGTTCCAGTGGTTGCTCGGCCTGCTGCGCTTCGGCGCGCTGGTCAACTTTGTTTCGCACTCGGTGATCCTCGGCTTTACCCTTGGCGCGGCCGTGGTGATCGCCCTCGGCCAGGTACCCAACCTGTTCGGCCTCGACCTGCCCAGCCAGGCCACCGCGCTGCAAAGCCTGCTGGCGCTGGGCGAGCACCTGCGCGACATCCATTGGCCGTCGCTGCTGGTGGCCCTGGTGGCCCTGGCCGTGGCGCTGCTGGTGCGGCGTTTGCTGCCACGCTGGCCGGCGTTGCTGCTGGGCATCCTGGCCGGTGGCGCGCTGGTGGCGGCCCTGCCGCAGTGGATGAGCGGCGTTCCGCTGGTCAGCACCTTCGAAGGCCGGCTGCCGCCCTTCAGTCCGCTGCAGTTCGACTTGGATATGCTGCTGCGTCTGCTGCCGGCCGCCGTCGCCTGCGGCATGCTCGGGCTGGTCACCAGCCTGTCCATTGCCCGCGCCCTGGCCGGCCGCTCGCAGCAGATGCTCAACGCCAACCTGGAAGTGCGCGGCCAGGGCCTGTCCAACATGATCGGCGCCTGGTTCTCGGCCTCGCTGTCGGCGGGCTCGTTCACCCGCTCGGCGCTGAACCAGCAGGCCGGTGCCCACTCGCCGCTGGCCGGGGTGTTCTCCGCGCTCTGGGTCGCCCTGTTCACCCTGTTCGGCGCCCGCCTGATCGAACACATCCCGCTGCCGGCCATGGCGGCGAGCATCCTACTGATCTGCTGGGGATTGGTGGACATCCATGGCGTTCGCGCGCTCTGGCGGGTAAGCCGTTCGGAATTCCTGGTGATGAGCCTGACCTTCGCCGCCACGCTGCTGCTGGAGTTGCAGACCGCCATCTACGCCGGGGTGCTGGCGTCGCTGTTCTTCTACCTCAAGCGCACCTCGCGGCCACGGGTGCAGCAATGGCGGGAAGGGGAAGACGACGTCCTGCGCCTGGAAGGCTCCATCTTCTTCGGCGCCTGCCCTTATCTGCAGCACCGCCTGCAACGCTGCGAAGGAGCACGGGTGATCGTCGAGGCGCAGCAGGTCAACTTCATCGACTACGCCGGGGTCGAGATGCTGCATCAGGAAGCCCGCCGCCTGCTCGGCCAGAACCGCAGCCTGACGCTGCGCCAGGCCCGCCCGCAGGTGGTGGAGGAACTGCTGAAACTGGAAGGACCGGAGCATTGCCCGGTCCTGTTCGAGACTTAA	MRRPDLITLLPFLAWLPRQNRASVGQDLLVGLTGAILALPQSIAYALIAGLPAEYGLYAAIVPVIVACLWGSSWHLIGGPTAAISIVLFTSVSPLAAPGSADYVGLVLLLTFLAGLFQWLLGLLRFGALVNFVSHSVILGFTLGAAVVIALGQVPNLFGLDLPSQATALQSLLALGEHLRDIHWPSLLVALVALAVALLVRRLLPRWPALLLGILAGGALVAALPQWMSGVPLVSTFEGRLPPFSPLQFDLDMLLRLLPAAVACGMLGLVTSLSIARALAGRSQQMLNANLEVRGQGLSNMIGAWFSASLSAGSFTRSALNQQAGAHSPLAGVFSALWVALFTLFGARLIEHIPLPAMAASILLICWGLVDIHGVRALWRVSRSEFLVMSLTFAATLLLELQTAIYAGVLASLFFYLKRTSRPRVQQWREGEDDVLRLEGSIFFGACPYLQHRLQRCEGARVIVEAQQVNFIDYAGVEMLHQEARRLLGQNRSLTLRQARPQVVEELLKLEGPEHCPVLFET	PGPT0003020_3364	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SULFATE|THIOSULFATE_TRANSPORT,PGPT0003020-TC_SULP-K03321	NA	NA
BMS010_05243	825	aroE_2	COG0169	Shikimate dehydrogenase (NADP(+))	ATGGACCGCTACGGCGTTTTCGGCAACCCCATCGGCCACAGCAAGTCGCCGCTGATCCACCGGCTGTTCGCCGAGCAGACCGGCCAGGCGCTGACCTATGAGGCCCTGCTGGCCCCGCTGGACGATTTCACCGGGTTCGCCCGTACCTTCTTCCGCGACGGCAAGGGCGCCAACGTCACCGTGCCGTTCAAGGAAGAGGCGTTCCGCCTGGCCGACAGCCTGACCGCCCGCGCCGAACGCGCCGGGGCGGTGAATACCCTGAAGAAGCTCGACGACGGCAGCCTGCTCGGCGACAACACCGACGGTGCCGGGCTGGTGCGCGACCTGACGGTGAACGCGGGCTGCTCATTGACCGGCAAGCGCATCCTGCTGCTCGGTGCGGGTGGCGCGGTGCGTGGCGTGCTGGAGCCGTTCCTGGCGGAGCGCCCGGCCAGCCTGGTCATCGCCAACCGCACGGTGGAGAAGGCCGAGGCGCTGGCCCGGCAGTTCGCCGACCTGGGTCCGGTGGTGGCCAGCGGTTTCGACTGGATCGACGAGCCGGTAGACCTGATCGTCAACGGCACCTCCGCCAGCCTGGCCGGCGACCTGCCGCCGATCTCGCCGAGCCTGATCCGCCCGGGTCATACGCTGTGCTACGACATGATGTACGGCAAGGAACCCACCGCCTTCTGCCGCTGGGCCAGCGAACACGGCGCGGCGCGGGCGCTGGATGGCCTGGGCATGCTGGTGGAGCAGGCCGCCGAGGCATTCTTCCTCTGGCGAGGCGTGCGTCCGGACAGTGCGCCGGTGCTGGCCGAGGTTCGCAGGCTGGTTCTGGCCGGCTGA	MDRYGVFGNPIGHSKSPLIHRLFAEQTGQALTYEALLAPLDDFTGFARTFFRDGKGANVTVPFKEEAFRLADSLTARAERAGAVNTLKKLDDGSLLGDNTDGAGLVRDLTVNAGCSLTGKRILLLGAGGAVRGVLEPFLAERPASLVIANRTVEKAEALARQFADLGPVVASGFDWIDEPVDLIVNGTSASLAGDLPPISPSLIRPGHTLCYDMMYGKEPTAFCRWASEHGAARALDGLGMLVEQAAEAFFLWRGVRPDSAPVLAEVRRLVLAG	PGPT0012890_4010	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-PHENAZINE_DERIVATES	BIOTIC_STRESS_RESISTANCE-PHENAZINE-1-CARBOXYLIC_ACID_BIOSYNTHESIS,PGPT0012890-aroE-K00014	NA	NA
BMS010_05244	987	hemF_2	COG0408	Oxygen-dependent coproporphyrinogen-III oxidase	ATGCTAGCGCCCCTGTTCGGCCGCCAGCCCGCATGGGCTCTGCCTCCGCCCTGTTGCAAGGTGATTCTCGTGAGTATTCAAACCGAGGCCGTTAAGGCCTATCTGCTCGATCTGCAGGACCGTATCTGCGCCGCCCTGGAAGCCGAAGACGGCGGCGCGCGTTTCAGTGAAGACGCCTGGACCCGCCCGGCCGGTGGCGGTGGTCGTACCCGGGTGATCGCCGACGGTGCCGTGATCGAAAAGGGCGGTGTGAATTTCTCCCACGTGTTCGGTGCCGGCCTGCCGCCGTCGGCCAGCGCCCATCGTCCCGAACTCGCCGGTCGCGGCTTCGAAGCCCTGGGTGTGTCCCTGGTGATCCACCCGGAAAACCCCCACGTGCCGACCTCCCACGCCAACGTGCGCTTCTTCAGCGCGGAGAAGGAAGGCGAGGCGCCGGTCTGGTGGTTCGGCGGCGGCTTCGACCTGACGCCCTACTACGCCGTCGAAGAGGATTGCGTGCACTGGCACCAGGTTGCCCGCAAGGCATGCGAACCCTTCGGGGTGGATGTCTACCCGCGCTTCAAGGAATGGTGCGACCGCTATTTCCACCTCAAGCACCGCAACGAGCCGCGCGGCATCGGCGGCCTGTTCTTCGACGACCTGAACCAGTGGGACTTCGAGACCTGCTTCGCCTTCATGCGGGCTATCGGCGATGCCTACATCGAGGCGTACCTGCCCATCATCCAGCGCCGCAAGCTGACCCCCTACGGCGAGCGCGAGCGCGAGTTCCAGGCGTTCCGCCGTGGCCGCTACGTCGAGTTCAACCTGGTCTATGACCGCGGCACCCTGTTCGGCCTGCAATCCGGCGGTCGTACCGAATCGATCCTGATGTCGCTGCCGCCGCAGGTGCGCTGGGGCTACGACTGGAAGCCCGAGCCGGGTACCCCGGAAGCGCGTCTGACGGACTATTTCCTGACCGATCGCGATTGGCTCGCCGGCCAGTCGTGA	MLAPLFGRQPAWALPPPCCKVILVSIQTEAVKAYLLDLQDRICAALEAEDGGARFSEDAWTRPAGGGGRTRVIADGAVIEKGGVNFSHVFGAGLPPSASAHRPELAGRGFEALGVSLVIHPENPHVPTSHANVRFFSAEKEGEAPVWWFGGGFDLTPYYAVEEDCVHWHQVARKACEPFGVDVYPRFKEWCDRYFHLKHRNEPRGIGGLFFDDLNQWDFETCFAFMRAIGDAYIEAYLPIIQRRKLTPYGEREREFQAFRRGRYVEFNLVYDRGTLFGLQSGGRTESILMSLPPQVRWGYDWKPEPGTPEARLTDYFLTDRDWLAGQS	PGPT0003205_1482	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003205-hemF-K00228	NA	NA
BMS010_05245	978	qorA_2	COG0604	Quinone oxidoreductase 1	ATGGCCAAGCGTATCCAGTTCAAGGCCCACGGCGGGCCGGAAGTCCTCGAATTCGTCGACTACACCCCTGCGGAACCGGGTCCACGCGAAGTCCGCGTGCGCAACAAGGCCATCGGCCTCAACTTCATCGACACCTACTTCCGCAGCGGCCTCTATGCGCCGCCGGCCCTGCCGTCCGGCCTGGGCAGCGAAGGCGCCGGCGAGGTCGAGGCGGTGGGCAGCGAGGTGACCCAGTTCAAGGTGGGCGACCGCGTCGCCTATGCCACCGGCCCGCTGGGCGCCTACAGCGAACTGCACGTGCTGCCGGCGGAAAAGCTGGTCCGGTTGCCCGACTCGATCAGCTTCGAACAGGCGGCAGCGGTGATGCTCAAGGGCCTGACCGTGCAATACCTGCTGCGCCAGACCTATCCGCTGAAAGGCGGCGAGACCATCCTTTTCCACGCTGCCGCCGGCGGTGTCGGCAGCATCGCCTGCCAGTGGGCCAAGGCCCTCGGTGTGCAATTGATCGGCACCGTGGGTTCGGCGGAAAAGGCCGAACGCGCCAAGGCCCTGGGTGCCTGGGCGACTATCGACTACAGCCGCGAGGATGTGGTGAAGCGGGTGCTGGAACTGACCGATGGCAAGAAGTGCCCGGTGGTCTACGACTCGGTGGGCAAGGACACCTGGGAAACCTCGCTGGACTGCGTGGCCCCGCGCGGCCTGCTGGTCAGCTTCGGCAATGCCTCCGGCGCTGTCACCGGCATCAACCTCGGCATCCTGGCGCAGAAGGGTTCGCTGTACGTCACCCGACCGACCCTGGCTGGCTATGCCGATACCCCGGAACACCTGCAGGCCATGGCCGACGAGCTGTTCTCGATGATCGAGAGCGGCAAGATCCACGTGGAAATCGGCCAGCGCTTCGCCCTCGAGGACGCGGCCAAGGCACAAACGGAACTGGCCGGCCGCCGTACCACCGGCTCGACGGTACTTGTGCCGTAA	MAKRIQFKAHGGPEVLEFVDYTPAEPGPREVRVRNKAIGLNFIDTYFRSGLYAPPALPSGLGSEGAGEVEAVGSEVTQFKVGDRVAYATGPLGAYSELHVLPAEKLVRLPDSISFEQAAAVMLKGLTVQYLLRQTYPLKGGETILFHAAAGGVGSIACQWAKALGVQLIGTVGSAEKAERAKALGAWATIDYSREDVVKRVLELTDGKKCPVVYDSVGKDTWETSLDCVAPRGLLVSFGNASGAVTGINLGILAQKGSLYVTRPTLAGYADTPEHLQAMADELFSMIESGKIHVEIGQRFALEDAAKAQTELAGRRTTGSTVLVP	PGPT0013255_6301	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
BMS010_05246	555	tsaC	COG0009	Threonylcarbamoyl-AMP synthase	ATGGTCAGCAGTTGGCGTGCGCAGTACGTGGCGCGTGTAGTGTGGGAGGGGGGCGTAGTGGCTTATCCGACCGAGGCGGTGTGGGGACTGGGTTGCGATCCCTGGAACGGGGAAGCCGTCTACCGGTTGCTGGCGCTGAAGGATCGGCCTGTGGAAAAGGGCTTGATCCTTGTCGCCGACTCCATCCGCCAGTTCGATTTCCTCCTGGAGGACCTGCCGGAAGCCTGGCAGGACCGCCTGGCCAGCACTTGGCCGGGGCCGAACACCTGGCTGGTTCCCCACCAGAACCGTCTGCCCGAGTGGATCACCGGCCAGCACGACAGCGTTGCCCTGCGCGTATCCGATCATCCGCTGGTGCGCGACCTCTGCGCCCTCACCGGCCCGCTGGTGTCCACCTCGGCCAATCCGGGCGGCCGACCGGCGGCGCGCACGCGGTTGCGGGTCGAGCAGTACTTCCATGATCGCCTCGACGCCGTGCTCGGTGGCGCCTTGGGCGGTCGGAAGAACCCCAGCATCATCCGTGACTTGGTCAGTGGGCGGGTAGTAAGAGGATAA	MVSSWRAQYVARVVWEGGVVAYPTEAVWGLGCDPWNGEAVYRLLALKDRPVEKGLILVADSIRQFDFLLEDLPEAWQDRLASTWPGPNTWLVPHQNRLPEWITGQHDSVALRVSDHPLVRDLCALTGPLVSTSANPGGRPAARTRLRVEQYFHDRLDAVLGGALGGRKNPSIIRDLVSGRVVRG				NA	NA	NA	NA	NA
BMS010_05247	1104			hypothetical protein	ATGTCGCTCGCGACGACTACTTCCCTCACTCCCGCCGAACTCGAAGCCCGCCTGCGCCTGCACAGCCTGCCGGAACTCGGCCCTCGACGTTTCCGCCGCCTGCTCGATGCCTTCGAAAGCGCCTCCGCCGCCCTCAGCGCACCGGCCAGTGCCTGGCGCTCCCTGGGTTTGCCCGCCAGTTGCGCCGAGCCTCGGCGCAGTGCGGAAATCCGCGAACGTGCCGCCGCTGCCATGGCATGGCTGGAGCAGCCGGGGCATCACCTGCTGACCTGGGACGACCCACGCTACCCTGCCCTGCTTGGCGAACTGCCCGACGCACCTCCCCTGCTGTTCGTCGAAGGCGATCCCGTCATTCTCGAACGGCCTCAACTGGCCATGGTCGGCAGCCGTCGCGCGTCCGCCCCTGGGCTGGACACTGCCCGCGCCTTCGCCCGTAGCCTGGCCGGTGCCGGGTTCGTGATCACCAGCGGGCTGGCTCTGGGGATCGACGGCGCCGCGCACCAGGGAGCGCTGGATGGCGACGGGCTGACCGTCGCGGTGCTCGGAACAGGGCTGCGCTGCCTCTATCCGCATCGGCACAAGGCATTGGCGCAACGGATCGTCGCCCGCGGCGGTGCGCTGGTGTCGGAGCTGCCGCTGGATTGCCCGCCCCAGGCGAGCAACTTCCCCCGGCGCAACCGCATCATCAGCGGCCTGTCGCTGGGCGTGCTGGTTGTCGAGGCCAGCCCGTCCAGCGGCTCGTTGATCACGGCGAAGCTGGCGGCCGAACAAGGTCGTGAGGTCTATGCCATTCCCGGTTCCATCCACCATCCGGGCGCGCGGGGTTGCCATCAGCTGATCCGCGAGGGCGCCACCCTGGTGGAGACCATCGAGCACATCCTCGAAGCCCTGCGCGGCTGGCAGGTCCAGGCGCCGGCGGCCGCTCCCTCCGCCCAGGCTGGGCATCCGCTGCTGGCGCTGCTGCGGGCCGCACCCCAGAGCAGCGAAAGCCTGGCGGTGAACCTCGGCTGGGAGCTGCCACGGACCCTGGTCGCCCTCACCGAGCTGGAATTGGCGGGCCAGGTGGCCTGTGAAGCCGGCTGCTGGGTGTATCGCGCTGGTTGA	MSLATTTSLTPAELEARLRLHSLPELGPRRFRRLLDAFESASAALSAPASAWRSLGLPASCAEPRRSAEIRERAAAAMAWLEQPGHHLLTWDDPRYPALLGELPDAPPLLFVEGDPVILERPQLAMVGSRRASAPGLDTARAFARSLAGAGFVITSGLALGIDGAAHQGALDGDGLTVAVLGTGLRCLYPHRHKALAQRIVARGGALVSELPLDCPPQASNFPRRNRIISGLSLGVLVVEASPSSGSLITAKLAAEQGREVYAIPGSIHHPGARGCHQLIREGATLVETIEHILEALRGWQVQAPAAAPSAQAGHPLLALLRAAPQSSESLAVNLGWELPRTLVALTELELAGQVACEAGCWVYRAG				NA	NA	NA	NA	NA
BMS010_05248	1026			hypothetical protein	ATGAGGAAATCACTACTCGCCCTGCTGCTCCTCGCCGCGGGCGGTCTGGCGCAGGCTGCGGTAGAGCTGAAGGATGGTCATCCGGACCGCTATACCGTGGTGAAGGGCGACACGCTCTGGGACATTTCCGGCAAGTTCCTCCGCGAGCCGTGGAAGTGGCCGGAAATCTGGCACGCCAACCCGCAGATCCAGAACCCTCACCTGATCTACCCGGGCGATACGCTGAGCCTGGTCTACGTAGATGGCCAGCCGCGCCTGATGCTCAACCGCGGCGAATCGCGCGGGACCATCAAGCTGTCGCCGAAGGTCCGCAGCACGCCGATGGCCGAAGCGATCCCGACCATCCCGCTGGAAAAGATCAACAGCTTCCTGCTGTCCAACCGCATCGTCGATACACCCGAGCAGTTCGAGGGCCAACCCTACATCGTCGCCGGCAACGCCGAGCGCGTGGTGAGCGGCGCCGGTGATCGCATCTATGCTCGCGGTACCTTCGAGGAAGGCCAGCCCGTATACGGTATCTTCCGCCAGGGCCGCATCTACACCGACCCGGATACCAAGGAATTCCTCGGCATCAACGCCGATGACATTGGTACCGGCGAAGTGGTCGCCGAGGAAGGCGACATCGCCACCATGAGCCTGCTGCGCACCACCCAGGAAGTTCGTCTGGGCGACCGCCTGTTCCCCACCGAGGAACGTGCGGTGAACTCCACCTTCATGCCCAGCGCTCCGTCGAGCGACATCCAGGGCCTGATCCTCGATGTGCCGCGTGGCGTGACGCAGATCGGCCAGTTCGACGTGGTCACCATCAACAAGGGCAAGCGCGACGGCCTGGCCGAAGGCAACGTCCTGGCGGTGTACAAGACCGGCGAAACCGTACGCGACCGCGTGACCGGCGAATCGGTGAAGATCCCGGACGAGCGTTCCGGCCTGCTGATGGTGTTCCGCACCTACGAGAAACTCAGCTACGGCCTGGTGCTCGCCGCCAGCCGCCAGCTCGCGGTCATGGACAAGGTCCGCAACCCGTAA	MRKSLLALLLLAAGGLAQAAVELKDGHPDRYTVVKGDTLWDISGKFLREPWKWPEIWHANPQIQNPHLIYPGDTLSLVYVDGQPRLMLNRGESRGTIKLSPKVRSTPMAEAIPTIPLEKINSFLLSNRIVDTPEQFEGQPYIVAGNAERVVSGAGDRIYARGTFEEGQPVYGIFRQGRIYTDPDTKEFLGINADDIGTGEVVAEEGDIATMSLLRTTQEVRLGDRLFPTEERAVNSTFMPSAPSSDIQGLILDVPRGVTQIGQFDVVTINKGKRDGLAEGNVLAVYKTGETVRDRVTGESVKIPDERSGLLMVFRTYEKLSYGLVLAASRQLAVMDKVRNP				NA	NA	NA	NA	NA
BMS010_05249	507	def_2	COG0242	Peptide deformylase	ATGGCGATCCTGAACATCCTCGAATTTCCCGATCCGCGGCTGCGTACCATCGCCAAACCGGTGGAGACGGTGGACGACTCGCTGCGCCAGCTGATCGACGACATGTTCGAGACCATGTACGCCGCCCCTGGCATTGGCCTGGCCGCGACCCAGGTGAACGTGCACAAGCGCCTGGTGGTGATCGACGTCAGCGAGGACAAGACCCAGCCGCTGGTGTTCATCAACCCCGAGTTCGAACCGCTCACCGACGAACTGGACCAGTACCAGGAAGGCTGCCTGTCGGTACCCGGCTTCTACGAGAACGTCGAGCGTCCGCAACGTGTCCGGGTCAAGGCCCTCGACCGCAATGGCGAAGCCTTCGAAATGATCTGCGAAGGCCTGCTGGCGGTGTGTATCCAGCACGAGTGCGACCACCTCAACGGCAAGCTGTTCGTCGATTACCTGTCCAGCCTCAAGCGTGATCGCATCCGCAAGAAGCTGGAGAAACAGCACAGGCAACAGGCCTGA	MAILNILEFPDPRLRTIAKPVETVDDSLRQLIDDMFETMYAAPGIGLAATQVNVHKRLVVIDVSEDKTQPLVFINPEFEPLTDELDQYQEGCLSVPGFYENVERPQRVRVKALDRNGEAFEMICEGLLAVCIQHECDHLNGKLFVDYLSSLKRDRIRKKLEKQHRQQA	PGPT0008125_24	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008125-fmt-K00604	NA	NA
BMS010_05250	945	fmt_3	COG0223	Methionyl-tRNA formyltransferase	ATGACCCAGCCCCTGCGCATCGTCTTCGCCGGCACCCCGGAATTTGCCGCCGAACATCTCAAGGCCCTCCTCGACACCCCGCACCGGATCGTCGCCGTCTATACCCAGCCCGACCGCCCTGCCGGTCGCGGACAGAAGCTGATGCCGAGTCCGGTCAAGCAGCTTGCCGTTCAGCACGACATTCCCGTCCTCCAGCCGAAGACCCTGCGCGACCCGGATGCCCAGGCCGAACTGGCCGCCTTGCAGCCGGACCTGATGGTGGTGGTGGCCTATGGTTTGATCCTGCCCCAGGCGGTGCTGGATATTCCCCGCCTCGGCTGCATCAACAGCCATGCCTCGCTGCTGCCGCGCTGGCGCGGCGCGGCGCCGATCCAGCGCGCCGTGGAAGCCGGCGATGCGGAAAGCGGGGTCACCGTGATGCGCATGGAAGCCGGCCTGGACACCGGCCCGATGCTGCTCAAGGCGAGCACCCCCATCGAAACCGGCGACACCGGCGGCAGCCTGCACGACCGCCTCGCCGCCCTGGGTTCGAAAGCCGTGATCGAAGCTGTCGATGCCCTGGCCGCCGGCACGCTGGTGGGCGAGGTGCAAGACGATGCCCTGGCCACCTACGCGCACAAGCTGAACAAGGACGAAGCCCGTCTCGACTGGAGCCGCCCGGCCGTCGAGCTGGAGCGCCGCATCCGGGCCTTCACGCCCTGGCCGGTCTGTCACACCACCCTGAACGGCGAAACGCTGAAGGTGTTGGCTGCGGTCCCAGGCGAAGGCCGGGGCGATCCCGGCACCATCCTCGCCGCCAGCAAGGATGGCCTGACCGTCGCCTGCGGCGAAGGCGCCCTGCGTCTGACCCGCCTGCAACTCCCCGGCGGCAAGCCGCTGGCCTTCGCCGATCTGTTCAACAGCCGCCGCGAACAGTTCGCCCCGGGCCAGGTGCTGGGCGCATGA	MTQPLRIVFAGTPEFAAEHLKALLDTPHRIVAVYTQPDRPAGRGQKLMPSPVKQLAVQHDIPVLQPKTLRDPDAQAELAALQPDLMVVVAYGLILPQAVLDIPRLGCINSHASLLPRWRGAAPIQRAVEAGDAESGVTVMRMEAGLDTGPMLLKASTPIETGDTGGSLHDRLAALGSKAVIEAVDALAAGTLVGEVQDDALATYAHKLNKDEARLDWSRPAVELERRIRAFTPWPVCHTTLNGETLKVLAAVPGEGRGDPGTILAASKDGLTVACGEGALRLTRLQLPGGKPLAFADLFNSRREQFAPGQVLGA	PGPT0008125_3172	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008125-fmt-K00604	NA	NA
BMS010_05251	1320	rsmB_3	COG0144	Ribosomal RNA small subunit methyltransferase B	ATGAGTCTCAACCCCCGTCTGGCCGCCGCCCGCGCCCTGGCCGCCGTGCTGTCCGGCAAGGCATCGCTGGGCAGCAGCCTGCCGGCGCAACTGGACAAGGTCGAGCCACGCGACCGCAGCCTCACCCAGGATCTCGCCTACGGCGCCGCCCGCTGGCAGCCTCGCCTCGCGGCGCTGGCCGAACAGTTGCTGCAGAAGCCGTTCAAGGCCGCCGACAAGGATGTCGAAGCACTGCTGCTGATCGGCCTCTACCAATTGCTCTACACCCGTATCCCCGCCCACGCCGCCATCGGCGAGACCGTGGGCTGTGCCGACGCGTTGAAGAAAAGCTGGGCCAAGGGTCTGCTGAACGCCGTGCTGCGCCGCGTGCAGCGCGAAGGCGAAACCCTGCTGGCCGGGCTGGAACGCGATCCGGTGGTCCGCACCGCGCATCCGCGCTGGTTGCAGAAATCCTTGAAAGCCCACTGGCCCGAGCAATGGGAGGCGGTCTGCGCGGCAAACAACGCCCATCCGCCACTGATCCTGCGGATCAATCGCCGCCACGGCAGCCGCGAGGATTACCTGGCGGAGTTGCAGTCCGCCGGGATTCCCACCCACGCCTGCGCCTTCAGCCGCGACGGCATCGTTCTCGACGAGCCGCGCGACGTCACGACCCTACCGGGCTTCGCCGAAGGCCGGGTCAGCGTGCAGGACGAAGCTGCCCAACTGGCCGCCGACCTGCTCGAACTGGCCCCTGGCCAGCGTGTGCTGGACGCCTGCTGCGCACCGGGCGGCAAGACCTGCCACCTGCTGGAAGCGGAGCCGAAGCTGACCGAAGTGGTGGGTATCGACTTGGAAGCCAAGCGGCTCGAACGCGTGCGGGAGAACCTCGGGCGACTCGGCCTCGACGCTCGCCTGATCGCTGCCGATGCGCGCGATACCGCCACGTGGTGGGACGGCAAACCGTTCCAGCGCATCCTTCTCGACGCCCCCTGTTCGGCCACCGGCGTGATCCGGCGCCACCCTGACATCAAGCTGACCCGCCAGGCCGACGACATCCCGGCCCTGGCCACGCTCCAGGGCGAACTGCTCGATGCGCTCTGGCCTACGCTGGAGGTCGGCGGCGTGCTGCTCTACGCCACCTGCTCCACCTTGCCGACCGAAAACACCGAGGTCATCGAGGCCTTCCTTGCCCGTACGCCCGGTGCGCGGGAGCTGGACATCGCCGGTACCTTCGGTCTCAAGCAGCCCCACGGGCGCCAGTTGCTGGCCCAGGAAAACGGGCATGATGGCTTCTATTACGCAAAACTGATCAAGATCGCCGCGTCATCCCGCGGCTGA	MSLNPRLAAARALAAVLSGKASLGSSLPAQLDKVEPRDRSLTQDLAYGAARWQPRLAALAEQLLQKPFKAADKDVEALLLIGLYQLLYTRIPAHAAIGETVGCADALKKSWAKGLLNAVLRRVQREGETLLAGLERDPVVRTAHPRWLQKSLKAHWPEQWEAVCAANNAHPPLILRINRRHGSREDYLAELQSAGIPTHACAFSRDGIVLDEPRDVTTLPGFAEGRVSVQDEAAQLAADLLELAPGQRVLDACCAPGGKTCHLLEAEPKLTEVVGIDLEAKRLERVRENLGRLGLDARLIAADARDTATWWDGKPFQRILLDAPCSATGVIRRHPDIKLTRQADDIPALATLQGELLDALWPTLEVGGVLLYATCSTLPTENTEVIEAFLARTPGARELDIAGTFGLKQPHGRQLLAQENGHDGFYYAKLIKIAASSRG				NA	NA	NA	NA	NA
BMS010_05252	1374	trkA_1	COG0569	Trk system potassium uptake protein TrkA	ATGAAGATCATCATCCTCGGCGCCGGCCAGGTCGGCGGAACCCTTGCCGAGCATCTGGCTAGCGAGGCCAATGACATCACCGTGGTGGACACCGATGGCGACCGCCTGCGCGACCTCGGCGACCGCCTCGATATCCGCACCGTGCAAGGCAAAGGCTCCTTTCCGACCGTACTGCGCCAGGCCGGCGCCGACGACGCCGACATGCTCATCGCGGTGACCAACAGCGACGAAGTGAACATGGTCGCCTGCCAGGTCGGCTACACCCTGTTCCACACCCCGACCAAGATCGCCCGGGTCCGTGAGGCCGCCTACCTGACCCGTACCGGCCTGTTCGACAACGAAGCCATTCCGGTGGATGTGCTGATCAGCCCGGAACAGGTGGTGACCAACTACATCAAGCGCCTGATCGAATACCCTGGTGCCCTGCAGGTGATCGACTTCGCCGAAGGCAAGGCGCAGTTGGTGGCGGTGCGCGCCTACTACGGCGGTCCGCTGGTCGGCCAGGAATTGCGCCAGTTGCGCCAGCACATGCCCAACGTGGACACCCGCGTGGCCGCGATCTTCCGCCGCAACCGGCCGATCCTGCCGCAGGGCGACACGGTGATCGAGGCCGACGACGAGGTGTTCTTCATCGCCGCCAAGGGCCACATCCGCGCGGTGATGAGCGAGATGCGCCGCCTCGAGGACAGCTACAAGCGGGTGGTGATCGCCGGCGGCGGCCACATCGGCGAGCGCCTGGCCGAGGCCATCGAAAGCCGCTATCAGGTGAAGATCATCGAGATGAACCCGGCCCGCTGCCGTTACCTCTCGGAGGCCCTGGACAGCACCATCGTTCTGCAGGGCAGCGCGTCGGACAAGGATCTGCTGGTCGAAGAGAACATCAACGACGCCGACATCTTCCTCGCCCTGACCAACGACGACGAGGCCAACATCATGTCCTCGCTGCTGGCCAAGCGTCTCGGCGCGCGGAAGGTGATGACCATCATCAACAACCCGGCCTACGTCGACCTGGTACAGGGCGGCGAGATCGATATCGCCATCAGTCCGCAGCTGGCCACCATCGGTACCCTGCTGACCCACGTGCGGCGCGGCGACATCGTCAGCGTGCACTCGCTGCGCCGGGGCGCGGCCGAGGCTATCGAAGCCATCGCCCACGGCGACGCCAAGTCGAGCAAGGTCATCGGCCGTGCCATCGAGGACATCGCCCTTCCGCCGGGCACCACCATCGGCGCGATCATCCGCGACGAGGAAGTGCTGATCGCCCACGACGACACCGTGATCGAATCCGGCGACCACGTAATCCTGTTCCTGGTGGATAAGAAGCACATCCGCGACGTCGAACGGCTGTTCCAGGTGGGACTGACATTCTTCTAG	MKIIILGAGQVGGTLAEHLASEANDITVVDTDGDRLRDLGDRLDIRTVQGKGSFPTVLRQAGADDADMLIAVTNSDEVNMVACQVGYTLFHTPTKIARVREAAYLTRTGLFDNEAIPVDVLISPEQVVTNYIKRLIEYPGALQVIDFAEGKAQLVAVRAYYGGPLVGQELRQLRQHMPNVDTRVAAIFRRNRPILPQGDTVIEADDEVFFIAAKGHIRAVMSEMRRLEDSYKRVVIAGGGHIGERLAEAIESRYQVKIIEMNPARCRYLSEALDSTIVLQGSASDKDLLVEENINDADIFLALTNDDEANIMSSLLAKRLGARKVMTIINNPAYVDLVQGGEIDIAISPQLATIGTLLTHVRRGDIVSVHSLRRGAAEAIEAIAHGDAKSSKVIGRAIEDIALPPGTTIGAIIRDEEVLIAHDDTVIESGDHVILFLVDKKHIRDVERLFQVGLTFF	PGPT0002710_1022	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002710-trkA|ktrA-K03499	NA	NA
BMS010_05253	318			hypothetical protein	ATGATCGAATCCCTGGAAAAGATGCTGGCCAAGGGCGTGGACAACGCCCTGCTGCGCTTCGGCCTGGGCAAGGGCTATCTGGATGCCGGCGAACCGGTGCGGGCCGCCGAACATCTGCGGCGTTGCGTCGAGTTCGATCCGAACTACTCGGCCGCCTGGAAGCTGCTCGGCAAGGCGCTCGACGCCCTGGCCGACCCGGACGGCGCCCGTCAGGCCTGGGAGAAGGGCCTGGAGGCCGCCCACGGCCACGGCGACAAGCAGGCGGAGAAGGAAATGACCGTGTTCCTGCGCAAGCTGGAGAGGCGCAGCAAGCCGTAG	MIESLEKMLAKGVDNALLRFGLGKGYLDAGEPVRAAEHLRRCVEFDPNYSAAWKLLGKALDALADPDGARQAWEKGLEAAHGHGDKQAEKEMTVFLRKLERRSKP				NA	NA	NA	NA	NA
BMS010_05254	1377	spuC_3	COG0161	Putrescine--pyruvate aminotransferase	ATGGATAATCTGCAAACCCTGTTCGAGCAGGACCGCGCCTACTTCATGCACCCGTCCACCCACGCCCATGACCATGCCTCCGGCGCACTGCCGGGGCGGATCATTACCGGGGCGTCCGGGGTGCGCATCCGCGACCACCAGGGCCGCGAATACCTCGATGCCTTCGCCGGCCTGTACTGCGTGAACATCGGCTACGGTCGTACCGAGGTGGCCGAGGCGATCTATGAGCAGGCCAGGCAGTTGGCGTATTACCACACCTATGTGGGCCATTCGACCGAGGCGATCATCGAGCTGTCCAGCCGCATTATCGACTGGGCGCCGCAAGGCATGAAGAAGGTCTATTACGGCCTCTCCGGCTCGGATGCCAACGAAACCCAGATCAAACTGGTGCGCTACTACAACAACGTCCTCGGCCGTCCGCAGAAGAAGAAGATCATCTCGCGTCAGCGCGGCTATCACGGTTCGGGGATCATGACCGGCAGCCTGACCGGCCTTCCCAGCTTCCACCAGCATTTCGACCTGCCGGCCCCGGACATCAAGCACGCCGCCTGCCCGCACTTCTACAAGGCGCCGGCCGGCCTGGACGAGGCCGCCTTCGTCCGTTACTGCGCCGAGGACCTGGAAAAGCTGATCCTTGCCGAGGGAGCGGATACCGTCGCCGCTTTCATTGGCGAACCCGTGATGGGCACCGGCGGCATCATCGTTCCGCCCAAGGGCTACTGGGAGGCGATTCAGGCGGTGCTGGCCAAGTACGACGTCCTGCTGATCGCCGACGAAGTGGTCTGCGCCTTCGGCCGTCTCGGCGACAAGATGGGCAGCCAGCGCTACGGCATGCGCCCGGACCTGATCACCACCGCCAAGGGCCTGACCAGCGCCTATGCACCGCTGTCGGCGGTCATCGTCGGGGAGAAGGTCTGGAGCGTGATCGAAAAGGCTTCCGAAACCCAGGGCGCCATGGGCCACGGCTGGACCTACTCGGGCCACCCGATCTGCGCCGCTGCGGCTCTGGCCAATCTGGACATCCTGGAGAAGGAAAACATCACGGCCAATGCCGCCGACGTGGGCAGCTATCTCAACCGCCAGCTCCGGCAGACATTCGAAGGTCACCCCCTGGTGGGAGAAGTGCGCGGTGACGGCATGCTCGCGGCGATCGAGTTCATGGCCGACAAAGCGGCGCGGACACCGTTCGATCCGGCGTTGAAGGTCGGTCCGAAGGTCTCGGCCGAATGCCTGTCGCGCGGCATGATCGCCCGCGCCATGCCCCATGGCGACATCCTCGGCTTCGCTCCGCCGCTGGTGCTGACCAAGGCCGAGGCGGATGAAATCGTCGATATCGCCAAGGCGGCGGTGGATGCGGTGGCGCAACAGGTACTCTGA	MDNLQTLFEQDRAYFMHPSTHAHDHASGALPGRIITGASGVRIRDHQGREYLDAFAGLYCVNIGYGRTEVAEAIYEQARQLAYYHTYVGHSTEAIIELSSRIIDWAPQGMKKVYYGLSGSDANETQIKLVRYYNNVLGRPQKKKIISRQRGYHGSGIMTGSLTGLPSFHQHFDLPAPDIKHAACPHFYKAPAGLDEAAFVRYCAEDLEKLILAEGADTVAAFIGEPVMGTGGIIVPPKGYWEAIQAVLAKYDVLLIADEVVCAFGRLGDKMGSQRYGMRPDLITTAKGLTSAYAPLSAVIVGEKVWSVIEKASETQGAMGHGWTYSGHPICAAAALANLDILEKENITANAADVGSYLNRQLRQTFEGHPLVGEVRGDGMLAAIEFMADKAARTPFDPALKVGPKVSAECLSRGMIARAMPHGDILGFAPPLVLTKAEADEIVDIAKAAVDAVAQQVL	PGPT0007865_658	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007865-spuC-K12256	NA	NA
BMS010_05255	1464	davD_4	COG1012	Glutarate-semialdehyde dehydrogenase	ATGCCCCTGACTCATCCCCTGCTGTTCAAATCGCTCTGCTACGTCGATGGCCAATGGGTCCACAGCGGCAGCGGTGCCAGCATCGCCGTGCAGAACCCCGCAACTCGCGAGACCATCGGCCATGTGCCGATGCTCGAACAGGCGCAGATCGTCGCCGCCATCGACGCGGCCGAACGCGCTTTCCCCCGCTGGCGCGACGAGCGTCTGGATACCCGTGCCGGGCTGTTGCGCCGCTGGGCCGAGTTGATTCTCGAACACGAAGAAGACCTGGCGCGCATTCTCAGCGAGGAGCAGGGCAAGCCGCTGCGTGAGGCCCGGGGCGAGATTCGCTACGCCGCGAGCTTCATCCCCTGGTTCGCCGAGGAAGCGCGCCGCCTTTACGGCCAGAACATCCCCAGCCACATCCCCGGTGCACATTTGGGGACCGTGAAGGAGCCGGTGGGGGTCTGTGCCCTGCTTACACCGTGGAATTTCCCCAGCGCGATGATCACCCGCAAGGCCGCTGCGGCGCTGGCCGCCGGCTGCACGGTGGTGGTCAAACCCGCCCACGAAACGCCCTATTCGGCCTTCGCCCTGGCCCAACTCGCCGAGGAGGCGGGTTTTCCCGCGGGTGTCTTCAATGTGGTGCTCGGCGAGCCGCAGATGGCCATGGAAACCCTGGTCGGCGATACCCGAGTCCGCGCGGTGAGCTTCACCGGTTCGACGCGGGTGGGGAAACTCGTGCTCCAGGCCGCCGCCTACGACGTGAAGAAAGTGGCGCTGGAGCTGGGTGGTAACGCGCCGTTCATCGTCTGCGCCGATGCCGATCTCGATCATGCCGTTCAGGTGGTGGTGGAAGCCAAGTTCCAGACTTCCGGGCAGGACTGCTGCGCGGCGAACCGCATCTTGGTGGAGCGCCCCGTCTACGAAGCCTTCCTGCAGCGCTTCGCCAAGGCGGTGCGGGCACTGCGTGTCGGCCCCGGGCTGGACGAGCGCAGCCAGATCGGCCCGTTGATGCACCAGGCGGCCGTCGATGCCACTGCCGCTCGTGTGCGCGATGCCCTCGACAAAGGGGCGCGGCTGCTGGCCGGCGGTGAACCCCATGGCCTGGGCGGCTGGTTCTGGCAGCCGACGTTGTTGGCTGACGTCACGCCGGATATGCGCATTTATCGCGAGGAAAACTTTGCACCCATCGCCGGCGTGCTGCCGTTCGACAGCCTGGACCAGGCCGTGACCCTGGCCAACGACACCGAGTACGGCCTGGCTGCCTATGTCTGCTCGAATCGGCTGGATGTCACCTGGACCCTGCTGCGCCGGCTGGCCTTCGCCATGATCGCGGTGAACGGCACCCAATTCACCGGCCACCCGATCCCTTTCGGGGGGATGAAGGCATCCGGACTGGGCCGCGAAGGCGGCAGCGAAGGCTTCGGGCCCTTCGTCGAGACCAAGTATTTCTGCCTGCACCACCAGGGGCAGCGCTACTGA	MPLTHPLLFKSLCYVDGQWVHSGSGASIAVQNPATRETIGHVPMLEQAQIVAAIDAAERAFPRWRDERLDTRAGLLRRWAELILEHEEDLARILSEEQGKPLREARGEIRYAASFIPWFAEEARRLYGQNIPSHIPGAHLGTVKEPVGVCALLTPWNFPSAMITRKAAAALAAGCTVVVKPAHETPYSAFALAQLAEEAGFPAGVFNVVLGEPQMAMETLVGDTRVRAVSFTGSTRVGKLVLQAAAYDVKKVALELGGNAPFIVCADADLDHAVQVVVEAKFQTSGQDCCAANRILVERPVYEAFLQRFAKAVRALRVGPGLDERSQIGPLMHQAAVDATAARVRDALDKGARLLAGGEPHGLGGWFWQPTLLADVTPDMRIYREENFAPIAGVLPFDSLDQAVTLANDTEYGLAAYVCSNRLDVTWTLLRRLAFAMIAVNGTQFTGHPIPFGGMKASGLGREGGSEGFGPFVETKYFCLHHQGQRY	PGPT0014048_246	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014048-doeC-K15786	NA	NA
BMS010_05256	651	yhhQ_2	COG1738	Queuosine precursor transporter	ATGCACACGCTTTCCCCTTCGCACCGACGCGGCACCCTGGCCGGGCTGATCGCTTTCCACATCGTCATCATCATTGCCAGCAACTACCTGGTGCAGCTGCCGATGACCCTGTTCGGCTGGCAAACCACCTGGGGCGCGTTCAGCTTCCCGTTCATCTTCCTCGCCACCGATCTCACCGTACGCCTGTTGGGCAAGGCCCCGGCGCGGCAGGTCATCGCCCGGGTCATGCTGCCGGCGCTGCTGGCATCCTATGTCGTCTCGGTGCTTTTCCAGGACGGTGCCTTTCAGGGCGCCGCGTCGCTGGGCGAATTCAACAGCTTCGTCGGCCGGATTTCCCTGGCCAGCTTCCTGGCCTACGTACTGGGACAGGTGCTCGACATCCAGGTCTTCGATCGCCTCCGTCGCCTGCGCCAGTGGTGGATTGCCCCGGCGGCTTCCACCGTGCTGGGCAATTTGCTGGATACCTTCGCGTTTTTCTCCGTGGCCTTCTGGCACAGCAGCAACCCTTTCATGGCCGAGCATTGGGTGGAAATCGCCACCGTGGACTACGGCGTCAAGCTGAGCGTCAGCCTGCTGCTGTTCGTGCCGCTCTACGGGATGCTGCTGAACGGCCTGATGCGCCTGCTGCCGCAACGGCCAGCGCTGGCCTGA	MHTLSPSHRRGTLAGLIAFHIVIIIASNYLVQLPMTLFGWQTTWGAFSFPFIFLATDLTVRLLGKAPARQVIARVMLPALLASYVVSVLFQDGAFQGAASLGEFNSFVGRISLASFLAYVLGQVLDIQVFDRLRRLRQWWIAPAASTVLGNLLDTFAFFSVAFWHSSNPFMAEHWVEIATVDYGVKLSVSLLLFVPLYGMLLNGLMRLLPQRPALA				NA	NA	NA	NA	NA
BMS010_05257	483	lrp_8	COG1522	Leucine-responsive regulatory protein	GTGCACAAGCTCGATCGCTACGACCTGAAGATCCTGCGCATCCTCGCCGAGGAAGGGCGGACCACCAAATCCGCCTTGGCCGAGGCGATCAATCTTTCGGTCACGCCGGCCTGGGAGCGTGTGCGCAAGCTGGAAGCGGCCGGTCTGATCAAGGGCTATCGCGCGCAGATCAACTGGGGAGCGCTGTTCAAGAGCCAGCAGGTGCTGGTGGAAATCACCCTGGCCCGGCATACCGCCCAGGACATGCGCCGTTTCGAAGAGCGGCTGGCGTCCGCGCCGGAGATCGCCTTCTGCTACGCCACCGGCGGCGGCGTGGATTACCTGGCGATGGTCCGCGCGCGCGACATCGATCATTACCAGCGCTTCATCGACCAGCTTTTGCTGGAAGACCTCGGCATCGAGCGCTACTTCACCTATATCGTCACCAAAACCATCAAGACAGACGAAGGCAGCGTGCCGGCGGAACTGATCGCCGACCAGTAA	MHKLDRYDLKILRILAEEGRTTKSALAEAINLSVTPAWERVRKLEAAGLIKGYRAQINWGALFKSQQVLVEITLARHTAQDMRRFEERLASAPEIAFCYATGGGVDYLAMVRARDIDHYQRFIDQLLLEDLGIERYFTYIVTKTIKTDEGSVPAELIADQ	PGPT0014049_240	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014049-doeX-K15782	NA	NA
BMS010_05258	1002	doeB_1	COG3608	N-alpha-acetyl-L-2,4-diaminobutyric acid deacetylase	ATGAGAGAACTGCGCGACAACCCCATCAGCCCCACGGTCGATTTCGACCGCGGCGGCGTGCAGCACGGCTTCCTCAAGCTGCCCTATTCCCGCGACGACTCGGCCTGGGGCGCGGTGATGATTCCGCTGACGGTGGTGAAGAACGGCACCGGCCCCACCGCTTTGCTCACGGGCGGCAACCATGGCGACGAATACGAAGGTCCGCTGGCGCTGAGCAAGTTGGCCCAAGGGCTGGATGTCGATGCGGTGAGCGGACGGGTCATCATCGTGCCGTTCATGAACGCGCCGGCGGTGCGGGCCGGCACGCGCACCTCACCCATCGACAAGGGCAACCTCAACCGCAGCTTTCCCGGCAAGCCGGACGGCACGGTGACGGAAAAGATCGCCGACTACTTCCAGCGCTATTTGCTGCCCATGGCGGATGTGGTGCTGGACATCCACTCCGGTGGCAAGACGCTGGACTTCCTGCCGTTCGCCGCCTGCCATGTATTGCCGGACAAGGCCCAGCAGGCCCGCTGCGAAGCCGGCATGCGGGCGTTCTCCGCGCCCTACTGCATGCGCATGCTGGAGCTGGATGCCGTGGGCATGTACGACTGCGCCGCCGAAGAGCAAGGCAAGGTGTTCGTGACCACCGAACTCGGTGGCGGCGGTTCCAGCACGGCGAAAAGCCTGGCCATCGCCGAACGCGGTGTGCGCAACGTGCTGATCCACTTCGGCTTGCTGCGTGGCGAGGTCGATACGGCCGAGTCGGTGATGCTGGACATGCCGGATGGCGACTGCTTCGTTGCCAGCGAAGACGACGGTCTGCTGGAGATGTGCCGCGATCTCGGCGACAGCGTGGTCAAAGGCGAGGTCGTCGCCCGTGTGCACAGCCTCGGGCGCACCGGCGTTCCGGCTGCGGAATACCGCGCGCAGCGCAGTGGCCTGCTGGCTGCCCGACATTTTCCGGGGCTGGTGAAGAGCGGCGATACCCTGGCGGTGATCGCCGATATCGTTGGCTGA	MRELRDNPISPTVDFDRGGVQHGFLKLPYSRDDSAWGAVMIPLTVVKNGTGPTALLTGGNHGDEYEGPLALSKLAQGLDVDAVSGRVIIVPFMNAPAVRAGTRTSPIDKGNLNRSFPGKPDGTVTEKIADYFQRYLLPMADVVLDIHSGGKTLDFLPFAACHVLPDKAQQARCEAGMRAFSAPYCMRMLELDAVGMYDCAAEEQGKVFVTTELGGGGSSTAKSLAIAERGVRNVLIHFGLLRGEVDTAESVMLDMPDGDCFVASEDDGLLEMCRDLGDSVVKGEVVARVHSLGRTGVPAAEYRAQRSGLLAARHFPGLVKSGDTLAVIADIVG	PGPT0014047_216	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014047-doeB-K15784	NA	NA
BMS010_05259	1191	doeA_2	COG0006	Ectoine hydrolase	ATGTCCGAGATCGTCGTCAACCTCCCCTTTTCCCGAGAGGAATATGCCCAGCGCCTGATCAAGGTGCGCACGGCCATGCAGGCCCGCGGTATCGAACTGCTGATCGTCACCGATCCGTCGAACATGGCCTGGCTGACCGGCTACGACGGCTGGTCGTTCTATGTCCACCAGTGCGTGCTGCTGGCGCTGGACGGCGAGCCGGTCTGGTTCGGTCGCGGGCAGGATGCCAATGGCGCGCGCCGCACGGTGTTCATGGAGCCGGCCAATATCGTTGGCTATCCCGACCACTACGTGCAGTCCACGGAGCGGCATCCGATGGACTACCTCTCGCACGAAGTGATCGCCGCGCGGGGCTGGGATGGCCTGGCCTTGGGCGTGGAAATGGACAACTACTATTTCAGCGCCGCCGCCTACCGTTCCCTGCAGCAGCACCTGCCAGGCGCACGCTTCGTCGATGCCACCGGGTTGGTCAACTGGCAGCGGGCGGTGAAGTCGACCCAGGAAATCGCCTACATGCGCGTAGCCGCGCGCATCGTCGAGGAGATGCACGCGGCGATCTACGAGCGGATCGAGCCGGGGCTGCGCAAGAACGAACTGGTGGCCGAAATCTACCGCGTCGGCACCCTCGGTGCCGATGGATACGGCGGCGACTATCCGGCCATCGTGCCGCTGCTGCCGACCGGCGCGGACGCCAGCGCGCCGCACCTGACCTGGGACGACAGCCCGTTCCAGCCGGGCGCCGGTACCTTCTTCGAGATCGCCGGCTGCTACAAGCGCTACCACTGCCCGCTGTCGCGCACCATCTATCTGGGCAAACCGCCGCAGCACTTCCTCGATGCCGAGAAAGCCGTGGTGGAGGGCATCGCCGCCGGCCTGGATGCGGCCAAGCCCGGCAACACTACGGGTGACATCGCCCGCGCCTTCTTCGGCGTACTGCAGAAGTTCGGCATCCACAAGGACAGCCGTTGCGGCTATCCGATCGGTATCAGTTACCCGCCGGACTGGGGCGAGCGCACCATGAGCCTGCGCCCGAGCGACGACAGCGTGCTGCAGCCGGGCATGACCTTCCACTTCATGCCGGGCCTGTGGATGGACGACTGGGGCCTGGAAATCACCGAAAGCATCCTGATCACCGAGACCGGTGTGGACACCTTCTGCCAGGTACCGCGCCAACTGTTCGTGAAGGAATGA	MSEIVVNLPFSREEYAQRLIKVRTAMQARGIELLIVTDPSNMAWLTGYDGWSFYVHQCVLLALDGEPVWFGRGQDANGARRTVFMEPANIVGYPDHYVQSTERHPMDYLSHEVIAARGWDGLALGVEMDNYYFSAAAYRSLQQHLPGARFVDATGLVNWQRAVKSTQEIAYMRVAARIVEEMHAAIYERIEPGLRKNELVAEIYRVGTLGADGYGGDYPAIVPLLPTGADASAPHLTWDDSPFQPGAGTFFEIAGCYKRYHCPLSRTIYLGKPPQHFLDAEKAVVEGIAAGLDAAKPGNTTGDIARAFFGVLQKFGIHKDSRCGYPIGISYPPDWGERTMSLRPSDDSVLQPGMTFHFMPGLWMDDWGLEITESILITETGVDTFCQVPRQLFVKE	PGPT0014046_139	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014046-doeA-K15783	NA	NA
BMS010_05260	993	ala_1		Alanine dehydrogenase	ATGGCTGACACCGTTCTGCTCAGTGAAAACGATCTGCGTGCCTGTGTGGCGCTCGACCTGGAAAGCCTTGCGGCGGTGGAAAACGCCTTCCGCCTGCTCGCCACCGCAGCCGTGGCGATGCCGCCGGTCCTGCGCCTGGACATTCCCGAGCACAACGGCGAAGTGGACGTGAAGACTGCCTACCTGCCCGGCGTGCCGCGGTTCGCCATCAAGGTCAGCCCGGGCTTTTTCGACAATCCGAAACGCGGCCTGCCCAGCCTGAACGGCATGATGATGCTGCTCAGCGCCCACACCGGTCTGCTCGACGCGCTGCTGCTCGACAACGGCTACCTGACCGCCGTGCGTACTGCGGCGGCCGGGGCGGTGGCGGCGAGCTGGCTGGCACGGGAAGACGCCGTCGAGGTGGCGATCATCGGTGCCGGCGAGCAAGCCCGGCTGCAATTGCAGGCCTTGCGGCTGGTGCGGCCGCTGCGAAGGATTCGTGTCTGGGCTAGGGATGCCGTCAAGGCGCGGGGCTTCGCCGATTGGGCCGAAAGCGCGCTGGATCTGTCGGCGACCGCCTGCGATAGCGTCGATGATGCTTTGGCCAATGCCGATATCGCCGTGACCACCACCCCCAGCAGCGAGCCGCTGATACAGCCCCATCACCTGCGACCGGGCCTGCACATCACCGCCATGGGTTCGGACGCCGAGCACAAGAACGAGATCGCCCCCGCCGTCCTGGGCGCTGTCGACCGCTACGTCGCCGACCGCCTGAGCCAGACCCGCGTGCTTGGCGAACTGCACCACGCCCTGGTTGCGGGAACCGTCGCCGATCTTTCCACCTGCATCGAACTGGGCCAGGTGATCGTCGGGCAACGGCCAGGCCGTACCGATGCCGGTCAGATCACCCTGTGCGACCTGACCGGCACCGGCGCCCAGGACACCGCCATCGCCAACTTCGCTTTCGAGCGGGCGCGAGCGGCGGGCAAGGGCTTCGTCTTTTCCAGCTGA	MADTVLLSENDLRACVALDLESLAAVENAFRLLATAAVAMPPVLRLDIPEHNGEVDVKTAYLPGVPRFAIKVSPGFFDNPKRGLPSLNGMMMLLSAHTGLLDALLLDNGYLTAVRTAAAGAVAASWLAREDAVEVAIIGAGEQARLQLQALRLVRPLRRIRVWARDAVKARGFADWAESALDLSATACDSVDDALANADIAVTTTPSSEPLIQPHHLRPGLHITAMGSDAEHKNEIAPAVLGAVDRYVADRLSQTRVLGELHHALVAGTVADLSTCIELGQVIVGQRPGRTDAGQITLCDLTGTGAQDTAIANFAFERARAAGKGFVFSS				NA	NA	NA	NA	NA
BMS010_05261	972	tdcB_1	COG1171	L-threonine ammonia-lyase	ATGGCCGCCATTCCACTCGACGCGCTCCATGCCGCCCGCCAGCGCATCCAGGGCCTGGTACGGCAGACGCCTCTCGATCTCTCCCCCAGCCTCAGCCGCCGGCTGGGCGTTCCGGTGTGGCTCAAGCTGGAATCGCAACAGATCACCGGCAGCTTCAAGCTGCGTGGTGCGACCAATGCCCTCGCCCAACTGAGCGACGAAGAGAAGCGGCGTGGGGTCGTCACCGCATCCACCGGCAACCATGGCCGGGCCCTGGCCCACGCGGCGAGCCAGCTGGGGGTGAAGGCCGTCGTCTGCCTGTCGGACCTGGTGCCGGCGAACAAGGTCGAGGCGATTCGCAGCCTGGGTGCCGAAGTGCGCATCGTCGGACACAGCCAGGACGACGCCCAGGCAGAAGCCGAGCGGATCGCCCGCGACCAGGGGGCGATCTTCCTGCCCCCCTTCGATCATCCGGCGATCATTGCCGGTCAGGGCACCCTCGGTCTGGAAATCCTCGATCAATGCCCGGATGTCCGCGACGTGCTGGTGCCGCTTTCCGGCGGCGGTCTGTTCGCCGGCATCGGGTTGGCGCTCAAAGGTATCGATCCGGACATCCGCCTGCACGGCGTCAGCATGCGCCGTGGCGCAGCCATGTACGCCAGCCTCCAGGCCGGTCATCCCGTCGAGGTCGAGGAATTGTCGACGCTGGCGGATTCCCTCGGCGGTGGCATCGGCCTGGACAATCGCCACACCTTCGCTCTCACCCGAGAACTCTGCGACCGGGTGCACCTGCTCGACGAGCCTTCGATCGCCGCCGGGATTCGCCATGCCTACCGCGAGGAACGCCAAGTGCTGGAGGGCGCGGCGGCGGTGGGTATTGCGGCCCTGCTCGAGGGCCTGGTCGAACCGCGTGGCCCAACGGTGGTTGTGGTGAGTGGGCGCAATGTGGATATCGAACAGCACCTGCGGGTGCTCAACGGCGCGGATCGTTGA	MAAIPLDALHAARQRIQGLVRQTPLDLSPSLSRRLGVPVWLKLESQQITGSFKLRGATNALAQLSDEEKRRGVVTASTGNHGRALAHAASQLGVKAVVCLSDLVPANKVEAIRSLGAEVRIVGHSQDDAQAEAERIARDQGAIFLPPFDHPAIIAGQGTLGLEILDQCPDVRDVLVPLSGGGLFAGIGLALKGIDPDIRLHGVSMRRGAAMYASLQAGHPVEVEELSTLADSLGGGIGLDNRHTFALTRELCDRVHLLDEPSIAAGIRHAYREERQVLEGAAAVGIAALLEGLVEPRGPTVVVVSGRNVDIEQHLRVLNGADR	PGPT0001960_6177	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_THREONINE_DEGRADATION,PGPT0001960-ilvA|tdcB-K01754	NA	NA
BMS010_05262	1398			hypothetical protein	ATGCAACGCTGGAAGGAGGCCCTGTCCGCCACGCGTTATGGCGAATCGAAATACAAGCGCCTGGTGCAGGCCATCGTCACCGACATCGAAGAGGGTGTCCTCAGCGATGGCCAGCGCCTGCCGCCACAGCGCCAAGTGGCCGATTCCCTGGGCATCAGCGTGCAGACGGTGACCAATGCCTACAAGGAGTTGGAGCGCCAGGGGCATGTGCGCTGCGAGGTGGGCCGCGGCAGCTTCGTGTCCCGGCGGACCAGCGAGAAGGTCGCCAGCTCCATGCTCGATCACAACGAGCGGGCCCTGCTGGACTTTTCCATCGCCCGGATCGTCCACACTGCGGATCATGATCGCCTCTGGCAGCGCACCTGTCTGGAACTGGCCGGCGAAGCCAACCAGCCCTGGATTCGTGCGTTCCGCCCGATCGCTGGTTTCGAAACGCATCGCGAGGCCGGGGTGCGCTGGCTGCGCCGCCTCGGGCTGGAGGTGGACAGCCAGGACCTGCTGCTTACCAATGGTGCGGCCCACGGCATCTTCCTGGCCCTCGCCTCCCTGGCCGGGCCCGACGACGTGGTGCTTTGCGAGGGATTGTCGGATCACGGCGTGATCGGCAGCTCCCAGGTACTCGGCTTCACCCTCAAAGGGCTGGAAATGGACCGCCATGGTCTCGACCCGGAACACTTCGAGGACATGTGCGGCAACGAGCGGATCACCGCGTTGGTCTGCACGCCGAATCTGAACAATCCCACCAGTTGCGTAATGCCGGATGCACGCCGCCGGGAGATCGCCGAAATCGCCCGGCGCTACGGCGTCCACGTGATCGAAGACGACGTCTACGGCCCATTGCTGGCCGGGCAACAGGAGGTCCGGCCGATCAGCCATTACCTGCCCGAATTGTCGTTCTACAGCACCAGCATGACCAAGTCGGTGATGGCCGGGCTGCGCATCGGTTACCTGGCCATGCCCAAGCGGCTGGCCCTGCGCACCGAAAGCATCCTGCGGGTGAACAGTTGGATGGCCACGCCGCTGCTCGGCGAGATCGCGACACGCTGGATCGATAGCGGCGACGCCGAGGCGTTGGTGAAGCGGCAACGCGTCCTGCTGGCCAATCGTCAGGCAGCGGTCGAGAAGGAATTGGGCGACCATCTGCTCGGTAACCATCCCTATTCGCTGAACGCCTGGTTGCGCGTACCGGAACATTGGGAAACCGACAGCCTGCTGCGTGAACTGCGCCATCGGCACGTTGCCCTGACCTTGCCCGACCCGTTCATCCCACCCGGCATGCCTCGGCCACGGGCGGTGCGCCTGTGCGTCGGGGCCGAATGCAGCGAAGCGCAGGTGTACAAGGGGCTGCGGAGCGTGCGTGAGGTGTTCGGGCAGTATCCGAAAATCCACGATTTCTGA	MQRWKEALSATRYGESKYKRLVQAIVTDIEEGVLSDGQRLPPQRQVADSLGISVQTVTNAYKELERQGHVRCEVGRGSFVSRRTSEKVASSMLDHNERALLDFSIARIVHTADHDRLWQRTCLELAGEANQPWIRAFRPIAGFETHREAGVRWLRRLGLEVDSQDLLLTNGAAHGIFLALASLAGPDDVVLCEGLSDHGVIGSSQVLGFTLKGLEMDRHGLDPEHFEDMCGNERITALVCTPNLNNPTSCVMPDARRREIAEIARRYGVHVIEDDVYGPLLAGQQEVRPISHYLPELSFYSTSMTKSVMAGLRIGYLAMPKRLALRTESILRVNSWMATPLLGEIATRWIDSGDAEALVKRQRVLLANRQAAVEKELGDHLLGNHPYSLNAWLRVPEHWETDSLLRELRHRHVALTLPDPFIPPGMPRPRAVRLCVGAECSEAQVYKGLRSVREVFGQYPKIHDF				NA	NA	NA	NA	NA
BMS010_05263	855		COG0834	putative amino-acid ABC transporter-binding protein	ATGAGCCGCGTCATTCCCACCACCTACCGTCGCCTGACTGTCGCCCTCAGCGCGCTCGGCATTGCCTTCGCCGGCTGCCTGGCGCAGGCCGATACCCTGGCGAAGGTCAAGGAAACCAGCAGCGTCCGCATCGGCTATGCCAACGAAACGCCATTCGCCTACACCGCGCTCGACGGCAGTGTGACCGGCGAATCGCCGGAGATCGTGCGTAAGGTGTTCGAGCGCATGGGCATCAAGACCGTCGAGCCGGTACTGACCGAATGGGGCTCGCTGATTCCCGGCCTGCGCGCCGGACGTTTCGACCTGATCGCCGCCGGCATGTACATCACTCCCGAACGCTGCAAACAGGTGGTGTTCACCGATCCGCACTATCAGTTGCCGGATACCCTGTTGGTCGCCAAGGGCAACCCGAAGAAGCTCGGCAGCTACGCGGATATCGCAGGCAACCCCGACGTGAAGCTGGCGATCATGTCCGGCACGGTGAACCTCGGCTACGCCCGGGAGGCAGGTATCAAGGACGAGCAGATCCTCCAGGTGCCGGATACCACCGCCCAGTTGCAAGCGGTGCGCAGCGGTCGCGCCGATGCCGCCGTGGGCACTCAGCTGACCATGAAGGGCTTGGCCCAGAAGGGCGGCGACAAGGTGGAGGCCATCGCCGAGTTCAAGGACGACCCGGCCCATACCGGCTATGGCGCCCTGGCGTTCCGCCCGGAGGACAAGGCACTTCGCGACGCGGTCAACGAAGAGCTGAAGAAATGGCTCGGCAGCGAGGAGCACCTGAAAACCGTCGAGCCATTCGGCTTCGACCGCTCCAACCTCACCGACAAGACCGCCGCCGAGCTGTGCGGGCAGTGA	MSRVIPTTYRRLTVALSALGIAFAGCLAQADTLAKVKETSSVRIGYANETPFAYTALDGSVTGESPEIVRKVFERMGIKTVEPVLTEWGSLIPGLRAGRFDLIAAGMYITPERCKQVVFTDPHYQLPDTLLVAKGNPKKLGSYADIAGNPDVKLAIMSGTVNLGYAREAGIKDEQILQVPDTTAQLQAVRSGRADAAVGTQLTMKGLAQKGGDKVEAIAEFKDDPAHTGYGALAFRPEDKALRDAVNEELKKWLGSEEHLKTVEPFGFDRSNLTDKTAAELCGQ	PGPT0020800_4795	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_05264	660	yecS_4	COG0765	L-cystine transport system permease protein YecS	ATGAATGAATTGATTCCCCTTCTGCTGCAAGGCGCCTGGATGACGGTCCAGGTAACGTTCTGGGGTTCGCTGTTGGCCATCGTATCGGCCATCGTCGCCGCACTCGGCCGGCTTTCGTCGGTCCCCGCGTTACGCTGGCTGGCGATCGCCTACATCGAGGTGTTCCGCGGCACGTCCCTGCTGGTGCAACTGTTCTGGCTCTACTTCGTCCTGCCGATGCCGCCATTCAATATTGAGATGAGTGCCTTCGCCGTGGCCATCCTCGGCCTGGGCCTGCACATCGGCGCCTACGGGGCAGAAGTCATGCGGGGCGCCATCCGCTCGGTGGCCAAGGGGCAGTACGAGGCCTGCCAGGCGTTGAACATGAGCCCGTTCAAGCGCTTCTACCGGATCGTCCTGCCGCAGGCGCTGCTGGCGGCCATTCCTCCCGGCACCAATCTGCTCATCGAGCTGCTGAAAAATACTTCGCTGGTATCGCTCATCACCCTGTCCGACCTGGCGTTCCGTGCCCGACAACTGGACCAGGCGACCTTCATGACCCTGGAAATCTTCGCCCTGACGCTGCTGCTGTATTTCCTCCTGGCGCAGGTCATCAACCTCGGCATGCGCATGCTGGAACGCCGCCTGAGCCGCGGCCGGATGCAAGGGGGCCTGTCATGA	MNELIPLLLQGAWMTVQVTFWGSLLAIVSAIVAALGRLSSVPALRWLAIAYIEVFRGTSLLVQLFWLYFVLPMPPFNIEMSAFAVAILGLGLHIGAYGAEVMRGAIRSVAKGQYEACQALNMSPFKRFYRIVLPQALLAAIPPGTNLLIELLKNTSLVSLITLSDLAFRARQLDQATFMTLEIFALTLLLYFLLAQVINLGMRMLERRLSRGRMQGGLS	PGPT0020795_9470	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
BMS010_05265	663	glnP_2	COG0765	Glutamine transport system permease protein GlnP	ATGAACCTGTTCGACTGGTCCTTCGCCTGGCATATCCTGCCCGACCTGCTGCGCGCTTCCCTGAATACCCTGACGATCACCCTGCTCGGTTTCGCCATTGCCGTCGCGGCCGGCCTGCTGCTGGCCATCGGCCGACGCAGCCGCCACCTGTGGCTGTCCTGGCCGGTCGCGGGGTTGATCGAGTTCATCCGCAGCACGCCGCTGCTGATCCAGGTGTATTTCCTGTTCTACGTCTTTCCCAACTACGGCCTCAACCTCACTGCGATGCAGGCGGGTATCCTCGGTATCGCCCTGCATTACGCCTGCTATACCGCCGAGGTCTATCGTGCCGGGCTGGATGCCGTACCGCGCGGCCAGTGGGAAGCCGTGACCGCCTTGAACATGGCGCCGCTGACCGCATACCGCGACATCATCCTGCCGCAGGCCCTGCGACCGATCCTGCCGGCACTGGGCAACTACCTGGTAGCAATGCTGAAAGACACGCCGGTGCTGTCTGCCATCACGGTGGTGGAGATCATGCAACAGGCCAAGAACATCGGTTCGGAGAGCTTCCGCTATCTGGAACCGATCACCATGGTCGGCCTGTTTTTCCTGATTCTCAGCCTCGGCCTCGCCTGGTTCGTACGTCGGCTGGAAGGGCGCCTGGAGTTGGCCCCCCGATGA	MNLFDWSFAWHILPDLLRASLNTLTITLLGFAIAVAAGLLLAIGRRSRHLWLSWPVAGLIEFIRSTPLLIQVYFLFYVFPNYGLNLTAMQAGILGIALHYACYTAEVYRAGLDAVPRGQWEAVTALNMAPLTAYRDIILPQALRPILPALGNYLVAMLKDTPVLSAITVVEIMQQAKNIGSESFRYLEPITMVGLFFLILSLGLAWFVRRLEGRLELAPR	PGPT0020795_9007	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
BMS010_05266	780	glnQ_4	COG1126	Glutamine transport ATP-binding protein GlnQ	ATGCCACAACCCATCGTCCGCTTCACCGACGTCACCAAGCGCTACGGCAACCTGACCGTGCTGAACAACCTCAACCTGGACGTGGAAGCCGGGGAAAAGGTCGCCATCATCGGGCCCAGCGGCTCGGGCAAGTCGACCCTGCTGCGAGCCCTGATGACCCTCGAGGACATCGATGAAGGCATCATTACCGTCGATGACGAACCCCTCACCCACATGCCCGCCCGGGACGGCCGCTTGGTGCGCGCCAACGCACGCCACCAGCGGAAGGTACGCGGGAAGATCGGCATGGTGTTCCAGAGCTTCAACCTCTTTCCGCACATGAGCGCCTTGCAGAACGTGATGGAAGCGCCAGTGCAGGTGCTCGGCCTGGACAGGAAGGAAGCCCGCGAGCGGGCATGCGAGCTGCTGGACATGGTCGGCCTCGGCGAAAAGCACGATCATTACCCCTCGCAGCTCTCCGGTGGCCAGCAACAGCGCGTGGCCATTGCCCGCGCGCTGGCGATGCGACCCAAAGTGATGCTGTTCGACGAAGTGACCTCGGCGCTCGACCCGGAGTTATGCGGCGAAGTGCTCAACGTGATCCGCCGACTCGGTGCCGAGCACAGCCTGACCATGCTGATGGTCACCCACCAGATGGGCTTCGCGCGCGAATTCGCCGACCGTATCTGCTTTTTTCATCAGGGCCGCATTCATGAGCAGGGCACACCGGCGGAGCTTTTCGGCAACCCCCGGGAAGATCGCACACGCTGTTTTCTCAGCGCGGTGAACGAAGCTCAGTGA	MPQPIVRFTDVTKRYGNLTVLNNLNLDVEAGEKVAIIGPSGSGKSTLLRALMTLEDIDEGIITVDDEPLTHMPARDGRLVRANARHQRKVRGKIGMVFQSFNLFPHMSALQNVMEAPVQVLGLDRKEARERACELLDMVGLGEKHDHYPSQLSGGQQQRVAIARALAMRPKVMLFDEVTSALDPELCGEVLNVIRRLGAEHSLTMLMVTHQMGFAREFADRICFFHQGRIHEQGTPAELFGNPREDRTRCFLSAVNEAQ	PGPT0020790_718	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020790-ABC_PA_A-K02028	NA	NA
BMS010_05267	276			hypothetical protein	ATGGCCAACCAGCGACAGTTCCCCCGTACACCGATGAAATGCCGCATCAAGATCAGCCACCCGAGCTTCGGCGAGCTGATCGCCCAGACCCGCGACCTGTCGGACGGCGGTGTCTACGTCCGGCACCCCGAACTCGCTGCGCTGGAACCCGGCAGCCAGGTCACCGGCCAGGTGCAGGACCTGCCCATCGAAGCACCGATCCTGCAGATGGAAGTGATGCGGGTCGACGCCGAGGGTGCCGGCCTGCGCTTTCTCGGTGCCGATGAGTCTCACTGA	MANQRQFPRTPMKCRIKISHPSFGELIAQTRDLSDGGVYVRHPELAALEPGSQVTGQVQDLPIEAPILQMEVMRVDAEGAGLRFLGADESH				NA	NA	NA	NA	NA
BMS010_05268	888	lpxP	COG1560	Lipid A biosynthesis palmitoleoyltransferase	GTGGAGAAGTTCAAGGGCGCGCTGGTCGTGGGTTTTCTGCGCCTCTTCGCGCTGTTGCCCTGGCGCGTGGTGCAGACGGTCGGTGCGTCGCTCGGCTGGCTGATGTGGCGCCTGCCGAACCGGTCACGCGAGGTTGCGCGCATCAACTTGGAAAAATGTTTTCCGGAGCTGGAAAAATCCGCCTTGGAAGACCTGTTGCGCCGCAGCCTGATGGATATCGGCCGGACGCTCACCGAAAGCGCCTGCGCCTGGATCTGGCCGGCGGAAAAGTCCCTGCGCCTGGTGCGCGACGTGGAGGGGCTCGAAGTCCTGCATTCCGCGTTGGCGTCCGGCAAGGGCGTGGTCGGCATCACCAGCCACCTGGGTAATTGGGAAGTGCTGAATCACTTCTACTGCTCGCAGTGCAAACCCATCATCTTCTACCGCCCGCCGAAGCTGAAGGCGGTGGACGAATTGCTGCAGAAGCAGCGTGTGCAGATGGGTAACCGGGTCGCCCCTTCCACCAAGGAAGGTATCCTCAGCGTCATCAAGGAAGTCCGCAAGGGCGGCGCCGTGGGTATCCCCGCCGATCCGGAACCGAGCCGGTCCAGCGGTGTGTTCGTGCCCTTCTGCGCCATCCAGGCGCTGACCAGCAAATTCGTGCCCGGTATGCTTGCGGGGGGCAAGGCGGTTGGTGTGTTCCTCCATGCCGTCCGTCTGCCGGACAGCTCGGGCTATAAGGTGATCCTCGAAGCCGCGCCGGAAGCGATGTACAGCGACGACACCGAAACCGCCGTGGCGGCCATGAGCGGCGTGATCGAAAAGTACGTGCGGGCCTATCCGAGCCAGTACATGTGGACGATGAAACGTTTCAAGAAACGCCCGGACGGCGAGAAAAAGTGGTACTGA	MEKFKGALVVGFLRLFALLPWRVVQTVGASLGWLMWRLPNRSREVARINLEKCFPELEKSALEDLLRRSLMDIGRTLTESACAWIWPAEKSLRLVRDVEGLEVLHSALASGKGVVGITSHLGNWEVLNHFYCSQCKPIIFYRPPKLKAVDELLQKQRVQMGNRVAPSTKEGILSVIKEVRKGGAVGIPADPEPSRSSGVFVPFCAIQALTSKFVPGMLAGGKAVGVFLHAVRLPDSSGYKVILEAAPEAMYSDDTETAVAAMSGVIEKYVRAYPSQYMWTMKRFKKRPDGEKKWY	PGPT0013315_2588	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0013315-lpxL|htrB-K02517	NA	NA
BMS010_05269	549	tag_2	COG2818	DNA-3-methyladenine glycosylase 1	ATGCCACGCTGCTTCTGGTGTACCGATGATCCTCTCTACATGGCCTATCACGACGAGGAATGGGGCGTGCCGCAACGCGACCCTGGCAAGTTGTTCGAGTTGCTCCTGCTGGAAGGCTTCCAGGCTGGACTGTCTTGGATCACCGTGCTGAAGAAGCGCGAGCGCTATCGTGAAGTCCTGTTCGGTTTCGATCCCGCCCGTCTGGCCGCGATGAGCGATGCCGAGATCGAGGAGCGGATGCAGGACCCCGGCATCATCCGCAACCGCCTGAAACTCAATGCCGCACGGCAGAACGCCCGGGCCTGGCTGGAACTGGAAGACCCGGTCGAGCTGCTCTGGTCCTTCGTCGGTGGTGAGCCGAAGATCAACCGTTTCCGCGACCGCTCCGAAGTGCCAGCGGTGACGCCCGAAGCCGAGGCCATGAGCAAGGCATTGAAGAAAAAGGGATTTACCTTCGTCGGTCCGACCATCTGCTACGCCTACATGCAGGCGGCCGGCATGGTGATGGACCATACCCAGGATTGCGATCGCTACGCGGCACTCGGGTAG	MPRCFWCTDDPLYMAYHDEEWGVPQRDPGKLFELLLLEGFQAGLSWITVLKKRERYREVLFGFDPARLAAMSDAEIEERMQDPGIIRNRLKLNAARQNARAWLELEDPVELLWSFVGGEPKINRFRDRSEVPAVTPEAEAMSKALKKKGFTFVGPTICYAYMQAAGMVMDHTQDCDRYAALG				NA	NA	NA	NA	NA
BMS010_05270	951	glyQ_1	COG0752	Glycine--tRNA ligase alpha subunit	GTGAGCCAGACTACGCCCGCCGTGCGCACCTTCCAAGACCTGATCCTGGCCCTCCAGCAGTATTGGGCCGAGCAGGGCTGCGTGGTGCTCCAGCCCTACGACATGGAAGTAGGCGCCGGTACCTTCCACACCGCCACTTTCCTCCGCGCCATCGGCCCGGAAACCTGGAACGCCGCCTACGTGCAGCCTTCCCGTCGCCCGGCCGACGGCCGCTATGGCGAAAACCCCAACCGCCTGCAGCACTATTACCAGTTCCAAGTGGTGCTCAAGCCGAACCCGGAGAACTTCCAGGAGCTGTACCTGGGCTCGCTGAAGGCCATCGGCATCGACCCGCTGGTCCACGACATCCGCTTCGTCGAAGACAACTGGGAATCGCCGACCCTCGGCGCCTGGGGCCTGGGTTGGGAGATCTGGCTGAACGGCATGGAAGTCACCCAGTTCACCTACTTCCAGCAAGTCGGCGGCATCGAGTGCTATCCGGTGACCGGCGAGATCACCTATGGCCTGGAACGTCTGGCCATGTACCTGCAGGGCGTCGACTCGGTCTACGACCTGATCTGGACCGATGGCCCGTTCGGTACCGTCACCTACGGCGACGTGTTCCACCAGAACGAAGTGGAGCAATCCACCTACAACTTCGAGCATGCCAACGTGCCGGAGCTGTTCCGTCTGTTCGATTTCTATGAGTCGGAAGCCAACCGCCTGATCGAGCTGCAATTGCCGCTGCCGACCTATGAAATGGTGCTGAAGGCCTCCCACACCTTCAACCTGCTGGATGCCCGCCGTGCCATTTCGGTGACCGAGCGACAGCGCTACATCCTGCGCGTGCGCACCTTGGCCCGCGCGGTGGCGCAGAGCTACCTGCAGGCGCGCGCCCGCCTCGGCTTCCCCATGGCCACCCCCGAATTGCGTGAAGAAGTGATGGCCAAGCTGAAGGAGGCCGCAGAATGA	MSQTTPAVRTFQDLILALQQYWAEQGCVVLQPYDMEVGAGTFHTATFLRAIGPETWNAAYVQPSRRPADGRYGENPNRLQHYYQFQVVLKPNPENFQELYLGSLKAIGIDPLVHDIRFVEDNWESPTLGAWGLGWEIWLNGMEVTQFTYFQQVGGIECYPVTGEITYGLERLAMYLQGVDSVYDLIWTDGPFGTVTYGDVFHQNEVEQSTYNFEHANVPELFRLFDFYESEANRLIELQLPLPTYEMVLKASHTFNLLDARRAISVTERQRYILRVRTLARAVAQSYLQARARLGFPMATPELREEVMAKLKEAAE				NA	NA	NA	NA	NA
BMS010_05271	2055	glyS_1	COG0751	Glycine--tRNA ligase beta subunit	ATGAGTGCACAAGATTTTCTCGTCGAACTGGGCACCGAAGAGCTGCCGCCGAAAGCCCTGAAATCCCTCGGCGACGCCTTCCTCGCCGGGATCGAGAAGGGTCTCAAGGGCGCCGGCCTGGCCTATGCGTCAGCCCGTGTGTTCGCCGCCCCCCGCCGACTTGCCGTGCTGATCGAGCAACTGGCTACCCAGCAACCGGACCGCAGCCACAGTGTCGATGGCCCGCCGCTGCAAGCCGCGTTCGACGCCAACGGCAACCCGACCCAGGCTGCGCTCGGCTTCGCCAAGAAGTGCGGCGTCGATCTGGAGCAGATCGACAAGAGCGGACCCAAGCTGAAATTCAGCCAGACAATCCCCGGCCAACCGGCCGTCGGCCTGTTGCCCGGCATCGTCGAGGCCTCGCTGAACGAACTGCCGATTCCCAAGCGCATGCGCTGGGCCGCGCGCAAGGAAGAGTTCGTTCGCCCGACCCAATGGCTGGTGATGCTGTTCGGCGATCAGGTCGTCGAGTGCGAGATCCTCGCCCAGAAGGCCGGCCGCGAGTCCCGTGGCCATCGTTTCCACAGTCCAGGCAAGGTGCATATCTCGCGTCCGTCCACCTATCTGGAAGATCTGCGAGGTGCCTATGTGCTGGCCGATTTCGCCGAGCGCCGCGAGCTGATCTCTGGCCGTGTCGCCGAACTGGCCGCCGCGCAGCAGGGCAGTGCGATCGTTCCGGCTGATCTGTTGGACGAAGTGACGGCCCTGGTGGAATGGCCGGTACCGCTGGTCTGCTCCTTCGAGGAACGCTTCCTCGAAGTACCGCAGGAAGCGCTGATCTCCACCATGCAGGACAACCAGAAGTACTTCTGCCTGCTGGATGCCAAGGGCAAGCTGCTGCCGCGCTTCATCACCGTAGCCAACATCGAAAGCCAGGACCCGGCGCAGATCGTATCCGGCAACGAGAAGGTCGTGCGTCCGCGCCTCACCGACGCCGAGTTCTTCTTCAAGCAGGACAAGAAGCAGAAGCTGGAAAGCTTCAACAAGCGCCTGGCCAACGTGGTCTTCCAGGCGCAGCTGGGCTCGGTGTTCGAGAAAGCCGAGCGGGTCTCCAAACTCGCCGCGTTCATCGCCGAGCGTATTGGCGGCGATGCCGAGCGCGCAGCCCGCGCCGGCCTGCTGTCCAAGTGCGACTTGGCCACCGAGATGGTCGGCGAGTTCCCCGAAATGCAGGGCATCGCCGGCTACTACTACGCCCTCAACGACGGCGAACCGGAAGACGTTGCCCTGGCTCTGAACGAGCAGTACATGCCACGCGGCGCCGGCGCCGAACTGCCGACCACGCTGACAGGCGCTGCCGTGGCGGTTGCCGACAAGCTGGATACGCTGGTCGGAATCTTCGGCATCGGTATGCTTCCCACCGGCAGCAAGGACCCTTACGCCCTGCGCCGTGCCGCCCTCGGTGTGCTGCGCATCCTGATCGAGAAGCAGCTCGACCTTAATCTGGCCGACGCCCTCGAATTCGCCGCCCGGCAATACGCCGACAAGGTCAAGTCGGACGGCCTGGTGGCCCAAGTCCAAGACTTCATCTTCGACCGTCTGCGTGCCCGTTACGAAGACGAAGGCATAGACGTTGCCGCCTACCTCTCGGTGCGTGCACTGCAGCCCGGCTCCGCGCTGGACTTCGACCAGCGCGTACAGGCCGTGCAGGTGTTCCGTCAGTTGCCGGAAGCTGAAACCCTGGCCGCCGCCAACAAACGCGTATCCAACCTGCTGGCCAAGTTCGAAGGCGAGGTTCCGGTGAATGTCGACGGCTCGCTGCTTCAGGAGCACGCCGAGAAGGTCCTGGCCCAGGCCCTGGCGGCGGCTGACGAAGCCGTGGCGCCGCTTGCCTCGGCACGCTGCTACCGTGAGGCCCTGGAGCGCCTGGCGAGCCTGCGCGAGCCGGTGGATGCCTTCTTCGACGCAGTTCTGGTCAACGCCGAAGACAGCGCCGTGCGGGCCAACCGCTATGCGTTGCTCGCGCGTCTGCGTGGGTTGTTCCTCGGCGTTGCCGATATTTCGCTACTGGGCTGA	MSAQDFLVELGTEELPPKALKSLGDAFLAGIEKGLKGAGLAYASARVFAAPRRLAVLIEQLATQQPDRSHSVDGPPLQAAFDANGNPTQAALGFAKKCGVDLEQIDKSGPKLKFSQTIPGQPAVGLLPGIVEASLNELPIPKRMRWAARKEEFVRPTQWLVMLFGDQVVECEILAQKAGRESRGHRFHSPGKVHISRPSTYLEDLRGAYVLADFAERRELISGRVAELAAAQQGSAIVPADLLDEVTALVEWPVPLVCSFEERFLEVPQEALISTMQDNQKYFCLLDAKGKLLPRFITVANIESQDPAQIVSGNEKVVRPRLTDAEFFFKQDKKQKLESFNKRLANVVFQAQLGSVFEKAERVSKLAAFIAERIGGDAERAARAGLLSKCDLATEMVGEFPEMQGIAGYYYALNDGEPEDVALALNEQYMPRGAGAELPTTLTGAAVAVADKLDTLVGIFGIGMLPTGSKDPYALRRAALGVLRILIEKQLDLNLADALEFAARQYADKVKSDGLVAQVQDFIFDRLRARYEDEGIDVAAYLSVRALQPGSALDFDQRVQAVQVFRQLPEAETLAAANKRVSNLLAKFEGEVPVNVDGSLLQEHAEKVLAQALAAADEAVAPLASARCYREALERLASLREPVDAFFDAVLVNAEDSAVRANRYALLARLRGLFLGVADISLLG				NA	NA	NA	NA	NA
BMS010_05272	540	gmhB	COG0241	D-glycero-beta-D-manno-heptose-1,7-bisphosphate 7-phosphatase	ATGAAACTGATCGTTCTCGACCGTGACGGAGTCATCAACCAGGACTCCGATGAGTTTGTGAAGAACCTGGACGAGTGGATTCCCATTCCCGGTTCCATCGAAGCCATTGCGCGCCTTTCCAAGGCCGGCTGGACGATAGCAGTGGCCACCAACCAATCCGGCGTGGCGCGCGGGCTTTTCGATATGACCATGCTCACTGACATGCACCTGAAGATGCAGAAGCTGGTGATGGAGCAGGGCGGGCGTATCGATCTGATCGTGCATTGCCCCCATGGGCCCAAGGACGGCTGCGAATGCCGCAAACCGAAGCCCGGCATGTTCCGTACCATCGCCGAGCATTTCGAACTTCCCGATCTCCAGGGCGTACCTGTGGTCGGAGACAGTCACCGCGATCTGCACGCCGGGCTTATGCTGGGCGGCACGCCCTACTTGGTGAAGACCGGCAAGGGCTTGCGCACGCTGGAAAGCAACCTGCCCCCGGGTACCCAGGTCTTCGATGACCTCGCCGCCGTGGTCGACCACTTGCTCAAGGACCGATAG	MKLIVLDRDGVINQDSDEFVKNLDEWIPIPGSIEAIARLSKAGWTIAVATNQSGVARGLFDMTMLTDMHLKMQKLVMEQGGRIDLIVHCPHGPKDGCECRKPKPGMFRTIAEHFELPDLQGVPVVGDSHRDLHAGLMLGGTPYLVKTGKGLRTLESNLPPGTQVFDDLAAVVDHLLKDR	PGPT0023035_1541	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-MANNO-HEPTOSE|-PHOSPHATE_MODIFICATION,PGPT0023035-gmhB|yaeD-K03273	NA	NA
BMS010_05273	774			hypothetical protein	ATGAGCTTCACCCTGCCAATCAGGACCTTCCTGTTCTACCTCCTGCTCTCTGCCAGCGCCTTCTTCTGGGGCATTCTCAGCGTCCTGATCGGGCCCTTCCTGCCGTTTCGCGCACGCTACCGCTTCATTGTCCAGGCTTGGTGCCGCATGGCCGTCTGGCTGGCACGCGTCGCGGTGGGCATCCGTTATGAGATAAAGGGCTTGGAAAATATTCCCGAGCGGCCCTGCGTGATCCTCGCAAAACACCAGAGCACTTGGGAAACCTTCTTTCTCTCCGGCTACTTCGAACCTCTGAGCCAAGTGCTGAAGCGCGAGCTGTTATTCGTCCCGTTCTTCGGCTGGGCGATGGCGCTGCTGCGCCCCATCGCCATCGATCGCAGCAATCCCAAGGCAGCCCTCAAGCAACTCGCCAAGCAGGGCCACGAAAGGCTGGAACAGGGCGCCTGGGTGCTGGTGTTCCCCGAAGGTACCCGTGTACCGGCCGGGCAGATCGGCAAGTTTTCCCGGGGGGGTGCGGCACTGGCCGTCAACGCCAACCTGCCGGTCCTGCCCATCGCCCACAACGCCGGCGAATTCTGGCCGAAAGAGGGCTGGAGCAAGCGCCCCGGTACCATACAGGTGGTGATCGGCCCCGCGCTGTATGCGGAGTCCACCGGGCCACGTGCCATTGCCGAACTCAACGACCGCGCCTTCGCCTGGGTCGAACAGACCCAGCGGGAAATCGGGGCCCTACCACCGACCGCCGTACCGATCGATACCGCAGCGCCTGTCTGA	MSFTLPIRTFLFYLLLSASAFFWGILSVLIGPFLPFRARYRFIVQAWCRMAVWLARVAVGIRYEIKGLENIPERPCVILAKHQSTWETFFLSGYFEPLSQVLKRELLFVPFFGWAMALLRPIAIDRSNPKAALKQLAKQGHERLEQGAWVLVFPEGTRVPAGQIGKFSRGGAALAVNANLPVLPIAHNAGEFWPKEGWSKRPGTIQVVIGPALYAESTGPRAIAELNDRAFAWVEQTQREIGALPPTAVPIDTAAPV	PGPT0024380_1451	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024380-plsC-K00655	NA	NA
BMS010_05274	930	ytfF		Inner membrane protein YtfF	ATGAACAGAACAGGTCTCGGTGTTTTTTACGGCATGCTGGCGGGTGCGCTTTGGGGTGGGATTTTTCTCGCCCCGAAACTCGTGCCGGATTTTTCGGCCCTGCAACTGTCGACGGCGCGTTATCTCACCTATGGGCTGATTTCCCTCTTCATCATCGGGCCGCGTCTGAAACGCATCTCGGCCCATTTTGGCGCGCGGGAGTGGATAGCACTCGGCTGGCTGAGCATGATCGGCAATATCGCCTATTATGTCTTCATATCGACCGCGGTAAAATTGAGCGGCGTCGCCTTCACCTCCATTATCATCGGTTTCCTGCCCGTCGCTGTCACCATCATCGGCAGCCGCGATCACGGCGCGGTGTCGCTGAAGCGGCTGTGGCCGTCGCTCGCCTTCGGCGCGATGGGCATTATCGGCATTTCATGGCAGTCACTAACGGAAAACGATGCGGGGCTCGATGTCTCTCGCGTCATCGGGCTTGCCTGTGCGCTCGGTGCGCTGGCGTCATGGACGGCCTTTGCCGTCGGTAACGCCCGCTGGCTCTCCCGCCTTCACGATGTCAGCGCGGATGACTGGAACATGATGACGGGTGTGGTGACCGGTGGGCTTGCGCTGCTGCTTGCTATCCCGGCCTTTGGCTTTGGCGGCGAAAGCCATAGTTCAGGCGACTGGCTGCACTTTGTGGCTGTCGCAGCCGGGCTTGGTTTTACCGCCTCAATTCTCGGCAATGCCTTATGGAACCGCATGAGCCGCCTTCTGCCGCTCACCATGGTCGGGCAGATGATCCTGTTCGAAACGCTGTTTGCGCTGCTTTACGGTTTTCTCTGGGAAGGGCGTGGCCCGACACTAATTGAGGTCGTGGCGATATGTTCGGTGGTGCTGAGCGTCGTGCTGTGCATGCGGGCGCATCGGCCAGAGAGAATCACGGCATGA	MNRTGLGVFYGMLAGALWGGIFLAPKLVPDFSALQLSTARYLTYGLISLFIIGPRLKRISAHFGAREWIALGWLSMIGNIAYYVFISTAVKLSGVAFTSIIIGFLPVAVTIIGSRDHGAVSLKRLWPSLAFGAMGIIGISWQSLTENDAGLDVSRVIGLACALGALASWTAFAVGNARWLSRLHDVSADDWNMMTGVVTGGLALLLAIPAFGFGGESHSSGDWLHFVAVAAGLGFTASILGNALWNRMSRLLPLTMVGQMILFETLFALLYGFLWEGRGPTLIEVVAICSVVLSVVLCMRAHRPERITA				NA	NA	NA	NA	NA
BMS010_05275	735	mtrA		HTH-type transcriptional regulator MtrA	ATGACAGCCGCATCCGCCGATATCAGAACCTACAGGGAAGAAAGACCGAAGGAACGGCATGGCTTCGTTCAGATCGTTCTTCCGGTTTCCGGGCGTTTGCTGATCGATGTGGCGGGACGGCAGGACGAATTGTCGGCCGGACGCGGCGTGTTCATCCATCGCGATGCGCCGCATACGCAGGAAGCGACGGCAAGCAACCACTCGCTGGTGGTCGATATCGATGAAGGCGCCCTTCCCGAGCAAACGCTCGAGAAATTCGCCCATTCGCCGTTTCTCGATATCGCGCAGGATACGCGGCAATTGATCGCCTATATGCGCGGCGTCATCGGAACAGAGGGGCGACGCGACGATATTGCCGGTCTGTGGGCACCGCTCCTGATCGACAGCCTTGCCAATGAGAAAGCCGACATTCGCCAACGCCTGCACAGGCTTGTTGCACTTATCAGGGCGGAACCGTTCTTCCCCTGGACCATCGAGATGCTCGCCTCCTGCGTGACCATCAGCGACAGCCGCCTGCATGCGCTGTTTCTCGAAGAATTCGGCCTCCCGCCTCACCGCTGGCTGGCCGGGCTGCGCTTGGACAAGGTCTGCGCATTGCTCAGCAATTCCACTCTGCCGATTGCAGAGATCGCCTTGCGGGCCGGTTTTTCCGACCAGACTGCACTGACGCGCGCCATGCGCAATGCAGTGGGTGAAACGCCCGCAGCCTACCGTCGGACCTACGGGATTCATTAA	MTAASADIRTYREERPKERHGFVQIVLPVSGRLLIDVAGRQDELSAGRGVFIHRDAPHTQEATASNHSLVVDIDEGALPEQTLEKFAHSPFLDIAQDTRQLIAYMRGVIGTEGRRDDIAGLWAPLLIDSLANEKADIRQRLHRLVALIRAEPFFPWTIEMLASCVTISDSRLHALFLEEFGLPPHRWLAGLRLDKVCALLSNSTLPIAEIALRAGFSDQTALTRAMRNAVGETPAAYRRTYGIH				NA	NA	NA	NA	NA
BMS010_05276	177			hypothetical protein	ATGGACGATTTTTCCAACATCATCAACCTTCTCGAATCCGCCAAGCAACTCGCATCGATGAACGGCATGCCGGTGCTTGCCTATCTGATCGACGTCGCGAAATGCGAGGCGAGGGAGAACAAGCCGGTTCTGCGCAAGCGCAAACGCGGCGAATCGACCGCCAAGGAAGACTGTTAA	MDDFSNIINLLESAKQLASMNGMPVLAYLIDVAKCEARENKPVLRKRKRGESTAKEDC				NA	NA	NA	NA	NA
BMS010_05277	570			hypothetical protein	ATGCCAAACTATCTTCACAGGGTGGAAGATGCGGCTGCGATCATCGCCGGGGCGCAGCGAATCATGGTCGTGGGCTGCTCCGGCGGCGGCAAGACGACGCTTTCGCAGAAGCTCGCGCGCAATTTCGGACTTCGCTACATCTCCATGGATCGCGATGTTTTCTGGCTGCCCGGCTGGCAGGCGCGCCCGCGCGAGGAGCAGCGACAGAGGATAGCCACCATCATTACCGAGGAACGCTGGCTGATGGACGGCAGCAATCCGTCGTCGTTCGATATACGGCTGCCGCGATCCCACATCGTTTTGTGGGTGCGCATGCCGCGCTGGCTCTGCCTGTGGGGCGCCGTCAGCCGGGCGATCAAGGGTTATGGCAAGGCCCGCCCGGAAATGGCGGAGGGGTGTCCCGAAAGGATAGACATCGATTTCCTGCGCTATATCTGGAATTTCGAACGCCGCCATGCCTCGATTTTCGAGCAGAATTTCGCGCTTTATGGTCCTGATGTGCCGGTATTCCAGCTGAAAAGCCGAAAACAGTTTCGCCGCCTTCTTGATCTTCTGCGTATCGAGGATTAA	MPNYLHRVEDAAAIIAGAQRIMVVGCSGGGKTTLSQKLARNFGLRYISMDRDVFWLPGWQARPREEQRQRIATIITEERWLMDGSNPSSFDIRLPRSHIVLWVRMPRWLCLWGAVSRAIKGYGKARPEMAEGCPERIDIDFLRYIWNFERRHASIFEQNFALYGPDVPVFQLKSRKQFRRLLDLLRIED				NA	NA	NA	NA	NA
BMS010_05278	456	pasT	COG2867	Persistence and stress-resistance toxin PasT	ATGCCACAGTTCGAAACGCATCGCCACGTCAAACACTCGCCCGACCGCATGTACGACCTCGTCGCCGATGTGGAGAAATATCCGCAGTTTCTGCCCCTTTGCGAGGCGCTCACCGTCCGTTCGCGCAAGGAGCGCGATGGCAAGGTGCTGCTGGTGGCGGATATGACGGTGGGCTACAAGGCCATTCGCGAAACCTTCACCACGCAGGTGCTGCTGAACCCGGCCGAGCGCGCCATCGACGTGAAATATATCGACGGACCGTTTAAATATCTCGACAATCGCTGGCGTTTCGAGCCTGCCGACGAGGGCGGCTCAGCCATTCATTTTTTCATCGATTATGAATTCAAGAACCGTCTGCTCGGCGCGGTCATGGGGTCGATGTTCGACCGGGCCTTTCGCATGTTCGCGGAAGCCTTCGAGACGCGTGCCGATAAAATTTATACGGACCCGGCCTGA	MPQFETHRHVKHSPDRMYDLVADVEKYPQFLPLCEALTVRSRKERDGKVLLVADMTVGYKAIRETFTTQVLLNPAERAIDVKYIDGPFKYLDNRWRFEPADEGGSAIHFFIDYEFKNRLLGAVMGSMFDRAFRMFAEAFETRADKIYTDPA				NA	NA	NA	NA	NA
BMS010_05279	510	pncC_2	COG1546	Nicotinamide-nucleotide amidohydrolase PncC	ATGAGCCTTTTTCCCGCCGACATAGAAGAGCTGGCGCGGCGGATCATTGCCGATTTCACCGCGCATGGTTTCATGGTCTCGACCGCAGAAAGTTGCACGGGCGGCCTGATCGCCGCTGCCCTGACGGAGATTGCCGGCTCCTCCGCTGTCGTTGATCGTGGTTTTGTCACCTATACCAATGAAGCCAAGATGGACATGCTGGGCGTTGGCGCCGAGACGGTGACGAATTTCGGCGCGGTATCCCGACAGACGGCGTTGCAGATGGCGCATGGCGCCCTCTTCCGTTCCCGCGCGGATTTCGCCGTGGCGGTAACTGGCATCGCCGGTCCGGGGGGCGGTTCCGCCGACAAGCCGGTGGGGCTGGTGCATCTGGCCGCCCATGCGCGCGGCGGTAAAATCCTGCATCGGGAAATGCGTTACGGCGAGATCGGCCGCACAGAAATCCGGCTTGCTACGGTGAGGACGGCGCTCCAGATGCTGATAGCCCTCAATCAGGCCGGGTCCGTATAA	MSLFPADIEELARRIIADFTAHGFMVSTAESCTGGLIAAALTEIAGSSAVVDRGFVTYTNEAKMDMLGVGAETVTNFGAVSRQTALQMAHGALFRSRADFAVAVTGIAGPGGGSADKPVGLVHLAAHARGGKILHREMRYGEIGRTEIRLATVRTALQMLIALNQAGSV	PGPT0013460_1181	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013460-pncC2-K03743	NA	NA
BMS010_05280	1188	ispDF	COG0245	Bifunctional enzyme IspD/IspF	ATGAAACTCGGCATCGTCATCGTCGCCGCCGGACGCGGAGAAAGAGCGGGCTCTCCCGAGGAAGGGCCGAAACAATATCGCCCCATCGGAGGCAGGGCCGTGATCGAGCATACATTGTCGACCTTCCTCGACTGGGATCATGCCTCCCCCATCGTGATCGTCAGCCATGCAGACGATGCGGAACTGCTGTCGCCGATCCTCCAGCGGCTTGATGCCGGCGAGCGGATCGTTACCGTCACGGGCGGCGCAACACGCCAGCAATCGGTGCTTGCCGGGCTGGAAGCGCTCTCTTCGGAAGAGCTGACGCATGTGATGATCCATGATGCCGTGCGGCCTTTCGTCTCCGTGGACATGCTGGAACGCATCGTCGCCCTGCACCGGGCCGGCGCCAGCGGCGTCCTGCCTGCCCTCTCCGTCACTGACACCCTGAAGCGCGGTTCGGAAGGTCGCGTCGTGGAAACGGTTTCCCGGCAGGGGCTTTATGCCGCGCAGACACCGCAGAGTTTCGGCTACGGCGATATTCTCGCCGCGCACCGCGCCGCTGCCGCCTCCGGAAAGTCCGATTTTACCGATGATGCTTCGATTGCCGAATGGGCGGGACTGACGGTGACTCTGACCGAAGGTTCGGTCGACAATGTAAAACTCACTCTCAAGCGGGATATCGCGATGGCCGATGAAAAGCTCTCCCACGGATTGCCGGACGTGCGCACCGGCAATGGTTACGACGTGCATCAGCTGGAGGCCGGCGACGGCGTGACGTTGTGCGGCGTCTTCATCGAACACGACCAGAGATTGAAAGGTCATTCGGATGCCGATGTGGCTTTGCATGCGCTGACGGATGCGCTGCTCGCCACCTGTGGCGCCGGCGATATCGGCGATCACTTCCCGCCTTCCGATTCGCAATGGAAGGGTGCCGCCTCGCGCATCTTCCTCGAACATGCGGCCAAAGTGGTTCGCGACAACGGCGGCACGATCATGAATGCCGATGTCTCGCTGATTGCGGAAGCGCCGCGCATCGGCCCGCACCGTCAGGCCATGCGCGAAGCACTGTCGGACATGCTGGGCATCGCGCTGGAGCGCTGCTCGGTGAAGGCGACGACCAATGAGACCATCGGTTTCGTCGGCCGCCGAGAAGGCATCGCTGCAATCGCCACCGCTACCGTCGTCTACAGGGGCAGACCTTTATGA	MKLGIVIVAAGRGERAGSPEEGPKQYRPIGGRAVIEHTLSTFLDWDHASPIVIVSHADDAELLSPILQRLDAGERIVTVTGGATRQQSVLAGLEALSSEELTHVMIHDAVRPFVSVDMLERIVALHRAGASGVLPALSVTDTLKRGSEGRVVETVSRQGLYAAQTPQSFGYGDILAAHRAAAASGKSDFTDDASIAEWAGLTVTLTEGSVDNVKLTLKRDIAMADEKLSHGLPDVRTGNGYDVHQLEAGDGVTLCGVFIEHDQRLKGHSDADVALHALTDALLATCGAGDIGDHFPPSDSQWKGAASRIFLEHAAKVVRDNGGTIMNADVSLIAEAPRIGPHRQAMREALSDMLGIALERCSVKATTNETIGFVGRREGIAAIATATVVYRGRPL	PGPT0007600_423	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007600-ispDF-K12506	NA	NA
BMS010_05281	1017	dusB_1	COG0042	tRNA-dihydrouridine synthase B	ATGAAAGATCATCAATTGCATCTTCCGGAGTTGTCAGAACCGTTCAGCATCGGCTCAGTCACGATCCGTAATCGTGCCGTGCTGGCGCCCATGTCGGGCGTGACGGATCTGCCGTTCCGGCAGCTTGCCTGGCGTTATGGCGCGGGCCTTGTCGTTACGGAAATGGTGGCAAGCCGTGAGCTCGTCGCCAACCGCGGCGAATCCTGGGCGCGGCTGAAAAATGCCGGCATGGTTCCGCATATGGTGCAGCTCGCAGGACGCGAGGCGCATTTCATGGCCGAGGCAGCGAAGATCGCAGCCGACAATGGCGCCGGCATCATCGACATCAATATGGGCTGTCCAGCCAAGAAGGTGACGGGCGGTTATTCCGGCTCGGCTTTGATGCGCGATCCGGATCATGCACTCTCGCTCATTGAGGCAACGGTCAATGCAGTCAACGTGCCTGTGACGCTGAAGATGCGGCTCGGCTGGGATGAGAACACCATGAATGCGCCGGAGATCGCCCGCCGGGCTCAAGCCGCCGGTGTTCAGCTGATCACCATTCACGGCCGCACCCGCATGCAGTTTTACGAGGGACGTGCGGATTGGGACGCTATCCGCGCCGTGCGCGAGGTGATTTCCGTGCCGCTGATCGCCAATGGCGACGTTGAAACGGCCGGAGATGCGCGCGAAATCCTGCGCCGTTCGGGTGCGGATGCCGTCATGGTCGGGCGCGGCGCGCAGGGGCAACCCTGGCTGCCGGCGGTGCTTGCCGGACATTCAGCGCCGCACCGCGGCGATATTCCCGCCATCGCCATCGAACATTACGAGATGATGCTGGAATTTTATGGAAGGGAAGCCGGTCTCCGGCATGCCCGCAAACACCTCGGCTGGTATCTCGGCCGTTTCGCGCCGGAGATCGCCACGCCTGACAAGGCTGAAATCATGACATCGCGTGACACGGCGGAAGTGGCGGATTTGCTGCGCTCCGCCCTTAGCGAAAATGCGGGCGAAGACGCCGCAAGGAAGGCCGCATGA	MKDHQLHLPELSEPFSIGSVTIRNRAVLAPMSGVTDLPFRQLAWRYGAGLVVTEMVASRELVANRGESWARLKNAGMVPHMVQLAGREAHFMAEAAKIAADNGAGIIDINMGCPAKKVTGGYSGSALMRDPDHALSLIEATVNAVNVPVTLKMRLGWDENTMNAPEIARRAQAAGVQLITIHGRTRMQFYEGRADWDAIRAVREVISVPLIANGDVETAGDAREILRRSGADAVMVGRGAQGQPWLPAVLAGHSAPHRGDIPAIAIEHYEMMLEFYGREAGLRHARKHLGWYLGRFAPEIATPDKAEIMTSRDTAEVADLLRSALSENAGEDAARKAA	PGPT0001030_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0001030-acoR-K21405	NA	NA
BMS010_05282	1149	glnL_1	COG3852	Sensory histidine kinase/phosphatase NtrB	ATGAGCGCTGACAAACACAGCCCGGCAGATGCAAACCCGCTTGCCATGGCGGTTCTGAACGCGGTGCAGAACCCGGTTATTCTGGTGGACGCCGAAGGTTTCATCGCCTTCGCCAACTGGGAAGCCGAAGCCTTTTTCGGGGCGAGCGCCTCCCATCTCGCGCGCTACCGCGTTTCCACCTTCATTCCCTTCGGCAGCCCGTTGCTGGCACTGATCGACCAGGTGCGGGAGCGCCGCGCGCCGGTCAACGAATATCGCGTCGATCTGAGTTCGCCGCGTCTCGGCCAGGACAAGCTGGTCGATCTTTATGTCGCGCCCGTTGTCAGCGAACCGGGATCGGTGGTGGTCGTCTTCCAGGAAAGGTCGATGGCCGACAAGATCGACCGGCAATTGACCCACCGGGCGGCGGCGCGCTCCGTTACCGGCCTTGCCTCCATGCTCGCCCATGAAATCAAGAATCCGCTGTCCGGCATTCGCGGCGCTGCCCAGTTGCTGGAGACCTCGGTTGCCGATGAAGACCGGGCGCTGACGCGGCTGATCTGCGACGAGACCGACCGCATCGTCTCGCTGGTCGACCGTATGGAGGTGTTTTCCGACGAGCGTCCGGTGGATCGCGTGCCGGTCAACATCCATTCCGTGCTCGATCACGTGAAGGCCATCGCCAAGGCCGGCTTTGCCCGCAATATCAAGATTTCGGAAAACTACGACCCCTCGTTGCCGCCTGTTTATGCCAATCGCGACCAGCTGGTGCAGGTCTTTCTCAATCTGGTGAAGAATGCGGCGGAAGCCGTTGGCAACCAGCCGGATGGCGAAATCATCCTCACCACCGCCTATCGCCCCGGCATGCGGCTTTCGGTCGCCGGCAGCCGGGAGCGCATCTCGCTGCCGCTCGAATTCTGCGTGCATGACAATGGCCCAGGCGTTCCGGCCGATCTTTTGCCGCATCTTTTCGATCCCTTCATCACCACCAAGACGAATGGTTCGGGCCTCGGGCTGGCGCTTGTCGCCAAGCTGATCGGCGCCCATGGCGGCATTGTGGAATGCGACAGCCAGAACCATCGCACGACTTTCCGCGTATTGATGCCCGTCTCGCCGGAAGTGGCGCTCGACGACCGCTCTTTGCCGAACACGACAGGAAATGACCAATGA	MSADKHSPADANPLAMAVLNAVQNPVILVDAEGFIAFANWEAEAFFGASASHLARYRVSTFIPFGSPLLALIDQVRERRAPVNEYRVDLSSPRLGQDKLVDLYVAPVVSEPGSVVVVFQERSMADKIDRQLTHRAAARSVTGLASMLAHEIKNPLSGIRGAAQLLETSVADEDRALTRLICDETDRIVSLVDRMEVFSDERPVDRVPVNIHSVLDHVKAIAKAGFARNIKISENYDPSLPPVYANRDQLVQVFLNLVKNAAEAVGNQPDGEIILTTAYRPGMRLSVAGSRERISLPLEFCVHDNGPGVPADLLPHLFDPFITTKTNGSGLGLALVAKLIGAHGGIVECDSQNHRTTFRVLMPVSPEVALDDRSLPNTTGNDQ	PGPT0000680_200	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-GLUTAMATE|GLUTAMINE_SYNTHASE|GLTS_PATHWAY,PGPT0000680-ntrB|glnL-K07708	NA	NA
BMS010_05283	1452	ntrC	COG2204	DNA-binding transcriptional regulator NtrC	ATGACAGCTACGATCCTCGTCGCCGATGATGACGCCGCAATCCGCACGGTGCTGAACCAGGCGCTGAGCCGCGCCGGTTACGACGTGCGCATCACCTCCAATGCCGCCACGCTCTGGCGCTGGGTTTCGGCGGGTGAGGGCGATCTTGTCGTAACCGATGTCGTGATGCCGGATGAAAACGCCTTTGACCTGCTGCCGCGCATCAAAAAGGCCCGCCCGGACCTGCCGGTTCTGGTCATGAGTGCGCAGAACACCTTCATGACGGCCATCAAGGCCTCGGAAAAAGGCGCTTACGATTACCTGCCGAAGCCCTTCGACCTGACGGAGCTGATCGCCATCATCGGCCGCGCCCTGTCGGAACCGAAGCGCAAGCCGGCCAAACTCGATGACGACATGCAGGACGGCATGCCGCTCGTCGGCCGCTCGGCGGCGATGCAGGAAATCTACCGCGTTCTCGCCCGCCTGATGCAGACCGACCTGACGCTGATGATCACCGGTGAATCCGGCACCGGCAAGGAGCTGGTGGCGCGCGCTCTGCATGATTACGGCAAGCGCCGCAACGGTCCCTTCGTCGCCATCAACATGGCCGCAATCCCGCGCGACCTGATCGAATCCGAACTCTTCGGCCATGAGAAGGGCGCCTTCACCGGCGCGCAGAACCGCTCCACCGGCCGTTTCGAACAGGCCGAGGGCGGCACGCTGTTCCTCGACGAAATCGGTGACATGCCGATGGACGCCCAGACACGCCTGCTGCGCGTGTTGCAGCAGGGCGAATATACGACGGTGGGCGGCCGTACGCCGATCCGCACGGATGTCCGCATCGTTGCTGCGACCAACAAGGACCTGAAGCAGTCGATCAATCAGGGCCTTTTCCGCGAAGACCTCTATTATCGCCTGAACGTCGTGCCGCTGCGGCTGCCGCCGCTACGTGACCGCGCCGAGGATATTCCCGATCTGGTGCGCCACTTCATCCAGCAGGGCGAAAAGGAGGGTCTGGAAGGCAAGCGTTTCGAGAGCGAGGCGCTGGAGGTCATGAAGGCCTATGCCTGGCCTGGCAACGTGCGCGAGCTGGAAAACCTGATCCGCCGCCTGATGGCGCTTTACCCGCAGGAAGTCATCACCCGCGAGATCATCGAGCAGGAACTGCAATCGGATGTTCCCGACAGCCCGCTCGACAAGATGGCGGTGCGCACCGGTTCGCTCACCATTTCGCAGGCGGTGGAAGAAAATATGCGGGATTATTTCGCCAGTTTCGGCGATGGCCTGCCGCCGCCCGGCCTTTACGACCGCGTTCTGCGCGAACTCGAATATCCGCTGATTCTCGCGGCTTTGACTGCGACACGCGGCAACCAGATCAAGGCCGCCGATCTTCTCGGCCTGAACCGCAATACGCTGCGCAAGAAAATCCGCGAGCTTGGCGTTTCCGTTTATCGCAGCTCCCGCCCAAGCTGA	MTATILVADDDAAIRTVLNQALSRAGYDVRITSNAATLWRWVSAGEGDLVVTDVVMPDENAFDLLPRIKKARPDLPVLVMSAQNTFMTAIKASEKGAYDYLPKPFDLTELIAIIGRALSEPKRKPAKLDDDMQDGMPLVGRSAAMQEIYRVLARLMQTDLTLMITGESGTGKELVARALHDYGKRRNGPFVAINMAAIPRDLIESELFGHEKGAFTGAQNRSTGRFEQAEGGTLFLDEIGDMPMDAQTRLLRVLQQGEYTTVGGRTPIRTDVRIVAATNKDLKQSINQGLFREDLYYRLNVVPLRLPPLRDRAEDIPDLVRHFIQQGEKEGLEGKRFESEALEVMKAYAWPGNVRELENLIRRLMALYPQEVITREIIEQELQSDVPDSPLDKMAVRTGSLTISQAVEENMRDYFASFGDGLPPPGLYDRVLRELEYPLILAALTATRGNQIKAADLLGLNRNTLRKKIRELGVSVYRSSRPS	PGPT0000685_548	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-GLUTAMATE|GLUTAMINE_SYNTHASE|GLTS_PATHWAY,PGPT0000685-ntrC|glnG-K07712	NA	NA
BMS010_05284	2262	sasA_16		Adaptive-response sensory-kinase SasA	ATGCGGAAACCCGCCGCCGAAAACGCCGTTGCCGATGAAGCAGCGGGCATGGTGGTTGCCGATCGCAGGATGTCTTTCGCTTTGCCGGGGCTGGTGCTCGCCGGCGTCGCTCTCGTTTGCGCCATCCTCACCCTGTTCGTACTTCTGGGCGTCACGCCAATCGCGCCGACATCGAACGTCGTCATCGCCTCCGTCGTCATCAATTCGATCTTCGTGATCGGCCTGATCTTCCTCATCGGGCGCGAAATCAACCGGCTGCTGAAAGCGCGTAAAAAGGGCAGGGCGGCGGCGCGTCTGCACGTGCGCATCGTCGTGCTTTTCTCCATCGTGGCGATTACGCCCGCGGTGCTCGTCGCCATCTTCGCCAGTCTGACGCTGAATGTAGGCCTCGACCGCTGGTTTGCGCTGCGTACGCAGTCGATCGTCGATTCATCGAGCAATATCGCCCAGGCCTATATGATGGAGAATGCCGGTTATCTTCAGGGGCAGACCCTGTCGATGGCAACCGACCTCGACCGCAACCGTGCGCTCTTTTATCTGGATCGCACTGGCTTCGTCGATCTGATGACCCGTCAGGCCAAGGGGCGCGGCCTTCTCGGCGCGTTTCTGGTGCAGGAGGACGGCGACGCCGTCGCTCAGGCCGACATCAAGACCGAAAAACCGCTTCCTGCCATCCCGCATGACGCGCTTGAAAAGGCGGCCGCCGGGCAGCCGACGCTGATACCGCCCGGTATCACCAACCTCGTCGGTGCCATTATCAAGCTCGAAGGCATCAGCGGCACCTTCCTTTACACGGTGCGCGCCGTCGATCCCAAGGTGATGGGCGCGATGCGGCTGATGGAAGAGAACCGCGCCGAATACAAGGCGATGGAGGCAGGCCGCGCGCCGCTGCAGATCGCCTTTGCAATTCTTTATCTCGGTTTCGCGCTGATCGTGCTTCTCGCCGCCATCTGGACGGCGATTGCGGTGGCCGACCGTATAGTGCGGCCTATCCGTCTCCTCATCAGTGCGGCAGACAGTGTCGCCACCGGCAACATGCATGTGCTGGTTCCCGTCCGCGCCGTCGATGGCGACGTCGGGCGACTGTCGCGCACCTTCAACAAGATGGTCTCCGAACTGCGCAGCCAGCAGGAACAGATCATCGAGGCCAAGGACGATATCGACGACCGCCGCCGCTTCATCGAGGCCGTGCTGTCAGGCGTTACCGCCGCCGTCATCGGTGTCGATGAGAACCGCAGGATCACCATCGTCAATCCGTCGGGCGAAGAATTCCTGGCGCAGACGTCCGAGCAGCTTATCGGCGCGCAACTGTCGGAGATCGCGCCGGAAATCGAACAGGTGGTCAACGAGGCGAATACCTGGTCACGCGGCAATTTCCGCAAGCAGATCAACATCATGCGGCGGGGCAAGGAACGAACGCTGAATGTGCAGGTGACCCGCGAGGACGCTCGCGACAGCCGTGACAGCTACGTCATCACCCTTGACGACATCACCGATCTCGTCATCGCCCAGCGTTCGACCGCATGGTCTGATGTGGCGCGGCGCATCGCGCATGAAATCAAGAACCCGTTGACGCCGATCCAGCTTTCCGCCGAGCGTATCAAACGCCGTTTCGGCAAGCAGATCGACGAGAGCGACCGCGCCGTCTTCGACCAGTGTACGGACACCATCGTCCGGCAGGTTGGCGATATCGGCCGGATGGTGGATGAATTCTCCGCTTTTGCGCGCATGCCGAAGCCGACGAAGGAAAAGTCGGACCTGCGGGCGATCTTGAAGGACGCCGCATTCCTGCGCGAGATCAGCGCCGCCGATACGAAATTCTCAACCGAACTGGGCGATATCCCGCTGGAGGGCATGTTCGATGCCCGCATGCTGGGTCAGGCCTTCGGCAATCTCATCAAGAATGCGACGGAAGCCATCGAGGCGGTAGAAGGCGAAAAGCGGCCGGGTAAAATTCTGGTGCGCGCCGCTTTCGACGAGGCCAATTCGCGTTTCGTGGCTGACATCATCGACAATGGTCGCGGCCTTCCCGTCGAGAACCGTCACCGCATTCTCGAACCTTATATGACGATGCGGGACAAGGGCACGGGCCTCGGCCTCGCCATCGTCAAGAAAATCATCGAAGAGCATGGCGGGTATCTGGAACTCCACGATGCCCCGCCGGAGTTCGATCAGGGCCACGGCGCCATGATCAGAGTGCTGCTGCCCTATATCGAGGCGGTCGGCGGCGAAAATAACAAGGAAGCAGCATATGGCGTCTGA	MRKPAAENAVADEAAGMVVADRRMSFALPGLVLAGVALVCAILTLFVLLGVTPIAPTSNVVIASVVINSIFVIGLIFLIGREINRLLKARKKGRAAARLHVRIVVLFSIVAITPAVLVAIFASLTLNVGLDRWFALRTQSIVDSSSNIAQAYMMENAGYLQGQTLSMATDLDRNRALFYLDRTGFVDLMTRQAKGRGLLGAFLVQEDGDAVAQADIKTEKPLPAIPHDALEKAAAGQPTLIPPGITNLVGAIIKLEGISGTFLYTVRAVDPKVMGAMRLMEENRAEYKAMEAGRAPLQIAFAILYLGFALIVLLAAIWTAIAVADRIVRPIRLLISAADSVATGNMHVLVPVRAVDGDVGRLSRTFNKMVSELRSQQEQIIEAKDDIDDRRRFIEAVLSGVTAAVIGVDENRRITIVNPSGEEFLAQTSEQLIGAQLSEIAPEIEQVVNEANTWSRGNFRKQINIMRRGKERTLNVQVTREDARDSRDSYVITLDDITDLVIAQRSTAWSDVARRIAHEIKNPLTPIQLSAERIKRRFGKQIDESDRAVFDQCTDTIVRQVGDIGRMVDEFSAFARMPKPTKEKSDLRAILKDAAFLREISAADTKFSTELGDIPLEGMFDARMLGQAFGNLIKNATEAIEAVEGEKRPGKILVRAAFDEANSRFVADIIDNGRGLPVENRHRILEPYMTMRDKGTGLGLAIVKKIIEEHGGYLELHDAPPEFDQGHGAMIRVLLPYIEAVGGENNKEAAYGV	PGPT0001025_504	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NTR-NITROGEN_REGULATORY_SYSTEM,PGPT0001025-ntrY-K13598	NA	NA
BMS010_05285	1365	glnG_1	COG2204	DNA-binding transcriptional regulator NtrC	ATGGCGTCTGATATTCTGGTCGTGGATGACGAGGCGGACATTCGCGAAATCGTAGCGGGCATTCTTTCCGACGAGGGCCACGAGACCCGCATGGCGTTCGACAGCGACAGCGCGCTGGCCGCCATTTCGGAGCGCGTGCCGCGTCTGATCTTTCTCGATATCTGGATGCAGGGTTCGAAGCTCGACGGTCTGGCGCTGCTGGATGAGATCAAGAGCCGCCATCCCGAAATCCCGGTGGTCATGATTTCCGGTCACGGCAATATCGAAACCGCTGTCAACGCCATCAAGCGCGGCGCTTTCGACTTTATCGAGAAGCCGTTCAAGGCTGACCGCCTCATTCTGATCGCTGAGCGGGCGTTGGAAAACTCCAAGCTGAAGCGCGAGGTTCAGGAACTCAAGAAGCGCACCGGTGACGCGGTTGAACTCGTCGGCGCATCGCTTGCGGTGTCGCAGCTTCGCCAGACCATCGACCGGGTTGCGCCCACCAACAGCCGCATCATGATCCTCGGCCCCTCCGGTTCCGGCAAGGAACTTGTTGCGCGCATGGTGCACAAGAAGTCCTCGCGTGCCAGCGGACCCTTCGTGGCGCTCAACGCCGCGACGATCACACCGGACCGCATGGAAATCGCGCTTTTCGGCACGGAGGGCCTTCCCGGGCAGCCGCGCAAGGTCGGGGCTCTGGAAGAAGCTCATCGCGGCGTGCTTTATCTCGATGAAGTCGGCGAAATGCCGCGCGAGACCCAGAACAAGATCCTGCGCGTGCTGGTCGATCAGCAATTCGAGCGCGTTGGGGGCGGCAAGCGGGTGAAGGTGGATGTGCGCATCATTTCCTCGACCGCCCATCACCTCGAAAGCCTGATTGCCGAAGGCCAGTTCCGCGAAGATCTCTATCATCGCCTCGCCGTGGTGCCGGTGAAGGTGCCGGCCCTTTCTGAGCGGCGCGAGGATATTCCGTTCCTTGTCGATATGTTCATGCGCCAGATTTCCGAGCAGGCCGGCATCCGTCCGCGCAAGATCGGCGACGACGCCATGGCCGTTCTCCAGACGCATGACTGGCCGGGCAATATCCGCCAGCTGCGCAACAATATCGAGCGGCTGATGATTCTCGCCCGTCCAGAAGGCGGCGAAGCGCCGATCTCGGCCGACATGCTGCCTTCGGATATTGGCGACATGCTGCCCAAGATTTCGGCGCAGGGCGATCAGCACATCATGACCCTGCCGTTGCGCGAAGCGCGTGAAATGTTCGAGCGCGACTATCTCATGGCGCAGATCAACCGCTTCGGCGGCAATATTTCGCGAACGGCGGAATTTGTCGGCATGGAACGGTCTGCACTGCATCGCAAACTGAAATCTCTCGGCGTATAA	MASDILVVDDEADIREIVAGILSDEGHETRMAFDSDSALAAISERVPRLIFLDIWMQGSKLDGLALLDEIKSRHPEIPVVMISGHGNIETAVNAIKRGAFDFIEKPFKADRLILIAERALENSKLKREVQELKKRTGDAVELVGASLAVSQLRQTIDRVAPTNSRIMILGPSGSGKELVARMVHKKSSRASGPFVALNAATITPDRMEIALFGTEGLPGQPRKVGALEEAHRGVLYLDEVGEMPRETQNKILRVLVDQQFERVGGGKRVKVDVRIISSTAHHLESLIAEGQFREDLYHRLAVVPVKVPALSERREDIPFLVDMFMRQISEQAGIRPRKIGDDAMAVLQTHDWPGNIRQLRNNIERLMILARPEGGEAPISADMLPSDIGDMLPKISAQGDQHIMTLPLREAREMFERDYLMAQINRFGGNISRTAEFVGMERSALHRKLKSLGV	PGPT0001020_689	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NTR-NITROGEN_REGULATORY_SYSTEM,PGPT0001020-ntrX-K13599	NA	NA
BMS010_05286	1377	trkA_2	COG0569	Trk system potassium uptake protein TrkA	ATGAAAGTCATCATTTGCGGCGCAGGGCAGGTGGGTTACGGCATCGCCGAACAATTGTCGCGGGAAGATAATGAAGTATCGGTGATCGATACGGCCGCGCCGCTCATCACCGCCATTACCGAGACGCTGGATGTGCGCGGTTATGTCGGCCATGGCGCGCATCCCGACATGCTTGCCAAGGCCGGCGCCGACCAGGCCGACATGATCATCGCCGTGACCTTGCATGACGAGATCAACATCGTCGCCTGTGAGGTGGCGCATGCCCTGTTCAGCGTGCCGACCAAGATCGCCCGCATCCGCGACCAGAGCTATCTGAAGCCGGAATATGCCGATCTCTTCAGCCGCGAGAACATGTCCATCGACGTGACGATTTCGCCTGAAGTCGAAGTCGGCAAGATGGTGCTCCGGCGCATCGCCTTTCCGGGCGCAACGGATGTGGTGCGTTTCGCCGACGACACGATCTACATGCTGGCCATCGAATGCATGGAGGATTGCCCGGTCATCAACACGCCGCTGCAGCAGCTTTCCAGCCTCTTTCCAGACCTCATCGCCACGGTGGTGGGGGTGTATCGGGATGGTGTCCTCAAGGTGGCGCATTCTTCGGAACAGTTGCGGGTGGGCGACCTTGCCTATGTCATCTGCCAGCGCCAGCACGCTCGTCGCACCTTAAGCCTTTTCGGCCATGAGGAGCAGGAAGCGCAGCGCATCGTGATTGCCGGCGCCGGCAATATCGGCCACTTCGTCGCCCGCAAGATCGAGGAAATGCAGCCGAAAACGCGGGTGAAGATCATCGAGGCGGACCGAGACAGGGCGGTTGCCGCATCCGAACAGTTAAGCCACACCATCGTCATGCACGGCTCGGCGCTCGACCAGAAAATCCTGATGCAGGCCGATATTCAGGATGCCGATCTTATCGTGACGCTCACCAATAACGATCAGACCAATATTCTGGCGGCGGTGATTGCCAAGCAGCTCGGCTGCAAATCGAATCTGGCGCTTTTGAACAGTACGTCGTTCCACGACGTCGCCCGCTCTCTGGGGCTCGATGCCTATATCAACCCTCGGGCCGTGACGATCTCCCGCGTGCTTCAACACGTGCGCAAGGGCCGCATCCGCTCAGTCTATGCTGTCCAGCGCGGCTCGGCGGAGGTGATCGAGGCGGAAGCGCTGGAGACGTCGCCGCTGGTCGGCCAGTCCTTCCGCGACATCGATATGCCCGACGGTGTGCGCATCGGGGCGATCTATCGCGACGGCGTGGTGATCCGCCCGGATGGCAGCACGAAAATCAAGGCGAAGGACCGGGTCGTGCTGTTCGCATCCGCCGATGCGGTGCGCGACGTGGAACAACTTTTCCGTGTTTCGATACAATATTTTTGA	MKVIICGAGQVGYGIAEQLSREDNEVSVIDTAAPLITAITETLDVRGYVGHGAHPDMLAKAGADQADMIIAVTLHDEINIVACEVAHALFSVPTKIARIRDQSYLKPEYADLFSRENMSIDVTISPEVEVGKMVLRRIAFPGATDVVRFADDTIYMLAIECMEDCPVINTPLQQLSSLFPDLIATVVGVYRDGVLKVAHSSEQLRVGDLAYVICQRQHARRTLSLFGHEEQEAQRIVIAGAGNIGHFVARKIEEMQPKTRVKIIEADRDRAVAASEQLSHTIVMHGSALDQKILMQADIQDADLIVTLTNNDQTNILAAVIAKQLGCKSNLALLNSTSFHDVARSLGLDAYINPRAVTISRVLQHVRKGRIRSVYAVQRGSAEVIEAEALETSPLVGQSFRDIDMPDGVRIGAIYRDGVVIRPDGSTKIKAKDRVVLFASADAVRDVEQLFRVSIQYF	PGPT0002710_893	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002710-trkA|ktrA-K03499	NA	NA
BMS010_05287	243	hfq_2		RNA-binding protein Hfq	ATGGCGGAACGTTCTCAAAACCTTCAGGATCTCTTCCTCAATACCGTTCGTAAGCAAAAGATTTCGCTCACGATTTTCCTGATCAACGGCGTCAAGCTGACGGGCGTTGTCACCTCCTTCGACAATTTCTGCGTGCTTCTGCGCCGTGACGGTCATTCGCAGCTTGTTTACAAGCATGCGATCTCCACCATCATGCCCGGTCAGCCGATGCAGATGTTCGAAAGCGAAGAAGGCGCGGCCTGA	MAERSQNLQDLFLNTVRKQKISLTIFLINGVKLTGVVTSFDNFCVLLRRDGHSQLVYKHAISTIMPGQPMQMFESEEGAA	PGPT0025560_1385	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI1|AI-2|CAI-1_PERCEPTION|SIGNALLING,PGPT0025560-hfq-K03666	NA	NA
BMS010_05288	1437	hflX_2	COG2262	GTPase HflX	ATGCGGTCGGCCGCAATCCTCTTTCTGGACAAGGCTGAACCCATTTCAACGCGCGACACCTCGAACGAATCGATTATTCCGGAGCAGGAAAAGCGCCGCGACGACATGCGTGCGGTTGTTCTCGTGCCGGTCCTCAAGCAGCGCGAAACGCGCGACGCGGCTGCCGGCCCGGCTGCCCCCGGCCGTTCGGTCGAAGCCAAGCTTGAGGAAGCAAAAGGACTGGCGCTCGCCATCGATCTGGAAGTGACGCAGGGTCTCATCGTTCCGGTGAACCAGCCGCGCCCCGCCACGCTGTTTGGAACCGGCAAGATCGAAGAAATCGGTCATCTTCTCGACGAGACCGATTCCGGCCTGGTGATCGTCGATCATCCGCTGACCCCGGTGCAGCAGCGCAATCTCGAAAAGCAATGGAATTGCAAGGTCATCGACCGCACGGGCCTGATCCTTGAAATCTTCGGGCGCCGCGCCTCCACAAAGGAAGGCACGCTGCAGGTCGATCTTGCGCATCTGAACTACCAGAAGGGCCGCCTCGTTCGAAGCTGGACCCACCTCGAACGCCAGCGCGGCGGTGCGGGCTTCATGGGCGGCCCGGGTGAAACCCAGATCGAAGCCGACCGCCGGCTTTTGCAGGAACGCATCGTCAAGCTGGAGCGCGAACTGGAGCAGGTGGTGCGCACGCGCCAGCTTCACCGCGCCAAGCGTCGTAAGGTGCCGCATCCGATCGTCGCGCTGGTCGGTTACACCAATGCCGGCAAATCCACGCTGTTCAACCGCATCACCGGCGCCGGCGTTCTGGCGGAGGATATGCTGTTCGCCACGCTCGACCCGACCTTGCGCCGCATGAAATTGCCGCATGGTCGCACCGTCATCCTATCCGATACGGTCGGTTTCATTTCCGACCTTCCGACGCATCTGGTCGCCGCTTTCCGCGCCACTCTGGAAGAGGTGCTGGAAGCCGATCTCGTTCTGCATGTGCGCGATATGTCCGATCCGGACAATGCCGCCCAGTCTGCGGATGTGCTGCGTATTCTTGGTGACCTCGGCATTGACGAGAAAGAAGCGGAAAAGCGCATCATCGAGGTCTGGAACAAGGTCGACCGTCTCGAGCCGGAAGCGCATGACGCCATCATGCAGCGTGCCGAGGGCCGTTCGGATATCCGCGCCGTTTCGGCCATCACGGGTGAGGGCGTCGATGCCCTGATGGACGAGATTTCAAAGCGTCTTTCCGGTGTTCTGACGGAAACGACCGTTGTGCTCTCTATCGAACAATTGCCGCTGATCTCCTGGGTCTATAGCAATTCCATTGTCGACGGTCGTGAAGACCATGAGGATGGATCGGTTGCGCTTGATGTGCGCCTTTCGGAAGCGCAAGCGGCCGAACTGGAACGGAAGCTTGGTAAAGCGACTGTCCGCGAACGCGAGGACTGGGAGCGCTAA	MRSAAILFLDKAEPISTRDTSNESIIPEQEKRRDDMRAVVLVPVLKQRETRDAAAGPAAPGRSVEAKLEEAKGLALAIDLEVTQGLIVPVNQPRPATLFGTGKIEEIGHLLDETDSGLVIVDHPLTPVQQRNLEKQWNCKVIDRTGLILEIFGRRASTKEGTLQVDLAHLNYQKGRLVRSWTHLERQRGGAGFMGGPGETQIEADRRLLQERIVKLERELEQVVRTRQLHRAKRRKVPHPIVALVGYTNAGKSTLFNRITGAGVLAEDMLFATLDPTLRRMKLPHGRTVILSDTVGFISDLPTHLVAAFRATLEEVLEADLVLHVRDMSDPDNAAQSADVLRILGDLGIDEKEAEKRIIEVWNKVDRLEPEAHDAIMQRAEGRSDIRAVSAITGEGVDALMDEISKRLSGVLTETTVVLSIEQLPLISWVYSNSIVDGREDHEDGSVALDVRLSEAQAAELERKLGKATVREREDWER	PGPT0007245_1127	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007245-hflX-K03665	NA	NA
BMS010_05289	846	mazG_2	COG1694	Nucleoside triphosphate pyrophosphohydrolase	ATGGAAGCCTCGAAGGATATTTCCCGCCTGATCGAGATCATGGAAGCCCTGCGGCAGCCGGAAACCGGTTGCCCTTGGGATGTCGTGCAGACCTTCGAGACGATCAAGCCCTATACCATTGAAGAGGCTTATGAAGTCGCCGACGCCATCGAGCGAAAGGACATGGACGATCTTTGCGAGGAGCTGGGCGACCTTCTGCTGCAGGTGGTTTTCCACGCCCGCATTGCCGAAGAGATGGGCGAATTCACCTTCGGCGACGTAGTGCATGCCGTGACCTCGAAGATGATCCGCCGTCATCCCCATGTCTTCGCCGTATCCGACGCCGACACGCCGGACGGCGTCAAACTGCAATGGGATCGCATCAAGGCGGAAGAAAAACGCGAGCGTGCAGAGCGACGCGCGCGACGTGGTATCACCGAGGATTTCAAGGCCGGCTTTCTGGGCGGCGTACAGCGCAGCCAGCCGGCGCTGACCGAAGCCCTGAAGCTGCAGGAACAGGCAGCGCGTGCCGGTTTCGACTGGTCGAATCCCGCTCCCATTCTCGACAAGATCGAGGAGGAAATCGCCGAACTGCGTGAGGCGCTGGCGGAAGGAAAACCGGAAAAGGTCTCGGACGAGCTAGGCGATCTCATTTTTGCCCTCGTCAATATCGGCCGGCATGTCAAAGCCGATCCGGAAGATGCGCTGCGCGGTACGAACACGAAATTCCGCAGGCGTTTCAATCACATCGAAACGTCGCTCACTCAAAATGGCGAAACGCTGGAAGAAGCGAGCCTCGAAAGAATGGAAGATCTCTGGCAGGCGGCGAAACGCATCGAACGGTCGCTTGATACGGTTTCGTCCTGA	MEASKDISRLIEIMEALRQPETGCPWDVVQTFETIKPYTIEEAYEVADAIERKDMDDLCEELGDLLLQVVFHARIAEEMGEFTFGDVVHAVTSKMIRRHPHVFAVSDADTPDGVKLQWDRIKAEEKRERAERRARRGITEDFKAGFLGGVQRSQPALTEALKLQEQAARAGFDWSNPAPILDKIEEEIAELREALAEGKPEKVSDELGDLIFALVNIGRHVKADPEDALRGTNTKFRRRFNHIETSLTQNGETLEEASLERMEDLWQAAKRIERSLDTVSS	PGPT0008820_234	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0008820-mazG-K04765	NA	NA
BMS010_05290	588			hypothetical protein	TTGACCAGCCCCACCCTCGCCGCCCGCCTTCTCGATGTGATCGAACACGATATTCTGCCCTTGACGGCGCGGGGCGTCAGCCTTGGCAACAAGGTTTTCGGTGCGGCGATACTGCGCAAGTCGGACCTGTCGCTGGTGGTTGCCGAGACCAATAACGAGCTGGAAAATCCGCTCTGGCATGGCGAAGTGCATACGCTGAAGCGGTTTTACGAGCTGGGCGAAAAGCCGAACACGAAGGAGCTGATTTTTCTCTCTACCCACGAACCATGCACCATGTGCATGTCCGCCATCACCTGGGCGGGCTTCGATAATTTCTACTCCTTCTTCAGCCACGAGGATTCCCGCGACGCTTTCGCGATCCCTCACGACCTGAAAATCCTCAAGGAAGTTTTCGGGCTGGAACCGGGCGGGTATCGCCGCAACAATGCCTTCTGGAATTCGTATTTCATTGCCGATCTGGTGGAGGGTGAAGAAGAGCCGCTGAAGACCACGTTGAAGGCGCAGACGGCCCGCATCAAGGCAGCCTATGACGATCTTTCCACCAGCTACCAGTCGTCGAAGAGCGGCAACGACATTCCATTGAACTAG	MTSPTLAARLLDVIEHDILPLTARGVSLGNKVFGAAILRKSDLSLVVAETNNELENPLWHGEVHTLKRFYELGEKPNTKELIFLSTHEPCTMCMSAITWAGFDNFYSFFSHEDSRDAFAIPHDLKILKEVFGLEPGGYRRNNAFWNSYFIADLVEGEEEPLKTTLKAQTARIKAAYDDLSTSYQSSKSGNDIPLN				NA	NA	NA	NA	NA
BMS010_05291	1464	cysG_4	COG0007	Siroheme synthase	ATGCACAACGAACATGATTTTTCCGCTGCTGGCGACCGCCTTTCAACCTTCCCCGCTTTCTTCCGGGTCGAGGGACGGCAGGTCGCTGTTTTCGGAAATGGCGATGAAGCCTTCGCGAAGGTAAGGCTTCTCGCCAACACCAACGCGCATATCATTGCTTATGCCGACCAGCCGGAAGCCGATTTTGCCCGTTATATCAGCGAAAACGGCATTGATCATCGAGCTTTGGCTTTCGCCGGCGAATTGATCGAAGGCGCCACGCTGGTCTTCGCCGCTACTGGCGACGAGGCGCTGGACCGTGAGATCGTCACCCTCGCGCGCGCCGCGAAAATTCCCGCCAATGCGGTGGATCAGCCGGAATTCTGCGATTTCTTCACCCCGGCGCTCGTCGCCCGCGCGCCCGTCGCCGTGGCTATCGGCACGGAAGGGGCAGGGCCGGTTCTCGCCCAGATGATCCGCGCCCGCATCGACCAGATGCTGTCGCCGTCGCTTGGAAAGCTCGCGCGCCTTGCCGTGCAGTATCGTGATGCGGCCGAGGAGAACGTGCCGAAGGGCGCCTTGCGGCGCAATTTCTGGCGACGGTTCTTTTCAGGTGCAGTGGCGGATGCCGTCGCCGTTGGCGACACGCTCTCCGCCCGTCAGGCCGTCGACCGCCTGCTGCAATCGCCCGAACGCAGCGAAGGCCGTATCTGGCTCGTCGGCGCAGGACCGGGCGCTGAAGATCTGCTGACGCTGCGCGCGCAGCGCGTGCTGATGGAAGCCGATGTGATCGTTTACGACGCGCTTGTGCCGCAGGCGATTGTCGATATGGGCCGCCGCGATGCGGAGCGGCTCTCCGTCGGCAAGCGCAAGGGCTGCCACAGCAAGTCGCAGGATGAGATCAACCGCCTGCTGGTGCGCCTCGGCAAAGATGGCAAGCGCGTCGTGCGCCTCAAATCCGGCGATCCGTTGGTCTATGGCCGGGCGGGTGAAGAAATGGCGGCGCTGCGTGAGGCCGGTATTGCCTATGAGATCGTGCCCGGCATCACGTCGGCCTTCGCTGCCGCTGCGGATTTCGAATTGCCGCTGACGCTGCGCGGTGTCGCTTCATCGCTGATTTTCACCACCGGCCACGATCTGGCCGGCGATGTCCTGCCCGATTGGGCACGGCTTGCGGTTTCCGGCGCCACCATCGCCGTCTATATGGGCCGCAGTGTTGCTGCTTCGGTCGCGAAGCGGCTGATCGACGCGGGATTGGGTGTGGAAACCACGGTTGCCGTCATCGAAAACGCCAGCCGCGCGGATCGCCGCCTGCTGCATGGCACACTGAACGATCTGCCCGAACTCGAACATCGCGATGAACTGACCGGACCGGTCATGGTGATCATCGGCGATGCGGTGGCGGGCGCCAATTTTGACAGGTCCGAGGCGCTTGCATCGTCAGTGCGGCCGGCGGATTTCAAACGGGAGTATGTAAATGGCTGA	MHNEHDFSAAGDRLSTFPAFFRVEGRQVAVFGNGDEAFAKVRLLANTNAHIIAYADQPEADFARYISENGIDHRALAFAGELIEGATLVFAATGDEALDREIVTLARAAKIPANAVDQPEFCDFFTPALVARAPVAVAIGTEGAGPVLAQMIRARIDQMLSPSLGKLARLAVQYRDAAEENVPKGALRRNFWRRFFSGAVADAVAVGDTLSARQAVDRLLQSPERSEGRIWLVGAGPGAEDLLTLRAQRVLMEADVIVYDALVPQAIVDMGRRDAERLSVGKRKGCHSKSQDEINRLLVRLGKDGKRVVRLKSGDPLVYGRAGEEMAALREAGIAYEIVPGITSAFAAAADFELPLTLRGVASSLIFTTGHDLAGDVLPDWARLAVSGATIAVYMGRSVAASVAKRLIDAGLGVETTVAVIENASRADRRLLHGTLNDLPELEHRDELTGPVMVIIGDAVAGANFDRSEALASSVRPADFKREYVNG	PGPT0003690_118	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003690-cysG-K02302	NA	NA
BMS010_05292	315			hypothetical protein	ATGGCTGACAAGGTTTTGACCGCCAACCGCCTGAGCGATGGCATCGCCGTCTGGCTCGATGCCAACGGGGAGTGGACGGAGAACCTGCAGGGCGCAATCGTTGCCCGCCATGCGGAGGCCGTCGCCTCGTTCGAGGAAATCGGCAAGCGGGATTTCTCCGCCAACAAGGTCGTCGATGTGGCCGTCATCGATGTCATCGAGGAGAACGGCAAGCTTTGGCCGACGCGTCTTCGCGAACGCATTCGCGCCGCCGGCCCCACCGTGCACTATGCCACCGGCTTCAAGCCGGCCGATGCAGCATTCATCGCAGTCTGA	MADKVLTANRLSDGIAVWLDANGEWTENLQGAIVARHAEAVASFEEIGKRDFSANKVVDVAVIDVIEENGKLWPTRLRERIRAAGPTVHYATGFKPADAAFIAV				NA	NA	NA	NA	NA
BMS010_05293	1671	sir_1	COG0155	Sulfite reductase [ferredoxin]	ATGTACCGTTACGACGAGTTCGATCACGCATTTGTTGAAGGCCGCGTGGCGCAGTTTCGCGATCAGGTCGAGCGCCGCCTTTCCGGCGAACTGGCCGAGGATGCGTTCAAGCCGCTGCGCCTGATGAACGGCGTCTATCTTCAGCTGCATGCCTATATGCTGCGCGTCGCCATTCCTTACGGCACGCTGAATTCGAAGCAGATGCGGATGCTGGCCCACATCGCTCGCAAATATGACCGGGGTTATGGCCACTTCACCACCCGCCAGAACATCCAGTACAACTGGCCGCGTCTTTCCGACACACCGGATATCCTGTCCGAACTGGCGAGCGTGGAAATGCACGCGCTTCAGACGTCCGGCAACTGCATTCGCAACGTCACCGCCGATCATTTCGCCGGTGCGGCCGCCGATGAGGTCGCCGATCCGCGTCCCTATGCGGAAATCCTGCGCCAGTGGTCTTCCGTTCACCCGGAATTCTCCTTCCTGCCGCGCAAGTTCAAGATCGCTGTCACCGGCGCCGAGCGCGACCGTGCCGCCATTCAGGTGCACGATATCGGGCTGCATCTGAAAAAGAACGATAAGGGTGAGATCGGTTTCGCCGTCTATGTCGGCGGCGGGCAGGGCCGCACGCCGATGATCGCCAAGAAAATCCGCGACTTCCTGCCGGAAGAGGACTTGCTTTCCTACACGACGGCGATCATGCGCGTTTATAACCTGCACGGCCGCCGCGACAATAAATACAAGGCGCGCATCAAGATCCTCGTGCACGAGACCGGTGCGGAAGAACTGGCCCGCCAGGTCGAGGTCGAATTCGCTGAACTCAAGAACACCGAGTTGAAGCTTCCGGATGCCGATATTGCGGCAATCACCGCTTATTTCGCGCCGCCGGCGCTGAAGGACCGTCCGGAAGGCTGGGAAAGCCTGGCGCGCTGGAAGCGGGCCGATGAAGGTTTTGCCCGTTTTGTCGAGCAGAACGTCGCGCCGCACAAGCATCCCGATTACGGCATGGTGACGATCTCGCTGAAGCCGATCGGCGGCATTCCGGGCGATGCGACCGATGAGCAGATGGAACTCGTCGCCGATATCGCCGCGGAATATGCTTTCGATGAAATCCGTATCAGCCATGAGCAGAACATCATCCTGCCGCATGTGGCCCTGGCCGATCTCGAGCCGGTTTATCGCGCGCTGGTGGGTGCGGGCCTTGCAACCGCCAATGCCGGGCTGATCACCGATATCATTGCCTGTCCCGGGCTGGACTATTGCGCGCTCGCCAATGCGCGCTCCATTCCGGTGGCGCAGGAAATTTCCACCCGGTTCGGTTCGCCGGAACGTCAGGCGGAAATCGGTGAGCTGAAGATCAAGATTTCCGGCTGCATCAATGCCTGCGGCCACCACCATGTCGGCCATATCGGCCTGCTGGGTGTGGAGAAGAAGGGCGCGGAACTTTACCAGATCACGCTTGGCGGATCGGGCGATGAGAACACCTCGATCGGTGAAATCATCGGCCGCGGCTTCGAGCCGGAAAAAGTCACCGACGCCATCGAAACCATCGTCGACACCTATCTCGGGCTTCGCCTTTCGAAGGAAGAAATTTTCCTCGAAGCCTATCGCCGCGTTGGACCGCAGCCATTCAAGGATGCGCTCTACGGTTCCGCTGCAGAAGCCGCCTGA	MYRYDEFDHAFVEGRVAQFRDQVERRLSGELAEDAFKPLRLMNGVYLQLHAYMLRVAIPYGTLNSKQMRMLAHIARKYDRGYGHFTTRQNIQYNWPRLSDTPDILSELASVEMHALQTSGNCIRNVTADHFAGAAADEVADPRPYAEILRQWSSVHPEFSFLPRKFKIAVTGAERDRAAIQVHDIGLHLKKNDKGEIGFAVYVGGGQGRTPMIAKKIRDFLPEEDLLSYTTAIMRVYNLHGRRDNKYKARIKILVHETGAEELARQVEVEFAELKNTELKLPDADIAAITAYFAPPALKDRPEGWESLARWKRADEGFARFVEQNVAPHKHPDYGMVTISLKPIGGIPGDATDEQMELVADIAAEYAFDEIRISHEQNIILPHVALADLEPVYRALVGAGLATANAGLITDIIACPGLDYCALANARSIPVAQEISTRFGSPERQAEIGELKIKISGCINACGHHHVGHIGLLGVEKKGAELYQITLGGSGDENTSIGEIIGRGFEPEKVTDAIETIVDTYLGLRLSKEEIFLEAYRRVGPQPFKDALYGSAAEAA	PGPT0002790_1613	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002790-cysI-K00381	NA	NA
BMS010_05294	507			hypothetical protein	ATGACGAAAATCTGGAACCGCGACGGCTTCGTGGAAAACGATCCCTGGCTGATCGAAACGGAAGAAGTGAAAGCGACGGCGGAGCAGAAGCCCGTGCTGCCGCTCGCCGATTTTCTGGTTCGTGCCGCCGAAAGCAACGATATCGGCCTCGGCGTTCTGATCACGCCCGCCGACGATGTGACGCGGCTCGGACCCTATCTCGACCGTATCGACCTTGTCGCCGTAAGCTTCCCGGCCTTCAATGACGGTCGCGGGTTCAGCCACGCTTCGCTGCTGCGCAGCCGTCTCGGTTTTGCGGGCGAGGTGAGGGCGGTTGGCGACGTCTTGATCGATCAGGTGCCGCTGATGCTTCGCACCGGCTTCACCAGCTTTGCGGTGACGAACGGCACGGCCATCCGCCGCCTGTCCGAAAATCGCCTGCCGGAAATTCCGGTTTATTACCAGCCGACGGCCAAGCCGGCGAGCGGCGGTGAGGCCTATAGCTGGCGTCGTCGTGCGTCTCTATGA	MTKIWNRDGFVENDPWLIETEEVKATAEQKPVLPLADFLVRAAESNDIGLGVLITPADDVTRLGPYLDRIDLVAVSFPAFNDGRGFSHASLLRSRLGFAGEVRAVGDVLIDQVPLMLRTGFTSFAVTNGTAIRRLSENRLPEIPVYYQPTAKPASGGEAYSWRRRASL	PGPT0002785_231	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002785-cysH-K00390	NA	NA
BMS010_05295	813	fpr_2	COG1018	Flavodoxin/ferredoxin--NADP reductase	ATGAACGCGCCAGCCAAGACGGAAGATTTCGCGATCAAGATACCTGACGGTGTTTACGCCGAGACGGTTTTATCGGTGGAACACTATACCGACCACCTGTTCCGTTTCCGTATGACGCGCCCGGCCGGCTTCCGTTTCCGTTCCGGCGAATTCGCCATGATCGGCCTGATGGTCGGCGACAAGCCGATCTATCGCGCCTATTCCATCGCCAGCCCTGCCTGGGACGAGGAACTGGAATTCTTCTCGATCAAGGTTCCGAACGGTCCGCTGACGTCGCATCTCCAGGCAATCAAGCCCGGCGATACCGTTCTGATGCGCAAGAAGCCGACAGGCACGCTGGTTCTGGATGCGCTGACGCCCGGCAGACGGCTTTACATGTTCTCCACCGGCACCGGCATCGCGCCTTTCGCGAGCCTGATCCGTGACCCGGAGACCTATGAGAAGTTCGAGGAAGTCATCCTCACCCATACCTGCCGCGACGTGGCCGAGCTGAAATACGGCTTCGATCTGGTCGAGGAAATCCGTAACCACGAATTCCTGAACGAGATCGTCGGCGACAAGCTGAAGCACTATGCGACCGTCACCCGCGAAGATTACCCCTTCAAGGGCCGCATCACCACGCTGATCGAGAACGGCAAGCTGTTTGCGGATCTCGGCGTCCCGGCGCTCGATCCCGAAATCGATCGCGGCATGATCTGCGGCTCCTCGGCGATGCTGAAGGACACCAAGGAGCTTCTGGAAAAAGCCGGCCTGAACGAAGGCGCCAACAACAAGCCCGCCGAATTCGTGATCGAGCGCGCTTTCGTCGGTTGA	MNAPAKTEDFAIKIPDGVYAETVLSVEHYTDHLFRFRMTRPAGFRFRSGEFAMIGLMVGDKPIYRAYSIASPAWDEELEFFSIKVPNGPLTSHLQAIKPGDTVLMRKKPTGTLVLDALTPGRRLYMFSTGTGIAPFASLIRDPETYEKFEEVILTHTCRDVAELKYGFDLVEEIRNHEFLNEIVGDKLKHYATVTREDYPFKGRITTLIENGKLFADLGVPALDPEIDRGMICGSSAMLKDTKELLEKAGLNEGANNKPAEFVIERAFVG	PGPT0013215_2253	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013215-fpr-K00528	NA	NA
BMS010_05296	1287			putative MFS-type transporter	ATGACGACAATCGGCGTTTCGGCACCACCCGGCGGACTTCCTTCCGGTGGCTTGCCGCGTAGCGGTGGTATCTCAGACCGCACGCTTTTTGCCCTTGCAGCGCTGAATTTTTTCCTTGCCGATGCCCGTGACGGCCTCGGGCCGTTTCTGGATGCATTTCTGGCGACACAGGGCTGGTCTTCGCTTTCGTTGGGCATGATCGCCACGGTCGGTGGCCTCGTCGGTCTGCTTGCCACGCCGCTTTGCGGCGCGCTGGTGGATGGGACGACGTGGAAACGAACGCTGATTGCCATCCCCGTTGTTCTCGTGACAGTCGGGGCGTTGATCACGCTGATCTTTCCGGATGTTTGGATCGTCTGGACCGGCCAGATCATGACCGCGGTGGTTGGCGCAGTGGTCGGTCCCGCGCTTGCCGGCCTCACACTCGGCCTTGTCGGCGAGCGACTGTTTTCCCACCAGATTTCGCGCAATGAGTTCTGGAACCACGGTGGTAATTTTGCGTCACTTTTCGCGACTTATGTGGTCGTAACGTTCTTCGGCATGAACGGGATCATCGGTCTCATGCTGCTGACCGCTGCCGGCGCCCTGCTCGCTACGGCGGCCATCGATCCCGGTAGGATTGATCACAAGGTTGCGCGTGGCCTTGCCGAAGACAAGGGAGAGCCGGGACCGTCCGGCATCAGGGTGCTGCTGCACGAACGCGGGCTGATCTTTCTCGCCATCATTCTGCTCGTTTTCCACTTCGGCAACGCGCCGATGGGCAGGTTGATCGCGCAGGATTTCGCCATCGAACTGCAGACGCCCTTCCGCACCACCGCCATCATTACCGGCGTCGCGCAATTCGCGATGATCTTCGTCGCCGCAATGGCCCCATGGCTGATACGCCGTTTCGGTCTCTCGACCGTTTTCATCATCGCGCTGATCGCGTTGCCGATACGCGGTCTCCTCGCCTCGGCCTTTTCGGATTTCTGGGTGATCTTCCCGGTGCAGTTTCTCGATGGCGTTGGCGCGGGCCTGCTCGGCATCGTCACCCCGGTTGCTGTGGAGAGGATTTTGAAAGGCACCGGTCGTTTTAATGTCGGCCTTGCCAGCGTCATGATGGTTCAGGGTATCGGCGCATCGTTCAGCAATGTCGTCGCAGGCTGGCTGGTGACGAAGGGCGGTTATTCGCTGTCGCATCTCGTCGGCGGCGGCATTGCCGCTATCGCCATCGGGCTTTTTCTTCTCTATCGCAACGAAATAGCCCCGAAACAGGATGACGACGCCGCCTCTCAACACCGGCACTGA	MTTIGVSAPPGGLPSGGLPRSGGISDRTLFALAALNFFLADARDGLGPFLDAFLATQGWSSLSLGMIATVGGLVGLLATPLCGALVDGTTWKRTLIAIPVVLVTVGALITLIFPDVWIVWTGQIMTAVVGAVVGPALAGLTLGLVGERLFSHQISRNEFWNHGGNFASLFATYVVVTFFGMNGIIGLMLLTAAGALLATAAIDPGRIDHKVARGLAEDKGEPGPSGIRVLLHERGLIFLAIILLVFHFGNAPMGRLIAQDFAIELQTPFRTTAIITGVAQFAMIFVAAMAPWLIRRFGLSTVFIIALIALPIRGLLASAFSDFWVIFPVQFLDGVGAGLLGIVTPVAVERILKGTGRFNVGLASVMMVQGIGASFSNVVAGWLVTKGGYSLSHLVGGGIAAIAIGLFLLYRNEIAPKQDDDAASQHRH				NA	NA	NA	NA	NA
BMS010_05297	504			hypothetical protein	ATGAAGATCAAGGTTTTTGCAGTTTTATTTTCGGCCGCATTGCTCGGCACGCAGCCCGCACATGCGGACGAACGCGCATTTCTCTCATCGCTGAAAGGCACATGGGCAGGCAAGGGAACCGTGATTACCCGGATAGGCACGCCGCCGATCAATGTGAGTTGCACACTGAACTCCAATGCGGGGGCATCTTCGCTCAACATGTCAGGCACTTGCCGCGGTCTTCTCGTGGTCAGGCGGGCAATCGCTGCCGATCTGTCGGAGAAGGGCGGACGCTACAGTGGCGCCTATACCGGGCCTTCCGGCCGTCCATCCGCACTTTCCGGCACAAGACAGGGGAACGCCATAAATCTGACAGTGCGATGGAACCGCGATATCAACGGCGATCGCATTGCTGCCATGACCATTGAAAAGATTGGAGCCAACGGCCTGCGGCTGCGCACCACCGATAAGGACGGCAGGACCGGCAAGACGGTGGTGACGAGCGATATCCGGCTCGTTCGCTAA	MKIKVFAVLFSAALLGTQPAHADERAFLSSLKGTWAGKGTVITRIGTPPINVSCTLNSNAGASSLNMSGTCRGLLVVRRAIAADLSEKGGRYSGAYTGPSGRPSALSGTRQGNAINLTVRWNRDINGDRIAAMTIEKIGANGLRLRTTDKDGRTGKTVVTSDIRLVR				NA	NA	NA	NA	NA
BMS010_05298	804			hypothetical protein	ATGCGTGTGATTTGCCTGAACGGCTGGGGCGGAAAGCTTCATGACGAGATTGTTCCCTATATCTCCTCATCCGATCCCGATATTCTCTGCCTGCAGGAGGTGGTGCACACGCCGACTGCCTTTGAGGACTGGCTGAGCTACCGCGATCACGGCATCGACCTGCCGCAAAGGGCAAACTTCTTCCACGAAATCGCCGAGGCCTTGCCGGATCACCTGGCGATCTTCTGTCCGGCGGCGGAGGGTGATCTCTGGCACGGCGAGATTAGATATCCTTCCCAATGGGGGCTGGCGACCTTTGTGCGCAAATCCATGGCCGTCGTTGCGCAGGCGCAAGGGTTCGTGCACGGGACTTTTTCCGCAGACGGATATGGTGATCATCCACGGTCGCGCACTGGCCACGCCGTCAGGGTTTTCGACTTCACCACCGGTCAGCCGGCCGTCATCGCCCATATGCACGGATTGCGCGACCTCAGCGGCAAACACGATATCCCCGCCCGTCTAGCGCAGGCGAAACGCCTCGTACAACTTGTCAAAAACATTGCTGAGGATGGCGACCGGATCATCGTCTGCGGTGATTTTAATGTCCTGCCTGACAGCGAGACCTTCACTGTGCTGAAGGAACTGGATCTCACCGAACTCGTCACGACACGCGGCTTTACCGACACCCGGACCTCACATTATGCCAAAGCGAACCGTTATGCGGATTACATGCTGGTCAATCCAGCCGTGCAGATCGATCGCTTCGATGTGGTGAGGCAGCCGGAAGTTTCGGACCATTGTCCCCTGCTGCTCGAATTCCGCTAA	MRVICLNGWGGKLHDEIVPYISSSDPDILCLQEVVHTPTAFEDWLSYRDHGIDLPQRANFFHEIAEALPDHLAIFCPAAEGDLWHGEIRYPSQWGLATFVRKSMAVVAQAQGFVHGTFSADGYGDHPRSRTGHAVRVFDFTTGQPAVIAHMHGLRDLSGKHDIPARLAQAKRLVQLVKNIAEDGDRIIVCGDFNVLPDSETFTVLKELDLTELVTTRGFTDTRTSHYAKANRYADYMLVNPAVQIDRFDVVRQPEVSDHCPLLLEFR				NA	NA	NA	NA	NA
BMS010_05299	558		COG2335	Immunogenic protein MPT70	ATGTACAACGTTTCTGTTCGCGTCCTGACGCTGGCCGCAGCTCTTTCCATCGGCATGGTTTCCGCTTATGCCGCGAACCCCAAAGTTGGCGGCGCCGCAATGTTCGAGGACAAGAACATCGTTGAAAATGCGATGAACTCGAAAGACCATACGACGCTTGTCGCAGCGGTCAAGGCTGCCGGGCTTGTCGAAACACTTCAGGGAAAGGGCCCGTTCACGGTGTTCGCACCAACCAACGAGGCTTTTGCGGCCCTTCCGAAGGGTGCGGTCGATGATCTTCTGAAGCCCGAGAACAAGGAGAAGCTGGTCAAGGTGCTGACCTGCCATGTGGTTGCCGCCAATGCACTGTCACCCGCCATCGAAAAAATGATCAAGGACGACAAAGGTGAGCATGACGTGAAGACCGTCGGCGGCTGCGTTCTCAAGGCCAAGGAAAGCACGGGCAAAATCACGTTGACGGACGAGAATGGTACGGTTGCCCACGTCACCATCGCCGACGTCAAACAATCCAATGGCGTCATTCATGTCATCGACAAGGTGTTGCTGCCGAAGATGTAA	MYNVSVRVLTLAAALSIGMVSAYAANPKVGGAAMFEDKNIVENAMNSKDHTTLVAAVKAAGLVETLQGKGPFTVFAPTNEAFAALPKGAVDDLLKPENKEKLVKVLTCHVVAANALSPAIEKMIKDDKGEHDVKTVGGCVLKAKESTGKITLTDENGTVAHVTIADVKQSNGVIHVIDKVLLPKM				NA	NA	NA	NA	NA
BMS010_05300	2865	gcvP_1		Glycine dehydrogenase (decarboxylating)	ATGACGACGCCCACCGAATTCCATTTCACCGACTATCAGCCCTATGATTTCGCCAACCGGCGTCACATCGGGCCGTCGCCGTCGGAAATGGCCGAGATGCTGAAGGTCGTTGGCTATAAGAGCCTCGATGCCCTGATCGACGCCACCGTTCCCTCCTCCATCCGCCAGAAAGTGCCGCTGACCTGGGGTGCGGCGCTGACCGAACGCGAGGCGCTGGATCGTCTTCGTGAGACGGCCAACAAGAACCAGGTTCTGACCTCGCTGATCGGCCAGGGTTATTACGGCACCATCACGCCGCCGGTCATCCAGCGCAATATTCTGGAAAACCCGGCCTGGTACACGGCCTATACGCCCTATCAGCCGGAAATCAGCCAGGGCCGCCTTGAGGCGCTGCTGAACTACCAGACCATGGTCTGCGATCTGACCGGTCTCGATGTTGCCAACGCATCGCTGCTCGATGAAGCGACGGCGGCTGCCGAAGCCATGGCGATGTGCCAGCGCGTTGCGAAATCCAAGGCGACCGCCTTCTTCGTTGACGCCAATTGCCATCCGCAGACCATTGCGCTGATCGAGACCCGCGCGGCCCCGCTCGGCTGGAAGGTGATTGTCGGCAACCCCTTTACTGATCTCGACCCGGTCGATGTGTTCGGTGCGATCTTCCAGTATCCGGGCACCCACGGCCATGTCAGCGATTTCTCCGGCCTGATTTCCCGCCTGCACCAGACGGGCGCGATTGCCGCCGTCGCCGCCGATCTTCTGGCGCTGACGCTTCTGAAGTCGCCCGGTGAAATGGGCGCTGACATCGCCATCGGCACCTCGCAGCGCTTCGGCGTTCCGGTTGGTTACGGCGGTCCGCACGCGGCTTACATGGCCGTCAAGGATGCGCATAAGCGCTCCATGCCCGGTCGTCTGGTCGGCGTTTCGGTCGATGCGCGCGGCAACCGCGCCTATCGCCTGTCGCTGCAGACACGCGAACAGCATATCCGCCGCGAAAAGGCCACGTCGAACATCTGCACGGCGCAGGTGCTGCTGGCCGTCATGGCCTCCATGTACGGCGTCTTCCACGGGCCGCAGGGCATCAAGGCGATTGCCCAGCAGACGCACCAGAAGGCCGTTTTGATGGCCAAGGGTCTGGAGAAGCTCGGCTACACCATCGAGCCGGAAACCTTCTTCGACACCATCACCGTCGAAGTCGGCCATATGCAGGGCGTCATCCTGCGCTCGGCCGTTGCGGAAGGCGTGAACCTGCGCAAGGTCGGTGCGACCAAGATCGGCATGAGCCTTGACGAGCGCACGCGCCCGGCAACGCTTGAGGCGGTCTGGCGCGCTTTCGGCGGCAATTTCTCGATCTCGGATTTCGAGCCGGAATATCGCCTGCCGAAGGACCTGCTGCGCACCAGCCAGTACATGACGCATCCGATCTTCCACATGAACCGTGCCGAAAGCGAGATGACCCGTTACATCCGCCGTCTTTCGGACCGTGATCTGGCGCTCGACCGCTCGATGATCCCGCTCGGTTCCTGCACCATGAAGCTGAACGCAACTGCGGAAATGCTGCCGATCACCTGGCCGGAATTTTCCGACATCCATCCCTTCGTGCCGGCCAATCAGGCGCTCGGCTACAAGGAGATGATCGACGATCTCTCCGAAAAGCTGTGCTGGGTCACCGGTTACGACGCCTTCTCCATGCAGCCGAATTCCGGCGCGCAGGGGGAATATGCCGGGCTTCTGACCATCCGCAACTATCACCTCGCCAATGGCGGCACACACCGTGACGTGTGCCTCATTCCGACGTCGGCGCATGGCACCAATCCTGCCTCTGCGCAGATGGTCGGCATGAAAGTGGTGCCGGTCAAAGTGCGGGATAATGGTGACATCGATATCGACGATTTCCGTGCAAAAGCAGAGCAGTATGCGGAAAACCTCTCGTGCTGCATGATCACGTACCCGTCCACCCACGGCGTGTTCGAGGAGACGGTTCGCGAGATTTGCGAAATCACCCACAAGCATGGTGGACAGGTGTATCTGGACGGCGCCAACATGAACGCCATGGTCGGTCTCGCCCGCCCCGGCGATATCGGTTCGGACGTTTCGCATCTCAACCTGCACAAGACCTTCTGCATTCCGCATGGCGGCGGTGGCCCCGGCATGGGACCGATCGGTGTCAAGGCGCATCTTGCTCCCTACCTGCCCGGCCATCCGGCGACGGACGGTCGTGAGGGTGCGGTGTCTGCTGCCCCGTTCGGCTCGCCATCGATCCTGCCGATTTCGTGGAGCTATTGCCTGATGATGGGCGGCGAAGGGTTGACGCAGGCGACCAAGGTGGCGATCCTCAACGCCAACTATATCGCCGAGCGGCTGAAGGGTGCGTACGACGTGCTCTACAAGTCCGAAACCGGCCGCGTGGCGCATGAGTGCATCATCGATACCCGCCCGCTGGCAGATAGCTGCGGCGTGACGGTGGACGATGTCGCAAAGCGCCTCATCGACTGCGGTTTCCACGCGCCGACCATGAGCTGGCCGGTTGCCGGCACGCTGATGATCGAGCCGACGGAATCCGAAACCAAGGCGGAAATCGACCGTTTCTGCGATGCCATGCTGGCGATCCGCGAGGAAGCCCGCGACATCGAGGAAGGCCGTGCGGACAAGACCAACAATCCGCTGAAGAACGCGCCGCACACGGTGGAAGACCTCGTTGGCGAATGGGATCGTCCCTATAGCCGCGAAAAGGGCTGCTTCCCACCCGGCGCGTTCCGCATCGACAAATATTGGTCGCCGGTCAACCGCATCGACAACGTCTATGGCGACCGCAACCTCATCTGCACCTGCCCGCCGATGGAGGCTTATGCTGAAGCGGCTGAGTAA	MTTPTEFHFTDYQPYDFANRRHIGPSPSEMAEMLKVVGYKSLDALIDATVPSSIRQKVPLTWGAALTEREALDRLRETANKNQVLTSLIGQGYYGTITPPVIQRNILENPAWYTAYTPYQPEISQGRLEALLNYQTMVCDLTGLDVANASLLDEATAAAEAMAMCQRVAKSKATAFFVDANCHPQTIALIETRAAPLGWKVIVGNPFTDLDPVDVFGAIFQYPGTHGHVSDFSGLISRLHQTGAIAAVAADLLALTLLKSPGEMGADIAIGTSQRFGVPVGYGGPHAAYMAVKDAHKRSMPGRLVGVSVDARGNRAYRLSLQTREQHIRREKATSNICTAQVLLAVMASMYGVFHGPQGIKAIAQQTHQKAVLMAKGLEKLGYTIEPETFFDTITVEVGHMQGVILRSAVAEGVNLRKVGATKIGMSLDERTRPATLEAVWRAFGGNFSISDFEPEYRLPKDLLRTSQYMTHPIFHMNRAESEMTRYIRRLSDRDLALDRSMIPLGSCTMKLNATAEMLPITWPEFSDIHPFVPANQALGYKEMIDDLSEKLCWVTGYDAFSMQPNSGAQGEYAGLLTIRNYHLANGGTHRDVCLIPTSAHGTNPASAQMVGMKVVPVKVRDNGDIDIDDFRAKAEQYAENLSCCMITYPSTHGVFEETVREICEITHKHGGQVYLDGANMNAMVGLARPGDIGSDVSHLNLHKTFCIPHGGGGPGMGPIGVKAHLAPYLPGHPATDGREGAVSAAPFGSPSILPISWSYCLMMGGEGLTQATKVAILNANYIAERLKGAYDVLYKSETGRVAHECIIDTRPLADSCGVTVDDVAKRLIDCGFHAPTMSWPVAGTLMIEPTESETKAEIDRFCDAMLAIREEARDIEEGRADKTNNPLKNAPHTVEDLVGEWDRPYSREKGCFPPGAFRIDKYWSPVNRIDNVYGDRNLICTCPPMEAYAEAAE	PGPT0020480_2307	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020480-gcvP-K00281	NA	NA
BMS010_05301	363	gcvH_1	COG0509	Glycine cleavage system H protein	ATGCTGAAATTTACCGCAGAACACGAATGGCTGAAGTTCGAAGGCGATATCGCCACCGTTGGCATCACCAGCCACGCCGCTGAACAGCTTGGCGATCTCGTTTTCGTCGAATTGCCGGAAGTGGGCGCCACCTTCTCCAAGGATGGCGACGCGGCAACCGTTGAATCCGTCAAGGCGGCTTCCGATGTCTATTGTCCGCTGGATGGCGAAGTGGTCGAAATCAACCAGGCCATCGTCGATGATCCCTCGCTCGTCAATTCCGACCCGCAGGGCGCCGGCTGGTTCTTCAAGCTGAAACTCTCCAATCCGGCCGATGCCGAGACGCTGCTTGATGAAGCAGCCTACAAGGAGCTGATCGCGTAA	MLKFTAEHEWLKFEGDIATVGITSHAAEQLGDLVFVELPEVGATFSKDGDAATVESVKAASDVYCPLDGEVVEINQAIVDDPSLVNSDPQGAGWFFKLKLSNPADAETLLDEAAYKELIA				NA	NA	NA	NA	NA
BMS010_05302	1140	gcvT_1	COG0404	Aminomethyltransferase	TTGGACGATACCGCCGCGCTGAAAACCACGCCGCTCCACTCCCTGCACATATCGCTTGGCGCCCGCATGGTGCCGTTTGCCGGTTACGACATGCCCGTGCAATATCCGGCCGGCGTTCTGAAGGAGCATCTCCAGACCCGCACCTCCGCCGGCCTGTTCGACGTGTCCCATATGGGCCAAGTGATCCTGAAGGCGAAGTCCGGCAAGAATGAAGATGCCGCACGCGCGTTCGAAAAGCTGGTGCCGGTTGACATTCTCGGCCTCAAGGAAGGCCGCCAGCGCTACGGTTTCTTCACCGACGAAAATGGTGGCATTCTGGATGATCTGATGATCACCAATCGCGGCGATCATCTTTTTGTCGTCGTCAACGCCGCCTGCAAGGATGCCGATGTCGCCCATATGAAGGCGCATCTTTCCGATGCCTGCGAGATAACTCTTCTCGATGACCGGGCGCTTATCGCGCTTCAGGGTCCGCGCGCTGAGGCCGTTCTGGCTGAACTCTGGGCCGGCGTCTCGGAAATGAAATTCATGGATGTGCAGGAAGTGCCGCTGCATGACGTGCCGTGCATCGTCTCGCGCTCCGGTTATTCTGGTGAAGACGGCTTTGAGATTTCCGTACCGGCCGACAAGGCCGAAGAGATTGCCAAGGCGCTGCTCGAACATCCCGATTGCGATCCGATCGGGCTTGGTGCGCGCGACAGCCTGCGCCTCGAAGCCGGCCTTTGTCTTTATGGCAACGATATCGACACTACGACCTCCCCCATCGAAGCCTCACTCGAATGGGCGATCCAGAAAGCGCGCCGCGCCGGTGGAGACCGCGAGGGCGGTTTTCCTGGCGCGGAGCTTATTCTTGGCGAACTGAAAGACGGTACCTCGCGCCGTCGCGTCGGCCTGAAGCCGGAGGGCAAGGCGCCGGTGCGCGGCCATTCGAAGCTTTTTGCGGATGCCGAAGGCAAGACGGAGATCGGTGAAGTGACCTCCGGCGGTTTCGGCCCTTCGGTCGAAGGTCCCGTCGCCATGGGTTACGTGCCTGCTTCCCACGCTGCTCCCGGCACGGCGATCTTCGCGGAAGTGCGCGGCAAATATCTTCCCGTCACCGTCGCCGCCCTGCCCTTCATCAAGCCCACCTATAAACGATAA	MDDTAALKTTPLHSLHISLGARMVPFAGYDMPVQYPAGVLKEHLQTRTSAGLFDVSHMGQVILKAKSGKNEDAARAFEKLVPVDILGLKEGRQRYGFFTDENGGILDDLMITNRGDHLFVVVNAACKDADVAHMKAHLSDACEITLLDDRALIALQGPRAEAVLAELWAGVSEMKFMDVQEVPLHDVPCIVSRSGYSGEDGFEISVPADKAEEIAKALLEHPDCDPIGLGARDSLRLEAGLCLYGNDIDTTTSPIEASLEWAIQKARRAGGDREGGFPGAELILGELKDGTSRRRVGLKPEGKAPVRGHSKLFADAEGKTEIGEVTSGGFGPSVEGPVAMGYVPASHAAPGTAIFAEVRGKYLPVTVAALPFIKPTYKR	PGPT0008130_1281	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008130-gcvT-K00605	NA	NA
BMS010_05304	186			hypothetical protein	ATGCCAGCCAAATCGAAGGCCCAGCAGAAAGCGGCGGGCGCCGCACTGGCGGCCAAACGCGGAGAAACGAAGAAATCCAGTTTAAAAGGTGCTTCAAAAAGCATGGAGAAGTCCATGACAGAAAAGGAACTTGAGAATTTCGCATCGACGAAACGCAAGGGCCTGCCTGAGAAAAAATCCGACTGA	MPAKSKAQQKAAGAALAAKRGETKKSSLKGASKSMEKSMTEKELENFASTKRKGLPEKKSD				NA	NA	NA	NA	NA
BMS010_05305	381			hypothetical protein	ATGCTTCGCATTTTCTGCGCGACCCTGATGTTGTCGCTCGGTTTTGCCCACAAGCCGGCACTTGCCGCAGCACCCGCCGTTGCGCTGGATGAGAGTTACCGGCTGCCGGACGGCACCTTCGCGGAAATCTGCCTTGGCCATGGCAACGGCGTCAATGCTTCCCATACCAGGGAAGGCCCCGCCCATTCCAGCGACGCCATCCTGTTTTGCGAGGCCTGCCTGCTCGCCTCGTCCATTCTTCTGCCGATGCCCGATACGGCTGGCTGGCTGAAGACTGAGTTTGCCTGGCTCGACAATCGCCTGCCTGCGGAATGGAGCTTCCGCTCCGTGCTGACGATCCAGAAGCCCGCCGCGCGCGGCCCGCCATCCCTGTCCGCCTGA	MLRIFCATLMLSLGFAHKPALAAAPAVALDESYRLPDGTFAEICLGHGNGVNASHTREGPAHSSDAILFCEACLLASSILLPMPDTAGWLKTEFAWLDNRLPAEWSFRSVLTIQKPAARGPPSLSA				NA	NA	NA	NA	NA
BMS010_05306	972			hypothetical protein	ATGAAAACCACCAAGATCATCACCTGCAGCCTTTTCGTCGCCTCGGTTTCGACCGCGCAGGCTTTCGCCCATGCCACATTCGTTGACGGTTCGGCCGAACAGGAAAGCACCGTCGTTGCCGCCCTCCAGGTTCCGCATGGCTGCGAAGGCGGGCTCGCCACCACCGAAGTTCAGATCAAGCTGCCGGAAGGATTCATTGCCGCGAAGCCCCAGCCCAAGGCTGGCTGGGAACTGGAGGTCATCAAGGGAGACTACCAGAAGGCCTACAAGAACCACGGCAAGGAGATTAAAAGCGGACCGGTCGAAATCCGCTGGAAAGGCGGCAACCTGCCGGATGAATTCTACGACACCTTCTCCGTGCAGGGAAAAATCTCCGGTATTGAGGCGGGGCAGGACCTGCCATTCAAGGTAACGCAGCTCTGCGGCGACAAAGGCAAGGTTGCCTGGGACGAAGTGGCAGCGGCCGGCGTCGATCCACATTCCCTGAAAAGTCCCGCTCCCACCATTCGCGTTGCCGCAAAGGCTGCGCATGCCGGCGGCCATGATCACTCCGCCATGGATATGGATGTCGTGAAGGCCGGCAGCCTCGAAGTGTCGGAGGGAACGACCAAGGCCATGCTGCCGGGCCAGCCCGTGGGCGGTGGATACGTGACGATCAAGAATACCGGCGATAGCGACGACAAGCTGATCGGCGTTGAATCGTCGTCCGCCGGACGTGCTGAAATCCACGAGATGGCCATGGTCAACGACGTCATGAAAATGCGCAAGCTGGATGACGGCATCGTCATTCCCGCCGGCCAGACGGTGGAGCTGAAGCCCGGCGGCCTGCATATGATGTTCTTCGATGTGAAGAAGCCCTTTGCCGAAGGCGACAAGGTGCCGGTAACGCTCATCTTCGAAAAGGCCGGCAAGGTGGAGATCGTGCTGTCCGCAGGCGCAGCCAAGGGCGGCGGCGACCACCAGCATAATTGA	MKTTKIITCSLFVASVSTAQAFAHATFVDGSAEQESTVVAALQVPHGCEGGLATTEVQIKLPEGFIAAKPQPKAGWELEVIKGDYQKAYKNHGKEIKSGPVEIRWKGGNLPDEFYDTFSVQGKISGIEAGQDLPFKVTQLCGDKGKVAWDEVAAAGVDPHSLKSPAPTIRVAAKAAHAGGHDHSAMDMDVVKAGSLEVSEGTTKAMLPGQPVGGGYVTIKNTGDSDDKLIGVESSSAGRAEIHEMAMVNDVMKMRKLDDGIVIPAGQTVELKPGGLHMMFFDVKKPFAEGDKVPVTLIFEKAGKVEIVLSAGAAKGGGDHQHN				NA	NA	NA	NA	NA
BMS010_05307	303			hypothetical protein	ATGACACAGGTTCTTTCCGTTTCCGCGAATACAGCGGCCTATGCGCTGGAGGCCATGAAGCCGCCGCAACGCGTGCCGCGCAAGAGCGAGGTTGAAGAGGCCATTCACGAACTGGCGCGCAAGGCCGAAAACGGCGACGATTTCCAGCTCAGGGGCCTGATGACGACGATCAAGCCGCCGGCCCTCACCCTCTATTTCCTGATAGCAAGCAGCCAGCGTCAGGAGCCACAGGCGACACTCGAGCAGGCCGTGGAGGCCTACGAGGAAAACAGCTTCACATCAAAATCTGAAAGTAATTTATAG	MTQVLSVSANTAAYALEAMKPPQRVPRKSEVEEAIHELARKAENGDDFQLRGLMTTIKPPALTLYFLIASSQRQEPQATLEQAVEAYEENSFTSKSESNL				NA	NA	NA	NA	NA
BMS010_05308	378	crcB_2		Putative fluoride ion transporter CrcB	ATGATCAATATCGCCCTTGTCGCTGCAGGCGGCGCAATCGGTTCCGTGTTCCGTTATCTGGTCGGGGTCTGGAGCATGCGGTTGGCCGGACCGAATTTTCCCTGGGGAACTCTTGCCGTCAATGTGGTCGGATCTTTCCTGATCGGTCTGCTGGTCGAGCTTGTGGCGCGCCGGCTGAACGCCTCGATGGAAATGCGCCTGTTTCTCGTCACCGGCGTGCTCGGCGGGTTCACCACATTCTCGTCCTTCTCGCTCGATGCGGTCGCGCTGTTCGAACGCGGCGCGCTCGGGCTATCGGCGGTTTACGTGCTTGCAAGCCTCGCTGTTTCCATCACGGCGGTTTTCGCCGGGCTGGCCTTGGGCCGCAGTTTGTTCTAA	MINIALVAAGGAIGSVFRYLVGVWSMRLAGPNFPWGTLAVNVVGSFLIGLLVELVARRLNASMEMRLFLVTGVLGGFTTFSSFSLDAVALFERGALGLSAVYVLASLAVSITAVFAGLALGRSLF	PGPT0004985_3695	DIRECT EFFECT	BIO-REMEDIATION	FLUORIDE_DETOXIFICATION	FLUORIDE_RESISTANCE	FLUORIDE_RESISTANCE-FLUORIDE_TRANSPORT,PGPT0004985-crcB-K06199	NA	NA
BMS010_05309	990	rluC_1	COG0564	Ribosomal large subunit pseudouridine synthase C	ATGGCAGGTATCGAGCATATCAAGGTCGGGGCCGACGAGGCCGGTATGCGCCTCGATCGCTGGTTCAAGATTCATTATCCGGGACTTGGTTTCGGGCAGTTGCAGAAGCTTCTGCGCTCCGGCCAGGTGCGTGTGGATGGCGGCCGGGTGAAGACGGATGCACGCGTGCAGCCGGGACAGATGGTGCGCGTACCGCCGGTCGATTCCGATCTCAAGGTCAAGAGCGGCCCGATCGGATCGAAAGACCTCAAACACTCCGAAGATGGCGAGCTTCTGGCGCGCATGCTCCTGCATGAGGACGACAAGGTGTTCGTCTTCAACAAGCCGGCCGGCATTGCCGTGCAGGGCGGCTCCGGCGTTACTCGCCATATTGACGGGCTGCTGGAAGCCTGGACCAATCAGAAAGGCGAAAAGCCGCGTCTGGTGCACCGCCTCGACCGCGATACGTCGGGTGTGCTGGTGGTTGCCCGCACCCGCGGTGCTGCGCAGAAGCTGACGGCCGCCTTCCGCGAACGCGATACCAAGAAGACCTATTGGGCCCTGGTCAAGGGCGTGCCGCGCAAGCATCAGGACAAGATTTCCACCTGGCTGGTCAAGGAACAGACGATGGATGGCGATCGCATGCGTATCGCCAAGCATGGCGAGGAGGGCGCCGATCACGCCGTTTCCTATTACCGCGTCATCGATACCGCCGCGCAGAACCTCGCCTGGCTGGAAATGGAACCCTATACCGGCCGCACCCATCAGCTTCGCGTGCACGCGCTGCATATGGGCCACCCGATCATCGGCGATCCGAAATATTACATCGACGATCCGAACTGGGATTTCCCGGGCGGCATCCAGAAGCGCCTGCACCTCCACGCACGCCATATCGACATTCCGCATCCGAATGGCGGCCGGCTTCGGGTCAGCGCGCCCCTTCCGCCGCATATGGTCCAGACCTGGAACCTGCTCGGTCTCGACGTGGCCGATGGCGACAGGGAAGACTGA	MAGIEHIKVGADEAGMRLDRWFKIHYPGLGFGQLQKLLRSGQVRVDGGRVKTDARVQPGQMVRVPPVDSDLKVKSGPIGSKDLKHSEDGELLARMLLHEDDKVFVFNKPAGIAVQGGSGVTRHIDGLLEAWTNQKGEKPRLVHRLDRDTSGVLVVARTRGAAQKLTAAFRERDTKKTYWALVKGVPRKHQDKISTWLVKEQTMDGDRMRIAKHGEEGADHAVSYYRVIDTAAQNLAWLEMEPYTGRTHQLRVHALHMGHPIIGDPKYYIDDPNWDFPGGIQKRLHLHARHIDIPHPNGGRLRVSAPLPPHMVQTWNLLGLDVADGDRED				NA	NA	NA	NA	NA
BMS010_05310	669	mupP_2	COG0546	N-acetylmuramic acid 6-phosphate phosphatase	ATGAAACTGGTTCTTTTCGATTGTGACGGAACGCTGGTGGATAGCGCCGGCCTGATCCATGCCGTCATGTCCGATACTTTCGCTGATTTCGGCAAACCGCGCCCCGATATCTCCGAAACCAAGGCGATCATTGGCCTGACGCTGGATATCGCCATCGCCCGCATGCTGGGCAAGGCGCATGTGGATGATGAAGCGAAGGCGATGACGGAACGTTACAGGGAACTCTATCATCCCCTGCGGGAGCGGCCGGAAATGACCGTACCGCTTTTCGACGGTATCGCCACGCTGATCGATACGCTTTCGAAACGCGACGATGTGCTGATCGGCGCGGTGACAGGCAAGGGCCGGCGCGGTCTTACCCATATCCTGCAGACCCACGGCCTTGCCGATCACTTCATCGTTTCGCGCACGGCGGATGATTGTCCCTCCAAGCCGCATCCGGCCATGGTGATGGAATGCTGCCATGAAACCGGCATGGTTCCGGCCGATACTGTCGTTATCGGCGATGCGATCTACGACATGCAGATGGCCAAGGCCGCCGGCGCGAAAGCAATCGGCGTTGCCTGGGGTTATGCCTCGGTCGACGATCTCTGGAAGGCAGGCGCCGATGCGGTCGTCAGCCACCCGCGCGAAATTCCGGCCTATGTTCCGGCCGATATTCTTGAATAA	MKLVLFDCDGTLVDSAGLIHAVMSDTFADFGKPRPDISETKAIIGLTLDIAIARMLGKAHVDDEAKAMTERYRELYHPLRERPEMTVPLFDGIATLIDTLSKRDDVLIGAVTGKGRRGLTHILQTHGLADHFIVSRTADDCPSKPHPAMVMECCHETGMVPADTVVIGDAIYDMQMAKAAGAKAIGVAWGYASVDDLWKAGADAVVSHPREIPAYVPADILE	PGPT0001730_4056	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0001730-gph-K01091	NA	NA
BMS010_05311	795			hypothetical protein	ATGCGTGATCTCCTGAACGACCTTTCGGAGGGCCTGAGCCATCCCGACCCGATCCTGCGCGCGCAGATCCAGATGCAGAAACCTCTGCCGAAGCGGTTCTATAAAGATGTCACCGTCGGCGAGGCGGAGGAGGGCGGCTTTACCATCCTTCTCGATGGCAAGCCGCTGCGCACTCCTGCCAAGAAGCCGCTGACCGTCCCGACGCGTGCGCTGGCGGAACTGCTTCGCGATGAATGGGACGCCCAGAAAGAAGTGGTGAATCCGGTGGTAATGCCGGTTTCTCGGCATGTGAACACGGCCATTGATGGCGTCGCCAATGATACCCAGGCTGTTTTTGAGGACATACTTCGTTTTTCCTCTTCCGATCTCCTCTGCTATCGCGCCGGCGATCCGGAAGCGCTGGTTGCGCGGCAGACGGACCATTGGGATCCGGTTCTGGACTGGGCGGCCAATGTGCTCGGAGCGCGCTTCATTCTCGTTGAAGGCGTGATGCATCAGGACCAGCCGCGCGAAGCCATCGCGGCCTTTGCGGTAACGCTGAAGAAATACGATACGCCGATTGCGCTTGCCGCTCTCCACACCATGACATCGCTGACCGGCTCCGCCATTTTGGCGCTGGCGCTGGCGGAAGGGGAGTTGACGCTGGAGGAAGCCTGGGCGCTCGCCCATCTGGACGAGGACTGGACCGCCGAGCAATGGGGCGAGGACGAGGAGGCGCTTGAGCGCCGCGCCGTCAGGCTTGTCGATATGCGCGCGGCACTCAATGTTCTGGAGTCGCTCAAGAGCGCGTCTTAA	MRDLLNDLSEGLSHPDPILRAQIQMQKPLPKRFYKDVTVGEAEEGGFTILLDGKPLRTPAKKPLTVPTRALAELLRDEWDAQKEVVNPVVMPVSRHVNTAIDGVANDTQAVFEDILRFSSSDLLCYRAGDPEALVARQTDHWDPVLDWAANVLGARFILVEGVMHQDQPREAIAAFAVTLKKYDTPIALAALHTMTSLTGSAILALALAEGELTLEEAWALAHLDEDWTAEQWGEDEEALERRAVRLVDMRAALNVLESLKSAS				NA	NA	NA	NA	NA
BMS010_05312	489			hypothetical protein	ATGACCACCTCGTTGAAACGCCTTGGCATTCTTGTGCTGGCGTGTTTCACGCTCATGTCTTTCAGGCTGGAACCGGAAGCGACCCATACTGACCGGCTGCTGTACGATGTGCGCGGCGCATTCGTCGCCGCACGCCCGGATGTCGCTCCGGCGCTGATGCAGTCCATTCATGCGCAGGTGCAGAATGCGATCAAAACAACGGCGCGTGGAGAAACGCGGCCGCGCGTGGTACTGACCATCCGTCTCGCATCTGTGACACGCGGCCCGTTCCTGTTCGGGGAAAGGGCGTCGGCCAAGGTCATCGTCCGCGCCGCCGCCGTCGCGACGGGAGAGGTGATCGCCGAGGCCAAATTCACCGCCACCGTCGTCAGCTTCGATAATCAGTCGATAGAGCAGGAACTTGCCTATGGTGTCGCCGAACGTGTGATCCGCGAATTCAGGCTCAGCCGGCCCGGCCCGACAACGCTGGCGACGGCATTGTTTCCATAA	MTTSLKRLGILVLACFTLMSFRLEPEATHTDRLLYDVRGAFVAARPDVAPALMQSIHAQVQNAIKTTARGETRPRVVLTIRLASVTRGPFLFGERASAKVIVRAAAVATGEVIAEAKFTATVVSFDNQSIEQELAYGVAERVIREFRLSRPGPTTLATALFP				NA	NA	NA	NA	NA
BMS010_05313	390	yjgH_1	COG0251	RutC family protein YjgH	ATGACCGCACGCGAAGCAATTTTCCCCGCTAACAGGCATGCGCTTTACGAGGAGCATGGCTATTCCGCAGCTATCCGATCCGGTGACCTTCTTTTCGTTTCCGGCCAGGTCGGCAGCCGTGCCGATGGAACGCCTGAACCTGATTTTGAACGTCAGGTCCGGCTGGCCTTCGAAAACCTCAAGGCCACGCTTGCAGCGGCGGGCTGCACTTTCGACAATATTGTGGATGTAACGACGTTCCACACGGACCCGCAAAACCAGTTCGGAACGATCATGACCGTCAAGCAGGAGATTTTCAGCCAAAAGCCTTACCCGAACTGGACGGCTGTCGGCGTCAACTGGCTTGCCGGTTTCGATTTCGAGATCAAGGTCATTGCCCGCATCCCGTAA	MTAREAIFPANRHALYEEHGYSAAIRSGDLLFVSGQVGSRADGTPEPDFERQVRLAFENLKATLAAAGCTFDNIVDVTTFHTDPQNQFGTIMTVKQEIFSQKPYPNWTAVGVNWLAGFDFEIKVIARIP	PGPT0020030_253	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020030-ridA|tdcF-K09022	NA	NA
BMS010_05314	834	fghA	COG0627	S-formylglutathione hydrolase	ATGAACATTATTTCGCAGAATACGGCCTTTGGCGGCATGCAGGGCGTATTTTCGCACACATCGGAAACCCTGAAATCTGAGATGAGCTTTGCGGTTTATGTGCCGCCGAAGGCGATCCATGAGCCCTGCCCTGTCCTGTGGTATCTTTCCGGCCTTACCTGCACCCATGCCAATGTCATGGAAAAAGGCGAATATCGCCGCATGGCCTCCGAACTCGGGCTGATCGTCGTCTGCCCGGATACCAGCCCGCGCGGCAACGATGTGCCGGATGAGCTGACCAACTGGCAGATGGGCAAAGGCGCTGGATTTTATCTCGATGCCACAGAGGAGCCCTGGTCCGAGCACTACCGGATGTACAGCTATGTGACGGAAGAACTGCCTGCCCTCATCGGCCAGCATTTCCGTGCGGATATGAGCCGCCAGGGCATTTTCGGCCATTCGATGGGCGGCCATGGCGCAATGACCATTGCGCTGAAGAACCCCGAGCGTTTCAAGAGCTGCTCCGCCTTTGCACCGATCGTGGCTCCCTCTTCGGCCGACTGGTCCGAGCCGGCGCTGGAAAAATACCTCGGTGCGGATAAGGCCGCATGGCGTCAGTACGATGCCTGTGCGCTGGTCGAGGACGGTGCGCGTTTCCCCGAGTTCCTGATAGATCAGGGCAAGGCCGATAGTTTCCTTGAAAAGGGCCTGCGGCCCTGGCTGTTCGAAGAAGCGGTCAAGGGCACGGATATCGGCCTGACGCTGCGCATGCATGAGCGTTACGACCACTCCTATTATTTCATTTCCACCTTCATGGATGACCATTTGAAGTGGCATGCGGAGCGGCTGGGATAA	MNIISQNTAFGGMQGVFSHTSETLKSEMSFAVYVPPKAIHEPCPVLWYLSGLTCTHANVMEKGEYRRMASELGLIVVCPDTSPRGNDVPDELTNWQMGKGAGFYLDATEEPWSEHYRMYSYVTEELPALIGQHFRADMSRQGIFGHSMGGHGAMTIALKNPERFKSCSAFAPIVAPSSADWSEPALEKYLGADKAAWRQYDACALVEDGARFPEFLIDQGKADSFLEKGLRPWLFEEAVKGTDIGLTLRMHERYDHSYYFISTFMDDHLKWHAERLG	PGPT0002120_1952	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-FORMIC_ACID_BIOSYNTHESIS,PGPT0002120-frmB|fghA-K01070	NA	NA
BMS010_05315	660			hypothetical protein	ATGACCCCGGCCAATATGAAAAGCAACAGCTATCGCCGCCATCAACCTTTCGTCATTGCCTTTTTGGTCGGCGCCGTGAGCCTTGGCCTGGCGCTGGTTTTTGCGCCGCCGCTGGCGATCGAGATCGCGGCCGTTCTGTTCTTCCTGACCTATCTCACCCTGATTGCCTTTCGCCTGTCGGGCCTGACGGCGCAGCACCTTAAGGCCCATGCCGATAGCGACGATCTGCCTGCGGTCGCCATCATCGCCGTTACGCTGCTAGCCGTTGCCGTCGCGGTGGTATCGCTGTTTCAGGCTCTCAACCATACGGGCGAGACGGTCTGGACGCTGCTCATCGCCTTCGCGTCGGTTATCTTCGGCTGGCTGACCATCCACACCATGACCGCCCTGCATTACGCCCATCTTTACTGGCGGCCCGCGATGGTGGACGGCAAACGCCAGCATCGCGGCGGCATGGATTTTCCGGGCACGAAGGAACCCTGCGGTTACGACTTTCTTTATTTCGCCGTGGTGATCGGCATGACGGCGCAGACGTCGGATGTGGGGATAACCACGACCGCCATGCGCAAGGTCACGCTGCTGCACTCCATCGTTTCTTTCTTCTTCAATACGGTTCTTGTGGCGGCGGCGGTCAATGCAGCCGTTTCGCTTGCAGGCTAA	MTPANMKSNSYRRHQPFVIAFLVGAVSLGLALVFAPPLAIEIAAVLFFLTYLTLIAFRLSGLTAQHLKAHADSDDLPAVAIIAVTLLAVAVAVVSLFQALNHTGETVWTLLIAFASVIFGWLTIHTMTALHYAHLYWRPAMVDGKRQHRGGMDFPGTKEPCGYDFLYFAVVIGMTAQTSDVGITTTAMRKVTLLHSIVSFFFNTVLVAAAVNAAVSLAG				NA	NA	NA	NA	NA
BMS010_05316	456			hypothetical protein	ATGCCGCAAAACCCGCAAATCTATGTCGATGCCGATGCCTGCCCCGTGAAGCCGGAGATTCTCAAGGTGGCGGAGCGGCATGGGCTGGAAGTGACCTTCGTTGCCAATTCCGGTCTGCGCCCGTCGCGCGATCCCATGGTGAAAAACGTCATCGTTTCCGCCGGTTTCGACGCGGCGGACGACTGGATCGCCGATCATGCGGCCGAAAACGACATTGTCATCACTGCCGATGTGCCGCTGGCCGGCCGCTGCGTCGCCAAGGGTGCGCTGGTGACCGGGCCGACGGGCCGCGTTTTTGACCAGTCGAATATCGGGATGGCGACGGCGATGCGCGATCTTGGCGCGCATCTGCGCGAAACCGGTGAAAGCAAGGGATATAATGCGGCTTTTTCACCGCGTGACCGCTCCGCCTTTCTGGAGACGCTTGACCGTTTCTGCCGCCGTGTCAAAAAATGA	MPQNPQIYVDADACPVKPEILKVAERHGLEVTFVANSGLRPSRDPMVKNVIVSAGFDAADDWIADHAAENDIVITADVPLAGRCVAKGALVTGPTGRVFDQSNIGMATAMRDLGAHLRETGESKGYNAAFSPRDRSAFLETLDRFCRRVKK				NA	NA	NA	NA	NA
BMS010_05317	453			hypothetical protein	ATGCTGGAAGAGTTCATCGTGCAGGCGAAGTCCGCCACCTATGTCGGCGGCGGCAGCAAATCCGCGACGCCCACCCGCAAGGGATCGCACGATCTCGGTTATCAGAGCGGCGACTTGCACTATATCGACAGCTATTTCGGGGGAACCGATTTCATCGGCCAGGAGGTTGTCTGGCATCAGGGAACGGCGGTGTGGGCGATGAGTTATTACGGCCGCATCCTCCGGCCCGACATGATCGACGGCGCCACGGCCGGCATGGTCATTCAGCGGTCGCTTTCCACGCTCTATCGTCAGGGCCGGTTCCTTGGCGGTTTCACCAACCCGGTGGAAGATCTGGTCTATGTCGATACGAATGAAGGTGAATTCCGGTCCTTCACCGGCATCGAGCGCATTTACCGGGGCCATGTCGAGACGTACCGGCTTGACTATCATGGCGGGATCATAAAGCCATGA	MLEEFIVQAKSATYVGGGSKSATPTRKGSHDLGYQSGDLHYIDSYFGGTDFIGQEVVWHQGTAVWAMSYYGRILRPDMIDGATAGMVIQRSLSTLYRQGRFLGGFTNPVEDLVYVDTNEGEFRSFTGIERIYRGHVETYRLDYHGGIIKP				NA	NA	NA	NA	NA
BMS010_05318	657		COG0450	Peroxiredoxin	ATGAGCCTGCGTATCAACGACATAGCACCAGACTTCACCGCCGAGACCACCCATGGTCCGGTGAGCTTTCACGACTGGATCGGCGCTGGCTGGGCGGTCCTGTTTTCGCATCCGAAGAACTTCACCCCCGTCTGCACGACGGAACTCGGCGCGATGGGCGGCCTGCAGCCGGAATTCGAAAAGCGTGGCGTCAAGATCATCGGTATTTCGGTCGATCCGGTCGAAAGCCATGAAAAATGGAAGAACGATATTCGCACCGCGACCGGTTTCAACGTCGATTATCCGCTGATCGGCGACAAGGACCTGAAGGTAGCAAAGCTTTACGACATGCTGCCGGCCGGCGCTGGCGACAGTTCCGAAGGCCGCACGCCTGCCGATAACGCCACCGTGCGCTCCGTCTTCGTCATCGGTCCCGACAAGAAGATCAAGCTGGTCCTCACCTACCCCATGACCACCGGCCGCAACTTCGAGGAAATTCTTCGCGCGATCGATTCCATCCAGCTCACCTCCAAACATCAGGTGGCGACACCGGCCAACTGGAAGCAGGGTGAAGATGTCATCATCACCGCCGCCGTTTCCAACGAGGATGCGATTGCCCGTTTCGGTTCTTACGACACGGTTCTTCCCTATCTGCGCAAGACCAAGCAGCCCGGCTGA	MSLRINDIAPDFTAETTHGPVSFHDWIGAGWAVLFSHPKNFTPVCTTELGAMGGLQPEFEKRGVKIIGISVDPVESHEKWKNDIRTATGFNVDYPLIGDKDLKVAKLYDMLPAGAGDSSEGRTPADNATVRSVFVIGPDKKIKLVLTYPMTTGRNFEEILRAIDSIQLTSKHQVATPANWKQGEDVIITAAVSNEDAIARFGSYDTVLPYLRKTKQPG	PGPT0007245_2	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007245-hflX-K03665	NA	NA
BMS010_05319	1212	yfcJ_2		putative MFS-type transporter YfcJ	ATGACGACTTCTTCTGCGCCTGTTTCCGCGACGGTTCGGGCACGCATTCCAGCGACGGTCTGGGTGCTCGGCATCGTTAGCCTTCTGATGGATATTTCTTCGGAAATGGTGCAGACGCTGCTGCCCTATTATCTCGTTTCCGGTCTCGGCGCTTCCGCGGTCACTGTCGGTTTCATCGAGGGAATGTCGGTTGCCATCGCCACCACGACCAAGCTGTTTTCCGGGATTATCGCGGACTGGACGAGGCGGCGGAAAATGCTCGCCGTGCTTGGATACGGTCTCGGCGCAATCTCGAAACTCGCTTTTCCCTTTGCCACCTCGCTTGGCTGGATCGTCGCCGCCAAGGCGGTGGACCGGGTCGGAAAGGGCATTCGCGGAACGCCGCGCGATGCCCTTATTGCCGATGTGACGCCGCCTGAAATTCGTGGCGCCGCATTCGGGCTTAGAAAGTCGCTCGATACGGTCGGCGGCTTCCTCGGGCCGCTGGCGGCCATCGGGCTGATGTTCGCGCTCAGCGAAAATGTACTCGCCATTTTCTGGATCGCGGTCATTCCCGCTTTCCTTGCGGTGTTCATTCTCATCGCCGGTGTGACGGAACCGGATGCGCCCGCAAGACCGAAAGCCGAAAAGCCATTCCGGCTCGCCGATTTTGCGAAACTCAATCGGGCGGTCTGGATCGTCATCATCGCGGCGTCGCTCCTGACCTTCGCCCGTTTCAGCGAAGCATTCCTGTTGCTGAAATCCGAAGAGGCAGGCTTCCGGCCGGCATGGATACCGATCACGATGGTCATCATGCATGCCGTCTATGGCCTGACAGCCTATCCCGCCGGCCGGCTTTCGGACAGGATCGGCCGAGCGGGAATTATCGCGGCGAGCGTGGCCGTGCTGATGGCCTCCTATCTGACGCTCGCCTTTGCCAATTCCATTCCGCTGTTCCTGTTCGGCATTCTTCTGTGGGGCTTGCATATGGGTCTGTCGCAGGGTCTGCTTGCAGCCCTGATTGCGGAAACGGCGCCGCCACATCTCAAGGGAACGGCCTTCGGCGTTTTCAATCTGATGACGGGTCTCGCGGTACTGGTCGGCAATGTCATCGCCGGCTTGCTGTGGGACCTCCACGGTTCCTTCGGCACCTTCCTGGCAGGCGCCGCACTGTCTTTTACCGCATTGACGGTGTTGATCTGGGTGTCCCGTCGAAAGAGCGCCGCCGCCTGA	MTTSSAPVSATVRARIPATVWVLGIVSLLMDISSEMVQTLLPYYLVSGLGASAVTVGFIEGMSVAIATTTKLFSGIIADWTRRRKMLAVLGYGLGAISKLAFPFATSLGWIVAAKAVDRVGKGIRGTPRDALIADVTPPEIRGAAFGLRKSLDTVGGFLGPLAAIGLMFALSENVLAIFWIAVIPAFLAVFILIAGVTEPDAPARPKAEKPFRLADFAKLNRAVWIVIIAASLLTFARFSEAFLLLKSEEAGFRPAWIPITMVIMHAVYGLTAYPAGRLSDRIGRAGIIAASVAVLMASYLTLAFANSIPLFLFGILLWGLHMGLSQGLLAALIAETAPPHLKGTAFGVFNLMTGLAVLVGNVIAGLLWDLHGSFGTFLAGAALSFTALTVLIWVSRRKSAAA	PGPT0027480_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HipA-HipB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027480-toxin_hipA-K07154	NA	NA
BMS010_05320	177			hypothetical protein	ATGCAGAAGGTCGCCATTGCTGTCGACAAGATACGCGCAGCCGGAAAAATCGTGGGGACGCTCGCGACATTGGAAGAAATGCCGCACTGGCGGAAGCGTGGCGTGCAATTCTTCTACATCCATTCCGATCCGTTCCTGCGCCGCGGTCTCGCCGCGGTGAAGGAGGCGCTCGCCTGA	MQKVAIAVDKIRAAGKIVGTLATLEEMPHWRKRGVQFFYIHSDPFLRRGLAAVKEALA				NA	NA	NA	NA	NA
BMS010_05321	441			hypothetical protein	ATGCCGTTAGAAATCCGCCGTGACGGGTTTCCACAAATGCACCGGATCGAAGCCGCCGCAGCGCGCGATCACAATCCGGGTGCCGTTTTTAACCCGCCGCCGCAAAAGATCGAAACGTTCGGACTGCGCCCGAAGCGAACCATCATCCTGAAGCTTCTGCAGCATCGACCGCGAAAGCCCGAGTTGAGACGCCAGCAGACGATCAAGGCGTATACCGGCCTGAAAAGGAACCATGAGATCGATCTCCGCCATGGCTCAGTCGGGAGGTTCATCCCGTATCTGTTTCGCGATATCGAATTCGGGAAACTCGTCGACGCGCTGGGGACGGATTTTGCGCCTGTTAGCGGCTGTCGGAAACGGAAGATTCCGGCGTCCATACGCCGGGCAAACATCCTTAAGGGGGGGGCGGTTTCAATCCAGAAGAATGATCGCATAAGATAG	MPLEIRRDGFPQMHRIEAAAARDHNPGAVFNPPPQKIETFGLRPKRTIILKLLQHRPRKPELRRQQTIKAYTGLKRNHEIDLRHGSVGRFIPYLFRDIEFGKLVDALGTDFAPVSGCRKRKIPASIRRANILKGGAVSIQKNDRIR				NA	NA	NA	NA	NA
BMS010_05322	726	arsH	COG0431	NADPH-dependent FMN reductase ArsH	ATGAAGGAAAGCGCATTGTCTGACAGATTTCCCGCGTTACAGGCGCATCACCTGCACAGCATTGACCCCGAGGCTCTGCGTCCGGCGTTTTCGACCCATAAACCACGCATCCTGATCCTTTATGGATCGCTGCGCGAGGTGTCCTATAGCCGTCTGCTGGCATTCGAGGCTGGGCGGCTGCTCGAACACTTCGGTTGCGAGGTTCGAATATTCGATCCGAAGGGCCTGCCTTTACCCGATGAAGCGCCAGCCAGCCATGCCAAGGTGCAGGAACTGCGTGAACTTTCAGAATGGTCGGAAGGACAGGTCTGGGTAAGCCCCGAACGCCATGGCGCAATGACCGGCATCATGAAGTCGCAGATCGACTGGATTCCTCTTGCAATCGGTTCTGTACGGCCGACACAGGGCAAGACGCTCGCCGTCATGGAAGTGTCCGGCGGCAGCCAGTCCTTCAACGCCGTGAACCAGATGCGAATTCTCGGCCGATGGATGCGGATGATCACCATTCCCAACCAGTCCTCGGTGGCAAGGGCGTATCAGGAGTTCGACGCGGAAGGCCGGATGAAGCCGTCATCCTATTATGACCGTGTCGTGGATGTCTGTGAGGAACTGGTAAAATTCACGCTGCTGACGCGTGACGCTTCCAGATATCTCACAGATAGATATAGCGAACGCAAAGAGTTGGCAGATGAACTTGAGAAACGTGTTTCGCTAAAATCAATCTGA	MKESALSDRFPALQAHHLHSIDPEALRPAFSTHKPRILILYGSLREVSYSRLLAFEAGRLLEHFGCEVRIFDPKGLPLPDEAPASHAKVQELRELSEWSEGQVWVSPERHGAMTGIMKSQIDWIPLAIGSVRPTQGKTLAVMEVSGGSQSFNAVNQMRILGRWMRMITIPNQSSVARAYQEFDAEGRMKPSSYYDRVVDVCEELVKFTLLTRDASRYLTDRYSERKELADELEKRVSLKSI	PGPT0004730_383	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004730-arsH-K11811	NA	NA
BMS010_05323	423	arsC_1		Arsenate reductase	ATGGACGCCACCATCTATCACAACCCGTCCTGCGGGACGTCGCGCAACACGCTGGCGCTGATCCGCGCGGCAGGGATCGAACCGACCGTAATCGAATATCTGCGGGAACCGCCGACACGCGAGAATCTCGCAAGAATGATTGCGGATGCTGGCCTGACGGTGCGCGAGGCCATGCGCGAGAAGGGGACACCTTATGCCCAGCTCGGTCTCGACAATCCGGACCTGAATGACGACCAGTTGCTCGATGCGATGATGCAAACGCCGATCCTCATCAATCGCCCCTTTGTCGTAACACCGCTCGGCACCAGGCTCGCCCGTCCTTCAGAGGTCGTGCTGGATATTCTGCCGGACGCTTTCAAAGGGCCATTCTTCAAGGAGGATGGCGAGCAGGTTCTCGATAATGAAGGAAAGCGCATTGTCTGA	MDATIYHNPSCGTSRNTLALIRAAGIEPTVIEYLREPPTRENLARMIADAGLTVREAMREKGTPYAQLGLDNPDLNDDQLLDAMMQTPILINRPFVVTPLGTRLARPSEVVLDILPDAFKGPFFKEDGEQVLDNEGKRIV	PGPT0004720_303	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0004720-arsC1-K00537	NA	NA
BMS010_05324	1059	acr3	COG0798	Arsenical-resistance protein Acr3	ATGTCTGCCTTCGAACGATATCTGACCGTCTGGGTGTTTCTGTGCATCGTCGCCGGTGTTGCGCTCGGCCATGTGATGCCCGGCGTCTTTCAGCTCATCGCTACGGCCGAGATCGCCAAAGTGAATATTCCGGTCGCGATCCTGATCTGGCTGATGATCATTCCGATGCTGCTCAAGATCGATTTCCGGTCTCTTTCGCAGGTCGGCATGTTCTGGCGCGGCATTGGCGTGACGTTGTTCATCAACTGGGCCGTCAAGCCGTTCTCGATGGCGCTGCTCGGCTGGTTTTTCATCGGCTGGCTGTTCCGCCCTTATCTTCCGGCTGGTGAGATCGATTCCTATGTCGCCGGGTTGATCATCCTTGCCGCTGCTCCGTGCACCGCCATGGTCTTCGTCTGGAGCAACCTTACACGCGGCGAGCCGCTGTTTACGCTGTCGCAGGTCGCGCTCAACGATGCGATCATGGTCGTGGCATTTGCTCCCGTGGTCGGCCTGCTGCTCGGCCTGTCCGCCATTACAGTGCCCTGGGATACGCTTGTTCTCTCCGTTGCGCTCTATATTGTCGTTCCGGTCATCCTTGCGCAGCTGATCAGGCATCGGCTCATGACTGACGGCACCTCACGGATGCTGGATTGCGTTCTCGCAAAGCTGCAGCCGGTTTCTCTGGCGGCGCTGCTTGCGACACTCATTCTTCTCTTCGCCTTTCAGGGCGAGCAAATCATCGCCCAGCCGGCCATCATCGGCCTGCTCGCCATTCCCATCCTCATCCAGGTCTATCTGAATTCGGGGCTTGCCTACCTCCTGAACCGCATGACGGGTGAGCGCCATTGCGTCGCCGGGCCTTCCGCACTCATTGGCGCCAGCAACTTCTTCGAACTGGCGGTCGCGGCGGCCATCAGCCTGTTCGGCTTTCAGTCAGGTGCTGCGCTGGCAACCGTTGTCGGCGTCCTCATCGAAGTTCCGGTCATGCTTTCGGTCGTCTGGATCGTGAACAACTCGAAGGGCTGGTATGAGGCCGCACCCGCCGTTTCCCGAACGATAATGACCGAAAGGCAGTGA	MSAFERYLTVWVFLCIVAGVALGHVMPGVFQLIATAEIAKVNIPVAILIWLMIIPMLLKIDFRSLSQVGMFWRGIGVTLFINWAVKPFSMALLGWFFIGWLFRPYLPAGEIDSYVAGLIILAAAPCTAMVFVWSNLTRGEPLFTLSQVALNDAIMVVAFAPVVGLLLGLSAITVPWDTLVLSVALYIVVPVILAQLIRHRLMTDGTSRMLDCVLAKLQPVSLAALLATLILLFAFQGEQIIAQPAIIGLLAIPILIQVYLNSGLAYLLNRMTGERHCVAGPSALIGASNFFELAVAAAISLFGFQSGAALATVVGVLIEVPVMLSVVWIVNNSKGWYEAAPAVSRTIMTERQ	PGPT0004705_1676	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004705-arsB|arsenite_transporter-K03325	NA	NA
BMS010_05325	528	arsC_2	COG0394	Arsenate reductase	ATGACCGACAAGATCTATAACGTGCTCTTTTTGTGCACGGGCAATTCCGCTCGCTCCATTCTTGCCGAATCCATTCTCGCCAAGGAAGGTGAGGGGAGGTTCAATGCCTATTCGGCCGGCAGCCAGCCGAAGGGAGAGGTAAATCCTCACGCCCTGAAGGAACTGGCGGTGCTGGGGTATCCTACCAGCGGCTTCACCTCGAAAAGCTGGGACGTGTTTGCCGGGCCGGATGCGCCCCGGATGGATTTCATCTTCACTGTGTGCGACAGCGCCGCCGGCGAAGCCTGTCCGGTCTGGATCGGCCATCCGATGACGGCCCATTGGGGGATAGAGGATCCCGCCGCTGCGGTCGGCTCGGAGATCGAGGTTCAGCGCGCCTTCGCGCAGGCCGCGCGTTTCCTCAAGAACAGGATCGCGGCTTTCGTCAGCCTGCCCCTGCAATCTATCGATCGAATGGCGCTGGAAATGCAGCTTAGGCGGATCGGTGCATTGGATGGAGCCACCAATCCTGAAGGAAAGTCGGCCTGA	MTDKIYNVLFLCTGNSARSILAESILAKEGEGRFNAYSAGSQPKGEVNPHALKELAVLGYPTSGFTSKSWDVFAGPDAPRMDFIFTVCDSAAGEACPVWIGHPMTAHWGIEDPAAAVGSEIEVQRAFAQAARFLKNRIAAFVSLPLQSIDRMALEMQLRRIGALDGATNPEGKSA	PGPT0004715_638	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0004715-arsC-K03741	NA	NA
BMS010_05326	354			hypothetical protein	ATGGATAACAGTAGTGCAATAACCGCGCTTGGCGCGCTCGCCCAATCTACCCGCCTGGAGACCTTCCGGCTTCTCGTGCGCCACGAGCCGGATGGCATTCCGGCCGGTGAGCTTGCGCGTCTTGTCGACGTTCCCCAGAACACGATGTCGGCGCATCTCGCCACGCTTTCCCGGGCCGGTCTGGTCAAGAGTGAGCGGCAGAGCCGGTCTATCATCTATCGCGCCGATCTTGACGGGTTGCGCCTGCTGACCCTGTTTTTGCTGAAGGATTGCTGCGGTGGTTCGACCGAGCTTTGCGCGCCGTTGATTGCCGAGCTGACACCCTGCTGCAGCCCGCAGGTAAAGCCGTCATGA	MDNSSAITALGALAQSTRLETFRLLVRHEPDGIPAGELARLVDVPQNTMSAHLATLSRAGLVKSERQSRSIIYRADLDGLRLLTLFLLKDCCGGSTELCAPLIAELTPCCSPQVKPS	PGPT0004735_1874	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892	NA	NA
BMS010_05327	1782	clcB		Voltage-gated ClC-type chloride channel ClcB	ATGTCGACCAAGCCTTTCCGTGCACCCAGTATGGCGAGCTTCTTCGACAATCTGCGCGCCAGTCGCCTGCGGGCGATGTTCCGGCGCGGCGAACTAGGACTGGTGCTCCTTGCCGTCTTCATCGGCATTGCGGCAGGCCTTCTGGTTGCGCTGATCGGCGCCTTGAGCACGGCGTTGCATCTGCTGGTTTTCGGCGTCGAGCGGTTGAGCAGCAGCGATCTTTCCGGACGTATCGTGCTTGTCGGCCCGATCATCGGCGGCATCGTGCTCGGGTTGATCATCTTCATCCTTTCGAAGACCCGCAAGAAACCCATGGTCGACCCCATCGAGGCGAATGCGCTGCATGGCGGCCGGTTGTCGTTGACGGACAGCATCATCGTCTGCGTGCAGAATATCGTCTCCAACGGTTTTGGCGCGTCCGTGGGGCTGGAGGCCGGTTACACCCAGATCGCCAGCGGCGTCGCCTCGAAGATCGGCATCAAGCTGAAGCTGCGGCGAGGGGACATGCGTATCCTTGTCGGCTGCGGCGCTGCGGGCGCGATTGCTGCTGCCTTCAATGCGCCTCTGACCGGGGCGTTCTACGCCATCGAACTCATCATCGGCACCTATACCGTGGTGACGCTTGCGCCGCTCATCGTCTCGGCACTGGTGGCGACGACGGTCATAGGGATTATCGGCGGCCATGGTATCTCGATCGATATTGTCGATGCCAGCCGTGTAACACCGGCGGATTATGTGCCCGCCATCTTTCTCGGCGTCGTATGTGCGGCCATCGGCATCGTGCTGATGCAGGCGGTGTCCTTCATCGAAGAAACCGCACGCAAAAGCGCCATTCCGGGCTGGCTGCGTCCTGCCATCGGCGGCGTGGCGGTGGGCGGGCTCGCGCTGATTTCACCGCAGGTGCTGTCGAGCGGCCATGGTGCGCTGCATCTCAATATCGATGCCGAACTGACGATATACGGGGTGGCCGGGCTGTTCCTGCTGAAAGCGGCGGCGAGCGCCATTTCCATCGGCTCGAATTTCCGCGGCGGCCTGTTTTTCGCGTCGCTGTTCATGGGCTCGCTGCTCGGCAAGATTTTCGCGCTCTGCGCACCCTATATCGGCTATGGGTCGACGGCGCCCATCGTCTATGCCGTGATCGGCATGAGCGCCTTTGCCGCAGCCATCATCGGCGGTCCGCTGACGATGACGTTTCTGGCGCTGGAACTGACAGGCGACTTCCAGATCACGGCGCTTGTGCTTGCCGCCGTCATCACCACCTCGCTCGTGGTGCGCACCACCTTCGGTTACTCCTTCGCCACCTGGCGTTTTCACCTGCGGGGCGAGAGCATCCGCAGCGCCCATGATATCGGCTGGATCCGCGACCTGACGGTCGGCAGGATGATGCGCGCCGATATCCGCAAGGCCAATGTCAGCATGGGCCTCCCGGCCTTCAAGGAGAAGTTCCCGCTCGGCTCGACGCAACGGGTAATCATGACCCATGATGACGGGCGTTATGCCGGCATCGTCCTCGTGCCAGAAATCTACGCCGACCCGATGGATCGCGACCCCAGCAAAATCAGCCTCGAAACCTATCTGCAATACAAGAACGATGTGTTGCTGCCGACTATGAATGCCCGCCAGGCGGCGGCAGCCTTCGATGCGGCGGAGAGCGAAGCGCTGGTTGTCGTCAATGACAAGATCGAAAATCGCCCTGTCGGATTGCTTACCGAAAGCCATACGCTGAGGCGCTATAGCGAAGAACTGGACCTGAGACGCCGGGAGGCGTCAGGCGAGTTTTGA	MSTKPFRAPSMASFFDNLRASRLRAMFRRGELGLVLLAVFIGIAAGLLVALIGALSTALHLLVFGVERLSSSDLSGRIVLVGPIIGGIVLGLIIFILSKTRKKPMVDPIEANALHGGRLSLTDSIIVCVQNIVSNGFGASVGLEAGYTQIASGVASKIGIKLKLRRGDMRILVGCGAAGAIAAAFNAPLTGAFYAIELIIGTYTVVTLAPLIVSALVATTVIGIIGGHGISIDIVDASRVTPADYVPAIFLGVVCAAIGIVLMQAVSFIEETARKSAIPGWLRPAIGGVAVGGLALISPQVLSSGHGALHLNIDAELTIYGVAGLFLLKAAASAISIGSNFRGGLFFASLFMGSLLGKIFALCAPYIGYGSTAPIVYAVIGMSAFAAAIIGGPLTMTFLALELTGDFQITALVLAAVITTSLVVRTTFGYSFATWRFHLRGESIRSAHDIGWIRDLTVGRMMRADIRKANVSMGLPAFKEKFPLGSTQRVIMTHDDGRYAGIVLVPEIYADPMDRDPSKISLETYLQYKNDVLLPTMNARQAAAAFDAAESEALVVVNDKIENRPVGLLTESHTLRRYSEELDLRRREASGEF	PGPT0004990_837	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0004990-TC_CIC|eriC-K03281	NA	NA
BMS010_05328	825	rbn_1		Ribonuclease BN	GTGGCAATCTACCGTCGTCGCTTTACGGTTCTCGGTTGCGCGTCGTCGCCCGGCGTGCCGCGCATCAACGGCGACTGGGGCGCCTGCGATCCCGAAAACCCGAAGAACCGGCGCACGCGAACGGCCTTCATGGTGGAGCAGATCGGCCCGGATGGCGGCAGGACGACTGTCGTCATCGATACCGGCCCGGATTTTCGCGAGCAGATGATCGCGGCCAAGGTGGAGGCGGTGGATGCTGTGCTTTACACCCACGCTCATGCCGACCATCTGCACGGTATCGACGATCTGCGCATCTATTTCGCCCTTCAGCAAAACCGCATTCCGATCTATGCCGATCCCATTACCATGGCGCGGATAAAGGACGGTTTCGCCTATTGCCTGGAGACCCCGCCGGGCAGCAGCTATCCGCCCATCGTCGAACCGCGGATCATCGCCGATATCGACGCGGCGCTGGTCATCGATGGGGCCGGCGGGCCGATCCCCTTCAACGTGCACATGCAGCAGCATGGCGATGTGCATTCGCTGGGCTTCCGCATTGGTGACGTCGCCTATTGCACCGATGTCAGCGATTTTCCGGCAGAAAGCCTGCCGAAGCTTGCCGGTCTCGATGTCCTCGTCATCGACGCGCTGCAGCACCGTTATCACCCCAGCCATCTTTCACTGGAACAGGCGCTTGGCTGGATCGAGAGATTCGCACCCAAAAGGGCGATCTTGACCCACATGCATATTCCGCTCGATTATGAGACGGTGATGCGGGAAACGCCTGATCATGTCGAACCGGCCTATGACCAGATGCGTTTCGAGATCGAGATCGAAGCAGCCTGA	MAIYRRRFTVLGCASSPGVPRINGDWGACDPENPKNRRTRTAFMVEQIGPDGGRTTVVIDTGPDFREQMIAAKVEAVDAVLYTHAHADHLHGIDDLRIYFALQQNRIPIYADPITMARIKDGFAYCLETPPGSSYPPIVEPRIIADIDAALVIDGAGGPIPFNVHMQQHGDVHSLGFRIGDVAYCTDVSDFPAESLPKLAGLDVLVIDALQHRYHPSHLSLEQALGWIERFAPKRAILTHMHIPLDYETVMRETPDHVEPAYDQMRFEIEIEAA	PGPT0002480_139	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002480-phnP-K06167	NA	NA
BMS010_05329	783	ycfH_1	COG0084	putative metal-dependent hydrolase YcfH	ATGCTGATCGATACACATTGCCATCTGGATTTTCCCGATTTCGAGGCTGAGCGCGACGATATCATCGCCCGCGCCCATGCTTCGGGTGTCAGCCAGATGGTGACGATCTCGACCCGGGTGCGCCGGCTGCCCGAACTCTTGAAGATCACGGAAAAATATCCGTCGGTCTTCTGTTCGGTCGGCACGCATCCGAACAATGCCGATGAGGAACTGGATATTTCTGCCGATGAGCTCGTGCGGCTGGCGGAGAGCCACGACAAGATCGTGGCAATCGGCGAGGCGGGTCTGGATTATTTTTACGATACGCAGAAGCCGGAAGACCAGAAGACCGGCCTCATTCGCCACATCGAGGCCGCAAGACGAACGAAGCTTCCGCTTGTCATTCACAGCCGCAGCGCCGATGACGATATGGCCGCTATTTTGGGCGCCGAAAGCGACAAGGGACCATTCCCCTTCATTCTCCACTGCTTTTCCGCTGGTCCCGAGCTGGCGAAAACCGGTGTCGAGCTTGGCGGTTATGTGTCCTTTTCCGGCATTCTGACTTTCCCGAAATCGCAGGACATCCGCGATATCGCCGCCACCGTGCCGCTGGACCGGCTGCTGGTGGAAACGGATGCGCCCTATCTTGCGCCGAAGCGCTGGCGGGGAAAGCGCAACGAGCCGTCCTACGTGGTCAATACCGCTGAGGTTCTGGCCGATGTGCATGGCATTTCCTATGAGCGCATGGCCGAAATCACCACCGAAAACGCCTTCCGCTGCTTTTCCAAGATGACAAGGGTGTAG	MLIDTHCHLDFPDFEAERDDIIARAHASGVSQMVTISTRVRRLPELLKITEKYPSVFCSVGTHPNNADEELDISADELVRLAESHDKIVAIGEAGLDYFYDTQKPEDQKTGLIRHIEAARRTKLPLVIHSRSADDDMAAILGAESDKGPFPFILHCFSAGPELAKTGVELGGYVSFSGILTFPKSQDIRDIAATVPLDRLLVETDAPYLAPKRWRGKRNEPSYVVNTAEVLADVHGISYERMAEITTENAFRCFSKMTRV				NA	NA	NA	NA	NA
BMS010_05330	1551	metG_1		Methionine--tRNA ligase	ATGACAGACAAGACACCATTCTACATCACCACCGCGATCTCCTATCCTAACGGCAAGCCGCATATCGGCCATGCCTATGAGTTGATTGCGACGGACGCCATGGCACGCTTTCAGCGCCTGGATGGAATGGATGTGTTCTTCCTGACCGGCACCGACGAACACGGCCAGAAGATGCAGCAGACGGCGCGGGCGGAGGGTATTTCGCCGGAAGAACTGGCTGCGCGCAATTCCGACCAGTTCCGCGCAATGGGCAAGTTGCTCAACGCCTCGAACGACGATTTCATCCGCACCACGGAAGAGCGTCACCACGAGACCTCGCGCAATATCTGGAACCTGATGGCCGACAGCGGCGACATCTACAAGGACAGCTATGCCGGCTGGTATTCCGTGCGCGACGAGGCCTATTACGCCGAGGACGAGACGGAAGTGCGCGCTGACGGCGTTCGTTATGGGCCGCAGGGCACGCCGGTCGAGTGGGTGGAGGAGGAAAGCTACTTCTTCAAGCTCTCCGAATATCAGGACAAGCTGCTGAAGCTCTATGAGGAGAACCCGGAGTTCATCGGTCCGGCGGAGCGACGCAACGAAATCATCTCCTTCGTCAAATCCGGCCTCAAGGACCTGTCGATTTCCCGCACCACCTTCGACTGGGGCATCAAGGTTCCGAACGACCCCAAACACGTCATGTATGTCTGGGTCGATGCGCTGACCAACTACATCACCGCCACGGGTTACATCGAAGACAGGAACGGCCCGCGCGCCAAATATTGGCCCGCCAACGTGCATATCATCGGCAAGGACATTATCCGCTTCCACGCGGTCTATTGGCCGGCTTTCCTGATGAGCGCGAAGCTGCCGTTGCCCAAGCGGGTCTATGCGCATGGCTTCCTGCTCAACAAGGGCGAGAAGATGTCGAAGTCGCTCGGCAATGTCGTCGATCCCGCCAATCTGGTGAACCATTTCGGTCTCGATCAGGTCCGCTATTTCTTCCTGCGCGAAGTCTCCTTCGGACAGGACGGCAGCTATAGCGAAGAGGGCATCGCCACCCGCATCAATGCCGATCTTGCCAATGGTATCGGCAATCTCGCCAGCCGTTCGCTGTCGATGATCGTCAAGAATTGTGACGGCCAGATTCCGACGCCCGGTGAGTTCACCGAAGAAGACAAGGCGATGCTGGCTTCCGCCGACGGGCTGCTGGCGCTCTGCCGCGAGGAAATGGGCAAGCAGCTCATCCACCGCGCGCTTGCGGCCATCATCGCCGTTGTCTCGGAAACCGACCGCTATTTTGCCTCTCAGGAGCCGTGGGCACTGAAGAAGACCGATCCCGAGCGCATGGGCACCGTGCTTTACGTCACGGCGGAAGTGGTGCGCCAGATCGGCATTCTCCTGCAGCCCTTTATGCCGGAATCCTGCGAGAAGCTGCTGGATCTCGTTGCTGCCCCTGCCGACAAACGTGATTTTGCAGCACTCGGCGAAGCGAGCCGTCTGGTTCCGGGCACGCCGCTGGAAGCACCGAAGCCGGTCTTCCCGCGTTACGTCGCACCGGAAGCGTGA	MTDKTPFYITTAISYPNGKPHIGHAYELIATDAMARFQRLDGMDVFFLTGTDEHGQKMQQTARAEGISPEELAARNSDQFRAMGKLLNASNDDFIRTTEERHHETSRNIWNLMADSGDIYKDSYAGWYSVRDEAYYAEDETEVRADGVRYGPQGTPVEWVEEESYFFKLSEYQDKLLKLYEENPEFIGPAERRNEIISFVKSGLKDLSISRTTFDWGIKVPNDPKHVMYVWVDALTNYITATGYIEDRNGPRAKYWPANVHIIGKDIIRFHAVYWPAFLMSAKLPLPKRVYAHGFLLNKGEKMSKSLGNVVDPANLVNHFGLDQVRYFFLREVSFGQDGSYSEEGIATRINADLANGIGNLASRSLSMIVKNCDGQIPTPGEFTEEDKAMLASADGLLALCREEMGKQLIHRALAAIIAVVSETDRYFASQEPWALKKTDPERMGTVLYVTAEVVRQIGILLQPFMPESCEKLLDLVAAPADKRDFAALGEASRLVPGTPLEAPKPVFPRYVAPEA				NA	NA	NA	NA	NA
BMS010_05331	1026	dnaX	COG2812	DNA polymerase III subunit tau	ATGAGTGAGGTTCAGGGCGTTCTCGACGGTGCGATTGCGCCGCAGCAGAACACGAAGCTTTTCGGACATGAGGAAGCGGAAGCCTTCCTCGCGCAATCCTATCGTTCCGGCAAGGGCCATCATGCCATTCTGATCGAAGGGCCGGAGGGGATCGGCAAGGCGACGCTTGCCTTCCGTTTCGCCAATCATGTGCTCAGCTATCCCGATCCGTCGCTGGCGCCGGATTTTCTCGCCGATCCCGATCCGCAATCGCTGGTCAGCCGGCAGATCACCGCAGGCGCCTCGCACAATCTGCTGCATCTGACCCGTCCGGTGGATGAAAAGACCGGCCGTGTGAAATCCGCCATTACGGTGGACGAGGTGCGGAGGGCAGGGCACTTCTTTTCGCAGACCTCCGGCACCGGCAACTGGCGCATCGTCATCATCGATCCCGCCGACGATCTCAATCGCAACGCCGCGAATGCGATCCTCAAAATACTGGAGGAGCCGCCGAAACGGGCGATGTTCCTCGTTCTCTCGCACGCGCCGGGAAAATTGCTGCCGACCATCCGTTCGCGCTGTATGCCGTTGAGGCTCCTGCCGCTTTCCGATGCAGCCATGGTGCAATCTCTCGATCATCTTGGCATCAGCCCGGAAGGCGAAAAACGCGACGCCCTGCTTGCCGCCTCCAAGGGCAGCGTGGCGCAGGCGCTGAAGCTGATGAATTACGGCGGCTCCGACATTGTCGAAGCCTTTGCGGAGGTCATGGCTTCCGAAGGGCCCGGCGTGCGCAAGCAGATGCACAAGCTTGCCGAGGTTCTGGCACAGAAGGATGGCGACATCGTTCTCGGCTTCTTCATGGAGCATGTGACGGAAGAACTGATGGAACGCGCAAGGGCGGCGGCGATGGCGGGCGATATCGCGGCGGCGGAAAAACATGCACGGCTTTCCTCGGCGCTCTCGGAACGCATCACCGTGGCGCAGGCCTATAATCTCGACAAGAAGCAGATGGTGCTTTCCATTCTGGAAGATATCCGCTCGGTTTAG	MSEVQGVLDGAIAPQQNTKLFGHEEAEAFLAQSYRSGKGHHAILIEGPEGIGKATLAFRFANHVLSYPDPSLAPDFLADPDPQSLVSRQITAGASHNLLHLTRPVDEKTGRVKSAITVDEVRRAGHFFSQTSGTGNWRIVIIDPADDLNRNAANAILKILEEPPKRAMFLVLSHAPGKLLPTIRSRCMPLRLLPLSDAAMVQSLDHLGISPEGEKRDALLAASKGSVAQALKLMNYGGSDIVEAFAEVMASEGPGVRKQMHKLAEVLAQKDGDIVLGFFMEHVTEELMERARAAAMAGDIAAAEKHARLSSALSERITVAQAYNLDKKQMVLSILEDIRSV				NA	NA	NA	NA	NA
BMS010_05332	675	tmk_1	COG0125	Thymidylate kinase	TTGGCCGAAAAGACCGGATTGTTCATCAGCTTCGAAGGTGGCGAAGGCGCCGGCAAGTCGACGCAGATTCGCACGCTTGCCGAGGCGCTTCGCGGCCGTGGTTTCGAGGTGGTCGTGACGCGTGAGCCGGGCGGCTCTCCGGGTGCGGAGGCCGTTCGGCATGTTCTGCTCTCGGGTGCTGCCGAATCCTTTGGGGTGCGCATGGAAGCGATCCTGTTTGCGGCGGCGCGCAACGACCATGTCGAAGAGGTCATTCGCCCGGCGCTTGCGCGCGGTGAGATCGTGCTCTGCGACCGGTTCCTCGATTCGTCCCGCGTCTATCAGGGCACGACCGGCAATCTGGAGCCGGATTTCATCGAGACGTTGCAACGTATCGCCATTGACGGTGTCGTGCCGGAACTGACGCTGATTTTCGATATTGCCGCCGAAAAGGGGCTCGCCCGGGCCAGAAAGCGCGCGGATGAAGGCGCTGCGCCGGACCGGTTCGAAAAAGAGGAAATCGAGACCCACGAGAAGCGGCGTGAGGCCTATCTGGATATTGCGCTCGCCGAGCCGCGTCGTTGCCGGATCGTCAACGCCGATCAGCCGGAAGAAAAAGTGGCGGAGGATGTCATGTCCTTCGTCGCACCCTTGCTCGAACAGCTGAAAACAGCAGCGGGCGCGGCGCATGAGTGA	MAEKTGLFISFEGGEGAGKSTQIRTLAEALRGRGFEVVVTREPGGSPGAEAVRHVLLSGAAESFGVRMEAILFAAARNDHVEEVIRPALARGEIVLCDRFLDSSRVYQGTTGNLEPDFIETLQRIAIDGVVPELTLIFDIAAEKGLARARKRADEGAAPDRFEKEEIETHEKRREAYLDIALAEPRRCRIVNADQPEEKVAEDVMSFVAPLLEQLKTAAGAAHE	PGPT0021395_1193	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021395-tmk-K00943	NA	NA
BMS010_05333	1173	dacD	COG1686	D-alanyl-D-alanine carboxypeptidase DacD	ATGCGCAAGGCCATTCATCGCTCCTATCGTTCGGTCGCCGTAGCGGCAGCGTTTGCGTTTTTCAGTGCAGGCCCGGTGCAATCGCAGACCGGCCCCTTCATCGCAAAGGCTGAACAGGCTTACATGATCGATGCCGAAACCGGCACGGTGCTTCTTTCGCAAAACGAGAATCAACCTTTTCCGCCCGCGTCGCTTGCCAAGCTGATGACGGTGGAAGTGGTGCTGGATGCGCTGTCAAAGGGGCAGGTCACGTCAGAGACGGCTTATCCGGTCTCCGAATATGCCTGGCGCACGGGCGGCGCGCCCTCGCGCACCTCGACCATGTTCGCGGCGCTGAAATCCTCCGTCAGCATCAACGATCTTTTGACCGGCATCATTGTGCAGAACGCCAATGACGGCTGCATCGTCGTTGCCGAAGGCATGGCGGGTTCGGATGCCGCTTTCGCCAAGCGCATGACGGCGCGGGCGGGCGAACTGGGCATGAGCAGCAGCACCTTCACCAATTCGACCGGGCTTCCCGACCCCGGCAACCGGACGACCGTGAAGGACATGGTGCGTCTCGCGCAGCATCTGCGCGATACCTATCCGGAGCGTTACGGGCTTTTCACCAAACCGGATTTCGAATGGAACCGGATTTTCCAGCGCAACAAGAATACGCTGCTGATGCCCGGCAGCGGTATCGACGGTCTCGGTCTCGGTTTTGCGGAAGGCAGCGGTTTCGCCGCTGTCGTTTCGGCGGAGCGGGAAGGCCGCCGGGTCTATCTGGCGCTTGCCGGCATCGTGGACGACAAGACGCGGCAGGAGGAGGCCCGCCGGGTGGTGGACTGGGGCCTGACCGCCTTTGAAAAACGCCATCTCTTCAGCAAGGATGAAGCGGTTGGGTCCGTCAGCGTTTATGGCGGCGATGTTTCGCATATCGATCTTTCGCCGAAGGAAGATGTCAGCGTGCTTGTACCGGTCAATAATCCGGATCGTATTTCCGGCCGCATCGTCTATCGCTGGCCCCTGAATGCGCCGCTGGACGTCGGGGCAAATGCCGGAACGCTTAAGATTTTTTCGGGCGAGCGCCTGTTGCGGGAGGTGCCGCTTTATACGAAGGCGGCAGTTGGCAAGGGGTCGCTCACCCAGAATGCGACAGGTGCGCTTAAGGAACTGCTGCTGTTCTGGCTCTGA	MRKAIHRSYRSVAVAAAFAFFSAGPVQSQTGPFIAKAEQAYMIDAETGTVLLSQNENQPFPPASLAKLMTVEVVLDALSKGQVTSETAYPVSEYAWRTGGAPSRTSTMFAALKSSVSINDLLTGIIVQNANDGCIVVAEGMAGSDAAFAKRMTARAGELGMSSSTFTNSTGLPDPGNRTTVKDMVRLAQHLRDTYPERYGLFTKPDFEWNRIFQRNKNTLLMPGSGIDGLGLGFAEGSGFAAVVSAEREGRRVYLALAGIVDDKTRQEEARRVVDWGLTAFEKRHLFSKDEAVGSVSVYGGDVSHIDLSPKEDVSVLVPVNNPDRISGRIVYRWPLNAPLDVGANAGTLKIFSGERLLREVPLYTKAAVGKGSLTQNATGALKELLLFWL	PGPT0024040_3768	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024040-dacC|dacA|dacD-K07258	NA	NA
BMS010_05334	1044	rlpA_3		Endolytic peptidoglycan transglycosylase RlpA	GTGAAGTGGCTTGCAATTTCCGTGCTTTGCGCCGCAACCGCATCGTGTTCCACGACATCCGAGACCAAGCCCAAGCCCAAGCGCAGCAAGGAATATTTTTCCGAATCCGAATATGGCGTCAAAGCCAGTCCGCGTGTGGCCGATGGCAAGGCCATTCCCAAGGGCGGCGGGCGAGAGCTGATCGGCAATGCCTATACCGTCAAGGGCCGCCGTTATTTTCCGAAGGAAGAGCCGGGTTACAACAAGACCGGCCTTGCTTCCTGGTACGGTTCCGCCTTCCATGGCCGCCTGACCGCCAATGGCGAAGTCTACGACAAAGAACATCTTTCTGCCGCACATCCGACATTTCCCCTGCCGAGCTACGCGCGCATCACCAACATGGAAAATGGCGCTTCGGTTCTGGTGCGCGTCAACGATCGCGGACCGTTCCACGAAGGCCGCCTGATCGACGTTTCCAGCAAGACGGCCGATCTTCTCGACATGAAGGCCACCGGCACGGCCAATGTGCGGGTACAATATGCCGGTCGCGCACCGCTTGATGGTCACGACATGCCTTATCTGATGGCATCCTATATTCCGAAGGGTTCGCGTTCGCCAAGTGTAGCGCCCGAAGGGCAGATCGCGACGGGCGTGATGGTGGCTTCGGCCTCGCCGAATTTCGTTCCGGCGCCCGCGTCCAACCCGAATTATGCCGGCTCCACACAGACGGCGCTCGTCGGTTCCAAGAAGAATGCGGCGCTTCAGGCCATGCCGCTGGTCAACGGCCCGGCGCCGGCTTTCGAGCAGTTCGCGATCCTGCCGGAAATCGGCCCTATCCTGGCGGAGCGCCCGGAAGGCAATTTCATGCGTGAGCCGGCGGCACCCGGCGGCAATTATCTGCGCGTGCCGACGCCTTCCTCCAAATTTGCTGCGGCCTATTCCGAAGAATCGGCTACGGTCTCCAGGACCGCGAGCGCCTTCGACAGCGTGCTCGTCGACCGTGGCGCGCTCAACGAACAATCGATACTCGCCCATGTGAAGCGTCAGCAGGCGAAGTCGCGCTGA	MKWLAISVLCAATASCSTTSETKPKPKRSKEYFSESEYGVKASPRVADGKAIPKGGGRELIGNAYTVKGRRYFPKEEPGYNKTGLASWYGSAFHGRLTANGEVYDKEHLSAAHPTFPLPSYARITNMENGASVLVRVNDRGPFHEGRLIDVSSKTADLLDMKATGTANVRVQYAGRAPLDGHDMPYLMASYIPKGSRSPSVAPEGQIATGVMVASASPNFVPAPASNPNYAGSTQTALVGSKKNAALQAMPLVNGPAPAFEQFAILPEIGPILAERPEGNFMREPAAPGGNYLRVPTPSSKFAAAYSEESATVSRTASAFDSVLVDRGALNEQSILAHVKRQQAKSR	PGPT0024465_512	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024465-rlpA-K03642	NA	NA
BMS010_05335	339			hypothetical protein	ATGATCAAGCTTATGAAAACCACAGCTCTTGCGATGGGCATCGCCCTGGTATCCTTCGCCGCGCCGATCCCCGCAGGTGCGCAGGACATGGAACTCAGAATCGGCCCCGACGGCGTTCGCCCCGTCATCCGCGATCGTGACCGCGACGTAGACCGCCGCGGCCCGCCCCGCATGCGTGGCTGCAGCGAACGCGAAGCCCGCGCTGCCGCCCGTGAAGCAGGCCTGCGCGATCCAGAGGTCGTGCGCGTCACACCTGGTCGTGTCGTCGTCGAAGGCTTCACGCGCCGGGGACCGGATCGCATCACCTTCGCCAACGAACGGGGCTGCCCGGAAATCTGA	MIKLMKTTALAMGIALVSFAAPIPAGAQDMELRIGPDGVRPVIRDRDRDVDRRGPPRMRGCSEREARAAAREAGLRDPEVVRVTPGRVVVEGFTRRGPDRITFANERGCPEI				NA	NA	NA	NA	NA
BMS010_05337	153			hypothetical protein	ATGGATAAATCGGGAATCCTTTTCGTGGCGCTTTTGTTGGTGCTTGTCGCAATCGTTTTGAGCCTGACGCTATTCGATACGGCTCAGCAGGTGCCCTCGATACCTTCAGGCGACGGATCCCTGCTGCCGCCGGCAACGACCCCGGGGCAATGA	MDKSGILFVALLLVLVAIVLSLTLFDTAQQVPSIPSGDGSLLPPATTPGQ				NA	NA	NA	NA	NA
BMS010_05338	228			hypothetical protein	ATGACTTTACCGCAACAACCGAACGGAGCGCCGCAAAGGCGCAAGCCGATCTGGCCGTGGATCGTGCTTCTGGTGCTGACGCTCTCAGCCATCTACTCCTATAATCGCGCCAACGAAATCATCGCCGAATTGTCCGAGACCTTGCCGCCGGCGCTGCTGAACCTGTTCGAAGATATCCTCAGGGGTGACGGCCGGCATGGCAATGGCGGGCCGAGCATCGGCGTCTGA	MTLPQQPNGAPQRRKPIWPWIVLLVLTLSAIYSYNRANEIIAELSETLPPALLNLFEDILRGDGRHGNGGPSIGV				NA	NA	NA	NA	NA
BMS010_05339	264			hypothetical protein	ATGGCAGCGCGCGACAGATATTCCCGGAAGCTCGAATGTTCCAGATGTGGTCATCAGGGTTTTGCCGAAGCGTCGGAATCGGATGACAAGAGCCGCCGGGACGTCGATTTTCGCATCGATGAAATGCCGCGTGGATTTCGCGCGGAGCGCGCCTCGGGCGATCCGACGGATTTCATGATCCGCTGCGCCCAGTGCGGCAATATATTCCGTTTCCTGCAGAAAACCGCCTATGCGCCCGGAGGCGAGCCGCGCGTGAAGGCCTGA	MAARDRYSRKLECSRCGHQGFAEASESDDKSRRDVDFRIDEMPRGFRAERASGDPTDFMIRCAQCGNIFRFLQKTAYAPGGEPRVKA				NA	NA	NA	NA	NA
BMS010_05340	720			hypothetical protein	ATGAACGACCAGAAACCCCTGCTTTCATCGTCACTCATGTTCCGGGCCGCTCTCATCGCCGGAATTCTTCTCGTCTTTCTCGGCCTCCTCAACGTCGGCATCAAATGGTATGGCGAGCGGATTCTCCAGGCGGGCCATACGACGGCCACCGAGGAGGTTGAGATCGTCATCGGCAACGACCGGCTGAAGCTTGCCAAAAACACCCTTCGGGCGCCTTCCGAGCGCCTCGGCGGAGAACGCGAGCGCGTCGACCTTTATCTGAGCTGGCCTGACCTCAAGGGTTACGAGGAAGCGAATCGCGCCGTCTTCGACGATCCGGCGCAGGCGGCAGGGCTGATCTTCATCCAGCTTTCGCAAAGCACCATGTCCGAGGACATGTCCGGTCGTTTCGGGCCGATCTATTCGCGGCTGACGGAGGGAGAGCCCGTGCCGCTGAAGCACGGCTTGCTGCTGCACCGCCTGCGCGCCGATTCCGGTTACGGCAAGGAAGTGATATTGACCGGCGAGCGCGAAGGCCAAAGCGCCTATGTGGTGCGCTGCCTGCTGCCGCAAACGCCGCAGGCGGCCACCGGCAGCGATTGCCAGAGGGATATTCACGCCGGACAGGACCTCAGCCTGTTCTACCGTTTCTCCTCCGCCCTGCTGCCACAATGGCAAAAGCTCGACGCGGATGTAAAAAACTATATCGAGCGCCGCCTCGTAAAAGACGGAAATCGGTGA	MNDQKPLLSSSLMFRAALIAGILLVFLGLLNVGIKWYGERILQAGHTTATEEVEIVIGNDRLKLAKNTLRAPSERLGGERERVDLYLSWPDLKGYEEANRAVFDDPAQAAGLIFIQLSQSTMSEDMSGRFGPIYSRLTEGEPVPLKHGLLLHRLRADSGYGKEVILTGEREGQSAYVVRCLLPQTPQAATGSDCQRDIHAGQDLSLFYRFSSALLPQWQKLDADVKNYIERRLVKDGNR				NA	NA	NA	NA	NA
BMS010_05341	1494			hypothetical protein	ATGCGATTGAAGAGTTCAGCAGTGTTGAAAAGTCTATCTGGGGCACATTCGCGCAAAGCGGGTGCGACGTCTTTCGTAAGGTTTATTGCGCTAACCCTTGCTGCGGCGTTCATAACCGCAACATCCGTTCAGACCGCAAAGGCCGATCCGAAATATGCGGGCATCGTCATCGATGCCAAGACCGGCAAGGTCCTCTATGGCGAGGATCCGGACGGGCTGCGTTATCCGGCTTCGCTGACGAAGATGATGACGCTTTATCTGACATTCGAAGCGCTCAATACCGGACGTATCTCACTCGATTCCAGGGTGCCGGTGTCAGCCAACGCCGCCAAGGAGCCGCCATCCAAGCTCGGCGTGCGCGCCGGCGGCAGCATCACTGTGGAACAGGCTATCCTTGCACTCGTCACCCGGTCCGCAAATGACATGGCAACCGCGCTCGGCGAATATCTCGGCGGCTCGGAAGACCGTTTCGCCAGAATGATGACCGCCAAGGCCCGCGCACTCGGCATGACCCGCACGACCTATCGCAACGCCAACGGCCTGCCCAACACGGCGCAGATGACGACGGCACGCGACCAGGCCCGTCTCGGCGTCGCGCTTCGCCAGCATTTCCCGCAATATTACGGCTATTTCTCCACCCGCACCTTCAATTTCGGCAAGCAGGTTATCGGCAACCATAACCGCCTCGTCGGAACCGTGAAGGGTGTGGATGGCATCAAGACCGGTTATACCCGTGCAGCCGGCAGCAACCTTGCCACATCGGCTCAGCTGGACGGTCGCTCCATCGTCGCCGTCGTTCTCGGCGGCCGCTCCAGCGCTGCCCGTGACGCCACCATGCGCAAGCTTGTTGCAACCTACCTGCCGCAGGCATCGCGTGGCGGCAACAGCAACCTGATCGCGCAGACCCGCTCAGCGCCAGTCGAAGAGCCCGTCGCCGTAGCGGCTGCTGTTCCGTCCGTCGCAGTTGCAGCAACCGCAGCCGGCCTGCCCAATTCCGGTCCGGTGCCGCAGACCCGTTACGAAGAAGCCCCGGTCACCGCCTTCGCAGGCTCCTCTTCCAATGCAGCCGTCAAGGCCATGGAAGCCGCCACGTGGCAAAAGGGCAAGGATCCAATCAATCAGGCGCCCGCTGCACCGGACCGCAAGTTGATCACCAATTCGACCAAGGTGGACAATATCGTCACCGCGTCCACCACGGCGCCTGTTGTCTCCGCCCCTTCGGTTTCGGCCAGGTCCGAGGCTCCGCAGGGCGGCTGGGTCATCCAGATCGGTGCATCTCCCGATGAGAACTCCGCGCGCGGCCTGTTGCAGAACGCGCAGGAAAAGGGCGGCGCGGCACTGCGCTCCGCAAAACCCTTCACGGTCGCCTTCAGCAAGGACGGCTCCCAGATCTACCGCGCCCGTTTCGGCGGCTTCGATGGCCAGAACGCCGCGGTGAATGCATGCAATGCATTGAAAAAGAAAGGCGTCAGCTGCTGGGCGTCACTCCAGTAA	MRLKSSAVLKSLSGAHSRKAGATSFVRFIALTLAAAFITATSVQTAKADPKYAGIVIDAKTGKVLYGEDPDGLRYPASLTKMMTLYLTFEALNTGRISLDSRVPVSANAAKEPPSKLGVRAGGSITVEQAILALVTRSANDMATALGEYLGGSEDRFARMMTAKARALGMTRTTYRNANGLPNTAQMTTARDQARLGVALRQHFPQYYGYFSTRTFNFGKQVIGNHNRLVGTVKGVDGIKTGYTRAAGSNLATSAQLDGRSIVAVVLGGRSSAARDATMRKLVATYLPQASRGGNSNLIAQTRSAPVEEPVAVAAAVPSVAVAATAAGLPNSGPVPQTRYEEAPVTAFAGSSSNAAVKAMEAATWQKGKDPINQAPAAPDRKLITNSTKVDNIVTASTTAPVVSAPSVSARSEAPQGGWVIQIGASPDENSARGLLQNAQEKGGAALRSAKPFTVAFSKDGSQIYRARFGGFDGQNAAVNACNALKKKGVSCWASLQ	PGPT0024040_548	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024040-dacC|dacA|dacD-K07258	NA	NA
BMS010_05342	261			hypothetical protein	ATGGCAGTCAACGAGAATTATTCGGACATTGCGTCTGGCAACGGGCATGGCAGCCTGTCGGTTCTGCATCCCATTCACGAGGCGGCGATGCGTATCGCCGATCTCGGTCTTAATCGTTCCAAGGCGAAGACACGCGATCTCGTGGCGCTGCTTCTGTCGCATGGCGCCCGCGCCTGGCGCTCCAACCAGCCGGAAGCGAACATCCACCTTCATGTCGCGAGCCGCTCGGGTCGCGCTCCGGTCCATATTCGCATTCGCTGA	MAVNENYSDIASGNGHGSLSVLHPIHEAAMRIADLGLNRSKAKTRDLVALLLSHGARAWRSNQPEANIHLHVASRSGRAPVHIRIR				NA	NA	NA	NA	NA
BMS010_05343	2730	gyrA_2	COG0188	DNA gyrase subunit A	ATGGAGGAAATGCAGCGGTCGTATCTCGATTACGCCATGAGCGTCATCGTGTCCCGCGCGCTTCCCGATGTGCGAGACGGCCTGAAGCCGGTTCATCGCCGTATTCTTTACGGCATGTCCGAACTCGGCATCGACTGGAACAAGAAATACGTCAAATGCGCCCGCGTTACCGGGGACGTGATGGGTAAATTCCATCCGCACGGCAATGCGGCGATCTATGACGCTTTGGCGCGTATGGCGCAGGACTGGTCGCTCCGCCTGCCGCTGATCGACGGGCAGGGCAATTTCGGCTCCATCGACGGCGATCCGCCGGCGGCAGAACGTTATACCGAATGCCGTCTGGAAAAGGCCGCCCATTCGCTGCTCGACGATCTCGACAAGGAAACGGTCGATTTCCGCGACAACTATGACGGCACCCTGCAGGAGCCGGTCGTCATTCCGGCGAAGTTCCCGAACCTTCTGGTCAACGGGGCAGGCGGCATCGCGGTCGGCATGGCCACCAATATTCCGCCGCACAATCTCTCGGAAGTCATCGACGGCTGTATCGCCATGATCGACAATCCGGCGATCGAGCTGCCGGAGCTGATGCAGATCATTCCCGGCCCGGATTTCCCGACCGGCGCGCTGATCATGGGCCGTTCCGGCATCCGTTCGGCCTATGAGACCGGCCGCGGCTCGGTCATCATGCGCGGCCGCGCCACCATCGAACCGATGCGCGGCGACCGCGAGCAGATCATCATCACCGAAGTTCCCTATCAGGTGAACAAGGCGAACATGATCGAAAAGATGGCCGAACTGGTCAAGGAAAAGCGCATCGAGGGTATTTCCGACCTGCGCGACGAATCCGACCGTCAGGGCTATCGCGTCGTCATCGAATTGAAACGCGACGCCAATGCCGAAGTCATCCTGAACCAGCTTTACCGCTACACGCCGCTGCAGACCTCCTTCGGCTGCAACATGGTGGCGCTGAACGGCGGCAAGCCGGAGCAGATGACGCTCATCGACATGCTGCGCGCCTTCGTGGCCTTCCGCGAGGATGTCGTCAGCCGTCGTACGAAATATCTGCTGCGCAAGGCGCGCGAGCGTGCGCATGTGTTGGTTGGTCTGGCGATTGCGGTTGCCAATATCGATGAGGTCATCCGGGTTATCCGTCATGCGCCCGATCCCGCTTCGGCCCGCGAAGAGCTGATGACGCGGCGCTGGCCGGCGCAGGATGTGGAAAGCCTGATCCGTCTGATCGACGATCCGCGCCACCGCATCAATGAAGACGGCACCTATAATCTCTCGGAAGAGCAGGCCCGCGCCATTCTCGAACTGCGCCTTGCCCGCCTCACGGCGCTTGGCCGCGATGAAATCGGCGACGAGCTGAACAAGATCGGCGCGGAAATTTCCGAGTACCTCGAAATCCTGTCGTCGCGCCTGCGCATCCAGCAGATCGTCAAGGACGAGCTTGTCGCCATCCGCGACGAGTTTGGCACGCCGCGCCGGTCCGAGATCGTCGAGGGCGGTCCCGATATGGACGATGAAGACCTCATCGCCCGCGAGGACATGGTCGTCACCGTTTCGCATCTCGGCTATATCAAGCGCGTGCCGTTGACCACCTACCGGGCGCAGCGTCGCGGCGGCAAGGGCCGTTCCGGCATGGCGACGCGCGACGAGGATTTCGTCAACCGTCTCTTCGTTGCCAATACCCATACGCCGGTGCTGTTCTTCTCCTCGCGTGGCATCGTCTACAAGGAAAAGGTCTGGCGTCTGCCGATCGGTACGCCGCAGTCCAAGGGCAAGGCCCTCATAAACATGCTGCCGCTGGAGCCCGGCGAGCGCATCACCACCATCATGCCGTTGCCCGAGGACGAAACCACCTGGGAAACGCTGGATGTGATGTTCTCGACGACGCGCGGCACGGTTCGCCGCAACAAGCTCGGCGATTTCGTTCAGGTCAACCGCAATGGCAAGATCGCCATGAAGCTGGACGAGGAGGGCGATGAAATCCTCTCCGTCGAAACCTGTACGGACCGCGACGACGTGTTGCTGACGACCGCGCTCGGCCAGTGCATCCGCTTCCCCGTGGACGATGTGCGCGTCTTTGCCGGCCGCAACTCCGTCGGCGTGCGCGGCATCAACATGGCCGAGGGCGACCGCATCATCTCCATGACAATTGTGGGTCATGTGGAAGCTGAACCGTGGGAGCGTGCGGCCTATCTGAAGCGCTCGGCTACCGAACGGCGTGCCGCAGGCGTGGATGAGGACGATATCGCGCTCGTCGGAGAGGAAGTGACGGAAGAGGGCGAACTCAGCGAAGAGCGCTATCAGGAACTGAAGGCACGCGAAGAATTCGTGCTGACGGTTTCGGTGAAGGGCTTCGGCAAGCGTTCCTCTTCTTACGACTTCCGCACCTCTGGTCGCGGCGGCAAGGGCATTCGCGCCACCGATACCTCGAAGACCAACGAGATCGGCGAACTCGTCGCGGCCTTCCCCGTGGAAGAAGGCGACCAGATCATGCTGGTTTCCGATGGCGGTCAGCTCATCCGCGTGCCGGTCAACGGCATCCGCATCGCCAGCCGCGCCACCAAGGGTGTGACGATCTTCTCTACCGCCAAGGATGAGAAGGTGGTTTCCGTGGAGCGCATCAACGAGCCGGAAGGCGACGACGAAGCAGAGAACGGCAATGGCGAAGATGCCGCCGACAATCTGCCGGATACGCCGGAGGCACCGGAGAGCGAGGCGTAA	MEEMQRSYLDYAMSVIVSRALPDVRDGLKPVHRRILYGMSELGIDWNKKYVKCARVTGDVMGKFHPHGNAAIYDALARMAQDWSLRLPLIDGQGNFGSIDGDPPAAERYTECRLEKAAHSLLDDLDKETVDFRDNYDGTLQEPVVIPAKFPNLLVNGAGGIAVGMATNIPPHNLSEVIDGCIAMIDNPAIELPELMQIIPGPDFPTGALIMGRSGIRSAYETGRGSVIMRGRATIEPMRGDREQIIITEVPYQVNKANMIEKMAELVKEKRIEGISDLRDESDRQGYRVVIELKRDANAEVILNQLYRYTPLQTSFGCNMVALNGGKPEQMTLIDMLRAFVAFREDVVSRRTKYLLRKARERAHVLVGLAIAVANIDEVIRVIRHAPDPASAREELMTRRWPAQDVESLIRLIDDPRHRINEDGTYNLSEEQARAILELRLARLTALGRDEIGDELNKIGAEISEYLEILSSRLRIQQIVKDELVAIRDEFGTPRRSEIVEGGPDMDDEDLIAREDMVVTVSHLGYIKRVPLTTYRAQRRGGKGRSGMATRDEDFVNRLFVANTHTPVLFFSSRGIVYKEKVWRLPIGTPQSKGKALINMLPLEPGERITTIMPLPEDETTWETLDVMFSTTRGTVRRNKLGDFVQVNRNGKIAMKLDEEGDEILSVETCTDRDDVLLTTALGQCIRFPVDDVRVFAGRNSVGVRGINMAEGDRIISMTIVGHVEAEPWERAAYLKRSATERRAAGVDEDDIALVGEEVTEEGELSEERYQELKAREEFVLTVSVKGFGKRSSSYDFRTSGRGGKGIRATDTSKTNEIGELVAAFPVEEGDQIMLVSDGGQLIRVPVNGIRIASRATKGVTIFSTAKDEKVVSVERINEPEGDDEAENGNGEDAADNLPDTPEAPESEA				NA	NA	NA	NA	NA
BMS010_05344	630			hypothetical protein	ATGGCCAGCAGCGAAACGCTCATCAACGCGCTTACCACACTTCTGGTCACGCTCGATCCGCCGGGCCTTGCCCCCGTCTTTCTGGCGCTGACCGCCGGTATGACGCGCGACCAGCGCAGCCAGGTGGCGCTGCGCGGCTCCATCATCGCCTTCGGCATTCTCGCCGTCTTCGCGCTCTTCGGCCTTGCCATCCTCAATCTTCTTGGCATCTCGCTCGGCGCTTTCCGCATCGCCGGCGGCCTGTTGCTGTTCTGGATTTCCTTCGAGATGATTTTCGAAAAACGCCAGGAGCGTAAGGAAAAGACCTCCGAGATCGCCATCACCAAGGACCACCTTCACAATCTGGCGGTCTTTCCGCTGGCGCTGCCCCTGATCGCCGGGCCGGGCGCCATCTCCGCAACCGTGCTACTTGCCGGCTCGATGAAAACCACCGTCGAGATGCTGGTGCTCATCCTGATCCTCGCTTTCGCCATGGCTCTCGTTTATGCGGCCCTGATCGTCTCGGAGCGGATGGACCGTTTTCTCGGCAATACCGGCCGCGCGATCCTCACCCGTCTGCTCGGCGTGCTGCTTGCCGCCCTTTCCGTGCAGTTCGTGGTCGACGGCATAAAATCGGCCTTCGCTTTTTGA	MASSETLINALTTLLVTLDPPGLAPVFLALTAGMTRDQRSQVALRGSIIAFGILAVFALFGLAILNLLGISLGAFRIAGGLLLFWISFEMIFEKRQERKEKTSEIAITKDHLHNLAVFPLALPLIAGPGAISATVLLAGSMKTTVEMLVLILILAFAMALVYAALIVSERMDRFLGNTGRAILTRLLGVLLAALSVQFVVDGIKSAFAF	PGPT0029250_1562	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIPLE_ANTIBIOTIC_RESISTANCE,PGPT0029250-marC-K05595	NA	NA
BMS010_05345	1149	IMPDH_1		Inosine-5'-monophosphate dehydrogenase	ATGCGTTCCACGCTGCGTCGCCTCATCCCGGATGCCGCACCCGTCAGCAACAGGGAAAGGCTGCGCTCCGCAACCGGCGCCTTTGTCGGCATTCTGCTGACCGGCCTTCTGGGAAGTCTCGCTCTCAGTTTCGATCCCACCCTGCCCGCCATGATCGCGCCGATGGGCGCTTCGGCCGTGCTTCTGTTTGCCGTGCCCTCCAGCCCGCTGGCGCAGCCCTGGTCGATCCTCTGCGGCAACCTCGTTTCGGCCTTCGTGGGCGTGACAGTGGCGCTGCTGGTTCCGGATCTATTCCTTGCCAGCGCGCTTGCCATCAGTCTTGCCATCGCCGCGATGATGGCTTTGCGCTGCCTGCACCCGCCAAGCGGAGCGGTGGCGCTCACCGCCGTTCTCGGCGGCCCTGCCGTGCACAGCCTCGGTTATGGTTTCCTGCTGTGGCCCGTCGCCGGAAATTCGCTGATCCTTCTTGCCTTGGCCCTCGCCTATAACAATGCCACCGGCCGCGCCTACCCACACGGCCTGAAGCTCGGCAAGGCCTCCCATGGCACCACCGATCCGACCCCCATCCAGAAAATCGGCTTTTCCTCCAACGACCTCGACGAGGTGCTGAAGGAATATGACCAGGTCCTGGATATCGACCGCGACGAGCTCGAAACCATTTTACGCAAGACCGAACTGCGCTCCTGGCGTCGCCGTGCGCTGCATCTCGATTGCGCCAGCGTCATGTCGCGCGATGTCGTCGGTGTTGCGCCTGATGACAGTCTGCGCCATGCCCACGCGCTGATGCACAGCCACCATTTCAAGGCATTGCCGGTCACCAACGATAAAGCGGAGATCGTCGGCATCGTCACCCAGACGGATTTTCTGGAAAAGGCGAGCTGGAGAAACGGCCGCCCCTCCATTGGTTTCCTGCAGCGGCTGCGCCTCATCCTCTCCGGCGCAAGCGCCCCCAACGATACCGTCAAGGACATCATGACATCGCCGGTCAGAACCGTACGGCCTGAAACGGCAATCGAGGAGGCCATCATCCGCTTTGCCGAAGAAGGACTGCACTACCTGCCGGTCATCGACGCCAGGGGCAAGATGGTGGGAATCGTGTCGCAATCCGATGTCATGGTGGCGATGCTGGCGGACAAGGTGGCGGCATAG	MRSTLRRLIPDAAPVSNRERLRSATGAFVGILLTGLLGSLALSFDPTLPAMIAPMGASAVLLFAVPSSPLAQPWSILCGNLVSAFVGVTVALLVPDLFLASALAISLAIAAMMALRCLHPPSGAVALTAVLGGPAVHSLGYGFLLWPVAGNSLILLALALAYNNATGRAYPHGLKLGKASHGTTDPTPIQKIGFSSNDLDEVLKEYDQVLDIDRDELETILRKTELRSWRRRALHLDCASVMSRDVVGVAPDDSLRHAHALMHSHHFKALPVTNDKAEIVGIVTQTDFLEKASWRNGRPSIGFLQRLRLILSGASAPNDTVKDIMTSPVRTVRPETAIEEAIIRFAEEGLHYLPVIDARGKMVGIVSQSDVMVAMLADKVAA				NA	NA	NA	NA	NA
BMS010_05346	255			hypothetical protein	ATGAGTGATGCGCCCGCACCGAAACAGCCGGCAACCTGGCGCATCGTTCTTGCCTTCTTCCTCGATTTCTGGACGGCGTTTTTCGCCGCCGGATTTCTCGTGGCGGCGGTTGCAGGCGGGCGCACGCCACAGGGGTTTGCCTTGAACGGTGTGCCTGCCTTTATCGCCTTTGTGCTTATCATCGCATATTTTGTCGTGCTCGGCCGGTTCTTCGGCGGCACGCTATGGCAGCGTCTTCTGAAGGCGAGGCGCTAA	MSDAPAPKQPATWRIVLAFFLDFWTAFFAAGFLVAAVAGGRTPQGFALNGVPAFIAFVLIIAYFVVLGRFFGGTLWQRLLKARR				NA	NA	NA	NA	NA
BMS010_05347	534	ssb_2		Single-stranded DNA-binding protein	ATGGCTGGTAGCGTAAACAAGGTAATTCTGATTGGGAACGTGGGCGCCGATCCCGAAATCCGCCGGACGCAGGATGGCCGCCCCATCGCCAATCTGCGCATTGCCACCTCGGAGACCTGGCGGGACCGCAACAGCGGCGAGCGCCGCGAGAAGACCGAATGGCACACCGTCGTCGTCTTCAACGAAGGCCTGTGCAAGGTCGTCGAGCAATATGTCAAGAAGGGCGCCAAGCTCTATATTGAAGGCCAGCTGCAGACGCGCAAATGGCAGGACCAGACCGGTAACGACCGTTATTCAACTGAAATCGTGCTGCAGGGCTTCAACTCCACGCTGACGATGCTCGATGGTCGCGGTGAGGGCGGTGGCCGCAGCAGCGGCGATTTCGGCGGCGGCAACGATTATGGCAGTGGCGGCGGCTCCAGCTATGGCGGCGGTTACGACCAGCAGTCCTCGTCGCGCGGCGGCTCTTCCCGTGGCGGCGGCCAGCCTTCCGGCGGCTTCTCCAACGATATGGATGACGATATTCCGTTCTGA	MAGSVNKVILIGNVGADPEIRRTQDGRPIANLRIATSETWRDRNSGERREKTEWHTVVVFNEGLCKVVEQYVKKGAKLYIEGQLQTRKWQDQTGNDRYSTEIVLQGFNSTLTMLDGRGEGGGRSSGDFGGGNDYGSGGGSSYGGGYDQQSSSRGGSSRGGGQPSGGFSNDMDDDIPF				NA	NA	NA	NA	NA
BMS010_05348	2922	uvrA_2		UvrABC system protein A	ATGAGTGAACTGAAGACGATTTCCATCCGTGGCGCCCGCGAGCATAACCTCAAGGGCATCGATCTGGATTTGCCGCGCAACAAGCTGATCGTCATGACCGGCCTTTCCGGTTCGGGCAAGTCCTCGCTTGCCTTCGATACGATCTATGCCGAAGGCCAGCGCCGTTATGTCGAGAGCCTGTCGGCTTATGCGCGCCAGTTCCTGGAAATGATGCAGAAGCCGGATGTGGACCAGATCGACGGCCTGTCGCCGGCAATCTCCATCGAGCAGAAGACCACATCGCGCAATCCGCGTTCCACGGTCGGCACGGTCACCGAAATCTACGACTATATGCGCCTGCTGTTCGCGCGTGTCGGTGTGCCCTATTCGCCGGCCACGGGCCTGCCGATCGAAAGCCAGACGGTGAGCCAGATGGTCGACCGCATACTCGCTTTCGAGGAAGGCACGCGTCTTTATATTCTCGCGCCGATGGTGCGCGGCCGCAAAGGCGAATATAAAAAGGAACTCGCCGACCTGATGAAGAAGGGCTTCCAGCGCGTCAAGGTGGATGGCCAGTTCTACGAAATCGCCGACGTGCCCGCCCTCGACAAGAAATACAAGCACGATATCGACGTTGTGGTCGACCGTGCGGTGGTGCGCCCGGATATGGCCGCGCGCCTTGCCGACAGTCTCGAGACCTGTCTCAAGCTCGCCGACGGCCTGGCGGTTGCCGAATTCGCCGACAAGCCCCTGCCTCCGGAAGAAACCGCCGCTGGCGGCTCCGCCAACAAGTCGCTGAACGAGACCCATGAGCGGGTGCTGTTTTCGGAAAAATTCGCCTGCCCCGTTTCCGGCTTCACCATTCCGGAAATCGAGCCGCGGCTGTTCTCCTTCAACAATCCCTTCGGCGCCTGCCCAAGCTGCGATGGCCTCGGCTCGCAGCAGAAAGTGGATGAAAACCTGATCGTGCCGGAGCCCGCCCGTACCCTGCGTGACGGCGCCATCGCTCCCTGGGCCAAATCCTCGTCGCCCTATTACAATCAGACGCTGGAAGCGCTCGGCAAGGCTTTCGGCTTCAAGCTGTCGAGCAAGTGGTCGGATCTTTCGAAAGAAGCGCAGCACGCCATTCTTCAGGGCACGGATGACAAGATCGAATTCAACTATCAGGACGGCGCCCGCTCCTACAAGACGGTGAAGAATTTCGAAGGCATCGTGCCCAATCTGGAGCGTCGCTGGAAAGAGACCGACAGCGCCTGGGCGCGCGAGGAAATCGAACGCTACATGTCGGCGGCCCCCTGCCCGGCCTGCGCCGGTTATCGCCTGAAGCCGGAAGCGCTCGCCGTGAAGATCAACAAGCTGCATATCGGTGAAGTCACCGAAATGTCGATCCGCACCGCGCGCGACTGGTTCGAGGTACTGCCGGAAAGCCTCAACGCCAAGCAGAACGAGATCGCAGTCCGCATCCTCAAGGAAATCCGCGAACGCCTGCGCTTCCTCAACGATGTCGGGCTGGATTATCTCAGCCTGTCGCGCAATTCCGGCACGCTTTCCGGCGGTGAAAGCCAGCGCATCCGGCTGGCCTCGCAGATCGGTTCGGGCCTCACCGGCGTTCTCTATGTTCTCGACGAACCGTCGATCGGCCTGCACCAGCGCGACAATGCCCGCCTGCTGGATACGCTGAAACATCTGCGCGATATCGGCAATACCGTCATCGTGGTCGAACATGACGAGGACGCCATTCTGACGGCGGATTATGTGGTCGATATCGGCCCGGCCGCCGGCATTCATGGCGGTCAGGTGATCGCTGAAGGCTCACCGCAGGAGGTGATGGCCAATCCGAAATCGCTGACCGGCAAATATCTCTCCGGCGAACTCGGCGTCGCCGTGCCGGCGGAGCGCCGCAAGCCCAAGAAGGGTCGCGAGATCAAGGTTTTTGGCGCACGCGGCAACAATCTGAAGAATGTCACCGCGGCTGTGCCGCTCGGTGTCTTTACTGCCGTAACCGGCGTATCGGGCGGCGGCAAATCCACCTTCCTGATCGAGACGCTCTACAAGTCGGCGGCGCGTCGGGTGATGGGTGCGCGCGAAATCCCGGCCGAACACGACCGCATCGACGGTTTTGAATTCATCGACAAGGTCATCGATATCGACCAGTCGCCGATTGGCCGCACGCCGCGTTCCAACCCGGCCACCTATACCGGCGCCTTCACGCCGATCCGCGACTGGTTCGCCGGCTTGCCGGAAGCGAAGGCGCGCGGTTATGCGCCGGGCCGTTTCTCCTTCAACGTCAAGGGCGGCCGCTGCGAGGCCTGCCAGGGTGATGGCGTCATCAAGATCGAGATGCACTTCCTGCCTGATGTTTACGTCACCTGCGATGTCTGTCACGGCAAGCGTTACAATCGAGAGACGCTCGATGTCACCTTCAAGGGCAAATCCATTGCCGATGTGCTGGATATGACGGTGGAGGAAGGCGTGGAGTTCTTCGCCGCCGTCCCGGCCGTGCGCGACAAGCTGCAATCGCTGTTCGATGTCGGCCTCGGTTATATCAAGGTCGGCCAGCAGGCCAATACGCTCTCCGGCGGCGAAGCGCAGCGCGTCAAGCTCGCCAAGGAACTGTCGAAACGCTCGACGGGTCGCACGCTCTATATTCTCGACGAACCGACGACCGGCCTGCATTTCCACGACGTCAACAAGCTCCTGGAAATGCTGCATGCGCTGGTCGAGCAGGGCAATTCCGTCGTGGTGATCGAGCATAATCTCGAAGTCATCAAGACGGCTGACTGGATCATCGATATCGGGCCTGAAGGCGGCACGGGCGGCGGTGAAGTGGTGGCGACCGGCACACCGGAGGACATCGTGAAGGTCGAGCGTTCCTATACCGGTCACTTCCTGAAGGAGCTTCTGGAGCGCCGGCCGGCTGGAAAACGGGAGGCTGCGGAGTAA	MSELKTISIRGAREHNLKGIDLDLPRNKLIVMTGLSGSGKSSLAFDTIYAEGQRRYVESLSAYARQFLEMMQKPDVDQIDGLSPAISIEQKTTSRNPRSTVGTVTEIYDYMRLLFARVGVPYSPATGLPIESQTVSQMVDRILAFEEGTRLYILAPMVRGRKGEYKKELADLMKKGFQRVKVDGQFYEIADVPALDKKYKHDIDVVVDRAVVRPDMAARLADSLETCLKLADGLAVAEFADKPLPPEETAAGGSANKSLNETHERVLFSEKFACPVSGFTIPEIEPRLFSFNNPFGACPSCDGLGSQQKVDENLIVPEPARTLRDGAIAPWAKSSSPYYNQTLEALGKAFGFKLSSKWSDLSKEAQHAILQGTDDKIEFNYQDGARSYKTVKNFEGIVPNLERRWKETDSAWAREEIERYMSAAPCPACAGYRLKPEALAVKINKLHIGEVTEMSIRTARDWFEVLPESLNAKQNEIAVRILKEIRERLRFLNDVGLDYLSLSRNSGTLSGGESQRIRLASQIGSGLTGVLYVLDEPSIGLHQRDNARLLDTLKHLRDIGNTVIVVEHDEDAILTADYVVDIGPAAGIHGGQVIAEGSPQEVMANPKSLTGKYLSGELGVAVPAERRKPKKGREIKVFGARGNNLKNVTAAVPLGVFTAVTGVSGGGKSTFLIETLYKSAARRVMGAREIPAEHDRIDGFEFIDKVIDIDQSPIGRTPRSNPATYTGAFTPIRDWFAGLPEAKARGYAPGRFSFNVKGGRCEACQGDGVIKIEMHFLPDVYVTCDVCHGKRYNRETLDVTFKGKSIADVLDMTVEEGVEFFAAVPAVRDKLQSLFDVGLGYIKVGQQANTLSGGEAQRVKLAKELSKRSTGRTLYILDEPTTGLHFHDVNKLLEMLHALVEQGNSVVVIEHNLEVIKTADWIIDIGPEGGTGGGEVVATGTPEDIVKVERSYTGHFLKELLERRPAGKREAAE	PGPT0014915_1505	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014915-uvrA-K03701	NA	NA
BMS010_05349	801			hypothetical protein	ATGTCGACATCAGGCACGATCCGCACCGGTATCGGCGGCTGGACCTTTGAGCCATGGGATGGCACGTTTTATCCCGAAAAACTGCCGAAGAAGCGCCAGTTGGAGCATGCCAGCCGGCAGCTCACGGCCATCGAGGTGAACGGCACCTATTACAGCAGCCAGAAGCCGGAAACTTTTGCAAAATGGGCTTCCGAAGTGCCCGAGGATTTCGTCTTCTCGCTAAAGGCAAGCCGTTTCGTCACCAACCGCAGGGTTCTGGCCGAGGCTGGTGAATCGATGACGAAGTTTCTGACGCAGGGGCTGACGGAACTCGGGTCCCACCTCGGTCCGATCCTCTGGCAATTCGCGCCGACGAAAAAATTCGACGCGGAGGATTTTGGCGCATTTCTGTCCCTGTTACCGGAGAAGCAGGACGGCATCCGTCTTCGCCATGTCGTTGAGGTGCGCAACGAGACATTTCAGGTTCCGGAATTCATCGATCTTCTCGCCAGGTACAAGGTCGCCGTCGTCTGCGCCGATCATCATGACTATCCGATGCTGCCTGATGTGACGGCCGATTTCGTCTATTGCCGCCTGCAGAACGGCGAGGACGATATCAAGAGCTGTTATCCGAAAAAAGAGATCGACCACTGGGCCGAGCGGGTAAAGACCTATGCGAAGGGCGGCGTGCCGGACGATCTGCCGCTGATAGCGCCGGATCGGAAGGTCGAAAAGACACCGCGCGATGTCTTCGCCTTCTTCATCACCGGCGGCAAGGTGAATGCGCCTGTTGGTGCGCAGGAACTGCAAAAGACAGTCTGA	MSTSGTIRTGIGGWTFEPWDGTFYPEKLPKKRQLEHASRQLTAIEVNGTYYSSQKPETFAKWASEVPEDFVFSLKASRFVTNRRVLAEAGESMTKFLTQGLTELGSHLGPILWQFAPTKKFDAEDFGAFLSLLPEKQDGIRLRHVVEVRNETFQVPEFIDLLARYKVAVVCADHHDYPMLPDVTADFVYCRLQNGEDDIKSCYPKKEIDHWAERVKTYAKGGVPDDLPLIAPDRKVEKTPRDVFAFFITGGKVNAPVGAQELQKTV				NA	NA	NA	NA	NA
BMS010_05350	1011	dusA_1	COG0042	tRNA-dihydrouridine(20/20a) synthase	ATGTACAGACAAGCGCTTGCAAACGGCGAAAAAATCTTCGCCGTGGCCCCCATGATCGACTGGACCGATACCCGCTGCAGATTTCTGCACCGGCAATTGTCGAAGCGCGCGCTGCTTTATACCGAAATGATCGTCGCCGACGCCATCATCCATGGCCAGCGCGACAGACTGCTCGGTTATCACCCTGAGGAACATCCCGTCGCGCTGCAGCTTGGCGGGTCTGATCCGGCCAAGCTCGCCGAGGCGGTGCGGATCGCCGGCGATTACGGATATGACGAGATCAACCTCAATGTCGGCTGTCCGTCGGATCGGGTGCAATCCGGCACCTTCGGCGCTTGCCTGATGCGCGAGCCTGAGGTGGTAGCGCAATGTGTCTCCGCGATGAAGGCTGTCGCCCGTGTGCCGGTTACGGTGAAGTGCCGGATCGGGGTGGACGATCAGCAGCCGGAAGCGGTTCTGCCGGATTTTCTGAAGCGGGTTGTTGCGGCAGGCGCGGACGCCGTCTGGGTTCATGCGCGAAAAGCCTGGCTGCAGGGGCTTTCGCCAAAGGAAAACCGCGAAGTGCCGCCGCTCGATTATGATCTCGTCTATCGCATGAAGCGGGAAAACCCTGATGTCTTTATCGGCATCAATGGCGGTATCGCCGATCTCGATCAGGCGAGCGAACATCTCCAGCATATGGATGGCGTGATGCTCGGCCGTGCCGCCTATCACAACACGTCCATTCTTGCCGATGTCGACTGTCGCATCTATGGCGAAGAGGCTCGCCAGCCGGACTGGATAGCGCTGCGTGACGCTATGATGGCCTATGCCGCCGACTATATCGCCGCAGGCGGACGTCTCAACCACGTTACCCGCCACATGGTCGGACTTTTTCAGGGCATGCCCGGCGCGCGCCGTTTCCGGCAAATCCTCTCCAGCGACGCCACCCGGCCGGGCGCTGGCCCGGAGGTTATCGAGGCCGCTTTCGCGACCATCGATTTCAGCCCGACGAAAGACATGGCGGGCTGA	MYRQALANGEKIFAVAPMIDWTDTRCRFLHRQLSKRALLYTEMIVADAIIHGQRDRLLGYHPEEHPVALQLGGSDPAKLAEAVRIAGDYGYDEINLNVGCPSDRVQSGTFGACLMREPEVVAQCVSAMKAVARVPVTVKCRIGVDDQQPEAVLPDFLKRVVAAGADAVWVHARKAWLQGLSPKENREVPPLDYDLVYRMKRENPDVFIGINGGIADLDQASEHLQHMDGVMLGRAAYHNTSILADVDCRIYGEEARQPDWIALRDAMMAYAADYIAAGGRLNHVTRHMVGLFQGMPGARRFRQILSSDATRPGAGPEVIEAAFATIDFSPTKDMAG				NA	NA	NA	NA	NA
BMS010_05351	690	nagK_1		Fumarylpyruvate hydrolase	ATGGCCGCCACCGTCATCCCCGCTCCGAAACCCGTTCTCCTGCCCGTTGAAGGCACGGACGATCTGTTCCCCGTACGGCGGGTCTATTGCGTCGGCCGCAATTATGCCGATCACGCCATAGAGATGGGTCACGATCCCTCGCGCGAGCCGCCCTTTTATTTCCAGAAAAACCCGGACAATCTGCTGCCCGCCGGTCAGGATTTCCCCTACCCGCCGCTGTCGTCGAATGTGCACTACGAAGTCGAGTGTGTCGTGGTTCTGAAAAGCGGCGGTGCCGATATCCCGGCATCCGAGGCGCTGGACCATGTCTGGGGTTATGCCGTCGGTATCGACATGACGCGCCGCGACCTTCAGGACGGCCTGAAGAAGATGGGCCGCTCCTGGGAAGGCGCGAAGGCTTTCGAATATTCCGCACCGGTCTCCCCCATCGTCCCGGCGGACAGGATCGGCCATCCCGCCACAGGTGCGATCTGGCTCGACGTCAATGGCAAACGCAAGCAGACGGGCGATCTTGCCCAGATGATCTGGAAGGTGCCGGAAGTGATTGCCGAGCTTTCCAAGCTGTTCACGCTTGCCGCCGGTGACGTCATCATGACCGGCACACCGGCCGGCGTCGGCCCCATCGTACGTGGCGACCGCATCGAATGCGGCGTCGAGGGTGTCGGCACGCTGGGCGTGACGGTTGCCTGA	MAATVIPAPKPVLLPVEGTDDLFPVRRVYCVGRNYADHAIEMGHDPSREPPFYFQKNPDNLLPAGQDFPYPPLSSNVHYEVECVVVLKSGGADIPASEALDHVWGYAVGIDMTRRDLQDGLKKMGRSWEGAKAFEYSAPVSPIVPADRIGHPATGAIWLDVNGKRKQTGDLAQMIWKVPEVIAELSKLFTLAAGDVIMTGTPAGVGPIVRGDRIECGVEGVGTLGVTVA	PGPT0001620_912	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001620-nagK-K16165	NA	NA
BMS010_05352	534	yrdA_2	COG0663	Protein YrdA	ATGCCGCTTTACCGCCTCGCCGACCGGGTGCCGCAGACCCCTGCGCCTGATCGCTACTGGGTTGCCCCGGATGCCAATGTCGTCGGCTCGGTGACGCTCGGTGAGGATGTCGGCATCTGGTTCGGCGCAACGCTGCGCGGCGATAACGAGCCGATCAGCATCGGGCGCGGCACCAATATTCAGGAGGGCGTGATGGTGCATAGCGACCCCGGTTTTCCCGCCGTCATCGGCGAAATGTGCACCATCGGCCACCATGCCATCGTGCATGGCTGCACCATTGGCGACAATTCGCTCATCGGCATGGGCGCAACGATCCTGAATGGCGCGAAGATCGGCCGCAACTGCCTCGTCGGCGCCAATGCGCTGGTGACGGAGGGCAAGGAATTTCCGGACAATTCCCTGATTGTCGGCTCGCCGGCGCGCGCCATCCGCACGCTGGATGATGAGGCCGCAGCAGGGCTCCGCCGCTCGGCGGAAAAATACATCGAAAACTGGAAGCGCTTTTCGAAAGATCTGGCGATAATCGAGGAGTAG	MPLYRLADRVPQTPAPDRYWVAPDANVVGSVTLGEDVGIWFGATLRGDNEPISIGRGTNIQEGVMVHSDPGFPAVIGEMCTIGHHAIVHGCTIGDNSLIGMGATILNGAKIGRNCLVGANALVTEGKEFPDNSLIVGSPARAIRTLDDEAAAGLRRSAEKYIENWKRFSKDLAIIEE	PGPT0002425_569	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002425-GAMMACA_like-K01726	NA	NA
BMS010_05353	414	zur_2	COG0735	Zinc uptake regulation protein	ATGAATGCGCAGACCCAGCAGAACCTCACCAAGAACCAGTCGCTCGTCATGAATGCCCTCTCAAACGCGCATCAGCCGCTCAGCGCCTATATGATCCTCGACAAGCTGCGGGATGAGGGTTTTCGTGCGCCGCTGCAGGTTTACCGGGCGCTGGAAAAGCTGGTGGAGTTTGGTCTCGTGCACCGGCTCGAGAGCCTCAACGCTTTTGTCGCCTGCACCCATACGCAGGCGGAGTGCTGCTCGCACCACCATGGTACGGTGGCTTTCGCCATCTGCGAATCCTGCGGGCAGGTGACGGAATTCCACGATCATGAAATCGACCACCGCCTGGAGCGCTGGGTGAAGGACAGCAAGTTCAAGGCGGAAAAGACCACCATTGAAATTCGCGGCCTCTGCGCCGCGTGCTCGGCTTAA	MNAQTQQNLTKNQSLVMNALSNAHQPLSAYMILDKLRDEGFRAPLQVYRALEKLVEFGLVHRLESLNAFVACTHTQAECCSHHHGTVAFAICESCGQVTEFHDHEIDHRLERWVKDSKFKAEKTTIEIRGLCAACSA	PGPT0003905_1424	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0003905-zur-K09823	NA	NA
BMS010_05354	819	znuB_2	COG1108	High-affinity zinc uptake system membrane protein ZnuB	ATGTTTGACGATTTCTTCGTTCGCGCCATGGTCGCCGGTATAGGCGTTGCGCTCACTGCCGGTCCTCTTGGCTGTTTCGTCGTTTGGCGTCGCATGGCCTATTTCGGCGATACGATGGCCCATTCGGCGCTGCTCGGCGTCGCGCTGTCGCTGCTGTTGCAGCTCAACCTCATCGTCAGCGTCTTTCTTGTGGCGTCGGCGGTTTCGATCCTGCTGCTCTTTTTGCAACGGCGTCAGGCGCTCTCCGCCGATGCGCTGCTTGGCATTTTGTCCCATTCGGCGCTGGCGATCGGTCTCGTTATCGTCGCTTTCATGAGCTGGGTGCGCATCGATCTCGTCTCGTTCCTGTTCGGCGATATTCTCGCCGTCACCCGCAGCGATATCGCCCTGATCTGGGGCGGCGGACTGGTGGTCATCGTCTCCATGGTGTTCCTGTGGCGGTCGCTGCTTGCCTCCACCGTCAATACGGAGCTGGCCGAAGCCGAGGGGTTGAACCCGGAGCGTGCAAAGCTGATCTTCACGCTGTTGATGGCGCTGGTGATCGCCATTGCCATGAAGGTGGTCGGCATCATGCTCATCACGTCGCTGCTCATCATACCGGCGGCGACTGCCAGACGCTTTTCCGCGACGCCTGAGGTGATGGCGGTGGTGGCTTCGCTGATCGGCGCGGTCGCCGTTGTCGGCGGACTGTTCGGCTCGCTCACCTACGATACACCGTCCGGCCCATCCATCGTGGTTGCCGCGGTGATCCTCTTCGTTATAAGCCTGTTGCCGGCGCCGGGTTTTTCCCGCGCCGCGGATGAAGGAGGCAAATCATGA	MFDDFFVRAMVAGIGVALTAGPLGCFVVWRRMAYFGDTMAHSALLGVALSLLLQLNLIVSVFLVASAVSILLLFLQRRQALSADALLGILSHSALAIGLVIVAFMSWVRIDLVSFLFGDILAVTRSDIALIWGGGLVVIVSMVFLWRSLLASTVNTELAEAEGLNPERAKLIFTLLMALVIAIAMKVVGIMLITSLLIIPAATARRFSATPEVMAVVASLIGAVAVVGGLFGSLTYDTPSGPSIVVAAVILFVISLLPAPGFSRAADEGGKS	PGPT0004225_1430	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZNU_TRANSPORT_SYSTEM,PGPT0004225-znuB-K09816	NA	NA
BMS010_05355	927	btuD_12		Vitamin B12 import ATP-binding protein BtuD	ATGCTTCATTCCGCCCATCGGGGCAAAGAGATACTGGTTTCCCTTGCCAATGCCGGCGTCCAGCGCAACGGCCGCTGGCTGGTGCGCGGCGTTGAGTTTTCCGTCAGCAAAGGCGAGATCGTCACGCTGATCGGGCCGAACGGTTCCGGCAAATCCACCAGCGCGAAAATGGCAATCGGCGTGGTGAAGCCGACCGAGGGCGAGGTTTCGCGCATTGCCGGTCTGAAGGTCGGTTATGTGCCGCAGAAGCTTGCCGTGGACTGGACCATGCCGCTTTCGGTGCGGCGGCTGATGACGCTGACCGGGCCGCTGCCAGCCCGTGAAATCGACGCGGCGCTGAATGCGACGGGCATTGCGCATCTCGCCAATGCGGAAGTGCAGCACCTTTCCGGTGGTGAGTTCCAGCGCGCACTTCTGGCCCGCGCCATCGCCCGCAAGCCCGATCTGCTGGTTCTTGACGAGCCCGTGCAGGGGGTCGATTTCTCCGGCGAGATTGCGCTCTATGATTTGATAAAAAATATCAGAAATTCAAATAATTGCGGAATTTTGTTAATCTCACATGACCTGCATGTGGTAATGGCTGAAACCGACACCGTGATATGCCTGAACGGCCATGTCTGCTGCCGGGGCACGCCGCAGGCGGTTAGCCAGAGCCCGGAATATATGCGGCTGTTCGGCGGCGCCGCGGCCAAGGCGCTTGCCGTCTATAGCCACCATCACGATCATACGCATCTGCCTGATGGCCGGGTGCAGCATGCGGATGGTTCGGTGACCGATCATTGCCACCCGGAGGATGGGCACCACCATATGCATGACTACGGCCACCATCACGACAGCCATGACGAATGCGGCTGCGGCCATGAGCATGAGCATGAGCATGAGGGCCACACGCCGTCCAGCCACGGACAGGGAGAGCGCCATGTTTGA	MLHSAHRGKEILVSLANAGVQRNGRWLVRGVEFSVSKGEIVTLIGPNGSGKSTSAKMAIGVVKPTEGEVSRIAGLKVGYVPQKLAVDWTMPLSVRRLMTLTGPLPAREIDAALNATGIAHLANAEVQHLSGGEFQRALLARAIARKPDLLVLDEPVQGVDFSGEIALYDLIKNIRNSNNCGILLISHDLHVVMAETDTVICLNGHVCCRGTPQAVSQSPEYMRLFGGAAAKALAVYSHHHDHTHLPDGRVQHADGSVTDHCHPEDGHHHMHDYGHHHDSHDECGCGHEHEHEHEGHTPSSHGQGERHV	PGPT0004230_51	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZNU_TRANSPORT_SYSTEM,PGPT0004230-znuC-K09817	NA	NA
BMS010_05356	993	znuA_2	COG4531	High-affinity zinc uptake system protein ZnuA	ATGAAATCGTTCCTGATCCCGCTCATGGCATCGGTGGCAATAGCGGCCGCCGCTTCCGGCGCCACCGCCGCGCCCGATGTCGTGGTCTCGATCAAGCCCGTACATTCCCTCGTCGCCGCCATCATGCGGGGCGTCGGCGAACCGCAGCTCATCGTCGACGGTGCGGCCTCACCGCACACCTATAATCTCAGACCGTCCAATGCCCGCAAGCTGGAAAAGGCCGATGTAGTCTTCTGGGTTGGGCCGGGACTGGAAGCATTCCTGGAAAAGCCGCTCGAAGCGCTTGCCAGCAAGGCAACCGTGGTGGAACTGGAAGACGCAAAGGGTCTGGAAAAGCTGCCCTTCCGTGAAGGCGGCCCCTTTGAAGCACACGACCATGGCGATGAAGGCCACGAGGCGCATGACGGCCATGCTGAAGAGGAAGGCGCGCACGATCATGGACACGACCATGCGGAGGGTCACGAGGACCATGACCATGGCGCATACGACACCCATCTCTGGCTCGATCCCGCCAATGCCAAGGCCATGGCGCAGACGATAGAAACCGCGCTGATCGCCGCCGATGCCGGCAATGCCGCGACCTATCAGGCCAATACCAAAAAACTGATCGACGACCTCGATGCGCTCGATGCCGAACTCAGGGAAACGGTCAAGCCAGTGAAGGACAAGCCCTTCATCGTCTTCCACGATGCCTATCAATATTTCGAGCATCGTTACGGCGTGAAGACGGCGGGGTCGATCACCGTCAGCCCCGAAACCCTGCCCGGTGCGGACCGCGTCAAGCAGATGCAGGAAAAGGTTCGCGAGCTCGGCGCAACCTGCGTCTTCGCTGAACCGCAATTCGAGCCGAAGCTGATTTCAGTCATAACCGAAGGCACCGCCGCGAAATCGGCAACGCTCGATCCGGAGGCAGCGACACTGGAACCCGGCCCGGACCTCTATTTCAAGCTGATGCGCGGCATTGCAGGCTCGCTAAAGGATTGCCTGTCCTGA	MKSFLIPLMASVAIAAAASGATAAPDVVVSIKPVHSLVAAIMRGVGEPQLIVDGAASPHTYNLRPSNARKLEKADVVFWVGPGLEAFLEKPLEALASKATVVELEDAKGLEKLPFREGGPFEAHDHGDEGHEAHDGHAEEEGAHDHGHDHAEGHEDHDHGAYDTHLWLDPANAKAMAQTIETALIAADAGNAATYQANTKKLIDDLDALDAELRETVKPVKDKPFIVFHDAYQYFEHRYGVKTAGSITVSPETLPGADRVKQMQEKVRELGATCVFAEPQFEPKLISVITEGTAAKSATLDPEAATLEPGPDLYFKLMRGIAGSLKDCLS	PGPT0004220_1113	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_FACILITATING_PROTEIN	ROOT_COLONIZATION-ZINK_TRANSPORT_LIPOPROTEIN,PGPT0004220-znuA-K09815	NA	NA
BMS010_05357	1053	rafR_2		HTH-type transcriptional regulator RafR	ATGAACGATACTGGCAAATCCGGCAGGGACGACATACCCGCGACCACGGGCGAGCGTCCGACCTTGAAGACAATCGCCTATATGACGGGTCTCGGCATCACCACCGTCTCGCGCGCACTGAAGGATGCGCCCGATATCGGCGCTGAAACCAAGGAGCGCGTGCGGCTGATCGCCCGGCAGATCGGTTACCAGCCAAACCGCGCCGGGGTGCGCCTTCGCACCGGCAAGACCAATGTGATTGCCCTTGTGCTGAGTGTCGATGAAGAACTGATGGGTTTCACCAGCCAGATGGTCTTCGGCATCACCGAGGTTCTTTCCACGACACAATATCATCTGGTCGTAACGCCCCACATCCATGCCAAGGATTCAATGGTGCCGATCCGCTATATTCTCGATACCGGTTCAGCGGATGGGGTCATTATTTCGAAGATCGAGCCCAACGATCAGCGCGTTCGTTTCATGACCGAGCGCAACATGCCCTTCGTCACCCACGGGCGTTCCGATATGGGCATCGACCATGCCTTTCATGATTTCGACAATGAGGCCTATGCCTATGAGGCGGTTGAGCGGCTGGCGCAATGTGGGCGCAAAAGAATCGCCGTCGTCGTGCCGCCATCGCGGTTTTCGTTCCACGATCACGCCCGCAAGGGGTTTATGAGGGCGATCAGGGATTTCGGCCTTAGCGAATTTCCGCTGGATGCCATCACCATCGAAACGCCGCTCGAAAAAATCCGCGATTTCGGCCAGCGGCTGATGCAATCCGATGACCGTCCCGACGGCATCGTTTCGATCAGCGGCAGCAGCACCATTGCGCTGGTGGCCGGTTTTGAGGCAGCCGGTGTGAAAATCGGCGAAGATATCGATATCGTCTCGAAACAGTCCGCCGAGTTCCTGAACTGGATCAAACCGCAGATCCACACCGTCAATGAGGATATCAAGCTGGCGGGCAGGGAGCTTGCGAAGGCCCTTCTGGCGCGCATCAACGGCGCGCCGCCGGAAACCTTGCAGAGTATCAGCAGTCCTGTCTGGTCTTCGATGGCGCCGAAGCCGTAA	MNDTGKSGRDDIPATTGERPTLKTIAYMTGLGITTVSRALKDAPDIGAETKERVRLIARQIGYQPNRAGVRLRTGKTNVIALVLSVDEELMGFTSQMVFGITEVLSTTQYHLVVTPHIHAKDSMVPIRYILDTGSADGVIISKIEPNDQRVRFMTERNMPFVTHGRSDMGIDHAFHDFDNEAYAYEAVERLAQCGRKRIAVVVPPSRFSFHDHARKGFMRAIRDFGLSEFPLDAITIETPLEKIRDFGQRLMQSDDRPDGIVSISGSSTIALVAGFEAAGVKIGEDIDIVSKQSAEFLNWIKPQIHTVNEDIKLAGRELAKALLARINGAPPETLQSISSPVWSSMAPKP	PGPT0017992_3312	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017992-lacI|galR-K02529	NA	NA
BMS010_05358	2484	csxA	COG3250	Exo-beta-D-glucosaminidase	ATGATTTCTTCTTCCTCGCCCGAAACCGTCATCGATTTGGCCGGGTCCTGGCGCCTGACCTCGGTGGAAGGAGACCACGCCACCCAGCTTTCTGTACCGGGCGATATTCACACCGCGCTCAAAAATGCGGGCATCATTCCAGATCCCTATCACGGTGCCAATGAGAAGGCGGTACAATGGGTCGCGCAACAGGACTGGATCCTCGAGCGCACATTCATTCTCGATGAGGCGGATGCCAGCTGGTATCTCGATATCGATTACCTCGACACCGTCGCCATCGTCTTCGTCAACGACATCCCGGTGCTGAGCGCCGACAATTGTTTCCGCCGTTACCGCCCGGATGTTTCGCGGGCTGTGCGGCCGGGTGAAAATACCATCCGCATCCATTTCCATTCCAACATCGCCGCCGGTGCGGAACGGCAGGCGCGGCAGCCCTTCTATATTCCCTATCACCCAGGCAATTCGCCGATTGCCAATGGCAACATGCTGCGCAAGCCGCAATGCCATTTCGGCTGGGACTGGAATATCGCGATTGCCCCGCTCGGCCTTTACGGCAAAATCCTGCTGAAGCGCCTCGATACAGCCCGCATCGAACATATCGTCACCTCGCAGCACCATGTCGAAGGCGGCGTGGAACTGCATGTCGCCGTCACGCTGTTTGCCGAAGGTCCGGCGAGCCTGCCGGTCTATCTGACGCTGAATGACGAAAGGCTCAGGCTCGATTGCGGCGTCGGCGCCGGCGAAACGGTGGTGCGTCACGTCTTCTTCGTGGAAAATCCGGAACTCTGGTGGCCAGCCGGCAGTGGCGAACAGACGCTCTACGAGCTGACGGTGGAATTGCCCGATGAGACCGTGACCCGCCAGATCGGCTTCAGGACCATCGAGCTTCTTACGGACAAGGACGAGGCAGGCAGCCGCTTTGCCTTCCGCATCAACGGCCGGGAAATCTTCTGCCGCGGTGCCAACTGGATCCCCGCCGATGCGCTTTATTCGCTGACCAGCCGGGAAAAGACCGAAGACCTTCTCTGCTCCGCGGTCGAGGCCAACATGAACATGATCCGCGTCTGGGGCGGCGGCTTCTATGAGGAAGACTGGTTCTACGATCTCTGCGACCGTCTCGGCCTGCTGGTCTGGCAGGATTTCATGTTCGCCTGCAACCTCTACCCCTGCAGCGAGGATTTCCTCGACAATGTCGAACACGAGGTCGAGTATCAGGTCAAACGCCTCTCCTCACATCCCTCCATCGCGCTCTGGTGCGGTGATAATGAATTGGTGGGTGCGCTGACATGGTTCGATGAATCCCGCAACAATCGCGACCGTTATCTCGTGGCCTATGACCGCCTGAACCGCACCATCGAACGGGCCCTGAAAAAAGCCGCTCCCGAAGCGAACTGGTGGCCATCGAGCCCTGCCTCCGGTTATCTCGATTATGGCGATGCCTGGCATGCTGATGGTTCCGGCGACATGCATTATTGGTCCGTCTGGCACGAGAACAAATCGTTCGACAATTATCGTTCGGTGAAACCGCGCTTCTGCTCCGAATTCGGTTTCCAGTCCTATACATCCATGCCCGTCATCCGCAGCTATGCGGAAGACCGGGACATGAACATCGCCTCCCCCGTCATCGAACTGCACCAGAAGAATGTCGGCGGCAATGAGCGGATTGCGGGCACCATGTTCCGCTATTTCCGCTTCCCGAAGGATTTCGAGAATTTCGTTTATCTCAGTCAGGTCCAGCAGGCGCTGGCGATCCGCACGGCTGTCGATTACTGGCGCTCGCTCAAGCCCCATTGCATGGGCACGCTTTATTGGCAGCTGAACGACACCTGGCCGGTCGCCTCATGGTCGAGCCTTGATTATGGCGGAGGCTGGAAAGCGCTGCATTATGCCGCCCGCCGTTTCTTCCAGCCGGTTACAGTCTCGGCCATCCCTTCAGAAGATGGAGGCCGGGTGACCTTCTCCATGGTCAACGACACGGCGGAGGATGTGGAAATCGACATGAACATCGTCGCCCTGACCATGGACGGCAACCGCGTGCCACTGAAATCCGCCAACGGCACCTGCGCGACCGACAGGGCCGCCATGCTGACCGATATCGACATGGACAGCCTGCCTGATGGCGCCATCCTCGCCTGGAATTTCATCGCCTCGAACGGCATGACCGGCGAAGGCCATCATGTACGCGATAGCTACAAGGCGCTGGAGCTTCAGCCAGCAGGTCTGACATTCACCACCAGCACACTGAAAAACGGCCAGTTCGAAATCGATGTCACCGCCACCGGTCTCGCCCTCTTTGTCATGCTGGAGGCAGATCAGCCCGGACGTTATTCCGACAATCTCTTCGATCTTGCCGCCGGCGAAACGCGCCGTATCATCTTCACCCCGAAAGCGGACGGCCCTCAGCCGCATTTCCGCATCTTCGATCTTCATACCTGCCAATCCTCGCCCAATCCCGGCATTGAAAGCATGCGGAGAAAGGCATAA	MISSSSPETVIDLAGSWRLTSVEGDHATQLSVPGDIHTALKNAGIIPDPYHGANEKAVQWVAQQDWILERTFILDEADASWYLDIDYLDTVAIVFVNDIPVLSADNCFRRYRPDVSRAVRPGENTIRIHFHSNIAAGAERQARQPFYIPYHPGNSPIANGNMLRKPQCHFGWDWNIAIAPLGLYGKILLKRLDTARIEHIVTSQHHVEGGVELHVAVTLFAEGPASLPVYLTLNDERLRLDCGVGAGETVVRHVFFVENPELWWPAGSGEQTLYELTVELPDETVTRQIGFRTIELLTDKDEAGSRFAFRINGREIFCRGANWIPADALYSLTSREKTEDLLCSAVEANMNMIRVWGGGFYEEDWFYDLCDRLGLLVWQDFMFACNLYPCSEDFLDNVEHEVEYQVKRLSSHPSIALWCGDNELVGALTWFDESRNNRDRYLVAYDRLNRTIERALKKAAPEANWWPSSPASGYLDYGDAWHADGSGDMHYWSVWHENKSFDNYRSVKPRFCSEFGFQSYTSMPVIRSYAEDRDMNIASPVIELHQKNVGGNERIAGTMFRYFRFPKDFENFVYLSQVQQALAIRTAVDYWRSLKPHCMGTLYWQLNDTWPVASWSSLDYGGGWKALHYAARRFFQPVTVSAIPSEDGGRVTFSMVNDTAEDVEIDMNIVALTMDGNRVPLKSANGTCATDRAAMLTDIDMDSLPDGAILAWNFIASNGMTGEGHHVRDSYKALELQPAGLTFTTSTLKNGQFEIDVTATGLALFVMLEADQPGRYSDNLFDLAAGETRRIIFTPKADGPQPHFRIFDLHTCQSSPNPGIESMRRKA	PGPT0018765_964	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-MANNOSIDASE,PGPT0018765-manB-K01192	NA	NA
BMS010_05359	1032	gpr	COG0667	L-glyceraldehyde 3-phosphate reductase	ATGGTTTGGCAACCGGCCGAAAACCGATATGCATCCATGAAATATAATCATTGCGGCAAGACCGGCCTGAAGCTGCCGGCGATTTCGCTCGGCCTATGGCACAATTTCGGCAACGACACGCCGCACCAGACCAAACAGGCCATTTGCCGCCGCGCTTTCGATCTCGGCATCACCCATTTCGATCTCGCGAACAATTACGGTCCGCCGCCCGGCAGCGCCGAAACCGCCTTCGGAGAAATTCTGAAGACAGATTTCAGGGGTTATCGCGACGAGATGATCATCTCTTCCAAGGCAGGTTACAACATGTGGCCCGGTCCTTACGGTGAATGGGGCAGCCGTAAATATCTGATAGCTTCCTGCGACCAGAGCCTGAAGCGCATGGGGCTGGACTACGTCGATATCTTCTACTCCCACCGTTTCGACCCCAACACGCCGCTTGAGGAGACCTGCGGCGCGCTGGACCAGATCGTGCGCTCGGGCAAGGCGCTTTATGTCGGCATTTCGTCCTACAATTCGAAGCGCACCCGCGAGGCCGCCGCGATCCTGAAGGACCTCGGCACGCCATGCATCATCCATCAGCCGAGCTATTCGATGATCAACCGCTGGATCGAGGAAGACGGTCTCGTCGACACTCTAGAAGAACTGGGTATCGGCTCCATCGTCTTCTCGCCGCTGGCGCAGGGCATGCTGACGACGAAATATCTCGGCGGCGTGCCGGATGGCAGCCGTGCATCGCAGAGTAAGTCTCTCAACCCGGCCTTCCTCAACGAGCGCAATGTCGAGAACATCCGTGCGCTGAACAGCATTGCCGAGCGGCGTGGCCAGACGCTGGCGCAGATGGCGATAGCCTGGGTTCTGCGCGGCGGCCGCATCACCTCGGCGCTGATTGGCGCAAGCCGTGTCGAACAGGTCGAGGATTGCGTGAAGGCGCTCGACAAGCAGGATTTCACGGCAGAAGAGCTTGCCGAAATCGATCGTTACGCCAAGGAAGCGGATATCAACCTCTGGGCAAAATCCGCCGAACGCGTCTGA	MVWQPAENRYASMKYNHCGKTGLKLPAISLGLWHNFGNDTPHQTKQAICRRAFDLGITHFDLANNYGPPPGSAETAFGEILKTDFRGYRDEMIISSKAGYNMWPGPYGEWGSRKYLIASCDQSLKRMGLDYVDIFYSHRFDPNTPLEETCGALDQIVRSGKALYVGISSYNSKRTREAAAILKDLGTPCIIHQPSYSMINRWIEEDGLVDTLEELGIGSIVFSPLAQGMLTTKYLGGVPDGSRASQSKSLNPAFLNERNVENIRALNSIAERRGQTLAQMAIAWVLRGGRITSALIGASRVEQVEDCVKALDKQDFTAEELAEIDRYAKEADINLWAKSAERV	PGPT0008285_746	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-HYDROXYACETONE_VOLATILE_BIOSYNTHESIS,PGPT0008285-yghZ-K19265	NA	NA
BMS010_05360	327			hypothetical protein	ATGAAAAAGTTCGTCACCATTCTTCTGGCCGCCACCGTTCTCGCCGCTCCGATGGCTCAGGCCCAAAGCCGCCACGACGATCGCCATCGCGGCGTCACCGTCGAGCGTCAGGTCACCACCAAGAAGGTCATCGTCAAGAAGCACCGCTGGGATCGCGGCCAGCGCCTCTCCGCCCGCGATCGTCGACACTACGTCGACCGCCGCGACTACCGCCGTTACCACCTCGCAGAACCGCGCCGTGACCAGCGCTGGGTCCGCGTCGACAACCAGTTCCTGCTCATCAACGCCGTCAGCGGCCTGATCGTCGGCCTCGCCGCCGCCCGCTAA	MKKFVTILLAATVLAAPMAQAQSRHDDRHRGVTVERQVTTKKVIVKKHRWDRGQRLSARDRRHYVDRRDYRRYHLAEPRRDQRWVRVDNQFLLINAVSGLIVGLAAAR				NA	NA	NA	NA	NA
BMS010_05361	1431	gndA	COG0362	6-phosphogluconate dehydrogenase, NADP(+)-dependent, decarboxylating	GTGGAACAGGCAGAAATCGGTTTGATCGGTCTCGGCGTCATGGGCTCGAACCTGGCGTTGAACATCGCGGAAAAGGGCAACAAGATTGCCGTATTCAACCGAACCCCTGAAGCGACGAAAAAATTCTACGCCGAGGCTGGGGACTTGCAGGGACAGTTGATCCCCTGCGAAACCATCGAGGAATTCGTCGCCGCCATTCGTCCTCCGCGCCCGATCATCATCATGATCAAGGCCGGCGATCCGGTTGACCAGCAGATGGAAATCCTGAAACCGCATCTCGCCAATGGCGACATCATGATCGACGCCGGCAATGCGAATTTCCGTGATACGATCCGCCGTTTCGACAATCTGAAGGATAGCGGCCTGACCTTTATCGGCATGGGCGTTTCCGGCGGTGAAGAAGGTGCGCGCCATGGACCGTCGATCATGGTCGGCGGCACCGAAGATAGCTGGAAGCGCGTCGAGAAGGTGCTGACTTCCATTTCCGCCAAGTACAACAACGATCCGTGCGTGGCATGGCTCGGCAATGACGGCGCCGGCCATTTCGTCAAGACCATCCATAACGGCATCGAATATGCCGACATGCAGATGATCGCCGAAATCTACGGCATCCTGCGTGACGGCCTTGGCATGAGCGCCGTCGAAATCGCCGATGTCTTCGCCGAATGGAACAAGGGCCGCCTGAATTCCTACCTGATCGAAATCACCGAGAAGGTTCTGCGCGCCGCCGATCCGATCACCGGCAAGCCGATGGTCGATCTGATCCTCGACAAGGCCGGCCAGAAGGGCACCGGCAAGTGGTCGGTCATCGAGGCGCAGAATATGGGCGTTGCCGCAACCGCCATCGAGGCGGCCGTGGCTGCGCGTATTCTGTCCTCGCAGAAGGATGAGCGTGAAGCTGCCGAGAAGATCTTCGGTCTGCCGACCGTTGCGCCTGCACCGGCTGACAAAAAGGCTTTCATTGCCGATCTGGAAAGCGCGCTTCTGGCCGCCAAGGTCGGCGCTTACGCGCAGGGCTTCGCGATCATGTCGGCCGCTTCCAAGGAGTTCAACTGGAACCTGCCGATGCCGACGATTGCTCGCATCTGGCGCGCCGGTTGCATCATCCGCTCGGAATTCCTCGATGAGATCACGTCGGCCTTCACCAAGGACCCGCATGTGGCCAACCTCATCGTGACGCCTGCCTTTGCCGGCATCGTCAAGGATACCGACGCACCGCTGCGCCGTGTCGTCTCCTACGCCGTCCTGTCGGGTCTGCCGGTTTCGGCACTTGCTTCGGCGCTCGGTTATTTCGACGCCTATCGCCGTGGCCGCGGCAGCGCCAACCTCATTCAGGCGCAGCGCGACTTCTTCGGTGCCCATGGTTTCGAACGCACCGACGGTGTGGACAAGCCGCACGGCCCGTGGGGCAGCGGCGCCGACATTTTCTGA	MEQAEIGLIGLGVMGSNLALNIAEKGNKIAVFNRTPEATKKFYAEAGDLQGQLIPCETIEEFVAAIRPPRPIIIMIKAGDPVDQQMEILKPHLANGDIMIDAGNANFRDTIRRFDNLKDSGLTFIGMGVSGGEEGARHGPSIMVGGTEDSWKRVEKVLTSISAKYNNDPCVAWLGNDGAGHFVKTIHNGIEYADMQMIAEIYGILRDGLGMSAVEIADVFAEWNKGRLNSYLIEITEKVLRAADPITGKPMVDLILDKAGQKGTGKWSVIEAQNMGVAATAIEAAVAARILSSQKDEREAAEKIFGLPTVAPAPADKKAFIADLESALLAAKVGAYAQGFAIMSAASKEFNWNLPMPTIARIWRAGCIIRSEFLDEITSAFTKDPHVANLIVTPAFAGIVKDTDAPLRRVVSYAVLSGLPVSALASALGYFDAYRRGRGSANLIQAQRDFFGAHGFERTDGVDKPHGPWGSGADIF	PGPT0017385_2082	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0017385-gnd|gntZ-K00033	NA	NA
BMS010_05362	159			hypothetical protein	ATGAACATGCTGATCTATCTCATTCCCGTCGCGCTGTTTTTAGGGGCGCTCGGCCTTTTCGCCTTCCTCTGGTCGGTGCGCTCGGGCCAATATGAGGATATGGACGGGGCCGCCTGGCGGGCGCTGGATGATGGTGACGACCGGCCCCGACGATCATAA	MNMLIYLIPVALFLGALGLFAFLWSVRSGQYEDMDGAAWRALDDGDDRPRRS				NA	NA	NA	NA	NA
BMS010_05363	2292	copA_4		Copper-exporting P-type ATPase	ATGAGCTGCTGCGCACCGGGAACGGAAGGTTCGTTGCAACTCGGCGAGCCGGTCAATCCGCCATCGTCGGAGGAGTTGTTGCTGGCGAGCCGCGATCTGGGGCAGGGGCTGCGCCAGACCGACCTCAGCGTGCCGGATGTGTATTGCGGCGCCTGCATCACCACCATCGAGACCGCGCTCGGCCGTCTGCGCCAAGTGGAGCGGGCGCGCGTGAACCTGTCGTCCAAACGCGTGGCGGTCGTCTGGAAAGAAGAAATCGATGGCGTCATGACTGACCCTTCCGAGATTGCCCGCGCCATTCTTGCGACGGGATATCGCACGCATCTTTTCGCCAGCGGGCAGGATGCCTCGGACGCCTTGCGTTCGCAGCTGATCAGGGCGGTGGCGCTGTGCGGTTTTGCTTCCGCCAATATCATGCTTCTGTCCGTCTCCGTCTGGTCGGGGGCGGATGCGGCGACGCGCGACATGTTCCACTGGATTTCGGCGATGATCGCCGCGCCGGCGCTGATCTATGGCGGGCGTTTCTTCTATCAATCGGCCTGGAACGCGCTGAAACATGGCCGCACCAATATGGATGTGCCGATCGCACTCGCCATCACGCTTTCCTATGCCGTTTCCCTGTGGGAGACGATCCATCACGGCGAACATGCCTGGTTCGATGCGACCGTATCGCTGCTGTTCTTCCTGCTCATCGGCCGCACGCTGGATCATATAATGCGCGACAAGGCGCGCTCGGCCATTGCCGGGCTTGCCCGGCTTTCGCCGCGCGGGGCAACGGTGATCGGTGAGAATGGAACGCGGGAGTATCGGCCGCTTGCCGATATCCAGCCGGGAATGTCGATTGCGATTGCGGCCGGGGACCGCGTGGCCGTGGACGCCCTGGTCGTCTCCGGCAGCAGCGATCTCGACATGTCCATCGTCAACGGTGAAAGCGCGCCGCGTCGCGTTGCGGCAGGCGACAGCCTTCAGGCCGGTACGCTCAATCTCACCGGTTCGCTGACTGCGCGGGTGACGGCATCGGCGAAGGATTCCTTCCTTTCGGAAGTGATCGGGCTGATGGAGGCGGCCGAAGGCGGGCGGGCGCGTTACCGCCGCATCGCCGACCGTGCCGCAAGCTATTATTCTCCCGTGGTGCATCTTCTTGCGCTGGTGACGTTTCTCGGCTGGGGCATTTTCGGCGGTGACTGGAAACAGGCGATGCTGATCGCCATTGCGGTTCTCATCATCACCTGCCCCTGTGCGCTCGGCCTTGCCGTTCCCGTCGTGCAGGTGGTGGCCGCCGGAAGGCTGTTCCGGCACGGCATCATGGTCAAGGAAGGCTCGGCCATGGAGCGGCTGGCCGAAATCGATACCGTGCTGTTTGACAAGACCGGCACCCTGACTATCGGCAAACCGAGATTGGTCGAGACTGGCGATGTGAGGCCCGCCACCATGGCGATTGCAGCGGGGCTTGCCGCCCATTCGCGGCATCCCCTGTCGAAAGCCCTGCATGCTGCCTATAGCGGCGCGGTGCCGGCCTATGAGGCGGTGCGGGAAATTCCGGGCTCCGGTGTCGAGGCGGAGACGGAAGCCGGAACCTATCGGCTGGGCAATCGCCGTTTCGCGTGCCCAAGTGAAGCGAGCGTCGATAATGGCGATGCGCGGTCGGAAGTGGTGCTGTCCCTCGATGGCCGACATCTGGCGAGCTTCGGTTTCGAGGATAATCCGCGCGCGGGTGCGGTTGCGGCATTGCGCAGCCTCTCAGTGCGTGGGTTGATGCAGGAAATCGTTTCGGGCGACCGGGCAGCAGCCGTCAGCGCCATGGCGCAGCGGCTGGGGATCGGTAATTGGCGTGCGGATCTGTCACCGAAGGACAAGGCGGCGCGCTGTGCTGAGCTTGCCGGCGAGGGTCGCAGGGTGCTGATGGTGGGAGACGGTATCAACGACGCGCCGGCGCTTGCTGCTGCGCATGTGTCCATGGCGCCCGCCACCGCCGCCGATATCGGCCGGCAGGCCGCCGATTTCGTGTTCATGCAGGAGGATCTCGATGCCGTGCCTTTCGCAATCGAGACATCGCAACGGGCAGGAAGGCTGATCCGGCAGAACTTCGCGCTCGCCATCGGCTACAACATCATCGCCGTGCCGATTGCCATTGCCGGTTATGCGACGCCGATGATCGCGGCCATCGCCATGTCGACGTCCTCGCTGATCGTCGTCGCCAATGCGTTGCGTCTTGCCGGTACGGATGAAACCGTCCGTCCTCAGAATGAAGCGAAGACCGGATTTGCAGGCGAGGGGGCGCAACTGGCATGA	MSCCAPGTEGSLQLGEPVNPPSSEELLLASRDLGQGLRQTDLSVPDVYCGACITTIETALGRLRQVERARVNLSSKRVAVVWKEEIDGVMTDPSEIARAILATGYRTHLFASGQDASDALRSQLIRAVALCGFASANIMLLSVSVWSGADAATRDMFHWISAMIAAPALIYGGRFFYQSAWNALKHGRTNMDVPIALAITLSYAVSLWETIHHGEHAWFDATVSLLFFLLIGRTLDHIMRDKARSAIAGLARLSPRGATVIGENGTREYRPLADIQPGMSIAIAAGDRVAVDALVVSGSSDLDMSIVNGESAPRRVAAGDSLQAGTLNLTGSLTARVTASAKDSFLSEVIGLMEAAEGGRARYRRIADRAASYYSPVVHLLALVTFLGWGIFGGDWKQAMLIAIAVLIITCPCALGLAVPVVQVVAAGRLFRHGIMVKEGSAMERLAEIDTVLFDKTGTLTIGKPRLVETGDVRPATMAIAAGLAAHSRHPLSKALHAAYSGAVPAYEAVREIPGSGVEAETEAGTYRLGNRRFACPSEASVDNGDARSEVVLSLDGRHLASFGFEDNPRAGAVAALRSLSVRGLMQEIVSGDRAAAVSAMAQRLGIGNWRADLSPKDKAARCAELAGEGRRVLMVGDGINDAPALAAAHVSMAPATAADIGRQAADFVFMQEDLDAVPFAIETSQRAGRLIRQNFALAIGYNIIAVPIAIAGYATPMIAAIAMSTSSLIVVANALRLAGTDETVRPQNEAKTGFAGEGAQLA				NA	NA	NA	NA	NA
BMS010_05364	501			hypothetical protein	ATGACCGTGAACAATCGCCAGACGTCCGGTTTCACGTTCACCGGCTGGCATATGCTGGGTGTCATGCTGCTGTTTTTCGGCACCGTCATCACCGTCAACATGGTGATGGCCTGGAACGCGGTCAACAGCTGGAGCGGGCTTGTCGTGCCCAATACCTATGTGGCCAGCCAGCAGTTCAACGCCAAGGCGGAAGCCGCCAAGGCAAGGGCCGCGACCGGCATCAAGGGCAAGCTTATCGTGGATGAAAAGACGGTGCGTTACGAGGTGTTTCATCCCGACACCGGCCCGGTCGACACCGATAAGGTGACGGCGCATTTTCGCCGGCCTGTCGGGGAACGCCAGAATTTCGACATGGACCTGACCCCGGTTTCCACCGGCGTCTTCACCGGCCCGCATGACATGCTGCCGGGCCAATGGATCGTCGAGGTCACCGCCGTCAAGGACGGCCGGATCATCGTGCATGAGGGCACGCGGATTGCCGTCATCAGGGGGCGCAAATGA	MTVNNRQTSGFTFTGWHMLGVMLLFFGTVITVNMVMAWNAVNSWSGLVVPNTYVASQQFNAKAEAAKARAATGIKGKLIVDEKTVRYEVFHPDTGPVDTDKVTAHFRRPVGERQNFDMDLTPVSTGVFTGPHDMLPGQWIVEVTAVKDGRIIVHEGTRIAVIRGRK				NA	NA	NA	NA	NA
BMS010_05365	1584			hypothetical protein	ATGAACATCTATCGCGCCGGACAGGATCGCCCGCAACAGCCCGTCGAGAGGCTGGAGGCGGAAGCCGTCAATTCCGCAAAAACGCGCAAACCGCTCTACGAGGCACGCAGGAAGATTTTTCCCAAGCGCGCCGAGGGCCGGTTCCGGCGCTTCAAATGGCTGGTGATGCTGGTCACGCTCGGCATTTATTATCTGACGCCGTTCCTGCGCTGGGATCGCGGTCCCTATGCGCCGGATCAGGCGGTGCTGATCGATATCGCCAACCGGCGCTTTTATTTCTTCTTCATCGAAATCTGGCCGCAGGAATTCTTCTTCGTCGCCGGATTGCTGGTCATGGCCGGGCTGGGGCTCTTCCTCGTGACTTCCGCTGTCGGGCGCGCATGGTGCGGTTACACCTGTCCGCAGACCGTCTGGGTCGACCTGTTTCTGGTGGTCGAGCGGGCGATAGAGGGTGACAGGAACGCGCGCATGAAACTGGATGCCGCGCCCTTCACATTCGGCAAATTGCGCAAGCGGGTGCTGAAACATGCGATCTGGCTGGTGATCGGCGTTCTGACCGGCGGCGCCTGGATTTTCTATTTCGCCGATGCGCCAACGCTGGCGATGCAGTTCATGACCGGGCAGGCGCCGATGATCGCCTATTCCACCGTCGCCATCCTCACCGCCACGACCTATGTCTTCGGCGGGCTGATGCGGGAACAGGTCTGCACCTATATGTGTCCATGGCCGCGCATTCAGGCGGCGATGCTGGATGAGAACTCGCTTGTCGTCACTTATAATGACTGGCGCGGCGAACCGCGCTCGCGGCATGCCAAGAAGGCTGCGGCGGCAGGGGAGAGCATCGGTGATTGCGTCGATTGCAATGCCTGCGTCGCGGTCTGTCCCATGGGCATCGACATCAGGGACGGGCAGCAGCTGGAATGCATCACCTGCGCGCTCTGCATCGATGCCTGCGACGGGGTGATGGACAAGATCGGCAAGCCGCGCGGGCTGATCGCCTATGCGACGCTTTCCGAATACCAGTCCAACATGGCGCTCGCGACCGGCAATGGTGAGCACGCCATCCGCCCTGCCAATGTGCGTGAGGAGGACGGCAGCTTCAGGAAGAGTGTCCGCCACTTCAACTGGCGCATCGTCTTCCGGCCGCGCATGCTGCTTTACACGGCCATCTGGTCGGCGGTCGGCATCGGCATGCTGTTTGCGCTGGTGACGCGCGAGCGGCTGGCGCTGAATGTCCTGCATGACCGCAATCCGCAATATGTGCTGGAATCGAACGGCTCCATTCGCAACGGCTATACGGTGCGCATTCTCAACATGGTGCCGCAGCCACGCACGATGAGCCTGACCATTGAGGGCATTCCGAATGCGGTGATGAAGATCAACGGCATGCCGGATACGGCCGCGCGCACCTTCGAAGTGACGGTGGAGCCGGACGAGGCGACGACGCTGAAGGTCTTCGTCACCCTGCCGGGCAAAGATGTTGCGCGGGCGGCGGAAAATTTCGAATTCATCGTCAGCGATACGGGCGGCCATGAGACGGCCCGCTACGATGCTGTCTTCAACGCTCCGGGAGTGAAAAAATGA	MNIYRAGQDRPQQPVERLEAEAVNSAKTRKPLYEARRKIFPKRAEGRFRRFKWLVMLVTLGIYYLTPFLRWDRGPYAPDQAVLIDIANRRFYFFFIEIWPQEFFFVAGLLVMAGLGLFLVTSAVGRAWCGYTCPQTVWVDLFLVVERAIEGDRNARMKLDAAPFTFGKLRKRVLKHAIWLVIGVLTGGAWIFYFADAPTLAMQFMTGQAPMIAYSTVAILTATTYVFGGLMREQVCTYMCPWPRIQAAMLDENSLVVTYNDWRGEPRSRHAKKAAAAGESIGDCVDCNACVAVCPMGIDIRDGQQLECITCALCIDACDGVMDKIGKPRGLIAYATLSEYQSNMALATGNGEHAIRPANVREEDGSFRKSVRHFNWRIVFRPRMLLYTAIWSAVGIGMLFALVTRERLALNVLHDRNPQYVLESNGSIRNGYTVRILNMVPQPRTMSLTIEGIPNAVMKINGMPDTAARTFEVTVEPDEATTLKVFVTLPGKDVARAAENFEFIVSDTGGHETARYDAVFNAPGVKK				NA	NA	NA	NA	NA
BMS010_05366	405			hypothetical protein	ATGCCTGTCATGCAGTCGAGAATCATTCATCTGTCGGTCGAAAAACCCTGGAGCCACGTCTATGACTTCGCCTCCAACCCGCAGAACATGCCCCGCTGGGCCGCAGGCCTTGCGGGCGGCCTCACACCGGACGGCGAGGAATGGATCGCCGAGGGCGGGCCGCTTGGCGAAGTGCGCGTCAATTTCGCGCCCGCAAACGAGTTCGGCGTCATCGACCATGTCGTGACATTGCCGGATGGCGTGAAGGTTTATAACGCGCTACGGGTAACGCCGAACGGCAGCGGCACGGAGGTGAGTTTCACCCTGCTTCGCCTTCAGGAGATGACGGACGAGGATTTCGAGCAGGACGCAAAAGCGATCACGGCCGATCTCGAAACGCTGAAGGCGCTGCTCGAAAAGGATTGA	MPVMQSRIIHLSVEKPWSHVYDFASNPQNMPRWAAGLAGGLTPDGEEWIAEGGPLGEVRVNFAPANEFGVIDHVVTLPDGVKVYNALRVTPNGSGTEVSFTLLRLQEMTDEDFEQDAKAITADLETLKALLEKD				NA	NA	NA	NA	NA
BMS010_05367	357			hypothetical protein	ATGACCACGAATACGAACGACCGGCGGATCGACTATGTCGAATTCAACGTCGCCGATATCGAGCGCAGCAAGGAATTTTACGGCGGCGCCTTCGGCTGGTCCTTCAAGGATTACGGTCCGCAATATTGCGAGTTTTCCGATGGCCGGCTGACCGGCGGTTTCACCACCACCGCGCCGGTCTCGGCCAAGGGCGGACCGCTCGTCATTCTCTACGCCGACGATATCGAGGATGTGCAACGACGCGTCGAAGCCGCCGGCGGGCAGATCAGCGTCGCGATCTTCGCCTTTCCCGGCGGCCGCCGTTTTCATTTCACAGATCCGGACGGATACGAACTGGCCGTCTGGTCGGACAAATAA	MTTNTNDRRIDYVEFNVADIERSKEFYGGAFGWSFKDYGPQYCEFSDGRLTGGFTTTAPVSAKGGPLVILYADDIEDVQRRVEAAGGQISVAIFAFPGGRRFHFTDPDGYELAVWSDK				NA	NA	NA	NA	NA
BMS010_05368	864	ccoP	COG2010	Cbb3-type cytochrome c oxidase subunit CcoP	ATGTCCGAAAAACACATTGATGACATCAGCGGCGTCGAAACCACCGGCCACGAATGGGACGGTATCCGCGAGCTGAACAATCCCATGCCGCGCTGGTGGGTCTGGACCTTCTATTTCACGATCCTCTGGGCCATCGGCTATACCATCGCCTATCCGGCATGGCCGCTGATCAATGGGGCGACGCAAGGGTTGCTCGGCTGGAACAGCCGCGGCGATATTGCCGCCGAAATTGCCGATGCAAAACAGTCGCAGAGCGTCTTTGTCGACAAGATCGCCAATTCGTCGCTCGCCGAAATTCAGGCCGACCCGACCCTGATGCAATTTGCCCTTTCCGGCGGCGCTGCCGCTTTCAAGGTCAATTGCATTCAGTGTCACGGTTCGGGCGCGGAAGGCGGGCAGGGCTATCCCAACCTCAACGATGACGACTGGATGTGGGGCGGCAGCGTCGACGACATCTATACGACGGTGAAGCACGGCATTCGTTTTGCCGACGATGCGGATACGCGCGCTTCGGAAATGCCCGCTTTCGGTGAAATTCTGAAATCGGACGAAATCCGCGAGGTTGCGGCCTATGTCGTCAGCCTCACCGGCACCCCATCCAACCCGGCTCTGGTGGAGCCAGGCAAGCAGCTCTTTGCCGACAATTGCGCCTCCTGCCACGGGGAAGACGCCAAGGGCAATCGCGAATTCGGCGCGCCCAATCTTGCCGACGCGATCTGGCTGAAGTCGCATGGGGAGGAAGGCATCGTCGCGCAGATCCGGTCGCCCAAACACGGGGTCATGCCCGCCTGGGGTGAGCGTCTCGGCGATACGACGGTCAAGCAGCTGGCGATCTTCGTGCACTCGCTTGGCGGCGGCGAATAA	MSEKHIDDISGVETTGHEWDGIRELNNPMPRWWVWTFYFTILWAIGYTIAYPAWPLINGATQGLLGWNSRGDIAAEIADAKQSQSVFVDKIANSSLAEIQADPTLMQFALSGGAAAFKVNCIQCHGSGAEGGQGYPNLNDDDWMWGGSVDDIYTTVKHGIRFADDADTRASEMPAFGEILKSDEIREVAAYVVSLTGTPSNPALVEPGKQLFADNCASCHGEDAKGNREFGAPNLADAIWLKSHGEEGIVAQIRSPKHGVMPAWGERLGDTTVKQLAIFVHSLGGGE	PGPT0000153_1544	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0000153-fixP|ccoP-K00406	NA	NA
BMS010_05369	153			hypothetical protein	ATGGAAACCTACACGGCCATGCGCCACTTCGCCGATAGCTGGGGCTTGCTTGCCATGACCCTGTTCTTTGCCGGCGTCGTCGTTTTCACCCTTCGCCCCGGCTCGAAGAAGGCCGCGGACGATGCCGCCAGCATTCCGCTCAAGGAGGACTAG	METYTAMRHFADSWGLLAMTLFFAGVVVFTLRPGSKKAADDAASIPLKED	PGPT0000154_1132	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0000154-fixQ|ccoQ-K00407	NA	NA
BMS010_05370	732			hypothetical protein	ATGTCCATACTTGACAAACACGGCGTCATCGAACGCAACGCCACGCTGCTTCTGGTCGGCTCCCTGCTGGTCGTCTCCATCGGGGGTATCGTGGAAATCGCACCGCTCTTTTATCTCGAAAACACCATCGAGAAGGTGGAGGGCATGCGACCCTACACGCCGCTGGAACTGGCCGGGCGCAACATCTACATCCGCGAGGGATGTTACGTCTGCCACAGCCAGATGATCCGGCCGTTCCGCGACGAGGTGGAACGTTACGGGCATTACAGCCTGGCGGCGGAATCCATGTACGATCATCCGTTCCAGTGGGGTTCCAAGCGCACGGGGCCTGACCTTGCGCGCGTCGGCGACCGTTATTCGAACGAGTGGCACGTGCAGCATCTGGCCGATCCGCGTTCGGTGGTGCCGGAATCGGTCATGCCCTCCTATGCGTTCCTGAAGACCACGCCGCTGAAGATCACCGACGTTTCCATGGAGCTGAAGGCCAACCGCGCCGTCGGTGTGCCTTATAGCGACGAGATGATCGAGAAATCCGCTGCCGACCTCGCCGCCCAGGCCGATCCGAATGCGGATTCGTCGGAACTTCTGGCGCGTTATCCGAAAGCGAAGGTGGGCGATTTCGACGGCGATCCGGCCAAGCTCACCGAAATGGATGCGCTGGTCGCCTATCTGCAAATGCTCGGCACGCTGGTCGATTTCTCGACCTATGACGATGCCGCCGGATACCGGTGA	MSILDKHGVIERNATLLLVGSLLVVSIGGIVEIAPLFYLENTIEKVEGMRPYTPLELAGRNIYIREGCYVCHSQMIRPFRDEVERYGHYSLAAESMYDHPFQWGSKRTGPDLARVGDRYSNEWHVQHLADPRSVVPESVMPSYAFLKTTPLKITDVSMELKANRAVGVPYSDEMIEKSAADLAAQADPNADSSELLARYPKAKVGDFDGDPAKLTEMDALVAYLQMLGTLVDFSTYDDAAGYR	PGPT0000152_406	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0000152-fixO|ccoO-K00405	NA	NA
BMS010_05371	1623	fixN		Cytochrome c oxidase subunit 1 , bacteroid	ATGAATTACACGTTAGAAACCGCGGTCGTGGCGCTCGGCGCCTTTCTCGCGTTGCTCGGGGCAGCCTTTGCCCATGACAATCTTTTCGCCGCCCATATGTGGGTGCTGTTCTTTACGCTTCTGGTCAGCACGGTGCTTCTGTTGCGCCGTGTCTCCTTCGCGCCTGTCGATTCAGCCGCGCGTGCCCGCCTCAAGTCGGAATATTTCGATGAGGTGGTGAAATACGGCGTCATCGCCACCGTGTTCTGGGGTGTCGTCGGCTTTCTGGTCGGCGTCGTGGTGGCGCTTCAGCTCGCCTTTCCCGATCTCAATATCGCGCCCTATTTCAATTTCGGCCGGATGCGGCCGCTGCACACATCGGCGGTGATCTTCGCTTTCGGGGGAAATGCGCTGATCGCCACCTCCTTTTACGTGGTGCAGAGAACCTGTCGGGCGCGCCTGTTCGGCGGCAATCTCGGCTGGTTCGTGTTCTGGGGCTACAACCTCTTCATCGTCATGGCCGCCACCGGCTATCTGCTCGGTATTACGCAGGGCCGCGAATATGCGGAGCCGGAATGGTATGTCGATATCTGGCTGACCATCGTCTGGGTTGCCTATCTCGTCGCCTTCCTTGGCACGATCTTCATGCGCAAGGAGCCGCATATCTATGTGGCGAACTGGTTCTACCTGGGATTCATCGTCACGATTGCCATGCTGCATATCGTCAATAATCTCGCCATTCCGGTCTCGTTCCTCGGCGTCAAGAGCTACTCGGCCTTTTCGGGCGTGCAGGATGCGCTGACGCAATGGTGGTACGGCCATAACGCGGTCGGCTTCTTCCTGACGGCCGGATTCCTCGGCATGATGTATTATTTCATCCCGAAGCAGGTGAACCGCCCGGTCTATTCCTACCGCCTGTCGATCATCCACTTCTGGGCGCTGATCTTCATGTATATCTGGGCCGGCCCGCACCACCTGCACTATACAGCGCTGCCGGACTGGGCGCAGACGCTCGGCATGGTGTTCTCGGTGATGCTGTGGATGCCCTCGTGGGGCGGCATGATCAACGGTCTGATGACGCTTTCGGGCGCATGGGACAAGATCCGTACCGATCCCGTCGTGCGCATGATGGTGATGGCGGTTGCCTTCTACGGCATGGCGACCTTCGAAGGCCCGATGATGTCGATCAAGGCCGTCAATTCGCTCAGCCACTATACCGACTGGACCATCGGCCATGTTCATTCCGGCGCTCTCGGCTGGAACGGCATGATCACCTTCGGCGCGATCTATTACCTGACGCCGAAACTGTGGGGCAGGGAGCGTCTCTATAGCCTGCAACTGGTCAACTGGCACTTCTGGCTCGCCACGCTCGGCATCGTCGTTTACGCCGCCGTCATGTGGGTGGCCGGCATCCAGCAGGCGCTGATGTGGCGCGAATATGATAGCCAGGGCTTCCTCGTCTATTCCTTCGCGGAATCGGTCGCGGCGCTGTTCCCCTATTACGTGATGCGTGCATTGGGCGGCCTGATGTTCCTCAGCGGCGCGCTAATCATGGCCTACAACGTCACGATGACCATCCTCGGTCATCAACGCGAGGAGGGCGCCAGCAAGGACGCGGCTCCTTCGCTGCAGCCTGCTGAATAA	MNYTLETAVVALGAFLALLGAAFAHDNLFAAHMWVLFFTLLVSTVLLLRRVSFAPVDSAARARLKSEYFDEVVKYGVIATVFWGVVGFLVGVVVALQLAFPDLNIAPYFNFGRMRPLHTSAVIFAFGGNALIATSFYVVQRTCRARLFGGNLGWFVFWGYNLFIVMAATGYLLGITQGREYAEPEWYVDIWLTIVWVAYLVAFLGTIFMRKEPHIYVANWFYLGFIVTIAMLHIVNNLAIPVSFLGVKSYSAFSGVQDALTQWWYGHNAVGFFLTAGFLGMMYYFIPKQVNRPVYSYRLSIIHFWALIFMYIWAGPHHLHYTALPDWAQTLGMVFSVMLWMPSWGGMINGLMTLSGAWDKIRTDPVVRMMVMAVAFYGMATFEGPMMSIKAVNSLSHYTDWTIGHVHSGALGWNGMITFGAIYYLTPKLWGRERLYSLQLVNWHFWLATLGIVVYAAVMWVAGIQQALMWREYDSQGFLVYSFAESVAALFPYYVMRALGGLMFLSGALIMAYNVTMTILGHQREEGASKDAAPSLQPAE	PGPT0001055_342	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0001055-fixN|ccoN-K00404	NA	NA
BMS010_05372	522	cobP_1		Bifunctional adenosylcobalamin biosynthesis protein CobP	ATGACAGATAAAAACCGCTCCGTTTTCATTCTTGGCGGCGCGCGCTCCGGCAAGTCCCGTTTTGCGGAGGAGCTTGCGGGCAAGTTCGGTGGAAGCCTGCATTATCTGGCCACCGGCCGGGCATGGGATGACGAGATGCGTGAGCGCATCGTCCATCATCAGGCGCGGCGCGGCGGTGAATGGACCACGCATGAAGCGCCCGTCGATATTGCCGCCGTGCTGGAGCAGCTCGATGCGCCGGAAAATGTCGTTCTCATCGATTGCCTCACCCTGTGGCTCACCAATCTGATGATGGAGAATGCCGATATCGAGGCTGCCTTTGCGGCGCTTGAGGCGGCGATTGTATCGGCTCGGGCAAAGCTGATTTTCGTCTCCAACGAAGTCGGTCTCGGCATCGTGCCGGAAAACCGCATGGCGCGGGAATTTCGCGACCACGCCGGCCGCCTGCATCAGCGAATCGCCGCCATTGCCGGTGAGGTCTATTTTGTCGCCGCCGGTCTGCCCCTGAAGATGAAGGGCTGA	MTDKNRSVFILGGARSGKSRFAEELAGKFGGSLHYLATGRAWDDEMRERIVHHQARRGGEWTTHEAPVDIAAVLEQLDAPENVVLIDCLTLWLTNLMMENADIEAAFAALEAAIVSARAKLIFVSNEVGLGIVPENRMAREFRDHAGRLHQRIAAIAGEVYFVAAGLPLKMKG	PGPT0004585_1896	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004585-cobP|cobU-K02231	NA	NA
BMS010_05373	693			hypothetical protein	ATGACCGTCATGGACTATATCTCGATCGTCGTTTTCATCCTGTTATGGGCCGTCTATACCCATGTCACGACGGGAACGCGGCTATTTTCGAGAGCCAGCCTCAATCAGGCCATGGCCGAGCGTCGGCGAGACTGGATCATGAATTCGCTGAAGCGCGACCTGAAGATGATCGACACGCAGATCATGGCCGGCCTGCAGAACGGCACCGCCTTTTTCGCTTCCACCTCCATCTTCGCCATCGGCGGATGTTTCGCCCTTCTGGGCGCGACCGAACAGGTCGAATCGGTGTTTCGCGACATGCCTTTCGTGCATTACGCCGGGCGCACGGCCTTTGAACTGAAGGTCATCGGGCTCACCTGCCTGTTCGGTTATTCCTTCTTCAAGTTCGGCTGGTCGTACCGCCTGTTCAACTATTGCACGATCCTGTTCGGCGCCATTCCCATGGTTCACGACGTCGGCGCCGATCGCGAGGCGGCGGAGCGGGCGGCCGAAAACGTCATAAAGATGAACATCATCGCTGCTAAGAACTTCAATGACGGCCTGCGGACCATCTTTCTGTCCATCGGTTATCTCGGCTGGTTCATCAGCCCTTATGTCTTTATCGCCAGCACGGTCATCATCATCGTGGCGCTGCTACGCCGCCAGTTCTTTTCCGAAGCACGACGCGCCATCATGGAAGAAAACAGGCCTTGA	MTVMDYISIVVFILLWAVYTHVTTGTRLFSRASLNQAMAERRRDWIMNSLKRDLKMIDTQIMAGLQNGTAFFASTSIFAIGGCFALLGATEQVESVFRDMPFVHYAGRTAFELKVIGLTCLFGYSFFKFGWSYRLFNYCTILFGAIPMVHDVGADREAAERAAENVIKMNIIAAKNFNDGLRTIFLSIGYLGWFISPYVFIASTVIIIVALLRRQFFSEARRAIMEENRP				NA	NA	NA	NA	NA
BMS010_05374	966			hypothetical protein	ATGGACACGAACGCAGCCGCAAACGAAAACCGCCGCAAAGGCCGCATAGGCGGTCTCGACACCCTGCGCGGGCTGGCACTCATCGCCATGGCGTCCTACCACTTCACGTGGAATCTGGAATATTTCGGCTATCTCGAACCCGGCACGGCGACGACCGGCCTGTGGAAGCTCTATGCGCGCGGCATCGCCAGCTCGTTCCTGTTTCTGGCCGGTTTCAGCCTGTTTCTTGCCCATGGCAAGGGCGTGAACTGGCCGTCTTTCGGCAAGCGTTTTGCGATGGTGGCCGGCTCGGCGCTGCTCATTACCGTCGCCACCTATTTCGCCTTTCCGGACAGCTTCATCTTCTTTGGCATATTGCACAATATCGCCGCCGCAAGCCTTGTCGGGCTGTTGTTCCTGCGAGCACCCGCGGCCGTGACGCTGCTTTTTGCAGTGGTTGCTTTCATCCTGCCGCACTATCTGCAATCGGAGCTGTTCAACGCAAAATGGCTGGCCTGGATCGGTTTTTCCACCATGCCGCCCCGCTCGAACGATTATGTGCCGCTGCTCCCCTGGCTTGCGCCCTTCCTCGCCGGACTTGCGGCCTCGCAATTCGTCACGCCGCGCGACTGGCTCGACCGCTTTCGAAGCCCGAGTTCGCCTCGCAACCTGATCGCAGGCGCCGGCCGTCACAGCCTTGCCTTTTACCTCATCCACCAACCGGTGCTGATCGGCCTCGTCTACACGCTGTCACTCATCGCCCCGCCCCCGCCTGTCGATCAGGTCGAGCTTTACAAATCGAGCTGTGAAAAGAGCTGCGTCGAGCAGGCGAACGGACTGGAACTGTGCCAGCGTTTCTGCGGCTGCACGCTGGAGAAGCTGCAGGCGGAAAACCTGTTCGACACGATGATGGAAGGCAAGCTCAGCGCCGATCAGCAAACGAAGGTAAGCGACGTGGCGCAGCAGTGCACGGTTGAGGCGCAGTAG	MDTNAAANENRRKGRIGGLDTLRGLALIAMASYHFTWNLEYFGYLEPGTATTGLWKLYARGIASSFLFLAGFSLFLAHGKGVNWPSFGKRFAMVAGSALLITVATYFAFPDSFIFFGILHNIAAASLVGLLFLRAPAAVTLLFAVVAFILPHYLQSELFNAKWLAWIGFSTMPPRSNDYVPLLPWLAPFLAGLAASQFVTPRDWLDRFRSPSSPRNLIAGAGRHSLAFYLIHQPVLIGLVYTLSLIAPPPPVDQVELYKSSCEKSCVEQANGLELCQRFCGCTLEKLQAENLFDTMMEGKLSADQQTKVSDVAQQCTVEAQ				NA	NA	NA	NA	NA
BMS010_05375	387			hypothetical protein	TTGGACAAGTATTATAGCATAACCGAACTGACACGCGAATTCGGTGTTTCCACCCGTACCTTGAGATTTTACGAGGACGAGGGGCTAATTCACCCTGAGCGTCGCGGGCGCACACGGCTTTTCAGGGCTGCGGACCGCCGCCTCATTCAGGAAATCCTGCGCGGCCGCCGTATCGGTTTCACGATCTCCGAAATTCGCGAAATCATCCACGTCTACAAGGAACCGCCGGGCGAATCGGGCCAATTGGTGCTTCTGATGAAGAAGGTCGATGAAAAGCGCGCGGAGCTTCGGCAAAAACGCAAGGACATCGAAGAGACGCTGGCGGAACTCGACAATGTCGAAGAAGCCTGTCTGACGCGGCTTGCCGAAATCGGCGTGGGGACGTGA	MDKYYSITELTREFGVSTRTLRFYEDEGLIHPERRGRTRLFRAADRRLIQEILRGRRIGFTISEIREIIHVYKEPPGESGQLVLLMKKVDEKRAELRQKRKDIEETLAELDNVEEACLTRLAEIGVGT				NA	NA	NA	NA	NA
BMS010_05376	1428	mgtE	COG2239	Magnesium transporter MgtE	ATGACAGACCGTGACGACGATCCTGTCGCGCCCGAGGACATGAAGCCTGCGGAAGCGCCCTCCGATATTTACGCAGAAGACGGCTCCGTCCGCTCGGATTTTCTGACGATGGTGGGTGCCGCGATCGCTGACCGCGATCTGCTTTTCCTGCGCAAGAACGTGGCGCGGCTGCACGAATCCGAACTCGGCGACCTGCTGGAATCCATCCTGCCGGAACAGCGCCATGCGCTGGTGCGCCTTCTCGGTTCCGACTTCGACATGACGGCGCTGACCGAGGTGGATGAGGGTATCCGTCTCGATATCGTCGACCAGATGTCGAACGAGCAGATCGCAGCCGGTATCGGCGAGCTGGATTCGGACGACGCCGTCTATATTCTCGAGGACCTCGACGACGAGGACCGCGAGGATATTCTCTCGCAACTGCCGTTCACCGAACGTGTGCGGCTGATGCGGGCTCTGGATTATCCGGAAAGCTCGGCCGGGCGCCGCATGCAGACGGAATTCGTGGCCGTGCCGCCGTTCTGGACCGTGGGGCAGACCATCGATTATCTGCGCGAGGAGGAGGAGCTGCCGGATTCCTTCACGCAGATATTCGTCATCGACCCCACCTTCAAACTGGTCGGCGCGCTCGATCTCGACAAGGTGCTGCGCGCCAAGCGTCAGGTGAAGATCGAAACGATCATGCACGAGACCAACCACTCCATTCCGGCGGAAATGGACCAGGAAGAGGCCGCGCAGCTTTTCGAGCAATACGACCTTCTCTCCGCCGCCGTGGTCGACAACAACGGCCGACTGGTGGGCGTGCTGACCATCGATGACGTGGTGGACGTCATTCAGGAAGAGGCCGAAGAGGATCTGCTGCGCCTTGGCGGTGTCGGTGACGAAGAACTGTCGGACTCGATTGCCAGCACATCGCGTTCACGCGTGCCCTGGCTTGCGGTCAATCTCATCACCGCCTTTCTCTCCGCCTCCGTCATCAGCCTGTTCGATGCGACGATCCAGCAGATCGTCGCGCTGGCGATCCTGATGCCGGCGGTGGCCGGCATGGGCGGCAATGCCGGGTCGCAGACCATGACGGTGTCCGTGCGGGCACTTGCCACCAAAAGCCTCGATATTCACAACGCCGCGCGCATCATCCGGCGTGAGGCGGGTGTGGGTATCCTGAACGGCATGCTGTTCGGCTGCGCCATCGGCATTGTTGCCGGTATCTGGTTTCAGGATATCCATATTGGCGGCATCATCGCCACGGCCATGTGTCTCAACATGCTGGCGGCGGCGCTGGCGGGCATTCTCATTCCGCTGGTGCTCGACAAGTTCGGGGCGGACCCGGCGGTCTCCTCGGCGGTCTTCGTCACGGCGGTCACCGATATTGTCGGCTTTTTCGCCTTTCTGGGGATCGCGACCTGGTGGTACGGTATTTCCGGGTAG	MTDRDDDPVAPEDMKPAEAPSDIYAEDGSVRSDFLTMVGAAIADRDLLFLRKNVARLHESELGDLLESILPEQRHALVRLLGSDFDMTALTEVDEGIRLDIVDQMSNEQIAAGIGELDSDDAVYILEDLDDEDREDILSQLPFTERVRLMRALDYPESSAGRRMQTEFVAVPPFWTVGQTIDYLREEEELPDSFTQIFVIDPTFKLVGALDLDKVLRAKRQVKIETIMHETNHSIPAEMDQEEAAQLFEQYDLLSAAVVDNNGRLVGVLTIDDVVDVIQEEAEEDLLRLGGVGDEELSDSIASTSRSRVPWLAVNLITAFLSASVISLFDATIQQIVALAILMPAVAGMGGNAGSQTMTVSVRALATKSLDIHNAARIIRREAGVGILNGMLFGCAIGIVAGIWFQDIHIGGIIATAMCLNMLAAALAGILIPLVLDKFGADPAVSSAVFVTAVTDIVGFFAFLGIATWWYGISG	PGPT0013995_738	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0013995-mgtE-K06213	NA	NA
BMS010_05377	2301	ydeP_1	COG0243	Protein YdeP	ATGAGCAAGACGGACTTCATTGGCAAGGCATCGACAGCCGCAGGCGGCTGGGGCGCACTCAAAAGCGTCGGCAAACGCCTTCTTGAATCCGGCGCCCCGATTTCCGGCGCCCGCACGCTTTTGAAAACCAACCAGCCGGATGGATTCGACTGCCCAGGCTGCGCCTGGGGCGACCCGGAACACGGCTCCTCTTTCGAATTTTGCGAAAACGGCGTCAAGGCCGTTTCATGGGAAGCGACGGAGGCCCGCGTACCGCCGGACTTCTTCGCCAGCCGCACCGTCTCGGAACTGCGCGGCTGGTCCGACTACGATCTGGAAAAACAGGGCCGCCTCACCCATCCCATGCGTTATGACCGGGCGAGCGACAAATATCTGCCCGTCTCCTGGGACGATGCCTTCTCCGAAATCGGCCGTATCCTCAACAGCCTCGACAGCCCGGACCGGGCGGAGTTCTATACCTCCGGCCGCGCCTCCAACGAGGCGGCCTTCCTCTATCAGTTGATGGTCCGGCTTTACGGCACCAACAATTTCCCCGATTGTTCGAACATGTGCCACGAAGCGAGCGGCGTCGGCCTGAAGGCTTCGATCGGCGTCGGCAAGGGCACCGTTTTGCTTGAGGATTTCGAACAGACGGACGCCATTTTCGTCATCGGGCAAAATCCCGGCACCAACCATCCCCGCATGTTGGGCGACCTGCGCCGCGCCGCGCTTCGCGGCGCTCGCATCGCTGTTTTCAACCCCATCCGTGAAAAGGGTCTGGAACGCTTTGCCGACCCTCAGGACAAGGTGGAGATGATTACCGGCGGCAGCACCCGCATCGCCACCAATTATTACCAGCCGCGCCAGGGCGGCGACATGGCGGCCGTGCGCGGCATGAGCAAGGCGGTCTTCGCCGCTGACGATGCCGCAAGGGCGGCGGGCGAACCCGCCATCATCGATTACGACTTCATCGCCGAACATGCGGCGGAGTTCGAGGCCTATCGTGCTGCCGTCGATGCGACGAGCTGGGAAAGCATCCTCGACCAGTCCGGCCTCACCCGCGCGGAGATCGAGGAAGCCGCCCGCATCTACATGAATGCCGGTTCCGTCATCGCCACCTGGGCCATGGGCGTCACCCAGCACAAGCATTCGGTCATCATCGTTCGCGAGATCACCAATTTCATGCTGCTGCGCGGCAATATCGGCCGGCCCGGCGCCGGCCTCTGCCCGGTGCGCGGCCATTCCAACGTGCAGGGCGACCGCACCGTCGGTATCGACGAAAAGGCCCCGCCAGCGCTTCTCGACGCGCTGGAGAAGGAACTCGGCGTCCCCATGCCGCGCAAGCCCGGCCACAATACCGTGGAAGCCGTCGCTGCGATGCTGGACGGCGAGGCTCAGACTTTCATCGCGCTCGGCGGTAATTTCATGCGTGCGACGCCCGACAGCCCGCTGATCGTCAAGGCCTTCGAAAAGCAGAAGCTGACCGTCAACATCGCCACCAAGCTCAACCATTCGCATCTGGTGCCGGGCGAAACCTCCTTCGTGCTGCCCTGCCTCGGCCGAACGGAAATTGACCGCAATTCGGCCGGCCGGTCGCAGATCGTCACGGTCGAAGATTCCATGAGCATGGTGCACGGTTCCGGCGGCATCAATCCGCCGGCCTCGGATGAGCTGCGTTCGGAAGTCGCCATCGTCGCCGGCATCGCCGAGGCGACGCTTGGCAATGTCCATGTCGACTGGAAGGCGCTTGCCGATGACTACGATCTCATCCGCGACATGATCGAGCGGGTCATTCCCGGTTTCGATAATTTCAACGAGCGCGTCCGCGTGCCGCGCGGTTTTCATCTGCGCAACGCAGCAGCCGAACGGGAATGGAACACGCCGGCGAAAAAGGCCACCTTCTATAGCGGCCCCTTGCCCGAACAGACCGAACACCAGCAGGCGCTCACGCGCGACGACCTGTTCGTATTGCAGACCTTCCGCAGCCACGATCAATACAACACCACGATCTACGGCATGGATGACCGTTATCGCGGTGTCTATGGCGAGCGCCAAGTCATCTTCATGAACCCGAAGGATATGGAAGCGCTCGGCGCTCATTCCCGCCAGCGCGTCGATGTCATCGGCGAATATGGCGACGGCGTGGAACGCATCGCAAAGAATTTCCGGCTGGTGCCCTATAATATCCCGCAGGGCAGCGTCGGCGGTTATTATCCCGAACTGAATGTGCTGGTGCCGCTGTCGAGTTATGGCGAAGGCAGTTTCACGCCGACATCGAAATCGGTGCTCGTCTCCGTTCGCCTGCGCCGGGATGCCTCCTGA	MSKTDFIGKASTAAGGWGALKSVGKRLLESGAPISGARTLLKTNQPDGFDCPGCAWGDPEHGSSFEFCENGVKAVSWEATEARVPPDFFASRTVSELRGWSDYDLEKQGRLTHPMRYDRASDKYLPVSWDDAFSEIGRILNSLDSPDRAEFYTSGRASNEAAFLYQLMVRLYGTNNFPDCSNMCHEASGVGLKASIGVGKGTVLLEDFEQTDAIFVIGQNPGTNHPRMLGDLRRAALRGARIAVFNPIREKGLERFADPQDKVEMITGGSTRIATNYYQPRQGGDMAAVRGMSKAVFAADDAARAAGEPAIIDYDFIAEHAAEFEAYRAAVDATSWESILDQSGLTRAEIEEAARIYMNAGSVIATWAMGVTQHKHSVIIVREITNFMLLRGNIGRPGAGLCPVRGHSNVQGDRTVGIDEKAPPALLDALEKELGVPMPRKPGHNTVEAVAAMLDGEAQTFIALGGNFMRATPDSPLIVKAFEKQKLTVNIATKLNHSHLVPGETSFVLPCLGRTEIDRNSAGRSQIVTVEDSMSMVHGSGGINPPASDELRSEVAIVAGIAEATLGNVHVDWKALADDYDLIRDMIERVIPGFDNFNERVRVPRGFHLRNAAAEREWNTPAKKATFYSGPLPEQTEHQQALTRDDLFVLQTFRSHDQYNTTIYGMDDRYRGVYGERQVIFMNPKDMEALGAHSRQRVDVIGEYGDGVERIAKNFRLVPYNIPQGSVGGYYPELNVLVPLSSYGEGSFTPTSKSVLVSVRLRRDAS	PGPT0019635_3094	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FORMATE_UTILIZATION,PGPT0019635-fdoG|fdhF|fdwA-K00123	NA	NA
BMS010_05378	303			hypothetical protein	ATGGAAGAGGAGCAATCCACTGCGGCGTTCATGGCGGCGGTGGAGCGGGTTCAGGAAAGCGCCTCAAAGGCGCTGACCGCCACGGGCGCAGCGATCCTTCTTTCGGTTTATCTGACCATCGGCGCTGACAGCCGCAGTATCGCCAACCGGCTGGGGCTTGCACACGCCCTCATTCTGCGCGAAATCACTTCCCTGTCGCCACGTTTCGTGCGGGTGACAAAACGCGATGCCCGCACCCAGCGCAGCTTTCTGGAGGCAACCGAAGAAGGACAGGCCCTTGCGGCGGCGTCCCTGCGGATTTGA	MEEEQSTAAFMAAVERVQESASKALTATGAAILLSVYLTIGADSRSIANRLGLAHALILREITSLSPRFVRVTKRDARTQRSFLEATEEGQALAAASLRI				NA	NA	NA	NA	NA
BMS010_05379	495	def_3	COG0242	Peptide deformylase	TTGGCAATCAGGCCGATCCTGCCCTATCCCCATCCCGGCTTGTCCGAAATCTGCGCGCCGGTCACGGCTTTCGACGGGCAATTGCAGGAACTGGTGACGGACCTGATCGATACGATGCGCGCCGCACCCGGCGTCGGCATCACCGCCGCCCATATCGGCGTCAAACAGCGCGTTTTCGTGCTGGAGCTGACACCGGGAACCGTGCTCACCTACATCAATCCTGAAGTCGTCAGCCAATCCACGCAGACCATGCGCCATGTGGAGGGCAGCGTCTCCATGCCGGGCTTCACGGAGGAAGTGGAGCGACCCTCCGAAATCGAGGTGAGATTTCAGGACGTAGCCGGCGGCGAACACCGGCAGGCCGCCGAGGGATTTCACGCCATCTGCATCCAGCACGAGATCGACCAGCTGGACGGCATTTTCTGGCTGAAGCGCCTCTCGAAGCTCAAGCGCGACCGGCTGGTGAAAAAATGGGAAAAATCCCGGAAATCCTGA	MAIRPILPYPHPGLSEICAPVTAFDGQLQELVTDLIDTMRAAPGVGITAAHIGVKQRVFVLELTPGTVLTYINPEVVSQSTQTMRHVEGSVSMPGFTEEVERPSEIEVRFQDVAGGEHRQAAEGFHAICIQHEIDQLDGIFWLKRLSKLKRDRLVKKWEKSRKS				NA	NA	NA	NA	NA
BMS010_05380	426			hypothetical protein	ATGAATCAGTTCAGGGTTAAAAAGCGGCCGACGGGCGCTGTCGTCACTCTTGGCCGTCTCGGGCATCCCGATGTCGTCACGGCCACCGGAGGCGCCCTGACGGTGGTGACGGCGGCCTCGGAGCCGGGTTTCAATCCGCTCGATCTTCTTTATTCGTCGCTGTCGGCCTGTCTGGCGCTCAGCGCCCGGATTGCGGCGAGCCGCATGGGCGTGCTCGACCGGTTCGAAAAGGTCATGGTGCGTGTATCCGGCGAAAAGGCTGAGGAGGAGCCGTCGCGGATCGTGCGTTTCGATGTCCGGATAGAGATAAAGGGGGATTTCGATGAGGCCACGCGCAGCGCCATCGCCCATATGGCCGAGGATATCTGCACCGTCAGCAACACGCTGAAGGGCGATGCGGAATTTGCGCTGTCGATTACCGGCTGA	MNQFRVKKRPTGAVVTLGRLGHPDVVTATGGALTVVTAASEPGFNPLDLLYSSLSACLALSARIAASRMGVLDRFEKVMVRVSGEKAEEEPSRIVRFDVRIEIKGDFDEATRSAIAHMAEDICTVSNTLKGDAEFALSITG				NA	NA	NA	NA	NA
BMS010_05381	168			hypothetical protein	ATGGTTACATCTACGCTCGTCAGCATTCTGATCACCTTCCTGGTGATTGTGCTCGTCTTGTGGCTTATCGCGCGACTGCCGGTCGGCGGCGGTGCGAAACAGATCGCACAGGTGATCGTCATCATCATCGGCATTATTTCGCTGCTGAAATATCTCGCCGTCTTCTGA	MVTSTLVSILITFLVIVLVLWLIARLPVGGGAKQIAQVIVIIIGIISLLKYLAVF				NA	NA	NA	NA	NA
BMS010_05382	426			hypothetical protein	ATGTTAGCTTTTGTCAGGAAAATATGTCTGGGGGTTTTCGTGCAGGGGGACAAAACGGATTCAGACAATGCGCTTGGCTATTACATGTGGAGTATTTCCGATAACAGGCTGATCATGGATGCGGTCACTGCGGAATGCCATGGGTTTTCGGAGCCGGTTGCGTCGCGTGGGGTGACGATCGAGGAGATTCTCGAAAGAATCGATGTCGAGATGCGCGATCAGGTGGCGCAGGCCATTTTTGAGAGCATCACTACCGGGGTGTTTTTCGACCAGCGCTACAAGGTCAATCTGCCGGATGGGTCGGATCGGTGGATCGTGGCGAAGGGCAGGGCGATTTTCGATGCCGACAATACGCCGTTTCTGGGTATTGGCAGCGTTCGGGATATTACCCTAAAAAAAACCTATCAGTTCGAGCCTCGGCAATAG	MLAFVRKICLGVFVQGDKTDSDNALGYYMWSISDNRLIMDAVTAECHGFSEPVASRGVTIEEILERIDVEMRDQVAQAIFESITTGVFFDQRYKVNLPDGSDRWIVAKGRAIFDADNTPFLGIGSVRDITLKKTYQFEPRQ				NA	NA	NA	NA	NA
BMS010_05383	162			hypothetical protein	ATGGTGCGAGCCGCCCTCACGTTCGGATTGCTGACCGCAACCGTCTTTCTGGCCGGGTGCCAGACGTGGCATAGTCCATATCGTGGAAACGAGTGGCGCATGGATCAGGTCATGGATGGTGACCCCTACCGCGTCGGTGACGGCCAGCGCAACCGACGCTGA	MVRAALTFGLLTATVFLAGCQTWHSPYRGNEWRMDQVMDGDPYRVGDGQRNRR				NA	NA	NA	NA	NA
BMS010_05385	732	lipB_1		Octanoyltransferase	ATGCTCACACGCACCGATATCGAGACAAACATGCTGCCCGTCGCCGGTTCGCCGCCCGTTCGCTGGCGAATCTCGGAAGGCCTCGTCCCTTATGAGCAGGCGATTGAGGAAATGGAGCGTGAAGTCGCCGCCATTGCCAGCGGCGAGGCCGACGAACTCGTCTGGCTTCTGGAACATCCGCCGCTCTATACCGCCGGCACCAGCGCCGATGCCGCCGACCTCATAGAACCGGAGCGTTTTCCCGTCTTCGCCACGGGTCGTGGCGGCGAATATACCTATCACGGGCCGGGACAGCGGGTCGTCTATGTCATGCTCGACCTGAAGCGGCGGCGGCAGGATGTCCGCGCCTATGTGGCGGCGCTGGAGGATGTCATCATCCGCACGCTCGACAAGATGAATGTGCGTGGCGAGCGGCGCGAGGACCGCGTCGGCGTCTGGGTCAGACGACCGGAGAAACCGCTGCTTCCCGATGGCGGCATGGCCGAGGACAAGATCGCGGCACTTGGCATCAGGCTGCGCAAATGGGTGAGCTTCCACGGGCTCTCGATCAATGTCGATCCAGACCTCTCGCATTTTTCCGGCATCGTTCCCTGCGGCATCAGCGCCTATGGCGTCACCAGCCTTGTCGATCTTGGATTGCCGGTTATGATCGGCGACGTCGACGTTCTGCTGCGCGAGGCCTTTGAGGAGGTGTTTGGCGAGGCAGTGCCCGAAACCGGCGCAAGCGGCTGA	MLTRTDIETNMLPVAGSPPVRWRISEGLVPYEQAIEEMEREVAAIASGEADELVWLLEHPPLYTAGTSADAADLIEPERFPVFATGRGGEYTYHGPGQRVVYVMLDLKRRRQDVRAYVAALEDVIIRTLDKMNVRGERREDRVGVWVRRPEKPLLPDGGMAEDKIAALGIRLRKWVSFHGLSINVDPDLSHFSGIVPCGISAYGVTSLVDLGLPVMIGDVDVLLREAFEEVFGEAVPETGASG	PGPT0003925_873	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-PLANT_LIPOIC_ACID_INTERFERRENCE	PLANT_LIPOIC_ACID_BIOSYNTHESIS,PGPT0003925-lipB-K03801	NA	NA
BMS010_05386	1068	adhC2_2	COG1064	NADP-dependent alcohol dehydrogenase C 2	ATGTTCACTACGTCCGCCTATGCCTGCGATGACGGCTCTTCGCCGATGAAGCTCGCGACCATCAAGCGTCGCGATCCCGGCCCGCGCGATGTCGAAATCGAGATCGAATTCTGTGGCGTCTGCCACTCCGATATCCACACTGCCCGCAGCGAATGGCCGGGCTCCCTCTATCCCTGCGTTCCCGGCCACGAAATCATCGGCCGCGTCGGCCGTGTCGGCGCGCAGGTCACCCGGTTCAAGGCGGGCGACCGCGTCGGCGTCGGCTGCATCGTCGATAGCTGCCGGGAATGCGCAAGCTGCGCCGAGGGGCTGGAGCAATATTGCGAAAACGGCATGACCGGCACCTATAATTCGCCCGACAAAGCGATGGGCGGCGGCGCGCATACGCTCGGCGGTTATTCCGCCCACGTCGTCGTCGATGACCGTTACGTCCTCAATATTCCCGAAGGCCTCGATCCGGCGGCAGCAGCGCCCCTGCTCTGCGCGGGTATCACCACCTATTCGCCGCTGCGTCACTGGAACGCCGGACCCGGCAAGCGTGTCGGCGTCGTCGGTCTTGGCGGTCTTGGCCATATGGCCGTCAAGCTCGCCAATGCCATGGGCGCAACCGTGGTGATGATCACCACCTCGCCCGGCAAGGCGGAGGACGCGAAAAAGCTCGGCGCCCACGAGGTGATCGTCTCGCGCGATGCCGAGCAGATGAAGAAGGCCGCTTCGAGCCTCGATCTCATCATCGACGCCGTGGCCGCCGACCATGACATCAACGCCTATCTGGCGCTGCTGAAACGTGACGGCGCGCTGGTGCAGGTGGGCGCACCGGAAAAGCCGCTCTCGGTTATGGCCTTCAGCCTCATCCCCGGCCGCAAGACCTTTGCCGGCTCGATGATCGGCGGCATTCCCGAGACGCAGGAAATGCTGGATTTCTGCGCCGAAAAAGGCATCGCCGCCGAAATCGAGATGATCGATATCGATCAGATCAACGACGCTTATGAACGCATGATAAAAAGCGATGTGCGTTATCGTTTCGTCATTGATATGAAGAGCCTGCCGCGCCAGAAGGCCGCCTGA	MFTTSAYACDDGSSPMKLATIKRRDPGPRDVEIEIEFCGVCHSDIHTARSEWPGSLYPCVPGHEIIGRVGRVGAQVTRFKAGDRVGVGCIVDSCRECASCAEGLEQYCENGMTGTYNSPDKAMGGGAHTLGGYSAHVVVDDRYVLNIPEGLDPAAAAPLLCAGITTYSPLRHWNAGPGKRVGVVGLGGLGHMAVKLANAMGATVVMITTSPGKAEDAKKLGAHEVIVSRDAEQMKKAASSLDLIIDAVAADHDINAYLALLKRDGALVQVGAPEKPLSVMAFSLIPGRKTFAGSMIGGIPETQEMLDFCAEKGIAAEIEMIDIDQINDAYERMIKSDVRYRFVIDMKSLPRQKAA	PGPT0024430_316	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0024430-yahK-K13979	NA	NA
BMS010_05387	936	ribN_4		Riboflavin transporter	ATGACCAGCCAGACCGGTTTCAACGATATCGCCAAGGGCATGACCATCATGGCGGGTTGCATGCTGGTGCTGCCGGTCATGGATGCGATTGCCAAATACATGGCGGTGAGCGGCGGCATGTCGCCGGCGCAGGTGACCTTCTACCGCTTCTTTTTCCAGGTGCTCTGCACCCTGCCGCTGCTGCTCGTGGTGTCGCCCAGGGCGCTGTTCAGCGCCAAACGGCCGTGGATGAACTGCCTGCGCGGCGTGCTGCACGCCTCGGCCAGCCTGATGTTTTTCGCCGCCGTCAAATACATGCCGCTCGCCGATGTCTTCGCGATCTATTTCGTCGAGCCTTTCATGCTGACGATGATGTCGGCCCTCTTCCTCGGCGACAAGGTGGGCTGGAAGCGCTGGACGGCGATTGCGGTCGGCTTCGGCGGCGCGCTGATCGTCATTCAGCCGAGTTTCGAAATCTTCGGCTGGACATCGCTCCTGCCGGTCGCCTGCGCCTTTCTTTATACGCTCTACCTTTTCCTGAACCGCGCCATCGGCGATGCCGACAGCCCGTTGGTCATGCAGACAATGTCGGGCATTGCGGGTACCGTGTTCATGGGGGCGGCACTTTTCGCCGGCGATGCGCTGGGCGACAAGGATTTTGCCGTCTCGCTGCCGCAATCCGGCTTCGCACTTGCCTTGCTCGTATTGTTGGGGTCGATATCCGGCTACATGCACCTGCTGATCGTCAGGGCCTTCCGGCTGGCGCCGCTCTCTCTGCTGGCGCCGTTCCAGTATTTCGAGATCATCTCGGCGACGATCCTCGGTTATGCGCTGTTTTCGGATTTCCCGACGCCGTCGAAATGGCTCGGCATCCTCATCATCGTCGCATCCGGCCTGTTCATCATCTGGCGCGAGCGCCAGCAGGCCGGTGCGAACCCGCCGCTTGACGGGCAGTGA	MTSQTGFNDIAKGMTIMAGCMLVLPVMDAIAKYMAVSGGMSPAQVTFYRFFFQVLCTLPLLLVVSPRALFSAKRPWMNCLRGVLHASASLMFFAAVKYMPLADVFAIYFVEPFMLTMMSALFLGDKVGWKRWTAIAVGFGGALIVIQPSFEIFGWTSLLPVACAFLYTLYLFLNRAIGDADSPLVMQTMSGIAGTVFMGAALFAGDALGDKDFAVSLPQSGFALALLVLLGSISGYMHLLIVRAFRLAPLSLLAPFQYFEIISATILGYALFSDFPTPSKWLGILIIVASGLFIIWRERQQAGANPPLDGQ	PGPT0023680_31	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-SAM|QUEUOSINE|LIPID_METABOLISM,PGPT0023680-sam-K15270	NA	NA
BMS010_05388	459			hypothetical protein	ATGAGTATTGCGATCTGGATTATCGTTTTCGTGCTGCTTTCGGTCTTCGCTGTTTATGCCTGGCGCATGTCGCGGGCGACGGATGAGGATAACAGTCATGATGTGGGGCAGGCGATCATGGATTTCGCCCGCGCCTTTCCCAATGAGGCGATCAGAAGTCTGCATATGACGGCGGATGGCGGCGCAGCCTTCGTGCGGCTGCACGACAACAAAGCCGGCTTCATGCGCAATATGGGATCGCATTATGTGTGCGTGATGATCGATCCCGAGCGGATCCGGGTCGAAAGTCTTGAAAGCGGCGACGGTTTCGTCGTCACCTTTTTCGACATGCCGAAATATAGCGGCTCATACCGGTTCAAATCGGCCGGAGAGGCGGCCGAGGTTTCCCTCTGGCTGCTCGGCAGTCTCGTGGAGGCGCAGGACCATCACGACGAAGGCCCGCTGCCCTCGAACGGTTGA	MSIAIWIIVFVLLSVFAVYAWRMSRATDEDNSHDVGQAIMDFARAFPNEAIRSLHMTADGGAAFVRLHDNKAGFMRNMGSHYVCVMIDPERIRVESLESGDGFVVTFFDMPKYSGSYRFKSAGEAAEVSLWLLGSLVEAQDHHDEGPLPSNG				NA	NA	NA	NA	NA
BMS010_05389	846			hypothetical protein	ATGGCACCCACAGAAAATCTCGACGTCTGCCTCGCGACGCTGCGCGATACCGATCGCGACCGCTATCTCGCCTGTCTTCTGTCGCCTGCAGAAAAGCGCAATGCGCTTGCCGCGCTATACGCCTTCAATGCCGAAATTGCCCGCATCCGCGATTCCGTGCGCGAAGCGCTGCCCGGAGAGGTGCGCATGCAGTGGTGGCGCGATCTTCTCGACGGCAATCCACATGGCGACAGCCAATCCCACCCGGTGGCAGCAGCGCTTTTGACGACGATCGAGCACTATCGCCTGCCGCGCCCGGTTCTCGCCAATATGATCGAGGCGCGTATCTTCGATCTCTATGACGACCTGTTCGAGGATCGCAATGCGCTGGAAGGTTATGCCGGAGAGACCGCATCCGCATTGATCCAGCTTGCAAGCCTCGTGCTTTCCGCTGAAGACGCCGCATCCAGCGCGGAGGCGGCAGGGCACGCGGGCGTGGCGCAGGCCATGGCGGGCATGCTGCTGCTCATGCCGCTGCACCGGCGTCGCGGGCAGGTCTATATTCCCGCCGATATGCTGGCTGCGGCCGGGCTCGACCGCGAAACATTTCTTGAAGGGCAGGACAGGCAGCGCATCGGCATCGCCATCGAAATTTTCGCGGCCCATGCGCTGGATCATATCGAGAAGGCGAGACGCTTGAAGATTTCGAAAAATGTCTTTGCCGCCTATCTTCCCGTCGCCCTGTCCGCGCCGGTCATCGCTGCCGCGAGAAAGGCTGGGAGCGGCGTATTCGACGGAGACCTGCAACTGTCGCAGCTTCGCCGGCAATGGCTGCTGGCAAAGGCTTCCTTCCTCAAGCGTTTCTGA	MAPTENLDVCLATLRDTDRDRYLACLLSPAEKRNALAALYAFNAEIARIRDSVREALPGEVRMQWWRDLLDGNPHGDSQSHPVAAALLTTIEHYRLPRPVLANMIEARIFDLYDDLFEDRNALEGYAGETASALIQLASLVLSAEDAASSAEAAGHAGVAQAMAGMLLLMPLHRRRGQVYIPADMLAAAGLDRETFLEGQDRQRIGIAIEIFAAHALDHIEKARRLKISKNVFAAYLPVALSAPVIAAARKAGSGVFDGDLQLSQLRRQWLLAKASFLKRF	PGPT0007375_2038	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CAROTENOID_BIOSYNTHESIS,PGPT0007375-crtB-K02291	NA	NA
BMS010_05390	393			hypothetical protein	ATGGCCGGCGGGATTGAAATACGCCCGGCCCATTTTCCCGGCCGGGCGCCCATCGATGCCTATGGCAATGGCGGGTTCCGTTTTGCCGACATGTCGCATCGCGGTTCGCTTCTGCTCCTGCCTTCGGGCATCTACGGGTGGGAGCCTGTCGATGCGAAAGAACTGACGGTCGGACATTTCGAAAAGGTTCTGGCGGAAGCGCAGGATATCGAAGTGCTGCTGATCGGCACGGGCGACGGCATGCGGGTCCTGCCGAAGGAGTTGCGCACCGCCTTCAAGGAGGCGGGCATTTCGGTGGATCCGATGAGCACGGGGGCTGCCGTGCGCACCTATAATATCATGCTATCGGAATCGCGCGCCGTGGCTGCGGCGCTGATTGCCGTCGAAGGCTGA	MAGGIEIRPAHFPGRAPIDAYGNGGFRFADMSHRGSLLLLPSGIYGWEPVDAKELTVGHFEKVLAEAQDIEVLLIGTGDGMRVLPKELRTAFKEAGISVDPMSTGAAVRTYNIMLSESRAVAAALIAVEG				NA	NA	NA	NA	NA
BMS010_05391	2574	secD_1		Protein translocase subunit SecD	ATGCTTCATTTTTCCCGTTGGAAAACAGTCTTCATCTGGCTGCTTGTGCTGGCAAGCGTCTTCATCGCCTCTCCCAACCTGTTTACGGACAAACAGCTGGAGGGCATGCCTGCCTGGTACAAGGACAACAAGGTAACGCTCGGTCTCGACCTTCAGGGCGGTTCGCACATCATGCTCAAGATCGAGCGTTCCGACATCGTCAAGGAACGGCTTGAAACGATCGTGGGCGATGTGCGCACGCAGCTTCGCGACGCCAACATCCGCTATTCGGGGCTTACCGGCAACGGCCAGCAGATTCAGGTCCGCATCAGCGATCCCGCGCAGGTGGAAGCCGCCAAGAACGCGCTTCGCGACCTGACGCAGCCGGTGTCCGCCGGCACGCTGGTCGGCGGCTCCATCACCGAAGTGACGATGAATGACGGCGGCGACAATCTGCTCAGGCTCAACCTGACGGATGAAGGCATCGACTACCGCCTGTCGTCCGCCGTTTCGCAGTCCATCGAAGTCGTGCGCCGTCGCGTTGACGAAGTCGGCACCACCGAACCGCTCATCCAGCGTCAGGGTTCGGACCGCATCATCGTGCAGGTGCCCGGCCTTCAGGATCCGCAGCGCCTGAAATCGCTTCTGAACCAGACGGCAAAGCTCTCCTTCCGCATGGTCGATACGACGATGCCGGTACAGGAAGCCATGAACGGCCGTCCGCCCGCGACCTCCGAGGTTCTCTATTCACAGGACGATCCGCCGGTTCCCTATCTGGTGGAACGTCGCGCGCTCGTTTCCGGCGACAATCTCGTCGACGCGCAGGCAAGCTTCAACCAGCAGACCAACGAGCCGGTCGTTACCTTCCGCTTCGACAGCCGCGGTGCGCAGCGCTTCGCGCAGGCGACGCAGCAGAATGTCGGCAAGCCTTTCGCCATCGTTCTCGATAACCAGGTCATTTCCGCACCTGTCATCCGCGAGCCGATCATCGGCGGTTCGGGGCAGATTTCGGGTAACTTCTCGGTGCAGGGCGCCAACGATCTCGCGGTCCTGCTGCGCGCCGGTGCGCTGCCGGCCACGCTGACCGTGGTTGAAGAACGCACCGTCGGCCCGAGCCTCGGTAACGACTCCATCACCGCCGGCCTGACGGCCAGCGCCATCGGCGCGGTCGGCGTCCTCATCTTCATGTTCGTCTTTTATGGCTTCTTCGGCCTGCTGGCGAACATCGCCCTCATCGTCAACGTCATCATGCTGCTCGCGGTGCTAAGTGTTATCGGATCGACGCTGACCCTGCCGGGTATTGCCGGTATCGTCCTGACCATCGGCATGGCCGTGGATTCGAACGTTCTGATCTATGAGCGAATACGCGAGGAGGTGAAGAGCGGCAAACCGCTGATCCAGTCACTGGATAACGGCTTCACCCGCGCCTTTGCGACCATTATCGACGCCAACCTGACGACGCTGATCGTGGCAAGCGTGCTGTTCTACATGGGCACAGGCCCGGTCAAGGGCTTCGCAGTCACGCTGGCCGTCGGTATCATCACCACCGTCTTCACGGCCTATACGCTGACCGCCTGGATGTTCGGCTACTGGGTTCGCCGCAGCCGTCCGAAACACCTGCCGAAGGGTGTCCGCACCGCCATGTTCGACGGTCGCGACATTCCCTTCATGCGTTATCGCCGCGTGGTGTTCATGATCACCGGCGCCATCATGCTCGCCTGCGTCGGCGGTTTCGTGGCCAAGGGTCTGAACCTCGGCATCGATTTCCAGGGCGGTTCGGTCATCGAAGTGCGCGCCAAGCAGGGTGAAGCCGATCTCGCCGATATTCGCGATCGTCTGAACCAGCTCAACCTCGGTGAAATCCAGGCGCAGAATTTCGGTACGCCGCAGGATGTTCTCATCCGCATTCAGGCGCAGGACGGCGGCGAAAATGCCGAGCAGTCCGCCATCACCATGGTGCGCGGCGAGCTTGAGGACAAATACGACTTCCGCCGCGTGGAAGTCGTGGGTCCTGCCGTGTCCGGCGACCTGACCGTTACGTCCACCATCGGCGTTATGCTCGCCATGGCGGCGATCATGGTCTACATCTGGGTTCGCTTCGAGTGGCAGTTTGCACTCGGCGCGGTCATCTCCATGGTGCACGACGTGGTCTTCACGATCGGACTGTTCGTCTTCCTTGGGATAGAGTTCAATCTGACCAGTATCGCGGCGATCCTTACGATCATCGGTTATTCACTGAACGACACCGTCGTCATCTACGACCGTGTCCGTGAAAACCTCAGGCGATACAAGAAGATGCCGCTTTCCATGATCATTGACGTGTCGCTGAACCAGACGCTGTCGCGCACGATCCTCACAGGTCTGACCGTGCTTCTGGCACTGCTGGCGCTGTATCTCTTCGGCGGCGAGGTCATCCGTTCCTTCACCTTCGCCATGCTGTTCGGTGTCGGTATCGGCGTGTTCTCCTCGGTCTACATCGCCGCTCCGGTGCTGATCGCCTTCAAGCTGCGTCCTGATAGCAAGGATGCGGAAGATGAGAAGGACGACAAGAAAGAAAACAACACCGGCGCCATTGGCGGCAAGCCTGCCGTCTGA	MLHFSRWKTVFIWLLVLASVFIASPNLFTDKQLEGMPAWYKDNKVTLGLDLQGGSHIMLKIERSDIVKERLETIVGDVRTQLRDANIRYSGLTGNGQQIQVRISDPAQVEAAKNALRDLTQPVSAGTLVGGSITEVTMNDGGDNLLRLNLTDEGIDYRLSSAVSQSIEVVRRRVDEVGTTEPLIQRQGSDRIIVQVPGLQDPQRLKSLLNQTAKLSFRMVDTTMPVQEAMNGRPPATSEVLYSQDDPPVPYLVERRALVSGDNLVDAQASFNQQTNEPVVTFRFDSRGAQRFAQATQQNVGKPFAIVLDNQVISAPVIREPIIGGSGQISGNFSVQGANDLAVLLRAGALPATLTVVEERTVGPSLGNDSITAGLTASAIGAVGVLIFMFVFYGFFGLLANIALIVNVIMLLAVLSVIGSTLTLPGIAGIVLTIGMAVDSNVLIYERIREEVKSGKPLIQSLDNGFTRAFATIIDANLTTLIVASVLFYMGTGPVKGFAVTLAVGIITTVFTAYTLTAWMFGYWVRRSRPKHLPKGVRTAMFDGRDIPFMRYRRVVFMITGAIMLACVGGFVAKGLNLGIDFQGGSVIEVRAKQGEADLADIRDRLNQLNLGEIQAQNFGTPQDVLIRIQAQDGGENAEQSAITMVRGELEDKYDFRRVEVVGPAVSGDLTVTSTIGVMLAMAAIMVYIWVRFEWQFALGAVISMVHDVVFTIGLFVFLGIEFNLTSIAAILTIIGYSLNDTVVIYDRVRENLRRYKKMPLSMIIDVSLNQTLSRTILTGLTVLLALLALYLFGGEVIRSFTFAMLFGVGIGVFSSVYIAAPVLIAFKLRPDSKDAEDEKDDKKENNTGAIGGKPAV	PGPT0025710_606	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025710-secDF-K12257	NA	NA
BMS010_05392	348	yajC_1	COG1862	Sec translocon accessory complex subunit YajC	ATGTTCATTAGTCAAGCTTTTGCCCAGGACGCAGCGGGCGGCGCATCGGCCTTCGGTTCCGGCCTTGAGATGCTTTTCCTGTTTGCGCCGCTTATGGTGGTCTGGTACTTTTTCCTTATCCGCCCGCAGCGCGCGCAGATGAAGAAGCGCCAGGAAACGCTGACCAATATTCGCCGTGGCGATCAGGTCGTTCTCGGCGGCGGCATCGTCGGCAAGGTGACCAAGGTCATCGATGACAATGAACTCGAAGTCGAAATCGCCGAAGGCGTGAAAATCCGTGCCGCCCGTGCCTACATTGCCGAAGTGCGTGTGAAGGGCGAAGTGGTCAAGACGGAAGCCGCTTCCTGA	MFISQAFAQDAAGGASAFGSGLEMLFLFAPLMVVWYFFLIRPQRAQMKKRQETLTNIRRGDQVVLGGGIVGKVTKVIDDNELEVEIAEGVKIRAARAYIAEVRVKGEVVKTEAAS	PGPT0025730_1407	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025730-yajC-K03210	NA	NA
BMS010_05393	873			hypothetical protein	ATGATTCGAGAAGAAACGGCCTCCCTGCTTCTTTCAGAGCTGCGCCGGCTCACCATCGCCGTGGAACGTCTGGCCGGACCGGCGCCCGCCGTAAACGACTGGAATGCGGCCGATTGTTTCGTCTGGGCGCCAGTCAACTCCTTTATCCAGCCGGTTCCCCGCCCCAACCGCATCGCCCTGAAGCTCATCCGTGGCGTCGACCACGTCCGCGACATTCTCCACGAAAACACGCTGCGTTTCGCGGAAGGTTTTGCCGCCAACAACGTGCTGTTGTGGGGTGCGCGCGGCATGGGCAAATCCTCGCTGGTCAAGGCCGTTCACGAAGATGTGCGCGCGGCAAGCGGCGTTTCGCTGAAACTCGTGGAAGTGCACCGCGAGGACATCCACACCCTGCCCGCTTTGCTCGATATATTGAAAGCCTCCGGCCATCGCGTCATCGTCTTCTGCGACGACCTCTCCTTCGACCATGACGATACGGCCTATAAATCGCTGAAGGCGGCGCTCGACGGCGGCATCGAAGGCCGGCCGGACAATGTGCTGTTTTATGCGACCTCCAACCGCCGCCATCTTCTGCCGCGCCACATGATGGAAAACGAGCAGTCCACCGCCATCAACCCTTCGGAAGCGGTGGAGGAGAAGGTTTCGCTCTCGGACCGTTTCGGCCTGTGGCTCGGTTTCCACAAATGCGGCCAGGAAGATTACCTGACGATGATCGACAGCTATGCGACGCATTTCGATCTGGGTCTTGACCGCGAAACGCTGCATCACGAGGCGCTGGAATGGGCGACCACGCGCGGCGGCCGCTCGGGCCGTGTCGCCTGGCAATATATTCAGGACGCCGCCGGCCGTCTCAGAAAACCGCTCGACAGATAA	MIREETASLLLSELRRLTIAVERLAGPAPAVNDWNAADCFVWAPVNSFIQPVPRPNRIALKLIRGVDHVRDILHENTLRFAEGFAANNVLLWGARGMGKSSLVKAVHEDVRAASGVSLKLVEVHREDIHTLPALLDILKASGHRVIVFCDDLSFDHDDTAYKSLKAALDGGIEGRPDNVLFYATSNRRHLLPRHMMENEQSTAINPSEAVEEKVSLSDRFGLWLGFHKCGQEDYLTMIDSYATHFDLGLDRETLHHEALEWATTRGGRSGRVAWQYIQDAAGRLRKPLDR				NA	NA	NA	NA	NA
BMS010_05394	1191	fdhA_1		Glutathione-independent formaldehyde dehydrogenase	ATGAGCAGGAACAGAGGCGTCGTCTACATGCGGCCGGGTCAGGTCGAGGTTCGCGATATCGATGACCCGAAGCTTGAGGCGCCGGATGGCCGCCGCATCGAGCACGGCGTCATTCTCAAGGTCATTTCCACAAACATCTGCGGCTCCGACCAGCATATGGTGCGCGGCCGCACAACGGCGATGCCGGGCCTCGTCCTCGGCCATGAAATCACCGGCGAAGTCATCGAAAAAGGCGTCGATGTCGAAATGCTGGAAATCGGCGATATCGTCTCCGTGCCCTTCAACGTCGCCTGCGGCCGCTGCCGCTGCTGCAAGTCGCAGGATACCGGCGTCTGCCTGACGGTGAACCCGTCCCGCGCCGGCGGTGCTTATGGTTATGTCGATATGGGCGGCTGGATCGGCGGACAGGCCCGTTATGTCACCATCCCCTATGCCGATTTCAACCTGCTGAAGTTCCCGGACCGCGACAAGGCGATGTCGAAGATCCGCGACCTCACAATGCTCTCCGACATTCTGCCGACCGGCTTCCACGGCGCCGTCAAGGCGGGCGTCGGCGTCGGCTCCACGGTCTATGTCGCGGGCGCCGGCCCGGTCGGCCTTGCCGCCGCCGCATCCGCCCGCATTCTGGGTGCTGCGGTCGTCATGATCGGCGATTTCAACAAGGATCGCCTTGCGCACGCGGCAAAAGTCGGTTTTGAACCCGTCGATCTTTCCAAGGGCGACCGGCTGGGCGACATGATCGCCGAAATCGTCGGCACCAACGAAGTCGACAGCGCCATCGACGCCGTCGGCTTCGAAGCGCGCGGCCATGCGGGCGGCGAACAGCCGGCCATCGTTCTCAACCAGATGATGGAAATCACCCGCGCCGCCGGCTCCATCGGCATTCCGGGCCTCTACGTCACCGAAGACCCCGGCGCGGTGGATGCGGCGGCGAAACAGGGCAGCCTGTCGCTGCGCTTCGGCCTCGGCTGGGCAAAAGCGCAATCCTTCCACACCGGACAGACGCCGGTGCTGAAATATAACCGCCAGCTCATGCAGGCGATCCTGCACGACCGCCTGCCGATTGCCGATATCGTCAACGCCAAGATCATCGCGCTCGACGATGCAGTGCAGGGCTATGAAAGCTTCGATCAGGGCGCGGCCACCAAGTTCGTCCTCGATCCGCATGGCGATCTCTTGAAGGCTGCCTGA	MSRNRGVVYMRPGQVEVRDIDDPKLEAPDGRRIEHGVILKVISTNICGSDQHMVRGRTTAMPGLVLGHEITGEVIEKGVDVEMLEIGDIVSVPFNVACGRCRCCKSQDTGVCLTVNPSRAGGAYGYVDMGGWIGGQARYVTIPYADFNLLKFPDRDKAMSKIRDLTMLSDILPTGFHGAVKAGVGVGSTVYVAGAGPVGLAAAASARILGAAVVMIGDFNKDRLAHAAKVGFEPVDLSKGDRLGDMIAEIVGTNEVDSAIDAVGFEARGHAGGEQPAIVLNQMMEITRAAGSIGIPGLYVTEDPGAVDAAAKQGSLSLRFGLGWAKAQSFHTGQTPVLKYNRQLMQAILHDRLPIADIVNAKIIALDDAVQGYESFDQGAATKFVLDPHGDLLKAA	PGPT0002115_379	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROMETHANE_DEGRADATION,PGPT0002115-fdhA-K00148	NA	NA
BMS010_05395	660			hypothetical protein	ATGAAGAAAAGCAGTACCGCGCGGACGGCAGCACGTCCCACACGCCAGAGAATTCTCGACGCCGCTCTTACTCTGTTTAACGAGCGCGGGCCTGACCATGTGACGACCGCCGAAATCGCAAGGGCGGTGGAGATCAATGAGGGCAATCTCTATTATCACTTCCGCACCAAGGAAGCACTGGTTCTAGCGCTGTTTGCCCGGTTCGAAGCCGATGCGCTGGCAATTGTCGGAAAGATTGACGGGGCCGATGAGGGAGCGGCGGCAACCTATGCCGGTTTTCTGCGGCTATGGTTTTCGCTGGTGTGGGACTACCGGTTCCTGTTTCGCGATCTGGTCGGTCTTGTCTCTTCCGCCCCGGCGCTGGTGGAGCCCGTGCGAACCATAAGCGCCGCGATGCGCCTTGCCGTCGGCGATATCGTCGCGCGCATAGAGAAAGCGGGCCTCGCTGCGATACCGGAGGAAGAACGGCCTGCCGTTTTGACGAACCTCTGGATCGTCTCCACCTATTGGGCGTCCTATCTCAACCTTCAGGAAGGCATCACCGAGTTCGGTCCGCCGCAGCTGGACTGGGGATTGAAGCAGCTCTCAAGCCTGTTCAGGCCCTATCTCTCCCCGGAAGCGAAAGCCGAGCTGGAGGCGCTGCTGGTAGGGGAGCCGTAA	MKKSSTARTAARPTRQRILDAALTLFNERGPDHVTTAEIARAVEINEGNLYYHFRTKEALVLALFARFEADALAIVGKIDGADEGAAATYAGFLRLWFSLVWDYRFLFRDLVGLVSSAPALVEPVRTISAAMRLAVGDIVARIEKAGLAAIPEEERPAVLTNLWIVSTYWASYLNLQEGITEFGPPQLDWGLKQLSSLFRPYLSPEAKAELEALLVGEP				NA	NA	NA	NA	NA
BMS010_05396	1395	ptlI	COG2124	Pentalenene oxygenase	ATGACCGGAACCGACCTTCGCACCGCCTCCCCGGATACGCCCGGAATCGCTCCCGTCTCCAAATTCGCAACCGCCCGCGTCGCGCTGTCGCTCATCCGCAATCCGCTGAAGGCTCTGCCGCCGGAAATTTTCAGCGAGCCGGCGGTCTTTACCCGTCTCGGCGGCGTCATGCGGGTTCATCTTGCCGATCCCGCGCTTATTCATGAGGCGCTTGTCAAGAACGCCCATCTGCTCGGCAAGGGCGAAGATGTGCGCCGCGCCCTCGGCCCCGCGCTCGGCCAGGGACTTCTGACGGCCGATGGCGATCACTGGAAGTGGCAAAGGCAATCCGTCGCCGCAGCATTCCGGCACGAGAAGCTGCTGGAATTGCTGCCGGTCATGATCGACGCCGCGCGCCGCACGCAACAGCGCTGGCACGCATCGCCCGCCGGCGACATCGATATCGGCCATGAGATGATGCGGACGACCTTCGATATCATCGTCGAAACCATGATGTCCGGCGGCCACGGCATCGATATAGCCCGCGTCGAGCAAAGCATCACCGATTATCTGAAACCCACGGGCTGGACCTTCGCACTCGCCATGCTGGGCGCACCGGAGTGGCTTCCGCATCCGGGCCGGCGCAAGGCGCGCGCGGCGGTGGATTATCTTCGCTCCAGCCTTGCAACCGTCATTTCCGAAAGGCGACAAAATCCGATCGAGAGGAACGATCTGGTTTCCATGCTGCTCGAAGCGAAAGATCCGGAAACGGGGCGCATGATGAGCGACACGGAAATCATCGACAATCTCCTGACCTTCATCACCGCCGGTCATGAAACCACGGCCCTCGGCCTTGCCTGGACCTTCCATCTGCTCTCGCAAAACAGCGACGTGGAGCGCAAGGTCATCGACGAGATTGAAGCCGTTACCGCCGGTGAACCGGTCGCGGCCGACCATATCGCCCGCCTGACCTACACCAGACAGGTATTTTCGGAAGCGATGCGGCTTTACCCGCCCGCCCCTGTCGTGACACGCACGGCATTGCAGGACTTCAGGCTCGGCGAACACGATATCCCGGCCGGCACCGTTCTTTATGTGCCGATCTACGCCGTCCACCGGCACACGACGCTGTGGGAAGAACCCGACCGCTTCGACCCGTCGCGCTTCGAGCCCGAAAAGGTCAAGGCGCGCCACCGCTATGCCTATATGCCCTTCGGCGCTGGCCCGCGCGTCTGCATCGGCAATGCCTTTGCCATGATGGAGGCTGTCGCAATCCTCGCCGTGCTTTTGCAGGACGTTCACCTCAGGAACAAAAGCCCGGCAAATACCGAGCCGCTGATGCGGGTCACCTTGCGGCCGGAAAACCGTCTGATGATGCAGGTCAGCAGCCGAAAAAACAAATCGCCCGCGGCGTAA	MTGTDLRTASPDTPGIAPVSKFATARVALSLIRNPLKALPPEIFSEPAVFTRLGGVMRVHLADPALIHEALVKNAHLLGKGEDVRRALGPALGQGLLTADGDHWKWQRQSVAAAFRHEKLLELLPVMIDAARRTQQRWHASPAGDIDIGHEMMRTTFDIIVETMMSGGHGIDIARVEQSITDYLKPTGWTFALAMLGAPEWLPHPGRRKARAAVDYLRSSLATVISERRQNPIERNDLVSMLLEAKDPETGRMMSDTEIIDNLLTFITAGHETTALGLAWTFHLLSQNSDVERKVIDEIEAVTAGEPVAADHIARLTYTRQVFSEAMRLYPPAPVVTRTALQDFRLGEHDIPAGTVLYVPIYAVHRHTTLWEEPDRFDPSRFEPEKVKARHRYAYMPFGAGPRVCIGNAFAMMEAVAILAVLLQDVHLRNKSPANTEPLMRVTLRPENRLMMQVSSRKNKSPAA				NA	NA	NA	NA	NA
BMS010_05397	204			hypothetical protein	GTGAAAGCCGACGAAATCAAAAAACTCGACGCCTATTTCAAGCGCACCTTCAACCCGACGATGGTGGTCAAGGCGCGTCCGCGCAAGGACGATTCCGCCGAAGTGTATCTTGGCGAAGAGTTTCTCGGCGTCGTTTATATCGATGACGAAGACGGCGACCGCTCCTACAACTTCTCCATGGCGATCCTCGACGTCGATCTGTGA	MKADEIKKLDAYFKRTFNPTMVVKARPRKDDSAEVYLGEEFLGVVYIDDEDGDRSYNFSMAILDVDL				NA	NA	NA	NA	NA
BMS010_05398	825	cysE_1	COG1045	Serine acetyltransferase	ATGGTCGCACGTACCGAGGCCCGTCAGCCCGAACAGCTGGCGATCGTCGATCCCATCTGGGGCAGCCTGCTCAATGAAGCCCGCAGCGCCGCGGCACAGGACCCGCTGCTTTCGGCCTTCCTTTATTCGACGATCCTCAATCACCGGTCTCTCGAAGAATGTGTGATCTACCGCATCTGCGAACTCCTCGATCATCCCGACATGCAGGCCGTGCTTCTGCGCCAGACCTTCCAGGACATGCTGGATGACTGGCCGGAATGGGGAAGCGTGCTGCGCGTCGACATTCAGGCCGTTTACGACCGCGATCCGGCCTGCACGCGCTTCATGGAGCCGCTCCTCTATTTCAAGGGGTTCCAGGCCATCCAGACCCACAGGCTCGCCCACTGGCTGCTGCAGAAGGGCCGCAAGGACTTCGCGTTTTACCTGCAAAGCCGCTCCTCGAGCATTTTCCAGACGGATATCAATCCGGCCGCGCGCATCGGCAAGGGCATCTTCCTCGATCATGCCACCGGGCTGGTGGTCGGTGAGACCGCCGTGATCGGCGACAACGTCTCCATCCTCCACGGCGTCACGCTCGGCGGCACCGGCAAGGAAGGCGCGGACCGCCATCCGAAGATCGCCAATGGCGTGATGATCGGGGCGGGGGCGAAAATCCTCGGCAATATCGAGATCGGCAGCTGCTCGCGCATCGCCGCCGGCTCGGTGGTGCTGAAGCCGGTTCCGCCCAAGACGACCGTTGCCGGCGTGCCGGCGCGTGTGGTGGGAGAAGCAGGGTGTTCCGAACCCTCGCGCCTGATGGACCAGCTTATCGGGGCCGATATCTGA	MVARTEARQPEQLAIVDPIWGSLLNEARSAAAQDPLLSAFLYSTILNHRSLEECVIYRICELLDHPDMQAVLLRQTFQDMLDDWPEWGSVLRVDIQAVYDRDPACTRFMEPLLYFKGFQAIQTHRLAHWLLQKGRKDFAFYLQSRSSSIFQTDINPAARIGKGIFLDHATGLVVGETAVIGDNVSILHGVTLGGTGKEGADRHPKIANGVMIGAGAKILGNIEIGSCSRIAAGSVVLKPVPPKTTVAGVPARVVGEAGCSEPSRLMDQLIGADI	PGPT0020265_1797	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION-1,PGPT0020265-cysE-K00640	NA	NA
BMS010_05399	777	bpoC	COG0596	Putative non-heme bromoperoxidase BpoC	ATGAATCTCAACACGCCGCAGTTTTCCGATTTTTCCCATGACGGCCTTCGCCTTGCCTATTTCGACGAGGGCGATCCGGCGGGCGAACCGGTTCTGCTGATCCACGGCTTCGCCTCCAGCGCCAATGTCAACTGGGTGCATCCCGGCTGGCTGAAAACACTGGGGGATGCGGGCTACCGGGTGATAGCCATCGACAATCGCGGCCACGGCGCAAGCGACAAGCCGCACGATTCCGAAGCCTATTATCCTCCGGTCATGGCCGAGGATGCGGTGGCGCTACTCAACCATCTCGGCATCGCCGAAGCGCATGTGATGGGCTATTCCATGGGCGCGCGCATTTCCGCCTTTCTGGCCATGGCGCATCCGGAGCGCGTGCGTTCGCTGGTCTTCGGCGGGCTCGGCATCGGCATGGTCGAAGGTGTCGGCGACTGGGACCCGATTGCCGAGGCGCTTCTCGCACCTTCGCTCGATGTCGTCACCCACGAGCGCGGCCGCATGTTCCGCGCCTTTGCCGACCAGACGAAAAGCGACCGGCTGGCGCTGGCCGCCTGTATCGAGACGTCGCGGGTTCTCGTCACCCGCGAACAGGCTGAGAAAATCGATGCGCCAACGCTGATCGCGGTTGGAACGAAGGACGACATCGCCGGTTCCGCTGCGGAGCTTGCCGCGATCATGCCGCATGCGCGGGCGATCGATATTCCCGGCCGCGACCACATGCTGGCCGTCGGCGACCGGGTGTTCAAGGCGGCGGTGCTGGAATTTTACCGCTCGCTTTGA	MNLNTPQFSDFSHDGLRLAYFDEGDPAGEPVLLIHGFASSANVNWVHPGWLKTLGDAGYRVIAIDNRGHGASDKPHDSEAYYPPVMAEDAVALLNHLGIAEAHVMGYSMGARISAFLAMAHPERVRSLVFGGLGIGMVEGVGDWDPIAEALLAPSLDVVTHERGRMFRAFADQTKSDRLALAACIETSRVLVTREQAEKIDAPTLIAVGTKDDIAGSAAELAAIMPHARAIDIPGRDHMLAVGDRVFKAAVLEFYRSL	PGPT0013125_2844	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013125-cpo-K00433	NA	NA
BMS010_05400	246			hypothetical protein	ATGGCCGGGCATTCCATTCCCCACTTCCAGAACGATGGCGGACACCGCATGATCGAGATCGGCGTCAAGGAATTCATGTGCACCGGCGCTTCCGTTCCTTACGATCATCCGCATATCTTCATCGATATGGGCGACGACAACGAGAAGGTCTGTTCCTACTGCTCCACCCTTTACCGCTACAATCCGTCGCTGAAGGCCGAGCAGACCAATCCTCCGGGCTGCGTCTTCCATGTGAAGGCCGCCTGA	MAGHSIPHFQNDGGHRMIEIGVKEFMCTGASVPYDHPHIFIDMGDDNEKVCSYCSTLYRYNPSLKAEQTNPPGCVFHVKAA				NA	NA	NA	NA	NA
BMS010_05401	1182	xlnD		3-hydroxybenzoate 6-hydroxylase 1	ATGCCCATCAAATCCGTAGCCATTGTCGGTGCCGGCATCGCCGGTCTCACCGCTGCCCTTTCTTTTGCCCGGTACGGTGTCGACTGTGACATTATCGAACAGGCCGGTGAGCTGACGGAAGTGGGCGCAGGCCTGCAACTCTCGCCCAATGCCGCCCGCATTCTCGCCGAACTCGGCGTGCTGCCGGAAATCGAAGAGCGCTGGACCGAACCGGTCAGCGTTGAACTCGCCTCCGGAAAATCGCTTGCCACGCTGCTCTCGCTGCCGATGGGCGCGGTGGCGCGCAAACGCTGGGGCGCACCCTATGGCGTGCTGCACCGCTCGACGCTGCAGAATGCGCTTCTCCAGGCGGTGACACGCAACCCGCTCTGCCGCCTGCATCTCGGCAAGCGCATTGAAAACGCGACGGTGGACGTGATTGCCGCAACCACCTTCCGTGACCATGATCTGATCGTCGGCGCGGACGGCGTCTGGTCGGCGGCCCGCTTCGCGGTCCCTTCCGCCCCCACGGCCACCTTCTCCGGCAATATTGCCTGGCGCTTCACCGTTGCCGCAAATGACGTGCCGTCAGCCATCAACAAGAGCGCAGTGACCGCCTATCTCGGTTCCGGCGGCCATATCGTCGCCTATCCGCTGAAGGAAGTCGGCGGTTTCAACATCGTCGCCATCGCGCTCGGTGCCGACCCCGGCGCAACCTGGCGGGCGGAATCGAGCGGGCGGCAGAAAGCCATGTTGCTGGAACAGTTTCGCGGCTTCAGCCCGGATATCGTCCGATTGCTCGATTCGTCAGAGAATCCGACCTTCTGGCCGCTCTATCAGGCCGGCTCGGGCCGCTGGCACAATGGCCGCGACACGGTGCTGATCGGCGATGCGGCGCATGCCATGATGCCCTTCGCCGCACAGGGCGCGGCCATGGCGATAGAGGATGCTTTCGAACTTGCGAGAGCGACGGCAGGCGGCAATGCCGAAAGGCCCCTGCCCTTGCCGCAGGCCCTTGCCAGCTTCGAGGCCCTGCGCTCGCCGCGCATAGAAAAGGCCCGCAAGCGGGCCTCTCTCAATCGTTTTGCCTATCACGCGAGAGGCCCGGTGCGTATTGCGCGGGACTTCGTGTTTTCCACGCGCCCCACCGACGCCTTCCTGAAGGACTTCGACTGGCTCTACGGCTATCGCGCCAAAGGCTGA	MPIKSVAIVGAGIAGLTAALSFARYGVDCDIIEQAGELTEVGAGLQLSPNAARILAELGVLPEIEERWTEPVSVELASGKSLATLLSLPMGAVARKRWGAPYGVLHRSTLQNALLQAVTRNPLCRLHLGKRIENATVDVIAATTFRDHDLIVGADGVWSAARFAVPSAPTATFSGNIAWRFTVAANDVPSAINKSAVTAYLGSGGHIVAYPLKEVGGFNIVAIALGADPGATWRAESSGRQKAMLLEQFRGFSPDIVRLLDSSENPTFWPLYQAGSGRWHNGRDTVLIGDAAHAMMPFAAQGAAMAIEDAFELARATAGGNAERPLPLPQALASFEALRSPRIEKARKRASLNRFAYHARGPVRIARDFVFSTRPTDAFLKDFDWLYGYRAKG	PGPT0006315_1607	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_NAPHTALENE|DERIVATE_DEGRADATION	XENOBIOTIC_NAPHTALENE_DEGRADATION,PGPT0006315-nahG-K00480	NA	NA
BMS010_05402	1188	metC	COG0626	Cystathionine beta-lyase MetC	ATGACCAAGACAAATGACCTGCTTTCCGCCGCAGGTGTGAATACGCGCCTGACCCATGGCGGCAACGATCCCGCGGACTGTTTCGGTTTCGTCAATCCGCCCATCGTGCGCGGTTCGACCGTGCTTTTTCCCGACGCGGAGACGCTTTCGACCGAAAACCAAAAATATACCTATGGCACGCACGGCACGCCGACCACGGATGCGCTGTGCAATCTCGTCAACGAGCTGGAAGGGTCTGCCGGAACCATTCTCGTGCCCTCGGGCCTTGCGGCCATCACCGTGCCGTTCCTTGCCTATCTCGGCGCCGGCGATCATGCGCTGATCGTCGATTCCGTCTATTTTCCGACGCGCCGTTTCTGCAATACGATGCTGAAGAAGCTCGGTGTCGAGGTGGAATATTACGACCCGGCAATCGGGGAGAGCATTGAGGCTCTCATCCGGCCGAACACCAGGCTAGTGCATCTGGAAGCGCCGGGCTCCAACACCTTCGAGATCCAGGATGTCAGGCTGATCACTGATATCGCTCACCGCCATGATTGCGTGGTGACGATGGACAATACCTGGGCGACTCCGCTTTATTTCAAGCCGCTCGATTTCGGCGTCGATGTCTCCATTCACGCCGCCACCAAATATCCTTCGGGTCATTCGGATGTGCTGATGGGGTTCGTTTCGGCCAATGAAAAGCACTGGAAGGCGCTTTATCAGGCCAATACCAATCTCGGCATCTGCGTCACCTCCGACGATGCCTACCAGATCCTGCGCGGCATGCGCACCATGGGAATAAGGCTGGAGCACCACCAGAAAAGCGCGCTCGATATCGCCACATGGCTGGAGAGCCGTGACGACGTCGTCCGTGTGCTGCATCCGGCGCTGCCGAGCTTTGCCGGTCACGAACTCTGGAAACGCGATTTCAAGGGCGCAAGCGGTGTCTTCTCCTTCGTGCTGAAGGCGGAAGAAGGCAAATACAAGCAGGCGGCGGCCGCCTTCCTCAATGCGCTGACCTTCTTCGGGCTCGGCTATTCCTGGGGCGGATACGAATCGCTTGCCGTTTCGGTCTCGCTTGTCGACAGAACCATCGCCAGGGGGCCCTCGGAAGGGCCGGTTATCCGCCTGCAGATCGGGCTTGAGGATATCGCCGACCTCAAGAAGGACCTTGAGGCCGGGTTTGCGGCAGCGGCCGGGGTTTGA	MTKTNDLLSAAGVNTRLTHGGNDPADCFGFVNPPIVRGSTVLFPDAETLSTENQKYTYGTHGTPTTDALCNLVNELEGSAGTILVPSGLAAITVPFLAYLGAGDHALIVDSVYFPTRRFCNTMLKKLGVEVEYYDPAIGESIEALIRPNTRLVHLEAPGSNTFEIQDVRLITDIAHRHDCVVTMDNTWATPLYFKPLDFGVDVSIHAATKYPSGHSDVLMGFVSANEKHWKALYQANTNLGICVTSDDAYQILRGMRTMGIRLEHHQKSALDIATWLESRDDVVRVLHPALPSFAGHELWKRDFKGASGVFSFVLKAEEGKYKQAAAAFLNALTFFGLGYSWGGYESLAVSVSLVDRTIARGPSEGPVIRLQIGLEDIADLKKDLEAGFAAAAGV	PGPT0001995_1330	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0001995-metC-K01760	NA	NA
BMS010_05403	1023	yhdW_1		Putative amino-acid ABC transporter-binding protein YhdW	ATGAAAAAGGCAATTCTGTCGGCCGCCATCGGCGCAGCAGTTTTGGGAGGAGCCTCGGTCGCTTCGGCTGCGACGCTTCAGGATGTGAAGGGCAAGGGTTTCGTCACCTGCGGCGTCAGCGCCGGCATTCCGGGATTCTCCAATCCCGATGACAAGGGCGAATGGTCCGGTATCGACGTGGACTATTGCCGTGGTATTGCCACTGCGGTTTTCGGTGATCCTTCGAAGGCCAAGTTCGTCGCACTTTCGAGCAAGGACCGATTCCCGGCTCTCCAGTCCGGTGAAGTCGACGTTCTGACCCGTAACACCACCTGGACGATCAGCCGCGACACGTCGCTGGGCTTCAACTTCCGTACCGTCAACTACTACGACGGCCAGGGCTTCATCGCCAAGAAGAGCCTCAACGTGAAGTCCGCTCTCGAGCTTTCCGGCGCTGCCGTCTGCGTGCAGACCGGCACGACTACGGAGCTCAACCTCGCCGACTACTTCAAGACCAACAATCTGCAATACAACCCGGTGGTTTTCGAAAAGGAAGCCGACGCGACCTCTGCTTATGATGCTGGCCGTTGCGACGTCTACACCACTGACCAGTCTGGCCTTTACGCGATCCGCCTGAAGCTGAAGAACCCGGACGAAAACGTCGTTCTGCCGGAAGTCATCTCCAAGGAGCCGCTTGGCCCGGCCGTTCGTCAGGGTGACGACCAGTGGTTCGACATCGTGACCTGGGTTCACTATGCGATGGTCAACGCCGAAGAGCTTGGCATCACCTCCAAGAATGTCGATGAGCAGAAGAACAGCGCCAATCCGGATGTGAAGCGCCTGCTCGGCACGGAAGAAGGCACCAAGATCGGTACTGATCTCGGCGTCACCAACGACTGGGCCTACAACATCATCAAGCTGGTGGGTAACTACGGCGAAGTCTTCGACCGCAACGTCGGCGCTGGCTCTCCGCTGAAGATCGAGCGTGGCCAGAACGCGCTGTGGACCAAGGGCGGCCTGCAATACGCACCGCCGGTCCGTTGA	MKKAILSAAIGAAVLGGASVASAATLQDVKGKGFVTCGVSAGIPGFSNPDDKGEWSGIDVDYCRGIATAVFGDPSKAKFVALSSKDRFPALQSGEVDVLTRNTTWTISRDTSLGFNFRTVNYYDGQGFIAKKSLNVKSALELSGAAVCVQTGTTTELNLADYFKTNNLQYNPVVFEKEADATSAYDAGRCDVYTTDQSGLYAIRLKLKNPDENVVLPEVISKEPLGPAVRQGDDQWFDIVTWVHYAMVNAEELGITSKNVDEQKNSANPDVKRLLGTEEGTKIGTDLGVTNDWAYNIIKLVGNYGEVFDRNVGAGSPLKIERGQNALWTKGGLQYAPPVR	PGPT0020815_894	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_L-AMINO_ACID_TRANSPORT,PGPT0020815-aapJ|bztA-K09969	NA	NA
BMS010_05404	1197			hypothetical protein	ATGGCAGGCAACGCGGTCAGTTCGCAACGATCGCGCGCGCAGAGCGCGTCGTCACTTATCTACGATCCACGCATACGCGGCATTTTCTATCAGGTCCTGACAGTCGTCGTCCTGGCCGCCTTCGTCTGGATCATCGTGACGAATACGATCACCAATCTTCAACGGTCAAACATTTCGTCCGGCTTCGGCTTCCTCAACGGAAGAGCCGGTTTCGATATCGGCCAGTCGCTGATCGCTTATACCAGCGACGCGACCTATGGCCGGGCATTGCTCGTTGGCATTCTCAACACGATCCAGGTTGCATTTTTCGGCATCATCGCCGCCTCGATCATCGGTTTCATCGTCGGCATCGCCCGGCTGTCCAATAACTGGCTGATTTCGAAACTCGCGCAGGCCTATGTGGAAATCTTCCGCAACATCCCGCCGCTGCTCGTCATCTTCTTCTGGTACAAGGGCGTCATCTCGGTTCTGCCGCAGGCGCGCGAGTCGCTCGAGCTTCCGCTTGGAGCCTACCTCAACAATCGCGGCTTCTTCTATCCCAAGCCGCTGTGGGGAGAAGGCACCTGGCTCGTGCCGCTGGCCTTCCTGGTGGCCATCGTTCTCAGCGTCTTCGTTTACCGCTGGGCAAAGGCCAGACAGGAAAGAACCGGACAGCAGTTCCGCACCGGCATAACGGTGACGCTTCTCATCATCGGCCTGCCGCTGGCGACGTTTCTGGCGCTCGGGGCGCCGCTGACATTCGACTATCCGATTGCCGGGCGATTCAATCTCTCCGGCGGCGCGGTTGTCGCACCTGAATTCATGTCGCTGTTCCTGGCGCTTTCCTTCTACACCGCCTCCTTTATCGCCGAAATCGTTCGCGGCGGCATCAAGGCTGTGGCGAAGGGTCAGACGGAAGCTGCGGATGCACTGGGACTTCGCTCCAGCACCACGACGCGCCTGATCGTCGTTCCGCAGGCGATGCGCATCATCATCCCGCCGCTGACGAGTCAGTATCTCAACCTGACCAAGAACTCCTCGCTTGCGGTCGCCGTCGGCTTTGCCGACATCGTCTCGGTCGGCGGCACGATCCTGAACCAGACGGGACAGGCAGTCGAAGTCGTTGCAATCTGGCTGGTCATCTATCTCTCGCTGTCCCTGCTCACGGCCGTGGTCATGAACTGGTTCAATGCGAAAATGGCCCTGGTGGAGCGATAA	MAGNAVSSQRSRAQSASSLIYDPRIRGIFYQVLTVVVLAAFVWIIVTNTITNLQRSNISSGFGFLNGRAGFDIGQSLIAYTSDATYGRALLVGILNTIQVAFFGIIAASIIGFIVGIARLSNNWLISKLAQAYVEIFRNIPPLLVIFFWYKGVISVLPQARESLELPLGAYLNNRGFFYPKPLWGEGTWLVPLAFLVAIVLSVFVYRWAKARQERTGQQFRTGITVTLLIIGLPLATFLALGAPLTFDYPIAGRFNLSGGAVVAPEFMSLFLALSFYTASFIAEIVRGGIKAVAKGQTEAADALGLRSSTTTRLIVVPQAMRIIIPPLTSQYLNLTKNSSLAVAVGFADIVSVGGTILNQTGQAVEVVAIWLVIYLSLSLLTAVVMNWFNAKMALVER	PGPT0020820_358	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_L-AMINO_ACID_TRANSPORT,PGPT0020820-aapQ|bztB-K09970	NA	NA
BMS010_05405	1158	yhdY_2	COG0765	Inner membrane amino-acid ABC transporter permease protein YhdY	ATGACGATCAGCAATCACGCATTCGTGCGACAGACCATCGAGGACGCCAAACCCGCGCCCTCGAGCGCCGTCGGCTTCGGCCACTGGCTGCGCACCAAACTCTTCGCCACGCCGAAGGACACCGTTCTGACGGTTATCGCCCTTGCCCTGCTCGCCTATCTGGTGCCGCCGATCATCAAGTGGCTGTTCATCGACGCGGTATGGACCGGCAGCGATCGTATCGCCTGCCTGACCGCTTCGCAGGGCGGCGCGCTGCCGGACGGCCAGTCCGGTGCGTGCTGGGCTTTCGTTTCGGCAAAGCTCGGCCAATTCGTCTTCGGTCGCTATCCGATCGACGAACGCTGGCGTCCCATCCTGGTGATGGTGACGTTCGCCATCCTGCTTATACCGATGCTGATTCCAAAAGCGCCGTTCAAGCGACTGAATGCGCTGGCGCTTTTCATCATCCTGCCCTTCATTGCGTTCTTCCTGCTCATCGGCGGCGTCTTCGGCCTGCCGAAGGTGGAAACGCAGCTGTGGGGCGGCCTGATGGTGACCCTCATCCTGTCGTTCTTCGGGATCACGGTGTCGCTCCCCTTCGGCATTCTTCTGGCGCTCGGCCGGCGGTCGAACCTGCCGGTGATCAAGATGCTCTGCGTGCTCTTCATCGAGGTCATTCGTGGCATTCCGCTGATCACCGTCCTGTTTTTCGCCAGCATCATGCTGCCACTGTTCCTGCCCGACGGCTGGACCTTCGACAAGTTCCTGCGCGCGCTCGTCGGCGTGTCGCTGTTCTCCTCGGCGTATATGGCGGAGGTGATCCGCGGCGGCCTGCAGGCCATTCCTAAGGGACAATATGAAGGTGCGGATTCGCTCGGCCTGAACTACTGGCAGAAGACGAGGCTGATCGTGCTGCCGCAGGCGCTGAAGCTCGTCATTCCGGGCATCGTCAACACCTTCATCGGGCTGTTCAAGGACACGTCGCTGGTTTCGATCATCGGCATGTTCGATCTGCTCGGCATTGTCACACTCAACCAATCGGATGCGAACTGGGCCACACCCGTCACCGCCATGACTGGCTATATTTTCGCAGGCTTCGTATTCTGGATATTCTGCTTCGGCATGTCGCGTTATTCGCTGTTCATGGAACGGCACCTCGACACCGGGCATAAACGATAA	MTISNHAFVRQTIEDAKPAPSSAVGFGHWLRTKLFATPKDTVLTVIALALLAYLVPPIIKWLFIDAVWTGSDRIACLTASQGGALPDGQSGACWAFVSAKLGQFVFGRYPIDERWRPILVMVTFAILLIPMLIPKAPFKRLNALALFIILPFIAFFLLIGGVFGLPKVETQLWGGLMVTLILSFFGITVSLPFGILLALGRRSNLPVIKMLCVLFIEVIRGIPLITVLFFASIMLPLFLPDGWTFDKFLRALVGVSLFSSAYMAEVIRGGLQAIPKGQYEGADSLGLNYWQKTRLIVLPQALKLVIPGIVNTFIGLFKDTSLVSIIGMFDLLGIVTLNQSDANWATPVTAMTGYIFAGFVFWIFCFGMSRYSLFMERHLDTGHKR	PGPT0020825_290	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_L-AMINO_ACID_TRANSPORT,PGPT0020825-aapM|bztC-K09971	NA	NA
BMS010_05406	774	glnQ_5		Glutamine transport ATP-binding protein GlnQ	ATGGCAGAAACCCAAGCAAAAAAACTGACCGTCTCGACTACGGACGTGGCGATCGAACTCATCGGCATGAACAAGTGGTATGGCGACTTCCACGTGCTGCGCGATATCAACCTGAAGGTCATGAAGGGCGAGCGCATCGTTATCGCGGGTCCTTCCGGGTCGGGCAAATCGACCATGATCCGCTGCATCAACCGGCTTGAAGAACATCAGTCGGGCACGATCAATGTCGATGGCATCGAACTCACCAACGACCTTAAGAAGATCGATGAGGTGCGTCGTGAAGTCGGCATGGTGTTCCAGCACTTCAACCTCTTCCCGCATCTGACGATCCTCGAAAACTGCACGCTGGCGCCGATCTGGGTTCGCAAGATGCCCAAGAAGGAAGCCGAAGAAGTGGCGATGCACTATCTGAAGCGCGTCAAGATCCCCGAGCAGGCGAACAAATATCCCGGCCAGCTCTCCGGCGGCCAGCAGCAGCGCGTGGCGATTGCCCGCTCGCTCTGCATGAAGCCGAAGATCATGCTGTTCGACGAGCCGACCTCAGCGCTCGACCCGGAAATGGTCAAGGAAGTGCTCGACACCATGGTCAGCCTTGCCGAAGACGGCATGACCATGCTGTGCGTGACCCATGAAATGGGCTTCGCCCGCCAGGTGGCAAACCGCGTCATCTTCATGGACCAGGGCCAGATCGTCGAACAGAACTCGCCCGCCGAATTCTTCGACAATCCGCAGCACGAGCGCACCCGGCTGTTCCTCAGCCAGATTCTGCACTGA	MAETQAKKLTVSTTDVAIELIGMNKWYGDFHVLRDINLKVMKGERIVIAGPSGSGKSTMIRCINRLEEHQSGTINVDGIELTNDLKKIDEVRREVGMVFQHFNLFPHLTILENCTLAPIWVRKMPKKEAEEVAMHYLKRVKIPEQANKYPGQLSGGQQQRVAIARSLCMKPKIMLFDEPTSALDPEMVKEVLDTMVSLAEDGMTMLCVTHEMGFARQVANRVIFMDQGQIVEQNSPAEFFDNPQHERTRLFLSQILH	PGPT0020830_336	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_L-AMINO_ACID_TRANSPORT,PGPT0020830-aapP|bztD-K09972	NA	NA
BMS010_05408	165			hypothetical protein	ATGAAGCGGATGCTGTGGGGAGAGCTGAAGGGGAAAGGCAAGCCGGTCGATTTGCCTGTTGGCGTTTCGTCCGACTTGCCTTCCATCGGGGGGGACAGCATTCTAACGTGCCCGACGGGAATCGGTTCCGGCACATTGATCACGCGTGACGAATTTGCCAGCTGA	MKRMLWGELKGKGKPVDLPVGVSSDLPSIGGDSILTCPTGIGSGTLITRDEFAS				NA	NA	NA	NA	NA
BMS010_05410	1803	recJ_1	COG0608	Single-stranded-DNA-specific exonuclease RecJ	ATGATGGAGCCGGCCGATACCGTGGCCCGCGCGTTTCTAAGCGTGGAGCGGTCGGCGACAGAACAGCGCTGGGTCTCGCGGCTGGATCAGGCCGGGCAGAACCGTGCGCTGGCGATGTCCCAGATCCACGCCATTCCAGAACTGATCGCACGGGTGCTTGCCGGGCGCGGTGTGGGTGTCGATGACGCCCTGGCGTTCCTCGATCCGACCATCCGTTCCCTGATGCCCGATCCGCATGTTCTGACCGATTGCGAAAAGGCCGCCAAGCGGCTGGTGCGGGCCATCGAGACAGGCGAGAAGGTGGCGATCTTTGGCGACTACGACGTCGACGGCGCTGCTTCCTCCGCTTTGATGTACCGGTTTCTCGCGCATTTCGGTCTTACACCGGAAATCTATATTCCCGACCGCATTTTCGAGGGCTATGGGCCGAACCCGGCGGCGATGCAGCAACTTGCCGCCAATGGCGCGACGCTGATCGTGACGGTCGATTGCGGCTCCACCAGCCATGAATCGCTGAAGGCCGCCAGGGATGCGGGAACGGATGTGGTGGTGATAGACCACCATCAGGTCGGCACGGAGCTGCCGCCGGCCGTGGCGCTGGTCAATCCCAACCGCGAGGACGATCTTTCGGGGCAGGGGCATCTCTGCGCCGCCGGCGTCGTGTTCCTCGTGCTGGTCGCCACCCTGCGGCTGTTGAAGGAGAGGCGGCACAGGCAGGCCTTCACGCTCGATCTGCTGTCGCTTCTCGATATCGTCGCGCTTGCCACCGTGTGCGATGTGGTGCCGCTGAAGGGGCTCAACCGCGCCTATGTGGTGAAGGGGCTGATTGCCGCGCGCCATATGAACAATGCCGGGCTTGCTGCCTTGTTCAAGAAGGCGGGGCTGGGCGGGCCCGTGACGCCCTATCATTTCGGTTTCCTGATCGGGCCGCGCATCAATGCCGGCGGCCGCATCGGCGACGCTGCGCTCGGCAGCCGTCTCCTGACCATCGACGATGCGTCGCAGGCCGAGGTCATTGCCGAGAGGCTGGATGAGCTGAACCGCGAGCGGCAGGCCATGGAAGCGGCCATGCTGGCGGAAGCCGAAGCGGAGGCGCTGTTCGAATATGGCGACGGCTCGGGTGCGGGCGTCATCGTTACTGCGCGTGAAAATTGGCATCCCGGCATTGTCGGTCTGCTCGCCTCGCGTCTGAAGGATCGCTTCCGTCGTCCCGCCTTCGCCATTGCCTTCGATCCCTCCGGCAAGGGCACCGGTTCAGGCCGTTCGATCAACGGCTTCGATATGGGGCGCATGGTGCGCTCCGCCGTGGAGGCCGGCTTGCTGGTCAAGGGTGGCGGTCACGCCATGGCGGCCGGCCTGACGGTGGAGCGCGCCAATCTCGGCAAGCTCAGGACTTTCTTCGAGGAAGCGGCGGCAAAGACCGTGAACGAGCTGGTGGAAAGCAGCGTGCTGAAGATTGACGGCGCTATCGGCGCGTCGGGTGCCACATTGCAGCTTGTCGACCAGCTGGAGCAGGCCGGTCCATATGGCTCCGGTCATTCGCAGCCCATCTTTGCCGTGCCGGCGCATCGTCTGCGCGATGTGCGGCTTGTGGGTACAGCTCACGTCAAGATCACGCTGGAGGCCATGGACGGCTCGCGGCTGGACGGCATCGCGTTCCGCGCCGCAGAAGCGCCTCTGGGGCAGATGCTGCTGAATGCGCGTGGCCGGAACATTCACGTCGCCGGCACCGTGGGCGCCGATCTCTGGCAGGGCCAGAGGCGCGTTCAACTGCGCGTCCTGGACGCGGCTTTCGCGCCCTGA	MMEPADTVARAFLSVERSATEQRWVSRLDQAGQNRALAMSQIHAIPELIARVLAGRGVGVDDALAFLDPTIRSLMPDPHVLTDCEKAAKRLVRAIETGEKVAIFGDYDVDGAASSALMYRFLAHFGLTPEIYIPDRIFEGYGPNPAAMQQLAANGATLIVTVDCGSTSHESLKAARDAGTDVVVIDHHQVGTELPPAVALVNPNREDDLSGQGHLCAAGVVFLVLVATLRLLKERRHRQAFTLDLLSLLDIVALATVCDVVPLKGLNRAYVVKGLIAARHMNNAGLAALFKKAGLGGPVTPYHFGFLIGPRINAGGRIGDAALGSRLLTIDDASQAEVIAERLDELNRERQAMEAAMLAEAEAEALFEYGDGSGAGVIVTARENWHPGIVGLLASRLKDRFRRPAFAIAFDPSGKGTGSGRSINGFDMGRMVRSAVEAGLLVKGGGHAMAAGLTVERANLGKLRTFFEEAAAKTVNELVESSVLKIDGAIGASGATLQLVDQLEQAGPYGSGHSQPIFAVPAHRLRDVRLVGTAHVKITLEAMDGSRLDGIAFRAAEAPLGQMLLNARGRNIHVAGTVGADLWQGQRRVQLRVLDAAFAP				NA	NA	NA	NA	NA
BMS010_05411	219			hypothetical protein	GTGACATCGATCATCCTGTTCAAGGACAATAAGCGCGCAGGCTTTGCGGCCGCCCATCACCGGGCGCGGCCTCACAATGCCAATGACAATATTCGCAGCATGGAATTCGATATGGGGGAGCATGAGCGCAACTGGTGTTCGCTTGCCGTGTTCTCACTGCTGCTGCTTGTTGGCGCGGTCTCGATCGTCAGCCCGTTTTTCTCGATTTTTTCTGTGTGA	MTSIILFKDNKRAGFAAAHHRARPHNANDNIRSMEFDMGEHERNWCSLAVFSLLLLVGAVSIVSPFFSIFSV				NA	NA	NA	NA	NA
BMS010_05412	1311	hom_1	COG0460	Homoserine dehydrogenase	ATGGCAGATTCATTGAGAATCGGCATAGCGGGGCTCGGCACTGTCGGCGCTTCGCTCGTGCGCATCCTCCAGCAGAGAAGCAACGAACTTGCGATTACCTGCGGACGCGCGATTGAGATTATTGCCGTGAGTGCGCGCGACCGTTCGCGCGACCGTGGCATCGATCTTGCGGGTATTACCTGGTTCGACACGCCCGAGCAGCTGGCGAGCGAAGCCGAGATCGACGTCTTCGTCGAACTGGTCGGCGGTGCTTCCGGTCAGGCGGAAAATGCGGTGCGCGCCGCACTCGCACGCGGTCTCCATGTGGTGACAGCCAACAAGGCGCTGCTGGCCAAACATGGCGTCGAATTGGCGACCATTGCCGAAGACAAGGGCGCGCTTCTCAATTTCGAAGCGGCGGTGGCCGGCGGTATCCCCGTCATCAAGGCACTGCGTGAATCCTTGACCGGCAACCATGTGTCGCGCATCTACGGCATCATGAACGGCACCTGCAACTACATCCTGACCAAGATGGAGAAGGAAGGGCTGTCCTTCGAGGCCTGTCTGAAGGAAGCGCAGCGGCTCGGTTACGCGGAGGCCGATCCGGCCTTCGATATCGAGGGCAACGATACCGCCCACAAGCTGGCCATCCTGACGACGCTTGCCTTTGGCAACAGGATTTCGGCCGATGACATCTATCTGGAAGGCATCACCAATATCTCCAGCGAGGACATTCAGGCGGCGGCCGAACTCGGTTATCGCATCAAGCTTCTCGGCGTGGCGCAGGTGACCGAATCCGGCATCGAGCAGCGCGTGCATCCGACCATGGTGCCGCTCGATTCCGTTATCGCCCAGGTGGATGGCGTCACCAATGCGGTGGCAATCGAATCCGATATTCTCGGCGAATTGTTGATGGTTGGCCCGGGTGCGGGCGGCAACGCCACGGCGTCCGCCGTGCTGGGCGACATTGCCGATATTGCCAAGAGCCGTCCGGGCGCCCAGCAGGTGCCGGTTCTCGGCCGTCCGGCGAAATCGCTCACGGAATACCGCCGCGCCAAGATGAAGAGCCACGAGGGCGGTTATTTCATTCGCCTCACGGTGAAGGATCAGGCCGGCGTCTTTGCCTCCATCGCCACCCGCATGGCGGATAACAACATCTCGCTGGAATCCATCGTGCAGCGCCAGCGCGTGCATGTGGAAGGCGCGCCGCAGACCATCATCCTCGTTACCCATGCGACGATGGAAGATGCGATCCGCAAGGCCGTGAAGGCGATCAAGAACGAGAAATATCTCGTCAGCGAGCCGCAGGTCATCCGCATCGAGCGCACCTGA	MADSLRIGIAGLGTVGASLVRILQQRSNELAITCGRAIEIIAVSARDRSRDRGIDLAGITWFDTPEQLASEAEIDVFVELVGGASGQAENAVRAALARGLHVVTANKALLAKHGVELATIAEDKGALLNFEAAVAGGIPVIKALRESLTGNHVSRIYGIMNGTCNYILTKMEKEGLSFEACLKEAQRLGYAEADPAFDIEGNDTAHKLAILTTLAFGNRISADDIYLEGITNISSEDIQAAAELGYRIKLLGVAQVTESGIEQRVHPTMVPLDSVIAQVDGVTNAVAIESDILGELLMVGPGAGGNATASAVLGDIADIAKSRPGAQQVPVLGRPAKSLTEYRRAKMKSHEGGYFIRLTVKDQAGVFASIATRMADNNISLESIVQRQRVHVEGAPQTIILVTHATMEDAIRKAVKAIKNEKYLVSEPQVIRIERT	PGPT0020155_1223	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020155-hom-K00003	NA	NA
BMS010_05413	1221	alaC_2	COG0436	Glutamate-pyruvate aminotransferase AlaC	ATGGAAGAGTTTCACAAGGTCCGGCGTCTGCCGCAATACGTCTTCGAACAGGTCAACCGTTTGAAAGCGAGCGCGCGAGCGGCCGGGGCCGATATCATCGATCTCGGCATGGGCAATCCCGACCTTCCGACCCCGAAGGCCATCGTCGACAAGCTTTGCGAGGTCGTTCAGGACCCGCGCACCCATCGTTATTCCTCGTCCAAGGGCATTCCCGGCCTTCGCCGCGCGCAGGCAGCCTATTATGCCCGCCGTTTCGGCGTGAAGCTGAACCCCGACACGCAGGTCGTCGCCACGCTCGGCTCCAAGGAAGGCTTCGCCAATATGGCGCAGGCCATCACCGCACCGGGTGACGTGATCCTGTGTCCGAACCCCACCTATCCGATCCATGCCTTCGGCTTCCTGATGGCGGGCGGCGTTATCCGTTCGATGAATGTCGAGCCGGATGACAGCTTCTTCGGACCGCTGGAGCGCGCCGTGCGCCACTCCATCCCGAAGCCGCTGGCGCTGATCGTCAACTACCCGTCGAACCCGACGGCGCATGTCGCCTCGCTGGATTTCTACAAGGACGTGATCGCCTTTGCGAAGAAGCATGAGATCATCGTGCTTTCCGACCTTGCCTATTCGGAAATCTATTTCGACGAAAACAATCCGCCGCCTTCGGTTCTCGAAGTTCCCGGCGCAATCGACGTTGCGGTGGAGTTCACCTCCATGTCGAAGACCTTCTCCATGCCCGGCTGGCGCATGGGCTTTGCCGTCGGCAACGAGCGGCTGATCGCGGCGCTGACGCGTGTGAAGTCCTATCTCGATTACGGCGCCTTCACGCCGATCCAGGTTGCGGCGACCCATGCGCTGAACGGTGACGGTTCCGACATTGCCGAAGTGCGCAATGTCTATCGCCGCCGCCGCGATGTGATGGTCGACACCTTCGGCAAGGCCGGTTTCGAAGTTCCGCCGCCGGCGGCGACGATGTTCGCCTGGGCGAAGATTCCGGAAAAATTCCGCCATCTCGGCAGCCTGGAATTCTCCAAGCTTCTGGTCGAGAAGGCAGATATTGCCGTTGCTCCCGGCATCGGCTTTGGCGAGATGGGCGACGATTACGTCCGTCTCGCGCTCGTGGAAAACGAGCATCGAATTCGTCAGGCAGCGCGCAATCTGAAGCGTTTCCTGTCGAGTGCAGACGAAACGATGCATAACGTCGTTTCGCTCAACGCCCACAGATAA	MEEFHKVRRLPQYVFEQVNRLKASARAAGADIIDLGMGNPDLPTPKAIVDKLCEVVQDPRTHRYSSSKGIPGLRRAQAAYYARRFGVKLNPDTQVVATLGSKEGFANMAQAITAPGDVILCPNPTYPIHAFGFLMAGGVIRSMNVEPDDSFFGPLERAVRHSIPKPLALIVNYPSNPTAHVASLDFYKDVIAFAKKHEIIVLSDLAYSEIYFDENNPPPSVLEVPGAIDVAVEFTSMSKTFSMPGWRMGFAVGNERLIAALTRVKSYLDYGAFTPIQVAATHALNGDGSDIAEVRNVYRRRRDVMVDTFGKAGFEVPPPAATMFAWAKIPEKFRHLGSLEFSKLLVEKADIAVAPGIGFGEMGDDYVRLALVENEHRIRQAARNLKRFLSSADETMHNVVSLNAHR				NA	NA	NA	NA	NA
BMS010_05414	960	rihB	COG1957	Pyrimidine-specific ribonucleoside hydrolase RihB	ATGCATAAAGTGATATTCGATACGGATCCCGGTGTAGACGACGCCATGGCGCTTCTGTTCCTGCACCGTCACCCCGATATCGATCTGATCGGCGTCACCACGGTTTTCGGCAACGCTCCCATCGATATCACCACCCGCAATGCGCTCTTCCTCAAGCGGGAATGGCAGATGACAGCGCCGGTCGCAAAAGGCGCGGGCGTGACCTTCGATCCCGCCCGCAAAGAGGGGCATTGGCCGACCTTCATCCACGGCGAAAACGGCCTCGGCGATATCGATATCCCTGAAACCATCGATCTGCCGCTCGATCCGCGGCCCGCGCATCGCTTCATCATCGAAACGGTCAAGGCCAATCCAGGCGAAGTGACGTTGATCGCTGTTGGCCGCATGACCAATCTGGCGCTGGCTTTGCGCGAAGAACCTGACTTCGCCGCTCTGGTGAAGGAAGTGATCGTCATGGGCGGCGCCTTCGACATCAACGGCAATGTCTCGCCGGCGGCCGAGGCCAATATTCATGGCGATCCGGAAGCGGCCGATCTTGTCTTCACTGCGCCGTGGCGCGTGGTCGTCGTCGGTCTCGATGTCACGACAAAAACCGTGATGACGAGCGCCTTCATGGCTGAGATGGCAGAGGCGGGCGGCAAGCCGGTGCAGCTGCTTTCGGACCTGTCGCAATTCTATATCGATTTCTACAAGACCCGCACCGGTGACGGCATGGTGGTGCATGACAGCTGCGCCTGCGTTTATCTCGTCGCGCCGGAACTGTTTACCACCCGCAGCGGCCCGGTGCGTGTCGTCTGCGGCGGGCTTGCCGATGGCCAGACGATCCAGAGGCCGGATGGCCGCGCCTTTCCGCCGGGCGACTGGGACGGGCATCCGAGCCAGCTCATCTGCACGGATATCAAGCCGGAGCGCGTGCTTTCGGTCATCCGCGCGGCAATTGTGAAGGGTGAGCACGGCTGA	MHKVIFDTDPGVDDAMALLFLHRHPDIDLIGVTTVFGNAPIDITTRNALFLKREWQMTAPVAKGAGVTFDPARKEGHWPTFIHGENGLGDIDIPETIDLPLDPRPAHRFIIETVKANPGEVTLIAVGRMTNLALALREEPDFAALVKEVIVMGGAFDINGNVSPAAEANIHGDPEAADLVFTAPWRVVVVGLDVTTKTVMTSAFMAEMAEAGGKPVQLLSDLSQFYIDFYKTRTGDGMVVHDSCACVYLVAPELFTTRSGPVRVVCGGLADGQTIQRPDGRAFPPGDWDGHPSQLICTDIKPERVLSVIRAAIVKGEHG	PGPT0013465_1146	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013465-iunH-K01239	NA	NA
BMS010_05415	804	yfcA_2	COG0730	putative membrane transporter protein YfcA	GTGCAAGATATCGCCCTCAACGTTTTTCTCGTCCTTTTCTGCGTCGCCATCTTTGCCGGCTTTATCGATTCCATTGCCGGTGGCGGCGGCCTCATCACCATTCCGGCGATGCTGATCATGGGCATTGCACCGCTCGATACGCTCGGCACCAACAAGCTGCAATCGCAATTCGGCTCTGCCTCCGCCACCATCGCTTATGCCCGGCGCGGCCATGTCAATCTGAGGGAACAATTGCCCATGGCCGTCATGGCCATGCTTGGCGGCGGGCTCGGCGCGGTCGCCGCCGGCTTCGTGCCTTCGAGCGTGCTGCGTACCATCATGCCGTTCCTGCTGATCGCGATTGCAATCTATTTCGCCTTCAAGCCGCAGCTCAGCGATATCGACAGCCACCGCCGCATCACACCCTTCGTGTTCGGCTTCACCGTCGCGCCGCTGGTGGGCTTCTACGACGGCGTTTTCGGCCCCGGTGCGGGATCCTTCTACATGCTCGCCTTCGTGGCGCTTGCCGGTTTCGGCATGTTGAAAGCAACCGCCCACACCAAGCTTCTGAACCTCGGCTCGAACTTCGGCGGTTTCGTTGTGTTTGCGATAGGTGGTGCGGTTTTGTGGAAGCTCGGCCTCGCCATGGGCGTCGGCCAGTTCATCGGCGCACAGATCGGCTCCCGCTTCGCCATGAAGAACGGCGCGAAGATCATCCGCCCGCTGCTGGTGCTTTCCTGCCTGGCCATGGCGACGAAGCTTCTTATTGACGCTTCGTCCGCGTGGTCCATCGCGACGATATGGGAAACGATATTCCCGACGTAA	MQDIALNVFLVLFCVAIFAGFIDSIAGGGGLITIPAMLIMGIAPLDTLGTNKLQSQFGSASATIAYARRGHVNLREQLPMAVMAMLGGGLGAVAAGFVPSSVLRTIMPFLLIAIAIYFAFKPQLSDIDSHRRITPFVFGFTVAPLVGFYDGVFGPGAGSFYMLAFVALAGFGMLKATAHTKLLNLGSNFGGFVVFAIGGAVLWKLGLAMGVGQFIGAQIGSRFAMKNGAKIIRPLLVLSCLAMATKLLIDASSAWSIATIWETIFPT				NA	NA	NA	NA	NA
BMS010_05416	696			hypothetical protein	TTGAAAGATTTGATTGAGTTGTTCTGGCTGCGTTATACGGAACTGCAATCTGCCGTTGGTAAGAACGAAGCCGACAAGATCGCAGTGCTGGAGCGTGAACTGGAGCAGCTTCTCGAGCGGGTCGTCGGACGCAAGACAGAAAATTCCGAAGATATTCGCGAGCAGTTCCGTTTTGCCATCGACCTCCTCAACCACGAGGCGGAGGATCTGGGCTGCGTCCAGCGCAACTCCGAGCTTCTGCGGACGCTCGTTGATCGTTACGTCGGCATGCCTTCGAAGGCCAAAGTCGTTGGTGACGAGGACGAGGACACGCTGGAGTGGCATCATCGCCACCTGATCCTCGATGAAGACATGCTGAACGATCTGGACGATCCCGTCGTGATCGTTACGCCCGGCTACCGCGTTTCGTTCGCCAATTCTCTTGACGCGTTTCAGCGCAATGCGCCGGAAGGGCTTGTGGGTTGCCATATTGCGGAGCTGGTCGGCGTCCACCGTTTCCAGAACGACCTCAGGGACAAGCTCGACAATTGTTTCAAGGGCGATACGTCGAAGTATACCTACGCGGAAGACCAGAACGGCCGCACGATCGTGAAATCGTTGGAAATGTCACCGTGTTATTCATCTGCCTACAAGCTTGTTGGCGCGATGGTCGTCATCCGTGAAATCGAGGATCGCAGACGCCGCGCCACGGCGTGA	MKDLIELFWLRYTELQSAVGKNEADKIAVLERELEQLLERVVGRKTENSEDIREQFRFAIDLLNHEAEDLGCVQRNSELLRTLVDRYVGMPSKAKVVGDEDEDTLEWHHRHLILDEDMLNDLDDPVVIVTPGYRVSFANSLDAFQRNAPEGLVGCHIAELVGVHRFQNDLRDKLDNCFKGDTSKYTYAEDQNGRTIVKSLEMSPCYSSAYKLVGAMVVIREIEDRRRRATA				NA	NA	NA	NA	NA
BMS010_05417	930	lpxM2	COG1560	Lipid A biosynthesis myristoyltransferase 2	TTGAAGCTGTTCCTGACACGGATTGTCCTGAAACTGGACCACTTCCGGCAGTGGCTGATTGCGACATTCGCCTTCGGCCTCCTCAATCTGCTGAAGCTTTTTCCCGCCGATGCGGGCATTCGCGCCGCCGACCGGCTGGCGCGCTGGGTGGGGCCGAAAACCGGCCGCCACAAGCTGATGCTCCATAATCTGGCGCGCGCCTTTCCGGAGAAATCCGAGGAGGAGCGGCTTGAGATCGCCATGGATAGCTGGGCCAATATGGGCCGGCTTGCGGCGGAATATGTGTTTCTCGACCGGCTGTTCGATTTCGATCCGGAAAAGAACGAAACGGGCCGCATCGAGGTCGAGGGCATTCCGACCTTCCTCGAGCTGCGCGACAATCCGCGGCCCTTCATCGTCTTTACCGCCCATAGCGGCAATTTCGAATTGCTGCCGGTGGCCGGCTCGGCTTTCGGTCTCGATGTAACGGTGCTGTTCCGTCCACCGAACAATCCTTTCGTGGCCGACAAGGTGTTCAACTTCCGCAAGGAGCGCATGGGCAATCTTGTGCCGTCGCACGCCGGCTCCTCTTTCGCGCTGGCGCGGCAGCTGGAAAAGGGCGGCGGTGTCGGCGTGCTCGTCGACCAGAAGTTCGGCAAGGGGCTGACGACAAAGTTCTTCGGCCTTGAAGTCCGCACCAATCCGCTGCTTGCCAAGCTGGTGCGACAGTTCAACTGCGATGTCTATCCGGCCCGTTGCGTGCGTCTTCCCGACAATCGCTACAGGCTGGAAATAGAGCCCAAGGTTGAAATTCCGCGCGATGAGAAGGGTAATGTCGACATTCAGGCGACGGCGCAGCTTCTGAACGACAAGGTGGAAAGCTGGGTGCGCGAATACCCCGGACAATGGCTGTGGTATCACGACCGCTGGGACGTCAAGCACCAGATTTAA	MKLFLTRIVLKLDHFRQWLIATFAFGLLNLLKLFPADAGIRAADRLARWVGPKTGRHKLMLHNLARAFPEKSEEERLEIAMDSWANMGRLAAEYVFLDRLFDFDPEKNETGRIEVEGIPTFLELRDNPRPFIVFTAHSGNFELLPVAGSAFGLDVTVLFRPPNNPFVADKVFNFRKERMGNLVPSHAGSSFALARQLEKGGGVGVLVDQKFGKGLTTKFFGLEVRTNPLLAKLVRQFNCDVYPARCVRLPDNRYRLEIEPKVEIPRDEKGNVDIQATAQLLNDKVESWVREYPGQWLWYHDRWDVKHQI	PGPT0013315_1105	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0013315-lpxL|htrB-K02517	NA	NA
BMS010_05418	1029			2-haloacrylate reductase	ATGCGCGCTCTTCAACTCGTGGACGACCGGAAGCTCGAAAAAGTGGACCTGCCCGAACCGGATGCCCCGGCGCCGGGCGAGGTGACGTTGCGCGTCAAGGCGGTTGCGCTCAACCACATCGATGTATGGGGCTGGCGCGGCATGGCTTTCGCCAAGCGCAAGATGCCGCTCACCATCGGTGCCGAGGCTTCGGGTGTGGTCGAAGCCATCGGTCCGGGCGTTTCGAATGTGCTGCCCGGCCAGCTCGTGTCGATCTACGGTGCGCGCACCTGCGGGCTGTGCAAGCCGTGTCGCGAAGGCCGTGACAATCTGTGCGAACATGTGCAGGGTGTGCACGGTTTCCACCTTGACGGTTTCGCGCAGGAAAAGATCAATATTCCCGCCCGCCAGCTGGTGCCCGCGCCGCATGGCGTCGATGCCGTTGCAGCGGCTCTCGCACCGGTGACCTTCGGCACCGTCGAGCACATGCTGTTCGACAATGCCAGGCTGGAGTCCGGCGAAACCATCCTCATCCATGCCGGCGGTTCCGGCATCGGCACGGCGGCGATCCAGCTTGCCAAGAAGATGGGCTGCACCGTCATCACCACTGTCGGTTCCGACGACAAGATCGAACGGGCGAAGGCGCTGGGCGCCGATCACGTCATCAACTACCGGACCGACCGTTTCGAAGGCGTCGTGCGCAAGCTGACGAAAAAGAAGGGCGTCGACGTCGTGTTCGAACATGTCGGCAAGGACACCTGGGCGGGTTCGATGTTCTCGCTGAAGCGCGGCGGCCGTCTCGTCACCTGCGGCTCCACGTCGGGCGTTTCCACCGATATCAACCTGATGATGCTGTTCCAGCAGCAGCTGAAGCTGCTCGGCTCCTTCGGCTGCCGCATGGAAAACATGGCCAACGCCATGCAGAAGATGGCGCGCGGCATCGTTCATCCCGTCATCGACACCGAAGTGACCTTCGACGATATCGACCGGGCGCTGGAGCGCATGGAGACGCGCCAGGTGTTCGGCAAGATCGTTCTGCGAATGGACTGA	MRALQLVDDRKLEKVDLPEPDAPAPGEVTLRVKAVALNHIDVWGWRGMAFAKRKMPLTIGAEASGVVEAIGPGVSNVLPGQLVSIYGARTCGLCKPCREGRDNLCEHVQGVHGFHLDGFAQEKINIPARQLVPAPHGVDAVAAALAPVTFGTVEHMLFDNARLESGETILIHAGGSGIGTAAIQLAKKMGCTVITTVGSDDKIERAKALGADHVINYRTDRFEGVVRKLTKKKGVDVVFEHVGKDTWAGSMFSLKRGGRLVTCGSTSGVSTDINLMMLFQQQLKLLGSFGCRMENMANAMQKMARGIVHPVIDTEVTFDDIDRALERMETRQVFGKIVLRMD	PGPT0006375_1102	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006375-EC_1_1_1_1|adh-K00001	NA	NA
BMS010_05419	1284	fabF_3	COG0304	3-oxoacyl-[acyl-carrier-protein] synthase 2	ATGACTTCCAATTTCAGGGATCATCTCGGTCGTCCCATCGTCGCCGTCACCGGCATGGGCATCATCACCTCGCTCGGGCAGGGGCTTGCCGATAACTGGGCGGCGCTGACATCGGGCAAATCGGGCATCCACAAGATCACCCGTTTCCCGACCGAGGGGCTTTCGACCCGCATCAGCGGCACGGTGGATTTCATCGATATCCCGGTTCCGAATTCCGTCGAGCGTTCCTATGCCTTCGCGCGCGAAACCACCATCGAGGCGCTGGCGCAGGCCGGTATCTCCGGCGATTTCGACGGCCCGCTGTTTCTTGCAGCACCGCCTATCGAGCCGGAATGGAGCGCCCGTTTCGAGCTTGCCGACCGGTCTCCGCCGGCCGCCCAGCCGGGTGACGCCTATGAGCGGTTCCTGACGGCCTTCCGCCAGCGTCCCGACCCGGCATTCCAGGAAGCCGCCCTGTTCGGCGCGATTTCCGAGCGTCTTTCCGACCGTTTTGGCACACGCGGCCTGCCTGTCACGCTGTCTACGGCCTGTGCATCGGGCGCGACCGCGATCCAGCTCGGCGTCGAGGCGATCCGCCAGGGACGCACCGAGCGGGCGCTGACGGTTGCGACCGACGGTTCGGTCAGCGCCGAGGCGCTGATCCGCTTCTCGCTTCTCTCCGCGCTTTCGACCCAGAACGACCCACCGGAAAAGGCCTCCAAGCCGTTCAGCAAGGACCGCGACGGTTTCGTGATCGCCGAAGGTGCAGCCACACTGGTGCTGGAATCGCTGGAAGCTGCGGTTGCACGCGGTGCGAAGGTGCTCGGCATCATCAAGGGTGCGGGCGAGAAGGCCGACAGCTTCCACCGCACGCGGTCTTCGCCCGATGGCGGCCCGGCGATTGCAACGATCCGCGCGGCACTGGCCGATGCGGGCGTGGCAGAAAGCGATATCGGTTACATCAACGCCCACGGCACTTCGACGCCTGAGAACGACAAGATGGAATATGGCTCCATGCTCGCCGTCTTCGGCGAGGGTCTGAAGAATATTCCGCTGTCGTCCAACAAGTCGATGATCGGCCATACGCTCACCGCCGCCGGCGCCGTGGAAGCGGTGTTCTCGCTGCAGACCATGCTGACCGGCACGCTGCCGCCGACGATCAACTACAACAATCCCGATCCGACCATCACGCTCGACGTGGTGCCGAATGTGAAGCGGGATGCTCAGGTGAGTGCGGTTCTGTCCAACTCCTTCGGGTTCGGCGGGCAGAATGCAAGCCTTGTCATGACGCGGGAACCGGCTTAA	MTSNFRDHLGRPIVAVTGMGIITSLGQGLADNWAALTSGKSGIHKITRFPTEGLSTRISGTVDFIDIPVPNSVERSYAFARETTIEALAQAGISGDFDGPLFLAAPPIEPEWSARFELADRSPPAAQPGDAYERFLTAFRQRPDPAFQEAALFGAISERLSDRFGTRGLPVTLSTACASGATAIQLGVEAIRQGRTERALTVATDGSVSAEALIRFSLLSALSTQNDPPEKASKPFSKDRDGFVIAEGAATLVLESLEAAVARGAKVLGIIKGAGEKADSFHRTRSSPDGGPAIATIRAALADAGVAESDIGYINAHGTSTPENDKMEYGSMLAVFGEGLKNIPLSSNKSMIGHTLTAAGAVEAVFSLQTMLTGTLPPTINYNNPDPTITLDVVPNVKRDAQVSAVLSNSFGFGGQNASLVMTREPA	PGPT0008360_1664	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008360-fabF-K09458	NA	NA
BMS010_05420	1197			hypothetical protein	ATGAAATCTGACAATGATGTGGTGATAACAGGGGTCGGCATCGTGACCTGTCACGGCGTCGGTAGCCAGGCGCATGTGGCGCTTCTTTCGGGAACCGCCGTGCCGGAGCCGGTGGTCGAGACCGAAAAGTTCAAGCCCTATCCGGTCCATCCCATGCCGGAGATCGACTGGTCCGCGCAGATCGCCAAGCGCGGCGACCAGCGCCAGATGGAAAACTGGCAGCGTCTCGGCGTTTTCGCCGCCGGTCTGGCGCTCGACGATGCTGGGCTGAAGGAAGATGCCGAAGCCTGCGCCACCATGGACATGATCGTTGCCGCCGGCGGCGGTGAGCGCGACATCAATGTCGATACGCTGATCGTCGACGAGGCGCTGAAGCGCAATGACCGCGAAAAGCTGCTCAATGAGAAGCTGACGACGGAGCTGCGCCCGACGCTGTTTCTCGCCCAGCTTTCCAACCTGATGGCCGGCAATATTTCTATCGTGCACAAGGTTACCGGATCTTCCCGCACCTTTATGGGCGAGGAAGCGGCCGGCATTTCCGCCGTCGAAACCGCGTTCCACCGCATCCGCTCCGGCGAATCGAGCCACGCGCTGGTGGGCGGCGCCTTCTCGGCGGAACGTCCCGACATGATCCTGCTGTTTGAGGCCATCGGCGCACATGCGCAGGGCGGCTGGCAGCCGCTGTGGTCGCGCGAAGGCCAGGAAGGCGGCGGCATGGTTTCCGGTTCGCTCGGCGCATTCCTGGTGCTGGAATCGCGCAAGCACGCCAGCGAGCGCGGCGCGCGCATTTATGCCCGCATCGACGCCATCGAGGGCGACCGCGGCAGCCGTGACGAAGGCAAGATGGAAAAGCGCATGGAGCGGCTGCTTGCTCCCGCCAAGGACAGCGCGGCGACCGTCGTATTTTCCGGCGCGAGCGGTTATGACGGCGTGACGGCCCGCGAGAAGGATATTCTCGAAAAGGCCCTGCCAAATGCCGTCATTCGCGGTTTTGGCGGCGTCACCGGCCACGGGCTGGAAGCACAGTTTCCGCTCGGACTGGCGCTTGCCGCACTGACGCTTGAAAGCGGCGCGAAGGTGCCTACCTTCGATGCGGCTGAGGAAAAGCCCATGGGCGAGGCGGCCAGCGAAGCCGTCGTCACCACCGTCGGCCATGTGCGCGGCGAAGGTGTCGCCGTTCTGTCCCGCGACGTTTGA	MKSDNDVVITGVGIVTCHGVGSQAHVALLSGTAVPEPVVETEKFKPYPVHPMPEIDWSAQIAKRGDQRQMENWQRLGVFAAGLALDDAGLKEDAEACATMDMIVAAGGGERDINVDTLIVDEALKRNDREKLLNEKLTTELRPTLFLAQLSNLMAGNISIVHKVTGSSRTFMGEEAAGISAVETAFHRIRSGESSHALVGGAFSAERPDMILLFEAIGAHAQGGWQPLWSREGQEGGGMVSGSLGAFLVLESRKHASERGARIYARIDAIEGDRGSRDEGKMEKRMERLLAPAKDSAATVVFSGASGYDGVTAREKDILEKALPNAVIRGFGGVTGHGLEAQFPLGLALAALTLESGAKVPTFDAAEEKPMGEAASEAVVTTVGHVRGEGVAVLSRDV	PGPT0008360_8066	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008360-fabF-K09458	NA	NA
BMS010_05421	480			hypothetical protein	ATGCTGCTTGAATATTTTCAGATGATCGACAAGGTCGAGGCCGTGGACATGACGACGCGCACGTTGAAGGCGCAGTCTGTCGTTCCCGACAAAAGCCCGGTTTTCGAAGGCCACTTTCCCGGCATGCCGCTGGTTCCGGGCGTGCTTCTGATCGAGACAATGGCGCAGGCGTCCGGCATGATGGTTCTGGCGTTTTCCGATTTCGCCTCCATGCCGTTCCTGATGTCGGTCGACGGCGCCAAGATGCGGACCTTCGTGGAGCCGGGCGCCGTTCTCGACATCGAGGCGGTGCTGGAGCATGACGGTTCCGGCTTTGCAGTGACCAAGGCGAAGATCACCTCGGATGGCAAGAAGGTCTGCGACGCGCAGCTTAAACTCAGGACCATGCCCTTCAGCGAAATCCCGCTTGGGCCTATCGTCAAGAAGCGGGCCGAGGAAGTCGGCCTGATGGCGGCGATTGCCGCGGATGCGCAGAAATAA	MLLEYFQMIDKVEAVDMTTRTLKAQSVVPDKSPVFEGHFPGMPLVPGVLLIETMAQASGMMVLAFSDFASMPFLMSVDGAKMRTFVEPGAVLDIEAVLEHDGSGFAVTKAKITSDGKKVCDAQLKLRTMPFSEIPLGPIVKKRAEEVGLMAAIAADAQK	PGPT0008365_930	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008365-fabZ-K02372	NA	NA
BMS010_05422	279	acpXL	COG0236	Acyl carrier protein AcpXL	GTGACAGCTACATTCGACAAGGTTGCCGACATTATCGCCGAAACCAGCGAAATCGACCGCGAAACCATTACGCCGGAGAGCCACACGATCGACGATCTGGGCATCGACAGCCTCGACTTTCTTGATATCGTTTTCGCGATCGACAAGGAATTCGGCATCAAGATTCCGCTCGAGCAGTGGACGCAGGAAGTCAACGAAGGCAAGGTTTCCACCGAAGAATATTTCGTGCTGAAGAACCTTTGCGCCAAGATCGACGAATTGCGCGCAGCCAAGGGCTGA	MTATFDKVADIIAETSEIDRETITPESHTIDDLGIDSLDFLDIVFAIDKEFGIKIPLEQWTQEVNEGKVSTEEYFVLKNLCAKIDELRAAKG				NA	NA	NA	NA	NA
BMS010_05423	1350	hemN_2	COG0635	Oxygen-independent coproporphyrinogen III oxidase	ATGAATACCGAACTTCTTCACAAATATTCGGGTGCAGTGCCGCGCTACACAAGCTATCCGACCGCGCCGCATTTCCACGAGGGAATCGATAATGGCACCTATCGCCGCTGGCTCGGCGCGCTCGGTCACAGGAATCGCCTGTCGCTTTATCTGCATATTCCCTATTGCGACCGGCTGTGCTGGTTCTGCGCCTGCCACACCAAGCACACGCTGAAATACGAGCCGATTGCCGTTTATCTTGAAGCGCTTAAGCAGGAGATCGAAGCCGCCGGCGCGCTTGTTTCGCCGGATGCGGTGGTGAGTGCCGTGCATTTCGGCGGCGGCTCGCCCACCATGTTGAAGCCAGAGGACATGCAGAGCCTGATGGACTGTCTGCGGCGTCATTTCACCTTCGGCCTCGCACCCGAGATCAGCGTCGAGATGGACCCCAACGATCTGGATGACAGCCGCTACGATGCGCTTGCCGCCATCGGCATGTCGCGGGCGAGCCTCGGGGTTCAGGACTTCGATGACAAAGTGCAAAAAACCATCAACCGCATCCAGTCCTTCGAACAGACGAAATCCGTGGTGGATGCGGTGCGGGCGAGGGGCGTTCATTCGGTCAATTGCGACATTCTTTATGGGCTGCCGTTCCAGACCTGCGGGACATTGGAAAAGACGGTGAACCAGATCGTGTCGCTCGACCCCGATCGCATCGCGCTTTTCGGTTATGCGCATGTTCCGTGGATGAAAAAACACCAGTCGCTGATCCCGGAGCATGCCCTGCCGGATATTGCCGAGCGCTACCGCCAGATGACGATGGCGGCGGAGATGCTGAAACAGGCGGGTTACGAGGCCATCGGCATCGATCATTTCGCCAAGCCGACCGATACATTATGCCAGGCCGCCGAAGCGGGCGCCCTGCGGCGGAATTTTCAGGGCTATACGACCGACACGGCCGATGCGCTGATCGGGCTTGGCGCATCATCCATCGGCAGGCTGCCGCAGGGTTACGTGCAGAACATGGTGGCGACGGGGGAATATCAGCGGATGGTGGGCGAGGGCGGTCTTGCCGCCGTCAAGGGCATAGAGTTGTCTGAGGACGACCATCTGCGCTCGCATGTCATCGAAAGGCTGATGTGCGATTTCGCTATCGATCTTTCGCAGTTGCAGCACCGTTTCGGCAATGTGAGCCATTCCGTGAGAGCCCAGGCGCAGCATTTTGCCGCAAGCGACAAGGATGGCGTGGTGCGGATGGACGCCGATATTTTTGCGGTGACGGAGGCTGGAAAGCCCTTCGTGCGTAATATCGCGGCAATCTTCGACGCCTATCTCGGCAATGGACGCGGCCGCCATTCGGTTGCTGTTTAG	MNTELLHKYSGAVPRYTSYPTAPHFHEGIDNGTYRRWLGALGHRNRLSLYLHIPYCDRLCWFCACHTKHTLKYEPIAVYLEALKQEIEAAGALVSPDAVVSAVHFGGGSPTMLKPEDMQSLMDCLRRHFTFGLAPEISVEMDPNDLDDSRYDALAAIGMSRASLGVQDFDDKVQKTINRIQSFEQTKSVVDAVRARGVHSVNCDILYGLPFQTCGTLEKTVNQIVSLDPDRIALFGYAHVPWMKKHQSLIPEHALPDIAERYRQMTMAAEMLKQAGYEAIGIDHFAKPTDTLCQAAEAGALRRNFQGYTTDTADALIGLGASSIGRLPQGYVQNMVATGEYQRMVGEGGLAAVKGIELSEDDHLRSHVIERLMCDFAIDLSQLQHRFGNVSHSVRAQAQHFAASDKDGVVRMDADIFAVTEAGKPFVRNIAAIFDAYLGNGRGRHSVAV	PGPT0003200_2521	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003200-hemN|hemZ-K02495	NA	NA
BMS010_05424	726	fixK_3	COG0664	Nitrogen fixation regulation protein FixK	ATGGACACGCTGCAGAAGACCATCCACAATTCGGAAGAACCCGTTGTTTGCCGCTCCTGCGAGGCGCGTCACGGCGGTCTTTGCAGCACGCTGACGCCGCAGCAGCTCTGTGACCTCAATCGCCATTCCAGCCGCAAGAAACTGGAAGCGGGCAACGAGCTTCTTGGCCAGGGCGAACTCGTGACCTCCTATGGCAATATCCTGAACGGTGTGGTGAAGCTGTCGAAAATGATGTCGGATGGCCGCCAGCAGATCGTCGGCCTGCAATTCGCGCCGGACTTTCTCGGCCGACCCTTCATGGCGGAAAGCAAGATGACGGCGGAAGCCGCAACCGATGTGGAGATTTGCCTCTTCCCGCGCCGCGTCGTCGACCGGATGGTTGCCGAAGTGCCAGATATGGAACGCAAGCTCCACAACCAGTCCCTGAAGGAACTGGACGAGGCTCGCGACTGGATGCTGACGCTGGGGCGCAAATCGGCGCAGGAAAAGGTTGCCAGCTTCCTTTATATGATCGCCACCCATATCGACCCGGAAAACGACGACAAATCCTGCTTCGACCTGCCGCTTTCACGCGCCGATATCGCCGATTTCCTCGGCCTCACCATCGAAACGGTTAGCCGGCAAATGACCAAGCTGCGCAAGGAAGGCATTATCCGCATCGAGAACAATCGTCACATTACCGTGCCTGATCTCGACGTGCTGAGTGACGCCGCCGGCAACGACTGA	MDTLQKTIHNSEEPVVCRSCEARHGGLCSTLTPQQLCDLNRHSSRKKLEAGNELLGQGELVTSYGNILNGVVKLSKMMSDGRQQIVGLQFAPDFLGRPFMAESKMTAEAATDVEICLFPRRVVDRMVAEVPDMERKLHNQSLKELDEARDWMLTLGRKSAQEKVASFLYMIATHIDPENDDKSCFDLPLSRADIADFLGLTIETVSRQMTKLRKEGIIRIENNRHITVPDLDVLSDAAGND	PGPT0000515_1613	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0000515-fnr-K01420	NA	NA
BMS010_05425	426			hypothetical protein	ATGGGCAAGCACATGGGCACATGGGGAACATATGCGGAAAATGCGGCAAGAATCGCTGTGCTTTCGCTCTCCGGCGCAATGCTCGCCGCCACACTTGCCGCCTGCAAGGCTCCGGAGCCGATCGTCGCGCCCGCCCATATGCGCCGCCCGACGGCCGAAATCGTCGGCCCGCGCCCGGTCAGCGACACTGCGGTGAGCCAGAAGCGCGACACCGGCACCTATCCGACCTTCTCGCAGCCGCTGACGGCCGCTGGCACCCAGATGGGCGAAGATGAGGCCTCCACCATGGAATCGAGCCTCTCGCGCCTCGGTGCGGCACGGCGCAACGGCCAGATTTCGGAAGCCGAATACAAGCGCCGCGTGGCGGAGCTGCGGGCGCTTGCCGAAAACCAGAAGCCGGTTGCGACGCCAGCCGCCTCGCAGTGA	MGKHMGTWGTYAENAARIAVLSLSGAMLAATLAACKAPEPIVAPAHMRRPTAEIVGPRPVSDTAVSQKRDTGTYPTFSQPLTAAGTQMGEDEASTMESSLSRLGAARRNGQISEAEYKRRVAELRALAENQKPVATPAASQ				NA	NA	NA	NA	NA
BMS010_05426	1860	phaC_3	COG3243	Poly(3-hydroxyalkanoate) polymerase subunit PhaC	ATGGCAGGTGTTGACGGCGGGGACACGAAAAAGGGTGGCAAAACGCCCGGCTTTGACGCCAGCTCCGCCGAGGCCTACCTGATCCGCGACCCGGAAACCTTCGCGATCAACATCGCCCGTGCGCTCGAAAATCTCGGCAAGGCCGCATCCGAATGGCTCGCCCCGCGCGAACGCGGTGAGGTTCCCCACACCAGCGCCGATCCGGTAACCGATCTCGTCAGGACGCTCTCCGATGTCGCCGAATACTGGATGGCCGAACCGAAGCGCTCGCTCGAGGCGCAGACCCATCTGCTTTCCAGCTATTACGATCTCTGGGCAAAATCGGTGGCGCAGTTTTCCGGCGATGCCGATTCGGCCCCGCAAAAACCCGCCGAAAGCGGCCCTGCGGAACGCAGGAGCAGGCGTTTTGCAGATGCCGACTGGCAGGCCAATCCGTTCTTCGATTTTCTCCTGAAAGCCTACCAGACCACCGTTGGTTTCGCCGACCGGATGGTGACGGAGGCCAATGGGCTGGACGAACATACCCGCACCAAGGCGCTGTTTTATATGCGCCAGGTGACGGAGGCCCTTTCGCCGGCCAATTTCGTCTTCACCAATCCGCAGGTCTTTCGCGAAACGGTCGCCTCCAGCGGCGCCAATCTCGTCAAGGGCATGGCGCAGCTGGCGGAGGATGTCGCGGCCGGAAACGGCCACCTGAAACTGCGCCAGACCGATTACAGCAAATTCGTCATCGGCCAGAATATCGCCGTCACGCCGGGCAAGGTGGTGGCGAAAAGCCCGCTCTGCGAAATCATCCATTATGCGCCGACGACGCAGAAGGCCTTCAAACGGCCTTTGCTGATCGTGCCGCCATGGATCAACAAATTCTACATCCTCGATCTCAACCCGCAGAAATCCTTCGTCGGCTGGTGCCTCGAGCAGGGCCACAGCGTCTTCATGGTCTCCTGGATCAACCCGGATGCCCGCCTCGCCGACAAGGGCTGGGATGATTACGTCCGCGAAGGCATCGGTTTTGCGCTCGATACCATCGAGGAGCGGACCGGCGAAAAAGAAATCAACGCCATCGGCTATTGCGTCGGCGGCACTCTTTTATCTTCCGCGCTGGCGCTGCATGCGCAGCAAGGCGATGAACGCATTCGCAGCGCCACGCTGCTGGCCGCCCAGACCGATTTCATCCATGCCGGCGATCTCAAGGTCTTCATCGACGAAGGCCAGCTGGCCGCGCTGGACAAGCACATGCAGGCGGTCGGTTATCTCGACGGCTCGATCATGGCCACCGTCTTCAACATGCTGCGCGCCTCCGATCTCATTTGGCCCTATGTGGTCGATAATTACCTGCGCGGCGCCGAGCCCCTGCCCTTCGACCTCCTCTACTGGAACTCCGATTCGACCCGGGCGACGGCCGCCAGCCACTCTTTTTATCTGCGCAATTGTTACCTCGAGAACAATCTCGCCCGCGGGCTGATGCGGGTCGCCGGCAAGCGGATCAATCTCGGGGATATCAAAATCCCGGTCTATGATCTCGCCACCCGCGAGGACCATATCGCGCCGGCGAAATCGGTCTTTACGGGTGCTGCGCTGTTCGGCGGGCCGGTGGAATTCGTGCTTGGCGCTTCCGGCCACATAGCCGGCGTCATCAATCCGCCGCAGCTTGAAAAATACCAATATTGGACAGGCCCGTCACCGGCCGGAGACTTTGACGGCTGGCAGGCCGCCGCCACCCCGCACAAAGGCTCCTGGTGGGTGCACTGGCAGAACTGGATCGAAAGCCAGAGCGCTGAAAAGGTGACGGCGCGAAAACCGGAAGACGGCAAGGGCCCCGTGCTCGGCGATGCGCCGGGAACCTATGTCCTCTCCTGA	MAGVDGGDTKKGGKTPGFDASSAEAYLIRDPETFAINIARALENLGKAASEWLAPRERGEVPHTSADPVTDLVRTLSDVAEYWMAEPKRSLEAQTHLLSSYYDLWAKSVAQFSGDADSAPQKPAESGPAERRSRRFADADWQANPFFDFLLKAYQTTVGFADRMVTEANGLDEHTRTKALFYMRQVTEALSPANFVFTNPQVFRETVASSGANLVKGMAQLAEDVAAGNGHLKLRQTDYSKFVIGQNIAVTPGKVVAKSPLCEIIHYAPTTQKAFKRPLLIVPPWINKFYILDLNPQKSFVGWCLEQGHSVFMVSWINPDARLADKGWDDYVREGIGFALDTIEERTGEKEINAIGYCVGGTLLSSALALHAQQGDERIRSATLLAAQTDFIHAGDLKVFIDEGQLAALDKHMQAVGYLDGSIMATVFNMLRASDLIWPYVVDNYLRGAEPLPFDLLYWNSDSTRATAASHSFYLRNCYLENNLARGLMRVAGKRINLGDIKIPVYDLATREDHIAPAKSVFTGAALFGGPVEFVLGASGHIAGVINPPQLEKYQYWTGPSPAGDFDGWQAAATPHKGSWWVHWQNWIESQSAEKVTARKPEDGKGPVLGDAPGTYVLS	PGPT0014740_257	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_RELATED_GENES	CE-BIOFILM-POLYHYDROXYBUTYRATE_PRODUCTION,PGPT0014740-phbC|phaC-K03821	NA	NA
BMS010_05427	720	sfsA_1	COG1489	Sugar fermentation stimulation protein A	ATGTTCTTCACGCCCCCGCTTACTCCCGCCACGCTGATCGCCCGCTACAAGCGTTTCCTGTTCGATGCCGTTCTGGAAGACGGCACCGCGATCACCGGCTCCTGCCCCAATACCGGCTCCATGCGCGGGCTCACGGCTCCGGGCTCCCGCATATGGCTGTCGGAACATGACAGCCCGACCCGCAAGTACCGGCACATGCTGGAAATGGTCGAGGCCGATGGCACCACGGTCGGCATCAATACCGGCATGCCGAACCGGCTGGCGGAAGAAGCGATCCTGAACGGCCTCATCCCTGAACTCGGCGGCTATTCGACGATCCGGCGCGAACAGAAATACGGCCGCAATTCCCGCATCGATTTCCTGCTGTCCGAGCCCGGCCGGCCAGATGCCTATGTGGAAGTCAAGAACGTGCATTTCATGCGCGAGCAAGGCCTCGCCGAATTTCCCGATACCGCCACCAAACGCGGCGCGAAACATCTGGAGGAACTGGGTGACGCTGCGGAAGCCGGTTACCGTTCGGTGATGCTCTATCTCATCCAGCGCGACGATTGCGACCGGATGCGCATCTGCGACGATCTCGATCCCGTCTATGCGCTGGCGTTTCAGCGGGCGATGGCGCGCGGCGTAGAGACCTATGCGGTGAAATGCACGGTCTCCCCGGCACAAATTTCGGTCAGCGGAACGGTTAAGATGGACGAATGGCGTCCGGCTGTTTTATGA	MFFTPPLTPATLIARYKRFLFDAVLEDGTAITGSCPNTGSMRGLTAPGSRIWLSEHDSPTRKYRHMLEMVEADGTTVGINTGMPNRLAEEAILNGLIPELGGYSTIRREQKYGRNSRIDFLLSEPGRPDAYVEVKNVHFMREQGLAEFPDTATKRGAKHLEELGDAAEAGYRSVMLYLIQRDDCDRMRICDDLDPVYALAFQRAMARGVETYAVKCTVSPAQISVSGTVKMDEWRPAVL	PGPT0017980_545	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_SUGAR_FERMENTATION,PGPT0017980-sfsA-K06206	NA	NA
BMS010_05428	840	map_2	COG0024	Methionine aminopeptidase	ATGGTCACCTATATCGACGCAGCCTCCGCCCCCCTCAAGAATACCGGCGTCATCCGCCTCTATACCGCTGAGGACTTCGACGGGATGCGCAAGGCGTGCCAGCTGACGGCGCGTTGCCTCGATGAACTCGCCGCAATCGTCAAGCCGGGCGTGACGACTGACGCCATCGACCGTTTCGTCTTCGAATTCGGCGCCGACCACGGCGCGCTGCCGGCAACGCTGAATTATCGCGGCTATACCAAATCTGTCTGCACCTCGATCAACCACGTCGTCTGCCACGGCATTCCGGATGCAAAGCCACTGCGCGACGGCGATATCGTCAATATCGACGTGACCTATGTGCTTGACGGATGGCATGGCGATTCGAGCCGCATGTATCCGGTCGGCCAGATCAAGCGCGCCGCCGAGCGGCTGATGGAAGTGACCTATGAATGCCTGCTGCGCGGCATCGCGGCGGTGAAGCCCGGCGTGCGCACCGGCGCAATCGGCGCGGCGATCCAGGCCTATGCGGAAGCGGAGCGCTGCTCCGTGGTGCGCGATTTCTGCGGCCATGGCGTCGGACGCCTGTTCCACGACACGCCGAACATCCTGCATTACGGCCGCCCGGACGAAGGCCCGGAAATCCGCGAAGGCATGATCTTCACCATCGAGCCGATGATCAATCTCGGCAAACCGCATGTGAAGGTGCTTTCCGACGGCTGGACGGCGGTGACGCGCGACCGGTCGCTCTCCGCCCAATATGAACATGCCGTCGGCGTCACGGCCACGGGCTGCGAAATCTTCACACTGTCGCCCGGCGGCTTCGACCGTCCGGGCCTGCCGCCGCTTCCCCCCGCATAA	MVTYIDAASAPLKNTGVIRLYTAEDFDGMRKACQLTARCLDELAAIVKPGVTTDAIDRFVFEFGADHGALPATLNYRGYTKSVCTSINHVVCHGIPDAKPLRDGDIVNIDVTYVLDGWHGDSSRMYPVGQIKRAAERLMEVTYECLLRGIAAVKPGVRTGAIGAAIQAYAEAERCSVVRDFCGHGVGRLFHDTPNILHYGRPDEGPEIREGMIFTIEPMINLGKPHVKVLSDGWTAVTRDRSLSAQYEHAVGVTATGCEIFTLSPGGFDRPGLPPLPPA	PGPT0020010_3333	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020010-map-K01265	NA	NA
BMS010_05429	834			hypothetical protein	ATGGCAAAACGCCCCGCCCCGCCTTCCGCCGACCTTTCCAAAACTCCCGGCTTTCAGGCGGGCGAAGGCGATCTGTTCAACGGAGCGGATGAGCGCGGCTTTTTCGCCGAATCGCGAAGCGGTACGAAAAAGCCGCCCGCCATCGTCGAACAGGAAACGGATGCCGCCCATTATCACGGACATCGCGACCGGCTGCGGGCGCGTTATCGCGATGGCGGCGACGCGGCGCTCGCCGATTACGAATTGCTGGAGCTTCTTCTCTTCCGGCTGATCCCGAGGCGCGATACCAAACCCATCGCCAAGGCCCTGATCGCCCGTTTCGGGACGCTTGGCGGCGTGCTCGGCGCGCCCTTGCCGTTGTTGCAGGAGGTGAAGGGCGTGGGCGAAACCGTGGCGCTCGATCTGAAGCTCGTCGCCTCCGTTTCGCAGCGCATGCTGAAAAGCGAAATCCGCAACAAGCAGGTGCTCGGCTCCTGGTCCTCTGTCATCGATTATTGCCACGCCGCCATGGCCCATGAAACGCGCGAACAGTTCCGCGTCCTGTTCCTCGACAAGCGCAACGTCCTGATCGCCGATGAGGTGCAGGGCCAGGGAACCGTGGATCACACGCCGGTCTACCCGCGCGAAGTGGTGCGCCGCGCCCTTGAACTTTCATCTACCGCCTTGATTTTAATACATAATCATCCAAGTGGAGACCCCACCCCTTCGCGCGCGGATATCGAGATGACCAAGACCATCATCGATACGGCAAAGCCGCTCGGCATCACCGTCCACGACCACATCATCATCGGCAAGGACGGCCACGCCAGTTTCAAAGGCCTTCGGCTGATCTGA	MAKRPAPPSADLSKTPGFQAGEGDLFNGADERGFFAESRSGTKKPPAIVEQETDAAHYHGHRDRLRARYRDGGDAALADYELLELLLFRLIPRRDTKPIAKALIARFGTLGGVLGAPLPLLQEVKGVGETVALDLKLVASVSQRMLKSEIRNKQVLGSWSSVIDYCHAAMAHETREQFRVLFLDKRNVLIADEVQGQGTVDHTPVYPREVVRRALELSSTALILIHNHPSGDPTPSRADIEMTKTIIDTAKPLGITVHDHIIIGKDGHASFKGLRLI				NA	NA	NA	NA	NA
BMS010_05430	423			hypothetical protein	ATGTTTAATGGAGTGCGTTTCTTTCGCGATAGATCTGGCTCGTCTGCTGTCGAGTTCGCCATCGTCGCACCGATATTCTTTCTCGTTCTGCTCACCATGATCGCCTACGGCATTTATCTGATGGCGGCCTATTCGGTGCAGCAGATCGCCGCCGACGCGGCGCGCACAGCGGTTGCCGGCCTCAATACGACCGAACGCCAGCAGCTTGCCCGGGATTTCGTCACCAAAAGCGACCTCAGCTACGCCTTCATGGACAAGAGCCGTTTCACCGTCGATGTCGCGACGGATCCCGCCAATGCCAACCAGTTCACGGTGAAGGTCGAATATGACGCCCGCGATCTGCCGATCTGGAGCCTCTACAGCTACACCCTGCCCGAGCCGGTCATCCGGCGTTTTTCCACCATCCGGATCGGAGGAGCATGA	MFNGVRFFRDRSGSSAVEFAIVAPIFFLVLLTMIAYGIYLMAAYSVQQIAADAARTAVAGLNTTERQQLARDFVTKSDLSYAFMDKSRFTVDVATDPANANQFTVKVEYDARDLPIWSLYSYTLPEPVIRRFSTIRIGGA				NA	NA	NA	NA	NA
BMS010_05431	1740			hypothetical protein	ATGCGAGATTTTCATTCCCTGCTTCCCCGCTTCCTCAAGGATAAAACGGGCAACATCGCCATTTCGGCGGGGCTCACCGCACCGCTCTTCATCGGCATATTGGCGCTCGGCGTCGACTACGGTTATCTGACATTGCAAAAACGGCAGTTGCAGCAGACCGCCGATCTCGCAGCCATATCGGCAGCAGCCAACGCCGCGGACGCCGAAAAGGCGGTTCAGCAATATTTCGCCCTCAATGGCATGGATCTCGGTGTCAGGACGGCGCAGGGACTTTTGACCGAAAAGGGCCTGCAACCCTTCGACCCGCTGAATGAATTCGCCAACAGCAAGGGTTATGCCGAGGTCATCAAGGGTCATTACGAGCCGGATGCGACAGTCCCGGTCGGCCAGCGTTTCGTCGATAACGCCCTGCCCACGAATGCGATAAAGGTGAACATCGTCGAACAGGGCCAGATATTCTTCGCTTCCGCCTTCACCAAGCCGCCAAAGGTCTCGGCGGTCGGAACGGCCTCGTCCCAAAGGATCGCGGCATTTTCGGTGGGATCGCGCCTCGCCAGCCTCGATGAGGGAATTCTCAACAGCCTGCTCGGTGGCTTGCTCGGCACCACGGTTTCATTGAAACTCATGGATTATCAGGCGCTTCTCGCCGCCGATGTCAATGCGCTCAAGATCGTCGAGGCGCTGGCCATCGATCTCAACCTCACCGCCGGCACCTATAAGGATGTTCTGAAGACGGAAATCAGCTACGGCAAATTCCTCGACGTACTGACGAAAACCGCAGGCTTGCAGCCGGCGGTCGTCAACATTTTGAATACGCTGCAAAAAACCGTCAACAAGAGCAACGTCAAGATCAAGCTTGAGGAAATCCTCAATCTCGGCCCATTCTCGGACAAGCTGATCGGTACGGGCGAAAACCTCAAGGTCACCGCCGGCGTCTTCGATCTCATCAATGCCGCCGCCGTGGCGGGCAATGGCGGTAACCAGCTGGGGCTTAATATCAACGCCAATCTTCTCGGCCTCGCCTCGGTCAAGGCAACGCTCGCCATCGGTGAACCGCCGGTCGAAACGCCGTCGCTTGCCGTCGGCGGGCAGGGCACCGTCGTGCGCACCGCACAGACCCGTCTTGCGGTCAGTGTCGTGGTGGACGGGCTTCAGGCCATTGCCGGCCTCAAGGTCAATCTCCCGCTATATGTGGAAGTCGCCCATGCCGAAGCGCGGCTTGCCGATATTCGCTGCACGGGTGGCGGACAGGGCACCGTCGATGTCGAGGTCGTTCCCGGCATTGCCGAAATCGCCCTTGGCAATGTCGATACCCCCGCCTTTGCCAATTTCGGCAGGGACCCGCGCGTCACCAAGGCCGCAATCGTGGATTCAGCACTGCTCGCCATCAATGGCAGCGCCCTCATCAATGCCACCAATATGACCAAGACCAAGCTGACCTTCACGCAGTCCGATATTACCCAGGCCAAGATCAAGAGTGTCTCCACCAAGGACACAGTCACCACTCTTGTCAGTTCACTGCTGAAAAACCTCAACCTGGATATCAGGCTTCTTTTCCTCAACCTGGATCTGGGAGGTCTGGCGGGCATTCAGTCGGCGCTTGCCAACACGCTCGCGGCAGTCACCGCTCCGGTCGATCAGCTGCTCTACAACGTGCTTCTGGTTCTCGGCGTCAAGATCGGCGAAGCCGATGTGCGGGTCACGGATGTCCGCTGCCAGCAGCCGGCGCTGGTGCAATAG	MRDFHSLLPRFLKDKTGNIAISAGLTAPLFIGILALGVDYGYLTLQKRQLQQTADLAAISAAANAADAEKAVQQYFALNGMDLGVRTAQGLLTEKGLQPFDPLNEFANSKGYAEVIKGHYEPDATVPVGQRFVDNALPTNAIKVNIVEQGQIFFASAFTKPPKVSAVGTASSQRIAAFSVGSRLASLDEGILNSLLGGLLGTTVSLKLMDYQALLAADVNALKIVEALAIDLNLTAGTYKDVLKTEISYGKFLDVLTKTAGLQPAVVNILNTLQKTVNKSNVKIKLEEILNLGPFSDKLIGTGENLKVTAGVFDLINAAAVAGNGGNQLGLNINANLLGLASVKATLAIGEPPVETPSLAVGGQGTVVRTAQTRLAVSVVVDGLQAIAGLKVNLPLYVEVAHAEARLADIRCTGGGQGTVDVEVVPGIAEIALGNVDTPAFANFGRDPRVTKAAIVDSALLAINGSALINATNMTKTKLTFTQSDITQAKIKSVSTKDTVTTLVSSLLKNLNLDIRLLFLNLDLGGLAGIQSALANTLAAVTAPVDQLLYNVLLVLGVKIGEADVRVTDVRCQQPALVQ				NA	NA	NA	NA	NA
BMS010_05432	1377	aroH_1	COG3200	Phospho-2-dehydro-3-deoxyheptonate aldolase	ATGGCACAGAATTGGACCCCCGGCAGCTGGCGGCAGAAACCGATCCAGCAGGTTCCCGAATATCCGGATGCGGCAGCACTTGCGGCAACGGAAGCCACGCTTGCGACTTATCCGCCCCTGGTCTTTGCCGGTGAAGCCCGCCGCCTGAAGAAGCAGCTCGCCAATGTGGCTGAAGGCAACGCCTTCCTGCTGCAGGGCGGGGATTGCGCCGAAAGCTTCCTCGAGCATGGCGCGGACAACATCCGCGACTTCTTCCGTGCCTTCCTGCAGATGGCCGTCGTGCTGACCTATGGCGCGCAGCTGCCCGTCGTAAAGGTCGGCCGCATTGCCGGTCAGTTCGCCAAGCCGCGCTCTTCCAACGTGGAAGCGCAGGATGGCGTGACGCTGCCGTCTTACCGCGGCGACATCATCAACGGCATCGAATTCAACGAGGCCTCGCGCATCCCGAACCCGGAGCGCCAGCTCGACGCCTACCGCCAGTCGGCGGCGACGCTGAACCTGCTGCGCGCTTTCGCGATGGGCGGTTACGCCAACCTTGAAAACGTTCACCAGTGGATGCTCGGTTTCATCAAGGACAGCCCGCAGGCGGATCGCTACCGCAAGCTGGCCGACCGGATTTCCGAAACCATGGACTTCATGAAGGCGATCGGCATCAGCGCGGACAATAATCCGAGCCTGCGCGAAACCGACTTCTTCACCAGCCATGAAGCCCTGCTGCTCGGTTACGAAGAGGCGCTGACCCGCGTCGATTCCACCTCCGGTGACTGGTATGCTACATCCGGCCACATGCTGTGGATCGGCGACCGCACGCGCCAGCTCGACCATGCGCATGTGGAATATTTCCGTGGCATCAAGAACCCGATCGGCTTGAAATGCGGTCCGTCGCTGACGCCTGACAATCTGATCGAGCTGATCGATGCGCTGAACCCGGCGAACGAGGCTGGCCGCCTGACGCTGATTTGCCGTTTCGGCCATGACAAGGTGGCGGACAGTCTGCCGAAGCTCATTCGCGCCGTTGAGAAGGAAGGCCGCAAGGTCGTCTGGTCCTGCGATCCGATGCATGGCAACACGATCACGCTCAACCACTACAAGACGCGTCCTTTCGAGCGCATCCTGTCGGAAGTGGAAAGCTTCTTCCAGATCCACCGCGCCGAAGGCACGCATCCGGGTGGCATCCATATCGAGATGACCGGCAAGGACGTGACGGAATGCACGGGCGGTGCGCGCGCCGTGACGGCGGATTCGCTGTCCGACCGTTACCACACCCATTGCGATCCGCGCCTCAATGCCGATCAGGCGCTGGAACTGGCCTTCCTGCTGTCTGAGCGCATGAAGAGCGGCCGCGATGAGAAGCGTCTGGCAATCGCCAACGCCTGA	MAQNWTPGSWRQKPIQQVPEYPDAAALAATEATLATYPPLVFAGEARRLKKQLANVAEGNAFLLQGGDCAESFLEHGADNIRDFFRAFLQMAVVLTYGAQLPVVKVGRIAGQFAKPRSSNVEAQDGVTLPSYRGDIINGIEFNEASRIPNPERQLDAYRQSAATLNLLRAFAMGGYANLENVHQWMLGFIKDSPQADRYRKLADRISETMDFMKAIGISADNNPSLRETDFFTSHEALLLGYEEALTRVDSTSGDWYATSGHMLWIGDRTRQLDHAHVEYFRGIKNPIGLKCGPSLTPDNLIELIDALNPANEAGRLTLICRFGHDKVADSLPKLIRAVEKEGRKVVWSCDPMHGNTITLNHYKTRPFERILSEVESFFQIHRAEGTHPGGIHIEMTGKDVTECTGGARAVTADSLSDRYHTHCDPRLNADQALELAFLLSERMKSGRDEKRLAIANA	PGPT0012920_1240	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-PHENAZINE_DERIVATES	BIOTIC_STRESS_RESISTANCE-PHENAZINE-1-CARBOXYLIC_ACID_BIOSYNTHESIS,PGPT0012920-3_deoxy_7_phosphoheptulonate_synthase|aroF|aroG|aroH-K01626	NA	NA
BMS010_05433	1389	garB_2		Glutathione amide reductase	ATGACAGCTTATGACTACGATCTTTTCGTCATCGGTGGCGGTTCCGGCGGCGTGCGCAGCGGCCGCGTGGCGGCCTCGCTCGGCAAGCGCGTCGCAATCGCCGAGGAATATCGTTATGGCGGAACCTGCGTCATCCGCGGCTGCGTGCCGAAGAAGCTGTTCGTCTACGCCTCGCAATTCCCTGAGCATTTCGAGGATTCGGAAGGATTCGGCTGGAGCGTCGGCGAGCGCAGCTTCGACTGGAAGAAGCTCATCGCGGCCAAGGACAAGGAAATCACCCGTCTCGAAGGGCTCTACCGCAAGGGACTGGAAAACGCCAAGGCCGATATTTTCGATAGCCGGGCGGAACTGGTCGACGCCCATACCGTGAAGCTGACGAAAACCGGCGAGACCTTCACGGCCGAGCGTATCGTGATTGCTGTCGGCGGCACGCCGAACGAGCACAAGGCGCTGCCCGGCCATGAGCTGACGATCTCGTCCAACGAGGCTTTCGACCTCGAAGAGCTGCCGAAATCGATCCTGATCGCCGGCGGCGGTTATATCGCTGTCGAATTCGCCAATATCTTCCATGGGCTCGGCGTCGAAACGACCCTGATCTATCGCGGCAAGGAAATCCTCTCGCGCTTCGATCAGGACATGCGCAAGGGCCTGCATGAAGCGATGGAGGCCAAGGGCATCCGCATCCTTCTGGAAGATATCATCGAGGAAGTCAGCAAGGATGGCGCCGGCGGTTTCGTGGCACGCACCAAGCAGGGTGCCTCGCTGCATGTGGGCCTGGTCATGCTGGCGCTTGGTCGCGATCCGAATACCAAGGGCCTGGGTCTGGAAAATGCCGGTGTGAAGGTGGATGCGCGCGGCGCGATCATCGTTGACGATTATTCGCGCACGAATGTGCCGAATATCTTCGCGCTGGGTGACGTCACCGACCGGGTACAGCTGACGCCGGTGGCAATCCATGAGGCAATGTGCTTCATCGAAACCGAATACAAGAACAACCCGACCAAGCCGGATCACGAGCTGATCGCGACGGCGGTGTTCTCGCAGCCGGAAATTGGCACCGTCGGCCTTTCGGAAGAGGAAGCCGGCAAGAAATATCCGGAACTGGAAGTCTATCGCGCCCAGTTCCGGCCGATGAAGGCGACGCTTTCCGGCCGTCAGGAAAAGACGATCATGAAGCTGATCGTCAATGCCGCCGACCGCAAGGTTGTTGGCGTCCATATTCTCGGCCATGAGGCGGGCGAGATGGCGCAGCTTCTCGGCATCACGCTGAAAGCCGGCTGCACCAAGGATGATTTCGACCGCACCATGGCGGTTCATCCCACAGCCGCCGAAGAACTGGTGACGATGTATTCGCCGAGCTATCGCGTCGTGAATGGCGAGCGTGTGTAA	MTAYDYDLFVIGGGSGGVRSGRVAASLGKRVAIAEEYRYGGTCVIRGCVPKKLFVYASQFPEHFEDSEGFGWSVGERSFDWKKLIAAKDKEITRLEGLYRKGLENAKADIFDSRAELVDAHTVKLTKTGETFTAERIVIAVGGTPNEHKALPGHELTISSNEAFDLEELPKSILIAGGGYIAVEFANIFHGLGVETTLIYRGKEILSRFDQDMRKGLHEAMEAKGIRILLEDIIEEVSKDGAGGFVARTKQGASLHVGLVMLALGRDPNTKGLGLENAGVKVDARGAIIVDDYSRTNVPNIFALGDVTDRVQLTPVAIHEAMCFIETEYKNNPTKPDHELIATAVFSQPEIGTVGLSEEEAGKKYPELEVYRAQFRPMKATLSGRQEKTIMKLIVNAADRKVVGVHILGHEAGEMAQLLGITLKAGCTKDDFDRTMAVHPTAAEELVTMYSPSYRVVNGERV	PGPT0013175_820	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013175-gor-K00383	NA	NA
BMS010_05434	570			hypothetical protein	ATGGTCAAACTAGCGGGACTGGGCAAAGCTGCCGCTGCTTCGATCCTCATTTCCGGCATCGTGTTCGGTACTGCCGCACGCGCTCAGGAAATTTCGGAAGCGCATATCGCTGCCGCACGGCAGGCGATCACCTCTCTTGGCGTTACCGACCGTTTCGACGACATTCTGCCGGGTCTGGCGGAGCGTCTGAAGGCCGAACTCATTCAGGCTTCGCCGAACGTTCAGGACGCGATCACCGAGACTGTCGATGCGAAGGCTCTCGAGCTTGCGCCGCGCCGCGCCGATCTGGAGCGCGAAGCAGCGCTGACCTATGCGCGCGCCTTCACCGTCGAAGAGCTGAACGCCATTTCCACCTTCTACAGCAGCGAAGCCGGCAAGAAGCTTCTGAAGGACGGCCCGATCGCCACGCGCGAACTGATGAAGGCCGCCGATATCTGGGCCGCCGGCATCAACCGCGACCTCAACGCTTCCAGCATGTCGGAACTGCAGAAGGTTGCCGGCGCCGATCTGAAGCCGCTTCCGGCCGATCAGAACGCCACCGGTGGCGCCCCGGCTGCTCCCAAGCCCTGA	MVKLAGLGKAAAASILISGIVFGTAARAQEISEAHIAAARQAITSLGVTDRFDDILPGLAERLKAELIQASPNVQDAITETVDAKALELAPRRADLEREAALTYARAFTVEELNAISTFYSSEAGKKLLKDGPIATRELMKAADIWAAGINRDLNASSMSELQKVAGADLKPLPADQNATGGAPAAPKP				NA	NA	NA	NA	NA
BMS010_05435	696	rpiA_1	COG0120	Ribose-5-phosphate isomerase A	ATGGATGCCCGCCAGATGAAGATCAAGGCCGCCGAGGCTGCATTGTCCCACGTACAGGATGGGATGAGGCTCGGTATCGGCACGGGTTCGACGGCCGAGGAATTCGTCAGGCTTCTGGCCGAAAAGGTCGCCGCCGGTCTGAAAGTCGAGGGGGTGCCGACATCCGAGCGCACAGCACGCCTGTGCGTCGAGCTTGGCGTGCCGCTGAAATCGCTGGATGAATTGCCGGAACTGGATCTTACCATCGACGGTGCGGATGAGGTCGATCATGCGCTGCGTCTCGTCAAGGGCGGCGGCGGCGCGCTGCTGCGCGAAAAGATCGTTGCGGCGGCATCCGCCCGCATGATCGTGATCGCCGACCAGAGCAAGGTGGTGGAGACGCTGGGCGCCTTTCCGCTGCCCATCGAAATCAACCCGTTCGGCCAGGTGGCGACGCGTATCGCCATCGAAAAACTGGCGTCGCGTTCCGGGCTTTCCGGCGCGCTGACGATGCGTTCGTCGGGCGACGGCGCCTTCATGACGGATGGCGGACACCTTATCCTCGACGCATCTTTTAGCCGTATTCCTGATGCAGAAGCGCTAGCACGCGAGCTGAACACGATTCCCGGTGTCGTCGAGCACGGACTTTTCATAAATTTGGCATCGCTTGCCATTATCGCGGGTCCTGAAGGCGCCCGCGTGATGCAGGCAGTATAA	MDARQMKIKAAEAALSHVQDGMRLGIGTGSTAEEFVRLLAEKVAAGLKVEGVPTSERTARLCVELGVPLKSLDELPELDLTIDGADEVDHALRLVKGGGGALLREKIVAAASARMIVIADQSKVVETLGAFPLPIEINPFGQVATRIAIEKLASRSGLSGALTMRSSGDGAFMTDGGHLILDASFSRIPDAEALARELNTIPGVVEHGLFINLASLAIIAGPEGARVMQAV	PGPT0017390_1722	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_RIBOSE_METABOLISM|DEGRADATION,PGPT0017390-rpiA-K01807	NA	NA
BMS010_05436	702	mupP_3	COG0546	N-acetylmuramic acid 6-phosphate phosphatase	GTGACATCCCGCCCGCTCTCCCCGCTCGCCATTTTCGATCTCGACGGCACGCTGGTCGATACCGCCGCCGATCTGGTCTCGAGCCTCAACCACACCATTGCCGCAGCCGGGCTTGCTCCCGTCACCTATGACGACCTGACCCACCTCGTCGGCCAGGGCGCGCGGGTGATGATCAAGCGCGCCTTCGCGCTTCGCGAGAGGGAACTGCCGGAAGCCGAAATCGAGCCGCTCTATGAGCGCTTCATCACCCATTACCGCGCCGAAATGCCGGGTGAAAGCCGCCCCTATCCCGGCATCATCACTGTGCTGGATGCGCTCTCGGAAGCCGGCATCACGCTTGCCGTCTGCACCAACAAGACCGAAATCCTCGCTGTGCCGCTGCTCGAAAAACTGGGGCTGACGCGATATTTCGCCGCCATCACCTGCGGCGACACCTTCTCCTTCCGCAAGCCGGATGCCCGCCATATTCTCGGCACCATCGAAAAGGCTGGCGGCGATGTCCAGCGCTCCATCATGGTCGGCGACAGCATCAACGACATTCTCGCCGCAAAGAACGCCGCCGTGCCGTCGATTGGCGTCACTTTCGGTTATTCAGATGTGCCAATGGTTGAACTCGAACCGGATGTCGTGATCGACGATTTCACTGAATTGACGCCGGCGCTGTTCGAAGAACTGGTTGCGAAGGGTGCAGCGGCCGCCTGA	MTSRPLSPLAIFDLDGTLVDTAADLVSSLNHTIAAAGLAPVTYDDLTHLVGQGARVMIKRAFALRERELPEAEIEPLYERFITHYRAEMPGESRPYPGIITVLDALSEAGITLAVCTNKTEILAVPLLEKLGLTRYFAAITCGDTFSFRKPDARHILGTIEKAGGDVQRSIMVGDSINDILAAKNAAVPSIGVTFGYSDVPMVELEPDVVIDDFTELTPALFEELVAKGAAAA	PGPT0001730_1739	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0001730-gph-K01091	NA	NA
BMS010_05437	1134	cheB_9		Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGCTCCGCCGGGCGAACGAATTCGCCCCCTACAGCTCCCCCTTTGAACGGCCCTTCCAGGCCGACGGTCTATGCTTGCACAGAGCCGGCACGCGCCGGCGTCCTCTGTCCAGCCATGGGATGCCTTCGACCGTGATTCCCCTCCTGGTCTGCGATGACTCCGCAATGGCGCGCAAGCAGCTGATCCGCGCCCTGCCGGCGGACTGGCCGGTGTCCATCACCCAGGCCACCCAGGGCGAGGAAGCGTTGCAGGCGATCCGCCAGGGACTCGGCCAGGTGGTGCTGCTCGACCTGACCATGCCGGTGATGGACGGCTACGAAGTGCTCGCCCACCTGCGCGACGAAGGGCTGGAGGCCAAGGTCGTGGTGGTCTCCGGCGACGTACAGGAAGAAGCCGTTCGCCGGGTAAGCGATCTCGGCGCCCTGGCCTTCCTGAAAAAACCCACCGACCCGGATGACCTGCGCCGTACCCTGGCCGGCCTCGGCCTGCTCGTCCCCTCCACCGCAAAAGGCCCGCAGACACCGCCCCGAGCGGAGCCGGTACTGACGGTAAATTTCCGCGATGCCCTGCGCGAGGTCAGCAACATCGCCATGGGCCGCGCCGCCGCCCTGTTGGCACGGGTGCTCGGGGTATTCGTGCAACTGCCGATCCCCAACGTGAACATCTTCGAGGTCAGCGAACTGCACATGGCCCTGACCGATGCCCAGCGCGGCGAACGGCTCAGCGCGGTGTGCCAGGGCTTCATCGGCGATGCCATCGCCGGCGAGGCGCTGCTGCTCTTCCACGACTCCGAAGTAGCCGACATGGCGCGCCTGATCGGCGTGCAGCCGAAAGGCGAACGCGACACCTCGGAAATGCTATTGGACCTGGCAAGCCTGCTGATCGGCGCCTGCCTGACCGGCATCGCCGAGCAGATCGACGTGCGCTTTTCCCAAGGCCACCCGCAACTGCTCGGCCAGCACGCCTCCATCGAGCGGCTTATCCACCTCAACCGCACGCGCTGGAAGAAGACCCTGGCGGTGGAAATCAGCTACAGCCTGGAGGGCCATGACGTCCACTTCGACCTGCTGTTGCTGTTCACCGAGGATTCGCTGGCACGCCTCACCGACAAGATCAACTACCTGATGGGCTGA	MLRRANEFAPYSSPFERPFQADGLCLHRAGTRRRPLSSHGMPSTVIPLLVCDDSAMARKQLIRALPADWPVSITQATQGEEALQAIRQGLGQVVLLDLTMPVMDGYEVLAHLRDEGLEAKVVVVSGDVQEEAVRRVSDLGALAFLKKPTDPDDLRRTLAGLGLLVPSTAKGPQTPPRAEPVLTVNFRDALREVSNIAMGRAAALLARVLGVFVQLPIPNVNIFEVSELHMALTDAQRGERLSAVCQGFIGDAIAGEALLLFHDSEVADMARLIGVQPKGERDTSEMLLDLASLLIGACLTGIAEQIDVRFSQGHPQLLGQHASIERLIHLNRTRWKKTLAVEISYSLEGHDVHFDLLLLFTEDSLARLTDKINYLMG				NA	NA	NA	NA	NA
BMS010_05438	453			hypothetical protein	ATGGCTGCGCAGATCGACATCGATGAAGTCCACTGGCTGCTCGACATCGTCCAATGCCTGGACGTCGGCGTGATCGTGCTGGATCGCCAGTACCGGGTCGAAGTGTGGAACAGCTTCATGGAGAACCACTCGGGCATGGGCCCGAGCCAGGTCTACGGCAAGACGCTGTTCGAGCTGTTCGGCGAAGTGGATGAGGCCTGGTTCCGGCGCAAGGCGGACAGCGTGCTGCAACTCGGCACCCGCGCCTTCAGCCTGTGGGAACAGCGCCCCTACCTGCTGCATTTCAAGAACTACCAGCCGATCACCGGCCACGAAGACTTCATGTACCAGAACGTCACATTCCTCCCTCTGGTAGGTGCCAAGGGGGAAGTCGAGCATCTGTGCGTGGTGATCTACGACGTCACCGCCGTGGCGATCCTGAAGAAGCAACTGGCCACACGCGGCGGCCAGTGA	MAAQIDIDEVHWLLDIVQCLDVGVIVLDRQYRVEVWNSFMENHSGMGPSQVYGKTLFELFGEVDEAWFRRKADSVLQLGTRAFSLWEQRPYLLHFKNYQPITGHEDFMYQNVTFLPLVGAKGEVEHLCVVIYDVTAVAILKKQLATRGGQ	PGPT0026210_462	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CELLULOSE_METABOLISM	CE-EPS-CELLULOSE_BIOSYNTHESIS,PGPT0026210-adrA-K18968	NA	NA
BMS010_05439	630	rhtC_1	COG1280	Threonine efflux protein	ATGTACTGGACGGAATTTCTCACCGTCGCGTTGATCCATCTTCTCGCGGTGGCCAGCCCTGGGCCGGACTTCGCCATCGTCGTGCGCGAGAGCGTCGCCCATGGCCGCCGCGCCGGTGTCTGGACCGCCCTGGGTGTCGGTGCCGGCATCTTCGTCCATGTCGCCTATTCGCTGCTGGGGATCGGGCTGATCGTTTCCCAGTCCATCGTGCTGTTCAACGCCTTGAAGTGGGTCGCCGCGGCCTATCTGCTGTACATCGGCATCAAGGCCTTGCGCGCGCGGCCGGCCGATCCCGCTGCCGCCGAGCTGCAAGCGGACGAGGCGACCCGTTCGTCCCGTGGCGCCTTCGTCACCGGTTTCGTGACCAACGGCCTGAATCCCAAGGCCACGCTGTTCTTCCTCTCGCTGTTCACCGTGGTGATCGATCCGCACACGCCGCTGGCGATCCAGGGTGGCTACGGTGTCTACCTGGCCGGCGCGACGGCGCTCTGGTTCTGCATGGTCGCCTGGCTGTTCAGCCAGCAGCGGGTGCGCGCCGGTTTCGCCCGCCTGGGGCACTGGTTCGACCGGATGATGGGCGCGGTACTGGTCGGCCTGGGAATCAAGCTGGCGTTCACCCAGCTTCGTTGA	MYWTEFLTVALIHLLAVASPGPDFAIVVRESVAHGRRAGVWTALGVGAGIFVHVAYSLLGIGLIVSQSIVLFNALKWVAAAYLLYIGIKALRARPADPAAAELQADEATRSSRGAFVTGFVTNGLNPKATLFFLSLFTVVIDPHTPLAIQGGYGVYLAGATALWFCMVAWLFSQQRVRAGFARLGHWFDRMMGAVLVGLGIKLAFTQLR				NA	NA	NA	NA	NA
BMS010_05440	966	hprA	COG1052	Glycerate dehydrogenase	ATGAACAACAGCCGCCGCGCCGTTTTCCTCGATCACGCCTCCCTCGATCTCGGCGATCTCGACCTCGCCCCGCTCCGCCAGGCCTTCGACGAACTGGTGCTGCACCCGGGCAGCACATCCGACGAAGTCGTCGAGCGCCTGCAAGGCGCCCAGGTGGCCATCAGCAACAAGGTGCCGCTGAATGCCGAGACCCTGGCCGCCTGCCCGGAGCTGAAACTGATCCTGGTCGCCGCCACCGGCACCAACAATATCGATCTCATCGCTGCCCGCGAGCGTGGCATCACGGTCAGCAACTGCCAGGGCTATGGCACGCCCTCGGTTGCCCAGCACACGCTGATGCTGCTCCTCGCCCTGGCGACCCGCCTGCCCGATTACCAGGCAGCCGTGCGTGCCGGCCGCTGGCAGCAGGCCGCACAGTTCTGCCTGCTCGACTTCCCCATCGTCGAATTGGAGGGCAAGACCCTCGGTCTGCTCGGTCACGGCGAACTCGGCGGCGCGGTGGCCCGGCTGGCCGAAGCCTTCGGCATGCGCGTGCGGCTCGGCCAGTTGCCCGGCCGGCCGCCCCGGGAAGACCGCCTACCGCTGGACGAACTGCTGCCCCAAGTCGATGCCCTGACCCTGCACTGCCCGCTGACCGAGCAGACCCGCGGCCTGATCGGCGCCGCCGAACTGGCGCTGATGAAGCCCAACGCATTTCTGATCAATACTGCCCGTGGCGGTCTGGTCGACGAGCAGGCACTGGCCGACGCCCTGCGCCGCGGCCACCTGGGCGGCGCCGCCACCGACGTGCTGACCCAGGAACCACCGAGGGACGGCAACCCCCTGCTCGCCGGGGATATCCCCCGCCTGATCGTCACCCCGCACAGCGCCTGGGGTAGCCGCGAGGCGCGGCAGCGCATCGTCGGCCAACTGGCGGAGAACGCCACGGCCTATTTCGCCGGTGCGCCACGGCGCCTGGTCGGCTAA	MNNSRRAVFLDHASLDLGDLDLAPLRQAFDELVLHPGSTSDEVVERLQGAQVAISNKVPLNAETLAACPELKLILVAATGTNNIDLIAARERGITVSNCQGYGTPSVAQHTLMLLLALATRLPDYQAAVRAGRWQQAAQFCLLDFPIVELEGKTLGLLGHGELGGAVARLAEAFGMRVRLGQLPGRPPREDRLPLDELLPQVDALTLHCPLTEQTRGLIGAAELALMKPNAFLINTARGGLVDEQALADALRRGHLGGAATDVLTQEPPRDGNPLLAGDIPRLIVTPHSAWGSREARQRIVGQLAENATAYFAGAPRRLVG				NA	NA	NA	NA	NA
BMS010_05441	999	rsmC_1	COG2813	Ribosomal RNA small subunit methyltransferase C	ATGGACCCGCGAAGCGAAGTACTGCTGCGCCAGCCCGAGTATTTCGGCGGCGATCTGCTGCTGGCCGGTCTGCCGGCCGACGACCTGCTCGGCCACCTGCCCGCCGCCCACGGCTGGAGTTGGCACGCCGGGGAACAGGCGGCGCTGACCGCACGTTTCGCCGGACGCAGCCACTTCGGCGTGACGCCACCGGAAGACGCGTTCGACCGTGCCGTGCTGTTCCTGCCGAAGTCCCGCGAACTGGCCGACTACCTGCTGGACAGCCTGGCCGCGCGCCTCGCCGGCCGCGAGCTGTTCCTGGTCGGCGAAAAGCGCGGCGGCATCGAGCGTGCGGCCAAGCGACTGGCGGACTATGGCACTCCACGCAAACTCGACAGCGCACGGCATTGCCAACTCTGGCAAGTCACCGTCGAACGCGCGCCGGACGCGCCCGACCTGCATGGCCTCGCCCAACGCTACGAGCTGTCCCTGGCCGACGGTCCGCTGAGCGTGGTCAGCCTGCCCGGCGTGTTCAGCCACGGCCGCCTGGATCGCGGCACCTCGCTGCTGCTCGAACACCTGGACGGCTTGCCGAGCGGCCCGCTGCTGGACTTCGGCTGCGGCGCCGGCGTGCTGGGGGCGGTGCTGAAACGGCGTTATCCAGATAACCCCGTGACCCTGCTGGACGTGGATGCCTTCGCCGTCGCCAGCAGCAGCCTGACCCTCGCCGCCAATGGCCTGGATGCCGAAGTGATCGCTGGCGACGGCATCGACGCCGCGCCTTCGGGCCTGGCCGCGATCCTCAGCAATCCGCCGTTCCACCAGGGCGTGCACACCGACTACCAGGCCACCGAACACCTGCTGCGCCAGGCGGTCCGGCACTTGGCCCCCGGTGGCGAGCTGCGCCTGGTGGCGAACAGCTTCCTCAAGTACCCGCCGCTGATCGAGCAGCACCTGGGCCCCTGCCGAACCCTCGCCGAAGGCGACGGCTTCCGTATCTACCGGGCCGCGCGGCGCTGA	MDPRSEVLLRQPEYFGGDLLLAGLPADDLLGHLPAAHGWSWHAGEQAALTARFAGRSHFGVTPPEDAFDRAVLFLPKSRELADYLLDSLAARLAGRELFLVGEKRGGIERAAKRLADYGTPRKLDSARHCQLWQVTVERAPDAPDLHGLAQRYELSLADGPLSVVSLPGVFSHGRLDRGTSLLLEHLDGLPSGPLLDFGCGAGVLGAVLKRRYPDNPVTLLDVDAFAVASSSLTLAANGLDAEVIAGDGIDAAPSGLAAILSNPPFHQGVHTDYQATEHLLRQAVRHLAPGGELRLVANSFLKYPPLIEQHLGPCRTLAEGDGFRIYRAARR				NA	NA	NA	NA	NA
BMS010_05443	582	mneA		Putative manganese exporter	ATGGAATCCCTGTTCGTCCCCACCTTGATCGTTGCCCTGGCCGAAATCGGCGACAAGACGCAACTGCTCGCTCTCCTGCTCGCCGCGCGTTTCCGCCGTCCCTGGCCCATCATCTGGGGGATCGTCGCCGCTACCCTGGCCAATCATTTCGCCGCCGGCGCGGTGGGCGCCTGGGTCGCGAGCTTCTTCTCCGCCGCCGTACTCAGCGCGATTCTCGCCGGCTGCTTCGCCGCGGTGGCGATCTGGACGCTGATCCCGGACAAGCTGGACGACGACGAGGACTCCAGCCTGAAACGCTACGGCCCCTTCCTCACCACCCTGATCGCCTTTTTCCTTGCCGAGATGGGTGACAAGACCCAGGTCGCCACGGTGATGCTGGCCGCCCAGTACCCGCATTTCATCCTGGTGGTCCTCGGCACCACGTTGGGCATGCTGATCGCCAACGTGCCGGTGGTGCTGGCCGGCAACTTCGCCGCCGAGCGCCTGCCGCTGACACTGATCCGTCGCCTGGCCGCCGCTGCCTTCGCCGCCCTGGCGGCCTATGCGGGTTATCAGGCGCTTTCGCTGGGCGGGCTGATCTGA	MESLFVPTLIVALAEIGDKTQLLALLLAARFRRPWPIIWGIVAATLANHFAAGAVGAWVASFFSAAVLSAILAGCFAAVAIWTLIPDKLDDDEDSSLKRYGPFLTTLIAFFLAEMGDKTQVATVMLAAQYPHFILVVLGTTLGMLIANVPVVLAGNFAAERLPLTLIRRLAAAAFAALAAYAGYQALSLGGLI	PGPT0013980_1259	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013980-TMEM165|gdt1-K23541	NA	NA
BMS010_05444	444			hypothetical protein	ATGTCACTGGAAGACAGGAAGAAGCTCGTCCTTCACCATATCGATCTGTCTTGGAACAAGGGCCGCCTGGCCCTGGCCGAGCAGTTGCACAGCAAGGACTTCCTCTACAAGAGCGCTTTCATCGGCACCCCATTGGGCAGCAATGACTACGCGAAGATGATCCAGGACATCCGCAGCGCCATGCCGGACCTGGAAGTCGTGGTCGAGGAATGCATCGCCGAGGGCTACAAGGTGGTCACCTGGAGCACCCTGATCGGCACCATCGAGAAGCCCGCCCTGGGCTACCCGCCGAGTGACAAGGTGCTGAGCATTTCCGCCATGGCGTTCTGGACGCTGACCCCGGCCAACGAAATCCAGGAAATCTGCACCATGTTCGACATGGAAAGCTTCCGCTCGCAGCTTGGCCTGGAGAACAGGCGGTTCGCCGAGATCGCCCTGCCCTAA	MSLEDRKKLVLHHIDLSWNKGRLALAEQLHSKDFLYKSAFIGTPLGSNDYAKMIQDIRSAMPDLEVVVEECIAEGYKVVTWSTLIGTIEKPALGYPPSDKVLSISAMAFWTLTPANEIQEICTMFDMESFRSQLGLENRRFAEIALP				NA	NA	NA	NA	NA
BMS010_05445	984			hypothetical protein	GTGAAAATCGCCGTTATCGGAGCCACCGGCCTGCTCGGCCACCATGTGTCGCGCGCGGTGCGCGATGCCGGTCACGAGCTGGTGGTGGTGCATCGTTCCGCCTCGCGCATCGAGCGCCTCGAATACCTCGAGCCGGAATGCCGGTCCGCCGAACTGCTCGATCACCCGGCCTTGAGCCGGGCCCTGGAAGGGCTCGACGGGGCGATCTTCTGTGCCGGCCAGTACCCGCGCCGGCCGCGTCGCTGGCAGGAAGAGGTGGCCAGCGCACTCGACCAGACCAATCATTTCTACGCCGCCTGCCTCAGTGCGCAGGTGCCGCGCATCCTTTATGTCGGTGCCTCCATCGCGTTGCCGCGTCATCCCGAAGGACTACCCGGACATGAGGGGTTGTTCTACGAAGGCATGCCGCGCTGGCGCAACCCTTACCTGCTGTGCAAGTGGGCGCTCGACGAGCAGGCCCGTGAGCAGGCACGCAACGGCCTGCCGGTGGTGATCGGCATTCCCGGAATGACCCTCGGCGCGTTCGATATCGGCCCGAGCACCGGGCGCCTCATCACCGCCATCGGCGACGGCACCATGCGCTACTACGTACCGGGCCGGCGCAACCTGATCGATGCCGCCGATGCCGGTCGCGGCCTGCTGCTGGCGCTGGAAAAGGGACGGGTCGGCGAGCGCTACCTGCTCACGGGGCAAAACATCGAGGTGGGTGAGTTGACCACGCGGATCGCGGCGAAGCTGGGCGTGCCGGCGCCGCAACCGATGCCCCTGGCCCTGGCCAAGGGCATCGCCGCGCTGGGGCGGCTGCGCTACCGGCTGACCGGGCGCGAGCCGCAGTTGAACGACACCGCCATCGCAGTCATGGCCGGCGGGCAATTCCTCGACGGCAGCAAGGCTCGCGAGGAGCTTGGTTTCGAAGCACGCATCCCGCTCGACGTGACCCTCGACCGGGCGATTGGTTGGTTTCGCGAGAACGGCTACCTCTGA	MKIAVIGATGLLGHHVSRAVRDAGHELVVVHRSASRIERLEYLEPECRSAELLDHPALSRALEGLDGAIFCAGQYPRRPRRWQEEVASALDQTNHFYAACLSAQVPRILYVGASIALPRHPEGLPGHEGLFYEGMPRWRNPYLLCKWALDEQAREQARNGLPVVIGIPGMTLGAFDIGPSTGRLITAIGDGTMRYYVPGRRNLIDAADAGRGLLLALEKGRVGERYLLTGQNIEVGELTTRIAAKLGVPAPQPMPLALAKGIAALGRLRYRLTGREPQLNDTAIAVMAGGQFLDGSKAREELGFEARIPLDVTLDRAIGWFRENGYL				NA	NA	NA	NA	NA
BMS010_05446	819	loiP	COG0501	Metalloprotease LoiP	ATGGCCAATTTGTTTCGTATCGCCGGCCTGACGACGGCCTTGCTGCTGGCAGGATGCCAAGCCGTGAACACCACCAGCGGCACCGCGGTGGGTGTCGAGCGCAAGCAATACATGTTCAGCATGCTGTCGACCCAAGAGGTCAACCAGATGTACGCGCAGTCCTACCAGCAGACACTGAGCGAAGCCTCGAGCAAGGGTGTGCTGGACCAGAGCAGCGCCAATGCGAAGCGCCTGAACGGCATCGCCCAGCGGCTGATCGCCAAGGCGCCGCTGTTCCGCCCGGATGCCGCGCAGTGGCAGTGGCAAGTCGCGCTGATCAAGAGCCCCGAGCTGAACGCCAGTTGCGGCCCCGGCGGCAAAATCATCTTCTACAGCGGCCTGATCGAGAAACTGCAGCTGACCGACGACGAGATCGCCGCGGTCATGGGCCACGAGATCGCCCACGCCCTGCGCGAGCACAGCCGCGAGGCGATGTCCAAGGCCTACGGCATCGAGATGGCCAAGCAGGGCGCTGGTGCGCTGCTCGGCCTTGGCCAGGACAGCCTGGCGCTGGCCGACACCGTGGTGCAATACAGCCTGACCCTGCCGAACAGCCGCGGCAACGAGAACGAGGCGGACCTGATCGGCCTCGAGCTGGCCGCCCGCGCCGGCTACAACCCGAACGCCGCGATCAGCCTCTGGCAGAAGATGGCCAAGGCCAGCAACGGCGCGCCGCCGGAGTTCATGAGCACCCACCCGTCGTCCAGCTCGCGGATCGCTTCCTTGCAGGCCGCGATTCCCAAGGTGATGCCGCTCTACGAGCAGGCCAAGGGACGCTGA	MANLFRIAGLTTALLLAGCQAVNTTSGTAVGVERKQYMFSMLSTQEVNQMYAQSYQQTLSEASSKGVLDQSSANAKRLNGIAQRLIAKAPLFRPDAAQWQWQVALIKSPELNASCGPGGKIIFYSGLIEKLQLTDDEIAAVMGHEIAHALREHSREAMSKAYGIEMAKQGAGALLGLGQDSLALADTVVQYSLTLPNSRGNENEADLIGLELAARAGYNPNAAISLWQKMAKASNGAPPEFMSTHPSSSSRIASLQAAIPKVMPLYEQAKGR				NA	NA	NA	NA	NA
BMS010_05447	2139	mcpU	COG0840	Methyl-accepting chemotaxis protein McpU	ATGAAATTCAAGTCGATCCAGTTTTCCATCGCGGCGCTGGCTGGCGTCAGCGTCCTCGCTATCGTGGCCGCGCTGGTGCTGTATTCGCTGCTGTCCGGCGCGCGGACCCAGGCGCTGGTGGAGGACCGGACCCGAGGCCTCTTGGAGAAATTGATCAATGAGCGGCTGGTCACCCTGACCCAGGCGCAGGCCAGCCAGATCCAGCGCGAGCTGGAAATGCCGCTGCTGGTCACCGCCGGACTGGCGCGGGTCAATGCCATGCTCGGCAAGCACGACGCCACCGGCAACCCGCTGCTGAGCATGAGCCGGGAAGAGCTGTCCAGCCTGGTCAGGGAGACTACCGCGGGCAATCCCAAACTGCTCGGCAGCTACATTGGCTGGGAGCCCAATGCCTTCGACAACGACGACGCCAGTCATGCGGGAGTCAAGGAAAACGGCTACGACGGCAGCGGCCGTTTCCTGCCCTGGTGGTTCCGCAACGCCGACGGCAGCCTGGGGGTGGATGCCATCGGCTACATGGAAAGCCAGACCCTGCTGCCCACCGGCGTGCGCGAAGGCGAGTACTACCTGTGTCCGAAAGAGCGCAAGAAGTCCTGCGTGATCGACCCTGCTCCCTACGAGGTTGGCGGCAAGATGGTCATGCTGGCCTCCTTCACCACACCGATCCTGGTCGATGGCGAATTCCGCGGCATCGCCGGTGCCGATCTCGCCCTCGACTTCATCCAGGACCTTCTCAACCAGGCGGATCGCCAGCTCTATGACGGAGCGGGCGAGATGGCGTTGATCGCGTCCAACGACCGCCTGGTCGCCTACACCCGCGACACCAAATTGCTCGGCGAACCGGTCTCCAAGGTGCTCGACGCCAACGAACTGGGCAACCTGAAGCACCTGAGCCCCGGTCAGCCGCTCTACGATATCGACGAGGATCACGGCCACATCGAGCTGTTCCTGCCCTTCGAGATCGCCGACACCGGCGCCCGCTGGACCCTCATGCTGCAACTGCCGCTGGAAGCGGTGATGAGCGAGCTGAACCAGTTGCAGGGCGAGCTGAGCGCCCAGCACGACGCCAATGTTCTGGGCATGGCCCTGGTAGGCCTGCTGATCGCCGTGATCGGCCTCCTGGCGATCTGGTTCGTCGGCTACGGGATCGCCCGGCCACTGCGGCAGATGGTGGTCATGCTGGACGACATCGCCCAGGGCGAAGGCGACCTGACCCGTCGCCTGGAGGTCGATCGCGCCGACGAACTCGGGCAGATCGCCAAAGGCTTCAATACCTTCCTCGCCAAGCTGCAGACGATGATCGGCCAGGTCGTCACCTCGGTGCAGAAAGTCAGCGACTCCTCGGAGTACACCGCCGACATCGCCATCCGCACCAACCAGGGTGTGCAGAAGCAGTTGGCCGAAATCGAACTGGTCGCCACCGCCGTGCATGAAATGACCGCCACTGCCCAGGATGTGGCGCGCAACGCCACCCACGCGGCGGAAGCAGCCAACCATGCCGACCAGGCGGCCAACGAGGGCAAGCGCATCGTGCAGGGCACGTCCGAGGCGATCACCGCCCTGGCCAACGAGATTGGCCGCGCCGTCGGCGTGGTGCAGAGCCTGGCCAAGGACAGCGAGAACATCAACGCCATCCTGGTGACCATCCGCAGCATCGCCGAGCAGACCAACCTGCTCGCCCTCAACGCCGCCATCGAGGCGGCGCGGGCCGGCGAACAGGGACGCGGCTTCGCCGTGGTCGCCGACGAGGTGCGCAACCTGGCGCAGAAGACCCAACAGGCCACCGAAGAAATCCAGACCATGATCCAGCAGTTGCAGAACGGCACCCGCGACGTGGTCAGCGTGATGGAGAACAGCCAGGCGCGCACCGACGACAGCGTGCAGCAGGCCGCCGAGGCGGCGCAGGCACTGGCATCGATCACCGAGGCGGTTTCGGTGATCAACGACATGAACACCCAGATCGCCAGCGCCGCCGAGGAGCAAAGTGCGGTCGCCGAGGACATCAACCGCAATGTCACCACCATCGGCCAGGTCGCCCAGGAAGTCGCCGGCGGTGCCGACGAATCCAGCCAGGCCAGCGCCGAACTGACCAAACTGGCCGAGCAGCAGCGCCGGTTGATCAATCAGTTCAAGGTGTGA	MKFKSIQFSIAALAGVSVLAIVAALVLYSLLSGARTQALVEDRTRGLLEKLINERLVTLTQAQASQIQRELEMPLLVTAGLARVNAMLGKHDATGNPLLSMSREELSSLVRETTAGNPKLLGSYIGWEPNAFDNDDASHAGVKENGYDGSGRFLPWWFRNADGSLGVDAIGYMESQTLLPTGVREGEYYLCPKERKKSCVIDPAPYEVGGKMVMLASFTTPILVDGEFRGIAGADLALDFIQDLLNQADRQLYDGAGEMALIASNDRLVAYTRDTKLLGEPVSKVLDANELGNLKHLSPGQPLYDIDEDHGHIELFLPFEIADTGARWTLMLQLPLEAVMSELNQLQGELSAQHDANVLGMALVGLLIAVIGLLAIWFVGYGIARPLRQMVVMLDDIAQGEGDLTRRLEVDRADELGQIAKGFNTFLAKLQTMIGQVVTSVQKVSDSSEYTADIAIRTNQGVQKQLAEIELVATAVHEMTATAQDVARNATHAAEAANHADQAANEGKRIVQGTSEAITALANEIGRAVGVVQSLAKDSENINAILVTIRSIAEQTNLLALNAAIEAARAGEQGRGFAVVADEVRNLAQKTQQATEEIQTMIQQLQNGTRDVVSVMENSQARTDDSVQQAAEAAQALASITEAVSVINDMNTQIASAAEEQSAVAEDINRNVTTIGQVAQEVAGGADESSQASAELTKLAEQQRRLINQFKV	PGPT0015710_2984	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_05448	618	yedK_3	COG2135	SOS response-associated protein YedK	ATGTGTGGTCGTTATGCCCTGTTTCGCTGGTCGCCATCGTTGGCGGCGTTGCCCGGTTTCCCGTCGGATCAGCAGCCGCACTGGAATCTGGCACCGGGCGCCCAGGTGCTGATGCTGCGCGAGGTGGAGGGCGAGCGGCAGGCGGCCCTGGCGCGCTGGGGGCTGACGCCGGCCTGGTTGACCGACCTTTCGCGCACCCCGGCGCAGGCGCGGGCGGAGACCCTGGCCGACCAGCCGATGTTTCGCGAGCCGTTCCGTCAACGACGCTGCCTGCTGCCGGCCAACGGTTTCTACGAATGGCGCGGTAGTGTCCGCAAGCGCCCGTACTGGTTGACGGGGGATGCATCGGTCCTGCATTTCGCCGCGATCTGGGAAATCTATCCGGTGGGGGGGCACAACTACCTGAGCGTCGCCCTGGTGACCCAGGCGGCGGCCAACCAGCGGCGTCCGTTGATCCTCGACGAGCAGGCGCAACAGGATTGGCTGGCGGCGGACACACCGCTGCCGCGTACCCTGGAGTTGCTGGCTTCTCCCCAACCGACTCTGCGTGAGCGGGTGCTGGCCAACCTGGTCAACGACCCGAAGCTCGATGCGCCGGAGTGCCTGACGCCGGCGTGA	MCGRYALFRWSPSLAALPGFPSDQQPHWNLAPGAQVLMLREVEGERQAALARWGLTPAWLTDLSRTPAQARAETLADQPMFREPFRQRRCLLPANGFYEWRGSVRKRPYWLTGDASVLHFAAIWEIYPVGGHNYLSVALVTQAAANQRRPLILDEQAQQDWLAADTPLPRTLELLASPQPTLRERVLANLVNDPKLDAPECLTPA				NA	NA	NA	NA	NA
BMS010_05449	261			hypothetical protein	ATGCAGCGCATCTACGAGCCGGCGGACCTGCTGGAAGCCGAATTGCTGCAGGGCATGCTCGCCAGCGAGGGCATCGAGGCGCATCTGGCGGGCCGCCACCTGCTCGGTGCGGTGGGCGAACTGCCGGTCAGCGGCCTGCTCGGGCTGCTGGTGGAAGACTCTGACGCCGAACGCGCGCGCCAGCTCATCGCCGCGTACAATGCGGCCCTGCCGTTGCCCGGCGAGGAGCCGGAGCATGTTCCGGGCGTGCTGCTCTGCTGA	MQRIYEPADLLEAELLQGMLASEGIEAHLAGRHLLGAVGELPVSGLLGLLVEDSDAERARQLIAAYNAALPLPGEEPEHVPGVLLC				NA	NA	NA	NA	NA
BMS010_05450	183			hypothetical protein	ATGCTGGAAACCCAGCAGTACCAGTGCCCCTATTGCGGCGAGCCGGCCGAGGCCGTGCTCGATCTGTCCGGTGGCGACCAGACGTATATCGAGGATTGTCCAGTCTGCTGCCGGCCGATCTTGTTCGACCTGCGCAGCGACGGCATGGACTGGAGCCTGGACGTGCGGCGGGAGGACGACTGA	MLETQQYQCPYCGEPAEAVLDLSGGDQTYIEDCPVCCRPILFDLRSDGMDWSLDVRREDD				NA	NA	NA	NA	NA
BMS010_05451	1164			hypothetical protein	ATGGGCGAATTCGAAGCCATCCGACCCTACGCCGACGCCGAAGTGCCCGCCGTCCTGGCGCGCCTGTTCGCCGACAAGACTTTTCTCGACGTACTCATGCGCTTCCGCTTTCCGCGCATGGCCGGTGCGTTTGGCTGGGCCCTCAAACCTCTTATAGCCCATCGGCTGCGCCAGGAGTTCGCCGGCATCGACTCGGTCAGCGCCCTGCAGGACAAGATCGAACCCTACGTCGACCGCACCATCGAGCGCGCCACCGACGGAGTCACCTATTCCGGCCTCGACCAGCTCCAGCCCGGCAACGCCTACCTGTTCCTCGCCAACCACCGCGACATCGTGATGGACCCGGCCTTCGTCAACTACGCCGTCTACCACGCCGGCCTGCCGACCCCGCGCATCGCCATCGGCGATAACCTGCTGCAGCGCCCCTTCGTCAGCGACCTGATGCGCCTGAACAAGAGCTTCATCGTGCACCGTTCGCTGAGCGGACGACGGGAGAAGCTCGCGGCCTACCAGTTGCTCTCCGCCTACATCAATCACTCGATCCGGGTGGATGGCCAGTCGATCTGGATCGCCCAGGCCGAAGGCCGCGCCAAAGACGGGGACGATCGCACCGATTCGGCAATCCTCAAGATGTTCCACATGAGCCGCAAGGACGAGCCCTTCGGGCAGGTCATCGGCGAGCTGAAGCTGGCACCGGTCTCGATCAGCTACGAATACGACCCCTGCGACCAGGCCAAGGCCCGCGAGCTGTACATCCGCGCCACCACCGGCCGCTACGAGAAGGCGCCGGGCGAGGACGACGCCAGCATCGCCTTGGGCATCACCGGCTACAAGGGACGCGTCCACGTCGCCTTCGGCGCTCCGGTGAGCGGCGGCTTCGAGGACGCCAAGCTGTTGGCGGCGGAGATGGACCGGCAAATCCTCGGCTCGTACCGACTGTTCCCGGTGCACTACCTGGCATATGAAATGTGGAGCGAGCGCGACCCGGCACTGAACGTCCCGGCCGCCGCGGAGCTGTTCCCCGCCGCCGAACTGGAGCGTGCCCGCGCCGAGTGGGAAAGACGCCTCGCCGCCTGCCCCGGCGTGCAGCAACCCTATCTGGTGCTGCAGTACGCCAATCCGGTGCGCAATCAGTATCGGGTCAAGGCCGGTCTGCCGCTCTGA	MGEFEAIRPYADAEVPAVLARLFADKTFLDVLMRFRFPRMAGAFGWALKPLIAHRLRQEFAGIDSVSALQDKIEPYVDRTIERATDGVTYSGLDQLQPGNAYLFLANHRDIVMDPAFVNYAVYHAGLPTPRIAIGDNLLQRPFVSDLMRLNKSFIVHRSLSGRREKLAAYQLLSAYINHSIRVDGQSIWIAQAEGRAKDGDDRTDSAILKMFHMSRKDEPFGQVIGELKLAPVSISYEYDPCDQAKARELYIRATTGRYEKAPGEDDASIALGITGYKGRVHVAFGAPVSGGFEDAKLLAAEMDRQILGSYRLFPVHYLAYEMWSERDPALNVPAAAELFPAAELERARAEWERRLAACPGVQQPYLVLQYANPVRNQYRVKAGLPL				NA	NA	NA	NA	NA
BMS010_05452	288			hypothetical protein	ATGTCGTTGCAGGCGTTGTGGTCGCTGGTCGTCGCCTATCCCCAACAATCGATCAATACCCTGGCACTGCTGTTCGGCCTGGCCGGCGGCTGGCTGCTGATCGCTACCCGGCTGCGCGAGCAGCGCGCGATGGCGCGGCTGGTGGCTGAAAGCGAACTGGAAACGCTGGAGGGGGACGCGCCGGCGATGGATGAACCGACCCGCCGGCTCAACCAGTTCTTCAATCGTTTCGGCTATGCCTGCCTGTCGCTGGCGCTGGCCGTTTCCTGGTTCAGCACCCGCGTCTGA	MSLQALWSLVVAYPQQSINTLALLFGLAGGWLLIATRLREQRAMARLVAESELETLEGDAPAMDEPTRRLNQFFNRFGYACLSLALAVSWFSTRV				NA	NA	NA	NA	NA
BMS010_05453	207			hypothetical protein	ATGTTGCACGCACAACCCCTCGACCGCGATTACCTGATCGACTCACTGGATGAAGTGGAAGAGCTGATCGACGGCCTGTCTTTCAACGTGCATGACCATCATTGGCTGGTCTATTGCGCACTCGGCGGTCATGAGCATTACGACCTGCCGGACATCGACCAGCACACCGGCTTCAGTCTGCCGGAGCTTTACGCCGAAGCGGCCTAA	MLHAQPLDRDYLIDSLDEVEELIDGLSFNVHDHHWLVYCALGGHEHYDLPDIDQHTGFSLPELYAEAA				NA	NA	NA	NA	NA
BMS010_05454	585			hypothetical protein	ATGCTGCATCGTCTGTTGCTCGGCCTGATCGCCGCTGCCAGCCTGGCCCTCGTCGGTTGTGCCCACAGCCCGCAACAACTCAACCCGCAACCGAAACTCACGTCCGCATTGACGCCGGTCGGCCAGGGCCAGCCAGTGGTGGTGCGGGTAGTCGATGGGCGCCCATCGCCGACTCTCGGCACCCGCGGCGGCCTGTATCCGGAAACCAGCGTCATCAATGTGCCCGCGCAGAACATCCTGCCCCAGTTGCAGGCCCAGGCCGAGGCGGCCGTCCGTCTGCTCGGCTTCACGCCGTCGCCGAACGCCTACAACGCGCCGCAACTGACCGTGACCCTGGCCGAGTTGAAGTACCAGTCGCCGAAGGAAGGCCTGTACGTCACCGAGGCGAAGATCGGCGCCACCTTCCGCGCCGATGTGCAGAACAGCACCCGTCGCTACAGCGGTCGTTACGGCGCTTCCCTGGACCAGCGCTTCGGCATGGCGCCGAACCAGGAGACCAACACCAAGCTGGTCAGCGATGTGCTCAGCGATGCACTGACCCGTCTGTTCAAAGACCCGACCATCGGCCAGATCCTGGCGCAGTAA	MLHRLLLGLIAAASLALVGCAHSPQQLNPQPKLTSALTPVGQGQPVVVRVVDGRPSPTLGTRGGLYPETSVINVPAQNILPQLQAQAEAAVRLLGFTPSPNAYNAPQLTVTLAELKYQSPKEGLYVTEAKIGATFRADVQNSTRRYSGRYGASLDQRFGMAPNQETNTKLVSDVLSDALTRLFKDPTIGQILAQ	PGPT0024500_186	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024500-yajG-K07286	NA	NA
BMS010_05455	234			hypothetical protein	ATGCTATGGCTCTGGTCACTGTTCACCCCGCGCGGCAAACGCCGCTGCTTCGCCCTGCTCGACGCCAACGGCCTCTGCCGCGGCTTCCACGAGTCGCGCGTGGCTCCGCAAGGCGCGGGCTGGGTGGAGGTCAGCGAATGCCGTCTCGCCTGGCTGCAGCGCCCGCTGCCCGCCGAAGCCCGTATCTCCCAGGTCTCTTCCCAGCCGACGCGACGCCAGCCGTTGCCGGCCTGA	MLWLWSLFTPRGKRRCFALLDANGLCRGFHESRVAPQGAGWVEVSECRLAWLQRPLPAEARISQVSSQPTRRQPLPA				NA	NA	NA	NA	NA
BMS010_05456	1530	mqo_2	COG0579	Malate:quinone oxidoreductase	ATGGCGCAAGACGATTACGAAGCAGTGGATGTGTTGCTGGTAGGTGCCGGCATCATGAGCGCGACACTGGCAGTGCTTCTCAAGGAGCTCGAGCCAGGCATCAAGCTGGAAGTCGTTGAATTGATGGAATCCGGTGCCGTCGAGAGTTCCAATCCCTGGAACAACGCCGGTACCGGCCATGCCGGTCTCTGCGAGCTGAACTATACGCCGGAGGCCGCGGACGGCTCGATCGACGTCAAGAAGGCGATCACCATCAATGCCCAGTTCGAGGAGTCCAAGCAGTTCTGGGCTTACCTAGTCAACACGGGCACCTTCGGTTCGCCGAGAACCTTCATCAATCCGATTCCGCACCTGAGCTTCGTGCGCGGCCATGACGGCATCGCCTATCTGAAGAAGCGTTTCGCGGCCCTCAGCCAGCACCACGCGTTCGCCGAGATGGAATACTCGGAAGACCGTGCGACCCTGGCCGAATGGATGCCGCTGATGATGCCGGGCCGTCCAGTCGACGAACCGGTCGCCGCCACCCGCGTGATGGGCGGCACCGACGTCAACTTCGGCGCCCTGACCAACCAGTTGCTGACCTACCTGCAAGGCCAGGCCGACACCCAGGTCAAGTGCAACCAGAAGGTGGTCGGCCTCAAGCGCGCCGCCGACGGCTGGCACGTCACCATCAAGAACCTGAAGACCGGCGGTCAGCGCGAAGTCACCGCCAAGTTCGTCTTCCTCGGCGCCGGTGGCGGCGCGCTGCCGCTGCTGCAGATGTCCGGCATTCCGGAAGGCAAGGGCTTCGGCGGCTTCCCGGTCAGTGGCCAGTGGCTGCGCTGCGACAACCCGGACGTGGTCAAGCAGCACCAGGCCAAGGTCTACAGCCAGGCCGAGGTCGGCTCCCCGCCGATGTCCGTCCCGCACCTGGACACCCGCGTGGTGGACGGCAAGAAGTCCCTGCTGTTCGGGCCTTATGCCGGCTTCTCCACCAAGTTCCTGCGCCACGGCTCGTTCCTCGACCTGCCGCTGTCGATCCGCCCGAGCAACATCGGCCCGATGCTGGCGGTCGCCCGCGACAACATGGACCTGACCCGCTACCTGATCGGCGAGGTGCTGCAGTCCGACGAGAAGCGCCTGCAGACCCTGCGCAACTTCTACCCGGAAGCCAAGGCCGAGGACTGGCGCCTGGAAGTGGCCGGCCAGCGCGTGCAGATTATCAAGAAGGACCCGAAGCGTGGCGGCATCCTGCAGTTCGGCACCGAGCTGGTAGCGGCCGAGGACGGCTCCATCGCCGCCCTGCTCGGCGCTTCGCCAGGTGCGTCGGTAACCGTCTCGATCATGCTCGACCTGCTTGAGCGCTGCTTCCGCGACAAGATCGGCACGGCCGGCTGGACCAGCAAGCTGAAGGAAATCTTCCCGGCCCGCCTCAAGCAGCTGACCACCGATGCCGACCTGTACCGCAAGGTCCAGTCCCAGTCGGACGAGCGCCTGCAACTGACCGAGGAGCAGAGCGTGGTACGGTCGCCGGAAGTCTCCCGAGGCTGA	MAQDDYEAVDVLLVGAGIMSATLAVLLKELEPGIKLEVVELMESGAVESSNPWNNAGTGHAGLCELNYTPEAADGSIDVKKAITINAQFEESKQFWAYLVNTGTFGSPRTFINPIPHLSFVRGHDGIAYLKKRFAALSQHHAFAEMEYSEDRATLAEWMPLMMPGRPVDEPVAATRVMGGTDVNFGALTNQLLTYLQGQADTQVKCNQKVVGLKRAADGWHVTIKNLKTGGQREVTAKFVFLGAGGGALPLLQMSGIPEGKGFGGFPVSGQWLRCDNPDVVKQHQAKVYSQAEVGSPPMSVPHLDTRVVDGKKSLLFGPYAGFSTKFLRHGSFLDLPLSIRPSNIGPMLAVARDNMDLTRYLIGEVLQSDEKRLQTLRNFYPEAKAEDWRLEVAGQRVQIIKKDPKRGGILQFGTELVAAEDGSIAALLGASPGASVTVSIMLDLLERCFRDKIGTAGWTSKLKEIFPARLKQLTTDADLYRKVQSQSDERLQLTEEQSVVRSPEVSRG	PGPT0001440_738	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001440-mqo-K00116	NA	NA
BMS010_05457	405			hypothetical protein	ATGCAAGTCGAACCCTATCTGGTTTTCAACGGACGCTGTGAGGAGGCCCTGCAGTTCTATTGCCAGGCGCTCGGTGCGCGGATCGAGTTTCTCATGCGCTTCAAGGAGGCGCCTTCCCAGGAAGGTTGCGAGGGCGTCAACCCGGAAGGGGTCATGCATTCCAACCTGCGGATCGGCGACAGCCAGATCATGGCCTCGGACGGAATGAGCACGGACAAGGCCACGTTCCAGGGCATCAGCCTGGCGCTCGCGGTGGAGAGCCCGGAGCAGGCCGAGCGGTTCTTCGGGGCCCTGGCCGAGGGTGGGCAGGTCAGCATGCCGTTGCAGAAGACCTTCTGGGCCAAATCCTTCGGCATGCTGGTTGATCGCTTCGGGGTGTCCTGGATGATCAACTGCCCCGAGTGA	MQVEPYLVFNGRCEEALQFYCQALGARIEFLMRFKEAPSQEGCEGVNPEGVMHSNLRIGDSQIMASDGMSTDKATFQGISLALAVESPEQAERFFGALAEGGQVSMPLQKTFWAKSFGMLVDRFGVSWMINCPE	PGPT0030505_2660	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030505-phnB|yjdN-K04750
BMS010_05458	288			hypothetical protein	ATGCGCAAAGACAAGAAGCAGGTGATCGGCGAGGAAATCAGCGACGACCAGGTGAAGCTGTTCCTGGCGGTGGAGCCGGCCGACGATACGCCACCTTCCCTGCATAAGCTGATCAAGGCCTATCGCGGCCTGCGTATCGATGACTTCGAGCGGTTCGTCGGCTTTTTCGTCGAGGCGGGATACGACCTTGGGGCAAAGAACGCCAAGGGTGAAGACTTCGTCGCCCTGGTCCGCGACCAGCGCAATGCCGAGCCTTATATCGAAGTGGTTCGAGCGGCGACCCGCTGA	MRKDKKQVIGEEISDDQVKLFLAVEPADDTPPSLHKLIKAYRGLRIDDFERFVGFFVEAGYDLGAKNAKGEDFVALVRDQRNAEPYIEVVRAATR				NA	NA	NA	NA	NA
BMS010_05459	1746	dauA_2	COG0659	C4-dicarboxylic acid transporter DauA	ATGTCGCTATCCATTCCTCCGCTGTTCGCCGCCTGGCGCCAAGTCCTGCGCGGCGGTTACACCTTCAAGCATCTGCGTGGAGACCTGGCCGCCGGCCTGACCGTCGGCATCATCGCGATTCCCCTGGCCATGGCCCTGGCGATCGCCGTCGGCGTGGCGCCGCAACACGGCCTCTATACCGTGCTGATCGCCGCCCCGCTGATCGCCCTGACCGGCGGCTCGCGCTTCAATATTTCCGGCCCCACCGCCGCCTTCGTCGTCATCCTGCTGCCGATCACCCAGCAGTACGGAATCGGCGGATTGCTGCTGTGCACCCTGCTGGCCGGCCTGATCCTGATCGCCCTCGGCTTGGGGCGCGCCGGGCGCCTGATCGAGTTCGTGCCCTACCCGGTGACACTCGGCTTCACCGCCGGCATCGGTATCGTCATCGCCACCCTGCAGGTCAAGGATCTGCTCGGCCTGACCCTGGCCGGCCATCCACAACATTACCTCGAGCAGGTCGGTGCCATCGGCCATGCGCTGCCCGGCACACAGCTCGGCGACACGTTGGTGGGGGCGGCCTGCCTGGCCGTTCTGATCCTCTGGCCGCGCTGGGTGCCGAAGATTCCCGGACACCTGATCGCCCTGGCAGTGGGCGCGCTGCTCGGCCTCGCCCTGGAATACCTCGGCCTGCCGGTGGCGACCCTGGGCGAACGCTTCAGCTACGAGTTGGACGGTGTGGCCCATCCGGGCATTCCGCCATTCCTGCCCAGCCTCGCCCTGCCCTGGAGCCTGCCCGGCCCGGACGGCGCGCCGCTGCAACTGTCCTTCGAACTGATCCGCCAGTTGCTCGCACCGGCCTTCGCCATCGCCATGCTCGGCGCCATCGAATCGCTGCTCTGCGCGGTGGTCACCGACGGCATGACCGGCAGCAAGCACGACCCGAATGCCGAGCTGCTCGGCCAAGGCCTCGGCAACCTGGTGGCGCCATTCCTCGGCGGCATCACCGCCACCGCCGCCATCGCCCGCAGCGCCGCCAACGTGCGCGCCGGAGCGCATTCGCCGCTGGCGGCGATCGTCCATGCCGGCGTGGTGCTGCTGGCCATGCTGCTGCTCGCGCCACTGTTCAGCTACCTGCCGATGGCCGCGCTGGCCGCCCTGTTGCTGCTGGTGGCCTGGAACATGAGCGAGGCCAAGCACGTGGTCCATACGCTACGCATCGCGCCGCGCAGCGACGTGCTGGTGCTGCTGACCTGCCTGATCCTGACGGTGCTGTTCGACATGGTGCTGGCGGTGGGCGTCGGTCTGCTGCTGGCGGCAGGCCTGTTCATCAAGCGGATGAGCGATCTCACCGACACCGCACCGCTGCCGCGCCATTTCCACCAGGCGCTGGCCGATCTGCCGGACCACGTGCTGGTCTATGCGATCCGCGGGCCGCTGTTCTTCGGCGCGGCGGAAAAGGCCCTCAGTGTGCTGCGCCGATTCAGCGCTGGCGTAAAAGTGGTGATCGTCGACATAAGTGCAGTGCCCATGCTCGACATGACCGCCCTGGCGGCACTGGACAACGTGCTGCGCGACTACCGCCGGCAGGGCATCGCCCTGGTGCTGGTCGGCACCACGCCACGGGTGCGGCTGAAACTGCGACGCGCCGGAGTACACCAGGCCGACCACCAGTTGGCCTATGTGCGCGACCTGCCGCAAGCGCGGGAAAAGGCGCTGCGCTGGCTGGAAAACGAAAACGCCCCGGCGATAGCCGAGGCGTCCTGA	MSLSIPPLFAAWRQVLRGGYTFKHLRGDLAAGLTVGIIAIPLAMALAIAVGVAPQHGLYTVLIAAPLIALTGGSRFNISGPTAAFVVILLPITQQYGIGGLLLCTLLAGLILIALGLGRAGRLIEFVPYPVTLGFTAGIGIVIATLQVKDLLGLTLAGHPQHYLEQVGAIGHALPGTQLGDTLVGAACLAVLILWPRWVPKIPGHLIALAVGALLGLALEYLGLPVATLGERFSYELDGVAHPGIPPFLPSLALPWSLPGPDGAPLQLSFELIRQLLAPAFAIAMLGAIESLLCAVVTDGMTGSKHDPNAELLGQGLGNLVAPFLGGITATAAIARSAANVRAGAHSPLAAIVHAGVVLLAMLLLAPLFSYLPMAALAALLLLVAWNMSEAKHVVHTLRIAPRSDVLVLLTCLILTVLFDMVLAVGVGLLLAAGLFIKRMSDLTDTAPLPRHFHQALADLPDHVLVYAIRGPLFFGAAEKALSVLRRFSAGVKVVIVDISAVPMLDMTALAALDNVLRDYRRQGIALVLVGTTPRVRLKLRRAGVHQADHQLAYVRDLPQAREKALRWLENENAPAIAEAS	PGPT0003020_1201	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SULFATE|THIOSULFATE_TRANSPORT,PGPT0003020-TC_SULP-K03321	NA	NA
BMS010_05460	558	hpt_2		Hypoxanthine-guanine phosphoribosyltransferase	ATGTCCGCCGATCTCGCGCATATCCGCCAAGTGATGGCGGAAGCCGATTGCCTGTACACCGAAGCCGAAGTGGAGGTCGCCATCTCGCGTATCGCCGAATCGATCAACGGCGAACTGGCCGAGCGCAATCCGGTGGTGTTCTGCGTCATGAACGGCGGTCTGATCTTCGCCGGCAAGCTGCTGCCGAAACTGAACTTCCCGCTCGAGCTGTCCTACCTGCACGCGACTCGCTACCGCAACGAAACCAGCGGCGGCGAGCTGTTCTGGAAGGCCAAGCCGGAAATCTCCTTCATCGACCGCGACGTGCTGATCATCGACGACATTCTCGACGAAGGGCACACCCTGGCCGCGATCATCGATTTCTGCCGCCACGCCGGTGCCGCCCATGTGCACACCGCCGTGCTGATCGACAAGACCCACGACCGCAAGGCCCGCCCGGACCTCAAGGCCAACTACGTCGGCCTGCCGTGCATCGACCGTTACATCTTCGGCTACGGCATGGACTACAAGGGCTACTGGCGCAATGCGGCCGGTATTTATGCGGTGAAGGGGTTGTAA	MSADLAHIRQVMAEADCLYTEAEVEVAISRIAESINGELAERNPVVFCVMNGGLIFAGKLLPKLNFPLELSYLHATRYRNETSGGELFWKAKPEISFIDRDVLIIDDILDEGHTLAAIIDFCRHAGAAHVHTAVLIDKTHDRKARPDLKANYVGLPCIDRYIFGYGMDYKGYWRNAAGIYAVKGL	PGPT0007295_1295	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0007295-hprT|hpt-K00760	NA	NA
BMS010_05461	639	upp_2	COG0035	Uracil phosphoribosyltransferase	ATGCCCATCCGTGAGATCCGCCACCCCCTGATCCGCCACAAGCTCGGCCTGATGCGCCGGGCCGACATCAGCACCAAGAATTTCCGCGAGCTGGCCCAGGAAGTGGGCGCCCTGCTCACCTACGAGGCGACCCAGGACCTGCCCCTGGAGAGCTACGAGATCGCCGGCTGGTGCGGCAACGTGACGGTGGAAAAGATCGCCGGCAAGAAGATCACCGTGGTGCCGATCCTGCGCGCCGGCATCGGCATGCTCGACGGCGTGCTCAGCCTGATCCCCAGCGCCAAGGTCAGCGTGGTCGGCCTGGCGCGCAACGAGGAAACCCTCGAAGCGCAGAGCTACCTGGAAAAGCTGGTGCCGGAGATCGACCAACGCCTGGCCATGATCGTCGACCCGATGCTCGCCACCGGCGGCTCCATGGTCGCCACCATCGACATGCTGAAGAAAGCCGGCTGCAAGGAAATCCGCGCCCTGGTCCTGGTGGCGGCGCCGGAAGGCATCAAGACGGTCAACGACGCCCACCCCGACGTGCAGATCTACACCGCCTCCATCGATCAGCGGCTGAACGAGCACGGCTACATCATTCCCGGCCTCGGCGATGCCGGCGACAAGATCTTCGGCACCAAGCAGAAGGACAACTGA	MPIREIRHPLIRHKLGLMRRADISTKNFRELAQEVGALLTYEATQDLPLESYEIAGWCGNVTVEKIAGKKITVVPILRAGIGMLDGVLSLIPSAKVSVVGLARNEETLEAQSYLEKLVPEIDQRLAMIVDPMLATGGSMVATIDMLKKAGCKEIRALVLVAAPEGIKTVNDAHPDVQIYTASIDQRLNEHGYIIPGLGDAGDKIFGTKQKDN	PGPT0021240_1565	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021240-upp-K00761	NA	NA
BMS010_05462	1263	uraA	COG2233	Uracil permease	ATGCGGGACCCCATGCATGAACCCGTCTGGCGCCAGGCCCTGGCCGGCTCGCAGATGCTTTTCGTGGCCTTTGGCGCCCTGGTGCTGATGCCGCTGATCACCGGGATGGACCCCAACGTCGCGCTGTTCACCGCCGGCCTCGGCACCCTGATCTTCCAGTGGGTGACCAAGGGTCAGGTACCGGTGTTCCTCGCCTCGTCGTTCGCCTTCATTGCGCCGATCCTCGCCGCCAAGGCCGACTTCGGCCTGCCGGCGACCCTCGGCGGACTGGTCGCCGCCGGCTTCGTCTACATGCTGCTGTCCGCGGCGGTGAAGCTCAAGGGCACCGGTTTCATCGACCGCCTGCTGCCGCCGGTGGTGATCGGCCCGGTGATCATGTCCATCGGCCTGGGCCTGGCCCCGGTCGCCGCCAACATGGCAATGGGCAAGGCCGGCGACGCCAGCGCGCAACTGGTGCCGTACGACACGGCGCTGATAATTTCCCTGCCGGCGCTGCTCACCACCCTGCTGGTGGCGGTGCTCGGCCGCGGCATCTTCCGCCTGGTGCCGATCCTGGCCGGGGTCGCGGTCGGCTACGGTCTGTCCATCGCCCTCGGCGTGGTGGATTTCGCCGCCGTCAATGCCGCCCCCTGGCTGGCGGTGCCGAACTTCGTCGCGCCCGAACTCCATTGGGGCGCCATCCTGTTCATGCTGCCGGTGGCCATCGCCCCGGCCATCGAGCACATCGGCGATGTGCTGGCCATTGGCACGGTGACCGGCAAGAACTACCTGAAACAGCCCGGCCTGCACCGCACCCTGCTCGGCGACGGCCTGGCCACCTCCGCCGCCGGCCTGTTCGGCGGGCCGCCGAACACCACCTACTCGGAAGTGACCGGCGCGGTGATGCTGACCCGCAACTTCAACCCCAAGGTGATGATGTGGGCGGCGGCGATTGCCATCGTCCTGGCCTTTATCGGCAAGTTCGGCGCCGCGCTGCAGAGCATCCCGGTACCGGTGATGGGCGGCATCCTCTGCCTGCTGTTCGGCTCCATCGCGGTGGTCGGGCTGAACACCCTGATCCGCCACCAGATCGACCTTTCCGAGGCGCGCAACTTGGTGATCGTCGCTGTGACCCTGGTGTTCGGCATCGGCGGCATGGTGATCGGCGCCGGCGAAGTCAGCCTCAAGGGCATCTCGCTCTGCGGCGTCATCGCCATCCTCCTCAACCTGCTGCTTCCCGGCGGTGCCGGCTGGCGCAGCAAGGCCCTCAGCGAAGAGGCCTGA	MRDPMHEPVWRQALAGSQMLFVAFGALVLMPLITGMDPNVALFTAGLGTLIFQWVTKGQVPVFLASSFAFIAPILAAKADFGLPATLGGLVAAGFVYMLLSAAVKLKGTGFIDRLLPPVVIGPVIMSIGLGLAPVAANMAMGKAGDASAQLVPYDTALIISLPALLTTLLVAVLGRGIFRLVPILAGVAVGYGLSIALGVVDFAAVNAAPWLAVPNFVAPELHWGAILFMLPVAIAPAIEHIGDVLAIGTVTGKNYLKQPGLHRTLLGDGLATSAAGLFGGPPNTTYSEVTGAVMLTRNFNPKVMMWAAAIAIVLAFIGKFGAALQSIPVPVMGGILCLLFGSIAVVGLNTLIRHQIDLSEARNLVIVAVTLVFGIGGMVIGAGEVSLKGISLCGVIAILLNLLLPGGAGWRSKALSEEA				NA	NA	NA	NA	NA
BMS010_05463	1368	lgoT		putative L-galactonate transporter	GTGCACAACAACAATAATGGCTACCCCTCCAGCGCTCGTGCCTGGATCACCGTCACCATCCTGATGGTGGCTTACGTGCTGTCGTTCATCGACCGGCAGATTCTCAACCTGCTGGTCGCACCCATCCGCCGCGACCTGGTCATCAGCGATACCCAGATGAGCCTGCTGATGGGCCTGTCCTTCGCCCTGTTCTACACCGTCTGCGGCATTCCCCTCGGGCGCCTGGCCGACACGCGCAGCCGGCGCGGTTTGATCGCGCTGGGCGTACTGTTCTGGAGCGCGGCCACCGCTGCCTGTGGCATGGCCCGGTCCTATGTGCAGTTTCTGTTCTGTCGTATCGGTGTGGGCGTCGGCGAGGCGGCGTTGTCGCCGGCGGCTTATTCGCTGATCGCCGACAGCTTCCCGGCGGAACGCCGTGCCACCGCCATCAGCGTGTATTCCATGGGCGTGTACCTGGGCTCGGGTATCGCCTTCCTGCTGGGCGGGTTGGTGATCCGCTTCGCCTCGGCCCAGGGCGACGTGGTGTTGCCGCTGCTTGGCGAAGTGCGGCCGTGGCAACTGATTTTCCTCGTCCTTGGCGCTGCTGGCGTGCTGTTCACCCTGTTGCTGCTGGCGGTGCGGGAGCCGGCCCGACGCGGCGTGGGGGCGGGCGTCGCCGTGCCGCTGGCCGAAGTGGGGCGCTACATCCGCAGTAACCGGCGCACGGTGCTCTGCCATAACCTGGGCTTCGCCGGGCTATCGTTCGCCGGCTACGGTAGCGCCGCCTGGGTGCCGACCTTCTTCATTCGCACCTACGGCTGGGACGCGGGGCAGGTGGGCATCGTCTACGGCAGCATCGTTGCGGTGTTCGGCTGCCTCGGCATCGTCTTCGGCGGCCGGCTGGCGGACTGGATGGCACGCCACGGCCGGCGCGATGCCAACATGCGCGTCGGGCTCTATGCGGCGGTCGCGGCGCTGCCTTGCGTGCTGTTGTTCCCCTTGATGGACGAAGCCCTCTGGGCGGTACTGCTGATGGCGCCCACGGTGTTCTGCCTGTCGATGCCGTTCGGCGTGGCACCCGCGGCGATCCAGGAGATCATGCCCAACGCGATGCGCGGCCAGGCATCGGCGATCTATCTGTTCGTCATCACCCTGGTCGGTCTCGGCATCGGCCCGACGGCGGTGGCGCTGGTGACCGACTACGTATTCGCCGACGACCACGCCCTGCGTTACTCGCTGCTGATCGTCACCAGCCTGGCGGTGTGCGGATCGATCCTGCTGCTGAGCAAGGGCCTGAAGCCGTACCGCGAGAGCATCGAGCGCCTGCGGCAGTGGAGTGCAGCGCCCAAGGCCGAGGGGCTGCGAGGGGAAAGTCCCGCCTCGGTGTGA	MHNNNNGYPSSARAWITVTILMVAYVLSFIDRQILNLLVAPIRRDLVISDTQMSLLMGLSFALFYTVCGIPLGRLADTRSRRGLIALGVLFWSAATAACGMARSYVQFLFCRIGVGVGEAALSPAAYSLIADSFPAERRATAISVYSMGVYLGSGIAFLLGGLVIRFASAQGDVVLPLLGEVRPWQLIFLVLGAAGVLFTLLLLAVREPARRGVGAGVAVPLAEVGRYIRSNRRTVLCHNLGFAGLSFAGYGSAAWVPTFFIRTYGWDAGQVGIVYGSIVAVFGCLGIVFGGRLADWMARHGRRDANMRVGLYAAVAALPCVLLFPLMDEALWAVLLMAPTVFCLSMPFGVAPAAIQEIMPNAMRGQASAIYLFVITLVGLGIGPTAVALVTDYVFADDHALRYSLLIVTSLAVCGSILLLSKGLKPYRESIERLRQWSAAPKAEGLRGESPASV				NA	NA	NA	NA	NA
BMS010_05464	1026	hemH_2	COG0276	Ferrochelatase	ATGACCGATCACGCGCTGTTACTGGTCAACCTGGGTTCGCCGGCCTCCACCGAGGTGGGCGATGTACGCCGCTACCTGGACCAGTTCCTGATGGACCCTTACGTCGTCGATCTGCCCTGGCCGCTGCGTCGGCTGCTGGTATCGCTGATCCTGATCAAGCGTCCCGCTGCTTCGGCCCATGCCTATGCGTCGATCTGGTGGGACGAAGGCTCGCCGCTGGTCGTGCTCAGTCGCCGCCTGCAGGCCACGATGACGCAGCAGTGGCAGTTGGGGCCGGTGGAGTTGGCCATGCGCTACGGCGAGCCGTCCATCGAGAGCGTGCTGCTCAAACTGGCGCGCCAGGGCATCCGGCAGGTGACGTTGGCGCCGCTCTATCCGCAGTTCGCCGACAGCACCACCACCACGGTCATCGAAGAGGCCCGCCGGGTCATCGCGGCGCATCGGCTGGCGTTCGATCTCTCGGTGCTGCAGCCGTTCTACGATCAACCGGAATATCTCGATGCCCTGGTGGCCAGCGCCCAGCCGCACCTGGCCCCGGGGTTCGATCATCTGCTGCTGAGCTTTCACGGACTGCCCGAGCGGCATCTGCACAAGGCCGACCCCAGCGGCCGTCATTGTCTGAAGCAGGCCGACTGCTGCCGCAACGCGCCGGCCGAGGTGCTCGCCACCTGCTACCGCGCCCAATGCATGCGCACGGCCGAAGGCTTCGCCGCGCGCATGGGGCTGCGGCCGGAACAGTGGTCGGTGTCGTTCCAGTCGCGCCTGGGTCGCGCCAAGTGGATCGAGCCCTATACCGAGGCGCGCCTCGACGAGCTGGCGGCGAAGGGCGTGAAAAAGCTGCTGGTGATGTGCCCGGCCTTCGTCGCCGATTGCATCGAGACGCTGGAAGAGATCGGCCAGCGCGGACGCGAGCAGTTTGTCGCGGCTGGGGGCGAGGACCTGGTGCTGGTGCCGTGCCTGAACGATCACCCGGCCTGGAGCAAGGCCCTGGCGCAGCTCTGCCTGCGGGCCCCGCGCTTGCTGTGA	MTDHALLLVNLGSPASTEVGDVRRYLDQFLMDPYVVDLPWPLRRLLVSLILIKRPAASAHAYASIWWDEGSPLVVLSRRLQATMTQQWQLGPVELAMRYGEPSIESVLLKLARQGIRQVTLAPLYPQFADSTTTTVIEEARRVIAAHRLAFDLSVLQPFYDQPEYLDALVASAQPHLAPGFDHLLLSFHGLPERHLHKADPSGRHCLKQADCCRNAPAEVLATCYRAQCMRTAEGFAARMGLRPEQWSVSFQSRLGRAKWIEPYTEARLDELAAKGVKKLLVMCPAFVADCIETLEEIGQRGREQFVAAGGEDLVLVPCLNDHPAWSKALAQLCLRAPRLL	PGPT0008485_2959	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008485-hemH|ywfI-K01772	NA	NA
BMS010_05465	903			Epimerase family protein	ATGCACATATTGCTGACCGGCGGTACGGGTCTGATCGGACGCGGACTCTGTCGTTACTGGATTGGACAGGGGCATCGCCTGGTGGTTTGGAGCCGGACGCCAGAGTCTGTCCCGCGTCGCTGCGGTGAAGCGGTGCGGGGAATCGGCACGCTGGAGGAGTACGGGGACGCGCCACTGGACGCGGTGATCAACCTGGCGGGCGCGCCCATCGCCGATCGACCCTGGACCGGCAAGCGCAAGAAGCTGCTCTGGGCGAGTCGGGTGACGCTCACCGAACGCCTGCTGGCCTGGCTGGAAACGCGTGAGCAGAAACCACGCACATTGATATCCGGTTCGGCCGTGGGCTGGTACGGCGATGCGGGCGAGCATCGCCTGACGGAAGCCTCGCCGCCGGTCCAGGAGGATTTCGCCGCCCAGCTCTGCGGTGCCTGGGAAGAGGCTGCGCTGCGTGCCGAGGCGCTGGGTATCCGGGTGGCACTGGTACGTACCGGGCTGGTGCTGGCCGCCGACGGTGGTTTTCTCAAGCGCCTGCTGCTGCCGTTCCGCCTTGGCCTCGGCGGGCCGATTGGCAACGGACGGCAGTGGATGTCCTGGATTCACCTGGATGATCAAATCACCCTGATCGATTTTCTCTTGCAGCGGGAGGAGGCACGCGGTCCTTATAATGCCTGCGCGCCGCAGCCGGTCAGGAATGCCGAGTTCGCCCGCGCACTCGGCCGTGTGTTACATCGGCCGGCGGTACTGCCGGTTCCGGCGCCGTTGTTGCGAGTGGGGCTGGGGGAACTCTCCGGATTGCTGTTGGGCGGTCAGCACGCCGAACCGGCGCGTTTGTTGGAAGCCGGCTTTTCGTTTCGATTCACCTCTCTGGACGCGGCCCTCGAGGATCTTCTCGGCCGCCACTGA	MHILLTGGTGLIGRGLCRYWIGQGHRLVVWSRTPESVPRRCGEAVRGIGTLEEYGDAPLDAVINLAGAPIADRPWTGKRKKLLWASRVTLTERLLAWLETREQKPRTLISGSAVGWYGDAGEHRLTEASPPVQEDFAAQLCGAWEEAALRAEALGIRVALVRTGLVLAADGGFLKRLLLPFRLGLGGPIGNGRQWMSWIHLDDQITLIDFLLQREEARGPYNACAPQPVRNAEFARALGRVLHRPAVLPVPAPLLRVGLGELSGLLLGGQHAEPARLLEAGFSFRFTSLDAALEDLLGRH	PGPT0014730_1895	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	LOW_TEMPERATURE-RELATED_ENZYMES,PGPT0014730-yfhF-K07071	NA	NA
BMS010_05466	987		COG3380	Renalase	ATGAGCGCACCCATCGCCATTATCGGCACCGGCATCGCCGGGCTTTCCGCCGCCCAGACCCTGCACGCGGCAGGGCATCAGGTCCGGCTGTTCGAGAAAAGTCGCGGCAGCGGCGGCCGCATGAGCAGCAAGCGCAGCGACGCCGGCTCCATCGACCTGGGTGCCCAATACTTCACCGCCCGCGACCGTCGCTTCGCCGAAGTAGTCCAGCAATGGCGCAGCCGCGGCTGGGTCGCCGAGTGGACGCCGAGCCTGTACAACTACAGCGACGGCCAGTTCAGCCCGTCGCCGGACGAGCAGATCCGCTGGGTCGGCACCCCGCGCATGAGCGCCATCGCCCGTGCCATGCTCGGTGCCCTGCCGGTCAACTTCTCCTGCCGTATCACCGAAGTCTTCCGCGGCGAACAGCATTGGAACCTGCAGGACGCCGAGGGCCAGAGTCACGGGCCGTTCAGCCACGTCGTGGTCGCCACCCCGGCACCACAGGCCAGCGCCCTCTTGGCCGCCGCACCCAAGCTGGCGAGCACCGCGGCCAGTGTGGTCATGGAGCCGACCTGGGCGGTCGCCCTGGCCTTCGAGACGCCACTGGACACCCCGTTGGAAGGCTGCTTCGTACAAGAAGGGCCGTTCGACTGGCTGGCCCGCAACCGCAGCAAGCCGGGACGCGACAACCAGTTGGACACCTGGGTCCTGCATGCCACCAGCGCCTGGAGCAAGCAGCACTTGGACATGGCCAAGGAAAACGTGATCGAACACCTGCACGGCGCCTTCGCCGAGATGATCGGCTGCGCCGTCCCCGCGCCTGCGCTCAGCCTCTCCCATCGCTGGCTCTACGCGCGACCGGCGGAGGCCCACCAATGGGGCGCCCTGGCCGATGCCGACCTGGGGCTCTACGTGTGTGGCGACTGGTGCCTCTCCGGCCGGGTCGAAGGCGCCTGGCTGAGCGGTAACGAGGCCGCCCGCCGCCTGCTCGAGCATCTGCAGTAA	MSAPIAIIGTGIAGLSAAQTLHAAGHQVRLFEKSRGSGGRMSSKRSDAGSIDLGAQYFTARDRRFAEVVQQWRSRGWVAEWTPSLYNYSDGQFSPSPDEQIRWVGTPRMSAIARAMLGALPVNFSCRITEVFRGEQHWNLQDAEGQSHGPFSHVVVATPAPQASALLAAAPKLASTAASVVMEPTWAVALAFETPLDTPLEGCFVQEGPFDWLARNRSKPGRDNQLDTWVLHATSAWSKQHLDMAKENVIEHLHGAFAEMIGCAVPAPALSLSHRWLYARPAEAHQWGALADADLGLYVCGDWCLSGRVEGAWLSGNEAARRLLEHLQ				NA	NA	NA	NA	NA
BMS010_05467	960			hypothetical protein	ATGACCGGCACCACCGCGAAACCCAGACTCGGCATCAGCGCCTGCCTGCTCGGCGATGAGGTGCGCTATAACGGCGGGCACAAGGAGTCGCGCCTGTGCAGCAGAACACTTGCCGAGCACTTCGATTTCGTTCCGCTGTGCCCGGAAGTGGCAATCGGTCTGAGCATCCCCCGTGAACCCATACGCCTGGTCGGCGATCCGGCATCGCCACGAGCGGTCGGAACCGTGGAACGGCAACGCGACGTTACCGAGGCGCTTGCCGCCTACGGCTCTCGCATGGCCGCCGGGCACGATGACCTGTGCGGTTACATCTTCATGCAGAAGTCGCCCTCCTGCGGACTCGAGCGCGTCAAGGTCTATCAGGACAACGGCCACCCTGCCGATGGCGGCGGACGAGGCATTTATGCCCAAGCTTTCTGCGCGGCCCGGCCGGACCTGCCGGTGGAGGAGGTCGGCCGGTTGAACGACCCGGTCCTGCGCGAGAATTTCCTCACCCGCGTGTTCGCTTATGCCGAATGGCAGCGGCTGCGGGCCGAAGGCCTGACCCGCAAAGCCATCCTCGACTACCACGCCCGCTACAAGTACCTGCTGATGGCGAACAACCCGCTGCAATACAAAGCGCTCGGCCGTCTGCTCGGCGACATCGGCCAATATCACCCGGAGGAACTCGGTCCGCGCTATTTCCGCGACCTGATGGCGGCGCTGCAACGCTGCGCCACCCGCCGCACCCACAGCAACGTGCTCCAACACCTCAGCGGTTACCTGCGGCAGCGCATCGACCATGACGAGAAAGCGGAAATCCAGCAGCTCATCGAGCAGTACCGCAAGGGCGTGGTGCCCCTGGTGGTCCCGCTGACACTGCTCAAGCATCACTTCCGCCGTCACCCGGACGACTATGTGGCCTGCCAGGCCTACCTGCAGCCACACCCGGAAGACCTCAGCCTGCGCAACGCGATCTGA	MTGTTAKPRLGISACLLGDEVRYNGGHKESRLCSRTLAEHFDFVPLCPEVAIGLSIPREPIRLVGDPASPRAVGTVERQRDVTEALAAYGSRMAAGHDDLCGYIFMQKSPSCGLERVKVYQDNGHPADGGGRGIYAQAFCAARPDLPVEEVGRLNDPVLRENFLTRVFAYAEWQRLRAEGLTRKAILDYHARYKYLLMANNPLQYKALGRLLGDIGQYHPEELGPRYFRDLMAALQRCATRRTHSNVLQHLSGYLRQRIDHDEKAEIQQLIEQYRKGVVPLVVPLTLLKHHFRRHPDDYVACQAYLQPHPEDLSLRNAI				NA	NA	NA	NA	NA
BMS010_05468	1434	phrB	COG0415	Deoxyribodipyrimidine photo-lyase	ATGCCTCAACTGATCTGGTTCCGAACCGACCTGAGAACTCGGGACAACACCGCCCTCGCCGCCGCCATGGCGGCGGGGCCGACCATCGCCCTGTTCCTGCTCAGCCCCGGCCAATGGCGCCTGCACGACGACGCCGATTGCAAGGTGGATTTCTGGCTACGCAACCTGTCCGAACTCAGCCGCTCCCTGGCCCGCCTGAACGTACCGCTGCTAGTGCGCGAGATCGCTCGATGGGACGACGCTCCACAGATGCTGGAGCATCTCTGTCTCGAACAGGGCATCGAGTGCGTCAGGGTCAACGAAGAGTACGGGGTCAATGAACAGCGCCGCGACGAAGCCGTCGCCGCCACGCTGCAAGCACGCGGCATCGTCTTTCGCAGCCACCTGGACCAGTTGCTCTTCGCCCCGGGCAGCGTGCTGACCCAGGCCGGCCGCTACTTCCAGGTGTTTGGGCAATTCCGCAAGGTCTGCCATGCACGCTTGCGGCTCTCTCTGCCGGATCGCATCCCGCTGCCGCCTGCGCAGGCCCCTCTGCCCTTGGCGAGCGATGCGATACCGGCCCAAGTCGCCGGCTTCGCCCAACCCTCGGCGGGCCTTCGTGATCTTTGGCCGGCCGGCGAGGATGTCGCGCAGGAGCGGCTGCGGCGCTTCGTCGACGAAGCCATCATCGATTACCACGACACCCGCGACCTGCCCGCGATCGCGGGCACCAGCCGACTATCGCCCTATCTGGCCGCCGGCGTGCTGTCGCCCCGGCAATGTCTGCATGCCGCCCTCTCGGCCAATCGCGGCGAGTTCGATGGCGGCAATCCCGGCGTCGTCAGTTGGATCAACGAGCTGCTTTGGCGCGAGTTCTACACGCACATCCTCGTTGGCTTCCCGCGGGTCTCCATGCATCGAGCCTTCCGCCCGGTCACCGAATTGCTGCAATGGCGTCGCGATGATCCGGACCTGGAAGCCTGGCAACAAGGCCAGACCGGCTTCCCCATCGTCGACGCCGCCATGCGCCAGTTGCTCGCCACCGGCTGGATGCACAACCGCCTGCGCATGATCAGCGCCATGTTCCTGACCAAGAACCTGCTGATCGACTGGCGCGAAGGCGAGCGCTGGTTCATGCGTCACCTGATCGACGGCGATCTCGCCGCCAACAACGGCGGCTGGCAGTGGAGCGCCTCCACCGGCACCGACGCCGCGCCCTACTTCCGCCTGTTCAATCCGATCAACCAGTCGCGCAATTTCGATCCGGAAGGCCGCTTCCTGCGTCACTGGCTGCCGGAGCTGGCCGGCCTGGGCAACCGCGACATCCACGACCCGACGGCCCACGGCGGGCTTTTCCCCCTGGCCGACTATCCACGGCCGATCGTCGACCTGGCCCATAGCCGCGAGCGCGCCCTGGCCGCCTTCAAGGCGCTGGAGGGGCTGCATGCCGGATGA	MPQLIWFRTDLRTRDNTALAAAMAAGPTIALFLLSPGQWRLHDDADCKVDFWLRNLSELSRSLARLNVPLLVREIARWDDAPQMLEHLCLEQGIECVRVNEEYGVNEQRRDEAVAATLQARGIVFRSHLDQLLFAPGSVLTQAGRYFQVFGQFRKVCHARLRLSLPDRIPLPPAQAPLPLASDAIPAQVAGFAQPSAGLRDLWPAGEDVAQERLRRFVDEAIIDYHDTRDLPAIAGTSRLSPYLAAGVLSPRQCLHAALSANRGEFDGGNPGVVSWINELLWREFYTHILVGFPRVSMHRAFRPVTELLQWRRDDPDLEAWQQGQTGFPIVDAAMRQLLATGWMHNRLRMISAMFLTKNLLIDWREGERWFMRHLIDGDLAANNGGWQWSASTGTDAAPYFRLFNPINQSRNFDPEGRFLRHWLPELAGLGNRDIHDPTAHGGLFPLADYPRPIVDLAHSRERALAAFKALEGLHAG				NA	NA	NA	NA	NA
BMS010_05469	609			hypothetical protein	ATGACCGAACCGACCGAATTCCATCCGCACTATTGCGAGGGGGCTTGCTGGAGCGCACCATCGGCACCGCTCAACTACTCGGACGATTCGATGCGCAAACCGCTGATCAATGCCGCCCTTTTTCTGCTTGCCTGGTTCGCCTGTGTCCTGGGCGGCACCGGTCCCTGGCTGCTGGTGGCCGTGGCGGTGCTGCTGGTGCATCTGTTCTGGACCAGCTCCTGGGCCGAGGAAGGCAAGCTGGTAGTCAGCGTCTTTCTGGCCGGTAGCGCGCTGGACAGTTTTCTTCTGCAGCTGGGCGTGTTCGATTTCGGCGACGAGCGCCAATTGATCCCGCTATGGCTCGCATTGCTCTGGGCCCTGCTCGGCACCACTCTGAATCACAGCCTGGCCTGGACGGCGAAACCCTGGTGGCGTGCCAGTCTGCTCGGCGCGGTGGCCGGGCCGCTGTCCTATTTTGGCGCCTCCGAACTGGCCGTTGTTCGCCTCCCCTACGGCGTGTTGCCGACAATGATCGGCCTCGCCGGGCTTTGGGCGCTGGTTCTGCCGCTGCTGCATGGCTTCGCCGGGCTCTACCGACAGCAGTACCGCAGCAGCCGAATGCGAGGCTGA	MTEPTEFHPHYCEGACWSAPSAPLNYSDDSMRKPLINAALFLLAWFACVLGGTGPWLLVAVAVLLVHLFWTSSWAEEGKLVVSVFLAGSALDSFLLQLGVFDFGDERQLIPLWLALLWALLGTTLNHSLAWTAKPWWRASLLGAVAGPLSYFGASELAVVRLPYGVLPTMIGLAGLWALVLPLLHGFAGLYRQQYRSSRMRG				NA	NA	NA	NA	NA
BMS010_05470	516	pagL		Lipid A deacylase PagL	ATGAAGAAGCTGTTCTCGTTGACCGCGGCGGCTGCGATGTCCCTGGGTGCGCTGGCTTCGGCGCAGGCAGCGGACGTTACCTTCGCCGTTGGACAATCCAGCGAATCCACCATGCTCTACCGTCTGGGCGCTCAGTTCGATTTCGAGCGCAGTTGGTTCCAGAGCGACGTGGGGCGTCTGACCGGTTACTGGGACGCCGCCTACACCTACTGGGATGGCGACGAAGCGTCGAGCAACCACAGCCTGTCCTTCTCGCCGGTATTCGTCTACGAGTTCGCCGGTGAAACGGTGAAGCCCTACATCGAAGCCGGTATCGGTGTTGCCGCCTTCGAGAACACGGAGTTCGAGGATCGCGACCTGGGCTCCTCGTTCCAGTTCGAAGACCGTCTCGGCGTGGGCCTGCGCTTCTCCGGCCAGGAGATCGGCCTGCGCGCCATGCACTACTCCAACGCCGGCCTCAAGCAGCCGAACGATGGGGTCGAGGCGTATACCCTGCACTACCGGATATCGTTCTGA	MKKLFSLTAAAAMSLGALASAQAADVTFAVGQSSESTMLYRLGAQFDFERSWFQSDVGRLTGYWDAAYTYWDGDEASSNHSLSFSPVFVYEFAGETVKPYIEAGIGVAAFENTEFEDRDLGSSFQFEDRLGVGLRFSGQEIGLRAMHYSNAGLKQPNDGVEAYTLHYRISF	PGPT0022415_655	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022415-pagL-K12976	NA	NA
BMS010_05471	792	murI_1	COG0796	Glutamate racemase	ATGGCGAGTGACGCGCCCATCGGTGTCTTCGATTCGGGCGTTGGCGGCCTTTCCGTACTGCGTGAAATCCGTGAGCGCCTGCCCAACGAGTCCCTGTTCTATGTGGCCGACAGCGGGCATGTGCCCTACGGCGAGAAGAGCCCGGAATACATCCGCGAACGTTGCGCGACCATCGCCGGCTTCCTACTCGGGCAGGGCGCCAAGGCGCTGGTGCTGGCCTGCAACACCGCCACTGCGGCGGCAGCGGCGGAGCTGCGCGAGCGCTATCCGGATGTCCCCATCGTCGCCATGGAGCCGGCGGTGAAACCGGCGGCGGAAGCGACCCGCAGTGGCGTGGTCGGCGTTCTCGCCACCACCGGCACCTTGAAGAGCGCGCGCTTCGCCGCCTTGCTCGACCGCTTCGCCAGCGACGTGCGGGTGATCACCCAGCCCTGTCCGGGGTTGGTGGAGTGCATCGAGGCGGGCGAGTTGGGGGCGGAGGGTACACGCGAGTTGCTGCGGGGGTATGTCGAGCCGCTGTTGGCCGAAGGCTGCGACACGCTGATCCTCGGCTGTACTCATTACCCCTTCCTCAAACCGCTGCTGCACGAACTGGTGCCGGCGTCGGTGAGCCTGATCGATACCGGCGCGGCGGTGGCGCGGCATCTGGAGCGCTTGCTGAGCGAGCGCGGGCTGCTTGGCAGTAGCGCGCAGCCGGCCCGCTTCTGGACCAGCGGGGAACCGGGGCAGATGGAGAGGGTGCTTCCTGTGCTGTGGGGAAAGAGCACGGGTGTGCAATCTTTTCCTGAGTGA	MASDAPIGVFDSGVGGLSVLREIRERLPNESLFYVADSGHVPYGEKSPEYIRERCATIAGFLLGQGAKALVLACNTATAAAAAELRERYPDVPIVAMEPAVKPAAEATRSGVVGVLATTGTLKSARFAALLDRFASDVRVITQPCPGLVECIEAGELGAEGTRELLRGYVEPLLAEGCDTLILGCTHYPFLKPLLHELVPASVSLIDTGAAVARHLERLLSERGLLGSSAQPARFWTSGEPGQMERVLPVLWGKSTGVQSFPE	PGPT0020200_3510	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020200-murI-K01776	NA	NA
BMS010_05472	771	moeB	COG0476	Molybdopterin-synthase adenylyltransferase	ATGAGCGACGACATGCTGAGCGATCAGGAGCTGCTGCGTTACAGCCGGCAGATTCTGCTGAAACAGATCGATGTGGACGGCCAGCTGCGTCTGAAGAACAGCCGGGCATTGGTCGTCGGCCTCGGCGGCCTGGGCTCGCCGGTGGCGCTCTATCTGGCTGCGGCGGGTGTCGGCGAGCTGCACCTGGCGGACTTCGACACGGTGGATTTGACCAACCTGCAGCGCCAGGTGATGCACGACACGCCGTCCATTGGCCAGCCCAAGGTGGATTCGGCGATGGCGCGGCTGGCCGCGATCAACCCGGAGGTGGCACTGGTGCCGCACCGCACGGCGCTGGATGAAGACAGCCTGGCGGCGGCCGTGGCAGCAGTGGACTTGGTGCTGGATTGCTCGGATAACTTCTCCACCCGCGAGGCAGTCAACGCCGCCTGCGTCGCCGCCGGGAAGCCGCTGGTCAGCGGTGCGGCGATCCGCCTGGAAGGCCAGTTGTCGGTGTTCGATCCGCGCCGGCCGGAAAGCCCGTGCTACCACTGCCTCTACGGCCACGGCAGCGAAGCCGAGTTGACCTGCAGCGAGGCTGGGGTGGTCGGCCCGCTGGTGGGGCTGGTGGGCAGTTTGCAAGCGCTGGAAGCCTTGAAGCTGTTGGCCGGTTTCGGTGAGCCGTTGATCGGGCGTCTGTTGCTGGTGGATGCGCTGGGCAGCCGTTTCCGTGAGCTGCGGGTCAAGCGCGACCCGGCCTGCACCGTGTGCGGAGGTGTGCATGGCGAGTGA	MSDDMLSDQELLRYSRQILLKQIDVDGQLRLKNSRALVVGLGGLGSPVALYLAAAGVGELHLADFDTVDLTNLQRQVMHDTPSIGQPKVDSAMARLAAINPEVALVPHRTALDEDSLAAAVAAVDLVLDCSDNFSTREAVNAACVAAGKPLVSGAAIRLEGQLSVFDPRRPESPCYHCLYGHGSEAELTCSEAGVVGPLVGLVGSLQALEALKLLAGFGEPLIGRLLLVDALGSRFRELRVKRDPACTVCGGVHGE	PGPT0008935_712	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0008935-thiF-K03148	NA	NA
BMS010_05473	828	prmC_3	COG2890	Release factor glutamine methyltransferase	ATGGCCACCATCGAATCCCTGCTGAGCGCCGCCACGCTGCCCGACTCGCCCACCGCACGGCTGGACGCGGAGCTGTTGCTGGCCCATGTGTTGGGCAAGTCGCGCAGTTACCTGCGGACCTGGCCTGAGCAAGCGGTGATCGATGAGCAGGCGCAGCGATTCGCCGCGTTGATCGAACGCCGCCGTACCGGCGAACCGGTGGCCTATATCCTCGGCCGCCAGGGTTTCTGGAGTCTCGATCTGGAAGTGGCGCCACACACCCTGATTCCGCGCGCCGATACCGAGCTGCTGGTGGAAACCGCGCTGGAACTGCTCCCGGCCGGGCCGGCACGGGTACTCGATCTTGGCACCGGAACCGGCGCCATCGCCCTGGCCCTGGCCAGCGAGCGGCCGGGCTGGACGCTGGTCGGCGTCGACCGGGTGCCGGAAGCGGTGGCCCTGGCCGAGCGCAATCGGGTTCGCCTGAAGCGGGGCAACGCGCGATTCTGCGAAAGCCACTGGTTTTCCTCCCTGGCCGGCGAGCGCTTCCAGATGATCCTGGCCAACCCGCCCTACATCGCGGCGGACGATCGTCACCTCGGCGAGGGCGACGTCCGTTTCGAACCGGCCAGCGCCCTGGTGGCGGGGCCGGATGGGCTGGACGATATCCGCGCCATTATCGAGCAGGCGCCAGCTTATCTCGAGGCGGGTGGCTGGTTGCTGCTGGAGCATGGCTTCGACCAGGCGGCGGCCGTGCGCGACTTGTTCGCCGAGCGGGGCTTCATCACTGTGGAGAGCCGTCGCGACCTCGGCGGCCATGAACGGATCAGCCTGGGGAGTTTCCCATGA	MATIESLLSAATLPDSPTARLDAELLLAHVLGKSRSYLRTWPEQAVIDEQAQRFAALIERRRTGEPVAYILGRQGFWSLDLEVAPHTLIPRADTELLVETALELLPAGPARVLDLGTGTGAIALALASERPGWTLVGVDRVPEAVALAERNRVRLKRGNARFCESHWFSSLAGERFQMILANPPYIAADDRHLGEGDVRFEPASALVAGPDGLDDIRAIIEQAPAYLEAGGWLLLEHGFDQAAAVRDLFAERGFITVESRRDLGGHERISLGSFP				NA	NA	NA	NA	NA
BMS010_05474	1083	prfA_2	COG0216	Peptide chain release factor RF1	ATGAAAGCTTCTCTGCTGAACAAGCTGGACATCCTCCACGACCGCTACGAAGAACTCACCGCGCTGCTCGGCGACGCCGAGGTGATCAGCGACCAGGGCAAGTTCCGCGCATATTCCAAGGAGTACGCCGAGGTCGAGCCGGTGGTCCAGGCTTACCGTGAGTTCCGTAAGGTCCAGGCCGACCTGGAGGGTGCCCAGGCGCTGCTCAAGGACAGCGACCCGGACCTGCGCGAGATGGCTGCCGAGGAAGTGGCCCAGGCCAAGGAGCAATTGGTCGAGCTGGAAAACCGCCTGCAGCGCATGTTGCTGCCGAAGGACCCCAACGACGGCCGCAATGTGTTCCTGGAAATCCGCGCCGGTACCGGCGGCGACGAGGCGGCGATCTTCTCCGGCGACCTGTTCCGCATGTATTCGCGCTATGCCGAACGCCAGGGCTGGCGCGTCGAGATTCTTTCGGAGAACCCGGGCGAGCACGGTGGCTACAAGGAAATCATTTCCCGCGTGGAAGGCGACAACGTCTACGCCAAGCTCAAGTTCGAGTCCGGCGCGCACCGCGTGCAGCGGGTCCCGGAGACCGAATCGCAGGGGCGCATCCACACCTCTGCCTGTACGGTGGCGGTGCTGCCCGAGCCGGACGAGCAGGCGGCCATCGAGATCAACCCGGCGGACCTGCGTGTCGATACCTACCGCTCCTCCGGGGCGGGCGGTCAGCACGTGAACAAGACCGACTCGGCGATCCGCATCACCCACCTGCCCACCGGCATCGTCGTCGAATGCCAGGAAGAGCGCTCGCAGCACAAGAACCGCGCCAAGGCTATGGCCTGGCTGGCGGCCAAGCTGCAGGACCAGCAGGACGCCGCGGCGCACAAGGAAATCTCCGAGACGCGCAAGCTGCTGGTGGGCTCCGGCGACCGTTCCGAGCGTATCCGTACCTACAACTTCCCCCAGGGGCGAGTGACCGACCACCGCATCAACCTGACCCTCTACGCGCTGGACGAGGTCATGGCCGGTGGTGTGGAGGCGGTGATCGAGCCGCTGCTGAGCGAGTACCAGGCCGACCAGTTGGCGGCGCTGGGAGATTGA	MKASLLNKLDILHDRYEELTALLGDAEVISDQGKFRAYSKEYAEVEPVVQAYREFRKVQADLEGAQALLKDSDPDLREMAAEEVAQAKEQLVELENRLQRMLLPKDPNDGRNVFLEIRAGTGGDEAAIFSGDLFRMYSRYAERQGWRVEILSENPGEHGGYKEIISRVEGDNVYAKLKFESGAHRVQRVPETESQGRIHTSACTVAVLPEPDEQAAIEINPADLRVDTYRSSGAGGQHVNKTDSAIRITHLPTGIVVECQEERSQHKNRAKAMAWLAAKLQDQQDAAAHKEISETRKLLVGSGDRSERIRTYNFPQGRVTDHRINLTLYALDEVMAGGVEAVIEPLLSEYQADQLAALGD				NA	NA	NA	NA	NA
BMS010_05475	1272	hemA_1	COG0373	Glutamyl-tRNA reductase	ATGGCCTTCCTCGCTCTTGGTATCAACCACAAGACCGCCTCGGTGGACGTCCGCGAGCGCGTGGCGTTCACGCCGGAGCAGTTGGTTGAGGCCTTGCAGCAGCTCTGCCGAGTCACGCCGAGCCGTGAGGCGGCGATCCTCTCCACGTGCAACCGCAGCGAGCTGTACCTCGAGCAGGAGCAGTTGGAAGTGGATGCCGTGCTCGCCTGGCTGGCCAACTATCACCAACTGAGCCTCGACGATCTGCGCGCTTGTGCCTACGTGCACCAGGACGATTCCGCCGTGCGCCACATGATGCGCGTCGCCTCAGGGCTGGACTCCATGGTGCTGGGCGAGCCGCAGATTCTCGGCCAGATGAAGTCCGCCTACGCCGTGGCCCGCGAGGCCGGCACCGTCGGCCCGCTGCTCGGCCGCCTGTTCCAGGCCACTTTCAGTACCGCCAAGCAGGTGCGTACCGATACCGCCATCGGCGAGAACCCGGTGTCCGTGGCCTTCGCCGCGGTGAGCCTGGCCAAGCAGATATTCAGTGACCTGCACCGCAGCCAGGCGCTGCTGATCGGCGCTGGCGAAACCATCACCCTGGTGGCGCGCCACCTGCACGAGCAAGGCGTCAAGCGCATCGTCGTCGCCAACCGCACCCTGGAGCGGGCCAGCTCCCTGGCCGAGCAGTTCGGCGCTCATGCCATCCTGCTCGCCGACATTCCCCAGGAGCTGGTCAACAGCGACATCGTCATCAGCTCGACCGCCAGCCAGTTGCCGATCCTCGGCAAGGGCGCGGTGGAGCGAGCGCTGAAGCAGCGCAAGCACAAGCCGATCTTCATGGTCGACATTGCCGTGCCGCGGGATATCGAACCCGAAGTCGGCGAGCTGGATGACGTCTACTTATATAGCGTCGATGACTTGCACGAAGTCATCGCGGAAAACCTCAAGAGCCGTCAGGGGGCTGCCCAGGCCGCCGAGGAGCTGGTCGCCGTCGGTGCCGACGATTTCATGCTGCGCCTGCGTGAGTTGGCTGCAGTGGATGTGCTCAAGGCCTACCGGCAGCAGGCCGAGCGGGTGCGCGACGAGGAGCTGGGCAAGGCGCTGCGCCTGCTCGGCAACGGTGCCGATCCTGCCGAGGTGATGGCCGCCCTGGCCCGTGGGTTGACCAACAAGCTGCTGCACGCACCGAGCGTGCAATTGAAGAAACTCTCCGCCGAAGGCCGTATCGACGCTTTGACCATGGCCCAGGAACTCTTTGCCCTCGATGGGGCGCCGGACAAGAAACCGTGA	MAFLALGINHKTASVDVRERVAFTPEQLVEALQQLCRVTPSREAAILSTCNRSELYLEQEQLEVDAVLAWLANYHQLSLDDLRACAYVHQDDSAVRHMMRVASGLDSMVLGEPQILGQMKSAYAVAREAGTVGPLLGRLFQATFSTAKQVRTDTAIGENPVSVAFAAVSLAKQIFSDLHRSQALLIGAGETITLVARHLHEQGVKRIVVANRTLERASSLAEQFGAHAILLADIPQELVNSDIVISSTASQLPILGKGAVERALKQRKHKPIFMVDIAVPRDIEPEVGELDDVYLYSVDDLHEVIAENLKSRQGAAQAAEELVAVGADDFMLRLRELAAVDVLKAYRQQAERVRDEELGKALRLLGNGADPAEVMAALARGLTNKLLHAPSVQLKKLSAEGRIDALTMAQELFALDGAPDKKP	PGPT0003650_2528	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003650-hemA-K02492	NA	NA
BMS010_05476	1731	bepA_4		Beta-barrel assembly-enhancing protease	ATGAATAAATCCGTTGCGTTGCTGACCGCCCTCCTCTTTCTCGGCGGCTGTCAGACTTTGTTCCCTTCCGACACCGACGGCACGCCGCCCGTGGAGGACGCCAGCCCGGCGCCCGAGGAAAGCAAGCCGCAGGTCTACGGCTCGTTCAGTCGCGAAGCCCTGTTCGCCTTACTCACCGCCGAACTGGCCGGCCAACGCAACCGCTTCGACATCGCCCTCGGCAACTACGTGCAGCAGGCCAATGCGACCCAGGACCCGGGCGTCGCCGAACGGGCCTTCCGCATCGCCGAATACCTCGGCGCCGAGCAGGCAGCCCTGGATACCGCGCTGATCTGGGCGAAGAACGCGCCGGACAACGTCGACGCCCAGCGCGCCGCCGCCATCCAACTGGCCCGGGGCGGCCGCTACGACGAATCCATGACCTACATGGAGAAGGTCCTGCAGAAGCAGGGCGACACCCACTTCGACTTCCTCGCCCTGTCCGCTGCGGAAACCGACCCGGATACCCGCGCCGGCCTGCTGCAGAGCTTCGATCGCCTGCTGGAAAAATCCCCGGACAACGGTCAGTTGCTGTTCGGCAAGGCGCTCCTGTTGCAACAGGACGGCCGCTCCGAAGAAGCCCTGGAACTTCTGGAAGACCAGCCGGCGAGCCAGCGCGAAATCGCGCCGCTGCTGCTGCGTGCCCGTCTGCTGCAAAGCCTCAAGCGCGGCGACGAAGCCATTCCGCTGCTGGAGAAAGGCATCAAGCAGCACCCGGACGACAAGCGCCTGCGCCTGACCTACGCCCGCCTGCTGGTCGAACAGGACCGCCTCGACGACGCCAAGGGCGAGTTTTCCTCCCTGGTTCAGCAATTCCCCGACGATGACGACCTGCGCTTCTCCCTCGCCCTCGTCTGCATGGAAGCCAAGGCCTGGGACGAGGCGGCGGTCTACCTCGAAGAACTGGTGGAGCGGCAGAGCTACGTGGACGCTGCGCACTTCAACCTCGGCCGCGTCTACGAAGAACGCAAGGACCCGGAAAGCGCCCTGATCGAATACGGCCTGGTCGGCCCCGGCAACGACTTCCTGCCTGCGCAATTGCGCCAGACCGAAATCCTGCTCGACAGCGGCCGCGCCGAAGAGGCCTCCGCCCGCCTCGCCAAGGCGCGCGACACCCAACCGGACTACGCCATCCAGCTCTACCTGATGGAAGCCGAGGCCTTCAGCAACCGCCAGCAGACCGACCGCGCCTGGAATGTGATCCAGCAGGGCCTGGAACAATTCCCCGAAGACCTCAACCTGCTCTATACCCGCGCCATGCTTGCCGAGAAACGCAACGACCTGGCGCAACTGGAGAAGGACCTGCGCTTCGTCATCGAACGCGAACCGGACAACGCCATGGCCCTCAACGCCCTGGGCTACACCCTCGCCGATCGCACCACCCGCTACGAAGAAGCGCGCACGCTGATCGAACAGGCGCACCAGTTGAATCCAGAAGACCCCGCCATTCTCGACAGCCTCGGCTGGGTGAATTTCCGCCTAGGCAACAACGCCGAGGCGGAACGTCTGCTACGCCAGGCCATCGAACGATTCCCGGACCATGAAGTGGCCGCGCACTTGGGCGAAGTCCTCTGGACCAGCGGCAAGCAGCGCGAGGCGCGGCAGGTCTGGGCCAAAGCCCTGAAAGATCAACCCGACAGCCCGATCCTGCGCAGCACGCTGCTGCGCCTGACCGGCTCGGAGACGCTCTGA	MNKSVALLTALLFLGGCQTLFPSDTDGTPPVEDASPAPEESKPQVYGSFSREALFALLTAELAGQRNRFDIALGNYVQQANATQDPGVAERAFRIAEYLGAEQAALDTALIWAKNAPDNVDAQRAAAIQLARGGRYDESMTYMEKVLQKQGDTHFDFLALSAAETDPDTRAGLLQSFDRLLEKSPDNGQLLFGKALLLQQDGRSEEALELLEDQPASQREIAPLLLRARLLQSLKRGDEAIPLLEKGIKQHPDDKRLRLTYARLLVEQDRLDDAKGEFSSLVQQFPDDDDLRFSLALVCMEAKAWDEAAVYLEELVERQSYVDAAHFNLGRVYEERKDPESALIEYGLVGPGNDFLPAQLRQTEILLDSGRAEEASARLAKARDTQPDYAIQLYLMEAEAFSNRQQTDRAWNVIQQGLEQFPEDLNLLYTRAMLAEKRNDLAQLEKDLRFVIEREPDNAMALNALGYTLADRTTRYEEARTLIEQAHQLNPEDPAILDSLGWVNFRLGNNAEAERLLRQAIERFPDHEVAAHLGEVLWTSGKQREARQVWAKALKDQPDSPILRSTLLRLTGSETL				NA	NA	NA	NA	NA
BMS010_05477	636	lolB	COG3017	Outer-membrane lipoprotein LolB	ATGCTTTTCCGCTCCCTCATCGCCATTGGCCTGATCGCCCTGCTCAGCGGCTGTGCCGGCCTGACGTCCCGCGAATCCCTGCAAGGCCAGGGCAACCCGGCCTTGTGGAAAGCGCACAAGGAACAGATCGCCCAACTCGATGCCTGGCAAATCAGCGGCAAGGTCGGCATCCGCGCACCGCGCGACGCCTCCGGCAAATCCGCCAGCGGCAGCGGCACCCTGTTCTGGCTGCAACGCCAGGATTACTACGACATCCGCCTCTCCGGCCCCCTCGGCCGTGGCGCCGCCCGCCTGACCGGGCGACCCGGCGAAATCGTCCTGGAGGTCGCCAACCAAGGCCGCTACCAGGCGGAGTCGCCGGAAGCCTTGCTGGAAGAACAACTGGGCTGGAAGCTGCCCGTCTCCCACCTGCTCTGGTGGGTACGCGGCCTGCCGGCTCCGAAGTCCCGGAGCCAACTGACCCTCGACAGCGAAAGCCATTTGCAACGCCTCGAGCAGGACGGCTGGGAAGTCGACTACCTGCGCTACGCCGAGCAGAACGGCTACACCCTGCCGGAGCGCCTCAAGCTGCGCGGGCACGACCTGGAAATCACCCTCGTGGTAAAGGACTGGCAGCCGCGCCAGCTCGCTCAGTGA	MLFRSLIAIGLIALLSGCAGLTSRESLQGQGNPALWKAHKEQIAQLDAWQISGKVGIRAPRDASGKSASGSGTLFWLQRQDYYDIRLSGPLGRGAARLTGRPGEIVLEVANQGRYQAESPEALLEEQLGWKLPVSHLLWWVRGLPAPKSRSQLTLDSESHLQRLEQDGWEVDYLRYAEQNGYTLPERLKLRGHDLEITLVVKDWQPRQLAQ	PGPT0024480_756	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024480-lolB-K02494	NA	NA
BMS010_05478	849	ispE_1	COG1947	4-diphosphocytidyl-2-C-methyl-D-erythritol kinase	ATGACCCCACAGCTGACCCTGCCGGCGCCGGCCAAGCTCAACCTGATGTTGCACATCCTCGGCCGCCGGGCCGATGGCTATCACGAACTGCAAACGCTTTTCCAATTCCTCGACCATGGCGACGAACTCGGCTTCGCCGTGCGCGAGGACGGCGCAATCCATCTGCACACCGACATCCCCGGCGTGCCCCACGACAGCAACCTGATCGTCCGCGCCGCCCGTCAACTGCAGCGAGAGAGTGGCTGCCCGCTAGGCGCCGACATCTGGCTGGAGAAGCATCTGCCCATGGGCGGCGGCATCGGCGGCGGCAGCTCGGACGCGGCCACCACCCTGCTCGCCCTCGACCGGCTCTGGCAGCTCGGCTGGAGCGAAGACCGCCTGGCCGCCCTTGGCCTGACGCTGGGCGCGGATGTCCCGGTGTTCGTACGCGGGCACGCCGCCTTCGCCGAAGGCGTGGGGGAAAAACTCGTCCCGGTGGAGCCGGAAGAGCCCTGGTATCTCGTGGCCGTTCCGCAAGTCTCTGTCAGCACAGCAGAAATTTTCAGCGACCCGGAGTTGACACGGGATACTCCGGCCATTACAGTGCGCACCGTTCTCGAGCGGGGCGGTCGAAATGACTGTCAGCCGGTGGTCGAGAAGCGTTACCCAGATGTTCGTAACGCTTTGATCTTGCTAAACAAATTCGTTTCAGCTAGATTAACCGGCACTGGTGGTTGCGTGTTTGGGGCCTTCCCTAACAAAGCCGAAGCTGATAAAGTCGCGGCCCAACTTCCGGTCTCCCTGCCAGCTTTTGTAGCCAAGGGAAGCAACGTTTCGATGTTGCACCGAAAGTTACAGGAACTGTCCTGA	MTPQLTLPAPAKLNLMLHILGRRADGYHELQTLFQFLDHGDELGFAVREDGAIHLHTDIPGVPHDSNLIVRAARQLQRESGCPLGADIWLEKHLPMGGGIGGGSSDAATTLLALDRLWQLGWSEDRLAALGLTLGADVPVFVRGHAAFAEGVGEKLVPVEPEEPWYLVAVPQVSVSTAEIFSDPELTRDTPAITVRTVLERGGRNDCQPVVEKRYPDVRNALILLNKFVSARLTGTGGCVFGAFPNKAEADKVAAQLPVSLPAFVAKGSNVSMLHRKLQELS	PGPT0007605_3437	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007605-ispE-K00919	NA	NA
BMS010_05480	603	rplY_2		50S ribosomal protein L25	ATGACTGAGTTTGCCCTGAATGCCGAAGTGCGTTCCGACCTGGGGAAAGGTGCGAGCCGCCGCCTGCGTCGTAACGCCAGCCTGGTTCCCGCCGTGATCTACGGTGGCGACAAGGCCCCGCAATCCATCTCCCTGCTGGCCAAAGACCTGGCCAAGCTGCTGGAAAACGAAGCTGCCTTCAGCCACGTGATCACCCTGAACATCGGCAACAGCGCCGAAACCGTTCTGATCAAGGCCCTGCAGCGTCATCCGGCCAAGAGCTTCGTCCTGCACGCCGACTTCCTGCGCGTCGTAGCCGACCACAAGCTGACCGCCCACGTTCCGCTGCACTTCATCAACCAGGAAACTGCGGTTGGCGTGAAGCAAGGCGGTGGCGAAATCTCCCACACCATCAACGAAGTGGAAGTTTCCTGCCTGCCGAAGGACCTGCCGGAATTCATCGAAGTCGACATGGCCAAGGTCGAGCTGAACCAGATCGTCCACCTGTCCGACCTGAAAGTGCCGGCCGGTGTGGAACTGGTTGCCCTCGCCCACGGCAACGACCTGGCGGTGGCCAACATCCACCCGTCCCGCGTCGTGAAAGAAGAAGGCGCAGCCGAGTAA	MTEFALNAEVRSDLGKGASRRLRRNASLVPAVIYGGDKAPQSISLLAKDLAKLLENEAAFSHVITLNIGNSAETVLIKALQRHPAKSFVLHADFLRVVADHKLTAHVPLHFINQETAVGVKQGGGEISHTINEVEVSCLPKDLPEFIEVDMAKVELNQIVHLSDLKVPAGVELVALAHGNDLAVANIHPSRVVKEEGAAE				NA	NA	NA	NA	NA
BMS010_05481	585	pth_2	COG0193	Peptidyl-tRNA hydrolase	GTGACTGCCATCCAACTGATCGTCGGCCTGGGTAACCCCGGCCCCGAATACGACCAGACCCGGCATAACGCAGGGGCCCTTTTCGTTGAGCGCGTGGCAGCCGCCAAAGGCACCAGCCTCAGCGCAGATCGCAAATACTTCGGCCTTGTCGGGAAATTCTCCCACCAGGGCCGCGACGTTCGCCTGCTGATCCCCACCACCTACATGAACCGCAGCGGTCAGGCGGTGGCGGCATTGGCGAACTTCTTCCGCATTCCAGCGGATGCCATCCTGGTCGCCCACGACGAACTCGACATGCCTCCCGGCGTCGCCAAGCTCAAGCAGGGCGGCGGCCATGGCGGGCACAACGGGCTGCGCGACATCATCGCCCAACTCGGCAACCAGAACGGCTTCCACCGCCTGCGGCTCGGCATCGGCCATCCGGGGCACAGCAGCCTGGTCTCCGGCTACGTCCTCGGCCGCGCACCGCGCAGCGAACAGGACCTGCTCGACACCAGCATCGACTTCGCCCTCGGCGTGCTTCCAGACATCCTCGACGGGAACTGGACCAAAGCCATGCAGACACTGCACAGCCAGAAGGCCTGA	MTAIQLIVGLGNPGPEYDQTRHNAGALFVERVAAAKGTSLSADRKYFGLVGKFSHQGRDVRLLIPTTYMNRSGQAVAALANFFRIPADAILVAHDELDMPPGVAKLKQGGGHGGHNGLRDIIAQLGNQNGFHRLRLGIGHPGHSSLVSGYVLGRAPRSEQDLLDTSIDFALGVLPDILDGNWTKAMQTLHSQKA				NA	NA	NA	NA	NA
BMS010_05482	1101	ychF_2	COG0012	Ribosome-binding ATPase YchF	ATGGGATTCAACTGCGGCATCGTCGGCCTGCCCAACGTCGGCAAGTCCACCTTGTTCAACGCCCTCACCAAATCCGGTATCGCCGCGGAGAACTTCCCGTTCTGCACCATCGAGCCGAACAGCGGCATCGTGCCCATGCCCGACCCGCGCCTGGATGCCTTGGCCGAGATCGTCAAGCCGCAACGCGTGCTGCCCACCACCATGGAATTCGTCGACATCGCCGGCCTGGTGGAAGGTGCTTCCAAAGGTGAGGGCCTGGGCAATAAGTTCCTCGCCAACATCCGTGAGACCGACGCCATTGCCCACGTGGTGCGCTGCTTCGAAGACGACAACGTCATCCACGTGGCCAACAGCGTCGATCCCAAGCGCGACATCGAAATCATCGAACTGGAGCTGATCTTCGCCGACCTGGAAAGCTGCGAGAAACAACTGCAGAAAGTCGCCCGCAACGCCAAGGGCGGAGACAAGGAAGCCGTGGCCCAGAAAGCCCTGCTGGAAAAACTGATTCCGCACTTCACCGAAGGCAAGCCGGCGCGCACTCTGCTGAAGAACCTCGGCGACGACGACAAGCAACTGGCGCGGGGCTTCCACCTGCTCACCAGCAAGCCGGTGATGTACATCGCCAACGTCGCCGAAGACGGCTTCGAGAACAACCCGCACCTCGACGTGGTGAAAGCCATCGCCGCCGAGGAAGGCGCCGTGGTGGTACCGGTGTGCAACAAGATCGAGGCCGAGATCGCCGAACTGGACGACGACGAGGAAAAACTGATGTTCCTCGAGTCCATGGGCATGGACGAACCCGGCCTGAACCGCGTGATCCGCGCGGGCTATGATCTGCTCAACCTGCAAACCTACTTCACCGCCGGCGTGAAGGAAGTCCGCGCCTGGACCGTCAAGGTCGGCGCCACCGCCCCGCAGGCCGCCGGCGTGATCCACACCGACTTCGAGAAAGGCTTCATCCGCGCCGAAGTCATCGCCTACGACGACTTCATCCAATACAAGGGCGAAGCCGGCGCCAAGGAAGCCGGCAAATGGCGCCTGGAAGGCAAGGACTACATCGTCAAGGACGGCGACGTGATGCACTTCCGCTTCAACGTCTGA	MGFNCGIVGLPNVGKSTLFNALTKSGIAAENFPFCTIEPNSGIVPMPDPRLDALAEIVKPQRVLPTTMEFVDIAGLVEGASKGEGLGNKFLANIRETDAIAHVVRCFEDDNVIHVANSVDPKRDIEIIELELIFADLESCEKQLQKVARNAKGGDKEAVAQKALLEKLIPHFTEGKPARTLLKNLGDDDKQLARGFHLLTSKPVMYIANVAEDGFENNPHLDVVKAIAAEEGAVVVPVCNKIEAEIAELDDDEEKLMFLESMGMDEPGLNRVIRAGYDLLNLQTYFTAGVKEVRAWTVKVGATAPQAAGVIHTDFEKGFIRAEVIAYDDFIQYKGEAGAKEAGKWRLEGKDYIVKDGDVMHFRFNV				NA	NA	NA	NA	NA
BMS010_05483	627			hypothetical protein	ATGAAAGCTCTGATCACGCTGCTAATTGTTATTTTACTCTCAGGTTGCACGTCTCTTTTAAACACTTACAGTGGTGAGCGTTCTACTGGCTCCATTATCAAGCCAGGAGAAAGGCTTATTTTAAGAAGTATTGGGGAACCTGGAACCAATAGAATCTGCGCAGAGCCTCCAGCAGATGTAGCATCATCGGTATTCAGCTCCATAAATGCATCATTGCAAGGAAACATACAAGAACAAGCGAAAGGCCGAGCCGCCCTAACATCTATATCCAATAGTGAAATAGTCAAGCTTTTTGAACGGTCCCAAGGCATTCAGGGACTGCGAGACGGAATGTATCGAACCTGCGAAGCTTATATTAACGGAGGTATCGAATCACCAACATATGGCCAACAAATGACCTATATGACCGCAACATTAAACTTTCTAGTCACAGTAGAACTTTGCGGAAAAATCCTTGACACAAAAGAACTATTAATAGTTGAAAACAATGGCAACGGCAACAGGACGAGAGATCTTCGACCTGAGCTGTACGAAGGATGCTTAAATAAAGCAAAAGAATTTGCTGACCTAATATTGAAAGCAAATCAGGCAAGCACCGTTAGCCAATCAATTACAACACAAGAATAA	MKALITLLIVILLSGCTSLLNTYSGERSTGSIIKPGERLILRSIGEPGTNRICAEPPADVASSVFSSINASLQGNIQEQAKGRAALTSISNSEIVKLFERSQGIQGLRDGMYRTCEAYINGGIESPTYGQQMTYMTATLNFLVTVELCGKILDTKELLIVENNGNGNRTRDLRPELYEGCLNKAKEFADLILKANQASTVSQSITTQE				NA	NA	NA	NA	NA
BMS010_05484	852			hypothetical protein	ATGGCCGATCGATTTTTTACTCCCCTTCGCTACCCTGGAGGGAAGTCAAAGCTGTGCAGCTTTATTCGAGACCTGATTCGAGAGAACGATTTTGAGGATGGTGTGTACGTTGAGCCGTATGCTGGTGGCGCTGGCGTAGCACTAGAGCTGCTACTGACAGATGTAGTTTCAAAGATTCACATTAATGATCTGAATGTTGGTGTTTTCAATTTCTGGTCGAACGTTCTTTTGCATACTGAGCGTTTCATTGAAAGGATATATTCTTGCAATTTGAATATGGATGAATGGCACGCTCAGAGAGAGATTTTCAATAGTCCAGATTATTATAGCGGGTTTGATGTTGGTTTCGCCTTTTTTTATTTGAACAGAACTAATAGGTCTGGGATTATAAATGGAGGTGTTATTGGTGGGTATGATCAGACTGGAAATTACAAGATTGATGCTCGCTTCAATAAGGATGCGCTTGTTGAGAGAATAATTAGAGTTTCTCGGCGTGCTGATGATATTCATCTTTACAATATGGATGCAGAGTTGTTCTTGCAGGCTATAGATGCAATGCCCTTGTCCAAGGCATTGATTTATATTGATCCGCCATATTACGTCAATGGTAGAAGGCTCTACGATAATTTCTACGAGCATGACGATCATGGCCGTATAAGTAAGTTGGTTTCTTCGCTAAGAACCCCTTGGGTTCTTTCTTATGATGATACAGAGCAGATTCGGCGTTTTTACTCAAATAGCCGAGTGGCAGAAATTGACCTGATCTACAGTGCGCAGCGCAAAATGAAAGGGCAGGAAGTGATCTTTTTCTCTGAGAATTTGATCGTTCCTGCTGACTTGCAGGTCGCATAG	MADRFFTPLRYPGGKSKLCSFIRDLIRENDFEDGVYVEPYAGGAGVALELLLTDVVSKIHINDLNVGVFNFWSNVLLHTERFIERIYSCNLNMDEWHAQREIFNSPDYYSGFDVGFAFFYLNRTNRSGIINGGVIGGYDQTGNYKIDARFNKDALVERIIRVSRRADDIHLYNMDAELFLQAIDAMPLSKALIYIDPPYYVNGRRLYDNFYEHDDHGRISKLVSSLRTPWVLSYDDTEQIRRFYSNSRVAEIDLIYSAQRKMKGQEVIFFSENLIVPADLQVA	PGPT0027190_1692	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_R-M_SYSTEM,PGPT0027190-dam-K06223	NA	NA
BMS010_05485	1464			hypothetical protein	ATGTCAAAGAATATTGTTCTTCATATATCTAAAATTCTCATGGATGAGGAAAACCCCCGCCACGACAAAATAAATGGCCAGAGAGAAATTCTCAATTGGCATGTCGAGCACCTTGGTTCAAAGTTGATACTTTTGATGAGGAGCTTGGCTGAGAACGGCCAGAGTGATATCGATAAGGTTCTCGTTACTCCTGTTAAAGGGGTACCTGATAAGTATGTTGTCAAGGAAGGGAATCGTCGAATTGCTGCGCTCAAGTTACTCAATGATCCGTCTCTTTGCGATGACGATTTATTCAGGCGCAGAATTGAAAGCGTCAATGTGAGTGATCAGCTTTCATTTAATATTGACTGCGTCAATATTAAAGATCAGCGGCGAGTGGCTTGGTTGATGGGGTTGCGCCACCTTGGTGAGCAAGGAGGGGTCGGCACCTCGAAGTGGGGGGCCGTTGAGAAAGATAGGCATACGCAAGATGTTTTAGGCGGAAACAGATACTGGCGATCTCTGTATTTTATCGACTATGCAAAAGTCCATGGTTTGATCACTGACCAACAGGCTGCTCGACTCAATGACCGAATCACAACTCTAGATCGACTTATTTCGAATAAAGATTTTAAATCTACTTTGGGCGTTGCTTATAAAGACCGGAATGTTCAGATTACCATTTCTGAGGATATTCATCGCCTTTTGTTGGGGAGCGTTCTGGAGCAAATCTCCTTGCCTGACTTTAAGGTGAAGGAATTATATGACTCAGATAAAAAGTTTGATTTTCTTACTAGGGTTGTTGAGCAGGCCAAGATCGCACAGGATAAAACGGCGCTTGGCTTGAACGGTAAACCCGGAGCTGAAGAAGATTCTTTCGGAATTAAAGACCCTGCGTATTCGTCAGGTCTGGCTGCGGCTGACCAGAATACAAATTCTGCTGCGGAGGATGAAAAGGCAAAGCTGATTGAGAAACAGTTGCCGAAGAAAACTAGAAAAGCCCCTGATCCTGCTAAGAGAGATAAACTGTTCATCGGCAGTATTACTATTCCTTCTGTTGAATCTAAGTGCAGTCGACTGTACAACCAAATAGACAGCCTAAAGCTAAGTGAACATGGCTTGGTGGTTGCCTGCGCCGCGCGGGCCTTAGTAGATATATCCATGCAAATATACATTGATGAATTCTCACTGGTTGCTCCCGAAAAGAGAAATCGCTTTGGGCAAATTCCACTGCCCGACATGATTAAAGTTTGTGCTGAGCATCTATTTTCAAATGGGCATATCTCAAAAGACCTGAAAGGTTCAATACTAAGTGGCGAGGTCTCGAACCCAAACAGTTTTGCTAGCCCTCAAGCGTTACATTCGTTTCTGCACGGCAGATATCAAAATTCAATGGAAGGTTTGAAAGCGGCTTGGGAAAGCTGCTATGAAGAGCTCCTTCGCAGTTCTTGGCGTGCGGTCAAGGCAAATAAAGGGCAGGCATAG	MSKNIVLHISKILMDEENPRHDKINGQREILNWHVEHLGSKLILLMRSLAENGQSDIDKVLVTPVKGVPDKYVVKEGNRRIAALKLLNDPSLCDDDLFRRRIESVNVSDQLSFNIDCVNIKDQRRVAWLMGLRHLGEQGGVGTSKWGAVEKDRHTQDVLGGNRYWRSLYFIDYAKVHGLITDQQAARLNDRITTLDRLISNKDFKSTLGVAYKDRNVQITISEDIHRLLLGSVLEQISLPDFKVKELYDSDKKFDFLTRVVEQAKIAQDKTALGLNGKPGAEEDSFGIKDPAYSSGLAAADQNTNSAAEDEKAKLIEKQLPKKTRKAPDPAKRDKLFIGSITIPSVESKCSRLYNQIDSLKLSEHGLVVACAARALVDISMQIYIDEFSLVAPEKRNRFGQIPLPDMIKVCAEHLFSNGHISKDLKGSILSGEVSNPNSFASPQALHSFLHGRYQNSMEGLKAAWESCYEELLRSSWRAVKANKGQA				NA	NA	NA	NA	NA
BMS010_05486	528			hypothetical protein	ATGGAAGAAGGCTATTTCCCTCTGCTGCTGATGCGGCATAACCGCCCGCTGCGCGGCGTGATGATCGACCGGCAGCCTTGGGTGTGTGCCAAGGAGTTCGGCCTGTTGATGGGGCATCGGCACCCGGAGCGGATTTGTCGGCTGATGGATGACGATCAGGTACGCACGGTGACCTTCTGTACCCACCAGGGCGACTCGGAGCCTGTTCAACTATTGAGCGAGTCCGGACTTTACCGAGCGCTCTGCCGCTTCAGCCACCCCGAGAATCGTGGTCTGCGCCGCTGGCTGACTCATGAAGCCCTGCCCGCCTTGCGCGATGCCTGGGAAGACCGAGCACAGGAACCCAGGCGCACGCTGATGGCCTGGGATCATCAGCGCATCAGCCTGCTGCAATGGCAGGGCGATCTGTGGATTGCCCTTCGGGACATGCCGCGTTTCGCCCCACCGCCGCAGCCCGGCGAACGCTCCCTGCGGGTGCTGCTGAATCGCTGGTGGCGCGGATGGCCAGTGCCGCGTCGTGACTACTAA	MEEGYFPLLLMRHNRPLRGVMIDRQPWVCAKEFGLLMGHRHPERICRLMDDDQVRTVTFCTHQGDSEPVQLLSESGLYRALCRFSHPENRGLRRWLTHEALPALRDAWEDRAQEPRRTLMAWDHQRISLLQWQGDLWIALRDMPRFAPPPQPGERSLRVLLNRWWRGWPVPRRDY				NA	NA	NA	NA	NA
BMS010_05488	597	fic	COG2184	putative protein adenylyltransferase Fic	ATGATCGATAAGTACGGCGTCGGACAAGACCCTTACTGCTATCCCGAGACGTCCGTGCTGCGTAATCGCTTGGGGCTGATGAGTGAAGATGCGCTCAATGAGGCCGAGCGTGCATTGTCAGAAGTTGCAGCCAGCGAGATCGAGTTTGACCTTCCTCCCTACGATCTTGCTTATCTCCAGAGAATCCACCGCAAGCTGTTTGGCGATGTCTATGAATGGGCAGGCGAAATTCGCTCTGTAGATATTTCCAAGGGTGGAACGCATTTCTGTACTGTCGCTCGCCTTGAGGCCGAGGCTACCAAGATTTTCAGTCGCATGTCCGAAGCGAATTGGTTCGAGAGTGTGGGCCGTTCCGAGTTGGTGGTTTCTGTTGCTGGTGTGTATGGAGACCTCAACATGATCCACCCGTTCAGGGATGGTAATGGCAGAGCGTTGCGTACCCTGTTTGAGCACATCATCGTAAACGCTGGTTATGAGATCAGTTGGTGGTCGGTTGAGCCGGGAGAATGGCTGCAGGCCAATATCGATGCTGTCGTATGCGATTACGAAGGCTTGGTTTGTATTTTTGATCGCTGTATAGGTTTGCCGATCGGCTGA	MIDKYGVGQDPYCYPETSVLRNRLGLMSEDALNEAERALSEVAASEIEFDLPPYDLAYLQRIHRKLFGDVYEWAGEIRSVDISKGGTHFCTVARLEAEATKIFSRMSEANWFESVGRSELVVSVAGVYGDLNMIHPFRDGNGRALRTLFEHIIVNAGYEISWWSVEPGEWLQANIDAVVCDYEGLVCIFDRCIGLPIG				NA	NA	NA	NA	NA
BMS010_05489	171			hypothetical protein	ATGTCAATACCGTCCTTGCAAGCTAAAAGAGCTTATGTCGCCAGGATGCGTCAGTCGAACTATGCCGCCAGCCTTCGCCTGGAGGGCTTCGACGTGACACCCGCCGACGCAGTACGCAAGCTGCCTTCCCGTGAGTCTGTCTTGCGTGCTTATCACGGCAAGCAGGGCTGA	MSIPSLQAKRAYVARMRQSNYAASLRLEGFDVTPADAVRKLPSRESVLRAYHGKQG				NA	NA	NA	NA	NA
BMS010_05490	711	rutD_1		Putative aminoacrylate hydrolase RutD	ATGACGACGTTGGTTCTTCTTCCCGGCATGGATGGCACAGGGCTGCTTTTTCAGCCTCTCATTGACACACTACGGAGTGATGTCCGCGTCATGGTCATCCACTATCCCACCGACGAGGCCCTGGACTACCAGGCAATTCGATTTCATGTGGAGGCGGCTCTCCCGGAGGGGCCGCTGGTGCTGTTGGGCGAGTCATTTTCCGGTCCTATTGCAACTGCCATCGCGGCGGGCCTTGCAGATCGGGTTAGAGGTCTCGTCCTGTGCTGCACCTTCGTGCGTAATCCTCGACCGCTACTGGGCAGGCTCAAGGCGCTGCTACCGCTGCTTCCGATTCGCAGCATTCCTGGGGCTCTCATTGCAGCCCTTCTCCTTGGCCGCTTCGCCACGCCTGCGTCACGTAGCTTGTTGGAGCGCGCATTGTCTCGGGTATCCCCCTCTGTGCTGAGGGCGCGATTGCGAGCGGTATCTTCCGTCGATGAGTCTGCGTCGCTGTCGGCAGTGAAAGCGCCGGTGCTCTATCTGCGCGCTACCGAGGACTGCTTGGTTCCAGAGGCCAGCGCACGATTGATCGAGCAACTTTGTTCGTCTGTGTCTGTCGTGCCGACTTCAGGACCGCATTGCCTGCTGCAGGCCTGTCCGGTGGAAGCAGCGGCTGTGATCAAGGAATTTCTTCAGGAGATTGGGCAGACTACGGAGTCATCAACGAGATGA	MTTLVLLPGMDGTGLLFQPLIDTLRSDVRVMVIHYPTDEALDYQAIRFHVEAALPEGPLVLLGESFSGPIATAIAAGLADRVRGLVLCCTFVRNPRPLLGRLKALLPLLPIRSIPGALIAALLLGRFATPASRSLLERALSRVSPSVLRARLRAVSSVDESASLSAVKAPVLYLRATEDCLVPEASARLIEQLCSSVSVVPTSGPHCLLQACPVEAAAVIKEFLQEIGQTTESSTR	PGPT0022065_914	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022065-bioH-K02170	NA	NA
BMS010_05491	435			hypothetical protein	ATGAGCGGTCTGGATGGGTTTGTTAAAACCGAAGACGTTTCGCACGTAGAGATCGCCTCGGTGAATTTCGATCAATGGACGCTGACCGTTGCCTTACGTGCATACGCCAAGGTCGATCAGAGTGTGTTGGGCATGATTCATGTTGTCTTCGATCAGGTGGAAGGCTTTCGCCTATTGGACGAAGGCGCCATGCTTCGCTTTCCCTGGAAGCGACTATCCGATGACGGTGCCTTCGTGCACCGCATCCCGGAGGGTGGTTGGCTCGATCTCGAACGTGACGCGGGCAATATCCTGCCCGCTGCAGGTGCGGCGGAGTATCTGATCGTGACCCAGAACGAATGCGTGTCGGTCATTGCCTACGCGGAGCCGAGGCTGATGGAGCCGGCATGCGAGTGGGTCAAGAGTGGAGCGGCGAATACTTGGACGGCTGTGTAG	MSGLDGFVKTEDVSHVEIASVNFDQWTLTVALRAYAKVDQSVLGMIHVVFDQVEGFRLLDEGAMLRFPWKRLSDDGAFVHRIPEGGWLDLERDAGNILPAAGAAEYLIVTQNECVSVIAYAEPRLMEPACEWVKSGAANTWTAV				NA	NA	NA	NA	NA
BMS010_05492	321			hypothetical protein	ATGCTGATCACCACCACCCCGAGCATCGAAGGCAAGCGCATCACCCGCTACTGCGGCGTGGTGGCTGGCGAGGCGATTCTCGGCGCCAACCTGTTCAAGGACCTCTTCGCTGGCATCCGCGACCTCGTCGGCGGCCGCTCCGCCACCTACGAAAAAGAACTCCAGCGCGCCCGCGAAATCGCCCTGCAGGAACTCCAACAGCGCGCCCAGGAACTGGGCGCGAACGCGGTGATCGGCATCGACCTGGACTACGAAGTGCTGGGGCAAAGCAATGGCATGATGATGGTGTCGGCGAGCGGGACGGCGGTGGTGGTGGAGTGA	MLITTTPSIEGKRITRYCGVVAGEAILGANLFKDLFAGIRDLVGGRSATYEKELQRAREIALQELQQRAQELGANAVIGIDLDYEVLGQSNGMMMVSASGTAVVVE				NA	NA	NA	NA	NA
BMS010_05493	324			hypothetical protein	ATGCCCCACAACATCCTCTTCGTCTGCGGCAAGAATCGCCTGCGCAGCCCCACCGCCGAACACCTCTTCGCCGACCGTCCCGGCCTCGCAACCGCCTCCGCCGGTATCAACCACGACGCCGATAACCCCGTCACCCCGGAGCTTCTCGCCTGGGCTGACACCGTCTTCGTCATGGAACGCAGCCACCGCACCAAACTCTCCTCCAAGTTCAAGGCGCACCTGGGCAACAAGCGAGTGATCTGCCTGGGAATTCCGGACGACTATGCGTTCATGGACCCGGTGCTGGTGCGGGTGCTGGAGGAGAAGGTGGGCAGGCTCCTGTAG	MPHNILFVCGKNRLRSPTAEHLFADRPGLATASAGINHDADNPVTPELLAWADTVFVMERSHRTKLSSKFKAHLGNKRVICLGIPDDYAFMDPVLVRVLEEKVGRLL				NA	NA	NA	NA	NA
BMS010_05494	996	hicd	COG0473	Homoisocitrate dehydrogenase	ATGCACAGACTCTGCGCGATTCCAGGCGATGGCATCGGCCGCGAAGTGGTCCCCGCCGCGTTGGACGTCCTGAAAAAGCTCCTGCCGAACGTGAAGGTGGAAGAGGCCGAGGCCGGTTGGGAGTGCTTCGAGCGTCATGGCGAGGCCGTCCCCGAGAGTACCTTGGCGCGCATGCGCGACTGCGGCGCCGGCCTGTTCGGCGCCGTCTCCTCGCCGAGCGGCAAGGTGCCGGGTTACCGCAGCGCGATCCTCACCCTGCGCCAGGCGCTCGATCTGCACGTCAGCCTGCGCCCGGTGCGCAGTTGGCCGATCACCTCACCGAAGGCCGGCATCGACCTGATGATCCTGCGCGAGAACAGCGAGGGCCTCTACAGCGGCCGCGAGCACTGGGAGGCAGAAGGCGTCGCCGTCGCCGAGCGGGTGATCAGCAAGGCCGCCTGCCAGCGCCTTGCCCAGCGCACCGCCGAAGTCGCCAAGGCGCGCCAGGCGCGACGCATCACCCTGGTCCACAAGGCCAACATCCTGTCGCTCACCTGCGGGCTGTTCCGCGACACCTGCCGCGACCTGCTGATGGGCGAGGGCTGGGGCGACGTCCTCGACGAACGCCTGGTCGATGTCGCCGCCCTGCAACTGGTGGAGCGCCCCGAAGCCTTCGACCTCATCGTCACCACCAACCTGTTCGGCGACATCCTCTCCGACCTCGCCAGCCACTGGAGCGGCGGCCTCGGCATGGCCCCTTCGCTGAACTGGGGCGACGGCATCGCCCTCGCCGAACCCGTCCATGGCAGCGCCCCCGACATCGCCGGCAGCGGCCGCGCCAACCCGCTCGCGGCGATCCTCAGCGTCGCCTTGCTGCTGCGCTACCACTGGCGCGAAGAGACCCTGGCCACCCGCCTCGAAACCGCCGTCCAGCGCTACCTCGAAACCACCGGCCACCTCGACTTCGGCGTCGACACCACCCGCACCATCACCCAAGGCGTGATCGACGCGCTTTGA	MHRLCAIPGDGIGREVVPAALDVLKKLLPNVKVEEAEAGWECFERHGEAVPESTLARMRDCGAGLFGAVSSPSGKVPGYRSAILTLRQALDLHVSLRPVRSWPITSPKAGIDLMILRENSEGLYSGREHWEAEGVAVAERVISKAACQRLAQRTAEVAKARQARRITLVHKANILSLTCGLFRDTCRDLLMGEGWGDVLDERLVDVAALQLVERPEAFDLIVTTNLFGDILSDLASHWSGGLGMAPSLNWGDGIALAEPVHGSAPDIAGSGRANPLAAILSVALLLRYHWREETLATRLETAVQRYLETTGHLDFGVDTTRTITQGVIDAL	PGPT0001441_4881	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001441-leuB-K00052	NA	NA
BMS010_05495	897			hypothetical protein	GTGCCGTCGCGCCAGCTCCTGGCCTTCGCCGGGCTGCTCGTTTCCTGTCTCTGCTGGGCGGGCAACGCGCTGGTGGCGCGGGCCTTCTACAGTGCCATTCCACCGCTGAGCCTGTCGTTCTGGCGCTGGAGCCTGGCTTTGACGATCCTCCTGCCCTTCGTCGCCGTGCCGCTCTGGCGGGAGCGGCACAAGGTGATCCGTGGCGGCTGGCGGCTGGTGCTGCTCGCCGCCCTCGGCATCAGCGGCTACAACTCGCTGCTCTATACCGCCGCCCACAGCACCGTGGCGATCAACATCACCCTGGTCAACACCTGCCTGCCGCTGGCCACCTACCTGGGCGCCGGCGTGCTGCTCAACGAGTGGCCGCCGCGGCGGGCCTGGTTCGGCATGGCCGTGGCCGCAATCGGCCTGATCACGCTGATCAGCCGTGGCAGCCTGGCCAACCTGCTGGCGCTGTCGTTCAACCCCGGCGACCTGATCATGCTGGTCGCCGTATTGGTCTGGGCGCTCTACACCTTGCTGCTGCGCCGCTGGAGTCCGCGCTTCGAGCTGCCGCCGCTGGCCCTGCTCGGCGCCCTGGTGCTGCTCGGCGTGCCGATCATCCTGCCGTTCTACCTCGTCGAGCTGAGCCAGGTCGGCGGCTTCGACCCGAGCCCGGCCAACCTCGCCGCCATCGGCTACACCGCCGTGTTCGCCTCGCTGCTCGCCTACCTCACCTGGAACCACGGGGTTAAAGTGGTGGGAGCGGCCAAGGCGGCGTTGACCAGCTACCTGATGCCGGTGTTCGCCGCGTTGCTGGCCTACCTGCTGCTCGGCGAGACCCTGGAGGTTTTCCACTGGCTCGGTGGCGTTCTGATCTTCGGCGGGCTGCTGCTGGCGACCCGCCCCGGGAGGTGA	MPSRQLLAFAGLLVSCLCWAGNALVARAFYSAIPPLSLSFWRWSLALTILLPFVAVPLWRERHKVIRGGWRLVLLAALGISGYNSLLYTAAHSTVAINITLVNTCLPLATYLGAGVLLNEWPPRRAWFGMAVAAIGLITLISRGSLANLLALSFNPGDLIMLVAVLVWALYTLLLRRWSPRFELPPLALLGALVLLGVPIILPFYLVELSQVGGFDPSPANLAAIGYTAVFASLLAYLTWNHGVKVVGAAKAALTSYLMPVFAALLAYLLLGETLEVFHWLGGVLIFGGLLLATRPGR				NA	NA	NA	NA	NA
BMS010_05496	645	can	COG0288	Carbonic anhydrase 2	ATGAGCGATCTACAGCAGCTGTTCGAGAACAATGCCCGCTGGGCAGAGTCCATCAAGCAGGAAGACCCGGAGTTCTTCGAGAAACTCGCCCGGCAGCAAGTGCCCGAATACCTGTGGATCGGCTGCTCCGATGCGCGGGTGCCGGCCAACGAGATCGTCGGCATGCTGCCCGGCGACCTGTTCGTCCACCGCAACGTCGCCAACGTCGTGCTGCACACCGACCTCAACTGCCTGTCGGTGATCCAGTACGCGGTGGACGTGCTCAAGGTGAAGCACATCCTGGTCACCGGCCACTATGGTTGTGGCGGCGTGCGCGCCTCCATGCAGGATGCCCAGTACGGCCTGATCGACGGTTGGCTGCGCACCATCCGCGACCTTTACTACGAGCATCGCGAGCACATCAACCAGCTCCCCACCGAGGAGGAGCGGGTCGACCGCCTCTGCGAACTCAACGTCATCCAGCAGGTGGCCAACGTCAGCCATACCACCATCGTCCAGAACGCCTGGCATCGCGGCCAGCCGCTCTCGGTACACGGCTGTATCTACGGCATCAAGGACGGTCTCTGGAAGAACCTCAACGTCACCGTCAGCGGGCTCGACCAGATTCCGCCGCAGTACCGCCTGCGTCCGCTCGGGCAGCCCTGA	MSDLQQLFENNARWAESIKQEDPEFFEKLARQQVPEYLWIGCSDARVPANEIVGMLPGDLFVHRNVANVVLHTDLNCLSVIQYAVDVLKVKHILVTGHYGCGGVRASMQDAQYGLIDGWLRTIRDLYYEHREHINQLPTEEERVDRLCELNVIQQVANVSHTTIVQNAWHRGQPLSVHGCIYGIKDGLWKNLNVTVSGLDQIPPQYRLRPLGQP	PGPT0002415_4239	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002415-cynT|can-K01673	NA	NA
BMS010_05497	1416	otsA	COG0380	Trehalose-6-phosphate synthase	ATGAGCCGTTTAGTGGTGGTCTCCAACCGTGTAGCGCCGATCGAAGAAGGCAAGGCGGCGGCGGGGGGACTGGCCGTCGGCGTGCAGGATGCCCTGCGCAAGTCCGGCGGCATCTGGTTCGGCTGGAATGGCGAAGTCGACGCCGACCCACAGACCCGCAGCGAAACCAAAGACAACATCACCTACGTCACCTTCGGCCTCACCAAACGCGATTACGACCAATATTACCGAGGGTTTTCCAACGCCACCCTGTGGCCGGTGTTCCACTACCGGATCGACCTGGCCCGCTACAGCCGCGAGGAATACGAGGGCTACCGAAGGGTCAACAACGCGTTGGCCGAGCGCCTCAAGCCGCTGCTCAAGCCCGACGACATCATCTGGGTCCACGACTACCACCTGATCCCCTTCGCCGAAGCCTGCCGCATGTACGGCATCCGTAACCGGATCGGCTTCTTCCTGCACATCCCGTTCCCCGCGCCGGAAATTCTCACGGCCATCCCGCCGCACAACGAACTGCTGAAGACCCTGTGCTTCTACGACCTCATCGGCTTCCAGACCGAGACCGACCGGCTGGCCTTCGAGGACTACATCACCCGCGAGGTGCGTGGCCTGGTCAGGGCCGACGGCAGCCTGACCGCCTACGGGCTGAACTTCCGCACCGGCGTTTACCCCATCGGCGTCGTGCCCGACGAGATCCGCCGCCAGGCCGAGTCCTACAAGGGCCGGCGCAACGTCATCAGCCGTACCGCCGACGGCGAGCTGCGCAAGACCATCATCGCCGTCGATCGCCTGGATTATTCCAAGGGGCTGGTGGAGCGCTTCCGCGCCTACGAAAACCTGCTCGACCGCTTCCCCGAGCACCGGCGCAACGTGCAGTTCATCCAGATCGCTCCCACCTCGCGCTCGGACGTGCGCACCTACCAGCACATCCGCAAGCAACTGGAGACCGAGGCCGGGCACATCAACGGACGCCTCTCCGAACTGGACTGGACGCCCCTGCGCTACCTCAACAAAAGCCATGACCGGCGCATACTCATGGGCCTGTTCCGCGCCGCCGACATCGGTTTCGTCACCCCGCTGCGCGATGGCATGAACCTGGTCGCCAAGGAATACGTGGCCGCGCAGGACCCGGAAGACCCCGGCGTGCTGGTGCTCTCGCGCTTCGCCGGCTCGGCCCGCGAACTGACCTCGGCACTGATCGTCAACCCATACGACACCGCCGGGATGGCCGAAGCCCTCGACCGGGCGCTGCGCATGCCGCTGCAGGAGCGCAAGGAACGCTACGAGAACATGATGCGGGCGATCCGCTCGGCCGACCTGGCGGCCTGGCGCGATGGTTTCCTGCGCGACCTGCGGGCCTCCGCCTCACGGCCGACGCTGATCAGCACCAAGCGAGCCAAGGCCTCCTCGGCGTGA	MSRLVVVSNRVAPIEEGKAAAGGLAVGVQDALRKSGGIWFGWNGEVDADPQTRSETKDNITYVTFGLTKRDYDQYYRGFSNATLWPVFHYRIDLARYSREEYEGYRRVNNALAERLKPLLKPDDIIWVHDYHLIPFAEACRMYGIRNRIGFFLHIPFPAPEILTAIPPHNELLKTLCFYDLIGFQTETDRLAFEDYITREVRGLVRADGSLTAYGLNFRTGVYPIGVVPDEIRRQAESYKGRRNVISRTADGELRKTIIAVDRLDYSKGLVERFRAYENLLDRFPEHRRNVQFIQIAPTSRSDVRTYQHIRKQLETEAGHINGRLSELDWTPLRYLNKSHDRRILMGLFRAADIGFVTPLRDGMNLVAKEYVAAQDPEDPGVLVLSRFAGSARELTSALIVNPYDTAGMAEALDRALRMPLQERKERYENMMRAIRSADLAAWRDGFLRDLRASASRPTLISTKRAKASSA	PGPT0014135_1244	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TREHALOSE_METABOLISM,PGPT0014135-otsA-K00697	NA	NA
BMS010_05498	807	otsB	COG1877	Trehalose-6-phosphate phosphatase	ATGACAGTCAGACCCTACATGAACGATTTCGAACTGGTCACACGGCTGGACATTTCCCGCTGTGCTTTTTTCTTCGATGTAGACGGAACGCTGGCTGAGATACAGCCCCGTCCAGAACTCGTATTCATTCCCGAATCCACCCTCGACGCCCTCCAGCGCCTGCAAGACCGGGGCGGGGTGGTCGCGGTGATTTCCGGGCGCAAGCTCGACGACCTCGACCGTCTGCTGGACCCGCTGCGCCTGCCCGCCGCCGGTGTCCACGGTGCCGAACGGCGCGATGCCGAGGGGCGGGAAACTCGCCTGGTGGACGACCCCGCCACCCTGGCGCGGATCGGCGCCGAGCTGGAAGAGGCCTGCGCGCCGTACCCCGAGCTGCGCGTGGAAAACAAGGGCGTGGCCTTCGCCCTGCATTACCGCGAAGCACCCGAGCGCGAATCCATCGCCCGCTACCTGGCCGAGTCCTTCGCCGAGCGCTATGCCGACCTGCTCGGCCTGCAGCCGGGCAAATGCGTGTTCGAACTGAAGCCCAAGGGCGCGAGCAAGGGCGAGGTCATCAACAGTTTCATGCGGGAGGCCCCCTTCGCCGGGCGCCTGCCGTTGTTCATCGGCGACGACCTGACCGACGAAGCCGGCTTCGCGGCGGTCAACGCCTTACAGGGCTTATCCCTCAAGGTCGGCAGCGGACCGACCACGGCCAGGCAGCGCCTGGCCTCCGTGTCGGCGGTGGCCGACTGGCTCCGGACGCTGCTGGCCAGCACAGGAGGGATGAGCCCCATCCAGGAAGAGCAGAGGGGAGGAATCTCATGA	MTVRPYMNDFELVTRLDISRCAFFFDVDGTLAEIQPRPELVFIPESTLDALQRLQDRGGVVAVISGRKLDDLDRLLDPLRLPAAGVHGAERRDAEGRETRLVDDPATLARIGAELEEACAPYPELRVENKGVAFALHYREAPERESIARYLAESFAERYADLLGLQPGKCVFELKPKGASKGEVINSFMREAPFAGRLPLFIGDDLTDEAGFAAVNALQGLSLKVGSGPTTARQRLASVSAVADWLRTLLASTGGMSPIQEEQRGGIS	PGPT0014140_1865	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TREHALOSE_METABOLISM,PGPT0014140-otsB-K01087	NA	NA
BMS010_05499	423			hypothetical protein	ATGCCACTTACCCTCACCCTTACCGAAGGTGTGCTGCCCAAAGGCAGCGAATCGGTCGCGCTCTCACGTCTGTCGGAGGCCATGCTTAGATGGCACGGCCTCAGCGGTAACCCGGTCATGACGCCCAACGTGATCGGGGCCATTCATGTGTTACCCGAAGGAAGCACCTTCGCGGGTTCGCAGCCGGTGTCGGTGGCGGTCGTCGAATGGAAGGTGCCGTCCTTTGCCTTCGCCAGCCGCGACATCCAGCAGGGCTACATCGCGGAGGCGACCGACATCATTCGGGAGATGTCCGGCGGCAGGCAGCCCAGGGAGCGTATCTGGGTCAATGTCACCCATGCGGTCGATGGCGCATGGGGAATCGCCGGCGAAGCCCTGACCAACGTCCAGCTCGGTGAGGCGATCGCCGGAGCCGCAGTCTGA	MPLTLTLTEGVLPKGSESVALSRLSEAMLRWHGLSGNPVMTPNVIGAIHVLPEGSTFAGSQPVSVAVVEWKVPSFAFASRDIQQGYIAEATDIIREMSGGRQPRERIWVNVTHAVDGAWGIAGEALTNVQLGEAIAGAAV				NA	NA	NA	NA	NA
BMS010_05500	570			hypothetical protein	ATGTCTCGATCCGAAAAAAAGCAGCAGACGCGCCAGCGCATCCTTGAAGCGGCGGGTCGTGGTTTTCGCAAGGGTGGTTTCGGCGGCGCCGGGGTGGATGGCCTGGCCAAGGAAGCCGGCGTTACTTCCGGTGCGTTTTACAGTCACTTCGACTCCAAGGCCGCCGCGTTCCTGGAGGCCGTCGATCAAGGAATGGCGGACCTGAAAAGCGCCGTGCAGCAGCTCCAGGAGACGGAAGGCAGCAATTGGTGGCCTGCGTTCGTGCGCTTCTATCTGGGGGAGAAGCGCCGTTGCGACCTGGCCGAAAGTTGCGCCCTGCAAAGCCTGGCGCCGGAAGTCGCACGCTCCGACGAAGCATCGCGCATCGCGTTCGAAGCGCAGTTGCGGGCAGTGGCCACCGTGATCGCTGGCGGGCCGGTCTCAGATGGCGCCCCTCGCGATCTCGAGGCAGCACTGGCGGCGCTGGCAACCCTGGCAGGCGCCGTGACGCTCGCGCGCTCGGTGGCGAGTAGCGAACTGGCCGAACGGATCGCCGCGACGACCGAGCGATTGTTGATCCCTATGCACTAG	MSRSEKKQQTRQRILEAAGRGFRKGGFGGAGVDGLAKEAGVTSGAFYSHFDSKAAAFLEAVDQGMADLKSAVQQLQETEGSNWWPAFVRFYLGEKRRCDLAESCALQSLAPEVARSDEASRIAFEAQLRAVATVIAGGPVSDGAPRDLEAALAALATLAGAVTLARSVASSELAERIAATTERLLIPMH				NA	NA	NA	NA	NA
BMS010_05501	2142	polC_2		DNA polymerase III PolC-type	ATGCAGCCGAAAGTCCGCTTCGTCCTCCATTTCGCCTGGCTCGGCGTGCTCTCCGTGGCGTTGCTCGGTTTCGCCGGGCTGGTGTTGTGGATCGACCTGTCGCCGGCGGAACGGCATACCCTGCGCAGCATCCTGGCCGAGCGCGCCGCCCTGCTGGTGGTCCTGGCCGGGTTGCTCGGCGCGGTGCTGGCGGGGCTGCTGCGCCAATGGCTGGTCGCCTATCCGCAGAATGCCCAGCGGATCACCGAGGAGATCGGCATCATCCACCGGGTCAACGCCGAGCACCGGCTGAAACCCTCCGGCCCGGTGGAAATGCGCAAGCTCGGCGAGGCCCTGAACGAATTCGCCGAAGTCTACGACCAGCAGCAACGCGAGGTGGAGGCGCGCATCGAGGAGACCAACGGCCGCCTCGAACAGGAAAAGAACCGCCTGGCCACGCTCATGTCCGAACTGGCGCAGAGCGTGCTGGTGTGCAACAACGAGGGCCGCATCCTGCTCTACAACCCACGCGCCACGCAGTTGCTGGCCGGCGATGCGAGTGCGCCCGGCGGCATGCCGGTGGGGCTGGGCCGGTCGATCTTCGCGGTGCTGGACAAGAGCCTGATCACCCATGCGCTGGAGCAGATCCGCCACCGCCTCGACCAGCAGGCGGCCAAGCCGGTGGCGCATTTCGTCGCCGCTCGCGCCGGCCACCTGCTGCGCGCGCAAATGGCGCCGGTGCTGGACCAGCAGGGCGAGTCGATCGGTTTCGTGCTGATCCTCGAAGACATCACCCGCACAGTGGAAATCAACAGCCGCCGCGACCTGCTCCTGCAACAGCTCACCGAGGGCAGCCGCTCCGCCCTGGCCAATATCCGGGCGGCGGTGGAAACCCTGGAGCAGTACCCTGACATGGACAGCGAACGGCGCGAACGCTTCACCGAAGTGATCCGCGACGAGGCCGAGCGCCTGACCCAGCGCCTGGAGCAGAGCCTGAGCCGCCATGCCGACCTGCTCGGCAGTCCCTGGCCGCTGGAAGACATGCTGGCCAGCGACCTGGCCGCCGCCCTGCAACGCAACTTCGCCGCCGCCCTTGGCCTGCGCATGCGCTACGAAGTCGGCGAACAGCCGCTGTGGCTGAGTGTGGACAGCTACTCCCTGGTGCAGGTGCTGACCCAGGTGATGGGTGCCCTGGCTTCCGCCTGCCGCACCCGCGAGATCGGTCTGGAGTTGAGCGCCGAGGGTCGCTGCGTGCGCCTGTCGTTGTCCTGGGGCGGCCAGCCGCTGGACCCGAACCTGCTGCACGAATGGGAAGAGTTGCCGCTGAACCTGGGGGGCGAGGGCGAGAATGGCGCGACCCTCAAGAGCGTGGTCGCGCGCCATGGCGGCGAGGTCTGGTGCCAGCTCGACCGGGCGGCGGGCGTCAATCGCTTGTGCCTGCAATTGCCGCGCATCCAACCGGAGGCGCTCCCGGAGCCGCTGGAGCCTTCCCAGGGGCGGCCGGTCTACTACGACTTCGACCTGTTCAACCAGCCGGGGCAGACCGCCGAGTTGGACGAGCGCCCGCTCAGCGAGCTGTCCTACACCGTATTCGACACCGAGACCACCGGCCTCTCGCCCTCGGATGGCGACGAGATCATCTCCATCGGTGCGGTGCGGGTGGTCAACGGCCGCCTGCTGCGGCAGGAGTGCTTCGACCGCTTGATCAAGCCGTCGCGTCCCATCAGCAAGGCCTCGCAGGAAGTCCACGGCCTCACGCCGCAGATGCTCGTCGACCAACCGCCCATCGAACAGGTGCTGCCGCAGTTCCATCGTTTTGCCGAAGACACCGTGCTGGTCGCCCACAACGCGGCGTTCGACATGCGCTTTCTGCAACTCAAGGAAGCGCAGACCGGCGTGACCTTCATCCAGCCGGTGCTCGACACGCTGCTGCTTTCGGCCCTGGCCCACCCCGGCCATCTCGACGACGAGCACCGCCTCGAACGCATCGCCACCCGCCTGGGCGTCGAGGTCATCGGCCGCCATACCGCCCTGGGCGATGCCATCGTCACCGCCGAAGTGCTGCTCAAACTCATCCCCCTCCTGGCCGAACGCGGCATCCACAACCTGCGCCAGGCCAGGGAGGCGTCGCGCAAGACGCTGTATGCGCGGGTGAAGTACTGA	MQPKVRFVLHFAWLGVLSVALLGFAGLVLWIDLSPAERHTLRSILAERAALLVVLAGLLGAVLAGLLRQWLVAYPQNAQRITEEIGIIHRVNAEHRLKPSGPVEMRKLGEALNEFAEVYDQQQREVEARIEETNGRLEQEKNRLATLMSELAQSVLVCNNEGRILLYNPRATQLLAGDASAPGGMPVGLGRSIFAVLDKSLITHALEQIRHRLDQQAAKPVAHFVAARAGHLLRAQMAPVLDQQGESIGFVLILEDITRTVEINSRRDLLLQQLTEGSRSALANIRAAVETLEQYPDMDSERRERFTEVIRDEAERLTQRLEQSLSRHADLLGSPWPLEDMLASDLAAALQRNFAAALGLRMRYEVGEQPLWLSVDSYSLVQVLTQVMGALASACRTREIGLELSAEGRCVRLSLSWGGQPLDPNLLHEWEELPLNLGGEGENGATLKSVVARHGGEVWCQLDRAAGVNRLCLQLPRIQPEALPEPLEPSQGRPVYYDFDLFNQPGQTAELDERPLSELSYTVFDTETTGLSPSDGDEIISIGAVRVVNGRLLRQECFDRLIKPSRPISKASQEVHGLTPQMLVDQPPIEQVLPQFHRFAEDTVLVAHNAAFDMRFLQLKEAQTGVTFIQPVLDTLLLSALAHPGHLDDEHRLERIATRLGVEVIGRHTALGDAIVTAEVLLKLIPLLAERGIHNLRQAREASRKTLYARVKY				NA	NA	NA	NA	NA
BMS010_05502	369	walR_2	COG0745	Transcriptional regulatory protein WalR	ATGAGCAAGCGGGTCCTGATTGCCGATGACGAGCCGAACATCGTCATTTCCCTGGAATTCCTCCTACAGCAGGAAGGCTATCAGGTGGAAGTGGCCCACGACGGCCAGGAAGCCCTGGACGCCATCGAGCGGCAGCCGCCCGATCTGGTGCTGCTGGACATCATGTTGCCGCGCCTGAGCGGCTTCGACGTCTGCCAGCGGATTCGCGCCAACCCGGACTGGAGCAAGGTCCGGGTGGTCATGCTGACTGCCAAGGGGCGCGAGGTGGAGGTGAGCAAGGGATTGGCCCTGGGAGCCGACGACTACATCACCAAGCCGTTCGCCACCAAGGAACTGCTGGCGCGGGTCCGCGACCAACTGGCCGGATAA	MSKRVLIADDEPNIVISLEFLLQQEGYQVEVAHDGQEALDAIERQPPDLVLLDIMLPRLSGFDVCQRIRANPDWSKVRVVMLTAKGREVEVSKGLALGADDYITKPFATKELLARVRDQLAG	PGPT0002665_2005	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002665-phoP|phoB1-K07658	NA	NA
BMS010_05503	2745	sasA_17		Adaptive-response sensory-kinase SasA	ATGCTGTTCGGTGGTGTGATCCTGCTGGCGTCCTTCGCCTACCTCGGCATTCTCTTCGCCATCGCCTACTGGGGCGACAAGCGCGCCGACGCCGGCCGTTCGATCATCGCCAATCCCTACATCTACGCGCTGTCCATGGCGGTGTACGCCACCTCCTGGACCTTCTACGGCAGCGTCGGGCGGGCGGCGGCCAGCGGGGTCGGTTTCCTGCCGATCTACCTCGGCCCGACCCTGATGGCGGCGCTGTTCTGGCTGGTGCTGCGCAAGATGATCCGCATCAGCAAGGCCAACCGGATCACCTCCATCGCCGACTTCATCGCCGCCCGCTACGGCAAGAGCGGCCTGCTCGGCGGGCTGGTGACGCTGATCGCGGTGATCGGTGTGATTCCCTACATCGCCCTGCAGTTGAAGGCGGTCTCCACCAGTTTCCTGCTCCTGCTGCAGTACCCCGAGGTGGCGATGCCGGCCAAGGGACAGCGGGTCGGCCTGTTGCAGGACACCGCGCTCTACGTGGCCTTGCTGCTGGCGACCTTCACTCTGTTGTTCGGCACCCGGCATCTGGACGCCACCGAGCGTCACGAGGGCATGGTGGCTGCCATCGCCTTCGAATCGCTGGTCAAGCTGGTGGCCTTCCTGGCGGTGGGCGTGTTCGTCACCTTCGGTCTCTACCACGGCTTCGCCGATCTGTTCGAGCACGCCATGCGATTGCCCGACGTGGACCGCCTGCTGACCCTGGGCAATGCCGCCGGCACCTACGGCTCCTGGGCCTGGCTGATCGCTCTGTCGATGCTGTCGATCCTGTTCCTGCCCCGGCAGTTCCAGGTCAGCGTGGTGGAGAACGTCAACGAGAGCCACCTGGCCAAGGCGGTCTGGCTGTTTCCGCTGTACCTGTTGGCGATCAACATCTTCGTGCTGCCGATCACCTTCGCCGGGCTGATGCAGTTCCCGCCCGGCACCCTGGACGCGGACACCTTCGTCTTGACCCTGCCCATGGCCCACCGCCAGGAGGCGCTGACCCTGCTGGTGTTCATCGGCGGGCTGTCGGCGGCCACCGGGATGGTCATCGTCGAGACCATTGCCCTGTCCACCATGATCTGCAACGACCTGGTGATGCCGCTGCTGCTGCGCTGGAAGGTGCTGGCGCTGGGCTCGCGCAGCGACCTGTCCGGCTTGCTGCTGGGCATCCGCCGCGGGGCGATCCTGCTGCTGATGCTGCTGGGCTACGTCTACTACCGCGCCGCGGGGGAGGCCTACGCGCTGGTCTCCATCGGCCTGGTGTCGTTCGCTGCGGTGGCGCAGTTCGCTCCGGCCATGCTCGGTGGCATGTACTGGAAGCAGGGCACCCGCAATGGCGCGCTCTGCGGGCTGTCGCTGGGGTTCCTGCTCTGGGCCTACACCCTGTTGCTGCCGTCGTTCGCCAAGTCCGGCTGGCTGCCCCTGGCGTTCATCGAGGAGGGGCCGTTCGGGATCGCCTGGCTCAAGCCGATGGCACTGTTCGGCCTGGAGGAGATGGATGACATCAGCCATGCGCTGTTCTGGAGCCTGCTCGGCAACGTCGGCGCCTATGTCGGTGTGTCCCTGTTCGACCGCCAGGGCATCCGCGAGCACGCCCAGGCGGTGTTGTTCGTCGATGCGTTCAAGATTAGCGGGCGCGGCGCCAGCCCCTGGCGGGGAAGTGCGTCGCTGGAGGAAGTGATGACCCTGATCGGCCGCTTCCTCGGCCCCGTGCGTACCGAGGACGCCTTCGCCCAGTACGCCGCCGGGCGTGGTTTGCGCTCATGGCAGGCGCTGGAGCCGGACGCCGAACTGGTGCATTTCGCCGAAACCCTGCTGGCCGGTGCCATCGGCGCGTCATCGGCGCGGGTCATGCTGGCCTCGGTGGTGAAGGAGGAGCCGCTGGGCATGGACGAGGTGCTGAACATCCTCGACGAGGCCTCGCAGCTCCTGGCCTACAGCCGCCAGTTGGAACAGAAGTCCGCCGAGCTGGAGGCCGCCACCGCCGAGCTGCGCGCGGCCAACGAGCGGTTGCAGGAGCTGGACCGGATGAAGGACGACTTCATCTCCACCGTCACCCACGAGCTGCGCACGCCGCTCACCTCGATCCGCGCCTTCTCGGAAATCCTCAACGACAACCCCGAGCTGGATGCCCGGCAGCGGGCACGCTTCGTCGCCATCATCGTCAAGGAGAGCGAGCGGCTGACGCGGATGATCAATCAGGTCCTCGACCTGGCCAAGCTGGAGTCCGGCCGCGCCGAGTGGCATGCCAGCGAACTGGACCTGCGGACGGTGATCGAGGATGCAGTGGCCACCACCAGCCAGCTTCTGGAAGAGCGCGGCGCGAGCCTGACCCTGCAACTGCCGGACGAGGTGCCCCGGGTGCGTGCGGACCGCGACCGCCTGCTGCAGGTGCTGCTGAACCTGATTTCCAACGCGGCCAAGTTCTGCGACCGCGACGCCGGGCGCATCGTCATCGCCTTGCGGGTGCTGCCGGATGCGCTACAGGTGGATGTAAGCGACAACGGTTGCGGCATCGACCCGGCCGATCAGGAAACCATCTTCGAGAAGTTTCGCCAGGTGGGCGACACCTTGACGGAGAAACCCCAGGGAACCGGGCTGGGGCTGCCGATCAGCCGGCAGATCATTCGCCATTTCGGCGGTAAGCTCTGGGTGAACAGCGCGCGCGGGCAGGGGGCGACCTTCTCCTTCAGCCTGCCGCTCGCCGGCGTGGCGGAGGAGGGCGTATGA	MLFGGVILLASFAYLGILFAIAYWGDKRADAGRSIIANPYIYALSMAVYATSWTFYGSVGRAAASGVGFLPIYLGPTLMAALFWLVLRKMIRISKANRITSIADFIAARYGKSGLLGGLVTLIAVIGVIPYIALQLKAVSTSFLLLLQYPEVAMPAKGQRVGLLQDTALYVALLLATFTLLFGTRHLDATERHEGMVAAIAFESLVKLVAFLAVGVFVTFGLYHGFADLFEHAMRLPDVDRLLTLGNAAGTYGSWAWLIALSMLSILFLPRQFQVSVVENVNESHLAKAVWLFPLYLLAINIFVLPITFAGLMQFPPGTLDADTFVLTLPMAHRQEALTLLVFIGGLSAATGMVIVETIALSTMICNDLVMPLLLRWKVLALGSRSDLSGLLLGIRRGAILLLMLLGYVYYRAAGEAYALVSIGLVSFAAVAQFAPAMLGGMYWKQGTRNGALCGLSLGFLLWAYTLLLPSFAKSGWLPLAFIEEGPFGIAWLKPMALFGLEEMDDISHALFWSLLGNVGAYVGVSLFDRQGIREHAQAVLFVDAFKISGRGASPWRGSASLEEVMTLIGRFLGPVRTEDAFAQYAAGRGLRSWQALEPDAELVHFAETLLAGAIGASSARVMLASVVKEEPLGMDEVLNILDEASQLLAYSRQLEQKSAELEAATAELRAANERLQELDRMKDDFISTVTHELRTPLTSIRAFSEILNDNPELDARQRARFVAIIVKESERLTRMINQVLDLAKLESGRAEWHASELDLRTVIEDAVATTSQLLEERGASLTLQLPDEVPRVRADRDRLLQVLLNLISNAAKFCDRDAGRIVIALRVLPDALQVDVSDNGCGIDPADQETIFEKFRQVGDTLTEKPQGTGLGLPISRQIIRHFGGKLWVNSARGQGATFSFSLPLAGVAEEGV				NA	NA	NA	NA	NA
BMS010_05504	198			hypothetical protein	ATGGCCAATCGCACGATACGGGCGCAGCGGCTGGTGGCCCTGTTCGCGCTGGGCTGCCTGCTGTTCGGTTTTCCCTTGCTGTCGCTGTTCAACGGCGGCGGCACGCTGTTCGGCATTCCCTTGCTGTTCGCCTATCTGTTCGGCGCCTGGGCATTGTTGATCGTGCTGATGCTGCTGGTCGTCGAGCGGTCGGGCTGA	MANRTIRAQRLVALFALGCLLFGFPLLSLFNGGGTLFGIPLLFAYLFGAWALLIVLMLLVVERSG				NA	NA	NA	NA	NA
BMS010_05505	891			hypothetical protein	ATGCGCGCACTGTTGATCTTGACCCTTGCCCTCCTGAGTGCCTGCCAGACCCAGCCGCTGCTGGCGCCGCTGCCGGCCTGGCAGAGCCCGGAAGGCCGTGAGCACATCGATGCCGGACGCATCCGCGACCTGCGCAGCGGGCAAGACCTGACCCCCGAGCAACTGGTGGAGCGCCTGGCTGGCGCGCCGCGTGTACTGGTCGGCGAACGGCACGACAACCCGGATCACCACGCTCTCCAGCTCTGGCTGCTGCGCGCCTTGGAGAGTCGCCGAGCGCAGGGCAGCCTGCTGCTGGAAATGCTCGAACCGGCGCAGAAACCAAAGCTGGATGCGGCACGACAGGCCATCGCCGCCGGCGAGCCACCGACCGACCTGCCCGTTGCCCTGGGCTGGCAACGTGGCTGGGACTGGTCGCTGTACGGCGCCATCGTCCGCCATGCCTTGGCGCAGCCGTTCCCGTTGCTGCCGGCCAACCTGGACCGCGGCGAGATCATGGATGTCTATCGCGAGCGCCCGGCTTTGAGCGGCACGGCTTCTACCGCCGAGTCCGTGCGCGAGGCGCTGCTGGCGCAGATTCGCGCTTCCCACTGCGGCAAGCTGCCGGAGGATCAGTTGCCGGCCATGCTCGCGGTGCAGCAACAGCGCGACCGGCGCATGGCCGACGCGCTGCGGACGGCCCCCCGGCCGGCCATGCTCCTGGCCGGCGCCTACCATGTCCGCCGCGACCTCGGCGTGCCGCTGCACCTGGCCGACCTGGGAAGCGGCGAGGCCGCCGTGCTGATCCTGGCCGAAGTCGGCAGCGAGGTCGGGGCGCAAGAGGCGGATTTCGTCTGGTACACCCCGGCCATGCCCGAAGAGGATTTCTGCGCTCGTTTTGGCCAGCGTGAGTGA	MRALLILTLALLSACQTQPLLAPLPAWQSPEGREHIDAGRIRDLRSGQDLTPEQLVERLAGAPRVLVGERHDNPDHHALQLWLLRALESRRAQGSLLLEMLEPAQKPKLDAARQAIAAGEPPTDLPVALGWQRGWDWSLYGAIVRHALAQPFPLLPANLDRGEIMDVYRERPALSGTASTAESVREALLAQIRASHCGKLPEDQLPAMLAVQQQRDRRMADALRTAPRPAMLLAGAYHVRRDLGVPLHLADLGSGEAAVLILAEVGSEVGAQEADFVWYTPAMPEEDFCARFGQRE				NA	NA	NA	NA	NA
BMS010_05506	768	hmuV_1	COG4559	Hemin import ATP-binding protein HmuV	ATGCTGCGTGCGGAAAACCTGGCCGTGCAGCGCGGGCCCTGCACGGTGCTGGCGGATATCCATCTGGAGCTGCGCCCCGGCGAAGTCCTCGGCGTGCTCGGCCCCAACGGGGCGGGCAAGAGCACATTGCTGGCGGCGCTCAGTGGCGAATTGCCGGCGGCGCACGGGCGGGTGCTGCTGGACGAGCGTCTACTGTCCGCCTGGCACGGCCCGGAGCGGGCCAGGCGGCTGGCGGTGCTGCCGCAGACGTCATCACTGGGCTTCGCCTTCCGTGTCGAGGAAGTGGTGAGCATGGGCCGGCTGCCCCATGCGACTGGCCGTACGCGCGATGCCGAGATCGTCGGCGAGGCCCTGGCTGCGGCGGATGCGGCGCACCTGGCCGGGCGCAACTACCTGGAGCTGTCCGGCGGTGAGCGCCAGCGTGTGCATCTGGCACGGGTGCTGGCGCAGCTCTGGCCGGGCGGGGAAGGGCAGGTGCTGCTGCTCGACGAGCCCACCTCCATGCTCGACCCGCTGCACCAGCACACTACCTTGCAGGCCACCCGCGCCTTCGCTGAACAGGGCGCGGCGGTGCTGGTGATCTTGCATGACCTGAACTTGGCGGCGCGTTACTGTGACCGCCTGCTGCTGCTCGAACACGGCCGTCCCCACGCCTTCGGCACGCCGGACGAAGTACTGCGCGCCGAGCCGCTGCGGGCGGTGTTCGGCCTGGAGGTGCTGGTGCAGCGGCATCCCGAGCGCGGGCATCCGTTGATCGTGGCCCGTTGA	MLRAENLAVQRGPCTVLADIHLELRPGEVLGVLGPNGAGKSTLLAALSGELPAAHGRVLLDERLLSAWHGPERARRLAVLPQTSSLGFAFRVEEVVSMGRLPHATGRTRDAEIVGEALAAADAAHLAGRNYLELSGGERQRVHLARVLAQLWPGGEGQVLLLDEPTSMLDPLHQHTTLQATRAFAEQGAAVLVILHDLNLAARYCDRLLLLEHGRPHAFGTPDEVLRAEPLRAVFGLEVLVQRHPERGHPLIVAR	PGPT0003760_6231	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003760-yusV|ABC_FEV_A|feuD-K02013	NA	NA
BMS010_05507	1038	hmuU_1	COG0609	Hemin transport system permease protein HmuU	ATGAACCCAGCCGTCCACGCCCGCCCACTGTTCATCGCACTGGGCCTGCTGCTCCTGCTCGCCCTCTGGCTGTCCCTGGCGCTGGGGCCGGTCAGCCTGCCGTTGCAGGAAACCCTGCAAGCGGCGCTGCGGCTACTCGGCCTGCCGCTGTCTGGCGCCGGGCTGGAGCAGGCCGAACTGATCCTCGGGCAAATCCGCCTGCCGCGCACCCTGCTCGGGCTGGCGGTCGGCGCGGTGCTGGCATTGTCCGGCGTGGCCATGCAGGGCCTGTTTCGCAATCCGCTGGCCGACCCCGGCCTGATCGGCGTTTCCAGCGGCGCAGCACTGGGCGCGGCGCTGGCCATTGTCTTCGGCGCCCGCCTCGGCGGCCTGCCGGAAGCCTTCGCCCCGTACCTGCTGTCGGCCTGCGCCTTCGCCGGCGGTCTCGGGGTGACAACCCTGGTCTACCGCTTCGGCCGCCGCAACGGGCAGACCAGCGTGGCGACCATGCTGCTCGCCGGCATCGCCCTGACCGCCCTGTCCGGCGCGGCCATCGGCCTGTTCACCTATCTGGCCGACGACACCACCCTGCGCACCCTGACCTTCTGGAACCTGGGCAGCCTCAACGGGGCCAGCTATGCACGACTGTGGCCGCTGCTGATCGTCACCATCGCCGTCGCCCTGTGGTTGCCACGCCGGGCCAAGGCGTTGAATGCATTGTTGCTAGGCGAATCCGAGGCGCGTCACCTGGGCTTCGCGGTGGAGCGTTTGAAGCGTGAACTGGTGTTCTGCACCGCTCTCGGCGTCGGCGCGGCGGTTGCCGCGGCGGGGATGATCGGTTTCATCGGGCTGGTGGTGCCGCATCTGGTGCGTCTGCTCGCCGGCCCGGACCATCGGGTGCTGCTGCCGGCCTCGGCGCTGGCTGGTGCCAGCCTGCTGCTGCTCGCCGACTTGGTGGCGCGACTGGTCATGGCGCCGGCAGAGTTGCCCATCGGCATCATCACTGCGCTGATCGGCGCGCCCTTCTTCCTTTATCTACTGATGCGGGGACGCTCCTGA	MNPAVHARPLFIALGLLLLLALWLSLALGPVSLPLQETLQAALRLLGLPLSGAGLEQAELILGQIRLPRTLLGLAVGAVLALSGVAMQGLFRNPLADPGLIGVSSGAALGAALAIVFGARLGGLPEAFAPYLLSACAFAGGLGVTTLVYRFGRRNGQTSVATMLLAGIALTALSGAAIGLFTYLADDTTLRTLTFWNLGSLNGASYARLWPLLIVTIAVALWLPRRAKALNALLLGESEARHLGFAVERLKRELVFCTALGVGAAVAAAGMIGFIGLVVPHLVRLLAGPDHRVLLPASALAGASLLLLADLVARLVMAPAELPIGIITALIGAPFFLYLLMRGRS	PGPT0003770_2889	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_TRANSPORT,PGPT0003770-feuB|feuC|chuU|yfhA|hmuU|ABC_FEV_P|fatC|fatD-K02015	NA	NA
BMS010_05508	894	hmuT_1	COG4558	Hemin-binding periplasmic protein HmuT	ATGCGCCTTGATCTTCGCCTGGCCAGCTTCTGTGCCGCCCTGCTGTTCAGCCATGCCGTCCTGGCGGACGAGCCGCTGCCGCAGCGCTGGGTCAGTGCCGGCGGCTCGCTCAGCGAGTGGGTGGTGGCGCTCGGTGGCGAGGATCGGCTGGTTGGCGTCGACACCACCAGCCAGCACCCGGCCTCGCTGCGCGCCTTGCCGAGCATCGGCTACCAGCGCCAACTGGCCGCCGAGGGCATCCTCAGCCTGCGCCCCGACCTGCTGCTCGGCAGTGAGGAAATGGGGCCGCCGCCAGTGTTGGAACAACTGCGTAGCGCCGGGGTGCGCATCGAGGTTCTGCCGTCGAAGCCCGATCTGGCGAGCCTGGAAAGAAGCCTGCGCCGCATGGGCGAACTGCTGGGAACGCCGGAAAGCGCCAGCCGGGTATTTGCCGACTACCGGCAGCGGCTGGAGCGCCAGCGCCAGTGGATCGCCGATGCCCAGCGCAGCCAGAAAGCGCCGGGCGTCCTGCTGATGCTCGGCCACGCCGATAGCGCCCCGCTGGCGGCCGGCAAGGACACGGCAGCGGCCTGGCTGATCGAGCAGGCCGGCGGGCGCAACCTGACCGACCACGACGGCTACAAGGCGCTGTCCGCCGAGACGTTGATGGTGCTGGACCCGGAGGTGGTGATCTACGCCGACCGCACCCAGAAGGGCGACATCGACCCGCAGGCCCTGCTCAAACGCAATCCGGCCCTGGCCGCGACCCGTGCCGCCCGCGACGGCCGCCTGTTGGCACTGGACCCGACCCTGCTGGTCGGCGGCCTCGGCCCGCGCGTGCCCGACGGACTGGCGGTGCTGTCGGCAGCCTTTTATCCTTCGGCCCAAGCCCTGACCGCCGAAGCCGCCCGATGA	MRLDLRLASFCAALLFSHAVLADEPLPQRWVSAGGSLSEWVVALGGEDRLVGVDTTSQHPASLRALPSIGYQRQLAAEGILSLRPDLLLGSEEMGPPPVLEQLRSAGVRIEVLPSKPDLASLERSLRRMGELLGTPESASRVFADYRQRLERQRQWIADAQRSQKAPGVLLMLGHADSAPLAAGKDTAAAWLIEQAGGRNLTDHDGYKALSAETLMVLDPEVVIYADRTQKGDIDPQALLKRNPALAATRAARDGRLLALDPTLLVGGLGPRVPDGLAVLSAAFYPSAQALTAEAAR				NA	NA	NA	NA	NA
BMS010_05509	432			hypothetical protein	GTGATCCGCCTGCCCGACAGCCGCGCCGGGCAGTCCAGCCTGCTGCCGGACCTGACGCCGCTGCTGGATGTGATCTTCATCGTCCTGGTGTTCTTTCTGCTCACGGCACAGACGCCGCTGCTGCAATTGCCGCTGGAGTTGCCCGACAGTCGCGAGGCGTTGAAACCGGCGAGCGTGACGCCCGGCGATCGCCTGCAAGTGGCGCTGGATGCCGAAGGGCGCTGGCGCCTCGCCGACGAGCCCATGACGGATTTCCCAGCCCTGCGCCAGGCATTGCTGGCATCCTTGGCCGCTACCGAAAAACCGGGACTGGACCTGGCGCTGGATCGCCACGCGCCGCTGTCCGCCTTTCTCGACCTGATGGCCCTGTTGCAGCAACAGGGTCTCGACGACACACGTATCCTCATGGAGCCTTCCCCCGATGCGCCTTGA	MIRLPDSRAGQSSLLPDLTPLLDVIFIVLVFFLLTAQTPLLQLPLELPDSREALKPASVTPGDRLQVALDAEGRWRLADEPMTDFPALRQALLASLAATEKPGLDLALDRHAPLSAFLDLMALLQQQGLDDTRILMEPSPDAP				NA	NA	NA	NA	NA
BMS010_05510	639	tolQ_5		Tol-Pal system protein TolQ	ATGGCTGCCTGGCTCGCCCTGATGGGGCCGCTCGGCTGGCCGCTGGCGCTGTGCTCGCTGCTGGGCCTGGCGCTGATTCTCGAACGTCTGGCGGTGTTCCTGCGTCTGCAACCGATAGGCGCGGCGGCGGCACGGGCGGCAGTCGGTGCCTGCCGCACCTGCGACCGCGAGCATTGCCAGGCGGCTGGCGGTGGTTGGCGCTATGGTCTCGCCCTGTTGCTCCGGCACAGCGGCCTGCCGGCCGGGCAGCGCGAAGAAGTGCTCGGCTGCTGGTTGCTGGAGGAACGCCGCCGGCTCAATCGCCAGCTCCGCCTGCTGCAACTGATCGGCGTGCTGGCACCCATGCTGGGGCTGCTCGGGACCGTGCTGGGTATGCTCGGCATGTTCGAGAACATCGCCGGGCAGGACCGCCCGGTGACCCCGGCGCTGCTCGCCGATGGCCTCTGGCAGGCGCTCTACACCACGGTCTGGGGCCTGCTGGTCGCGATCCCGGCGCTGGCGGCGGGGCAGGGCTTCGCGCTCTGGGCCGAGCGTTACCTGGAGGGCGTGCAGGCGCTGCTCAACCGCTGCCACCTGGCCCTCGACGGGCTGGAGCTGGACCTGCCGGGCAGCGCCCAGCCGCAGTGGAGCCTGACGTGA	MAAWLALMGPLGWPLALCSLLGLALILERLAVFLRLQPIGAAAARAAVGACRTCDREHCQAAGGGWRYGLALLLRHSGLPAGQREEVLGCWLLEERRRLNRQLRLLQLIGVLAPMLGLLGTVLGMLGMFENIAGQDRPVTPALLADGLWQALYTTVWGLLVAIPALAAGQGFALWAERYLEGVQALLNRCHLALDGLELDLPGSAQPQWSLT	PGPT0003750_3592	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003750-exbB-K03561	NA	NA
BMS010_05511	1068	hemS	COG3720	Hemin transport protein HemS	ATGTCCCAGAGCCCAGCCGCCGCGCCGGCAAACGACCTCTACCAGGCCTGGCAGTCGCTGCGCGCCGAACAACCGCGCCTGCGTGCCCGCGATGCCGCCGAGCGCCTGGCGGTGAGCGAAGCCGAGCTGGTGGCCAGCCGGCTCGGCATCGATACGGTGCGTTTGCGGCCCGAGTGGTCGGTGCTGCTCCCGGCGCTGGGCGAGCTGGGCTACGTGATGGTGCTCACCCGCAACGAACAGTGCGTGCACGAGCGCAAGGGCTTCTATCGGGAGGTGTCGGTGTCGGCGAACGGCCAGATGGGGCTGGTGGTTTCCCCGGATATCGACCTGCGCCTGTTCCTCGGCGGATGGGCCAGCGTGTTCGCCGTCGAAGAAGACAGCGGCCACGGAATTTTGCGCAGCATCCAGGTGTTCGACCGCCAGGGCGTGGCGGTGCACAAGGTCTATCTCACCGAGCGCAGCGAAGTCGCCGCTTGGGCGCCTTTGCTGGAGCGCTTTCGCGCCGAGGAACAGAGCGCTGCGTTGGATATCCTGCCTCAGCCGCCGCGCGAGCAGCCACGTCCCGATGCCGAGGTGGATGTTGCCGCCCTGCGCGAGGGCTGGGCCGCGCTCAAGGACACCCACCATTTCTTCGCCCTGCTGAAAAAACATGGCGCCGTCCGGACCCAGGCCTTGCGCTTGGCCGGCCGCGAATGGGCCGAGCCGCTGGCGCCGGTCGAATTGCCGAAGCTGCTGGAAACGGCTGGCGAGCGCGAGGTGCCACTGATGGTCTTCGTCGGCAATCGCCACTGCATCCAGATTCACAGTGGCCCGGTGCGTAACCTGCGCTGGATGGATACCTGGTTCAACGTGCTCGACGACGAATTCAACCTGCACCTGAAGGCTCCTGCGGTGGCCGAGCTCTGGCGGGTGCGCAAGCCCAGCACGGACGGTGTGATCACCAGTTGGGAGGCCTTCGACGCCGGCGGCGAGCTGATCGTGCAACTGTTCGGCGCGCGCAAGCCGGGCATCCCCGAGCGCGACGATTGGCGCGCCCTGGCCGAAAGCGCGCCGGCGCTGGAGGTTTGA	MSQSPAAAPANDLYQAWQSLRAEQPRLRARDAAERLAVSEAELVASRLGIDTVRLRPEWSVLLPALGELGYVMVLTRNEQCVHERKGFYREVSVSANGQMGLVVSPDIDLRLFLGGWASVFAVEEDSGHGILRSIQVFDRQGVAVHKVYLTERSEVAAWAPLLERFRAEEQSAALDILPQPPREQPRPDAEVDVAALREGWAALKDTHHFFALLKKHGAVRTQALRLAGREWAEPLAPVELPKLLETAGEREVPLMVFVGNRHCIQIHSGPVRNLRWMDTWFNVLDDEFNLHLKAPAVAELWRVRKPSTDGVITSWEAFDAGGELIVQLFGARKPGIPERDDWRALAESAPALEV	PGPT0003646_297	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-HEMOPHORES-HEME|HEMIN_TRANSPORT,PGPT0003646-hemS-NA	NA	NA
BMS010_05512	753			hypothetical protein	ATGCAGCGCGCCGTGCTCTTTCTGCTGCTCTCTGTTGCACTGCACTTGGCGGTGGGGATGAGTCTGCGCAAGCCTTCCGCGCCGCCTGCCGGGGAACCGGTGGTGGCGATGCCGGGGGCCTTGCGCCTGGCGACGGTGCAGTTGCAGCCGAGCCCGCCGGCACCCATGGCTGCGCCGGAGCCGGTCATGGTGGCCAAGGCCGAACTCACGAAGCCGAAAGTGCTGGCGCAACCGAAGATGCAGTCGGAAAAACCGCCGGTGGCGCAAAAGCCGGAACGTCCGGTCGAGTCTGCTCGTCCGGTGCCGGAGCCGACGGGCCTGACCAATGCCCGTTCCACTGAGGCCATTCCGAAACCTGCTGCACCGGCAGCGCCGGTCAGAGCGGCAGCCCCGGTCGAAGTGGTGAGCCGCGAGCCGGCTTTCCTCGACCCGCCGCGCCAGCCGAGCTACCCGACTCAGGCCCGGCGGCGCAACCAGCAGGGGACGGTACTGGTGGAGGTGCGCCTGGACGAACGGGGCGCTCAGCGTGAGCTGAAGGTGGTGCGTTCGTCGGGCGTCGAGAGCCTGGACCGCGCCGCGCTGGAAGCGGTGGCCCGCTGGCGCTTCCGTCCGGAAACGCTGGACGGGCAAGCGGTGCCGAGCCGCGTGCAGATACCCATCCGGTTCGCCCTTAGAGCCTGTTCAAAGTCTTGCGAGCTAGAGCCATGCAAGGCGAAAACAGGTGAGGAAGCGGAGTTTACGAGCTGTAAATGA	MQRAVLFLLLSVALHLAVGMSLRKPSAPPAGEPVVAMPGALRLATVQLQPSPPAPMAAPEPVMVAKAELTKPKVLAQPKMQSEKPPVAQKPERPVESARPVPEPTGLTNARSTEAIPKPAAPAAPVRAAAPVEVVSREPAFLDPPRQPSYPTQARRRNQQGTVLVEVRLDERGAQRELKVVRSSGVESLDRAALEAVARWRFRPETLDGQAVPSRVQIPIRFALRACSKSCELEPCKAKTGEEAEFTSCK				NA	NA	NA	NA	NA
BMS010_05513	2217	hemR	COG1629	Hemin receptor	ATGTCGAAACGACCGCCTTTCGCCCGCCGCCCCTGGCTGGCGCTGCTGTTGCTCTCCCCCTCGCTGACGCTCGCCGCCGAGGAGGCCGCCACCCAATTCGATGTGATCACGGTCACCGCGACCCGCAGCGAGCAGAAGCTGGACGAAGTGCCCAGCACCGTCTCCGTGCACGACGAGCGGGAGATCGACCAGCGCAACGTGAAGAACATCAAGGACCTGGTGCGCTACGAACCGGGCGTCTCGGTGAGCGGCAGCGGCAGCCGCTTCGGCCTGTCCGGCTTCACCATCCGCGGTATTGGCGGCAACCGCGTGCTGACCCAGGTGGACGGCGTCGGCGTGCCGGATGCCTTCACCTTCGGCCCCTTCCTCGATGCACGGCGCAACTACATCGACCCGGACACCGTGAAGCGCGTCGAAATCATCCGTGGGCCGGCCTCCTCGCTGTACGGCAGCGACGCCCTCGGTGGCGCGGTCAGCTTCCTGACCAAGGATGCGGCGGATTACCTCGACGAGGGTGACGACACCTTCGCCCGCTTCAAGACCGGCTACGACGGCAGCGACGACAGTTGGCAACGCAGCGCCACCTTCGCCGCCCGCCAGGGCAGCGTGGACGGTCTGCTGCACATCGGCCGCCGCGACGGCCAGGCGCTCGACAGCCATGGCGGCGAAGGCGGCATCGGCACGAGCCGGGAAGACAGCAACCCATCGGACTACCGCACCGACAACCTGCTGGCCAAGCTGGGCTGGGACTACACCGACGGCAGCCGCCTGCAACTCGCCTACGAGCGCTACCAGGATGACGCCGACACCCGCGTGCTCAGCGAATACAGCAGCACCGCCACGGTGCGCACCTACGATGCCGAGGACAGCACCGACCGCGAGCGCGTGACCCTCAGCCATCGCTTCCTGCTCGACAGCGTCCTCGCCGACCAGGTGCAGTGGCAGCTCAGCCACCAGGACAGCCAGATCCGCCAGCGCACTCACCAGGAGCGCTTCAGCGCCGGCCGTCCGCGTTTGCGCGATCGCGACTCCCGCTACGAGGAGCAGCTCTGGGCATTCAACACCCAGTTCGACAAGGCCTTCAGCCTGGGCGAAACCCAGCATGCGCTGATCTACGGCATCGATCTCAAGCGCCTCGACAGCAGCGACCTGCGCACCGGCGGCGAAATCTTCGCCGATACCGGCGCGTCCGTGCCGACCTCGCCGTTCAACGAAACCTTCCCGATCAGCGACTTCCCCGATCCGGTCACCGAGGAATATGCCCTGTTCGTCCAGGACAGCATCGAGATCGGCCGCTGGACCCTGCTGCCGGGCCTGCGCTACGACTACTACCGGTTGAAGCCGGACGTTACCGACGAGTACCTCAACGGCAACCCGGTGGACAGCAGCCCGTCCAGCTTCAGCGACAGCGCCCTGTCGCCGAAATTCGGCGTGACCTACCGCCTGGACGATGCCCACAGCGTCTACGGCCAGTACGCCGCCGGCTTCCGCGCGCCGAATGCGGTGGACATCTTCGGCGAGTTCGTCAACGTGGCCGGCAACTACCAGACCATCGCCAACACCGACCTCAAGCCGGAAACCAGCGACAGCTTCGAGGTCGGCCTGCGCGGCGAATACGCCGTCGGCAGCTTCGGCGTGGCCCTGTTCTACAACCGCTACGAGGACTTCATCGAGCAGGTCACCCTGGCCGAGGACCCCACCGGCAACGGCCGCCTCACCTTCCAGTACCAGAACCTCGACCGGGTCACCATCCGCGGCGCCGAAGCCCGTGGCGAGCTGCGCCTCGACCGTACCCTGGGCCTGCCGGAAGGCACCTCGCTGCGCGGCGCCATCGCCTACGCACGGGGCAAGAACGAGGAAACCGGCCAGCCGATCAACAGCGTCGATCCGCTCAAGGCGGTGTTCGGCCTCGGCTACGACGCTCCGAGCGGGCGCTTCGGCGGCGAACTGGCCTGGACCCTGGCGGCGGCGAAGGAGCGCGTCGACGAGACCCAGACCGCCAATCAGTTCGAACCGGCTGGCTACGGCACCCTCGACCTGACCGGCTGGTGGCAGATGACCGAGCAGGTCTCGCTCAACGCCGGGCTGTTCAACCTCACCGACAAGGAATACTGGCAGTGGGGCGACGTACGCGGGCTGAGCGAGAGCAATCCGGGCCTGACCCGTTACTCGCAGCCAGGCCGTTATGCGGCGGTGAATGTGGTCTGGGAGATCTGA	MSKRPPFARRPWLALLLLSPSLTLAAEEAATQFDVITVTATRSEQKLDEVPSTVSVHDEREIDQRNVKNIKDLVRYEPGVSVSGSGSRFGLSGFTIRGIGGNRVLTQVDGVGVPDAFTFGPFLDARRNYIDPDTVKRVEIIRGPASSLYGSDALGGAVSFLTKDAADYLDEGDDTFARFKTGYDGSDDSWQRSATFAARQGSVDGLLHIGRRDGQALDSHGGEGGIGTSREDSNPSDYRTDNLLAKLGWDYTDGSRLQLAYERYQDDADTRVLSEYSSTATVRTYDAEDSTDRERVTLSHRFLLDSVLADQVQWQLSHQDSQIRQRTHQERFSAGRPRLRDRDSRYEEQLWAFNTQFDKAFSLGETQHALIYGIDLKRLDSSDLRTGGEIFADTGASVPTSPFNETFPISDFPDPVTEEYALFVQDSIEIGRWTLLPGLRYDYYRLKPDVTDEYLNGNPVDSSPSSFSDSALSPKFGVTYRLDDAHSVYGQYAAGFRAPNAVDIFGEFVNVAGNYQTIANTDLKPETSDSFEVGLRGEYAVGSFGVALFYNRYEDFIEQVTLAEDPTGNGRLTFQYQNLDRVTIRGAEARGELRLDRTLGLPEGTSLRGAIAYARGKNEETGQPINSVDPLKAVFGLGYDAPSGRFGGELAWTLAAAKERVDETQTANQFEPAGYGTLDLTGWWQMTEQVSLNAGLFNLTDKEYWQWGDVRGLSESNPGLTRYSQPGRYAAVNVVWEI				NA	NA	NA	NA	NA
BMS010_05514	324			hypothetical protein	ATGATGTTGCTCTGCGCCCCGGACGACCTGGCGGAAGGCCAGAGCCGGGGCTTCGAACGGAACGGACGGAAACTGCTGGCAGTACGCAAGGGCGGCCGGGTGTTCGTCTACACCAACCGCTGCCCGCACCGGGGCATTCCCCTGGAATGGCTGCCCGATCAGTTTCTCGATGCCAGCGGCAGCCTGATCCAATGCGCCACCCATGGCGCGCTGTTCCTCATCGAATCCGGCGAATGCGTGGCCGGGCCCTGTGCAGGGCAGTCGTTGCAGGCGTTGGTGTGTCGGGAAGATGCGCAGGGGATTTGGGTTGATGTCGGCAAGTGA	MMLLCAPDDLAEGQSRGFERNGRKLLAVRKGGRVFVYTNRCPHRGIPLEWLPDQFLDASGSLIQCATHGALFLIESGECVAGPCAGQSLQALVCREDAQGIWVDVGK				NA	NA	NA	NA	NA
BMS010_05515	9957			hypothetical protein	ATGTCGTGGATTACGGATGCCGTTGGGTTTGCTGAGCTTATTGAAGTTGTTTATCTTCAGGCTGCCTTTGGTGGGCTTGTCCCGGATAGAATGCAGGCCCATGAGCTTGATGATAATCCTGAGAATTATACGGATCTTAATGAGGCTGACATGCTGCAAGTTCGTGCCCTGCTTTCTGCTGGGGACAGAGGCGCGGCTTATCTATTGCTTGCAGAGAAAACTGGCAATCAAGCGTTCTTGAATACGGCGCAAATATCTACCGGTAGCGGGCCGCTAGTTGGTGGTGTTGCAATTAGTGTTAATGCTGATTTGCAGGTTTCATTTTCAGATCTTTATCCGGAAATATCTATCGAGGCCTTTTCGCAGCTTATTCTTTTGGAGGAGCTAAACGGATTCGAGAAAGTTACACGTGAGGATGGTACTGTCACCTATAAATCACCTACCGAATTGCAGGCGTATATTAATGCGAATGAGGCTTGGCTGAATGTTAAAGGGTATTCAGACCCACAAGTCGCAGCCTTGTTTCCGGGGAATTTCTTTTTGGCTGCACATTACTTAATAATCGGCGATGTGGTTAAAGCATGGAGCTACAATAATCCAGATGTTTTAAACATGACTATAAAAGCTCTTACCAGTGAAGCGGCTGACATGGGTGTTCAGTTCGGCCTCACCCAGCGGCAGGCGGAGTTGATCGCTGCTGCGGGTGGTTCGTCCTATACCACTGATATCCAGGGCGAACAGTTAAGTGTGTACATGGACAGTTACGGTAAAGTTATTGGTGTTTTCCGTTTTGGCGATGGCGAGTGGCTGGATCGTGATTCTGGTCTCGGTCTCGCTACTGTTGCTTATGATGAGAGTAATAATCCGTTTAATTACTCCAGTAGCGGCGGCTATGTGCTTGGTTTTTTGCTGGCCGGAATCGGTAATAATGAGACGCTCGCATCTTTGTTGAACATATCGAGCGTCGTGGTCAAGGACGATGATGCTAGGGTGTATGTCGATGATATTCGATTTTTGCTGGGGGCTGGCGGTGAGCCAAGCAGGGAGGGGGACGTTCACGATTTGTTTATTAAAGCAACTTCTGTTGTTACGGATGCTTCATTCTCAAATAAATTTGTAGTCCGAGAATTGGTTGGGGTGTCACCTGAGCAAGTGGCCTTGCTTGCCTTACAAAATAATGATGATGGGTTGGCCGTGCGTCGCGCTCTGCTCGAATTGAAACCTTATGCAATCGTAGGGGTAGACTATTCGGCGATCAGCGCACAGCTAGAACTTTATGATTCACAAACAGGTTTAGGTGAAATAACCAGTGAATGGATCGCTGATCGCAGTGCAATATTAGCAGCCTATAATATTTATCGAAAAAATGGGGAGGGCGATGGTGTACTTAATCTACCTTTTGGCGATCCTTTTTGGGCGTTTGGCGATACTGTCATTAGCGATTCTGCTTTGGGCAGTTTCCAGCAACTTACTATCGACGGCTATGACTTTGGTCTCATAGAACCACGCTATATTCGCTTTGGCAATCAAGGCACGGACTCGCTATTGGGGGGGCACAAAGATGACCGCCTCTACGGCGGCGCTGGCACCGACACCCTCAAAGGCGAAGCGGGCAACGACTACCTCGAAGGCGGCAGCGATAACGACCAGCTCGACGGTGGTTCGGGCAATGACACGTTGCAGGGTGGTTCCGGCAACGACGTTCTAATTGGTGGCGTCGGCAACGACATTCTTGACGGAGGAACCGGCAACGATAGCTATGAATTCGAGGGTGACTTCGGGTACGACACCATCCAGGACAGCGACGGTAACGGCAGCATCAAGGCTGATGGCGCTCTCATGACCGGAGGCGAAAAGATCGCCGAAGGGGTCTACCAGGACGCGGCCACTAGTTGGACCTACACGCGGATAGACAATGACTTGTTGCTGTACAAGGGTTCCAATGTGATTCGGATCATCAACTGGACCCCCGGTAGTCTGGGCATCACCTTGGACAAAGAAGAGGAGGCCCCAGCGGTAGACAACACAATCACCGGCGACTTCATCAAGCAACGGGACGGCTCCCAGTACGTCACCAGTGCCACCGGCTACGCCAGCGCCGGCCCGCAGGCCGATACCGACGACGTGCTGTTGGGCACCGACGGTGCCGATGACATCGTTGCGGGTGGAGGGAACGATGGCGTTCTTGCGGGGGCTGGCGATGACCTGATCGACGGTGGCGCAGGCAATGACTTGCTTATCGGCGGACAAGGTGCCGATCAAATCTTCGGAGGCGACGGCGTCGATTATATCTTTGGGAGTCTCACGGGGCATATCGATCGCCCAGTGGATGTGGATTTCACCCCGGTAGTAGCGTCCGGGCCGGAAGTGACGCGTGGCTTCAACTGGGTGGTATATCAGGATTCCGACTCCCAGATCGTAAAAGGCTATGGATCTTCCAGTCTGCTAACGGTCTCGGATGATGAAGGAAACTTCATATCCGGAGGGAATGGAAACGATCATATCGATGCGGGCACGGGCGACGACACCGTGCAGGGAGATCAAGACGACGATGTCATTTCTGGAATGGCCGGAAATGATTTTCTCCTTGGCGGCGAGGGCAATGACACCCTTTATGGCGATGGTGTCCGCAATCCCAAATACTTTTCGTATACCCCATTGGAAAAGGATGGTCATGATCTTCTGCTAGGAGGAGAGGGTGACGATTACCTTGTCGGTCAAGGTGGGCGCGATACGCTTTTCGGTGGATTGGGCAAAGACAAATTATTTGGAGACGAGCGTTGGAACGAAACCAACGGATTGACGCCATCCAGCTTGCTCAATGATGACTATCTCGATGGCGGTGAGGACGACGATTATTTAGAGGGTGGCGGTAAAGATGACGTTCTTATTGGCGGAAGCGGCAACGACAACCTGTGGGGCGATGCCGGTACGGTATTCCTGAAAGGGGAGAGCCATGGCCAGGATACTCTCGATGGAGGGGACGGCGATGACACCCTTTGGGGCGGCGGCGGGCAGGATGTTCTCAAAGGCGGAAACGGTGCGGATTTCCTTCACGGAGATAGCGACGACCTGGCAGAGCCTTTTCATGCCGATGATCGTTTGGACGGCGGCGATGGCGACGATGGGCTGTGGGGCTATGGTGGAAACGATACCCTGATCGGCGGGGCTGGAAATGATTGGCTTGCCGGGGAGGATCAGAAAAGTACCGGCAATATATCGTCCACTCTGTCCGGAGACGACTACCTGGATGCAGGAGACGGCGATGACATCCTGATCGGCGGCAACGGCAACGACACTCTGCTGGGTGGGCTTGGCAATGACTCCCTGATGGGCGGGGCTGGCGATGATTTACTGATCGGCGGCACCGGAAATGACTCATTGCTCGGAGGAGAGGGCGATGATCGCTATGTTGTCGAAAGGGGCGATGCTAGCCAGTCGGTACTGATACAAGATACAGGCGGTAACGATGCACTTGTGGTCGCTGGTGAGCTCAGCGCAAGCAAACAGGTGCAAGAGCAGGGCGATCTGGTCCTGTTGCTTGGTGATTCACAGGCTGCCTTGTCTATCCGGCTCAAGGATGCCCTCAGAGGCAGTATCGAGAAGATCCAGATAGGGTCTGAGTCCGAAATTTCCTTCAAGGATTGGGTTGCGGAGAATGTAACTCACTCGTTGACGCTATCCAGTTCGAAAGTAGGGGAAACCCTGTTCACGGGTGCCGGCGCGGATGTCATAGGTATTGATCACTCGAGCACAACCGTCGAGGCTGGTAGAGGGAATGACACGCTTACGCTGGGCAACGGAACCAGTTCGGGGCTGGTTGCGATTTTCAATCAAGGTGATGGGCATGATGTTGTAAACGGAACCGTCACGAGCACATCGCTCGCTTCGCGCAAAGCCAATATCGCCAGGTTTGGCGATGGAATCGAAAGCAGCTCCCTGCAACTTATCGCAACGCGTGGGACATCTTCGGCTGCAAACCTATATGTTCGCTATGGTAACGCTGGCGATATGTTCAAGGTTACGTTGACCTCCATTTCTGGAGGTGTATCGCGGCCTTTTGATGTATTCGAGTTTGCAGATGGTACTGCTTTGACGTGGGATGAACTTGCTGGCCGCGGTGTTATCTATGACGCCTCTGCCGCCAGTTCAACCGCTGCTGTTGGAACGATCTTGAATGACAGCATCACGGGTGGCGCGGGCGTTGACACGATCCGGGCCGGGGATGGTGATGATGTCATTGATGGCGGGGCCGGCAACGATAACCTGAGCGGGAACAATGGAGCAGACATTTATCTGTTCGGAAGAGGCTCGGGAAATGACACGATTACAAATGCTGACAGTGACTCTTTGAACGTACGCCCGGACACCATCAGGATAATTGATGGAGTCAAACCGGAAGAGGTTGTTTTCCAGCGGTCGGGCAATAATTTGCTGCTGAAGATCACCGGTGCATCGGATGTTTTGACGGTTTCTGGTTATTTCCTCTCGGATGCGACGACTTCGTCTGCGGTGGAAATCATCGAGTTCGAGAACGGAACCCGCTTGGATATCGACGCGGTAAAACTACGCGTTCTGGTTCCAACCTCTGGTAACGATTCGATCACGGGTTATGCATCCAATGACCACCTGATAGGCGGTGACGGGAATGACAGACTATTTGGACAGGCAGGTAATGACTTGCTCGAAGGCGGGAGTGGTGCGGACACACTAATGGGCGAGGCGGGTTCGGATACGCTTGTGGGAGGGGCAGGAAATGACAGCCTCAATGGCGGCCTTGGTGATGATGTTTACTTGTTTGCCAAGGGCTTTGGCTCGGATACCCTGAATGCATACGATACCGCTGCGAACAAGAATGATCGAATTGAATTCTTGGATATTGCTCGCGGAGAAGTAAATTTCGTACGTTATTTTGATGACCTTTCGATACGTGTACCGGCTACCGGCGACGTTTTGCGGATAGTGAGTTTCTTCGCTCAAGATGGGAATAGTGCTTATAGAGTGAGCGAGCTTAGGTTTTCCGATGTGGCCTTTACGAAAGATGATTTATTGAAAGAGGTTCTCAAGCCTACTTCAGAAAATGACACCTTGATCGGATACTCGACACCGGACCTGCTCCATGGCGAGGATGGAGACGACCAGCTAAGTGGAGAGGCTGGAAACGATACCTTGGCAGGTGATGAAGGCAACGACACGTTGCGCGGTGGCGATGGCCAGGATCTGCTCGTGGGTGGGAGTGGAGATGACTGGCTTGAGGGCGGTAAAGGAAACGATATTTATCGTTTTTATCGTGGTTTTGGGCAAGACACCATAAGTGCTTGGGAAAATTCGGTTGCGAAAGAGGACATAGTCGAGTTTTCGGATATTGCTTCTACGGAAATTGTTGTGACTCGGAGTGGGAGCTCGCTGCTTCTGTCTCTGCCAGCAACTGGGGATTCGGTGCTGATAAATGATTATTTTTATGCTGAATCCGATCGGAACTATAAGGTTCAGAAAATATTATTTTCAGATGGCGTGGTATGGGCTGTAGAGGATATTGCCGCAGCATCGCTTATCGCGACCGATGGTGATGATCGGCTTTATGGTTTTAGCGCAGATGAACAAATAAATGGCGGTTCAGGAAGTGACTATATAGACGGTGGGGAAGGTAATGATCACCTAGCTGGCTCAATTGGAAATGACAGTCTTTATGGCGGTATGGGAGATGACACTCTCGATGGGGGTGACGGTAACGATTTCCTTGATGGAGGGGCGGGTGATGATGTCTACCGCTTTGGCCAAGGATTTGGAAACGATACGATTTCTTCCAATAGCTGGGCTGCTGGGAAAATTGATTCTATCGAATTTCTGAATCTGACTTCTACAGAAGTCACTGTGGTGCGAGAGTCTGACAGTTTGCTTTTGAAAAGCACTACGCCGGGAGACTCGCTTCTGGTATCCAGTTACTTTTCTTCGGATGCAACGAGCCCTTGGCGAGTGGAGTCGATTCGTTTCGCAGATGGCGTCAGTTGGTCGGTAGAGGATGTCAAGAAATTCTCCTTAATCGGAACGAGTGAGAATGACCAGCTCTATGGTTTCTCGTCAGACGATATCCTGTCCGGTGGGAATGGGCAGGATAATTTGGAGGGAATGGCGGGAAATGATCTTCTCTTCGGTGAGGCGGGTAATGATACGGTTTCCGGTGGCGACGGAGATGACACAATAGTCGGTGGTAGTGGCGACGATGTGCTGTTGGGTGGGGGCGGCAAGAATATTTTCAAATTCGAGCTTGGCGATGGAGTGGATACGGTCAATGGCAACTATGAAAAGGGCTCAATTATTGAGTTTGGTGAATCAATAAAGCCAGATGATGTAATAGTTGGCCGCTTGGCGAGTTTGCGAGAGGATTCGCTTCGGCTCACTATAAGATCGAATACGGGCGAAGTCTCCAATCAGATAACAATATCGAATTATTTTAGTGGCTCGGATGAGATTGAGCTAATTGGCTTCAGTGATGGAACTCAATGGGGTAGGAGTTATATTCTCGATCGATTGCTAGTGGGAGGGGAGGGGGCTGATTCGATTCTCGGCTACGCTGGAGATGACTTTATCGTGGGTGGTACAGGAAACGATACGCTCAATGGCCTGGCTGGCAATGATTCAATAAATGGAGAACTCGGCAGTGACCGTCTGTTTGGTGGGGAAGGGAACGATACTCTGCTGGGGGGGGATGGAAATGACACCTTGTGGGGCGAGGCAGGCTCGGACTATTTGGATGGCGGTTCTGGAGATGATCGTCTGCAGGGGGACTTGGGTTCTGACACCTATGTCCAGAGGTTAGGAAACGGTGATGATGTTATCACTGAAGCATACGATGAAGACGGGGCTGACATCGATATTGTTTCGTATGGCCCGGGAGTTTCTCTAAGCGATCTATCGTTTCATAGGCTATTTGACTCCAGTTATGGCTCTTATCTTGTTATCTATAATTCTCGAGATAAGAGCGAGTTGTCGGTGGCGCATTTCTTTGACAAAAAAACGCAGCGCATAGAGTTGTTGAAATTTGCAGACGGTTCGTCCGCTGACCTGAATTATATTCTGGAGAATGTTCAGTATGGCGCGGCCGATACGTTGAATGGTACTGGAGCAAACGATAGCTATGTGATTGATAATGAATTTGATGTCATCGTCGAATCTGACGCGGCTGGTGTGGATATTGCCTATTCGTCGCGCACATACACACTGCCTAAGAATGTCGAAAATCTTACCTTGACTGGGTTCCTCGATTTGAATGCGACAGGGAATGGTCTCGATAATATATTGGTTGGAAATGACGGTGATAATACAATTCGAGGGGGTGATGGGAATGACACAGGCATAGGAGGGTTGGGCGATGATATCTATTACGATGTGGAGTCTGTGATAGAGCAGGAAGATGGCGGAATAGATACTTGGTATAGCTATACAGGTGGAGTTTTGCCGGATAATGTGGAGGTTTATCATCTTGGAAATGGTACGAGCTATAATTATATATTTGCCATTGCCGCAATAGGTAATCGTCTGGATAACACTCTCTATACACGAGGAAAGGGTATACAGAACGACACGCTGGATGGTGGGTTGGGGGCCGACACAATGATTGCGCTGGGCTCTGACTCGGCCATTTACTACGTGGATGATCCAGGTGATGTAATAGTGGCCTCACCCTCTGCCTTTGGCGGTTCGGGCGATGAAGTGCGTAGCACGATAGATTATACGCTCGGTCAGTATGTTGAAAATCTGGTGCTGTTGGGTGAAAAGGCTATTACCGGAGTGGGTAATTCGCTTAATAACAGACTGGACGGCTCTCAAAGTGCCATTCGAAACGTTTTGATCGGGGCGGCCGGAGATGACGATTATGTTGTAGGTATTGGAGATGAGGTTGTTGAGTTAGAGGGGGAAGGGGATGATTCTGTCACTTTCGTTGCGGAAAACTCTGCTGGTTATTCAGCCTCTGCATACCAGAATGTTGAGGGTTTTATTCTTGCTGACTCATCCGGTTGGGCTAGTTTTATCGGTAGTGAAAAAGATGAAAGGATTACGGGTAATCGTTATGGAAACTCTTTGGTAGGTGGTGCAGGTAACGATTCCCTGAGCGGTGGAGAAGGAGGCGATACCTATCAGGGTGGTGCTGGTGATGATGAGTTGCGTGACTCTTCAAGCGCCAGTCAGGACATATATCTTTGGGGCCGAGGAAGCGGACGTGATTCGCTTATAGACAGCGGTGGTATCGACAAGCTTCAGGTAGAAGGTTCTATCACTGCAGAGCAGCTTTGGTTCGACCGCATGGGCAATAATCTGAGAGTTTCGATAGTCGGTACCAATGATCAATTCGTGATCAAGGATTGGTATTCGGATTCGACCTATCGATTGGAGTCTTTTGCCTTGTCTGATGGCCATACTTTGCTTGAGTCGAAAGTACAAACCTTGGTCGACGCCATGGCCGCGTTCGATGTACCCAGCGGTGAAGGCAAGGTGATCCCCCCGGATGTGAAGGACACCTTGAAACCGATACTGACCGAAGCCTGGGAACTCCCTATCGACAATACCAATAGCCAAACGGGAAGCACTGACACCGGTACTCAGCCAGAAAGCAACGGCAACACCCCGATGCCGCCCAGCACCAACACCCTGACCGGCAGTGACAATGCAGAAGAACTGCGTGGCACCGCGGCCGATGATCGGATCGACGGCCTGGCCGGCAACGACATCCTGCGCGGCGAAGACGGCAATGACCTGCTCAATGGCGGTGCCGGCGCCGATACCCTGCACGGCGGTAACGGCAACGACCTGCTGAACGGCGGCGATGCCCGTGACGTGCTGTACGGTGGCGCCGGAAACGACACCCTGCGTGGCGGCGCCGATATCGACTACCTGAAAGGCGATGCTGGCAGCGATACCTACCTGTTCGCCGCGGGCGACGGCTCGGACCTGATCAACAATGCCGACACCGATCCCAACAGCATCGACACCGCCCGCTTCGAAGACGCCAGGTTCGACGACCTCTGGTTCAGCCGCAGCGGCGACGACCTGTATATCACCGTTGCCGGCACCAGTGACCGGGCGATCGTCAGCAAGTGGTACGCCGACGCCAATAACCAACTGGATCGCATCGAAGCCGGCTCAGCGGTATTGCTGAACGAGCAAGTGGAAGCACTGGTCTCCGCCATGTCCGTGTTTGGCGTCCCCAGCGGTGCGGGCAAGGTGATTCCCCAGGACGTGAAGGACACCTTGAAACCGATACTGACCGAAGCCTGGAATGTCCAGGCCGATGACACCAGCAGCCAAACGGAAAACGGCGACACCGATACTCAGACCGAAAACAACAACGGCACCCCGGCGGCAACACCCACCCTCAATACCCTGACAGGCAGCGACAATGCCGAAGAGCTGCGCGGCTCCGCGGACGATGATCGGATCGACGGTTTGGGTGGCGCCGACACCCTGCACGGCGGTAACGGCAACGACCTGCTGAACGGCGGCGATGCCCGTGACGTGCTGTACGGTGGCGCCGGAAACGACACCCTGCGTGGCGGCGCCGATATCGACTACCTGAAAGGCGATGCTGGCAGCGACACCTATCTGTTCGCCACGGGAGATGGCTCGGATCTGATCAACAACTACGACACCGATCCCAACAGCGTTGACACCGCCCGCTTCGAGAACGCCGCGTATGACCAGCTCTGGTTCAGCCGAAGCGGCGACGACCTGTACATCAATGTCACGGGCAGTCGCGACCGGGTGATCGTCAGCAAGTGGTACACCGATGCCAACAACCAATTGGATCGCATCGAAGCCGGCTCATCGGCACTGCTGAATAATCAAGTGGACAGCTTGGTCTCGGCGATGGCGGCATTCGCTGTGCCCGCAGCGGGCACGAGCATCCCGCAGGAAGTGAAGGAGCAACTGGCGCCGGTGCTGGCGGCGAGCTGGCAATAA	MSWITDAVGFAELIEVVYLQAAFGGLVPDRMQAHELDDNPENYTDLNEADMLQVRALLSAGDRGAAYLLLAEKTGNQAFLNTAQISTGSGPLVGGVAISVNADLQVSFSDLYPEISIEAFSQLILLEELNGFEKVTREDGTVTYKSPTELQAYINANEAWLNVKGYSDPQVAALFPGNFFLAAHYLIIGDVVKAWSYNNPDVLNMTIKALTSEAADMGVQFGLTQRQAELIAAAGGSSYTTDIQGEQLSVYMDSYGKVIGVFRFGDGEWLDRDSGLGLATVAYDESNNPFNYSSSGGYVLGFLLAGIGNNETLASLLNISSVVVKDDDARVYVDDIRFLLGAGGEPSREGDVHDLFIKATSVVTDASFSNKFVVRELVGVSPEQVALLALQNNDDGLAVRRALLELKPYAIVGVDYSAISAQLELYDSQTGLGEITSEWIADRSAILAAYNIYRKNGEGDGVLNLPFGDPFWAFGDTVISDSALGSFQQLTIDGYDFGLIEPRYIRFGNQGTDSLLGGHKDDRLYGGAGTDTLKGEAGNDYLEGGSDNDQLDGGSGNDTLQGGSGNDVLIGGVGNDILDGGTGNDSYEFEGDFGYDTIQDSDGNGSIKADGALMTGGEKIAEGVYQDAATSWTYTRIDNDLLLYKGSNVIRIINWTPGSLGITLDKEEEAPAVDNTITGDFIKQRDGSQYVTSATGYASAGPQADTDDVLLGTDGADDIVAGGGNDGVLAGAGDDLIDGGAGNDLLIGGQGADQIFGGDGVDYIFGSLTGHIDRPVDVDFTPVVASGPEVTRGFNWVVYQDSDSQIVKGYGSSSLLTVSDDEGNFISGGNGNDHIDAGTGDDTVQGDQDDDVISGMAGNDFLLGGEGNDTLYGDGVRNPKYFSYTPLEKDGHDLLLGGEGDDYLVGQGGRDTLFGGLGKDKLFGDERWNETNGLTPSSLLNDDYLDGGEDDDYLEGGGKDDVLIGGSGNDNLWGDAGTVFLKGESHGQDTLDGGDGDDTLWGGGGQDVLKGGNGADFLHGDSDDLAEPFHADDRLDGGDGDDGLWGYGGNDTLIGGAGNDWLAGEDQKSTGNISSTLSGDDYLDAGDGDDILIGGNGNDTLLGGLGNDSLMGGAGDDLLIGGTGNDSLLGGEGDDRYVVERGDASQSVLIQDTGGNDALVVAGELSASKQVQEQGDLVLLLGDSQAALSIRLKDALRGSIEKIQIGSESEISFKDWVAENVTHSLTLSSSKVGETLFTGAGADVIGIDHSSTTVEAGRGNDTLTLGNGTSSGLVAIFNQGDGHDVVNGTVTSTSLASRKANIARFGDGIESSSLQLIATRGTSSAANLYVRYGNAGDMFKVTLTSISGGVSRPFDVFEFADGTALTWDELAGRGVIYDASAASSTAAVGTILNDSITGGAGVDTIRAGDGDDVIDGGAGNDNLSGNNGADIYLFGRGSGNDTITNADSDSLNVRPDTIRIIDGVKPEEVVFQRSGNNLLLKITGASDVLTVSGYFLSDATTSSAVEIIEFENGTRLDIDAVKLRVLVPTSGNDSITGYASNDHLIGGDGNDRLFGQAGNDLLEGGSGADTLMGEAGSDTLVGGAGNDSLNGGLGDDVYLFAKGFGSDTLNAYDTAANKNDRIEFLDIARGEVNFVRYFDDLSIRVPATGDVLRIVSFFAQDGNSAYRVSELRFSDVAFTKDDLLKEVLKPTSENDTLIGYSTPDLLHGEDGDDQLSGEAGNDTLAGDEGNDTLRGGDGQDLLVGGSGDDWLEGGKGNDIYRFYRGFGQDTISAWENSVAKEDIVEFSDIASTEIVVTRSGSSLLLSLPATGDSVLINDYFYAESDRNYKVQKILFSDGVVWAVEDIAAASLIATDGDDRLYGFSADEQINGGSGSDYIDGGEGNDHLAGSIGNDSLYGGMGDDTLDGGDGNDFLDGGAGDDVYRFGQGFGNDTISSNSWAAGKIDSIEFLNLTSTEVTVVRESDSLLLKSTTPGDSLLVSSYFSSDATSPWRVESIRFADGVSWSVEDVKKFSLIGTSENDQLYGFSSDDILSGGNGQDNLEGMAGNDLLFGEAGNDTVSGGDGDDTIVGGSGDDVLLGGGGKNIFKFELGDGVDTVNGNYEKGSIIEFGESIKPDDVIVGRLASLREDSLRLTIRSNTGEVSNQITISNYFSGSDEIELIGFSDGTQWGRSYILDRLLVGGEGADSILGYAGDDFIVGGTGNDTLNGLAGNDSINGELGSDRLFGGEGNDTLLGGDGNDTLWGEAGSDYLDGGSGDDRLQGDLGSDTYVQRLGNGDDVITEAYDEDGADIDIVSYGPGVSLSDLSFHRLFDSSYGSYLVIYNSRDKSELSVAHFFDKKTQRIELLKFADGSSADLNYILENVQYGAADTLNGTGANDSYVIDNEFDVIVESDAAGVDIAYSSRTYTLPKNVENLTLTGFLDLNATGNGLDNILVGNDGDNTIRGGDGNDTGIGGLGDDIYYDVESVIEQEDGGIDTWYSYTGGVLPDNVEVYHLGNGTSYNYIFAIAAIGNRLDNTLYTRGKGIQNDTLDGGLGADTMIALGSDSAIYYVDDPGDVIVASPSAFGGSGDEVRSTIDYTLGQYVENLVLLGEKAITGVGNSLNNRLDGSQSAIRNVLIGAAGDDDYVVGIGDEVVELEGEGDDSVTFVAENSAGYSASAYQNVEGFILADSSGWASFIGSEKDERITGNRYGNSLVGGAGNDSLSGGEGGDTYQGGAGDDELRDSSSASQDIYLWGRGSGRDSLIDSGGIDKLQVEGSITAEQLWFDRMGNNLRVSIVGTNDQFVIKDWYSDSTYRLESFALSDGHTLLESKVQTLVDAMAAFDVPSGEGKVIPPDVKDTLKPILTEAWELPIDNTNSQTGSTDTGTQPESNGNTPMPPSTNTLTGSDNAEELRGTAADDRIDGLAGNDILRGEDGNDLLNGGAGADTLHGGNGNDLLNGGDARDVLYGGAGNDTLRGGADIDYLKGDAGSDTYLFAAGDGSDLINNADTDPNSIDTARFEDARFDDLWFSRSGDDLYITVAGTSDRAIVSKWYADANNQLDRIEAGSAVLLNEQVEALVSAMSVFGVPSGAGKVIPQDVKDTLKPILTEAWNVQADDTSSQTENGDTDTQTENNNGTPAATPTLNTLTGSDNAEELRGSADDDRIDGLGGADTLHGGNGNDLLNGGDARDVLYGGAGNDTLRGGADIDYLKGDAGSDTYLFATGDGSDLINNYDTDPNSVDTARFENAAYDQLWFSRSGDDLYINVTGSRDRVIVSKWYTDANNQLDRIEAGSSALLNNQVDSLVSAMAAFAVPAAGTSIPQEVKEQLAPVLAASWQ				NA	NA	NA	NA	NA
BMS010_05516	792			hypothetical protein	ATGAAGAGAAGTGTATTGAAATCTGTTCTGTGGTTGGTTGGTGTTGGTGTTTTGGTGGTGTTTTTTGCGAAAAGTGTTCAGCCTGTAAATGAGTCAATTGTCGGGCTCACTTATAAAGTTCGAGAGCGTGAGTGCAAGACCAAAGAAAAGGCAACGTGCAATGAGCCAGACCCGGCAGGAGTTGTTTTTGAGTTTGAGTTTCCCGCAGGTTTACGGGCAGATGATCGAAGTGCTAGATATGAGTACGGGGTTCGCCTAAATATGCTTGTAACTCCTACAAGTATAACGCCGATATCAAAACTGGCTGATCGACAGGAAGTTATGGGTGAAAATTATGCATTAGGTGCACATGGAAGTATAAAACTATTTGCTCGGGACCCCGGTGAGAAATATGAGTCGTTCTTGATGGATGGGCTCGAGTCTGCATCGGTCTATGAGCCTGATAATTATCATAAATCAGAGGGGGGAGGATATGTTTTATATGATAGTGAGGAATGTAATGATTTGCTTCCGAGTGACTTGGTTCCATCGGAATCTGCGCTTCACTTGAGTTGTTACTCAAAGAGAATTTTGTATGAGCCGAAAGGCTATGAGTGGGCGTACTCAATATGCCCAAGAAGATTTGTCGGGTCCGATGGGGGAGTTAGTGTTCCTGTCTGTGTCGTGGTAAGCAGAATAGCTCCTGGAGTATTTATGCGATACCACGTCAGCGGTGAGTATGTCGATGATCAGGCGTGGATTGATTACGACAAAAGGATTAGGGATTATATTTTCAATTTTAGAGCTAAATAA	MKRSVLKSVLWLVGVGVLVVFFAKSVQPVNESIVGLTYKVRERECKTKEKATCNEPDPAGVVFEFEFPAGLRADDRSARYEYGVRLNMLVTPTSITPISKLADRQEVMGENYALGAHGSIKLFARDPGEKYESFLMDGLESASVYEPDNYHKSEGGGYVLYDSEECNDLLPSDLVPSESALHLSCYSKRILYEPKGYEWAYSICPRRFVGSDGGVSVPVCVVVSRIAPGVFMRYHVSGEYVDDQAWIDYDKRIRDYIFNFRAK				NA	NA	NA	NA	NA
BMS010_05517	618			hypothetical protein	TTGAATAAGAAATTTTATGTCTTGGTTGCGGGGGTTATTATTTTGGTTGTTGTGGCTATATGGGGGCGGTGGGGGAGTAAGGGTTTTGATGGTGAGGATAAGCAATCTGTAGTGGAAAAGATGATGGGGAACTACAAATTCATTATCTCTGATAAGGTCTTTTTGGTTCCTGGTGGATATGTTCAGGGGTATGGGATTGCATCTGATGGAACTTTAAATAACTTTACTGTTCGTTTGCGTGGGTTGAGGAGCGGGGGCGAGGCAGAGATTATTATTAGTTCCGATCGAAGGTCGAAGAGGGTAATTGAGAAATATTGGTATGACAATATGTATCAATATTATCGGAGGCGGCTGACGGGCTGGAAGGAAAGTGCTAGGCAGGGAGGTGAAAGGTTGGAAGCGACAGATGAAAGTGCCTTCCTGGTTAAAGATAATCGAGTTTTACGCATGCTGAGTTGCGGTAAGCGCATATGTAGGGTGTTTATTGCATATTCAGATAATTTAACACTATACATTGTATTAGACAAAAAGCTGCAGCGTGATTGGCTGGAGCTAACGGAAAAATTGATATTGGATGTGTCATCCTTTGAACAGTCCGGCAGGGCTGTAGGGAGATAA	MNKKFYVLVAGVIILVVVAIWGRWGSKGFDGEDKQSVVEKMMGNYKFIISDKVFLVPGGYVQGYGIASDGTLNNFTVRLRGLRSGGEAEIIISSDRRSKRVIEKYWYDNMYQYYRRRLTGWKESARQGGERLEATDESAFLVKDNRVLRMLSCGKRICRVFIAYSDNLTLYIVLDKKLQRDWLELTEKLILDVSSFEQSGRAVGR				NA	NA	NA	NA	NA
BMS010_05518	1215	mshA_6		D-inositol-3-phosphate glycosyltransferase	ATGAAGGTGCTATTCATTCACCAGAATTTCCCTGGCCAGTTTCGCCACATCGCTGCTGATTTAGCGGGACGCCCAGGCATCGAGCTGCTGGCCGTCGGTCGCGAACAGGCACCGGGGCTGCCGGGCGTTCGCCTTCTGCGCTACCGGCCACACCGCTCGCCGAACAGCGGTACCCACCCATACGCCCGTACCTTCGAAGACGGAATACTGCACGGCCAGCAGGTATTGCGCCTGCTATTGGACCTCAAGCGCCAAGGCTATCGCCCCGATGTGGTAATGGCCCATCCGGGCTGGGGCGAAAGCCTCTACGTCAAGGAGGCTTTTCCCAAGGCCCGGTTGATTCACTTCTGCGAGTACTACTACCAGACCCAGGGAGCCGATGCCGGCTTCGACCCCGAGTTCCCCATGGATATCAACGGTGCGGCCAGAATTCGCAGCCGTAACGCCATGCACTTGCTGAGCCTGGAAAATTGCGACGTCGGTATTACCCCGACGCAATGGCAGCACAGCCTTCATCCCCCCGCCTACCAAGGCAAGATTCGGATCATTCACGAGGGGATCGACACCGCCAACCTGGGGCCTGATCCCGAGGCCGGTCTGAAACTCCCTGACGGTCGAATACTCAAGGCGGGAGACCCCATCGTCACCTACGTGGCGCGCAATCTGGAGCCCTACCGGGGCTTTCATACCTTCATGCGCGCGCTGCCGCGGATACTGCGCGAGCACCCCACATGCCACGTGGTAATCGTGGGTGGCGATGACGTCAGCTATGGCAGCCGGCCAACGGATGCCCCCAACTGGCGTACGAAACTCCTGACAGAAAACCCCATCGTTCCGGAGCGGGTGCATTTCCTCGGCAAAGTTCCTTACGCCACCTATAAGCGGGTCCTGCAGATATCCGCCGTCCATGTGTACCTGACATATCCCTTCGTCCTGTCCTGGTCTCTATTGGAAGCCATGGCCAGCGGCTGCCTGATCGTCGGCTCGAACACCGCACCCGTGCGCGAAGTGATACGCCATGGGGAAAACGGCTTATGGGTGGATTTCTTCGACAGGGAAGAAATCGCCAGGCACGTAGTGAACGCGCTGAACAAGCCAGACGACTTCCAAGCATTGAGACATGCCGCTTGGCTAAGTGCGCAAGATTATTCATTGGGCCGAGGGGTAGAGGCTTATAGGCGTTTGATTCATGGCTATGACTTGGCGAGAGTGTGA	MKVLFIHQNFPGQFRHIAADLAGRPGIELLAVGREQAPGLPGVRLLRYRPHRSPNSGTHPYARTFEDGILHGQQVLRLLLDLKRQGYRPDVVMAHPGWGESLYVKEAFPKARLIHFCEYYYQTQGADAGFDPEFPMDINGAARIRSRNAMHLLSLENCDVGITPTQWQHSLHPPAYQGKIRIIHEGIDTANLGPDPEAGLKLPDGRILKAGDPIVTYVARNLEPYRGFHTFMRALPRILREHPTCHVVIVGGDDVSYGSRPTDAPNWRTKLLTENPIVPERVHFLGKVPYATYKRVLQISAVHVYLTYPFVLSWSLLEAMASGCLIVGSNTAPVREVIRHGENGLWVDFFDREEIARHVVNALNKPDDFQALRHAAWLSAQDYSLGRGVEAYRRLIHGYDLARV				NA	NA	NA	NA	NA
BMS010_05519	708	sfsA_2	COG1489	Sugar fermentation stimulation protein A	ATGCGCTTCGTCACCCCGTTGGAAGAAGCGCGGCTGGTGCGCCGTTATAAACGCTTCCTCGCCGACGTCGTCACCGTGGACGGCGAGGAGCTTTGCATCCACTGCCCGAACACCGGCTCCATGCTCAACTGCATGGCCGAAGGCGGGCGGGTCTGGTTCCACCGCAGCCAGGACCCGAAGCGCAAGCTGCCGGGCACCTGGGAACTGAGCGAAACACCCCAGGGGCGGCTGGCCTGCGTGAACACCGCGCGAGCCAATCCGCTGGTGGAAGAGGCACTGCTGCACGGGGCGATCCCCGAGCTGGCCGGTTTCACCGCGCTCAAGCGCGAAGTGCCCTACGGTGTGGAAAACAGCCGGGTGGACTTTCGCCTGGACTATCCGACCGGCCCGGCGTTCGTCGAAGTGAAAAGCGTGACCCTCGGCTTCGACGGTAGTGCCATCGCCGCCTTCCCGGATGCCCGGACCCAGCGCGGCGCCCGCCATCTGCGCGAACTGGCGGCCCAGGCGCGGCAAGGCGTGCGGGCGGTGCAGTTGTACTGCGTGAACCTTTCCGGTATCGAGGCGGTACGGCCTGCAGCGGAGGTCGATCCGCTCTACGCGGCGGCGTTGCGCGAGGCGGTGGAAGCCGGTGTCGAGGTGCTGGCCTACGGGGCCGAGTTGAGCCCGGAGGAGATTCGTCTGGTGCGCCGGCTGGAGGTAGTCCTGTAG	MRFVTPLEEARLVRRYKRFLADVVTVDGEELCIHCPNTGSMLNCMAEGGRVWFHRSQDPKRKLPGTWELSETPQGRLACVNTARANPLVEEALLHGAIPELAGFTALKREVPYGVENSRVDFRLDYPTGPAFVEVKSVTLGFDGSAIAAFPDARTQRGARHLRELAAQARQGVRAVQLYCVNLSGIEAVRPAAEVDPLYAAALREAVEAGVEVLAYGAELSPEEIRLVRRLEVVL	PGPT0017980_976	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_SUGAR_FERMENTATION,PGPT0017980-sfsA-K06206	NA	NA
BMS010_05520	1173	aspC_3	COG0436	Aspartate aminotransferase	ATGGCCTCGTATTACAGTGCGCGTAGCCGCGCCATCGAACCTTTCCACGTCATGGCCTTGCTGGCACGAGCCAATGAACTGCAAGCAATGGGCCATGATGTCATTCATCTCGAAATCGGGGAACCGGATTTCACCACCGCCGCGCCCATCGTCGCGGCGGGGCAGGCGGCGCTGGCCGACGGGCACACGCGTTACACCGCTGCCCGGGGATTGCCCCGGCTCCGTGAAGCCATTGCGCGTTTCTACACGCAGCGTTACCGATTATCCATTGACCCCGAACGCATCCTGATTACTCCCGGCGGGTCCGGCGCCTTGTTGCTGGCCAGCAGCCTGTTGGTCGATCCGGGCAAGCACTGGCTGCTCGCCGACCCCGGTTATCCCTGCAACCGCCACTTCCTGCGTCTGGTGGAAGGCGCGGCGCAACTGGTGCCGGTGGGCCCCGAGGTGCGCTATCAACTGACCCCCGAACTGGTCGCCCGGCATTGGGACAAGGATAGCGTCGGTGCGCTGGTTGCGTCGCCCGCCAACCCGACCGGCACGCTGTTGCACCGCGACGAGCTGGCCGCCCTGTCCACTGCCTTGAAGGAGCGTGGCGGCCACCTGGTGGTGGACGAGATCTACCACGGCCTGACCTACGGGACGGACGCCGCCAGCGTGCTGGAGGTGGATGACGACGCCTTCGTGCTCAACAGCTTCTCCAAGTACTTCGGCATGACCGGCTGGCGCCTGGGCTGGCTGGTGGCGCCGCCGTCGGCGGTGCCGGAGCTGGAGAAACTGGCGCAGAACCTCTACATCAGCGCGCCGAGCATGGCCCAGCATGCCGCGTTGGCGTGCTTCGAACCGCAGACCCTGGCGATCCTCGAGGAGCGCCGCGCCGAGTTCCGCCGGCGCCGCGACTTCCTCCTGCCGGCCCTGCGCGAACTGGGCTTCAGGATCGCGGTGGAGCCGGAGGGCGCCTTCTATCTATATGCCGACATCGGCGCCTTTGGCGGTGACGCCTTCGCCTTCTGCCGGCACTTCATCGAGACCGAGCACGTGGCCTTCACCCCGGGCCTGGATTTCGGCCGCCATCTGGCGGGCCAGCACGTGCGCTTCGCCTACACCCAGAGCCTGGAGCGCCTGGAACAGGCGGTGGAACGTATTGCCCGCGGCCTGCGGACCTGGCAGCCCTGA	MASYYSARSRAIEPFHVMALLARANELQAMGHDVIHLEIGEPDFTTAAPIVAAGQAALADGHTRYTAARGLPRLREAIARFYTQRYRLSIDPERILITPGGSGALLLASSLLVDPGKHWLLADPGYPCNRHFLRLVEGAAQLVPVGPEVRYQLTPELVARHWDKDSVGALVASPANPTGTLLHRDELAALSTALKERGGHLVVDEIYHGLTYGTDAASVLEVDDDAFVLNSFSKYFGMTGWRLGWLVAPPSAVPELEKLAQNLYISAPSMAQHAALACFEPQTLAILEERRAEFRRRRDFLLPALRELGFRIAVEPEGAFYLYADIGAFGGDAFAFCRHFIETEHVAFTPGLDFGRHLAGQHVRFAYTQSLERLEQAVERIARGLRTWQP				NA	NA	NA	NA	NA
BMS010_05521	447	dksA_3	COG1734	RNA polymerase-binding transcription factor DksA	ATGCCCATTACTAAAACGACACCCACCAACAACCAGCTCGTCCGTGGCTTCGAGCCGTATCAGGAGACCAAGGGCGAGGAGTACATGAGCGACCGCATGCGCGCTCACTTCACCAACATCCTGAACAAGTGGAAACAGGAGTTGATGGAGGAAGTCGATCGCACCGTGCACCACATGCAGGACGAAGCGGCCAACTTCCCCGATCCGGCCGACCGTGCCAGCCAGGAAGAAGAATTCAGCCTGGAGCTGCGTGCCCGCGATCGCGAGCGCAAGCTGATCAAGAAGATCGACGAGACGCTGCAGCTGATCGAAGACAACGAGTACGGCTGGTGCGATTCCTGCGGGGTCGAGATCGGCATCCGCCGACTGGAAGCCCGTCCCACCGCGACGCTCTGCATCGACTGCAAGACGCTCGCGGAAATCAAGGAAAAGCAGCTCGGTTCCTGA	MPITKTTPTNNQLVRGFEPYQETKGEEYMSDRMRAHFTNILNKWKQELMEEVDRTVHHMQDEAANFPDPADRASQEEEFSLELRARDRERKLIKKIDETLQLIEDNEYGWCDSCGVEIGIRRLEARPTATLCIDCKTLAEIKEKQLGS	PGPT0014560_956	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|CRP_SIGNALLING_PATHWAY,PGPT0014560-dks-K06204	NA	NA
BMS010_05522	888	gluQ	COG0008	Glutamyl-Q tRNA(Asp) synthetase	ATGAATGCTCCCGCCTATGTCGGCCGTTTCGCGCCCACGCCGAGCGGCTACCTGCATTTCGGCTCGCTGGTCGCGGCGCTCGCCTCCTACCTGGATGCGCGCGCCGTTGGCGGACGCTGGCTGCTGCGCATGGAAGACCTCGACCCGCCCCGCGAAATGCCCGGTGCCCAGGACGCCATCCTGCATGCACTGGAAAGCTACGGTTTCGAATGGGACGGCGAGCTGGTCCGACAGAGCGAACGGCATGATCGTTATGCCGAGGTCATCGACCGACTCATCGAACGCGGCCTGGCCTATGCCTGTACCTGTTCGCGCAAACAACTGGAGGGCCATGGCGGCGTCTATCCGGGAACCTGCCGCGACGCCGGGCATGACCGGCACGACGCGGCCATCCGCCTGCGCGTGCCCGACCGCGAATACGCCTTCGTCGATCGTGTGCAGGGCGAATTCCACCAGCACCTCGGACGAGACGTCGGCGACTTCGTGATCCGCCGCCGCGACGGCCTCTATGCCTACCAGCTCGCAGTGGTGTTGGACGACGGCTGGCAAGGCGTCACCGACGTGGTACGCGGCGCCGATCTGCTCGACTCCACCCCGCGTCAGCTCTACCTTCAGGAACTGCTCGGCCTGCCCCAGCCGCGCTACCTGCACGTGCCGCTGATCATCCAGCCGGACGGCCACAAGCTGGGCAAGTCCTACCGCTCTCCACCGCTCGCCGCGGACCAGGCCAGCCCGCTGCTGCTCCGCGCACTGCGTGCCCTCGGGCAGCAGCCGCCGGCGGAGCTGGAGGGCAGCCTGCCCGGAGCGGTGCTCGCCTGGGGCATCGCCCACTGGGACGCCACGCGGATTCCGCGCAGCCGCACCCTGGCCGAAGCGCAGTTGCGTTGA	MNAPAYVGRFAPTPSGYLHFGSLVAALASYLDARAVGGRWLLRMEDLDPPREMPGAQDAILHALESYGFEWDGELVRQSERHDRYAEVIDRLIERGLAYACTCSRKQLEGHGGVYPGTCRDAGHDRHDAAIRLRVPDREYAFVDRVQGEFHQHLGRDVGDFVIRRRDGLYAYQLAVVLDDGWQGVTDVVRGADLLDSTPRQLYLQELLGLPQPRYLHVPLIIQPDGHKLGKSYRSPPLAADQASPLLLRALRALGQQPPAELEGSLPGAVLAWGIAHWDATRIPRSRTLAEAQLR	PGPT0008460_6025	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0008460-gltX-K01885	NA	NA
BMS010_05523	177			hypothetical protein	ATGTACATCTACCGACTGGTCCTGCTCCTGGTAGTGGGGATCTATCTGTTTTCCCCCGCCATCATGGATTGGTGGATCGACCCCAATGGCGCCTGGTACCGGCCCTATCTGCTATGGCTGATCCTGATCGTGGTGACCTTCATTCTCCAGAGCCAACGCGATGCAGACGAGCTTTAG	MYIYRLVLLLVVGIYLFSPAIMDWWIDPNGAWYRPYLLWLILIVVTFILQSQRDADEL				NA	NA	NA	NA	NA
BMS010_05524	2955	sasA_18		Adaptive-response sensory-kinase SasA	ATGCAGACGAGCTTTAGCCTCAGCCAGCTGATCCTGATCAGCGCCGCCTACCTGCTCGCCCTGTTCGGCGTCGCCTGGGTCAGCGAGCGTGGGTTGATCCCGCGCTGGATCATCCGCCATCCGCTGACCTACACCCTGTCGCTCGGGGTCTACGCCAGCGCCTGGGCGTTCTACGGCACCGTCGGCCTGGCCTACCAGTACGGCTACGGCTTCCTCGCCAGTTACCTCGGCGTATCCGGCGCCTTCCTGCTGGCCCCGGTGCTGCTCTACCCGATCCTGCGCATCACCCGCACCTACCAGTTGTCGTCCCTGGCGGACCTGTTCGCCTTCCGCTTCCGCAGCACCTGGGCCGGCGCCCTGACCACGCTGTTCATGCTGATCGGCGTGTTGCCATTGCTGGCGCTGCAGATCCAGGCGGTGGCCGACGCCATCGGCATTCTCACCCGGGAGCCGGTACAGGAGCGCGTCGCCCTGGCCTTCTGCGGCCTGATCACTTTGTTCACCATTCTCTTCGGCGCGCGTCACATCGCCACCCGGGAGAAGCACGAGGGGCTGGTGTTCGCCATCGCCTTCGAGTCGGTGGTCAAGCTGGTCGCCATCGGCGGGATCGGCCTCTACGCCCTGTACCACGTGTTCGGCGGGCCGAAGGAACTGGAAATCTGGCTGCTGCAGAACCAGACGGTGCTCTCGGCGCTGCACACCCCGTTGCAGGAAGGTCCCTGGCGCACCCTGCTGCTGGTGTTCTTCGCCTCGGCCTTGGTGATGCCGCACATGTACCACATGACCTTTACCGAGAACCTCAACCCGCGCGCCATGGTCAGCGCCAGTTGGGGCCTGCCGCTGTTCCTGCTGTTGATGAGCCTGGCCGTGCCGGTGATTCTCTGGGCCGGCCTGAAACTCGGTACCGCCACCAATCCCGAATACTTCACCCTCGGCCTGGGCATCACCGTACACAGCGAACCGCTGGCGCTGCTCGCCTACGTCGGCGGGCTTTCGGCGTCCAGCGGGGTGATCATTGTCACCACCCTGGCGTTGTCCGGGATGGCGCTCAATCATCTGGTACTGCCGCTCTACCAGCCACCGGCCGAAGGCAACATCTACCGCTGGCTGAAATGGACCCGCCGTGCGCTGATCGTCACCGTGATCATGGCCGGCTATGCCTTCTACCTGATGCTCGGCGCCGAGCAGGATCTGGCCAACCTGGGCATCGTCGCCTTCGTCGCCACCCTGCAGTTCCTCCCCGGCGTGCTGTCGGTGCTGTACTGGCCCACGGCGAACCGGCGCGGCTTCGTCGCCGGCCTGCTGTGCGGTGTCAGCGTGTGGCTGGTGACCATGCTGTTACCGCTGATCGGTAACATCCAGGGTTTCTACCTGCCGTTCTTCGACCTCATCTATGTACTCGACGACACCAGTTGGCACCTGGCGGCCATCGCCTCGCTGGCGGCCAACGTCCTGGTGTTCACCCTGGTCTCGCTGTTCACCGAGGCCAGCCCGGAGGAAAAGAGCGCCGCCGAAGCCTGCGCCGTGGACAACGTGCGCCGCCCGCAACGCCGCGAACTGATCGCCGCCTCGCCGCAGGAATTCGCCGCCCAACTGGCCAAGCCGCTGGGTGCCAAGACCGCCCAGCGCGAAGTCGAGCAGGCCATGCGCGATCTCCACCTGCCGTTCGATGAACGTCGTCCCTATGCCCTGCGCCGTCTGCGCGACCGCATCGAAGCCAACCTCTCCGGCCTGATGGGCCCAAGCGTGGCCCAGGACATCGTGGAAACCTTCCTGCCCTATAAATCCGGCAGCGAAGGCTATGTCACCGAAGACATCCACTTCATCGAAAGCCGCCTGGAGGACTACCACTCGCGCCTGACCGGCCTGGCCGCCGAGCTGGATGCCCTGCGCCGTTACCACCGGCAGACGTTGCAGGAATTGCCGATGGGCGTTTGCTCGCTGGCCAAGGACCAGGAAATCCTAATGTGGAACAAGGCCATGGAAGAACTGACCGGCATCCCTGCGCTGCGCGTAGTGGGTTCGCGGCTGTCGGCCATCGCCGAGCCCTGGAAGGGCCTGCTGGAAGACTTCATCAACCTGCCCGACGAACACCTGCATAAGCACCGCCTGCCGCTGGACGGCCAGACCCGCTGGCTCAACCTGCACAAGGCGGCGATCGACGAGCCGCTGGCGCCGGGCAACAGCGGCCTGGTGGTGCTGGTCGAGGACCTCACGGAAACCCAGTCCCTGGAGGACAAGCTGATCCACTCCGAGCGCCTCGCCAGTATCGGCCGCCTCGCCGCCGGGGTGGCCCACGAGATCGGCAATCCGATCACCGGTATCGCCTGCCTGGCGCAGAACCTGCGCGAAGAGCGCGAAGACGATGCGGAACTGAGTGAGATCAGCAGCCAGATCATCGAACAGACCAAGCGCGTCTCGCGCATCGTCCAGTCGTTGATGAGCTTCGCCCACGCCGGCGGCCGCCAGCAGGCGCAGGAGCCGGTGAGCCTGGCCGCCGTGGCGCAGGACGCCATCGGCCTGCTATCGCTGAACCGGCGCAGCGTCGAGGTGCAGTTCTACAACCTCTGCGACCCCGACCATTGGGCCGAGGGCGACCCGCAGCGCCTCGCCCAGGTGCTGATCAACCTGCTGTCCAATGCTCGCGATGCGTCACCGCCCGGCGGCGCCATCCGGGTTCGCAGCGAAGCGTCCGAGCACACCGTCGACCTGATCGTCGAGGACGAAGGCAGCGGCATTCCGAAGGGCATCATGGATCGCCTGTTCGAGCCATTTTTCACCACCAAGGACCCGGGCAAAGGGACCGGCCTGGGTCTCGCGCTGGTCTATTCCATCGTGGAAGAGCATTATGGGCAAATCACCATCGACAGCCCGGCCGATCCCGAGCACCAGCGCGGTACCCGAATCCGGGTGACTCTGCCACGGCATGTCGAAGCGACGTCCGCTGTGATTTGA	MQTSFSLSQLILISAAYLLALFGVAWVSERGLIPRWIIRHPLTYTLSLGVYASAWAFYGTVGLAYQYGYGFLASYLGVSGAFLLAPVLLYPILRITRTYQLSSLADLFAFRFRSTWAGALTTLFMLIGVLPLLALQIQAVADAIGILTREPVQERVALAFCGLITLFTILFGARHIATREKHEGLVFAIAFESVVKLVAIGGIGLYALYHVFGGPKELEIWLLQNQTVLSALHTPLQEGPWRTLLLVFFASALVMPHMYHMTFTENLNPRAMVSASWGLPLFLLLMSLAVPVILWAGLKLGTATNPEYFTLGLGITVHSEPLALLAYVGGLSASSGVIIVTTLALSGMALNHLVLPLYQPPAEGNIYRWLKWTRRALIVTVIMAGYAFYLMLGAEQDLANLGIVAFVATLQFLPGVLSVLYWPTANRRGFVAGLLCGVSVWLVTMLLPLIGNIQGFYLPFFDLIYVLDDTSWHLAAIASLAANVLVFTLVSLFTEASPEEKSAAEACAVDNVRRPQRRELIAASPQEFAAQLAKPLGAKTAQREVEQAMRDLHLPFDERRPYALRRLRDRIEANLSGLMGPSVAQDIVETFLPYKSGSEGYVTEDIHFIESRLEDYHSRLTGLAAELDALRRYHRQTLQELPMGVCSLAKDQEILMWNKAMEELTGIPALRVVGSRLSAIAEPWKGLLEDFINLPDEHLHKHRLPLDGQTRWLNLHKAAIDEPLAPGNSGLVVLVEDLTETQSLEDKLIHSERLASIGRLAAGVAHEIGNPITGIACLAQNLREEREDDAELSEISSQIIEQTKRVSRIVQSLMSFAHAGGRQQAQEPVSLAAVAQDAIGLLSLNRRSVEVQFYNLCDPDHWAEGDPQRLAQVLINLLSNARDASPPGGAIRVRSEASEHTVDLIVEDEGSGIPKGIMDRLFEPFFTTKDPGKGTGLGLALVYSIVEEHYGQITIDSPADPEHQRGTRIRVTLPRHVEATSAVI				NA	NA	NA	NA	NA
BMS010_05525	1419	zraR_1	COG2204	Transcriptional regulatory protein ZraR	ATGCCACATATCCTGATCGTCGAAGACGAAACCATTATCCGCTCTGCCTTGCGCCGCCTCCTGGAGCGCAACCAGTACGAAGTCAGCGAAGCCGGCTCTGTGCAGGAAGCACAGGAACGTTTCAACATTCCCGGCTTCGATCTGATCGTCAGTGACCTGCGCCTGCCCGGCGCCCCCGGAACCGAACTCATCAAGCTGGCCCAGGGCACTCCCGTGCTGATCATGACCAGCTACGCCAGCCTGCGCTCCGCCGTCGATTCGATGAAGATGGGCGCGGTCGATTACATCGCCAAGCCGTTCGACCACGACGAAATGCTCCAGGCCGTGGCGCGCATCCTGCGCGACCGCCAGGAAGCCCGCCAGGCCTCGGCGGAACGACCGGCCGCACGCGGCGCCGAGAAGCCCGTGGAGGCGGCCAACGGCGAGATCGGTATCATCGGTTCCTGCTCGGCCATGCAGGAGCTGTACGGCAAGATCCGCAAGGTGGCGCCAACCGATTCGACCGTGCTGATCCAGGGCGAGTCGGGTACCGGCAAGGAGCTGGTGGCCCGTGCCCTGCACAACCTCTCGCGCCGGGCCAAGGCCCCGCTGATCTCGGTGAACTGCGCGGCGATCCCGGAAACCCTGATCGAGTCCGAACTCTTCGGCCATGAGAAAGGCGCCTTCACCGGTGCCAGCGCTGGCCGTGCCGGTCTGGTCGAAGCGGCCGACGGCGGCACCCTGTTCCTCGACGAAATCGGCGAATTGCCGCTGGAAGCCCAGGCCCGCCTGCTGCGCGTGTTGCAGGAAGGCGAGATCCGCCGGGTCGGCTCGGTGCAGTCGCAGAAGGTGGATGTGCGCCTGATCGCCGCCACCCACCGCGACCTCAAGACCCTGGCCAAGACCGGCCAATTCCGCGAAGACCTCTATTACCGCCTGCACGTGATCGCCCTCAAGCTCCCGGCCCTGCGCGAGCGCGGCGCCGACGTCAGCGAGATCGCCCAAGCCTTCCTCGCCCGCCAGTGCGCGCGCATGGGGCGCGGCGAACTGCGCTTCGCCCACGACGCGGAGCAGGCCATCCGCCATTACCCATGGCCGGGTAACGTGCGCGAACTGGAGAATGCCATCGAGCGGGCGGTGATCCTCTGCGAAGGCTCGGAGATTTCCGCCGACCTCCTGGGTATCGATATCGAACTGGACGACCTGGACGACGAAGACTTCGGCGACAACCCGATGCAGCAGGGCACCAACGCCAGCTCCGAGCCGACCGAGGACCTGTCCCTGGAAGACTACTTCCAGCACTTCGTGCTCGAGCACCAGGACCACATGACCGAAACCGAGCTGGCCCGCAAACTGGGCATCAGCCGCAAGTGCCTGTGGGAGCGCCGTCAGCGCCTGGGCATTCCGCGCCGCAAGTCGGGAGCGGCGACCGGCTCTTGA	MPHILIVEDETIIRSALRRLLERNQYEVSEAGSVQEAQERFNIPGFDLIVSDLRLPGAPGTELIKLAQGTPVLIMTSYASLRSAVDSMKMGAVDYIAKPFDHDEMLQAVARILRDRQEARQASAERPAARGAEKPVEAANGEIGIIGSCSAMQELYGKIRKVAPTDSTVLIQGESGTGKELVARALHNLSRRAKAPLISVNCAAIPETLIESELFGHEKGAFTGASAGRAGLVEAADGGTLFLDEIGELPLEAQARLLRVLQEGEIRRVGSVQSQKVDVRLIAATHRDLKTLAKTGQFREDLYYRLHVIALKLPALRERGADVSEIAQAFLARQCARMGRGELRFAHDAEQAIRHYPWPGNVRELENAIERAVILCEGSEISADLLGIDIELDDLDDEDFGDNPMQQGTNASSEPTEDLSLEDYFQHFVLEHQDHMTETELARKLGISRKCLWERRQRLGIPRRKSGAATGS	PGPT0004315_336	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK_HOMEOSTASIS,PGPT0004315-zraR|hydG-K07713	NA	NA
BMS010_05528	1404	pcnB	COG0617	Poly(A) polymerase I	ATGCTGAAAAAGCTGTTCCAGTCTTTCCGTTCTCCCCTGCGCCGCGCCCCGCATCCCCGCAGCACGCCCGAAGTATTGGGAAACAACCAGCACAGCCTGCGCCGCGGACAGATCAGCCGGTACGCCGTCAGCGTGGTCGAACGACTGCAGAATGCCGGATATCAGGCCTATGTGGTCGGTGGCTGCGTCCGCGACCTCCTGCTGAACTTCGAACCCAAGGACTTCGACGTCGCCACCAGCGCCACACCCGAACAGGTTCGCGCCGAGTTCCGCAACGCCCGGGTCATTGGCCGTCGCTTCAAGCTGGTGCACGTACACTTCGGCCGGGAGATCATCGAAGTCGCTACCTTCCGCTCCCACCATCCCCAGGGCGATGAAGATGAAGACAGCACCCAGGCCGCGCGTAACGAAAGCGGCCGGATCCTGCGCGACAACGTCTATGGCACCCTGGAGGACGACGCCCAGCGCCGCGACTTCACGATCAATGCCCTGTACTTCGACGTCAGCAACGAGCGCATCCTCGACTACGCCCACGGCGTCCATGACATTCGCAACCGCCTGATCCGCCTGATCGGCGATCCCGAGCAGCGTTACCAGGAAGATCCGGTGCGCATGCTGCGCGCGGTGCGCTTCGCCGCCAAGCTGGGCTTCGACATCGAAAAGCACAGCGCCGCGCCGATCCGCCGCCTGGCGCCGATGCTCCGTGAGATTCCATCGGCTCGGCTGTTCGATGAAGTGCTCAAGCTGTTCCTCTCCGGTCAGGCCGAACGCACCTTCGAACTGCTGCTGGAATACGACCTCTTCGCCCCGCTGTTCCCGGCCAGCGCCAAGGCGCTCGAACAGAACCCCGAATACGCCGGCCGACTGATCCGCCAGGCCCTGGCCAACACCGACGAGCGCATCTACCGCGGCAAGCCGGTAACGCCCGCGTTCCTCTTCGCCGCCCTGCTTTGGCCTGCCTTGCCGGCTCGCGTCGCCTACCTGCAAGGGCGCGGCATGCCGCCGATCCCGGCGATGCAGGAGGCCGCCCACGACGTTATCAGCGAACAGTGCCAGCGCACTGCCGTACCGAAACGCTTCACCATCCCGATCCGCGAAATCTGGGACATGCAGGAGCGCCTGCCCCGCCGTAGCGGCAAACGCGCCGACCTGCTTCTGGAGAACCCGCGTTTCCGCGCTGGCTACGACTTCCTGCTGCTGCGCGAAGAAGCCGGCGAAGAGACCGATGGCCTCGGCGACTGGTGGACCGACTACCAGGACGCCAGCGACAGCGAACGCCGCAACATGATCCGCGCCCTCAACAGCAAGGACGATGGCACCGCACCGCGCAAGCGCCGCCGTGGCGGCACCCGCCGGCGGCGTGGCGGTCCGCGCGGCGAAGGCGCCCCGAGCGCGGCGGAGTAA	MLKKLFQSFRSPLRRAPHPRSTPEVLGNNQHSLRRGQISRYAVSVVERLQNAGYQAYVVGGCVRDLLLNFEPKDFDVATSATPEQVRAEFRNARVIGRRFKLVHVHFGREIIEVATFRSHHPQGDEDEDSTQAARNESGRILRDNVYGTLEDDAQRRDFTINALYFDVSNERILDYAHGVHDIRNRLIRLIGDPEQRYQEDPVRMLRAVRFAAKLGFDIEKHSAAPIRRLAPMLREIPSARLFDEVLKLFLSGQAERTFELLLEYDLFAPLFPASAKALEQNPEYAGRLIRQALANTDERIYRGKPVTPAFLFAALLWPALPARVAYLQGRGMPPIPAMQEAAHDVISEQCQRTAVPKRFTIPIREIWDMQERLPRRSGKRADLLLENPRFRAGYDFLLLREEAGEETDGLGDWWTDYQDASDSERRNMIRALNSKDDGTAPRKRRRGGTRRRRGGPRGEGAPSAAE				NA	NA	NA	NA	NA
BMS010_05529	483	folK	COG0801	2-amino-4-hydroxy-6-hydroxymethyldihydropteridine pyrophosphokinase	ATGGAACGGGTCTACATCGGCCTCGGCAGCAACCTGTCCGAACCCCTCGAGCAATTGCGCGGCGCCCTGGCCGCGCTGGGCGAACTGCCGCAAAGCCGGCTGGCCGCGACCTCTTCCTTCTATAGCAGCGATCCGTTGGGCCCTGCCGATCAGCCGCGCTACGTGAATGCCGTGGCCGCGCTGGATACCGATCTCCCTCCGCTGGCTCTGCTCGACGCGCTGCAAACCATCGAACTGAACCAGGGCCGGGTACGGAAAGAAGAGCGCTGGGGACCGCGCACGCTGGACCTGGATATCCTGCTGTTCGGCTCACGGCAGATCGACGAGCCGCGCCTGCAGGTGCCGCACTACCACATGCATGCCCGTGCCTTTGTGCTCTATCCCCTGGCGGAAATCGCCGGCGAGGAACTGGCGCTGCCGGACGGACGACGCCTGTCCGAGCTTCTGGCGGCCTGCCCGTTCGAGGGCCTGGAACGGCTCTAA	MERVYIGLGSNLSEPLEQLRGALAALGELPQSRLAATSSFYSSDPLGPADQPRYVNAVAALDTDLPPLALLDALQTIELNQGRVRKEERWGPRTLDLDILLFGSRQIDEPRLQVPHYHMHARAFVLYPLAEIAGEELALPDGRRLSELLAACPFEGLERL	PGPT0007910_2246	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007910-folK-K00950	NA	NA
BMS010_05530	801	panB_1		3-methyl-2-oxobutanoate hydroxymethyltransferase	ATGCCAGATATCACCCTGACCACCCTGCAAAGTCTCAAGCAGAGCGGCGAGAAGATCGCCATGCTGACCTGCTACGACGCCACCTTCGCCCAGGCCGCCTGCCAGGCCGGCGTCGAAGTCCTGTTGGTGGGCGATTCCCTCGGCATGGTCCTGCAGGGGCACGACAGCACCCTGCCGGTCAGCGTCGACGAGATGGCCTATCACGTCGCCAGCGTCAAGCGCGGCAACCAGGGGGCGCTGATCCTGGTCGACCTGCCGTTCATGGCCTACGCCACCACCGAACAGGCCCTGAACAACTCCGCCCGCCTGATGCAGGCCGGCGCCCACATGGTCAAGCTGGAAGGCGCCGCCTGGCTGGCCGAGCCGATCCGCCTGCTGGCCGAGCGCGGCGTACCGGTCTGCGCGCACCTCGGCCTGACCCCCCAGGCGGTGAACATCCTCGGCGGCTATAAGGTGCAAGGTCGCCAGGAGGCCCAGGCACGGCAGATGCGCGCCGACGCCATGGCTCTGGAGCAGGCCGGCGCCGCCATGCTGCTGCTGGAGTGCGTACCCAGCGAGCTGGCGGCGGAAATCGCCCAGTCGGTGAAGATTCCGGTGATCGGCATCGGTGCCGGCAACGCCACCGACGGCCAGGTGCTGGTGCTGCACGACATGCTTGGGCTGTCGCTCAGCGGCCGCACGCCGAAATTCGTCAAGAACTTCATGGAGGGTCGCAGCAGCATCCAGGCTGCGATCGGCGCCTACGTCAAGGCCGTCAAGGACACCAGTTTCCCCGCCGCCGAACACGGATTCTCCGCATGA	MPDITLTTLQSLKQSGEKIAMLTCYDATFAQAACQAGVEVLLVGDSLGMVLQGHDSTLPVSVDEMAYHVASVKRGNQGALILVDLPFMAYATTEQALNNSARLMQAGAHMVKLEGAAWLAEPIRLLAERGVPVCAHLGLTPQAVNILGGYKVQGRQEAQARQMRADAMALEQAGAAMLLLECVPSELAAEIAQSVKIPVIGIGAGNATDGQVLVLHDMLGLSLSGRTPKFVKNFMEGRSSIQAAIGAYVKAVKDTSFPAAEHGFSA	PGPT0008740_3380	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0008740-panB-K00606	NA	NA
BMS010_05531	861	panC_1	COG0414	Pantothenate synthetase	ATGAACACCGTCAAGACCGTCCGCGAACTGCGCGCCGCAGTCGCCCGCGCCCGTAGCGAAGGCAAGCGCATCGGCTTCGTGCCGACCATGGGCAACCTGCACGCCGGCCATGTCGCCCTGGTGGAGAAGGCCGGCCAGCGCGCCGACTTCGTGGTCGCCAGCATCTTCGTCAATCCGTTGCAGTTCGGCCCGACCGAGGACTTGGCGAAATACCCACGCACCCTCGCCGCCGACCAGGAAAAGCTCTTCGATGCCGGCTGCCACCTGCTGTTCGCCCCCAGCGTGGAAGAAATGTATCCCCACGGCATGGGAGGCCAGACCCGCGTCAGCGTGCCCGGCGTCTCCGAAGGGCTGTGCGGCGCCAGCCGTCCGGGCCACTTCGAGGGTGTCGCCACGGTGGTGACCAAGCTGTTCAACATGGTCCAACCCGACCTCGCCGTGTTCGGCCAGAAGGACTACCAGCAACTGGCGGTCATCCGCACCCTGGTGCGCGACCTCAACATGCCGATCCAGATCATCGGCGAGCCGACGGTCCGTGCCGAAGACGGCCTGGCCCTGTCGTCGCGCAATGGCTACCTGAGCGCCGAGCAACGCGCCGCCGCCCCTGCCCTGTATCGCAGCCTCAGCCGTATCGCCGAAGCCTTGCGCGCCGGCGAGTGCAACCATGCCGCCCTGGTCGCCGCCGGCCGGCTCGAACAGGAACAGGCCGGCTTCCGCCCGGATTACCTGGAAATCCGCGAGGCCAACAGCCTGCGCCCCGCCACCGCGGAAGACCGCCAGTTGGTCATTCTCACCGCCGCCTACCTGGGCGCCACCCGACTGATCGACAACTTGGCGGTAGACCTCGACCATCCGGCCTGA	MNTVKTVRELRAAVARARSEGKRIGFVPTMGNLHAGHVALVEKAGQRADFVVASIFVNPLQFGPTEDLAKYPRTLAADQEKLFDAGCHLLFAPSVEEMYPHGMGGQTRVSVPGVSEGLCGASRPGHFEGVATVVTKLFNMVQPDLAVFGQKDYQQLAVIRTLVRDLNMPIQIIGEPTVRAEDGLALSSRNGYLSAEQRAAAPALYRSLSRIAEALRAGECNHAALVAAGRLEQEQAGFRPDYLEIREANSLRPATAEDRQLVILTAAYLGATRLIDNLAVDLDHPA	PGPT0008750_1450	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0008750-panC-K01918	NA	NA
BMS010_05532	381	panD	COG0853	Aspartate 1-decarboxylase	ATGCACGCCATCATGCTCAAGGCCAAACTGCACCGCGCCGAAGTCACCCACGCCGTGCTCGATTACGAAGGCTCCTGTGCCATCGACGGTGAATGGCTGGACCTCGCCGGCATCCATGAGTACGAACAGATTCAGATCTACAACGTCGACAATGGCGAACGCTTCACCACCTACGCCATCCGCGGCGAAGCCGGCTCGAAGATGATCTCGGTGAACGGCGCCGCCGCGCACAAGGCGAAAGTCGGCGACCGGGTGATCATCTGCGCCTACGCCCATTACAGCGAGGCGGAACTCGCCAACTTCAAACCCCGCATGCTGTACATGTCGCCGGGGAACGAGCTGAGCCACACCAGCAATGCCATCCCGGTACAGGTGGCCTGA	MHAIMLKAKLHRAEVTHAVLDYEGSCAIDGEWLDLAGIHEYEQIQIYNVDNGERFTTYAIRGEAGSKMISVNGAAAHKAKVGDRVIICAYAHYSEAELANFKPRMLYMSPGNELSHTSNAIPVQVA	PGPT0008890_1465	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0008890-panD-K01579	NA	NA
BMS010_05533	1665	pgi_2	COG0166	Glucose-6-phosphate isomerase	ATGGCGTATTATCAGCACCCGCTCGATGTCACCACCCTTTCCTCCTGGCAGCACCTCGACCAACACCGCGAGGCCATGCGCAGCTTCAGCATGCGCGAGGCGTTCCAGTCCGATCCCCGGCGCTTCGAAGACTTTTCCCTCAGCGCCTGCGGCCTGTTCCTCGACTACTCGAAAAACCTCATCAGCCGCGAAACCCGCGACCTGCTGGTCAGCCTGGCCCGCGAAGCCGGCCTGGAACAGGCGATCCGTGCGCTCTTCAAGGGCGAATGCGTGAATGCCTCCGAAGGCCGCCCGGCCCTGCACACGGCGCTGCGCCAGCCATTCGGCGACCGCCTGGAAGTCAACGGCGTCAACCTGATCCCGGAAGTCCACCGCGTGCTGCACCAGATGACCGAACTGGTCGGGCGCATCCACGACGGCCTCTGGCGCGGCTACACCGAAAAGCCCATCACCGACGTGGTGAACATCGGCATCGGCGGCTCCTTCCTCGGCCCGCAACTGGTGTCCGAAGCCCTGCTACCCTTCGCCCAGCGCGGCGTGCGCTGCTACTACCTGGCGAACATCGACGGCAGCGAATTCCATGAGCTGTCCGCCAAGCTGCGCGCGGAAACCACGCTGTTCATCGTCTCGTCGAAGTCTTTCTCCACCCTGGAAACCCTGAAGAACGCCCAGGCCGCGCGCAACTGGTACCTGGCCCAGGGCGGCTCCGAAAGCGAACTGCACCGTCACTTCATCGCCGTTTCCAGCAACACCAAGGCGGCCGTGGAGTTCGGTATCCGCGAAGAGAACATCTTCCCGATGTGGGATTGGGTCGGCGGGCGCTACTCGCTGTGGTCGGCCATCGGCCTGCCGATCGCCCTGACCATCGGCATGTCCAACTTCAAGGAACTGCTGTCCGGCGCCTACACCATGGACCAGCATTTCCTGCAGGCCCCGTTCGAGAGCAACATGCCGGTGCTGCTGGCCCTGCTCGGCGTCTGGTACGGCAACTTCTGGGGTGCCCAGAGCCATGCCATCCTGCCCTACGACCATTACCTGCGGAACATCACCAAGCACTTGCAGCAACTGGACATGGAGTCCAACGGCAAGAGCGTGCGCCAGGACGGCAGCCCGGTGACCACCAGTACCGGCCCGGTAATCTGGGGCGGCGTCGGTTGCAACGGCCAGCACGCCTACCACCAGCTCCTGCACCAGGGCACCCCGCTGATCCCGGCGGACTTCATCGTGCCGGTGGTCAGCTACAACCCGGTGGTCGACCACCACCACTGGCTATACGCCAACTGCCTGTCGCAGAGCCAGGCGCTGATGCTCGGCAAGACCCGCGAAGAAGCCGAGGCCGAGCTGCGTGCCAAGGGCCTGAGCGAGGACAAGGTGCAGGCCCTCGCACCGCACAAGGTCATTCCCGGCAACCGGCCGAGCAACACACTGGTCCTGGAGCGCATCGACCCACGCCGCCTGGGCGCACTGGTGGCGCTGTACGAACACAAGGTCTTCGTGCAGAGCGTGATCTGGGGAATCAATGCCTTCGACCAATGGGGCGTGGAGCTGGGCAAGGAACTGGGCAAGGGCGTCTACCAGCGCCTCACCGGCTTCGACCAGCCCGCCGCCGAAGATGCCTCGACCCAGGGCCTGATCGACTACTTCCGCGGTCGCCATCGCGGCTGA	MAYYQHPLDVTTLSSWQHLDQHREAMRSFSMREAFQSDPRRFEDFSLSACGLFLDYSKNLISRETRDLLVSLAREAGLEQAIRALFKGECVNASEGRPALHTALRQPFGDRLEVNGVNLIPEVHRVLHQMTELVGRIHDGLWRGYTEKPITDVVNIGIGGSFLGPQLVSEALLPFAQRGVRCYYLANIDGSEFHELSAKLRAETTLFIVSSKSFSTLETLKNAQAARNWYLAQGGSESELHRHFIAVSSNTKAAVEFGIREENIFPMWDWVGGRYSLWSAIGLPIALTIGMSNFKELLSGAYTMDQHFLQAPFESNMPVLLALLGVWYGNFWGAQSHAILPYDHYLRNITKHLQQLDMESNGKSVRQDGSPVTTSTGPVIWGGVGCNGQHAYHQLLHQGTPLIPADFIVPVVSYNPVVDHHHWLYANCLSQSQALMLGKTREEAEAELRAKGLSEDKVQALAPHKVIPGNRPSNTLVLERIDPRRLGALVALYEHKVFVQSVIWGINAFDQWGVELGKELGKGVYQRLTGFDQPAAEDASTQGLIDYFRGRHRG	PGPT0017735_1172	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0017735-pgi-K01810	NA	NA
BMS010_05534	1938	acsA_2	COG0365	Acetyl-coenzyme A synthetase	ATGTTCGAGATCAGCACCCACCCGGTCGCCGATGCAGTGCGCAAGCGTGCCCACCTGGACAACGACGCCTACCAGCGCCTGTACCGGCAATCCGTCGAGCAACCCGACGCCTTCTGGGGCGAGCAGGCCAAGGCCTTCCTCGACTGGTTCAAGCCCTGGGACAGCGTGCACGAAAGCAACCTGGAGCAAGGCCAGGCCAGTTGGTTCAAGGGCGGCCAGCTCAACGTCAGTTACAACTGCATCGACCGCCATTTGGAAAAGCGCGGCGAACAGATCGCCATCATCTGGGAAGGCGACAATCCCGCCGAATCCGCGCAGATCACCTACCGCAAGCTGCACAGCCACGTCTGCCGCCTGGCCAACGTGCTGAAGAGCCGTGGGGTGAAGAAAGGCGACCGCGTGTGCATCTACATGCCGATGATTCCGGAAGCCGCCTACGCCATGCTCGCCTGCACCCGCATCGGCGCCATCCACTCGGTGGTGTTCGGCGGCTTCTCGCCGGATGCGCTGCGCGACCGCATCCTCGATGCCGACTGCCGCACCGTGATCACCGCCGACGAGGGCGTGCGCGGCGGCAAGTACATCCCGCTCAAGCAGAACGTCGACAAGGCCCTGCAAAGCTGCCCGGACGTCTCCACCGTGGTGGTGGTCGAGCGCACCCAGGGCAAGATCGACTGGGTCGAAGGCCGCGACCTCTGGTATCACGAAGCCCTGCACAGCGCAAGCACCGAATGCCCGCCGGAGCCGATGGATGCGGAAGACCCGCTGTTCATCCTTTACACCTCGGGCAGTACCGGGAAGCCCAAGGGCGTGCTGCACACCACCGGCGGCTACCTGCTCAGCGCCGCCATGACCCACAAGTACGTCTTCGACTACCACGACGGGGACATCTATTGGTGCACCGCCGACGTCGGCTGGGTTACCGGGCACAGCTATATCGTCTACGGCCCGCTGGCCAACGGCGCGACCACGCTGATCTTCGAGGGCGTGCCGAACTACCCGGACACCTCGCGCTTCTGGCAGGTAATCGACAAGCATCAGGTCAACATCTTCTACACCGCCCCCACCGCCCTGCGCGCCCTGATGCGCGAAGGCGCAGGCCCGGTGGAAAAGACCTCGCGCGCCAGCCTGCGCCTGCTCGGCTCGGTCGGTGAGCCGATCAACCCGGAAGCCTGGGAGTGGTACTACCACGTGGTTGGCGAGAGCCGCTGCCCGATCGTGGACACTTGGTGGCAGACCGAAACCGGCGCGATCATGATCACCCCGCTGCCGGGAGCCACCGACCTCAAGCCGGGCTCGGCGACCCGTCCGTTCTTCGGCGTGCAGCCAGTGCTTCTCGATGAGAAGGGCCAGGAGATCGAAGGCCCCGGTTCCGGCGTGCTGGCGATCAAGGCCAGTTGGCCGAGCCAGATCCGTAGCGTCTACGGCGACCACCAGCGCATGGTGGACACCTACTTCAAGCCCTACCCCGGCTACTACTTCACCGGCGACGGCGCCCGTCGCGACGAGGATGGCTACTACTGGATCACCGGCCGCGTGGATGATGTGATCAACGTCTCCGGCCACCGCATCGGCACCGCCGAGGTGGAAAGCGCGTTGGTACTCCACGATGCCGTCGCCGAGGCCGCGGTGGTGGGCTGCCCGCATGACGTGAAGGGGCAGTGCATCTACGCCTTCGTCACCCTCATGAGCGGTTGCGAAGTCAGTGAGGAGCTGAAGAAAGAGCTGCTGGCCCTGGTCGGCAAGGAAATCGGCAGCTTCGCCAAGCCGGACTTCCTGCAGTGGGCACCCGGTCTGCCGAAGACCCGCTCCGGCAAGATCATGCGCCGAATCCTGCGCAAGATCGCCTGCAACGAGCTGGATACCCTGGGCGACACCTCGACCCTGGCCGATCCCTCGGTAGTCGACGACCTGATCGCCAACCGCTTCAACCGCTGA	MFEISTHPVADAVRKRAHLDNDAYQRLYRQSVEQPDAFWGEQAKAFLDWFKPWDSVHESNLEQGQASWFKGGQLNVSYNCIDRHLEKRGEQIAIIWEGDNPAESAQITYRKLHSHVCRLANVLKSRGVKKGDRVCIYMPMIPEAAYAMLACTRIGAIHSVVFGGFSPDALRDRILDADCRTVITADEGVRGGKYIPLKQNVDKALQSCPDVSTVVVVERTQGKIDWVEGRDLWYHEALHSASTECPPEPMDAEDPLFILYTSGSTGKPKGVLHTTGGYLLSAAMTHKYVFDYHDGDIYWCTADVGWVTGHSYIVYGPLANGATTLIFEGVPNYPDTSRFWQVIDKHQVNIFYTAPTALRALMREGAGPVEKTSRASLRLLGSVGEPINPEAWEWYYHVVGESRCPIVDTWWQTETGAIMITPLPGATDLKPGSATRPFFGVQPVLLDEKGQEIEGPGSGVLAIKASWPSQIRSVYGDHQRMVDTYFKPYPGYYFTGDGARRDEDGYYWITGRVDDVINVSGHRIGTAEVESALVLHDAVAEAAVVGCPHDVKGQCIYAFVTLMSGCEVSEELKKELLALVGKEIGSFAKPDFLQWAPGLPKTRSGKIMRRILRKIACNELDTLGDTSTLADPSVVDDLIANRFNR	PGPT0002265_4474	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895	NA	NA
BMS010_05535	879			hypothetical protein	ATGGAACTGCTCCGTCGCCGTATCGAAACCCAGGTCCTCAGCCTCACCGGCCTTGCCCTTGGCGGCATCGACTTCGAAGCCCCGCCTGGCGATCCCGGCCTGTTCGGCCCGGACGCGGTGTGCTGGCGAATCCACGGCGATTTCACCTCGATGCTGGTCGGCGGAATCTCCGCCCTGCTTCTGCAAGCCTTGCACCCGCTGGCACTGGCCGGCGTCTGGGATCACTCCAACTTCCGCGAGGACATGCTTGGCCGCCTGCGCCGCACCGGCCAGTTCATCTCCGGCACTACCTACGCCTGCCGAGCCGATGCTGAGCGCCTGATCGCGCGGGTCCGGCGCATTCACGAAAGCGTCACCGGCACCGCCCCGGACGGCCGCCCCTATGCCGCCAGCGACCCCGATCTACTGACCTGGGTGCATGTCGCCGAAGTCAGCAGCTTCCTGAAATCGCACCTGCGCTACCTCAACCCGAATCTCTCCGGCGAGGAGCAGGACCGCTATTTCGCCGAAACGGCCCTGATTGCGGAGCGACTCGGCGCTCGCGACGTGCCGTGTTCCCGGCAGGCAGTCGCCGACTACCTGGAATCCATACGCCCACAGTTGCTCTGCGACGAGCGGACCCGGGAAATCGTGAGGACCCTGCTGGAGGCGCCGGCCCCCAGCCTGCTGGCCAAACCATTCGGCGCGCTGATGATGCAGGCCGGGATCGACCTGTTGCCCGAATGGGCCGCGGAAATGCTGGAACTGCCGCTCGGTGAGAATCGCCGACGCTGGATTCGCGCCGGCGTGCAGCACAGCGCCCCCTTGTTGCGTTGGGCGGTCTGCAATGGTTCGGTGCATCGCGCCCGACGGCGCATGGGGTTGCCCCCGAAGGGTTGA	MELLRRRIETQVLSLTGLALGGIDFEAPPGDPGLFGPDAVCWRIHGDFTSMLVGGISALLLQALHPLALAGVWDHSNFREDMLGRLRRTGQFISGTTYACRADAERLIARVRRIHESVTGTAPDGRPYAASDPDLLTWVHVAEVSSFLKSHLRYLNPNLSGEEQDRYFAETALIAERLGARDVPCSRQAVADYLESIRPQLLCDERTREIVRTLLEAPAPSLLAKPFGALMMQAGIDLLPEWAAEMLELPLGENRRRWIRAGVQHSAPLLRWAVCNGSVHRARRRMGLPPKG				NA	NA	NA	NA	NA
BMS010_05536	327			hypothetical protein	ATGAGCAAGCGTGAAACCCCGATCTACAAGGTGATCTTTCTCAACCAAGGCCAGGTGTACGAGATGTACGCCAAGCAGATCTATCAGAGCGATCTGTGGGGCTTTCTGGAGGTGGAGGAGTTCGTCTTCGGCGAGCGCACCCAGGTCGTGGTCGATCCCAGCGAAGAGAAGCTCAAGGCCCAGTTCGAGGGCGTGGTGCGCAGCTTCGTGCCGATGCACGCGATCATCCGCATCGATGAGGTGGAGCGTCTGGGCACGCCGAAGATCAGCGAGGCCAAGGGCGGCGGCAATGTGATGCCGTTCCCCATGCCGATGCCGGAAAAGTAA	MSKRETPIYKVIFLNQGQVYEMYAKQIYQSDLWGFLEVEEFVFGERTQVVVDPSEEKLKAQFEGVVRSFVPMHAIIRIDEVERLGTPKISEAKGGGNVMPFPMPMPEK				NA	NA	NA	NA	NA
BMS010_05537	1335	miaB_2	COG0621	tRNA-2-methylthio-N(6)-dimethylallyladenosine synthase	ATGCGCATGGCCAAGAAGCTTTTCATCGAAACCCACGGCTGCCAGATGAACGAGTACGACAGCTCGCGCATGGCCGACCTGCTGGGTGAACACCAAGCCCTGGAGCTGACCGAGCGACCGGAAGAAGCCGACGTCATCCTGCTCAATACCTGCTCGATCCGCGAAAAAGCCCAGGAAAAGGTCTTTTCGCAGCTCGGCCGCTGGCGCGAGCTGAAGCAGCAGAATCCGCAACTGGTGATCGGTGTCGGCGGCTGCGTGGCCAGCCAGGAAGGCGCCGCCATCCGCGACCGCGCGCCCTACGTCGACGTGGTGTTCGGCCCGCAGACCCTGCATCGTCTGCCGGAAATGATCGATGCCGCCCGCACCACCCGCAAGCCGCAGGTGGATATCTCCTTCCCCGAGATCGAAAAGTTCGACCGTCTGCCCGAACCCCGGGTAGATGGGCCCAGCGCCTTCGTCTCGGTGATGGAAGGTTGCAGCAAGTACTGCACCTTCTGCGTAGTGCCCTACACCCGCGGCGAGGAAGTCAGCCGTCCGCTGGACGACGTGCTGAGCGAAATCATCCACCTGGCCGAGAACGGCGTGCGTGAAGTGACCCTGCTCGGCCAGAACGTCAACGGCTACCGCGGCGAGACCCGCGACGGGCGCGTCGCCGACTTCGCCGAACTGCTCTACCTGGTGGCCGCGATCGACGGCATCGACCGCATCCGCTACACCACCTCGCATCCGCTGGAGTTCTCCGACGCGCTGATCCAGGCCCATGCGGATATTCCGGAGCTGGTCAAATTCCTCCACCTGCCGGTGCAGTCGGGCTCCGACCGCGTGCTGGCGGCGATGAAGCGCAACCACACGGCGCTGGAATACAAGTCGCGCATCCGCAAGCTGAAAGCCGCGGTGCCGGACATTAGCATCAGCTCGGACTTCATCGTCGGCTTCCCCGGCGAGACGGACAAGGACTTCGAGCAGACCATGAAGCTGATCGAGGACGTCGGCTTCGACTTCTCCTATTCCTTCGTCTACAGCGCGCGCCCCGGTACACCGGCGGCCGACCTGGTCGACGACACGCCGGAAGAGGTGAAGAAGCAGCGCCTGGCGATCCTGCAGAACCGCATCAACCAGCAGGGTTTCGAGATCAGCCGACGAATGGTCGGCACCACCCAGCGCATCCTGGTCAGCGATTACTCGAAAAAAGACCCTGGCATGCTCCAAGGGCGTACCGAGAACAACCGTATCGTCAACTTCCGCAGCGATAATCCGCGTCTGATCGGCCAGTTCGTGGACGTGCACATCGATGACGCCCTGCCCCACTCGCTGCGCGGCAGCCTGCCGGGTTGA	MRMAKKLFIETHGCQMNEYDSSRMADLLGEHQALELTERPEEADVILLNTCSIREKAQEKVFSQLGRWRELKQQNPQLVIGVGGCVASQEGAAIRDRAPYVDVVFGPQTLHRLPEMIDAARTTRKPQVDISFPEIEKFDRLPEPRVDGPSAFVSVMEGCSKYCTFCVVPYTRGEEVSRPLDDVLSEIIHLAENGVREVTLLGQNVNGYRGETRDGRVADFAELLYLVAAIDGIDRIRYTTSHPLEFSDALIQAHADIPELVKFLHLPVQSGSDRVLAAMKRNHTALEYKSRIRKLKAAVPDISISSDFIVGFPGETDKDFEQTMKLIEDVGFDFSYSFVYSARPGTPAADLVDDTPEEVKKQRLAILQNRINQQGFEISRRMVGTTQRILVSDYSKKDPGMLQGRTENNRIVNFRSDNPRLIGQFVDVHIDDALPHSLRGSLPG	PGPT0007215_3361	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007215-miaB-K06168	NA	NA
BMS010_05538	1029	ybeZ_2	COG1702	PhoH-like protein	TTGAACGCACCCATAGAACCGCATCGTTTTGTCCTCGAACCCTTCGAGGCTCGCCGCTTCGCCAACCTCTGCGGGCAATTCGACGAGCACCTGCGCCTGATCGAACAACGCCTGGACATCGAAATCCGCAACCGCGGCAACCAGTTCGAACTGGTCGGCGACCCCAAGCACACCCAATCCGCCGAGCACCTCCTGCGCCGGCTCTACCGTGAAACCAACGGTACCGAGCTGTCGCCGGACATGGTTCACCTGTTCCTCCAGGAATCCGCCATGGAAGAACTCGGCGGCGAAAAAGGCGAAGCCGGCGTCACGCTGCGCACGCGCAAGGGCATGATCCGTCCGCGCGGCGCCAACCAGCAGCGCTACGTCAAGGCGATCCTCGACCACGACATCAACTTCGGCATCGGTCCGGCCGGCACCGGCAAGACCTACCTGGCCGTGGCCTGCGCGGTGGACGCGCTGGAGCGCGAGCAGGTACGCCGCATCCTGCTGGTGCGTCCGGCGGTCGAGGCCGGCGAGAAGCTCGGCTTCCTGCCCGGCGACCTGGCGCAGAAAATCGACCCCTACCTGCGCCCGCTGTACGACGCGCTCTACGAAATGCTCGGCTTCGAGACCGTCGCCAAGCTGATCGAGAAACAGGTGATCGAGGTCGCGCCGCTGGCCTACATGCGCGGCCGTACCCTGAACAACAGCTTCATCATCCTCGACGAAAGCCAGAACACCACGCTCGAACAGATGAAGATGTTCCTCACCCGCATCGGCTTCGGCTCCACTGCGGTGATCACCGGCGACACCACCCAGGTCGACCTGCCGCGCGGCACCCGCTCGGGCCTGCTGCATGTGATCGACGTGCTGCGCGACGTGCCGGGCATCAGCTTCACCCACTTCAAGCCCAAGGATGTGGTGCGCCACCCCTTGGTGCAGCGCATCGTCGAAGCCTACGAGCGCTTCGACGAGGCCCAGGGCAAGGCCGCCGAGGCACGAGCCGCCGCGCGCCGGCAGGCCAAGGACGACAACAGCGATGCTTGA	MNAPIEPHRFVLEPFEARRFANLCGQFDEHLRLIEQRLDIEIRNRGNQFELVGDPKHTQSAEHLLRRLYRETNGTELSPDMVHLFLQESAMEELGGEKGEAGVTLRTRKGMIRPRGANQQRYVKAILDHDINFGIGPAGTGKTYLAVACAVDALEREQVRRILLVRPAVEAGEKLGFLPGDLAQKIDPYLRPLYDALYEMLGFETVAKLIEKQVIEVAPLAYMRGRTLNNSFIILDESQNTTLEQMKMFLTRIGFGSTAVITGDTTQVDLPRGTRSGLLHVIDVLRDVPGISFTHFKPKDVVRHPLVQRIVEAYERFDEAQGKAAEARAAARRQAKDDNSDA	PGPT0002700_2402	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-PHOSPHATE_STARVATION_RESPONSE,PGPT0002700-phoH-K06217	NA	NA
BMS010_05539	456	ybeY_2	COG0319	Endoribonuclease YbeY	ATGCTTGAACTCGACCTGCAGGTCGCCACCGAAGCCCCCATTCCCGCCGAAGCCCGCTTCCGCCAGTGGTGCGAACTGGCCCTGCGCCAGCGTTCGGCGCCGTCCGAACTGACCATCCGCCTGGTCGACGAAGCCGAAGGCCGAGAACTGAACCGCACCTGGCGGCACAAGGACTACGCCACCAACGTCCTGTCGTTCCCGGCCGACGTGCCCGACGAAATGCTGGACATCCCCCTGCTCGGCGATCTGGTGATCTGCGTGCCGGTGGTGGAGCGGGAGGCAGCGGAACAGGGCAAGACGGCGGAGGCCCACTGGGCCCACCTGGTTATCCACGGCTGCCTGCATCTGCTCGGCTACGACCACATCAAGGATGAGGAAGCCGAGGAGATGGAAGCGCTGGAACGGGAATTGCTCGCTGAACTGGGCCATCCCGATCCCTATGCAGATGACGAATAA	MLELDLQVATEAPIPAEARFRQWCELALRQRSAPSELTIRLVDEAEGRELNRTWRHKDYATNVLSFPADVPDEMLDIPLLGDLVICVPVVEREAAEQGKTAEAHWAHLVIHGCLHLLGYDHIKDEEAEEMEALERELLAELGHPDPYADDE	PGPT0024340_2792	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024340-dgkA|DGK-K00901	NA	NA
BMS010_05540	840	corC	COG4535	Magnesium and cobalt efflux protein CorC	ATGAGCGAAGATCGATCGAGCAACGGGCAAAAGTCCTGGTTGGACAAACTCACCCAGGCTTTTACCCATGAGCCGAGAAACCGCCAGGAGCTCCTCGAGCTGCTGCGCGAAGCCCACCAGAACAAACTCCTCGACAGCGAAGCACTGTCCATCGTCGAAGGCGCCATCCAGGTGGCCGACCTGCAAGTACGCGACATCATGGTCCCGCGCTCGCAGATGATCAGCATCAAATCGACGCAGACACCCAAGGAATTTCTTCCCGCCGTCATCGAGGCCGCGCATTCGCGCTACCCGGTCGTCGGCGAAAGCCTCGACGACGTGATGGGCGTGCTGCTGGCCAAGGACCTGCTGCCGCTGATCCTCCAGGGCGACGCGCAGACTTTCAACATCCGCGACCTGCTGCGCCCGGCCACCTTCGTGCCGGAGTCCAAGCGGCTCAACGTCCTGCTCAAGGAATTCCGCGCCAACCGTAACCACATGGCCATCGTCATCGACGAATACGGCGGCGTGGCCGGCCTGGTGACCATCGAGGACGTGCTGGAACAGATCGTCGGCGACATCGAGGACGAACACGATGTCGAGGAGGACAGCTACATCAAGCCGCTGCCCAGCGGCGACTTCCTGATCAAGGCGCTGACGCCGATCGACAGCTTCAACGAGTTCTTCGACAGCGAATTTTCCGACGAGGAGTACGATACCGTCGGCGGGCTGGTGATGAGCGCATTCGGCCATCTGCCGAAGCGTAACGAAGTGACCGAGATCGGCGAATTCCGCTTCCGGGTGCTGAACGCCGACAGCCGCCGCATTCACCTGCTGCGCCTGTCACCCCTGGCCCAGTGA	MSEDRSSNGQKSWLDKLTQAFTHEPRNRQELLELLREAHQNKLLDSEALSIVEGAIQVADLQVRDIMVPRSQMISIKSTQTPKEFLPAVIEAAHSRYPVVGESLDDVMGVLLAKDLLPLILQGDAQTFNIRDLLRPATFVPESKRLNVLLKEFRANRNHMAIVIDEYGGVAGLVTIEDVLEQIVGDIEDEHDVEEDSYIKPLPSGDFLIKALTPIDSFNEFFDSEFSDEEYDTVGGLVMSAFGHLPKRNEVTEIGEFRFRVLNADSRRIHLLRLSPLAQ	PGPT0004695_1218	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0004695-corC-K06189	NA	NA
BMS010_05541	1521	lnt_2	COG0815	Apolipoprotein N-acyltransferase	ATGAACTGGATCAAGCGCCCGGGTTGGCCGGGCCATCTGCTGGCGCTCGCTGCCGGGGCGCTGACGCCGCTGGCGCTCTCTCCTTTCAACCTGTGGCCGGTGGAGCTGCTGTCCATCGCCCTGTTCTACCTGGGGCTGCGCGCCCTCTCGTCCAAGGCGGCTTTGCTGCGTGGCTGGTGCTACGGCTTCGGCATGTTCGCTGCCGGCACCAGTTGGGTCTACGTCAGCATTCACGACTACGGCTCGGCCTCGGCCCCGCTGGCGGCCTTCCTCACCTTCGGCTTCGTCGCCGGCCTCGGCCTGTTCTTCGCCCTACCCGCCTGGCTCTGGGCGCGCTGGCTGCGCCGCGATGAAGCGCCCCTGGCCGATGCCCTGGCCTTCGCCGCGCTCTGGGTGGCCCAGGAAGCGTTCCGCGGCTGGTTCCTCACCGGCTTTCCCTGGCTCTACGCCGGCTACAGCCAACTCGAAGGCCCGCTGGCCGGGTTGGCGCCGGTCGGCGGGGTCTGGCTGCTGTCCTTCTGCCTGGCGCTGAGCGCCGTCCTGCTGGCCAACCTGCGACGGATGCGGGTACGCCCGCTGTTCTTCGCCATGGGCCTCGTACTGCTGGCCACGCCCTGGGTCACCGGCCAGGCCCTCAAGGGCCATGACTGGACCACCGCGGCCGGTGCACCGCTGAAAGTGGCGGCCATGCAGGGCAACATCGCCCAGGACATGAAGTGGGACCCGGAGCAATTGCACGCCCAGCTCAACCTGTATCGCGACATGAGCTTCACCTCGCGGCCGGCCGACCTGATCGTCTGGCCGGAAACCGCCGTGCCCATCCTCAAGGAATTCGCCGAAGGCTACCTGACCGTGATGGGGCGCTTCGCCGAGGACCGCAAATCGGCGCTGATCACCGGCGTGCCGATCCGCCAGGACAACGAACGTGGCCAGAAGCGCTACTACAACGGCATCGTCGTGGTCGGCGAAGGCGAAGGCACCTACCTCAAGCAGAAGCTGGTGCCCTTCGGTGAGTACGTACCGCTGCAGGAAGTGCTGCGCGGGCTGATCGCCTTCTTCGACCTGCCCATGTCCGACTTCGCCCGCGGCTCGTCCGAGCAGCCGCTGCTGGAGGCCAAGGGTTACAAGATCGCACCCTACATCTGCTACGAAGTGGTCTACCCGGAATTCGCCGCGGGCCTGGCGGCGCAGAGCCAGCTGCTGCTGACCATCAGCAACGACGCCTGGTTCGGCACCTCCATCGGTCCGCTACAGCATTTGCAGATGGCCCAGATGCGCGCCCTCGAAGCCGGGCGCTGGATGATCCGCGCGACCAACAACGGTGTCACCGTGCTGATCGACCCGTTCGGCCAGATCCGCGAGGAGCTGCCGCAGTTCAAGCGTGCCACTCTCTACGGCGAGGTGGAGCCACGCGAAGGACTGACCCCGTACCTGCGCTGGCGTGCCTGGCCGCTGATCATCCTTTGCGGCCTGCTGTTCGGCTGGGCCCTGCTGGCCAACCGCATGGCCAAGATGGTCTAA	MNWIKRPGWPGHLLALAAGALTPLALSPFNLWPVELLSIALFYLGLRALSSKAALLRGWCYGFGMFAAGTSWVYVSIHDYGSASAPLAAFLTFGFVAGLGLFFALPAWLWARWLRRDEAPLADALAFAALWVAQEAFRGWFLTGFPWLYAGYSQLEGPLAGLAPVGGVWLLSFCLALSAVLLANLRRMRVRPLFFAMGLVLLATPWVTGQALKGHDWTTAAGAPLKVAAMQGNIAQDMKWDPEQLHAQLNLYRDMSFTSRPADLIVWPETAVPILKEFAEGYLTVMGRFAEDRKSALITGVPIRQDNERGQKRYYNGIVVVGEGEGTYLKQKLVPFGEYVPLQEVLRGLIAFFDLPMSDFARGSSEQPLLEAKGYKIAPYICYEVVYPEFAAGLAAQSQLLLTISNDAWFGTSIGPLQHLQMAQMRALEAGRWMIRATNNGVTVLIDPFGQIREELPQFKRATLYGEVEPREGLTPYLRWRAWPLIILCGLLFGWALLANRMAKMV	PGPT0024470_3050	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024470-lnt-K03820	NA	NA
BMS010_05542	759			hypothetical protein	ATGCCGATCCGCTACATCATCAAACAGATCATCCTGCCGCCGGGCATTCTGCTGTTGTTATTGCTGCTCGCCTGGTGGCTGCGCCGGCGTGCGCCGCGGCTGGCCGTGCTGTGTTTCGTGGCAGGGTTTGGCGGATTGTGGCTGATGAGCCTGCCGGTGGTGGTCGAATGGGCTGCGCGCGGTCTCGAACGTGAATCGCCGCTGGCGGAAAGCGACTGGGTGGGGCTGGCGCAGCGCGCCGACGCCATCGTCATTCTCGGTGCCGGGCGCGAGCGAGGTGATCCGGCCTGGGGCGAGGATCAACCGGGAATCATGGCGATGGAGCGCCTGCGCTATGCGGCGCGCCTGGCCAAGGCCAGCGGGTTGCCGATCCTGGTGACCGGCGGCCTGCATTACGGCACGCCACCCAGCGAGGCGGCGATCATGGCCGATAGCTTGTCGCGCGACTACGGGATCGAGGTGCGCTGGCGCGAAGAGCGAAGCCGCACGACCTGGGAGAATGCCACGGAATCGGCGCCCATCCTGAAGGCGGACGGGGTCACCCGCGTCGTCCTGGTGACCCAGGCCGCGCACATGCCTCGCTCACGCTGGAGTTTCGAGCGACAGGGTTTCGAGGTGATCGGCGCGCCCATCGGTTTTCTCGGCGTGCCCAACGGCCGCCCGCTGGGCGGCTGGTTGCCGGAGAGCAAGGCCGTCTGGCAGAACGGCATGCTGCTCAACGAAGCTGTCGGGCAATTGGCCTATCCGCTGTTCTACTAG	MPIRYIIKQIILPPGILLLLLLLAWWLRRRAPRLAVLCFVAGFGGLWLMSLPVVVEWAARGLERESPLAESDWVGLAQRADAIVILGAGRERGDPAWGEDQPGIMAMERLRYAARLAKASGLPILVTGGLHYGTPPSEAAIMADSLSRDYGIEVRWREERSRTTWENATESAPILKADGVTRVVLVTQAAHMPRSRWSFERQGFEVIGAPIGFLGVPNGRPLGGWLPESKAVWQNGMLLNEAVGQLAYPLFY				NA	NA	NA	NA	NA
BMS010_05543	459			hypothetical protein	ATGGGCGAGACGCGGCGGTTAGAGACAAGTGGGGGGCTGTACGAGCGTCTATTGCAACGTCTTGCCCTGGCGCTCGACGAAGCCGATACCGCCACTCGCCTGCACGAGCGGCCGCCCCAGGAACTGGAATTGCGCGGGCTGACTCCGGCGGAGTTGCAGTTGATCCGGGCCTATCTGGATCGGGACCTGAACTGGCTGCGCGGCTGGCACGCCGCTGCCGAGGAGTTGGCTCTGATCGAGCAGACCCCGGCGCGCCATGGCAAGCCCGCCCGCAGTAACGGCAAGGCATCGGCAACCAAGTCCCAGACGAAACTCAAGCCCCTCCTCAAGCGCCGCCAGCAGTTGTTCTGCGCCCTGTGCGGCACGGCTGCCCACGTGCAGCGCGGCCAATGCGTGCGCGCCTGCCTGACCTGCGGTTCGCAATTGTTCCGGGCCGGCCAGCCGAAGCGCATCGGTTAG	MGETRRLETSGGLYERLLQRLALALDEADTATRLHERPPQELELRGLTPAELQLIRAYLDRDLNWLRGWHAAAEELALIEQTPARHGKPARSNGKASATKSQTKLKPLLKRRQQLFCALCGTAAHVQRGQCVRACLTCGSQLFRAGQPKRIG				NA	NA	NA	NA	NA
BMS010_05544	2607	leuS_2		Leucine--tRNA ligase	ATGCACGAACAGTATCAGCCCCGCGAAATCGAAGCCGCCGCGCAATCCCACTGGGACCAGCAGAAATCCTTTGTAGTGAGCGAACAACCGGGCAAGGACACCTTCTATTGCCTGTCGATGTTCCCCTATCCCAGCGGCAAGCTGCACATGGGCCACGTGCGCAACTACACCATCGGCGACGTGATCGCCCGCTACCAGCGCATGCAGGGCAAGAACGTCCTGCAGCCGATGGGCTGGGACGCGTTCGGCATGCCGGCGGAAAACGCCGCGATGAAGAACAAGGTGGCGCCGGCCAAGTGGACCTACGAGAACATCGACTACATGAAGTCCCAGCTCAAGAGCCTGGGCCTGGCCATCGACTGGTCGCGTGAAGTCACCACCTGCAAGCCGGACTACTACCGCTGGGAGCAATGGCTGTTCACCCGCCTGTTCGAGAAAGGCGTGATCTACCGCAAGAACGGTACCGTGAACTGGGACCCGGTCGACCAGACCGTGCTGGCCAACGAGCAGGTCATCGACGGCCGCGGCTGGCGCTCGGGCGCGCTGATCGAGAAGCGCGAAATCCCGATGTACTACTTCAAGATCACCGCCTACGCGGATGAGCTGCTGGAAAGCCTGGACGAACTGGACGGCTGGCCGGAACAGGTCAAGACCATGCAGCGCAACTGGATCGGCAAGTCGCGCGGCATGGAAATCAGCTTCCCCTACGACGTCGCCAGCATCGGCAGCGAAGGCGTGATGAAGGTCTTCACCACCCGCCCCGACACCCTGATGGGCGCCACCTACGTGGCAGTGGCCGCCGAGCACCCGCTGGCCACCCTGGCCGCGAAGGACAACCCCGAGCTGCAAGCCTTCATCGAGGAATGCAAGCGCGGCGGTGTCGCCGAAGCCGACATCGCCACCCAGGAGAAGAAGGGCCTGGCCACCGCCCTGCGCGTGCAGCACCCGCTCACCGGCGAGCTGTTGCCGGTATGGGTCGCCAACTATGTGCTGATGAATTACGGCGAAGGTGCGGTCATGGCCGTGCCCGCCCACGACGAGCGCGATTTCGAATTCGCCAGCAAATATGGCCTGCCGATCAAGCCGGTGGTCCGCACCAGTGCCGGCGACACCACTCCGGCCCCCTGGCAGGACGCCTACGGCGAGCACGGCCAACTGATCAACTCGGGCGAGTTCGACGGCCTGGACTTCGAAGGTGCCTTCGATGCCATCGAAGTGGCCCTGCAGAAGAAAGGCCTCGGCCAGGCGCGCACCCAGTTCCGCCTGCGCGACTGGGGCATCAGCCGCCAGCGCTACTGGGGCTGTCCGATCCCGATCATCCATTGCGACGCCTGCGGCGACGTACCGGTGCCGGAAGACCAGCTCCCCGTGGTGCTGCCGGAAGACGTGGTGCCGGACGGCAGCGGCAGCCCGCTGGCGAAGATGCCCGAATTCTACGAGTGCAGCTGTCCGAAATGCGGCCAGCCGGCCAAGCGCGAAACCGACACCATGGACACCTTCGTCGAGTCGTCCTGGTACTTCGCCCGCTACGCCTCGCCGACCTACGACAAGGGTATGGTCGACCCGGCCGCGGCCAACCATTGGCTGCCGGTCGACCAGTACATCGGCGGCATCGAGCACGCCATCCTGCACCTGCTCTACGCGCGCTTCTTCCACAAGCTGATGCGCGACGAAGGGCTGGTCAGCTCCAACGAGCCGTTCAAGAACCTGCTGACCCAGGGCATGGTGGTCGCCGAGACCTACTACCGCACCGCCGAAAACGGCGGCAAGGACTGGTTCAACCCGGCCGACGTAGAAGTCGAGCGCGACGCCAAGGCCAAGGTCATCGGCGCCAAGCTCAAGACGGATGGCCTGCCGGTGGAAATCGGCGGCACCGAGAAAATGTCCAAGTCGAAGAACAACGGCGTCGACCCGCAGGCGATGATCGACCAGTACGGCGCCGACACCTGCCGCCTGTTCATGATGTTCGCCTCACCGCCGGACATGAGCCTGGAGTGGTCCGACTCCGGCGTCGAGGGCGCCAGCCGCTTCCTCCGCCGCGTCTGGCGCCTGGCCCATGCCCACGTCAGCCAGGGCCTGCCGGGCACGCTGGACAAGAACCCGCTGAACGACGAGCAGAAAGGCATCCGCCGCGCCATCCACCTGGCCATCAAGCAGGCCAGCCAGGATGTCGGCCAGCATCACAAGTTCAACACCGCCATCGCCCAGGTGATGACCCTGATGAACGTGCTGGAGAAGGCACCGACCGCCACCACCCAGGACCGTGCCCTGCTCCAGGAGGGCCTGGAAACCGTGGCCCTGTTGCTGGCGCCGATCACACCGCACATCTGCCACGCGCTCTGGGAGCAACTGGGCAAGAGCGGCGCGATCATCGACGCCGGCTGGCCGCAGGTGGACGAAAGCGCCCTGGTGCAGGACAGCCTGGAACTGGTGGTGCAGGTCAACGGCAAACTGCGCGGCCACATCGAAGTACCGGCCAGCGCTAGCCGCGAAGAGATCGAAAGCGCCGCGCGGCAGAACGAGAATGTCCTGCGCTTCACCGAAGGCCTGACCATCCGCAAGGTCATCGTGGTGCCGGGCAAGCTGGTCAATATCGTCGCGAACTGA	MHEQYQPREIEAAAQSHWDQQKSFVVSEQPGKDTFYCLSMFPYPSGKLHMGHVRNYTIGDVIARYQRMQGKNVLQPMGWDAFGMPAENAAMKNKVAPAKWTYENIDYMKSQLKSLGLAIDWSREVTTCKPDYYRWEQWLFTRLFEKGVIYRKNGTVNWDPVDQTVLANEQVIDGRGWRSGALIEKREIPMYYFKITAYADELLESLDELDGWPEQVKTMQRNWIGKSRGMEISFPYDVASIGSEGVMKVFTTRPDTLMGATYVAVAAEHPLATLAAKDNPELQAFIEECKRGGVAEADIATQEKKGLATALRVQHPLTGELLPVWVANYVLMNYGEGAVMAVPAHDERDFEFASKYGLPIKPVVRTSAGDTTPAPWQDAYGEHGQLINSGEFDGLDFEGAFDAIEVALQKKGLGQARTQFRLRDWGISRQRYWGCPIPIIHCDACGDVPVPEDQLPVVLPEDVVPDGSGSPLAKMPEFYECSCPKCGQPAKRETDTMDTFVESSWYFARYASPTYDKGMVDPAAANHWLPVDQYIGGIEHAILHLLYARFFHKLMRDEGLVSSNEPFKNLLTQGMVVAETYYRTAENGGKDWFNPADVEVERDAKAKVIGAKLKTDGLPVEIGGTEKMSKSKNNGVDPQAMIDQYGADTCRLFMMFASPPDMSLEWSDSGVEGASRFLRRVWRLAHAHVSQGLPGTLDKNPLNDEQKGIRRAIHLAIKQASQDVGQHHKFNTAIAQVMTLMNVLEKAPTATTQDRALLQEGLETVALLLAPITPHICHALWEQLGKSGAIIDAGWPQVDESALVQDSLELVVQVNGKLRGHIEVPASASREEIESAARQNENVLRFTEGLTIRKVIVVPGKLVNIVAN				NA	NA	NA	NA	NA
BMS010_05545	606	lptE		LPS-assembly lipoprotein LptE	ATGATGAAACGGAATCTGATCCTGATCGGCCTCGCCGCCCTGCTGAGCGCCTGCGGCTTCCAGTTGCGCGGTACCGGCGATATCCAGTTCGCCCTGCGCGAACTGGACGTTTCGGCGCGCAACGCCTACGGCGAAACCGTCAAGCAACTGCGCCAGCAACTGGAAAGCAACGACGTCAAAGTCTACCCGGGTGCCGCCTACAAGCTGGTACTGATCCGCGAAACCGAAGGCAAGCGCACCGCCAGCTATACTGGCAGCGCACGTACGGCCGAGTACGAGCTGACCGACAAGCTGGACTTCGAAATCCGTGGCGCGAAGAACATGCTGCTGCTCGCCGACAATGCCGAAGTACAGAGCATCTACGTGCACGACGAGAACAACCTGATCGGCTCCGACCAGGAAGAAGCCCAGTTGCGCAACGAGATGCGCCGCGATCTGGTGCAGCAATTGGTGATGAAACTGCAACGGATCACCCCGGACCAGCTCGACCAGTTGCAGCAGTCGGCCGAAGCCAGAGCCCGCGCCGAAGCCGAAGCGCTGGAAGCCGCACGCCGTGCGCGGCAGGTCGAACCCCAGCAATCGCCGATCCAACTGCCGATCCAGTGA	MMKRNLILIGLAALLSACGFQLRGTGDIQFALRELDVSARNAYGETVKQLRQQLESNDVKVYPGAAYKLVLIRETEGKRTASYTGSARTAEYELTDKLDFEIRGAKNMLLLADNAEVQSIYVHDENNLIGSDQEEAQLRNEMRRDLVQQLVMKLQRITPDQLDQLQQSAEARARAEAEALEAARRARQVEPQQSPIQLPIQ	PGPT0023297_215	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023297-lptE|rlpB-K03643	NA	NA
BMS010_05546	1038	holA	COG1466	DNA polymerase III subunit delta	ATGAAGCTCAATCCTGCCCAGCTCGCCAAGCACCTCCAGGGCTCCCTGGCACCCGTCTACGTGGTCAGCGGTGACGAGCCGCTGCTCTGCCAGGAAGCCTGCGACGCGATCCGTGCCGCTACCCGCGCCCAGGGTTTCAGCGAGCGCCAGGTGTTCAACGTCGAGAACAACTTCGACTGGGGTCAGTTGATCGAGGCCGGTGCCAGCCTCTCGCTGTTCGCCGAGAAGCGCCTGATCGAGCTGCGTATCCCCAACGGCAAGCCGGGTGACAAGGGTGCCGCCGCCCTGCTCGAATACCTCGCCCGTCCGGCGGAAGACACCTTGCTGCTGATCAGCCTGCCGAAGCTGGATGGCAGCACGCAGAAAACCAAGTGGGCCAAGGCCCTCATCGACGGACCGCACGCGCAGTTCATTCAGATCTGGCCGATCGACGCTCACCAGTTACCGCAGTGGATTCGCCAACGCCTGTCCCAGGCCGGCCTCGCCGCCAACCAGGAAGCGGTGGACCTGATCGCCGCGCGGGTGGAGGGCAACCTCCTCGCCGCCGCGCAGGAAATCGAAAAGCTCAAGCTGCTCGCCGAAGGCAACCAGATCGACGCCGCTGTGGTGCAGGCCGCAGTGGCCGACAGTGCCCGTTTCGACGTCTTCGGCCTGATCGATGCCGCCCTCAACGGCGAAGCCGCCCACGCCCTGCGCATGCTCGATGGCCTGCGCGGCGAAGGCGTGGAAACCCCGGTGATCCTCTGGGCCCTGGCCCGCGAGCTGCGCCTGCTGGCCGGACTCGCCCAGCAATATGCCCAGGGTGTGCCGCTGGAGAAGGCCTTCAGCCAGGCCCGCCCGCCCGTTTGGGACAAACGCCGGCCGCTGCTCTCCAAGGCACTGCAACGCCACTCCAGCGCCCGCTGGAACCAGTTGCTGATGGATGCCCAACGCATCGATGCCCAGATCAAGGGCCAGGCGGCCGGCGATCCGTGGAACGCCCTCGGCCGCCTGACCTTGCTGGTCGCCGGCCAGCGCCTGCCGTTGCCATCCGAGTAA	MKLNPAQLAKHLQGSLAPVYVVSGDEPLLCQEACDAIRAATRAQGFSERQVFNVENNFDWGQLIEAGASLSLFAEKRLIELRIPNGKPGDKGAAALLEYLARPAEDTLLLISLPKLDGSTQKTKWAKALIDGPHAQFIQIWPIDAHQLPQWIRQRLSQAGLAANQEAVDLIAARVEGNLLAAAQEIEKLKLLAEGNQIDAAVVQAAVADSARFDVFGLIDAALNGEAAHALRMLDGLRGEGVETPVILWALARELRLLAGLAQQYAQGVPLEKAFSQARPPVWDKRRPLLSKALQRHSSARWNQLLMDAQRIDAQIKGQAAGDPWNALGRLTLLVAGQRLPLPSE				NA	NA	NA	NA	NA
BMS010_05547	162			hypothetical protein	ATGGCCAAGAAATCCCGACCCGGCCCGAACAAGGCCAAATCCCTGGTTGCCCAGCCCCTCTTCCGCTGTCGCCAGGAAAAGCCGAAAAAAGGCAAAGGCAGCTACCGCCGCGAAGCCTCCCAGTCCACCAACTGGGAGGCTTCGGTCTTTCTGGCGGCGTGA	MAKKSRPGPNKAKSLVAQPLFRCRQEKPKKGKGSYRREASQSTNWEASVFLAA	PGPT0001755_1905	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001755-ldhA-K03778	NA	NA
BMS010_05548	1329			Tn3 family transposase TnXax1	ATGTTTTACCGTCCCGCCGCCGGCCGACCGTTCCGCCATCTGATCGCCGGCTCCGCGCTGCTGCTGACCGCCTGCACCGAACCGCCTGTCGCCGCAGACCAGACCCCGAGCCAGCCTCCCCAACCCCCTCAGGTGCAAGCTGCACCCCAGACCGCGCCAACCCCGCCCGACGTACCATTCGAGCAACCCGCCATCAGCTTCGATGATTGGCGTACCGGCTTCCGCGAGCAGGCACTCGGCAAGGGCATCGACGCCAGGGTCTTCGATAACGCTTTCGCCGGCGTCACGCCCGATCCCGCGGTGATCGCCGCCGACCGCAGCCAACCCGAATTCACCCGCCCGGTCTGGGAATACCTGGACGGCGCCCTCTCTCCTCAGCGCGTCGGCAAGGGCCAGCAACTGCTGCGCCAGCACGCCGCGACGCTGCAGAGGATCGAAGACATCTACGGCGTCGACCGCCAGGCGCTGGTCGCCATCTGGGGCATGGAAAGTAACTTCGGCCAGATCATGGGCGACAAGCCGGTGATCCGCTCGCTCGCCACCCTGGCCTACGAAGGCCGCCGGCCGCAGTTCGCCCAGGAACAACTGCTGGCCGCCCTGGACATCCTCCAGCACGGCGACGTCCAGCCCGCACGGATGCTCGGCTCCTGGGCCGGTGCCATGGGCCAGACCCAGTTCATCCCGACCACCTATAACACCCATGCAGTGGATTTCGACGGCGACGGCCGCCGCGACATCTGGGGTTCGTCCGCCGACGCCCTGGCCTCGGCCGCGCACTACCTGCAAGCCTCTGGCTGGCGCAAGGGGCAGCGCTGGGGCTTCGAAGTGAAACTGCCGCAGGGATTCGACTACGCCCAGGCCGACACCGATATCCGCAAACCCCTGGCCGAGTGGCGGCAGATGGGCATCGCCGGGATTCCCGCCGGCAACGAAACGGACAGCGCCTACCTGCTGCTCCCGGCCGGCTACCGTGGCCCGGCCTTCCTGGTACTGAACAACTTCCGCAGCATCCTCAAATACAACAACTCGTCGTCCTATGCCCTGGCCATCGGCCTGCTCGGCGAGCGCCTGCAAGGGGGCGGATCGATCGCCGGCCAATGGCCGAAGGACGAACTGCCACTGTCGCGCAGCGAGCGCATCGAATTGCAGGAGCGCCTGGCCAATAGCGGTTACGACCCCGGCGCCGCCGACGGCATCATTGGCGCCAATACCCGTCGGGCGATCCGTGGCTTCCAGCAGTCCCTCGGCTGGCCAGCGGACGGTTACCCGACCCAGTCGCTGCTCCGCCAGTTGCGCGACGCCGCACTGCCGGCCACGACCAGCCGCTGA	MFYRPAAGRPFRHLIAGSALLLTACTEPPVAADQTPSQPPQPPQVQAAPQTAPTPPDVPFEQPAISFDDWRTGFREQALGKGIDARVFDNAFAGVTPDPAVIAADRSQPEFTRPVWEYLDGALSPQRVGKGQQLLRQHAATLQRIEDIYGVDRQALVAIWGMESNFGQIMGDKPVIRSLATLAYEGRRPQFAQEQLLAALDILQHGDVQPARMLGSWAGAMGQTQFIPTTYNTHAVDFDGDGRRDIWGSSADALASAAHYLQASGWRKGQRWGFEVKLPQGFDYAQADTDIRKPLAEWRQMGIAGIPAGNETDSAYLLLPAGYRGPAFLVLNNFRSILKYNNSSSYALAIGLLGERLQGGGSIAGQWPKDELPLSRSERIELQERLANSGYDPGAADGIIGANTRRAIRGFQQSLGWPADGYPTQSLLRQLRDAALPATTSR	PGPT0023785_312	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_TRANSGLYCOSYLASE_ACTIVITY,PGPT0023785-mltB-K08305	NA	NA
BMS010_05549	1431	ttgC_2		Toluene efflux pump outer membrane protein TtgC	ATGATGCGCCGGCCCGTTTTCGTTCCGCTGCTGCTGGCGCTCGCGCTGGGCGGTTGCGCCAACCTCGCCCCGGATTACCAACGACCGCAGGCGCCTGTGGCCGATCAATGGCCGGCGCAGGCGGCGAGCACCTCGGGCAACGCCAGCGCCGAAATCGATTGGCGCAGCTTCTTCATCGACGCGCGTCTCGAGCAGGTGGTCGAACGCGCCCTGGCGAACAACCGCGACCTGCGCGTCGCCGCCCTGAACATCGAGAAGGCCCGCGCCCAGTACCGCATCCAGCGCGCCGAGCAATTTCCCTCGGTGGCGGCCAGCGTCAGTGGGACCCGCTCGCGCACACCGGCTTCATTGAATGGGGGAGAAGCGGCCAGCATCGGTTCGCAATACAGCGCCGAGCTGGGGTTCAGCAGCTACGAGCTGGATTTCTTCGGCCGGCTGAAGAACCTCAGCGAGTCGGCCCTGGAAGATTATCTGGCCCTGGAGGAGACCCATCGCAGCACGCAGATCAGCCTGGTCGCCGAAGTCGCCAACGCCTGGCTCACCCTGGCCGCCGACGAGGCCCTGCTGCAACTCGCCGAAGACACCCTGAAAAGCCAGCAGGCGTCCTACGAACTGACCCGGCGCAGCCATGACCTCGGCAACAGCTCCGGTGTGGCATTGGCCCAGGCGCAGAGCACCGTGGAGTCGGCGCGCGAGGACGTGGCGGAATACACCAGCCAGGTCCGCCAGGACATCAACGCACTGACATTGCTGGTGGGTGACAGCGTGCCCGACACGCTGCTGCCGGCCACCCTGGATGCGGAAGCCGCGCAACTGGTGGAGATTCCGGCCGGCCTGCCGTCCAGCCTGCTGCAACGCCGGCCCGATGTGCTCGCCGCCGAGCATGACCTGAAAGCAGCCAATGCCGATATCGGCGCTGCCCGCGCCGCGCTGTTTCCCAGCATCACCCTGACCGGTGCGGCGGGCACCAGCAGTGCCGACCTGAGCGGGTTGTTCAAGGGTGGCAGCGGCGCCTGGAGTTTCGCGCCGAGCATCAGCGTACCGATCTTCAACGCCGGCAGCCTGCGTGCCAGCCTCGAGTCGGCGAAGACCGAGAAGGCCATCCAATTGGCCACTTACGAAAAGACCGTGCAGAGCGCGTTCCGGGAGGTTGCCGATGCGCTGGCGGTGCGCAGCACCTTGCAGGACCGGTTGAATGCACAGCGCGCGCTGGTCGAGGCTACCGAGCGCAGCTATCGGCTATCCGATGCGCTCTATCGCAACGGCGCCAACAGCTACCTGGAAGTGCTGGATGCCCAGCGCTCGCTCTATTCGGCGCGCCAGGGCCTGATCAGCCTGGAATTGTCGGAGCAGGCCAACCGCTTGACGCTGTACAAGGTGCTCGGTGGTGGCGCCTCCACCGAGCGGCAGGCCGGCAACGCGGCGTCGTGA	MMRRPVFVPLLLALALGGCANLAPDYQRPQAPVADQWPAQAASTSGNASAEIDWRSFFIDARLEQVVERALANNRDLRVAALNIEKARAQYRIQRAEQFPSVAASVSGTRSRTPASLNGGEAASIGSQYSAELGFSSYELDFFGRLKNLSESALEDYLALEETHRSTQISLVAEVANAWLTLAADEALLQLAEDTLKSQQASYELTRRSHDLGNSSGVALAQAQSTVESAREDVAEYTSQVRQDINALTLLVGDSVPDTLLPATLDAEAAQLVEIPAGLPSSLLQRRPDVLAAEHDLKAANADIGAARAALFPSITLTGAAGTSSADLSGLFKGGSGAWSFAPSISVPIFNAGSLRASLESAKTEKAIQLATYEKTVQSAFREVADALAVRSTLQDRLNAQRALVEATERSYRLSDALYRNGANSYLEVLDAQRSLYSARQGLISLELSEQANRLTLYKVLGGGASTERQAGNAAS	PGPT0009810_2701	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexXY-OprM,PGPT0009810-toxI|oprM|oprM|emhC|ttgC|cusC|adeK|smeF|mtrE|cmeC|gesC-K18139	NA	NA
BMS010_05550	3141	acrB_2	COG0841	Multidrug efflux pump subunit AcrB	ATGCCACGTTTTTTCATCGATCGGCCGATCTTCGCCTGGGTCATTTCCATCGTCATCATGCTCGCCGGCACGCTGTCCATCAGCCAGTTGCCGCTGGAGCAGTACCCGGACATCGCCCCGCCCGAAGTACGCATTTCCGCCACCTATACCGGTGCCTCGGCCAAGACCATCGAGGACTCGGTCACCCAGGTGATCGAGCAGCAGATGAAAGGGCTCGACGGCCTCACCTACATGTCCGCCTCCAGCAGTTCGGCGGGCACCGCCAGCATCAACCTGACCTTCAGCGCCGGCACCGACCCGGACGTGGCGCAGATGCAGGTGCAGAACAAGCTGCAACAGGCCGAGTCGCGCCTGCCCCAGGCGGTGCAGAACCAGGGCATCACGGTGACCAAGGGCGGCTCCGACTTCCTGATGATCGTCGCCCTGCAGTCGGCCAACCCGTCGGTCACCAGCACCGATATCGGCGATTACATTTCCAGCAGCCTGCTCGATCAGGTCAGCCGGGTGGATGGCGTCGGCGAGGTACGGACCCTGGGCTCCGGCTACGCCATGCGCATCTGGCTCGACCCGGCCAGGCTGGAGCAGTACGCGCTGATGCCGTCGGACGTCAGCGCCGCCATCGAGGCACAGAACACCGAGGTCTCGGCCGGCCAGCTCGGCGCATTGCCGGCCAGGACCGGACAGCAGTTGAACGCCACCATCAGTGCGCGCAGCAAGTTACAGAGCGAGGCGGACTTCCGCGAGATCGTGCTCAAGGCTGGCAGCGACGGCTCGCTGGTGCGGCTGGCGGACGTCGCCCGCGTCGAACTGGGCAGCGAAAGCTACGACGTGGTGACCTCGCTCAACGGCAAGCCCTCGGCGGCCATGGGTATCACCCTGGCCACCGGCGCCAACGCGCTGGATACCGCCGAGGCGGTGAAGGCGAAGCTCGCCGAGCTGTCGGCCAACTTCCCGGCGGAAATGCAGTTGGAAACGGCGATCCCCTACGACACCACGCCGTTCGTCAGCCTGTCCATCGAGGAGGTGGTCAAGTCGCTGTTCGAGGCCATCGTCCTGGTGGTGGCGATCATGTACCTGTTCCTGCAGAACTGGCGCGCCACCTTGGTCCCGGCGATCACCGTGCCGGTGGTGCTGCTCGGCACCTTCGGCGTGCTGGCGGCGTTCGGTTACTCGATCAACACCCTGACCATGTTCGGCATGGTCCTGGCCATCGGCCTGCTGGTGGACGACGCCATCGTGGTGGTGGAGAACGTCGAGCGGGTCATGAGCGAGGAGGGCCTGTCGCCCCGCGAGGCGACGCGCAAGTCCATGGGCGAGATCAGCGGCGCGCTGGTCGGCATCGCCCTGGTGCTCTCGGCGGTATTCATTCCCATGGCTTTCTTCGGCGGCTCCACCGGGGTGATCTATCGGCAGTTCTCCATCACCGTCGTCAGCGCCATGCTGCTTTCGGTGCTGGTGGCCATGAGTCTCAGCCCGGCGCTCTGTGCCACCCTGCTCAAGCCCTCGGCCGAAGGCGGGCATGCGCCGAAGCGGGGCTTCTTTGCCTGGTTCAACCGCACCTTCGAGCGTAATGCGGGGCGCTACCAGGGCGGCGTCGGCAGCGTGTTGCGCCGTGGACCACGATTCCTGGCGCTGTACGCGATCATCCTGGTGGTAATGGCGGTGGGATACCTGCGCCTGCCCGGTTCCTTCCTCCCCGACGAGGACCAGGGGATGCTGATGGCGATGACCCAGTTGCCGGTGGGCGCCACCGATGCGCGCACCCAGGCGGCGATGACGGAGTTCATCGACTACATCCGCGCACAGCCGGAGGTCGACTCCCTGGTCAGCATCACGGGCATGGGCATGGGCGGCAATGCACAGAATGCCGGCCGCGCCTTCATCAAGCTGAAGGACTGGAGTCTGCGCGACGGCACCGAACATGCCGCGGCGGCCATCGCTCGGCGCGCCACCCTGGAGCTTTCCAACCTGCGCGATGCGAGCATCTTCGTCATGCAGCCGCCGGCGATCCGCGGCCTCGGCGACAGCTCCGGCTTCAACCTGCAACTCAAGGATGTCGGCGGCGTCGGGCATGATGCCCTGGTCGCCGCCCGCGACCAATTCCTCGCCCTGGCGGCCAAGAGCGACAAGCTGGTGGGCGTGCGTAGCACCGGCCTAGACGACACCGCCGAATTCCGCGTGGCCATCGACGACCGCAAGACCGGTGCCTACAGCCTGGCCACCAGCGACATCAACACCACCCTCGGCACGGCCATGGGCGGCAGCTACGTCAACGATTTCATCCACAACGGACGGGTGAAGAAGGTCTACGTGCAGGGCGATGCCGACGCGCGCATGCAGCCCGAGGACATTGGCCGCTGGTACGTGCGCAACAGCCTCGGCGAGATGGTGCCGTTCTCCGCCGTCGCCAGCACCGGCTGGACCTTCGGCTCGCCGCTGCTGGAACGCTACAACGGTAACGCCTCGCTGGAACTGGTCGGCGATCCGGCGGCCGGGGTCAGTTCGGGCGAAGCCATGGCCGAGGTCGAATCGCTGATAGCCCAGTTACCGGCCGGTATCGGCTACGAATGGTCCGGGCAGTCCTACCAGGAGCGCCTGTCCGGCTCCCAGGCGCCGCTGCTCTATGGGGTGTCGATCCTGTTCGTCTTCCTTTGCCTGGCGGCGCTCTACGAGAGCTGGTCGATTCCCTTCGCGGTAATGCTGGTGGTGCCGCTCGGGGTCATCGGCGCGGTGCTGGCCACCCGTCTCGGCGGGTTGAGCAACGACGTCTATTTCCAGGTCGGGCTGCTCACCACGGTCGGCCTGGCGGCGAAGAACGCGATCCTCATCGTCGAGTTCGCCAAGCAGTTGCAGGAGCAGGGCCGCGACCTGATCGACGCCACTCTCGAGGCTTGCCGCCAGCGCCTGCGGCCGATCCTGATGACCTCCCTGGCCTTCATGTTCGGTGTGCTTCCGCTGGCCCTGAGCAGCGGCGCCGGTTCCGGCGGCCGCCGGGCCATCGGCACCGGCGTGCTGGGCGGCATGTTCTCGGCCACGGTGCTGGGGATTTTCTTCGTGCCGCTGTTCTTCGTCCTGGTCCGTCGTCTGTTCAGCAAGAAGACGCCGACCGAATCCAACCTTGTCGCAGGAGTCCAGCCATGA	MPRFFIDRPIFAWVISIVIMLAGTLSISQLPLEQYPDIAPPEVRISATYTGASAKTIEDSVTQVIEQQMKGLDGLTYMSASSSSAGTASINLTFSAGTDPDVAQMQVQNKLQQAESRLPQAVQNQGITVTKGGSDFLMIVALQSANPSVTSTDIGDYISSSLLDQVSRVDGVGEVRTLGSGYAMRIWLDPARLEQYALMPSDVSAAIEAQNTEVSAGQLGALPARTGQQLNATISARSKLQSEADFREIVLKAGSDGSLVRLADVARVELGSESYDVVTSLNGKPSAAMGITLATGANALDTAEAVKAKLAELSANFPAEMQLETAIPYDTTPFVSLSIEEVVKSLFEAIVLVVAIMYLFLQNWRATLVPAITVPVVLLGTFGVLAAFGYSINTLTMFGMVLAIGLLVDDAIVVVENVERVMSEEGLSPREATRKSMGEISGALVGIALVLSAVFIPMAFFGGSTGVIYRQFSITVVSAMLLSVLVAMSLSPALCATLLKPSAEGGHAPKRGFFAWFNRTFERNAGRYQGGVGSVLRRGPRFLALYAIILVVMAVGYLRLPGSFLPDEDQGMLMAMTQLPVGATDARTQAAMTEFIDYIRAQPEVDSLVSITGMGMGGNAQNAGRAFIKLKDWSLRDGTEHAAAAIARRATLELSNLRDASIFVMQPPAIRGLGDSSGFNLQLKDVGGVGHDALVAARDQFLALAAKSDKLVGVRSTGLDDTAEFRVAIDDRKTGAYSLATSDINTTLGTAMGGSYVNDFIHNGRVKKVYVQGDADARMQPEDIGRWYVRNSLGEMVPFSAVASTGWTFGSPLLERYNGNASLELVGDPAAGVSSGEAMAEVESLIAQLPAGIGYEWSGQSYQERLSGSQAPLLYGVSILFVFLCLAALYESWSIPFAVMLVVPLGVIGAVLATRLGGLSNDVYFQVGLLTTVGLAAKNAILIVEFAKQLQEQGRDLIDATLEACRQRLRPILMTSLAFMFGVLPLALSSGAGSGGRRAIGTGVLGGMFSATVLGIFFVPLFFVLVRRLFSKKTPTESNLVAGVQP	PGPT0016195_896	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-SURFACTIN_RESISTANCE,PGPT0016195-swrC|yerP-K03296	NA	NA
BMS010_05551	1182	mexA		Multidrug resistance protein MexA	ATGCCCACAATACTCAACAGATTCCTGGTCAACCTGGCCCCGCTCATTGCCCTCTCGGCGGTGCTGGCCGGTTGCTCGCCGGCAGGTGAGATGCCGGCGCCCCCGCCGCCCGAAGTGGGTGTGATCACCGTGACCCCGCAATCGCAGACGCTTACCAGCGAGCTGCCGGGGCGTACACGGGCCTGGATGGTGGCGGAGATTCGTCCGCAGGTCGGCGGTATCGTGAAGCAGCGGCTGTTCACCGAAGGCGCCGAGGTCAAGGCGGGGGATGCGCTGTACCAGCTCGATCCGGCGACCTACCAGGCGGCTTATGCCGAGGCCAGGGCCAATGCCGCCAAGGCCGAAGCGACCCTGGTGTCGGCGCGGCTGAAGGCGAAGCGCTACGCCGAGCTGGCAAAGATCGATGCGGTCAGCCAGCAGGACAACGAAGACGCCCAGGCCAGTCTGAAGACCGCCGAGGCCGACGTGAAATCGGCCCAGGCCAGCGTGGACAGCGCCCGCATCAACCTCGCCTACACCCGCATCGACGCGCCGATCTCCGGCCGCATCGAGACCTCCACGGTAACCCCCGGCGCGTTGGTGACCGCCAGCCAGGAAACCGCCTTGACTACCGTGCAACAGATCGATCCGCTGTATGTCGACGTCACCCAGTCCAGCGCCGAAGTACTGCGCCTCAAGCGCGAACTGGCCGAGGGCAAGCTGAAGAGCGCCGGCAAGGACGAAGCGCGCATCACCCTGCTGCTGGAGGACGGCAGCCCGTACGCACATGAAGGCCGCTTGCAGTTCGCCGGCGCCACGGTCTCGGAAAGCACCGGCAGCGTCACGCTGCGCGCCGTGGTACCGAACCCCGATGGCCTGTTGCTGCCGGGCATGTACGTTCGCGCGGTGCTGGAAGAAGCGGTGGACGATCAGGCCCTGCTGGTGCCGCAACGGGCGGTGACGCGCAGTGCCAGCGGTGCGGCCAGTGTCCTGCTGGTGGTCGACGGCAAGGTCGAGCAGCGCCTGGTGACGCTCGGTCGTAGCGTCGGCAACGACTGGTGGGTGACCGGCGGCTTGGCCGCTGGCGACCAGGTGATCGTCGAGGGCGGGCAGAAGGCCAGGGTCGGTACTTCGGTCCGCAGCGTCGCTCTCGAACAGCCGGCCGGCGCCAGCGACGGCCTAGCCACCCGCAGCGCGAACTGA	MPTILNRFLVNLAPLIALSAVLAGCSPAGEMPAPPPPEVGVITVTPQSQTLTSELPGRTRAWMVAEIRPQVGGIVKQRLFTEGAEVKAGDALYQLDPATYQAAYAEARANAAKAEATLVSARLKAKRYAELAKIDAVSQQDNEDAQASLKTAEADVKSAQASVDSARINLAYTRIDAPISGRIETSTVTPGALVTASQETALTTVQQIDPLYVDVTQSSAEVLRLKRELAEGKLKSAGKDEARITLLLEDGSPYAHEGRLQFAGATVSESTGSVTLRAVVPNPDGLLLPGMYVRAVLEEAVDDQALLVPQRAVTRSASGAASVLLVVDGKVEQRLVTLGRSVGNDWWVTGGLAAGDQVIVEGGQKARVGTSVRSVALEQPAGASDGLATRSAN	PGPT0003275_1556	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003275-acrA|lir|mtcA|mexA|adeI|smeD|mtrC|cmeA-K03585	NA	NA
BMS010_05552	1425	baeS	COG0642	Signal transduction histidine-protein kinase BaeS	ATGACGGCTCCTCGACGCACGCCTGAATCCATGAAAATCAGCATTTCCACCAAACTGTTCCTCGCCGTGCTCTCCACCGCCCTGTGTGTCACCCTGGCCATGGGTGCGGCCGACGGCTGGAGCTTCGTCCGCGGCTTCCTCGGCTATGTCAACGAACTGGCCGTGCAGCGCATGGACGCCATGCAGACACAGGTCAGCGAAGGCTACCGGCAGCACGGCAACTGGGAATTCGTGCGCAACCAGCCCCGCGTCTGGTTCGAAATGACCCGGCCGGAAAACGACCCGTTCCGCCCCGGCGACATGTCCACGCCCCGGCTCGCGCCGGTTTCCGACCTGACCGGGGCCATGCTGCGCATCTCCCTGTTGGACGAGCGCGGCGAACCGGTGATGAGCTTCATCGAAGTGGGGCGGGACGCAGTGCGCCGGCCGATCGTGGTCGACGGGCGGACCGTCGGCTGGCTGGCCATGACGCCCTTCCAAAGCGTCATCGAGGTCGGCGGCCAGCGCTTCCTGCACAACCAGTTGCGGGGCAGTCTGGTCGTCGGGCTGATCGCTCTGCTGCTGGCGGCGCTGATCGCCTGGTGGGTGGCGCGACGACTGCTGGCGCCGGTCAAGCAGGTGGCTGCCGCCACCCATCGTCTGGCCGCGGGCGAATACACCGAGCGGGTGAGTGTCGACTCCCAGGATGAAGTCGGCCAACTGGCCCGCGACTTCAACCAGCTCGCCCACACCCTGGAGCGCAACGAGCAGATGCGCCGGGCCTTCATGGCCGATGTCTCCCATGAGCTGCGCACACCGCTGGCGATCCTGCGCGGCGAACTCGAGGCCATCGAGGATGGCGTGCGCAAGCTCGACGGCGAATCGCTTCGCTCGCTACAGGCGGAGGTCGGCATGTTGAGCAAGCTGGTGGACGATCTCTACGAACTGTCGCTGGCGGACGTCGGCGCGCTGACCTATCGCAAGAGCGAGCTGGACATCGTCGAGCAACTGCGCATCGTCCTCGGCATCTACCGCGATCGTTGCGCCGAACACGGCCTGGCCCTGGAGCTGCAACTCCCTGCGCAGCCCGTGCCGGTGCTCGCCGATGCCGGGCGCTTGCAGCAGTTGTTCAGCAACCTGCTGGAGAACACCGTGCGCTACACCCATGCCGGCGGCTGCCTGCGAGTCGCCGTCCAGGTCGAGGACGATGCGGTGAGCATCGATTTCCTCGATTCGGCGCCCGGCGTGGACGAACGACATCTGCCGCGGCTGTTCGAACGCTTCTACCGCGGCGAGGGATCGCGCAGCCGTGCCAGTGGCGGGTCGGGGCTCGGCCTGGCGATCTGTCACAGCATCGTCGAGGCCCATGGCGGCACCATCGAAGCGCGCCCCTCTCCCCTCGGCGGGCTTTGGCTGAACATCCGTCTGCCGAAGGGAGGACAGTGA	MTAPRRTPESMKISISTKLFLAVLSTALCVTLAMGAADGWSFVRGFLGYVNELAVQRMDAMQTQVSEGYRQHGNWEFVRNQPRVWFEMTRPENDPFRPGDMSTPRLAPVSDLTGAMLRISLLDERGEPVMSFIEVGRDAVRRPIVVDGRTVGWLAMTPFQSVIEVGGQRFLHNQLRGSLVVGLIALLLAALIAWWVARRLLAPVKQVAAATHRLAAGEYTERVSVDSQDEVGQLARDFNQLAHTLERNEQMRRAFMADVSHELRTPLAILRGELEAIEDGVRKLDGESLRSLQAEVGMLSKLVDDLYELSLADVGALTYRKSELDIVEQLRIVLGIYRDRCAEHGLALELQLPAQPVPVLADAGRLQQLFSNLLENTVRYTHAGGCLRVAVQVEDDAVSIDFLDSAPGVDERHLPRLFERFYRGEGSRSRASGGSGLGLAICHSIVEAHGGTIEARPSPLGGLWLNIRLPKGGQ	PGPT0003985_504	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-ENVELOPE_STRESS_RESPONSE,PGPT0003985-baeS-K07642	NA	NA
BMS010_05553	684	baeR_2	COG0745	Transcriptional regulatory protein BaeR	ATGCTCAACGATGCCCCGGCGTCCGCCCGCATCCTGGTGGTGGAGGACGAACCCAAGCTGGCCGCCCTGCTGCGCGACTATCTGCAGGCGTCGGGTCATGACGTCGCCTGCCTGGATAATGGCCTGGACGTCGTGCCCGCGGTCCGCGCACAGGAGCCGGACCTGATTCTCCTCGACCTGATGCTGCCGGGCCGCGATGGCCTGGAGGTGTGCCGGGAACTGCGCACGTTCAGCGACGTGCCGATCATCATGGTCACCGCCCGGGTCGAGGAGATCGACCGCCTGCTCGGCCTCGACCTCGGCGCCGACGACTACATCTGCAAGCCGTTCAGCCCCCGCGAAGTGGTGGCCCGTGCCCGTGCGATCTTGCGCCGGCGCCCACTGGCCGCCCGGACGGAACAAGGCCTGAGCCTGGACGAAAGCACCTACAAGGCGAGCTTCAAGGGCATCGAGCTGGACCTGACGCCCGTGGAGTTCCGCCTGCTGAGTTGCCTGGCAGCTTCCCCTGGGCGGGTGTTTTCCCGCGACCAGTTGCTGGACCGTCTCTACGACGACCACCGGGTGGTCACCGACCGCACGGTGGACAGTCACGTCAAGAACCTGCGGCGCAAGCTGGAACAGATCGCCCCGGAGCAGAGCCTGATCCATTCGATCTATGGGGTGGGGTACAAGTTGGAATTCTGA	MLNDAPASARILVVEDEPKLAALLRDYLQASGHDVACLDNGLDVVPAVRAQEPDLILLDLMLPGRDGLEVCRELRTFSDVPIIMVTARVEEIDRLLGLDLGADDYICKPFSPREVVARARAILRRRPLAARTEQGLSLDESTYKASFKGIELDLTPVEFRLLSCLAASPGRVFSRDQLLDRLYDDHRVVTDRTVDSHVKNLRRKLEQIAPEQSLIHSIYGVGYKLEF	PGPT0003990_457	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-ENVELOPE_STRESS_RESPONSE,PGPT0003990-baeR-K07664	NA	NA
BMS010_05554	1053	LIAS		Lipoyl synthase, organellar chromatophore	ATGTCCGATACAACCCCGTCCAAACCCGTTGCCAGCGGCGACAAGTTCCGCACCGCTCAGGGCATCGTCGCGATCAAGGATGGCCAGAAGCGCCGCTCCTCTGCCGAACCCCAGGTATTCGAGCCCAAGCCCAAGTGGCTGCGAGTCAAGGCGCCCGGTGGCAGCCGCTTCGAAGCGGTCAAGCGCAACGTCGGCGAGCACCGCCTGAGCACCGTGTGTCAGGAGTCGCATTGTCCGAACATGGGCGAGTGCTGGTCCAACGGTACCGCCACGATCATGCTGATGGGCTCGGTGTGCACACGTGCCTGTCGCTTCTGCGCGGTGGATACCGGCAACCCGAACGGCTGGCTGGACAAGGAAGAACCGCAGAACACCGCCGAGTCGGTCGAGCTGATGGCGCTGCGCTACATCGTGCTGACCTCGGTGGATCGAGACGATCTGGAAGATGGTGGCGCCAGCCACTACGCCGCCTGCGTGCGCGCCATCAAGGAGCGCACCCCGCAGGTGGTGGTGGAGGCCCTGACCCCGGATTTCAACGGCAACCTGTCGGCCATCGAACGGGTAGTGGATTCCGGCCTGGAAGTGTTCGCACAGAACGTCGAGACGGTCGAACGCCTGACCCATGAGGTGCGCGATCCGCGCGCCGGCTACGAGAAGACTCTGAACGTGTTGGCGCATGCCAAGCGTCACCGCCCGGACGTGCTGACCAAGACCAGCCTGATGCTGGGCCTGGGCGAAACCGACGAGGAAGTCATCGCGACCATGGATGACCTGCGCGCCATCGGCGTGGACATCCTCACCCTCGGCCAGTACTTGCAGCCGACGCGCAACCACCTGCCGGTCAAGCGCTGGGTCAGCCCCGAGGAGTTCAACCGCTTCCGCGACATCGGCCTGCAGAAGGGCTTCATGGAAGTCGCCGCCGGCCCGCTGGTGCGTTCCAGCTACCGCGCCGACCGGGTATTCGAGAAGAACAACCTGGGCCTGGCGGCACCGGCTCCGGTGCCCGGTCAGGAAGTCGATACCAGCCTCATCCCGACGCTGAACCTGAACTGA	MSDTTPSKPVASGDKFRTAQGIVAIKDGQKRRSSAEPQVFEPKPKWLRVKAPGGSRFEAVKRNVGEHRLSTVCQESHCPNMGECWSNGTATIMLMGSVCTRACRFCAVDTGNPNGWLDKEEPQNTAESVELMALRYIVLTSVDRDDLEDGGASHYAACVRAIKERTPQVVVEALTPDFNGNLSAIERVVDSGLEVFAQNVETVERLTHEVRDPRAGYEKTLNVLAHAKRHRPDVLTKTSLMLGLGETDEEVIATMDDLRAIGVDILTLGQYLQPTRNHLPVKRWVSPEEFNRFRDIGLQKGFMEVAAGPLVRSSYRADRVFEKNNLGLAAPAPVPGQEVDTSLIPTLNLN	PGPT0003935_783	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-PLANT_LIPOIC_ACID_INTERFERRENCE	PLANT_LIPOIC_ACID_BIOSYNTHESIS,PGPT0003935-lipA-K03644	NA	NA
BMS010_05555	588	lipB_2	COG0321	Octanoyltransferase	GTGGTGGACTATCTGCCGACCCTGGAATCGATGCGTCGGCTGACTGCCGAGCGCAACGAACTGACGCCCGACGAAATCTGGCTGCTGCAGCATCCCCGGGTGTTTACCCAGGGGCAGGCCGGCAAGTCCGAGCATCTGTTGGCGCCGGGCGACATTCCAGTGATCCAGGTCGATCGCGGCGGGCAGGTTACCTACCACGGCCCGGGCCAGCTGGTGGCCTATCTGATGCTGGATCTGCGCCGTCTGAATCTGGGCGTGCGCGAGTTGGTGACGGCGATGGAAGAGAGCCTGGTGGATGTGCTGGCCAGCTATTCCGTGGAGGCGGCGCCAAAGGCCGATGCGCCTGGCGTGTATGTCAACGGCGACAAGATCGCTTCGCTGGGGCTACGGGTCAGCCGGGGCTGCTCGTTCCACGGGCTGGCGCTCAATGTGGATATGGACATGACGCCCTTCCTGCGCATCAACCCCTGCGGCTATGCCGGGCTGAAAATGGTGCAACTGAGGGACCTGCTCGATACGCCGCCAGCGATCGAGGAGGTGGCGCAGCGTCTCGAGCAGGTGCTGCGCCAGCGGCTGGGGTACGTCTGA	MVDYLPTLESMRRLTAERNELTPDEIWLLQHPRVFTQGQAGKSEHLLAPGDIPVIQVDRGGQVTYHGPGQLVAYLMLDLRRLNLGVRELVTAMEESLVDVLASYSVEAAPKADAPGVYVNGDKIASLGLRVSRGCSFHGLALNVDMDMTPFLRINPCGYAGLKMVQLRDLLDTPPAIEEVAQRLEQVLRQRLGYV	PGPT0003925_3439	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-PLANT_LIPOIC_ACID_INTERFERRENCE	PLANT_LIPOIC_ACID_BIOSYNTHESIS,PGPT0003925-lipB-K03801	NA	NA
BMS010_05556	279			hypothetical protein	ATGACCGATACCGAAGTACAAGCCCCGAAAATCGACTTCCCCTGCGAGCGCTATCCGATCAAGGTGATCGGCGACGCCGGCGAAGGCTTCGCCGACCTGGTGATCGAAGTCATCCAGCGCCACGCTCCCGATCTCGACGCATCGAGCCTGGTGGTGCGCGACAGCCGCAACGGGCGTTTCCTCTCCGTGCAGGTACTGATCACCGCCACCGGCCTGGAGCAGTTGCAGGCGATCCATGTCGACCTCCGCGCCACCGGCCGCGTGCACATGGTGTTGTAA	MTDTEVQAPKIDFPCERYPIKVIGDAGEGFADLVIEVIQRHAPDLDASSLVVRDSRNGRFLSVQVLITATGLEQLQAIHVDLRATGRVHMVL				NA	NA	NA	NA	NA
BMS010_05557	1161	dacC	COG1686	D-alanyl-D-alanine carboxypeptidase DacC	ATGAACATCACCAGCTTTGCCCAACGCATCACCTTGTCGCTTCTGCTGCTCACCGGCGCCTCCGCCTGGGCCGCCGAACCGGTGATCCCGGCACCGCCGCAACTGGCCGCCAAGTCGTATGTGTTGATGGATGCCGCCAGCGGTAACGTGCTGATCGAGAACAACGCCGACGAGCGCCTGCCGCCGGCCAGCCTGACCAAGCTGATGACCGCCTACCTGGCGACCCTGGACATCAACCGGGGCCAGATCAAGGAAACCGACATGGTTCGCGTCAGCGAGAAGGCCTGGCGGATGGGCGGCTCGAAGATGTTCATCGAAGTGGGCAAGGAGGTATCGGTCAACGACCTGCTGCACGGCATCATCATCCAGTCCGGTAACGACGCCAGCGTCGCTCTGGCCGAGCACATCGCCGGCAGCGAAGACGCCTTCGCCGACATGATGAACGCCACCGCCGAGCGCCTCGGCATGCGCAACAGCCATTTCATGAATGCCACCGGCTGGCCGGACCCGGATCACTATTCCTCGGCCCACGACATGGCGCTGCTGGCCCGCGCGATCGTTTACGAGGATCCGCAGCACTACGCCATCTACGCGCAGAAGGAATTCTTCTGGAACGGCATCAAGCAGCCCAACCGCAACCTGCTGCTGTGGCGCGACAAGACCGTGGACGGCCTGAAGACCGGTCACACCGAGGAAGCCGGCTACTGCCTGGTGTCCTCCGCTGTGCGCGACGGCATGCGCCTGATCGCCGTGGTCTTCGGCACTGCCAGCGAGCAGGCCCGTGCCGCCGAGACCCAGAAGCTGCTGACCTACGGTTTCCGTTTCTTCGAAACCCAGACCTTCTACCAGAAGGGTGCCGAACTGGCCCAGGCCCAGGTCTGGAAGGGCAGCGCGCGCCAGGTCAAGGCCGGCCTGAACCAGGACCTGACCCTGACCCTGCCGAAGGGACAACTGAAGAAGCTGGCCGCCAGCATGACCCTCGAACCGCAACTGGTCGCGCCGATCCAGAAGGGCGATGTGATCGGCAAGGTGGAGGTCAAGCTGGGCGACGAGGTGGTGCACAGCGCCGATCTGGTTGCGCTGGAAGGCGTGGAGGAAGGTGGTTTCTTCCGTCGTCTGTGGGATAGCATCCGCCTGTTCTTCTACGGATTGTTCAATTGA	MNITSFAQRITLSLLLLTGASAWAAEPVIPAPPQLAAKSYVLMDAASGNVLIENNADERLPPASLTKLMTAYLATLDINRGQIKETDMVRVSEKAWRMGGSKMFIEVGKEVSVNDLLHGIIIQSGNDASVALAEHIAGSEDAFADMMNATAERLGMRNSHFMNATGWPDPDHYSSAHDMALLARAIVYEDPQHYAIYAQKEFFWNGIKQPNRNLLLWRDKTVDGLKTGHTEEAGYCLVSSAVRDGMRLIAVVFGTASEQARAAETQKLLTYGFRFFETQTFYQKGAELAQAQVWKGSARQVKAGLNQDLTLTLPKGQLKKLAASMTLEPQLVAPIQKGDVIGKVEVKLGDEVVHSADLVALEGVEEGGFFRRLWDSIRLFFYGLFN	PGPT0024040_4545	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024040-dacC|dacA|dacD-K07258	NA	NA
BMS010_05558	1038	rlpA_4		Endolytic peptidoglycan transglycosylase RlpA	ATGGTACAGATGCCGATCAAATGGGTCGCCCTGGGTACACTGGGTTTGATGTTGGCGAGCTGTTCCAGCAGCCGCGCGCCGCAACCCGTGCAACCGGGCGTGACGCCGATTTCCGGTCCCGGAAGCTTCAGCCGCCCGCATCGGGACGGCGCGCCCTGGTGGGACGTGGACGTGTCGGGTATCCCCGACGCCGTGCCCATGCCGCATTACGGCAGCTACAAGGCCAACCCTTACACGGTGCTTGGCCAGACCTACTACCCGATGAGCGATGCGCGGCGCTACCAGGCCGTTGGCACCGCCTCCTGGTACGGCACCAAGTTCCACGGCCAGGCCACCGCCAACGGCGAAACCTACGACCTCTACGGCATGACCGCCGCGCACAAGACGCTGCCGCTGCCGAGCTACGTGCGGGTGACCAACCTGGAGAACGGCCGCAGCGTGATCCTGCGGGTCAACGACCGTGGCCCGTTCTATTCCGACCGCATCATCGACCTGTCCTTCGCCGCGGCGAAGAAGCTCGGTTACGCCGAAGTCGGCACCGCGCGGGTCAAGGTGGAAGGCATCGATCCCAACGAGTGGTGGGCCAAGCAGGGCCGTCCGGTGCCGATGGTCCTGGCGCAGCCGGGGGCCAAGGTTCAGTCGGTCAGCCAGAACGCGCCGATCACCGTGGCCAGCGTCGCCCAGCCGAGCCCGGCACCGATGGCCCAGCCGATCGAGCAATACACGCCTCCGCCGCAGCAGCACGCCGCGGCAGTACTGCCGGTGCAGGTCGACGCAAAAAAAAAAGGTTCGCCCGGAGCCTCTGGCCTGTATCTCCAGGTTGGGGCCTTCGCCAATCCCGACGCTGCGGAACTTCTCAAGGACAAGCTGAGCCAGGCAGTCGATGCGCCGGTGTTCATCAGCTCAGTCGTGCGCAACCAGCAGATCCTGCACCGGGTGCGCCTGGGGCCGATCGAGACGCAGGGTGAGGCCCAGCAAGTACAGGACAGCGTGAGGCTGGCCAACCTCGGCCAGCCGACCTTCGTGAAGCCGGAGTGA	MVQMPIKWVALGTLGLMLASCSSSRAPQPVQPGVTPISGPGSFSRPHRDGAPWWDVDVSGIPDAVPMPHYGSYKANPYTVLGQTYYPMSDARRYQAVGTASWYGTKFHGQATANGETYDLYGMTAAHKTLPLPSYVRVTNLENGRSVILRVNDRGPFYSDRIIDLSFAAAKKLGYAEVGTARVKVEGIDPNEWWAKQGRPVPMVLAQPGAKVQSVSQNAPITVASVAQPSPAPMAQPIEQYTPPPQQHAAAVLPVQVDAKKKGSPGASGLYLQVGAFANPDAAELLKDKLSQAVDAPVFISSVVRNQQILHRVRLGPIETQGEAQQVQDSVRLANLGQPTFVKPE	PGPT0024465_754	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024465-rlpA-K03642	NA	NA
BMS010_05559	1011	mltB	COG2951	Membrane-bound lytic murein transglycosylase B	ATGCAAGAGCTGCGTAGCTGGGCTGCGGGCAAGGCGATTCGAATCGGTCTGGCTGGCGTTCTGGGGTTTTCCGCTTTCGCGCAGGCGGGGGATTACGAAGGTTCGCCCCAGGTGGCCGAGTTCGTCGCCGAGATGACGCGCGACTACGGTTTCGCCGGTGAGCAACTGGTCAGCCTGTTCCACGACGTGGAGCGCAAGCAGACGATTCTCGACGCGATTTCCCGGCCGGCGGAAAAGGTGAAGCCGTGGAAGGAATACCGGCCGATCTTCATCACCGAATCGCGCATCGCCCGCGGGGTGGATTTCTGGCGCGAGCATGAGGCTGCGTTGGCCCGCGCCGAGCAGGAATACGGGGTGCCGGCCCAGGTGATCGTCGCGATCATCGGCGTGGAAACCTTCTACGGACGCAACACCGGCAGCTATCGGGTGATCGACGCGCTGTCCACTCTCGGCTTCGATTATCCGCCGCGGGCGCCGTTCTTCCGCCAGCAGCTCAAGGAATTCCTCCTGCTGGCCCGCGAGGAGCAGGTCGATCCGCTGACCTTGAAAGGTTCCTACGCCGGTGCCATGGGCCTGCCGCAATTCATGCCGAGCAGCTTCCGCGCTTACGCGGTGGACTTCGACAATGACGGGCACATCGATATCTGGAGCAATCCGGTGGATGCCATCGGCAGCGTCGCCAGCTACTTCCAGCGTCACGGCTGGGTGGCCGGCGAACCGGTGGTCAGCGCGGCCCAGGTACGGGGCGACCAGGTCGAGCAGGGCTTGACCGAAGGTCTGGAACCGGTGAAAAACGTCGGCGAATTGCGTAGCCTGGGCTGGGCGAGCCGGGACGCCCTGCGCGACGACCTGGCCGTCACCGCCTTCCGCCTGGACGGCGAAGCCGGCCCGGAGTACTGGATGGGGTTGCCGAATTTCTACGTGATCACACGCTATAACCGCAGCGTGATGTACGCCATGGCCGTGCATCAGCTGTCCGATCTGCTGGTTCAGGCACGAGGCCGGAAGTGA	MQELRSWAAGKAIRIGLAGVLGFSAFAQAGDYEGSPQVAEFVAEMTRDYGFAGEQLVSLFHDVERKQTILDAISRPAEKVKPWKEYRPIFITESRIARGVDFWREHEAALARAEQEYGVPAQVIVAIIGVETFYGRNTGSYRVIDALSTLGFDYPPRAPFFRQQLKEFLLLAREEQVDPLTLKGSYAGAMGLPQFMPSSFRAYAVDFDNDGHIDIWSNPVDAIGSVASYFQRHGWVAGEPVVSAAQVRGDQVEQGLTEGLEPVKNVGELRSLGWASRDALRDDLAVTAFRLDGEAGPEYWMGLPNFYVITRYNRSVMYAMAVHQLSDLLVQARGRK	PGPT0023785_2062	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_TRANSGLYCOSYLASE_ACTIVITY,PGPT0023785-mltB-K08305	NA	NA
BMS010_05560	1146	mrdB	COG0772	Peptidoglycan glycosyltransferase MrdB	ATGAACGGTAACTTCGACCGTACCCTGTCCAGCGAAGACGTGATGCGCCGCCGCGCCAGCCTGCTGCAGCGCATGCACATCGACGGTCAGTTGCTGCTGCTGTTGCTGCTCTTGGCCGCCGGCGGCCTGTTCGTCCTGTATTCAGCCAGCGGCAAGAGCTGGGACATGCTGATCAAGCAGGCAGTCTCCTTCGGCGTGGGACTGACCGCCATGATCGTCATCGCCCAGCTCGAGCCGCGCTTCATGGCGCGCTGGGTGCCGCTGGCCTACCTGGTCGGCGTCGGCCTGCTGGTGGTGGTGGACGTGATGGGGCACGACGCCAAGGGGGCGACGCGCTGGATTAACATCCCCGGGGTGATCCGCTTCCAGCCCTCGGAGTTCATGAAAATCATCATGCCGGCGACCATCGCCTGGTACCTGGCCAAGCGCAACCTGCCGCCCCGGCTCAAACACATTGCCATCAGCCTGGCGCTGATCGGCGTGCCGTTCGTGCTGATCCTCAAGCAGCCGGACCTGGGAACCTCGTTGCTGATCCTGGCTTCCGGTGCCTTCGTGCTGTTCATCGCCGGTCTGCGCTGGCGCTGGATTCTCGGAGCGGCGGCGGCGGTGGTGCCGATCGCCGTCGGCATGTGGTTCTTCGTCCTCAAGCAGTATCAGAAACAGCGGGTGCTGACCTTCCTCGACCCGGAGAGCGATCCCCTGGGCACCGGCTGGAACATCATCCAGTCGAAGGCTGCCATCGGTTCCGGCGGGGTGTTCGGCAAGGGCTGGCTGCTCGGCACCCAGTCGCACCTGGATTTTTTGCCCGAAAGCCATACGGACTTTATCATTGCGGTCCTTGGCGAAGAGTTCGGCCTGGTCGGCGTCTGCCTGCTGCTGTTGATCTACCTGCTGCTGATCGGTCGCGGCCTGGTGATCACGGTCCAGGCGCAGACATTGTTCGGCAAGCTGCTGGCCGGCAGCCTGACCATGACCTTTTTCGTTTATGTCTTCGTGAATATCGGTATGGTCAGCGGCTTGCTGCCCGTGGTGGGGGTGCCGTTGCCCTTCATCAGTTACGGCGGAACTTCGCTGGTGACACTACTGTCAGGGTTCGGGGTTTTGATGTCGATCCACACCCATCGCAAGTGGATCGCACAGGTATAA	MNGNFDRTLSSEDVMRRRASLLQRMHIDGQLLLLLLLLAAGGLFVLYSASGKSWDMLIKQAVSFGVGLTAMIVIAQLEPRFMARWVPLAYLVGVGLLVVVDVMGHDAKGATRWINIPGVIRFQPSEFMKIIMPATIAWYLAKRNLPPRLKHIAISLALIGVPFVLILKQPDLGTSLLILASGAFVLFIAGLRWRWILGAAAAVVPIAVGMWFFVLKQYQKQRVLTFLDPESDPLGTGWNIIQSKAAIGSGGVFGKGWLLGTQSHLDFLPESHTDFIIAVLGEEFGLVGVCLLLLIYLLLIGRGLVITVQAQTLFGKLLAGSLTMTFFVYVFVNIGMVSGLLPVVGVPLPFISYGGTSLVTLLSGFGVLMSIHTHRKWIAQV	PGPT0023885_26	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023885-mrdA-K05515	NA	NA
BMS010_05561	1896	mrdA	COG0768	Peptidoglycan D,D-transpeptidase MrdA	ATGCCGCAGCCGATCCGCCTGAAAGACCACGAAAAGGATGCACGCCTGGTGCGCAGCCGCGTCATCGCGGGTGCCGTGGTGGTGGTGGCGCTGATCCTGGCGCTGGTGGCGCGGCTGTATTATCTGCAGGTGATCCAGTACGAGTACCACTCGACCCTGTCGGAAAACAACCGGGTCCACGTCCAGCCGATCCCGCCGACCCGTGGGCTGATCTTCGATCGCAACGGCGTGATCATCGCCGACAACCGGCCGAGCTTCAGCCTCACGGTAACCCGCGAGCGGGCCGGCGACTGGGAACAGGTGCTGGACATCATCGTCGAGGTGCTGGAGCTGACCCCGGACGACCGTGCGCTGTTCGAGAAGCGCATGAAGCAGGGACGGCGGCCGTTCGAGCCGGTGCCGGTGCTGTTCGAGCTGAGCGAGGACCAGATCGCCCGTATCGCGGTCAACCAGTTCCGCCTGCCCGGCGTGGAGGTGGCTGCCCAATTGGTCCGGCATTACCCGCAGAAAGAGCATTTCGCCCATTCGGTCGGCTATGTCGGACGGATCAACGAACAGGAGCTGAAGAAGCTCGACCCGGTGGATTACAGCGGCACCCACCATATCGGCAAGACCGGCATCGAGCGCTTCTATGAAGATCAGTTGCACGGCCAAGTGGGGTACGAGGAAGTCGAGACCAATGCCCGTGGACGGGTATTGCGGGTGCTCAAGCGCACCGACCCGACCCCCGGCAAGGACCTGACCCTGACCCTCGACCTGAAGCTGCAGGAAGCCGCCGAAGCCGCCCTGGGCGGGCGCCGTGGCGCGGTGGTGGCGATCGAACCGGCCACCGGCGACGTGCTGGCGATGGTCAGTCAGCCGAGCTTCAACCCCAACCTGTTCGTCACCGGCATTAGCTTCAAGGACTACGCCGAGTTGCGTGACTCCATCGACCGGCCGCTCTACAACCGCGTGCTGCGGGGGCTCTACCCGCCGGGTTCGACGATCAAGCCGATGGTGGCGGTGGCCGGGCTGGATGCCGGGGTGGTGACGCCGGCGACGCGGGTGTTCGATCCGGGCTTCTATCAACTGCCCAATTACGATCACAAGTACCGCAACTGGAACCGCAGCGGCGACGGCTGGGTGAACCTGGAGATGGCGATCATGCGCTCCAACGACACCTATTTTTATGACCTCGCCCACAAGATGGGCATTGATCGGCTGCACGACTATATGTCGCGTTTTGGCATCGGCCAGCGTGTGTCCCTGGACATGTTCGAGGAAGCCGAGGGCCTGATGCCCTCGCGCGACTGGAAGCGCGCCCGCTACCGCCAGGCCTGGTACCCCGGCGAGACGCTGATCCTCGGTATCGGCCAGGGCTACATGCAGGCGACGCCGCTGCAACTGGCCCAGGCCACGGCGCTGATGGCCAACCGCGGCAAGTGGATTCGCCCGCACCTGGCCAAGAGTATCGAGGGCAAGCCGCCGGTGGACGAGAATCCGATGCCCGATATCGTGCTGCGCGACCCGAAGTTCTGGGACTATGCGCGCAACGGCATGGAAATGGTGCTCCACGGGCCGCGCGGCACCGCGCGCAAGGTGGGCGACAGCGCGGTCTACCGCATCGCTGGCAAGAGCGGTACCGCCCAGGTGGTGGCGATCAAGCAGGGCGAAAAATACGACCGCTCCAAGGTGCAGGAGCGCCACCGCGACCACGCGCTGTTCATCGGCTTCGCTCCGGCGGAGAACCCGGAGATCGCCGTGGCGGTGATGGTGGAGAACGGCGAGTCCGGCTCCGGTGTCGCCGCACCGGTGGTCAAGCAGGTGATGGACGCCTGGCTGTTGGACGAGAACGGCCAACTGAAACCCGAATTCGCCGAGCCCCGGCCTGCGGAGGTGCTCGCCCATGAACGGTAA	MPQPIRLKDHEKDARLVRSRVIAGAVVVVALILALVARLYYLQVIQYEYHSTLSENNRVHVQPIPPTRGLIFDRNGVIIADNRPSFSLTVTRERAGDWEQVLDIIVEVLELTPDDRALFEKRMKQGRRPFEPVPVLFELSEDQIARIAVNQFRLPGVEVAAQLVRHYPQKEHFAHSVGYVGRINEQELKKLDPVDYSGTHHIGKTGIERFYEDQLHGQVGYEEVETNARGRVLRVLKRTDPTPGKDLTLTLDLKLQEAAEAALGGRRGAVVAIEPATGDVLAMVSQPSFNPNLFVTGISFKDYAELRDSIDRPLYNRVLRGLYPPGSTIKPMVAVAGLDAGVVTPATRVFDPGFYQLPNYDHKYRNWNRSGDGWVNLEMAIMRSNDTYFYDLAHKMGIDRLHDYMSRFGIGQRVSLDMFEEAEGLMPSRDWKRARYRQAWYPGETLILGIGQGYMQATPLQLAQATALMANRGKWIRPHLAKSIEGKPPVDENPMPDIVLRDPKFWDYARNGMEMVLHGPRGTARKVGDSAVYRIAGKSGTAQVVAIKQGEKYDRSKVQERHRDHALFIGFAPAENPEIAVAVMVENGESGSGVAAPVVKQVMDAWLLDENGQLKPEFAEPRPAEVLAHER	PGPT0023885_2105	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023885-mrdA-K05515	NA	NA
BMS010_05562	468	rlmH_2	COG1576	Ribosomal RNA large subunit methyltransferase H	GTGCGTATCAAGCTGATCGCCGTCGGTTCGCGCATGCCGCGTTGGGTGGAGGAAGGCTGGCAGGAATATGCCAAGCGCCTGCCGCCCGAGCTGGCGCTCGACCTGGTGGAAATCCCGCTGAACACCCGCGGCAAGAATGCCGACGTGGCGCGCCTGATCCGTCAGGAGGGCGAGGCCATGCTGGCGAAGGTGCAGCCGGGCGAGCGCATTGTCACCCTGGAGGTGCACGGCAAGCCCTGGAGCACCGAGCAACTGGCGGCGGAACTGGATCGCTGGCGGCTGGACGCGCGCACCGTCAACCTGATGGTGGGCGGGCCCGAAGGGTTGGCACCGGAGGTCTGCGCCCGCAGCGAGCAGCGCTGGTCGCTGTCGCCGCTGACCTTGCCGCACCCGCTGGTTCGCATCCTGATCGGCGAACAGATCTACCGGGCCTGGACGGTGTTGTCCGGCCATCCCTATCACAAGTAA	MRIKLIAVGSRMPRWVEEGWQEYAKRLPPELALDLVEIPLNTRGKNADVARLIRQEGEAMLAKVQPGERIVTLEVHGKPWSTEQLAAELDRWRLDARTVNLMVGGPEGLAPEVCARSEQRWSLSPLTLPHPLVRILIGEQIYRAWTVLSGHPYHK				NA	NA	NA	NA	NA
BMS010_05563	360	rsfS_2		Ribosomal silencing factor RsfS	ATGCAAAACGATCAACTGGTCCAGCTGGCGATCGACGCCCTGGAAGACATGAAGGCTCAGGACATCACCACCATCGATGTCCGCGGTAAGACCAGCGTCACCGATTACATGGTGATCGCCAGCGGTACCTCCAGCCGTCACGTGAAGTCGATTGCCGACAACGTGCTGGAGAAGGTCAAGGAAAACGGCGTGCGCCCGCTGGGCAGCGAAGGCCTGGATGGGGGCGAATGGGCCCTGCTCGATCTTGGCGACGTGGTGGTCCACGTGATGCAGGTCGCCACCCGCCAGTTCTATGACCTCGAACGTCTCTGGCAGGGCGCCGAGCAGAGCCGCGCGCAGCACGGTTCCGATCACGAGTAA	MQNDQLVQLAIDALEDMKAQDITTIDVRGKTSVTDYMVIASGTSSRHVKSIADNVLEKVKENGVRPLGSEGLDGGEWALLDLGDVVVHVMQVATRQFYDLERLWQGAEQSRAQHGSDHE	PGPT0013435_159	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013435-nadD-K00969	NA	NA
BMS010_05564	648	nadD_2	COG1057	putative nicotinate-nucleotide adenylyltransferase	ATGGCGAAACGGATCGGCATTCTCGGCGGCACCTTCGACCCGGTGCACATCGGCCATCTGCGCGGCGCGCTGGAGGTGGCCGAACAGTTCGGTCTCGACGAACTGCGCCTGATTCCCAGCGCGCGTCCGCCGCACCGCAACACGCCGCAGGTATCGGCGGCCGACCGGCTGGCGATGGTCGAGCAGGCCGTGGCGGGCCTGCCGCCGCTCACGGTGGACGACCGCGAGCTGAGGCGCGACAAGCCGTCCTACAGCATCGACACCCTGGAATCCCTGCGCGCCGAACTGGCGCCGGAAGACCAGTTGTTCCTGCTGCTGGGTTGGGATGCCTTCTGCGGCTTGCCGACTTGGCACCGCTGGGAGGAGCTGCTCGATCACTGCCACATCCTGGTGCTGCAACGGCCGGATGCCGACAGTGAGCCCCCAGAAAGCCTGCGCGACTTGGTCGCCGCGCGCAGCATCAACGATCCACAGGCCCTCACCGGGCCGAGCGGCCACATCGCTTTCGTCTGGCAGACGCCATTGGAAGTGTCGGCCACCCAGATCCGCCAACGGCTGGCCAGCGGCAGATCGGTGCGTTTCCTGGTACCCGATGCGGTGCTGGCATACATCAACGCGCACGGGCTGTACCGTGCGCCGACGAATTGA	MAKRIGILGGTFDPVHIGHLRGALEVAEQFGLDELRLIPSARPPHRNTPQVSAADRLAMVEQAVAGLPPLTVDDRELRRDKPSYSIDTLESLRAELAPEDQLFLLLGWDAFCGLPTWHRWEELLDHCHILVLQRPDADSEPPESLRDLVAARSINDPQALTGPSGHIAFVWQTPLEVSATQIRQRLASGRSVRFLVPDAVLAYINAHGLYRAPTN	PGPT0013435_1622	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013435-nadD-K00969	NA	NA
BMS010_05565	1260	proA_2		Gamma-glutamyl phosphate reductase	ATGACCGAGTCCGTGCTCGACTACATGACCCGCCTGGGCCGCGCCGCGCGCGACGCCTCGCGGGTGATCGCCCAGGCCAGTACCGCGCAGAAGAACCGCGCCCTGCTGGCCGCCGCCGCCGCCCTCGACGCCGCCCGCGCCGAGTTGGCCGCCGCCAACCAGAAGGATCTTGACCAGGGCAAGGCGAACGCTCTCGAGCCAGCTCTGTTGGATCGCCTGGCCCTGACCCCGGCGCGCATCGATTCCATGATCGAAGGCCTGCGCCAGGTCGCCGCCCTGCCGGACCCGGTGGGTGCGATCCGCGACATGAGCTACCGCCCTTCGGGCATCCAGATCGGCAAGATGCGCGTGCCGCTGGGCGTGATCGGCATCATCTACGAGTCGCGGCCGAACGTGACCATCGATGCCGCCAGCCTGTGTCTGAAGTCCGGCAACGCCACCATCCTGCGCGGCGGTTCCGAAGCGATCCATTCCAACCGCGCCATCGCCGCCTGCATCCGCCAAGGGCTGGCCGAGGCCGGGCTGCCGGATACGGCGGTGCAAGTGGTGGATACCACCGACCGCGCTGCTGTGGGCGCGTTGATCGCCATGCCGGAGTTCGTCGACGTGATCGTCCCGCGCGGCGGCAAGGGCTTGATCGAACGCATCAGCCGCGATGCCCGTGTGCCGGTGATCAAGCACCTGGACGGCATTTGCCACGTCTACGTCGATGCGCTGGCCGACCTGGAAAAGGCCCGGAGCATTGCCTTCAACGCCAAGTGCTACCGCTATGGCATTTGCGGCGCGATGGAAACCCTGCTGGTCGACCAGGCGGTGGCCGCGGCCTTCCTGCCGGCCATGGCGCAGATGTTCGTGGAAAAGGGCGTCGAGCTGCGCGGTTGCGAGCGTACCCGTGCGCTGATCCAGGCCGAGCCGGCGACGGAAGAGGACTGGAGCACCGAGTACCTGGCGGCGATCCTGTCGATCCGCGTGGTCGATGGGCTCGACGAGGCCATCGCGCATATCAACCGTTACGGTTCGCACCACACCGACTCCATCGTCACCGAGCACCAGGGCCATGCCCGGCGCTTCCTCGCCGAGGTGGACTCCAGTTCGGTGATGCTCAATACCCCGACCTGCTTCGCCGACGGCTTCGAGTACGGCCTGGGCGCGGAGATCGGCATTTCCACCGATAAGCTGCATGCGCGCGGTCCGGTCGGCCTGGAAGGCCTGACCTGCGAGAAGTACGTGGTGATCGGCGACGGTCAGCTGCGCGGCTGA	MTESVLDYMTRLGRAARDASRVIAQASTAQKNRALLAAAAALDAARAELAAANQKDLDQGKANALEPALLDRLALTPARIDSMIEGLRQVAALPDPVGAIRDMSYRPSGIQIGKMRVPLGVIGIIYESRPNVTIDAASLCLKSGNATILRGGSEAIHSNRAIAACIRQGLAEAGLPDTAVQVVDTTDRAAVGALIAMPEFVDVIVPRGGKGLIERISRDARVPVIKHLDGICHVYVDALADLEKARSIAFNAKCYRYGICGAMETLLVDQAVAAAFLPAMAQMFVEKGVELRGCERTRALIQAEPATEEDWSTEYLAAILSIRVVDGLDEAIAHINRYGSHHTDSIVTEHQGHARRFLAEVDSSSVMLNTPTCFADGFEYGLGAEIGISTDKLHARGPVGLEGLTCEKYVVIGDGQLRG	PGPT0014215_1728	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014215-proA-K00147	NA	NA
BMS010_05566	1227	menH_3		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGCGATACCGAACCGATTTCAGTGCCGGCCAGCTCGGCGCCGCCCCGGACGTGCTCGAACCGGGCCCGTGGCGCCTGCATTACCAAGCGTTCGCCGCGCGTGCCGAGGATGATCGAGCCCCGGTGCTGCTGCTCGGCGGGGCCTTCCAGAGCTTTCGCTCCTTCACCGGCGAAGTCGCCGAGCTGCTCGCCGAACACCCGGTGATCCTGCTCGACCTCCCCAGCCAGGGCGGCAACCCGCAGCTCGCCCCGGAACTGACGCTGTCCGACCTCGCCGACCTGATCGCCGCCTTCGTCGAGGCCCTGCACATCCCGCCGCTGATGCCCATCGGCCTGTCCTATGGCTCGGCCATCGCCGCCCTGTTCGCCGCCCGCCACCCGCGTCATTGCGCGCGCCTGCTGCTGGCCGGCATCACCGCCTTCGGCCGCCCCGGCGCCCGGCTGTTGCTGGAAGAAAGCCTGGCGCTGCTCGCCGAAGGCCGGCATGCGGCGTTTGCCCAGGGCGCCCTGAACGGCCTGATCAATCCGTTGCGCGTGCAGGAAACCGAGGTCTCGCCGACCTTCCGCAAGGCTCTGCTGCGGCAGTTGCAGCGCCTGACGCCCGAGGAGGTTGAGCGCTATCGGCAGAACAGCCGGCGCCTGCTGGCGTTCCCCGGCTTCGACCGTCATCCGCAATGCCCGACGCTGGTGCTCGCCGGCGAACACGACCACTTCACCCAGCCCTGGGAACATGCCCTGTTCGCCGCCGCCTGCACCAATGCCGATTGCGCGCTGATCCACGGTGCCGACCACCTAGCCCAGTTCGAACGCCGCGAAGCCTGCGCCGGCCTGTACGGCCCGTTCTTGCGTGGCGAGGCATTGCCGCTGGCCAGCCCGGGCAGCACTCGCCTGGCCCGCGACGATCTGCAGTTGCTCGACCGCCGCCACGAACCGCGCCTGCCGCCCCGCCAGCGCAAGGCGTTGCTGCATCACGACCAGGGCGGCGACTGGCCGGTGGAGCTGAATGAGCTGGGCTTCTTCGGCGGCCACCTGCTCGCCGACCTGCCGGACGAGCTGCCGTGGCGCGGCTGGCAGTTGCTGACAGCCGACCTCCCCGCCCTCGACCTGCTGCCCCTGCGGCGCACGGCGGGCGGACTGGCGTTCATCTTCTCCCACATCGAGCCCCAGGCCAGCGCGGCGCTGGCGGCACACATCGCTCCGCCGGCACCGCGGGCGGCCTGCGCCTGA	MRYRTDFSAGQLGAAPDVLEPGPWRLHYQAFAARAEDDRAPVLLLGGAFQSFRSFTGEVAELLAEHPVILLDLPSQGGNPQLAPELTLSDLADLIAAFVEALHIPPLMPIGLSYGSAIAALFAARHPRHCARLLLAGITAFGRPGARLLLEESLALLAEGRHAAFAQGALNGLINPLRVQETEVSPTFRKALLRQLQRLTPEEVERYRQNSRRLLAFPGFDRHPQCPTLVLAGEHDHFTQPWEHALFAAACTNADCALIHGADHLAQFERREACAGLYGPFLRGEALPLASPGSTRLARDDLQLLDRRHEPRLPPRQRKALLHHDQGGDWPVELNELGFFGGHLLADLPDELPWRGWQLLTADLPALDLLPLRRTAGGLAFIFSHIEPQASAALAAHIAPPAPRAACA				NA	NA	NA	NA	NA
BMS010_05567	870			hypothetical protein	ATGAACCGCTCCGCCCGCGCCGACAGTGCCTACATCACACCCAGTGCCCACTACACGGGTTACGTCTGGTATCGCCATCGGCTGGCCGAGCCGGCCTTCGCCACCGGCTTCGGCCGCTTCGCTCACGGCGTGCTGGCGCCGGTAGCCTGGGTGGCGCGCGTGGGGTTCGGTCTGGATGTCGAGCATTTCCTGCTCCAGCGCCACCTGTTGATCGACGCGCGCCTGACCGAAGCCATCGAACAGGGCGGCGTGCGCCAGGTGGTGGAGATCGCCTGCGGCCTCTCCCCGCGCGGGCGGCGCTTCCGGGTGCGCTACCCGGACCTGCATTACGTGGAGGCCGACCTGCCGCCGATGGCGGCGCGCAAACGCCTGTTGCTGCATGGCGAGGGCTGGCTGGACAGCCGTCACCAGGTGCGCTCGGTGGACATTCTCGCCGAGCGCGGCCCGCACAGCCTGGAGGCACTGTTCGCCGGGCTCGATCCGCAGTATCCGGTGGTGGTGATCACCGAAGGGCTGGTGAACTACTTCGAGCGTCCCCTGATCGAGGGCTTCTGGACCCGGCTCGCCACGCAACTCGCCGAATTCCCCCGCGCCACCTATCTAACCGAACTCTATCCAGACCTGCGTGAGCACCCGCATTACCGCCAGTTGCGCTGGGCGGTGGATTTCATCGGCCGCCTGACCCGCGGCAGCTACCCGCTGCACTATCGCAGCCATGAGGAAATCCGCGAGGCGTTCGGGCGTTGTGGTTTTCACCGTACCCGCGTGCTCGACCCGAGCCGGGAAAGCCCCGGCCTCGGCCTGCGTCCGTCGAAGGTGCCGACGCTGGTGCGGGTGATCGAGGCGAGTGTCGGCGCTGGCCTGCGCTGA	MNRSARADSAYITPSAHYTGYVWYRHRLAEPAFATGFGRFAHGVLAPVAWVARVGFGLDVEHFLLQRHLLIDARLTEAIEQGGVRQVVEIACGLSPRGRRFRVRYPDLHYVEADLPPMAARKRLLLHGEGWLDSRHQVRSVDILAERGPHSLEALFAGLDPQYPVVVITEGLVNYFERPLIEGFWTRLATQLAEFPRATYLTELYPDLREHPHYRQLRWAVDFIGRLTRGSYPLHYRSHEEIREAFGRCGFHRTRVLDPSRESPGLGLRPSKVPTLVRVIEASVGAGLR				NA	NA	NA	NA	NA
BMS010_05568	753			Putative 3-methyladenine DNA glycosylase	ATGTCCGGCATCCCAGCCTGGACCGCTGCCCGCATGTTCGATTCGACCCCTGCCGACCTGCCCTGGCCCGCTGCCCGTCCGCTTCCGGACTCGTTCTTCGACCGTGACGCCCAACTCGTCGCCCGCGAACTGCTCGGCAAAGTGCTGCGGCACAAGGTCGGCGGCCTCTGGCTCGCGGCGCGGATCATCGAGACCGAGGCCTACTATCGCGACGACAAGGGCAGCCACTCGTCCCTCGGCCATACCCACTCGCGGCGGGCCATGTTCATGGATGGCGGGCACATTTACATGTATTACGCGCGTGGCGGCGACACCCTGAACATCAGCGTCCACGGCCTGGGCAACGCCGTGCTGGTGAAGTCCGGGCATCCCTGGCTGGATGCCGTCTCCGGGCCGGAAAGCCTGGCCCTGATGCAGCGCAACAATCCGGACGCCAACGGCCAGGCGCGCCCGGTCGAACGCCTCTGCGCCGGCCAGACGCTGCTGTGCAAGACCCTCGGCCTCAAGGTGCCGGAATGGAACGCCCGGCGCTTCGACTGGAAACGGTTCTTCGTCGAGGATGTCGGCGAACACCCCATCGGTATCATCCAGACCACCCGCCTCGGCATTCCGCTGGGGCGCGACGAGCACCTGGCTTATCGCTTTGTCGATGCCGGCTTCGCGCGTCACTGCACACGAAACCCGCTACGGCGCGGGCAGGTCGAAGGTCGCGACTTCCATCGCCTCGTCCACGGGAACTCTATCCATGAGTGA	MSGIPAWTAARMFDSTPADLPWPAARPLPDSFFDRDAQLVARELLGKVLRHKVGGLWLAARIIETEAYYRDDKGSHSSLGHTHSRRAMFMDGGHIYMYYARGGDTLNISVHGLGNAVLVKSGHPWLDAVSGPESLALMQRNNPDANGQARPVERLCAGQTLLCKTLGLKVPEWNARRFDWKRFFVEDVGEHPIGIIQTTRLGIPLGRDEHLAYRFVDAGFARHCTRNPLRRGQVEGRDFHRLVHGNSIHE	PGPT0014885_407	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014885-yxlJ|aag-K03652	NA	NA
BMS010_05569	1320			hypothetical protein	ATGAGTGAATGGCTCGACGGCCTTACCGCCTGGCTTTCCGCCCACCCGCACTGGCTGGGACTGGCCTTGCTCGTGGTGGCCTGTACCGAATGCCTGGCCATCGTCGGCCTGCTGGTGCCCGGAACCGTAGCGCTGTTCGCCCTCGCGGTGCTCGCCGGCAGCGGCGCCCTGGGGCTCGGCGAGACGCTGCTGCTGGCCTACTGCGGCGGGCTGCTGGGGGATTTGTTGTCCTATGCCCTGGGCCGGCGCTTTCACCAGAACATCCGGCGCCTGCCGGGGCTGCGTCACCATCCGGAATGGATGGCTAGCGCGGAGATCCATTTCCACAAATACGGTTTCGCCAGCCTGATGGTGGGGCGCTTCATCGGTCCGCTGCGGCCCATGCTGCCGATGGTCGCCGGCATGCTCGATATGCCGTTCGGCCGTTTCCTGCTGGTCAGCCTGCTGGCGTCGGTCGGCTGGGCGCTGGCTTACCTGCTGCCCGGCTGGGCCACCGGCGCGGCCCTGCGCCTGCCGCTGCCGGAGGGTTTCTGGAGCGAGGCGGCGCTGGTCGCGGCGCCCCTGGGCCTGCTGCTCGGGCTGTGCATCCACTTCAGCCTGCAACGGCATCCGCAGGTCCCGCTGCTGGCCGCCGGGCTGTGCATGGCCGCCCTGGCCGCACTGTTCGTCGGCTGGCCACAGCTCGACCGCCTCGACCAGGGCTTGTTGGCGTTGCTGCAGGAGCACCGCCATGCCTGGGTCGACCGGCTGATGGTGGTCGCCACCCGCCTCGGCGACTTCAAGACCCAGGTGGCCGCCGGCACCCTGCTCTGTGCGCTGCTGCTGTTCGCCCGCCAATGGCGGCCGGCGCTCTTCGCTATCGGCAGCCTGCTCGGCACGGCCTTGGCCAATGGCAGCCTGAAGTGGCTGTTCGCCCGGGTCCGCCCGGACGTGCTGGTGCATCCCTTGGAGAGCTACAGCTTCCCCAGCGGACACAGCTCGGCGGCCTTCGCCTTCTTCCTGACCCTCGGCGTACTGGCCGGTCGCGGCCAACCGCCGCGCCTACGCCTGACCTGGCTGCTGCTGGCCTGCCTGCCGGCACTGGTGATCGCCCTGTCGCGGGTCTACCTGGGCGTGCACTGGCCGACCGACATTCTCGCCGGCGCCCTGCTCGCCGCCACCGTCTGCGCCGCCAGCCTGAGCCTGCTGCAGCGCCACGCCGCGTTGCCGGCGCTGGCGCCACGGGTCTGGTGGCTGGTGCTCCCGGCCACCCTCGCGTTGCTCGGCGGCATCGCCACTTGGGCTCTACCCGAAGCAATGGAGATGTATCGGTATCAGTGA	MSEWLDGLTAWLSAHPHWLGLALLVVACTECLAIVGLLVPGTVALFALAVLAGSGALGLGETLLLAYCGGLLGDLLSYALGRRFHQNIRRLPGLRHHPEWMASAEIHFHKYGFASLMVGRFIGPLRPMLPMVAGMLDMPFGRFLLVSLLASVGWALAYLLPGWATGAALRLPLPEGFWSEAALVAAPLGLLLGLCIHFSLQRHPQVPLLAAGLCMAALAALFVGWPQLDRLDQGLLALLQEHRHAWVDRLMVVATRLGDFKTQVAAGTLLCALLLFARQWRPALFAIGSLLGTALANGSLKWLFARVRPDVLVHPLESYSFPSGHSSAAFAFFLTLGVLAGRGQPPRLRLTWLLLACLPALVIALSRVYLGVHWPTDILAGALLAATVCAASLSLLQRHAALPALAPRVWWLVLPATLALLGGIATWALPEAMEMYRYQ	PGPT0024170_5	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024170-bcrC-K19302	NA	NA
BMS010_05570	591			hypothetical protein	ATGAATTTTCCGTTGTTCCCGCTCAACACCGTGCTGTTCCCCGGCTGCATGCTCGACCTGCAACTGTTCGAGGCGCGTTACCTGGACATGCTCGGGCGCTGCCTGAAGCAGGACGAAGGCTTCGGCGTGGTGTGCATCATCGAGGGCGAGGAAACCGGCGAGGCCGCCAGCCGCTTCGCCGCCATCGGCTGCGAGGCGCTGATCCGCGACTGGCAACAGCGTCCCAATGGCCTGCTGGGAATTCGCGTGGAGGGTGGCCGGCGTTTCCGCGTCAACCGTGCCACGGTGCAGCCGGACCAGCTCACCCTGGCCGAGGTGGACTGGCTGAACGAGACGCCGGACCGCCCGCTGCTGGGCGAACATGCCGACCTGGCGGCGCTGCTCACGGTGCTGGTGGAACACCCGATGGTCGAGGCGCTGGGCATGAGCGGAACGGTGACCGGCCAGCAAGCGCTGGCCAACCAACTCGCCTACCTGCTGCCGTTCACCCCGGCGCAGAAGCTGCAACTCCTGCTGCTCAACGACCCGGCGCAACGCCTGGATTACATCCAGGAGCTGCTCGACGACTTCCAGAGCGAGATGACGGCGTAG	MNFPLFPLNTVLFPGCMLDLQLFEARYLDMLGRCLKQDEGFGVVCIIEGEETGEAASRFAAIGCEALIRDWQQRPNGLLGIRVEGGRRFRVNRATVQPDQLTLAEVDWLNETPDRPLLGEHADLAALLTVLVEHPMVEALGMSGTVTGQQALANQLAYLLPFTPAQKLQLLLLNDPAQRLDYIQELLDDFQSEMTA				NA	NA	NA	NA	NA
BMS010_05571	717	yohK	COG1346	Inner membrane protein YohK	ATGAGCCTCGATTGGCAGGGCGCCTGGCAGGCGCTGATCCACCATCCGCTGTTCGGCGTCGGTATTACCCTGGCCGCCTACCAGTTGGCGCTGGCGGCCTACGAGAAGACCCGCTGGGTATTCCTCCAGCCGGTGCTGGTGTCCATGCTGGTGCTGATCGGCGTGCTGCTGCTCTGCGGCCTGACCTACGCCGAGTACCGCAAGAGCGTGGAGGTGCTGAGCGTGCTGCTCGGACCGGCCACGGTGGCGCTGGCGGTGCCGCTGTTTCTCAACCTGCGGCGGATTCGCCAGTTGTTCTGGCCGACCCTGCTGACCCTGCTGATCGCCGGTGTCGTGGCGACCGTTTCGGGCGTGGCGCTGGCTTGGGCCTTCGGCGCCGAGCGCATGGTGCTGATGACCATGGCGCCAAAGTCGGTGACCTCGCCCATCGCCATGCTGGTGGCCGATCAGATCGGCGGCGTGGCGGCGCTGGCGGCGGTGTTCGTGCTGATCACCGGGGTGCTTGGCGCGATCCTCGGCCCGGAGCTGCTGCGCCTCATCGGAGTGCGTCATCCGGCGGCCCAGGGCATGGCCCTCGGCCTCACCGCCCACGCCGTCGGCACCTCGCGGGCGTTGCAGGAAGGCGAGGAGTGCGGCGCTTTCGCCGCCCTGGCCATGAGCCTGATGGGCATGACCACCGCCGTGGTGCTGCCGCTGGCGGTGGCCTTGCTGGTCTGA	MSLDWQGAWQALIHHPLFGVGITLAAYQLALAAYEKTRWVFLQPVLVSMLVLIGVLLLCGLTYAEYRKSVEVLSVLLGPATVALAVPLFLNLRRIRQLFWPTLLTLLIAGVVATVSGVALAWAFGAERMVLMTMAPKSVTSPIAMLVADQIGGVAALAAVFVLITGVLGAILGPELLRLIGVRHPAAQGMALGLTAHAVGTSRALQEGEECGAFAALAMSLMGMTTAVVLPLAVALLV				NA	NA	NA	NA	NA
BMS010_05572	363	cidA		Holin-like protein CidA	ATGCTGTTACGCGGCCTGACCTGGCTGGTGCTGTTCCAACTGATCGGCACCGTTCTTTCGGTACTCATCCTGCCCATGCTGCCGGGCCCGATCATCGGGCTGGTGCTGCTGTTCGTCTTCTTGCTGGTGCGTGGCGAAGTGGGCGAGCCGTTCAATGTCGCGGCCTCCAGTCTGCTGCGCTACTTGCCATTGCTGCTAGTGCCGCCGGCGGTGGGGGTGATGGTCTATGCGGCGGCGATCGCCGCTGACTTCTGGGCCATCGTCGGCGCGCTGGCGCTGTCCCTGGTGCTGTCGCTGGCCTTCGCCGGCTGGTTGATGCAGAAGCTGATCGAGCGCCAGGTGCGCCGCCGGGAGCCGACATGA	MLLRGLTWLVLFQLIGTVLSVLILPMLPGPIIGLVLLFVFLLVRGEVGEPFNVAASSLLRYLPLLLVPPAVGVMVYAAAIAADFWAIVGALALSLVLSLAFAGWLMQKLIERQVRRREPT				NA	NA	NA	NA	NA
BMS010_05573	456		COG2030	putative enoyl-CoA hydratase 1	ATGCCGTTCGTACCCGTTGCAGAACTGAAGGACCATGTAGGCAAGGAGCTGGGTCGCTCCGAGTGGCTGACGATCGACCAGCAACGTATCAACCAGTTCGCCGAGTGCACCGGCGACCACCAGTTCATCCATGTGGACCCGGAAAAGGCCAGGCAGACCCCCTTCGGCTCCACCATCGCCCACGGCTTCCTGTCGCTGTCGCTGATCCCCATGCTGATGGAAAAGATCATGATCATGCCCCAGGGCCTGAAAATGGCGGTCAACTACGGCCTGGACAGCGTGCGCTTCATCCAGCCGGTGAAAGTGGACTCCCGGGTGCGCCTGGTGGTGACCCTCACCGACGCCAACGAGAAGAACCCCGGCCAGTGGCTGCTCAAGGCCCGCGCCGTGCTGGAAATCGAAGGCCAGGAGAAGCCCGCCTACATCGCCGAGCCGCTGACGCTCTGCTTCGTCTGA	MPFVPVAELKDHVGKELGRSEWLTIDQQRINQFAECTGDHQFIHVDPEKARQTPFGSTIAHGFLSLSLIPMLMEKIMIMPQGLKMAVNYGLDSVRFIQPVKVDSRVRLVVTLTDANEKNPGQWLLKARAVLEIEGQEKPAYIAEPLTLCFV	PGPT0015281_37	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_METABOLISM,PGPT0015281-nodN-NA	NA	NA
BMS010_05574	1722			hypothetical protein	ATGCGTCGCCGATTCGCCTCCCTGGCTCCCCTCAGTCTCGCCCTGCTGCTCGCCGCCTGCGGTGACGGCGAACCGCTGCTGCCACCGGATGGCGTGCTGCCGGACGGCGGACGCTACCGGGGCGAGCTGGTCGACGGCCGGCTGCATGGCCACGGCCGGATCGACTACCCCAACGGCAGTTGGTCCGAAGGCGAATTCCGCAATGGCCTGCAGGAAGGGCCGGGCACTTGGCACGGCCCGTCCGGGGATACCTATACGGGCGGTTTCCACCAGGGCCAGTTCGATGGCCAGGGCACCTTGGTCTACCGCGACGGAACCCGCTACCGGGGCGGCTTCAAGGCCGGCCGCATGCACGGCGAAGGCACCTTCGAGCAAAACGGCCTGGTCTATCGCGGCGAATTCCGCGACGACCGCTTCCACGGCCTCGGCAGCCTGGAGCGGCCGGATGGCAGCCGCTTCCTGGGCCAGTTCGTGCGTGGCGAACCGAATGGCGAAGGGGTGCGCCACGACACCGACGGCGGCCAGTTGAGCGGACGCTTCCGCAAGGGGCAGCTGGATGGCGAAGGCAGTTACCAGGGCAGCGACGGCGGGCGCTACAGCGGGCTGTTCAAGAACGACCTGTTCCATGGCCGGGGCCGCTACGAAAGCGACAACGGCGACGTCTGGCTCGGCGCGTTCAAGGACGGCGCGCTGAACGGCCCCGGCGAGTTCCATGGCGCCGACGGCAGCCGCTACCTAGGCGAGTTCCGCGACTGGCGCTACCACGGCGAAGGCCGCCTGGACCTGCCCGACGGCAGTCATTACCAGGGCCGTTTCGCCAACGGCGACTACCAGGGCAAGGGCACCCTGACCCTGGCCGACGGCAACCAGCAGAGCGGCACCTGGCGGAACGGCCGGCTGGCCCTCGATGCCCAGGGCCGCACCCAGGCCGACCCGCTCGAACTCGGCCTGCTGGAACAGGGCCGTCTGCTCGACCAGGCCCTCAACGCCCTGCCCGCCTCCACCCCGACGATGGAGCTGTACAGCCTGACCCTGGCCGGCGACGGCAAGCAGAGCGTGTTCCTGCGCGAGGCCGACTACGTCAGCCAACTGCTCGGCAAGCGCTTCGGCGCCTATGGCCAGGTCACCCTGGTCAACCACCGCGACCACCTGGCCGACCGTCCGCTGGCCACCCGCGAGAGCCTGTCCCGCGCGGTGCAGGCCATCGCCGAGCGCAGCGGCCCGGAAGACCTGGTGTTCATCTACCTGACCAGCCACGGCTCGCACACCCACGAACTGGCGCTCGACCAGCCGCGCCTGCAGCTCGCCGACCTGCCTGCCAGGGAACTGGCCAACCTGCTCCAGCCACTCAAGGACCGGCACAAGGTCCTGGTGATTTCCGCCTGCTACTCCGGCGGCTTCATCCCGCCGCTGAAAGACGACAAGACCCTGGTGATGACCGCCGCGCGCGCCGACCGGGTGTCCTTCGGCTGCTCGGAAGAAGCCGACTTCACCTACTTCGGCCGGGCCCTGTTCGCCGAGGCCCTGCAGGAGACCGACGACCTGGAGAAGGCGTTCACCCTGGCAAAGGAGACGGTGGCCGAGCGCGAGAAGGCCGACGGCTTCGAACCGTCGGAGCCACAAATCTGGGCGCCCAAGGCCGTGATCGCTCACTGGCGCACGCTGCGCGAGCAACAGGCCGCACGCACACTCACGGCCAACGCCGGCCAAACATCCGACTAA	MRRRFASLAPLSLALLLAACGDGEPLLPPDGVLPDGGRYRGELVDGRLHGHGRIDYPNGSWSEGEFRNGLQEGPGTWHGPSGDTYTGGFHQGQFDGQGTLVYRDGTRYRGGFKAGRMHGEGTFEQNGLVYRGEFRDDRFHGLGSLERPDGSRFLGQFVRGEPNGEGVRHDTDGGQLSGRFRKGQLDGEGSYQGSDGGRYSGLFKNDLFHGRGRYESDNGDVWLGAFKDGALNGPGEFHGADGSRYLGEFRDWRYHGEGRLDLPDGSHYQGRFANGDYQGKGTLTLADGNQQSGTWRNGRLALDAQGRTQADPLELGLLEQGRLLDQALNALPASTPTMELYSLTLAGDGKQSVFLREADYVSQLLGKRFGAYGQVTLVNHRDHLADRPLATRESLSRAVQAIAERSGPEDLVFIYLTSHGSHTHELALDQPRLQLADLPARELANLLQPLKDRHKVLVISACYSGGFIPPLKDDKTLVMTAARADRVSFGCSEEADFTYFGRALFAEALQETDDLEKAFTLAKETVAEREKADGFEPSEPQIWAPKAVIAHWRTLREQQAARTLTANAGQTSD				NA	NA	NA	NA	NA
BMS010_05575	642			hypothetical protein	ATGTACCTGACGCCCCAGCGCATTCTGCTTGCCGGCGCCACCGGCCTCACCGGCGAACACCTGCTCGACCGGCTGCTCAACGAACCCACCATCGCGCGCGTGCTGGCCCCCACCCGCCGCCCGCTGGCCGAGCACCCGCACCTGGACAACCCGGTGGGCGAACTGACCGGACTGCTGCCGCAACTGGAGGGCTCGCTGGACACCGCCTTCTGCTGCCTCGGCACCACCATCAAGCAGGCCGGCTCCCAGGAAGCCTTCCGCGCGGTCGACCATGACCTGGTGCTGGCGGTCGGCGCTCGCGCCCTGGAACTGGGAGCGCGGCATTTCCTGGTGATCAGCGCCATCGGCGCCAACCCGGCGTCCTCGGTGTTCTACAACCGGGTCAAGGGCGAGATGGAAGAAGCGCTCAAGGCCCAGGGTTGGCCGCAACTGACCATCGTCCGGCCGTCCCTGCTGCTCGGCCCGCGCAGCGAGTTCCGCCTCGGCGAACGCCTGGCCGCGCCCGTGCTGCGCTGGTTGCCAGGCAAATGGCGCGGCATCGGCGCCTGCACCCTGGCCCGCGCGATGTGGCGCCTGGCCCTGGAAGAAGGCCGAGGCGTGCGCATAGTCGAGTCGGACGAACTGCGCCACTTGGGCCGCTGA	MYLTPQRILLAGATGLTGEHLLDRLLNEPTIARVLAPTRRPLAEHPHLDNPVGELTGLLPQLEGSLDTAFCCLGTTIKQAGSQEAFRAVDHDLVLAVGARALELGARHFLVISAIGANPASSVFYNRVKGEMEEALKAQGWPQLTIVRPSLLLGPRSEFRLGERLAAPVLRWLPGKWRGIGACTLARAMWRLALEEGRGVRIVESDELRHLGR	PGPT0013740_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
BMS010_05576	975	gbpR_2		HTH-type transcriptional regulator GbpR	ATGGATGGATATAGCTTGAAGCCTCTCAATGCCACTTGGTTCGTCCGCGCCCGCCTGAAAAGTCGGCACATTCCCTTGTTGGTCGCCCTGGGCGAGACCGGCAACCTCAACCGCGCCGCCGAAGGGCTGGGGATTTCCCAGCCGGCGATCTCCAAGCTGCTCAAGGAACTCGAGGAGGGGCTCGGCGTGGAGCTGTTCGAGCGACAGGCCCGGGGCGTGGTGCCGACCCTCTATGGCGAGTCGATGATCCGCCACGCCCGCCGCCTGCTCACCGACCTGGACAGCGCCTTCGACGAGGTCAATGCCTTGCGTGCCGGGCAGAGTGGGCACGTGCGCATCGGCACCATCCTGACACCTTGTGCGGAGCTGCTGCCGGAGCTGATCCGCCGCGTCAAGCAGCGCCACCCGCGACTGGAGCTGAGTATCCGCACCGGCGCGAGTCGCGATCTGATGGCGCTGCTGGAGGATGGCGAGCTGGATTTCCTGGTGGCGCGCTTCTTTGCCGAGGGTGGGCAGGAGGGGATGCGCTTCGAACCGTTTTTCCAGGAGCCCCAGTGCTTCTGCGCGCGGGCCGGGGCGGTCGGGCAGGTGCTGTCATTGGCCGAGTTGCACGAGGCCGATTGGGTGTTGCCACCGTCAGGCGGCGCGTTGCGCTACGAGTTCGATGCCCTGTTCCAGCAGGTCGGCATGCTGCCGCCGACCCGGGTGGTGAACGCGGAGAACCTGTTGATGGTGACCACCCTGCTGGAGCGGAACGACATGCTCACCGTCTTGCCGCGCGACGTGGTGGCGCATTACGCACGCTACGGCATGCTGGCCGTGGTGCCGGTGACGGTGGGTATCGAGGAGGATCTCAATCGCAACCTGATGGCCTACGGCATCATCACCCGCAACGAGGAGCTGCTGGCGCCGGCGGCCCGCAATGTGCTGGCGCTGTTGCGCGAATGTGCAGAGGAGGCCGGGCGGCGCACCTAG	MDGYSLKPLNATWFVRARLKSRHIPLLVALGETGNLNRAAEGLGISQPAISKLLKELEEGLGVELFERQARGVVPTLYGESMIRHARRLLTDLDSAFDEVNALRAGQSGHVRIGTILTPCAELLPELIRRVKQRHPRLELSIRTGASRDLMALLEDGELDFLVARFFAEGGQEGMRFEPFFQEPQCFCARAGAVGQVLSLAELHEADWVLPPSGGALRYEFDALFQQVGMLPPTRVVNAENLLMVTTLLERNDMLTVLPRDVVAHYARYGMLAVVPVTVGIEEDLNRNLMAYGIITRNEELLAPAARNVLALLRECAEEAGRRT				NA	NA	NA	NA	NA
BMS010_05577	1737	araC_4		L-arabonate dehydratase	ATGACCGATAAGAACATCAAACTCCGCTCCGCCCAGTGGTTCGGCACCGCCGACAAGAACGGCTTCATGTACCGCAGTTGGATGAAGAACCAGGGCATCCCCGATCACGAATTCCAGGGCAAGCCGATCATCGGCATCTGCAATACCTGGTCCGAGCTGACGCCGTGCAATGCGCATTTCCGCAAGATCGCCGAGCACGTCAAGCGCGGCGTGTACGAGGCCGGCGGCTTCCCGGTGGAATTCCCGGTGTTCTCCAACGGCGAATCCAACCTGCGCCCCACCGCCATGCTCACCCGCAACCTGGCGAGCATGGACGTGGAGGAAGCCATCCGCGGCAACCCGGTGGACGCCGTGGTGCTGCTCGTCGGCTGCGACAAGACCACCCCGGCGCTGCTGATGGGCGCCGCCAGTTGCGACGTGCCGGCCATCGTCGTCACCGGCGGGCCGATGCTCAACGGCAAGCACCACGGCCGCGACATCGGTGCCGGCACCATCGTCTGGCAGATGCACGAAGCGCTGAAGGGCGGCCTGATCGATCTCAACGAATTCCTTTCCGCCGAGGCCGGCATGTCGCGCTCGGCCGGCACCTGTAACACCATGGGCACCGCCTCGACCATGGCCTGCATGGCCGAGGCCCTGGGCACCTCGCTGCCGCACAACGCGGCGATCCCGGCGGTGGACGCGCGCCGCTACGTGCTCGCCCACCTCTCCGGGATGCGCATCGTCGACATGGTCTGGGAAGACCTGCGCCTGTCCAAGGTGCTGACCAAGGCCGCGTTCGAGAACGCCATCCGGGTCAACGCGGCGATCGGCGGTTCGACCAACGCGGTGATCCACCTCAAGGCCATTGCCGGGCGCATCGGCGTCGACCTCGAACTGGACGACTGGACCCGCGTCGGCCGGGGCACGCCGACCATCGTCGACCTGCAACCGTCCGGGCGCTTCCTGATGGAGGAGTTCTACTATGCCGGCGGCCTGCCCGCGGTGATCCGCCGCCTCGGCGAGAACGGTCTGCTGCCCAATCCCGAGGCGCTGACGGTGAACGGCAGGAGCCTCTGGGAAAACTGCGCCGATGCGCCGATCTACGGCAAGGACGAAGTGATCCGCACCCTGGACAACCCGATCCGCGCCGACGGCGGCATCTGCGTGCTGCGCGGTAACTTGGCGCCGCAGGGCGCGGTGCTCAAGCCCTCGGCGGCCAGCACCGAGCTGATGCAGCACCGTGGCCGCGCCGTGGTCTTCGAGAATTTCGAGGACTACAAGGCGCGCATCAACGATCCCGACCTGGACGTCGACGAGACCTGCGTGCTGGTCATGAAGCACTGCGGGCCCAAGGGTTATCCGGGAATGGCCGAGGTCGGCAACATGGGCCTGCCGCCCAAGCTGCTGGCCAAGGGCATCACCGACATGGTGCGTATCTCCGACGCCCGCATGAGCGGCACCGCCTACGGCACCGTGGTGCTCCACGTAGCGCCGGAGGCGGCGGCCGGCGGCCCGTTGGCGGTGGTGCGCAACGGCGATTTCATCGAACTGGACTGCGCCAACGGCCGCCTGCACCTGGACATCCCCGACGCCGAACTGCAGGCACGCCTGGCGGACCTGCGCCTGCCCGAGCGGATCTGGGACGGCGGCTATCGCCGGCTCTACGTCGATCACGTGATGCAGGCCGACCAGGGCTGCGATTTCGATTTCCTGGTCGGCTGCCGGGGCGCGGAGGTGCCGCGCCACTCGCATTGA	MTDKNIKLRSAQWFGTADKNGFMYRSWMKNQGIPDHEFQGKPIIGICNTWSELTPCNAHFRKIAEHVKRGVYEAGGFPVEFPVFSNGESNLRPTAMLTRNLASMDVEEAIRGNPVDAVVLLVGCDKTTPALLMGAASCDVPAIVVTGGPMLNGKHHGRDIGAGTIVWQMHEALKGGLIDLNEFLSAEAGMSRSAGTCNTMGTASTMACMAEALGTSLPHNAAIPAVDARRYVLAHLSGMRIVDMVWEDLRLSKVLTKAAFENAIRVNAAIGGSTNAVIHLKAIAGRIGVDLELDDWTRVGRGTPTIVDLQPSGRFLMEEFYYAGGLPAVIRRLGENGLLPNPEALTVNGRSLWENCADAPIYGKDEVIRTLDNPIRADGGICVLRGNLAPQGAVLKPSAASTELMQHRGRAVVFENFEDYKARINDPDLDVDETCVLVMKHCGPKGYPGMAEVGNMGLPPKLLAKGITDMVRISDARMSGTAYGTVVLHVAPEAAAGGPLAVVRNGDFIELDCANGRLHLDIPDAELQARLADLRLPERIWDGGYRRLYVDHVMQADQGCDFDFLVGCRGAEVPRHSH	PGPT0017465_195	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017465-araC-K13875	NA	NA
BMS010_05578	1143	mro_1	COG2017	Aldose 1-epimerase	ATGAAACATGCTCGGATTCTCAGCGGACTCGGTTTAACAATGATGATCGGCATCGCCCAGGCCCAAGGCCTCTCCAGCGAGCGCGGCAGCTTCGGCACACTGCCCGACGGCAGGACGGTGGAGAAATTCACCCTGCGCAACAGCCAGGGCATGGAGGCGGTGGTCATCGCCTACGGCGGCATCCTCCAGGCGCTACGGGTGCCGGACAAACAGGGCAAGGTCGATGACATCGTGCTCGGCTTCGATGACGTCGACGGCTACCTGAAGAACGGCAACGTCTACTTCGGCGCCACCATTGGCCGCTTCGGTAACCGCATCGCCGAGGGTCGCTTCGCGCTGGACGGCAAGACCTACCAAATCCCGCAGAACAACGGCAGCAACGCCCTGCACGGTGGGCCGGAAGGCTTCGACCGCAAGCTCTGGCAGGCCACCCCGCACGACGAGGATAGCTGGGTCGGCGTGCAGCTCAGCTACGTCTCGCCCGACGGCGAAATGGGCTTCCCCGGCACCCTCACCACCCGCGTCACCTACAGCCTCAACGACGCCAACGAGCTGCGCATCCAGTACCACGCCACCACCGACAAACCCACGGTGCTCAACCTGACCAACCACAGCTACTTCAACCTGGCCGGCGCCGGCAACCCGAGCATCCTCGAGCAGGTCGCCACGCTGCACGCCTCACGCTACACGCCAGTCAACGACAAGCTGATCCCCACCGGCGAACTCCCGGAAGTCGCCGGCACGCCCATGGACTTCCTCACACCCACCGCCTTCGGCAAGCACATCAAGGACGACCACCCGCAACTGAAATTCGCCGAACCCAAGCAAGGCGGGTTCGACTTCAACTGGGTCCTCGACACCGGCGGCGACCTGTCCAAGCTGGCCGCCGAAGTCACCGACCCGGCCTCCGGCCGCATACTGCAGATGTACACCACCGAACCCGGCGTGCAGCTCTACACCAGCAACTTCCTCGACGGCAGCATCCACGGCAAGGGCGGCAAGGCCTACCCGCACTGGAGCGCCTTCACCCTGGAAACCCAGCACTACCCGGACTCACCGAACCAGCCGGACTTCCCCAGCACCCGGCTCGACCCGGGGCAGGTCTACACGCAGACGACGATCTATAAGTTTCCCAAGCCATGA	MKHARILSGLGLTMMIGIAQAQGLSSERGSFGTLPDGRTVEKFTLRNSQGMEAVVIAYGGILQALRVPDKQGKVDDIVLGFDDVDGYLKNGNVYFGATIGRFGNRIAEGRFALDGKTYQIPQNNGSNALHGGPEGFDRKLWQATPHDEDSWVGVQLSYVSPDGEMGFPGTLTTRVTYSLNDANELRIQYHATTDKPTVLNLTNHSYFNLAGAGNPSILEQVATLHASRYTPVNDKLIPTGELPEVAGTPMDFLTPTAFGKHIKDDHPQLKFAEPKQGGFDFNWVLDTGGDLSKLAAEVTDPASGRILQMYTTEPGVQLYTSNFLDGSIHGKGGKAYPHWSAFTLETQHYPDSPNQPDFPSTRLDPGQVYTQTTIYKFPKP	PGPT0017825_678	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GALACOTOSE_METABOLISM|DEGRADATION,PGPT0017825-galK-K01785	NA	NA
BMS010_05579	1074			hypothetical protein	ATGCGCAGGCTCTTCTTATTGCTAGTGCTGAGCTTTTCCTCCCTGACCCATGCCGCCGTCGGCGTATTCCCCGACAGTGTCTTCCAGAACCTCGACCATGGCCTGTACTGGTTCGGCTATGGCGACACCTGGGAGAAGGCCATCCCCGGCCACGCCAACGCCTACTTCAGCACCAGCAAGCCCACCGTCATCTACATCCACGGCTGGCAGAACGGCAAAACCCAGGCAAAAAACCGCGAAACCTTCAACCGCAAGGACGCCGGCGGCCCGGACCTCGACCTGGCCTACGCCTGGCTCGCAGCCGGCTACAACGTCGGCATCCTTTACTGGAACCAGTTCGCCGACGAAGCGGAAGTGAAGGACGCCGAAGCCAAGATCTGGACCGCCAGCGGCCCGCGCGCCATGCGCTGGCGCAACAGCAGCGGCGCCTACGCCAGTGGCCCGAACAAGTCGGTCGGCGATCTGCTGTTCGACCACTACAAAGCCAACATGGCCGGCTACAGCGGCAGCAACATCCGCATCCTCGGCCATTCCCTGGGCAACGAACTGGCGATTGTCCTGACCAAGAAAATCAGCGACGCCGTGACCGCCGGCACCCTGTCCAGCCGACTGCTGCCCAAGCGCGTGGCCCTGCTCGACCCCTTCTACTCCAACTGGCCCAAGAGCTACCTGAACAACAAATGGGTCGGCGAGGTGTGCCGCAGCTATGTCAGCGAACTGAAGACCAAGGGGGTGATCTTCGAGGCCTACCGCAGCTCGGCCGTCGCCAGCACCATTTTCGTCGGCGACGAGAACAAGGACCTGATGAAAATGACCGCCTTCACCGAACTCAAACCCTGGTACTTCAACGCGGTGCAAATCAGCGAAAAACACTCGGCGGCCGTCTGGCACTATCTTTGGTCGTTCAGCTTCAACCCGCCGTCGATCAGCGGCACCAGCAACCAGGCCGCCTCGGCCAGAACCAGCGACAGCCGCACCGCGGCCCTGATGAATGGCACCAAGAAACTGGTACACGACCAGGGCATCTACTCCAAGGAACCTTCCGACGACACCTTCGTGGAAGCCAGCCGCTGA	MRRLFLLLVLSFSSLTHAAVGVFPDSVFQNLDHGLYWFGYGDTWEKAIPGHANAYFSTSKPTVIYIHGWQNGKTQAKNRETFNRKDAGGPDLDLAYAWLAAGYNVGILYWNQFADEAEVKDAEAKIWTASGPRAMRWRNSSGAYASGPNKSVGDLLFDHYKANMAGYSGSNIRILGHSLGNELAIVLTKKISDAVTAGTLSSRLLPKRVALLDPFYSNWPKSYLNNKWVGEVCRSYVSELKTKGVIFEAYRSSAVASTIFVGDENKDLMKMTAFTELKPWYFNAVQISEKHSAAVWHYLWSFSFNPPSISGTSNQAASARTSDSRTAALMNGTKKLVHDQGIYSKEPSDDTFVEASR				NA	NA	NA	NA	NA
BMS010_05580	255			hypothetical protein	ATGTCTGACTTCCGTCCGCTTCCTTCCCTGAGCACCACTGCCCGCCCCGTTCTCTACACCAATACCCGCCTCAGCTCGGATGAGTTGTTCGAAGCCGGGCAGGAGCGTTTGAACGCGGCGCAGCAGTTGGCGTTGGTGCTGTATTGCAACGAACCGCAGTTGGACAACGGCGAGGTATTCGCGGCGTTTCGTCTGCTGCTGGGCGATGCGGCGGGGTTGTATGCGGCGGCGTTCAAGCGTCTGCCGGGCGATTGA	MSDFRPLPSLSTTARPVLYTNTRLSSDELFEAGQERLNAAQQLALVLYCNEPQLDNGEVFAAFRLLLGDAAGLYAAAFKRLPGD				NA	NA	NA	NA	NA
BMS010_05582	189			hypothetical protein	ATGAAAAGTAGATACATTTACATCGCAGTTTATATTTTGCTTGTTGTCATTGTATATTTAGTCGGACTCCTCTTTGATGAGGTATCTAAAAACAGATTGCTCCAATTTGGAATCTTTTTCGCCTTGGCAGCCATTGCCGACAAACTGCTAAAAAAGATGCTCAATGCTGACAAGCAAGCGAGAAATTAA	MKSRYIYIAVYILLVVIVYLVGLLFDEVSKNRLLQFGIFFALAAIADKLLKKMLNADKQARN				NA	NA	NA	NA	NA
BMS010_05583	783			hypothetical protein	GTGCACTACAGCTCAACCGGCCAGAAGAAAACCGCCACCTACTGGATCTGGCTGGACGACCTGCCCCTGGCCGGGATCGAACTGACCTACGCCAGCGACGGCACCACCCTGGCCAGCCACCGCCTGTACTACCTGCACGCCGACCACCTCAACACCCCACGCCTGGCCACCGATGCCCACCAGCGCCTGCTGTGGAGCTGGAACAGCGACGCCTTCGGCGTCGGCCCCGCCAACCCCGACGTGGACGGCGACGGCCTCACCACCGACATCCCCCTGCGCTTCCCCGGCCAGCTCTACGATGCGCACAGTGCGCTGCACTACAACTACTTCCGGGACTATGACCCGGAGACTGGGCGGTATGTGGAGAGTGATCCGATTGGGCTCAGGGGTGGGCTGAATACCTATGGGTATGTAGAGGGGAATCCGCTTTCTTGGTCAGACCCCCGCGGGCTGGATATTTTTTGTGGTGTGGGTCGAGACAAAGTCGGGATTAATGAAGATGGAAGTGTTAAGTGTCGGGATAATGGTCACCCAGAAGAAAAACCATGTTTTGGTACCGACTGCAAAATATATACACCGGGAACCAATAGCCAATGCTATGTCAAGTGTATGGCTGACCCTAATGAAACACCATCATGTCCTGGGCTTCCCAAAGGAGGTTTAATACTCCAGATGGCGTTTGATTATGTTTGCCAGCAAGCCGGGCAAATGCTGAGCTGTTCAACAAGGTGCGATAGAGAAGTTTCCAATAATATAAACCAATATGTCTGCCCTGTGAGATGA	MHYSSTGQKKTATYWIWLDDLPLAGIELTYASDGTTLASHRLYYLHADHLNTPRLATDAHQRLLWSWNSDAFGVGPANPDVDGDGLTTDIPLRFPGQLYDAHSALHYNYFRDYDPETGRYVESDPIGLRGGLNTYGYVEGNPLSWSDPRGLDIFCGVGRDKVGINEDGSVKCRDNGHPEEKPCFGTDCKIYTPGTNSQCYVKCMADPNETPSCPGLPKGGLILQMAFDYVCQQAGQMLSCSTRCDREVSNNINQYVCPVR				NA	NA	NA	NA	NA
BMS010_05584	951	purC_2	COG0152	Phosphoribosylaminoimidazole-succinocarboxamide synthase	GTGCGCATTCTCGATGAAGCCGTCATTTCCGAGCTGCCGAATTATTACCGTGGCAAGGTGCGGGAAAACTACGATCTGCCCGACGGCAACCGCATCATCATATCGACCGATCGCCTTAGCGCCTTTGATCGTATCCTCACCTGCATACCTTATAAGGGACAGGTACTGACCCAGACGGCACGCTACTGGTTCGAACAAACGAAGGATATTTGTCCGAACCACGTCGTGAGCTATCCCGACCCCAATGTCGTCATCGGCAAGCGGCTGGACATATTGCCGGTCGAGGTGGTGGTTCGCGGTTATCTGGCCGGTACCACCGGCACGTCGATCCTGACCCTTTATAAGAAGGGTGAGCGGCAGATGTACGGCATGAGCCTGCCGGACGGGATGAAAGACAACCAGATTCTGCCCGAACCGGTGATCACACCGACGAGCAAGGCCTTCGATGGCGGCCATGACGAACCGCTGACGCCGGCCGAGATCGTGGAGAAGAAACTGCTGACGCAGGAGCAATGGGACACGCTTTCCCGTTACGCGCTGGCGCTGTTCAAGCGCGGGCAGGAAATTGCCGCAAAGCAGGGCCTCATTCTCGTCGACACCAAATATGAATTTGGAACGGATGAAAACGGCACGATCATCCTGGCCGATGAGATCCACACGCCCGATAGCAGCCGCTACTGGATGGCCGACAGTTATGACGAAAGCTTCCGCAACGGAACACGGCCGGCAAGCTTCGACAAGGATTTCGTGAGGGCCTGGGTCGCCGAACGCTGCGACCCTTATAAGGACGACGTGCCCGAAATTCCGCAGGACCTCGTCTTGCAGACTTCGAAGGTCTATATTGATGCTTACGAGCGCATCACCGGACAGAGCTTCGTTCCCGACGATAGCGGCGAGACACCGCTTGCAAGAATACGCCGGAACCTGGAGCCGTTCTTCCCCGGAGTCTGA	MRILDEAVISELPNYYRGKVRENYDLPDGNRIIISTDRLSAFDRILTCIPYKGQVLTQTARYWFEQTKDICPNHVVSYPDPNVVIGKRLDILPVEVVVRGYLAGTTGTSILTLYKKGERQMYGMSLPDGMKDNQILPEPVITPTSKAFDGGHDEPLTPAEIVEKKLLTQEQWDTLSRYALALFKRGQEIAAKQGLILVDTKYEFGTDENGTIILADEIHTPDSSRYWMADSYDESFRNGTRPASFDKDFVRAWVAERCDPYKDDVPEIPQDLVLQTSKVYIDAYERITGQSFVPDDSGETPLARIRRNLEPFFPGV	PGPT0021565_797	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021565-purC-K01923	NA	NA
BMS010_05585	660			hypothetical protein	GTGAGCAAAACGATCGAACAGGCGAGAAAGGCCGACAGGAAGAGTGACCGTCCTGTCAGGCGCCGGCCTCGCCGTTCCGCCGAGGAAACGCGGCGGGACATTCTCGCCAAGGCAGAAGAGCTTTTCCGCGAACGTGGTTTCAATGCGGTGGCGATTGCCGATATCGCCGCGGCGCTCGGCATGTCTCCCGCCAACGTCTTCAAGAATTTCAGCTCGAAGAACGCGCTCGTTGATGCGATCGCCTTCGAGCAGATCGGCGCATTCGAACGGGACATCCAGCCGCTGGATAAAAGCCACGCGCCGCTTTCGAGACTGCGCCATCTCGCCCGCACGCTGATGGAACAGCACCACCAGGATCTAAACGACAATCCCTACATATTCGAAATGATCCTGATGACGGCAAAGCAGGACATGAAGTGCGGCGACTATTATAAAGCCGTCATCGCCAACCTGCTCGCCGAGATTATCCGCGATGGTATCGATGCGCGAATCTACGCGCCGGCCGAGATTTCTCCTCTGGCGGAAACCGTGCTCCACGCGCTGACAAGCGTGATTCATCCCGTCCTCATTGCCCGGGAAGATATCGGCAATTTAGCAACACGTTGCGATCAACTCGTCGATTTAATCGACGCGGGATTGCGCAATCCGCTTGCTAAGTGA	MSKTIEQARKADRKSDRPVRRRPRRSAEETRRDILAKAEELFRERGFNAVAIADIAAALGMSPANVFKNFSSKNALVDAIAFEQIGAFERDIQPLDKSHAPLSRLRHLARTLMEQHHQDLNDNPYIFEMILMTAKQDMKCGDYYKAVIANLLAEIIRDGIDARIYAPAEISPLAETVLHALTSVIHPVLIAREDIGNLATRCDQLVDLIDAGLRNPLAK				NA	NA	NA	NA	NA
BMS010_05586	1203	ttgA		putative efflux pump periplasmic linker TtgA	ATGAGCCGACGTATTTTACCCCTATTTGCTTCTCTGTGTGTGACCGCTCTTCTGGCAGGTTGCAGCGATGGCGGCGAGAGCAGCCAGAACGCCGCCCAGAGCGCCGAGCGTCCGCCGTCCCCGGTCAGCATCATCCTGATGAAGACCAGCGAATATCCCTTGACCACGGTTCTGCCCGGTCGCGCCAGCGCGTTCCAGACAGCGGAAATCCGCCCGCGCGTCACCGGCATCATCCGCGAAATTCCCTTCAAGGAAGGCAGCGAGGTCAAGCAGGGCGATATTCTCTACCAGATCGAGGACAATACCTATCTGGCGGAAGTGGCGCAGGCCAAGGCAAACGTGGCGAAGGCGGAAGCAAGCATTCCGAGCGCCCAGGCGAACCTTGCCCGTTACGAACGCCTGGTCAACAGCGGCGCGACGCAGATCGAATATGAAAACGCCAAGGTGACGCTGCTGCAGGCGCAAGCCGATGTGGCCCAGACCAAGGCGGCGCTGGAAACGGCGGAAATCAACCTCGATCTCACCAAGGTACGCGCTCCCTTCGACGGCATCACCAGCGCAACCGCTTTCAGCATCGGCAACGTGGTGACGGCCAACCAGACGACGGCTTTGACGACGCTGCGCCGCATCGATCCGATCTATATCGATCTGATGGAATCCAGCATCAATCTTCTGCGTCTGAAAAAGGCGATCTCGTCGGGCCAGCTTGGCGGCGACACGAAGGAGACCGGCATTCACCTGACGCTGGAAGACGGCACGGAATACAAGCATGACGGCAAGATCGACATGTCGGACATGGCCGTGAGCGAAACCACGGGCACCTTCTCCATCCGCGCCCTCTTCGAAAACCCGGACGATCTTCTGCTTCCCGGCACCTATGTCCGCGCCACGCTGACCATCGGCAAGGAAAAAGGCTTCCGCATTCCGCAGCGCGCCGCAAGCCGGAACGCCAATGGCGAACTGACAGCGAAATTCGTGACGGCGGAAAACAAGGTGGAAACCCGCACCTTCCCGTCCAGCCAGCAGTCGGGCAATGCCTGGCTGGTAACTGAGAACGTCAAGGATGGCGACAAGCTCATCGTCGACGGATTCCAGTGGATCGCTGACGGTGCGACGGTCGCACCGGTTGAAGTGACCATCGACGATCGCGGTATCGTCGTTATGCCGCAGCAAGCTCAGCCTGCCGCCGCCCCCTCGAAATAA	MSRRILPLFASLCVTALLAGCSDGGESSQNAAQSAERPPSPVSIILMKTSEYPLTTVLPGRASAFQTAEIRPRVTGIIREIPFKEGSEVKQGDILYQIEDNTYLAEVAQAKANVAKAEASIPSAQANLARYERLVNSGATQIEYENAKVTLLQAQADVAQTKAALETAEINLDLTKVRAPFDGITSATAFSIGNVVTANQTTALTTLRRIDPIYIDLMESSINLLRLKKAISSGQLGGDTKETGIHLTLEDGTEYKHDGKIDMSDMAVSETTGTFSIRALFENPDDLLLPGTYVRATLTIGKEKGFRIPQRAASRNANGELTAKFVTAENKVETRTFPSSQQSGNAWLVTENVKDGDKLIVDGFQWIADGATVAPVEVTIDDRGIVVMPQQAQPAAAPSK	PGPT0003275_1394	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003275-acrA|lir|mtcA|mexA|adeI|smeD|mtrC|cmeA-K03585	NA	NA
BMS010_05587	3090	acrB_3	COG0841	Multidrug efflux pump subunit AcrB	ATGGCCCATTTCTTCATCCGGCGCCCCGTGTTTGCATGGGTTATCGCCATCGTCATCATGCTGGGCGGCGCCCTTGCGATCTGGACGCTTTCCATTTCGCAATATCCCGATATCGCACCGACAACGGTACGCGTCAGCGCGACCTATAATGGCGCGAGCGCCGAGACAGTCGAAAAATCGGTGACGACCATCATTGAGGACGGCATGACCGGCCTTGACGACCTCACTTATATGACATCGTCGTCCTCAACCGGCAGCGCCGAAGTGACGTTGACCTTCGGCAATACCATCCTGCCGGACATCGCGCAGGTTCAGGTGCAGAACAAGCTGCAGCTTGTCCAGTCGCAACTGCCTGACACCGTGCAGCAGCAGGGTCTTCAGGTCAGCCGATCCACATCCAGTATTCTGATGGTTGGCGCGCTGATCTCGACCGACGGCAAACGCAACTCGGCCGATCTCGGTGACGTCTTCTCCTCGCGTGTCGAAGACCAGATCAAGCGCCTCGAAGGCGTGGGCAGCATCAACGTCTTCGGTTCCGAATATGCGATGCGCATCTGGCTGGATCCGTTCAAGCTCAACAAGTACCAGCTGACCACGGCCGACGTGACCAGCGCCATCGAGAGCCAGAACACCCAGGTTTCCGTCGGTTCGCTTGGCGCGGTGCCCGCAGTCAAGGGTCAGCAGCTCAACGTGACGGTGACGGCGCAGAGCCAGCTCACCACCGTCGCCGATTTCGAATCGGTCATCCTGAAAGTCGAAAAGGACGGCGCAACCGTTCGCCTGAGCGACGTGGCCCGCATTGAAATCGGCCAGGAAACCTATGGTGGCGATTCCCGTTCGAACGGCCGTCCCTCTGCCGGTTTCGCGGTCAACCTCGCCACGGGTGCCAACGCACTCGATACGGCAGCGCGCGTAAAGTCGGCGCTTTCCGCTGTCGAAGGTTCGCTGCCAGAGGGGGTTTCGATCGAATATCCCTATGACACGACACCCTTCGTGAAGCTGTCGATCGAGAAAGTGGTACACACGCTGATCGAGGCGATCATCCTCGTTTTCGTCGTGCTGCTGGTGTTCCTGCAAAACCTCAGAGCCACCTTCATTCCGATGATCGCGGTTCCCGTCGTGCTTCTCGGCACGTTCGGCGTCCTTGCGCTGACAGGATATTCCATCAACACGCTCACCATGTTCGCCATGGTTCTGGCCATCGGCCTTCTCGTTGACGACGCTATCGTCGTCGTCGAAAACGTCGAACGAATCATGTCGGAAGAGGGCTTGTCGCCGGTCGAGGCGACCGAGAAGTCGATGGGCGAGATCACCGGTGCGATCATCGGTATCGCGCTCGTGCTCACCGCCGTGTTCATTCCGATGGCCTTCTTCGGTGGATCGACGGGCATCATCTACCGCCAGTTCTCGGTCACCATCGTTTCGGCCATGCTGCTTTCGGCAGTGGTCGCCATCGTTCTGACGCCGGCGCTCTGCGCCACGATGCTGAAGCCGATCGACCATCACAAGAAGCAGCGCGGACCGGGCGCGTGGTTCAACCGCGGCTTTGGCAAGACGACGGATGGTTACGTTTCCTCTATCGGTTATCTGCTGAAGCGGCCTCTCCGCGTGATGATTATTTTCGCGATCGTGATCGGCGGCTGCGCCTGGTTCTTCAGCAAGCTGCCCAGCTCGTTCCTGCCGCAGGAAGACCAGGGCGTGCTGCTGACGATCATCCAGACGCCGACCGGTTCGAACATCGAACGGACCAACGAAGTGGTGAAGCAGGTCGAAAGCTACTTCCGTGAAAAGGAAGCCGCCAATGTCGAATCGGTTTTCGGCGTTCTCGGCTTCAGCTTCAGCGGTTCTGGCCAGAACAACGCCATCGTCTTCACCAAGCTCAAGGATTTCGCCGAGAGAACGGCCCCCGACCAACACGCCGGCGCCATCGTGCAGCGTGCGATGGGCACCTTCTTCGGTTTCCGCGATGCGCAGGTGTTCCCGCTTCTGCCGCCGGCAATTCAGGGCATGGGCACATCGAGCGGTTTCTCGATGTATCTCGTGGATAGCGGCCGCAACGGCACCGAGGCACTGACCGCCACGTCCAAGGAACTGATCGCTCTTGCGACCAGCAATCCGAAGGTCAGCTCGCTCAGAAGCGACAGCCAGGACAATGAAACGCAGATGAAGATCATTCTCGATCAGGAAAAGATGGGCGCCATGGGTGTCGATCTCTCCTCCGTGAACCTCATGCTGTCGACGATCTTTGCCGGCCGGGACGTCAACGACTTCACGCTGAACGGCGAGCTCAAGCCCGTTTATGTTCAGGGTGATGCGCCGTATCGCATGCAGCCGGACGATCTCAAGTTCTGGTATGCCCGCAATACCAGCGGCGAAATGGTGCCTTTCTCTTCCTTCAGCGAAGTGAAATGGATCAATGCTCCACCGTCTCTCGCCCGCTTCAACGGCACGGGCGCCATCTCGCTCGAAGGCACCGCCGGTGCGGGCGTTGCATCCGGTGACGCCATGGACGAGATGGAACGCCTGACGGCGAGCCTGCCGGGCGGTTACACGGTGGCATGGCAGGGCATTTCCTATCAGGAACGCCTTTCCGGCTCGCAGGCGCCGATGCTCTATGCGCTCTCGGTGCTGATCGTGTTCCTTTGCCTTGCCGCCCTTTATGAAAGCTGGTCGATCCCCTTCTCGGTCATCATGGCCGTGCCGGTGGGCGTCCTCGGCGCTTTGACTGCGGCGCATTTCTTCGGGCAGTCGAACGACGTCTACTTCAAGGTGGGCCTGCTGACGACCATCGGCCTTGCGGCGAAAAACGCGATTCTGATCGTCGAATTCGCCAAGGAAAGACAGGAGCATGGACTAAGCCTGATGGAAGCGACGCTGGAGGCGGCGAAGCTGCGCCTGCGTCCGATCATCATGACGTCGCTAGCCTTCATCCTGGGTGTCGTGCCTCTCGCAATCGCAACCGGAGCGGGTTCCGCCGCACAAAATGCAATTGGTATCGGGGTGCTGGGTGGTATGCTTTCTGCAACACTGCTCGGAATTTTCTTCGTTCCGTCCTTTTTCGTCATCATTCGTCGCCTTTCAAGGCGTTAA	MAHFFIRRPVFAWVIAIVIMLGGALAIWTLSISQYPDIAPTTVRVSATYNGASAETVEKSVTTIIEDGMTGLDDLTYMTSSSSTGSAEVTLTFGNTILPDIAQVQVQNKLQLVQSQLPDTVQQQGLQVSRSTSSILMVGALISTDGKRNSADLGDVFSSRVEDQIKRLEGVGSINVFGSEYAMRIWLDPFKLNKYQLTTADVTSAIESQNTQVSVGSLGAVPAVKGQQLNVTVTAQSQLTTVADFESVILKVEKDGATVRLSDVARIEIGQETYGGDSRSNGRPSAGFAVNLATGANALDTAARVKSALSAVEGSLPEGVSIEYPYDTTPFVKLSIEKVVHTLIEAIILVFVVLLVFLQNLRATFIPMIAVPVVLLGTFGVLALTGYSINTLTMFAMVLAIGLLVDDAIVVVENVERIMSEEGLSPVEATEKSMGEITGAIIGIALVLTAVFIPMAFFGGSTGIIYRQFSVTIVSAMLLSAVVAIVLTPALCATMLKPIDHHKKQRGPGAWFNRGFGKTTDGYVSSIGYLLKRPLRVMIIFAIVIGGCAWFFSKLPSSFLPQEDQGVLLTIIQTPTGSNIERTNEVVKQVESYFREKEAANVESVFGVLGFSFSGSGQNNAIVFTKLKDFAERTAPDQHAGAIVQRAMGTFFGFRDAQVFPLLPPAIQGMGTSSGFSMYLVDSGRNGTEALTATSKELIALATSNPKVSSLRSDSQDNETQMKIILDQEKMGAMGVDLSSVNLMLSTIFAGRDVNDFTLNGELKPVYVQGDAPYRMQPDDLKFWYARNTSGEMVPFSSFSEVKWINAPPSLARFNGTGAISLEGTAGAGVASGDAMDEMERLTASLPGGYTVAWQGISYQERLSGSQAPMLYALSVLIVFLCLAALYESWSIPFSVIMAVPVGVLGALTAAHFFGQSNDVYFKVGLLTTIGLAAKNAILIVEFAKERQEHGLSLMEATLEAAKLRLRPIIMTSLAFILGVVPLAIATGAGSAAQNAIGIGVLGGMLSATLLGIFFVPSFFVIIRRLSRR	PGPT0003280_3314	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003280-acrB|acrE|mexB|adeJ|smeE|mtrD|cmeB-K18138	NA	NA
BMS010_05588	1446	ttgC_3		Toluene efflux pump outer membrane protein TtgC	ATGCTGTCTATTCGCGCTACTCTTCCCCTGACAATGCTGCTGCTCTCAGGCTGCGTTGTCGGGCCCGACCACAAGACGCCGGAAATTCAATTGCCGGGAAAGTTTGCGGAAGCCGGAAAAACCAGTAATGGCGACATCAGCACCGTTGCGTGGTGGACAGCCTTTAACGATAGCCGCCTCAATGGTTACGTTTCCACTGGCCTCAGCCAGAACCTGACCGTGATGCAGGCGATCGAGCGCATCAATCAGGCGGAAGCCCAGGTCATCTCGGCCGGTGCGGGCGGTCTGCCGAGCCTGACGGCTAACGGCAGCCACACGACCAGCGAGACCAAGGGCAGCTACCGTGATGTTCCCGTCACCAACGTGTCCTCAGGCAGTCTCAGCGTCTCCTGGCTGCTTGACCTCTTCGGCCGCTATCGCCGCGCCACGGAAAGCGCCAATGCATCGCTCGATGCCGCTTACTCCACCGTTGATGTTCAGCGCCTGACGCTGATTTCTTCGGTCGCAGCAGCCTATATCGATGTGCGTTATTATCAGGAGCGCCTGGCGATTGCCCGTCAGAACCTGGCTTCCCGCCGCGAAACGCTGGACCTGACCAAGCTGCAGCTTGAAGCGGGTGCGGCTTCCCGTCTTGATGTCGTCCAGTCCGAAGGTCTGGTGAACTCGACGCTGTCCGACATTCCGGGCCTCGAAACCAACTTCCGCAAGGCGGCGCATCGCATCGCCACGCTTCTCGGCCTGCCGGCCTCATCTCTGATTTCCGAGTTGCAGAAGGGCGCACGCCAGCCGGTTGCCCGCAGCATTCCGCGCACCGGCATCCCGGCCGATCTCATCCGCAACCGTCCGGACATTCGTGTCGCTGAACGCAATCTCGCTGCCGCAGTCGCCTCAATCGGTGTCGCGGAAGCGCAGCTCTATCCCAGCATCGAGCTCGGCGGCTCGATCACGCCAAGCTACAACTTCCTGAGCGGTGGCGGCAGGGGAACGGCCAATAGCTGGTCCTTCGGTCCGAGCCTCGTTCTGCCGATTCTCGATGGCGGCAGCATCCGCGCCAATATCGATCTGGCCAATTCCCAGGCACGTGAGGAATATCTCGTCTGGAAGCAGACGGTGCTGACCGCTGTGGAAGAAGTCGAAAACGCTCTGGCCGCCGTCACCCGCGATCAGCGCACGGCCGATGCATTGCGCAAGACCGTCGCGTCCTATCAGGAAGCGTTGCAGCTTTCGACAGCCAGCTACCGCGACGGCGCCTCCTCGCTGCTCGACGTTCTCGATGCGCAGCGCCAGGTTTCCACCGCACAGGCAAGCCTTGCACAGGCTGTGCAGCAGACCGCGCAGGACTACGTCTCGCTGAACGTAGCGCTTGGCGGCGGTTATGCCGTTGGCCAGACCACGGCTCCGAAGAAGGCGCCCGGCCCAACCCGGACCTCGGCAAAGGCCATGTAA	MLSIRATLPLTMLLLSGCVVGPDHKTPEIQLPGKFAEAGKTSNGDISTVAWWTAFNDSRLNGYVSTGLSQNLTVMQAIERINQAEAQVISAGAGGLPSLTANGSHTTSETKGSYRDVPVTNVSSGSLSVSWLLDLFGRYRRATESANASLDAAYSTVDVQRLTLISSVAAAYIDVRYYQERLAIARQNLASRRETLDLTKLQLEAGAASRLDVVQSEGLVNSTLSDIPGLETNFRKAAHRIATLLGLPASSLISELQKGARQPVARSIPRTGIPADLIRNRPDIRVAERNLAAAVASIGVAEAQLYPSIELGGSITPSYNFLSGGGRGTANSWSFGPSLVLPILDGGSIRANIDLANSQAREEYLVWKQTVLTAVEEVENALAAVTRDQRTADALRKTVASYQEALQLSTASYRDGASSLLDVLDAQRQVSTAQASLAQAVQQTAQDYVSLNVALGGGYAVGQTTAPKKAPGPTRTSAKAM	PGPT0015295_399	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0015295-nodT|ameC-K18904	NA	NA
BMS010_05589	570	efp_2	COG0231	Elongation factor P	ATGGTCAAGGTTATCGCCTCATCCGTCCGCAAGGGCAATGTTCTCGACGTGGACGGCAAGCTTTACGTCGTTCTTACCGCACAGAACTTTCACCCCGGCAAGGGCACGCCGGTCACGCAGGTGGACATGCGCCGCATCGTTGACGGCGTGAAGGTCTCCGAGCGCTGGCGCACCACCGAGCAGGTCGAGCGCGCTTTCGTTGAAGACCTGAACTTCCAGTTCCTTTATGAAGATGGCGAAGGCTTCCACTTCATGAACCCGGAGAACTACGATCAGGTTGTGGTTGATGCCGAAACGATGGGCGATCAGAAGGCCTACCTGCAGGAAGGCATGACCTGCATTCTTTCCATTCATGAAGGCAATCCGCTGGCCGTCGAACTGCCGCGTCACGTCACGCTGGAAATCACGGAAACCGAACCGGTCGTTAAGGGCCAGACGGCTTCTTCTTCCTACAAGCCGGCCATTCTTTCCAACGGCATCCGCACCATGGTGCCGCCGCATATCGATGCCGGTATCCGCGTGGTCATCGCGACGGAAGACAATTCCTACGTCGAGCGCGCCAAGAACTGA	MVKVIASSVRKGNVLDVDGKLYVVLTAQNFHPGKGTPVTQVDMRRIVDGVKVSERWRTTEQVERAFVEDLNFQFLYEDGEGFHFMNPENYDQVVVDAETMGDQKAYLQEGMTCILSIHEGNPLAVELPRHVTLEITETEPVVKGQTASSSYKPAILSNGIRTMVPPHIDAGIRVVIATEDNSYVERAKN	PGPT0016205_989	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-SWARMING_REGULATOR,PGPT0016205-efp-K02356	NA	NA
BMS010_05590	1044	epmA	COG2269	Elongation factor P--(R)-beta-lysine ligase	ATGTCGCCATGGTGGACGCCGGACGTCCACGCCGACCGCCGCGCATTTCTCATTGGGCGCAATGCGATCCAGTCGGCTTTTCGCGGCTACTTCGCCAGCGCCGATTTTCTTGAGGTCGACACTGCTGCATTGCAGATTTCCCCCGGCAACGAAGCGCATCTGCATGCTTTCGCCACGCAGGGCCTGACGCCGGCCGGCGATGCCGTGCCGCTTTATCTGCACACCTCGCCTGAATTCGCCTGCAAGAAGCTGCTCGCCGCCGGTGAAAAACGCATCACCTGTTTTGCCCATGTTTACAGAAACCGGGAACGAGGCCCCCTGCACCATCCGGAATTCACCATGCTGGAATGGTACCGGGTCGGCGAAACCTATGAGAGCCTGATGAAGGACAGCGCCAATCTTCTGGCGCTGGCAGCCGAAACGGCAAAGACGAAAAATTTCGCCTATCGCGGCCGCAGCGTTGATCCTTTCCTCGAGCCGGAGCGGGTAAGCGTCGCCGAAGCCTTCGAGCGATATGCGGGCGTCGACCTGCTGGCCACCATCAGCCGAAACGGCGAAACCGACGCTCGCCATCTTGCGGCGAACCTCACCGAGGCCGGCATCCGCGTGGCCGATGACGATACCTGGGCGGATATGTTCAGCCGCGTCATCGTAGAGCGGGTGGAGCCGGAGCTGGGTTTCGGCAGGGCGACCATTCTCGATGAATATCCGACCTGTGAGGCAGCCCTTGCCCGCAAGTCACCCAAGGATGCGCGCGTGGCGGAGCGTTTCGAGCTATATGCCTGCGGCGTTGAACTCGCCAACGCCTTCGGCGAATTGACCGACGCCAACGAGCAGAGGCGGCGTTTCGAAATGGAAATGGCCGAGAAGCAGCGGGTTTACGGCGAAACCTATCCGCTGGACGAGGATTTTCTGGCCGCACTGGCAATCATGCCGCCGGCAAGCGGCATAGCGCTTGGTTTTGACCGGCTGGTGATGCTGGCAACCGGCGCGCCCCGTATCGATCTCGTCATGTGGGCCCCAGTCGCGGAATATGGACGATGA	MSPWWTPDVHADRRAFLIGRNAIQSAFRGYFASADFLEVDTAALQISPGNEAHLHAFATQGLTPAGDAVPLYLHTSPEFACKKLLAAGEKRITCFAHVYRNRERGPLHHPEFTMLEWYRVGETYESLMKDSANLLALAAETAKTKNFAYRGRSVDPFLEPERVSVAEAFERYAGVDLLATISRNGETDARHLAANLTEAGIRVADDDTWADMFSRVIVERVEPELGFGRATILDEYPTCEAALARKSPKDARVAERFELYACGVELANAFGELTDANEQRRRFEMEMAEKQRVYGETYPLDEDFLAALAIMPPASGIALGFDRLVMLATGAPRIDLVMWAPVAEYGR				NA	NA	NA	NA	NA
BMS010_05591	1065	kamA_2		L-lysine 2,3-aminomutase	ATGACAGGGCTTGAGACCATCAAGACAGCCGAAGCACTTCTCGAAACGGGGCTTATCGAAGCCGAAGCGCTCGAGACGCTGCGCACTGTGACGCAACGTTACGCGCTCGCCATCACGCCATCGATTGCCGGGCTGATTGACAGCCGCGACCCGCAGGATCCCATCGCCCGACAATTCGTTCCTGACCCGGCCGAACTCGTTCATCTTCCTGAAGAACGGGACGATCCGATTGGCGACGACGCGCACAGCCCCGTCCACGGCATCGTCCACCGTTATCCCGACCGGGTGCTTTTAAAGGCAGTGCATGTCTGCCCCGTTTATTGCCGCTTCTGTTTCCGCCGGGAGATGGTCGGACCACAGGGCAACGGCATGATGAGCCCGGCGGAACTTGACGCCGCATTCGGCTATATAAAGGCCAATCCCGCCATCTGGGAGGTCATCCTGACCGGTGGCGATCCGCTGGTGCTTTCCCCCCGGCGCTTGTCCGACCTGATGACGCGCCTGAAAGACATACCGCATGTGAAGATCGTCCGCTTCCACACCCGCGTGCCGGTGGTCGATCCCGACCGTATCGACGCGGCGCTGATCGATTCGCTGAAGGCCAGCGGCAAAACCACCTATGTGGCCCTGCACGCGAATCATTCCCGGGAACTCGGCGAAGCCGCAAGGCAGGCTTCGGCACGCCTGATCGACGCCGGTATCGCCATGGTGAGCCAGACGGTCCTTTTGAAAGGCGTCAATGACGACCCGGCGGTTCTTGCCGAGTTGATGCGCGCCTTTGTCGAGACCCGTATCAAGCCTTATTACCTGCATCATCCCGATCTTGCGCCTGGCACCAGCCATTTCCGGCTGACGATAGAAGAGGGGCAGCGAATCGTTTCCGCTTTGCGGGGGCATGTCTCCGGCCTTTGCCAGCCGACCTATGTTCTCGACATTCCCGGCGGCCACGGCAAGGCGGCAATTGGCAGAAATGCGGCCGAAAAAACCCGCGATGGCTGTTATTCCGTTTCCGACTTCAACGGAAACGATCATGTTTATCCACCACCAGCCAACGGCGACGATTAA	MTGLETIKTAEALLETGLIEAEALETLRTVTQRYALAITPSIAGLIDSRDPQDPIARQFVPDPAELVHLPEERDDPIGDDAHSPVHGIVHRYPDRVLLKAVHVCPVYCRFCFRREMVGPQGNGMMSPAELDAAFGYIKANPAIWEVILTGGDPLVLSPRRLSDLMTRLKDIPHVKIVRFHTRVPVVDPDRIDAALIDSLKASGKTTYVALHANHSRELGEAARQASARLIDAGIAMVSQTVLLKGVNDDPAVLAELMRAFVETRIKPYYLHHPDLAPGTSHFRLTIEEGQRIVSALRGHVSGLCQPTYVLDIPGGHGKAAIGRNAAEKTRDGCYSVSDFNGNDHVYPPPANGDD	PGPT0014370_945	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LYSINE_DEGRADATION,PGPT0014370-ablA-K01843	NA	NA
BMS010_05592	192			hypothetical protein	ATGCAGAAGCAAGTTATTGAATTCGCTGGCGAACCCGTCGGCATCGTCATCCCGGATAATGACCGGTTGAAGTTCATCGCGGTGAAGTTCCACGTTCACGACCTGGACGAACAGAAGTTCGACAGCGCCGACGACGTGCGGATTGCGATCCGCGATCTCGTGCGCAACCGGAATCTGGCCGCGGTCGCCTGA	MQKQVIEFAGEPVGIVIPDNDRLKFIAVKFHVHDLDEQKFDSADDVRIAIRDLVRNRNLAAVA				NA	NA	NA	NA	NA
BMS010_05593	237			hypothetical protein	GTGAAGCCCATTTTCGTTCAGCTTCAATGTGAGCCCGGCAAGACCTATGATGTCGCCGACGCCATCTATAAGACGGAACTGGTTTCCGAGCTTTATTCCACCAGCGGTGAATATGATCTGCTGCTGAAAATCTATCTGCCGCAGGAAGAAGACATCGGCAAGTTCATCAACCAGAACATCGTCAATATTCCGGGAATCGTGCGTTCGCTGACGACGCTGACCTTTACTGCATTCTGA	MKPIFVQLQCEPGKTYDVADAIYKTELVSELYSTSGEYDLLLKIYLPQEEDIGKFINQNIVNIPGIVRSLTTLTFTAF				NA	NA	NA	NA	NA
BMS010_05594	927	gcvA_8		Glycine cleavage system transcriptional activator	ATGGTCCTGCCGCCACGCCGTTTTCTGCCTTCGCTTTCGCTGCTGGCGGCTTTCGAAGCCGCTTCCCGGACGGGCAGCGTCACCGCCGCCGCGAGGGAACTGGGGCTGACGCAGGGTGCGGTCAGCCGCCAAATCCTGGCGCTCGAAGAGCAGCTTGGCGTGGCGCTGTTCCTGCGTGAGCGGCAGACGATCCGGCTGACAAGGGCGGGGGAGGGGTATGCGCGGGAAATCCGCGAGGCGTTGCGGCGCATATCGACGGCCTCGCTCAACCTGCGTGCCAATCCGGATGGCGGCACGCTCAACCTCGGGGTTCTGCCGAGCTTCGGCACGCGCTGGCTTGTGCCGCGCCTTCCCGATTTCATCGCCAGACACCCCGGCGTTTCGGTCAATCTTCTGACGCGGTCATCGCTGTTCGATTTCCGCACCGATACAGTCGATGCGGCCATCCATTTCGGATTGCCGCATTGGCCGGGCACCGAGCTGGTTTTCCTGATGCATGAAAAGGTCATTCCGGTATGCAGCCCGGCCTTCAAGGCGCGACACGGGCTTTCAAGGCCGGACGATCTGCTGTATGTCCCGTTGCTGCACATGACGACACGGCCGGATGCCTGGGAGCAATGGTTTCGCAGCCATGACGTTGGTTTCGACAATGTGCATGGCATGCTTTTCGATCAGTTCACGACGATTGCCGAGGCGGCGAGCGCCGGGGTTGGAGCCTCGCTCATTCCGTCTTTCATGATTGAGGAGGAGTTGCGAAACGGTCGTCTGGTCGCGGCTGTTGCGGGGGAAGTGGAGAGCGAGGAAGCCTATTACCTCGCCTGCATGCCGGATCGCGCCGGTTATGCGCCGCTCGAAAGTTTTCGGCGGTGGATCGTTTCCGAGGCCGCAACTGGCGCGAACGGCAGGACCGCGGAGTTTTCGGCGTAA	MVLPPRRFLPSLSLLAAFEAASRTGSVTAAARELGLTQGAVSRQILALEEQLGVALFLRERQTIRLTRAGEGYAREIREALRRISTASLNLRANPDGGTLNLGVLPSFGTRWLVPRLPDFIARHPGVSVNLLTRSSLFDFRTDTVDAAIHFGLPHWPGTELVFLMHEKVIPVCSPAFKARHGLSRPDDLLYVPLLHMTTRPDAWEQWFRSHDVGFDNVHGMLFDQFTTIAEAASAGVGASLIPSFMIEEELRNGRLVAAVAGEVESEEAYYLACMPDRAGYAPLESFRRWIVSEAATGANGRTAEFSA	PGPT0026360_2132	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
BMS010_05595	1284	puuB_5		Gamma-glutamylputrescine oxidoreductase	ATGTATAATGACCCCCGTTCGCACGGCCTCTGGGAAAAGACCGCGCCGCAGCCGCCCGTAACGCCCGCCTTGCAGGGCGCAGCAGTTGCCGATGTTGTCGTCGTCGGAGGTGGTTTTACCGGCCAGTCTGCCGCCCTTCATCTTGCCGAACGCGGTGTGGATGTCGTTCTTCTCGAAGCAAGGGAAATCGGCTTCGGCGGCGCAGGCCGCAATGTCGGCCTCATCAATGGCGGCATGTGGGTCATGCCGAAAGAGCTACCCGGCGTGCTGGGCGAGGTTTACGGCGAGCGCCTTCTCGATCTTCTGGGCAATGCCCCGCTTCTCGTGCGTGAACTGGTGGAAAAACACGCAATTCCCTGCGAGATCGAAAAAAACGGCACGCTCCATTGCGCCGTCGGAGAAAAAGGGCTCGCCGAAATCCGTGAGCGCTGCGAACAATGGGCGGAGAGAGGCGCACCCGTCCGCATCCTCGATGCCGAAGAGACAGCGAGACGCACCGGCAGTACGGGCTATTCCGGTGCGCTTCTGGATACACGCGCCGGCACGATACAGCCGCTCGCCTATGTTCGAGGCCTTGCCGCAGCCGCCCAGAAAGCGGGCGTGCGCCTGCATACCGAAAGCCCCGTGGTAGCGACCGAACGCAGCAACGGAAAATGGGTGGTGAAGACGTCGCAAGGGTCTGTAACCGCCAACTGGATCGTTGTGGCCACTGAAGCCTATAGCACCGGCCCATGGCGGATCGTTCGCGATGAACAGGTCTACCTGCCCTATTTCAATTTTGCGACGAGACCGCTCGGCGATAATCTGCAAAAGACCATCCTGCCCGGCCGTGAGGGCTGCTGGGATACGAAGGAGATTCTCTCATCCTTCCGCATGGACAAAGCCGGCCGGCTGGTCTTCGGCAGCGTCGGCGCCCTGCGCGGCACCGGTGCCGCCATTCATCGCGCCTGGGCGAAGCGCTCGCTGAAGCGACTTTTCCCGCAACTCGGGGATACGGAATTCGAATGTGAATGGTACGGCCAAATCGGCATGACCGACAATGCCGTGCCCCGCTTTCACAAATTCGCTGAAAATGTCGTCGGCTTTTCAGGCTATAACGGCCGCGGCATCTCGCCGGGTACGGCCTTTGGCAAGGTCATTGCGCAGCATATTCTCGGTGAAATTGCTGAAGCCGAATTGCCGCTGCCTTTGACGGAGCCGAAAGCGCAGACTTTCCGGACGGTGAAGGAAGCCTATTACGAGGCAGGCGCACAGATCGCCCATTTCGCCGGCGAGCGTTTTTGA	MYNDPRSHGLWEKTAPQPPVTPALQGAAVADVVVVGGGFTGQSAALHLAERGVDVVLLEAREIGFGGAGRNVGLINGGMWVMPKELPGVLGEVYGERLLDLLGNAPLLVRELVEKHAIPCEIEKNGTLHCAVGEKGLAEIRERCEQWAERGAPVRILDAEETARRTGSTGYSGALLDTRAGTIQPLAYVRGLAAAAQKAGVRLHTESPVVATERSNGKWVVKTSQGSVTANWIVVATEAYSTGPWRIVRDEQVYLPYFNFATRPLGDNLQKTILPGREGCWDTKEILSSFRMDKAGRLVFGSVGALRGTGAAIHRAWAKRSLKRLFPQLGDTEFECEWYGQIGMTDNAVPRFHKFAENVVGFSGYNGRGISPGTAFGKVIAQHILGEIAEAELPLPLTEPKAQTFRTVKEAYYEAGAQIAHFAGERF				NA	NA	NA	NA	NA
BMS010_05596	792	modA	COG0725	Molybdate-binding protein ModA	ATGAGACTTTTGCGTCGCAGCTTCTTCAAAACCATTGCCGCAGCCACATCCTTCTGGATGGCGGCCTCACTCGCGGCCGTTCCGGCCCATGCCGCCGAAAAAGTCACGGTGTTTGCCGCCGCAAGCATGAAAAACGCACTCGATGCTCTCAACGCCGAGTGGGCGAAGGAAAGCGGTAACGAAGCAACCGTCTCGTATGCAGCAAGCTCGGCGCTGGCCAAGCAGATCGAGCAGGGCGCACCGGCGGATATCTTCATTTCGGCCGATCTCGCATGGATGGACTATATCGCCGAAAAGAAGCTGATCAACGCTGACACCCGCTCCAATCTTCTCGGCAACCGCATTGTTCTCGTCGCTCCCGCAGACAAGGCAAAGCCGGTCGAGATCAAGCAAGGCTTCGATCTTGCCGCTCTGGTGGGCGATGGCCGACTGGCCATGGGTGCGGTCGATTCCGTGCCGGCGGGCAAATACGGCAAGGCCGCTCTGGAAAAGCTCGGGGTCTGGTCCTCGGTGGAACAAAAGGTCGCCGGCGCGGAGAGCGTGCGTGCCGCCCTGCTGCTCGTCTCGCGCGGCGAAGCACCCTATGGCATTGTCTACCAGACCGACGCCGCCGCCGATCCGGGCGTGAAGATCGTCGGCACCTTCCCGGAAGACAGCCATCCGCCGATCATCTACCCGGTCGCCATTCTTTCGGAAGCCAGGTCCCCGGCAGCAAAAGCCTATCTGGATTTCCTGAAATCGGCCAAGGCAACGCCCTTCTTCGAAAAGCAAGGCTTTACCGTTTTGAAATAA	MRLLRRSFFKTIAAATSFWMAASLAAVPAHAAEKVTVFAAASMKNALDALNAEWAKESGNEATVSYAASSALAKQIEQGAPADIFISADLAWMDYIAEKKLINADTRSNLLGNRIVLVAPADKAKPVEIKQGFDLAALVGDGRLAMGAVDSVPAGKYGKAALEKLGVWSSVEQKVAGAESVRAALLLVSRGEAPYGIVYQTDAAADPGVKIVGTFPEDSHPPIIYPVAILSEARSPAAKAYLDFLKSAKATPFFEKQGFTVLK	PGPT0008435_1618	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008435-modA-K02020	NA	NA
BMS010_05597	702	modB_1	COG4149	Molybdenum transport system permease protein ModB	TTGCATTGGTGGACACTCAGCCCTGAAGAATGGACGGCGATCAGGCTCAGCCTGTGGGTGTCGTCCATCGCCATGCTTGCCAGCCTGCCTTTCGGCATTCTGGTCGCCGTGGCGCTGGCGCGCGGTCACTTCTGGGGCAAGTCTCTCCTCAATGGCATCGTCCACCTGCCGCTCATCCTGCCCCCCGTCGTCACCGGCTTTCTGCTGCTCGTCCTGTTCGGCCGCAGGGGCGCGATCGGGCAATTTCTCGATAGCTGGTTCGGCATCGTCTTTTCCTTCCGCTGGACCGGGGCCGCGCTCGCCTGCGCCGTCATGGCCTTTCCGCTGATGGTGCGTTCCATCCGCCTCTCCATAGAAGCGGTGGACCGCAAGCTGGAAGAAGCGGCGGGAACATTGGGGGCAAGCCCGTTCTGGGTGTTCCTCACCGTCACCCTGCCCTTGACCCTGCCCGGTATCATTGCCGGCATGATCCTGGCTTTCGCCAAGGCCATGGGCGAATTCGGCGCAACCATTACCTTCGTGTCCAATATTCCCGGCGAGACCCAGACTTTGTCCGCCGCCATCTATACCTTCACTCAGGTTCCGGGCGGCGATGCCGGCGCGTTGCGGCTAACAATTGTCTCCGTCGTGATTTCCATGCTCGCTTTGCTCGTCTCGGAGTTTCTGGCCCGCATCGTCGGCAAACGGGTGAGCATCGAATGA	MHWWTLSPEEWTAIRLSLWVSSIAMLASLPFGILVAVALARGHFWGKSLLNGIVHLPLILPPVVTGFLLLVLFGRRGAIGQFLDSWFGIVFSFRWTGAALACAVMAFPLMVRSIRLSIEAVDRKLEEAAGTLGASPFWVFLTVTLPLTLPGIIAGMILAFAKAMGEFGATITFVSNIPGETQTLSAAIYTFTQVPGGDAGALRLTIVSVVISMLALLVSEFLARIVGKRVSIE	PGPT0008440_1128	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008440-modB-K02018	NA	NA
BMS010_05598	1077	btuD_13		Vitamin B12 import ATP-binding protein BtuD	ATGATGCTTTCGGTCGCCACCCGCCATCGCCTCGGTTCTTTCGAACTCGATGCGTCATTCACCTCCGAAGGCGGCGTCACCGCGCTGTTCGGGCGCTCCGGCTCCGGCAAAACCTCGATGATCCGCATCATGGCAGGCCTGTTGCGGCCGGATGAGGGACAGGTTTTGCTTAATGGTGAAGTGCTGGCAGATAGCGGAACACGGCTGTTCCTGCCGGCTCATAAACGCCGCTTCGGTTATGTTTTTCAGGAAGCGCGGCTCTTCCCGCATCTCAGCGTGGCGCAGAACCTGCATTACGGCAGATGGTTCGCCGTGAACAAAACCGGGAGCGCGAATGAAGACCGCATCGTCGACATGCTCGGCATCGGCCACCTCTTGCAGCGCCGGCCGGACAAGCTTTCCGGTGGCGAAAAACAGCGTGTCGCGATTGGCCGCGCGCTCCTCTCATCACCCAGGCTGCTGCTGATGGACGAGCCACTCGCCTCGCTCGACGAGGAGCGAAAAGCCGAAATCATTCCCTATCTCGAACGGCTGCGCGACGAGACGAAAATCCCGATTGTCTATGTCAGCCATTCTATTCAGGAGGTAGCCCGCCTCGCCGACCGCATCGTGGTGATGAAGGACGGCAAGGTGGAGGCGCAGGGAAAAGCGGCCGACGTGCTTTCCAGACCGGATTTCAGCACGTATCTCGAACGGCGCGAGGCGGGCAGCATTCTTTCCGGCCACATTGAAAGCTTTGATGAGCGGCATGGACTTGCCGCCGTGAGGCTAAAGACCAAGCTGCTGCATGTTCCGGCAAAAAGGGGAACGGCGGGCAGCCCGGCGCGGGTGCTCATACCGGCGCGCGATGTGATGCTGGCAACCGTAAAACCCGAAGGCTTGAGCGCGCTCAACATTCTCGCGGGCCATGTCGCGACTGTTTCGGCCAGCGAAGATGGCATGGTCACAGTTCAGGTGGATTGCGGCGGCGACATCATCCAGTCGCGCATCACCGATCTGTCACGCGAGAGGCTGCAGCTGGAGCCGGGAAAACCGGTGCACGCGATCATAAAGTCGGCGGCTCTCGATCCCTATTGA	MMLSVATRHRLGSFELDASFTSEGGVTALFGRSGSGKTSMIRIMAGLLRPDEGQVLLNGEVLADSGTRLFLPAHKRRFGYVFQEARLFPHLSVAQNLHYGRWFAVNKTGSANEDRIVDMLGIGHLLQRRPDKLSGGEKQRVAIGRALLSSPRLLLMDEPLASLDEERKAEIIPYLERLRDETKIPIVYVSHSIQEVARLADRIVVMKDGKVEAQGKAADVLSRPDFSTYLERREAGSILSGHIESFDERHGLAAVRLKTKLLHVPAKRGTAGSPARVLIPARDVMLATVKPEGLSALNILAGHVATVSASEDGMVTVQVDCGGDIIQSRITDLSRERLQLEPGKPVHAIIKSAALDPY	PGPT0008445_1360	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008445-modC-K02017	NA	NA
BMS010_05599	396			hypothetical protein	ATGAGTGAGGCCCTTTCTCCATTGAAGCCTGTTCTTCGTATCGACTTTCCAGCCGGGGAACGTCTCGGCCATGGCAAGATTGAATTGATGGAGCTGATTGTCGAGACCGGCTCCATCGCTGCCGCCGGGCGGGCGATGGACATGTCCTATCGCCGCGCATGGCTGCTGGTGGATGCGCTGAATCATATGTTCAGGGAACCGGTTATCGAATCGCAGCGCGGCGGCAAACAGGGCGGCGGTGCGGTGCTGACCGCTTTCGGCACTGAAGTGCTGGAGCGTTACCGCGGCATGGAAAAACGTATGAACGAGGCCTTGCGCGCGGATATCGACTGGCTGGAGGCCAACCGCAATCCCGATGCTGCCCTCAATAGGGATCGAGAGCCGCCGACTTTATGA	MSEALSPLKPVLRIDFPAGERLGHGKIELMELIVETGSIAAAGRAMDMSYRRAWLLVDALNHMFREPVIESQRGGKQGGGAVLTAFGTEVLERYRGMEKRMNEALRADIDWLEANRNPDAALNRDREPPTL	PGPT0000520_1676	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0000520-modE-K02019	NA	NA
BMS010_05600	1005		COG3191	putative aminopeptidase	ATGGCGGCACTCACCAATCTTCTGACGGATATCGGCGGCGTTTCGGTCGGCAATATCACCGATCTTGCCCTTGGCTCCGGTGTTACGGCGATTGTTTTCGAAAAGCCCGCCATTGCTTCCGGTTCTGTTTTGGGTGGTGCGCCGGGCGGGCGCGATACCGGCCTGCTCGACCCGACGATGACGGTGGAAGCGGTGGATGCCTTCGTGCTGTCAGGCGGTTCTGCCTTCGGGCTGGATGCGGCGGGCGGCGTTCAGGCTGGGCTGCGCGAAATCGGACGCGGCCTGCAGGTGGGCTCCACCCGCGTTCCCATCGTGCCGCAGGCGATCCTGATGGATCTGCTGAATGGCGGCGACAAGGACTGGGGACTGCATTCGCCCTATCGCGAGATGGGATATGCGGCCTTCAAGGCGGCGCGTCCGGAGCCCTTCCCACTTGGAACGGTCGGGGCCGGAACGGGTGCGACGACAGCCACCTTAAAGGGCGGGCTCGGGTCGGCAAGTGCTGTCAGTTCCGGCGGTTATAAGGTGGCCGCCATCGTTGCCGTCAATGCGCTCGGCTCGGCAACCGTTGGAACGGGCCGCCATTTCTGGTCCGCGCCATTTGAAATGCAGGGTGAATACGGCGATTGCGGTTTTCCTGATCGTTTCGAGCCGGATCATACCGCGCTGCGCCTCAAGGGGGTCAATCTCACGGCAACGACCATCGGTGCGGTGGTGACGGATGCCGTGCTGACCAAGGCGCAGGCGCATCGCCTTTCCATCATGGCGCATGACGGGCTGGCGCGCGCCGTTCTGCCCGCCCATCTGCCAAGCGACGGCGACACCATGTTCGCGGCCGCGACCGGTGAAAAGCCGCTTGAGGGCGGCGTTCATTTCGCCGAGCTTTGCCATCTGGCGACCATCGTGATGGCGCGCGCGGTCGCGCGTGGCGTCTATGAGGCGACGGCCTTACCGGTGGATGGAGCGCAAAAGGCCTATCGCGATCTTCATGGACGGAGCCTTTGA	MAALTNLLTDIGGVSVGNITDLALGSGVTAIVFEKPAIASGSVLGGAPGGRDTGLLDPTMTVEAVDAFVLSGGSAFGLDAAGGVQAGLREIGRGLQVGSTRVPIVPQAILMDLLNGGDKDWGLHSPYREMGYAAFKAARPEPFPLGTVGAGTGATTATLKGGLGSASAVSSGGYKVAAIVAVNALGSATVGTGRHFWSAPFEMQGEYGDCGFPDRFEPDHTALRLKGVNLTATTIGAVVTDAVLTKAQAHRLSIMAHDGLARAVLPAHLPSDGDTMFAAATGEKPLEGGVHFAELCHLATIVMARAVARGVYEATALPVDGAQKAYRDLHGRSL	PGPT0010110_4	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-AMYCIN_DERIVATE_BIOSYNTHESIS,PGPT0010110-thnT|cmmT-K18572	NA	NA
BMS010_05601	774	thiG_1	COG2022	Thiazole synthase	GTGCTGACGCTTTATGGCCGCGAGGTCTCGTCCCGTCTCCTGCTCGGCACGGCGCGCTATCCGTCGCCTGCCGTGCTTGCCGATGCCGTGCGGGCGAGCAACACGGATATTCTGACGATTTCACTGCGCCGGGAAACGGCGGCTGGCAAGAAGGGCGGTCAGTTTTTCGAGCTTATCCGTGAGCTGGATCGCCAGATCCTGCCCAACACCGCCGGTTGCCACACGGTCAAGGAAGCGGTGCTGACGGCAAAGATGGCCCGCGATGTGTTCCGCACTAACTGGATCAAGCTGGAGGTCATCGGTCATCACGACACGCTGCAGCCCGATGTCTTCGCACTTGTCGAGGCGGCGAAAATCCTCTGCGACGATGGTTTCGAGGTCTTTCCCTATACGACGGACGATCTGGTCGTCGCCGAGAAGCTGCTGGAGGCAGGCTGCAAGGTGCTGATGCCCTGGTGCGCGCCAATCGGCAGCGCCATGGGACCGCTCAATCTGACGGCGCTGAAATCCATGCGGGCGCGTTTCCCGGATGTGCCGCTGATTGTCGATGCCGGTATCGGCCGCCCGTCGCATGCCGTCACGGTAATGGAGCTCGGTTACGATGCCGTTCTGCTCAACACGGCGGTGGCGGGTGCGGGAGACCCGGTCGGCATGGCGGAGGCTTTCGCCCGCGCCATAGAAGCCGGCCATCAGGCATATTTCTGCGGGCCGCTGGAGCCGAGGGACATGGCCGTTCCCTCGACGCCGGTGATCGGAACGGCTGTTTTTTCCTGA	MLTLYGREVSSRLLLGTARYPSPAVLADAVRASNTDILTISLRRETAAGKKGGQFFELIRELDRQILPNTAGCHTVKEAVLTAKMARDVFRTNWIKLEVIGHHDTLQPDVFALVEAAKILCDDGFEVFPYTTDDLVVAEKLLEAGCKVLMPWCAPIGSAMGPLNLTALKSMRARFPDVPLIVDAGIGRPSHAVTVMELGYDAVLLNTAVAGAGDPVGMAEAFARAIEAGHQAYFCGPLEPRDMAVPSTPVIGTAVFS	PGPT0008965_2201	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008965-thiG-K03149	NA	NA
BMS010_05602	198			hypothetical protein	ATGAAATTTCTGGTGAATGGCGACGAGCTTGATCTTGCCGCCGAAACGCTGGCCGGCCTGCTCGCCAGCCTCGAATACGAGGGTGAGTGGCTGGCGACGGCGGTAAACGGCGATCTGGTGCATTCGGAAGAGCGCGCCGATTATAAGCTGAAGGCTTTCGACCGTATCGAAATCCTCTCACCGATGCAGGGAGGCTGA	MKFLVNGDELDLAAETLAGLLASLEYEGEWLATAVNGDLVHSEERADYKLKAFDRIEILSPMQGG	PGPT0008970_2632	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0008970-thiS-K03154	NA	NA
BMS010_05603	1005	dadA_2		D-amino acid dehydrogenase	ATGCGCGTTCTGGTCAAGGGAACGGGGGTCGCCGGTTTGACGGCGGCCTTCGAACTGGTGCGGACCGGTGTTACCGTCGCGGTTTGCGAGCGCAATGCCGAACCCTCTCGCGGCGCATCCTGGTATGCGGGCGGCATGCTGGCGCCATGGTGCGAGCGTGAAAGCGCTGAAGAGCCGGTTCTGACGCTCGGTCAGACGGCGCTCGACTGGTGGGATGAAGCGACACCCGGTCTTGTCGTCCGTAACGGCACGCTGGTTGTTGCGCCGGCCCGCGATAAGGCGGAGCTTTCGCGTTTCGCATCGCGGACCGCTGGCTATCGCTGGGTGGATGAGGGCGAAATCGCCGCGCTGGAGCCAGATCTTGCCGGGCGGTTCCGTTCCGGGCTTTATTTTCCGGGCGAGGGGCATCTCGATCCGCGTCTTGCACTGAAATCGCTGCATGAGCGGCTCTGCACCATGGGTGTGCAGTTCCATATGGGTATCCCGTTGGATGAAGAGCCGTTCGACCGGGTGGTGGATTGCACTGGCTCTGCGGCAATCGGCGGGATTTCCGATCTTCGCGGTGTGCGGGGAGAGATGCTCTATCTCGCAACCCGGGAGGTTTTCCTGTCTCGCCCCGTCCGGCTGCTGCATCCGCGCATTCCGCTCTACATCGTGCCGCGCCAGCCCGGCCGTTTCATGGTGGGCGCGACGATGATCGAGACGGAAGATGCGGGCGCCATTTCCGCCCGCTCGATGATGGAGTTCCTGAATGCCGCTTATGCCGTGCATCCGGCTTTCGCGGAAGCGGAAATCATCGAGACAGGCGCCGGCGTGCGCCCCGCCTATCCCGACAATCTGCCGAAGGTCACGCAGGATGGCCGGACAATTTTCATCAACGGCGCGCACCGGCACGGCTTTCTGCTGTCGCCGGCGATGGCGCGGCAGGCGGCTGAAATCGTCTGCCAAACTCTCTCTCAAAAGGAACGGGATCATGAAATTTCTGGTGAATGGCGACGAGCTTGA	MRVLVKGTGVAGLTAAFELVRTGVTVAVCERNAEPSRGASWYAGGMLAPWCERESAEEPVLTLGQTALDWWDEATPGLVVRNGTLVVAPARDKAELSRFASRTAGYRWVDEGEIAALEPDLAGRFRSGLYFPGEGHLDPRLALKSLHERLCTMGVQFHMGIPLDEEPFDRVVDCTGSAAIGGISDLRGVRGEMLYLATREVFLSRPVRLLHPRIPLYIVPRQPGRFMVGATMIETEDAGAISARSMMEFLNAAYAVHPAFAEAEIIETGAGVRPAYPDNLPKVTQDGRTIFINGAHRHGFLLSPAMARQAAEIVCQTLSQKERDHEISGEWRRA	PGPT0008955_2067	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008955-thiO-K03153	NA	NA
BMS010_05604	1824	thiC_2	COG0422	Phosphomethylpyrimidine synthase	ATGAATATCGCTGCCAAGAATATCCCGTTGTCGGTTACTACGGGGCCGCATGCCGCCTCTACCAAAATCCACAAAGCCGGGATTTTACATCCCCATATCCGCGTGCCGATGCGCGAGATCGCCGTTCATCCAACGGCGGGTGAACCGCCGGTGACGGTTTACGATTCCTCCGGTCCCTATACCGATCCTTCGCATACCGTTCTGATTGAAAAGGGTCTGCCGCGTCTGCGTCATGACTGGATCGTGGCGCGCGGCGATGTCGAGGCCTATGACGGCCGGCACGTCAAGCCGGAGGATAACGGCTTTGCCACCGGCGAACGCCTGACGCCTGAATTTTCCGTGCGCCACCAGCCGCTCAGAGCCACGGCCGGTAAAGCCGTAACCCAGCTCGCCTATGCGCGGGCCGGTATCATCACGCCGGAAATGGAATTCATCGCCATCCGCGAAAATCTCGGGCGCGAGGCGGCCAAGGAAAAGTTGGTGCGCGACGGCGAAAGCTTCGGGGCGCATATCCCTGACTACGTCACGGCGGAATTCGTGCGTCAGGAAGTGGCGGCCGGCCGCGCCATCATCCCTGCCAATATCAATCATTCGGAACTTGAGCCGATGATCATCGGCCGCAATTTTCTCGTCAAGATCAATGCCAATATCGGCAATTCCGCCGTCACCTCCTCCATGGCGGAAGAGGTGGAGAAGATGGTCTGGGCGATCCGCTGGGGTGCGGATACAGTCATGGACCTATCTACCGGCCGCAACATCCACAATATCCGCGAATGGATCATCCGCAATTCGCCGGTGCCGATCGGCACGGTGCCGCTCTATCAGGCGCTTGAGAAGGTCAACGGCATTGCCGAAGACCTCAATTGGGAAGTGTTCCGCGATACGCTGATCGAACAGGCGGAGCAGGGTGTGGATTATTTCACCATTCATGCCGGCGTGCGGCTGCATTACATCCCGCTCACCGTCAACCGCGTCACCGGCATCGTTTCGCGCGGCGGCTCGATCATGGCCAAGTGGTGTCTGCATCACCATAAGGAGAGTTTTCTCTACGAGCATTTCGACGAGATTTGCGATATTTGCCGTGCTTACGACGTCTCCTTCTCGCTGGGCGATGGCTTGCGTCCCGGCTCGATTGCCGACGCCAATGACGCCGCACAATTCGCGGAGCTGGAGACGCTCGGCGAGCTGACGCAGATCGCCTGGGCAAAAGATTGCCAGGTGATGATCGAAGGCCCCGGCCATGTGCCGATGCACAAGATCAAGGAAAATATGGACAAGCAGCTGAAGACCTGCGGCGAGGCGCCCTTCTATACGCTCGGGCCGCTCACCACCGATATTGCGCCGGGTTACGACCATATCACCTCCGGCATCGGTGCGGCGATGATCGGCTGGTTCGGCACGGCGATGCTCTGCTACGTCACGCCGAAGGAACATCTCGGCCTGCCGGATCGCAACGACGTGAAGGTCGGCGTCATCACCTACAAGATCGCTGCCCACGCTGCCGATCTCGCCAAGGGTCATCCGGCGGCGCAGGTGCGGGACGATGCGCTGTCGCGCGCGCGGTTCGAGTTCCGCTGGGAGGACCAGTTCAACCTGTCGCTGGACCCGGATACGGCGCGCTCTTTCCATGATGAGACCTTGCCGAAGGAAGCGCACAAGGTCGCGCATTTCTGCTCCATGTGCGGGCCGAAATTCTGCTCGATGCGGATTTCCCACGATATCCGCGCCGAGGCGCAGAAGGAGGGACTGGAGGCCATGGCCGCACGCTTCAAGGAAGGCGGTGAGCTTTACATGCCGCTCGCGACTCCTGCGGATGCCGAATAG	MNIAAKNIPLSVTTGPHAASTKIHKAGILHPHIRVPMREIAVHPTAGEPPVTVYDSSGPYTDPSHTVLIEKGLPRLRHDWIVARGDVEAYDGRHVKPEDNGFATGERLTPEFSVRHQPLRATAGKAVTQLAYARAGIITPEMEFIAIRENLGREAAKEKLVRDGESFGAHIPDYVTAEFVRQEVAAGRAIIPANINHSELEPMIIGRNFLVKINANIGNSAVTSSMAEEVEKMVWAIRWGADTVMDLSTGRNIHNIREWIIRNSPVPIGTVPLYQALEKVNGIAEDLNWEVFRDTLIEQAEQGVDYFTIHAGVRLHYIPLTVNRVTGIVSRGGSIMAKWCLHHHKESFLYEHFDEICDICRAYDVSFSLGDGLRPGSIADANDAAQFAELETLGELTQIAWAKDCQVMIEGPGHVPMHKIKENMDKQLKTCGEAPFYTLGPLTTDIAPGYDHITSGIGAAMIGWFGTAMLCYVTPKEHLGLPDRNDVKVGVITYKIAAHAADLAKGHPAAQVRDDALSRARFEFRWEDQFNLSLDPDTARSFHDETLPKEAHKVAHFCSMCGPKFCSMRISHDIRAEAQKEGLEAMAARFKEGGELYMPLATPADAE	PGPT0008905_1917	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BACIMETHRIN|CF3-HMP_DETOXIFICATION,PGPT0008905-thiC-K03147	NA	NA
BMS010_05606	252		COG0236	Aminoacyl carrier protein	ATGAACGCGACTATTCGTGAAATACTGGCCAAATTCGGCCAGCTTCCAACACCTGTCGATACGATTGCAGATGAAGCCGATCTTTATGCGGCAGGCCTTTCTTCCTTTGCATCCGTGCAATTGATGCTCGGCATCGAAGAAGCATTCGATATCGAATTCCCCGACAATCTGCTGAACCGCAAGTCCTTCGCCAGCATCAAAGCCATTGAAGACACCGTTAAGCTCATTCTGGATGGTAAAGAGGCAGCCTGA	MNATIREILAKFGQLPTPVDTIADEADLYAAGLSSFASVQLMLGIEEAFDIEFPDNLLNRKSFASIKAIEDTVKLILDGKEAA	PGPT0020060_55	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0020060-dltC-K14188	NA	NA
BMS010_05607	1182			hypothetical protein	ATGAACGTCACCGTAGCGCCGCAGGATGAAACGCTGTCCGCGCGCGCGGGCCGTGTCGCGGCAATTGCCGCCAAACACGCGGATGATGTGGATGTCACCGGCCGTTTCCCACAGGAAGCCGTCGACGCCTTGCGACAGGAACGCCTGCTCGGCATCCAGGTCCCCTCTTCGCTGGGCGGCGAAAGCGCGTCCTTACAGGAGATCGCCGATATCTGCGCCCGGCTCGGCCAGGCCTGTTCGGCAACCGCGATGATTTTCGCCATGCACCATATCAAGGCATCCAGCCTGGTGGAACACGGCGAGACGAGCGCGTGGCATGCCGGCTTCATGAGCCGCATCGCCGGCGAACAGCTTCTGCTCGGCTCCGCCACCACCGAAGGCGGCATTGGCGGCAATCTGCGCAACTCCATCTGTGCAATCGAGGTCGAAGGCGATTTCTGCCGGCTGGAAAAGGACGCCACCGTCATTTCCTATGGCAGCAATGCCGATGCGATCCTCATCACCTCGCGCGCCCACAAGGATGCCGCGCCCGCCGATCAGGTGATGACGGTCTTTCTGAAAAACCAGTACACGCTCGAAAAGACCCATGTCTGGGATACGCTCGGCATGCGCGGCACCTGTTCGGACGGCTTCCTGTTTCGTGGCGAAGCGCCGGCGGCGCAGATATTCCCGAAACCCTTTGCGGAAATCGCCGCACAATCCATGCTTGCAAGCTCGCATCTCCTGTGGAGCGCCGTCTGGTATGGCATCGCCTCGGATGCGGTGCTGCGCGCCCAGTCTTTCGTCAGAGCCGCGGCGCGCAAATCGCCCGGCACAGCTCCTCCCGGCGCGATCCGCCTTGCCGAGGTTTCCACCAAGCTGCAGGTCGTGAAATCCAACATCATCGCCGGCATCAAGGCTTACGAGGACACCAAGAGCGACCCCGAAAAACTGATGTCCATGGCCTTTGCCGTCGCCATGAACAATGTAAAGATCTGCTCTTCGGAAACCATTCTTGAGATCATCGACCACGCCATGCTGGTCTGCGGCATCATGGGCTACAAGAACGGCACGCCCTATAGCCTCGGCCGGCACCTGCGCGACGCGCATTCCGCCCGCCTGATGATTTCCAACGACCGCATTCTCGGCAATTCCGCCAATCTCCTGCTGGTTCACAAGCAGGACACCAGCCTCTTGGGATAA	MNVTVAPQDETLSARAGRVAAIAAKHADDVDVTGRFPQEAVDALRQERLLGIQVPSSLGGESASLQEIADICARLGQACSATAMIFAMHHIKASSLVEHGETSAWHAGFMSRIAGEQLLLGSATTEGGIGGNLRNSICAIEVEGDFCRLEKDATVISYGSNADAILITSRAHKDAAPADQVMTVFLKNQYTLEKTHVWDTLGMRGTCSDGFLFRGEAPAAQIFPKPFAEIAAQSMLASSHLLWSAVWYGIASDAVLRAQSFVRAAARKSPGTAPPGAIRLAEVSTKLQVVKSNIIAGIKAYEDTKSDPEKLMSMAFAVAMNNVKICSSETILEIIDHAMLVCGIMGYKNGTPYSLGRHLRDAHSARLMISNDRILGNSANLLLVHKQDTSLLG	PGPT0008385_4997	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008385-acd-K00249	NA	NA
BMS010_05608	909		COG0172	Amino acid--[acyl-carrier-protein] ligase	ATGGACATGCAAACATCGTTTCTCGATCGACTGTTCGAAGAAGGCCTGCTGATTGAAACCGGTGTGGACGGTCTTTATGGACGCAGCGGCCAGTTCGAGGATGTCATTGCCGCATTCGAGAGGCTGATCGACCGCACGGGCGGCGCTGACGGCGCCGAAGCGATCCGTTTTCCGCCCGGCATCAACCGCGCCTATTTCGAAAAGAGCGGTTATATGAAGAGCTTCCCGCAGCTCACCGGCACGGTCCATTCCTTCTGCGGCTGTGAGCTCGACCATGTCAGCCTGCTGAAAACCATGGACGAGGGCGGCGACTGGACCAAAGACCAGAAAGCGACAGACATCGTGCTGACGCCGGCGGCCTGCTACCCGCTTTATCCGACGATTGCCAAGCGCGGCGCACTGCCTGCCGGCGGCGGTCTCTATGACATCCAGTCTTATTGTTTCCGCCATGAACCCTCCAAGGACCCGGCCCGCCAGCAGCTTTTCCGCATGCGCGAATATGTTTGCATGGGCACCGAGTCCGACGTCACCGAATTCCGCCAGACCTGGATGGATCGCGGCGTGGAGATGATGAAAGCGGTCGGGCTAGACGTCACCATCGATGTCGCCAACGATCCCTTCTTCGGCCGCGCCGGCAAGATGCTGGCCAACAACCAGCGCGACCAGAACCTGAAATTCGAGCTCTTGATCCCGGTCACATCCACGACCAGCCCGACGGCCTGCATGAGCTTCAATTATCATCAGGATGCCTTCGGCCAGAAATGGGGCCTCAACCTCGCCAATGGCGATGTCGCCCACACCGCCTGCGTCGGTTTCGGCCTTGAGCGCATCGCGCTGGCGCTGTTTGCCCATCATGGTCTCGACGTGAAGAAATGGCCTGCGAAGGTCGTGGAAACGCTCTGGGGCTGA	MDMQTSFLDRLFEEGLLIETGVDGLYGRSGQFEDVIAAFERLIDRTGGADGAEAIRFPPGINRAYFEKSGYMKSFPQLTGTVHSFCGCELDHVSLLKTMDEGGDWTKDQKATDIVLTPAACYPLYPTIAKRGALPAGGGLYDIQSYCFRHEPSKDPARQQLFRMREYVCMGTESDVTEFRQTWMDRGVEMMKAVGLDVTIDVANDPFFGRAGKMLANNQRDQNLKFELLIPVTSTTSPTACMSFNYHQDAFGQKWGLNLANGDVAHTACVGFGLERIALALFAHHGLDVKKWPAKVVETLWG				NA	NA	NA	NA	NA
BMS010_05609	984			hypothetical protein	ATGCGGCAGATTTTTCCCGGTCTCGATCCCAGAAACTATGTGCAGCATCCGCTCCATTCCTCCGAGAGAATGTGGCCGGAGACCAATTGCTACATCGATTTATGGATCGAGGTGCTGGCCTCGAAAGGTCTGCCGCCGGAAGCCATGTTCGGTTTCACGCTCACGCAGGATTTCGAAGGCGACCAGTTCACCTTCTTCAAGGTGCCGCTGGAAGACCTCGAGGCGCTTTATGGCGTTCGCGCCACCGAACTTGCGATCTTCGACAGCGTGGAAAACCACATCGAGGCGCAGCTCGCACGCGGACGCATCTGCCTGATCGAGATGGACAGCTTCTATATGCCGGATACCCATGGGGTGGGCTACCGGAAGGAACATGGCAAGACCACCATCGCCATCAACCGGCTCGACCTCGCGAAGCGCGAACTCGACTATTTCCATAACGCCGGCTTCTTCCACCTTTCAGGTGAAGATTTTGACGGCCTGTTCCAGCATCATCTGGCCGAGACCGACCCGCCTTTCCTGCCCTATACCGAATTTGCAAAATTCGCGGAGAGCAGCCCCTCGCCCGCACATATTCGCAAGACGGCCGAACGGCTCCTGAAATTTCATTTTTCCAGACGGCCCTCCGCCAACCCGGTCCGTGCTTTTGCCGGCGTTTTTCCGGCGCAGGTGGAAAAGGTCGCTGACCGACCCTTCGGCTTTTTCCACAAATATGCCTTCAACACGCTGCGCCAGCTCGGCGCCAATTTCGAACTGGCGGCAAGCCACTTCGAATGGCTGGACGCGGAGGGTTTTTCTGAAGCAAGAGACCACGCGCTCAAGATTTCCGAGGTTGCCAAGACCGTGCAGTTCCAGCTCGCCCGCGCCGTCACCCGCCGCAAATTTGATGCGCTGGCCACCGTGCTCGATCCAGCAGCGGATGCGTGGGATGGTGTGATGGAAGCGCTTTCGACTAAACTCACTGATGCCAGCGAGGCCGCGTGA	MRQIFPGLDPRNYVQHPLHSSERMWPETNCYIDLWIEVLASKGLPPEAMFGFTLTQDFEGDQFTFFKVPLEDLEALYGVRATELAIFDSVENHIEAQLARGRICLIEMDSFYMPDTHGVGYRKEHGKTTIAINRLDLAKRELDYFHNAGFFHLSGEDFDGLFQHHLAETDPPFLPYTEFAKFAESSPSPAHIRKTAERLLKFHFSRRPSANPVRAFAGVFPAQVEKVADRPFGFFHKYAFNTLRQLGANFELAASHFEWLDAEGFSEARDHALKISEVAKTVQFQLARAVTRRKFDALATVLDPAADAWDGVMEALSTKLTDASEAA				NA	NA	NA	NA	NA
BMS010_05610	2457			hypothetical protein	GTGAGGACTTATCTTCCCGGCGAAAGCGAGGAATTGCTGAGTGAAGGCTGGACGCTGACGCTGACGCCCGCCGATGCCTGCGAGACGCCGTCCGATATTCCCGCATCGCTTGAAAGCCTTCACGTCTCCGTTCCCGGCACGGTGGCGCAGGCTCTGGAAGCGGCTGGAAAATTCGACCGCCTTGCCCCGGCGCCTCTCAATGACAGGGATGCCTGGTATCGGCTGACGATGATTTCCGATACGCGCGAACGCGCCACCCTGCGCTTCGACGGTCTCTCCACCATTGCCGAAATCTTCTTCAACGGCGAGCTGATCGCCGCGAGCCAGAGCATGTTCGAAAGGCTGGAAGTGCCGGTCGAACTTACGGGCGCGGACGAGCTTTGCATCTGCTTCCGGGCGCTTGCGCCGAGGCTTGAAAAAACCGGTCCCCGCGCCCGCTGGCGGCCGCAGATGATGAATACGCAGGGGTTGCGGCTGATCCGCACCACCGCACTTGGTTACATGCCCGGCTGGTGCCCAGAAATCCACGCCGCCGGCCCATGGCGACCCATCAGTCTGATCAGACGGGACGCGGTGCTTTGCACGCTCCGATCTTCGCTGGACGAGGCAGGAACGGGAACGGTCGCCATCTCGCTGGAAACCAACCGGCCCATAAAATCGGCACGGCTTGGCTGCGCGGGTTACAGCGCCGATCTTTCCTGGGATGAGAACGGCAAGTTTTCCGGCGAACTCCATATACCCGAAGTCGAAACATGGTGGCCGCACACCCATGGCAGGCCTGCGCTGCACGACACGCTTTTGGAATTGGACGGCGAACAACATAGACTGGGGCGTACCGGCTTCCGGCGGGTCGAGATCGATCATGGCGAAGACGGTGAGGGTTTCGGCCTCAAGGTGAACGGTCAGCCGGTCTTCTGCCGTGGCGCGGTCTGGACAACGGCCGATATTGTGCGCCTGCCGGGAACCGGGGCGGATTATGAGCCATGGCTTCGAAAAGCCGCGGAAGCCGGCATGAACATGATCCGCATCGGCGGCACCATGGCTTATGAGACTCCGGAATTTTTCGCGCTTTGCGACGAACTCGGCATCATGGTCTGGCAGGACGCCATGCTCGCCAATTTCGATTATCCGGCAAAGGACGAGAGCCTGCGCCAGCATATCGTCACGGAAATCTCGCAGTTCCTCGAAGCCACCGCGCTTTCTCCATCGCTCACCGTCTTCTGCGGCGGCAGTGAAATGTACCAGCAGGGCGCGATGCTCGGTCTGCCGGAACAGATATGGAAGGGAACGCTCACCGAGGAGGTTCTGCCGGAACTCCTTGCCGAGAAACGCCCGGACACAGCCTATGTCGCCAATTCCCCCTCCGGCGGCGCGTTGCCCTTCTTTCCCAACGTCGGGGTCGGCCATTATTACGGCGTGGGCGCCTATTGCCGCCCGCTGGAAGATGCGCGCCGCGCCGATCTGCGCTTCGCCGCCGAGTGCCTCGCCTTCGCCAATATTCCCGAACAGGAAACGCTGGACAGATATCTACCCGGCGTGGCCGTGCACGATCCGCGATGGAAGGCACGCGCACCGCGCGATCGTGGGGCGTCCTGGGATTTTGAGGATGTTCGCGACCATTATCTAAAGCTGCTCTACGACGTCGAACCGGATGTTCTGCGTCGCGAAGACGGCGGCCTTTATCTCGACATGTCCCGGGCCGCCACGGCCGAGGTCATGGAGGCGACTTTCGCCGAATGGCGGCGCAGCGGCTCCTCCTGTCAGGGCGCTCTGGTCTGGACCCTGCAGGATCTCGTTCCCGGCGCAGGCTGGGGTGTCATCGATGCGACCGGCAGGCCCAAATCCGTCTGGCACGCGTTGAAAAGGGCGTTCCGCCCCATTCAGGTTACTTTTTCCGATGAGGGCACGAACGGGCTGGATATACACCTCGTCAACGAGACCGGCGGCGGCCTCGAAGCCATGCTGGAACTGACCTGCCTGCGCGAAGGTGTGCAACCCGTCGTCCACGCAAAACGACCGCTCACGCTTTCGCCGCGAAAGAGCAAGACCATTGCCGCAACAGATTTGTTCGGCGCCTTTTTCGATACGACCTATGCCTATCGTTTCGGCCCTCCGTCCCATGATGTAACGGTCGCCCGGCTTCGCGACGTTGCGACAGGACACGTCATCGCCGACGCATTCCATTTCCCTCTGGGCCGTAAAAAGGCGCTGCATGCCGCGAACCTTCAGGTCGCGATCGGTGAAACCAGCGGCAACTGGTCTCTTGAAATAGGCACGGACCGGCTAGCGCAGTCCGTCCATGTCGAGGTGCAGGGTTATTACGTCTCGGAAAACTGGTTCCATCTCGGCCCCGGCGAAACCAGAAAAATCAGCCTCCTGCCAGAGACCCCGGCGACGGAAGCTCCTCCCTCCGGAGAGGTCGTGTCACTGGGTTCCAGCCAGCGATTTTCCTTCTAG	MRTYLPGESEELLSEGWTLTLTPADACETPSDIPASLESLHVSVPGTVAQALEAAGKFDRLAPAPLNDRDAWYRLTMISDTRERATLRFDGLSTIAEIFFNGELIAASQSMFERLEVPVELTGADELCICFRALAPRLEKTGPRARWRPQMMNTQGLRLIRTTALGYMPGWCPEIHAAGPWRPISLIRRDAVLCTLRSSLDEAGTGTVAISLETNRPIKSARLGCAGYSADLSWDENGKFSGELHIPEVETWWPHTHGRPALHDTLLELDGEQHRLGRTGFRRVEIDHGEDGEGFGLKVNGQPVFCRGAVWTTADIVRLPGTGADYEPWLRKAAEAGMNMIRIGGTMAYETPEFFALCDELGIMVWQDAMLANFDYPAKDESLRQHIVTEISQFLEATALSPSLTVFCGGSEMYQQGAMLGLPEQIWKGTLTEEVLPELLAEKRPDTAYVANSPSGGALPFFPNVGVGHYYGVGAYCRPLEDARRADLRFAAECLAFANIPEQETLDRYLPGVAVHDPRWKARAPRDRGASWDFEDVRDHYLKLLYDVEPDVLRREDGGLYLDMSRAATAEVMEATFAEWRRSGSSCQGALVWTLQDLVPGAGWGVIDATGRPKSVWHALKRAFRPIQVTFSDEGTNGLDIHLVNETGGGLEAMLELTCLREGVQPVVHAKRPLTLSPRKSKTIAATDLFGAFFDTTYAYRFGPPSHDVTVARLRDVATGHVIADAFHFPLGRKKALHAANLQVAIGETSGNWSLEIGTDRLAQSVHVEVQGYYVSENWFHLGPGETRKISLLPETPATEAPPSGEVVSLGSSQRFSF	PGPT0018765_1179	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-MANNOSIDASE,PGPT0018765-manB-K01192	NA	NA
BMS010_05611	1821			hypothetical protein	ATGATGGCAAGGCGGATGGCGATAGATATTTCAGAGCGTGCAGGCAGCGATCCGTCTCTTGATGCATTGTCGCTTTCCGGCATTGCCTCGAATGGGACGGTTGCGCATCCGGTCTCTTTTGATGGACTCACCGGGATTTTCCATCCGGCGCGCAAGGACGTCAGACAGCGCCACGCCGTTCTTTTCGTCAGCCCATGGGGCATGGAGGAGCTGTGCAGCCGCAAGTTTCAACGGGTACTGGCCGAGCGGCTGGCCGCTTGCGGTGTCGCCAGCCTGCGATTCGACTATCTGGGCGCGGGTGACGCCTTCGACCCTGACGATGCGGGCCGTGCAGCGGACTGGATTTCCGACGCGCGCTCGGCGCTCAACTGTCTGAAGCGTCTTTCCGGCTGCGCCGAAGTGGTCGTTGTCGCTCAGGGCCTTGGCTGCCTGATTGCTGCAAAGGCGTTTGCCGATGTGGCTGAAGTGGGTTCCATGGCGCTTCTGGCGCCTGTGGTTTCCGGCCGCGCCTATCTGCGTGAGCTGGCGATGTGGTCCTCCATGATCGACGATGGCCTCGGTCTCCGGCCCGCGCAACGGATGACGGAGGCGGGATCGATTGCCGGTATGGCCATGCCTGCCGGTGTTGCGGATGCGATCAGGAAGGCCAATCTTTCAAATCTGACCGCTGCTCCGGCGCGCAGCATTCTGGCGCTTTCCCGGCCGGGCCGCGTAACCGATGCCGATTTCGCCAGGCATCTCGTTGCGATCGGCGGTGCGGTGGAGGAGGCGGAGTTTTCAGGTTACGACGATCTCGTTTCCAGCCCTACGCTTTCGAAAATATCCGACGATGTGGTCAACCGGCTGGTCGATTGGGTGCTCTCCCAGACCCATGCCGAGAGTCCGGCGGTCCCGCAGGAGGATTTCACAGTCAATGCTCCGCAGCGTGGGCGCGGTTTTGTCGAGCACCCGGTGCAATTTGGAGAAGGCGGACGGCTTTTCGGTATTTTTTGCGGGCCTGACGACCGGGAGGTGGTTTCTTCGGTTCTTCTGCTTGGCGCCGCCTATGACCGGCATGCGGGTTGGGGCAGGCTTTCCGTGCAGATGGCCCGTACATTGGCGCGCGAGGGGGTGGCATCGCTTCGCTTCGACGCGGCCAATATTGCCGACAGCCCTCCGGTCAAAAACGTGCCCGAGCAGGTTCTTTACGATGCCGCGCAGAATGACGACGTGGCTGCCGCACTCGATTTTCTCGGCAAGCGCGGCAAGGGACCTTTCATTGCGGCGGGCCGGTGCAGCGGCGCTTATCTCGCCTTCAACGGCGCAATTGCCGATGAGCGGATCGACGCCGTGGTCGCGGTCAATCCGGTCGTCTTCCATTGGCGCAAAGGCCGCTCGGTGGATGAGGCCCTGCATAAACGCCCGCGTTCCTTTGGGGAATACAGCCAGCGTTTTCGTCAGGGCGCGACATTCAAGCGTCTCATCAGCGGCGATGTCGATGTGGCAAGTGCGGGGCGGAACATCGTCAAGGCGACGATCAAGAGGCTTTCGACAAAAACGGCGAGGCTGTTCCGCAGGGGCAGCGAGGAAGGGCGTGCCGTTTATGGTGCGTTCGACAAATTGAAAGCGAATGATACCGCCGTTCATCTGCTCTACAGCGACAATGACGATGGTCTGGAACATTTCCAATATTACTTCGATGCCAATGGCAAAGGACTGGCCGTCTATAAGAACGTGTCGCTCACCATTATTCCCGATGCCGATCACAATCTCTCAACGCCGGAAGCCAGACAAATCTATATCGACGCGGTGAGGCGGCTGGCTCTCGCGCATTTGCGGTAA	MMARRMAIDISERAGSDPSLDALSLSGIASNGTVAHPVSFDGLTGIFHPARKDVRQRHAVLFVSPWGMEELCSRKFQRVLAERLAACGVASLRFDYLGAGDAFDPDDAGRAADWISDARSALNCLKRLSGCAEVVVVAQGLGCLIAAKAFADVAEVGSMALLAPVVSGRAYLRELAMWSSMIDDGLGLRPAQRMTEAGSIAGMAMPAGVADAIRKANLSNLTAAPARSILALSRPGRVTDADFARHLVAIGGAVEEAEFSGYDDLVSSPTLSKISDDVVNRLVDWVLSQTHAESPAVPQEDFTVNAPQRGRGFVEHPVQFGEGGRLFGIFCGPDDREVVSSVLLLGAAYDRHAGWGRLSVQMARTLAREGVASLRFDAANIADSPPVKNVPEQVLYDAAQNDDVAAALDFLGKRGKGPFIAAGRCSGAYLAFNGAIADERIDAVVAVNPVVFHWRKGRSVDEALHKRPRSFGEYSQRFRQGATFKRLISGDVDVASAGRNIVKATIKRLSTKTARLFRRGSEEGRAVYGAFDKLKANDTAVHLLYSDNDDGLEHFQYYFDANGKGLAVYKNVSLTIIPDADHNLSTPEARQIYIDAVRRLALAHLR				NA	NA	NA	NA	NA
BMS010_05612	2718			hypothetical protein	ATGGAACAAAGCCTTACGCGTTATATCTGGTCGCACACGAGGCGGCAGCAGCTTTTCATTCTGCTGATCGTGGCCCTGTCGATGATCCCCTATTTCCTCGCCTTCGACCTGCCCAAGCAGATCGTCAACGGCCCAATTCAGGGGGATGGTTTCGAAGGGGCGAATGCGACGCAGCTTTTCATGCATCTCACGGTCGATATTCCCTACTGGGGCACCGTGACATTATTCCCCGGGCTCGAGCTCAACCGCATGTCGATGCTGATGGCGCTCAGCCTGACGTTCCTTGCGCTTGTCATCATAAACGGGCTCTTCAAATATTACATCAATACCTATAAGGGCCGCCTTGGCGAGCGGCTTCTGCGGCGCATCCGCTTCGAACTCATCGACAAGATTCTGCGGTTCCCACCCTCCCATTTCAAGCGGGTCAAAGGCGCGGAAATCTCCAGCATGGTGAAGGACGAGGTGGAGCCGCTCGGCGGATTTACCGGCGACGCCTTCGTGCAGCCGGCCCTTCTCGGCGGCCAGGCGCTCTCCGCGCTCTTCTTCATTCTCGTTCAGAATTTCTGGCTGGGCCTGATCGCGGCTTTCATGGCTGCCATTCAGGTGGGCATCATTCCCAAAATGCGCCGCCGCCTCATCGAGCTTGGCCGCCAGCGGCAGCTGAGCGCCCGCCAGCTTGCCGGACGCATCGGCGAAATGGTTGACGGTATCGGCACCATCCATGCCTATGACACGTCCAATTACGAGCGGGCGGATGCCTCACACCGTCTCGGCGACATCTTCAAGATCCGCTACGATCTCTACCAGTGGAAGTTTCTGGTCAAGTTCATCAATAACTTCCTCGCACAGCTCACTCCCTTCTTCTTTTATGCGCTCGGCGGTTATCTCACACTGAAGGGCAGCCTCGATGTCGGGCAGCTGGTCGCCGTCATCAATGCCTATAAGGAACTGCCCGGACCGCTGAAGGAACTGATCGACTGGGATCAGGCGCGTCAGGACGTGCAGGTGAAATACGAGCAGGTCTTCGAGCAGTTCGATGCCCCGAACATGATCGACGAGAAGGTGCAGAAACTGTCTCCAGGCGCAGTCGCGGCGATCAGCGCCCCGATCGTCGTCGCCAATCTGACGCTGGAGGACGACAGCGGCAGCCGGCTTCTGGAACAGGCATCGCTGAAGGTCGAGCCGGGCGAGGTGATCGCCATCGTCGGCGGCTCGGGGGCCGAGGCGCTGGCGGATGCAATCGGCCGCACGCTCTGGCCAACCTCGGGCAAGATCAGCATCAACGACGTCGACATATTGGAACTGCCGGAATCGCTGACCGGGCGGCGCATTTCCTATGTGTCCTCGGACAGCTATTTCTTCCACGCCAGCCTGAAGGACAACCTGCTTTACGGCCTCAAACACGCCCCGCTCGCGGACAGGAACTATGAGGGGGCAGCGCTGGAACATCGCAAGTGGGAAATCCGCGAAGCAAAGATGGCGGGCAATCCGCTGATCGATATCAACAGCGAATGGATTGACTACGCTTCGAGCCCGGCCGGCGACGGCAGGCCGGAAAATCTCATCCAGGCCATTCTGGCTGTCCTCGACAGCGTGGAACTGTCGCAGGATATTCTGGAGTTTGCGCTGCGGTCCTCGATCGACCCTTTGACCGACCTGCATCTTGCCGCGCGCATCGTTGAGCTGCGGCATGTGCTGCGTGCGGAGCTCGAAAAGGAAAATCTGAGCGGCCTCATCGCACCCTTTGAACTGGAGAGCTATAACAGCGAGGCGACGGTCGGCGAAAACCTGTTGTTCGGCACCATGCGGGATTCTTCCCAGACAATCCGAACCGTCATCGAAAGCGACTATTTCCGCTCCCTGATGCGCGAAACCGGCCTCGTAAAAACCCTGTTCGAGATGGGTTACACGATTGCCGAAAACATCGTGGAAATCTTCGCTGACCTGCCGGGAGACCACCCCTTCTTCCAGCAGCTCACCTTCATGACGCCCGACGACATTCCGGTCTATCAGCAGATGCTGCAACGTCTTCAGAGCCGCAGTTTCGACGAGGCCAATGAAAGCGAAAAGCGCGCAATGCTGCGGCTCAGCTTCTTCTACATCGAGCCTCGCCAGCGTTTCGGTCTGCTGTCGCCGGAGATCATGAACCGGATCGTCGAAGTCCGGCACATGTTCCATGAGAACCTGCCCGACAGCCTGAAAAACGTGATCGAAATCTACGATCCGACCAAATATATGAGCGCCACCAGCCTGCTGGACAACATCCTGTTCGGCAAGGTCAGCCATCGCTACACCGACGCCTCGCGGCGCATCACCCGCATCGTCGCCGATGTCATGCGCAAGCAGGGTGTCTATGAGCGCGTGCTGGCGGTGGGCCTGGACTTCAACCTCGGCGCGGGCGGCAAGCGGCTCGGCCCGCTCCAGCGCCAGAAGCTCAATCTGGCACGGGCGCTGATCCGCAAATCCGATTATTACGTCTTCAACCGCCCTCTTCCCGGCCTCGATCCCCGACAACAGGAGGAAATTGTCGAGCGGGTCATCACACTCCTGAAACAGAACAACAATAACCCGTCGATCATATGGGTTCTGTCGAACGCGACGCTCTCCCGCATGTTCGAGCGAGTGATCGTTGTTCATCAGGGCCTGATCACCGCCGACGGAAGTTACGAGACTCTCGCCGAGGAAAACGGTACATTCAAGGACATGGTCGCAACATAA	MEQSLTRYIWSHTRRQQLFILLIVALSMIPYFLAFDLPKQIVNGPIQGDGFEGANATQLFMHLTVDIPYWGTVTLFPGLELNRMSMLMALSLTFLALVIINGLFKYYINTYKGRLGERLLRRIRFELIDKILRFPPSHFKRVKGAEISSMVKDEVEPLGGFTGDAFVQPALLGGQALSALFFILVQNFWLGLIAAFMAAIQVGIIPKMRRRLIELGRQRQLSARQLAGRIGEMVDGIGTIHAYDTSNYERADASHRLGDIFKIRYDLYQWKFLVKFINNFLAQLTPFFFYALGGYLTLKGSLDVGQLVAVINAYKELPGPLKELIDWDQARQDVQVKYEQVFEQFDAPNMIDEKVQKLSPGAVAAISAPIVVANLTLEDDSGSRLLEQASLKVEPGEVIAIVGGSGAEALADAIGRTLWPTSGKISINDVDILELPESLTGRRISYVSSDSYFFHASLKDNLLYGLKHAPLADRNYEGAALEHRKWEIREAKMAGNPLIDINSEWIDYASSPAGDGRPENLIQAILAVLDSVELSQDILEFALRSSIDPLTDLHLAARIVELRHVLRAELEKENLSGLIAPFELESYNSEATVGENLLFGTMRDSSQTIRTVIESDYFRSLMRETGLVKTLFEMGYTIAENIVEIFADLPGDHPFFQQLTFMTPDDIPVYQQMLQRLQSRSFDEANESEKRAMLRLSFFYIEPRQRFGLLSPEIMNRIVEVRHMFHENLPDSLKNVIEIYDPTKYMSATSLLDNILFGKVSHRYTDASRRITRIVADVMRKQGVYERVLAVGLDFNLGAGGKRLGPLQRQKLNLARALIRKSDYYVFNRPLPGLDPRQQEEIVERVITLLKQNNNNPSIIWVLSNATLSRMFERVIVVHQGLITADGSYETLAEENGTFKDMVAT				NA	NA	NA	NA	NA
BMS010_05613	456		COG0664	Cyclic nucleotide-gated potassium channel	ATGCTGTTTAAAGACGAAATTCAGATGCTGAAAAGGGTGCCGTTTTTTTCGGAAATGGAACCGTCAAAGCTCAAACTACTGGCATTCGCATCCGACCGGGTGTCCTATCATGCTGGCGACGTCCTGTTTCGTCAGGGAGATGTCGGCGATGCGGCCTATGTCGTCTTGACCGGAAAAGTCGATGTCCTGGTCGATTCCCCTTCGGGCACGCTGAAAGTGGCCGAAATGACCGGCAATGCCATTGTCGGCGAAATCGCTATCCTCTGCGATAGCGTCAGAACCGCGACCGTTCGCGCCTCTACCAATGTGGAAGCCCTGCGCATCGGCAAGGAACAGTTCTTCAAGCTCATGTCCGATTTCCCCGACATCACGATCAAGGTCATGCGCGTTCTGGCCGAACGCCTTACCCAGACGACGGCGGAACTGAGCAAAGCGCGGGCAGGTGCCCGGACATAA	MLFKDEIQMLKRVPFFSEMEPSKLKLLAFASDRVSYHAGDVLFRQGDVGDAAYVVLTGKVDVLVDSPSGTLKVAEMTGNAIVGEIAILCDSVRTATVRASTNVEALRIGKEQFFKLMSDFPDITIKVMRVLAERLTQTTAELSKARAGART	PGPT0015075_5456	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-CARBOHYDRATE_LIMITATION_SIGNALLING,PGPT0015075-clp|crp-K10914	NA	NA
BMS010_05614	861	rbn_2		Ribonuclease BN	ATGGCGTTCGATTCCGACACAGCAAGTCGGGAAAGTAATAGAAATTTTCGGGTAAAGATCTGGGGTGCGCGGGGAACGCTTCCTGTTTCAGGTGAAAACTTCCGAAAATACGGCGGAAATACCATCTGCATCGAGGTGAGATGCGGCGATCACGTTCTTTTGTTCGATGCGGGTTCGGGCTTGCATCCCGCTGGCCTTGCGCTGCGGGCGGAAGGCATTACCGACGTCAACCTGTTCTTCTCGCATTGTCATTACGACCACATTGTCGGCTTCCCCTATTTCAAGCCCTTTTATAACAGCTCCAACGATGTCGCCATCTGGTCGGGCCACCTCGCCGGCACGATGACCACCCGGGAAATGCTCAAGGACTTCATGAGCCCGCCGTGGTTTCCCGTGCCGCTGGAAATCTGCTGCGCAAAAATCGACACGCGGGACTTCATGCCGGGCGATACGCTCGATGTGCATCCCGGCCTTTCGATCAGAACAGGAATGCTCAACCATCCCGGCAACGCCATCGGATATCGGCTGGACTGGGAAGGAAAGTCCCTCGCCATCATCACCGACACCGAACATGAGCCGGGCGATATGGACGAAACCGTGCTCGACCTGATCAGGGATGTCGACCTTTTCCTCTATGACGCCATGTTCACCGATGAGGAAATGAGCCTTTATCGCGGCTATGGCCATTCGTCCTGGCAACAGGCGATCCGCCTCGCCAAACACGCCGGCGCCAAAAATGTCGGCTTCATCCACCACGCCCCAAGCCGCAGCGACGAAGAACTGGACACTATCGAAAAACAGGCGAAAGCCCAGTTCAGCGGCGCCTTCGCGGCCATGGACGGCCAGATCATCGAGCTCTGA	MAFDSDTASRESNRNFRVKIWGARGTLPVSGENFRKYGGNTICIEVRCGDHVLLFDAGSGLHPAGLALRAEGITDVNLFFSHCHYDHIVGFPYFKPFYNSSNDVAIWSGHLAGTMTTREMLKDFMSPPWFPVPLEICCAKIDTRDFMPGDTLDVHPGLSIRTGMLNHPGNAIGYRLDWEGKSLAIITDTEHEPGDMDETVLDLIRDVDLFLYDAMFTDEEMSLYRGYGHSSWQQAIRLAKHAGAKNVGFIHHAPSRSDEELDTIEKQAKAQFSGAFAAMDGQIIEL				NA	NA	NA	NA	NA
BMS010_05615	1695	nqrF_1		Na(+)-translocating NADH-quinone reductase subunit F	ATGATCCGTTTCTTTTCGGAGACCAATTTGAGACGCGCCCGGATTTTATCCGGCCTCATCATATTTGCTTTCGTATTTTCCCATCTTTTCAATCACTCCCTCGCACTCATCTCCATCGATACCGCCGAACGGGCAAGAAAATGGTTCAGCCTGATCTGGCTTAACCCCGTCAGCAGCCTGCTTTTTTACGGTTCGGTTCTGGTGCATGTCTGTCTTGTTCTGCGCTCGCTTTATCTGCGCAGAACGCTGCGCATGCCGCTCCGCGAAGCGCTTCAGGTCATCTTCGGCCTGTCTATCCCGTTCCTGATCATCGGCCACGCCGTCAATATCCGCGTGTCGCATATGCTTTATGGCATCGATGTCGGCTATTATTCGGTCATCCGCAGGCTGTGGATCAACAACCCGATACAGGGCGCCTGGCAAAGCCTCGCCTTGATCGTGATCTGGGTCCACGGATGCATTGGCCTCTATTTCTGGCTGCGTTACCGGGACTGGTATCCGCGGATAGCCGGGCTGTTCATGACGGTGGCCGTGATGCTGCCGCTGCTGGCGCTGCTGGGCTTCAGCGACGCCGGCCGCTGGCTGGCGGAAATAGATGAAAAATACGCGCTTCCGCCCGGACTTGCCGACAATACGATTCAAAAGGACGAGCTGCCACTGCAGCGGGAAATGGAAACACGGATCCGTTTCATCACCGGCACGGCGGAGACATTGTTCGTCGGCGCGGTAATGCTGGTTTTCGCTATGCGTGGCCTACGCAGCTTTCGGCAACGATTGACGGCAATCGAAATCCGCTATGAACATGGCGCGCAGGCACACGTACCTGCCGGGCTCAGCATTCTGGAAGCCAGCCGCCTTGCGGGAATTCCGCATTACTCCGTCTGCGGCGGCAAGGGACGCTGCTCAACCTGTCGCGTCAAGGTTCTGAACAGCAAAGGCCCGCTGCCGCCACCGGGAGACATCGAGCAAACCACATTGCGGCGCATCCATGCCGATTCGGATGTCCGGCTCGGCTGTCAGCTACGCCCCACCAGCGATATTGATATCGCCCTTCTCGTTTCGCCGCCCCAGCAAAGCGACCTGCCGGCCGATGCACAACCGGCCCGCCCCGGCCGGGAAGAAGAAATCGCCATCCTCTTTTGCGATCTGCGCAACTTCACCACGCTTTCCGAAGCGAAGCTGCCCTATGATGTCGTCTTCCTTCTGAACCGCTATTTCACCATCGTCGGCCAGGCCGTCGAACAGGCGGGAGGCCATCTCGACAAATTCATCGGCGATGGCGCCATGGCGCTTTTCGGACTTGGTGAGGACGCGGAACATGCCTGCCGCAACGCCATGAAGGCGGCCGCGACCATATTGCGGGATATAGCAATCCTGAACGAGGGGCTGGAGAAACAATTCGCCGTCCGTCTGGAAGTCGTCGTCGGCATTCATTCCGGTCCGAGCATCGTCGGCGTCATGGGATATGGCGCGGCCAAAACCCTGACGGCCATCGGCGATACCGTCAACGTGGCAAGCAGGCTCGAATCCAAGGCCAAGGAATTCGGTGCAGCCATCGTTGTTTCCGAACCGGCCATCATTCAGGCGGGACAGGAGATTGCCGATCTCAGAAGCGAAGAAATCGCCATTCGCGGCCGCAACTCGCAAATGAAGGTCTTCCTGCTCTCGAAAGAAGAGAGTGAGCGCTATTTATGA	MIRFFSETNLRRARILSGLIIFAFVFSHLFNHSLALISIDTAERARKWFSLIWLNPVSSLLFYGSVLVHVCLVLRSLYLRRTLRMPLREALQVIFGLSIPFLIIGHAVNIRVSHMLYGIDVGYYSVIRRLWINNPIQGAWQSLALIVIWVHGCIGLYFWLRYRDWYPRIAGLFMTVAVMLPLLALLGFSDAGRWLAEIDEKYALPPGLADNTIQKDELPLQREMETRIRFITGTAETLFVGAVMLVFAMRGLRSFRQRLTAIEIRYEHGAQAHVPAGLSILEASRLAGIPHYSVCGGKGRCSTCRVKVLNSKGPLPPPGDIEQTTLRRIHADSDVRLGCQLRPTSDIDIALLVSPPQQSDLPADAQPARPGREEEIAILFCDLRNFTTLSEAKLPYDVVFLLNRYFTIVGQAVEQAGGHLDKFIGDGAMALFGLGEDAEHACRNAMKAAATILRDIAILNEGLEKQFAVRLEVVVGIHSGPSIVGVMGYGAAKTLTAIGDTVNVASRLESKAKEFGAAIVVSEPAIIQAGQEIADLRSEEIAIRGRNSQMKVFLLSKEESERYL	PGPT0021560_3018	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|VFR_SIGNALLING_PATHWAY,PGPT0021560-cyaB|gidA-K01768	NA	NA
BMS010_05616	483			hypothetical protein	ATGAGCAGACTCGATAGTTTCATTCGCCGACTGACCGCGCAGCGCGATATCCTCAACCATGTCGCAGCCGATCTCGATCTGCCGGATGAAGGCGCGCTCATGGAAATCGGCCTTGGCAACGGGCGCACCTTCAATCACCTGCGGGAACTGTTCCCCAACCGCCGCATCATCGCTTTCGACAGGGCCATGGGTGCGCATGCTTCCTCCGTTCCGGCACAGGAAGATCTGGTGATCGGTGAAATATCGCAAACCGCTCCGGCTTTCGTCGGCACGGAAGCGGCGTTCGTGCATGCCGATATCGGCACGGGCTATCCGGAAAAGGATGCGGTTACCCTCACATGGTTGCCCGATCTTGCGGCGGGCATGCTGGCGAAAGGCGGTCTCGCGGTCAGCGGTCTGCCTCTGGATCATCCCATGTTGAAGCCGCTGCCGGTGCCGGCAAGCGTGCCGACGGACCGCTATTTTCTCTATCGCAAGATTTGA	MSRLDSFIRRLTAQRDILNHVAADLDLPDEGALMEIGLGNGRTFNHLRELFPNRRIIAFDRAMGAHASSVPAQEDLVIGEISQTAPAFVGTEAAFVHADIGTGYPEKDAVTLTWLPDLAAGMLAKGGLAVSGLPLDHPMLKPLPVPASVPTDRYFLYRKI				NA	NA	NA	NA	NA
BMS010_05617	1341	wbpA	COG0677	UDP-N-acetyl-D-glucosamine 6-dehydrogenase	TTGACTTCCCCAGACATTTCCCGGAACCTGCTTTCCAGCATTGAAAACAAAAGCGCCAAAGCGGGGGTGATAGGCCTCGGCTATGTCGGTCTGCCGCTTGCCATGACGATCGCCAGGGGCGGTTTTAAGGTTGTCGGTTTCGATATCGATCCCGGTAAAATTACCGCGATCGAGACTGGGCGCAGTTATATCGAGGCCGTTTCCGACGAGGTGCTGGCGAGTGTGAGGCAGGATGACGGCTTTGTCGCCACCTCGGATTTCTCCAGGCTGGCCGAATGCGATGTCATTGCCATCTGCGTGCCCACACCCCTCACGAAATATCGCGAGCCGGACCTTTCCTATGTCGAAAAGACCTGTCGCGATATTGCGGCATATCTGCGCAAGGGCCAGCTCGTGGTTCTGGAATCGACCACTTATCCCGGCACGACTGACGGGGTGGTGAAGACCATTCTGGAAAGCACGGGGCTTGTCTCCGGCGTTGATTTCTTCATCGGCTTTTCACCCGAACGGGAAGATCCCGGCAATCGCGATTTCGAGACCTCGACCATTCCGAAGGTTGTCGCTGGCGATGGCGAGGCGGCCGGAAAGCTGATGGCGGCATTTTACGGTTCGGTGGTCAAAAAGATCGTCCCCGTCCCGACAAATGCCACCGCCGAGGCGGTGAAAATCACCGAAAACGTCTTCCGTGCCGTCAATATTGCGCTCGTCAACGAACTCAAGGTCGTTTACGAGGCGATGGGTATCGACATCTGGGAAGTGATCGATGCGGCGAAGACCAAGCCGTTCGGTTTCATGCCGTTTTATCCCGGCCCGGGCCTTGGCGGCCATTGTATACCGATCGATCCTTTTTACCTCACCTGGAAATCGCGCGAATATGAATTGCCGACGCGGTTCATCGAACTGGCCGGCGAGATCAATACCGGCATGCCGCGTCACGTCATCGGACGGGTCGCGGAGGCGCTCGATATTCATTCCGGCAAGGCGCTCAGCCGCTCGAAGGTGCTGGTCGTCGGCCTCGCCTATAAAAAGAATGTGCCGGATATTCGCGAAAGCCCCTCTCTGAAGCTCATCGAGCTTATTCAGGAGCGTGGCGGCGAAGCGGCCTATTTCGATCCTCACGTAGCCGAAATCCCGAAAACCCGGGAATATAGCCACCTGATGGGCATGAAATCCGTGCCGTGGGAGAGGCAGGCGATCGGCGCTTTCGACGCCGTTCTCGTTGCGACCGATCATGACAATGTGGATTATGCCGCTCTAAGCGAATGGGCGCCGCTTATCATCGACACGCGCAATGTTTTCGCGCGTCGGGATATAGCCGCAAAACACATCATCAAGGCCTGA	MTSPDISRNLLSSIENKSAKAGVIGLGYVGLPLAMTIARGGFKVVGFDIDPGKITAIETGRSYIEAVSDEVLASVRQDDGFVATSDFSRLAECDVIAICVPTPLTKYREPDLSYVEKTCRDIAAYLRKGQLVVLESTTYPGTTDGVVKTILESTGLVSGVDFFIGFSPEREDPGNRDFETSTIPKVVAGDGEAAGKLMAAFYGSVVKKIVPVPTNATAEAVKITENVFRAVNIALVNELKVVYEAMGIDIWEVIDAAKTKPFGFMPFYPGPGLGGHCIPIDPFYLTWKSREYELPTRFIELAGEINTGMPRHVIGRVAEALDIHSGKALSRSKVLVVGLAYKKNVPDIRESPSLKLIELIQERGGEAAYFDPHVAEIPKTREYSHLMGMKSVPWERQAIGAFDAVLVATDHDNVDYAALSEWAPLIIDTRNVFARRDIAAKHIIKA	PGPT0018920_203	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_D_MANNURONIC_ACID_MODIFICATION,PGPT0018920-wbpA-K13015	NA	NA
BMS010_05618	1098	mshA_7		D-inositol-3-phosphate glycosyltransferase	ATGAAGATCGCCTTTTATGCGCCGCTCAAATCTCCCAACCATCCCGTTCCCTCCGGTGACCGGCTGATGGCCCGTTTGCTGATGATGGCGATCACGATGGGCGGTCACGATGTTTCCGTCGCTTCGGAACTGCGCAGCTTCCTGAAACAGCCCGATGACCCGGCAAGGGCGTTGGTCGCCGATGAGGCCGAGCGCGAAATCGAGATCGTCACACGGCGCTGGCGACGGGATGGCGTGCCGGATCTCTGGTTTTGTTACCACCCCTATTACAAGGCGCCGGACTTGCTCGGGCCGGAACTAAGCAAACGTTTCGACATCCCCTATGTCAGCGCTGAAGCGTCCTATTCGCCGAAACGGAATGGCATGGGATGGCAGGCGGTTCAGGATGGGTTGCTGGCCGCGTTGAACGCCGCCGCCATCAATATCTGCTTCACCGCGCGGGATCGTGAAGGGCTTGTGCGGGCCTCGCCCACCCTTCGCTGGGCCATGCTGCCGCCTTTCATCGATACTGGGGCTTTTCTCAAGAACACGCCCCAGCCGACACCCGCGAGGCTCATCACCGTCGCCATGATGCGGGCGGGTGACAAACTCGACAGCTATCGCGCCCTTTCCGAAGCGCTCGCCCTGTTGCCGCAGGATCTCGACTGGACGCTGGATATCGTCGGCGACGGACCGGAACGCACGGCCGTGGAAGCCATGTTCAGCACGTTTCCCAACCACCGTCTCGTCTGGCACGGGGAAAAAACCGCAGCCGAGATCGCAATGCTCCTTTCAAAAGCCTCTCTCTATGTCTGGCCGGGCCATGGCGAGGCCTATGGTCTTGCCTATCTCGAAGCGCAGGCTGCCGGCCTGCCCGTTGTGGCCGAGGAAGCGGCTGGCGTTCCCGAGGTGGTAAAATCCGGCGTCACAGGATTACTGACACCAGAAAATGATAGAGCCGCCTATGCCGACGCGATTAAAACCCTGCTCGGTGACGACAGACAGCGCGAAGAACTGGCACAGGCGGCCCGGCAATTCGTGAGGGACGAACGGTCTCTGGAAAATGCCGCAAAAGAACTGAACCATATCCTGCTGCAAGCAAAGGCGCGAAGATCATGA	MKIAFYAPLKSPNHPVPSGDRLMARLLMMAITMGGHDVSVASELRSFLKQPDDPARALVADEAEREIEIVTRRWRRDGVPDLWFCYHPYYKAPDLLGPELSKRFDIPYVSAEASYSPKRNGMGWQAVQDGLLAALNAAAINICFTARDREGLVRASPTLRWAMLPPFIDTGAFLKNTPQPTPARLITVAMMRAGDKLDSYRALSEALALLPQDLDWTLDIVGDGPERTAVEAMFSTFPNHRLVWHGEKTAAEIAMLLSKASLYVWPGHGEAYGLAYLEAQAAGLPVVAEEAAGVPEVVKSGVTGLLTPENDRAAYADAIKTLLGDDRQREELAQAARQFVRDERSLENAAKELNHILLQAKARRS				NA	NA	NA	NA	NA
BMS010_05619	744			hypothetical protein	ATGAGTCTGGAAAAACTCGTTGCGGCACTGGACGAATGCGGGCGGCGCGGCATATCCGCCGATCTCTGGCTCCGGGACGACGATGCGGTGGAGCCGACGCCCGCGCTCGACACGTTGCTCGATCTTTGCGGCGGCTTTTCCGCTCCGGTCACGCTCGCGGTCATTCCCGAGATGACGACCGATAAGCTCGCACGGCATCTGGATGTGTGGGACATTGCCCAGGTCGCCGTGCATGGCTGGTCCCATACGAATTATGCCGGCGAGAAGGAAAAGAAACAGGAACTCGGATCGCATCGCGATCCGGCTCTCGTTCTCGATGAATTGCAATCCGGACTGGATAAATTGCACGACCTGCATGGCGGGCGTTTGGTGCCGATGCTCGTGCCGCCTTGGAACCGCATAGATGCCGGTATCGTGAAGGCACTCGCGGGCCTCGGATATCGCGCCCTATCCGTTTTCGGCCCGGAGAAAAGCACCCTGCCGCCCTGCCTGAACACTCATGTCGATGTGATCGACTGGCACGGCAGTCGCGGTGGCCGTAACGAGGACGTGCTCTTTGCGGAGACCGCCGCCCGCATCCTGGCGACCGCCGAAAACGGCGGCACCACCGGCATCCTCACCCACCATCTCGTCCATGACGACAATGTCTGGCGCTTTCTGCGGCGGCTTTTTGAGGTAACCACCGAACATCCCGCAGCCCGCTGGCGTTCTTCGAAAGACCTCGTCGACGACATCTCACCATGA	MSLEKLVAALDECGRRGISADLWLRDDDAVEPTPALDTLLDLCGGFSAPVTLAVIPEMTTDKLARHLDVWDIAQVAVHGWSHTNYAGEKEKKQELGSHRDPALVLDELQSGLDKLHDLHGGRLVPMLVPPWNRIDAGIVKALAGLGYRALSVFGPEKSTLPPCLNTHVDVIDWHGSRGGRNEDVLFAETAARILATAENGGTTGILTHHLVHDDNVWRFLRRLFEVTTEHPAARWRSSKDLVDDISP				NA	NA	NA	NA	NA
BMS010_05620	963			hypothetical protein	ATGTCCGACAAGAAATATTACGATGCCCAGCTGGATAAGGCCCGGCAGTTGCAAAATGGCGGTCAGTATGCGGAAGCCAATGCGCTTCTCTTATCGCTGGTTGCAGCAAAGGACGGCCACCTGATGGGTGAGCAAACGGTGCTCGGCCTGCCGCGCCGGCTGCACGCGGCACGGCTGCGCCTCGCCAAGGCCGAGGGCGATATGGTCGCGAAGATCGGTTATCAATATACGCTTGTTCCACCCCCACAGGTGCTGGAGAAATATGCGCGGTTTTCCACGGAAGAACGTCGCACGATCAGCCTCAAAAGCCGTGAAGATGTGCCAAGGCTCATCCACCAGATATGGATCGGGGAAAAAGCCCCGCCGGTATCGGTTGAGGCATGGGCCGCCCACGCTTCGAACCATGGTTACGACTATCGGCTCTGGCGGGAGGCCGATCTTGAGCGGGAAGGCGTGTTTTCGAACGGCGTCTTCAAAACCATGCTGGACAAGGGCGATTATCCGGGCGCGGTGGACGTGGCCCGTTATATTCTGCTGCAGCGGTTTGGCGGTATCTATCTCGATTGTGACTGGTATCCGGCGCGGGACGATGTGAGTTTCGATACATTCCTGCCTCTGGCGGGGCTGACGGCGTTTGACGAAAAAACGCCGCGGGACACGGGGCAGGGCAGCATGCTGCTTGCCAATTCCTTCATCGCTGCGCCCGCCGGACATCCGGTTTTCAGCAGGATGCTGGAAGCCTTTCCCGGGATTATCGAAGACATGCCGCGCGCGCCTGCCTGGTGGTCGACCGGCCCCTTGATCTTCACCATCATCGCCCGCGCGGGAAGTATCAGCCTTGCGCCGGCGGGGTTCGTTGCCGCGTCCCTTCCCGACCGCGCCCCTCTTGAGACCGTGGAAGCGGTCAGGCGGGAACTTTCCACCAAGGCGAGCGGGTTGCTGATCGCCTGGAAATCATGGTGA	MSDKKYYDAQLDKARQLQNGGQYAEANALLLSLVAAKDGHLMGEQTVLGLPRRLHAARLRLAKAEGDMVAKIGYQYTLVPPPQVLEKYARFSTEERRTISLKSREDVPRLIHQIWIGEKAPPVSVEAWAAHASNHGYDYRLWREADLEREGVFSNGVFKTMLDKGDYPGAVDVARYILLQRFGGIYLDCDWYPARDDVSFDTFLPLAGLTAFDEKTPRDTGQGSMLLANSFIAAPAGHPVFSRMLEAFPGIIEDMPRAPAWWSTGPLIFTIIARAGSISLAPAGFVAASLPDRAPLETVEAVRRELSTKASGLLIAWKSW				NA	NA	NA	NA	NA
BMS010_05621	1893	gsiA_5	COG1123	Glutathione import ATP-binding protein GsiA	ATGAGCGCAGGCGCAGATTTGCTTCGTATTGAAAATCTGCGGGTCTCGTTTTCTCTCATGGGCGGCACCATAGATGCCGTCAGGGGCGCGAGCCTTCGCATTCTTCCGGGAAAAGTCACGGCTCTCGTCGGCGAGTCCGGCTCGGGAAAATCCGTCATCGGCCAGACCATCATGGGCATCCATCCCAAGACGGCACGCGTGAATGGCCGCGTGCTGTTCACCGATCCGGAAAATGCCGCGGCCGGCCCTGTCGATCTGCTGCAATTGCCGAAGGACGGCCGGGAAATCCGTTCGATACGCGGAAATCGCATCGGCCTGATCTTTCAGGAGCCGATGACGTCTTTCTCGCCGCTGCACACCATCGGCAACCAGATCGACGAAGCGCTCAGGATTCACAGCATCCTGTCACCGGCCGAACGTGCGGAAAAAATGCATGAAACGCTCGACCTCGTGGGGTTTTCCAAACCCAAAAAGGTCGTAAACATGTATCCCTTCGAGCTGTCGGGCGGCATGCGCCAGCGCGCCATGATCGCCATGGCGTTGATCTGTCGCCCCGCACTTCTGATCGCCGACGAGCCGACGACGGCGCTCGATGTGACCATACAGGCGCAAATCCTCAAGCTGCTGCGCGATCTGCAGAGCCGCCTGAACATGAGCATGCTGCTCATCACCCACGATCTCGGCGTGGTGGCCAATATCGCCGACGAGGTCGCCGTGATCTATCAGGGCGAGATCATGGAGGCCGGTACGGTCGACGACATTTTCAAGTCGCCAAGCCACCCCTATCTCAAGGGCCTGATGGCCGCCGTGCCGCATTTCGACATGAAGCCCGGCGAAAGGCTGAAGGCGCTTCGCGAAATCAACATTGACCACGAAAGCCTCGTCGGCAAAAAAAACGCCGCGGTGAACAAGACCCCCGGCCCGCTTCTGACCGTGAACAATATCAGCAAGACCTTCACGACCCGGAAGTCCAGCTGGTTCCGCAAAGGCGATGCCAACGCCACCAAGGCGGTCAATAGCGTCAGTTTTGAAATTCGCCGCGGAGAATGCCTCGGGCTGGTGGGTGAAAGCGGCAGCGGCAAAACTACCGTCAGCAAAATCCTCATGCGCGCCGTTCGCCCGGATGAAGGCTCGGTGACCTTTCACCGGCCTGAGGGCGACATCGACGTCCTCAATGCCAGGGATGGAGACCTGAAAGAGCTGCGGTCAAAGATACAGATGGTCTTCCAGGACCCGATATCGTCGCTGTCTCCACGCATGACCGTGGGCAACATCCTGAGCGAGCCGCTGGAAATCCACGGACGTGGTGACGCCAAATACCGCGCGGAGAAAGTCCGGGGTCTCGTCAGGGCCATCGGCCTGGGCGAAAGCGCGCTGAACCGCTACCCCCATAGTTTCTCCGGCGGCCAGAGGCAACGCATCGGCATTGCCCGCGCCTTGGCACTCGGCCCCGAATTGCTGATCTGCGATGAGCCGGTCTCCGCCCTCGATGTCTCGGTGCAGGCGCAGATCCTCAATCTGCTGAAGGATTTGCAGCAGGATCTCGGGCTGACCTATCTCTTCATTTCGCATAATCTGGCGGTGGTGGACTATATGGCCGACCGCGTGGCGGTGATGTGCGAGGGCCGCATCGTGGAGCTGGCGCCGCGCGAAATCCTGATGCGCTCTCCGGTTCATCCCTATACAAAATCCCTGCTGGCGGCCGTGCCTTTCCCCGATCTCGACCGCCCGCTCGATTTCCGCACCATCGGCAAGATCAGCGCGACGGGCAAATTCGACTGGGGCAAACAGTTCCGCGACGAGGGTGATGGCGAAATGATCTCCGCCGATCTCGGCGAAGGCCATTTCGTGCTTGCAAACGGCAATGCCGATATCCGGGAGCTTCGCCCTTGA	MSAGADLLRIENLRVSFSLMGGTIDAVRGASLRILPGKVTALVGESGSGKSVIGQTIMGIHPKTARVNGRVLFTDPENAAAGPVDLLQLPKDGREIRSIRGNRIGLIFQEPMTSFSPLHTIGNQIDEALRIHSILSPAERAEKMHETLDLVGFSKPKKVVNMYPFELSGGMRQRAMIAMALICRPALLIADEPTTALDVTIQAQILKLLRDLQSRLNMSMLLITHDLGVVANIADEVAVIYQGEIMEAGTVDDIFKSPSHPYLKGLMAAVPHFDMKPGERLKALREINIDHESLVGKKNAAVNKTPGPLLTVNNISKTFTTRKSSWFRKGDANATKAVNSVSFEIRRGECLGLVGESGSGKTTVSKILMRAVRPDEGSVTFHRPEGDIDVLNARDGDLKELRSKIQMVFQDPISSLSPRMTVGNILSEPLEIHGRGDAKYRAEKVRGLVRAIGLGESALNRYPHSFSGGQRQRIGIARALALGPELLICDEPVSALDVSVQAQILNLLKDLQQDLGLTYLFISHNLAVVDYMADRVAVMCEGRIVELAPREILMRSPVHPYTKSLLAAVPFPDLDRPLDFRTIGKISATGKFDWGKQFRDEGDGEMISADLGEGHFVLANGNADIRELRP	PGPT0004435_1127	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004435-ddpD-K02031	NA	NA
BMS010_05622	1902	agpA_1		Periplasmic alpha-galactoside-binding protein	TTGATCACGCGTCGCACCACCCTTGCCCTCTTGGCCTCCGTCTTCCTGCCGGCCTATGCGCGGGCCGCTTATACCGACCCCGCCTATTTCAAGGAAAAACGGGAAAAGGGCGAATTGCCCGACGTGGCCGAACGCCTGCCGAAAAACCCGCGTGTCATCGACATGAAAGCGCTTGGCCGCGAGCCGGGAAAACATGGTGGCTCGGTGCGTATGCTCATTGGCGGCCAGCGCGACATTCGCCTGATGCCGATCAGCAGCTATGCCCGCCTTGTCGGTTATGACGAGAAATTCGAGCTTCATCCGGATATTCTCGAAAGCTACGACGTTCAGGAAGAACGCATCTTCACCTTCAAGCTGCGCGAGGGCCACAAATGGTCCGATGGCAGCGACTTTACCTCGGAGGATTTCCGTTATTTCTGGGAGGACGTTGCCCTCAACAGGGAAATCCACAAGGGCGGCCCGCCGATAGAGCTTCTGGTCAACAGCAAGCCGCCGCTTATCGAAGTCATCGACCGGCTGACGGTGCGCTACACGTGGGATGGCCCGAACCCGGATTTTCTGGCGAAGCTGGCGGCGGCCTCACCGGCGCGGCTGTTCCTGCCCGCCGCCTATATGAAACAGTTCCACGTCAAATATCAGACGGCGGAAAAACTCGCCAAGCTGATCAAGAAAAACAAGACGGATGACTGGAGCGGGCTGCATATCAAGATGTCGCGGCAGGTGCGGCCCGAAAATCCCGATCTGCCGACGCTGGATGCCTGGCGCAACACCACCGCGCCGCCGGCCGAACAATTCGTCTTCGAGCGTAACCCCTATTATCACCGGGTCGACGAAAACGGCTTGCAACTGCCATATCTCGATCGTTTCCTGCTCAACGTCACTTCGTCCGACATCATCTCGGCCAAGACGGCGTCCGGCGATAGCGATCTGCAATATTTCGGCCTCGATTTCGCCGATTACACCTTTCTCAAAGATGCCGAAAAGCGCTTTCCCCTGAAGGTGAACCTCTACAAGCGCTCTCAGGGCTCGCGCATCGCGCTGCTGCCCAACCTCAATTGTGCCGACGCAGTCTGGCGCAGCGCTTTTCAGGACGTGCGCGTGCGCCGGGCGCTGTCGCTCGCGATAAACCGGCACGAAATCAACATGGTCTGCTTTTACGGGCTGGCAAAGGAAAGCGCCGACACCGTTCTGCCGGAAAGCACGCTTTACCGGCAGGAATTTGCGGACGCCTGGAGCGCTTTCGACCGTGCGGCGGCCAACAGGCTGCTCGATGAAGCCGGTCTCGACAAGCGCGACAATGCCGGCCTTCGGCTCCTGCCGGATGGTCGCCCGGCCTATATCATCGTCGAAACGACAGGCGAAAGCACGCTTGAAACCGACGTGATGGAACTGGTGACGGATCACTGGCGGCATATCGGCATTGCCGTTTCCGTCCGCCCCACCCAGCGCGATGTCTTCCGCAAGCGCGCCATGGGCGGCGAGGTGCTGATGTCGGTATGGATGGGCATGGACAACGGTGTGCCGACGCCCGACATGCTGCCTTCCGGCCTGGCGCCCACCGGCGACGACCAGCTGCAATGGCCGGTCTGGGGTGTGCACTATCTTTCCGGCGGCCGCGAAGGCAAGGAGCCCGATCTGCCGGAGGCGGCGCATCTGCTCGATCTCCTGAAAAAATGGCGCAGAAGCGTCACCGAACAGGAGCGCGAAGCCATTTGGCTGGAAATGCTGGGTATTTATACGCAGCAGGTGTTTTCCATCGGCATCGTCAACGGCGCGCTGCAACCCGTCGTTCATGTCAAACGCATGCGAAACGTGCCGGACAAGGCGCTTTTCGGTTACGAGCCCACATCCTATCTCGGCGTCTATATGCCGGATGCCTTCTGGTACGACGGAGACGCCTGA	MITRRTTLALLASVFLPAYARAAYTDPAYFKEKREKGELPDVAERLPKNPRVIDMKALGREPGKHGGSVRMLIGGQRDIRLMPISSYARLVGYDEKFELHPDILESYDVQEERIFTFKLREGHKWSDGSDFTSEDFRYFWEDVALNREIHKGGPPIELLVNSKPPLIEVIDRLTVRYTWDGPNPDFLAKLAAASPARLFLPAAYMKQFHVKYQTAEKLAKLIKKNKTDDWSGLHIKMSRQVRPENPDLPTLDAWRNTTAPPAEQFVFERNPYYHRVDENGLQLPYLDRFLLNVTSSDIISAKTASGDSDLQYFGLDFADYTFLKDAEKRFPLKVNLYKRSQGSRIALLPNLNCADAVWRSAFQDVRVRRALSLAINRHEINMVCFYGLAKESADTVLPESTLYRQEFADAWSAFDRAAANRLLDEAGLDKRDNAGLRLLPDGRPAYIIVETTGESTLETDVMELVTDHWRHIGIAVSVRPTQRDVFRKRAMGGEVLMSVWMGMDNGVPTPDMLPSGLAPTGDDQLQWPVWGVHYLSGGREGKEPDLPEAAHLLDLLKKWRRSVTEQEREAIWLEMLGIYTQQVFSIGIVNGALQPVVHVKRMRNVPDKALFGYEPTSYLGVYMPDAFWYDGDA	PGPT0004430_1091	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004430-ddpA|ABC_PE_S-K02035	NA	NA
BMS010_05623	999	nikB_1	COG0601	Nickel transport system permease protein NikB	ATGCTGCGGTATATAATCAAGCGCATCCTCGTCATGATCCCCACGCTGATCCTGATCTCGATGCTGGTCTTCACCATCATCGAACTGCCGCCGGGCGATTATTTCGAAAGTTATGTCGCCGAGCTGCGCGCCATGGGCGAGACGGCGAACCTTGCCGAAATCGAGGAACTGCGTGTCCGCTACGGTTTCGACCAGCCAGCCCCGATCCGCTATTTCCGCTGGGCGACAGGTATGCTGGTCGGCGATTTCGGCTATTCCTTCGAATACCAGCTGCCGGTCAGCGATGTGGTGGGAGACCGCCTGTGGCTGACGGTTCTGGTCTCCTTCGTCACCATCATCGTCACCTGGCTTATCGCCTTCCCGATCGGCATCTACTCCGCCACGCATAAATACAGCTGGGGCGATTACGGACTCACCTTTCTCGGCCTGCTCGGCATCGCCATTCCCAACTTCATGCTGGCGCTGATCCTGATGTATTTCGCCAATATCTGGTTCGGCATCTCCATCGGCCACCTGATGGACCGGGAATATCTGAACCAGGCGATGAGCTGGGCGAAGTTCAAGTCGATCCTCGAACACATCTGGATTCCCGTCCTCATCATCGGAACGGCGGGCACCGCCGGCATGATCCGCCGTCTGCGCGCCAACCTGCTCGATGAATTGCAGAAACAATATGTGGTCACGGCCCGCGCCAAGGGGCTACATCCCTTCAAGGTGCTTACCAAATATCCGCTGCGCATGGCGCTGAATTTCTTCATCTCGGACATTGGCTCGATCCTGCCGGCCATCATTTCCGGCGCGGAAATCACCGCCGTCGTGCTGTCGCTCGAAACCACCGGTCCCATGCTCATCAGGGCGTTGCAGAGCCAGGATATGTATCTGGCCGGTTCGTTCCTGATGTTCCTCGCATTCCTGACGGTGATCGGCGTTCTGGTGTCGGATATCGCCCTTGCCATACTCGACCCGCGAATCCGCTTCGGAGGTGGTAACGTCAAATGA	MLRYIIKRILVMIPTLILISMLVFTIIELPPGDYFESYVAELRAMGETANLAEIEELRVRYGFDQPAPIRYFRWATGMLVGDFGYSFEYQLPVSDVVGDRLWLTVLVSFVTIIVTWLIAFPIGIYSATHKYSWGDYGLTFLGLLGIAIPNFMLALILMYFANIWFGISIGHLMDREYLNQAMSWAKFKSILEHIWIPVLIIGTAGTAGMIRRLRANLLDELQKQYVVTARAKGLHPFKVLTKYPLRMALNFFISDIGSILPAIISGAEITAVVLSLETTGPMLIRALQSQDMYLAGSFLMFLAFLTVIGVLVSDIALAILDPRIRFGGGNVK	PGPT0004445_4466	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004445-ddpB|appB-K02033	NA	NA
BMS010_05624	1176			hypothetical protein	ATGACTTCATCCATTCCGAAACCCGGCGAAGCGCTGCCCCATTACGTCTCGACCGCGCCCTTCGACCCGTCGCTGATCGAACCCAACACGTCAGGAATGGCGGCCTTCAGCAAGGCCTCACAGCTGCGTCTCATGTGGTGGCAGTTCCGCCAGCACAAGATCGCGGTGTGGTCCGGCGCCTTTCTGGTGGTGCTTTATCTTTCGATCCTGATCAGCGAATTCCTCGCACCCTATAATCTCCACACCCGCAATATCGAGCATATCTACGCCCCGCCGCAGGCCATTCACCTCTTCAATGACGGAAAATTTGTCGGCCCCTTCGTTTATGGCCGGGAAATGACGCTCGATATGGACAATCTGAGACGGGTCTACCGGGATGTGCCGACGGATATCCAGCCGCTGCGTTTCTTCTGCAAGGGCGATACCTATCGCTTCTGGGGCATGTTCGAGGGCAGAACCCATCTCGTCTGCCCGGCGGAGGGCGGTGAATTGTTCCTGCTCGGCACGGATCGTCTCGGCCGTGACGTGCTGTCCCGCATCATCTATGGCGCGCGCATTTCGCTGACCATCGGTCTCCTCGGCGTCGCCATGAGCTTCGTTCTCGGCATTGTGATCGGCGGCCTCGCCGGTTACCGCGGCGGCACCTTCGATCTGATCGTGCAGCGCATCATCGAGGTGCTGCAATCCATCCCGAGCATTCCGCTCTGGCTGGCGCTTGCGGCGATCATGCCGGTGACCTGGAGCCCCATCCTCGTCTATCTCGGCATCACCATCATTCTCGGCATGCTGGACTGGACGGGCCTTGCGCGCGCCGTGCGCTCAAAACTTCTGGCGCTTCGTGAAGAAGACTATGTTTTGTCTGCACAATTAATGGGTGCCGGAACGCCGCGCATCATCGGCAGACACCTTATTCCCGGCTTCATGTCACACTTGATCGCATCCGCCACCCTGACGATACCGGGCATGATTCTCGGCGAAACCGCGCTGAGCTTCCTCGGCCTCGGTCTCAGACCACCGATCACAAGTTGGGGAATTCTGCTCACGGAGGCGCGCAGCGTCAGCGTCATTGCGCTATATCCATGGCTTCTCATCCCGACGATCCCTGTCGTTCTCGTCATTCTGGCCTTTAATTTCTTCGGCGACGGACTACGTGATGCTGCGGATCCCTTCAGATAA	MTSSIPKPGEALPHYVSTAPFDPSLIEPNTSGMAAFSKASQLRLMWWQFRQHKIAVWSGAFLVVLYLSILISEFLAPYNLHTRNIEHIYAPPQAIHLFNDGKFVGPFVYGREMTLDMDNLRRVYRDVPTDIQPLRFFCKGDTYRFWGMFEGRTHLVCPAEGGELFLLGTDRLGRDVLSRIIYGARISLTIGLLGVAMSFVLGIVIGGLAGYRGGTFDLIVQRIIEVLQSIPSIPLWLALAAIMPVTWSPILVYLGITIILGMLDWTGLARAVRSKLLALREEDYVLSAQLMGAGTPRIIGRHLIPGFMSHLIASATLTIPGMILGETALSFLGLGLRPPITSWGILLTEARSVSVIALYPWLLIPTIPVVLVILAFNFFGDGLRDAADPFR	PGPT0004450_1671	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004450-ddpC|appC-K02034	NA	NA
BMS010_05625	1209	murG_3		UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglucosamine transferase	ATGACCTCCCGTTTGAACGACGCGCGTATCCTCATGTACAGCCACGATTCCTTTGGGCTCGGGCATCTGCGGCGGTGTCGCACCATCGCGCATGCTCTGGTGGAGGATTATCGCGGCCTCAACGTCCTCATCATTTCAGGCGCGACGATTGCCGGCGCTTTCGATTATCGCGCCCGCGTCGATTTCGTGAAAATCCCGAGCGTCATCAAGCTGCGCAACGGCGAATATACGTCCATGGACAGGCATATCGATCTTCAGGAAACGCTGAAGATGCGCCGCTCCATCATCTACCACACCGCCGAAAGCTTCCAGCCGGATATCTTCATCGTCGACAAGGAGCCCATGGGCCTGCGCGGCGAGGTGGAGGAAACGCTCGCCTATCTCAAGGGACAGGGCACCAAGCTCGTCATCGGCCTGCGCGATGTCATGGATGCACCGCAGCTGCTCGAAGCGGAGTGGAAGCGCAACAATGTCATGACCAAGATCGGCCAGTTCTATGACCACGTCTGGATTTATGGCCCACCCGATTTCCACGATCCGCTGACGGGGCTCGACGTTCCGCACACCGTTCGCGACAAGATGGATTTCGTCGGTTTCCTGCAAAGATCGAAGACGCAGGCCGAAACCGTAGCGCATCGGCCGGAAGGCGATTACCTTCTCGTCACCACCGGCGGCGGCGGCGATGGCAGCGAATTGATCGACGACGTCATCAACGCCTATCGCCATGACAGCGAACTGACGCACAAGGCGCTGGTGGTGCTCGGCCCCTATATGCCGGCGGATCAACGCCAGCGCTTCACGAGCAGTGTTGCCGATATTCCGCATATCGAAATCATCGAATTCGACAACCGCATGGAAGACCTCGTCGCTGGCGCGCAGGCCGTCGTCTCCATGGGCGGTTACAACACCGTCTGCGAGATATTGTCCTTCGACAAACCCGCCCTCGTCGTGCCGCGTACGGTGCCGCGCGAAGAGCAGCTTATCCGCGCCAGCCGTGCCTCGGAGCTTGGCCTTTTCGACATGCTTCTGCCGGAAGATGCCGAGAACCCGGCAAAAATGGCGGCTGCTCTGAAAGCGCTGCCGAACCGCGCACCGCCCTCCGTCAATGCGCGCGGGCTGAAGCTGGACGGTCTGGAAAACATATCGCGCCGGATAGCCGAATGGCTGCCGTCCGAGGGCGACAAGGCGCCGATCACGCTGACTGCGTGA	MTSRLNDARILMYSHDSFGLGHLRRCRTIAHALVEDYRGLNVLIISGATIAGAFDYRARVDFVKIPSVIKLRNGEYTSMDRHIDLQETLKMRRSIIYHTAESFQPDIFIVDKEPMGLRGEVEETLAYLKGQGTKLVIGLRDVMDAPQLLEAEWKRNNVMTKIGQFYDHVWIYGPPDFHDPLTGLDVPHTVRDKMDFVGFLQRSKTQAETVAHRPEGDYLLVTTGGGGDGSELIDDVINAYRHDSELTHKALVVLGPYMPADQRQRFTSSVADIPHIEIIEFDNRMEDLVAGAQAVVSMGGYNTVCEILSFDKPALVVPRTVPREEQLIRASRASELGLFDMLLPEDAENPAKMAAALKALPNRAPPSVNARGLKLDGLENISRRIAEWLPSEGDKAPITLTA				NA	NA	NA	NA	NA
BMS010_05626	1248	mshA_8		D-inositol-3-phosphate glycosyltransferase	GTGACCGATACAAAAAAAATCGTGGTGCTCCTCAAGGGCTATCCGCGCCTGTCCGAGACTTTCATCGCCCAGGAACTTCTGGGGCTGGAAAAGGCAGGGCTGAAACTCGAACTCATGTCGATGCGCCGGCCGACGGACAAGAAGCGCCATCCCGTTCACGATGAAATCCGCGCGCCCGTCACATATCTTCCGGAATATCTGCACGAGGAACCGCTGCGGGTTTTGAAGGCATTGTGGGCGTGCCGAAAAAAGCCGGGTTTCACCAAGGCGCTTCGCCGGTTTTTCACCGACCTGCCGCATGATCTCAGCCGCAATCGCTTCCGCCGTTTCGGGCAGGCTGCGGTGCTCGCGCATGAATGGCCGGCGGATGCCGAATGGCTGCATGTCCATTTCATCCACACACCCGCCTCGGTCGCCGCCTATACCCATCTCATCACCGGAACGCCGTGGACGATTTCGGCCCACGCCAAGGACATCTGGACCTCCAGCGACCGTGACCTTGCCGCCAAGCTGCAAAGCGCCCGCTGGGCCGTGACCTGCACTGCCGGCGGCTTCCAGCATCTGCAGACCCTTTCGGGGGCCAGGCAGAATGTGCATCTGAGTTACCATGGCCTCGATCTCACCCGTTTCCCGCATTTCGAAACGCCACGACCGGCAAGAGACGGTTCAGATGCCCATGATCCGGTGAGGATTTTGAGCGTCGGCCGGGCGGTCAAGAAAAAGGGCATCGATATTCTCCTGCGCGCGCTCGCCTCGCTGCCGCAGGATATCCATTGGCGCTTCACCCATATCGGCGGCGGCGATGAACTGGCCTCCCTGAAGAAACTCGCTGACGAACTCGGCGTTGCCGACAGGATCGTCTGGACCGGCGCCATGGACCAGAAGCAGGTGCTGGAGAACTACCGGGAAGCGGACCTCTTCGCCCTTGCCTGCCGCATCACCAGCGATGGCGACCGCGACGGCCTGCCAAATGTGCTGGTCGAGGCCGCGAGCCAGGCGCTGACCTGCATCTCCACCAATATTTCCGGCATTCCGGAGTTCTTCGTCAGCGGTGAAAACGGCCTGCTGACGGAACCGGAAAATCCGGCCGCCTTCGCAGAGGCCCTGCGCACGGCCATCACCGATCCGCAATTGCGCCAGCGCCTTAGCAGCGCCGCCGAAAACCGTGTGCGCACCGCCTTCGACCATCGCACCAGCATTGTCGAGTTGAAGGCCCTGTTCGAGACCGAGTGGGAAAAAACGCCATGA	MTDTKKIVVLLKGYPRLSETFIAQELLGLEKAGLKLELMSMRRPTDKKRHPVHDEIRAPVTYLPEYLHEEPLRVLKALWACRKKPGFTKALRRFFTDLPHDLSRNRFRRFGQAAVLAHEWPADAEWLHVHFIHTPASVAAYTHLITGTPWTISAHAKDIWTSSDRDLAAKLQSARWAVTCTAGGFQHLQTLSGARQNVHLSYHGLDLTRFPHFETPRPARDGSDAHDPVRILSVGRAVKKKGIDILLRALASLPQDIHWRFTHIGGGDELASLKKLADELGVADRIVWTGAMDQKQVLENYREADLFALACRITSDGDRDGLPNVLVEAASQALTCISTNISGIPEFFVSGENGLLTEPENPAAFAEALRTAITDPQLRQRLSSAAENRVRTAFDHRTSIVELKALFETEWEKTP	PGPT0023355_206	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-COLANIC_ACID_METABOLISM	CE-EPS-COLANIC_ACID_BIOSYNTHESIS,PGPT0023355-wcaL-K16703	NA	NA
BMS010_05627	1152	murG_4		UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglucosamine transferase	ATGACCGATACGGAAAAACGCCCCTGCGTCTTCTTCTACGTCCAGCACCTTCTTGGCATCGGCCATATCGCCCGCGCCAGCCGCATTGCCAACGCCCTTCAGGCAAACGGTTTCGATGTCGTGCTGGTCACGGGCGGCACGCCGGTTCCGGGCTTTCCGGGCGAGGGCATCCGCCATGTCGAATTGCCGCCCATCGCCGTCAGCGATGGCAGTTTTGCCGGCCTGGTCGACAGTTCCGGCAAACCGGTGGACGACGACTTCAAGAGGCTAAGAACCGATATGCTGATCGGCGCCTATCACGGCGCCAAACCCGATATCGTTATCATCGAGGCGTTCCCCTTCGGCCGCAGGCAGGTGCGTTTCGAATTGTTGCCGCTTCTCGATGAGATAGAAGACAGCGAACCGCGCCCGCTCGTCATGGCGTCACTGCGCGATATCTTGCAGGAAAAGACCAAACCGGGCCGGGACGAAGAGACCGTGTCGCTGGTGAAGAAGCATTTCGATGCGGTGCTCGTCCATGGCGATCCGGATTTCGCCCGGCTGGAAGACACCTTTCCGCTTGCCGGCGAGATCAGCCAGCGCATCGTCTATACCGGCCTCGTTGCCCCCCTTCCGCCGCCGGAACCGGCGGAAAAATTCGATATCGTGGTTTCCGCAGGCGGCGGCGCCGTTGGGGCCGCACTCATACGGGCTGCTCTCGAGGCTGCCCCCCTCTTGGATGGCATCAAGAGCTGGTGCCTCGTGACCGGTCCCAACATGCCGCAGGCGGATTTCGATGCGATCTCGGCGCGGGCGGCGGGCAATGTGTCCGTCTTCCGTTTCCGCAAGGATTTCGCAAGTTTGCTCGCCGGCGCACGGCTTTCGATTTCACAGGCCGGTTACAACACCGTCTGCGATATTCTTCAGGCAAAATGCCGCTCGCTTCTGATCCCCTTCGCAGCCGGGGGCGAAACCGAACAGAGCGCCCGCGCCGAACGGCTGGCGCGGCTGGGGCTGGCGCATGTGCTGGAGGAGAAGGATATTTCTGCGCAAGCGATGGCCGATGCCATCAAGGCCGCATTGTCCCTGCCGGCGCCCGGCACGATCACGCTCGATCTCGATGGCGCGGCCGGAACGGCTAGAGCGCTGCGCCATCTTTATGATGAGCGGTGA	MTDTEKRPCVFFYVQHLLGIGHIARASRIANALQANGFDVVLVTGGTPVPGFPGEGIRHVELPPIAVSDGSFAGLVDSSGKPVDDDFKRLRTDMLIGAYHGAKPDIVIIEAFPFGRRQVRFELLPLLDEIEDSEPRPLVMASLRDILQEKTKPGRDEETVSLVKKHFDAVLVHGDPDFARLEDTFPLAGEISQRIVYTGLVAPLPPPEPAEKFDIVVSAGGGAVGAALIRAALEAAPLLDGIKSWCLVTGPNMPQADFDAISARAAGNVSVFRFRKDFASLLAGARLSISQAGYNTVCDILQAKCRSLLIPFAAGGETEQSARAERLARLGLAHVLEEKDISAQAMADAIKAALSLPAPGTITLDLDGAAGTARALRHLYDER				NA	NA	NA	NA	NA
BMS010_05628	741	cutC	COG3142	Copper homeostasis protein CutC	ATGATTCTCGAAATTTGCGTGGACGATGTCGCCGGTCTGGAAGCGGCGGTCAGCGGCGGGGCTGATCGGATCGAGCTCTGTGCGGCGCTTTCGGGCGGCGGTGTGACGCCATCGGCGGGTTTCATGCAGCGCGCGGCGGCGTGCGGGTTGCCGGTGAGCGTCATGATCAGGCCGCGCGCCGGTGATTTCGTCTTCACGCGCGACGAAGCGGATGTGATGAAACGCGATATCGACACGGCACGTGCCGCCGGTCTTTCCGGCGTGGTGCTCGGCGCATCGCGTGGCGATGGTTCACTAGATATTGGCTTGCTTGAAGAATTGCGCAGTCATGCCGACGGGCTGGATGTGACGCTGCACCGGGCCTTTGATGTCGTGCCTGATATGGACGAGGCCTTGGAAGCTGCCATCGCATTGGGGTTCCCAAGAATTCTCACCTCAGGCGGCGCGCGTTCGGCGCTTGAAGGGATCGAGGCTTTGGCCCACCTGTCCGAGATGGCGGCAGGCCGGATCGTCATCATGCCCGGTGCCGGTGTGCGTCCGCAGAGCGTTCAGACCTTGCTGTATCGCTTTCCGATCACGGAAATCCACGCATCCTGTTCCGCCGTTCCATCCTATGATCCGGACAGCAGGGTGGCGAAGCTCGGTTTTACCGGCGCAGGGCGCAAGGTTACCGATGAGGCGGCGGTTCGCGAGTTGAAGACGATCCTCACCGCTCATCATAAAGATGGCGCAGCGCTCTAG	MILEICVDDVAGLEAAVSGGADRIELCAALSGGGVTPSAGFMQRAAACGLPVSVMIRPRAGDFVFTRDEADVMKRDIDTARAAGLSGVVLGASRGDGSLDIGLLEELRSHADGLDVTLHRAFDVVPDMDEALEAAIALGFPRILTSGGARSALEGIEALAHLSEMAAGRIVIMPGAGVRPQSVQTLLYRFPITEIHASCSAVPSYDPDSRVAKLGFTGAGRKVTDEAAVRELKTILTAHHKDGAAL	PGPT0004085_880	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004085-cutC-K06201	NA	NA
BMS010_05629	1206			hypothetical protein	ATGCCGTCGGCTCTTTCCATCGTCATCAACAATCCGTCGATCCGCATCGGAGCGCTCGCCATCCTGTTCTTCGGGTTCTCGAATGCGGCGACCGCCCCCTATCAGGCGGTCATCGGCATTCGCGAAATAGGACTGAGCAACAGCGTCTATTCGCTGTTGATGCTGTTTGCTGCCGTCATCAATGTCAGCGCCAGCGTTTTGATGGGCATTGTCGCAGACAGGCTGGGTGAATATCGCAAGCCAATGCTCTATATCGCGCTCTTTGGCGTCAGCGGTTATCTGCTGGTCTATCTGGCCGGCAACGCCACCGCCTTCGTCGCTGCAAAGCTGGTGCTTCTGCCGATTTTCGGAGCGATGAATTCGTTGATCTTCGCCCATGTGCGCGCCGATGCGCGCAACCTTTCGACGGGTGAGATGATCGCGGTGAATTCGATCATGCGGGCAACCATCTCGCTTTCCTGGGTGCTGGTGCCGGGCATTGTCGGTGTTTTTCTGGTGAATTCCGGCAATATGCTGATGGCGTTCCTGTTTTCGGGCATCTGCGCGCTTGTCTGCTTTCTGCTCGTCGCCTTCTGCCTGCCGCGGGCCGCCACGCCGGCTTCGGCAAATACTGAAGCGCGGTTTGGCCTGCGCGCCTCGCTTGCGGAAATCGGATCGCGGCGGGTGCTGCTCCGGATCATCGCCATCGCGCTCATCTGCTCGATGCTGCATCTCAACGATTCCGTGCGCTCGCTCATCATAACCGGACAGGCCAAGGGCACGGTGGCGGATATCGGCATTGTTGCGGGTATCGTCGCTGCGCTGGAAATCGTCTTCATTCTCCTTTGGGGCTGGATCGAGAAGAAGGTTCCGCAGACACTGACACTTGCGGCGGGAGCGGGGCTTTACGCCATCTATCTCATTCTGCAGGGGCTTGCTTCAGCGCCGTGGCATATCTACGCCCAAACGGTCATCAGTGCGCTAGGCGCTGCCGCGATCATCAGCATCCCGATTACCTATCTGCAGGAACTGATCGCGGACCGGCCGGGACTCGGAAGCTCGCTGATTGCGGTCAATATCTTCCTCGGCGCTGGTCTGGGTGCATTGATTTTTGCCGTTGGAACCCTGGTCTCGAGCTATTCGGGAACTTCCATATTGGGGGCGATCGTGGGGCTCGGCGGCGTTTATATGCTTTACGCGCTTGATGGAAAGGGCCGCCGCAGGTAA	MPSALSIVINNPSIRIGALAILFFGFSNAATAPYQAVIGIREIGLSNSVYSLLMLFAAVINVSASVLMGIVADRLGEYRKPMLYIALFGVSGYLLVYLAGNATAFVAAKLVLLPIFGAMNSLIFAHVRADARNLSTGEMIAVNSIMRATISLSWVLVPGIVGVFLVNSGNMLMAFLFSGICALVCFLLVAFCLPRAATPASANTEARFGLRASLAEIGSRRVLLRIIAIALICSMLHLNDSVRSLIITGQAKGTVADIGIVAGIVAALEIVFILLWGWIEKKVPQTLTLAAGAGLYAIYLILQGLASAPWHIYAQTVISALGAAAIISIPITYLQELIADRPGLGSSLIAVNIFLGAGLGALIFAVGTLVSSYSGTSILGAIVGLGGVYMLYALDGKGRRR	PGPT0017195_214	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_OTHER_SUGAR_TRANSPORT_RELATED_PROTEINS,PGPT0017195-MFS_SET-K03291	NA	NA
BMS010_05630	1434			hypothetical protein	ATGCGTATTGCCGTGGGTGGAATTCATACCGAATGCAGCACCTATTCCCCGGTGCTGATGGGCGAGCAGGATTTTCGTGTCTTTCGCGGCGCGGAACTGCTGGAGGCCGAGTATTTCAATTTCCTCGGTGAAGGCGGGGCGGACGTGCTGCCGCTTCTGCATGCGCGGGCGGTGCCGGGCGGCCCGGTTTCGCGCGTGGCCTATGAGGCGTTCAAGGCGGAGTTTCTCGAACGCCTTAAGGCCTGCCTGCCGCTTGACGGGCTTTATCTCGCCATGCACGGCGCGATGAATGTCGAAGGCATGGACGATGCGGAAGGTGACTGGATTTCAAGCGCCCGCGCCGTCGTCGGGCCGGATGTCGTGGTCTCTGCGAGCTATGATTTGCATGGCAATGTCAGCCAGACGATCATCGATCAGCTCGACATATTTGCCGGCTATCGAACTGCGCCGCATATCGATGTGCGCGAGACGATGGTGCGGGCGTGGACGATGCTGCTGAAGGCCCTGAAGACGGGCGAAAAGCCCGGCGTAGCCTGGGCGAAAATTCCCGTTCTGCTGCCGGGTGAAAAGACATCCACGGAAGACGAACCCACCAAAAGCCTTTATGCCGTTCTGCCGGAGCACGATGCGCGGCCCGGCATTTGGGATGCGAATTTCATGATCGGCTACGTCTGGGCGGACGAACCCCGGGCGACGGCCTGCGCCGTGGTGACGGGAACGGACAAAGCGGCCGCACAGGCGGTCGCGACTGAGATCGCGCAATCCTACTGGAATGCCCGGCAGGATTTTCGTTTCGGCCCCGTGACAGAGCCGCTCGAGGCCATTCTGGATATCGCCGAAAACACGGCAACGCGGCCGATCATCTTGGCCGACTCCGGGGATAACCCTACCGGCGGTGGGGTTGGCGATCGCGCCGATGTTCTGGCTGCGCTGATTGCGCGCAACTGGCAGGGCGCGTTGCTGGGCGGCATCACCGACAGGCCGGCGGTCGAAGCCTGTTTTGCGGCCGGCGAAGGTGCCACGCTTTCCCGGAAGATCGGCGGCAGTCTCGATCCGCAGAGCCCGTCCGTGACCGTCGAGGCCCGTGTTGTGAAACTGGACGATCCCGGTGCTGCTGACCAGCGGCAGGCAGTGGTCGCCATCGGCGGCATCACGGTCATTCTGGCGGCGCGGCGCAGGCCATATCATATGATTTCCGATTTCACCCGTCTCGGCTTTAATCCAAAGGAGGTGCGGCTGCTGGTCGTCAAGTCCGGTTATCTTTCACCGGAGCTTGCGCCTATCGCCAATCCTAACCTCATGGCGCTGACGGAAGGGGTCATCAATCAGGATATCGAAAATCTTCCCAATCGCCGCCGGGACGGCGATTTTTACCCATGGAAGCCGCATTTCGATTATACCCCTCAGCCCATCCTTTCGGCCCGCTGGCGATGA	MRIAVGGIHTECSTYSPVLMGEQDFRVFRGAELLEAEYFNFLGEGGADVLPLLHARAVPGGPVSRVAYEAFKAEFLERLKACLPLDGLYLAMHGAMNVEGMDDAEGDWISSARAVVGPDVVVSASYDLHGNVSQTIIDQLDIFAGYRTAPHIDVRETMVRAWTMLLKALKTGEKPGVAWAKIPVLLPGEKTSTEDEPTKSLYAVLPEHDARPGIWDANFMIGYVWADEPRATACAVVTGTDKAAAQAVATEIAQSYWNARQDFRFGPVTEPLEAILDIAENTATRPIILADSGDNPTGGGVGDRADVLAALIARNWQGALLGGITDRPAVEACFAAGEGATLSRKIGGSLDPQSPSVTVEARVVKLDDPGAADQRQAVVAIGGITVILAARRRPYHMISDFTRLGFNPKEVRLLVVKSGYLSPELAPIANPNLMALTEGVINQDIENLPNRRRDGDFYPWKPHFDYTPQPILSARWR				NA	NA	NA	NA	NA
BMS010_05631	1920	exoI	COG3525	Beta-hexosaminidase	ATGGCGCTCGCACATTATCGTCTCGAAAATTCCTGGCATCCGCTCAAAGATTCCGCCTCGGGCGGTTTTACCTTTACCCTGGTCAATCTTTCCCGCGAGCCGCTGAAGGATTTTCGCATCGTCTACACGTCGTTGACGCGGACGGTAGACAAGCCCGCTTGCGACAATGCCGTTTATCTGCGCCGCAACGCCAATTTCCATGAGTTTGCACCGCCGGCGGGCTTCGTGCTCGAGCCGGGGAAATCCTGGCGCTTCACCGTCGATGGCCTGCTGCGGCAGGCCCGGCATCGCACGGATGGCGCGAAATCCGCCTATGTCAGCCTTGCCGATGGAACGCATCGCGCCGTCGAAGTCGGTGACCTGATGCTGGATGGGCGTCACAGCGAGCCGGCACCGGTGCTGCTTCCGGAAGGCAAGCTCGATCTGCCCTTTTCCATCCAGCCCTGGCCCGCTGAAATCGACGCCGAACCGGGCGACGGTTTTCCCGTCGCGCTCTTCCCAGCGGAAGATGCGGGTGCAGAAGAAGTGCTTGCGGTGGAAACCGTGCTTTCGCTGTTCCGCCGGCTCTTTGCCGTCGGGCACGTGCCCTTCAGCCTTGCGCCGGTTCATGAGGGAAAACCGCTTCGTTTCAAGCGCCACAGCGGGCTGGAAGCGGAAGGTTATCGCCTCACTTTTTCAAAAGAAGCGGTGGTCGTGGAATATTCGGCCGCTGCCGGTCTGCAATATGGCCTGACGGTTCTGGCGCAGCTGCTGCATGGCGCGCGCATCGATCCTCAATTCCGCTTCCCGGCCTCCGGCGCCATCAGCGATGCGCCCCGTTATAGCTGGCGCGGCTGCCATCTCGATGTCTCCCGGCAATTCTATCCGACAGGCGATGTCCTGCGGCTCATCGATATTCTCGCATGGCTGCGCATGAACCGCTTCCATTGGCACCTGACGGATGACGAGGCATGGCGGCTCGAAATCAAGGCCTATCCGCTGCTGACCACCGTTGGCGCCACGCGCGGCCCGGATGCGCCGCTTCTGCCGCAGCTCGGTAACGGGGCTGAGCCGGTGTCGGGCTATTACACACAGGATGAGGTGCGCATGGTCGTCGCGCATGCGGCGGCATTGAACGTCGAAATCGTGCCGGAAGTCGATATTCCCGGCCACAGCACGGCGGCTCTCGTGGCCTATCCGGAGCTGACGGACGGGCAGGAGGCGCCGGACAGCTACCGCTCTGTGCAGGGATACCCGAACAATGCGCTTAACCCGGCCATCGAGCCGACCTATGAATTCCTCGGCAAGATATTCGACGAGATGGTGGAGCTGTTCCCGTCGCGGCTGATCCATATTGGCGGCGATGAGGTTGCGGATGGGTCGTGGCTGGCCTCGCCGCTTGCCAAGGCGCTGATGGAAAAGGAAGGGCTCGACGGCACCTTCGGCATCCAGTCCTATTTCATGAAGCGCATTCAGGGGATGCTGCATGAGCGTGGCCGCCAGCTTGCCGGCTGGGACGAGGTTTCCCACGGTGGTGGCGTCGATCCCGCCGGAACGTTGCTGATGGCGTGGCAGAAGCCGGAAGTCGGGCTTGAGCTTGCACGCCAAGGCTATGACGTGGTGATGACGCCGGGTCAGGCCTATTATCTCGACATGGTGCAGGATGAAGCATGGCAGGAGCCGGGCGCAAGCTGGGCCGGCACCGTTCCGCCTTCGCATACTTATGCCTATGAGGCTGTCGGCGAATTTCCCGATGAGTTGAAGGAGCGGATGAAGGGCGTTCAGGCCTGCATCTGGTCTGAACATTTCCTCAATCGCGCCTATTTCAACCATCTGGTTTTCCCCCGTCTGCCGGCGATTGCCGAGGCGGCGTGGACGCCAAAGGCGCAAAAGGACTGGCTGCGTTTTGCGGCCATCGTCCCCTTGAGCCCGGTCTATTGA	MALAHYRLENSWHPLKDSASGGFTFTLVNLSREPLKDFRIVYTSLTRTVDKPACDNAVYLRRNANFHEFAPPAGFVLEPGKSWRFTVDGLLRQARHRTDGAKSAYVSLADGTHRAVEVGDLMLDGRHSEPAPVLLPEGKLDLPFSIQPWPAEIDAEPGDGFPVALFPAEDAGAEEVLAVETVLSLFRRLFAVGHVPFSLAPVHEGKPLRFKRHSGLEAEGYRLTFSKEAVVVEYSAAAGLQYGLTVLAQLLHGARIDPQFRFPASGAISDAPRYSWRGCHLDVSRQFYPTGDVLRLIDILAWLRMNRFHWHLTDDEAWRLEIKAYPLLTTVGATRGPDAPLLPQLGNGAEPVSGYYTQDEVRMVVAHAAALNVEIVPEVDIPGHSTAALVAYPELTDGQEAPDSYRSVQGYPNNALNPAIEPTYEFLGKIFDEMVELFPSRLIHIGGDEVADGSWLASPLAKALMEKEGLDGTFGIQSYFMKRIQGMLHERGRQLAGWDEVSHGGGVDPAGTLLMAWQKPEVGLELARQGYDVVMTPGQAYYLDMVQDEAWQEPGASWAGTVPPSHTYAYEAVGEFPDELKERMKGVQACIWSEHFLNRAYFNHLVFPRLPAIAEAAWTPKAQKDWLRFAAIVPLSPVY	PGPT0012150_1809	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSAMINIDASE,PGPT0012150-HEXA_B_like|exo|chb-K12373	NA	NA
BMS010_05632	783	ped		(S)-1-Phenylethanol dehydrogenase	ATGAAGGACAGGAAAGACCAGCTCGCCGTCGTTACCGGCGCGGCAGGTGATATTGGCCGGGCAATTGCCACGGCGCTCGCTGAAAGCCATGCAAAGGTCGTGTTGGTCGATATCGACCCCGGCGCCCTTTCGAGCGCGCTATCCCTGCTTTCCAGTCCCCGCTTCGTTGCGAAAACCTGCGATGTTACAGATCCGCAGGACCTTGCAAGGCTGGCCGCCGAGGTTGCGGCGCTGGGCGATGTTGCTACCCTCGTCAACAATGCGGGTGCGGCAAGAGCGGTCAGCCTGCATGACACGACCGCCGATATATGGCGCAGGGACAATGCCCTCAATCTGGAAGCGCCGTTTCTCTGCTTCAGGGCTTTCGAAGAGGCGCTGAAGCGGACCCAGGGGTCGGTGGTCAATATCACGTCCGTCAACGGCATGGCGGTCTTCGGTCATCCGGCCTATAGCGCCGCAAAGGCCGGCTTGATCCATCTGACCAAGCTGATCGCCGTGGAATACGGCAAATTCGGCATCCGTTCCAATGCCGTTGCGCCGGGCACCGTGCGCACCCAGGCATGGGAGGCGCGGGCCGCCGCCAATCCTCAGGTCTTCGAAGAGGCGAAGCACTGGTATCCGCTGCAACGCATCGTGAGGCCCAACGATGTGGCCAATGCCGTTGCCTTTCTGGCCGGCCCACAGGCGGAGGCGATCAGCGGCGTGTGCCTGCCGGTCGATTGCGGACTGACGGCGGGGCAGGCGCCGCTGGCCCGGACCTTCTCGCAATCCGAACATTACTGA	MKDRKDQLAVVTGAAGDIGRAIATALAESHAKVVLVDIDPGALSSALSLLSSPRFVAKTCDVTDPQDLARLAAEVAALGDVATLVNNAGAARAVSLHDTTADIWRRDNALNLEAPFLCFRAFEEALKRTQGSVVNITSVNGMAVFGHPAYSAAKAGLIHLTKLIAVEYGKFGIRSNAVAPGTVRTQAWEARAAANPQVFEEAKHWYPLQRIVRPNDVANAVAFLAGPQAEAISGVCLPVDCGLTAGQAPLARTFSQSEHY				NA	NA	NA	NA	NA
BMS010_05633	864	hexR_3	COG1737	HTH-type transcriptional regulator HexR	ATGGATATTTTCGCAAGAATACAGGAAGACAGGGGACAATTCTCGCAGTCGGAGCGGCGGATTGCCGATATTCTGGTTTCGGACTTCGAATTCGCCGTCAATGCCTCGATCATCGAGCTGGCGGCCCGCGCCGAAGTGTCGCCGCCGACCGTGACGCGGTTCTGCCGTCGGCTGGGGTGCCAGAGCTTTTCGGATTTCAAGGTCAGCCTCGCCAAGACGGCCTATGTGGGTATTCGATACCTCACCTCCGAACCCTCCAGCACCGGTCCCTCGGATGTGGCGGAAGAGGTGCTCGCCAAGGCACAGGAAGCGCTTTTCCTGTTGCACAGGACGCTCGATCCCGCCCTTGCCGATGAAGCGGCGATCAGGATCGCCAATAGCGGCATGATCTATGCCTTCGGCGCAGGCGGCAACTCCTCGATGATCGCTTCGGAAATTCAGAATCGGCTGTTCCGCTTGGGCCTGCGCGTTTCGACCAGTGCCGATCACAGCATGCAGCTGATGATGACGGCTGCGGCGCGCAAGGAAGACGTCATCATCGGTTCGTCCTTTTCCGGCCGCAACATGGAACTGGTGAAATGTTTCAGGCTGGCGCGGGAAATGGGGGTCACCACCATTGCGCTTACCCAGAGCGACACGCCTGTTGCCGCAGCCGCCGACATGGTGGTGGCGGTCAATGTGCCCGAGGGAAACAATATCTTCCGCCCCACCTCATCGCGCTACGCCTATCTGGCCGCCGTCGATGTTCTGGCGACGCTTGCTGCCTATCATCAACGGCAACGATCGATGGTGACGTTGCGTCACATCAAGCAGCAGCTCGTGGAACATCGTGACCCGGATGACAAGCAATTGCTCGGTGACTGA	MDIFARIQEDRGQFSQSERRIADILVSDFEFAVNASIIELAARAEVSPPTVTRFCRRLGCQSFSDFKVSLAKTAYVGIRYLTSEPSSTGPSDVAEEVLAKAQEALFLLHRTLDPALADEAAIRIANSGMIYAFGAGGNSSMIASEIQNRLFRLGLRVSTSADHSMQLMMTAAARKEDVIIGSSFSGRNMELVKCFRLAREMGVTTIALTQSDTPVAAAADMVVAVNVPEGNNIFRPTSSRYAYLAAVDVLATLAAYHQRQRSMVTLRHIKQQLVEHRDPDDKQLLGD				NA	NA	NA	NA	NA
BMS010_05634	486			hypothetical protein	ATGCGTGATCCCTTCAAAAACCCCTTTCCCGAAACAGACATCGCCCGCCATTCCATCTGGGAGATGCTGGTAACGCGGGACATCGACGCTTTCCTTGCCGCCAACTGGTCGAAGGTCGCGGATGATTTCGTCGAGGACGGCTTTCTCGGCATCAACGCCAACCGGGATGCGAACCCGGACAATTGGCGCCTGTCGTTCCCTTCGCTCAGCGCCTATCGCGACGAGTGGCTGCGGCAGGCGCAGGATTTTCAAACCCAGCAATTCGCAGATAACCCGCGCGATGCGATCTTTGCGACCACCACGCTGGAAGAAATCGAAGTGGAAGGTGAGACCGCGCTGGTGCGCAAAAAGTTCGACGGTGGGCTTCGCAAGGCCGATGGCAGCTTCGACGTCATGAAATGGCAGACGCTCTATTATTGCCGGCTGCATCAGGGACGCTGGAAGATCAGCGGTTTCACCGGCTACATGCCCAACCCCATGCCGTGA	MRDPFKNPFPETDIARHSIWEMLVTRDIDAFLAANWSKVADDFVEDGFLGINANRDANPDNWRLSFPSLSAYRDEWLRQAQDFQTQQFADNPRDAIFATTTLEEIEVEGETALVRKKFDGGLRKADGSFDVMKWQTLYYCRLHQGRWKISGFTGYMPNPMP				NA	NA	NA	NA	NA
BMS010_05635	1113	malK_4	COG3839	Maltose/maltodextrin import ATP-binding protein MalK	TTGGGTCAGCTTTATCTCAACAACGTCCGCAAGAACTATGGACATTTCGAAGTCATCAAGGGCGTTCAGCTCGACATCAGGGATGGCGAGTTCGTCGTTTTTGTCGGCCCCTCGGGATGCGGCAAATCCACATTGCTGCGCATGATCGCCGGCCTTGAGGATATTTCCGCTGGCGACGTCGTCATTAACGGCGTGAAGGTCAATGACTTGCCGCCGGTCAAACGCGGCATCGCCATGGTTTTCCAGTCCTATGCGCTCTACCCGCACATGACGGTTTTTGAAAACATCGCTTTTCCGCTGCGCGTCGAGAAGATGGAGGAGGACAAGATCAAGCAGAAGGTCGAGGGCGTCGCCAAGATTCTCCAGCTCGATCAGCGTCTGCAGCAGCGCCCGGGCATGTTGTCCGGCGGTCAGCGCCAGCGCGTGGCGATCGGCCGCGCCATCGTTCGCGAACCGAAGATATTCCTGTTCGACGAGCCGCTTTCCAACCTCGATGCAGCACTTCGCGCCGATATGCGCATCGAACTCACCAATCTTCACCGGACGCTGAAGGCGACGATGATCTATGTCACCCACGATCAGGTGGAAGCCATGACCATGGCCGACCGTATCGTGGTGCTGAATGCCGGCGAAATTGCCCAGGTCGGTGCGCCGCTCGAGCTTTATCACAAGCCGGCTAACCTCTTCGTGGCAGGTTTCATCGGCAACCCGAAAATGAATTTCCTGAAGGTCACGTGCAAATCCGTCAGCGCCGAGGGTGTGACGGTGGAATATGAGGGCCAGACGATCACCGTGCCGGTGGAGCCCCGCGCCGGTCTTGAAGGCACGCTGCTGACGCTCGGCATCCGCCCGGAACATACCGGCCTCGAAACGGCCGACCTCAATGTCACGGTCGCGCCCAGCGTGATCGAGCGGCTCGGGGTCAATACCATTGCCTATGGCGTCGCGCCGACGGGTGAGAATTATTGCGCGCTGCTTTCCGGCTCCGCACCTGTGGTCGTGGACGAGCCCATCGTCACCGGTATCAAGGCATCGGATTGCCATCTGTTTGACGAAAGCGGCATTGCGCTGGAGCGGCGCGTCGATCTTTCAGTCCTCAAGTTGATCCAGTAA	MGQLYLNNVRKNYGHFEVIKGVQLDIRDGEFVVFVGPSGCGKSTLLRMIAGLEDISAGDVVINGVKVNDLPPVKRGIAMVFQSYALYPHMTVFENIAFPLRVEKMEEDKIKQKVEGVAKILQLDQRLQQRPGMLSGGQRQRVAIGRAIVREPKIFLFDEPLSNLDAALRADMRIELTNLHRTLKATMIYVTHDQVEAMTMADRIVVLNAGEIAQVGAPLELYHKPANLFVAGFIGNPKMNFLKVTCKSVSAEGVTVEYEGQTITVPVEPRAGLEGTLLTLGIRPEHTGLETADLNVTVAPSVIERLGVNTIAYGVAPTGENYCALLSGSAPVVVDEPIVTGIKASDCHLFDESGIALERRVDLSVLKLIQ	PGPT0014160_655	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0014160-malK|mtlK|thuK-K10111	NA	NA
BMS010_05636	1233			hypothetical protein	ATGGCATTGAAACATTACGGATTGGCGCTCTGCGCTTTCGCATTTGCCGGTTCCACTGCCCTTACGACGGTGACGGCGCACGCCGCCGACAAGGAGATCAGCTGGATCTATTGCGGCGACAAGATGGACCCCATCCATGAGAAATATATCAAGGAATGGGAAGGCAAGAACGAGGGCTGGAAGGTCGTGCCTGAGGTCGTCGGCTGGGCCCAGTGCCAGGACAAGGCGACCACGCTCGCCGCTGCCGGCACCCCGGTCGCCATGGCCTATGTGGGTTCGCGCACGCTGAAGCAGTTCGCGCAGAACGATCTCATCGTTCCGGTGCCGATGACTGAAGACGAAAAGAAGAGCTATTACCCCAACATCGTTGACACCGTGACCTTCGAGGACACGCAGTGGGGCGTGCCGGTCGCCTTCTCGACCAAGGCGCTTTACTGGAACAAGGACCTGTTCAAGCAGGCGGGTCTCGATCCGGAAACGCCGCCGAAGACCTGGGCCGAAGAGATCGCGTTTGCCAAGCAGATTAAGGAAAAGACGGGCATCGCCGGTTACGGCCTGCCCGCCAAGACCTTCGACAACACCATGCACCAGTTCATGCACTGGGTTTACACCAACAACGGCAAGGTGATCGACGGCGACAAGATCACCGTCGACAGCCCGCAGGTTGTTGCAGCGCTGAAGGCCTATAAGGACATCACGCCCTATTCCGTCGAAGGCCCGACGGCCTATGAGCAGAACGAAATCCGCGCCATCTTCCTCGATGGCAAGGTCGGCATGATCCAGGCCGGTTCGGGCGCCGCCACGCGCCTGCAGGAAACTAAGATCAACTGGGGCATCGCCACGCTGCCGCTCGGCCCGGAAGCAAAGGGTCCCGGCACGCTGCTCATCACCGACAGCCTTGCGATCTTCAAGGGAACCGGCGTGGAAGAAAAGGCGACCGAATTCGCCAAATTCATCACCTCTCCCGGTCCGCAGGGCGAATACGAACTGCAGGGCGGCGCGGGCCTCACCCCGCTGCGTCCGTCGCCGAAGGTCGATGAATTCATCGCCAAGGATCCCTTCTGGAAGCCGCTGATCGACGGTATCGCCTATGGTGGTCCTGAGCCGCTCTTCACGGACTACAAGGGCTTCCAGGACACGATGATCGAAATGGTGCAGTCTGTCGTTACCGGCAAGGCAAGCCCGGAAGATGCCGCGAAGAAAGCGGCTTCGGCTCTCGAGCAGTATAAATAA	MALKHYGLALCAFAFAGSTALTTVTAHAADKEISWIYCGDKMDPIHEKYIKEWEGKNEGWKVVPEVVGWAQCQDKATTLAAAGTPVAMAYVGSRTLKQFAQNDLIVPVPMTEDEKKSYYPNIVDTVTFEDTQWGVPVAFSTKALYWNKDLFKQAGLDPETPPKTWAEEIAFAKQIKEKTGIAGYGLPAKTFDNTMHQFMHWVYTNNGKVIDGDKITVDSPQVVAALKAYKDITPYSVEGPTAYEQNEIRAIFLDGKVGMIQAGSGAATRLQETKINWGIATLPLGPEAKGPGTLLITDSLAIFKGTGVEEKATEFAKFITSPGPQGEYELQGGAGLTPLRPSPKVDEFIAKDPFWKPLIDGIAYGGPEPLFTDYKGFQDTMIEMVQSVVTGKASPEDAAKKAASALEQYK	PGPT0016545_10374	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
BMS010_05637	858	ycjP	COG0395	Inner membrane ABC transporter permease protein YcjP	ATGAGCGACAAGAATGCGATGATCAACCGCTACAGGTGGTATGAAATCGTCGGGATTTATTGCGGCATCGCCGTGTTCCTGACCTTCGTGCTGGCGCCCTTCGTGGAAGGATTTCTGGTTTCGCTGAAGCCGCTCAGCCTGCTTTTCTCCTCGCCCTACAAGTTCTGGCCGGAAAACGGTTCCTTCGAGGCTTACCGGACCATGTGGGTCAGCGTTCCGGGTTTTGCCCGCTACGTTTTCAACTCCTTCTTCATCTCCACCATTTCGACCATTATCGTCCTCATCCTGGTGGTGCCGGCCTCCTATGCTTTCGCCCGTTTCGAGTTTCGTGGGCGTGGGCAGTTGCTCGGTGCATTTCTGGCGATCAACATGTTTTCGGGCGCGGTGCTTCTGATCCCGCTTTACCGGCTGATGCGCAACATGGGTGTGCTGAACACCTATCTGGCGATGATCATTCCCGGCGCGGCCTTCCTGATCCCCACCGCCATCTGGCTGTTGCGCACCTATATGCTGCGTATCCCGCGGGAGCTGGAAGAGGCGGCCTATGTGGATGGCGCGAGCTATTTCTATACCTTCCGCCGGGTGATCCTGCCGCTGGCGATGCCGGGCATCGCCGTCGTCTCCATCACCACCTTCATCGGCGCTTACGCCCAGCAGTTCATCTTCGCGCTCACCTTCAATTCCAAGACCGAATATATGCCGCTGCCCATCGGCCTCTTCGCCTATTTCGGTCGCCAGGAAGTCATCTGGAATGAGTTGATGGCGGCCAGCTTCGTCGGCATTGCGCCGGCCATGGTCGTGATCTTCTTCATGCAACGATATCTCGTCAGCGGCCTTACCGCCGGCGCGGTGAAATAA	MSDKNAMINRYRWYEIVGIYCGIAVFLTFVLAPFVEGFLVSLKPLSLLFSSPYKFWPENGSFEAYRTMWVSVPGFARYVFNSFFISTISTIIVLILVVPASYAFARFEFRGRGQLLGAFLAINMFSGAVLLIPLYRLMRNMGVLNTYLAMIIPGAAFLIPTAIWLLRTYMLRIPRELEEAAYVDGASYFYTFRRVILPLAMPGIAVVSITTFIGAYAQQFIFALTFNSKTEYMPLPIGLFAYFGRQEVIWNELMAASFVGIAPAMVVIFFMQRYLVSGLTAGAVK	PGPT0016540_4461	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
BMS010_05638	885	dasB	COG1175	Diacetylchitobiose uptake system permease protein DasB	ATGGATGCGAAACGCAGCGCGGTCGTCTTTGCCTGGCTTCTTCTTCTGCCGGCGCTTTTATACATCACGGTTATCGTTGCTTATCCGCTCGTCGATACCTTCATCCTGTCCTTTACCGATGCGTCGCTTAGAAAAACGACGAATTGGGTCGGCTTCATCAATTACGAGAAGATTTTCAACGCGACTTTTGCCGATGTCATCACGCGGACCTTTATCTGGACGTTCTTTTCCGTCTCGATAAAGATGATCATCGGCACATTCGGTGCGGTCTTGCTGAATTCGGCCGTGCCCGGCCGGGCGCTGTTCCGTATCCTGACCATGCCGCCATGGATCGTGCCGATGGCTATCGGCATCTTCATGTGGGGCTGGATGTATAACGGCCAGTTCGGCATGATTTCCGGGGTGCTCCAGAACCTCGGCCTGGTGGATGGCCCGGTTGCGTTCCTCGCCTATGGCAGAACGGCCTTCTGGGCAACGATCGTCACCGACGTCTGGATCGGCGTGCCGATGGTGACGCTCTATCTGCTGGCGGCCATCCAGGCCATTCCGCAGGATCTCTACGAGGCCGCGTGGACAGACGGGGCAAGCCGCTTCTACCGCTTCCGCCGTATCACGCTGCCGCTGATGCTGCCGGCCATGATCACAATGTCGATGATATCGCTGATTTCGACCTTCAATTCCTTCGATATCATCTGGATCCTGACGCAGGGCGGTCCAACCGGCCAGACGACGACCATGATCATCGACACGTATAAGACGGCGATCGGCTCCTACAAATACGGTGAAGGTGCGGCCCGCGCCGTGCTGATCTGCATCTTCCTGTCGATCTTCACCTATTTCTACTTCCGCATCACCAGCCGCATCTCGCAGGAGGCCAGCCGATGA	MDAKRSAVVFAWLLLLPALLYITVIVAYPLVDTFILSFTDASLRKTTNWVGFINYEKIFNATFADVITRTFIWTFFSVSIKMIIGTFGAVLLNSAVPGRALFRILTMPPWIVPMAIGIFMWGWMYNGQFGMISGVLQNLGLVDGPVAFLAYGRTAFWATIVTDVWIGVPMVTLYLLAAIQAIPQDLYEAAWTDGASRFYRFRRITLPLMLPAMITMSMISLISTFNSFDIIWILTQGGPTGQTTTMIIDTYKTAIGSYKYGEGAARAVLICIFLSIFTYFYFRITSRISQEASR	PGPT0016535_6407	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
BMS010_05639	1182	yteT_1	COG0673	Putative oxidoreductase YteT	ATGAAGGTGGGAATTATCGGACTCGGATTCCGTCTCGGTTATCTGGGCTACGTTTTTCATGAGATCGACAAGGATTTCGAGATCGTCGGTTACGTCGATCCCGCGCCGGCGGGCCTGCCGGGCCTGCAGGAAAAGGGCATTTCGGCCGGCAAGGCCTACGATAGTCCCGAGGCGCTGATCGCAAACGAAAAATTCGATCTCTTGATGATCGGCTCACCGAACCACATGCATCTGGAGCATATCCGTATCGGGCTTGAGGCCGGCTGCACCATCTTCTCGGAAAAACCCATCGTCGTCAGCATCGAGGAAAGTCTTGAGCTCGCCCGGCTGCTCAACAAGCACGGGCATGAGCGGCTGCTCGTCGGTCTGGTTTTGCGTTATTCCCCGCTCTACCGCGATCTGCGCGCCGCACAGGCGGAAGGCAAGCTGGGCGATGTCGTTTCCATCGAGGCCTCGGAGCATATCCCGCCCTATCACGGCGCATTCTTCATGCGCGACTGGCGGCGTTACGAGAATTATTCCGGCTCCTTCATGCTGGAAAAATGCTGCCACGACCTCGATCTCTATAATGGCGTGGTCGGTGCGCGGCCGCGTTTCGTCTCGAGCTTCGGCGGGCGCAAGAGCTTCACGCCGGCAAACGCGCCGCAGCATGACGGCATCAACGACATGGAGGTTTACCATCGCAAGCCGAGCGGCTGGATGGGTTCCGACAAGGTCTTCGACAGCGACGGCGACATCATCGATTACCAGACGGCGATCGTCGAATATGAGAACGGCGCATCGCTCGCCTTCCATACCAATCTCAATGTTCCCGACGATTTCCGCCGTTTCTGCGTCATCGGTGCCAAGGGCATGGCCGAGGGCGATTTCGTGCGCGGCTTCCTGAACGTGCACAATGCCCGGACCAATGAAAAGACCGTGGCCAAGACCTATTCGGCGGCAACCGCGCTCTCGCAGCATTATGGCGCGGACGAGCAGATGGCCGAGGATGTTATCGCCCATATCGTCAAGGGTGCGGCCCTTCCGGTTTCCGCGCTCGATGCGATCGAGGCCGGTATTCTGGCGCTTGCCATGGATGAAGCGCGCCATGGCCGTAAAGTGATCGATCTCAAGCCGGTGTGGGAGGAATACGATCTGGCGCTGCACGGGCAGCCGAAATCCCCCGCTGTGAAATCGGCTTGA	MKVGIIGLGFRLGYLGYVFHEIDKDFEIVGYVDPAPAGLPGLQEKGISAGKAYDSPEALIANEKFDLLMIGSPNHMHLEHIRIGLEAGCTIFSEKPIVVSIEESLELARLLNKHGHERLLVGLVLRYSPLYRDLRAAQAEGKLGDVVSIEASEHIPPYHGAFFMRDWRRYENYSGSFMLEKCCHDLDLYNGVVGARPRFVSSFGGRKSFTPANAPQHDGINDMEVYHRKPSGWMGSDKVFDSDGDIIDYQTAIVEYENGASLAFHTNLNVPDDFRRFCVIGAKGMAEGDFVRGFLNVHNARTNEKTVAKTYSAATALSQHYGADEQMAEDVIAHIVKGAALPVSALDAIEAGILALAMDEARHGRKVIDLKPVWEEYDLALHGQPKSPAVKSA				NA	NA	NA	NA	NA
BMS010_05640	753	nagR_6	COG2188	HTH-type transcriptional repressor NagR	ATGAACGGGGCAGCGCTTAATCTGGACGACCTGCAATCAGGCGGCGGCCCGCTTTACCTGAAACTGCGCCAGACGATTGAAGACGCCATCAACGGCGGCCGCCTGAAGCACGGCGACGCCTTGCCGCCGGAGCGGGATATCGCCGAAAGCGCCTGCGTCAGCCGCGTCACGGTGCGCAAGGCGGTGGACGATCTCGTCCGCGACGGTCTTCTCGTTCGCCGGCACGGTTCGGGTACTTTCGTCGTCAAGCCCATCACCCGCATGCAGCAGCCCCTGACTAAACTCACCTCGTTTACCGAGGACATGCGCCGGCGTGGAATGACGGCGAGCACCCGCTGGCTGGACAGAGGCCTGTTCCACCCGACCGGCGACGAGATGATGGCGCTCGGCCTTTCCCAATCCGCCATGGTGGCGCGGCTCACGCGTCTGCGTCTTGCCAATGACCAGCCAATCGCACTCGAAGTCACCAGCCTGCCGGGCGATATCCTGCCTGACCCGCAACTGGTGGAAAACTCGCTTTATCTGGAGCTTGAGAAAAACGGCATTCGCCCGGTGCGCGCCATTCAGCGCATCTCCGCCCGTAACCTCACCGATGAGGAAACATTGCTGCTCGGGGTTCCGCCGGGCTCGGCAGCGCTTTCCGTTCAGCGAATGGCCTATCTGGAAAGCGGGCGCCTCATGGAAATATCCCGCGCGCTGTACCGCAGCGACGCCTATGACCTCGTCGCCGAACTGACGATGGGGCCCGAGTGA	MNGAALNLDDLQSGGGPLYLKLRQTIEDAINGGRLKHGDALPPERDIAESACVSRVTVRKAVDDLVRDGLLVRRHGSGTFVVKPITRMQQPLTKLTSFTEDMRRRGMTASTRWLDRGLFHPTGDEMMALGLSQSAMVARLTRLRLANDQPIALEVTSLPGDILPDPQLVENSLYLELEKNGIRPVRAIQRISARNLTDEETLLLGVPPGSAALSVQRMAYLESGRLMEISRALYRSDAYDLVAELTMGPE				NA	NA	NA	NA	NA
BMS010_05641	1023	glmS_1	COG0449	Glutamine--fructose-6-phosphate aminotransferase [isomerizing]	ATGACAACCCTGATGCGCCAGGAAATCGATGAGATTCCCGATGCAGTCGCCCGCCTGTTGGACAATGCCAATGCCGACTTCCGCGAAGCCGGAGGCAGGCTGAAGGCCCGTGACCCGGCCGTTATCGTGACCATTGCACGCGGCTCCTCCGACCACGCTGCGCATTTTCTGAAATATGCGATCGAATTGCAGACCGGGCTTCCGGTCGCTTCGCTCGGCCCCTCGCTCGCCTCGATCTACCAGACGAAACTGCGGCTGGACCGGGCGGCCGCCTTCGCCGTCTCGCAATCTGGCAAAAGCCCTGACATCGTCGCTCTGGCGGAAAGCGCCCGCAAGGGCGGCGCGCTGACCTTCTCGCTGGTCAACACCCTGCCCTCGCCGCTCGGTGAGGCGGCCAATCACGCCATCAATATCCAGGCGGGCCCTGAAAAGGCGGTGGCCGCAACTAAATCTTTCGTCAACTCCATCGTCGCCGGCCTCGCAATCCTTGCCGAATGGACGGAAGACAGCCTGCTCGCCAAAGCCGTCAGCGCCTTGCCGCAGAATTTTGCCAAGGCCATCGGACTCGACTGGAGCCAGATCGGCGAAGCGGTCAAGGGTGAGGAATCGCTCTATATGCTGGGCCGCGGTCCGGCGCTGGCCATTGCCGCGGAAGCCGCGCTGAAATGCAAGGAAACCTGCGAACTCCACGCGGAGGCCTATTCGTCGGCGGAAGTGATGCACGGCCCCGTTTCGCTGGTCGCACCGAAATTTCCCGTCATCGCTTTTGCCGCGCGTGACCGCGCCGAAACCTCCGTGACGGATATCGCGGCCGGTCTCGCCGGTAAGGGCGCAAGTGTTTTCGTCACCTCCGCAAAAGGCAGCCCGGCCAAGCCCCTGCCGTTTGTGGAAACCAATCACCCGCTGACCGATGCCCTGTTGCTGATCGCGCCGTTTTACGGCTTCATCGAGCAATTGTCGCGCGCCCGCGGCTTCAACCCGGATGCGCCCGTGGCATTGAAGAAGGTGACGGAAACCCAATGA	MTTLMRQEIDEIPDAVARLLDNANADFREAGGRLKARDPAVIVTIARGSSDHAAHFLKYAIELQTGLPVASLGPSLASIYQTKLRLDRAAAFAVSQSGKSPDIVALAESARKGGALTFSLVNTLPSPLGEAANHAINIQAGPEKAVAATKSFVNSIVAGLAILAEWTEDSLLAKAVSALPQNFAKAIGLDWSQIGEAVKGEESLYMLGRGPALAIAAEAALKCKETCELHAEAYSSAEVMHGPVSLVAPKFPVIAFAARDRAETSVTDIAAGLAGKGASVFVTSAKGSPAKPLPFVETNHPLTDALLLIAPFYGFIEQLSRARGFNPDAPVALKKVTETQ	PGPT0017630_7009	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_METABOLISM,PGPT0017630-glmS|nodM-K00820	NA	NA
BMS010_05642	1173	agaAII	COG1820	N-acetylgalactosamine-6-phosphate deacetylase	ATGAGCAGCAGCAAGGCATTTGTCGGCGCCCGCATTTTCGATGGCGCCGCGTGGCACGATGGCAAAGCGCTCGTGACCGGTGATGGCCACATTGCCGACATTGTTGACCGCGTATCCGTGCCAGCAGACGCCGAAATCATAGACGCGGAAGGACTGTTCATTGCGCCAGGCTTCATCGACCTTCAGGTCAATGGCGGCGGCGGCGTGATGTTCAACAACGAGCCGGATGTGGAAGGCATTGCCCGCATCTGCTCGGCCCATGCGCAATTCGGTACCACAGCGCTGATGGTCACACTCATCACCGACCGGCCGGATATCACAACCAAAGCCGCCGAAGCCGGCATCGCCGCCCACAAGGCAGGGGTGCCCGGCTTTCTCGGCCTGCACTTCGAAGGGCCGCATCTTTCCGTCGCACGCAAGGGCACCCATGATCCGGCGCTGATCCGAAAGATGGAAACGGCCGACCTTGCGGTTCTGATGGGCTGCAAGGCGAAGCTTCCCTTCGTGCTGACAACCATCGCCCCGGAAAACGTAACCGAAGCGCAGGTCACAGCGCTGCACAAAGCCGGCATCGTCGTCAGCCTCGGCCATACCGATGTGGGCCTTGGCGTCGCGACGGCCTATGCCGAGGCAGGCGCATCCATGGTGACACATCTCTTCAACGCTATGAGCCCGCTCGGCCATCGCGAGCCGGGACTGGTGGGGGCGGCACTTTCGAACGGCAAGCTGGATTGCGGGCTGATCGCTGACGGCTTCCATGTCGATCCTGCAGCGATCGGCATTGCGCTTCGCGCCAAGAATAATCCCGGCCGCATTTTCCTCGTCACCGACGCCATGTCCACCATCGGCACGGATGATGACGGTTTCGAACTGAACGGCAGGCGCGTCTATCGCAACGGCGGCAGGCTGACGCTGGCCGACGGCACGCTGGCGGGAGCGGATATCGATATGCTCTCCTGCATACGCTTCATGCATGAAAAGCTGGACACACCGCTGGAAGAAGCCTTGAGAATGGCGTCCGCCTATCCCGCCGAGGCAATCGGCGCTTCCGGCAAGGGTAAGCTCCTGCCCGGCTTCGATGCGGATTTCGTCATGCTGACGCCCGACCTTCAGATGCATTCGACATGGATCGGTGCAGAAAAAATCCACGATGCCACCCGTTCCGGAGCCTGA	MSSSKAFVGARIFDGAAWHDGKALVTGDGHIADIVDRVSVPADAEIIDAEGLFIAPGFIDLQVNGGGGVMFNNEPDVEGIARICSAHAQFGTTALMVTLITDRPDITTKAAEAGIAAHKAGVPGFLGLHFEGPHLSVARKGTHDPALIRKMETADLAVLMGCKAKLPFVLTTIAPENVTEAQVTALHKAGIVVSLGHTDVGLGVATAYAEAGASMVTHLFNAMSPLGHREPGLVGAALSNGKLDCGLIADGFHVDPAAIGIALRAKNNPGRIFLVTDAMSTIGTDDDGFELNGRRVYRNGGRLTLADGTLAGADIDMLSCIRFMHEKLDTPLEEALRMASAYPAEAIGASGKGKLLPGFDADFVMLTPDLQMHSTWIGAEKIHDATRSGA	PGPT0018860_1277	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0018860-nagA-K01443	NA	NA
BMS010_05643	927	nagK_2	COG1940	N-acetyl-D-glucosamine kinase	ATGATCGTTTGTTTCGATATAGGCGGAACGACCATCAAGGGCGCTATTGCCTACGCTCCCGACGATATTCGGCCCGTGCCGCGCATCCCGACGCCCAAGACCAGTTTCGAAGACTTCGCCGCCGGCCTGAAATCCGTCATCGACAATAGCGGCGGCACACCCGCCTGCGTGTCGCTGTCGATTGCGGGCGTCATCGATCCCGACACCGGCAAAGCCACTGTCGCCAATATTCAGAGCATCCATGGCAGGGTCTTGAAAGACGAGCTGGAAAAGGCGCTGAACCTTCCCGTCATCGTATCGAACGACGCGGATTGCTTCGTGATCGCCGAATCGGAAATCGGTTCCGGACGGGGTCATCGCGTGGTCTTCGGCGTCATCCTCGGAACGGGTGTCGGCGGCGGGCTGGTGATCGACGGCAAGCTCATCAACAGCGACGGCGGTTTCGCCGGCGAATGGGGACACGGGCCGGTGGCCGCGACATTGGCCGGAAATCCGCCGGTTTCGCTGCCGCGTTTCGAATGCGGTTGCGGGCTTACCGGCTGCGTCGATGCAATCGGCAGCGCCCGTGGCATGGAAAAACTACATTCGCATCTTCACCAGCAGGCAATGACCAGCGAGGATATTATCGCAGCCTGGCAGGCGGGCGATCCGAAGGCCGCAAGAACCATCGATGTCCTTATCGATATTCTCGCCTCGCCTCTGGCAATGGTGATCAACGTCACCGGCGCAACCATCGTGCCGGTCGGCGGCGGACTTTCGAATTCGAAGGCGCTTCTCGCCGCTTTGGACGAGGTGGTAAGGAGCCGCATTCTGAGGCGCTTCGACCGCCCCTTAGTCGTGCCCGCCATCTGCCGCATCGAGCCGGGGTTGATCGGATCCGCCGTTATCGGGCTGAAATATGAGAAAGAAGCCGCCGGCACTGCCTGA	MIVCFDIGGTTIKGAIAYAPDDIRPVPRIPTPKTSFEDFAAGLKSVIDNSGGTPACVSLSIAGVIDPDTGKATVANIQSIHGRVLKDELEKALNLPVIVSNDADCFVIAESEIGSGRGHRVVFGVILGTGVGGGLVIDGKLINSDGGFAGEWGHGPVAATLAGNPPVSLPRFECGCGLTGCVDAIGSARGMEKLHSHLHQQAMTSEDIIAAWQAGDPKAARTIDVLIDILASPLAMVINVTGATIVPVGGGLSNSKALLAALDEVVRSRILRRFDRPLVVPAICRIEPGLIGSAVIGLKYEKEAAGTA	PGPT0018885_302	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0018885-nagK-K00884	NA	NA
BMS010_05644	1254	oxyE		6-methylpretetramide 4-monooxygenase	ATGGAAGAAGCGACAATCGCTCCGCGAAATGACGGCGGTGCCGTTCAGCGCATCCGCACGTCCGTCGCCGTGGCCGGTGGCGGGCCGGCGGGCATGATGCTTGGCCTGCTGCTTGCGCGCAGCGGTATCGATGTCGTGGTCGTAGAGAAACACGGGGATTTTCTCCGCGATTTTCGCGGCGACACCATCCACCCTTCAACGCTTGAATTGATGGAGCAACTCGGTTTCATCGATGAGTTCCTGAGCCTGCCGCACACACGTGCACCAAGGCTGAATGCGGTTATCGGCGGCGAGCGTATCACGATAGCGGATTTTTCCCGCCTGCCGGTCCGCCACCGCTTCATTGCCTTTATGCCGCAATGGGATTTTCTCAATTTCATCGTCGGCAAGGCGGGACAATACGAAAATTTCCGATTGCTGATGAATGCGCCGGTGACCGGACTGATCGAGCGCAGCGGCCATGTCGGCGGTCTCACGGTCAGCACGCCGGAAGGCATCATCGAGATAGAGGCCGATCTGGTGGTGGGGGCGGATGGGCGCAAGTCCACCGTCCGCGAGGCGGCGGGGCTGGAAGTGCAGCGCTTCGGCATTCCGACGGAGGTGCTGTGGATGCGCCTTTCGAAACAGCCCGACGATCCGACGGAAACCATGGGGCATGCCGGCTCGCGGCAGGGTTTCGTCATGATCAACCGGGGCGATTACTGGCAATGCGGTTATGTGGTGCGAAAGGGGTTTTTCGCTGACATAAAGCTACAGGGAATTGAAGCCTTCAGGGACAGGGTTGCGGAAATCTGCCCTTTCCCACGCGAAAGGCTCGATGAGCTCAAGAGTTGGGACGATGTGCATCTCCTGACCGTCCGTATCGACCGGCTGAAGCGCTGGTGGAAACCCGGCCTGATCTGCATCGGTGATGCGGCCCACGCCATGTCCCCCGTCGGCGGTGTCGGCATTAATCTGGCCATTCAGGATGCGGTTGCGGTGGCCAATATATTGGTGCCGGTGCTCGTCTCCGGCCGGGCCATTGCCGATGATGATCTCGCCGCAATTGAAAAGCGGCGATCCTTCCCGACCAAGGCCACGCAATTTCTGCAGCGGATGATGCGTATCGGCGGCAAAAAAGGACGGGCAGATGCGGAAAAACCGAAGGGACCGCCAGCCTTTGTGCTGGCCATCATGCGGTTTCCGCTTCTTTCCCATTTGACCGGCCGGCTGGTGGGGCTGGGTTTCCGCCGGGAAAAGATCGAGACGATGTGA	MEEATIAPRNDGGAVQRIRTSVAVAGGGPAGMMLGLLLARSGIDVVVVEKHGDFLRDFRGDTIHPSTLELMEQLGFIDEFLSLPHTRAPRLNAVIGGERITIADFSRLPVRHRFIAFMPQWDFLNFIVGKAGQYENFRLLMNAPVTGLIERSGHVGGLTVSTPEGIIEIEADLVVGADGRKSTVREAAGLEVQRFGIPTEVLWMRLSKQPDDPTETMGHAGSRQGFVMINRGDYWQCGYVVRKGFFADIKLQGIEAFRDRVAEICPFPRERLDELKSWDDVHLLTVRIDRLKRWWKPGLICIGDAAHAMSPVGGVGINLAIQDAVAVANILVPVLVSGRAIADDDLAAIEKRRSFPTKATQFLQRMMRIGGKKGRADAEKPKGPPAFVLAIMRFPLLSHLTGRLVGLGFRREKIETM				NA	NA	NA	NA	NA
BMS010_05645	702			hypothetical protein	ATGCGACGTTTTCTGGTTTCCAGCGGGTGGATTTTTGCGGCAAGCCTTGTGCTGGTCCTTGTCTTCATTCCTTTTGATCCGCGTCTTTCCGAAAGCGCGCAGGCGCTGCCAGGCGGCGTAGTCTCCTTCAATCGGGCGATTACCGATTTCGGAACCTTCCGCTGGATGCTCTATTCCACTGGCCTTCTGGCGATATTGGCCTATGTCGCTGCACGGGTTTTAAAGGCGCAGACCTATAATGGACGGCTGAGGACGGCATGGCGGCTTCTTACCTATTTCTTCCTGACGATCGGAACGGCGAGCATTCTCGTCCATACGCTGAAATTCCTGATAGGACGGGCACGGCCGGAGCTTCTGCTGGAAATGGGCGCCTATAGCCTCACCCCATTTACCGGCGACAATCTCTATGAAAGTTTCCCCTCGGGCCATTCGACCGCCGCCGGGGCGTTTTTCGGCGCTTTCGCCATGTTGATGCCGCGCTTCCGCTGGGCGTTTCTCCTGCTTGCCCTTGTCATCGGTGTTTCGCGTGTCATCGTCGGCGCACATTATCCAAGCGATGTCGCCGCCGGGCTGTTGCTCGGCATGTGGACGGCCATGGCCTTCGCCTTTATCTTTGCCCGGTCCGAAATGCTGTTCCGGTTCGATGCGCAGGGCTGGCCGCAGCCGAAGAATGTAAACCTCCCGGCGGCGGATACACGATAA	MRRFLVSSGWIFAASLVLVLVFIPFDPRLSESAQALPGGVVSFNRAITDFGTFRWMLYSTGLLAILAYVAARVLKAQTYNGRLRTAWRLLTYFFLTIGTASILVHTLKFLIGRARPELLLEMGAYSLTPFTGDNLYESFPSGHSTAAGAFFGAFAMLMPRFRWAFLLLALVIGVSRVIVGAHYPSDVAAGLLLGMWTAMAFAFIFARSEMLFRFDAQGWPQPKNVNLPAADTR				NA	NA	NA	NA	NA
BMS010_05646	1194	dxr_1		1-deoxy-D-xylulose 5-phosphate reductoisomerase	ATGACGAATGCCAGTGAAATGCCACGCAAGCTGACAATATTGGGTTCGACCGGTTCGATCGGCACCAATACGCTGGATGTCGTCCGCCAACTGGGTGGCCGCGACGCGTTCGAGATCACGGCTTTGACCGGCGCGGGCAATATCGCGCTTCTGGCGGAGCAGGCGCGGGAATTCGGCGCGCGGCTGGCGGTTACCGCCGAGGACGACAAATACGAAGGGCTGAAATCGGCCCTTGCCGGCACCGGCATCGCGGTTGCGGCAGGCAGATCCGGCCTCGAAGAGGCCGCGTCGACGGATGCCGGCTGGGTGATGGCGGCGATTGCCGGAACCCCCGGCCTTGCACCTACTCTTACAGCCGCACGGCGTGGCGCAGACATAGCGCTCGCCAACAAGGAATGCCTGGTTTCGGCTGGCGATGTTTTTCTGCGCACGGTCAAACAGGGCGGCGGCAGGCTGATCCCGGTCGACAGCGAGCACAGCGCAATCTTCCAATGCCTGACGGGCGAACATAAACAGGGCGTGGAACGCATCGTGCTGACCGCATCTGGCGGCCCATTCCGCACCTGGTCGCGCGAGGAGATGGCCAATGTTACGGCGGATATCGCCCGCGCCCATCCCAACTGGTCGATGGGACTGAAGGTCTCCATCGGCAGCGCCTCCATGTTCAACAAGGGGCTGGAAATGATCGAGGCGAAATATCTCTTCGATCTCTGGCCCGATCAGGTGGAGGTGATCGTCCACCCGCAGTCGATCATCCATTCGATGGTGGGTTACACCGACGGCTCCTATATCGCCCAGCTCGGCTCTCCCGACATGCGCACCGCTATTTCTTATGCCCTCACTTATCCGCAACGCGGCAATCTGAGTGTCGAACGGCTGGATTTCGCAAAACTGGCGCGGCTCGATTTCGAAGCGCCGGATGAGGCCCGTTTCCCGGCGATCCGTCTGGCTCGCACCGCGCTGGAGCGCGGCGGTCTACAGGGCGCCGCCCTGAATGCCGCCGAAGAGACCGCCTTTCACGCTTTCGTTGCGGGCGATATCGGTTTTCTCGATATGGCCGAGATCGTCGAAACGGTCATGGACCGCATGCATGACGGCCGCTCCGCCGCCACGATTGAAGATGTCTTCGCAGCGGATGAGGAGGCCCGTCGTCACGCCCGCGAATTGATCGCCACCAAAGAAAAGGCCGCGTAA	MTNASEMPRKLTILGSTGSIGTNTLDVVRQLGGRDAFEITALTGAGNIALLAEQAREFGARLAVTAEDDKYEGLKSALAGTGIAVAAGRSGLEEAASTDAGWVMAAIAGTPGLAPTLTAARRGADIALANKECLVSAGDVFLRTVKQGGGRLIPVDSEHSAIFQCLTGEHKQGVERIVLTASGGPFRTWSREEMANVTADIARAHPNWSMGLKVSIGSASMFNKGLEMIEAKYLFDLWPDQVEVIVHPQSIIHSMVGYTDGSYIAQLGSPDMRTAISYALTYPQRGNLSVERLDFAKLARLDFEAPDEARFPAIRLARTALERGGLQGAALNAAEETAFHAFVAGDIGFLDMAEIVETVMDRMHDGRSAATIEDVFAADEEARRHARELIATKEKAA	PGPT0007585_1629	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007585-ispC|dxr-K00099	NA	NA
BMS010_05647	1218	hemA_2	COG0156	5-aminolevulinate synthase	ATGGACTTCGAGGCATTTTTCACGACGGAACTGCAAAGCCTGCATTCTGAGGGACGTTATCGCGTTTTTGCGGATATCGAGCGCCAGCAGGGCAATTTCCCACGTGCGACACGGTATAACGCCAATGGCGAGCGCAAGGATGTGACCGTCTGGTGCTCCAACGACTATCTCGGCATGGGCCAGAACCCGAAAGTCATCGAAGCCATGAAGGCCGCCATCGATCACTGTGGCGCGGGTGCGGGAGGCACCCGGAATATTTCTGGCACCAACCACTACCACGTCCTGCTCGAGCGCGAACTTGCCGATCTCCACGGCAAGGAATCGGCGCTGATTTTCACCTCGGGTTATGTCTCCAACTGGGCGACCCTCGGCACGCTCGGTCAGAAAATTCCGGGTCTGATCATTTTCTCGGATGCGCTCAACCATGCATCGATGATCGAAGGCATCCGTTATGGCCGCTGCGAGCGGGTGATCTGGAAGCACAACGATCTCGAAGACCTCGAAGCCAAGCTCAAGGCGGCGGATCCGAATGCGCCGAAGCTGATCGCCTTCGAATCCGTCTATTCGATGGATGGCGATATCGCGCCGATCAAGGAAATCTGCGATCTGGCCGACCGTTATGGCGCCATGACCTATCTCGACGAAGTTCATGCCGTTGGCATGTACGGACCGCGCGGCGGCGGCATCGCCGAGCGCGAAGGCCTGATGGATCGCCTGACGATAATCGAGGGAACGCTCGGCAAGGCCTTCGGCGTCATGGGCGGCTATATTACCGGCTCCACGGCAGTTTGCGACTTCATCCGCTCCTTCGCTTCCGGCTTCATCTTCACGACGGCCCTGCCGCCGTCGCTTGCCGCCGGTGCGATTGCGTCGATCCAGCATCTGAAGGCAAGCCCCTTCGAGCGCGCCCGCCATCAGGACCGGGTGCGCAAGCTTCGCGGCCTTCTCGATGCGCGCGGTATTCCGCACATGGACAACCCAAGCCACATCGTGCCTGTCATGGTGGGTGATGCCGCCAAGTGCAAATGGATTTCGGATATCCTGCTCGACAGTCACGGTGTCTATGTGCAGCCGATCAACTATCCGACCGTGCCGCGCAAGACCGAGCGCCTGCGCATTACGCCGACACCGCTGCACAGCGATGCCGATATCGAGCATCTGGTCGGCGCGCTGCACCAGCTCTGGTCGCATTGTGCGCTGGCGCGGGCGGTGGCGTGA	MDFEAFFTTELQSLHSEGRYRVFADIERQQGNFPRATRYNANGERKDVTVWCSNDYLGMGQNPKVIEAMKAAIDHCGAGAGGTRNISGTNHYHVLLERELADLHGKESALIFTSGYVSNWATLGTLGQKIPGLIIFSDALNHASMIEGIRYGRCERVIWKHNDLEDLEAKLKAADPNAPKLIAFESVYSMDGDIAPIKEICDLADRYGAMTYLDEVHAVGMYGPRGGGIAEREGLMDRLTIIEGTLGKAFGVMGGYITGSTAVCDFIRSFASGFIFTTALPPSLAAGAIASIQHLKASPFERARHQDRVRKLRGLLDARGIPHMDNPSHIVPVMVGDAAKCKWISDILLDSHGVYVQPINYPTVPRKTERLRITPTPLHSDADIEHLVGALHQLWSHCALARAVA	PGPT0008455_1072	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008455-hemA2-K00643	NA	NA
BMS010_05648	252			hypothetical protein	ATGAAAAAGGCAATCATATTTGCGCTGGTCGGCCTGTCGCTCGCAAGCTGCACGCAGACCGAAAAGGGAGCTTCGATCGGCGCCGTTTCCGGTGCTGTCCTTGGCGGCGCTATCACGGGCAACGTTCGTGGCGCGGCAGTGGGTGCGGCAATCGGCGGCGTGGGCGGTGCCCTCATCGGCAATGCTTCCGAACCGGGCTATTGCTATTATCGCGACCAGTACGGTCAGCGTTACACGGCGCGTTGCCGCTAA	MKKAIIFALVGLSLASCTQTEKGASIGAVSGAVLGGAITGNVRGAAVGAAIGGVGGALIGNASEPGYCYYRDQYGQRYTARCR				NA	NA	NA	NA	NA
BMS010_05649	1926	bamA_1		Outer membrane protein assembly factor BamA	ATGCGAAGAACACGAACTAACCCGAAGACAGGTATTGCGTATCGGAAAGCTGGCACCGCGCTTGCGATTGCTGTGACGTTCGCCCTGTATCCGGTGTTTACCCGTGATGCCTTTGCCTTCAAACTGTTCGGCATGCGCCTCTGGGGTTCGGAAGAACCGGAGGTCGAGGTTATCAACCCCGTCAAATACGCCGTCACGCTCGATGCCACGGACGCCGATAGTTCCCTGAAAGACAGCCTGGAAAACAGTTCGCTTCTTCTTGCCGACAAGGACAAGCCGGCCTCCGGTGATCTTGGCCTTCTGATAAAGGCAAGAGACGACCGGGACAGGCTGATCGCGGCGCTTTATGAAAACGCCCGTTATGGCGGCATCGTCAAGGTCAGCGTTGCCGGCAAGGATGTGGATAGCCTGCCGCCCAATCCGGTGTTCGATCATTCCGCTCCGGTGCCCGTGGTCATTACGGTTACGCCCGGCCCGGTCTTCAAACTCGGCAATGTCAGGCTTGAAGGCGATGTCACCGGCCGCAACCTTGAGGAATATGGCCTGACGACCGGCGGCGACGCGGGTTCTCTCGTCATCATCCGCGCCGGCAACAAGCTGATCGATGATCTGAAGGCCGAAGGCCGTCCGCTTGCGAAGCTGACGAAACGCGAGGCCGTCGCCAACCACGCGACAAACACGGTGGACATTACCATGGCGGCCGAAGGCGGTCCCGTGGCGCCCCTCGGCACGGTGACCGTCACGGGTGAAAAAACCGTCGATGGCGATTTTATCCGCCGTTATTCGCGCCTCAATGGCGGCGAGCCCTATTCGCCGGAAAAACTGCGCAAGGCCGCCGACAGGCTGCGACAGCTCGGCGTCTTTTCCAGCCTGACCATCAAGGAAGCGGGAACGCTGGCGCGCGACGGCACCATTCCGCTTACCATCGAGGTTTCGGAAGGCAAGCACCGCTATTTCGGCGTCGGCGCGCAATATTCCACCACGGAAGGCATCGGCCTTCAGGGTTATTGGGGCCACAGGAACCTGTTCGGGCAGGCGGAATCGCTGCGTATCGAAGGTTCGGTTTCGCGCATCGCAGAGGCATCGAGCGTCGAAGGCATGGATTATTCGGCGGGTATCACTTTCACCAAGCCCGGCATGTTCAATCCGCGCACCACCTTCAAGACCAGCCTGATTGCCAAGACCGAACACCCGGATACATACGACGCCAAGACCGTGACTGGCACGGCCGGTTTCGCCTACGAGCTGAACGATACCGATACGGCCGCAGCCGGCCTCGAGGTGCAATGGGCCGATACGGAAGACGCATTCGGCAAGAACGAATATCTCACCACCTCCATCCCGCTGGAGTTCGTTCGTGATACACGCGACGACAAACTGAACCCGACAGAAGGCTTTCGCGCCTCTGTGGCCGCCAAGCCAAGCTACGAAGCACTGAACGGCACCTTCTTTTCCTCTTTCGAAGGCTCCATTTCGGGCTACAAAGGACTTGGCGCCGAGGACAGGCTGATCATGGCCGGAAAGCTTTCCGGCGGCGTGCTGGTCGGTGGCAGCGATCTGCAGGACATACCCACCACCAGGCGCTTTTATGCCGGCGGCGGCGGATCGGTACGCGGCTACAGCTATCAGGAAATATCGCCGTATAATGCCGCCGGCGATGCGACGGGCGGCCGCTCCTATGTCGTCGGTTCCGTTGAGGCCCGCATCAAGGTCACAGATACGATCGGCATCGTCCCCTTCATCGATGCGGGTGTGGTTTCGGAAGACGTGGCACCCGATTTTTCCGATATCCGGGCTGGCGCCGGTATCGGTCTGCGTTACGCGACGCCCTTCGGGCCTCTGCGTCTCGATGTCGCCATGCCGCTCGACAAATACGATGGTGGCAACAGTTTCGGCATTTATGCTGGCATCGGTCAGTCTTTTTAA	MRRTRTNPKTGIAYRKAGTALAIAVTFALYPVFTRDAFAFKLFGMRLWGSEEPEVEVINPVKYAVTLDATDADSSLKDSLENSSLLLADKDKPASGDLGLLIKARDDRDRLIAALYENARYGGIVKVSVAGKDVDSLPPNPVFDHSAPVPVVITVTPGPVFKLGNVRLEGDVTGRNLEEYGLTTGGDAGSLVIIRAGNKLIDDLKAEGRPLAKLTKREAVANHATNTVDITMAAEGGPVAPLGTVTVTGEKTVDGDFIRRYSRLNGGEPYSPEKLRKAADRLRQLGVFSSLTIKEAGTLARDGTIPLTIEVSEGKHRYFGVGAQYSTTEGIGLQGYWGHRNLFGQAESLRIEGSVSRIAEASSVEGMDYSAGITFTKPGMFNPRTTFKTSLIAKTEHPDTYDAKTVTGTAGFAYELNDTDTAAAGLEVQWADTEDAFGKNEYLTTSIPLEFVRDTRDDKLNPTEGFRASVAAKPSYEALNGTFFSSFEGSISGYKGLGAEDRLIMAGKLSGGVLVGGSDLQDIPTTRRFYAGGGGSVRGYSYQEISPYNAAGDATGGRSYVVGSVEARIKVTDTIGIVPFIDAGVVSEDVAPDFSDIRAGAGIGLRYATPFGPLRLDVAMPLDKYDGGNSFGIYAGIGQSF				NA	NA	NA	NA	NA
BMS010_05650	4161			hypothetical protein	ATGAAAACGTTGATTCGATTGCTGAAATGGCTGGGCTACGCTGCATTGTGCGGCGTGGTGCTGGTGTTGCTTGCGGTTCTGTTCGTCGGTTTTACCCCGATGGGCGCAAGAATTGCCGCAAAGCAGATTTCATCGATCGTTTCCACGCCCGATCAGGTAATCGAGATTTCTCCCCCGAGCGGCCTTTTGACCGGCCGCCTGCGGCTCGACAATGTCACGCTTTCAGACCGGCAGGGACCCTATGCCCGCGTGAACCAGATCGCCGTCGACTGGTCGCCGCTCTCGCTGCTTGCCGGCACCTTCCATGCCGACCGGGTCTCGGCCGGATCGATCGATGTCGAGCGCAAACCGCTTGCCCCGGAGCAGACATCGACCAAGAGCTCCGGCAATTCCTCACTGCCGATCGAAATCGCCGTCGACAAGTTCAGCTTTCCAGATATCAGCCTTGGCCAATCGCTTCTCGGCCGTCCATTCGACCTCAACGCGGAAGGCAACCTGACGGCTGCCCAGGACGATATGCGGCTGTCGCTCACCGCCCATCGGCTCAATGCGCCGGATGCGGAGGTTAATGCCGACATCGCCTTCCTTCCGAATGAGAATGTCCTGAAGCTGAAAGCGGAGATGAAGGAGCCCGAAGGCGGTCTTCTCGCCACGCTGCTTTCGCTTCCGGGAACGCCTGCGGTGGCGATAGACCTCAACGGCGAAGGCCCGCTTTCCAACTGGACAGGCACGCTGCGCGGCAATGTCGCCGGCAACCCTGTCGTCAACCTCACCGGCCGCCACCTTCTTGCAGATGATGGCACCCGCCGTATCGAAATTGCAGGCGGCGGCCAGCCGGACCTGCTTCTGCCCCCCGCCTTCCGTCAGCTTTTTGCTGGCGAGACAAAGCTCGACGCAAATGCAACCCTTTCGCCGCAGGGTCGCATCGAAATCGGCAGCAGCACGCTGGAGACCGGCACCCTGCTGTTGACGGCGTCAGGCACGGTCGATCCGAACGGTCAGAACGATCTCGCCGCCAATCTCATCGGCACCGCCGGCCCGGTGGATTTTCGCTGGCCGCTGGAGAATGGCGAGTTTCAGGCCCTCATCAACGGCCTTGATCTTTCCCTTAAGGGCGGTGCAGACGCCGCGCATCTCAACACGACGGTATCCTTGCGCAGCCTTTCCCTGCCGCAAGGCAGGCTCGATGACGTCAAGCTGACGGCCGAAAGCGCCGATCTCAACATCGCCAATCGCAGCGGCACGATCGCGACGGTCCTGTCCGTGGCGCAATCCTCCTTCGTCAGCCCCGATATCGACCGGCTGGTGCGGGCGCCCCTCACCATCAAGGCGCCGCTCAGCCTCACTTCGTCAGCTATCGGCTTCGACGGCGCAACGCTGGAAAGCGCCAGTGTCGGTGGGACTTTGAACGGCAGTTTCGATCTCGCCGGCAATCGCCTGACCTCCAGCGTGCAGCTCTTCGCGCTGCCCGCTACCCTTCCACCGGCCCTTGCGGAAAAGTTCGACACCACCATCGCCCTCCAGGGCGATATCGACGTGACCATCGGCGGACGCACCAGCCTTGAAAACCTCGTCGTCAAGTCGGGAACCATCGAAGCAACCGGCAATGTCGGCCTCGAAAACGATGCATTGAGCGCCAGCCTGACGGGTAAATTTCCCGCTCTTGAAAAACTGACGCCACAGGCGAAGGGCGTCGCCGATTTTGCAATCGAGGCCAGCGGCGCACTGGCAGCACCGGATTTCAACGTCACCCTGAGTTCCGAAAGCGCAATCCTTGCCGGGCGAACACTTGAATCGCTGAAGGTCAATGCAACGGGCAAGGCCGATCCCGCCGCGCCTCAGGCAAAGCTCACCGCCAGCGGCAGTCTCGACCGACAGAAGATCGACGCCAATGCCGATGTGGTGCAGACCGAAAACGGCACGGCCATCCCAGAGCTGCATGTGGCCGTAGGCCGGAACATCCTGAACGGGCAGCTGCAATTCTCGCAGCAATTCCTGCCATCGGGCAATCTCTCCTTCAATTTCCCCGACCTCGCCCTGCTCGCGGCCCTCGCCGCGCAGCAGGCGGATGGCGATATTTCCGGCGATATCGCCCTGAGCAACGCCAATGGCCGAATTGCCGCGACGATCAAGGCCAATGGCAATAGCATCCGCCAGGGCACGACAACGATCTCGAAACTCGCCGCCGATATTTCCATCGACGATCTTCAGGCTCTCGCCATCAATGGCAAGGTCAGCGCCGATAGCGTCAATGCCGGCGCCGCCGCGATATCGGGCCTGAATGCCACCATCGGCCATTCAGGCACGACGACGCAGTTCGACGTCAATGGCCGTTACGACAATGCGCCGCTGGTGGTAAAAGGCAGCGCTGAGACCGGCGGATTGCCGATGACAGTGCGCGTCGACGCCTTTTCCGCCGCCCCCAAGGGCATTGCGGTTCGCCTTGAAAAACCGAGCACCATCGCCATCCAGAACGGCACGGCCCGTATCTCAGATCTGACCATCGTCACAGGTGAAGGGCGCGTTGAGGTCAACGGCAGCGCCGGATCGACGCTCGACATCAATGCCGATATCCGTTCGCTGCCCGCCAGTCTCGCAAATGCCTTCGCCACCGGACTGGATGCGGCAGGCAGCATCTCCGGCACGGTGAGCGCCAGGGGTGCGGCATCGAACCCCGCGGTCGATTACAATCTGAACTGGACCAATGCCGAGGTCGCGCAGACACGCGCGGCAGGCCTCGCCGCGCTCGGCATCAAGGCGAACGGCCGCTTTGCGGGCGGCACCTTGCAGATCGACACCAATGTATCCGGCCAGGGCGGCATGTCGCTGTCCGGCGGCGGCTCGCTCGGCATCGCCGGCAATCGTCCGCTTTCCATGGCGTTTTCCGGCAGACTGCCCTTCTCCGCCGTCGCGGCGCAAACCGCATCGCAGGGCCTCGATGTGGACGGCACCGCCGCCATCGATGTGAAGATTTCCGGCAGCGCTTCCGCACCTGTCGTTACCGGCAGCATCACCACCGATGGTACGCGCCTGACCGATGTGCGCCGGAACCTGACCATCAACGACCTGGGCGCCACCATCACCTTCGACCGTGACCGTGCCGTCATTTCGCGACTGACGGGCAAGCTGGCGGGCGGCGGAACGATCTCGGGAACCGGCAGCGTCGGCATAGCCGGTGGTTCTGGTTTCCCCGCCGATATATCGATCACGCTCAATCGCGCCGGTTATAATGACGGCACGCTGGTGACCACGGTGGTGAGCGGCACGCTGACGTTGAAGGGCCCGCTGCTGAATTCCCCCCTGCTGGGCGGCAACCTGACGCTGGACAGAAGCGCCATCACAATTCCGGAAAAGCTTCCGGCCTCGCTGACGGAAATCGATGTCAAGCACAAGAACGCCCCCCCAAAGGTGCGCGCGCAGGCCAAGGCGCTCGGGGCTGATCAGGGCGGCAGCGGCAGCTCGTCCACCATCAATCTCGATCTGCAGGTGAACGCACCGAGCGGCATCTTCGTACGCGGACGCGGCATCGATGCGGAACTCACGGGCAATCTGACGATCCGTGGCACGGCAGCCGTTCCCGTCATTTCCGGCGGCTTCGAAATGCGCCGTGGCCGGCTCGAAATCCTCACTCGCCGCCTCGATTTCACCACCGGCAATATCAGTTTCGGCGGCGGCCTCGTTCCGGTCCTCGATATGAAGGCGGACTCGACGGTCGGCTCGACGACCATCACGGTGGCCGTTTCCGGCAACGCCAACGATCCGACCTTTGCCTTCTCCTCGGCACCCGCCCTGCCACAGGATGAGGTGATGGCGCAGCTGATCTTCGGCCAGTCCATGTCGAAACTCTCGGCTCTGCAAATCGCAAGGCTGGCCGATGCCGCCGCCCAGTTGGCCGGCGGGCGTTCCACCTCGCTGTTCGACAAGCTCAGAAGCAATCTCGGCGTCGACGATCTCGATATTTCGACCGATTCCGAAGGACAGGCCCGTGTTTCCGCCGGTAAATATCTGAACGAAAGAACCTATCTCGAGCTGCAGCAAAGCGGCGAGTCCGGCGCAAAAGCCATCATCAACCTCGATGTCGGGCGGGGTGTGAAGCTACGCGGGGAAGCCGGTGGCGATGGCGAAGGCGCAGCCGGCATATTTTACGAGAAGGAATATTAG	MKTLIRLLKWLGYAALCGVVLVLLAVLFVGFTPMGARIAAKQISSIVSTPDQVIEISPPSGLLTGRLRLDNVTLSDRQGPYARVNQIAVDWSPLSLLAGTFHADRVSAGSIDVERKPLAPEQTSTKSSGNSSLPIEIAVDKFSFPDISLGQSLLGRPFDLNAEGNLTAAQDDMRLSLTAHRLNAPDAEVNADIAFLPNENVLKLKAEMKEPEGGLLATLLSLPGTPAVAIDLNGEGPLSNWTGTLRGNVAGNPVVNLTGRHLLADDGTRRIEIAGGGQPDLLLPPAFRQLFAGETKLDANATLSPQGRIEIGSSTLETGTLLLTASGTVDPNGQNDLAANLIGTAGPVDFRWPLENGEFQALINGLDLSLKGGADAAHLNTTVSLRSLSLPQGRLDDVKLTAESADLNIANRSGTIATVLSVAQSSFVSPDIDRLVRAPLTIKAPLSLTSSAIGFDGATLESASVGGTLNGSFDLAGNRLTSSVQLFALPATLPPALAEKFDTTIALQGDIDVTIGGRTSLENLVVKSGTIEATGNVGLENDALSASLTGKFPALEKLTPQAKGVADFAIEASGALAAPDFNVTLSSESAILAGRTLESLKVNATGKADPAAPQAKLTASGSLDRQKIDANADVVQTENGTAIPELHVAVGRNILNGQLQFSQQFLPSGNLSFNFPDLALLAALAAQQADGDISGDIALSNANGRIAATIKANGNSIRQGTTTISKLAADISIDDLQALAINGKVSADSVNAGAAAISGLNATIGHSGTTTQFDVNGRYDNAPLVVKGSAETGGLPMTVRVDAFSAAPKGIAVRLEKPSTIAIQNGTARISDLTIVTGEGRVEVNGSAGSTLDINADIRSLPASLANAFATGLDAAGSISGTVSARGAASNPAVDYNLNWTNAEVAQTRAAGLAALGIKANGRFAGGTLQIDTNVSGQGGMSLSGGGSLGIAGNRPLSMAFSGRLPFSAVAAQTASQGLDVDGTAAIDVKISGSASAPVVTGSITTDGTRLTDVRRNLTINDLGATITFDRDRAVISRLTGKLAGGGTISGTGSVGIAGGSGFPADISITLNRAGYNDGTLVTTVVSGTLTLKGPLLNSPLLGGNLTLDRSAITIPEKLPASLTEIDVKHKNAPPKVRAQAKALGADQGGSGSSSTINLDLQVNAPSGIFVRGRGIDAELTGNLTIRGTAAVPVISGGFEMRRGRLEILTRRLDFTTGNISFGGGLVPVLDMKADSTVGSTTITVAVSGNANDPTFAFSSAPALPQDEVMAQLIFGQSMSKLSALQIARLADAAAQLAGGRSTSLFDKLRSNLGVDDLDISTDSEGQARVSAGKYLNERTYLELQQSGESGAKAIINLDVGRGVKLRGEAGGDGEGAAGIFYEKEY				NA	NA	NA	NA	NA
BMS010_05651	477	cheW_3	COG0835	Chemotaxis protein CheW	ATGGCAATGATTAACTCTACCAATTTTGGCGGTGAGACGCTCGAAATCATCGCGTTCCGCCTGCATGATCAGGAATTCTGCGTGAAGACGACGACCATCCGCGAAATTCGCGGCTGGGCGCCTTCTACGCCCATTCCCCACGCACCGAAAGACGTCATCGGCGTCATGAACCTGCGCGGCTCTGTTATTCCGATCATCGATCTGGCTCACAAGCTCGGCATGAAGAGCACTGTCGCCAATGAGAGAAGCGCCATCGTGGTGGCGGAAGTGCACAACATGGTCATCGGCATGCTCGTCGACCGCGTTTCCGACATTCTGACGATCCCGGCAAACCAGGTTCAGCCGGTTCCGGAAATCTCGGCTTCCTTCGACAAGTCCTATTCGGAAGGCATCATCGCCAACGAACACGGCATGATCTGCTTCCTCAACCTTGCGAAAATGTTCAAGGGAACCGAAGCGGAAGATCTCGCGGCCTAA	MAMINSTNFGGETLEIIAFRLHDQEFCVKTTTIREIRGWAPSTPIPHAPKDVIGVMNLRGSVIPIIDLAHKLGMKSTVANERSAIVVAEVHNMVIGMLVDRVSDILTIPANQVQPVPEISASFDKSYSEGIIANEHGMICFLNLAKMFKGTEAEDLAA	PGPT0015680_3627	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015680-cheW-K03408	NA	NA
BMS010_05652	1770	bdlA	COG0840	Biofilm dispersion protein BdlA	ATGCTGGGGTTAGGGAAAAGCGCAGATAACAGAAATATACTCGATGCCATATCGAGATCGCAGGCGGTCATAGAATTCGATCTCAAGGGTAATATCCTCACCGCGAATAAAAATTTCTGCACGGCGCTGGGTTATGATCTCACCGAGATCGTCGGCAAGCACCATCGCATCTTCTGCGACAGCGAGCTTGCCGCGTCGCGGGCCTATCAGGAATTCTGGGAGTCTCTCGCCCATGGCGAGTTCCAGGCCAGGGAATATCGCCGTATCCGCAAGGACGGCTCGGTCATCTGGATCGAGGCCTCTTACAACCCGGTTTTCCGTTCCGGCAAACCCTATAAGGTCGTGAAGATCGCCACCGACATCACCGCCAAGAAAATCAGGGCCCTGGACGATGCGGGCAAGCTGGAGGCGCTCTCCCGTTCGCAGGCCACCATCGAGTTTTTCCCGGATGGCACCATCATCACCGCCAACCCGAATTTCTGCGCCACGGTGAATTACGACCTCAAGGAAATCGAAGGCAGGCATCACCGCATGTTCTGCGATCCGGCCTATGCCGCCTCGCCTGCCTATGGCAATTTCTGGCCGCGACTGGCGGGAGGGGAATTCATCTCGGATGAATTTGTCCGCTATGGAAAGAACGGCAAGGAAATATGGATACAGGCTGCCTATAATCCGGTGCTGGACGAGGCGGGCAAGGTTGTCAAAGTGGTGAAATTCGCCACAGATGTCACGCCGCGCATGAGCGCCATCAGTGTGCTTGCCGATGCCCTGCGGGCGCTGGCCGAAGGTGATCTTGTGCAGCGCCTCGACAACAGCTTCGTGCCCAGCATGGAAAAGCTGCGCGCGGACTTCAACGAAGTCGTCGCCAAGCTGCAGGCCACCATGCAAACTATCGCCCATAATGCCTCGACAATCGCTTCGGGCTCCGGCGAAATCCGCATCGCTGCCGATCAGCTTTCGCAGCGTACCGAACAGCAGGCCGCCTCGCTGGAAGAGACAGCAGCCGCGCTGGAGGAAATCACCACCACCGTTACCGATGCCAGCCGGCGCGCCGGCGAGGCCGGAAAGCTGGTGCTGCGAACAAGAGAACATGCCGAACACTCCGGCGATATCGTCCAGCAGGCAATTTCCGCCATGGATGCGATTTCGCGGTCCTCGGGTGAAATCACCAATATCATCGGCGTCATTGACGACATCGCCTTCCAGACCAATCTTCTGGCCCTCAATGCGGGTGTCGAAGCCGCCCGGGCCGGCGAAGCGGGCAAGGGTTTCGCCGTTGTGGCGCAGGAGGTCCGCGAACTCGCACAACGGTCCGCCGTTGCGGCCAAGGAAATCAAATCCCTCATCAACACCTCCCGCGAGCAGGTCGCCAACGGTGTGGATCTGGTGGGCAGAACCGGCGGCGCGCTCCGGGATATCCAGTCGCAGATGAGCGAGATCGACACCAATGTCTCGGCGATCGTTGAAGCCTCGCGCGAGCAGGCGAATGGTCTCAGCGAAATCAATCAGGCCGTCAACGTCATGGATCAGGCCACCCAGAAAAACGCCGCCATGGTGGAGGAAACCACCGCCGCCAGCCACGGCCTCGCCACGGAAGCGGAAAATCTGCACGAATTGCTGCGGCAGTTCAGAATATCCCACGAGGCATCGCCCGCTCGCCCGGCCGACAAAAAACCGGCCGTCGTCACCCGGCTCCCGACGCCGCAACCGCGATATGCCGCCGCGCCAAGATCTCACGGAAACGCAGCAGCCGAATGGGCGGAATTCTAG	MLGLGKSADNRNILDAISRSQAVIEFDLKGNILTANKNFCTALGYDLTEIVGKHHRIFCDSELAASRAYQEFWESLAHGEFQAREYRRIRKDGSVIWIEASYNPVFRSGKPYKVVKIATDITAKKIRALDDAGKLEALSRSQATIEFFPDGTIITANPNFCATVNYDLKEIEGRHHRMFCDPAYAASPAYGNFWPRLAGGEFISDEFVRYGKNGKEIWIQAAYNPVLDEAGKVVKVVKFATDVTPRMSAISVLADALRALAEGDLVQRLDNSFVPSMEKLRADFNEVVAKLQATMQTIAHNASTIASGSGEIRIAADQLSQRTEQQAASLEETAAALEEITTTVTDASRRAGEAGKLVLRTREHAEHSGDIVQQAISAMDAISRSSGEITNIIGVIDDIAFQTNLLALNAGVEAARAGEAGKGFAVVAQEVRELAQRSAVAAKEIKSLINTSREQVANGVDLVGRTGGALRDIQSQMSEIDTNVSAIVEASREQANGLSEINQAVNVMDQATQKNAAMVEETTAASHGLATEAENLHELLRQFRISHEASPARPADKKPAVVTRLPTPQPRYAAAPRSHGNAAAEWAEF	PGPT0015710_13986	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_05653	807	fdhD_1	COG1526	Sulfur carrier protein FdhD	GTGTCGGCAAAGGCAAGTTACAGAAGGGTCGCAAGAACCGCTTTGCGCGAAGGGGCCATAGTGGAAGGCGAGAGGGCGGTGCCGGAGGAGGTGCCGGTTGCCTTTTCCTATGGCGGCAGCACCCATGCCGTGATGATGGCCAGCCCCGCTGATCTTGTCGATTTCGCGGTCGGTTTCAGTCTTACGGAAGGCATCATATCCACAAGGGCGGAAATCCGTTCCATCGAGGTAATCGAGGCCGGACAGGGCTTCGATGTTCAGGTGGATTTGCAGGATGCCAATGCGGATGCGCTGAGGGCAAGACGGCGGCATATGGCAGGCCCCGTCGGCTGCGGTCTTTGTGGCATTGAATCCATAGAACAGGCGGTCCGCGTGGTACCGGAGTTGAGCGGCGTGGAAGTCTCCGTTGACGGAGATGACATCGTTGCTGCGGTTAAAGCGCTGAATGAAGCGCAAAGCCTCAATCGCGAAACAAGGGCAGTTCACGGCGCGGGTTTCTACAATCCTCAAAAAGGGCTGCTTGCTGTCCGCGAAGATGTCGGCCGGCACAATGCGCTCGACAAACTCGCAGGTGCGGTTGTCAATGCGGACCTATCGCCCGATACGGGCATTGTGGTGGTCACCAGCCGCCTGTCGGTGGAAATGGTCCAGAAGACCGCCATTCTTGGCAGCCCCATTCTGGCGGCGATCTCCGCGCCCACAGCGCTCGCCATCGAAACGGCCGAGAGTTCGGGTGTCACACTTGTGGCGCTGGTGCGGGGTGAAGATTTTGAAATCTTCACCCGGGCGGATCGTATCCTTCTATAA	MSAKASYRRVARTALREGAIVEGERAVPEEVPVAFSYGGSTHAVMMASPADLVDFAVGFSLTEGIISTRAEIRSIEVIEAGQGFDVQVDLQDANADALRARRRHMAGPVGCGLCGIESIEQAVRVVPELSGVEVSVDGDDIVAAVKALNEAQSLNRETRAVHGAGFYNPQKGLLAVREDVGRHNALDKLAGAVVNADLSPDTGIVVVTSRLSVEMVQKTAILGSPILAAISAPTALAIETAESSGVTLVALVRGEDFEIFTRADRILL	PGPT0019920_9	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_PHENYLACETATE_DEGRADATION,PGPT0019920-padA-K18360	NA	NA
BMS010_05654	411	atpC_1		ATP synthase epsilon chain	ATGGCTGACAGTTTCAAATTCGATCTCGTTTCCCCGGAGCGTCTGCTCGTTTCCGAAACGGTTACGGAAGTCGTCATCCCGGCTACGCTGGGTGAAATGACCGTTCTGGCCAATCATGCGCCGACGATGACCACGATCAAGCCCGGCCTGGTAACGGTAAAGTTCGCTTCCGGCGAGACGCATAAATATGTCGTCTTCGGTGGTTTTGCCGATATTCTGCCGACCGGCTGCACGCTTCTCGCCGAATCCGCCGTTTCGGCCGATGACATGTCTCCCGACACGCTGCAGAAGCGTATCGATGCGGCCAAGGCCGAAATCGAAGAGGGCAATCATCACCACGAACATCTGACCAAGCTTGAAAAGCACCTTTACGAACTGACGAACCTGCATGAGGTTCTCGTCGCTGCTTGA	MADSFKFDLVSPERLLVSETVTEVVIPATLGEMTVLANHAPTMTTIKPGLVTVKFASGETHKYVVFGGFADILPTGCTLLAESAVSADDMSPDTLQKRIDAAKAEIEEGNHHHEHLTKLEKHLYELTNLHEVLVAA	PGPT0014295_2202	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014295-atpC-K02114	NA	NA
BMS010_05655	1455	atpD_1	COG0055	ATP synthase subunit beta	ATGGCTAAGGCAGCTACCCCCAAGAAAACCGCAGCGGTGAACGGCGCGGGCAAGGTTACCCAGGTTATCGGCGCTGTTGTCGACGTGGCGTTCGAAGGCGAACTGCCTCCGATCCTGAACGCGCTCGAAACCGAGAACAATGGCAACCGCCTCGTTCTGGAAGTCGCGCAGCATCTCGGCGAAAACGTCGTTCGCACCATCGCCATGGACTCGACCGAAGGTCTGGTTCGCGGTCAGGGCGTCGTCAACACGGGTGCACCGATCTCCGTTCCGGTTGGTCCGGAAACGCTCGGCCGTATCATGAATGTCATCGGTGAGCCGGTTGACGAAGCCGGTCCGATCGTTACCGCTTCCAAGCGCGCGATCCACCAGGACGCACCGGCCTATGTCGAGCAGTCGACGGAAGCGCAGATCCTCGTCACCGGCATCAAGGTCGTCGACCTTCTGGCTCCTTACGCCAAGGGCGGCAAGATCGGCCTGTTCGGCGGCGCCGGCGTTGGCAAGACGGTTCTCATCATGGAACTGATCAACAACGTCGCCAAGGCGCACGGCGGTTACTCGGTATTCGCCGGTGTTGGTGAGCGTACCCGTGAAGGTAACGACCTCTATCACGAAATGATCGAGTCGAACGTCAACAAGCTCGGCGGCGGCGAAGGCTCCAAGGCAGCACTGGTTTACGGCCAGATGAACGAACCGCCGGGCGCCCGCGCCCGCGTCGCTCTGACCGGTCTGACGATCGCTGAAAACTTCCGTGACGAAGGCCAGGACGTTCTGTTCTTCGTGGACAATATCTTCCGCTTCACGCAGGCTGGTTCGGAAGTGTCGGCTCTGCTTGGCCGTATTCCTTCGGCCGTGGGCTACCAGCCGACGCTCGCAACCGACATGGGCCAGATGCAGGAACGCATCACCACCACGACCAAGGGTTCGATCACCTCGGTTCAGGCCATTTACGTTCCCGCCGACGACTTGACCGACCCGGCACCTGCCACCTCGTTCGCCCACCTTGACGCAACGACGGTTCTGTCGCGTTCGATCGCTGAAAAGGGTATCTACCCGGCTGTTGACCCGCTCGACTCCACCTCGCGTATGCTTGACCCGATGATCGTCGGCGAAGAGCACTATGAAGTGGCTCGTAAGGTTCAGTCGACCCTGCAGCGCTACAAGGCTCTCCAGGACATCATCGCCATCCTCGGCATGGACGAACTGTCGGAAGAAGACAAGCTGACGGTTGCCCGCGCCCGCAAGATCGAGCGTTTCCTGTCGCAGCCGTTCTTCGTTGCTGAAGTCTTCACCGGTTCGCCGGGCAAGCTGGTCGCTCTCGAAGACACGATCAAGGGCTTCAAGGGCCTGGTCAACGGCGAGTATGACAACCTGCCGGAAGCTGCTTTCTACATGGTCGGTTCGATGGAAGAAGCCATCGAAAAGGCAAAGAAGCTGGCTGCCGAGGCTGCCTGA	MAKAATPKKTAAVNGAGKVTQVIGAVVDVAFEGELPPILNALETENNGNRLVLEVAQHLGENVVRTIAMDSTEGLVRGQGVVNTGAPISVPVGPETLGRIMNVIGEPVDEAGPIVTASKRAIHQDAPAYVEQSTEAQILVTGIKVVDLLAPYAKGGKIGLFGGAGVGKTVLIMELINNVAKAHGGYSVFAGVGERTREGNDLYHEMIESNVNKLGGGEGSKAALVYGQMNEPPGARARVALTGLTIAENFRDEGQDVLFFVDNIFRFTQAGSEVSALLGRIPSAVGYQPTLATDMGQMQERITTTTKGSITSVQAIYVPADDLTDPAPATSFAHLDATTVLSRSIAEKGIYPAVDPLDSTSRMLDPMIVGEEHYEVARKVQSTLQRYKALQDIIAILGMDELSEEDKLTVARARKIERFLSQPFFVAEVFTGSPGKLVALEDTIKGFKGLVNGEYDNLPEAAFYMVGSMEEAIEKAKKLAAEAA	PGPT0014296_1095	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014296-atpD-K02112	NA	NA
BMS010_05656	879	atpG_1	COG0224	ATP synthase gamma chain	ATGCCTTCACTAAAGGATCTGAAAAACCGCATTGCCTCCGTAAAGGCGACGCAGAAGATTACCAAGGCGATGAAAATGGTCGCCGCGGCGAAGCTTCGGCGCGCCCAGGAAGCTGCGGAGGCCGCCCGGCCTTATTCTCAGCGCATGAGCGCCGTTCTCGCCAACATCGCCAAGGCGGTCGAGGCGGACGTTGCTCCGGCGCTGATGACCGGCACCGGCAAGGACGACGTGCACCTGCTCGTCGTCTGCACGGCTGAACGTGGCCTTTGCGGCGGTTTCAACTCGCAGATTTCCCGTTTTGCCCGCGATCACGCCCGCAAGCTGATTTCGGAAGGCAAGACGGTCAAGATCATCACGGTTGGCAAGAAGGGTTACGACAGCCTTCGCCGCGAATTTGCAGCCAACATCATCGAGCGCATCGAACTGCGCGACGTGAAGAAGGTCGGCTTTGAAAACGCCGACCAGATCGCCAAGAAGGTGATCTCGCTCTTCAACGCCGGTGAGTTCGATGTCTGCACGCTGATCTACTCGGAATTCAAGTCCGTCATCAGCCAGATCCCGACCGGCCTGCAGCTCATTCCGGCCGCAACGCCTGTTGTGGAAGAGGATGCCGCGACGCAGAACGCCGTCTACGAATATGAGCCGGATGCGGCTTCTATTCTGGAAGACCTTATTCCGCGCAACATTTCGGTTCAGGTTTTCCGGGCTCTGCTCGAAAACGTTGCCGGTGAAATGGGCGCCAAGATGAGCGCGATGGACAATGCAACGCGCAATGCCGGTGAGATGATCAACAAGCTGACGCTGTCCTACAACCGTCAGCGTCAGGCTCAGATCACCAAGGAACTCATTGAAATCATTTCGGGCGCGGAAGCGCTCTGA	MPSLKDLKNRIASVKATQKITKAMKMVAAAKLRRAQEAAEAARPYSQRMSAVLANIAKAVEADVAPALMTGTGKDDVHLLVVCTAERGLCGGFNSQISRFARDHARKLISEGKTVKIITVGKKGYDSLRREFAANIIERIELRDVKKVGFENADQIAKKVISLFNAGEFDVCTLIYSEFKSVISQIPTGLQLIPAATPVVEEDAATQNAVYEYEPDAASILEDLIPRNISVQVFRALLENVAGEMGAKMSAMDNATRNAGEMINKLTLSYNRQRQAQITKELIEIISGAEAL	PGPT0014297_2325	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014297-atpG-K02115	NA	NA
BMS010_05657	1530	atpA_1	COG0056	ATP synthase subunit alpha	ATGGATATCCGCGCCGCGGAAATTTCCGCAATTCTGAAAGATCAAATCAAAAATTTCGGCAACGAGGCGGAAGTCTCGGAAGTCGGTCAGGTGCTTTCCGTCGGTGACGGTATCGCCCGCGTCTATGGCCTCGACAATGTTCAGGCCGGCGAAATGGTCGAGTTTCCCGGCGGCATTCGCGGCATGGCGCTCAACCTCGAAGCCGACAACGTCGGTGTGGTTATCTTCGGTTCGGACCGTGACATCAAGGAAGGCGACACCGTAAAGCGGACTGGCGCTATCGTTGACGTACCGGTCGGTCCGGAACTGCTCGGCCGCGTCGTTGACGCGCTCGGCAACCCGATCGACGGCAAGGGCCCGATCAATGCCGCCAAGCGTTCGCGCGTTGACGTCAAGGCTCCCGGCATCATTCCGCGCAAGTCGGTTCATGAGCCGATGTCGACCGGCCTCAAGGCCATCGATGCGCTCATCCCGGTTGGCCGCGGCCAGCGCGAGCTGGTCATCGGCGACCGCCAGACCGGCAAGACCGCCATCATTCTAGATACGATCCTGAACCAGAAGGCCATTCACGACAATGGCCCGGATGGCGACAAGCTTTATTGCGTCTACGTCGCTATCGGTCAGAAGCGTTCGACCGTCGCCCAGTTCGTGAAGGTTCTGGAAGAGCGCGGTGCACTGCAGTACTCGATCATCGTTGCGGCCACCGCTTCCGATCCGGCTCCGATGCAGTACCTCGCTCCGTTCGCCGGCTGCGCCATGGGTGAGTACTTCCGTGACAACGGCAAGCACGCTCTCATCGGCTACGACGACCTTTCCAAGCAGGCCGTTGCCTATCGTCAGATGTCGCTTCTGCTGCGCCGTCCTCCGGGCCGCGAAGCTTATCCGGGCGACGTTTTCTACCTCCATTCCCGTCTTCTCGAGCGCGCTGCAAAGCTCTCCGACGAAATGGGCGCCGGTTCGCTGACGGCTCTGCCGGTTATCGAAACGCAGGGTAACGACGTTTCGGCCTTTATTCCGACCAACGTGATCTCGATCACCGACGGCCAGATCTTCCTTGAAACCGACCTGTTCTATCAGGGTATCCGCCCGGCCGTTAACGTCGGTCTGTCGGTTTCGCGCGTTGGCTCCGCCGCCCAGATCAAGGCGATGAAGCAGGTTGCCGGCTCGATCAAGGGTGAACTCGCCCAGTACCGCGAAATGGCCGCCTTCGCCCAGTTCGGTTCGGACCTCGACGCTTCCACGCAGCGCCTGCTCAACCGCGGCGCCCGCCTGACCGAGCTTCTGAAGCAGCCGCAGTTCTCTCCGCTCAAGACGGAAGAGCAGGTTGCGGTGATCTTCGCCGGTGTCAACGGCTACCTCGACAAGGTTCCGGTCGCACAGGTCGGCAAGTTCGAGCAGGGTCTGCTTTCCTACCTCCGCTCGGAAGGCAAGGCGATCCTCGACACCATCCGCACGGAAAAGGCTATCAGCGACGATACCAAGGGCAAGCTCAAGGGCGCTCTTGATAGCTTCGCCAAGTCTTTCTCGTAA	MDIRAAEISAILKDQIKNFGNEAEVSEVGQVLSVGDGIARVYGLDNVQAGEMVEFPGGIRGMALNLEADNVGVVIFGSDRDIKEGDTVKRTGAIVDVPVGPELLGRVVDALGNPIDGKGPINAAKRSRVDVKAPGIIPRKSVHEPMSTGLKAIDALIPVGRGQRELVIGDRQTGKTAIILDTILNQKAIHDNGPDGDKLYCVYVAIGQKRSTVAQFVKVLEERGALQYSIIVAATASDPAPMQYLAPFAGCAMGEYFRDNGKHALIGYDDLSKQAVAYRQMSLLLRRPPGREAYPGDVFYLHSRLLERAAKLSDEMGAGSLTALPVIETQGNDVSAFIPTNVISITDGQIFLETDLFYQGIRPAVNVGLSVSRVGSAAQIKAMKQVAGSIKGELAQYREMAAFAQFGSDLDASTQRLLNRGARLTELLKQPQFSPLKTEEQVAVIFAGVNGYLDKVPVAQVGKFEQGLLSYLRSEGKAILDTIRTEKAISDDTKGKLKGALDSFAKSFS	PGPT0014298_3143	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014298-atpA-K02111	NA	NA
BMS010_05658	567	atpH_1	COG0712	ATP synthase subunit delta	GTGCCCGTGGCAGACACCTCCCATGGAACATCCGGTGTAGCGGAAAGGTATGCGTCGTCGCTTTTCGAGCTTGCTTTGGAAGCGGGTGCGGTCGAAGCGGTTCAGGCCGATCTGGATAAGTTCGGCGCACTTCTCGACGAAAGCGACGATTTGAAGCGTCTGGTTGCGAGCCCGGTGTTTTCCGCCGAGGATCAGTTCAAGGCAATCACCGCGATCTGCGAAAAGGCCGGCATTGCCGGTCTCGCGCTCAATTTCCTCAAGGTCGTTGCGAATAACCGCCGTCTCTTTGCCGTTCCCGGTATGATCCGCGCCTACCGCACCATTGCCGCTGCCCACCGCGGCGAAATCACCGCCGAGGTTACCTCGGCACATGCGCTCGACGAGGCGCAGGAAACTGAACTGAAGGCGGCGCTGAAGAGCGTTACCGGCAAGGATGTGGCGGTTTCCGTTACCGTCGATCCGTCGATCCTCGGCGGCCTGATCGTCAAGGTCGGCTCTCGCCAGATCGATACGTCTCTTCGCACCAAACTTTCCACCCTTAAGCTTGCACTGAAAGAGGTTGGCTGA	MPVADTSHGTSGVAERYASSLFELALEAGAVEAVQADLDKFGALLDESDDLKRLVASPVFSAEDQFKAITAICEKAGIAGLALNFLKVVANNRRLFAVPGMIRAYRTIAAAHRGEITAEVTSAHALDEAQETELKAALKSVTGKDVAVSVTVDPSILGGLIVKVGSRQIDTSLRTKLSTLKLALKEVG	PGPT0014299_1247	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014299-atpH-K02113	NA	NA
BMS010_05659	387			hypothetical protein	ATGGAGTTTTATTTTCCCGCCGAGTTCGGCGAGCAGCTGGCCTTCGGAGCGGCGGTGGTTTCGGCCGTGATGGGCCTTTTTTTCATGTTTGCGCCGGGTATTACGCTGCGTGTCTTCGGTCTGCAGCCGGCGGGTGAGCGCAGGGATGGTTATGCACTCGTGCGCTCGTCGCTTGCCGGGTTCTATCTCGGTCTTGGCGCCGCCGCCCTGCTTCTCGCGCAGCCCATGGTCTATCTCGCCTTTGGTGCGGCCTTCGGCCTCAGTGTCTTTGGCGGCATTCTCTCCATACTCTCCGATGGTGGCGCAACCATGCGGAATTTCTTACTTCTGGTTGTACACTTTCTGCTCGCTGCCCTGTCGTTGAGCTACGTGTTCGGGCTGGTCTGA	MEFYFPAEFGEQLAFGAAVVSAVMGLFFMFAPGITLRVFGLQPAGERRDGYALVRSSLAGFYLGLGAAALLLAQPMVYLAFGAAFGLSVFGGILSILSDGGATMRNFLLLVVHFLLAALSLSYVFGLV				NA	NA	NA	NA	NA
BMS010_05660	2217	priA_2	COG1198	Primosomal protein N'	ATGGCAAAAGATTCGTCCGATCTGTTTGGGGCTCTGTTCGACCCGCCGTCGCCCACGCGCACGGTGCCCGTTCTCGTGCCCATGCCGGCGCCCGGGCCCTACAGCTATTCGGTGCCCGAGGACATGGTGGTGGAGACCGGTTCGGTTGTGCAGGTGCCGCTTGGCCCCCGGCAGGTCTTCGGCGTGGTGTGGGACGATGCCGGAGAAAAGAGCGTCGATCCGAAGAAGCTGCGGCCCATCACCAAAAGTTTCGAGTGCCCGCCGCTGAAGGCGGAAATGCGCCGCTTTGTGGACTGGGTCGCCGCCTATACGCTTTCTCCGCCCGGCCTCGTGGCCCGCATGGCGCTCAGAGCCCCCGCGGCCTTCGATCCCGAACCGATGATCGAGGGGCTGCGGCTGACCGAAGGCCGGCCTGAGCGCCTGACCCCCGCCCGCGAGCGGGTGATGGAACTGGCGGCTGAAGGGCATGGCTGGACGAAGAGCGGGCTTGCCCATGCCGCCGGCGTTTCGACCAGCGTGATCGATGGTCTCGTCAAGCAGGGCGTGTTCGAGACGGTGTTTCTGCCGGCGCCGCCTGTCGTGGCCGAACCCGATCCTGATTATGTCGAGCCGCGTCTGGAAGGCCCGCAGAAACAGGCCGCTTCGGAGATACTCGAGGATGTGCGCAAGGGTGGCTTTCATGTTTCGCTGATCGACGGCGTCACAGGTTCTGGGAAAACAGAGGTCTATTTTGAGGCGGTGGCCGAGACGCTCCGGCAGGGCAAGCAGGTTCTCATCCTGCTGCCCGAAATTGCGCTGACGGCGGCCTTTCTTGAGCGTTTTCAGGACCGTTTCGGTGCGAAACCGGCGGAATGGCATTCGGACCTGTCGCCGCGCATGCGCGAAAAAGTCTGGCGGCAGGCGGTGACGGGCGAAGTGAAGGTGGTGGCCGGCGCGCGCTCGGCGCTTTTCCTGCCCTTCGACAATCTCGGTCTCATCATCGTCGATGAAGAGCACGACCCCGCCTACAAGCAGGAAGACCGTGTCTATTACAATGCCCGCGACATGGCCGTCGTCAGGGCGCGGATTGCAGAATTTCCTGTCGTGCTGGTTTCGGCCACGCCTTCGGTGGAAAGCCAGGTTAATGGCAGCTCGGGGCGTTACAACACTATTCACCTGCATACGCGGTTCGGCGATGCGGCAATGCCTGACCTGCATCTTGTCGATATGCGGCGTCATCCGCCGGAGAGGGGAGGGTTTCTGTCACCCGTCCTGCTGCGCGGCATTGGCAAGACCATCGAAAAGGGTGAGCAGGCGCTGCTGTTCCTCAATCGTCGCGGTTATGCGCCGCTGACGCTCTGCCGGGTCTGCGGCCACCGTTTCCAATGCCCGCAATGTTCCAGCTGGCTGGTGGAGCACCGGTTCCGCAATCAATTGCAGTGCCACCAGTGCGGCCACAACGAGCCGACGCCCGATCATTGCCCGGAATGCGGCACCTTCGATCATTTGGTGGCCTGCGGGCCGGGTGTGGAGCGCATTGCCGAGGAGGTGGAGAAACATTTCCCTGAGGCCCGCACCATCGTGCTCTCCTCCGATCTCATGGGAGTCAAACGCCTGCGGCTGGAACTGGAGGCGATCGTCAAGGGCGAGGCCGATATCGTGATCGGCACGCAGCTCGTCGCCAAGGGACATAATTTTCCGCTGATGACACTTGTGGGCATCGTCGATGCCGATCTCGGCCTTGCCAATGGCGATCCGCGCGCTGCGGAGCGAACGTTCCAGCTGCTGTCGCAGGTGACCGGACGTGCCGGGCGAACGGGGTTGAAGAGCCATGGCCTGTTGCAGACCTATCAGCCGCAGCATCCCGTCATGCAGGCCATCGTTTCGGGCGATGCATCGGCCTTCTACGAAAGGGAAATCGTGGAGCGGGAAAAAGCCGTTCTGCCGCCCTTCGGACGGCTTGCCTCGATCATCGTTTCGGCCGATACGCGCGGGGAAGCGGAAACCCATGCCCGGGGTTTAAGGGCCGCAGCCCCCCAGGTTGCCGGCATCATGCTGCTCGGCCCGGCGGAAGCGCCGCTCGCGCTCATCCGTGGCCGTCACCGTTTCCGCCTGCTGGTGCACGGGCGGCGCAATTCCGACATGCAGTCTTTTCTCCGCACGCTTCTGGCCAATGGCCCGAAAGAGCGCGGCAGCGTGCATGTGCAGCTGGATATCGACCCGCAAAGTTTCCTTTGA	MAKDSSDLFGALFDPPSPTRTVPVLVPMPAPGPYSYSVPEDMVVETGSVVQVPLGPRQVFGVVWDDAGEKSVDPKKLRPITKSFECPPLKAEMRRFVDWVAAYTLSPPGLVARMALRAPAAFDPEPMIEGLRLTEGRPERLTPARERVMELAAEGHGWTKSGLAHAAGVSTSVIDGLVKQGVFETVFLPAPPVVAEPDPDYVEPRLEGPQKQAASEILEDVRKGGFHVSLIDGVTGSGKTEVYFEAVAETLRQGKQVLILLPEIALTAAFLERFQDRFGAKPAEWHSDLSPRMREKVWRQAVTGEVKVVAGARSALFLPFDNLGLIIVDEEHDPAYKQEDRVYYNARDMAVVRARIAEFPVVLVSATPSVESQVNGSSGRYNTIHLHTRFGDAAMPDLHLVDMRRHPPERGGFLSPVLLRGIGKTIEKGEQALLFLNRRGYAPLTLCRVCGHRFQCPQCSSWLVEHRFRNQLQCHQCGHNEPTPDHCPECGTFDHLVACGPGVERIAEEVEKHFPEARTIVLSSDLMGVKRLRLELEAIVKGEADIVIGTQLVAKGHNFPLMTLVGIVDADLGLANGDPRAAERTFQLLSQVTGRAGRTGLKSHGLLQTYQPQHPVMQAIVSGDASAFYEREIVEREKAVLPPFGRLASIIVSADTRGEAETHARGLRAAAPQVAGIMLLGPAEAPLALIRGRHRFRLLVHGRRNSDMQSFLRTLLANGPKERGSVHVQLDIDPQSFL				NA	NA	NA	NA	NA
BMS010_05661	936	xerC_6	COG4973	Tyrosine recombinase XerC	GTGACCGAAATCCTGACATTTGCCCAAGCCGATCTTCTCGATGAGCGCCAGTCCTGGCTCTCCGCCCTCGCGGGCGAACGCCGGCTTTCGGACAATACTGTCGAGGCCTATGAACGCGATACCCGGCAATTTCTGACATTCCTGACAGGATATATCGGCAAACCGGCCTCCATCACCGATATTGCCGATCTGCGTCCGGTCGATCTTCGCGCCTTTCTGGCCAACCGGCGCAAGGAAGGCGCCGGCGCACGTTCGCTGGGCCGGCATCTGGCAGGCCTGCGCTCCCTGCTCCACCACCTGCAGAAAAAAGGTCTGGTGAATGCCGCAGGCGCCACCGCCATGCGCGCGCCCAAACAGCCGAAATCGCTACCGAAACCGCTGACCGACCGGCAGGCGCTGAAAATCACCACGAGTGAAGCGCAATTGAACGACGAACCATGGATCGCAGCCCGCAATGCCGCGGTTCTTTCACTGCTTTATGGTTGCGGCCTTCGCATTTCCGAGGCGCTCGGTCTTACCCCGGCCGATTTCCCGCCCGGCGCCCGCAGCCTGCGCATTACCGGCAAAGGCAACAAGACGCGGATTGTGCCCCTGCTGGCGGTGGTGACGGAAGCCGTCGATACCTACAGGAAGCTTTGCCCCTATGCCCTGTCGGCGGATGAGCCCATGTTCCTCGGCGCACGCGGCGGAAAGCTGCAGCCCGCCATCATCCAGAGGGAAATGCAGAAACTGCGCGGCGCTTTCGGCCTGCCGGAAAACGCCACGCCGCATGCGCTGCGCCACTCCTTCGCCACGCACCTTCTTGCCGGCGGCGGCGACCTGCGCACGATTCAGGAACTGCTCGGCCATGCGAGCCTCTCCACCACACAGGTCTATACCGGCGTCGACACCGCGAGACTGCTGGAAATCTACGACAACGCCCATCCGCGCGCATGA	MTEILTFAQADLLDERQSWLSALAGERRLSDNTVEAYERDTRQFLTFLTGYIGKPASITDIADLRPVDLRAFLANRRKEGAGARSLGRHLAGLRSLLHHLQKKGLVNAAGATAMRAPKQPKSLPKPLTDRQALKITTSEAQLNDEPWIAARNAAVLSLLYGCGLRISEALGLTPADFPPGARSLRITGKGNKTRIVPLLAVVTEAVDTYRKLCPYALSADEPMFLGARGGKLQPAIIQREMQKLRGAFGLPENATPHALRHSFATHLLAGGGDLRTIQELLGHASLSTTQVYTGVDTARLLEIYDNAHPRA	PGPT0021995_1407	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0021995-xerC-K03733	NA	NA
BMS010_05662	1098			hypothetical protein	ATGCACAGCCTGATAAAACCGCAAAACCTCACCGCCACCCTGATGGGCAAGACCGGCGACGCCCTGCTGTGGCTGCTTGCCGCCCTGCATGTCACCGCCGTCGCAATCCTGCTCATGACCTTGCTTTCGCTGGGGCAAGCGGAAGCCGCGCAGCAGCAGATCACCTGCACCGGCAGCGACATTCTCGTGGAGATGCGCAAGACCGATCCGCAAGCCTTCGCAAAGATCGAGCAGGAAGCGGCCGCGATCCCGAACGGCAAGGGCAATTTCTGGCGCATCGAAAAGGCGGGAACGCCCACGTCCTATCTTCTCGGCACCATGCATGTCACCGATCCGCGTGTTCTGGAAATGCCTGCCGCCGCCAGCCCCGCCTTTGAAAAAGCCGCGACGGTGATCGTGGAATCGGATGAAATCGTCGATGACAAGAAGGTCGCGGCGTCGCTGCTGAGCAAGCCCGAACTCACCATGTTTCTGGATGGCAAATCGATCACCGACATCCTGTCGCCGGAAAATGTCGCGCGTCTGGAAAAGGGCCTCAAGGAGCGCGGCATTCCGCTGAACGCCGTATCGCGCATGAAGCCATGGATGCTTTCGAGCTTCGTCGCCCTTCCCGCCTGTGAGTTCGCCCGCAAGGCAACAGGCCTCTCCTTTCTGGACAAGAAGCTGGCCGAAGATGCCATTGCTGACGGAAAACACCTTGTCGGGCTGGAGACAATGGTGGAACAGCTGACGGCCATGTCGGAGCTGCCGATGGAATTTCATCTTCAGGCGCTGATCGAAACGCTCGAACTGGGCGACCGCATGGATGACATCATGACAACCATGACCGATCTCTACGTCGCTGGCGATATCGGCATGACGATGCCCATGCTGAAAAGCATGGACCCCAAGAAGGCCGCAGCGGAAAGCGAACAGGGCTACGCCGCCTTCGAGCAGCGTATCATCACCGACCGCAACCACGTCATGGCGGAACGTGCGGCCCCCGAGCTTGCCAGGGGCAATGTCTTCATGGCCGTCGGTGCACTGCATCTGCCGGGCGAGGAAGGCCTTGTCGAATTGCTGCGCGCGGAAGGCTTCACCCTCACGCGGGTCGATTGA	MHSLIKPQNLTATLMGKTGDALLWLLAALHVTAVAILLMTLLSLGQAEAAQQQITCTGSDILVEMRKTDPQAFAKIEQEAAAIPNGKGNFWRIEKAGTPTSYLLGTMHVTDPRVLEMPAAASPAFEKAATVIVESDEIVDDKKVAASLLSKPELTMFLDGKSITDILSPENVARLEKGLKERGIPLNAVSRMKPWMLSSFVALPACEFARKATGLSFLDKKLAEDAIADGKHLVGLETMVEQLTAMSELPMEFHLQALIETLELGDRMDDIMTTMTDLYVAGDIGMTMPMLKSMDPKKAAAESEQGYAAFEQRIITDRNHVMAERAAPELARGNVFMAVGALHLPGEEGLVELLRAEGFTLTRVD				NA	NA	NA	NA	NA
BMS010_05663	351			hypothetical protein	ATGGCGCTTCGAAACCGCGTGGTGGCGCTTTTCGGTTTAAGAACGGTCGAAATGGTGGCTGGGACGTCGGCGGGTGGTTTTCCAGTCCTGTCCTCCACGCCACAGCGGACTGTGCTCGGCTTCGACGACCGCCATCTCGATTTCCGGATCGTCGTCGATCTCGAAGAGAAGGAAAACAGCCAGCTGGTGAGTGTCACCACCATTGTCAGGCGCAAGAACCTGTTTGGGCGGATCTATCTTCTTGTCGTCGGACCGTTTCACCGCCGCATCGTGCCAGCGACGATGCGGCCGTTCTGCGCCAATGTCCGGCCCGTCAGCATCGGGAGTGAGCCGGTCAATCGACCCGCGTGA	MALRNRVVALFGLRTVEMVAGTSAGGFPVLSSTPQRTVLGFDDRHLDFRIVVDLEEKENSQLVSVTTIVRRKNLFGRIYLLVVGPFHRRIVPATMRPFCANVRPVSIGSEPVNRPA				NA	NA	NA	NA	NA
BMS010_05664	501			hypothetical protein	ATGGCGTTTCCAAGTCAAGTTTCCTTCACCGTTCCGCAACGCGTCATCCATTGGGCGATGGCGCTTCTGATCTTCTTCAACCTGTTGTTTCCCGATGGGATGGAACATGCCTACCGGCTGATGCGGCGGGGCGAAACACTGACGCCGGAACAGGTATCTTCGGCCAATATTCACGTCTATGTCGGCTTCACCATTCTGTTGCTTGCGGTGCTGCGCCTCTGTCTGCGCTTCTTCCAGGGCGTGCCGCCGCATCCCGCCGAAGAACCGCGACCGTTTCAGATTGCGGCGAAGGTGGCGCATTTCACCTTTTATGCCCTGTTCCTCGTCCTGCCCCTGTCCGGTATTGCCGCTTATTACTTCGGCGCTCAGCCGGCCGGGCAGTTGCATTCCGGACCCTTCAAGGCGCTGATGTGGGTGTTGATCGCCGGTCACGTCGTCGCTGTTCTGGTTCACCAGTTCTACTGGCGCACCAATGTCCTGAAGCGCATGACGCACGGCTAA	MAFPSQVSFTVPQRVIHWAMALLIFFNLLFPDGMEHAYRLMRRGETLTPEQVSSANIHVYVGFTILLLAVLRLCLRFFQGVPPHPAEEPRPFQIAAKVAHFTFYALFLVLPLSGIAAYYFGAQPAGQLHSGPFKALMWVLIAGHVVAVLVHQFYWRTNVLKRMTHG				NA	NA	NA	NA	NA
BMS010_05665	1407	lpd3	COG1249	Dihydrolipoyl dehydrogenase 3	ATGGCATATGATGTAGTTGTAATCGGCACAGGCCCCGGCGGTTATGTTTGCGCGGTCAAGGCGGCACAGCTCGGCCTGAAGGTCGCTGTCATCGAAAAGCGCGCGACCTATGGCGGTACCTGCCTCAATGTCGGCTGCATCCCTTCGAAGGCGCTGCTGCACGCGTCCGAAACCTTCGCGCATGTCGCCCATGGTGTCGATTCGCTCGGTATCGAAGTCGCCGCGCCGAAGCTTAATCTTGAAAAGATGATGGGCCATAAGGACGGCGTGGTGAAGGCCAATGTCGACGGCGTTTCCTTCCTGTTCAAGAAGAACAAGATCGATGCCTTCCAGGGCACCGGCAAGGTGGTTTCCGCCGGCAAGGTTTCCGTCACCAACGACAAGGGTGAGACACAGGAGATCGAAGCGAAGAACATCGTCATCGCCACCGGTTCGGATGTTGCCGGCATTCCGGGCGTTCAGGTCGATATCGATGAAAGCGTCATCGTGTCCTCCACCGGTGCGATTGCTCTTTCCAAAGTTCCGGAAAAGCTCATCGTTGTCGGCGGCGGCGTCATCGGCCTCGAGCTCGGTTCGGTCTGGTCGCGTCTCGGCGCCAAGGTTACCGTCGTCGAATATCTCGACAATATTCTCGGCGGCATGGATGGTGAAGTTTCCAAGCAGGCTCAGCGCCTGCTGGCCAAACAGGGTCTCGATTTCAAGCTCGGCGCCAAGGTGACGGCCGTTGAAAAGACCGCCGCCGGTGCAAAGGTGGTGTTCGAGCCGGTCAAGGGCGGCGCTGCCGAAACGCTGGAAGCGAATGTCGTGCTGATCTCCACCGGCCGCAAGCCCTATACCGAAGGTCTTGGCCTTGCGGAAGCAGGCGTTGTGCTGGACAGCCGCGGCCGCGTTGAAATCGACGGTCACTACAAGACCAATGTCGACGGCATCTATGCGATAGGCGACGTGGTGAAGGGCCCGATGCTGGCGCACAAGGCGGAAGATGAGGGCGTTGCTCTCGCGGAAATCCTCGCCGGTCAGCGCGGCCACGTGAACTACGACGTCATTCCGGCCGTGGTCTATACGCAGCCGGAAGTGGCTTCCGTCGGCAAGACCGAGGAAGAACTGAAGGCCGCTGGCGTCGCCTACAAGGTTGGCAAGTTCCCCTTCACCGCCAATGGCCGCGCGCGCGCCATGCAGGTGACGGATGGTTTCGTGAAGATCCTCGCCGACAAGGAAACCGACCGGGTTCTCGGCGGCCACATCGTCGGCTTCGGCGCTGGCGAAATGATCCACGAAATCACCGTACTGATGGAATTCGGCGGTTCTTCGGAAGATCTGGGCCGTACCTGCCATGCGCACCCGACCATGTCGGAAGCCGTGAAGGAAGCGGCGCTGGCGACCTTCTTCAAGCCGATCCACATGTGA	MAYDVVVIGTGPGGYVCAVKAAQLGLKVAVIEKRATYGGTCLNVGCIPSKALLHASETFAHVAHGVDSLGIEVAAPKLNLEKMMGHKDGVVKANVDGVSFLFKKNKIDAFQGTGKVVSAGKVSVTNDKGETQEIEAKNIVIATGSDVAGIPGVQVDIDESVIVSSTGAIALSKVPEKLIVVGGGVIGLELGSVWSRLGAKVTVVEYLDNILGGMDGEVSKQAQRLLAKQGLDFKLGAKVTAVEKTAAGAKVVFEPVKGGAAETLEANVVLISTGRKPYTEGLGLAEAGVVLDSRGRVEIDGHYKTNVDGIYAIGDVVKGPMLAHKAEDEGVALAEILAGQRGHVNYDVIPAVVYTQPEVASVGKTEEELKAAGVAYKVGKFPFTANGRARAMQVTDGFVKILADKETDRVLGGHIVGFGAGEMIHEITVLMEFGGSSEDLGRTCHAHPTMSEAVKEAALATFFKPIHM	PGPT0001380_5420	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0001380-lpd|pdhD-K00382	NA	NA
BMS010_05666	642	rhtC_2	COG1280	Threonine efflux protein	ATGCATCAATATCTCATCGAACTTGCATCCCTGATGGCGATCTTCTCCTTTGCGATCGTCTCGCCCGGCGCCGATCTCGCTATGGTGATGCGCCAGGCAATGGTGCATGGTCGCAAGCAGGCCATCATCACCAGCTTCGGGGTTGGGACGTCTCTGATGTTCCACGTCACCTATACGATCCTCGGACTTGGCCTCATCATTTCTCAGTCGATCTATATCTTCAACATCGTCAAATGGCTGGGCGTCGCCTATCTGATTTATATCGGCATCAAGGCGCTGCGCGCCGGCAAGACCGAATTGCCCGCCGCTGAAGCTGAGGGCGTTCAGGCGAAAAGCAGCCAGACCGCGCTTAAGGCCTTTACGCTCGGTTTTGCCGCCAATGCACTCAATCCCAAGCCGGTGTTTTTCTTCCTGTCGATCTTTTCGACGGTGGTTCACGCTCACACGCCGGTCGCCATCAAGTTCGGATACGGTCTCGTCATGGCGAGCTGCCTTATCCTGTGGTTCGTCGGTGTCAGCCTGTTCATGACGACGCCGCGCATGCGCGCCGCATTTCAGCGCGCCAGCCAATGGATCGACCGCACCAGCGGTGTGGTCTTCATCGCTCTCGGTATAAAACTCGCAACGGAAAAAGCGGCCTGA	MHQYLIELASLMAIFSFAIVSPGADLAMVMRQAMVHGRKQAIITSFGVGTSLMFHVTYTILGLGLIISQSIYIFNIVKWLGVAYLIYIGIKALRAGKTELPAAEAEGVQAKSSQTALKAFTLGFAANALNPKPVFFFLSIFSTVVHAHTPVAIKFGYGLVMASCLILWFVGVSLFMTTPRMRAAFQRASQWIDRTSGVVFIALGIKLATEKAA				NA	NA	NA	NA	NA
BMS010_05667	321			hypothetical protein	ATGGCGACCAGAGAGTTGGGTCGTGAATGGAATGCCGGTCCTAGGGACGGTGAGCAGAAGCCACAGGGCAAGCTCTCCGGTCGCGCTTCGCGCGCATCGGCGAATTTCCGGGAGACCTATCCGGCTTTTGTGGCACTCGCCTTCGGCGTTATCATGGCGGGTGACCCATCCGGGCTAGCGCTTATTGGTGCCTGGCTCTGGCTGATCTGCCGTGTTGTCTATATCCCGCTTTATCTTACGGGCGTTCCTTATATCCGCTCGTTCGTCTGGCTGGGCTCAATGCTTGGTCTGGCACTCATGTTTATCGTGCTGATGTTTTGA	MATRELGREWNAGPRDGEQKPQGKLSGRASRASANFRETYPAFVALAFGVIMAGDPSGLALIGAWLWLICRVVYIPLYLTGVPYIRSFVWLGSMLGLALMFIVLMF				NA	NA	NA	NA	NA
BMS010_05668	1233	sucB_2	COG0508	Dihydrolipoyllysine-residue succinyltransferase component of 2-oxoglutarate dehydrogenase complex	ATGGCCACTGAAATCCGCGTACCAACCCTCGGCGAATCCGTCAGCGAAGCGACCGTCGGCACCTGGTTCAAGAAGGTCGGCGACACCGTCAAGGCCGACGAACCTCTCGTTGAACTGGAAACCGACAAGGTTACCGTCGAAGTCCCGGCGCCTGCGTCCGGCGTTCTCACCGAAATCGTTGCGCAGAACGGCGAAACCGTCGGTCTCGACGCGCTTCTCGGCCAGATCGCCGAAGGTGCTGCCGGCGCTGCGACCTCCGCACCTGCCGCAGAACCGGCAAAGCCTGCTGCGGCTGCCGCACCGGCACCTGCCGCCGTTGCCGCACCGGCAACCGGCTCCATGCCGCCTGCACCTGCCGCCGGCAAGCTGCTTGCTGAAAACAACCTGTCCGCCGATCAGGTCGACGGTTCGGGCAAGCGCGGTCAGGTTCTGAAGGGTGATGTTCTTGCCGCTGTCGCCAAGGGCGTTTCGGCACAGGTTGCCGCTCCCGCTCCGGCCGCTGCACCCCGTCCGGTTTCCGCCGAGCAGGATGCCGTTCGCGAAGAGCGCGTGAAGATGACCCGCCTTCGTCAGACGATCGCCCGTCGTCTGAAGGACGCGCAGAACACCGCCGCCATGCTGACCACCTATAACGAGGTGGACATGAGCGCGGTCATGGACCTGCGCAACCGTTACAAGGATGTGTTCGAGAAGAAGCATGGCGTCAAGCTCGGCTTCATGGGCTTCTTCACCAAGGCTGTTACCCACGCGCTGAAGGAACTGCCCGCCGTCAACGCGGAAATCGACGGAACGGACATCATCTACAAGAACTATTGTCACGTCGGCATGGCTGTCGGCACCGACAAGGGCCTCGTCGTTCCGGTTATCCGCGATGCCGACCAGCTCTCCATCGCCGGTGTCGAAAAGGAACTCGGCCGCCTCGCCAAGGCGGCGCGTGACGGTTCGCTCGGCATGGCCGACATGCAGGGCGGCACCTTCACCATCACCAATGGCGGTGTCTACGGTTCGCTGATGTCCTCGCCGATCCTCAATGCACCGCAGTCGGGCATTCTCGGCATGCACAAGATCCAGGAGCGTCCGGTCGCCATCGGCGGTCAGGTCGTCATCCGTCCGATGATGTATCTTGCGCTCTCCTACGATCACCGTATCGTTGACGGCAAGGAAGCCGTGACCTTCCTCGTTCGCGTCAAGGAAAGCCTCGAGGATCCGGAACGTCTGGTTCTCGATCTTTAA	MATEIRVPTLGESVSEATVGTWFKKVGDTVKADEPLVELETDKVTVEVPAPASGVLTEIVAQNGETVGLDALLGQIAEGAAGAATSAPAAEPAKPAAAAAPAPAAVAAPATGSMPPAPAAGKLLAENNLSADQVDGSGKRGQVLKGDVLAAVAKGVSAQVAAPAPAAAPRPVSAEQDAVREERVKMTRLRQTIARRLKDAQNTAAMLTTYNEVDMSAVMDLRNRYKDVFEKKHGVKLGFMGFFTKAVTHALKELPAVNAEIDGTDIIYKNYCHVGMAVGTDKGLVVPVIRDADQLSIAGVEKELGRLAKAARDGSLGMADMQGGTFTITNGGVYGSLMSSPILNAPQSGILGMHKIQERPVAIGGQVVIRPMMYLALSYDHRIVDGKEAVTFLVRVKESLEDPERLVLDL	PGPT0001535_2523	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001535-sucB-K00658	NA	NA
BMS010_05669	2997	sucA_2	COG0567	2-oxoglutarate dehydrogenase E1 component	ATGGCAAGGCAAGAAGCGAACGAGCAGTTTCAGATCACGTCGTTTCTGGACGGCGCGAATGCAGCCTATATCGAGCAGCTCTATGCCCGGTACGAAGAGGACCCCTCTTCCGTGTCGCCGGAGTGGCAGAGCTTCTTCAAGGCGTTGTCCGATAATCCGGAAGACGTGAAGAAGGCGGCCAAGGGCGCCTCCTGGAAGCGCGCCAACTGGCCGATCCCGGCGAATGGCGAACTGGTATCCGCACTCGACGGCAACTGGGCCACGGTCGAAAAGGCCATCGAGAAGAAGGTTCAGGCGAAAGCTGAGGCCAAGAGCGCTGACACCGGCAAGCCGGTCAGCCAGGCGGAAGTTCTGCAGGCGACCCGTGACAGCGTTCGCGCCATCATGATGATCCGCGCCTACCGCATGCGCGGCCACCTGCATGCCAAGCTCGATCCGCTCGGCATCGCGGTCGCGGTTGAGGATTACAACGAGCTGTCGCCGAAGTCCTACGGCTTCGAGGAAAGCGACTACGACCGCAAGATTTTCATCGATAACGTGCTCGGCCTCGAATATGCGACCGTGCGCGAGATGATCGATATTCTGGAGCGCACCTACTGCTCTACCATCGGCGTCGAATTCATGCACATGTCCAGTCCGGAAGAAAAAGGCTGGATTCAGGAGCGCATCGAAGGTCCGGACAAGGGCGTTGCCTTCACGGCTGAAGGCAAGAAGGCCATTCTGTCCAAGCTGGTCGAAGCCGAAGGTTACGAGCAGTTCCTCGACGTGCGTTTCAAGGGCACCAAGCGTTTCGGCCTCGATGGCGGTGAATCGCTGATCCCGGCGCTGGAGCAGATCATCAAGCGTGGCGGCCAGGAAGGTCTGGAAGAAGTCGTTCTCGGCATGGCTCACCGCGGTCGCCTGAACGTTCTGACCAACGTGATGGGCAAGCCGCATCGCGCCGTGTTCCACGAGTTCAAGGGCGGTTCGTTCAAGCCTGACGATGTCGAAGGTTCGGGCGACGTGAAGTACCACCTCGGTGCCTCCTCCGACCGCGAATTCGACGGCAACAAGGTTCACCTGTCGCTGACGGCCAACCCGTCGCACCTTGAAATCGTCAACCCTGTCGTCATGGGCAAGGCCCGCGCCAAGCAGGACCAGCTGGCCAAGCAGTGGGACGGCGATATCATTCCGCTTTCCGAGCGCGCCAAGGTTCTGCCGCTGCTTCTGCACGGCGATGCCGCTTTTGCCGGTCAGGGCGTGGTTGCTGAAATTCTCGGTCTTTCCGGTCTGCGCGGCCACCGCGTTGCCGGCACCATGCACTTCATCATCAACAACCAGATCGGCTTCACGACGAACCCTGCCTTCTCGCGTTCGTCGCCCTATCCATCCGACGTTGCCAAGATGATCGAAGCGCCGATCTTCCACGTCAACGGTGACGATCCGGAAGCTGTGACCTATGCGGCCAAGGTTGCGACCGAATACCGTATGAAGTTCCACAAGCCCGTCGTCGTGGACATGTTCTGCTACCGCCGCTTCGGCCACAACGAAGGCGATGAGCCGGCGTTCACGCAGCCGAAGATGTACAAGGTCATCCGCGGCCACAAGACCGTGGCGCGCATCTACGCTGACCGTTTGATCGCCGAAGGCCTGATCAACGAAGGCGAATTTGAGAAGATGAAGGCCGACTGGCGCGCTCATCTCGAGCAGGAGTTCGAGGCAGGCCAGTCCTACAAGCCGAACAAGGCCGACTGGCTGGACGGCCAGTGGTCGGGTCTGCGCGCTGCCGACAATGCCGATGAGCAGCGTCGCGGCAAGACCGGCGTGCCGATGAAGCAGCTGAAGGAGATCGGCAAGAAGCTGTCGACCATTCCGGAAGGCTTCAGCGCCCACCGCACGATCCAGCGCTTCATGGAAAACCGCTCGCAGATGGTCGAGACGGGCGAAGGCATCGACTGGGCAATGGCGGAAGCGCTTGCGTTCGGTTCGCTCGTCGTTGACGGCCACAAGATCCGCCTTTCTGGTCAGGATTGCGAACGCGGCACCTTCTCGCAGCGTCACTCGGTTCTCTATGATCAGGAAACCGAAGAACGCTACATCCCGCTGGCAAACCTTGCGCCGACGCAGGCTCGTTACGAAGTCATCAACTCGATGCTTTCGGAAGAGGCCGTTCTCGGTTTCGAATACGGTTACTCGCTCGCCCGTCCGAATGCGCTGACGCTCTGGGAAGCCCAGTTCGGCGACTTCGCGAACGGTGCTCAGGTCGTGTTCGACCAGTTCATCTCGTCGGGTGAACGCAAGTGGCTGCGCATGTCCGGTCTCGTCTGCCTTCTGCCACATGGCTACGAAGGTCAGGGTCCAGAACACTCGTCCGCCCGTCTGGAGCGCTGGCTGCAGATGTGCGCCGAAGACAACATGCAGGTTGCCAACTGCACGACCCCGGCCAACTACTTCCACATCCTGCGCCGCCAGGTGAAGCGCGACTTCCGCAAGCCGCTGATCCTGATGACGCCGAAGTCGCTGCTGCGTCACAAGCGCGCCACCTCTTCGCTGGCCGAGCTTGCAGGCGAGTCCTCCTTCCACCGTCTCCTGTGGGACGATGCCGAGGTCATCAAGGACGGCCCGATCAAGCTGCAGAAGGATTCGAAGATCCGCCGCGTCGTCATGTGCACGGGCAAGGTCTATTACGATCTGCTCGAAGAGCGTGAAAAGCGCGGTATCGACGATATCTACCTGCTGCGTATCGAACAGCTTTACCCGTTCCCGGCCAAGGCGCTCATCAACGAGCTGTCGCGCTTCCGCAATGCGGAAATGGTCTGGTGCCAGGAAGAGCCGAAGAACATGGGTGCGTGGTCGTTCATCGATCCTTACCTGGAATGGGTTCTGGCGCATATCGACGCCAAGTACCAGAAGGTCCGTTACACGGGCCGTCCGGCTGCCGCCTCTCCGGCGACCGGCCTGATGTCCAAGCACCTGGCGCAGCTTGCTGCGTTCCTGGAAGACGCGCTGGGAGAGTGA	MARQEANEQFQITSFLDGANAAYIEQLYARYEEDPSSVSPEWQSFFKALSDNPEDVKKAAKGASWKRANWPIPANGELVSALDGNWATVEKAIEKKVQAKAEAKSADTGKPVSQAEVLQATRDSVRAIMMIRAYRMRGHLHAKLDPLGIAVAVEDYNELSPKSYGFEESDYDRKIFIDNVLGLEYATVREMIDILERTYCSTIGVEFMHMSSPEEKGWIQERIEGPDKGVAFTAEGKKAILSKLVEAEGYEQFLDVRFKGTKRFGLDGGESLIPALEQIIKRGGQEGLEEVVLGMAHRGRLNVLTNVMGKPHRAVFHEFKGGSFKPDDVEGSGDVKYHLGASSDREFDGNKVHLSLTANPSHLEIVNPVVMGKARAKQDQLAKQWDGDIIPLSERAKVLPLLLHGDAAFAGQGVVAEILGLSGLRGHRVAGTMHFIINNQIGFTTNPAFSRSSPYPSDVAKMIEAPIFHVNGDDPEAVTYAAKVATEYRMKFHKPVVVDMFCYRRFGHNEGDEPAFTQPKMYKVIRGHKTVARIYADRLIAEGLINEGEFEKMKADWRAHLEQEFEAGQSYKPNKADWLDGQWSGLRAADNADEQRRGKTGVPMKQLKEIGKKLSTIPEGFSAHRTIQRFMENRSQMVETGEGIDWAMAEALAFGSLVVDGHKIRLSGQDCERGTFSQRHSVLYDQETEERYIPLANLAPTQARYEVINSMLSEEAVLGFEYGYSLARPNALTLWEAQFGDFANGAQVVFDQFISSGERKWLRMSGLVCLLPHGYEGQGPEHSSARLERWLQMCAEDNMQVANCTTPANYFHILRRQVKRDFRKPLILMTPKSLLRHKRATSSLAELAGESSFHRLLWDDAEVIKDGPIKLQKDSKIRRVVMCTGKVYYDLLEEREKRGIDDIYLLRIEQLYPFPAKALINELSRFRNAEMVWCQEEPKNMGAWSFIDPYLEWVLAHIDAKYQKVRYTGRPAAASPATGLMSKHLAQLAAFLEDALGE	PGPT0001530_874	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001530-sucA-K00164	NA	NA
BMS010_05670	903	sucD_2	COG0074	Succinate--CoA ligase [ADP-forming] subunit alpha	ATGTCTATTCTTGTTAATAAAGACACGAAGATCCTCGTTCAGGGTCTGACCGGCAAGACCGGCACCTTCCACACCGAACAGGCGCTTGCCTATTACGGCACGCAGATGGTTGGCGGTATTCACCCGAAGAAGGGTGGCGAAACCTGGACCGGTTCCAAGGGTGAGAGCCTGCCGATCTTCGCAACGGTTGCCGAAGCCAAGGAAAAGACCGGTGCAGACGCATCCGTAATCTACGTTCCGCCGGCAGGTGCAGCAGATGCCATCATCGAAGCCATCGATGCGGAAATTCCGTTCATCACCTGCATCACCGAAGGTATCCCGGTCATGGACATGGTTCGCGTCAAGGCTCGCCTCGACCGCTCCAAGTCGCGCCTGCTCGGCCCGAACTGCCCGGGTATCCTGACGCCGGAAGAATGCAAGATCGGCATCATGCCGGGCTCCATCTTCCGCAAGGGTTCCGTCGGTATCGTTTCGCGTTCGGGCACGCTCACCTATGAGGCCGTGTTCCAGACCTCCAACGAAGGCCTCGGCCAGACCACTGCTGTCGGTATCGGCGGCGACCCGGTCAAGGGCACCGAGTTCATCGACGTGCTGGAAATGTTCCTCGCCGACGACGCCACGCAGTCGATCATCATGATCGGCGAAATCGGCGGATCGGCTGAAGAAGATGCGGCACAGTTCCTGATCGACGAAGCCAAGAAGGGCCGCAAGAAGCCGATGGCCGGCTTCATCGCGGGCCGTACGGCTCCGAAGGGTCGCACCATGGGTCACGCCGGCGCTGTCGTTTCCGGCGGCAAGGGTGACGCGGAATCCAAGATTGCGGCAATGGAAGCAGCCGGTATCAAGGTATCGCCCTCTCCGGCGCGCCTCGGCAAGACGCTGGTTGAAGTCCTCAAGGGCTGA	MSILVNKDTKILVQGLTGKTGTFHTEQALAYYGTQMVGGIHPKKGGETWTGSKGESLPIFATVAEAKEKTGADASVIYVPPAGAADAIIEAIDAEIPFITCITEGIPVMDMVRVKARLDRSKSRLLGPNCPGILTPEECKIGIMPGSIFRKGSVGIVSRSGTLTYEAVFQTSNEGLGQTTAVGIGGDPVKGTEFIDVLEMFLADDATQSIIMIGEIGGSAEEDAAQFLIDEAKKGRKKPMAGFIAGRTAPKGRTMGHAGAVVSGGKGDAESKIAAMEAAGIKVSPSPARLGKTLVEVLKG	PGPT0001540_520	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001540-sucD-K01902	NA	NA
BMS010_05671	1194	sucC_2	COG0045	Succinate--CoA ligase [ADP-forming] subunit beta	ATGAATATTCACGAATATCAGGCCAAGGCTCTTCTGAAGGGCTACGGCGCGCCGGTTGCTGAAGGCGTCGCCATTCTCAAGGTCGAAGAAGCCGAAGCTGCTGCCAAGCAGCTTCCCGGCCCGCTCTACGTCGTCAAGAGCCAGATCCATGCTGGCGGCCGCGGCAAGGGCAAGTTCAAGGAACTCGGCCCCGACGCCAAGGGTGGCGTTCGTCTGGCGAAGTCCATCGACGAAGTCGTTTCCCACGCCAAGGACATGCTCGGTAACACGCTGGTAACGGCCCAGACGGGCGATGCCGGCAAGCAGGTTAACCGCCTCTACATCGAAGACGGCGCGGACATTGCCCGCGAACTCTATTGCTCGCTGCTGGTGGACCGTTCGGTCGGTCAGGTTGCTTTCGTGGTTTCCACTGAAGGCGGCATGGATATCGAAGCTGTCGCCCACGACACGCCCGAAAAGATCCATACCATCGCCATCAACCCGGAAAAGGGTGTGAGCGACGCTGACGTTGCCGCGATCTCCAAGGCGCTTGAGCTTGACGGCGTTGCAGCCGAAGACGCCAAGTCGCTCTTCCCGATCCTCTACAAGGCCTTCAGCGAGAAAGACATGGCTCTCCTCGAGATCAACCCGCTGATCGTCATGGAAAATGGCCATCTGCGCGTTCTCGACGCCAAGGTTTCCTTCGACGGCAACGCCATGTTCCGCCATGACGACGTCAAGGCGCTGCGCGACGAGACCGAAGAAGACGCCAAGGAAATCGAAGCCTCCAAGTGGGACCTCGCTTATGTGGCCCTCGACGGCAACATCGGTTGCATGGTCAACGGCGCCGGTCTTGCCATGGCGACCATGGACATCATCAAGCTTTACGGCAAAGAGCCGGCAAACTTCTGCGACGTCGGCGGTGGCGCTGGCAAGGAGAAGGTCGCGGCAGCTTTCAAGATCATCACTGCCGACCCGAAGGTCGAGGGCATCCTCGTCAACATCTTCGGCGGCATCATGAAGTGCGACGTCATCGCCGAGGGCGTAATCGCCGCGGTGAAGGAAGTCGGTTTGCAGGTTCCGCTCGTCGTTCGCCTTGAAGGCACCAACGTCGAACTTGGCAAGAAGCTTCTCAACGAATCTGGCCTTGCGATTACGGCTGCTGACGATCTGGACGACGCAGCCAAGAAGATCGTCGCGGCGATCAACGGCTAA	MNIHEYQAKALLKGYGAPVAEGVAILKVEEAEAAAKQLPGPLYVVKSQIHAGGRGKGKFKELGPDAKGGVRLAKSIDEVVSHAKDMLGNTLVTAQTGDAGKQVNRLYIEDGADIARELYCSLLVDRSVGQVAFVVSTEGGMDIEAVAHDTPEKIHTIAINPEKGVSDADVAAISKALELDGVAAEDAKSLFPILYKAFSEKDMALLEINPLIVMENGHLRVLDAKVSFDGNAMFRHDDVKALRDETEEDAKEIEASKWDLAYVALDGNIGCMVNGAGLAMATMDIIKLYGKEPANFCDVGGGAGKEKVAAAFKIITADPKVEGILVNIFGGIMKCDVIAEGVIAAVKEVGLQVPLVVRLEGTNVELGKKLLNESGLAITAADDLDDAAKKIVAAING	PGPT0019515_798	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0019515-sucC-K01903	NA	NA
BMS010_05672	963	mdh_2		Malate dehydrogenase	ATGGCTCGCAAAAAAATTGCACTTATTGGTTCTGGCATGATCGGCGGCACGCTGGCGCATCTCGCCAGCCTGAAGGAACTGGGCGATATCGTCCTCTTCGATATTGCCGACGGCATCCCGCAGGGCAAGGGTCTGGATATTGCCCAGTCCGGCCCGGTTGAAGGCTTCAATGCAAAGCTCACCGGCGCTTCCGATTACGCCGCCATCGAAGGTGCTGACGTCTGCATCGTCACCGCTGGCGTTGCCCGCAAGCCTGGCATGAGCCGTGACGATCTTCTCGGCATCAACCTCAAGGTCATGGAGCAGGTCGGCGCCGGCATCAAGAAATATGCCCCGAACGCTTTCGTCATCTGCATCACCAACCCGCTCGACGCGATGGTCTGGGCACTGCAGAAGTTCTCCGGCCTGCCGAAGAACAAGGTCGTCGGCATGGCCGGCGTTCTCGACAGCGCGCGTTTCCGCCTCTTCCTCGCCGAAGAATTCAACGTTTCGGTCGAAGACGTCACCGCTTTCGTTCTAGGCGGTCATGGCGACACCATGGTGCCGCTCGCCCGTTACTCCACCGTTGCCGGCGTTCCGCTGACCGATCTCGTCAAGATGGGCTGGCTGACCGCCGAGCGCCTCGAGCAGATCATCCAGCGCACCCGTGACGGCGGTGCGGAAATCGTCGGCCTCTTGAAGACCGGTTCGGCCTATTACGCGCCGGCCGCTTCGGCAATCGAAATGGCTGAATCCTACCTCAAGGACAAGAAGCGCGTTCTGCCCGCCGCTGCCCACCTCTCGGGCCAGTATGGCGTTGACGACATGTATGTCGGCGTACCGACCATCATCGGTGCAGGCGGTATCGAGCGCATCATCGAGATCGAACTCAATAAGGAAGAAGAAGCCGCCTTCCAGAAGTCCGTCGGCGCTGTCGCTGGTCTCTGCGAAGCCTGCATCAACATCGCTCCGTCGCTGAAGTAA	MARKKIALIGSGMIGGTLAHLASLKELGDIVLFDIADGIPQGKGLDIAQSGPVEGFNAKLTGASDYAAIEGADVCIVTAGVARKPGMSRDDLLGINLKVMEQVGAGIKKYAPNAFVICITNPLDAMVWALQKFSGLPKNKVVGMAGVLDSARFRLFLAEEFNVSVEDVTAFVLGGHGDTMVPLARYSTVAGVPLTDLVKMGWLTAERLEQIIQRTRDGGAEIVGLLKTGSAYYAPAASAIEMAESYLKDKKRVLPAAAHLSGQYGVDDMYVGVPTIIGAGGIERIIEIELNKEEEAAFQKSVGAVAGLCEACINIAPSLK	PGPT0001435_1623	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001435-mdh-K00024	NA	NA
BMS010_05673	1164	zapE_2	COG1485	Cell division protein ZapE	ATGAAGCCATTGCCCGATTACAATCATAGTGTCGTTGAACAGCTCAACGCATTGACGGCAGCTGGCACCTTGCAGGCCGATGCCGCCCAGCTTGGCGTGGCGGCGCATCTGGACCGTATCCTTGCCGATCTGAAGGCACGCAAGCCCGCCAAGAAGAAGAGCGCGCTTGGTTGGATGTTTGCGCGCAAGTCCGGACCTGCCGCCGCCGTCAAGGGGCTATATGTCTATGGTAGCGTCGGCCGCGGCAAGACGATGCTGATGGACATGTTCTACGAGATGGCGCCCGTTTCCTCCAAACGGCGCTGCCATTTTCACGAATTCATGGCGGATGTGCATAATCGCGTTCATGCACATCGGCAGAAGCTGAAGAATGGCGAAACCAAACAAGCCGATCCGATTCCGCCCGTCGCGGCCCAGCTCCTGGCGGAAGCGGAGCTTTTGTGCTTCGACGAATTTACGGTCACTGATATTGCCGATGCGATGATCCTTGCGCGGCTGTTCAGCGAGCTGTTCGCCAATGGCTGCACATTGGTGACGACGTCCAACGTCGTGCCGGACAATCTCTACAAGGACGGTCTCAATCGCGGCCTGTTCCTGCCCTTCGTCGATCTCTTGAAGAAGCATGTGGAGGTGGTGACGCTGGACAGCCCCACCGATTATCGGATGGAGAAGCTGGAAAGCCTTCCCGTCTACGTCACGCCGCTTGACGGTTCGGCGGATCAGGCGATGGACATGGCCTGGCGGCACATGATTGCCGGTCACCTCGTTGCGCCGACCGAGATACCGATGAAGGGCCGTTCCATTCTGGTGCCCCGCGCCAGCGGCCGGGTGGCTCGCTTTTCCTTCTCCGATCTTTGCGAAAAGCCGCTTGGGGCTTCCGACTTCCTTGCCATCGCCAATCGTTTCGATACGGTCTTCATCGATCACATTCCGTTTTTGAACGCGGACAAGCGCAACGAGACCAAGCGTTTCATCATCCTCATCGATGCGCTTTACGACCACAGCGTTCGGCTTTTTGCCTCCGCTGCCGCCATGCCGGAAGACCTTCTCGGCAAGCGCAAGGGAACAGAAGGTTTCGAGTTCGATCGCACCGCCTCGCGCCTGTTCGAAATGCGTAGTGCGGATTATCTGGCGCTGCATCACGAAAAACGCCAGAAAGTTTGA	MKPLPDYNHSVVEQLNALTAAGTLQADAAQLGVAAHLDRILADLKARKPAKKKSALGWMFARKSGPAAAVKGLYVYGSVGRGKTMLMDMFYEMAPVSSKRRCHFHEFMADVHNRVHAHRQKLKNGETKQADPIPPVAAQLLAEAELLCFDEFTVTDIADAMILARLFSELFANGCTLVTTSNVVPDNLYKDGLNRGLFLPFVDLLKKHVEVVTLDSPTDYRMEKLESLPVYVTPLDGSADQAMDMAWRHMIAGHLVAPTEIPMKGRSILVPRASGRVARFSFSDLCEKPLGASDFLAIANRFDTVFIDHIPFLNADKRNETKRFIILIDALYDHSVRLFASAAAMPEDLLGKRKGTEGFEFDRTASRLFEMRSADYLALHHEKRQKV				NA	NA	NA	NA	NA
BMS010_05674	543			hypothetical protein	ATGCAATTCAGATATGTGGTGACGGGCCTTGCGGTTGTGATGACTCTCGCCGGTTGCCAACGTACCTCCTACGATTACAACAACAACGGCAGCAACAATCCCGGTTATACGCCGCCTTTGCAGGCGCAGCCGGTGCCCTCCGTCCAGTCCGGCGCCCTGCCGCCGCCCGGTGGCGCCACGGGCAGCCAGTTCCCGTCGGCACCTGCCTCGGCCGCCCCTGGCGGAACCAACGTCGCTTCTGCCGCTCCGCCGGCGGCCGCACTTGACGTTACCAAGGAATCCATGGTCGGCAACTGGCGCGTTTCCAATGGCGGCGCCAATTGCGACATGTTCCTGACACTCACCAACCTCGGCAGCGGCTCGCGTGGCGGCACGCGCGGTTGTGCGGGCGAGCTGACGGCGATGGGGTCCTGGGAAGTGTCCGGCAAGATGGTTCTCTTCAAGAACCGTTCGGGTGACACGATTGGCCGCGTCTACAAAAGTGCCGATGCGCGCTTTGATGGCACCACCAATAGCGGCCAGCCGCTCAGCCTCAGCCGATGA	MQFRYVVTGLAVVMTLAGCQRTSYDYNNNGSNNPGYTPPLQAQPVPSVQSGALPPPGGATGSQFPSAPASAAPGGTNVASAAPPAAALDVTKESMVGNWRVSNGGANCDMFLTLTNLGSGSRGGTRGCAGELTAMGSWEVSGKMVLFKNRSGDTIGRVYKSADARFDGTTNSGQPLSLSR				NA	NA	NA	NA	NA
BMS010_05675	780	sdhB_2	COG0479	Succinate dehydrogenase iron-sulfur subunit	ATGGTTGAACTCGCTCTCCCCAAGAATTCCCAGATCAGCGAAGGCAAGGTCTGGCCGAAGCCGGACGGCGCCAAGAATGTGCGCGAATACCGCATCTATCGCTGGAACCCGGATGACGGCCAGAACCCGCGCATCGATACCTATTATATCGATGTCGACGATTGCGGGCCGATGGTTCTCGACGCGCTTCTTTACATCAAAAACAACATCGACCCGACGCTGACGCTGCGCCGCTCCTGCCGCGAAGGCATCTGCGGCTCCTGCGCCATGAACATCGACGGCACCAATACGCTCGCCTGCACCAAGGGCATGGAAGAGATCAACGGCACGGTGAAGGTTTATCCGCTGCCGCATATGCCTGTCGTGAAGGACCTCGTTCCCGATCTGTCGAACTTCTACGCCCAGCATCGTTCCATCGAGCCCTGGCTGAAGACGGTTTCGCCGACGCCGGCCAAGGAATGGAAACAGAGCCATGAAGACCGCCTGAAGCTGGATGGTCTTTATGAGTGCATTCTCTGCGCCTGCTGCTCCACGTCCTGTCCCAGCTACTGGTGGAATGGCGACCGTTATCTCGGTCCGGCCGTTCTGCTTCAGGCCTATCGCTGGCTGATCGACAGCCGCGATGAGGCAACCGGCGAGCGTCTGGATAATCTCGAGGATCCGTTCCGCCTTTACCGCTGCCATACCATCATGAACTGCGCGCAGGCCTGCCCGAAGGGCTTGAACCCGGCCAAGGCGATTGCGGAAATAAAGAAGATGATGGTCGAGCGCCGCGTTTAA	MVELALPKNSQISEGKVWPKPDGAKNVREYRIYRWNPDDGQNPRIDTYYIDVDDCGPMVLDALLYIKNNIDPTLTLRRSCREGICGSCAMNIDGTNTLACTKGMEEINGTVKVYPLPHMPVVKDLVPDLSNFYAQHRSIEPWLKTVSPTPAKEWKQSHEDRLKLDGLYECILCACCSTSCPSYWWNGDRYLGPAVLLQAYRWLIDSRDEATGERLDNLEDPFRLYRCHTIMNCAQACPKGLNPAKAIAEIKKMMVERRV	PGPT0001600_1129	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001600-sdhB|frdB-K00240	NA	NA
BMS010_05676	1842	sdhA_2	COG1053	Succinate dehydrogenase flavoprotein subunit	ATGGCATCGATCAGTTCACCATCCCAGAATGGCAAGGCCTACACCTATGTCGATCACTCCTATGACGTGATCGTGGTGGGCGCGGGCGGCGCGGGTCTGCGCGCAACGCTCGGCATGGCGGAACAGGGTTTCCGCACAGCCTGTATCACCAAGGTTTTCCCGACGCGCTCGCACACGGTCGCGGCGCAGGGCGGCATTGCCGCATCGCTCACCAACATGACGCCCGACTGTTGGCAGTGGCACCTTTACGACACCGTAAAGGGCTCCGACTGGCTCGGCGACGTCGACGCCATGCAATATCTCGCCATGGAAGCGCCGAAGGCGGTCTATGAGCTGGAACATTACGGCGTGCCTTTCTCGCGCAACGAAGAAGGCAAGATCTACCAGCGCCCGTTCGGTGGTCACATGCAGAATTACGGCGAAGGCCCGCCGGTGCAGCGCACCTGCGCCGCCGCCGACCGTACCGGCCACGCCATTCTGCACACGCTTTATGGCCAGTCGCTGCGCAACAATGCCGAATTCTTCATCGAATATTTCGCGCTCGACCTCATCATGTCTCCGGACGGCCGCTGCACCGGCGTCGTTGCCTGGAACCTCGATGACGGCACGATCCATCGCTTCTCCGCCAAGATGGTGGTTCTGGCGACCGGCGGTTACGGCCGTGCCTATTTCTCGGCGACCTCGGCCCATACCTGCACCGGTGACGGCGGCGGCATGATCGCACGCGCCGGCCTGCCGCTTCAGGACATGGAATTCGTACAGTTCCACCCGACCGGCATTTATGGCGCAGGCTGCCTGATTACCGAGGGTGCACGCGGCGAAGGCGGTTATCTCGTCAACTCCGAAGGCGAACGCTTCATGGAGCGTTATGCGCCTTCCGCCAAGGACCTTGCCTCGCGTGACGTTGTCTCGCGCTGCATGACGATGGAAATCCGTGAAGGCCGCGGCGTCGGCAAGAACAAGGACCACATCTTCCTGCACCTCGATCACCTTGATCCTGCGATCTTGCATGAGCGTCTTCCGGGCATTTCCGAAAGCGCGAAGATTTTCGCCGGCGTCGATGTGACCCGCGAGCCGATCCCGGTCCTGCCGACGGTTCACTACAATATGGGCGGTATTCCGACCAACTATTGGGGTGAAGTGCTGAATGCCGATGCCAACAACCCGGAACGCATCGCGCCCGGCCTGATGGCTGTTGGCGAAGCCGGTTGCGCCTCGGTTCATGGTGCGAACCGCCTCGGTTCCAACTCGCTGATCGACCTGGTGGTCTTCGGCCGTGCAGCGGCGATCCGTGCCGCTCAGGTCATCAATCGTGATGAGGCTGTTCCCGCTCTCGATACGGCTGCCTGCGACAAGATCATGGAGCGTTTCGACAGCCTGCGTTACGCCAACGGCTCGACGCCGACGGCGGTGCTGCGCGACAAGATGCAGCGCGCCATGCAGGACGATGCGGCCGTGTTCCGCACGCAGGAATCGCTGGAAAGCGGCTGCCAGCGTCTTTCCGCCATCTGGAAGGAACTGCCTGACGTCAAGGTCACCGACCGTTCGATGGTCTGGAACTCCGATCTGGTCGAGACGCTCGAGCTGCACAACCTCATGGCCAATGCGATCACCACGGTCTATGGCGCGGAAGCGCGCAAGGAAAGCCGCGGTTCGCACGCCCGCGAGGATTTCGTCGACGGTCCGTTCGCCGGTCGCGACGACGTGAACTGGCGCAAGCACACGCTTGCCTGGGTCAGCCCGGAAGGCGACGTGAAACTCGACTATCGCCCTGTTCACACTGACCTGATCGCCGACGGCATCGATCCGAAAAAGATCGAGCCGAAGGCGCGCGTCTACTGA	MASISSPSQNGKAYTYVDHSYDVIVVGAGGAGLRATLGMAEQGFRTACITKVFPTRSHTVAAQGGIAASLTNMTPDCWQWHLYDTVKGSDWLGDVDAMQYLAMEAPKAVYELEHYGVPFSRNEEGKIYQRPFGGHMQNYGEGPPVQRTCAAADRTGHAILHTLYGQSLRNNAEFFIEYFALDLIMSPDGRCTGVVAWNLDDGTIHRFSAKMVVLATGGYGRAYFSATSAHTCTGDGGGMIARAGLPLQDMEFVQFHPTGIYGAGCLITEGARGEGGYLVNSEGERFMERYAPSAKDLASRDVVSRCMTMEIREGRGVGKNKDHIFLHLDHLDPAILHERLPGISESAKIFAGVDVTREPIPVLPTVHYNMGGIPTNYWGEVLNADANNPERIAPGLMAVGEAGCASVHGANRLGSNSLIDLVVFGRAAAIRAAQVINRDEAVPALDTAACDKIMERFDSLRYANGSTPTAVLRDKMQRAMQDDAAVFRTQESLESGCQRLSAIWKELPDVKVTDRSMVWNSDLVETLELHNLMANAITTVYGAEARKESRGSHAREDFVDGPFAGRDDVNWRKHTLAWVSPEGDVKLDYRPVHTDLIADGIDPKKIEPKARVY	PGPT0001605_1544	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001605-sdhA|frdA-K00239	NA	NA
BMS010_05677	381			hypothetical protein	ATGGATATGCGTACACCTCTCGGAAAGGTTCGCGGCCTCGGCTCCGCCAAGGAAGGCACCGACCATTTCTGGCGTCAGCGCGTGACTGCGGTCGCCAACGTTCCGTTGCTCACCTTCTTTGTCGTCTTCCTCATCAGATATGCCGGCGCGCCCTATCCGGAAGTCGTTTCGGCGCTGTCGAACCCGCTCGTTGCGGTCATCATGGCTCTGGTTTTGGTTTCCGGCCTCATCCACATGAAGCTCGGCATGCAGGTCATCATTGAAGACTACATTCATGCCGAGGTTTTGAAGCTCGTTCTTCTGATGCTCAATATGTTTTTCGCGATTCTCATTGGCGGTCTTTGCATCTTCGCCATTCTGAAAATCGCCTTCGCAGGATAA	MDMRTPLGKVRGLGSAKEGTDHFWRQRVTAVANVPLLTFFVVFLIRYAGAPYPEVVSALSNPLVAVIMALVLVSGLIHMKLGMQVIIEDYIHAEVLKLVLLMLNMFFAILIGGLCIFAILKIAFAG	PGPT0001590_995	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001590-sdhD|frdD-K00242	NA	NA
BMS010_05678	393	sdhC_2	COG2009	Succinate dehydrogenase cytochrome b556 subunit	ATGGCGAATGCGACTAATAACCGGCCTCTGTCGCCGCATCTTCAAGTTTACAAGCTGATTCCGACGATGGTTGCATCCATCGTGCACCGCATCACGGGCGGCGCGCTTTATTTCGGAACGCTTCTGGTTGCCTGGTGGCTGATCGCTATCGCCTCGGGTCCGGCCTATTACGACTGGGTCAACTGGGCGATGGGTACGATCATCGGCAGGCTCATCCTGATCGGATACACCTGGGCTCTGGTTCATCACATGCTTGGCGGCCTTCGCCATTTCATGTGGGATCTGGGATACGGCTTCGAAAAGCACTTTACCACCAAGCTGGCGAAGGCCTCGTGGGTGGTGTCGATCTGTCTGACCGCGCTGATCTGGGTCATTGCCCTGATCGTGCGCTGA	MANATNNRPLSPHLQVYKLIPTMVASIVHRITGGALYFGTLLVAWWLIAIASGPAYYDWVNWAMGTIIGRLILIGYTWALVHHMLGGLRHFMWDLGYGFEKHFTTKLAKASWVVSICLTALIWVIALIVR	PGPT0001595_2641	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001595-sdhC|frdC-K00241	NA	NA
BMS010_05679	381			hypothetical protein	ATGTTACAGCGCCGAATCGCCGCTTTGACCATGATGGTCGCAGGCGTCATTTTCACCGTGGTGCCTCCGGCGGCGGCAGAGAATTCTTATGGCCGACGTGATTATCAGCACGACTATCAACACCGTCAATCACAGGTGAGCTTCTCCACGGACGGGCTGCCATCCACCCTCTCCGGCGGTACTTACGTGGGGGCGATATCGGCGCTACGCGTTCGCGGCAACGGCAATTATTTCGCAATCGGCGGCGGGCTTTCACGGAAAGGCGCAGCGGTTGCAACGGGCACGCAGCTTGCGCCAAAGGCGAAAATCATCAATGTCCGTGCTGAAACCGCTGGCGACACCTGCGCCTATGAACATGGCGTCTGCATTATCCGGCCATAG	MLQRRIAALTMMVAGVIFTVVPPAAAENSYGRRDYQHDYQHRQSQVSFSTDGLPSTLSGGTYVGAISALRVRGNGNYFAIGGGLSRKGAAVATGTQLAPKAKIINVRAETAGDTCAYEHGVCIIRP				NA	NA	NA	NA	NA
BMS010_05680	645			hypothetical protein	GTGAGAACCGATCCCGAACGCTTCATTCTCGACAATACCGCCATCATGCATCCGCCGCATGTGCCGGAGTTGCGTCTTCATCTCGCCACCGAAGCCCATGAGCTGTGGCTGAAGACGGAGGAGGAGCTGGAAGCGATCGGTCTGCCGCCGCCCTTCTGGGCCTTCGCCTGGGCCGGCGGGCAGGGGCTTGCCCGCTACGTTCTCGATCATCCCGACAGCGTTTCCGGCAGGCGCGTGCTGGATTTCGCCAGCGGCTCCGGTCTGGTCGCCATCGCTGCGGCAAAGGCGGGCGCGGATACTGTTCTGGCGGCCGATATCGATCCGTGGACAGAGACGGCCATTCGGCTGAATGCGGCTCTCAATGGCGTGGACGTTGCTTTCACCGGGCTTGATCTGGTTGGGAAAGCGATTGAAGCGGATGTTCTGCTGGCCGGCGACGTGTTTTACGACCGTGCCTTTGCCGATCTTCTCGTTCCATGGTTTCTGGAACTGACGGAAAAAGGCGTGATCATCCTCGTCGGCGATCCCGGACGCGCTTATTTGCCCAAAGAGCGGCTCCGCGCGGAGGCGACCTATCAGGTGCCGGTGACGCGGGCGCTGGAAGACAGCGAAGTGAAGAAGACCACAGTGTGGCGTTTCATCTGA	MRTDPERFILDNTAIMHPPHVPELRLHLATEAHELWLKTEEELEAIGLPPPFWAFAWAGGQGLARYVLDHPDSVSGRRVLDFASGSGLVAIAAAKAGADTVLAADIDPWTETAIRLNAALNGVDVAFTGLDLVGKAIEADVLLAGDVFYDRAFADLLVPWFLELTEKGVIILVGDPGRAYLPKERLRAEATYQVPVTRALEDSEVKKTTVWRFI				NA	NA	NA	NA	NA
BMS010_05681	444			hypothetical protein	ATGGCGAATTACTGGCTTTACAAGTCCGAGCCGTTCAAATGGTCCTGGGAAATGCAGAAGGCCAAGGGCGAGGCGGGCGAAGAATGGACTGGCGTGCGCAATTATCAGGCGCGCAACAACATGCGCGCCATGAAGATCGGCGACAAGGGTTTCTTCTACCACTCCAATGAGGGGCTGGATGTCGTCGGCATCGTCGAAGTCTGCGCATTGTCGCATCCGGACTCGACCGCCGAAGGCGATCTGAAATGGGATTGCGTGGATATCCGCGCCGTCTGCGACATGCCGCAGCCCGTTTCGCTGAAGGATGTGAAAGCCAATCCGAAGCTGGCGAAGATGTCGCTTGTCACTTCCATGCGGCTTTCCGTGCAGCCGGTGACGGAAGAGGAATATCTCGAGGTCTGCCGCATGGGCGGTCTCGCCAATCCACCGAAGTCACCGGACTGA	MANYWLYKSEPFKWSWEMQKAKGEAGEEWTGVRNYQARNNMRAMKIGDKGFFYHSNEGLDVVGIVEVCALSHPDSTAEGDLKWDCVDIRAVCDMPQPVSLKDVKANPKLAKMSLVTSMRLSVQPVTEEEYLEVCRMGGLANPPKSPD				NA	NA	NA	NA	NA
BMS010_05682	294	yciI_2	COG2350	Protein YciI	ATGCTGTTTGCCTTTATCTGCAAGGACAAGCCCGGCCATCTGCATGTACGCATGGAAACACGCCCGGCGCATCTGGAGCACCTGAACAAGCTGAATGCCGAGGGCACGCTGAAGATCGCCGGTCCGTTTCTGGATGCCGAAGGCAAGCCGAATGGCAGTCTCGTGATCGTTGACGCCGCCGATATCGATGCCGCGAAGGCTCTTGCCGATGCCGATCCTTACGCCAAGGCCGGCCTGTTCGAAAGCGTTGACGTGAAGCCCTATAATTGGGTCTTCAACAATCCGGGAGCATGA	MLFAFICKDKPGHLHVRMETRPAHLEHLNKLNAEGTLKIAGPFLDAEGKPNGSLVIVDAADIDAAKALADADPYAKAGLFESVDVKPYNWVFNNPGA				NA	NA	NA	NA	NA
BMS010_05683	984	gpsA_2	COG0240	Glycerol-3-phosphate dehydrogenase [NAD(P)+]	ATGCAGCGGGAGAAAATCGTCGTCATCGGCGCCGGCGCCTTCGGAACAGCGCTTGCTGTGGTCATCGCGCAGGAAAACCGGCATGACGTGACCCTGCTCGGCCGCGATCCATCGCTGATGGCCGACCTCAGGAGCGACCGCGTGCACGAGGCGGCCCTGCCGGGCGTCGATCTGCCAGATGCGCTTGAATTTTCCGCCGAGCCAGATGTGCTGGCGGGCGCCGGCATCGTCCTCTTCGCCATGCCTTCGCAGGCTCATGCCGATGCGGCCCGTCAGTACGGTCCTTATCTGGCTAATGACTCAATCATTGTTACCTGCGCCAAGGGTATCGACCGCAGCTCCGGCCGGCTGCTGACGGAACTTCTGGAAGCGGAACTGCCGCATCATCCGATTGCGGTTCTGTCCGGTCCGGGCTTTGCGGCCGACATAGCACGGGGCCTGCCAACGGCCATGGCGATTGCGGCGGAAGATGCGGTGATAGCCGAGCGGCTTGCGACCACGATTTCCGGCAAGACTTTCCGGCTTTATGCCTCTACCGACCGCATCGGCGTGCAGCTTGGCGGGGCGCTGAAGAACGTCCTCGCCATTGCCGCCGGCATCGTCGAAGGCGCGGGCCTTGGCGATTCCGCCCGGGCGGCGTTGATTTCGCGCGGCCTTGCCGAAATGTCGCGTCTCATCGTTGCGATGGGCGGGAAGGCGGACACGGTGCGCGGCCTCTCGGGCCTTGGCGATCTCGTGCTGACCGCCACCAGTCACCAGTCGCGAAACCTGCGTTTCGGTATCGCGCTCGGACGGGGTGAGGGCAAGGACATGTCCGGCGGGCTGGTGGAGGGCGCTTTTGCGGCAGCCGTCGCCGCCCGGCTCGGGGAAAGTCACGCTGTCGACATGCCGGTTACCGAAGCGGTGGCCGCTATTATTGACGGCAATCTGGATGTGGCGAGCGCCATGCAACAATTGATGACACGGCCCATCACCACCGAATGA	MQREKIVVIGAGAFGTALAVVIAQENRHDVTLLGRDPSLMADLRSDRVHEAALPGVDLPDALEFSAEPDVLAGAGIVLFAMPSQAHADAARQYGPYLANDSIIVTCAKGIDRSSGRLLTELLEAELPHHPIAVLSGPGFAADIARGLPTAMAIAAEDAVIAERLATTISGKTFRLYASTDRIGVQLGGALKNVLAIAAGIVEGAGLGDSARAALISRGLAEMSRLIVAMGGKADTVRGLSGLGDLVLTATSHQSRNLRFGIALGRGEGKDMSGGLVEGAFAAAVAARLGESHAVDMPVTEAVAAIIDGNLDVASAMQQLMTRPITTE	PGPT0024330_4269	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0024330-gpsA-K00057	NA	NA
BMS010_05684	1098	tsaD_1	COG0533	tRNA N6-adenosine threonylcarbamoyltransferase	ATGACCCCCTTTCTTCGTATCCTCGGCATAGAGACAAGCTGTGACGAAACCGCTGCATCCATTGTGGTTCGGCATGCGGACGGCCATGGCGAGATCGTCTCCGACGTCGTTTTGTCGCAGCTTGAGGAACACAGCGCCTATGGCGGCGTGGTGCCGGAAATTGCCGCGCGCGCCCATGTCGAGGCGCTGGATACGCTGGTGGAAGAAGCGCTGGAGCAGGCGGGCGTGACCCTTGCCGATGTCGACGCCATCGCCGCCACCTCCGGCCCCGGCCTCATCGGCGGCCTGCTGGTGGGCTTGATGACGGGCAAGGCCATCGCCAAGGCGGCCGGCAAGCCGCTTTACGCCATCAACCATCTGGAAGGCCACGCGCTGACGGCGCGCCTCACCGACGGTCTGTCTTTTCCTTATCTGATGCTGCTCGTCTCCGGCGGCCATACCCAACTGGTGCTGGTGCGTGGCGTGGGCGATTATGAGCGTTGGGGCACCACCATCGATGACGCGCTGGGGGAGGCCTTCGACAAGACCGCGAAACTTCTGGGCCTGCCCTATCCGGGCGGGCCTGCGGTCGAGAAGGCGGCGGCGAAGGGTGATCCGAACCGCTTTCCGCTTCCGCGTCCCATGGTCGGCGAAGCACGGCTCGATTTTTCCTTTTCCGGCCTGAAGACGGCGGTGCGGCAGGCGGCGACCGCCATCGCGCCGCTTTCCGAGCAGGATATTGCCGATATCTGCGCCTCGTTCCAGAAAGCGGTGTCGCGCACGCTCAAGGATCGGATCGGCCGCGGCCTTGCCCGTTTCAGCCAGGAATTTCCGCATACAGAAAGAGAGCCTGCTCTGGTCGTCGCCGGCGGCGTTGCCGCCAATCAGGAAATCCGCCAGACGCTGCAATCGCTTTGCGATACCCATGGCTTCCGCTTCGTCGCGCCGCCGCACCGGCTCTGTACGGATAATGCCGCGATGATCGCCTGGGCGGGGCTGGAGCGCATGGCGGACGGCCGGGACCCCGATCCGCTCGAAATTCCGCCGCGTTCGCGCTGGCCGCTGGATGGCAGTGCGGAGACATTGATAGGTTTCGGTAAAAGGGGAGCCAAGGCCTGA	MTPFLRILGIETSCDETAASIVVRHADGHGEIVSDVVLSQLEEHSAYGGVVPEIAARAHVEALDTLVEEALEQAGVTLADVDAIAATSGPGLIGGLLVGLMTGKAIAKAAGKPLYAINHLEGHALTARLTDGLSFPYLMLLVSGGHTQLVLVRGVGDYERWGTTIDDALGEAFDKTAKLLGLPYPGGPAVEKAAAKGDPNRFPLPRPMVGEARLDFSFSGLKTAVRQAATAIAPLSEQDIADICASFQKAVSRTLKDRIGRGLARFSQEFPHTEREPALVVAGGVAANQEIRQTLQSLCDTHGFRFVAPPHRLCTDNAAMIAWAGLERMADGRDPDPLEIPPRSRWPLDGSAETLIGFGKRGAKA				NA	NA	NA	NA	NA
BMS010_05685	930	hemC_1	COG0181	Porphobilinogen deaminase	ATGCAAACAAAACCTTTCCGAATCGGCACGCGCGGCAGCCCGCTGGCGCTCGCGCAGGCTTACGAGACGCGCAACCGGCTGATGGCGGCGCATGGCCTGCCGGAAGAAATGTTCGAAATCGTCGTGCTGTCCACCAAGGGCGACCGGATAACCGACCGTGCTTTGTCGGAGATCGGCGGCAAGGGCCTGTTTACCGAGGAGCTGGAAAGCCAGCTTCTATCCGGCGAACTCGATATGGCCGTGCATTCCTCCAAGGACATGCCGACCCTTCTGCCCGAAGGGCTCTATCTGTCCGCTTTCCTGCCGCGCGAAGACATACGCGACGCCTTCATCGGCCGCACCGCACCGAAGCTGCTGGAACTGCCGCAGGGCGCCGTGGTCGGCTCCGCATCCCTGCGCCGCCAGGCGCTGATCCGCCGCCTGCGGCCGGATCTGAGCGTTATCATCTTCCGCGGTCAGGTCGATACCCGCCTGCGCAAGCTGGAGGAAGGCCAGGCGGATGCGACGCTTCTCGCCTTTGCGGGTCTGAAGAGACTTGGTAAGGACAATGTGCCGACGGAAATTCTCGACCCGAAGGAATTCCCTCCTGCTCCCGCCCAGGGCGCAATCGGCGTGGAAAGCCGCATCTGCGATGCGCGCATGGACGAACTGCTCGCACCCATAAACGACAGGCCCACTCATGATGCCGTGACCTGCGAGCGCGCCTTTCTGGCAGCACTCGATGGTTCCTGTCGCACGCCGATTGCCGGCTACGCCACCTGCGATGGCGAGGAATTGCATTTTTCCGGCCTGATCCTCACCCCCGATGGCCAAACGAGCCACGGCATCGAAGCCTCCGGCAACCGCCGCGATGCGGCAAAGCTCGGCCGGCAGGCCGGCGAAGACGTGCGCGCCAAGGCGGGCAGCAATTTCTTCGAAGGCTGGAGCTGA	MQTKPFRIGTRGSPLALAQAYETRNRLMAAHGLPEEMFEIVVLSTKGDRITDRALSEIGGKGLFTEELESQLLSGELDMAVHSSKDMPTLLPEGLYLSAFLPREDIRDAFIGRTAPKLLELPQGAVVGSASLRRQALIRRLRPDLSVIIFRGQVDTRLRKLEEGQADATLLAFAGLKRLGKDNVPTEILDPKEFPPAPAQGAIGVESRICDARMDELLAPINDRPTHDAVTCERAFLAALDGSCRTPIAGYATCDGEELHFSGLILTPDGQTSHGIEASGNRRDAAKLGRQAGEDVRAKAGSNFFEGWS	PGPT0003660_3792	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003660-hemC-K01749	NA	NA
BMS010_05686	741			hypothetical protein	ATGCGGATCGTCGTCACCCGGCCGCAGCGTTCGGGCGAAAGGACGGCCGCAAAGCTTGAAGCGCTTGGCCATGCGCCGGTGCTTCTTCCGCTGTTTTATCCCGCCCATCATGGGGAACGCGCCGTCTCGGCACTATCCAGCCCGCTGGCGGCCATCGCTGTGACCAGCGCCGAGGCGCTGCGGGCGCTGGAAACATCACGGGACGGGCTGGCTCCCTATCTGTCAAAACCGCTTTTCGCCGTCGGCGGAGCAACGGCGGAAGCGGCGGGAAAAACAGGCTTCGAACGGATTTTCACCGCCTCCGCCGACGCCGTGAGTCTGACCGCGCTGGTGACTGAGCACCGGACTCTATTTTCCGAAGAAGAGCCCCTGCTTTATCTCGCCGGCAGGCCCCGTGGCGCCGTCTTCGAGGAAGGCCTTACCGCCGCCGGCATTCCGATCAGAACGGTCGATTGTTACGAGATGCTGCCCTCCGACATTTCGGAGACGATGCTAGAGACGGCGCTTGTCGAAAGCGTTGCCGATGTGGTCCTGCTCTATTCATCGGAAGCGGCGCGGGCCTTTTTCCATCATGTATCGGCGGAAAAATACGTGGCAGCGCTGGCAACGACACAATTCATCTGCATCAGCCGCAACGTGTTTTCTCTCGTTCCGGAGATCTTCCGCGCAAACGCCAAGGCCGCCGAAGAACCGAGCGAAGCCGCGATGTTCGAACTTCTACGCCACAACTCTGGAACCTAA	MRIVVTRPQRSGERTAAKLEALGHAPVLLPLFYPAHHGERAVSALSSPLAAIAVTSAEALRALETSRDGLAPYLSKPLFAVGGATAEAAGKTGFERIFTASADAVSLTALVTEHRTLFSEEEPLLYLAGRPRGAVFEEGLTAAGIPIRTVDCYEMLPSDISETMLETALVESVADVVLLYSSEAARAFFHHVSAEKYVAALATTQFICISRNVFSLVPEIFRANAKAAEEPSEAAMFELLRHNSGT	PGPT0003665_3350	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003665-hemD-K01719	NA	NA
BMS010_05687	1455			hypothetical protein	ATGGTATCGGGAAAGCCGCCACGCCACTCCAAGTCCAAAGCCGAACCGGTCACCATCGACCTGGACGCCAAAGACGTGAAAGCAATTTCCGCCGACGTGGACGCTGCCAAGACGGACGAAAAGCCCGGTGACAAAACACCTGAGGCCACCGCAGAGCCGGGTGTTTCAGAGACAAAGCCCGAAGCAGCCGCAACGGGAAACCCCGCCCCCATCTGGGACCAGCCCAAGAAAACCCCTATCGAGCCCGAACCCAATGTCGGCAAAGCGGAATCCGTAGCCACGGCACCGAAGGCTGAGAGCGCCGCAGACAAGCAGCCCGCAGACAGGCAGAAAGACCCCGTCTCGCCGGCCCCTGTTCCGCCTAAAGCCGATACAAAACCGTCGACAGGCACCACCGACACGAGCGCGGCCGCGGCTGCAGCGGCTGCTGCGAAGCCGGCCTTCGGCTCCACAGCATCCAGCAGCGCCACCGCTGCAAAACCAACGACGGCGACCTCCGCCTCAGGTCCGGCAAAGCCCTCCACACCGCAGCCGGCGGAGCGCAAACAGGCCGCGACCTCCGGCCTGATCGCGGCAGGTATCGTCGGCGGCCTTGTCGCGCTCGCCGCCGCCGGCAGCATGCAATATGCCGGCATCCTGCCCTCCTTCAATGCAGGCAGGGCGGGAAGCGAAGAAATCGCCGCACTGAAAACCGATCTCGGCAGCTTGCGGCAACAGCTTGCCAATGCGCCGGTCGGCGACACCTCCGCGCTGGAACAGCGCATCGCAACCCTCGAAGGCGCAAAGGGTGAGGCACCGCAGGTGGATGGGCTGTCGGAAAAAATCGCCGCGCTGGAATCCGCCCTCCAGTCGGAGCGATCCGCGCAGGCATCGGCGACGGCGGAACTGACACGCCGCCTTGCGGATGCGGAAGCCAAGATCAACGAGCCGCGCGACGATATCGAAGTCGCCCGCGCCATCGCTTCCGCGGCGCTGAAGGCCGCGATCGATCGCGGTGGGCCGTTCCTGACGGAACTCGACACGCTTTCCAAGGTAACGCCCGACGATCCGGCCATCGCATCGCTGCAATCCTTCGCCGCAACCGGTGTGCCGTCACGTTCGGAACTGATGCAGAAATTCCCTGACGTCGCCAATGCGATGCTTTCCGCGATCAATCAGCCTGACCCCAATCAGGGCATCATGGAACGCCTGACCGAAAGCGCTTTTTCGCTGGTAAAGGTGCGTCCGGTCGGAAATATCGAGGGCGAAACCTCTGAGGCCAAGATCGCGCGCATGGAAAACAAGCTGCGCAACGGCGATCTGCAGGGCGCAGCACTTGAATGGAACGGGCTTCCCGATGCCGCCAAGACGGCATCCGCCGATTACAAGAAATCGCTGGATGCGCGCATCGAGGTCGAGAATCTGGTGGGCGGCACATTGAACCGCGCCATCACCAGCACCGGCAGGCAGGGGTAA	MVSGKPPRHSKSKAEPVTIDLDAKDVKAISADVDAAKTDEKPGDKTPEATAEPGVSETKPEAAATGNPAPIWDQPKKTPIEPEPNVGKAESVATAPKAESAADKQPADRQKDPVSPAPVPPKADTKPSTGTTDTSAAAAAAAAAKPAFGSTASSSATAAKPTTATSASGPAKPSTPQPAERKQAATSGLIAAGIVGGLVALAAAGSMQYAGILPSFNAGRAGSEEIAALKTDLGSLRQQLANAPVGDTSALEQRIATLEGAKGEAPQVDGLSEKIAALESALQSERSAQASATAELTRRLADAEAKINEPRDDIEVARAIASAALKAAIDRGGPFLTELDTLSKVTPDDPAIASLQSFAATGVPSRSELMQKFPDVANAMLSAINQPDPNQGIMERLTESAFSLVKVRPVGNIEGETSEAKIARMENKLRNGDLQGAALEWNGLPDAAKTASADYKKSLDARIEVENLVGGTLNRAITSTGRQG				NA	NA	NA	NA	NA
BMS010_05688	1617			hypothetical protein	ATGACCAGAATTCTGACTTTCGCCGTTATCGTTCTGGCTCTCGGCTTCGGTTTCTCCTGGCTGGCCGACAGGCCGGGTGTGCTCTCCATCGTCTGGCAGGGCCAGCTGATCGAAATGAGCCTGATGGTCGCCGCCTCCATCATCGCGGCGCTGGTCGCCGCCGTCATGCTGGTCTGGTGGATCGTCAATGCGATCTGGACCTCGCCCAATGCCGCCCGTCGTTATTTCCGCGCCCGCAAGCGCGACCGGGGTTATCAGGCGCTCTCCACCGGGCTCATAGCCGCCGGGGCCGGCAATGCCATCCTCGCCCGCAAGATGACGGCCCGTACTCAAGGGTTGCTCAGCGCCGATCAGGAGCCGCTGATCCATCTGCTCGATGCACAGGCTGACCTGATTGAAGGCAAATATGACGAGGCGCGGCGCAAATTCGAAGCCATGGCCCGCGATCCCGAGACTCGCGAACTTGGCCTTCGCGGCCTTTATATCGAGGCCCGCCGTCAGGGCGCCTATGAAGCCGCCCAGCAATATGCCGAGGATGCAGCGGAAAAAGCCCCCTATCTGCCCTGGGCCGCGCAGGCGACGCTGGAAAACCGCTGCCGCAACGGACAGTGGGACGATGCCATCCGCCTGCTCGACCAGCAGAAGGCGGCCGGCGTTATCGAACGCGGTGAGGCGGAACGTCTGAAAGCCGTGCTTCTTACTGCCAAGGCCGGCGAAAAGCTGGAAAGCGATCCGGTTGGCGCGCGCGAGGATGCCAAGCACGCTCTCAAGCTTGCCAGGAGCTTGGTTCCGGCAGCGCTGATCGCGGCGAAATCCTATCTCCGGGAAGACAATCTGCGCAAGGCGGCCACGGTTCTGGAACCCGTCTGGAAGAACGATCCGCACCCGCAGATCGCCGAACTTTATGTCCGCGCACGCAGCGGCGATACCGCCATCGACCGGTTGAAACGGGCTGAGCGGCTTGAGGGCCTGAAGCCCAACAATATCGAGTCCCTGTTCGCGGTGGCGCAGGCGGCGCTCGACGCCAAGGAATTCGCCAAGGCGCGAGCCAAGGCCGAGGCCGCCGCCCGGATCGAACCTCGCGAGAGCATCTTCTTGCTGATGGCCGATATCGAGGAGGCCGAAAGCGGCGATCAGGGCCGTGTGCGCTACTGGATGGCGCAGGCGCTGCGCGCGCCGCGCGACCCCGCCTGGGTGGCCGACGGCGTCGTTTCGGAAAAATGGCTGCCGGTATCTCCGGTCACCGGCCGTCTCGATGCTTTCGAATGGAAAGCGCCTTTCGGCCAGCTCGAAGCGCCCATCGAAGACCTGACAATCGAAAACGCGATTGCCGCAGCGCCCGCACGGGCCGAACCGGCCGCGAAAACGATTATTGTCGAAGCCGCGCCGGAGACGCCCGCCGAACCGAAACCGGCCCCGGCCGCACCGATCGAGGTCAAGCCGGCCGTATCGGTCCCGCAGGAGAAAAAGCCGGTCACAATCGAAGCGCCAGTGGAAACCGGTGTCACGGATGAAAAGGCGGAAGCCGTGCCGTTTTTCGGCGGCGCGCCGGATGATCCGGGCGTCAAGAAACCCGGTGCGGAAGCCGAACCCAAGACCCGGCTCAAACTCTTCTGA	MTRILTFAVIVLALGFGFSWLADRPGVLSIVWQGQLIEMSLMVAASIIAALVAAVMLVWWIVNAIWTSPNAARRYFRARKRDRGYQALSTGLIAAGAGNAILARKMTARTQGLLSADQEPLIHLLDAQADLIEGKYDEARRKFEAMARDPETRELGLRGLYIEARRQGAYEAAQQYAEDAAEKAPYLPWAAQATLENRCRNGQWDDAIRLLDQQKAAGVIERGEAERLKAVLLTAKAGEKLESDPVGAREDAKHALKLARSLVPAALIAAKSYLREDNLRKAATVLEPVWKNDPHPQIAELYVRARSGDTAIDRLKRAERLEGLKPNNIESLFAVAQAALDAKEFAKARAKAEAAARIEPRESIFLLMADIEEAESGDQGRVRYWMAQALRAPRDPAWVADGVVSEKWLPVSPVTGRLDAFEWKAPFGQLEAPIEDLTIENAIAAAPARAEPAAKTIIVEAAPETPAEPKPAPAAPIEVKPAVSVPQEKKPVTIEAPVETGVTDEKAEAVPFFGGAPDDPGVKKPGAEAEPKTRLKLF				NA	NA	NA	NA	NA
BMS010_05689	489			hypothetical protein	ATGTTCCAGCAAATACAGTCGTTTATTCAGAACCTCGTCGGCCCGCATGGGGATGATTTCAGTCCGGACGATCTGAGGGTGGCGGTGGCCGCCCTCTGTTTCCAGGTCATGGAAGCGGATGGCACCGTCTCGAAAAGCGAGCGTGACCGCCTGCGCGAAATCCTGCAGGATTATTACCATCTCGATGCCGGAAAGCTGGATGCGCTTCTCGCCGCCGGCCAGGAGGCAGGCAAGGAAGCCGTCGATTATTACCGTTTCACCACCGATATACGCCGCCATCTCGATGAAGAGCAGCGCGTGGAGCTTATTGGCATATTATGGGATATTGTTTACGCTGACGGCGAACGAAGCGAAATGGAAGACCATGTGATCTGGCGAGTCGCCGACCTGCTTGGTGTATCCGTGCGCGACAGGGTTCTGCAACGTCAGCAGGCCGCCACGAGGTCCGGGCCCGCTGAAGAAAGCGAAAACGAAGACGATGCTGTTTGA	MFQQIQSFIQNLVGPHGDDFSPDDLRVAVAALCFQVMEADGTVSKSERDRLREILQDYYHLDAGKLDALLAAGQEAGKEAVDYYRFTTDIRRHLDEEQRVELIGILWDIVYADGERSEMEDHVIWRVADLLGVSVRDRVLQRQQAATRSGPAEESENEDDAV				NA	NA	NA	NA	NA
BMS010_05690	732			hypothetical protein	ATGCTGTTTGACCCTTCCAGGCAACAGAGAAAACAACCATCGCTGCTCATCGTCCTGCATCAGGAACGTTCCACGCCCGGCCGCGTCGGCCAGATGCTGGTGGAAAAAGGGTATCGTCTGGATATAAGGCGCCCTGCGCTCGGCGACGACCTGCCGCAAACGCTGGAGAAACACGCGGGCGCCATCATCTTCGGCGGACCGATGAGCGCTAACGATTCTCATGACTACGTCAAAGCCGAAATCGACTGGCTGAAGGTGCCGTTGAAGGAAAACAAGCCCTTTCTCGGCATCTGTCTTGGCGCGCAGATGCTGTCCAAACATCTCGGCGGCAAGGTGGAGGCCGACAGGGAGGGCAAGGTGGAGATCGGCTGGTATCCGCTTCATGCCACCGAACATGGGCGGCTTCTGATGCCGCATTGGCCGAAGATGGTCTATCATTTCCACAAGGAAGGGTTCGAGCTGCCGCGCGGAGCCGAACTTCTAGCCTCGGGCGAGACCTATCCCAATCAGGCCTATCGCTATGGAAAAAACGCCTGGGGCCTGCAGTTTCACGCCGAGCTGACCCGCGCCATGATGCATAGCTGGGTGGTGCGCGGCGCGCAGCGCTTCGGCATGCCCAATGCGCAGGTGGGCAGCCAGCATCTGGAAGGCCGCATGCTGTTCGACACGCCGCTCAGGGCCTGGCTGGGCAATTTCCTCGATCTCGTTTTTGAGGGGAAGGCGCAGCGCTGA	MLFDPSRQQRKQPSLLIVLHQERSTPGRVGQMLVEKGYRLDIRRPALGDDLPQTLEKHAGAIIFGGPMSANDSHDYVKAEIDWLKVPLKENKPFLGICLGAQMLSKHLGGKVEADREGKVEIGWYPLHATEHGRLLMPHWPKMVYHFHKEGFELPRGAELLASGETYPNQAYRYGKNAWGLQFHAELTRAMMHSWVVRGAQRFGMPNAQVGSQHLEGRMLFDTPLRAWLGNFLDLVFEGKAQR	PGPT0021580_6469	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021580-guaA-K01951	NA	NA
BMS010_05691	1233	entS_2	COG0477	Enterobactin exporter EntS	ATGTCCCTCCCTTCCGCCGAAAACCGTTTCGGTGCATTCCGGCACAGTTCCTATCGCCGCTTTTTCAGCGCCCGGTTTTTTTCGGCCTTCGCCATCCAGATCGTCAGCGTCTCGGTCGGCTGGCAGATGTATGAGGTGACCGGCAACGCCTTTTATCTCGGCCTGATCGGTCTTTTCCAGTTTCTGCCGTCGCTGCTTCTGATCCTCGTCACCGGAACGGTCGCCGACCGGCACAATCGTCGGCGCATCATGTCCATATGCCTGCTGATTGCGGCGCTGTGCGCTGCCGCTCTTCTGGGTTTTACGCTGACGCACAGCTTTTCCCCCTGGCCGGTCTTCGCCATTCTTGTCGTCTTCGGCATAGAGCGCGCCTTCATGGGGCCGGCGGTTCAGTCGCTGGCGCCCAATCTCGTGCCGGTGGAGGATTTGCCCAACGCCATCGCCTGGAATTCCTCTTCGTGGCAGATGGCGTCCATTCTCGGTCCCGTCGCCGGCGGCCTGCTTTATGGCCTCGGTGCTTCCGTCGCCTATAGTGTGGCATTCGTGCTCTTCATCGTATCGGCGACGCTTGCGGTGACGATCCGCAAGCCGGAACAACGCGGCCCGGCAAAAGCCATCAGTCTCGAAACCATGCTCGCCGGGTTCAAATTCATCGCGCAGGAAAAAATCGTTCTCGGTGCGATCTCGCTCGATCTTTTCGCGGTGCTGCTGGGCGGCGCGGTGGCGCTGATGCCGATTTTTGCCAAGGAAGTGCTGACGCTCGGGCCATGGGGCCTCGGGCTTCTGCGGGCAGCACCCGGCATCGGGGCCATCACCGTTGCGGTCATTCTGGCCTTCAAGCCCATTCGTCACCACGCCGGTCTGCTGATGTTTACCGGCGTCGGCCTCTTCGGCATCTCCACCGTGGTCTTCGGGCTTTCGCAAACCGCGTGGCTGTCCATCGCCGCGCTGGTGGTCATGGGCGCATCCGACATGGTATCGGTTTATGTTCGCGAGACCCTGATCGCGCTGTGGACGCCGGATGAGGTGCGCGGGCGTGTGAATGCCGTGAACATGGTGTTCGTCGGCGCATCGAACGAGCTGGGCGAATTCCGCGCCGGCACTATGGCGCATGTCGTCGGGGCCGTACCGGCCGTTGTCATCGGCGGGGCGGGCACGCTTGCTGTGGCAATTATCTGGGCGCTCGGTTTCTCCAGGCTGCGCAAGATCGACAATCTGGATGCGCCGCACTGA	MSLPSAENRFGAFRHSSYRRFFSARFFSAFAIQIVSVSVGWQMYEVTGNAFYLGLIGLFQFLPSLLLILVTGTVADRHNRRRIMSICLLIAALCAAALLGFTLTHSFSPWPVFAILVVFGIERAFMGPAVQSLAPNLVPVEDLPNAIAWNSSSWQMASILGPVAGGLLYGLGASVAYSVAFVLFIVSATLAVTIRKPEQRGPAKAISLETMLAGFKFIAQEKIVLGAISLDLFAVLLGGAVALMPIFAKEVLTLGPWGLGLLRAAPGIGAITVAVILAFKPIRHHAGLLMFTGVGLFGISTVVFGLSQTAWLSIAALVVMGASDMVSVYVRETLIALWTPDEVRGRVNAVNMVFVGASNELGEFRAGTMAHVVGAVPAVVIGGAGTLAVAIIWALGFSRLRKIDNLDAPH				NA	NA	NA	NA	NA
BMS010_05692	291			hypothetical protein	ATGCTTGCCCTGTTTCAGACCATCGATCTGGCCTTGAACCTATATACGTGGGTGCTGATCGCCAGCGCTATTTTTTCCTGGCTTTACGCCTTCAACGTCATCAATTCCCGCAACCAGTTCGTGAACGCCATCGGCAGCTTTCTGTTCAATGTCACGGAACCGGTTCTGCGCCCCATCCGCCGCATTCTGCCCAATCTCGGCGGCATCGATATTTCGCCGATCATCGTTCTCCTGATCATCTTCTTCATCCGCTCCTTCATGTGGAACACGCTTTACCCGATGGTCGCTTGA	MLALFQTIDLALNLYTWVLIASAIFSWLYAFNVINSRNQFVNAIGSFLFNVTEPVLRPIRRILPNLGGIDISPIIVLLIIFFIRSFMWNTLYPMVA	PGPT0013730_2406	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IVa_PILUS_HOMOLOG_PROTEIN,PGPT0013730-yggT|ylmG-K02221	NA	NA
BMS010_05693	312			hypothetical protein	TTGAGCACCTGCTGGCAGAAGCATGGCGACCATGTCCGCCTGACCGTCCGCCTCACACCGAATGGCGGGCGGGACGCCGTCGACGGCGTGGAAAAGGATGCGGAGGGAAACGCGCATCTGAAGGCCCGCGTCAGCGCCGTGCCGGAAGGCGGCAAGGCCAACAAGGCCCTGATTGTTTTGCTGGCGAAAAAACTCGGCCTGCCGAAATCCTCCATCAGCTTCGCTTCAGGCGAAACGGCGCGTAAAAAAATCCTCCGGATCGACACCGACCCGGAGGATTTCGAAGAGCTATTCAAAAAGCTCGAAAAGTAA	MSTCWQKHGDHVRLTVRLTPNGGRDAVDGVEKDAEGNAHLKARVSAVPEGGKANKALIVLLAKKLGLPKSSISFASGETARKKILRIDTDPEDFEELFKKLEK				NA	NA	NA	NA	NA
BMS010_05695	534	ppa_1	COG0221	Inorganic pyrophosphatase	ATGCGTATCGATGCAATTTCCGTAGGCAAGAATCCGCCGGATGACGTGAATGTCATCGTTGAAGTGCCGGTCGGTGGACACCCGATCAAGTACGAGATGGACAAGGATGCCGGTGCGCTGATCGTCGATCGCTTCCTCTACACGCCTATGACCTATCCGGGTAACTATGGTTTCGTGCCGCACACCCTGTCTGACGATGGCGACCCTATCGACGTTCTCATCTGCAACACCCGTCCGCTGGTTCCGGGCTGCGTCATCAATGTCCGCCCCATCGGCGTGATGATCATGGAAGATGACGGCGGCAAGGACGAGAAGATCCTCGCCGTGCCGGTTCCGAAGCTGACGCGCCGTTACGACAAGGTTCACAACTACACTGACCTGCCGGAAATCACGCTGAAGCAGATCGAGCACTTCTTCGAGCACTACAAGGATCTGGAGCCCGGCAAGTGGGTGAAGATGGGCGGCTGGCAGGATGTCGACGTCGCCAAGAAGCTGATCGTCGAAGCCATCGAGCGCTACAAGGCGCAGGGCTGA	MRIDAISVGKNPPDDVNVIVEVPVGGHPIKYEMDKDAGALIVDRFLYTPMTYPGNYGFVPHTLSDDGDPIDVLICNTRPLVPGCVINVRPIGVMIMEDDGGKDEKILAVPVPKLTRRYDKVHNYTDLPEITLKQIEHFFEHYKDLEPGKWVKMGGWQDVDVAKKLIVEAIERYKAQG	PGPT0002600_2697	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATASE_ACTIVITY	P-SOLUBILISATION-INORGANIC_PHOSPHATASE,PGPT0002600-ppa-K01507	NA	NA
BMS010_05696	324			hypothetical protein	ATGCTGGTGGTGGAGGTGGCCGGTGTGGTCGCCGGATATGCGACACTGGGCCTCAGCCGGGCACGCGGGCTGCCGCAGGACGGCGAGATTTACGAACTTTATCTCCGGCCGGAATATCAGGGCATCGGGCTAGGCTCGCTGCTGTTTACGGAAGCGCGCAGATTGCTGACCTCGCTTGGCTGCAACGGCATCGTTGTCTGGTGCCTTGAAGACAGCGATGTGGCCAACCGCTTTTTCCGCTCTCACGGTGGCCGCGATATCGCCGAAGGCATGGAAGATTTCGACGGCAAGTCGCTTCGCAAGGTCGGTTTCGTCTGGAACTGA	MLVVEVAGVVAGYATLGLSRARGLPQDGEIYELYLRPEYQGIGLGSLLFTEARRLLTSLGCNGIVVWCLEDSDVANRFFRSHGGRDIAEGMEDFDGKSLRKVGFVWN				NA	NA	NA	NA	NA
BMS010_05697	1821	typA_1	COG1217	GTP-binding protein TypA/BipA	ATGGCACTTCGCAACATCGCGATCATCGCGCACGTTGACCATGGAAAAACGACGCTCGTGGACGAGCTTCTGAAGCAGTCCGGCTCGTTCCGCGACAACCAGCGTGTCGCCGAGCGCGTGATGGATAGCAACGATCTCGAAAAGGAACGCGGCATCACCATTCTCGCCAAGGCGACCTCGGTGGAGTGGAAAGGTGTCCGCATCAACATCGTCGACACCCCCGGCCACGCCGACTTCGGCGGTGAAGTCGAGCGTATCCTGTCGATGGTGGACGGTGCGATCGTTCTGGTCGACAGCTCGGAAGGCCCGATGCCGCAGACCAAGTTCGTGGTCAGCAAGGCGCTGAAGGTTGGTCTTCGCCCGATCGTCGCGATCAACAAGATTGACCGTCCAGATGGGCGTCATGAAGAAGTCATCAACGAAGTCTTCGACCTCTTTGCCAACCTCGACGCCACCGACGAGCAGCTCGACTTCCCGATCCTCTACGGTTCCGGCCGTGACGGCTGGATGAACGTCAACCCGGAAGGTCCGAAGGATCAGGGTCTTGCGCCGCTGCTCGATCTGGTTCTTGAGCACGTTCCGGAGCCCAAGGTAGAAGAGGGCCCGTTCCGCATGATCGGCACGATCCTTGAAGCCAACAACTTCCTCGGCCGCATCATCACCGGCCGCATCGCGTCCGGTTCGATCAAGCCGAACCAGGCTGTGAAGGTGCTTGGCCAGGACGGCAAGACAATTGAAACAGGCCGCATTTCCAAGATCCTCGCCTTCCGCGGTATCGAGCGCACGGCAATTGAGGAGGCCCATGCGGGTGACATCGTCGCCATCGCCGGTCTTTCCAAAGGCACCGTCGCCGACACCTTCTGTGATCCGTCGGTTACCGAGGCGATGCAGGCACAGCCGATTGACCCGCCGACCGTCACCATGTCGTTCATCGTCAACGACAGCCCGCTGGCTGGCACCGAAGGCGACAAGGTTACGAGCCGCGTTATCCGTGACCGCCTGTTCAAGGAAGCAGAAGGTAACGTTGCGCTGAAGATCGAAGAAGCCGAAGGCAAGGATTCGTTCTTCGTTTCCGGTCGTGGCGAATTGCAGCTGGCGGTTCTGATCGAAACCATGCGTCGCGAAGGCTTCGAGCTTGCCGTTTCGCGTCCGCGCGTCGTCATGCACAAGGATGAGAACGGCACCCTCTTGGAGCCGATCGAAGAAGTCGTGATCGACGTTGATGAAGAACATTCCGGCGTCGTCGTCCAGAAGATGTCCGAGCGCAAGGCTGAAATGGCCGAGCTTCGTCCTTCCGGCGGCAATCGCGTTCGTCTGAAGTTCTATGCGCCGACCCGTGGCCTGATCGGCTACCAGTCGGAGCTTTTGACCGACACGCGCGGTACGGCGATCATGAACCGTCTGTTCCACGACTATCAGCCCTTCAAGGGGCAGATTGCCGGTCGCGTGAACGGCGTTCTCTTGTCGAACGGTTCGGGCGAAGCTGTTGCTTATGCCATGTTCAACCTGGAAGATCGCGGCCCGATGATCATCGAGCCGGGTGAGAAGGTCTATGCCGGTATGATTATCGGTATTCACTCTCGCGATAACGATCTCGAAGTGAACGTGCTGAAGGGCAAGCAGCTGACCAACATCCGCGCTGCCGGCAAGGATGAAGCCGTGAAGCTGACGCCGCCGATCCGCATGACGCTCGATCGCGCGCTTTCCTGGATTCAGGACGATGAGCTGATGGAAGTGACGCCGAAGTCCATCCGTCTGCGCAAGATGTTCCTGGACGCCAACGATCGCAAGCGTTTTGAAAAGGCCAAGCTCGCTGTCTGA	MALRNIAIIAHVDHGKTTLVDELLKQSGSFRDNQRVAERVMDSNDLEKERGITILAKATSVEWKGVRINIVDTPGHADFGGEVERILSMVDGAIVLVDSSEGPMPQTKFVVSKALKVGLRPIVAINKIDRPDGRHEEVINEVFDLFANLDATDEQLDFPILYGSGRDGWMNVNPEGPKDQGLAPLLDLVLEHVPEPKVEEGPFRMIGTILEANNFLGRIITGRIASGSIKPNQAVKVLGQDGKTIETGRISKILAFRGIERTAIEEAHAGDIVAIAGLSKGTVADTFCDPSVTEAMQAQPIDPPTVTMSFIVNDSPLAGTEGDKVTSRVIRDRLFKEAEGNVALKIEEAEGKDSFFVSGRGELQLAVLIETMRREGFELAVSRPRVVMHKDENGTLLEPIEEVVIDVDEEHSGVVVQKMSERKAEMAELRPSGGNRVRLKFYAPTRGLIGYQSELLTDTRGTAIMNRLFHDYQPFKGQIAGRVNGVLLSNGSGEAVAYAMFNLEDRGPMIIEPGEKVYAGMIIGIHSRDNDLEVNVLKGKQLTNIRAAGKDEAVKLTPPIRMTLDRALSWIQDDELMEVTPKSIRLRKMFLDANDRKRFEKAKLAV	PGPT0023720_3219	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0023720-typA|bipA-K06207	NA	NA
BMS010_05698	2061	dcp	COG0339	Dipeptidyl carboxypeptidase	ATGCCATCCAAGACCGCGCTTTATCCCGCACTCGTTGACTGGAACGGCCACAATGGTCTGCCGAAATTCGATGCGGTCAGGGATGAGGATTTCGCTCCGGCCTTCGATGCCGCCCTTCTGTCTCACGAACAGGAAATCGATGCGATTGCCGGCAATGCTGAGGCCCCGAGCTTCGAAAACACCGTGACCGCGCTCGAAATCGCCGGAGACGATCTTTCGCGCATTTCGGCGCTGTTCTGGAACAGGGCAGGCGCCAATACCAATGGTGTGATCCAGGCGCTGGAGCGCGAGATCGCACCGAAACTGTCGCGGCACTATTCGAAGATCGGCATGAACGAAGCGCTGTTCAAGCGCATCGATACATTGTGGGAAAAGCGCGGAACGCTTGGGCTGACGGGTGAGGAAAGCCGCGTCCTTGAGCGGCACTGGAAGGGTTTCGTGCGCTCCGGCGCCAAGCTGCCGAAAGACCGGCAGGAACGCTTGGCGGCGATCAATGAGGAGCTTGCGGGTCTCGGTGCGAAATTCGGGCAGAATGTGCTGGCGGATGAAAAGAACTGGAAGCTTCTGCTTTCCACGGAAGAGGAACTTGCCGGTATTCCCGGTTTCCTGCGCGACGCGATGGCGGGTGCGGCCCGTGAGCATGGCGAGGACGGCAAATTTGCCGTCACCCTTTCCCGTTCCATCATCGAACCTTTCCTGACCTTTTCCGAACGCCGCGATCTGCGCGAGCAGGCCTTCAGGGCCTGGGTGGCGCGCGGCGAGAATGGCGGCGAGACCGACAATCGCGAGATCGTCCACCGCACGCTCGAACTGCGCGAGGAAAAGTCAAGGCTTCTCGGCTACGCGAATTTCGCCGCCTACAAGCTTGATGACACGATGGCGAAGACGCCGGATGCCGTGAACGGCCTTTTAGGGCAGGTCTGGGAAAAGGCCGTGCGCCGTGCGGGCGAGGAAGAGGCCGAACTGGCCGCAATCATCGCCGAGGAGGGCAGGAATCACGAAGTGCTGCCCTGGGACTGGCGGCATTATGCCGAAAAGCTGCGGGCACGGAAATTCAGCTTCTCCGAGGCCGAATTGAAGCCTTATCTGCAACTCGAAAAGATCATTGAGGCCTGCTTCGATGTGGCCGGGCGGCTGTTTGGGATTCGGGCGGTCGAAGTCAAAGGCGTCGCCGCCTATCACCCGGATGTGCGGGTTTTCGAAATCCGCGACGAAAAGGGCGGTCTGAAGGCCATGTTCCTCGGCGATTATTTCGCCCGCCCCTCCAAGCGCTCCGGCGCGTGGATGAGCTCCTTCCAGTCGCAGCACAAGCTGCCCTTGAAGAACGGCACGGTCGGAGAAATTCCGATCATCTACAATGTCTGCAATTTCGCCAAACCGGCCGAAGGCAAACCGGCGCTGCTTTCGCTCGACGATGCGCGCACGCTGTTTCACGAATTCGGCCACGCGCTGCATGGCATGTTGTCAAATGTCACTTACCCCTCCGTTTCCGGAACGGGCGTCTCGCGCGATTTCGTCGAATTGCCGTCGCAGCTTTACGAACATTGGCTGACGGTGCCGGAAATTCTGGAAAAATACGCCCTGCATTATGACACAGGCGCGCCGATGCCGAAGGCGCTGCTGGATAAGGTTCTGGCCGCGCAGACCTTCAATGCCGGTTTCAGCACGGTGGAATTCACCTCGTCGGCGATTGTCGACATGGCGTTCCACACGCGGGAAAACGTGAGCGATCCGATGGTCGTGCAGGGTGAGGTGCTCTCCACCCTGAACATGCCGAAGTCTATCGTCATGCGGCATGCGACCCCGCATTTCCAGCACGTTTTCTCCGGCGACGGATATTCGGCCGGCTATTATTCCTACATGTGGTCCGAAGTGCTGGACGCCGATGCCTTTTCGGCCTTCGAGGAAACGGGCAACCCCTTCGATGGCGAGATGGCGCGCAAGTTGAAAGACAATATCTATTCCGTCGGCGGTTCCATCGATCCGGAAGAGGCCTATCTTGCTTTTCGCGGCAAGATGCCAAGCCCGGACGCCATGCTTTTGAAGCGTGGTCTGGCATAA	MPSKTALYPALVDWNGHNGLPKFDAVRDEDFAPAFDAALLSHEQEIDAIAGNAEAPSFENTVTALEIAGDDLSRISALFWNRAGANTNGVIQALEREIAPKLSRHYSKIGMNEALFKRIDTLWEKRGTLGLTGEESRVLERHWKGFVRSGAKLPKDRQERLAAINEELAGLGAKFGQNVLADEKNWKLLLSTEEELAGIPGFLRDAMAGAAREHGEDGKFAVTLSRSIIEPFLTFSERRDLREQAFRAWVARGENGGETDNREIVHRTLELREEKSRLLGYANFAAYKLDDTMAKTPDAVNGLLGQVWEKAVRRAGEEEAELAAIIAEEGRNHEVLPWDWRHYAEKLRARKFSFSEAELKPYLQLEKIIEACFDVAGRLFGIRAVEVKGVAAYHPDVRVFEIRDEKGGLKAMFLGDYFARPSKRSGAWMSSFQSQHKLPLKNGTVGEIPIIYNVCNFAKPAEGKPALLSLDDARTLFHEFGHALHGMLSNVTYPSVSGTGVSRDFVELPSQLYEHWLTVPEILEKYALHYDTGAPMPKALLDKVLAAQTFNAGFSTVEFTSSAIVDMAFHTRENVSDPMVVQGEVLSTLNMPKSIVMRHATPHFQHVFSGDGYSAGYYSYMWSEVLDADAFSAFEETGNPFDGEMARKLKDNIYSVGGSIDPEEAYLAFRGKMPSPDAMLLKRGLA	PGPT0020985_1899	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020985-prlC-K01414	NA	NA
BMS010_05699	459	slyA_4		Transcriptional regulator SlyA	ATGGGCACTAAACGCGAAAAAGACTCATTGGCATTTTTACTGAACAGCGGCGCACGCCTGCTGAACAGTGCGTTTGAGCGCCGAATTTCTGAAGCCGGACTGGGCCTGACGCCCGGCGAAGCGCGTGCATTGCTGACGGTTGCCGTCGTTGATGGCAGCAAACAGTCGGATATCGCCGCCCGGCTCGGCATCGAGCCGATGACGATCTGCGCCTATCTCGACAAGCTGCAATCTCTCGATCTCATCGAACGCCAGCAGGACCCGCAGGACAGGCGCTCCAAGCGCATCGTGCTGACAAAAAACTCCACCGACATGCTGGAAGCCGTGCGCCAGGAAATCGATGAACTCGTCCGTCACGCCACGCAGGGCCTGAACGAAGAAGAAGTCGCGCTTTTCCGCAGCTTCCTGCAAACCCTTCGCAACAATCTCCAGCCGGAACAGCCGGGCCAGAGCTGCTGA	MGTKREKDSLAFLLNSGARLLNSAFERRISEAGLGLTPGEARALLTVAVVDGSKQSDIAARLGIEPMTICAYLDKLQSLDLIERQQDPQDRRSKRIVLTKNSTDMLEAVRQEIDELVRHATQGLNEEEVALFRSFLQTLRNNLQPEQPGQSC	PGPT0016255_736	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0016255-sylA-K06075	NA	NA
BMS010_05700	1197	ydhC_1		Inner membrane transport protein YdhC	ATGTCGCCAGAAACGATCATGTCCAGAAAGCGCACTGCCATACTCGGTGCGTTGCTGACGGCGCTGGCGCCGATTTCCATGGCGATCTACACACCGGCCATGCCGGAACTGACGCGGGTTTTCTCCACCACGGAATCCGCCGTCAAACTCAGCCTCTCGCTTTATTTCGCCGGTTTCGCCATCGCCCAGCTACTCGCCGGCCCGGCATCCGATGCCTTCGGTCGGCGAAAGGTGAGTCTCGTCTTCCTCTCCATCTTTCTGGGCGGCGGACTGCTGGCGATCTTCGCCCCAACAATTGAAGTGCTGCTCTTCGCCCGGCTTATTCAGGGCATTGGCGCCTCCGTCGGCATGACGGTGGCGCGCGCCATCGTGCGCGATCAATTCACGGGTACCGAAGCCTCCAGCATCATGAACCTCATTGGCATCATGCTGGCCGTTGGCCCCGCCATGGGCCCGACCATCGGCGGGCTTTCGCTTGCGGCTTTCGGGTGGCAATCGGTATTTTTCCTCATGGCCGGCCTCGGGGCCATCGCCATCTTCTCCGTCGTGGTCTTCCTGCGCGAGACGACGAGCCCGGACAAGAACCTGATCCGCCCGCACCGCCTCCTGTCGGCCTATGGGACATTGCTCACCGAGCCGCGTTTTCTTCTGGCCGCACTGGTGCTCGGCGGTTCCATCGGCGCGCTTTATGCGCAGGCGACGATGCTGACCTTCATCCTCATCAACAAGGTCGGCATGACACCCACCGCCTTCGGCATCGGCATGCTGATGCAGACCGGCGCTTATTTCGTCGGCTCCATCGCCCTGCGTTATATCGCACCGCGGCTGGGCGACCGCCGTTCGGTCGTCCTCGGCCTCTGTTTTTCGGGAACAGGCGGTCTCCTTATCCTGCTGTCGGTGTTCCTGATACCGCCATCCTTTCTTTCGATCATGGGACCCGTGGCGGTGGCGACGGTCGGCATCGCCTTATTGACGCCATCCATGGTGACGGCGGCCCTCGCCCCATTCCCACATATTGCCGGCTCGGCATCGGCGATGATGGGCTTCATTCAGATGGGGTCGGGTTTTACAGGCGGCGCCGCAGCCTCGCTTATCGGTTCGCCGTTGACCGGCTTCGGCATCATCATCCCCGTGATGGAATTCACCGCAATCGCCAGCTATATCGGCTTCCGTATCGTCTCCAGACGAGAGACATGA	MSPETIMSRKRTAILGALLTALAPISMAIYTPAMPELTRVFSTTESAVKLSLSLYFAGFAIAQLLAGPASDAFGRRKVSLVFLSIFLGGGLLAIFAPTIEVLLFARLIQGIGASVGMTVARAIVRDQFTGTEASSIMNLIGIMLAVGPAMGPTIGGLSLAAFGWQSVFFLMAGLGAIAIFSVVVFLRETTSPDKNLIRPHRLLSAYGTLLTEPRFLLAALVLGGSIGALYAQATMLTFILINKVGMTPTAFGIGMLMQTGAYFVGSIALRYIAPRLGDRRSVVLGLCFSGTGGLLILLSVFLIPPSFLSIMGPVAVATVGIALLTPSMVTAALAPFPHIAGSASAMMGFIQMGSGFTGGAAASLIGSPLTGFGIIIPVMEFTAIASYIGFRIVSRRET	PGPT0029005_5104	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029005-bcr|tcaB-K07552	NA	NA
BMS010_05701	1224	argG_1	COG0137	Argininosuccinate synthase	ATGGCACTTCCGAAAGACGTTAAGAAAGTCGTTCTCGCCTATTCCGGCGGTCTCGACACCTCGATCATCCTGAAATGGCTTCAGACGGAACTCGGCGCGGAGGTCGTGACCTTCACCGCCGATCTCGGCCAGGGGGAAGAACTTGAGCCGGCGCGCAAGAAGGCCGAGATGCTGGGCATCAAGGAAATCTTCATCGAGGACGTCCGCGAAGAGTTCGTGCGTGATTTCGTGTTCCCGATGTTCCGCGCCAACGCCGTTTATGAAGGCGTCTATCTGCTCGGCACCTCCATTGCCCGCCCGCTGATTTCCAAGCACCTGATCGAAATCGCCAAGAAGACCGGCGCCGACGCCATCGCCCATGGCGCCACCGGCAAGGGCAACGACCAGGTCCGTTTCGAGCTTTCGGCCTATGCGCTGAACCCGGATATCAAGATTATCGCTCCCTGGCGCGACTGGACGTTCAAGAGCCGTACCGACCTCTTGAACTTCGCCGAACAGCACCAGATTCCGGTTGCCAAGGACAAGAAGGGCGAGGCGCCTTTCTCGGTCGACGCCAACCTGCTGCACTCCTCTTCCGAGGGCAAGGTTCTGGAAGACCCGGCGCAGGAAGCACCGGAATATGTGCATATGCGCACCATTTCTCCGGAAGCCGCGCCCGATAAGGCAACCGTCATCAAGGTCGGTTTCCGCAAGGGCGATGCCTGCTCCATCAACGGCGTCGAAATGTCGCCGGCGACGCTTCTTGCGACACTGAACAACTATGGCCGCGAAAATGGCATCGGCCGTCTCGATCTGGTTGAGAACCGCTTCGTCGGCATGAAGTCGCGCGGCGTTTACGAGACGCCCGGCGGCACCATCCTGCTTGCCGCGCATCGCGCCATCGAATCCATCACGCTTGACCGGGGTGCAGCCCACCTCAAGGACGAGCTGATGCCGCGCTACGCCGAGCTTATCTATTACGGCTTCTGGTTCTCGCCAGAGCGCGAAATGCTGCAGGCGCTGATCGACAAGAGCCAGGAACATGTGGAAGGCGAAGTGACGCTGAAGCTCTACAAGGGCAATGTCATGGTAACCGGCCGCGAGAGCGCCAAGTCGCTCTATTCCGACGCGCTGGTGACCTTCGAGGACGACCACGGCGCTTATGACCAGAAGGATGCGGCAGGCTTCATTAAGCTCAACGCGCTGCGTCTTCGCACGCTCGCGAAGCGCAATATCAGCAAATAA	MALPKDVKKVVLAYSGGLDTSIILKWLQTELGAEVVTFTADLGQGEELEPARKKAEMLGIKEIFIEDVREEFVRDFVFPMFRANAVYEGVYLLGTSIARPLISKHLIEIAKKTGADAIAHGATGKGNDQVRFELSAYALNPDIKIIAPWRDWTFKSRTDLLNFAEQHQIPVAKDKKGEAPFSVDANLLHSSSEGKVLEDPAQEAPEYVHMRTISPEAAPDKATVIKVGFRKGDACSINGVEMSPATLLATLNNYGRENGIGRLDLVENRFVGMKSRGVYETPGGTILLAAHRAIESITLDRGAAHLKDELMPRYAELIYYGFWFSPEREMLQALIDKSQEHVEGEVTLKLYKGNVMVTGRESAKSLYSDALVTFEDDHGAYDQKDAAGFIKLNALRLRTLAKRNISK	PGPT0020130_2544	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0020130-argG-K01940	NA	NA
BMS010_05702	855	hcaB_6		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGACGACCATCCACCCCGCATTCAAGGAAGATAATGTCGCTGTCATCACCGGTGCGGCATCCGGCATCGGACTTGCCGCCGCCCGCAAATTCGCCGGTTTCGGCATGAGTGTCGTGCTCGTCGATCTCGACGGCGACAGGCTTGCCGCAGCCCATGCGGATATCCTGGCCGTCGCAAAGGACGGCGAAGCGCAGATCGTCGCCATCCCGACCGACATATCCAAACTCGATGAACTGGAGGCGCTGGAGCGCGCCGTGATCCAGCGTTTCGGACGCGTCCACGTCCTGATGAACAACGCCGGCATTCAGCCCGGCAGCGCCATTTTCGGCCCACAGGCCAATTGGGAAAAAATCATCAACGTCAATCTGATGGGCGTCGTGAACGGCAGCCGCGTTTTCGGCCAGGGCATGATCGCCCATGGCGAGCCGGCGCTCATCATCAATACCGGCTCGAAACAGGGCATCACCACACCTCCCGGCGATCCCGCCTACAACGTCTCGAAATCCGGCGTCAAAACCTTCACGGAAGCGCTTCAGCACGAATTGCGCAATATTCCGAACGGCTCGGTTTCCGCCCATCTTTTGATCCCCGGTTACGTTTTCACCGGCCTCACCGCCCATGGCAGAACGGAAAAGCCGGAGGGCGCATGGACCGGCGAACAGACCGTCGACTTCATGGTCGAAAGCATCGGCCGCGGTGATTTCTACATTCTCTGCCCGGATGGCGAGGTGGACCGCCCGACGGATGAAAAACGCATTCTCTGGGCGGCCTATGACATCGTCCAGAACCGCCCGCCGCTGTCACGCTGGCACACGGAATACTCCGCCGCCTTCACCAGCTTCCTGAAAAACTGA	MTTIHPAFKEDNVAVITGAASGIGLAAARKFAGFGMSVVLVDLDGDRLAAAHADILAVAKDGEAQIVAIPTDISKLDELEALERAVIQRFGRVHVLMNNAGIQPGSAIFGPQANWEKIINVNLMGVVNGSRVFGQGMIAHGEPALIINTGSKQGITTPPGDPAYNVSKSGVKTFTEALQHELRNIPNGSVSAHLLIPGYVFTGLTAHGRTEKPEGAWTGEQTVDFMVESIGRGDFYILCPDGEVDRPTDEKRILWAAYDIVQNRPPLSRWHTEYSAAFTSFLKN				NA	NA	NA	NA	NA
BMS010_05703	648	rhtB_6	COG1280	Homoserine/homoserine lactone efflux protein	ATGGATTTCGTTCCAGGCCTGCCAACATTGATCGCCTTCACCATCGCCATTCTGCTTCTGGCGGTGACGCCGGGGCCTGACATGACGCTGTGGATCAGCCGCTCGCTGCGCGAGGGCCGGACGGCGGGTTTCATGACGCTTCTGGGAACCAATATCGGCATTACCGTGCACACGATGCTCGTCGCCTTCGGCGTCGCCGCCCTCATCGTCGCTTCGCCGACCGCTTTCATGATCCTGAAGACCGGCGGGGCCGCGTATCTCGTCTGGCTCGCCATTCAGGCGATCCGCAAGGGCTCGGATTTCGTGATGGTGAAAAGCACCGGCGAAAAAGCGCAGTCCTCGCTGAAATCAGCGCTGTTGAACGGCATCTGGGTGAACCTGCTGAACCCGAAGATCATCATCTTTTTCATGACCTTTCTGCCGCAATTCGTCAGCGCATCCGACCCGCATGTAACCGGCAAGCTGATCTTCCTCGGCATCTGGTCGATCATCGTCGCGCTGCCGATCGGCATCGGCATCGTGATCGCCGCAGATGTTCTGTCAGCCTGGCTGCAACGCAACCGGAAAATTCTGCGCGGACTGGATTATACGATCGCCGGCGTCTTTTCGCTTTTTGCCGTCAAGATTTTCTTCACGCAGGCGCGCTGA	MDFVPGLPTLIAFTIAILLLAVTPGPDMTLWISRSLREGRTAGFMTLLGTNIGITVHTMLVAFGVAALIVASPTAFMILKTGGAAYLVWLAIQAIRKGSDFVMVKSTGEKAQSSLKSALLNGIWVNLLNPKIIIFFMTFLPQFVSASDPHVTGKLIFLGIWSIIVALPIGIGIVIAADVLSAWLQRNRKILRGLDYTIAGVFSLFAVKIFFTQAR				NA	NA	NA	NA	NA
BMS010_05704	795	ecfA2	COG1122	Energy-coupling factor transporter ATP-binding protein EcfA2	GTGATTTCCCTTTCCGATATCCAGGTTGTCTTCGGGCGCGGCACGCCGCTGCAAAAGCAGGCGCTCTCCAAGATCAATCTCACCATCGACGATGGCTCCTTCGTCACCGTCATCGGTTCCAATGGCGCTGGCAAATCGACGCTGCTCGGCGTTCTGGCGGGCGATGTCCTGCCGACGGCGGGCAAGGTGATGATCGGCGGCGCCGATGTTACCCGCAAACCGACCGCCAGCCGGGCTGGGCGAGTGGCGCGCGTGTTTCAGGACCCGCTGGCGGGCAGCTGCGGCGCGCTCACCATTGAGGAAAATCTGGCGCTCGCAGCGTCGCGCGGCGAGCGTCGCGGCCTTCTGCCGGCGCTTGGGCGCGGCCGTCGGGATTTCTTCAAGGAGCGCATTGCCTCGCTCAATCTCGGGCTGGAAAATCGTCTGAAGGACCGCATGGACCTTCTGTCGGGGGGCCAGAGGCAGGCGGTCTCGCTCGTCATGGCGACGCTGTCCGGCTCGGATGTGCTGTTGCTCGATGAACATACGGCTGCTCTCGATCCCGGCATGGCCGAATTCGTGATGGAGCTGACCCGCAAGGTCGTGTCGGAGCGCAAGCTGACGACGCTGATGGTTACCCATTCCATGCGTCAGGCGCTGGATTATGGCACTCGCACGATCATGCTGCATGCCGGTGAGATCGTGCTCGACGTCTCCGGTGACAGCCGCAAGGATCTCGAGGTCGAGGACCTGATTGACATGTTCCGCAAGATACGCGGCCAGAAGCTCGACGATGATGAGTTGCTGATCGGTTGA	MISLSDIQVVFGRGTPLQKQALSKINLTIDDGSFVTVIGSNGAGKSTLLGVLAGDVLPTAGKVMIGGADVTRKPTASRAGRVARVFQDPLAGSCGALTIEENLALAASRGERRGLLPALGRGRRDFFKERIASLNLGLENRLKDRMDLLSGGQRQAVSLVMATLSGSDVLLLDEHTAALDPGMAEFVMELTRKVVSERKLTTLMVTHSMRQALDYGTRTIMLHAGEIVLDVSGDSRKDLEVEDLIDMFRKIRGQKLDDDELLIG	PGPT0013589_103	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013589-opuCA-NA	NA	NA
BMS010_05705	882			hypothetical protein	GTGAGCCAAATCGCCTTCTGGGGTGCCGTGGAGCTGGGACTGGTCTTCGCTTTCGTGGCGATCGGCGTTTATCTCGCTTTCCGGGTGCTTGATTTTCCTGACCTGACCGTGGACGGTTCGTTTCCGCTCGGCGCTGCCGTGGCTGCCGTGCTGATCATCGCCGGTCTGAATGCCTGGGTTGCGACGGCGATTGCGATGGTGGCCGGTGCCGCCGCCGGCATCGTGACTGCGACGCTCAACGTTCGTTTCAAGATTCTCAACCTGCTTGCCTCGATCCTGACGATGATCGCGCTGTTTTCCGTCAATCTGCGCGTGATGGGAAAGCCGAATGTCGCGCTGCTCAATCAGGACACGATGATCTCGCCGTTTTACGGCCTCGGCCTGTCGGAATATCTGGTGCGGCCGCTGTTCGTCGGCGCGCTGGTGCTGATCGCGGTCATTCTGGTCTGGCGTTTTCTTGAAAGCGATGCGGGCCTTGCCATGCGGGCGACGGGCGCCAATGCGCGGATGGCGCGGGCGCAGGGCGTGAAGACCGGCAACCAGATCTACCTCGGCATGGCGCTTTCGAATGCGCTGGTCGCTCTCGGCGGCGCGCTGTTTGCGCAGACCAACGGCTTTGCGGATGTGACCTCCGGTGTCGGCACCATTGTCGTCGGCCTTGCCGCCGTAATCATCGGCGAAACGCTGTTCGGCGCGCGTGGCATTCTGATCGCGCTGATCGGCTGCGTTTTTGGCTCCATCGCCTATCGTCTCGCCATTCAGCTTGCCCTGTCGAGCGATGTGCTGGGCCTCAAGGCGTCCGATCTCAATTTCGTAACGGCGGTATTGGTGGCAATCGCATTGATCCTGCCCCGACTGCGCCGCGGGGGAGCAACATCGTGA	MSQIAFWGAVELGLVFAFVAIGVYLAFRVLDFPDLTVDGSFPLGAAVAAVLIIAGLNAWVATAIAMVAGAAAGIVTATLNVRFKILNLLASILTMIALFSVNLRVMGKPNVALLNQDTMISPFYGLGLSEYLVRPLFVGALVLIAVILVWRFLESDAGLAMRATGANARMARAQGVKTGNQIYLGMALSNALVALGGALFAQTNGFADVTSGVGTIVVGLAAVIIGETLFGARGILIALIGCVFGSIAYRLAIQLALSSDVLGLKASDLNFVTAVLVAIALILPRLRRGGATS				NA	NA	NA	NA	NA
BMS010_05706	954			hypothetical protein	ATGCGCGCATTCATTCTGGCTCTCGCTGCCGCGAGCGCCCTCGTTCTGCCGGCCAAGGCTGAAAACGTCACCGTCGCCGTCACCGCCATCGTCGAACATCCGGCGCTTGATGCCGCCCGTGATGGCGTCAAGGCCGCGCTTGCCGAGGCTGGTTACAAGGAAGGCGAGAACCTCAAGTTCCTTTATGAGTCCGCGCAGGGCAATCCCGGCACCGCGGCGCAGATCGCCCGCCAGTTCGTAGGCGATGCGCCCAACGTCATCGTGCCGATCTCGACGCCGTCCGCGCAGGCCGTCGTTGCCGCCACGCGCGACATTCCGGTCGTCTTCACGGCGGTTTCCGATCCGGTCGGCGCACAGCTCGTCAAGGACATGCAAAAGCCCGGCCGCAACGTGACCGGCCTTTCCGACATGCTGCCGGTTGGCGAACATCTGGCGCTCATCAAGGAAATCTCCCCGAACGCCAAGTCGATCGGCTTCATCTACAATTCGGCCGAGGCCAACTCCGTTTCGACGCTGGCCCTCTTGAAGGCCGAAGCCGAGAAGGCGGGTCTCAAGGTTGTTGAATCCGTCGCCACCAAGTCCGCAGAAGTGCAGGGCGCAACCCGCGCGCTGGTCGGCAAGGCCGATGTGATCTACGTTCCGACCGACAACACCATCGTTTCCGCTTTCGAAGCGGCTGCCAGTGTTGCTTCCGAAGCCAAGATCCCGCTTTACGCCGCCGATACGGATTCCGTCGCCCGCGGTGCGGTTGCCGCCCTCGGCTTCAACTATTTCGACGTTGGCAAGCAGACCGGTGCCGTCGTCGTCCGCATCCTCAAGGGTGAAAAGCCAGGCGAAATTCCGGCAACCGTTGCTGTCGGCACTGATCTGGTGATCAACAAGAAGGCCGCCGAAAAAGCTGGCGTTACCTTCCCGGAAAGCATCACCAAGCGCGCCACCAAGGTCATCGACTGA	MRAFILALAAASALVLPAKAENVTVAVTAIVEHPALDAARDGVKAALAEAGYKEGENLKFLYESAQGNPGTAAQIARQFVGDAPNVIVPISTPSAQAVVAATRDIPVVFTAVSDPVGAQLVKDMQKPGRNVTGLSDMLPVGEHLALIKEISPNAKSIGFIYNSAEANSVSTLALLKAEAEKAGLKVVESVATKSAEVQGATRALVGKADVIYVPTDNTIVSAFEAAASVASEAKIPLYAADTDSVARGAVAALGFNYFDVGKQTGAVVVRILKGEKPGEIPATVAVGTDLVINKKAAEKAGVTFPESITKRATKVID				NA	NA	NA	NA	NA
BMS010_05707	1341	rlmN_2	COG0820	Dual-specificity RNA methyltransferase RlmN	ATGCGCGAAAAATGCTCCGCCTTTGATTTTCTCGACATGCAGACGATTTTCCGCCTATCCGACAGGCTGGTCGTGCGATGCATGGAATGGTGGGATAGCGTGATGTCCGTAATGCAAGCCCCTGCCGGCCTGGCAGTCAAAACCCCGCTGATCGCCAATAGCGATCTGATGTCCGGCAAGCCGTCGCTGATCGGCCTGACGCGTGAGGACATGGGCGAGGCGCTGGCCGAGATCGGCGTGCCGCAGAAGCAGGTGAAGATGCGCGTCAGCCAGTTGTGGAACTGGCTTTATGTGCGCGGCGTCTCCGATTTCGACAATATGACGAATGTCGCCAAGGAGCTTCGCGAGAAGCTGAAGGCGGCCTTCACCATCGCCCGCCCGGAAATTGTCGAGGAGCAGATCTCCAATGACGGTACCCGCAAATGGCTGATGCGGTTCCCCCCGCGCGGTGCGGGACGTCCGGTCGAAATCGAGACGGTCTATATTCCCGAAGAGGGTCGCGGCACGCTGTGCATTTCGAGCCAGGTGGGCTGTTCGCTGACCTGTTCCTTCTGTCACACCGGCACCCAGCGCCTTGTGCGCAACCTGACGGCTGAGGAAATTCTCTCCCAGCTTCTGCTGGCCCGTGATAGGCTCGGTGATTTTCCCGATGGTTCGACGCCGGTTGGCGCTTATGTGCCGAGCGAAGGCCGCAAGGTCTCCAACATCGTGATGATGGGCATGGGCGAGCCGCTTTATAATTTCGAGCATGTGAAGACCGCGCTTCTGATTGCCACCGATGGCGACGGCCTGTCGCTCTCCAAGCGTCGCGTCACGCTCTCCACGTCGGGCGTTGTGCCGGAAATCTTCCGCACCGGCGATGAGATCGGCGTTATGCTGGCGATTTCGCTGCATGCGGTGCGCGACGAGCTGCGCGACATGCTGGTGCCGATCAACAAGAAATATCCGCTGAAGGAACTGATCGAGGCCTGCCGCAAATATCCGGGCCTTTCCAATGCCCGCCGCATCACCTTCGAATATGTGATGCTGAAGGATGTGAATGACAGTCTGGAAGACGCCAAGATGCTGGTGCAGCTTCTGAAGGGCGTTCCGGCCAAGATCAACCTCATTCCGTTCAACCCATGGCCGGGCACGAACTATCAGTGCTCGGACTGGGCGCAGATCGAGAAGTTCGCCGATTTCATCAATCAGGCCGGTTATGCCTCGCCGATCCGCACGCCGCGCGGTCGCGATATTCTCGCTGCCTGCGGCCAGCTGAAGTCGGAATCCGAGCGCATGCGCAAGACCGAAAGGTTGGCTTTCGAGGCGATGATGATCGCCAACCATGGCGCGGATGACTGA	MREKCSAFDFLDMQTIFRLSDRLVVRCMEWWDSVMSVMQAPAGLAVKTPLIANSDLMSGKPSLIGLTREDMGEALAEIGVPQKQVKMRVSQLWNWLYVRGVSDFDNMTNVAKELREKLKAAFTIARPEIVEEQISNDGTRKWLMRFPPRGAGRPVEIETVYIPEEGRGTLCISSQVGCSLTCSFCHTGTQRLVRNLTAEEILSQLLLARDRLGDFPDGSTPVGAYVPSEGRKVSNIVMMGMGEPLYNFEHVKTALLIATDGDGLSLSKRRVTLSTSGVVPEIFRTGDEIGVMLAISLHAVRDELRDMLVPINKKYPLKELIEACRKYPGLSNARRITFEYVMLKDVNDSLEDAKMLVQLLKGVPAKINLIPFNPWPGTNYQCSDWAQIEKFADFINQAGYASPIRTPRGRDILAACGQLKSESERMRKTERLAFEAMMIANHGADD				NA	NA	NA	NA	NA
BMS010_05708	504			hypothetical protein	ATGTTTGTAAGAAGTGTAGCAACCGCAGCGGCCATTTTGCTGACCAGCGTCGGCGTAGCATCTGCACAGTCGCCCACGCGCATCCAGCAGTTCAATGCGTGGGGTGCCTATTCGTACAAATCGGGCAACAGCACCGTCTGCTACGTTCTTTCCATTCCGACCGCCAAGGAACCGGCAAGCGTCGACCATGGCGATATCTTCTTCATCGTGTCGCAGCGTCCCGGCCAGAACATTTCCTATGAGCCGCAGGCCATGGTGGGTTATCCGCTGAAGCAGGGTTCCAAGGTCAATGTGACGATCGACAACAAGAACTTTGTCATGTTCACCAAGGACAAGGCAGCCTGGGTTGAAAACGCTGCTGAAGAACCGGCACTCGTCGCCGCCATGAAGGGCGGCAAGTCGATGACCGTCAAGGCAGTTTCCGGCCGTGGCACCGCGACCTCCTATTCCTATTCGCTGTCGGGTATTTCGGCGGCTCTCAAGCAGATCGAGAGCTGCAAGTAA	MFVRSVATAAAILLTSVGVASAQSPTRIQQFNAWGAYSYKSGNSTVCYVLSIPTAKEPASVDHGDIFFIVSQRPGQNISYEPQAMVGYPLKQGSKVNVTIDNKNFVMFTKDKAAWVENAAEEPALVAAMKGGKSMTVKAVSGRGTATSYSYSLSGISAALKQIESCK				NA	NA	NA	NA	NA
BMS010_05709	381			hypothetical protein	ATGGATGATGTGAAAATCGGTGAAATTCTTCTGCCGGGTGAAACCGACAGGCAGCAGGAGCGCGAGACTGTGGTGCGGGCGAAATTCTGGCCCAAGCTGAAGCGCGTGATGTCGAAGGTGCCTTTCGCACGCGATGCGGCGGCTGCCTATTATTGCGCGATCGACCGCGATACGCCCTTGCGCGCCAAGGGTATCATTCTGGCGGCGCTCGCCTATTTCATCATGCCGATGGATGCCGTGCCGGATGTGCTGGCCGTTATCGGATTCACCGACGATATTGCCGTCATCACGGCGGCGCTCGCCATGATCCGCGCCCACATCAAGATGGAGCATTACGAGGCGGCTGACGCCATGCTGAAACGGCAGCAGGAAGCCGGGTAA	MDDVKIGEILLPGETDRQQERETVVRAKFWPKLKRVMSKVPFARDAAAAYYCAIDRDTPLRAKGIILAALAYFIMPMDAVPDVLAVIGFTDDIAVITAALAMIRAHIKMEHYEAADAMLKRQQEAG				NA	NA	NA	NA	NA
BMS010_05710	306	phhB	COG2154	Putative pterin-4-alpha-carbinolamine dehydratase	ATGAAATATCCCAGACTCGAGCCGGACGCCATCCGGCAGGCCCTGTCGAAACTCGAGGGCTGGTCCCTGCGCGAGGACGGGGCGGCGATCGTCCGTTCTTTCAAGTTCTCCAGCTTTGCGGAAGCCTTCGGTTTCATGGCCGAATCCGCACTTGTCGCGGAAAGGCTCAACCACCATCCCGAATGGTCCAATGTCTATTCGCGGGTCAAGGTCTGCCTTACCACCCATGATTCGCAGGGTGTGACGGAGCGGGATTTTCTTCTGGCCGAGGCCATGCAAAAGGCGGCTGCGGGCCGAAGCAATTGA	MKYPRLEPDAIRQALSKLEGWSLREDGAAIVRSFKFSSFAEAFGFMAESALVAERLNHHPEWSNVYSRVKVCLTTHDSQGVTERDFLLAEAMQKAAAGRSN				NA	NA	NA	NA	NA
BMS010_05711	450			Putative low molecular weight protein-tyrosine-phosphatase	ATGGGCAATATCTGCCGTTCACCGCTGGCCGAAGGGGTTTTGAGACACCTTGCCGATGGCGCGGCCATGTCTGATCAGCTTACCATCGATTCCGCCGGCACCGGCGGCTGGCACGCGGGTGACGCACCCGATCCGCGATCGATCACCATGGCGCGACGGCATGGCGTCGATATTTCCGGGCAGCGGGCGAGACAGGTCACCCCTGCGGATTTCGAGACCTTCGACCTGATACTCGCCATGGACGAAAACAATCTGGCGAACCTGCAGCAATCGAGCCCGGAAAGACAGCGACACAAGATCCATCTCTTTATGGACTATGCCACTGGCCGTCGCGAGAACGTCCCCGATCCCTATTACGGGGCCGAGGACGGGTTCCTCAAGGTCTACAACATGCTTTTGGCAGGATGCAGATCGTTGCTCGAAAAAATGGAGCTGGACCGCGCCTCGTGA	MGNICRSPLAEGVLRHLADGAAMSDQLTIDSAGTGGWHAGDAPDPRSITMARRHGVDISGQRARQVTPADFETFDLILAMDENNLANLQQSSPERQRHKIHLFMDYATGRRENVPDPYYGAEDGFLKVYNMLLAGCRSLLEKMELDRAS	PGPT0014530_5311	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-WZA-WZC-WZB-WEC_METABOLISM	CE-EPS-EPS-WZA-WZC-WZB-WEC_SYSTEM,PGPT0014530-yfkJ|wzb-K01104	NA	NA
BMS010_05712	594	thpR_3		RNA 2',3'-cyclic phosphodiesterase	ATGCCGAGACTGTTTACCGCCCTCGAAATTCCGCGCAATGCGGCTATGAGCCTCTCATTGTTGCGCGGTGGTCTGCCGGGAGCCCGGTGGATCGATGTGGAGAATTATCACATAACCCTGCGTTTTATCGGTGACATCGACGGGCGGACCGCCGATGAGGTTGTTGACAGGCTGGACCGGATCGAAAGGCCGGAATTCCAGCTCAGTCTCACCGGTATGGGGTCCTTCGGTTCCAAGAAACCGCATTCCATCTGGGCCGGGGTTTCTCCCTCGCCGGAAATGCATGCGCTTCAGGCGGAAATCGAGCGGATCTGCCAGAGGATCGGTCTCCCGCCCGATCCGCGCAAGTTCATGCCGCATGTCACGCTGGCGCGGTTGCGCTCCTCCCGCGTGGACGATGTGGTGCAGTATCTTTCCGGACGCGGCAACTTCCGCACCTCGCCCTTCACGGTCGGCCGTTTCGTGCTGATGTCGTCGAAGGAATCGGTGGGCGGCGGACCCTATATCGTTGAAGAGGCGTTTCCGCTTCACGAGGCGCGGTCCAGCTCCATTTTTTCGAGCAACGATCTGCATCCTGCCAAAAGCATGTTGTAG	MPRLFTALEIPRNAAMSLSLLRGGLPGARWIDVENYHITLRFIGDIDGRTADEVVDRLDRIERPEFQLSLTGMGSFGSKKPHSIWAGVSPSPEMHALQAEIERICQRIGLPPDPRKFMPHVTLARLRSSRVDDVVQYLSGRGNFRTSPFTVGRFVLMSSKESVGGGPYIVEEAFPLHEARSSSIFSSNDLHPAKSML				NA	NA	NA	NA	NA
BMS010_05713	651			Arylesterase	ATGAGATTTAAAGCTGCCCTGTTTCACTTCATCGTCATTTTTGCCGCCGCCTTTTCCGCAACTGTTGTCATGGCTCAGGAGCGGACATTGCAGCTGGTCGGACTCGGCGACAGCCTGATGGCCGGCTATCAGCTCCCCCCCAATGACAGCTACACCGCACAGCTTGAGGCTGCATTAAAGGGCAAGGGCGTCAACGTCGCCATCGCCAATGCCGGTGTGTCCGGCGATACCTCTTCCGGTGGTCTGGCGCGGGCGGACTGGTCGGTTCCCGACGGTACGGACGGGGTCATCCTGGAACTCGGCGCAAATGACGCTCTGCGCGGAATTCCCCCGGAACAGACCGAAAAGAACCTCGACACCATCATTTCCGGTTTTCAGAAGCGCAACATAGCCGTGTTGCTGGTCGGCATTATGGCGCCGCCGAATATGGGCGATGATTATGCCAGACGCTTCAATCCGATCTTTCCGAAGCTCGCCGAAAAATACAACCTGCCGCTTTATCCCTTCTTTCTGGACGGCGTGGTGACGGATGATGCGCTGAAGCTGGACGACAAGATGCACCCCAATACGAAGGGTGTGGCGATGATGGTCGAAAAATCTTTGCCGGCTGTTGAAAGCTTCATCACGACAATCGGTGCGCAAAAAAAATAA	MRFKAALFHFIVIFAAAFSATVVMAQERTLQLVGLGDSLMAGYQLPPNDSYTAQLEAALKGKGVNVAIANAGVSGDTSSGGLARADWSVPDGTDGVILELGANDALRGIPPEQTEKNLDTIISGFQKRNIAVLLVGIMAPPNMGDDYARRFNPIFPKLAEKYNLPLYPFFLDGVVTDDALKLDDKMHPNTKGVAMMVEKSLPAVESFITTIGAQKK	PGPT0001840_1318	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001840-tesA-K10804	NA	NA
BMS010_05714	711	lolD_3	COG1136	Lipoprotein-releasing system ATP-binding protein LolD	GTGACGAAAAGCATCATAGAGCTGAAGAAAGCCGACCTCACGCTCGGCAATGCCGCCGCCTCCGTTCACGTTCTCAAGAACATCGATCTTTCAATCGCAGAGAGCGAGGCGGTTGGTATCGTCGGCCCCTCCGGATCGGGAAAATCGACGCTTCTAATGGTGCTTGCCGGTCTCGAGAGGCTCGATAGCGGTGAAATCATCATCGCGGATACGGAACTGCACAAGCTCGGTGAAGACGCGCTGGCGGATTTTCGTGGCCGGAACATCGGCATTGTTTTCCAGTCCTTCCATCTCATCGCCAATATGACAGCACTGGAAAACGTTGCGGTTCCACTCGAACTGGCAAACACACCCAACCCCTTCGAGATCGCCAGACGCGAGCTCGTCGCCGTCGGTCTCGGCGAACGTCTCAATCATTATCCCGGCCAGCTCTCCGGCGGCGAACAGCAGCGTGTCGCCATCGCCCGCGCACTTGCCCCCTCACCGGCCGTGCTGATCGCCGACGAACCGACAGGCAATCTCGATACCGATACGGGGAAACAGATCGCCGATCTCCTGTTTGCCAAACAGGCCGAACGCGGCATGACCATGGTGCTCGTCACCCATGATCCTTCGCTCGCCGCCCGCTGCTCGCGGCAGATCAAGGTACGCTCCGGCGAGATCGAGGGCGACAGCGCTCGCCCCCAGATGGCGCGGGCGGTACCGGCATGA	MTKSIIELKKADLTLGNAAASVHVLKNIDLSIAESEAVGIVGPSGSGKSTLLMVLAGLERLDSGEIIIADTELHKLGEDALADFRGRNIGIVFQSFHLIANMTALENVAVPLELANTPNPFEIARRELVAVGLGERLNHYPGQLSGGEQQRVAIARALAPSPAVLIADEPTGNLDTDTGKQIADLLFAKQAERGMTMVLVTHDPSLAARCSRQIKVRSGEIEGDSARPQMARAVPA	PGPT0013345_8213	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
BMS010_05715	2562			hypothetical protein	ATGATCGGATCCCTTCTCCCGTCCGCCGCCAATATCAGAAACGCCGCAAGGCTCGCCCGGCGCGAAATTCGCGGCGGGTTACGCGGCTTTTACATTTTCCTCGCCTGCATTGCGCTTGGAACCGGCGCCATCGCCGCCGTCAATTCCGTCTCGCGCGCGGTGACCAGCGCCATCGCCACGGAAGGTCAGTCCATATTGGCGGGCGATGTGCGTTTCGAACTGCGCAACAGGCAAGCGACACAGGAAGAGCGGGCCTATCTCGACAGCCTCGGAACCGTCGCGGTTTCCACCGGGCTGCGCTCCATGGCGCGCCTCGCCGACGGGTCCGAACAGACCCTGACGGAAGTGAAGGCTATCGATGGCGCTTACCCGCTCTATGGCACCTTCGTTGCCGAGCCGAACCGACCGCTGAATGAGCTTCTGGCCGGGAACGTCGACACCTACGGCGCCATTGCCGCGCCGCTTCTGCTGGAACGGCTCGGCACCAAGGTCGGCGATGAAATCCTGCTCGGCAATGTCAAGCTGAAACTGACCGGCACGGTGGTCGACGAGCCGGATGCTCTCTCCGACGGTTTCGGTTTTGCTCCACGACTGATGGTCAGCCGCGACGCCCTTTTCGCCTCGGGTCTCGTTCAGAACGGCAGTCTGGTCGAGCATGCCTACAAGATCAGGCTGAACGATCCTTCGGCACGGTCAACGATGACCGATTCGGCCAACAAGGCCTTTCCCGATGCCGGCTGGTCCATCCGCACCAGTGACCGGGCGGCCCCATCGCTCACCGAAAACGTCAATCGCTTCTCGCAATTCCTGACGCTGGTGGGCCTCACCGCCCTCATCGTCGGCGGTGTCGGCGTTGCCAATGCCGTTCGCGCGTTTCTGGATTCCAAGCGCACCACCATCGCCTCGTTGAAATGCTTAGGCGCACCGGCCTCGGTGGTCACCATGACCTATCTTTTCCAGATCGTCTTCATTGCCGCCGTTGGCATTGTCATCGGCCTCGTGGTCGGCGCCGTCGCGCCGCTCATCGCCATGCGGTTTCTGGAAGGCGTGCTGCCCGTGCCGGAGGAGCTTGCCTTCTATCCCGGCGCGCTCGGCCTTGCCGCCCTGTTCGGCCTCCTGACGACGCTCGCTTTCGCCATCGTGCCGCTTGGCCAGGCGCGCGAAGTGCCGGCAACGGCGCTTTTCCGCGAACAGGGTTTCGAGGAGGGAAGCTGGCCATCCTGGCCCTATCTGGCCGCAACCGGCCTGCTGCTGGCAGCGCTCGCCGCGCTGGCCATCCTTTCGGCGGAAGACCGCTTCATCGCCTCGGTCTTCCTTGCCGCCATCGCTTTTGCCTTCGTGGTGCTGAGGCTCGTTGCCTCCGGCGTGAAAGCCATCGCCAAGCGTAGTCCGCGCGTTCATTCGGCTGCGCTCAGGCTGGCGATCGGCAATATTCACCGGCCGGGCGCGCTCACCCCGTCTGTCGTCCTTTCGCTCGGCCTCGGCCTGACCCTGCTCGTGACGCTCACGCTTATAGACGGCAATCTGCGCCGCGAACTGACGGACAGCCTGCCGGACCGCGCACCGAATTTCTTCTTCGTGGATATTCAGGGCAGCGAACTTCAGGGCTTCCGCGATCTTCTGAAGCGGGAAGCGCCGGAAGGCGCGCTGACCGAAGTGCCGATGCTGCGCGGCCGCATCCTGGCGCTCAACGGCGAGGATGTCACGAAAATGGAGGTGCCTCCAGCCGGACGCTGGGTGCTGCGCGGCGACCGGGGTATCACCTATTCGCAGGATATTCCCGAAAACGCGACTCTCACAGAAGGAAGCTGGTGGGGACCGGACTATAGCGGCGAGCCGCTGGTCTCCTTCGCGGCCGAGGAGGCCGGGGAACTGGGTCTCAAGATTGGCGACACGGTGACCGTCAACGTGCTCGGCCGCAGCATAACGGCAAGGATCGCCAATCTGCGCAATGTCGAATGGGAATCCCTGTCAATCAATTTCGTCATGGTGTTTTCGCCAAACACCTTCCGCGGCGCGCCGCATGCGTGGCTGGCGACACTCGCCGACCCCTCCGCAACCGCCGCCGACGAAGGCCGCATATTGCGCGCTGTAACCAACGCCTTTCCGACGATCACCAGCGTGCGCGTGAAGGATGCGCTCGACGTCGTCAACCGGCTTGTCGGCCAGCTTGCCACCGCCATTCGCGCCGCCGCAGCCGTCGCCCTCATCGCCTCCGTCCTGGTTCTCGCCGGCGCTCTTGCCGCCGGAAACCGCGCCCGCACCCATGACGCGGTCATCCTGAAAACGCTGGGCGGCACACGAAACCTGCTCATCCGCGCCTTCTCCTACGAATATATGATGCTAGGCCTCGCCACCGCCGTCTTCGCACTTTTCGCCGGCGGCGTCTCCGCATGGTTCGTGATCGCCCGCATCATGAAGCTGCCCTCCAGCTTCCTGCCGGATGTGGCGATCGGAACGCTCGTCGTCGCCCTCGTCATGACGGTGGGCATCGGCCTCATCGGCACATGGCGGATTCTCGGGCAGAAGGCAGCTCCGGTTCTCCGGCAGGCAGGTGAATGA	MIGSLLPSAANIRNAARLARREIRGGLRGFYIFLACIALGTGAIAAVNSVSRAVTSAIATEGQSILAGDVRFELRNRQATQEERAYLDSLGTVAVSTGLRSMARLADGSEQTLTEVKAIDGAYPLYGTFVAEPNRPLNELLAGNVDTYGAIAAPLLLERLGTKVGDEILLGNVKLKLTGTVVDEPDALSDGFGFAPRLMVSRDALFASGLVQNGSLVEHAYKIRLNDPSARSTMTDSANKAFPDAGWSIRTSDRAAPSLTENVNRFSQFLTLVGLTALIVGGVGVANAVRAFLDSKRTTIASLKCLGAPASVVTMTYLFQIVFIAAVGIVIGLVVGAVAPLIAMRFLEGVLPVPEELAFYPGALGLAALFGLLTTLAFAIVPLGQAREVPATALFREQGFEEGSWPSWPYLAATGLLLAALAALAILSAEDRFIASVFLAAIAFAFVVLRLVASGVKAIAKRSPRVHSAALRLAIGNIHRPGALTPSVVLSLGLGLTLLVTLTLIDGNLRRELTDSLPDRAPNFFFVDIQGSELQGFRDLLKREAPEGALTEVPMLRGRILALNGEDVTKMEVPPAGRWVLRGDRGITYSQDIPENATLTEGSWWGPDYSGEPLVSFAAEEAGELGLKIGDTVTVNVLGRSITARIANLRNVEWESLSINFVMVFSPNTFRGAPHAWLATLADPSATAADEGRILRAVTNAFPTITSVRVKDALDVVNRLVGQLATAIRAAAAVALIASVLVLAGALAAGNRARTHDAVILKTLGGTRNLLIRAFSYEYMMLGLATAVFALFAGGVSAWFVIARIMKLPSSFLPDVAIGTLVVALVMTVGIGLIGTWRILGQKAAPVLRQAGE	PGPT0013350_2792	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
BMS010_05717	738	ybhL	COG0670	Inner membrane protein YbhL	ATGGCTGACTTCAATAACTACCAGAATCGCATGGCGCAGACGCGTGCACAGTCTGGTGCGATGATCGATGAAGGTCTTCGCGCCTATATGCTCAAGGTTTATAACCTGATGGCGCTGGCTCTGGTCATCACCGGCGTTGCAGCGTTCGGCACCTATACGCTTGCCGCTTCCAACCCGGCTTTCGCCCAGCTGCTTTTCGCGTCGCCGCTTCGTTGGGTCGTGATGCTCGCTCCGCTGGCACTGGTCTTCTTCCTTAGCTTCCGCATCCAGAACATGAGCGTTTCCGCTGCGCAGACGACGTTCTGGGTTTACGCCGCGCTGATGGGTGTTTCGCTCTCCTCGATCTTCCTGGTCTACACCGGCCAGAGCATCGTGCAGACCTTCTTCGTGACCGCGGCCTCGTTCGGTGCGCTCTCGCTTTACGGTTACACGACCAAGAAAGACCTGTCTGGCATGGGTTCGTTCTTGATCATGGGCCTGTTCGGTCTGATCATCGCTTCGATCGTCAACATCTTCCTTGCATCCTCCGCGCTGCAGTTCGCGATTTCCGCGATTGGCGTGCTGATCTTCGCAGGCCTGACCGCCTACGACACCCAGAAGATCAAGGAAATGTATTTCGATGCTGACGATGTTGCCGTCGCTGGCCGCAAGGCCATCATGGGCGCGCTGACGCTCTATCTCGACTTCATCAACCTCTTCACCTTCCTCCTGCAGTTCCTCGGAAACCGCGACGACTAA	MADFNNYQNRMAQTRAQSGAMIDEGLRAYMLKVYNLMALALVITGVAAFGTYTLAASNPAFAQLLFASPLRWVVMLAPLALVFFLSFRIQNMSVSAAQTTFWVYAALMGVSLSSIFLVYTGQSIVQTFFVTAASFGALSLYGYTTKKDLSGMGSFLIMGLFGLIIASIVNIFLASSALQFAISAIGVLIFAGLTAYDTQKIKEMYFDADDVAVAGRKAIMGALTLYLDFINLFTFLLQFLGNRDD				NA	NA	NA	NA	NA
BMS010_05718	393			hypothetical protein	ATGACCGATCAACCGGATGTGCAGCAGGTGCAGACCGCTTCACGCGACAATTCCACCGTTATCGATCTCCGCGAATATAAAAAGAACAAGGACCCTTTGCCGGTCACCTTTCACCGCCGCGAGCTGGATGCGATCCTGCGCATCTATGGCCGCATGGTGGGAGAGGGTGAATGGCGTGACTACGCCATCGATCACCTCAAGGAAAAGGCGGTATTTTCCGTCTTCAAGCGTTCAGGTGAAATGCCGCTTTTCAGGATCGAGAAAAACCCCAAGCTGGCTGCGAAACAGGGCGCCTACTGCGTGGTGAACACGGATGGCCGCATTCTCAAGCGAGGGCATGAGTTGCCGCAGGTTCTGAAGGTCTTCGACAAGGTTTTGAAGCTCATCGAGTGA	MTDQPDVQQVQTASRDNSTVIDLREYKKNKDPLPVTFHRRELDAILRIYGRMVGEGEWRDYAIDHLKEKAVFSVFKRSGEMPLFRIEKNPKLAAKQGAYCVVNTDGRILKRGHELPQVLKVFDKVLKLIE				NA	NA	NA	NA	NA
BMS010_05720	741			hypothetical protein	ATGCCGCTGAAATTCCCCCTGTCGATATGTCTTCTCGGCACGTTCCTCGTCACCTCCGCGCAGGCGCAGGAGGCCGTGAAGGGCGTCGTCGAATTGTTCACGTCGCAGGGATGCTCATCCTGCCCGCCGGCCGATGAAGCCCTGCGCAAGATGATCCAGAAGGGCGATGTCGTCGGTCTTTCCTACCATGTCGATTACTGGAACTATCTCGGCTGGACGGATTCGCTGGCGTCTAAGGAAAATACCGACCGGCAATATGGTTACATGCGCGCGCTCGGCCGCAACGGGGTCTATACGCCGCAGGCCATTCTGAACGGACGCGACCACGTCAAGGGTGCCGATGTTCGCGGCATCTATGACAGGCTGGATGCGTTCAAGCGCGAGGGCAAGGGACTGAACGTGCCGGTCTCGTCGAAATTTGCCGGTGATGAGGTGGAGATCGATATTGGCGCCGGCAGCGGCAAGGCCGATGTCGTCGTCGCCTATTTCACGCGAGAGCAGACCGTGGATGTGCAAAAGGGCGAAAACCAGGGGAAAAAAATGTCCTACTGGCACAGCGTCTATGATGTGCAGACGGTCGGCATGTGGGATGGTTCGCCGATGACGGTGAAGCTTCCGGCGAGCGTGGTGGCCAAGGTGAAAAAGGGCGGCTGCGCCGTGCTGTTGCAGACGGCCAATGCCGGCGGCGATCCTGCGGCAATTGTCGGCGCAAGTATCCTGCTTGGAAATGAAAACCCCTGA	MPLKFPLSICLLGTFLVTSAQAQEAVKGVVELFTSQGCSSCPPADEALRKMIQKGDVVGLSYHVDYWNYLGWTDSLASKENTDRQYGYMRALGRNGVYTPQAILNGRDHVKGADVRGIYDRLDAFKREGKGLNVPVSSKFAGDEVEIDIGAGSGKADVVVAYFTREQTVDVQKGENQGKKMSYWHSVYDVQTVGMWDGSPMTVKLPASVVAKVKKGGCAVLLQTANAGGDPAAIVGASILLGNENP				NA	NA	NA	NA	NA
BMS010_05721	2694	acnA	COG1048	Aconitate hydratase A	ATGCCCAAATCACTCGACAGTTTCCAATGTCGTTCCGTCCTAACCGTTGACGGTAAGGAATACATCTATTTCAGCCTTCCCAAGGCTGAAGCCAATGGCCTGAAGGGCGTTTCCAAGCTGCCCTATTCCATGAAGGTTCTCTTGGAAAACCTGCTGCGTTTCGAGGACGGCCAGTCCGTCACCAAGGAACACATTCTGGCGGTTTCCGAATGGCTGAACAATAAGGGCCTGACCGAAACCGAAATCGCCTATCGCCCCGCCCGCGTTCTGATGCAGGACTTTACCGGCGTTCCCGCCGTTGTCGACCTTGCCGCCATGCGTGACGGCATCAAGGCCCTTGGCGGCGATCCGGAAAAGATCAACCCGCTGGTTCCCGTCGATCTCGTCATCGACCACTCGGTCATCGTCGACGAATTCGGCACGCCGAGCGCCTTTGCCCGCAACGTCGAGCTGGAATATGAGCGCAACGGCGAGCGTTACCGCTTCCTGAAGTGGGGCCAGCAGGCGTTCGAGAATTTCCGTGTGGTTCCGCCCGGCACCGGCATCTGTCACCAGGTCAACCTCGAATATCTCGGCCAGACCGTCTGGACGAAGGAGGAGGATGGCGAGACGATTGCTTATCCGGATACCTGCGTCGGCACCGATTCGCACACGACCATGATCAATGGTCTCGGCGTTCTCGGCTGGGGCGTGGGCGGTATCGAGGCAGAAGCGGCCATGCTCGGCCAGCCGGTCTCCATGCTTCTGCCCGAGGTTATCGGCTTCAAGCTGACCGGCAAGGTGAAGGAAGGTGTGACTGCGACCGACCTAGTGCTGACCGTGGTTCAGATGCTGCGCAAAAAGGGCGTTGTCTCCAAATTCGTCGAATTCTTCGGCCCCGGCCTCGATTCGATGTCTCTGGCCGACCGCGCCACCATCGGCAATATGGGCCCGGAATATGGCGCGACCTGCGGCTTCTTCCCGGTCGATAGCGAGACCATCAATTACCTGACCATGTCCGGTCGTGCGAAGGACCGCATCGCGCTCGTCGAAGCCTATTCGAAGGCGCAGGACATGTGGCGCACCGGCGACGGTTCCGACCTCGTCTTCACGGACACGTTGGAACTCGACCTCGGCGACGTCGTGCCCTCCATGGCCGGCCCCAAGCGTCCTGAAGGCCGCCTGCCGCTCGAAACCATCGCGCCGAATTTCGCGACGGCTCTTGAAAACGACTATAAGAAGCCCGGCCAGCTTTCGAGCCGTTATGCGGTCGAAGGTGAGGCTTTCGATCTCGGTCATGGCAATGTGGCGATTGCCGCCATCACCTCCTGCACCAATACTTCCAACCCCTCGGTTCTCATCGCTGCCGGCCTTCTCGCCCGCAACGCGGTTGCCAAGGGTCTGAAGTCCAAGCCGTGGGTCAAGACGTCGCTCGCGCCCGGATCGCAGGTCGTTGCCGAATATCTCGACAAGTCCGGTCTGCAGAAGGACCTCGACGCGATCGGCTTCAACCTCGTCGGCTTCGGCTGCACGACCTGCATCGGTAACTCCGGTCCGCTGCCGCCGGCGATCTCCAAGACGATCAACGACAAGGGCCTGATCACCGCCGGTGTTCTCTCGGGCAACCGCAACTTCGAGGGTCGTATTTCGCCGGATGTTCAGGCGAACTATCTGGCCTCGCCGCCGCTCGTCGTGGCCTATGCCCTTGCCGGCACGGTCCAGAAGGATCTGACGAAGGAGCCGATCGGCGACGACCAGAACGGCAATCCCGTCTACCTCAAGGATATCTGGCCGACCTCCAAGGAAATCCAGGAATTCATCCTGAAATACGTCACCCGCGAGCTTTACGAAACGAAGTATGCCGACGTGTTCAAGGGCGATGCGAACTGGCAGGCGGTTCAGGTTCCTCCGGGCCAGACCTATGCCTGGGACGACCAGTCGACCTATGTTCAGAATCCGCCCTATTTCGTCGGCATGGGCAAAAAGGGGTCGGGCCTCAAGAACATCAAGGGCGCGCGCGTCCTCGGTCTCTTCGGCGACAAGATCACCACCGACCATATTTCTCCGGCCGGTTCGATCAAGGCCGCTTCGCCTGCCGGTGCCTATCTGACGGAGCATGGCGTCGCCGTAGCTGACTTCAACCAGTACGGCACGCGTCGCGGCAACCATGAAGTGATGATGCGCGGCACCTTCGCCAATATCCGCATCCGCAACCACATGCTCGGCCCGAACGGCAAGGAAGGTGGCTACACCATCCATTATCCGTCCAAGGAAGAGATGTCGATCTATGACGCGGCCATGAAATACAAGGCGGAAGGCGTCCCGCTCGTCATCTTCGCCGGTGTCGAATATGGTAACGGCTCGTCCCGTGACTGGGCGGCGAAGGGCACCAACCTGCTCGGCGTCAAGGCTGTCATTGCGCAGTCTTTCGAACGTATCCACCGTTCGAACCTCGTTGGCATGGGCGTCGTTCCCTTTGTCTTCGAAGAAGGCACTACCTGGGCGAGCCTCGATCTCAAGGGTGACGAAACCGTCGAGATCGACGGGCTCGAAGGTGAAATCAGGCCGCGTGAAAAGAAGATCGCCAAGATCACCTATAGCGACGGTTCGGTGAAGGAAGTTCCGCTTCTTTGCCGCATCGATACGCTGGACGAAGTGATCTACATGAACAACGGCGGCATTTTGCAGACCGTTCTTCGCGATCTGGCCGCATAA	MPKSLDSFQCRSVLTVDGKEYIYFSLPKAEANGLKGVSKLPYSMKVLLENLLRFEDGQSVTKEHILAVSEWLNNKGLTETEIAYRPARVLMQDFTGVPAVVDLAAMRDGIKALGGDPEKINPLVPVDLVIDHSVIVDEFGTPSAFARNVELEYERNGERYRFLKWGQQAFENFRVVPPGTGICHQVNLEYLGQTVWTKEEDGETIAYPDTCVGTDSHTTMINGLGVLGWGVGGIEAEAAMLGQPVSMLLPEVIGFKLTGKVKEGVTATDLVLTVVQMLRKKGVVSKFVEFFGPGLDSMSLADRATIGNMGPEYGATCGFFPVDSETINYLTMSGRAKDRIALVEAYSKAQDMWRTGDGSDLVFTDTLELDLGDVVPSMAGPKRPEGRLPLETIAPNFATALENDYKKPGQLSSRYAVEGEAFDLGHGNVAIAAITSCTNTSNPSVLIAAGLLARNAVAKGLKSKPWVKTSLAPGSQVVAEYLDKSGLQKDLDAIGFNLVGFGCTTCIGNSGPLPPAISKTINDKGLITAGVLSGNRNFEGRISPDVQANYLASPPLVVAYALAGTVQKDLTKEPIGDDQNGNPVYLKDIWPTSKEIQEFILKYVTRELYETKYADVFKGDANWQAVQVPPGQTYAWDDQSTYVQNPPYFVGMGKKGSGLKNIKGARVLGLFGDKITTDHISPAGSIKAASPAGAYLTEHGVAVADFNQYGTRRGNHEVMMRGTFANIRIRNHMLGPNGKEGGYTIHYPSKEEMSIYDAAMKYKAEGVPLVIFAGVEYGNGSSRDWAAKGTNLLGVKAVIAQSFERIHRSNLVGMGVVPFVFEEGTTWASLDLKGDETVEIDGLEGEIRPREKKIAKITYSDGSVKEVPLLCRIDTLDEVIYMNNGGILQTVLRDLAA	PGPT0001465_2662	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001465-acnA-K01681	NA	NA
BMS010_05722	642	ccmA_2	COG4133	Cytochrome c biogenesis ATP-binding export protein CcmA	ATGGATTTGACGGCGGAAAATCTTGGCGTGCGACGCGGCGAAGATTTCATATTCATGAATATTTCCTTCAAGTTAAGCGACGGTGAGGCTCTTGTGTTGACCGGTCGCAACGGTTCAGGAAAATCCACCCTGCTGCGCACGGTGGCCGGCCTGCTGCGGCCCGAACAGGGACGAATAAAGATAGCCGGCAAAGAAATAGACGCTGACATGCGCCCGTCTGAGGCCTGCCATTATCTTGGCCATCGCAATGCGATGAAAACCGAACTGACCGTTTCGGAGAATCTTCGGTTCTGGAAGGACTTCCTCGGCGATTTTTCCGGCGGTGCGGGCATGGCAATCGATGAGGCGGCGGAGATCGTCGGCCTCGCCGGCATTACCCACCTGCCCTTCGGTTATCTCTCCGCCGGCCAGCAGCGGCGTTTTGCCATGGCGAAACTTTTGATTGCATGGCGACCGGTGTGGATTCTCGATGAGCCGACGGCGGCGCTAGACAAGGCTGCGGACGGGATGTTTACCGATCTCGTGAAAAACCACCTTGGGAAAGGTGGGATCGTTCTGGCTGCGACCCATCAGCCTTTGGGGCTGGAGAAGGCGCAGGAATTACAGATGACGGGTTTTGCGGGTGTGGAGGCTTGGGCATGA	MDLTAENLGVRRGEDFIFMNISFKLSDGEALVLTGRNGSGKSTLLRTVAGLLRPEQGRIKIAGKEIDADMRPSEACHYLGHRNAMKTELTVSENLRFWKDFLGDFSGGAGMAIDEAAEIVGLAGITHLPFGYLSAGQQRRFAMAKLLIAWRPVWILDEPTAALDKAADGMFTDLVKNHLGKGGIVLAATHQPLGLEKAQELQMTGFAGVEAWA				NA	NA	NA	NA	NA
BMS010_05723	7053			hypothetical protein	ATGGGGATGCTGAAGGGGGAGGTCAGGCATAGCCGGCTGCTGGCGGGGTTGGCTTGGCTGCTGCTGTGCGCCGGAAGTCTGGCCCAGGCGGCGGATGCCTGCCGTGCGGTTTTCAGCAGCGGTTTGCAGACCCATGGCAGCGGCGGTGTCGTCTTCCAGTGGGGCGCACAACTGCTGGGCAACACCAACCCAGTGATCGATACCCGCAGTGTGCGGAACCCGTGGGGTACGCCCACATGTGGTACGCAAAGCTGCCAGGCCAGCGGTTTCGACGCATCCTCCCTGAACCTGGCGCTGCCAAATATCGTCGCGCAGCACGACCTGCGCGTGAATTATCTGGGGAATGGCGAAGCGGGTGGCGAGGCGTTGAATCGCTACCGCTCCATTACTCTGGATGCCGGTGCCACCCTGAGCTTCAACCCACGGCATCAGGCCTATTACATCCAGAGGCTCAGCCTCGCCTACGGTGCCAAGGTCACGCTGGCACCGGGGCGCTATTGGATCGGCCAGCTGGACATGGCCGCCAACAGCCAACTGCGTGTGGCGGGCGGAACCGCCAAGGTGATACTGGGCAGCAGTCTGAACCTGCCTTTCCATACCCGTGTCAATGGCGTCGATGACGGTTCGGGAACGCCAGAGTTCCTGCAGCTCTTCGTCCTTGGCGATCTCAACCTGGAGTCTTCCGCCGCGGTCAATGCGCTGGCCTACGTCGAAGGCGACTATCGTGCCGCCTTCGCTGCCCGTTTCAACGGCGCGCTCAATGCCCGTTCGGCGGAACTCGGCACCGCCGCTCGCATCGAGAACCGTCCGGCCGCCATCGCGACGCTACCCTGGAACAGCCAGTGCCAGGAACGAGGCGATCTGGATAGCGACGGCCTGATCGACCTGTTCGACGACGACACCGATGGCGATGGCTACGACGACGAACGAGAGCGTGTCGCCGGCAGCGACATGCGTGATGGCCAGAGCACGCCGGGCGTACCGCCACCCTCCACCCAGCCGAATCTCTGCGTGGCGGCTTTCGCCAAAGGCTTGCAAACCCACGCCAGCGATGGCCGCATCGGCTTCGGCTTCAACGCGCAATTACGCGATGGGCCGACGGCATACCTTCCGGCCATGCGTGTCGACAACAGCTTCGCGTCGGTCGTTCGCAGTTGCGGCAGCAGCGATTGCCAGGCCAGCTTCACGCCAGCCCGGGTGCCGGCCATGCCGGCGTTCCTCAAGACGACAGACGGCTTTCGCCAGGATGTGCCTTTCGCTGGCAGCGTGACGCTCGACGGCAGTCGCAAGGAGTGGGCTCGCCTGACGGTGGGTGGCCTGGCCAGTGCGCGTTTCACGACCGCCGGCAGCTACCGGTTGCGCGAGCTGGAAGTCGGCTACCGGGGCACACTGGAGCTGGCGCCGGGGGACTATTGGATCGAGAAGCTGATCGTCGGCACCGAAGCCCGCATCCTGCCCCTGGCTGGCAGCGGCACCGTTCGCCTACACGTGCTGAACAACCTCGATCTGCCGTGGCAGGCCCGCCTCAATGCCACCGGCTACGAACAACCAGGCGATCCGTCCCGCTTGCTGGTGTTGGCCGAAAATGGCGTCACCCTGGCCTCCAGCACGACGGTAGCGGGTTTCATCTATGCCCGTGGCAATCTCACCCAGCAGTACGGGGCCTTGCTGTACGGCGGTGCCGTGGCGGCCAATCTGTCGCTGGATACCCTGGCGCGTACGCACTTCAACGCCGCTGCCCTGACCAAGGTCGACTTCGGTTTGTTGTGCGATCTGGATGGCGACGGTATCGGCGACAACCAGGACGAAGACCGCGACGGCGACGGCATCTCCAACGAATATGAAGAGCAGGTCGGGACCAACCCGGACGACCCTGCCAGCGTGCCGCCGGATGCCGATCGAGACGGTATCCCCGATAGCCTCGATGACGACCGCGACGGTGACGGCGTACCCAATGCCCAGGACGCTTTCCCGGATGATCCGTCCGAGAGCAAGGACACCGATGGTGACGGCATCGGCGACAACCGGGACGAGGACCGCGACGGCGACGGCATTTCCAATGCCTATGAGGAGCAGCTCGGTACCGACCCTGACGACCCGGCCAGCAAGCCGGCGGACTTGGATCAGGACGGCATCCCGGACGCCCTGGACGATGATCGTGATGGCGACGGCGTGCCCAATGCCGAAGACGAATTGCCGGACGATCCCACCGACAGCAAGGACCTGGACAAGGACGGCATCGGCGACAAGACCGACCCCGATATCGACGGTGACAATGTCCCGAACGATCAGGACGCCTTCCCCCGCGACCCCACCGAGAATCGCGATACCGACGGTGATGGGGTGGGCGATAACAGCGACCCGGATATCGATGGCGACGGCGTGCCCAACGGTATCGACGCCTTCCCGTTCGATCCCCTCGAGAGCAAGGACACCGACGGCGACGGTATCGGCGACAACGCCGATAGCGATCGTGACGGCGATGGTTACTCCAACGATCTGGAGCAGCAGGTCGGAACCGACCCCGACGACGCCTCCAGCAAGCCGGCGGATCTGGATCAGGACGGCATCCCGGACGTATTGGACGACGACCGCGACGGCGATGGCGTAGCCAACGACGAGGACGAGCTGCCGGACGATCCCACTGACAGCAAGGACCTGGACAAGGACGGTATCGGCGACAGCTCAGACCCCGACATCGACGGCGATGGCGTGTCCAACGAAGAGGACGCTTTCCCCCGGGACCCTGCGGAAAGCAAAGATCTGGACGGTGACGGCATTGGCGACAACGCGGATACCGACCGCGATGGTGACGGCTACACCAACGACGATGAAAGCCAGTTCGGCAGCGATCCCGACGATGCCACGAGCAAGCCGGCCGACCTGGATGGTGACGGTATACCCGATGGCCGGGACGAGGATATCGACGGCGATGGTGTGGCCAACGAGCAGGACGCCTTCCCGCGCGACCCCACGGAAACCAGCGATCTGGATGGCGACGGTATTGGCGACAATGCCGACCCGGACGTCGATGGCGATGGCGTAGCCAACGCCGACGATGCCTTCCCACGCGATCCGGCGGAAAGCAAGGACACCGACGGCGACGGCCAGGGCGACAACAGCGATCCGGACATCGATGGCGATGGTGTGATCAACGGCCAGGATGCCTTCCCGTTCGATCCGACCGAAACCAAGGACACCGACGGCGACGGTATCGGCGACAACACGGATGACGACCGCGACGGCGATGGCATTTCCAACGCCTATGAAGAACAGCTCGGCACCAACCCCGATGACCCGGCCAGCAAGCCGGCGGATCTGGACGGCGACGGCGTACCGGATGCCTTGGACGACGATCGCGACGGCGACGGCGTGCCCAATGACGAAGACGAACTGCCGGACGATCCGACTGACAGCAAGGACCTCGATAAAGACGGCATCGGCGATAAGACCGACCCCGATATCGATGGCGATGGCGTCGCCAACGAGGACGATGCCTTCCCCCGTGACGCGACGGAAAGCAGGGACACCGACGGTGACGGTATTGGCGACAACGCCGACCCGGACATCGACGGCGACGGCGTGCCCAACGGCAACGATGCCTTCCCGCTGGACCCGACGGAGAGCAAGGACACCGATGGCGATGGCATCGGCGATAACGCCGACCCGGACCGTGACGGCGATGGATTCTCCAACGAAGAGGAAATCCAGCTGGGCAGCGATCCGGACGATGCGACGAGCAAGCCGGCGGACCTGGATGGCGACGGCATTCCGGATGCCCGCGACGACGATATAGACGGCGATGGCGTCGCCAATGCCGAGGACGCCTTCCCGCGCGATCCGAGCGAGAGTGCGGACCTCGACCGGGACGGCATCGGCGACAACAGCGACCCGGACATCGACGGCGACGGCGTGGCCAATGGGGACGATGCCTTCCCGCGCGACCCTGCCGAAAGCAAGGACACCGACGGTGACGGCATCGGCGACAACGCCGACCCGGACATCGACGGCGACGGTGTGCCCAACGGCGACGATGCCTTCCCGCTGGACCCGGCTGAGAGCAAGGACACCGACGGCGACGGCATCGGCGACAACGCCGACCCGGACCGTGACGGCGATGGCTATTCCAACGAAGAGGAAATCCAGCTGGGCAGCGATCCGGACGATGCGGCGAGCAAGCCGGCGGACCTGGATGGCGACGGTATTCCGGATGCCCGTGACGACGATATCGATGGCGACGGTGTGGCCAATGCCGAGGACGCCTTCCCACGCGATCCGACCGAAAGCCATGACCTGGACAAGGATGGCATCGGCGATAACAGCGACCCGGACATCGACGGCGACGGTTTCAGCAATGCCGAGGAAGCGGCGGCCGGCAGCGACCCGCGTGATGCCGCCAGCGTGCCGGACCGCGAGGGACCGGAGCTGGTCATCGATGGGCCGGACGTCATCAACGTCAACGAGGACAGTGTCAGCCTGCGGGGCAGCGTGAGCGATGCCGGAAAAGGCGTCGATCGCCTGGTGCTCGTCTCGGACCGCTTCCCCGGCACACCGTTCGCCGTGACCCTGCAAGGCAGCCAATGGACGGCCAGCGTCCCGTTGCTCGAAGGCACCAACCTGCTGACCCTGACCGCCTACGACAAGGCGGGCAACAGCACCCAGCGCACGCGCACGGTGGAGCGCCAGCCGGCAGCCAGCGACATTGGCCTGGTCATCACTTTCCCGGCGCAAAGCGCGACGGTGAAAGAGGCGGCCCTCGTGGTACGCGGCACCCTGCGCAGCGACAAACCGGCCCAGCGGTTGGAGGTCCTGGTCAATGGCCAGGCGGCGACTCTCGCGCCGACGTCGCAGGTCACGGAATTCACCTTCCAATCCGCCACGCTTACCCTGCAGCCGGGGCCGAACACCCTGACCATCCAGGGGTGGGTCGACCAGCGCAGCGTGCAACGCTCGGTATTGGTCACCTACCAGCCGCCGCAGACCAGTTTCGCGCCGCCTCGATTCGATAACCTCTCGCCCCAGGACGGTGCCCAACTGTCCGGCAGCGGGTTCGTATTCAGCGGCCAGATCGTCGCCGAAGCGGGGTTGGAGCGGGTCAGCCTGAATGGCCGGAATCTGGCCTTGCGCCAGTCGGGCATGCAGGTTCTCGATCTGCGTGAGCCCCTGACGGTACCGGCAGGCCAGCCCGGCTTCGAGGCGGAGCTGGTCGCCCGCGACCTCGCCGGCCAGGAAACCCGCCGACGCCTTGTTTGGACGCTGGATCAGCAGCCGCCGCAAATCATCCTCGACCAGCCCCTGGTGGAATTGCCGGCGCAGAACCGCGTCAGCGAGCATCCCTACCCGGTTCGCGGAACCTTGCGCGAGAGCAATCCGGCGAGCTTCCAGGTCAATGGCCAGGACGTCACCCTCGAGCCCGGTGCTCAGGCCGGTGAGTTCCGCTTCGCCACGCAACTGAGCCTGCCGATCGGCAAGCCCGCCAGTCTGGTGCTGGAAGCCCGCGACCAGGCCGGTAACCAACTGCGCCGCGAGTACAGCCTGGAACTGTTCGCCCAGGCGGCAATCGCCTGGGTGCTGCCCACCGAAGGCACCGAGCTGCTCGATCTCGGCCAGCCCATCTCGCTGCAAGTGGCGGCCCGGATCGAGGACCTGACCGGGCAACTGGTGCCCCGTGCGCTGCTGCTATCCGCCAGTGGCGATACGCTGGCCGACGCCATTCTGACCGGCGATACCACGTTGAAGAGCGCCATGCTGCAGGTTCCCGCCCAGAGCGGCCAATACCGGCTGCTGGCCGTGCTCCAGGATGGCAGCCAGCAGGTGGTGGCCCAGAGCAGTCGCACCATCAGCGTGGTCACCCCGCAACAGGTCCCGGTCGCCCTCGAACGCATCGCACCGGCCAATGGCGAGAACGGCGCCGATCCGAACGAGTTCATCAGCCTCTATTTCAACCAAGCCATCGACATTTCCAAGCTCGACCTGAAAGTCTTCGAGACCGCCAACGGCAAGACCTACGTGGACCTCGACGCGCTGGGCACCAGCGAGCTGGAGGCGAAGGGCTACCAGTTGGTGGACGTCAACCGCAACTACCAGGCGGTGCCCGGCAAACTCGCCGAGCTGCCCGGCAGCCAAGTGGTGGCGTTCTACCCCGAGCGAGACATCGCCTACAACGCCGAGGTATCGGTGGAAGTGCGCTACGACGGCCAGGAGCTGGAGCGCATCCGCTACCGCACCCGACCGTTGCCGACCTTCATCGCCGGTGTACTGCTCGACCAGTTGCAGCAGCCGATCCCGAACGTGGAAGTGCGCATCGAAGGCCTGGAGCGCAGCACCCGCACCAACCGCGATGGCGCCTTCAACTTCGGTTATGGCGATAGCGCCGAGCGCAACATCCCGGGCGGTCGCTATACGCTCCTGCTGAACCCGGGCCAGGGCAATCGCGGCTACGGCTCGGACAGTCGCGAGATCAGCATCCAGCAGGGCGTGCGCAACGAACTGGGCCATCTGCAACTGGCACAGCTCAACCTGTCGCTGCCGTACGTGCCGTTGCGTGGCGGCCGGACGTTCAGCCTGGTGGGCGGCGAATACAAACTCGACCTGAGCAACGCCTCCCTGCAATTCCCCGATGGTCGGCAGGACGGAGACGTACACGTGCAGATGCTGCAGTTCAGCGAATTGCCGTACCCGGTCGAGCCGTTGGCCATGCCCTACTGGATGTATGCCATCCAGCCGGCTGGCATTGCCGTCCAGGGCGAGTTCAGCATCGATCTCGCGGCCCTGAAACTCGGCGACTCCTACGAATACCTGCCGGAAAACGGCGGCTACGTGGCCATCGTCGGTTTCGATCGAGAGGCGCGCCGGGTGGTGCCGGTGGGCGCGGGAGTCATCGACAACCTGCGTATCCGCAGCCAGGGCCCGCTGGCCGTGGACAACCTCGACCTGATCGGCTTCGCCCTCGCCGATGCGCAACTGCAGGACGCGCTGAAGGCCTACGCCGACGGCAGCCTCAACCTGCGGCAACTCCAAGCCGAATTCTACCGTGTGAACCAGAGCCGCTGA	MGMLKGEVRHSRLLAGLAWLLLCAGSLAQAADACRAVFSSGLQTHGSGGVVFQWGAQLLGNTNPVIDTRSVRNPWGTPTCGTQSCQASGFDASSLNLALPNIVAQHDLRVNYLGNGEAGGEALNRYRSITLDAGATLSFNPRHQAYYIQRLSLAYGAKVTLAPGRYWIGQLDMAANSQLRVAGGTAKVILGSSLNLPFHTRVNGVDDGSGTPEFLQLFVLGDLNLESSAAVNALAYVEGDYRAAFAARFNGALNARSAELGTAARIENRPAAIATLPWNSQCQERGDLDSDGLIDLFDDDTDGDGYDDERERVAGSDMRDGQSTPGVPPPSTQPNLCVAAFAKGLQTHASDGRIGFGFNAQLRDGPTAYLPAMRVDNSFASVVRSCGSSDCQASFTPARVPAMPAFLKTTDGFRQDVPFAGSVTLDGSRKEWARLTVGGLASARFTTAGSYRLRELEVGYRGTLELAPGDYWIEKLIVGTEARILPLAGSGTVRLHVLNNLDLPWQARLNATGYEQPGDPSRLLVLAENGVTLASSTTVAGFIYARGNLTQQYGALLYGGAVAANLSLDTLARTHFNAAALTKVDFGLLCDLDGDGIGDNQDEDRDGDGISNEYEEQVGTNPDDPASVPPDADRDGIPDSLDDDRDGDGVPNAQDAFPDDPSESKDTDGDGIGDNRDEDRDGDGISNAYEEQLGTDPDDPASKPADLDQDGIPDALDDDRDGDGVPNAEDELPDDPTDSKDLDKDGIGDKTDPDIDGDNVPNDQDAFPRDPTENRDTDGDGVGDNSDPDIDGDGVPNGIDAFPFDPLESKDTDGDGIGDNADSDRDGDGYSNDLEQQVGTDPDDASSKPADLDQDGIPDVLDDDRDGDGVANDEDELPDDPTDSKDLDKDGIGDSSDPDIDGDGVSNEEDAFPRDPAESKDLDGDGIGDNADTDRDGDGYTNDDESQFGSDPDDATSKPADLDGDGIPDGRDEDIDGDGVANEQDAFPRDPTETSDLDGDGIGDNADPDVDGDGVANADDAFPRDPAESKDTDGDGQGDNSDPDIDGDGVINGQDAFPFDPTETKDTDGDGIGDNTDDDRDGDGISNAYEEQLGTNPDDPASKPADLDGDGVPDALDDDRDGDGVPNDEDELPDDPTDSKDLDKDGIGDKTDPDIDGDGVANEDDAFPRDATESRDTDGDGIGDNADPDIDGDGVPNGNDAFPLDPTESKDTDGDGIGDNADPDRDGDGFSNEEEIQLGSDPDDATSKPADLDGDGIPDARDDDIDGDGVANAEDAFPRDPSESADLDRDGIGDNSDPDIDGDGVANGDDAFPRDPAESKDTDGDGIGDNADPDIDGDGVPNGDDAFPLDPAESKDTDGDGIGDNADPDRDGDGYSNEEEIQLGSDPDDAASKPADLDGDGIPDARDDDIDGDGVANAEDAFPRDPTESHDLDKDGIGDNSDPDIDGDGFSNAEEAAAGSDPRDAASVPDREGPELVIDGPDVINVNEDSVSLRGSVSDAGKGVDRLVLVSDRFPGTPFAVTLQGSQWTASVPLLEGTNLLTLTAYDKAGNSTQRTRTVERQPAASDIGLVITFPAQSATVKEAALVVRGTLRSDKPAQRLEVLVNGQAATLAPTSQVTEFTFQSATLTLQPGPNTLTIQGWVDQRSVQRSVLVTYQPPQTSFAPPRFDNLSPQDGAQLSGSGFVFSGQIVAEAGLERVSLNGRNLALRQSGMQVLDLREPLTVPAGQPGFEAELVARDLAGQETRRRLVWTLDQQPPQIILDQPLVELPAQNRVSEHPYPVRGTLRESNPASFQVNGQDVTLEPGAQAGEFRFATQLSLPIGKPASLVLEARDQAGNQLRREYSLELFAQAAIAWVLPTEGTELLDLGQPISLQVAARIEDLTGQLVPRALLLSASGDTLADAILTGDTTLKSAMLQVPAQSGQYRLLAVLQDGSQQVVAQSSRTISVVTPQQVPVALERIAPANGENGADPNEFISLYFNQAIDISKLDLKVFETANGKTYVDLDALGTSELEAKGYQLVDVNRNYQAVPGKLAELPGSQVVAFYPERDIAYNAEVSVEVRYDGQELERIRYRTRPLPTFIAGVLLDQLQQPIPNVEVRIEGLERSTRTNRDGAFNFGYGDSAERNIPGGRYTLLLNPGQGNRGYGSDSREISIQQGVRNELGHLQLAQLNLSLPYVPLRGGRTFSLVGGEYKLDLSNASLQFPDGRQDGDVHVQMLQFSELPYPVEPLAMPYWMYAIQPAGIAVQGEFSIDLAALKLGDSYEYLPENGGYVAIVGFDREARRVVPVGAGVIDNLRIRSQGPLAVDNLDLIGFALADAQLQDALKAYADGSLNLRQLQAEFYRVNQSR				NA	NA	NA	NA	NA
BMS010_05724	867			hypothetical protein	GTGCAGACAGTTAAGTGGGCCTTGGGCTGCGCCATCGCCGGCCTGCTCCTGAGCGGATGCAAGGAAGACTCGCGGGAGGCCTTGCGGGACGTACCCGTCGAGCCATCCGCGACCCTGGTGACCGTTGAGGGAACGCCCATTACGCGGGCCCAACTGGAGCAGACGATCGAGCGTACGCTGGGCGACTCCGCACCCCTCGTGGCCAATGAAGAGGTGGAGCGCAAGATCCTCGAGAGCCTAGTGAGCAGCCGGGCCATGGCGCTGCTGGCCGAGCGTGAACTGAGCGCTTCCGAGCGCGAACAGTTGGAACTCAAGACCCAGGCATACCGGGAAGAGCTGCTGGTGCGGCATTACCTGCAGGCCCATGCCACGCCGGAGCCGGTTACCACCGAAGCGGTGGCTCAGTATTACGAGCGCCACCCCGAGGAGTTCGGCGGCGGTATCGAGAAAAGCTTCGAGATCATCGCCAGCTCCGGCGAACTCGACGAGAAACAGCGGACCGAGCTGATCGGACTGCTCAGCGGTGCCGAGGTGAAAGGCCAGGACTGGGCCGCTCTGGTAGCCGGCTGGCGTGCGGCCGGCAGACCGCTGGAATACCGGCAGAACCGACTGAAGATCGAATTGCTGGACCAGCCGTTGCGCAGCCTGGTGGAGCCGACAGCCGTGGGCTCCATTGCACCGTTGTATGCCGATGGCCAGTTGCTGTTGGTCCGGGTAACCGGCGAGGAGCGCTTGCCGGGCAAGCCCTTGGCCGAGGTAAGCGGCCTCATTCGCGAAAGACTGGCGCCCCAGGCCCTGAAAGCCGCGGTGAAGGCCTTGAGCGAGCAAGCGATAAAACAAGTGAACGTGCAATACAGCTCGCACTGA	MQTVKWALGCAIAGLLLSGCKEDSREALRDVPVEPSATLVTVEGTPITRAQLEQTIERTLGDSAPLVANEEVERKILESLVSSRAMALLAERELSASEREQLELKTQAYREELLVRHYLQAHATPEPVTTEAVAQYYERHPEEFGGGIEKSFEIIASSGELDEKQRTELIGLLSGAEVKGQDWAALVAGWRAAGRPLEYRQNRLKIELLDQPLRSLVEPTAVGSIAPLYADGQLLLVRVTGEERLPGKPLAEVSGLIRERLAPQALKAAVKALSEQAIKQVNVQYSSH				NA	NA	NA	NA	NA
BMS010_05725	876	surA_2		Chaperone SurA	ATGAAGCAGTTCCAACGCCTCGCCCTGGCGACCTCCCTCCTGGCTCTGACCCTGGCGGGCTGCGACTCCGGTGGCGATTCCATCGCCGTGGTGAACGGCAAACCCGTTTCTCAGGAACGCTTCGATGCCTACCTGAAACTCAAGCGTGTGCCCACGCAGAACAGCGAATGGGTCGAGCGCGAACTCGACGAGTATCTCGAGCGCGAAGGTTTGGCCGGCCAGATTGAGGCCCAGGGCTTGCTGCCGGTGGAGCAGGTCGAGGCGGAAGTCGCCGAGTTCCGTAAACAGATGCTGATCAGCCGTTACTTCGAGGAGTTCCTGCGCGAGCGGGTGACCGACGAGGCGGTGCGCAATTTCTACGCGACCAACCCCGACCAGTTCCAGGCGAGGAAAGTCCATGTCGCCCATATCCTCCTGCGTACCAATCCCGGCATGAGCGACGGCGAGCGCCAGGCCTTGCTGACCCGTGCCCAGGAGGTTTACTCGCGGGCGAGGGCCCAGGAAGACTTCGGCGCGCTGGCCAAGCAATTCTCCGAAGACCAGCTTTCCGCCCAACAGGACGGCGATCTGGGCTGGTTGCAGGAAGGCGCCATCGACCCGACCTTCAGCACCAAGGTGTTTTCCATGAAGGCCGGTGAATTGTCGGAGCCGGTGGTTACGCCATTCGGCTTCCACGTCATCAAGGTCATCGAGGGGCCGCAGGTGATCAAGCAGCCGTTCGAGGCGGTGAGCGGCGACATCCGCTATCGACTGCGCCAGGAGGCCAAGCAGGCCGAACTGGATCGTCTGAAGCAGGCCGCGAAGATCGAGAAGAAAGAGAAGCCGGAAGCCGAGAAGACCGTAGCCAAGGACGACGAAAAACGTGCAGACAGTTAA	MKQFQRLALATSLLALTLAGCDSGGDSIAVVNGKPVSQERFDAYLKLKRVPTQNSEWVERELDEYLEREGLAGQIEAQGLLPVEQVEAEVAEFRKQMLISRYFEEFLRERVTDEAVRNFYATNPDQFQARKVHVAHILLRTNPGMSDGERQALLTRAQEVYSRARAQEDFGALAKQFSEDQLSAQQDGDLGWLQEGAIDPTFSTKVFSMKAGELSEPVVTPFGFHVIKVIEGPQVIKQPFEAVSGDIRYRLRQEAKQAELDRLKQAAKIEKKEKPEAEKTVAKDDEKRADS	PGPT0000050_1328	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000050-nifM-K03769	NA	NA
BMS010_05726	42855			hypothetical protein	ATGCCGCACGGATGCAGCTTTACCGGGATTCGACGCTTGCTTGCCACGCTCTTCGCGCTGGCGGCTCCCGCACTCGCGTTCGCAGAATTCGATATCCGAGCCGCAGCGCCTCTTGGCAGCTCCGGTGATGCGGTCGACTACACCCTGGCCATAGCCGATTGCCGTAATCTCGTCGAAGTCTCCATTCCTGCTACCAATCAGCGTTTTTTGCCTACCGATGCCCTGCGTGACGGAGACTCGGTGGCCAGTTGCTCTTTCAACTTCCGCCTGGAAGGCAGCGGCATGCTGCAGCCGGCAGTTCGCCTCTCCTATGCCGACGGTACCAAGAAGGACTACAGCGAAAGTTTCGCTTCCGAGCGACAGTTGCCTGATCTGCAACTGACGCAGCTGGCTATCGAAATGGAGGACGGGCAGCAATATCTGGTTGCCAGCTTTGATGCTCGGGATGATGTCGATCTCAGTTACCTGAGTATTGCCTTCACCGGCCTGCGTGCTTCGGATTTGCGTGCTGCAGGTGGTGTCGTGAGTCAGGCAGAGAGTCGGGCTTTCCTGCGTATGCCTGAGGCCGTAAGGGTCTATCCCTCCGTCGATGGGCAAAGCCGCTACAGCTTGCGCCAGCGCATCGAACCTTCTTTGTCGGCCGAAGAGGTTGCACGTAACGCGTTGGTCATGGTCCAGGCGACGGCCGTGGACGCATCCGGCAACCAGAACAGCTATTCGGATATCCGCTTCACCGGAGATAGCGTCGACGAAGCGGCCCGCTCCATCAGCGTCAGCCCCGGCAGCCTGATATTCAGTGACGCGCTGCAATCGGCCCGTTTGATTCCCGAGGTGGATTTCGAATTTCGCGGGCCTACGCCTTTGGCGGGGCTGGGGCAAGGCGTCAGTTACCGCTCCTCCAGTCCTGAGAAGGTTTGGGTCAGCGCCGAGGGTGTCGTCTATCCCTTGCAGGAAACCGCCGGTGAGGCGGTTTTCGTTTATTTGAACTACCCCGGCCTGGCGGAAATCAGCCTGCCGGTGAAAGTCGACTTCAGTCGCCGCCTGACCTCCCTGAAATTCAATGGGCAGGCATCAGGCCAGCCGCTGGTGCTGAGTCGTCTGAATGAATTTCAAAAATTGCCTCCCCTACTGGCAGTCTTCGATGACGGTAGCGAAGCCCCCCTGGCGGATAGCCTGGTCGTGGAAATGCGGTTGCCGGATGGCAGCGAAGGGGTACTGGAAAGCAACGAGCGGCACGAACTCCTGGCGCGGGCGCAGATTCCCGACCAGAGCCCCTTGACGGTCCATCTGAACCTGCAGCGCTATCCGGATATTGGCGTGGACTTACCGGTCGCCGCCGAAGACGCTGCGCCTTCTGTCGATCTCCAGCCACCAGCCAGCATCGCCGTTGGTTCTGTTCTCGAATTGGCGGCCAATGCCACCGACGATGTCGCGGTGAAAGGCGTCGAATTCTGGCTGGATGGCAGCCTGGTCGGTCGACGCGTAGCGCCGCCCTATGCGCTGAGCCTTCCCATCGAGCAGGAATTGGAAGGGCGTGAGCTGCATTTGCGCGTCGTGGCGTTCGATAGCGCAGGCAACAGCCAGAGTTCACCCGAGCGAACGGTCCGGGTCGTGGCGAAGAGCAATCCCACCGTCCCGGCCTTTACGTTTGAAACGCCGGTCGATGCTCAGCGTGTCGTTGAAAACAGCCAGGTTCGTGCCGTCATCGCCGCCAGCCTGGGCGTGTTGCCTGACGTGGAGTATCAGAGCGGCATCAGTCGCGTCGAGTACTTCATGGATGGCCGCAAGGTCGGCGAGACGATGTTCCCCGTCCTGGAACAGCGGCCTTTGCCGAGCGACCCGAATCGGAAGGAACTGTTCGAGCTTTGGCTGGTAGATCTGACAGTTCCCGATATCGCCGTGCAGGAGACCAGCCTGGCGCTGTCCGCACGCGTGTATTCCCGTAATGGCGGCGTGAAAGACGCCCCGGCTCGTCTTCTGCGTGTTCTGCAGAACCAGCGGCCGACCGCGCGTATCACGCAGCCTGCGGTGGGCAGTCTGGCTACTGTCGGCCAGACCGTGACGGTTACCGTCGAAGCCAGCGACGACACACTGGATGCCGGGACCGACCTTTTCCTGCAGGTCAATGGCGAAGAAGTCCAGTCGTATCGCCACCAGGTCAAGAACTACGATGGCAACGCCTTCGGGATTCGCAGTGCCACCCACTCCTTCCAGCTCCCGATCAAGCCCGAATGGCTTGGCACCACGCTGGAGTTGCGTGCTCGGGTGGTGGATCAGCACGAGCAGAGCAACCTTTCCGAGAAGCTACTGCTGCCGGTAAAGGGCGATCAGTTACCCACGGCCTCACTCAGTCATCCGGTAGAGGGTATGCATCTGGTCTCCGGCCAGCCGGTCGAACTGCGGGCCAATGCGACCGATGACCTGGGCATGCGCCAGGTTGACTTCTTCGTCAACGGCAAACTGGTGGGGACGGACCTGCGGGCGCCGTTCGCCGTCGTGTACCAGACTCCGCAAGGGGTAGTGAAGGAAGCGCCGCTGGCGATCCATGCCGAGGCCACCGACAGTGCCGGTCAGCTTGCCCGTAGTGCAGTGGTCAATGTCACCCTTGGCAAGGACGAGGAGCAGCCTGTCCTCAACCTGGCCTCTCCGAGCATAAACGTCAGTGACGCCGGCAAGGATCTGGCTCCGGTCGTCGAGAACAGCACCTTTGTCCTGAAACTCACCGGTTACGACAATGTTGGCGTGGAGCGCCTGGATCTCTATGGCGTCGCCAAGCGCGATGGGGTGGGGTACGTCCTGACCGGCGACCTGCAGGATCACCTGAGCAATGTGGATGGCAACCTCACGCTGCAATCGATTCCCGGGACGCTCAAGGCGTTTTCCGCGCTCAAGGTTGTTGCGGCGCCAGCGTTCAAGCACCTCGACGGCGTGCGTTATGACACCTATCCGATTCGGGCCATTGCCACCGACGGCACCGGCAATACCTCGGAACTGCAGGCGCTCATTGGCATTCAGGATGATGCCAAGCCCAGGGTTCGTGCCATCAATCCCACCCAGAGCCGGGTCTACAGCCAGGACGACGTGGTCGTGGAGGTCATCGCCACCGACGACATCGCCGTCCATGCACTGGAGGCCAGCTTGTGGCAGGACGGGGGCGCTGCACCCTTATGGGAAAAACGCATCGATGCCCAGGCAGGTCTGACACCGGGTCCCGAAACCGTCAACCGCCTGACCATTCCCCTGAAGCCCTTGGCGCTGGGCAACCAGAACCGCACCTTGAGGCTCCGTGTGGCCGCGGTAGACGACGGTGGCCAGCGCGGCGATGTCGCGAATCTCGATGTTCCGGTGATGGCCGATGTCCTTGGTCCGCGCCTGGCGGTGCTGTCGCCGATACAGGGTGCGCCGATCTATGCCGGCAACACGATCAGCATGAAAGTGCGGGGCGTGGACGACACCCGGCTGGTGTCCCTGCGTGCCCTGGCAGGCGCTCGGACGCTGTATAGCGTCGATAACCTCGCGGTTGCGACTTACGAGCAGTCCTTTACCGTCACCGTTCCGGAGCAAGGTGACGAGCTGGTGGTCGAGTTGCGTGGTACGGACCAGTACGGCAACGAAGCCGAGCCCACCTTCTGGCGCTTCCCCATCGAGCGGGATCAGCCACCGTTGGTCAGCGTCCGCGCTCCAGCTCCGGGAGCGCGCCTGTACGAGGGTGAGTCTTTCAATGCTCAGGTTCTGGCCCAGGACGATCGCAAGCTGACCCGTGTGGAGTTCTTCCTCCGCCAGGGCGGACAGACCACGGTCCTGCGCGCTTTTACCGGCAGCGAATTGAATCAGGACCAGGGAAGTTATCTCAGCGCTTCGTTGCGCGTGCCGAACAAGGCCGCCGCCGGGGACGATATCGGTGTGCGGGCGTTCGACAGCGCCAACCAGGTGACCGAGGCGATGTTCGAACTGGATATCGTCGACGACACCGAGGCGCCGACGCTGCAGATGAACAAGCCCATTGCGGACTTCAGTCTGGAGCCGGGGAAAAGCTTCGATCTGCAGGGCAGTGCCGGCGACAACCAGTACGTCGATGCGATCGACGCCGTGTTGATCGACCCCCAGACCCGCGAAGAACACAAACTGCCCTGGGAAATTTTCAGTCGCAAGGATCGTGTCGAGACCGTCAAGATTCCCAACCCCGGCACCTTGGGATCGATCATCGCGGGGCAACGATTCTATGCCGATTTCGATGCCCGGTTGCGTCTGACGCCCGAACTGAGCCGTCGTTATGCGGGGCAGGTGTTGCAACTGGTCGTGCGTGCCCGTGACCGTGGCGTCAACGAGACCCGTAGCAAACCGATCAATATCAAGGTCCTGGCGGATGAGACCGGACCGCGCATCACGATTCAGTCACCGTCGGAGCGGTTGTTCGAACGTCAGACCGTCGAGCTGCGGGCCAGCCTGCAGGACGAAACGGCCGTCGCATCCTACGAGGTGCGGTTGCTGGACGATCAGGGCCGCGACGAAGTGCTCGCCCAGGCGAGCAATCTCAGCGCAGCGGATGTGGCGATTCCCCAGGGAGCTGCTGTCACGCTGGACATCGCTCGCTACCGTCCGCAAGAAGAGCCTGTCGCGCTGACGTTGGTCATCAAGGCCAAGGACCTGCTCGGCAACGAAAGCCAGCAGACCCGACGTCTGCTGATCCAGCGTGACCTGCCACCGAAGCTGGTATGGCGGGACGGCCAGCCGAGCGATAGCCAGCAGCGTGGCCAGCCGCTGCGCGGAACCTTGACGGTTACCGACGACTTCTCCTCGGGCACTTCGCAGGATGCGGTCGATCATCTGTTGGTGATCAGCTCCTTGCGCGAGCTGGGTGGCACCGCTCGTGACATTCGGGGGCTGACTCGCCAGGAGAGCCAGCCCGCGCGCAATCGTGCCCGTATCAGCCTGGCCTATCCGGAGGCCCAGGGCTGGCAAGGGGGGCTTCTTCTCAATGGCAAGGCGTTCGTCCAGGTACAAGGCGATCGTCTGCTGCTGGATGGAGGAGAGGAATCGCAGCAGCCCAGGAGTCTCCAGGTTGGCGACCAGACCGGTTTCTGGACGATGGAGACCTATTCGCGCAACCTCTGTCAGGTTCGGCCCGCGACTCGGGAAATAGAGGCGCCAAACGGACTGCTGGCGCTCGATACGCTGTTCAATACCGACACCACACGCCTGGTACTGCGTCCTCGCAGTGGCATCCCCGGTTTCATCCGTGGCATCCAGTTCAGTCTGCAGGAAGGCGTGGCGGCCGATCTGCCGAATGCCAACGGCGCCCGTGTGCCGGGCCGTTATGCAGTCAACCTGTTGTTGCAGGATGGCGTAGGCACCGGGGAGCAAGTCGCGTTCCTGCAACTGGCCAACAGCGCCAACCTGCCGGGTGTCGACCAGCGTTATTCATTGCTCATGCCGATTCCGGCCGATGTACAGAGCGGCAGCGTGACACTATTCGGTCATGCCATTGACCGGCTATCCGCCGAGCGCGGCGAGCAGGTTCTCCAGCCGCTGTTGCAGCAGGCCCTGGGCCTGGATGAGATCGCGCCTACCGCGAAAATCCTGTCTCCGGTAGTCGGTAGCGTGGCTATTCCGCTGCGGCAGCTCGATATGAAGGTCGAGTTCGGCGATGATAGTCGAGCACTGAAAAGTCTCCGCCTGCTCGAGAACCGCAGTCGTACGATCCATGACCTCGGCGTGACCTTCGGTCAACGCAGTTGGCAGATTCCCTATCAGGTACCCAAGGCGTTCGACAGTGGCGAACTCGAGTTGACGCTGATTGCCGAGGACTGGAGCGGCCGCAGCACCGAGCACAGCATGGTGTATCCGCTACAGGCCAACGAGAAGCCCGAGCTCGCCATCACCGGTTTCAATACCTACTGGGTGAATGGGGTCTACAAGAAAGCGCTGACAGAGCCGGCGCGCATCAACTATGGCGAGTTCTGGGTACGTACCAACGAGAAATTCCGCCTCGATACCCGGCTGCGCGACGATGCGGGGCTGGCGGCCTACCGCGTCCAGCGCCTCAAGCGGGATGGCAGCGTTGCCGCTACGGTATACGAGCGGACCTTCCCGGCACCCTGCCCGCAGCCTGCACCGCTGTCTGCCGAGGACAAGACCGAAATCCTCTTCGACCAGACCGAACCAACCGAATACCGGGTAGAACTGGTCGATACCTATGGCCATGTCGCGCAGCGTACCCTGCTGATCCATCCGCTGGTCAATGTGGTACCGGAAGTTCGTATTACAGCGCCAGCCGAAGAGCAGGACATTGCAGCAGGGACCTTCCGCATCCGGGTTGGCCTGGTAGCGGCGGACGACCGGTTCCTTTCCTCGGATCGTTTGAAAGTGTTCGCCAACGGTGTGCCGTTGCCGATTCTGTCTTCCGCGAGCAATACGGCTGCGGGGGGCGATAAAGTCGTCGAAGCCGCCTTCCTCAGCATTCACGACAGTTTCGCGGCCAACTACGACGCCGACATAGCGGCCGATTTCGGTCGCATGGAAAGTCCCTATGCGCTTCAGAGAACCTTCGTGCTGGAGGTGCCGCAGGGGCTGATCCGTTACAACGAGAAGCTCAAGCTGACCGCGCAGATTACCGACTCCGATGGAGCGGTGGGCTTGTTCCATCGGGAGTTCAACGTCGCTGCGGACACCATCGCGCCCAAGGCCGCGATCACCAGACCGGGCATCGGTTTCGGCGCCATTGAAGACAGCGACTTCACCGTCGGCGTGCAGGCCCTGGATAACGTCAAGGTCAACCGCATCACCGTGTCGCGCGCCTACAGCGTGTTGGTGAAGGGAGAAGCGCAGGCACGCATCCAGGACTTCGTCCAGGTGCGCAACATCGAAGGGATTCCGGCCGATGACTACAAGCCGGTTTCCACGGTCGACATCGATACCCCGGAATATACCCAGGTGCTCCACGTGGATCGCCTGCAGCAGATCCTCGACAGCTTTGGCGTCACCCACGATCAGGTGAGTGCCGTCGAGGTCTGGGTCAAAGTGGATGCCTACGACGTCGCCAACAGCTACTCGACCCGCGTCAGTTATCCGGTTCGCGTCGATGAGCGCCCCGTGCTCGACGTGGTGGAGCCGTTGGCTGGCGCCAAGGTGGTTGAAGGCAACCCGCTGTACGTCAACGTCAAGGCTTTCGATGATGTCGGCATCGAGTATGTCCATCTCCGGGCCACGTATGGCAATGGCCAGCAGCCCTACGAAATGCGCCTGCGCACCGCGCCGTACAACTTCTCCGTTCCGATGTCGGTCTTCGACCCCGCCAATCCGGCGGCCAACCGCGTTCACCTCAGCATAGAGGCGGTAGATACCTACGGGGTTGCCCATAACGATCTGGACAAACACCGTGCGGAAGAAGGTCTGGATGTGGAAATCGTCCAGGACCAGGCGCCGAGCGTTGTCATTGGTACACCGAAGGACGGAAGCCAAGTCATCGAAGGCCAGTTGATGCTGGTGCAGGTCAACGCAGTGGACGATGTCGGCATCGACCGCGTAGTGCTCAACGTGGCAGGGCTCAAGGGCGGGGATCGCAGTTTCACCGACCTGGTCTTCCCCTATGAATTCCTCGTCGAGATTCCCTATGGCCAGGCCGGCACCGATCTGCTGTTGACCGCTAGCACGCTGGAGCGCCGTGTCAATGGGCAGGCGCGTAGCGTCAGCACCCCGCGCCCGGTGCGGGTGCATACCTTCAAGGACGAGCAACCGCCGCAACTGGTGGTGAAGCTTCCGGTCAGCCCTGGCGCCAGCGCTTCGGAGAAGCGCGCCTTGCCCTATCAGCTCGAAGTCGAGGACAACGTGCGTGTCGGTTCGGTAGGGCTGGGGCTTTACGTGGATCGCGATGCCGACGGCCAATTCGTGGACGGCGAGCGTGTCGCCGACCGGTTGATGATCACCGCTCCGTTCTTCGGCAGCCTGCCGCTGGGTAGCATCGCCGAGTATCTGGGACGGACCGATGCGTTGCCTGACGCCTTATCCATGCAACTGCGTATTACCGCAAGGGATGGTGCGGGTAACGAAACCGTGCAGAACATTCCGGTGACGTTGCGCAAGAACCAACTGCCGGAAGTGAACGCCATCAAGCTGCTGGACGCCCGCGGTTTCGCCATGGGCGATGTCAGCTCGCTGACCGAAGGCCGCGGCATCGTTATCCAGGTCCAGGCCAGCGATCCGGAAGTGGGCGTGGACAGTGCTTCGCTCTTCTATTCCATCGGTGCGGCGGATGCCACGCCGGTCTACCAGCCGTTGGGCGAGGATTCCGCCGCGCCGTACCAGTTCCACTTCAAGGTACCGAACGGCCGGGTGGGCCAGGTATTGCGTCTGCGGGCAAAGGCCCGCGACCTGGATGGCTACGAGTCGCCCATGGTGGACCTGCCCGGTGCGTTGAAGATCGAGGCGGACCAGGCGCCCCAGGCTCGCATCGTCAAGCCGGACAACGACAACAGCGTGGTGATCGATGGCGAGGATGTCGAGGTCTTCGTCGAGGCCTTCGACGATTTGGGCCCCGAGGGCATAGACCATGTCACCTTCTATGTGAACGGCATTCCCGCCTACACCACGGAGCAGAGCTACGGTCAGCAAACCGGCAGCCATGCCCAGGATCATGTTTACCGGGCGCAGCTTGCCGCGCCGTCCGGCGTCCAGGGCTTTACCGTCCAGGCCATCGCTTATGACGTACTCGGACAGGCCGGCGAGTCCCAGGTGATCCGCATCGGTCGTCTGGAAGACACCGTGGTGCCGCGCCTGAGCGTACTGGCACCGATCGACCGCGATGTGCTGACCATGGGCGAGAGTCTGCGGGCGGTGACCTCCATCGAGGACATGGGCGGTGCGATCCAGCATGTCTACATGACCTGGCAACGCGAATACCAGGACGCCAGCGGTGCCTGGGTGGTAGCCGGAGACGATGCCTACAAGCTGGAGCTGTTCCGCAACGACGAACGCGCCGCCGGTGATACCACCCCGGTAAGCCAGCCGGACAAGCATTACTTCGTCTATTGGGCCGACTTCAGCGACGGCAAGGTATTGCGCCGGACCGGTCTGCGCAACGAGCGTGTGCATGTGCTGACCGAGGTCATCACGCCGAACCACACCGTCAAGAAAGACACCTACCACGAGATAGGCTGGCCGCTCAGCGAGCGGCGCTACATCCTCCCGGCTCCCGGCGCCCAGGCGTCCGCCAAGCAGGTTCATTACACCGCCGTCGATCAATACCGAGGTCTGGCGCGCAGCGGTGCCATGCTGGCTGCCTGGTCCAGCGTCGATCCGTTGCGCATCGAGCAGAGGCTCGACCTGCTGACCAAGGGGCAGTTGGCTACGACATTGCCCCCGGCTCGTACTGGCATCTTCATTCTCGATGCCGATAACGAGGCGCAGAGCAATCAGAGTGGCGACTTCTTCAATTACTCCCCGTTGCTCAACGGTGCCGCCGAAATGTTCAGCGGCAGCATCGGGGAGCTGATGACCGACGAAAACATCGTCCTGGCCAGTAAGTCCGGAGTCGCGGGCGGGGCTTGCGAGACCGGTTCGGTGACCTGCCAGTTCATCAGCCAGATGACGGCGGAGATTCGCAAGGACTGGGTCGGCGGCGATCGCCCGAGCGAAGGCACGGGTGCTCTCTATCTGGACAATGACGCCGGCGAGCTGCTGCTGTTCGGCCAGAAGAACGGCGATGGCCAGTTCGGCCTGCCGTATCTGCTGATGGGCCGCGTGGATATGCCATACCCGGACGTCTACGGCCTGACCCGCAGCGGCAACTTGGCGCTGGTGGCCAACGGCAACGGTGGCGTGCAAGTCATCGACATCAGCAACATGAGAGCGCCTTATCACGTCGGCTATATCAAGCCCAACGGCTTCAGCCGCGATGTGAAGGTCGTAGGACATTACGCCTACATCGCCGCCTCCGAAGAGGGCGTGGTGGTTGCCGACCTCAGTACGCCCGCCATGCCCATCGTCGCGCGCGTCGATACCCTGGGTATCGCCAACCGCCTGCATCTGGTCGGCAACCAGCTATACGTCACCGACATGGCCGGCGCCGGCGACAGTGCGCGTCTGTCGCGTATCGATATCAGTGAGCCGGACCAGCCCCGCGTGGTCCAGGTGGTGGAGATCGAGCCGAACCGTCCGGACCTGGCGCCGGACGGTCTGTACGATGTTCATGTTTCCGGCAACCTGGCCTATGTCACCCAGCTTCTGTCCGATCAGGAAGACAAGCCGAGTCAGAGCCTGGTGCAGATTATCGACTTGGCCCGTGTCGGCGAGAGCGGGCTGGATGCCACCGTGCCGGTGATGGTGAAGCGCAAAGCGACTGCCGACGATTTCGCCGTGCGTGGCGTGACGCTGGCCCGTGGCGCTATCCAGGTCGCCGCAGGCAAGGGAGGTATCGGTCGTATCGACCTGCCGTCCCTGACCATCCTGCAGCATGCCCCCCAGTTGGGTGAAAACGACGTCAGTACCCAGTTGCCGGCGGTGCTCATCGAGCTTTCCGCTGTCCTGCCGGAACACACGGTACTGGGCGATTACGTCCAGGTGCTCGAGGGCGATGCCCAGATCGGTCGCGACATCACTGCGCAATTCGACCTTGCTTTCGCCGCCCGTGGTGCCGATACCACCAAGCGGCGCATCCAGTTGACCCGCAAGGAAGGACAGAGCCTCCTGCCGCGTCAGCGCTACTACGTCCGCATCAAGCAGGGGCTGACCCCGGTTACCGGCCAGCCGTTGCAGGCCGACTACGTATTCAATTTCAACACGGCCTCCGCCGATGCCCGCTATCCGGACATTCTCAGCATTTGCACGCGGGAAAGCGCCGAGCGCGGCGCCTGTGTGAATGCCGGCGACGTTCGCGGCGGTACCGAGCTGATCGTGCGCGGTGTCGATTTCGGGGACGCACCACGCCTGCTGGTAGGTGGCGAACCGCTCGTGATCGAGAAGCGTGAGCTGGATGCACAGACCGGCATCGTCGCCCTCTATGCCAAGACAGTGCCCAACTATCCGGGCCCGGCCACCGTCACCGTGACCAACGATGGTGGATTGAGCGACACGGTGCTGGGTGGCTTCGTCTTCGTCGACGAGCTATCCATTTCCCACCTGACGCCGGCCGTGGTACGCGTTGCCCAGGCCGGTCGGAACGATCTCGTCGCCGTGGTCGGCAAGGGCTTCCACGCCGGCATGAAGTTGACTGCCTATAAGAGCGGCGAGCCGGGCTCGGCACAGACTTTCGAAGTGGGGTCGCCCGAACTGCGTCTGTACAGCGCCGAGCGGATGAACTGGCTGGTACCGGAGCTGCGCGACGATGATGGGGCCGGATACCGTGGTTTCATCGATGTGGAACTCGAGGATGAGCTGGGGCGCCGTTATGTGCAGCGCAATGCATTGTTCTATGGACGCCTCCAGCTGGATCGCGGTCTGGAAAGCGAACCGGCGATGTCGCGCGACACCATCGATCAGCGCCTGCGCAAGCTGGAGAATGGCCAGCTCACCGACTATGTCCCCGACCCGCTGAAGTTGCCGCCGGGCAACATCGTCGACCTCGCCGTGGATAGCGACCTGCGCATGGTCTATGTGCTGGGCCGTGGCGAATTGGGAGAAGGCGTGCCGCGTCCGAGCCAACTGGCTTCGCTCGATGACCTCAAGAATTACTATGCGCCGGGCTGGCTGAGCCTGGTCAAGTATGACCCGGCCCGGATCGACCAGGCCGCCCCCCGTCACGGCCTGGGTTACTACAACCTGCCCCAGGATCTGCAGCCCAGCGCCATGGCGTTGGCTGAACATCATGTCTACGTCGCTGCGCGGGGTTACAGCTTCCCGTTCGTCGACACCGAATACGAAGGCCGTAGCGTACTGCTCGTCTACGATCGCGAGATTCGCGATCCGGACGACCTCGGCGAACAACCGCCGGGCAAGGATCGCGGTATCCGCTACAGCCTGCCGCTGCCGTTCAACGAGGTGGCGGAAAAGGTCGTGGTTCATCAGGGCCTGGCCATCGTCGCCACGCGCAAGGAAGGCGTTGCGGTCGTGAGTCTTGCCGATCCGCTGCGGCCCAGCGTGGTCCGGCGTATCACCCAGGCGACCCTCGACGGACGCAGCCAGGCGTTGAGCTCGATCAGTGATATCGCAGTGATTGGCGACACCCTTCACATCGTGAACGGCAACCGTCGCGTGGTGTTCGACCTGAGCAAACCATCCCTGCCGCAATTGGGCGATTCCGACAGCGCCGGACTTACCGCATTGGCGGCAGACGGTAGCCGCTTCGCGACCGGCAACGACTTGAAGCTGTACGACGCCAGTCGGCCGGCCTACATCCGCCAGATCGCCCGTTACCAGTCGGGAGGCTTCAGCGTTCCGGGGCAGAGCATGGGTATCGAGGCGTTCGCCACCACTGGGGTGAACCTGACCCGTGCGCCGGCGGCTTCCGAAGAGCAATGCGAAGAGTCTCCGAGCGAATACCTGGGCTTCTACGATTTCAGCCGCCCGGACAACATCAACCTGTTGGATGCACTGGTACTGCCATACCGATGCATGGGCACACCCAATGGTTTGCTGACCAAGAGCAACGCGCGTTATCCGCTGCTGGTGACCGAGCAGGGTATCGGTGTGTTCGCCATGATGGATAAAGCCAAGAAGTCCCACCTGGGATTGGTCGACCTGCTCACCCTGGAGCTGGTCTCCAGCGTGCCGCGTGACCAGGCCGATGGCGTACCGCTGGATAGCGCGCTGGAACTGTATTTCACCCGTTCGCTGAACCGCTTGTCCGATGACGACCTGCGCGACTACCTCGTCCTGCAACGCGAGGCGCAATCGGGACAGCCGCCAGAAACTATTCCGTTCGCTCTGCAGCGTAGCGACGACCAACGCGTCCTGCGCATGCTTCCGGAGCAGCAACTGGCTGCTTCGTCGGGCTACCGCATCATCCTCAAGGGTGATCTGGCCAGCCGCCGTACCCGTGGGCTGATGGAGCATACGGTACGCTTCCGTACCGGCTTGGCTGCAGGCCCGCGCGTCGTCATCCTCGGCACTTCGCCATCGACCCTGGACGTATCCGGGGGCCCGCTGACCGTGATGCTCTCCGGCGTCACCGGTCAGCCGCAATTCAGCGTTTCCGGCCAGGTGGCCCAGGCCGCACTGACTGAGACGAGGGCTGACGGCACTGCCCTGTATACCGTCCAGGCGCCGGCCAGCACACCGGGTGCGGCCAGTCTGCAGGTGATTTCCGGCAATGGCAGCAAGGCTTCGAAAGTAGGTGCGGTGCAGTACGTGGAGCCGCTGCTGCTGCGCTCCCTGGCGCCGGCGCAAGGTTCCTTCAACGGCGGAACCCGCGTTCTGATCAAGGGCCAAGGTTTCCGTGCCGATCCGGGTGCGATGACCATCCTGTTCGGCGACACCGAGGCGACCCAGTACAAGGTGCTGGATGCCGAGACCCTGGAAGTGATCACCCCTGCATCGTCCCTGGGAACGGTGGACGTCAAGGTCACATTGAGCGGCAATGCCCAGCAGGGTACTTTGCCCAAGGCCTTCACCTATCAACAGCCGCCGCAATCGTTGATCCGCGACACCGGCCGCGTGTATGACCTCGCGCTGGACCCGTCCGGCAGCTACCTGTTCTCGGCGCAGGGAACTGCCGGCGTGCTGGTCTATGCGGTCAATGCCGGCGACCAGGTGGCCAATCCCGACGATCTGCTGCGTCTGATCGACCGCGACAAGAACAAGCGCGACGACCGTATCCTGTCCCAGGTGACCTTGCCTGGCGGCTTCATCGCCGTCGGTGTGGAACCCTTCTTCGAGCGCGGCAGCGATCGTGCCTACATCACCGGTGTGCGCCTCGATGGCAACGGCAACGCGCTGGAATCGCGGTTGTTCACCGTTGGTTTCGACTCGCTGAACCCGGCCAACAGCACGCTGCTCAACGCTCTGGAGCTACCGGGCAAATCCGCCCGTGGCCTGCGCGTGCGTAACGCTCGCGTCCTGCTGGCAGCAGGCGAGGCGGGTGTCGGTGTCGTCGATTCGTTCCTGACGAACAAGACTTATCTGGTGGAAAGCCTCGCCAGCGAGCCGAACGTGCCGCTGCTGGATGTTGCGACCCAGGATTCCCCGGCCGGAGAGGCGGGACTGCTGGTAGGTGTCGGCGGTGCCTTCAACTTCGCCAGTAACCGCCTGACGGCCACCGAGGCCAATGGCAGCGGTGGCTTCCAGGTCTATCGCCAGGACAAGGCCAAGGGGCTGCAACGCCTCGCCCATCTGGACCTGCCAGGCACCCGCGTGTCGTTGCAGGGGCGCTATGCCTACGTGGCGGCGGGCGCCAGCGGCGTAGCCGTGGTGGATCTGCAGAATCCGGCCAAGCCGCAGGTGGTCGCACGGGTCAACGATATCGGCTACGTCTACGACCTCGATTTCAACGGCAACACCCTGTATGTCGCCCGCGGCAACAAGGGCGTGCTGACCATCGATGTCACCGACCCGTTGCGCCCGCAGCCGGGTCGCAGCATGGATGCCCCTGCCGGCGGCACCATCGAAAGCGTAGTGGCGGATGCCTACTCGGCCCTCGGTGGTGGCGTGGACGCGACTGGCAGTGTGGTCCAGGTGGTACCTGACGTGGTCTTGCGCCTGCATCGTGTGGACCCGGTGAACGGTATCCTCGACCGCCAGCCGGACGGCAGCCTGCTGGTCGTCGCCCGCTTCAGCAAGGCCATCGACCTGTATCCGGCCAACCTGGCGCGCTTCGCATTGCTCGGCCCGCAGGGCGAGACGCTGAGTTCCACGGTGCAGATCATCAACAACGATGCGCGGCTGGTGCTGAGCGATGCGAGCGCCGGACAACTGGCGGTCGGTTCCCGGCTGACACTGCTGGTGAAGGCTGGCCTGGCGTCGGTGAAACCGATGAGCGGGCGCGATCCGCTGGTGCTGCATACGCTTGCCCAGGACCAGCGTGTCTCGCTGGTCTACCGTGGCAGCCGCGAGGATGCGCTGTCGCTCGAAGCGGTGGTGCCGCGCCGTGTGGCACGGGACAAGGCCAGCCTGATCACCGTCAGCGCCCGCGGCTTGCCGGCGAGTATGACCGGCGTCCGTCTGTACGTCGGCGACCAGCTCCTGCAGATCGAAGAAGTGGTGCGTGAAAGCGATACCGCTCCCGCTGTGCTGAAGGCCAGCGTGCCGCCGTTGCCACAGGCGGGACAGTACAACCTGACCCTGGCCGTGGTGCGCGACGGCGTGACCCAGCAGGCGGTACTGGAAGGCGCACTTCTCGTGGATGCGCCCATTCGCCTGGATGCCCTGGCACCCTTGTGGGGGCCGGTCGGCGGCGATACCACCGTTACCCTCACCGGCGAAGGCTTCGAGCCGGGCAACAGTGTCATGGATGGGCTCAAGGTGCGCTTCGGCGGCCTGCCGGTCGGCCGTATCGACGTGCTGTCCAGTACCCGCATGCGGGTGACCTCGCCGCGTGGCATGCCGGGCAAGGTCGATGTGCTGGGCGAGGACCGCTACGGCAACCAGAGTCGCCTGAGCGGTGACGACAGCTTCGGTTATGGCCTGCGCAAGCTGGCCGAGCTGCATCCGTCGCTGATTTTCCCGAGCGATGTCTTCATCGACCGCGAGACCGGCGTGGCCCTGACCAACGGCGGCTTCATGGTGGAAGGCTATGGCAAGCAGGTGCTGCAGGCTGGTGGCTGGATGCCGGAAAACTACCGTGCGGCAGCGTTCTCCGTGCAGAACCCGACCCGTCCGGAACTGGTGGGGGGCTCACCCGCCTTGCCGAGCGATGCCCAGCGCCTGAATCTGAAGAACCAGGCACTCAAGATTCAGAAGCGTCTGGAAGGCAGTTTCCTCGGCAGCGGCACCCTCGAGCCGACCGCGGAGGAGCAGGAAATCCTCGACCGTGCGGCGGCACAGGATTTCCGCATCGCCCTGGATTCGCTGCAGATCGCACCTACCTTGGAGTGGGAAGAAAACACTCGGCGTAAGCGCCTCTACGTGGCCAGCGGTCTGGGCGGCGTGGCCCGTCTGAACCTGGACGAACAGAACGGCCTGCAGGTGATCCATGAGGAGGAACTGGGCACACCGGTCAGTCGTTTGATCAAGCAGGGCTATGGTCTGATCGCCGCCGGGGCTTCGGTCGACGCCGAGCCGCCGGACAGTCAGGAATGTGCGTTCAAGATCGGCGGTTCGAGTGGCGTCGGCCTGATGGCTCTCAATTATCAGGATGGCGAAGACCCGGTTCGTGTCGATGCACCCGCTGCGCTTTCCGGTGCCGGTGTGCTGCGCCTGGAGGATGGTTGGCTGATCGGCGGGGGCAACATCCGCAGTGCCGCATGGCGCAATTGCCCAGGGTGGAGCGAGTCGCTGGTCAAGGCTACCGATGGTGAGGCCGGCAAGCTGCAGATGCTCAACCTGTTCGATCCGGCTCAGCTTCGCAGCTATGAGTTCGAGGCTAATCCGCAGGATGTGGCGATCTACGGTCGTTACATGATCGTTGCGCTGGGCAGCCGTGGCCTGGAAATCTTCGACCGCGACCAGCCGCAGCAGCGCCTGCGTGTCGATCTCGGCAAGCAATTGCAGGCTTCCGCTGGCCGCGGGGTACGTCTGCGCATGGCTGGCAGCCTGCTGTTCGTCTCGGCCGAGAGCGGGGTGGTGGTGCTCGACCTGCGCAACCCGATGCAGCCGCACGTCGTCTCGGCGGGTAACCAGGAACGCATCGAAGCGCTGGACCTGTTCAACAACCGCCTGGTGGCCGGCTCGGGGACGCAGGGCCTGACGGTCCTGGAACTGCCGGGGGCGCTGGTCCTGGAGGCGTCGGTGAAGCAGGACGGTGTCCTGCCGGCTGGCGAGCAGACCTTGCAGCTCACGTTCAACGAACCGGTCACCCTCGATTCCCTGCGCAGCGAAGGCGCAATCCGCCTGCTGGATATCGGCAATGGCGAGCAGAACCTGCCGGTGCCGGAAATCGTTGCCCTCGACGGCGACAACCAGTCCGCGACCCGCATCGCCCTGCGCTTCACCCCGGCTCCGGGCGCCCGGCTCAGCTTGCGCCTGGACAGCGTGCGCAACCTGCGCGGCAGCGGCCTGTGGGCGCCGTATCAGGTGGATTTCCGGATCGCACCGGCCGGCGCCAGCCAACCGCGTATCGACTACTTGAAGAACGCCCGTTTCCACCGGGGCCAGCAGGCGACCGTGGAGATTCACGGCGCTGGCTTCTCCCAGTCGGTGAAAGGTTTCGTCAATCAGTATCCGATCGACGTGCAATGGGTCAGCGACAAGGAAGTGCGTATCGCCGCCCATGCCCTCGACCTGCTGCCGCTCACCCCCGGCCAGTGGCACTTGCGCCTGGAAGACGGCGGCCTGCGCGCCGACTTCCTCGGTGCTCTGATGGTGGGGACCGAGCAGCCGCTCGAACAGGTCAAATTCACTGTCTCGCCGGATTCCGCCAGCAAGGCGGGTGGCCAGAAAGTCGCTATTACCGCCAGCCACGACGCCCTGATGCCGGGCACCCGAGTCGTGCTGCGCGCCCGCCATAGCGATACCGAGATCTATACCGGCAGGAGCCCGGTGGTCGAGGCGCCCGGTGTGACGACCATCGATCTGCAGGACGACGTCGAAACCCTGCGCACCTTCAGCTTCATCCTGCCCGGCGTGATCGATCCGGACATCTATGACCTGTACCTGCGGATTCCCAGCGGGGCGGAAACCCGGACCATCAAGGTCGGCTCGCTGTCCTACACGCTGCCCAAGGGCCTGGGAGTCATCCTGCCGAACTACCCGCCGATGCAGATCGGCGCTGCCCAGAGCGTCGGCGATCTGCTGTTCGTTGGCGTGAAAGCCGGTTCGGCGCCGACTGCCGGCAACCGTTTCCTGATGACCGCCGGCCTGGAGATCTATGACATTGGCCTCTGGGAGCGTCCGATCCGCCTGTCGCAGTTGCGTCTGAACGATGCGGTGCTGGGACTGGAGGTGCTCGACAAGGTCGTCTACCTGGCCAACGACCGCGCTGGGGTGAGTGTGGTCGATGTCAACGACCTGAGCCGGCCGTTGCTGGTTTCCAGCCTGGCATTGCCGAACCATCGTGCACTCGATGTCGCCATCGAGCCGACCCGTCGTGCCCTGGCCGTGGCTGCGGCGAATGACCTGGGGACCGGCTACGTCCGCTTCCTGCCGCTGGGTCGTAACGAACTGGGCGCCCAGGCGCCGCTGCCGACCATTGCCTTCGATGGCAGCCTGCGTGCCGACCTGCTGGGTGCGCCTGTGGACCTGCAATGGCTGAACGGCGAGCTCTACGTGCTGTTCCTGCGCAACACCCAATTGCACCTGGCGATCTTCAAGGGCTTCGGCGATCAGTTGGAATACCGTGTCCAGGCGATCGAACGGGGCACTGTCTCCGCCAGTTCGGTGAGCGATGCGCTCAGCCTGGCGTCCCTGCAGGTACAGCAGGGCCTGATCAGCGTATCCACGGGCGACCGCTACCTGCTGCTGGAAGCCAACGCCCAGGGACAATACGAGACCATCTACTGGCAGACCCAGAAGACCGGTGAGCTGCTGGGCATGGGCGGCCAAGTGATGCAAGGCAACGGCAAGGGCGTGGAGATCAATACCCAGCCCTACCTGGCCGTGGCTTCCAGTACGCCGGCCAGTGGTGCGGTAATCGGCCTCAACGAGCCGGTGCTGATTGCCTTCAACAACCTGATCAATACCGATGCCGCCCATCTGGCGCAGGCGTTGAACGTGCTCGACGAGCAAGGCCAGCCGCTGGACGGCGCAGCCTATGAAATGGCCGGCACCAACACGTTGCGTGGTGGTCTCATCGAGTTGCGCTTCAAGGGCGAATACCAGGGCAGATTGCGCATCGAGGTTACCCAGGCGCTGCTCGACCTTCAGGGCCACAGCCTGCGCCAGCCGTTCGTCCTGCAGCTCGAACGCCGCACCGGTGTGCGTCCGCTGGTGAATCAGGTACGTCGCGTGGTCAACGATGTGACCGGTCTGCATTACTTCCATGCCACCGGTGGCGAACAAGCGTTGATCAGTGGCAGCGGCTTCGGCGTCGCGGCGGAACAACTGGCGGTCTGGATCGGCGAGGTGCGTCTGCAGCCCGAGCAGATCGTCGGCGTCACGGACCAGGAACTGCGGGTGCAGGTTCCGGACCTGCAACTGGGCGGGATCAGCGCCACCTTGCCGGTCAAGGTGGAGCGTCTAGACCAGCATCTGGCCTACCTGCGCCAGGGAGCGATCACCGTGCTCCCGCAGGTGGAAATCGACGATCTGCAACCGAAGACCGGCCCGCCCCAGGGCGGCAATCTGGTCACCCTGCACGGCCGTGGTTTCAACCACTACGTCCAGGTGCGCTTCGCCGGCGCACTGGCGGGCGACCTGAAAGTGCTCAGCAGCAATCGGCTCGAAGTGCGGGCACCGGCCGGCAGCTTCGGCAAGGCCAAGGTCACGGTGGAAAGCCAGCTGTTCCCGGGCGAGCAAGCCGAGGCGAAGGTCGAATACTTCTACACCGGTGTACCCACCGGCTCCGTCAATCTGCCGTCGGAAGTGGCCAGTCCGATCTCCGCCATCACCCGCCTGGACAATGCCGAGTCGCAGTTGCTCTACGTCATCACTGGCGGCAGCTTCGACAAGCTGGATCTACAAGGGCGTGTGTCGCGTATCACCAGCAAGGACGCCCGGCTGATCGTTGCCGACATCAGCGATCCGGTGCACCCGGTGATCCTGACCAAGAAGTTCCTCGACACCGAGAAGTACTATCACTACGAGGCGCCGAACGGCCTGGCGCCACGTGGCTTCGTCGACATGACCATTACCGGCGATCAGCTCTTCCTCGCCGGCGGACGCAAGCTGGTGCAGTTCGACCTGACGTTGCCGGCCGAGCCCGAGCGCATCGCCGAGATGGAGCTGCCAGCGGACATCAATGCCCTCGCCAGTGGCGATGGTTTGATCTACGTGGCCTACCAGCAAGGTGTCCGCCTGTATCGCCTGACTGCCGAGCTGAAGCTGATCGATCTGGGCCTGCTGGATACCACCCGCCTGGGCGGCATCCCTGGGCGTCTGCGCCTGGTGGGTTCGAGCCTCTGGGCAACCCTGCCGCAGCAGCGGCAACTGGTGGAAATCGAGCTGGCCAGCGGCGAATACCGCATCAAGCGTCGGATAAACACCCGCGATGCAGCGGGCAATCCCTTCGTGCCGGAAGATGTCCTGGTCCTGCCGAACCATTTGCTGGTTTCCAGCGGCAGCGCAGCCACGGTGCAGTTGTTCGCACTGGACAGCGATACCGGTGCGACCCCCGTTACCGATCTCAAGCTGACTTACCTGGTGAGCCGTGGCGACCTGTTCGCCGGTCAATTGCAACTGGCCGGGCAGACCCTATACGTGGCCGGTGGACAGGGCGACGTACAGTTGTTCGATATCTCGCCGTGGCTGAACGGTCAGGTACAGAGCAACATCGCCCTGCGCGACTACTTCAGCGTGCTGGGCAACGTCACCAGTCTGTCCCTGGGCAGCCAGGCGCTTTATGCCGGTAGTTCCTTCGTGTTCGTCAACGGCGAGCCGGCGGAAAACCCCCTGGAAGATCTGGGTGCAGCGACTCAACTGGGTGGCAGCCTGAATACCCTGGCCTACCAGAACCTGGCGATCCTTTCCCAGTTCCCGCGCCCGATGGGCCGGCTACCCCGTGAGGCGGCCATCGAAGTACAGTTCAACCGCCTGCTGGATAACCAGCAGTTGCGTGACCTGGGCAGCCAACTGGTCCAACTGCGGCTCGATGGCGTGGCTGTTCCGGCACAAGTGGCACAGGTCGGCGTTGGTCGTCTGGTGATTCGGCCGAACGCGCTCGTTTCGGGTAAACAGTACGAGGTAGTGCTCGGGGCGGCCCTGCAAGACCAGCAGAAGCGTGCGCTGGGCCATGACTACCGCTTCCGTTTCATCGCCGACAGCGAGGCCCAGATCACCCTCGACAGCTTCGGCCCGCGCCAATCGAGCTGGCGCGGTGGCGCCGAGGCGACCCTGAGAGGACGTGGTTTCGGTGAAAACCTGATCGTCGAAGTCGGCGGCCAGCGGGTTGCCGCCACCGACATCCTATATCGCGATGAGAACGAGCTACGGTTCCGCATTCCGGGATTGGCGGCGTCGCCGGCCAGCAACCGCCTGGTGGGGCTGCGTCTCGTCCAGGGCGGCCAGGAAGTCTTCCAGGCAGGCGCCCTGACCTACGTGGCCGACCCGCGGATCGACCAGTCGGGCCAATACCTCCCGCTCACCGGTACGCTCAACCCGAGTGTCAAACGCTTCACCTACAACGCCGGCGAGTCGATCGGCCTGCAAGGCCGGGGCTTCGGCGAGGCGACCCAGGTCAGGATCAATGGCCGCCTGATCTCCGGTGTCCGCCTGGAGCGTTCCGATCTGCTCAGCTTCGTGGTGCCGGAAGACACCCTGGGTAGCCTGCAGGTGCAGGTCAGCAACCAGGGCTTCACCGGTGATGTGGCTCAGGATGTCACCCTGCGGGTCGATTTGCCGTCGCAGCGGCAACTGGACAGCGTCGCGACGTTCCGCCGGCAGGGCGACCTGCTGCTGACAGCTCATGACTACGATGTGCAGCTCTACAGCCTGCGCGACAGCGCCAGGCCGCAGCTGTTGGCCAAGTGGACCAGCCTGGCCAAGGTGCAGGACATCGCCCTGAGCGAAGGTTACGCGGGCGTTCTCGACGAGAAGGACCAGATCCGCCTGTTCGACCTGGCCAACCTCTATGCGCCGCGCGAACTGGCTCTGGTGCCGAACAGCCGGAAGATCGATTACGAGGCGCTGGCGCTGGCTGACGATCTGCTCGTGGCGAGGGCTGGCGACCGGGTCTTCCATGGCCAGGTGCAAGGTGCGGAACTGCGAGAGCTGAGCCTGGAAACGCCGGACAGGTTGGTAGATGTTGCCCTGGACGAGCGCGCGCTCTACCTGTTGTTCGAGGATCGCCTCGAGGTCCGCTCCGCTCGCGACCCCGAACAGCTGCTCAGCCGCCATGAGCAGATGCTGAGTGGTACCCGCCGCCTGTGGAAGGATGGCAGCCGCCTCTACCTGCAAGGCAGCGATACGCTGCAGATCCTGCATCGCGCGGCTCTGCTGCGCGGTCGTGGCGATCCGTTGCTGGGCGAGCTTTCCATCAGTGCCACGGCCAACCTCGCATCCCAGGGTGAACTGCTGGTACAGCACCTGAACAATGAAATGCAGGTGTTCGACCTGGACCTGCAGGCCTCGTCCTCGAAGTTGTCCCGTCGGCTGCTGGCGGTCATCCCGGCGAGCGGTGCGATCGAACAACTGCAAATTAACGGCACTCTGTTGGAGTGGCGTGTGGGCAAGGCGTATTCCAACGCCACACTGCCGATGAACAACACGTGGGCCTTGGCGCCGTCGAGTCTTGCCGCGGCGGACGAAACGCTCGGCCTGCGGCTGGTCGGTCCGGACTATGCCTGGTTGCCGGCACGTGCGCGTCTGAGCGAACTGTCCGGTACGGCCATCGACAGCCTGTCGCAGGCCCAGGGTGCCGAGTTGCGCGTGGCGCCGAAGCAGGCGGCATTCGCTCCGGCCGGCCTCTATCGGGTGGCAGTGGACCAACCGCCGCTGGATTGGCTGCAGGGCGCCGAGGTGAACTTCGACCTGCCGTGGCTGGTGGACGGTGTCGACTTCTTCGGGGCGGCGCTCATTCGTCTGGACAATCTGCAGCCCAATCGAGCACTGTCCGGTCAACCTCGTACCTATGTGCTCCGTGGCCGCCAGTTGCAGCTCGTCGATCAGTTGCAGATCGGCGAGCGCGTCCTCGACCGCCAGGCACTGAGTGTCAATGCGACCGGCGATCAATTGAGCTTCACCTTGCAGCTCGACCAGGCGGGGATATACGGCGTCCAGGTTCGGTATGGACAGCAACGTGCGCTCCTGCCGACGGCCCTGGTCGTGGCCGAGCCGCTGGCAATCGAGAGCGTGACCTCCGGCAGGGCAGGCGGCACCAGTGTCAGCGACAGCGGCGGTACGCCGGTACAGATCAAGGCCCAAGGACTGTCAGAAGGGATCGGTCTGCATTGGTATCCGGCAGGCCAGGGTATCCAGCCCAACGCCGCCAACCGAGTCGACTTTACCCTGACCGACGAGGCCATCACCTTCGTCACGCCGCCCAGCCAGCCGGGGTGGAGCTACCAGATCAGTCTGGTGCGCGAGTCCAGCGGTGAACGCGTGGACAGCCAATCCGCACAATGGCTGACCGTGGTCGACGATACCGCTCCGAAGATTCGCCTGGTTCGCGCCCTGGATGCCGTCAACTCGCTGATCCTCGAATCCGATACGCCGCTGAGCGCGGATGGCTTCAGCGTGATCAAGCAGTTCAAGGATTACGAGGCGCATCCGCAGCCGACCGAAGACGTCAGCGCTCGTTTCGTCGCACCGGCGAGCCAGGGCAACCGCCTAGAGCTGCGTCTGCGCAGCGATGCGCTGCTGGAGGCAAACGCTCACTACGCCGTGACTCTGAACGGTATCCGCGACAAGGCGGGCAACCTGGCCATTGGCGACGGCATCCAGGGCGGGACCTACCAGGCCCTGTACAAGGCCGAGGATCGTCTGCCGCCGCGCACCGATTCCCTGGCTGTCACGTTGCAACCGGATGGACAGCCGCTGAGTTCCGCTGTCCAGTTGAAGGTGGGCAACCGCTACAGCTTCAACGTGTCCGCCGAAGACAACGTGCAGGAAGCCGACAAGCTGGCCTTCTCCTACCGGGTTTCCGCCGATGGCGGTAAGACCTGGCTGAACGATTGGACCCTGATCCAGAAGCGCGCCTTCAGCCTCGATCTGATCGGCGAGTACCAAGGTTTTGCCCTGTTGCTGCGTGCCAGCGACGGCAAGAACGCCAGCGAACGCCGCTTCGATGCCCAGGTCAGCCTGCCGAGCCTGCGGCTGCGCCAGTTCGCCACTCAGCCGTCGCCGGTGGAAGAAAGCACCACGGCACAGCTGCATTTCGAGCTGGAAGGCGACCTGGATCAGATTCGCAGCACGGAAGTCCGCCTGCAGGATGGCCGCTACGTCGCCGCGCCGCTGGATAAGCAGACCGGACTGGTCAAGCTGGCACAGGATCATCCGCGCCTGCGTGACCTGCCGGGTGCCCCATCGGCTCCGTATCCGCTGACCGCCGAACTGCGTGTGGGCATGGGGCTGAATGGCTCTGCCTACCAGTACTTCCAGGGACGCTACGACCTGGTGGCCGACCAGACTCCGCCGACCCTGGCGATCATTGCGCCGTTGGATGGCGAGTTCGTGCCGCGTGGCGAGACCACCGATGTGATCCTGCGCAGCGCCGACCGCTATGGCATCGACCATGTCGACGCCTGCGTGAACAGCCAGGCTGCCGATCCGTTCAGCGATGCCTTGGCCTGCCGGCGCCTGGCCGACCCGGGCCGATTCCGCGTGCCGGTGGCCGCCGATGCCACCGAGCCACTGCATATCGTCGCCCGTGCCGTCGATCTCAACGGCCTGGTCAGCCAGACTGCCACGATCACCCTGTTGCCCTACGATGCGAAGCAGGGCGCGCCGGAACTGAGCCTGCTCAGCCCGGCAGATGGCCTGACCGTACACGGCGGCGAGCCGTTGGTCGTCCGCGTACGACTGCGCCAGTTGCAGCAGGCCACGCTGGCCCTGCAGGTCGGTGGCGATCCGCAGCATCCGTCCAATCCGGCTCCGCTCCCGCTCAATCGTGGGGCGGACGATGACGAGTACCTCGATCTTTCCATCCAGGTGCCGAAGGTCGAGCGTGACGGCGTGCTGGTCCTGCGCCTGCAAGCTCCATGGCAAGGCCAGACTCTTACCGCCCAGCGAATTCTCAACCTGCGGGCGGATCAGGGTATCGACGAGGAGCCGCTGCTCGGCCTGCAACCGGCGCAGAACCTGCTGTCCGGTACCCAGCTATGGATCGACGCACCGCCGCCGGCCGGCATGACGGACTTCAGCGCCGATTCACGCGTCGAACTGTTCGACCCGAGTACCGCTCCGCTCGTCCGCTCGTTGCCGTTCAGCACTGTGCGGCAGGTCTGGAACAGCGCCAGCGACGGTGATGCGCTGCGCCTGGATGCCGTTCTGCAGGATCGCTCCGGCAATACCAAGACCACGCCTCGCAGCCTGGCCAAGCTGGCCTACCTGCAACCGGAGGCACGCCGTATCGCCATCGAGCGCGGTTATGTCGCGGGCCTGGCTACCGCTCTGCCGGGACACCCGCATGGCCTGGCCTGGGTAGAAAACCGGGGCAGTGCCGGCTACCGCCTGAACACCCTGGATGGCTTGCTGGAAAGCCGCGACAGCGGTCGTATCGAGCACCTGTTCTTCACCGGCGCCGGCCTGGTGGCCCAGGTTCGTCGCGAGGGCAGCGATATCCTGCGCTTCTGGCGCTGGCTCGACGGTGCCTGGCAGCCGGCGGTCGAGCAGGTAACTGCCGGTACGCTGGTCGGTGGTAGCGGCGATCTCCTGTTCGTACGCCATGGCCAGTTGCTGTCCGGGTTCGCCGTGACCGGTCGGGGCTTCGTCGAGCTGGCGGGTTCGAGCCTGGAAGAAGACATTCGCCAGGTACACGTGGATGGCCAGCGTGTGGCCGTCCTCACCAATGTTGCGCTGGAGCTGCTGCAATTGAGCGACGGCGAGCTGCCGGCCCTGCGCCGCGTCGCGCGTCTGCCGCTGGTGGATCGCGATGGCTTCGCATTGCAGGGTAATCGCCTGCTGGCCTGGAGTGCCGATGCGGTCGAGCAGCGCGAATTGGTCCAGGGTACCGAAGGCTGGTCATGGGGCGAAACCATGGCGCTGGCGGTAACCGGAGCGGTTACTGATGCACGATTCGATGGCGAGCTGGCCTGGCTGCGCGTAAGCGAGAGTCAGTACGGCGATAGCTGGCAGGCCTGGCGCGGCACCGAGCGCGTCGGCGCCCTGGAGGCCTACGAGTCCCTGACCGTTGCGGCTGGTGCGTTGTATGGCATCCAGCGTGGTGAAGACGGTCAGGCTCTGGTGGTATTCCCGCTCGAGGTGAGCGAGCCGTCGCGTGCGGAGCTGACCGCGACGATCAAGCGTCTGCCTGCCGGCGTACTGGTGGGTGGTTTACCTGCTTCCTTCGAGGCTGCACTCGGTCAGGCCGACGTGGCCTTCCTCGATGAAGAAGGACGGGTACTGCCGGCCCAGGCCTTGTGGTATCAGGGCGAGCTGGATGCCTATCTGGGTGAGTCCTTCCCGGCTGGGCGCGCCTGGCTGTTGGCCAATCCGCCGGCGAACCTGAAAGTGCGGGTCCGCGACCATGCGGGCGAGCGGAGCCTCGATCTCGTCGTACCGGCTGCCGATGTACAGGCCGCGCAACTGTCCCTGGGTGACGGTGCTGTGCTGACAGCCGGGGCGCGCGTGCCACTGGTTGCCACGTTCCCGGTCGGTGCCAGCGCCGAAGCGGCTGGTCTGGCGCGTGACGGTGCTGCCCTGGCCGGTCTTGCCAGCCCGACCCAGCGTCTGTACTGGATCGACATACCGGAAAGCGGTCAGGCGACCTATCGATGGGAAGACCCGTCCGCCAGCCAGACTTTGGCCCTGCATGCCCAACCGAACCAGGCAGTTGCCACCCTGACACTCTCTGGGGCAGGCAATAACCAGATCTTTGCCGAAGGCAGTGCCTTGTCGCTGGGCTACCAGGTCAGCGAAGCACCGACCTGGGTCGAAGTGGAGTTGCGCAGCTTCAACGGCACGCCATTGACGCGTCTGCTCGCGCTCGGTCAGCAAGGTCGTTTCAGCCTGCGTCTGCCGCAGGTCGTCACCCAGGAAAGCCTGGTGCTCCGGGCCCGTGCCTATTTCGCCGACGACTTCCACTACAGCGAGCAGCAGCTCAACCTGCGCGTGGCACCTCTGCAGCAACTGCCGCAACCTGTGCTCAGCGGCCTGCCGTCGCAGCTCTATGCCGACAGCCAGGTCGAGCTTCGCCTTTCCGGCGTGGATGGCGACCGCTATCGCATGTCGCTGGAAGCATTGGACGATCAGGATCGCCTGCTGGCCAGCGGTACCGATCGCATCAGCCTGCGCCTGCCGGCCGGTATCGCGGAACTGCGCGTGCGGGCCTTGTTCGACGATGAATTAGGCAATCGTCATGAGCAGCGCTGGAGTGCACCGGTGATCGATGCCTGGCGCTTCCAGCCGATGTCCGAACGCTTGCCGTTCGACGTCATGCTGCCCAGCGTGGGCGGCTACTGGTTAGCCCGTGGCGCTGAGCTGCACGATGGCCAGGGATTGCGTAAACGTCTGCCGGGTGCCATCGCTGCAATGGATTACCTGCAGGGCTACCTGCTGCTGAGCGTCCGCGGCTTCGGCCTGACGCTCCTCGATCCGCGCGATGGACTGAGCGTTGCCGGCGAAACGAGTGCCGCCGCGCCGCTGACTCACCTGGCGGTACAGGGTGAGCGCATTCTGGCCGCCAGCGGTCGCGATCTCTATTGGTTCGATGCCCTGGGCGCTCAGCTCAAGTCCGCCGGAACGCAGGCATTGAGCGACGACGTGCGACAGATCCAGGCGTATGGCAACGGTTTCCTGGTCCTGACCGGCAAGCAACTGCTGTTGTTCTCGGCGACCGGGCAGACCGATGCCACCTTCAACCAATCCGGCCTGCGTGCCCTGACAACCGTTGACGGCCATGTCTACGTGACGGGCTCCGCCGAGCGTCTCTGGCGCCTGACCGGTATCGCCAACAAGACGTGGGTCGGCGACTCCGTGCCCCTGGGTGGAAGTGCCGAGCGCCTGTTCGTCCTGCCGGGCCAGCTGCTCGCCTTGGCGAACGATCGTATTCAGGTGGTGGATCTTGCGACCCGTCAGCGAGTGGCGTCCTGGCCGTTCGCACTGACGGAGCCGGCCCGCGCGCAGTGGGCGTCCGGCAAGCTCTGGCTGGGTGGCAGCGACGGGCGGATTCTCCAGCCGCTTTCCGGCTCGGCAGGTTTCCTGCCGCTGTATGACAGCAGCCGCGCGGCGGAGCCCACTCACGGCACGGTAAGCGGGCTGGCCCTGGCTGGCGGACAAGTGCTGGTGGCGGCCGACAACTTCGGGGCGCAACTGCTGCGCCAGGATGGCGACGGTAGCTGGTTGTCCACCCTGTATCCGTCCCAGGCCTTTACCCAGGCCGCCGGCCAGGTGGCGGCGGGCGGCGATTACTGGTTCGTCATGCAGCCGCAGTTGCAGCGTGTCATGGCGTTGAATCGCAGCACCTTGGCGGCGCAGACCGTCTTCGACAAGCTGGTCGTCAACGATCTGGCCACCAATGGTTCGTATGTGGTGGTGGCCAGCGGTGGTTCGCTGCGCCTCGCCTCGCTCACCCAGCTCGGTCTCAAGCGCGAGCTGGTGGTGACCTCGCAGGAGAGCCTGCGCCAAGTGGCGCTTTTCGGCACCCAGGCCGCCGTGCTGAGCGAAAGCGGCCGGGTGTTCCTCGTCGATCTGCGCGAAGAGAACGCACGCCCGGTTCAGGAGCTCAGCGCTCAGTTGGGTGGAGAAGTCCGCCAGTTGGCCTTCTCCGGCGATACGCTGTTCTATCGTTCCGGTGCCGCTGCGTGGCGCTATGACCTGCACTCCGGGCAGCGTTCCCAGTTGCTGGCGGGTGAAGCCGTCGACGGTCTGTACTGGGCGGCGGGCCTGCTATGGGTCGAGCGGACTCAGGGCCAGGGCTTCGTTCTGTCAGCGCTCGATTCCACTACTGGCCAGCCGATTGCCGGTGGCTCGCTGCCGCTGGCACAGCGCACGACCGCCGTTGCCGTGGAACGCAACCGCCTGGCCGTCGGCCTGGGCGCCCAGGGTGTCCGAATCTTCAATTTGCCCTATGGTGTCGTCGGAGGCGGCGTCGCACCGTTCGCGCCATTGGCGAATGCGGTCCTGGCAGCCAATGCGCCGCTGAACCTGAGCCTGGATGGGACCAACCTGCGCGGTCTGGCCTTCATGCTCAATGGACAGCCGGTCGGCGAACTGAAACAGGCTCTCGGCCAGGCCAGTCTGCGTCTACCCGCGAACCTGCCCATGGGGCAGACCTTCACCCTGGGTGTGCGTACCGAAGACATCCATGGCGTGATCCGCGAGTCGGCGGCACGTTCCCTGTATCTGCAACCGAACGATGGCGTGGCGAACCCCTTCACGCTGGCGTTGAATTATCCGGAACACAGCTGGCTGCCGTCGCCGCTGAGCGTCAGTGCCCAGATCGGTGCCAGCCAGCAGCCGATCGCTCAGGTCGAGTTCCTTGTCGCGTCCGCCAGCAGCGGTCCGTGGCAGCGCGTTGCGTTGCGCCGGGCCGAGCCGTTCCAGGCCAGCCTGGCGCTGGATGAGACTTTCTCCGGCCAGTACCTCAAGGCCCGCGCGGTAGACGTGTTCGGCAACAGTGCGGAGACCGTCCCGGCGCGCTTCTACCGCCATCTGGACTCGATCAAGCCGACAGTGGCTTTGAGTTACGAAGGCAGCGCCGTTCTCGTTGATATGAAGAAAGCGGTACGGGGCTTCCCCTTCACCGTGAAGGCGCAGATGAGCGACAACGGCGCACTGGACAAGGCCACGTTGTCGCGCAATGGCCAGGTGGTCGCCGTGGCCTTCGGTCAAAACCAACTGAGCTACCAGGAGACCGCTTCCACTCTGGGCGAGCAGGTCTTCACCCTGGACGTCAGCGACCGCGCCGGTAACGTCGCCAGCGCCGAGCTGCGCGTTACCGTGATCGACGATGCTTTCCCGGTCGTGGAAAGCCTGACTGCTCCGGCACAGTTCATCGAGCAGGGCAGCTTCGACATCAGCCTGACCACCGAAGACGACGTATTGGTCAAGGCGGTGGATATCGTGTGGAACGGCTTTGCCGACCACTACGATTTCAACGACAAGCGCTTGGCTAATCGCGTCTTCACCGTCAAGGACCGCCGTACCGAGCGTGTGCCGGCCGCCAGCCTGACCCAGGCGCTGCAAGTCAAGGTCACCGACAACCGTGGCCAGGTCACCGAGGCGCAACCGAAGTCGATCAAGGTTTCTCGCGACGCTGCGCCCAACGCCCAGGCGCTGCAGGTCACCTTGCCGGCCCGTGGTGTATTCGGCGGGCTGGCGCGCCTCGAACTGGCCAACCTGAACGCCGCGGACGATACCGGCAGCCTCATCGTGCGCGTAGCACAAGTAATCGGCGGCCAGGCACAGGAACTCTTCAGTTGCCAACGCGCCGCCAACGATCACTTCTATTGCGGCAATGCCGGCGGCTACTGGGACTCCATTGCCCGCGACCTGCGCATCCCGGATACCTTGCCGGAGGCCGACCAGAGCACCTACCGCCTGCGCCTTGAGCTGGTGGACCGTATCGGGCAGACGGCCAGCCGAGACCTCGGCATCGCCTTGACCCAATCGCCGAACCTGGTTCGCTTCCAGCAACAGCAGGCGAGCGACAACCCGGCCATGGCCCGTGTGCAGGAAAGGCCGGTCTATCGCGTCCAGGTACTGGATGCGGCCGCGCGACCGGTGGCCGACCAGCCGGTGCGTTGGCGCCTGCGGCGTCTGTCCGATGGTGCTCTCTGGAGTCTCGGCACCAGCAACAGCGATGCGAATGGCTACGCAGCCTGGACATTCAACGCCGACCGCACCGTGGGCGACTACCAGATCTGGGCCGACCTGCCGCAGTTCACCCAGATCACTCGTGCCGAGCACGACCTGAGCATCCAGTCGGGGCCGACCCGCAATCTGCTGCTCGGCTACATCCCGGCGATGCCGGCCGGCTCGACCCTGGCCGTGACGGTGAAAGCCCAGGACAGCGAGCTCAATGACAACGGCGCCGACCAGACCACCGTTCTGACGCTGACCCTGCCCACTGCGGACTTCCACGTCTTGCCGGGTGATGGGGTCCAGATCGGCACCGTCACCAGCAATGGCCAGATCGTCGAGCGGGTTCAGGTGGCATTGAAGGACGGCCGCGGACAATTCGTGCTGCAGGCCGGTCAGACTGTCGGCCAATACAGCCTCGCCTTTGCCAGTACGGGCAACAATATCCGTTACACCTACGACAGCCGTGGCTACACCACCTGCTGCGCATCGACCTTCAACCTGACCGTCATCCCGGCCGCAGCCAGCCATCTGCGGTTGCTCAACGAGAGCGGCCGCCCGCAGGAAGCGGGGGATGTGCTGGTCCGTGGCGTGAAGCAGGACGTGCGTCTGCAGGTTGCATTGCAGGACCGCTTCGGCAATGCGATCAGCCAGCTGGATGGTAAACCGGCGAACCTGACCGTACAGGCCCGTGCGACCGGGTCGGCACAGATCAACGGACAACCGACGGCTGCACCGATTTCCCTGGTCAGTGGCCTTGCCTCGTTTGCTGTCAGCAACGAGACCTATGAAGAGGTCACCGTCAGCCTGGCTGGCCCGGTGGCGAATCTGCCGCAGCTCGACCTGGACAGCACTTTCCGGATCAATTTCACGGTGCAACCGCCGGAAATCGTGCGCAGCGTCATCGAGGCCCGTGAAGGTACCCAGTTGCGTGCTTATTTCGAGTACGACGAGCCGGTGAACCTGCCGAGTGGCGAAGCGCTGAAGTTCTACCAAGGCACGACGCTGCGCACGGGCACGATCAGCCTGAGTGATGGCGGGCGTACTCTTACGTTCGTACCGCAGCAGGCGCTCGAACTGGGCCGCTGCTACCGTTTCGATACCGCCGGCTCCGGTCTGCGTGGCGTGGCTCGCAATGACGGCGTTCGCGAGCAGGCGGGCGATATTTGTGCACCCCATGCCCTGTTCAACGTTGTGGGGCCGGTCAAGGTACTGGCCGGGCAGAACTACCAGGTGCCGTTGCTGCTGGCCAACAACATCAGCTGGTCTGGCGTGAGCAATGGCCGTGCGGAGTTGGCCGGTCGGACACAAGGCTTCAATTGGTACTACAGCCCGACGCGTACGCTAGTCGTCCCCGAATTCTTCACCGAGGCGGATAACACTATCGTCGACGGCAGTGTGCACCCGCTCACGCTCAGCGGCACGCTGTCCGGATCGCCGGCCAAGCCGGTGGTGCTGGGTAACGCCATGCAGCTGCAGGTGTTCGATCCGCTCGCCGATTTCGATGGCGATGGCCTGACCAACAAGCTGGAGCTGGAAACCGAAGGGCTCGATCCGAGCCAGCGCGACAGCAATGGCAACGGTATCGAAGATGGCGCCGATGACCTGGATGGTGATGGCCTGTCCAACCTGGAAGAGGCCACCCTGGGCACCAAGCTGCGCGTGATCGACAGCGACGGCGATGGTCTGTCCGATGGCAGCGAAGTGCGAACCCACGGCACCAATCCGCTGAATCCGGACACCGATGGTGACGGCCTGTCCGACGGGGCGGAAGTCAGCAATATTCCGGCGTCTTCGCCACTGAAGAAGGACACCGATGGCGATGGCATTCTGGACCCGCTCGAACTGCAGGTCGGGCTCAATCCGAACGATCCTGCCGATGGCCTGGCCGACAAGGACAGCGACGGCTTGACCAACGCACGCGAGGCGTTGCTGGGCACGATCATCGACAATCCCGATACCGACGGCGATACGCTCAAGGACGGTGTGGAGGTCGATCAGCTCGGCACCGATCCGCTGAAGGCGGATACCGATGGCGATGGGCTGCGCGACGACGAAGACAGCGAGCCGCTGGTCAAGGACACCCAGGCCCCGGTAGTACGGCTGCTCAATCCCGCACCGGGCCAGCAACTGATCAAGGGGCTGCGCCTGACCATCACCCCGAGCCTTCAGGACAACGGCCGTGTGGCCAAAGTCTCGGTGCTGCTGAATGGCTCGCAGATCGCGCTGCTCACCAGCGCGCCGTTCACCCATACGGTGAACCTGCCCACCGAGGCGGACAGCCTGCGCCTGGAGCTGGTGGCCATCGACACCAACAACAACCAGGGGCGTACCGGCGAACACACGTACAGCCTGATCGAGGACCCGCTGACCACCGTGATCGGCCGCGTACTCGACAGTAGCGGTCAGCCGGTTGCCGGTGCCCAGGTCGAGGCCCTTGGCCTGACCGCGATCGTCCAGAGCAATGGCAGTTTCGTGATTCCGGGAGTGCCGGTAGCGCCCGGCAAGGTCACGGTCATCGCCAACGGTCTATTAGGTAATGAGGCAGTAACCAACGCCTCGGCCGAGATCGATCCGGTCTGGGGCGGTACCACCGACGTGGGCACCATTACCCTGCAACTGCCGAAGGTGCGGGTGGGCTACTTCAATGCCCGCTTCAACGCTGGCCAGGCTTATCAGCAAGCGATCATCGAACGGGCTGGATTCGAACCGGTGCTGGTGAGCAATCTGGCGACGTTCGACCTGTCCCAACTGGACATGTTGATCGTCGACAGCTCGCGTAATAACCACGGAAATAGCAGCTATTCCAATAACCGCAGCAAAGTGTTCAGCTTCGTGCAGAACGGCGGCGTGCTGGTACTCAACGAGCACTACAACACTACCAGCAACCTGGCCGATATACCGGGCAATCCCTCGACCAGTTCGGTATGGACGGGTAATTACATCACCCTGCGGCCGTTCTATCGCTGGTCGGAGGTGAGTGAGGGCAAGGCAGGCTCCTGGTGGTTGCAACGTGCCACGACCTATTCCGGCTACGCCTATTTGCCATTGGACGGCCTCGATTCGTCGGTGACCCCGCTGGCCTTCAGCGGTGCCCGCTACGAGAAGCGCGTAACCGCTATCCGCTATCCATATGGCAACGGTCATGTGTACTTCGGTTATGCGCCGGTTGACCCCTGGTATATCGATGCCTCCAATCCGATACACAGCGTCTACCACCCGAACGTGCTGGTGATGATGCGCGAGCTGACCCTCAAGGACAGCGACAACGACGGCCTCAAGGACATCTACGAATTCGCCCACGGCACCAGCGCCTTCCAGGTGGACCGTGATGGCGACGGTTTGCTGGACGGTTTCGAGGTCAAGTACGGCTTCAATCCGTTGGTGGCGGGCGAGCAGCACCTGGATACGGATGGCGATGGCCTGAGCAACCTGCGCGAGCAGGAGCTGGGCACGCATCCGCGCCAAGTCGACAGCGATGAGGACTTACTGCCCGACGGTGAAGAGGTCGATCTGCGCAACAGCGATCCGCTGAGCGAAGACACCGATCTCGACCGTGTGCTGGATAACGCGGAAGTGGCGAACAAATCGAATCCGCGCAAAGCCGACAGCGATGACGACGGCATCAGCGACTACGACGAGATTTATACCCACGCCACCAGACCGGATCTGGCGGACACTGATGACGATGGCCTGTCCGATTTCATCGAGCTCAAGGGCCCCTATGCGGACATCCTCAATCCGAAGAACAAGGCGGATGCCAACCAGGATTACGACGGCGACGGGCTGACCAACAAGCAGGAACTGCTCGAGACCCTGACCAACCCGAAAGTCGCCGATACCGACGGCGACGGCATGACCGACAAAGCCGAGATTCTGGCGGGCCTCGATCCGCTCGACCCTGATACCGACAAGGACGGCCTGTTCGACGGCGAAGACAGCCAGCCGTTGGAGAAGGACCTCGAACTGCCGCAGGTCAGCCTGACTTCGCCAGCTGCCGGCGCCAGCCTGGTACATGGCCAGCAGGTTCGTCTGCAGGCCAGTGCCAGCGACAACGGACGCGTGGTCTCGGTGACCTTCTACGTCAACGGTTCCGCCGTGGCCACTTACGGCGAGGCGCCATACCAGCACGTTATCGCCGTGCCGGCGCAGGGCAGTGAGTTGCAGGTGGAAGCCAGCGCGATCGATACCAACGGCAATGAGCGCCGCACGCCGGTTTCCCGCTTCGACCTGATTGCCGACGTAGGCTCCCAAGTGACGGGGCGTGTAGTGGACAGCGCCGGCAATCCGGTTGCTGCAGCTCGTGTGAGACTCGTTAGCTATGCCAACACGGGTGCAGATACGGTAGTACCTCAGGGTTATACCATTGACCAACCTACCTCAAACGGTTCCTACAATTATTCGGACAGGACTGGTCGTCAGCTTATTGATGGTCAGATTGGGGTAGCGGGTTTTGCCGCCGATATTGGTCAAGGTAACGCTTATGAGTGGTTGGGCTGGAACAACAAGCCAACTGTGAATATCGACTTTGATTTCGGCTCTGTAGTCGAAGTCGACGGAGTCAAGGTTGGCACGACCCAGCGTCTTAGCGATGTTCGTCGCCCATCGGTTGAGGTGTTCCAGAAGGTAGGTGATGTTTGGATTCTGGCAGGTAGCCTGGATGTGCCGACCACCACAGATTCAACCGATGCCTTTGCGACCGTCCCGCATACGACGTTGGATCTATCCAATCTGAATATCATGAGCCGCTACGTTCGCGTCGTGCTCAAGGCCAATCCGAGCGGTACTTGGATCTTTGCCGATGAGGTAACGTTCTTGTCCCCGGTCGGGGAAACAGCCACTACAAATACTGAAGGTCGTTTCGTACTTCCGACTACTACGCAGGCTTTGGATCCTCGGATCAAGGCCACAGCTCAGTTTGGTGCTCAGACCATGACAGCTCTGAGCCCAGTTTTCGAGTTGGTACGGGGCGGTTCCAATGATGTAGGCGACTTGGTGCTGGCTGCCCAGGGCCGTCGTGCGTTCGAGCCGATCCAGGCCCGTCACCTGGCTTACGAGGCCCGTGAGCAGAACTATTACAAGACGCTAAACAACCAGCAGCGGTGGGATTTTGATATTTACTATGGTGTTATCCAGAGTGGCACCAACTATGGGTTCAACTATGCGCAGTATTTGGTAGTCAACGGCTCCCACTACACCAACGAATCGCCGCACCCGTACCTGCTACGTCTATCTGGCCGTGAGCTGACCTTGCCTGAGAAGCAGATGGGTTCGGTGCGCGTGAGTCGTAAACTGTATGTTCCTGCGGATCGCAGCTATGCGCGTTACCTGGACTTGTTCGAGAACACTTCGGATCAGACCGTTACCGTTCCGGTACGGATTCAGGGCAACTTCTACAACGGTGGACGTCTTATCACCGCCACCTCATCGGGCGACCTCGCGTTCAACACGCTCGACCGCTACCTGATCACTGACGATGGTACGGACAACGGCGGTCGCACGGCGTCCGGCCTTCTGTTCGGCGGCTTGGATGCACCCGTCCAGCCGAGTTCGGCTTCGGCCAGCGCGGACAATTACTCGGTTACCTATACGCTCTCCCTGCCGCCGCGCAGCCGCAAGGCACTGCTGCACTACGCCGTGCAGAACAGCAGCCGGGCGGAGGTCAAGCGCATCCTCGAGGAATTGTCCGCAGCCAATTACGAAGAGCGTGACTTGACGGTCGAAGAGCATCGCGACATCGCCAACTGGACGACCCAGGTGGACAGCGATCTGGATGGTGTCGCCGACGCCGATGAAGTGCCGCTTGGCCTGGCTCCGAACGTGGCTGACAGCGACGGCGACGGCCTGCTCGATGGATTCGAGCGCCGCTACGGTTTCGATCCGCATGCAAACGATGGCCAGGCCGCGCTCGACAGCGATGACGACGGCCTGAGCAACCTGCAGGAGCAGGAAGCCGGCAGCCACCCGCGCGTACCCGACACCGACGGCGATGGTCTGAACGATGGCGCCGAGGTGCTGGTGCACCTGTCCAATCCGCTGACCCGTGACACCGATTTGGATCGTGTCCTCGATGCCGACGAAGTCAGCCGCGGAACCCTTCCGGGCCAGCCGGACAGCGATAACGACGGCCTGGATGACTACGCCGAAATCTATACCCATGGCACCGACCCGCTGAAGCCGGACAGCGACGATGACGGTATGCCGGACAAGTTCGAGGTCGATCACAACCTGCTCAACCTCAACGCGTCGGACGATACCGACAACGATGGCCTGACCAACCTGCAGGAATTCCAGGCTGGTACCTTGCCGCGTAATTCCGATACCGACGGCGATGAGATGCTGGATGGCTGGGAGGTCCTGGGCGTACCGCCGAGCGATCCGTTGAAGGCGGATGGCGATGCCGGCGGCCGCCGCGACATCAACGAGCGTTTCGTCGACGGCACCGATCCGAAGCAGGCGGGCGATGACCGGCCGAATATCAACGGCTATCGCACGGTCAGCGACGAGAACAATCGGAGCTGGACCTTCTATTACAACGGCTATGTGAACGGCACGACTGGTTCTGCGATCGACGGTAACGCGGCGTTCCAGCTCTATATCAATGGCAACTACTACGGCTATTGGTACAACCACGCCACCAGTTCGGCCAATGGCCGCGAGTACCACTATGAGGCACGCCGGATCAACAACCTGGTCGTCAGCCGTCGCGTGCTGGTGCCGAACGTTGGTGGGGCCTATGTCCGCTACCTGGAAATCCTCGACAACCCGACAGGCCAGGAGCAGGTAGCGACCGTGCGGTTGCAGTCCTACTACGGCGCGGCGAGCGACAGCCAGGTTGCCGTGGTGACCAGCAGCGGCGACACACAACTGACCACTGAGGATGACTACCTCGCACTGCGCGACACCTCGGTGGCGACCCGTCCGGTGCTGTTGCATGTGTTCGCCGGCAATGCCCAGCGTCGCCAGGGCGTCAGCTTCGTCAACCAGAACGGTCGCCTGTGGCAGACCGACTACCAGGTACGCATTCCGGCGGGCGAGCGGCGAGTGATCATGCACTTCGCCACCCTGGAAGGCTCTACCGAGGCTGCGGTCGCCACGGCGAACAAACTGCGCAGCCTGAAGAACCTGGGGCTGGATAACCTCGATACCACCCTGGCCGGCAAGGTGGTGAACTTCTTCGCCTTCTATGACCAGGATGAAGATGGCCTGAGCGACGCGGATGAAATCCGCCTGGGTTCGGACATCAACGACCCGGATAGCGATGACGATGGCATTCCCGATGGCCAGGACACCGAGCCGATGGTGCCGGATGCCGTGGGGCCGACTGTCAGCATCCAGCCGTTGACCCCTGCCCGTCGCTACGGCGGAGACCCGCTGGAAGTGACCGCTCTCGTCGCCGACAACGGGATCGTTGCCAAGGTCGAGCTGCTGCAGGACGGTGAATTGGTCGAAACCCGTACCCAGGGCGGTACCCAGACCTTCTCGGTGATCCTGCCGAACACCGAGAACACCCTGCTGCAAGTCCGGGCGACCGACAGTAACGGCAACGTCAGTACGGTGGAGCTGAATGTCCCGATCAATACGGTGCCCGAGCTGCATTTCAGCGGCTCGGTGGTGGACAAGCTCGGTAACGTGGTGGCGGGTGCGCTGGTAGAGGTGAATGCCGTTCAGGCGACCACCGGCAGCGATGGGCGCTACAGCCTGGTGGTGCTGAGTAGGGAAACTCGCCTGGAGGTGCGTGCCAGTGCCCTGTTCGGTGCCCAGCGCATGACCGCGCGCCTGCCAGTGGATATTCCGGTCGAAAGCGAAGAGGTGTCCGTACCGCCGCTGCGACTGGAAGCGGAGGGTCGCCGCGCCACTGGTCTGATCCCGGATAGTGCCTTGAGCTATGAGGGGACGGTTGGATTTACGTACAACCTTTATGGCAACAACTATCGGTGGGATATCACCAATACTGGTGGCATCAGCGATGGCTCCAGCGATGCCTATGATGGCGGTCAGAATCTAACGGTCAACGGTCAGAGCTTCCCAGGCGGCAGCCAGGGCCAGCTCCGCCTGAACGGCCGTGAAGTGACCTTGCCTGCTCGGAGCATGGCGGGTGGCTTGCTCGTCAGCCGGAAGATCTACGTTCCGGAAAACCGGAGCTATGCACGCTTCCTGGAGCTGATCGAGAACCCGGGCGACAGCGCGGTGACCGTGCCGGTCACCATCAGCGGCAACCTGGGCTCGGATGGTTCCACTTACCTCATCAACACGTCCTCCGGGGACAGGTCGTTTGGCGTCGACGATTACTACCTGCTGACCGACGACTCCTCGTCCGGTGAAGGTGGCAGTGATCCGGCCATGGGGCATCTGTTCGGCGATCCGCGCTCGACGCTCAAGCCCAGCGCCGTATCGCTGAGCGGCGACAACTACTCGATGACCTTCACGCTGAGCCTGCAGCCGCGCAGCCGGCAGGTGCTGATGCACTATGCGGTGCAGAACTACAGCGGTGCCGAGACCCAGCGCATTCTCAACGAGTTGAGTTCGGCCACCTTCGAGGAGGTCGGGCTGACCTACGAAGAGCACCGGCAGTTGGCCAACTGGAGCGGTTTGGTCGATTCCGATGGGGACGGCATGCCCGATGCGGAGGAAATACCCCTCGGCCTGGATTACCAGAACCCCGACTACGACAACGACGGCATTCCGGACGGCCGCGACAGCGAACCCAAGGTGCCGGATACCGTGGCGCCGACCATTGCAATCAGCCACGGCGAGGGACCGTTCTACACGGGCGACCCGATCACTCTGACGCTGGACGTACAGGATGCGGGCATCGTGGGGCAGGTCGAGCTGCTGATGGACGGCGAGCAACAGGCCGTATTCAACGGATCGGGCCAACATGTACAGCAGCTGACGCTACCGGCCGAAGGCACCGTGCATTTCGAAGTGCGTGCTACCGACAGCAATGGAAACGTCGGGGTGCAGACGCTCGACCTGGATGTGGAAGCCATTCCGCCGAGCAGCATTGCAGGTCGCGTGACCAATCTCCTGGATGCTCCGCTGGCTGGCGTGAAGGTCACGCTCAGTCGTGGCGGTAACGTTGAAGCGCCTTCGCTGATGACGGCTCTGTTCGGTATTGGCGAAACGTCCGTCGTCACCGATGTGGACGGAACCTTCGTCTTCGATGACATCGACCGCCGCGAGAATGCCGACTGGACCGTCCACCTGGAAAAAGAAGTGCTGGGCTTCCCGGTAACGGCTGAGCGCCAGGTTCATCTGGCAGTCGACGGGCGGGCCGAGGTGGGGGATGTCTACCTGTCCGCCGATGAAAACTACACCGCGCCGTTGACTGGCGATCTGGGGCAGGCACACCAGGGTGACTATGCGTGGCTCACATTGCCGGACGACTACGCGTTCGCCAATAAGGGAGTCCAAGTCAGCATCATCAACCAGGAAGTAACGATTGGCGGTATCACCGATGTGCCGTTCCGGTATTCGCAAGGCAATCTTGGTAACCGTGAGTTCCATGTTGCCAGCCTCGACGATCGGATGGTCCTGAGCTGGACCGGCTGGAAGGCACCGTTCGCCGATTCCGATGATGACGTCGTGGATATGCAGGTCGTGCTGCATCGTGACGGCCGAATCGAGAACCGCTTCTATCGGGTGCCTTACGACACCGTGTGGGGATGCCAGCCTGGACATTCCATGTTCCGTAATGGTGGCTATGGCCTTACGGATGAGGTCCATTTGCGCGATGTCCAGGGTCGGTATGTCTTCCCGAACGTGACGATGCGGGAGAGCCATTACTGCACTGTGGACCTTCAAGGGATGACCGCCACCTATGTACCGGTCGCCGATGGCTCTTATCGCCTGCAGATCGGCCGGCTCCCGGGCCATGTGGACAGCGACGGAGACGGTATTTCCGATATCAACGAAACCTTGCTGGGAACCGAGCTGGACGAGCGGGATAGCGACGGCGACCTGCTGTGGGATGGGTTCGAGCTGTATCACGACATGAACCCGCTCCGTGCCGATCCGGGTGTTGCGCAGGAGGATTGGGACGAAGACACGCTCACCAATCTGCAGGAGCAGGAACTGGGTACCGATCCGCGCAACAGCGATAGCGACGGCGATACCTTGCGCGATGCCGACGAGGTCGACACCTACGGGACCGACCCGACGCTACGCGACACGGATGGCGACTGGCTGACCGACGACCGCGAGATCCAGGTTGGCAGCAGTCCGCTCAAGGCGGATACCGACGACGACGGTCTGTACGACTACGACGAAGTCGAGCGCTATGGAACCCGCCCGGACAAGCGCGATAGCGACGACGACGGCATGGAGGACAAGTTCGAAGTCGACTACGACCTGATGGGCGTCGAGGCCGGTGGCGATGAGGATGGCGATGGGCTGAGCAACCTGGAGGAATTCAGGAACGGCACCCATCCTCGTGTCCTCGATACGGACGGCGATGGTCTGCCGGATCGATTCGAAGTCGATCTCGGACTGTCGCCGAAGAAGTTCGATAGCGATGGGGCCGGTCGTGGCGATGGGGATGAATTGTTTGTCGATGGCACTGACCCAGAAAACCCTGCCGATGACTTGGGCGTGGTTTCGTCGGGAACGACGTTGTCGTTACCTACTGAGGCTGGCTTGGATATCAGCGTCGATTCGATGGGGCGGGTGCAATTCTACGATCCTCGAAACTATAGCGAGATCGGTTTCTGGCAGGCCCTCGAACTGGAAGGTTATGTCAGCGAGTCCAGTGGCGAATTGGTATCCAGTAATAATAATTCGAATAATTTACGTATGCTGCGCAGTTATAGTCAGGTTGAGAATAAGCCGCTCTGGCGCGGGCCTTTGACGGCATTGAGTGGCGATTTGCTGGTCAGCCGCGAATATTATTTACCGCCTACCGGGCGAGCGTATATTCGGGTGCTCGACAGGTACTACAACGTCAGTGGAAAGTCTCTTCTCGCCAAACCGGCCCTGCGCTCGCGCCCGGCGTATTGGGGGCCGGGCTATGTCCAAAGCACATCCAGTGGCGATGGCGAGCTGAGTGCCCAAGACGGATGGTTGAGTCTGCGCAAATATGATTACAACACTGGTGGGTCTGGCCCGGTGGCAGCGCTATATGTGTTTGCTGATGAGGCGGGCAGGCAGTCCCTGGACAGCGAGAGGCTCTACAGTGATGCCTATTACGATGTGAGAACCGGCTATCGCTTCGAAATCCCAGCCAACGAACACCGTGTGGTGATGTCCTTCATGGCTGTGGAGCAGGACGAAAGCCCGGTCAAGAACGGGGCCAGCGTGCTGCAATCGCTGGGTGAAAATACTTTGTTTGGCATACCTGCCGAAGATCGCTCGCGCATCGTCAACTTCACACCGTGCCCAGACGACGAACTGGATCTGCTGTGTAATGCCGATGAGTTGCAACATGGCAGTCGAAGCAATGCTTCGGATAGTGACGATGATCGCTTCGACGATGCTTTGGAAGTACGTTTAGGAAGTGATCCGGCCAGTGCCCAGTCAATACCGGAGTTCGATGTATATATGGCTGGCGGCAATGATGAGTCCAGCCGCCTGCTTCGCCAGCGTGGTTTCAATGGTGCACTGAACGAAGTAAAGGTGCTCGATGCGACTTATCGCAGCGTCGATATCGATAACACGGGGGCCTTGTGGTTGGCTGGGGCAGATACGTCGGATGGCTTCCGTTACGAAAAATATGACTTGGAAACATTGGTGCAGCGTGACGAGAGCATTTGGGATAACAATCGTGTCGATCTGCTCGACGATTCAATGAGCAATATTGCGCATTATCTGTATCTCATTGATGAAGGGAGCTCCGAAGAAGGTGATGAAGCTAAGCCGGAGTTGGTTATTAATGGCCTTCGGTCTAGCCGGTGGGGAGAAGAGAGCTTCCCAGTAAGAAGCGGTATTCCCGCTGACCTTCGTTGCGGTGCCGCGCTGGCGAATTGGCAAGGCACTCTCCTGCTGCTTAATGGCTGCAAGCTGAGCTGGGACTACGGTGAGACAGACATCTCCTTCACCGAAGACTTCGGCAACCAACCCCGCATCCTCTCCATGGACGACATGCAGCAGGCCAATGGTGTGCTGGCGCTGGTGGAAGACGAAGTGGACGGATCGAAACGCAGGAGCCTCGGCTTCATCGATATGAAGACCGGCAAGGTGGAGCGAATGAAAGGTGTATCGATGGATGTGAAGGGCCTTTCGGTGAAGTTCAAGGGCTTCCAGAACCAGCCGAAATGGCCAGTTGATATCGTTCCTCAGTAA	MPHGCSFTGIRRLLATLFALAAPALAFAEFDIRAAAPLGSSGDAVDYTLAIADCRNLVEVSIPATNQRFLPTDALRDGDSVASCSFNFRLEGSGMLQPAVRLSYADGTKKDYSESFASERQLPDLQLTQLAIEMEDGQQYLVASFDARDDVDLSYLSIAFTGLRASDLRAAGGVVSQAESRAFLRMPEAVRVYPSVDGQSRYSLRQRIEPSLSAEEVARNALVMVQATAVDASGNQNSYSDIRFTGDSVDEAARSISVSPGSLIFSDALQSARLIPEVDFEFRGPTPLAGLGQGVSYRSSSPEKVWVSAEGVVYPLQETAGEAVFVYLNYPGLAEISLPVKVDFSRRLTSLKFNGQASGQPLVLSRLNEFQKLPPLLAVFDDGSEAPLADSLVVEMRLPDGSEGVLESNERHELLARAQIPDQSPLTVHLNLQRYPDIGVDLPVAAEDAAPSVDLQPPASIAVGSVLELAANATDDVAVKGVEFWLDGSLVGRRVAPPYALSLPIEQELEGRELHLRVVAFDSAGNSQSSPERTVRVVAKSNPTVPAFTFETPVDAQRVVENSQVRAVIAASLGVLPDVEYQSGISRVEYFMDGRKVGETMFPVLEQRPLPSDPNRKELFELWLVDLTVPDIAVQETSLALSARVYSRNGGVKDAPARLLRVLQNQRPTARITQPAVGSLATVGQTVTVTVEASDDTLDAGTDLFLQVNGEEVQSYRHQVKNYDGNAFGIRSATHSFQLPIKPEWLGTTLELRARVVDQHEQSNLSEKLLLPVKGDQLPTASLSHPVEGMHLVSGQPVELRANATDDLGMRQVDFFVNGKLVGTDLRAPFAVVYQTPQGVVKEAPLAIHAEATDSAGQLARSAVVNVTLGKDEEQPVLNLASPSINVSDAGKDLAPVVENSTFVLKLTGYDNVGVERLDLYGVAKRDGVGYVLTGDLQDHLSNVDGNLTLQSIPGTLKAFSALKVVAAPAFKHLDGVRYDTYPIRAIATDGTGNTSELQALIGIQDDAKPRVRAINPTQSRVYSQDDVVVEVIATDDIAVHALEASLWQDGGAAPLWEKRIDAQAGLTPGPETVNRLTIPLKPLALGNQNRTLRLRVAAVDDGGQRGDVANLDVPVMADVLGPRLAVLSPIQGAPIYAGNTISMKVRGVDDTRLVSLRALAGARTLYSVDNLAVATYEQSFTVTVPEQGDELVVELRGTDQYGNEAEPTFWRFPIERDQPPLVSVRAPAPGARLYEGESFNAQVLAQDDRKLTRVEFFLRQGGQTTVLRAFTGSELNQDQGSYLSASLRVPNKAAAGDDIGVRAFDSANQVTEAMFELDIVDDTEAPTLQMNKPIADFSLEPGKSFDLQGSAGDNQYVDAIDAVLIDPQTREEHKLPWEIFSRKDRVETVKIPNPGTLGSIIAGQRFYADFDARLRLTPELSRRYAGQVLQLVVRARDRGVNETRSKPINIKVLADETGPRITIQSPSERLFERQTVELRASLQDETAVASYEVRLLDDQGRDEVLAQASNLSAADVAIPQGAAVTLDIARYRPQEEPVALTLVIKAKDLLGNESQQTRRLLIQRDLPPKLVWRDGQPSDSQQRGQPLRGTLTVTDDFSSGTSQDAVDHLLVISSLRELGGTARDIRGLTRQESQPARNRARISLAYPEAQGWQGGLLLNGKAFVQVQGDRLLLDGGEESQQPRSLQVGDQTGFWTMETYSRNLCQVRPATREIEAPNGLLALDTLFNTDTTRLVLRPRSGIPGFIRGIQFSLQEGVAADLPNANGARVPGRYAVNLLLQDGVGTGEQVAFLQLANSANLPGVDQRYSLLMPIPADVQSGSVTLFGHAIDRLSAERGEQVLQPLLQQALGLDEIAPTAKILSPVVGSVAIPLRQLDMKVEFGDDSRALKSLRLLENRSRTIHDLGVTFGQRSWQIPYQVPKAFDSGELELTLIAEDWSGRSTEHSMVYPLQANEKPELAITGFNTYWVNGVYKKALTEPARINYGEFWVRTNEKFRLDTRLRDDAGLAAYRVQRLKRDGSVAATVYERTFPAPCPQPAPLSAEDKTEILFDQTEPTEYRVELVDTYGHVAQRTLLIHPLVNVVPEVRITAPAEEQDIAAGTFRIRVGLVAADDRFLSSDRLKVFANGVPLPILSSASNTAAGGDKVVEAAFLSIHDSFAANYDADIAADFGRMESPYALQRTFVLEVPQGLIRYNEKLKLTAQITDSDGAVGLFHREFNVAADTIAPKAAITRPGIGFGAIEDSDFTVGVQALDNVKVNRITVSRAYSVLVKGEAQARIQDFVQVRNIEGIPADDYKPVSTVDIDTPEYTQVLHVDRLQQILDSFGVTHDQVSAVEVWVKVDAYDVANSYSTRVSYPVRVDERPVLDVVEPLAGAKVVEGNPLYVNVKAFDDVGIEYVHLRATYGNGQQPYEMRLRTAPYNFSVPMSVFDPANPAANRVHLSIEAVDTYGVAHNDLDKHRAEEGLDVEIVQDQAPSVVIGTPKDGSQVIEGQLMLVQVNAVDDVGIDRVVLNVAGLKGGDRSFTDLVFPYEFLVEIPYGQAGTDLLLTASTLERRVNGQARSVSTPRPVRVHTFKDEQPPQLVVKLPVSPGASASEKRALPYQLEVEDNVRVGSVGLGLYVDRDADGQFVDGERVADRLMITAPFFGSLPLGSIAEYLGRTDALPDALSMQLRITARDGAGNETVQNIPVTLRKNQLPEVNAIKLLDARGFAMGDVSSLTEGRGIVIQVQASDPEVGVDSASLFYSIGAADATPVYQPLGEDSAAPYQFHFKVPNGRVGQVLRLRAKARDLDGYESPMVDLPGALKIEADQAPQARIVKPDNDNSVVIDGEDVEVFVEAFDDLGPEGIDHVTFYVNGIPAYTTEQSYGQQTGSHAQDHVYRAQLAAPSGVQGFTVQAIAYDVLGQAGESQVIRIGRLEDTVVPRLSVLAPIDRDVLTMGESLRAVTSIEDMGGAIQHVYMTWQREYQDASGAWVVAGDDAYKLELFRNDERAAGDTTPVSQPDKHYFVYWADFSDGKVLRRTGLRNERVHVLTEVITPNHTVKKDTYHEIGWPLSERRYILPAPGAQASAKQVHYTAVDQYRGLARSGAMLAAWSSVDPLRIEQRLDLLTKGQLATTLPPARTGIFILDADNEAQSNQSGDFFNYSPLLNGAAEMFSGSIGELMTDENIVLASKSGVAGGACETGSVTCQFISQMTAEIRKDWVGGDRPSEGTGALYLDNDAGELLLFGQKNGDGQFGLPYLLMGRVDMPYPDVYGLTRSGNLALVANGNGGVQVIDISNMRAPYHVGYIKPNGFSRDVKVVGHYAYIAASEEGVVVADLSTPAMPIVARVDTLGIANRLHLVGNQLYVTDMAGAGDSARLSRIDISEPDQPRVVQVVEIEPNRPDLAPDGLYDVHVSGNLAYVTQLLSDQEDKPSQSLVQIIDLARVGESGLDATVPVMVKRKATADDFAVRGVTLARGAIQVAAGKGGIGRIDLPSLTILQHAPQLGENDVSTQLPAVLIELSAVLPEHTVLGDYVQVLEGDAQIGRDITAQFDLAFAARGADTTKRRIQLTRKEGQSLLPRQRYYVRIKQGLTPVTGQPLQADYVFNFNTASADARYPDILSICTRESAERGACVNAGDVRGGTELIVRGVDFGDAPRLLVGGEPLVIEKRELDAQTGIVALYAKTVPNYPGPATVTVTNDGGLSDTVLGGFVFVDELSISHLTPAVVRVAQAGRNDLVAVVGKGFHAGMKLTAYKSGEPGSAQTFEVGSPELRLYSAERMNWLVPELRDDDGAGYRGFIDVELEDELGRRYVQRNALFYGRLQLDRGLESEPAMSRDTIDQRLRKLENGQLTDYVPDPLKLPPGNIVDLAVDSDLRMVYVLGRGELGEGVPRPSQLASLDDLKNYYAPGWLSLVKYDPARIDQAAPRHGLGYYNLPQDLQPSAMALAEHHVYVAARGYSFPFVDTEYEGRSVLLVYDREIRDPDDLGEQPPGKDRGIRYSLPLPFNEVAEKVVVHQGLAIVATRKEGVAVVSLADPLRPSVVRRITQATLDGRSQALSSISDIAVIGDTLHIVNGNRRVVFDLSKPSLPQLGDSDSAGLTALAADGSRFATGNDLKLYDASRPAYIRQIARYQSGGFSVPGQSMGIEAFATTGVNLTRAPAASEEQCEESPSEYLGFYDFSRPDNINLLDALVLPYRCMGTPNGLLTKSNARYPLLVTEQGIGVFAMMDKAKKSHLGLVDLLTLELVSSVPRDQADGVPLDSALELYFTRSLNRLSDDDLRDYLVLQREAQSGQPPETIPFALQRSDDQRVLRMLPEQQLAASSGYRIILKGDLASRRTRGLMEHTVRFRTGLAAGPRVVILGTSPSTLDVSGGPLTVMLSGVTGQPQFSVSGQVAQAALTETRADGTALYTVQAPASTPGAASLQVISGNGSKASKVGAVQYVEPLLLRSLAPAQGSFNGGTRVLIKGQGFRADPGAMTILFGDTEATQYKVLDAETLEVITPASSLGTVDVKVTLSGNAQQGTLPKAFTYQQPPQSLIRDTGRVYDLALDPSGSYLFSAQGTAGVLVYAVNAGDQVANPDDLLRLIDRDKNKRDDRILSQVTLPGGFIAVGVEPFFERGSDRAYITGVRLDGNGNALESRLFTVGFDSLNPANSTLLNALELPGKSARGLRVRNARVLLAAGEAGVGVVDSFLTNKTYLVESLASEPNVPLLDVATQDSPAGEAGLLVGVGGAFNFASNRLTATEANGSGGFQVYRQDKAKGLQRLAHLDLPGTRVSLQGRYAYVAAGASGVAVVDLQNPAKPQVVARVNDIGYVYDLDFNGNTLYVARGNKGVLTIDVTDPLRPQPGRSMDAPAGGTIESVVADAYSALGGGVDATGSVVQVVPDVVLRLHRVDPVNGILDRQPDGSLLVVARFSKAIDLYPANLARFALLGPQGETLSSTVQIINNDARLVLSDASAGQLAVGSRLTLLVKAGLASVKPMSGRDPLVLHTLAQDQRVSLVYRGSREDALSLEAVVPRRVARDKASLITVSARGLPASMTGVRLYVGDQLLQIEEVVRESDTAPAVLKASVPPLPQAGQYNLTLAVVRDGVTQQAVLEGALLVDAPIRLDALAPLWGPVGGDTTVTLTGEGFEPGNSVMDGLKVRFGGLPVGRIDVLSSTRMRVTSPRGMPGKVDVLGEDRYGNQSRLSGDDSFGYGLRKLAELHPSLIFPSDVFIDRETGVALTNGGFMVEGYGKQVLQAGGWMPENYRAAAFSVQNPTRPELVGGSPALPSDAQRLNLKNQALKIQKRLEGSFLGSGTLEPTAEEQEILDRAAAQDFRIALDSLQIAPTLEWEENTRRKRLYVASGLGGVARLNLDEQNGLQVIHEEELGTPVSRLIKQGYGLIAAGASVDAEPPDSQECAFKIGGSSGVGLMALNYQDGEDPVRVDAPAALSGAGVLRLEDGWLIGGGNIRSAAWRNCPGWSESLVKATDGEAGKLQMLNLFDPAQLRSYEFEANPQDVAIYGRYMIVALGSRGLEIFDRDQPQQRLRVDLGKQLQASAGRGVRLRMAGSLLFVSAESGVVVLDLRNPMQPHVVSAGNQERIEALDLFNNRLVAGSGTQGLTVLELPGALVLEASVKQDGVLPAGEQTLQLTFNEPVTLDSLRSEGAIRLLDIGNGEQNLPVPEIVALDGDNQSATRIALRFTPAPGARLSLRLDSVRNLRGSGLWAPYQVDFRIAPAGASQPRIDYLKNARFHRGQQATVEIHGAGFSQSVKGFVNQYPIDVQWVSDKEVRIAAHALDLLPLTPGQWHLRLEDGGLRADFLGALMVGTEQPLEQVKFTVSPDSASKAGGQKVAITASHDALMPGTRVVLRARHSDTEIYTGRSPVVEAPGVTTIDLQDDVETLRTFSFILPGVIDPDIYDLYLRIPSGAETRTIKVGSLSYTLPKGLGVILPNYPPMQIGAAQSVGDLLFVGVKAGSAPTAGNRFLMTAGLEIYDIGLWERPIRLSQLRLNDAVLGLEVLDKVVYLANDRAGVSVVDVNDLSRPLLVSSLALPNHRALDVAIEPTRRALAVAAANDLGTGYVRFLPLGRNELGAQAPLPTIAFDGSLRADLLGAPVDLQWLNGELYVLFLRNTQLHLAIFKGFGDQLEYRVQAIERGTVSASSVSDALSLASLQVQQGLISVSTGDRYLLLEANAQGQYETIYWQTQKTGELLGMGGQVMQGNGKGVEINTQPYLAVASSTPASGAVIGLNEPVLIAFNNLINTDAAHLAQALNVLDEQGQPLDGAAYEMAGTNTLRGGLIELRFKGEYQGRLRIEVTQALLDLQGHSLRQPFVLQLERRTGVRPLVNQVRRVVNDVTGLHYFHATGGEQALISGSGFGVAAEQLAVWIGEVRLQPEQIVGVTDQELRVQVPDLQLGGISATLPVKVERLDQHLAYLRQGAITVLPQVEIDDLQPKTGPPQGGNLVTLHGRGFNHYVQVRFAGALAGDLKVLSSNRLEVRAPAGSFGKAKVTVESQLFPGEQAEAKVEYFYTGVPTGSVNLPSEVASPISAITRLDNAESQLLYVITGGSFDKLDLQGRVSRITSKDARLIVADISDPVHPVILTKKFLDTEKYYHYEAPNGLAPRGFVDMTITGDQLFLAGGRKLVQFDLTLPAEPERIAEMELPADINALASGDGLIYVAYQQGVRLYRLTAELKLIDLGLLDTTRLGGIPGRLRLVGSSLWATLPQQRQLVEIELASGEYRIKRRINTRDAAGNPFVPEDVLVLPNHLLVSSGSAATVQLFALDSDTGATPVTDLKLTYLVSRGDLFAGQLQLAGQTLYVAGGQGDVQLFDISPWLNGQVQSNIALRDYFSVLGNVTSLSLGSQALYAGSSFVFVNGEPAENPLEDLGAATQLGGSLNTLAYQNLAILSQFPRPMGRLPREAAIEVQFNRLLDNQQLRDLGSQLVQLRLDGVAVPAQVAQVGVGRLVIRPNALVSGKQYEVVLGAALQDQQKRALGHDYRFRFIADSEAQITLDSFGPRQSSWRGGAEATLRGRGFGENLIVEVGGQRVAATDILYRDENELRFRIPGLAASPASNRLVGLRLVQGGQEVFQAGALTYVADPRIDQSGQYLPLTGTLNPSVKRFTYNAGESIGLQGRGFGEATQVRINGRLISGVRLERSDLLSFVVPEDTLGSLQVQVSNQGFTGDVAQDVTLRVDLPSQRQLDSVATFRRQGDLLLTAHDYDVQLYSLRDSARPQLLAKWTSLAKVQDIALSEGYAGVLDEKDQIRLFDLANLYAPRELALVPNSRKIDYEALALADDLLVARAGDRVFHGQVQGAELRELSLETPDRLVDVALDERALYLLFEDRLEVRSARDPEQLLSRHEQMLSGTRRLWKDGSRLYLQGSDTLQILHRAALLRGRGDPLLGELSISATANLASQGELLVQHLNNEMQVFDLDLQASSSKLSRRLLAVIPASGAIEQLQINGTLLEWRVGKAYSNATLPMNNTWALAPSSLAAADETLGLRLVGPDYAWLPARARLSELSGTAIDSLSQAQGAELRVAPKQAAFAPAGLYRVAVDQPPLDWLQGAEVNFDLPWLVDGVDFFGAALIRLDNLQPNRALSGQPRTYVLRGRQLQLVDQLQIGERVLDRQALSVNATGDQLSFTLQLDQAGIYGVQVRYGQQRALLPTALVVAEPLAIESVTSGRAGGTSVSDSGGTPVQIKAQGLSEGIGLHWYPAGQGIQPNAANRVDFTLTDEAITFVTPPSQPGWSYQISLVRESSGERVDSQSAQWLTVVDDTAPKIRLVRALDAVNSLILESDTPLSADGFSVIKQFKDYEAHPQPTEDVSARFVAPASQGNRLELRLRSDALLEANAHYAVTLNGIRDKAGNLAIGDGIQGGTYQALYKAEDRLPPRTDSLAVTLQPDGQPLSSAVQLKVGNRYSFNVSAEDNVQEADKLAFSYRVSADGGKTWLNDWTLIQKRAFSLDLIGEYQGFALLLRASDGKNASERRFDAQVSLPSLRLRQFATQPSPVEESTTAQLHFELEGDLDQIRSTEVRLQDGRYVAAPLDKQTGLVKLAQDHPRLRDLPGAPSAPYPLTAELRVGMGLNGSAYQYFQGRYDLVADQTPPTLAIIAPLDGEFVPRGETTDVILRSADRYGIDHVDACVNSQAADPFSDALACRRLADPGRFRVPVAADATEPLHIVARAVDLNGLVSQTATITLLPYDAKQGAPELSLLSPADGLTVHGGEPLVVRVRLRQLQQATLALQVGGDPQHPSNPAPLPLNRGADDDEYLDLSIQVPKVERDGVLVLRLQAPWQGQTLTAQRILNLRADQGIDEEPLLGLQPAQNLLSGTQLWIDAPPPAGMTDFSADSRVELFDPSTAPLVRSLPFSTVRQVWNSASDGDALRLDAVLQDRSGNTKTTPRSLAKLAYLQPEARRIAIERGYVAGLATALPGHPHGLAWVENRGSAGYRLNTLDGLLESRDSGRIEHLFFTGAGLVAQVRREGSDILRFWRWLDGAWQPAVEQVTAGTLVGGSGDLLFVRHGQLLSGFAVTGRGFVELAGSSLEEDIRQVHVDGQRVAVLTNVALELLQLSDGELPALRRVARLPLVDRDGFALQGNRLLAWSADAVEQRELVQGTEGWSWGETMALAVTGAVTDARFDGELAWLRVSESQYGDSWQAWRGTERVGALEAYESLTVAAGALYGIQRGEDGQALVVFPLEVSEPSRAELTATIKRLPAGVLVGGLPASFEAALGQADVAFLDEEGRVLPAQALWYQGELDAYLGESFPAGRAWLLANPPANLKVRVRDHAGERSLDLVVPAADVQAAQLSLGDGAVLTAGARVPLVATFPVGASAEAAGLARDGAALAGLASPTQRLYWIDIPESGQATYRWEDPSASQTLALHAQPNQAVATLTLSGAGNNQIFAEGSALSLGYQVSEAPTWVEVELRSFNGTPLTRLLALGQQGRFSLRLPQVVTQESLVLRARAYFADDFHYSEQQLNLRVAPLQQLPQPVLSGLPSQLYADSQVELRLSGVDGDRYRMSLEALDDQDRLLASGTDRISLRLPAGIAELRVRALFDDELGNRHEQRWSAPVIDAWRFQPMSERLPFDVMLPSVGGYWLARGAELHDGQGLRKRLPGAIAAMDYLQGYLLLSVRGFGLTLLDPRDGLSVAGETSAAAPLTHLAVQGERILAASGRDLYWFDALGAQLKSAGTQALSDDVRQIQAYGNGFLVLTGKQLLLFSATGQTDATFNQSGLRALTTVDGHVYVTGSAERLWRLTGIANKTWVGDSVPLGGSAERLFVLPGQLLALANDRIQVVDLATRQRVASWPFALTEPARAQWASGKLWLGGSDGRILQPLSGSAGFLPLYDSSRAAEPTHGTVSGLALAGGQVLVAADNFGAQLLRQDGDGSWLSTLYPSQAFTQAAGQVAAGGDYWFVMQPQLQRVMALNRSTLAAQTVFDKLVVNDLATNGSYVVVASGGSLRLASLTQLGLKRELVVTSQESLRQVALFGTQAAVLSESGRVFLVDLREENARPVQELSAQLGGEVRQLAFSGDTLFYRSGAAAWRYDLHSGQRSQLLAGEAVDGLYWAAGLLWVERTQGQGFVLSALDSTTGQPIAGGSLPLAQRTTAVAVERNRLAVGLGAQGVRIFNLPYGVVGGGVAPFAPLANAVLAANAPLNLSLDGTNLRGLAFMLNGQPVGELKQALGQASLRLPANLPMGQTFTLGVRTEDIHGVIRESAARSLYLQPNDGVANPFTLALNYPEHSWLPSPLSVSAQIGASQQPIAQVEFLVASASSGPWQRVALRRAEPFQASLALDETFSGQYLKARAVDVFGNSAETVPARFYRHLDSIKPTVALSYEGSAVLVDMKKAVRGFPFTVKAQMSDNGALDKATLSRNGQVVAVAFGQNQLSYQETASTLGEQVFTLDVSDRAGNVASAELRVTVIDDAFPVVESLTAPAQFIEQGSFDISLTTEDDVLVKAVDIVWNGFADHYDFNDKRLANRVFTVKDRRTERVPAASLTQALQVKVTDNRGQVTEAQPKSIKVSRDAAPNAQALQVTLPARGVFGGLARLELANLNAADDTGSLIVRVAQVIGGQAQELFSCQRAANDHFYCGNAGGYWDSIARDLRIPDTLPEADQSTYRLRLELVDRIGQTASRDLGIALTQSPNLVRFQQQQASDNPAMARVQERPVYRVQVLDAAARPVADQPVRWRLRRLSDGALWSLGTSNSDANGYAAWTFNADRTVGDYQIWADLPQFTQITRAEHDLSIQSGPTRNLLLGYIPAMPAGSTLAVTVKAQDSELNDNGADQTTVLTLTLPTADFHVLPGDGVQIGTVTSNGQIVERVQVALKDGRGQFVLQAGQTVGQYSLAFASTGNNIRYTYDSRGYTTCCASTFNLTVIPAAASHLRLLNESGRPQEAGDVLVRGVKQDVRLQVALQDRFGNAISQLDGKPANLTVQARATGSAQINGQPTAAPISLVSGLASFAVSNETYEEVTVSLAGPVANLPQLDLDSTFRINFTVQPPEIVRSVIEAREGTQLRAYFEYDEPVNLPSGEALKFYQGTTLRTGTISLSDGGRTLTFVPQQALELGRCYRFDTAGSGLRGVARNDGVREQAGDICAPHALFNVVGPVKVLAGQNYQVPLLLANNISWSGVSNGRAELAGRTQGFNWYYSPTRTLVVPEFFTEADNTIVDGSVHPLTLSGTLSGSPAKPVVLGNAMQLQVFDPLADFDGDGLTNKLELETEGLDPSQRDSNGNGIEDGADDLDGDGLSNLEEATLGTKLRVIDSDGDGLSDGSEVRTHGTNPLNPDTDGDGLSDGAEVSNIPASSPLKKDTDGDGILDPLELQVGLNPNDPADGLADKDSDGLTNAREALLGTIIDNPDTDGDTLKDGVEVDQLGTDPLKADTDGDGLRDDEDSEPLVKDTQAPVVRLLNPAPGQQLIKGLRLTITPSLQDNGRVAKVSVLLNGSQIALLTSAPFTHTVNLPTEADSLRLELVAIDTNNNQGRTGEHTYSLIEDPLTTVIGRVLDSSGQPVAGAQVEALGLTAIVQSNGSFVIPGVPVAPGKVTVIANGLLGNEAVTNASAEIDPVWGGTTDVGTITLQLPKVRVGYFNARFNAGQAYQQAIIERAGFEPVLVSNLATFDLSQLDMLIVDSSRNNHGNSSYSNNRSKVFSFVQNGGVLVLNEHYNTTSNLADIPGNPSTSSVWTGNYITLRPFYRWSEVSEGKAGSWWLQRATTYSGYAYLPLDGLDSSVTPLAFSGARYEKRVTAIRYPYGNGHVYFGYAPVDPWYIDASNPIHSVYHPNVLVMMRELTLKDSDNDGLKDIYEFAHGTSAFQVDRDGDGLLDGFEVKYGFNPLVAGEQHLDTDGDGLSNLREQELGTHPRQVDSDEDLLPDGEEVDLRNSDPLSEDTDLDRVLDNAEVANKSNPRKADSDDDGISDYDEIYTHATRPDLADTDDDGLSDFIELKGPYADILNPKNKADANQDYDGDGLTNKQELLETLTNPKVADTDGDGMTDKAEILAGLDPLDPDTDKDGLFDGEDSQPLEKDLELPQVSLTSPAAGASLVHGQQVRLQASASDNGRVVSVTFYVNGSAVATYGEAPYQHVIAVPAQGSELQVEASAIDTNGNERRTPVSRFDLIADVGSQVTGRVVDSAGNPVAAARVRLVSYANTGADTVVPQGYTIDQPTSNGSYNYSDRTGRQLIDGQIGVAGFAADIGQGNAYEWLGWNNKPTVNIDFDFGSVVEVDGVKVGTTQRLSDVRRPSVEVFQKVGDVWILAGSLDVPTTTDSTDAFATVPHTTLDLSNLNIMSRYVRVVLKANPSGTWIFADEVTFLSPVGETATTNTEGRFVLPTTTQALDPRIKATAQFGAQTMTALSPVFELVRGGSNDVGDLVLAAQGRRAFEPIQARHLAYEAREQNYYKTLNNQQRWDFDIYYGVIQSGTNYGFNYAQYLVVNGSHYTNESPHPYLLRLSGRELTLPEKQMGSVRVSRKLYVPADRSYARYLDLFENTSDQTVTVPVRIQGNFYNGGRLITATSSGDLAFNTLDRYLITDDGTDNGGRTASGLLFGGLDAPVQPSSASASADNYSVTYTLSLPPRSRKALLHYAVQNSSRAEVKRILEELSAANYEERDLTVEEHRDIANWTTQVDSDLDGVADADEVPLGLAPNVADSDGDGLLDGFERRYGFDPHANDGQAALDSDDDGLSNLQEQEAGSHPRVPDTDGDGLNDGAEVLVHLSNPLTRDTDLDRVLDADEVSRGTLPGQPDSDNDGLDDYAEIYTHGTDPLKPDSDDDGMPDKFEVDHNLLNLNASDDTDNDGLTNLQEFQAGTLPRNSDTDGDEMLDGWEVLGVPPSDPLKADGDAGGRRDINERFVDGTDPKQAGDDRPNINGYRTVSDENNRSWTFYYNGYVNGTTGSAIDGNAAFQLYINGNYYGYWYNHATSSANGREYHYEARRINNLVVSRRVLVPNVGGAYVRYLEILDNPTGQEQVATVRLQSYYGAASDSQVAVVTSSGDTQLTTEDDYLALRDTSVATRPVLLHVFAGNAQRRQGVSFVNQNGRLWQTDYQVRIPAGERRVIMHFATLEGSTEAAVATANKLRSLKNLGLDNLDTTLAGKVVNFFAFYDQDEDGLSDADEIRLGSDINDPDSDDDGIPDGQDTEPMVPDAVGPTVSIQPLTPARRYGGDPLEVTALVADNGIVAKVELLQDGELVETRTQGGTQTFSVILPNTENTLLQVRATDSNGNVSTVELNVPINTVPELHFSGSVVDKLGNVVAGALVEVNAVQATTGSDGRYSLVVLSRETRLEVRASALFGAQRMTARLPVDIPVESEEVSVPPLRLEAEGRRATGLIPDSALSYEGTVGFTYNLYGNNYRWDITNTGGISDGSSDAYDGGQNLTVNGQSFPGGSQGQLRLNGREVTLPARSMAGGLLVSRKIYVPENRSYARFLELIENPGDSAVTVPVTISGNLGSDGSTYLINTSSGDRSFGVDDYYLLTDDSSSGEGGSDPAMGHLFGDPRSTLKPSAVSLSGDNYSMTFTLSLQPRSRQVLMHYAVQNYSGAETQRILNELSSATFEEVGLTYEEHRQLANWSGLVDSDGDGMPDAEEIPLGLDYQNPDYDNDGIPDGRDSEPKVPDTVAPTIAISHGEGPFYTGDPITLTLDVQDAGIVGQVELLMDGEQQAVFNGSGQHVQQLTLPAEGTVHFEVRATDSNGNVGVQTLDLDVEAIPPSSIAGRVTNLLDAPLAGVKVTLSRGGNVEAPSLMTALFGIGETSVVTDVDGTFVFDDIDRRENADWTVHLEKEVLGFPVTAERQVHLAVDGRAEVGDVYLSADENYTAPLTGDLGQAHQGDYAWLTLPDDYAFANKGVQVSIINQEVTIGGITDVPFRYSQGNLGNREFHVASLDDRMVLSWTGWKAPFADSDDDVVDMQVVLHRDGRIENRFYRVPYDTVWGCQPGHSMFRNGGYGLTDEVHLRDVQGRYVFPNVTMRESHYCTVDLQGMTATYVPVADGSYRLQIGRLPGHVDSDGDGISDINETLLGTELDERDSDGDLLWDGFELYHDMNPLRADPGVAQEDWDEDTLTNLQEQELGTDPRNSDSDGDTLRDADEVDTYGTDPTLRDTDGDWLTDDREIQVGSSPLKADTDDDGLYDYDEVERYGTRPDKRDSDDDGMEDKFEVDYDLMGVEAGGDEDGDGLSNLEEFRNGTHPRVLDTDGDGLPDRFEVDLGLSPKKFDSDGAGRGDGDELFVDGTDPENPADDLGVVSSGTTLSLPTEAGLDISVDSMGRVQFYDPRNYSEIGFWQALELEGYVSESSGELVSSNNNSNNLRMLRSYSQVENKPLWRGPLTALSGDLLVSREYYLPPTGRAYIRVLDRYYNVSGKSLLAKPALRSRPAYWGPGYVQSTSSGDGELSAQDGWLSLRKYDYNTGGSGPVAALYVFADEAGRQSLDSERLYSDAYYDVRTGYRFEIPANEHRVVMSFMAVEQDESPVKNGASVLQSLGENTLFGIPAEDRSRIVNFTPCPDDELDLLCNADELQHGSRSNASDSDDDRFDDALEVRLGSDPASAQSIPEFDVYMAGGNDESSRLLRQRGFNGALNEVKVLDATYRSVDIDNTGALWLAGADTSDGFRYEKYDLETLVQRDESIWDNNRVDLLDDSMSNIAHYLYLIDEGSSEEGDEAKPELVINGLRSSRWGEESFPVRSGIPADLRCGAALANWQGTLLLLNGCKLSWDYGETDISFTEDFGNQPRILSMDDMQQANGVLALVEDEVDGSKRRSLGFIDMKTGKVERMKGVSMDVKGLSVKFKGFQNQPKWPVDIVPQ				NA	NA	NA	NA	NA
BMS010_05727	654			hypothetical protein	ATGGCCTCGACTCCTTTCACGCTCACTACTCTCGCGACTGCCCGCTTCAGCCGCTTGGCCATCTTCTCTCTGCTGATCGTGGCGATGCTCGGAAGCCTCGGCTGGCAAGCTATGGGTTTTTACCGCCAACTTCAGCAACCCTTCGCTGATAGAACGCCGCCGTCCGCCCCCAGCAAGGCAGAACCGCATATTGCGGAAATGAACAAGGCAGTCCTTCAACTCTTTGGCTCTACTGAGTTACAGGCCGGAGACATCAGCGACACCAATCAACCGCTTCCCGAAAGTAATTTGAATCTTTCGGTATCGGCGATTTTTCACAAGACGAAACCCGGGAAAAGCACCGTGATCCTGAAGGATGGGGACAAAGAACTCATCCTCAATCCTGGCGACGAGGCGCGGCCTGGCATTCTGGTCCATCGGATCGACAGCAACCGCATCACCCTGAAGCGAAACGGCAAGCTTGAACAGATCAGCCTCAAGGGATTCGGGGAGATCGAAGGCCTTTCCTCAACCGCCCCCTCTCTTCCGCTGGCCGAAGTGCCTGAGCAAAGCGATCCGTATGCCAGCCAGCCTCTGGAGCCGCCTGTTCCCACACAACCTGCGTCGACCGCTTATCAGCAATTCATCCAGCGCAAACTTGCGCAAAACAAGTAG	MASTPFTLTTLATARFSRLAIFSLLIVAMLGSLGWQAMGFYRQLQQPFADRTPPSAPSKAEPHIAEMNKAVLQLFGSTELQAGDISDTNQPLPESNLNLSVSAIFHKTKPGKSTVILKDGDKELILNPGDEARPGILVHRIDSNRITLKRNGKLEQISLKGFGEIEGLSSTAPSLPLAEVPEQSDPYASQPLEPPVPTQPASTAYQQFIQRKLAQNK				NA	NA	NA	NA	NA
BMS010_05728	1941	xcpQ_2	COG1450	Secretin XcpQ	GTGTCCAACCGAATCTTGCCGTATCTGTTGTTGAGCCTGTGCCTGGTCTCTCCCATTGCGTCAGCCGAGGAAGACCAGCCGGCGGGCGCCGTACCTGAGCAGCAGGACGGACAGGTGGATAGCCACGTAAAGATCAACATGCAGGACACCAATATCCGCTCCTTCATCGAGTGGATAGCCAAGGCCACCGGCAAGAACTTCATCATCGACCCGCGAGTGACCGGCAAGGTCACGGTGATCTCCAACGAGGCGATGACGCCCGAAGAGGCCTACCGCGTTTTCCTTTCCGTGCTGCAGGTACATGGCTTTTCAGCTATCGAAGCCGATAGCGCAGTGAAGGTCATTCCCGACGCCAACGCCAAGCAGAGCGGCGTGCCGCTGGTGGATGACGACCGCCTCAACGACGATCAACAGGTGGTCCGGGTGATCCGCTCGGAGCATGTCCCGGCGACGCAGCTGGTGAACATCCTGCGCCCCATGGTCCCACAGGTCGGCCATCTGGCTGCCTATCCGGACAGCAACGCCCTGATCATTTCCGACCGAGCCTCGAACATCAATCAGCTGCTCAAGCTGGTCGCGGAGATCGACAAGGCCGGACAATTCGAAATCGACGTGATTCCGCTCAAGTTCGCTAACGCGAAAGAGCTTTCCGGCATGCTCGGCAACCTCACCCCACAAGGCGGGGGACAGGAAGGCGCGACCAAGGTCAGCATCTCCGTCGATGAGCGAACCAACAGCGTCCTGATTTCGGGAGACCCCAGCAAACGCCAGCAACTGCGCGACGTTCTCACCAGCCTGGACAAGCCCGGCAACCTGATTCGCGATACACGCGTCCTGTATTTGCATTATCTGAAGGCGTCGGAAGTTGCCCAGGTCCTGCAAAACGTCGCATCCAGTATCCAGAAGCAAGACAAGGATGTCGGCGTGAGCAGCGCCGAGATATCCATCCAGGCCAGCGACACCACCAATGCCCTGGTCATCAGCGCCCCGCCGGCCATCATGACCACAATCGAAGGGGTAGTGGAGCGTCTCGATATCAGGCGCGCACAAGTACTGGTAGAGGCCGTCATTGTCGAAGTTTCCACCAACAAGGTGAACGAGCTCGGTGTTCAGTGGAAAACATCCGATGGAGCGGTAGGTGGAGACGGGTTGTTCGGCGGCTTCAAATCATCTTTGAAGGGCAACGCCATTGATAGTTTTCCTGGCAAGGATATGGCCTTGGATGCGGGCTTGAGCATGGGCTTCTACAACAATGGATCACTGCGCGCGCTGATACGGATGCTGTCCACCGACGACTCGATGAACATCCTGTCCACCCCCAACCTGGTTACTCTGGACAACGAAGAAGGAAAGATCGTCGTCGGCCAGAACGTTCCCTTCGTCACCGGCAGTTCGACCAGCGCATCCAATCCTTCCACCAATCCATTCCAGACCATCGAGCGGCAGGACGTCGGTATCACGCTCAAGATAAAGCCCCAGATCAACGAGGGCGACTCGGTCACGCTCAACGTCTACCAAGAGATATCCAGCGTCACCAGTGACACCAGTGCCGCCGATATCGTGACCAACAAGCGCTCGATCGAAACGCGGGTACTCATCAAGGACAACATGACCCTGGTTCTCGGAGGGCTGATTTCCGATGAAGTGCGTGACTCCGGTGATCGGGTTCCTTTCCTCTCGAAAATCCCGATCATCGGCAAGCTGTTTCGCAGCGATAGAAAGGAAGTCAGCAAAAAGAACCTGATGGTTTTCATCAAGCCGACCATCATCAATGATTTCGAGCACGCGGACCAACTGACCGAAGGCAAGTACAACTTCATCCGTGACAGGCAGTTGCGCTATGCCGAACAGGACGTACCCGCTGGAACACCTACACTGCCGGATCGCCTGAACAGCGCGAAAAAGGAACTCGAAATACGGAATACAGTTCCGCTGAATTGA	MSNRILPYLLLSLCLVSPIASAEEDQPAGAVPEQQDGQVDSHVKINMQDTNIRSFIEWIAKATGKNFIIDPRVTGKVTVISNEAMTPEEAYRVFLSVLQVHGFSAIEADSAVKVIPDANAKQSGVPLVDDDRLNDDQQVVRVIRSEHVPATQLVNILRPMVPQVGHLAAYPDSNALIISDRASNINQLLKLVAEIDKAGQFEIDVIPLKFANAKELSGMLGNLTPQGGGQEGATKVSISVDERTNSVLISGDPSKRQQLRDVLTSLDKPGNLIRDTRVLYLHYLKASEVAQVLQNVASSIQKQDKDVGVSSAEISIQASDTTNALVISAPPAIMTTIEGVVERLDIRRAQVLVEAVIVEVSTNKVNELGVQWKTSDGAVGGDGLFGGFKSSLKGNAIDSFPGKDMALDAGLSMGFYNNGSLRALIRMLSTDDSMNILSTPNLVTLDNEEGKIVVGQNVPFVTGSSTSASNPSTNPFQTIERQDVGITLKIKPQINEGDSVTLNVYQEISSVTSDTSAADIVTNKRSIETRVLIKDNMTLVLGGLISDEVRDSGDRVPFLSKIPIIGKLFRSDRKEVSKKNLMVFIKPTIINDFEHADQLTEGKYNFIRDRQLRYAEQDVPAGTPTLPDRLNSAKKELEIRNTVPLN	PGPT0026425_1521	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026425-gspD|epsD-K02453	NA	NA
BMS010_05730	693			hypothetical protein	ATGGCGCCAAGACCCAAGACCCGCGAACGCATCGTCCAGGCCAGCCTGGAGCTGTTCAATGCCCAGGGCGAGCGCAGCGTGACCACCAACCACATCGCCGCGCACCTGGGCATCTCGCCGGGCAACCTCTACTACCACTTCCGCAACAAGCAGGCGATCATCGCCGAGCTGTTCGCCCAGTACGAAACCCAGGTCGACCGCTTCCTGCGTCTGCCCGAAGGACGCGCCCTGACGGTGGACGACAAGACCTTCTATCTGGAAGCGCTGCTCGCCGCGATGTGGCACTACCGCTTTCTCCACCGCGATCTGGAGCACCTGCTCGAATCCGACGACGAATTGGCCGAGCGCTACCGCTTGTTCGCCCAACGCTGCCTGACCAATGCCCAGGCGATCTACCAGGGCTTCGTCGACGCCGGCATCCTGCTGATGACCCCCGCGCAGATCGAGGCCCTGACCCTGAACGGCTGGATCATCATGACCTCCTGGGTACGCTTCCTCTGCACCACCCGCGGCCCGTCGGCCGACCTCAGCGAGGAGATGCTGCGGCGTGGCATCTATCAGGTACTGGCACTGGAGAGCGGCTACATCGCACCGCAGGCACGGGCAGCCGTGGATGCCGTGTTCCAACGCCTGTACGTGCCACTGGAAGAGGTGACCGGAACCAGCCTGCAGGCGGAAGCCGCCGAGGCCTGA	MAPRPKTRERIVQASLELFNAQGERSVTTNHIAAHLGISPGNLYYHFRNKQAIIAELFAQYETQVDRFLRLPEGRALTVDDKTFYLEALLAAMWHYRFLHRDLEHLLESDDELAERYRLFAQRCLTNAQAIYQGFVDAGILLMTPAQIEALTLNGWIIMTSWVRFLCTTRGPSADLSEEMLRRGIYQVLALESGYIAPQARAAVDAVFQRLYVPLEEVTGTSLQAEAAEA				NA	NA	NA	NA	NA
BMS010_05731	1440	calB		Coniferyl aldehyde dehydrogenase	ATGGTCGCCGACATCGCGCAATTCAAGACCCTGCAACAGAACCAACAGCAGATCGCCCGGCTGGACGAATTGTTCGCCCGCCAACGCGAAGCATTCCGCGCCGCTCCCATGCCATCCGCGGAACAGCGCATCCAGTGGCTGAAGGCACTGCGTGAGCTGCTGTTCAACGAGCAGGATGCGCTGATCCGGGCGATTTCCGAGGACTTCAGCAATCGCTCCGCCGACGAGACCCTGTTGGCAGAGATCATGCCCAGCCTGCACAACATCCATTACGCGGCCAAACGCGTGAAGAAGTGGATGAAGCCCTCGCGCCGCTCGGTCGGCCTGGCTTTCCAACCGGCTTCGGCCAAGGTGGTGTACCAGCCGCTCGGGGTCGTGGGAGTGATCGTGCCGTGGAATTACCCGCTGTACCTGGCCATCGGCCCGCTGGTGGCGGCCCTCGCCGCCGGCAACCGGGTGATGATCAAGATGAGCGAGTCCACGCCCGTCACCTCGCAACTGGTCAAGGACCTGCTCGCCCGGGTATTCCCGGACGATCTGGTCGCCGTGGTCCTCGGCGAGGCGGAAGTGGGCATGGCCTTTTCCAAGCTGCCGTTCGATCACCTGCTGTTCACCGGCGCCACCAGCATCGGCAAGCATGTAATGCGCGCAGCCGCGGAAAACCTCACCCCGGTGACCCTGGAGCTCGGAGGCAAGTCGCCGGCCATCGTTTCCGACGACGTGCCCCTGGCCCACGCGGCGGAGCGCATCGCCTTCGGCAAGACCCTCAATGCCGGCCAGACCTGCGTGGCGCCGGATTACGTGCTGGTGCCTCGGGATCGGATCGAAGCCTTCGTCCAGGCCTACCGGGAAGCAGTGCAGGGCTTCTTCCCCCGGCTCGAGGACAACCCGGACTACACGGCCATCATCAACGAGCGCCAGCTCAGCCGCCTCAATGGCTACCTGGCGGATGCCGTGAGTAAAGGCGCCGAGCTGGTGCCACTGTTCCCCGGCGTCCAGGGCCGGCGCCTGCCGCATACGCTGCTGCTGAACGTGACGGACGAAATGAAGGTGATGCAGGACGAAATCTTCGGGCCCCTGCTGCCGATCGTGCCCTATGACCGCCTCGACCAAGCCTTCGCCTATATCAACCAGCGGCCGCGACCGTTGGCCCTCTATTACTTTGGCTATGACAGGGCCGAGCAGCAGCGCGTGTTGCACGAGACACACTCTGGCGGCGTCTGCCTGAACGATTGCCTACTGCACGTCGCCCAGGACGACCTGCCGTTCGGTGGCATCGGCCATTCCGGCATGGGCCATTACCACGGCTATGAAGGGTTCCTGACGTTCAGCAAGGCCAAGGGCGTGTTCGTCAAACAGCGGCTCAACGCGGCGAAGATGATCTACCCGCCCTACGGCAAGGCGATCCAGAAGCTCGTCTACAAACTGTTCGTGCGCTGA	MVADIAQFKTLQQNQQQIARLDELFARQREAFRAAPMPSAEQRIQWLKALRELLFNEQDALIRAISEDFSNRSADETLLAEIMPSLHNIHYAAKRVKKWMKPSRRSVGLAFQPASAKVVYQPLGVVGVIVPWNYPLYLAIGPLVAALAAGNRVMIKMSESTPVTSQLVKDLLARVFPDDLVAVVLGEAEVGMAFSKLPFDHLLFTGATSIGKHVMRAAAENLTPVTLELGGKSPAIVSDDVPLAHAAERIAFGKTLNAGQTCVAPDYVLVPRDRIEAFVQAYREAVQGFFPRLEDNPDYTAIINERQLSRLNGYLADAVSKGAELVPLFPGVQGRRLPHTLLLNVTDEMKVMQDEIFGPLLPIVPYDRLDQAFAYINQRPRPLALYYFGYDRAEQQRVLHETHSGGVCLNDCLLHVAQDDLPFGGIGHSGMGHYHGYEGFLTFSKAKGVFVKQRLNAAKMIYPPYGKAIQKLVYKLFVR	PGPT0019970_594	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_LIGNIN_DEGRADATION|LIGNINASES	PLANT_LIGNIN_DEGRADATION-DEHYDROGENASE_ACTIVITY,PGPT0019970-calB-K00154	NA	NA
BMS010_05732	546			hypothetical protein	ATGACAGACACCACCCTCGATACCGACGGTCTCTCCCGTCGTCGCCTGCTCAAGGTCGGCCTGTTCGGCTCGGCCTTCCTGGCCACCGCCGGGCTAACCGCCACGCTCAGCGGCTGCTCGGCGAGCACGCCGGCCAGCGGTTACGCCATCCTCCGTGAATCCGACCTGCCGTTTCTCCGTGCCCTCATTCCAGTGATGCTGGAAGGCGCGGTGCCGGCGGAACGCATGCCCCAGGCCATCGATGGCACCTTGCAGAGCCTGGACTACAGCCTCGACCGGCTCTCCCCGGAAATGCTCAAGCTCACCGTGCAGTTGTTCGACGTGCTCGCCCTGCCGGTCACACGCGGCCCGTTGACCGGCGTCTGGGGCCGCTGGGAAAACGCCTCCGCGCAGGATGTGCGTAACTTCCTCGACCGTTGGCAGAACAGCGCCATCGGGCTGCTGAAGATGGGGCATGCCTCACTGCTGCAACTGGTCATGATGGCTTGGTACAGCCGCCCGGAATCCTGGGCGCACTGCGGCTATCCCGGCCCGCCGACGGTCTGA	MTDTTLDTDGLSRRRLLKVGLFGSAFLATAGLTATLSGCSASTPASGYAILRESDLPFLRALIPVMLEGAVPAERMPQAIDGTLQSLDYSLDRLSPEMLKLTVQLFDVLALPVTRGPLTGVWGRWENASAQDVRNFLDRWQNSAIGLLKMGHASLLQLVMMAWYSRPESWAHCGYPGPPTV				NA	NA	NA	NA	NA
BMS010_05733	1596		COG2303	putative GMC-type oxidoreductase	ATGCCCGTACCCGATCTGTTCGCCGAAGGCCTCGCCCGCGGCTGGAAAACTCATGACGGCTCCCGCCTGGAGCAGGACCTGACCCTCGGAGCCGATGTCGCCATCGTCGGCAGCGGCGCGGGCGGCGGCACCACGGCGGAAATCCTCAGCGCCGCCGGGTTCAAAGTCCTGCTGATCGAGGAAGGGCCGCTGAAGACCAGCAGCGACTTCAAGATGCAGGAAGCCGAGGCTTACGGCTCGCTGTACCAGGAAGGCATCGGCCGGATGAGCAAGGACGGCGCCATCACCATCCTCCAGGGTCGCGCCGTCGGCGGCACCACGCTGGTCAACTGGACTTCCAGCTTCCGCACCCCGGAGCCGACCCTGGAGCACTGGGCCAGGGAGCACGACGTGAAAGGCCACAGCCCTGCGGACATGGCGCCGTGGTTCGAACGCATGGAACAGCGCCTGGGCGTCACGCCCTGGGCGATCCCGCCGAATGCCAACAACGACGTGCTGCGCGCCGGTTGCGAGCAGCTCGGTTACCACTGGAAAGTCATCCCACGTAACGTACGCGGCTGCTGGAACCTCGGTTACTGTGGCATGGGCTGCCCGACCAACGCCAAGCAATCCATGCTGGTCACCACCATTCCGGCGACGCTGGACAAGGGCGGTGAGCTGCTCTACCTGGCGCGGGCCGAACGCCTGCTGCTGGAGGGCGACCGGGTGACTGGCGTCGAATGCCTGGGCATGGACCCACGCTGCGTGGCACCGAACGGCCGCAAGGTGCTGGTCCGCGCCCGGCACTACGTGCTCGCTGGTGGCGGCATCAACACACCGGCGCTGCTGCTGCGCTCCGGCGCGCCGGACCCACATGAGCGCACTGGCAAGCGTACCTTCCTTCATCTGGTGAATTTCTCCGCCGCGCAGTTCGACCAGGTGATCAACCCCTTCTACGGCGCACCGCAATCGATCTATTCGGACCATTTCCAGTGGCTGGACGGCACCACCGGCGCGATGAGCTACAAGCTGGAGGTGCCGCCGTTGCAACCGGCCCTCACCGCCACCCTGCTCGGCCGCTTCGGCACTGACAATGCGTTGCGCATGGAACAGTTGCCGCACACCAACGTAATGCTCGCCCTGCTGCGCGACGGTTTCCATCCGGAGAGCGCGGAGGGCACGGTTGAGCTACGGGGCGATGGCAGCCCGGTGCTCGACTACCGGATGACCGACTACACCTGGGACGGCGTGCGTCGTGCCTTTCACAGCATGGCCGAGATCCAGTTCGCCGCAGGCGCCAAGGCCGTGTTGCCGCTGCATGCCGACGCCGACTACGTGAATACACCGCAGGCCGCCCGCGAACTGATCGACGGCCTCAGCCTCGAGCTGTACCGCACCCGCCTGGGCAGCGCCCATGTGATGGGCGGCTGTGCCATGGGCGAAGACCCGAAGAAGGCGGTCGCCGACAGCCTGGGGCGCCATCACCAGCTGGAAAACCTGTCGATCCATGACGGCTCGCTGTTCCCCACCAGCATCGGCGCCAACCCGCAGCTGTCCATTTACGGTCTGACTGCGCAATTGTCGAGCCTGCTGGCCGAGCGCCTGGGCAAAGCCTGA	MPVPDLFAEGLARGWKTHDGSRLEQDLTLGADVAIVGSGAGGGTTAEILSAAGFKVLLIEEGPLKTSSDFKMQEAEAYGSLYQEGIGRMSKDGAITILQGRAVGGTTLVNWTSSFRTPEPTLEHWAREHDVKGHSPADMAPWFERMEQRLGVTPWAIPPNANNDVLRAGCEQLGYHWKVIPRNVRGCWNLGYCGMGCPTNAKQSMLVTTIPATLDKGGELLYLARAERLLLEGDRVTGVECLGMDPRCVAPNGRKVLVRARHYVLAGGGINTPALLLRSGAPDPHERTGKRTFLHLVNFSAAQFDQVINPFYGAPQSIYSDHFQWLDGTTGAMSYKLEVPPLQPALTATLLGRFGTDNALRMEQLPHTNVMLALLRDGFHPESAEGTVELRGDGSPVLDYRMTDYTWDGVRRAFHSMAEIQFAAGAKAVLPLHADADYVNTPQAARELIDGLSLELYRTRLGSAHVMGGCAMGEDPKKAVADSLGRHHQLENLSIHDGSLFPTSIGANPQLSIYGLTAQLSSLLAERLGKA	PGPT0013615_4094	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013615-betA|CHDH-K00108	NA	NA
BMS010_05734	480	coaD_1	COG0669	Phosphopantetheine adenylyltransferase	ATGAATCGAGTGTTGTACCCGGGCACTTTCGACCCCATCACCAAGGGGCATGGCGACCTGGTCGAACGTGCCTCGCGCCTGTTCGACCACGTGATCATCGCGGTCGCCGCCAGCCCGAAGAAGAATCCGCTGTTCTCCCTGGAGCAGCGTGTGGAGCTGGCGCGCGAAGTGACCAAGCACCTGCCCAACGTCGAGGTCATGGGCTTCGCCACCCTGTTGGCGCAGTTCGCCCGTGAGCAGAAGGCCAATGTGCTGCTGCGTGGCCTGCGCGCGGTGTCCGACTTCGAGTACGAATTCCAGTTGGCCAACATGAACCGCCAACTGGCCCCGGAAGTGGAAAGTCTGTTCCTGACCCCGTCGGAGAAGTATTCCTTCATCTCCTCCACCCTGGTGCGCGAAATCGCCGCGCTGGGCGGAGACATCAGCAACTTCGTCCATCCCGCCGTGGCCGATGCGCTGACGGAGCGCTTCAAGCGCTGA	MNRVLYPGTFDPITKGHGDLVERASRLFDHVIIAVAASPKKNPLFSLEQRVELAREVTKHLPNVEVMGFATLLAQFAREQKANVLLRGLRAVSDFEYEFQLANMNRQLAPEVESLFLTPSEKYSFISSTLVREIAALGGDISNFVHPAVADALTERFKR	PGPT0008825_3607	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0008825-coaD|kdtB-K00954	NA	NA
BMS010_05735	252	fdx_1	COG1145	Ferredoxin	ATGTCCCTGAAAATCACCGACGACTGCATCAACTGCGACGTCTGCGAGCCCGAATGCCCGAATGGTGCGATTTCCCAAGGCGAGGAGATCTACGTGATCGACCCGAACCTGTGCACCGAGTGCGTCGGCCACTATGACGAGCCGCAATGCCAGCAGGTCTGCCCGGTGGATTGCATTCCGCTCGATCCCGACCATGTGGAAAGCAAGGACGAGCTGATGCAGAAGTACCTGATCATCACCGGCAAGGCCTGA	MSLKITDDCINCDVCEPECPNGAISQGEEIYVIDPNLCTECVGHYDEPQCQQVCPVDCIPLDPDHVESKDELMQKYLIITGKA	PGPT0003976_162	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACTERIOFERRITIN-ASSOCIATED_FERREDOXIN,PGPT0003976-yfhL-NA	NA	NA
BMS010_05736	1860			hypothetical protein	ATGCCTGATCCGGGCCGCAGCCTCCAACCGGGGCTGCGGCTTTTTCTCGGCTGCTGTCTCGGCGCGCTGCTGGCGTTCTCCTTCTGGCTCAGTGCCGGTTGGCTCCAGCTTAGTGCCGGGCTGGCGCTTTTCCTGTTCGGCATGCAATGCCTGGAAGAGGCGTTGCGCGACCTGGCCGGCGGCAAGCTCGAAAGCCTTCTCGCCCGCAGCACGGCGACGCCGTTCAAGAGCCTGATGTTCGGCGTCAGCGCCACCATGCTGACCCAGTCCAGTTCGCTGGTTTCCCTGCTCACCATCGCCTTTATCAGCAGCGGCCTGATCAAGCTGGCTGCCGGCATCGCCATCATCTTCGGTGCCAACCTGGGCACGACCAGCGGAATCTGGCTGTTGGCACTGGCCGGACAAAACCTCAGCCTGGGGCCGCTGGCCCTGCCATTGTTGGTATTCGGCGTGCTGGCCGGGTTCAACGGCGAGCGCAGCCGGGCCGTGGGCCGCCTGCTGCTGGGCATCGCCTTCCTGTTCCTCGGCATCGACCAGATGAAAACCGGCTTCGCCGCGGTCGGGGGCGGCTTCGATCCGCTGCACTATGCGCTACCTGGATTCCTCGGCCAGTTGACCTTCGTCGGCATCGGCGTGCTGGTGACGGTGGTGCTGCAGTCCAGCCATGCGAGCCTGATGCTGACCCTGGCCGCGCTGAGCAGTGGGCAACTGATGCTGGACCAAGGGCTGGCGATCGCCATCGGCTCCAATGTCGGCAGCACGGTGACTGCGGTGATCGGCTCGCTGCGCGGCGGACGCGCCGGTCAGCGGCTGGCCCTGGCGCATGTGTTGTTCAATCTGGTCACCGCACTGATCGCGCTCGCCCTGCTGGTTCCATTGGGCGCCTTGGTGCATTGGCTCGGCCGGCAGGTCGGGCTGGGCGATAACGCGCTGATCCAGTTGGCGCTGTTCCATACTCTGTTCAATTCCATCGGCGTCCTCCTGTTCTGGCCCTGGCAAACCCGCCTGGCCGGCCTGCTGGAGCGCCTGTTGCCGGAGCCGGTGGAACCCCGTGTGCTGATCACCGAGCTGACGCATCCGGATACCGAGCCGGCAGTCACCCACAGCCGTTATCTGGACGATGCGGCCCTGGCCTCGGCGGATGCCGCCGCCCACGCGGTGGTGCTCGAGTTGCAGCACCTCGGCCGTTTGAGCCTGGAAGTGATCTGCCATGCGCTCTACCTGCCGGTCGATCAGTTGAGCGGGCCGCTCGACGAGGCTCGTATGCGCGCCCAACCCGGCCCCCATGAGCTGGATGCCGAACAGCTCTATCAGCGCCATATCAAGGGCGTCTACGCCGACCTGCTGAGCTTCATGAGCCGGCTCGAAGCCGATCTGGATACGCCGCACCAGGAATTCTGGGTGCATTGCCAACTGGTGGCGCTGCAACTGGTGGATGCGGTCAAGGATGCCAAGCACCTGCAAAAAAACCTCGGCCGCTTCCTGCACCAGGGCGATTCGGCGGTGCGGGACGATTACGTAGAGTTGCGCCGCCACCTGCTGGGCGTGCTGCGCCAGGTACGTGAACTGGGACGCCTGGAACTGCCCGAGGAAGCCTGGGCTGAGCGCCTGCGGGAACTGGATGAGAAAGCCGCCCAGTTCGACGCGACTTTTCGCCACCGGTTATTCGCCGATGTGCGTGACAAGCGCCTCGACGGTCTGCTGGCCAGTTCGCTGATGAACGACCTGGGCTATGCCAGCCGCATCACCCAGAGTCTGCGCAACGTGCTGCTGCTCGGGCTGGGCGAGGGCAACGAGATGTTCCGGGCGGTGCGCCAGTTGGCGCCAGATGACGATCGGCCGCTGATCCGCCTGGACTGA	MPDPGRSLQPGLRLFLGCCLGALLAFSFWLSAGWLQLSAGLALFLFGMQCLEEALRDLAGGKLESLLARSTATPFKSLMFGVSATMLTQSSSLVSLLTIAFISSGLIKLAAGIAIIFGANLGTTSGIWLLALAGQNLSLGPLALPLLVFGVLAGFNGERSRAVGRLLLGIAFLFLGIDQMKTGFAAVGGGFDPLHYALPGFLGQLTFVGIGVLVTVVLQSSHASLMLTLAALSSGQLMLDQGLAIAIGSNVGSTVTAVIGSLRGGRAGQRLALAHVLFNLVTALIALALLVPLGALVHWLGRQVGLGDNALIQLALFHTLFNSIGVLLFWPWQTRLAGLLERLLPEPVEPRVLITELTHPDTEPAVTHSRYLDDAALASADAAAHAVVLELQHLGRLSLEVICHALYLPVDQLSGPLDEARMRAQPGPHELDAEQLYQRHIKGVYADLLSFMSRLEADLDTPHQEFWVHCQLVALQLVDAVKDAKHLQKNLGRFLHQGDSAVRDDYVELRRHLLGVLRQVRELGRLELPEEAWAERLRELDEKAAQFDATFRHRLFADVRDKRLDGLLASSLMNDLGYASRITQSLRNVLLLGLGEGNEMFRAVRQLAPDDDRPLIRLD	PGPT0002650_58	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0002650-yjbB-K03324	NA	NA
BMS010_05737	345			hypothetical protein	ATGAACCTGTTTCGTACCACCGCTGCTGTCCTGGCGCTGACCACCGGCCTGCTGACCTTGCCCGCCCAAGCGAACGAGGTGGTGCAGCAGGAAAACACCAGCGGCGACCCGACCTACACCGTCGAAGCGCCCAAGGGCTACGCGATGATGGGCGACCTGTTGATCGCCCGTCCGCTGCTGATCGGCGCCACCGTCATCGGCGCCGCCGCCTTCCTCGTCAGCCTGCCGTTCACCGCCCTGGGCGGTAACGTCGGCGAAGCCGGTAAATCGCTGGTGGTCGAGCCGGGCAAGGAAGCATTCGTGCGCTGCCTGGGCTGCACCATGAGCGGCTACAAGCAGAACTGA	MNLFRTTAAVLALTTGLLTLPAQANEVVQQENTSGDPTYTVEAPKGYAMMGDLLIARPLLIGATVIGAAAFLVSLPFTALGGNVGEAGKSLVVEPGKEAFVRCLGCTMSGYKQN				NA	NA	NA	NA	NA
BMS010_05738	582			hypothetical protein	ATGTCCGGTAACTACCTGCCGCGCAACCGCTTCGCCGAAGCGGTTGGTCGCGCCATGTTCAGACTCATGGGCGGTTGGCGCATCGAAGGCGAGCTGCCAGCGCTCGACAAGTTCGTGGTCATCGGCGCGCACCACACGTCCAACTGGGATTTCGTCCTGTTCATCGCGGCCAAGTTCGTACTGCGCCTGAATGCGCGCTGGTTCGGCAAGCACAGCATCTTCCGCTGGCCATTCGGTGGGCTGATGCGCCGCTGGGGTGGCATTCCGATCCAGCGTCACCTGCGCCTGAACGTGGTCGAGCAGGCGGTGAAAAGCTTCGAGCAGCAGCGCGAGTTCATGCTGGTGCTGTCGCCGGAGGGCACACGGCGGCGGGTCGAGCGCTGGAAGATGGGCTTCTACCATATCGCCCGGGGTGCTGGCGTGCCGATCGTTCCGGGGGCGCTGGATTATCGCAACCGGCGCCTCGTCATCGGCGCGCCCTTCTGGCCGACCGGCGACGAGCAGGCCGATCTGCGAGCTTTGCTGGCCTTCTTTCAGCCATACGAGCCAAAAAAACCTGAAAATGCGTTCCACGGCGATTGA	MSGNYLPRNRFAEAVGRAMFRLMGGWRIEGELPALDKFVVIGAHHTSNWDFVLFIAAKFVLRLNARWFGKHSIFRWPFGGLMRRWGGIPIQRHLRLNVVEQAVKSFEQQREFMLVLSPEGTRRRVERWKMGFYHIARGAGVPIVPGALDYRNRRLVIGAPFWPTGDEQADLRALLAFFQPYEPKKPENAFHGD				NA	NA	NA	NA	NA
BMS010_05739	813	mutM_3	COG0266	Formamidopyrimidine-DNA glycosylase	ATGCCTGAATTACCCGAAGTCGAAACCACCCGCCGCGGTATCGCTCCTTATCTGGAGGGGCAGCGCGTCAGCCGTGTCGTCGTACGCGAACGGCGGCTGCGCTGGCCGATTCCGGAAGACCTGGACGTGCGCCTGTCCGGCCAGCGCATCGAGAGCGTGGAGCGGCGGGCCAAGTACCTCCTGCTCAAGGCAGAAGCGGGCACGTTGATCGGTCATCTCGGTATGTCCGGCAGTCTGCGCCTGGTGGAATGCGGCCTGCCGGCTGCCAAGCACGAGCATGTGGATATCGAGCTGGAGTCGGGAATGGCGCTGCGCTACACCGACCCGCGCCGGTTTGGAGCCCTGCTCTGGAGCCAGGACCCGCTCAACCATGAGCTGTTGCGCAGCCTGGGGCCGGAGCCGCTGACCGATGCCTTCGACGGCGAGCGCCTGTACCAGCTTTCGCGGGGACGCAGCATGGCGGTCAAGCCGTTCATCATGGACAACGCCGTGGTGGTCGGGGTGGGCAACATCTACGCCAGCGAGGCGCTGTTCGCCGCCGGCATCGACCCGCGCCGCGCCGCCGGCTCGATCTCGCGGGCGCGCTATGTCGCGTTAGCAGTGGAGATCAAGCGGATTCTCGCCCACGCCATCGAGCGCGGCGGTACCACGCTGCGCGACTTCGTTGGCGGCGACGGCCAGCCCGGCTACTTCCAGCAGGAGCTGTTCGTGTACGGACGGGGCGGTGAATTCTGCAAGACCTGCGGCTCGACTCTGAAGGAAATCCGCCTCGGGCAGAGGGCGAGTGTTTACTGCGGCCGCTGCCAGCGCTAA	MPELPEVETTRRGIAPYLEGQRVSRVVVRERRLRWPIPEDLDVRLSGQRIESVERRAKYLLLKAEAGTLIGHLGMSGSLRLVECGLPAAKHEHVDIELESGMALRYTDPRRFGALLWSQDPLNHELLRSLGPEPLTDAFDGERLYQLSRGRSMAVKPFIMDNAVVVGVGNIYASEALFAAGIDPRRAAGSISRARYVALAVEIKRILAHAIERGGTTLRDFVGGDGQPGYFQQELFVYGRGGEFCKTCGSTLKEIRLGQRASVYCGRCQR	PGPT0021790_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021790-ECHS1-K07511	NA	NA
BMS010_05740	867			hypothetical protein	ATGGCCCACGAACTTTCCGCCGAACAGATCCGCCAGGTATTGCAGGGCATCAGCGTGCCGCCGCAACCACAGATCATGGTCGACCTGCAGATGGAGCAGGTCATGCCCAATCCCGACCTGAAGAGCATTGCCCGCCTGATCGGGCAGGACCCGGGGCTCTCCGGCGCCTTGCTGAAGATCGTCAATTCGCCGTTCTTCGGCCTGTCCAACCGCATCGCTTCGATCCAGCAGGCGGTCAATCTGCTCGGCTGCGACACGGTGATCAACCTGATCAACGCCCAGTCGATCAAGGGCGAGATGACCGACGAAACCATCGTCACCCTCAACCGCTTCTGGGACAGCGCTCAGGACGTGGCCATGGCCTGTCTCAGCCTGGCCAAGCGCATCGGCTACCAGGCGGCCGACGAGGCCTATGCCCTCGGCCTGTTCCACAACTGCGGCATCCCGCTGATGCTCAAGCGCTTCCCCGATTACATGACCGTGCTGGAGGAAGCCTACGCCCGCGCCAACGGCGAGCGGCGCGTGGTGGACACCGAGAACCAGTTGCTCAACACCAACCACGCGGTGGTCGGCTATTTCACCGCCAAGTCGTGGAACCTGCCGCTGCACCTGTGCGAGGCCATTGCCAACCACCACAATGCCCTGGCGATCTTCAGCGACGAATCCAGCCGCGATGCACAGCTCAAGACGCTGCTGGCGATCCTCAAGATGGCCGAGCACATCTGTGCAAGCTACGAAGTCCTGGGCAACCAGCCGGACGACCACGAGTGGAACAGCATCGAGCAACTGGTGCTGGAGTACGTCGGCCTGTCCGAGTACGACTTCGAAAACCTCAAGGAAAGCATCCGCGAACTGGGCGCCTGCTGA	MAHELSAEQIRQVLQGISVPPQPQIMVDLQMEQVMPNPDLKSIARLIGQDPGLSGALLKIVNSPFFGLSNRIASIQQAVNLLGCDTVINLINAQSIKGEMTDETIVTLNRFWDSAQDVAMACLSLAKRIGYQAADEAYALGLFHNCGIPLMLKRFPDYMTVLEEAYARANGERRVVDTENQLLNTNHAVVGYFTAKSWNLPLHLCEAIANHHNALAIFSDESSRDAQLKTLLAILKMAEHICASYEVLGNQPDDHEWNSIEQLVLEYVGLSEYDFENLKESIRELGAC				NA	NA	NA	NA	NA
BMS010_05741	540	yhbO_2	COG0693	Protein/nucleic acid deglycase 2	ATGGCAGCGTCCCTCAGCGGTAAACGGGTGGCCCTTCTGGTCACCGACGGTTTCGAACAGGCCGAACTGACCGGCCCCAAGGAAGCCCTGGAAAAAGCCGGGGCGAAGACCGAGATTCTCTCCTCCCACGCTGGCCAGGTGACCGGTTGGAACCACACCACGCCGGCCGACAGATTCCCCGTCGACAAGACCTTCCAAGTGGCCCGGATCGACGATTACGATGCCATCGTCCTGCCAGGCGGGGTGGTCAACGCCGACACCATCCGCACCGACGAGCTGGCCGTGGAACTGGTCAAGGACGCCGCCCGCGCCGACAAGCCGATCGCCGTCATCTGCCATGGCGCCTGGCTGCTCGCCTCCGCCGATCTGGTCGATGGGAAGACCATGACCAGTTGGCCCTCGTTGCAGGACGATCTGCGCAACGCCGGCGCCACCTGGGTCGATAAGGAAGTGGTGGTGGACGGCAAGTTGATCAGCAGCCGCAAGCCGGACGACATCCCGGCCTTCAGCCAGAAGCTGATCGAGGCCCTCGCCGCCTGA	MAASLSGKRVALLVTDGFEQAELTGPKEALEKAGAKTEILSSHAGQVTGWNHTTPADRFPVDKTFQVARIDDYDAIVLPGGVVNADTIRTDELAVELVKDAARADKPIAVICHGAWLLASADLVDGKTMTSWPSLQDDLRNAGATWVDKEVVVDGKLISSRKPDDIPAFSQKLIEALAA	PGPT0015010_2528	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-METHYLGLYOXAL_DETOXIFICATION,PGPT0015010-yfkM|pfpI|yraA-K05520	NA	NA
BMS010_05742	1197	rlmI_1	COG1092	Ribosomal RNA large subunit methyltransferase I	ATGTCCCTGCCCAGCCTGCGCCTGAAAGCCAATGCCGACCGCCGTCTGCGCGCCGGCCACCTGTGGGTCTACAGCAACGAGGTGGACGTCGTCGTCACCCCGCTGACCACCTTCGCCGCCGGCGACCAGGCCGTGCTCGAGGCCAGTAACGGCAAGGTGCTCGGTATCGTCGCGCTGAGCCCGAACAACCTGATCTGCGCCCGCCTAATTTCCCGCGACCCCAAGCACAGCCTGGACAAGTCGCTGCTGGTGCATCGCCTCAATGTCGCCCTGTCCCTGCGCGACCGTCTGTTCGACAAGCCCTTCTACCGCCTGGCCTACGGCGATTCCGACCTGCTCCCCGGCCTGGTGGTGGACCGCTTCGGCGATATCCTGGTCGCCCAGTTGGCCTCCGCCGCCATGGAGCGCCACAAGGACGACGTCCTCGCAGCCCTGGTCCAGGTACTCAAGCCGTCGGGCGTGCTGTGGAAGAACGACTCCAGCGCGCGTGACGCCGAAGGGCTGGAGCGCTACGTCAAGATCGCCCACGGCGACGTACCGGAATGGGTACCGCTGGAAGAGAACGGCGTAAAGTTCGAAGCACCGGTGCTGCAAGGCCAGAAGACCGGCTGGTTCTACGACCACCGCATGAATCGCGCACGCCTGGCCCCCTATGTGAAGGGCAAGCGGGTGCTCGACCTGTTCAGCTATATCGGTGGCTGGGGCGTGCAGGCCGCCGCCTTCGGCGCTACCGAAGTGATGTGCGTGGATGCCTCCGGCTTCGCCCTCGACGGCGTGGAACGCAACGCCGCGCTGAACGGCCTGTCCGAGCAGGTCGCCTGCATCGAGGGCGACGTCTTCGAAGCGCTGAAGGAGTTGAAGGCCGCCGAGGAACGTTTCGACGTGGTCATCGCTGATCCGCCGGCCTTCATCAAGCGCAAGAAGGACTTCAAGAACGGCGAGGCCGCCTACCGTCGCCTCAACGAACAGGCCATGCGCCTGCTGAACAAGGACGGCATCCTGGTCAGCGCCTCCTGCTCCATGCACCTGCCGGAAGACGACCTGCAGAACCTCCTGCTCGGCAGCGCCCGCCACCTGGACCGCAACATCCAGTTGCTGGAACGCGGCGCCCAGGGCCCGGACCACCCGGTCCACCCGGCAATCGCCGAGACCCGCTACATCAAGAGCCTGACCGTGCGCCTACTGCCCAATAGCTAG	MSLPSLRLKANADRRLRAGHLWVYSNEVDVVVTPLTTFAAGDQAVLEASNGKVLGIVALSPNNLICARLISRDPKHSLDKSLLVHRLNVALSLRDRLFDKPFYRLAYGDSDLLPGLVVDRFGDILVAQLASAAMERHKDDVLAALVQVLKPSGVLWKNDSSARDAEGLERYVKIAHGDVPEWVPLEENGVKFEAPVLQGQKTGWFYDHRMNRARLAPYVKGKRVLDLFSYIGGWGVQAAAFGATEVMCVDASGFALDGVERNAALNGLSEQVACIEGDVFEALKELKAAEERFDVVIADPPAFIKRKKDFKNGEAAYRRLNEQAMRLLNKDGILVSASCSMHLPEDDLQNLLLGSARHLDRNIQLLERGAQGPDHPVHPAIAETRYIKSLTVRLLPNS				NA	NA	NA	NA	NA
BMS010_05743	1839	ilvD_1	COG0129	Dihydroxy-acid dehydratase	ATGCCCGATTACCGCTCGAAAACCTCCACCTTCGGCCGCAACATGGCCGGCGCCCGTGCGCTGTGGCGCGCCACCGGGATGAAGGACGAGGACTTCAAGAAGCCGATCATCGCCATCGCCAACTCCTTCACCCAGTTCGTGCCCGGCCACGTGCACCTGAAGGACCTTGGCCAACTGGTGGCCCGCGAGATCGAGAAGCACGGCGGCGTGGCCAAGGAATTCAACACCATCGCCGTGGACGACGGCATCGCCATGGGCCACGACGGCATGCTCTATTCGCTGCCGAGCCGCGAGATCATCGCCGACTCCGTGGAGTACATGGTCAACGCCCACTGCGCCGACGCCATCGTCTGCATCTCCAACTGCGACAAGATCACCCCCGGCATGCTGATGGCCGCCCTGCGCCTGAACATCCCGGTGGTGTTCGTCTCCGGCGGCCCGATGGAAGCCGGCAAGACCAAGCTGGCCAATCACGGCCTGGATCTGGTGGACGCCATGGTGGTGGCCGCCGACGCCAGCTGCTCCGACGAGAAGGTCGAGGAATACGAGCGCAGCGCCTGCCCGACCTGCGGCAGTTGCTCCGGCATGTTCACCGCCAACTCGATGAACTGCCTCACCGAAGCCCTGGGCCTGGCCCTGCCGGGCAACGGTTCGACGCTGGCCACCCATGCCGACCGCGAGCAACTGTTCCTGCGCGCCGGCCGCCTGGCCGTCGAACTGTGCCAACGCTACTACGGCGAAGGCGACGAGTCGGTCCTGCCGCGCAATGTCGCCAGCTTCAAGGCGTTCGAAAACGCCATGACCCTGGACATCGCCATGGGCGGCTCGACCAACACTATCCTGCACCTGCTGGCCGCCGCCCAGGAGGCGGAAGTGCCGTTCGACCTGCGCGACATCGACCGTCTGTCGCGCAAGGTGCCGCAGCTGTGCAAAGTGGCGCCGAACATCCAGAAGTACCACATGGAAGACGTGCACCGCGCCGGTGGCATCTTCAGCATCCTCGGCGAACTGGCCCGTGGCGGCCTGCTGCACACCGACGTACCGACCGTGCACAGCCCGAGCATGGCCGATGCCATCGCCCAGTGGGACATCACCCAGACCGACGACGAAGCCGTGCACACCTTCTTCAAGGCCGGCCCGGCAGGCATCCCGAGCCAGGTGGCGTTCAGCCAGAGCACCCGCTGGCCGAGCCTGGACGACGACCGCGCCGAAGGCTGCATCCGCAGCGTCGAACACGCCTATTCGAAAGAAGGCGGCCTGGCCGTGCTGTACGGCAACATCGCCCTCGACGGCTGCGTGGTGAAGACCGCCGGCGTGGATGAGTCGATCCTCGTGTTCGAAGGCTCGGCGAAAATCTTCGAGAGCCAGGACAGCGCCGTGAAAGGCATCCTCGCCGACGAAGTGAAGCCGGGCGACGTGGTGATCATCCGCTACGAAGGTCCGAAAGGCGGGCCGGGCATGCAGGAAATGCTCTATCCCACCAGTTACCTGAAGTCCAAGGGCCTGGGCAAGCAGTGCGCCCTGCTCACCGACGGCCGTTTCTCCGGCGGCACCTCGGGCCTGTCCATCGGCCACGCCTCGCCGGAAGCCGCGGCCGGTGGCGCCATCGGCCTGGTCCGGGACGGCGATCGCATCCTCATCGACATCCCGAACCGCAGCATCAACCTGCTGGTCAGCGACGAGGAACTGGCCGCTCGCCGCGTCGAGCAGGACAAGAAAGGCTGGAAACCGGCCGCACCGCGCGCGCGCAAGGTAAGCACCGCTCTCAAGGCCTATGCCCTATTGGCCACCAGTGCCGACAAGGGCGCGGTACGCAACAAGGCACTGCTGGACGGCTGA	MPDYRSKTSTFGRNMAGARALWRATGMKDEDFKKPIIAIANSFTQFVPGHVHLKDLGQLVAREIEKHGGVAKEFNTIAVDDGIAMGHDGMLYSLPSREIIADSVEYMVNAHCADAIVCISNCDKITPGMLMAALRLNIPVVFVSGGPMEAGKTKLANHGLDLVDAMVVAADASCSDEKVEEYERSACPTCGSCSGMFTANSMNCLTEALGLALPGNGSTLATHADREQLFLRAGRLAVELCQRYYGEGDESVLPRNVASFKAFENAMTLDIAMGGSTNTILHLLAAAQEAEVPFDLRDIDRLSRKVPQLCKVAPNIQKYHMEDVHRAGGIFSILGELARGGLLHTDVPTVHSPSMADAIAQWDITQTDDEAVHTFFKAGPAGIPSQVAFSQSTRWPSLDDDRAEGCIRSVEHAYSKEGGLAVLYGNIALDGCVVKTAGVDESILVFEGSAKIFESQDSAVKGILADEVKPGDVVIIRYEGPKGGPGMQEMLYPTSYLKSKGLGKQCALLTDGRFSGGTSGLSIGHASPEAAAGGAIGLVRDGDRILIDIPNRSINLLVSDEELAARRVEQDKKGWKPAAPRARKVSTALKAYALLATSADKGAVRNKALLDG	PGPT0001875_1890	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0001875-ilvD-K01687	NA	NA
BMS010_05744	486			hypothetical protein	ATGGCGGAACGACGAAGCGAGGTACCCAGCCTGCGGATCGGCCTGATCGCCGATACCCATGGTCTGCTGCGTCCGGAAGCACTGGAACGCCTGCGTGGCTGCGACCATCTGATCCATGCCGGCGATATCGGCGGATCGGAAATCCTCGCCCAACTGGAAAGCATCGCCCCGCTGTCGGTGGTGCGTGGCAACAACGATACCGGCGAGTGGGCGGAAAACCTGCCCGAGCGCCTGGTGATCAAGTTCGGCCGCATCGCCATCTATGTGCTGCACGACCTCAAGACCCTCGACATCGACCCCGCCGCGGAAAAGATCGCCGTGGTGGTCGCCGGTCACTCCCACAAACCTGCCCTGCTGGAACGCGACGGCGTGCTCTACGTCAATCCCGGCAGCGCCGGCCCGCGTCGTTTCAAACTGCCGATCAGCGTCGGCAGCCTGTTCATCGAAGGGCAGGACGTGCACGGGGAATTGATGACGCTGGATTAG	MAERRSEVPSLRIGLIADTHGLLRPEALERLRGCDHLIHAGDIGGSEILAQLESIAPLSVVRGNNDTGEWAENLPERLVIKFGRIAIYVLHDLKTLDIDPAAEKIAVVVAGHSHKPALLERDGVLYVNPGSAGPRRFKLPISVGSLFIEGQDVHGELMTLD				NA	NA	NA	NA	NA
BMS010_05745	648			hypothetical protein	ATGGCTTCAGCCCGATCCGATGGTTCCCAGGTCGAAGACCTGGCCGCGCTGATCGTCCGTCATCGGCTGTGGGAGGATGCCCTGGCGCTGCTGACAGGGACCGCCATGGTCGCCCTGGGCATCGCTTTCTACGGCCATGCCGGGCTGCTCACCGGCGGTACCGTGGGCTTGGCGTTCCTGCTCAAGTACCTGCTCGGCTGGTCGTTCGGCTGGGCGTTCTTCCTGATCAATCTGCCGTTCTATGCGCTGGCGATCTGGCGCATGGGCTGGATGTTCACCCTGCGCACCCTCTGCGCAGTCGGCCTGGTGTCGTGGCTGGCCGAGCTGACCCCGCAGTGGGTCGGTTTTTCCCGGTTGAACCCACTCTATGCCGCGTTGTTCGGCGGTTTCGCCATGGGGCTCGGCCTGCTGATGCTGTTCCGCCACCGCGCCAGCCTGGGTGGGGTGAATATTCTCGCGCTGTTCCTGCAGGAGCGCTTCGGCCTGCGTGCCGGCAAGGTGCAGATGGCGATCGATGCGGCGATCGTGCTGGCGGCGCTGTTCCTCGTGCCGGCGGACAAAGTGCTGCTGTCTGTCCTCGGCGCGCTGGCGCTGAATATGGTCCTGGCGATCAACCACCGCGCCGGGCGTTATCGGGGCGTGAGCTGA	MASARSDGSQVEDLAALIVRHRLWEDALALLTGTAMVALGIAFYGHAGLLTGGTVGLAFLLKYLLGWSFGWAFFLINLPFYALAIWRMGWMFTLRTLCAVGLVSWLAELTPQWVGFSRLNPLYAALFGGFAMGLGLLMLFRHRASLGGVNILALFLQERFGLRAGKVQMAIDAAIVLAALFLVPADKVLLSVLGALALNMVLAINHRAGRYRGVS				NA	NA	NA	NA	NA
BMS010_05746	528	dhfrIII		Dihydrofolate reductase type 3	ATGCTCGCCGCCATGAATACGACCACACTCCCCCTCGCCCTGATCGCCGCTCTCGCGCAGAACCGCGTGATCGGCCTCGACAATCAACTGCCCTGGCGCCTGCCGGCGGACCTCAAGCATTTCAAGGCCATGACCCTCGGCAAGCCGGTGATCATGGGCCGCAAGACCTGGGACTCCCTGGGGCGGCCGCTGCCGGGCCGGCTCAATCTGGTGGTCAGCCGCCAGCCCGGGTTGCAGCTCGAAGGTGCGGAAGTCTTCGCCTCGCTGGACGCGGCCATCGAACGGGCCGAGCATTGGGCCCGCGAGCAGGGCGCCGGTGAACTGATGCTGGTCGGCGGCGCGCAGCTCTATGCCCAGGCCCTGGAGAGGGCCGACCGCCTCTACCTGACCCGGGTAGGCCTGCGCCCGGAGGGCGATGCCTGGTTCCCTGAGTTCAGTGAAGCCGAGTGGTCACGCGAGGCCCATGAGGAGCATCCCGCCACGGCGGATACGCCGGCCTACGATTTCGAGACCTGGGTGCGACGCTGA	MLAAMNTTTLPLALIAALAQNRVIGLDNQLPWRLPADLKHFKAMTLGKPVIMGRKTWDSLGRPLPGRLNLVVSRQPGLQLEGAEVFASLDAAIERAEHWAREQGAGELMLVGGAQLYAQALERADRLYLTRVGLRPEGDAWFPEFSEAEWSREAHEEHPATADTPAYDFETWVRR	PGPT0007945_1032	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007945-folA-K00287	NA	NA
BMS010_05747	1128	glpQ_1	COG0584	Glycerophosphodiester phosphodiesterase, periplasmic	ATGTCCAATAAACACCCCGCGATCCTGCGTCATTGGCTGCTCGCCTGCAGCCTGTTGTTGCCGCTGATGTCCCACGCCGCCCCCGAAGCCACCGTCAGCGCCGAAGCCCGCGGCCGCCACCACGTCGAACCGAGCCCCCTGGTGATCGGTCATCGCGGCGCCAGCGGCTACGTGCCCGAGCACACCCTGGCGTCCTACGCGCTGGCGGTGCTGCAAGGCGCCGACTACATCGAGCCGGACCTGGTGATGACCAAGGACGGCCAGTTGATCGCCCGCCACGACAACGAGCTGGGCCTGACCACCGACGTGGCGCAGCGCCCCGAGTTCGCCGATCGCCGACGCACCCAGACCGTCGACGGGGTGACCCTCACCGGCTGGTTCAGCGAAGACTTCACCCTCGCCGAGATCAAATCGCTGCGCGCCATCGAGCGCATCCCGACGATCCGCCCCGGCAACGCCCGCCTGGACGGCGCCTTCGAAGTACCGACCCTGCAGGAAATCATCGACCTGGTGAAATCCCTGCAAATCAGCCAGCAGCGGGTCATCGGTCTCTACCCGGAAACCAAGCACCCGACCCACTTCCAGCAGCTCGGCCTGGCCATGGAGCGCCCGCTGGTGCGCATCCTCGCGCGCAACGGCTACGCCAGCCGCTGGTCGCCGGTGTATATCCAGTCCTTCGAGGTGGAGAACCTCAAGACCTTGAGCCGCCTGACATCCCTGCGCCTGGTGCAGTTGCTGTGGACCGATGGCCAGCCCTACGACCAGCAGGTGCTGGGCACAGGCCTTACCTACGCCCAGATGAGCACCCCGGCCGGGCTCAAGGCTATCGCCCGCTACGCCGCCGGCATCGGCCCGGAGAAGAGCCAGATCATCCCGCGCGACGCCGCCGGCAACCTCACCAGCCCCACCCGCCTGGTGCCCGACGCCCACGCTGCCGGGCTCAAGGTGCACCCCTATACCTTCCGCGCCGAGAACAGCTTCCTCCCGACCGATTTGCGCAGCAGCGACGATCCGCAAGCGCGCGGCGATCTCGAAACGGAAATCCGCGCCTTCCTCGACACCGGTATCGACGGCCTGTTCATCGACCAGCCGGACATCGCGGTGAAGGTGCGCGAAGCACGGCAGTGA	MSNKHPAILRHWLLACSLLLPLMSHAAPEATVSAEARGRHHVEPSPLVIGHRGASGYVPEHTLASYALAVLQGADYIEPDLVMTKDGQLIARHDNELGLTTDVAQRPEFADRRRTQTVDGVTLTGWFSEDFTLAEIKSLRAIERIPTIRPGNARLDGAFEVPTLQEIIDLVKSLQISQQRVIGLYPETKHPTHFQQLGLAMERPLVRILARNGYASRWSPVYIQSFEVENLKTLSRLTSLRLVQLLWTDGQPYDQQVLGTGLTYAQMSTPAGLKAIARYAAGIGPEKSQIIPRDAAGNLTSPTRLVPDAHAAGLKVHPYTFRAENSFLPTDLRSSDDPQARGDLETEIRAFLDTGIDGLFIDQPDIAVKVREARQ	PGPT0018470_1401	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
BMS010_05748	1395			putative membrane protein	GTGACTGCCGCCTCCCCCACTCCACTGACCCACCTCGATCACCTCTGGCTCTGCGAAGCCGTACGCCTGCGCGAAGAGCACACCGGCCCGCTGGAGGACCGCGAAGCCAATCGCCAGGCCAATGCCGCCGGCGGCGACCTGCCGGCACGGATTCGCCGGCGGGCGCTGTTCCTCGCCGAGCGCGACGGCCAACTCGCCGCCCTCCGTCACTGGCACCAGGGCGCGCGGCTGGCGGGTTACCTGCTCCTGCTACTGGCGGTGGTCGGCGGCAGCGGACTGGCTGTCACCGCCCTCGGCGACGGGCAACGACCGGTCAATGTGTTCTGGGCCCTGGGCAGTCTGCTCGGCCTGCACCTGCTGATGCTCCTCGGCTGGCTGTTCAGCCTGCGCTACGCCGGCGACAGCGGCGGCGCCGTCGGCCGGCTGTGGCTCTGGCTCAGCGAAAAACTCGCCCGCGATGCCCAGGCCGCGCATCTGGCCCCGGCCCTGCTGCTCCTGCTGCAACGTCGCCGCTTGGCGCGCTGGGGGCTGGGGGCACTGGTGAACGGCTTCTGGCTGCTGACCCTGCTCAGCGCCCTGCTGACCTTGCTCGCGCTACTCTCCACCCGCCGCTATGGCTTCGTCTGGGAAACCACGCTGCTGGACAGCAACACCTTCGTCAGTCTTACGCGGGCCCTCGGCGCCCTGCCGGCGCTGATCGGCTTCCCTCTGCCGGACGTCGCCACCATCCGCGCCAGCGGTGACGTCGCCGTGCCCCTGGAAAGCGCCCGCCACGCTTGGGCCGGCTGGCTGATCGGGGTGCTGCTGGTCTATGGTCTGCTGCCACGCCTGCTGCTCGCCCTGTTCTGCCTGTGGCAATGGAAACGCGGCACGGCGGCACTGGCACTGGATCTTTCCCTGCCCGGCTACCAACTCCTGCGCGAACGCCTGCAACCGGCCAGCGAGCGCCTGGGCGTGAGCGAAGAAGCGCCCGCCGCGCTGCCCGAGCCCAAGGGCGGCACCTACCCCGGCGACAGCGCCGGCGCGCTGCTGGTGGCCGTCGAACTGGACGATCGTCGCCCCTGGCCGCCCGCCTTGCCGAAGAACGTGGCCGATGCCGGCATTCTCGACAGCCGCGAGCAGCGCCAGCACCTCCTCGACCAGCTCACCCGCTTCCCGCCCGAGCGCTTGGTCATCGCCTGCGACCCGCGCCGCTCGCCCGACCGCGGCACCCTCGCCCTGCTCGGCGAGTTGGCGCGCACGGCCAGCGCCACCCGTGTCTGGCTGCTCCAGGCCCCGCCCGGCGAAGCGCTGGACAGCGAGCGACTGGAGGACTGGCATCAGGCCCTCGCGCAACTCGGCCTGCCCCACGGCTGCAGCGCGCCGCTGCATTGGTTGGAGAGCGGACATGACTGA	MTAASPTPLTHLDHLWLCEAVRLREEHTGPLEDREANRQANAAGGDLPARIRRRALFLAERDGQLAALRHWHQGARLAGYLLLLLAVVGGSGLAVTALGDGQRPVNVFWALGSLLGLHLLMLLGWLFSLRYAGDSGGAVGRLWLWLSEKLARDAQAAHLAPALLLLLQRRRLARWGLGALVNGFWLLTLLSALLTLLALLSTRRYGFVWETTLLDSNTFVSLTRALGALPALIGFPLPDVATIRASGDVAVPLESARHAWAGWLIGVLLVYGLLPRLLLALFCLWQWKRGTAALALDLSLPGYQLLRERLQPASERLGVSEEAPAALPEPKGGTYPGDSAGALLVAVELDDRRPWPPALPKNVADAGILDSREQRQHLLDQLTRFPPERLVIACDPRRSPDRGTLALLGELARTASATRVWLLQAPPGEALDSERLEDWHQALAQLGLPHGCSAPLHWLESGHD				NA	NA	NA	NA	NA
BMS010_05749	1383			hypothetical protein	ATGACTGAAAGCCGCCCGAGCCAACCGCTGAAGCTCGCCGTGGTCGGTCACACCAACGTCGGCAAGACCTCCCTGCTGCGCACCCTGACCCGCGACACCGGCTTCGGCGAGGTTTCGCACCGCCCCAGCACCACCCAGCACGTCGAAGGAGCGCGCCTCTCGGTGGACGGCGAGCCGCTGCTGGAGCTGTACGACACCCCCGGCCTGGAAGATGCCATCGCCCTGCTCGACTACCTGGAACGCCTGGAGCGGCCTGGCGAGCGTCTCGACGGGCCGGCACGGCTGGCCCGCTTCCTCGACAGCAGCGAAGCCCGCCAGCGCTTCGAACAGGAAGCCAAGGTGCTGCGCCAGTTGCTCGCCTCGGATGCCGGGCTCTACGTGATCGATGCCCGCGAGCCGGTGCTGGCCAAGTACCGCGACGAACTGGCGGTACTCGCCGGCTGCGGCAAGCCGCTGCTGCCGGTACTCAATTTCGTCGCCCGCCAGGACACCCGCGAGAACGAATGGCGCGAAGCCCTGGCACGCCAGGGGCTGCATGCCTTGGTGCGCTTCGACAGCGTCGCCCCGCCGCTGGACGGCGAACGCCGGCTGTATGAAAGCCTGGCGCTGCTGCTGGAGCGCTCGCGTCCGCAGCTGGAGCGCTTGATCGCCGATCACGAAGCCCAGGCACGCGCCCGTCAGGAGGCCGGAGCCCGGTTGATTGCGGAGCTGCTCATCGATGCCGCCGCCTGCAGGCGCAGCGTGGCCAGCCAGCCGGTCCTCGAGCAGGGCGCGATCCGCGAACTGCGCGAAGCCATCCGCCAGCGCGAGCAGCGCTGCGTCGAAGCCCTGCTGCGCCTCTACGCGTTCCGCCCGCAGGATGCCCAGGCTGGTGACCTGCCGCTGCTCGACGGCCGCTGGGGCGACGATCTGTTCAATCCAGAAACCCTCAAGCAACTCGGGGTGAAGATCGGCGGCGGCATGGCGGCCGGAGCGGCGGCAGGCGCAGGGGTCGACCTACTGGTCGGCGGCATCACCCTCGGCGCCGCCGCGCTGCTCGGCGCACTCGCCGGCGGTGGCCTGCAGACCGCCCGCAACTACGGCGGCCGCCTACTCGGCAAACTCAAGGGCCAGCGCGAACTCAGCGTCGACGACAACGTGCTGCGCCTACTCGCCCTGCGCCAACGCCAACTGCTCGCCGCCCTCGCCAGCCGCGGCCATGCCGCACAACAGGCGATCCGGCTGGAAACTCCGCAGGATGGCACCTGGCGCAACGGCAAGCTGCCGGAAGCCCTGCACAAGGCCCGCGCTCATCCGGAATGGTCGTCGCTCAATCCCGGCGCACGGCTGGAACAGGCGGAGCGGCAGGTGCAGATCGCGGCGCTGGCCATCGAGTTGAAATAG	MTESRPSQPLKLAVVGHTNVGKTSLLRTLTRDTGFGEVSHRPSTTQHVEGARLSVDGEPLLELYDTPGLEDAIALLDYLERLERPGERLDGPARLARFLDSSEARQRFEQEAKVLRQLLASDAGLYVIDAREPVLAKYRDELAVLAGCGKPLLPVLNFVARQDTRENEWREALARQGLHALVRFDSVAPPLDGERRLYESLALLLERSRPQLERLIADHEAQARARQEAGARLIAELLIDAAACRRSVASQPVLEQGAIRELREAIRQREQRCVEALLRLYAFRPQDAQAGDLPLLDGRWGDDLFNPETLKQLGVKIGGGMAAGAAAGAGVDLLVGGITLGAAALLGALAGGGLQTARNYGGRLLGKLKGQRELSVDDNVLRLLALRQRQLLAALASRGHAAQQAIRLETPQDGTWRNGKLPEALHKARAHPEWSSLNPGARLEQAERQVQIAALAIELK				NA	NA	NA	NA	NA
BMS010_05750	795	thyA_2	COG0207	Thymidylate synthase	ATGAAACAGTACCTCGACCTGATGCGCCACGTGCGCGAGCACGGCACCTTCAAGAGCGACCGCACCGGCACCGGCACCTACAGCGTGTTCGGCTACCAGATGCGTTTCGACCTGGCCGACGGTTTCCCGCTGGTGACCACCAAAAAGTGTCATGTGAAATCGATCATCCATGAGCTGCTGTGGTTCCTCGCCGGCGACACCAACATCCGCTACCTGAAGGAAAACGGCGTTTCCATCTGGGACGAATGGGCCGACGAAAACGGCGACCTTGGCCCGGTCTACGGCTACCAGTGGCGCAACTGGCCGGCGCCGAACGGCGAGTCCATCGACCAGATCGCCAAGCTGATCGAGATGATCCGCAAGAATCCGGACTCACGCCGCTTGATCGTCTCCGCCTGGAATCCGGCGCTGGTCGACCAGATGGCCCTGCCGCCGTGCCACGCGTTGTTTCAGTTCTACGTGGCCGAAGGCCGCCTGAGCTGCCAGCTCTACCAGCGCTCGGCCGATATCTTCCTCGGCGTGCCCTTCAACATCGCCAGCTACGCCTTGCTGACGCTGATGGTGGCGCAGGTCTGCAATCTGGAACCGGGCGAATTCATCTGGACCGGCGGCGACTGCCATCTTTACGCCAATCACCTCGAACAGGCCGACCTTCAGCTCTCTCGCGAGCCGCTGCCGCTGCCGATCATGAAGCTCAACCCGGAAGTGAAGGACCTGTTCGCTTTCCGCTACGAGGACTTCGAGCTGGTGGGCTACCAGGCGCACCCGCATATCAAGGCACCGGTTGCGGTCTGA	MKQYLDLMRHVREHGTFKSDRTGTGTYSVFGYQMRFDLADGFPLVTTKKCHVKSIIHELLWFLAGDTNIRYLKENGVSIWDEWADENGDLGPVYGYQWRNWPAPNGESIDQIAKLIEMIRKNPDSRRLIVSAWNPALVDQMALPPCHALFQFYVAEGRLSCQLYQRSADIFLGVPFNIASYALLTLMVAQVCNLEPGEFIWTGGDCHLYANHLEQADLQLSREPLPLPIMKLNPEVKDLFAFRYEDFELVGYQAHPHIKAPVAV	PGPT0008145_3949	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0008145-thyA-K00560	NA	NA
BMS010_05752	234			hypothetical protein	ATGGCTGACGTGATCCCCTTCCCGCCCCGCCCACCGGCCGTCGACATTCCCGACTGCCCCTTCCAGGCCGACGCCGAGATGCGTCTGCGGGTAGCGCAACAAGCCATCCAGGCTGTCCTGCGCCAGGAAGGCAGGGTCCTGGCCTCCCCCTGGATCGACGTCGGTATCGGCGCCGTCCGCCTGCTCGACGAAGTCCAGATGTTGTACCGGCGCTCATTGCAAAACAGACACTGA	MADVIPFPPRPPAVDIPDCPFQADAEMRLRVAQQAIQAVLRQEGRVLASPWIDVGIGAVRLLDEVQMLYRRSLQNRH				NA	NA	NA	NA	NA
BMS010_05753	1869			hypothetical protein	ATGTCCGGAAAACCCGCCGCCCGCCAGGGCGATGCCGTCACCTGTCCCGCCTGCGGCAAGGCCATCGTCGCCTCCGGCTCGTCAGACGTTACCTTCGAACACCAACCCGCCGCCCGCGCCGGCGATACCTGCATCTGCGGCGCACCGCTGACTCAGAACATGTCCAGCACCGTCCTGATCAACGGCCGTCCCGCTTTGTTCATGGGTAGCAGCGCCGAGAATGGCGGGGTGATCATCAGTGGTGCCGGGACGGTGGTGATTGGCGATCAGGTGGTCCCTGCGAACTTCAAGCCTCCCTCACCGATGCCTGGCGTTCCTTTGGCCCGGCCTGCCACTCCAGCCACGCCCAGCGCCTGGCGCGAGGAGCCCGGCGACCCCGCCCCGCTGGGCCTGGAGGAAGAGGACGAAGAGGAAGAGCTCGAAGAACCCGCACAGCAAGCCGTTACCCTGCGCATTGGCGTGTTCTTCGACGGCACCGGCAACAACCTCGGCAACAGCGCGCTGGTCGCCGGCTGCTTCGCCAGGGACGTCGACCTGGAGCACGCCGCAGAGGACATTCGCACCTTCTGCGCCCGTTATGGCTTCGACGGCAAGGGCAGCTCGCCGGACAACAGCTATGGCAACGACAAGAGCAATGTGGCGCGGTTGTATGAGTTGTATCGGGATGACAGTCAACTTGTACTGGAGCGAGGTGAGCGAGAGGCTACGCTCCGAGTCTATGTCGAAGGCATCGGTACCCGCAGCGGCCAGACCGACTCGCTCTATGGCCAAGCCACCGGACTGGGCGCCACGGGTGTGGTGGCTCGGGTCAAGCAGAGTCCCCAGCTGCTAATCGAGCAACTCGGCCTGTTCAGGCGCAACAACCCCGACGTAGTGGTCAGTCGTATCGAATTCGACGTCTTCGGTTTCAGCCGGGGCGCCGCCGCCGCCCGGCATTTTGTCAACGACGTGCTCAAGGGCGACAGCAGCCTGATTGCCAACGCCTTGCCCAGCGGTTCCCCCGGTTTAAGCGAGGGCTTCGCCTGGCGCCCCGGCGTGGACGTGGCCCTCAACTTCATCGGCCTGTTCGACACCGTGGCCGGCATCGTCTCGCTGCGGGACGGCGACTTCGGCGCCCACAACGCCGCCAACCCCGGCGTGAATCTGCGCCTGACCCCGGACATGGCGCGCAAGATCGTCCATCTGGTGGCCCGCGACGAGGTACGCCACAACTTCGCCCTCAACAGCGCCGGCGCCGCCGATATCCGCCTGCCCGGCGTGCACTCCGACGTCGGCGGCGGCTACCTGCCCCGCGCCCCGGAGCGGGTACTGCTGAGCAAACCGCGCAGCCTCACCGTCAGCCGGGATACCCTGCCCGAACGCAGCCACCCCTATCGCGCGACCCAACTGGAATCGCAGAACCATCACTGGTTTCTTCTTGAGAGCCGGGGCCTGCCCCTGCAAGTCGTACTCTGGGAAACGGAGCTGCCTTACCGCCCCAAAATCGACCCTTTCCCGGAAAAGCGCGTCCATGCCGCCCTGATCAGCAACCGTGTGGTGCTCGGCGACCTCGCCCTGATCTACCTGCGTATCATGCGCGAGCTGGGCGTGCGCAACGGCGTGCCCTTCGACCCCATCGATGACTATGACCGGCAACTGGCCCTGCCCGATGAACTGAAGCCCATCGCCGCCAAGCTGATGGCCTATGCCTTGGGACAGAGCCCGAGCCTAGGATTGACCGAGCGGGAAGAAGCGCTGCTGTACACGCGCTACATCCACCAGTCCGCCCACTGGAACGCAGCCGTGGGCCGGAACGGCAGCGACCTCGATACGGTCTTCGTCAACCGCCCAGCCGACAACCATCAGCGAGTGATCTACCCCAATGAATAA	MSGKPAARQGDAVTCPACGKAIVASGSSDVTFEHQPAARAGDTCICGAPLTQNMSSTVLINGRPALFMGSSAENGGVIISGAGTVVIGDQVVPANFKPPSPMPGVPLARPATPATPSAWREEPGDPAPLGLEEEDEEEELEEPAQQAVTLRIGVFFDGTGNNLGNSALVAGCFARDVDLEHAAEDIRTFCARYGFDGKGSSPDNSYGNDKSNVARLYELYRDDSQLVLERGEREATLRVYVEGIGTRSGQTDSLYGQATGLGATGVVARVKQSPQLLIEQLGLFRRNNPDVVVSRIEFDVFGFSRGAAAARHFVNDVLKGDSSLIANALPSGSPGLSEGFAWRPGVDVALNFIGLFDTVAGIVSLRDGDFGAHNAANPGVNLRLTPDMARKIVHLVARDEVRHNFALNSAGAADIRLPGVHSDVGGGYLPRAPERVLLSKPRSLTVSRDTLPERSHPYRATQLESQNHHWFLLESRGLPLQVVLWETELPYRPKIDPFPEKRVHAALISNRVVLGDLALIYLRIMRELGVRNGVPFDPIDDYDRQLALPDELKPIAAKLMAYALGQSPSLGLTEREEALLYTRYIHQSAHWNAAVGRNGSDLDTVFVNRPADNHQRVIYPNE	PGPT0030410_91	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0030410-vgrG-K11904	NA	NA
BMS010_05754	690			hypothetical protein	ATGAATAAGACCCGCGTCCTGCTCAACACCTGCCTGCTGTCGCTGCTGACTGTGCTTGCCGGTTGTGCCAACGGCCGTGGCCAGTCCTTGCCTTATGACTCCTGGTATCTGAACTTCTTTTCCCCGGATTACATGGAGGCCTGGGTCGAGACCAGCGAAGTCGTAGACATTAAAAACCGAGGCTTTTCGAACGTACTGGGGGGCGTCGTTTCGAGTGGATATCCGCGTGCTTTGAGCAAGGGCATCCCCACCGAATTCAAAGGCAACCCCAAAGGTTGGCCGAAAAAGCCCGGAGGCGGCGGCGGAAAACATGTGATTGGTGCCGACCTACCTCGGGTGATCTACGTGAACTGGCAATCCCTGGTGGAGCCGCAGACCTACGAGGTCTATATCGAGATTACAGAGGAAATGCGGCAGATCATGCTCAAGCCGGAAAAGGCCTATTGCAACCTAGATGGCAAGTGGATCACCGATTACCGCCGCTTCCTCACTATCGGATTAGCGCCAGGCGGCATCGCCAAGGTTTGGGCACAATCCCCTTGCCTAATCCCCATCGAAGTCACCCGCGTCGTCGGCAAGGTCGATCCGCGCGGGCCGTATCTAGGGCGCTCGGGAGGACGGTATCGCCCGCTCAGCGATATCTCCAAGGCCTACGTCGAGAAATTCGGCGTGCCCTATGGCTCATGGTGA	MNKTRVLLNTCLLSLLTVLAGCANGRGQSLPYDSWYLNFFSPDYMEAWVETSEVVDIKNRGFSNVLGGVVSSGYPRALSKGIPTEFKGNPKGWPKKPGGGGGKHVIGADLPRVIYVNWQSLVEPQTYEVYIEITEEMRQIMLKPEKAYCNLDGKWITDYRRFLTIGLAPGGIAKVWAQSPCLIPIEVTRVVGKVDPRGPYLGRSGGRYRPLSDISKAYVEKFGVPYGSW				NA	NA	NA	NA	NA
BMS010_05755	663			hypothetical protein	ATGAATAAGACCCGCCTCCTGCTCAATTCCTGTTTGCTGTCGCTGCTGAGTGTGCTCGCCGGTTGTGCCAACGGTCGTGGCCACTCGCTACCCTATGACGCTTGGTTCCTGGGCTTCGGGGCTCCCTCTGACATGGAAGTCTGGATCGAAACCGCCGATGTGGTGGATATCCAAGGGCGCGTATTCCGCCAAGCCATGAGCGGCACTGCGGCAATCCAGACACCGCCGGACAATCGCGGCAACCCCAGGGGCTGGCCGAAGCGGCCCGGTATCGGAGCAGGCAAACTCGTCCTCGGTGCAGACCTACCCCAGGTGATCTATGTGAACTGGCAATCCCTGGTGGAGCCCCAGACCTACGAGGCCTATATCGAAATACCCGAGGAAACGCGGCAGCTCATGCTCAAGCCAGAAAGGGCGTATTGCCCGGACGGTAAGTGGACGACCGATTACCGCAATTTCCTCACCATTGGGCTGGCACCGGGTGGCATCGCCAAGGTCTGGGTGCAAGGCCCTTGCCTGGAGGCCATCGAAGTCACCCGCGTCGTGGGCAAGGTCGATCCGCGCGGGCCGTACCTGGGACGCTCCGGTGGACGGTATCGCCCACTCAGAGATATCTCCAAGGCCTACGTCGAGAAGTTCGGCGTTCCCTACGGCTCGTGGTAA	MNKTRLLLNSCLLSLLSVLAGCANGRGHSLPYDAWFLGFGAPSDMEVWIETADVVDIQGRVFRQAMSGTAAIQTPPDNRGNPRGWPKRPGIGAGKLVLGADLPQVIYVNWQSLVEPQTYEAYIEIPEETRQLMLKPERAYCPDGKWTTDYRNFLTIGLAPGGIAKVWVQGPCLEAIEVTRVVGKVDPRGPYLGRSGGRYRPLRDISKAYVEKFGVPYGSW				NA	NA	NA	NA	NA
BMS010_05756	882	ydcV_5		Inner membrane ABC transporter permease protein YdcV	ATGAAGCGCTTCGGTTTTTCCAACCTCATGCTCTGGGCGGGGCTGCTGTTCATCTACCTGCCGATGGTCATCCTGGTCATCTACTCCTTCAACGGCTCGCGCCTGGTGACCGTATGGGGCGGCTGGTCGGTGAAGTGGTATGTCGGCCTGCTCGACAACAGCCAACTGATGAGTGCGGTGGCGCGCTCCCTGGAAATCGCTTTCTACACCGCCATCGCCGCGACCGCGCTGGGCACTCTTGCCGCGTTCGTCCTGACCCGCGTTCCGCGTTTCCGGGGCCGAACCCTGTTCGGTGGCCTGGTCACCGCGCCGCTGGTCATGCCCGAGGTGATCACCGGCCTGTCGCTGCTGCTGCTGTTCGTGGCCATGGCGCAACTGATCGGCTGGCCGGCACAGCGCGGCATCCTGACCATCTGGATCGCCCACACCACCTTCTGTTCGGCCTACGTGGCCGTGGTGGTCTCGGCGCGCCTGCGTGAGCTGGACCTGTCCATCGAGGAAGCTGCCATGGACCTGGGCGCCAAGCCGTGGAAGGTGTTCATCCTGATCACCATCCCGATGATCGCGCCCTCGCTGGCGGCAGGGGCGATGATGTCCTTCGCCCTGTCGCTGGACGACCTGGTGCTGGCGAGCTTCGTCTCCGGTCCCGGTTCCACCACCCTGCCGATGGAAATCTTCTCCGCCGTGCGCCTGGGCGTGAAGCCGGAAATCAACGCCGTGGCCAGCTTGATCCTGCTGGTGGTGTCCTTTGCCACCTTCCTCGCCTGGTACTTCACTCGCCGCGCCGAAGAGCGCCGCAAGCGGGCGATGCAGCAGGCCATGGAAGTCATGGCCGAAGAGGCGGCGGGCTCCTCCTGGAAATCGGGCACCCAGGCGGCCTGA	MKRFGFSNLMLWAGLLFIYLPMVILVIYSFNGSRLVTVWGGWSVKWYVGLLDNSQLMSAVARSLEIAFYTAIAATALGTLAAFVLTRVPRFRGRTLFGGLVTAPLVMPEVITGLSLLLLFVAMAQLIGWPAQRGILTIWIAHTTFCSAYVAVVVSARLRELDLSIEEAAMDLGAKPWKVFILITIPMIAPSLAAGAMMSFALSLDDLVLASFVSGPGSTTLPMEIFSAVRLGVKPEINAVASLILLVVSFATFLAWYFTRRAEERRKRAMQQAMEVMAEEAAGSSWKSGTQAA	PGPT0007815_157	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007815-potI-K11074	NA	NA
BMS010_05757	909	potH_2	COG1176	Putrescine transport system permease protein PotH	ATGAGCCTGTCCAAACTGAGCCGACTGCTGCCGCGGGGCCGGCATGCGGTCATCGGCGTACCCTTCGTCTGGCTGTTCCTGTTCTTCCTGCTGCCGTTCTTCATCGTCCTGAAGATCAGCTTCGCCATGGCAGACGTGGCGATTCCGCCGTACACGGAAATCTACAGCTACGTCGACCAACAACTGCAGGTGGTGCTCAACCTGGGCAATTATCTGATGCTCAGCGAAGACGAGCTGTACCTGGCAGCCTACCTGGGCTCGCTGAAGATCGCCTTCTTCAGCACCCTGCTGTGCCTGCTGATCGGCTACCCGATGGCCTACGCCATCGCCCGGTCGTCGAAGGAGATGCAGACCGTCTACCTGCTGCTGATCATGATGCCGACCTGGACCGCGATCCTGATCCGCGTCTACGCCTGGATGGGCATCCTCAGCAGCAACGGCCTGCTCAACAACCTGCTGATGGGCATCGGCCTGATCGACGAGCCACTGCAGATCCTCAACACCAACGTCGCGGTGTACATCGGCGTGGTCTATTCCTACCTGCCGTTCATGGTCCTGCCGCTCTACGCCAACCTCGTGAAGCATGACATGAGCCTGCTGGAGGCCGCCTCCGACCTGGGCTCGAGCAACTTCAACAGCTTCTGGAAGATCACCGTGCCGCTGTCGAAGAACGGCATCATCGCTGGCTGCATGCTGGTGTTCATCCCGGTGGTCGGCGAGTTCGTCATCCCTGAGCTGCTCGGCGGGCCGCAGACCCTGATGATCGGCAAGGTGCTCTGGCAGGAATTCTTCAACAACCGCGACTGGCCGGTGGCATCCGCCCTGGCGGTGATCATGCTGGCGATCCTGATCGTCCCGATCATCCTGTTCAATCGCAACCAGGCTAAAGAGCTGGAGGGCCGGACATGA	MSLSKLSRLLPRGRHAVIGVPFVWLFLFFLLPFFIVLKISFAMADVAIPPYTEIYSYVDQQLQVVLNLGNYLMLSEDELYLAAYLGSLKIAFFSTLLCLLIGYPMAYAIARSSKEMQTVYLLLIMMPTWTAILIRVYAWMGILSSNGLLNNLLMGIGLIDEPLQILNTNVAVYIGVVYSYLPFMVLPLYANLVKHDMSLLEAASDLGSSNFNSFWKITVPLSKNGIIAGCMLVFIPVVGEFVIPELLGGPQTLMIGKVLWQEFFNNRDWPVASALAVIMLAILIVPIILFNRNQAKELEGRT	PGPT0007820_868	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007820-potH-K11075	NA	NA
BMS010_05758	1158	potA_6	COG3842	Spermidine/putrescine import ATP-binding protein PotA	ATGGCGATAGCCTCCTCCGGTGCTTACAAGAAAGCCCTGACCGGCGATCAGCAGCCCAAAGAGGTACTGGTCAAAATCGACCGGGTAACCAAGAAGTTCGACGAGACGGTGGCGGTGGACGATGTGTCCCTGACCATCAACAAGGGCGAGATATTCGCCCTGCTCGGCGGTTCCGGTTCCGGTAAATCAACCCTGCTGCGCATGCTCGCCGGTTTCGAACGACCGACCGAGGGGCGCATCCTGCTCGATGGCGAGGACATCACCGATATGCCGCCCTACGAGCGGCCGATCAACATGATGTTCCAGTCCTACGCGCTGTTTCCGCACATGAGCGTGGAGCAGAATATCGCCTTCGGTCTCAAGCAGGATGGCCTGCCCAAGGCCGAGATCGCCGAGCGCGTGGCGGAAATGCTCAAGCTGGTGCAGATGACCCAGTACGCCCGGCGCAAGCCGCACCAGCTCTCCGGCGGCCAGCGCCAGCGCGTGGCGTTGGCCCGGTCGCTGGCCAAGCGGCCGAAGCTGCTGCTTCTGGATGAGCCGATGGGTGCCCTGGACAAGAAGCTGCGTTCGCAGATGCAGCTCGAACTGGTGGAAATCATCGAGCGCGTCGGCGTGACCTGCGTGATGGTGACCCACGACCAGGAAGAAGCCATGACCATGGCCCAGCGCATCGCCATCATGAACCAGGGCTGGATTGCCCAGACCGGCAGCCCGGTGGACATCTACGAGACCCCGGCCAGCCGCCTGGTCTGCGAGTTCATTGGCAACGTCAACCTGTTCGAGGGCGAGATCGTCACCGACGACGCCGACCATGCGGTGATCAACTGCCCGCAGTTGGACAAGCCGATCTACATCGGCCACGGCATCAGCACCCGTGCGGAAGAGACCCACATCACCTACGCCCTGCGTCCGGAAAAGCTGCTGATGGCCGGCACCCTGCCGGCGGACCACGAGCACCCCGAGTACAACTGGTGCAACGGGACCGTACATGACATCGCCTACCTGGGCGGGCACTCGGTGTATCACATCAGGCTTTCGTCCGGGCAGATCGTCCAGGCTTTCATCGCCAACGCCGAGCGGCGCGGCAAGCGTCCGACCTGGGATGATCCGGTGGTGGTGTACTGGGAGGACGACAGCGGCGTGGTGCTGCAATCATGA	MAIASSGAYKKALTGDQQPKEVLVKIDRVTKKFDETVAVDDVSLTINKGEIFALLGGSGSGKSTLLRMLAGFERPTEGRILLDGEDITDMPPYERPINMMFQSYALFPHMSVEQNIAFGLKQDGLPKAEIAERVAEMLKLVQMTQYARRKPHQLSGGQRQRVALARSLAKRPKLLLLDEPMGALDKKLRSQMQLELVEIIERVGVTCVMVTHDQEEAMTMAQRIAIMNQGWIAQTGSPVDIYETPASRLVCEFIGNVNLFEGEIVTDDADHAVINCPQLDKPIYIGHGISTRAEETHITYALRPEKLLMAGTLPADHEHPEYNWCNGTVHDIAYLGGHSVYHIRLSSGQIVQAFIANAERRGKRPTWDDPVVVYWEDDSGVVLQS	PGPT0007810_255	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007810-potG-K11076	NA	NA
BMS010_05759	1092	spuE_2	COG0687	Spermidine-binding periplasmic protein SpuE	GTGCACACATCCATCCGTAACAGCTTGATTCTCGCCGGTACCCTGGCCGTGCTGAACAGTGCTATGGCCGATTCCAAGGTGCACGTGTACAACTGGTCCGACTATATCGGCGAGACCACTCTGGACGACTTCCACAAGGCCACCGGCATCACGGCGGTGTACGACGTCTTCGATTCCAACGAGACGCTCGAAGGCAAGCTGCTGGCGGGCCGCTCCGGCTACGACGTGGTGGTGCCGTCCAACCATTTCCTCGGCAAGCAGATCAAGGCCGGCGCCTTCCAGAAGCTGGACAAGAGCCTGCTGCCCAACTGGGGCAACCTCGATTCCGCCCTGCTCAAGCAACTCGAGGTCAACGACCCCGGCAACCAGTACGCGGTGCCTTACCTCTGGGGCACCAACGGCATCGGCTATAACGTCGAGAAGATCAAGGCGGTGCTCGGCGTCGAGCGGATCGACTCCTGGGCCGTGCTCTACGAGCCGGAGAACATCAAGAAACTGGCCGCTTGCGGTGTGGCGCTGCTCGATTCGGCCGACGAGATGATCCCGTCGATGCTGAACTACCTCGGGCTCGATCCCAACAGCCAGAACCCCGAGGACTACAAAAAGGCGGAAGAACGGCTGATGGCCATCCGCCCCTATGTGACCTATTTCCACTCTTCCAAGTACATCTCCGACCTGGCGAACGGTAACATCTGCATCGCCGCGGGCTACTCCGGCGACGTCTTCCAGGCCAAGGCCCGGGCCGAAGAGGCCGGCAAGGGCGTGGTCATCGACTACGTGATCCCGCGCGAGGGTGCCAACCTCTGGTTCGACATGCTGGCCATCCCGGCCGATGCGGCCAACCCCAAGGAAGCCCACGCCTTCATCAACTACCTGCTCGAGCCCGAGGTGATCGCCAAGGTCAGCGATTACGTGGGCTACGCCAATCCCAATACCAAGGCGGGCGAGTTGATGGATCAGGATGTACGTAACGACGAAGCCGTCTACCCGCCCCAGGCGGTGCTGGACAAGCTGTACGTTTCGGCCGAATTGCCGGCGAAGGTGCAGCGCCTGATGACCCGGACATGGACCAAGATCAAGTCCGGTAAGTAA	MHTSIRNSLILAGTLAVLNSAMADSKVHVYNWSDYIGETTLDDFHKATGITAVYDVFDSNETLEGKLLAGRSGYDVVVPSNHFLGKQIKAGAFQKLDKSLLPNWGNLDSALLKQLEVNDPGNQYAVPYLWGTNGIGYNVEKIKAVLGVERIDSWAVLYEPENIKKLAACGVALLDSADEMIPSMLNYLGLDPNSQNPEDYKKAEERLMAIRPYVTYFHSSKYISDLANGNICIAAGYSGDVFQAKARAEEAGKGVVIDYVIPREGANLWFDMLAIPADAANPKEAHAFINYLLEPEVIAKVSDYVGYANPNTKAGELMDQDVRNDEAVYPPQAVLDKLYVSAELPAKVQRLMTRTWTKIKSGK	PGPT0007805_1290	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007805-potF-K11073	NA	NA
BMS010_05760	1098	spuD_1	COG0687	Putrescine-binding periplasmic protein SpuD	ATGAAAATCTTCGGCAAGACTCTTCTCGCGCTGTCCCTGGCGGGCGCCCTGGCAGGTGCGGCGCAGGCGGAAGACAAGGTGCTGCACGTCTACAACTGGTCCGACTACATCGCCGAGGACACCCTGGCGAACTTCGAGAAAGAGACCGGTATCAAGGTGGTCTACGACGTCTTCGACAGCAACGAAGTGTTGGAAGCCAAGCTGCTCTCCGGCGGCTCGGGCTACGACGTGGTGGTACCGTCCAACCCCTTCCTGGCCAAGCAGATCAAGGCCGGCGTGTTCCAGAAGCTGGACAAGTCCAAGCTGCCGAACTGGAGCAACCTGAACAAGGACCTGCTGAAGGCGCTGGACCCGAGCGACCCGGGCAACCAGTACTCCATTCCCTACATGTGGGGCACCATCGGCATCGGTTACAACGTCGACAAGGTCAAGGCCGCGCTGGGCGACAACGCTCCGGTGGATTCCTGGGACCTGGTGTTCAAGCCGGAAAACATCGCCAAGCTCAAGGGCTGCGGCGTCAGCTTCCTCGACTCGCCGACCGAGATTCTCCCGGCCGCCCTGCATTACCTCGGCTACAAGCCGGATACCACCAAGGCCGATGAACTGAAGAAGGCCGAAGAGCTGTTCCTGAAGATTCGTCCGAGCGTGACCTACTTCCACTCCTCCAAGTACATCTCCGACCTGGCCAACGGCGACATCTGCGTGGCCATCGGTTATTCGGGCGACATCTACCAGGCCAAGTCCCGCGCCGAAGAAGCCAAGAACGGCGTGAACATCTCCTACAACATTCCCAAGGAAGGCGCCGGCAGCTTCTTCGACATGCTGGCCATCCCGGCCGATGCGAAGAACGTGGACAACGCCCACGTGTTCCTCAACTACCTGATGAAGCCGGAGGTCATGGCTTCGATCACCAACTTCGTGCAGTTCCCCAACGGCAACGCGGCAGCGACTCCGCTGGTGGACGAAGCGATCCGCACCGACCCGGGCATCTACCCGAGCGATGACGTGATGAAGAAGATCTACACCTTCCCGGATCTGGACGCCAAGACCCAGCGGACCATGACCCGCAGCTGGACCAAGATCAAGTCCGGCAAGTGA	MKIFGKTLLALSLAGALAGAAQAEDKVLHVYNWSDYIAEDTLANFEKETGIKVVYDVFDSNEVLEAKLLSGGSGYDVVVPSNPFLAKQIKAGVFQKLDKSKLPNWSNLNKDLLKALDPSDPGNQYSIPYMWGTIGIGYNVDKVKAALGDNAPVDSWDLVFKPENIAKLKGCGVSFLDSPTEILPAALHYLGYKPDTTKADELKKAEELFLKIRPSVTYFHSSKYISDLANGDICVAIGYSGDIYQAKSRAEEAKNGVNISYNIPKEGAGSFFDMLAIPADAKNVDNAHVFLNYLMKPEVMASITNFVQFPNGNAAATPLVDEAIRTDPGIYPSDDVMKKIYTFPDLDAKTQRTMTRSWTKIKSGK	PGPT0007805_1161	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007805-potF-K11073	NA	NA
BMS010_05761	1368	spuC_4	COG0161	Putrescine--pyruvate aminotransferase	ATGAATAGCCAGGCGACGAACGCCCAGACCCAGGAATGGCAAGCGCTCAGCCGCGCCCATCATTTGCCGCCGTTCACCGACTATAAACTGCTCAACGAGAAGGGCGCGCGGATCATCACCCGTGCCTCCGGCGTGTACCTCTGGGACAGCGAGGGCAACAAGATTCTCGATGGCATGGCCGGCTTGTGGTGCGTCAACGTCGGTTACGGCCGCGAAGAGCTGGTCGAAGCCGCCACGCGGCAGATGCGCGAGCTGCCTTACTACAACCTGTTCTTCCAGACCGCCCACCCGCCGGCCATCGCGCTGGCCAAGGCGATCGCCGAGGTCGCGCCGGAAGGCATGAACCATGTGTTCTTTACCGGCTCCGGCTCCGAGTCCAACGACACCGTGCTGCGCATGGTCCGCCACTACTGGGCAATCAAGGGCCAGCCGCAGAAGAAGGTGATCATCGGCCGCTGGAACGGTTACCACGGCTCCACCGTCGCCGGCGTCAGCCTGGGCGGCATGAAGGCGTTGCACGGTCAGGGCGATCTGCCGATCCCTGGCATCGAGCACATCGACCAGCCGTACTGGTACGGCGAGGGCGGTGACCTGAGCCCGGACGAGTTCGGCATCAAGGTGGCCGAGCAGCTCGAACGCAAGATTCTAGAAGTCGGCGAAGACAAGGTCGCCGCCTTCATCGCCGAACCGATCCAGGGCGCCGGTGGCGTGATCATCCCGCCGGAAACCTACTGGCCGAAGATCCGCGAAATCCTGTCGCGCTACGACATCCTGTTCATCGCCGATGAGGTGATCTGCGGGTTCGGTCGTACCGGCGAGTGGTTCGGCAGCCAGTACTACGGCAATGCGCCGGACCTGATGCCGATCGCCAAGGGACTGACTTCCGGCTACATCCCCATGGGCGGCGTGGTGGTGCGTGACGAGATCGTCGAAACCCTCAACGAGGGCGGCGAGTTCTACCACGGCTTCACTTATTCCGGGCATCCGGTGGCCGCCGCCGTGGCGTTGGAAAACATCCGCATCCTCAAGGAAGAGAAGATCGTCGAGCGGGTGAAAAACGAAACGGCACCGTATTTGCAGCAACGCTGGCAGGAGCTGGCCGATCACCCGCTGGTAGGGGAAGCGCGTGGTCTAGGCTTGGTGGGAGCGCTGGAACTGGTGCGGAACAAGAAGACGCGTGAGCGCTTCACGGAACAGGGTGTGGGCATGGTCTGCCGCGAGCACTGTTTCCGTAACGGCCTGATCATGCGCGCGGTGGGCGACACCATGATCATTTCGCCGCCGCTGGTGATCAGCAAAACGGAGATCGACGAGTTGATCGTCAAGGCGCGCAAGTGCCTCGATCTCACCGCCGCCGCGGTGTTGTGA	MNSQATNAQTQEWQALSRAHHLPPFTDYKLLNEKGARIITRASGVYLWDSEGNKILDGMAGLWCVNVGYGREELVEAATRQMRELPYYNLFFQTAHPPAIALAKAIAEVAPEGMNHVFFTGSGSESNDTVLRMVRHYWAIKGQPQKKVIIGRWNGYHGSTVAGVSLGGMKALHGQGDLPIPGIEHIDQPYWYGEGGDLSPDEFGIKVAEQLERKILEVGEDKVAAFIAEPIQGAGGVIIPPETYWPKIREILSRYDILFIADEVICGFGRTGEWFGSQYYGNAPDLMPIAKGLTSGYIPMGGVVVRDEIVETLNEGGEFYHGFTYSGHPVAAAVALENIRILKEEKIVERVKNETAPYLQQRWQELADHPLVGEARGLGLVGALELVRNKKTRERFTEQGVGMVCREHCFRNGLIMRAVGDTMIISPPLVISKTEIDELIVKARKCLDLTAAAVL	PGPT0007865_617	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007865-spuC-K12256	NA	NA
BMS010_05762	1359	puuA_2	COG0174	Gamma-glutamylputrescine synthetase PuuA	ATGACTACCAAGCTCGACCAGCTCACCAGCTGGCTGAAAGAACGCAAAATCACCGAAGTTGAATGTTTGATCAGCGATCTTACCGGCATCGCCCGCGGCAAGATTTCGCCGACCAACAAGTTCCTCGACGAAAAAGGAATGCGCCTCCCGGAAAGCGTCCTGCTGCAGACCGTGACCGGCGATTATGTCGAGGATGACATCTATTACGAACTGCTCGATCCGGCGGACATCGACATGTTCTGCCGTCCGGACGAGAACGCCGTGTTCCTCGTGCCCTGGGCCATCGAACCCACTGCCCTGGTAATCCACGACACCTTCGACAAGATGGGAAACCCCATCGAGCTGTCGCCGCGCAACATTCTCAAGAAGGTGCTGAAACTCTACTCCGACAAGGGCTGGCAGCCGATCGTCGCGCCGGAGATGGAGTTCTACCTGACCAAGCGCTGCGAAGACCCGGACTTCCCGTTGCAGGCGCCGCTGGGGCGCTCCGGCCGTCCGGAAACCGGCCGCCAGTCCTTCTCCATCGACGCGGCGAACGAATTCGATCCGTTGTTCGAAGACATGTACGACTGGTGCGAATCCCAGGAACTGGATCTGGATACGCTGATCCACGAAGAAGGTCCGGCACAGATGGAGATCAATTTCCGTCACGGCGAGCCGCTGTCGCTGGCCGACCAGATCCTAGTGTTCAAGCGCACCATGCGCGAGGCCGCGCTCAAGCACAACGTGGCGGCGACCTTCATGGCCAAGCCGATCACCGACGAGCCGGGCAGTGCCATGCACCTCCACCAGAGCGTGGTCGACGTCAAGACCGGCAAGAACATCTTCTCCAACGAAGACGGCACCATGAGCGAACTCTTCCTGCACCACGTGGGTGGCCTGCAGAAGTTCATCCCCGAGGTGCTGCCGCTGTTCGCCCCGAACGTCAACTCGTTCCGCCGTTTCCTGCCAGATACCTCGGCGCCGGTGAACGTCGAATGGGGGGAGGAGAACCGTACCGTGGGCCTGCGCGTGCCGGACTCCAACCCGCAGAACCGCCGCGTGGAAAACCGCCTGGCCGGCGCCGACGCCAATCCCTACCTGGCCATCGCTGCCAGCCTGCTGTGCGGTTACATCGGCATGGTGGAAGGCATCAAGCCGAGCGCGCAGGTCAAGGGGCGCGGCTACGAGCGGCGCAACCTGCGCCTGCCGCTGACCCTGGAAGCCGCGTTGGAGCGTATGGAGAACTGCCAGACGCTGCAGAAATACCTCAGCCCGAAATTCGTCACCGGCTACGTGGCGGTGAAGCGGGCCGAGCATGAAAACTTCAAACGGGTTATCAGCTCCTGGGAACGCGAGTTCCTGCTGTTCTCCGTCTGA	MTTKLDQLTSWLKERKITEVECLISDLTGIARGKISPTNKFLDEKGMRLPESVLLQTVTGDYVEDDIYYELLDPADIDMFCRPDENAVFLVPWAIEPTALVIHDTFDKMGNPIELSPRNILKKVLKLYSDKGWQPIVAPEMEFYLTKRCEDPDFPLQAPLGRSGRPETGRQSFSIDAANEFDPLFEDMYDWCESQELDLDTLIHEEGPAQMEINFRHGEPLSLADQILVFKRTMREAALKHNVAATFMAKPITDEPGSAMHLHQSVVDVKTGKNIFSNEDGTMSELFLHHVGGLQKFIPEVLPLFAPNVNSFRRFLPDTSAPVNVEWGEENRTVGLRVPDSNPQNRRVENRLAGADANPYLAIAASLLCGYIGMVEGIKPSAQVKGRGYERRNLRLPLTLEAALERMENCQTLQKYLSPKFVTGYVAVKRAEHENFKRVISSWEREFLLFSV	PGPT0000645_6550	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMATE_DEGRADATION|CONVERSION,PGPT0000645-glnA-K01915	NA	NA
BMS010_05763	753	puuD_2	COG2071	Gamma-glutamyl-gamma-aminobutyrate hydrolase PuuD	ATGCCTCGCCTGCCGTTGATCGGCGTGACCGCCTGCACCAAGCAGATCGGTTTGCATCCTTACCATATCGCCGGCGACAAATACCTTCGTGCCGTCGCCGTGGCCGCCGGGGGATTGCCTCTGATCGTTCCGGCCCTCGCCGAGCTGATCGACCAGCCAACCTTGCTGGCCAGCCTCGACGGCCTGCTCTTCACCGGTTCGCCGTCGAACGTCGAGCCTCATCATTACCAGGGGCCGGCGAGCGAGCCCGGCACGCATCACGACCCCTCCCGAGACCGTACCACTTTGCCGTTGATCCGTGCGGCGGTGGAGGCCGGCCTACCGATATTCGGCATCTGCCGCGGGTTCCAGGAAATGAACGTGGCGTTCGGCGGCAGCCTGCACCAGAAAGTGCATGAAGTCGGTCCGTTCATGGATCACCGCGAGCCGGAAGGCGAATCGCTGGAGATCCAGTACGCCCCCAGCCACACGCTGCACGTGCAGCCGGGTGGGGTTCTCGCCGGGCTCGGATTGCCCGGCGAAATTCACGTCAATTCGATACATGGCCAGGGCGTTGAACGTCTGGCGCCGGGCCTGCGCATCGAAGCCCTGGCGCCCGACGGGTTGATCGAGGCTTTCTCGATCGAGGGAGCCAAGAGCTTTGCCCTCGGGGTGCAATGGCATCCAGAATGGCAAGTGCGGGACAACCCTCATTATCTCGCCCTCTTCCAGGCCTTTGGTGAGGCTTGCAGGGAGAGGGCGGGGCAACGCTGA	MPRLPLIGVTACTKQIGLHPYHIAGDKYLRAVAVAAGGLPLIVPALAELIDQPTLLASLDGLLFTGSPSNVEPHHYQGPASEPGTHHDPSRDRTTLPLIRAAVEAGLPIFGICRGFQEMNVAFGGSLHQKVHEVGPFMDHREPEGESLEIQYAPSHTLHVQPGGVLAGLGLPGEIHVNSIHGQGVERLAPGLRIEALAPDGLIEAFSIEGAKSFALGVQWHPEWQVRDNPHYLALFQAFGEACRERAGQR	PGPT0007640_56	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007640-puuD-K09473	NA	NA
BMS010_05765	1377	puuA_3	COG0174	Gamma-glutamylputrescine synthetase PuuA	ATGTCGGTACCCCCGCGTGCCGTTCAGCTTAACGAAGCGAACGCGTTCCTTAAGGAACATCCTGAGGTCCAGTTCGTCGACCTTCTTATTGCAGATATGAATGGAGTGGTGCGCGGCAAGCGCATCGAACGCAACAGCCTCCATAAAGTCTACGAGAAAGGCATCAACCTCCCCGCCTCGCTCTTCGCCCTGGATATCAACGGTGCGACGGTGGAAAGCACCGGCCTGGGCCTGGATATCGGCGACGCCGACCGTATCTGCTTCCCCATCCCCAATACCCTGAGCAAGGAACCCTGGCAGAAGCGCCCGACCGCGCAACTGCTGATGACCATGCACGAGCTGGACGGCACGCCTTTCTTCGCCGACCCGCGGGAGGTATTGCGCCAGGTGGTCGCGAAGTTCGACGAACTGGGCCTGACCATCTGCGCCGCCTTCGAACTCGAGTTCTACCTGATCGACCAGGAAAACGTGAACGGCCGTCCGCAGCCGCCGCGCTCGCCGATCTCCGGCAAGCGTCCGCAGTCGACCCAGGTGTACCTGATCGACGACCTCGACGAATACGTCGATTGCCTGCAGGACATCCTCGAAGGCGCCAAGGACCAGAGCATCCCGGCCGACGCCATCGTCAAGGAAAGCGCGCCGGCGCAGTTCGAAGTCAACCTCCACCACGTCGCCGACCCGATCAAGGCTTGCGACTACGCGGTGCTGCTCAAGCGGCTGATCAAGAACATCGCCTACGACCATGAGATGGACTCCACCTTCATGGCCAAGCCCTATCCGGGCCAGGCAGGCAACGGTCTGCACGTGCACATCTCGATTCTCGACAAGAACGGCAAGAACATCTTCGCCGCCGATGATCCCCAGCAGAACGCCGCGTTGCGCCACGCGGTCGGCGGTGTGCTGGAGACCATGCCCGCTTCGATGGCTTTCCTCTGCCCGAACGTCAACTCCTATCGCCGTTTCGGTGCGCAGTTCTACGTGCCCAACGCGCCGAGCTGGGGGCTGGACAACCGCACCGTGGCCCTGCGCGTGCCCACCGGCAGCCCGGACGCGGTACGCATCGAACACCGCGTCGCCGGTGCCGATGCCAACCCATACCTGCTGATGGCGGCGGTGCTCGCCGGCGTCCACCACGGCCTGACCAACCGGATCGAGCCGGGCGAGCCGATCGAGGGCAACTCCTATGAACAGGTCGAGCAGAGCCTGCCGAACAACCTGCGCGATGCCCTGCGCGAGCTGGACGACAGCGAGATCATGGCGCGCTACATCAGCCCGGACTACATCGACATCTTCGTCGCCTGCAAGGAAAGCGAGCTGGAAGAGTTCGAGCACTCGATCTCCGACCTCGAGTACAACTGGTACCTGCATACCGTGTGA	MSVPPRAVQLNEANAFLKEHPEVQFVDLLIADMNGVVRGKRIERNSLHKVYEKGINLPASLFALDINGATVESTGLGLDIGDADRICFPIPNTLSKEPWQKRPTAQLLMTMHELDGTPFFADPREVLRQVVAKFDELGLTICAAFELEFYLIDQENVNGRPQPPRSPISGKRPQSTQVYLIDDLDEYVDCLQDILEGAKDQSIPADAIVKESAPAQFEVNLHHVADPIKACDYAVLLKRLIKNIAYDHEMDSTFMAKPYPGQAGNGLHVHISILDKNGKNIFAADDPQQNAALRHAVGGVLETMPASMAFLCPNVNSYRRFGAQFYVPNAPSWGLDNRTVALRVPTGSPDAVRIEHRVAGADANPYLLMAAVLAGVHHGLTNRIEPGEPIEGNSYEQVEQSLPNNLRDALRELDDSEIMARYISPDYIDIFVACKESELEEFEHSISDLEYNWYLHTV	PGPT0000645_5126	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMATE_DEGRADATION|CONVERSION,PGPT0000645-glnA-K01915	NA	NA
BMS010_05766	651			hypothetical protein	ATGACGCGCCCCGCCACCGCCCGTAAACCGCGAGCCAGCAGCCAGGCGAGGATCGCCGGCATACTCGCCGCCGCACGGGAATTGCTGGCCGAAGCGGGCGTTGGCGGCCTGTCGATCTACAGCGTGGCGGAACGCGCGGAGATGCCGCCGTCCTCGGTCTATCACTTCTTCGCCAGCGTGCCGGCACTGCTCGAAGCCCTGACCGCCGACGTCCACGCCGCTTTCCGCGCCTGCCTGCAAGAGCCCATCGACCATGCCAGCCTGCGCGACTGGCGCGACCTGTCACGCATCGTCGAGGAGCGCATGCTGGCGATCTACGCCGCGGATGCCGCCGCCCGCCAGCTCATCCTCGCCCAGCACGGACTGACCGAGGTCACCCAGGCCGACCGCCAGCACGATCTGGAGCTGGGCCGCCTGATGCACATCCTGTTCGACCGGCACTTCCCGTTGCCGCCCTTGCCCGAGGAAGTGGATGTCTTCGCCCTGGCCATGGAGCTGGGCGACCGCGTCTATGCCCGCTCGGTACAACTGCACGGCACCATCACGCCGCGCATGGCCGAGGAAGGCATGCGCGTGTTCGATGCCTACCTCGCGCTCTACCTGCCACCCCATCTGCCAAAACGGGCGCAGCCCATCGCTCTCGTGGAATAA	MTRPATARKPRASSQARIAGILAAARELLAEAGVGGLSIYSVAERAEMPPSSVYHFFASVPALLEALTADVHAAFRACLQEPIDHASLRDWRDLSRIVEERMLAIYAADAAARQLILAQHGLTEVTQADRQHDLELGRLMHILFDRHFPLPPLPEEVDVFALAMELGDRVYARSVQLHGTITPRMAEEGMRVFDAYLALYLPPHLPKRAQPIALVE				NA	NA	NA	NA	NA
BMS010_05767	879			N-carbamoyl-D-amino acid hydrolase	ATGTCCCGTATCGTTACCGTCGCCGCCACACAAATGGCCTGCTCCTGGGATCGCGACGCGAATATCGCCAATGCCGAGAAACTGGTTCGCCAGGCCGCTGCCAAGGGTGCGCAGATCATCCTGATCCAGGAACTGTTCGAAACCCCCTACTTCTGCCAGAAGCCGAACGCCGAGTACCTGCAACTGGCCACCCCGGTGGAAGACAACCCGGCCATCAAGCACTTCCAGAAGATCGCCGCCGAACTCAAGGTGGTGCTGCCGATCAGCTTCTTTGAACTGGCGGGCCGCGCGCGCTTCAACAGCATCGCCATCATCGACGCCGACGGCAAAATGCTCGGCGTGTACCGCAAGAGCCACATCCCGGATGGCCCCGGCTACCACGAGAAGTACTACTTCAACCCCGGCGATACCGGCTTCAAGGTCTGGCAGACCCGCTACGCCAAGATCGGCGTGGCCATCTGCTGGGACCAGTGGTTCCCGGAGACCGCGCGCAGCATGGCGCTGCTCGGTGCCGAGCTGTTCTTCTACCCGACCGCCATCGGCAGCGAGCCGCATGACCCGACCATCACCTCGCGCGACCATTGGCAGCGCGTGCAGCAGGGCCACGCCGGCGCCAACCTGATCCCGCTGATCGCCAGCAACCGCATCGGCCGGGAAGACCAGGGTGACTACCACATCGACTTCTACGGCTCGTCGTTCATCGCCGACCAGTTCGGCGCCAAGGTGGAAGAGCTGAACGAAACCGAGGAAGGCGTGCTGGTGCACAGCTTCGACCTGGACAAGCTGGAAAGCATCCGCAGCGCCTGGGGCGTGTTCCGTGACCGCCGGCCGAACCTGTACGGCCCGATCAAGACCCTGGACGGCTCCCTGGAGTCCTGA	MSRIVTVAATQMACSWDRDANIANAEKLVRQAAAKGAQIILIQELFETPYFCQKPNAEYLQLATPVEDNPAIKHFQKIAAELKVVLPISFFELAGRARFNSIAIIDADGKMLGVYRKSHIPDGPGYHEKYYFNPGDTGFKVWQTRYAKIGVAICWDQWFPETARSMALLGAELFFYPTAIGSEPHDPTITSRDHWQRVQQGHAGANLIPLIASNRIGREDQGDYHIDFYGSSFIADQFGAKVEELNETEEGVLVHSFDLDKLESIRSAWGVFRDRRPNLYGPIKTLDGSLES	PGPT0008885_627	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_DEGRADATION,PGPT0008885-UPB1_like|pydC-K01431	NA	NA
BMS010_05768	1107	aguA	COG2957	Agmatine deiminase	ATGACAACCCTGACCAGTATCCCCCGCGCCGACGGTTACCGCATGCCCGCCGAATGGGAACCCCACAGTCAGACCTGGATGGTCTGGCCGGAGCGCCCGGACAACTGGCGGCTCGGCGGCAAGCCGGCACAGGCAGCCTTCACCGCGGTGGCCAAGGCCATCGCCCGTTTCGAGCCGGTCACCGTCTGCGTGTCCGCCGCGCAGTACGAAAACGCCCGGGCCCGCCTCGATCACCCCAACATCCGCGTGGTGGAAATCACCACCGACGACGCCTGGGTGCGTGACACCGGCCCCACCTTCGTCATCGACGACAACGGCGGCGTGCGCGGCGTGGACTGGACCTTCAATGCCTGGGGCGGCTTCGACGGCGGCCTCTACTGGCCCTGGCAGCGCGACGACCAGGTGGCGAACAAGATTCTCGAGATCGAACGCTGCGACCGCTACCGCACCGAGGGCTTCGTGCTCGAGGGCGGCTCCATCCACGTGGACGGCGAAGGCACGCTGATCACCACCGAGGAATGCCTGCTCAACCGCAACCGCAATCCGCACCTGTCCCGCGAGCAGATCGAGGACATGCTGCGCGAGCACCTGGCCATCGAGACGGTGATCTGGCTGCCGGACGGCCTCTACAACGACGAGACCGACGGCCATGTGGACAACTTCTGCTGCTATGTGCGCCCGGGCGAAGTGCTGCTGGCCTGGACCGACGACCCGCAGAACCCCAACTACCCGCGCTGCCAGGCGGCCATGCGCGTGCTGGAACAGGCCCGCGACGCCAAGGGCCGCGCCCTGACCGTACACAAGATGCCGATTCCCGGCCCGCTCTACGCCAGCGAAGACGAGTGCGCCGGCGTCGACCTCGCGGCCGGCAGCCAGGAGCGCAGCCCGAAGGTCCGGTTGGCCGGTTCCTACGTGAACTTCCTGATCGTCAACGGCGGCATCGTTGCGCCGCGCTTCGACGAGCCGGAAGACGCCGAGGCCGAAGCCCTCCTCAAACGGCTGTTCCCGCAGCACGAGGTGGTCATGGTACCGGGCCGGGAAATCCTCCTGGGCGGCGGCAACATCCACTGCATCACCCAACAGCAGCCGGCGCCACAACGGCGCTGA	MTTLTSIPRADGYRMPAEWEPHSQTWMVWPERPDNWRLGGKPAQAAFTAVAKAIARFEPVTVCVSAAQYENARARLDHPNIRVVEITTDDAWVRDTGPTFVIDDNGGVRGVDWTFNAWGGFDGGLYWPWQRDDQVANKILEIERCDRYRTEGFVLEGGSIHVDGEGTLITTEECLLNRNRNPHLSREQIEDMLREHLAIETVIWLPDGLYNDETDGHVDNFCCYVRPGEVLLAWTDDPQNPNYPRCQAAMRVLEQARDAKGRALTVHKMPIPGPLYASEDECAGVDLAAGSQERSPKVRLAGSYVNFLIVNGGIVAPRFDEPEDAEAEALLKRLFPQHEVVMVPGREILLGGGNIHCITQQQPAPQRR				NA	NA	NA	NA	NA
BMS010_05769	777	otnI	COG3622	2-oxo-tetronate isomerase	ATGCCCCGATTCGCCGCCAACCTCAGCATGCTGTTCAACGACGTGCCCTTCCTCGAACGCTTTGGCCGCGCCGCCGCCGCCGGTTTCAAGGGCGTCGAGTACCTGTTCCCCTACGAATACGCCCCGGCCGAACTGGCCGAGCGCCTGCAGCGCCATGGACTGGCCCAGGTGCTGTTCAACCTGCCGCCGGGCGATTTCGCCGCTGGCGAGCGTGGCCTGGCGGCATTGCCGGGTCGCGAGTCGGAATTCCGCGAAAGCGTCGATAGCGCCATCGAATACGCCCGGGCCCTCGGCTGTCCGCGCCTGCATGCCATGGCCGGACTGGTGACCGACGAAAGCCAGCGCCTGCGCATGCGCGAAACCTATCTGGAAAACTTGCGCTATGCCGCGCGACGCCTGGCCGAACACGGACTGACCCTGCTGATCGAGCCGATCAACACGCGCAGCATCCCGGGCTATTTCATCAACCGGCAGGCCGAGGCCCACGCCATCCTGGCCGAGCTGGGCGAGCCCAACCTGCGGGTGCAGTTGGATTTCTTCCATGCGCAGATCATGGAGGGCGACCTGACCGCCACCTTCAAGCGCTTCCAGGCCGGGGTCGGCCATATCCAGATCGCCGGCGTGCCGGATCGCCACGAGCCGGATACCGGCGAGGTGAACTATCCGTACCTGTTCCGCCTGCTCGACGAAGCCGGCTACGACGGCTGGATCGGCTGCGAGTACAACCCGCGCGGCCTGACTGAAGACGGCCTCGGCTGGTTCGTGCTCTGGCGCTGA	MPRFAANLSMLFNDVPFLERFGRAAAAGFKGVEYLFPYEYAPAELAERLQRHGLAQVLFNLPPGDFAAGERGLAALPGRESEFRESVDSAIEYARALGCPRLHAMAGLVTDESQRLRMRETYLENLRYAARRLAEHGLTLLIEPINTRSIPGYFINRQAEAHAILAELGEPNLRVQLDFFHAQIMEGDLTATFKRFQAGVGHIQIAGVPDRHEPDTGEVNYPYLFRLLDEAGYDGWIGCEYNPRGLTEDGLGWFVLWR	PGPT0018150_192	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ERYTHRONATE_UTILIZATION,PGPT0018150-otnI|ygbM-K22131	NA	NA
BMS010_05770	642	otnC	COG0235	3-oxo-tetronate 4-phosphate decarboxylase	ATGAGCAAGGAAAGCGCCCTGCGCGAACAGATCGTCAGGATTGGCCGCTCGCTGCACCTGCGCGGCCTCAGCCCCGGTTCCTCAGGCAACATCAGCGCGCGCCTGGACGACGGCTGGCTGCTGACCCCGACCAACGCCTGCCTGGGCGAGCTGGACCCGGCGGACATCGCCAAGCTGGACTGGGACGGCAACCACCTGGCCGGCAAACCCGCCTCCAAGGAAGCCTTCCTGCATCGCGCGGTCTACGAAGGACGCGAGGAGTCCGGGGCCATCGTGCACCTGCATTGTACCCACTCGGCGGCGGTGTCCTGTCTCGATTGCCTCGACGCGAAATCCTGCCTGCCGCCGCTGACGCCCTATTTCGTCATGCGGGTCGGCCGCCTGCCGCTGATCCCGTACCATCGCCCCGGCGATCCGAAGCTGGGCGAGGCGATTCGCGGGCTGGTCGGCCGGCACAGCTCGGTGCTGCTGGCCAATCATGGTCCGGTGGTTTCCGGCAAGGATCTGGAGGCGGCGACCTACGCCATCGAAGAGCTGGAGGAGACCGCCAAGCTGTACCTTCTCCTGCGCCAGCAGCCGGTCCGCCTGCTCAACGACGAACAAATCGAAGAACTGCGCCAGACCTTCGGCGCCCAGTGGTGA	MSKESALREQIVRIGRSLHLRGLSPGSSGNISARLDDGWLLTPTNACLGELDPADIAKLDWDGNHLAGKPASKEAFLHRAVYEGREESGAIVHLHCTHSAAVSCLDCLDAKSCLPPLTPYFVMRVGRLPLIPYHRPGDPKLGEAIRGLVGRHSSVLLANHGPVVSGKDLEAATYAIEELEETAKLYLLLRQQPVRLLNDEQIEELRQTFGAQW	PGPT0018145_158	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ERYTHRONATE_UTILIZATION,PGPT0018145-otnC|ygbL-K22130	NA	NA
BMS010_05771	1278	otnK		3-oxo-tetronate kinase	ATGCCGCTGATCGGATGTATCGCCGACGATTTCACCGGCGCCACCGACCTCGCCAGCATGCTGGTGCGCGGCGGTGCCCGTACCGTGCAAACCATCGGTGTGCCGGAGCACCTGCTCGACCTGGAAGGCGCCGACGCCCTGGTGGTGGCGCTGAAGTCGCGCAACCTGGCGCCGGCCGAGGCGGTCGCGCAATCGCTGCGAGCCCTGGAGTGGTTGCGCGCGCAGGGCTGCCGGCAGTTCTACTTCAAATATTGTTCGACCTTCGACTCCACCGCCGAAGGCAACATCGGCCCGGTCGCCGATGCGCTGCTCGATGCCCTCGGCAGCGACTTCACCGTGGCCTGCCCGGCGCTGCCGGACAATCGCCGCAGCGTGTTCAACGGCTATCTGTTCGCCAACGACGTGCCGCTCAACGAGAGCGGCATGCAGGACCATCCGCTGACGCCGATGCGTGACGCCAACCTGCTGCGCGTGCTGCAGCCGCAAACCCGCCGCCGCGTCGGCCTGATCGACTATCGCACCCTGCGTGCCGGCGTCGAGGCGACCCGTGCGCGGATCGCTGCGCTGCGCGCCGACGGTATCGGCATCGCCATCAGCGACGCCATCGATAACAGCGACCTGGACGTGCTTGGCGCCGCCTGCGCTGACCTGCCGCTGGTCACCGCCGGCTCCGGCCTGGCCCTGGGCCTGGCGGCGTATTGGCGTGCCTCGGGCGAACTGGGTGGTGGCCAGGACGCCGGTCGCCTGGAGCAGCCCTGGGGGCGTCAGGCGATCCTCAGCGGCAGTTGTTCGCGCGCCACGCTGGGCCAGATCGAACAGGCCAGGGCCGCTTTTCCGGCGTTCCGCCTGGAAGCGGCCGAGCTGATGGCGCGTGGCGACGCGCTGGTGGCCGAAGCCCTGGCCTGGAGCGCCGAGCACGGCCAACGTGGGCCGGTGCTGATCTACGCCAGCAGCGCGCCGGACGAGGTGCGCCGTGTGCAGGAAGCCTTCGGCGGGCAGGTCGTGGGCGAGCGCATCGAAGCTGCCCTGGCGGCTATCGCCAAGGGGTTGGTGGAAGAGCAGGGTGTCGGTCAGTTGCTGGTGGCTGGCGGCGAGACCTCCGGCGCGGTGGTCGGCGCACTGGGCGTCGAGGGGCTGCGCATCGGGCCGAGCATCGACCCCGGCGTGCCCTGGACCCAGACCCTCGGGCAGGCCGGCCGCCCACTCAGCCTGGCGCTGAAGTCCGGCAACTTCGGCAGCGCCGATTTCATGGTCAAGGCCTGGGGGATGTTGGCATGA	MPLIGCIADDFTGATDLASMLVRGGARTVQTIGVPEHLLDLEGADALVVALKSRNLAPAEAVAQSLRALEWLRAQGCRQFYFKYCSTFDSTAEGNIGPVADALLDALGSDFTVACPALPDNRRSVFNGYLFANDVPLNESGMQDHPLTPMRDANLLRVLQPQTRRRVGLIDYRTLRAGVEATRARIAALRADGIGIAISDAIDNSDLDVLGAACADLPLVTAGSGLALGLAAYWRASGELGGGQDAGRLEQPWGRQAILSGSCSRATLGQIEQARAAFPAFRLEAAELMARGDALVAEALAWSAEHGQRGPVLIYASSAPDEVRRVQEAFGGQVVGERIEAALAAIAKGLVEEQGVGQLLVAGGETSGAVVGALGVEGLRIGPSIDPGVPWTQTLGQAGRPLSLALKSGNFGSADFMVKAWGMLA	PGPT0018140_365	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ERYTHRONATE_UTILIZATION,PGPT0018140-otnK|ygbK-K21948	NA	NA
BMS010_05772	912	ltnD	COG2084	L-threonate dehydrogenase	ATGACTGCTGTTTCCTCCACCATCGGCGTGATCGGCCTCGGCTCCATGGGCCTGGGCATGGCCCGCTCGCTGCTCCGCGCCGGGCTGCCCGTCTGGGGCTACGACATTCGCGAAGAGGTGCGCGATGCCTTCGTGACCGAAGGTGGCCAGCCGCTGGCCTCGCTGGGCGAGGGGGCGGCGACGGCGGAGGTGTTGTTCATCGTGGTGGTCAATGCCGCACAGACCGAAGCGGTGCTGTTCGGCAGCGAAGGGATCGCTCCGCGCCTGCGGCCCGGCACGGTGGTGGTGGCCTGCGCGACCATCTCCGCGGCGGCTGCGCGGCGTATCGCCGGGCGCCTGGCCGAGCACGGGGTGCTGATGCTGGATGCGCCCATTTCCGGCGGTGCCGTGCGAGCCGCTGCCGGCGAGTTGACGGTCATGGCGTCCGGTCCGGAAGAAGCGTTCCAGCGGGCCGAAACGGCACTCGGCGCGGTGGCGGCCAAGGTCTACCGGCTCGGTACGGAAGCCGGGCAGGGTTCGCAGATCAAGCTGGTCAACCAACTCCTCGCCGGCGTGCACATCGCCGCGGCGGCCGAGGCCATGGCCTACGGCATCCGCCAGGGCTGCGACCCCGAGGCGCTGTACGAGGTGATCAGCCACAGTGCGGGCAATTCCTGGATGTTCGAGAATCGCGTGCCGCATTTGCTGGCCGGCGACTATCGGCCGCGTTCGGCAGTGGACATCTTCGTCAAGGACCTCGGCCTGGTGCTGGACAGTGCCCAGGAGGCGGTCTTCCCGCTGCCGCTCACCGCCAGCGCGCACCAGATGTTCAAGCAGGCGTCCGCCGCTGGCCATGGCCGCGAGGATGACATTGCCGTGGCGAAGATTTTCCCCGGCATCCGCCTGCCCGCCGCTGCCAACGAGGAGGGCTGA	MTAVSSTIGVIGLGSMGLGMARSLLRAGLPVWGYDIREEVRDAFVTEGGQPLASLGEGAATAEVLFIVVVNAAQTEAVLFGSEGIAPRLRPGTVVVACATISAAAARRIAGRLAEHGVLMLDAPISGGAVRAAAGELTVMASGPEEAFQRAETALGAVAAKVYRLGTEAGQGSQIKLVNQLLAGVHIAAAAEAMAYGIRQGCDPEALYEVISHSAGNSWMFENRVPHLLAGDYRPRSAVDIFVKDLGLVLDSAQEAVFPLPLTASAHQMFKQASAAGHGREDDIAVAKIFPGIRLPAAANEEG	PGPT0018135_413	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_THREONATE_DEGRADATION,PGPT0018135-ltnD|ygbJ-K08319	NA	NA
BMS010_05773	714	lutR_9	COG2186	HTH-type transcriptional regulator LutR	GTGGAAGCACTGAACGAAGCCACACCGAAGCTGGCCGAGCGCCTGGCCAAGCGCCTCATCGAGGCGATCCAGGAAGGCCGCCTGGCCGCCGGCAGCCGCCTGCCCACCGAGCAGACCCTGTGCGAGCAGTACGGGGTCAGCCGCACCGTGGTGCGCGAGGCCATTTCCATGCTCAAGCGCGAAGGCATGGTCGCATCGCGCCAGGGAAGCGGCACCTATGTGACCGCCAATCCGTCGGTGGCGCTGCGGCTGGCGCCGCCCCAGGGCAACTTCGAGGCAGTGGTGGAAATCCTGGAGATCCGCAGCGCCCTGGAAATCAAGGCAGCCGAACTGGCGGCCAAGCGACGGACCAATGCGCAACTGCGGGCCATGCGCAACGCCCTGGCCGAACTGGACGAAGCCGTCGAGCGCGGCGAGGACGGCGTCCGCGAGGACTTGGCCTTCCATCGCTCCATCGTGCTCGCCACCGGCAACCAGCACTTCGTCGAAACCATCGATTTTCTCCACCAACTGCTGCAGCAGGCGATCAGCATCACCCGGCGCAACGAGGCGCGGAATCGGGAGTACATGCGGCAGGTCGACCAGGAGCATCTGGCGCTGGTGGAAGCCATTGCGGCAGGGGATGGCGAGGCCGCGCGCCACGCCGCGTCCCTGCATCTGCAAAACGCCGAAGGCCGCCTGCGCGAGGCGCGACGAGAGGCCGACGGCTCCTGA	MEALNEATPKLAERLAKRLIEAIQEGRLAAGSRLPTEQTLCEQYGVSRTVVREAISMLKREGMVASRQGSGTYVTANPSVALRLAPPQGNFEAVVEILEIRSALEIKAAELAAKRRTNAQLRAMRNALAELDEAVERGEDGVREDLAFHRSIVLATGNQHFVETIDFLHQLLQQAISITRRNEARNREYMRQVDQEHLALVEAIAAGDGEAARHAASLHLQNAEGRLREARREADGS				NA	NA	NA	NA	NA
BMS010_05774	960	denD_3	COG0451	D-erythronate dehydrogenase	ATGAAGATCGTAGTCACCGGTGGTGCCGGCTTTCTCGGCAGCCGTCTGATCGAGGCCTTGCTCAGCCCCGCCGCGAGCGACCTCGTGCCCGGCCTGTCCGGCATTCTCTCCGTCGACCTGGCCCCCTGTCCCGTGCAGGACCCACGGGTCGAGTCGGTGATCGGCGATGTCGCCGACCCCGCCTTCATCACCCCGCTCATCGATGCCGATACCGCCCTCGTCTATCACCTGGCCGCCGTGGTCAGCGGTCAGGCCGAAGCGGATTTCGACCTCGGCATGCGCGTCAACCTGGACGCCACCCGCGTGCTGCTGGAAGCCTGCCGCCACCACGCCCGCACCCCGAAACTGGTGTTCGCCAGCTCCCTGGCGGTGTTCGGCGGCGAGCTGCCGGAGCGGGTGCCGGAAGACCTGGCGCCGCTGCCGCAATCCTCCTACGGCGCGCAGAAGGCCATGGCCGAGCTGCTGATCAATGATCACTCGCGCAAGGGCTTCATCGATGGCCGGGTGTGCCGCCTACCGACCATCTCGGTGCGCCCCGGCAAGCCGAACGCGGCGGCCTCGTCGTTCGCCAGCGGCATCATCCGCGAACCGCTGGCCGGCGAGTCGAGCAACTGCCCGGTACCGCTGGATACGCGTCTGTGGCTGTCTTCGCCGGACACAGTGATCGCCAACCTCGTCCATGCGGCCCGCCTCGAGGGTGCGGCCCTCGGCCTGCGCCGCACGCTCAACCTGCCCGGCATCAGCGTGCGGGTCAGCCAGATACTCGACAGCCTCGCCCGCGTCGGCGGCGATGCGGCACGGGCACTGGTCAGCCACGAGCCGGACGAACGCGTGCAACGCATCGTCTGCAGCTGGCCCGGCGACTTCGACATCGAGCGGCCGCTGCGGCTGGGCTTCCACGTCGACGAAGACTTCGATGCCGTGGTGAAAGCGCACCAACGCTTTATGACGACCCAGTGA	MKIVVTGGAGFLGSRLIEALLSPAASDLVPGLSGILSVDLAPCPVQDPRVESVIGDVADPAFITPLIDADTALVYHLAAVVSGQAEADFDLGMRVNLDATRVLLEACRHHARTPKLVFASSLAVFGGELPERVPEDLAPLPQSSYGAQKAMAELLINDHSRKGFIDGRVCRLPTISVRPGKPNAAASSFASGIIREPLAGESSNCPVPLDTRLWLSSPDTVIANLVHAARLEGAALGLRRTLNLPGISVRVSQILDSLARVGGDAARALVSHEPDERVQRIVCSWPGDFDIERPLRLGFHVDEDFDAVVKAHQRFMTTQ	PGPT0019550_519	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ERYTHRONATE_UTILIZATION,PGPT0019550-denD-K22025	NA	NA
BMS010_05775	1407	idnT	COG2610	Gnt-II system L-idonate transporter	ATGAACGCAACCGCAATCGCGGGACCGCAGCTGATGGTTGGCCTGGTGCTGGCCATCTTCGTGCTCATCGTCCTGGTCCTGCGCACCCGTATCCACGCCCTGCTCGCGCTGGTCTGCGCGGCCTCCATCGCCGGCCTGGTCGGCGGCATGGCGCCGGATGCGCTGGTCAAGTCGATCACCACCGGCTTCGGCGCGACGCTCTCCACCATCGGCCTGGTGATCGGCTTCGGCGTGATGATGGGGCGCCTGCTGGAGGTCTCCGGCGCCGCCGAACGGATGGCCTACAGCTTCATCCGCTGGCTCGGCAGCAAGCGTGAGGAATGGGCGATGGCCATCACCGGCTACATCGTGTCCGTCCCGATCTTCTGCGATTCCGCCTTCGTCATTCTCAACCCGCTGGTGCGCGCGCTGTCGCGCAATACCGGCAAGTCCGTGCTGACCCTCGGCATCGCCTTGGCCGGCGGCCTGATGCTGACCCACCACGCGGTACCGCCGACGCCCGGCCCGCTGGGCATCGCCGGTATCTTCAACATCGACATCGGCCTGATGATCTTCTGGGGCGTGGTGTTCACCATTCCCGGCCTGTTCGTGCTGATCGCCTACGCCCGCTTCATGGGGCCGCGCATCGAGGCGATGATCCAGCGCGACAACCACGTCTCCCTCGAGCCGCGCCAGGCCTACCAGCAGGTGCTCGATCAAGCCGACGCCCGCGAGCGCGAACTGCCGCCGCTGTGGCTGTCGGTGCTGCCGATCGCCCTGCCGATCCTGCTGATCTTCACCAACACCCTGGTCGGCGCGCTGGCCAAGCTCAACGGCGATGCGTCGATCAGCCAGGGGGTGTTCGGTCAGGTCTGCGCCTTCGTCGGCAATCCGGTGATCGCGGTCGGGCTCGGCGTGGTCGTGGCGATCTACGGACTGGTGCCGCGTATGCCGCGCGATGACGTGATCGCAGAGATGGAAAAAGGTGTGGAAAGCGCCGGCATCATCCTGCTGGTCACCGGTGCCGGCGGCGCCCTCGGTGCGGTACTGCGCGACAGCGGCGCCGGCCAGTACATGGGCGAATGGGTAGCCACCCTGCCGCTTCCGGCAGTGTTGATTCCCTTCGTGATCGCCTCGCTGGTGCGCCTGATCCAGGGCAGCGGTACCGTGGCGATGATCACCGGTGCGTCGATCTCGGCGCCGATCCTCGCGGCCATCCCGGACGTCAACATGGTCTTCGCCGCCCAGGCCGCCGCCATCGGCTCCATGGTGTTCGGCTACTTCAACGACAGCTATTTCTGGGTGGTCAACCGCCTGCTGGGTGTGAAGAACGCCAAGCACCAGTTGCTCACCTGGTCGGTCCCCACCACACTCTGCTGGTTCACCGCGCTGGTCACGCTGCTGCTGTTCAACGCCATCCTCGGTTGA	MNATAIAGPQLMVGLVLAIFVLIVLVLRTRIHALLALVCAASIAGLVGGMAPDALVKSITTGFGATLSTIGLVIGFGVMMGRLLEVSGAAERMAYSFIRWLGSKREEWAMAITGYIVSVPIFCDSAFVILNPLVRALSRNTGKSVLTLGIALAGGLMLTHHAVPPTPGPLGIAGIFNIDIGLMIFWGVVFTIPGLFVLIAYARFMGPRIEAMIQRDNHVSLEPRQAYQQVLDQADARERELPPLWLSVLPIALPILLIFTNTLVGALAKLNGDASISQGVFGQVCAFVGNPVIAVGLGVVVAIYGLVPRMPRDDVIAEMEKGVESAGIILLVTGAGGALGAVLRDSGAGQYMGEWVATLPLPAVLIPFVIASLVRLIQGSGTVAMITGASISAPILAAIPDVNMVFAAQAAAIGSMVFGYFNDSYFWVVNRLLGVKNAKHQLLTWSVPTTLCWFTALVTLLLFNAILG	PGPT0001340_505	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_GLUCONATE_TRANSPORT,PGPT0001340-TC_GNTP-K03299	NA	NA
BMS010_05776	1302	nicP_2		Porin-like protein NicP	ATGAAAAAAACCACCCTGGCGCTGGCCGTCGCCGCCGGCACCCTGGGCATCGCCCTTAGCCAGCAAGCGAGCGCTGCCGGCTTCTTCGAGGACAGCAAGGCCAGCCTGGAACTGCGCAACTTCTACATGAACCGCGACTTCCGCCAGGACCTGGGCGAGCCTAACCCGCCGCGCGTCACCGGCAAGACCCCGGCCGAGTTCCGTAGCAAGTCCGAAGAGTGGGCACAGGGCTTCATCGTGCGTTACGAGTCGGGCTTCACCGAAGGCACCGTCGGTTTTGGCCTCGACGCCATCGGTACCCTGGGCGTGAAGCTGGATTCCGGTCGTGGCACTTCCGGCACTGGCTTGCTGCAAGTGGACAAGGAAACCGGTGAGGCTCAGGACACCTATGGCGACCTGGGCGCTACTGCCAAGGTCCGCGTATCCAAGAGCACCCTGAAAGTCGGCACCCTGATGCCGAAGATGCCGGTGCTGGTATCCAACGATTCGCGCCTGCTGCCGCAGAGCTTCCAGGGCGGCTGGTTGAACTCCGCCGAGATCGACGGCCTGACCTTCGACGCCGGCCAGATCAACCGCGTGAACCAGCGCGACTCGTCCGACCACGAGACCATGGTGATCAACACCGTTGGCCGCAAGGGCATTACCGGTATCAGCAACGTGGACAGCGACGAGTTCAACTTCGCCGGCCTGAGCTACAAGTGGAACGACAGCCTGACCACCAGCTACCACTACGGTGCCCTGGATAACTTCTACAAGCAGAACTACCTGAGCCTGGTTCACGTCCTGCCGCTGGGCGACAAGCAATCGCTGAAGAGCGACCTGCGCTACGCCCGTTCCACCGATGACGGCCAGTCCAACGTCGACAACAAGGCCCTGGGTGGCCTGTTCACCTACACCCTGGGCTACCACGCCTTTGGCCTGGGCTACCAGAAGATGAGCGGCGACACCGGTTTCGCCTACGTCAACGGTACCGATGCCTACCTGGTGAACTTCGTGCAGATCAACGACTTCGCCAACAAGGACGAGCGTTCCTGGCAGGTTCGTTACGACTATAACTTCGCCGGCGTCGGCATCCCGGGCCTGACCCTGATGACCCGCTACATCACCGGCGACAACGTCGAGCGTGCCGATGGCAGCGAAGGTCGCGAGTGGGAGCGCAACACCGACATCGCCTACGTCTTCCAGGACGGCCCGCTGAAGAACCTGGGCGTCAAGTGGCGTAACGCGACGGTGCGCTCCAACTTCGGCAACGACCTGGACGAAAACCGTCTGATCGTCAGCTACACCCTGCCGCTGCTGTAA	MKKTTLALAVAAGTLGIALSQQASAAGFFEDSKASLELRNFYMNRDFRQDLGEPNPPRVTGKTPAEFRSKSEEWAQGFIVRYESGFTEGTVGFGLDAIGTLGVKLDSGRGTSGTGLLQVDKETGEAQDTYGDLGATAKVRVSKSTLKVGTLMPKMPVLVSNDSRLLPQSFQGGWLNSAEIDGLTFDAGQINRVNQRDSSDHETMVINTVGRKGITGISNVDSDEFNFAGLSYKWNDSLTTSYHYGALDNFYKQNYLSLVHVLPLGDKQSLKSDLRYARSTDDGQSNVDNKALGGLFTYTLGYHAFGLGYQKMSGDTGFAYVNGTDAYLVNFVQINDFANKDERSWQVRYDYNFAGVGIPGLTLMTRYITGDNVERADGSEGREWERNTDIAYVFQDGPLKNLGVKWRNATVRSNFGNDLDENRLIVSYTLPLL	PGPT0023610_3	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-GALLATE_RESISTANCE,PGPT0023610-galP-K16517	NA	NA
BMS010_05777	918	sfnR	COG1221	Sigma54-dependent transcriptional activator SfnR	ATGACGTTCTCCACTTCCCCTGCCTTGCTGACGCTGTCCGACGCGGATCGCAGCCCGCTGAGCATCCGGGCGCGCGCCCTGGTCTTCGCCGACCCGACCTCCCAACGGCTGCGCGCCGAGGTCGAACGGCTGGCGGCGAGCACGCTGCCGGTGCTGATCCAGGGCGAGACCGGCAGTGGCAAGGAGCTGCTGGCACGCCACATCCATCGCAGCAGCGACCGCCAGGGGTTGTTCGTCGCCGTGAATTGCGGCGCACTGAGCCCGAAGCATGCCGAGGCCGAGCTGTTCGGCCATTCCGCTGGAGCCCGTGCCGGAACGGCCGGGCGTGCCGGCTGGTTCGGCTCGGCGAATGGCGGCAGCCTCTATCTCGACGAGATCGGCGACCTGCCGCTCTCTCTTCAGGCCAAACTGCTGGCTGCCCTGGAGAATCGTGAGGTGATGCGGGTCGGCGCGCAGCGACCGAGTCCGCTTGATGTCCGTTTGCTGGCCGCCACCAGCATAGATTTGGTGCGAGCGGTGGAAGCCGGCACCTTCGACGAGCGTCTTTATCTCTACCTGAGCGAAGGCCGGCTGAACTGGCCACCGTTGCGCGAGCGGGTCGGCGACATCCTGCCCCTGGCCGAATACTTCCTCGGCATCTATGCCCAGCGGCTCGGCCTGTCTCCGCCGCTGCTCAGCCCCGAGGCCCAGCGGCAACTCGAAGGGTATATCTGGCCCGGCAATACCCGAGAGCTGGAGAACGTCATCCATTTCGCACTGCTGGTGAGCAAGGGTGGGGATATCCAGCCGGAGCATCTCGGCCCGGCAAACCCCATGGCGCTCATCGAGCGACAGCTCGAGCGGCTGCAGGCATCGCCCAGTCTCCAGGAGCCGTTGCGCGAGATCCTGGCGCGCTCCGGCGTCATGCCTGATCGTTGA	MTFSTSPALLTLSDADRSPLSIRARALVFADPTSQRLRAEVERLAASTLPVLIQGETGSGKELLARHIHRSSDRQGLFVAVNCGALSPKHAEAELFGHSAGARAGTAGRAGWFGSANGGSLYLDEIGDLPLSLQAKLLAALENREVMRVGAQRPSPLDVRLLAATSIDLVRAVEAGTFDERLYLYLSEGRLNWPPLRERVGDILPLAEYFLGIYAQRLGLSPPLLSPEAQRQLEGYIWPGNTRELENVIHFALLVSKGGDIQPEHLGPANPMALIERQLERLQASPSLQEPLREILARSGVMPDR	PGPT0030455_23	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_REGULATION,PGPT0030455-sfa3-K11917	NA	NA
BMS010_05778	582			hypothetical protein	ATGCGCAGCGAATCCATCCGCTATCTGATCGTGCCGGGCTGGCAAGGCTCTGCCGACGATCATTGGCAAAGCCATTGGCAGCGCAGCCTGCCGAACAGCGCCCGGGTGGAGCAGGCCGACTGGATGTTGCCGCGTCTGGCCGACTGGGTCGCCGAGCTGGAGCGCTCGGTGGCGGCGGACGCCCGGCCGGTGGTGCTGATTGCCCATAGCCTCGGTTGCGTCACCGTCGCCCACTGGGCGGCCCAGGCGCCGGCGGCATCGTTGCGTCGTGTGCGCGGCGCACTGCTGGTGGCGCCGGCCGACGTGGAGCGGCTGGGTTGCCCCGAACCGTTGCGCAACTTCGCTCCCATCCCCCGTGACCCGCTGCCGTTCCCGAGCCAATTGGTCGGCTCGGACAACGACGCGGCGGCCAGTGCGGTCCGGGCGCTGGAAATGGCGCGCGATTGGGGCGCGGAGGCGGCGATCCTGCCCGGCGCCGGCCACATCAATGTGAAGTCTGGCCACCGTCGTTGGGAGCAGGGGTTCGGCTATCTCTATCGCCTGCAGAACCGCATCGAACAACTGGAGCGGCGCCGAGCCTGA	MRSESIRYLIVPGWQGSADDHWQSHWQRSLPNSARVEQADWMLPRLADWVAELERSVAADARPVVLIAHSLGCVTVAHWAAQAPAASLRRVRGALLVAPADVERLGCPEPLRNFAPIPRDPLPFPSQLVGSDNDAAASAVRALEMARDWGAEAAILPGAGHINVKSGHRRWEQGFGYLYRLQNRIEQLERRRA				NA	NA	NA	NA	NA
BMS010_05779	993			hypothetical protein	ATGGATAGCAAAAACGAGCTTCCCGTTTCAGAAATCGCCGAGCTGCCGGCTCCCGCCGAGACGCTGCTCGCGCTGATGCATGCGCGTGCCGAAGTGGCACGGCTGAGCGAGCGCGAACAACTGTTCAGCTCGCTATTGGCCAGCGTGAATGCCGTGCTCTGGGCCTTCGACTGGGAAGCCAGGAAGATGATTTATGTCAGCCCGGCCTACGAGCGCATTTTCGGCCGCTCCGCCGCGCTGCTGCTCGCCGACTATGGCGAATGGCTCAACAGCATCTACCCGGACGACCTCGACTACGCCGAGCAGAGCCTCGCCGAAGTGATCGAGAAAGGCGCCATCGAGGTCCGCGAATACCGGATCATCCGCGCCGACGGGCAGATCCGCTGGCTCAGCGACAAGTGCTTCGTCAGCCAGCGCGGCGAGGCCGGCAAGCCGCCGATCGTGGTGGGCATCGCCGAAGACATCACCGAGAAGAAACAACTGGAAGGCGAACTCCACCGCCTCGCCACCACCGACGTGCTGACCCAGAGCAGCAACCGCCGGCACTTCTTCGAATGCGCCCAGCGCGAATTCGAACTGGCGCGGCAGTACGGCAACCCGCTGGCGTTCCTGCTGCTGGACATCGATGACTTCAAGCGGATCAACGACACCCACGGCCACCAGACCGGCGACCTGGTGTTGCAGCGCGTCGCCCAGTGCGGGGCCGGCGCCCTGCGGCGGGGCGACCTGTTCGGGCGGATCGGTGGCGAAGAGTTCGCCGCGGTCTTCCCCGGTTGCGCTCCGGAACTGGCGCAACAGATCGCCGAGCGTCTGCAGCGGGAAATCCAGCGCCTGGTCATCCATGTCGACGGCGAATCGTTCGGTGTCACGGTGAGCCAGGGGCTGACCTGCCTCGGCCCGAAGGACACCAGCCTCAGCGCCCTGTTCGCCCGCGCCGACGCCGCCATGTACCAGGCCAAGCGCCAAGGCAAGAACCAGATCGTCCTGGCCTGA	MDSKNELPVSEIAELPAPAETLLALMHARAEVARLSEREQLFSSLLASVNAVLWAFDWEARKMIYVSPAYERIFGRSAALLLADYGEWLNSIYPDDLDYAEQSLAEVIEKGAIEVREYRIIRADGQIRWLSDKCFVSQRGEAGKPPIVVGIAEDITEKKQLEGELHRLATTDVLTQSSNRRHFFECAQREFELARQYGNPLAFLLLDIDDFKRINDTHGHQTGDLVLQRVAQCGAGALRRGDLFGRIGGEEFAAVFPGCAPELAQQIAERLQREIQRLVIHVDGESFGVTVSQGLTCLGPKDTSLSALFARADAAMYQAKRQGKNQIVLA				NA	NA	NA	NA	NA
BMS010_05780	1752		COG0659	putative sulfate transporter	ATGAAATGGCGCCGCTGGCTGCCCTGCCTCGAATGGGGGCGGCATTACGATCGCTCGATGGCGGCCCAGGATGGGCTGGCCGCGTTGATCGTCACGCTGATGCTGATCCCGCAGAGCCTGGCCTACGCCATGCTCGCCGGCCTGCCGCCTGTAGCCGGGCTCTACGCCAGCATCCTGCCGCTGCTGGCCTACGCCCTGTTCGGCTCCAGCCGTACCCTGGCGGTGGGGCCGGTGGCGGTGGTTTCGCTGATGACTGCGGCAGCCCTCGGCCCGTTGTTCCCCGCCGGCAGTGTCGATTACGTCGGCGCCGCCATGCTGCTGGCGCTGCTGTCGGGGCTGCTGCTGGCCGGCATGGCGTTGCTGCGGCTGGGCTTCGTTGCCAATTTCCTCAGCCACCCGGTGATTTCCGGGTTCATCAGCGCCTCCGGGCTGTTGATTGCTGTCGGTCAGCTCAAGCATGTCTTGGGTGTGCCGGTTTCCGGCGATACCCTGGCGCAGCTCGTGCCCGCCCTGCTGGCCAGCCTGCCGCAGACGCACCTGCCCACCCTGGCGATCGGCACGACCAGCCTGGCGTTCCTCTGGTGGGTGCGTTCGCGTCTCAAGCCGCTGCTGATGAAGCTCGGCCTGGGAGTCGGTCTGGCCGGCAACCTGGCCAAGGCCGGGCCGGTATTGGCGATCCTGATTTCGGTGCTGACGGTCTCCGCGCTGCACCTGGATCAGGCCGGCGTGAAAGTGGTGGGGGCGATTCCCCGGGGCTTGCCGGGGCTGGCGTTGCCGACGCTGGACCTGTCGCTGGCGCTGCAACTGCTGCCGGCGGCTTTGCTGATCAGTCTGGTCGGCTTCATCGAATCGGTGTCGGTGGCGCAGACCCTGGCCGCCAAGCGCCGCGAACGCATCGAGCCGGACAGCGAGCTGCTCGGCCTCGGTGCGGCCAACCTGGCGGCGGCGGTGAGCGGCGGCTTTCCGGTCACCGGCGGTTTCGCCCGTTCGGTGGTGAATTTCGACGCCGGGGCCAGGACGCCCATGGCCGGTGTGTTCACGGCCGTGGGAATCGCCGTCACCGTGCTGCTGTTCACCCCGCTGTTCCACAACCTGCCCCAGTCGGTGCTGGCGGCGACCATCATCGTCGCTGTGCTCAGCCTGGTGGACCTCGGTGCGCTGCGCCGCACCTGGCGCTTCTCCCGGCAGGACGGCGCGGCCCAGTTCGCCACCCTGGCCGGGGTGCTGCTGCTGGGTGTCGAAACGGGCATCCTGATCGGCGTCGGGCTGTCGTTGCTGCTGTTCCTCTGGCGAACCAGCCGCCCGCACATGGCGGTGGTCGGCCAACTGCCGGGCAGCGAGCATTTCCGCAACGTCGAGCGCTTCGACGTGGTGGAAAGCCCCGGCGTGTTGTCGCTGCGGGTGGACGAGAGCCTGTATTTCCCCAATGCACGCTATCTGGAGGAACGCATCGCCGCCCTGGTGGCGGCGCGGCCGCAGGTGCGACACCTGGTGCTGATGTGTTCCGGAGTCAACCTGATCGACGCCAGCGCCCTGGACAGCCTGGAGGCCATCGTCGAACGCCTGCATGCCGCCGGAGTGCAACTGCACCTGTCGGAAGTGAAGGGCCCGGTGATGGACCAGCTCAGGCGCTCGGACTTCCTCGAGCGCTTCGGCGGGCGCGTGTTCGTCAGCCAGTACGAAGCGCTCTGTGCGCTGGACCCGCTCAGCGTGGCGCGGGCGAGCCGCCGGCCGCCGCTCACCCTTCCCTGA	MKWRRWLPCLEWGRHYDRSMAAQDGLAALIVTLMLIPQSLAYAMLAGLPPVAGLYASILPLLAYALFGSSRTLAVGPVAVVSLMTAAALGPLFPAGSVDYVGAAMLLALLSGLLLAGMALLRLGFVANFLSHPVISGFISASGLLIAVGQLKHVLGVPVSGDTLAQLVPALLASLPQTHLPTLAIGTTSLAFLWWVRSRLKPLLMKLGLGVGLAGNLAKAGPVLAILISVLTVSALHLDQAGVKVVGAIPRGLPGLALPTLDLSLALQLLPAALLISLVGFIESVSVAQTLAAKRRERIEPDSELLGLGAANLAAAVSGGFPVTGGFARSVVNFDAGARTPMAGVFTAVGIAVTVLLFTPLFHNLPQSVLAATIIVAVLSLVDLGALRRTWRFSRQDGAAQFATLAGVLLLGVETGILIGVGLSLLLFLWRTSRPHMAVVGQLPGSEHFRNVERFDVVESPGVLSLRVDESLYFPNARYLEERIAALVAARPQVRHLVLMCSGVNLIDASALDSLEAIVERLHAAGVQLHLSEVKGPVMDQLRRSDFLERFGGRVFVSQYEALCALDPLSVARASRRPPLTLP	PGPT0003020_817	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SULFATE|THIOSULFATE_TRANSPORT,PGPT0003020-TC_SULP-K03321	NA	NA
BMS010_05781	1746			hypothetical protein	ATGGATTCGTTGAAACGCCTTACCCCGTTCATCGCCGTTGCCGCTCAGTTGCAGCCGGCCGACATGGGCACCCTGGCCGCCGCCGGCTACCGCTGTGTGATCAACAACCGCCCCGATGGCGAAGGCGAGGGCCAGCCAACCTCCGCCGAGATGGAGGCGGCCGCCAAGGCCAACGGGCTGGATTACCACTATCTGCCGGTGATTTCCGGGCAGATCGGCGATGGCGATGTCGCCGCCTTCACCGCGCTGCTCGACCGGGTGCGTGGGCCGGTTCTGGCGTTCTGCCGCACCGGCACCCGCTCCACCAGCCTGTGGGCCCTGAGCGAAGCGCATCATCTCGACCCCGAGACGTTGATGACGACAGCGAAGGCTGCGGGTTACGACCTCGCCGGGCTGTTGCCGCGTCTGGAACAACGCTGGCAGCAGGCGCCACGCACCGAGGCGATCCAGCCGCCGGCGCATACCGCCCGCTACGACGTCCTGGTCGTGGGCGGCGGCGCGGCGGGGTGCGCCGTCACCGCCAGCCTATTGCGGCGCGATCCCGGTCTGCGCATCGCGGTGATCGAGCCGCGCGAGCAGCACTACTACCAGCCGGGCTGGACGCTGGTCGGCGCCGGTGTGTTCGACCGGGCCCGCACCGAGCGGCCGATGTCGCGCTGCATTCCCAAGGGCGCGCAATGGGTGCGCGCGGCGGTGGCGGGTTTCGAGCCGGAACAACAGCGGGTGGTGCTGGAGGATGGCAATCGCTTGGGCTACCGGGTGCTGGTGGTCTGTCCCGGTCTGACCCTGGAATGGGGCGCCATCGAAGGCTTGCAGGAGACCCTCGGCAAGCACGGCGTGACCTCCAACTACCAGTTCGAGCTGGCCCCCTACACCTGGCAGCAGGTGCAGGTGCAGGCGCTGCGCCACGGTCGGGCGTTGTTCACCCAGCCGCCGATGCCGATCAAGTGCGCCGGCGCGCCGCAGAAGGCCATGTACCTGTCCTGCGACTGGTGGCACCGCCAGGGTGTGCTGAAAGATATCGAGGTGGAGTTTTGCTCGGCAGGCGCGGTGCTGTTCGGTGTCGCCGACTTCGTGCCGCCGCTGATGCGTTACGTGGAGCGCTACGGCGCGCAACTGAACTTCAATACGAATCTGGTGGCGGTGGACGGGCCGGCGCACAAGGCCTGGTTCAAGCCGACCACGGCGGAAGGCGGCGCCCTCGTCGAGAAGGACTTCGACTTCCTACACGTGGTCCCGCCGCAACGCGCACCGGCCTTCATTCGCCAGAGCCCCCTGGCCAGTGCAGACGGCTGGCTGGAGGCCGACCACGAGACCCTGCGCCATCCGCGCTACGGCAACATCTTCAGCCTCGGCGACGTCTGCGCTGCACCCAACGCGAAGACCGCCGCCGCGGTGCGCAAGCAGGCTCCGGTGGTCGCCGAGAACGTCCTGGCGGTACTCGCCGGGCGCGGCCCGCAGGCGCTGTATGACGGCTACGGCTCCTGCCCACTGACGGTGGAGCGCGGCAAGGTGGTGCTGGCCGAGTTCGGCTACGGCGGCAAGCTGCTGCCCACCTTCCCGCTGGACCCGCGGGTTCCCCGGCGTATGGCCTGGGACCTGAAGGTGAAGGCGATGCCGAGCATCTACTTCGACCTGATGCTGCGTGGCCGCGAGTGGCTCGCCGAGCCCCATCGCCTGCCCCATGAACCGCGTCCGGTGGAGGCCTCGCCGGCCTGCGACTTCCAGCAGGAGAAGCGTGGATGA	MDSLKRLTPFIAVAAQLQPADMGTLAAAGYRCVINNRPDGEGEGQPTSAEMEAAAKANGLDYHYLPVISGQIGDGDVAAFTALLDRVRGPVLAFCRTGTRSTSLWALSEAHHLDPETLMTTAKAAGYDLAGLLPRLEQRWQQAPRTEAIQPPAHTARYDVLVVGGGAAGCAVTASLLRRDPGLRIAVIEPREQHYYQPGWTLVGAGVFDRARTERPMSRCIPKGAQWVRAAVAGFEPEQQRVVLEDGNRLGYRVLVVCPGLTLEWGAIEGLQETLGKHGVTSNYQFELAPYTWQQVQVQALRHGRALFTQPPMPIKCAGAPQKAMYLSCDWWHRQGVLKDIEVEFCSAGAVLFGVADFVPPLMRYVERYGAQLNFNTNLVAVDGPAHKAWFKPTTAEGGALVEKDFDFLHVVPPQRAPAFIRQSPLASADGWLEADHETLRHPRYGNIFSLGDVCAAPNAKTAAAVRKQAPVVAENVLAVLAGRGPQALYDGYGSCPLTVERGKVVLAEFGYGGKLLPTFPLDPRVPRRMAWDLKVKAMPSIYFDLMLRGREWLAEPHRLPHEPRPVEASPACDFQQEKRG				NA	NA	NA	NA	NA
BMS010_05782	864			putative metallo-hydrolase	ATGCAACCCCACGTTGAAGCCTTCTTCGATCCGCACACCTTCACCTACAGCTATGTGGTCAGCGACCCCGCCACCGGGCGCTGCGCCATCGTCGACTCGGTACTCGACTACGATCCGGCGGCGGGGCGCACCTCCTTCGCCAGCGCCGATCGGTTGATCGCCTATGTCCGCGCGCAGGGGCTGACGGTCGAATGGCTGCTGGAAACCCACGTCCACGCCGACCACCTGTCCGCCGCGCCTTACCTGAAACGCGAACTGGGCGGCCGGCTGGCCATCGGCGACCGCATCACCGTGGTCCAGGGCGTCTTCGGCAAGCTGTTCAACGCCGGCAGCGAATTCGCCACCGACGGCAGCCAGTTCGACCACCTGTTCCACGACGGCGACCGCTTCACCATCGGCACCCTCGAGGCCCGTGCCCTGCATACGCCGGGTCACACCCCGGCGTGCATGACCTACGTGATCGGCGATGCCGCCTTCGTCGGCGACACCCTGTTCATGCCGGACTACGGTACCGCCCGCTGCGACTTCCCCGGTGGCGATGCACGGGTGCTGTACCGCTCGATCCGCACGCTGTTCGAACTGCCCGACGACACCCGTCTGTTCATGTGCCACGACTACAAGGCGCCGGGGCGCGAAGACTTCCGCTACCAAACCAGCGTGGCCGAGGAGCGTGCGCATAACGTGCACGTCCATGAAGGCGTCAGCGAGGACGACTTCGTCGCCATGCGCAGCGCCCGCGACGCGACCCTGGGCATGCCCACGCTGATCCTGCCGTCGGTGCAGGTGAACATGCGTGCCGGTGAGCTGCCGCCCGCCGAGGGCAACGGCACTCGCTATCTGAAAATCCCCTTGAACGTGCTCTGA	MQPHVEAFFDPHTFTYSYVVSDPATGRCAIVDSVLDYDPAAGRTSFASADRLIAYVRAQGLTVEWLLETHVHADHLSAAPYLKRELGGRLAIGDRITVVQGVFGKLFNAGSEFATDGSQFDHLFHDGDRFTIGTLEARALHTPGHTPACMTYVIGDAAFVGDTLFMPDYGTARCDFPGGDARVLYRSIRTLFELPDDTRLFMCHDYKAPGREDFRYQTSVAEERAHNVHVHEGVSEDDFVAMRSARDATLGMPTLILPSVQVNMRAGELPPAEGNGTRYLKIPLNVL				NA	NA	NA	NA	NA
BMS010_05783	195			hypothetical protein	ATGAAAGCCAACGTTGGAACCCTCGACCGTGGCCTGCGCATCGCCGCCGGCCTGATCCTGATCGGCCTCAGCCTCAGTGGTGTGATAGGTCTGTGGGGCTGGCTCGGCGTCGTGCCGCTTGCCACCGGCCTGTTCAGTTTCTGTCCCGCCTATTCGCTGCTTGGGCTGAACACCTGCCGTAACCGGCCACACTGA	MKANVGTLDRGLRIAAGLILIGLSLSGVIGLWGWLGVVPLATGLFSFCPAYSLLGLNTCRNRPH				NA	NA	NA	NA	NA
BMS010_05784	420			hypothetical protein	ATGCGCAAACTGACTGCATTCGCCGCCGGCCTGTTGTTCGGTCTCGGCCTGCTGCTGGCGGGCATGGCCAACCCGGCCAAGGTGCTGGGGTTTCTCGACTTGGCGGGCGTCTGGGACCCGTCCCTGGCGCTGGTGATGGTGGGTGGCATCGGTGCCGCGCTGCTGCCGTTCGCCTGGGCGCGCCGGCATGAGCGTTCGCTGCTGGGTGCGCCCATGCAGTTGCCGCGCAAGCGCGAACTGGATCGCCGTCTGATCATTGGCAGCCTGGTCTTCGGCGTCGGCTGGGGCATCGCCGGTATCTGCCCCGGCCCGGCGCTGGCGATCCTGCTCACCGGACAGTGGCAGGTGCTGCTGTTCGTCCTGGCCATGGTCGCGGGGATGCTGCTGTATTCCGCGCTGGAACGCCGGCGCACGCACTGA	MRKLTAFAAGLLFGLGLLLAGMANPAKVLGFLDLAGVWDPSLALVMVGGIGAALLPFAWARRHERSLLGAPMQLPRKRELDRRLIIGSLVFGVGWGIAGICPGPALAILLTGQWQVLLFVLAMVAGMLLYSALERRRTH				NA	NA	NA	NA	NA
BMS010_05785	435			hypothetical protein	ATGACCATCGACTGGACGAACTTCACTCCCTGGAGCGCACTGGCCGGCGGCATCCTGATCGGCATTGCGGCCGGGTCGTTCGTCCTCTTCAACGGCCGGATCGCCGGCATCAGCGGGTTGCTCGGCAGCCTGCTCGAGCCCGGATCGGAGGGGCGCGGCGAGAAGGCGCTGTTCCTGCTCGGCCTGCTGCTGGCGCCGTTGTTCTTGCTGCTGTCCGGCTCGCTGCCCGAGGTGGAATTCCAGACCGGCTGGCCGGGGCTGATCGCTGCCGGCCTGCTGGTGGGCATCGGTACCCGCTACGGCGCCGGCTGCACCAGTGGTCACGGTGTCTGTGGCATGGCCCGGCTGTCGCCGCGCTCGCTGGTGGCGGTCCTGTGCTTCATGGCCAGCGGTTTCGCCACCGTGTTTGTCCTGCGTCATCTTCTCGGGGGCTGA	MTIDWTNFTPWSALAGGILIGIAAGSFVLFNGRIAGISGLLGSLLEPGSEGRGEKALFLLGLLLAPLFLLLSGSLPEVEFQTGWPGLIAAGLLVGIGTRYGAGCTSGHGVCGMARLSPRSLVAVLCFMASGFATVFVLRHLLGG				NA	NA	NA	NA	NA
BMS010_05786	324	bigR_1	COG0640	Biofilm growth-associated repressor	ATGACCTCATCGGAAATCGATATCCAGCAGTTGCGCGCCAATGCAGATGCCGCTGGCCAGTTGCTCAAGGCCCTGGCCAATCCTGACCGGCTCCTGCTGCTCTGTCAGCTCTCCCAGGGCGAACGCAACGTCAGCGACCTGGAGGCCCTGCTCGGCATCCAGCAACCGACGCTATCGCAACAACTGGCGGTGCTGCGTCGCGAAGGCCTGGTGGAAACCCGCCGCGACGGCAAGCAGATCTTCTACCGGATCAGCAGCCCGGCGGCCTTGGCCGTGATCAATACCTTGTACCAACTGTTCTGCGAGGGGCAGGAAACCGCATGA	MTSSEIDIQQLRANADAAGQLLKALANPDRLLLLCQLSQGERNVSDLEALLGIQQPTLSQQLAVLRREGLVETRRDGKQIFYRISSPAALAVINTLYQLFCEGQETA	PGPT0016126_194	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0016126-bigR-K22042	NA	NA
BMS010_05787	456			hypothetical protein	ATGAGCGACAACCAACGGATTCACCTGCGCCTGCGGCAGGAAGAGGATTACCGCTGCACCCTGGCGTTCGACGACGGCGTCCCGCCCCTGACCGCCGATGAGCCGCCGCCCCTTGGCCAGGGCCAGGGACCCAGCCCGGTGCAACTGCTGCTGGCGGCGGTCTCCAACTGCCTGACCGACAGCCTGCTGTTCGCCCTGCGCAAGTTCAAGCAGGACGCCGAGCCGCTATCCGCCCACGCCGTCGCGGAGGTCGGGCGCAACGCGGAGAACCGCCTGCGGGTGGTGGGTATCGAGGTGGATCTCAGCCTCGGCAAGCCAGCGGCGGAGATGCAGCACATCCCGCGCATCCTCGATCAGTTCGAGGCGTTCTGCACCGTGTCACAGAGCGTGGCGGCGGGCATCCCGATCCGCCTGCGGGTATTCGACCGCGACGGCCAGTTGCTGAAAGGCGAGTGA	MSDNQRIHLRLRQEEDYRCTLAFDDGVPPLTADEPPPLGQGQGPSPVQLLLAAVSNCLTDSLLFALRKFKQDAEPLSAHAVAEVGRNAENRLRVVGIEVDLSLGKPAAEMQHIPRILDQFEAFCTVSQSVAAGIPIRLRVFDRDGQLLKGE				NA	NA	NA	NA	NA
BMS010_05788	1191			hypothetical protein	ATGTGGTACAACGGTTTTCTCGATCTGTCACCGTGGCAACTGGTGACGGTCACCCTGGTACTGACCCATATCACCATCGTCAGCGTCACTGTTTATCTTCATCGTTACTCCGCGCACCGCGCACTGGAACTGCACCCCGCGCTCAAGCACTTCTTCCGCTTCTGGCTGTGGATGACCACCGCCATGAACACCCGCGAATGGACCGCCATCCACCGTAAGCACCACGCCAAGTGCGAAACCGTGGACGATCCGCACAGCCCGGTGATCAAGGGCCTGTCCACCGTGATGCGCAAGGGCGCCGAGCTGTACAAGGAAGAGGCGAAGAACGAGGACACCCTGCGTATCTACGGCAAGAACTGCCCCGAGGACTGGATCGAGCGCAACGTCTACAGCCGCTACCCGAACCTGGGCGTGACCCTGATGGCGCTGATCGACCTGGCGCTGTTCGGCGCCCTCGGGCTGACCGTCTGGGCCGTGCAGATGATCTGGATTCCGTTCTGGGCGGCCGGGGTGATCAACGGCCTCGGCCATGCCGTGGGCTACCGCAACTTCGAATGCCGCGACGCCGCGACCAACCTGGTGCCCTGGGGCATCCTGATCGGTGGCGAAGAGCTGCACAACAACCACCACACCTACCCGAACTCGGCCAAGCTGTCGGTGAAGAAGTGGGAGTTCGATATCGGCTTCGCCTGGATCAAGCTGTTCAGCCTGTTCGGCCTGGCCAAGGTCGCCCGCGTGGCGCCCATCGCCCACCGTGTGGAAGGCAAGGGCCAGCTGGACATGGACACCGCCATGGCCATCCTGAACAACCGTTTCCAGATCATGGCGCAGTACCGCAAGTTGGTGATCGCGCCGCTGGTGAAACAGGAACTGGCCAAGGCCGACGAGTCGGTCCGCCACCTGTTCCACCGCGCCAAGCGTCTGCTGTCGCGTGAAACCAGCCTGCTGGAAGAGCGTCATCAACTGCGCATCCAGGAGATGCTGGCGCACAGCCAGGCGCTCAAGGTGATCTACGAGAAGCGCCTGGCCCTGCAGCAAATCTGGGTCAAGACCAGCGCCAACGGCCACGACATGCTCGCGGCCATCAAGGAGTGGGTCCACGAGGCGGAAGCCAGCGGCATCCAGTCGCTGCGCGAATTCGCCGAGCAGCTCAAGACCTACTCGCTGCGCCCGGCACCGGCCATCGCCTGA	MWYNGFLDLSPWQLVTVTLVLTHITIVSVTVYLHRYSAHRALELHPALKHFFRFWLWMTTAMNTREWTAIHRKHHAKCETVDDPHSPVIKGLSTVMRKGAELYKEEAKNEDTLRIYGKNCPEDWIERNVYSRYPNLGVTLMALIDLALFGALGLTVWAVQMIWIPFWAAGVINGLGHAVGYRNFECRDAATNLVPWGILIGGEELHNNHHTYPNSAKLSVKKWEFDIGFAWIKLFSLFGLAKVARVAPIAHRVEGKGQLDMDTAMAILNNRFQIMAQYRKLVIAPLVKQELAKADESVRHLFHRAKRLLSRETSLLEERHQLRIQEMLAHSQALKVIYEKRLALQQIWVKTSANGHDMLAAIKEWVHEAEASGIQSLREFAEQLKTYSLRPAPAIA	PGPT0012215_895	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-MOTILITY-MEDIATED_DEFENSE_SIGNALLING,PGPT0012215-desC-K00507	NA	NA
BMS010_05789	1932			hypothetical protein	TTGAAAAAACTCCAGCAGAGCGCGTTGCGCATCAGCCTGATCTATCTCGCCTTCGCGAGCTTCTGGATTCTTTTCAGCGACGGCATCGTCCTGTGGCTGGCCGGCGACACCAGACGGCTGGCCGAATGGCAGACCGCCAAGGGGCTGCTCTTCGTCGCCGCCTCCAGCGCCTTGCTGTACAGCCTGATCAGGCTGAACCTGGGCCGCGTGACGCAACTGCTCAAGGCCCGGCTCAACCATGAAAGCCGCCTGCGCCAGGCCGCCGCCGTGTTCGAGAGCACCCAGGAAGGCGTGCTGGTGGCCGACAAGAACAACCGCATCGTCCACGTGAACCCGGCCTTCAGCCGCATCACCGGCTACGCGGCGAAGGAAGTGCTGGGCCAGAACCCGAGCCTGCTGAAGTCCGGCCGCCACGACCGGCAGTTCTACGAAGAAATGTGGCAAACCTTGCAGCGCCAGGGCTTCTGGAGCGGAGAGGTGTGGAACCGGCGCAAGAGCGGCGAGGTGTATCCACAATGGCACTGCATCCGGGTCATCCATGACGAGGCCGGCGTGCCCAGCCACTATGTCGCGGTGTTCTCCGATCTCAGCGCGATCCGGCATTCGCAGAGCGAACTGAACCACCTGGCCAACTACGACCCACTTACCGACCTGCCGAACCGCCTGCTGTTCAGCGAACGGATCGAACAGGCCCTGCAGCGCCAGCAGCCGGACAGACCGGGTGGCGCGCTGCTGCTGATCGACCTCGACCACTTCAAGCACATCAACGAAAGCCTCGGCCACAGCGTCGGCGATCAGCTGTTGAAGGCTGTGGCAGAGCGCTTCGCCAACCTCCAGAGCGGCTCCACCACCCTGGCCCGCCTGGGTGGCGACGAGTTCGGCCTGCTCTGCGAAGACCTGGACCAGGCCGCCCAGGCCGGGGCGAAGGCCCAGCGGCTGCTCGATCTGATGAGTGCCCCGTTCAACCTGAACGGCCAGGAGTTCTTCATCGGCGCCAGCGTGGGCATCAGCCTGTTCCCGACGGACGGACAGAATGTCGATCAACTGCTGCGCAACGCCGACTCGGCCCTGTTCAAGGCCAAGAGCAGCGGGCGCGAGTCCTATGCCTTCTACACCCAGGAGCTGACCCAGCAGGCTCGGCAACGCATCGAGCTGGCCGCGGCCCTGCGCCACGCGCTGGAGAACGATGAGCTGCGCGTCTATTACCAGCCGATCCATGACCTGGAGAGCGGCCGGGTGGTGGGCGTGGAGTCCCTGGTGCGCTGGGAACACCCCGAACGCGGCCTGGTCCCGCCAGGAGAATTCATCCCGATCGCCGAAGAAAGCGGCCTTATCGGCGCCATCGACCTGTGGGTGCTGGAACAGGCCTGCCGGCAGATGCGCCAGTGGCAGCAGACTGGGATCATGCTGCAGTTCATCGCGGTGAACATTTCCAGCCGCCTGTTCGGCCGTGCCGAGCTGGACGCACGGGTCGCCCAGGTCCTGGAAGAGACCGGCCTGTCCCCCTCCTGCCTGGAGCTGGAAGTCACCGAAAGCGCGGTGATGGACAACCCCGATGCCGCGCTGGAACTGCTCGAACGCCTGCATCGCCTGGGCGTGCGGCTTTCCATCGACGACTTCGGCACCGGCTACTCCTCGCTGCAACGCCTCAAGCGCCTGCCGGTGCATAAGCTGAAGATCGACCAAGGCTTCGTCGCCGGCCTGCCGGACGACAGCGAGGACGCCGCCATCACCCGCGCCGTCATCGGCCTGGCGCACAATCTGGGCCTCAGCGTCCTGGCCGAGGGGATCGAGCAGCCGGAACAGGCGCTGTTCCTGCTTCAGCACCGTTGCGAACTGGGCCAGGGCTACTGGTTCGGCCGCCCGCAGCCGGCCGAGCGGCTGCGCCTGAAGCCCCACCCGCTACCCGCCTTCTGGGCCGACAACATCTGA	MKKLQQSALRISLIYLAFASFWILFSDGIVLWLAGDTRRLAEWQTAKGLLFVAASSALLYSLIRLNLGRVTQLLKARLNHESRLRQAAAVFESTQEGVLVADKNNRIVHVNPAFSRITGYAAKEVLGQNPSLLKSGRHDRQFYEEMWQTLQRQGFWSGEVWNRRKSGEVYPQWHCIRVIHDEAGVPSHYVAVFSDLSAIRHSQSELNHLANYDPLTDLPNRLLFSERIEQALQRQQPDRPGGALLLIDLDHFKHINESLGHSVGDQLLKAVAERFANLQSGSTTLARLGGDEFGLLCEDLDQAAQAGAKAQRLLDLMSAPFNLNGQEFFIGASVGISLFPTDGQNVDQLLRNADSALFKAKSSGRESYAFYTQELTQQARQRIELAAALRHALENDELRVYYQPIHDLESGRVVGVESLVRWEHPERGLVPPGEFIPIAEESGLIGAIDLWVLEQACRQMRQWQQTGIMLQFIAVNISSRLFGRAELDARVAQVLEETGLSPSCLELEVTESAVMDNPDAALELLERLHRLGVRLSIDDFGTGYSSLQRLKRLPVHKLKIDQGFVAGLPDDSEDAAITRAVIGLAHNLGLSVLAEGIEQPEQALFLLQHRCELGQGYWFGRPQPAERLRLKPHPLPAFWADNI	PGPT0023624_129	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-GGDEF|EAL|PAC|PAS-DOMAIN-CONTAINING_PROTEIN,PGPT0023624-GGDEF|EAL|PAC|PAS_domain_containing_protein-NA	NA	NA
BMS010_05790	780	mutM_4		Formamidopyrimidine-DNA glycosylase	ATGCCCGAAGGGCCTTCCATTGTCATCCTGCGGGAGGAGACCGCCCGGTTCGTCGGCGAGACCATCCTGCATGTCGAGGGCAATACCACCCAGGACAAGGCACGGCTGGTCGGCCAGCCGGTGCTGGACATGCGCAGCTGGGGCAAGCACTTCCTCGTCCAGTTGCCGGGCTTCGTGCTGCGGATTCACTTCCTGCTGTTCGGCAGCTACAGCATCGACGCGCGCAAGGAAAACCGCTCGCCACGCCTGAGCCTGGGCTTCGCCAACGGCGAGCTGAACTTCTACGCCTGCTCCGTGCAATTCCTCGAAGGCCGCCTGGACGACCTCTACGACTGGCGCACGGACGTCATGGCCGACCAGTGGGATGCCGCGGCGGCCCGGCGCAAGCTGCGCGAACGTCCCGCCCTGCTGGCCTGCGACGCGTTGCTCGACCAGACGCTGTTCGCCGGGTCCGGCAACATCATCAAGAACGAAGTGCTGTTCCGTATCCGCGTCCATCCGCTATCGCAGGTCGGTGCGCTGCCGCCGGCCAAGTTGCGTGCGCTGGTGGAGCAGGTGCGGCAGTACAGCTTCGAATTCCTCGCCTGGAAGAAGGCCTTCGTGCTCAAGCGGCACTGGCTGGTGCACACCCGGACGGTCTGCCCGCGCTGCCGGATTCCGCTGATCAAGGAGTACCTGGGCAAGACGCGGCGACGCAGCTTCTTCTGCGAGCGCTGCCAGAAGCTCTATCGCCTGGCGGTGCCGGTCGATTCAGATGTTGTCGGCCCAGAAGGCGGGTAG	MPEGPSIVILREETARFVGETILHVEGNTTQDKARLVGQPVLDMRSWGKHFLVQLPGFVLRIHFLLFGSYSIDARKENRSPRLSLGFANGELNFYACSVQFLEGRLDDLYDWRTDVMADQWDAAAARRKLRERPALLACDALLDQTLFAGSGNIIKNEVLFRIRVHPLSQVGALPPAKLRALVEQVRQYSFEFLAWKKAFVLKRHWLVHTRTVCPRCRIPLIKEYLGKTRRRSFFCERCQKLYRLAVPVDSDVVGPEGG				NA	NA	NA	NA	NA
BMS010_05791	1002	dcyD_2	COG2515	D-cysteine desulfhydrase	ATGCCCTTTCCCAGTCTTTCCGACTTCCCCCGCCTGCCCCTGCTCGGGCCGCCCACCGCGCTGGAAAAACTCGAACGGCTTTCCGCCCACCTCGGGCGGGCGGTCTATGTGAAACGGGACGACACCACGCCCTTCGCCCTCGGCGGCAACAAGGTACGCAAGCTGGAATACCTGGCAGCCGACGCCTTGCGCAGCGGCGCCGACACCCTGCTCACCGCCGGCGCCATCCAGTCCAACCACGTGCGCCAGACCGCCGCAGTGGCCGCGCGGCTCGGGCTGGGTTGCGTCGCGCTGCTGGAGAACCCCATCGGCAGCGACGACGCCAACTACCTGGGCAACGGCAACCGCCTGCTGCTCGACCTGTTCGGCGCCGAGGTGGTGGCGGTGGACAACCTGGACAACGCCGACGACCTGCTCGAGGCCCACGCCGAACGCTTGCGCACATTGGGGCGCAAGCCGTACCTCGTGCCAATCGGTGGGTCCAGCCCCCTCGGTGCCTTGGGCTACGTGCGTGCCGGACTGGAACTGGCCGAACAGATCGCCGCCTGCGGCGAGTCGTTCTCCGCCGTGGTGCTGGCCTCCGGCAGCGCCGGCACCCACGCCGGACTGGCACTGGCCTTGGCACAGGTGCGCCCGGAGCTGCCGGTGATCGGCGTCACCGTCTCGCGCAGCGCGGCGGCCCAGCAGCCAAAAGTCGAAGGGCTGGCGCAACGCACCGCCGACCTGCTCGGCAGCCCGTTGCCGGCAGCGTTCCGTGTCGAACTGTGGGACGAGTATTTCGGCCCGCGATACGGCGAGCCGAACGAGCGCACCCTGGAGGCGATCCGCCTGGTGGCAAGCCAGGAGGGTTTGTTGCTGGATCCGGTGTACACCGGCAAGGCGTTCGCCGGCCTGCTCGACGGCATCGCCCGCCAGCGCTTCCCCGGTGACGGGCCGCTGCTGTTCCTCCATACCGGCGGTGCTCCGGCGCTGTTCGCCTATCGTCCGGCCAGTGGCGCGTAG	MPFPSLSDFPRLPLLGPPTALEKLERLSAHLGRAVYVKRDDTTPFALGGNKVRKLEYLAADALRSGADTLLTAGAIQSNHVRQTAAVAARLGLGCVALLENPIGSDDANYLGNGNRLLLDLFGAEVVAVDNLDNADDLLEAHAERLRTLGRKPYLVPIGGSSPLGALGYVRAGLELAEQIAACGESFSAVVLASGSAGTHAGLALALAQVRPELPVIGVTVSRSAAAQQPKVEGLAQRTADLLGSPLPAAFRVELWDEYFGPRYGEPNERTLEAIRLVASQEGLLLDPVYTGKAFAGLLDGIARQRFPGDGPLLFLHTGGAPALFAYRPASGA	PGPT0002000_114	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0002000-cuyA-K17950	NA	NA
BMS010_05792	801	fliY_1	COG0834	L-cystine-binding protein FliY	ATGACGTTCGCTACATTCCGTCGTCCCCTGCTGCTCGCCAGCCTGACCGCCATCCTCGCGGCCGGGTTCGCCGGCCTGGCCAGCGCCGCCGATGACCTGCTCAAGGACATCCAGCAGCGCGGCAGCATCAAGATCGGCCTGGAGGGTACCTACCCGCCGTTCAACTACCAGGACGAGAACGGCAAGCTGACCGGTTTCGAAGTGGAACTCGCCGAGGCGCTGGCCAAGGAGCTGGGAATCAAGGCCGAGTTCCAGCCGACAAAGTGGGACGGCATCCTCGCCGCCCTCGAATCCAAGCGGCTGGACGTGGTGATCAACCAAGTGACCATCTCCGAGGAGCGCAAGAAGAAATACGACTTCTCCGCGCCCTACACCGTGTCCGGCATCCAGGCGTTGACCCGCAAGGGCCAGGAGGACAGCATCAAGAGTGCCCCGGACCTGGCCGGCAAGAAGGTCGGCGTCGGGCTCGGCACCAACTACGAGCAATGGCTGAAAGAGAACGTCCCGCAGGCGGATATCCGCACCTACGACGATGACCCGACCAAGTTCCAGGACTTGGCTGTCGGACGCCTGGACGTAGTACTGGTGGATCGCCTGGCGGCCTTCGAGATGGTGAAGAAGACCGGCGGCCGCCTGGCCGTGGCCGGCGAGCCGTTCTCCCGCCAGGAAGCCGGCATCGCCCTGCGCAAGGGCAACCCCGAACTGCTCGCCGCCCTCGATAAGGCCATCGCCACGCTGCGCGAAAACGGCACCCTCGAACGACTCTCCGAGAAATGGTTCCAGGCTGACGTGACGCAATGA	MTFATFRRPLLLASLTAILAAGFAGLASAADDLLKDIQQRGSIKIGLEGTYPPFNYQDENGKLTGFEVELAEALAKELGIKAEFQPTKWDGILAALESKRLDVVINQVTISEERKKKYDFSAPYTVSGIQALTRKGQEDSIKSAPDLAGKKVGVGLGTNYEQWLKENVPQADIRTYDDDPTKFQDLAVGRLDVVLVDRLAAFEMVKKTGGRLAVAGEPFSRQEAGIALRKGNPELLAALDKAIATLRENGTLERLSEKWFQADVTQ	PGPT0015635_1056	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_CYSTEINE_TRANSPORT,PGPT0015635-fliY|tcyA|yckK-K02424	NA	NA
BMS010_05793	669	yecS_5	COG0765	L-cystine transport system permease protein YecS	ATGATCGAAACCAGCCTGCAGCTTGCGCTGGACTCCGCGCCCTTCCTGCTGAAGGGCGCCCTCTACACGGTGATTCTCAGCCTCGGCGGCATGTTCTTCGGCCTGCTGCTCGGCTTCATCCTGGCCCTGACCCGGCTCTACGCCGTCGCCCCGTTGCGCGGCGTGGCGCGGGTGTACGTGTCGTTCTTCCGGGGCACGCCGCTGCTGGTCCAGTTGTTCATGATCTACTACGGCCTGCCGCAGCTCGGCATCCAACTGGAGCCACTGCCGGCGGCGCTGATCGGCTTCTCGCTGAACATGGCCGCCTACACCTCGGAAATCCTTCGGGCCGCCATCGCCTCCATCGACCGAGGCCAGTGGGAGGCCGCCGCCAGCATCGGCATGAGCAAGGTCCAGGCGCTGTACCGGGCGATCCTGCCCCAGGCCGCACGCACCGCCCTGCCGCCGCTGGGCAACAGCTTCATCTCGCTGGTCAAGGACACCGCGCTGGCTGCCACCATCCAGGTGCCCGAGCTGTTCCGCCAGGCGCAGTTGATCACCGCGCGAACCTTCGAGATTTTCACCATGTACCTGGCGGCGGCGCTGATCTACTGGCTGCTGGCGACCGTGCTGTCGCACTTCCAGGGCCGCCTGGAAGCCCGGGTCAACCGCCATGAGCAGGACGCCTGA	MIETSLQLALDSAPFLLKGALYTVILSLGGMFFGLLLGFILALTRLYAVAPLRGVARVYVSFFRGTPLLVQLFMIYYGLPQLGIQLEPLPAALIGFSLNMAAYTSEILRAAIASIDRGQWEAAASIGMSKVQALYRAILPQAARTALPPLGNSFISLVKDTALAATIQVPELFRQAQLITARTFEIFTMYLAAALIYWLLATVLSHFQGRLEARVNRHEQDA	PGPT0020715_889	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_CYSTEINE_TRANSPORT,PGPT0020715-tcyB|yecS-K10009	NA	NA
BMS010_05794	753	tcyC_1	COG1126	L-cystine import ATP-binding protein TcyC	ATGATTTCCATCCGTAACCTGAGCAAAGCCTTCAAGGGCCAGAGCGTCCTCCAGGGCATCGACCTGGACGTGCAGCCCGGCGAAGTGGTCGCCATCATCGGCCCCAGCGGCTCCGGCAAGACCACCCTGCTGCGCTGCCTCAACCTGCTGGAGGAACCCAGCGGCGGGCGTATCCAGGTCGGCGGTATCGAGATCGATGCCGACCGTCCCCTCGGGCCGCAGCAAGGGCTGATCCGCAAACTGCGCCAACACGTCGGTTTCGTCTTTCAGAATTTCAATCTATTCCCGCACCGTACGGCCCTGGAGAACGTCATCGAAGGCCCGGTGCATGTGAAGAAGGAGCCGCGCGAGCGTGCCGTCGCGCGCGGCCGGGCCCTGCTGGCCAAGGTCGGCCTGGCGGGCAAGGAAGACGCCTACCCGAAGCGCCTCTCCGGCGGCCAGCAGCAGCGCGTGGCGATCGCCCGGGCGCTGGCCATGGAGCCGGATGTGATCCTCTTCGACGAACCCACTTCGGCACTGGACCCGGAGCTGGTGGGCGAAGTGCTCGCCACCATTCGCAGTCTCGCCGAGGAACGCCGCACCATGGTCATCGTCACCCATGAGATGAGCTTCGCCCGTGATGTGGCCAACCGGGCGATCTTCCTCGACAAGGGCGTGATCATCGAACAGGGCGACGCTCGCCAGTTATTCAGTGCGCCACGCGAAGAGCGCACCCGGCAGTTTCTGAGCAAGTTTCTCGGCGACGCACGCTGA	MISIRNLSKAFKGQSVLQGIDLDVQPGEVVAIIGPSGSGKTTLLRCLNLLEEPSGGRIQVGGIEIDADRPLGPQQGLIRKLRQHVGFVFQNFNLFPHRTALENVIEGPVHVKKEPRERAVARGRALLAKVGLAGKEDAYPKRLSGGQQQRVAIARALAMEPDVILFDEPTSALDPELVGEVLATIRSLAEERRTMVIVTHEMSFARDVANRAIFLDKGVIIEQGDARQLFSAPREERTRQFLSKFLGDAR	PGPT0020720_758	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_CYSTEINE_TRANSPORT,PGPT0020720-tcyC|yecC-K10010	NA	NA
BMS010_05795	1191	megL	COG0626	L-methionine gamma-lyase	ATGTCCGAACGTCCCCTCGGCGTCTCCACCCGTGCCGTGCACAGCGGCAACGACATCGACCAGCACATGGTCACCCGGGCCAAGAGCCTGCCGATCTACGAAACCTCGGTATTCGTCTACGACAGCCTGGCGCAGGTCGACGATTTCCTCGCCGGCAACCCGGACAACTACATGTACACCCGCATCGGCAACCCCAACCAGGCGGCGTTGGAAGCGCTGGTGCGCGACTTGGAGGGCGGCGAGGCGGCCTTGTTCTCCGCTTCCGGCATGGCCGCCATCAGCGCCGCGCTGCTCGGTCTGTTGAACACCGGCGACCACCTGATCGCCAGTCGCGAGCTGTACGGCACCACCCAGAGCCTGATCGAGAAGGAGCTGAGCCGTTTCGGCATCGCCTCCACCCTGGTGGACATTGGCGACCTCGACGCGGTGAAGGCGGCGATCACCCCGGCGACGCGGCTGATCTACACCGAGACGGCTTCCAATCCCCTGGTGCGGGTGAGCGACGTGCCGGCCCTGGCGGCGCTGGCCAAAGCCCATGGCCTCAAGCTGCTGGTGGACAACACCTTCCTCTCGCCGGCGCTGTACCGGCCGCTGACCGACGGCGCCGACCTGGTGCTGCACAGCACCACCAAGTACCTCAACGGCCACAGTGACGCCACCGGCGGCATCCTGGTCGGCGATGCCGATTGGATCGCCCAGGCACGACGCTTCCAGATCAATGCCGGCGGCAGTGCCAGCCCATTCGAGGCCTGGCTGACCTTCCGCGGCGCCAAGACGCTGGCCTTGCGCATGCAGGCCCACTCGCGCAATGCCCAGGCGTTGGCCGAGGCGCTGGAAGCGCACCCGCGGGTGGCCAAGGTGCACTACCCGGGGCTCGCTTCGCACCTCGATCATGACCTGGCCCGACGGCTGTTCGGCAAGGGCTGCTCGGGCATGCTCAGCTTCACCCTGCACGGTGGGTTGGACGAAGTGGACCGGCTGATGCGTGGGCTGCGGCACACCGCCTTCGCGCCATCCCTGGCCGGCGTCGCCAGCAGCATCAGCCACCCCGGCAAGACCTCGCACCGCGCCCTGTCGCCCGAGGCCCTGGCCGAGCTGGATATCCACGACGGCACCATCCGCGTCTCGGTGGGTATCGAGGACGCGGCAGACATTGTTGCGGATTTTGTGCAGGCGCTGGACGCGCTCTGA	MSERPLGVSTRAVHSGNDIDQHMVTRAKSLPIYETSVFVYDSLAQVDDFLAGNPDNYMYTRIGNPNQAALEALVRDLEGGEAALFSASGMAAISAALLGLLNTGDHLIASRELYGTTQSLIEKELSRFGIASTLVDIGDLDAVKAAITPATRLIYTETASNPLVRVSDVPALAALAKAHGLKLLVDNTFLSPALYRPLTDGADLVLHSTTKYLNGHSDATGGILVGDADWIAQARRFQINAGGSASPFEAWLTFRGAKTLALRMQAHSRNAQALAEALEAHPRVAKVHYPGLASHLDHDLARRLFGKGCSGMLSFTLHGGLDEVDRLMRGLRHTAFAPSLAGVASSISHPGKTSHRALSPEALAELDIHDGTIRVSVGIEDAADIVADFVQALDAL	PGPT0020020_1245	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020020-mdeA-K01761	NA	NA
BMS010_05796	783	metQ_2	COG1464	Methionine-binding lipoprotein MetQ	ATGAAAAAAACGTTGCTTCTGACGGCCCTGGCGGCCGTGTTATCCGCTGGCCTGGCGGCTGCCGGGGAAAAACTGAGCGTGGCCGCGACGCCGGTGCCGCATGCGGAAATCCTCGAACTGATCAAGCCGCAGCTGGCGAAGGAGGGTATTGATCTGGAGGTGAAGGTCTTCACCGACTACGTGCAACCGAACCTGCAGGTGGATCAGAAGCGCCTCGATGCCAACTATTTCCAGACCAAGCCTTACCTGGACAACTTCAACGCCGGCAAAGGCACCCATCTGGTGATCGTCCAGGGCGTGCACGTGGAGCCGTTCGGCGGCTACTCGCGTCGCTACACCTCGCTCGAGCAATTGCCGGAGGGCGCCACCATCGCCATCCCCAACGAGGGCAGCAATAGCGGCCGCGCACTGTTGCTGTTGCAAAAGGCCGGTCTGCTGACGCTGAAGGACCCGGACAACGCCCTGGCGACGCCCAAGGACATCGCCGCGAATCCCAAGGGGTTCAAGTTCAAGGAGCTGGAAGCGGCCCTGCTGCCGCGTGTGCTGGACCAGGTGGACCTGGCGCTGATCAACACCAACTACGCGCTGGAAGCCAAGCTCAATCCGGCCAGGGATGCCCTGGTCATCGAAGACAGCACCTCGCCCTACGTGAATTATCTGGTGGCACGGCCGGACAACAAGGACAGCGAGGCGTTGAAAAAGCTTTCCGCGGCCCTGACCAGTCCCGAAGTGAAAGCCTTCATCGAAAGCCGTTATGCCGGTGCGGTGGTGCCGGCGTTCTGA	MKKTLLLTALAAVLSAGLAAAGEKLSVAATPVPHAEILELIKPQLAKEGIDLEVKVFTDYVQPNLQVDQKRLDANYFQTKPYLDNFNAGKGTHLVIVQGVHVEPFGGYSRRYTSLEQLPEGATIAIPNEGSNSGRALLLLQKAGLLTLKDPDNALATPKDIAANPKGFKFKELEAALLPRVLDQVDLALINTNYALEAKLNPARDALVIEDSTSPYVNYLVARPDNKDSEALKKLSAALTSPEVKAFIESRYAGAVVPAF	PGPT0020510_5399	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020510-metQ-K02073	NA	NA
BMS010_05797	183			hypothetical protein	ATGAGCGCGACGACCCTTCGCAGCCTGGAAGGCCAGGACGAGGAAAGCATCCTGCGCGAAATCCGCAGTGCCCTGCGCGGCCTGCGGTTCGGCTCGGTGGAAATCACCGTGCACAACGCCCAGGTGGTGCAGATCGAGCGGAAGGAAAAAATCCGCCTGCAGGCACCGACCAAGCAATCCTGA	MSATTLRSLEGQDEESILREIRSALRGLRFGSVEITVHNAQVVQIERKEKIRLQAPTKQS				NA	NA	NA	NA	NA
BMS010_05798	999	sbp_2	COG1613	Sulfate-binding protein	ATGTCCATTCGCCGTTTCGCCCTGGCTACCCTGGCCAGTGCTTTCATCGCCGCGCCCGCGCTGGCCGCGACAGAAATACTCAACGTTTCCTACGACCCCACCCGCGAGCTGTACCAGGCGTTCAACGCCGCGTTCAATAAACACTGGCAGGCCGAAGGCCACGAACCGGTAACAGTCCAGCAGTCCCACGGCGGCTCCGGCAAGCAGGCCCGTGCCGTGATCGATGGCCTGCGTGCCGACGTGGTCACCCTGGCCCTGGCCGGCGACATCGACGAGTTGCACAAGCTCGGCAACCTGATTCCCGAGGACTGGCAGAGCCGCCTGCCCGACGCCAGCACCCCCTACACCTCCACCATCGTGTTCCTGGTGCGCAAGGGCAACCCGAAAGGCATCGAGGACTGGGACGACCTGGTCAAGCCCGGTGTGGAAGTGATCACCCCGAACCCGAAAACCTCCGGCGGCGCCCGCTGGAACTTCCTCGCCGCCTGGGCCTTCGCGCAGCAGAAATACGGCAGCGAGGAGCAGGCCAAGGCCTTCGTCGAGAAGCTCTACAAGAACGTCCCGGTGCTGGACACCGGCGCCCGCGGCTCGACCATCACCTTCGTCAACAACCAGATCGGCGACGTCCTGCTGGCCTGGGAGAACGAGGCCTTCCTGGCGCTCAAGGAACAGGGCGGCGAGCACTTCGAGATCGTCGCGCCGAGCCTGTCGATCCTCGCCGAACCGCCGGTGGCGGTAGTCGACAAGAACGTCGAGAAGAAAGGCACCCGGGCGGTCGCCGAGGCCTACCTGAACTACCTCTACAGCGAGGAAGGCCAGCGCATCGCCGCGCAGAACTTCTACCGTCCGCGCAACGAGAAGGTCGCCGCCGAGTTCGCCAGCCAGTTCCCGCCGTTGAAGCTGGTCACCATCGACGGCGCCTTCGGCGGCTGGAAGCAGGCCCAGCCGAAGTTCTTCAACGACGGCGGCGTGTTCGACCAGATCTACCAGGCGCAATAA	MSIRRFALATLASAFIAAPALAATEILNVSYDPTRELYQAFNAAFNKHWQAEGHEPVTVQQSHGGSGKQARAVIDGLRADVVTLALAGDIDELHKLGNLIPEDWQSRLPDASTPYTSTIVFLVRKGNPKGIEDWDDLVKPGVEVITPNPKTSGGARWNFLAAWAFAQQKYGSEEQAKAFVEKLYKNVPVLDTGARGSTITFVNNQIGDVLLAWENEAFLALKEQGGEHFEIVAPSLSILAEPPVAVVDKNVEKKGTRAVAEAYLNYLYSEEGQRIAAQNFYRPRNEKVAAEFASQFPPLKLVTIDGAFGGWKQAQPKFFNDGGVFDQIYQAQ	PGPT0003015_1487	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SULFATE|THIOSULFATE_TRANSPORT,PGPT0003015-sbp-K23163	NA	NA
BMS010_05799	819	cysT_3	COG0555	Sulfate transport system permease protein CysT	ATGTCCCGCCGTATCTCCCCCGTCATACCCGGCTTCGGGCTGACGCTGGGTTACACCCTGGTGTATCTCAGCCTGTTGGTGCTGATTCCCCTGGGTGCGCTGTTCCTCAAGACCACCCAGCTGAGCTGGGAGCAATTCATCGCCGTAATCGGCGCGCCGCGCGTCCTGGCGGCGCTGCGCCTGAGCTTCGGCACCGCGTTGCTGGCCGCCGTGCTCAACGGTGTGATCGGTACCCTGCTGGCCTGGGTGCTGGTGCGCTACCGCTTCCCCGGTCGCAAGCTGATCGAAGCCATGATCGACCTGCCGTTCGCCCTGCCCACGGCGGTCGCCGGCATTGCCCTGGCGGCCCTGTACGCACCGGCCGGACCAGTGGGCCGGATCGCCGCCGAGCTGGGTTTCAAGATCGCCTACACCCCGCTGGGCATCACCCTGGCGCTGACCTTCGTCACCCTGCCCTTCGTGGTGCGGACCCTGCAACCGGTGCTCGCCGACATTCCCCGGGAAGTCGAGGAAGCCGCGTCCTGCCTGGGCGCCAAGCCCTGGCAGGTGTTCCGCCACGTGCTGCTGCCGGCACTGCTGCCAGCCTGGCTGACCGGCTTCGCCCTGGCCTTCGCCCGCGGTGTCGGCGAGTACGGCTCGGTGATCTTCATCGCCGGCAACATGCCGATGAAGACCGAGATTCTGCCGCTGCTGATCATGGTCAAGCTGGACCAATACGACTATGCCGGCGCCACCGCCATCGGCGTGCTGATGCTGGTGGTCTCCTTCCTCCTGCTGCTGCTGATCAACCTGCTGCAGCGGCGCATTTCCACCCCCTGA	MSRRISPVIPGFGLTLGYTLVYLSLLVLIPLGALFLKTTQLSWEQFIAVIGAPRVLAALRLSFGTALLAAVLNGVIGTLLAWVLVRYRFPGRKLIEAMIDLPFALPTAVAGIALAALYAPAGPVGRIAAELGFKIAYTPLGITLALTFVTLPFVVRTLQPVLADIPREVEEAASCLGAKPWQVFRHVLLPALLPAWLTGFALAFARGVGEYGSVIFIAGNMPMKTEILPLLIMVKLDQYDYAGATAIGVLMLVVSFLLLLLINLLQRRISTP	PGPT0003000_1623	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0003000-cysT|cysU-K02046	NA	NA
BMS010_05800	861	cysW_3	COG4208	Sulfate transport system permease protein CysW	ATGTCATCCCTCACCCTGACCGCCGCCTCTTCGGCCCAGGCCACCCGCCGCAGCCGGACATGGGGCCGGCGACTGCTGATCGCCGGCGCCTGGCTGGTGTTCGCCCTGTTCCTGCTGCTGCCATTGCTGGTGGTGCTGGCCGAGGCACTGAAGCAGGGCTTCGGCACTTTCTTCTCCGCCCTTCTCGAGCCGGACGCCCTCGCCGCGCTGAAACTCACGCTGATCGCCGTGGGCATCTCGGTCCCGCTGAACATGCTGTTCGGCGTGGCCGCCGCCTGGTGCGTGAGCAAGTACGAATTCCGCGGCAAGAGCCTGCTGGTCACCCTGATCGACCTGCCGTTCTCGGTGTCGCCAGTGATCGCCGGCCTGATCTACGTGCTGATGTTCGGCGCCCAGGGCTGGTTCGGACCCTGGCTGCGCGAGCACGACATCCAGATCGTCTTCGCCGTACCGGGGATCGTCCTCGCCACCCTGTTCGTCACCGTGCCCTTCGTCGCCCGCGAGCTGATCCCGCTGATGCAGGAGCAAGGCACCCAGGAGGAGGAAGCCGCGCGCCTGCTCGGCGCCAATGGCTGGCAGATGTTCTGGCACGTCACCCTGCCGAACATCCGCTGGGGCCTGATCTACGGCGTGGTGCTCTGCACCGCCCGCGCCATGGGCGAGTTCGGCGCGGTGTCGGTGGTCTCCGGGCATATCCGCGGGGTCACCAACACACTGCCGCTGCACGTCGAGATTCTTTACAACGAATACAACCACGTCGCCGCCTTCAGCGTCGCCAGCCTGCTGCTGCTGCTGGCGCTGTTCATCCTGCTGCTCAAGCAGTGGAGCGAACGCCACGTGAATGCCAACCGCGGGGAATGA	MSSLTLTAASSAQATRRSRTWGRRLLIAGAWLVFALFLLLPLLVVLAEALKQGFGTFFSALLEPDALAALKLTLIAVGISVPLNMLFGVAAAWCVSKYEFRGKSLLVTLIDLPFSVSPVIAGLIYVLMFGAQGWFGPWLREHDIQIVFAVPGIVLATLFVTVPFVARELIPLMQEQGTQEEEAARLLGANGWQMFWHVTLPNIRWGLIYGVVLCTARAMGEFGAVSVVSGHIRGVTNTLPLHVEILYNEYNHVAAFSVASLLLLLALFILLLKQWSERHVNANRGE	PGPT0003005_1099	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0003005-cysW-K02047	NA	NA
BMS010_05801	978	cysA_3	COG1118	Sulfate/thiosulfate import ATP-binding protein CysA	ATGTCCATCGAGATCAAGCAGGTCAACAAACGCTTCGGTACCTTCCAGGCGCTGCGCGACATCGACCTCAACATACACAGCGGCGAACTGGTCGCCCTGCTCGGCCCGTCCGGCTGCGGCAAGACCACCCTGCTGCGGATCATCGCCGGCCTGGAAACGCCGGACACCGGCAGCATCGTGTTCCATGGCGAGGACGTCTCGGCGCGTGACGTACGCGACCGCAACGTCGGCTTCGTGTTCCAGCACTATGCGCTGTTCCGCCACATGACGGTGTTCGACAACGTTGCCTTCGGCCTGCGCATGAAACCCCGCCGCGAGCGGCCGAGCGAAACGGCGATCGCCGCCAAGGTCCACGAACTGCTTGGCCTGGTGCAACTCGACTGGCTCGCCGACCGCTACCCGGAGCAGCTCTCCGGCGGCCAGCGCCAGCGCATCGCCCTGGCCCGCGCCCTGGCGGTGGAGCCCAAGGTGCTGCTGCTCGACGAACCCTTCGGTGCCCTCGACGCCAAGGTGCGCAAGGAGCTGCGCCGCTGGCTGGCACGGCTGCACGAGGAGGTTCATCTGACCAGCGTGTTCGTCACCCATGACCAGGAGGAAGCCATGGAGGTGGCCGACCGCATCGTAGTGATGAACAAGGGCGTGATCGAACAGGTCGGCGCGCCGGGCGAGGTCTACGACAAGCCGGCCAGCGACTTCGTCTACCACTTCCTCGGCGACGCCAATCGCCTGCATGTGGGCGAGGACCACCTGCTGTTCCGGCCGCATGAGGTGTCGCTGTCGCGGCAGGCCATCGCCGATCACCGGCCGGCGGAAGTGCGCGATATTCGCCCGCTGGGCGCCATCACCCGGGTGACCCTGAAGGTATCCGGCCAGGACGAACCGATCGAAGCCGAAGTGACCAAGGACCACGCCAGCCTCGCCGGGCTGCTCCGTGGCGAGACGCTGTATTTTCGGCCGAATGCCGGCCTTCGGCCCTGA	MSIEIKQVNKRFGTFQALRDIDLNIHSGELVALLGPSGCGKTTLLRIIAGLETPDTGSIVFHGEDVSARDVRDRNVGFVFQHYALFRHMTVFDNVAFGLRMKPRRERPSETAIAAKVHELLGLVQLDWLADRYPEQLSGGQRQRIALARALAVEPKVLLLDEPFGALDAKVRKELRRWLARLHEEVHLTSVFVTHDQEEAMEVADRIVVMNKGVIEQVGAPGEVYDKPASDFVYHFLGDANRLHVGEDHLLFRPHEVSLSRQAIADHRPAEVRDIRPLGAITRVTLKVSGQDEPIEAEVTKDHASLAGLLRGETLYFRPNAGLRP	PGPT0002990_1614	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002990-cysA-K02045	NA	NA
BMS010_05802	702			hypothetical protein	ATGGATTACACGCCGGGTATCAGCCAGGTCGCCGGGCTGCTCGCCGATCCGGGGCGGGCGGCGATGATCTGGGCGCTGATGGACGGCAGCGCACGGCCGGCCGGGGAACTGGCGCTGCTGGCCGGGCTGTCGCCGTCTTCCACCAGCGGGCATCTGGCCAAGCTGACCGAAGGCGGCCTGCTGGTGCAGGAAACCCATGGGCGCAACCGCTACTACAAGCTCGCCGGGCCGGAGGTGGGGCAGGTGGTCGAGGCCCTTGCCAGTGCCGCCCTGGCCGCGCAGCCGCGCAAGCCCCGGCCGATCCCCGTGTCGCGCGGCACACCGCTGGCCCTGCGCGAAGCGCGGACCTGCTACGACCACCTCGCCGGCGAATTGGCGGTGGGGCTGTTCGAGCGCATGGCCGGTGCCGGCTGGCTGGTGCAGGACGGCAAGCAGGTGGTGGTCACCGACCTTGGTAACGCTGGCCTGAGCGCCCTGGGCATCGACCTCGGCAGTGTCGGGCGTCGTCGCCGGCAACTGGCCTGCGCCTGCCCCGACTGGAGCGAGCGCAAACCGCATCTGGGCGGCGCGCTCGGTGCGGCGCTACTGGACACTTGCAAGCAGGCTGGCTGGCTACGTCCCGCCAACGGCTCGCGGGCACTGCACGTATCGCCGGAAGGTCGCCGGGCTATCGGCCGGATCGCTGCGCAGGTGGATGCTTGA	MDYTPGISQVAGLLADPGRAAMIWALMDGSARPAGELALLAGLSPSSTSGHLAKLTEGGLLVQETHGRNRYYKLAGPEVGQVVEALASAALAAQPRKPRPIPVSRGTPLALREARTCYDHLAGELAVGLFERMAGAGWLVQDGKQVVVTDLGNAGLSALGIDLGSVGRRRRQLACACPDWSERKPHLGGALGAALLDTCKQAGWLRPANGSRALHVSPEGRRAIGRIAAQVDA				NA	NA	NA	NA	NA
BMS010_05803	357			hypothetical protein	ATGATTGCCGTGATATTCGAAGCCCAGGCCCATCCCGGGCGTCGCCAGGATTACCTCGACCTCGCCGCCGAATTGCGTTCGCTGTTGGCGGACCAGGAGGGCCTGATCTCGGTCGAACGCTTCGAGAGCCTGAGCACGCCGGGCAAGACTCTCTCGCTGTCGTTCTGGCGCGACGAAGCGGCCGTCGCCGCCTGGCGCCGCCAGGAAGCGCACCGGCACGCCCAGGCCGCCGGGCGCGGGACGCTGTTCGCCGACTACCGCCTGCGCGTGGCCACGGTGAGCCGCGACTATGGCATGCACGACCGCGAGCAGGCGCCGGTCGATAGCCTTCGCCATCACGCCGCCGTCCAGAGATAA	MIAVIFEAQAHPGRRQDYLDLAAELRSLLADQEGLISVERFESLSTPGKTLSLSFWRDEAAVAAWRRQEAHRHAQAAGRGTLFADYRLRVATVSRDYGMHDREQAPVDSLRHHAAVQR				NA	NA	NA	NA	NA
BMS010_05804	753			hypothetical protein	ATGTACGAGTCGTTTTCCACCTACTGGCCGCTGATCCTGCTGACCTTCCTGCTCGCCGGCACCGTGAAGGGAGTGGTCGGGCTCGGGCTGCCGACCATCTCGGTCGGGTTGCTCGGCCTGGTGATGCCGCCGATGCAGGCTGCGGCGCTGTTGATCGTGCCGTCAATGGTGACCAACATCTGGCAGCTCGCCGACGGCCGCAGTCCCTTCGCCATGCTGGTTCGGCTCTGGCCGATGCTGGCCGGCATCGCCGTCGGCACCTGGGGCATGAGCGCGCTGGTGAATGCCGCCGAACTGCCCGGCGCGACCCGCTGGCTGGGCATCGCCCTGGTGGTTTATGCCGTGCTCGGCCTCGCTTCGGTGCGCTTCAGCGTATCGGCGGCGAACGAGCGCTGGCTGGCGCCGCTGATCGGTACGGTCACGGGCGCCATCACGGCGGTGACCGGCGTTTTCGTGATCCCGGCGGTGCCTTATCTGCAGGCGATCGGTCTGGAGAAGGACGAACTGGTGCGGGCGCTGGGGCTGTCGTTCAGCATGTCCACCCTGGCCCTGGCGGTGAGCCTCGGCCACAGCGGCGATCTGCTGCAACCGGCGGTGCTCGGGGTGTCGCTGCTGGCGCTGTTGCCGGCCCTGCTGGGCATGGCCGGCGGCCAGTGGCTGCGCCGCAGGATCAGCGCCGAGCGCTTCCGCCGCTGGTTCTTCTGCGGCTTGCTGTTGCTCGGCGCGGATCTGAGCCTGCGCGGGCTGTTCTGA	MYESFSTYWPLILLTFLLAGTVKGVVGLGLPTISVGLLGLVMPPMQAAALLIVPSMVTNIWQLADGRSPFAMLVRLWPMLAGIAVGTWGMSALVNAAELPGATRWLGIALVVYAVLGLASVRFSVSAANERWLAPLIGTVTGAITAVTGVFVIPAVPYLQAIGLEKDELVRALGLSFSMSTLALAVSLGHSGDLLQPAVLGVSLLALLPALLGMAGGQWLRRRISAERFRRWFFCGLLLLGADLSLRGLF				NA	NA	NA	NA	NA
BMS010_05805	402			hypothetical protein	ATGACTCATCTGCAACCCTCTCCGCTGCTGCGTCGTGCCCTGCTGCTGGATGCCGCCGCCAGCGGCGCCACCGGCCTGCTGATGTCGCTGGCCGCCGGTTGGCTCACCGAATGGCTCGGCCTGCCTTTCGAACTGCTGCTCGGGGCCGGCGTTAGCCTGCTGCCGTTCGCCCTGGTGCTGGCCTGGTTGAGCAACCGCGATACCCTGCAGCGCGGCTGGATCTGGGCGGTGATCGCGGTCAACGCGCTGTGGGTGGCCGACAGCGTGCTGCTGTTGATCGGCGGCTGGGCGGCGCCGACCGTGCTCGGGTACGTCTTCGTCATCGGCCAGGCGCTGGTGGTGGCGTTGTTCGCCGAGCTGGAGTTCTTCGGCCTGAAGCGTTCGCAGCCGGCGCTTGCCTAG	MTHLQPSPLLRRALLLDAAASGATGLLMSLAAGWLTEWLGLPFELLLGAGVSLLPFALVLAWLSNRDTLQRGWIWAVIAVNALWVADSVLLLIGGWAAPTVLGYVFVIGQALVVALFAELEFFGLKRSQPALA				NA	NA	NA	NA	NA
BMS010_05806	813			hypothetical protein	ATGAACACCGCCATCGCCCACACCAGCCAGATCGCCCCGGTCGGTGCCCTGCTCCGCCAGTGGCGCCAGCGCCGTCGCCTGAGCCAGCTCGACCTGGCCTGCGAGGCGGACATTTCCACGCGTCACCTCAGCTTCGTCGAAACCGGCCGCGCCCAGCCGAGCCGGCAACTCTTGCTGCACCTGGCCGAACAACTGGACATTCCGCTGCGCGAGCGCAACCAGTTGCTGGTGGCCGCCGGCTTCGCTCCGCTGTTCCCGCAGCACCGGCTGGACGACCCGGCGCTCGGCGCCGCGCGCGAGGCGGTCGAGGTGCTGCTCAAGGCCCACGAGCCCTACCCGGCCCTGGCCGTGGACCGGCACTGGAACCTGCTGGCGGCGAATCGCTGTGTCGCGCCTTTTCTCGCCGGCCTGCCCGAAGAGCTGCTGAAACCGCCGCTCAACGTGCTGCGCCTGAGCCTGCACCCACAGGGATTGGCACCGCGCATCGCCAACCTGGCGCCATGGCGCGAACACCTGCTGGCGCGCCTGCGCCGCGATCTGGAGATCAGCGCCGACCCGCAACTGGCCACGCTGCTGGAGGAACTCGCCGCGTTTCCCGCCCCACCGCCGGCATCTCGCGACGAGAACGCGCCGCTGCCGATGGTGGTGCCGCTGCAATTGCACAGCGATCTTGGGCTGCTCAGCCTGATCAGCACCACCACGGTGTTCGGTACCGCCGTGGACGTCACCCTCGCCGAACTGACCCTGGAAACCTTCTTTCCCGCCGATGCGGCGACCGCGGCAGTGCTACGGCAACTCGCACCTCAGGATTGA	MNTAIAHTSQIAPVGALLRQWRQRRRLSQLDLACEADISTRHLSFVETGRAQPSRQLLLHLAEQLDIPLRERNQLLVAAGFAPLFPQHRLDDPALGAAREAVEVLLKAHEPYPALAVDRHWNLLAANRCVAPFLAGLPEELLKPPLNVLRLSLHPQGLAPRIANLAPWREHLLARLRRDLEISADPQLATLLEELAAFPAPPPASRDENAPLPMVVPLQLHSDLGLLSLISTTTVFGTAVDVTLAELTLETFFPADAATAAVLRQLAPQD				NA	NA	NA	NA	NA
BMS010_05807	753			hypothetical protein	ATGTATCGCAGGTCTACACGCGTTCGCTTCTTCGCCTGGCTGCTGGTCTGCCTGGCCAGTCTTTCCCTGCCGGTTTTCGCCGAAAGCACACCGCTTACCCAGATTCAGGTCCATGCCTGCCGCGCCACCGGCAGCCTGCTGCTGCTGCGCGGCGAAGGCTTCCAGGAGAGCCACGCGGCGCGCCTGGAAAACGACATCCGCGCCCTCGACGAGGCGATGCGCAGCCTGCCCCAGGCCAGTGCCGAGCTGCGCCAGCACCAGCTACAACTGGTTGCGCAATTGAGAAGGGGGGTGGCCTTCGGGCCGGGTGACGAGAACATGCCCTGGCGCTATCCGCAGGAGCTGGCCAAGTCGCTGCGCGACTTCCTCACCGCCGCCCGCGCGGAACCCGGCGCCAATCCGCAGGACGAACTGCCGGCCAAGCTGGAATACCTCGCCGTGCAATACCTCAGCCGGTCCTACATCGGCACCTTCGAAATCGCCCGGGAACAGCCGGACACCTATCTCGGCCAGGACGAGCGGCAGTTGGTCCCGGCGCTGGACAACGAACTGGGCGCCCTGGATACCAAGGCCAATCCCAAGGCGGCGAAATTGCAGACCCGCTGGAAATACCTGCGCGCCGCGCTGATGGACATGAACAGCCAGAGCAACGCGCTGGTCAGCGCCTCCGGGCGGCCTTTCGCGCCGACCACCGTGGACCGCAATGCGCGCTCCCTGAGCACGCAGTTGATGGCGCTGAACCCGGGAAGCTGA	MYRRSTRVRFFAWLLVCLASLSLPVFAESTPLTQIQVHACRATGSLLLLRGEGFQESHAARLENDIRALDEAMRSLPQASAELRQHQLQLVAQLRRGVAFGPGDENMPWRYPQELAKSLRDFLTAARAEPGANPQDELPAKLEYLAVQYLSRSYIGTFEIAREQPDTYLGQDERQLVPALDNELGALDTKANPKAAKLQTRWKYLRAALMDMNSQSNALVSASGRPFAPTTVDRNARSLSTQLMALNPGS				NA	NA	NA	NA	NA
BMS010_05808	525			hypothetical protein	ATGAAGACACTCGTCGATCATCTGGCCCAGTACGCGGCTTATCACCGCGACCGGCGCAACATCGCCACCCATTTCGTCGGTATTCCCATGATAGTCGTGGCGGTCGCCGTGCTGCTGTCGCGCCCCGGTTTCGACTTGGCCGGGTTCTGGTTGTCGCCGGCGGCCCTGGTGGCACTGACTGCGGCGGTGTTCTATGCCCGCCTGGACCTGCGCTTCGGTGTGGTCATGGCCCTGTTACTGCTGCTGAGCCTGTGGGCCGGCAAGGCGCTGGCGGTGCAAACCACCTTGGTCTGGCTGAGCGGTGGGCTGGCGTTGTTCGTGGTCGGCTGGATCATCCAGTTCGTCGGCCATTATTACGAAGGCCGCAAGCCGGCGTTCGTTGACGACCTGGTCGGCCTGATCGTCGGCCCGCTGTTCGTGGTGGCCGAACTGGGCTTCCTGCTCGGCCTGCGCGACGAGGTCCGTCGGGCGGTGGAAGAGCGTGCCGGCCCGACTTGCCTCCGCGAGCGCAAGGCCACGGCCTGA	MKTLVDHLAQYAAYHRDRRNIATHFVGIPMIVVAVAVLLSRPGFDLAGFWLSPAALVALTAAVFYARLDLRFGVVMALLLLLSLWAGKALAVQTTLVWLSGGLALFVVGWIIQFVGHYYEGRKPAFVDDLVGLIVGPLFVVAELGFLLGLRDEVRRAVEERAGPTCLRERKATA				NA	NA	NA	NA	NA
BMS010_05809	693	crp	COG0664	CRP-like cAMP-activated global transcriptional regulator	ATGAGCGACGCAACCCTCTACCGTGAACGGCTGTTGAACGGCCACTGGTTCAGCGGCCTGCCGACGTCATTGCAGGACAGCCTGCTGGGCGCCGCCCAGGTGCGCCGGCTGGATGCGGGGCAGCGGCTGTTCAGCCGGGGCGACAAGCCGTGCGGGCTCTATGCGGTGGTGGAGGGGGCGATCCGCATCGGCGCGGTGGCGCAGAGCGGCAAGGAGGCGCTGCTGACGCTGGTCGAGCCGCCCTACTGGTTCGGCGAGATTTCGCTGTTCGACGGCCAGCCGCGCACCCATGACGCCTACGCCGAAGGCGTGACGGTGCTATTGCAGGTGCCCCAGGCGTCGCTGCTCGCCCTGCTCGATCGCGAGCCGCGACACTGGCGCGATTTCGCCCTGCTGATGAGCCAGAAACTGCGTCTGGCGTTCATCGCCCTGGAAGAAATGAGCTTGCTCCCCGCCGCACCCCGCCTGGCCCGCCGCCTGCTGATGATCGCCGAAGGCTACGGCGACGCCAGCGGCCCCCGTCGCACCCTGCAACTGGCCCAGGAACAACTGGCCTTGATGCTGGCCATCTCCCGCCAGACCACCAACCAGATCCTCAAGGACCTGGAGGCCCAGGGCATCGTCCGTCTCGGCTATGGCGAGATCGAGATCGTTGATCTGAATGGGTTGCGGCAGGCGGCAACCGGACTGTAG	MSDATLYRERLLNGHWFSGLPTSLQDSLLGAAQVRRLDAGQRLFSRGDKPCGLYAVVEGAIRIGAVAQSGKEALLTLVEPPYWFGEISLFDGQPRTHDAYAEGVTVLLQVPQASLLALLDREPRHWRDFALLMSQKLRLAFIALEEMSLLPAAPRLARRLLMIAEGYGDASGPRRTLQLAQEQLALMLAISRQTTNQILKDLEAQGIVRLGYGEIEIVDLNGLRQAATGL	PGPT0015075_2695	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-CARBOHYDRATE_LIMITATION_SIGNALLING,PGPT0015075-clp|crp-K10914	NA	NA
BMS010_05810	1575			hypothetical protein	ATGCGTCCAGCCTTCATCGGTCATCCCGTTGCCTGCCTGATCCACGCACTGGGGCTGGCCGCCTTGATGCTGGTCTACCAGCGGATGCAGTTGCCTCTCTATGTGAGCATCCCGTCGTTCCTGCTGCTGGCGCTCTGGCCCTGGCTGGGCCCCTGGCAACGCTCGACGGAAGAGGGCCTGCACGGGCCGAAGGCCGAAGGCGGAAAGGGATTCGACGAGCTGAGCGCCAACCTCTCCCGGCACACCAGCCAGAACGCCTTGTCGGCGGCGAAGGTGGCGTTCAGCGTGCAGCAACTGGCGAACAAGCTGAAATCGCAGATGGGCGCGGTGGATCAGGTCACCGGCGGCGCCGAGGCGATGACCGCCACCGAGCAGGACAGCGCCCGGCTCGCCCAGCAGACCCTCGCCGCCGCGCAGTCGGTGCGCCAGAGCAGCACCAGTGGGCAGGGCGAGTTGCAACAGGCGATCGCCCGGATGCAGGCGCTGAGCGCGCAGACCGCCGCCAGTCGCGAGCTGATCGACGGCCTGAGCGCACGGACCGAGCAGATCCAGCAGGTCACCGCAGTGATCCAGTCCATCGCCAGCCAGACCAACCTGCTGGCCCTCAACGCCGCCATCGAGGCGGCCCGCGCCGGCGAGCAGGGGCGCGGCTTCGCGGTGGTCGCCGACGAAGTGCGCAGCCTGGCCGGACGCACTGCCAGCGCCACCGAAGAGGTCGGGCAGATGGTCGCCGACATCCGCCAGCAGAGCAGCGCGGTGGTGGCGCATATCCAGCAGCAGGCCAGCGAACTGGACCAGGCGGCGCAACAGATCGAGGAAACCGGACAGCATCTGCATGGGATCGCCGGGTTGGCCGGCGAGGTGGAAGAGCAGGTGGCGCAGATCGCCGCCGGCACCGAGAGCAATCACCAGCGTCTGGCCAGCCTCTTCGAGGCCCTGGAGCAACTGCGCGCCGATGCCCACGCCAGCGAAGCGCAGACCCGTCAGCTCGGCGAGGCGGCGGCGCAACTGGTGGCTCAGGCCGAGACGGTCAGCGAGCAACTGGCCGAAGTGCGCCTGGACGACTACCACCAGCGCGTCTTCGACCTGGCCCGCGAGGGGGCGACGGCCATCGCCGCGAGGTTCGAGGCCGACCTGGCGGCGGGGCGGATTCGCCTGGACGACCTGTTCGACCGCAACTACCAGCCGATCCCCAATACCCACCCGACCAAGTACCGCACCCGCTTCGACGAATACACCGACCAGGTCCTGCCTGAGATCCAGGAACCGCTGCTGCAGCGCCACGACGGACTTGTCTTCGCCATCGCCACCACCCCGGAAGGCTACGTGCCGACTCACAACCGCGCCTTCGCCCACCCACAGACCGGCGACCCCAAGGTGGACATGCTGAAGAGCCGCAGCAAGCGCCTGTTCAACGACCGCACCGGCGCCCGCTGCGGCAGCCACCAGCAGCGCCTGCTGCTACAGACCTACATGCGCGACACCGGCGAACTGATGCACGACCTTTCCGTGCCCATCTTCGTCCAGGGCCGGCACTGGGGCGGCTTGCGCATGGGTTATCGGCCGGAGCGCTGA	MRPAFIGHPVACLIHALGLAALMLVYQRMQLPLYVSIPSFLLLALWPWLGPWQRSTEEGLHGPKAEGGKGFDELSANLSRHTSQNALSAAKVAFSVQQLANKLKSQMGAVDQVTGGAEAMTATEQDSARLAQQTLAAAQSVRQSSTSGQGELQQAIARMQALSAQTAASRELIDGLSARTEQIQQVTAVIQSIASQTNLLALNAAIEAARAGEQGRGFAVVADEVRSLAGRTASATEEVGQMVADIRQQSSAVVAHIQQQASELDQAAQQIEETGQHLHGIAGLAGEVEEQVAQIAAGTESNHQRLASLFEALEQLRADAHASEAQTRQLGEAAAQLVAQAETVSEQLAEVRLDDYHQRVFDLAREGATAIAARFEADLAAGRIRLDDLFDRNYQPIPNTHPTKYRTRFDEYTDQVLPEIQEPLLQRHDGLVFAIATTPEGYVPTHNRAFAHPQTGDPKVDMLKSRSKRLFNDRTGARCGSHQQRLLLQTYMRDTGELMHDLSVPIFVQGRHWGGLRMGYRPER	PGPT0015710_23380	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_05811	1080	yjlD	COG1252	NADH dehydrogenase-like protein YjlD	GTGAGCCTATACGACCTGTTGCTGGTGGGCGCCGGCCACGCCCACCTCGGCGTGCTGCGCCGCTGGGCCACTGGGGTGACGCCGCCAGGGCGCATCGGATTGCTCAGTGCCACGCCGGACGCCTGGTACTCCGGCATGTTGCCGGGGCTGCTGGCCGGGCGTTACCGGGCGGAAGACTGCCGTATCCCCCTGGAGCCCTTGTGCCGTGCCGCCGACGTCGAACTGCTCATCGGCGAGGTCCACGCGCTGGCGGCGGACGAGCGTGCCGTGCAGGTGGTCGATGGCCCAACCCTGGGGGCGTCCTGGCTGTCGCTCAACGTCGGTGCCGGGGTGGCCGCACCGCCCCGGCGCGGCGACGCCATGGAGGTGCTGGCGGTGAAGCCCTTCGCCGACTTCCTCGCCGGCTGGGAGCGCTGGCGGGCCGAGCCGCAGCGGCTAGCGATCCTCGGCGGTGGCGCGGCGGCGGTCGAACTGGCGCTGGCACTGGCCGATCAGGTACCGGGGCTGGCGCTGTTCTGTGCCGATGCGCTGCTCGCCAACCTGGCGCCGGGCCTGCGCCTGCGCGCACTCGGGCATTTGCGTGCGCGCAGGGTTCAGGTTCGCGAACATTGTCCGATAACCTCCATAGACGACGAATGGTTGCTCAGCGGCGAAGAGCCGGTGTGGCGCGGCGGGCGCCTGCTGCTGGCCAGCGGCGCGGCGGCATTGCCCTGGATATCGCGGAGCGGGTTGGAATGCGACAGCGCGGGTTTCGCACGGATCACCCCCACCTTGCAGAGCCTGTCGCATCCGCAGATTTACGTCGTGGGCGATTGCGCGAGCCTGCCCGGTGCGCGCAAGAGCGGTGTCTATGCTGTACGCCAGGGGCCGGTGCTCGCCGCCAACCTGAATGCGGCGCTCTGCAGCGGGGCTTTGCGCATCTACCGGCCGCAGCGGCGCTGCCTGGCGCTGCTGGCCACCGGCGACGGCGGTGCGCTGCTCGGCTGGGATGACTGGAGCGCCGGCGGCCGTGCCTGTGGCTGGTGGAAAGACCGGCTCGATCGAGGATTCATCCGGCGTCACCGCTTCCCGGAGCGATGA	MSLYDLLLVGAGHAHLGVLRRWATGVTPPGRIGLLSATPDAWYSGMLPGLLAGRYRAEDCRIPLEPLCRAADVELLIGEVHALAADERAVQVVDGPTLGASWLSLNVGAGVAAPPRRGDAMEVLAVKPFADFLAGWERWRAEPQRLAILGGGAAAVELALALADQVPGLALFCADALLANLAPGLRLRALGHLRARRVQVREHCPITSIDDEWLLSGEEPVWRGGRLLLASGAAALPWISRSGLECDSAGFARITPTLQSLSHPQIYVVGDCASLPGARKSGVYAVRQGPVLAANLNAALCSGALRIYRPQRRCLALLATGDGGALLGWDDWSAGGRACGWWKDRLDRGFIRRHRFPER				NA	NA	NA	NA	NA
BMS010_05812	1014			putative HTH-type transcriptional regulator	ATGACTGACGAACCCACCACCCTGGCCAGTTGGACGCGCGCCCTGCGCAAGCAGCTCGATGCCCTCGGCCTGGACAGTACCGCGCTGTGCCGCGAGGCCGGCCTCGACCCGGCGCTGATGGACGACCCCAACGCCCGTTATCCGCTCTCCGCCACTACCCGCCTGTGGCGGCTGGCGGTGCAGGCCAGCGGCGACCCCGCGCTGGGGCTGAAGGTCTCCCAGTACGTCGGCCCTACCACCTTCCATGCCCTGGGCTACGCCCTGATCGCCAGCGCCAGCCTGCTCGAAGTGTTCGAGCGCATCGTGCGCTACCACAAGGTGGTCAGCGATGCCTCCGAGCTGGACTTGCGGCGGGTCGGCGAGCGCTACGAATTCCGTTTGCAGGTGCCGCCGGGCGGGCCCGAGCCGGCGCCCGAGGCGCTGGATGCCTTCGCCGCGATCTATGTGCGCACCTGCCGCAACCGCCTCGGCCGCGACTACGCCCCATTGGCGGTGTACCTGAGCCGGCCGCGTCCGGCCGATCCGCAACCCTGGCACGACGTGTTCCGCGCGCCGCTGCATTTCGGCGCCACGGAGACCCTGCTGCAGTTCGCCCGCGCCGACTTCGAGCGGTCCCTGGAAGACGCCAACCCGGAACTTGCCCTGCACAACGAGGCAGTGCTGGAGCGCACCCTCGAACAGCTCCAGTCGCCCACCTGGCAGCGCAAGGTGCGCACCTGCCTGGAAGCACAGTTGCCCAACGGCGAACCGTCCGCCGAGCGTATTGCCCAGGCTCTGCACCTGAGCCTGCGCAGCCTGCAACGCCACCTGGCCGACGAAGGCGCGAGCTACGAAAGCCTGCTCAACGACACCCGCCAGGCCCTGGCCCTGCGGCACATGCGCGACCCCCGCTGCTCCATCAGCGAGATCGCCTACCTGCTCGGCTTCGCCGACACCAGCAGCTTCAGCCGTGCCTTCAAGCGCTGGACGGGGCAGGCGCCGAGCCAATACCGCGAGGGACTGCTGCGCCTGTGA	MTDEPTTLASWTRALRKQLDALGLDSTALCREAGLDPALMDDPNARYPLSATTRLWRLAVQASGDPALGLKVSQYVGPTTFHALGYALIASASLLEVFERIVRYHKVVSDASELDLRRVGERYEFRLQVPPGGPEPAPEALDAFAAIYVRTCRNRLGRDYAPLAVYLSRPRPADPQPWHDVFRAPLHFGATETLLQFARADFERSLEDANPELALHNEAVLERTLEQLQSPTWQRKVRTCLEAQLPNGEPSAERIAQALHLSLRSLQRHLADEGASYESLLNDTRQALALRHMRDPRCSISEIAYLLGFADTSSFSRAFKRWTGQAPSQYREGLLRL				NA	NA	NA	NA	NA
BMS010_05813	1071			hypothetical protein	ATGACCCCGACTCCCGCAAGCCGCGATCTGCAGAATGACCAGCAGAAATCCGCGCATATCCGTGAAGTGGTGATGGCCCATGGCGAGGAACTGCGCCGGCGCTACCCGATCCTGAAGCACCAGGACGCCCTCGGCGCCGGCATCCTGGCCTTCGCCCTGGCCGGCATGATCGGCGCCGCGGCGCTCTATCTGAACGGCGTGATCGCCTGGTGGGCCTGCCTGCTGGCCAACGCCTTCTTCGCGTCGCTGACCCACGAACTGGAGCACGACCTGCTGCATTCGATGTACTTCCGCAAGAAGCGTGGGCCACACAACCTGATGCTGGCCCTGGTCTGGCTGGCCCGGCCGAGCACCATCAGCCCCTGGATTCGCCGCGAGCTGCACCTGAACCACCACAAGGTCTCCGGCAGCGCCACCGACGTCGAGGAGCGCGCCATCACCAATGGCGAGCCCTGGGGCCTGGCCCGGCTGCTGATGGTGGGCGACAACATGATGTCGTCGTTCATCCGCTTCCTGCGCGCACCGACCTGGACGCACAAGAAGAGCATCGTCCTGCGCACCCTGAAAGGCTATGCGCCACTCGGCCTGATCAACTGGGGCATCTGGTACCTGTTCCTCGGCTTCCATCTGGTCGACACCGTCGCCACGGCGGCCGGTGCGCCCATCGGCTGGTCGGCCACCACCCTGCAGGCGATGGGCGTGGTGAACGCTGCCGTGGTGGTGTTGGTCGGCCCGAACGTCCTGCGCACCTTCTGCCTGCATTTCGTCAGCTCCAACATGCACTACTACGGCGACGTCGAGCCGGGCAACGTGATCCAGCAGACCCAGGTGCTCAACCCCTGGTGGCTGTGGCCGCTGCAGGCGTTCTGCTTCAACTTCGGCAGCACCCATGCGATCCACCATTTCGTGGTCAAGGAGCCGTTCTATATCCGCCAGATGACCGCGCCGGTGGCGCACAAGGTGATGCGCGAGATGGGCGTGCGCTTCAACGACTTCGGCACCTTCGCCCGCGCCAATCGCTGGAACCCGGTGGAACAACCGGCCACAAACAATTGTACCCAGGCCACCTGA	MTPTPASRDLQNDQQKSAHIREVVMAHGEELRRRYPILKHQDALGAGILAFALAGMIGAAALYLNGVIAWWACLLANAFFASLTHELEHDLLHSMYFRKKRGPHNLMLALVWLARPSTISPWIRRELHLNHHKVSGSATDVEERAITNGEPWGLARLLMVGDNMMSSFIRFLRAPTWTHKKSIVLRTLKGYAPLGLINWGIWYLFLGFHLVDTVATAAGAPIGWSATTLQAMGVVNAAVVVLVGPNVLRTFCLHFVSSNMHYYGDVEPGNVIQQTQVLNPWWLWPLQAFCFNFGSTHAIHHFVVKEPFYIRQMTAPVAHKVMREMGVRFNDFGTFARANRWNPVEQPATNNCTQAT				NA	NA	NA	NA	NA
BMS010_05814	717	kefF_3		Glutathione-regulated potassium-efflux system ancillary protein KefF	ATGAACATCCTGATCGTCCATGCCCATCCCGAGTCGAAGTCCTTCTGCACCGCCATGAAGGACTTCGCGGTCGAAACCTTCACCGCGGCCGGCCATGTCGTGCAGGTCTCCGACCTGTATGCGATGAATTGGAACCCGGTGGCTTCGGCCGCCGACTTCCAGGCTCGCAGCGACCCGGATTATCTGGTCTATGCCCTGGAGCAGCGCCACGCCCATGCAGCCAATGCCCTCGCCGCCGATATCGCCGGCGAGCTGGACAAGCTGCTCTGGGCCGATCTGCTGATCCTCAACTTCCCGCTGTACTGGTGCTCGGTGCCGGCGATCCTGAAGGGCTGGATCGACCGGGTGCTGATTTCCGGCGCCTGCTACGGCGGGTTGCGCTTTTACGATCGAGGCGGCCTGGCCGGCAAGCGTGCACTGCTCAGCTTCACCCTGGGCGGGCAGTCGCATATGTTCGCCAACGAAGACGCCATTCACGGCGACTGGGAGCCCATGCTGCGCCCGTTGCAACGCGGCACCCTGGCCTATGTCGGCTTCCGCGTGTTGCCGCCATTTCCGGCGTATCACGTGCCCTACATCGGCGACGACGCGCGCCGCACAATCCTCGACGCCTACCGGCTGCACCTGAACAACCTGGATCGCCTCAAGCCCCTGCGCTTCCCGTCGATGGCCGACTTCGACCGCCAGCTCCACCCGCTTACGGAGGTTCCGGCATGA	MNILIVHAHPESKSFCTAMKDFAVETFTAAGHVVQVSDLYAMNWNPVASAADFQARSDPDYLVYALEQRHAHAANALAADIAGELDKLLWADLLILNFPLYWCSVPAILKGWIDRVLISGACYGGLRFYDRGGLAGKRALLSFTLGGQSHMFANEDAIHGDWEPMLRPLQRGTLAYVGFRVLPPFPAYHVPYIGDDARRTILDAYRLHLNNLDRLKPLRFPSMADFDRQLHPLTEVPA	PGPT0009455_738	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009455-kefF|nqo|ywrO-K00355	NA	NA
BMS010_05815	168	rubA1_2	COG1773	Rubredoxin-1	ATGAAAACCTGGATCTGCATCGTCTGCGGCCTGATCTACGACGAGGCCAAGGGCTGGCCGGAGGAAGGCATCCCCGCCGGTACCCCCTGGACGGAGGTGCCGGACGACTGGCTGTGCCCAGACTGTGGGGTGAGCAAGGGGGATTTCGAGATGCGCGAGCTGGCCTGA	MKTWICIVCGLIYDEAKGWPEEGIPAGTPWTEVPDDWLCPDCGVSKGDFEMRELA	PGPT0021900_47	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021900-rubB|alkT-K05297	NA	NA
BMS010_05816	2139	sthA_1		Soluble pyridine nucleotide transhydrogenase	ATGAACACCCGCAAGCTTCTCCTGCTTGGCCTGATCCTGACGCTGATCGTCGGCTTCTTCGCATTCGATCTGGTGGACTACTTCACCCTGGCCAACCTCAAGGCCCAGCAGGCGGCGCTCGACGCCCGGGTAGACGCGCATCCCTGGCAGGCGGCCGTGCTGTTCTTCCTGGCCTATGTGGCGATCACCGGCCTGTCGCTGCCGGGGGCGGCACTGATGACGCTGCTGGCCGGTGCGCTGTTCGGCCTGCTGGAAGGTTTCCTGCTGGTGTCCTTCGCCTCCACCCTGGGCGCGACGCTGGCCATGCTCAGCAGCCGCTTCTTGCTGCGCGACTGGGTGCAGGCGCGTTTCGGCCAGCGCTTCGAGGGCATCGACGACGGCATGCGCCGGGAGGGCGCGTTCTACCTGTTCGCCCTGCGCCTGGTGCCGCTCTTCCCGTTCTTTTTGATCAACCTGGCCATGGGCCTCACCCGGCTGCCGGTGAGAACCTTCTGGTGGGTCAGCCAGCTCGGCATGCTGCCGGGGACGCTGGTCTACGTGAACGCCGGACGCGAGCTGGGCCGGCTGGAATCGCTGGGCGGCATCCTCTCGCCGGGGCTGCTTGGCGCCTTCGTGCTGCTCGGCCTGTTCCCGTTGCTGGCGCGACGCCTGCTGGATGCGCTCAAGGCGCGGCGGGTCTATGCCGGTTGGGCACGGCCCAGGCGTTTCGAGCGCAACCTGCTGGTGATCGGCGCGGGCTCCGGAGGGCTGGTCAGCGCGTACATCGCCGCGGCGGTGAAAGCCAGGGTCGGGCTGGTGGAAAAACATCGCATGGGTGGCGACTGCCTGAACACCGGCTGCGTGCCATCCAAGGCCCTGCTGCGCTCGGCCAGGTTGGCGGCGGAGCTGAAGAAGGGCGAGGCGCTGGGCTTTCGCGGCGTGGCCGGCGAGGTGGATTTCGCCGCGGTGATGGCGCGTGTGCAGCGGGTGATCGGCACCATCGAGCCGCACGATTCGCCGCAGCGCTACCGCGAACTGGGCGTCGAGGTGATCCACGGTGAAGCGCGGATCGTCTCGCCCTGGAGCGTCGAAGTGAACGGCCGGGTATTGACTAGCCGCAACCTGATCATCGCTGCCGGGGCACGCCCCAAGATTCCGGATATCCCCGGCCTGGCCGACCTGCAGCCCTACACCTCGGACAGCATCTGGAGCCTGCGCGAGCAGCCGAAGCGCCTGCTGGTGCTGGGCGGCGGGCCGGTCGGCTGCGAGCTGGCGCAGGCCTTCCAGCGCCTCGGCAGCCAGGTCGTCCAGGTGGTGCGCGGCCCGCGCCTGCTACCCCACGAAGATGCCGACGCGGCCGACGCGGTGATGGCCGGTCTGCGTGAGGACGGGGTCGAGCTTCGCCTGGAACATACGCCCGAGCGTTTCGAGCAGCGTGATGACAAGCCTTGCCTCATCGCCCGTACCGCATCGGGCGATGAGGAAACCATCCCCTTCGACACCCTGCTGCTGGCCCTCGGCCGGGTGGCCAACGTCGAAGGCTACGGGTTGGAAACCCTGGGCCTGGCCGTGCGCGCCGACGGCACCCTGGAAACCGACGAGTACCTGGCCACGCGCTTCCCCAACATCTACGCGGTGGGCGACGTCACCGGTCCCTATCAGTTCACCCATTTCGCCGCGCACCAGGCCTGGTATGCGGCGGTCAACGCGCTGTTCGGCGGCTTGCGGCGCTTCAAGGCGGATTACCGGGTCATTCCCCACTGCACCTTCACCGACCCCGAAGTGGCGCGGGTCGGCTTGTCGGAAGACGAGGCGCGAGCGCGAGGTATCGCCTACGAGACGACCCGCTACGGCCTCGACGACCTCGACCGGGCAATCACCGACGAGGCCGCCCGTGGCTTCGTGAAAGTCCTCACCGAGCCCGGCAAGGACCGCATCCTCGGTGTGACCCTGGTCGGCGAGCATGCCGGCGACCTGATCGCCGAGTACGTCCTGGCGATGACGCACAACCTCGGGCTGAACAAGATCCTCGGCACCGTCCACGCCTACCCGACCTTGGCCGAGGCCAACAAGTACGCTGCCGGCGAATGGCGAAAGGCCCACGCGCCGCAGATGGCGCTACGGCTGCTGCAACGGTTTCACCGCTGGCGGCTCGGCTGA	MNTRKLLLLGLILTLIVGFFAFDLVDYFTLANLKAQQAALDARVDAHPWQAAVLFFLAYVAITGLSLPGAALMTLLAGALFGLLEGFLLVSFASTLGATLAMLSSRFLLRDWVQARFGQRFEGIDDGMRREGAFYLFALRLVPLFPFFLINLAMGLTRLPVRTFWWVSQLGMLPGTLVYVNAGRELGRLESLGGILSPGLLGAFVLLGLFPLLARRLLDALKARRVYAGWARPRRFERNLLVIGAGSGGLVSAYIAAAVKARVGLVEKHRMGGDCLNTGCVPSKALLRSARLAAELKKGEALGFRGVAGEVDFAAVMARVQRVIGTIEPHDSPQRYRELGVEVIHGEARIVSPWSVEVNGRVLTSRNLIIAAGARPKIPDIPGLADLQPYTSDSIWSLREQPKRLLVLGGGPVGCELAQAFQRLGSQVVQVVRGPRLLPHEDADAADAVMAGLREDGVELRLEHTPERFEQRDDKPCLIARTASGDEETIPFDTLLLALGRVANVEGYGLETLGLAVRADGTLETDEYLATRFPNIYAVGDVTGPYQFTHFAAHQAWYAAVNALFGGLRRFKADYRVIPHCTFTDPEVARVGLSEDEARARGIAYETTRYGLDDLDRAITDEAARGFVKVLTEPGKDRILGVTLVGEHAGDLIAEYVLAMTHNLGLNKILGTVHAYPTLAEANKYAAGEWRKAHAPQMALRLLQRFHRWRLG				NA	NA	NA	NA	NA
BMS010_05817	1038	arsM		Arsenite methyltransferase	ATGCGCGAAGACGTAAAGACCTACTACGGCCAGATCCTGCAATCCACCGCCGACCTGAAGACCAGCGCCTGCTGCACCGCCACGCCGCCGCCGGTGCATCTGCGGACGGTCCTGGCCAGGCTGCACCCCGAGGTGTTGGAGCGCTACTACGGTTGCGGCCTGATCGCACCCCAGGCGCTGGAAGGCTGCCAAGTGCTGGACCTCGGCTGCGGTGCCGGGCGCGATGCCTACTGCCTGTCCGCCCTGGTCGGCGAGCGGGGCGGCGTGACCGGCGTCGACATGACGCCCGAACAACTGGCCGTGGCCCGCCGGCACCAGGCATTCCATGCGCAGGCGTTCGGCCATGCTCACTCCAATCTGCATTTCCTCGAAGGCGATATCGAACGCCTGGACGAACTGGGCCTGCCGGCCGACAGCTTCGACGTGCTGGTTTCCAACTGCGTGATCAACCTGGTGCCGGACAAGGCGCGGGTGCTGGCCGAAGCCTGGCGCGTGCTCAAGCCCGGCGGCGAGCTGTACTTCTCCGACGTGTACGCCGACAGACGGATACCCGCCGCGCTGGCGGACGATCCGGAGCTGTACGGCGAATGCCTTGCCGGGGCGCTCTACTGGAACGACTTCCTGCACCTGGCCAAGGCGGCCGGTTTCGCCGATCCGCGTCTGGTGGAAGACCGCCCCATCGCGCTGGATGGCTCGATTGCCGAGCGCACCGGCCCTGCCCGTTTCTTCTCCGCCACCTATCGGCTGTTCAAGCTGGAGGGGCTGGAAAGCGCCTGCGAGGACTACGGCCAGGCGGTGATCTACAAGGGCACCCTGGCCGAGCAGCCGGAGGTGTTCGTTCTCGACAAGCACCACCGCATCGAGCGCGGCCGGGTGTTTCCAGTCTGCGGCAACACCTGGCGCATGCTCCGGGACAGCCGCTTCGCCGCCCATTTCGAATTCATCGGCGACTTCTCTACCCATTTCGGCCTGTTCGAAGGCTGCGGCAGCGCGATGCCGTTCGATACGACGGCCGGCAGCGCCGGAGGCTGCTGCTAG	MREDVKTYYGQILQSTADLKTSACCTATPPPVHLRTVLARLHPEVLERYYGCGLIAPQALEGCQVLDLGCGAGRDAYCLSALVGERGGVTGVDMTPEQLAVARRHQAFHAQAFGHAHSNLHFLEGDIERLDELGLPADSFDVLVSNCVINLVPDKARVLAEAWRVLKPGGELYFSDVYADRRIPAALADDPELYGECLAGALYWNDFLHLAKAAGFADPRLVEDRPIALDGSIAERTGPARFFSATYRLFKLEGLESACEDYGQAVIYKGTLAEQPEVFVLDKHHRIERGRVFPVCGNTWRMLRDSRFAAHFEFIGDFSTHFGLFEGCGSAMPFDTTAGSAGGCC				NA	NA	NA	NA	NA
BMS010_05818	963	moaA_1		GTP 3',8-cyclase	GTGCACGCCATGCTGCCCCTGCTCGACCGCCTGGCCTTTCCCGCGATCCGCCGTAGCGCGCTGGAGGCCCTGCAGGTCAACCTCACCTATCGCTGCAACCAGCGCTGCCTGCATTGCCATGTGAATGCCGGGCCGACGCGTACGGAGAGCATGAGTGACGAAACCCTGAGTATCCTGCACCGCGTGATCGATGCCCACCCGGTACACACCCTCGACCTCACCGGCGGCGCGCCGGAGCTGCATCCTCGCTTCCGCGACATCGTTCGCCATGCCCGTCGCGAAGGTTTGCGGGTGATCGACCGCTGCAACCTGACCATCCTTAGCGAGCCCGGTCAGGAGGACCTGGCGGCCTTCCTGGCCGGGCAGGGCGTGGAGATCACCGCGTCGCTGCCTTGCTATTCGCGGGAAAACGTCGACCGCCAGCGCGGCGAAGGCGTGTTCGCGGCGAGCATCGCCGGACTTCGGCAGCTCAATGCCTTGGGCTACGGCGAGGCAGGCAGCGGCTTGGTTCTCAATCTGGTCTACAACCCCCAGGGGCCGAGCCTGCCGCCGCCCCAGGAGAAGCTGGAAGCCGACTACAAGCGCCACCTGATTGAGGACTTCGGCATCCGCTTCGACCACCTACTGTGCATCACCAACCAGCCCATCGCCCGCTTCGGCAGCACCCTGGTGAGCAAGGGACAGTTCAACGCCTACATGCAGCTCCTGCGCGACAGCTACCGTGCGGAGAACCTCGAGGCGGTGATGTGCCGCTCGCTGATCAGCGTGGACTGGCAGGGCTACCTCTACGACTGCGACTTCAACCAGATGCTCGATCTGCCGTTGCAACTGATCGGCCGCGACCGCGCCCATTTGCGCGATCTGCTGGGCGCGACGCTGGCGGGCAACCCCATCGTCACCCGCGACCACTGCTTCGCCTGCACCGCCGGGCAGGGCTCCAGTTGCGGCGGTGCGTTGGGATAG	MHAMLPLLDRLAFPAIRRSALEALQVNLTYRCNQRCLHCHVNAGPTRTESMSDETLSILHRVIDAHPVHTLDLTGGAPELHPRFRDIVRHARREGLRVIDRCNLTILSEPGQEDLAAFLAGQGVEITASLPCYSRENVDRQRGEGVFAASIAGLRQLNALGYGEAGSGLVLNLVYNPQGPSLPPPQEKLEADYKRHLIEDFGIRFDHLLCITNQPIARFGSTLVSKGQFNAYMQLLRDSYRAENLEAVMCRSLISVDWQGYLYDCDFNQMLDLPLQLIGRDRAHLRDLLGATLAGNPIVTRDHCFACTAGQGSSCGGALG				NA	NA	NA	NA	NA
BMS010_05819	417			hypothetical protein	ATGCCACGCTTCGCCCTGTTCTTCGCCGCCGGCTTCCTCGCCGTGCTCTGCTTCCACCAACCCGTGGTCGGGCTGCTGCATGCCTATGGGGTGATTCCCTTCGCGCCGTTCAATACCCAGCCCACGGTGCCGCTGGGCGTGCCGGCCTGGCTGTCTGCCGCCTTCTGGGGTGGCGTCTGGGGCGTAGTGATGCTCTGGGTGCTGCGCTGGGAGGCGGGTAAACCGCAACCCTGGCTCAAGGCGTTGCTGTTCGGCGGCATCGCCCTGACCGCCGTGGCCTTGCTGGTCGTCCGGCCGTTAAAAGGGCAAGGGCTGGAACTCGCCGCGCTGCCGCCGCGCTTTCTGCTTGGCTTTCTGATCAACGCGACCTGGGGTGTCGGTACCTTGATCTTCGCCCGTACCTTCAGAACGGTTTAG	MPRFALFFAAGFLAVLCFHQPVVGLLHAYGVIPFAPFNTQPTVPLGVPAWLSAAFWGGVWGVVMLWVLRWEAGKPQPWLKALLFGGIALTAVALLVVRPLKGQGLELAALPPRFLLGFLINATWGVGTLIFARTFRTV				NA	NA	NA	NA	NA
BMS010_05820	1188	rssB_4		Regulator of RpoS	ATGTCCGTTCCCGCTCCCTATGTCCTGATCGTCGAAGCCGAGGCGGTCACCGCCGACCTGCTTCAGCGCATGGTTCGGGAGGTACGGACGGATGCCGAAGTCGTTGCGATGGCTGACGGGAAAGCCGCACTGGTTGCCTGCGAGCAGCGCCTGCCTGACCTGGTGATTGCCGATGGCGAGCTACCCGGCCTGCCGGGCCTGGAATTGCTGCGCGCATTGCGTGGCCAGCCGCGGGCGGTGGGATTGCCGTTCGTGCTGATGAGCGCGCGTCTCGATGCGGCCAGCGTGCGGGCCGCCCTGCCATTGGCGCCATCTGCCTATCTGGCGCGTCCGCTGGACCCGGCCAAGCTGCGCCAACGTCTGCACGGCTTGCTGGGGACTGCGACCGATACCGTGGCGAAACGAAGCCTCAACGACTATCTCGACAGCGTGCGTCTGCAAGGGCAGGGCGCGCCCTTGCTCGGCGAGGTACGTGTCGCCGTCGGGCAATACTTGCAGGCGAGCGAGAAGAGTCTTAGCGAGCTGAACGATGCGTTCGCGCGCGATCCGCAGATCACGGCTCGCCTGATCGCCGTCGCCAACAGCGCCGGCCAGCACCGGGGCGCGCCTTGTCAGACGCTGATGCAGGCGCTGCCGCACCTCGGGGTCACCCGCGCCCTGAATCTGGTGCTGAACCTCAGCCTGCAACGCAGCGCCAGCCTGCGTGACGAGCGTCTGGCCGAGCGGGCGGGTAAGGCCTGGGCCCGCGCGCAGCAGAGCGCCGAACTGGCCCACTGGCTGGCGGGCGAGTTGGCCCTGGATGCGGAGGTCTGCTACACCGCCGGCCTGCTGCACAACCTGGGCGATCTCGCCCTGCTGCGCAGCCTGCAGGACTGGCGCAACAGCGGAGGCGGGCTCAGCGATGCCGAGATCGACCGGGCCATGGCGCAGCACGCGTCCGGCTTCGGTTCCGCGCTACGTGTCCAGTGGCGCCTGCCGATCGGTCTGCGCGAATTGGTCTCGGCATTCTACGGGCTCGGCCAGAAGGCTTTTTCCCGTGAGGCGCTGGTACTCAACCTGACCGGCCAACTGATGAACCTGCCACCGGACAAAGCGCCCCTGGCCCTGCTCGAGGCTCGCGCGGCGCGCCTGCTACGCTTGAAGGCGGACCTGTTGGAGCGGTTGCCGGCCGATCTCTTCGCTTCCTAA	MSVPAPYVLIVEAEAVTADLLQRMVREVRTDAEVVAMADGKAALVACEQRLPDLVIADGELPGLPGLELLRALRGQPRAVGLPFVLMSARLDAASVRAALPLAPSAYLARPLDPAKLRQRLHGLLGTATDTVAKRSLNDYLDSVRLQGQGAPLLGEVRVAVGQYLQASEKSLSELNDAFARDPQITARLIAVANSAGQHRGAPCQTLMQALPHLGVTRALNLVLNLSLQRSASLRDERLAERAGKAWARAQQSAELAHWLAGELALDAEVCYTAGLLHNLGDLALLRSLQDWRNSGGGLSDAEIDRAMAQHASGFGSALRVQWRLPIGLRELVSAFYGLGQKAFSREALVLNLTGQLMNLPPDKAPLALLEARAARLLRLKADLLERLPADLFAS				NA	NA	NA	NA	NA
BMS010_05821	1281	davT_2	COG0160	5-aminovalerate aminotransferase DavT	ATGAGCAAGACCAACGAATCCCTGATGCAACGCCGTGTAGCCGCTGTTCCACGGGGCGTCGGACAGATCCACCCGATCTTCGCCGCCAAGGCGGAGAACGCCATCGTGACCGACGTGGAAGGCCGCGAGTTCATCGACTTCGCCGGTGGCATCGCCGTGCTCAACACCGGCCACCTGCACCCGAAAGTGGTGGCGGCGGTACAGGATCAACTGACCAAGCTGACCCACACCTGCTTCCAAGTCCTCGCCTATGAGCCCTACGTCGAGGTCTGCGAGAAGGTCGCTGCACGCGTGCCGGGCAACTTCGCCAAGAAGACCCTGCTGGTGACCACCGGCTCCGAGGCGGTTGAGAACGCGGTGAAGATCGCCCGTGCCGCCACCGGCCGCGCCGGGGTGATCGCCTTCACCGGCGGCTACCACGGCCGCACCATGATGACCCTGAGCCTGACCGGCAAGGTGGTGCCGTATTCCGCCGGCATGGGCTTGATGCCCGGTGGCGTCTATCGCGCCCAGTACCCCTGCGAGTTGCACGGCGTGAGCGTCGACGACGCCATGGCCAGCATCGAGCGCATCTTCAAGAACGATGCCGAACCGCGCGACATCGCCGCGATCATCATCGAGCCGGTGCAGGGCGAAGGCGGCTTCTACGTGGCGCCGAAGGAGTTCATGCAGCGCCTGCGCGCGCTCTGCGACCAGCACGGTATTCTATTGATCGCCGACGAGGTGCAGACCGGCGCCGGCCGTACCGGCACCTTCTTCGCCATGGAGCAGATGGGCGTCGCGGCTGATCTGACCACCTTCGCCAAATCCATTGCTGGCGGTTTCCCGCTGGCCGGTGTCTGCGGCAAGGCCGAGTACATGGATGCCATCGCTCCCGGCGGCCTGGGCGGCACCTATGCCGGCAACCCGCTGGCCTGCGCCGCGGCCTTGGCGGTGATGGACGTATTCGAGGAAGAGAACCTGCTGGATCGCTGCAAGGCGGTCGGCGAGCATCTGGTCACCGGCCTCAAGGCCATCCAGGCCAAGCACAAGTCTATCGGCGACGTGCGTGCCCTGGGCGCGATGATCGCCGTCGAGCTGTTCGAAGGTGGCGATGTGCATAAGCCGGCCGCTGCGCTGGTCGGCCAGATCGTCGCCAAGGCACGCGAGAAGGGCCTGATCCTGCTCTCCTGCGGTACCTACGGCAACGTGCTGCGCATCCTGGTGCCGATCACCGCGCCGGATGAGGTGCTGGACAAGGGCCTGGCGATCCTCGCCGACTGCTTCGACGAACTCGCCTGA	MSKTNESLMQRRVAAVPRGVGQIHPIFAAKAENAIVTDVEGREFIDFAGGIAVLNTGHLHPKVVAAVQDQLTKLTHTCFQVLAYEPYVEVCEKVAARVPGNFAKKTLLVTTGSEAVENAVKIARAATGRAGVIAFTGGYHGRTMMTLSLTGKVVPYSAGMGLMPGGVYRAQYPCELHGVSVDDAMASIERIFKNDAEPRDIAAIIIEPVQGEGGFYVAPKEFMQRLRALCDQHGILLIADEVQTGAGRTGTFFAMEQMGVAADLTTFAKSIAGGFPLAGVCGKAEYMDAIAPGGLGGTYAGNPLACAAALAVMDVFEEENLLDRCKAVGEHLVTGLKAIQAKHKSIGDVRALGAMIAVELFEGGDVHKPAAALVGQIVAKAREKGLILLSCGTYGNVLRILVPITAPDEVLDKGLAILADCFDELA	PGPT0007655_39	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	INSECTICIDAL_COMPOUNDS	INSECTICIDAL-GAMMA-AMINOBUTYRIC_ACID_BIOSYNTHESIS,PGPT0007655-davT|gabT-K14268	NA	NA
BMS010_05822	1452	davD_5	COG1012	Glutarate-semialdehyde dehydrogenase	ATGCAACTGAAAGATGCCTCCCTGTTCCGCCAGCAAGCCTATATCGACGGAACTTGGCAGGACGCCGACAACGGTCAGACGATCAAGGTCAACAACCCCGCGACCAATGAGATCATCGGCACCGTGCCCAAGATGGGGCGTGCGGAAACCCGCCGCGCCATCGAGGCCGCCGAGCGGGCGTTGCCGGCCTGGCGTGCGCTGACCGCCAAGGAGCGGGCGAACAAGCTGCGTCGCTGGTTCGAGCTGATGATGGAGAACCAGGACGACCTGGGCCGACTGATGACGCTAGAGCAAGGCAAGCCGCTGGCCGAAGCCAAGGGCGAGATCGCCTATGCCGCTTCCTTCATCGAGTGGTTCGCTGAAGAAGCCAAGCGCGTTTATGGCGATACCATTCCTGGCCACCAGCCGGACAAGCGCATCATTGTGATCAAGCAGCCGATTGGTGTGACCGCAGCTATCACCCCCTGGAACTTCCCGGCGGCAATGATCACCCGCAAGGCGGGTCCGGCCCTGGCCGCCGGCTGCACCATGGTGATCAAGCCGGCCAGCCAGACACCGTTCTCCGCGCTGGCGATGATGGAATTGGCCGAGCGGGCCGGTATTCCGAAGGGCGTGCTAAGTGTCGTGACCGGCAGCGCCGGCGAAGTGGGTGGCGAGCTGACCAGCAACCCGATCGTGCGCAAGCTGTCTTTCACCGGCTCCACCGAGATCGGCCGCCAACTGATGGCTGAGTGCGCCCACGACATCAAGAAGGTGTCCCTGGAGCTGGGCGGCAACGCACCCTTCATTGTCTTCGACGACGCCGACCTGGACGCCGCCGTGGAAGGCGCGCTGATCTCCAAGTACCGCAACAACGGCCAGACCTGCGTTTGCGCCAACCGCTTGTATGTGCAGGACGGCGTCTACGATGCTTTCGTCGAGAAGCTCAAGGCGGCGGTGGCCAAGCTGAAGATCGGCAATGGCCTGGAAGAGGGCGTTACCACCGGTCCGCTGATCGATGACAAAGCCGTGGCCAAGGTGAAGGAGCACATCGACGATGCGCTGAACAAGGGCGCCAAGCTGGTCGCGGGCGGCAAGCCCCATACCTTGGGCGGCAGCTTCTTCGAGCCGACCATTCTGGTCGATGTACCGACGACCGCGGCGGTGGCCAAGGAAGAGACTTTCGGCCCGCTGGCTCCGCTGTTCCGCTTCAAGGACGAGGCCGAGGTGGTCGCCATGGCCAACGACACCGAGTTCGGTCTCGCTTCCTATTTCTATGCCCGCGACCTGTCCCGCGTATTCCGCGTGGCCGAAGCGCTGGAATACGGCATGGTCGGCATCAACACTGGGATCATTTCCACCGAGGTGGCGCCGTTCGGCGGCGTGAAAGCGTCCGGCCTGGGTCGCGAGGGTTCCAAGTACGGCATCGAGGACTACCTGGAGATCAAGTACCTCTGCCTCGGCGGTATCTGA	MQLKDASLFRQQAYIDGTWQDADNGQTIKVNNPATNEIIGTVPKMGRAETRRAIEAAERALPAWRALTAKERANKLRRWFELMMENQDDLGRLMTLEQGKPLAEAKGEIAYAASFIEWFAEEAKRVYGDTIPGHQPDKRIIVIKQPIGVTAAITPWNFPAAMITRKAGPALAAGCTMVIKPASQTPFSALAMMELAERAGIPKGVLSVVTGSAGEVGGELTSNPIVRKLSFTGSTEIGRQLMAECAHDIKKVSLELGGNAPFIVFDDADLDAAVEGALISKYRNNGQTCVCANRLYVQDGVYDAFVEKLKAAVAKLKIGNGLEEGVTTGPLIDDKAVAKVKEHIDDALNKGAKLVAGGKPHTLGGSFFEPTILVDVPTTAAVAKEETFGPLAPLFRFKDEAEVVAMANDTEFGLASYFYARDLSRVFRVAEALEYGMVGINTGIISTEVAPFGGVKASGLGREGSKYGIEDYLEIKYLCLGGI	PGPT0001580_3358	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135	NA	NA
BMS010_05824	2121	fhuA_3	COG1629	Ferrichrome outer membrane transporter/phage receptor	ATGAATATCGAAACCGAAGGCAGACACCGCAAAACCGCGCGACGTCGTTATCAGGATACGGCGCTGCTTGCCTGCACGGCGCTTGTCGCCACCCTGCCCGGCCCCTTGCCGGCGCAGGAGGCTGCCAACACGAACAGCAGCACGGTTCTGGAACGGATCACCATCGAAAGCGGTGACAATGACCAGAAGTCCATCGTCGCCAACCGCACGACGAGTGGCAGCAAGATGGCGACCGATATTCTCGACACACCGGCCTCGGTCTCCGTCATCACCGCCAAGGAAATGCAGCAGCGCGGCGTGCAGAGCGTGGAAGAAGCGCTGCAATATACCGCCGGTGTAACCACGGATTTTTACGGCTCCGACGACCGGTTCGACTATTTCAAGATTCGCGGTTTCGACGCTTATACCTATCGCGACGGGTTGACGCTTGGCCGTCCCTTCGGCGCGCTGCGCGAGGAAACCTATGCCTATGAGCGTGTTGAAGTGCTGAAGGGCGGCAATTCCACCACCTTTGGCGTCTCAGATCCCGGCGGCTCGGTGAATTACTCCACCAAGGTGCCGAAACGCACCCGTTTCGGTGAAGCCTATGTCACCGGCGGCTCCTATGGCCGCGCCGAAACCGGCTTCGATTTCGGGGACAACATCACCAGCGACGACACGCTGTCCTATCGCCTGACCGGCAAGCTCAGAAATGCCGATGCGGAATATGACTATTCCCGCGACGACGAGAAATTCTTCATGGGCGGCCTGACATGGCGTCCCACGGACGTCACCAGCCTTACCGTAGTTTACGATCATCTCAACAAGGATGGCGTTCCGGGCGGCGGCGGCCATCCCGTCGGCTCGCATTTCGACCGGAGCCGTTTCTTCGGCGAACCGGACTACAATTATCGCGGCACAAACCGCAATTCGCTGAGCGTGATGTTCGACCACGATTTCGGCTCCGGCCTGACGCTGAGTTCCAACGCCCGCTACAGCAAGGCGAATACGGACTTCGGTTATGCTTACATCTCGTCCACGCCGACCAACGGTTCGACAATCGCCAACCGGTCCTATTTCGGCAACGACACCGAGACCGAAAACTTCCTGGTCGACACGCGCCTGCAATACGATACGCGGTTTGAAAATGTCGAAAGCCGCAGCCTCGTCGGCGTCTTCTACAATGACTACACCTCCGGCAGCAAAAACTACTTCGGCGCTGCGCCGAGCATCAACTGGATGAACCCGGTCTATACCGGCGCACCCTCCACGGTGCCGCTCTTCTCCAACTCGCTGACCGACCAGAAGACTAGGGCGATCTACCTGCAACAGGACCTGACCTTCTTCGACAGGCTGATCGTCAGCGCCGGCCTGCGCAACGACTGGATCGACACCGACCAGACCAACCGGCTGAACGGCACGACGGCGAGCGGCGACATCAGCGAACTGACCAAGCGTATCGGCGTGTCCTACAAGGTCACCAATGAAATCGCGCCCTATATCAGCTACGCCGAGTCGGTGGTGCCGGCATCTGGTCTGACGGTAGAGCCCGAACGCGGCGAACAGATCGAACTCGGCGTGAAATATCGTCCGGACGCTTTCCCGGCCCTGTTCACCGCGTCGATCTACGATCTGAAGAAGAACAACATCACCGTCACCAGCCCGATCACCAGCCTGCCGACGACCATCGGCGAGGTGCGTGTGCGCGGTCTCGATCTCGAAGCCAAGGCGGAAGTCACCGACAATCTCAGCCTGACGGCCGCCTATTCCTATCTCGACGCGGAAATCACTGAAAACGGCACCGGCGGTAACGTTGGCAACCGGCCGCAATTCGTGCCCGAGCATCAGGCCTCGCTGTGGGTCAACTACACGCTTGCGGGCAACGACCATTTCGGTGACATGACCTTCGGTCTCGGCGGTCGCTATACGGGCGCTTATTATTTCGACAATGCCAACAAGGTCGAAACCGGAAGCAGCGTGACAGTGGATGCGGCGTTCAGCTACAAGATTCAGGAAACCGCCTCGCTGGACGTCAATGTTTCGAACATCTTTAACGAAAAACACGTCTCTTATGGCGGGTTCGGCGCTGACTTTTACAATCCCGGCCGGGCCTTTTCCGTGACTTTGCGAAAGACATGGTAA	MNIETEGRHRKTARRRYQDTALLACTALVATLPGPLPAQEAANTNSSTVLERITIESGDNDQKSIVANRTTSGSKMATDILDTPASVSVITAKEMQQRGVQSVEEALQYTAGVTTDFYGSDDRFDYFKIRGFDAYTYRDGLTLGRPFGALREETYAYERVEVLKGGNSTTFGVSDPGGSVNYSTKVPKRTRFGEAYVTGGSYGRAETGFDFGDNITSDDTLSYRLTGKLRNADAEYDYSRDDEKFFMGGLTWRPTDVTSLTVVYDHLNKDGVPGGGGHPVGSHFDRSRFFGEPDYNYRGTNRNSLSVMFDHDFGSGLTLSSNARYSKANTDFGYAYISSTPTNGSTIANRSYFGNDTETENFLVDTRLQYDTRFENVESRSLVGVFYNDYTSGSKNYFGAAPSINWMNPVYTGAPSTVPLFSNSLTDQKTRAIYLQQDLTFFDRLIVSAGLRNDWIDTDQTNRLNGTTASGDISELTKRIGVSYKVTNEIAPYISYAESVVPASGLTVEPERGEQIELGVKYRPDAFPALFTASIYDLKKNNITVTSPITSLPTTIGEVRVRGLDLEAKAEVTDNLSLTAAYSYLDAEITENGTGGNVGNRPQFVPEHQASLWVNYTLAGNDHFGDMTFGLGGRYTGAYYFDNANKVETGSSVTVDAAFSYKIQETASLDVNVSNIFNEKHVSYGGFGADFYNPGRAFSVTLRKTW	PGPT0003790_22464	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS010_05825	1011			hypothetical protein	ATGCTTCGCCCGTTTCGCTGCGTCCTGCCGGTATTTGTGCTTTTCCTGTCGCTGATCGCGCCGAATATGGCCTCGGCGGAGGAGACGACCAGCTATCCCGTCGTCATCAAACATGCTTTCGGCACGACCACGATTGCGAAGAAACCGCAGCGGGTCGCGACTGTCGCTTGGGCCAACCATGAGGTGCCGCTGGCGCTCGGCATAGTGCCCGTCGGTTTTGCGGCGGCCAATTTCGGCGATGATGATGGCGACGGCCTGCTGCCATGGGTGGCGAAGCGGCTTACCGAACTCGAACCGGCAAAGCCTGTGCTGTTCGACGAGGGCGACGGCATCGATTTCGAGGCCGTGGCGGCGACGCAGCCGGATGTCATCCTTGCCGCCTATTCAGGCCTCAGCCAGTCCGACTACGATACGCTGAGCCAGATCGCCCCTGTCGTTGCCTATCCCGTTTCTCCCTGGGCGACGGACTGGCGCGAAATGATCCGGCTGAACAGCGCCGGCCTTGGCATGGTTGCGGAAGGTGAGGAGCTCATCAAACGCATCGAGGGTGAGATCGCGCAGGTCGTTGCCGGCCACCCGCAGTTGAAGGGCAAATCAGCCATGTTCGTCACCCATCTCGACGCCACCAATCTCAGCGTCGTCAATTTCTATACGGCCAATGACACCAGGGTGAAGTTCTTCACCGATCTTGGACTTGCCTCGCCGAAAAGCGTCGTGGAAGCCACGAAGCCGGGGCAATTCGCCGCCGGCGTGAGCGCTGAACGTGTGGATGCCTTCGACGATGTCGATATCGTCGTGACCTATGGCAGTGAGCCGCTGCTGAACGCCATGCGCGCCGATCCGCTTCTCGCCCGCATGCCGGCCGTTGCCAACAATGCCATCGTCATGCTGGGCCGCGACCCGCTCGGCACCGCCTCCAATCCCACGCCGCTGTCGATTTCGTGGGTGTTGAAGGACTATGCCGATCTTCTGGCAAAGGCTGCCGACAAATCCTCCGGGACATCGCAGTGA	MLRPFRCVLPVFVLFLSLIAPNMASAEETTSYPVVIKHAFGTTTIAKKPQRVATVAWANHEVPLALGIVPVGFAAANFGDDDGDGLLPWVAKRLTELEPAKPVLFDEGDGIDFEAVAATQPDVILAAYSGLSQSDYDTLSQIAPVVAYPVSPWATDWREMIRLNSAGLGMVAEGEELIKRIEGEIAQVVAGHPQLKGKSAMFVTHLDATNLSVVNFYTANDTRVKFFTDLGLASPKSVVEATKPGQFAAGVSAERVDAFDDVDIVVTYGSEPLLNAMRADPLLARMPAVANNAIVMLGRDPLGTASNPTPLSISWVLKDYADLLAKAADKSSGTSQ	PGPT0003765_5227	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003765-feuA|yvrC|ABC_FEV_S|fatB-K02016	NA	NA
BMS010_05826	1038	yfiZ_2	COG0609	putative siderophore transport system permease protein YfiZ	ATGTCTGGATCCGGCAAAGCGACGGCCGTGCTGCTCGCCGGACGCTCCAACCGCGTGCGAACGGCTTGGCTCGGCGCGGTGCTGGCGCTTCTCTCGCTGCTTTGTGCGCTGTCCGTCGCCATCGGCACGCGTGACGTCTCTTTTGCGGATATTGTTGGCGGGCTCAGCGGCCGCGTCGAGACGGTTGCAGAGGCGGCGGTTGCCGTGCGTTTGCCGCGCACGCTGCTTGCCCTGCTTGCCGGGGCCGCACTCGGGCTGGCCGGGGCCATCATGCAGGGTGTCACGCGCAATCCGCTTGCCGATCCCGGCATTCTCGGTGTGAACATGGGGGCGTCGCTCGCCGTCGTCATCGGCATTGTGTGGTTCGGCATCGCCTCGGCTCAGGCCTTCATCATGGTCGCAATTGCCGGGGCGGGGGTATCGGCGGTTTTCGTTTATGTTGTCGGTTCGCTCGGGCGAGGTGGGGCGACCCCGCTGAAACTTGCACTTGCAGGTGCCGCCACCTCCGTCGCCTTTTCCTCACTCGTCATCGCCGTCGTTCTGCCGCGCAGCGATATTGCCGGCGGCATCCGCTCCTGGCAGATCGGCGGCGTCGGCGGGGCGACTTTCGAGCGTATCGAGACCGTGCTGCCCTTTCTGGCCGCCGGCTTCATCGTCAGCCTGCTTTCGGCGCGCAAGCTGAATTCTCTGGCGCTTGGAGATGAACTCGCCGCCGGGCTTGGCGAGAATGTTGCGGTCGCCAGAGCCGTGGCCTCCTGCGGCGCCATCCTCCTCTGCGGTGCTGCCACCGCCATTTGCGGGCCGATCGGTTTTGTCGGGCTGGTGGTGCCGCATCTCTGCCGCCTGCTCGTCGGTGTGGACAATCGCTGGCTTTTGCCGTTTTCCGCGCTCGGCGGCGCCTGCCTGCTGCTTGCCGCCGATATTGTCGGGCGCATCGTGGCGCGGCCGTCGGAACTCGATGTCGGCATCGTCACCGCCCTTGTCGGTGCGCCTTTCTTCATCTGGATTGTCAGACGCCAGAGGGTGCGCGAATTGTGA	MSGSGKATAVLLAGRSNRVRTAWLGAVLALLSLLCALSVAIGTRDVSFADIVGGLSGRVETVAEAAVAVRLPRTLLALLAGAALGLAGAIMQGVTRNPLADPGILGVNMGASLAVVIGIVWFGIASAQAFIMVAIAGAGVSAVFVYVVGSLGRGGATPLKLALAGAATSVAFSSLVIAVVLPRSDIAGGIRSWQIGGVGGATFERIETVLPFLAAGFIVSLLSARKLNSLALGDELAAGLGENVAVARAVASCGAILLCGAATAICGPIGFVGLVVPHLCRLLVGVDNRWLLPFSALGGACLLLAADIVGRIVARPSELDVGIVTALVGAPFFIWIVRRQRVREL	PGPT0003770_4094	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_TRANSPORT,PGPT0003770-feuB|feuC|chuU|yfhA|hmuU|ABC_FEV_P|fatC|fatD-K02015	NA	NA
BMS010_05827	1041	yfhA_2	COG0609	putative siderophore transport system permease protein YfhA	GTGACCATATACGCTCCCGTCATCGAAAATCTCGTCTTCAATCGCCATGCCCGCCAGCGCCGGCGTCGCCTTGTCATCGTCGTCCTGTCGGCGCTTCTGATTGCCGCTTTCGCAACAACGCTGGTGCTCGGGCAATCTTTCACGCCGCCCGGCGATGTCATTCGGGTTCTGCTGGGGGAGGACATTGGCGGCGTCACCTTCACCGTCGGGCAGTTGCGCCTGCCGCGCGCGCTGCTTTCGATTTTGGCAGGCCTGAGCTTCGGGCTTGGCGGCGTCGCCTTCCAGATCATGTTGCGTAACCCGCTCGCCAGCCCCGATATTATCGGCATCAGTTCTGGCGCGAGCGCGGCAGCCGTTTTCGCCATCGTCGTCCTGCAGATGAGCGGGCCGCTGGTCTCGGTCTTCGCCGTCGCGGCCGGTCTTGGCGTCGCGCTTCTCGTCTATCTCCTCTCCTTCCGCAACGGCGTGGCCGGAACGCGGCTGATCCTCGTCGGCATCGGCGTTTCAGCCATGCTGGAAAGCTTCATCGCCTATATCCTCTCCGTCGCGCCAGCATGGACGCTGCAGGAGGCGATGCGCTGGCTGACCGGCAGCGTCAACGGCGCGAAAATCGCGCAACTGCTGCCGCTCCTCATCGCGCTTATCCTTTTCGGCGGCTTGCTCCTCAGCCGTGCGCGCGATCTGGAAGCGTTGAGACTGGGGGACGACGCTGCCGCAGCGCTTGGTGTAAGGGTAGGGCGAACGCGCATCATCGTCATCATCGCCGCCGTGGGCATGATCGCCTTTGCAACGGCGGTGTCGGGTCCCATCGCGTTTGTCGCTTTCCTCTCCGGGCCGATTGCGGCGCGCATTGTCGGCAGCAACGGCTCGCTGCTCCTTCCTGCGGCGCTGGTTGGGGCGGCGCTGGTGCTGGTGGGCGATTATTGTGGCCAGTTCCTGTTGCCGGGCCGTTACCCGGTCGGCGTCGTTACCGGCGCGCTCGGTGCGCCCTATCTGATTTACCTTATCGTGCGGGTCAACCGCAGCGGAGGCTCGTTATGA	MTIYAPVIENLVFNRHARQRRRRLVIVVLSALLIAAFATTLVLGQSFTPPGDVIRVLLGEDIGGVTFTVGQLRLPRALLSILAGLSFGLGGVAFQIMLRNPLASPDIIGISSGASAAAVFAIVVLQMSGPLVSVFAVAAGLGVALLVYLLSFRNGVAGTRLILVGIGVSAMLESFIAYILSVAPAWTLQEAMRWLTGSVNGAKIAQLLPLLIALILFGGLLLSRARDLEALRLGDDAAAALGVRVGRTRIIVIIAAVGMIAFATAVSGPIAFVAFLSGPIAARIVGSNGSLLLPAALVGAALVLVGDYCGQFLLPGRYPVGVVTGALGAPYLIYLIVRVNRSGGSL	PGPT0003770_4211	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_TRANSPORT,PGPT0003770-feuB|feuC|chuU|yfhA|hmuU|ABC_FEV_P|fatC|fatD-K02015	NA	NA
BMS010_05828	825	yusV_2	COG1120	putative siderophore transport system ATP-binding protein YusV	ATGACCGGCCACTCCCTTTCCGTGAATGGCCTGTCGGCCGGCTACGGCGAAAACCTCATTATCGACGGGCTGGATCTCACCGTTCCGCGCGGGAAGATCACCGTCATCGTCGGCGCCAATGCCTGCGGCAAGTCCACCCTGCTGCGCAGCATGTCGCGGCTCATTGCGCCGCGCGCCGGTCAGGTTCTGCTCGATGGAAAATCGATCCATCGTCTTCCCTCACGCGACCTCGCACGGCGCATGGGCCTTTTGCCGCAATCGCCGATAGCGCCGGAGGGCATCGTGGTTGCCGATCTGGTCAGCCGTGGCCGGCACCCGCATCACGGCCTGTTCGCCCGCTGGTCGCGACAGGACGACGAGGCCGTCGCCGCAGCCCTTGTCGCAACCGATACGGTGGAACTGGCCGAGCGGCCGGTGGACGAGCTTTCCGGCGGCCAGCGGCAACGCGTCTGGATCGCCATGGCGCTCGCTCAGCAGACAGACATATTGCTGCTGGATGAACCGACCACCTTCCTCGATATTAGCCACCAGGTCGAGGTGCTGGATCTTCTGACCGATCTCAACCACGCCCGGGAGACCACCATCGTCATGGTGCTGCACGACCTCAATCTCGCAGCCCGTTATGCCGATCATCTCGTCGCCATGAGGGACGGGAAGCTGCATGTCTTCGGCACGCCGGAGGACGTATTGACGGAGGAGAATGTCCGCCACGTCTTCGGCATCGAAAGTCGGGTCATCGAAGATCCGACCTCGGGCAAGCCGATGATGCTGCCGATCGGGCGGCATCGAACGGTGGCGGGGGCGGCAAAAGCCGTATCTCTTTAA	MTGHSLSVNGLSAGYGENLIIDGLDLTVPRGKITVIVGANACGKSTLLRSMSRLIAPRAGQVLLDGKSIHRLPSRDLARRMGLLPQSPIAPEGIVVADLVSRGRHPHHGLFARWSRQDDEAVAAALVATDTVELAERPVDELSGGQRQRVWIAMALAQQTDILLLDEPTTFLDISHQVEVLDLLTDLNHARETTIVMVLHDLNLAARYADHLVAMRDGKLHVFGTPEDVLTEENVRHVFGIESRVIEDPTSGKPMMLPIGRHRTVAGAAKAVSL	PGPT0003760_1714	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003760-yusV|ABC_FEV_A|feuD-K02013	NA	NA
BMS010_05829	282	higB-1	COG3549	Toxin HigB-1	ATGATCCGTTCTTTCAAAAACAAGCTGACCGCATCGATTGACGACGGATCTGTGAAGAAGGGCTTCCCCGCCGATCTGGTACGCCGCGCCCAGCAGCTGCTCACGATCCTGGATGCGGCGACCACGGTAGAAGACCTTCGCTCACCGCCCGGCAATCGTTTGGAAAAGCTGTCCGGCGATCGTGAGGGCCAATATTCGATCCGGATTAACAAGCAGTGGCGCATCTGCTTCGTCTGGACGGAAGCAGGGCCGGAAAGCGTGGAAATAACCGACTATCACTAG	MIRSFKNKLTASIDDGSVKKGFPADLVRRAQQLLTILDAATTVEDLRSPPGNRLEKLSGDREGQYSIRINKQWRICFVWTEAGPESVEITDYH	PGPT0027575_605	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HigB-HigA_TOXIN-ANTITOXIN_SYSTEM,PGPT0027575-toxin_higB_like-K07334	NA	NA
BMS010_05830	300	ybaQ	COG3093	putative HTH-type transcriptional regulator YbaQ	ATGACAATCAGTAAATCGCCTCCGATCCATCCGGGCGAAATCCTGCGGGAACTCTATCTTGAGCCGCTGGGGATGTCGGCTTACGCTCTTGCAAGGCACCTCAATATTCCGCGCACCCGCATAGAACGGATTGCGGGAGAGAAACTTGGTATCACCGCCGACACCGCCTTGCGCCTTGCAAAGTTTTTCAAGACCACACCGGAATATTGGCTGAACTTGCAGAACGCCTTTGACATTAAGGCGGCGGCTGTGAAGCTGGAAGCGGACCTTGCCAATATCAAGGAACTGGAAGCGGCCTAA	MTISKSPPIHPGEILRELYLEPLGMSAYALARHLNIPRTRIERIAGEKLGITADTALRLAKFFKTTPEYWLNLQNAFDIKAAAVKLEADLANIKELEAA	PGPT0027585_1275	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HigB-HigA_TOXIN-ANTITOXIN_SYSTEM,PGPT0027585-antitoxin_higA_1-K21498	NA	NA
BMS010_05831	873	rhaR_5		HTH-type transcriptional activator RhaR	ATGGCGATGCATAGCCAGATTGCCGGCAATCGCGTGGAGATCACGGCGCGCACCCTCGCCTCGACGCTGCGCATATCCGAGTTCCGGCTGGAATCGGATAGTGCCCATCTGCTTCTCCTGTCGGCCGGGGAAGCGGAAATCATACAGGGCGAAAAGACGCTGCCTGTCCCAGCACCGGGGCTCGTCTGGCTGCCCATCGGCCCCGCCGGCCGCCTGCGGCTGACTGCCGGAAGCCGTGGATCGCTGCTGAGGACGAGCGAAATCGGGCTTGCCCATGCGATGCCCACCGGCACGAGCGCAAGCGCCGTGCGCAATATATTGCAGCGTGTTCTGACGCAGGCGCCGGCGGAGAAAGACCGGCAGGAACTTGCGGGTTATCTCGAGACCATCGCCCGCGAAAATGTCCGCGCGACAACCGGTTCGGACACGATCATCGCCAGCCTGCTCTCCGTCACCCTCATTCGCATCTGCCAGCACGCCATAGCCGATATTGCCGCAGCCGTCTCAACGCCCGGCAGCCTCACCGAGCGTTTCGTGCTGCTGGTCAGCCAGCACAAACGCGATCAATGGGGCGTGGAAGATTATGCAAGGCAACTCGGCGTCAACCGCGAACGTCTTGGATTTGCGGTGCGCAAGGCGACGGGGCTTTCGCCGCAGGCCTATATTCATCGGGAACTGTTGTCCGAAGCGCGTGACCTTCTTCTGAACTCATCGCTGCAAGTGGCTGAAATCGCATTCCGATTGGGATTTCAGGACCCCGGCTATTTCAATCGCTTCTTCACCCGCAACGAGGGCACGTCTCCCGGCCGTTTCAGGAGAACGGCAACGCGAATGCAGAACGTGCCGCCGCCGTCTTATGCGGCCTGGCCGTGA	MAMHSQIAGNRVEITARTLASTLRISEFRLESDSAHLLLLSAGEAEIIQGEKTLPVPAPGLVWLPIGPAGRLRLTAGSRGSLLRTSEIGLAHAMPTGTSASAVRNILQRVLTQAPAEKDRQELAGYLETIARENVRATTGSDTIIASLLSVTLIRICQHAIADIAAAVSTPGSLTERFVLLVSQHKRDQWGVEDYARQLGVNRERLGFAVRKATGLSPQAYIHRELLSEARDLLLNSSLQVAEIAFRLGFQDPGYFNRFFTRNEGTSPGRFRRTATRMQNVPPPSYAAWP				NA	NA	NA	NA	NA
BMS010_05832	1215			hypothetical protein	ATGAATAATCTGAAGCGCAGAACGCTGTTCTGCCTGCTCTCCGGTGCTGCCTTGTCGGCGGTATCTTTCGGTCACGCCATTGCGCAGGACCGTACCTCGGTGAAGATCGGTTATGCCGTTTCGAAAAGCGGTGCAAATGCCACGGGTGCTGGCATAACCACCATTCCGAACTACAAATTATGGGTGAAAGAGGTCAACGACGCAGGCGGCCTCACCCTTCCGGATGGCAAGCGCCTGCCGGTGGAAGTGGTGGAGTATGACGACCGGTCCTCGGCCGAGGATGCCGTGCGGTTCACCGAGCGTCTGGCGAGCCAGGACAAGGTCGATTTCATCCTGCCGCCTTGGGGCACGGGCTTCAATCTGGCCGTTGCGCCGCTTTACGACCGTTTCGGTTATCCACAGCTGGCCGTGACCGGCGTTACCGACAAGGCGCCCGATTTCGCGGCGCGCTGGAAAAAGAGCTTCTGGATGCTCGGCGGTGGTCATGACTATGCCAATGCACTGGCCGATGTCTTGAAAGCCGCACGCGAGGCCGGCCAGATCAACGATAAGGTCGCGGTGATTTCCGTGGCCGACGGTTTCGGCATCGATCTCATCAAGGCCGCGCGGCCGGCGCTGAAGGAAGCGGGTTTCACGCTTGCCTATGACAAGACCTATCCGGTCGGCACGTCCGATTTCGCAGCACTTGTGAACGAGGCGGCGGCGAGCGGTGCGGACAGCTTCATCGCCTTTTCCTATCCGCCCGATAGTTTTGCGGTGACGAAACAGGCGCAGACGGCGAAGTTCAACCCGAAGGTTCTTTATGTCGGCGTCGGCGGTGCTTTCCCGATCTTCCCGAAGGTTTCCGATGGCAAGCAGGAGGGCGTGATCAGCATCGGCGGCGTCGATGGCAGCAGCGACAAGATCGAGGATTATTTCAAACGCCACGAAGCCTTCATCGGCACCAAGCCGGACAGCTGGGCAAGCGCCATCACCTATGCGAGCCTCGAAATGCTGGCCCAGTCCATCCAGCGCGTCGGCCTCGACAAGGCGGCGGTGGCAAATGAACTTTCGACGGGAAGCTTCGAGACTGTCATCGGCCCGGTCAAGCTTGAAGACAACCAGCTTCGCCAGCTCTGGTGGGCCGGGCAATGGCAGGGTGAGCGTTTTGTCGCGATTGCGCCCGCAGACCGCGCAGGCGCGGCCAAGCCGGTCGTTCCGAAGCCGCAATGGTGA	MNNLKRRTLFCLLSGAALSAVSFGHAIAQDRTSVKIGYAVSKSGANATGAGITTIPNYKLWVKEVNDAGGLTLPDGKRLPVEVVEYDDRSSAEDAVRFTERLASQDKVDFILPPWGTGFNLAVAPLYDRFGYPQLAVTGVTDKAPDFAARWKKSFWMLGGGHDYANALADVLKAAREAGQINDKVAVISVADGFGIDLIKAARPALKEAGFTLAYDKTYPVGTSDFAALVNEAAASGADSFIAFSYPPDSFAVTKQAQTAKFNPKVLYVGVGGAFPIFPKVSDGKQEGVISIGGVDGSSDKIEDYFKRHEAFIGTKPDSWASAITYASLEMLAQSIQRVGLDKAAVANELSTGSFETVIGPVKLEDNQLRQLWWAGQWQGERFVAIAPADRAGAAKPVVPKPQW	PGPT0020765_5102	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020765-livK-K01999	NA	NA
BMS010_05833	873	livH_6	COG0559	High-affinity branched-chain amino acid transport system permease protein LivH	TTGTTTTTATCCACCCTCATCTTCGGCTTGATGCTGGGAGGGACCTATGCGCTGATCGCGCTTGGACTTTCGCTGCAATATGGCATTGCCCGCATCATGAACCTTGCCTATGGCGAAGTGCTGATTGCGGCTGCCTTCATCACATTCGTGCTGTTTTCCAGCTATGGCCTGTCGCCGCTCTTGTCGCTCTTCATCATCGTGCCGCTCGGTTACGCCCTGTCTTTCGTCATCTACCGGGTCATGATGCGGCCGCTGGTGCGCCGTTCGGGCGGCTCCGGCCGTCTGGAAGTCGATTCCATTCTGGCGACCTTCGGGCTGCTCTTCGTTATCCAGGGCATTATGCTCGTGGCGTTCGGCGGCAACTACCATTCCTATTCCTATCTCTCCGATGGCGTCGACATCTTCGGCACGACGGTGGCGCTGAACCGGCTCCTGTCCTTCGGCCTGTCGGTCGCGATCGGTGGCGGGCTTTATCTGGCGCTCACCCACAGCCGCTGGGGCCTCAACCTGCGGGCGGTGGCGCTTGCGCCCAAATCCGCGCCGCTGGTTGGCATTGATGTGAACCGTGTGGCCTCGATCGGCTTTGCCCTTGGTGGCGCACTCGCCGTGGCAGGTGGGGTGATGATTTCGATGTACCAGACCTTTTCCGCCTCATATGGCGTGGTCTTCACCATGAAGGCGCTTGTTGTCGTCATCATGGGCGGTGTCGGCAATCTGCTCGGCGCGCTGGTGGCCGGCCTGCTGCTCGGCCTCGTGGAAACCTTCGTGCTTGTTTATGTCGATCCCGGCCTCACGCTTGCCGCCACCTATCTGCTCTTTCTCGTGGTGCTGCTCTGGCGTCCGGAAGGCATCTTCGCAAGGAGGGGCAAATGA	MFLSTLIFGLMLGGTYALIALGLSLQYGIARIMNLAYGEVLIAAAFITFVLFSSYGLSPLLSLFIIVPLGYALSFVIYRVMMRPLVRRSGGSGRLEVDSILATFGLLFVIQGIMLVAFGGNYHSYSYLSDGVDIFGTTVALNRLLSFGLSVAIGGGLYLALTHSRWGLNLRAVALAPKSAPLVGIDVNRVASIGFALGGALAVAGGVMISMYQTFSASYGVVFTMKALVVVIMGGVGNLLGALVAGLLLGLVETFVLVYVDPGLTLAATYLLFLVVLLWRPEGIFARRGK	PGPT0020770_7704	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020770-livH-K01997	NA	NA
BMS010_05834	909			hypothetical protein	ATGATCCCGCTTCTCATCGGCCTTGCCACAGCCGCGCTGCTGGCGCTTTCCCCTTTCTTCTTCGATGCCTATGGCGTCGGCGTCATCATCGGCCTTCTCGGTTATGCGACGCTTGCCTCCGCCTGGGCGATGTTTTCCGGCCCGACGCGTTACATTTCGCTCGCCACCGTCGCCTTCTTCGGTGTCGGGGCCTACACGGTCGCGGTGCTGAGCGAGGTTCTGCCATGGCCGCTGGTACTCCTGTGCGCGGCGCTTGTCGGCGCGGCGCTGGCGCTTGTCGTCGGGCTGTCCACGCTGCGCGTCGCCGGCATTTATTTCGTGATCTTTTCCTTTGGCCTTGCCGAACTCATCCGCCAGCTCATCACCTGGTATGAGGTGAATGTGACCGGCACGCTCGGGCGTTATATCTTCCTGCCGCTGGAGCCGCAACACGTACTCTGGCAATTGCTGGCGCTGGCTGTCATCACCCTCCTGCTGGCAATCCTCATCGACCGCAGCAAGCTCGGACTGGCATTGAAGGCAATCGGTGACGACGAGGTCGTGGCCGCCCATGCGGGCATTAATCTCGCCCGCACCAAGCTGACGCTCTTCGTGCTGTCGGCCACGATCATCACGCTTGTCGGCGCCATTCAAGCCCCGCGCTGGGTCTATATCGAGCCGGCCATCGTCTTTAATCCGCAGGTATCGTTCCTCACCGTCATCATGGCGTTGCTTGGCGGAGCCACACGCCGCTGGGGACCCATTCTCGGTGCGGTGCCGCTGTTCCTGCTGTTCGAGTGGCTGGGCGCGAATTTCCCCAACCATTTTTCCATCATCCTCGGCGCTCTCTTCATCCTCATCGTCTTCGTGCTGCCGGATGGCGTGCTGGCGGCGCTGGAGAAATTGCGCAAAAAGGAGAAAGCCGCATGA	MIPLLIGLATAALLALSPFFFDAYGVGVIIGLLGYATLASAWAMFSGPTRYISLATVAFFGVGAYTVAVLSEVLPWPLVLLCAALVGAALALVVGLSTLRVAGIYFVIFSFGLAELIRQLITWYEVNVTGTLGRYIFLPLEPQHVLWQLLALAVITLLLAILIDRSKLGLALKAIGDDEVVAAHAGINLARTKLTLFVLSATIITLVGAIQAPRWVYIEPAIVFNPQVSFLTVIMALLGGATRRWGPILGAVPLFLLFEWLGANFPNHFSIILGALFILIVFVLPDGVLAALEKLRKKEKAA	PGPT0020775_9469	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020775-livM-K01998	NA	NA
BMS010_05835	729	glnQ_6	COG1126	Glutamine transport ATP-binding protein GlnQ	ATGAGCGCCGTTCTCGAAATCACCGATATCCGCAAGACCTTCGGCGGGCTGAAGGCGGTGGACGGCCTTGGCCTCACCATTAAGGCCGGCGAGGTCGTCGGGCTGCTCGGGCCTAACGGTTCCGGCAAGACGACGCTGATGAACCTTATCTCCGGGGCGCTGAAGCCCACTGAAGGATCGATCCGGCTCAAAGGGCAGGAGATTGCGGGCAGGCGACCGGATGTGATTGCACGCGCCGGCGTGGCGCGCACCTTCCAGCTTGTGCGGCTTTTGCCTTCGCTTCCCCTGCTCGAAAACGTTGCCGTATCGGCCATGTTCGGCCCGCAGCGGCTTTCACGCCCCGAGGCGGAGAAGGTCGCGCGCGCCTGCCTCGAAAGAATAGGCCTTGCCGGGCGGGAAACCATACCGGCCGGCGATCTAACCTATATCGACCAGAAACGCCTTGAACTGGCGCGTGCGCTGGCGGGCGAACCGAAGCTTCTGCTTCTCGATGAATGGCTTGCGGGCCTCAACCCCACGGAGCTGCAGGAAGGAATAGCGCTGATCCGGCGGCTGGCGTCCGAGGGTACGACGATCCTGCTGGTGGAACATATCATGGCCGCCGTGCGCGCGCTTTGCCCGCGCTCCGTGGTCATGGCCGCCGGTCGCAAGATCGCTGACGGGCCGACGGCAACGGTGCTTGACGATCCGCAGGTCATTTCCGCCTATCTAGGAGCGGCACATGCTTGA	MSAVLEITDIRKTFGGLKAVDGLGLTIKAGEVVGLLGPNGSGKTTLMNLISGALKPTEGSIRLKGQEIAGRRPDVIARAGVARTFQLVRLLPSLPLLENVAVSAMFGPQRLSRPEAEKVARACLERIGLAGRETIPAGDLTYIDQKRLELARALAGEPKLLLLDEWLAGLNPTELQEGIALIRRLASEGTTILLVEHIMAAVRALCPRSVVMAAGRKIADGPTATVLDDPQVISAYLGAAHA	PGPT0020780_9395	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020780-livG-K01995	NA	NA
BMS010_05836	723	livF_5	COG0410	High-affinity branched-chain amino acid transport ATP-binding protein LivF	ATGCTTGAAATAGATGCACTGACAATTCGCTATGGCAAACATCTCGCGGTTGACGGCATATCGCTCAATGTTGCCAAGGGCGAAACGGTGGTGCTGCTCGGCGCCAATGGCGCTGGCAAGTCGTCGCTGCTGAAAGCGGTCGGCGGCATGGTGGCTCCGGTCTCCGGCGAAGTGCGCGTCAATGGCGCGTCGCTTGCCGCTGTCCCCGCTCATCAGATTGTAGAGCGGGGCGTGGCGCTGGTGCCGGAGGGACGCGGAATTTTCGCGGCGCTGACGGTGGAGGACAATCTCCGTCTCGGGGCCAACCCCCGCCATGCCCGCTTAGCGGAAAAGGCGACACGAGAGCACATTTTTTCGCTGTTTCCCCGCCTTGCCGAGCGTCGGCAGCAGCTGGCCGGCACCATGTCCGGCGGCGAACAGCAGATGGTCGCCATCGGCCGCGCGCTGATGTCGGCACCCGATTATCTGCTGCTGGACGAGCCGAGCCTTGGCCTTGCGCCCATCGTTACGCAGGAACTTTTTGCCGCTCTGGCGGAGATCAAGAAGAGCGGCCTTTCCATTCTGATTGTGGAGCAGAATGTGCGCGAAAGCCTCGCACTTGCCGATCGCGGATATTTGCTGGAAGCAGGGCGGATTGTCGGGGCAGGCACGGCTGAGGCCCTGTCCGCCGATCCCGCCGTGCAACGGGCGTTTCTTGGCGGCACCACCGCCGCCATTGTCTGA	MLEIDALTIRYGKHLAVDGISLNVAKGETVVLLGANGAGKSSLLKAVGGMVAPVSGEVRVNGASLAAVPAHQIVERGVALVPEGRGIFAALTVEDNLRLGANPRHARLAEKATREHIFSLFPRLAERRQQLAGTMSGGEQQMVAIGRALMSAPDYLLLDEPSLGLAPIVTQELFAALAEIKKSGLSILIVEQNVRESLALADRGYLLEAGRIVGAGTAEALSADPAVQRAFLGGTTAAIV	PGPT0020785_4106	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020785-livF-K01996	NA	NA
BMS010_05837	1452	vdh_3		Vanillin dehydrogenase	ATGCAGACAGTCAATCTTTTCATCGGCGGCGACCATTGCCCGGCCACAAGCGGCAAGCGTTTCGAACGCAGCAACCCCATCACCGGCGATGTGGCGACGAGTGCTGCGGCGGCAACGGTGGAGGACGCCACCCGGGCAGCCGATGCCGCGGCGGCCGCTTTCCCGGTCTGGTCGGCAACGCCGCCCGGTGAACGCCGCCGCCTGCTTCTGGCTGCCGCGCAGGCGCTTCTCGCCGCCGGGCCTGACATTACCCAGGCGATGAAGGAAGAAATCGGCGCAACCGATGCCTGGGCCGGTTTCAACGTCAAACTGGCAAGCGATATGCTGGTGGAGGCGGCAAGCCTGACGACCCAGATCAAGGGAGAGGTCATCCCTTCCAACCGTCCCGGAACCATGGCGATGGCGCTGCGCCAGCCCGCCGGTGTCGTGCTGTCCATCGCGCCGTGGAACGCGCCGGTCATTCTCGGCGTGCGCTCCATCGCCACGCCGCTCGCCTGCGGCAATACGGTGGTGATGAAGACCTCGGAACTTTGCCCGCGCACCCATGCGCTGATCATCGAAGCCGTCGCTTCGGCGGGTCTGCCGAAGGGCGTGCTCAACGCCGTCTCCAATGCGCCCGAAGATGCGGCAAAGATCGTCGATACGCTTATCGCACACCCCGCCGTCAGACGCGTGAATTTCACCGGCTCGACCCGCGTTGGCCGGGTGATTGCCGAAACGGCCGGCCGTTATCTGAAACCCGCTTTGCTGGAGCTTGGCGGCAAGGCGCCGTTCATCGTGCTTGATGACGCCGATATCGATGCAGCTGTCGCGGCTGCCGCTTTCGGTGCCTATATGAACCAGGGCCAGATCTGCATGTCGACGGAGCGCATCATCGTACTCGACAGCGTTGCCGATGCGTTTGTGGAGGCCTTCGCCAAAAAAGCGTCGAGCCTCACGGCCGGCGATCCGCGTGAGGGCAAAACACCGCTCGGCTCGCTGGTCAGTGCGGAGGCAACATCGCGCATTCGGGCGCTGGTGGATGACGCTGTCTCCAAGGGCGCTCGGCAGGTTGCCGGTGGCGGCGGCAACGGCACGATGCTCGATGCGATTGCCGTCGATGGCGTCACCCCCGCCATGCGGCTCTATGCGGAGGAAAGCTTCGGTCCCGTTGTCTCCATCATCAGGGCCGGCAGCATCGATGAGGCGGTGAGCATCGCCAACGAAACCGAGTTCGGTCTTTCCGCCGCGATTTTCGGCAGGGATCAGGCACGGGCGCTTTCGATTGCCGCCCGCATCGAAAGCGGCATATGTCACATCAACGGCCCCACCGTTCACGATGAGGCGCAGATGCCCTTCGGCGGGGTCAAGGCTTCCGGTTACGGCCGCTTCGGCGGTACGGCGGGCATTGCGGAATTCACCGAGCTACGCTGGGTCACGCTGCAGGACGGGCCGCTGCATTTTCCGATCTGA	MQTVNLFIGGDHCPATSGKRFERSNPITGDVATSAAAATVEDATRAADAAAAAFPVWSATPPGERRRLLLAAAQALLAAGPDITQAMKEEIGATDAWAGFNVKLASDMLVEAASLTTQIKGEVIPSNRPGTMAMALRQPAGVVLSIAPWNAPVILGVRSIATPLACGNTVVMKTSELCPRTHALIIEAVASAGLPKGVLNAVSNAPEDAAKIVDTLIAHPAVRRVNFTGSTRVGRVIAETAGRYLKPALLELGGKAPFIVLDDADIDAAVAAAAFGAYMNQGQICMSTERIIVLDSVADAFVEAFAKKASSLTAGDPREGKTPLGSLVSAEATSRIRALVDDAVSKGARQVAGGGGNGTMLDAIAVDGVTPAMRLYAEESFGPVVSIIRAGSIDEAVSIANETEFGLSAAIFGRDQARALSIAARIESGICHINGPTVHDEAQMPFGGVKASGYGRFGGTAGIAEFTELRWVTLQDGPLHFPI	PGPT0005405_386	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_BENZALDEHYDE_DEGRADATION,PGPT0005405-xylC-K00141	NA	NA
BMS010_05838	897	gcvA_9		Glycine cleavage system transcriptional activator	ATGTCAGACCGGCCACTTGACCTGGGATGGATGCGCATTTTCACCGAGGTTGCCCGCCGCGGCAGCTTGACGGCGGCGGCGGCATCCCTGCGTCTGACCCAGCCGGCCGTCAGCTATCAGATTCGCCGGCTGGAGGAGGAACTGGGTGTAACCCTCATCCGCCGTAAACATCGCGGTATCGAACTGACGACGGAGGGCCAGCGGCTGTTCGAGATTGTCTCGCGCAATGTCGACGCCATCGACCTTCTCGCACAGCAGCTTCGCCGGACGGAGGAGCGCCAGACCATCCGCCTGCACACGGACTATGCCTTCTCGTCCCTGTGGCTCATCCCGAGAATGCATGGTTTTCGCGCGCTCAATCCTGACATCAATATCCAGATCGTCGCAACGCAGGACCCGCTGGGCCAGGGCAAACACGATAGCGACGTGATGATCATTTTCGGAACGCGGCAGGAAGCGGGCGACGGGGCGGTATTGCTGCTTTCGGAAAAGGTCACGCCTGTCTGCTCGCCTGCCCTGCTGGCCGAGACACCGGCACCCGCAACCGTTGCGGATTTTTCGCGGCGTAAACTCATCCACCTCGAAAACACGTCACAGGCGCATTGGTTCGACTGGCCTTCCTATTTCAAGCATTTTGGCGTGCATCGCGGTGCCGAGCATGATGGCGGCGACATCAGCTTCAACAATTACACCATGGTGGTGCAGGCAACCATCGGCGAACAGGGTTTCGCGCTCGGCTGGGCGGGACTGGTCGATCCGTTGCTTGAGGCCGGCGTGCTGGTGACGGCAGGCCCAAGCCTTGACGCACCGGGACGCGGCTACTGGCTGATGCGGCCGAAAAGCAGCGACAGCGCGGTGAGGAAACTCACCGGCTGGCTGATCGACGAGCGGCGATGA	MSDRPLDLGWMRIFTEVARRGSLTAAAASLRLTQPAVSYQIRRLEEELGVTLIRRKHRGIELTTEGQRLFEIVSRNVDAIDLLAQQLRRTEERQTIRLHTDYAFSSLWLIPRMHGFRALNPDINIQIVATQDPLGQGKHDSDVMIIFGTRQEAGDGAVLLLSEKVTPVCSPALLAETPAPATVADFSRRKLIHLENTSQAHWFDWPSYFKHFGVHRGAEHDGGDISFNNYTMVVQATIGEQGFALGWAGLVDPLLEAGVLVTAGPSLDAPGRGYWLMRPKSSDSAVRKLTGWLIDERR				NA	NA	NA	NA	NA
BMS010_05839	954			hypothetical protein	ATGAAAACCGTTTCTCATCTGCATCGCATCGCCGCCGGTCTTTTTCTGTCCGTGGCGGCCTTCTCCACCTCGCTTCAGGCGGCCGATGACGCGGCCTGCAAGACCATCCGTCTCAGCGATCCGGGCTGGACCGACATCACCGCCACCAATGGCGTTGCCTCCGTGCTGCTCGATGCCTTGGGTTATGAAGCCGACGTCAAGACGCTGTCGGTGCCGATCGGTTATCAGGCGATGAAGAATGGCGAGATCGACGTTTTCCTCGGCAACTGGATGCCGGCGCAGAAATCCTTCGTGGACGATCTGAACGCCGCCAAGGCGGCCGAGGTGATGACGAAAAATCTTGAAGGCGCAAAGTTTACGCTGGCAGTGCCTTCTTACATGGCGGAAAAGGGCGTGAAGGATTTCGCCGACCTCGCCAAACATGCCGATGAATTCGAAAGCAAGATTTACGGCATCGAGCCCGGTGCGCCAGCCAACCAGAATATCCAAAAGATCATCGACGCCAATGATTTCGGCCTGAAGGGCTGGCAGCTCGTCGAATCCGGCGAGCAGGCGATGCTGGCGCAGGTGGAGCGGGCGGGCAGGGACAAGAAGGCTGTGGTCTTCCTCGCCTGGGCGCCGCATCCGATGAATGAGAAGATCGATATCGCCTATCTCTCTGGCGGCGACGCCTATTTCGGTCCGAATTTCGGCGGCGCGGAAGTCTATACGCTCGCCCGCACCGGCTGGCCGCAGCAATGCCCGAATGCGGCGACGCTGTTCAAGAACCTGAAATTCGATATCGGTATGGAAAACAGCCTGATGGGCTCCATTCTTGGTGGTGAGGATTCGAAGGCGGCGGCAGCTGCATGGCTGAAGGCCAATCCGAAAGCGCTGGATGGCTGGCTGCAGGGCGTTACCACGCTGGATGGCAAGCCGGGTGCGGACGCCGTCAAAGGCAAGCTTGGTCTGTAA	MKTVSHLHRIAAGLFLSVAAFSTSLQAADDAACKTIRLSDPGWTDITATNGVASVLLDALGYEADVKTLSVPIGYQAMKNGEIDVFLGNWMPAQKSFVDDLNAAKAAEVMTKNLEGAKFTLAVPSYMAEKGVKDFADLAKHADEFESKIYGIEPGAPANQNIQKIIDANDFGLKGWQLVESGEQAMLAQVERAGRDKKAVVFLAWAPHPMNEKIDIAYLSGGDAYFGPNFGGAEVYTLARTGWPQQCPNAATLFKNLKFDIGMENSLMGSILGGEDSKAAAAAWLKANPKALDGWLQGVTTLDGKPGADAVKGKLGL	PGPT0013640_1974	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013640-gbuC|proX-K02002	NA	NA
BMS010_05840	1515	betC_2	COG3119	Choline-sulfatase	ATGCCGCGTCCCAATATCCTGATCCTGATGGCCGACCAGTTCAACGGGACGTTTTTTCCCGATGGTCCGGCCGATTTTCTCCACGCACCCCATCTGAAAGCCTTGGCGGAGCGGTCTGTCCGCTTCGCCAATACCTATACGGCAAGCCCGCTCTGCGCACCGGCCCGTGCCTCCTTCATGTCCGGGCAATTGCCCAGCCGCACGCGGGTTTACGATAATGCCGCCGAATTTGCTTCCGATATTCCGACCTATGCGCACCACCTGCGGGCGGCGGGTTATTACACCGGCCTTTCGGGAAAGATGCATTTCGTCGGCCCGGACCAGCTGCACGGCTTCGAGGAGCGTTTGACGACGGATATCTATCCAGCCGATTTCGGCTGGACGCCTGATTACACGAAGCCCGGCGAGCGCATCGACTGGTGGTATCACAATCTCGGTTCGGTCACCGGCGCAGGCGTCGCCGAAATCACCAACCAGATGGAATATGACGACGAGGTGGCCTATCACGCCACCCGCAAGCTCTACGACCTGTCGCGCCGCCTCGATGACCGGCCGTGGTGCCTGACGGTCAGCTTCACCCACCCGCACGACCCCTATGTGGCGCGGCGCAAATTCTGGGATCTCTACGAGGATTGCCCGGCGCTCGACCCGCAGACACCGGCGATTGCCTTCGACGAGCAGGATCCGCATTCGAAACGGTTGCTGGAAGCCTGCGATCACGAAGCTTTCGATATTTCACCGGAGCAGATACGCCGGGCACGGCGCGGTTATTTTGCCAATATCTCCTATATTGACGAAAAGATCGGCGAAATTCTCGACGTGCTGAAGGCGACGCGGATGGAGGAGGACACGATCATTCTCTTCCTGTCCGACCATGGCGATATGCTGGGCGAGCGCGGGCTGTGGTTCAAGATGTGTTTCTTCGAAGGTTCCGCCCGCGTGCCCTTGATGGTGGCCGCGCCGGGCTGGCAACCGGCCCTGATCGACACGCCGGTCTCAACGCTCGATGTGACGCCGACGCTCTGCGGTCTGGCGGGGCTCGATATCGCTTCTCTCAAACGCTGGACGGATGGCGAGGATCTGGCGGCGCTGGCGGCGGGAACTGGCGAGCGCGGCCCGGTGCCGATGGAATATGCCGCCGAAGGCTCGATAGCACCGCTCGTCGCCCTTCGCGACGGCCGCTACAAGCTATCGGTCTGCGAGGCCGATCCGCCGTTGCTTTATGATATCGAGGCGGACTCCGAGGAACGCACGAACCTTGCCGGCGACCCTGCTTTCAGCGCCGTCCTCTCATCGCTTTCCGCTGAAATCGACCGGCGATGGCAGCTCCCGGTTTTCGACGCGGCGGTGCGGGAAAGCCAGGCAAGGCGCTGGGTGGTCTACAAGGCCTTGCGCAATGGCGCTTATTATCCGTGGGATTACCAGCCTTTGCAGAAAGCCTCCGAGCGCTATATGCGCAACCACATGGACCTCAACGTGCTGGAGGAAAACCAGCGTTATCCGCGCGGGGAATGA	MPRPNILILMADQFNGTFFPDGPADFLHAPHLKALAERSVRFANTYTASPLCAPARASFMSGQLPSRTRVYDNAAEFASDIPTYAHHLRAAGYYTGLSGKMHFVGPDQLHGFEERLTTDIYPADFGWTPDYTKPGERIDWWYHNLGSVTGAGVAEITNQMEYDDEVAYHATRKLYDLSRRLDDRPWCLTVSFTHPHDPYVARRKFWDLYEDCPALDPQTPAIAFDEQDPHSKRLLEACDHEAFDISPEQIRRARRGYFANISYIDEKIGEILDVLKATRMEEDTIILFLSDHGDMLGERGLWFKMCFFEGSARVPLMVAAPGWQPALIDTPVSTLDVTPTLCGLAGLDIASLKRWTDGEDLAALAAGTGERGPVPMEYAAEGSIAPLVALRDGRYKLSVCEADPPLLYDIEADSEERTNLAGDPAFSAVLSSLSAEIDRRWQLPVFDAAVRESQARRWVVYKALRNGAYYPWDYQPLQKASERYMRNHMDLNVLEENQRYPRGE	PGPT0013620_376	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_CHOLINE-O-SULFATE|PHOSPHORYLCHOLINE_UTILIZATION,PGPT0013620-betC-K01133	NA	NA
BMS010_05841	468			hypothetical protein	GTGAAGAGCATAATCCGGACGATCCTCGTCTTTCCGCTTCGGGCGATCATCGTTTTCGCCCTGATCCTCGACGGCATTTTCCGCCCGTTCTACCGGCCCGTCATCAGGGCCATATCCGGGCTGACATTCATCAAGCGACTGGAAAGCCGGATCGCGCGATTGCCGCGTCTTGCCATTCTCCTTTGCCTTGCGGTGCCCTTCGCCATCGCCGAACCCATGAAGATCATCGGTCTCGTCCTCATTGCCCATGGCGCCGTCAAAGCGGGGCTGGTTCTGACCGTCCTTGCCCATCTCGCGACATTCCTGATCGTCGAGCGTATTTATCACGCCGGCCGGGAAAAGCTCCTCACCTATCCCTGGCTCGCATGGATCATGCGCTATGTACGTTTCGCACGGTCATTTTACGATCGCTTCAAACTTGCAGCGCTGAACTGGGTCAGGCTCCGGCTTTTCGCGTCGCTGCGATGA	MKSIIRTILVFPLRAIIVFALILDGIFRPFYRPVIRAISGLTFIKRLESRIARLPRLAILLCLAVPFAIAEPMKIIGLVLIAHGAVKAGLVLTVLAHLATFLIVERIYHAGREKLLTYPWLAWIMRYVRFARSFYDRFKLAALNWVRLRLFASLR				NA	NA	NA	NA	NA
BMS010_05842	888	rhaR_6		HTH-type transcriptional activator RhaR	ATGGGTAATTTTGTGCTGCGCGATTTGATCGATCAGGGACCCGGCATGCGAACAGTCTCGCTGCCGCGCGGCCGCCAGACGCTGCACACCATGCCGACCAGCAGCGGTTATGAAATCCGCCGCAGTGGCAATTACGACTGGGACGGGCGCAAACGCGGCCAGACGCCTTTTACCGTGCTGCAATATTGCATCGCCGGACAGGGCAACCTGCGTTACGAGAACCGCCACTATGTGGTGAGGCCGGGCGAAACCCTGCTGCTGCTTATCCCGCACAATCACCGCTACTGGCTGGAAGAAGGCAAGGAGTGGGAATTCTTCTGGATTTCCATGAATGGCGAGGAAGCCCTGCGCATTCACCGCAATATCCTCTCCGTCACCGGCCCGATCCTCAAACTCCAGCCCGAGACCGTGGATCATCTCGCGGAATGCTGCTCGCGCCTTGTCAATGGCGCGGAAACGCCAGGTGCCGCCTCCGCCGTCGCTTATGAGGCGGCGATGACGCTTTATGACGATGTCTTCGGTTCTCATCCTTCTTTCGGCGGTGAATATCGCACCATGCAACAGGTGCTGAGCTACATAGACAGCCATCTCGGCGAACGGCTTTCGGTCAGCGACCTTGCGGCGGTGGCAGGCCTCAGCCGCGCGCATTTTTCCCGGATCTTCGCGGCAAGCGAAGGCCTTTCGCCAGCGGAATTCGTGCTGCAGCGACGCCTGCGCCGGGCGGCCAAGCTTCTCACCTCGGCTGCCAACCTTCCCATCAAGGAGGTGTCGGTGCTGTGCGGTTTCGAGGATCCTAACTATTTCTCCAAGGTCTTCCGCAGGCTCTACGGCACCAATCCGAGCGAATTTCGCACCACCGGCATGTATGCGAGCGTGCGGCAGAGCTGA	MGNFVLRDLIDQGPGMRTVSLPRGRQTLHTMPTSSGYEIRRSGNYDWDGRKRGQTPFTVLQYCIAGQGNLRYENRHYVVRPGETLLLLIPHNHRYWLEEGKEWEFFWISMNGEEALRIHRNILSVTGPILKLQPETVDHLAECCSRLVNGAETPGAASAVAYEAAMTLYDDVFGSHPSFGGEYRTMQQVLSYIDSHLGERLSVSDLAAVAGLSRAHFSRIFAASEGLSPAEFVLQRRLRRAAKLLTSAANLPIKEVSVLCGFEDPNYFSKVFRRLYGTNPSEFRTTGMYASVRQS				NA	NA	NA	NA	NA
BMS010_05843	1467	melA_1	COG1486	Alpha-galactosidase	ATGAGTTTCAAAATCGCTATTATTGGCGCAGGCAGCGTCGGTTTCACGAAAAAACTGTTCACCGATCTCCTGTGTGTGCCGGAGTTTCGCGATATTGAAGTCGCGCTGACGGATATCAGCCAGCACAATCTGGATATGATCAGGGCGATCCTTGAAAAGATCGTTGAGGCCAATGGTTTCCCCGTCAAGGTGACGGCCGATACCGACCGCAGGCGGGCGCTGGAGGGCGCGAAATATATCATCAGCTGCGTGCGGGTCGGCGGTCTCGAAGCCTATGCGGACGATATCCGCATTCCGCTGAAATACGGCATCGACCAGTGCGTGGGCGATACGATCTGCGCCGGCGGCATTCTTTATGGTCAGCGCAACATTCCGGTCATTCTGGATTTCTGCAAGGATATCCGCGAGGTTGCCGCACCGGGTGCGAAATTCCTGAACTATGCCAACCCGATGGCCATGAACACCTGGGCGGCCATCCAATATGGCAAGGTGGATACGGTCGGTCTCTGCCACGGCGTTCAGCACGGCGCGGAACAGATCGCCGAAATTCTCGGTGCGAAAAGCGTGTCCGAGCTGGATTACATCTGCTCCGGTATCAACCACCAGACATGGTTTGTCGATCTGAGGCTCAACGGTCGCAAGATCGGCAAGGACGAGTTGGTCGCCGCCTTCGAGGCGCATCCGGTCTTCTCGCAGCAGGAGAAGCTGCGTATCGACGTGCTGAAGCGGTTCGGCGTCTATTCGACCGAAAGCAACGGGCACCTTTCCGAATATCTGCCGTGGTATCGCAAGCGGCCGGAGGAAATCGCTCGCTGGATCGACATGTCCGACTGGATTCACGGCGAAACCGGCGGGTATCTGCGCCACTCCACCGAAACACGCAACTGGTTCGAAACCGAGTTCCCGCAGTTTCTTGCCTCGGCCGCCAAGCCGATCGATCCGGCCAAGCGCTCCAACGAACATGCAAGCCATATTCTGGAGGCGCTTGAGACGGGGCGTGTCTATCGCGGTCATTTCAACGTCAAGAACAATGGCGTCATCACCAATCTGCCATCGGATGCGATCATCGAATCCCCCGGTTTTGTCGACCGTTTCGGCATCAACATGGTCTCGGGCGTGACCCTGCCGGAAGCCTGTGCGGCCACCTGCATGGCCTCCATCAACGTGCAGCGCATGTCCGTGCATGCGGCGGTGAGCGGCGATATCGATCTTTTGAAGCTTGCCGTGCTGCACGATCCGCTTGTCGGCGCCGTCGCCACACCGGAGGAGGTCTGGCAGATGGTGGACGAAATGGTCGTCGCGCAGGCGCGCTGGCTGCCGCAATATGCCGATGCCGTGCCGGCAGCGAAGGAGCGGCTTGCGAAATCCAGCGTCAAGACCCGCGACTGGGCCGGTGCCGCACGCCGCAATGTGCGTTCCATCGAAGAATTGCGGGCCGAAAAATCGGCGCTGAAAAAGGCTGTTTGA	MSFKIAIIGAGSVGFTKKLFTDLLCVPEFRDIEVALTDISQHNLDMIRAILEKIVEANGFPVKVTADTDRRRALEGAKYIISCVRVGGLEAYADDIRIPLKYGIDQCVGDTICAGGILYGQRNIPVILDFCKDIREVAAPGAKFLNYANPMAMNTWAAIQYGKVDTVGLCHGVQHGAEQIAEILGAKSVSELDYICSGINHQTWFVDLRLNGRKIGKDELVAAFEAHPVFSQQEKLRIDVLKRFGVYSTESNGHLSEYLPWYRKRPEEIARWIDMSDWIHGETGGYLRHSTETRNWFETEFPQFLASAAKPIDPAKRSNEHASHILEALETGRVYRGHFNVKNNGVITNLPSDAIIESPGFVDRFGINMVSGVTLPEACAATCMASINVQRMSVHAAVSGDIDLLKLAVLHDPLVGAVATPEEVWQMVDEMVVAQARWLPQYADAVPAAKERLAKSSVKTRDWAGAARRNVRSIEELRAEKSALKKAV	PGPT0017850_97	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017850-melA-K07406	NA	NA
BMS010_05844	2088	agpA_2		Periplasmic alpha-galactoside-binding protein	ATGTTACTTCAACGCAGGATCGGTATCATCTCGGCACTGGGTCTCGGTGTTTCGATGATCGCACTCAATGCGAATGCCTTCGAGACCACCACGCCGCCGGAGCCGCCGCAATTTCCGGCCGAAGGCAAGATCAATTACGTGGCGCGCGATTCGATCCTCGAATTCAAGGCGCTGCCGAGCTACAGCGAGCCTGACTGGGTCAGCGAGAAATTCGAAAAGACCGGCAAGCTGCCGCCCTTGAAAGAGCGCCTGCCGGAAGAACCGCTGGTCTACAAAACCGGCAATATGCCCGACGGTATGGGCGTTTACGGCGATACGATGCGCCATGTGGTCGGCGGCAGGCCCGAGGGCTGGAACTATATTGCCGGCCAGAGCCAGGGCTGGGGCGGCATCGATATCGCCCTTTCCGAATGCCTGACGCGCACCGCACCGCTCTTCCAGGTGGATGCCAAGGACACCGAACCGTTGCCCAATCTGGCCAAAAGCTGGGAGTGGTCCGAGGATGGTCACAAGCTGACGATGCATCTCGTCAAGGGCGCCAAGTGGTCGGACGGCGAGCCCTTCAATGCCGATGACGTGATGTTCTACTGGGAAGATGCGGTCGTCGACCCCAATGTTTCACCGCTTGGCGGCGGCGCATCGCCCGAGGCTTTCGGTGAGGGAACGACCCTTAAAAAGATCGATGATTACACCGTCGAATGGACCTTCAAGGCGGCTTTTCCCAAGCAATATCTCTACACCATGGCCTATCCGAGCTTCTGCCCCGGGCCGTCGCATATCCTGAAACCGCAGCATCCGAAATATTCCAAGAATACCTATAACCAGTTCAAGAACGCTTTCCCGCCGGAATATATGAACATGCCGGTCATGGGGGCATGGGTGCCGGTCGCTTATCGGCCTGATGACATCATCGTGCTGCGACGCAATCCCTATTACTGGAAGGTCGATGAGAAGGGCCAGCAGCTGCCTTATCTCAACGAGGTCCATTACAAGCTTTCCACCTGGGCTGACCGTGATGTCCAGGCCGTGGCGGGATCGGGTGATTTCTCCAATCTCGAACAGCCGGAGAATTTCGTCGCCTCGCTGAAACGCGCCGCCGACCCCAATGCGCCGGCCCGTCTTGCTTTTGGGCCGCGGCTTATCGGCTATAATCTGCAGATGAATTTTTCCGCCAATGGCTGGGGCAATCCGGATGAACGTGGGCAGGCCATTCGTGAACTGAACCGCAACGAGGTGTTCCGTCAGGCCGTCACATCGGCCATCGACCGCAAGGCAGTCGGCGACTCGCTGGTGAAGGGGCCGTTCACGGCGATCTATCCGGGCGGCATTTCATCGGGCACCAGCTTCTATGACCGCGCCTCCACGGTCTATTACCCCTTCAACCTCGAGGCCGCCAAGGCCGCGCTCGCCTCGATAGGCCTGAAGGATACGGATGGCGATGGTTTCCTGAATTTCCCGAAGGAAACGCTGGGTGGCCGCAATGTCGAGATTACCCTTCTCGTCAATAACGGTTACGCGACGGACAAGAGCCTCGCGGAAGGTCTTGTTGGCCAGATGGCTAAACTCGGCCTTCGCGTCGTCATCAACAGCCTCGATTCCAACCAGCGCGATGCCGCTCATTATGGCGGGCAGTTCGACTGGCTGGTGCGCCGCAACTCCACCGAGCTTTCATCCGTGGTGCAGAATACCGAGCAGCTTGCGCCTGTCGGCCCGCGCACCAGCTGGAACCATCGCTCGCCCGAAGGCAAGGAACTCGATCTGATGCCGTTCGAGAAGGAGATGGCCGATCTCGTGCGCAAGTTCATCTCCTCGCAGGACAATGCAGAGCGGGCCGAACTGATGAAGCAATATCAGAAGGTCTATACGCAGAACCTCTATACGATCGGCCTCACCGAATATCCCGGCGCGCTGATCGTCAACAAGCGGTTCTCGAATGTGCCGCAGGGCACGCCGATCTTCATGTTCAACTGGGCTGAAGACTCCATCATCCGCGAACGCCTTTGGGTCGCGGCGGATAAGCAGGGCAAATACGAACTCTTCTCGCAGCAGCTTCCCGGCAAGCCGGGTGAGGGCGGGCCGATTAACTAG	MLLQRRIGIISALGLGVSMIALNANAFETTTPPEPPQFPAEGKINYVARDSILEFKALPSYSEPDWVSEKFEKTGKLPPLKERLPEEPLVYKTGNMPDGMGVYGDTMRHVVGGRPEGWNYIAGQSQGWGGIDIALSECLTRTAPLFQVDAKDTEPLPNLAKSWEWSEDGHKLTMHLVKGAKWSDGEPFNADDVMFYWEDAVVDPNVSPLGGGASPEAFGEGTTLKKIDDYTVEWTFKAAFPKQYLYTMAYPSFCPGPSHILKPQHPKYSKNTYNQFKNAFPPEYMNMPVMGAWVPVAYRPDDIIVLRRNPYYWKVDEKGQQLPYLNEVHYKLSTWADRDVQAVAGSGDFSNLEQPENFVASLKRAADPNAPARLAFGPRLIGYNLQMNFSANGWGNPDERGQAIRELNRNEVFRQAVTSAIDRKAVGDSLVKGPFTAIYPGGISSGTSFYDRASTVYYPFNLEAAKAALASIGLKDTDGDGFLNFPKETLGGRNVEITLLVNNGYATDKSLAEGLVGQMAKLGLRVVINSLDSNQRDAAHYGGQFDWLVRRNSTELSSVVQNTEQLAPVGPRTSWNHRSPEGKELDLMPFEKEMADLVRKFISSQDNAERAELMKQYQKVYTQNLYTIGLTEYPGALIVNKRFSNVPQGTPIFMFNWAEDSIIRERLWVAADKQGKYELFSQQLPGKPGEGGPIN				NA	NA	NA	NA	NA
BMS010_05845	1008	gsiC_6	COG0601	Glutathione transport system permease protein GsiC	ATGCTGAGATTTCTGACGATACGCGTTGCATCCGCCATTCCGGTGTTGTTGATCCTGAGCGTGGTAACCTTCGCCATCATTCAGGCACCGCCCGGCGATTATGCCGACTACATCCGCTCGCAGCTGATGAACCAGGGCGGCGCGTCTTTCGAACAGGCGGAAGCGCAGGCTCAGGCTTATCGCATCGAGCACGGCCTCGATAAGCCGCTCGTCATTCAATATTTCAACTGGATCGGCGGCATCGTCACCCGCGGCGATTTCGGCTACAGCTTCTATTACAACAAGCCGGTCGCCGATGTGGTTGGCGAACGCCTGCCGCGCACCATTGCGCTGGCGCTGGTCTGCCACATCTTCGCGTCCGTTCTCGGTATCGCCTTCGGCATCTGGGCAGCCACGCGGCAATATTCCTGGGTCGACAACCTGCTCTCCACCATCGCCTTCCTCGGCATGACGATCCCGCGCTTCCTGATGGCGCTGATCCTCGTCTATCTCATGGTGTTTCATTTCGATGTGTCTGAGATCGGCAGCTTCTTTTCGCCGCAATATGGCGGTGCGCCGTGGTCGTGGGGTAAATTTGTCGATCTCGTCAGCCATGTCTGGCCGGTGGTCGCCATCGCCGTCTTCGGTGGGCTGGCCTATAATATGCGGGTGATGCGCGGCAATCTGCTCGATACGCTGAACGCGCAATATGTCGAGACGGCCCGCGCCAAGGGTCTTTCGGAAGGCGCTGTCATCATGCGCCATGCGGTGCCGAACGCCGTGCACCCGCTCGTCATGTATCAGGGCGTGGTGCTGCCTTACATGCTGAGCGGTGAGATCGAGACCGCGATCATCTTCGCGTTGCCGACCGTCGGTCCCGCCATTGTCGGCTCAATGGCGGTGGGCGATGTCTATGTCACCGCGACCTTCATGATGGTGCTGGCTGCAACGCTGATCGTCGGCAACATCATCGCCGATATGCTGCTTGCCATCCTCGACCCACGCGTTCGCGAATTCGGGAGGGCCTGA	MLRFLTIRVASAIPVLLILSVVTFAIIQAPPGDYADYIRSQLMNQGGASFEQAEAQAQAYRIEHGLDKPLVIQYFNWIGGIVTRGDFGYSFYYNKPVADVVGERLPRTIALALVCHIFASVLGIAFGIWAATRQYSWVDNLLSTIAFLGMTIPRFLMALILVYLMVFHFDVSEIGSFFSPQYGGAPWSWGKFVDLVSHVWPVVAIAVFGGLAYNMRVMRGNLLDTLNAQYVETARAKGLSEGAVIMRHAVPNAVHPLVMYQGVVLPYMLSGEIETAIIFALPTVGPAIVGSMAVGDVYVTATFMMVLAATLIVGNIIADMLLAILDPRVREFGRA	PGPT0004445_7614	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004445-ddpB|appB-K02033	NA	NA
BMS010_05846	1137			hypothetical protein	ATGATGGCGTTTGATGAGATGAAGACCGAAACCGCCACCGCAGCAAAACCCGACCGTTCCGCCCAGGGCAACGAGACCTATCTCGCGCTGGTCTGGCGGCGCCTCAGACGCTCCTTCACCGGCATGGTCGGGCTGGTGCTGGTGGCGCTGTTGATCCTGATCGCCATCTTTGCGGATTTCTTCGCGCCGATGAACCCGCTCGAAACCCATGGCAGCTTCTCGCCGCCGCAGGTGGTGCGCTTCACCGACAAGGACGGCAATTTCAGCCTTGCACCGCGCGTCTATGCCATCGCCGAAACGGAAGAGCTTGATCCGGTCACCTTCCAGCCCATCGTCGGGCCGGATTACGACAATCCCGTCCATCTCGGCTTCTTCGTCAAAGGTGCGGAGTACAGGCTGCTGGGCCTTATCCCGATGAGCCGTCACTTCTTCGGCTCGACCGACGGCCAGCCGGTGCATTTTCTCGGCACCGACAAGTTTGGACGCGACGTGCTCTCGCGCGCCATCTATGGCTCGCGCATCTCGCTTGCCATCGCCTTGAGCGTCGTCGCCATCGTCACCGTCATCGGCACGAGTGTCGGTCTGATTTCCGGCTATTTTGGCGGGCCGCTGGATGCCTGGGTGCAGCGCTTTGTCGAGGTGGTGCTCGCTTTCCCGCAATTGCCGCTTTACCTTGCGCTGACCTCACTCATCCCGGTAACCGCACCCACTACCGTTTTCCTTGTCTTCGTGGTCGGTGTCATGTCGGCGCTTGGCTGGGCGCAGATGTCGCGCGAGGTGCGCGGCAAGACGCTGGCGCTGGCGCGCATCGATTATGTGCGGGCGGCGATTGCCGTCGGGGCCACGGACCGGCGCATCATTTTCCAGCACATCCTGCCGAATGTGATGAGCCATGTGATCGTCGCCGTGACGCTGCATATTCCAAGCGTCGTGCTGCTCGAATCCTTCCTCGGTTTCCTCGGCTTTGCGGTGAAGCCGCCGCTCATCTCCTGGGGGCTGATGCTGCAGGATACGGCGACCTATTCCGTCATCGGTTCCTATCCCTGGATTCTCGCGCCGGTCGGTTTCGTGCTGGTCACAGTCTTCGCCTTCAACGCGCTGGGCGACGGCCTGCGCGATGCCGTCGATCCCTATTGA	MMAFDEMKTETATAAKPDRSAQGNETYLALVWRRLRRSFTGMVGLVLVALLILIAIFADFFAPMNPLETHGSFSPPQVVRFTDKDGNFSLAPRVYAIAETEELDPVTFQPIVGPDYDNPVHLGFFVKGAEYRLLGLIPMSRHFFGSTDGQPVHFLGTDKFGRDVLSRAIYGSRISLAIALSVVAIVTVIGTSVGLISGYFGGPLDAWVQRFVEVVLAFPQLPLYLALTSLIPVTAPTTVFLVFVVGVMSALGWAQMSREVRGKTLALARIDYVRAAIAVGATDRRIIFQHILPNVMSHVIVAVTLHIPSVVLLESFLGFLGFAVKPPLISWGLMLQDTATYSVIGSYPWILAPVGFVLVTVFAFNALGDGLRDAVDPY	PGPT0004450_1995	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004450-ddpC|appC-K02034	NA	NA
BMS010_05847	1671	yejF_4	COG4172	putative ABC transporter ATP-binding protein YejF	ATGGCTGCTGCCGCACAGAACAACACTTACGCGCCCGCCATCCGCTTCGATGCCGATGACAGAAACGACGCCGCCATCATCGATGCCCGCAACATCGCCGTGACCTTCAAGGTGGAGCACGGCACGGTGGAGGCGGTGAAGGACATTTCCTTCCAGCTTTACCGGGGCGAGACGATTGCCATCGTCGGCGAATCCGGTTCGGGAAAATCCGTCACGGCCCGCACGATCATGGGGCTTTTGACGAAGCGGGCGTCCGTTTCGAAGTTCGCGACCGTGCGTTTCAACGGCGACGACATTCTGAAATTTTCGAGCCGCAAACGCCGGGCGCTGCGCGGCAACCGCATCTCGATGATCTTTCAGGAGCCGATGAGTTCGCTGAACCCGATCTATACGATCGGCAGCCAGATCGTCGAGGCGATCCGCGTTCATTCGAAACTGAGCCGCAAGGAGGCCGAGGCGAGGGCGCTCGATCTTCTGCGGCAGGTGCAGATACCGGAACCGGAAGCGCGGCTGAAGCAATATCCGCACCAGCTTTCCGGCGGCCAGCGCCAACGTGTGATGATCGCCATGGCGCTTTCCAACGATCCGGATGTTCTGATTGCCGATGAGCCTACCACCGCGCTTGATGTGACGGTGCAGGCGCAAATCCTCAACCTCATCCGCGACCTGCAAAAGAAGCGCGGCATGGCCGTGGTTCTCATCACCCATGACCTGACGATCGTGAAGCAGTTTTCCGATTACGTCTATGTCATGCAGCATGGTGAGATGCGGGAGCACAACACCACGGAAAATCTCTTCGAAGCGCCGCAGCACCCCTATACGAAAAAGCTGCTTGCCTCCGAACCGCATGGCACGGCAAAGCCGCTGCCGGAAAATTCCGGCGTGCTGCTGACGGCGAACGGCGTGCGCGTCTCTTTCATGATGCGTTACGGTGGGCTGTTTAAACCCGAACTGAAGGAGCTGATCGCCGTCGACAGTCTGGGGCTTACCCTCAATCGGCACGAGACGCTGGGGCTTGTCGGTGAATCCGGTTCCGGCAAGACGACCTTCGGCCAATCCCTGCTGCGGCTGAACGAGCCGGTTGCCGGCGAGGTGATCTTTGACGGGGAGAGGGTCGATGGCCGCTCCCGCGCTGAAATGCGGCCTTTGCGTTCGCGTATGCAGATCGTCTTTCAGGACCCTTTCGCCTCACTCAATCCGCGCATGACCATCGGCCAGATCATCGAGGAAGGCCTCATCATCAACGGCCTTGGGAAAACCAAGGCCGAGAGGCTGGACCGGGTGCGCGACGCGCTGGAGGCGGCGGGCATGCCCGGCAATATCCTCTCGCGTTTTCCGCACGAATTTTCCGGCGGTCAGCGCCAGCGCATCGCCATTGCCCGTGCCGTGGCGCTGGAGCCGGAATTCATCCTGCTCGATGAGCCGACCTCGGCGCTCGATCTTTCCGTGCAGGCGCAGATCATCGATCTCCTGCGCAAGCTGCAGGATGAGCGGGGCCTGAGCTACCTGTTCATCTCGCACGACCTGAAAGTGGTCCGCGCGCTCTGCCACCGCGTCATCGTCATGCAGCGCGGGCAGATCGTCGAGCAAGGGCCTGTCGAGGATGTGCTGACCAATCCGAAAACCGAATATACTCAGCGGCTTGTACGGGCCGCCTTCGAAATCGCTTGA	MAAAAQNNTYAPAIRFDADDRNDAAIIDARNIAVTFKVEHGTVEAVKDISFQLYRGETIAIVGESGSGKSVTARTIMGLLTKRASVSKFATVRFNGDDILKFSSRKRRALRGNRISMIFQEPMSSLNPIYTIGSQIVEAIRVHSKLSRKEAEARALDLLRQVQIPEPEARLKQYPHQLSGGQRQRVMIAMALSNDPDVLIADEPTTALDVTVQAQILNLIRDLQKKRGMAVVLITHDLTIVKQFSDYVYVMQHGEMREHNTTENLFEAPQHPYTKKLLASEPHGTAKPLPENSGVLLTANGVRVSFMMRYGGLFKPELKELIAVDSLGLTLNRHETLGLVGESGSGKTTFGQSLLRLNEPVAGEVIFDGERVDGRSRAEMRPLRSRMQIVFQDPFASLNPRMTIGQIIEEGLIINGLGKTKAERLDRVRDALEAAGMPGNILSRFPHEFSGGQRQRIAIARAVALEPEFILLDEPTSALDLSVQAQIIDLLRKLQDERGLSYLFISHDLKVVRALCHRVIVMQRGQIVEQGPVEDVLTNPKTEYTQRLVRAAFEIA	PGPT0011640_337	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|MICROCINS,PGPT0011640-yejF-K13896	NA	NA
BMS010_05848	1374	melA_2	COG1486	Alpha-galactosidase	ATGGCAAGAGATCCCAAGATCACATTCATCGGCGCAGGCTCCACGGTGTTCATGAAGAACATCATCGGCGACGTGCTGCAGCGTCCGGCCCTTTCAGGCGCCACCATCGCGCTGATGGATATCAACCGTGAAAGGCTGGAAGAAAGCGCCATCGTCGTCAACAAGCTGATTTCGACGCTTGGCGCAAAGGCGAAGGCCGAGACCTACACGGACCAGAAAAAGGCGCTTGCCGGTGCCGATTTCGTCGTCGTCGCCTTCCAGATCGGTGGCTATGAGCCCTGCACGGTCACCGATTTCGAGGTGCCGCGTAAATATGGCCTGCGCCAGACCATCGCCGATACGCTCGGCGTCGGCGGCATCATGCGCGGCCTTCGCACCGTGCCGCATCTGTGGAAGATCTGCGAGGACATGCTGGTCGTCTGCCCCAACGCCATCATGCTGCAATATGTGAACCCCATGGCGATCAATACCTGGGCGATTGCGGAGAAATATCCGACGATCCGGCAGGTCGGCCTTTGCCATTCCGTGCAGGGCACGGCCATGGAACTCGCCCACGATCTCGATATCCCTTACGAGGAAATCCGCTACCGTTCCGCCGGCATCAACCACATGGCGTTCTTCCTGGAATTCGAGCACCGCCAGCCGGATGGAAGCTACAAGAACCTCTATCCCGACCTCGTGCGCGGCTACCGCGAAGGCCGGGCTCCGAAGCCAGGATGGAACCCGCGCTGCCCCAACAAGGTGCGTTACGAGATGCTGACGCGGCTCGGTTATTTCGTCACCGAAAGCTCCGAACATTTCGCCGAATATACGCCCTATTTCATCAAGGAAGGACGAGAGGACCTGATCGAGAAATTCGGTATCCCGCTCGATGAATATCCCAAGCGCTGCATCGAGCAGATCGAACGCTGGAAGGGGCAGGCGGCAGCCTATCGTTCGGCCGAGAAGATCGAGGTCAAGCAGTCAAAGGAATATGCCTCCTCCATCATCAACTCGGTCTGGACCGGCGAACCCTCGGTGATATACGGCAACCAGCGCAACAATGGCTGCATCACCTCGCTGCCATCGGATTGCGCGGCGGAAGTTCCCTGCCTTGTCGACCATAACGGCGTGCAGCCCACCTTTATCGGCGAATTGCCGCCGCAGCTCACCGCCCTTATGCGCACCAACATCAATGTGCAGGAACTGACGGTGCGGGCGCTGATGAGCGAAAACCGCGAGCACATCTTCCACGCGGCGATGATGGACCCGCATACGGCGGCGGAACTGGATCTCGACCAGATATGGTCGCTGGTGGACGATCTGCTGCTGGCCCATCGCGACTGGCTGCCGGAATGGACGCAGGTGGAGGTGAAGCGGGCGCGGGCGGTGTAA	MARDPKITFIGAGSTVFMKNIIGDVLQRPALSGATIALMDINRERLEESAIVVNKLISTLGAKAKAETYTDQKKALAGADFVVVAFQIGGYEPCTVTDFEVPRKYGLRQTIADTLGVGGIMRGLRTVPHLWKICEDMLVVCPNAIMLQYVNPMAINTWAIAEKYPTIRQVGLCHSVQGTAMELAHDLDIPYEEIRYRSAGINHMAFFLEFEHRQPDGSYKNLYPDLVRGYREGRAPKPGWNPRCPNKVRYEMLTRLGYFVTESSEHFAEYTPYFIKEGREDLIEKFGIPLDEYPKRCIEQIERWKGQAAAYRSAEKIEVKQSKEYASSIINSVWTGEPSVIYGNQRNNGCITSLPSDCAAEVPCLVDHNGVQPTFIGELPPQLTALMRTNINVQELTVRALMSENREHIFHAAMMDPHTAAELDLDQIWSLVDDLLLAHRDWLPEWTQVEVKRARAV	PGPT0017850_269	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017850-melA-K07406	NA	NA
BMS010_05849	1065			hypothetical protein	ATGTCTAAAAAAGGCTTGCTCGTTGGTCTGGTGATTCTGGTTATTGCCGGTGTCGCCTATTTCTCCTGGTCAAAGCTGAAGGGTGAGGGACTTCCCGCCGGTTTCGTGTCCAGTAACGGCCGTATCGAGGCCGTCGAGATCGACATTTCCACCAAGACCGCCGGTCGCCTTCAGGACATCATGGTGCGTGAAGGCGATTTCGTGAAGGCCGGGCAGGTGCTTGCCCAAATGGATACGGCGCAACTGGAGGCGAGGAAACGTCAGGCGGAAGCGCAGTTTCGCCGTGCGAAAATAGCAATCGATACGGCCCACAGCCTTGTCGCCCAGCGGGAGGCGGAAAAGACCTCGGCGCTGGCAGTGGTGGAACAGCGCAAGGCCCAGCTCGATTCCGCCTCCAAGACCTATGCGCGCTCGAAACAGCTGCTGACCGGCAACGCCGTCTCGCAGCAGATTGTCGATGACAGTGAAGCCGCCGAGCAGTCCGCCCGCGCCACGCTCGCTTCCGCCGAGGCCTCGCTTGCCGCCTCCGACGCCGCAATCAACGCCGCCAAGGCGCAGATCGTCGATGCCGAGGCGGCGGTGGATGCCGCGCAGGCCGATATTGAAAGCATCGAGACGGATATCGCCGATGCGACGCTGAAATCGCCCCGCGATGGCCGCGTGCAATATCGGATCGCCCAGCCCGGTGAGGTGCTGTCCGCCGGTGGACGGGTTCTGAACCTGGTCGATCTCGGCGATGTCTATATGACGTTCTTCCTGCCGACGGCCGAGGCCGGTCGCACGTCCATGGGCTCGCACGTTCGCCTGATACTGGACGCCGCCCCGCAATATACCATCCCCGCCAAGGTTTCCTTCGTTGCCGATGTCGCGCAATTCACGCCGAAAACGGTCGAGACCGAAGAGGAACGCCAGAAGCTGACATTCCGGGTGAGGGCGCAAATCCCGCAGGAGCTGCTGCAGAAATATATCCAATATGTCAAAACCGGGCTGCCCGGCATGGCCTATGTCCGGCTTGATCCGCAGGCCGCCTGGCCGGAAAACCTCGAACGCAATCTCGTCAAGTGA	MSKKGLLVGLVILVIAGVAYFSWSKLKGEGLPAGFVSSNGRIEAVEIDISTKTAGRLQDIMVREGDFVKAGQVLAQMDTAQLEARKRQAEAQFRRAKIAIDTAHSLVAQREAEKTSALAVVEQRKAQLDSASKTYARSKQLLTGNAVSQQIVDDSEAAEQSARATLASAEASLAASDAAINAAKAQIVDAEAAVDAAQADIESIETDIADATLKSPRDGRVQYRIAQPGEVLSAGGRVLNLVDLGDVYMTFFLPTAEAGRTSMGSHVRLILDAAPQYTIPAKVSFVADVAQFTPKTVETEEERQKLTFRVRAQIPQELLQKYIQYVKTGLPGMAYVRLDPQAAWPENLERNLVK				NA	NA	NA	NA	NA
BMS010_05850	2769	rbbA_1	COG0842	Ribosome-associated ATPase	ATGGTCGCGTCTCCCGCAACGAATGACAGGCATGCACCGGTCGCGCGATTGGCCGATGTGCGGTTGACCTTCGGGAGCACCATTGCGCTGGCTGACATATCGGTCGAGATTCCCGCCGGGCGGATGATCGGGCTTATCGGGCCGGACGGTGTCGGCAAATCGAGCCTGTTGTCGCTCGTCTCCGGCGCGCGCGCCATCCAGAAGGGCAGGGTGGAGGTTCTGGGCGGCGACATGTCCGATCCCCGCCACCGCGAGGATACCTGCCCGCGTATCGCCTATATGCCGCAGGGTCTTGGCAAGAACCTCTATCCCACCCTGTCCGTCTTCGAGAATATCGATTTCTTCGGCAGGCTGTTCGGACAGGGCGGCAGGGAGCGGCAGGCGCGCATTGCCGAACTGCTGAAAAGTACCGGCCTCGAGCCCTTTGCCGACCGCCCCGCGATGAAACTTTCCGGCGGCATGAAGCAGAAGCTGGGGCTCTGCTGCGCGCTGATCCACGATCCCGACCTGCTCATTCTCGATGAGCCGACCACGGGCGTCGATCCGCTGTCGCGGCGGCAATTCTGGGAACTGATCGATTTCATCCGGGCCGGGCGTCCGGGCATGAGCGTTATCGTTGCCACGGCCTATATGGAAGAGGCCGCCGGTTTCGACTGGCTGGTCGCCATGGATGGCGGCAAAATACTCGCCACCGGCTCGCCTGCCGAACTTCTCGAGCGCACCTCCGCACCCAATCTCGATGCCGCCTTCATCGCGCTCCTTCCTGAAGAAAAGCGCGAAGGCTACCACGAAGTCCATATCGCGCCGCGCAAGGTGGCGGGTGAGGGCGATTATGCCATCGAGGCGTCGCATCTCAGTATGCGTTTCGGCGATTTCACCGCCGTCGACAATGTCAGCTTCAAGATTCCGCGTGGCGAGATTTTCGGCTTTCTCGGCTCGAACGGCTGCGGAAAATCCACCACCATGAAAATGCTGACGGGGCTTCTGGCCGCCAGCGAAGGCGAGGCCAAGCTTTTCGGGCACAGGGTGGATGCCAGCGACATGGCGATCCGTCACCGGGTCGGCTATATGAGCCAGGCCTTCTCGCTCTATTCCGAGCTGACGGTGCGGCAGAACCTCGATCTTCACGCGCGGCTGTTCAAGCTGCCGGAAGAGACCATTCAGCCGCGTATCGCCGAAATGGCCGAGCGTTTCGATCTCGGCGCGGTCATGGAGACACTGCCGGACGACCTGCCGCTCGGCATCCGGCAGAGGCTGTCGCTGGCGGTGGCGATGATCCATTCGCCTGACATTCTCATCCTCGACGAGCCGACCTCCGGCGTCGACCCGGTGGCGCGGGACGGGTTCTGGCAAATCCTTGCCGATCTCTCCCGGAACGACAATGTCACCATTTTCATCTCCACCCATTTCATGAACGAGGCGGAGCGCTGCGACCGGATTTCGCTGATGCATGCCGGCAAGGTGCTGATCAGCGATACGCCCAATGCGATTACCAAAAGCCGCAATGCGGCAACGCTGGAAGAGGCTTTCGTCGCCTATCTCGAAGATGCTTCCGGCGTCAAAAAGGCGGAGCCTGCAGCAGCGCCCGTCGCGACAGCGGAGGTGCCAGCGACGCAACATGCTGCACCCAATCGTAAGAGGTTTTTCGATTTCAGGCGCATGTTCAGCTATACGCGCCGCGAGACGCTGGAACTGCAGCGGGATCCCATTCGCGGCACGCTGGCGGTGCTCGGCAGCGTCATCCTGATGTTCGTCATCGGATACGGTATCAATCTCGATGTCGAGGACCTGACCTTCGCGGTGCTGGACCGTGACGATTCCACCATCAGCCGCGATTACGTGCTCGACATTGCCGGCTCCCGTTATTTCATCGAGAAGGAACCGATCCGCGATTATGCCGATATGGACCGGCGGATGCGTGACGGGGAACTCAGCCTTGCCATCGAAATCCCCCCCGGTTTCGGCCGCGACGTGTTGCGCGGCAAGACGGTGGAGGTGGGCGCCTGGATCGACGGCGCCATGCCGCAGCGGGCGGAAACCGTTCGCGGATACGTGCAGGGCATGCACCAGACATGGCTGGCGCGCAAGGCGGCCGAGATTTACGGCAGCGCGGCGACGCAAAGCACTTTCAGCATCGAAACGCGCTATCGATACAATCCGGACGTCAAAAGCCTCGTCGCCATGGTGCCGGCGGTCATTCCGCTGCTGCTCATGCTCATTCCCGCCATGCTGGCGGCGCTCAGCGTCGTCAGGGAAAAGGAACTCGGCTCCATCGTCAATCTTTACGTGACGCCGACCACCCGGCTGGAATTCCTGATCGGCAAGCAGCTTCCTTATGTCGCCCTCGGCATGCTCAATTTCCTGCTTCTGACGGCCTTCGCCATCTTCATCTTTCAGGTACCCTTCACCGGAAGTTATCTCGCCTATGCGACGGGAGCGCTGCTCTATGTCGTCATCGCCACCTCCATCGGCCTTCTCATGTCGTCCTTCATGAAGAGCCAGATCGCGGCGATCTTCGGCACGGCCCTGCTGACGCTCATTCCGGCAACGCAATATTCGGGAATGATCGATCCCGTTTCGTCGCTACAGGGGGCGGGCGCCTTTATCGGCAATATCTATCCCGCCACCTATTTCATGACCATTTCGCGCGGCACCTTCTCCAAGGGGCTGGATTTCGCCGGGCTTTCCGGCTCGTTCCTGCCGCTTCTCATTGCCATTCCGCTGCTTCTCATTGCCGGCGCCGCACTTTTGAGGAAACAGGCGTCATGA	MVASPATNDRHAPVARLADVRLTFGSTIALADISVEIPAGRMIGLIGPDGVGKSSLLSLVSGARAIQKGRVEVLGGDMSDPRHREDTCPRIAYMPQGLGKNLYPTLSVFENIDFFGRLFGQGGRERQARIAELLKSTGLEPFADRPAMKLSGGMKQKLGLCCALIHDPDLLILDEPTTGVDPLSRRQFWELIDFIRAGRPGMSVIVATAYMEEAAGFDWLVAMDGGKILATGSPAELLERTSAPNLDAAFIALLPEEKREGYHEVHIAPRKVAGEGDYAIEASHLSMRFGDFTAVDNVSFKIPRGEIFGFLGSNGCGKSTTMKMLTGLLAASEGEAKLFGHRVDASDMAIRHRVGYMSQAFSLYSELTVRQNLDLHARLFKLPEETIQPRIAEMAERFDLGAVMETLPDDLPLGIRQRLSLAVAMIHSPDILILDEPTSGVDPVARDGFWQILADLSRNDNVTIFISTHFMNEAERCDRISLMHAGKVLISDTPNAITKSRNAATLEEAFVAYLEDASGVKKAEPAAAPVATAEVPATQHAAPNRKRFFDFRRMFSYTRRETLELQRDPIRGTLAVLGSVILMFVIGYGINLDVEDLTFAVLDRDDSTISRDYVLDIAGSRYFIEKEPIRDYADMDRRMRDGELSLAIEIPPGFGRDVLRGKTVEVGAWIDGAMPQRAETVRGYVQGMHQTWLARKAAEIYGSAATQSTFSIETRYRYNPDVKSLVAMVPAVIPLLLMLIPAMLAALSVVREKELGSIVNLYVTPTTRLEFLIGKQLPYVALGMLNFLLLTAFAIFIFQVPFTGSYLAYATGALLYVVIATSIGLLMSSFMKSQIAAIFGTALLTLIPATQYSGMIDPVSSLQGAGAFIGNIYPATYFMTISRGTFSKGLDFAGLSGSFLPLLIAIPLLLIAGAALLRKQAS	PGPT0006725_103	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
BMS010_05851	1119	yhhJ_1	COG0842	Inner membrane transport permease YhhJ	ATGAAGCTGTTTTCGTCCAACATCTTCCAGCTCGGCATCAAGGAACTGCGCGGCCTTGCGCGTGACGGCATGTTGCTGCTGCTCATCGTCTACGCCTTCACGCTGCAGATCTACACCGGCTCCAGCGCGCTGCCGGAGACGCTGAACAATGCCGCCATCGCCATCGTCGACGAGGATCAGTCACCGCTTTCAGGCCGCATCAGCACGGCTTTTTATCCGCCTTACTTCTCCCCGCCGAAGCAGATTTCCATTGCGGAAATGGACAAGCGCATGGATGCGGGCCTCGATACATTCGCGCTCAATATCCCGCCGGATTTCCAGCGCCGGCTGATGGCCGGGCAACAGCCGGCCATCCAGCTCAATATCGACGCAACCCGCATGAGCCAGGCTTTCAGCGGCGGGGGTTATGTGCAGAGCATCGTGACGAGCGAAGTTCAGGAATATATCAACCGCTATCGCGGTGCGACTTCGGTGCCGGTGGACCTGACGCTACGCTCCCGTTTCAACCCGGAGCTCGACAAGTCGTGGTTCGGGTCGATCAACAACATCATCACCGCCATCACCATGCTGTCGATCGTGCTGACGGGGGCCGCGCTCATTCGCGAGCGCGAGCATGGCACGGTCGAGCATCTGCTGGTCATGCCGGTCACGCCGCTGGAAATCATGCTCAGCAAGGTCTGGTCCATGGGCCTTGTCGTGCTGGTGGCCTCCGCATTTTCCCTGTTCGTAGTCGTCAGGGGCCTGCTCGCCATTCCAATCGAAGGCTCGCTCTTGCTCTTCCTGCTCGGAACGGCGTTGCAGCTCTTCGCCATGACGTCGATGGGCATCTTCCTTGCGACCGTTGCAGGCTCCATGCCGCAATTCGGCATGCTGCTGATCCTGTTCCTGCTGCCGTTGCAGGTGCTCTCCGGCGCCATGACGCCGCGTGAAAGCATGCCTGATATCATCCAGTACATCATGCTTCTCGCACCCAACACCCATTTCGTCATACTGGCGCAATCGGTGCTTTTCAGGGGGGCGGGGCTGGATGTGGTCTGGCCGCAATTGCTGGCGCTGCTGGCCATCGGCTCCGCGCTTTTCGTTTTCGCGCTTCGCCGTTTCAGGCGTTTCCTGCGCTGA	MKLFSSNIFQLGIKELRGLARDGMLLLLIVYAFTLQIYTGSSALPETLNNAAIAIVDEDQSPLSGRISTAFYPPYFSPPKQISIAEMDKRMDAGLDTFALNIPPDFQRRLMAGQQPAIQLNIDATRMSQAFSGGGYVQSIVTSEVQEYINRYRGATSVPVDLTLRSRFNPELDKSWFGSINNIITAITMLSIVLTGAALIREREHGTVEHLLVMPVTPLEIMLSKVWSMGLVVLVASAFSLFVVVRGLLAIPIEGSLLLFLLGTALQLFAMTSMGIFLATVAGSMPQFGMLLILFLLPLQVLSGAMTPRESMPDIIQYIMLLAPNTHFVILAQSVLFRGAGLDVVWPQLLALLAIGSALFVFALRRFRRFLR	PGPT0006730_6863	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
BMS010_05852	603			hypothetical protein	ATGAATATTGCAGCACGTCTGTCACTGGCAGCCATGATCGCACTGGCGGCAACGCCATCTCTTGCGTCAGAAGATATGACGTCGGAGACGAGCGAAGCGATATTCGGTTTCGGCGGCGTCCTGACGAAAGAGGACATGCTGAAAAGTGCAGCCCTCATTCCGGTGGAATATGAGCGCAATGCCATTCTGGGCGGCGGCTATCAGTTCTACCCCTACCACATCGGCAACGTGAAACTCGGCGGCGAAATCGGCGTCGCCGCCAGGTTCGGCAAGGGCTTTACCAGTGAAGTCTGGGCGGGTCCGGTTGCACGTTACGAGCAGATCAGGCTCGGAGAGCGGCTGTTCATCACGCCGAGCTTTACCGCCGGCCTCAGCCTCGTGACGGATGCGCAGCCTGGCCGCGAGCGGGAACAGGAAATCAAGGACAACGGCAACGCGAATGTCCTGTTTTATCTGGGACCGGAAATCAACGTGTCCTTCAGCGAGGATTCTTCGACGGAATTCTTCTGGCGTCTTCACCACCGTTCCGGCGGTGGCAAAACACTGGGCAATATGAAAGGCGCCACAAACGCCAGCGTATTCGGCGTCCGCTACAAGTTCTGA	MNIAARLSLAAMIALAATPSLASEDMTSETSEAIFGFGGVLTKEDMLKSAALIPVEYERNAILGGGYQFYPYHIGNVKLGGEIGVAARFGKGFTSEVWAGPVARYEQIRLGERLFITPSFTAGLSLVTDAQPGREREQEIKDNGNANVLFYLGPEINVSFSEDSSTEFFWRLHHRSGGGKTLGNMKGATNASVFGVRYKF				NA	NA	NA	NA	NA
BMS010_05853	147			hypothetical protein	ATGAACGTAGCACGCAGCTTCAATAACTGGCGCAAATATCGTCAGACCATCAACGAACTCGGCCGTATGAGCACCCGTGAACTGCACGATCTCGGTATCGATCGTAGCCAGATCACCAGCGTCGCCCGCGCCGCCGTTGGCAGGTAA	MNVARSFNNWRKYRQTINELGRMSTRELHDLGIDRSQITSVARAAVGR				NA	NA	NA	NA	NA
BMS010_05855	444			hypothetical protein	ATGTTGGCAGACGTCTTGCAAAACGAACCGGGTTTCCGCACGGAACAGCCGCGTGTGCTGATCGTGGAAGACGAATTCCTCATCGCCATGGATATAGAGGATTCCATTTTGCAGGCGGAAGAAGAGGCCGATGTCATCGGCATCGCCAACCGGCTGGAAGACGCCGTGGCGCTTGGCAGCCGCGCCGATATCGCCTTTGTCGACGTCAACCTTGCAGACGGACAGACCGGCCCGGAAATCGGACGGCGGCTTTCACAAGATCATGGCGTGGTGGTGATCTTCATGACGGCAAACCCCGAAGTCGTCGTCAATCTCGGCATCGGCGCCGGCGTAATCGCCAAACCCGTGCCGCAGGATGCCGTGGAGCAGTGCCTCGCCTATGCCCTTGCCAAACGTGCAGGCGCCCACGCCGTGACGCCCATCGGCATGATGGCTTTCGACTGA	MLADVLQNEPGFRTEQPRVLIVEDEFLIAMDIEDSILQAEEEADVIGIANRLEDAVALGSRADIAFVDVNLADGQTGPEIGRRLSQDHGVVVIFMTANPEVVVNLGIGAGVIAKPVPQDAVEQCLAYALAKRAGAHAVTPIGMMAFD				NA	NA	NA	NA	NA
BMS010_05856	963	ftsZ-like		FtsZ-like protein	ATGACCCAGTCTCCGCGCGCCACCATTGCCCGCAACACGCCCAATATCGCCGTCGTCGGCGTCGGTGGCGGTGGCGGCAACGCGATCAACAACATGATTGCCGAGGGCATCGGTGGCGTCGATTTCATCGCCGCCAATACGGATGCGCAGGCGCTGAAGAAGACCAACGCGCCGCGGCTCGTGCAGCTCAGCTCCGAGCTGACCGGCGGGCTTGGCGCAGGCGCCGATCCCGAGGTTGGCCGGCAGGCGGCGATCGATTCACTTGACGAGATCATGGATCACCTGAGCGGCTACGACATGTGTTTCATCACCGCCGGCATGGGCGGCGGCACCGGCACGGGCGCTGCCCCCGTCATCGCCGAAGCCTGCCGGGCGAAGAACATCCTCACCGTCGGTGTCGTGACGCTTCCCTTCAGTTTCGAAGGCGCGCGCCGCATGCGGGCTGCCGAATATGGATTCGCCAACCTGCTCAACACGGCAGATACCGTCATCGTCATCCCCAACCAGAACCTGCTGCGCATTGCCGATGCCGGCACGACCTTCGAAAATGCGCTGAAGACGGCCGACAAGGTTCTGTCGCTTGGCGTGCGCTGCATCACAGATCTCATCCTGCGCGAAGGCCTGGTCAATCTCGATTTCGCCGATGTGCGCTATGTCATGAAGAATGGCGGCCGGGCGCTGATGGGCACGGCGCAGGCCAAGGGTGAAAAGCGCGCCTCGGAAGCGGCTGCCGCAGCCATTGCCAACCCGCTGCTCGGCGAACCGTCGCTGAAGGAAGCGCGGGGCGCTCTTGTTTCCATTTCCGGTGGCAACGATCTGACGCTCTATGAGATCGATGAGGCAATGACGCTGGTACGCGAGGCTGTGAGCGAAGAAACCGATGTGGTGATGGGCGCTTCCTTCGACCCGACGCTGGACGGCGCTTTCAAGATTTCGGTCGTCGCCACCGGCCTGCGCAATTGA	MTQSPRATIARNTPNIAVVGVGGGGGNAINNMIAEGIGGVDFIAANTDAQALKKTNAPRLVQLSSELTGGLGAGADPEVGRQAAIDSLDEIMDHLSGYDMCFITAGMGGGTGTGAAPVIAEACRAKNILTVGVVTLPFSFEGARRMRAAEYGFANLLNTADTVIVIPNQNLLRIADAGTTFENALKTADKVLSLGVRCITDLILREGLVNLDFADVRYVMKNGGRALMGTAQAKGEKRASEAAAAAIANPLLGEPSLKEARGALVSISGGNDLTLYEIDEAMTLVREAVSEETDVVMGASFDPTLDGAFKISVVATGLRN	PGPT0027695_5414	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0027695-ftsZ-K03531	NA	NA
BMS010_05857	699			hypothetical protein	ATGACGGATATAATTGCTTCTGCCGAGCGAAAGCGCGGCTCCGGCGTGAAGATGGTCTATGATCTGCTGCGCGACGAGATTCTCGATCTGGTTCTGCCGCCGGGCAGCCCCATCGATGAGGTGCAACTTGCCGAAAGATTCAAGATGTCGCGCACGCCGATCCGCGAGGCGCTGGTGCGGCTTTCGGGTGAGGGGCTGATCGATACGCTGCCGAACCGTTCGACCATGGTGTCGAACATCGATTTCCTCAACATGCACACCTATTTCGATGCGCTGGTGCTGATGTATCGGGTAACGACGCAGCTTGCCGCGCAATATCACCGTCCGGAGGATCTGGCCGGAATCCGCGCCCACAATGCGGAATTCGCCATTGCGGTGGAAGAGCAGGATGCGCTGGCGATGATCTCCACCAATGCCGCCCTTCACCTTTCCATCGCCGAAGCCGGGCGTAACCCCTATTTTACCAGCCTGTTCAAGCGGCTGCTGGACGAGGGGCGACGCATCCTCAGGCTTTATTACCAGTCCTATGACGATCGTTTGCCGAAGCGCTTCGTCGACGATCATGATGAGATCATCGCGGCGATTGCCGCGCGTGATACCGTTCTTTCCGAGAAACTGGCCCGTGAGCACGCCGAGCAGATCGTGCGGCAGGTGCAGAAACTGCTGGTGCGAAACGAACGGCTGGAAATAAATCTGTAG	MTDIIASAERKRGSGVKMVYDLLRDEILDLVLPPGSPIDEVQLAERFKMSRTPIREALVRLSGEGLIDTLPNRSTMVSNIDFLNMHTYFDALVLMYRVTTQLAAQYHRPEDLAGIRAHNAEFAIAVEEQDALAMISTNAALHLSIAEAGRNPYFTSLFKRLLDEGRRILRLYYQSYDDRLPKRFVDDHDEIIAAIAARDTVLSEKLAREHAEQIVRQVQKLLVRNERLEINL				NA	NA	NA	NA	NA
BMS010_05858	966	dapA_6		4-hydroxy-tetrahydrodipicolinate synthase	ATGACGGCCAGCATTTTTTCCGGCGTGATTCCCGCCTTGATGACCCCCTGCAAGGATGATCGCACCCCTGATTTCGATGCGCTTGTTCGCAAGGGCAAGGAACTGATCGCCGATGGCATGTCGGCCGTCGTTTATTGCGGCTCCATGGGCGACTGGCCGCTCCTGACGGACGAGCAGCGCATGGAAGGCGTGGAGCGCCTGGTGAAAGCCGGCATTCCGGTTATCGTCGGCACCGGCGCGGTCAACACGGCCTCTGCCGTTGCCCATGCCGCTCACGCCCAGAAGGTTGGCGCCAAGGGCCTGATGGTCATTCCGCGCGTCCTGTCGCGCGGTTCGGTCATCGCCGCCCAGAAGGCCCACTTCAAGGCCATCCTCTCGGCCGCACCGGAAATCCCGGCCGTCATTTACAACAGCCCCTATTACGGCTTCGCCACTCGCGCCGATCTCTTTTTCGCGCTGCGCGCCGAGCACAAGAACCTCGTCGGCTTCAAGGAATTCGGCGGCCCGGCCGATATGCGTTACGCCGCTGAAAACATCACCAGCCGCGATGACGACGTCACCCTGATGATCGGCGTCGATACGGCTGTTTTCCATGGCTTCGTCAATTGCGGCGCCACCGGTGCCATCACCGGCATCGGCAATGTTCTGCCGAAGGAAGTCATTCACCTCTGCAAGCTGTCGCAGGCCGCCGCCAAGGGCGATGCCGATGCCCGCGCCCGCGCGCTGGAGCTGGAACAGGCGCTCGCCGTTCTCTCGTCCTTCGATGAAGGCCCGGATCTGGTTCTCTATTTCAAGCACATGATGGTGCTGAAGGGCGACAAGGAATACACGCTGCACTTCAACGAAACCGATGCTCTGACGGACAGCCAGCGCGGTTATGTCGAGGCGCAGTTCAAGCTGTTCAACAGCTGGTATGCCGACTGGAGCAAGCTGCCGGGTGCGGTTCAGGCCTGCAAAGCTGCTTGA	MTASIFSGVIPALMTPCKDDRTPDFDALVRKGKELIADGMSAVVYCGSMGDWPLLTDEQRMEGVERLVKAGIPVIVGTGAVNTASAVAHAAHAQKVGAKGLMVIPRVLSRGSVIAAQKAHFKAILSAAPEIPAVIYNSPYYGFATRADLFFALRAEHKNLVGFKEFGGPADMRYAAENITSRDDDVTLMIGVDTAVFHGFVNCGATGAITGIGNVLPKEVIHLCKLSQAAAKGDADARARALELEQALAVLSSFDEGPDLVLYFKHMMVLKGDKEYTLHFNETDALTDSQRGYVEAQFKLFNSWYADWSKLPGAVQACKAA				NA	NA	NA	NA	NA
BMS010_05859	1038		COG2055	Delta(1)-pyrroline-2-carboxylate reductase	ATGAGCGACACGACCACTTTGACCATTGAGGCACTTTTCCAGCGGGTCGAGTCGATTTTTTTGAGGGCCGGGGTGAATGATGTACAGTCGGGAGCGCTGGCGCGGGTCATTACTGCCGGTGAGCGGGACGCCTGCAAGTCCCACGGCATCTACCGTATCGAAGGCGCGCTCCGCACCGTCAAGGCGGGCAAGGTGAAGCCCGACGCCATACCTGAAGTGGCTGAAGACGACGCCACGGCCATCGTCAAGGTCAATGCCCGTGGCGGCTTCGCCAACCCCGCCTTCGAACTTGGTCTGCCGGTTCTGGTGGAGCGAGCGAAACGTGCGGGGATCGCTGCACTCGTCATCAATGACTGCACGCATTTCTCGGCGCTCTGGCCGGAAGTCGAGGGCCTTACCTCGAATGGTCTCGCCGGGCTGGTCATGTGCCCGAGCTATTCCACCGTTGCGCCCACCGGCGGCAGCAAGCCGCTGCTTGGCACCAACCCCTTCGCCTTCGGCTGGCCGCGCAAGGGCACCTCGCCTTACGTCTTTGATTTCGCGACCTCGGTTGCGGCCCGAGGTGAAATAGAACTACACCGGCGGGCCGGAAAGCCCCTGCCGGAAGGCTGGGCTCTGGATGCCGACGGCAAGCCGACGACCGACCCGGAGGCGGCCCTTGCCGGCTCCATGCTTCCCTTTGGCGGCCACAAGGGATCGGCCATCGGCACGATGATCGAGCTTCTCGCCGGCATCATGATCGGCGATCTCACCAGCCCCGAAGCGCTCGAATTTCTCGGCACCACCACGCTTGCCCCGACCCATGGCGAGCTGATCGTCGCCTTCTCTCCCGAAGCCTTCGCCAAAGGCCGCCCCGGCGATCCCTTCCAGCGCGCGGAAGTGCTGTTCGACGCTATCATCGGCCAGGGCGCCCGCCTTCCCTCGGGCCGCCGCTTCACTGCCCGCGCCAAATCCGAAAGCGAAGGCATTACCCTCACCGCCGCCGAAATGGCCGGGCTCGACCGGTTGCTGGAGAAGGGGCTGGACGCGGTTTCCTGA	MSDTTTLTIEALFQRVESIFLRAGVNDVQSGALARVITAGERDACKSHGIYRIEGALRTVKAGKVKPDAIPEVAEDDATAIVKVNARGGFANPAFELGLPVLVERAKRAGIAALVINDCTHFSALWPEVEGLTSNGLAGLVMCPSYSTVAPTGGSKPLLGTNPFAFGWPRKGTSPYVFDFATSVAARGEIELHRRAGKPLPEGWALDADGKPTTDPEAALAGSMLPFGGHKGSAIGTMIELLAGIMIGDLTSPEALEFLGTTTLAPTHGELIVAFSPEAFAKGRPGDPFQRAEVLFDAIIGQGARLPSGRRFTARAKSESEGITLTAAEMAGLDRLLEKGLDAVS	PGPT0001796_65	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_AQUIRED_RESISTANCE|SAR	SAR-CONDITIONING_COMPOUNDS	SAR-PIPECOLATE_BIOSYNTHESIS,PGPT0001796-dpkA|lhpD-K13609	NA	NA
BMS010_05860	807	artI	COG0834	Putative ABC transporter arginine-binding protein 2	ATGAAAAAATCGGTCATCGTCGCCGGCCTCCTGGCCGCCACTTTCGCTATTACGCCGGCCAAGGCCGACAAACTTGACGACATCATTTCGTCCGGCACGCTGCGTTGCGCCGTCGTGCTCGATTTCCCGCCCATGGGCGCGCGTGATGACGCCAACAACCCAATCGGCTTCGATGTCGATTATTGCAACGATCTTGCCAAGGCGCTCGGCGTCACGGCTGAAATCGTCGAAACGCCGTTCCCCGAGCGCATTCCGGCGCTGATGTCCGGCCGCGTCGATGTCGGCGTTGCGTCCACCTCCGATACGCTGGAGCGCGCCAAGACGGTCGGCATGACCGTGCCTTACTTCGCTTTCGAAATGGCCGTTACCGCCAACGACAAGTCGGGCATCAAGTCCTTTGAGGACATGAAGGGCAAGACGGTCGGCGCGACTGCCGGCACGTTCGAAGCCATCGCGCTCGAAAAGACGGTCAAGGAATGGGGCACCGGCGAATTCCGTCCGTACCAGACGCAGGCCGATGTGTTCCTCGCGCTCAGCCAGGGCCAGATCGACGCCACCGTCTCCACCTCGACGGTTGCGCAGTCCAACGTCAAGGGCGGCAAGTTCGCGGGCATCTCCGTGGTAGGCAAGGCGCCCTATGACATTGACTATGTCGCGCTCTTCACCAACCGTGACGAATACGGCTTCATCAACTACCTGAACCTCTTCATCAACCAGCAGGTTCGCACCGGCCGTTACGCCGAACTCTATGAAAAATGGGTTGGCGGCGAAGTTCCTTCGCTCACCGTCAACGGCGTTTATCGCTGA	MKKSVIVAGLLAATFAITPAKADKLDDIISSGTLRCAVVLDFPPMGARDDANNPIGFDVDYCNDLAKALGVTAEIVETPFPERIPALMSGRVDVGVASTSDTLERAKTVGMTVPYFAFEMAVTANDKSGIKSFEDMKGKTVGATAGTFEAIALEKTVKEWGTGEFRPYQTQADVFLALSQGQIDATVSTSTVAQSNVKGGKFAGISVVGKAPYDIDYVALFTNRDEYGFINYLNLFINQQVRTGRYAELYEKWVGGEVPSLTVNGVYR	PGPT0014265_65	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0014265-lhpP-K23061	NA	NA
BMS010_05861	666	yecS_6	COG0765	L-cystine transport system permease protein YecS	ATGTTCAACTATACATTCCACTGGAATCAGGCGCTGAAGGCTCTGCCGCAGCTTCTGGACGGTGCGGTGGTGACGCTGCAGATCGCCATTCTGTCGATGGTAATCGGTCTTTCCTGCGCCATAGTGCTGACGCTGTTCCGGCTCTCCGGCAACCGCATTCTCGGCGCTTTCGCCGCCGTCTGGGTGGAAGTCGCCCGCAACACGCCGGCGCTGTTCCAGATCTACATGGCCCATTTCGGCCTTGGCAATTTCGGCATTCATTTGAGCCCCTATACGGCGCTTCTGGTCGGTATCGCCTTCAACAATGCCGGTTATCTGGCGGAAAATTTCCGTGGCGCGCTAAAGGCCATTCCCGATACGCAGACGCGCTCGGGCCGTTCGCTAGGCATGACCTCGATGCAAACCTTCCGGCTGATCATCCTGCCGCAGATGCTGCGCGTTGCGTTCCTGCCTGCCACCAACCAGATGGTGTGGGCAATTCTCATGACCTCGCTCGGCGTCACGGTCGGCATGAATACGGATCTCGCCGGCGTCACGCAGGCGCTCAATGCGCGCTCGTTCCGCACCTTCGAATTCTTCGCGCTCGCCGCGGTCATCTATTACGTGATCGCCAAGATCGTCACGCTCGCCGCCCGTCTGCTGGCAGCGCGTCTGTTCCGTTATTGA	MFNYTFHWNQALKALPQLLDGAVVTLQIAILSMVIGLSCAIVLTLFRLSGNRILGAFAAVWVEVARNTPALFQIYMAHFGLGNFGIHLSPYTALLVGIAFNNAGYLAENFRGALKAIPDTQTRSGRSLGMTSMQTFRLIILPQMLRVAFLPATNQMVWAILMTSLGVTVGMNTDLAGVTQALNARSFRTFEFFALAAVIYYVIAKIVTLAARLLAARLFRY	PGPT0014270_38	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0014270-lhpN-K23062	NA	NA
BMS010_05862	654	yecS_7	COG0765	L-cystine transport system permease protein YecS	ATGTTTGAAACCGCTCTCACCTGGAGTGATCTCGCCTTCCTGGCCAAGGGTGCCGGTATGACGCTTGCCGTCACCGCCGTCGCCGTCACGGCGGGCACCATCATGGGGATCATCTTCGGTATCATCCGTTTCCAGTTCGGCCCCTATTGGTCGCTGCCGCTGACCTTCGTGCTGGATATTTTCCGTTCCGTGCCGCTGCTCATCCAGCTCGTGCTCGGCAACGCCTTCCAGTCGATCGCCAAGCTCGGCTGGCCGCCATTCACCACCTCCTGCGTGGTGCTGTCGCTTTATACGGCAGCCTATTGCACCGAGATCGTGCGCGGCGGCATCGATGCCGTGCCGTCGAATACGCGCCGCGCCTGCCGTTCGCTGGGTATGACCTGGTCGCAGGACATGCGCTATATCGTGCTGCCGCTCGCCACCCGCGTGTCGCTGCCCGCATGGATCGGGCTCACGCTCGGTGTCATGAAGGATTCGGCGCTGGTGCTTTGGCTCGGCCTCATCGAGCTTCTGCGTGCCTCGCAGATTCTCGTTACCCGCCTGCAGGAACCGCTGACGATCCTGATGATCTGCGGCGCCATCTACTTCCTTATCAGCTTCCCCATCGCCCGTTTCGGCGGGTATCTCGAAAGACGGTGGTCCCCCAATGATTGA	MFETALTWSDLAFLAKGAGMTLAVTAVAVTAGTIMGIIFGIIRFQFGPYWSLPLTFVLDIFRSVPLLIQLVLGNAFQSIAKLGWPPFTTSCVVLSLYTAAYCTEIVRGGIDAVPSNTRRACRSLGMTWSQDMRYIVLPLATRVSLPAWIGLTLGVMKDSALVLWLGLIELLRASQILVTRLQEPLTILMICGAIYFLISFPIARFGGYLERRWSPND	PGPT0014275_61	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0014275-lhpM-K23063	NA	NA
BMS010_05863	723	glnQ_7		Glutamine transport ATP-binding protein GlnQ	ATGATTGAGATCGAAAACGTCCGCAAATCCTTCGGCCCGCTGGAGGTTCTGAAAGGGATCAACCTCACCGTCAACAAGGGCGAGGTGGTCACCATCATCGGCGGCTCCGGTTCCGGCAAGTCGACGTTGCTGACCTGCATCAACGGCCTCGAGCCGATCGATAGCGGCAAGATCGTCATCGACGGCACGGAAGTGCATGCGAAGTCCACCGACCTCAACAAGCTGCGCCGCAAGGTCGGCATCGTCTTCCAGCAATGGAACGCCTTCCCGCATCTGACTGTGCTCGAAAACGTCATGCTCGCGCCGCGCAAGGTGCTCGGTATCTCGAAGGAGCAGGCCGAGGAAATCGCGGTAAAGCAATTGACCCATGTGGGCCTTGCCGAAAAGCTGAAGGTCTATCCGAACCGCATGTCGGGTGGTCAGCAGCAGCGTATGGCGATTGCCCGTGCGCTTGCCATGTCGCCGGAATATATGCTGTTCGACGAAGTCACCTCGGCGCTCGACCCGATGCTGGTGGGCGAAGTGCTCGATACGCTGAAGATGCTGGCGGATGAGGGCATGACGATGATCTGCGTCACCCATGAAATGGCCTTCGCGCGTGATGTCTCGAATCGCGTTGCCTTCTTCCATCAGGGTGTGATGGCGGAAATCGGCACGCCGGACCAGCTGTTCGGCGCGCCGCAGCACGCTGAAACGCAGAAATTCCTGGCGAGCGTGCGGTAA	MIEIENVRKSFGPLEVLKGINLTVNKGEVVTIIGGSGSGKSTLLTCINGLEPIDSGKIVIDGTEVHAKSTDLNKLRRKVGIVFQQWNAFPHLTVLENVMLAPRKVLGISKEQAEEIAVKQLTHVGLAEKLKVYPNRMSGGQQQRMAIARALAMSPEYMLFDEVTSALDPMLVGEVLDTLKMLADEGMTMICVTHEMAFARDVSNRVAFFHQGVMAEIGTPDQLFGAPQHAETQKFLASVR	PGPT0014280_80	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0014280-lhpO-K23064	NA	NA
BMS010_05864	1242	dadA1_5	COG0665	D-amino acid dehydrogenase 1	ATGCCAGCCAATGATGTCATCGTCATCGGGGCCGGCGTCGTCGGCCTCTCGGCGGCAATTGCGGCGCAGGGCCGTGGCCTGTCGGTCACGGTCATCGACCGCGAGGGACCGGCGGCGGGCGCGTCCGCCGGCAATGCCGGTGCCTTCGCTTTCACCGATATCCTGCCGCTGGCATCGCCCGGCATTCTGTGGAAGGCGCCGAAGTGGCTGCTCGATCCGCTCGGTCCGCTCAGCGTGCCGCCTTCCTACGCGTTGAAGATCGCGCCGTGGATGTTCCGGTTCTGGCGGGCCTGCGCCACTTCGAAGGTGGAACATTCGACCGCCGCCCAGACCGCGCTGATGGATCTCGCGAAGGCCGAGCTGGAGCCGTTCCTGAAAAAGACCGATACCATCGCCATGCTGCGCAAGGAGGGCAACCTCCAGGTCTATGAAAGCGAGGCGGAATTCGAAGCCTCGCTTCCCGGCTGGAAGGCGCGCGAGCGGCACGGCATCGAGTTCCGGCATCTCAATGCCGAACAGATGGCTGAGATACAGCCCGGCATCGCGCCGCGTTTCACCTGCGGCACGTTCACGCCCGGCTGGTATTCCATCGCCGACCCCAAGTTTTATACGCTGGCGCTGGCCGACCATTTCCGCACCATTGGCGGCCGTATCGAATGCCTCGATATCGCTTCGCTCAGGCCGCTGGAAGACGGCGTCGAGGTAGTGAGCCATGATGGGCGCACCCGCAAGGCCGCCAGGGTGGTGCTGGCAGCCGGCGCCTTTTCGCATCGCATCGCCCGTTCGCTCGGGGAAAAAATTCCGCTGGAAACCGAACGGGGGTATAATACGACCCTGCCGTCTGGCGCCTTTGATCTGCGCACGCAGGTGACCTTCGGCGGCCATGGTTTCGTCGTCACGCGGCTTTCCTCCGGCATCCGCGTCGGTGGCGCGGTGGAACTGGGCGGACTGGAGCTTCCGGCCAATTTCGCCCGTTCCGAAGCGCTGCTGACCAAGGCGAAAGCCTTCCTGCCGGGCCTGAAGACCGAAGGCGGCAAGCAGTGGATGGGCTTTCGCCCCTCGCTGCCGGACAGCCTGCCGGCCATCGGGCAAGCACGGCACACGGCGCGGGTGGTTTATGCTTTCGGCCACGGGCATCTGGGGTTGACGCAATCGGCGGGCACGGCCCGCATCGTCGCCGATCTTCTGACGGGGCAAAAACCCGCCATCGATACAAGGGCATTTTCGCCGCAACGCTTCTGA	MPANDVIVIGAGVVGLSAAIAAQGRGLSVTVIDREGPAAGASAGNAGAFAFTDILPLASPGILWKAPKWLLDPLGPLSVPPSYALKIAPWMFRFWRACATSKVEHSTAAQTALMDLAKAELEPFLKKTDTIAMLRKEGNLQVYESEAEFEASLPGWKARERHGIEFRHLNAEQMAEIQPGIAPRFTCGTFTPGWYSIADPKFYTLALADHFRTIGGRIECLDIASLRPLEDGVEVVSHDGRTRKAARVVLAAGAFSHRIARSLGEKIPLETERGYNTTLPSGAFDLRTQVTFGGHGFVVTRLSSGIRVGGAVELGGLELPANFARSEALLTKAKAFLPGLKTEGGKQWMGFRPSLPDSLPAIGQARHTARVVYAFGHGHLGLTQSAGTARIVADLLTGQKPAIDTRAFSPQRF	PGPT0020315_3222	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_D-AMINO_ACID_DEGRADATION,PGPT0020315-dadA-K00285	NA	NA
BMS010_05865	1710			hypothetical protein	ATGTCTTCTTCCCTCTCGACAACAGCCGTTCCTGAAGCCCGCAGCATTTTGGCCGGTTCGGCCGAAGGTCCCGTGATTGCGACGACCGAAGCGCTGAGTTTCTGGGGCGGGGTCGATCCCGCCACCGGCCGGGTCATCGACGTGCACCACCCGCTGCATGGCACCTGTCTCACCGGCGGCGTGCTGTTCATGCCCACCAGCCGCGGTTCCTGCACCGGTTCAGGTGTCTTGCTCGATCTTATCCTGACGGGCCGTGCGCCTTCGGCGCTGGTCTTCTGCGAGGCCGAGGACGTGCTGACGCTGGGCGCGCTGATCGCCGCCGAAATGTTCGGCAAGCCTTTGCCGGTGCTGCGCCTCGACGCGGAAAATTTCGCCCGGTTTTCCGAAGCCGTTCATGTCCGTATCGATGAGAAGGCCATTGAAGCCGATGGCGTTTCCCTTGCCGTCACCTCGCCGGCGACGGCGCATCTCGATCTTCAGGATGACGACCGGGCCGTGCTCGAAGGGCGCGATGGCATCGCCGCGCAGCAGGCCATGCGCATCACCGTCGCCATGGCCGCCCAGCAAGGGGCATCGGCGCTTGTCGATGTCACGCAGGGCCATATTGACGGTTGCATCTATGCCAGCCCCGCCAATCTCACCTTCGCGGAAAAAATGGCGGAGATGGGCGCGAAGGTACGGGTGCCGACGACCATGAACGCCATTTCTGTGGAAAAGGCGCATTGGCGTTCGCAGGGCATGCCGGAGGATTTCGGCGACCCGGCCGCAAGGCTGGCGGATGCCTATGTGCGCATGGGCTGTCGCCCGACTTTCACCTGTTCGCCTTACCTGCTCGACAGCGCGCCGCAGGCCGGCGACATGATCGCCTGGGCCGAATCGAACGCGGTGATCTTCGCCAATACGGTGCTTGGCGCGCGCACGGCGAAACACCCGGATTTTCTCGATCTCTGCATTGCGCTGACGGGCAGGGCGCCGCTTGCCGGCGTCTATCTGGAGGAAAATCGCCGTCCTCAGCGCATCGTCAATGTGGCGCTGCCGCAGGGTGTGGATGATGCCTTCTGGCCGCTCGTCGGTTATCTGGCGGGCAAGGCCGCGCCGGATTGCATTCCGCTGCTGCGCGGCCTTGGCCCTGCGAAGCCGTCACGGGATGATCTAAAAGCGCTTTGCGCGGCTTTCGGCACCACATCCGCTGCGCCCATGTTGCATATTGAGGGTGTGACCCCGGAAGCCGGGCTTGCGCCTTTGGAAACAGCCGAGACCGTCACCATTTCGCTCGCAGATATGGCCGCCGGCTGGTCGCTGCTGAATGAGGGGCCGGAGGACGTGCAGCTCGTTGCCATCGGCAGCCCGCATGCCTCGCTGGAGGAGTGCCGCGCGCTCGCCGCTGTGCTCGCCGGTCGCAAGCGGCATGCGGATGTCGCCGTCATCGTGACAGCCGGGCAGCAGGTCATCGATGCGGCCGGCCAGGACGGCACCTTGAAAAGACTGCATGACAGCGGGGTGCAGGTGCTGCCTGATCTTTGCTGGTGCTCCATTTCCGAACCGGTCTTCCCGACGAAGACCCGTGCCCTGATGACTAATTCCGGCAAATACGCCCATTACGGACCGGGCCTCAGCGGTCGCGCAGTGCGCTTCGGCAGCCTTGCCGATTGCGTGGAAAGTGCGCTGACCGGCCGTGCTCCATCCCTTCTTCCTTCATGGCTTTCCTAA	MSSSLSTTAVPEARSILAGSAEGPVIATTEALSFWGGVDPATGRVIDVHHPLHGTCLTGGVLFMPTSRGSCTGSGVLLDLILTGRAPSALVFCEAEDVLTLGALIAAEMFGKPLPVLRLDAENFARFSEAVHVRIDEKAIEADGVSLAVTSPATAHLDLQDDDRAVLEGRDGIAAQQAMRITVAMAAQQGASALVDVTQGHIDGCIYASPANLTFAEKMAEMGAKVRVPTTMNAISVEKAHWRSQGMPEDFGDPAARLADAYVRMGCRPTFTCSPYLLDSAPQAGDMIAWAESNAVIFANTVLGARTAKHPDFLDLCIALTGRAPLAGVYLEENRRPQRIVNVALPQGVDDAFWPLVGYLAGKAAPDCIPLLRGLGPAKPSRDDLKALCAAFGTTSAAPMLHIEGVTPEAGLAPLETAETVTISLADMAAGWSLLNEGPEDVQLVAIGSPHASLEECRALAAVLAGRKRHADVAVIVTAGQQVIDAAGQDGTLKRLHDSGVQVLPDLCWCSISEPVFPTKTRALMTNSGKYAHYGPGLSGRAVRFGSLADCVESALTGRAPSLLPSWLS				NA	NA	NA	NA	NA
BMS010_05866	1029		COG3938	Trans-3-hydroxy-L-proline dehydratase	ATGCGCAGCATCAAGACCATTCATGTCATTTCCGCCCATGCGGAAGGTGAGGTGGGGGACGTGATCGTCGGTGGAGTGAAGCCGCCGCCGGGCGAGACGATCTGGGAGCAGAGCCGCTTCATCGCGCGCGATGAGACCCTGCGCAATTTCGTGCTCAACGAGCCGCGTGGCGGCGTGTTCCGGCACGTCAACCTGCTGGTGCCGCCGAAACATCCCGATGCGGATGCCGCCTTCATCATCATGGAGCCGGAAGACACGCCGCCCATGTCCGGCTCCAACTCCATCTGCGTTTCCACCGTACTTCTGGATGGCGGCATCGTACCGATGCAGGAGCCGGAAACCCATATGCTGCTGGAAGCGCCAGGCGGGCTGGTGAAAGTGCGCGCCGAATGCCGCAACGGCAAGGCCGAGCGCATTTTCGTGCAGAACCTGCCCAGCTTTGCCGCAAAGCTCGATGTCGAACTCGAGGTTGAAGGCCTCGGTACGCTGAAAGTGGACACGGCCTATGGCGGCGACAGCTTCGTCATCGTCGATGCCGAAGCTATGGGCTTTAGCCTGAAGCCGGAAGAGGCGCATGAGATTGCCCGCCTCGGCGTGCGCATCACCAATGCCGCCAACAAGGCTCTGGGCTTCGATCATCCCGAAAACCCGGACTGGCGGCATTTTTCCTTCTGCCTGTTTGCAGGCAAGGTGGAGCGCACGGCCGAAGGCCTGCGGGCAGGGGCGGCCGTTGCCATCCAGCCGGGCAAGGTGGACCGTTCGCCGACCGGCACGGCACTTTCGGCCCGCATGGCGGTGCTGCATGCGCGTGGCGAAATGAAGGAGGGCGAAACCCTGACGGCGGTGTCGCTGATCGGCTCTACCTTCACCGGCCGTATTCTTGGAACGACAACGGTCGGCGACCGTCCAGCCATCCTGCCGGAAATCTCCGGTCGCGGCTGGATCACCGGTATCCACCAGCACATGCTCGACCCGTCCGATCCGTGGCCGGAGGGGTATCGTCTGACGGATACGTGGGGTGCGCGGTAA	MRSIKTIHVISAHAEGEVGDVIVGGVKPPPGETIWEQSRFIARDETLRNFVLNEPRGGVFRHVNLLVPPKHPDADAAFIIMEPEDTPPMSGSNSICVSTVLLDGGIVPMQEPETHMLLEAPGGLVKVRAECRNGKAERIFVQNLPSFAAKLDVELEVEGLGTLKVDTAYGGDSFVIVDAEAMGFSLKPEEAHEIARLGVRITNAANKALGFDHPENPDWRHFSFCLFAGKVERTAEGLRAGAAVAIQPGKVDRSPTGTALSARMAVLHARGEMKEGETLTAVSLIGSTFTGRILGTTTVGDRPAILPEISGRGWITGIHQHMLDPSDPWPEGYRLTDTWGAR	PGPT0014240_90	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014240-prdF-K01777	NA	NA
BMS010_05867	1074	gntR_2		HTH-type transcriptional regulator GntR	GTGGAGCGCACGCCCTTGGCCGCAGCGTTAGTCACGTCAAAAAAAGCAACCATGAGCGATGTCTCGAAACTCGCGGGCGTCTCCAAGATGACCGTTTCGCGGGTGCTGGCCGATCCCGCCCTGGTGTCAGAAGAGACACGCCAGAAGGTGATGAAAGCCATCGAGAAACTTGGCTATGTGCCGGACCGCATCGCCGGTTCGCTCTCTTCCCGCCGCACCAATTTCATCACCGCCATCCTGCCGACGCTCACCAACTCCAACTTCGCCGATAGCGCTCAGGGGCTCGCCAATGCGCTGCGCGCGGCCGATTACCAGTTGCTCATCGGCTATACGATGTACGATCTGCAGGAGGAGGAACGCGTCATCCGCACCATGATGGAGCGCCGCCCCGATGCCATCGTCGTCGCCGGCACGGTGCATACCAAGATGGCGAGCGAGGTGCTGATGCGCGCCGGTATCCCGATCGTGGAAATCTGGGACGTTCCCGAACACCCGATCGACCATGCGGTCGGTTTTTCCAACTACGAAGTGGGAAGAACTGCCGCCAAGCATCTGATATCGCTTGGCTTCAAGAAGATCGGTGCGCTCGGATCGAGGGCCGATGGCGATGTGAAGGACTGGCGCGGCGAAAGCCGCCTGCTCGGTTTTGGCGCGGCCCTGCGGGAAGCCGGCATTGCCGACGATCTCATCATCCGCGAAGGCAGCGCCCCGGTCTCCTATGACCATGGGGCAAAGACCCTCGGCTCGCTACTGGCCAAGGCCCCGGATGTCGAGGCCATCTTCGCCGTATCGGATATTTCCGCCGTCGGCGCACTGATGGAATGTCATCGACGGGGAATCAGTGTCCCGGACCGCATTTCCATCCTCGGCTTCGGCGACTTCGATATCGGCCGGCAATGTTACCCGGCGATTTCAACGATCCGCGTCGATGCCCAGATGATCGGCCGCAGGGCGGGCGAGTTGCTGCTTTCGATACTGGAGGCGGAAAAGGATGCCGTTGTTCCCGAAGGCGCAAGGGTGGATGTCGGCTTCGAGCTGATCGTGCGGGAGACGACGAAGCGGCTGGGTGGGTGA	MERTPLAAALVTSKKATMSDVSKLAGVSKMTVSRVLADPALVSEETRQKVMKAIEKLGYVPDRIAGSLSSRRTNFITAILPTLTNSNFADSAQGLANALRAADYQLLIGYTMYDLQEEERVIRTMMERRPDAIVVAGTVHTKMASEVLMRAGIPIVEIWDVPEHPIDHAVGFSNYEVGRTAAKHLISLGFKKIGALGSRADGDVKDWRGESRLLGFGAALREAGIADDLIIREGSAPVSYDHGAKTLGSLLAKAPDVEAIFAVSDISAVGALMECHRRGISVPDRISILGFGDFDIGRQCYPAISTIRVDAQMIGRRAGELLLSILEAEKDAVVPEGARVDVGFELIVRETTKRLGG				NA	NA	NA	NA	NA
BMS010_05868	321			hypothetical protein	ATGTATACACGCTCGGCAATTTTCGAAGGCAGGATTCACCCCGGTCGGGAGGAGGAGTTTTTCCGCATCGTCGAGGAAAAATTGCTGCCGGTCTGGAAACGCATGCCGAATGCGCAGGCCGTGCGGGTGATGCGCACCGAGCGCACGGACCCGGACGCGGCCTCAATCATCATGGTGCAGGAAATCGACTATCCGTCGATGGAAGCAGTGGAGGAAGCGCTGGTTTCCCCCGTCCGGCTGGAAGGTCGGGTGCTGACGGATGAGATGATGAGCATGTGCGACGGGCGTTTTTACCATCTCGTCTATAGCCGCGTCGCATAA	MYTRSAIFEGRIHPGREEEFFRIVEEKLLPVWKRMPNAQAVRVMRTERTDPDAASIIMVQEIDYPSMEAVEEALVSPVRLEGRVLTDEMMSMCDGRFYHLVYSRVA				NA	NA	NA	NA	NA
BMS010_05869	804	fliY_2	COG0834	L-cystine-binding protein FliY	ATGAGCATATCCAGATTTCTGAAGAACATGACCGTCGCCGTCGGTGTTGCAGCAGCAACGCTTGCCGCCACCACGTCTGCCCAAGCCGTCTCGCTCAGCGAGATCACCGCGCGCGGCAAGGTCAAGATTGGTGTTCTGACCGGTGCGCCGCCGATGGGCATGGTGGATGAGAAAGGCAATCCCTCTGGTTACGACGTCGATGTCGCCAATCTCATTGGTTCTTATCTGTCGCTGCCGGTTGAGCTGGTGCCGCTGACGCCGCCTGCGCGTATTCCCGCACTTCAGACCGGCAAGGTCGATTTCCTTGTTGCCACGCTTGCGCCGACCGGCGAGCGCGCCAAGACCGTGATGTTCACGCAGCCTTACAGCGCCTTCAACATGGACATCATTTCCGGCAAGGACCAGAAGTTCGAAAATCTCGACAGCCTTAAGGGCAAGCGGGTTTCGGTCAATCGCGGTTCCTCGCAGGAAACCGCGCTGCGCAAGGCCAATGTCGAAGGTCTTGAAATCGTCGTTTACGAAGACGATTCCACCAGCGCCCAGGCACTGCTCGCCGGTCAGGTGGATGCTGTCGCCCTGCCGTCCACGGTTGGTGAGGCGATCATCAAGCAGCGTCCGGAAGCCGGTCTGCAGGTTGGTTTCACCTTCTTCCAGCAGGGCAACTCCATGGCGACCAAGCTTGAGGATTTCGAGCTGCGCCAATGGCTGAACACCTCCATCTACCTCATGAAGATGTCCGGCGATCTCGACCGCATCTCGGTCAAGTGGACTGGCCGTCCGCTGCCGCAATTGCCAAGCTTCTGA	MSISRFLKNMTVAVGVAAATLAATTSAQAVSLSEITARGKVKIGVLTGAPPMGMVDEKGNPSGYDVDVANLIGSYLSLPVELVPLTPPARIPALQTGKVDFLVATLAPTGERAKTVMFTQPYSAFNMDIISGKDQKFENLDSLKGKRVSVNRGSSQETALRKANVEGLEIVVYEDDSTSAQALLAGQVDAVALPSTVGEAIIKQRPEAGLQVGFTFFQQGNSMATKLEDFELRQWLNTSIYLMKMSGDLDRISVKWTGRPLPQLPSF	PGPT0020800_9817	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_05870	705			hypothetical protein	ATGTCCTATACATTCCAATTCGGCGCGCTCGCCCAGTATCAGAACGAGATTCTGAACGGCATATGGCTGACGATCAAGCTGTCTGTCCTGTCCATCGTGCTTGGCTGCGCTTTCGGCATTCTTTTGGCCTCGCTGCGGTCCATCAATGGCGGCATCGTTCGCATCATCGTGGACGGTTATGTGGAAGTCATCCGCAATACGCCGTTTCTCGTGCAGCTTTTCATCGTCTATTTCGGCCTGCCGGGCCTCGGCTTCAGGGTAGGGGCGGATACGGCGGCGCTGATCGGTATGACGATCAACCTCGCAGCCTATTCGACGGAAATCATCCGCGCCGGCATTGAGGCGGTGCACAAGTCGCAGATCGAGGCGGGCGAGGCGCTCGGCTTTACCAAGTATCAGATCTATCGCCACGTCATCATCGTGCCGGCCATCGCCAAAGTCTATCCCTCGCTGTGCAGCCAGTTCGTGCTGATGATGCTGGCATCGAGCATATGTTCGGCCATTTCCACCCATGAGCTTGCGGCTGCCGCAGCCTTCGTGGAATCGCAGACCTATCGCTCCTTCGAGGTCTATATCGTCGTCACGCTCATCTATCTTGCGCTGGCGCTTTCGCTGCGGCTCATCCTTGCCCTTGTCGGCATGTGGCTGTTCGGCCGTCGCGTTGCCCGCAAGACGATGACCGCCATGCCGGAGGTGCAGTCATGA	MSYTFQFGALAQYQNEILNGIWLTIKLSVLSIVLGCAFGILLASLRSINGGIVRIIVDGYVEVIRNTPFLVQLFIVYFGLPGLGFRVGADTAALIGMTINLAAYSTEIIRAGIEAVHKSQIEAGEALGFTKYQIYRHVIIVPAIAKVYPSLCSQFVLMMLASSICSAISTHELAAAAAFVESQTYRSFEVYIVVTLIYLALALSLRLILALVGMWLFGRRVARKTMTAMPEVQS	PGPT0020795_5653	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
BMS010_05871	660	glnM	COG0765	putative glutamine ABC transporter permease protein GlnM	ATGACTCTTCGAACTTTCGGCTGGAACGAATTCGGCTTCCTGCTGACCGCCCTGCAATGGACCGTGCTTCTGACGATCATTGCGCTTATCGGCGGCGGCATCGTCGGCTTCTTCGTGGCGCTCGCCCGCACCTCGAATTTCAAGGCGCTGCGCATTGCCGCCGGCACCTATATCCAGGTGATCCAGGGCATTCCGGTGCTGATGATTCTGTTCCTGTCCTATTACGGCCTCAGCCTTGCCGGGTTGGAACTGCCGCCGCTCTTTGCCGCCGGCGCCTCGATGACGATCTATACATCGGGTTATCTCGCGGAAATCTGGCGCGGCTGCATCCAGGCGGTGCCGAAGCAGCAATGGGAAGCGTCGGAATCGCTGGCTCTCACCCGCGCCCAGCAATATCGCTACGTCATCCTGCCGCAGGCTATCCGCATTTCGCTACCGCCGACCGTCGGTTTCGCCGTTCAGGTCGTCAAGAATACGTCCATCGCATCGATCATCGGTTTCGTCGAACTGGCGAGAGCGGGGCAGCTCATCAACAATGCCACGTTCCAGCCGTTCCGCGTCTTCGTCGCCGTGGCCGTGCTTTATTTCATCGTCTGCTACCCGTTGTCCCAGCTCTCGCGTTGGCTGGAAAGGAGGCTTCATGCCGGAAGTAATCGTTGA	MTLRTFGWNEFGFLLTALQWTVLLTIIALIGGGIVGFFVALARTSNFKALRIAAGTYIQVIQGIPVLMILFLSYYGLSLAGLELPPLFAAGASMTIYTSGYLAEIWRGCIQAVPKQQWEASESLALTRAQQYRYVILPQAIRISLPPTVGFAVQVVKNTSIASIIGFVELARAGQLINNATFQPFRVFVAVAVLYFIVCYPLSQLSRWLERRLHAGSNR	PGPT0020795_9106	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
BMS010_05872	732	occP_2		Octopine permease ATP-binding protein P	ATGCCGGAAGTAATCGTTGAAAACGTTCACAAGAGCTTTGGCGCTCTGGAAGTCCTCAAAGGCGTGTCGCTGACGGTCGGCCGCGGTGAAGTCTTCGCCCTCATCGGCCGCTCGGGTTCGGGCAAGAGCACGCTGCTTCGCTGCATGAACGGGCTGGAGAAGATCAATTCCGGCCGTATCGAAATCGCCGGTCACGCCATCGGGGAAGATGCCAAGGCGCTGCGCAAGCTGCGCACCGATGTCGGCATCGTGTTCCAGAGCTACAACCTTTTCCCGCATCTGACGGTCGGCGAAAACATCATGCTTGCGCCGCGCATCGTCAAGGACGTGGCGAAATCGGAAACGAAGGATATTGCCCGCGAAGTTCTGCAACTCGTCGGCCTGTCGGAGAAATTCGATTCCTATCCGGATCAGCTTTCCGGCGGCCAGCAGCAGCGCGTGGCGATTGCCCGCTCGCTCGCCATGCGGCCGAAGGTGATGCTGTTCGACGAGGTGACCTCGGCGCTCGATCCTGAATTGACCGAGGAAGTGCTGACCGTGATGGAAAACCTCGCGAAAGACGGCATGACCATGATCCTCGTCACCCATGAAATGGCCTTTGCGCGCCGCGTGGCGACCGAAACCATCTTCATGCACAAGGGCAAGATCTGGGAGCAGGGCCGTTCGTCCGAACTTTTCGCCAACCCGCAAACGCCGGAACTCCGGCAATTCGTCAAGGCCGATGTGAAGTAG	MPEVIVENVHKSFGALEVLKGVSLTVGRGEVFALIGRSGSGKSTLLRCMNGLEKINSGRIEIAGHAIGEDAKALRKLRTDVGIVFQSYNLFPHLTVGENIMLAPRIVKDVAKSETKDIAREVLQLVGLSEKFDSYPDQLSGGQQQRVAIARSLAMRPKVMLFDEVTSALDPELTEEVLTVMENLAKDGMTMILVTHEMAFARRVATETIFMHKGKIWEQGRSSELFANPQTPELRQFVKADVK	PGPT0020790_4803	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020790-ABC_PA_A-K02028	NA	NA
BMS010_05873	936		COG1052	2-ketogluconate reductase	ATGACCACTGAAATCGTGCAATTGTGCCCGCTCATCCCGGCGCTGGAAGAAGAACTCGCGCAGCGCTTCACCGTGCATCGCCTGTTCGAGGCTGCTGACAAGGCGGCGTTCCTTGCTGAAAAGGGTGCTTCAATCCGCGGCGTCGTCACCGGCGGCCATATCGGCCTTCCGGCGGATATCGGCGCTGCACTTCCCAATCTTGAAATTGTCGCCATCAACGGCGTCGGTTTCGACAAGGTCGATCTGACTGACGCGAAACAGCGCGGTTTCCGCGTCTCCAACACGCCTGACGTGCTGACCGCCGATGTCGCCGACCTCGCGCTCGGCCTCGTTCTGGCGCAGGCACGCAAGCTGCCGCAGGCCGACCAGCATGTGCGCACCGGCCAATGGCTGAAGGGCGATATGGGGCTTTCCACCCGCGTGGCCGGCCGCCGTTACGGCATTTTCGGCCTCGGCCGCATCGGTCAGGCAATCGCAAAGCGGCTGGAAGGTTTCGATGCGCGCATTTCCTACACCGCCAGAAACCGCCGCGATGTCGCCTATGATTATTATGACAGCATCGAGGCGCTTGCCGCCAATTGCGACGTGCTGATCATCGCCGCCGCCGCTACTGCCGAAACGCGCCATATCGTCGATGCGGATGTGCTGAAGGCTCTCGGGCCCCAGGGTGTGCTCGTTAATGTGGCGCGCGGTTCGCTGGTGGATGAAAAGGCGCTGGTCGAAGCGCTTGCGAACGGCACGATCGCAGGTGCTGCGCTGGATGTCTTCGAGGATGAGCCGCGTGTGCCGGAAGCGCTTTTCGCCTTCGACAATGTCACGCTCGCGCCTCATGTCGGCAGCGGCACGCACCAGACGCGGCGCGCCATGGCCGATCTCGTTCTCGCCAATCTCGATGCTCATTTTGCCGGCAAAGAATTGCCGACGCCGGTGGTGTGA	MTTEIVQLCPLIPALEEELAQRFTVHRLFEAADKAAFLAEKGASIRGVVTGGHIGLPADIGAALPNLEIVAINGVGFDKVDLTDAKQRGFRVSNTPDVLTADVADLALGLVLAQARKLPQADQHVRTGQWLKGDMGLSTRVAGRRYGIFGLGRIGQAIAKRLEGFDARISYTARNRRDVAYDYYDSIEALAANCDVLIIAAAATAETRHIVDADVLKALGPQGVLVNVARGSLVDEKALVEALANGTIAGAALDVFEDEPRVPEALFAFDNVTLAPHVGSGTHQTRRAMADLVLANLDAHFAGKELPTPVV	PGPT0001315_9	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-VITAMIN_C|ASCORBIC_ACID_BIOSYNTHESIS,PGPT0001315-2_ketogluconate_reductase-K22229	NA	NA
BMS010_05874	2214			hypothetical protein	GTGCGTTCCAAAGGCCCGAAGACACCCGAAGAAAACCGGATGTCGCGAAAAAAGCGCGATGTCACGCCATCCGCCACTCGTGACATGAGCGAAAACAGCAATCCTTCCGACCGGCACACGCTTCTGGAAGCGATGATCGACCACGTGCCGGATTTTATCTATGCCAAGGATCTGGAAGGGCGCTTTCTTTTTGCCAATCGCGCCATCGTCACCGAAAACGGCTTTGACACGGTCGAGCAACTGATCGGGCTCACCGACTACGATATTCACGGCGAAGCGGCGCGGCGTGCCGGCATTCCCGATACCGAGGCGCGAGTGATGCGCACCGGCGAACCGGATCTCGGTTACGAAGAGCGCGCCATGCGCGGGGATATCGACCGCTGGCTCATGATGTCGCGCGTGCCGCTGAAGGACAAGGCCGGCAACATCATCGGCGTGGTCGGCGCCTCGCGGGACATAACCCAGAAAAAGGCCTCGGAAAGACTGCTTCAGGCGCAGGCGCATATTCTGGAAATGATCGTCGCGGCAGCGCGTATCGAGGATTTTCTTGAGGAATTCGTCAAGGCCATCGAAAATCTCGCGACCGGACTGGCCTGCGCGGTGCGGGTGTTCGATGCGGCGGAAGGGGAACCTTCCGTTTACGCCTCGCCGGCGCTTGCGCAGCAGGAGGGGCTGGTCGCACTTGTCTCCAGTGTCAGCGATCCTGAGAGCCTTATCCATCCGGCAGAACACATGGCCTTCAGTTTCGATATTCCCGCCAGCGAAGGCAAGGCGCATGGTTTCGTCTGGTGCATGCTGGCCGGCCGCCAGCCGGATGCGGCGCTGGTGGAATTCATAGGCGCGGCGGCGCGCATGGCGGGGCTGGCTATCGACCGCAAAAGGGCGGCGGAACATATCGCCTTCCTGGCGGATCACGACATGCTGACCCGGCTGCCGAACCGCCGTTTCCTCGATACGAGACTGCCGGAAATACTGGCGGCGGCGGCAAAGGCGAACCGAAGGGTCGGTATCGGTTTTCTCGATCTCGACAATTTCAAGCAGATCAACGATACGCTCGGCCACAGCATCGGCGACGCGTTGCTGTCGAAAACCGCCGAGCGCATTGCGAAAAGCCTCCGGAAGAACGATCTCGTTCTCAGGGTGGGCGGCGACGAGTTCGTCATCATTCTCGAAGAGCGCAGGGACGATGTCGAAAACCGCCTGCAGCGCATCCGCGCCGTTGTCTCGCAGCCATTGCGTATCGGCAATTACGATATCAAGGTCACCTGTAGCATCGGCATGGCCTTTTTTCCGGAGCATGGGGAAACCACGGCGGAAATCGTCGCGGCGGCCGATCTCGCCATGTATGAGGCCAAACATACCGGGCGCGACAGCATTGCCACCTTCACTCCGAACATGGCGGATGATCTGAGAAAGAAGTTCACCCGCATCGAGGAATTGCGAAAGGCAGTAAAGAGAGACGAGTTCGTGCTGCACTTCCAGCCGCAGGTCGATCTTTTCAGCGGCCGGATCAGCGGCGTGGAGGCGCTGGTGCGCTGGCAGCACCCCACGGAAGGTCTGCTCGGTCCTGCGGAGTTCATCGGGCTTGCGGAAGAAACCGGGCTCATCGTCGAACTCGGAGAAAGCATTCTCGAAAAGGCCTGTCGTCAGGCACAGGCATGGGCCGCCGCCGGCCTGTCGCCCGTCAAAATGGCGGTCAATATCTCGCCCCGGCAGTTTCAGGGCGGGTTGGTGCAGCAGATCAGGTCGGTGCTCAAGGAAACCGGCCTTGCGCCATCCCTGCTGGAAATCGAAATCACCGAGACGCTCATCATTCAGGATGTTGAAACATCGGTGCGGATCATGCGGGCCATCAAACAGATGGGTGTCAGCCTGGCGCTGGATGATTTCGGTATCGGTTATTCCTGCCTCGGCATGCTCAAGACATTCCCGCTGTCCTGCATGAAGATAGACCGCTCGTTCCTGACCCATCTGCCGGAAAAGACCAAGGACAGCGCCATCGTTTCGATCATGATCCAGCTTGCCGGATCTCTCGGCATCGATGTCATTGCCGAAGGTGTGGAGGCCAGCGAGCAGGCGACATTTCTACGGGATGCCGGCTGCCCCTACGGTCAGGGTTATTACTTTAGTCGCCCGGTGCCGGCAGAGGCGATCGAAGACATGCTGGCGAAGACGACGATATTCGCGACCGGCTTACCCGAACACCGCCTATAA	MRSKGPKTPEENRMSRKKRDVTPSATRDMSENSNPSDRHTLLEAMIDHVPDFIYAKDLEGRFLFANRAIVTENGFDTVEQLIGLTDYDIHGEAARRAGIPDTEARVMRTGEPDLGYEERAMRGDIDRWLMMSRVPLKDKAGNIIGVVGASRDITQKKASERLLQAQAHILEMIVAAARIEDFLEEFVKAIENLATGLACAVRVFDAAEGEPSVYASPALAQQEGLVALVSSVSDPESLIHPAEHMAFSFDIPASEGKAHGFVWCMLAGRQPDAALVEFIGAAARMAGLAIDRKRAAEHIAFLADHDMLTRLPNRRFLDTRLPEILAAAAKANRRVGIGFLDLDNFKQINDTLGHSIGDALLSKTAERIAKSLRKNDLVLRVGGDEFVIILEERRDDVENRLQRIRAVVSQPLRIGNYDIKVTCSIGMAFFPEHGETTAEIVAAADLAMYEAKHTGRDSIATFTPNMADDLRKKFTRIEELRKAVKRDEFVLHFQPQVDLFSGRISGVEALVRWQHPTEGLLGPAEFIGLAEETGLIVELGESILEKACRQAQAWAAAGLSPVKMAVNISPRQFQGGLVQQIRSVLKETGLAPSLLEIEITETLIIQDVETSVRIMRAIKQMGVSLALDDFGIGYSCLGMLKTFPLSCMKIDRSFLTHLPEKTKDSAIVSIMIQLAGSLGIDVIAEGVEASEQATFLRDAGCPYGQGYYFSRPVPAEAIEDMLAKTTIFATGLPEHRL	PGPT0023624_1995	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-GGDEF|EAL|PAC|PAS-DOMAIN-CONTAINING_PROTEIN,PGPT0023624-GGDEF|EAL|PAC|PAS_domain_containing_protein-NA	NA	NA
BMS010_05875	1122	ropA_3		Outer membrane protein IIIA	ATGAACATCAAGAGCCTTCTTATCGGCTCCGCTGCGGCTCTCGCAGCAGTATCCGGCGCACAGGCCGCTGACGCCATCGTCGCTGCCGAGCCCGAGCCCATGGAATATGTTCGCGTCTGCGACGCTTTCGGCACCGGCTTCTTCTACATCCCCGGCACCGAAACCTGCCTGAAGTTCGACGGTTACGTTCGTTTCCAGACCGACTTCGGCCGTCGTAAGTCGGGCGATTCGGATTGGGATAGCTTCAGCCGCGCCCAGTTCAACATCGACACCCGCACCGACACCGAGCTCGGCGCTCTGCGCGGCTACATCGGCTTCCGTGGCGATGCTGACCAGGACAGCAGCCGTGGCGTTGTTGTTGACCAGGCCTTCATCGAACTGAGCGGCCTGAAGGTCGGTTTTTACTACAACTGGTGGGATGACGGTCTCGCCGGCGAGTACGACCAGCTCAGCTCCAACAAGACCCGTCTGAACGCCATTCGTTACACCTACGACGCTGGTTCCTTCTACGTCGGCGTAGCAGTTGAAGAACTGGAAGGCATCATCGCCGGTAACGACGTCGATGACAAAAATGCCAACTACACCGCCATCAACAAGACGAACAATCTCGGCGTTGCTCAGCGCAACTGGTCGTCCCTTAATGGCAAGGGTGACAATAACGTTGGCATCAGCGGTATTGTTGGCGCGAAGTTCGGCGGCGTTAAGGCCAACATCCTCGGCGGTTACGACACCAATGCTGAGAATGGCGCAATCCGCGCAATCCTGACGGCAGACCTCGGTCCGGGCACGTTCGGCCTTGCTGGCGCATGGGCATCGGGTGCCAACGCATATTACGAAGAATCGGAATGGACCGTGGCCGCCGAATATTCGATCAAGGCAACCGACAAGCTGACCATCACCCCCGGCTTCCAGTACTTCGGTACGCTGGATATCGGTACGGACGGCAAGTTCACGGGTGATCGCGATGCATGGCGCGCTGGCGTCGCTGCTGGCTACAAGATCACGTCTGGTCTCTCCACCAAGGTTGCGGTTACCTATCAGGACGTAGACGGCCGCGAAGGTCGCGACAGTGGTGCTGGCGACAGCTGGACCGGTTTCGTTCGTCTCGAGCGCGCGTTCTAA	MNIKSLLIGSAAALAAVSGAQAADAIVAAEPEPMEYVRVCDAFGTGFFYIPGTETCLKFDGYVRFQTDFGRRKSGDSDWDSFSRAQFNIDTRTDTELGALRGYIGFRGDADQDSSRGVVVDQAFIELSGLKVGFYYNWWDDGLAGEYDQLSSNKTRLNAIRYTYDAGSFYVGVAVEELEGIIAGNDVDDKNANYTAINKTNNLGVAQRNWSSLNGKGDNNVGISGIVGAKFGGVKANILGGYDTNAENGAIRAILTADLGPGTFGLAGAWASGANAYYEESEWTVAAEYSIKATDKLTITPGFQYFGTLDIGTDGKFTGDRDAWRAGVAAGYKITSGLSTKVAVTYQDVDGREGRDSGAGDSWTGFVRLERAF				NA	NA	NA	NA	NA
BMS010_05876	630			hypothetical protein	ATGGAATTCGATTTTACCGCGCTTGAGCCGCAGAGCCGTTATCGTTTGCTGACCAATTTTATCGGTCCACGGCCGATAGCGCTTGTCACGACGCGCTCGGCCGCTGGCCACAATAATGCCGCGCCGATGAGCTTTTTCAACGTTTTCTCCCATGATCCGCCAATCGTTGTTCTCGGCATCCAGCCGCGTGTGACGGGCGAGGAGAAGGATACGATGGCCAATATTCGTCGCACCGGCGAATTCGTCATCAACATGGTCGATATGGCTCTGTCCGAACAGATGCTTGTCTGCGGCCTCGGTTTCGACAGCGAAGTGGATGAACTTTCGATTGCCGGATTGACGGCCACGCCCTGCAGTAAGATCGATGCGAGCTTTGCGGCGGAATCGCCCTGCGCCTTCGAATGCCGTGTGGAGCGCCTGATCGATTATCCGCGCCGTACCCTGGTATTGGGCGAAGTGGTGCACATGCATGTCCACAAGGATTGCCTCGATGCGGAGGGGCGTTATGTCGATCCGGACCGATATCAGCCGATCGCGCGCCTGCATGCCGATAATTACATCAGCTCGGATCGCCAATTTGTCCTCAAGGCACCCGCGATGACCGACTTCATCAAGCCGGATGGCGAGTGA	MEFDFTALEPQSRYRLLTNFIGPRPIALVTTRSAAGHNNAAPMSFFNVFSHDPPIVVLGIQPRVTGEEKDTMANIRRTGEFVINMVDMALSEQMLVCGLGFDSEVDELSIAGLTATPCSKIDASFAAESPCAFECRVERLIDYPRRTLVLGEVVHMHVHKDCLDAEGRYVDPDRYQPIARLHADNYISSDRQFVLKAPAMTDFIKPDGE				NA	NA	NA	NA	NA
BMS010_05877	936	cynR_4		HTH-type transcriptional regulator CynR	ATGATCGACAAGCTGGAATTTTTCATTGCATTGGCGCGCGCAGGGCATTTTGGCCGCGCGGCGGAAGAGTGCGGCGTTTCCCAACCCAGTCTCTCCGCCGCGATCCGGCAACTGGAGGACCAGCTTGGTGTCGTTCTTGTGGTGCGTGCGGCGCGTTATCAGGGGCTGACACCGGAGGGCCAGCGTGTTCTCGAATGGGCGCGTCGCATCGTCGCCGATACGCGCACCATGCGTGAGGAAATGCGGGCGGCGCGCAAGGGTCTGGCGGGCCACATCCGCCTTGCGGTCATTCCGACGGCCCTTGCGATGGTGCCGCGATTGACGGAATCCTTTCAGGCGCGGCATCCCGACGTGACCTTTTCCGTGACGTCACGCACCTCGCTTCAGGTCCTGAGCCAGATCGAAAACCTCGAGATCGATGCGGGAATCAGCTATCTCGACAATGAACCTCTTGGTCGAGTGACCACGGTGCCGCTTTATTCCGAGCGATATCACCTGATTGCAGCAGCCGGAACGCCGCTCGCCGATCAGGAAAGCGTTACCTGGAAGCAGGTTTCAGGTCTTAGGTTATGCCTATTGACTTCGGATATGCAGAACCGCCGCATCATCAACAAGCATATGGCGGAAGCGGGCGTTGAGGTGAAGCCGACATTGGAGTCCAACTCCATGATTGTGCTGTTTTCGCATATCCGAACCGGACAATGGGCTTCAATAATGCCGCGTAACATAGCGGAATCATTCGGTTTTCCAAAACAGATCAGAATGATACCGATTACCGAGCCGGATGCGGAGCATCTGGTGGGGCTGATCGCAACCTATCGCGAACCGCACACGCCACTCGTTTCTGCGCTTCTTCATGAGGCGCGTCAGCGCGCAGCGGCGATGGCTTTTGATAGGAATTTCCTATCGGTTGACGAAAACACATTATTGACCTGA	MIDKLEFFIALARAGHFGRAAEECGVSQPSLSAAIRQLEDQLGVVLVVRAARYQGLTPEGQRVLEWARRIVADTRTMREEMRAARKGLAGHIRLAVIPTALAMVPRLTESFQARHPDVTFSVTSRTSLQVLSQIENLEIDAGISYLDNEPLGRVTTVPLYSERYHLIAAAGTPLADQESVTWKQVSGLRLCLLTSDMQNRRIINKHMAEAGVEVKPTLESNSMIVLFSHIRTGQWASIMPRNIAESFGFPKQIRMIPITEPDAEHLVGLIATYREPHTPLVSALLHEARQRAAAMAFDRNFLSVDENTLLT				NA	NA	NA	NA	NA
BMS010_05878	480	hndA	COG1905	NADP-reducing hydrogenase subunit HndA	ATGAATATCCGTGCGGTTGCCGCAGATGAGGCGGCTCGTGTTTCCGCCATCATTGACGAACTTCTCCACCTGGAGGGGCCATTGCTGCCCATTCTGCACGCGGTGCAGGAAGAATTCGGCTACATACCGGAAAGCGCCAAGCAGATCGTCGCATCCGCGCTGAATATATCGCGCGCCGAGGTCCATGGCGTCGTGACCTTCTATCCCGATTTTCGAGATCATCCGTCCGGCCGGCATGTGCTGAAGCTCTGTCGCGCCGAGGCTTGCCAGTCGATGGGTGGCGAGCCTCTTGAGGAAACCATCAAGCACCGGCTCGGCCTCGACTGGCACGAAACCGCAGCCGACGGTTCCGTCACGCTGGAGCCAGTCTTCTGTCTCGGGCTTTGCGCACAGGCGCCCGCGCTGATGCTGGATGGCGAGCTTCATGCGCGACTGGATGAGCACTGTCTTGGCGACATTCTGGCGGAGGCGCGCCGATGA	MNIRAVAADEAARVSAIIDELLHLEGPLLPILHAVQEEFGYIPESAKQIVASALNISRAEVHGVVTFYPDFRDHPSGRHVLKLCRAEACQSMGGEPLEETIKHRLGLDWHETAADGSVTLEPVFCLGLCAQAPALMLDGELHARLDEHCLGDILAEARR	PGPT0019670_1676	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FORMATE_UTILIZATION,PGPT0019670-fdoI|fdsG-K00127	NA	NA
BMS010_05879	1557			hypothetical protein	ATGAGTGTCACCGTTTTTGTTCCAGGCGATTCCGCCGCGCTTGCCGTTGGCGCAGACCGTGTCGCCGAAGCAATCGGCCGCGAGGCGGCCAGCCGCAACCTCGAGGTTCATATTGTCCGCAATGGCTCGCGCGGCATGCTCTGGCTTGAAGTGCTGGTGGAAGTGCGCACCGAACATGGCCGTATTGCCTACGGGCCGGTCAAGGCCAGCGACGTTGCTTCGCTTTTCGATGCGGGTTTTCTCACCGGCGGCGAGCATCGTCTCTGTCTCGGGCCGACGAAGGACATTCCGTTCCTGAAAAGCCAGACGCGCCTGACATTTGCCCGTTGCGGCGTTACCGATCCGTTGTCGCTGGCGGATTATCGCACCTATCAGGGCTTGAAAGGCCTCGAAAAAGCCGTCGCCATGGCGCCGGTCGATATCGTTGCCCAAGTGACCGAAAGCGGCCTGCGCGGACGCGGCGGCGCGGGTTTCCCGACCGGTATCAAATGGAAGACCGTCGCCGATGCGGTGGCCGACCAGAAATATATCGTCTGCAATGCCGATGAGGGCGATAGCGGCACCTTCGCCGACCGCATGATCATGGAAGGCGATCCCTTCGTGCTGATCGAAGGCATGGCGATTGCCGGCCTCGCCGTCGGCGCGACAAAAGGTTTCATCTATACGCGCTCGGAATATCCTTACGCCATCAAGGTCATGGAGCAGGCAATCGTAATCGCCCGCCGCGAAGGCATCATTGGCCCATCCGTGCTTGGTTCCGGGCGGGCCTTCGATCTCGAAGTGCGCATGGGTGCCGGCGCCTATGTCTGCGGCGAGGAAACCTCGCTTCTGAACAGTCTGGAAGGCAAGCGCGGCACCGTGCGCGCCAAGCCGCCGCTTCCTGCTTTGCAGGGCCTGTTCGGCAGGCCCACCGTCGTCAACAATGTGATTTCGCTCGCCTCCATTCCGGTCATCATGGATCGCGGCGCGGCGTTTTATCGCGATTTCGGCGTCGGCCGCTCGCATGGCACCATTCCCATCCAGCTTGCCGGAAACATCCGGCATGGCGGGCTTTACGAGACCGCCTTCGGCCTGCCGCTCGGGCAGCTGATCAATGAGATCGGTGGCGGCACGATCACCGGCCGCCCGGTCAAGGCGGTGCAGGTGGGCGGGCCGCTCGGGGCCTATTTCCCGGTTTCGCTGTTCGACACGATCTTCGACTATGAATCCTTCACGGCCGCCGGTGGCCTGATCGGCCATGCCGGCATCGTGGTTTTCGACGATACCGCCGATATGCTGCATCAGGCCCGGTTCGCGCTCGAATTCTGCGCCGTCGAAAGCTGCGGCAAGTGCACGCCCTGTCGCATCGGCTCCACACGCGGCGTCGAGACGGTGGACAGGATCGCGCTCGGCATCGAGCCGGAGAAAAATACGGCACTCCTCGCAGACCTCTGCGAAACCATGAAATTCGGTTCGCTCTGTGCGCTCGGCGGTTTCACGCCCTATCCCGTCATGAGCGCACTCCGGCATTTCCCTGATGATTTTGCCCCCATCCCACGTGTTGAAGCGGCGGAGTAA	MSVTVFVPGDSAALAVGADRVAEAIGREAASRNLEVHIVRNGSRGMLWLEVLVEVRTEHGRIAYGPVKASDVASLFDAGFLTGGEHRLCLGPTKDIPFLKSQTRLTFARCGVTDPLSLADYRTYQGLKGLEKAVAMAPVDIVAQVTESGLRGRGGAGFPTGIKWKTVADAVADQKYIVCNADEGDSGTFADRMIMEGDPFVLIEGMAIAGLAVGATKGFIYTRSEYPYAIKVMEQAIVIARREGIIGPSVLGSGRAFDLEVRMGAGAYVCGEETSLLNSLEGKRGTVRAKPPLPALQGLFGRPTVVNNVISLASIPVIMDRGAAFYRDFGVGRSHGTIPIQLAGNIRHGGLYETAFGLPLGQLINEIGGGTITGRPVKAVQVGGPLGAYFPVSLFDTIFDYESFTAAGGLIGHAGIVVFDDTADMLHQARFALEFCAVESCGKCTPCRIGSTRGVETVDRIALGIEPEKNTALLADLCETMKFGSLCALGGFTPYPVMSALRHFPDDFAPIPRVEAAE	PGPT0019665_441	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FORMATE_UTILIZATION,PGPT0019665-fdoH|fdsB-K00124	NA	NA
BMS010_05880	2883			Putative formate dehydrogenase	ATGGCCCTTGTAACAGAATTCGACTATGGAACCCCCAAATCCCACGCAACGGACATGGTGACGCTCACCATCGACGGCAGGCAGGTGACTGTGCCTGCGGGAACCTCGATCATGCGCGCCTCGCGCGAAGCGGGTATCGATGTTCCAAAACTCTGCGCCACCGACATGGTGGATGCCTTCGGCTCCTGCCGCCTCTGTCTGATCGAGGTGGAGGGCCGCAACGGCACCCCCGCCTCCTGCACCACGCCCGTCGCCCCCGGTCTCGTCGTGCACACGCAGACGGAGCGGCTGAAGCAGATCCGCAAGGGCGTGATGGAGCTTTATATCTCCGATCACCCGCTCGACTGTCTGACCTGCGCCGCCAATGGCGATTGCGAACTGCAGGATATGGCCGGCGCCGTTGGCCTGCGCGATGTGCGCTACGGATACGAAGGCGACAACCACGTCAAGGCCCGCACTGGCGATGGCGATCTTAACGCGCGCTGGATGCCGAAGGATGAAAGCAATCCCTATTTCACCTATGATCCTTCCAAATGCATCGTCTGCTCCCGTTGCGTGCGCGCTTGTGAGGAAGTGCAGGGCACTTTCGCGCTGACGATCGAAGGACGAGGTTTTGAAAGCCGTGTGTCGCCCGGCGCGCATGAGGCGTTCCTCGATTCCGACTGCGTTTCCTGCGGCGCCTGCGTGCAGGCCTGTCCGACGGCGACGCTGACGGAGAAATCGGTGATCGAGATCGGCCAGCCGGAGCATTCGCTGGTCACGACCTGCGCCTATTGCGGTGTCGGCTGCTCCTTCAAGGCGGAAATGCGCGGTGAGGAGCTGGTGCGCATGGTGCCGTGGAAGGACGGGCAGGCCAATCGCGGCCATTCCTGCGTCAAGGGCCGCTTCGCTTATGGTTATGCCACCCACAGGGACCGCATTCTCAACCCGATGATCCGCGAGAAGATCAGCGATCCATGGCGGGAAGTCACATGGGAGGAGGCCTTCTCCCATGTCGCGTCAGAGTTCCGGCGTATCCAGGGTCAATATGGCCGGGAATCCATCGGCGGCATCACCTCGTCCCGCTGCACGAACGAAGAAACCTTCCTCGTCCAGAAACTCATCCGCGCCGGCTTCGGCAATAACAACGTCGATACCTGCGCCCGCGTCTGCCATTCGCCGACGGGCTACGGTCTTGGCCAGGCTTTCGGCACCTCCGCCGGCACGCAGAATTTCGATAGCGTCGAGCAGTCCGATGTGGTGCTGGTGATCGGCGCCAATCCGACCGATGGGCATCCTGTTTTCGGCTCGCGGCTGAAGAAGCGGCTGCGACAGGGCGCGAAGCTGATCGTCATCGATCCGCGCCGTATCGATCTCGTCCGCACGCCGCATGTGGAGGCGTCTTTCCACCTGCCGCTGAAGCCCGGAACGAATGTTGCGGTGCTGACGGCGCTTGCGCATGTCATCGTCACGGAAGGTCTGTTCAACGAAGCCTTCATTCGCGAGCGCTGCGACTGGTCGGAATTCGAGGATTGGGCTGCTTTCGTTGCCGAGCCTCAGCGTAGCCCGGAAGAAACCGAAAGCTTCACCGGTGTGCCGGCAGAAGAGGTGCGCGGTGCCGCACGCCTTTATGCCAGGGGTGGCAATGGCGCCATCTATTACGGGCTCGGTGTCACCGAACACAGCCAGGGGTCTACCACGGTGATGGCAATCGCCAATCTGGCCATGGCGACCGGCAATATCGGCCGCCCCGGTGTAGGCGTTAATCCGCTGCGCGGTCAGAACAATGTTCAGGGTTCCTGCGACATGGGGTCTTTCCCGCACGAGCTTCCGGGATATCGGCATATTTCCGACGATGCCACGCGCGACATCTTCGAGAAACTCTGGGGCGTGAAGCTTAACAACGAGCCGGGGCTGCGTATTCCCAACATGCTCGATGCGGCCGTGGATGGCACCTTCAAGGGCATCTATATTCAGGGCGAGGACATTCTCCAGTCCGATCCGGATACGAAGCACGTTTCGGCCGGTCTCGCCGCGATGGAATGTGTCGTGGTGCACGATCTCTTCCTGAACGAGACGGCAAATTACGCCCATGTCTTCCTGCCGGGGTCCACCTTCCTCGAAAAGGACGGCACCTTCACCAATGCCGAGCGCCGCATCAACCGCGTCCGCAAGGTTATGTCCCCGAAGAACGGTTATGCCGACTGGGAAGTGACGCAGAAGCTGGCGCAGGCCATGGGTCTTGCATGGAACTACGCGCATCCGTCCGAGATCATGGACGAGATCGCGGCGACGACACCGAGCTTTGCCGGTGTTTCCTATGACTATCTGGAGGAGAAGGGCTCGGTGCAGTGGCCCTGCAACGAGAAATTCCCGGATGGTTCGCCGATCATGCATGTGGATGGTTTCGTGCGCGGCAAGGGCAAGTTCATCCGCACCGAATATGTGGCGACGGACGAACGCACGGGGCCGCGTTTCCCCCTGTTGCTCACCACCGGCCGCATCCTGTCGCAATACAATGTCGGCGCGCAGACACGGCGCACCGAAAACGTTGTCTGGCATGAGGAGGATCGGCTCGAAATCCACCCGCACGATGCCGAACAGCGCGGCGTGAAGGATGGCGACTGGATCAAGCTCGCCAGCCGGTCGGGCGATACGACGCTGCGGGCGCTGATTACCGACCGTGTGGCGCCAGGCGTGGTCTATACGACCTTCCACCATCCCGGCACGCAGGCAAACGTCATCACTACCGACTTCTCCGACTGGGCGACCAACTGTCCCGAATACAAGGTGACCGCCGTGCAGGTATCGCCTTCCAACGGGCCGACGGAATGGCAGGAGGAATATGATGCGCTTGGCCGCCGTTCGCGGCGGATCAGCGGCAAGCTCGAAGCGGCGGAATAA	MALVTEFDYGTPKSHATDMVTLTIDGRQVTVPAGTSIMRASREAGIDVPKLCATDMVDAFGSCRLCLIEVEGRNGTPASCTTPVAPGLVVHTQTERLKQIRKGVMELYISDHPLDCLTCAANGDCELQDMAGAVGLRDVRYGYEGDNHVKARTGDGDLNARWMPKDESNPYFTYDPSKCIVCSRCVRACEEVQGTFALTIEGRGFESRVSPGAHEAFLDSDCVSCGACVQACPTATLTEKSVIEIGQPEHSLVTTCAYCGVGCSFKAEMRGEELVRMVPWKDGQANRGHSCVKGRFAYGYATHRDRILNPMIREKISDPWREVTWEEAFSHVASEFRRIQGQYGRESIGGITSSRCTNEETFLVQKLIRAGFGNNNVDTCARVCHSPTGYGLGQAFGTSAGTQNFDSVEQSDVVLVIGANPTDGHPVFGSRLKKRLRQGAKLIVIDPRRIDLVRTPHVEASFHLPLKPGTNVAVLTALAHVIVTEGLFNEAFIRERCDWSEFEDWAAFVAEPQRSPEETESFTGVPAEEVRGAARLYARGGNGAIYYGLGVTEHSQGSTTVMAIANLAMATGNIGRPGVGVNPLRGQNNVQGSCDMGSFPHELPGYRHISDDATRDIFEKLWGVKLNNEPGLRIPNMLDAAVDGTFKGIYIQGEDILQSDPDTKHVSAGLAAMECVVVHDLFLNETANYAHVFLPGSTFLEKDGTFTNAERRINRVRKVMSPKNGYADWEVTQKLAQAMGLAWNYAHPSEIMDEIAATTPSFAGVSYDYLEEKGSVQWPCNEKFPDGSPIMHVDGFVRGKGKFIRTEYVATDERTGPRFPLLLTTGRILSQYNVGAQTRRTENVVWHEEDRLEIHPHDAEQRGVKDGDWIKLASRSGDTTLRALITDRVAPGVVYTTFHHPGTQANVITTDFSDWATNCPEYKVTAVQVSPSNGPTEWQEEYDALGRRSRRISGKLEAAE	PGPT0019635_1568	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FORMATE_UTILIZATION,PGPT0019635-fdoG|fdhF|fdwA-K00123	NA	NA
BMS010_05881	345			hypothetical protein	ATGTTGCTCAACCACACCGATGAAAAGCTGGTGAGAATGGCGAACCAGATCGCGACGTTTTTTCTGTCGCAGCCGGAAGATATTCGCATCGAAGGTGTCGCCACCCACATCAACAAGTTCTGGGAACCGCGCATGCGACGCCGGTTCTTCGAGATGGTGGATGCCGGGGCAGGTGATTTTCTCCCGCTTGTGCTTGCTGCGTCGAAGAAGATCAAGCGGCCCGACGATCCGGCGGCCGATGCCGTGGGCCTCGGCGACGATGCCAAGGGCGCGCCGGGCGGCAAAGGACCGATTGCGGGCGAGTCCCTTTCGGAGCCGAGCGTCCCGGAAAGCACAGAGGCTTGA	MLLNHTDEKLVRMANQIATFFLSQPEDIRIEGVATHINKFWEPRMRRRFFEMVDAGAGDFLPLVLAASKKIKRPDDPAADAVGLGDDAKGAPGGKGPIAGESLSEPSVPESTEA	PGPT0019675_16	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FORMATE_UTILIZATION,PGPT0019675-fdsD-K00126	NA	NA
BMS010_05882	1653			hypothetical protein	ATGGCAGTAGCAGGTGCGACAGCGGGAGAGGCGGCGCAAGCCGGTTTTTTGGACCGCGAACGAATAATCGCAAGACCGGGTTTCAATCGCTGGCTGGTGCCGCCGGCGGCCCTTGCCATTCATCTATGCATCGGCATGGCCTATGGCTTCAGCGTGTTCTGGCTACCGCTGTCGAAGGCTCTGCCGGCCACGGACCCCAGTTGCTCCAGCCTTACCCTTCTGGGTGCGCTGTTCACCACTGAATGCAACTGGCGCGTGGCCGATCTTGGCTGGATCTATACGCTTTTCTTCGTTCTTCTCGGCTGCTCTGCGGCCATCTGGGGCGGCTGGCTGGAAAGAGTGGGGCCGCGCAAGGCCGGCTTCGTTTCCGCCTGCTGCTGGTGCGGCGGTATTCTGGTGGCGGCAATCGGCGTCATCACGCATCAACTGTGGCTGATGTGGCTGGGCGCCGGCGTCATCGGTGGTATCGGCCTCGGCCTTGGCTATATTTCGCCCGTATCGACGCTGATCAAATGGTTCCCGGATCGTCGCGGCATGGCGACGGGCATGGCCATCATGGGTTTCGGCGGTGGTGCGATGATCGGCGCGCCGCTTGCTAATCTGCTGATGAACAACTTCAAGACGGACGTTTCGGTCGGCGTCTGGCAGACTTTCGTGGTCATGGCCCTGATCTATTTCGTCTTCATGATGGCGGGCGCCTTCGGTTACCGCATTCCGCCATCGGGCTGGCGTCCGGAAGGCTGGACCGCGCCCTCCGCCAAAAGCGCCATGATAACCCATCGCCATGTGCATCTGCGCGATGCGCACAAGACGCCGCAGTTCTGGCTTATCTGGGCGGTGCTGTGCCTCAACGTTTCGGCGGGTATCGGCGTCATCGGCATGGCTTCGCCCATGCTGCAGGAAATCTTCGCAGGATCGCTGATCGGCTTACCCGGCGTGGGCTTTGCGGATCTCGATGCAGGGCAGAAGGCGCAGATCGCGGCGATTGCTGCCGGTTTCACCGGGCTGCTTTCCCTGTTCAACATCGGCGGCCGCTTCTTCTGGGCGTCGATGTCCGACAAGATCGGCCGCAAGAACACTTATTTCTGCTTCTTCATTCTCGGCATCATTCTTTATGCGCTGGCGCCGACGCTTGCGACGATGGGCAACAAGGCGCTCTTCGTTCTCGCCTTCGGTATCATCCTGTCGATGTATGGCGGTGGTTTTGCGACCATTCCCGCTTATCTCGCCGATATTTTCGGCACGCAGTTCGTCGGCGCAATCCACGGCCGCCTGCTGACGGCGTGGGCGACTGCGGGCATAGCCGGCCCTGTCGTCGTCAACTACATCCGTGAGGCGCAGATTGCGGCGGGCGTGGCGCCAGGACCCGCGCTCTACACCAGCACGATGTATATTCTGGCGGGCATGCTGGCGATCGGCCTCGTGGCCAATGCCTTCGTGCGGCCGCTTTCGGACAAGTGGTTCATGTCGGATGCGGAGGTCGCGACGCTCCAGGCAAAGACGGCGGCCGCAAATGCCGGCCCGACAGGCTCCTTCGGCATCGGACGTGGCGGGCTGGACACCAAGGCGGCACTTGCCTGGGTTGCTGTCGGTATTCCGCTTCTGTGGGGCGTATGGGTTACCGTGAAGAGCAGCCTTGCGCTGTTCGGCTGA	MAVAGATAGEAAQAGFLDRERIIARPGFNRWLVPPAALAIHLCIGMAYGFSVFWLPLSKALPATDPSCSSLTLLGALFTTECNWRVADLGWIYTLFFVLLGCSAAIWGGWLERVGPRKAGFVSACCWCGGILVAAIGVITHQLWLMWLGAGVIGGIGLGLGYISPVSTLIKWFPDRRGMATGMAIMGFGGGAMIGAPLANLLMNNFKTDVSVGVWQTFVVMALIYFVFMMAGAFGYRIPPSGWRPEGWTAPSAKSAMITHRHVHLRDAHKTPQFWLIWAVLCLNVSAGIGVIGMASPMLQEIFAGSLIGLPGVGFADLDAGQKAQIAAIAAGFTGLLSLFNIGGRFFWASMSDKIGRKNTYFCFFILGIILYALAPTLATMGNKALFVLAFGIILSMYGGGFATIPAYLADIFGTQFVGAIHGRLLTAWATAGIAGPVVVNYIREAQIAAGVAPGPALYTSTMYILAGMLAIGLVANAFVRPLSDKWFMSDAEVATLQAKTAAANAGPTGSFGIGRGGLDTKAALAWVAVGIPLLWGVWVTVKSSLALFG				NA	NA	NA	NA	NA
BMS010_05883	897		COG0329	putative 5-dehydro-4-deoxyglucarate dehydratase	ATGACGACATTCGATTTTCGCCAGGCCCTGCAGGGCATCTCCGGTGTTCCGGTAACGGCTTACGATGCAGGCGGCGAAGTGGAGACCGGTGTTACCGCCGAGGTTTACGCCCGCGTCGCGAAGGCAGGCATCCACAATATCGTTGCGGCGGGCAATACCGGCGAATTCTACGCCTTGACGCCCGCGGAAATTCTGAAGGTTTATGAGGCTGCGATAAAAGGCGTCAGCGGCAAAGCCCCGGTTACGGCGGCGATTGGCCGCTCGCAGCGCGAGGCGCTCTCCATGGCGCGTCAGGCAAAAGAAATGGGCGCATCCGCCGTCATGTCGCATCAGCCGGTCGACCCTTTTGCAGCCCCGCAATCGCAGATCGACTATTTTATCGGCCTTGCGGAGGGCAGCGAATTGCCGCTGGTCGCCTATGTCCGGGCGGACGGCTTTTCGGTCGATGACATGGTAAGGCTCGCCGGCCACCCGAATGTCGCCGGCATCAAGTTTGCGACGACCGACATCATGCTTCTGTCGCGTGCGATTGCCGCTTCCAATCCGAACGGAGCCTTATATGTCTGCGGACTGGCTGAAAGCTGGGCGCCTGCCTTCGCGGCGGTTGGTGCGCGCGGCTTTACATCCGGTCTCGTCAATGTCGCGCCGCAATTTTCGCTGCAGGTTCATGACGCTCTGACGGCCGGCAATTTCCCGGCCGCACGGAAGATCATCGAAAAGATCGAATTGTTCGAACGGCTGCGGACACGATATCGCAACGGCGCGAATGTGACCGTTGTGAAGGAAGCCATGGAAATTCTGGGGATGACGGTTGGCCCCGTGCGTGCGCCGGGACTTGCCCGTCTGGACAAAGAAGACCGCGCAACACTCGAAGGACTGCTTGCCAGCTGGCGTTGA	MTTFDFRQALQGISGVPVTAYDAGGEVETGVTAEVYARVAKAGIHNIVAAGNTGEFYALTPAEILKVYEAAIKGVSGKAPVTAAIGRSQREALSMARQAKEMGASAVMSHQPVDPFAAPQSQIDYFIGLAEGSELPLVAYVRADGFSVDDMVRLAGHPNVAGIKFATTDIMLLSRAIAASNPNGALYVCGLAESWAPAFAAVGARGFTSGLVNVAPQFSLQVHDALTAGNFPAARKIIEKIELFERLRTRYRNGANVTVVKEAMEILGMTVGPVRAPGLARLDKEDRATLEGLLASWR	PGPT0002080_4346	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
BMS010_05884	882			6-deoxy-6-sulfogluconolactonase	GTGAGCCAGCCACACATCATAGAACCGAAGCTCCGTTCCCTGATCGATACCCCGCTGAAGGTCGGCGAATCGCCTGCCTGGGACGAGCGAACCGGCGATCTGTGGTTCGTCGATATTCTCGCGCCCGCCATTTTCCGCCTGCATCCCGGTGGAAAACTCGACAGATACGACATGCCCGCTCAAGTGGGCTGTCTCGGCCTTTGCGACAATGGCTTGATCGTGGCGGGCCTCAAGACCGGCGTGCATCTTCTCGATCCCGCGAGCGGCAAGCTCGATCTTCTCTGCGATCCGGACGACGGGCGGCCCGACAGCCGCCTCAACGACGGAAAAGTCGGTCCGGACGGCCATTTCTGGGTGGGGACCCGCGACGAGGCCGCGATACAGACAGGCAATGCCCGCCTCTATCGCGTCGCCCCGGATGGCGGCATCGAATGCATCATCGATGGCAACATGTTCACATCGAACGGGCTTGCCTGGAGCCCGGACGGCAGGCGCATGTACCATTCCGACAGCAGCGGCCTCATGTATCATGCGTTCGATTTCGATGTCGCGACCGGCAGGCTCGGCCCGGCCGAACGCCTGCACGATTTCGCGCCGGATGAAGGCAGGCCGGACGGTGCGGCGACCGATTGCGAAGGCTGTTACTGGAGCGCCGGCGTTCAGGCGGGACGTCTCAACCGTTTTTCACCGGACGGCGAATTGTTCGAGATTTACAGGCTGCCATTCAAGGGGCCAACCATGCCGTGTTTCGGCGGTCCCGACCTCAAGACGATATACCTCACAAGTCTCGTCACCGAGACGGACGGAATAACCACCGCAGGCACGGTTGTCGCATTCGATGCCCCGGTCGCCGGCACACCCGTTCACAAATTCTCCATCTGA	MSQPHIIEPKLRSLIDTPLKVGESPAWDERTGDLWFVDILAPAIFRLHPGGKLDRYDMPAQVGCLGLCDNGLIVAGLKTGVHLLDPASGKLDLLCDPDDGRPDSRLNDGKVGPDGHFWVGTRDEAAIQTGNARLYRVAPDGGIECIIDGNMFTSNGLAWSPDGRRMYHSDSSGLMYHAFDFDVATGRLGPAERLHDFAPDEGRPDGAATDCEGCYWSAGVQAGRLNRFSPDGELFEIYRLPFKGPTMPCFGGPDLKTIYLTSLVTETDGITTAGTVVAFDAPVAGTPVHKFSI				NA	NA	NA	NA	NA
BMS010_05885	720	lldR_3	COG2186	Putative L-lactate dehydrogenase operon regulatory protein	ATGGACAATCACACTGCATCTGCCGCCGCTCGAGGCGAAACTCGGCTGAGCGACATCATCTACGAAAAAATCGTGGGCATGATTTCGGACGGGCGGTTTCCCGTGAACGAGCGGTTGCCATCGGAACAGAATCTGGCGTCGCTGTTTGGCGCGTCGCGGCCGGTTGTGCGGGAAGCGCTGGAGCGGCTTCGGAACGACGAGCTTATCGTTTCGCAAAAGGGATCCGGCTCCTATGTACGCCAGCAGCCGGATTCTTCCGTGTTGCAACAGGTGCCGGTCGGCTCGCTGGCCGACGTGCAGCGTTTTTTTGAGTTCAGGGCCGGATTGGAGGCTTCCGCAGCTGAGCTTGCGGCGCGCAACTGGCAGGCAGCGGACAGGGTGCGGATCGAGCAGGCGATTGCCGCGCTGGAACAGTGTCTCGAGCGCAACGATCTCGGCGCGGAGGAAGACTTCGCCCTGCACGAAGCCATCGCGAAGGCGAGCCATAACCAGTTCCACATCACGGTGCGGATCTGGTTCAAGCCCCATTTCGCCATCGGCCAGTCGGTGACACGCAGCCTCAGCCTCAAGCGGACGCCGCAGCATGTGCGCGAAGTCCAGAACGAGCACACGGCCATCGTGGAAGCGATTTTTGCGCGGCGCGAGCAGGCGGCGCATGACGCGATGAAAGACCACATATTGAAGGCGCGCGCCCGCATGTTTCAGGGCGTCGGCAGTTAG	MDNHTASAAARGETRLSDIIYEKIVGMISDGRFPVNERLPSEQNLASLFGASRPVVREALERLRNDELIVSQKGSGSYVRQQPDSSVLQQVPVGSLADVQRFFEFRAGLEASAAELAARNWQAADRVRIEQAIAALEQCLERNDLGAEEDFALHEAIAKASHNQFHITVRIWFKPHFAIGQSVTRSLSLKRTPQHVREVQNEHTAIVEAIFARREQAAHDAMKDHILKARARMFQGVGS				NA	NA	NA	NA	NA
BMS010_05886	1950	agpA_3		Periplasmic alpha-galactoside-binding protein	ATGCGCGATGGCGAAGCATTTTCACTGGGCGTAACGCGCCGAACCTTTATGGCGGGTGTTGGCGGCGTGGCCGCCCTTTCCGTCATCGGGACCTCGGCGCGGGCTGCCGCCGGCAAGCAGGCGCCGGAACTGGAGGCGCTGGTAAAGGACGGCAAATTGCCGCCTTTGGCCGAACGTCTGCCGAAAAATCCGATGGTGGTGACGCCGCACGAGAAAATCGGCACCTATGGCGGCACATTGCGCCGTGGCCTGCGCGGTTCGTCGGACCATAACGGCATCCTGCGCATGGTCGGCAATCAGGGCCTTGTCCGCTGGAACATGGATTTCACCGAGGTTCTGCCGAACCTTGCGGTGAAATGGGAAGTCAACGACGATGCCTCGCAATTCACCTTCCACTTGCTGGAAGGCGCAAAATGGTCGGACGGCCACCCCTTCACCGCCGATGACGTGGTGTTCGCCATCGAGGACTGCATCAAGAACAAGGAACTTTACAGCGCCACGCCGGCGCAGCTTTCCGTGGCCGGTAAGGCGGTCGATGTCGAAAAAGTCGACGATTTCACGGTAAAGTTCAAATTCGCCGCGCCGAATGCGCTTTATCTCGAAAACCTCGCCACGCCGCTCGGCCAGCATCCGACGCTGTTTCCCAAACACTATTGCAGCAAGTTCCTGCCGAAATACAACACGTCGCTCGATGCCGATGTGAAGGCGGCGGGTGTCTCGAGCTGGACCGAACTGTTCCGCGCCAAATGCGGCGATATCGAAATTCCGTCCCGCTGGTCGAATGTCGACAAGCCAACGCTGGACCCGTGGGTGGTGAAGGAGCCTTATTCCGGCGGTGCGACACGCGTGGTCATGACCCGCAACCCTTACTTCTGGCAGGTCGATACCGAAGGCAATCAGTTGCCCTATATCGACGAAATCAATTTCGGCATTTCGCAGGACGTCGAATCGCTGATGCTGAACGTCATTTCCGGCAAGATCGACATTCAGGAGCGCCATATCAGCGTTCTCGCCAACAAGCCGACCCTGTCGCAGAACATGAAAAAGGGTGACTACCGCCTGCTGACCTTGGTGCCGTCTGCCGCGCAGCAGTGCCAGATTTACCTCAACATCACCCACAAAGACCCGGCGATGCGCAAAATGTTCGCCGACAAGTCGTTCCGTCAGGCATTGTCCATTGCGCTCAACCGGCAGGAAATTATCGACATCGTCTATTTCGGTCAGAGCGAGGGCTATCAGGCCGGGCCGCGCCCGACACACCCCTGGTACAATGAAAAGCTGGCGCGGCAATTCACCGAATATGATGCGGACAAGGCGAACGAGCTTCTCGACAAGGCCGGTTACGACAAGAAGAACGGCAACGGCATGCGGTTGCGGCCTGACGGTCAGCCCGTCTTCTTCTCGATTGACGTTATCCCGACGCTCTATCCCGATCTGGTCGATGCGCTGGAACTGGTGAAGGCGCAATGGGCGCAGATCGGCGTCGACATCAAGGTCAACACCATCGAACGCGCGCTCTATTACACGCGCGGCGATGACAATGCCCATGATGCGGCCGTTTGGCCCGGTCCCGGCGGTCTCGATCCGATGCTCGACCCGCGCGATTTCTTCGCCTTCCACCCGCAGGGGTCGCGTTACGCCATTCCGTGGGCGCTCTGGTACACGTCGAATGGCCAGAAGGGCGAAGAGCCGCCGGAAAGCCAGAAGCAGCGCTTCAAGCTGTTCGATGAGGCGCGCTCGACGGCCGACCTTGCCAAGCGCGGCGAGAAGATGAAGCAAATCTTCGACATTGCGGCGGAAGAGTTCGAGACAATCGGCCTCTGCCTTGCGGTGGGCGGTTTCGGCATCATCCGCAACAATCTGCGCAACGTGCCCGAGACCGAACCCGACAGCTGGTCGTGGCCCAATCCCGGCCCGGCGCTGCCGCAACAGTTCACCTTCACAAGCTGA	MRDGEAFSLGVTRRTFMAGVGGVAALSVIGTSARAAAGKQAPELEALVKDGKLPPLAERLPKNPMVVTPHEKIGTYGGTLRRGLRGSSDHNGILRMVGNQGLVRWNMDFTEVLPNLAVKWEVNDDASQFTFHLLEGAKWSDGHPFTADDVVFAIEDCIKNKELYSATPAQLSVAGKAVDVEKVDDFTVKFKFAAPNALYLENLATPLGQHPTLFPKHYCSKFLPKYNTSLDADVKAAGVSSWTELFRAKCGDIEIPSRWSNVDKPTLDPWVVKEPYSGGATRVVMTRNPYFWQVDTEGNQLPYIDEINFGISQDVESLMLNVISGKIDIQERHISVLANKPTLSQNMKKGDYRLLTLVPSAAQQCQIYLNITHKDPAMRKMFADKSFRQALSIALNRQEIIDIVYFGQSEGYQAGPRPTHPWYNEKLARQFTEYDADKANELLDKAGYDKKNGNGMRLRPDGQPVFFSIDVIPTLYPDLVDALELVKAQWAQIGVDIKVNTIERALYYTRGDDNAHDAAVWPGPGGLDPMLDPRDFFAFHPQGSRYAIPWALWYTSNGQKGEEPPESQKQRFKLFDEARSTADLAKRGEKMKQIFDIAAEEFETIGLCLAVGGFGIIRNNLRNVPETEPDSWSWPNPGPALPQQFTFTS	PGPT0004430_769	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004430-ddpA|ABC_PE_S-K02035	NA	NA
BMS010_05887	987	dppB_3	COG0601	Dipeptide transport system permease protein DppB	ATGCTGCTTTTTATCGTAAAACGCCTGCTGTGGATGATACCGTCCCTGTTTGCCGTCAGTTTCCTTGCCTTTGTCCTGATCCAGCTGCCTCCCGGCGACTATGTGACGACCTATATCGCCACACTGGCCGCCTCGAACGAGGTCATCGACCACAATACGGCGGCGCAGCTGCGCGAACGTTTCGGTCTCGATGACCCGATGATCGTGCAATATCTGAAATGGATATGGGGCATCGTCAGCCGCGGCGATTTCGGCATTTCGTTCGAATGGCAGCAGCCGGTTTCAGGCCTCATCTGGGAGCGCATGGCGCTGACGCTGGTTCTGGCCATCGCAAGCCTTCTTGCAACCTGGGCCATCGCGCTTCCCATCGGCGTCTTCTCCGCCGTGCGCAAATATTCGATTGGCGATTATCTTTTCACCGCCTTTTCCTTCTTCGGCCTTTCCATACCCTCGTTCCTGCTGGCGCTGGTGCTGATGTATGTCGCGGCGGTGGAGTTCGGGGCCGATGTCGGCGGGCTGTTTTCAGCCGAATACGAGACCGCCTCATGGAGCATCGCCAAGATGATGGACCTCATGGCCCATATCTGGCTGCCGGTCGCCATTCTCGCGGTGTCTTCCACCGCAAGCCTCATCCGCGTCATGCGCGCCAATATGCTGGATGAGTTGCCCAAGCCCTATGTCACCACCGCGCGGGCAAAAGGCTTGTCGGAGTTCAAGCTGCTGACGAAATATCCGCTCAGAATTGCGCTCAATCCGTTCATCTCCACCATCGCATGGCTGTTGCCCAATCTCATTTCGGGCTCCGTGGTTGTCGCCATCGTGCTCAACCTGCCAACGGCCGCGCCGCTGCTTTTGCAGTCGCTGATGGCGCAGGACATGTATCTCGCCGGCGCTTTCGTGCTGCTGATCTGCGCGCTGACGCTGATCGGATCGCTGATCAGCGATATCCTGCTTGCGCTGGTCGATCCGCGCATCCGTCTCGAATAG	MLLFIVKRLLWMIPSLFAVSFLAFVLIQLPPGDYVTTYIATLAASNEVIDHNTAAQLRERFGLDDPMIVQYLKWIWGIVSRGDFGISFEWQQPVSGLIWERMALTLVLAIASLLATWAIALPIGVFSAVRKYSIGDYLFTAFSFFGLSIPSFLLALVLMYVAAVEFGADVGGLFSAEYETASWSIAKMMDLMAHIWLPVAILAVSSTASLIRVMRANMLDELPKPYVTTARAKGLSEFKLLTKYPLRIALNPFISTIAWLLPNLISGSVVVAIVLNLPTAAPLLLQSLMAQDMYLAGAFVLLICALTLIGSLISDILLALVDPRIRLE	PGPT0004445_5364	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004445-ddpB|appB-K02033	NA	NA
BMS010_05888	1125			hypothetical protein	ATGAGCGATATCACCATGACCACCAATGCCCGGCAGGACCGCGCCGCCGTCGCCTCGCAGTGGCAGCTCATCTGGTGGGCCTTCAAGCGCCACAAGCTGGCCATGGCCGCCCTGTTCATCACCATCGCCATGTATATCGTCGCGCTGGTGCCCGGCTTCTTCGCCATCAACGATCCGGTGCTGCAAAATGCCCGCGCCACCTTCCATCCGCCGCAGCGCGTTCATTTCATCGATACGACCGAGGGTTTTTCGCTCGGGCTGCATTATTATCCGCTGAAGCTGACCCGCAATCCTGAAACGCTGGCGGCGGTCTTCGTTGAAGATACGGCGAAGAAAATTCCGGTCCAGCTTTTCGGTCGCGGTTACGAATATTCCGTCTTCGGCCTGTTCACCACGGATATCCACCTGCTGGCCTCCACCGATAAAACGCGGCCGCTCTTCCTCTTCGGCGCGGATCGTCTCGGCCGAGATGTTTTCAGCCGCGTGGTGCAGGGGGCGCAGGTCTCCCTGTCCATCGGTCTTGTCGGCGTGTTCTTCTCGTTGCTGCTCGGCGTCGTTCTGGGAGGCATTTCGGGATATTACGGCGGCCGCATCGATTTCGTCATGCAGCGCGTGATCGACTTCGTGCTGTCGCTGCCCACCATTCCCATCTGGCTGGCGCTGGCCGCCGCCCTGCCGCAGGGCTGGCCTGCCACGCTGCAATATATGATGATTACCATCATCCTGTCGCTGACCGGCTGGGCGCAGCTTGCCCGCGTCGTGCGCGGCCGGTTTCTGTCGCTCAGGACCGAAGAATTCGTGGCCGCGGCGCGGCTGGATGGCGTGCCGGAAGGGCGCATCATCTTCCGCCACATGCTGCCCAGTTTTTCGAGCCATATCATCGCCTCGGTCACGCTTGCAGTGCCGGCCATGATTCTTGCGGAAACATCGCTGTCCTTCCTCGGTCTCGGCCTTCAGCCGCCCACCATTTCCTGGGGCGTTTTGCTTCGCGAGGCGCAGAATATCCGCTCGATTGCAACCGCACCCTGGCTGTTCCTGCCCGGTGTGGCGGTCGTCATTGCCGTCATGGCGCTCAATCTGCTCGGTGACGGCCTGCGCGACGCGGCCGACCCCTATAACAAGTGA	MSDITMTTNARQDRAAVASQWQLIWWAFKRHKLAMAALFITIAMYIVALVPGFFAINDPVLQNARATFHPPQRVHFIDTTEGFSLGLHYYPLKLTRNPETLAAVFVEDTAKKIPVQLFGRGYEYSVFGLFTTDIHLLASTDKTRPLFLFGADRLGRDVFSRVVQGAQVSLSIGLVGVFFSLLLGVVLGGISGYYGGRIDFVMQRVIDFVLSLPTIPIWLALAAALPQGWPATLQYMMITIILSLTGWAQLARVVRGRFLSLRTEEFVAAARLDGVPEGRIIFRHMLPSFSSHIIASVTLAVPAMILAETSLSFLGLGLQPPTISWGVLLREAQNIRSIATAPWLFLPGVAVVIAVMALNLLGDGLRDAADPYNK	PGPT0004450_2122	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004450-ddpC|appC-K02034	NA	NA
BMS010_05889	1725	gsiA_6	COG1123	Glutathione import ATP-binding protein GsiA	ATGAGCGATATTCTCTCTATCAAGCCAGCCAAGCCACTGCTCGAAGTCCGCAATCTGGTCACTGAATTTCCGGTCAGAAACGGCGTGTTCCGGGCGGTCAACGACCTGTCCTTCTCCATCGATCCCGGCAAGACGCTCTGCGTCGTCGGCGAAAGCGGCTCCGGCAAATCCGTTACCGCCCGGTCGATCCTGCAGATCATCGACAGCCCCGGCCGCATTGCGTCCGGCTCGATCATCCTCAACCGCGCCGACGGCACGTCTCTCGATCTGGCAAAGCTCGATCCGCGCAGCCGCGCCATCCGCTCGGTGCGCGGCGCTGATATCGCGATGATCTTTCAGGAGCCGATGTCGTCGCTTTCACCCGTGCACACGGTCGGTGACCAGATCACCGAAGTCCTGCGCCTGCATCTGAAAATGAGCAAGGCAGAGGCGCGGGCCGAGGCCATCGAACTGTTGCGGCAGGTGGAAATCCCTAACCCTGAAAAGGCGCTGGATCGCTACGCTTTCCAATATTCGGGCGGCATGCGCCAGCGTGCGATGATCGCCATGGCGCTGGCCTGCAAACCGCAGCTTTTGATCGCCGACGAACCGACGACGGCGCTCGATGTCACCACACAGGCCGAAATTCTCGACCTGATATCGCGGCTGCAAAAGGCGCATGGCATGGCTGTGCTGTTCATCACCCATGACATGGGCGTGGTGGCGCAGATTGCTGATGACGTGCTGGTCATGCATCACGGCGTCGCCAAGGAATATGGCACGGTCGACGAGATATTCCACAATCCGAAAGATCCCTATACCCGCATGCTGATCGGCTCCGTTCTAAAGCTGGAGCAGAAGGCGGAAATCCGCCTGGCCCGCCCGCCGCTCGATCTTGCGGCCGCGCCCATCCTCGAGGTCAACGACCTCTCCATGCATTTCGGCGAGATGAAGGCGCTGGACGGCGTATCGATCCGGCTGCTTCCCGGCGAAACGCTCGGCATCGTCGGAGAAAGCGGCTCCGGCAAGACCACGATGGGCCGCTCCATCATGCGTCTCTACGACCCGACCGGCGGCGAAATGCTCTATCGCCGTGCGGATGGCACGGTGGTCGATTTGGCGAAAATCGAGGGTGCGGAGCTGAAAGCCGCGCGGCGCGAATTACGCATGGTGTTTCAGGACCCGTTCGGTTCGCTCAATCCACGCATGACGGTGGCGCAGGTGATCGGCGAGCCATTGCTCGTAAACGGTATTGCGAAGGGCAGGGAACTGGATGAACGCGTCTGCGCGCTGATGGAGCAGGTGGGTCTCGACCCTGCCGGGCGTGAACGTTACCCGCACGCCTTTTCCGGCGGCCAGCGCCAGCGCATCGGCATCGCCCGCGCCATCACCCTGAAGCCGCGCATCATCGTGGCGGATGAGGCGACCTCGGCGCTCGATGTTTCGGTGCGGTTCCAGGTGCTGGATCTTCTGATGCGGCTGCAGGATGAGCTGGGTCTCGCCTATATCTTCATCAGCCACGACATCGGCGTCATCCGCTATATGTGCGACCGCGTCGGGGTGATGTATCGCGGCAAGCTGGTGGAAGTGGGAGACGCCGAAAAGGTCTGCAACGCGCCGGATCATCCCTACACGCAGGCGCTTCTTTCCGCCATTCCACGCCCGGACCCGCGGGACCGGGATCGTACCCGCAGATTCCGCTACGTCGAACCATCAGAAGTCAAGAACGGGGCCGTGGCCCGATAG	MSDILSIKPAKPLLEVRNLVTEFPVRNGVFRAVNDLSFSIDPGKTLCVVGESGSGKSVTARSILQIIDSPGRIASGSIILNRADGTSLDLAKLDPRSRAIRSVRGADIAMIFQEPMSSLSPVHTVGDQITEVLRLHLKMSKAEARAEAIELLRQVEIPNPEKALDRYAFQYSGGMRQRAMIAMALACKPQLLIADEPTTALDVTTQAEILDLISRLQKAHGMAVLFITHDMGVVAQIADDVLVMHHGVAKEYGTVDEIFHNPKDPYTRMLIGSVLKLEQKAEIRLARPPLDLAAAPILEVNDLSMHFGEMKALDGVSIRLLPGETLGIVGESGSGKTTMGRSIMRLYDPTGGEMLYRRADGTVVDLAKIEGAELKAARRELRMVFQDPFGSLNPRMTVAQVIGEPLLVNGIAKGRELDERVCALMEQVGLDPAGRERYPHAFSGGQRQRIGIARAITLKPRIIVADEATSALDVSVRFQVLDLLMRLQDELGLAYIFISHDIGVIRYMCDRVGVMYRGKLVEVGDAEKVCNAPDHPYTQALLSAIPRPDPRDRDRTRRFRYVEPSEVKNGAVAR	PGPT0004435_2862	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004435-ddpD-K02031	NA	NA
BMS010_05890	1188	dgoD_3	COG4948	D-galactonate dehydratase	ATGAAAATCGATCGCATGCGGGTATTCGTCACCCGCGACAAGGACCGGCCCCGCGTCATCGTCGCCCTCGATACCGATGACGGTTTGACCGGCTGGGGTGAATGTTACAACCACGGCCCCGATCTCGCCCTGCCGCCGGTGCTGGACTACCTCTATAGTTTCCTTGCCGGGCAAGACCCGACACGGGTGGAGTATCTCTATAATCTCCTGCTCCAGCAGAACCGCTTTCCGCCCGGCGCGCTCGGTCTGTCGGCAATCTCGGCGCTCGATCATTGCCTCTGGGATCTCGCAGCCAAGGCGGCGGGTGTGCCCGTCTACAAGCTGCTGGGCGGCGAAGTACGCGACCGTATCAAGGTCTATGCCGGTGTCTATACGGCCCCGGATGCGCCGGCGGCAAAGGAGGAATTCGACCGTCTCAACGAGGACTGGGGCTTTACAGCCTTTAAGCTCAGCCCATGGCGCGTCGATATTCACGCCCATCGCTGGGGGGAGGTGGTGCGCAGTTCCGCCGAATATTTCCGCTCCCTTCGCGAAACCGTGCGGCCCGACTACGACATCGCCTTCGACGCCCATGCCAAGATTTTCGAGCCTGCGGCCGCCCGCCAGCTTGGCAATGCGCTTGCCCCTTACGATCCGCTGTTCTTCGAAGAGCCTTTGCGTCCCGAGAATATCGAGATGTGGGGAGACCTGAAACAGGGGCTGAACTGCACGCTGGCGACCGGTGAAAGTCTCTATAATCGCAATGAGTTCCTTCGCCTTCTTCAGGTAAAGGGTGCGGATATCATCCAGCCCGACATCTGCGTTGTCGGCGGCATTTCGGAGATGCGCCGCATCGCCACGCTGGCGGAAGCGCATTTCGTCAGCATCGCGCCGCATAACCCGATGGGACCGCTCGCCACCGCCGTCAATGTGCACTTCTCCGCCGCCCAGCAGAATTTCCGCATTCTCGAATACCGGCTGCCGAAAGGGCAATGCTACGTCTATGGCGGCACCGATCTTGAAAAACGCGAGGACGAAACCCGTTATGTCGTCGACCCCTACCTGCCGAAGGACGGGTATCTGGAACTGAGGCCGGACCGCCCCGGCTGGGGTGTTGAGATGGATGAAAAAGCCATGCAGGAGGATGGCTATGTTCACTGGCAAAGACGGGTGCCGAAACGGCCTGACGGCTCCTATGCCTTTGCCTGA	MKIDRMRVFVTRDKDRPRVIVALDTDDGLTGWGECYNHGPDLALPPVLDYLYSFLAGQDPTRVEYLYNLLLQQNRFPPGALGLSAISALDHCLWDLAAKAAGVPVYKLLGGEVRDRIKVYAGVYTAPDAPAAKEEFDRLNEDWGFTAFKLSPWRVDIHAHRWGEVVRSSAEYFRSLRETVRPDYDIAFDAHAKIFEPAAARQLGNALAPYDPLFFEEPLRPENIEMWGDLKQGLNCTLATGESLYNRNEFLRLLQVKGADIIQPDICVVGGISEMRRIATLAEAHFVSIAPHNPMGPLATAVNVHFSAAQQNFRILEYRLPKGQCYVYGGTDLEKREDETRYVVDPYLPKDGYLELRPDRPGWGVEMDEKAMQEDGYVHWQRRVPKRPDGSYAFA	PGPT0002220_467	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTONATE_DEGRADATION,PGPT0002220-dgoD-K01684	NA	NA
BMS010_05891	912			hypothetical protein	ATGTTCACTGGCAAAGACGGGTGCCGAAACGGCCTGACGGCTCCTATGCCTTTGCCTGAAACGGTTGCGATTGCCTGCGGGCGGCTCTCCGCCCGCCTGCGCCCCGCCTGGGGTGGCAGGATGACCCATCTGCGGCACGCGGACTACGGCGATATTCTGGCACCCACAATGGAGCAGGAGTTCGAGCCGTTCAACTGGCCGAGGGCCGGCGCATATCCGTTATTTCCCTATCACAACCGGCTCTATGGCGGGTCCTTCGTTCATGCGGGCACCCGCCATGATCTGCTGCCGCATCCGGCGCTTGCGCCTGACGCCATGCATGGCCCGGCTCATCGCCGGCCGTGGGAGATTTCAGACCTGTCTTCGAATCGGGTCTCACTGGTACTGGACTACGAGGCTGACGGGGAGTGGCCTTTTTCCTTCCGCGCCGAGCAGTCTTTCCTGCTGGAGGACGACAGCCTTACCGTGGGGCTGTCGATAACCAATTTCGCGAATGGGCCAGCGCCGATGTCGCTGGGCTGGCATCCCTATCTGGCGGCCGGGATCGGTTGCGATGCGCGGACGGACGCCAAACTGCAATATCCGCTGGATGCGCAGAACGTGCCAACCGGCCAGCCGGCAACACCTCGCCCGAAACCCGCCATTCCCGCCGCAACGGGATACACATTGCATTTCACCGATTGGTCAAGCTCGCAGGTCGACTTCGACAGGTTTTCACTACGGCTCGAGGCCGATCCCGTTTTCGGCCATCTCGCCGTGCACCGCATGGAGCGCTATCTCTGTCTTGAGCCCGTTTCCATGGCCGCCGGAGCGCTTGGTTTGCCGCAGGCGCAGCGGGAAGGGCAGGGTCTCGGGACGGTTGCTCCCGGCGAGCGCCTGTCGGGGCGCATCAGGCTCTCCATCGATCTTTAG	MFTGKDGCRNGLTAPMPLPETVAIACGRLSARLRPAWGGRMTHLRHADYGDILAPTMEQEFEPFNWPRAGAYPLFPYHNRLYGGSFVHAGTRHDLLPHPALAPDAMHGPAHRRPWEISDLSSNRVSLVLDYEADGEWPFSFRAEQSFLLEDDSLTVGLSITNFANGPAPMSLGWHPYLAAGIGCDARTDAKLQYPLDAQNVPTGQPATPRPKPAIPAATGYTLHFTDWSSSQVDFDRFSLRLEADPVFGHLAVHRMERYLCLEPVSMAAGALGLPQAQREGQGLGTVAPGERLSGRIRLSIDL	PGPT0017825_4646	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GALACOTOSE_METABOLISM|DEGRADATION,PGPT0017825-galK-K01785	NA	NA
BMS010_05892	768	lldR_4	COG2186	Putative L-lactate dehydrogenase operon regulatory protein	GTGAACCCTAACGACAACTCCAACTACGCGCTGGCGAAGTTGCGGGAGTACATTCAAACGCAGGATCTTGCGAAAGACCGTCGGCTGCCGACGGAGCGGGCCTTCGCGGAAACCTTCAATGTCGGCCGGCGTGCGGTCCGGCGCGCTCTTGAGGTTCTGGAGGCCGAAGGTCTGATCTGGCGACGGCAGGGGGCGGGAACCTTTGTGGGTGAAAAGCCGGACGATTGGTCCGCTCAGGTCACAGAACTGGTCGCCGGTACGGATATCATGGAAATCATGGAAGTGCGTCTGCGCATCGAGCCGCAACTGGCGCAGCTTGCGGCCATGCGCGCCAAACCCGCCGAGGTGGAGCGCATGCGCGCCCTCGTCCAGAAGACCGGCCAGAGCACGGATGCCGACGCCAAAGAGTTGTGGGATGGTTCGCTTCACCGCCAGATCGCCCAGAGCGCCGGCAACAAATTGTTCCTGTCCATCTTCGATGTCGTCAACCGCATTCGCCAGGACGATGCATGGCAATCGATACGGGAACTGGCGCGCCGCAGCGGCACGAACGGCAAGGCTTCCTTCGAGCAGCACATAGCGATTGTCGATGCCATCGCCGACCGCGACCCCGCAAGAGCCGGCGAAGCGATGCGCCAGCACCTTCTCATGCATCAGGAAAGGCTGATCCGCGCCACCTCGCTCGGCTTTCTGGAGGAGAAAACCGCAGAAGAGATTGCCGCCCGCAGCACGGGCGATGCCGACAATCCGCTCACGCCGGCCTCATAG	MNPNDNSNYALAKLREYIQTQDLAKDRRLPTERAFAETFNVGRRAVRRALEVLEAEGLIWRRQGAGTFVGEKPDDWSAQVTELVAGTDIMEIMEVRLRIEPQLAQLAAMRAKPAEVERMRALVQKTGQSTDADAKELWDGSLHRQIAQSAGNKLFLSIFDVVNRIRQDDAWQSIRELARRSGTNGKASFEQHIAIVDAIADRDPARAGEAMRQHLLMHQERLIRATSLGFLEEKTAEEIAARSTGDADNPLTPAS	PGPT0018120_242	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0018120-lldR-K14348	NA	NA
BMS010_05893	1509	dppA_8	COG0747	Periplasmic dipeptide transport protein	ATGAAGAAAATCAAGACATTGACTGCCGCCTTATTGGCCGGTGCATTCCTGTCCACGCCGGCCATCTCGTCCGAATTGCGCATCGGCCTTAACGATGACGCCGACGTTCTCGACCCCGCGCAATCGCGCACTTTCGTCGGCCGTATCGTTTATACCGCCATGTGCGACAAGCTCGTCGACATTTCGCAGGACATGAAGATCGTTCCCCAGCTTGCCACCGAATGGGCCTGGTCCGAGGGCGGCAAGGTGCTGACGATGAAGATCCGCGACGGCGTGAAATTCCACGACGGCGAGACACTGGATGCGGCGGCTGTGGTCGCCACCATCGAGCGCAACATGACCCTGCCGGAATCCCGCCGCAAGAGCGAGCTTTCCTCGGTCGAAAAGGTCGAGGCCACCGGGCCTCTGGACGTCAAATTCACCCTGAAGACGCCTGACGTCACGCTGCTTGCGCAGCTTTCCGACCGCGCCGGCATGATCGTCGCGCCGAAGGCGGCCAAGGAACTGGGCGCGAATTTCGGTTCGAAGCCGGTCTGCGCGGGACCGTTCAAATTCGTCGAGCGCATCCAGCAGGACCGTATCGTGCTCGAGAAATTTACCGATTATTGGGACAAGGACAAAATTCTGGTCGACAGGGTCGTTTATCTGCCGATCCCCGATACGACCGTGAAGCTTGCCAATCTTCGCTCCGGAGACCTCGACATTGCCGAGCGTATCTCGGCCTCCGATGCCGAGTCCGTAAAGAACGATGCCAATCTGACCTATGCGGATGTTATCGGGCCGGGCTACATGGCCATGTATGTCAATATCAACAATGGTTCGCGTGCGGATAATCCGCTCGGCAAAGACAAGCGCCTGCGTCAGGCCTTTTCTTATGCGATAGACCGGGAAGCGATTGGCCAGATCGTCTTTGAGGGCACATCAAAGGCAGGCAATCAGGCCTTCCCGCCCACAAGCCCGTGGTTCAACCAGAATCTGCCGGTGCCGGCGCGCGATATCGACAAGGCCAAAGCGCTGATGAAGGAGGCGGGTTACGAAAAGCTCGACATCGAGCTTCAGCACGCCAACAACACAACGCAGACGCAGATGATGCAGGTCATCCAGTCCATGGTCGCGGAAGCCGGCTTCAACGTCACCCTGAAGGCCACGGAATTCGCGACTCTTCTGTCCGAACAGACCGCCGGCAACTACCAGCTCAGCCGTTCCGACTGGTCGGGACGTATCGATCCGGATGGCAATCTGCATCAGTTCGTCACCTGCAAGGGCGGCATTAACGATGTGAAATATTGCAATCCCGAGGTCGACAAGCTGCTGAACGAGGCCCGCGCCTCGACCGAGGATGCGGTGCGCAAGGAAAAATACGATGCCGCAAGCGTCATCCTCAACGATGACATGCCGATCATCTATCTTGGCCACCAGCCCTATGCCTATGCCATTTCCAACAAGGTCAAGGGCTGGGCGCCGTCGCCGGATGGCATGATCCGCCTTCTCGGCGTCTCCAAGGACTGA	MKKIKTLTAALLAGAFLSTPAISSELRIGLNDDADVLDPAQSRTFVGRIVYTAMCDKLVDISQDMKIVPQLATEWAWSEGGKVLTMKIRDGVKFHDGETLDAAAVVATIERNMTLPESRRKSELSSVEKVEATGPLDVKFTLKTPDVTLLAQLSDRAGMIVAPKAAKELGANFGSKPVCAGPFKFVERIQQDRIVLEKFTDYWDKDKILVDRVVYLPIPDTTVKLANLRSGDLDIAERISASDAESVKNDANLTYADVIGPGYMAMYVNINNGSRADNPLGKDKRLRQAFSYAIDREAIGQIVFEGTSKAGNQAFPPTSPWFNQNLPVPARDIDKAKALMKEAGYEKLDIELQHANNTTQTQMMQVIQSMVAEAGFNVTLKATEFATLLSEQTAGNYQLSRSDWSGRIDPDGNLHQFVTCKGGINDVKYCNPEVDKLLNEARASTEDAVRKEKYDAASVILNDDMPIIYLGHQPYAYAISNKVKGWAPSPDGMIRLLGVSKD	PGPT0004430_17503	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004430-ddpA|ABC_PE_S-K02035	NA	NA
BMS010_05894	948	gsiC_7	COG0601	Glutathione transport system permease protein GsiC	ATGCCTGTTTATATCGGCAAGCGACTGCTGGTCGCGATCCCGACGCTTCTGATCATCTCCATCTTCGTCTTCTCGCTGCAGAAACTGCTGCCGGGCGATCCGGTCCTTGCCATGGCGGGTGAGGAGCGCGATCCGGCGACGATTGAATTCCTGCGGGAGAAATATCGCCTGAACGACCCTGTGCCGCTGCAATATGTCAACTGGCTGGGCGGCGTGGTGACGGGCGATTTCGGTATTTCGCTGCGCACCAACCAGCCGGTGCTGGAGCTTATCGGCCAGAAGCTGCCGGTCACCATTCAGCTGGCTGTCATGGCGATGTTCTTTGCCATGGTCATCGGCATTCCCATCGGCATTCTGGCCGCCGTCAAGAAGAACACGTGGATCGACTACACGGCCAATATTGTGGCGCTTTCCGGCCTCTCCATCCCGAACTTCTGGCTCGGCATCATGCTGATCCTGCTGGTTTCGGTCAAACTCGGCTGGTTGCCGGCATCCGGTTATGAATCGATCTTTGTCGATCCCGTCCGTTCCATCGAAACCATGATCATGCCGGCCTTCGTGCTGGGCAATGCGCTTGCGGCGACGCTGATGCGCCATACACGTTCGGCGATGGTGGCGGTGCTCAGTTCCGACTATATCCGCACCGCCCGCGCCAAGGGTCTTTCTCCGCGCGAGATCATCCTGTCGCATAGTTTCCGCAACGCGCTTCTGCCCGTCATCACATTGCTGGCGCTGCTTTTCGGCGAATTGCTGGCCGGGGCGGTTCTGACGGAGCAGATATTCACCATTCCCGGCTTCGGCAAGATGACGGTCGATGCGGTGTTCACCCGCGATTACGCCGTCGTGCAGGGCATCGTTCTTTGCACCGCCGTCGGTTTCATCCTCATGAACCTTCTGGCCGACATTGCCTATGTCCTGCTCAACCCCCGCCTCAGGGCGACGATCTGA	MPVYIGKRLLVAIPTLLIISIFVFSLQKLLPGDPVLAMAGEERDPATIEFLREKYRLNDPVPLQYVNWLGGVVTGDFGISLRTNQPVLELIGQKLPVTIQLAVMAMFFAMVIGIPIGILAAVKKNTWIDYTANIVALSGLSIPNFWLGIMLILLVSVKLGWLPASGYESIFVDPVRSIETMIMPAFVLGNALAATLMRHTRSAMVAVLSSDYIRTARAKGLSPREIILSHSFRNALLPVITLLALLFGELLAGAVLTEQIFTIPGFGKMTVDAVFTRDYAVVQGIVLCTAVGFILMNLLADIAYVLLNPRLRATI	PGPT0004445_11033	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004445-ddpB|appB-K02033	NA	NA
BMS010_05895	873	gsiD_3	COG1173	Glutathione transport system permease protein GsiD	ATGACCGTTCTCGATCAAAACCTTTCCGTAGCGGTAACGCGGCAGGAAAGCCGCGCCTGGAAGAAGATGAAGCGCAATAAATCGGCGCTTGTCGGCATGGTTATCGTGCTGTTTTTCGCAGTCCTTGCCATCGCCGCGCCGATCCTGCCGATTGCCGATCCGGTGGCGACCAGCTGGTCGGCGATCCGCAAGGCGCCCTCGGCCGCCCATTGGCTCGGCACCGACGATCTCGGCCGAGACATCCTTTCCCGCATGATCTATGGCGCGCGCGCCTCGCTGATGGCGGGCGTGGTCTCGGTGATGATCGCCGTGGTCATCGGCGTGCCCTTTGGCCTGATTTCAGGTTATTTCGGCGGCTGGGTGGATATGGTCATATCCCGCATCACCGAAGCGCTGCTGGCCATGCCGTTTCTCATCATGGCGATTGCGCTTGCCGCCTTCCTCGGCCCGAGCCTCACCAATGCGATGATCGCCATCGGCCTTTCCGCCATGCCGATTTTCGTGCGGCTGACGCGTGGGCAGGTGCTGGCGGTCAAGACCGAAGATTATGTCGAAGGCGCAAGGTCCATCGGCCTCAACCACATCGACATCATGACGCGTTACATCCTGCCGAATGTCTTCGCCCCCATCATCGTGCAGGCGACCCTGACGGTGGCGACCGCCATCATTGCGGAGGCGAGCCTTTCTTTCCTCGGCCTCGGCCAGCAGGCGCCTGCGCCCTCCTGGGGTTCGATGCTGAATACCGCGAAGAATTTCCTCAGCCAGGCGCCGTGGATGACGATGTGGCCCGGCATCGCCATCTTCCTCGTCGTCATCGGCTTCAATCTTCTGGGCGACGGCCTGCGCGACGCGCTCGATCCGCGCGAAGCATGA	MTVLDQNLSVAVTRQESRAWKKMKRNKSALVGMVIVLFFAVLAIAAPILPIADPVATSWSAIRKAPSAAHWLGTDDLGRDILSRMIYGARASLMAGVVSVMIAVVIGVPFGLISGYFGGWVDMVISRITEALLAMPFLIMAIALAAFLGPSLTNAMIAIGLSAMPIFVRLTRGQVLAVKTEDYVEGARSIGLNHIDIMTRYILPNVFAPIIVQATLTVATAIIAEASLSFLGLGQQAPAPSWGSMLNTAKNFLSQAPWMTMWPGIAIFLVVIGFNLLGDGLRDALDPREA	PGPT0004450_10187	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004450-ddpC|appC-K02034	NA	NA
BMS010_05896	1785	ywrD	COG0405	Glutathione hydrolase-like YwrD proenzyme	ATGAATGAATTCACCACACGCCCTGAAATCCTTGGCACCTTCGGCGTCGTCACCTCAACCCACTGGATCGCATCGGCCGTTGGCATGGCGATCCTCGAAAAAGGCGGCAATGCTTTCGACGCGGCCGTCGCCACCGGTTTCGTCCTGCAGATTGTCGAGCCGCATCTGTGCGGCCCCGGCGGAGATATGCCCGCCGTGTTTTATTCGAAGCAGAAGGACAAAGTGGAAGTCATCTGTGCACAGGGCCCGGCCCCGAGCGGTGCGACGATTGAACATTACACGTCGGAAGGGCTGAAGCTGATCCCCGGCGACGGGCTGCTCGCCACCGTCATCCCCGGCGCTTTCGACGGCTGGATGCTGATGCTGCGCGACTATGGCACGATGAGCGTGCGCGACGTGCTGGAACCGGCCATCTACTATGCCGAACACGGGCATCCGACATTGCCGCGCGTCTCCGCCACCATCAAGGGTCTGGCCGCTTTCTTCGAGAAGGAATGGCCGACATCCCACGAGACGTGGCTGCCGGGTGGCGCGGCACCCGAGCCTCACGCCAATTTCCGCAATCCGGTTCTGGCCGCGACCTATCAGCGGATCGTCACCGAAGCCGAAGCGCGCTCCGGCCGTGAAAACCAGATCGAGGCGGCACGCGATGCCTTTTATCGGGGTTTCGTTGCGGAAGTTATCGACGGTTACGTAAGGACAGCGGAAGTCATGGATGCCAGCGGTGCTAAGCACAAGGGCGTGCTGACGGCGCAGGATATGGCGGACTGGAGCGCGACCGTCGAAGCGCCGCAGACGCTCGACTATCACGACTGGACGATTGCCAAGACGCCCGCCTGGGGGCAGGGTCCGGTTCTACTGCAATCGCTTGCGCTTCTGAAAGGCTTCGACATTGCGGCCATGGACCCCTCCGGTCCCGATTTCATCCACACCATCGTCGAAGCCATGAAGCTCGCTTATGCCGACCGCGAGGTCTATTACGGCGATCCGGAATTCGGGCAGATCCCGACGGAATATCTCCTGTCGGAAGGTTACAATGCCGGCCGCCGCGCGCTGATAAGCGGCGAGGCCTCGCTGGAGCTGCGCCCCGGCACCGTGCCGGGTTATGAAAAGCAGGTGGACGCCACCATGGCCATGCTGGCCGAGATGAGCGGCACCGGCACGGTCTACGAGCCGACCATGTCGCATCTGACGGAGAAGCGCGGCGATACGGTGCATATCGATGTCATAGACCGCTGGGGCAACATGGTCTCCACCACGCCTTCCGGCGGCTGGCTGCAATCCTCGCCCATCGTGCCCGGCCTCGGTTTTGCGCTCAATTCCCGCGCCCAGATGTTCTGGCTGAAGGAAGGCCTGCCGACCTCACTTGCACCGGGCAAACGTCCGCGCACCACGCTGACGCCTTCGCTTGCGCTGCATCAGGGTCGTCCCGCGATGGTGTTCGGCACGCCGGGCGGCGATCAGCAGGACCAGTGGCAACTGCCTTTCTTCCTGCGTTATGCCCATCACGGCAAGAACCTGCAGGCCGCCATCGATATGCCGCTGTTCCACACCGCGCATTTTCCGGGTTCGTTTTATCCGCGCACCAGTTCGCCGGGTGAGATCACCGTGGAGAGCACGGTGGGCGAAGCGACCTTGCAGGAGCTTCGCCGCCGCGGGCACCGCGTCACAGTTGCCGATGCATGGTCGGTCGGGCGGCTCACCGCCGCGCGTCGCGATGCGGATGGTCTGCTGCGCGCCGCCGCAACACCGCGGTTGATGCAGGCCTATGCGGTGGGACGGTGA	MNEFTTRPEILGTFGVVTSTHWIASAVGMAILEKGGNAFDAAVATGFVLQIVEPHLCGPGGDMPAVFYSKQKDKVEVICAQGPAPSGATIEHYTSEGLKLIPGDGLLATVIPGAFDGWMLMLRDYGTMSVRDVLEPAIYYAEHGHPTLPRVSATIKGLAAFFEKEWPTSHETWLPGGAAPEPHANFRNPVLAATYQRIVTEAEARSGRENQIEAARDAFYRGFVAEVIDGYVRTAEVMDASGAKHKGVLTAQDMADWSATVEAPQTLDYHDWTIAKTPAWGQGPVLLQSLALLKGFDIAAMDPSGPDFIHTIVEAMKLAYADREVYYGDPEFGQIPTEYLLSEGYNAGRRALISGEASLELRPGTVPGYEKQVDATMAMLAEMSGTGTVYEPTMSHLTEKRGDTVHIDVIDRWGNMVSTTPSGGWLQSSPIVPGLGFALNSRAQMFWLKEGLPTSLAPGKRPRTTLTPSLALHQGRPAMVFGTPGGDQQDQWQLPFFLRYAHHGKNLQAAIDMPLFHTAHFPGSFYPRTSSPGEITVESTVGEATLQELRRRGHRVTVADAWSVGRLTAARRDADGLLRAAATPRLMQAYAVGR	PGPT0002935_1628	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_TAURINE_UTILIZATION,PGPT0002935-ggt-K00681	NA	NA
BMS010_05897	1812	gsiA_7	COG1123	Glutathione import ATP-binding protein GsiA	ATGGAGACAAAACCAGTCCTTTCCGTCCGCAACCTCACCACCTCCTTCCTCGTCGATGGCGCGTGGAAGAGCGTGGTGCGCAACGTGTCCTTCGATGTCGCGCCCGGCGAAACCGTCGCGATTGTCGGTGAATCCGGCTCCGGTAAATCGGTGACGTCGCTGTCTCTTATGCGCCTGCTTGCCCCGGCCTCCAGCCGGATCGAGGGTGAAGTGCTGCTCAACGGGCGCGATCTTCTTGCGCTTTCCGAAAGAGAAATGCGCGGCGTGCGCGGCAACGATATCTCGATGATCTTTCAGGAGCCGATGACCTCGCTCAACCCGATCTTCACCATCGGCCGCCAGATTTCCGAAGTCCTCATCCGGCACAAGGGGCTTTCGAAGCAGGAGGCACGGGCGGAGACGGTGCGGCTTTTGGAAAAGGTTCGCATTCCCAACGCCTCCGGCCGTTTCGATGAATATCCGCACCAGTTTTCCGGCGGTATGCGCCAGCGGGTGATGATCGCCATGGCGCTCGCTTCACGGCCGAAACTACTGATCGCCGACGAGCCGACGACGGCGCTCGACGTAACCATTCAGGGCCAGATCCTCGACCTGATAAAACTGCTGCAGGAAGAGGAGGGCATGTCGGTGCTCTTCATCACGCATGACATGGGCGTCGTGGCCGAAATCGCCGACCGGACGATCGTGATGTATCGCGGCGATGAAGTCGAGACCGGACCGACCGAGGACATCTTCCGGCGTGGCAAGCATCCCTATACGCGGGCGCTGCTTTCGGCGGTGCCGAAGCTCGGCTCAATGCGCGACCGGCAATGGCCGACACGGTTTCCGGTGCTCGACATGAAAACCGGCCTTTCGAGCGAGCCGCAGGAGGTGGCCGGAACAGTTGCGAGCGGGCAGACGCCGGTTCTGTCGGTCCGAAACCTGGTGACGCGTTTTGCCATCCGTTCCGGCCTGCTGGCACGCCAGACGGGTGCGGTTCACGCCGTCGAAAACGTCTCCTTCGATCTGTTTCAGGGTGAAACGCTGTCGCTGGTGGGTGAATCCGGCTGCGGAAAATCCACCACCGGCCGCTCGATCATGCGGCTTGTGGAGCCGACGGCCGGCGACGTGTCGCTCGATGGTTACGACGTGATGCGGCTCGATACGGTCGGCCTGCGCAATATGCGCAAATCCGTGCAGATGATCTTTCAGGACCCGTTCTCGTCGCTCAATCCGCGCATGACGGTGGGCACGGCTATTTCCGAGCCCTTCATCAAGCACAAACTGGGCAGCAGCAGACAGGCGAAGGAAAAGACGGCCGATCTTCTCGAAAAGGTGGGCCTGTCCGCCGATATGGCCAGCCGCTACCCCCATGAATTTTCGGGCGGTCAGCGACAGCGCATCGCCATTGCCCGTGCGCTTGCGCTCGATCCGAAGGTTATCGTCGCCGATGAAAGCGTCTCGGCGCTCGATGTTTCGATCAAGGCGCAGGTCTGCAACCTGCTGCTCGACCTGCAGCAGAGCCTCAACCTCGCTTTCCTGTTCATCAGCCATGACATGGCGGTGGTGGAACGTGTCAGCCATCGTGTGGCGGTGATGTATCTCGGCGAGATCGTCGAAATCGGCCCGCGTGCGGCGGTTTTCGACAATCCACAACATCCCTATACGAAAAAGCTGATGGCCGCCGTGCCGGTGCCGGACCCGGCAAGGCGCGGGATAAGGCGCGGCATATCCAATGACGAGCTGAAGAGCCCGATACGGGCCATGGGATATGAAGCACCGACGCGAAACTACAGGACGGTGTCGCCCGGCCATCTGGTGCAGGTGGCCTGA	METKPVLSVRNLTTSFLVDGAWKSVVRNVSFDVAPGETVAIVGESGSGKSVTSLSLMRLLAPASSRIEGEVLLNGRDLLALSEREMRGVRGNDISMIFQEPMTSLNPIFTIGRQISEVLIRHKGLSKQEARAETVRLLEKVRIPNASGRFDEYPHQFSGGMRQRVMIAMALASRPKLLIADEPTTALDVTIQGQILDLIKLLQEEEGMSVLFITHDMGVVAEIADRTIVMYRGDEVETGPTEDIFRRGKHPYTRALLSAVPKLGSMRDRQWPTRFPVLDMKTGLSSEPQEVAGTVASGQTPVLSVRNLVTRFAIRSGLLARQTGAVHAVENVSFDLFQGETLSLVGESGCGKSTTGRSIMRLVEPTAGDVSLDGYDVMRLDTVGLRNMRKSVQMIFQDPFSSLNPRMTVGTAISEPFIKHKLGSSRQAKEKTADLLEKVGLSADMASRYPHEFSGGQRQRIAIARALALDPKVIVADESVSALDVSIKAQVCNLLLDLQQSLNLAFLFISHDMAVVERVSHRVAVMYLGEIVEIGPRAAVFDNPQHPYTKKLMAAVPVPDPARRGIRRGISNDELKSPIRAMGYEAPTRNYRTVSPGHLVQVA	PGPT0004435_1950	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004435-ddpD-K02031	NA	NA
BMS010_05898	810	suhB_2	COG0483	Inositol-1-monophosphatase	ATGACAGTCAATTACAGCGCTATTCTCGACCACATGGTCGCCACCGCCCGCGAAGCCGGCGCATTGACGCTCAACCATTTCAGGCGCTTCCGCGAGATCGAAATCGGCGTCAAGGGACCCGGGGACTTCGTTTCCGATGCGGACAGGGATTCCGAGACGCTGATCCGCGAGCACCTGCTCGGGCAATATCCCTGGGGACTGACCGGCGAGGAATTCGCGCCCGTCGAAGGGGCGGATAAGGATCACCGCTGGCTGGTCGACCCCATCGACGGCACCACCAATTTCATCTTCGGCCAGCACTATACCATTACCATCGCGCTTCGCCGTGGCAATGAAACGATCTGCGGGCTGGTCTACAATCCCGTTTCCGACGAGATGTTCACCGCGATCAAGGGAGACGGCGCCTATCTCAACGGCGCGCGGCTGCGGGTCAATGCCAGCACCGATGTCGCCCTGATGTGCGTCGGCACCGGCCTGCCAACACCCAATCTCCAGCTTTATCCAGGCGCCTATCAGCGCCTCGACGCCATTCGTGCGCCCATCGGCGCGGTCCGCGTGGTCGGCAGCGCCGCCAATTCCTGCGCTTACGTCGCCTGCGGCCGGCTGACCGGCTATTACGAGGAAACGGGCTTCGTGGACACGGCAGCCGGCGTTCTGCTGGTGCAGGAGGCCGGCGGCATCGTGACCGACTGGTGGGGCCGCGGACCGGAGTTCTATGAAAAGACCGGTACGCTGATCGTCGCCAATGCCGCGACCCACGCCTATCTCATGGAGCACCTGCGCGGCGTTCCGCCCAAGAACCCCGCATAA	MTVNYSAILDHMVATAREAGALTLNHFRRFREIEIGVKGPGDFVSDADRDSETLIREHLLGQYPWGLTGEEFAPVEGADKDHRWLVDPIDGTTNFIFGQHYTITIALRRGNETICGLVYNPVSDEMFTAIKGDGAYLNGARLRVNASTDVALMCVGTGLPTPNLQLYPGAYQRLDAIRAPIGAVRVVGSAANSCAYVACGRLTGYYEETGFVDTAAGVLLVQEAGGIVTDWWGRGPEFYEKTGTLIVANAATHAYLMEHLRGVPPKNPA	PGPT0018535_3498	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018535-suhB-K01092	NA	NA
BMS010_05899	837			hypothetical protein	ATGAACCAGCCGATCCATATCGACCGCGACGGCCACAGAACATGGCTCAAATGGCATCGCGCCCGCCGCCGCGCTGACGATCCAGTCTTTACCGGCGAGCGTATCATCGAGGCGATGCGGCTCGGTGCGAGCATCGAGGTTGACCTTGTCATCCATGCCGATCACGGCTGCGCCGTTTTGCATGACCGGACGCTGGAACGGGAGACCACCGGCACCGGCCGGGTGCGCGATACATCCGCCGCCACCCTGCGTCAGCTCCACCTGCGCGACAATGACGGCCAGCCCATCGATGCGAAGGTAATGCTGCTCGAAGACCTTTGCGCCCTGCTTGCCGAGGGCACCGTTCATCCTGACGCCCTGCTTCAGCTCGATTTCAAGGAAGACCGGCAGGCGCTTACCCCGCAGGTGGTCGCCGGCTTCGGGGCGAGCGTTTCGCCAATAGCAAAGTCGGTGATCCTGTCGGGCGGCGATTTCGACGCCATCGCGACGCTTGCCGGCTCAGCCCCCGGCCTTCGCACCGGATATGATCCCTGCCATCGCGGCACGCTAGCCGCCCTGAAGGCAAGCGGAAACTATCCGAGCTTCATCGCAGACGCCCTTGCCACGGCCCCCGATGCCGACATGATCTACCTCGCCTACGAGATCGTGCTTGCCGCCGAGGATGCGGGTGTCGATATCATCGCCCCCATCCATGCCGCCGGTCGCCGGGTCGACGCGTGGACGATCAACAGCGTCACACCGCAATCCATAGAACAGGTGAAACGCCTCTTGCGGCTTAAGGTGGACCAGATCACCACCGATGATCCGGAAGGGCTCGCCGAGGTTTTCAGCCGATGA	MNQPIHIDRDGHRTWLKWHRARRRADDPVFTGERIIEAMRLGASIEVDLVIHADHGCAVLHDRTLERETTGTGRVRDTSAATLRQLHLRDNDGQPIDAKVMLLEDLCALLAEGTVHPDALLQLDFKEDRQALTPQVVAGFGASVSPIAKSVILSGGDFDAIATLAGSAPGLRTGYDPCHRGTLAALKASGNYPSFIADALATAPDADMIYLAYEIVLAAEDAGVDIIAPIHAAGRRVDAWTINSVTPQSIEQVKRLLRLKVDQITTDDPEGLAEVFSR	PGPT0018470_4576	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
BMS010_05900	1035	cysA_4	COG1118	Sulfate/thiosulfate import ATP-binding protein CysA	ATGTCCGTACTTCACATCCGCCAGGTCACGAAAACCTATTCCGGCGGGACCAAGGCAGTCGACAGTTTCTCGCTCGATGTCGCCGATGGCGAACTCGTCTGCCTTCTCGGCCCTTCCGGTTCGGGCAAATCGACGCTGCTGCGCATGGTCGGCGGCTTCGAGCAGCCGACGGGCGGGCAGATCACCATCGATGGCGAAGATGTCACCCACCTGCCGCCGGAGCGGCGGCCAACCGGCATGGTGTTTCAGAGCCACGCGCTCTGGAGCCATATGAACGTCTTCAAAAACCTCGCTTTCGGCCTCGGGCTGCGCCGCATGCCGGCTGCAGTCATCAGAGAGAAAGTGGAGGCTGTGCTCGAGCTCGTCGGGCTTTCCGGTTATGGCGAGCGCGCCACCAGCCAGCTTTCCGGCGGCCAGCAGCAGCGCGTAGCGCTCGCCCGCTCGCTGGTTCTCGAACCGAAAATACTCCTGCTTGACGAGCCCTTCGCCAGTCTCGACCAGCATCTGCGCGAGCGGCTGCGGGAAGAGCTGCGCGATATTCAGCAGCGTCTCGGCATCACCACGCTGTTCGTCACCCACGGTCAGGATGAGGCCCTTTCCATGGCCGACCGCATCGTCGTGATGGCGAACGGCAAGACCGAACAGATCGACCGGCCGAACGTCATCTATCGCGAACCGCAGACCCCGTTCGTCGCCGGCTTCATCGGCACCATGAACCTGATAGAGGGCGCGGTTTCAGACGGAAACTTCATGCGCGCCGACTTCACCCTGCCGCTCCCCATCTCCGACGGACCGGCCATTCTCGCCGTTCGCCCGGAAGCCATCGATCTGACGATATCCGAAACGCCGGAAGCAAGTGTGCACCGGGTGACGGATTATGGCACCCACGGCCTTGTCGACCTTGATCTCGCCGATGGTACAAGGATCAAATCCATGGTCGCTCACCCGGATATGTTTCAGGCGGGACAGGGCGTACAGATTTCGCCCCGTGCCGTCACGGCCTATCGCGACAACCGCCCAATCTACCGGAGCTGA	MSVLHIRQVTKTYSGGTKAVDSFSLDVADGELVCLLGPSGSGKSTLLRMVGGFEQPTGGQITIDGEDVTHLPPERRPTGMVFQSHALWSHMNVFKNLAFGLGLRRMPAAVIREKVEAVLELVGLSGYGERATSQLSGGQQQRVALARSLVLEPKILLLDEPFASLDQHLRERLREELRDIQQRLGITTLFVTHGQDEALSMADRIVVMANGKTEQIDRPNVIYREPQTPFVAGFIGTMNLIEGAVSDGNFMRADFTLPLPISDGPAILAVRPEAIDLTISETPEASVHRVTDYGTHGLVDLDLADGTRIKSMVAHPDMFQAGQGVQISPRAVTAYRDNRPIYRS	PGPT0007860_3177	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007860-ABC_SP_A|ydcT-K02052	NA	NA
BMS010_05901	825	malG_1	COG3833	Maltose/maltodextrin transport system permease protein MalG	ATGACGACCCTCACGCCGGCGCGAACGCGCATGGACTGGCCCGGCATATTTTTCGCCACCCTTCTCACCGTCGCCATCGTCGGGCCGCTGCTTGTCGTGGGCACCTGGGCATTCACCGAGGTCTGGCGTTTCCCCAACGTCATTCCCCAGCAGTTCGGTTTCCGCTTCTGGGGCCAGACGCTCGGCCGCGCCGATGTCTGGAACGCGCTGATACTGAGCCTGCGGCTGACGACTGTGGTAACGCTGCTTTCAGCGGTGATCTGCCTTCCCGCCGCCTATGCTTTTGCGCGCATGAGCTTTCCCGGCCGCAACCTGCTGTTCTTCTCCTTCCTTGCCGGCCACGCCTTTCCGAAATTCGGGCTTCTGGTGGCGATTGCCGCCATTTTCCTGCAGCTCAACCTCATCGGCACCTTCTGGGGCGTCGTTCTCATCCAGCTCGTCGGCACGCTGATGTTCATGATCTGGATTCCCGTGGCGGCATTTCAGTCCGTCGACCGGCGCATGGAAGAGGCCGCCCGCGATGTCGGCGCCAGTCCGCTCAGGGTCTTCTGGTCGATTACGCTGCCGCAGGCGGGACCGACCATTGCCGCCGCCGTGCTGCTGAGCTTTGTCGGCACTTTTTACGAGACGGAAGGCGCATGGCTGATCGGTGCGCCCGGCATTCGCACCATGCCGGTGCTGATGATCAGCTACATCAACAACCAGATGGTTATCCAGTATGGCGCGGTCCTCTCCGTCCTGCTTTGGGTGCCGTCCTTCATTGCCCTCATGTTCGCCCGCCGCGTCATCGGTGGCGGCGCATTCGCCCGCGGTTTCGGCGGTTAG	MTTLTPARTRMDWPGIFFATLLTVAIVGPLLVVGTWAFTEVWRFPNVIPQQFGFRFWGQTLGRADVWNALILSLRLTTVVTLLSAVICLPAAYAFARMSFPGRNLLFFSFLAGHAFPKFGLLVAIAAIFLQLNLIGTFWGVVLIQLVGTLMFMIWIPVAAFQSVDRRMEEAARDVGASPLRVFWSITLPQAGPTIAAAVLLSFVGTFYETEGAWLIGAPGIRTMPVLMISYINNQMVIQYGAVLSVLLWVPSFIALMFARRVIGGGAFARGFGG	PGPT0007845_1712	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007845-ABC_SP_P|ydcV-K02053	NA	NA
BMS010_05902	885			hypothetical protein	GTGACCGAGGTTGCGGAAGGAGCGGTTCGCCCGCTCATCGACAATACGGCAGGCAGGAGGCCAGTCGGCCTCCTGCTCGTCGCCATCCCCGTGTTCCTGATGATCTGGCTCGTCATCTGGCCTGCCATCAACGCCATCGGCCGCACCGTCTGGCGCACCGGAGCGAACGGTGAAACGGGTTTCGATCTTTCAAGCTACGGCTTCTTTTTCTCGGACCGCTACAGCCTCGACAATCTTGCCGTGACGTTGTGGACGACAATGGTCTGCGCGATCCTCCTGCTCGTAATCTGCCTGCCGATCGCGCTCTACCTGCGCTTTTCGCAAGGCCGCCTTTCGGCTTATGTGCAGGCGCTCGCCATCTTCCCGATGTTCGTGCCTTCCATCATCCTCGCCTTCGCCTTCATCCGCGTTCTCGGACCCAACGGCATGGTGGATATATTGCTCAATGCGGTCGACCTGCCGAAAATCCGCACGCCCTATCTCACCCCGTGGGGACCGGTCATCGGTCTCGTCTGGGACAATATTCCGCTGACCGTTCTCATCCTGCTCGCGGGGCTTGGCAGCGTCGCCAACCAGTCAGTGGAGGCGGCGCGGGATGTGGGTGCAAATGCGCTTCAGGTCTTCTGGCACATCATCCTGCCGCGCATTTCCAATTCCATCCTCGTGGCGCTTTCCTTTTCGGTGCTCGGCATTTTCTCCTCCTTCACCCTGCCCTATCTTCTCGGACCGGCCTCTCCTGAAATGCTCGGCCCCTTCATGCAGCGCACGCTACGCGAAGTGCAGGATCCCATCGGCGCCATGACCCAGGCCGTCATCGCTTTCGGTTTCTGCATCGCATTCGGCCTGTTCTACGTGCGTTCGGTCGCACGCAACCAGGGGAAATGA	MTEVAEGAVRPLIDNTAGRRPVGLLLVAIPVFLMIWLVIWPAINAIGRTVWRTGANGETGFDLSSYGFFFSDRYSLDNLAVTLWTTMVCAILLLVICLPIALYLRFSQGRLSAYVQALAIFPMFVPSIILAFAFIRVLGPNGMVDILLNAVDLPKIRTPYLTPWGPVIGLVWDNIPLTVLILLAGLGSVANQSVEAARDVGANALQVFWHIILPRISNSILVALSFSVLGIFSSFTLPYLLGPASPEMLGPFMQRTLREVQDPIGAMTQAVIAFGFCIAFGLFYVRSVARNQGK	PGPT0007850_2191	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007850-ABC_SP_P1|ydcU-K02054	NA	NA
BMS010_05903	1152			hypothetical protein	ATGAAACGCCGCACCTTTATGATGTCCGCCGCAGGCGCCGCCGCCGGTCTCGCCCTTGCACCGCGCATGAGCTTCGCCGCTCCGGGCACGATCGACTGGTACACCAGTTCGGATACGAATATCCTCGATTTCTGGTCCAATACGATCAAGCCCGCCTTCGAAGCCGCCAATCCCGGCCTGAAGCTCAACCTCGTCGATGCCGGCGACAGCGCGGGCATCACGGCCATCGGCGAGCGCGCCATCGCCGCAAAGCAGACGGGCACCGATCCGCAGGCCGATTATTTCGAAACGGCCGATCCGCTGCTGCCCACCGGCGGCATCGATGCCGGCATCTATGTGAACATGGCGAAAGCCGGCCTCTCCAACTATTCGCGCGTAAACCCGCTCGCCATCCGCAGCGAATACAGCCTGCCCTATCGCGGCAGCCAGGTTCTGCTCGCCTATGACACCAGCAAGCTCAAGCCGGCGGATGCACCGAAGACCTGGGATGAGCTCGTCAAGTGGATCAAGGCCAATCCCGGCCAGTTCGTCTATAACCGTCCCGACAAGGGCGGCTCCGGCGGTAACTTCGTCCGCCGCGCCATCCACCAGGCCAACGGCCTCGACCCCAAGGCCTTCACGGTCGATAATTACACGCAGGAAGCCGGTGACAAGGCTCTCAGCAAGGCATGGGCGCTGCTGAACGATATCGCCCCGTCGCTCTATGACAAGGGTGCATATTCCTCCGGCAACACACAGTCGCTGCAGCTGCTCTCGCAGGGCGTCGTCACCATGACCCCTGTCTGGTCCGATCAGGTGTTGAAGGCCATCGATCAGGGCGTTCTGCCGCAAGAAACTGGCCTCGTCCAGCTTCAGGATCTGGCGCTTTGCGGTGATTTCTCGCGCGCCGTGGTGCTTGCCAACGGCACCAATCGCGACGCTGCCCTGAAGCTCGCCAATTTCGTGCTGTCGGAAGAAATCCAGGGCGCGATCCTCACCGAACTCGGCGGTTTCCCCGGCGTTTCCTGGGACTATGTGCCGGCCGAACTGCGCAAGCGTTTCGCCGACATCATCCCGCAGACAATTCCGACCTTCCCGGCCGGCAAATGGGAAACCGCCATCAATGATGGCTGGTATCGCAACGTCGCTCCCAACGTCGACCGCAAGTCGTGA	MKRRTFMMSAAGAAAGLALAPRMSFAAPGTIDWYTSSDTNILDFWSNTIKPAFEAANPGLKLNLVDAGDSAGITAIGERAIAAKQTGTDPQADYFETADPLLPTGGIDAGIYVNMAKAGLSNYSRVNPLAIRSEYSLPYRGSQVLLAYDTSKLKPADAPKTWDELVKWIKANPGQFVYNRPDKGGSGGNFVRRAIHQANGLDPKAFTVDNYTQEAGDKALSKAWALLNDIAPSLYDKGAYSSGNTQSLQLLSQGVVTMTPVWSDQVLKAIDQGVLPQETGLVQLQDLALCGDFSRAVVLANGTNRDAALKLANFVLSEEIQGAILTELGGFPGVSWDYVPAELRKRFADIIPQTIPTFPAGKWETAINDGWYRNVAPNVDRKS	PGPT0007855_1129	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007855-ABC_SP_S|ydcS-K02055	NA	NA
BMS010_05904	183			hypothetical protein	ATGATTGCAGCCTATATCGACGAACTTATCATGTTCTGTGCCGGCCTATGGATGACATGTGTCGGCTTCGGTTATCTGCCGCTGTCAAAAAACATGGTCAGTCAGCCGCCGGTTGTTCGTCACTTCAGATGGATGGGACCTCTGCTGATCGTTATTGCTGCCGTTCTGGCCGCGGCCAGCTGA	MIAAYIDELIMFCAGLWMTCVGFGYLPLSKNMVSQPPVVRHFRWMGPLLIVIAAVLAAAS				NA	NA	NA	NA	NA
BMS010_05905	204			hypothetical protein	ATGGATTGGAACCGCGTCGAAGGCAACTGGAAGCAGATGAAGGGCAAGGTCAAGGAGCAGTGGGGTAAACTCACCGACGACGACCTCGACGTCATCAACGGCAAGCGCGAACAGCTCGAAGGCAAGATTCAGGAGCGCTACGGTTACGAAAAGGACCGGGCCAGGAAAGACATCGACGACTGGTATGGACGTCAGCCCTGGTAA	MDWNRVEGNWKQMKGKVKEQWGKLTDDDLDVINGKREQLEGKIQERYGYEKDRARKDIDDWYGRQPW				NA	NA	NA	NA	NA
BMS010_05906	327			hypothetical protein	ATGCGCAAGATGATTCTAACCGCCGGATTAATTCTCGGCGCCCTGTTCGGCACCGGCGCCAACGCCATGCCTTTCGGTCAACCGTCTGCACCTTCGGCATCCCACATTCAAAAGGTGGATTATGCCTGCGGACGCGGCTTCCATTTGACCCCGCGCGGCTATTGCCGTCCGAACGGACCGCGTTATGAGCGCGGCTGGGACCGGCGCGACCGCTGGGAAGCTCGCCGTGAATGGCGCGAGCGTCAGGCCAGACGGGAATGGCGTGAGTGGCGCGACCGCAGAGATTATCGCGACTACCGCGATCGTCGCGATTATTATCGATACTGA	MRKMILTAGLILGALFGTGANAMPFGQPSAPSASHIQKVDYACGRGFHLTPRGYCRPNGPRYERGWDRRDRWEARREWRERQARREWREWRDRRDYRDYRDRRDYYRY				NA	NA	NA	NA	NA
BMS010_05907	696	sodB_2		Superoxide dismutase [Fe]	ATGGACATCACCAGACGCACGATTCTCACCGCCGGTGCAGCAACCGCCGCCGCTGCAATCTTTCCCCGCCCGCACGTCGCGCGTGCCGCACTGCCCTTGATGCAGCCCAAACTTCCTTTCGCCGATGCCGATCTCGCGCCAGTGATTTCGGCGAAAACGGTGGGTCTTCATTACGGAAAACACCACAAGGCCTATTACGACAAGCTGAATGCGCTTGCCGCCGGCACGCCCTATGCCGACATGGAGCTTGCAGATATCGTGACGACATCCGCCAAGTCGAAAGAGGCGGCCGACGTCAAGATCTTCAACAATGCCGCACAGGCGTGGAACCATGTCGCCTATTGGGATCAGTTCGTACCGGGCGGGCCGAACCGGCCGACGGGCGATCTCGCCGCTTCGGTAGACGAGACCTTCGGTGGCTATGATGGTTTCATCAAACGTGCGGTCGATGTTTCCGATACGGTCTTCGGCACCGGCTGGGTGTGGCTCACGCGCGGCGACGACGACCGGCTCGCGCTGATCGGATATGAGGACGGCAAAAATCCCGTCGCTGTCGGTCGCCCGGCCTATCTCGGCATCGACATATGGGAGCATGCCTATTACGTCGATTATGAAAATCGCAAGGCCGAGCATATTCGCGCCGTGCTCGACAAGCTGGTCAACTGGCGGGTCGTCGAAGAACGCCTGAAATCATAA	MDITRRTILTAGAATAAAAIFPRPHVARAALPLMQPKLPFADADLAPVISAKTVGLHYGKHHKAYYDKLNALAAGTPYADMELADIVTTSAKSKEAADVKIFNNAAQAWNHVAYWDQFVPGGPNRPTGDLAASVDETFGGYDGFIKRAVDVSDTVFGTGWVWLTRGDDDRLALIGYEDGKNPVAVGRPAYLGIDIWEHAYYVDYENRKAEHIRAVLDKLVNWRVVEERLKS	PGPT0004190_1247	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0004190-chrC|sodB|sodA-K04564	NA	NA
BMS010_05908	990			hypothetical protein	ATGATTTACCGGTCTTCAAAACGGCGCATGGTTTTGAAACTTGCCGCGGCGGCGGTTTCTTTCGGCATGCTGGGAACGGCTGCGGTCGCGCAGGGCTTCCCCGATCGAACGATTACTCTGGTCGTTCCTTTCGCGGCGGGCGGCTCCACCGATGTGGTCGCGCGTGTTATCGCACAGAAGATGGGTGATGAGCTCGGCCAGCAGATCGTCGTTGAAAATGTCGCCGGGGCCGGCGGCAATCTCGGTGCCGACCGCGTGGCCCGCGCCGATCCTGACGGCTATACGATCCTGATGGGAACGGTTGCCACCCACGCCCTCAACCCGCTCATTCTCAAGACCAAGCCTTACGATCCGGAAAAGGATTTCACGCCGGTTTCGCTGCTCGTGGTGGTGCCGAATGTGCTGGTCGTCAATCCGAAGCTCAACGTCAACAGCGTGGCGGAACTGATTGCCCTCTTGAAGGCCGAGCCGGACAAACATGCCTATGCCTCTTCCGGCAATGGCACCCCGCTGCATCTTTCCGGCGAACTGTTCAAGAGCATGGCCGGCGTCAGCATGCAGCATGTTCCCTACAAGGGCGCAGGCCCGGCGCTCAACGATCTGCTTGGCAATCAGATTTCCATCATGTTCGACAATCTGCCGTCTTCGTCCGGACATATCAAATCCGGCACGTTGCGGGCGCTCGGCGTCACGACCAAGGAGCGCGCCTCGTCCTTCCCGGATCTGCCGACAATCGCCGAGACGGTGCCGGGTTATGAGACCTATACCTGGAATGCGCTCTTTGCGCCGGCCGGCACGCCGGCCGAGGTGGTCGACAAGCTGAATGCCGCGGCCAAGAAGGCGCTTGCCGATCCGGGGGTTGCCGCACGCATGGCGGAATTCAGCGCCAAGATCGTCGCCTCTTCGCCGGATGAGCTGAAAACCCACGTCGCGGCGGAAATCGCCAAGTGGGGACCGGTGGTCAAGGACGCGAATGTGCAGATGGACTGA	MIYRSSKRRMVLKLAAAAVSFGMLGTAAVAQGFPDRTITLVVPFAAGGSTDVVARVIAQKMGDELGQQIVVENVAGAGGNLGADRVARADPDGYTILMGTVATHALNPLILKTKPYDPEKDFTPVSLLVVVPNVLVVNPKLNVNSVAELIALLKAEPDKHAYASSGNGTPLHLSGELFKSMAGVSMQHVPYKGAGPALNDLLGNQISIMFDNLPSSSGHIKSGTLRALGVTTKERASSFPDLPTIAETVPGYETYTWNALFAPAGTPAEVVDKLNAAAKKALADPGVAARMAEFSAKIVASSPDELKTHVAAEIAKWGPVVKDANVQMD	PGPT0017360_1711	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017360-tctC-K07795	NA	NA
BMS010_05909	1791	atm1_2	COG5265	ATM1-type heavy metal exporter	ATGACTCGCAAGAAGCTCGATTTCCGCGCCGATGCCTATCGACATGTGCTCGGCTTTGTTTTCAACCATTGGCGTCATCGGCCGGCGCTGGTGGGTTTCATCATCGTTCTGGTGATTGCCAGCACGCTGGCCGAAGTGATGGTGCCGGTCTTTTCCGGCCAGATCGTCGATGCCATTGCCGGTGGCAACGGGGCAGACAAGGCGCTGCGCGCCTTCGTCATTGTGGTGGCGCTGGGGCTGGTGAGCGTTGTGCTGCGCTGGTTCATATTCAACGGCATCATCCGGTTGACGTTGAAAATCATGGCGGATGTCGCCAATAACGGCTTCCACAAGGTGCAGCGCTTCTCCACCGACTGGCATGCGAACAGCTTCGCCGGCTCCACGGTCCGCAAGATCACGCGCGGCATGTGGGCGCTGGATTCGCTCAACGACCTGCTGCTCGTCGCGCTTTTGCCATCCATCGTCATGCTGGTGGGCGCCACCATCGTGCTCGGCAGCTACTGGCCGGTCATGGGCCTGATCGTCGGTCTCGGATCGCTGATCTATATCGGCGTCACGGTCGGCCTTTCCATGGGGTATGTGTCGCCGGCGGCAAGGCTTGCCAATGCCTGGGATACCAGACTTGGCGGCGCGCTGGCGGATGCCATCAGCTGCAATTCGGTGGTCAAGGCCTTCGGTGCCGAGACCCGCGAAGAAACGCGGCTGGGCCATGTGCTGGTGAAGTGGGACAACCGCACGCGCAGGACATGGAAGCGTGGCACGCTGAACGGCACGATCCAAAGCTTCATGATGGTCTCCATGCAGGCCGGCATTCTGGGTACGGGCCTCATCATGTGGCAAAAGGGGCTGGCGACGCCGGGCGACATTACCTTCGTGCTTGCGATGTTCTTCGTGCTGCAGGGTTATCTGCGCGATGTGGGGCAGGATATCCGCAACCTGCAACGCGCCGTCAACGACATGGAAGAGCTGGTGCTGCTGGACAAGATGCCGCTCGGCATCGAGGACAGGCCGGATGCGGGGCCTATCAAAATTGGAAAGGGCGAGATCGTCTTCGATCACGTCACGTTCCAGTATGGCGCGCATCCCACGCCGCTTTACGATGACTTTTCGGTCACCATCAAGGCGGGTGAACGGGTGGGTCTGGTCGGCCATTCCGGTTCGGGCAAGACAACCTTCGTCAAGCTCATCCAGCGGCTTTACGACATCAGGTCGGGCGCGATCCGCATCGACGGCCAGAATATCGCAGGTGTCACGCAATCGAGCCTGCGCGGCCAGATCGCCATCGTGCAGCAGGAGCCCATCCTGTTCCACCGCACGCTGGCGGAAAACATCGCTTACGGCCGGCCGGACGCCACGCGGCGTCAGATCGAGCAGGCGGCGAAACAGGCCAGCGCCCATGATTTCATCATGTCCCTTCCCAAGGGTTATGAGACGATGGTGGGCGAACGCGGTGTCAAGCTGTCCGGCGGTGAGCGTCAGCGTGTCGCCATCGCCCGTGCATTCCTTGCGGATGCGCCGGTGCTGATACTGGACGAGGCCACTTCCAGCCTCGACAGCGAAAGCGAAGTGCAAATCCAGCAGGCGATGGAGCGGCTGATGGTCGGCCGCACCACGCTCGTCATCGCCCATCGGCTTTCCACCGTCAGGGCGCTGGACCGGCTGCTGGTCTTCGACAGGGGCAGGATTGTCGAAGAGGGTGACCATCAGGCGCTGATCCGCCTCAATGACGGCATCTACCGCCGGCTGTTCGAACGGCAGGCGCTGGAGCTGACCAAGGGTCTGGTGGCCTGA	MTRKKLDFRADAYRHVLGFVFNHWRHRPALVGFIIVLVIASTLAEVMVPVFSGQIVDAIAGGNGADKALRAFVIVVALGLVSVVLRWFIFNGIIRLTLKIMADVANNGFHKVQRFSTDWHANSFAGSTVRKITRGMWALDSLNDLLLVALLPSIVMLVGATIVLGSYWPVMGLIVGLGSLIYIGVTVGLSMGYVSPAARLANAWDTRLGGALADAISCNSVVKAFGAETREETRLGHVLVKWDNRTRRTWKRGTLNGTIQSFMMVSMQAGILGTGLIMWQKGLATPGDITFVLAMFFVLQGYLRDVGQDIRNLQRAVNDMEELVLLDKMPLGIEDRPDAGPIKIGKGEIVFDHVTFQYGAHPTPLYDDFSVTIKAGERVGLVGHSGSGKTTFVKLIQRLYDIRSGAIRIDGQNIAGVTQSSLRGQIAIVQQEPILFHRTLAENIAYGRPDATRRQIEQAAKQASAHDFIMSLPKGYETMVGERGVKLSGGERQRVAIARAFLADAPVLILDEATSSLDSESEVQIQQAMERLMVGRTTLVIAHRLSTVRALDRLLVFDRGRIVEEGDHQALIRLNDGIYRRLFERQALELTKGLVA				NA	NA	NA	NA	NA
BMS010_05910	105			hypothetical protein	ATGGATTTCCACCCGATCACAAAGCCGCAACGCCTTGTCATCAGGGGAACCCATATCCATGCCGCATTCCATCACTCTCTCGGACCTGTCGTGGTCGACACCTGA	MDFHPITKPQRLVIRGTHIHAAFHHSLGPVVVDT				NA	NA	NA	NA	NA
BMS010_05911	1608	yheS_4	COG0488	putative ABC transporter ATP-binding protein YheS	ATGCCGCATTCCATCACTCTCTCGGACCTGTCGTGGTCGACACCTGACGGTCATCCGCTCTTTTCTAACATCAATCTTCGCTTCGGACCCGAACGCACCGGTCTCGTTGGGCGTAACGGTGTCGGCAAGACGACGCTTCTGAAACTGATCGCCGGCGAACTGTCGCCGTCCGCGGGCACGGTTTCCGTATCGGGCAGCGTCAATCTTCTGCGCCAGAGCGTGCAGGTTGTGTCCGACGAGACCGTCGCCGACCTGTTCGAAGCGCGCGAGGCGCTGGACGTGCTTGCCCGTGCGCAGGCGGGAACGGCCACTCTGGAAGAGCTTGAAGACATCGACTGGATGCTGGAGGAGAAAATTGCCGGGGCGCTTGCGCAGGTCGGGTTGGACGCCTTACCCTCCACACCGCTTTCGGCGCTATCCGGCGGACAGCGCACGCGGGCCGCACTTGCGGCTCAAATTCATGCCGCGCCGGATTTCCTGATCCTCGACGAACCGACCAACAATCTCGACCGGGACGGACGCATTTTCGTTGCCGATTTTCTGGCGGGCTGGCGCGGCGGAGCGATCGTCGTCAGCCACGATCGGGAGCTTCTCGAAACCCTCGATGCGATTGTGGAAATGACCACGCTCGGCGCCACCCGTTACGGCGGCAACTGGAGCCACTACCGCGCACAAAAAGCGCTGGAACTGGCCGCCGCCGAACAGGACTTTGCGAATGCGGAAAAGCGTCTGTCGGATGTCAAGCGCCGGTCGCAGGAAGCCTTGGAGCGCAAGGCTCGCCGTGATAGCAGGGGTGCTGCAAAAGCGGCGAGGGGAGACATGCCTCGTATCCTTGTCGGTGCGATGAAAAGGCGTGCCGAAAAGACGAGCGGCGACAACGCCAACCTGGCCAGCCGCCTGACAGCCGAGGCGACGGAAGACCTGAAGACGGCGCGTGAGCGGATCGAAATCCTGCAGGGCGTCAGTGTCACATTGCCGCCCAGCGGGCTGCACGCGACAAAAACCGTGCTCAGCCTGCAAAATCTGACCGCAGGGTATCAGGCCGAACACCCCGTTCTTCGCGACCTGTCCTTCGAGATCATCGGGCCGCAACGGGTTGCCGTCACCGGTCCGAACGGATCGGGAAAAACGACGCTGCTTTCGGTGATCACCGGGGAATTGCCGCCATTCGAAGGCGCGGTGCATATCGGGGTGAAGGCCGTGTTTCTCGACCAGCAGGTCAGCCTGCTCGACGCGAGCCTGTCCATCCGCGACAACTTCCTTCGCCTTAACCCTAAGGCCGGGGAGAATGCCTGCAGGGCTGCGCTTGCGCGCTTCATGTTTCGTGCCGATGCCGCGTTGCAGATCGTTTCAACGCTCTCGGGCGGGCAGATGCTCAGGGCCGGTCTCGCCTGTGTTCTGGGAGGCCCGCAGCCTCCGCAATTGTTGATCCTCGACGAGCCGACCAACCATCTGGATATCGATTCCATTGCGGCCGTGGAGGCTGGCCTTCAGGCCTATGACGGCGCCTTGCTGGTGGTCAGCCACGATGAGGCGTTCCTCGCCGCCATTGGCATCGAAAGGCGGCTGGAACTTGGGAAGTCAGAGATGCGTCCGGGCGCTCAGTAG	MPHSITLSDLSWSTPDGHPLFSNINLRFGPERTGLVGRNGVGKTTLLKLIAGELSPSAGTVSVSGSVNLLRQSVQVVSDETVADLFEAREALDVLARAQAGTATLEELEDIDWMLEEKIAGALAQVGLDALPSTPLSALSGGQRTRAALAAQIHAAPDFLILDEPTNNLDRDGRIFVADFLAGWRGGAIVVSHDRELLETLDAIVEMTTLGATRYGGNWSHYRAQKALELAAAEQDFANAEKRLSDVKRRSQEALERKARRDSRGAAKAARGDMPRILVGAMKRRAEKTSGDNANLASRLTAEATEDLKTARERIEILQGVSVTLPPSGLHATKTVLSLQNLTAGYQAEHPVLRDLSFEIIGPQRVAVTGPNGSGKTTLLSVITGELPPFEGAVHIGVKAVFLDQQVSLLDASLSIRDNFLRLNPKAGENACRAALARFMFRADAALQIVSTLSGGQMLRAGLACVLGGPQPPQLLILDEPTNHLDIDSIAAVEAGLQAYDGALLVVSHDEAFLAAIGIERRLELGKSEMRPGAQ				NA	NA	NA	NA	NA
BMS010_05912	951			hypothetical protein	ATGAAGGTCCTGACCCGTACCGCCCTTGCCATCGCCGCTTTCCTCCCGGCTTCACCGGTACTGGCGCAAAGCTGCACCTTCAGCATGTCGGACATGAATTTCGGCTTCGTCAATCTTGCAAGCGGCAGCGCCGTGGACACGACGGCGACATTGTCAGTCACCTGCTCCAACCCCCTGTCGCTGGCGCTTTCCATCCGCATCTGCCCCAACATCAATGCCGGAAGCGGCGGGCAGTCGGGCGGCATCCGTCGCATGCTTCAGGGCAGCAACATCCTCAATTACCAACTCTACCAGAACTCGGCGCGGACAACCTCATGGGGATCGGTCACGCAGCCCGCACTCGGCTCGCCTCCGCCAATCGATATGGCGCTGCCGCTCCTGATCAACACCACGAGCCGTACGGTCTATGGCCGGATCAACGCCGGTCAGGCCTCGGCAGCGCGCGGCCTTTACCTCTCCAGCTTCGCCGGCGCGGAAACGAGCTTCACCTATACGAGCTTTACCCTGCTTGCACCGAGCTGCTCTTCCGTGAACCAGAACCCCACACAGGTGCCGTTCAACGTGTCGGCCGCAGTGGCGCCCACCTGTATCATCTCGGCCCAGAACATCGATTTCGGCAGTCACGGCGTGCTGAACACGGCAGTCAATGCGACCGGAGCGATCAATCTGACCTGCACCACCAATCTGAACTACAGTGTGGCGCTCAATGGCGGCCTGAGCAACAGCCCGCCAGCCGCGCGCCAGATGGTGCAGGCGGGCGCATCGATAACCTATGGTCTCTACCGCGACGTGAACCGCACGAATGTCTGGGGAAGTGCGGCGGGCGAAATAGCCACCGGCACCGGAACTGGCAGCCTGCAGACATTGACCGTCTATGGCCGCGTCCCGGCGCAGAACACGCCAGCGCCGGGAAACTACTCCGATACGGTCGTCGTGACGGTGAACTACTGA	MKVLTRTALAIAAFLPASPVLAQSCTFSMSDMNFGFVNLASGSAVDTTATLSVTCSNPLSLALSIRICPNINAGSGGQSGGIRRMLQGSNILNYQLYQNSARTTSWGSVTQPALGSPPPIDMALPLLINTTSRTVYGRINAGQASAARGLYLSSFAGAETSFTYTSFTLLAPSCSSVNQNPTQVPFNVSAAVAPTCIISAQNIDFGSHGVLNTAVNATGAINLTCTTNLNYSVALNGGLSNSPPAARQMVQAGASITYGLYRDVNRTNVWGSAAGEIATGTGTGSLQTLTVYGRVPAQNTPAPGNYSDTVVVTVNY				NA	NA	NA	NA	NA
BMS010_05913	2439	yehB	COG3188	Outer membrane usher protein YehB	ATGCGACGGCGCGCGTCTCGGGCGGCTGATCTCGCCGTTTTGACGATTGCCGCTCTGACGGTCATTTCATCGGGCAATTTCTCCGTGGCGCAGGATATACCCCCTGCGGCGCAACCGGCCTCTTTTGCCGCAAAAGAAGCGGGACAGTTGCAGCTCGAAGTCTACATCAACGATGTTTCGACAGAACTGATCGCCACATTTCGTCAAAACGACGCCGGATCGTTTCTCATCGAGCCGGAACAGCTCACGAATATCGGGATTTCCCCGGTTGAAAGCGCTGCCGGCGATGATGGCTGGATCGATATTTCCCGGCTGCCGGATGTGGTGGCGCGCTACGATGAAGGCACCCAGTCCATGCATTTCACCCTGCCGATGGCGGCGAGGGCGAACAGGGTGATCGACGCCTCCGGCAAGATTGCGCAGGAAGAAGACGAAGAGACCCAGGAAAAGGCCACGAGCGATTTTGGAGGTCTGGTGAATTACACGATCTATGGTTCATCCGGCGGCAACAAATGGTCGGATATCGCCGATTTCAACGGCGTCTCGGCCCTTTTGGAAAGCAGGGCCTTCGGTCCGCTCGGCGTGCTCTCCTCATCGCAGGTTCTGAGCACATCGCGCCTGTCGGAGTTCGATACCCAGCGTCTCGATACCACCTGGAGCTATTCGGACGAGGACACGCTGACGAGCTATCGGGCCGGCGATCTCATCACCGGCGGGCTGAGCTGGACACGCCCGACACGGTTGGGCGGCCTGCAGATACGCCGCAATTTCGACCTGCGGCCGGATATCGTCACCATGCCGATGCCGGAATTTGCCGGTTCCGCAGCCGTGCCCTCCACCGTCGACGTCTATGTCAACAATGTCCGCCGCCTGTCGCAGGATGTTCCCGAAGGGCCGTTCTCGATCACCAATCTCCCTGTCATCAGCGGCGCGGGCAATGCGCGGCTGGTGGTGCGGGATGCGCTGGGGCGCGAAACCGTGTCCGAAACGCCCTTTTATGCTTCACCGGATCTGCTGGCGCAGGGCCTCATCGATTTTTCGGCCGAACTTGGTTTTGCCCGGCGCAATTACGGAACCTCGTCATTCGATTACGATGACAGACCGCTGGGGTCTGCGACGATGCGTTATGGCGTGTCGGACAGTCTGACGCTGGAAGGCCATGCGGAAGGCGGTGAGAATTTCTACAATATCGGCTTTGGCGGCGTCTTCACCCTTGGAGCGCAGGGACTGGCGGCGGTTTCGGGCGCATCGAGCCGCTTTGGCGCGGAAAGCGGTTATCAGCTCTCCGCAAGCGTCGAAGCGGAATTGCTGGGGGTAAAATTTCACGCACGGTCACAAAGGACATTCGGCGATTATCACGATATGGCCTCTGTCTCCGCCGACCTGTCCGATATCCGCACGGCATCCGGGCTGCTGAGCGCGCGGCCGCCGCGTGCCCTCGACCAGATTTCCGTTTCCACCCAGCTCGGTTTCGATGAGACCAGCCTCAATTTCTCCTATACGGAACTCGAAACATTCGATGAAAGGCGATCCCGGCTGCTCGGCCTTTCCGCCACGCGGCCGTTCGGCGAGAACGGCAATATTTTCATCACCGCCTACAAGGACCTCGAGGACAACAAATCCTACGGCATCTTCGCGGGCCTCTCCTGGTCGTTCGGCGGCGGCGTCTCCGGCTCGGCCGGCATGTCGTCGGATGCGGATGGATATTCGCTGACGGCCGAGGTCGGAAAATCCGAAGAGCAGGCCGAGGGAAGTTATGGCTGGCGACTGCGCGGCTCGACCGGCGGCAACGACATCGCCTCCGTTTCCGGCAGCTACCGCGGCAGCGCCGCGCGCGTTTCGGCCGGCGTCGACCAATTCAACCGCACGACACAGGCCTATGCGCAGATCGAAGGATCGATAGCGGTCGCCGGCGGCGATGTCTTTGTCGGCAACCGGATCGACGACGCTTTCGCCGTGGTGGATGCGGGCGCGCCCGGTGTCGATATCCTTTTGGAAAACCGCCCCATCGGCCAGACCAACCGCCGCGGCAAGATATTGCTTCCGAACCTGCGTTCCTATGACGTCAACAACATCACGCTCGACCCGAGCAATCTTCCGGTCGACGCCCGCATCGACCGGACGAAACAGACCGTCAGGCCGACACAACAGGCCGGCGCGGTGGTCAACTTCAAGGTGGAAACCGAGGGTCAGGTGGCGCTGGTGACGCTGAAAGACGAGAGCGGCCAATTCATCGAAACCGGATCGACCGGCAAAATCGACGGCAAGCGCGATTTCATCGTCGGTTATGACGGACAGGCCTATCTCGACAATATCAGCAAGACGCATCGGCTCCGCATCATGCAGCCGACGAAGGGCGAATGCGAATCCCAGATCACCGTGCCTTCTGCCGGCAATTCACGCGCAACTTTCGAAACACTATGCAGGAGCATCCAATGA	MRRRASRAADLAVLTIAALTVISSGNFSVAQDIPPAAQPASFAAKEAGQLQLEVYINDVSTELIATFRQNDAGSFLIEPEQLTNIGISPVESAAGDDGWIDISRLPDVVARYDEGTQSMHFTLPMAARANRVIDASGKIAQEEDEETQEKATSDFGGLVNYTIYGSSGGNKWSDIADFNGVSALLESRAFGPLGVLSSSQVLSTSRLSEFDTQRLDTTWSYSDEDTLTSYRAGDLITGGLSWTRPTRLGGLQIRRNFDLRPDIVTMPMPEFAGSAAVPSTVDVYVNNVRRLSQDVPEGPFSITNLPVISGAGNARLVVRDALGRETVSETPFYASPDLLAQGLIDFSAELGFARRNYGTSSFDYDDRPLGSATMRYGVSDSLTLEGHAEGGENFYNIGFGGVFTLGAQGLAAVSGASSRFGAESGYQLSASVEAELLGVKFHARSQRTFGDYHDMASVSADLSDIRTASGLLSARPPRALDQISVSTQLGFDETSLNFSYTELETFDERRSRLLGLSATRPFGENGNIFITAYKDLEDNKSYGIFAGLSWSFGGGVSGSAGMSSDADGYSLTAEVGKSEEQAEGSYGWRLRGSTGGNDIASVSGSYRGSAARVSAGVDQFNRTTQAYAQIEGSIAVAGGDVFVGNRIDDAFAVVDAGAPGVDILLENRPIGQTNRRGKILLPNLRSYDVNNITLDPSNLPVDARIDRTKQTVRPTQQAGAVVNFKVETEGQVALVTLKDESGQFIETGSTGKIDGKRDFIVGYDGQAYLDNISKTHRLRIMQPTKGECESQITVPSAGNSRATFETLCRSIQ	PGPT0016040_2355	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016040-fimD|fimC|mrkC|htrE|cssD-K07347	NA	NA
BMS010_05914	720			hypothetical protein	ATGCGTGTTTTTACCTTAGCGGCTGCGTTTTTTGCCGGTTTGAGTGTTTCACCTTCACAGTCTGCATCGCTACGGGTCGCGCCCGTGCTTCTGGATCTCAAAGCGCCCACGGCGGCCTCCAGCCTCCGCATCTGGAACGATGCGAAAACCCCGATCAACGTTCAGGTCAGGATATTCCGCTGGACCCAGCAGAATGGGCAGGACGTCTATACGGCAGCGCAGGACGTCGTCGCCAGCCCGCCGATGACGCAGCTGAAGGGAGGCGCGGAAAACCTTATCCGCATCGTCCGCCTTTCCAAGGCGCCGCTTCGCGCCGAAGAGAGTTACCGCGTCATCGTCGACGAATTGCCGCCGGCGGGAAGACCGCAATCCGGCACGGTCAATCTGGTGGTGCGCCACTCCATACCCGTTTTCTTCTCACCCGCCTCTACAGGCGATGCAGAACCGGCCTGGAAGATAACGCCGCAGGGCAATGGCTACCGGGTCTCGGTGTCCAACACGGGCGCAAAGCGGATAAGGATCGCCAACCTGATGCTTTCCGGTAGCAACGGGCAGGCGCTTGCCCGGCAGCAGGGACTGGTGGGATATGTGCTTGGCGGATCCGCCGCAAGCTTTGTGGTTCCGGCAACGGGCGGCAAGAAAGGCGGCGGCACGCTGAAGATTTCGGCAGACAGCGAAGGCGGCCCCGTCAATGCGACGGCGCGCGTCTCGGGCGGCTGA	MRVFTLAAAFFAGLSVSPSQSASLRVAPVLLDLKAPTAASSLRIWNDAKTPINVQVRIFRWTQQNGQDVYTAAQDVVASPPMTQLKGGAENLIRIVRLSKAPLRAEESYRVIVDELPPAGRPQSGTVNLVVRHSIPVFFSPASTGDAEPAWKITPQGNGYRVSVSNTGAKRIRIANLMLSGSNGQALARQQGLVGYVLGGSAASFVVPATGGKKGGGTLKISADSEGGPVNATARVSGG	PGPT0016035_907	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016035-fimC-K07346	NA	NA
BMS010_05915	498			hypothetical protein	ATGAAGTTTGCAGCATCAGGCTATTTATTATCATTTGCGGCACTGGTCCTTACACCGGCATCGGGCGTCGCGCAGGTCGCCACGACGAATTTCAACGTCCAGATCACCATTCAGGCGGCGTGCCAGATCAATTCCGCCGGCAACCTCAATTTCGGCACCAATGGTGTGATCGGCAGCAATATCGATGCGACCAGCAATATTGTCGTTCAATGCACGGCCAGCACACCCTTCAGCCTGGGTCTCAGCGCCGGTGCCGGCTCGGGGGCGACGGTCGCCAACCGTCTGATGACATCGCCTGCGGGCGCGACCATTTCCTACTCGCTTTATACGACTGCGGCACATAGCACGGTGTGGGGGAACACCGTGGGAACGGACCGGCAAACGGGAACCGGAACCGGGGCGCCGCAGACATTCACGGTCTATGGGCGCGTTCCTGCCCAGACGACACCCGCGGTCGGCGTCTATACCGATACGGTGACGGCCACGCTCAACTACTGA	MKFAASGYLLSFAALVLTPASGVAQVATTNFNVQITIQAACQINSAGNLNFGTNGVIGSNIDATSNIVVQCTASTPFSLGLSAGAGSGATVANRLMTSPAGATISYSLYTTAAHSTVWGNTVGTDRQTGTGTGAPQTFTVYGRVPAQTTPAVGVYTDTVTATLNY	PGPT0016040_3093	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-CHAPERONE-USHER_SECRETION	CE-CHAPERONE-USHER-SECRETION-TYPE_1_PILUS_ASSEMBLY,PGPT0016040-fimD|fimC|mrkC|htrE|cssD-K07347	NA	NA
BMS010_05916	2790	acnB_2	COG1049	Aconitate hydratase B	ATGAACCTTTACTTGGATTACCTGGCTGAAATCAAAAGCAGAGAACCACAGGGTCTCGCGCCCAAGCCGATCGATGACGGTGCGTTGACCGCCGAAATCATCGAACTGATCAAGGATGCAGGTAGCGAACACCGCGCCGATGCCCTGAAGTTTTTCATCTATAACACATTGCCGGGAACCACGAGCGCCGCCGGCGTGAAGGCTGCGTTTCTGAAGCAGATCATCCTCGGCGACGTCATCGTCCCTGAGATCACCCCGACCTTCGCGCTGGAACTGCTGTCGCACATGAAGGGCGGCCCGTCGATCAAGGTGCTGCTCGACATCGCGCTCGGCAACGATGCTGCAATCGCCTCCAAGGCGGGTGAAGTGCTGAAGACCCAGGTCTTCCTTTACGATGCCGACATGTTCCGCCTGCGGGATGCCTACAAGGCCGGCAACGCCATCGCCAAGGCCGTGCTGGAAAGCTACGCCAAGGCCGAATTCTTCACCAAGCTTCCGGATGTCGAAGACGAGATCAAGATCGTCACCTTCATTGCCGCCGAAGGCGATATTTCCACCGACCTCCTGTCTCCCGGCAATCAGGCGCATTCGCGCTCCGACCGCCAGCTGCACGGCCAGTGTATGATCTCGCCGGAAGCGCAGGCGCAAATCGTCGCGCTGCAGAAGCAGCATCCCGACAAGCGGGTGATGATGATCGCCGAGAAGGGCACGATGGGCGTTGGCTCCTCGCGCATGTCGGGCGTCAATAACGTGGCGCTGTGGACTGGCAAGCAGGCCAGCCCCTACGTGCCCTTTGTAAACTATGCCCCCATCGTTGCGGGCACCAACGGCATTTCGCCCATTTTCGCCACCACCGTCGACGTGACGGGTGGCATCGGCGTCAATCTGAAGAACTGGGTGAAGAAGCTCGGTGAAGACGGCAAGCCGATCCTCAACAATGACGGCAACCCCATCCTCGAGCAGAAATATTCGGTCGAGACCGGCACGGTCCTCAAGATCGACGCCAAGAATCGCAAGCTGCGGGACGAAAACGGCACCGAGCTGGTCGACCTCGCTTCGTCCTTCACGCCCCAGAAGATGGAATTCATGAAGGCGGGCAGCTCTTACGCCATCGTCTTCGGCAAGAAGCTCCAGACTTTTGCCGCTGAAACGCTTGGCGTCGAGGCGACCCCTGTCTTTGCACCGAACAAGGAAATTTCGATCGAAGGCCAGGGCCTCACGGCCGTCGAGAAGATTTTCAACCGCAACGCCGTTGGCGTGACGCCTGGCAAGGTGTTGCACGCCGGCTCCGACGTTCGCGTCAAGGTCAACATCGTCGGCTCGCAGGATACGACCGGTCTGATGACCGCGCAGGAACTGGAAGCGATGGCGGCCACCGTCATTTCGCCGCTGGTGGACGGCGCCTATCAGTCCGGCTGCCACACGGCGTCCGTCTGGGACAAGAAGGCTCAGGCCAACACGCCGAAGCTCATGGCCTTCATGCACAATTTTGGCGTCATCACCGGCCGTGATCCGAAGGGCGTCTATCACTCCATGACAGACGTGATCCACAAGGTGCTGAACGACATCACCGTTGATGACCGGGCAATTATCATCGGCGGCGATAGCCACACCCGCATGTCCAAGGGCGTCGCCTTCGGTGCGGACTCCGGCACCGTCGCGCTTGCGCTCGCCACGGGCGAGGCGACCATGCCGATCCCGCAGTCGGTCAAGGTCACCTTCAAGGGAACGATGCAGCCCTACATGGACTTCCGCGACGTCGTGCACGCAACGCAGGCGCAGATGCTGCAGCAGCACGGCGACAACGTGTTCCAGGGCCGTATCATCGAAGTCCATCTCGGAACGCTGCTTGCCGATCAGGCTTTCACCTTCACCGACTGGACGGCCGAAATGAAGGCCAAGGCGTCGATCTGCATTTCCGAAGACGAAACGCTGATCGAGTCGCTGGAGATCGCCAAGTCGCGCATCCAGATCATGATCGACAAGGGCATGGACAACGCCGCACAGACGCTTAAAGGCCTGATTGCAAAGGCGGATCAGCGCATTGCGGAAATCCGTTCCGGTGAAGTTCCAGCATTGAAGCCTGACGCGAATGCGAAATATTTCGCTGAAGTCGTCGTCGATCTCGATGTCATCAACGAACCGATGATCGCCGATCCAGACGTCAACAACAACGACGTTTCGAGACGCTACACGCACGATACGATCCGTCCGGTTTCCTATTATGGCGCTACCAAGAAGGTCGATCTCGGCTTCGTGGGCTCGTGCATGGTGCACAAGGGCGACGTGAAGATCGTCGCGCAGATGCTGCGCAACATCGAAAAGACCGAAGGCAAGGTCGAATTCAAGGCTCCGCTCGTCGTTGCCGCGCCGACCTACAACATCATCGACGAGCTGAAGGCGGAAGGGGATTGGGAAATCCTGCAGAAATATTCCGGCTTCGAATTCGATGATATCAATCCGAAGACAACGAACCGGACCGAATACGAAAACATCCTCTATCTGGAACGCCCGGGCTGCAACCTGTGCATGGGCAACCAGGAAAAGGCGGCGAAGGGTGACACGGTTCTCGCAACCTCGACGCGTCTCTTCCAGGGCCGTGTCGTTGAAGACAGTGCCGAAAAGAAAGGTGAATCGCTTCTGGCCTCGACACCGGTCGTGGTGCTGTCCGCCATTCTCGGCCGTACGCCGAGCATCGAGGAGTATCGTTCCGCCGTCGAGGGCATCGACCTGACGAAGTTCGCTCCGCCGAAGACGACGCCGATCGATTCCCAGTCGGTGCATTACTGA	MNLYLDYLAEIKSREPQGLAPKPIDDGALTAEIIELIKDAGSEHRADALKFFIYNTLPGTTSAAGVKAAFLKQIILGDVIVPEITPTFALELLSHMKGGPSIKVLLDIALGNDAAIASKAGEVLKTQVFLYDADMFRLRDAYKAGNAIAKAVLESYAKAEFFTKLPDVEDEIKIVTFIAAEGDISTDLLSPGNQAHSRSDRQLHGQCMISPEAQAQIVALQKQHPDKRVMMIAEKGTMGVGSSRMSGVNNVALWTGKQASPYVPFVNYAPIVAGTNGISPIFATTVDVTGGIGVNLKNWVKKLGEDGKPILNNDGNPILEQKYSVETGTVLKIDAKNRKLRDENGTELVDLASSFTPQKMEFMKAGSSYAIVFGKKLQTFAAETLGVEATPVFAPNKEISIEGQGLTAVEKIFNRNAVGVTPGKVLHAGSDVRVKVNIVGSQDTTGLMTAQELEAMAATVISPLVDGAYQSGCHTASVWDKKAQANTPKLMAFMHNFGVITGRDPKGVYHSMTDVIHKVLNDITVDDRAIIIGGDSHTRMSKGVAFGADSGTVALALATGEATMPIPQSVKVTFKGTMQPYMDFRDVVHATQAQMLQQHGDNVFQGRIIEVHLGTLLADQAFTFTDWTAEMKAKASICISEDETLIESLEIAKSRIQIMIDKGMDNAAQTLKGLIAKADQRIAEIRSGEVPALKPDANAKYFAEVVVDLDVINEPMIADPDVNNNDVSRRYTHDTIRPVSYYGATKKVDLGFVGSCMVHKGDVKIVAQMLRNIEKTEGKVEFKAPLVVAAPTYNIIDELKAEGDWEILQKYSGFEFDDINPKTTNRTEYENILYLERPGCNLCMGNQEKAAKGDTVLATSTRLFQGRVVEDSAEKKGESLLASTPVVVLSAILGRTPSIEEYRSAVEGIDLTKFAPPKTTPIDSQSVHY	PGPT0001470_73	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001470-acnB-K01682	NA	NA
BMS010_05917	636	cat_2	COG0110	Chloramphenicol acetyltransferase	ATGGAAAATTACTTCGAAAGCCCGTTCCGGGGCATCACGCTTGACAAGCAGGTCAGGAACCCGAACCTCGTGGTCGGGAAATACAGCTATTATTCCGGCTATTATCACGGCCACAGTTTTGAGGATTGCGCCCGTTATCTGCTGCCGGATGAAGGCGCGGACAGGCTGGTGATCGGAAGCTTCTGCTCGATCGGTTCGGGCGCCGCCTTCATCATGGCCGGCAATCAGGGCCATCGCAACGAGTGGATCAGCACCTTCCCGTTCTTCTTCATGCCGGAGGTGCCGGAATTCGAGAATGCCGGCAACGGTTATCTGCCGGCGGGCGATACCGTCATCGGCAACGATGTCTGGATAGGCTCGGAAGCGATCATCATGCCCGGCATCACGGTCGGCGATGGCGCCGTGATCGGAACGCGGGCGCTGGTGACGAAGAATGTCGAACCCTATGCCATCGTCGGCGGCAATCCCGCAAAAACGATCCGCAAGCGGTTCGATGACGACAGCATCGCCCTGCTGCTCGAGATGAAATGGTGGGATTGGCCGGCGGCACGGCTGAAAGCGGCAATGCCGCTTATGACCAGCGGCAATGTCGCCGAGCTTTATCGGTTCTGGCGATCCGATAAGCCGCAGCCGTAA	MENYFESPFRGITLDKQVRNPNLVVGKYSYYSGYYHGHSFEDCARYLLPDEGADRLVIGSFCSIGSGAAFIMAGNQGHRNEWISTFPFFFMPEVPEFENAGNGYLPAGDTVIGNDVWIGSEAIIMPGITVGDGAVIGTRALVTKNVEPYAIVGGNPAKTIRKRFDDDSIALLLEMKWWDWPAARLKAAMPLMTSGNVAELYRFWRSDKPQP	PGPT0028035_299	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-PHENICOL_RESISTANCE,PGPT0028035-catB-K00638	NA	NA
BMS010_05918	327			hypothetical protein	ATGATCGAAAAACTCATGAGGATGCTGGAAGACGGACGGGACAGCCCGCTCCTGCGCTTTTCAATCGCAAAGACGCTCAAGGCGGCCGGGCAGCTCCAAGATGCCGCGCTTCATCTCCAGGAGGCCATCCGGCAGGATCCCGACTATTCGGCGGTCTGGGCCGAACTCGGCGAATGTCGTGCACGGCTGGGAGATGACGACGGCGCCATTGCGGCGTGGGTGGAAGGCATCGCGGTGGCCGTCAGGCGTGGCGACATTCAGGCAAAGAGGCAGATGGCGGTCCGGCTGCGACGTGTGCTGTCACGCGCCCTGAAGGGCGTCAGTTGA	MIEKLMRMLEDGRDSPLLRFSIAKTLKAAGQLQDAALHLQEAIRQDPDYSAVWAELGECRARLGDDDGAIAAWVEGIAVAVRRGDIQAKRQMAVRLRRVLSRALKGVS				NA	NA	NA	NA	NA
BMS010_05919	1080	cra_2	COG1609	Catabolite repressor/activator	GTGACGGGTATAAGTTCCAAGAAAGCCACCATCTATGACTTGTCGATATTGTCGGGCGCATCAGCCTCGACAGTGAGCGCGGTGTTGAACGGATCGTGGCGCAAACGGCGGATTTCGGAGGAGACTGCCGATAAGATTCTCTCGCTCGCCAAGGCGCATCGCTACACCACCAACCTGCAGGCCCGCGGTCTGAGAAGTTCGAAATCCGGTCTCGTCGGGCTTCTGGTGCCCATTTATGACAACCGGTTCTTTTCATCGATGGCGCAGACATTCGAGGGGCAGGCACGCAAACGCGGCCTGTCGCCCATGGTGGTCTCCGGACGGCGCGATCCCGAGGAAGAACGCCGCACCGTGGAGACCCTGATCGCCTATTCCATCGATGCCCTCTTCATTGCAGGCGCGACCGATCCCGACGGCGTGCACCAGGTCTGCGCCCGCGCAGCACTGCCGCATGTCAATATCGACCTTCCCGGAAAATTTGTACCCTCGGTCATTTCCGATAACAGGCACGGTGCGGAGATACTGACATCGGCGATCCTTGCCCATGCGGAAAAAGGCGGGCCTCTCGGCCCTGACGACGTCATCCTGTTCGGCGGTCATGACGACCACGCCAGCCGCGAACGTATCGACGGCTTCCACGCCGCCAAGGCCGCTTATTTCGGGGCGGAGAGCGGAGACGATATCGAGATCACCGGCTATTCACCGCATATGACGGAGCTGGCATTCGAACGCTTCTTCGAGCGCAGGGGCCGCCTGCCCCGCTGTTTCTTCGTCAATTCATCGATAAATTTCGAAGGCCTGCTGCGTTTCATGGGGCGTCATGATGGCGAGGCCTTCGGCGACATCGTTGTCGGCTGCTTCGACTACGACCCTTTCGGGTCATTCCTTCCCTTCCCGGTCTATATGATCAAACCCGATATCGCGCAGATGCTTGAAAAGGGTTTCGAACTGCTCGAAGAGAACCGGACCGAGCCGGAAGTCACCATCATCGAACCGAAGCTCATTCCCCCGCGAACCGCTCTCGAAGGCCCGCTCGACGACATATGGGACCCGGTTGCATTGCGTCGCATGGCGAAGTGA	MTGISSKKATIYDLSILSGASASTVSAVLNGSWRKRRISEETADKILSLAKAHRYTTNLQARGLRSSKSGLVGLLVPIYDNRFFSSMAQTFEGQARKRGLSPMVVSGRRDPEEERRTVETLIAYSIDALFIAGATDPDGVHQVCARAALPHVNIDLPGKFVPSVISDNRHGAEILTSAILAHAEKGGPLGPDDVILFGGHDDHASRERIDGFHAAKAAYFGAESGDDIEITGYSPHMTELAFERFFERRGRLPRCFFVNSSINFEGLLRFMGRHDGEAFGDIVVGCFDYDPFGSFLPFPVYMIKPDIAQMLEKGFELLEENRTEPEVTIIEPKLIPPRTALEGPLDDIWDPVALRRMAK	PGPT0017585_27	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017585-fruR1-K03435	NA	NA
BMS010_05921	1491	rbsA_5	COG1129	Ribose import ATP-binding protein RbsA	ATGAGCGCAGAACCGCTCCTGTCCCTCAAAAATGTCAAAGTCACCTTCGGCGGCGTCCGCGCGCTGAAGGGTGTTTCTTTCGAGGTCAATCCGGGTGAAGTGCATTGCCTTGCCGGCGAAAACGGCTGCGGTAAAAGCACGCTGATCAAGGTCATCACAGGCGTCTATACGCCCGAAAGCGATGCCGAACTTTATTTCGACGGCAAGCAGATCACCGCGATGAATCCGACGCTTGCGCAATCGCTTGGCATCCAGGTGATCTGGCAGGATCTGGCGCTGTTCGATGAAATGACGGTGGCTGAGAATATCGGCTTCCAGTATGCGGTGAATGGAAAATACGGGCTGGTCGACAAGCGCGCCATCGAACAGGCTGCCGAAAAGGCGCTTGCCCGGCTCGGCGTCGAGATCGATCTTGATAAGCCGCTCAAGGAACTGCCTATCGCCCAGCGCCAGATCGTGGCGATTGCCCGAGCGCTGGTCGGGGAAGCGCGGCTGGTTTTCATGGATGAACCGACCGCGTCGCTCACGCAGTCGGAAACGGATTACCTGATCGACATCGTCCGCAACCTGTCGGCCTCCGGCGTCGCGGTCGTCTTCGTCTCGCACCGCCTTGCGGAAGTGCTTGAGATTTCAGACCGCATAACCGTTTTGCGGGACGGGTCGCTTGTCGGTGTCTTTCCCGTCGAAGGCATGACCCAGTCACGGGTGACCGAACTGATGACCGGCCGTAATTTCGACAGCGCCGTCATTGCCGCCGATCACGATGACAAACCCGTCGTTCTCTCGGTGCGCGGGCTGAGCCGGGCCGGCGAGTTCGAGGATGTTTCGTTTGATCTGCGGCGGGGCGAAACGCTTGGCATTACCGGCCTCTTGGGAGCCGGCCGCACGGAACTGGCTTTGACGCTGTTCGGCATGCATCGGCCGCAATCGGGTGAAATCCTGATTGACGGCAAGAAGGTGGATTTTCATTCCAACCGCGATGCGATCCGGGCGGGCGTCGCCTATCTTTCCGAAGACCGGCTGTCGCTTGGCCTCAACCAGCCGCAGTCCATTGCCGACAATCTGGTCATGGCCTCTCTGGACCGGCTGTTGAGCGGCGGCCTGATCTCACCGTCGAAAAAGGCGGATGTCGTTTCCCGCTGGATTTCGGCGCTCGGCGTCAAGATCGGCCTGCCGGAAGATCCGATCCGCACGCTTTCGGGTGGCAACCAGCAGCGTGTGGCGATTGCCAAGTGGCTGGCCATCGGGCCGAAAATCCTCATCCTCGATGCGCCGACCGTGGGGGTCGATGTCGGCGCCCGCGCCGGCATCTTCGAAATCGTCCGCAAGCTCGCCGCAGAAGGTCTTTCGATCATCGTGATCTCCGACGAGCCGCCGGAAGTTTATTTCAATACAGACAAGGTCATCCATATGGTCGAAGGCCGGTTCCACGCCACCTATGATCCGCGACACCTGTCGCTGACCGAACTGGAGTCCGCCATCTATGCGTAG	MSAEPLLSLKNVKVTFGGVRALKGVSFEVNPGEVHCLAGENGCGKSTLIKVITGVYTPESDAELYFDGKQITAMNPTLAQSLGIQVIWQDLALFDEMTVAENIGFQYAVNGKYGLVDKRAIEQAAEKALARLGVEIDLDKPLKELPIAQRQIVAIARALVGEARLVFMDEPTASLTQSETDYLIDIVRNLSASGVAVVFVSHRLAEVLEISDRITVLRDGSLVGVFPVEGMTQSRVTELMTGRNFDSAVIAADHDDKPVVLSVRGLSRAGEFEDVSFDLRRGETLGITGLLGAGRTELALTLFGMHRPQSGEILIDGKKVDFHSNRDAIRAGVAYLSEDRLSLGLNQPQSIADNLVMASLDRLLSGGLISPSKKADVVSRWISALGVKIGLPEDPIRTLSGGNQQRVAIAKWLAIGPKILILDAPTVGVDVGARAGIFEIVRKLAAEGLSIIVISDEPPEVYFNTDKVIHMVEGRFHATYDPRHLSLTELESAIYA	PGPT0017155_936	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_SIMPLE_SUGAR_TRANSPORT,PGPT0017155-ABC_SS_A-K02056	NA	NA
BMS010_05922	1017	rbsC_6	COG1172	Ribose import permease protein RbsC	ATGCGTAGGCTCATCCTTGGACATACAACCGAATTCACGCTGCTTGTGGTCATGGTGCTGCTCTGCACGGGACTGTCCTTCGCCACCGACCGGTTCCTCACCATCTCCAACGCCTTCGATGTGCTGAATGTCTCGGCGGTCAACATCATCTTCGCGGTCGGCCTGCTCGTGGTGCTGATCTCGGGCGGTATCGACATCTCCTTCGCGGTCGCCGCCTCCGTCGTTCAATATGTCACGGTGCTGGCGCTCAATGCGCTGGGTGGCGGCAACTGGGCGGAAGGTTTCATCATTGCCGGCGCGGTTGGCCTTGGTCTCGGTTTCGTCAACGCCTTCCTCGTCTGGCGGCTCAACATCATTTCCATCGTCGCGACCATCTCCACCTTCAACATCTTCTTCGGGCTGTTGATGTTCTTCACCAAGGGCGTGTCGATCTACGACCTGCCCGAATGGCTGTCGACGCGCGTGGTGTTTTACGAGCGCGAGATGTCCGATGGTTCCTGGGTAGAGCTGACACTGCCCGTCGTGGTCATGATCCTCTGCTGCTTTGCCACCTGGTTCATGATTTCCCGCACCACCGTCGGCCGCAAACTTTATGCATTCGGTGACAATCCGGAAGGCGCACGCCGCTTCGGCATCAACATCGGCGCCATGCACTATATTTCCTTCGGCTGGCTCGGTCTGATGGCGGGCATTGCCGGGCTCATGCAGGCGCACTATGCGCAGGAGGTGGTGCCGAACGCGCTTTATGGCCGCGAGCTGGATGTTCTTGCCGCAACCGTGCTTGGCGGTGCGCGGCTTGGCGGCGGCAAGGGCTCCGTCATCGGCTGCGTGCTCGGGGTGCTGATGGTGTCGATTACCCAGAACGGCCTCAACCTGATGGGCGTTTCTCCCTTTGCCTTCAAGATGATCGTCGGTGCCATCATCCTCATCGCCATCACGCTCTCTTCCACCCGCTTCGACAAGCTTTTGCCGAGTGCCTTACGGACATCCGCAAAGAAGGGGAGCGCACAGCGATGA	MRRLILGHTTEFTLLVVMVLLCTGLSFATDRFLTISNAFDVLNVSAVNIIFAVGLLVVLISGGIDISFAVAASVVQYVTVLALNALGGGNWAEGFIIAGAVGLGLGFVNAFLVWRLNIISIVATISTFNIFFGLLMFFTKGVSIYDLPEWLSTRVVFYEREMSDGSWVELTLPVVVMILCCFATWFMISRTTVGRKLYAFGDNPEGARRFGINIGAMHYISFGWLGLMAGIAGLMQAHYAQEVVPNALYGRELDVLAATVLGGARLGGGKGSVIGCVLGVLMVSITQNGLNLMGVSPFAFKMIVGAIILIAITLSSTRFDKLLPSALRTSAKKGSAQR	PGPT0017160_1224	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_SIMPLE_SUGAR_TRANSPORT,PGPT0017160-ABC_SS_P-K02057	NA	NA
BMS010_05923	996	rbsC_7	COG1172	Ribose import permease protein RbsC	ATGAACAATCTCGTTCGGAAATTCAACGCGATTTTCGGTGCCGACATGGCTGGGCCGGTGATTGCTTTCGTCGCGGTCATGCTCATTTTCGGAACCTTTGCCGATAACTTTCTCTCGCTCGCGACATTCGGTTCGGTCGCCTTCCAGCTGCCGGAACTTGGCCTGCTGACACTGGCGATGCTGCTGCCGCTGCTGACGGGCGGCATCAATCTGTCCGTCACCTTCGCCGCCAATCTGTCGGGTCTCGCCGCAGCCTGGGTGTTGCAGGCCCATGGCGGGGTGGATGCGCCGCCGAGTGCATTCCTGTTCGCCTGCCTTGCCGCACTTGTCACCGGCGGCGCTGCCGGCGCGATGACGGGGGCGGCGATTGCCTACACCCGCGCGCACCCCATTCTGGTGACGCTGTCGATGATGATTTTCCTGCGTGGCCTTGGCGAGTTTCTCACCCGTGGCGGAGACGTTTCCGGTTTCCCCACCTATATGGCGCCGCTCGGTCACGGCACACTTCTCGGTCTGCCGATCCCGCTTCTGATTTTCACCGTCTGCGTCGGCCTCTGGCATGTGCTGCTGACGCGAACCAAGCTCGGCTTCGGCCTGTTGATGATCGGCTCGAACATCGAAGCCGCGCGTTATTCCGGCCTCAATACGCGCAAGATTCAGGTTCTCGTCTACACGCTCTCGGGCCTGATGTGTGCGGTTGCCGGCATCATCATGCTTGCCCGTTTCAACTCCGTCCGTGTCGGCCACGGGGAATCCTACCTGCTGATCACGGTGCTGGCGGCCTTTCTCGGCGGCATCAATCCGTTCGGCGGTTTCGGTCGGGTGCTGCCGGTCTTCGTCGCGCTCATCGTTCTGCAACTGCTGTCGTCCGGCCTCAATCTTCTCGGGGCCAACCAGCATCTGGCAACGGCGCTCTGGGGCGTGCTGATGATTGTCGTCATGGCGGCGCGCGGCCTGTTTTCGAGCTACTTCGCATCTCTCAGAAAGAAGGTATGA	MNNLVRKFNAIFGADMAGPVIAFVAVMLIFGTFADNFLSLATFGSVAFQLPELGLLTLAMLLPLLTGGINLSVTFAANLSGLAAAWVLQAHGGVDAPPSAFLFACLAALVTGGAAGAMTGAAIAYTRAHPILVTLSMMIFLRGLGEFLTRGGDVSGFPTYMAPLGHGTLLGLPIPLLIFTVCVGLWHVLLTRTKLGFGLLMIGSNIEAARYSGLNTRKIQVLVYTLSGLMCAVAGIIMLARFNSVRVGHGESYLLITVLAAFLGGINPFGGFGRVLPVFVALIVLQLLSSGLNLLGANQHLATALWGVLMIVVMAARGLFSSYFASLRKKV	PGPT0017160_1588	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_SIMPLE_SUGAR_TRANSPORT,PGPT0017160-ABC_SS_P-K02057	NA	NA
BMS010_05924	849		COG1082	L-ribulose 3-epimerase	GTGAAAGGCTTCGGTGTTCACGCAATGATGTGGTCCCTGAACTGGGACCACGAAAATGCCAGACGGTCCATCGCCGCTGCCGCGGATTACGGTCAGGATTTCATCGAGATTCCGCTTATCGATATCCCCTCCGTCGATGCACAACACACGCGCGCCCTGCTGGAGAAATACGGTTTGCGCGCCGTCTGCTCGCTGGTGCTGCCGGAGCCGGCCTGGGCGTCCGCGCGTCCCGATGCGGCAATCGACCATCTGAATGCCGCGCTCGACAAGGCCGCCGATATGGGCGCGGAAGCGCTGACGGGTGTTACCTATGGCGGCACCAATGAGCGAACCGGATTTCCGCCGACACAGGGCGAATATGACAATCTGACAAGGGCGCTCTCCAGCGCTGCCGGCCACGCAAAAACACTCGGCCTGCAATTCGGTATCGAGACCGTGAACCGCTACGAAAACCATCTGCTCAATTCCGCCGAACAGGCGGTGGCGCTGGTGGAGCGCATCGGTGCCGACAACGTCTTTATCCATCTCGATACTTTCCACATGAATATGGAGGAAAAGGGCATCGCCAATGGCATCATCGCCGCCCGCAACCATCTGAAATACATGCATATGTCGGAAAGCGACCGCGGCACACCGGGTTGCGGCAATGTTGCCTGGGACGAGGTGTTTTCGGCGCTCGCCGCCATCGGCTTCAAGGGTGTGCTGACGCTCGAAAGCTTCGCCGCGATGCCCAGGGAGATGGCCGGCGCGATTTCCACCTGGCGGCCGGTTGCGCCCAGCGCCGATGAGGTTCTCGACAAGGGCCTGGCATTCCTGCGCGACAAGGCAAACCAGTACCGCATTTTCTGA	MKGFGVHAMMWSLNWDHENARRSIAAAADYGQDFIEIPLIDIPSVDAQHTRALLEKYGLRAVCSLVLPEPAWASARPDAAIDHLNAALDKAADMGAEALTGVTYGGTNERTGFPPTQGEYDNLTRALSSAAGHAKTLGLQFGIETVNRYENHLLNSAEQAVALVERIGADNVFIHLDTFHMNMEEKGIANGIIAARNHLKYMHMSESDRGTPGCGNVAWDEVFSALAAIGFKGVLTLESFAAMPREMAGAISTWRPVAPSADEVLDKGLAFLRDKANQYRIF	PGPT0017960_434	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TAGATOSE_DEGRADATION,PGPT0017960-dpe|lre-K18910	NA	NA
BMS010_05925	585	udk_1		Uridine kinase	ATGATTGCGATTGCCGGTGCCCCCGGATCGGGAAAATCAACCATTGCCGAATGCGTGGTCGATGCGTTGAACGCAGGCGAAGGCGTATCGGCTGCCCTGTTTCCTATGGATGGCTTTCATTATGACGATGCCGTTCTGGAAGAGATGAAGCGCCGTCCCTTCAAGGGCGCCATCGATACGTTCGATGCCCACGGCCTGCGTCACATGCTTGAGCGCCTGAAGGCCAATGAGGATGATGTCGTTGCCGTCCCCGTCTTTGACCGCGCCATCGAAATCGCCCGCGCCGGCGGCCGCCTGATCCTGCAATCCGTCGATATCATCGTCTGCGAGGGCAATTATCTCCTCGCCGGCCAGTCGCCATGGGAACGCCTCAAGCCGATCTTCGATCTCACGATTTTCGTTGATGTCGACGAAGACGATCTGCGCGCGCGGCTGCGGGACCGCTGGCGGAGCTTCGGTCTTGGCGAGGACGAGATCAACCGGAAGGTGGAGGAAAACGATCTCCCCAACGGCCGCTTCATCACGTCGACAAGCACGGAGCCGGATATTCGCATCGGAAATCCGGGAAGCAGTTCCGCGTCCTGA	MIAIAGAPGSGKSTIAECVVDALNAGEGVSAALFPMDGFHYDDAVLEEMKRRPFKGAIDTFDAHGLRHMLERLKANEDDVVAVPVFDRAIEIARAGGRLILQSVDIIVCEGNYLLAGQSPWERLKPIFDLTIFVDVDEDDLRARLRDRWRSFGLGEDEINRKVEENDLPNGRFITSTSTEPDIRIGNPGSSSAS				NA	NA	NA	NA	NA
BMS010_05926	870	dpe	COG1082	D-psicose 3-epimerase	ATGAAACACGGCATCTATTATTCCTACTGGGAACATGAGTGGAGCGCCAAGTTCGGCCCCTATATCGAGAAGGTCGCCAAGCTCGGTTTCGATATCATCGAAGTCGCCGCCCACCACATCAATGAATACAGCGACGCCGAACTCGCCGTCATCAGGCAGAGCGCAAAGGATAACGGCATCATCCTCACCGCCGGCATCGGCCCTTCGAAAACGAAGAACCTGTCGTCAGAGGATGCCGCGGTTCGTGCAGCCGGCAAGGCGTTCTTTGAACGCACCCTTACCAATGTCGCCAAGCTAGACATCCACACCATCGGCGGCGCGTTGCATTCCTATTGGCCAATCGATTATTCGCAGCCGGTCGACAAGGCGGGCGATTATGCGCGCGGCGTCGAAGGCATTCACGGCATTGCCGATTTCGCCAATGATCTCGGCATCAACCTGTGCATCGAAGTCCTCAACCGCTTCGAAAACCACGTGCTCAACACGGCGGCCGAAGGCGTTGCTTTCGTCAAGGATGTTGGCAAGAACAACGTGAAAGTCATGCTGGACACCTTCCACATGAATATCGAGGAAGACAGTTTTGGCGAGGCCATCCGTACGGCCGGCCCGTTGCTGGGGCATTTCCATACCGGCGAGAGCAATCGCCGCGTACCGGGCAAGGGCAGGATGCCCTGGCACGAAATCGGCCTCGCCCTTCGCGATATCAATTACACCGGCGCGGTCGTCATGGAGCCTTTCGTCAAGACCGGCGGAACAATCGGCTCCGACATCAAGGTGTGGCGCGATCTCAGCGGCGGCGCCGACCTCGCGAAAATGGACGAGGATGCCCGCAATGCCCTGGCATTTTCCCGTTTCGTGCTTGGCGGCTGA	MKHGIYYSYWEHEWSAKFGPYIEKVAKLGFDIIEVAAHHINEYSDAELAVIRQSAKDNGIILTAGIGPSKTKNLSSEDAAVRAAGKAFFERTLTNVAKLDIHTIGGALHSYWPIDYSQPVDKAGDYARGVEGIHGIADFANDLGINLCIEVLNRFENHVLNTAAEGVAFVKDVGKNNVKVMLDTFHMNIEEDSFGEAIRTAGPLLGHFHTGESNRRVPGKGRMPWHEIGLALRDINYTGAVVMEPFVKTGGTIGSDIKVWRDLSGGADLAKMDEDARNALAFSRFVLGG	PGPT0017960_220	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TAGATOSE_DEGRADATION,PGPT0017960-dpe|lre-K18910	NA	NA
BMS010_05927	996			hypothetical protein	ATGATCCCTGTCGCACTCCCGTCCGTCGAAGCGTTGCTTCTCCTTGCCTTCTTGTTCATCACGACCTTCGTATGGATCGTCTGGACGTTCCTGCTGTTCGTACGATATGTGGCAGGCCGCTGGAAGCGCCCCACGATCCTGCCCTATGGGCTGGTAACCGCCGTCGCGCTTTTCACCCTCTTTCGGTTCGGTGATTTTTATCTCCAGATGCGCGCCTATGACAAAGAGAGGACGGCAAGCCATCGGCCGGAACTGCAAGAGCCGGCGCGCCTTGGCCAGATCGATATGCCCAAGGGCACCAAACTCGAACTGGCAATTGCCAATAACAGGGAAGCCTTCGACCGGGCCGTGTTTCCGCATGCGGTGCGGGTGGCGGATATCGATGCCGTCGAAATCGCCCGTTATATCTCGATAAAAACCAACGATAATTATGAAACGGTGGGCTTTACCCCGCAGACTATGCGGATCACCGGCAACGGCGTGACCAGCCAGAACGGCTGGCGCTGCGATGCGACGCAACCGGTGGAATTCGATCTTTCGCCCGATGGCGGCATCTCCGCCTTCAGCAACTGCACTCTTTCCGATGGCAATGTTGTCGACGGCATCACCCTGCCTAAAGGCACGTCCCTGCGTGCCTCCACCGGCAATGTCTATATTGATGGCTTCGTCGATTCCGATCGATGGGTTCTCGATACGGCGCAGGGCGAGACCGTTCACATCGACAGGTTCGATCTTTCCGAGGCAACGCTTGCCCTTGATGGCGAGCGAAAACTCCACGAGATCAAAAGAGGTGTCCTGTCAAAAGACGCAACGCTCGGGACGCTTCACCATGCCGCCGGAACCAGTATTCGTTACAATCCCCGGCATCTTCGCAACGACTATCCCGGCGCGTGGTTGATAATCCCGCCCCTGCCAGCTGCCGATGCTCCACCGGTTCCGTCGCATGATATCGTGCAAGGCAGGGACGGAAAGGTTCTGTCCTCCGCCGCTGACTGA	MIPVALPSVEALLLLAFLFITTFVWIVWTFLLFVRYVAGRWKRPTILPYGLVTAVALFTLFRFGDFYLQMRAYDKERTASHRPELQEPARLGQIDMPKGTKLELAIANNREAFDRAVFPHAVRVADIDAVEIARYISIKTNDNYETVGFTPQTMRITGNGVTSQNGWRCDATQPVEFDLSPDGGISAFSNCTLSDGNVVDGITLPKGTSLRASTGNVYIDGFVDSDRWVLDTAQGETVHIDRFDLSEATLALDGERKLHEIKRGVLSKDATLGTLHHAAGTSIRYNPRHLRNDYPGAWLIIPPLPAADAPPVPSHDIVQGRDGKVLSSAAD				NA	NA	NA	NA	NA
BMS010_05928	780	glnQ_8		Glutamine transport ATP-binding protein GlnQ	ATGACCAACAACACGAACCAGCCACTGATCGAATTTTCCGATGTCACGAAACGCTTCGGCATTCTGACGGTGCTCGACCAGTTCAATTTCAGCGTGGCGAAGGGCGAAAAAGTCACCCTCATCGGTCCTTCCGGCTCCGGCAAATCAACGGTTCTGCGCATTCTCATGACGCTGGAGCCATTCCAGGAGGGAAAGCTGACCCTTGCGGATATGTCCTACCATGAGCCAGGCGGCAAAGGACCATTCAAGGCCTCGGAAAAACATCTGCGCCAGATCCGCAACCACGTCGGCATGGTGTTCCAGAGCTTCAATCTCTTTCCCCATATGACCGTCCTTCGCAATATCGTGGAGGCGCCCGTGCGGGTCCTGGGCATCGGCCGGGCAGAGGCGGAGGCGCGCGCAATCGAATTGCTGAAGATGGTCGGGCTGGCGGATAAGAAGGATCATTATCCGGTGCAGCTTTCCGGCGGGCAGCAGCAGCGTGTCGCCATTGCCCGCTCGCTTGCCATGCGTCCGCGTGTCCTGCTTTTCGATGAGCCGACCTCGGCGCTCGACCCGCAACTGGTGGGCGAAGTGCTGTCCGTCATCCGCGACCTGGCCCATGAGCACGACCTGACGATGCTTCTCGTCACCCACGAAATGCGTTTTGCCCGGGAAGTCTCGGACCGCGTGTGTTTCTTCGATAAGGGCCGCATCTGCGAACAGGGAAAACCGGACGAGATTTTCGGCCAGCCGAAAGAAGAACGCACACGCGAATTTCTCGCTTCCGTCTTACGGTGA	MTNNTNQPLIEFSDVTKRFGILTVLDQFNFSVAKGEKVTLIGPSGSGKSTVLRILMTLEPFQEGKLTLADMSYHEPGGKGPFKASEKHLRQIRNHVGMVFQSFNLFPHMTVLRNIVEAPVRVLGIGRAEAEARAIELLKMVGLADKKDHYPVQLSGGQQQRVAIARSLAMRPRVLLFDEPTSALDPQLVGEVLSVIRDLAHEHDLTMLLVTHEMRFAREVSDRVCFFDKGRICEQGKPDEIFGQPKEERTREFLASVLR	PGPT0020790_1723	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020790-ABC_PA_A-K02028	NA	NA
BMS010_05929	693	artQ_2	COG0765	Arginine transport system permease protein ArtQ	ATGATGTATGGTTACGAATGGGACACAACCACCTGGCTCACCTACACGACCTCCATCCTGCCGATCATCCTGATAGGCCTGACGGTGACGCTGAAGGCCGCCGCCGCCGGCTTTGCCATCGCGCTGGTTCTGGGGCTCGTCTTCGCGCTGCTGCGCCGCAGCCGTGTCAGGATGATCTCCTGGCCGACCGCGCTGGTTGTCGAGTTCCTGCGCGATACGCCGCTTCTGGTGCAGCTGTTCTTTCTCTATTACGTGCTTCCGGATTTCGGCATTGTTCTGCCGGCGTTTCTCACCGGCGCGCTGGCGCTCGGCCTGCAATATGCCGCCTACACGTCCGAGGTCTATCGCGGCGGCATAGAGGCAGTGCATCACGGGCAATGGGAAGCGGCGACGGCGCTTAATCTCACACGCATGCAGACCTATCGGGATATCATCATCCCGCAGGCCATTCCGCGCATCGTTCCGGCCATGGGCAACTACCTCGTCGCCATGATCAAGGAAACGCCGGTGCTTTCCGTCGTCACCGTGCTGGAGATGATGGGGCTTGCCAATATGATCGGCGAGCGCACCTTCGAATATCTGGTGCCGCTGACGCTTGTGGGCCTGATCTTCCTCCTTCTGACCATAATCTGCTCGGCAGGCCTCAGCCGCCTGCAAAGGGCACTTCCAAAAGCAGGAATACCCTTGCGATGA	MMYGYEWDTTTWLTYTTSILPIILIGLTVTLKAAAAGFAIALVLGLVFALLRRSRVRMISWPTALVVEFLRDTPLLVQLFFLYYVLPDFGIVLPAFLTGALALGLQYAAYTSEVYRGGIEAVHHGQWEAATALNLTRMQTYRDIIIPQAIPRIVPAMGNYLVAMIKETPVLSVVTVLEMMGLANMIGERTFEYLVPLTLVGLIFLLLTIICSAGLSRLQRALPKAGIPLR	PGPT0020795_6042	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
BMS010_05930	666	glnP_3	COG0765	Glutamine transport system permease protein GlnP	ATGGACATGACTGCCTATCTGCCAATGTTGTGGCAAGGTGCCGTCGTCACCATGACGATTACGCTCGCAGCCCTTGTCGTCGGCACGGTGCTCGCCTTTTTCTTCGGCATTCTGCGCGTCGAGGGTGGACCGATCCTGTCGACCGTCGCGCTTTGTTACACGGAAGTGTTCCGCGGCACCTCGCTGCTGGTGCAGCTTTTCTGGTTCTATTATGCCCTGCCGCTGGTCGGGCTGAGCTTCGATCCGATTACCACCGGCGTGCTGGTGCTTGCCGCCCATGCCGGCGGTTATGGCGCCGAGATCGTGCGCGGCGCACTGTCTTCCGTTTCGGTGCAGCAGCTGGAGGCCGCGAGGGCGCTGAATTTCACGCGGATGCAGACGCTGTTTCGCATCTCGCTGCCGCAGGCCGTTGTCGAGATGATGCCGGCCTTCGGTAATCTCGCCATCGAAACGCTGAAGCTTTCATCGCTTGTGTCGCTTATCTCGATTGCCGACCTCACCTTTGCCGCGCAGTCGATCCGCAACCTGACGCTGGATAGCGCCAGCATCTATTCGGTCACGCTGCTTTGTTATTTTGCGATGTCGCTGATCCTGATGGTCCTCATCCGGGTGATCGAACGCTTCGTGCGCCGCGGCAACGTCTTCCCGCGCACCCGCCATTCGTAA	MDMTAYLPMLWQGAVVTMTITLAALVVGTVLAFFFGILRVEGGPILSTVALCYTEVFRGTSLLVQLFWFYYALPLVGLSFDPITTGVLVLAAHAGGYGAEIVRGALSSVSVQQLEAARALNFTRMQTLFRISLPQAVVEMMPAFGNLAIETLKLSSLVSLISIADLTFAAQSIRNLTLDSASIYSVTLLCYFAMSLILMVLIRVIERFVRRGNVFPRTRHS	PGPT0020795_8182	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
BMS010_05931	852	argT_3	COG0834	Lysine/arginine/ornithine-binding periplasmic protein	ATGCACATTACCAGACTTGCCGGGCTTTCCGCCCTCGCGCTTACCATCGGCGTGACGTCCGCCAGCGCCCTGACACTCGAGGAAGTCAAAAGCCAGGGCTATATCCGCGCCGCAACGGCCAATGAAGTGCCCTATTCCTACATGCAGCCAGACGGCACCTCCGCCGGCATCGGCCCCGATGTGGCCAACGCGGTTCTGAAATCGATGGGTATCGAGGAGGTCAACTGGACGGTGACGCCCTTCGGCACGCTGATCCCCGGCCTCAAAGCCCGTCGCTTCGATTTTGCGGCCGCCGAACAGAACATATCGCCCGAGCGCTGCAAGCAGGTCGCCTTCACGGAACCGAACTCGTCCTATGGCGAAGGCCTGCTGGTGAAGAAGGGCAATCCGAAAAAACTCACCACCTATGCCGATATCGCCAAGGACCCCTCGCTGAAGGTGGCCGTCGTGTCGGGCGCGAACAATGTCGACTTCCTGCGGGCGGTCGGCGTCAAGGAAGAGCAGATCGTCTTCATCCCCGCCAATGCCGATGCCATTCCCACCGTCCAGAGCCGCGCCGACGCCTACGCCGCGACGGAACTGACGGTTTCGGAACTCGCCAAGGGACAAGCCAATGTCGAGCAGGTCGAGCCTTTCACCGATCCGGTCGTGAAGGATGCGCCCGTGCGTAACTACGGCGGTTTCGCTTTCCGCCCGGAAGACAAGGAGCTGCGTGACGCCTTCAACGCCGCACTCGTCGAATTCCGCAAGACCGACGATTACAAGAAAATCCTCGCCAAATATGGCCTCTCCGAACAGAGTATTGCGGCGGCGGCCGAAAAGAAGGTCGCCGATCTCTGCGCCGGCAAATAA	MHITRLAGLSALALTIGVTSASALTLEEVKSQGYIRAATANEVPYSYMQPDGTSAGIGPDVANAVLKSMGIEEVNWTVTPFGTLIPGLKARRFDFAAAEQNISPERCKQVAFTEPNSSYGEGLLVKKGNPKKLTTYADIAKDPSLKVAVVSGANNVDFLRAVGVKEEQIVFIPANADAIPTVQSRADAYAATELTVSELAKGQANVEQVEPFTDPVVKDAPVRNYGGFAFRPEDKELRDAFNAALVEFRKTDDYKKILAKYGLSEQSIAAAAEKKVADLCAGK	PGPT0020800_5182	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_05932	1014	doeB_2	COG3608	N-alpha-acetyl-L-2,4-diaminobutyric acid deacetylase	ATGTTGAAGACCGCGCTTCGCCCCTCGCCGATCACGCCCACCGTCGATTTTGACGCGAAGGGCGTGCAGCACGGTCATCTGCGGCTGCCATACAGCCGCGATGACAGCGCCTGGGGTTCGGTGATGATTCCGATCTGCGTCATCGCCAATGGCGAAGGGCCGACAGCCCTTTTGACCGGCGCCAATCATGGTGACGAATATGAGGGACCGGCAGCACTCTTCGAACTCGCCCACACGCTTGATCCGGCAGACGTGAACGGGCGCGTCATCATCGTGCCGGCGCTCAACTATCCGGCCTTTCGGGCGGGCACACGCACCTCGCCCATCGACCGGGGAAACCTGAACCGCAGCTTTCCCGGCCGCCCTGACGGCACGGTGACGGAGAAGATCGCCGACTACGTGACCCGCCATCTGATACCGCTTGCGGATATCGTTCTCGACTTTCATTCCGGCGGCAGGACGCTTGATTTCCTGCCCTATGCCGCAGCCCACGAATTGCCCGACAAGACGCAGGAGGCCCGGTGTTTTGAAGCGGTGGCGGCTTTTGCTGCCCCCTATTCGATGAAGATGCTGGAAATCGATGCCGTCGGCATGCTCGACACAACAGTCGAGGAGATGGGCAAGGTCTTTGTCACGACCGAACTTGGCGGAGCCGGCACGGCGAGCGCAAGATCGATCGACATCGCCCGGAAAGGCACCGTCAATCTGCTGCGCCATGCCGGCATCCTCGCCGGCGCACCGGTGCCAGCGCCAAGCCGCTGGCTGGATATGCCATCCAGCGATTGCTTCACCTTTGCCGAAGACGACGGGCTTGTCGCCTTTGTCCGCGATCTGGGAGACGCGGTCACGGCGGGTGAAACAATCGCCCGGGTTTATCCTGTCGGCAAAACCGGCCTCGCGCCGGTCGATTACCGCGCCTCCATCAATGGCGTGCTTGCCGCGCGCCATGTTCCCGGCCTCATCAAGGCCGGCGACTGCCTTTCCGTCATCGCCACGGTCACGGAGAATATCTAG	MLKTALRPSPITPTVDFDAKGVQHGHLRLPYSRDDSAWGSVMIPICVIANGEGPTALLTGANHGDEYEGPAALFELAHTLDPADVNGRVIIVPALNYPAFRAGTRTSPIDRGNLNRSFPGRPDGTVTEKIADYVTRHLIPLADIVLDFHSGGRTLDFLPYAAAHELPDKTQEARCFEAVAAFAAPYSMKMLEIDAVGMLDTTVEEMGKVFVTTELGGAGTASARSIDIARKGTVNLLRHAGILAGAPVPAPSRWLDMPSSDCFTFAEDDGLVAFVRDLGDAVTAGETIARVYPVGKTGLAPVDYRASINGVLAARHVPGLIKAGDCLSVIATVTENI	PGPT0014047_125	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014047-doeB-K15784	NA	NA
BMS010_05933	1179	doeA_3	COG0006	Ectoine hydrolase	GTGAGCGTAACGCTGAACTTTACGCGCGAGGAATATGCCGCGCGCCTGTCCAAAACACGTAAAGCCATGGAAAAGGCCGGGCTCGATCTTCTGGTCGTCACCGACCCGTCCAACATGCATTGGCTGACCGGCTATGACGGCTGGTCCTTCTATGTGCATCAATGCGTGCTGGTGCCGCCGGAAGGCGAGCCGATCTGGTACGGCCGCAAGCAGGATGCCAACGGCGCCAGACGCACAGCCTATCTCGCCCACGACAATATCATCGGCTATCCGGATCACTATGTTCAATCGACCGAACGGCACCCGATGGACCTGCTGTCTGAGATCATCGAGGAGCGCGGCTGGTCCGGCCTGACGGTCGGTGTCGAGATGGATAATTATTATTTCTCGGCAGCCGCCTTCGCGTCTCTGCAGAAACATCTGCCAAACGCCCGTTTCAAGGATGCCGCCGGTCTCGTGAATTGGCAGCGCGCGGTGAAAAGCCCGACCGAACTCGACTATATGCGCAAGGCCGGCAAAATCGTCGAGCTGATGCACAAACGTATTGTCGATGTCGTTGAGCCGGGCATGCGCAAATGCGATCTCGTGGCCGAAATATACGATGCCGGCATTCGTGGAACCGCCGAATTCGGCGGCGACTATCCCGCCATCGTGCCGCTGCTTCCTTCGGGTGCCGATGCCTCCGCCCCGCATCTGACATGGGACGACAAACCGATGCGCTCAGGCGAAGGTACTTTCTTCGAAATCGCCGGCGCTTACCGACGTTATCATTGCCCGCTGTCGCGCACCGTCTTTCTCGGCAAGCCGACACAGGCGTTTCTCGATGCGGAAAAGGCGACTCTAGAGGGCATGGAAGCCGGTCTTTCCGCAGCTAAGCCGGGCAACACCTGCGAGGACATCGCCCATGCCTTTTTCGCCGTGCTGAAGAAATACGGGATCATCAAGGACAACCGCACCGGCTATCCGATCGGCCTCTCCTATCCGCCGGACTGGGGCGAGCGCACCATGAGCCTTCGCCCCGGCGACCGCACGGAGCTGAAGCCCGGCATGACATTCCATTTCATGACCGGTCTCTGGCTGGAAGACATGGGCCTCGAAATCACCGAAAGCATCGCCATCACTGAAACCGGTGTCGAATGCCTTTCCAATGTGCCGCGGCAACTCTTCGTGAAGGGCTGA	MSVTLNFTREEYAARLSKTRKAMEKAGLDLLVVTDPSNMHWLTGYDGWSFYVHQCVLVPPEGEPIWYGRKQDANGARRTAYLAHDNIIGYPDHYVQSTERHPMDLLSEIIEERGWSGLTVGVEMDNYYFSAAAFASLQKHLPNARFKDAAGLVNWQRAVKSPTELDYMRKAGKIVELMHKRIVDVVEPGMRKCDLVAEIYDAGIRGTAEFGGDYPAIVPLLPSGADASAPHLTWDDKPMRSGEGTFFEIAGAYRRYHCPLSRTVFLGKPTQAFLDAEKATLEGMEAGLSAAKPGNTCEDIAHAFFAVLKKYGIIKDNRTGYPIGLSYPPDWGERTMSLRPGDRTELKPGMTFHFMTGLWLEDMGLEITESIAITETGVECLSNVPRQLFVKG	PGPT0014046_428	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014046-doeA-K15783	NA	NA
BMS010_05934	1014	ala_2		Alanine dehydrogenase	ATGAGCCGCATCACCATCCTGACCGAAAAAGACCTTCGCGGTGTCATCCAGCTCGACCTTTCCGCTGTCGACTGCGTGGAGCGGGCCTTTGCGGCGCTCGCAACGCAAGCCGTTGCCATGCCGCCGATCCTGCGGCTCGATATTCCGGAGTTTCGTGGCGAAGTGGATGTGAAGACGGCCTATGTGCCGGGCTTTGACGGTTTCGCCATCAAGGTCAGCCCCGGTTTCTTCGACAATCCGAAACTCGGTCTGCCCAGCCTCAATGGCCTGATGATCCTCTTCAGTGCGAAGACCGGACTGGTGGAGGCCCTTCTCCTCGACAATGGCTATCTTACCGATGTGCGGACCGCCGCGGCTGGTGCTGTCGCAGCGCGGCATCTGGCCCGCAAAGACGCGTCCGTCGCCGCAATCTTCGGGGCGGGCATGCAGGCCCGTTTGCAGCTTGAAGCCCTGATGCTGGTGCGCCCGATCAGATCGGCACGGATATGGGCACGCGACCATGACAAGGCCAAGAGACTTGCGGGCGATTTCGCCAGCGAACACGGCATCGAAGTCACCGCCATGGCCGATCCGCAGGCCGCCGCGCGGGGTGCCGATATCATCGTGACAACGACACCAGCCGAAAGCCCGATCCTCTTTGCCGACTGTCTGGAAGAAGGCCAGCATCTGACAGCCATGGGATCGGATGCCGAACACAAGAACGAGATCGATCCGGCCGTATTCGCCAGAGCACATTATGTCGCGGACCGCATCTCGCAGACCCGCATTCTCGGTGAGTTGCGTCACGCCATCGCCGCCGGCCACGCCGCGTCGAATCAGCACTTCGCCGAACTTGGGGACGTCATTGCCGGCAAGGTGCAGGGCCGCATGTCGAGCAAGGACATCACCTTTGCCGATCTGACCGGCACCGGCGTGCAGGACACGGCTATCGCCAATCTCGCCTTTGCCCGCGCAAAGGAAGCCAAGAGCGGTCAAACAATCGAAAACAGAGTAAAAATGGGAGACGCAGCGTGA	MSRITILTEKDLRGVIQLDLSAVDCVERAFAALATQAVAMPPILRLDIPEFRGEVDVKTAYVPGFDGFAIKVSPGFFDNPKLGLPSLNGLMILFSAKTGLVEALLLDNGYLTDVRTAAAGAVAARHLARKDASVAAIFGAGMQARLQLEALMLVRPIRSARIWARDHDKAKRLAGDFASEHGIEVTAMADPQAAARGADIIVTTTPAESPILFADCLEEGQHLTAMGSDAEHKNEIDPAVFARAHYVADRISQTRILGELRHAIAAGHAASNQHFAELGDVIAGKVQGRMSSKDITFADLTGTGVQDTAIANLAFARAKEAKSGQTIENRVKMGDAA				NA	NA	NA	NA	NA
BMS010_05935	1020	tdcB_2		L-threonine dehydratase catabolic TdcB	ATGACAATCATGAAGAGCGAAAACCTGTCCACATCCGCCGACAAAACCCTGCTTCCGGTCTCGCTGACCGCGATAGAGCAGGCAGCTGCGCGGCTTGCCGGACAGGTGGAGCGAACACCTTTGGTTCGCTCGGACAATCTGTCCGAACGCTGTGGTTCTCCCGTTCATCTGAAACTTGAAACCCTTCAGCCCATCGGCGCCTTCAAACTGCGCGGCGCGATGAACGCCATACTCTCGCTTGACGATGAGGCACGCAGGCGTGGCCTCGTCACGGCCTCGACCGGCAATCATGGCCGGGCCGTGGCTTATGCGGCACGCAAGCTCAGAATTCCCTCCACGATCTGCATGTCGGCACTCGTACCGGCGAACAAGGTTGAGGCGATCCGCGCGCTCGGTGCGGAGATCCGGAGCGTCGGCAGGTCACAGGATGACGCGCAGGAGGAAGCGGAGCGCCTGAACAAGAATCTCGGCCTGACCGCAATCCCGCCATTCGATGATGCTGACGTCGTGGCCGGCCAGGGCACGATCGGTCTCGAGCTTGTCGAAGACATGCCGGGACTGACGACGGTGCTCGTTCCTCTTTCCGGCGGCGGCCTTGCGGGCGGTATCGCCGTTGCGGTGAAGGCGCTGAAGCCACGGGCACGGGTCATCGGCATTTCCATGGAGCGGGGTGCGGCCATGCAGGCGTCGGTCGCAGCCGGCCGGCCCGTCACCGTCCGGGAGGAAGAAACGCTGGCGGATTCGCTGGGCGGCGGGATTGGACTGGAGAACCGCGTGACATTCGCGCTTTGCCAGACGCTTCTCGATGAGATCGTGCTGGTTTCCGAAGACGAGATCGCGGCCGGCATCCGCCATGCGGCGCGCGAAGAAGGTTTGACGGTGGAGGGTGCGGGCGCCGTTGGTTTCGCTGCCATCCTGTCCGGCAAGATCGACATCAGCGGCCCGACCGCCATCATCGTGTCGGGCGGAAACATCGATCCGGCGGTCCACAGAACAATCATCGACGGGGGAGCCGCATGA	MTIMKSENLSTSADKTLLPVSLTAIEQAAARLAGQVERTPLVRSDNLSERCGSPVHLKLETLQPIGAFKLRGAMNAILSLDDEARRRGLVTASTGNHGRAVAYAARKLRIPSTICMSALVPANKVEAIRALGAEIRSVGRSQDDAQEEAERLNKNLGLTAIPPFDDADVVAGQGTIGLELVEDMPGLTTVLVPLSGGGLAGGIAVAVKALKPRARVIGISMERGAAMQASVAAGRPVTVREEETLADSLGGGIGLENRVTFALCQTLLDEIVLVSEDEIAAGIRHAAREEGLTVEGAGAVGFAAILSGKIDISGPTAIIVSGGNIDPAVHRTIIDGGAA	PGPT0001960_5198	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_THREONINE_DEGRADATION,PGPT0001960-ilvA|tdcB-K01754	NA	NA
BMS010_05936	1449	hisC_7		Histidinol-phosphate aminotransferase	ATGCGTCGTCAAGCCAATCCGCTCAGCTCCGATCCGGTTTCCGCAACCAAACCGGTGGCATGGCGGCCGTCGCTTGCCAAGCAGAAGGGCGAAACCAAACATTCGGCCCTGACGGAACGCATCATTGCCGATATCGACGCCGGCGTCCTGAAGCCGATGGACCGCATGCCGACCCACCGCGATCTCGCCCGCGAACTCGGCCTTTCAGTCCAGACCGTCAGTCTTTCCTACAAGGAGGCCGAGCGGCTGGGTTATCTCAGCGGCGAAATCGGCCGCGGCACTTTCGTAAAGACACGGGTGACGGACCGGGCGGGCCGCATGATGCTCGATCACAGCCCGACCGAGGTGCTCGATCTCTCCATTATCCGTGGCGTTTATCTCGACGACCATGAAAACGCCTCGCGCGCCATCCTTCGCGAATTGGCCGATGGCGACAATTCGGGCTTCATGCGCCCCTGCCGGCCGGTCGCGGGCCTCGACACCCATCGCGAAACCGCACGGATCTGGCTTGGCATGATGGGCGTGACCGCCGGCGCGGAGCGTATTCTCGTCACCAACGGTGCTGCGCACGGCATTTTCCTTGCCTTGAGCTGCATTATCCGCTCGAACGACGTGGTTCTCTGCGAAAACCTCACCGACCACGGCATTATCGGCCTGTCGAACATTCTGGGCTTCAGCCTCAAGGGCCTGCCGACCGACGAAGAGGGCATTCTGCCGGACGCACTCGAGGCCGCCTGTGCAGCCGGTGGTGTCAGGGCGCTAGTGCTCATTCCCACCCTCAACAATCCCACCGGGCATGTTTCGGGCCCGGAGCGCAGGCGGGCGATTGCGGCGATTGCCGAACGGTACGGCGTCTTTGTCATTGAGGACGAAGTTTATCGCCCGATCATCGAGGATGACCTGCCATCCATCACCGAAATGCTGCCTGATCTGGGCTTTTTCGTCACCAGCTTTACCAAGACGGTGCTGACCGGGCTACGCGTCGGTTATCTCGTCGTGCCGCCCGCATACTCCATCCGCGCCGCCTCTATCCTGCGTGTATCGAGCTGGAGCGGCACCTATCTCACGGCCGAAATCGCCACGCGCTGGGTCGAAAACGGCACCGCAGGGCGGCTGCTGGATGTCCAGCGCGCCGAAGTGCGTGCGCGGCAAAAGATCGCCACGGACATATTGGGCGACCATATCGCCTCGACCCACCCCCTCTCCTTCTGCGCCTGGCTGAAGGTTCCACCGCGCTGGACGGAGGACGGCCTGGTGCGCGCGCTCACAAACCAGAACGTCGCGGTCACGCCGTCGGAACCATTCATTGCCGGCCCCGGCCATGGAGGCGGCATCCGCATATGCCTCGGCGGCCGCCTCAATCACCCAAGCCTCGTCAAAGCCTTGACCACCGTGCGGCAGACCTTCGAGCAACTGCCGCCTGTCTACGATATCGGTTCAATCGGCTGA	MRRQANPLSSDPVSATKPVAWRPSLAKQKGETKHSALTERIIADIDAGVLKPMDRMPTHRDLARELGLSVQTVSLSYKEAERLGYLSGEIGRGTFVKTRVTDRAGRMMLDHSPTEVLDLSIIRGVYLDDHENASRAILRELADGDNSGFMRPCRPVAGLDTHRETARIWLGMMGVTAGAERILVTNGAAHGIFLALSCIIRSNDVVLCENLTDHGIIGLSNILGFSLKGLPTDEEGILPDALEAACAAGGVRALVLIPTLNNPTGHVSGPERRRAIAAIAERYGVFVIEDEVYRPIIEDDLPSITEMLPDLGFFVTSFTKTVLTGLRVGYLVVPPAYSIRAASILRVSSWSGTYLTAEIATRWVENGTAGRLLDVQRAEVRARQKIATDILGDHIASTHPLSFCAWLKVPPRWTEDGLVRALTNQNVAVTPSEPFIAGPGHGGGIRICLGGRLNHPSLVKALTTVRQTFEQLPPVYDIGSIG				NA	NA	NA	NA	NA
BMS010_05937	1404	spuC_5	COG0161	Putrescine--pyruvate aminotransferase	ATGACCATCGACATCAAAAACATCGCGGAAATGGATCGAAATGCGGTTCTGCATCCCTTCACGCAGCTGAAGGATTTCGCCAGCGGCAAACTCGGTGAGCCGACCATCGTCGACACCGGCAAGGGCATCCGTATTCAGGACGCGCATGGCAAGCAGCTGATCGATGGCTTCGCCGGTCTTTATTGCGTCAATGTCGGCTATGGCCGCACCGAGGTGGCGGAAGCCATTTCCCGTCAGGCCTATCGGCTCGCCTACTATCACTCCTACGCCGCCCACACGACAGACGAACTGGCGATCCTTTCCGACCGGCTGGTGAAGATGGCGCCCGGCAAGATGAGTAAGGTCTTTTACGGCATGTCGGGCTCGGACGCCAACGAGACCCAAGCCAAGCTCGTCTGGTATTACAACAACCTGCGCGGCAAGCCGCAGAAGAAAAAAATTATCTCCCGCGAACGGGGATATCACGGCTGCAGCGTGGTTTCCGGCTCCATGACCGGCATGAGCTTTTATCACGACCACATGGACCTGCCGCGCGCCGGCGTGCTGCACACCGGCGCTCCGCACCATTACTGGGGCGCGGAGGCCGGTGAAACCGAACTGGAATTCTCAAAACGCCGCGCCGACGAACTGGAAGCGCTCATCCTGCGCGAGGGCCCCGACACGATAGGCGCCTTCATTGCCGAACCGGTGCTTGGCACGGGCGGCATCACGCCGCCGCCGGAAGGCTACTGGCCGGCGATACAGGATGTTCTCAAAAAATACGATGTCCTGCTGATCGCCGATGAGGTGATTACCGGCTTCGGCCGCACGGGCTCCATGTTCGGCTCGCAACATTATGGCATCGAGCCGGACCTGATCACCGTCGCCAAGGGCCTGACTTCGGCCTATTTCCCGCTCTCCGGCGCCATCGTTGGAGAAAAAGTCTACAAAGTCATGGAGGAAGGCGCCGATCGCGTCGGGACCTTCTCCCACGGCTACACCTATTCCGGCCACCCTATCGGTGCGGCTGCGGCAAATGCCGTGCTCGACATTGTCGAAAAGGAAGACCTGCCCGGCAATGCGCGTGCGGTCGGCAGCTATTTTCAGGAGCAGCTGAAGGCGAAGTTCGCGCAGCTTCCAATCGTCGGAGAGGTGCGCGGTGTGGGCCTGATGGGCGCCATCGAATTCGTGGCGGATCGTGAAAAGAAGACACGTTTTGCCCCCGGTCTCACGGTCGGCGCGCGCGTTTCGAAGGCGGCGCGCAACGGCGGCCTTATTGCGCGCGCCATGCCGCATGGCGATATTCTGGGCTTTGCACCGCCGCTTGTCACAACTAAGGCTGAGGTGGATGAGATCATCGCCATCGCCGAAGCGGCTGTCCGCAGCGTCATGGATGATCTGGTGCGAGCCGGCGAAAAAATCTGA	MTIDIKNIAEMDRNAVLHPFTQLKDFASGKLGEPTIVDTGKGIRIQDAHGKQLIDGFAGLYCVNVGYGRTEVAEAISRQAYRLAYYHSYAAHTTDELAILSDRLVKMAPGKMSKVFYGMSGSDANETQAKLVWYYNNLRGKPQKKKIISRERGYHGCSVVSGSMTGMSFYHDHMDLPRAGVLHTGAPHHYWGAEAGETELEFSKRRADELEALILREGPDTIGAFIAEPVLGTGGITPPPEGYWPAIQDVLKKYDVLLIADEVITGFGRTGSMFGSQHYGIEPDLITVAKGLTSAYFPLSGAIVGEKVYKVMEEGADRVGTFSHGYTYSGHPIGAAAANAVLDIVEKEDLPGNARAVGSYFQEQLKAKFAQLPIVGEVRGVGLMGAIEFVADREKKTRFAPGLTVGARVSKAARNGGLIARAMPHGDILGFAPPLVTTKAEVDEIIAIAEAAVRSVMDDLVRAGEKI	PGPT0007865_586	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007865-spuC-K12256	NA	NA
BMS010_05938	1479	gabD_1	COG1012	Succinate-semialdehyde dehydrogenase [NADP(+)] GabD	ATGGAAGCTATCGCCAGCGCAGCGCTTAAAAACCTTCAACGACCCGAGCTGATCGAACATCGCGCCTTTCTGGACGGGCAATGGGTGGCGCGTAAGGAGACGCTGGGCGTTGTCGATCCGGCAAGCGGAGATCATCTGCTCGATGTCTCTTCCTGCTCCCTGAACGACGTGGACGCCGCAGTCGAGGCCGCCGGCAGAGCGTTTCTCCGGTGGCGCGACATGTTGCCCGTCGAACGCGGCGATATCCTGCGGACATGGGGCCGGCTGATGCGTGACAATGCCCGCGACCTCGCTGTTATCATTAGCGCCGAACAGGGAAAGCCGCTTGCGGAATCGCTCGGCGAAATTTCCTATGCCGCCGCCTTTCTCGACTGGTTTGCGAGCGAGTGCGAGAGATCCTATGGCGAAACAATTCCAAGCCACCTCAAAGGCGGCAATCTTTCCGTGCGGATGCAGCCGATCGGCGTCACGGTGGCCATCACGCCCTGGAACTTTCCCTCAGCCATGATCGCCCGCAAGGCGGGCGCGGCCCTTGCTGCCGGCTGCACGATGATCGTCAAACCGGCGCCGGAAACGCCGCTTTCGGCACTGGCACTGGCAAAACTGGCGCAGGAGGCGGGCATGCCGGCCGGCGTGTTGCAGGTTCTGCCGGGTGAAGCCGCGCCGCTCGCGCGCCGCCTGCTGGAGCATACCGAGGTGCGGGCGTTTTCCTTCACCGGTTCGACGGAGGTGGGGCGGCTCCTCCTCACGCAATCGGCGGCGACCATCAAAAAAGCTTCGCTGGAACTTGGTGGCCACGCCCCCTTCATCGTCTTCGCCGATGCGGACCTGTCCCAGACCGTGAAAGGCTGCCTCGCCGCCAAATTCGCCACATCGGGACAGGACTGCCTTGCGGCAAACCGCATCTATGTTCAACGCGGGCTTTATGACCGTTTCATTGAGCGGTTTGCCGATGCGACCTCCAGACTGACCGTCGGCCATGGCCTTGAACCCGGTATCGACATCGGGCCGATGACACGACCGTCCGTTGCCGAAAAGTGCCGCCAGCAGATTGCGCAGGCGCTCTCCTCCGGCGCGCGCCTCGTCTGCGGCGGGCAGGACAGCCCGCTCGGCGGCAATTTCGTCACCCCCACCGTGCTGGCCGATGTGACCGACGACATGCTGATCGCGCGCGAAGAAACCTTCGGTCCGGTTGCCGCCATCTTGCCCTTCGATGACGAGCGGGAGGTGGTCCGCCGCGCCAATGCCACGGAGATGGGGCTTGCGGCCTATGTCTACACCAACGACCTCGGCCGGGCGATGCGCCTGACCGACCAGCTGGAATACGGCATGGTTGCCGTCAACACCCCGAAATTCACCGGCGCGCCCATTCCATTCGGCGGCTGGAAACAATCCGGCCTTGGCCGCGAGGGCTCACGTCATGGCCTCATGGAATATCTCGAACCCAAATATGTCTGCTTCGGCAACCTGGCTGCCTGA	MEAIASAALKNLQRPELIEHRAFLDGQWVARKETLGVVDPASGDHLLDVSSCSLNDVDAAVEAAGRAFLRWRDMLPVERGDILRTWGRLMRDNARDLAVIISAEQGKPLAESLGEISYAAAFLDWFASECERSYGETIPSHLKGGNLSVRMQPIGVTVAITPWNFPSAMIARKAGAALAAGCTMIVKPAPETPLSALALAKLAQEAGMPAGVLQVLPGEAAPLARRLLEHTEVRAFSFTGSTEVGRLLLTQSAATIKKASLELGGHAPFIVFADADLSQTVKGCLAAKFATSGQDCLAANRIYVQRGLYDRFIERFADATSRLTVGHGLEPGIDIGPMTRPSVAEKCRQQIAQALSSGARLVCGGQDSPLGGNFVTPTVLADVTDDMLIAREETFGPVAAILPFDDEREVVRRANATEMGLAAYVYTNDLGRAMRLTDQLEYGMVAVNTPKFTGAPIPFGGWKQSGLGREGSRHGLMEYLEPKYVCFGNLAA	PGPT0014048_165	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014048-doeC-K15786	NA	NA
BMS010_05939	468	decR_5	COG1522	DNA-binding transcriptional activator DecR	ATGACCCAGATTGACCGAGCCGACCGGGCACTGCTTGACGCCGTACAGAAGAACAATCGCCTGACATCGGAGGAGCTCGCCAAAATCGTCAACCTGTCGCCAACCGCGTGCCAGCGTCGGTTGAAGCGCCTGCGTGATGAAGGGGTGATCGAAGCCGATGTGGCAATCGTTTCGCCCAAGGCCGTCGGGCGCGGCATCACCATGATCGTTCTCGTCTCGCTGGAGCGAGAAAGGGCCGATATTGTCGATCGTTTCAAGGCTGCCATTCGCGCCACGCGGGAGGTGATGATCGGTTATTACGTGACGGGCGACGCCGATTTCATCCTGGTGATCACGGCCAAGGACATGGAAGACTACGAGGCCTTCACCCGCCGGTTCTTTTACGAGAACCACGATATCAAGGGGTTCAAGACGATGGTCGTCATGGACCGCGTCAAGGCCGGCTTCGCCTTTCCAATCGACCCATGA	MTQIDRADRALLDAVQKNNRLTSEELAKIVNLSPTACQRRLKRLRDEGVIEADVAIVSPKAVGRGITMIVLVSLERERADIVDRFKAAIRATREVMIGYYVTGDADFILVITAKDMEDYEAFTRRFFYENHDIKGFKTMVVMDRVKAGFAFPIDP				NA	NA	NA	NA	NA
BMS010_05940	810		COG1878	Isatin hydrolase	ATGTGCAACAATTGCGTGATCGAGAACGTAAAACGGAACATGCTGTCACGACGCCTGCTGTTCAAGGGCGCCGCGGCCGGTTTAACGGCCATGACGGCGGGCAGCCTGGCGGCGCCGGTGCTGGCGCAATCGCCCCGGCAGGTCGTTGATCTCACCCATACCTATGATTCCACATTTCCTACATTCGATGGCAAACCGGGCATAGAATACGAGTGGGCAGCGGAGATCGCCAAGGACGGCTATCAGCTCCACAAACTCACCATCTACGAACATACCGGCACCCATATCGATGCGCCTTTCCATTTCAGCGCGGATGGCGCGAGCGTCGACCAGTTGGAGCCGCAGAAACTTGTGGCGCCGCTCGTCATCGTCGACATCACCGACCGCGCCAAAGACGATGCCAATTCCACCATTGAAGCCGAAGACATCGAGCGCTGGATATCTGCGAATGGCGACATTCCGGCAGGTGCAATCGTGGCCCTGCGCTCCGGCTGGGCAACCAAAGTGAAGAGCCCCTCATTCCGCAATGACGACGCCGGAAAATTCGCCTTCCCCGGTTTCGGCAAATCGGCGACCGACCTTCTGCTCAAGCTCGATACCGTCGCCATTGGCGTCGACACGCTTTCGCTGGATCCCGGCAATTCCGCAGATTTCGCGGTTCACAATTCCTGGCTGCCGGCGGGGCGCTACGGCATCGAAGGGCTGAACAACCTCGAGGCTCTGCCGGTCAAGGGAGCGACCATAATCGTCGGCGCGCCGGCACACCGCGGCGGAACGGGCGGCCCGGCCCGGATTCTGGCCCTGGTCTGA	MCNNCVIENVKRNMLSRRLLFKGAAAGLTAMTAGSLAAPVLAQSPRQVVDLTHTYDSTFPTFDGKPGIEYEWAAEIAKDGYQLHKLTIYEHTGTHIDAPFHFSADGASVDQLEPQKLVAPLVIVDITDRAKDDANSTIEAEDIERWISANGDIPAGAIVALRSGWATKVKSPSFRNDDAGKFAFPGFGKSATDLLLKLDTVAIGVDTLSLDPGNSADFAVHNSWLPAGRYGIEGLNNLEALPVKGATIIVGAPAHRGGTGGPARILALV				NA	NA	NA	NA	NA
BMS010_05941	1209	nepI_3	COG2814	Purine ribonucleoside efflux pump NepI	ATGACGGACACAACATCGCAGTTTGATGGGGTAGCTATCCCCCTGGAAACCACAGAAGAACCCGCATGGACGGCTGCGACCTGGTTCGCCGTTCTTTCCATGGCGGCTACCAGCTTCGCGCTGGTATCGGCCGAGTTCCTGCCGGCGGGCCTGTTGACGCCCATGGCGCGCGATCTTGGCATCACAGAAGGCACGGCCGGACAGGTCGTCACCGCCACCGCCTCCGTAGGCGCGGTGACGGCTCTGTTGAGCAATGTTCTGATCGGCAAGCTGAACCGCAAGACCGTGCTTGTCGGTCTTAGCGCGCTGGCGATTGCCTCCAACATTCTGGCATCGGTTGCCGCCGATTTCTGGCTATTGCTGTTGGGCCGGGCCGGGCTGGGTATTGCACTCAGCGGTTTCTGGGCGCTGTCGGTTGCCGTTGTGGCGCGGCTTGTCGGCGCAAATTCGACCGGGCGCGGCATGGCTATCGTTACCCTCGGCGTTTCGCTTGCCACCATTGCAGCTCCTTCGATGGGCGCCCTGATCAGCGACTGGCTGGGATGGCGCATCGCCATGTCGATGACGGCGGGACTTGCCATAGTTGCCATGCTGCTTCAGATGCTCAGCCTGCCGTCGCTGCCGGCGAGTACAAGCAACAGTCTTTCCGATGTCCTTGGATTGACGCGACGCCGCAGCGTTCAGCTCGGTATGCTTGCCATCCTGTTGCTGATGACGGGGCATTTTGCAGGCTCGGTCTATGTGCGTCCCTTCCTCGAAAAGGTCACGCTTCTTGACACCACGCCGATTGCACTCGCCCTGCTCGGATTTGGCGTTGCCTCGGTGATCGGCAATGTCGTCGGCGGCCGGATGGCTGACGCCAGTATCCGCGTTGCTCTCATCGTCACTGCAGCGGTGATGGCATTTGCGACGATCGCCCTCGTTATCTGGGGTGCTCATACGAGTGCGGCTTTTGCTCTCGTCGCACTTTGGGGCCTTGCATTCGGCATGGGGCCAGTCGTGCTGCCGACAAACCTCTCCCGTGGTGCACCCGATGCCCTGGAGGCAGCCGGCAGCCTGATGGTGGTATCTTTCCAGGTGGCGATCAGCATTGGCGCGGTGCTCGGCGGTTATATCGTTGACTCCTACGGTGCGACCGCGCCGCTCGCTCTCACCGCCGTCCTCGCCGCATTGACGGTCGCACTCGCCGTCGTGCAGCATCGCGACTGA	MTDTTSQFDGVAIPLETTEEPAWTAATWFAVLSMAATSFALVSAEFLPAGLLTPMARDLGITEGTAGQVVTATASVGAVTALLSNVLIGKLNRKTVLVGLSALAIASNILASVAADFWLLLLGRAGLGIALSGFWALSVAVVARLVGANSTGRGMAIVTLGVSLATIAAPSMGALISDWLGWRIAMSMTAGLAIVAMLLQMLSLPSLPASTSNSLSDVLGLTRRRSVQLGMLAILLLMTGHFAGSVYVRPFLEKVTLLDTTPIALALLGFGVASVIGNVVGGRMADASIRVALIVTAAVMAFATIALVIWGAHTSAAFALVALWGLAFGMGPVVLPTNLSRGAPDALEAAGSLMVVSFQVAISIGAVLGGYIVDSYGATAPLALTAVLAALTVALAVVQHRD	PGPT0021090_44	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021090-nepI-K03445	NA	NA
BMS010_05942	867	dhmA_1		Haloalkane dehalogenase	ATGGACACGCGCGTCACACATCGCAGAACCTCAATTGCGGGGGTAGAGACCTTCTACAGGGAGGCTGGCTCGCAGGATGCGCCGGTCATTCTGCTGCCGCACGGCTATCCCTGCTCATCCTTCGAGTTCCGAAACCTCATGCCCAGATTGGCCGACAGATGGCGGCTGATCGCACCGGATTTTCCGGGGTTCGGCTATAGCGGCAATCCCGAAACCTTTTCCTATAGCTTTGACGGTTATGCCAGCTGGCTTAACGCTTTTGTCGAGACGCTGGGTCTCGATCGTTTTGTGCTCTACCTGCACGACTTCGGCTCTCCCATCGGCGCAAGGCTTGCCATCATGAAGCCGGACCGCATCGTGGGACAGATCATCCAGAATGGCGATATTCCCTATGAAGACGCGCTGGGGCCGAAATATGCCGATATCGAAAAGTTCTGGTCGCTGCCTGCAGACCGGATGCGCGCCGCATTTCGCGATGCCGTCACCGAGCAGAATTTTCGTGACGAGTTTCTGAATAACGTCCGGCCAGAGCTTACCGCACTCATTCCTCCTGACCTCTGGCAATTGCACTGGAGCCTTGTGACGGAGAGGAGGAAGGATATCGCAGCAGACCTACTTTCTGACCTCAAGGTAAATCGCGACTGGTTTCCGATCCACCGCCGCTACCTGCGAACCTGTCGGCCGCCGACCGTCATCATCTGGGGACCGCAGGATCACTACATGCCCGAGCGCTCCGCCCGCGCTTATCTTCGCGATATGCCCGATGCCGAGCTTCATCTGCTGGACGGAGGACACTGGCTCCTGGAGACAAACCTGGAGGAAGTCATCCCCCTGATCAGGAGCTTTCTTGATCGCATCCACCACTGA	MDTRVTHRRTSIAGVETFYREAGSQDAPVILLPHGYPCSSFEFRNLMPRLADRWRLIAPDFPGFGYSGNPETFSYSFDGYASWLNAFVETLGLDRFVLYLHDFGSPIGARLAIMKPDRIVGQIIQNGDIPYEDALGPKYADIEKFWSLPADRMRAAFRDAVTEQNFRDEFLNNVRPELTALIPPDLWQLHWSLVTERRKDIAADLLSDLKVNRDWFPIHRRYLRTCRPPTVIIWGPQDHYMPERSARAYLRDMPDAELHLLDGGHWLLETNLEEVIPLIRSFLDRIHH	PGPT0013255_10	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
BMS010_05943	1944	btuD_14		Vitamin B12 import ATP-binding protein BtuD	ATGACCGATGCTGACGCAAAACCCCAACCAGTCGATGGCACCGGCCACAACGGTGCAGAGAATGTTCATGCCAACGACGCACCCGATGATCCCCTTCCGCCGGAGGAATTGGAGCCCGCTGCGGGTTTGACGCCGCAGCAGGCCGAAGAGGCTCGCAAGCGATATCTTCTGAAGCGCTTCCTGATCAGCGCGCGGGGTTTCTGGAGCCGCCGTGGGGACGGGCTTGCCTGGCCGTTCTCTATCGGGCTTCTCGCTATGATCGGCGTCAATGTCGGTTTCCAATATGGCATCAACGTCTGGAATCGCGGGATTTTCGATGCGATTGAAAAACGGGATGCATCGACGGTCTACTTTCTCGCTTCCATATTCCCGCCGCTGGTTCTCGGAAGCGTTTTTATTGTGACCTCGCAGGTTTACGTCAGAATGCGCATTCAGCGTCGCTGGCGGTCGTGGCTGACCAAGGTGCTGGTCTCCCGATGGATTGCAAATGGCCGCTATTATCAGCTCAACCTGATCGACGGCGACCATCAAAATCCGGAGGCGAGGCTGTCGGAAGATATGCGGATCGCCACCGAAGCGCCCGTGGATTTTGTGGCGGGCGTCATTGCCGCCTTCGTATCAGCGTCCACCTTTATCGTCGTTCTGTGGACGATTGGCGGCGCGCTGACGCTGCCGATCGGCGGCTTATCGGTCACGATACCCGGTTTTCTGGTGATTGCGGCAGTGATCTATGCGCTCATCACATCCAGTTCCATCGCGTTGATCGGCCGGAACTTCGTCCGGGTCTCCGAGGTCAAGAACCAGCTGGAGGCGGAATTCCGTTACACGCTCACCCGTGTCCGGGAAAACGGGGAGAGCATCGCCCTGCTTGGCGGTGAAGAGGAAGAGCGAAGCGACCTCGACAGGAGGTTCCGCAATGTCCGGCACCAATGGAAGCAGATGGCGCAGCAATATATGCGCACCACGGTCGTGTCGCATGGATCGATGTTGATTGCGCCCGTTGTTCCGCTTCTTCTCTGCGCGCCGAAATTTCTCGATGGAAGCATGTCTCTCGGCCAGGTCATGCAGGCGGCATCCGCTTTCACCATCGTTCAATCCGCCTTCGGCTGGCTGGTCGACAACTATCCCCGGCTGGCGGACTGGAATGCCTGTGCACGCCGCGTTGCCTCCCTGATGATGTCGCTTGACGGGCTGGAGCGGGCCGAACAGAGCGATAAGCTCGGCCGGATCGTGCGCGGCGAAACGGAAGGCGAAACGATGCTCAGCCTCAAGGATGTTTCGGTGTCGCTCGGCGACGGCACGGCCGTCGTCAAGGAGACCGATGTGGAGATCGGGCGGGGAGAAAGGGTGCTCGTCGCAGGCGAATCCGGATCCGGTAAAAGCACGCTTGTGCGGGCAATCGCGGGCCTTTGGCCATGGGGCGGAGGCAGCGTCAGTTTTCGGGCCGGCAGCCGGCTTTTCATGTTGCCGCAGCGGCCATATGTGCCCTCCGGCACCCTTCGCCGGGCGGTCTGCTATCCGCAGGCGGCCGAGAGCTGGACGTTCGAAGAGATAGGAGAAGCTCTCGACAAGGTCGGTCTCGGCCATCTCAAAGACAAGGTGGAGGAGGAGGCGCCGTGGGACCAGACGCTGTCGGGCGGTGAAAAACAGCGGCTGACCTTTGCCCGCCTGTTGCTGAACGACCCGGATATCATCGTCATGGACGAGGCGACCGCGGCTCTCGACGAAAAAAGCCAGGACAGGATGATGCAGACGGTGATCGATGAGTTGCCCGACGCCACCATCATCAGCGTGGCGCATCGTGCCGAACTGGAGGCCTTCCATAGCCGGAAGATAACCTTGGAGCGACGGGACGGCGGCGCAAAGCTGGTCAGCGATATCCACCTCATTCCCCGCAAGGCCAGATCCCGCTCCCTGCTTCGGCGCATGGTCAAACGCAGGTAA	MTDADAKPQPVDGTGHNGAENVHANDAPDDPLPPEELEPAAGLTPQQAEEARKRYLLKRFLISARGFWSRRGDGLAWPFSIGLLAMIGVNVGFQYGINVWNRGIFDAIEKRDASTVYFLASIFPPLVLGSVFIVTSQVYVRMRIQRRWRSWLTKVLVSRWIANGRYYQLNLIDGDHQNPEARLSEDMRIATEAPVDFVAGVIAAFVSASTFIVVLWTIGGALTLPIGGLSVTIPGFLVIAAVIYALITSSSIALIGRNFVRVSEVKNQLEAEFRYTLTRVRENGESIALLGGEEEERSDLDRRFRNVRHQWKQMAQQYMRTTVVSHGSMLIAPVVPLLLCAPKFLDGSMSLGQVMQAASAFTIVQSAFGWLVDNYPRLADWNACARRVASLMMSLDGLERAEQSDKLGRIVRGETEGETMLSLKDVSVSLGDGTAVVKETDVEIGRGERVLVAGESGSGKSTLVRAIAGLWPWGGGSVSFRAGSRLFMLPQRPYVPSGTLRRAVCYPQAAESWTFEEIGEALDKVGLGHLKDKVEEEAPWDQTLSGGEKQRLTFARLLLNDPDIIVMDEATAALDEKSQDRMMQTVIDELPDATIISVAHRAELEAFHSRKITLERRDGGAKLVSDIHLIPRKARSRSLLRRMVKRR	PGPT0009345_204	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES|BLEOMYCIN,PGPT0009345-bacA|yddA-K02471	NA	NA
BMS010_05944	813			hypothetical protein	ATGCCTATCTTCATGGACCGGCACGAGCTTGCCGGCGTTTCCGCTGCCGATATCGCCGCGGCACATCTTAAAGATATCAACATTCAGGATCGGTACGGCGTCAGGTTTTTGACCTACTGGTTCGATGAAAGGCGCGGCACGGCGTTTTGCCTTATGGACGCGCCGGACGCTGAAACCGCGCAGTGCGTGCATCGCGAAGCGCACGGCTTCGTCGCCAGCGAGGTGGTGGAAGTCGCGCTGTCGGCGGTGGAAGCGTTTCTCGGGCGAATACAGGATCCGGTAGCACCCCGGGCCGCCTCGAAAAATATGGACCCCGGCCACCGCGCGATCCTTTTCACGGACATTGTCGGTTCAACCGAAATGACGGCCCGCCTCGGTGATCGCATGGCGGCGGAACTTATCCGGGCGCACGATGCCCTCGTGCGCGGTTGTCTGGGGCGGCGCGCGGGACGAGAGGTCAAGCACACCGGGGATGGCATAATGGCCGTGTTCTCCTCCACGCCATTTGCGGTGGATTGCGCCATCGATATCCAGCGCGAGTTCCATCGTTACAACAGCGACAGGGGCGAGCCCATCCACATCCGTATCGGCCTGGATTGCGGGGAACCTATCGAAGACAGCAATGATTTCTTTGGCACGACCGTGCAATTGGCGGCAAGGCTTTGCGCCGCCGCCGAGAGCGACCAGATCCTGATCTCGGACAAGACTTTTCAGGAATATGGCGGCGCCGATGTCCTCGTCCACGGCGATCGTTACAGGCTGAAGGGCTTTGCCGAGCCGGTGCTGGCCTATAGTTGCGAGTGGCTGCACTAG	MPIFMDRHELAGVSAADIAAAHLKDINIQDRYGVRFLTYWFDERRGTAFCLMDAPDAETAQCVHREAHGFVASEVVEVALSAVEAFLGRIQDPVAPRAASKNMDPGHRAILFTDIVGSTEMTARLGDRMAAELIRAHDALVRGCLGRRAGREVKHTGDGIMAVFSSTPFAVDCAIDIQREFHRYNSDRGEPIHIRIGLDCGEPIEDSNDFFGTTVQLAARLCAAAESDQILISDKTFQEYGGADVLVHGDRYRLKGFAEPVLAYSCEWLH				NA	NA	NA	NA	NA
BMS010_05945	2016			hypothetical protein	GTGGAACAGGAAAACATCCAGACCGGTAAGGGTCGGCGCAGGGCGCTTTGGGCGGCAGTTGCGATTATTGCCGTTGCTGCCGCAGGCGTCATCGGCGGCAAGACCTTCTACGAAGCAAAGGTGAAGGAGCTGGTTGCCCGCAGCGGTGCGACTGCCACTTCCATCGAGGTTGATTTTCTCGGGAAAATTCATGTTCGCGATCTGACGCTGCCGCTTGAAGAGGGCAGGAATATCAAGATCGCGGCTATCGACGGACGCCCGAAACTTCCGTTTCTGGACGGCGCGCTGGACATGAACACCATCGACATCGATGTGCCGACCGGAAAGATTTCAATGGCACAGGCCCGCGTCGAGAATGTCGCGTTCCAAAAGCCGGCACAGGCGGAAGGAAACGGCGGCTCCCTGCCCCGGCGCATCGAGCGCTTCGCGGCGACAAGCATCTCCACGCCGGAGGTGACGTTTACCCAGTCCGTCGCGACCACCGAGCAGAAGACCGTTTACAGGAACCTCGCTCTCTCTGAGATCGCCGGCGGCCGTATTGCCCGATACTCTATCGATAATGGCAGCTACGACATCAAGATGCAGCTTCCCGACAGCGAAGGTGCGATGAAGGACAAGCATATGGTCGTGTCGACCGGCGCGATCGCCGGCCAGGACATCGACGTCGCTTATCTCGCCCGGCTCTATACGGAAAAGGCCGGCCCGGACGACAAGGAAGCGAAGCCGCTCTACGGGCCGCTCTCCATCAAGGCGGTTTCCTTCTCTGAAGGAGACGGTCATTTCAGCTACGATGAAATCCGCAGCGATGGCTTTACCGCCCGCATGCCGTCCGAGCCGCTGCTGGATACCCTCAAAACGCTGACGACCACCCAAGATCCTGACGAGCTTTCACCGGAGGCGCGCCAGGCGCTTTTCGCGAAGGTCGTGTCCATTCTCGACATGTTCGGCAAGAGCAACATGCAGCTCATCGGCTTCAAGGTCGATGCGCCGGATGAAAAGGAAGGCGCGGCCGGCAAAAGGGTCAAGGCCACCATCGACCGCATCGACATGCAGATGGACAGCCGCAAGCTCGACTTTGGCTTGAATGGCATGTCGATCGGCGATGGCGACGGCAAGATTGAAGTCGCGGAAGCGAGCCTCAAGGGCTTCGACTGGAGTTCGACGATCAAGGGAATTTCCGAGATCATCGCGCTCGACGAGACGCAGATGGAGACCTTCCAGTTCAATCGCCTGATACCGGAACTCGGCAGGGTGCGCCTCGGCGGCATCAACGTCGATATCGCCGCACCGGAAAAGACGGAGGAGGAGACGGAGGAAGAAACGGCCGGTACGCCGGAACGCATCAAATTCTCGCTCAAGAATTTCGAGATGGGGCTGACCAAACCCTTCAACGGCATTCCGACCGATATCGAGATCAGGCAGGACGAGCTCACGCTTCCGATCCCGGCGGATTCGACGGAGGAAGTTTTCGTCGAAGCCCGCAAACTGGGTCTCGAAACGCTGGCCTTCTCTTATGGCCTCGCCGCCGGCTGGGACGAACCGAACAGCAATCTGGTGATCCGCGATATCTCGCTCAGCAGCAAGGATTTCGGCAGCGTCAATTTTGCCGGTCTGGTCAGCGGCTTTACGGAAGAGTTCTTCTCCTTCGACGTCAATCGCGCGCAGGCGGCGCTCTTCGGGCTTGCCGGCCGCGAAGTGAAGCTCACGATCAAGGACGAAGGTTTGATGGCCAAGGCGATCAAGCTTTATGCCCTGCAGAACGACATGACGGAAGATCAGGTACGCGCCACTCTCACTCTGGTGGCGAGCATGATGCTGCCGCAGGTGGCAGCTGAACAGCCCAAGCTCCAAAACGCCGTGCAAGCGCTCGTCCAGTTCATCAGCAAACCCGGTACCCTGACGGTAACGGTCAAATCCACCGGCGCAAACGGTCTCGGCATTTTCGATCTGGTTGCCGCCTCCGACAACCCGATGGGGCTTCTGGACAAGGTCGATATTCAGGCGACGGCCGAATAA	MEQENIQTGKGRRRALWAAVAIIAVAAAGVIGGKTFYEAKVKELVARSGATATSIEVDFLGKIHVRDLTLPLEEGRNIKIAAIDGRPKLPFLDGALDMNTIDIDVPTGKISMAQARVENVAFQKPAQAEGNGGSLPRRIERFAATSISTPEVTFTQSVATTEQKTVYRNLALSEIAGGRIARYSIDNGSYDIKMQLPDSEGAMKDKHMVVSTGAIAGQDIDVAYLARLYTEKAGPDDKEAKPLYGPLSIKAVSFSEGDGHFSYDEIRSDGFTARMPSEPLLDTLKTLTTTQDPDELSPEARQALFAKVVSILDMFGKSNMQLIGFKVDAPDEKEGAAGKRVKATIDRIDMQMDSRKLDFGLNGMSIGDGDGKIEVAEASLKGFDWSSTIKGISEIIALDETQMETFQFNRLIPELGRVRLGGINVDIAAPEKTEEETEEETAGTPERIKFSLKNFEMGLTKPFNGIPTDIEIRQDELTLPIPADSTEEVFVEARKLGLETLAFSYGLAAGWDEPNSNLVIRDISLSSKDFGSVNFAGLVSGFTEEFFSFDVNRAQAALFGLAGREVKLTIKDEGLMAKAIKLYALQNDMTEDQVRATLTLVASMMLPQVAAEQPKLQNAVQALVQFISKPGTLTVTVKSTGANGLGIFDLVAASDNPMGLLDKVDIQATAE				NA	NA	NA	NA	NA
BMS010_05946	894			hypothetical protein	ATGCCGATCTATGAACTGGCTGCCGTGGGCGCCGCGACGTGCTGGGCGATAACCGGGCTTCTTGCCGCGGGCCCGGCGGGGCGGCTTGGAGCGCTGGCCTTCAACAGGACGCGGCAGCTTTTTGTCGCCGCTTTGCTGGGGGTCTATGTGCTCGCGTCAGGCTCCTGGCGAGAGCTTCAGCCCGAGGCATTGTCGTCGCTTATCCTTTCCGGCTTCATCGGCATTTTTGTTGGCGACACGCTTCTCTTTACCTGCCTCAACCGGCTGGGGCCGCGCCGTTCGGGAATCCTGTTTGCGCTGAATGCCCCGATCGCCGCACTGCTGGCATGGGCGGTGCTTGGCGAGCAGCTTCCCGCAAGCGCCATTGCCGGCATAGGTCTGACACTCAGCGGCGTGCTGCTGGCAATCCTCTTCGGCAAGCGCAAGGCGCAGCTGCATGAATGGGAGAGCGTGAAGGGGCCTCTCTGGCTCGGCGTGCTCTTCGGCCTTCTGGCGGCGCTCAGCCAGGCGGTCGGCTCGCTCATTGCAAGGCCCGTGATGGCGACCGGGATCGATCCTCTTGCCGCTTCCATGCTGCGTGTCGGGGTGGCCGCCCTTTGCCTGACCGCACTGACCATGCTGCCTATCGAGGCTGTCAGGCCCAGAGGCCCGATGACCCGAAGCCTGTTCCTCCAGACGGCGTTCACGGGCATCATCGCCCTGGCTTTCGGCATGACGCTGCTTCTTTTTGCCCTTTCCGGCGGCAAGGTCGGCATCGTCTCGACACTGTCGGCAACGACGCCCGTGATTATCCTGCCATTGCTGTGGCTGAGAACGCGGGAAGTGCCGGCGCCCGGCGCATGGGCCGGCGCCGCACTTGTCGTGGCCGGTATGGCGCTGATGTTCTGGAGATAG	MPIYELAAVGAATCWAITGLLAAGPAGRLGALAFNRTRQLFVAALLGVYVLASGSWRELQPEALSSLILSGFIGIFVGDTLLFTCLNRLGPRRSGILFALNAPIAALLAWAVLGEQLPASAIAGIGLTLSGVLLAILFGKRKAQLHEWESVKGPLWLGVLFGLLAALSQAVGSLIARPVMATGIDPLAASMLRVGVAALCLTALTMLPIEAVRPRGPMTRSLFLQTAFTGIIALAFGMTLLLFALSGGKVGIVSTLSATTPVIILPLLWLRTREVPAPGAWAGAALVVAGMALMFWR				NA	NA	NA	NA	NA
BMS010_05947	405			hypothetical protein	ATGAAATGTGTCATAGCAGCTCTTGGCCTGATCGCCTTCTCAAGCCCCGTCCTCGCCGCATCCTGCGAGAAGAACTTCACTGTCTCAGGCGTACCGATGGTGACGGCTGTCTCTTACAAGTCCTGGCAGGAGCTGCCGAAGGCGAAAGCGCCCGCCGTGCTGCAAAAACTCGCTCAGGCCGTGGCGGCGGAAGGTTTTGCAGGCATCCAGATCAACAAGGCGTTGTCTTCCATCGATGCGCACCAGGAAACCAGCGGCAGCGGCAGAATTCAGACGCTGCGGGTCGTGGCCCGGCAGAAGGGCGCCGCGGTGCGAATTGATGCTGTCTTCAACATTCAGGCAGGGCAGATCGCGGACAAGAACGTCATCCGCGAGGGCATCTGCAATATCATCAATGGCGCGTGA	MKCVIAALGLIAFSSPVLAASCEKNFTVSGVPMVTAVSYKSWQELPKAKAPAVLQKLAQAVAAEGFAGIQINKALSSIDAHQETSGSGRIQTLRVVARQKGAAVRIDAVFNIQAGQIADKNVIREGICNIINGA				NA	NA	NA	NA	NA
BMS010_05948	357			hypothetical protein	ATGATAGTTAGCAATATGACTAAGCATCATCAGGACCTTTCACTGATCTTCCAGGCTCTGGCCGATCCGACGCGGCGGGCGATTCTGGCGCGCCTCGGCGGCGGGCCGGCGCCGGTCATGGAGCTGTCCGCGCCCACGGGGCTGCGTCTGCCCACGGTCATGCGGCATCTTTCCGTGCTGGAGGAGGCGGGGCTGATCGTCACGTCCAAGGATGGGCGGGTGCGCACCTGCGCAATCGTGCCCGAAGCGCTGGAGCCGGTAAGTACATGGCTCGATGAGCAGCGGGCCGTGTGGGAGAGCCGGCTTGACCGGTTGGAGGCATTTGCAATGCAGGCCATGAAGGAGGAATCCGAATGA	MIVSNMTKHHQDLSLIFQALADPTRRAILARLGGGPAPVMELSAPTGLRLPTVMRHLSVLEEAGLIVTSKDGRVRTCAIVPEALEPVSTWLDEQRAVWESRLDRLEAFAMQAMKEESE				NA	NA	NA	NA	NA
BMS010_05949	924			hypothetical protein	ATGACAACGAAACCGGATCACGAAAGCGCACACACTGAACCGCATCAATCGCAAGACCGTTTTGCAACGCTCAGCTTCGAACGGGAAATTGCCGTTCCGCTATCGGCTCTCTGGCAGGTCTGGCTCTCACCCGCCGCCCGGGCGGTGTGGGCCTCTCCCTCGCCCTCGGTCACCGTGGAGTTCCTGGAGGCGGACAGCAGGCTGGGCGGTCGCGAAGTGTCGCTCTGCAAGGTCGCCGGCCAGCCGGATATTCGCTGTGAATGCGGCTGGCTGGAGCTGCAGCCAACCCGCCGCAGCGTGAATTACGAGGTGGTCTCATCCGGCGGCATAACCCAGTCGGCAGCGCTGGTAACTGCCGATTTTCAGGCTGCGGAAGAGCGTAGCCGCTTGACCGTAACGGTGCAGCTTTCCTCATTGGCCGAGGATATGCGGGATGGCTATCAACAAGGTTTCAGCGCCGGTCTCAACAATCTGGCCAGCGTGGCCGGGCGAACCATGGTGCTGGAGCGAACGATAAAGGTGCCGCGAAACATTGTCTGGAAAGCCTGGATGAATGAAAAGACGCTGCCGCAATGGTGGGGCCCGGAAGGCTTTTCCTGCCGCACGAAGAGGATTGACCTGCGAACCGGCGGCGAATGGGTCTTTGACATGATCGGCCCTGACGGCACAGTTTTCCCGAACCATCATCGTTATGTCGAGGTCCGCCCCGAAGAGAGGCTCGCCTATACGCTGCTATGGGGCGAAAACGGGCCGAAACATGCCGACGCCTGGGCCTCTCTCGAAGATCAGGATGGCGCGACGAAAGTTGTGCTGGGCATGGTGTTCAGCACGGAAGTCGAGTTCCAGCAAGCGAAGGGTTTCGGCGCCGTGGAGCTGGGTCAGCAAACGCTGGGCAAACTGGAACGCTTCGCCGAGGCGCTATAG	MTTKPDHESAHTEPHQSQDRFATLSFEREIAVPLSALWQVWLSPAARAVWASPSPSVTVEFLEADSRLGGREVSLCKVAGQPDIRCECGWLELQPTRRSVNYEVVSSGGITQSAALVTADFQAAEERSRLTVTVQLSSLAEDMRDGYQQGFSAGLNNLASVAGRTMVLERTIKVPRNIVWKAWMNEKTLPQWWGPEGFSCRTKRIDLRTGGEWVFDMIGPDGTVFPNHHRYVEVRPEERLAYTLLWGENGPKHADAWASLEDQDGATKVVLGMVFSTEVEFQQAKGFGAVELGQQTLGKLERFAEAL				NA	NA	NA	NA	NA
BMS010_05950	243			hypothetical protein	GTGTTCAATTTCGCTCTCGACGAAGCCGCCGGGACATTTGGAGTTTATGTCCCGGCTTCTGGAAGCCAGAGAATGGAGAAAGGTACCTTTGCCGGTGGTAAAGCGAGCCTGAATGAAGGCTCGGTGGCATGGGAGATCGACATCGCCAAGGGTTCAGTCATTCGCGATAAGCGCATGGTTGGCGAGAAGGATGGCGGGACCTGTAAGACGATCTCGCACGCGCAAAGCGGCTTTGAAGATTAA	MFNFALDEAAGTFGVYVPASGSQRMEKGTFAGGKASLNEGSVAWEIDIAKGSVIRDKRMVGEKDGGTCKTISHAQSGFED				NA	NA	NA	NA	NA
BMS010_05951	645			hypothetical protein	ATGGCTAGAAAATCACGACCTTCAATAACTGCGATATTGGTAGCCGCTTCGGGCTGGATTGTTTCCCTTTTCCTCGGGGTTCTTGACCTTCCAGCGAAGATTAACTCGTTCATCGTGGAAACTCCCAAGGCGAAGCAAGAGATTGTCGATTGGCTCAATCTCGATCAGAAGTACACGGGCCATTGGACTAGCAGTGTCGAAGATTGGATCGATGCCACCGATGATGAAAGGGCATTATCGACCGCTCCTAATGGCCCTGTGAGAATGAGATTACGCGTTTACAGCGGCTTGGTTGAAGGAGAGATTGAGACGAAGGGTCTCAAAGACACATACATTTTCAATAACCTCCTTCTGGAGGGTTCCAAGACTTCTGAGGGGCTTGATGTTTGGGCTTATGATTACGTAGATGGGAAAAAGCGGGGCTTCGCCGAGTTCCGGTTAAGCTTGTCCGACGAAAAGCGCCTGCCTTTAAGGCTCGACGTTGTTCAAGGTGGGATGGGTCTGCCTGTTCGAGCCAACCTATACCGCATTTCAACCGATATATCTGAACCTATCTATCGTGAGCACAACATGGAACTACTCAAACGCGTCATAGAGCAAGGTAACGTTGACGCGCTGAGTAAAGCCGATGACACGCAGCGATGA	MARKSRPSITAILVAASGWIVSLFLGVLDLPAKINSFIVETPKAKQEIVDWLNLDQKYTGHWTSSVEDWIDATDDERALSTAPNGPVRMRLRVYSGLVEGEIETKGLKDTYIFNNLLLEGSKTSEGLDVWAYDYVDGKKRGFAEFRLSLSDEKRLPLRLDVVQGGMGLPVRANLYRISTDISEPIYREHNMELLKRVIEQGNVDALSKADDTQR				NA	NA	NA	NA	NA
BMS010_05952	882			hypothetical protein	GTGCATTATTTCTGGAAATCGATCTTTACGCTCTCATTTTGGCGCTACTCTTTGTTCTCAAAGGGTGCATTAATAAGCATATTTTCGATATCAGGCGCGATATATCTCGCCATTGAGATGCTTGATTTCTTCAGTATGTATACAAAAGATAAATATAGCAAATATGCAATATTCGCTATAATCGCCATATCCACAACAATAACTATTGCAACTCGAAGGCCGGTTTCGAAGATATTCTATAAAATACCAAAGAGAGATTTCTCTTATGGCATAGTAATAGGAGACTTACTTGAAACGAATTGCAACAATGTTGTGATCAGCACAAACACCACTTTTGACACAGACATTGCCAGCGGCCTTATTTCTCGTGACAGCTTGCAAGGTCAATTGGCGTTTCGCTACTTCAATAGTAATACTGCGGAAATGGATAGGCAAATTTCCGAATCCCTCAAGGGTGTCGAATATCTTGATCATCCCTCGGGGCGAGGCAAGAAGAAGCGCTATCCGATTGGAACGATTGCTAAGCTTCAGGCCCACGGCAAAACCTTCTTTTTCATTGCTATGTCAGAACTAAATGAAGACGGGAACGCGCGGTCCTCGGTTCGAATGGTTGATGAAGCAGTTGAAGCACTTTGGATCTATATTGCTGAGCGCGGTGAACTTGCGGATGTTGCGATGCCAATTATTGGGACCGGGCGGGGGCGGATTCAGCTTTCTAGGACCAAGATGATTGAAAGACTGGCGCAATCCTTCGCGGACGCATCTGCTGAACGTATCTTCAGCAACCGGCTTGTGATCTACATCCACCCCGGCGACGCATCCAAGCACGCTGTAAACCTGTTTGAGATACGGGACTATTTAGCAATGAGCCTCCATATCTAA	MHYFWKSIFTLSFWRYSLFSKGALISIFSISGAIYLAIEMLDFFSMYTKDKYSKYAIFAIIAISTTITIATRRPVSKIFYKIPKRDFSYGIVIGDLLETNCNNVVISTNTTFDTDIASGLISRDSLQGQLAFRYFNSNTAEMDRQISESLKGVEYLDHPSGRGKKKRYPIGTIAKLQAHGKTFFFIAMSELNEDGNARSSVRMVDEAVEALWIYIAERGELADVAMPIIGTGRGRIQLSRTKMIERLAQSFADASAERIFSNRLVIYIHPGDASKHAVNLFEIRDYLAMSLHI				NA	NA	NA	NA	NA
BMS010_05953	501			hypothetical protein	ATGGCATACCGCAACAAAACATACATTTGTTTTGATGGCGATAATGATATGAAATACTACCGCCTCATGACGGCGTGGGCAGAAAACGAGAAGTTCAGCTTCGACTTTCACAATGCACACGATTTGAATACGGCAAGAGATAGCAGCCAAGAAGAGAGCATTAAAAGACAGCTGCGTGAGCGACTTGCGAACTCAAAACTTCTCGTTGTGCTGATAGGCAATAATACGCGCTATCTGAGCAAATTCGTAAAATGGGAAATGGAGGTAGCTCTTCGTCTCGGACTTCCAATCGTTTGCGTAAATCTCAACGGGAGCCGGTCGAAAGATGACCTATGTCCCCCTGTCATCCGCGATGAATTAGCAGTTTATGTTCCTTTTGGCGCGAAGATTGTCGAATACGCCATGACAAATTGGCCTAGCAGTCATGCAGCATACAAAAAGGAGGGCAAGACGGGAGCTTTCCACTACACGGACCAAACGTACAGAAATTTAGGACTCTAA	MAYRNKTYICFDGDNDMKYYRLMTAWAENEKFSFDFHNAHDLNTARDSSQEESIKRQLRERLANSKLLVVLIGNNTRYLSKFVKWEMEVALRLGLPIVCVNLNGSRSKDDLCPPVIRDELAVYVPFGAKIVEYAMTNWPSSHAAYKKEGKTGAFHYTDQTYRNLGL				NA	NA	NA	NA	NA
BMS010_05954	132			hypothetical protein	ATGACGAGCGTAATGACCATCGGCTACGAAGGCTCGACGATCGATGACTTTGTAAGAACTCTTAAAGTGGCGCGGGTGCAGGTTCTAATAGATGTGCGAGCAGTAACCGTCTCACGGAAGAAGGGGTTCTAA	MTSVMTIGYEGSTIDDFVRTLKVARVQVLIDVRAVTVSRKKGF				NA	NA	NA	NA	NA
BMS010_05955	345	mrpG_2	COG1320	Na(+)/H(+) antiporter subunit G	ATGAGCGAGGCGCACGAATTTCCCCTCTGGGCCGCCATTGCCGTGGCCTTCTTCGTCCTGCTCGGCGCCTCGCTGACACTGATCGGCACCATCGGCTTTGCCAGGCTCAACAGCTTCTATGAGCGCCTGCATGCGCCCACACTGGGCACCAGCTGGGGCACCGGCGGCATCGTCATGGCCTCGATCATCTATTTTTCCGTCTCCGGCGACCGTTTCGCCTTCCACGAAATCTTCATCGGCATTTTCATGACGGTGACGACGCCGGTTTCCCTCATGCTGCTGGGGCGCGCTGCGCTTTATCGGGACCGGGCGGAGCAGAATACGGATAATCGGGAGCATCTGTAG	MSEAHEFPLWAAIAVAFFVLLGASLTLIGTIGFARLNSFYERLHAPTLGTSWGTGGIVMASIIYFSVSGDRFAFHEIFIGIFMTVTTPVSLMLLGRAALYRDRAEQNTDNREHL	PGPT0013855_548	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013855-phaG-K05564	NA	NA
BMS010_05956	282			hypothetical protein	ATGAGTTCGATTATCCTTTTCTGGTCCTTTTCGCTGGCGCAGTTCATGCTCGCCATCGCCATGGCGATCTCGGTCTATCGCATCGCCATTGGCCCGCGCGCGCAGGACCGCGTGCTGGGCATGGATACGCTCTATGTCAACGCCATGCTGCTTCTTTTGACCTTCGGCCTGCGCACCGGCAATGACATCTATTTCGAGGCATCGCTGCTGATCGCCATCCTCGGCTTCGTCTCCACCGTCGCCCTTTCCAAATTCCTGATGCGCGGTGAGGTGATCGAATGA	MSSIILFWSFSLAQFMLAIAMAISVYRIAIGPRAQDRVLGMDTLYVNAMLLLLTFGLRTGNDIYFEASLLIAILGFVSTVALSKFLMRGEVIE	PGPT0013850_136	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013850-phaF-K05563	NA	NA
BMS010_05957	489	mnhE1	COG1863	Na(+)/H(+) antiporter subunit E1	ATGATAAGCCGTGTCCTGCCCTACCCGCTGCTGACGGTCTCGCTGATCTTCTTCTGGATGACGATCAACAGCTTTTCGCCGGGGCACCTGCTGCTCGGCACCGGGGTTGCGCTTGTCGCCTCTTGGGCAATGGCGTCGCTCAGGCCCGCCAAGCCGCGCATCCGCAACTGGCACAGGCTCGTGCAACTGATCCTGATCGTGCTTTACGATATTGTCAGATCCAATCTCTCGGTCGTGAAGATCATCCTGTTCAAGCGCGAGAGGGACCGCAAATCCGGCTTCCTGGCCGTGCCGCTCGATATTCGCGACCCGATGGCGCTTGCGGTTCTGGCGACGATCCTGACCTCGACGCCGGGAAGCGCATGGCTCGAATATAATTCCAGCCAGGGCACGCTGCTGCTTCACGTTCTCGACGATGTGGATGAGGCGGCCTGGATAAGCCTTATCAAGAACCGTTATGAAAAACTGCTGATGGAGATATTCGAATGA	MISRVLPYPLLTVSLIFFWMTINSFSPGHLLLGTGVALVASWAMASLRPAKPRIRNWHRLVQLILIVLYDIVRSNLSVVKIILFKRERDRKSGFLAVPLDIRDPMALAVLATILTSTPGSAWLEYNSSQGTLLLHVLDDVDEAAWISLIKNRYEKLLMEIFE	PGPT0013845_423	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013845-phaE-K05562	NA	NA
BMS010_05958	1647	mrpD_2	COG0651	Na(+)/H(+) antiporter subunit D	ATGATGTCGTTCCCCTTCCACATCGTCATCGCGCCTATCCTGCTGCCGCTGATTACCGCGGCCCTTCTGCTGTTCTTCGACGAGCGCCAGCGCGTGGCGAAAGCCGCCATCAGCCTCACCTCGACGGTGCTGTTGCTGGTGGTCGCCATATTGCTGTTCCGCGAGGTCAACTCGACGGTCAATACCGAGATCGCCGCCGTAGTGTCGAGCGGTGTCTATCTGCTCGGCAACTGGCCGGCGCCCTTCGGCATCGTGCTCGTCGCCGACCGTCTTTCGGGCCTGATGGTGCTGTTGACGGCGCTGCTTGCCATCCCATCCTTGATCTATTCGATGGCGAAGTGGCACAGGTCGGGGGCGCATTTCCATTCGCTGTTCCAGATGATGCTGATGGGCGTCAACGGCGCGTTCCTGACCGGGGACCTCTTCAACCTCTTTGTTTTCTTCGAAGTGATGCTGGCCGCGTCCTATGGTCTGTTGCTGCACGGCTCCGGCCAGCAGCGCGTCAAGGCCGGGCTGCATTATATCGCCATCAACCTCGTCGCCGCCCTGTTCTTCCTGATCGGCGTCAGCCTCATCTATGGCGTTACCGGCACGCTGAACATGGGCGATCTCGCCCATCGCATCGAGGGGCTCAACCCCGATCAGCGCATGCTCTTGGAAACCGGCTCGGCCATCCTCGGCATCGCTTTTCTGGTCAAGGCCGGCATGTGGCCGCTGAATTTCTGGCTGCCCTCCGCCTATGGCGCGGCATCGGCCCCGGTGGGCGGGCTCTTCGCCATCATGAGCAAGGTCGGGATTTATGTCATCGCCCGCCTGTCCTTCCTGCTTTTCGGGCAGACGGCCGGGGAATCGGCCGGTTTCGGCCATGATGCCCTGCTGGTCGGCGGCATTGCCACCATCATCTTCGGGGCCATCGGCGTTCTGGCGTCGCAGGCGCTGGGAAGGCTTGCCGGTTTTTCGGTTCTTGTCTCATCGGGAACGCTTCTTGCAGCCATGGGCACCGGCAATCCCACGGTTGCGGCCGGTGCGCTCTACTACATGGTCAGCTCCACCCTCACCATCAGCGCCTTCTTCATGCTGATCGAACTGGTGGAGCGTGGGCAGGATGCCGGCGCAAACGTTCTTGCCGTGACCATGGAGGCCTATGGCGAAGGTGAGGAGGAAGACGAGGAAGAAGAGGTCGGCGTGACCATGCCCGCCACCATGGCGGTGCTCGGGGCCTGTTTTGCCGCCTGTGGCATTCTTCTGGCCGGCCTGCCGCCGCTTTCGGGCTTCATCGCCAAATTCTCGATGCTGACCGCCATTCTCAACCCTTCGGGCCTTGGCGCCAATGACAGCGTCTCGACGCTTTCCTGGTGGCTGGTCTTCCTGATCGTCTTTGCCGGTTTCGCCTCACTGATCTCGATGACCCGCGCCGGCATCCGCACCTTCTGGGCCTCCATCGAGGGCACCGTGCCGCGCGTGCTCGTCATCGAAATCGCGCCGATCATGCTGCTGCTCGGACTGACACTCGCCATGACCGTGCAGGCTGGACCCGTGATGCGATACATGCAGGAAACGGCACGTATTCTCGATCTGCCGGCGAGCTATATTCAGGGCGTCATTTCCGCACCACGAGCGGGCAGCAACCCGGAGGCAGAGCCATGA	MMSFPFHIVIAPILLPLITAALLLFFDERQRVAKAAISLTSTVLLLVVAILLFREVNSTVNTEIAAVVSSGVYLLGNWPAPFGIVLVADRLSGLMVLLTALLAIPSLIYSMAKWHRSGAHFHSLFQMMLMGVNGAFLTGDLFNLFVFFEVMLAASYGLLLHGSGQQRVKAGLHYIAINLVAALFFLIGVSLIYGVTGTLNMGDLAHRIEGLNPDQRMLLETGSAILGIAFLVKAGMWPLNFWLPSAYGAASAPVGGLFAIMSKVGIYVIARLSFLLFGQTAGESAGFGHDALLVGGIATIIFGAIGVLASQALGRLAGFSVLVSSGTLLAAMGTGNPTVAAGALYYMVSSTLTISAFFMLIELVERGQDAGANVLAVTMEAYGEGEEEDEEEEVGVTMPATMAVLGACFAACGILLAGLPPLSGFIAKFSMLTAILNPSGLGANDSVSTLSWWLVFLIVFAGFASLISMTRAGIRTFWASIEGTVPRVLVIEIAPIMLLLGLTLAMTVQAGPVMRYMQETARILDLPASYIQGVISAPRAGSNPEAEP	PGPT0013840_211	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013840-phaD-K05561	NA	NA
BMS010_05959	336	mnhC1_1	COG1006	Na(+)/H(+) antiporter subunit C1	ATGGAACTCATTCTTGCCATCGGCATCGGCATCATGACCGGCTCCGGCGTTTGGCTGGTGCTGCGCCCGCGCACCTATCAGGTCATCGTCGGGCTTTCGCTGCTGTCTTACGCCGTCAACCTCTTCATCTTCGGCGTCGGCGGCATCAAGACCAATGCGCCGCCGGTGTTGGTCAACGGCGTCGACAGCTCCACGCTCGCCGACCCCGTGCCGCAGGCGCTGGTGCTGACGGCCATCGTCATCGGCTTTGCCACCACCGCATTGTTCCTTGTCGTGCTGCTTGCCGCCCGCGGCCTCACCGGCACCGACCACGTGGACGGGAGGGAGACGAAATGA	MELILAIGIGIMTGSGVWLVLRPRTYQVIVGLSLLSYAVNLFIFGVGGIKTNAPPVLVNGVDSSTLADPVPQALVLTAIVIGFATTALFLVVLLAARGLTGTDHVDGRETK	PGPT0013835_586	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013835-phaC-K05560	NA	NA
BMS010_05960	2919	ndhB_1		NAD(P)H-quinone oxidoreductase subunit 2, chloroplastic	ATGACACTTGCAACCATTCTTCCATTCATTGTCGCATTGCCCTTCGTTGGCGCGCTTCTGACGGCCTTCATGCCGCGCGAGGGTGCGGCCGCCGGTCCCGCCTCCGTTGCGGGCGCAGTCGCCCTTTTCGGCCTTGTCAGCAGCATTTTTCTTTATACGAGCGTCAGCGGCGGCGCAGTTCTAAAGTATGATGTGGAATGGCTGCCCCAGCTCGGCCTGAACTTTACCCTGCGGCTGGACGGATTTGCCTGGATTTTCACGATGCTCATTACCGGCATCGGTCTGCTGGTGGTGCTCTACGCGCGTTATTATATGTCGGCCGAAGACCCGATTCCCCGTTTCTTCGCCTTCCTTCTCGCCTTCATGGGCTCGATGCTTGGCGTCGTGCTCTCCGGCAACGTCATCCTGCTGTCGATCTTCTGGGAAATGACCAGCATCTTTTCGTTCCTGCTGATCGGCTACTGGCATCAGAACGCCGGTGCGCGCGACGGCGCACGCATGGCGCTGACCGTGACCGGCATCGGCGGCTTCAGCCTGCTGGCGGGCCTGCTGATCCTCGGCCATATGGCGGGAAGCTATGATCTCGACAGGATCATCGAGGCGGGTGCGGCTATCCGCGCCCATTCCCTCTACGTGCCCGCGCTCATCCTCATCCTCGGCGGCGCGCTGACCAAGAGCGCGCAGTTTCCGTTCCATTTCTGGCTGCCCAACGCCATGGCGGCGCCTACACCCGTTTCCGCCTATCTGCATTCTGCCACCATGGTGAAGGCCGGGGTTTTCCTGCTGGCGCGGTTCTGGCCCGTGCTGGCGGGCACGCCGGAATGGTTTTGGCTCGTGGGCGCGGCCGGCATCATAACCCTGCTGCTCGGCGCCTATTTCGCCATGTTCCAGCAGGACCTCAAGGGTCTGCTCGCCTATTCCACCATCAGCCATCTCGGCCTCATCACCACGCTTCTCAGCCTCGGCAGCCCGCTTGCGGCGGTGGCGGCCATCTTCCACATGGTCAACCACGCCACCTTCAAGGCCTCGCTCTTCATGGCGGCCGGCATCATCGACCATGAGACGGGCACGCGCGACATGCGGCGCTTAAGCGGGCTTTACACCTATATGCCCGCAACCGCGACGCTCGCCATGGCGGCAAGTGCGGCCATGGCCGGCGTGCCGCTGTTCAACGGCTTCCTCTCCAAGGAAATGTTCTTCGCCGAGGCCGTCGAAACCCATGCCGACTCGCTGCTGGACCGGGCCCTGCCCTATGTCGCGACGCTGTCGGGCGCATTTGCCGTCGCCTATTCGCTGCGCTTCATCCATACGGTCTTCTTCGGCCCCAAGCCCGTCGATCTGCCGAACCCGCATCCGCACGAGCCGCCGCGCTGGATGCGTTTCCCCATCGAATTCCTCGTCTTCGCCTGCCTGATCGTCGGTATCGTTCCGAGCCTCTCCATCGGCCCGTTCCTGCACTCGGCCGTGCTTTCAGTGCTTGGTGCGCAAACGCCGGTCTACAGCCTGTCGATCTGGCACGGTTTCAACCTGCCGCTGATCATGAGTATCGCGGCGCTGATCGGCGGGGTTACGATCTATGCCCTGCTCGGCGGTTATTTCTCGCGCTGCGACGACGGCCCGCCGGTCTTCCGGCATTTGCGTGGACAGCGCATCTTCGAGCGCATTCTCGTCACCGTGTCCTGGAAATGGGCGCGGTGGCTGGAAAGCACGCTCGGCACGCGGCGTCTGCAGCCGCAGCTGAGGCTTCTTATCCTTGTGGCGCTTCTTGCCGGTTTCTCGCCTCTCTTCCTTTCGGAATTCTCCCTGTCGCTGCCGCGCGTCACGACCTTCGATCCGATCTTCGCCATTCTCTGGCTGATCGGCATGATCGCGGCCATGGGTGCGGCCTGGCAGGCGAAATATCATCGCCTCGCCGCGCTCGTCATGCTCGGCGTCTCGGGCCTCGTCACCTGCCTCACCTTCGTCTGGCTTTCCGCGCCGGATCTCGCCATTACCCAGCTTCTGGTGGAAATCGTCACCACGGTTCTCATCCTGCTCGGCCTCAGATGGCTGCCGAAACGCGTCGAGAAGGTCGACAGCAGCGATGAGCTGCCGGCGCAGCTGCGCCGCGCCCGCGACTTCCTGCTCGCCGCAGGCAGCGGTATCGGCATGTCCGTCATCGCCTATGCCGTGATGACGCTGCCTGTGCCGAACGCGATTGCGACCTATTTCCTCGAACGCGCCTATACCGAAGGCGGCGGCACCAATGTCGTCAACGTCATTCTGGTGGATTTCCGTGGCTTCGATACCTTCGGCGAAATAGCGGTGCTGGCCATCGTCGCGCTCACCGTCTTTGCGCTGCTTCGCCGTTTCCGCCCTGCCCATGAAAGCATCGGGGTGCCGGAACAGCAGCAGATGCAGAACGCCTTCGACGCAGAACGGCCAGACCGGAGCAATGGCGATACGGTTCGCGACTATCTCTATGTACCGTCCATCGTGATGCAGTGGATGTTCCCGGTCATCATCACCTTCTCGATCTTCCTATTCATGCGCGGGCACGACCTGCCGGGCGGCGGCTTTGCGGCCGGCATCACCATGGCCATCGGCTTCCTGCTGCAATATCTTGCCGGCGGGGCGCGCTGGGCGGAGGACCGCATCCGCATCCTGCCACTGCGCTGGATGGGTTTCGGCCTTTTGATGGCGGCGGCGACGGGTATCGGCTCCTGGTATTTCGGCTACCCGTTCCTGACCTCCTATTTCCAGTATACGGAGATACCCTATATCGGCAAAATGCCGACGGCATCCGCCCTGCTGTTCGACCTCGGCGTCTTCTCGCTGGTCGTCGGCTCCGTTGTTCTTATCCTGATAGCACTGGCACACCAATCGTTGCGTAACTACCGCGTTCGCACGCCTGAAGCCGCAAAAGCGGAGGACGTGTAA	MTLATILPFIVALPFVGALLTAFMPREGAAAGPASVAGAVALFGLVSSIFLYTSVSGGAVLKYDVEWLPQLGLNFTLRLDGFAWIFTMLITGIGLLVVLYARYYMSAEDPIPRFFAFLLAFMGSMLGVVLSGNVILLSIFWEMTSIFSFLLIGYWHQNAGARDGARMALTVTGIGGFSLLAGLLILGHMAGSYDLDRIIEAGAAIRAHSLYVPALILILGGALTKSAQFPFHFWLPNAMAAPTPVSAYLHSATMVKAGVFLLARFWPVLAGTPEWFWLVGAAGIITLLLGAYFAMFQQDLKGLLAYSTISHLGLITTLLSLGSPLAAVAAIFHMVNHATFKASLFMAAGIIDHETGTRDMRRLSGLYTYMPATATLAMAASAAMAGVPLFNGFLSKEMFFAEAVETHADSLLDRALPYVATLSGAFAVAYSLRFIHTVFFGPKPVDLPNPHPHEPPRWMRFPIEFLVFACLIVGIVPSLSIGPFLHSAVLSVLGAQTPVYSLSIWHGFNLPLIMSIAALIGGVTIYALLGGYFSRCDDGPPVFRHLRGQRIFERILVTVSWKWARWLESTLGTRRLQPQLRLLILVALLAGFSPLFLSEFSLSLPRVTTFDPIFAILWLIGMIAAMGAAWQAKYHRLAALVMLGVSGLVTCLTFVWLSAPDLAITQLLVEIVTTVLILLGLRWLPKRVEKVDSSDELPAQLRRARDFLLAAGSGIGMSVIAYAVMTLPVPNAIATYFLERAYTEGGGTNVVNVILVDFRGFDTFGEIAVLAIVALTVFALLRRFRPAHESIGVPEQQQMQNAFDAERPDRSNGDTVRDYLYVPSIVMQWMFPVIITFSIFLFMRGHDLPGGGFAAGITMAIGFLLQYLAGGARWAEDRIRILPLRWMGFGLLMAAATGIGSWYFGYPFLTSYFQYTEIPYIGKMPTASALLFDLGVFSLVVGSVVLILIALAHQSLRNYRVRTPEAAKAEDV	PGPT0013830_184	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013830-phaA-K05559	NA	NA
BMS010_05961	387			hypothetical protein	TTGCCATGGATGGAGAAAGGCCGCAGTTCAAGGCGCCATCCGCAAGTGTTGATCGGTCTCGTGGTCGCGAGCCTGCTGGTCATGATCGGCTTTCAGGCACCGGCCGGCGTCAAGCCCCTTTCCAAAACCAGCCGTCTCGAACGATTGCAGAGCGTCGATCCTGGCCGTTCCCTTTCTCTTCGCCAAAAGGATTGCGATAGCGGCAATGATTTCGGCTGCAGGACCGGCGATGCCGGTTCAGGCCTTCGCCTGGACGCGTTTGCCTCACCCACGCCAAGCCTCAGGGATAATGCCGACGTCTCGTTCGTTGCTGTTGCCATCGTGCCACAAGCTTTCCGGGACTTTGCCAGCGTGGTTCCACGCGCGCCTCCGCATATTATGTATTAG	MPWMEKGRSSRRHPQVLIGLVVASLLVMIGFQAPAGVKPLSKTSRLERLQSVDPGRSLSLRQKDCDSGNDFGCRTGDAGSGLRLDAFASPTPSLRDNADVSFVAVAIVPQAFRDFASVVPRAPPHIMY				NA	NA	NA	NA	NA
BMS010_05962	1545			hypothetical protein	TTGCGTTTTGCCGGCCTCGACGAGACGCAATCCGATTTCCTGCGCAGCTATCGCAGCATGCTGGAGCCTTACGTCAAGGCCGGCCTGCGGGACGTGATGACCCGTTTCCAGTCTATGCCGGACTGTTCTCCGTCTTTCGAAAGCGAAAACCAGCTCGACCGGCTGCACGATCTGCAATCCTCGCATTGGAGCGTTCTGACCGATGCGCGTTTCGACGCGCTCTATGCCGAGCGGGTGAAGGTTCTTTCCGACAATGCCAGCCGCATGGGTCTCGATCCGCGCTGGCAGATCGCCAGCCACGCGGTGGTTCTGGAACATCTCGTCGGCGGGCTGGTGGCCGAACACGCGCCGCGCTCCATCCTGCCCGGTAACCGCAAGAAAACCCGTGAACTGGCGGAAGCCGTCAAGAATGTCGTCCGTCTGGTGATGGTCGATACCGAAATCGCTGTCTCGTTGCGCTTCAACGAATTGCGCGTGCGCCATGGCCGCGAACTGGCGGAACAGCGCGACAATGACCGCTCGGAAGCGGCGAAGTTGCTGGGCACAGCGCTGACGGCCTTTGCCGCAGGCGATTTGCAGGCCCGCATCGGCGGCGAAGTGCCGGAAGCCTATCGCGATGTTGCAGCGTCCTTCAATACGGCCCTGGAAACGATTGGCGCATCGCTGATCGCGGCGCAAAACAGCATCGGCGAGGCCGAGGCGCTCGGCGCGCGCTTTGCCGATATGGGCCGCTCCATGGCCGAGCGCTCCCGCCAGCAGGCCGAAGCCCTTGCCGAAACCTCCCGCGCCATCCAGACGATGATCGGGAACGTTGCTGAAAACGGTGCGCGCATATCGGCCACGGAAACGGCTGTTTCCCGCGCCCGCGAGGCGGCGGTCGAAAGCGGCAAGGCTATCGGCGAGGCGATTGACGCCATGTCGGATATCGAACAATCCGCCGAACAGATCGGCAGGATCATCGGCACGATTGACGAGATCGCTTTTCAGACCAACCTTCTCGCCCTCAATGCTGGCATCGAGGCGGCGCGCGCGGGTGAAAGCGGACGTGGTTTCGCTGTCGTCGCGCAGGAAGTCCGGGCGCTCGCCCAGCGTTCCGCCGACGCTGCAAGGGAAATCAAGAGCCTTGTCGGCACCACCAAGACGCAGGTTGAGGGCGGCGTGCGCATGGTCAACCGCACGCAGGACGCAATCGGCGGTGTCGTCCGGCAGGTCTCTGGCATCAACGACATGATCGCGGAAGTCTCCCGGCATACGGCCGAGCAGGCCGGCGAACTGCAATCGGTTGCCGCCGATGTTGGCGAGCAGCAAAGGCAGGCCGGCCGGAACGCCGTCGATATCAGCGCGAGCGCCTCCGAGGCGGACGCGCTTCAAACCGTCATCCTCGAACTCGGCCGCACCATCCGCGAATTCCGCATTGCCCGTCAGGTACAGGCGAGAGTGGCGTCCGGTGCGGACCGGCAGGACACTTCATTTATGGGCCGTGCGGATAATCGCACGGATTACGGCCAGGATTACCAACAATTCAGACGTCAGGGAGTCATGTAA	MRFAGLDETQSDFLRSYRSMLEPYVKAGLRDVMTRFQSMPDCSPSFESENQLDRLHDLQSSHWSVLTDARFDALYAERVKVLSDNASRMGLDPRWQIASHAVVLEHLVGGLVAEHAPRSILPGNRKKTRELAEAVKNVVRLVMVDTEIAVSLRFNELRVRHGRELAEQRDNDRSEAAKLLGTALTAFAAGDLQARIGGEVPEAYRDVAASFNTALETIGASLIAAQNSIGEAEALGARFADMGRSMAERSRQQAEALAETSRAIQTMIGNVAENGARISATETAVSRAREAAVESGKAIGEAIDAMSDIEQSAEQIGRIIGTIDEIAFQTNLLALNAGIEAARAGESGRGFAVVAQEVRALAQRSADAAREIKSLVGTTKTQVEGGVRMVNRTQDAIGGVVRQVSGINDMIAEVSRHTAEQAGELQSVAADVGEQQRQAGRNAVDISASASEADALQTVILELGRTIREFRIARQVQARVASGADRQDTSFMGRADNRTDYGQDYQQFRRQGVM	PGPT0015710_24010	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_05963	300			hypothetical protein	ATGGCAGCCAGAAAAGCAGCTGAGGCGACGCTGAAACTGTCACCGGTGCTGGATCTCAACGAAGCATCGGCCCTGCACGGCAAGCTGATGACGCTGAGGGGAGCACCTTTGTCGGTAGATGCGTCCGAGGTGGAGCGTATCGGTGCGCTTTGCGCCCAGGTCCTCATGGCCGGCGCGAAATCCTGGGAAGAGGATGGCAAGCCCTTCGGTTTTGCCAGGGTGTCCGATGCATTCGACAAGACGATGAAACTGATAGGCGTCGATATTGACCATTTGCTCCCCAAGGAGATGCAAAAGTGA	MAARKAAEATLKLSPVLDLNEASALHGKLMTLRGAPLSVDASEVERIGALCAQVLMAGAKSWEEDGKPFGFARVSDAFDKTMKLIGVDIDHLLPKEMQK	PGPT0015685_804	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015685-cheX-K03409	NA	NA
BMS010_05964	366	cheY_3	COG0784	Chemotaxis protein CheY	GTGAAGAAAAAAGTTCTTACCGTGGATGATTCCCGGACGATCAGGAACATGCTCCTGGTCACGCTCAACAATGCCGGTTTCGAAACCATTCAGGCTGAAGACGGCATCGAGGGCCTCGAAGTGCTCGAGCAGAGCAACCCGGATGTTATCGTGACGGACATCAACATGCCCCGTCTCGATGGTTTCGGCTTCATCGAGGGTGTACGGCGCAACGAGAAGTATCGTGCGATCCCGATCCTCGTTCTGACGACCGAAAGCGACGCAGAGAAGAAGAACCGCGCCCGTCAGGCCGGTGCGACGGGCTGGATCGTCAAGCCGTTCGACCCTGCGAAACTCATCGATGCCATTGAACGCGTAACCGCCTGA	MKKKVLTVDDSRTIRNMLLVTLNNAGFETIQAEDGIEGLEVLEQSNPDVIVTDINMPRLDGFGFIEGVRRNEKYRAIPILVLTTESDAEKKNRARQAGATGWIVKPFDPAKLIDAIERVTA	PGPT0015690_3776	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015690-cheY|yneI-K03413	NA	NA
BMS010_05965	2262	cheA_1	COG0643	Chemotaxis protein CheA	ATGGATATGAACGAAATCAAGGAAATCTTTTTCCAGGAGTGCGAGGAGCAGCTCGCGGAACTGGAATCGGGGCTTCTTAAATTGAATGACGGCGACCGCGATCCGGAAACCGTCAACGCCGTTTTCCGTGCCGTTCATTCCATCAAGGGCGGGGCGGGTGCCTTCGGTCTCGATGATCTCGTGGCCTTCGCCCACGTTTTTGAAACGACCCTCGACTGCGTCCGCTCCAACAAGCTGGAGCCGACACAGGATGTTCTGAAAGTCATGCTGCGCTCCGCCGACGTGCTGGCGGACCTGACCAATGCAGCAAGAGACGGCGGCAGCGTCGATGAAAGCCGCACCCGCGGCCTCGTCAAGGAACTGGAAGCGCTGGCAAACGGCGAAACCGTTCCGGCATCCGCGCCCGCTCCCGTCGCAGTGAAGGCGCCGGAACCCGTGAAGGCCAAACCGACGGATGAGAGCGGTTTCGAGCCGATCCCGTTCTCCTTCACGGACTTTGCCGACGAAACCACGCCGCTGATGGAAGCGCCGTCCTTCCAGATCACCTTCAAGCCGCATGCGTCGCTTTATTCGAAGGGCAACGAGGCGGCACTTCTTCTGCGCGATCTTTCGCGCATCGGCGAAATGAGCATCAATTGCGACATGTCGGAGCTGCCTTCGCTCGACAAGCTCGATCCTGAAGCATCCTATCTTTCCTGGACGGTTTCGATTGCGACCGACAAGGGCGAAGAGGGCATCCGCAGTGTCTTCGAATTCGCCGAATGGGATTGCGATCTGGAAATCGTGCCGGTTGTTTCGGATGCCGCAGACGACGCGGAAGAGCTTCCGATGATCCCGGTGCCGTTCGATCTTTCGGCCCTCGATAGCGGACCGGAAGAGCAGCCCGCTGTTGAAACCGCCACGGCTGAAGCGTCCTACGTTGCCGCAGCCGTCGAAACGGCAGTTGCGACGACGCAGATCGCCCAGAGCGTCAATGCGGCAATCGAAAAGCGTGAAGCTGCGGCAGCGCCTGCCGCAGCCCAGGCGAACGCCAACGCTGCCGCCAATGCCAGCGCCGGCCAGACCATCCGCGTCGACCTCGACCGTGTCGACCGCCTGATCAACCTCGTCGGCGAACTCGTCATCAATCAGGCGATGCTCTCGCAGAGCGTCATCGAAAACGATGCGAGCGGCACGTCTGCCGTCAATATGGGCCTCGACGAGCTGCAGCAGCTGACGCGCGAAATCCAGGATAGCGTCATGGCCATCCGCGCTCAGCCGGTGAAGCCGGTGTTCCAGCGCATGTCGCGTATCGTCCGCGAAGTCGCCGACATGATCGGCAAGCAAATCCGCCTCGTCACCGAAGGTGAGAACACGGAAGTCGACAAGACGGTCATCGACAAGCTGGCCGAACCCCTGACGCATATGATCCGCAACGCCGTCGACCACGGCATCGAAACGCCGGAAAAACGCGAAGCGGCGGGCAAGAACCCGGAAGGCACCATCAAGCTTTCGGCGAAGCACCGTTCGGGCCGTATCCTGATCGAGCTTCAGGACGATGGCGCGGGCATCAACCGCGAGCGCGTTCGCCAGAAGGCAATCGACAACGATCTCATCGCCGCTGATGCGAACCTGACGGATGAAGAGATCGACAATCTGATCTTCGCGCCGGGCTTCTCCACCGCCGACAAGATTTCCGACATTTCCGGCCGCGGCGTTGGCATGGATGTGGTCAAACGCTCCATTCAGGCGCTTGGCGGCCGTATCAGCATCTCCTCGCGCCCCGGCCATGGCTCGACCTTCACCATGAGCCTGCCACTGACGCTCGCCGTTCTTGACGGCATGGTGGTGACCGTTGCCGGCCAGACGCTGGTGGTGCCGCTGACGGCAATCGTCGAAACCCTGCAGCCGGAAGCGAAGAATATTCATTCCTTCGGCGCGAACCAGCGGTTGATCTCCATCCGCAACTCCTTCTGCCCTCTGGTCGATGTCGGTCGCGTGCTGAACTTCCGCCCGACCCAGGCCGATCCGGTTGAAGGCGTCGCCCTTCTGGTGGAATCGGAAGGCGGCGGCCAGCGCGCCCTGATGGTCGACGCGATCCAGGGCCAGCGTCAGGTTGTCATCAAGTCGTTGGAAGCCAACTATACCCATGTTCCGGGCATTGCCGCCGCCACCATTCTCGGTGACGGACGTGTCGCGCTAATCCTGGATGTCGATGCCATCGTCAGCGCCTCGCGCGGACAGCCCCTGAAGCAGGAAATGTCGCTTGCGGCGACGGGTTGA	MDMNEIKEIFFQECEEQLAELESGLLKLNDGDRDPETVNAVFRAVHSIKGGAGAFGLDDLVAFAHVFETTLDCVRSNKLEPTQDVLKVMLRSADVLADLTNAARDGGSVDESRTRGLVKELEALANGETVPASAPAPVAVKAPEPVKAKPTDESGFEPIPFSFTDFADETTPLMEAPSFQITFKPHASLYSKGNEAALLLRDLSRIGEMSINCDMSELPSLDKLDPEASYLSWTVSIATDKGEEGIRSVFEFAEWDCDLEIVPVVSDAADDAEELPMIPVPFDLSALDSGPEEQPAVETATAEASYVAAAVETAVATTQIAQSVNAAIEKREAAAAPAAAQANANAAANASAGQTIRVDLDRVDRLINLVGELVINQAMLSQSVIENDASGTSAVNMGLDELQQLTREIQDSVMAIRAQPVKPVFQRMSRIVREVADMIGKQIRLVTEGENTEVDKTVIDKLAEPLTHMIRNAVDHGIETPEKREAAGKNPEGTIKLSAKHRSGRILIELQDDGAGINRERVRQKAIDNDLIAADANLTDEEIDNLIFAPGFSTADKISDISGRGVGMDVVKRSIQALGGRISISSRPGHGSTFTMSLPLTLAVLDGMVVTVAGQTLVVPLTAIVETLQPEAKNIHSFGANQRLISIRNSFCPLVDVGRVLNFRPTQADPVEGVALLVESEGGGQRALMVDAIQGQRQVVIKSLEANYTHVPGIAAATILGDGRVALILDVDAIVSASRGQPLKQEMSLAATG	PGPT0015645_1443	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015645-cheA|wspE-K03407	NA	NA
BMS010_05966	909	cheR_1		Chemotaxis protein methyltransferase	ATGGCAGCACTTAATTTCAGCGATCAGCGCCAGTCTCCCGACGAGGTTCTTGCCAGCGGCGAATACCCGCTGACGAGACGCGACCTGTCGGAAATCGCGGCGATGATCTATGCCGATGCGGGCATCTATCTCAACGACACCAAGGCGTCGCTGGTTTATTCCCGCCTGTCGAAGCATATCCGCAATCTCGGCCTGTCGGGTTTCCGCGAATATTGCGCATTGGTGTCCTCGCCGGATGGCGCGCAGGCGCGGCGCGAAATGCTGTCGCACCTGACGACGAATTTCACCCGCTTCTTCCGCGAGAACCATCATTTCGAACATCTGCGTGACGAGGTCCTGCCGGGCCTCATCGCCCGGGCGAAGAGCGGCGGGCGTGTCCGCATCTGGTCGGCCGCCTGCTCGGACGGGCAGGAGCCCTATTCCATCGCGCTTACCGTGCTTGCCATGTTCCCGAATGCGGCGGATTACGATTTCAAGATCCTGGCGACGGATATCGACCCCAAGATTTTGGCGCAGGCCCGGGCAGGGGTCTATGACGACAATGCGCTCGAAACCGTGTCTCCCACCATGCGCAAGCAATGGTTCACGGAAGTCGATGCCGGCGGTCGCCGCAAGTTCCGTATCGACGACAAGGTCAAGCGCCTCATCACCTTCAACGAATTGAACCTGATGACGCAATGGCCCTTCAAAGGCAATTTCGACGTCATTTTCTGCCGCAACGTCGTCATCTATTTCGACGAGCCGACGCAGATGCGCATCTGGTCGCGTTTTGCCGGGCTACTGCCGGAAGGCGGTCATCTTTATATCGGGCATTCCGAACGCGTTTCCGGTGACGCCAAGAACCTGTTCGACAATACGGGCATCACCACCTACCGCTTCACTGGCCAGGCTTCGGGGAGGAAGGCATGA	MAALNFSDQRQSPDEVLASGEYPLTRRDLSEIAAMIYADAGIYLNDTKASLVYSRLSKHIRNLGLSGFREYCALVSSPDGAQARREMLSHLTTNFTRFFRENHHFEHLRDEVLPGLIARAKSGGRVRIWSAACSDGQEPYSIALTVLAMFPNAADYDFKILATDIDPKILAQARAGVYDDNALETVSPTMRKQWFTEVDAGGRRKFRIDDKVKRLITFNELNLMTQWPFKGNFDVIFCRNVVIYFDEPTQMRIWSRFAGLLPEGGHLYIGHSERVSGDAKNLFDNTGITTYRFTGQASGRKA	PGPT0015670_582	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015670-cheR|pilK-K00575	NA	NA
BMS010_05967	1056	cheB_10	COG2201	Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGAGCGCACTCGCACGGGTACTCGTCGTCGATGATAGCCCCACCATGCGCGGCCTGATTTCGGCTGTCCTCAAGGCCGATCCGGAAGTCGAGGTGGTCGGACAGGCCGGCAACGCCATGGAAGCACGCGCGGCCATCAAGCAGCTCAATCCCGATGTCGTGACGCTCGACATCGAGATGCCGGAAATGAACGGTCTCGAATTTCTCGAAAAGATCATGCGCCTGCGGCCCATGCCGGTCATCATGGTCTCGTCGCTGACCCATCGCGGCGCGGATGCTTCGCTGGCTGCGCTTGAAATCGGTGCCTTCGACTGTGTCGGCAAGCCGGCGCCGGGCGATGCACGCCCCTTCGGCGATCTCGCCGACAAGGTGAAGGCTGCAGCCCGCTCGCAACACGCCGCCTACCGTGCGGCGCGCCCGGAAGCCGCCGCCGCGCCGCAGCCGGTCCCGGTCAGTGAATATCGGGCTGGGCGCAAGGTCGTGGCCATCGGTTCCTCCACGGGCGGTGTCGAAGCGCTGATCGCCGTGCTGCAGAAATTCCCGGCCAATTGCCCGCCGACCGTCATCACCCAGCACATGCCGCCGACCTTCACCAAGAGTTTTGCCGAACGGCTGAACCGCATCTGCGCCCCCGTGGTGGAAGAGGCGACAGACGGTGCGCGTCTGCAAACCGGCAAGATCTATCTTGCGCCGGGCGGCGAGCGCCATTTGCAGATCGCCAACCGGTCCGCACCCTGCTGCCGGCTTGTCGAGCGTGATCCCGTCAACGGCCATCGCCCCTCCGTCGATGTGCTGTTCGATTCGGTGGCCGAGCTTGCCGGCCGTAACGCCGTCGGCGTCATTTTGACCGGCATGGGCCGCGATGGCGCAGCCGGGCTGTTGAAGATGCGTCATGCCGGCGCGCGCACCGTCGGCCAGAACGAAAAAACATGTGTCGTCTACGGCATGCCCCGCGTGGCCTATGAACTTGGCGCCGTGGAACAGCAACTCCCGCTGGCCTCCATCGGCGAAGAAATCCTGAAACTAACCACTGCCCGTAAAGAAGGTGCTGACTAA	MSALARVLVVDDSPTMRGLISAVLKADPEVEVVGQAGNAMEARAAIKQLNPDVVTLDIEMPEMNGLEFLEKIMRLRPMPVIMVSSLTHRGADASLAALEIGAFDCVGKPAPGDARPFGDLADKVKAAARSQHAAYRAARPEAAAAPQPVPVSEYRAGRKVVAIGSSTGGVEALIAVLQKFPANCPPTVITQHMPPTFTKSFAERLNRICAPVVEEATDGARLQTGKIYLAPGGERHLQIANRSAPCCRLVERDPVNGHRPSVDVLFDSVAELAGRNAVGVILTGMGRDGAAGLLKMRHAGARTVGQNEKTCVVYGMPRVAYELGAVEQQLPLASIGEEILKLTTARKEGAD	PGPT0015650_2461	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015650-cheB|chpB|wspF-K03412	NA	NA
BMS010_05968	390	cheY_4	COG0784	Chemotaxis protein CheY	ATGTCTCTCGCAGAAAAGATCAAAGTTCTGATCGTCGACGATCAGGTGACCAGCCGGCTGCTCCTCAGCGATGCGCTGACACAGCTCGGCTTCAAGCAGATCACCGCCGCCGGTGACGGCGAGCAGGGAATGAAGATCATGGAGCAGCAGCCCCATCATCTCGTCATTTCCGATTTCAACATGCCGAAGATGGACGGTCTCGGTTTCCTGCACGCCGTCAGGGCCAACCCGACCACCAAGAAGGCCGCCTTCATCATCCTCACCGCGCAGGGTGACCGCGCGCTGGTGCAGAAGGCAGCCCAGCTCGGCGCCAACAACGTGCTGGCCAAGCCCTTCACGATCGACAAAATGCGCGCTGCCATCGAGGCGGTTTTCGGATCGCTGAAATGA	MSLAEKIKVLIVDDQVTSRLLLSDALTQLGFKQITAAGDGEQGMKIMEQQPHHLVISDFNMPKMDGLGFLHAVRANPTTKKAAFIILTAQGDRALVQKAAQLGANNVLAKPFTIDKMRAAIEAVFGSLK	PGPT0015690_1418	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015690-cheY|yneI-K03413	NA	NA
BMS010_05969	546	cheD_1		Chemoreceptor glutamine deamidase CheD	ATGATTGAAGCTGCGGCCAAGCGCGTACATATCATTCAGGGCGAGTATAAGGTCGTCAGCGATCCCGATGTGGTGCTGACGACGATACTCGGTTCGTGCGTGGCCGCCTGTCTGAGAGACCCCGTTGCCGGCTTAGGGGGCATGAATCACTTCCTGCTGCCGGGAACGGGAAATGTGACCGGCGGAGACGCCACGCGTTACGGCGTGCACCTCATGGAGCTCCTGATCAACGGCCTCCTGAAGCAGGGGGCAAGGCGCGACCGGCTGGAAGCCAAGGTTTTCGGCGGCGCCAAGACGATTGCCAGCTTCTCCAACGTCGGCGAGCAGAATGCCATCTTCGCCATGCAGTTTCTGAAGGATGAAGGTATTCCGGTCTTAAGCTCCTCCACGGGCGGGGACCACGGCCGAAAGATCGAATTCTGGCCGGTCTCCGGGCGTGCACGTCAGCATCCGCTCAGCGGCGCGGAAACCCAGAAGACGGTTGCCATGGAAACGCGTCCGGTGCCGGCCCCCAAGCCAGTCGCCAACGACATCGAATTTTTCTAG	MIEAAAKRVHIIQGEYKVVSDPDVVLTTILGSCVAACLRDPVAGLGGMNHFLLPGTGNVTGGDATRYGVHLMELLINGLLKQGARRDRLEAKVFGGAKTIASFSNVGEQNAIFAMQFLKDEGIPVLSSSTGGDHGRKIEFWPVSGRARQHPLSGAETQKTVAMETRPVPAPKPVANDIEFF	PGPT0015665_785	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015665-cheD-K03411	NA	NA
BMS010_05970	384			hypothetical protein	ATGCAGCTTGCAGAGCACACCGCCGCCACTCCGTTCGAAGAAGCCCTGCCGGACGTTCTGATGCGCGTGGTATCGGAACTGCACGACGTCGCTTATCTCATCGAGCGCATCGAGCCGCAATTGCTTGAAGTGACCAGCGGTCAATTGTCCAGTGAAGGCGTCAAGCTGTTGCAGGGCATCGACCTTGCCGTCCAGAAAACCCGCGGCCTTGCGGAATTCATCGATACCATCACCGGTTCCATCCCCGGAGACTGGATCGTGGATGTTTCCACCGCCCTAAGCCTCGTCAAGCTGGCCGAAATGCAGAAGGCGCTCGGCGCGGCCTTCCGCCATGGCCATTCCCAGCCGCTCGACAAGGCATCGGGCGACTTCGACCTCTTCTAG	MQLAEHTAATPFEEALPDVLMRVVSELHDVAYLIERIEPQLLEVTSGQLSSEGVKLLQGIDLAVQKTRGLAEFIDTITGSIPGDWIVDVSTALSLVKLAEMQKALGAAFRHGHSQPLDKASGDFDLF				NA	NA	NA	NA	NA
BMS010_05971	1683	fliF_2	COG1766	Flagellar M-ring protein	ATGAATCTGTTAAATCAAATCCCTCAGGTCTTAAAGAATGTCGCGGCGCTGGGGCAGACACGGCTGCTGATGCTGGGCGGCGTGGGCGTTGTGTCCATGGCCATCATCCTTGCCGCAGCTCTTTACGTGAACCGTCCCGCTTACGAGACCCTCTATGTGGGGCTTGAAAAAAGCGACCTTAACAAGATCAGCATTGCGCTTGCCGAATCGGGTCTGGACTTTCAGGTGGGGACCGATGGTTCCAGCCTTCAGGTTCCCGTCGGCCTCACCAGCAAGGCAAGATTGCTTCTGGCTGAGCGCGGCCTGCCCGACAGCGCCAATGCCGGTTATGAGCTTTTCGACAATGTCGGCTCTCTCGGCCTGACCTCCTTCATGCAGGAAGTGACGCGCGTTCGCGCCCTTGAGGGCGAGATCGGCCGCTCCATCCAGCAGATCGACGGCATTGCGGCCGCACGCGTCCATATCGTCATGCCTGACGTCGGCAATTTCCGCCGTGGCGAACAGAAGCCCACCGCATCGGTGATGATTCGCGCCAGTGCTTCGGCCGGCCGCAAGGCGTCCGCATCCATCCGCCACCTCGTCGCCTCGGCCGTTCCCGGCCTTGAAGTCGATGATGTGACCCTGCTTGATTCGACCGGCCAGCTTCTCGCTTCCGGCGATGATGTCACCAATGCAGCCATGAACCGCTCATTGACGCTGGCGCAGAATGTGCAGCAGGAAATCGAAACCAATATCGACAAGGCGCTGGCGCCTTTCCTCGGCATGGACAATTTCCGCTCCAGCGTCACGGCGCAGCTGAATACCGACAGCCGTCAGATTCAGGAAACCGTCTACGATCCGGAATCGCGCGTCGAGCGCTCCGTGCGCACGGTAAAGGAAGACCAGAAGTCCCAGGAAACGCAGCCGGATACGGCGGCGACCGTGGAACAGAACGTACCGCAGGCAGCGCCCCAGGGCGGCGGCGGCGGTCCGCAGTCCTCCGACCAGTCGGCCAAGAAGGAAGAGCAGACCAATTACGAGATCAATTCCAAGACGGTAGCCACGGTCAAGAACGGCTACACCGTCGAGAAGATTTCGGTCGCGGTCGTCGTCAACAAGGGCCGGATCGCCAAGATGGTCGGCGAGCCCGCCGATCAGGCGAAGATCGACGCCTATCTTGCCGAAATGCAGAAGATCGTCACCTCGGCAGCGGGCATTTCCTCCGACCGTGGCGACATCGTCTCGCTGACGGCGATGGACTTCCTCGAAACGCAATTGCTGGATGAGGCCGCAACCGGCCCGGGCATCATGGAAGTGCTGAGCCGCAATTCCGCCGGCATCATCAACTCGCTCGCCTTTGTCGCGGTCGCCTTCCTTGTCGTCTGGCTCGGCGTACGCCCTCTGGTCCGCACGGTGACCGGCAACGGTGCCGCCGCAGGTCAGCTCAGCCAGGAGGCCGCCGGTCTCGAACTGCCGGATTTCTCTCCCGGCATGGATGCGGGCGCAGGCGGTCTCATGGAAGGTTTCGGGGCGGATTTCGGCTTCGACAGCACCGACGACCTTCTGGCGGGCGGCGATGGCGAGGGCACATTCAACCGCCGGGTTCGCGAAGGACCGGAACGCAGGCTCTCCCGCATGGTGGAAATCAGCGAGGAAAGGGCCGCCAAGATCCTGCGCAAATGGGCGGTGGAAAAAGCAGCATAA	MNLLNQIPQVLKNVAALGQTRLLMLGGVGVVSMAIILAAALYVNRPAYETLYVGLEKSDLNKISIALAESGLDFQVGTDGSSLQVPVGLTSKARLLLAERGLPDSANAGYELFDNVGSLGLTSFMQEVTRVRALEGEIGRSIQQIDGIAAARVHIVMPDVGNFRRGEQKPTASVMIRASASAGRKASASIRHLVASAVPGLEVDDVTLLDSTGQLLASGDDVTNAAMNRSLTLAQNVQQEIETNIDKALAPFLGMDNFRSSVTAQLNTDSRQIQETVYDPESRVERSVRTVKEDQKSQETQPDTAATVEQNVPQAAPQGGGGGPQSSDQSAKKEEQTNYEINSKTVATVKNGYTVEKISVAVVVNKGRIAKMVGEPADQAKIDAYLAEMQKIVTSAAGISSDRGDIVSLTAMDFLETQLLDEAATGPGIMEVLSRNSAGIINSLAFVAVAFLVVWLGVRPLVRTVTGNGAAAGQLSQEAAGLELPDFSPGMDAGAGGLMEGFGADFGFDSTDDLLAGGDGEGTFNRRVREGPERRLSRMVEISEERAAKILRKWAVEKAA	PGPT0015430_1015	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015430-fliF-K02409	NA	NA
BMS010_05972	732			hypothetical protein	TTGAAAGTCGATGTTGATATCCGCAGGCTGTCTGCCAAGCCTATGGAGGGCATGGGTAAACCCTTGCCGCGCGATCAGCTTGCTAAAAACGTCGCAGCCACGGCTGCTGCCGGTAACGTTGCAGGCGCACTGGATCTGCTCGTAACCTACGCTGGCGCCTCGCATTATCTGCTGGCGCGGGATGATCTTCTCGAAGAAACCGGACTGAAATTCATCGTCACCTCCGACTGGCCTTTTGATCTGGTCCGCAGGCTTGGTGTCGAACTGGCCAACAGCCAGAACAGATCGAGCGAAATGGAGAAATGCCTTTCGCTTCTGCAGCCGCGGCTGCTCTTCCTTCCCGACGATGTTTCGGTTCCCTACGGCATAGACCGGCAATATTCGGCGCTGTCTTTCTGCGTGGGGCGCATCCGGCTTTCGCTGCTGCTGCTGTTTCCCGAAGAAGCGGTGCCTTCGCCGGAAAGGCTGCGCGAAATCGCTTTGCTGACGGGCTATTGCGTCAGCTTCGGCATTGCCAGCGAAGCAAAAACCGTGCGCGATATCGATCTCACGGAGCGCGAGCTCGAATGCCTGTTCTGGATCGCGGAAGGCAAGACGAGCGATGAAATTGCGATGATCCTTGGCATTTCGCGCAATACGATCAATAATTACATTACAAGCGTGATGCGTAAAACCGCGACGAAAACCCGCTCGGAGGCAATTGCCTACGCCGTGCGCAACAACCTCGTATAA	MKVDVDIRRLSAKPMEGMGKPLPRDQLAKNVAATAAAGNVAGALDLLVTYAGASHYLLARDDLLEETGLKFIVTSDWPFDLVRRLGVELANSQNRSSEMEKCLSLLQPRLLFLPDDVSVPYGIDRQYSALSFCVGRIRLSLLLLFPEEAVPSPERLREIALLTGYCVSFGIASEAKTVRDIDLTERELECLFWIAEGKTSDEIAMILGISRNTINNYITSVMRKTATKTRSEAIAYAVRNNLV				NA	NA	NA	NA	NA
BMS010_05973	702			hypothetical protein	ATGTTTTACCGCAGCCCTGTCGTGACGAGCCGGTCAGATCTTTTTCCGAAGCTCGTCGCCATGCAGAAGCTGGTCGGCGCGCGCAATTTCGTGGTGACGAAGGCTGCGGCTTCCGGTTTCCCGAACAAGAAGAAGCTGACCTGCGAGCTGGAAAACTGGGGCATGAATGCCGCAGAGCAGAGCGCGCAGTTCATCCGCGCCGTCGGCGACATTCTTCTCGATCATATCGAGACATCGCTCCTGCCGGTCATCTGGCGCAACAAGAATGCCGGCGGCTTTGCCGATCTTCCCGATGTGCCCGCACTTCTGCGCCGTATCGAGAACGACACATTGCCCTATGCGGGGCTGGCGCTCCCGGTGCGGCTCGGCACCATCGGCAACGGTTACATTGTCTTCTGCGGAACCAACCTCGTTCTCGACAATGAGGTCGTGATCGAACAGCACATCAAATGCTGCGAGATCATGGTGGACATGCTGGCGCTGGACGAGCGCAAGGCGGCGCCTTCGGAAGCGCTGAGCGAGAGGGAAATCGCCTGTCTGCAACTGGCGGGGGACGGCCGTATCAGCGAAGAAATCGCGGTCAAGCTCGGGCTTTCCGTGCATACCGTAAACGCCTATCTCGGTTCGGCGACGATCAAGCTCGATTCCGTCAACCGTATCCAGGCGATCGCCAAGGCCATCCGGCTCGGTTATATCCACTGA	MFYRSPVVTSRSDLFPKLVAMQKLVGARNFVVTKAAASGFPNKKKLTCELENWGMNAAEQSAQFIRAVGDILLDHIETSLLPVIWRNKNAGGFADLPDVPALLRRIENDTLPYAGLALPVRLGTIGNGYIVFCGTNLVLDNEVVIEQHIKCCEIMVDMLALDERKAAPSEALSEREIACLQLAGDGRISEEIAVKLGLSVHTVNAYLGSATIKLDSVNRIQAIAKAIRLGYIH				NA	NA	NA	NA	NA
BMS010_05974	1848			hypothetical protein	ATGCACAACCGGCTCTTTAAGTCCGTTGCCGGCAAGGTCGTCGCGTTGACGATCGGCCTGATCACGCTCAGCGTGGCGGCAGTTGGTTTTTCGACCTACATTCGCTTGAAGGACAACATCATCACCACCGCGCTGCGTGATACGCACAGCGCAATGCGCAGCATGGCGATCCTTTACGAACTGAAGGTCGGCGGCGTCGCCCTCGAAATGGTGGATGGGGACCTCAAAAGTGTGGGTCGCGCCAGCATCGGAACGATGCGCGACAATGATCTCGTCGACCGCACCGCAGCCGGTAACGGCGGTATTTCTACCGTGTTTGAAGCCAAGGGCGGCGAGTTCATTCGCATGACCACCAATCTGAAGAACGAAAAGGGCGAGAGAGCAGCCGGCACCAAGCTTGCTACCGATCATCCCGCTTTTGCGAAAGTCTCCAAGGGTGAGGCCTATTTTGGCACCGCCACGCTGTTCGGCACCAGCTACATGACCGGTTATATGCCGGTTACGAACAAGACCGGCGCAACCGTCGGCATCCTGTTCGTGGGCGTTCCCATGGATGTCTACGATGCGCAGATATACAGCCTGCGCGACATGATGCTGATCTGCGGCGCGCTCGCCATGCTCGGCGTCGGATTGCTCGCCTATTTCGTCATCAAGCGCACGCTTCAGCCGCTTGGCAAGCTGACCGATGCGGTGAAGTCCCTTTCGGACGGCAATCTCGACACGCCGATCCCCTATGCCACTAACACCAATGAATTCGGCAACATCGCCCGCGCGCTGGTGATTTTCCGCGAGAATGCGATCGAGAAACTGGCGATTGAAGGCAAAAGCGCCGAGGAACGCTCCGCAGCCGAGTCCGAACGTCACCGCAACGACGCCGAGAAACAGGAGCTCGACGGGCAGATCGAGTTTGCGGTCAGCGAGATTGCTTCCGGCCTCGGCAGGCTCTCGCGTGGCGATCTGAGCCGCACGATCGAGACTCCTTTCGCTGGTCGTCTTGATCGTCTGCGCACGGATTTCAACGAATCTCTTCTCAACCTGCGCGATGCGCTGGGGCAGATCCGCGAGCGCACGCTCATCATCCAGCATAGCGGCTTTGAAATCGAGCAATCGTCGGTCGATCTGTCGAAGCGCACCGAAAATCAGGCCGCCTCGCTGGAAGAAACCGCCGCCGCCGTGGACGAAATCACGGTTACTGTCAGATCGTCGGCTGAGCGGGCGCGGGAGGCCAATGAGGCCGTGCGCATCACCAAGCAGAGCGCCGACAGTTCCGGTTCGGTCGTCAGCAACGCCGTCGACGCCATGGGACGCATCGAAGACGCCTCGCGCAAGATCGAGCAGATCATCGAGGTCATCGACGATATTGCCTTCCAGACCAACCTTCTTGCGCTCAATGCCGGCATCGAGGCGGCGCGTGCAGGCGAGGCGGGTAAGGGTTTTGCCGTGGTGGCGCAGGAAGTGCGCGAGCTCGCCCAGCGCTCCGCCGACGCGGCCCGCGAGATCAAGCAGCTCATCAACCAGTCGACGCATGAGGTCAGCTCCGGCTCGAAGCTGGTACAGGAGGCGGGCACGGTTCTTTCCGCCATCAGCCAGCAGATCGTTACCGTCAGCCAGCATGTCGAAACCATCGCGACGGCGACGCAGGACCAGTCCTCCGCGCTTCATAACGTCAACAGCTCCGTCAACCAGATGGACCAGATGACGCAGCAGAATGCGGCGCTTGCCGAACAGTCGAGCGCGGCCAGCCGGGTATTGTCAGGCGAGGTGGAAGCGCTGCTCGATCTGGTACAGCGGTTCCAGATGGAGCAGGGTTCGGCGACCGGCAGGGATCGCTACAATCAGGCGGCCTGA	MHNRLFKSVAGKVVALTIGLITLSVAAVGFSTYIRLKDNIITTALRDTHSAMRSMAILYELKVGGVALEMVDGDLKSVGRASIGTMRDNDLVDRTAAGNGGISTVFEAKGGEFIRMTTNLKNEKGERAAGTKLATDHPAFAKVSKGEAYFGTATLFGTSYMTGYMPVTNKTGATVGILFVGVPMDVYDAQIYSLRDMMLICGALAMLGVGLLAYFVIKRTLQPLGKLTDAVKSLSDGNLDTPIPYATNTNEFGNIARALVIFRENAIEKLAIEGKSAEERSAAESERHRNDAEKQELDGQIEFAVSEIASGLGRLSRGDLSRTIETPFAGRLDRLRTDFNESLLNLRDALGQIRERTLIIQHSGFEIEQSSVDLSKRTENQAASLEETAAAVDEITVTVRSSAERAREANEAVRITKQSADSSGSVVSNAVDAMGRIEDASRKIEQIIEVIDDIAFQTNLLALNAGIEAARAGEAGKGFAVVAQEVRELAQRSADAAREIKQLINQSTHEVSSGSKLVQEAGTVLSAISQQIVTVSQHVETIATATQDQSSALHNVNSSVNQMDQMTQQNAALAEQSSAASRVLSGEVEALLDLVQRFQMEQGSATGRDRYNQAA	PGPT0015710_12418	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_05975	3510	rcsC_17		Sensor histidine kinase RcsC	GTGCTTCCTGGGTGGATCATATTCGGTTCGGCCTTCGCTTATGTCCTGCTGCTGTTTGCGGTTGCAAGCTATGGGGACAGGAAGAGCCGCAAAAGAAACGCTCCGAACAAGGGGCGTCCGTTCGTCTATGCGCTCAGCCTGGCGATTTATTGCACCTCCTGGACCTATTTCGGCGGCGTGGGGCTTGCGGCAGACAGGGGGCTGGAATTTCTCGGCATCTATACCGGCCCGATACTTGCCTTCACCATCGGCATGCCGATCATCCGCCGCATCGTCGAACTGGCGAAAACGGAAAAGCTGACGTCCGTTGCGGATTTCATCGCCGCCCGTTACGGCAAGAACTCCACAGTGGCAATGATCGTCGCCATCATCGCTCTCGTTGGCGCCATTCCCTATATCGCTCTGCAACTGAAAGCCGTTTCCAGCTCGGTTGCGACGATGGTCGATCCCGGCGATTACGGCATTGGCAGCGGCAATCTTTATTTCCTCGATCTGCCGCTGGTCGTCACCATCGTCATGGCGGGGTTTGCCGTCATGTTCGGCACCCGCCACACCGATGCCACCGAGCATCAGGACGGGCTCATTCTGGCGATCTCGATGGAATCGCTGGTCAAGCTCGTCGCCATGTGCACCGTCGGCTTTTATGTGCTGTTCGTGCTCTTTGACGGTCCCGTGCATCTGTGGCAGCTCGCCTCCGATAACGAACAGGCCATGCGGGCCATATCCTATCACACGCCCGTCAGCCGCTGGATCGTTATGACCCTGCTTTCCGGCTTCGCCATCATCCTGTTGCCGCGCCAGTTCCACGTCACCGTGGTTGAAAACCGCACGCCACAAGAGCTGCGCATGGCTGGGTTCCTGCTGCCGCTTTATCTCATCGCGATCAACATCTTCGTGCTGCCGATTGCGCTGGCCGGCATTCTGACGCTCGGCGCCAATGGCGATGCCGATCTCTACGTGCTGCAATTGCCGCTCAATCACCAAATGCCGGTCGTGTCGCTGATCACCTTCATCGGTGGATTTTCGGCGGCGACCGCGATGGTGATCGTCGCCTCGGTGGCGTTATCGATCATGATTTCCAACGATATCGTCATGCCGATCTTCCTGCGGCAGAAGCTCCTGAACCGTTCTCCGCACCGGGACGACTTCGCCAAAACGCTGCTCAACATCCGCAGGACGGCAATCTTTGCGGTGCTGCTTCTGGGCTATGGCTATTATCGCGCCGCCGACAGCGCCACGGGCCTCGCCTCCATCGGCCTTCTCGCATTCGCCGCCATTGCGCAGATGGCCCCTGCCTTGTTTGGCGGGCTGTTCTGGCGGCGCGCCAATGCGCGCGGCGCAATCGCCGGCTTAAGTTCCGGCTTTTTCGTCTGGGCCTATCTGCTGTTCCTGCCAAGCTTCGGCGGGCCGGATAATTCCGAGGTCGCGGCGAATATTCTCGGCTTCCTGTTTTCCGGCAGCACGGTGTTCAACGGGCCTGAAGCCGACCCGTTCGTGAATGCGGTCATTCTCAGCCTGCTCGTCAACAGCCTTGCCTTCGTGCTCGGCTCGCTTTCGCGCAATCCGAGGCCGGTGGAGCGCATCCAGTCCGGCATCTTCGTCAAACGCCACTCGAAATCGCAATTTGCGACGCGCGGCTGGAAAACCCGTGTCAGTGTCGGCGACCTCAAAAGCGCGGTGGCGCGCTATCTTGGCGAGGAGCGCATGCTGCGGTCACTCGCGACCTATGAAAAGACGGCAGGCAGGAAACTCAATGACGACCAGCCGGCGGACATGGCGCTGATCCATTTCTCCGAACAGTTGCTGGGCAGCGCCATCGGCTCCTCCTCCGCCCGTCTGGTGCTTTCCATCATTCTTCAGAAGGCGGAAGATACCAGCGCGGACACGGCATGGCTGCTCGATCAGGCAAGCGAGGCCCTGCAATATAATCAGGACATGCTGCAAACGGCGCTCGCCCAGATGGATCAGGGCATTGCGGTTTTCGACAGTTCGCAGCAGCTGACCATCTGGAACCGGCGCTTCCGCACGCTGCTGGATTTGCCCGAACAATTCGGGCAGGTCGGCGTACCGCTCACGGATATCGTTTCGATGCTGCAGGAACGCGGCGATATGCCTGAAGGCGACACGAACGAGCTGATTACCAGCTTCCTGACAATGGACCTGCCCTTCTCGCTGGTGCTGGCGGGCGGCGAGCGCATCATCGAAGTGCGCTCCAACACCATGCCGGACAAGGGCATCGTCGCCACCTTCACCGATATCACCCAGCGTGTGGCGAGCGATCAGGCGCTGAAACAGGCAAACGAGACGCTGGAGCAGCGCGTGGCGGAGCGAACAGTGGAGCTTACCCGCGTCAACCGGGAACTGGCAGAAGCGAGGGCATCCGCCGACGAGGCGAATATCGGCAAGACACGGTTTTTCGCCGCCGCCGGCCATGACATTCTCCAACCCTTGAATGCTGCCCGCCTCTATTCCTCCTCGCTGGTCGAACGGCTTGGCGCATCGGGAGAAAGCGATCTCGTCCACAATATCGATTCGGCGCTGGAATCGGTCGAAACCATTCTCGGCGCGGTTCTCGATATTTCCCGTCTCGACACCGGCTCGATGAAGGCGCGCATGACATCCGTGCCGCTGAATGAGCTGCTGAAACGCATCGAAACCGATTTCGCGCCGATGGCGCAGGAAAAGAACCTCGACCTCGTGGTGATGCCAACCTCGCTCACGGTCCGCTCCGACCCCAATCTCCTGCGGCGTCTGATACAGAATCTCGTTTCCAACGCCATCAAATACACGTTGAAGGGCAAGGTGGTCGTCGGTGCGCGCCGCCGGGGCGGCGAAGTGGTCATTCAGGTGACGGATTCCGGTATCGGCATTCCCTCTTCCAAGTTTCGCACTGTCTTCAAGGAATTCGCCCGATTGGACGAGGGCGCAAGAACAGCATCCGGCCTCGGGCTCGGTCTTTCCATCGTCGACCGACTGTCGCGCATGCTGCACCATCCGGTACAGCTGATTTCCACCCCCGGAAAAGGCACGACCTTTCGCATCCACCTGCCGCGCGAGGCGGATCGCCTCGTACCGGCCAAAGCTGATGGCGGAACAATCAGTCCCGCAGCCAGCGACCGCCTTCAGGGCGTCCGGGTGCTCTGCATCGACAACGAGCCGAAAATCCTCGAGGGCATGACGCTGCTCTTGACCGGATGGGGTTGTGAGGTTTTACCCGCAGGTTCCGTGGCGACGCTTGAGGAACCCTTCCTCACTTTGACCCAAGCTCCAGACGTCATCGTCGCCGATTACCATCTGGACGATGGCGACGGCATCAGCGCCATCCGCCTCATCAGGACATTTTACGGCAAGACGATCCCTGCCCTGCTGGTGACGGCGGATCGCAGCCCGGAAGTGCGCAGCGATGCCGAAAAATACGGGATTTCGGTTCAGCACAAACCGGTCAAACCGGCAGCGCTGCGGGCCTATATCAACCAGATATCCAGTACGGCGCGGGCAGCGGCCGAATAA	MLPGWIIFGSAFAYVLLLFAVASYGDRKSRKRNAPNKGRPFVYALSLAIYCTSWTYFGGVGLAADRGLEFLGIYTGPILAFTIGMPIIRRIVELAKTEKLTSVADFIAARYGKNSTVAMIVAIIALVGAIPYIALQLKAVSSSVATMVDPGDYGIGSGNLYFLDLPLVVTIVMAGFAVMFGTRHTDATEHQDGLILAISMESLVKLVAMCTVGFYVLFVLFDGPVHLWQLASDNEQAMRAISYHTPVSRWIVMTLLSGFAIILLPRQFHVTVVENRTPQELRMAGFLLPLYLIAINIFVLPIALAGILTLGANGDADLYVLQLPLNHQMPVVSLITFIGGFSAATAMVIVASVALSIMISNDIVMPIFLRQKLLNRSPHRDDFAKTLLNIRRTAIFAVLLLGYGYYRAADSATGLASIGLLAFAAIAQMAPALFGGLFWRRANARGAIAGLSSGFFVWAYLLFLPSFGGPDNSEVAANILGFLFSGSTVFNGPEADPFVNAVILSLLVNSLAFVLGSLSRNPRPVERIQSGIFVKRHSKSQFATRGWKTRVSVGDLKSAVARYLGEERMLRSLATYEKTAGRKLNDDQPADMALIHFSEQLLGSAIGSSSARLVLSIILQKAEDTSADTAWLLDQASEALQYNQDMLQTALAQMDQGIAVFDSSQQLTIWNRRFRTLLDLPEQFGQVGVPLTDIVSMLQERGDMPEGDTNELITSFLTMDLPFSLVLAGGERIIEVRSNTMPDKGIVATFTDITQRVASDQALKQANETLEQRVAERTVELTRVNRELAEARASADEANIGKTRFFAAAGHDILQPLNAARLYSSSLVERLGASGESDLVHNIDSALESVETILGAVLDISRLDTGSMKARMTSVPLNELLKRIETDFAPMAQEKNLDLVVMPTSLTVRSDPNLLRRLIQNLVSNAIKYTLKGKVVVGARRRGGEVVIQVTDSGIGIPSSKFRTVFKEFARLDEGARTASGLGLGLSIVDRLSRMLHHPVQLISTPGKGTTFRIHLPREADRLVPAKADGGTISPAASDRLQGVRVLCIDNEPKILEGMTLLLTGWGCEVLPAGSVATLEEPFLTLTQAPDVIVADYHLDDGDGISAIRLIRTFYGKTIPALLVTADRSPEVRSDAEKYGISVQHKPVKPAALRAYINQISSTARAAAE				NA	NA	NA	NA	NA
BMS010_05976	429	mscL_1	COG1970	Large-conductance mechanosensitive channel	ATGCTTAACGAATTTAAAACCTTCATTGCCCGCGGCAATGTCATGGATCTGGCCGTGGGTGTTATTATCGGTGCGGCTTTCAGCAAGATCGTCGACTCCGTCGTCAACGATCTCATCATGCCGATTGTCGGCGCGATCTTCGGCGGGTTCGATTTTTCGAACTACTTCCTGCCGTTGAGTTCCAACGTCAACGCCCCCTCGCTCGCCGCCGCCCGCGAGCAGGGCGCCGTCTTCGCCTACGGCAACTTTCTGACGGTTCTCATCAACTTCCTGATCCTGGCCTGGATCATTTTCCTGATGGTCAAGGGCGTCAACAAGCTTCGTGAGTCCGTTGAGCGCAAGAAGGTCGAGGAAAAGCCGGAAGCAGCACCGCCGCCGGAAGACGTCAAGCTCCTCACCGAAATCCGCGATCTGCTGAAGACGCGTTGA	MLNEFKTFIARGNVMDLAVGVIIGAAFSKIVDSVVNDLIMPIVGAIFGGFDFSNYFLPLSSNVNAPSLAAAREQGAVFAYGNFLTVLINFLILAWIIFLMVKGVNKLRESVERKKVEEKPEAAPPPEDVKLLTEIRDLLKTR	PGPT0013771_1270	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013771-mscL-K03282	NA	NA
BMS010_05977	1167	aspC_4	COG0436	Aspartate aminotransferase	ATGTCCATTTTGAACAGTCTGAGTGCGCGCTCTCTGGCAGCTCCCGAGAGCGGCATCGTTGAGGTCGTGAATTATGCCCGGGGACGGGACAATCTCCTGCCGCTATGGGTCGGCGAAGGCGATCTGCCGAGCCCGGACTTCATCAATCAGGCCGCCATCGATGGGCTGAACAAAGGCGAAACCTTCTATACCTGGCAGCGCGGAATTCCCGAATTGCGCCAGGCGCTGAGCCGTTATTATCAACGTCATTTCGCAGCGTCGCTACCGCCGGAACATTTTTACGCAACCGGTTCCGGCATGCAGGCCATCGTGCTTGCCGTGCAGGCGTTGACCTCGCCGGGCGACGAAATGGTCTATCTGTCTCCGACATGGCCGAATATCGTGGCTGCCATCGGCGTGGCGGGTGCGAAGGCGGTTCCGGTCGGTATCGATTTCCGCGACGGCCGCTGGGATCTCGATATCAACAGGCTGGAAAGCGCGATCACGGATAAGACGAAGGCACTTTTCATCAATACGCCCTCCAACCCGACCGGCTGGACAGCGACGCTCGACAATCTCCGCGACGTTCTGGCTCTCGCCCGCAAACACGATCTGTGGATCGTCGCCGACGAGATTTATGCGCTCTATCATTATTCCGGCAGCCGTGCGCCGTCCTTCCTCGACGTAATGGAGCCGGACGACAAGATCGTCTTCGCCAATTCCTTCTCGAAGAACTGGTCCATGACCGGCTGGCGCGTCGGGTGGCTTGTCGCCCCGCCTGCCATCGGTCAGGTCATCGAGAATCTCATTCAATATTCCACCTCAGGCGTGGCGCAATTCATGCAGCGCGGCGCGGTCGCCGCCCTCGATCACGGCGATGGTTTCGTCCGTGAGAATTACGAACGCGCTCTGACATCCCGCGACATTCTCTGCGATGCGCTCATCGCGACGAACCGTGTGGAAACCCTGAAGCCGGACGGCGCCCTTTACGCCTTTCTCAAGATTGACGGCGTAACCGACAGCCGGGCGACGGCGCTCGATATCGTCGACAAGACCGGGGTTGGTCTTGCGCCCGGCACGGCCTTCGGTCCGGGAGGGGAACTGTTTCTCCGGGCCTGCTTCCTGCGCAACCCCAGGCAGATAGAAGACGCGGCTGGCCGGCTGGCATCCTATATCCTCGGCAGGTAA	MSILNSLSARSLAAPESGIVEVVNYARGRDNLLPLWVGEGDLPSPDFINQAAIDGLNKGETFYTWQRGIPELRQALSRYYQRHFAASLPPEHFYATGSGMQAIVLAVQALTSPGDEMVYLSPTWPNIVAAIGVAGAKAVPVGIDFRDGRWDLDINRLESAITDKTKALFINTPSNPTGWTATLDNLRDVLALARKHDLWIVADEIYALYHYSGSRAPSFLDVMEPDDKIVFANSFSKNWSMTGWRVGWLVAPPAIGQVIENLIQYSTSGVAQFMQRGAVAALDHGDGFVRENYERALTSRDILCDALIATNRVETLKPDGALYAFLKIDGVTDSRATALDIVDKTGVGLAPGTAFGPGGELFLRACFLRNPRQIEDAAGRLASYILGR	PGPT0020110_3895	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020110-aspB-K00812	NA	NA
BMS010_05978	1032	galE_5	COG1087	UDP-glucose 4-epimerase	ATGGCTGTTCTGGTCACGGGTGGGGCCGGTTATATAGGAAGCCACATGGTGTGGGCTTTGCTCGATGCCGGGGAAGAGGTCGTTGTTGTCGACCGGCTTTCGACGGGGTCGCGCTGGGCTGTTGCGCCGGCGGCGCGTTTTTATCTGGGCGATGCGGCGGACCGCGCCCTGCTGGACCAGATTTTCGAAGAAAACCAGATCGAGACCATTTTCCACTTCGCGGGCTCTGTAAGCGTTCCTGAATCGATCAGCCAGCCGCTCGAATATTACGAAAACAATACGGGCACGACCCGCGCCCTCGTCGCTGCGGCGGTCGCCCATGGCATCCGCAATTTCATCTTCTCCTCGACAGCCGCCGTCTATGGAAACCAGCCCTTTGATGGCCCGGTTCCTGAAACCGCGATCCTCAGCCCGGAAAACCCCTACGGCCTGTCGAAACTCGCCTCTGAAATCATGCTGCGCGATGTCGTGCAGGCGCATGATTTCAACTATGTGGCGCTGCGTTATTTCAACGTCGCCGGAGCCGACCCGCAGGGCCGCGCCGGGCCTTCGCCCACGGGCGTGGCGAACCTCATCAAAGTCGCCTGCGAAGCCGCAACCGGTCGCCGCGACCAGGTGGAAGTTTACGGAACGGATTACCCGACCGCCGATGGCACCGGTGTCCGCGACTATATTCACGTCAGCGACCTGATCGACGCCCATATGCTGGCCATGGCGCATCTGCGCGCCGGCGGCGGCACCCGCACACTCAATTGCGGTTATGGCGTCGGTTATTCGGTTCTGGATGTCCTGCAGGCCGTGCAGCGGGAATCGGAACGCGATTTCCCGATCATCCATTGTCCGCGCCGGGCGGGCGATATTGCGACCATGGTGGCGGATTCGTCGCGTATCCAGTCGGAACTGGGCTGGCGTCCCCGCTTCAACGATCTGGCGACAATCGTTCGCACCGCGCTTCAGTGGGAAGCCAAACGTCAGGCCCAGAAAAGCGACAGGATTCCGCCGGTGCGGCGCAAGCTGGCTGCAATAGGCTGA	MAVLVTGGAGYIGSHMVWALLDAGEEVVVVDRLSTGSRWAVAPAARFYLGDAADRALLDQIFEENQIETIFHFAGSVSVPESISQPLEYYENNTGTTRALVAAAVAHGIRNFIFSSTAAVYGNQPFDGPVPETAILSPENPYGLSKLASEIMLRDVVQAHDFNYVALRYFNVAGADPQGRAGPSPTGVANLIKVACEAATGRRDQVEVYGTDYPTADGTGVRDYIHVSDLIDAHMLAMAHLRAGGGTRTLNCGYGVGYSVLDVLQAVQRESERDFPIIHCPRRAGDIATMVADSSRIQSELGWRPRFNDLATIVRTALQWEAKRQAQKSDRIPPVRRKLAAIG	PGPT0019010_340	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_UDP-ARBINOSE-XYLOSE_POOL,PGPT0019010-uxe-K12448	NA	NA
BMS010_05979	834			hypothetical protein	ATGGACGCAGGCTTGCAGAAGAGAGTGAGCCATGGCGCGCTGCTGTTTGCGGTGCTGGCCGTTTGCCTTGCCATAGGCGCAACGGTGCTGCTGGCCAATGACAAAAAGCACCTTAAAAGCCTGCTGGCCTATCTCAATCTGACGCCCGCCATACAATCCGCCACGCCACCGAAGATGAAGCCCGTCAAACGGCAGAAACTCGCCACCCAGAAAGTCTCGCTGCCGCCGCATCTGCTGAAGTTCGAGCAAGTGGGCGACAGAGCATCTTTTGCCCGCGATTTCGTTGTTTCCGGCAAGGAGCTTTGCGAGCGCTTTACAGCCGCAGGTTTCTCCAACCCGCAGGGCTGGCACGCGAGCCCGGTCAACATCCGCAATTTCGAATGCATGGCCGATCTTGCGGCAGGAAACGCATCGGACCCGGCCGAGCGGGCATCGCTCTTTCTTGAAATCAGGGGCGAAGCGTCCGGAGAAATTCGCTCCATCAGGATGAAGGCCGTTGCGCCCAAGACACCGGACGGGGCGGCCGTTCTGACGAAGCTCGATGAAGCGCTCGCCATGATTATCGGACAGACACGCTGGGCCGATCTGGCGGACATGCTGGAGCCGGCACGCCGGATGCAGCCCTATCAGGCACAACATTTCGGTATTTCGGTTTCCATGAAACCGGAACCGACGGCGCCGCATCGCCTGAACGTGATTTTGCTCGCAAACGAACAATCGCCGGGATTGAAGCTGACACGCAGTTTCTTTGACCGGGATCGCTGGCTTAACCCAGCCGCTCCACCGGATCGGCCGGCGCTCTATGCGTCCGTCAAGAAAGACCGTGTCCGGTGA	MDAGLQKRVSHGALLFAVLAVCLAIGATVLLANDKKHLKSLLAYLNLTPAIQSATPPKMKPVKRQKLATQKVSLPPHLLKFEQVGDRASFARDFVVSGKELCERFTAAGFSNPQGWHASPVNIRNFECMADLAAGNASDPAERASLFLEIRGEASGEIRSIRMKAVAPKTPDGAAVLTKLDEALAMIIGQTRWADLADMLEPARRMQPYQAQHFGISVSMKPEPTAPHRLNVILLANEQSPGLKLTRSFFDRDRWLNPAAPPDRPALYASVKKDRVR				NA	NA	NA	NA	NA
BMS010_05980	228	yacG_2		DNA gyrase inhibitor YacG	ATGGCAAAGTCCCCCACCGAAGGCGCTGGAAACGTCACCCCGCTTCGCAAATCCCAGCCATGCCCTGAATGCGGGCGGCCCTCGACGCGCGAAGACTATCCTTTCTGCTCGGATCGCTGCCGCTCGCTCGATCTCGCCCGCTGGCTGAACGGCTCCTACGCCATTCCGGTTGCGGACGATGAAAGCAGCGCCGGCGGACAGGACGGCGGCAAGAACAACGCCGAATGA	MAKSPTEGAGNVTPLRKSQPCPECGRPSTREDYPFCSDRCRSLDLARWLNGSYAIPVADDESSAGGQDGGKNNAE				NA	NA	NA	NA	NA
BMS010_05981	624	yhdE_2	COG0424	dTTP/UTP pyrophosphatase	ATGACCAATTCAAAACAAAAGCTCGTTCTGGCATCCGGCTCGCCGCGGCGTCTGGAGCTGCTGCATCAGATCGGTATCGAACCGGCACGTCTGATGCCGATGGACATCGACGAGACGCCGGCGAAGCTCGAGCATCCGCGCACGCTCTGCCGCCGTCTGTCATTGCAGAAGGCGGAAGCCGCGCAGGCCGCGCTGAAGAACGAACAGGCATGGAAAGACGCCTATGTTCTGGGATCCGATACGGTGGTCGCCGTCGGTCGCCGCATCGTCGGCAAGGCCGAATATACGGAAGAGGCCTCGGCAGCGCTGCATCTTCTTTCGGGACGCAGCCATTGGGTCTATACCGGCATTTGCCTTGTGACCCCCGGCGGCAAGATCCGGCAGAAGGTGGCGGAGACCAAGGTGCGCTTCAAGCGCCTCTCCACGCGGGAGATCGAGGCTTACATCGCGTCGGGCCAGTGGCGCGGCAAGGCGGGAGCCTATGGCATCCAGGGTATTGCCGGCGCCTTCGTGCAGAAACTGACCGGCTCCTATACCAATGTCGTCGGCCTGCCACTTTATGAAACCATGTCGCTTCTTTCCGGAGAAGGATTTGAGGTGACTTCGGGCTGGCTCGAAGGATAG	MTNSKQKLVLASGSPRRLELLHQIGIEPARLMPMDIDETPAKLEHPRTLCRRLSLQKAEAAQAALKNEQAWKDAYVLGSDTVVAVGRRIVGKAEYTEEASAALHLLSGRSHWVYTGICLVTPGGKIRQKVAETKVRFKRLSTREIEAYIASGQWRGKAGAYGIQGIAGAFVQKLTGSYTNVVGLPLYETMSLLSGEGFEVTSGWLEG				NA	NA	NA	NA	NA
BMS010_05982	300	infA_2		Translation initiation factor IF-1	ATGTGCCGGGATTGTGTAGTTTCCGCGCAATTTTCCCGGACTCGATATGTCCGGCACTATCAACAGGAAGAAAACCCTTACATGACAAAAGAAGAAGTCCTTGAATTCCCGGGCATCGTAACCGAATTGCTGCCGAACGCAACATTCCGCGTGAAGCTTGAGAACGACCACGAAATCATCGCCCACACGGCGGGCCGCATGCGTAAGAACCGTATCCGCGTTCTGGCAGGCGACAAGGTGCTGGTCGAAATGACGCCTTACGACCTCACCAAGGGCCGCATCACCTATCGCTTCAAGTAA	MCRDCVVSAQFSRTRYVRHYQQEENPYMTKEEVLEFPGIVTELLPNATFRVKLENDHEIIAHTAGRMRKNRIRVLAGDKVLVEMTPYDLTKGRITYRFK				NA	NA	NA	NA	NA
BMS010_05983	489	arsC_3		Arsenate reductase	ATGATCGATCCTGCCGCAGCGCCAAACGAGGGACGAGCGCCCAAATCGGTCCTCTTCATGTGCGGCATGAACTCCATCCGTTCCCCCATGGCGGAGGTCATCGCCAAACGGCTGGTGGCGCCCGGCATCTACATCCAGTCCGCCGGCGTGCGAGCCGGCGAGCGCGATCCATTCGTGGATGCGGTGCTGGAAGAACAGGGTTTTTCCCTCGGCAAGCACAAACCGCGCACTCTGGACGAGATCGAGGATGATTTTTTCGATCTGATCATTACATTGACGCCAGAAGCCCATCACGCCGCACTGGAACTGACGCGCTCGAATTCGCTGGACGTGGTCTATTGGCCGACCATGGACCCAACGGTGATCACAGGCACGCGCGAGCAGATTCTCGACGCCTATCGCGAGGTGCGGGACCATCTGGCAAAGCTGATCTCGGAACGACTGCCGAGGCGGCAGCAGCCGGTGGCGGATACGCTTTCAAAAGACTGA	MIDPAAAPNEGRAPKSVLFMCGMNSIRSPMAEVIAKRLVAPGIYIQSAGVRAGERDPFVDAVLEEQGFSLGKHKPRTLDEIEDDFFDLIITLTPEAHHAALELTRSNSLDVVYWPTMDPTVITGTREQILDAYREVRDHLAKLISERLPRRQQPVADTLSKD	PGPT0014530_6954	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-WZA-WZC-WZB-WEC_METABOLISM	CE-EPS-EPS-WZA-WZC-WZB-WEC_SYSTEM,PGPT0014530-yfkJ|wzb-K01104	NA	NA
BMS010_05984	474			hypothetical protein	ATGGCTTCAGGCGATTTCCGGCTTTGCGACGTGGTACTGGACGACAGCATCGGCCGGTCCACGCCCGACGTTGAGCATGAACGCGCCGTCGCCATTTTCGACCTGATCGAAGAAAACAGCTTCGAACCCTTCGGCCATGATGGCGGCCCCTATCGGCTGCATATATCGCTGGTCGATGCCAAGCTGGTTTTTTCAATCCGCACCGAAGACGAGAAGGATGTCGCGACCCATATTCTGTCGCTGACGCCGTTCCGCCGCATCATCAAGGATTATTTCCTGATCTGCGAAAGCTATTACGAAGCGATCCGCTCCTCTACGCCGAGCCAGATCGAGGCGATCGACATGGGCCGGCGCGGCATTCACAATGATGGCTCGCAGACGCTGATGGACAGGCTTTCCGGCAAAATCAGGATAGATTTCGACACGGCGCGCCGCCTCTTCACCCTTGTCTGCGTGCTTTATTGGCGGGGTTAG	MASGDFRLCDVVLDDSIGRSTPDVEHERAVAIFDLIEENSFEPFGHDGGPYRLHISLVDAKLVFSIRTEDEKDVATHILSLTPFRRIIKDYFLICESYYEAIRSSTPSQIEAIDMGRRGIHNDGSQTLMDRLSGKIRIDFDTARRLFTLVCVLYWRG				NA	NA	NA	NA	NA
BMS010_05985	1299	hisD_2		Histidinol dehydrogenase	GTGGCAATCTGGCTGGAGCAGGCGTCGGCGGATTTCGAACAGAAATTCGCGGCCTTCCTGACAACCAAGAGAGAAGTTTCCGAAGACGTCAACGCAACCGTTCGCGACATCATCAACGATGTCCGCCATCGCGGCGATGCGGCCCTTGCCCATTATTCCCAGAAATTCGACGGCATCGATTTCACCAAGGTCTCGATGCGTGTCACGGCGGACGAGATCGATGCGGCCTTCGCCGCCGTCGACAAGAGCGTCATCGAGTCGCTTGAACTCGCCGCCCGGCGTATCGAAAAACACCATGCACGGCAGATGCCGAAGGATGATATTTACGAGGACGATATCGGCGTGGGTCTCGGCTCGCGCTGGACCGCCATCGAAGCCGTGGGCCTTTATGTGCCCGGCGGCACGGCCAGCTATCCAAGCTCGGTGCTGATGAACGCCGTGCCCGCCAGAGTTGCCGGTGTAGAGCGCATCGTCATGGTCGTTCCGGCCAATGGCGGCGCGGTCAATCCGGCGGTGCTGGCTGCAGCGCGTATTGCGGGCGTCGAGGAAATCTATCGCATCGGCGGCGCGCAGGCCGTCGCCGCACTTGCCCATGGCACGGAAACCATCGCGCCGGTCGCCAAGATCGTCGGCCCCGGCAATGCCTATGTGGCGGCCGCAAAGCGCCAGGTTTTCGGCACCGTCGGTATCGACATGATCGCCGGTCCCTCCGAAGTGCTGGTTATTGCCGACAGGGACAATGATCCCGACTGGCTTGCCGCCGATCTTCTAGCACAGGCGGAGCATGATCGCGGCGCGCAATCCATCCTCATCACCGACAATGCCGAACTCGGCAAGGCTGTTGAAGCCGCTGTCGAGCGGCAGCTGAAGCGCCTGTCTCGTTCCGAGACGGCGGCGGCGAGCTGGGCGGATTTCGGCGCAATCATTCTGATCGAAAAGCTCACCGACGCCATCCCGCTCGCCAACCGCATCGCTGCCGAGCATCTGGAACTTGCCGTCGATGACCCGGATGCCCTGATGGCGCATATCCGCAATGCGGGCGCGATCTTCGTCGGACGCCATACGCCGGAAGTGATCGGCGATTATGTCGGCGGCTCCAACCACGTGCTTCCGACGGCGCGGTCGGCGCGCTTCTCCTCCGGGCTTTCGGTGCTGGATTTCGTCAAGCGCACCTCGATCCTGCGGCTTGGACCGGAGCAGCTGCGACAGCTCGCGACCGCGGCCATCACCCTTGCCCGGTCTGAGGGACTGGACGCGCATGCGCGTTCCGTCTCCATTCGCCTCAATCCGGAAAGTTAA	MAIWLEQASADFEQKFAAFLTTKREVSEDVNATVRDIINDVRHRGDAALAHYSQKFDGIDFTKVSMRVTADEIDAAFAAVDKSVIESLELAARRIEKHHARQMPKDDIYEDDIGVGLGSRWTAIEAVGLYVPGGTASYPSSVLMNAVPARVAGVERIVMVVPANGGAVNPAVLAAARIAGVEEIYRIGGAQAVAALAHGTETIAPVAKIVGPGNAYVAAAKRQVFGTVGIDMIAGPSEVLVIADRDNDPDWLAADLLAQAEHDRGAQSILITDNAELGKAVEAAVERQLKRLSRSETAAASWADFGAIILIEKLTDAIPLANRIAAEHLELAVDDPDALMAHIRNAGAIFVGRHTPEVIGDYVGGSNHVLPTARSARFSSGLSVLDFVKRTSILRLGPEQLRQLATAAITLARSEGLDAHARSVSIRLNPES				NA	NA	NA	NA	NA
BMS010_05986	441			hypothetical protein	ATGAGCGGCCTGAAATTGCTCGCGCTGGATACTGAAGATCTCTCCGTCATCTCGACGCATATGCAGGACAGTGTCTTCAAGCTGAAGGATGTTGCCTTCGAGCCGAAGCACGGCCAGTTCACGCTTTCCGCCAACCGTTTCGTCTGGGAAAGCACTGACAAAAAGAACCTGCCGCCGGAACGCTGCCGCAGCGTCGTTTTCCTGAAACGTGTCTCCGCCGTCCGCTCGCACGGCATCAACCGCGCCGACAGGGAACAGGTGCTGTCGCTTCTTGCCATCCGCTTCGTGCAGAACGGCGAAGGACCTGATGGAGCCGTGGAATTGACGCTTTCGGGCGGCGGCGCCATCGCGCTCGATGTCGAATGCATCGAGGCGCAATTGACCGATGTGAGCGGCGCCTGGGAAACGGCTGCCAAACCGCATCATCCAGACAGCGAATAA	MSGLKLLALDTEDLSVISTHMQDSVFKLKDVAFEPKHGQFTLSANRFVWESTDKKNLPPERCRSVVFLKRVSAVRSHGINRADREQVLSLLAIRFVQNGEGPDGAVELTLSGGGAIALDVECIEAQLTDVSGAWETAAKPHHPDSE				NA	NA	NA	NA	NA
BMS010_05987	1293	murA_2	COG0766	UDP-N-acetylglucosamine 1-carboxyvinyltransferase	ATGGATCGCATCAGAATTACGGGTGGCAACAAGCTAAACGGCGTCATTCCCATCTCCGGCGCCAAAAACGCCGCCTTGCCGTTGATGATCGCATCGCTTCTGACCAGCGACACGCTGACGCTCGAAAACGTGCCGCATCTGGCGGACGTGGAGCAGCTCATCCGCATTCTCGGCAATCACGGCGTCGATATTTCCGTCAATGGCCGCCGCGAAAGCCAGGGCGAGGCCTATTCCCGCACCGTGCACTTCACCTGCCGCACCATTGTCGATACCACCGCACCTTACGAGCTGGTGTCCAAGATGCGCGCGAGCTTCTGGGTCATCGGCCCGCTTCTGGCGCGTGAGGGCCGCGCCCGCGTTTCCCTGCCCGGCGGCTGCGCCATCGGCACGCGCCCGGTCGATCTGTTCATCGAGGGCCTCGAAGCGCTCGGCGCAACGATGGAGATCGATGGCGGCTACATCAACGCCACGGCGCCCAAGGGCGGCCTGATCGGTGCGGTTTACACCTTCCCGAAGGTTTCCGTCGGCGCGACACATGTGATGCTGATGGCCGCAAGCCTTGCCCGTGGCACCACCGTCATCCACAACGCAGCCCGCGAGCCGGAAGTGGTCGATCTGGCGCAATGCCTGATCGCCATGGGCGCGAAGATCGAAGGCGCCGGCACCTCCACCATCACCATCGAAGGCGTGACCTCTCTCTCCGGCGCGCGCCACCGCGTTCTGCCGGATCGTATCGAGACCGGCACCTATGCCATGGCAGTGGCAATGACCGGCGGTGATGTGGTGCTGGAAGGCACGCGCGCAGCGCTGCTCGACAACGCGCTCGACACGCTCAGGCTCGCAGGCGCCACGATCAGCGAGACGGAGACAGGCCTTCGCGTCGTGCGCAACGGCAACGGCATCCAGCCGGTCGATATCGTCACCGAGCCCTTCCCCGGCTTCCCCACCGATCTGCAGGCACAGTTCATGGCGCTGATGACCCGTTCGCAGGGTGTTTCGCATATCACCGAAACCATCTTTGAAAACCGCTTCATGCATGTGCAGGAACTCGCCCGTCTCGGTGCGAAGATTTCGCTTTCCGGCCAGATGGCCCGCATCGAGGGTGTCTCCCGCCTGAAGGGCGCGCCTGTCATGGCGACCGATCTGCGCGCTTCCGTATCGCTGGTCATTGCCGGCCTCGTGGCGGAAGGCGAAACCATGGTTTCGCGCGTCTACCACCTCGATCGCGGCTTCGAACGCCTTGAGGAAAAGCTCACCCGCTGCGGTGCGCTGGTCGAACGCGTCAGCGATTGA	MDRIRITGGNKLNGVIPISGAKNAALPLMIASLLTSDTLTLENVPHLADVEQLIRILGNHGVDISVNGRRESQGEAYSRTVHFTCRTIVDTTAPYELVSKMRASFWVIGPLLAREGRARVSLPGGCAIGTRPVDLFIEGLEALGATMEIDGGYINATAPKGGLIGAVYTFPKVSVGATHVMLMAASLARGTTVIHNAAREPEVVDLAQCLIAMGAKIEGAGTSTITIEGVTSLSGARHRVLPDRIETGTYAMAVAMTGGDVVLEGTRAALLDNALDTLRLAGATISETETGLRVVRNGNGIQPVDIVTEPFPGFPTDLQAQFMALMTRSQGVSHITETIFENRFMHVQELARLGAKISLSGQMARIEGVSRLKGAPVMATDLRASVSLVIAGLVAEGETMVSRVYHLDRGFERLEEKLTRCGALVERVSD	PGPT0024090_1995	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLGLUCOSAMINE_MODIFICATION,PGPT0024090-murA-K00790	NA	NA
BMS010_05988	267			hypothetical protein	ATGAACGAACATCATGACAAACAGGCAAAGGCAGCGGTTTCCGCCGGCTCTTCCGCGGAAGCATCCGCCCCGGTGGCCGATGGCAAGCCGCAGGCGGGGCCTGGCGAAAAGGCGCGGCAGCGCGAGGCGGAACGCAAGGCGCGGGCGGCCAAGAAGCTTCGTGAAAATCTTTTGAAGCGCAAACAGCAGGTTCGCGCGCGCCGTGCTGGCGAAGAGGACGAGACGATTGGCCTGCCTGCCGCAAAAACGGACGAATCATCCTCATAG	MNEHHDKQAKAAVSAGSSAEASAPVADGKPQAGPGEKARQREAERKARAAKKLRENLLKRKQQVRARRAGEEDETIGLPAAKTDESSS				NA	NA	NA	NA	NA
BMS010_05990	942	fliC_2	COG1344	Flagellin	ATGACAAGTATTCTGACAAACACCGCCGCCATGTCGGCGCTTCAGACACTGCGTGCGATCAGCGGCCAGCTCGAAGAGACGCAATCCAGAGTTTCTTCCGGGCTGCGCGTTAAAACGGCTTCCGACAACGCCGCTTACTGGTCGATCGCGACCACCATGCGTTCGGACAACATGGCCCTTTCCGCGGTTCAGGATGCACTGGGACTGGGTGCTGCGAAGATCGATGTCGCTTATTCCGCAATGGAAAGCGCCGTCGAAGTCGTGAAAGAAATCAAATCGAAAATCGTCGCGGCAACTGAAGAGGGCGTCGACAAGACGAAGATCCAGGAAGAAATCGACCAGCTGAAAAAGCAGCTGGAATCGATTGCGCAGGGCGCATCTTTCAGCGGCGAAAACTGGTTGCTGGGCACCGGCGCAAAGACCGTCGTTTCCGGCTTTGTCCGTGACGGCAGCGGTTCCGTCAACGTTACGAAAACCGATTATACCCTTGTTGACACGACGACCGCGACGGAAACACCCAATGTGATTTTTGGCCTGACCGGCACGCCCGCAACGCTCGACACCACAAAAGGCATCATCGGAGAGGCCGGCGTAGCCTCGGGCATTTCCGTATGGGATATCGATCTCAAGCTTTTCGATAGCGCAACGCCGCCGACCTACACCATCGGCAATCTTCTCACCGATGTCGAAACCGCGTTTCAGTCGCTCAGCAGCGCATCTTCCGCCCTCGGCTCCATCAAGATGCGCATCGGTCTGCAGGAAGATTTCATTTCCAAGCTTACCGACTCCATCGACAGCGGCATCGGCCGCCTGGTGGATGCGGACATGAACGAAGAATCAACACGCCTCAAGGCATTGCAGACACAGCAGCAGCTGGGCATCCAGTCGCTTTCCATCGCCAATACCAGTTCCGAAAATATCCTGTCGCTATTCCGTCAGTAA	MTSILTNTAAMSALQTLRAISGQLEETQSRVSSGLRVKTASDNAAYWSIATTMRSDNMALSAVQDALGLGAAKIDVAYSAMESAVEVVKEIKSKIVAATEEGVDKTKIQEEIDQLKKQLESIAQGASFSGENWLLGTGAKTVVSGFVRDGSGSVNVTKTDYTLVDTTTATETPNVIFGLTGTPATLDTTKGIIGEAGVASGISVWDIDLKLFDSATPPTYTIGNLLTDVETAFQSLSSASSALGSIKMRIGLQEDFISKLTDSIDSGIGRLVDADMNEESTRLKALQTQQQLGIQSLSIANTSSENILSLFRQ	PGPT0015190_2936	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015190-fliC|laf1|lafA|fla1|hag-K02406	NA	NA
BMS010_05991	963	fliC_3	COG1344	Flagellin	ATGACGAGCATTATTACCAATGTCGCAGCAATGTCTGCGCTCCAGACTCTGCGCACCATCGGCCAGAACATGGAATCCACCCAGGCACGCGTTTCCTCCGGCCTCCGCGTTGGCGAAGCTGCTGACAATGCTGCCTACTGGTCGATCGCGACCACCATGCGCTCCGACAACATGGCGCTTTCCTCGGTTTCCGACGCTCTCGGCCTCGGCGCTGCCAAGGTAGACACCGCTTCTGCCGGCATGGAATCGGCAATCGAAGTCGTTAAGGAAATCAAGGCAAAGCTGGTCACGGCAACTGAAGAAGGCGTCGACCGCACCAAGGTTCAGGAAGAAATCGATCAGCTGCAGAACCAGCTCGTATCGATCGCACAGGGCGCATCCTTCTACGGCGAAAACTGGCTCGTAGGCGCGTCGACCCTCGGCGCTACCACGCCCGGCACGGACCCGGACAAGTCGGTCGTTGCTGGCTTCGTTCGCTCCACCGGCGGTGCCGTTAACGTCACGACCACGAAATACGCCCTCGACAGCACCGCTACCGGCAACACTCTTTTCGGTTCGGTTGACTCCGCAGGCGTTCCCGATACGACCGGCATTCTCGGCACGACCGGAACGTTCACGACCGTCGCCGCCCAGTCCGTCTACACGCTGGACATCACCCAGTATGCAGCCGCAGACCGCGCCACCAACATGGCCGAAGCACTGACGCTGGTTGAAAACTCCCTGAAGGCAATGACGAGCGCCGCAGCCAAGCTCGGCTCGCTCTCCATGCGTATCGGCCTGCAGGAAGACTTCGCTTCCAAGCTGTCCGACTCCATCGACAAGGGCATCGGCCGCCTCGTGGACGCTGACATGAACGAAGAGTCCACCCGCCTCAAGGCCCTGCAGACCCAGCAGCAGCTCGGCGTTCAGGCTCTCTCGATCGCCAACAGCAACTCCGAAAGCATCCTGTCGCTCTTCCGTTAA	MTSIITNVAAMSALQTLRTIGQNMESTQARVSSGLRVGEAADNAAYWSIATTMRSDNMALSSVSDALGLGAAKVDTASAGMESAIEVVKEIKAKLVTATEEGVDRTKVQEEIDQLQNQLVSIAQGASFYGENWLVGASTLGATTPGTDPDKSVVAGFVRSTGGAVNVTTTKYALDSTATGNTLFGSVDSAGVPDTTGILGTTGTFTTVAAQSVYTLDITQYAAADRATNMAEALTLVENSLKAMTSAAAKLGSLSMRIGLQEDFASKLSDSIDKGIGRLVDADMNEESTRLKALQTQQQLGVQALSIANSNSESILSLFR	PGPT0015190_2848	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015190-fliC|laf1|lafA|fla1|hag-K02406	NA	NA
BMS010_05992	921	fliC_4	COG1344	Flagellin	ATGGCAAGCATTCTCACCAACACCAACGCAATGGCCGCTCTCTCGACCCTGCGTTCCATTGCTTCCGACCTGTCGACCACGCAGGACCGCATTTCTTCCGGCCTGAAGGTTGGTTCGGCTTCGGACAACGCTGCTTACTGGTCGATCGCGACCACCATGCGCTCCGACAACAAGGCTCTCGGTGCAGTATCTGACGCACTGGGCATGGGCGCTGCCAAGGTTGACACCGCATCTGCCGGTATGGACGCCGCCATCAAGGTTGTCACCGACATCAAGGCAAAGGTCGTTGCCGCCAAGGAACAGGGCGTTGACAAGGCCAAGGTTCAGGAAGAAGTCACGCAGCTGCTCGACCAGCTGAAGTCGATCGGCACGAGCGCGTCTTTCAACGGTGAAAACTGGCTCGTTTCCAGCGCCAACGCCACCAAGACGGTTGTTTCCGGCTTCGTTCGTGACGCCAGCGGCAACGTCAGTGTCAAGACGACGGACTACGCTCTCGACGCCAACTCCATGCTTTACACGGAAGCTACGCCCGGCACGATCGACGCCAACTCCGGCATCCTGAACGCCACCGGTGCGACGACGACTGTCGGCGCCAAGACCTACACCCAGATCTCCGTTCTCGACATGAACGTCACCACCGACGATCTCGACAACGCCCTCTACTCCGTTGAAACCGCTCTGACGAAGATGACCAGCGCCGGCGCCAAGCTCGGTTCGCTGTCTGCACGTATCGACCTGCAGACCGACTTCGCCGACAAGCTGTCCGACACCATCGAAAAGGGTGTTGGCCGCCTCGTCGACGCCGACATGAACGAAGAGTCCACCAAGCTGAAGGCTCTGCAGACGCAGCAGCAGCTGGCAATTCAGGCTCTGTCGATCGCCAACAGCGACTCGCAGAACATCCTGTCGCTCTTCCGCTAA	MASILTNTNAMAALSTLRSIASDLSTTQDRISSGLKVGSASDNAAYWSIATTMRSDNKALGAVSDALGMGAAKVDTASAGMDAAIKVVTDIKAKVVAAKEQGVDKAKVQEEVTQLLDQLKSIGTSASFNGENWLVSSANATKTVVSGFVRDASGNVSVKTTDYALDANSMLYTEATPGTIDANSGILNATGATTTVGAKTYTQISVLDMNVTTDDLDNALYSVETALTKMTSAGAKLGSLSARIDLQTDFADKLSDTIEKGVGRLVDADMNEESTKLKALQTQQQLAIQALSIANSDSQNILSLFR	PGPT0015190_3062	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015190-fliC|laf1|lafA|fla1|hag-K02406	NA	NA
BMS010_05993	738	fliP_3	COG1338	Flagellar biosynthetic protein FliP	ATGATTCGATTTCTTGTAACCATCGCCGTCCTCCTTGCCTTGCCGGGTCTTGCCAGTGCCCAGCAATTTCCGTCCGATCTGTTCAACACGCAGATAGACGGCTCCGTTGCGGCATGGATCATCCGCACCTTCGGCCTGCTGACGGTTCTCTCGGTCGCGCCGGGCATCCTGATCATGGTCACGAGCTTTCCGCGCTTCGTGATCGCCTTTTCGATCCTCAGATCCGGCATGGGACTGGCTTCGACCCCGTCCAACATGATCCTGCTGTCGATGGCGATGTTCATGACCTTCTACGTCATGTCGCCCACCTTCGACAAAGCCTGGACCGACGGCGTGCAACCGCTTCTGCAGAACCAGATCAACGAACAGCAGGCCGTGCAGCGCATCGCCGAGCCCTTCCGCACCTTCATGAACGCCAATACGCGTGACAAGGATCTGAAGCTTTTCGTGGACATCGCCCGCGAGCGCGGCCAGGAAGTGATGACCGACAATGTCGTCGACTACCGCGTTCTGGTTCCCGCCTTCATGCTGTCGGAAATCCGGCGCGGTTTCGAGATCGGTTTTCTCATCATCCTGCCGTTTCTGGTCATCGATCTGATCGTCGCAACCATCACCATGGCGATGGGCATGATGATGCTACCGCCGACCTCGATTTCGCTGCCGTTCAAGATCCTGTTCTTCGTGCTGATCGACGGCTGGAACCTGCTGGTCGGCAGTCTCGTCAGATCGTTCAACTGA	MIRFLVTIAVLLALPGLASAQQFPSDLFNTQIDGSVAAWIIRTFGLLTVLSVAPGILIMVTSFPRFVIAFSILRSGMGLASTPSNMILLSMAMFMTFYVMSPTFDKAWTDGVQPLLQNQINEQQAVQRIAEPFRTFMNANTRDKDLKLFVDIARERGQEVMTDNVVDYRVLVPAFMLSEIRRGFEIGFLIILPFLVIDLIVATITMAMGMMMLPPTSISLPFKILFFVLIDGWNLLVGSLVRSFN	PGPT0015350_1923	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015350-fliP|rhcR-K02419	NA	NA
BMS010_05994	501			hypothetical protein	ATGGAAAACGAACAGGCTGAGGGCAAGAAAAAATCCTCCCCTCTGGTCATGACCATCGCAGGCGTTGCGATCCTCACCCTGCTCGGCGCGGGCGGCGGCTGGCTGGTGGGCGGCATGATCGCGCCGAAGATCGCAGGCGCGGAGGCGCATGCCCCGGCTGCCGCCGGCGGACACGGCGAGAAAAAGGAAGAGGGCATCGAGAAAATCTCGGCCGAGGCCAACGGCATCGTCCAGCTCGATCCCATTACCACCAACCTCGCCTATCCCTCGACGAACTGGGTGCGGCTGGAAGTGGCGCTGATGTTCAAGGGGCCGGTCGAGGTGGGTCTCGCGGAAGAAATACACCAGGACATCATGGCCTATGTCCGTACCGTTTCCCTTCAGCAGCTGGAAGGGCCGCGCGGCTTTCAATATCTTAAGGATGACATTCAGGAACGAGTTGACCTGCGCTCTCAAGGGCGCGTATCCAAGGTCATGTTCCGGACCTTTGTCATCGAATGA	MENEQAEGKKKSSPLVMTIAGVAILTLLGAGGGWLVGGMIAPKIAGAEAHAPAAAGGHGEKKEEGIEKISAEANGIVQLDPITTNLAYPSTNWVRLEVALMFKGPVEVGLAEEIHQDIMAYVRTVSLQQLEGPRGFQYLKDDIQERVDLRSQGRVSKVMFRTFVIE	PGPT0015525_1293	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015525-fliL-K02415	NA	NA
BMS010_05995	720	flgH_2		Flagellar L-ring protein	ATGAGCACGCGTCGTCTTCCGGCCCTCCTCCTGCCGCTCGCCTTGCTTGCCGGCTGCCAGAACAACCAGACCCTGAAGGAAATCGGCAACGCACCCGCGATGAGCCCGATCGGCAGCGGCCTGCAATTCAGCCAGACGCCGCAGATGGGCATGTATCCGAAGCAGCCGAAGCACATGGCGAGCGGCTATTCGCTGTGGAGCGACAGCCAGGGCGCCCTGTTCAAGGATCTGCGCGCGCTCAACATCGGCGACATCCTGACCGTCAACATCCAGATCAACGACAAGGCCGACTTCGACAACGAGACCGAGCGCAACCGCACCAATTCCAGTGGGCTGAACTGGAAGGCCAAAGCTCAGATTCTGGGATGGACGCCGGATGCGGATTCCAGCATCAATTACGGTTCCGACACCGACACCCAGGCAAAGGGCAAGACCAAGCGTTCTGAAAAGCTGACGCTGCTGGTGGCCGCCGTGGTGACCGGCATTCTGGAAAACGGCAACCTCATCATCAGCGGTTCGCAGGAAGTGCGCGTGAACCACGAAATCCGCATCCTCAATGTCGGCGGTATCGTCAGGCCGCAGGATGTCGATGCACAGAACATGATCTCCTACGAGCGCATCGCCGAAGCGCGCATCTCCTATGGCGGTCGCGGACGTCTGACGGAAGTGCAGCAGCCCCCGGTCGGGCAACAGGTCGTCGACCTGTTCTCGCCGCTCTGA	MSTRRLPALLLPLALLAGCQNNQTLKEIGNAPAMSPIGSGLQFSQTPQMGMYPKQPKHMASGYSLWSDSQGALFKDLRALNIGDILTVNIQINDKADFDNETERNRTNSSGLNWKAKAQILGWTPDADSSINYGSDTDTQAKGKTKRSEKLTLLVAAVVTGILENGNLIISGSQEVRVNHEIRILNVGGIVRPQDVDAQNMISYERIAEARISYGGRGRLTEVQQPPVGQQVVDLFSPL	PGPT0015420_566	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_M|S|P|L-RINGS,PGPT0015420-flgH-K02393	NA	NA
BMS010_05996	537			hypothetical protein	ATGATGGAAACTCGGAAGAACAACTCTTTCCCGAATGGCCTTGTCCGCTTCGCGGCCGTCGCCTCGCTGCTTTTCCTGCTTCCCGCTGCTAGCGCGGAAAGCCAGCAGAACGTGGTTTCGGAACTCAGCACGCAGGATGAAATCCAGAAATTCTGCACCAACATCGCCGATGCGGCCCGCGACCAGCGCTATCTGCTGCAAAAGCAGGAGTTGGAAAAGCTGCAGTCCGACGTCAATGAGCGCATTGCCGTGCTGGAAGACCGCAAGGCGGAATATGAGGACTGGCTGGCCCGCCGCGAACATTTCCTCAATCAGGCGAAAAGCAATCTCGTCGATATCTACAAGACGATGAAGGCCGATGCCGCCGCACCACAGCTCGAAAAGATGCATGTGGAGATAGCGGCCGCCATCATCATGCAGCTGCCACCACGCCAATCCGGTCTCATCCTCAGCGAGATGGACGCGCAGAAGGCCGCCGTCGTCGCCGGCATCATGTCGCAGGCAACCGATAAAAACACTTCGAAGGATCCTTCATGA	MMETRKNNSFPNGLVRFAAVASLLFLLPAASAESQQNVVSELSTQDEIQKFCTNIADAARDQRYLLQKQELEKLQSDVNERIAVLEDRKAEYEDWLARREHFLNQAKSNLVDIYKTMKADAAAPQLEKMHVEIAAAIIMQLPPRQSGLILSEMDAQKAAVVAGIMSQATDKNTSKDPS				NA	NA	NA	NA	NA
BMS010_05997	1122	flgI_2		Flagellar P-ring protein	ATGAGAGTGCTTCGTATTCTGGCCGCGGCCGTTCTGTTTTCGGCCCAGCCCTTCCTTTCCGTTCCGGCAGCGCACGCGGATACATCCCGCATCAAGGATATCGCATCGCTGCAGGCGGGGCGTGACAACCAGCTGATCGGTTACGGTCTCGTGGTCGGCCTGCAGGGCACGGGCGACAGCCTGCGCTCCTCGCCGTTTACCGAGCAATCCATGCGCGCGATGCTGCAGAATCTCGGCATCACCACGCAGGGCGGCCAGTCGAACGCCAAGAACATCGCCGCCGTGATGGTGACGACCAATCTGCCGCCCTTCGCCAGCCCCGGCAGCCGTGTCGACGTGACGGTCAGCTCGCTGGGCGACGCCTCGTCGCTGCGCGGCGGCACGCTTATCATGACCTCCCTTTCCGGCGCGGACGGGCAGATTTACGCAGTCGCCCAAGGGGCGCTGATCGTCAACGGCTTTTCCGCCCAGGGCGATGCCGCGACGCTGACGCAGGGCGTCACGACCTCTGCCCGCGTGCCAAACGGCGCGATCATCGAGCGGGAGCTGCCGTCCAAGTTCAAGGATTCGGTCAATCTGGTCCTTCAATTGCGCAATCCCGATTTTTCGACAGCGGTGCGCGTCGCCGATGTCGTCAACGCCTTTGCGCGCGCCCGTTATGGCGATCCCATCGCCGAGCCGCGCGATTCGCAGGAAATCGCGGTGCAGAAGCCCCGTGTCGCGGATCTGACCCGGCTGATGGCGGAAATCGAAAACCTGACCGTAGAAACGGATACGCCGGCCAAGGTCGTCATCAACGAGCGCACCGGCACGATCGTCATCGGCGCGGATGTGCGCATCTCCCGCGTCGCCGTCAGCTACGGAACGCTGACCGTGCAGGTAACGGAAACGCCGCAGGTCATCCAGCCGGCGCCCTTCTCACGCGGCCAGACGGCCGTTCAGCCGCAGACGGATATCATGGCATTGCAGGAAGGCAGCAAGGTTGCCATCGTCGAAGGGCCTGACCTTCGCACGCTGGTTGCCGGTCTCAACAGCATCGGGCTCAAGGCGGACGGTATCATCGCCATTCTGCAAGGCATCAAATCCGCCGGCGCCCTTCAGGCGGAGCTTGTGCTGCAATGA	MRVLRILAAAVLFSAQPFLSVPAAHADTSRIKDIASLQAGRDNQLIGYGLVVGLQGTGDSLRSSPFTEQSMRAMLQNLGITTQGGQSNAKNIAAVMVTTNLPPFASPGSRVDVTVSSLGDASSLRGGTLIMTSLSGADGQIYAVAQGALIVNGFSAQGDAATLTQGVTTSARVPNGAIIERELPSKFKDSVNLVLQLRNPDFSTAVRVADVVNAFARARYGDPIAEPRDSQEIAVQKPRVADLTRLMAEIENLTVETDTPAKVVINERTGTIVIGADVRISRVAVSYGTLTVQVTETPQVIQPAPFSRGQTAVQPQTDIMALQEGSKVAIVEGPDLRTLVAGLNSIGLKADGIIAILQGIKSAGALQAELVLQ	PGPT0015425_678	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_M|S|P|L-RINGS,PGPT0015425-flgI-K02394	NA	NA
BMS010_05998	489			hypothetical protein	ATGAGGTTTGGCCGGAAACATAGCAGCAGCAGAACGGCGCTCGTCCGTATATGCCTTGCGTCTGCCTTTTCACTGGGCGCCCTGACGCCCGCTCTTGCCCAGGCGCCGATGGCGCTGGTTCCCACCCGCACGATCTATCCGGGCGAGACGATCACGCCCGAACAGGTAAAGCCGGTGGAAGTGACCAATCCCAATATTTCCTCGGGTTATGCGAGCGATATCAGCGAAGTGGAAGGCATGATCTCCAAGCAGACCCTGCTTCCCGGACGCACGATCCCCGTTGCCGCCCTGCGCGAACCCTCGCTTGTGGTGCGCGGCACCAGCGTCAAACTCGTCTTCACCATCGGCAACATGACGCTGATGGCTTCGGGAACGCCGATGACCGACGGCTCGCTCGGCGAAATCGTGCGGGTGCGCAACATCGATTCCGGCGTCATCGTCAACGGCACGGTCATGAAGGACGGAACCATTCAGGTGATGGCGAAATGA	MRFGRKHSSSRTALVRICLASAFSLGALTPALAQAPMALVPTRTIYPGETITPEQVKPVEVTNPNISSGYASDISEVEGMISKQTLLPGRTIPVAALREPSLVVRGTSVKLVFTIGNMTLMASGTPMTDGSLGEIVRVRNIDSGVIVNGTVMKDGTIQVMAK	PGPT0015415_1955	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_M|S|P|L-RINGS,PGPT0015415-flgA-K02386	NA	NA
BMS010_05999	789	flgG_2	COG4786	Flagellar basal-body rod protein FlgG	ATGAGAGCTCTTGCCATCGCTGCCACCGGTATGGACGCCCAGCAGACCAATCTGGAAGTCATCGCCAACAACATCGCCAATATCAACACCACCGGTTACAAGCGCGCGCGGGCGGAGTTCACCGACCTTCTTTACCAGACCGAGCGCATGCAGGGCGTGCCGAACCGGGCCAACCAGGCGATCGTGCCGGAAGGCGCCAATATCGGCCTCGGCGTGCAGACCTCCGCCGTGCGCAACATCCACACCCAAGGCAACCTGATCGAGACCGGCAACAAGCTGGACGTGGCGATCATCGGCCAGGGCTGGTTCCAGATCGAGGCGGCTGACGGTTCGACGCTCTACAGCCGCGCCGGCGCCTTCAACAAGAATGCCGACGGCAATCTCGTGACGATCGATGGCTATAACGTCATTCCGAACATCAATATCCCGACCGATGCGCAGGACATCACCGTTACCCGCACGGGCCAGGTGACCGCCCGTATCGGCAATGCCACGGAATTCACCGAACTCGGCCAGCTCACCATCGCCAACTTTGCCAACGAAGCCGGCCTGAAGCCGCTCGGCGACAACCTCTTCGCCCAGACGCCGGCCTCCGGCGACGCGGTGATCGGCGTGCCTGACGATCCGAGCTACGGCTACATCAAGCAGTCCTATCTCGAAGGCTCGAACGTCGACGCCGTCAAGGAAATCACCGACCTCATCACGGCGCAGCGCGCCTACGAGATGAATTCCAAGGTCATCACCACCGCTGACGAAATGGCTTCGATTGTCAGCAAGAACCTGAAGTAA	MRALAIAATGMDAQQTNLEVIANNIANINTTGYKRARAEFTDLLYQTERMQGVPNRANQAIVPEGANIGLGVQTSAVRNIHTQGNLIETGNKLDVAIIGQGWFQIEAADGSTLYSRAGAFNKNADGNLVTIDGYNVIPNINIPTDAQDITVTRTGQVTARIGNATEFTELGQLTIANFANEAGLKPLGDNLFAQTPASGDAVIGVPDDPSYGYIKQSYLEGSNVDAVKEITDLITAQRAYEMNSKVITTADEMASIVSKNLK	PGPT0015495_570	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015495-flgG-K02392	NA	NA
BMS010_06000	336	fliE_2		Flagellar hook-basal body complex protein FliE	ATGATCGACGGTATCAAACAAGTCAGTTCCCTTTCGCTCACCCGCGGCGCAAGCGGCATTTCCTCGCTGACGGAAAGCGTTTTCGGCAGCGAGCAGACGACGCCCGCCCAGCAGACGGGCGCAAGCTTCGCCAGCGTTCTCGGCAATATCTCGGTGGATGCGATGAACAATCTGAAGAAGGCGGAAGTCGCTTCCTTCGAAGGCATTCAGGGCAAGGCGAATACGCGTGAAGTGGTCGATGCCATGCTTTCGGCCGAACAGTCGCTGCAAACCGCCATCGCGCTCCGAGACAAGATCGTGTCGGCCTATCTCGACATTACCAAGATGCAGATCTAG	MIDGIKQVSSLSLTRGASGISSLTESVFGSEQTTPAQQTGASFASVLGNISVDAMNNLKKAEVASFEGIQGKANTREVVDAMLSAEQSLQTAIALRDKIVSAYLDITKMQI	PGPT0015515_689	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015515-fliE|lfiE-K02408	NA	NA
BMS010_06001	420	flgC_2	COG1558	Flagellar basal-body rod protein FlgC	ATGGATCCCTTGAGTGCGGCGAGCAAGATTGCCGGCAGCGGCCTGGAAGTGCAGTCCACACGACTGCGCATCGTCTCCGAAAACATCGCCAACGCCCGATCGACCGGCGACACCCCCGGCGCCGACCCCTATCGCCGCAAGACCATCACTTTCGGTTCAGAGCTGGACCGCGTCAGCGGCGTGGAACGCGTGACGGTGAAAAAGCTCGGCGTCGACCGTGGCGATTTCGTCAACGAGTACGATCCCGGCAACCCGGCCGCCGACAGCAACGGCATGGTGAAGATGCCGAACGTCAACATCCTGATCGAAATGGCGGACATGCGCGAAGCAAACCGCAGCTACGACGCCAATCTTCAGGTCATCCGCCAGACACGCGACCTCGTCGCCTCCACAATCGACCTTCTGAAGGCATCGCAATGA	MDPLSAASKIAGSGLEVQSTRLRIVSENIANARSTGDTPGADPYRRKTITFGSELDRVSGVERVTVKKLGVDRGDFVNEYDPGNPAADSNGMVKMPNVNILIEMADMREANRSYDANLQVIRQTRDLVASTIDLLKASQ	PGPT0015475_1212	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015475-flgC-K02388	NA	NA
BMS010_06002	393			hypothetical protein	ATGCAACCGATTCAACTGTTCGATCTGGCATCCCGCCAAGCGGAATGGCTGAGCGTGCGGCAGGAAGTCGTGGCGACCAACATCGCCAACGCCAACACACCCAAGTTCCGCGCCAAGGATGTCAGCCCTTTCGAAGCGGTCATGCAGGCCACCAGCCAGCAGGTCGGCATGGCGAGGACCAACCCTGCCCACTTCGGCGAGAGCACACTCAGCGACAATATCGCGGTGCGCGACAACCCGGTCAATAACGAGATCGGCATGCAGGAATCGGGCAATTCGGTCGCGCTTGCGGAAGAAATGACCAAGACCGGCGAGATCAAGCGGCAGTACGAGCTGAACGCCAATCTCGTCAAATCCTTCCATCGCATGATGCTGATGACGGTTAAGAGGTAA	MQPIQLFDLASRQAEWLSVRQEVVATNIANANTPKFRAKDVSPFEAVMQATSQQVGMARTNPAHFGESTLSDNIAVRDNPVNNEIGMQESGNSVALAEEMTKTGEIKRQYELNANLVKSFHRMMLMTVKR	PGPT0015470_1744	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015470-flgB-K02387	NA	NA
BMS010_06003	564			hypothetical protein	GTGAAGAAAAAACGGACCAACGATAGCCATGATGAAGACGTGCTGCCCAAGCCCGCTTTCTTCACGCCCGACCGTATTCTCGCATGGACAGGCATTACGCTTGCTGCCGCCGCAGCCTTCTTTCCCTGGTACGTTTTCTTCAACGAAGAAAAGTTCGGCATGAAAGTGGCGGGCGGCGACCGCACCCGCGATCTGCCCCATACCGGCCCGCGGGAAGTCTTCAGCGTTTCGCCGATGGCCATGACCAATCGCAACAAGGAAGACACCCCGCCGCCGGCGGAGTTGCCCGACATGCTGACGACGGCGACCGTGAACGCAGGCGGCAAGGAAAAGCAGAACAATCTGGCAGCCGGAATCGAGGACCAACCGTTCCCCGGCCAGACCTCCTTCCGTCTGCTGCATGTTTCCAACGGGCGCGCCCTGATCGAGGACGGTTCGGGCATGTATATGGTGAGGGTCGGTTCGACCCTGCCGGACAATGCGTTGCTGACGAAGATCGAACAGCGCAACGGCGAATGGCTGATAGAGACGTCTTCCGGCAAGACCTATCGTCCTGAAAAATAA	MKKKRTNDSHDEDVLPKPAFFTPDRILAWTGITLAAAAAFFPWYVFFNEEKFGMKVAGGDRTRDLPHTGPREVFSVSPMAMTNRNKEDTPPPAELPDMLTTATVNAGGKEKQNNLAAGIEDQPFPGQTSFRLLHVSNGRALIEDGSGMYMVRVGSTLPDNALLTKIEQRNGEWLIETSSGKTYRPEK				NA	NA	NA	NA	NA
BMS010_06004	1407	atpB_2		ATP synthase subunit beta	ATGACAATGCCGGAATCCATGCTCTCGGCTGACGCCATTTCACCGAAGCTCGCACAGCTAGCAAGCCTTGCAGGGCATTATGCCGATCCGGAGTTCTCGGTGGCGCATGGCGGGCATGTCCGCACCATCGCCGCCGGGCACTATACGGTTTCCGGCCTGTCACGGCATGTGCGGCTCGGAGAATTCGTCGCCCATCGCAGCGCGACCGGCATTCATCTCGGCGAAGTGGTGCGCGTGGAACCGGACATCTGCTATGTCTGCCCCATCGAGCCCGGCGAGCCGATCGGCATTCACGACACCGTCATCCGCAAGGGCGCCTTCCGCGTCTCGCCCGACGACAGCTGGTGCGGACGCACCATCAATGCGCTCGGCGAACCCATCGACGGCCAGGGGCCGCTGGCCTCCGGCATCGAGCGCCGTTCGATTTCCAACAATGCGCCGCCCTCGATGACGCGCAAAAGGGTGGAAACGCCTTTCAAGACCGGTGTGCGGGCAATCGATATCTTCTCGCCGCTTTGCCTCGGCCAGCGCCTCGGCATTTTTGCCGGTTCCGGTGTGGGCAAATCCACGCTGCTGTCGATGCTTGCAAAGGCTGACGCCTTCGACAAGGTGGTAATTGCTCTTGTCGGCGAACGCGGCCGTGAAGTGCGCGAATTCATCGAAGACACGATGGGCGAGAATATGAGCAAGTCCATCGCCGTCGTTGCGACAAGCGATGAAAGCCCGATGCTGCGCAAGATGGCGCCGCTTTCCGCCGTCACCATCGCCGAACATTTTCGCGATCAGGGCGACAATGTTCTTCTCATCATCGACAGCGTGACGCGCTTTGCCCATGCCATCCGCGAAGTGGCGGTCGCTTCGGGCGAGCCGCCGGTGGCGCGCGGCTACCCGGCCTCGGTCTTCACCGAACTGCCGCGCCTTCTGGAGCGGGCGGGACCGGGCGCGGAAGGCACCGGCACCATCACCGCCATCGTCTCCATTCTGGTGGATGGCGACAATCACAACGACCCGATTGCCGATTCGACGCGCGGTATTCTCGATGGCCATATCGTGCTTGACCGCAGCCTTGCAGAAGAAGGCCGTTACCCCCCGATCAATCCGCTCGCCTCGATCTCGCGTCTCGCCAAGAAGGCCTGGACACCGGATCAGGAGAAGCTGGTGTCGCGCCTCAAGGCGCTGGTGCATCGCTTCGAGGAAACGCGCGATCTTCGCCTCATCGGCGGTTATCGGCCCGGCACCGATCCTGATCTCGACATGGCGGTGAAGCAGGTTCCGATCATCTACGAAACGTTAAAGCAGCTGCCGAACGAACCGGCGGCGCAGGATGCCTATGCTGATCTGGCGACCGCCTTGCGGAGCGGCGCGCAGAACGGTCAGCCGCAGGTAACTCCCAGAGCGAGAGGCTGA	MTMPESMLSADAISPKLAQLASLAGHYADPEFSVAHGGHVRTIAAGHYTVSGLSRHVRLGEFVAHRSATGIHLGEVVRVEPDICYVCPIEPGEPIGIHDTVIRKGAFRVSPDDSWCGRTINALGEPIDGQGPLASGIERRSISNNAPPSMTRKRVETPFKTGVRAIDIFSPLCLGQRLGIFAGSGVGKSTLLSMLAKADAFDKVVIALVGERGREVREFIEDTMGENMSKSIAVVATSDESPMLRKMAPLSAVTIAEHFRDQGDNVLLIIDSVTRFAHAIREVAVASGEPPVARGYPASVFTELPRLLERAGPGAEGTGTITAIVSILVDGDNHNDPIADSTRGILDGHIVLDRSLAEEGRYPPINPLASISRLAKKAWTPDQEKLVSRLKALVHRFEETRDLRLIGGYRPGTDPDLDMAVKQVPIIYETLKQLPNEPAAQDAYADLATALRSGAQNGQPQVTPRARG	PGPT0015340_324	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015340-fliI|lgiI-K02412	NA	NA
BMS010_06005	735	flgG_3	COG4786	Flagellar basal-body rod protein FlgG	ATGCAATCCGGACTATACGTCGCCCTGTCCTCGCAGATCGCGCTTGAGCGCCGTCTCACCACCATTTCCGACAATATGGCGAATGTGAACACGGTCGGCTTCCGCGGCTCCGAAGTGAAATTCGACGAAATGGTCGCCAAGAACCACAATGACATGAATGCCAGGGTGGCTTTCGTTTCGCAGGGCAACGACTATCTCTCCACCCGCCAGGGTGCTTTCGAACAGACCGGCAACTCCTTCGATTTCGCCATCAAGGGCGACGCCTGGTTTTCGCTGGATACGCCCGATGGCCAGATTCTGACCCGCGACGGCCGCTTCACCATGCGTCCGGACGGCGCGCTCATCTCCTCGAACGGTTATCCCGTTCTCGATGCCGGCGGCGGCCCGATCCAGCTCAACCCGAATGGCGGCCCGATCACTGTCGGTCTCGATGGCGCCATCCGGCAGAACGAAAACATCGTCGCCACCCTCGGCATCTTCCAGGCGGATTTCTCGCAAGGGTTCCTGCGTCATCCCAATAGCGGCGTGAAGCCGGTGGCCCAGCCGGTTCCGGTGGTCAACAATCATGAAGTCGGCGTCGTTCAGGGTTATCTCGAACAGTCGAACGTCAACGGCATTTCCCAGATGACCCAGCTCATCCAGGTCAACCGCGCCTTTGAAAGCATCTCCTCGCTGATGCGCGATACCGAATCGACCTTCGGCGAAGGCATCAAGACGCTTGGCGGCGCGCGTTGA	MQSGLYVALSSQIALERRLTTISDNMANVNTVGFRGSEVKFDEMVAKNHNDMNARVAFVSQGNDYLSTRQGAFEQTGNSFDFAIKGDAWFSLDTPDGQILTRDGRFTMRPDGALISSNGYPVLDAGGGPIQLNPNGGPITVGLDGAIRQNENIVATLGIFQADFSQGFLRHPNSGVKPVAQPVPVVNNHEVGVVQGYLEQSNVNGISQMTQLIQVNRAFESISSLMRDTESTFGEGIKTLGGAR	PGPT0015490_2069	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015490-flgF-K02391	NA	NA
BMS010_06006	780			hypothetical protein	GTGACTTCCACCTACACCAGCTACAGACTGATCAGTCAGGATATCGGCAAATCGCTTGAGCGTGTGTCGGAGCAGCCCGACGTGGCGCGCGAGACCGAATATTACCGCGCGAAGATCGGCGATGTGAAATCCATCGACGACTTCATGGCCGATACGCGCCTTTACAATTACGCGCTGAAGGCCCACGGGCTCGAGGATATGGCCTATGCGAAGGCCTTCATCCGCAAGGTGCTGACGGAAGGCACCTCGGACAAGGACGCCTTCGCCAACAAGCTCTCCGACAGCCGTTATGCGGATTTTGCGAAGTCGCTGGATTTTGCCGGCCTGGGGGTCGCGGCAACCTCCACCGAGGCCGCCAAATCGGGCGTCATCGGCAAATACACCCGCCAGACGCTGGAACAGGAAGCGGGCGACGACAATAACGGCGTCCGGCTTGCTCTTTATTTCGAACGCAAGGCGTCAACCATCACATCCGGCCTCGACTTTCTGGCGGACGATGCGCTCGCCCAGGTGTTTCGCACGGCCTACAACCTTCCCGACGAGTTTGCCGCCGCCGATGTCGACAAACAGGCGGCGCTCATCGAAAAAACCATCGATATCAAGGATCTGCAGGATCCCGAAAAGGTCGGCAAGCTGCTCGAGCGTTTCACCATCATGTGGGAAATGCAAAACCCCTCGACGACCTATGATCCTCTTGCCGTTTTCGGCTCCTCCAGCGGCTACGGCATTTCCCCGGACCTGCTGATCTCCATCAACTCCCTGAAACTCGGAGGCAAATGA	MTSTYTSYRLISQDIGKSLERVSEQPDVARETEYYRAKIGDVKSIDDFMADTRLYNYALKAHGLEDMAYAKAFIRKVLTEGTSDKDAFANKLSDSRYADFAKSLDFAGLGVAATSTEAAKSGVIGKYTRQTLEQEAGDDNNGVRLALYFERKASTITSGLDFLADDALAQVFRTAYNLPDEFAAADVDKQAALIEKTIDIKDLQDPEKVGKLLERFTIMWEMQNPSTTYDPLAVFGSSSGYGISPDLLISINSLKLGGK				NA	NA	NA	NA	NA
BMS010_06007	873	motA_2	COG1291	Motility protein A	ATGAATATTGTAATTGGACTTATAATCACCTTCGGCTGCATCATCGGCGGCTATATGGCGATGGGCGGTCATCTGGACGTGCTTGTTCAGCCGTTCGAATTGATGATCATTGGCGGCGCCGGTCTCGGCGGCTTCATCATGGCGAACCCCATGAAGGTCGTGAAGGACTCGGGCAAGGCGCTCGGCGAGGCCTTCAAGCATTCGGTCCCGAAGGAGCGAAACTATCTCGACGTGCTCGGCGTGCTTTATTCGCTGATGCGCGATCTGCGCACGAAATCGCGCAACGAGATCGAGGCCCATATCGACAATCCGGAAGAATCCTCGATCTTCCAGAGCGCGCCCTCGGTTCTGAAAAACAAGGAACTGACCTCGTTCATCTGTGACTATGTCCGCCTCATCATCATCGGCAACGCCCGCAGCCACGAAATCGAGGCGCTGATGGATGAGGAAATCGAGACCATCCTGAACGACAAGCTGAAACCTTACCACGCGATCACCACCATGGGCGATTCTTTCCCCGCCATCGGTATCGTCGCGGCGGTTCTCGGCGTCATCAAGGCCATGGGCAAGATCAACGAATCGCCGGAAGTGCTCGGCGGCCTGATCGGCGCCGCACTCGTCGGCACCATGCTCGGCATCATCCTGTCCTATTCGATCTGCAACCCGCTGGCGTCCCAGGTCAAGATCGTCCGCACCAAGCAGCACCGCCTCTATATCATCGTCAAGCAGACGCTGATCGCCTACATGAACGGCTCGGTGCCGCAGGTCGCGCTCGAATACGGCCGCAAGACCATCTCCAACTACGAGCGGCCGTCGATTGACGCTGTCGAACAGGAGATGATGAACCCCGGCGGCGAAAACAAGGCGGCATGA	MNIVIGLIITFGCIIGGYMAMGGHLDVLVQPFELMIIGGAGLGGFIMANPMKVVKDSGKALGEAFKHSVPKERNYLDVLGVLYSLMRDLRTKSRNEIEAHIDNPEESSIFQSAPSVLKNKELTSFICDYVRLIIIGNARSHEIEALMDEEIETILNDKLKPYHAITTMGDSFPAIGIVAAVLGVIKAMGKINESPEVLGGLIGAALVGTMLGIILSYSICNPLASQVKIVRTKQHRLYIIVKQTLIAYMNGSVPQVALEYGRKTISNYERPSIDAVEQEMMNPGGENKAA	PGPT0015370_511	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015370-motA-K02556	NA	NA
BMS010_06008	954			hypothetical protein	ATGGCAAAAGCTGCAGCACAACAAGCACCCGCCATCGACACCGCCCTTCTCGCGAAATTGACGGGAGGGCTGTCCGACCGCAAGACGATCGCCAAGATCGGTTCCGATATCGGCCATCTCTACAGCGAATTCCTGCCTGATATCTTCCACAGCGAGACCGGCATCGCCATCGACGTCGAATATGTCGGCTCCGAATCGGGACTGATGACCGACCTGATCGCCAATGTCGGGCGCAACGTCGCGGTTGCCGATTGTTCCCTGCGCAACTGGTGCCCCAATTTCATGATGACGGTCGGCAACGGCTTCGTCATCGCGCTCATGGAGCGCATGCTGGGCGCGTCGCCGGACATGATCGGCGAACCGGACGAGCGCAGCCTGTCCCATATCGAGCTCGACCTCGCGGCCATGGTTCTTGGCCGCATCGCAGGCGTCCTGCGCTCCGGCGTCAACGCGCCGGGCGGTTTTGAAGCGACCATTGAGCCGCCCTTCAATTCCAACGGAAAGAGCGCCTTCGACGAGATGATTGCTGGCCTTTACGGCGTGACCATCCGCATGAAGATCGTTATCGGCAAGGTATCCTCGGAATTCTCGCTGATCGTGCCGCAGCGCCCCCTGCTCAAGACCTCCATCGTTGCCCCCAAGGCTTCAGCCCAGGCGCTGAAGAAGCAGGAGGAATGGATGGAGATGATCTCGGAGCAGGTGAAGCGGTCGCAGGTCACGCTCGAGGCGCGCATCAAGCTTGAAACACTGACGCTCAGGACGATTTCCAAGCTGGTGGCCGGTGATGTCATCCCGTTCCAGGCTCTGAAGCAGGATGACATCGGCGTCGAGGTCAGCGCCAACGGTTCCAAGCTCTACAATTGCGAATTCGGCAAGTCCGGCGACCGCTACATGGTTCGGGTGAAGAACAATGTCAGCACGGACGACGAGATCTTACGACATTTGATGGGTTAA	MAKAAAQQAPAIDTALLAKLTGGLSDRKTIAKIGSDIGHLYSEFLPDIFHSETGIAIDVEYVGSESGLMTDLIANVGRNVAVADCSLRNWCPNFMMTVGNGFVIALMERMLGASPDMIGEPDERSLSHIELDLAAMVLGRIAGVLRSGVNAPGGFEATIEPPFNSNGKSAFDEMIAGLYGVTIRMKIVIGKVSSEFSLIVPQRPLLKTSIVAPKASAQALKKQEEWMEMISEQVKRSQVTLEARIKLETLTLRTISKLVAGDVIPFQALKQDDIGVEVSANGSKLYNCEFGKSGDRYMVRVKNNVSTDDEILRHLMG	PGPT0015405_2032	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_C-RING,PGPT0015405-fliM-K02416	NA	NA
BMS010_06009	540			hypothetical protein	ATGGCTACGAAGAAAACACCTGTGACCGATGATGCGGCGTTGCCGTCGTTTGAAGACGGCGGCGATCTCGACCAGGCTATCGGCGATCTGCGTGGCGTCCTCAAGACGGATGCGGAAGGCTCGCTCTCCGATTTTGGCGACTTCGGCGATTTCGGCAGCACGGACGAGGCTTCGACGGACACTGACCTTTCCGCCTTTGGTGGCGGAGCGGCCGATTTTGGGATGGATGATTTTGCCGCCGCCCCGCAGGTTGCGGGCGTGAAGGCGCCGCTTGGCAGCGGATTGTCCGAAAACATGGAAATGATCATGGACATCCCGATCGATGTCCAGATCGTGCTTGGCACCAGCAGAATGCTCGTTTCGGGGCTGATGAGCCTTGAAGAGGGCGCAACGATCGCGCTTGATCGCAAGATCGGCGAGCCGGTCGAGATCATGGTGAATGGCCGCCGTATTGCGCGCGGTGAAATAACGGTTCTGGAAGACGACGATACGCGCTTCGGCGTAAAATTGATTGAAGTACTGAGTACGAAGAAAGCCTGA	MATKKTPVTDDAALPSFEDGGDLDQAIGDLRGVLKTDAEGSLSDFGDFGDFGSTDEASTDTDLSAFGGGAADFGMDDFAAAPQVAGVKAPLGSGLSENMEMIMDIPIDVQIVLGTSRMLVSGLMSLEEGATIALDRKIGEPVEIMVNGRRIARGEITVLEDDDTRFGVKLIEVLSTKKA	PGPT0015410_995	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015410-fliN|lfiN|fliNY|cheC|cheD-K02417	NA	NA
BMS010_06010	1044	fliG_2	COG1536	Flagellar motor switch protein FliG	ATGATGGACTTCGAGGATTTCGGTAACCCCCTGGCAGGGAAACCGTTGTCTCAGGCCGACAAGGCGGCCGCGGTGCTTCTTGCCATGGGCAAGGGCGTCGCCGGCAAGCTGCTGAAATTTTTCACGCAGCACGAATTGCAGATGATCATTTCCTCGGCCCAGACCCTGCGTGTCATTCCTCCCGATGAGCTTGCCCAGATAGTCGCCGAATTCGAAGACCTGTTCACCGAGGGAACGGGCCTGATGGACAATGCCAAGGCAATCGAGAGCATTCTCGAAGAGGGCCTCACCCCTGAAGAGGTGGACAGCCTTCTCGGCCGTCGCGCGGCCTTCCAGGCCTATGAAGCGTCGATCTGGGACCGCCTGCAGGAAGCCGAGCCGGAATTCGTCGGCAAGTTCCTGCTGCGCGAACATCCGCAGACCATCGCCTATATCCTCTCCATGCTGCCTTCTTCCTTCGGCGCTAAGGTTCTCCTGACCATTCCGGAAGAGCAGCGCGCCGATATCATGAACCGTACCGTCAATATGAAGGAAGTCAGCCCGACGGCTGCCCAGATCATCGAGAAGCGTGTGGTCAACCTCATCAACGAAATCGAGGCCGAGCGTAATGCCGGCGGTTCCACGAAGGTTGCCGATCTGATGAACGAACTGGACAAGCCGCAGGTCGATACGCTGCTCAGCTCGCTCGAGACGCTCAGCAAGGAAGCCGCAAACAAGGTCAAGCCAAAGATCTTCCTCTTCGACGACCTCATGTTCATGCCGCAGCGCAGCCGTGTCCTGCTGCTCAACGATGTCTCGGCCGATGTTCTGACGATGGCGCTGCGCGGCGCCACGATGGAAATCAAGGAATGTGTGCTCTCCAGCATCAGCCCGCGCCAGCGCCGCATGATCGAATCGGACCTTGCGGTGCCGCAGGCCTCGATCAACACCCGCGAAGTGGCAATCGCACGCCGCGCCGTCGCGCAGGAAGCGATCCGGCTCGCCAATTCCGGCCAGATCCAGCTGAAGGAAGCTTCCGCGGAGGAACAACCGGCCGCTGCTTGA	MMDFEDFGNPLAGKPLSQADKAAAVLLAMGKGVAGKLLKFFTQHELQMIISSAQTLRVIPPDELAQIVAEFEDLFTEGTGLMDNAKAIESILEEGLTPEEVDSLLGRRAAFQAYEASIWDRLQEAEPEFVGKFLLREHPQTIAYILSMLPSSFGAKVLLTIPEEQRADIMNRTVNMKEVSPTAAQIIEKRVVNLINEIEAERNAGGSTKVADLMNELDKPQVDTLLSSLETLSKEAANKVKPKIFLFDDLMFMPQRSRVLLLNDVSADVLTMALRGATMEIKECVLSSISPRQRRMIESDLAVPQASINTREVAIARRAVAQEAIRLANSGQIQLKEASAEEQPAAA	PGPT0015400_468	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_C-RING,PGPT0015400-fliG-K02410	NA	NA
BMS010_06011	1083	flhB_2	COG1377	Flagellar biosynthetic protein FlhB	TTGGCAGACGATCAGGACAAGGACAGTAAAACAGAAGCCCCGACGGAGAAAAAACTCCGCGATGCGGCGGAAAAGGGCAATCTTCCCTTTTCCCGCGAAGTGCCGATCTTTGCCTCCTCGCTTGCCTTTTATTGTTACCTGGTCTTCTTCCTGCCCGATGGCGCCGGTCGTCTTGGCGTCACATTGAAGGACCTGTTCGGCCAGCCGGAACAGTGGGACCTCAGCACCCGGCCGGATGCCCTGTCGCTATTGTATTTTCTCGGCACCTCGATGGCCTATCTGCTCATGCCGGCGATGATCATGTTCATCGTCTTCGGGCTTGCCTCGTCATTTTTCCAGAACCTGCCGTCGCCGGTGCTTGAGCGGGTGCGTCCGCAATGGTCGCGCGTCTCGCCGGCGAAGGGCTTCACGCGCATCTATAGCAAGCAGGGTTTCGTTGAATTCGGCAAATCCGTATTCAAGATCATGATCGTCTCGGTCATCATGTTCCTTGCCCTGCGTGGCGATTTTTACAGCCTCATCGATCTGATGTTCTCCGATCCGCAGGTGATTTTCGTCCGCGTCGTCGAGATCGTCAAAAAGATGATGGTCGTTATTCTGCTTTCGACCGCGCTGCTTGCCGCCGTCGACGTTTTGTGGACGCGCCACCACTGGTTCAGCCAGCTGAAGATGACGAAGCATGAGGTGAAGGAAGAATACAAGCAGTCGCAGGGCGACCCCGTGGTCAAATCCCGCCAGCGCTCCATCGCCCGCGACCGTGCCCGCCGCCGCATGATCAACAATGTGCCGCGCGCCACACTCGTCATCGCCAACCCGACACACTTTGCGGTGGCGCTGCGTTATGTTCGCGAAGAAGGCGATGCACCTGTCGTCGTCGCCAAGGGTCAGGACCTTATCGCATTGAAAATCCGCGAGATTGCGGAAGAAAACAATATCCCCGTTTTTGAAGACCCGCCGCTTGCACGCTCCATGTTTGCGCAAGTCTCGGTAGATAGTGTGATTCCACCAGTCTTTTACAAGGCTGTGGCTGAGCTCGTTCACCGGGTTTACGCCATGAAGTCATCGAAAATACGGGTTCAATAA	MADDQDKDSKTEAPTEKKLRDAAEKGNLPFSREVPIFASSLAFYCYLVFFLPDGAGRLGVTLKDLFGQPEQWDLSTRPDALSLLYFLGTSMAYLLMPAMIMFIVFGLASSFFQNLPSPVLERVRPQWSRVSPAKGFTRIYSKQGFVEFGKSVFKIMIVSVIMFLALRGDFYSLIDLMFSDPQVIFVRVVEIVKKMMVVILLSTALLAAVDVLWTRHHWFSQLKMTKHEVKEEYKQSQGDPVVKSRQRSIARDRARRRMINNVPRATLVIANPTHFAVALRYVREEGDAPVVVAKGQDLIALKIREIAEENNIPVFEDPPLARSMFAQVSVDSVIPPVFYKAVAELVHRVYAMKSSKIRVQ	PGPT0015325_1942	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015325-flhB-K02401	NA	NA
BMS010_06012	438			hypothetical protein	ATGAAAAAATCCGCCTATTCCGAACAGCGGGAAATGATCGTCGCAGAGGCGATCAACCCGATTGCCACCGAACTTCGATTGTTAGACCCGGCCGACCTGATTTCGCTGCTTCGATTCGAGTGCTACGGCAGTATCGCCGACCTCGTTTCATCGGCTGCGGAGCTTTATTATCATCCCGGTACGATCAATTTCGGCGCCGGCGGCGAATATAAGCTCGAATGGGAAGGCGCGCCGGAGATCGTCCTCGATCTCGAACTGAAGCCGAAGGGCGCCACGGTCTATGCGCGATTGACGCTCGCCAATGAACATGCGGCGATTGAGATCAATCACGTCTCGTTTCAGAATCCTTCCGAAAATCCGGACGAGAACACCGAGTTTCTTCGTCAAAGCCTGACGGCTGCCCGATTCGTGCCCACCCGTCAGGGCGAAGCGGCTTAA	MKKSAYSEQREMIVAEAINPIATELRLLDPADLISLLRFECYGSIADLVSSAAELYYHPGTINFGAGGEYKLEWEGAPEIVLDLELKPKGATVYARLTLANEHAAIEINHVSFQNPSENPDENTEFLRQSLTAARFVPTRQGEAA				NA	NA	NA	NA	NA
BMS010_06013	1293			hypothetical protein	ATGACCAGCATTTTGACCAATGCGGCGGCAATGGCCGCGCTGCAAACCCTGCGGATGATCGACAAGAATCTGGAAACGACGCAGGCGCGCGTGTCCTCCGGCTATCGTGTCGAGACTGCGGCGGACAACGCGGCCTACTGGTCCATTGCAACGACAATGCGCTCCGACAACAATGCGCTTTCGGCCGTGCAGGATGCTTTGGGTCTGGGCGCCGCCAAGGTCGATACCGCCTATGATGCGCTTGAAAGCACGATCGAGGTCGTCAAGCAGATCAAGGCCAAGCTCGTCGCCGCCTATGGCGTGGGCGCCGACCGCAGCAAGATTCAGGACGAAATAAAACAGCTTCAGGAACAGCTGAAGAGCATCTCCGAATCGGCCTCCTTCTCGGGTGAGAACTGGCTGCAGGCCAGTATCAGCAACGGTGGCACGCCGCCGGTTGAAGAATCGATCACCAAAAAGGTCGTCGCATCCTTCACCCGCACTGGCTCGGGCAATGTCGGGGTCACCACCGTTGACTACACGCTCGACAGCAGCACCGTCCTTTTCGACCTCAGTGGCGGAAAGCTCGGCATTCTCGACAAAAACGCCGTTTTCGTCAGCAAGACGGAATATGAAGTCACCCAGACCTCGACGACCGCCGGCACGGCGACGCAGGCGGGTTTTGTCGTACCGAAGCTCACCGACGCAGAAATCGGCGCGCTGAATGCCGCAACGACGGATACGAATACGGATCCGAATGTCTATAGCGACGGCACCGCCAATTATCTCCGCCTTGCCGAAAATGTATGGGTCAAGGTGACGGGGACGGATCCGTCGAGCGGCGGCACCACCGTTTCTCCTGCCTATCGCGACACCAGCAGCAACGACTGGTTTTACGATACCAGCAGCGGAGCGGCTTCAGCCGCTCGTTCCCTCGGCTTTTCCGTTTCCACCCTCGATCTCGGCAATCTCGATATCGTTGCCGCGGCCATGGGCGGTTTTGCCGGCGGTGGCACGACCTATACCGACGCAGACGCCATCGACATGATGATGTCCTTCGTCGACGGGCAGCTTGAGGCGATGACCAGCACGGCTTCCAGCCTGGGTTCGCTGCAGAGCCGCATCAGCATGCAGGACAACTTCGTTTCCAGCCTGATGGATGTGATCGACAAGGGCATCGGCCGTCTCGTCGATGCCGACATGAACGAGGAATCGACCAGGCTGAAGGCGCTGCAGACGCAGCAGCAGCTCGGCATCCAGGCGCTCTCCATCGCCAACGCCAATGCGGAAAATATCCTCCAGCTCTTCAAGTAA	MTSILTNAAAMAALQTLRMIDKNLETTQARVSSGYRVETAADNAAYWSIATTMRSDNNALSAVQDALGLGAAKVDTAYDALESTIEVVKQIKAKLVAAYGVGADRSKIQDEIKQLQEQLKSISESASFSGENWLQASISNGGTPPVEESITKKVVASFTRTGSGNVGVTTVDYTLDSSTVLFDLSGGKLGILDKNAVFVSKTEYEVTQTSTTAGTATQAGFVVPKLTDAEIGALNAATTDTNTDPNVYSDGTANYLRLAENVWVKVTGTDPSSGGTTVSPAYRDTSSNDWFYDTSSGAASAARSLGFSVSTLDLGNLDIVAAAMGGFAGGGTTYTDADAIDMMMSFVDGQLEAMTSTASSLGSLQSRISMQDNFVSSLMDVIDKGIGRLVDADMNEESTRLKALQTQQQLGIQALSIANANAENILQLFK	PGPT0015190_1526	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015190-fliC|laf1|lafA|fla1|hag-K02406	NA	NA
BMS010_06014	657			hypothetical protein	ATGAGCGCGTCCATCGCACGGTTTCTCAAGGACTTCGGTGAAGCGCAACCGCAACCGGCGGCGCAGGCCTTCGGCGACCCGTTGGCCGATACGGATTTCCTGTCCGGCTTTGACGACGGCGCTTCCGGTTTTGACGAATTTGCTCCCGTCGATGTGGAGAGCGAGAAGCAGGCGGCCTATGACCGCGGCCGGGAAGATGCTACCCGCGAGATCACCGAGAAGATGCAGGCGGAGCGGGAAGAGCTGATCGCTGCCCATGCGGCCGAGCTGGAGGCCCTGCGTTCGGGTCATCTCGAAGAAATCGCGTCTTCCCTGTCCCGTGGTCTGCGCGAGGGTATCGACGCGATTGCGGCCAATCTCAGCGAACAGACCGCCAACATCCTTGCTCCGGTCCTGACGGAAAAACTGTCGCTCAAGGCAGTCTCGGCGCTGGCGGATGTGGTGCGTAGCGCCATGCCGGATGGCGAAGGGGTCACGCTTGTCGTGAAAGGCCCGAAAGATTTGTTCGAGCGGCTGAAGACGCAGCCGGGCTTTGAAGAAGAAACGATGAAATTTACCGAGACCACCGATATCGATCTTTCCGTCGAGTTGGGTGAAAGCGTGTTCGTGACGCGCATGTCCGCCTGGGCGTCCAGTCTTCGCAAGGTGATGAAATGA	MSASIARFLKDFGEAQPQPAAQAFGDPLADTDFLSGFDDGASGFDEFAPVDVESEKQAAYDRGREDATREITEKMQAEREELIAAHAAELEALRSGHLEEIASSLSRGLREGIDAIAANLSEQTANILAPVLTEKLSLKAVSALADVVRSAMPDGEGVTLVVKGPKDLFERLKTQPGFEEETMKFTETTDIDLSVELGESVFVTRMSAWASSLRKVMK				NA	NA	NA	NA	NA
BMS010_06015	1308			hypothetical protein	ATGAGTGAAGGCGAAAATCACCACCACGGTAAAAATGAGATCATCATCGTCAAGCGCCACAAGGGCGGTCATGACGGCGCTCATGGCGGCGCGTGGAAAATCGCCTATGCCGACTTCATGACGGCTATGATGGCGTTCTTCCTCGTCATGTGGCTGGTCAATGCCGCCAATGAGGAAACCAAGGCCTCGGTCGCCAGCTATTTCAACCCGATCAAGCTGTCCGATGAGAAACCCTCGTCCAAGGGGCTGGAAAAGCCAGTGGACAAGGAGGAGGGCGTCCAGAAGAAGGACCAGTCCAACATCCAGGCGGAAAAGGTCACCAAAGGCTCGGCCGCGGCGACGGGCGAAGACCTTACCTCGCAGACCGGTGAGCAGTCGAACTTCTCCGAAGCCGACTTTTTCGAAAATCCCTATTCCGTGCTGGCGGAAATCGCCCAGCAGGTGGGCCAGCAGGCCAATGTCAGCGCCAAGGGCGAGGGCGGCGCCGCCGATTCCGGCCCGGCGACCGGTGCTAGCGGCGGTGAAGCCTATCGCGACCCGTTCGATCCCGATTTCTGGACCCAGCAGGTGAAAATCACCCGCGCCGATCAGCCGCAGAAACCGGTTGAACATCAGCAAGTCGCCGAGAGCAAACAGGAGGATGCGGCCGAAAACGCTCAGGCGGTCGCGCTCAAGGCGTCCGAGACACTGGCCGACAAGGCGGAAGACGGCAAACCGATGGAAGTCGCCGCCGTTGTGCCGCAGCAGCGCCCCGGTGCGGCCGAGCAGGCAGCGCTTGCACAGCCAAAGCCGGACGAGCCGCGCCAGGCGAGCGATGCAGAGCAAAAGGCCAGCGACGCCGACTGGGAAAAGGCCGACACGCTGCGCGAAGAGATCGAGAAGCAGATATCCGGCATTACCGGCAAGCTTTCCGAAGGTCTGGTGGTGACGCCGGCCGAAGGCGGATTGCTGCTCACCATTTCCGACCAGACGGAAACGCCGATGTTCAATATCGGATCGGCCGTTCCCCGGCGTGAAATGGTTCTGGCCATGGAAAAAATCGGCAAACTGCTTCAGGAGCGCGGTGGCAGCGTGGTGATACGCGGCCATACCGACGGACGGCAGTTCAAGGGCGAGGCCAATGACAACTGGCGGCTTTCCATGGATCGCGCCCATAGCGCCTATTACATGCTGGTGCGCGGCGGCCTGTCGGAAGAGCGGGTAAAGCAGGTCTCGGGTTTTGCGGACCGCAGATTGCAGGTGCCGGCGGACCCTCTGGCGGACGCTAACCGCCGCATCGAAATTCTGCTTGAGGCCGATCGGGGGTGA	MSEGENHHHGKNEIIIVKRHKGGHDGAHGGAWKIAYADFMTAMMAFFLVMWLVNAANEETKASVASYFNPIKLSDEKPSSKGLEKPVDKEEGVQKKDQSNIQAEKVTKGSAAATGEDLTSQTGEQSNFSEADFFENPYSVLAEIAQQVGQQANVSAKGEGGAADSGPATGASGGEAYRDPFDPDFWTQQVKITRADQPQKPVEHQQVAESKQEDAAENAQAVALKASETLADKAEDGKPMEVAAVVPQQRPGAAEQAALAQPKPDEPRQASDAEQKASDADWEKADTLREEIEKQISGITGKLSEGLVVTPAEGGLLLTISDQTETPMFNIGSAVPRREMVLAMEKIGKLLQERGGSVVIRGHTDGRQFKGEANDNWRLSMDRAHSAYYMLVRGGLSEERVKQVSGFADRRLQVPADPLADANRRIEILLEADRG	PGPT0015375_225	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015375-motB-K02557	NA	NA
BMS010_06016	1278			hypothetical protein	GTGAGTGTGACGAAAACCTCGAAACGCTGGCTTCTTCTTGCGGCGACGCTTTGCGGTCTCGGCTCCGAGCCGGGCAGGGCGTTTTCGCAGTCGCAAGACAATCTCATGCCTTATGCCATGCTGCGCTCACTGCAATTCGTGCAGGATTCGGTCGCCATGGGCGACCATTCCGCTTCGGAAATGCAGCGGTTTCTACTCCAGACCATCGACGAGCGGCTGAAGAGCGCGCCTTCGGCGATCTACAAGGATCCGCGCAATGTCGATGCGGCGCTCATCTATGCGATGAGCGGCGGCAATCCGGCCACGCTGGAACTGCTGGTCGCGCGCGATGTGGATGGCAATTTCGACAGCCGCGTTGCCGATATCCTGCGCAAATACCTCTCCGGCAAGGGAACGCTTGTCGCGCAGAGCATTGCGGCCATGGTGCCGGAATATCGCGGCAAGCGGATTGGCGCCTACCTTGCGCTGATCGGCGGCAATGTGACGATTCCGCGCGATCCGCTGGCGGCGCTTGGTTTTTACGATATCGCCCGGCTCGAAGCGCCGGGTACCATCGTCGAGGAGGCCGCATTGCGCCGTTCGCTCGCCATCGCGGTCGAGGACGGCGATGCGGCACGCGGCGTCGAATATGCGCAGCGTTATGCGCGGCGGTTCCTGCATTCGCCCTATGCCAGCCAGTTTGCGGACCTTCTGGTCTCGCTGGTGGTCAAGCGCGCCGATTCCATCGGGGAGGAGGCGATACAGGAAACCTTCGCCATGATGGATACCGAGAGGCAGAAGGAAGCCTATCTGCGGCTTTCCCGCCTCGCGGCGATCAGCGGCAAGGATTCGCTGGCGCGCATGGCGGCGTTGAAGGCGAAGGCGCTATCTCCTGCTCTGCCGGGTGAGCCGGAAGTGCAGGCAAATCTCTATGAAAGCCTTTCCAACATCGGCACGCCCGATGTGGTGAGCGCAATCGAGACAATAGGGCAGATTCCCGAAGCGCAGCTTTCGGATCGGGACAGGGCCTTGCGGGAGGCGGCAAGAGCGATTGCCGAGCAGGTGGTTCGTCCTCCTTCCCCGCAGTCCGGCGTCGAGGCCGACACTGCGGCCACGAAGGAGACCGGGCGGAATGCGCCCGAAAACGAAGCGAACGCTGCCGATGCAAGAAGCATATGGCGGGTCGAAACCCAGAAAGCTGACGATGAGGGCGACAACGTGCGGCAACTAGTGACGAGCGGTCGCAGCAAGCTCGATGAAATCGACAGCCTGTTGAAGAAAGGCGAGGGGGCACCATGA	MSVTKTSKRWLLLAATLCGLGSEPGRAFSQSQDNLMPYAMLRSLQFVQDSVAMGDHSASEMQRFLLQTIDERLKSAPSAIYKDPRNVDAALIYAMSGGNPATLELLVARDVDGNFDSRVADILRKYLSGKGTLVAQSIAAMVPEYRGKRIGAYLALIGGNVTIPRDPLAALGFYDIARLEAPGTIVEEAALRRSLAIAVEDGDAARGVEYAQRYARRFLHSPYASQFADLLVSLVVKRADSIGEEAIQETFAMMDTERQKEAYLRLSRLAAISGKDSLARMAALKAKALSPALPGEPEVQANLYESLSNIGTPDVVSAIETIGQIPEAQLSDRDRALREAARAIAEQVVRPPSPQSGVEADTAATKETGRNAPENEANAADARSIWRVETQKADDEGDNVRQLVTSGRSKLDEIDSLLKKGEGAP	PGPT0015380_104	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015380-motC-K10564	NA	NA
BMS010_06017	1362			hypothetical protein	ATGATCGACGCAGCCATCAATGCGATAATGAATGCGCCGCCATCCGATCCGCGCGCCGGCAGCGCCAGCGTCCGGGACGACGCCAAGGGCGGCAGTTTCGGCGATGCCCTTTCCACGGTTCGGGACGAGCGCCCGCCGCAGGCGCTGCATTCGCGGCATCAGCAGGACGGGAACCCGGCTGAAGAGCAGCAGGCGCAGCCCGATGGCGAGGCGGAAAAGATGGATGTCCCGGTCAAGCGGCCCGCAACCTTTCTGAATGCGATCGTCAACGAGCATGCCGGCGAAGGTCGTGCCCAGGAGACGGTGGCGGAGTTTCAGAGCGCCGTGAAAACGGCCCGCACGACGCCGGAAAACGGCAAGCCCGGCAAGAAGCTCAAGGACGACGCCGACAAGGACGCCGAGGTGACGGACGATACGATCGATCCGAAGCTGGCGGAATTGCAGCTCGTGACGGCCAATGCCACCGATATGGCGACGGCCAAGACACCGCTTGAGGAAATTGCACAGGCGATTGCCGGCAAGGCCGACACGGTGAAATCAGACCGTGCTGAGCCTGTCCGGGGCAAGGTCGAGCATTCGGTCAAGGACATGCCGACAGGGATCGCACCAGCCGGTAACGAGGCGGGTTCTGCTTCGGAAAACGAGGGGGATGCCTCGGCATTCCGTTTTTCGTCTCCGCGCTCAGGCGCGGCGCGGGCTCTGGATATGAGCACCGTTCAGCGTGACGGCCGTGTCGAGTTCGATGCACGCGAAAGCACCGGCAAGGCGGCCGACACCATAACGGTTCTCGATTCGCGGCGGTTCATCGGCCTGGCGCCCTCGACCAACGCGTCGGCCCTGACCGGCCTGATCGTCAACGATCCGGAATGGGTGAGCGCCATGCAGCCCGGTTCGTCGCTCTCCAATGCGGCGGCCCAGAGCAGCACCGGCAAAGTCGTCCATACGCTGAAGCTGCACATGACGCCGATCGAGCTTGGATCGGTGACAATGTCGCTGCGGCTTGCCGGTGACGAGCTTGCCGTTCACATGACGGTGGAGAGTGTTGCGGCCTATAAAAAGCTCCAGGAAGACAGCAAGAGCATCCTCGATGGCCTCAAGGCGCAGGGTCTGACGGTCGATAACATCACCATCAGCATCGCTTCTTCCGACAAGAGTGACCAAACGGGCACACAAGACAACAATCAGCAAAATCAGCAGGCGCAGCAGCAGGGTCAGCAGGCCGCCGCCGGGCGCAACCGTGACGAGTCCGGAGCACGGGGCGAGCGGCAAGGCAATGGCGATAATTTGGGGGTGCATAATGAAGGCATGGATGGCGTTTCTGGCTCTGCCCGCTCTTCTGCTGACAATGGCGTCTACCTCTGA	MIDAAINAIMNAPPSDPRAGSASVRDDAKGGSFGDALSTVRDERPPQALHSRHQQDGNPAEEQQAQPDGEAEKMDVPVKRPATFLNAIVNEHAGEGRAQETVAEFQSAVKTARTTPENGKPGKKLKDDADKDAEVTDDTIDPKLAELQLVTANATDMATAKTPLEEIAQAIAGKADTVKSDRAEPVRGKVEHSVKDMPTGIAPAGNEAGSASENEGDASAFRFSSPRSGAARALDMSTVQRDGRVEFDARESTGKAADTITVLDSRRFIGLAPSTNASALTGLIVNDPEWVSAMQPGSSLSNAAAQSSTGKVVHTLKLHMTPIELGSVTMSLRLAGDELAVHMTVESVAAYKKLQEDSKSILDGLKAQGLTVDNITISIASSDKSDQTGTQDNNQQNQQAQQQGQQAAAGRNRDESGARGERQGNGDNLGVHNEGMDGVSGSARSSADNGVYL	PGPT0015385_101	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015385-motD-K10565	NA	NA
BMS010_06018	567			hypothetical protein	ATGGCGTTTCTGGCTCTGCCCGCTCTTCTGCTGACAATGGCGTCTACCTCTGAGAACGCGTCCGCTTCGGCAACGTCAGGTGTCTGTGAAAGAGAGATCCAGTCGGCGGCCCGCAAATATGGCGTGCCGGAGGGAATTCTCTATTCGGTGGGGCTGACCGAAACGGGCCGCAAGGGGCGTCTCGACCCCAACGCCATGAATATCGAGGGAAAACCGGTATTTGCCTCCTCCACCGAGGAGGCTTTGACCACTTTTGAGGCGGCGAAGCGCAACGGCGCCAAGCTGATCGACCTCGGATGCATGCAGATAAATCATTATTTCCATGGCGAAAACTTCGCATCCGCACGGGAAATGTTCGATCCTCGCCGCAATGTGGAATATGCCGCCATGTTTCTGCGCAACCTCCACAACAGGCATGAAACCTGGACCATGGCGGTCGCCCGTTATCATGCCGGCCCCAACAATGATCCGGCGCAGAAGAAATATGTCTGCCGTGTCATCGCCAATCTGGTGGCGACGGGCTACGGAAAATGGACCGCCAACGCGAAAAATTTCTGCGACGGTTAA	MAFLALPALLLTMASTSENASASATSGVCEREIQSAARKYGVPEGILYSVGLTETGRKGRLDPNAMNIEGKPVFASSTEEALTTFEAAKRNGAKLIDLGCMQINHYFHGENFASAREMFDPRRNVEYAAMFLRNLHNRHETWTMAVARYHAGPNNDPAQKKYVCRVIANLVATGYGKWTANAKNFCDG				NA	NA	NA	NA	NA
BMS010_06019	672	ftcR		Flagellar transcriptional regulator FtcR	ATGATCGTAGTGGTTGATGAGCGCGAGCTCGTTAAAGACGGCTATACATCTCTATTTGGGCGTGAGGGCATTCCCTCGACCGGGTTCGATCCGGTCGAATTCGGGGAGTGGGTCTCGACGGCGGCGGAAAGCGATCTTGCGGCTGTGGAAGCCTTCCTGATCGGCCAGGGCGACCGGAGCTTTTCTTTGCCGAAGGCGATCAGGGATCGCACGACGGCCCCGGTGATCGCGGTCAGCGACCAGCCCTCGCTGGAATCGACGCTGGCGCTTTTCGACAGCGGCGTCGACGACGTCGTGCGCAAGCCCGTACACCCCCGTGAAATCCTTGCACGTGCGGCGGCGATCCGTCGCCGATTGCAGGTCATCTCGAACTTCACCGATGCTGGTCCGATCCGGGTTTTCTCCGACGGCCGCGACCCGGAAGTGGGTGGTGAAGTGTTCCCCTTGCCGCGCCGTGAGCGCCGCATCCTCGAATATTTGATCGCCAATCGCGGACGCCGCGTTTCCAAGGCGCAGATTTTCAATGCCATCTACGGCATCTTCGATGACGACGTCGAAGAAAACGTCGTTGAAAGCCACATCAGCAAGCTGCGCAAGAAGCTGCGTAAGAAGCTTGGCTACGATCCGGTCGATTCCAAACGTTTCCTCGGCTACAGCATTGATTGGCAATGA	MIVVVDERELVKDGYTSLFGREGIPSTGFDPVEFGEWVSTAAESDLAAVEAFLIGQGDRSFSLPKAIRDRTTAPVIAVSDQPSLESTLALFDSGVDDVVRKPVHPREILARAAAIRRRLQVISNFTDAGPIRVFSDGRDPEVGGEVFPLPRRERRILEYLIANRGRRVSKAQIFNAIYGIFDDDVEENVVESHISKLRKKLRKKLGYDPVDSKRFLGYSIDWQ	PGPT0015605_95	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_REGULATION,PGPT0015605-ftcR-K21603	NA	NA
BMS010_06020	1296	flgE_2	COG1749	Flagellar hook protein FlgE	ATGAGTATTTTCGGCACTATGCGAACCGGTGTGTCCGGCATGAATGCGCAGGCGAACAAGCTGGGCACCGTGGGCGACAACATCGCCAACGCAAGCACCACCGGCTACAAGCGCGCATCGACGTCGTTCTCCTCGCTCGTTCTGCCCTCCTCGTCGGGCAGCTATGCGTCCGGCGGCGTGCAGTCCAACGTTCGCTACAGCATTTCGGAGCAGGGCAACCTCTCCTACACGACCTCCAGCACCGACCTTGCCGTTCAGGGCAACGGTTTCTTCGTGGTTCAGGACGGTGCAGGCACGCCCTACCTCACCCGCGCCGGCTCCTTCCAGAAGAATTCGGAAGGCTATCTGGAGAATGCGGCAGGCTTCATGCTGATGGGTTACCCTTACGGCGCCAACCCGCCGGCTGCGGTCGTCAACGGCTTTACCGGCCTTGAGGCCATCAATATCAATGACTTCGGTCTGACGGCGTCTCCCTCCACACAGGGCAGCTTCCCGGCCAACCTTAATCGTGATGAGGCAATCGTTGCTGCGGGATCGCGCCCAAGTGCCAACGTCGCAACGTCGACGGTTGGCAGCAAGACGTCGCTCACGGCGTTCGACAGCGGCGGAGCCAAGGTTCTTTACGACTTCTATTACACGCGCATTGACAACGATGCGTCCGGCAATCCGCAGTGGGAAGTGTCGGTTTATCGTCAGGATCAGTCGACGGATGGCGGCTTCCCCTATACGGCAACTGCCCCGGCTACGCTCGTCAAGGAAACGGTCACCCTGACCTTCGATCCCGCCACCAACAAGCTCACCACCGGATCGGATAGCTCGATCACGATTAATGACAACAACAGCGGCGTGGCGCAGGCGATCGAGATCGACCTGTCGCAGATGACGCAGTTCTCCTCGAAGTTCACGCCTGGCACCGCTGTTCTGAACGGTAACGGCCCGAGCCAGATCAAGGACGTCGAAATCGGCAAGGATGGCCTGGTGACGGCGGTCTATCAGGATGGCGGTCGCCGCAATATCTACCAGCTGGCGCTAGCCACGGTGCCGAGCGTCGACAATCTCAGCCCGCAGAACGGTAACGTCTATCTGCCTAGCAACGAGTCGGGTGTCGTCACCATCGGCTTCGCGCAGACCGGCAGCTTCGGTTACATCCAGAAGGGCGCGCTGGAAGGCTCGAACGTCGATATCGCCAGCGAACTCACCGACATGATTGAATCCCAGCGTATCTACACAGCGAATTCGAAAGTCTTCCAGACTGGATCGGATTTGATGGACGTCCTGATCAATCTGAAGAGATAA	MSIFGTMRTGVSGMNAQANKLGTVGDNIANASTTGYKRASTSFSSLVLPSSSGSYASGGVQSNVRYSISEQGNLSYTTSSTDLAVQGNGFFVVQDGAGTPYLTRAGSFQKNSEGYLENAAGFMLMGYPYGANPPAAVVNGFTGLEAININDFGLTASPSTQGSFPANLNRDEAIVAAGSRPSANVATSTVGSKTSLTAFDSGGAKVLYDFYYTRIDNDASGNPQWEVSVYRQDQSTDGGFPYTATAPATLVKETVTLTFDPATNKLTTGSDSSITINDNNSGVAQAIEIDLSQMTQFSSKFTPGTAVLNGNGPSQIKDVEIGKDGLVTAVYQDGGRRNIYQLALATVPSVDNLSPQNGNVYLPSNESGVVTIGFAQTGSFGYIQKGALEGSNVDIASELTDMIESQRIYTANSKVFQTGSDLMDVLINLKR	PGPT0015485_1460	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015485-flgE-K02390	NA	NA
BMS010_06021	1479			hypothetical protein	ATGTCGCTCACGTCAGCAATGAATACTGCGCAGTCGATTTTCAATAATACAGGTAAGCAGACGGACGTTACCTCCAAGAACATTGCCAATGTCGGCAATGCTAACTACGTCAAGCGAACCGCCATTCTCGGCACGACCATGGCTGGAGCGAGTATCGTCTCCAACGGCCGTGCCCAGAATGAAAGTCTTCTCAGGCAGACGATTTCCAGCTCTTCTCTCGCTTCCGGCCAGAGCACGGTTCTGACCGGCCTTGAGGAAATGAAGAGCATTTTCGGCGGCAACGATTATGAGAGTTCGCCGGCCACCTATATGAAGGAACTGCTGAAGAGCCTGGACGCTTACGCCGCCAAGCCGAGCGATGCCGCTCTGGCCGCAACGGCCGTCACCTCGGCCACCGATGTTGCCAGTTCCCTGAACAAGGCCTCGAACGAATTGCAGGCGATGCGTCTGCGCGCCGACAAGGAAATCGCCCTTCAGGTCGACAAGCTGAACGGGCTGCTTGCGAAGTTCGAGGAAGCCAATAACGAGGTCAAGGCGCAGACGGCGATAGGCGGCGATCCAAGCGACGCTCTCGATCAGCGCGAGACGCTTCTGAAGGATATTTCCTCCATCATCGGCATCAATGTCGTCAATCGTCCCAACAACGATGTGGCGCTTTATACGACGGATGGCGCGACGCTGTTCGAAATCGTGCCGCGCAGCGTCACCTTCAAGACGCAGCCGGGCTATGATGCGACGACCACGGGCAACGCAATCTATGTCGATGGCGTAGCGCTGAAGGCAGGAAGCGGCAGCAACACGACGTCTGAGGGATCGCTTCAGGGCCTGATGCAGGTTCGCGACGATCTGGCGCCGACGATGCAGAGCCAGCTCGATGAAATCGCCCGCGGCCTCATCACCATGTTTGCGGAAAAGCCGGCCGACGCGACCAGCGGCCTGCCGGATATGCCGGGTCTCTTCACCTACGGCTCGCCAGCGGCGACGACCATTCCGGCAGACGGGATTGTCTCTCCCGGGCTCGCAGCCAGCATTACCGTCAACCCGGCGTTAATTATTTCCAAAGGTGGCAATCCGGAATTGTTGCGTGACGGCGGTATCAACGGTACCGATTACGTGATCAATACCGCAGCGTCGGGGGGAACCGGTTTCTCCGAGCTGATCCGCAGCTATGTTACTGCTTTCGACGCGCCCATGAATTTTGCCGCGTCGACACGTATCGATACGAATACCAGCATCCTGAAATACGGCACCAACTCGATGGGGTGGCTCGAACAGGAACGTTCCGGCGCGACTTCTGCGAACGAAGCGAAAAGCGCGCTTTATGAGCGCTCCGCCACGTCCTATTCGAACAATACGGCGGTCAGTCTGGACGAGGAACTGTCGCTGCTCATGGATATCGAGCAATCCTACAAGGCCGCGACCAAACTGGTGACGACCGTTGACGAAATGCTCAAGTCCCTGATGGACATGGTGAGGTAA	MSLTSAMNTAQSIFNNTGKQTDVTSKNIANVGNANYVKRTAILGTTMAGASIVSNGRAQNESLLRQTISSSSLASGQSTVLTGLEEMKSIFGGNDYESSPATYMKELLKSLDAYAAKPSDAALAATAVTSATDVASSLNKASNELQAMRLRADKEIALQVDKLNGLLAKFEEANNEVKAQTAIGGDPSDALDQRETLLKDISSIIGINVVNRPNNDVALYTTDGATLFEIVPRSVTFKTQPGYDATTTGNAIYVDGVALKAGSGSNTTSEGSLQGLMQVRDDLAPTMQSQLDEIARGLITMFAEKPADATSGLPDMPGLFTYGSPAATTIPADGIVSPGLAASITVNPALIISKGGNPELLRDGGINGTDYVINTAASGGTGFSELIRSYVTAFDAPMNFAASTRIDTNTSILKYGTNSMGWLEQERSGATSANEAKSALYERSATSYSNNTAVSLDEELSLLMDIEQSYKAATKLVTTVDEMLKSLMDMVR	PGPT0015195_2179	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015195-flgK-K02396	NA	NA
BMS010_06022	1104			hypothetical protein	ATGAAAACGTCATTCATTTCATCGCTGGCGATGCAGAACAGCATGCGCAGCACCATCCTCAAGGCTCAGCTCGAGATGACCAATCTCAATACCGAGCTGACGACGGGCAAGCATGCCGATCTCGGCGTGACGCTGGGCGCCAACACCGCCCGCAGCCTCGATCTCAATCGCGATATCGACCGCATCTCTTCGCTGGTGAGCGTCAATTCGATTGCAACGCAACGCCTCAAATCCTCGCAGACGGCGCTGGACGGCATGGCGCAGGCCGCACAGGAAATTCAGAAGGTTCTCGTCCCCAACACCAGCAGCGAAGCGCCGACGCTGACGACGGTTGCCAAAACCATCTCGAATGCCTTCAACAATTTCACCAGCTTCGCCAATACGGCGGTCAATGGCGAGTTTCTGTTCTCCGGCATCAATACGGATGTGAAGCCCGTCGATGACTATTTCGCTGAAGGGTCTACCCTGAAGGAAGCCTATGAGACCGAGCTGAACGCATTCATGGCGGCGCAGACGCCGGCGGTTGGCGACATCACCGGCCTCTCCAAGACCCAGGCCGAAGCCTTCATGACCCATATCGAAGGTGTGTTCAACGGCACCACGACGGTAACGAACCCGCCCCATAGCAGCCTGACGGCCGGCCAGAACTACGATTTCTGGACGACCTTCGGCTCCAAGGCGAGCGACACCAACATGACGAGCCGCATCAGCCAGAACGAGGTCGTGGAAACCTCCAGCAACAGCAATTCGCAGGGCATGCGTTATTTTGCACTGACGGCGATGACGGCGATGACCTTCCTCGACGAAAAGGTGGATAGCGGCGTTCGCGAAATGGTGGCGACCAAGTCGGTGACCAATATCGGCACCGCCATCAGTGGCCTGAACCAGCAGCAAAGCCAGCTCGGCCTTTCCGAAAGCCGCGTTTCGAAGGCCAATGATTCGCTGGCAGCCCAGAAGAAGATCATCGAAACGCATCTGCTGGATATTGAGGGGATCGATACCTACGAGGCGAAGACCCGCCTCGATCTGCTGCAGCAGCAGATTGAAATCGCATACAGCCTCACGTCGCGTCTGCAAAAAATGAGTCTGGTGAACTACCTCTGA	MKTSFISSLAMQNSMRSTILKAQLEMTNLNTELTTGKHADLGVTLGANTARSLDLNRDIDRISSLVSVNSIATQRLKSSQTALDGMAQAAQEIQKVLVPNTSSEAPTLTTVAKTISNAFNNFTSFANTAVNGEFLFSGINTDVKPVDDYFAEGSTLKEAYETELNAFMAAQTPAVGDITGLSKTQAEAFMTHIEGVFNGTTTVTNPPHSSLTAGQNYDFWTTFGSKASDTNMTSRISQNEVVETSSNSNSQGMRYFALTAMTAMTFLDEKVDSGVREMVATKSVTNIGTAISGLNQQQSQLGLSESRVSKANDSLAAQKKIIETHLLDIEGIDTYEAKTRLDLLQQQIEIAYSLTSRLQKMSLVNYL	PGPT0015505_1221	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015505-flgL-K02397	NA	NA
BMS010_06023	345			hypothetical protein	ATGTACCAGTTTTCCTACGCCGAAATCATGGAGGATGGTGTCGCCAACGCGAAGGATCGCGAGCGGCAGGCGTTGACAAAATCGATCGACCTTCTGGTGGAGGCAAGGGATTCCTCTTCGCAGCGCCACACGATCGAAGCGCTTTTTTACACTCGACGGGTCTGGATCCGCTTCATTGAGGATCTCAAGCAACCCGACAACCAGCTTGCCATGGAGCTCAGGGCCAATCTGATTTCCATCGCGATCTGGATATTGAAAGAGTGCGAACTGATCCGGAAACGTCAGTCGACGAATTTCCAGGGCATAATTGACGTGACAACCATCATCAGGGATGGACTTAAATGA	MYQFSYAEIMEDGVANAKDRERQALTKSIDLLVEARDSSSQRHTIEALFYTRRVWIRFIEDLKQPDNQLAMELRANLISIAIWILKECELIRKRQSTNFQGIIDVTTIIRDGLK	PGPT0015435_293	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015435-flaF-K06602	NA	NA
BMS010_06024	450	flbT		flagellum biosynthesis repressor protein FlbT	ATGAAAAGTACACTTCGGATTTCGCTGAAATCGGGCGAAAAGATTTTTATCAACGGCGCGGTTCTGCGTGTGGATCGCAAGGTGGCGCTCGAATTCCTGAACGATGTCACGTTTCTGCTTGAAAACCACGTCCTGCAGCCCGATCAGGCGACGACGCCGCTGAGGCAGCTTTATTTCATCGCGCAGATGATCCTCATCAACCCGGAAGGGCGCGACCAGTCCACCAACATGTTCCGCAAGTCGGTCAGCATGCTGTTGAACTGCTTCCAGCATGACGAGGTTCTGGCGGAACTCAAGCGGATCGACGGACTGGTTGCCTCGGGCAAGGCTTTCGAAGCGCTGAAGGCCATTCGCGGTCTCTACCCGATCGAGGAAAAAATCCTCAACAATCAGGAAATGACCCCCGCAACGATCGAGCAGATTCGCAAGGAGATAGCACCATGGCGGTAG	MKSTLRISLKSGEKIFINGAVLRVDRKVALEFLNDVTFLLENHVLQPDQATTPLRQLYFIAQMILINPEGRDQSTNMFRKSVSMLLNCFQHDEVLAELKRIDGLVASGKAFEALKAIRGLYPIEEKILNNQEMTPATIEQIRKEIAPWR	PGPT0015465_81	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015465-flbT-K06601	NA	NA
BMS010_06025	471			hypothetical protein	ATGGCGGTAGATGCAGTCACTTCGGCAGCGTCAAATCCCTGGGCCAATGCCGGGGCGAGCAGCTCCGACGGCAGCGCGGCGTCGCTGAACTACGACAGCTTCCTGAAGCTCCTCATCGCCCAGATGAAGAACCAGGATCCGACCAGCCCGATGGATGCGGGCGAGCAGATGTCGCAGCTCGCAAGCTTCTCGCAGGTCGAGCAGACCATCAAGACCAACACCCATCTCAAAAGCATGCTGCAGGCGGAAGCCCTGACGCGCGCCTCCGATCTGGTCGGCAAGACGGTCAAGAGCGCCGACGACACCGTCACCGGCGTGGTGAAGGAAGTAGAGGTCTATTCGGACGGCGTTGTCGCCATCACCGAAGCTGGTGACAAGGTGCTGCTGCAGGCCGGCGTGACCTTCTCCAACGGCCCGATTACGAGTACATCTGATAGCGGAACCGATTCGGATAGCGCGAGCGGTTCCTGA	MAVDAVTSAASNPWANAGASSSDGSAASLNYDSFLKLLIAQMKNQDPTSPMDAGEQMSQLASFSQVEQTIKTNTHLKSMLQAEALTRASDLVGKTVKSADDTVTGVVKEVEVYSDGVVAITEAGDKVLLQAGVTFSNGPITSTSDSGTDSDSASGS	PGPT0015480_2274	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015480-flgD-K02389	NA	NA
BMS010_06026	267			hypothetical protein	ATGAACGAGGCCGATGCGCTTGACATCATGCAGGCGGCTGTCTGGACGGTTCTCGTTGCGGCCGGTCCCGCGGTTCTAGCCGCCATGATCGTCGGTGTCGTCATCGCCTTCATTCAGGCCCTGACCCAGGTTCAGGAAATGACGCTGACCTTCGTTCCCAAGATCGTCACGATCATGCTCGTGCTCGGCGTCGCCGCGCCCTTTGTGGGCGCGCAGATATCGCTCTTTTCCAATCTCGTCTTTTCCCGCATCCAGTCCGGCTTCTGA	MNEADALDIMQAAVWTVLVAAGPAVLAAMIVGVVIAFIQALTQVQEMTLTFVPKIVTIMLVLGVAAPFVGAQISLFSNLVFSRIQSGF	PGPT0015355_1967	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015355-fliQ|lfiQ-K02420	NA	NA
BMS010_06027	2088	flhA_2	COG1298	Flagellar biosynthesis protein FlhA	ATGGCGCAACCACCAGTCATCTCCCTGCCCAAGGTCAGTCCGAGCACGCGTGACATCGGTTTCGCACTGGGCATCGTGGCGATCCTCTGCGTTCTCTTCCTGCCCATTCCGGTCATGCTGGTGGATATCGGTCTGGCCTTTTCGATTGCGCTTTCGGTCCTCATCCTCATGGTGGCGCTCTGGATTCAGCGGCCGCTGGATTTCTCGTCCTTCCCGACCGTGCTGCTGATCGCGACGATGATCCGCCTGTCGCTGAACATCGCGACGACGCGCGTTATCCTCTCCCACGGCAATGAAGGGCCGACGGCGGCGGGCGGCGTGATTGCGGGCTTCTCCAGCCTCGTCATGTCCGGCGATTTCGTGATCGGTCTGATCGTCTTCCTGATCCTGATCACCGTCAACTTCATCGTCATCACCAAGGGTGCGACGCGTATCGCCGAAGTCGGCGCACGTTTCACCCTGGACGCCATTCCCGGCAAGCAGATGTCGATCGATGCGGATTTGTCCGCCGGCATCATCGACGAAAAGGAAGCGCAGCGCCGCCGTCGCGAGCTGGAAGAGGAAAGCTCCTTCTTCGGCTCGATGGACGGCGCCTCGAAATTCGTGCGCGGTGACGCCATTGCCGGCCTCATCATCACCGCGATCAATATTTTCGGCGGCATCATCATCGGTTATTTCCGCCACGGCATGCCCATCGGCGAAGCGGCCGACGTTTTCGTCAAGCTTTCGGTCGGTGACGGTATCGTCTCGCAGATCCCGGCCCTGATCGTATCGCTGGCAGCCGGCCTTCTGGTCTCGCGCGGCGGCACCGCCGGCTCGACGGACCAGGCGGTCGTCAACCAGCTGAGCGGTTATCCGCGCGCGCTGATGGTCTCGGCCATGCTGATGGGACTGCTCGCCATCATTCCGGGCCTTCCCTTCCTGCCCTTCATCTTCCTCGGCGGCATCATGGCCTTCGGCAGCTGGTATATTCCCCGCCAGGCGGAGGCCGAAAGCGCGCTGCGGCGTCAGGAAGAGGAGAACAAGGTTCTGCAGACCACCGAGGCGGAAAAGGATTCGGTCAAGCAGGTGCTGAAGACGGCCGAGATCGAACTGGCGCTCGGCAAGCAGGTGTCCACCCGCCTTCTCGGGGCGCATCAGGAACTGGCCTTCCGTGTCGGCAAGATGCGCAAGAAATTCGCGACCCAATACGGTTTCGTCGTGCCGGAGATCAAGGTTTCCGACGACATCATGATCCCGGAAAAGGCCTATCAGATCCGCGTTCACGGCACGACCATCGCGTCCAGCAACCTGCGCGTCGGCGACGTTCTTGTCGTGACCGGGGCAGGGCGCAAGCCGAGCATTCCCGGTGACGAAATCCGCGAACCGGCTTTCGGCATGCCCGCCGTCTCGATTCTCGAAACCTTCACCGAGGATCTGAAACGCGAAGGCTTCCATCCGATCGACAACGTCTCCGTGGTGCTGACGCATCTGAGCGAAGTCATCCGAAACAACCTGCCGCAGCTCCTGTCCTACAAGGATGTCAAAATCCTCATCGATAGGCTCGATCCGGAATACAAGAAGCTGGCCGACGAGATTTGCTCGTCGCACATGTCCTATTCCGGCCTGCAGGCGGTGCTGAAACTGCTGCTCGCCGAGCGCGTCTCAATCCGCAACCTGCATCTCATTCTCGAAGCGGTCGCCGAACTTGCGCCGCATGTGCGCAAGACGGAACAGATCGTCGAACATGTGCGGGTGCGCATGTCGCAGCAGCTCTGCGGCGATCTTGCCGACAATGGCGTGTTGCGCGTCCTGCGCCTCGGCAACAAATGGGACATGGTCTTCCATCAGGCGCTGAAGCGCGACCAGAAGGGCGAAATCGTCGAATTCGACATCGATCCCCGCCATCTTGAGGAGTTTTCCGAGCAGGCATCCAAAGTTATCCGTGAATTCATGGATCGCGGCCTGCCCTTTGTCCTTGTAACCTCGCCGGAAACGCGGTCCTATGTGCGCATGATTATCGAGCGACTCTTTGCGACCCTGCCGGTTCTTTCGCATGTGGAACTGGCCAAGGGTCTCGAGATCAAGATTCTGGGCGCCATTTCATGA	MAQPPVISLPKVSPSTRDIGFALGIVAILCVLFLPIPVMLVDIGLAFSIALSVLILMVALWIQRPLDFSSFPTVLLIATMIRLSLNIATTRVILSHGNEGPTAAGGVIAGFSSLVMSGDFVIGLIVFLILITVNFIVITKGATRIAEVGARFTLDAIPGKQMSIDADLSAGIIDEKEAQRRRRELEEESSFFGSMDGASKFVRGDAIAGLIITAINIFGGIIIGYFRHGMPIGEAADVFVKLSVGDGIVSQIPALIVSLAAGLLVSRGGTAGSTDQAVVNQLSGYPRALMVSAMLMGLLAIIPGLPFLPFIFLGGIMAFGSWYIPRQAEAESALRRQEEENKVLQTTEAEKDSVKQVLKTAEIELALGKQVSTRLLGAHQELAFRVGKMRKKFATQYGFVVPEIKVSDDIMIPEKAYQIRVHGTTIASSNLRVGDVLVVTGAGRKPSIPGDEIREPAFGMPAVSILETFTEDLKREGFHPIDNVSVVLTHLSEVIRNNLPQLLSYKDVKILIDRLDPEYKKLADEICSSHMSYSGLQAVLKLLLAERVSIRNLHLILEAVAELAPHVRKTEQIVEHVRVRMSQQLCGDLADNGVLRVLRLGNKWDMVFHQALKRDQKGEIVEFDIDPRHLEEFSEQASKVIREFMDRGLPFVLVTSPETRSYVRMIIERLFATLPVLSHVELAKGLEIKILGAIS	PGPT0015320_1523	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015320-flhA|lfhA|fhiA|rhcV-K02400	NA	NA
BMS010_06028	756			hypothetical protein	ATGATAACCGACCCGCAGGGGACAATCATTGCATTGTTCCTTGCCATCTGCCGTATCGGCGCATGCTTCATGACCATGCCGGGCTTTTCAAGCTCGCGCATTTCGCCGCAGATTCGCATGCTTCTGTGCGTCGCGGTGTCCATGGCGCTTCTGCCCGTGCTGTGGGACACGATCTATCCGAAAGTTTCCGGCGCAAGCCAGGGCACGGTCGTCGGCCTCATCTTCACAGAGGTCGTCATCGGTTCGATGTATGGCCTGATCGCGCGGTTCTACACCCTCGGTTTCCAGTTCACCGGTGCGCTCATCGGCGCTTCCATCGGTCTCAGTGCGCCGGGCGGGGCCGATGTGATCGAAGACGTGCAGGAAAACCAGATATCCAACTTCATCACCTTCGGCGGCCTGCTGGTTCTGTTCATATTCGATTTCCACCACATCGTCCTCAAAGCGCTGGTGGATTCCTACACCGCCACGCCGGTCGGTGCGCTGATCAGCGGCCAGAAGATGCTGATTACGCTGACCGACACGCTCAGGGCCTCTTTTTCGATCATGCTGCGTCTTGCCAGCCCCTTCGTGATTTACGGCTTGATGTTCAACGTCGCGGTCGGCCTCATCAACAAGCTCGCGCCGCAGATTCCGGTCTTCTTTATCTCGACACCCTTCGTTCTCGCGGGTGGTCTTTTCATGCTTTACCTGTCGGTCGCGGCCCTCATCCGCCAATTCGTGGATGGTTTCGGGCCCGTCTTCATCGGCTTTTGA	MITDPQGTIIALFLAICRIGACFMTMPGFSSSRISPQIRMLLCVAVSMALLPVLWDTIYPKVSGASQGTVVGLIFTEVVIGSMYGLIARFYTLGFQFTGALIGASIGLSAPGGADVIEDVQENQISNFITFGGLLVLFIFDFHHIVLKALVDSYTATPVGALISGQKMLITLTDTLRASFSIMLRLASPFVIYGLMFNVAVGLINKLAPQIPVFFISTPFVLAGGLFMLYLSVAALIRQFVDGFGPVFIGF	PGPT0015360_2389	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015360-fliR|lfiR-K02421	NA	NA
BMS010_06029	420			hypothetical protein	ATGGCTTCGGACAAGCGCTCGGCCAAACTCAAGCGTCTGGTAACAGTCCAGCGGCACATGGAAAAAATGGCCGAGGTGGAACTGGCTGATACCACCCGCACACGGGCGGAAGTTGCGCAATCCATGGAGAACGTGCTGGAAGCCATGAGTTCCATGGAACCGGTGCATCAGACATTCTCCCGGCACTATTCGGACCGCTACGGCCGTCTCGTCGTCCAGGACCGCCAGCTTGAAGGCGTTCAGCAGTTTCAGGAAAACAAGGTCCTGAAGGAAAAGACCAAGGCTGACCGGCTGGAGGACAGGATGCACCTTGCGCGCGATCTTGAGGACCGCGAGGCTGATGATAATGCAATCTATGATTTGTTAGAAATTACGAATGTTTCCCAGACACCAGCCTCCAGCAAGGTTGGCGATCCATAG	MASDKRSAKLKRLVTVQRHMEKMAEVELADTTRTRAEVAQSMENVLEAMSSMEPVHQTFSRHYSDRYGRLVVQDRQLEGVQQFQENKVLKEKTKADRLEDRMHLARDLEDREADDNAIYDLLEITNVSQTPASSKVGDP				NA	NA	NA	NA	NA
BMS010_06030	558			hypothetical protein	GTGGCGATATCGGTGATAAGTGATCTGGTGATGGATGTGGTTCGCGCTGCGGACCCCCAGGAAGTTCAGGTCGCCCAGGAAAAACTCAAGGCGAACAAGGCGGCTTTTGCCGCAACCAGCCTTGCCGATGCCGGCAAGGGCTTTGGCGCCGCGGTCGACATGCTGGATGGCGCCTCCTCGAAGGCTGGTCTCGGCGACACCAATATTCGCGCGGCCCGCACCGAAATCCCGGAAACATACCGCAAATATGAAGCCTCGGTGCTCCAGACCTTCGTGGCCAACATGCTGCCGAAAGACAGCGAGGAAGTTTACGGCAAGGGCAATGCCGGCGAGATCTGGAAGAGCATGATGGCCGAACAGTTTGCCGACACGATTTCCAGAAATGGCGGCGTCGGCATCGCGGAACAGGCTTACAAGGATGCGCTTCGGAAGGCTGAAAGCAAAGGCATTACCGACGTATCGATGAATGAAAAAGACAATAATGCTGCAATTCGGATGGTGGCGGAGTTCGAGCGGCAGGTCCTCGGCGTTTCCAATGAGAAAACGGACGAGGCTTGA	MAISVISDLVMDVVRAADPQEVQVAQEKLKANKAAFAATSLADAGKGFGAAVDMLDGASSKAGLGDTNIRAARTEIPETYRKYEASVLQTFVANMLPKDSEEVYGKGNAGEIWKSMMAEQFADTISRNGGVGIAEQAYKDALRKAESKGITDVSMNEKDNNAAIRMVAEFERQVLGVSNEKTDEA	PGPT0015500_1232	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015500-flgJ-K02395	NA	NA
BMS010_06031	396			hypothetical protein	ATGAAAAACCTTAACGAGGAGACAAGCATGGACCTTATGTCGAACGACCACCGTATCCAATCCGTTCTCGGCCGCCTTGAGATGATCATCGACAACGAGAACGACAATATCGGTAAGGACCCCCAGTTCGACTTCAAGGTCTCCAATGCCCACAAGAGCCGTTGCCTCTATGAGCTGACGATGCTGTTCCGCGATACCCCGCGCGAGGAAATCGCCGCCGGTTACATGGAGCAGGTCAAGGGCATCAAGTCCAAGCTCGCCACCAATGCCAGCCGCGTCGAGGCGCATCTGAATGCGGTTCGTGCGGTTGCGGACCTCTTGAAGAACGCCATTCAGGAAGCCGATACGGACGGCACCTATTCGCAGGAACAGTTCATGTACGGCGCAGCCTCCTGA	MKNLNEETSMDLMSNDHRIQSVLGRLEMIIDNENDNIGKDPQFDFKVSNAHKSRCLYELTMLFRDTPREEIAAGYMEQVKGIKSKLATNASRVEAHLNAVRAVADLLKNAIQEADTDGTYSQEQFMYGAAS				NA	NA	NA	NA	NA
BMS010_06032	534			hypothetical protein	ATGTTGAAGCTTCTTCTCACTGGCGTCTGGGTTTGCGCCGTCACGCTCGGCGCGGTGTATTTCTCCGTCCAGTTGGCGACGGCGCCCGCGCCGGATGAGGCGGGGGCGAAAAAGGCCAATCTGCAACTGGTCAAGGGCGAAAGCATCACGATCCCCGTCATCAATGACGGCGGGGTAAACGGCTATTTCCTCAGCCGTATTTCGCTGCGCGTCGACAAGACCAAGATGGCGAAGATCGAGCTGCCGGCAACGCAGCTGATGACCGACGAACTGTTCACGCTGCTTGCGGGTTCTTCCATGGTCAATATCGCCAATATTTCCACCTTCGATCCCGAAGCCTTCAAGCAGCGCATCCGCGAGGGGCTGAACAAAAGGCTCGATGACGAGGTGGTCGAGGACGTGCTGATTGAACAGCTCGATTATCTGTCGAAAGCCGACATCCGCGAGCAGAACGGCAATGGCACGCCCCGTTCGGTCAAGCTCGTCGAGGGCGAGAAGGCTGAAGCCGGGAAAGAAGCGGCGCCAAGCCACTGA	MLKLLLTGVWVCAVTLGAVYFSVQLATAPAPDEAGAKKANLQLVKGESITIPVINDGGVNGYFLSRISLRVDKTKMAKIELPATQLMTDELFTLLAGSSMVNIANISTFDPEAFKQRIREGLNKRLDDEVVEDVLIEQLDYLSKADIREQNGNGTPRSVKLVEGEKAEAGKEAAPSH				NA	NA	NA	NA	NA
BMS010_06033	543			N-acetylglucosaminyldiphosphoundecaprenol N-acetyl-beta-D-mannosaminyltransferase	ATGCTGTCCTTTCTCACCATCGAGAAGGCGAAGCTTTCGCTCAAGGACAACGCCTACCGGCAGATTCTGGAAAGCTGCCTGCTTCTGCCGCAGGGCAAGGCAATGAGGGCCGCCGCGCGCAGCGAGAATGGTGAGCCTTTGCCTGCGCCCATCGACGGCGTCGCCTTTGTGATGGCGCTTCTGACCTATATGGCCGTACCAAAGCGTATCGGTGTGGCGGGAGACGATGCGGCGCAGATCGGCGAGGTTCTCGCCAGATTGCGGGCGCACGCGCCGTGGCACGATTTCGTCATGCTGAACCGCGATGCATCGGGCGTTAAGGTGGATGTTCTGCTGGCGGGAATGTCGAAGGAAAACCAGGAGACATGGCTGCACCGCGCCGTCAGCCGGGAGAATGCGCGGGTCACCATCGCGGTTGGTCCGCTGTTCAAGGTCCTGTCGTCGGAAGTGGCCGGCATGCCGGAAATTTTCCGCAAGCTTCACATGAGCTGGCTCTACAGCCTCTGCGCCGAACCCTGGCACATCGCGCTCGGCAAGAGCTGA	MLSFLTIEKAKLSLKDNAYRQILESCLLLPQGKAMRAAARSENGEPLPAPIDGVAFVMALLTYMAVPKRIGVAGDDAAQIGEVLARLRAHAPWHDFVMLNRDASGVKVDVLLAGMSKENQETWLHRAVSRENARVTIAVGPLFKVLSSEVAGMPEIFRKLHMSWLYSLCAEPWHIALGKS				NA	NA	NA	NA	NA
BMS010_06034	1773			hypothetical protein	ATGGTTGATGACAATCCGGATATGATGGCGATCCGCCCTGACGAGGATGATGTCGCTGTGCCCGTATCGCAATGGCGCAGACATTGTCGGCGGCTCCTGACGTCCGGCTGCATCGCCGCCGCCACCGTTGCCGGGGCTGCCCTTCCGCTTCTGCTCGTCGATTCGGGCTTTCGCGGTTATGTTTCGCAGGCCCGGATCGAGGTCTCCCAGACCGCTTACGATGCCCCCGATGCTGCCCGTTTTCTCGCGATGGCGCGTCGTACCCTGCTTTCACCCTCCGGGCTCGACCGTATAACCGCCGATCTCAAGCTGAAGTCCGCCGATATGGTCGGCGTTCGCAATCAGGGTGAGCTTGGCCTGCTTTTCGACCTTCTGACCGGCGCGGATGCGCGTCCGCTATCCGAGCGCGAGGCGCTGAACGGTGCGGTGGGCGAAGCGATCCGGCTGGAACTCACTCCGGATGAAAATACGCTGATCGTGACCGGCAAGGCCGCAACCCCGGAAACCGCCATGCGGCTGACCGATTATCTTTCGATGCGCGTGATCGCCGATGGCAAGGCCGGCACCATGACGCCCGCCATGCGCGAGACGGAGAGGGCGCGGACAAGGCTCGATGAGGCGGAAGCCGCGCTGAACGGTTTCCAGATGCGCCACGGTGATGCCGTGATGGCCGAGGCGCAGCAACTCGAACAGCAGCTGCGCGACGTAAACGACAATCTGGCGCGAACCACCCGGCAGCAAGTGTCCGTTCAGGCCGATCTGACGGCGGCTTCAGCGCTGAAGCCGAATGATGTCTTTGCGAAGCCTCTGCCGGCCGGCGTGGGTTTTTCGGCGCTTGAGGATATCAGGCAGAAGTACTCGACCGCCAGCATGGCGCTTGCTGCGGTTTCGGTCGATTACGGCCCGAAACACCCCCGCCGCATCGCCGCCCAGAATGCGGTGGATGCCGCACAGGCGCTTGCCGCCCCCGCATTGCGGCAATTGCTGGAAGGCCTGCGGGCGGATGAAAAGCGCATCTCTCAGGAGATCGCGACCGCCAATGGCGAGCAAAAGAAATACCTTGACCGCCTGAGCGAACTCGGTGTCGCCCCCGGCGAGTTCTCCAGATTGCAGGGCGAACTGGAAACGGCGCGAAATGTCTATCTCGAGGCAAGCGAGCGCCGCGACCTCTCCGCATCCGCCACGCCCGCGGTCGAGACCCGTTTGGTGAAAAAGGCCGCCCCCGGCGAGTTGACCCGCGATCTGACGCAAGCTGCCATGCTGGCGGGCGGCGGTGCATTGATCGGCCTGATGGGCAGTCTTTATCTCCTGAGCTACCGTCGCCATGACGAGGAAGAGGAGGGTGCATTGCTCATTGAAGCGGGTGCGCAACTTCCATCCTCCGTCGAGCCGCCGGTCGAGTCTCTGCAGATTTCCGAATTCGAACCGATCGAGCCGGCTGTGTTCGACGATCTGCCGGACGTCGCCGCCGAGGACATCAAGCCGGAGGAAGACGGCTTTGCCGATTATTACGGCGAGGCCGTCAATGACGACGACGACATGCCGCTGGACGAGCGCGTGCGGCAGGTCCTGATGGGCAACCGCACGGTCAGGAGTGCTGATCCGGCCTCTTCCGGACTTCCACCGCTTCTGGCCGAAGCCTTGGCCGGGGACTTCGACCATGCCCAGGCCGAAGCTGAGGAACTGATGGAATTGCGACGCGAACTGGCGTTCCTGAGAGAGCGTCTTGCCGATTACGCCGATCGCCGCGAAGACTACCGCAAAACAGCCTGA	MVDDNPDMMAIRPDEDDVAVPVSQWRRHCRRLLTSGCIAAATVAGAALPLLLVDSGFRGYVSQARIEVSQTAYDAPDAARFLAMARRTLLSPSGLDRITADLKLKSADMVGVRNQGELGLLFDLLTGADARPLSEREALNGAVGEAIRLELTPDENTLIVTGKAATPETAMRLTDYLSMRVIADGKAGTMTPAMRETERARTRLDEAEAALNGFQMRHGDAVMAEAQQLEQQLRDVNDNLARTTRQQVSVQADLTAASALKPNDVFAKPLPAGVGFSALEDIRQKYSTASMALAAVSVDYGPKHPRRIAAQNAVDAAQALAAPALRQLLEGLRADEKRISQEIATANGEQKKYLDRLSELGVAPGEFSRLQGELETARNVYLEASERRDLSASATPAVETRLVKKAAPGELTRDLTQAAMLAGGGALIGLMGSLYLLSYRRHDEEEEGALLIEAGAQLPSSVEPPVESLQISEFEPIEPAVFDDLPDVAAEDIKPEEDGFADYYGEAVNDDDDMPLDERVRQVLMGNRTVRSADPASSGLPPLLAEALAGDFDHAQAEAEELMELRRELAFLRERLADYADRREDYRKTA				NA	NA	NA	NA	NA
BMS010_06035	900	folD_2	COG0190	Bifunctional protein FolD protein	ATGGCAGTTGTGATTGACGGGAAGGCGAAGGCGGCTTCGGTAACGGAGGCGGTCCGCAAATCGGCAGAAGCGCTTGAGGCGGAAAAGGGCGTAAAGCCCGGTCTCGCGGTTGTCATCGTCGGAAACGATCCGGCCAGCCATGCCTACGTGAACTCCAAGAGCAAGATGGCCAAGCAATGCGGTTTCAACTCCATCCAGCACACGCTGCCGGAGGAAACCACGCAGGCCGCACTCCTCAAGCTGGTAGGCGAACTGAACACCGACGCTTCCATTCACGGCATTCTGGTGCAGCTGCCGCTGCCGAAACACTTCAATTCCGATGAGATCATCCAGTCGATCCTGCCCGAGAAGGATGTGGATGGCTTGAGCGTGCTGAATGCCGGTAAGCTCGCGACCGGCGATCTCGCAACCGGTCTCATTTCTTGCACGCCTGCCGGCGCCATGCTTCTGGTGCGCGGCATTCACGGCGAAGACCTCTCCGGTCTCAACGCCGTGGTCATCGGCCGCTCCAACCTGTTCGGCAAGCCGATGGGCCAACTTCTGCTGAATGCCAATGCCACGGTGACCATGGCGCATTCACGCACCAAGGATCTGGCCGGCATCTGCAAGACGGCGGATATTCTCGTCGCGGCGGTCGGCCGCGCGGCGATGGTGAAGGGCGATTGGGTAAAGCCCGGCGCGACGGTCATCGATGTCGGCATCAACCGCATTCCGGCGCCGGAAAAAGGCGAAGGCAAGTCGAAGCTGGTGGGCGATGTCGCCTATGACGAGGCGAGCGCCGTTGCCGCCGCCATCACGCCCGTTCCGGGCGGCGTCGGCCCGATGACGATCGCCATGCTGATGGCCAACACCGTCATCGCCGCACATCGCGCGCTGGGTCTGACCGCACCGAAGTTCTAA	MAVVIDGKAKAASVTEAVRKSAEALEAEKGVKPGLAVVIVGNDPASHAYVNSKSKMAKQCGFNSIQHTLPEETTQAALLKLVGELNTDASIHGILVQLPLPKHFNSDEIIQSILPEKDVDGLSVLNAGKLATGDLATGLISCTPAGAMLLVRGIHGEDLSGLNAVVIGRSNLFGKPMGQLLLNANATVTMAHSRTKDLAGICKTADILVAAVGRAAMVKGDWVKPGATVIDVGINRIPAPEKGEGKSKLVGDVAYDEASAVAAAITPVPGGVGPMTIAMLMANTVIAAHRALGLTAPKF	PGPT0008075_651	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008075-folD-K01491	NA	NA
BMS010_06036	1026	rafR_3		HTH-type transcriptional regulator RafR	ATGAACCTGAAACAGCTGTCGCAACTGCTGGGCATTTCACAGACGACCATCAGCAGGGCGCTCAACGGCTATCCGGAGGTCAGCGCCGAAACGCGCCGCCGCGTCATGGAGGCTGCCGAAAAGACGGGATACCGCCCGAATGCCGCGGCACAGCGGCTGGCGACAGGCAAGGTCGGCTCCATCGGGCTTGTCATGCCGATTGGCGAGCATCACCGTTCCGACGTGCATTTCGGCGAATTCCTGAGCGGTCTCGGAGAAGAGGCATCACGCAGCGGCTTTCATCTCGTGATCATGCCGACCGAGCCGGAAAAGGAGCGCGAAGCCCTGCGGGGGCTCGCCGCAAGCGGCAGCGTCGATGGCATCTATCTCGCCTATATGAAGAAGAACGACCCGCGCATCGCCATGATGCAATCGCTCTCCCTGCCCTTCCTCGTGCATGGCCGCTCCGTCGGCGTGGAGGAGGATTATCCCTATCTCGACGTGGACAATGAGGGTGCCTTCCGCGATGCGACCCAGCTTCTCCTCCAGCTTGGCCATACGCGGATCGGGCTTCTGAACGGCCCGGAGGGTTATGATTTCACCTACCGGCGCTGTCTCGGGGTCGAAAACGCGCTTTCGGCAAATGGCCTGACATTGCATGCGAACAACAAGAGACACAGCAGCATGACCGACGAGGAAGGTTATCTCGGCATGGAAGCGTTGCTGTCACGCCCGGAAAAACCGACCGCCATCCTTTGCGCCAGTACCGCGCTTGCGCTCGGCGCGATCCGTTCGCTCAACCAGCGGGGCTTGAAACCCGGCAAGGATATTTCGTTGATCGCCCATGACGACGTGCTGCCACTTTTGAAGCCGGATAATTTCTCCGTGCCGCTGACCACCACCCGCTCATCACTCCGGGCGGCGGGGGTGCGCGTGGGCCAGCGCCTGATCAACCGGATCAAGCTCAACCAGACGGAACCGCATCAGGAGCTCTGGAAGGCGGAACTTGTGGTGCGCGCCTCGACGGGGCCGGCTCCGAAAGCGTAG	MNLKQLSQLLGISQTTISRALNGYPEVSAETRRRVMEAAEKTGYRPNAAAQRLATGKVGSIGLVMPIGEHHRSDVHFGEFLSGLGEEASRSGFHLVIMPTEPEKEREALRGLAASGSVDGIYLAYMKKNDPRIAMMQSLSLPFLVHGRSVGVEEDYPYLDVDNEGAFRDATQLLLQLGHTRIGLLNGPEGYDFTYRRCLGVENALSANGLTLHANNKRHSSMTDEEGYLGMEALLSRPEKPTAILCASTALALGAIRSLNQRGLKPGKDISLIAHDDVLPLLKPDNFSVPLTTTRSSLRAAGVRVGQRLINRIKLNQTEPHQELWKAELVVRASTGPAPKA	PGPT0017992_7707	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017992-lacI|galR-K02529	NA	NA
BMS010_06037	1362			hypothetical protein	ATGCAGAAGACTCTTTTGGCGACGGCCGCCGTCATGGCTTTGCTGTCCGGTGCGGCCTTCGCCGCCGACCTGAAGTTTGCACCCGGCGGCGACGCCAAGTTCAACTGGAAAAGCTACGAGGACTTCAAGGCGGCCCATGCCGACCTGAAAGGCCAGACGCTGACGATTTTCGGCCCGTGGCGCGGTGAAGACGAGGCCCTGTTCCAGTCGGTGCTTGCCTATTTCGCTGATGCGACCGGCGTGAACGTCCGTTATTCCTCGTCGGAAAATTACGAGCAGCAGATCGTCATCGATACGCAGGCGGGCTCGCCGCCCAATATCGCCATCCTGCCGCAGCCCGGCCTTCTGGCCGATCTTGCCGCCAAGGGCTTCCTCGTGCCGCTCGGCGACAAGACCGCCGACTGGGTCAAGGAAAATTACGGCGCGGGCCAGTCCTGGGTCGATCTCGGCAGCTACAAGGGCAAGGACGGCAATAAGGCCTATTTCGCCTTTCCCTTCAAGGCGGACGTGAAGTCGCTCGTCTGGTACGTGCCTGAGAACTTCGAGGAAGCGGGCTATAAGGTGCCCGAGAGCATGGAAGACCTGTTCAAGCTGACGGACCAGATCGTTGCCGATGGCGGCACGCCCTGGTGCATCGGTCTCGGTTCCGGCGGGGCAACCGGCTGGCCGGCAACGGACTGGGTGGAAGACCTGATGCTGCGCACCCAGCCGCTCGACGTCTATCAGAAATGGACGACCAACGAGGTCAAGTTCACCGATCCGGCCGTGGTCGAAGCGATCAACGAATTCGGCAAATTCGCCAAGAACGAAAAATATGTCAGCGGCGGCGTCGCGGCCGTGGCCTCCACCGATTTCCGCGACAGCCCCAAGGGCCTCTTCGACATTCCGCCGAAGTGCTACCTGCACCATCAGGCGTCGTTCATTCCGTCCTTCTTCCCGGAAGGCACCAAAGTGGGGACGGATGCGGATTTCTTCTACATGCCGACTTACGCGTCCAAGCCTGATCTCGGCAAGCCGGTTCTCGGCGCCGGCACGCTGGTCACCATCACCAAGGAAGCGCCGGCTGCCAAGGCTTTCGTCGAATTCCTGCAGACCCCGATCGCCCATGAGGTCTGGATGGCGCAGTCCAGCTTCCTCACGCCCTATAAGGGTGTGAATGTCGATGCCTATGCCAATGAGCAGATGAAGCGACAGGGTGAAATCCTGACGACCGCGACAAGCTTCGGCTTCGACGGTTCCGACCTCATGCCCGGCAAGATCGGTGCCGGCGCATTCTGGACCGGCATGATCGATTTCGTCGGCGGCAAGTCCGCCGATCAGGTCGCGAGCGATATCCAGAAGGCCTGGGACGGCCTGAAATAA	MQKTLLATAAVMALLSGAAFAADLKFAPGGDAKFNWKSYEDFKAAHADLKGQTLTIFGPWRGEDEALFQSVLAYFADATGVNVRYSSSENYEQQIVIDTQAGSPPNIAILPQPGLLADLAAKGFLVPLGDKTADWVKENYGAGQSWVDLGSYKGKDGNKAYFAFPFKADVKSLVWYVPENFEEAGYKVPESMEDLFKLTDQIVADGGTPWCIGLGSGGATGWPATDWVEDLMLRTQPLDVYQKWTTNEVKFTDPAVVEAINEFGKFAKNEKYVSGGVAAVASTDFRDSPKGLFDIPPKCYLHHQASFIPSFFPEGTKVGTDADFFYMPTYASKPDLGKPVLGAGTLVTITKEAPAAKAFVEFLQTPIAHEVWMAQSSFLTPYKGVNVDAYANEQMKRQGEILTTATSFGFDGSDLMPGKIGAGAFWTGMIDFVGGKSADQVASDIQKAWDGLK	PGPT0016395_222	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_ALPHA-GLUCOSIDE_TRANSPORT,PGPT0016395-aglE|ggtB-K10232	NA	NA
BMS010_06038	1014	lacF_4		Lactose transport system permease protein LacF	ATGGCTCAACAACTCGTTTCGGCCATCGGCGTGATGGTGGCGGGGGTCTTTGCCTGCGCTGCCTATTACTGGCTATCCGACAAGGTGCTTCAGGCGATCTTTCCGGTCCGCTCGGGAGACGTATTGCAGGCATCCCGTAACCTCAATCGCCGCGCGGCGGTCCGGCCCTGGCTGTTCATCGGTCCGGCTTTGATCCTCCTGCTGGTCTATCTGGTTTACCCTGTCATCGCGACGCTGATCCTGTCTTTCTATGACCGGACCGGCAGCGAATTCGTCGGTCTTGCCAATTATCGCTGGGCGTTTTTCGATGCCGGTTTCCGCCAGTCGATCTTCAACAATATTCTCTGGCTGGCCGTCGTTCCGGCCGCCTGCACCTTTTTCGGTCTCGTTATCGCGGTCATGACCGACCGCATCTGGTGGGGCAACATTGCCAAATCCATCGTCTTCATGCCGATGGCGATTTCCTTCGTTGGCGCATCGGTCATCTGGAAGTTCATCTATGAATACCGTGCCGAAGGTCAGGTGCAGATCGGCCTCTTGAACGCCATCGTCGAGTTTTTCGGCGGTAATCCGCAGGTCTGGATTTCCATGCCCTTCTGGAACAATTTCTTCCTGATGATCATCCTCATCTGGATCCAGACAGGTTTTGCCATGGTCATCCTGTCGGCGGCGCTGCGCGGCATTCCGGAAGAAACCATCGAGGCGGCCGTCATCGACGGGGCCAATGGCTGGCAGATCTTCTGGAAGATCATGGTTCCGCAGATTTGGGGCACCATCGCCGTCGTCTGGACGACGATCACCATTCTCGTGCTCAAGGTCTTCGATATCGTACTGACCATGACCAACGGGCAATGGAACACCATGGTTCTCGCCAATCTCATGTTCGACTGGATGTTCCGCGGCGGTGGCGACAGCGGCCGAAGTGCGGTCATCGCGCTCATCATCATGGCGGCCGTCACCCCCATCATGGTCTGGAACATCCGCCAGGCGAACCGCGAGATGGAGGGCCGCTGA	MAQQLVSAIGVMVAGVFACAAYYWLSDKVLQAIFPVRSGDVLQASRNLNRRAAVRPWLFIGPALILLLVYLVYPVIATLILSFYDRTGSEFVGLANYRWAFFDAGFRQSIFNNILWLAVVPAACTFFGLVIAVMTDRIWWGNIAKSIVFMPMAISFVGASVIWKFIYEYRAEGQVQIGLLNAIVEFFGGNPQVWISMPFWNNFFLMIILIWIQTGFAMVILSAALRGIPEETIEAAVIDGANGWQIFWKIMVPQIWGTIAVVWTTITILVLKVFDIVLTMTNGQWNTMVLANLMFDWMFRGGGDSGRSAVIALIIMAAVTPIMVWNIRQANREMEGR	PGPT0016400_323	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_ALPHA-GLUCOSIDE_TRANSPORT,PGPT0016400-aglF|ggtC-K10233	NA	NA
BMS010_06039	1161			hypothetical protein	ATGAATATTTTCAAACGCCTTCGCCGCGTCGGCCTGCCGCGCCTCATCGTCCATGCAAGCGTTCTGGTGGTCGTGCTGCTCTGGCTCCTGCCAACGCTCGGCATTCTCGTCAGCTCGCTGCGCGACAAGGACCAGATCACCGTGTCGGGCTGGTGGACGGCCTTCTCCAGTTCAGAACAGACCTCGGCAGTGCGCCTCGCCGATGCTTCCGTGCAGAAGCAGGATGGCAGCCGCTATGTGATATCGGGCAATGTTTTCGAAAGCGGACAGGGCGGCAAGGTTGCAGCCTTCGGCGTTCGCGTACAGGAGCCCACGGCGTTCAAAGCCGGCGAGGCGGCCGATATCGGTGACGGCGAAACATTGCTCGTCAATACGGACGGCACCTATGAATACAGCAAGGCATCCAGCTTTGAAGGCTCTCGCGGCAAGCGCGTCTATATTTCCGTCGCGACGTCGCCCGTCTTCACGCTCGATAATTATCGCACGGTCCTGACCTCGGAAGGCATCGGCCAGTCCTTCGTCAACTCGCTCACCGTCGCCGTGCCGGCGACCGTCATCCCGATCCTCATTGCCGCCTTCGCCGCCTATGCGCTGTCATGGATGAGCTTTTCCGGCCGCAATCTGCTGATTGCCATGGTAGTGGGCCTTATCGTCGTGCCGCTGCAGATGTCGCTGATCCCGCTTCTCAGGCTCTATAATGAAATCGGCACCATCTTCGGCGTGCCATCCAAGACCTATGCCGGCATCTGGCTGGCGCACACCGCCTTCGGCCTGCCGCTCGCCATCTATCTGCTGCGCAACTATATTTCCGGCCTGCCGAAAGAGATCATCGAAAGCGCCCGTGTCGATGGCGCGAGCGATTTTGAAATATTCGTCAAGATCATCCTGCCGCTCTCCTTTCCGGCGCTCGCCTCCTTCGCCATCTTCCAGTTCCTGTGGACCTGGAATGACCTGCTCGTGGCCATGGTCTTCCTCGGCACGCAGAAGGACGAGCTGGTGCTGACCGGTGCGCTCAATGCGCTGCTCGGTTCGCGCGGCGGCAACTGGGAAATCCTCACCGCCTCGGCCTTCGTCACCATCGTCGTGCCGCTCTGCGTTTTCTTCGCTCTTCAACGTTATCTCGTGCGTGGCCTGCTCGCAGGCTCCGTCAAGGGAGGCTGA	MNIFKRLRRVGLPRLIVHASVLVVVLLWLLPTLGILVSSLRDKDQITVSGWWTAFSSSEQTSAVRLADASVQKQDGSRYVISGNVFESGQGGKVAAFGVRVQEPTAFKAGEAADIGDGETLLVNTDGTYEYSKASSFEGSRGKRVYISVATSPVFTLDNYRTVLTSEGIGQSFVNSLTVAVPATVIPILIAAFAAYALSWMSFSGRNLLIAMVVGLIVVPLQMSLIPLLRLYNEIGTIFGVPSKTYAGIWLAHTAFGLPLAIYLLRNYISGLPKEIIESARVDGASDFEIFVKIILPLSFPALASFAIFQFLWTWNDLLVAMVFLGTQKDELVLTGALNALLGSRGGNWEILTASAFVTIVVPLCVFFALQRYLVRGLLAGSVKGG	PGPT0016405_57	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_ALPHA-GLUCOSIDE_TRANSPORT,PGPT0016405-aglG|ggtD-K10234	NA	NA
BMS010_06040	1656	malL_3	COG0366	Oligo-1,6-glucosidase	ATGACCGCTTCGGTGACTTCCGCTTTGACACCCAACAAGGACTGGTGGCGCGGCGCTGTTATCTATCAGATTTACCCGCGCTCCTATCAGGACTCCAATGGCGATGGCATTGGCGACCTCAAGGGCATCACCGACCGATTGGCGCATATCGCCAATCTGGGTGCCGACGCGATCTGGATTTCGCCCTTCTTCACCTCGCCGATGAAGGATTTCGGTTACGACGTCTCGAATTATGTCGATGTCGATCCGATGTTCGGCACGCTTGCCGATTTCGACGGCCTGATCGCCGAGGCCCATCGCCTCGGTATCCGCGTCATGATCGACCTCGTCATGTCGCATACCTCGGACCAGCACCCGTGGTTCGTGGAAAGCCGCGCCAGCCGCAGCAATCCGAAATCGAACTGGTATGTCTGGTCGGACAGCAAGCCGGACGGCACGCCGCCCAATAACTGGCTGTCGATCTTTGGCGGTTCCGCCTGGCAGTGGGATCCGACCCGCATGCAATATTACATGCACAACTTCCTGACCTCGCAGCCTGACCTCAACCTGCATAATCCGGAAGTGCAGGAAGAGCTGCTGAACATCACCCGTTTCTGGCTGAAGCGCGGCGTCGACGGTTTCCGCCTCGACACCATCAATTTCTATTTCCACGACCTCGAGCTGCGCGACAACCCGGCGCTCGCGCCGGAGCGCCGCAACGCCTCGACCGCGCCTGCGGTCAATCCCTATAACTTCCAGGAACATATCTACGACAAGAACCGCCCGGAAAACATCGCCTTCCTGAAGCGTTTCCGCGCGGTGCTGGACGAGTTCCCGGATATCGCCGCCGTCGGCGAAGTGGGTGACAGTCAGCGCGGCCTCGAAATCGTCGGTGAATATACCTCCGGCGATGACAAGATGCAGATGTGCTATGCCTTCGAATTCCTCGCCCCCGATGCACTCACACCGCAGCGCGTGGCCGATGTGCAGGCGGATTTTGCAAAGGCCGCACCGGAAGGCTGGGCCTGCTGGGCTTTCTCCAACCACGATGTCGTGCGCCATGTCAGCCGCTGGGGTGAGCATGTCGAAGACAAGGACGCCTTCGCCAAGGTACTTTCGGCACTCTTGATGACACAGCGTGGTTCCGTCTGCATCTATGAGGGTGAAGAACTCGGCCTCACCGAAGCGGACATCGCTTTCGAAGATTTGCAGGATCCCTACGGCATCCAGTTCTGGCCGGAATTCAAGGGCCGCGACGGTTGCCGCACGCCGATGGTGTGGGATGCCGGCCACGCACAGGCCGGTTTCTCGACCGCCGACAAGACATGGCTGCCCATTCCGGTCGAGCACAAGCAGCGCGCCGTCAGCGCCCAGCAGGGCAATGAAGCTTCGGTGCTGGAACATTACCGCCGCTTCCTGAGCTTCCGCAAAAAGCATCCCGCTTTTGCCAAGGGAGGCATCGAATTCCAGCCGGTGCAGGGCGAGGTGCTGAGCTATACCCGCAAGCTGGGCAACGAAACCGTTCTTTGCCTCTTCAATCTGTCCGCAGCGCCGGCAAAGGCCACGTTGCCGGAAGGGAACTGGGAGGTTCTCGAAGGCCACGGCTTTGCAGGCGGTCTTGAAGGCAGAAGCGTAGAACTTCCGGCATGGGGCGCATTCTTCGCCCGTTACGCCTGA	MTASVTSALTPNKDWWRGAVIYQIYPRSYQDSNGDGIGDLKGITDRLAHIANLGADAIWISPFFTSPMKDFGYDVSNYVDVDPMFGTLADFDGLIAEAHRLGIRVMIDLVMSHTSDQHPWFVESRASRSNPKSNWYVWSDSKPDGTPPNNWLSIFGGSAWQWDPTRMQYYMHNFLTSQPDLNLHNPEVQEELLNITRFWLKRGVDGFRLDTINFYFHDLELRDNPALAPERRNASTAPAVNPYNFQEHIYDKNRPENIAFLKRFRAVLDEFPDIAAVGEVGDSQRGLEIVGEYTSGDDKMQMCYAFEFLAPDALTPQRVADVQADFAKAAPEGWACWAFSNHDVVRHVSRWGEHVEDKDAFAKVLSALLMTQRGSVCIYEGEELGLTEADIAFEDLQDPYGIQFWPEFKGRDGCRTPMVWDAGHAQAGFSTADKTWLPIPVEHKQRAVSAQQGNEASVLEHYRRFLSFRKKHPAFAKGGIEFQPVQGEVLSYTRKLGNETVLCLFNLSAAPAKATLPEGNWEVLEGHGFAGGLEGRSVELPAWGAFFARYA	PGPT0018560_4206	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187	NA	NA
BMS010_06041	1089	malK_5	COG3839	Maltose/maltodextrin import ATP-binding protein MalK	ATGACAAGTCTCGTTCTCAAGGATATCCGCAAATCATACGGGCAGGTGAAGGTCCTGCACGGCATCGATCTTCAGATCGAACAGGGCGAATTCATCGTTTTCGTCGGTCCCTCGGGCTGCGGAAAATCGACGCTTCTGCGCATGATCGCCGGCCTGGAGGAAATTACCGGCGGCGAGATGTTTATTGACGGCCAGCTCGTCAACGAAATCCCGCCCTCGCGGCGGGGTATCGCCATGGTGTTCCAGTCCTATGCGCTTTATCCGCATATGACCGTCTATGACAACATGGCCTTCGGCATGAAGATCGCGAAAGAGAACAAGCAGGAAATCGACCGCCGCGTCCGTGCCGCCGCCGAAATCCTGCAACTGACGCAATATCTGGAACGTTTGCCCAAGGCTCTGTCAGGCGGCCAGCGACAGCGTGTTGCGATTGGCCGCGCCATCTGCCGCAATCCCAAGGTCTTCCTGTTCGATGAGCCGCTTTCGAACCTCGATGCGGCGCTGCGTGTCGCCACCCGCATCGAGATCGCCAAGCTCAACGAGCAGATGGCCGATACGACGATGATCTACGTCACCCACGACCAGGTGGAGGCGATGACGCTGGCGGACCGTATCGTCGTTTTGAATGCGGGCCGTGTGGAACAGGTGGGTGCGCCGCTCGAACTTTACGAGAGACCGGCCAATCTTTTCGTGGCGCGTTTCATCGGCTCGCCCGCCATGAACATCATCGCTGCAAAGATCACCGAAACCGGTGAGAGGACCTCCATCGAACTTGCCGGCGGCAAGACGCTTGCCGTTTATGTTCCGACGCCCGCGACCGAAAAGGGCAAGGCTGCGAGCTTCGGTGTGCGGCCGGAAGATCTGAGCATCGTTACCGGGGACGATTATCTTTTCGAGGGAAAAGTCGTGATCGTCGAGGCGCTGGGCGAAGTGACGCTGCTTTATCTCGAAGCGCCCAAGGGGCAGGAACCGATTATCGTCAAGGTGCCGGGCATCGTTTCCGTCGGCAAGGGCGAAACCCTGCGTTTTGCGGCACCGCAGGAAAAGCTCCACCTCTTCGACGCCGAGGGCAAGACCTATCGCAGCTAA	MTSLVLKDIRKSYGQVKVLHGIDLQIEQGEFIVFVGPSGCGKSTLLRMIAGLEEITGGEMFIDGQLVNEIPPSRRGIAMVFQSYALYPHMTVYDNMAFGMKIAKENKQEIDRRVRAAAEILQLTQYLERLPKALSGGQRQRVAIGRAICRNPKVFLFDEPLSNLDAALRVATRIEIAKLNEQMADTTMIYVTHDQVEAMTLADRIVVLNAGRVEQVGAPLELYERPANLFVARFIGSPAMNIIAAKITETGERTSIELAGGKTLAVYVPTPATEKGKAASFGVRPEDLSIVTGDDYLFEGKVVIVEALGEVTLLYLEAPKGQEPIIVKVPGIVSVGKGETLRFAAPQEKLHLFDAEGKTYRS	PGPT0016410_127	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_ALPHA-GLUCOSIDE_TRANSPORT,PGPT0016410-aglK-K10235	NA	NA
BMS010_06042	414			hypothetical protein	GTGCAGAGCGGTACGGGTGTCATCAGGAACCATTACCTGAGCAAGGAAGAATCCTTCATGTATGACCGCGAAAGCCGGTTTCGCATGGAAGATACCATGAACGCCGCACGCATCGAATATACCGAAAAGGCCGTGATGCACATGGCGGCGCGCCGCTGCGATGTCATCCGCATCTCCCAGACCGAAGCGGTGCTGGCGCTGCTGACGAAATATAACCTGCCGAACCAGTTCTATCTCGATATTCCCGACGCCCGCATCACCAAGATCGGCTGCGTGATGTTGCGCGTCAACGCCAACAACACCATCCACGTCCGCTTCCTGCGCATGCTGACGCAGAAGGAACTGGACCGCATTTTCGTGTTCAGCACGCATCCGGCGCATAGAGACCGGAAGCTCGATATCCGGTCTTTCTGA	MQSGTGVIRNHYLSKEESFMYDRESRFRMEDTMNAARIEYTEKAVMHMAARRCDVIRISQTEAVLALLTKYNLPNQFYLDIPDARITKIGCVMLRVNANNTIHVRFLRMLTQKELDRIFVFSTHPAHRDRKLDIRSF				NA	NA	NA	NA	NA
BMS010_06043	1365			hypothetical protein	ATGACGATATTCTCAAGCAAACGCCGCGATGTGCTGAAGCTCATGGCCGGCACCGCCCTGCTGCCGCTGATGGCGGCGGCAACGCCAGCGATGGCGCAGGACGTGGCGCTGCGTGCAATCGTCATCTCCGACCTGCATTCGGCCTATGAGCGTATCGGCCAGCTTCTCGCAGCCATCGAAACGCGCATCGCCGCCGACAAGGCGCCCCATATCATCTTGCTGAACGGCGACCTGTTCGAAATCGGCAATGCCGTGGCCGCCCGTTCGGCCGGCGAGATCGAATGGACATTCCTGGCAGCGCTCGCAAAGCTCGCCCCCACCGTTATCAATATCGGTAATCATGAGCCCGATATCGAAAATGATCTCGCCAATTTCGTCAGCCGCGCGCAGGCGCTCGGCATCACCGTGCTTTCCAACATCATCGACAAGCGCAACAGCAAACCCTATGCGGCGGCCAGCGCCGAAGTAAGCGTCGGCGGGCGGAAGGTCGTTGTGGCGGGTCTCGCCACCAATGCGATCAACACCTATCCGAAGGCCACACGCGAGATGCTGGACATTCCGCAGCCGGTCGAATGGGCGAAGGCCAATCTGCCTGGGATCGTCAAACCGGATACTATCAACATCGTTCTCAGCCATGCCGGTGTCGTTGCCGACCGCGATATCCTGCCCCTGCTGCCGGACGGCACGTTGATGATCGGCGGCCATGACCACCTGAACTTCGTGCATGAACAGGGCGCGACCCGATATATTCACACCGGCTCCTGGTGCACCTCCATGACGATTGCGACCATTGCGACACCCGGCAAGGCGGCTGCCATGGAAACGGTCGCGATCGACCTCAATGCGCCTGCCTCCCCGGCTCTCAAAACGCTGATCGAGCAGACGCTCGAAAAGCACCTGACGGCGGAAGAGCGGGCCATCGTCGGTAAAAGCGCGAAGGCGATGAACGTCGATGAGGCGGGCCGCCATGTGGCGCAGCTCATCGCCGCAAAAACCGGCGCGGATGTCGGCTTCATTGCCCATACCTCGCTGGGCGCGGGCCTGCCTGATGGCGATATTCGCCGCTATGATTTTAATGCCTCGGTGCGTTTCGACGGCACGCTGATGGTGACGGAAGTGGATGGCGCGGCGCTTGCCCAAATCCTCAAGCGCTGCAACCAGGACGGCGACATTCCGCTCGCCGCGCGCACCGGCGATTATCTTTACGCCATGCCGGAAAAGCCCGAAACGAAACAGCGCTACAAACTCGTCTGCAACGACTGGTCCGCCATCAATCAGCAAAAATATTTCGGCCGCAGCGATCTTGCCTTCACGGAAGTGCCAGAGTTGAAGTTGAAGCAGACGGTTCTGGGTGGGCTCTCTTAA	MTIFSSKRRDVLKLMAGTALLPLMAAATPAMAQDVALRAIVISDLHSAYERIGQLLAAIETRIAADKAPHIILLNGDLFEIGNAVAARSAGEIEWTFLAALAKLAPTVINIGNHEPDIENDLANFVSRAQALGITVLSNIIDKRNSKPYAAASAEVSVGGRKVVVAGLATNAINTYPKATREMLDIPQPVEWAKANLPGIVKPDTINIVLSHAGVVADRDILPLLPDGTLMIGGHDHLNFVHEQGATRYIHTGSWCTSMTIATIATPGKAAAMETVAIDLNAPASPALKTLIEQTLEKHLTAEERAIVGKSAKAMNVDEAGRHVAQLIAAKTGADVGFIAHTSLGAGLPDGDIRRYDFNASVRFDGTLMVTEVDGAALAQILKRCNQDGDIPLAARTGDYLYAMPEKPETKQRYKLVCNDWSAINQQKYFGRSDLAFTEVPELKLKQTVLGGLS	PGPT0013400_1676	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013400-ushA-K11751	NA	NA
BMS010_06044	1821	edd_2	COG0129	Phosphogluconate dehydratase	ATGTCCGCCGATTCCCGCATTCAGGCCATCACCGCCCGCATCGTCGAACGTTCCAAGCCCTACCGCGAGACCTATCTCGAGCGGCTGCGGCTGCAGGTCTCGAAGGGCGTTCACCGTTCCGTGCTTTCCTGCGGCAATCTTGCGCATGGATTTGCCGTCTGTTCCCCCGCCGACAAGGACATCCTTGCCGGCGACCGGGTTCCAAACCTCGGCATCATCACCGCCTATAACGACATGCTCTCGGCGCACCAGCCCTATGAGACCTTTCCGGCGATCATCCGCGATGCGGCCAAGGAAGCCGGCGGCATAGCGCAGGTGGCAGGCGCGGTTCCCGCCATGTGCGACGGCGTGACGCAAGGCCAGCCGGGCATGGAGCTTTCGCTGTTTTCCCGCGACGCCATCGCCATGGCGGCCGGCATCGGCCTGTCGCACAACATGTTCGACGCCGCCGTCTATCTCGGTGTTTGTGACAAGATCGTGCCCGGCCTCGTCATCGCAGCCCTCGCTTTCGGCCATCTGCCCGCCGTCTTCGTTCCCGCCGGCCCGATGACATCCGGCCTGCCCAATGACGAGAAGTCGCGCGTGCGCCAGCTTTATGCCGAAGGCAAGGTCGGCCGCGCCGAGCTTCTGGAAGCGGAATCGAAATCCTATCACGGCCCCGGCACCTGCACCTTCTACGGCACCGCCAATTCCAACCAGATGCTGATGGAGATCATGGGTTTCCACATGCCCGGTTCCTCCTTCATCAATCCCGGCACGCCGCTGCGCGATGCGTTGACGCGCGAGGCAACGAAGCGGGCGCTGGCAATTACCGCGCAGGGCAACGAGTTCACCCCGGCGGGCGAGATGATCGATGAAAGGTCGGTCGTCAACGGCGTCGTCGGCCTGCACGCAACGGGCGGTTCCACCAACCACACCATGCATCTGATCGCCATGGCGCGCGCCGCCGGCATCATCCTCACCTGGCAGGATATTTCCGATCTCTCCGACATCGTGCCGCTGCTCGCCCGCGTTTACCCGAACGGTCTTGCCGATGTGAACCATTTCCACGCCGCCGGCGGCATGGGCTTCCTCATCAAGCAGCTTTTGAAACAGGGCTTCGTGCATGACGATGTGCGCACCGTCTTCGGACAGGGCCTTGAGGCTTATACCGTGGATGCCATGCTTGACGAGAAAGGCGCGGTTGTCCGCCAGCCCTCCCCCGAGCAGAGCCACGACCCGAAGGTGCTTTCCAGCATCGAGATCCCGTTCCAGCCAACCGGCGGCCTGAAGATGCTGACCGGCAATCTCGGCAAATCGGTTATCAAGATTTCCGCCGTCAAGCCGGAACGTCACATCATCGAAGCGCCGGCTATCGTGTTCCACGACCAGCAGGAGCTTCAGGACGCGTTCAAGGACGGCAAGCTCAACCGCGATTTCATCGCCGTCGTCCGTTTCCAGGGGCCGAAGGCCAATGGCATGCCTGAGCTGCACCGCCTGACACCACCGCTCGGTGTGCTGCAGGATCGCGGTTTCAAGGTGGCGCTGGTGACCGACGGGCGCATGTCCGGCGCTTCCGGCAAGGTGCCGGCCGCCATCCATGTCACGCCGGAAGCCTCCGATTGCGGCCCGATCTCGCTTATCCGCGATGGCGACATCATCCGTCTCGACGCCATTTCGGGAACGCTGGAAGTGCTCGTTTCCGCCGCCGAACTGGCGAAACGCGAACCGGCGCGGGCCGATCTTTCCGGCAATGAATGGGGCATGGGCCGCGAGTTGTTCGCCCCCTTCCGCCGCAATGCCGGTCCGGCCGATCAGGGCGCCAGCGTTCTGTTCCATTGA	MSADSRIQAITARIVERSKPYRETYLERLRLQVSKGVHRSVLSCGNLAHGFAVCSPADKDILAGDRVPNLGIITAYNDMLSAHQPYETFPAIIRDAAKEAGGIAQVAGAVPAMCDGVTQGQPGMELSLFSRDAIAMAAGIGLSHNMFDAAVYLGVCDKIVPGLVIAALAFGHLPAVFVPAGPMTSGLPNDEKSRVRQLYAEGKVGRAELLEAESKSYHGPGTCTFYGTANSNQMLMEIMGFHMPGSSFINPGTPLRDALTREATKRALAITAQGNEFTPAGEMIDERSVVNGVVGLHATGGSTNHTMHLIAMARAAGIILTWQDISDLSDIVPLLARVYPNGLADVNHFHAAGGMGFLIKQLLKQGFVHDDVRTVFGQGLEAYTVDAMLDEKGAVVRQPSPEQSHDPKVLSSIEIPFQPTGGLKMLTGNLGKSVIKISAVKPERHIIEAPAIVFHDQQELQDAFKDGKLNRDFIAVVRFQGPKANGMPELHRLTPPLGVLQDRGFKVALVTDGRMSGASGKVPAAIHVTPEASDCGPISLIRDGDIIRLDAISGTLEVLVSAAELAKREPARADLSGNEWGMGRELFAPFRRNAGPADQGASVLFH				NA	NA	NA	NA	NA
BMS010_06045	699	pgl_2		6-phosphogluconolactonase	ATGAGCGAAACGATCCACGTCTTCGACACCGCCGCCGAACTGGCAACCGCTCTTTCGGCGGAGGTTGCCAAGCGCCTTGATGCGGCAACGAAGGATCGCGGTGCGGCAAGCATTGCCGTCTCCGGCGGTTCGACGCCCAAGCTGTTCTTTCAGGCGCTTTCCAAACACGATCTCGACTGGCCCAATATCAGCGTGACGCTGGTGGACGAACGTTTCGTGCCGCCGGAAAGCGACCGTTCGAACCACCGCCTCGTTGCCGAGAACCTTTTGCAGGACAAGGCAAAGTCGGCCTATTTCGTGCCGTTGTTCCAGCCGGCGGCCTCGCCGGAGGATGCCGCGACGCTTGCGACCGTCAAGACCGAGGCGATCTGCGACCCGTTCGATGTCGTCATTCTCGGCATGGGAACGGATGGCCATACGGCATCGTTTTTCCCCGGTGGAGACAATCTCTACGAAGCGCTGGACCTCGATGAACCGCGCGGCGTTTTGACCATGGCGGCGGAGAATGCGGGAGAGGAGCGGTTGACCTTCAACTTCTCCAGCCTGCACGATGCCGAGTTTCTAGTGCTGCATATCGAAGGTGCTGCCAAGAAGGCGACGCTGGAAAAAGCACAATCGGGCGAGGATGAGGATGAAATGCCGATCCGCGCCGTGCTGAACCGGGCAGAAACGCCCGTGGATATATACTGGGCGCCATAA	MSETIHVFDTAAELATALSAEVAKRLDAATKDRGAASIAVSGGSTPKLFFQALSKHDLDWPNISVTLVDERFVPPESDRSNHRLVAENLLQDKAKSAYFVPLFQPAASPEDAATLATVKTEAICDPFDVVILGMGTDGHTASFFPGGDNLYEALDLDEPRGVLTMAAENAGEERLTFNFSSLHDAEFLVLHIEGAAKKATLEKAQSGEDEDEMPIRAVLNRAETPVDIYWAP				NA	NA	NA	NA	NA
BMS010_06046	1476	zwf_2	COG0364	Glucose-6-phosphate 1-dehydrogenase	ATGAGCAGTCAGATCATTCCTGTTGAACCTTTTGATTGTGTCGTTTTCGGCGGCACGGGCGATCTTGCCGAGCGCAAGCTTCTGCCGGCCCTTTATCACCGGCAGGTCGAAGGCCAGTTCACGGAGCCGACCCGCATCATCGGCGCGTCGCGTTCGGTCATGACCCACGAGGAATATCGCAAATTCGCGCAGGACGCGCTGAAGGAGCACCTGAAGGCCGGCGAATATGACGATGCGCAGGTCGCCACCTTCCTGAACAGGCTTTTCTACGTGCCAGTCGATGCCAAGGGCAATAATGGCTGGGACGTGCTGAAGAAGCTGCTGGACGAGGGCAAGGAGCGCGTGCGCGCCTTCTATCTGGCCGTCGCGCCCGGCATTTTCGGCGATATTGCCGACAAGATCCGCGAGCACAAGCTCATCACCCGCTCGACCCGCATCGTCGTTGAAAAGCCTATCGGCCGCGATCTCGCTTCCGCGCAGGAACTGAACGACACCATCGGCCACGTCTTCAAGGAAGAGCAGATCTTCCGCATCGACCACTATCTCGGCAAGGAGACGGTGCAGAACCTGATGGCGCTGCGTTTCGCCAATGCGCTTTATGAGCCGCTGTGGAATTCCGCCCATATCGACCATGTGCAGATCACCGTTGCCGAAGCTGTCGGCCTTGAAGGCCGCGCGGGTTATTATGACAAGGCCGGTGCGCTGCGCGACATGGTGCAGAACCATATTCTTCAGCTGCTTTGCCTTGTCGCCATGGAACCGCCGGCATCGATGAATGCCGAAGCCGTGCGTGACGAAAAGCTCAAGGTTCTGCGCTCGCTGAAGCCAATCGACACCAGCAACGTCGAAAAGCAGACGGTTCGCGGCCAGTACCGTGCCGGCGCTTCCGCCGGTGGCCCGGTCAAGGGCTATCTGGAAGAGCTGGAAGGTGGCGTTTCCAACACCGAAACCTTCGTCGCCATCAAGGCTGAAATCGCCAACTGGCGCTGGGCCGGCGTTCCTTTCTACATCCGCACGGGCAAACGCCTCGCGACCCGCGTTTCGGAAATCGTCGTCACCTTCAAGCAGATCCCGCATTCGATCTTCGACGATGCGGCCGGCAAGATCGAGGCCAACAAGCTGGTCATTCGCCTGCAGCCGGACGAAGGCGTCAAGCAGTCGCTCCTCATCAAGGACCCCGGCCCGGGCGGCATGCGCCTGCGTCAGGTCTCGCTGGACATGAGCTTCGCCGAAGCCTTCAACGTGCGCAGCCCGGATGCCTATGAGCGGCTGTTGATGGATACGATCCGCTCCAACCAGACGCTGTTCATGCGCCGCGACGAAGTGGAAGCGGCGTGGGATTGGGTCGATCCCATTCTCAAGAGCTGGGAAGATCTGGGACAGGGCGTGCAGGGTTATACCGCTGGCACCTGGGGTCCGAGCGGCTCGATCGCACTGATCGAGCGCGACGGCCGCACCTGGCACGATGCCGATTGA	MSSQIIPVEPFDCVVFGGTGDLAERKLLPALYHRQVEGQFTEPTRIIGASRSVMTHEEYRKFAQDALKEHLKAGEYDDAQVATFLNRLFYVPVDAKGNNGWDVLKKLLDEGKERVRAFYLAVAPGIFGDIADKIREHKLITRSTRIVVEKPIGRDLASAQELNDTIGHVFKEEQIFRIDHYLGKETVQNLMALRFANALYEPLWNSAHIDHVQITVAEAVGLEGRAGYYDKAGALRDMVQNHILQLLCLVAMEPPASMNAEAVRDEKLKVLRSLKPIDTSNVEKQTVRGQYRAGASAGGPVKGYLEELEGGVSNTETFVAIKAEIANWRWAGVPFYIRTGKRLATRVSEIVVTFKQIPHSIFDDAAGKIEANKLVIRLQPDEGVKQSLLIKDPGPGGMRLRQVSLDMSFAEAFNVRSPDAYERLLMDTIRSNQTLFMRRDEVEAAWDWVDPILKSWEDLGQGVQGYTAGTWGPSGSIALIERDGRTWHDAD	PGPT0017380_3442	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0017380-zwf-K00036	NA	NA
BMS010_06047	1287	puuB_6		Gamma-glutamylputrescine oxidoreductase	ATGACATGGCAGAGCCCGATTGCGCCGGGACTATCCTGGTATCAGGCAACCGTCGGCGAGCGGCCGGACTATCCGGCGCTCGACGGGTCGAAGCCGGTTGATGTCGCGATCATCGGCGGTGGTTATACCGGCCTTCAGGCCGCCTGTAACCTCGCCGAAAACGGCGTCTCCGTCGCCCTCATCGAGGCGCATCGTTTCGGCGATGGCGCTTCCGGCCGCAATGGCGGGCAATTCGGCACCGGCCAGCGTTCCTTCCCCGACGAGATGGAAGGCGAGATCGGCTTCGAGCAATCCAAGCTGCTGTTCGACATCGCCGAGGACGCCAAAAACTACCTGCGCGGCTTCGCCGTCAGCCGCGGCATCGACATGGAATATCTTCCCGGGCAGCTCTATGTGGCGCACAAGGCCGCCTACGAGGACGATTATCGCCGAAGTGTCGATGCGATGAACAACCGTTATGGCTATCCGCATATTTCCTACATGGAACGCGCAGAAGCACGCAAACGCGTCGGCTCCACCCATTATTTCGGCGGCACGCGCGATACCGGCACCGGCCATATCCACCCGCTGAAGCTGCTGGTCGGGCTGGCTAAGGCTGCAAAAGCGGCGGGTGCCGGCATTTATGAAATGACGCCGGCGAAATCCATCCGCCAGACGGGCGGCAAAACCATCATCGAAACGCCTTTCGGTACGATCACCGCGCCGCGGGTGCTGATCGCCACCAATGCCTATATCGGCAATCTGGAACCGGTCACGGCCGCCCATATCATGCCAATCCGTTCCTTCATCGGCGCCACCGTGCCGCTGGATGCGTTTCCCGACATCATTCCCGACCGGGAAGCCGTGGCGGATTCGCGGTTCGTGGTGCGCTATTTCCGCAAGACGGCCGATAACCGGCTGCTGTTCGGCGGCCGCGAAGCCTACACGGCCGATACGCCGCGCGATATTTCCAGCCACATCCGCCGGCAGATCGCGGAAATCTATCCTGCGCTGAAAGATATAGAGATCAGCCATTCCTGGGGCGGCTCCGTCGGCATTACCCTGCCGCGCAAAGTCTTCGTGCGCGACGTCATGCCCGGCGTCACCTCCATCGGCGGTTATTCCGGCCATGGGGTGATGCTGTCGAACTATTGCGGCAAGCTCTATGCCGATCTCGTTCTCGGCAAAAAGGACATGCTGGCGCCCTTCGCGCAGCTGAAGGTGCCCTCTTTTCCCGGCGGGGCGTCGCTGCGCGCGCCGCTGCTTTTCCTCGCGCTCTCGTGGTACGCGTTGCGAGACAGGTTTTAG	MTWQSPIAPGLSWYQATVGERPDYPALDGSKPVDVAIIGGGYTGLQAACNLAENGVSVALIEAHRFGDGASGRNGGQFGTGQRSFPDEMEGEIGFEQSKLLFDIAEDAKNYLRGFAVSRGIDMEYLPGQLYVAHKAAYEDDYRRSVDAMNNRYGYPHISYMERAEARKRVGSTHYFGGTRDTGTGHIHPLKLLVGLAKAAKAAGAGIYEMTPAKSIRQTGGKTIIETPFGTITAPRVLIATNAYIGNLEPVTAAHIMPIRSFIGATVPLDAFPDIIPDREAVADSRFVVRYFRKTADNRLLFGGREAYTADTPRDISSHIRRQIAEIYPALKDIEISHSWGGSVGITLPRKVFVRDVMPGVTSIGGYSGHGVMLSNYCGKLYADLVLGKKDMLAPFAQLKVPSFPGGASLRAPLLFLALSWYALRDRF	PGPT0007637_1446	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007637-puuB|ordL-K09471	NA	NA
BMS010_06048	1437	puuA_4	COG0174	Gamma-glutamylputrescine synthetase PuuA	ATGCCCGCCAAGAAAACCATGCTCCGCCCGAAGAAACAGGCAACCATGGCAAAGACACCTCCCCTCGACCTTTCCTCCCCCCGTGGCGTTTCCTCCTGGCGCGAAGCCGCGCAGTGGCTGCGGGCGCGCGGGATCGAAGACATAGAATGCATCACGCCCGACCTTGCCGGCGTTCCGCGCGGCAAGATGATGCCGACGGCGAAGTTCACGGGCGATACCTCGCTTGCCCTGCCATCCGCGCTCTACCGCCATACGATCTCCGGCGAATATCCCGATGAGACCGCGAATTTCCGTTACGAGCCGCGCGACAGCGACCTGAAGCTGGTGCCCGATCTTTCCACCCTCTCCGTCGTGCCCTGGGAAACGGACCCGACCGCGCAGGTGATCTGCGACGTGGTGGATGCGGAAGGCAATTTCGTGCCCTACACGCCGCGCAACGTGCTGAAGAACGTGCTTTCGCTCTATACCGAAAAGGGCTGGAAGCCGGTCGTGGCGCCGGAAATCGAGTTCTACCTCGTCGCCATGAATGACGACCCGGATTATCCGCTGCATCCGCCGAAGGGCCGGTCCGGTCGCTCCATCGTCGGCGGGCAGAGCTATTCCATCGCCGGCATCAACGAATTCGACGAGCTGATCGACGACATCTACCATTTCTCCGAAAAACAGGGCCTCGAGATCGATACGCTGATCCATGAGGAAGGTCCGGCGCAGCTGGAGATCAACCTGCGCCATGGCGACCCGATCGAGCTTGCCGACCAGGTGTTCCTGTTCAAGCGCACCATCCGCGAAGCGGCGCTGAAGCACGGCATCTACGCCACCTTCATGGCCAAGCCCATGCAGGGCCAGCCGGGTTCGGCCATGCACATCCACCAGTCGGTGGTGGAGATCGACAGCGGCCGCAATATCTTCTCCAATGCCGATGGCAGCCCTTCGAAAGAATTCTTCTCCTTCGTGGGCGGCATGCAGCGTTATGTTCCGAACGCTCTCGTCATGCTGGCGCCCTATGTGAATTCCTATCGCCGCCTGACGCCCGACATGGCCTGCCCGGTCAACAATGCCTGGGGTTACGACAACCGCACGACCGCCTTCCGCGTGCCGATTTCCGGTCCGCAGGCGCGGCGTGTCGAAAACCGCCTGCCGAGTTCGGACGCCAATCCCTATCTCGCGCTTGCCGCCTCGCTCGGCTGCGGCTGGCTTGGAATCGTCAACAATATCGAGCCGACCGAACCCACCGCCGATACGGCCAATGAAGGCTCCATCGAACTGCCGCGCGGTCTCCTGGAGGCCGTGGCGCTGCTGGAAGGCGAAGAGCAGTTCGACCGGGTATTCGGCCATGAATTCGTGGGCCTTTATGCTGGCCTGAAACGCGGGGAATTCGAGACCTTCATGCAGGTCATCAGCCCCTGGGAGCGGGAATTCCTGCTTCTCAACGTGTGA	MPAKKTMLRPKKQATMAKTPPLDLSSPRGVSSWREAAQWLRARGIEDIECITPDLAGVPRGKMMPTAKFTGDTSLALPSALYRHTISGEYPDETANFRYEPRDSDLKLVPDLSTLSVVPWETDPTAQVICDVVDAEGNFVPYTPRNVLKNVLSLYTEKGWKPVVAPEIEFYLVAMNDDPDYPLHPPKGRSGRSIVGGQSYSIAGINEFDELIDDIYHFSEKQGLEIDTLIHEEGPAQLEINLRHGDPIELADQVFLFKRTIREAALKHGIYATFMAKPMQGQPGSAMHIHQSVVEIDSGRNIFSNADGSPSKEFFSFVGGMQRYVPNALVMLAPYVNSYRRLTPDMACPVNNAWGYDNRTTAFRVPISGPQARRVENRLPSSDANPYLALAASLGCGWLGIVNNIEPTEPTADTANEGSIELPRGLLEAVALLEGEEQFDRVFGHEFVGLYAGLKRGEFETFMQVISPWEREFLLLNV	PGPT0000645_1567	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMATE_DEGRADATION|CONVERSION,PGPT0000645-glnA-K01915	NA	NA
BMS010_06049	1185		COG2081	putative protein	ATGATGACAGAGAAATGTGACGTGCTGATTTTGGGGGCGGGCGCCGCCGGCATGATGTGCGCCATCCGCGCCGGCCAGCGCGGCCGCTCCGTCGTCATTCTCGACCATGCGAAAGCGCCGGGCGAAAAGATCCGCATTTCCGGCGGCGGCCGCTGCAACTTCACCAATATCCATGCCGGGCCGAAGAATTATCTCTCCGCCAACCCGCATTTCGCCAAATCCGCGCTCGCCCGCTATACGCCGCGCGATTTCATCGCCCTTGTCGAAAAACACCGCATCGCCTGGCATGAAAAAACGCTCGGCCAGCTCTTTTGCGATAACAGCGCCAAGGACATTATCCGTATGCTGCTCGGCGAAATGCAGGCGGTGAATGCGAAGCTGCGGCTCGAAACCTCAGTCTCGGCCGTCACCCATGATGGCGGGCGTTTTCGCGTCACGACATCCGCCGGCGTCATCGAAGCGGAAAGCCTCATTGTGGCGACGGGCGGCAAGTCGATCCCGAAAATGGGCGCGACCGGTTTTGCCTATCAGATCGCCGAACAATTCGGCCTCAAGCTCATCGAGACCCGTCCGGGCCTGGTGCCGCTGACGCTCGATCCCGCAGCGCTTGAAAGGCTGAGCCCGCTTGCCGGCGTCGCGGTTCCGGCCGAGGTTTTCCACGGCAAGACCTCTTTTGAGGAAGCGCTGCTCTTTACCCATCGCGGTTTGAGCGGCCCTTCCATCCTGCAAATCTCCTCCTACTGGCGTGAGGGCGATACGATCCGCCTCAAGCTGGAACCGGCGCGCGATATAGTCGCCTTGCTAAAGGAAGCGAAGCAGAAGAACGGCCGACAGTCGGCCCAAACGGCTCTTGCGGAAATCCTGCCGAAACGGCTGGCCCAACATGTGGTCGAAAAATCAGGCCTCACCGGCAATCTTGCCGATATGTCCGACAAGGCTCTGACGACGTTAGCGAATGAGGTGCAGGACTGGCAGATCAAGCCCGCCGGCTCCGAAGGCTATCGCACGGCGGAAGTCACGCTTGGCGGTGTTGATACGACTGGCCTCGATTCTCGCAGCATGGCGGCGAAATCCCTGGCCAACCTCTATTTCATCGGCGAATGCGTGGATGTGACCGGCTGGCTGGGCGGCTATAATTTCCAGTGGGCCTGGGCGTCTGGGCAGGCGGCAGGCGAATTCGCGTGA	MMTEKCDVLILGAGAAGMMCAIRAGQRGRSVVILDHAKAPGEKIRISGGGRCNFTNIHAGPKNYLSANPHFAKSALARYTPRDFIALVEKHRIAWHEKTLGQLFCDNSAKDIIRMLLGEMQAVNAKLRLETSVSAVTHDGGRFRVTTSAGVIEAESLIVATGGKSIPKMGATGFAYQIAEQFGLKLIETRPGLVPLTLDPAALERLSPLAGVAVPAEVFHGKTSFEEALLFTHRGLSGPSILQISSYWREGDTIRLKLEPARDIVALLKEAKQKNGRQSAQTALAEILPKRLAQHVVEKSGLTGNLADMSDKALTTLANEVQDWQIKPAGSEGYRTAEVTLGGVDTTGLDSRSMAAKSLANLYFIGECVDVTGWLGGYNFQWAWASGQAAGEFA				NA	NA	NA	NA	NA
BMS010_06050	348			hypothetical protein	ATGCACGCGATTTTTGCAGCACGGGCCATCATCGAAAACCAGCAGCCGCGCACACGGCGCGAAGCCATTTTGCAGGAAGAGAAATTTTATGCCGATATGGCGCAGGCATCTCGGCCGTGGCGGCTTTTCAGCGCGCTTATAAGCCGGATGAAGGCAAAGAGCCGCGGATCAGTGAAAGAGAGCGACCAGAACTGCCAGAGCACCGGCGGCGATGAGGCTCAGGCGAAAGGCCAGCTGACGGCTCTCGTTGTCAGTGCGGGCGATGGCAATGGCGCGAGGGCGGCGATGTGCAGATCTGTTCATGCGCGGGTTCCTGACGAAAAACTCAACCGACCCATGCCCTGTTGA	MHAIFAARAIIENQQPRTRREAILQEEKFYADMAQASRPWRLFSALISRMKAKSRGSVKESDQNCQSTGGDEAQAKGQLTALVVSAGDGNGARAAMCRSVHARVPDEKLNRPMPC				NA	NA	NA	NA	NA
BMS010_06051	855			hypothetical protein	ATGAAAAACGTCACCTGGGATTCCTATCAGCTTTTCCTCGATGTGTCACGCAGCGGCGGCCTGACGGGCTTGAGCCCCGCGACGGTGGGACGACGCATGGTAGAGCTGGAGGAGCGTATCGGCAAGGCGCTGTTCCAGCGCAGCCAGACGGGATACGCCCTGACGGCAGACGGCCGCACGCTGTTCGACCGGCTTCAGGCGATGGAGAATGCGGCGAGGGACATCGAGGGATGGCAGAAGGCGTCTTCGGCCTCGTCTGTCGTGCGCATTGCCGTCGGCACCTGGAACGCCTGGCTGCTGACCGGAAATTTCTCCGCCATCTGCACCGACCGCGACGATTTCCGCATCGACCTTTTCATTGCCGAACAGAGGGCGTCTCTGGCCCATCGCGAAAACGATATCGGCATTCGCGCTTTCGAACCGCAGGAAAAGAACCTTGCCGCCATCCGAACGGGGGAGGTGGCCTATGCGCCCTACAGGCTGCGCAACGCGGCCGTTTCCGTCGCCGACCGCTGGCTTGCGGTGGCGGAGGAAAACGCCATTTCAACCTATCTGCGCTGGCCGCATGAAAATCGTAACAACGAGATCGTGGTAACGGTGAACCGCCCGACGGCGCTTCTCGATCTGGTGCTGGCCGGGGCGGGGGTCGCGGTGCTTCCGTGTTTCGTGGGTGATGCGGATGCGCGGCTCGCTCGGGAAGGCGAAGAACTGGAGAGCCTTCGCCACAATCAATGGATCGTCATGAACAATGACGATCGCCACCGCCGTGATATCAGGACGGTGGCGGATCGGATGACCCGTCTGATCAAGAGCCATTCCGATCTCTATGCCGGGCGCAAGAGCCGCCCGGCATAG	MKNVTWDSYQLFLDVSRSGGLTGLSPATVGRRMVELEERIGKALFQRSQTGYALTADGRTLFDRLQAMENAARDIEGWQKASSASSVVRIAVGTWNAWLLTGNFSAICTDRDDFRIDLFIAEQRASLAHRENDIGIRAFEPQEKNLAAIRTGEVAYAPYRLRNAAVSVADRWLAVAEENAISTYLRWPHENRNNEIVVTVNRPTALLDLVLAGAGVAVLPCFVGDADARLAREGEELESLRHNQWIVMNNDDRHRRDIRTVADRMTRLIKSHSDLYAGRKSRPA				NA	NA	NA	NA	NA
BMS010_06052	258			hypothetical protein	ATGAATGCCCATAACCCCATCAAGACCCACGTCAAGGAACGCGCCGAGGAACAATCCTCCGCCATGACGCAGGATCAGCAGGCCGCCATCCGCATGCTGGCCAATGATCTGCACCGCCTTAACCAGGCCGTCATGAAAGCCGTCGAGGCCGGTGTTTCCGTCGAGCTGGTCCGCTCGGCCCGCCACCATGGCGGCGGCGGCAACTGGGGCGATCTGCTTATCCCCGTCATCGTCGCACAGGGAAGTGCCGCCGCCTGA	MNAHNPIKTHVKERAEEQSSAMTQDQQAAIRMLANDLHRLNQAVMKAVEAGVSVELVRSARHHGGGGNWGDLLIPVIVAQGSAAA				NA	NA	NA	NA	NA
BMS010_06053	1290	icl	COG2224	Isocitrate lyase	ATGACGGATTTTTACAAGCTTGTTCCGGGCGCACCGCAGGGACGTTTCGACGGCATCGAGCGCACCTACACTGCCGCCGACGTGGAGCGGCTGCGCGGCTCCGTCGACATCCGCCATTCGCTGGCCGAGATGGGCGCGAACCGGCTATGGAAGTTGATCAACGAGGAGAATTTCGTCAATGCGCTTGGCGCGCTTTCCGGCAACCAGGCCATGCAGATGGTTCGCGCCGGGCTGAAGGCGATCTATCTCTCGGGCTGGCAGGTTGCTGCGGATGCCAATACGGCGTCGGCCATGTATCCGGACCAGTCGCTTTACCCTGCCAATGCCGCACCGGAGCTTGCAAAGCGTATCAACCGCACCCTGCAGCGCGCCGACCAGATCGAGACGGCGGAAGGCAAGGGCCTTTCGGTCGACACCTGGTTCGCGCCGATCGTTGCCGATGCGGAGGCCGGTTTCGGCGGACCGCTCAACGCCTTCGAGATCATGAAAGCCTTTATCGAGGCAGGTGCTGCGGGTGTTCACTATGAAGACCAACTGGCATCGGAAAAGAAATGCGGCCATCTCGGCGGCAAGGTTCTGATCCCGACGGCGGCGCATATCCGCAACCTGACGGCGGCGCGGCTTGCGGCCGATGTCATGGGTGTGCCGACTCTGGTTATCGCCCGCACGGATGCGGAGGCCGCCAAGCTCCTGACCTCCGATATCGATGAGCGCGACCGTCCCTTCGTGGATTACGATGCCGGCCGCACCGTCGAGGGCTTCTATCAGGTCAAGAACGGTCTTGAGCCCTGCATTGCCCGCGCCGTTGCCTATGCGCCCTATTGCGACCTGATCTGGTGCGAAACCTCCAAGCCGGATCTAGAACAGGCGCGCAGGTTTGCGGAAGGCGTGCACAAGGTGCATCCGGGCAAGAAGCTCGCCTACAATTGCTCGCCGTCGTTCAACTGGAAAAAGAACCTCGACGACGCGACGATTGCCAAGTTCCAGCGCGAGCTGGGCGCGATGGGCTACAAGTTCCAGTTCATCACGCTTGCCGGTTTCCACCAGCTGAATTTCGGCATGTTCGAACTGGCACGCGGCTACAAGGATCGGCAGATGGCGGCCTATTCCGAGCTTCAGGAAGCGGAATTCGCAGCCGAGGCCAATGGCTACACCGCCACCAAGCACCAGCGCGAAGTCGGCACCGGCTATTTCGACGCCGTGTCTCTGGCGATCTCGGGCGGCACGTCTTCGACCACCGCCATGAAGGAATCCACCGAGCACGACCAGTTCCGCCCGGCGGCCGAATAA	MTDFYKLVPGAPQGRFDGIERTYTAADVERLRGSVDIRHSLAEMGANRLWKLINEENFVNALGALSGNQAMQMVRAGLKAIYLSGWQVAADANTASAMYPDQSLYPANAAPELAKRINRTLQRADQIETAEGKGLSVDTWFAPIVADAEAGFGGPLNAFEIMKAFIEAGAAGVHYEDQLASEKKCGHLGGKVLIPTAAHIRNLTAARLAADVMGVPTLVIARTDAEAAKLLTSDIDERDRPFVDYDAGRTVEGFYQVKNGLEPCIARAVAYAPYCDLIWCETSKPDLEQARRFAEGVHKVHPGKKLAYNCSPSFNWKKNLDDATIAKFQRELGAMGYKFQFITLAGFHQLNFGMFELARGYKDRQMAAYSELQEAEFAAEANGYTATKHQREVGTGYFDAVSLAISGGTSSTTAMKESTEHDQFRPAAE	PGPT0001550_2001	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLYOXYLIC_ACID_BIOSYNTHESIS,PGPT0001550-aceA-K01637	NA	NA
BMS010_06054	1416	ramB	COG1396	HTH-type transcriptional regulator RamB	GTGTCGGAAAACAAGATTTTTGCAGGCCCGCGCGTGCGTCGCATTCGCAATGGTCTGGCGCTGACGCAGACGGCCATGGCCGAGGCGCTGGCGATTTCGCCGTCCTATCTCAATCTCATAGAGCGCAACCAGCGGCCGCTGACGGTGCAGCTGCTTTTGAAGCTTGCCTCCGTCTACAAGGTCGATCTGGATGACCTGCAGGGGGAAAGCGCCGGTTCCGCCGGGCAGCTGCGTGAGGTCTTCGCCGATCCGCTGCTGGCGGGTGAGGTGCCATCACCGCAGGAACTGATCGAGGTTGCCGATGCCGCGCCCAATGCGGCAAGCGGTGTCCTCAAGCTTTACCGGGCCTATAGGGAGCAGGCACAGCGCCTTTCCGACCTCTCCGATCTTCTGGCGCGGGAGGGGCACGAGACGGCGCTCTCCTCCACCCGCCTGCCGATCGACGAGGTGCGCCACGTCTTTGAAAACCGGCCGGCTTATTTCCATGCCATCGATGCGGCGGCGGAAGAACTCCACAAACACCTGTCGGCGGGCGACGATCTCGCCTCCGGCCTTCGTGCATGGCTTCAGAAAAACCACGGCATCGTGGTCCGCACCCTGCCGGTTCATGCCATGCCGAATCTCAGGCGGCGTTATGACCGCCACTCCATGCGGCTGTTTTTATCCGAACGCCTGTCGCAGCCGGACCAATTGCGGGAAATGGCCATGGAGACCTGTCTTCTGGCGCTTCGCGAAGAAATCGGCACGGAGCTCGATGGGCTCGGCCTGAAAGGGGAGGAGGCGAGGCGCATCGCCCGCTTCGAACTGGCGCGCTACGCCGCCCATGCGTTGATGATGCCCTATGGCGCATTCCTGAGCGCCTCCCAGCGGGCGAAATACGATCTCGAGGTTTTGCGGTCGCGCTTCAACGTTTCTTTCGAACAGGCAGCCAACCGCCTTGTCAGCCTGCAGCGGCCGTCAGCCGCGGCGATCCCGTTTTTCCTGATGGAGATCGATAATGCCGGCAACCGTTTCCGCCTTGCGGGGGCCGGCGGTTTTCCAAGGGCGCGTTTTGGCGGCCTCTGTCCGCGTCTCAACATCCATGCCGCTTTCGCCCAGCCGGGACAGGTGCTGGTGGAAGCGGTGGAGATGCCGGATGGCGACGCGTTTCTCACAGTGTCGCGCACGCTGGAAGGTCCTCAGGCGGGTTTCGGCGAAAGGGTGAGGCGTACCGCCGTGCTTCTCGGCTGCGATCTCGCCCAGGCCGGAGAGACCGTCTATGGCCCGGCCGCTTCGGGTGCCGCGCCCGTCGCCGTCGGGCCTTCGTGCCGGCTGTGCGAAAGGCAGGGCTGTCTGTCGCGGGCGGAAGCGCCGCTGACGCGGCCGCTCGGGCTCGATGAAATGGTTACCGGTCTCAGTGTTTTCGACTTCCAGTAG	MSENKIFAGPRVRRIRNGLALTQTAMAEALAISPSYLNLIERNQRPLTVQLLLKLASVYKVDLDDLQGESAGSAGQLREVFADPLLAGEVPSPQELIEVADAAPNAASGVLKLYRAYREQAQRLSDLSDLLAREGHETALSSTRLPIDEVRHVFENRPAYFHAIDAAAEELHKHLSAGDDLASGLRAWLQKNHGIVVRTLPVHAMPNLRRRYDRHSMRLFLSERLSQPDQLREMAMETCLLALREEIGTELDGLGLKGEEARRIARFELARYAAHALMMPYGAFLSASQRAKYDLEVLRSRFNVSFEQAANRLVSLQRPSAAAIPFFLMEIDNAGNRFRLAGAGGFPRARFGGLCPRLNIHAAFAQPGQVLVEAVEMPDGDAFLTVSRTLEGPQAGFGERVRRTAVLLGCDLAQAGETVYGPAASGAAPVAVGPSCRLCERQGCLSRAEAPLTRPLGLDEMVTGLSVFDFQ				NA	NA	NA	NA	NA
BMS010_06055	1098	spuD_2	COG0687	Putrescine-binding periplasmic protein SpuD	ATGAAAAACCGTTCTCTCCGCCTGACCTTGGCTCTCACCACCGCGCTCGTTGCAGCAGGCTCGGCAATGGCCCAGGAGAAGGTCGTCCACGTCTATAACTGGTCGGATTATATTGACGAATCGATCCTTGCCGATTTCACCAAGGAAACCGGCATCAAGGTCGTCTATGACGTTTTCGACAGCAACGAGCTTGTGGAAACCAAGCTTCTGGCCGGCAGCTCCGGTTATGATGTTGTGGTGCCGACCGGGCCCTTCCTCGCCCGCCAGATCAATGCCGGCGTGTTCCAGAAACTCGACAAGTCCAAGTTGCCGAATCTGAAGAACATGTGGCCCGAGGTTTCCGAGCGTCTGGCCAAATACGATCCCGGCAACGAATATGCCGTGAATTACATGTGGGGCACCACCGGCATCGGTTACAACGTCGCCAAGGTGAAGGCGGCGCTCGGCGATGTTCCGGTCGATAGCTGGGATATTCTCTTCAAGCCGGAAAATGCCGAAAAGCTGAAATCCTGCGGCATCAATATTCTCGATGCGTCGGACGAGACCTTCGCCATCGCCATGAACTATCTCGGCAAGAATCCGGATAGCAAGGAAACCGCCGATCTCGAGGCGGGCGGCGACGTCTACATGAAGATTCGCCCCTATGTGAAGACCTTCAACTCCTCCGCCTACATCGATGAGCTGGCGAACGGCGACAGCTGCATCACCATCGGCTGGTCGGGCGATATCCTGCAGGCGAAAAGCCGCGCCGAGGAAGCCAAGAACGGCGTCGAGGTGAACTACGTTATTCCGAAGGAAGGCACCTATATGTGGTTCGACAACCTTGCCATCCCGGCGGATGCCAAGAATGTCGAAGAAGCGCACGCCTTCATCAACTATCTGATGCGGCCGGAAGTCATCGCCAAGGCCTCCAACTATGTTCAGTATGCCAATGGCAACCTCGCCTCGCAGGCGCTGATGGATGAGTCCGTCGCCAAGAACCCGGCGGTTTATCCCGATGCCGAGACGCTGAAGAAGCTCTTCACCATCTCGCCCTACGGACCGAAGGAACAGCGCGTCCTGAACCGCGTCTGGACGCAGATAAAGACCGGCAGCTAA	MKNRSLRLTLALTTALVAAGSAMAQEKVVHVYNWSDYIDESILADFTKETGIKVVYDVFDSNELVETKLLAGSSGYDVVVPTGPFLARQINAGVFQKLDKSKLPNLKNMWPEVSERLAKYDPGNEYAVNYMWGTTGIGYNVAKVKAALGDVPVDSWDILFKPENAEKLKSCGINILDASDETFAIAMNYLGKNPDSKETADLEAGGDVYMKIRPYVKTFNSSAYIDELANGDSCITIGWSGDILQAKSRAEEAKNGVEVNYVIPKEGTYMWFDNLAIPADAKNVEEAHAFINYLMRPEVIAKASNYVQYANGNLASQALMDESVAKNPAVYPDAETLKKLFTISPYGPKEQRVLNRVWTQIKTGS	PGPT0007805_1105	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007805-potF-K11073	NA	NA
BMS010_06056	1158	potA_7	COG3842	Spermidine/putrescine import ATP-binding protein PotA	ATGGCAAAGACACTTGGACCGGTCAAACGCAAATTCAGCCCTTGGGACAATCCCGATGCGGTGCCCTTCATCCGCTTTGAAAACGTCACCAAACGTTTTGGCGATTTCGTCGCCGTCAACAATCTGACGCTCGATATCTATGAACGCGAATTCTTCTCGCTGCTCGGTCCCTCCGGCTGCGGCAAGACCACGCTGATGCGCATGCTGGCCGGTTTCGAGGAACCGACCGAAGGCCGCATCCTGCTGCAGGGCAAGGATATTTCCGGCGTGCCGCCCTATAAGCGCCCCACCAACATGATGTTCCAGTCCTACGCGCTTTTCCCGCATATGTCGGTGGAAAAGAACATCGCCTTCGGTCTCGAACAGGACGGCCTGCCAAAAGCGGAAATCGCCTCGCGCGTCGAGGAAATGCTGCGGCTGGTCAAACTCAGTGAGTTCGCCAAACGCAAGCCCAGCCAGCTTTCCGGCGGCCAGCGGCAGCGCGTGGCGCTCGCCCGCTCGCTTGCCAAGCGCCCCAAGGTGCTTCTGCTGGATGAGCCGCTCGGCGCGCTCGACAAGAAGCTGCGCGAGGAAACGCAATTCGAACTGATGGACATCCAGACCAATCTCGGTCTCACCTTCCTCATCGTCACCCACGATCAGGAAGAGGCGATGACGGTGTCGGACCGGATTGCGGTGATGGACAAGGGCAATGTCGTGCAGGTGGCGACGCCGGCCGAGATTTACGAAGCGCCGAACAGCCGCTACGTGGCGGATTTCATCGGCGATATCAATATCTTCGACGCCAATGTCGTCGCCAATGCTTCCGATATCGGCAAACCAGGTCTGGTGACGCTGGATTGCGAAGGGCTAAGGGTGGCGGTGGAGCAGGAATGCGCTGCCGCGACCGGCAGCCAGGTGGCTTTCGCCATCCGCCCGGAGAAGGTCCGCATCTCGCTCGATCAGCCAGCCGATAGCAGCATCAATTCCGCCTATGGCGAGGTCTGGGATATCGGCTATCTCGGCGACTTCTCCGTCTTCATCGTCAAGCTTGCCGATGGCCGCGTCATTCGCGCCGCGCAGGCGAATGTCTCGCGTCTCGTCGACCGCCCGATCACCTTCGGCGATATGGTGTGGCTGAACTGGAAACCGGATTCAGGTCTTGTCCTGACACGCTGA	MAKTLGPVKRKFSPWDNPDAVPFIRFENVTKRFGDFVAVNNLTLDIYEREFFSLLGPSGCGKTTLMRMLAGFEEPTEGRILLQGKDISGVPPYKRPTNMMFQSYALFPHMSVEKNIAFGLEQDGLPKAEIASRVEEMLRLVKLSEFAKRKPSQLSGGQRQRVALARSLAKRPKVLLLDEPLGALDKKLREETQFELMDIQTNLGLTFLIVTHDQEEAMTVSDRIAVMDKGNVVQVATPAEIYEAPNSRYVADFIGDINIFDANVVANASDIGKPGLVTLDCEGLRVAVEQECAAATGSQVAFAIRPEKVRISLDQPADSSINSAYGEVWDIGYLGDFSVFIVKLADGRVIRAAQANVSRLVDRPITFGDMVWLNWKPDSGLVLTR	PGPT0007810_211	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007810-potG-K11076	NA	NA
BMS010_06057	909	potH_3	COG1176	Putrescine transport system permease protein PotH	ATGGCGATCACCACTCCCGAAAACCGGCAAAGCCCCTGGCGCTGGCTGGTCGTCGCGGTTCCCTATTTCTGGCTGCTGCTATTCTTCGCAGCACCGTTTTTCATCATCTTCAAAATCTCGCTGTCGGATACGGCGATCTCCATGCCGCCCTATACGCCGGTTTTCGAAGGGTTTTCGAAACTCGGCGCCTTCTTCTCCGAACTGGATTTCGAGAACTACCTCTTCCTGACGGAAGACCCGCTTTACATTGACGCCTATCTATCATCGCTGCGCATCGCCTTCATCTCCACCTTTCTGCTTTTGCTGATCGGTTATCCCATGGCGCTCGCCATGGCGCGCGCGCCGTCTTCCATTCGCCCGACGCTGGTGATGCTGGTGATCCTGCCGTTCTGGACCTCGTTCCTGATCCGCGTTTATGCCTGGATCGGCATTCTGAAGCCGGAGGGCCTGCTGACGGTGCTGTTCCAATGGCTCGGTCTTCTCGGGCCGGACCAGCAGGTCAATATCTTCCGCACCGAGACGGCGATCTTCATCGGCATCGTTTATTCCTATCTGCCTTTCATGGTGCTGCCGCTCTATTCGGCGCTGGAAAAGCTCGACAATACGCTGCTGGAAGCGGCCGCCGATCTCGGTTGCCCGCCATGGAAAGCCTTCTGGAAGATCACCTTCCCGCTGTCGCTGCCGGGCGTCGTGGCCGGCTCGATGATCTGCTTCATTCCGATAACAGGGGAATTCGTCATCCCCGATCTGCTTGGCGGCGCCCAGACGCTGATGATCGGCAAGACGCTGTGGACGGAATTCTTCGGCAACCGCGACTGGCCCCTGGCATCCGCCGTCGCCGTGCTGCTGCTGTTGTTGCTGGTGGTACCCATCGCCATCTTCCAGAATCAGCAGAAGAAGGTGGGGTGA	MAITTPENRQSPWRWLVVAVPYFWLLLFFAAPFFIIFKISLSDTAISMPPYTPVFEGFSKLGAFFSELDFENYLFLTEDPLYIDAYLSSLRIAFISTFLLLLIGYPMALAMARAPSSIRPTLVMLVILPFWTSFLIRVYAWIGILKPEGLLTVLFQWLGLLGPDQQVNIFRTETAIFIGIVYSYLPFMVLPLYSALEKLDNTLLEAAADLGCPPWKAFWKITFPLSLPGVVAGSMICFIPITGEFVIPDLLGGAQTLMIGKTLWTEFFGNRDWPLASAVAVLLLLLLVVPIAIFQNQQKKVG	PGPT0007820_840	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007820-potH-K11075	NA	NA
BMS010_06058	813	ydcV_6		Inner membrane ABC transporter permease protein YdcV	ATGAAGCGCGGAAAATTCGACATCACCGTCCTCACTCTCGGTTTTGCCTTTCTTTATATCCCGATCATCATCCTGATCGTTTATTCCTTCAACGCCTCGAAGCTCGTCACCGTCTGGGGCGGTTTCTCGCTGCAATGGTACCGCTCCATGTGGTCGAACGAAGGGCTGATGGATGCGGCCTGGGTAACGTTGCGTGTCGGTATCCTCAGCGCCACCATCGGCACCATCCTCGGAACGCTGGCGGCGCTGTCGCTGACGCGGTTCGCGCGGTTTCCGGGCCGGGTGCTGTTTTCCGGCATGATCTATGCGCCGCTCGTCATGCCGGAAGTGATTACCGGCCTGTCGCTGCTGCTGCTCTTCGTGGCCGTCGGGGTAGATCGCGGTTTCTGGACGGTGGTCATCGCCCATACGACTTTCACCATGTGTTACGTGGCGATCGTCGTGCAGTCGCGGCTCCTGACCTTCGATCGCAGTCTCGAGGAAGCCGCGCTCGATCTCGGCTGCCCGCCGGTCAAAACCTTCTTTCGCATCACCCTGCCGCTCATCTTCCCCGCGGTCATTGCCGGCTGGATGCTGGCCTTCACCCTTTCGCTGGACGATCTGGTGATCGCCAGCTTCGCCACCGGCCCCGGTGCAACCACGCTGCCGATCAAGATCTATTCGCAGGTTCGCCTTGGTGTGACGCCGGAAATCAACGCCATCTGCACGATCCTGATCGGGCTTGTCACCATCGGCGTGATCGTCGCCTCCATCGCTTCCAAACGCACCGAATTGCAGCGGATGCGGGACGAACATGCGGCGGCACGGAACTGA	MKRGKFDITVLTLGFAFLYIPIIILIVYSFNASKLVTVWGGFSLQWYRSMWSNEGLMDAAWVTLRVGILSATIGTILGTLAALSLTRFARFPGRVLFSGMIYAPLVMPEVITGLSLLLLFVAVGVDRGFWTVVIAHTTFTMCYVAIVVQSRLLTFDRSLEEAALDLGCPPVKTFFRITLPLIFPAVIAGWMLAFTLSLDDLVIASFATGPGATTLPIKIYSQVRLGVTPEINAICTILIGLVTIGVIVASIASKRTELQRMRDEHAAARN	PGPT0007815_852	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007815-potI-K11074	NA	NA
BMS010_06059	1665			hypothetical protein	ATGCCCATGACGGTTCCTCTTCCCGCGTCAAAACGCGTTTCGCTCTTGCCGATTACGGCCATTATCGTCGCGGCCATTGCCGCCATGCCCATTCTGGCAATTTTCTGGCTGGCGCTGACCGGCAGCACGGAAGGATGGCAGCATCTTCTCGCCAATGTCCTGCCGCGCGCCGGGTTTCGCACCTTCCTGCTCCTGGGGATGACGGCCGCGACGACGGCTTTTTTCGGCATCGTCTGCGCCTGGCTTGTCACCACATTCGAATTTCCGCTGCGGCGGTTATTGTCCGCGGCACTCGTGCTGCCGCTCGCCATCCCCTCCTATCTCGCCGCCTATGCTTTCGGCGAGTTTCTCGACTTTACCGGCCCGGTGCAGAGCGCGTTGCGCGCCGCTTTCGGTTATCACAGCATCCGCGATTACTGGTTTCCGGACATACGCTCACTCGGCGGTGCGGTGATCGTTCTCAGTTCGGTCCTCTATCCTTACGTCTATCTCTCGGCCCGCGCCGCCTTTTCCATGCAGGGACGGTTTGCGGCCGAAGCGGCCCGCACGCTTGGCGCAAAACCGCTGAACGTGTTCTTCTCCGTGCAATTGCCGATGGCCCGGCCGGCCATCGCCATCGGGCTTTCTCTGGTCCTGATGGAAACGCTGAACGATATCGGCGCGGTTGAATATCTCGGCGTCCAGACGCTGACCTTCACCATCTACGAAACCTGGCTCAATCGCGGCAATCTCGCCAATGCGACGCAGATCGCCGCCGTCATTCTCGTCATCGTCGGTGCGCTGATCGTCATCGAACGCAATGCCCGTGAAAAACAGCGCTTCGGCGCGCCGAAAGCGACAAGCATGGCGCAGCGCCACCGGCTGAAGGCGCTCACCGGCTGGCGGCGGTGGGGTGCAAGCCTTTTCTGCTTCGTTCCCGTGGCGAGCGGCTTTTTCATTCCCGTCATCGTGCTGGGCGGTTACGCCGCGAGGAGGCTCGATGCGCTGTTTGCGCCGAAGCTTCTGAAAGCACTCGGACACAGTCTCGAAGTCTCGCTTTCCGCCGCCTTCGTGACGCTGATTGCCGCTTTCGTGTTTTCCTATGCCATCCGCACCGAGCGCTCGCGCACCTCGAAGGTGGCCGCCCGCTTCGGCTCCATGGGATATGGCGTGCCGGGAACCGTGCTCGCCATCGGGGTGCTCATTCCGCTGGCCAGTCTCGACAATGGCGTCGATGGCTTCATCCGCGCACATTTCGGCTTTTCCACCGGGCTTCTGCTCTCCGGCACCGCCTTCGCCATCATCTACGCCCATGCCGTGCGCTTCATGACCATGGCGGAAGGCACGCTCGATGCTGGTTTCCAGAAGCTTTCGCCGCATATCGACATGGCCTCGCGGACGCTTGGGCGCAACCGGGCGCAGACGTTGTTCAAGGTGCTGTTGCCGAACATGCGGCCCGCGGCGCTGACGGCTTTTCTTCTCGTCCTGATCGAATCCATGAAGGAATTGCCGGCCACCATCCTGCTTCGGCCTTTCGGTTTCAACACGCTGGCCACGCTGGTTTATGAGGATGCATCGCGCTCAAGGGTGCAGGATGCGGCCGTGCCGGCGATCATCATCATCATTGCCGGGCTTATTCCCGTGCTGCTCGTCTCGAAATCGATGGATCATCCAGAAAACCGCTGA	MPMTVPLPASKRVSLLPITAIIVAAIAAMPILAIFWLALTGSTEGWQHLLANVLPRAGFRTFLLLGMTAATTAFFGIVCAWLVTTFEFPLRRLLSAALVLPLAIPSYLAAYAFGEFLDFTGPVQSALRAAFGYHSIRDYWFPDIRSLGGAVIVLSSVLYPYVYLSARAAFSMQGRFAAEAARTLGAKPLNVFFSVQLPMARPAIAIGLSLVLMETLNDIGAVEYLGVQTLTFTIYETWLNRGNLANATQIAAVILVIVGALIVIERNAREKQRFGAPKATSMAQRHRLKALTGWRRWGASLFCFVPVASGFFIPVIVLGGYAARRLDALFAPKLLKALGHSLEVSLSAAFVTLIAAFVFSYAIRTERSRTSKVAARFGSMGYGVPGTVLAIGVLIPLASLDNGVDGFIRAHFGFSTGLLLSGTAFAIIYAHAVRFMTMAEGTLDAGFQKLSPHIDMASRTLGRNRAQTLFKVLLPNMRPAALTAFLLVLIESMKELPATILLRPFGFNTLATLVYEDASRSRVQDAAVPAIIIIIAGLIPVLLVSKSMDHPENR	PGPT0003730_2844	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003730-afuB|fbpB-K02011	NA	NA
BMS010_06060	3795	rcsC_18		Sensor histidine kinase RcsC	ATGCCCGCCGTCCAGTATCCCTTTATCGATATCGCAGTGCATGAACGGGTGCGTGAAGGTTTCGGGCGTGGCGAGGCCATGGCGTTGTTCTCGCTCGACCTTAAAAACGCCCTTTGGGCCAATGGCCGGGGTGCGGCGCTGTTCGGCACGCCGATGGTTTATGATTTTCTGGAACAGGGCCCGAAACCGCAGGACGTGACCTTCCGGCAACTGGCAGCCACGGCGGCGCGGCTTTCCAAAGCAGGCGACAGCCTGCCGTTTACCATTCGCATTACGTCGGGTTTCCGCAGCCTTGCCGTTACGGCGCGCGCGGAAATCATCGAGGCCGAGCCCGGACAGCCCGCCATCCTGTTTTCCGCCCTCACCGACCAAGTCGCACCCGACACGGCGGAATGCGCTCGGCGCATGATCGAAGGTTTCGACGACCCCGATATCCATATGGCGGTTCTGAACGGCGAGAACGAGATTGTCGCCGCCTCGCCCGGCTTTTCGTCGCTCGGCATCACGCCGCACACGGCGCGGACACTGGTGAAAATGGCAGCCGGACAGTCCGGCCATCTCGTCAAGCGGCCGGTGCCGACCGGCAAGGGTTACCTGCCCGCCGCCACAGGCCAGATTGCGGCATCGCCCGAACTGAACCTGATGTTCGTGGTCGAAACCGCGCTGGGCACACTCGATCCCGTCAATGGTTTCGCAGAAGACAGGCCGCTGGAAACGCCAGCCTCCGCCGAGCCCGCCCTGCCGGTTGCGGAGGTCGCGCCTGTTGCCGCTGCAACCTCCTTCGATTCCGTGCTCGATGCCGTCGCTGGCATCGAGGATGTGGAAGAGGTGCAGGAACTGCCGGCCGATCCCGAAGAAGAAGTGGCAGCGCAGCAGGATGAGAACAGCCTTCTCTCATTGCCGGCAATCGGAGCGGAGACCCCGGCGGCGCTTTCTGCGCAGGACGCCGACGCCGCGGCACATGTGGCGATGACCGACGACATCGCCGATCTTTTCGAACTCGATGAGGATGAAGCAGACGCCCCCTTAACCGAACGGGCAATCGCCGAAGCCCCTGCGGAAGAGGCTCACGCCGAAGAAAACGCAGTCGCGGACGATGAAATCGTCGAAACAGCGCCGTCAGACGCTCCTGCCGCAGATGAGGAGATAACGGCGGAGGCGGAGACCGAGGAGGTGGACATCGGGGCTGGCGCAGAAGCGCAGCCTTTTGTTTTCAATGCCGGTGCGCGCGCTTCCCGTTTCGTCTGGAAAATCGATGCGGAAGGGCGCTTCAGTTCGATCTCGCATGAATTTGCAGAGGCTGTGGGCGCCAAGGCGGCTGCCGTGGAAGGCATGGGCTTTGCGGATGTCGCGGCCCTGTTCAATCTCGATCCCGACGGCAAGATCCGCGAGCTTCTCGGCCGGCGCGACACATGGTCGGGCAAGACGATCTACTGGCCGGTGGAAGGCACATCGCTAATGGTGCCGATAGATCTTGCCGCCCTGCCCACCTATACGCGCTCACGCGAATTCGACGGTTTCCGCGGTTTCGGCATCGTGCGGCTTGCCGATGCCGCCGAAGACCCGCATGCCACGGGCCTGACCTTCCTCAACGGCGAAGAAGCCGATCCGGCGGAAGCCCTGCCGCAGCCCACTATTGAGGATGAAAGCCACGAATTGCTGGCCTTTATCGATGAGGATGACGAGGCAGGTGAAGATTCCGATTCCATCGCTGAGGATGCGATCCGGGTAACCGAGGCCGATGCGGCGGATGCGGCGGATGATGCATCGGACGTGGTTTCGGCCGAAGAACAGCACCATGATTATACCCCGCCGGAATTCGAAGCGCCGCTTGCAGCACCCGCGCTGGAGCCGGACTATTCCGACAAGGTCGTCCATCTGGAGGAGCGCCGCTCGCGCTCCCGCGAGGGGCTGACCGCAGGCGAGCAGGCCGCCTTCCGCGAAATCGGCCGGGCGCTTGCGCCGGCGGATGCTGCTTCCGAAGAAGACCGGGAAACGGATGCGGAAGCCATTTCCGCTGAGCCGACCATGCAGGATATCCAGCGGGATATCGATGCGGATGCTTCGGAAAGCGCGGCCTCCGAAACGGAAAATGACGACAGGAAAACCGAACCGGCGGAAGAAGACGATCTTTTCGCCGATTATGTTCGTGGCGAGCAGCCTGCGGCCATTCGCGCACCGGCGGATGAAAGCGGTTCCGACGAAAAGGAAGAGCCTGCGGCTGACGAGCGGCCGGCGGCCGATATTGCCGCCGCTATGGTCAGCCCGTCCGTTCGCCCCGCAAATGCCTTGACGGCCGAGACGCTGGACCAGATGCCCGTGGCGCTTCTGGTGCATGCCGGCGACAGGCTGATCCACGCCAACCCGGATTTCCTGCGATTGACGGGCTATGGCTCTCTCGCCGAACTCGAAGAGGTGGGCGGTCTGGAAGCGTTGCTGCAGCGGCAGGAGCTGGAGGACATGCCGGACAACGAAGGCGGCATGGTGGTCGTCAGCTCTGACAACGACATCATTCCCGTCAAGGCGCGGTTGCAGTCCATTCGCTGGGAAGAAACCAAGGCGCTGATGCTGTCGCTGGTGCCGCTTGAGGAAAAGCAGGCGCCGGTTGCGGCCGCCAACGAAAATATTGCTGCCGGCGATGCCGAAAATGCGGAAGCAGGCAGCCTCTCCCTGTTGCAGGGCGAAGTGGAGGAGCTGCATTCCATTCTGGAAACGGCCACCGACGGCGTGGTGCTTCTGGGAGACGAAGGCGAAATCCGCTCGCTCAACCGTTCCGCCAGCGCGCTGTTCAACTATGACAATGGTGAAATCGCCGGCAAGCCTTTTGTTACGCTCTTTGCCCATGAGAGCCAGCGCGCCGTGCTGGATTATCTCTCCGGCCTTGCCAATAACGGTGTCGCCAGCGTGCTGAATGACGGCCGCGAAGTGATCGGCCGCGAAGCATCCGGCGGCTTCCTGCCGCTGTTCATGACCATCGGCCGGCTAAAATCCTCGCATGGCTATTGCGCCGTGATTCGCGACATTACCCAGTGGAAGCGCACCGAAGAAGAACTGCGCAACGCCAAGCGGGCGGCGGAAACCGCCAATGCCCACAAGACCGACTTCCTGGCGCGCGTCAGCCATGAAATCCGCACGCCGCTCAATGCCATCATCGGCTTTGCCGACATGATGGCGACCGAACGTTTCGGGCCGATCGGCCATCCGCGTTATGTGGAATATGCCAATGATATCGGCCGTTCCGGCCGGCATGTGCTCGATATCGTCAATGATCTGCTCGATATCTCCAAGATCGAGGCCGGGCAGATGGATGTGGATTTCGTCGCCGTGCCGCTCAACGAAACGGTCGCCGAGGCGGTCTCGCTGGTGCAGCCACAGGCCAACAACCAGCGCGTCATCATCCGCACCGCGCTTGCGCAATCCGTGCCGCAGATCGTCGCCGACCTCCGCTCGATCAAGCAGATCGTGCTGAACATCCTGTCGAACGCCATCCGCTTCACGCCGTCCGGCGGCCAGATCGTGGTATCCACCGCCTATGAGGCCAACGGCAGTGTTTCGCTGCGCATTCGCGACACCGGCATCGGCATGACCCGGGCGGAACTGGAACAGGCCATGAAGCCGTTCCGGCAGGTGGCCTCCTCCGGCAAGCGCGTGCGCGGTGACGGCACCGGGCTCGGCCTGCCGCTGACCAAGGCGATGGTAGATGCCAACCGGGCGAATTTCTCCATCACCTCCACGCCGAATGAAGGCACGCTGGTGGAAATCACCTTTCCGTCGCAGCGGGTTCTTGCCAACTGA	MPAVQYPFIDIAVHERVREGFGRGEAMALFSLDLKNALWANGRGAALFGTPMVYDFLEQGPKPQDVTFRQLAATAARLSKAGDSLPFTIRITSGFRSLAVTARAEIIEAEPGQPAILFSALTDQVAPDTAECARRMIEGFDDPDIHMAVLNGENEIVAASPGFSSLGITPHTARTLVKMAAGQSGHLVKRPVPTGKGYLPAATGQIAASPELNLMFVVETALGTLDPVNGFAEDRPLETPASAEPALPVAEVAPVAAATSFDSVLDAVAGIEDVEEVQELPADPEEEVAAQQDENSLLSLPAIGAETPAALSAQDADAAAHVAMTDDIADLFELDEDEADAPLTERAIAEAPAEEAHAEENAVADDEIVETAPSDAPAADEEITAEAETEEVDIGAGAEAQPFVFNAGARASRFVWKIDAEGRFSSISHEFAEAVGAKAAAVEGMGFADVAALFNLDPDGKIRELLGRRDTWSGKTIYWPVEGTSLMVPIDLAALPTYTRSREFDGFRGFGIVRLADAAEDPHATGLTFLNGEEADPAEALPQPTIEDESHELLAFIDEDDEAGEDSDSIAEDAIRVTEADAADAADDASDVVSAEEQHHDYTPPEFEAPLAAPALEPDYSDKVVHLEERRSRSREGLTAGEQAAFREIGRALAPADAASEEDRETDAEAISAEPTMQDIQRDIDADASESAASETENDDRKTEPAEEDDLFADYVRGEQPAAIRAPADESGSDEKEEPAADERPAADIAAAMVSPSVRPANALTAETLDQMPVALLVHAGDRLIHANPDFLRLTGYGSLAELEEVGGLEALLQRQELEDMPDNEGGMVVVSSDNDIIPVKARLQSIRWEETKALMLSLVPLEEKQAPVAAANENIAAGDAENAEAGSLSLLQGEVEELHSILETATDGVVLLGDEGEIRSLNRSASALFNYDNGEIAGKPFVTLFAHESQRAVLDYLSGLANNGVASVLNDGREVIGREASGGFLPLFMTIGRLKSSHGYCAVIRDITQWKRTEEELRNAKRAAETANAHKTDFLARVSHEIRTPLNAIIGFADMMATERFGPIGHPRYVEYANDIGRSGRHVLDIVNDLLDISKIEAGQMDVDFVAVPLNETVAEAVSLVQPQANNQRVIIRTALAQSVPQIVADLRSIKQIVLNILSNAIRFTPSGGQIVVSTAYEANGSVSLRIRDTGIGMTRAELEQAMKPFRQVASSGKRVRGDGTGLGLPLTKAMVDANRANFSITSTPNEGTLVEITFPSQRVLAN				NA	NA	NA	NA	NA
BMS010_06062	1026	gppA_2	COG0248	Guanosine-5'-triphosphate,3'-diphosphate pyrophosphatase	ATGTATGCCGCGCTCGATCTCGGCACCAATAATTGCCGGCTTCTGATCGCGCAGCCGACGCGGCCCGGTCAGTTTCGGGTCGTCGATGCCTTTTCGCGCATCGTCCGGTTGGGCGAGGGGCTGGTGTCGAGCGGCCGGCTCTCCGACGACGCCATGGATCGAGCTGTCGAGGCGCTGAAAGTCTGCTCCGCGAAACTCTCCGGTCGCCCGATCAGGCGCATGCGGCTCATCGCGACCGAGGCCTGCCGCGCTGCGTCGAATGGTGAAGAGTTTCTGGCGCGTGTCACGCGGGAAACGGGACTGAAGCTCGAAATCATCAGCCGCGAGACGGAAGCCCGCCTTGCGGTGTCTGGCTGCGCTTCTCTCGTTGGGCGCGAGGCGCGTTCGGTCGTGCTGTTCGATATCGGTGGCGGATCCTCGGAAATCGCCGTCATCAAGGTCGGCGAAAACCGCTCGAACCGACTCGCCAACCACATCACCCACTGGACCTCGCTGCCGGTCGGTGTCGTCACGCTCTCGGAACGCCATGGCGGGCGCGATGTGACGCCGGACGTCTTCGCCGCGATGGTGCGGGAAGTCGAAGGATTGCTCGATGCCTTCCATTGCCCGCCTCTCGCGCCGCAAACCCATCACGAGGATTTTCATCTTATCGGAACTTCGGGCACGGTCACGACGCTTGCCGGCGTCCATCTCGATCTGCCACGATACGATCGCCGCAAGGTGGATGGCCTGTGGTTGTCGGACGCCGAGGTGACGGCGATGCAGGACAAGCTGCTGGCCTGGGATTTCGCGGGCCGCGCCGCCAATGCCTGCATCGGGCCTGACAGGGCCGATCTGGTTCTGGCCGGCTGCGCCATTCTCGAGGCCATTCGCCGCCGCTGGCCGGCACGCCGTATGCGCGTGGCGGATCGCGGCCTGCGCGAAGGCCTTTTGACGGATATGATGGCGGATGACGGCGCATGGCGGCGCAACCGCATTAGGCGCATGCAGATGACACGGCAGGACAGGACGGAAGGTTTGACATGA	MYAALDLGTNNCRLLIAQPTRPGQFRVVDAFSRIVRLGEGLVSSGRLSDDAMDRAVEALKVCSAKLSGRPIRRMRLIATEACRAASNGEEFLARVTRETGLKLEIISRETEARLAVSGCASLVGREARSVVLFDIGGGSSEIAVIKVGENRSNRLANHITHWTSLPVGVVTLSERHGGRDVTPDVFAAMVREVEGLLDAFHCPPLAPQTHHEDFHLIGTSGTVTTLAGVHLDLPRYDRRKVDGLWLSDAEVTAMQDKLLAWDFAGRAANACIGPDRADLVLAGCAILEAIRRRWPARRMRVADRGLREGLLTDMMADDGAWRRNRIRRMQMTRQDRTEGLT	PGPT0002595_152	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002595-ppx|ppx_gppA-K01524	NA	NA
BMS010_06063	741	rlmE_1	COG0293	Ribosomal RNA large subunit methyltransferase E	ATGAGCAAGGCGCCGACAAGCAACAACCGCACCGGCCGCAAGATCGGCCAGAAGGTCAAGAAGACCAAGCTCAAGGCCTCGTCGCGCCGCTGGCTGGAACGTCATATCAACGACCCCTATGTGCAGCGCGCCAGGCTCGAAGGCTATCGCGCCCGGGCGGCCTTCAAGCTCCTGGAAATCAACGACAAGCACCAGATCCTCAAAGGCGCGCGCCGCATCATCGACCTTGGGGCGGCACCTGGAAGCTGGTCGCAGATCGCTTCGAAGGTGACGGATTCCACCGAGGACGATATTCGCGTCGCGGCCATCGATTTTCTCGAAATCGATCCCATTCCCGGTGTGAAAATCCTCCAGCTCGACTTCCTCGATCCGAGCGCGCCGGAAAAGCTGATGGAGGCCGTTGGCGGCACGCCCGATCTGGTGCTGTCGGACATGGCCGCGCCCACCACCGGTCACCAGAAGACCGACCATATCCGCACCATGCATCTGTGCGAAGTCGCGGCCGATTTCGCCGTTCAGGTGCTGGCGGAAGGCGGTCACTTCCTTGCCAAGACCTTTCAGGGCGGCACGGAAAAGGCATTGCTGGATATGCTAAAGAAGAACTTCAAGCAGGTTCTGCACATCAAGCCGGCGTCCTCACGCTCGGAATCTGTGGAAATGTTCCTGCTTGCCAAGCACTTCAAGGGCCGCAAGGGCGAGCCGACCGACGCATCCGAAGCCGAAGAGGCTTCCGAAGACTGA	MSKAPTSNNRTGRKIGQKVKKTKLKASSRRWLERHINDPYVQRARLEGYRARAAFKLLEINDKHQILKGARRIIDLGAAPGSWSQIASKVTDSTEDDIRVAAIDFLEIDPIPGVKILQLDFLDPSAPEKLMEAVGGTPDLVLSDMAAPTTGHQKTDHIRTMHLCEVAADFAVQVLAEGGHFLAKTFQGGTEKALLDMLKKNFKQVLHIKPASSRSESVEMFLLAKHFKGRKGEPTDASEAEEASED				NA	NA	NA	NA	NA
BMS010_06064	1398	hsrA		putative transport protein HsrA	ATGAACCGCATCATTCCCCTCATCCTGGCAGTCGCTCTCTTCATGGAGCAGATGGACTCCACCGTCATCGCCACCTCGCTGCCGGCAATTGCCGCCGACCTTCATGTCGGCCCGATCACGCTCAAGCTCGCATTGACGGCCTATATGGTGGCGCTGGCGATCTTCATTCCCATCAGCGGCTGGATGGCCGACAAATACGGCGCGAAGAAAATCTTCCGTTTCGCCATCGGCGTCTTCGTGGTGGGGTCGATCTGCTGCGCAGTGTCGTCCTCGGTGTTCGAATTCGTGCTCTCGCGTTTCCTACAGGGCATGGGCGGGGCGATGATGACGCCCGTTGGCCGCCTCGTGCTTTTGCGCACGACCAAGCGCAGCGAACTCGTCTCCGCCATGGCGCTGCTGACAATTCCGGGGCTGGTGGGACCGCTGACCGGCCCGCCCATCGGGGGCTTCATCACCACCTATTTTTCATGGCACTGGATTTTCCTGATCAATGTGCCGATCGGCGTGATCGGCATCTGGCTCTCGACGATCTTCCTGCCGGAAATCGAAACCACCAACCCGCCGCCGATGGATGGCAAAGGCTTCGTGCTGTCAGGCATCGCCGCCTCAGGTGTGGTGTTCGGCCTCTCCGTCGTCAGCCTGCCGGCGCTGCCGCCGGCCATCGGCATCGCCTCGACGATCATCGGTTTCATCTGCGGTTTTCTTTATCTGCGCCACGCCGCGCGCCACCCCGCCCCCATTCTGGATTTCCGCATTTTCCAGAACGCGACCTTCCGGGCGGCGTCCGTCGGCGGCACCGTTTTCCGCATTTCCACGGGCGCCATACCCTTTCTGATGCCGCTGATGCTGCAGATCGGTTTCGGGCTTAATCCGTTCCAGTCGGGCATGATCACCTTTGCCGGCGCAATCGGCGCGATCACCACGAAATTCATGGCCAAGCGGGTGTTTGCGGCAACCGGATTCCGCTCGACACTGATCGGGGCCGGCATCGTCGGCGCCTGCACCACGCTCGCCAACAGCTTCTTCACCCCGGAAACGCCTTATCCGCTGATCATGATCTTCCTTGTGACAGCGGGATTTGCCCGGTCCTTCTTCTTCACCGGATCGAATGCGCTCAGCTATTCCGACATCGAGGACAGTCAGGCCAGCCAGGCGACTTCGATGGCGTCGGTGCTGCAGCAGATCAGCCTGGCGCTGGGTGTGGCTTTCGCCGCCTCCATTCTGGAAGTCAGCAGCATGATGTCCGGCACGCACCTGCAGCTCGCCGATTTCCACATCGCCTTCACCATCGTGGCGCTGGTATCGCTGTTCGCCATCGTGCCGATCATCCGCATGGACGGCAATGCCGGGGCGGCCGTCTCCGGCCACCGGGGCAAGGTCTCACAACCGGCGGAGTGA	MNRIIPLILAVALFMEQMDSTVIATSLPAIAADLHVGPITLKLALTAYMVALAIFIPISGWMADKYGAKKIFRFAIGVFVVGSICCAVSSSVFEFVLSRFLQGMGGAMMTPVGRLVLLRTTKRSELVSAMALLTIPGLVGPLTGPPIGGFITTYFSWHWIFLINVPIGVIGIWLSTIFLPEIETTNPPPMDGKGFVLSGIAASGVVFGLSVVSLPALPPAIGIASTIIGFICGFLYLRHAARHPAPILDFRIFQNATFRAASVGGTVFRISTGAIPFLMPLMLQIGFGLNPFQSGMITFAGAIGAITTKFMAKRVFAATGFRSTLIGAGIVGACTTLANSFFTPETPYPLIMIFLVTAGFARSFFFTGSNALSYSDIEDSQASQATSMASVLQQISLALGVAFAASILEVSSMMSGTHLQLADFHIAFTIVALVSLFAIVPIIRMDGNAGAAVSGHRGKVSQPAE				NA	NA	NA	NA	NA
BMS010_06065	1002			hypothetical protein	ATGACCCAATCCTTGAGCATGAGCAGACGCGGCCTCATCGGCGCGGCGGGCGCAAGCGTTCTCGGTGCGCCGCTGTTGATGGCGCGCACGGCAACGGCCCAGACCAGCCAGCCGCAAACCTCCATGGAGATAGAACACGCGATGCCGCCTGAAACCAACCGCTTCAAGCTCGGCAATTTCGAAGTGCTCGTGGTGAAGGATGGCGCACGCGCGGCTCCCAATCCCGGCGAGACCTTCGGCACCGACCAGTCGGCCGAGACGGTCGGAAAATTGCTGGAAGACAATTTTCTGCCGAAGGAGCAATTCGTCAATTCCTTCTCGCCGGTCCTCGTCAATACCGGCACGGATCTCGTGCTGTTCGATACCGGTTTCGGTGAGGCCGGGCGCGGTGCGGGCAATGGCCGGTTGATCGAGGGCATGGCGGCGGCCGGTTATACGCCGGAAGATGTGACCGTGGTGGTGCTGACCCACATGCATGGCGACCATATCGGTGGGCTGATGGAAAAGGGTGCTCCGGCTTTTTCCAAGGCGCGCTACGTGTTCGGTCAGGCGGAATATGATTTCTGGACGGATGAGAAACGTGTCGGCACGCCTGCGGAAGGCGGTCACAAGGGCGTTCTCACGAACGTCAAGCCGCTGGCGGAAAAGGCGACCTTCATCGGCGACGGCGCCAGTGTCGTATCCGGGATTACCGGTGTGGCGGCCTTCGGTCATTCGCCGGGTCACATGATTTTCCGTGTCGAATCGGAAGGCAAACAACTCATCCTGACGGCGGATACGGCCAACCATTTCGTCCTTTCCCTTCAGAAGCCAGACTGGGAGGTGAAGTTCGACATGGACAAGGCGGCAGCCGCCGCGACCCGCAAGAAGGTCTATGACATGATCGCCACCGACCGTTTGCCTTTCCTTGGGTATCACATGCCTTTCCCGGCGGTCGGTTACGCGGAAAAGCTGGATACCGGCTATCGTTTCGTGCCGAAATCCTACCAGTTCGACATCTAA	MTQSLSMSRRGLIGAAGASVLGAPLLMARTATAQTSQPQTSMEIEHAMPPETNRFKLGNFEVLVVKDGARAAPNPGETFGTDQSAETVGKLLEDNFLPKEQFVNSFSPVLVNTGTDLVLFDTGFGEAGRGAGNGRLIEGMAAAGYTPEDVTVVVLTHMHGDHIGGLMEKGAPAFSKARYVFGQAEYDFWTDEKRVGTPAEGGHKGVLTNVKPLAEKATFIGDGASVVSGITGVAAFGHSPGHMIFRVESEGKQLILTADTANHFVLSLQKPDWEVKFDMDKAAAAATRKKVYDMIATDRLPFLGYHMPFPAVGYAEKLDTGYRFVPKSYQFDI				NA	NA	NA	NA	NA
BMS010_06066	1506	guaB_1	COG0516	Inosine-5'-monophosphate dehydrogenase	ATGGCACGCATCATTCAAACACCCACTGGTTTGGACGCTCTCACATTTGACGATGTGTTGCTGCAACCCGGACATTCCGAAGTCATGCCGGGACAGACGAATATCGCCACGCGCATTGCCCGCGATATCGATCTCAACCTGCCGATCCTCTCTTCCGCCATGGATACGGTTACCGAAGGCCGCCTCGCCATCGCCATGGCCCAGGCCGGCGGCATCGGTGTCATCCACCGCAACCTGACCCCCATCGAACAGGCCGAAGAAGTACGGCAGGTGAAGAAGTTCGAAAGCGGCATGGTCGTCAACCCGGTCACCATCGGCCCGGATGCGACGCTTGCTGAAGCACAGGCGCTGATGAAGGCGCATGGCATTTCCGGCATTCCGGTCGTTGAAAACGGCGGTTCCGGCGGCCACAAGAATGGCCGTCTCGTTGGTATTCTGACCAACCGCGACGTGCGCTTCGCCTCCGATCCGCAGCAGAAGATTTACGAACTGATGACCCGCGAAAACCTGGTCACGGTCAAGGAAAGCAGCGTCGATCAACAGGAAGCCCGCCGCCTGCTGCACAAGCACCGCATCGAAAAGCTGCTGGTTGTGGATGCCAAGGGCAATTGCGTCGGCCTCATCACCGTCAAGGATATCGAGAAGTCGCAGCTCAATCCCAACGCCACCAAGGATGCGCAGGGTCGCCTTCGCGCCGCTGCCGCCATCAGCGTCGGTGCTGACGCCATCGAGCGCGCCGAGCGCCTCATCGATGCCGGCGTCGACCTTCTGGTCGTCGATACCGCGCATGGCCATTCGCAGCGCGTGCTGGATGCCGTCTCGCAGGTCAAGAAGATGTCGAACTCGGTTCGCATCATCGCCGGCAATGTCGCCACCGCCGACGGCACCAAGGCGTTGATCGATGCCGGCGCCGATGGCGTCAAGGTCGGTATCGGCCCCGGCTCCATCTGCACCACCCGCATCGTCGCCGGCGTCGGCGTTCCGCAGCTCGCTGCCATCATGTCGTCGGTTGAAGTCGCCAATGCGGCTGATATCCCCGTCATCGCCGATGGCGGCATCAAGTTCTCGGGCGATCTGGCCAAGGCAATCGCCGCCGGCGCTTCCGCCGTCATGATCGGCTCGCTGCTGGCCGGCACGGATGAAAGCCCGGGCGAAGTGTTCCTCTACCAGGGCCGTTCCTTCAAGGCCTATCGCGGCATGGGCTCCGTAGGCGCCATGGCGCGCGGCTCGGCAGACCGTTATTTCCAGGCGGAAGTACGCGACACGCTGAAGCTCGTTCCGGAAGGCATCGAAGGTCAGGTTCCCTATAAGGGCCCGGTTTCCGGCGTCCTGCACCAGCTGGCAGGTGGCCTGAAAGCCGCCATGGGTTATGTCGGCGGCAGCAACATCAAGGAATTCCAGGAGCGCGCCACCTTCGTTCGCATCTCCAGCGCGGGCCTGCGCGAAAGCCACGCCCATGACGTGACGATTACCCGCGAAAGCCCGAACTACCCCGGCGCGGTTTGA	MARIIQTPTGLDALTFDDVLLQPGHSEVMPGQTNIATRIARDIDLNLPILSSAMDTVTEGRLAIAMAQAGGIGVIHRNLTPIEQAEEVRQVKKFESGMVVNPVTIGPDATLAEAQALMKAHGISGIPVVENGGSGGHKNGRLVGILTNRDVRFASDPQQKIYELMTRENLVTVKESSVDQQEARRLLHKHRIEKLLVVDAKGNCVGLITVKDIEKSQLNPNATKDAQGRLRAAAAISVGADAIERAERLIDAGVDLLVVDTAHGHSQRVLDAVSQVKKMSNSVRIIAGNVATADGTKALIDAGADGVKVGIGPGSICTTRIVAGVGVPQLAAIMSSVEVANAADIPVIADGGIKFSGDLAKAIAAGASAVMIGSLLAGTDESPGEVFLYQGRSFKAYRGMGSVGAMARGSADRYFQAEVRDTLKLVPEGIEGQVPYKGPVSGVLHQLAGGLKAAMGYVGGSNIKEFQERATFVRISSAGLRESHAHDVTITRESPNYPGAV	PGPT0021445_1356	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021445-guaB-K00088	NA	NA
BMS010_06067	438			hypothetical protein	ATGATTGGAGAAGAAAGCATGTCACCCACGACCGCAATGTTCTGGCCGATGATCGCCCATGTCTTTCTGGTCTTTTGCCTTTATGCGCTCCTGATCATCCGGCGTAACAAATACACCTTCAAGGATCGCGAATCGGCGATCAAGCTGCGCGACCAGGGCGAAGAGGCGCGTGAAAGCCATCTGGTGAACCGTAACATCGCCAATCAGTTCGAACTGCCGGTGCTGTTCCACATCGCCTGCCTGCTGCTCTACATCACGGATGCGGACAATATCGTCACCGTCGTTCTGGCATGGCTGTTCGTGCTCTCGCGTTATGCCCATTCCTATGTCCACGTCACCAGCAACCGCCTGCGTCAGCGTGGCGCATTGTTCGGCATCGGCTTTGCGCTGGTCGTCTGCCTGTGGGCGTGGCTCGCCATATGGTTGGCGCTGGAGTAA	MIGEESMSPTTAMFWPMIAHVFLVFCLYALLIIRRNKYTFKDRESAIKLRDQGEEARESHLVNRNIANQFELPVLFHIACLLLYITDADNIVTVVLAWLFVLSRYAHSYVHVTSNRLRQRGALFGIGFALVVCLWAWLAIWLALE				NA	NA	NA	NA	NA
BMS010_06068	1029	adhT		Alcohol dehydrogenase	ATGGCTAAGACAATGAAGGCAGCCGTCGTCCGCGCGTTTGGAAAACCGCTGACCATCGAGGAAGTGGCGATACCGGATCCCGGCCCGGGTGAAATTCTCATCAACTACAAGGCGACGGGCATTTGCCACACCGACCTGCACGCCGCAACCGGCGACTGGCCGGTCAAACCCAATCCGCCTTTCATCCCCGGCCACGAAGGTGTGGGTTACGTCGCCAAGATCGGCGCTGGCGTCACCGGCATCAAGGAAGGCGACCGCGCCGGCACGCCCTGGCTCTATACCGCCTGCGGATGCTGCATTCCCTGCCGCACGGGCTGGGAGACGCTTTGCCCGAGCCAGAAGAATTCCGGCTATTCCGTCAATGGCAGCTTTGCGGAATACGGCCTCGCCGATCCGAAATTCGTCGGCCGCCTGCCGGATAATCTCGATTTCGGCCCGGCCGCACCGGTGCTCTGCGCCGGCGTTACCGTCTATAAGGGGCTGAAGGAAACCGAAGTCAGGCCCGGTGAGTGGGTGGTCATTTCAGGCATTGGCGGGCTTGGCCACATGGCCGTGCAATATGCCAAGGCCATGGGCATGCATGTCGTTGCCGCCGATATTTTCGACGACAAGCTGGCGCTTGCGAAAAAACTCGGAGCCGATGTCACCGTCAATGGCCGCGCGCCAGATGCGGTGGAGCAGGTTCAGAAGGCGACCGGCGGCGTCCACGGCGCGCTGGTGACGGCGGTGTCGCCCAAGGCCATGGAGCAGGCTTACGGCTTCCTGCGCTCCAAGGGCACCATGGCTCTTGTCGGCCTGCCGCCGGGCTTCATCTCCATTCCGGTGTTCGACACGGTGCTGAAGCGCATCACGGTGCGCGGCTCCATCGTCGGCACGCGGCAGGATCTGGAGGAAGCGCTGACCTTTGCCGGCGAAGGCAAGGTGGCGGCCCACTTCTCCTGGGACAAGCTCGAAAACATCAACGATATCTTCCACCGCATGGAAGAGGGCAAGATCGACGGCCGTATCGTCGTGGACCTCGCTGCCTGA	MAKTMKAAVVRAFGKPLTIEEVAIPDPGPGEILINYKATGICHTDLHAATGDWPVKPNPPFIPGHEGVGYVAKIGAGVTGIKEGDRAGTPWLYTACGCCIPCRTGWETLCPSQKNSGYSVNGSFAEYGLADPKFVGRLPDNLDFGPAAPVLCAGVTVYKGLKETEVRPGEWVVISGIGGLGHMAVQYAKAMGMHVVAADIFDDKLALAKKLGADVTVNGRAPDAVEQVQKATGGVHGALVTAVSPKAMEQAYGFLRSKGTMALVGLPPGFISIPVFDTVLKRITVRGSIVGTRQDLEEALTFAGEGKVAAHFSWDKLENINDIFHRMEEGKIDGRIVVDLAA	PGPT0006365_1604	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006365-adhP-K13953	NA	NA
BMS010_06069	876			hypothetical protein	ATGGACAAGCCCAAGATCACGCAGGCCATGATCGACGCTTACGATGAATATACCCATCTCAGCCTCGATCGCCGCAAATTCATGGAAAAGCTCACCGTACTGGCCGGGTCTGGTGCAGCGGCGGCGGCCATCGCTCCGCTTCTTTCGGCCAACAGCGCCCGTGCGGCGGTTATCGCGGCCGATGACGACAGGATCGTCGCCGAGGAGGTGACCTATTCCGCCCCCGGTGGCGAGATGAAGGGTTACCTCGTTACGCCGAAATCCGCTTCCGGCCCCATCGGCTCGGTCATCGTCATTCATGAGAACCGTGGTCTGAACGACCATATTCGTGACGTGGCAAGGCGGGTGGCGCTCGCCGGTTTCCGCGCGCTTGCGGTCGATTTCCTATCCCCGCAGGGCGGCACGCCCGCCGATGAGGAGAAGGCACGGCAGATGTTCAGCGGTCTCGACATGGACGCGACCGTCGCCAATGCCGAAGCGGGCCGGGTATGGCTCGCGGCCCGGCAGGGGGCGAATGGCAAGGTGGGCGCGGTCGGTTTCTGCTGGGGCGGCGGGCTGGTCAATCGTTTCGCCACCAAATCGGCAGCTTTGAATGCCGGCGTCGCCTATTACGGCCAGCAGGCCCCCGCGGCCGATGTACCAGCCATCAAGGCGCCGCTGCTTTTGCACTATGCGGGTCTCGATGAGCGCATCAATGCCGGCATCGACGCCTATAAGAAGGCGCTGGAGGAAAACGGCAAGACCTTTGAAATCTTCGTCTATGACGCCGTCAACCACGCCTTCAACAATGACACGTCCTCGGCGCGCTACGACAAGGCGGCCGCCGATCTCGCCTGGGGCCGGACGACGGAGTTCTTCAAGAAATATCTGGCGTGA	MDKPKITQAMIDAYDEYTHLSLDRRKFMEKLTVLAGSGAAAAAIAPLLSANSARAAVIAADDDRIVAEEVTYSAPGGEMKGYLVTPKSASGPIGSVIVIHENRGLNDHIRDVARRVALAGFRALAVDFLSPQGGTPADEEKARQMFSGLDMDATVANAEAGRVWLAARQGANGKVGAVGFCWGGGLVNRFATKSAALNAGVAYYGQQAPAADVPAIKAPLLLHYAGLDERINAGIDAYKKALEENGKTFEIFVYDAVNHAFNNDTSSARYDKAAADLAWGRTTEFFKKYLA	PGPT0005685_1278	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_CHLOROBENZENE_DEGRADATION,PGPT0005685-catA-K01061	NA	NA
BMS010_06070	546	moaB_1	COG0521	Molybdenum cofactor biosynthesis protein B	ATGGCAGGCGATAGACCCTTCATTCCCCTTGGCATTGCGGTTCTGACCGTTTCGGACAGCCGCACGCTGGAGAACGACAAGTCTGGAGACACACTCGTCGCAAGACTGGAGGACGCGGGCCACCGGCTCGCTGCCCGCGCCATCGTCCCGGACGACAAGGCGGCGATCGCAGACACGGTGCGCGAATGGACGCTGTCTGACGGCGTGGATGTGGTCATCACGACAGGCGGCACGGGCTTCACCGGCCGCGATGTGACGCCCGAAGCGCTGGAGCCGCTGTTCGAAAAGCGCATGGATGGGTTTTCCGCCCTCTTCCACCGCATCTCCTATGACAAGATCGGCACCGCCACCATCCAGTCACGCGCGACCGGCGGCGTGGCGAACGCGACCTTCATCTTCGTGCTGCCCGGCTCGCCGGGTGCGTGCAAGGATGCGTGGGACGGCATTCTGAAAGCCCAGCTCGATTATCGCCACCTGCCCTGCAATTTCGTGGAGATTATGCCGAGGCTCGACGAGCATTTGAAGCGTGGGGCTGGGGGCGTTTAG	MAGDRPFIPLGIAVLTVSDSRTLENDKSGDTLVARLEDAGHRLAARAIVPDDKAAIADTVREWTLSDGVDVVITTGGTGFTGRDVTPEALEPLFEKRMDGFSALFHRISYDKIGTATIQSRATGGVANATFIFVLPGSPGACKDAWDGILKAQLDYRHLPCNFVEIMPRLDEHLKRGAGGV	PGPT0008420_136	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008420-moaB-K03638	NA	NA
BMS010_06071	885	ispE_2	COG1947	4-diphosphocytidyl-2-C-methyl-D-erythritol kinase	ATGCGCGGGCATGACATTTCCGGGGCCGCCGAGACCATCGAGGCGGCCCCGGCCAAGATCAATCTGGCGCTGCATGTGACCGGCCAGCGAGCGGATGGGTATCACCTGCTCGAAACGCTGGTGACCTTTACCGAAGCCGGCGACACGATCCGTATTCGCGACGCCGATGCCGACAGTTTCTCCATCTCAGGCCCTTTCGGCGATCTTTTGCGCGCGGGCGATGGCGGCGATAACCTCGTCACCCGCGCCAGGGACCTGTTGCGCAATGCGCTTGCATCGACAGGGCAACCTGCACCCCCGGTCGCCATTCATCTTGAAAAGAACCTGCCGGTGGCTTCCGGTATCGGCGGCGGCTCGGCGGATGCGGCGGCGACGCTTCGGGGCCTTTTGCGGCACTGGCGTGCCGGGATCGCACCGGATACGCTTGCATCCATGGCGCTGACGCTCGGGGCGGATGTGCCGATGTGCCTTGAGAGCCGATCCCTGATCGCGCGCGGCATCGGCGAGGACATCGAACCGCTCACCGATCTGCCGGAACTGGTGATGGTTCTGGCCAATCCGCTGAAGGCCGTCTCGACGCCGGAGATTTTCCGGCGATTGCAGACCAAGACCAATCCGCCCCTGCCCGCCTCTGCGACAATCGGCTGGATGGATTTTCTCGCGCAAAGCCGTAACGATCTGCAACCGCCAGCTCAGGCGCTTCTGCCGGAGATCGGGGAAATCATTGGGTTGCTGTCGCAGGAAGGTGCTGCGCTTGTGCGCATGTCTGGCTCGGGGGCAACCTGTTTCGGGATTTTTCATTCCCTTGAAGCGGCCAGGAAAGCGGAAACATCGCTTCGGAGGAAACGCCCCGGCTGGTATTTTCAGGCGACGCGGACCATTTGA	MRGHDISGAAETIEAAPAKINLALHVTGQRADGYHLLETLVTFTEAGDTIRIRDADADSFSISGPFGDLLRAGDGGDNLVTRARDLLRNALASTGQPAPPVAIHLEKNLPVASGIGGGSADAAATLRGLLRHWRAGIAPDTLASMALTLGADVPMCLESRSLIARGIGEDIEPLTDLPELVMVLANPLKAVSTPEIFRRLQTKTNPPLPASATIGWMDFLAQSRNDLQPPAQALLPEIGEIIGLLSQEGAALVRMSGSGATCFGIFHSLEAARKAETSLRRKRPGWYFQATRTI	PGPT0007605_1373	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007605-ispE-K00919	NA	NA
BMS010_06072	1848	bepA_5		Beta-barrel assembly-enhancing protease	ATGCGGCGTAAACCAGCACTCCGTCTTCTCTGCAGCGCGGCTCTTGCCGCTGCTCTCGCAATCGGCGCGGGTGCAAGCCCCGGCTTTGCGGAGACGAAGGCGACACCGGAAGACAAGGCCGTCACGTTCGATCCCGGCAAGGTGAACACCTTCTCCGGGGCCTTCCTCGCCGGGCGCAATGCCGATGTCGATCAGGATTATCCCACCGCGATTTCGCTTTACAAAAAGGCGCTGGAATTCGATCCGGCCAATACGGAAATCCGCCAGCGGCTGATGATCGCCGAACTTCTAAGCGGCAATTTCGAGGCCGGCGCCAAGATCGCCGATTCGATGAAGGACGATACCTCGGTGGAGCGCGTGACGACCATCGTGCGCGGTCTCGACGCCATCAAGGATAAGGAATTCGCCAAGGCCGAGAAGATTCTGAAATATACCGGTCCGAACGATCTCGACCGCATGGTCAACACGCTTTTGACCGCGTGGGCGCGTGCCGGTTCCGGCAAGCCGAAGGAAGCGCTGGCGCTGGTCAACAATATGAAGGGCCCGGGCTGGATTTCGATCTTCCAGAAATACAATGCGGCGGCCATCGCCCTTGTTTCCGGCAACAATGAAGCCGCCCGCAAGAGCCTGAACGAAGCGGTGACGGACCGCGAAGGCGGGGCAACCGCCTCCGATACCTACATGCGCGCGGTGATGGCGCTTGCCCGGCTGGAGGCTTCCGCCGGCAACAAGCAGAAGGCGCTGGATGCGATTGCGGTCGGAGACACTTTCGCACCGAATTACGCGCCGCTGAAGGCGCTTCGCCAGTCCATCGAAAACGGTGAAAAGCCGGAACAGCAGATCACAAATGCGGTTGAAGGTGCCGCCAGCGTCATGTTCTCCATCGCCGGCGCGCTGAACCGCGAAGGCGCCGAAGAGATCGTGACGCTTTATCTGCAGACGTCGCGCGCACTCGATCCGAAGAGCCCGGATACGCTCATCCTTCTCGGCGGCCTTTCCGAAGCGCTGAAACAGCCTGACCGCGCCATTGCCTTCTACCGCGAGGTGCCGAAGGATTCGCCGATGTATCGCATTTCCGAGCTGCAGCTCGGACTGACGCTTGCGCAGACCGGCAAGGTGGATGAGGCGCGCAAGCACCTCAAATCCCTGCTCGAATCCGATCCGAAGGACATTCGTTCCTATCTCGCCTACGGCAGCGTGCTTTCGGACGCCAAGGACTACAAGGCGATGGCCGAGAACTACGACAAGGCCATCGAGGTCATCGGCTCCGTGCCGCAGAAATCCGACTGGTCCGTTTTCTTCCAGCGCGGCATCGCCTATGAGCGACTGAAGGAATGGGACAAGGCCGAACCGAATTTCAAGCGGGCGCTGGAGCTGAACCCGGAACAGCCGCAGGTTCTGAACTATCTGGGCTATTCCTGGGTGGACAAGGGCATCAATCTCGATGAAGGCATGAAGATGATCAGCCGCGCCGTCGAGCTTCGGCCGAATGACGGCTACATCGTCGACTCGCTCGGCTGGGCGCATTATCGCCTCGGAGCTTTCGATGAGGCCGTGACCGAGCTGGAGCGGGCAATCGAACTGAAAGCCGGCGATCCGACCATCAACGACCATCTGGGCGACGCCTACTGGCGGGTCGGCCGCAAGATCGAGGCGGTCTATCAGTGGAACCGCGCATTGATCGGCGACAGCGACGACGTGGACAAGGCCAAGGTGAAGGAAAAGATCGCCAACGGCCTGCCGCCGGTGGAAAAGGACGCCGAAAATACCGCCAAGAAGGAAGTCGCGCCGGTGCCACCGGCTCCTCCGGCACCGGCACCGGCTGCCACTCCGGACAAGAAATCCTGA	MRRKPALRLLCSAALAAALAIGAGASPGFAETKATPEDKAVTFDPGKVNTFSGAFLAGRNADVDQDYPTAISLYKKALEFDPANTEIRQRLMIAELLSGNFEAGAKIADSMKDDTSVERVTTIVRGLDAIKDKEFAKAEKILKYTGPNDLDRMVNTLLTAWARAGSGKPKEALALVNNMKGPGWISIFQKYNAAAIALVSGNNEAARKSLNEAVTDREGGATASDTYMRAVMALARLEASAGNKQKALDAIAVGDTFAPNYAPLKALRQSIENGEKPEQQITNAVEGAASVMFSIAGALNREGAEEIVTLYLQTSRALDPKSPDTLILLGGLSEALKQPDRAIAFYREVPKDSPMYRISELQLGLTLAQTGKVDEARKHLKSLLESDPKDIRSYLAYGSVLSDAKDYKAMAENYDKAIEVIGSVPQKSDWSVFFQRGIAYERLKEWDKAEPNFKRALELNPEQPQVLNYLGYSWVDKGINLDEGMKMISRAVELRPNDGYIVDSLGWAHYRLGAFDEAVTELERAIELKAGDPTINDHLGDAYWRVGRKIEAVYQWNRALIGDSDDVDKAKVKEKIANGLPPVEKDAENTAKKEVAPVPPAPPAPAPAATPDKKS				NA	NA	NA	NA	NA
BMS010_06073	1017	ispB_1	COG0142	Octaprenyl diphosphate synthase	TTGGGCGTCGTCATACCGCTTGAAGAAAGCAAAAACAAACTCGCATCCGTCAAGCCGCTTGTCGACCTGACCCGCCCCGATATGGAACGGGTGAACCAGCTTATCCTTTCCAAGGCCGGTTCCGATGTCCAGATGATACCCGAGGTGGCCAACCACCTCATCTCTTCCGGCGGCAAGCGCCTGCGGCCGATGCTGACGCTCGCCTCGGCCTCGATGTTCGGTTACGAGGGCGACAACCACATCAAGCTCGCCACCAGCGTCGAATTCATGCACACGGCGACGCTTCTGCATGACGATGTGGTGGATGAAAGCGATCTGCGCCGCGGCAAATCCACCGCCCGCACCATCTGGGGCAACCAGGCGAGCGTTCTCGTCGGCGACTTCCTGCTCGGCCAGGCCTTCCGCATGATGGTGGATGTCGGCTCCCTCGATGCGCTCGATGTGCTGTCCACCGCCGCCTCGGTGATCGCCGAGGGTGAGGTGCTGCAGCTTTCTGTCGCCAAGAACATGGAAACGACGGAAGACGATTATCTGCAGGTGATTCGCGCCAAGACGGCCGCCCTTTTTGCGGCGGCGGCGGAAGTCGGCCCCATCGTCGCCAAGACCGACAAGGCGACCCGCAGCGCGCTGAAATCCTACGGCATGAATCTCGGCCTCGCCTTCCAGCTCGTTGACGACGTGCTGGACTACGGTGGAAAATCCGCCGATCTCGGCAAGAATACCGGCGACGATTTCCGCGAAGGCAAGATCACCCTGCCGGTCATCCTCTCCTATCGTCGCGGCACGCAGGATGAGCGCGCCTTCTGGCGCAACGCCATCGAGAAGGGTGAAAGCAGCGACGAGAACCTTGAAAAGGCGCTGGGCCTGATCACCAAATACAACGGTCTTGGCGATACGATCGGCCGCGCCACGCACTACGGCACCATCGCCCGCGATGCGCTCGCACCGCTGCCGCAGAGCCCCTGGAAAGATGCGCTTCTGGAAGTGATCGACTTCTGCATCGAGCGTCTGAACTGA	MGVVIPLEESKNKLASVKPLVDLTRPDMERVNQLILSKAGSDVQMIPEVANHLISSGGKRLRPMLTLASASMFGYEGDNHIKLATSVEFMHTATLLHDDVVDESDLRRGKSTARTIWGNQASVLVGDFLLGQAFRMMVDVGSLDALDVLSTAASVIAEGEVLQLSVAKNMETTEDDYLQVIRAKTAALFAAAAEVGPIVAKTDKATRSALKSYGMNLGLAFQLVDDVLDYGGKSADLGKNTGDDFREGKITLPVILSYRRGTQDERAFWRNAIEKGESSDENLEKALGLITKYNGLGDTIGRATHYGTIARDALAPLPQSPWKDALLEVIDFCIERLN	PGPT0007525_331	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007525-ispB-K02523	NA	NA
BMS010_06074	231			hypothetical protein	ATGCGTGAACTGATCCGTACCAACGATGCCGTGCTGCTCTCCTTCGCCGAAAGCCTGATGAAGGATGCCGGCATCCATTGCCTCATCGCCGATCAGGCGATGAGCATTCTGGAAGGATCGCTCGGTCTTTTGCCGCGAAGGTTTCTGGTGGAGGAAGATCGGGCCGATCAGGCCCGCCGCATTCTCATCGATGCCGGGCTCGGCGACGAGTTGCGCAACGAAGAGGCTTGA	MRELIRTNDAVLLSFAESLMKDAGIHCLIADQAMSILEGSLGLLPRRFLVEEDRADQARRILIDAGLGDELRNEEA				NA	NA	NA	NA	NA
BMS010_06075	801	yfiC		tRNA1(Val) (adenine(37)-N6)-methyltransferase	GTGGGCGACGGCATTTCCGAAACGATCGACGCCTTTCACCGGGGCCGGTTTCACATCCTCCAGCCGAAGGGCAGGGGGCACCGGGCTGGCATGGACGCCATGCTTCTGGCCTCGCTGGTGGCGGATGAGCGTGCCTGCCGGATCGCCGATCTCGGCGCGGGCGCGGGAGCTGCGGGCATGGCGGTTGCCGCGCGGCTCGAAAAGGCCGAGGTGACGCTGTACGAACGCTCGCCGGAAATGGCGAAATTTGCCCGCCGCAGCCTCGAACTGCCTGAGAATGCCGCTTTTTCTGCCCGCGTCAGCGTGCGTGAAGCCGATGTGACCCTACGGGCGAAAGCACGCGCCGAAGCGGGGTTGCCCGATGATCATTTCCATCACGTCATCATGAACCCGCCCTATAACGATGCGGGTGATCGTCGCACGCCGGATGCCCTGAAGGCCGAAGCGCATGCCATGACCGATGGTCTGTTCGAAGACTGGATCAGGACCGCGGGCGCGATCATGGTGCCGCGTGGGCAGCTTTCCCTGATTTCAAGGCCGCAATCGGTGGCGGAGATCATCGCCGCATGCGGCAGCCGTTTCGGCGGCCTCGAAATCACCCTCATTCATCCGCGCCCTGGCGAGGGCGCGGTGCGCATGCTCGTCACCGCCATCAAGGGTTCACGGGCGCGGCTGTCGTTCCGCGCACCGCTCATCATGCATGAGACCGGCAGCCATGCCTTCACCCCCTTCGTGGATGACCTGAACAATGGCCGCGCGGCCTATTCGCGTAATGTAAGGGCAATCCGGCCGGCGTCATAA	MGDGISETIDAFHRGRFHILQPKGRGHRAGMDAMLLASLVADERACRIADLGAGAGAAGMAVAARLEKAEVTLYERSPEMAKFARRSLELPENAAFSARVSVREADVTLRAKARAEAGLPDDHFHHVIMNPPYNDAGDRRTPDALKAEAHAMTDGLFEDWIRTAGAIMVPRGQLSLISRPQSVAEIIAACGSRFGGLEITLIHPRPGEGAVRMLVTAIKGSRARLSFRAPLIMHETGSHAFTPFVDDLNNGRAAYSRNVRAIRPAS				NA	NA	NA	NA	NA
BMS010_06076	867			hypothetical protein	GTGGGTTTTCTGAAGTATCTGGTGCCGAAACGCTTTCGTAAAAAAGAGCTCGTCATCCCGGTGGTGCGCATGCACGGTGCGATCATGGCCGGCGGCAACCAGTTCCGCCCCGCCCTCAATCTCGCCTCCTATGCGCCGCTTCTGGAAAAGGCCTTCGCCGTCAAGGATGCCCCGGCTGTCGCCATTTCGCTCAACTCGCCCGGCGGTTCGCCGGTGCAGGCGCGCATGATCTATAACCGCATCCGCCAGCTCGCCGAGGAAAAGGAAAAGAAGGTCCTGATCTTCGTGGAGGACGTTGCAGCCTCCGGCGGATACATGATCGCGCTTGCCGGCGACGAGATCATCGCCGATCCCACCTCCATCGTCGGTTCGATCGGTGTCGTTTCCGGCGGTTTCGGTTTCCCGGAAATGCTGAAGAAGATCGGCGTGGAGCGCCGTGTCTATACGGCCGGCGAGAACAAGGTCATCCTCGATCCCTTCCAGCCGGAAAAGGAAGGCGATATCGATTACCTGAAGTCGCTTCAGGTCGAAATCCACAATGTTTTCATTGATATGGTCAAGATGCGTCGCGGCTCGAAACTGAAGGGCGATGAGGCGATCTTCTCGGGCCTGTTCTGGACCGGCATGCGCGGCCTCGACCTCGGCCTGATCGACGGGCTGGGCGACATGCGTGAGGTTCTTCGCCGCCGTTACGGCACCAAGGTCAAGCTGCAGCTCGTCAGTGGCGGTCGCACTCTGTTCGGCAAAAAGGTGCCGGGCGTCAATGCTGCTCTGGACGTGAATGCCGAAAGGCTGGCCGCCGGTGCGGTATCAGGGCTTGCGGAAATTGCCGAAGAAAAGGCATTGTGGTCGCGTTTCGGTCTATGA	MGFLKYLVPKRFRKKELVIPVVRMHGAIMAGGNQFRPALNLASYAPLLEKAFAVKDAPAVAISLNSPGGSPVQARMIYNRIRQLAEEKEKKVLIFVEDVAASGGYMIALAGDEIIADPTSIVGSIGVVSGGFGFPEMLKKIGVERRVYTAGENKVILDPFQPEKEGDIDYLKSLQVEIHNVFIDMVKMRRGSKLKGDEAIFSGLFWTGMRGLDLGLIDGLGDMREVLRRRYGTKVKLQLVSGGRTLFGKKVPGVNAALDVNAERLAAGAVSGLAEIAEEKALWSRFGL	PGPT0013935_4	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013935-nhaA-K03313	NA	NA
BMS010_06077	195			hypothetical protein	ATGGCGCAGCTCATTACAATTATTCTTCTGGTGGTGGGATCCGTCATCCTTTACCGCCGCTTCGTCCGCGATGCGGAAAAGCTCTCGGCAAAATCGAAACAGCGCGAGAAGGAACGCGAGACCGGCGCCATCGGCACGCTGATCAAGGACCCGGAAACCGGCGAATACCGCGTGAAGCGCGAGGATGAGGCGTAA	MAQLITIILLVVGSVILYRRFVRDAEKLSAKSKQREKERETGAIGTLIKDPETGEYRVKREDEA				NA	NA	NA	NA	NA
BMS010_06078	231			hypothetical protein	ATGCGTGTCACGAAATGGGGCGATAGTCTTGCGGTCCGCATCCCGGCGGATGTCGCGGAAGCCTTGCATATCAAGGAAGGCGACGAGGTGGATGTCGTTGCTGCAACCGATGCGGTTGTCAACGCGACGACTGACGAAGAGCGGCGACAGGCGCTTGAAAAAATTCGTTCCCTGCGATGGACATTACCGCCGGACTATAAATTTGATCGTGACGAGGCTAATGAGCGTTGA	MRVTKWGDSLAVRIPADVAEALHIKEGDEVDVVAATDAVVNATTDEERRQALEKIRSLRWTLPPDYKFDRDEANER	PGPT0027395_718	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-MazF-MazE_TOXIN-ANTITOXIN_SYSTEM,PGPT0027395-antitoxin_mazE|chpAI-K07172	NA	NA
BMS010_06079	417			hypothetical protein	TTGAGCAAGGCGCCCTTCGTTGACACCAATATTCTGGTCTATGCTTCGACCTCCGACCCGCGCTCCGAGGTGGCCAATACGATAATATCGCAGCCATTCGTTATCAGCGTCCAGGCACTTAACGAGTTTTCGGTTGTCGCGCGTAAAAAATTGCGAATGGAATGGAGCGGTATACGGTCCGCTTTGGAAGATTTCAGAACGGCGGCGGCGCAGATTGTGCCGCTGGACGTTGGTCTGCACATGGACGCGCTTGATCTTGTGCAGAGATACAATGTTGCTTTTTACGACGCCTTGATGCTGGCGGCAGCGCTGAAGGCGGAAAGCACTGTTTTCCTCTCCGAAGACATGCAGGATGGCCTCACCGTCGAAGGGCGAATGAAGATCGTCAACCCGTTCACCGCCCGTCTCCACGCATAA	MSKAPFVDTNILVYASTSDPRSEVANTIISQPFVISVQALNEFSVVARKKLRMEWSGIRSALEDFRTAAAQIVPLDVGLHMDALDLVQRYNVAFYDALMLAAALKAESTVFLSEDMQDGLTVEGRMKIVNPFTARLHA				NA	NA	NA	NA	NA
BMS010_06080	954	glyQ_2	COG0752	Glycine--tRNA ligase alpha subunit	ATGACCGATGTCCCCGACCATATGAACCCGAAGCGTTCCTTTCAGGCGCTGATCCTGACGCTGCACAATTACTGGGCCGACAAGGGCTGCGCGGTGCTGCAACCCTACGATATGGAAGTGGGCGCGGGTACGTTTCATCCGGCTACGACGTTGCGGGCACTCGGGCCAAAGCCATGGAAGGCCGCTTACGTGCAGCCCTCGCGCCGCCCGTCCGATGGGCGTTACGGCGAGAACCCCAATCGTCTGCAGCACTATTACCAGTATCAGGTGATCCTGAAACCAAACCCCTCGAACCTGCAGGAACTCTATCTGGGTTCGCTGAAGGCCATCGGCCTCGACCCTCTGCTGCACGATGTGCGCTTCGTCGAAGACGACTGGGAAAGCCCGACGCTCGGCGCCTGGGGCCTTGGCTGGGAGTGCTGGTGCGACGGCATGGAAGTATCGCAGTTCACTTACTTCCAGCAGGTCTGCGGCATCGAATGCTCGCCGGTTGCGGGCGAGCTGACCTATGGTCTGGAGCGTCTGGCCATGTATGTCCAGGGCGTCGATAATGTCTATGACCTGAACTTCAACGGCCGCGAAGGTGAAGAAAAGATTTCCTATGGTGACGTCTTCCTCCAGGCCGAGCAGGAATATTCCCGCCATAACTTCGAATTTGCCGACACCGCCATGCTGCATCGCCATTTCATCGACGCCGAAAAGGAATGCCAGGCGCTTCTCGCCGCCGGCGCGCCCGGTGACAACGACAACCAGCGCCTGCACAAATGCGTTTTCCCGGCCTATGACCAGTGCATCAAGGCCAGCCACGTCTTCAACCTTCTGGATGCACGCGGCGTAATTTCGGTCACGGAACGCCAGAGCTATATCCTGCGCGTGCGCACGCTGGCGAAAGCCTGCGGCGAAGCCTTCCTGCTGACGGATGCGGGCGGGCTGAACTGGAACAGGGCCGCCTGA	MTDVPDHMNPKRSFQALILTLHNYWADKGCAVLQPYDMEVGAGTFHPATTLRALGPKPWKAAYVQPSRRPSDGRYGENPNRLQHYYQYQVILKPNPSNLQELYLGSLKAIGLDPLLHDVRFVEDDWESPTLGAWGLGWECWCDGMEVSQFTYFQQVCGIECSPVAGELTYGLERLAMYVQGVDNVYDLNFNGREGEEKISYGDVFLQAEQEYSRHNFEFADTAMLHRHFIDAEKECQALLAAGAPGDNDNQRLHKCVFPAYDQCIKASHVFNLLDARGVISVTERQSYILRVRTLAKACGEAFLLTDAGGLNWNRAA				NA	NA	NA	NA	NA
BMS010_06081	552	lemA_2	COG1704	Protein LemA	ATGTTCATCACGCTGGCAATCATCGCGGCAATCGCGCTTTATGTCGTCTTCATTTATAACGGGCTGGTCAAGGCGCGGCAGATGAAGGAAGAGGCGTGGTCGGGCATCGACGTGCAGCTGAAGCGCCGCGCTGATCTTATTCCCAATCTCATCGAGACAGTGAAGGGTTACGCGGCGCATGAAAAGAGCACCTTCGAGGAGGTGATTGCCATGCGCAACCGGGCGCAGGCCGTGCCGGCGGGCGATGTCGAGGGTCGTGCGCAGGCGGAAGGGCTGCTGTCGCAGGCGCTCGGCAAGCTCTTTGCGCTTGCCGAAGCCTATCCCGATCTCAAGGCCAATACGAATTTTCTGGAATTGCAGCGTTCGCTGGAAACCATCGAAAGCGAAATCCAGATGTCGCGCCGTTATTACAATGGCGCCGCCCGCGACCTCAACGTCAAGGTGGAAAGCTTCCCCTCCAATCTGGTCGCAGGCCAGTTCGGTTTTGCCAAGGCGCCGTATTTCGAGATCGACAACCCGGCCGACCGCGCCGTGCCGACTGTGAAATTCTAA	MFITLAIIAAIALYVVFIYNGLVKARQMKEEAWSGIDVQLKRRADLIPNLIETVKGYAAHEKSTFEEVIAMRNRAQAVPAGDVEGRAQAEGLLSQALGKLFALAEAYPDLKANTNFLELQRSLETIESEIQMSRRYYNGAARDLNVKVESFPSNLVAGQFGFAKAPYFEIDNPADRAVPTVKF				NA	NA	NA	NA	NA
BMS010_06082	1278	aroA_2	COG0128	3-phosphoshikimate 1-carboxyvinyltransferase	ATGATCGAACTGACCATCACCCCGCCCGACCACCCGCTTTCCGGCAAGGTCGAGCCGCCCGGCTCCAAGTCCATCACCAACCGTGCGCTTCTCCTGGCCGGTCTAGCCAAGGGCAAAAGCCGCCTGACCGGCGCACTGAAAAGCGACGACACGCTTTATATGGCCGAAGCCCTGCGCGAGATGGGCGTCAAGGTCACCGAGCCAGACGCCACCACCTTCGTCGTGGAGGGTACTGGCGTGTTGCAGCAGCCGGAAAAGCCGCTTTTCCTCGGCAATGCCGGCACCGCCACACGCTTCCTCACCGCTGCTGCCGCACTTGTGGATGGCGCCGTCATCATCGATGGCGACGAGCATATGCGCAAACGCCCGATCATGCCGCTGGTGGAGGCCCTGCGCTCCCTCGGTGTCGAGGCGGAAGCGCCGACCGGCTGCCCGCCCGTCACCGTCTGCGGCAAGGGCACGGGTTTCCCGAAGGGCAGCGTCACCATCGATGCCAACCTCTCCAGCCAATATGTGTCGGCGCTTCTGATGGCTGCCGCCTGCGGCGACAAGCCTGTCGATATCCTCCTCAAGGGTGAGGAAATCGGCGCCAAGGGCTATATCGATCTCACCACATCGGCCATGGAGGCTTTCGGTGCGAAGATTGAGCGCGTCAGCAACGCCATCTGGCGCGTGCATCCGACGGGCTATACGGCCACCGATTTCCACATAGAGCCGGATGCCTCAGCCGCCACCTATCTCTGGGGCGCGGAGCTTCTGACCGGCGGCGCGATCGATATCGGCACGCCGGCCGATAAGTTCACCCAGCCGGACGCCAAGGCCTATGATGTCATGGCCAAGTTTCCGCACCTGCCCGCCGAAATCGACGGCTCGCAGATGCAGGACGCCATTCCGACCATCGCGGTTCTGGCCGCCTTCAACGAGACGCCGGTGCGTTTCGTCGGCATCGCCAATCTGCGCGTCAAGGAGTGCGACCGTATCCGCGCCGTCTCGCTTGGCCTCAACGAAATCCGTAATGGTCTGGCGCATGAGGAAGGCGACGACCTGATCGTGCATGCCGATCCGGCCCTTGCAGGCCAGACGGTCAAGGCCTCTATCGATACTTTTGCCGACCACCGCATCGCCATGAGCTTTGCGCTGGCGGCGCTGAAAGTCGGCGGTATTGCCATCCAGAATCCGGCCTGCGTCGGCAAGACCTATCCCGGTTACTGGAAAGCGCTTGCTTCGCTCGGCGTCAACTACACCGAAAAGGAAAGCGCTGCCGAGCCGCAGCACTGA	MIELTITPPDHPLSGKVEPPGSKSITNRALLLAGLAKGKSRLTGALKSDDTLYMAEALREMGVKVTEPDATTFVVEGTGVLQQPEKPLFLGNAGTATRFLTAAAALVDGAVIIDGDEHMRKRPIMPLVEALRSLGVEAEAPTGCPPVTVCGKGTGFPKGSVTIDANLSSQYVSALLMAAACGDKPVDILLKGEEIGAKGYIDLTTSAMEAFGAKIERVSNAIWRVHPTGYTATDFHIEPDASAATYLWGAELLTGGAIDIGTPADKFTQPDAKAYDVMAKFPHLPAEIDGSQMQDAIPTIAVLAAFNETPVRFVGIANLRVKECDRIRAVSLGLNEIRNGLAHEEGDDLIVHADPALAGQTVKASIDTFADHRIAMSFALAALKVGGIAIQNPACVGKTYPGYWKALASLGVNYTEKESAAEPQH	PGPT0012850_4141	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012850-yddE-K00800	NA	NA
BMS010_06083	1938			hypothetical protein	GTGAAGACCATCGCCGCAAGACTTCTCGCGCTGTTCGTCTTCCTGGGCGCGGCCTTCCCGGCCTTCGCGGAGGAATTCATCCGCTCCTACCATTCCGTCATCGAGCTGGCGGCGGATGGCAAGCTGACGGTGACGGAAACCATCACCGCCCGCGCGGAAGGGCAGAACATCAAACGCGGCATCTTCCGCGATTTCCCGCTTTATGCGCTGGATGCGAATAACCGCCGCACCAAGGTGGATTTCAACGTCGTTTCGGTGGAGCGCGATGGCGCGCCGGAAAACTGGCGCACCGAGAATATCGAGGGCGGCATCCGCATCTATACCGGCAGCGCCGAGCGTTTTCTGCCGACCGGCGAGCATATCTTCCAGATCACTTACACCACCGCCCGGCAGATCCGCTATTTCAGCGATTATGATGAGCTGACCTGGAATGTCACCGGCAATGGCTGGCAATTCCCGATGGGCGAGATTTCCGCCACCATCACTCTGCCGGAGGGGGTGAAGGCAACGGATACCGCCGTCTTTACCGGGCCGCGGGGTGCGAAGGGCAAGGATGCGCGCATCTTGAGCGAAGGTAACGAGGTATTCTTCGCCTCCACCCGCCCGTTTACGGTTGGCGAGGGCATGACGGTCGCCGTCAAGCTCCCCAAGGGCGCGATTGCGGCACCAGACACCTCACAGGAGGCGGGCTGGTGGCTGCGGGATAATCTCGCCATCCTGCTTTCGGGCGGCGGGCTTTTCGCCGTGCTGCTTTATTACCTCCGCGCGTGGTTCGCCGTCGGCCGGGATCCGGCGAATGGTGTGGTCGTGCCGCGCTGGGATGCGCCGGAGGGGCTTTCGCCGGCTCTGGTCAATTACGTCGATAATCGCGGGTTTTCAGGTGCCGGCTGGACGGCGCTCTCTGCCTCGGCTCTTGATTTGGCGGTGAAGGGTTATGTCGTTCTGGAGGATTTGAAGAACGCCATCGTCATCCGCCGCACGCAAAAGGCGACGGCCGACAACCTGCCGACCGGCCAGAAGACGCTGCTTGCCTCCATCGGCAGTCCGGGCGAGACTTTGACCATCGACAAGGCCCATGGGACGGAAGTTGAAAAGGTCGGAAAACAGTTCCGCGCGGCGATAGAGAAAGAACATCGCGGCAAATATTACCGCAGCAATGCCGGTTACACCGTGTTCGGCATCTTCCTCAGCATCGCCCTCATCGTGGCAACGCTGGTGTTCGGCGATCTGGATGAAAGCGCCATTGCCGCCGTGCTGGTCTTCGGCTTTTTCGCCTTCTTCTTCAGCATCCTGTCGATCGGTATCGGCCGCCAGTTCTCGCGCGGCGCACCGCTGCGCAAGCGGATCGGCGGTATCGTCATGCTGGCTTTTGCCGGTTTCGTGGCCTTTTCGGCCATTGGCGGCATCGCCACGCAAATCCTGCTGGATGTGACGCATGACACCAAGTCGCTGGCGCTGGCGGCCATCGGCGGCATCGTGCTCACCAATGCGCTGTTCCTGTTCCTGATGGGCGCGCCGACGCCGCTCGGCCGCAAGCTGATGGATGGCATCGAAGGCCTCCGAACCTATCTGACACTGGCGGAAAAAGACCGGATGAACATGGCCGGCACGCCCGCCATGTCGCCGCAGCATTTCGAGACGTTGCTGCCCTATGCCGTGGCGCTCGGTGTCGAAAAACCGTGGAGCCGCACCTTCGAGGCCTGGCTCGCAACGGCTGCCGCCGGTGCCGCAGCGGCAAGTTATGCGCCCGGCTGGTATGCGGGCAGCAATTACGGAACCTTTGGCGACAGGATCGGCGGCTTTTCCACCTCCATGGCCAATACCATTGCCTCCACCATTCCCCAGCCCGTCAGTTCTTCCGGTTCCAGCTTTTCGGGTGGTGGCGGCGGCGGTTTTTCCGGCTCCGGCGGCGGCGGTGGTGGTGGCGGCGGCTGGTAA	MKTIAARLLALFVFLGAAFPAFAEEFIRSYHSVIELAADGKLTVTETITARAEGQNIKRGIFRDFPLYALDANNRRTKVDFNVVSVERDGAPENWRTENIEGGIRIYTGSAERFLPTGEHIFQITYTTARQIRYFSDYDELTWNVTGNGWQFPMGEISATITLPEGVKATDTAVFTGPRGAKGKDARILSEGNEVFFASTRPFTVGEGMTVAVKLPKGAIAAPDTSQEAGWWLRDNLAILLSGGGLFAVLLYYLRAWFAVGRDPANGVVVPRWDAPEGLSPALVNYVDNRGFSGAGWTALSASALDLAVKGYVVLEDLKNAIVIRRTQKATADNLPTGQKTLLASIGSPGETLTIDKAHGTEVEKVGKQFRAAIEKEHRGKYYRSNAGYTVFGIFLSIALIVATLVFGDLDESAIAAVLVFGFFAFFFSILSIGIGRQFSRGAPLRKRIGGIVMLAFAGFVAFSAIGGIATQILLDVTHDTKSLALAAIGGIVLTNALFLFLMGAPTPLGRKLMDGIEGLRTYLTLAEKDRMNMAGTPAMSPQHFETLLPYAVALGVEKPWSRTFEAWLATAAAGAAAASYAPGWYAGSNYGTFGDRIGGFSTSMANTIASTIPQPVSSSGSSFSGGGGGGFSGSGGGGGGGGGW				NA	NA	NA	NA	NA
BMS010_06084	2343	glyS_2	COG0751	Glycine--tRNA ligase beta subunit	ATGCCCGATCTTCTGCTTGAACTTCGCTCCGAAGAAATCCCTGCCCGCATGCAGCGCAAGGCGGCGGGCGATCTGAAGAAACTCGTCACCGATGCCTTGGTGGAGAGAGGGCTGACCTATGAGGGTGCGCGCGAATATTGGACGCCGCGCCGCCTGACGCTGGATATTCGCGGCCTCAACGCCCGCTCCGCCGATGTGCGCGAGGAAAAGAAGGGCCCGCGCACCGACGCCAATGAAAAGGCCATCGAGGGCTTTCTGCGCGGCGCCGGCCTCAACGATATTTCGGAAGCGCAGGTCGTTTCCGACCCGAAGAAGGGCGATTTCTACATCGCCATCATCAACAAGCCCGGCCGCCCGGCGGAAGAGATCATCGCGGAAGTGATGCCCGGCATCATCCGCTCCTTCCCCTGGCCGAAATCCATGCGCTCCGGCCCGGCCTCCATGCCGAAGGGTTCGAGCTATGCCGGCATCGAAGGCAAGGGCTCGGAAAGCCTGCGCTGGGTGCGCCCGCTGCAATCCATCGTCTGCCTGTTCGGCCCCGAACATGACGAAACGCAGGTCATTCCTTTCGCCATCGACGGCATCGTCGCCGGCAACGTCACCTATGGCCATCGTTTCCATGCACCCGGCCCGATCACCGTGCGCCGTTTCGAGGATTATGTCTCGAGTCTTGAAAAGGCGAAGGTCATTCTCGATGCCGAACGCCGCAAGGATATCATCCTGCACGATGCCAAGGACCTGGCCTTCGCGAACGGTCTGGAACTGGTGGAAGATGAAGGCCTGCTGGAAGAAGTCTCCGGCCTCGTCGAATGGCCGCAGGTTCTGATGGGCACCTTCGAGGAAGATTACCTGCAGATCCCGGCGGAAATCATCCGCCTCACCATCAAGACCAACCAGAAGTGTTTCGTCACCCGCAATCAGGGTGCGGAAGAGGGTCTTTCCAACCGCTTCATCCTGATCTCGAATATCGAGGCAAGCGATGGCGGCAAGGAAATCATCCATGGCAATGGCAAGGTGGTTCGCGCACGCCTGTCCGACGCCCGTCATTTCTGGACCCGTGACCAGGGTGATCTGCCTGATCTTGAGACGCTGAAGGACTCGGCCGCGAAATTTGGCCTCGATCTCAATAAGCCGCTCGACCAGCGTATGGCCAAACTCGACGCATTGAACGTCACCTTCCATGCCAAGCTCGGTACGCAGGGTGAGCGCGTGGCGCGTATTCGCGAACTGGCAAAGGCACTGGCCCCGGTTGTCGGCGCCGATGCCGATCTGGTGGACCGCGCTGTTGTTCTGGCGAAAGCCGACCTGCGCACCGAAGCCGTCGGCGAATTCCCCGAGCTTCAGGGCCTGATGGGCCGCAAATATGCGACGCTTCAGGGGGAAAACGAAAGCGTCGCGGCCGCCATCGAAGATCACTACAAACCGCAAGGCCCTTCCGACCGTCTGCCTGCCGATAATGTTGCGATCACGGTCGCTCTCGCCGACAAGCTCGACACCCTCGTCGGCTTCTGGGCCATCGATGAAAAGCCGACCGGTTCGAAGGACCCCTTTGCGCTGCGCCGTGCGGCGCTGGGTGTGGTGCGTATTCTGCTTGAGAAAAATGTGCGACTCAATTTGTTGCCGCTACTATATGTCCACTGCGTTCCGATACATATGGATCGGCGCGGTGAAGCTCGTGCGTCCGTCGAACGTCTCTACTCTGTGTTGAGAGAGAGTTTGATTTTGCGAGCAAGCAATTGGAAGCGGTACGATGATATGGTGAGGATCTTCATCGAGGATCTACCAACAGATACCGCGTTCTTTATGCGAAGCAACGATGCAGTTCCGGACCTTCTTTCCTTCTTCCACGACCGCCTGAAGGTCTATCTCCGCGATCTAGGCGCGCGTTACGATCTGATCGACGCTGTCCTGACGCCGGAATCCGACGATCTGCTGATGATCGCCCGCCGTGTTGAGGCGCTCACCGCCTTCATCACCGGCGAGGATGGCCGCAACCTTCTGGCAGGCGCCAAGCGCGCCACCCAGCTTCTGGCTGCGGAAGAAAAGAAGGGCACCGTGGTGGCCGATGGCGTTTCGGAAGAGCTGTTGAAGCTCGATGCCGAAAAGGCGCTTTATGCGGCGATCAGGACCGCATCTGCCGACGCTGCGAAGGCTGTTGCGGGCGAAGATTTCCGCTCCGCCATGCAGGCGCTCTCCACACTTCGTGCGCCGGTCGACAAGTTCTTCGAGGATGTGCTCGTCAATGACGAGGATGCGGCCATCCGTGCAAACCGTCTGGCGTTGCTGAAGGCTATTCGCGAAGCGACCGGAACGGTTGCGGATTTCTCGAAGATAACGGGGTGA	MPDLLLELRSEEIPARMQRKAAGDLKKLVTDALVERGLTYEGAREYWTPRRLTLDIRGLNARSADVREEKKGPRTDANEKAIEGFLRGAGLNDISEAQVVSDPKKGDFYIAIINKPGRPAEEIIAEVMPGIIRSFPWPKSMRSGPASMPKGSSYAGIEGKGSESLRWVRPLQSIVCLFGPEHDETQVIPFAIDGIVAGNVTYGHRFHAPGPITVRRFEDYVSSLEKAKVILDAERRKDIILHDAKDLAFANGLELVEDEGLLEEVSGLVEWPQVLMGTFEEDYLQIPAEIIRLTIKTNQKCFVTRNQGAEEGLSNRFILISNIEASDGGKEIIHGNGKVVRARLSDARHFWTRDQGDLPDLETLKDSAAKFGLDLNKPLDQRMAKLDALNVTFHAKLGTQGERVARIRELAKALAPVVGADADLVDRAVVLAKADLRTEAVGEFPELQGLMGRKYATLQGENESVAAAIEDHYKPQGPSDRLPADNVAITVALADKLDTLVGFWAIDEKPTGSKDPFALRRAALGVVRILLEKNVRLNLLPLLYVHCVPIHMDRRGEARASVERLYSVLRESLILRASNWKRYDDMVRIFIEDLPTDTAFFMRSNDAVPDLLSFFHDRLKVYLRDLGARYDLIDAVLTPESDDLLMIARRVEALTAFITGEDGRNLLAGAKRATQLLAAEEKKGTVVADGVSEELLKLDAEKALYAAIRTASADAAKAVAGEDFRSAMQALSTLRAPVDKFFEDVLVNDEDAAIRANRLALLKAIREATGTVADFSKITG				NA	NA	NA	NA	NA
BMS010_06085	555			hypothetical protein	ATGCCCGGTAGGGCAGAGGGGGGTATTTTCGGCTTCCACGCTTGCCGGGAGCGTTTTAGATTGATCGACATGACCCCCAAAATCCTCATCAGCGCCTGCCTCCTCGGCCAACCGGTCCGTTATGATGGCAGAGGCAAACCCTTCGCCCACCCGGCGATAGACCGCTGGCGGCAGGAGGGCAGGCTGGTTACGATCTGTCCGGAGATGGCGGGCGGTATGCCCGTGCCGCGGCCTCCGGCGGAAATCGAAAATGGTGCCTCCGGTCTCGATGTGCTGGAGGGCTGCGCCCGCGTGCTGGAAGTGACCGGTGGCGATGTCACGGCGCAATTTATCGCAGGTGCGGAAAGGGCGCTGGCCTTCGCCAGGGCCAATGGCTGCACATATGCGCTTCTGATTGACGGCAGCCCGTCCTGTGGGTCCGTAGCAATCTATGACGGTTCGTTTTCCGGCGTCAAACACGCGGGCAATGGGGTTACGGCGGCGCTGCTCGAAAAAGCCGGTATTGCCGTATTTTCACCGGCCGATATCGACCGGCTGGATGCGCTGACCCGTTAG	MPGRAEGGIFGFHACRERFRLIDMTPKILISACLLGQPVRYDGRGKPFAHPAIDRWRQEGRLVTICPEMAGGMPVPRPPAEIENGASGLDVLEGCARVLEVTGGDVTAQFIAGAERALAFARANGCTYALLIDGSPSCGSVAIYDGSFSGVKHAGNGVTAALLEKAGIAVFSPADIDRLDALTR	PGPT0013380_7	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013380-punA-K03783	NA	NA
BMS010_06086	1824			hypothetical protein	ATGAAGAACCTTTCCATTTCCCGTCAGTTGATCGTTCTCGTGGTGGCCCTGATGGCCGCCTTCGCCGTGGCGACGTTTTACCAGCTGAAATCCGCCACCGATGCGATCTATGAGGAACGCTACGGCATGCTGCGGACGCAGGTGCAATCGGCGATCTCCATCCTGCAATCCTTCCACGACAAGGAAAGGGCCGGAACGCTTTCGCGCGACGAGGCCATGAAACAGGCTTACGCCACCGTCAGCGCCATGCGCTTCACGCCGGACGGCTATCTGTTCGGTTACGATTACGACGTGACGATGAAGTTCCATCCCGATGCCAAGCGCGTCGGCGAAAGCTTCAAGGGCAAGCCGGACAGCAAGGGTTTCGCCTATCGCGACGAGCTGGTGCGGCTTGGCCGCAATGGCGGCGGCCAGACGGATTTTTACGGTCCGAAGCCCGGCATGGAAGGCAATGACTACGCCAAGAGCTCCTATGCCCTTGCCTTTGAGCCCTGGCAGGTGGTGGTCGTGACCGGCGTTTACATCGATGATCTGAACGCGCAGGTGCGCGGCGATGTGATGAAGGCGCTGTCGATCGGCGCGCTGATCTTCGTGCTGGCGCTTGCCGCAGCCTTCTACGTCATCCGTGGCATTTCGAAGCCGCTCGGCGACATCCACCGCGCACTTGGTGAAGTGGCCAATGAAAACGTCTCGCTCGCCATTCCCCATACCGGCCTGACCAACGAGGTGGGCATGATGGCGAAGGCCACCGCCTCGCTGCAGGACAAGGTGCGCGAGCGCCATGCCATGCAGCGCCGTGAGGAAGAACAGCAGCGACAGCTCAATGCCGAGCGCCAGAACAACCTCGACATGCAGCGCGACGAGGCAGAATTGCAGGCACGTGTCGTCACCACCATCGGCGAGGCGCTGGAGAAGCTCGCCGGCGGCGATCTGACCGTACGTTGCGGCGATCTCGGCAATCGTTATGCGGCGCTGCGCGACAATTTCAACGAGGCCCTGATCCATCTCGACGCCGCCATGGCCAAGGTGAATTCCAAGAGCATCGACATCGGCGGCTCCAAGGAGGAAATCCGCAAGGCTTCCAACGAGCTTTCGCAGCGCACCGAACGGCAGGCGGCCAATCTGGAAGAAACCTCGGCCGCTCTCGATGAGTTGACGGTTGCGGTGCGCCAGACGGCAGAGGGTGCAGCCGACGCCGCCAAGCGCGTCACCACCGTCAGCTCCGAAGCCATCCGCAGCGACCGGGTGGTGGAAGAAGCGATCACCGCGATGAGCGGTATCGAGCAGTCATCCGACCAGATTTCCAACATCATCGGCGTGATCGACGACATTGCCTTCCAGACCAACCTTCTGGCGCTGAATGCCGGTGTGGAAGCGGCACGTGCCGGTGAGGCCGGCAAGGGCTTTGCCGTGGTGGCGCAGGAAGTGCGCGAACTGGCGCAGAAATCCGCCGCCGCCGCCAAGGAGATCAAGGACCAGATCGCCCGTTCTTCCGCCCAGGTGGAAAACGGCGTACGCCTTGTCGGTGAGGCCGGCGATGCGCTGAAACGCATCTCGGATCAGATCAAATCGGCAAACGAGATCGTCAGCAAAATCGCCCATTCGGCCGCCGAACAGGATACGACGCTGCGCTCGATCTCATCGTCGCTCAACCAGCTGGATGTCGCCACCCAGCACAATGCGGCGATGGCGGAAGAAACCACGGCTTCGGCGGAGGCGCTGGCCGTGGACACCGAGGAACTGCTGAACCTCATCCGCGGCTTCCGCGTCTCCTCCGGCCACCAGCTTCATGGCATGGCAGAGCAGATGCGCATGGCGGGGTGA	MKNLSISRQLIVLVVALMAAFAVATFYQLKSATDAIYEERYGMLRTQVQSAISILQSFHDKERAGTLSRDEAMKQAYATVSAMRFTPDGYLFGYDYDVTMKFHPDAKRVGESFKGKPDSKGFAYRDELVRLGRNGGGQTDFYGPKPGMEGNDYAKSSYALAFEPWQVVVVTGVYIDDLNAQVRGDVMKALSIGALIFVLALAAAFYVIRGISKPLGDIHRALGEVANENVSLAIPHTGLTNEVGMMAKATASLQDKVRERHAMQRREEEQQRQLNAERQNNLDMQRDEAELQARVVTTIGEALEKLAGGDLTVRCGDLGNRYAALRDNFNEALIHLDAAMAKVNSKSIDIGGSKEEIRKASNELSQRTERQAANLEETSAALDELTVAVRQTAEGAADAAKRVTTVSSEAIRSDRVVEEAITAMSGIEQSSDQISNIIGVIDDIAFQTNLLALNAGVEAARAGEAGKGFAVVAQEVRELAQKSAAAAKEIKDQIARSSAQVENGVRLVGEAGDALKRISDQIKSANEIVSKIAHSAAEQDTTLRSISSSLNQLDVATQHNAAMAEETTASAEALAVDTEELLNLIRGFRVSSGHQLHGMAEQMRMAG	PGPT0015710_12863	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_06087	510			hypothetical protein	ATGCGTCGTCTTTTTCTGACAGCGATTGTCGCGCTGACCGGCGGGTCGGCGATGGCGTCTTCCATCGAATATATAAACGGCGTGCATGTGGCCAACGGCAGCTTCATTCGTCGCGATTGCGCGGGCTGCAAGCCCATGAAGGGCAAAGCCGTGGCGCAGGGTTACGCCGTTCCCTCCATTGAGCCGGGCACGCAGCACACGGAAATGCGCGAAGTCGACGGCAAGCGCACCCTGCTGCGCACCGAAGCCTGGCTTGGCGGCGCGCCCGTTACCTTCGTCAGCACCAATCCGGCATGGATGGCGGAAACCCCGAGCACGGCCATCGCGACCTATGACGACGCAGAACCCGTGGCACATCCCGCTGAGACGGTTTCGACATCGGCCGGTATCGACGTGACGACGACCACGGCAGCCGTCAAGGAAATTTCCACCGAAAACGCAGCCGAACCGGCCAGCGCCTCGGTGATCGCCGCCCCCCAGTTCCCGGATTTCCAATTGCGCGGCAATTGA	MRRLFLTAIVALTGGSAMASSIEYINGVHVANGSFIRRDCAGCKPMKGKAVAQGYAVPSIEPGTQHTEMREVDGKRTLLRTEAWLGGAPVTFVSTNPAWMAETPSTAIATYDDAEPVAHPAETVSTSAGIDVTTTTAAVKEISTENAAEPASASVIAAPQFPDFQLRGN				NA	NA	NA	NA	NA
BMS010_06088	1272	purD_1	COG0151	Phosphoribosylamine--glycine ligase	ATGAAAGTTCTGTTGATCGGTTCCGGCGGACGCGAACATGCGCTGGCGTGGAAAATCGCCCAGTCTCCCCTGCTCGATGAGCTTTATGCCGCTCCCGGCAATCCCGGCATTGCCGACCATGCGACGCTGGTGGCGCTGAACGTGGAAGACCATGCGGCCGTCATCGCCTTTGCGAAGGAAAAGGCAATCGACTTCGTCGTGGTCGGCCCGGAAGCGCCGCTGGTTGCCGGTCTTGCGGATGATCTGCGCGCCGCCGGCATCGCCACTTTCGGACCCTCGAAGGCAGCCGCCCAGCTTGAGGGTTCCAAGGGTTTCACCAAGGATCTCTGCGCGCGCTACGATATTCCGACCGGCGCTTACCAGCGCTTCAAGACCTCTGCACCGGCCAAGGACTATGTTCGCGCACAGGGCGCGCCGATCGTCATCAAGGCCGACGGGCTTGCCGCCGGCAAGGGCGTGACCGTGGCCATGACGGAAGCGGAAGCGCTTGCCGCGATTGACGACTGCTTCGACGGTGCTTTCGGCGCAGCCGGCGCCGAAGTGGTGGTGGAGGCCTTTCTCGACGGCGAGGAAGCGAGCTTCTTCTGCCTTTCGGATGGAAAGACCGCGCTGGCGCTCGCCACCGCGCAGGATCACAAGCGCGTCGGCGATGGCGATACCGGCCCGAATACCGGCGGCATGGGTGCCTATTCCCCTGCCCCCGTCATGACACCGGCCATGGTGGAGCGCACCATGAAGGAGATCATCGAGCCGACGATCTCGGGCATGGCCAAGGATGGCAATCCCTTCTCCGGCGTGTTCTTCGCCGGCCTGATGATTACCGCCAAGGGCCCGGAACTGATCGAATACAATGTCCGTTTCGGCGATCCCGAATGCCAGGTGCTGATGATGCGCCTGAAAAGCGATCTGCTGCCGATCCTCTACGCCACCGCCACCGGCACGCTGGACAAGGTTGAGGCGGAATGGCGCGACGACGCGGCGCTGACCGTCGTTCTCGCTTCGAAGGGTTATCCCGGCGCTTACAACAAGAACACGCCGATCGCCCATATTCCCGAGGCCAGCGAAGAGGCGAAGGTGTTCCATGCCGGAACCGCGCTGAAGGACGGCGGGCTGGTGGCGACGGGCGGACGCGTGCTGAACGTTACCGCCCTTGGAAAGACCGTCACGGAAGCGCAGTCCCGCGCCTATGCGCTGGCCGACAAGGTGGAGTGGGAAAACGGCTTCTGCCGCCGCGATATCGGCTGGCAGGCCGTCGCCCGCGAAAAGGCCTGA	MKVLLIGSGGREHALAWKIAQSPLLDELYAAPGNPGIADHATLVALNVEDHAAVIAFAKEKAIDFVVVGPEAPLVAGLADDLRAAGIATFGPSKAAAQLEGSKGFTKDLCARYDIPTGAYQRFKTSAPAKDYVRAQGAPIVIKADGLAAGKGVTVAMTEAEALAAIDDCFDGAFGAAGAEVVVEAFLDGEEASFFCLSDGKTALALATAQDHKRVGDGDTGPNTGGMGAYSPAPVMTPAMVERTMKEIIEPTISGMAKDGNPFSGVFFAGLMITAKGPELIEYNVRFGDPECQVLMMRLKSDLLPILYATATGTLDKVEAEWRDDAALTVVLASKGYPGAYNKNTPIAHIPEASEEAKVFHAGTALKDGGLVATGGRVLNVTALGKTVTEAQSRAYALADKVEWENGFCRRDIGWQAVAREKA	PGPT0021575_3327	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021575-purD-K01945	NA	NA
BMS010_06089	2319	yhgF_1	COG2183	Protein YhgF	ATGACCGCAGACAATGCCCGCCTCGCCTCGCTCATCGCCACCGAAATCAACGCCCGCCCCGATCAGGTAAAGGCGGCGGTGGCGCTGCTGGACGAGGGTGCGACCGTTCCCTTCATCGCCCGTTACCGCAAGGAAGTGACGGGAGGGCTGGACGACACCCAGCTTCGAACGCTTTCGGAGCGTCTCGTCTATCTGCGCGAACTCAATGCGCGCCGCGCCTCCATCGTCGATTCCATCACCGGCCAGGGCAAGATGACCGATGAGCTGATGGTCAAGATCATGCAGGCGGGCACCAAGGCGGAGCTGGAAGACCTCTACCTGCCCTACAAGCCGAAACGCCGCACCCGTGCGGAAATCGCCCGCGAACGCGGTCTCGGCCCGCTCGCAGAAGCCATCTGGGAAAACCGCGCCGCCGATCCGGCGAAGCTGGCGGAAGCTTATGTTCAGGGTGAGGTGGCCGATGTGAAGGCGGCACTGGAGGGCGCACGCGACATCGTGGCGGAAACCATGACGGAAAATGCCGGTCTTCTCGGCCGCCTGCGCGATTACATGCGCCAGAACGCCACCTTCCGCGCCAAGGTCGTGGATGGCAAGCAGGCGTCGGGTGAGAAATTCTCCGACTATTTCGATCATTTCGAGCGCTGGGCGACGGTGCCGGGCCACCGGGCGCTGGCCATGCTACGCGGCTGGAACGAGGAAGTGCTGACGCTGACAATCGATGTCGATGCGGACGATCCCTCACCGGTCAAGCCCGCACAGCGCACCATCGCCGCCGCCTTCGATATCCGCAATGCCGGCCCCGCCGATCAATGGCTGATGGAAGTGGCTGGCTGGACGTGGCGGGTGAAGCTTTCCATGTCGCTCTCGCTCGATCTGATGCGCGAATTGCGCGAGCGCGCAGAAGAAGAGGCGATCCATGTTTTCGCCCGCAATCTCAAGGATCTGCTGCTGGCAGCCCCCGCCGGTTCCCGCGCCACCATGGGGCTCGATCCGGGCATCCGCACCGGCGTCAAGGTGGCGGTGGTGGATGGCACCGGCAAGCTGCTTGATACCACGACGGTCTATCCCTTCCCGCCGAAGAACGATGTGCGCGGCACGCAGGCGGAACTTGCTGTCCTCATCCGCAAGCACAATGTCGAACTGATCGCCATCGGCAATGGCACCGGCAGCCGCGAGACGGAAAAGCTGGTCGCCGATCTTCTGGCGCAGATGCCCGCTTCGGGCGCGAAGCCCACCAAGGTCATCGTCTCGGAGGCGGGCGCTTCGGTCTATTCCGCTTCGGAACGGGCGGCCGCCGAATTCCCCAATCTCGATGTTTCGCTGCGCGGCGCCGTCTCCATCGCCCGCCGCCTTCAGGATCCGCTGGCGGAACTGGTGAAGATCGAGCCGAAATCCATCGGGGTCGGCCAGTACCAGCACGATGTCGATCAGGGCCGTCTCAGCCGCTCGCTCGATGCTGTCGTGGAAGATGCGGTGAACGCCGTCGGCGTCGATCTCAATACCGCCTCTTCGCCGCTTCTGGCGCGGGTGTCCGGTCTTGGCAGCTCGATTGCCGATGCCATCGTCGCCCATCGCGACCAGACCGGCCCCTTCGCCAGCCGCAAGGAATTGCTGAAGGTACCGCGCCTCGGCCAGCGCACCTTCGAACAATGCGCCGGCTTCCTGCGCATCCCGAACGGCAAGGAGCCGCTGGATGCTTCCTCGGTTCACCCGGAAGCCTATGGCGTGGCAAAAAAAATCGTTGCCGCCTGCGGCCGCGATTTGCGCTCGCTGATGGGCGACAGCGCCGCGTTGAAGGCGCTCGATCCGAAGACGTTCATCGACGAGCAATTCGGCCTGCCGACGGTAAAAGACATCATCGCCGAACTGGAAAAGCCCGGCCGCGACCCGCGCCCGAGCTTCAAGACCGCGACCTTCGCCGAGGGTGTGGACGAGATCACCGATCTGAAACCGGGCATGCTTCTGGAAGGCACCGTCACCAATGTCGCCGCCTTCGGCGCTTTCGTGGATATCGGCGTGCATCAGGACGGGCTGGTACATGTCTCGCAGCTGGCCGACCGTTTCGTGAAGGACCCGCATGAGGTCGTCAAGGCGGGCGATGTGGTCAAGGTGCGAGTCGTGGAAGTGGATGTGAAGCGCAAGCGCATCGGTCTCACCATGCGCAAGGATGGCGGCGAGGCAGCGCCGCAGCCGATGCGCGAGAAGGGCAATGCCAGCGCCATGCGGCACGCGACATCCAAGCCGAAAGAGCGCAACGAGGGGTCGCAAACCGGTGGTGCGCTTGCCGCCGCCCTGGCTGAAGCCATGAAGCGACGCTGA	MTADNARLASLIATEINARPDQVKAAVALLDEGATVPFIARYRKEVTGGLDDTQLRTLSERLVYLRELNARRASIVDSITGQGKMTDELMVKIMQAGTKAELEDLYLPYKPKRRTRAEIARERGLGPLAEAIWENRAADPAKLAEAYVQGEVADVKAALEGARDIVAETMTENAGLLGRLRDYMRQNATFRAKVVDGKQASGEKFSDYFDHFERWATVPGHRALAMLRGWNEEVLTLTIDVDADDPSPVKPAQRTIAAAFDIRNAGPADQWLMEVAGWTWRVKLSMSLSLDLMRELRERAEEEAIHVFARNLKDLLLAAPAGSRATMGLDPGIRTGVKVAVVDGTGKLLDTTTVYPFPPKNDVRGTQAELAVLIRKHNVELIAIGNGTGSRETEKLVADLLAQMPASGAKPTKVIVSEAGASVYSASERAAAEFPNLDVSLRGAVSIARRLQDPLAELVKIEPKSIGVGQYQHDVDQGRLSRSLDAVVEDAVNAVGVDLNTASSPLLARVSGLGSSIADAIVAHRDQTGPFASRKELLKVPRLGQRTFEQCAGFLRIPNGKEPLDASSVHPEAYGVAKKIVAACGRDLRSLMGDSAALKALDPKTFIDEQFGLPTVKDIIAELEKPGRDPRPSFKTATFAEGVDEITDLKPGMLLEGTVTNVAAFGAFVDIGVHQDGLVHVSQLADRFVKDPHEVVKAGDVVKVRVVEVDVKRKRIGLTMRKDGGEAAPQPMREKGNASAMRHATSKPKERNEGSQTGGALAAALAEAMKRR				NA	NA	NA	NA	NA
BMS010_06090	1257	cfa	COG2230	Cyclopropane-fatty-acyl-phospholipid synthase	ATGGCGTCGTCTCTGCATGTTCTTCTCGAAAAGATAATCAAGACCGGTGATCTCACCGTCAACAGCCCGGGCGGCAGCCGTACATTCGGCAACGGCGCGGGAAAAAAGGTGGTTCTGAACTTCACCGACGAAGCCGCCATGCAGGAGATCGCCGCCGATCCGGCGCTGAAGCTGGCTGAAATGTATATGGAAGGTCGGGCGAAGGTCGCGGAAGGCGACATCTACGATTTTCTGGCGCTGGTCAAAGGCAATACGCTGAGCGAGGCGCTGTCCTTCGGCATGATTTGGCGCGGCATGGCCCGCATCATCGCCGCCCGCATCAAGATGCATCTGCCGGTCAACCACAACAAGAGCAATGTCGCCCATCATTACGATCTGAGCGCCAAGCTGTTCGATCTTTTCCTCGATGAGGACTGGCAATATTCCTGCGCCTATTTCAATCCGCCCGGCATCAGTCTCTATGAAGCGCAGGTCGCGAAAAAACGGCACATAGCCGCCAAGCTGATGACCGAGCCGGGCCAGAGCGTGCTGGAAATCGGCTCCGGCTGGGGCGGCATGGCGATGTATATTGCCGAAAGCGCCGGTGCGGATGTGACCGGCATTACGCTCAGCGAAGAACAGCTGCGCGTTTCCCGCGACCGCGCCGCCAAACGCGGCCTTGCGGCAAATGTCCGGTTCGAATTGCAGGACTATCGCTACCTGCCGGCTTCGAAAAAATACGATCGCATCGTCTCCGTCGGCATGTTCGAACATGTCGGGCCGACCCATTATCGCGATTATTTCGACAAGGTGGCGGAGGTGCTGGACGACAAGGGCGTGATGGTGCTGCATTCCATCGGCCAGCCCTATCCGGCGCTGGCGACCAACCCCTTCATCGAAAAATATATTTTCCCCGGCGGTTATATTCCCTCGCTTGCCGAGGTGCTGCCGGCCATCGAAAAATCGCGGCTGCTGGTGAAGGATATCGAAATCCTGCCCATGCATTACGCCCATACGCTTCGCCACTGGCGCGAGCGTTTCGTGGCGCGCAGGGCAGAAGCGGTAGCGCTTTATGACGAACGCTTCTTCCGCATGTGGGAATTTTATCTGGCGGGGTCGGAAATGGCCTTTACCCATGAAAATTTTCACATTTTCCAGATCCAGATCGCCAAGGATCGCGATGCCGTGCCGCATAGTCGCGACTACATTGCGCGGAACGAGGCGAAGCTGCTGGAATTCGAGAAGACGCGCGCGCCGCTGGAGAAGGTGACGTTCTGA	MASSLHVLLEKIIKTGDLTVNSPGGSRTFGNGAGKKVVLNFTDEAAMQEIAADPALKLAEMYMEGRAKVAEGDIYDFLALVKGNTLSEALSFGMIWRGMARIIAARIKMHLPVNHNKSNVAHHYDLSAKLFDLFLDEDWQYSCAYFNPPGISLYEAQVAKKRHIAAKLMTEPGQSVLEIGSGWGGMAMYIAESAGADVTGITLSEEQLRVSRDRAAKRGLAANVRFELQDYRYLPASKKYDRIVSVGMFEHVGPTHYRDYFDKVAEVLDDKGVMVLHSIGQPYPALATNPFIEKYIFPGGYIPSLAEVLPAIEKSRLLVKDIEILPMHYAHTLRHWRERFVARRAEAVALYDERFFRMWEFYLAGSEMAFTHENFHIFQIQIAKDRDAVPHSRDYIARNEAKLLEFEKTRAPLEKVTF	PGPT0007680_1998	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-PHOSPHOLIPID_PRODUCTION	PLANT_SIGNAL-PHOSPOLIPID_METABOLISM	PLANT_SIGNAL-CYCLOPROPANE-FATTY-ACYL-PHOSPHOLIPID_BIOSYNTHESIS,PGPT0007680-cfa-K00574	NA	NA
BMS010_06091	456	ysnE		putative N-acetyltransferase YsnE	TTGGCCACCGAAATCAAGCTTGAAACACCCCGGCAGGATGCGGTTCTGCGCCTCATCGACCTTTCCAACGCCTATATGGCCTCGCTTTACCCGGCCGAGAGCAATCATCTGGTCGATATCGGCGCGCTCGAGCAGGACAATGTCTCGTTTTTCGTGGCCCGGCACGATGGCCGCGTCGTCGGCTGCGGCGCGCTGGTGGAGGCGGGAGACGGCACGGCGGAGGTGAAGCGCATGTTCGTCGATCCCGAGGCGCGGGGATTGCGGATCGGCAAGCTGATCATGGATACGCTTGTCGCGCGCGGCGCCGAGCTTGGCCTTTCCGCCATCCGTCTCGAAACCGGCATCAGCCAGCCGGAGGCGATCGGTCTTTACCGCAAGGCGGGGTTTATGGAGATCGAGGCCTTTGCGCCTTACAGGCCGGATCCGCTCAGCCTGTTCATGGAGAAGGTGCTTTAG	MATEIKLETPRQDAVLRLIDLSNAYMASLYPAESNHLVDIGALEQDNVSFFVARHDGRVVGCGALVEAGDGTAEVKRMFVDPEARGLRIGKLIMDTLVARGAELGLSAIRLETGISQPEAIGLYRKAGFMEIEAFAPYRPDPLSLFMEKVL	PGPT0007180_759	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_METABOLISM,PGPT0007180-iaaT|yedL|ysnE-K03829	NA	NA
BMS010_06092	420			hypothetical protein	ATGAAAACAGCCCTCGTTCTCATGACCTTCCTTGGCTGCGACGACAGCGCCACCGATTGCCATTACCTCGCCACCTCCCAGCAGCGCTGGACGAGCATCGAACTGTGCGACGCCGTGTCGGAAAAGGAGCTGGAGCGTTACGCCAACGCGCCTTACCCCGTGGTGGTGGCCGTGTGCCAGACACCGGGCGAACAGGCTCCGCAGACGGCCGGCACGCAACCTCCCGCCTCGGCGCCGGCCACTGCACCGCAGGCAACGGTGGCTGTTACGCCGAAGGAAGAGGAAAGCCTCACCAGACAGGCAATCAGCCGCGTCAGCCGTATCCTGCCTTCCACCGAAGGCATAAAGCATCTTTTGGGAACGCCGGTGAGGATGGTTGAAAACAGCTATTCGTGGATCGCCAAGCGGTTCGATAAGTAA	MKTALVLMTFLGCDDSATDCHYLATSQQRWTSIELCDAVSEKELERYANAPYPVVVAVCQTPGEQAPQTAGTQPPASAPATAPQATVAVTPKEEESLTRQAISRVSRILPSTEGIKHLLGTPVRMVENSYSWIAKRFDK				NA	NA	NA	NA	NA
BMS010_06093	1191			hypothetical protein	ATGGTGGCGGCGATGATGCCGCCATGCATTGTTGCGAATGTTTTCGAGGCTCAGGTGATCGTACAGGCATTTCTTCGCTGGTCTGAAAAGGCTGGATCGACCGAGCGGGCGAAAGCTGCCAATGCTCTCGGCCGTGCCTATCTTCAGTCCGACATGGCGCGCGAGAACCGCGATGCCGCCTATATGGCGATGACCTATCTGCTCGACGATCCTTCGCCGCGTGTGCGGCTGGCGCTTGCCGAAGCGCTGGCGGATGCCCATGACGCACCGCGCGCCATTCTCGTCTCACTCGCCGAAGACCAGCCGGAAATCGCCTGCACCGTCATTGCACGCTCGCCGGTTCTCGGCGAGGCCGATCTGGTCGATCTCGCCGGGCGTGGAGAAAGCCTGACGCGCGCGCTCATCGCCGCACGACCGGGCCTGCCGCGCGGTGTCTGCGCAGCGCTTGCCGAAGTGGGCGACCTGCCGGAAACCATCATCCTGCTCGAAAACGACGATGCTTTCATCACGCCGTTTTCGCTCAGGCGCATCGCCGAGCGCCATGGTTCGGACGCCGATATTCGCGACCTCCTGCTTCGCCGCGAGGCGCTGCCCGCCGATGCGCGTCACCTGTTGGTGGGCCGCATCAGCGAAGCTCTCGCGGGTTCCGCGCTGGTTCACGCGATGATCGCGCGCAACCGCGCCGACAGTCTTTTCCGCGAGGCGGAAGATTCCGCCACCATCCTTATCGCGGCCAGCGTCTCCTCGCCGGAGCTGCCGGCGCTGGTGGAGCATCTGCGCCAGCGGCTGGAACTGACGCCGGCGCTGCTCATCCATGCCGTCTGTTCGGGCCGGCTGGAATTCTTCACGGCGGCCATGGTCAATCTCTCCGGTCTCGATGACCGCAAGGTGCGCGCCATTCTGGCGACCGGACGGCCGCATGCCTTGAAGGCGCTGTTCCAGTCGGTCGGTCTTTTCGGCGATGTTGTCGACGTCTTTATCGAGGCGACGCTGATGTGGCGCCGTGCCGCCCGCTCGCAGCTTTCTGATGTGGCGGCCTCCGTCTCGGCGGAACTGCTGGCGCATTTCCGTGACGTCAACGGTTCCGAAACGCTGTTCGAACTGCTGCATGCCGTGCGCAAGCTCGCCATCGCCGAAGAGCGGCAGAAGGCGCGGTATTATGCGGAAGCGCTGACGGTCGAGGCGGCGTAG	MVAAMMPPCIVANVFEAQVIVQAFLRWSEKAGSTERAKAANALGRAYLQSDMARENRDAAYMAMTYLLDDPSPRVRLALAEALADAHDAPRAILVSLAEDQPEIACTVIARSPVLGEADLVDLAGRGESLTRALIAARPGLPRGVCAALAEVGDLPETIILLENDDAFITPFSLRRIAERHGSDADIRDLLLRREALPADARHLLVGRISEALAGSALVHAMIARNRADSLFREAEDSATILIAASVSSPELPALVEHLRQRLELTPALLIHAVCSGRLEFFTAAMVNLSGLDDRKVRAILATGRPHALKALFQSVGLFGDVVDVFIEATLMWRRAARSQLSDVAASVSAELLAHFRDVNGSETLFELLHAVRKLAIAEERQKARYYAEALTVEAA				NA	NA	NA	NA	NA
BMS010_06094	612			hypothetical protein	ATGTTCTACACCACGGACACCAACCAGCATGGCCTGCCGCATGATCCGTTCAAGGCCATCGTCGCACCGCGTCCGATCGGCTGGATCGGCTCGAAGGGCAGGGATGGTTCCCTCAACCTCTCGCCCTATTCCTTCTTCAATGCGATTTCGGACCGGCCAAAGCTTGTGATGTTTTCCTCCAGCGGCAGGAAGGACAGCCTGCGCAATGTTGAGGAAACCGGCGTCTTCACCGCTAATCTCGTCAGCCGCCATCTGGTGGAGCGGATGAATGCGTCTTCGGCACCCGTCGGCTATGATGTCGACGAGTTCGCCCTTGCCGGCCTCACCGCCGTTGACGGGCGGGTGGTGGATGCGCCTTTCGTGGGCGAGGCGCTGGCGGTTCTGGAGTGCCGCGTGACCCAGATACAGCAGCTTAAGGACGTGGATGGCCAGCCGGCGGATTCGTGGATGGTGATCGGACAGGTCATGGCGATCCATATCGATGAAACGATCATTCGCGACGGGCGCATCGATATGGGGCTGTCGCGACCCGTGGCGCGCATGGGCTATATGGATTACTGCGATGGCGGCAGCGATGTATTCCAGCTGCAGCGCCCCTCTACTGCGCAGTAA	MFYTTDTNQHGLPHDPFKAIVAPRPIGWIGSKGRDGSLNLSPYSFFNAISDRPKLVMFSSSGRKDSLRNVEETGVFTANLVSRHLVERMNASSAPVGYDVDEFALAGLTAVDGRVVDAPFVGEALAVLECRVTQIQQLKDVDGQPADSWMVIGQVMAIHIDETIIRDGRIDMGLSRPVARMGYMDYCDGGSDVFQLQRPSTAQ				NA	NA	NA	NA	NA
BMS010_06095	582	ydjA_2	COG0778	Putative NAD(P)H nitroreductase YdjA	ATGACAAATGATATCAAGCTCCTCGATTATCTCAAGGTTCGCCGTTCCACGCCCGCCCTGCAACTTGCCGAGCCGGGGCCTTCGAAGGGGCAAATCGAGGACATCCTGCGCCTTGCCGTGCGCGTGCCTGACCATGGCAAGCTCGCCCCCTGGCGTTTCGTCGTCTATCGCGGCGAGGAGCGTGTGCGTCTCGGTGAGACGGCGCTGAGAATCGCGCTTGAAAAGAACCCGGAACTGGACCTGCAGCAGCAGGAAGCGGAACGCACCCGCTTCACCCGCGCGCCCGTCGTTATCGCGGTCATCAGCACCGCAAAGCCGCATTTCAAGATTCCGGAATGGGAACAGGTCATGTCCGCCGGTGCTGTGTGCCTCAACCTCATCTTCGCCGCCAATGCCAGCGGTTTTGCCGCGAACTGGCTGACGGAATGGTTTGCTTTCGATTCCGCATTTCTCGCGGAAATCGAGGTCGGCGCGGAAGAGAAGGTGGCCGGGTTCATTCATATCGGCTCGACGACATTCCCGCCGGTGGAGCGGCCGCGGCCGGAGCTTGCCGATGTCGTCACCTGGGTCGGGGACGTTTGA	MTNDIKLLDYLKVRRSTPALQLAEPGPSKGQIEDILRLAVRVPDHGKLAPWRFVVYRGEERVRLGETALRIALEKNPELDLQQQEAERTRFTRAPVVIAVISTAKPHFKIPEWEQVMSAGAVCLNLIFAANASGFAANWLTEWFAFDSAFLAEIEVGAEEKVAGFIHIGSTTFPPVERPRPELADVVTWVGDV				NA	NA	NA	NA	NA
BMS010_06096	981			hypothetical protein	ATGTCGGCAATCAAAATCGCGGCACGTCTGACCATTGCATGTGCCGTGCTTGGTCTTTTATCGCAAGCCGCTTTTTCACAGGACGCCTTCAAAGACTTCAAGCAGCTCGGCGGCACGCCGAAAATGCCGAAGCTGAACGCTTTCACCGCCCCTTCCGCACCCAACGCCCCGGAAAGCGCCGCCCGCGATATCAACATGGAAGCCAAGCTGACCAGCGAAGGCGAAGCGGTGAAGGAAGGCCTGTCCTGGCGCGTCTTCAGCCCCATTCCCGGCGCGGACGGCAAGTTGCCGATGCTGGCAAGTTCGGAAGGCGGCTCGGCGGAATTCCATCTGGTGCCGGGCGAATATTTCGTCAACGTCGCCTTCGGCCGCGCGGGCGTTACCAAGAAACTCAATGTCCCGACCTCCGGCAATGTGCAGAAACAGGTGCTGATTCTCGATGCTGGCGGCTTCGTGCTGAATGCGGTTGCGGGTTCCGACAAGCAGATTTCCGGCAACCAGCTCAAATTTTCCGTCTATTCGTCAGACGCCCGACCCGATGGCGAACGCGGCCTCGTTATGGCCGATATCAAGCCCAACACCATCGTGCGCCTGAATGCCGGCACCTATCACGTGGTTTCCGAATATGGCAACGTCAACGCGGTGGTGCGCGCCGACATCCAGGTGGAAGCCGGCAAGCTGACGGAAGCGACGCTCCAGCACCAGGCTGCCCAGATCACCCTCAAGCTCGTTTCCGAAGAGGGCGGCGAAGCCATTGCCGATACGGCCTGGTCGGTGCTCAACGGCGGCGGCGATGTGGTGAACGAAAGCGTCAGCGCCTTTTCGACCATGGTGCTGGCGGAAGGCGAATATACCGCCATCGCCCGTAACAAGGACAAGGTGTACCAGCGTAACTTCAAAGTAACCTCCGGCCGGGATTCGGACGTGGAAGTGCTGATGAAGGATCAGGCGCCGGAAGATATGACCGGGGATTTCGAGTAG	MSAIKIAARLTIACAVLGLLSQAAFSQDAFKDFKQLGGTPKMPKLNAFTAPSAPNAPESAARDINMEAKLTSEGEAVKEGLSWRVFSPIPGADGKLPMLASSEGGSAEFHLVPGEYFVNVAFGRAGVTKKLNVPTSGNVQKQVLILDAGGFVLNAVAGSDKQISGNQLKFSVYSSDARPDGERGLVMADIKPNTIVRLNAGTYHVVSEYGNVNAVVRADIQVEAGKLTEATLQHQAAQITLKLVSEEGGEAIADTAWSVLNGGGDVVNESVSAFSTMVLAEGEYTAIARNKDKVYQRNFKVTSGRDSDVEVLMKDQAPEDMTGDFE				NA	NA	NA	NA	NA
BMS010_06097	2004	thrS_1	COG0441	Threonine--tRNA ligase	ATGTCTGAAGCTGTTTCCCTTACATTTCCCGATGGATCCGTGCGCAGCTACCCCGCCGGTACGACCGGCCGCGAGGTCGCCGAATCCATTTCCAAATCGCTTGCCAAGAAGGCTGTCGCCATTGCGCTTGACGGTACCGTGCGCGATTTGTCCGAGACCATCACCGATGGGAAAATCGAGATCGTCACGCGTGAAGACGGTCGTGCGCTGGAACTCATCCGCCACGATGCCGCGCACGTCATGGCTGAAGCCGTGCAGGAGCTTTGGCCCGGCACGCAGGTGACGATCGGCCCTGTCATCGAAAACGGCTTCTATTACGACTTCGCCAAGAACGAACCCTTCACGCCGGAAGATCTGCCGAAGATCGAAAAGCGCATGAAGGAAATCATTCTGCGCAACAAGCCGTTTACCCGCGAGGTCTGGTCGCGCGAGAAGGCCAAGGAAGTGTTCGCCGCCAAGGGCGAGAACTACAAGGTCGAGCTGGTCGACGCCATTCCGGAAGGTCAGGACCTGAAGATCTATTATCAGGGCGACTGGTTCGATCTCTGCCGTGGGCCGCATATGGCCTCCACAGGGCAGATCGGCACGGCCTTCAAGCTGATGAAGGTGGCCGGGGCCTATTGGCGCGGTGACAGCAACAATGCGATGCTGTCGCGCATCTACGGCACCGCCTGGGCGACGCAGGAAGAGCTGGACAATTATCTGCATGTGCTGGCCGAAGCCGAAAAGCGCGACCACCGCCGTCTCGGCCGCGAAATGGACCTGTTCCATTTCCAGGAAGAAGGCCCGGGCGTCGTGTTCTGGCACGGCAAGGGCTGGCGCATGTTCCAGACGCTGACGGCCTATATGCGCCGCCGGCTCGCCAATACCTATCAGGAAGTCAACGCACCGCAGGTGCTGGACAAGTCGCTCTGGGAAACCTCCGGTCACTGGGGCTGGTATCAGGAAAACATGTTCGCGGTGAAATCCGCCCATGCCTTCACCCATCCCGATGACGAGGAAGCCGATCAGCGCGTCTTCGCCTTGAAGCCGATGAACTGCCCCGGTCACGTTCAGATCTTCAAGCATGGCTTGAAGTCTTACCGCGAAATGCCTGTCCGCCTTGCGGAATTCGGCACCGTGCATCGTTACGAGGCTTCAGGCGCTTTGCACGGCCTGATGCGCGTTCGCGGCTTCACGCAGGACGATGCGCACGTCTTCTGCACGGAAGAGCAGATGGCGGCGGAATGCCTGCGCATCAACGACCTCATCCTGTCCGTCTACGAGGATTTCGGTTTCAGCGAAGTCGTCGTCAAGCTCTCCACGCGACCGGAGAAGCGCGTCGGTTCCGACGATCTGTGGGATCGCGCCGAAAGCGTGATGATGGATGTTCTGAAGACCATCGAGGAACAGTCCGAAGGCCGCATCAAGACCGGCATCCTGCCGGGCGAGGGAGCGTTCTACGGGCCGAAGTTCGAATATACGCTGAAGGACGCCATCGGCCGTGAATGGCAATGCGGCACGACGCAGGTGGACTTCAACCTGCCGGAACGTTTTGGTGCCTTCTATATCGACCAGAACTCGGAGAAGACCCAGCCTGTCATGATCCACCGCGCCATCTGCGGCTCGATGGAGCGTTTCCTCGGCATTCTCATCGAGAACTTCGCCGGCCATATGCCGCTGTGGTTTGCGCCGCTTCAGGTCGTGGTTGCGACGATTACCTCGGATGCAGATGATTACGGCCGCGAAGTCGCCGAAGCGCTGCGCGAGGCGGGCATGGCGGTCGAGACCGACTTCCGCAACGAGAAGATCAACTACAAGATCCGCGAGCATTCGGTGACCAAGGTTCCGGTCATCATCGTCTGCGGACGGAAAGAGGCGGAAGAGCGCACCGTCAACATCCGCCGTCTCGGTTCGCAGAACCAGACGCCGATGTCGCTGGAAGATGCGATTACGAGCCTCGTGGACGAGGCGACGCCGCCGGATGTGAAGCGCAAGCTTGCAGCGAAAAAGCAGGTTGCCTGA	MSEAVSLTFPDGSVRSYPAGTTGREVAESISKSLAKKAVAIALDGTVRDLSETITDGKIEIVTREDGRALELIRHDAAHVMAEAVQELWPGTQVTIGPVIENGFYYDFAKNEPFTPEDLPKIEKRMKEIILRNKPFTREVWSREKAKEVFAAKGENYKVELVDAIPEGQDLKIYYQGDWFDLCRGPHMASTGQIGTAFKLMKVAGAYWRGDSNNAMLSRIYGTAWATQEELDNYLHVLAEAEKRDHRRLGREMDLFHFQEEGPGVVFWHGKGWRMFQTLTAYMRRRLANTYQEVNAPQVLDKSLWETSGHWGWYQENMFAVKSAHAFTHPDDEEADQRVFALKPMNCPGHVQIFKHGLKSYREMPVRLAEFGTVHRYEASGALHGLMRVRGFTQDDAHVFCTEEQMAAECLRINDLILSVYEDFGFSEVVVKLSTRPEKRVGSDDLWDRAESVMMDVLKTIEEQSEGRIKTGILPGEGAFYGPKFEYTLKDAIGREWQCGTTQVDFNLPERFGAFYIDQNSEKTQPVMIHRAICGSMERFLGILIENFAGHMPLWFAPLQVVVATITSDADDYGREVAEALREAGMAVETDFRNEKINYKIREHSVTKVPVIIVCGRKEAEERTVNIRRLGSQNQTPMSLEDAITSLVDEATPPDVKRKLAAKKQVA				NA	NA	NA	NA	NA
BMS010_06098	525			hypothetical protein	ATGAATGACTATGTGGCCCTGCTGCACAGCATCGTGCTCGGCGCGGGCAAGCGGCTCGTCATGGCCGATCTGCGGGCATTGGCGGAAGAGCTGGGATTTGCCGAATGCAGAACGCTGGTCGCGACTGGAAATCTGGTTTTTCGCGCCGGGGCGACACCTGTTCGTGAGATTGAGGACAGGCTGGAGCGCGCCTTCGAAGACCGCTTCGGCAAACATGTCGATATTCTCGTTCGTTCGGGCGGCAACTGGCTGAAACTGGCGGCGGACAATCCCTTTGCCCAGGGCAATCCGCCGGATGTCTGCGTTCGGGTGATGCGCGCGCCGCTGGACAACGGCGTCCTCGAATTGCTGGAGAAATACCGCGGGAGGGAAAAGATCGCTCTTGCCGGCGGCGATTTGTGGATCGATTTTTGCGGCAAGCCGAGCGAGAGCAGGCTGCTGTCCGTGCTGACCACCAAAAGGCTCGGTATCGGCACGACCCGCAACGCCAATACGGTCAATGGTCTCGCGCAAATGCTTCGCTGA	MNDYVALLHSIVLGAGKRLVMADLRALAEELGFAECRTLVATGNLVFRAGATPVREIEDRLERAFEDRFGKHVDILVRSGGNWLKLAADNPFAQGNPPDVCVRVMRAPLDNGVLELLEKYRGREKIALAGGDLWIDFCGKPSESRLLSVLTTKRLGIGTTRNANTVNGLAQMLR				NA	NA	NA	NA	NA
BMS010_06099	447			hypothetical protein	ATGGATGACATCTACAATAACCGCATTCTGGACTTTGCCGGCAATATCCCGCTGATCGGCGTTCTTGAGGATGCCGACGCCAGCGCCGAGAAACACTCCCGGCTGTGCGGCTCTAAGCTCAAGGTCTATCTGAAGGTCGAAGGCGGCATCGTGACCGGATTTTCGCACGAGGTTCGTGCCTGCGCGCTCGGCCAGGCCTCCGCCTCCATCATGGCGCATCACGTTGTCGGCGCTTCCAGCTCTGAAATCCGCCAGGCGCGGGAAGATATGCTGGCCATGCTGAAACAGGACGGTGAGGGGCCGGCGGGCCGTTTCGAAGACATGCGGGTGCTTCAGCCCGTCCGCGATTTCAAGGCGCGCCACGCCTCTACCATGCTGACCTTCGAAGCGGTGGTCGATGCGCTCGACCAGATCGAGGGGCGGCCGGCTCTCAACGCCGCGGGTTAG	MDDIYNNRILDFAGNIPLIGVLEDADASAEKHSRLCGSKLKVYLKVEGGIVTGFSHEVRACALGQASASIMAHHVVGASSSEIRQAREDMLAMLKQDGEGPAGRFEDMRVLQPVRDFKARHASTMLTFEAVVDALDQIEGRPALNAAG				NA	NA	NA	NA	NA
BMS010_06100	627	folE_2	COG0302	GTP cyclohydrolase 1	ATGGATGCGATCGTGAAGAATTTCCCCGGCGCTGGCGCAAAACCCGACGTGGCAGAAGCTCGCCCAAGCCAGGCCGAAGCGGAAGAAGCAGTGCGCGTTCTTCTGCGCTGGGCAGGAGAAAATCCCGCCCGCGAAGGACTTCTGGATACGCCGAAGCGCGTCGCCAAGGCCTATCGCGAGCTTTTTGCCGGTTATGAGCTGAACGTTCAGGACGTGCTCGGCACGACCTTCGAGGAAGTCGGCGGTTATGACGATGTTGTGCTGGTGCGCGACATCCCGTTCTTCTCCCATTGCGAACACCATATGGTGCCTATCGTCGGCAAGGCGCATGTCGCCTATCTTCCGGCCGGCCGCGTGCTCGGCCTGTCGAAGATCGCCCGCGTCGTCGAAATCTTCGGCCGCCGCCTGCAGACGCAGGAAAACATGACCGCGCAGATCGCCAGATCGATTGAGGAAACCCTGAAACCGCGCGGCGTGGCCGTCATGATCGACGCCGAACATATGTGCATGTCCATGCGCGGCGTAAACAAGCAGGGCTCCACGACGCTCACCACCAGCTTCACCGGCACGTTCAAGAACGATCCGGCCGAACAGGTGCGCTTCATGACCATGGTGCGGAACCGCTAA	MDAIVKNFPGAGAKPDVAEARPSQAEAEEAVRVLLRWAGENPAREGLLDTPKRVAKAYRELFAGYELNVQDVLGTTFEEVGGYDDVVLVRDIPFFSHCEHHMVPIVGKAHVAYLPAGRVLGLSKIARVVEIFGRRLQTQENMTAQIARSIEETLKPRGVAVMIDAEHMCMSMRGVNKQGSTTLTTSFTGTFKNDPAEQVRFMTMVRNR	PGPT0007875_2366	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007875-folE-K01495	NA	NA
BMS010_06101	453	hisI_2		Phosphoribosyl-AMP cyclohydrolase	ATGTCCATTTCGTTTCCGTCCGCACCTGCGGACAAGGAAGTGCTCGAAAACGCAGGTCTTTTTTCGCCGAAATTCGATGCCCACGGCCTCGTCACCGCCGTGGTCACCGATGCCCGTGACGGCGAGTTGCTGATGGTCGCCCATATGAATGCGCAAGCCCTGTCGCTGACGCTGGAGACCGGCATCGCCCACTATTACAGCCGTTCGCGCGACAAAATCTGGAAGAAGGGCGAAACATCGGGCAATCTGCAGACGGTGAAGGAATTCCGCACCGATTGCGATCAGGACGCCGTGTGGCTGAAGGTCTCCGTCGCCGGCCATGACGCGACCTGCCATACCGGCCGCCGCTCGTGCTTTTATCGCACTGTCGAGCTCTCCAACGGCGATGCGGTGACGAAGATCACCGACGACACACGCCATTTCGATCCGGCCACAACCTATTCGGACACATAA	MSISFPSAPADKEVLENAGLFSPKFDAHGLVTAVVTDARDGELLMVAHMNAQALSLTLETGIAHYYSRSRDKIWKKGETSGNLQTVKEFRTDCDQDAVWLKVSVAGHDATCHTGRRSCFYRTVELSNGDAVTKITDDTRHFDPATTYSDT				NA	NA	NA	NA	NA
BMS010_06102	942		COG1752	putative NTE family protein	ATGTTGGGATGGGGAAATCGTCACAATCAACTTGCGGCTGGAAATCCCGAAGCCACCGGCAATGAGCCGCCCGTCACCCAGATCGTCGACAAACACCGGATAGCGCTGGCGCTTGGCGGCGGCGCAGCTCGCGGCTGGGCCCATATAGGCGTCCTGCGGGCACTGGACGAGGCTGGCGTGAAGATCGGCATGATCGCGGGTACGTCGATCGGCGCGCTGGTCGGCGGTTGTTATCTCGCCGGCAAGCTCGATGAGCTAGAGGAGTTCGCCCGTTCGCTGACGATGCGCCGCATTGCCGGCCTGCTCGATCTCACCATCGGCGGCGGCGGGCTCTTCGGCGGCATGCGGCTGACCAAACGCATGCAGGAACATCTGGAAGGCCTGCGCGTCGAAAACCTCGACCATCCCTTCATCGCCGTCGCGACGGAACTGCGCACCGGCCACGAGGTCTGGATTCACCAGGGCGATCTCGTCACCGCGCTGCGCTCTTCCTATGCGCTGCCGGGCATTTTCGAACCCGTGCAGTGCAACGGCCGCACCCTGATAGACGGCGCGCTCGTCAACCCCGTGCCGGTTTCGGTCTGCCGAGCCTATGAGCAGGCGCTGGTCGTCGCCGTCAATCTGAATTACGACCTTTTCGGCCGTTCCGCCGTGGTCAAGCACGCCGCCTCGCCATCGCATGGCGGCGCAGCACCGGCGGTGGAAAGCCCGCCGCGTCCCGGCCTGCCAGGCGTCATGGTGCAGGCGTTTAACATTATTCAGGACCGGATTTCGCGCTCGCGCCTGGCGGGCGATCCTCCCGACCTGATGATGCATCCCCGCATCAACGATATCGGCCTCTCGGAATTCCATCGCGCCAGCGAAGCCATCGACCGGGGATATGAGGAGACGCGGTCGCGTATTCCGGAGCTTGAACGCATGCAGCAGGCGTTCCGGCGCTAG	MLGWGNRHNQLAAGNPEATGNEPPVTQIVDKHRIALALGGGAARGWAHIGVLRALDEAGVKIGMIAGTSIGALVGGCYLAGKLDELEEFARSLTMRRIAGLLDLTIGGGGLFGGMRLTKRMQEHLEGLRVENLDHPFIAVATELRTGHEVWIHQGDLVTALRSSYALPGIFEPVQCNGRTLIDGALVNPVPVSVCRAYEQALVVAVNLNYDLFGRSAVVKHAASPSHGGAAPAVESPPRPGLPGVMVQAFNIIQDRISRSRLAGDPPDLMMHPRINDIGLSEFHRASEAIDRGYEETRSRIPELERMQQAFRR				NA	NA	NA	NA	NA
BMS010_06103	435	IMPDH_2		Inosine-5'-monophosphate dehydrogenase	ATGCCAACATTCGTAAAGGATCTTCTCGACCGCAAGGGCCGGGACGTCGTGACTGTCAATCCTGAGGTCAGCATCGGTGAGGCGGCGGGAACGCTGCACGCGCATAAGATCGGTTCCGTCGTCGTGACCGACGCCGATGGCGTCGTTCTCGGCATCTTCACGGAGCGCGATCTCGTAAAGGCCGTGGCGGGCCAGGGTGCCGCTTCCCTCCAGCAATCCGTGTCGGTGGCCATGACCAAGAATGTCATACGCTGTCATCACAATTCCACCACCGATGAACTGATGGAAATCATGACGGGCGGACGCTTCAGGCATGTGCCGGTTGAAGAGAATGGCCGCCTTGCCGGCATCATTTCCATCGGTGACGTGGTGAAGGCGCGGATTGGCGAGATCGAAGCCGAAGCGGAGCATATCAAGGCTTATATTGCCGGGTGA	MPTFVKDLLDRKGRDVVTVNPEVSIGEAAGTLHAHKIGSVVVTDADGVVLGIFTERDLVKAVAGQGAASLQQSVSVAMTKNVIRCHHNSTTDELMEIMTGGRFRHVPVEENGRLAGIISIGDVVKARIGEIEAEAEHIKAYIAG				NA	NA	NA	NA	NA
BMS010_06104	738	glpG_1		Rhomboid protease GlpG	ATGTCCTATGGGGACGGCGAACAGCCGCCGGTTTCGGAAACGCCGGAGCCGAAAGACGACACGAACAATCCCGTCTTCAACCTGCCATCGCTGCTGGTCGGCATTCTGGCCGCGCTGATCGTCGCTTATGTCATTCCCGCCTATATTCTGTCAGAGGAAGGCAATGGCTGGTTCATCTTCACCTTCGGCTTCATTCCGCTGCGTTATGCGGTGCCGTTTTCCCAGCAGGGGCTGGAATGGCTCTGGACGCCGGTGACCTATTCTTTCCTGCATGGCGGCATCGAGCACATTCTCTTTAACGGACTGTGGCTGATGGCCTTCGGCGCGCCGGTTCTGCGCCGGATCGGAACAGTGCGCTTCGTGCTGTTATGGTGCATTTCCGCCGCCGTTTCCGCCTTCGGCCATGCGGCGCTGAACTGGGGCGATGTGACGGTGCTGATCGGGGCGTCGGGTGTCGTTTCGGCGCTGATGGGGGCAGCCTGCCGCTTCGCTTTCCCGGCACGTGGTGGATATAGCGCCTCCTTCGGCCATCTGATGCCGCGACAGAGCATTCTTGGGGCGCTTTCCAACCGCACCGTGCTTATCTTCACGCTGATGTGGCTGTTCGGCAATGTGCTGATCGCGGTCGGCGTGCCGCTGTTCGGCGATGTCGGCGGTGAAATCGCCTGGGACGCGCATGTCTTCGGCTTTCTGCTCGGCTTCCTGTTCTTCGGGCTTTTCGATCGACGACTGGCCTGA	MSYGDGEQPPVSETPEPKDDTNNPVFNLPSLLVGILAALIVAYVIPAYILSEEGNGWFIFTFGFIPLRYAVPFSQQGLEWLWTPVTYSFLHGGIEHILFNGLWLMAFGAPVLRRIGTVRFVLLWCISAAVSAFGHAALNWGDVTVLIGASGVVSALMGAACRFAFPARGGYSASFGHLMPRQSILGALSNRTVLIFTLMWLFGNVLIAVGVPLFGDVGGEIAWDAHVFGFLLGFLFFGLFDRRLA				NA	NA	NA	NA	NA
BMS010_06105	558			hypothetical protein	ATGAAGAGCATGGCCGGACTGGATATATATGCCTATTGGGATGAACTGCGCGGCAAGCGATCGGCCCCGCGACGCGAGGACCTCGATCCAGCAAAGCTGAAACATCACCTTGGCGATCTTTTCATCCTTACGGACAAGGGAGAGAACACGCCGTTCTTCCGCCTTGCCGGTACTCGTCTTTGCGACCTGTTCGGCCGGGAATTGCGGGATCGCCCGTTTTCGGAATTGTGGCAGCCGGCAAATGCCGTCTTCCCCTGCCGCGTCGCGCGCGGCATCCTGCACCACCAGTTACCCGTGGTCTTCGATGTCGAGGCGGAGGACGGCCATGGCGCCGCACCGCTGGCATTCGAAATGCTGCTCCTGCCGCTTCGCACCGATCCCGACGCCGCCCCAAGGTTGCTCGGGGCGCTGCTTGCAGAGCGGCCAAGACACGAATTCGCCGCGCCAATCCAGTGCCTGTCCATGAAAAGCAGCCGCCTGCTACGCCTGGACATCGCCCCGGCAGGGTTTCCGGTGAACAAGGGGGCCGAGGATACACCGCGCGCCGAAAGCTGCTGA	MKSMAGLDIYAYWDELRGKRSAPRREDLDPAKLKHHLGDLFILTDKGENTPFFRLAGTRLCDLFGRELRDRPFSELWQPANAVFPCRVARGILHHQLPVVFDVEAEDGHGAAPLAFEMLLLPLRTDPDAAPRLLGALLAERPRHEFAAPIQCLSMKSSRLLRLDIAPAGFPVNKGAEDTPRAESC				NA	NA	NA	NA	NA
BMS010_06106	618			hypothetical protein	ATGTTTTCGTCCCGCTCGGTCAACACCGCCCAAATCCTGCGTCCGGTTGAGGAAGCTCATCTCGATGACGCCGTCCGTGTGTCCTTCACCGGCCGCCTGATGTTGCCCGACCATGAAGAATATGATTGCACCGCGACCGAGATGACCGCCGAAAGGGCGCAGTTCACCTGCTCGGGCATTGCCCGCCGCGGTGACCGCGTCATCGCCTATCTCCAGCATATCGGCCGGATCGAAGGCACGGTGACATCGCTCACCGCATCGGGCTTCCTCATCGCCATCAACGCGCCGGAGCGCAAGCGGGAAAAACTCACAGCGCAGCTCGCCTGGATCGCCAAGCGTCAATTGCTCGGCCTGCCGGAAGACCGCCGCCACGACCGCCTGACACCTCGCAATGCGAGAGCCCAGCTCGTTCTGGAAGATGGCGTGCTCGTCGCCTGCCGGCTGATCGACCTTTCCCTGTCGGGTGCGGCAATCGAGATCGAAAACCGGCCGCCACTCGGAAGCCGGGTCCAGCTCGGCAAGAACATGAGCGGCAAGATCGTGCGCCACTTCATGGAAGGCGTCGCCGTGGAATTCGACCGCGTCCAGTCACCCGACGCACTGATCGAATTTCTCTAA	MFSSRSVNTAQILRPVEEAHLDDAVRVSFTGRLMLPDHEEYDCTATEMTAERAQFTCSGIARRGDRVIAYLQHIGRIEGTVTSLTASGFLIAINAPERKREKLTAQLAWIAKRQLLGLPEDRRHDRLTPRNARAQLVLEDGVLVACRLIDLSLSGAAIEIENRPPLGSRVQLGKNMSGKIVRHFMEGVAVEFDRVQSPDALIEFL				NA	NA	NA	NA	NA
BMS010_06107	609			hypothetical protein	ATGAACAAGAACAACCGTTTCGTTTTCACTCTGATCGCATTCATCGTCAGCGCCTTCGCGCATCAGGCAAGCGCCTCGCCGGCCGCCGTCATGCGCGTCATCGGCAAGGCCAACCCGCCGATCGGCCACTATGAATTCTGCCAGACCTATCAGAGCGAATGCCAGCCGACCTCGCTGGACAACGGCCCGATGAAGCTGACCGAAGAGCGCTGGAAGACGATGCTCGACGTCAACTACACCGTCAACACCACCATCACGCCGATGACCGACATGGAAATCTATGGCGTCGAAGAACGCTGGGCCTATCCCACCACGGTCGGCGATTGCGAAGACTTCGTGCTCCTGAAGCGCAAGATGCTGATGAACAAGGGCTTCTCCGCCTCCAACCTGTTGATCACCGTGGTTCTGCAGCCGAATGGCGAAGGCCACGCCGTTCTGACCGTCCGCACCGATCGTGGCGATTTCGTTCTCGACAACATGCGCAACAAGGTCATGAACTGGTCTGAAACCGAATATACCTACCTGAAGCGCCAGGACACCGCCAATCCCGGCCGCTGGGTGAAAATTCAGGATGGCCGCGCCACCACTGCGGTCGGCGGCATCAACTGA	MNKNNRFVFTLIAFIVSAFAHQASASPAAVMRVIGKANPPIGHYEFCQTYQSECQPTSLDNGPMKLTEERWKTMLDVNYTVNTTITPMTDMEIYGVEERWAYPTTVGDCEDFVLLKRKMLMNKGFSASNLLITVVLQPNGEGHAVLTVRTDRGDFVLDNMRNKVMNWSETEYTYLKRQDTANPGRWVKIQDGRATTAVGGIN				NA	NA	NA	NA	NA
BMS010_06108	435			hypothetical protein	ATGCCTTTACATCTCATCAAACTTTGCGTCGGTGCGGATTCAATCCAGGACTTGAGAGACTGGGTCGCGCATCGTGCGCTCACCGCAATAGCCGCAGGCCTCGAGCCGCACAGCGTCCACACAACCCGGATGATCCCGAAACGTGTCGAGGAATTGCTCGAGGGCGGTTCGCTCTACTGGGTCATCAAGGGGCAGGTGCAGGCGCGGCAGAAACTTCTCGATATCCGCTCCTTCAAGGGCGAAGACGGTATTTCCCGCTGCGATCTCATTCTCGGCCCGGAGGTTATCGAAACCTCACCTGCGCCGAAGCGCCCGTTTCAGGGCTGGCGTTACCTGAAGGACGACGAGGCGCCCCGCGATCTCGGGGGCTGCACGGGCGGGGAGGACATGCCTTCCGATCTCAGGCGAGAGCTGGCGGAGCTTGGGCTGCTCTGA	MPLHLIKLCVGADSIQDLRDWVAHRALTAIAAGLEPHSVHTTRMIPKRVEELLEGGSLYWVIKGQVQARQKLLDIRSFKGEDGISRCDLILGPEVIETSPAPKRPFQGWRYLKDDEAPRDLGGCTGGEDMPSDLRRELAELGLL				NA	NA	NA	NA	NA
BMS010_06109	1404	sdaB_1	COG1760	L-serine dehydratase 2	ATGTTTCTTTCGGTCTTTGACGTCTTCAAGATCGGTATCGGTCCTTCGAGCTCCCATACGATGGGGCCGATGACGGCAGCCAACCGCTTTCTGGCGCTGATCCTTAGCGATGAGTGGCCACGGCCGGCAGGCGCGGCCGTTGCGCAGCTGAAGGTCAGCCTGCATGGCTCGCTCGCCTTTACCGGCATCGGGCACGGCACCGGGCGTGCCGTCATTCTCGGCCTCACCGGCGAACGGCCGGATATTGTCGACCCCGATGCGATGGACGCCATCATCGAGACGGTGGAAAAGGCTGGCACCGTGACGCCGCCCGACCATCCGTCCTATGTGTTCCGCCCGGCCGAAGATCTGGTCTTCGACAAAAAGAACCCGCTGCCCGGCCATGCCAACGGCATGATCTTTTCCGCCTTCGACAATCAGGGCAGGCTGCTCATCAAGCGCATCTATTATTCCGTTGGCGGCGGTTTCGTCGTGACCGATACGGAGCTCGAGGCGATCAAGCAGCGTGGCAAGACAATCGATAACGGTCCGCGCGTGCCTTATCCCTTCGCCACCGCGCGGGAAATGCTGGATATGGCGGCCCGTTCCGGCCGCACCATCGCCCAGATGAAGCGGGCCAACGAGGAGACGGTGGTTTCCCGCGAGGAGCTGAACGAGCGTCTCGACCAGATCTGGGAAGCGATGAACGGCTGCATCGAGCGCGGGCTGAAGGTGGACGGCATCATGCCTGGCGGTCTGAAGGTGCGCCGCCGCGCCCGCTCCATTTACGAGAAGCTGAATGCGGAATGGCGCAGCAACCGGCTGAACCCGGTCATGGCCAATGACTGGCTGAGCGTCTACGCCATGGCGGTGAACGAGGAGAACGCCGCCGGCGGCCGCGTGGTGACTGCGCCGACCAACGGTGCGGCGGGCGTCGTTCCTGCCACCGTCAGATATTTCCGGCATTTCCATGAGGATGCGAGCGTCGATGACGTGCGCGACTTTTTGCTGACGGCGGCCGCCATCGGCGGCATCATCAAGCACAATGCCTCGATTTCAGGCGCGGAAGTGGGCTGTCAGGGCGAGGTGGGCTCGGCTTCCGCCATGGCGGCGGCAGGCCTTGCCGCGGTCATGGGCGGATCCCCGGAACAGGTGGAAAATGCCGCCGAGATCGCGCTCGAGCATCATCTCGGCATGACCTGCGATCCGATTGCCGGGCTTGTGCAGGTGCCGTGCATCGAACGTAATGCCATGGGCGCGGTGAAAGCGGTGACGGCGGCCTCGCTGGCGCTGAAGGGCGACGGCCAGCATTTCGTGCCGCTCGACGCCTGTATCGAGACCATGCGCCAGACCGGCAACGACATGAGCGAGAAATACAAGGAAACCTCCACCGGCGGCCTTGCCGTGAACGTTGTGGAGTGCTGA	MFLSVFDVFKIGIGPSSSHTMGPMTAANRFLALILSDEWPRPAGAAVAQLKVSLHGSLAFTGIGHGTGRAVILGLTGERPDIVDPDAMDAIIETVEKAGTVTPPDHPSYVFRPAEDLVFDKKNPLPGHANGMIFSAFDNQGRLLIKRIYYSVGGGFVVTDTELEAIKQRGKTIDNGPRVPYPFATAREMLDMAARSGRTIAQMKRANEETVVSREELNERLDQIWEAMNGCIERGLKVDGIMPGGLKVRRRARSIYEKLNAEWRSNRLNPVMANDWLSVYAMAVNEENAAGGRVVTAPTNGAAGVVPATVRYFRHFHEDASVDDVRDFLLTAAAIGGIIKHNASISGAEVGCQGEVGSASAMAAAGLAAVMGGSPEQVENAAEIALEHHLGMTCDPIAGLVQVPCIERNAMGAVKAVTAASLALKGDGQHFVPLDACIETMRQTGNDMSEKYKETSTGGLAVNVVEC	PGPT0001975_663	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001975-sdaA|sdaB|tdcG-K01752	NA	NA
BMS010_06110	351			hypothetical protein	ATGCAGCAGGCATCCTCCTTCCCCGATCGCGAAACGGTCGCATCGAAACTCACTTCGCTTGCAAGCGAGGATAAAGCCTGGGTGCTGCTGTTGATGGAAAATGCCCTGCAGGACGAGAACCTGCTGGCTGGCCTCAGTCTTTATCTCGACCAGCAGACCAATGCCCGCTTCCTCAACAGCCTGAAGCTGGAAACGACCGGCGAATGGCTTGGCGGCAATGCCCCTGCCCGGCTGCAGATCCGCATCATGGAAACCGCAAGGGCGAGCCAGCACCCCGCCTTTCTCGCCTTCCGCAAGGGACTGACGGCATCGGCCGGTCTCGAAAAAGCCTATCCCAAGGCGCCGATCTGA	MQQASSFPDRETVASKLTSLASEDKAWVLLLMENALQDENLLAGLSLYLDQQTNARFLNSLKLETTGEWLGGNAPARLQIRIMETARASQHPAFLAFRKGLTASAGLEKAYPKAPI				NA	NA	NA	NA	NA
BMS010_06111	795			hypothetical protein	ATGTGCCCGCACGAGAATCACGGGGCGGGCATGAACGGATCGATGAAAAGACTGGCCAAGCTGCTGTTGCCTTTGCTGTTGCCATTTTCGGCTCAGGCCGGCGGGCAGGCGGATTTCTGCAGGATCATGGACCATGCCGGTGGTCGTTATACCGTCTGCAGTTTCGACCCGGCAAAAAGCACCATCCGGATATACGACCGCGATCATGTCTCCGGCCAGGGATATGGCTCCTTCGCCGCTCTCTCGTCGGCGCTGTGGCGGCAGCACATGTTCAGCGTCTTTGCCATGAATGGCGGCATGTACCATTCGGACTATTCCCCCGTCGGGCTCTTTATCGAAAATGGCATCGAACGCTCGCCGATCAGCACCGGCGGCGGCTGGGGCAATTTTCATCTTCTGCCCAATGGCGTGTTTTATCTGAAGGGGGCGGCGGCCGGCGTGCTGGAAACGCAGGCCTATCTGGCAGCGGATCCCAAGCCGGACTTCGCCACCCAATCCGGGCCGATGCTCGTCATCGATGGCAAGCTGCATCCGCGCTTTCTGCCCGATAGCGACAGCCTGAAGCGGCGCAACGGCGTTGGCGTTTCCCGCGATGGCATGGTGCATTTCGCCATATCGGAAAATACCGTGCGCTTTTACGATTTCGCCACGTTGTTCAGGGATGTGCTGGACGCGCCGAATGCGCTCTATCTCGACGGCACCATATCCAGCGTCGATATTCCCGCAATGAAAAGGCGGGACTCGCTGTTCCTGATGGGGCCGATCATCGCTGTTGTCGACAGGGTGCCGGATTAG	MCPHENHGAGMNGSMKRLAKLLLPLLLPFSAQAGGQADFCRIMDHAGGRYTVCSFDPAKSTIRIYDRDHVSGQGYGSFAALSSALWRQHMFSVFAMNGGMYHSDYSPVGLFIENGIERSPISTGGGWGNFHLLPNGVFYLKGAAAGVLETQAYLAADPKPDFATQSGPMLVIDGKLHPRFLPDSDSLKRRNGVGVSRDGMVHFAISENTVRFYDFATLFRDVLDAPNALYLDGTISSVDIPAMKRRDSLFLMGPIIAVVDRVPD				NA	NA	NA	NA	NA
BMS010_06112	162			hypothetical protein	ATGATCACACGCATTCTTTCGACCGTTTTCGTGGCTTTGTTGACCGTTGTCACCCTGAGCTCCTGTGGTAACACCATTCGCGGCATGGGTCGTGACACGGCGAACGCCGTCGACGCGACGCAGGATGCCGGCCGCAATGTGGACCGCGCCGCCCGTCGCTGA	MITRILSTVFVALLTVVTLSSCGNTIRGMGRDTANAVDATQDAGRNVDRAARR	PGPT0027295_32	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-EcnB-EcnA_TOXIN-ANTITOXIN_SYSTEM,PGPT0027295-toxin_ecnB-K16348	NA	NA
BMS010_06113	786	fmt_4		Methionyl-tRNA formyltransferase	GTGGGTGATATGACTGACATCAACAATCGGCTTCTGGTGATGACGGCGGGCGGGGTGAACCCCAATGTCATGATCAATGCGCTGGCGGCCCGATTTCCCGACATCCATGTTTTCATGGAGCAGCCGGAAAGCAAGTCGGTCATTCTCAGGCGGCGCGCGCGACGGCTCGGCTGGATTGTCGCTGCGGGCCAGATGGCGACGATGATCGCCTCGCGGCTCGGCAAACGCTTCACTGTTAGCAGAAGCGATGCGATCATCGCCGAATACGGCCTTTCTCCCGATCTCCATCACAGCCTCCCCGTCACCCAATTCGCCTCGCTCAACGATGAGGAATGCCGCAAGGCCGCCAATCTGCTTAAACCGGCGGCAATCTTCACCATTTCCTGCCGCCTGCTGACGCCGACCACGCTTCAGGCCCTGCAATGCCCGGTCATCAATTTCCACGCTGGCATCAATCCTGCCTATCGCGGGCAGATGGGCGGATACTGGGCGCTGGTGGAAAAAGACCGCGGCAATTTCGGCGCAACCGTGCATCTGGTCGACAAGGGCGTGGATACCGGCGCCACGCTCTACGAGAAGCGGCTGAAACCATCCCCTTCCGACACGATTGCCACCTATCCCCTGCTTTTGACCGCCGCTTCGGTGGATATCGCCATCAGCGCCATCGAGGACGCCCTTTCCGGCAGCCTTGCGCCGCAGCCGCCCTCACCCGGCAAATCGGTACTGCGCTTCCCGCCGACTATCTGGACATGGCTTTGGAACGGCCTGACGAAACGGATCTGGTGA	MGDMTDINNRLLVMTAGGVNPNVMINALAARFPDIHVFMEQPESKSVILRRRARRLGWIVAAGQMATMIASRLGKRFTVSRSDAIIAEYGLSPDLHHSLPVTQFASLNDEECRKAANLLKPAAIFTISCRLLTPTTLQALQCPVINFHAGINPAYRGQMGGYWALVEKDRGNFGATVHLVDKGVDTGATLYEKRLKPSPSDTIATYPLLLTAASVDIAISAIEDALSGSLAPQPPSPGKSVLRFPPTIWTWLWNGLTKRIW				NA	NA	NA	NA	NA
BMS010_06114	894			hypothetical protein	TTGCCCGATATCTCCACCGCTTCCATCATTCCCGCCTCCATCGAAGCCTCGCCCGCGCAGGTGCTTGGCTCCACCGACCTTGCCGGTCTCTTTCCGCAGGGTGTGCGCGTCTATCTCACTGACACTGGAGCGGCCTCGCAGGAAAGGCTCGTTGAAGCCGCAGGACATTTGCGCGACCTCGGTTATGAGCCGGTGCCGCATCTTGCAGCGCGGCGCATCCCCTCCCGCGCAGCGTTTGAGGAACAGGTAAAACGGCTTGCCGGAGAAGCGGGCGTAACCGATGTTCTGGTTGTCGGCGGCGGCGTCGACCGCCCGGCCGGTCCCTTCGCATCCAGCATGGACATGCTGTCCACCGGCATTTTCGACCGTTGCGGCATAAGGCAGATCGCCATCGCTGGCCACCCGGAAGGCAGCCCGGATTTCAACGACGAAACGGCGATGGCCGCACTCAGGCTGAAACGCGATTTTGCCGAAAGAAGCGATGCCGTTATGCGCATCGTCACCCAGTTCGGTTTCGATCCCGCGCGTTTCATCGCCTGGGCGGAAGGGTTAGCGGCGTCAGGCATCGAGCTTCCGGTGCATATCGGCGTTTCCGGCCCGGCCAAGATCACGACGCTTCTGAAATATGCAGCGCTTTGCGGCGTCGGCAATTCCATCGCCTATCTCAAGAAAAATGCGCTTTCGCTGACGACGCTTGCCAAAGGCCATTCACCGGAAAGCATCGTCGGGCCGATCGAGCGGCACTGGCAGGCCAATCCGCTGGGGCCGATCCGGCAAATTCACGTCTTCCCCTTCGGCGGATTGCAGAATTCGGCCGACTGGCTGGTCAAGCGTGGAAGCTGGCAAACCGGCGCGGTGGACCGTTCGGCATCGCCGGATTCGATGACCGGCTAA	MPDISTASIIPASIEASPAQVLGSTDLAGLFPQGVRVYLTDTGAASQERLVEAAGHLRDLGYEPVPHLAARRIPSRAAFEEQVKRLAGEAGVTDVLVVGGGVDRPAGPFASSMDMLSTGIFDRCGIRQIAIAGHPEGSPDFNDETAMAALRLKRDFAERSDAVMRIVTQFGFDPARFIAWAEGLAASGIELPVHIGVSGPAKITTLLKYAALCGVGNSIAYLKKNALSLTTLAKGHSPESIVGPIERHWQANPLGPIRQIHVFPFGGLQNSADWLVKRGSWQTGAVDRSASPDSMTG	PGPT0008160_1397	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008160-metF-K00297	NA	NA
BMS010_06115	897	cysL_3	COG0583	HTH-type transcriptional regulator CysL	ATGACCGTGACTTTCCGCCAACCGCTGCCGTTGCTGGATAACGACATATTGAGAACCTTCGTCGCCATCGCGGAAACGGGAAATTTCTCCACCGCCGCGGAAGTGGTGTTCAGAACACCGTCTGCGGTTTCCATGCAGATCAAGAAGCTCGAAGAGCAGTTGAAAACGACGCTTTTCCTGCGCGATGCCCGTTCGGTGACATTGACGGCGCATGGGGAGACGCTTTTGACCTATGCGCGGCGCATGATTGCGCTGTCCAACGAGGCCGTGTCACGTTTCGTCATGCCGGAGCTTTCCGGCGTCGTCCGTCTCGGCGCACCGGAGGATATTGGCGAGCGTGGCCTGCTGCCGGGCATTCTCAAGCGTTTTGCCGAGGCTTTCCCCGGCATCATGATCGACGTCACCATCGATTCCAGCTCCAATCTCTATAAGCGCATGGATGAGCAGAGGCTCGATCTTGCCCTCGTCAACTGTGCCTCCCATCCCCTTCGGGATACGGGCGAGGTGCTGATGCGCGAGCGTCTGGTCTGGGCGGGTGCAAAGTGTGGCACGGCCTATCTGCGCGATCCGCTGCCAATCTCCATCTGGGAAGAGGGTTGCATCTGGCGTTCGGAAGCGATCCATTCGCTGGAAAAGCGCGGCCGTAATTTCCGCGTGGCCTATCTCAGCGGCCATACCATGGCGCAGCGCGCGGCGATTGCCGCCGATCTCGCCATCGCGCCGCTGCCGCGATCCTATGTGCAGAACGACATGGTCATTCTGGGCGACAAGGAAGGCCTGCCGGAACTCGGCTGTTTCGATATCCGCCTGATCATGGGTGACAAGGCGTCCCGCCCTGTTCTTGCCGTGGCTGAAAGCATTCGAAACGCTTTTGTCGAAGTCGCCAAGGCGGCCTGA	MTVTFRQPLPLLDNDILRTFVAIAETGNFSTAAEVVFRTPSAVSMQIKKLEEQLKTTLFLRDARSVTLTAHGETLLTYARRMIALSNEAVSRFVMPELSGVVRLGAPEDIGERGLLPGILKRFAEAFPGIMIDVTIDSSSNLYKRMDEQRLDLALVNCASHPLRDTGEVLMRERLVWAGAKCGTAYLRDPLPISIWEEGCIWRSEAIHSLEKRGRNFRVAYLSGHTMAQRAAIAADLAIAPLPRSYVQNDMVILGDKEGLPELGCFDIRLIMGDKASRPVLAVAESIRNAFVEVAKAA	PGPT0027803_3	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-BrnA-BrnTTOXIN-ANTITOXIN_SYSTEM,PGPT0027803-BrnT_toxin-K09803	NA	NA
BMS010_06116	219			hypothetical protein	ATGACCATGATACATTATCTCCCCGTGGCGAACCGTTCCTCGCACCGTCCGTCATCCAGCGGCTGGCTTCATCGCCTGTCCGACCATGTTGCCGCCCGTTACGCCGCATGGCGTCGCGAAAAAATGCTTCGCGCACTGGAAGCATTGCCACCTGAAACATTGAAGGATATCGGATGGCCGACGACGGACAACAGCCGCATAAACGTCATCCGCAGATGA	MTMIHYLPVANRSSHRPSSSGWLHRLSDHVAARYAAWRREKMLRALEALPPETLKDIGWPTTDNSRINVIRR				NA	NA	NA	NA	NA
BMS010_06117	1041	cdhR_5	COG4977	HTH-type transcriptional regulator CdhR	ATGAGCAGAAACTCCCAGAAGAAGCGCTCAATCGTCTTTTTTCTCATTCCGCAATTTACCATGCTGCCATTCGCCGCAGCGGTTGAAACGCTTCGCATCGCCAACCGAATGTTGGGCTATCAGGCCTATGAGTGGCGTCTCTCCTCGCTCGATGGCCAGAAGGTCATGTCGTCAAGCGGCATCTGTCTTGAGCCCGACACCTGTCTTGCCGATGAGCGGCGCTACGTCAACGGCGAAAACCGCCCGGAAATGGCGATCATCTGTTCGGGCATCGATGTGGATCAACACATCAACAAGTCCGTCAATGCCTGGCTGCGCGAAGCCTATAATCGCGGCATCGCCATCGGCAGCCTCTGTACCGCCGCCCATATTCTCGCACAGGCGGGCCTTTTGAACGGCAAGCGCTGCGCGATCCACTGGGAAAACCTGCCCGGTTTTTCCGAGGCCTTCCCGCAGGTGGAAGTCTATGCCGACCTCTTCGAAGTCGACAGCAACATCTATACCTGCGCCGGCGGCACGGCCTCGCTCGACATGATGCTGAGCCTGATCGGTCAGGATTTCGGCGAAAACCTCGTCAACCGCGTCTGCGAACAGCAATTGACCGACCGGGTGCGCAGCCCGAATGATCGCCAGCGCCTGCCGCTGCGCGCTCGCCTCGGCGTGCAGAACAGCAAGGTCCTGTCGATCATCGAATTGATGGAAGGCAATCTTGCCGAACCGCTGTCGTTGCTCGATATCGCCGATGCCGCCGATCTGTCGCGCCGGCAGGTGGAGCGCCTCTTCCGCCAGGAAATGGGCCGCTCGCCCGCCCGCTATTATCTCGAAATCCGCCTCGACCGCGCCCGCCACCTGCTGGTGCAATCGGCCATGCCGGTGGTCGAAGTCGCCGTCGCCTGCGGTTTCGTCTCCGCCTCGCATTTTTCAAAGTGTTATCGCGAAATCTACAATCGCACGCCGCAGCAGGAACGCGCCGAGCGCAAGCTCCTGATCAGCGCCTCGCGAATGGCGATGGCGAGCCAGGCAGGCAAGGCCGCGCATTGA	MSRNSQKKRSIVFFLIPQFTMLPFAAAVETLRIANRMLGYQAYEWRLSSLDGQKVMSSSGICLEPDTCLADERRYVNGENRPEMAIICSGIDVDQHINKSVNAWLREAYNRGIAIGSLCTAAHILAQAGLLNGKRCAIHWENLPGFSEAFPQVEVYADLFEVDSNIYTCAGGTASLDMMLSLIGQDFGENLVNRVCEQQLTDRVRSPNDRQRLPLRARLGVQNSKVLSIIELMEGNLAEPLSLLDIADAADLSRRQVERLFRQEMGRSPARYYLEIRLDRARHLLVQSAMPVVEVAVACGFVSASHFSKCYREIYNRTPQQERAERKLLISASRMAMASQAGKAAH	PGPT0021945_121	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARNITHINE_USAGE	PLANT_DERIVED_CARNITHINE_DEGRADATION,PGPT0021945-cdhR-K17736	NA	NA
BMS010_06118	1476	nnr_2	COG0062	Bifunctional NAD(P)H-hydrate repair enzyme Nnr	ATGAAATCCCTTCCGCGCCTCTTCCTTATCGACCCTGTTGCCATGGCCCGCATCGATGCGGCGGCCGGGCAATCCGGCATTCCTCTTTATGACCTGATGGAGCGGGCGGGGCAGGCCGTTGTGGCCTCGGTGCTGCGTTACTATCCGCAGGCGCAGCGTTTCGTCGTGCTCTGCGGGGGTGGCAACAATGGCGGCGATGGTTATGTGGCGGCGCGGGCGCTTTTGCAGAGCGGGGCGGTCGTCGCGGTTTATCATCTCGGCGATGTCGGTGCGCTCAGTGGCGATGCACGGACGGCATTCGAGCGGAGCGGCGTGACGCCGCTGCCGTTTGACGGGTATTCCCCAGTTGCCGGTGACGTGGTGATTGATGCGGTGTTCGGGGCCGGATTGTCCCGCGATGTTCCGCAGGAGCTTATTCGAGTGATTGAGGCGGTCACGCGGGCGAAGGTGCCGGTTCTCGCCGTCGACCTGCCCTCGGGCCTCTGCGGCAGGCGGGGCGTGCCTCTCGGCGCATCGTTCCGGGCTGAGCGGACGGTGACCTTCATGGCGCGCAAGCCGGGTCATCTGCTGATGCCGGGGCGGGAGCTTTGTGGAACGCTCGAGGTGTTCGATATCGGCATTCCGTCCCGCATCCTTGAAGCCCATGCGGGATCGGTGGCGGAAAATGATCCGCTGATCTGGCGGGATGCCTTGCCTCATGCCGATATGGAAACCCATAAATTCCGTCGTGGGCATCTAACCGTCTTTTCCGGCCCGGCACATGCGACGGGCGCAAGCCGCATGACCGCGCTTTCGGCACTGAAGGCGGGAGCGGGGATCGTCACCATCGCTGCGCCTAGGCAAGCGCTCGATGTGCTCTCCGTCACGCTGACGGCGGTGATGAACGCACCGGTGGACGATGCCGACGATCTGCGGTCGTGGCTGGACGATGGGCGTCATGGCGCTTTCGTTATCGGCCCTGGTTTCGGCGACCTCGAAAAGGCGCGGCAATTCGTGTCCCTGCTTGGAGACAGGGCGGCGGTGCTGGATGCCGATGCGATCACGGCTTTCAGGGATCACAAGGAGGCCCTGTTTGCGCGTGTCACGTCGGGCACGGGCAAATTCGTGCTGACGCCGCATGAGGGCGAATTTGCGCGACTGTTTCCCGATCTTGCCGCCGACAAGATGCTGAGCAAGATCGAGAAGGCGCAGGTCGCCTCGGCCCGCAGCGGCGCCGTGCTGGTCTATAAGGGCGCGGATACGGTGATTGCAGCGCCGGATGGCCGGGCGCTGGTCAACACCAATGCTCCCGCGAGCCTTGCGACAGCTGGATCAGGCGATGTGCTGGCCGGTATCATCGGCGCGCTGCTGGCGCAGGGCGCGCCTGCCTTCGAGGCGGCTGCGGCCGGGGTCTGGCTGCATGGCGAGGCAGGCCACCGGGCGGGGGATGGCTTGACGGCGGAAGACCTTGCCCATGCGGTTCGGCCGTTTGGGTGA	MKSLPRLFLIDPVAMARIDAAAGQSGIPLYDLMERAGQAVVASVLRYYPQAQRFVVLCGGGNNGGDGYVAARALLQSGAVVAVYHLGDVGALSGDARTAFERSGVTPLPFDGYSPVAGDVVIDAVFGAGLSRDVPQELIRVIEAVTRAKVPVLAVDLPSGLCGRRGVPLGASFRAERTVTFMARKPGHLLMPGRELCGTLEVFDIGIPSRILEAHAGSVAENDPLIWRDALPHADMETHKFRRGHLTVFSGPAHATGASRMTALSALKAGAGIVTIAAPRQALDVLSVTLTAVMNAPVDDADDLRSWLDDGRHGAFVIGPGFGDLEKARQFVSLLGDRAAVLDADAITAFRDHKEALFARVTSGTGKFVLTPHEGEFARLFPDLAADKMLSKIEKAQVASARSGAVLVYKGADTVIAAPDGRALVNTNAPASLATAGSGDVLAGIIGALLAQGAPAFEAAAAGVWLHGEAGHRAGDGLTAEDLAHAVRPFG				NA	NA	NA	NA	NA
BMS010_06119	339	glnB_2	COG0347	Nitrogen regulatory protein P-II	ATGAAAAAGATCGAAGCGATCATTAAGCCTTTCAAGCTCGATGAAGTGAAGGAAGCCCTTCAGGAAGTCGGACTTCAGGGAATCACGGTCACGGAAGCAAAAGGCTTTGGTCGTCAGAAGGGCCACACGGAACTCTACCGCGGAGCAGAGTACGTCGTGGACTTTTTGCCGAAAGTAAAAGTCGAAGTCGTATTGGCGGATGAGAATGCGGAAGCCGTCATCGAGGCGATCCGCAATGCGGCGCAGACAGGACGTATCGGCGACGGAAAGATTTTCGTTTCCAATGTCGAGGAAGTCATCCGCATCCGTACCGGTGAAACAGGCGTGGACGCCATATAA	MKKIEAIIKPFKLDEVKEALQEVGLQGITVTEAKGFGRQKGHTELYRGAEYVVDFLPKVKVEVVLADENAEAVIEAIRNAAQTGRIGDGKIFVSNVEEVIRIRTGETGVDAI	PGPT0000650_1098	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-GLUTAMATE|GLUTAMINE_SYNTHASE|GLTS_PATHWAY,PGPT0000650-glnB|glnY-K04751	NA	NA
BMS010_06120	1410	glnA_1	COG0174	Glutamine synthetase	ATGACGACCGCAAACGATATCTTGAAGCAGATCAAGGATAACGACATCAAGTTCGTGGACCTGCGCTTTACCGACCCCAAGGGCAAGCTGCAGCACGTCACCATGGATGTTGTCTGTGTGGACGAAGACATGTTCGCCGATGGCGTCATGTTCGACGGCTCCTCGATCGCCGGCTGGAAGGCCATCAACGAGTCCGACATGGTGCTGATGCCCGATCCGGCCACCGCCCATATCGACCCGTTCTTCGCCCAGTCCACCCTGGTCGTCCTTTGCGACATCCTCGACCCGGTCTCGGGCGAAGCCTATAACCGCGACCCGCGCGGCACCGCCAAGAAGGCCGAAGCCTACCTCAAGGCATCCGGCATCGGCGACACCGTTTTCGTCGGTCCCGAGCCGGAATTCTTCGTCTTCGACGACGTGAAGTACAAGGCCGATCCCTACAACACCGGCTTCAAGCTCGACTCGTCCGAACTGCCATCCAACGACGACACCGACTACGAGACCGGCAACCTCGGCCACCGTCCGCGCGTCAAGGGCGGTTATTTCCCGGTTCCGCCGATCGACAGCCTGCAGGACATGCGCTCTGAAATGCTGACGGTTCTCGCCGAAATGGGCGTGGTCGTCGAAAAGCACCACCACGAAGTGGCTGCCGCACAGCACGAGCTGGGCGTGAAATTCGACACGCTCGTCTCCAGCGCCGACAAGATGCAGATCTACAAGTACGTCGTGCACCAGGTCGCCAATGCCTATGGCAAGACGGCAACCTTCATGCCGAAGCCGATCTTCGGCGACAACGGCTCGGGCATGCACGTTCACCAGTCGATCTGGAAGGGCGGCAAGCCGACCTTCGCAGGTGACGAATATGCCGGTCTTTCCGAGACCTGCCTCTATTACATCGGCGGCATCATCAAGCACGCCAAGGCCATCAACGCCTTCACCAACCCCACCACCAACTCCTACAAGCGTCTGGTGCCGGGTTATGAAGCGCCGGTTCTGCTCGCCTACTCCGCGCGCAACCGTTCCGCCTCGTGCCGTATTCCCTTCGGCTCCAACCCGAAGGCAAAGCGCGTCGAAGTCCGCTTCCCGGACCCGACCCAGAACCCCTATCTCGGTTTTGCGGCCATGCTGATGGCCGGCCTCGACGGCATCAAGAACAAGATCCACCCCGGCAAGCCGATGGACAAGGACCTTTACGACCTTCCCGCCAAGGAACTGAAGAAGATCCCGACCGTCTGCGGTAGCTTGCGCGAAGCGCTGGAAAGCCTCGACAAGGATCGCAAGTTCCTGACCGCCGGCGGCGTGTTCGACGACGACCAGATCGACTCGTTCATCGAGCTGAAGATGCAGGAAGTCATGCGTTTCGAAATGACCCCGCATCCGGTCGAATTCGACATGTACTACTCGGCCTGA	MTTANDILKQIKDNDIKFVDLRFTDPKGKLQHVTMDVVCVDEDMFADGVMFDGSSIAGWKAINESDMVLMPDPATAHIDPFFAQSTLVVLCDILDPVSGEAYNRDPRGTAKKAEAYLKASGIGDTVFVGPEPEFFVFDDVKYKADPYNTGFKLDSSELPSNDDTDYETGNLGHRPRVKGGYFPVPPIDSLQDMRSEMLTVLAEMGVVVEKHHHEVAAAQHELGVKFDTLVSSADKMQIYKYVVHQVANAYGKTATFMPKPIFGDNGSGMHVHQSIWKGGKPTFAGDEYAGLSETCLYYIGGIIKHAKAINAFTNPTTNSYKRLVPGYEAPVLLAYSARNRSASCRIPFGSNPKAKRVEVRFPDPTQNPYLGFAAMLMAGLDGIKNKIHPGKPMDKDLYDLPAKELKKIPTVCGSLREALESLDKDRKFLTAGGVFDDDQIDSFIELKMQEVMRFEMTPHPVEFDMYYSA	PGPT0000645_3361	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMATE_DEGRADATION|CONVERSION,PGPT0000645-glnA-K01915	NA	NA
BMS010_06121	921			hypothetical protein	ATGTCGAACAAGCCAGCCTCTCAGCAAACGCGCCTCACGGACTGGCTCATCTTTCTGGCGGTGCCGTTCTTTTTCTCCAGCAATGTCATTTTCGGCCGTGGCGTCGTCGGCGAAGTCTCGCCTTTCATCGCCGCCTTCATCCGCTGGATCGGCTCGACCCTCATCATCGCCCCCTTCATGATCGCCGACTGGCGCAACTGCCTTGCCTTCGTGCGGCGGAAAACGCTGCTCTGGCTCGTCCTCGGCATTCTCGGCATGGGCATCTGCGGTGGCGTGGTCTATTGGGGGCTGACCATGACGACGGCCGCCAACGGCACGCTGATCTACACCACGTCCTCGCTGTTCATCATCCTGTTCCAGCGCGTCTTCCAGGGCCGCCCGATCCGGAAGCTGGAAGTGGCGGGCATGGTCATCGCCTTTGCCGGCGTGGCGGCCATCGTGCTCAAGGGCGATATATCCGCTCTCTGGCACCTGAATTTCAACATTGGCGATTTCGCGATCCTGACGGCGGCCATCGCCTTTGCGGTCTATTCGCTGCTGCTGCGCGATCCCGCCGCACGGCAGATGGCCTCTTTCAGCCTTTTCGGCCTGATCGCCTTTTCCGGCGCGCTCGTGCTTCTGCCGCCGGCGGCTCTGGAACTGGCGCAGGGCGGCATGTTGCCCGCCACGCCAATGGCCTGGGCCAAGATCGGCGGCATCATCCTGTTCGCCTCACTATTGGCCTTTTATTGCTTCACCCATACGGTGCGCGTCTTCGGGCCCGCGACCGCTGGCATCACGCTTTACATGATGCCGCCGGTCTCGATCCTCATGGCCACGCTGTTCCTGGGGGAGACTTTCGAGACCTATCACGCCATCGGCATCGTGCTGGTCACCGGCGGCGTCATCATCGCCACCGCACCCATCGGCAGAAGGCGCTGA	MSNKPASQQTRLTDWLIFLAVPFFFSSNVIFGRGVVGEVSPFIAAFIRWIGSTLIIAPFMIADWRNCLAFVRRKTLLWLVLGILGMGICGGVVYWGLTMTTAANGTLIYTTSSLFIILFQRVFQGRPIRKLEVAGMVIAFAGVAAIVLKGDISALWHLNFNIGDFAILTAAIAFAVYSLLLRDPAARQMASFSLFGLIAFSGALVLLPPAALELAQGGMLPATPMAWAKIGGIILFASLLAFYCFTHTVRVFGPATAGITLYMMPPVSILMATLFLGETFETYHAIGIVLVTGGVIIATAPIGRRR				NA	NA	NA	NA	NA
BMS010_06122	330	hspQ		Heat shock protein HspQ	ATGAAACAAAGAAACGCAAAATTCACGCTTGGCGAAATCGTCCGCCACAAGGTGTTTCCGTTCCGCGGTGTGGTGATCGACGTGGACCCGGAATATGCCAATACCGAGGAATGGTGGAACGCCATCCCTGCGGAAATCAGGCCGGATCGCGACCAGCCCTTCTATCATCTTCTGGCTGAAAACGAGGAGACGGAATATGTCGCCTATGTTTCCGAACAGAACCTCGTCCACGACGAAAACGAGACGCCGCTCCGAAACCCCAATATCGGCCGCATCTTCGACAAGGCGCCGAACGGCGAATGGCGCCCGAAAATGTCGACGGCGCATTGA	MKQRNAKFTLGEIVRHKVFPFRGVVIDVDPEYANTEEWWNAIPAEIRPDRDQPFYHLLAENEETEYVAYVSEQNLVHDENETPLRNPNIGRIFDKAPNGEWRPKMSTAH	PGPT0014644_234	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014644-hspQ|yccV-K11940	NA	NA
BMS010_06123	654			hypothetical protein	ATGCACAAGGCAAACACATTCACCCGGACGGCTCTGTCCGCTCTGGTCCTTTCTCTCGGCGCAATGTCCGCTCCGGCCATCTCGCAGGCTCAGGATGCTGCTCCCGCCGCTCAGGGCGCTGGCGCTCCGCCGCTCGGCTGGTTCAAGACCTGCTCCAAGCAGGAAGACAACGATGTCTGCGTCGTGCAGAACGTGGTTCTTGCCCAGAACGGCCAGATGATCACCGCCGTCGGCCTCATCACCGTTGAAGGCAAGGTCAACCGCAAGCTGCTGCAGGTCTCCGTTCCGACCGCGCGTCTCGTTCCTCCGGGCGTGATGATGCAGATCGACGGCGGCAAGGGCCAGAAGCTCGATTACGCCGTTTGCCTTCCTGACAAGTGCACGGCTGAAGTTCCGCTGACGGACGCCATGATCGCCTCCCTGAAGAAGGGTAGCGAGGTGGTCTTCACCTCCATCAACTTCCGCCGTGCGCCGAACCCCATCAAGATCGCGCTCTCCGGCTTCACCGGTGCCTATGACGGCCCGGCGATCACCCAGTCGCAGCTTGCCGAAAGCCAGCGCAGCCTGCAGGAAGGCATGCAGAAGAAGGCTGAAGAGGCTCGCAAGAAGCTGGAAGCCGCACAGGACGCTGCCAAGGGCGCGCCGAAGCCCTGA	MHKANTFTRTALSALVLSLGAMSAPAISQAQDAAPAAQGAGAPPLGWFKTCSKQEDNDVCVVQNVVLAQNGQMITAVGLITVEGKVNRKLLQVSVPTARLVPPGVMMQIDGGKGQKLDYAVCLPDKCTAEVPLTDAMIASLKKGSEVVFTSINFRRAPNPIKIALSGFTGAYDGPAITQSQLAESQRSLQEGMQKKAEEARKKLEAAQDAAKGAPKP				NA	NA	NA	NA	NA
BMS010_06124	1848			hypothetical protein	ATGCGCAACCTTGCGGCCTTCATCCCCGCATTGTTCCTTCTGGGATCATCCCTGCTTCCCGCCGGAACCGCCCTGGCGCAGCCGCTTCATGGCATTTCCATGCATGGTACGCCTGCCATGCCGGCAGATTTCCGCCACTTCCCTTACGTCAATCCGGACGTGAAGAAAGGCGGCCGAATCTCCTATGGCGTCGTCGGCACCTTCGACAGCCTCAATCCCTTCGTTCTCAAGGGAATGCGCACCACCGCACGCGGGGTCTGGGACCCGGAATTCGGCAATCTTCTTTACGAACCGCTGATGCTGCGCTCCAGCGACGAGCCTTTCAGCCTTTACGGCCTGCTCGCCGAAACCGCGGAGTGGGATGAGGAGCGCAGCTTCGTCCAGTTCAACCTCAACCCGAAGGCAAAATGGTCCGATGGCGAGCCGGTGACCGCGGATGACGTGATCTTCACCTTCAACCTCCTCAAGGAAAAAGGCCGCCCACCCTTCAACACCCGTCTGGACGGCGTGGCGAAGCTGGAAAAGATCGGCGATCGCAGCGTGCGTTTCACCTTCAATGACAAGGCGAACCGCGAAACGCCGCTCATTCTCGCCTCCTCCACCCCGATCCTGCCGAAACATGCGATCGATCCGGAAAAATTCGAGCAGGCGGGCCTCGGCCCGGTCGTCGGCTCGGGTCCATACCGAATCAAAACCCTGCGGCCGGGCGAACGAATCATCTGGGAACGGAACCCGGACTATTGGGGCAAGGATATTCCCGGCAAGGTCGGCTTCGACAATTACGACGAGATCAGCGTCACCTATTTCCTTCAGGTCACCACCATGTTCGAGGCCTTCAAGAAGGGCGATATCGACATTTATCCTGAAGGCGACGCCATCAACGGCACTTCCGATACCTCCCACTGGGGACAGGCTTACAATTTCCCGGCCGTCCATCGCGGCGATATCGTCAAGGACGTCTTCCAGCCGCGTCTGCCCACCGGCATGTTCGGCCTCGTTTTCAACACCCGCCGCGCCGTCTTCGCCGACGAAAAGGTGCGCGAGGGCCTGTCCTATGCGCTCGATTTCGAATGGATGAACAAGAACATCCTCGGCGGGTCCTTCAAGCGCACGCAGAGTTATTGGCAGAACTCCCCGCTCGGCGCTTACGGCAATGCCGCAGACGAGCGCGAGCTTGCCCTGCTTGGCGACGCGGCGAAATCCATGCCGCCGGAACTGCTGGCGGGAACCTATGCCATGCCGACCACCGATAGCACCGGCGCGGACCGCAAAGTTCTGAAAATGGCCGTCGACAAGCTGAAAGAGGCCGGCTACAGCATCAAGAACGGCAGGATGTCCGACGCCAACGGCCGTCAGCTTGCCTTCGAAATCATGACGCAGAACCCGGCGCAGGAGCGCATCGCGCTTGCCTATCAGCGTTCGCTCAACCTGATCGGCGTCGCCATGGGCATCCGCTCGGTCGATGACGGGCAATATCAGGCCCGCTCGAACAGCTTCGACTATGACATGATCATCCGCTCCCTGCCCTCCTCGCTCTCACCGGGCATGGAACAGCTCAACCGCTGGAGTTCGCTCTCGCGGGATGCGCAGGGCAGCTTCAACTATGCGGGTGCTGCAAATCCCGATATAGACCGCATGATCGAGGCCCTGCTGCAGGCAAGGTCGACGGAGGATTTTCAGGCGGCGGTGCGCGGTTACGACCGCCTTCTCGTTGCCGGCCACTATGTCATTCCGCTCTATTATATCGGCGCGCAATGGGTGGCCCGCTGGAAATATATCGACCGCCCGGATATGACGCCGATATCCGGCAATCAGAAACAGACCTGGTGGGATGCGCGGGCGCAATAA	MRNLAAFIPALFLLGSSLLPAGTALAQPLHGISMHGTPAMPADFRHFPYVNPDVKKGGRISYGVVGTFDSLNPFVLKGMRTTARGVWDPEFGNLLYEPLMLRSSDEPFSLYGLLAETAEWDEERSFVQFNLNPKAKWSDGEPVTADDVIFTFNLLKEKGRPPFNTRLDGVAKLEKIGDRSVRFTFNDKANRETPLILASSTPILPKHAIDPEKFEQAGLGPVVGSGPYRIKTLRPGERIIWERNPDYWGKDIPGKVGFDNYDEISVTYFLQVTTMFEAFKKGDIDIYPEGDAINGTSDTSHWGQAYNFPAVHRGDIVKDVFQPRLPTGMFGLVFNTRRAVFADEKVREGLSYALDFEWMNKNILGGSFKRTQSYWQNSPLGAYGNAADERELALLGDAAKSMPPELLAGTYAMPTTDSTGADRKVLKMAVDKLKEAGYSIKNGRMSDANGRQLAFEIMTQNPAQERIALAYQRSLNLIGVAMGIRSVDDGQYQARSNSFDYDMIIRSLPSSLSPGMEQLNRWSSLSRDAQGSFNYAGAANPDIDRMIEALLQARSTEDFQAAVRGYDRLLVAGHYVIPLYYIGAQWVARWKYIDRPDMTPISGNQKQTWWDARAQ	PGPT0004430_1530	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004430-ddpA|ABC_PE_S-K02035	NA	NA
BMS010_06125	669			hypothetical protein	ATGGAACGCATCGTTATCGACGTCGTATCGGATATGGTCTGCCCGTGGTGTTATCTCGGCAAGGCAAGGCTCGATCTCGCCATTGCCGAGGTGCAGGACGAAATCAGCGTCGACGTGAACTGGCGTCCATACCGCCTCAACCCGGATTACCCGCCTGAAGGCGTCGACCAGAAAGCCGCTCTCGAGGAAAAGCTCGGCAAGGAGCGCCTCGAACAGGCGCATGCCACGCTGGTGCAGCTCGGCAGGGAAGTCGGCATCAATTACGATTTCGATGCGATCAAGATCGGCCCGAACACGCTCGACGCCCATCGGCTGTCGCTCTGGGCGCATTCCGAAGGCCGCGACGTTCAGGAAAAGGTCGTCACCGCCCTGTTCAAAGCCAATTTCGAGGAAGGGCGCAACATCGGCGATCACGCAGTGCTGACCGATGTGGCCGAAAAATCCGGCATGGACGCCAAGGTCGTAGCCCGGCTTCTGGCCTCGGACGCCGACAAGGATACCGTCATCGCCGAAATTGATGCGGCGCAGCAAATGGGCGTCGCCGGCGTGCCCTTCTTCATCATCGACCAGAAATACGCCATAAGCGGTGCACAAACGCCGGATGTATTGATTGCTGCACTGCGGGATATTGCAAAAATCAAGGCGGACGAGCATAGATCGATGAACTGA	MERIVIDVVSDMVCPWCYLGKARLDLAIAEVQDEISVDVNWRPYRLNPDYPPEGVDQKAALEEKLGKERLEQAHATLVQLGREVGINYDFDAIKIGPNTLDAHRLSLWAHSEGRDVQEKVVTALFKANFEEGRNIGDHAVLTDVAEKSGMDAKVVARLLASDADKDTVIAEIDAAQQMGVAGVPFFIIDQKYAISGAQTPDVLIAALRDIAKIKADEHRSMN				NA	NA	NA	NA	NA
BMS010_06126	933			hypothetical protein	GTGTCCGACCAGACCCTGAAAGGCATTCTGCTCGCCTTTGCCGCCTTCGCTGCCTACGCCTGGAGCGATGCAAGCGTTAAACTCATAGAAGGCCAGATTTCACCGATCGAATCGGCCTTCTTCGGCGCCCTTTTCGGCCTCGTCGCCCTTCCCTTCATCCGCAAGCGCAATGATCACTGGGTGGACGTGGTGAAGACGACGAACCGCCCTTTGTGGATCATCCGCTTTTTTGCGGCCGGCACCGGCGCAGTGGGCAGCGTGACCGCTTTCACCCATCTTTCCATGGCGGAAGCCTTCGCGCTGATCTTCCTGCTTCCTTCCTTCGTCACCATCATGTCGGTGGTGTTCCTGAAGGAACAGGTGGGCATCAAGCGCTGGTCGGCCGTCATCATCGGTTTCCTCGGCGTGCTGGTCATCCTGCGTCCGGGCTTCCGCGAACTCGGCATCGGCCATCTCGGCGCCATCATCGGCGGCTTCAGCGGCGCGCTCAGCATTGTCATCTTTCGCGCCATGGGACCATCGGAAAAGAACGTCTCGCTTTATGGTGCCGGTGTGCTCGGCTGTCTCACCATAAGCGGCATCGCCATGGTGCCGACTTTCGTCATGCCAGCGGGCGAGCAATGGCTGCTGCTGGCGGGATATGGCCTGCTCGGCGCGCTTGGCAACGTCCTGGTCATGTATGCTGCCCAATATGCGCCCGCCGCCATGATCGGCCCGACGCAATATAGCCAGATGCTCTGGGCCATCCTGTTCGGTTACCTGATTTTCGGCGACCGTATCGACGGATGGATGCTGGTCGGCATCGCCCTCATCGTCGGCTCCGGCCTGTTGACGCTGATCCGCGAGAAACAGAGAAAGGTGCCGCTGCCCGCCTCGATCGCCGCCACCGATCAGAACGTGGCCGTCGGCATCACGCCGGAAACCCCCTCATAA	MSDQTLKGILLAFAAFAAYAWSDASVKLIEGQISPIESAFFGALFGLVALPFIRKRNDHWVDVVKTTNRPLWIIRFFAAGTGAVGSVTAFTHLSMAEAFALIFLLPSFVTIMSVVFLKEQVGIKRWSAVIIGFLGVLVILRPGFRELGIGHLGAIIGGFSGALSIVIFRAMGPSEKNVSLYGAGVLGCLTISGIAMVPTFVMPAGEQWLLLAGYGLLGALGNVLVMYAAQYAPAAMIGPTQYSQMLWAILFGYLIFGDRIDGWMLVGIALIVGSGLLTLIREKQRKVPLPASIAATDQNVAVGITPETPS	PGPT0023680_96	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-SAM|QUEUOSINE|LIPID_METABOLISM,PGPT0023680-sam-K15270	NA	NA
BMS010_06127	828	hcaB_7		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGAACATACGAACCCAACCGACCGCCCTCGTTACCGGCGCATCATCCGGCATGGGCAAAAGCATCGCCAAACGCCTGATCGCCGATGGCTATCTCGTCTATGTCGCCGCGCGCAGCATAGACAGGATGGCGGATCTGGAAAAGCTGGGCGCGATTGCGCTGCGCATGGACATCTCAAGCGACGAGGACATCGTCGCCACCGTTGCCGCGATTACCGCACGATCCGGTGGCGTCGATGTGCTGGTGAACAATGCCGGCTACGGGCTCTACGGCCCCGTCGAGGAGATTCCGCTCGACGAGGCGCGCTACCAGTTCGAGGTCAACGTTTTCGGCACTGCGCGTCTGACACAGCTCCTTATGCCGGCCATGCGCGCAAGGGGCAAAGGCACCATCGTCAACATCACCTCGATGGGCGGCAAAATCTACACCGTTCTGGGTGCCTGGTATCACGCGACCAAACACGCGCTGGAAGGCTGGTCGGACAGTCTGCGGCTGGAAGCCGAGCCATTCGGCATCCGCGTCGTGGTGGTCGAGCCGGGCCTGATCGAGACCGGTTTCGGCGCTGCCGCAGCGCAGGGTCTCCTCGAACGCTCGGCAAACGGCCCTTATGCGAAGATGGCGCAGAGCGTTGCGGCTTCCATGGACCGAAGCTACGGTAAGGGTATGGGCACCGATCCCGAGCTCATTGCCGATGTGGTGAGCAAGGCGGTCAGGTCCGCCCGCCCGAAGACACGTTATGCGGCCGGCAAATACGCCCGGCTGATGATCGGCGTGCGCAAATGGTTCGGCGACCGGGCCTTCGACAGGCTGATCAGAAGCCAGATGTAG	MNIRTQPTALVTGASSGMGKSIAKRLIADGYLVYVAARSIDRMADLEKLGAIALRMDISSDEDIVATVAAITARSGGVDVLVNNAGYGLYGPVEEIPLDEARYQFEVNVFGTARLTQLLMPAMRARGKGTIVNITSMGGKIYTVLGAWYHATKHALEGWSDSLRLEAEPFGIRVVVVEPGLIETGFGAAAAQGLLERSANGPYAKMAQSVAASMDRSYGKGMGTDPELIADVVSKAVRSARPKTRYAAGKYARLMIGVRKWFGDRAFDRLIRSQM				NA	NA	NA	NA	NA
BMS010_06128	1002	virS_5		HTH-type transcriptional regulator VirS	ATGAGCAGGGATTTGAGCGACAGGTGCAGGCTGCCCCAGGCTTTCTGGCGGGCGGCGGAGCGTATGGGGCTGCCCGCTCCGGCCCTGCTGCGGCAGGCGAAGCTTCCCGCAACGCTGCACATCGCTCCGGATGCATGGTTGACCACGGCGCAATATTTCGACCTGTGGCGGGCGGTCGAGGCCCTGTCGCAGGATTCGGCCATCGGCCTCCGGATGACGGTCGAGACAGACACGGCGATGCATCCACCCGCCACCATGTCAGCCTTCTTCGCCCGCGACTATCGCGACGGGCTGCACCGGCTGGCCCGCTTCAAGCGACTGTGCACCCCGGAAGAGCTTTCGGTAACGGAAAGCGGCGGCGAGGCCCGGATCGCCGTAAGATGGTTGCACACTAACGAGGCCGAGCCGGTCGCTGCGGCGGACGTCACTTTCGCCGCCCTTCTGGAACTGGGGCGGCGGGGCACCGGCAGACATGTTACCCCGGTTCGGGTGGAGATGATTCGCCATGGACCTGTTTCCGACGTCCATCGGAGTTATTTCAACGCACCCATCCGCACCGGCTGCCCGCAGAATGCCATGGTGCTGAAACGCGACGATCTCGATCTTCCATTCGCCGGGCATAATCCCGAACTGCTGGCTATACTGGAGCCCGCACTTGCGGCCTCCCTTGGCGAGATCAAGGCGCAATCCTCGCTGCCGGAGCAGGTCAAGATTCTGATCAAACGCCGCATCGCAAGCGGCAAGCCGGAGATTTCCGAGGTGGCGCGCGAACTCGGCATGAGCGAAAGAACCCTGCAGCGTCGTATCACCGAACGGGGATCGAACTATCGAGCGCTCGTTGAACAGGCGCGGCAGGAACTCGGCCGCGACCTGCTTTCAGACAAGCGCAATGGAATTGAGGAGATTGCCTTCCTGCTGGGTTTCCAGGACACAGGCTCGTTCTATCGGGTGTTTCGAACCTGGGAAGGCGTGACGCCAGCCCAGTGGCGAGGGATGCACTGA	MSRDLSDRCRLPQAFWRAAERMGLPAPALLRQAKLPATLHIAPDAWLTTAQYFDLWRAVEALSQDSAIGLRMTVETDTAMHPPATMSAFFARDYRDGLHRLARFKRLCTPEELSVTESGGEARIAVRWLHTNEAEPVAAADVTFAALLELGRRGTGRHVTPVRVEMIRHGPVSDVHRSYFNAPIRTGCPQNAMVLKRDDLDLPFAGHNPELLAILEPALAASLGEIKAQSSLPEQVKILIKRRIASGKPEISEVARELGMSERTLQRRITERGSNYRALVEQARQELGRDLLSDKRNGIEEIAFLLGFQDTGSFYRVFRTWEGVTPAQWRGMH				NA	NA	NA	NA	NA
BMS010_06129	3498	mfd_1	COG1197	Transcription-repair-coupling factor	ATGATAGCCGGATTCGATGCAAAGCTGGTGTCGTCGGCCGATACGCCGCTGACCATCGGAAACGTGCCTTCCGGCATGGAAGCCCTGTTGCTTGCCGATATGGCGCGGGCGGGCACGTCGGTGGCTTATGTGATGTCGGATGGCCAGCGGGTCGCCGATCTCGAACAGATCCTCGGTTTCGTCGCACCTGATATTCCGGTGATGACGCTTCCCGCCTGGGACTGCCTTCCCTATGACCGCGTGTCACCGAGCGCCGACACCTCGGCGCGCCGGCTGGCGGCGCTCTCCGGTCTGATTGCCCATGCGAAGAAACCGCATCCGGCCATCGTGCTCGTCACCGTCAACGCCATGCTGCAGAAGATGGCGCCGCGCGACATTATCGAGAGTCTCGGCTTTTCTGCCAAACCCGGCAACCAGATCCGCATGGAGGAGATTGCCGCGCGGCTGGAGCGCAACGGTTTCGACCGGGTGGCGACGGTGCGTGAAGTGGGTGAATTCGCCGTGCGCGGCGGCATTCTCGACGTCTTCGTGCCGGGCACGGAAGAGCCGGTGCGGCTCGATTTCTTCGGCGATACGCTGGAAAGCATCCGCACCTTTGATCCGGCCAGCCAGCGTACCATCGGTCAGGCGCGCTCGCTCGATCTGAACCCGATGAGCGAAGTGACGCTGACGCCGGATACGATCAGCCGGTTTCGCAAGAACTACCTGTCGCTGTTCGGTGCGGCGACGCGAGACGATGCGCTTTATCAGGCCGTCTCCGAAGGCCGCCGTTATGCCGGTATGGAACACTGGCTGCCGCTGTTTTACGAGCAGCTGGAAACCGCCTTCGATTATCTGAAGGGCTTCCGCATCGTCACCGATCATACGGCGCGGGAGGCGGCGAAAGAGCGCTCCAAGCTGGTGCTCGATTATTACGATGCGCGCCGCAGTTCCGGCGAAACCAAGGGCTCGACGCAGGGCGCGCCCTACAAGCCGGTTTCGCCTGGCCAGCTTTATCTCGATGGCAAGAGTTTCGATGCCGCGCTCGCCGCCGTTAACGCCGTGCGTCTCACGCCCTTCAACGAGCAGGACAGCGAAGGCCGCCCCGTCGCGACGCTCGATGCCCATGTCGGTCCGCGCTGGGCGCGCCCGCCAACCGAAGGCGAGAGCGAAGAACGCGTCAATGTTTTCGATCTGGCGGTGAAGCACATTGCCGAACGCCGCGCCAAGGGCTGGAAGGTGCTGATCACTGGCTGGTCGGAAGGTTCGCTCGACCGGTTGTTGCAGGTGCTGAACGAGCACGGGCTTGAGAAGATCAAGCCGGTCACCTCGTTGAAAGAGGTGGAGAAGCTCGGCAAGGGCGAGGCGGCCTCGGCGGTTCTGAGCCTCGAAGCCGGTTTCGAAACCGGGACGCTGGCCGTTATCGGCGAGCAGGATATTCTCGGCGACCGCATGGTGCGCCGCTCCAAGCGCCGCAAGCGCGGCGCGGATTTCATCTCGGAAGTGGCGGGGCTGGATGAGGGCTCGCTGGTCGTCCATGCCGAACATGGCATCGGCCGCTTCGTCGGCCTGCGGACCATCGAGGCGGCGGGTGCGCCACGCGCCTGCCTGGAACTGCATTATGCCGATGACGCCAAGCTGTTCCTGCCCGTTGAAAACATCGACCTTCTGTCCCGTTACGGTTCGGATGCGGCGGAAGCGACGCTCGACAAGCTTGGCGGCGGCGCATGGCAGATGCGCAAGGCCAAGCTCAAGAAACGCCTGCTGGACATGGCAGATGAGCTTATCCGCATTGCCGCCGCGCGCCTGGTGCGCCATGCGCCGGTGCTGACAGCCCCCGACGGGCTTTACGACGAATTCGCCGCCCGTTTCCCCTATGACGAGACGGAAGACCAGCTGAACGCGATTGAGTCGATCCGCGAGGATTTGGGCGCCGGCCGACCGATGGATCGGCTGATCTGTGGCGATGTCGGTTTCGGCAAGACGGAAGTGGCGCTCCGCGCCGCTTTTCTCGCCGCCATGAACGGCGTGCAGGTGGCGGTGGTGGTGCCGACCACGCTGCTTTCCCGCCAGCATTTCCGCACCTTCTCGGAACGTTTCCGTGGGTTGCCGATCCGGGTGCAGCAGGCTTCGCGTCTCGTCGGCTCCAAGGAACTGGCGCTGACCAAGAAGGAAGTTGCTGACGGAAAGACCGATATCGTCGTCGGCACCCATGCGCTGCTCGGCGCGGGCATCAGCTTCGCAAATCTCGGCCTGCTGATCATCGATGAAGAGCAGCATTTCGGTGTGAAGCACAAGGAGCGGCTGAAGGAGCTGAAGAGCGACGTGCATGTGCTGACGCTTTCTGCAACACCCATTCCGCGCACCTTGCAGCTGGCCATGACGGGCGTGCGCGAGTTGTCGCTCATCACCACGCCGCCGGTGGACCGTATGGCGGTTCGCACCTTCATTTCGCCGTTTGATCCGCTGGTGATCCGCGAAACGCTGATGCGCGAACATTATCGCGGCGGCCAGAGTTTCTATGTTTGCCCGCGCCTTGCCGATCTTGCCGATATTCACGCTTTCCTGCAATCGGATGTGCCGGAGCTGAAGGTAGCGGTGGCACATGGCCAGATGCCGGCCGGCGAACTCGAAGACATCATGAATGCCTTTTATGACGGCAAATATGATGTGCTGCTGTCGACCACCATCGTCGAATCCGGCCTCGATGTGCCGACCGCCAATACGCTGATCGTGCACCGCGCCGACATGTTCGGCCTTGCCCAGCTTTACCAGCTGCGCGGCCGTGTCGGACGCTCCAAGGTGCGCGCCTTCGCGCTTTTCACCCTGCCGGTCAACAAGGTGCTGACGACGATGGCGGAGCGGCGGCTAAAGGTGCTGCAATCGCTCGATACGCTGGGCGCCGGCTTCCAGCTGGCGAGCCACGACCTCGATATTCGCGGTGCGGGCAATCTGCTCGGCGAGGAACAGTCCGGCCATATCAAGGAAGTCGGTTTCGAGCTTTACCAGCAGATGCTGGAAGAGGCGGTTGCCGAAGTGAAGGGTGACGAGCAGGTGCAGGATAGCGGCTGGTCGCCGCAAATCTCGGTCGGCACCTCCGTCATGATCCCGGAAGACTACGTGCCGGATCTGCATCTGCGCATGGGCCTTTACCGCCGTCTCGGCGAGCTTGCGGATATCAGCGAGATCGATGGTTTCGGTGCGGAAATGATCGACCGTTTCGGCCCGCTGCCGAAAGAGGTGCAGCATCTCCTCAAGATCGTCTACATCAAGTCGCTCTGCCGCACCGCCAATGTCGAGAAGGTGGATGCCGGGCCGAAGGGCGTGGTCGTGCAGTTCCGCAACAAGGAATTCCCCAATCCCGCCGCGCTTGTCGCCTATATCGGCAAGCAGGGCACGATGGCGAAGATCCGCCCCGATCACAGCCTGTTCCTGACCCGCGACCTGCCGACGCCGGAAAAGCGGCTGGCGGGTGCGGCGATGATCATGACACAGCTCGCGGAGCTGGCGCGTTCCTAA	MIAGFDAKLVSSADTPLTIGNVPSGMEALLLADMARAGTSVAYVMSDGQRVADLEQILGFVAPDIPVMTLPAWDCLPYDRVSPSADTSARRLAALSGLIAHAKKPHPAIVLVTVNAMLQKMAPRDIIESLGFSAKPGNQIRMEEIAARLERNGFDRVATVREVGEFAVRGGILDVFVPGTEEPVRLDFFGDTLESIRTFDPASQRTIGQARSLDLNPMSEVTLTPDTISRFRKNYLSLFGAATRDDALYQAVSEGRRYAGMEHWLPLFYEQLETAFDYLKGFRIVTDHTAREAAKERSKLVLDYYDARRSSGETKGSTQGAPYKPVSPGQLYLDGKSFDAALAAVNAVRLTPFNEQDSEGRPVATLDAHVGPRWARPPTEGESEERVNVFDLAVKHIAERRAKGWKVLITGWSEGSLDRLLQVLNEHGLEKIKPVTSLKEVEKLGKGEAASAVLSLEAGFETGTLAVIGEQDILGDRMVRRSKRRKRGADFISEVAGLDEGSLVVHAEHGIGRFVGLRTIEAAGAPRACLELHYADDAKLFLPVENIDLLSRYGSDAAEATLDKLGGGAWQMRKAKLKKRLLDMADELIRIAAARLVRHAPVLTAPDGLYDEFAARFPYDETEDQLNAIESIREDLGAGRPMDRLICGDVGFGKTEVALRAAFLAAMNGVQVAVVVPTTLLSRQHFRTFSERFRGLPIRVQQASRLVGSKELALTKKEVADGKTDIVVGTHALLGAGISFANLGLLIIDEEQHFGVKHKERLKELKSDVHVLTLSATPIPRTLQLAMTGVRELSLITTPPVDRMAVRTFISPFDPLVIRETLMREHYRGGQSFYVCPRLADLADIHAFLQSDVPELKVAVAHGQMPAGELEDIMNAFYDGKYDVLLSTTIVESGLDVPTANTLIVHRADMFGLAQLYQLRGRVGRSKVRAFALFTLPVNKVLTTMAERRLKVLQSLDTLGAGFQLASHDLDIRGAGNLLGEEQSGHIKEVGFELYQQMLEEAVAEVKGDEQVQDSGWSPQISVGTSVMIPEDYVPDLHLRMGLYRRLGELADISEIDGFGAEMIDRFGPLPKEVQHLLKIVYIKSLCRTANVEKVDAGPKGVVVQFRNKEFPNPAALVAYIGKQGTMAKIRPDHSLFLTRDLPTPEKRLAGAAMIMTQLAELARS				NA	NA	NA	NA	NA
BMS010_06130	312			hypothetical protein	ATGACTGGACTGGTGCGCACGAGTGCCGACCTCGATCCGAGACGCCGGCGGATTCTTTACCGCTGCTGGCATCGGGGCATTCGCGAGATGGATCTGGTGCTCGGGCAATTCGCGGAAGACAATATTGCCGGGCTTTCCGATGACCAGCTCGACGAGTTGGAAGTCATTATGGCGGAAGAGGATAACGACCTCGTCAAGATGGTGACCGGCGCCCTTGCCATACCGGAAAAATTCCAGACCCCGCTGTTTGAGAAGATCGCCTCCTACCGTCCCGATTTCGATCTCGTCACCACTGACACCCTGAAAGCGTGA	MTGLVRTSADLDPRRRRILYRCWHRGIREMDLVLGQFAEDNIAGLSDDQLDELEVIMAEEDNDLVKMVTGALAIPEKFQTPLFEKIASYRPDFDLVTTDTLKA	PGPT0027750_116	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-CptA-CptB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027750-antitoxin_cptB|ygfY|sdhE-K09159	NA	NA
BMS010_06131	2106	recG_2	COG1200	ATP-dependent DNA helicase RecG	ATGCGCCCGGCCATTCTTGATCCGCTGTTTGCCTCCGTCTCCACCCTTGCCGGTGTGGGGCCGAAACTTGCCGATCTTCTGGCCAAGCTGCTCAGCCGGGAAAGCGCCGACGACACCCGCGTCATCGATCTCCTCTTCCACGCGCCATCCAACGTCATCGACCGCCGCAACCGCCCCGGCATTGCGCTGGCAGCACCCGGCGCCATTGTCACCATTCAGGGACGCATCGACCGCCACCAGCCGCCACCGCCGGGAAACCGCAACGCGCCCTATCGCGTCTTCCTGCATGACGAAACCGGTGAACTGGCGCTGACCTTCTTCCGCGCCAAGGGCGACTGGCTGTCCAAGGCCCTGCCCGTCGATGAAGAGGTTCTCGTCAGCGGCAAGGTGGACTGGTTCAACGGCCGCGCCTCCATGGTGCATCCGGATTTCATGGTGAAGCTTTCCGAGGCGGAAAACCTGCCTTTGGTGGAAGCCGTTTATCCCATGACCGCCGGGCTGTCTGCCAAGGTGCTGCGCAAGGCAATCGAAGGCGGGCTTTCAAAGCTGCCGGTCTTTCCGGAATGGATCGATGAGACGCTCAAGACCCGCCATGGCTTCGGCGACGTCGCTTCAAGCTTCCGCGAATTGCACGACCCGCGCGACAGCGCCGATATCGAGCCGCAGGCGCCGGCACGCAGGCGGCTTGCCTATGACGAATTCCTCGCCGGGCAGCTGTCACTGGCGCTGGTGCGCCAGCGACTGCGCAAGGTGGCGGGCCAGCCGATCCGCGCCAGGGGCGATATCGCCGCAAAGATCCTGTCGCAACTGCCCTTCTCGCTGACGGCGAGCCAGAGCGCTGCGGTGAAAGATATCCTGACCGACATGGCCGGCGAAGACCGCATGTTACGCCTGCTGCAGGGCGATGTCGGCGCCGGCAAGACGCTGGTGGCGCTGATGGCGATGGCAACGGCCGTGGAAGCCGGCGGACAGGCGGTGCTGATGGCGCCGACCGAAATCCTTGCCCGGCAGCATTACGCCACCATCTCCAAACTCGCTCAGGCAGCAGGCATCACCGTCGAAGTGCTGACCGGCCGCACCAAGGGCAAGGAGCGCCGCGAGATCGAGGAGCGCGTCGCTTCCGGCGAAGCGCAGATCGTCATCGGCACCCATGCGCTGTTTCAGGACAGCGTGAGTTACAGGAATCTCGTGCTGGCAGTGGTGGACGAGCAGCATCGCTTCGGTGTGCACCAGCGCCTGCGCCTCACCGCCAAGGGCATCACGCCACATATGCTGGTCATGACAGCCACGCCCATTCCACGCACGCTGGTTCTGGCTGCTTTCGGGGACATGGATGTCTCCAAGCTCACCGAAAAACCGGCGGGCCGCAAACCCATCCAGACCGTGACGATCCCCACCGAACGGATAGGCGATATTGTCGAGCGACTGCGCGCGGCACTGAAGGAAGGCAAGAAGGCCTACTGGATCTGCCCGTTGGTGGAGGAAACGGAAGAGTCCGAGCTGATGTCGGCGGAGGAGCGCCACGCGGTTCTCTCACAGATGCTCGGCGCCAATATCGGCCTGATCCATGGACGCATGAGCGGCCCGGAAAAAGACGCTGCCATGCTCGCCTTCAAGAACGGCGAAACCCGCCTGCTGGTGGCCACGACAGTGGTCGAAGTGGGCGTCGACGTGCCGGATGCGACGATCATGGTCATCGAACATGCCGAACGTTTCGGCCTCGCACAGCTGCACCAGCTGCGCGGCCGTGTGGGACGCGGCGACGAAGCCTCCACCTGCATCCTGCTCTATAAAGGCCCGCTCAGCGAAAACGGCCGCGCTCGGCTGTCCATCCTGCGCGACAGCGAAGACGGCTTCCTGATTGCCGAGGAGGATTTGAAGCTGCGTGGTGAAGGCGAGCTGCTCGGCACCCGCCAGTCCGGCACGCCGGGCTTCCGCATCGCAAGCCTCGAAGCCCATGCCGACCTTCTGGAAATCGCCCGCAAGGACGCAGCCTACGTCATTGAGCGTGACCCCGAACTGACAGGTCCACGCGGCAATGCGCTGCGTACCCTGCTCTATTTGCACCGCCGCGACGAAGCGATCCGCTTCCTGCACGCCGGCTGA	MRPAILDPLFASVSTLAGVGPKLADLLAKLLSRESADDTRVIDLLFHAPSNVIDRRNRPGIALAAPGAIVTIQGRIDRHQPPPPGNRNAPYRVFLHDETGELALTFFRAKGDWLSKALPVDEEVLVSGKVDWFNGRASMVHPDFMVKLSEAENLPLVEAVYPMTAGLSAKVLRKAIEGGLSKLPVFPEWIDETLKTRHGFGDVASSFRELHDPRDSADIEPQAPARRRLAYDEFLAGQLSLALVRQRLRKVAGQPIRARGDIAAKILSQLPFSLTASQSAAVKDILTDMAGEDRMLRLLQGDVGAGKTLVALMAMATAVEAGGQAVLMAPTEILARQHYATISKLAQAAGITVEVLTGRTKGKERREIEERVASGEAQIVIGTHALFQDSVSYRNLVLAVVDEQHRFGVHQRLRLTAKGITPHMLVMTATPIPRTLVLAAFGDMDVSKLTEKPAGRKPIQTVTIPTERIGDIVERLRAALKEGKKAYWICPLVEETEESELMSAEERHAVLSQMLGANIGLIHGRMSGPEKDAAMLAFKNGETRLLVATTVVEVGVDVPDATIMVIEHAERFGLAQLHQLRGRVGRGDEASTCILLYKGPLSENGRARLSILRDSEDGFLIAEEDLKLRGEGELLGTRQSGTPGFRIASLEAHADLLEIARKDAAYVIERDPELTGPRGNALRTLLYLHRRDEAIRFLHAG				NA	NA	NA	NA	NA
BMS010_06132	273			hypothetical protein	ATGAACATGATCGACCCACGCCGCCCGCCACCCGCCTTCCGCAAGGGCTACGCGCTCTGTTCACCGCAGAATATCCTGCAGCCCGAGACATTTGCGAAGAGTGCGAAAAAGGCGATCGGCAAGGCGTTCAAGAAGCCCGGCCGCAAGAAGGCGTGGAGCCAGGCGATGGAAGAAGGCTGGAGCGTGCGGCTGGTCTATATGCGGCTTTTCGTTCCCGTATTCCACGCCACGACCACCGGTACGGAAGTGGATGATCTGGATGACGAGGACTGA	MNMIDPRRPPPAFRKGYALCSPQNILQPETFAKSAKKAIGKAFKKPGRKKAWSQAMEEGWSVRLVYMRLFVPVFHATTTGTEVDDLDDED				NA	NA	NA	NA	NA
BMS010_06133	141			hypothetical protein	ATGGGGCGGGTCGGACGCATCAGAGGAACACGGGAAGCCGTGCTTCCCGACATTTCCTACATCATTGCTTACCGCGTGGGCGGGGATATCGAAATTTTGACGATCATCCACACATCGCAGCGGTGGCCTTCGGCGCTTTAG	MGRVGRIRGTREAVLPDISYIIAYRVGGDIEILTIIHTSQRWPSAL	PGPT0027550_2491	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-ParE-ParD|paaAR_TOXIN-ANTITOXIN_SYSTEM,PGPT0027550-toxin_parE1_3_4-K19092	NA	NA
BMS010_06134	246			hypothetical protein	ATGACTGCATTTACTGTTCGTCTGCCTGATGAGGTTGCCGACAAACTCGACCAATTGGCGGAAAAACTTGACCGGTCGCGATCCTATATGGCGGCGCGGGCGATTGAGGACTTTATCGCCCGCGAGGAGTGGCAGCTTGCCGAGATTGAGGCGGGTGTGGCGGAAGCCGATCGCGGCGAGTTCGGGACATCTGAGGATCTCGCAAACATTGTCGGGAAATATGTAAAATCCGCTCGGCCGTCATGA	MTAFTVRLPDEVADKLDQLAEKLDRSRSYMAARAIEDFIAREEWQLAEIEAGVAEADRGEFGTSEDLANIVGKYVKSARPS	PGPT0027435_278	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-RelE|StbE-RelB|StbD_TOXIN-ANTITOXIN_SYSTEM,PGPT0027435-antitoxin_relB|pasA-K18918	NA	NA
BMS010_06135	669			hypothetical protein	ATGACCGATATTCCAGTCAAAATTTCATTCGCAGCCCGGCTGCGCAATAGTTTCCTCACGGGCGTTCTGATCCTCGCGCCCGTCACCATCACCATGTGGCTGGTGTGGAGCTTCCTGCAATGGGCGGATAGCTGGGTGAAGCCCTATATTCCGGCCCGTTACGATCCCGAGCAATATTTCGATGTGGCTATTCCCGGTTTCGGCCTGCTGATCGCCGTCATCGGCATCACGCTCATCGGCTTTCTCGGCAATAACCTCATCGGCAAATGGATTTTCGGCGTCGGCGAATCCATCCTCAACCGCATGCCGCTGGTGCGGCCGATCTACAAGAGCATCAAGCAGCTGTTCGAATCCGTCCTGAAGGAGCATTCGAACTCCTTCAAGAAGGTCGGCCTGATCGAGTTTCCGTCATCCGGCACCTGGGCGATGGTGTTCGTTGCCTCCGAGGCCAAGGGCGAGCTTGCCCATCGTTTCAATGAAATGGGCCAGCAGATGGTCGCCGTCTTCCTGCCGCCGACACCGGTGCCGACAGCCGGTTTTCTGCTGTTCGTGCCGAAAGACAAGATCGTGATGCTGGATATGACGCCGGAAGATGCGGCGAAACTGCTGATATCCGGCGGTCTGGTGGCCCCGGATTTCAAGCCGCCGAAGATGATTGCGCCGGTTTGA	MTDIPVKISFAARLRNSFLTGVLILAPVTITMWLVWSFLQWADSWVKPYIPARYDPEQYFDVAIPGFGLLIAVIGITLIGFLGNNLIGKWIFGVGESILNRMPLVRPIYKSIKQLFESVLKEHSNSFKKVGLIEFPSSGTWAMVFVASEAKGELAHRFNEMGQQMVAVFLPPTPVPTAGFLLFVPKDKIVMLDMTPEDAAKLLISGGLVAPDFKPPKMIAPV				NA	NA	NA	NA	NA
BMS010_06136	504			hypothetical protein	ATGATCGTCCGGCCGGAGCGGCAGGGGGATGAAGAAGCGATTGCTCGCGTTACGGAAGATGCTTTCCGTAACGTCGATTACAGCGACAAGACGGAACATCTGATCGTCGAGCGGTTGCGCAGGGCGGGCGCGCTCACCGTTTCACTGGTTGCTGAGGACAGCGAAGGCATCATCGGCCATGTCGGTTTTTCGCCGGTGACGCTCACCAGCGGCGAGACCGGCTGGTTCTGTCTCGCGCCGCTTTCCGTAACGCCGGAACGGCAGGGGCAGGGCGTCGGCTCCAGGCTGGTGCGGGACGGGCTTGCCGTTCTGGAGCGTCTGAATGCTTCCGGCGTGGTTGTCGCGGGCGATCCGGACTATTATGGCCGCTTCGGTTTTCGCCATGTCGAAGGGGCCAAGGCGGAAGGGATTCCTGACGAATATTTCACAGTTCTTCGCTTGCATGGTGGAACTCCATCCGGCATTGTCGGTTTTCATCCGGGTTTCGATGGCGACAACGCTTAA	MIVRPERQGDEEAIARVTEDAFRNVDYSDKTEHLIVERLRRAGALTVSLVAEDSEGIIGHVGFSPVTLTSGETGWFCLAPLSVTPERQGQGVGSRLVRDGLAVLERLNASGVVVAGDPDYYGRFGFRHVEGAKAEGIPDEYFTVLRLHGGTPSGIVGFHPGFDGDNA				NA	NA	NA	NA	NA
BMS010_06137	1827	nodM		Glutamine--fructose-6-phosphate aminotransferase [isomerizing]	ATGTGCGGAATTGTCGGAATTGTCGGAACCCAGCCCGTTGCTGAACGGCTTGTCGATGCGCTGAAGCGTCTCGAATATCGTGGCTACGATTCAGCCGGCGTTGCAACGATCGACAATGGCGCGATGGACCGCCGCCGGGCGGAAGGCAAGCTGTTCAATCTCGAGAAGCTGGTTTCGGAAAAGCCGCTACCGGGTGTGGTCGGCATCGCCCATACGCGCTGGGCAACGCATGGTGTTCCCAACGAAACCAATGCCCATCCGCATTTCGTCGATGGCGTTGCCGTCGTGCATAACGGCATCATCGAAAACTTCGCGGAACTGCGTGAAGAGCTGACCGCCGAGGGCGTGACCTTCACCACCCAGACCGATACCGAAGTGGTGGCGCAGCTTCTGGCGAAATATACCCGCGAGGGTCTTGGCCATCGCGAGGCGATGCTGAAGATGCTGAACCGCGTGACCGGCGCCTATGCTCTGGTCGTCATGTTCAAGGACGATCCCGGCACGCTGCTTTCGGCGCGCTCCGGCCCGCCGCTTGCCGTTGGTTACGGTCGGGGCGAAATGTTCCTTGGTTCCGACGCCATCGCGCTGTCGCCCTTCACCAACGAGATCACCTATCTGGTGGATGGCGACTGCGCCATCGTGACCCGGCAGGGTGCGGAAATCATCGATTTCGCCGGCAAGCCGGTGAAGCGCGAGCGTCAAATCTCGCAGGCGACGGCCTATGTGGTCGACAAGGGCAACCATCGCCACTTCATGGAAAAGGAAATCTACGAGCAGCCGGAAGTCATTTCCCATGCGCTCAGCCACTATGTGGATTTCGCTTCCAAGACCGTGAAGCAGGCGGACACGGCCATCGATTTCGCCAAGCTTTCCGGCCTTGCCATCTCCGCCTGCGGCACGGCCTATCTGTCCGGCCTGATCGGCAAATACTGGTTCGAACGTTATGCCCGCCTGCCGGTGGAAATCGATGTCGCCTCGGAGTTCCGCTACCGCGAAATCCCGCTCGTCCCCACGCAGGCTGCGCTGTTCATTTCGCAATCGGGCGAAACCGCCGATACGCTGGCGGCCCTGCGTTATTGCCAGCAGGAAGGGCTGAAGATCGGCGCGGTGGTCAACACGCGTGAATCCACCATGGCACGCGAATCCGATGCGATCTTCCCGATCCTTGCCGGTCCGGAAATCGGCGTCGCCTCCACCAAGGCCTTCACCTGCCAGCTTGCCGTGCTCGCTTCGCTCGCCGTTGCCGCCGGAAAAGCGCGCGGTACGGTCACGGCCCAGCAGGAAACCGAACTGGTTCGCCATCTCACCGAGATGCCGCGCATCATGAGCAAGGTTCTCAACAGCATCCAGCCGCAGATCGAAGCGCTGTCGCGCGATCTGTCGCGTTTCAAGGACGTGCTTTATCTCGGCCGCGGCACCAGCTTCCCGCTGGCGCTGGAAGGCGCGCTGAAGCTCAAGGAAATCTCCTATATCCACGCCGAAGGTTATGCCGCCGGCGAGTTGAAACATGGCCCTATCGCGCTGATCGACGAGAACATGCCTGTTATCGTCATCGCGCCGCATGATCGCTTCTTCGAAAAGACCGTTTCGAACATGCAGGAAGTCGCCGCGCGCGGCGGCCGTATCATCTTCATCACCGACGAGAAGGGCGCGGCGGCTTCCAAGCTCGACACCATGGCGACGATCACGCTGCCCAATGTCGATGAGCTTATTGCGCCGATGGTCTTCTCGCTGCCGATCCAGCTGCTCGCCTATCACACCGCCGTCTTCATGGGCACGGATGTGGACCAGCCGCGCAATCTGGCGAAATCGGTAACGGTGGAATGA	MCGIVGIVGTQPVAERLVDALKRLEYRGYDSAGVATIDNGAMDRRRAEGKLFNLEKLVSEKPLPGVVGIAHTRWATHGVPNETNAHPHFVDGVAVVHNGIIENFAELREELTAEGVTFTTQTDTEVVAQLLAKYTREGLGHREAMLKMLNRVTGAYALVVMFKDDPGTLLSARSGPPLAVGYGRGEMFLGSDAIALSPFTNEITYLVDGDCAIVTRQGAEIIDFAGKPVKRERQISQATAYVVDKGNHRHFMEKEIYEQPEVISHALSHYVDFASKTVKQADTAIDFAKLSGLAISACGTAYLSGLIGKYWFERYARLPVEIDVASEFRYREIPLVPTQAALFISQSGETADTLAALRYCQQEGLKIGAVVNTRESTMARESDAIFPILAGPEIGVASTKAFTCQLAVLASLAVAAGKARGTVTAQQETELVRHLTEMPRIMSKVLNSIQPQIEALSRDLSRFKDVLYLGRGTSFPLALEGALKLKEISYIHAEGYAAGELKHGPIALIDENMPVIVIAPHDRFFEKTVSNMQEVAARGGRIIFITDEKGAAASKLDTMATITLPNVDELIAPMVFSLPIQLLAYHTAVFMGTDVDQPRNLAKSVTVE	PGPT0017630_3928	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_METABOLISM,PGPT0017630-glmS|nodM-K00820	NA	NA
BMS010_06138	1362	glmU_1		Bifunctional protein GlmU	ATGGAGCGCAGCTCTCTAGCCGTTATTCTCGCAGCGGGCGACAGCACGCGCATGAAATCGTCGAAATCCAAGGTGCTGCATCCGGTCGCCGGGCGTCCGATGATCAGCCATGTGGTTGAGGCGGTGGCTGGATCTGGCGTCGGCACGGTGGCGCTGGTGGTCGGGCGCGATGCCGACAACGTCGCTGCCGCCGCAAGCATGAAGGGTCTTCAGGTCGAAGCTTTCCTGCAGACGGAACGCAAGGGCACCGGCCATGCGGTTCTTGCCGCACGCGCAGCCATCGAGCGCGGTTTCGACGATCTCATCGTTGCCTATGGCGATGTCCCGCTCATCACGTCCGCAACGCTCGACCGGGCGCGTGAGGCGATTGCCGCCGGCGCCGATGTCGCTGTCATCGGTTTCCATACCGACCGCCCGACCGGTTACGGCCGGCTTCTGGTCAAGGATGGCGAACTTGTCGCTATCCGCGAGGAGAAGGACGCGACCGATGCGGAGCGTAAGGTCACCTGGTGCAATAGCGGATTGATGGCCATCAACGGCCGCAACGCGCTGGACCTGCTCGACCGGATCGGCAACAGCAATGTGAAAGGCGAATATTATCTGACCGACGTGGTCGAGATCGCCCGTTCCCTCGGCCGCCGCGCCGTCGCCATCGATGCGCCCGAAACGGAACTGGTCGGCTGCAACAACCGCGCCGAACTGGCCTTTATCGAGAAGCTCTGGCAGGAGCGCCGCCGCCACGAACTGATGGTGGATGGCGTTTCGATGGTTGCACCCGAAACCGTCTTCCTCTCCTATGACACCAAGATCGGCCAGGACGTTTTGATCGAACCGAATGTCGTCATCGGTCCCGGCGTCACCATCGAGCCGGGCGCCATCATCCATGCGTTTTCGTATCTGGAAGGGGCGCATGTCGCCGAAGGTGCGGCCGTCGGCCCCTATGCGCGGCTGCGTCCGGGCGCGAACCTTCATGCCAATGCCAAGGTGGGCAATTTCTGCGAGGTCAAGAAGGCGGAGATCGGTGAGGGCGCCAAGGTCAACCATCTGACCTATATCGGCGATGCATTCATCGGCGCGGGCAGCAATATCGGTGCGGGCACCATCACCTGCAATTACGACGGCTACAACAAGGCTGAGACGCGCATTGGCGCCAACAGCTTCATTGGCTCGAACTCGTCGCTGGTTGCACCTGTCACCATTGGCAAGGGTGCCTATATCGCTTCCGGCAGCGTCATTACCGATGACGTGCCTGAAGATGCGTTGGCGTTCGGGCGCGCACGCCAGGAGGTGAAACCCGGTCGCGCGACTGTGGTGCGCGAGCGGGCGAAGGCGCTGAAGGAAGCGAAGAAAAAGTCGTCCTGA	MERSSLAVILAAGDSTRMKSSKSKVLHPVAGRPMISHVVEAVAGSGVGTVALVVGRDADNVAAAASMKGLQVEAFLQTERKGTGHAVLAARAAIERGFDDLIVAYGDVPLITSATLDRAREAIAAGADVAVIGFHTDRPTGYGRLLVKDGELVAIREEKDATDAERKVTWCNSGLMAINGRNALDLLDRIGNSNVKGEYYLTDVVEIARSLGRRAVAIDAPETELVGCNNRAELAFIEKLWQERRRHELMVDGVSMVAPETVFLSYDTKIGQDVLIEPNVVIGPGVTIEPGAIIHAFSYLEGAHVAEGAAVGPYARLRPGANLHANAKVGNFCEVKKAEIGEGAKVNHLTYIGDAFIGAGSNIGAGTITCNYDGYNKAETRIGANSFIGSNSSLVAPVTIGKGAYIASGSVITDDVPEDALAFGRARQEVKPGRATVVRERAKALKEAKKKSS	PGPT0018955_3042	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-GLUCOSAMINE_MODIFICATION,PGPT0018955-glmU-K04042	NA	NA
BMS010_06139	750	nanR_2		HTH-type transcriptional repressor NanR	TTGCAGCGCGGAATGCTCGATGCGGCTATCGGTTTTCGAAAGCTGCAGACAAATCATGCACAGGTCGTTCACAAGCTCGGTCTCGATATCGTGTCCGGCACCTTCAAGACGGGTGATATCCTGCCGGGCGATGCCGAGCTGATGGAGCGGCTGAAAGTATCACGCACAGTGCTGCGCGAAGCGATGAAGACGCTGACCGCCAAGGGCATGATTTCCCCCAAGGCGCGTATCGGCACCCGGGTGACGGAGCGCGAAAGCTGGAACATGTTCGACAGCGAAGTGCTGCTCTGGCATTTCGAGGCGGGCGTCAGCGACGAGTTTCTGCTGCATCTTTACGATATCCGTCAGGCCTTCGAGCCATATGGTGCGGGGCTTGCCGCGACGCGGGCAAAGGACGCGGATATCGCCAAGCTCGCCGCTTATGCCAACGAGATGGGCAATACGGCCTATTCAAAGGAAAAGCGCGCGCTTGCGGATATGAATTTCCATGTCCTCATCACCGAAATGTCCGGCAATCCGTTCATGCGCACCGTCGGTTCGCTGATAAAGGCGGCTCTGGTGGGTATTTTCCGGATGAGCAACCCGGAAACCGATCCCAATGAGATTTCCGACGTCTCCGCCTCCCACCTGCGGCTCGTGGAGGCGTTTCGCCTGCGCGATGAGGCCGCAGCGCGCCGCGAGATGGAAAGGCTGATCGAAAACGGCCGCCAGCAGGTGCTGGAATTCACTGCCCGTAACCCCCGGCGATAA	MQRGMLDAAIGFRKLQTNHAQVVHKLGLDIVSGTFKTGDILPGDAELMERLKVSRTVLREAMKTLTAKGMISPKARIGTRVTERESWNMFDSEVLLWHFEAGVSDEFLLHLYDIRQAFEPYGAGLAATRAKDADIAKLAAYANEMGNTAYSKEKRALADMNFHVLITEMSGNPFMRTVGSLIKAALVGIFRMSNPETDPNEISDVSASHLRLVEAFRLRDEAAARREMERLIENGRQQVLEFTARNPRR				NA	NA	NA	NA	NA
BMS010_06140	1074			Purine-binding protein	ATGAAAAAACTGGTCATCGCACTCGCCGCTTCGGTTGCGGCTCTCGGCGGCGTCGTTTCCTCGGCGGAAGCCGCCGACGCCAAGAAGGTCTGCTTCATCTATGTCGGTTCAAAGACCGATGGCGGCTGGACGCAGGCGCATGATATCGGCCGTCAGGAACTGCAGGCGCATTTCGGCGACAAGATCGAAACGCCGTTCCTCGAAAGCGTTCCGGAAGGTCCGGATGCCGAACGCGCCATCGAGCGCATGGCCCGTTCGGGCTGCGAACTGGTGTTCACCACCTCCTTCGGCTTCATGGATGCGACCGTAAAGGTCGCCCAGAAGTTCCCCAAGGTGAAGTTCGAACACGCCACCGGCTTCAAGACCGCCGAAAACGTCGCGACCTACAATTCGCGCTTCTATGAAGGTCGCTACATTCAGGGCCAGATCGCCGCGAAGATGTCGCAGAAGGGTCTCGCCGGCTACATCGCCTCCTTCCCGATCCCGGAAGTGGTGATGGGCATTGACGCCTTCGTGCTCGGCGCGCAGTCCGTCAATCCCGACTTCAAGGTGAAGGTCGTCTGGGCCAACACCTGGTTCGACCCCGGCAAGGAAGCCGATGCCGCCAAGGCGCTGATCGACCAGGGCGTCGACATTCTGACCCAGCACACCGACACCACTGCGCCGATGCAGGTTGCGGCAGAACGCGGCATCAAGGCCTTCGGTCAGGCTTCCGACATGATCGCGGCCGGTCCGAAGACGCAGCTTACCGCCATCAAGGACACCTGGGGCGCCTATTACATCAAGCGCACGCAGGCTCTTCTCGATGGCACCTGGAAGTCCGAATCCGTCTGGGACGGCCTGAAGGACGGCATCCTGACCATGGCGCCCTATACCAACATGCCTGACGACGTGAAGAAGATGGCTGAGGATACCGAAGCCAAGATCAAGTCGGGCGAGCTGCACCCTTTCACCGGCCCGGTGAAGAAGCAGGACGGTTCGGAATGGCTGAAGGCGGGTGAAAAGGCCGAGGACGGCGTTCTGCTCGGCCTCAACTTCTACGTCGCGGGCGTGGACGACAAGCTGCCGCAATAA	MKKLVIALAASVAALGGVVSSAEAADAKKVCFIYVGSKTDGGWTQAHDIGRQELQAHFGDKIETPFLESVPEGPDAERAIERMARSGCELVFTTSFGFMDATVKVAQKFPKVKFEHATGFKTAENVATYNSRFYEGRYIQGQIAAKMSQKGLAGYIASFPIPEVVMGIDAFVLGAQSVNPDFKVKVVWANTWFDPGKEADAAKALIDQGVDILTQHTDTTAPMQVAAERGIKAFGQASDMIAAGPKTQLTAIKDTWGAYYIKRTQALLDGTWKSESVWDGLKDGILTMAPYTNMPDDVKKMAEDTEAKIKSGELHPFTGPVKKQDGSEWLKAGEKAEDGVLLGLNFYVAGVDDKLPQ	PGPT0021055_2324	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021055-bmpA-K07335	NA	NA
BMS010_06141	921			hypothetical protein	ATGGATATGCTTCAGGCCATTCTCCTCACCGTCATCACCGCCGCCACGCCGCTCGTTATCGCCGCTTCCGGCGAGCTGGTGACGGAGCGCTCCGGTGTCCTCAATCTCGGTGTCGAGGGCATGATGATCATGGGTGCGGTCTGTGCTTTCGCGGCCGCGCATATGACCGGATCTCCCTATCTCGGCATTCTCGCCGGCATTGCCTCGGGTGCGGTTTTCTCGCTGCTCTTCGGTTTCCTGACGCTGACGCTCGTTACCAATCAGGTGGCGACGGGCCTTGCGCTCACCATTCTCGGCCTCGGCGTCTCGGGCATGCTGGGTGAAAGTTTCGTCGGCCTGCCGGGTGTGAAACTGCAGCCCATCGTCTTTCCGCTGCTGTCGGATATTCCCTTCTTCGGTCCGCTGCTGTTCCGGCAGGATTTGATCTTCTACCTCTCCATCGCGCTTGTCGCCGGCATCGGCTGGTTTCTGTTCAAGAGCCGGACGGGCCTGAAAATCCGCGCCATCGGCGACAGTCACGCGTCGGCCCATGCGCTCGGCATCAATGTCATCCGCACCCGTTATCTCGCCGTCATGTTCGGCGGCGCCTGTGCCGGGCTTGCCGGGGCGCAGCTGTCGCTGGTCTATACGCCGCAATGGGTGGAAAACATGTCGGCCGGGCGCGGGTGGATTGCGCTGGCGCTCGTCGTCTTCGCCTCCTGGCGCCCATGGCGGGTGCTGGCGGGCGGCTATCTGTTCGGCGCCGTCACGATCGGCCAATTGCACGCGCAGGCCTTCGGCATCGGGGTGCCATCGCAACTGCTTTCGGCACTACCTTACCTTGCAACTATTGTCGTGCTGGTCATCATCTCGCATAATCGCCGCACGACCTTGATCAACACGCCGGCCTCGCTTGGCAAATCCTTCGTGCCGGACAGGTGA	MDMLQAILLTVITAATPLVIAASGELVTERSGVLNLGVEGMMIMGAVCAFAAAHMTGSPYLGILAGIASGAVFSLLFGFLTLTLVTNQVATGLALTILGLGVSGMLGESFVGLPGVKLQPIVFPLLSDIPFFGPLLFRQDLIFYLSIALVAGIGWFLFKSRTGLKIRAIGDSHASAHALGINVIRTRYLAVMFGGACAGLAGAQLSLVYTPQWVENMSAGRGWIALALVVFASWRPWRVLAGGYLFGAVTIGQLHAQAFGIGVPSQLLSALPYLATIVVLVIISHNRRTTLINTPASLGKSFVPDR	PGPT0021050_2415	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021050-nupC|yufQ-K23536	NA	NA
BMS010_06142	1092			hypothetical protein	ATGCGCATTGAGCTTGAAAAACGCGCGGGGGTTTCGAAGCTTTTCACCCTGCTTTCCCCGCTTCTGGCGCTCACGCTGACGCTGCTTGTCGGCGCGGTCATGTTCGCCATGCTCGGCAAAAATCCGGCTCACGCGCTTTACGCCTTTTTCGTCGAGCCGCTGCTGGAAGTCTGGTCGCTGCACGAGCTGGCGATCAAGGCCGCGCCGCTGATCCTGATCGGGGTCGGCCTGTCGATCTGTTATCGCTCCAATAACTGGAATATTGGCGCGGAGGGGCAGTTCACCATCGGCGCGATCACCGGCTCCATCCTGCCGGTGCTTTATCCGGACTGGCATTCGCCGCTGCTTTTGCCTTTGATGCTGGTGATGGGCGCCGTGGGCGGCGCGCTTTATGCCGGTATTCCCGCACTTTTGAAGACGAAGTTCAACACCAACGAAATCCTCGTCAGCCTGATGCTGGTCTATGTCGCGCAGCTTTTCCTCGACTGGCTGACGCGCGGCATCTGGCGCGATCCGGGCGGTTACAACTTCCCGCAGACCAAGCCGTTCAACGACAGCGCCGTTCTGCCGGAAATGCTGGCATCGGGCCGTGCGCATTGGGGTTTCGTTTTCGCCATCGTCGCGGCCATCGCGCTGTGGTTCATGATGCGCTACATGCTGAAGGGCTTCGAGGTTACCGTGCTCGGCCAATCCGCGCGGGCAGGGCGCTTCGCCGGTTTTTCCTCCAGCCGCATGGTGTGGTTTTCGCTGCTGCTCTCCGGTGCGCTGGCGGGGCTTGCGGGCATATCGGAGGCCTCCGGTTCCATCGGCCATCTCCAGCCCAGCATTTCGCCGGGTTACGGCTTTACCGCCATCATCGTCGCCTTTCTCGGCCGCCTCAATCCGCTCGGCATCATCCTTTCCGGGCTGGTGTTGGCGCTGACCTATCTCGGCGGCGAGGCGGCGCAGCTTTCCATCGGTGTATCGGACAAGGTGACGCGCGTGTTTCAGGGGCTGATGCTGTTCTTCGTGCTGTCCTGCGATACGCTGATCTTCTACCGCATAAGGGTGGTCTTCACCGGCAAGGCGCATCGTAAAGAAGGAGCGGCATGA	MRIELEKRAGVSKLFTLLSPLLALTLTLLVGAVMFAMLGKNPAHALYAFFVEPLLEVWSLHELAIKAAPLILIGVGLSICYRSNNWNIGAEGQFTIGAITGSILPVLYPDWHSPLLLPLMLVMGAVGGALYAGIPALLKTKFNTNEILVSLMLVYVAQLFLDWLTRGIWRDPGGYNFPQTKPFNDSAVLPEMLASGRAHWGFVFAIVAAIALWFMMRYMLKGFEVTVLGQSARAGRFAGFSSSRMVWFSLLLSGALAGLAGISEASGSIGHLQPSISPGYGFTAIIVAFLGRLNPLGIILSGLVLALTYLGGEAAQLSIGVSDKVTRVFQGLMLFFVLSCDTLIFYRIRVVFTGKAHRKEGAA	PGPT0021045_1822	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021045-nupB|yufP-K23535	NA	NA
BMS010_06143	1572	mglA_5	COG1129	Galactose/methyl galactoside import ATP-binding protein MglA	GTGACTGGAACTTTGGCGCCGGAGGCCGTGCCTCTCCTGTCCGTTCGCAAGCTGACCAAGCTGTTCGGCAATTTCGCCGCCTGCAACGGCATCGATCTCGATATTGCGCCGGGCGAAATCCACGCGCTTCTGGGTGAAAATGGCGCGGGCAAATCCACGCTCGTCAAGATGCTGTTCGGCGTTCTCGCCCCGACCGAGGGCGATATTATCTGGCAGGGCCAGCCGGTTTCCGTAGGCTCACCCAGTGAGGCTCGCCGGCTCGGCATCGGCATGGTCTTCCAGCATTTTTCGCTGTTCGAGGCGCTGACGGTTGCTGAAAACATCGCCCTGTCGCTCGATCCGAAAATTTCATTGAAGGAAATCGCCGGGCAAGCGGAAAAGCTGTCGCGCGCCTATGGTCTGCCGCTCGATCCCAATGCGCATGTGGCCGATCTTTCGGTCGGTGAGCGCCAGCGCATCGAAATCGTCCGCGCGCTTCTACAGAATCCGCGCCTGATCATTCTCGACGAGCCGACCTCGGTGCTGACGCCGCAGGAGGCCGACAAGCTGTTCGAGACGCTGGAGAAGCTGAAAGCCGAAGGCCGTTCCGTGCTTTATATCAGCCATCGTCTCGAAGAGGTGCAGCGCATCTGCGACCGCGCCACCGTTCTGCGTCACGGCAAGGTGACGGGCGCCTGCGATCCGCGCAGGGAAACGCCTGCATCGCTGGCGCGCATGATGGTGGGCAGCGATGTCGCAAGCGTTTCGCGGGCCACGGGCGAGGCGTTGGGTGCGCCGCAGATCGAGGTCATGGGGCTTTCGGTCGCGCCGCGCACGCCTTTTGCCGTGGCGTTGAAATCGATTTCCATGACTGTGCGCGCCGGCGAGGTGCTGGCGATTGCCGGCGTTGCCGGAAACGGGCAGGGCGAGTTGTTCGATGCGCTTTCCGGCGAATATCCGGTCTATAATAACGATGCGATCCATCTGCGGGGCAAGCCGGTCGGCCGTATCGGCATCAATGGTCGCCGGCTGATGGGCGCGGGTTTTGTGCCGGAAGAGCGCCATGGCCACGCCGCCGTTCCCGGCATGAGCCTTTCGGACAATCTGTTGCTGGCGCGGGCGCGCTCCGACCGCAAGGCGTTTCTGACCGGCGGTTTCCTGCGCATCGTGCGTGGCTCAGTCATTAAGGCGGCGGCGCGGCGTATTTCGGAAACCATGGATGTGCGCAAGAGTGGGGCAGACCCGCTGGCCGGGTCGCTATCCGGCGGCAACCTGCAGAAATTCATCGTTGGGCGCGAGCTTGACCGCCAGCCTGCCGTGCTGGTGGTCAATCAGCCGACCTGGGGCGTGGATGCGGGTGCGGCAAGCCGCATTCGCCAGGCGCTTGTCGATCTTGCCAAAGCGGGTTCGGCCGTCATCGTCATCAGCCAGGATCTCGATGAAATATTCGAAGTCGCCACCAATATCGCGGTCATTTCCGACGGCAAGCTCTCCGATGCCCATCCGGTGGAAGAGATGACGCTTGAAAAGATCGGCCTTTTGATGGGCGGCATTCACACGTCACATTCGGGAGCCGCCCAGCATGCGCATTGA	MTGTLAPEAVPLLSVRKLTKLFGNFAACNGIDLDIAPGEIHALLGENGAGKSTLVKMLFGVLAPTEGDIIWQGQPVSVGSPSEARRLGIGMVFQHFSLFEALTVAENIALSLDPKISLKEIAGQAEKLSRAYGLPLDPNAHVADLSVGERQRIEIVRALLQNPRLIILDEPTSVLTPQEADKLFETLEKLKAEGRSVLYISHRLEEVQRICDRATVLRHGKVTGACDPRRETPASLARMMVGSDVASVSRATGEALGAPQIEVMGLSVAPRTPFAVALKSISMTVRAGEVLAIAGVAGNGQGELFDALSGEYPVYNNDAIHLRGKPVGRIGINGRRLMGAGFVPEERHGHAAVPGMSLSDNLLLARARSDRKAFLTGGFLRIVRGSVIKAAARRISETMDVRKSGADPLAGSLSGGNLQKFIVGRELDRQPAVLVVNQPTWGVDAGAASRIRQALVDLAKAGSAVIVISQDLDEIFEVATNIAVISDGKLSDAHPVEEMTLEKIGLLMGGIHTSHSGAAQHAH	PGPT0021040_802	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021040-nupA|yufO-K23537	NA	NA
BMS010_06144	726	pcs	COG1183	Phosphatidylcholine synthase	ATGAAAATTTTCAACTATAAGCGTGTTCCCTACGCGGAAATCCGCGCCTTTTCCGTCCATATGCTCACGGCCTCCGGCTCGTTCCTGGCTTTTCTCGGCGTGGTCGCCGCAGCCGAACACCGTTTCGTCGACATGTTCTGGTGGCTGGGGCTTGCGCTTCTGGTGGATGGCATCGACGGTCCCATCGCCCGCAAGGTCAGGGTTAAGGAAGTGCTGCCCAACTGGTCTGGCGATACGCTCGATAATATCATCGACTATGTTACCTATGTGCTGCTGCCCGCCTTTGCGCTTTATCAGAAGGGCATGATCGGCGAGCCGCTGTCCTTCGTGGCCGCCGGCATGATCGTGGTGTCGAGCGCCATTTATTATGCCGACATGGGCATGAAGACGGACGAATATTTCTTCTCCGGCTTTCCGGTAGTGTGGAACATGGTGGTGTTCACCCTGTTCGTCATGGACGCCAGCGCCACCACGGCGATGATTGTCGTTACCGTTTCGGTGTTTTTGACATTCCTGCCGATCAACTTCCTGCATCCAGTGCGGGTGAAGCGATTGCGGCCGCTCAATCTCGCTGTGGTCTTCATCTGGTGCGCGCTTGGCGGTTATTCGCTGCTGATGCATTTCGAAACCCCGACCTGGGCCGTGATCGGCTTCGTGGCGAGCGGCATCTATCTTTATTGCATCGGTGGAATATTGCAGTTTTTCCCCTCGCTCGGCGCGAAATGA	MKIFNYKRVPYAEIRAFSVHMLTASGSFLAFLGVVAAAEHRFVDMFWWLGLALLVDGIDGPIARKVRVKEVLPNWSGDTLDNIIDYVTYVLLPAFALYQKGMIGEPLSFVAAGMIVVSSAIYYADMGMKTDEYFFSGFPVVWNMVVFTLFVMDASATTAMIVVTVSVFLTFLPINFLHPVRVKRLRPLNLAVVFIWCALGGYSLLMHFETPTWAVIGFVASGIYLYCIGGILQFFPSLGAK	PGPT0007745_244	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATIDYLCHOLINE_SYNTHASE_ACTIVITY,PGPT0007745-pcs-K01004	NA	NA
BMS010_06145	1209	ubiL_2	COG0654	Ubiquinone hydroxylase UbiL	ATGAGACACTTCGATATCGCCATCACCGGTGCGGGACTTGCGGGCCAGATCGCGGCCATCGCGCTGGCGCGGGCGGGCCGCCACGTGGCGCTCGTTGCACCTTCCAGCGACAGGAAGGACCAGCGCACCACGGCGCTGATGGACCAGTCCATCCGCTTCATGGACCGTCTCGGCCTGTGGTCGCGCATCGCGCCTTCGGCCGCACGCCTTTCCACCATGCAGATCATCGACGGCACCGAGCGCCTGCTGCGTGCACCCACCGTGCAGTTCCGCTCCTCCGAAATCGGACTGGATGCCTTTGGCTGGAACATCCCCAACGAGGCTTTGCTCGGCGTTCTGAGCGAAGCGGTCGAGCAGGAACACAATATTACCCGCCTCGATGCCACAGCCGAGACAATCGACATCGGCAACGACCGTGTATCGGTGACGCTTGGCGACGGCGAAACGCTCTCCGCCGATTTCCTCATCGGTGCGGATGGCCGCAAATCCATTGTGCGGGATGCTGCCGGCATCGGCGTCAAATCCTGGTCCTATCCGCAGACGGCCATTGTTTTGAACTTCGGCCATAGCCGGTCGCATGGCAATGTCTCGACGGAATTCCACACCCCCACCGGCCCTTTCACCCAGGTTCCCCTGCCCGGCAACCGCTCCAGCCTCGTCTGGGTCGTCACCCCGCAACGGGCGGAGGAATTGACGGCGCTGCCGCTGGAAGCGCTCAGCCTCCGGGTCGAGGAGCGAATGCAGTCCATGCTGGGAGCCGTCACCGTCGAGGACAGCGTGCAGGCATGGCCGCTCTCTTCCATGACCGCACACCGCTTCGGTAAGGGCCGCGTCGCCCTGATCGGCGAGGCCGCACATGGTTTTCCGCCCATCGGCGCGCAGGGGCTGAACCTCAGCCTGCGCGACATCATCGCACTGACGGAATTGCTGAGCGCCGTCTCCGACCGGCCGGTTGCGGCCGATGCCGGCAGCAGCTTCGACCGCAGGCGGCGGGCGGATGTCTACAGCCGCACGCTGAGCGTCGATCTCCTGAACCGCTCGCTGCTTTCCGATCTCCTGCCGGTGCAGATGGCGCGCGCGGCGGGCCTGCACGTGCTTTCCGGCATCGGCACGCTTAGAAGCATGGTCATGCGCGAGGGCATCGAACCCGGTCGTGGGCTGAAGGCCCTGCCCTCGCTGCTGTTCGGCAGCTTCAGAAAGGCTGGATGA	MRHFDIAITGAGLAGQIAAIALARAGRHVALVAPSSDRKDQRTTALMDQSIRFMDRLGLWSRIAPSAARLSTMQIIDGTERLLRAPTVQFRSSEIGLDAFGWNIPNEALLGVLSEAVEQEHNITRLDATAETIDIGNDRVSVTLGDGETLSADFLIGADGRKSIVRDAAGIGVKSWSYPQTAIVLNFGHSRSHGNVSTEFHTPTGPFTQVPLPGNRSSLVWVVTPQRAEELTALPLEALSLRVEERMQSMLGAVTVEDSVQAWPLSSMTAHRFGKGRVALIGEAAHGFPPIGAQGLNLSLRDIIALTELLSAVSDRPVAADAGSSFDRRRRADVYSRTLSVDLLNRSLLSDLLPVQMARAAGLHVLSGIGTLRSMVMREGIEPGRGLKALPSLLFGSFRKAG	PGPT0009550_1208	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009550-ubiH-K03185	NA	NA
BMS010_06146	939			hypothetical protein	GTGACGGATATCGTCGGATTGCTGTTGCCGTTTTTCGGCCTGATCTTCATCGGCTACGGGGCGGCGCGTATCACGAAGCAGCCGGTCGAGGCGATGGGCTGGCTGAATACCTTCATCATCTATGCGGCGCTTCCGGCGCTGTTTTTCAAGCTGGTGTCGAAAACGCCGGTGGAAGAACTGGCGCGAATGGATTTCGTCGCGGCCAGTCTCGCCTGCACCTATGGCATTTTCTTGGCTGTGTTCCTGATCGGCAGGTTCGTGCGGAAAAACAGCCTTGCCGAGACCACGATCCAGAGTTTCGCGGCAAGCTACGGCAATATCGGTTATATGGGGCCGGGGCTTGCGCTTCTGGCGCTTGGTGAAAAGGCGGCGGTGCCGGTGGCGCTGATCGTCTGTCTGGAAAACGCCGCCCATTTCATCGTCGCCCCGGCGATGATGGCGGTTGCGGGCGGTGACAAGCGCTCTCCGGCAAGACTTGCGCTGGATGTGGCGCGTAAGGTCATCACCCATCCCTTCATCGTCTCCGTCATCGCCGGCTTTCTTGCCGCTTCGCTGTCATGGCAGCCGCCGGAAGCGGTGCAGCGGCTGGTGGATTATCTGGCGCAATCGGCGGCGCCCTGCGCATTGTTTGCCATGGGCGTGACGCTGGCGCTTCGGCCGATGAAACGGGTGCCGGTGGAAATCAGCTATATCGTGCCGGCAAAGCTGATCCTGCATCCGCTTGCGGCTTATCTCGTGCTCTCGTCGCTCGGGCGGTTCGAGCCGGTGTGGATCTATTCGGCCGTGCTTTTGGCCGCTCTGCCGACCGCGACGAATGTTTTCGTCATCGGCCAGCAATATCACGTCTGGCAGGAGCGGGCGTCGGCAACGATCCTGATCTCGACGGTGCTTTCGGTCCTGACGCTGACCGGCGTGGTGTATTTCATCCAGCCTTTCTGA	MTDIVGLLLPFFGLIFIGYGAARITKQPVEAMGWLNTFIIYAALPALFFKLVSKTPVEELARMDFVAASLACTYGIFLAVFLIGRFVRKNSLAETTIQSFAASYGNIGYMGPGLALLALGEKAAVPVALIVCLENAAHFIVAPAMMAVAGGDKRSPARLALDVARKVITHPFIVSVIAGFLAASLSWQPPEAVQRLVDYLAQSAAPCALFAMGVTLALRPMKRVPVEISYIVPAKLILHPLAAYLVLSSLGRFEPVWIYSAVLLAALPTATNVFVIGQQYHVWQERASATILISTVLSVLTLTGVVYFIQPF	PGPT0001720_1606	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0001720-mdcF-K13936	NA	NA
BMS010_06147	762			hypothetical protein	ATGCGGAGTTCTTTCTTGTCGATTGCCGATATTTCCCTGTTCAGCGCGCTTCTGGCCGGCGCTCTTTCGTTTCTGTCGCCCTGCGTTCTGCCGCTGGTGCCGCCTTATCTCTGTTATATGGCGGGTGTTTCGGTCGAGCAGTTCAGGACGGAAGATACAGCGCCGCGGCCGGAGATTCGCAGGGCCGTGCTGTTTTCGGCCTTCTTCTTCACGCTCGGTTTCGCCACGGTCTTCGTGGCGCTGGGGGCCGGCGCCTCGACGATCGGTACGCTTCTGCGCCAGAATCTCGATATTCTCGCCAAGATCGGCGGTTTCATCATCATTCTGATGGGTCTGAATTTCCTCGGCGTGTTCCGCATCAGCCTGTTTTCGCGCGAAGCGCGGTTTCAGGGCGCGGGCAAGCCTGCCACGCTTTCCGGGGCCTATGTCATGGGTCTTGCCTTCGCCTTCGGCTGGACGCCCTGCATTGGCCCGGTTCTGGGGGCTATTCTCGGCGTCGCCGCTGCGCGCGATACGGTTGGCGACGGTGCGGCGCTGCTTGCGGTCTATTCTCTTGGCCTTGCGGTGCCGTTCTGGATCGCGGCGGCGTTTTCCGGCTCCTTCATGCGTTTCCTCGTCCGCTTCCGCCGCCATCTCGGCCTCGTGGAAAAGCTGCTCGGCGTATTGCTGGTGCTGACCGGTCTCGCTTTCATGTCCGGTTTTATCACCAATGTGGCGATCTGGTTCCAGGAGACCTTTCCGATCCTGATGCAAATCGGCTAA	MRSSFLSIADISLFSALLAGALSFLSPCVLPLVPPYLCYMAGVSVEQFRTEDTAPRPEIRRAVLFSAFFFTLGFATVFVALGAGASTIGTLLRQNLDILAKIGGFIIILMGLNFLGVFRISLFSREARFQGAGKPATLSGAYVMGLAFAFGWTPCIGPVLGAILGVAAARDTVGDGAALLAVYSLGLAVPFWIAAAFSGSFMRFLVRFRRHLGLVEKLLGVLLVLTGLAFMSGFITNVAIWFQETFPILMQIG				NA	NA	NA	NA	NA
BMS010_06149	1266			hypothetical protein	ATGACAACTGTCGAGAGCGCGAAAGGACGTCTGGTCCGTCAGCGTCTCGTCATCGCGGTTTCGCTGCTCGGGCTTTCCGGATGCGTTTCGGCAGTGACCGACGACGAGATGGCTGCCGCGACCAAAAAGCCGGAAATTTCCGCACAACAGAAGCCGCAGACCGCCGCTTCAACTGCTGCGGCCGGCGCGCAACAAGGACATTATGTGGATCCGGCCGTGGCATCGGCGGCCGGAGCGGCCGCACCAGCCCAGCCGCAGGCATCGGGCGGCCCGGCGCAGGCCTATGGCGCTGCCCCTGATATCGGCGGATTGACGACGCAGCCAACGGCGATTTCCGCAGGAACGACAAGCATTTATTCCACCGCATCCGCAGCAGCAGCGCCCTCCGGTGCTGCAGGGGCGCCGGGCACGGCCGCCGCTGCGGGCGCGTCGTCCCAGAGAATCGTTCCGGCCGTCAGCAGCGTCTATTCGGCGCCGGCGCAGCCGCAACCGGTGGCAGCGCCGGCTCAGGTCCCGCCAGCCGCACAGGCGCCGGCGGAACAGCACAGCGAAAATCGCCAGCCAGCATCCGTACCTGTGCCGCAATCGGCATCGGAACAGCTTGCGGCCGTTGCCGCGCAACCAGCTGTGGACGCCCGGGCGGCGGGCGAGGGGCAGGAAAGCGAGGGTAAGGGCGTAACGCTTGCGGCATTTTTCGCCGGTGCGGCCAAAAAGCGCCTGCCGAAAATGATTGAAAGCGGCACGGCCGGCAATACGCAGGTCGCCGCATTGCCCGGCGTTTCGGACGGGACGATGGGCATCGCCCTTTCCGGCCGCTCGATGATGTCCGACGAATTCGACGACGCCCATCTCGATGAAGAAGATGACCAGCCGACCGGCCTGATGAAGCTAGCCTCGCTCTCCGGCCTCACCCGCGTCGCCCCGAACGGGCTTTTCCTGCAGACGGACCGTGTCGAAGTCGGCTGTTTCAAGCCGGAACTGGTGCGGATGATCAAGGATGTGGAGCGCCACTATAACAGCCCGGCGATCGTCACCTCGGGCTATCGTCCGCCGAAGGGCATAAGGCAGGGCTCCAAGCACTACACCTGCGATGCCGCCGACATCCAGATCAAGGGCGTCTCCAAATGGGAGCTTGCCACCTATCTGCGTTCCCTGCCGGAACGCGGTGGCGTCGGCACCTATTGCCACACCGAATCGGTCCACATGGACACGGGTGAGCCAAGAGACTGGAACTGGCGCTGCCGCCGTACTGCCGCGCGCAAGTGA	MTTVESAKGRLVRQRLVIAVSLLGLSGCVSAVTDDEMAAATKKPEISAQQKPQTAASTAAAGAQQGHYVDPAVASAAGAAAPAQPQASGGPAQAYGAAPDIGGLTTQPTAISAGTTSIYSTASAAAAPSGAAGAPGTAAAAGASSQRIVPAVSSVYSAPAQPQPVAAPAQVPPAAQAPAEQHSENRQPASVPVPQSASEQLAAVAAQPAVDARAAGEGQESEGKGVTLAAFFAGAAKKRLPKMIESGTAGNTQVAALPGVSDGTMGIALSGRSMMSDEFDDAHLDEEDDQPTGLMKLASLSGLTRVAPNGLFLQTDRVEVGCFKPELVRMIKDVERHYNSPAIVTSGYRPPKGIRQGSKHYTCDAADIQIKGVSKWELATYLRSLPERGGVGTYCHTESVHMDTGEPRDWNWRCRRTAARK				NA	NA	NA	NA	NA
BMS010_06150	441	gloA_1	COG0346	Lactoylglutathione lyase	ATGCGGTATCTGCACACAATGGTTCGCGTCAAAGACCTTGGCGAATCACTGAAATTCTATGGTGACCTGCTGGGTCTTGAGGAAATACGCCGAATCGAGAACGAAAAAGGCCGATTCACTCTGGTGTTTCTTGCGGCGCGCGATGACATTGCTGCGGCGAAGGAAAACAAGGCGCCGTGCCTCGAACTCACCTATAACTGGGATACCGAGGATTATACCGGCGGCCGCAACTTCGGCCATCTGGCTTACGAGGTCGACAATATCTACGATTTCTGCGCCCGGCTTCAGCAGAACGGCATCGTCATCAACCGGCCGCCGCGTGACGGGCACATGGCCTTCGTGCGCTCGCCGGATGGCATTTCCTTCGAAATTCTGCAGAAGGGCGAAAGCCTCGCACCAGCCGAACCGTGGATATCTATGCAGAATACCGGTTCCTGGTAG	MRYLHTMVRVKDLGESLKFYGDLLGLEEIRRIENEKGRFTLVFLAARDDIAAAKENKAPCLELTYNWDTEDYTGGRNFGHLAYEVDNIYDFCARLQQNGIVINRPPRDGHMAFVRSPDGISFEILQKGESLAPAEPWISMQNTGSW	PGPT0013300_2061	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BLEOMYCIN_RESISTANCE,PGPT0013300-gloA|ywbC-K01759	NA	NA
BMS010_06151	579			hypothetical protein	ATGGCTGATAGGATGTCATCGAAAACGATAGTCGATGTCGAGGACCTTTCGGGCGATGCCGTGGACCTGACCGAAATTACCGGCGTCGTGAAGTGGTTCGATGTCGCCAAGGGTTTCGGCTTCATCGTGCCCGACAACGGCACACAGGATGTGCTGCTGCACGTCTCCTGCCTGCGCCGCGACGGTTACCAGACAATTCTTGAAGGCACGCGCATCGTCGCCCTCATCCAGCGGCGCGACCGCGGTTTCCAGGCGTTCCGCATCCTTTCCATGGACCAGTCGACCGCCGTTCACCCCTCGCAGCTGCCGCCGGTGCGCACCCATGTGCAGGTAACGCCTTCGAGCGGGCTGGAGCGCGCCATCGTCAAGTGGTTCAACCGCACCAAGGGTTTCGGCTTCCTGACGCGCGGCGAAGGAACGGAAGATATTTTCGTGCATATGGAAACCCTGCGCCGTTTCGGCCTGACGGAGCTTCGCCCCGGCCAGGTGGTGCTGGTGCGTTACGGCGATGGCGACAAGGGCCTGATGGCGGCGGAAATCCACCCCGACAACCCGGTTTCCATCGGGATGTCGCATTGA	MADRMSSKTIVDVEDLSGDAVDLTEITGVVKWFDVAKGFGFIVPDNGTQDVLLHVSCLRRDGYQTILEGTRIVALIQRRDRGFQAFRILSMDQSTAVHPSQLPPVRTHVQVTPSSGLERAIVKWFNRTKGFGFLTRGEGTEDIFVHMETLRRFGLTELRPGQVVLVRYGDGDKGLMAAEIHPDNPVSIGMSH	PGPT0014675_505	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
BMS010_06152	483			hypothetical protein	ATGTCCGCCCTGCCCCATATGGTGAAAAGCGCCATTATGGCGCTTCTTTTTTTCACGCTGGCCGCCGCCGCCCAGGCTCAGCAACAGCAGACTTTCACCTCCGAACCGCTGCAGATTGAAACCGCCGGGGGAAAGAACCACGATTTCACTGCCGAACTGGCGCTGAACAACGCCCAGCGCGAACAGGGCCTGATGTTCCGCAAGAGCATGCCGCTTGAAAACGGCATGCTGTTCGATTTCGGTGAGCCGCGTGACGTCGCCATGTGGATGCGGAACACGCTTATTCCGCTCGACATGCTTTTCATTGGCCGTGACGGCCGCATTACCCATATTCACGAAAACGCGGTTCCGCATTCGGAAGCGATCATCAGCTCCCGCGGGCCAGTAAAATTTGTGCTTGAACTGAATGGCGGCACTGCGAAGCGCTATGGCATCAAGCCGGGCGATATGGTTCGCAGCGCGCAAATCGGCAACCGGAAATGA	MSALPHMVKSAIMALLFFTLAAAAQAQQQQTFTSEPLQIETAGGKNHDFTAELALNNAQREQGLMFRKSMPLENGMLFDFGEPRDVAMWMRNTLIPLDMLFIGRDGRITHIHENAVPHSEAIISSRGPVKFVLELNGGTAKRYGIKPGDMVRSAQIGNRK				NA	NA	NA	NA	NA
BMS010_06153	249			hypothetical protein	ATGTTCAATTTGTCAGGCATTCAGGAAAGCTTCTTCGGAGACCGCATGGCCGGCGTATGCCAGGCAATCACATCGGCTCTGGCTTTCGAATCGGGTCTCGAGAAGTCGCGCATTTCCGCAACTGTCGAAAATGATGTGATCTATCTGGAAGGCACGGCCGATTCGGTCGAGGCGATCGACATCGCCATCAACCTTGCCGCTTCCATTTCCAATTGCCGGATTCTGAGCCATATCGAGCCGGTCTACTGA	MFNLSGIQESFFGDRMAGVCQAITSALAFESGLEKSRISATVENDVIYLEGTADSVEAIDIAINLAASISNCRILSHIEPVY				NA	NA	NA	NA	NA
BMS010_06154	270			hypothetical protein	ATGCTGATTAACAGAACGGAGCCGTGTCACCACGCCTCGTGGATGAAGCCGGTGGCAATCCACCTGCCGCTGTGTGTCGCGGTGGAAATCTACAGCCCGCTGGTGGCGCTGGACATGCTGATGTATCGTTGGCCCGAGGAACACGGGCCGGAATATGAAGAGGCGCGCAGGAACTGCCTCGATGCCATCGCCGGCAGATGCGACATCGAGAAAGCACGGGAATCGTTTCTCATCGCAAGCAGTCACGCCCATATCCTGAACGTCCACTAA	MLINRTEPCHHASWMKPVAIHLPLCVAVEIYSPLVALDMLMYRWPEEHGPEYEEARRNCLDAIAGRCDIEKARESFLIASSHAHILNVH				NA	NA	NA	NA	NA
BMS010_06155	1197			hypothetical protein	ATGGAATCGATTGGCGCGCAGACCGCCAAAAGCTTGGGAGTGGAACTGGCCAGCATGGAAACTGTCTTTGCCCTTTGCGCAATTCTGCTCCTCGGCTTCAATCTTCTCGGCATCGTTCTGGCCGGCTGGCGACTGACGAGACGGGACGCGGAAAACGATCTCGTCCGGCAAAAGCCGCCTGTCTCGCTTGTGGTGCCGCTGCGCGGCGTGGAGAACTTCACGGCCCTGACGCTGTCGCGCGCCTTCGAGCTCAACTGGCCCGATTATGAGCTGCTGTTCTGCGTCGCCGATGAATTCGATCCGGTGATCGAGGAGGTTCGCAAAGCGCAAGCCGCCTTCCCCTCGGTTTCCATGCAGTTGCTCATTGGCGATGACCGCATCAGCGCCAATCCGAAACTGAACAATTGCGTCAAGGGCTGGCGGGCCGCCCGACATGAATGGGTAATTCTCGCCGATTCGAACGTGCTGATGCCAAAATCCTATATTGCGACCATGATGTCGGCCTGGCGGCAGGATAGCGGGCTCGTCTGCTCGCCGCCACTCGGCTCAAGGCCTGCGGGTTTCTGGGCGCATGTGGAATGCGCCTTCCTCAACGGCTCGCAGGGGCGCTGGCAATATGCGGCGGAAGCCATCGGCATGGGTTTCGCACAGGGCAAGTCGATGTTGTGGAACAAGCCGTTTCTCGAAGACAATGGCGGCATTCGCGCGCTGGCCGCTGAAATCGCCGAAGACGCCGCTTCGACGAAGCTGGTGCGAAGCGCCGGCCGCAAGGTGCATCTGGTCTGCGCCCCCTTCGAACAGCCTCTCGGCCAGCGCCATGCCGGCGAGATCTGGTCGCGCCAGACCCGCTGGGCGCGGCTGCGACGCGTGACCTTCCCGCAATATTTCGCGCCGGAAATCCTCACCGGCGCGCTTCCCCCGCTTCTCTTCGCGCTCGCCGCCGCCGTCATGATGGATGTAAACCTCGCCGCAACCGCCTTTTCCGTCCTCGCCCTCATGTATGTGCCGGAACTTGCACTTGCAGCCCTCAACCGCTGGCCGATATCGCTCCATACGCTGCCGGCAATGATCGCCCGTGACATGATCATGCCTGTCGTCTGGGCGCGAAGCTGGATCGGCAGCGCGGTGGCATGGCGCGGCAATGTCATGACGATAGGCACGGCAGAGAGCACTTTGGCCGGGCCGTCCGCGGAATAA	MESIGAQTAKSLGVELASMETVFALCAILLLGFNLLGIVLAGWRLTRRDAENDLVRQKPPVSLVVPLRGVENFTALTLSRAFELNWPDYELLFCVADEFDPVIEEVRKAQAAFPSVSMQLLIGDDRISANPKLNNCVKGWRAARHEWVILADSNVLMPKSYIATMMSAWRQDSGLVCSPPLGSRPAGFWAHVECAFLNGSQGRWQYAAEAIGMGFAQGKSMLWNKPFLEDNGGIRALAAEIAEDAASTKLVRSAGRKVHLVCAPFEQPLGQRHAGEIWSRQTRWARLRRVTFPQYFAPEILTGALPPLLFALAAAVMMDVNLAATAFSVLALMYVPELALAALNRWPISLHTLPAMIARDMIMPVVWARSWIGSAVAWRGNVMTIGTAESTLAGPSAE				NA	NA	NA	NA	NA
BMS010_06157	357			hypothetical protein	ATGAATAATTCGGGGCGTTTCGCCCCGCTGTCCAACCGGAGCAGTTTCGACATGTCTGCGAAGATTTACCGCCCTGCAAAAACCGCCATGCAATCCGGCAAGGCGAAAACCAATGTCTGGGTTCTGGAATTCGACGCCGAGGTTCCGCGCAAGATCGATCCGATCATGGGCTACACCTCCAGTTCCGACATGAAGCAGCAGCTAAAGCTGACATTCGAGACGCAGGAACAGGCCGAAGCCTATGCCCAGCGCAAGGGCATCGAATACCGCGTCATCCAGCCGAAGGAGGCGACCCGCAAGGTGGTTTCCTACACCGACAATTTCCGTTTCAACCGCACCCAGCCCTGGACGCACTGA	MNNSGRFAPLSNRSSFDMSAKIYRPAKTAMQSGKAKTNVWVLEFDAEVPRKIDPIMGYTSSSDMKQQLKLTFETQEQAEAYAQRKGIEYRVIQPKEATRKVVSYTDNFRFNRTQPWTH				NA	NA	NA	NA	NA
BMS010_06159	462			hypothetical protein	ATGCTTCTCTTGCCGTTGTCCATGACCGTAGGCATCGTCTGCGGAGCTCTCGTCTTTGACCCAGGTATGTCCAGCAAGACAGAAGCGATCGTGGTTTCGATCGTGTTTTTTCTTCTCGTATCTGTCTCCGGAATAAACTTCTGGACGAATGACAGCCTGATAAGCGTGAACGCTCAGTTGGTGATCGACGTTTTCTTGAGCATTTCTGCTCTGGCCGTCATCATCCTGCTGCTTCGGTGGGAACCAACGCGTCCGACGACGCTGGCTGTCCAGAGAGTTGCGTTATTCCTGATAACTGTCTTTGGGTTCGTCTTGCCCCTATTTTACGGAACAAGCCTATTGCTGCAGGGGATGGGTTTCGAAGGTGAGCTGAAAACGATCTCCGACTTTATCGGCTTCATCTCCGCCGCATTGGGACTGGCTGTGGCAGCCGCGCCAAATCTGTTAGCGAAGCGTAGCTGA	MLLLPLSMTVGIVCGALVFDPGMSSKTEAIVVSIVFFLLVSVSGINFWTNDSLISVNAQLVIDVFLSISALAVIILLLRWEPTRPTTLAVQRVALFLITVFGFVLPLFYGTSLLLQGMGFEGELKTISDFIGFISAALGLAVAAAPNLLAKRS				NA	NA	NA	NA	NA
BMS010_06160	156			hypothetical protein	ATGAACGACAATGTGGTGAAGTTCCGCAAACCGGTGCCGCCGAAAAAGCCACGCGAACCGTTAGGGCCGAAAGCGAAGAAGGCTCTGACGATTGCGGCTGTCATTGCGTTTTTTGTGGCGGTGTGGGGGTATTTCACGTTGATGGGGCAGGGGTAG	MNDNVVKFRKPVPPKKPREPLGPKAKKALTIAAVIAFFVAVWGYFTLMGQG				NA	NA	NA	NA	NA
BMS010_06161	1299	mdtA_7		Multidrug resistance protein MdtA	ATGAATGACGCCAATACGAGTGGCAGCGATACCGAAAGCAACCAGCCCGATCTGCGCGAGATTCTGGGAACGAACAGAAACGGCCGCAAGAAAAAGTCGCGTCGGTATCTCTATGCCGCAGCAACCCTTGTGCTGATTGGCGGTGGCCTTGGTTATTATTACCAGTCGCGTGCCGCAGGCGTCGCCTATAGCTATACCACGGAAGCCGCGCGTCAGGGCGATCTCTCGGTCATCGTCACCTCCACCGGCTCGGTTCAACCAACGGATCAGGTCGATATATCGAGCGAACTCTCCGGCACCGTACGCAAGGTCAACGTCACCTATAATACCCCGGTCAAGGCCGGAGACGTTCTGGCGGAGCTGGATACCAACAAGCTGGAGGCCGACGTCCAGAGCGCCCGCGCAAAACTCGCCTCTGCCAAAGCCAATGTGCTGAAGGCGCGCGCCGATCTCGGCTCGGCAAAGACGTCCATGGAGCGCCTGCGATCCCTGGTGCAGAACCGTGTGTCCAGCCAGCAGGATCTGGATGCGGCACAGTTCACCCACGATGCCGCCGCTGCGACGCTGGAGGTGAATGAAGCAACCGTGCTTTCGGCGGAAGCGGATCTGAGGCTCGCCGAAGTCAATCTCGGCAAGGCGAAGATCGTCTCACCCATCGATGGCGTCATCCTCACCCGCAGCGTCGATCCGGGCGCCACCGTCGCCTCCTCGCTCAACGCCCCGGTGCTGTTCACCATCGCAGGCGATCTGCGCCATATGGAATTGCAGGTGTCCGTGGATGAGGCCGATGTCGGCAAGGTCGAGACCGGACAGAAAGCCACCTTCAACGTCGATGCCTATCCTGACCGCAGTTTTCCGGCCGAGATCGAGACCGTGCGTTTCGCTTCCGAGACCGTGTCGAATGTGGTCACCTACAAGGGCATATTGACCGTCGACAATGAAGAGCTGCTGCTGCGCCCCGGCATGACGGCGACCGCCAATATCGTCGTCGAAGAGATCAAGGATACGCTGCTGGTACCGAATTCCGCGCTTCGTTATACGCCGCCGCGCGAATCCGCCTCCCGTGGCGGCGGGCTGATGAGCCTGTTCCGCCCGCCGCGCATGGGCCGCTCGCAGAACCGCGATGCCGGCCAAGCCGCGCAGGCCAAAAGGACGGTCTGGGTGCTGCGCAACAACACGCCAGTCTCCGTCGCCATCGAAACCGGCTCCACCGACGGCCAGCATACCGTGGTAAAATCGGGCGAGTTGAAAGCCGACGATCAGGTGATTACCGACGCAACGGCCCGCAACGCCGGCTGA	MNDANTSGSDTESNQPDLREILGTNRNGRKKKSRRYLYAAATLVLIGGGLGYYYQSRAAGVAYSYTTEAARQGDLSVIVTSTGSVQPTDQVDISSELSGTVRKVNVTYNTPVKAGDVLAELDTNKLEADVQSARAKLASAKANVLKARADLGSAKTSMERLRSLVQNRVSSQQDLDAAQFTHDAAAATLEVNEATVLSAEADLRLAEVNLGKAKIVSPIDGVILTRSVDPGATVASSLNAPVLFTIAGDLRHMELQVSVDEADVGKVETGQKATFNVDAYPDRSFPAEIETVRFASETVSNVVTYKGILTVDNEELLLRPGMTATANIVVEEIKDTLLVPNSALRYTPPRESASRGGGLMSLFRPPRMGRSQNRDAGQAAQAKRTVWVLRNNTPVSVAIETGSTDGQHTVVKSGELKADDQVITDATARNAG				NA	NA	NA	NA	NA
BMS010_06162	720	yknY_2	COG1136	putative ABC transporter ATP-binding protein YknY	ATGCAACAGCCGCCGCTCATCGAATTCCGCGATGTCGTCAAGCAATATGGCCGCGGCGAAGCGACCATCCGCGCGCTCGATGGCGTCAGCCTCTCCATTCATGAGAAGGAATTCGTCGCCATCATGGGTCCATCAGGCTCCGGAAAATCCACCTCGATGAATATCATCGGCTGTCTGGATGTGCCGACATCAGGCGAATATCTGTTTCAGGGTGTGCCGACCAGCGGCTTCGACAACGAACATCTGACGCTGCTGCGCCGGCATATGCTGGGCTTCGTGTTTCAGGGCTTCAACCTTCTCTCGCGCACCTCGGCGGTGGAGAATGTCGAGCTACCGTTGATCTATCGCGGCATGAAGGCCTCGGAGCGGCGCGCGCGCGCCATGGAAGCGCTGGCGCAGGTGGGCCTGAAAGGCCGCGAGGACCACACCACGCAGGAGCTTTCCGGCGGCCAGCAGCAGCGCGTGGCCATTGCCCGCGCCATCGTCACCCGCCCCGCTTTGCTTCTCGCCGACGAGCCGACCGGCAATCTCGATACGAAGACCAGCATCGAAATCATGGAATTGATTACCGCGCTCAACCGCGACAGGGGCATCACGGTGGTCATGGTCACCCATGAAGAAGATATCGCCGCCCATGCCGGACGCCTCCTGCGTTTCGTCGATGGCCACCTCGCCTCCGACAGCGCGACGGACAAAAAGGAGACCGCCGATGTTCTTTGA	MQQPPLIEFRDVVKQYGRGEATIRALDGVSLSIHEKEFVAIMGPSGSGKSTSMNIIGCLDVPTSGEYLFQGVPTSGFDNEHLTLLRRHMLGFVFQGFNLLSRTSAVENVELPLIYRGMKASERRARAMEALAQVGLKGREDHTTQELSGGQQQRVAIARAIVTRPALLLADEPTGNLDTKTSIEIMELITALNRDRGITVVMVTHEEDIAAHAGRLLRFVDGHLASDSATDKKETADVL	PGPT0013345_6839	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
BMS010_06163	1209	macB_3	COG0577	Macrolide export ATP-binding/permease protein MacB	ATGTTCTTTGAAACATCGCGTCTTGCGCTGCGCGCCATCAGCCGCAACCTGCTGCGCTCCTTCCTCACCGTGCTCGGCGTCGTCATTGGTGTGGCCGCCGTCATCGCCATGGTCACAATCGGCAACGGCACGACCGAGCAGGTGAAATCGGAACTGTCGCGGCTCGGCACCAACATGCTGTTCGTTCGCCCCGGCCAGTTCGGCCCCGGAAGGGCCAGCACCGAAGCCAAGCGCTTCGATGACCGCGATGTCGAGGCCATCCGCAACCAGATAAGCGGCATCCGCGCCGTCGCGCCGCAGAACCGCAGCTCTGCCGCAACCGTCATTTTCGGCGGCAAGAACCACCAGACAAGCGTGATCGGCACCACCAACGACTATCTGATCGCGCAGGACTGGACCATCGCGCTCGGCCGCGATTTCCAGCCCGCCGAAGATCGCGGCGGCCAGATCGGCTGCATCATCGGCGAAACGGTGCGGCAGGAACTGTTCGGTGCGGAAAACCCGGTGGGGCAGACGATCCGCGTCAGCAACATCTCCTGCCCCGTTATCGGTGTGCTGGGCAGGAAAGGCCAGTCCGGCCTCGGCGACGATCAGGACGACACGATCATCATGCCGCTGAAAATCCATCAGCGGCGCATCGGCGGCACCACCACCATTTCCTCGATCATGGTCTCGGCGCAGGACGGCGTATCGACTGCCAAGGTGCAGAGCGACCTGCAAAACCTGCTGCGCGAGCGCCGCCGCATCGGCATCGGCCGCGAGGATGATTTCACCGTCAACGACATGACGCAGATCGCCTCAGCCATGACCGGCACGACGACGCTACTGACCGGACTTCTCGGTGCAGTCGCGGCCGTCAGCCTTCTGGTCGGCGGCATCGGCATCATGAACATCATGCTGGTGTCTGTGACGGAGCGCACGCGCGAGATCGGCATTCGCCTTGCCATCGGCGCACTGGAAAAACAGGTGCTGACGCAGTTTCTGGTGGAAGCCGTCATGCTCTCGGCCTTCGGCGGCCTTGTCGGCATCCTCACCGGCCTCGGCCTTGCTTATGCCGTCGTCGGTTATCTCAACGTGCCCTTCGTCACCAGCCCGTCGATCATCTTCCTCGCCTTCGCCTTTTCGGCGGCCATCGGGGTGATTTTCGGCTATTTCCCGGCACGACGGGCGGCGAGCCTGAGCCCGATAGAAGCCTTGCGGCATGAATGA	MFFETSRLALRAISRNLLRSFLTVLGVVIGVAAVIAMVTIGNGTTEQVKSELSRLGTNMLFVRPGQFGPGRASTEAKRFDDRDVEAIRNQISGIRAVAPQNRSSAATVIFGGKNHQTSVIGTTNDYLIAQDWTIALGRDFQPAEDRGGQIGCIIGETVRQELFGAENPVGQTIRVSNISCPVIGVLGRKGQSGLGDDQDDTIIMPLKIHQRRIGGTTTISSIMVSAQDGVSTAKVQSDLQNLLRERRRIGIGREDDFTVNDMTQIASAMTGTTTLLTGLLGAVAAVSLLVGGIGIMNIMLVSVTERTREIGIRLAIGALEKQVLTQFLVEAVMLSAFGGLVGILTGLGLAYAVVGYLNVPFVTSPSIIFLAFAFSAAIGVIFGYFPARRAASLSPIEALRHE	PGPT0013350_18001	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
BMS010_06164	528			hypothetical protein	ATGGTGACGGGAGTGGGGGAGCCCATCATTGAACAGGCAGACGATTTGATGAGGTCTCCACCCGATAATATTGCGAATGCGAAAGCCGCGGTGCGAGAGGCATTCGCGGGTGTTACCCTTGGTGGGGGCGTCGGCCTCTCCGAGGCGCAGGCGCTTGACGATTGTGCGAACAATGAGGTTCGCGCCGCATGTCGTGCTGGCGATGAGAAGAATGATTGGTCCGCGATCCCGCTGGAGGACCTCAACAGACATTCCGGCAGCCCCGCCTTCCTTGATGCTGAAGGAATGCGATTTCATTTGCCCGCCTATATGATCGCCGACCTCGATGGCGACTACAGGCACGAATTCGCACCCTATTTGCGCGGACGCCAGGAGACGTTTTCCTTACTGACCCCTTTGCAACGGAATGCCGTGGAAATGTATCTCCGCGCCATCAGCGAGAAGGAAAATCCGCCGTCCTATCAGGACGACATAGAGCGCGCGCTCGGAGAGTGGGTGGATAGTGCACGCTGCCCGGTGAGCGACTGA	MVTGVGEPIIEQADDLMRSPPDNIANAKAAVREAFAGVTLGGGVGLSEAQALDDCANNEVRAACRAGDEKNDWSAIPLEDLNRHSGSPAFLDAEGMRFHLPAYMIADLDGDYRHEFAPYLRGRQETFSLLTPLQRNAVEMYLRAISEKENPPSYQDDIERALGEWVDSARCPVSD				NA	NA	NA	NA	NA
BMS010_06165	234			hypothetical protein	ATGGACATCAGTAGCGCCTCGATTGATATCTGGACGATAGGGCTGATCGTCGCCAGCGTCGTGGCTGGCCTGACGCTGATTGCCGGTATTGTTTGCCTTGCGTTTTACCGGGAGGAGATAAAGGGATCTGTGGCATCCAGGGGTGACGCGTTGAACAACGCCCCGCTCGAACGGACCGAGGGTGGAGACTGGCCGACAGCGCATGGTGACGGGAGTGGGGGAGCCCATCATTGA	MDISSASIDIWTIGLIVASVVAGLTLIAGIVCLAFYREEIKGSVASRGDALNNAPLERTEGGDWPTAHGDGSGGAHH				NA	NA	NA	NA	NA
BMS010_06166	282			hypothetical protein	ATGTTCAAATCGGTATCGGACAGCGCCGCTGCCGCAGACGGCGGCTCGCTCGCCCTCTTCGTCGAACGGATTGACGGACAGACGGAGCTGTTTGTGATCAATCGCTCCCTCGCGTCACGCGGGACGCCCGACTACAACAAGATCACTTCGAGCCTTCGGCCGCTTGCCAAGGAGGATTGCGCAATGATCGCGGCCGCTCTCGAGCCGCTGTTGACAACGACACCATCGATTCATCCGCTGGCGGATTTTATCGATACGCTGAAACAGCAGTCATCCCGCTGA	MFKSVSDSAAAADGGSLALFVERIDGQTELFVINRSLASRGTPDYNKITSSLRPLAKEDCAMIAAALEPLLTTTPSIHPLADFIDTLKQQSSR				NA	NA	NA	NA	NA
BMS010_06167	390	sufA	COG0316	Protein SufA	ATGGGCTTTGCGATCATGACCATGACCGGGGCTGCTGCCTCGCGTGTTAAAGCAATCGTCGAGAATTCCGGACCGGATGCCAGGGGCGTGCGCGTCGGCATCAAGAAGGGCGGCTGCGCGGGCATGGAATATACCATCGACCTCGTGACCGAGCCGGATGCGAAGGACGATCTGGTGGAGTTCGAAGGGGCGAAGGTCTGGGTTCAGCCTTCCGCCGTGCTTTATCTGCTCGGTACGCAGATGGATTTCGAAGTGACCAAGATGCGTTCCGGTTTCACTTTCAATAATCCGAACCAGACATCCGCCTGCGGCTGCGGTGAATCGGTTGAGCTGAAGCCTGCCGATCTGGCGGCGCTGGCGAAGCAGCGTGAGGCAGAGGCCAACGTTTGA	MGFAIMTMTGAAASRVKAIVENSGPDARGVRVGIKKGGCAGMEYTIDLVTEPDAKDDLVEFEGAKVWVQPSAVLYLLGTQMDFEVTKMRSGFTFNNPNQTSACGCGESVELKPADLAALAKQREAEANV				NA	NA	NA	NA	NA
BMS010_06168	384			hypothetical protein	ATGACTGCCGATGCCACTGCAAAGACCCAGGATGCGACCGAAGCTCAGGAAAAGGTGTCCACCATTCCGCCGGACGAGCTTGCACGCCTCAGCGACGACGTAATCGCGGCGCTGAAGACCGTCTACGACCCGGAAATTCCGGCGGATATCTTCGAACTCGGTCTCGTTTACAAGATCGATATCGAAGACGACCGGATGGTCAAGATCGTCATGACGCTGACGGCCCCCGGTTGCCCGGTGGCCGGTGAAATGCCGGGCTGGGTGGAAAATGCCGTGGGCGCCGTCGAGGGTGTTTCCGGTGTCGTGGTCGAAATGACCTTCGACCCGCCATGGACGCCGGACCGCATGTCGGAAGAAGCACAGGTCGCTGTCGGCTGGTATTGA	MTADATAKTQDATEAQEKVSTIPPDELARLSDDVIAALKTVYDPEIPADIFELGLVYKIDIEDDRMVKIVMTLTAPGCPVAGEMPGWVENAVGAVEGVSGVVVEMTFDPPWTPDRMSEEAQVAVGWY				NA	NA	NA	NA	NA
BMS010_06169	1251	csd		putative cysteine desulfurase	ATGCCTGAGAGCGAACGCGCCGCAGTGGCGGCCCCCTATGACATCGAAGCCGTGCGCAAGGATTTTCCGATCCTGTCGCGCGAGGTCTACGGCAAGCCGCTGGTCTATCTCGACAACGGCGCGTCCGCTCAAAAACCGCAGGTGGTGATCGACGCCGTTTCGCATGCCTATGCCAATGAGTATGCGAATGTGCATCGCGGCCTGCATTTCCTCTCCAATGCCGCAACCGACGCCTATGAGGCGGCGCGCGAAAAGGTGCGCCGTTTCCTGAATGCCGGTTCGGTGGACGAGATCATCTTCACCAAATCCTCGACCGAGGCGATCAATACGGTTGCTTACGGTTATGGCATGCCGAAGATCGGCGAGGCCGACGAGATCGTCATTTCGATCATGGAACATCATTCCAATATCGTGCCGTGGCATTTCATCCGCGAGCGGCAGGGTGCGAAGCTCGTCTGGGTGCCTGTTGATGATGACGGCGCGTTCCACATCGAGGCTTTCGAAAAGAGCCTGACGGAGCGCACCAAGCTCGTTGCCATCACCCATATGTCGAATGCGCTCGGCACCATCGTGCCGGTCAAGGAAATTTGCCGCATTGCGCATGAGCGCGGCATTCCGGTGTTGGTCGACGGTTCGCAGGGTGCGGTTCACATGCCGGTCGATGTGCGCGATATCGATTGCGACTGGTATGTGATGACCGGCCACAAGCTTTACGGTCCCTCGGGCATCGGCGTGCTTTATGGCAAGGCTGACCGCTTGCGCGAGATGCGGCCGTTCCAGGGCGGTGGGGAGATGATCCTCGACGTTTCCGAAGACAATGTGACCTATAACGAGCCGCCGCACCGTTTCGAAGCTGGCACGCCACCCATCGTGCAGGCGATCGGTCTCGGTTACGCGCTTGATTACATGGACAATCTCGGCCGCGCCGCGATTGCAGCACACGAGGCTGATCTTGCCGCTTACGCCGCCGAGCGTCTGCGCGAGATCAATTCGCTGCGCATCATCGGCAATGCGCCTGACAAGGGTGGCATCTTCTCCTTCGAACTTGAGGGCATCCATGCCCATGATGTCTCGATGGTGATCGACCGGCGCGGCGTTGCGGTACGTGCGGGCACCCATTGCGCCATGCCGCTCTTGAAACGCTTCGGCGTCACCTCCACATGCCGGGCATCGTTCGGCCTTTACAATACACGCGCCGAAGTAGACTCTCTTGTTGAGGCGCTGGAATATGCGCGCAAATTTTTCGCCTGA	MPESERAAVAAPYDIEAVRKDFPILSREVYGKPLVYLDNGASAQKPQVVIDAVSHAYANEYANVHRGLHFLSNAATDAYEAAREKVRRFLNAGSVDEIIFTKSSTEAINTVAYGYGMPKIGEADEIVISIMEHHSNIVPWHFIRERQGAKLVWVPVDDDGAFHIEAFEKSLTERTKLVAITHMSNALGTIVPVKEICRIAHERGIPVLVDGSQGAVHMPVDVRDIDCDWYVMTGHKLYGPSGIGVLYGKADRLREMRPFQGGGEMILDVSEDNVTYNEPPHRFEAGTPPIVQAIGLGYALDYMDNLGRAAIAAHEADLAAYAAERLREINSLRIIGNAPDKGGIFSFELEGIHAHDVSMVIDRRGVAVRAGTHCAMPLLKRFGVTSTCRASFGLYNTRAEVDSLVEALEYARKFFA	PGPT0020195_1773	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0020195-sufS-K11717	NA	NA
BMS010_06170	1272	sufD	COG0719	FeS cluster assembly protein SufD	ATGAACATTCAAGCTACCAACCGGCTGACGCCAGCGGAAACCGCGCTGGTCGACGCTTACACCGCCAAGTTCAGCGAATTGCCGGGCGACGGCGCTGTTGTTGCCGCCCGTGACGTGCTGTTCGACGATCTGAAGACCGGCGGTCTTCCGACGCGACGCATCGAGGCGTGGCACTATACCGATCTGAAAAGCCTGCTGCGCGCCGTTCCGGAAGACCGGCCCGCGCCCGTTATCGAGAAGCAGGCGCCGACGGTTGCCGGTTCTCTGGTTGCCTATGTGCAGCATGGCGCGGCCGATATCGGCAAGATCGAGGACGTCCGTGTTTCGCGCTTTGCAGAAAGCCTGCTCGACGGTTCCGCTGCCGCCGGCCTCGCTGAAGCCAGCAAGGATGACGCGATTGGCCGCATCAATGGCAGCTTCGTGCGCGATGGTCTGGTGCTCGAGATCCCGGCCGATGCCGAGATCGAGAAGCCGATCGAATTGCAGGCGATCCATGGCGCAGGCCAGGTTCACAGCCGCTTCCCGGTCCGTTTCGGCAAGGGTTCCAAGGCAACCGTCATCGAACGTCACCTTTCGGTGACTTCGGGCGCGGCCTTTGTTTCCTCCGTCAGCGACATCGTCGTTGAGGATGGCGCGGAAGTGACCTGGATCATCCTGCAGCAACAGGGTGCAGCCGATATCCATCTTGGCCAGCTGCGCATGAAAATCGGCGCGGACGCCAAGATTCGCCTGTTCATTGTCAATGCCGGCGGCAAGCTGGTGCGTCAGGAACTGCGCATCGATGTGGAAGGCGAGGGCACGGACCTCGTCGTTCGCGGCGTCAACCTTCTGGGTGGCGAAACCCATACCGACGTGACGATGGTTCTTGGCCACAACGTGCCGAACACGACCTCGACGGAAGTGTTCCGCAACGTGGTGTTCGACCGTGCCAAGGGCATTTTCCAGGGCATGATCCGGGTGGCGCCCGATGCCCAGAAGACCGACGCGAAGATGGCCTGCAATACGCTGCTGATGTCTGACGATGGCGAGTTCTCGGCAAAGCCGGAACTGGAAATCTTCGCCGATGACGTTCAGTGCGGCCATGGTGCGACGGTTGCCGATATCAGCGACAACCATCTCTACTACCTGATGGCGCGCGGTGTGCCGCGGGCAAAGGCGCGGGCGATGCTCGTCAACGCCTTCGTCGCCGAGATCGTCGAGGAACTGGAAGAAGAAAATCTGGTAGAGGCGCTGGAGACGATTATCTCCGGCTGGCTGGAACATCATGCCTGA	MNIQATNRLTPAETALVDAYTAKFSELPGDGAVVAARDVLFDDLKTGGLPTRRIEAWHYTDLKSLLRAVPEDRPAPVIEKQAPTVAGSLVAYVQHGAADIGKIEDVRVSRFAESLLDGSAAAGLAEASKDDAIGRINGSFVRDGLVLEIPADAEIEKPIELQAIHGAGQVHSRFPVRFGKGSKATVIERHLSVTSGAAFVSSVSDIVVEDGAEVTWIILQQQGAADIHLGQLRMKIGADAKIRLFIVNAGGKLVRQELRIDVEGEGTDLVVRGVNLLGGETHTDVTMVLGHNVPNTTSTEVFRNVVFDRAKGIFQGMIRVAPDAQKTDAKMACNTLLMSDDGEFSAKPELEIFADDVQCGHGATVADISDNHLYYLMARGVPRAKARAMLVNAFVAEIVEELEEENLVEALETIISGWLEHHA				NA	NA	NA	NA	NA
BMS010_06171	756	sufC	COG0396	putative ATP-dependent transporter SufC	ATGCTTGAAATCATCGACCTGCACGCAAAGATCGCCGATACCGAAACCGAGATCATCAAGGGTCTCAACCTGAAGGTTGCCGCCGGTGAGGTTGCTGCCATCATGGGGCCGAACGGTTCCGGCAAGTCGACGCTGTCCTACATCCTGTCGGGCCGCGAAGATTATGAAGTCACCTCCGGTGACATTCTCTATAACGGCGAAAGCATTCTGGAACTGGATGCCGCCGAGCGCGCCGCCAAGGGCATTTTCCTTGCTTTCCAGTATCCGGTCGAAATTCCTGGTGTCGCCACCATGCAGTTTCTGAAGGTTGCGATGAATGAGCAGCGCAAGGCGCGCGGCGAGTCCGAGCTGACGACGCCGGACTTCATCCGCCGCGTCAAGGAAGCGGCCGGCGATCTGAAGATCGACATGGAGATGCTGAAGCGTCCGCTGAACGTCGGCTTCTCCGGCGGTGAGAAGAAGCGCGCCGAAATCCTGCAGATGGCGCTCTTGGAGCCGAAGCTCTGCGTTCTCGACGAAACCGATAGCGGCCTCGACATCGACGCCCTGAAGATCGTGGCTGACGGCGTCAACGCGCTGAAGTCGCCGGATCGCGCGACCGTCGTCATCACGCACTATCAGCGTCTGCTCGATTATATCGTGCCTGACAGCGTGCACGTTCTCTACAAGGGCAAGATCATCCGCTCGGGTGACAAGGCTCTTGCGCTGGAGCTGGAAAACAATGGTTACGCCGACATCATCGGTGAAGCGGCCTAA	MLEIIDLHAKIADTETEIIKGLNLKVAAGEVAAIMGPNGSGKSTLSYILSGREDYEVTSGDILYNGESILELDAAERAAKGIFLAFQYPVEIPGVATMQFLKVAMNEQRKARGESELTTPDFIRRVKEAAGDLKIDMEMLKRPLNVGFSGGEKKRAEILQMALLEPKLCVLDETDSGLDIDALKIVADGVNALKSPDRATVVITHYQRLLDYIVPDSVHVLYKGKIIRSGDKALALELENNGYADIIGEAA				NA	NA	NA	NA	NA
BMS010_06172	336			hypothetical protein	ATGAGCGGTTTCGTCTATATGATGTCCGAAAAGCCGCGAGGTGTGATCTACACCGGTGTCACCAGCGACCTGCCGGGAAGGATATATGAACATCGCACCGCGTCGCAGAAGGGTTATACCGAGAAATACAGGGCAAAGAACCTCGTCTGGTTCGAAACCCATCCAAATATCGTGCTGGCTATCCAGCGGGAGAAATCGTTGAAGCGTTACGTGCGCGAATGGAAAATTCGGTTGATAGAAGAGCTAAATCCAACCTGGATGGACCTTTACGAGCGCATCAACGAAATCGACAACGCCTATCGGCCGCACGAAAATACGCGGAAGTGGGGCGACTAA	MSGFVYMMSEKPRGVIYTGVTSDLPGRIYEHRTASQKGYTEKYRAKNLVWFETHPNIVLAIQREKSLKRYVREWKIRLIEELNPTWMDLYERINEIDNAYRPHENTRKWGD				NA	NA	NA	NA	NA
BMS010_06173	1470	sufB	COG0719	FeS cluster assembly protein SufB	ATGGCAGCGGTTCAGGAAACGATCGATCAGGTCCGCCAGATCGATGTGGACCAGTATAAATACGGCTTCGAGACAAACATCGAAGTCGACAAGGCCCCGAAGGGCCTTTCGGAAGAGGTGATCCGTTTCATCTCGGCCAAGAAGCAGGAGCCGGAATGGATGCTGGAATGGCGTCTTGAGGCTTACAAGCGCTGGCTGACGATGGAAGAGCCGACCTGGGCGCGCGTCAGCTACCCCAAGATCGACTTCAACGATCTCTATTATTATGCCGCGCCGAAGACCGCGCCCGGCCCGAAGTCGCTCGATGAAGTCGACCCGGAGCTTTTGAAGGTCTATGAGAAGCTCGGTATTCCGCTGAAAGAACAGGAAATCCTCGCCGGCGTCGAAAAGCGCCAGGTGGCGGTGGATGCCGTGTTCGACAGTGTCTCGGTCGTCACCACCTTCAAGGCGGAACTGGCGAAAGCCGGCGTTATCTTCATGTCGATTTCGGAAGCCGTGCGGGAGCATCCGGAACTAGTGAAGAAATATCTGGGCTCTGTCGTTCCGACGACGGACAATTTCTACGCAACGCTGAACTCGGCCGTCTTCACCGACGGTTCCTTCGTCTTCGTGCCGAAGGGTGTGCGGTGCCCGATGGAGCTTTCCACCTATTTCCGCATTAACGAGAAGAACACCGGCCAGTTCGAGCGCACGCTGATCATCGCCGAAGAGGGTGCTTACGTCTCCTATCTGGAAGGCTGCACCGCGCCGCAGCGCGACGAGAACCAGCTTCACGCCGCCGTTGTCGAACTGGTGGCGCTTGATGATGCCGAAATCAAATATTCCACCGTCCAGAACTGGTATCCGGGCGACAAGGAAGGCAAGGGCGGCATCTACAACTTCGTGACCAAGCGTGGCGATTGCCGCGGCAACCGTTCGAAGATTTCGTGGACGCAGGTGGAAACCGGCTCGGCCATCACCTGGAAATACCCGTCCTGCATTCTGCGCGGTGACGACAGCCGCGGCGAGTTTTATTCGATCGCGGTTTCCAACGGCCATCAGCAGATCGATAGCGGCACCAAGATGATCCATCTCGGCAAGAACACGTCGAGCCGCATCATCGCCAAGGGCATTGCCGCCGGCTTTTCGGAAAACGTCTATCGCGGCCAGGTTTCGGCCCACCGCAAGGCGACCAACACGCGTAACTTTACGCAGTGCGACTCGCTGCTGATCGGCGACAAATGCGGCGCGCATACCGTGCCCTATATCGAGGCGAAGAACTCCTCTGCGCATTTCGAGCACGAGGCGACCACGTCGAAGATTTCCGAAGACCAGTTGTTCTATTGCCTGCAGCGCGGCATTCCCGAGGAAGCGGCGATCGCGCTCATCGTCAACGGCTTCGTGAAGGAAGTCATTCAGGAACTGCCGATGGAATTTGCCGTGGAAGCGCAGAAGCTGATCGGCATTTCGCTGGAAGGGTCCGTGGGTTAA	MAAVQETIDQVRQIDVDQYKYGFETNIEVDKAPKGLSEEVIRFISAKKQEPEWMLEWRLEAYKRWLTMEEPTWARVSYPKIDFNDLYYYAAPKTAPGPKSLDEVDPELLKVYEKLGIPLKEQEILAGVEKRQVAVDAVFDSVSVVTTFKAELAKAGVIFMSISEAVREHPELVKKYLGSVVPTTDNFYATLNSAVFTDGSFVFVPKGVRCPMELSTYFRINEKNTGQFERTLIIAEEGAYVSYLEGCTAPQRDENQLHAAVVELVALDDAEIKYSTVQNWYPGDKEGKGGIYNFVTKRGDCRGNRSKISWTQVETGSAITWKYPSCILRGDDSRGEFYSIAVSNGHQQIDSGTKMIHLGKNTSSRIIAKGIAAGFSENVYRGQVSAHRKATNTRNFTQCDSLLIGDKCGAHTVPYIEAKNSSAHFEHEATTSKISEDQLFYCLQRGIPEEAAIALIVNGFVKEVIQELPMEFAVEAQKLIGISLEGSVG				NA	NA	NA	NA	NA
BMS010_06174	1146	iscS_2	COG1104	Cysteine desulfurase IscS	ATGGACTGGAACGCGACGGCGCCGCTTTTGCCCGCCGTGCGCGATGTTCTCGTCTCCGCGCTCGATCTTGCCGGCAATCCGTCTTCCGTGCACCGGGAAGGGCGTGCCGCCCGCGCCGCCGTTGAGGGCGCCCGCCGCGAGGTTGCGGCACTTGTTGGCGCCGAGGCTGCCCATGTCACCTTTACCAGCGGCGCGACGGAAGCCGCCAATCTGGTGCTGACACCGGATTTCAGTATGGGGCGCGCTCCCGTGCGCTATGGCCATCTTTATGTTTCAGCCATCGAGCATCCTGCCTTTCGCGAAGGCGGCCGGTTCGGCAAGGCTGACGTTACGGAAACTCCCGTTACGTCAGCGGGCGTCATCGATCTTGCGGCACTTCAGACGCTGCTGTCTTCGCATGATGCTTCCGCCGGCCTGCCGATGGTTGCCTGCATGCTGGTAAACAATGAGACCGGCATCCTCCAGCCGGTGGCGGAAGCGGCGCGGCTGGTGCATGCGGCGGGTGGATTGATGGTCATCGATGCCGTGCAGGCGGCAGGCAGGGTTCCGCTCGATATCAACGCTCTCGATGCCGATTTCCTTGTTGTCTCGTCCCACAAGCTCGGTGGCCCCAAGGGGGCTGGCGCTCTCATCTCGCGCGGCGAGGTGATGATGCCGAAGCCGCTCATCCATGGCGGCGGGCAGGAAAAGGGGCATCGTTCCGGTACGGAAAATACCCTGTCGGTTATCGGTTTTGGCGCCGCTGCCGCTGTTGCTGCCAAAAATCTCGAGGTTGAAGCGGCGCGTCTTGCCGCTCTGCGGGCGCGGCTGGAAGACGGCATGCGGGTGAGCGCACCGGATGTGATCATCCACGGCGAGGACGTTGCCCGCGTCGGTAATACCACGTTTTTCACCCTGCCGGGCCTGAAGGCGGAAACGGGGCAGATCGCCTTCGATATCGAAGGTATTGCGCTGTCGGCCGGTTCGGCCTGCTCATCCGGCAAGGTGGGGGAAAGCCATGTGCTGACGGCTATGGGGCGCGATCCCAAGCTTGGCGCACTCCGGATTTCCTTTGGCCATGCGACGGACGAGGCGGACATCGAACGGACGCTTGCGGCGTTTGCGAAAATTGCCGGGCGGCGCAGGCTTTCCGGTCAAGCCGCTTAA	MDWNATAPLLPAVRDVLVSALDLAGNPSSVHREGRAARAAVEGARREVAALVGAEAAHVTFTSGATEAANLVLTPDFSMGRAPVRYGHLYVSAIEHPAFREGGRFGKADVTETPVTSAGVIDLAALQTLLSSHDASAGLPMVACMLVNNETGILQPVAEAARLVHAAGGLMVIDAVQAAGRVPLDINALDADFLVVSSHKLGGPKGAGALISRGEVMMPKPLIHGGGQEKGHRSGTENTLSVIGFGAAAAVAAKNLEVEAARLAALRARLEDGMRVSAPDVIIHGEDVARVGNTTFFTLPGLKAETGQIAFDIEGIALSAGSACSSGKVGESHVLTAMGRDPKLGALRISFGHATDEADIERTLAAFAKIAGRRRLSGQAA	PGPT0000065_4055	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-SULFUR_MODIFICATION_PROTEINS,PGPT0000065-nifS|iscS-K04487	NA	NA
BMS010_06175	678			hypothetical protein	ATGCCCGAAGTCATCTTTAACGGCCCTGCGGGTCGCCTCGAAGGCCGTTATCAACCATCCAAGGAAAAGAGCGCGCCGATCGCGATCATCCTTCATCCGCACCCGCAGTTTGGCGGCACGATGAACAACCAGATCGTCTATCAGCTCTTCTATCTTTTCCAGAAGCGCGGCTTCACGACGCTCCGGTTCAATTTCCGCTCCATCGGCCGCAGCCAGGGCGAATTCGACCATGGCGCCGGCGAGCTTTCCGATGCCGCTTCCGCGCTCGACTGGGTGCAGAGCCTGCATCCCGATTCGAAAAGCTGCTGGGTCGCGGGTTACTCCTTCGGCGCCTGGATCGGCATGCAGCTTCTGATGCGCCGCCCGGAAATCGAAGGTTTCATGTCGATTGCGCCGCAGCCCAACACCTACGACTTCTCCTTCCTCGCCCCCTGCCCGTCGTCGGGCCTCATCATCAACGGCGATTCCGACAAGGTCGCGCCTGAGAAGGATGTGAACGGCCTGGTGGAGAAGCTGAAGACCCAGAAGGGCATCCTCATCACCCACCGCACCGTTCCCGGCGCCAACCACTTCTTCAACGGCAAGGTGGACGACCTGATGGGCGAATGCGAGGACTATCTCGACCGCCGCCTCAATGGCGAACTGGTGCCGGAACCGGCGGCCAAGCGCATTCGGTGA	MPEVIFNGPAGRLEGRYQPSKEKSAPIAIILHPHPQFGGTMNNQIVYQLFYLFQKRGFTTLRFNFRSIGRSQGEFDHGAGELSDAASALDWVQSLHPDSKSCWVAGYSFGAWIGMQLLMRRPEIEGFMSIAPQPNTYDFSFLAPCPSSGLIINGDSDKVAPEKDVNGLVEKLKTQKGILITHRTVPGANHFFNGKVDDLMGECEDYLDRRLNGELVPEPAAKRIR				NA	NA	NA	NA	NA
BMS010_06176	1134	anmK_1	COG2377	Anhydro-N-acetylmuramic acid kinase	GTGGGCGAGGTCAAAACGGCAATCGGGCTGATGAGCGGCACATCGATGGACGGCATCGATATCGCCCTGTTGCGCACGGATGGCGAAAGCGTGGTTCGGCATGGGCCGAGTGGGTATTTCCCCTATGATCCGGGCCTGCGCGCCATCTGGCAGAAGGCATTGGTCACAGCCAAAGCCATTCGTGAACGGCGCGAACGTCCCGGTGATCTGACGGAAGCTGAGCGCAAGCTGACGCTTGCCCATGCGGCGGCGGTCAAATCCTTCCTCCATCGTCACCGCCTCCAGCCCGGCGATATCGATGTGATCGGCTTTCACGGTCAGACGGTGCTGCACCGCCCGGACGAGGCGCTGACCGTGCAAATCGGCGACGGCGCGCTTCTGGCATCCGAAACCGGCATCGATGTGGTTTACGACATGCGGGCAAACGACATGGTCCATGGCGGGCAGGGCGCGCCGCTGATCCCGGCCTATCACATGGCGCTTTCCGCTAATCTGCCCGATGGGTTCGAAACGCCGGCCGTCTTCGTCAATATCGGCGGCATTTCCAATCTCACCTATATCGGTGAGGCGGGGCGGCTTGCCGCTTTCGACAGCGGCCCCGGCAATATGCTGATCGACCAGTGGATCGAGGCGCATACGGGCAAGGCCTTCGACAAGGGCGGCAAGACGGCGGCGGGCGGCAGCGTCGTCGCGTCGCTGGTGGCGCGTTATATGGAAAGCCCGTTTTTTTCAGCCAATATCCGTCGGTCGCTGGACCGCAGCGATTTTGCGCCTCCGCAAAAGGGTGAGGTTTCGCTGGCGGATGGTGCGCGGACGCTGGCTCATCTGACAGGGGCTGCCATTCTGAAGTCGGCAAGTTATCTGCCGGAGGCGGCGAGGACCTACGTGGTCTGTGGTGGTGGGCGGTTGAACCCGGTGATCATGGAGGAGTTTGGTAACCTTGCCGCCAAGGTCGGCGCACGTGTGATTGCGGCGGAAGAGGCGGGGTTCGATGGCGGCGCGATGGAGGCGGAGGCCTGGGCCTATCTGGCGGTTCGGTCGGTCAAGGGTTTGCCGCTGACCTATCCCGGTACGACGGGGGTGAAGGAGCCGGTGACTGGGGGGGTGTTGGTGCGATCGGAAGGACGATCATAG	MGEVKTAIGLMSGTSMDGIDIALLRTDGESVVRHGPSGYFPYDPGLRAIWQKALVTAKAIRERRERPGDLTEAERKLTLAHAAAVKSFLHRHRLQPGDIDVIGFHGQTVLHRPDEALTVQIGDGALLASETGIDVVYDMRANDMVHGGQGAPLIPAYHMALSANLPDGFETPAVFVNIGGISNLTYIGEAGRLAAFDSGPGNMLIDQWIEAHTGKAFDKGGKTAAGGSVVASLVARYMESPFFSANIRRSLDRSDFAPPQKGEVSLADGARTLAHLTGAAILKSASYLPEAARTYVVCGGGRLNPVIMEEFGNLAAKVGARVIAAEEAGFDGGAMEAEAWAYLAVRSVKGLPLTYPGTTGVKEPVTGGVLVRSEGRS				NA	NA	NA	NA	NA
BMS010_06177	1254	tyrS_1	COG0162	Tyrosine--tRNA ligase	ATGTCCAGGTTCAAGTCCGATTTCCTCCGCACGCTCGATGAGCGCGGCTTCATTCACCAGATCTCCGATGAGGCAGGTCTCGACGAACTGTTCGCCAAGGAAACCGTGACCGCCTATATCGGCTATGACCCGACGGCTTCGAGTTTGCATGTCGGCCACCTCACCCAGATCATGATGCTGCACTGGATGCAGAAGACCGGCCACCAGCCGATCTCGCTGATGGGCGGCGGCACCGGCATGGTCGGCGATCCCTCCTTTAAGGAAGAAGCCCGCAAGCTGATGACGATCGACATGATCGAGGACAACATCACCTCGCTCAAGCATGTCTTCGCCAATTACCTCGATTACGACCGCGCCAATAATCCGGCGCTGATGATCAACAATGCCGACTGGCTGCGCGGCCTCAACTACCTCGAATTCCTGCGCGATGTCGGCCGCCATTTCTCGGTCAACCGCATGCTGTCCTTCGACAGCGTGAAGACGCGCCTCGACCGCGAACAGTCACTGTCCTTCCTCGAATTCAACTACATGATCCTGCAGGCCTACGATTTCGTGGAGCTGAACCAGCGCACCGGCTGCCGCCTGCAGATGGGCGGCTCGGACCAGTGGGGCAACATCATCAACGGCATCGACCTCGGTCACCGCATGGGGACACCGCAGCTTTACGCGCTGACCTCGCCGCTGCTCACCACCTCCTCCGGTGCGAAAATGGGCAAGTCGGCATCAGGTGCGGTGTGGCTGAACAAGGACCTGCTGCCGGTCTATGATTTCTGGCAATACTGGCGCAACACGGAAGATGCGGACGTCGTTCGCTTTGCGAAACTCTTCACCACGCTGCCGATGGATGAAATCGCCCGTATTGCCGCCCTTGGCGGATCGGAAATCAACGAAGCGAAGAAAATCCTCGCGACCGAAGTGACCGCCATCCTGCATGGCCGCGCGGCGGCGGAAGAAGCGGCCGAGACGGCGCGCAAGACTTTCGAAGAAGGTGCGCTCGCCGAAAACCTGCCCTCCATCGAGGTTCCGGCATCCGAACTCGAAGCCGGCCTCGGCGTTCTCTCGCTCATCGTCCGCGCCGGTCTCGCCGGCTCGAACGGCGAGGCCCGCCGCCACGTTCAGGGCGGTGCGGTAAAGATCAACGACATTGGCGTTTCGGATGAGCGCCAGACGGTCGGTTCCGGTGAAATCACCGGCGACGGCGTCATCAAGCTGTCGGTCGGCAAGAAGAAGCACGTTCTGGTTCGCCCGGCGTGA	MSRFKSDFLRTLDERGFIHQISDEAGLDELFAKETVTAYIGYDPTASSLHVGHLTQIMMLHWMQKTGHQPISLMGGGTGMVGDPSFKEEARKLMTIDMIEDNITSLKHVFANYLDYDRANNPALMINNADWLRGLNYLEFLRDVGRHFSVNRMLSFDSVKTRLDREQSLSFLEFNYMILQAYDFVELNQRTGCRLQMGGSDQWGNIINGIDLGHRMGTPQLYALTSPLLTTSSGAKMGKSASGAVWLNKDLLPVYDFWQYWRNTEDADVVRFAKLFTTLPMDEIARIAALGGSEINEAKKILATEVTAILHGRAAAEEAAETARKTFEEGALAENLPSIEVPASELEAGLGVLSLIVRAGLAGSNGEARRHVQGGAVKINDIGVSDERQTVGSGEITGDGVIKLSVGKKKHVLVRPA				NA	NA	NA	NA	NA
BMS010_06178	3384			hypothetical protein	ATGGCTGAAGTCAGGGGTGAAAAGGTCAAGTTCGGCAGACGCGATATCATTGCGCTGCACGATCTTCCTTCGGCGCAGGCCGAAGATCCCATCATCGTGCATTGCCCGGCGCCTCGCTCCATGGTGCGCGCCTTCATCAAGATTTTCGCAGCGCTTTTCGTGCTGGCCTTCCTGTCCATCGGCGGCATCATTCTTTCCGTCGAGACGGGATCGATCGACGCGACGCTTTCCAGCCAGGCGCAGCAGGCGCTGGAAAGGGCGCTCGGCCCCCATTACAGCGCGCGGATCGGTTCTTCGGCGATCAGGTTTTCCACCGGGCTGCGCCTTGCGCTGGTGGCGGAGGACGTGGATATCATCGAGAAGGAATCCGGCCAGCATATGAGCCGGGCGCGGGCAATCGGCATGGCGCTCGATCCGCTTGCGCTTCTGACCGGCCGTGTCTCGGTGGAGAGCCTCGAGGCCGACGGGATGGAGCTCGATACGGCGCTTTTGCCCAAGGGTAACGGGTTCGATCTCGCCAGCGTCAAGCTTGACGCCGTGCCGCAGCAATTGCAGGAGGCCTTCGGGCAGCTCGACAACCTCGCTCAGGCTTTTCTAAGCAGCGGAACCGAGGAAATCGATATTTCCAGCGTTTCGATTCACCTGCCACCCGGAGAGTTGGGCAAGCCGCGCACCGTCGAAGTGCGTGAACTGTCGCTGACACCCGATCAGCAGGGCGGATATTCGCTCGATGGAGAAACGCTATTCAACGGTGAAATTGCCAGCGTGTCGCTGCAGACTTCGGGATCGGGTGGCCGGATAGACGGTTTTGAAGCCCGCATCGACGGTTTCGATATCGGCCCGTTTCTTGAGAAATACGATCCCGACGGAAATCTCCATGAAGGCCTGAACGTCAAGACGGGTATCAATATTGTCGCTCGGCGCGCCATGGAAGGGCAGGAGCCACAGCTGGAGATTGCGCTCGGCCTCGGCAATGGAACGCTGATGATCGGCGGCGAGTCCCAGACCTTTACGGCTGGCAACGTCCACGCGCGTTATGACTTTGCCAAAAGCACCCTTGTCATCGACAATTCGCGGCTGGAGCTCGGGCGGACAATTCTTCCGGTCGCCGGTGAAATCAGCGATACGGAAGAAGGTTTCGGCCTTTCGCTGCGGATCGATAACGCCGTTGCTTCGTCCGAAGCTTCGGGCGAGGCCCCGGTTCCTTTCAGCCTGAAGGCGGACGGACATTTTACGGCGGCGACGAAGCAGCTCGACGTTCCCTCGCTTTATGTGACAGGCCCGCTCGGAGACATGGCGGGATCGCTGAAAATCCGGTTCGGCCAGGGGTCGCCGGAAATCAGTTTCGGCGGGCAGATTCCGAAGATGGAGGCCACGGCGGTCAAGCAGCTCTGGCCGTTCTGGATGGCGCACAAGCCGCGCGACTGGGTGGTCTCCAATCTCTACGGCGGCACCGTCACCAATGGTTCAATCGCTATCTTCATCCCGCAGGGGCGGATGTGCGGCCCCGGCTGCCCGCTGGTGCTCGGCGAAAGCGAAATGCAGATCCGCTTCGATATAGACGATACGCGTCTCAATACCACCGGCGACATTCCACCGTTGCGCGATGTCGACGCGCATTTCGATCTCGTAGGCGGCAAAATGGCCGTCGATATCAAGCGGGGAACATCCTATTTCCCGTCGAACCGGTCGCTTGCGCTGGAAAACAGCCGTTTTCTCATTTCCGCTGTTTACGACAAGCCGCTGCTCGGAAATCTCGAACTGAACGTTTCGGGCTCGGCCGATGCCGTGGCCGAGCTTGCGGCGCTCAAGCCCATCAATGCGCTCAAGAATACGCAGTTCAAGCCGGAGGATTTCACCGGCGATGTCAAAGCCCATGCTAACCTGACCGTTGGCCTGCTTTCCAGCCATAACCCGCCTCCGCCGGTGTGGACGGCCGATCTCGATCTGAAGAACCTGTCGCTGACCAAGCCGTTTGCGGGCCACAAGGTGACTGCGCTCGACGGTTTCATGACGCTGGACGACCGACAGCTCAAACTGGAGGGCAGAGGCCGCGTGGACGACGTGCCGATGGACATCGTGATGACGGAGCCGGTGAGTAAGAACAGCGATATCGCGCCGACGCTGTCGCTGAAGGCAAGCCTGAACGAAACGCAGGTCGCCAAGCTCGCTCCGGAACTTTCCACGGTTCTCGGCGGCACGACGGCGATTGAAATCGACGGCGCCGACCCGAAACGCCAGGATATCCGGCTCGATCTGACCAAGGCGTCGATCATTCTGCCGGGGCTCGGCTGGAGCAAGGGCATCGGCATTCCCGCCAGCGCCGCCTTCACCATGGAAATGGGAGACGGGCGCACGACGATCAGCGACTTTTCGCTCGACGGTGACGGCTTCGGCGCTGCCGGCGATATCGCCTTCAGCAAGAACGGGCTGATTTCAGCCGATCTCAGCCGCGTGCAGCTTTCGCCCTCCGATAATTATGCGGTTTCGGTCGCCGCTTCGAAGAACGGCTATATCATCAATGCATCGGGGAAATCCGCCGATGTCAGGCCTTTCCTCTCGAAGCTTCGCAGCTCTTCCGGCAGCGGCGACGGGACGTCGCGTTCGCAGCCGTCCCTTGCCATCAAGACGCAATTCGACAAGGTCTACGGGTTCAACGATGAAATCCTTGCCAATGTCAGTTCAGATGTCAGCGTGCGGGATGGCAAGGTTCGTTCCATCGATTTCCGTGGCGTCACCGGCAACGGCCAGGCGGTGGTGGCGCAGACCGTCAATCGCGGGGCGACGGGAACCGTGACGCTGACCAGCAGCGATGCGGGTTCGCTCGCCCGTTTCGCCAATATCTACAGCCGCATTCGTGGCGGCCTTCTCAACCTTGCGCTGACGACCTCCAATGGCAGCGACTGGAGCGGATCGCTCGACCTGCGCAATTTTGCCGTCGTCAACGAAGCCAAGCTGCAGGACATCGTCGCCACGCCGACGGGCGAGGACGGCAGGAGCCTCAACAATGCGGTGCGCCGCAATATCGATGTCAGCTCGGAAAAATTCCAGCGCGGTTTTGCCCGGGTCGTTTACGTCAACGGTTCGGTGGCGGTGGAAAACGGCGTCGTGCGCGGCGAGCAGATTGGTGCGACTTTCCAGGGGCTTTTGAAGGACCAGAGCGGCCGTATGGACATGACCGGCACCTTCATGCCCGCCTATGGCCTGAACCGGCTGTTCGGCGAGCTGCCCTTCATCGGCATCTTCCTCGGCAATGGCCGCGACCGGGGCTTGCTCGGCATCACTTTCAAGCTCTCCGGCCAGACGGACCAGCCGAAGCTGACGATCAATCCGCTTTCGCTGATCGCGCCGGGCGTCTTCCGGCAGATTTTCGAGTTCCAATAA	MAEVRGEKVKFGRRDIIALHDLPSAQAEDPIIVHCPAPRSMVRAFIKIFAALFVLAFLSIGGIILSVETGSIDATLSSQAQQALERALGPHYSARIGSSAIRFSTGLRLALVAEDVDIIEKESGQHMSRARAIGMALDPLALLTGRVSVESLEADGMELDTALLPKGNGFDLASVKLDAVPQQLQEAFGQLDNLAQAFLSSGTEEIDISSVSIHLPPGELGKPRTVEVRELSLTPDQQGGYSLDGETLFNGEIASVSLQTSGSGGRIDGFEARIDGFDIGPFLEKYDPDGNLHEGLNVKTGINIVARRAMEGQEPQLEIALGLGNGTLMIGGESQTFTAGNVHARYDFAKSTLVIDNSRLELGRTILPVAGEISDTEEGFGLSLRIDNAVASSEASGEAPVPFSLKADGHFTAATKQLDVPSLYVTGPLGDMAGSLKIRFGQGSPEISFGGQIPKMEATAVKQLWPFWMAHKPRDWVVSNLYGGTVTNGSIAIFIPQGRMCGPGCPLVLGESEMQIRFDIDDTRLNTTGDIPPLRDVDAHFDLVGGKMAVDIKRGTSYFPSNRSLALENSRFLISAVYDKPLLGNLELNVSGSADAVAELAALKPINALKNTQFKPEDFTGDVKAHANLTVGLLSSHNPPPPVWTADLDLKNLSLTKPFAGHKVTALDGFMTLDDRQLKLEGRGRVDDVPMDIVMTEPVSKNSDIAPTLSLKASLNETQVAKLAPELSTVLGGTTAIEIDGADPKRQDIRLDLTKASIILPGLGWSKGIGIPASAAFTMEMGDGRTTISDFSLDGDGFGAAGDIAFSKNGLISADLSRVQLSPSDNYAVSVAASKNGYIINASGKSADVRPFLSKLRSSSGSGDGTSRSQPSLAIKTQFDKVYGFNDEILANVSSDVSVRDGKVRSIDFRGVTGNGQAVVAQTVNRGATGTVTLTSSDAGSLARFANIYSRIRGGLLNLALTTSNGSDWSGSLDLRNFAVVNEAKLQDIVATPTGEDGRSLNNAVRRNIDVSSEKFQRGFARVVYVNGSVAVENGVVRGEQIGATFQGLLKDQSGRMDMTGTFMPAYGLNRLFGELPFIGIFLGNGRDRGLLGITFKLSGQTDQPKLTINPLSLIAPGVFRQIFEFQ				NA	NA	NA	NA	NA
BMS010_06179	468	bcp_2	COG1225	Peroxiredoxin Bcp	ATGACAGACTTGACGATTGGCGGCCCGGCTCCCGATTTTACTTTGCCCCGCAACGGTGAAGGGACGGTGACATTGTCCAAACTGCAAGGCAAGGCCGTCATCCTCTATTTCTATCCGAAGGACGATACTTCCGGCTGCACCGCAGAAGCCATCGACTTCAGCGCGCTGGGCGGCGAATTCGAGGCAGCCAACGCCGTCGTCATCGGCATTTCGCCCGACAGCGTCAAAAGCCACGACAAGTTTGCGGCAAAACATTCGCTATCCGTCATGCTCGCTTCCGACGAAGAGAGGAAGGTTCTGGAAGCCTATGGCGTCTGGAAGGAAAAAAGCATGTATGGCAAAAAATACATGGGCGTCGAACGCACGACCGTCCTCGTTGCCCCGGATGGAAAAATCGCGGAAATCTGGAACAAGGTGAAGGTCGCGGGCCACGCCCAGGCCGTTCTCGAAGCTGTCAAGAAGCTCTGA	MTDLTIGGPAPDFTLPRNGEGTVTLSKLQGKAVILYFYPKDDTSGCTAEAIDFSALGGEFEAANAVVIGISPDSVKSHDKFAAKHSLSVMLASDEERKVLEAYGVWKEKSMYGKKYMGVERTTVLVAPDGKIAEIWNKVKVAGHAQAVLEAVKKL	PGPT0013120_3972	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013120-bcp|PRXQ|DOT5-K03564	NA	NA
BMS010_06180	825			hypothetical protein	GTGACGCCCCCGTTCAAAATCATCTCGCTGCGAGGCGGCGCGACGGATGCCATCGTGAGCGCCGATCTCGACAGAAAGACCGCACTCGCGCAGGAAACGGCGACACGCTGGTTCGAGCGCCGTCTGTCGCTGCGCTCGCCTCTCGACCCGCCGCTGCCTGAGCGGCCGGGCAGGCCCGAGAAGCCGGAACTCGTGCCGCCAACCGCCGTGGAACGCCGCTCCCTACACAGCGTCAGGGGCCGCATCGCGCTGCTGCACGCCATAGCCCATATCGAACTCAACGCCGTCGATCTCGCGCTCGATATCGTCGCGCGTTATGCCAGCGAGCCGGTGCCGCATTCCTTTTTCGACGGTTGGATGCAGGTCGCCTTCGAGGAGGCGAAACATTTCCGGCTGGTGCGGGACAGGCTGAGAAGCCTCGGCGCCGACTATGGCGATCTGCCGGCCCATGACGGGCTCTGGCAGGCCGCGCATTCCACCCGCAACGATCTCACCGCACGGCTCGCCGTCGTCCCGCTCATCCTGGAAGCGCGCGGACTGGACGTCACCCCTTCCCTGCAGGCGAAGATGCGTGAGACTGGCGATCTCGAAAGCGCCGCCGTTCTCGATGTCATCTATAATGACGAAAAGGGCCATGTCGCCATCGGCGCGAAATGGTTCCGGTTCCTGTGCGCCCGTGAAAAGAAGGACCCGGCCGCAACCTTCAGGCAGCTGGTGCGCGCGAATTTCCGCGGCCCTTTGAAACCGCCCTTCAACGACATCGCCCGCGCCGAGGCCGGCCTGACGCCTTCCTTTTACCGCTCGCTCACATCCGTCAGCCAATAG	MTPPFKIISLRGGATDAIVSADLDRKTALAQETATRWFERRLSLRSPLDPPLPERPGRPEKPELVPPTAVERRSLHSVRGRIALLHAIAHIELNAVDLALDIVARYASEPVPHSFFDGWMQVAFEEAKHFRLVRDRLRSLGADYGDLPAHDGLWQAAHSTRNDLTARLAVVPLILEARGLDVTPSLQAKMRETGDLESAAVLDVIYNDEKGHVAIGAKWFRFLCAREKKDPAATFRQLVRANFRGPLKPPFNDIARAEAGLTPSFYRSLTSVSQ	PGPT0024440_5	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024440-gck|gckA-K11529	NA	NA
BMS010_06181	1299			hypothetical protein	GTGACTGATACGGCGGAAAACCGGGTATTCGGCAAAAAGCGTGAGCCTCACGTGCTCATTCTCGCGCGCGGCGACAGGGTGCGGCACATGACCATCCGTCCGTGGATGGCGGCGCTTGCCGGCTGCACGATCGGCCTTTTCTCGCTCGGTTATCTCGGAGCCACAGGCTATCTCATTTTGCGTGACGACCTGATCGGCGCGACCATGGCCCGCCAGACCCGCATGCAGAACGACTATGAAGACCGCATTGCAGCGCTGAGAGCTCAGGTGGACCGTGTCACCTCCCGGCAATTGCTCGATCAACAGGTCGTTGAAAAGAAAGTGGAAAAGCTGCTGGAACAGCAGGCGGCGCTGACCTCGCGGCACGGCCGAATGAGCGAATTGCTGGAGCGCGCCGAAAATTCCGGCATCGCCGCCTCCCCGGCCGCACCCTCTTCTCTTTCGAACGCCATGGCGCCGGAAAAACGCGCTGACCTCTCCGGCGGCCTTTCAGCCATCGAAAAGCTGATGACGCCACGCAAGCCGCAGGTGGAAAAGCCGGCCACATCGGACAGACGCGCCGCCTATGTACCCGAAGCCGGCGAAACGCCGTCGGACCGGGCCGACCGGGTGTTTTCCAAGGTGACCCTGTCGCTGAAGGATATCGAACGCCAGCAGATATCGCGCATCGCCAGACTGACCAGCGACGCCGAGGACAAAGCGAATGCGATGCAGGACATCATCCGGCAGGCGGGCCTGAAAATCGAAGAGAACGGCAATGACGACATAGGCGGCCCCTATGCCGACCCCGAGCGCGGGGACACCGATCCTTTCAACCTGTCGCTCACCAATCTCGACAATGCGTTGAACCGGCTCGACATCGTCAAGGAAACCGCGACCACCCTGCCCTTCGGCAACCCGGCCCCTGGCCGGGCGATCACCAGCCGATTCGGCAACCGGATGGATCCGTTTCTCGGCCGCCCGGCCCTGCATACCGGCATCGATTTTCGTGCTGAAACCGGTGCTGACGTCAAATCCACCGGCGCGGGCAAGGTGACGGTCGCGGAAAATTCCGGCGGCTACGGCAATATGGTAGAAATCGATCACGGCCAGGGCGTCTCGACGCGATTCGGCCATCTCTCCGCGATTCTGGTGAAAGCCGGCGACAGGGTCGAGGCCGGCGACGTCATCGGCCGCGCCGGCAGCACCGGCCGCTCCACCGGTCCGCATGTGCATTACGAGGTGCGCCGCAACGATACGCCAGTCGATCCGATGCGGTTCCTGATCGCCGGAACGGAACTCAAAACCTATTTAAAATAG	MTDTAENRVFGKKREPHVLILARGDRVRHMTIRPWMAALAGCTIGLFSLGYLGATGYLILRDDLIGATMARQTRMQNDYEDRIAALRAQVDRVTSRQLLDQQVVEKKVEKLLEQQAALTSRHGRMSELLERAENSGIAASPAAPSSLSNAMAPEKRADLSGGLSAIEKLMTPRKPQVEKPATSDRRAAYVPEAGETPSDRADRVFSKVTLSLKDIERQQISRIARLTSDAEDKANAMQDIIRQAGLKIEENGNDDIGGPYADPERGDTDPFNLSLTNLDNALNRLDIVKETATTLPFGNPAPGRAITSRFGNRMDPFLGRPALHTGIDFRAETGADVKSTGAGKVTVAENSGGYGNMVEIDHGQGVSTRFGHLSAILVKAGDRVEAGDVIGRAGSTGRSTGPHVHYEVRRNDTPVDPMRFLIAGTELKTYLK				NA	NA	NA	NA	NA
BMS010_06182	1497	rhlE_3		ATP-dependent RNA helicase RhlE	TTGACAACATTCTCTGATCTTGGCCTGAGCCAAAAAGTTCTTTCCGCTATTGCAGATGCCGGCTACACGACGCCGACACCCATTCAGGCTGGCGCCATTCCGCCGGCGCTGGAAAAGCGTGATATCTGCGGTATCGCACAGACCGGCACGGGCAAAACCGCGTCCTTCGTTCTGCCGATGCTCACCCTGCTCGAAAAGGGCCGCGCGCGCGCCAGAATGCCGCGCACGCTGATCCTCGAGCCGACCCGTGAGCTGGCAGCGCAGGTGGCGGAGAACTTCGAGAAATACGGCAAGAATCACAAGCTGAACGTCGCGCTCCTCATTGGCGGCGTTTCCTTCGAAGACCAGGACCGCAAGCTTGAGCGCGGCGCCGATGTGCTGATCTGCACCCCCGGCCGCCTTCTCGACCATTGCGAGCGCGGCAAGCTTTTGATGACCGGCGTGGAAATCCTCGTCATCGACGAAGCCGACCGTATGCTGGATATGGGCTTCATTCCCGATATCGAGCGCATCGCCAAGATGATCCCGTTTACCCGGCAGACGCTGTTCTTCTCGGCCACCATGCCGCCGGAAATCCAGAAACTGGCCGACCGGTTCCTGCAGAACCCCGTCCGTGTCGAGGTCGCCAAGCCCTCCTCCACGGCAAAGACCGTTGCCCAGCGCATCGTTGCCGCGCACAACAAGGACTATGAAAAGCGCGCCGTGCTGCGCGATCTCGTCCGCGCCGAAGAAGCCGAACTGAAGAACGCCATCATCTTCTGCAACCGCAAGAAGGATGTGGCCGACCTCTTCCGTTCGCTCGACCGTCACGGTTTTTCCGTCGGCGCGCTGCATGGCGACATGGACCAGCGTTCGCGCACCACCATGCTGCAGAACTTCAAGGACGGCAATCTGAAGCTGCTCGTCGCCTCCGACGTTGCCGCACGCGGCCTGGACATCCCCGATGTCAGCCACGTCTTCAACTTCGATATTCCCATTCACTCGGAAGACTATGTCCACCGCATCGGCCGTACCGGTCGTGCCGGCCGCTCGGGCAAGGCCTTCACCATCGTCACCAGGAGCGACACGAAGTATCTCGACGCGATCGAAAAGCTGATCGGCGAAAAGATTGAGTGGCAGAACGGTGACCTCTCCACCCTTCCCGCGCCCATGGAAAGCTTTGAAAGCAATTCCGGCCGCCGGGGCAAGGAACGGGGCGGCAGGGGCCGCGACCGCAACCGTCGCGACGCAGCGCCGGTCGAAAACATCAATCAGGGTGCACAATCCGCTGCGGACACGGACATCGCGGCTCATGGAGACGACAAGGTGAAAGCAGAACGCAAGCAGGAAAAGACCCCGCGCAATTCCGACCGCAATAGCCGCAATCCGTTGCACGCCAATGACGACAACCGCGACCGCCGCCGCCATTATCGCGACCATGACGATGGCCCGACACCGGTTGGTTTCGGCGACGACATCCCCGCTTTCATGCTGATCGTGGCCAACGCCAAGGCCTGA	MTTFSDLGLSQKVLSAIADAGYTTPTPIQAGAIPPALEKRDICGIAQTGTGKTASFVLPMLTLLEKGRARARMPRTLILEPTRELAAQVAENFEKYGKNHKLNVALLIGGVSFEDQDRKLERGADVLICTPGRLLDHCERGKLLMTGVEILVIDEADRMLDMGFIPDIERIAKMIPFTRQTLFFSATMPPEIQKLADRFLQNPVRVEVAKPSSTAKTVAQRIVAAHNKDYEKRAVLRDLVRAEEAELKNAIIFCNRKKDVADLFRSLDRHGFSVGALHGDMDQRSRTTMLQNFKDGNLKLLVASDVAARGLDIPDVSHVFNFDIPIHSEDYVHRIGRTGRAGRSGKAFTIVTRSDTKYLDAIEKLIGEKIEWQNGDLSTLPAPMESFESNSGRRGKERGGRGRDRNRRDAAPVENINQGAQSAADTDIAAHGDDKVKAERKQEKTPRNSDRNSRNPLHANDDNRDRRRHYRDHDDGPTPVGFGDDIPAFMLIVANAKA	PGPT0013740_1416	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
BMS010_06183	417			hypothetical protein	ATGAAGCCGACCGCCAGGCCAGGTCTCGATTTTCCGGGTGTCGGCGTCGGCCTCGCCATCATGCGTGACGGCCGCGTGCTTTTATGCCGGCGCCTGAAGGCGCCGGAAGCCGGATACTGGAGCATTCCGGGCGGCAAGGTCGATCACCTTGAAACCTCCCTCGCCGCGGCACGCCGCGAGGCCGAAGAAGAAACCGGGCTCAAGATCGGCAACGTCGAATTCCTCTGCCATAGCGAATTCATCGATCCGGAAGATCGCCACCACTGGGTTTCGCTGATCTTCGTCACCCACGATGCGCAGGGTGAGCCGGCACTGACCGAACCCGACAAGCTTTCCGCCATCGGCTGGTTCGATCCGGATAAGCTTCCCGAACCCATCTCCGCCTTTGCCAGGGACGCCCTGGCCGCCCTGAAATAA	MKPTARPGLDFPGVGVGLAIMRDGRVLLCRRLKAPEAGYWSIPGGKVDHLETSLAAARREAEEETGLKIGNVEFLCHSEFIDPEDRHHWVSLIFVTHDAQGEPALTEPDKLSAIGWFDPDKLPEPISAFARDALAALK				NA	NA	NA	NA	NA
BMS010_06184	1125	braC_3	COG0683	Leucine-, isoleucine-, valine-, threonine-, and alanine-binding protein	TTGCCGATAAACATCAAACCGGGACAACAGGATTTCTATCACGTCATGCTTTCACTTCGCCTGCTAATGATCATCGCCGGTTTTGCCCTTGCGGGCTCAGCAAGCGCGGCATCGATTGGCATTGTTGCGCCCCAGAGCGGTCCTTACGAACTTCTGGGGCAGCAGGTACGGCAGGGTGCGAAGGCGGCGGCGGCAAAGCTCGGGCTGGATGTCGTCGAAATCCATGAAAGCTGCGAAGATGGCAGCGGCGGCGCCATTGCCGATGGCCTCGTGGCCGCCAAGGTCAGCGCCGCAATCGGTTTCTTGTGCACCGAAACGCTTCAGGATGTTCTGCCGCCGCTGAAAGCGGCCGCCATTCCCGCCATCACGCTATCCAGCCGCGCGCCGATCCTGATGGAAGACGCCCTGAAATACGGTTGGCCGCTCTTTCGCCTCGCCCCGTCAGACAGGGCCGAATCGGACAGGATCGCGGAGATCATCCTGCGCGACTGGAAGGGACATTCCATCGGACTTGTGGATGACGGCACGATCTACAGCCGCGAGCTGGTCGACCGCATCCGCTCGTCGCTCGAGGAAAACGGCCTGAAGCCCACCCTTGCCGATACGATGCGTCCCAACCAGGAACAGCAGGTGGCGCTGGTGCGCCGGCTGGCGCGCACCGGCATTTCCCATGTCTTCGTCGGCGCGGAACGCAACGACGTCGCCATCATTGCCAGAGACGCCGGGTCGGAGAACATTCCCCTCACCCTCATCGGCGGCGATGCCATGAATGCGGCCAATAATCCGGTCCCCTTGGCCGCGAATGTGCTGGCGGTCACCCGCCCGGCCTATGATACCCTGCCATCGGCCCAGGCGGTTGCCGGCGAACTGCGCGGCGCCGGCATCGAGCCGGAAGGTTACGTCCTGCCGGCCTATGCGGCAGCGGAACTCACCGCCGCCCTTGCGGAAGCCACACAGGCGCAGTCGAAACCCGCGCCGGAGATACTGGCGGGCGGCACCCTTTTCAAAACCGTTCTCGGCGATCTCGGTTTCAACCCGTCGCATGACCTTTCGGACAATCCCTATCGCCTGCAGCGATGGAACGGCCAGCGCTTCGAACCGGCGGACAAGGCTGAAAGACAATAG	MPINIKPGQQDFYHVMLSLRLLMIIAGFALAGSASAASIGIVAPQSGPYELLGQQVRQGAKAAAAKLGLDVVEIHESCEDGSGGAIADGLVAAKVSAAIGFLCTETLQDVLPPLKAAAIPAITLSSRAPILMEDALKYGWPLFRLAPSDRAESDRIAEIILRDWKGHSIGLVDDGTIYSRELVDRIRSSLEENGLKPTLADTMRPNQEQQVALVRRLARTGISHVFVGAERNDVAIIARDAGSENIPLTLIGGDAMNAANNPVPLAANVLAVTRPAYDTLPSAQAVAGELRGAGIEPEGYVLPAYAAAELTAALAEATQAQSKPAPEILAGGTLFKTVLGDLGFNPSHDLSDNPYRLQRWNGQRFEPADKAERQ	PGPT0020765_12082	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020765-livK-K01999	NA	NA
BMS010_06185	678	rpe_1		Ribulose-phosphate 3-epimerase	ATGTCCCTGCCCATCCGCATAGCCCCGTCCATTCTGGCTGCCGATTTCGCCAAGCTCGGACAGGAAGTCGCCGATGTCACGGAAGCGGGCGCGGACTGGATTCATCTCGATGTGATGGATGGCCATTTCGTCCCCAATATCTCCTTCGGGCCGGATGTCATCAAGGCGCTGCGGCCGCACAGCATGGCGTTCTTCGACTGCCATCTGATGATCGCGCCCGTCGATCCCTATCTCGAAGCCTTCGCCAAGGCGGGCTGCGACAGCATCACCGTGCATGCCGAAGCCGGGCCTCACCTGCACCGCTCGCTGCAGACGATCCGCGGGCTCGGCAGAAAGGCCGGCGTGACGCTCAACCCCGCAACACCGCTTTCAGTTATCGAAAACGTGCTTGATGACGTTGATCTCGTCCTGATCATGAGCGTCAACCCCGGTTTTGGCGGGCAGAAGTTCATTCCGGCCATGCTGGACAAGATCCGCGCGGCAAAGGCCATGATCGGCGACCGGCCCATCGAACTCGAAGTGGATGGCGGCGTGACGGCGGAAACCGCAGGCGCGATCGTTGCCGCCGGTGCGAATGCGCTGGTGGCCGGCTCGGCCATCTTCAAGGGCGACGGTGTCGCCGACTACCGCAAGACGGTCGCGCAACTGCGCCACGCAGCGGAAGCCGCGCGGACATAA	MSLPIRIAPSILAADFAKLGQEVADVTEAGADWIHLDVMDGHFVPNISFGPDVIKALRPHSMAFFDCHLMIAPVDPYLEAFAKAGCDSITVHAEAGPHLHRSLQTIRGLGRKAGVTLNPATPLSVIENVLDDVDLVLIMSVNPGFGGQKFIPAMLDKIRAAKAMIGDRPIELEVDGGVTAETAGAIVAAGANALVAGSAIFKGDGVADYRKTVAQLRHAAEAART	PGPT0017425_2646	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017425-rpe|cbbE-K01783	NA	NA
BMS010_06186	528			hypothetical protein	ATGGAAAGCGACAGGCGGGGTTTCCGTGACACAGCTTCGGCAGCGCTGTTTCCGCTGCTCGGCGCGCTTGTCTGGGCCGTCTGTTCCAGCGCCGCCGCCGCTATCGGCCTCTATGTCAGGAACCGGCTGGAAACCGACCATGCCGCCGACATAATCATGCTTTTCTTCGCGGGCGGCCTCTTCGGCTGGCTGCTGGCCATGGCGGCGCTGCACCTTCTCCCTGCTTCAGCCGCCCTGCCGCTGCGTTTCGTGGCGGCCTGTCTTGCCATCGCTTTTTTCACGCTGGCAGTTGCGGCGGCGTTTTTCGCTTTCGAATACCGTATTTTTTATGCGCAATGGCACGCGCCGGCATTCTCTCGCATCTGGTTTTTTCAGCAGCTCTTCACATCGCTCGGCGCGATTTACCAGTTCTGCATTCTCGGCCCTGGCTTATATTTTCCCTTTGCCATCGTTCCGCTCCTGCCTGCGGGCGCGATCCTCTGCCGACGTGCGCAACGAGCAACAGAGGCATGTAGCTTGATAGATTGA	MESDRRGFRDTASAALFPLLGALVWAVCSSAAAAIGLYVRNRLETDHAADIIMLFFAGGLFGWLLAMAALHLLPASAALPLRFVAACLAIAFFTLAVAAAFFAFEYRIFYAQWHAPAFSRIWFFQQLFTSLGAIYQFCILGPGLYFPFAIVPLLPAGAILCRRAQRATEACSLID				NA	NA	NA	NA	NA
BMS010_06187	1353	purB_2	COG0015	Adenylosuccinate lyase	TTGCTAAACGGGCAGCAAAATTCCTCCACAAAGAAAGTCATTGCCATGATCCCTCGTTATTCCCGGCCGGAAATGGTCGCCATCTGGTCGCCGGAAACAAAGTTCCGCATCTGGTTCGAGATCGAGGCATATGCCTGTGACGCACTTGCCGAACTCGGCGTTATCCCGAAGTCCGCTGCCCAGACCATCTGGGAAAAGGGCGGCAGCGCCACCTTCGACGTCGCCCGCATCGATGAGATCGAAGCCGTCACCAAGCATGACGTCATCGCCTTCCTCACCCATCTTGCCGAATTTGTCGGCCCCGACAGCCGTTTCGTGCATCAGGGCATGACCTCGTCGGACGTGCTCGACACCACGCTCAACATCCAGCTCGTACGCGCCGCCGATCTGCTGCTCGCCGATATGGACCGGGTGCTGGCGGCGCTGAAGACCCGCGCCTTCGAACACAAGAACACGGTGCGCATCGGCCGCAGCCACGGCATTCATGCCGAGCCGACCACCATGGGCCTCACCTTCGCCCGCTTCTATGCCGAGATGCACCGCAACCGTGAGCGCCTCGTTAATGCCCGTGCGGAAATCGCCACGGGTGCGATCTCCGGCGCCGTCGGCACCTTCGCCAATATCGACCCGCGCGTCGAAGAACATGTCTGTGCCAAGCTCGGTCTCATCCCCGAGCCGGTCTCCACGCAGGTCATCCCGCGTGACCGCCACGCCATGTTCTTCGCAACCCTCGGCGTCATCGCCTCGTCGATTGAAAACGTCGCCATCGAAATCCGCCACATGCAGCGCACCGAGGTTCTGGAAGCGGAAGAGTTCTTCTCTCCCGGCCAGAAGGGCTCGTCCGCCATGCCGCACAAGCGCAACCCGGTTCTGACCGAAAACCTGACCGGCCTTGCCCGTCTGGTGCGCATGTCGGTCGTTCCGGCCATGGAAAACGTGGCCCTGTGGCACGAGCGCGATATCAGCCACTCCTCCGTCGAGCGCGCCATCGGCCCCGACACCACTGTCACGCTGGATTTCGCGCTGAACCGCCTGGCCGGCGTCATCGAGAAGCTGGTGATCTATCCGGACAACATGCTGAAGAACATGAACAAGTTCCGCGGCCTCGTGCATTCGCAGCGCGTTCTCCTGGCACTGACGCAGGCCGGCGTATCGCGTGAAGACGCTTACCGTCTGGTACAGCGCAACGCCATGAAGGTCTGGGAACAGGGCGCCGATTTCCTTGAGGAACTGCTGGGTGACGAGGAAGTGCGCGCCGCACTTCCCGAAGAGGTGATCCGCGAAAAGTTCGACCTCGGCTACCACACCAAGCATGTCGACACGATCTTCACCCGCGTCTTCGGCAACGCCTGA	MLNGQQNSSTKKVIAMIPRYSRPEMVAIWSPETKFRIWFEIEAYACDALAELGVIPKSAAQTIWEKGGSATFDVARIDEIEAVTKHDVIAFLTHLAEFVGPDSRFVHQGMTSSDVLDTTLNIQLVRAADLLLADMDRVLAALKTRAFEHKNTVRIGRSHGIHAEPTTMGLTFARFYAEMHRNRERLVNARAEIATGAISGAVGTFANIDPRVEEHVCAKLGLIPEPVSTQVIPRDRHAMFFATLGVIASSIENVAIEIRHMQRTEVLEAEEFFSPGQKGSSAMPHKRNPVLTENLTGLARLVRMSVVPAMENVALWHERDISHSSVERAIGPDTTVTLDFALNRLAGVIEKLVIYPDNMLKNMNKFRGLVHSQRVLLALTQAGVSREDAYRLVQRNAMKVWEQGADFLEELLGDEEVRAALPEEVIREKFDLGYHTKHVDTIFTRVFGNA	PGPT0021555_3433	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021555-purB-K01756	NA	NA
BMS010_06188	564			hypothetical protein	ATGAAAGTTTCAGAAGCAGATATCCTGATCGTCCCCGGTTATACCAATTCCGGCCCCGACCACTGGCAGAGCCGCTGGGAGCGCAAGCTTTCCACCGCACGCCGCGTCGAGCAGGCCGAATGGTCCAAACCCGTGAAGGAAGACTGGGTCGCCCGGCTAGTGGAAGAGGTCAATGCCTCCACTAGACCCATCGTCCTCGTCGCCCATTCGCTTGGTGTGCCGACCGTCATCCATGCCCTACCGGAAATCGGCAGGAAAGTGTCCGGCGCGCTGCTCGTCGCGCCGCCCGATGTCGCCAATCCCGATATCCGGCCGAAGCACCTGATGACGTTCGGGCCTTACCCGCGCGATCCGCTGCCTTTCCCGGCGATCACCATCGCCAGCCGCAACGATCCTTTCGGCTCTTATGAACATGCCGATGACATTGCCGCCGCCTGGGGCTCGCTTTTGATCGACGCCGGCATGTCCGGCCATATCAACACCGAGTCCGGCCATGGTCCGTGGCCGGAAGGCGGTATGGTCTTCGCGCAGTTTTTGAGCCGCCTGAAGGCTGTCGAGCCCTGA	MKVSEADILIVPGYTNSGPDHWQSRWERKLSTARRVEQAEWSKPVKEDWVARLVEEVNASTRPIVLVAHSLGVPTVIHALPEIGRKVSGALLVAPPDVANPDIRPKHLMTFGPYPRDPLPFPAITIASRNDPFGSYEHADDIAAAWGSLLIDAGMSGHINTESGHGPWPEGGMVFAQFLSRLKAVEP				NA	NA	NA	NA	NA
BMS010_06189	765	purC_3	COG0152	Phosphoribosylaminoimidazole-succinocarboxamide synthase	ATGAACCGTCGCCGCCGTATTTACGAAGGCAAGGCCAAGATCCTCTACGAGGGTCCGGAGCCAGGCACGCTTATCCAGTTCTTCAAGGACGATGCGACCGCCTTCAACAAGAAGAAGCATGAAGTCATTGACGGCAAGGGCGTGCTGAACAACCGTATCTGCGAATACGTCTTCACGCATCTGAACAAGATCGGCATTCCCACGCACTTCATCCGTCGCCTCAACATGCGCGAGCAGTTGATCAAGGAAGTGGAGATGATCCCGCTCGAAGTCGTCGTGCGCAATGTCGCTGCCGGCTCGCTGTCGAAGCGCCTCGGCATCGAGGAAGGCGTGGTTCTGCCGCGCTCCATCATCGAATTCTATTACAAGTCGGATGAGCTGGAAGACCCGATGGTCTCCGAAGAGCACATCACGGCTTTCGGCTGGGCCAACCCCGCCGAGCTTGACGACATCATGGCGCTCGCCATCCGCGTCAACGACTTCCTGTCCGGCCTGTTCCTCGGTGTCGGCATCCAGCTCGTCGATTTCAAGATCGAATGCGGCCGCCTTTTCGAAGGCGACATGATGCGCATCATCCTCGCCGACGAGATTTCGCCCGATAGCTGCCGCCTGTGGGACATCGAAACCCAGAAAAAGATGGACAAGGACCTGTTCCGCCGCGACATGGGCGGGCTTCTCGAAGCCTATTCCGAAGTCGCGCGCCGTCTCGGCATCATCAATGAAAACGAACCGATCCGCGGCACCGGCCCTGTCCTCGTGAAGTAA	MNRRRRIYEGKAKILYEGPEPGTLIQFFKDDATAFNKKKHEVIDGKGVLNNRICEYVFTHLNKIGIPTHFIRRLNMREQLIKEVEMIPLEVVVRNVAAGSLSKRLGIEEGVVLPRSIIEFYYKSDELEDPMVSEEHITAFGWANPAELDDIMALAIRVNDFLSGLFLGVGIQLVDFKIECGRLFEGDMMRIILADEISPDSCRLWDIETQKKMDKDLFRRDMGGLLEAYSEVARRLGIINENEPIRGTGPVLVK	PGPT0021565_2974	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021565-purC-K01923	NA	NA
BMS010_06190	243	purS	COG1828	Phosphoribosylformylglycinamidine synthase subunit PurS	GTGATCAAGGCACGGGTGACTGTTACGCTGAAGAACGGCGTTCTCGATCCGCAGGGCAAGGCAATCGAAGGCGCGCTCGGCAGCCTCGGTTTCGGTGGCGTCGGCCATGTCCGTCAGGGCAAGGTCTTCGACCTGGAGCTGGAAGGCGCCGACAAGGCCAAGGCCGAGACCGACCTGAAGGCAATGTGCGAAAAGCTGCTGGCCAACACGGTCATCGAAAACTACGCAATCGCCATCCTCTGA	MIKARVTVTLKNGVLDPQGKAIEGALGSLGFGGVGHVRQGKVFDLELEGADKAKAETDLKAMCEKLLANTVIENYAIAIL	PGPT0021725_1410	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021725-purS-K23264	NA	NA
BMS010_06191	672	purQ	COG0047	Phosphoribosylformylglycinamidine synthase subunit PurQ	ATGAAATCCGCTGTCGTCCAACTTCCCGGCCTCAACCGCGACCGCGACATGATCGCGGCTCTGACGAAAATCTCCGGTCAGGCGCCCGTCACCATCTGGCAGACGGAAACGGACATTCCCGATGTCGATCTGATCGTCATTCCCGGCGGCTTCTCCTATGGCGACTATCTGCGCTGCGGCGCCATCGCCGCCCGCATGCCGGTCATGCAGGCCATTCGTGAAAAGGCAGAAAAGGGCGTCAAGGTTCTCGGCGTCTGCAACGGCTTCCAGATTTTGGTCGAGGCGGGCATGCTGCCGGGCGCGCTGATGCGCAACGCCTCGCTGAAATTCGTCTGCCGCGAAGTGAAGCTCGAAGTCGCCAATAACGACACGGACTTCACCCGCGCTTACGACAAGGGCCAGATCCTGCGCTGCCCCGTCGCCCATCACGACGGCAACTACTTCCTTGATGCGGATGAGCTGAAGTCGGTTGAAGGCAACGGCCAGGTGGTGTTCCGTTATGCCGAGGGCACCAATCCCAACGGCTCGCTGAACGACATTGCAGGCGTCATCAACACCAAGGGCAACGTTCTCGGCATGATGCCACACCCGGAAAACCTGATCGAAGCCGCCCATGGCGGCAATGACGGCCGCGGCCTCTTCGCTTCGGCGCTTGGCGTCATCGCAGCCTGA	MKSAVVQLPGLNRDRDMIAALTKISGQAPVTIWQTETDIPDVDLIVIPGGFSYGDYLRCGAIAARMPVMQAIREKAEKGVKVLGVCNGFQILVEAGMLPGALMRNASLKFVCREVKLEVANNDTDFTRAYDKGQILRCPVAHHDGNYFLDADELKSVEGNGQVVFRYAEGTNPNGSLNDIAGVINTKGNVLGMMPHPENLIEAAHGGNDGRGLFASALGVIAA	PGPT0020220_1867	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020220-purQ-K23265	NA	NA
BMS010_06192	405			hypothetical protein	ATGCCCCGCATTCTTCGATACGATGCCTATAAAGCCACCGGACTGATCCTCGCTGCCGCCGCACTCGCTGCCTGCCAGCCGAAACCGCAGCCTTCCTCCTCCGTCTCCCGTGCGGCCCTGCCGACCATGGAACGGATCGCGCTTGGCGCGAATGCCTGCTGGTTCAAATCGGGCGACGCGGCGTTCAAGGCCTATCGCCTGGCGCCGGAACTCAACTCCTTCTCCGGCCGTCCGCGCATCCTGCTCGTGCCGCGCAACAGCCCGGAATCGCGCCCCATGCTGGTGGTTCAGGCAGAAGGCAACCCGGCAAAGCTCGATGCTTTCGGCCCCGTGATGAACGAAGCCCTTTCCGGCCGCATCGCAGCCGACGTCAAGCGCTGGGCGAACGGCGGCAAGGGCTGCTGA	MPRILRYDAYKATGLILAAAALAACQPKPQPSSSVSRAALPTMERIALGANACWFKSGDAAFKAYRLAPELNSFSGRPRILLVPRNSPESRPMLVVQAEGNPAKLDAFGPVMNEALSGRIAADVKRWANGGKGC				NA	NA	NA	NA	NA
BMS010_06193	306			hypothetical protein	ATGCGCAAGATGGATCAATACCTTTCGACAGCGGATACACTCTATCCTGATGGCTACGAACGGGAACGCGTGTTCCGCGATGCCGGCGACATGGTCGCACCGGCGCCCTTTCCGGCCAAGATCGCCCGCACGCTTATTGGTCGCCTGATTGCGGGCATATCCTCATGGCAGCGGAAACGTCAGGGGCGCTTCGCCCTGCGGGAGCTTTCGGACGATCTGCTAGACGATATCGGCGTTACGCGGGATGAAGCCTTGAGGGAGGCGGCAAAATCCCGGCTCTTCTCCTGGCCGCCGCGGCCCCTTTGA	MRKMDQYLSTADTLYPDGYERERVFRDAGDMVAPAPFPAKIARTLIGRLIAGISSWQRKRQGRFALRELSDDLLDDIGVTRDEALREAAKSRLFSWPPRPL				NA	NA	NA	NA	NA
BMS010_06194	1419	hisC_8		Histidinol-phosphate aminotransferase	ATGACAAATTGGCTTCCCGACATTACCGAGGGCGACGGCCCGATTTACCTGCGCCTCGCCGACAGTATCGAAGGCGCGATTTCCGACGGCACCCTACAGGCCGGCTCGAAACTGCCGCCGCAGCGCAATCTTGCTTACGATCTCGGTGTGACAATCGGCACAATCAGCCGGGCCTATGCGCTCATCCATGAGCGTGGCCTCGTCAGCGGTGAGGTCGGGCGCGGAACCTATGTCAATGAGCGCAAGACCCCTGCCCCGTCATTGCCCATGGAGCCGGCAACGGCCGCCTTCGGCAGCACGCGCCACGCCGTCGATACCAGCGCCGAATTCCGGTTGAACACCACTGCTGCGCCGGATGTCGGCCAGAGCGTGCTGATCGCCAGACACATCGAGGCGGTAACCAGAGAGCATCCCCAGGACATTACCAATTATGCCCGCTCTTTTCCCGACAACTGGTGCATGGCGGGCGTTCGCTGGCTTTCCCAGAATGGCTGGTCGCCGAAGCCGGAAAACATCGTTTCGACGCTTGGCGCCCATGCGGCGGTGATGAGCGTGATGTCGGCGATGACCGTGCCGGGCGACCGCATCGTCTTCGAACCCGTCACCTATTCCCACATCAGCCGCAGCGCCGCCCTTGCCGGCCGGCGGGTGACGCTGGTGGAGGCGGATGAGAACGGCATTGTCCCGGATGATTTCGAACGCGTCTGCGCCCAGCAGCACCCCAAGATGATCTTCCTGATGTCGGCCGGCCAGAACCCGACCTGCGCGACCCTGCCGGAAGAGCGCCGCCGCGCGATTGCCGATGTCGCCCGTCGTTACGGCGTGTGGATCGCCGAGGACAATCTTTATGGCGCGATGACGCGCGATGCGATCCCGCTGATCGCAGAATTTGCGCCCGACATTACCTTCGTCGTCGGCGGCCTGTCGAAATCCGTCGCCGCCGGCGTGCGCGGCGGCTGGGTCGCCTGCCCCGCGCAATATTCCTCGCGCATCCGTATTTCCCACTCGATGATGACGGGCGGCCTGCCCTTCATGCTGGCCGAACTGAATGCGCGCCTCGTCAATAGTGGCGACGCCCACGACATTCGCAAGGATTGTATCGCCGAGATCAATCAGCGGGAGGCGATTGCCCGGCGCGTCTTTACCGGGCTGGACTTCAATTCGCTGCCCGATATCGCCTTCCTGTGGCTGAGACTGCCCGAACCATGGCTTTCCGGCACCTTCCGCAATGCGGCGATGAAGGAAGGCGTGCTGATCGACGACGAGGACGAGTTCAAGGCCGGCCGGACGGACAAGGTTTTCCACCGCGTCCGCATCAGCTTTTCCGGGCCTTCCACCCGCGAGGAGCTGACCCATGCCTTCGGCATCCTCCGCCACCTGCTGGATAACGGCTCCGCCGGCTATGAAAGCGTGGCGTGA	MTNWLPDITEGDGPIYLRLADSIEGAISDGTLQAGSKLPPQRNLAYDLGVTIGTISRAYALIHERGLVSGEVGRGTYVNERKTPAPSLPMEPATAAFGSTRHAVDTSAEFRLNTTAAPDVGQSVLIARHIEAVTREHPQDITNYARSFPDNWCMAGVRWLSQNGWSPKPENIVSTLGAHAAVMSVMSAMTVPGDRIVFEPVTYSHISRSAALAGRRVTLVEADENGIVPDDFERVCAQQHPKMIFLMSAGQNPTCATLPEERRRAIADVARRYGVWIAEDNLYGAMTRDAIPLIAEFAPDITFVVGGLSKSVAAGVRGGWVACPAQYSSRIRISHSMMTGGLPFMLAELNARLVNSGDAHDIRKDCIAEINQREAIARRVFTGLDFNSLPDIAFLWLRLPEPWLSGTFRNAAMKEGVLIDDEDEFKAGRTDKVFHRVRISFSGPSTREELTHAFGILRHLLDNGSAGYESVA				NA	NA	NA	NA	NA
BMS010_06195	2235	purL_1	COG0046	Phosphoribosylformylglycinamidine synthase subunit PurL	ATGTCGATTCCAAACTCCATCAAGATCACCCCGGAACTCGTTGCATCCCACGGGCTGAAGCCCGACGAATACCAGCGTATCCTCGACCTGATCGGACGGGAGCCGAGCTTTACCGAGCTTGGCATCTTCTCGGCCATGTGGAACGAGCACTGCTCCTACAAATCCTCCAAGAAGTGGCTGAAGACCCTGCCGACCAAGGGACCGCGCGTCATTCAGGGCCCCGGCGAAAACGCTGGCGTTGTCGATATCGACGATGGCGACTGCGTCGTCTTCAAGATGGAGAGCCACAACCACCCCTCCTATATCGAGCCCTATCAGGGCGCGGCAACCGGCGTCGGCGGCATCCTGCGCGACGTCTTCACCATGGGCGCCCGCCCGATCGCCGCCATGAACGCGCTCCGCTTCGGCGCGCCTGACCACCCGAAGACCCGCCACCTCGTGGCCGGCGTCGTCGCCGGTGTCGGCGGTTACGGCAATTCCTTCGGCGTACCGACTGTCGGCGGCGAAGTGGAATTCGATCCGCGTTATAACGGCAACATCCTCGTCAACGCCTTTGCAGCCGGTCTCGCCAAGTCCAATGCAATCTTCCTTTCGGAAGCCAAGGGCGTCGGCCTGCCGGTCGTCTATCTCGGTGCAAAGACCGGCCGTGATGGCGTCGGCGGCGCAACCATGGCATCTGCCGAATTCGACGAATCCATCGAAGAAAAGCGCCCGACCGTTCAGGTTGGCGACCCCTTCACCGAAAAGTGCCTGCTGGAAGCCTGCCTCGAGCTGATGAAAACCGGCGCCGTCATCGCAATTCAGGACATGGGTGCCGCCGGCCTCACCTGCTCCGCCGTCGAAATGGGCGCCAAGGGCGATCTCGGCATCGAGCTTGACTTGAACGCCGTACCGGTGCGCGAAGAGCGCATGACGGCTTATGAAATGATGCTGTCGGAAAGCCAGGAGCGCATGCTCATGGTTCTCGAGCCTTCCAAGGAAGAAGTCGCCAAGGCGATCTTCGTCAAGTGGGGTCTGGACTTCGCCATCGTCGGCAAGACCACCGACGACCTGCGTTTCCGCGTGCTGCACAATGGCGAGGAAGTCGCCAACCTGCCGATCAAGGAACTGGGCGATCAGGCCCCGGAATATGACCGCCCGTGGACGCCCGCCAAGGTGCCTGCGCCGCTTTCGGAAAACGACGTGCCCGCCGCCGATATCGCCGATGCGCTGGTATCGCTGGTCGGTTCGGCCAACAATTCCTCGCGCCGCTGGGTTTACGAGCAGTATGACACGCTGATCCAGGGCAATTCGCTGCAGCTGCCGGGCGGCGATGCCGGCGTTGTTCGTGTCGAAGGTCATGACAAGAAGGCACTCGCCTTCTCCTCCGACGTCACACCGCGTTATGTCGAGGCCGATCCCTTCGAAGGCGGCAAGCAGGCCGTGGCCGAATGCTGGCGCAACATCACCGCCACCGGCGCTCTGCCGCTTGCGGCCACCGACAACCTCAATTTCGGCAATCCGGAAAAGCCCGAGATCATGAGCCAGCTGGTCCATGCCATCAAGGGCATCGGCGAAGCCTGCCGTGTGCTGGAGTTCCCGATCGTTTCCGGCAACGTCTCGCTCTATAACGAGACCAACGGTCAGGCGATCCTGCCCACCCCCACCATCGGCGGTGTCGGCCTGCTGAAGGACTGGGGCCGCATGGCGCGCATCCGTTTCGCCGCCGCTGACGAAGTGGTGCTGCTCGTCGGCGCCCCTGCCGGTCTCGGCACGCATATCGCCCAGTCGGTTTACATGCGTGACATTCATGGCCGAACCGATGGCCCGGCGCCGCATGTCGATCTGGCCGCTGAAAAGAACAACGGCGATTTCGTCCGCAGCCTCATCGCCGACGGTCTTGCCACCGCCGTTCACGATTGCTCCTCGGGCGGTCTGGCACTTGCAGTCGCCGAAATGGCGATTTCGTCGGGCATCGGCGCGACCATCGACGCGGTCGAAGGCCACAACCCGGTCCTCACCTTCTACGGCGAAGATCAGGGCCGTTACGTTCTGACGGTCAAAAAGGCCGATCTCGATGAGGTGCAGACAGCGGCGAAGGCGGCGGGCGTTTCCTGCCCGGTCATCGGCGTTACCGGCGGTTCCACCGTAAAGCTGGGCACGGCGCGGGCTGTCGAGATTAAAGAATTGCACTTGGCCTATGAATCGTGGTTCCCTCAATTCATGGACGGCGAAACTTTGCTCGCCGCAGAATGA	MSIPNSIKITPELVASHGLKPDEYQRILDLIGREPSFTELGIFSAMWNEHCSYKSSKKWLKTLPTKGPRVIQGPGENAGVVDIDDGDCVVFKMESHNHPSYIEPYQGAATGVGGILRDVFTMGARPIAAMNALRFGAPDHPKTRHLVAGVVAGVGGYGNSFGVPTVGGEVEFDPRYNGNILVNAFAAGLAKSNAIFLSEAKGVGLPVVYLGAKTGRDGVGGATMASAEFDESIEEKRPTVQVGDPFTEKCLLEACLELMKTGAVIAIQDMGAAGLTCSAVEMGAKGDLGIELDLNAVPVREERMTAYEMMLSESQERMLMVLEPSKEEVAKAIFVKWGLDFAIVGKTTDDLRFRVLHNGEEVANLPIKELGDQAPEYDRPWTPAKVPAPLSENDVPAADIADALVSLVGSANNSSRRWVYEQYDTLIQGNSLQLPGGDAGVVRVEGHDKKALAFSSDVTPRYVEADPFEGGKQAVAECWRNITATGALPLAATDNLNFGNPEKPEIMSQLVHAIKGIGEACRVLEFPIVSGNVSLYNETNGQAILPTPTIGGVGLLKDWGRMARIRFAAADEVVLLVGAPAGLGTHIAQSVYMRDIHGRTDGPAPHVDLAAEKNNGDFVRSLIADGLATAVHDCSSGGLALAVAEMAISSGIGATIDAVEGHNPVLTFYGEDQGRYVLTVKKADLDEVQTAAKAAGVSCPVIGVTGGSTVKLGTARAVEIKELHLAYESWFPQFMDGETLLAAE	PGPT0021730_1086	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021730-purL-K23269	NA	NA
BMS010_06196	234		COG0271	putative protein RP812	ATGCCCATGAAACCCGGCGACATTGAAGACATGATTAAGGCGGGAATTCCCGGGGCAAAGGTCACGATCCGCGATCTGGCCGGTGATGGCGATCATTACGCGGCGGAAGTCGTTGCGGAAGCATTCAAGGGCAAGACCCGCGTGCAGCAGCACCAGATGGTCTATGACGCGCTGAAGGGCAATATGGGCGGCGTTCTACATGCCCTTGCCCTGCAGACCTCGGCTCCCGAATGA	MPMKPGDIEDMIKAGIPGAKVTIRDLAGDGDHYAAEVVAEAFKGKTRVQQHQMVYDALKGNMGGVLHALALQTSAPE	PGPT0021730_20	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021730-purL-K23269	NA	NA
BMS010_06197	1149			hypothetical protein	ATGCCAGCCGTCAAGTCACGACTTGTTCTTTATTTCCCCGGTTTCGATCCGCTCGATGCGGCCGCCCATCATCTGCGTTACCAGCGGGCGGCGGTGCTCTCCGGCAAGACATGGGATGTCGATTATGCCGTGGGGCCGCTGGAGAATGCACCCGGGGGCGAAACATTCACGGTTGAGGCCTCGGCGGGCGACTGGCGGACCCGCTCCGACATTTTCGTTTACGACCATAATGCGGTGATATCGCAATTGCGGGATGCGCCCGTCTGGCGGCAGATCTGGCTCGGTTTCAAGGCCGGAGCCGGCATCATCGCCGAGGGCGGTGCGGCGCGTTACTTCCGTCACGCCTGGCGTTTTGGGCTGTTCTTCATCTTTCCGTTCCTGCTGATGCTTGTCGGCGGCGCCCTTGCGGCGGCTATTGCCCTGTCGCCGTGGCTTTTCGCTCTACCTCTCTGGCTCTTGGCGATCAGCCTTCCCGTCGCCGCCCTGTTTTTCGTGAAGGCTTTCCTGCCGTTTGCGGAGCGGTTTCACACCCTGCATCTTTATGCGGACTGGCGGTTCGCGCTCGCGGTCGGCCGCGATGAACCGATTGCCCGTGACTGGATCGAGGAGAGGGCGGCACTTGTTCTGACGGCGCTGGAGCAGCCCTCGGACGAGGTTCTGGTGGTTTCCCACAGCATGGGCGCCAGCCTTGCGCTCGCCGTGATCGGCCGCGTGCTGGAGCTGAAGCCGAATGCGCTGGATGGCCGGAAACTGTCCTTTGCGACCTTGGGCGGGGCGGCGCTGCAATGTGCGTTCCTGTCGAGCGCCGACCGGCTTCGCCAAAGCGTCGGCACGATTGCTCGTCACCCGGAGGTGACATGGTTCGATATTCAGTGCCTGACCGATCCTATTCATCTCTACCGATGCAATACCGTGGCCCTGACCGGTCACAGGGATGCGCCGCAGCCGAAGATCGTGCCGATCCGTTTCAAGCATTCGCTCTCGCCGGACCGTTATAAGAAGAACAAGCGCAACTTCCTGCGCATGCATCGGCAATATGTTCTGGGGCCGGACCGCAGATCCGGTTACGATTTTACACTGCTGACGGCAGGACCTTTGCCTGCGGCCTCCTTCGCCGCTCTGGATTCGCAGACGCCGCCCGTTTTGTAA	MPAVKSRLVLYFPGFDPLDAAAHHLRYQRAAVLSGKTWDVDYAVGPLENAPGGETFTVEASAGDWRTRSDIFVYDHNAVISQLRDAPVWRQIWLGFKAGAGIIAEGGAARYFRHAWRFGLFFIFPFLLMLVGGALAAAIALSPWLFALPLWLLAISLPVAALFFVKAFLPFAERFHTLHLYADWRFALAVGRDEPIARDWIEERAALVLTALEQPSDEVLVVSHSMGASLALAVIGRVLELKPNALDGRKLSFATLGGAALQCAFLSSADRLRQSVGTIARHPEVTWFDIQCLTDPIHLYRCNTVALTGHRDAPQPKIVPIRFKHSLSPDRYKKNKRNFLRMHRQYVLGPDRRSGYDFTLLTAGPLPAASFAALDSQTPPVL				NA	NA	NA	NA	NA
BMS010_06198	249			hypothetical protein	TTGTCTGGCATCGTCGATCAAGTACTCAACGGCGTCGTCAAGGGCGCGCTGTCTGAAATCCTCAGCAAGACCGGTATCCGCAAGACCCGCCGCGCGCGCCGGACGAAAAGCACCGGCTCGCTTGCCGGCGGCATCGTCGGCTCGGTTCTGGAAGCCGCGATCAAAGCCGCCATCAAACCCAAGCCGGCCAAGAAGCAGGTGAGCAAAAGACGCACAGTCGCCGCCCGCAGCCGGCAGAGATATCGCTGA	MSGIVDQVLNGVVKGALSEILSKTGIRKTRRARRTKSTGSLAGGIVGSVLEAAIKAAIKPKPAKKQVSKRRTVAARSRQRYR				NA	NA	NA	NA	NA
BMS010_06199	336	grxD_1	COG0278	Glutaredoxin 4	ATGAGCGGCATTCACGACATGATCGACAGCGAAGTGAAGAGCAACGATATCGTTCTTTTCATGAAGGGCACCCCGCAATTTCCGCAGTGCGGTTTTTCCGGCCAGGTGGTACAGATCCTCGATTATCTCGGCGTCGACTACAAGGGTATCAACGTGCTTGCCGATGCAGATATCCGCCAGGGCATCAAGGACTACTCCAACTGGCCGACCATCCCGCAGCTCTACGTCAAGGGCGAATTCGTCGGCGGCTGTGACATCGTAAGAGAGATGTTCCAGTCTGGCGAACTTCAAAACCACTTCCAAGAACAGGGTATCAGCGTCCGCGGCGCGGCCTGA	MSGIHDMIDSEVKSNDIVLFMKGTPQFPQCGFSGQVVQILDYLGVDYKGINVLADADIRQGIKDYSNWPTIPQLYVKGEFVGGCDIVREMFQSGELQNHFQEQGISVRGAA	PGPT0013203_1435	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CHAPERONES,PGPT0013203-grxD-K07390	NA	NA
BMS010_06200	1287	bcr_2		Bicyclomycin resistance protein	ATGCAACGCCTTTGCCGTTCTTTTTGGGGCAATCCTGTGACAAATCTTTCACAATCCACCGCTTCGCGCGCAGGCTCGATGGGGCGCACGGAATTCATCGCGCTTGCCGCGATGCTGATGGCGCTGAACGCGCTTGCTATCGACATCATGCTGCCCGGTCTTCAGGAAATCGGCGCTTCGCTCGGCGTCGAGAACGAAAACCACCGACAATATGTGATTTCCGCCTATCTTCTCGGCTTCGGCATCGCCCAGCTTCTGTACGGACCGATTTCGGACCGTTTCGGACGCCGCAAGCCGATGTTCGTCGGGCTTGCGATCTACATCGTTTCAGCCATCGCCGTGGTCTTCGTACCGTCCTTCTCCGGGCTTCTGATGCTGCGTTTCATTCAGGGCATCGGTTCGGCGGCAACGCGTGTCATCACGGTCTCCATCGTGCGTGACATCTATGGCGGACGGCAGATGGCGGAAGTCATGTCGCTGATCATGATGGTCTTCATGGTCGTGCCGGTCATTGCGCCCGGCACCGGCCAGATCGTGCTGTTTTTCGGTGACTGGCACCTGATCTTCGCTTTCATGGCGGCCATTGCCGCCGTGGTGACGGCCTGGATGTATTTCCGCCTGCCGGAAACCCTGCATCCGGACGATGTCCGCCCCCTGACCGCAAGCTCCATCCTCGGCGGTTTCAAGATCGTGCTCACCAACCGTATCGCGCTCTGTTATACGCTCTCAAGCACCTTCATCTTCGGGGCGCTGTTCGGCTTCATCAACTCGGTCGAACAGGTCTATAAGGGCATTTACGGGCTCGGCGCATGGTTTGCGGCGGCCTTTGCGGGCGTGGCGCTGTTCATGGCCTTCTCGTCCTTCGTCAATGCAAGGTTGGTCGGCCGGTTCGGCATGCGCAAGCTGTCGCACGGCTCGCTGCTCGGCTTCATCGCCATCACCTTCGTCTGGCTGCTGGTGCAGGTGCTGGGGCCGGAACCGATGCCCTTTGCCATCTTCATCGTGTTCTTTGCGCTCGCCATGTTCCAGTTCGGCTGGATCGGCTCGAACTTCAACTCGCTCGCCATGGAGCCGCTCGGCCACGTCGCCGGCACCGCATCGTCCGTCATGGGCTTCATGGGAACCGTCGGCGGCTCGCTGATCGGCGCGGCCATCGGCCAGTCTTTCGACGGCACGGCGCTGCCCATGGTGGCGGGCTTCTTCGCCGTCTCCATCGTCGGCCTCATCTTCGTGCTGATCGGTGAAAAGGGCGTGCTGTTTCAGGCGCATAACAAGCCGACCCGCTGA	MQRLCRSFWGNPVTNLSQSTASRAGSMGRTEFIALAAMLMALNALAIDIMLPGLQEIGASLGVENENHRQYVISAYLLGFGIAQLLYGPISDRFGRRKPMFVGLAIYIVSAIAVVFVPSFSGLLMLRFIQGIGSAATRVITVSIVRDIYGGRQMAEVMSLIMMVFMVVPVIAPGTGQIVLFFGDWHLIFAFMAAIAAVVTAWMYFRLPETLHPDDVRPLTASSILGGFKIVLTNRIALCYTLSSTFIFGALFGFINSVEQVYKGIYGLGAWFAAAFAGVALFMAFSSFVNARLVGRFGMRKLSHGSLLGFIAITFVWLLVQVLGPEPMPFAIFIVFFALAMFQFGWIGSNFNSLAMEPLGHVAGTASSVMGFMGTVGGSLIGAAIGQSFDGTALPMVAGFFAVSIVGLIFVLIGEKGVLFQAHNKPTR	PGPT0029005_348	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029005-bcr|tcaB-K07552	NA	NA
BMS010_06201	825	cysQ_2		3'(2'),5'-bisphosphate nucleotidase CysQ	ATGGCTCTCGAACTCGACATCGCCGCTCTCGCCAATGCGCTTCAGGAGGCGGCGGCGGTGGAAATTCTGCCGCGGTTCCGTAATCTGGGCGAGGGCGACGTGCGGATGAAGACCGAGGCAATCGACCTCGTGACCGAGGCCGACGAGGCGGCCGAGCGGTTGATCCGCGCCCGCGTGCAGGAGATCATGCCGGATGCGCTGTTCATCGGCGAAGAGGCGGTGGCGGCGGATGCCTCGCTGCTCGGCAAGCTTGCCGATGCCGATCTTGCCGTGGTGGTCGATCCGATTGACGGCACCTATAATTTCGCCTCCGGCCTGCCGCTCTTCGGCGTGATGATGAGCGTCATCTCCAAGGGTGAGACCGTTGCCGGCCTTATCTTCGATCCGATGGGCAATGATTGGGCGATTGCCGAAAAGGGTTCCGGCGCGTGGCTTTGCAGCGCCGACGGATCGCAGACGCAGATGTCGGTCGTGCCGGCCCCGGAATTGTCGCAGATGGTCGGCATCGCCAATACCGGTTATTTCGACGTGGAGACACGGCGCAAGATCCTGACGAACCTCGCCGATGTGCGGCTCTTCACCAGCTATCGCTGCGCGGCGCATGAGTACCGCCTGTTCTGCGGCGGCCATATGCACTTCCTGATGTATAACAAGCTGATGCCCTGGGACCATCTGGCCGGCACGCTGCTGTCGCAGGAGGCGGGCGCTTACGCGGCACGCCTCGACGGCTCGCCCTATCTGCCGAGCCATGTGGATGGCGGGCTGCTGCTCGCGCCGGATCAGGAGACGTGGGAACTGCTGCGGGAGAAGATTTTTACGGTTTGA	MALELDIAALANALQEAAAVEILPRFRNLGEGDVRMKTEAIDLVTEADEAAERLIRARVQEIMPDALFIGEEAVAADASLLGKLADADLAVVVDPIDGTYNFASGLPLFGVMMSVISKGETVAGLIFDPMGNDWAIAEKGSGAWLCSADGSQTQMSVVPAPELSQMVGIANTGYFDVETRRKILTNLADVRLFTSYRCAAHEYRLFCGGHMHFLMYNKLMPWDHLAGTLLSQEAGAYAARLDGSPYLPSHVDGGLLLAPDQETWELLREKIFTV	PGPT0018535_2362	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018535-suhB-K01092	NA	NA
BMS010_06202	828	cysQ_3		3'(2'),5'-bisphosphate nucleotidase CysQ	ATGACCCTTTCCGACAAAGATATCGACTTCCTCGTTTCCACCGTTGCCGCTGCCGGCGCGAATGAAATTCTTCCCCGCTTCCGAAACCTGAGCGCCGGTGCGATCTCCGAAAAGACCTCCGCCGTCGATCTCGTCACCGAGGCCGATGTTCTGGCAGAAAAGGCGATCACCGCTGCTCTCCTTCAGCGATTTCCGAAGGCCCATATCGTCGGCGAAGAGGCCTATGAGGCGGACCAATCCGTCATTCCCGCACTTGCCGATGCGCCGCTTGCCTTCGTGATCGATCCCATCGACGGCACTTTCAATTACGCTTCCGGTTTTCCCGCTTTCGGCACGCTGCTTGCGGTCACCGTCAAGGGTGAGACCGTGGCGGGCATCATCCACGATCCGGTGATGGGCGATACCATCGTTGCTTTGAAAGGCGAGGGCGCGTTTCTCAACCGCAGGAACGGTTCGCAGGCGAAGCTCAGGGTAGCCGATCCCGCGCCATTGTCCGACATGGTCGGCATCTTTTCCTGGGGCCATAGCCATCAGGATCGCCGGCCGGTAATTGCCGCCAACATGGCGAAGATCAAGATGGCGCTGTCACTCAATTGCTCGGCACATGAATACTGGCTCGCCTCGGCCGGCAAGCTGCATTTCATCGGCCATGAAAAGCTGATGCCGTGGGATCATCTCGCCGGTGTGCTCATTCATCAGGAGGCGGGCGGTTACACGGCCCGTTTCGACAATACGCCCTATCGGCCGGGGCAGACGGAGGGCGGCATTCTGTCCGCTCCCGACAAGGAAAGCTGGAAGATGCTGCGACGGGAAATCGTCGCCTTATAA	MTLSDKDIDFLVSTVAAAGANEILPRFRNLSAGAISEKTSAVDLVTEADVLAEKAITAALLQRFPKAHIVGEEAYEADQSVIPALADAPLAFVIDPIDGTFNYASGFPAFGTLLAVTVKGETVAGIIHDPVMGDTIVALKGEGAFLNRRNGSQAKLRVADPAPLSDMVGIFSWGHSHQDRRPVIAANMAKIKMALSLNCSAHEYWLASAGKLHFIGHEKLMPWDHLAGVLIHQEAGGYTARFDNTPYRPGQTEGGILSAPDKESWKMLRREIVAL	PGPT0018535_2362	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018535-suhB-K01092	NA	NA
BMS010_06203	942	ttcA_1	COG0037	tRNA-cytidine(32) 2-sulfurtransferase	ATGATGAACATTCTCACCAAGATCGATGACTTTGTAGATCAGGCCGGGGCCGACCAGATCGGGTCGGATCAGGACGCGCCAGAGGAAAACGGCAGCTCGCATCCCCTGTTCGACAATGCACCGCGGTCGGTTTCCTTCAACAAGCTGCGCAAGCGGCTGCTGCGCAACGTTCGCCAGGCCTTTGAAGATTTCGGCATGCTGAAGGGCCAGAAGCGCTGGCTTGTCGGCCTTTCCGGCGGCAAGGACAGCTATGGGCTGCTGGCGCTGCTGCTCGATCTCAAATGGCGTGGCCTTTTGCCGGTGGAACTGGTGGCTTGCAATCTCGATCAGGGGCAGCCGAATTTTCCCAAACACGTGTTGCCGGAGTATCTGGCGAAGATCGGTGTGCCCCATCGCATCGAATATCGCGACACCTATTCCGTGGTGAAGGAAAAGGTGCCTGCGGGCGGCACCTACTGTTCGCTCTGTTCGCGGCTCCGGCGCGGCAATCTCTACCGCATCGCGCGGGAGGAGGGTTGCGACGCACTGCTGCTCGGCCATCATCGCGAGGATATTCTCGAAACCTTCTTCATGAACTTCTTCCACGGCGGCCGGCTGGCTGGCATGCCGGCGAAGCTTTTGAACGACGAGGGCGACCTGATGGTCATGCGTCCGCTTGCTTATTGCGCCGAGGAGGATATGGCGAAATTCGCGGCGGCGATGGAGTTCCCCATCATTCCCTGCGACCTCTGCGGCTCGCAAGACGGGCTTCAGCGCAATGCCATGAAGGAGATGCTGGCGGATATCGAAAGGCGTATGCCCGGCCGCAAGGACGTGATGCTGAGGGCGCTTGCCCATGTCAATCCGTCGCATCTGCTCGATCCCAAGCTTTTTGATTTTTCGGCGCTTTCTGTCACCGGGGCGTCACCTGAAGAGCGTAGGGAGGCCAACTCCCCCTTATGA	MMNILTKIDDFVDQAGADQIGSDQDAPEENGSSHPLFDNAPRSVSFNKLRKRLLRNVRQAFEDFGMLKGQKRWLVGLSGGKDSYGLLALLLDLKWRGLLPVELVACNLDQGQPNFPKHVLPEYLAKIGVPHRIEYRDTYSVVKEKVPAGGTYCSLCSRLRRGNLYRIAREEGCDALLLGHHREDILETFFMNFFHGGRLAGMPAKLLNDEGDLMVMRPLAYCAEEDMAKFAAAMEFPIIPCDLCGSQDGLQRNAMKEMLADIERRMPGRKDVMLRALAHVNPSHLLDPKLFDFSALSVTGASPEERREANSPL				NA	NA	NA	NA	NA
BMS010_06204	930	glsA	COG2066	Thermolabile glutaminase	ATGCAGGACATTCAGGCGATCGTCGATTCCATCTATGACAGCATGGCGCCGAGGCTCGGCGAGGGGAAGGTTGCGGATTACATTCCCGAACTTGCCACGGTCGATCCCAACCAGTTCGGCATCGCCATCACCACTGTCGATGGAACCACCTATACGGCCGGCAATGCGCTGACGCCATTTTCGATCCAGAGCATCTCCAAGGTATTCATGCTGACGCTCGCGCTCGGCAAGGCGGGGGAAACGGTGTGGAACCGGGTAGGGCGCGAGCCTTCGGGCTCCTCCTTCAACTCCATCGTCCAGCTGGAGCATGAGCACGGCATCCCACGCAATCCCTTCGTCAATGCCGGCGCGATCGTGGTGACCGATATCGTGCTTGCCGGCCACCAGCCCCGCGAGGCAATCGGTGAGCTTCTGCGTTTCGTGCGTTACCTCGCGGACGATGACACGATCAGCATCGACGATACGGTGGCGAAATCCGAGCAGGCGACGGGGTTCCGGAATTTCGCGCTCGCCAATTTCATGCGCTCCTTCGGCAATCTGCACCATCCCGTCGAATATACGCTCGGTGTTTATTTCCACCAGTGCGCGCTTTCCATGACCTGCGCTCAGCTTTCCCGTGCCGGGCTTTTCCTTGCCAATCGCGGCCGCAATCCGCTGACGGGCCACACGGTCGTCTCGGATCGCCGTGCGCGGCGCATCAATGCGCTGATGCTGACCTGCGGCCATTATGACGGATCGGGCGATTTCGCCTATCATGTCGGCCTGCCGGGCAAGAGCGGTGTGGGCGGCGGCATCATGGCGGTGGCGCCAGGCAACGCGTCCATTGCGGTCTGGTCGCCGGGTCTCAACAAGGTCGGCAATTCGGCGCTCGGGTCACAGGCGCTGGAAATGCTGGCGACGAAAACCGGCTGGTCGGTATTCGGGGCTTGA	MQDIQAIVDSIYDSMAPRLGEGKVADYIPELATVDPNQFGIAITTVDGTTYTAGNALTPFSIQSISKVFMLTLALGKAGETVWNRVGREPSGSSFNSIVQLEHEHGIPRNPFVNAGAIVVTDIVLAGHQPREAIGELLRFVRYLADDDTISIDDTVAKSEQATGFRNFALANFMRSFGNLHHPVEYTLGVYFHQCALSMTCAQLSRAGLFLANRGRNPLTGHTVVSDRRARRINALMLTCGHYDGSGDFAYHVGLPGKSGVGGGIMAVAPGNASIAVWSPGLNKVGNSALGSQALEMLATKTGWSVFGA	PGPT0020215_1751	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0020215-glsA-K01425	NA	NA
BMS010_06205	618	rpsD_2	COG0522	30S ribosomal protein S4	ATGAGCAAGCGCGAATCGGCTAAGTATAAAATTGACCGCCGCATGGGCGAAAACATCTGGGGCCGTCCGAAGTCCCCGGTTAACCGCCGCGAATACGGCCCGGGCCAGCACGGCCAGCGCCGCAAGGGCAAGATGAGCGACTTCGGCACGCAGCTGCGCGCCAAGCAGAAGCTCAAGGGCTACTACGGCGAACTGCGCGAAAAGCAGTTCCGCGCCACCTTCGACGAAGCAAACCGTCGCAAGGGTGACACCTCCGAAAACCTCATCGGCCTGCTCGAGTCGCGTCTGGACGCCATCGTCTACCGCGCCAAGTTCGTTCCTACCGTTTTCGCATCGCGCCAGTTCATCAACCATGGCCACGTCACGGTTAACGGCGTTCGCGTCAACATCGGTTCTTACCGCTGCAAGCCGGGCGACGTTATCGAAGTTCGCCAGAAGTCCAAGCAGCTCGTAACCGTTCTGGAAGCCGTTCAGCTCGCTGAGCGTGACGTTCCGGACTACATCGAAGTTGACCACAACAAGATGGTTGCGACCTACGCCCGCGTTCCGGCTCTCTCCGACGTTCCGTACCCGGTCGTCATGGAACCGCATCTGGTCGTCGAATTCTACTCGCGTTAA	MSKRESAKYKIDRRMGENIWGRPKSPVNRREYGPGQHGQRRKGKMSDFGTQLRAKQKLKGYYGELREKQFRATFDEANRRKGDTSENLIGLLESRLDAIVYRAKFVPTVFASRQFINHGHVTVNGVRVNIGSYRCKPGDVIEVRQKSKQLVTVLEAVQLAERDVPDYIEVDHNKMVATYARVPALSDVPYPVVMEPHLVVEFYSR				NA	NA	NA	NA	NA
BMS010_06207	984	alx	COG0861	Putative membrane-bound redox modulator Alx	ATGGACTTTCTTCTATCGGATTTTCTCGGCACCCCCACATGGATGTGGGCGGTCTTCATTTCCCTCGTCCTTGGCCTTCTCGCGCTCGATCTAGGCGTGCTGCATAAAAACTCCAAGGAAATTGGCGTTCGTGAAAGCCTGCTGATGTCGGGCTTCTATATTGTCATCGGCTTGGCCTTCGGCGGCTGGATCTGGTATCAGTCCGGCGAACAGTCGGCGATGGAATATGTCACCGGCTTCGTGGTCGAAAAAAGCCTGGCGATGGACAATATCTTCATCATCGCCATGATTTTCTCCTATTTCGCCATTCCCCGCCAATATCAGCACCGCGTGCTGCTCTGGGGCATCCTCGGCGTCATCGTCCTGCGTGGCATCATGATCGCGGGCGGCGCGGCCATCGTCGAAAACTTCCACTGGGTGCTTTATCTCTTCGCGGCCTTTCTCGTCTTCACCGGCCTCAAGATGCTGTTCTCGTCCGACCATGACGAGTCCGATATCGGCAATAACCGCATCCTGAAGTTCCTGCGCAGTCACCTTCCGGTGACAAACAGACTGCATGGCGAGAAATTCTTCGTCAAGGAAACCGATGAGACCACCGGCAAACTCAAGACCTTCGTGACGCCGCTCTTCCTGGCGCTCATCATGGTCGAAATCGCCGACCTGATCTTCGCAGTCGATTCGATCCCGGCAATCTTCGCGATCACCACCGATCCGTTTATCGTCTACACGTCGAACATCTTCGCGATCCTCGGCCTGCGCGCCCTTTACTTTGCGCTCGCCGCCCTCATCCACCGCTTCGCTTATCTGAAATATGCGCTGGCTGCGGTTCTGGTCTTCGTCGGTTCGAAGATTTTCGTCGCCGATATGCTGGGCATCGCCAAGATCCCGCCCGCCGTCTCTCTCGGCGTCACCGTCGCCATCCTTGCAACCGGCATCATCGGTTCGCTGATTGCGACGCGCAAGGAAGCGAAAGCCATCGAGTAA	MDFLLSDFLGTPTWMWAVFISLVLGLLALDLGVLHKNSKEIGVRESLLMSGFYIVIGLAFGGWIWYQSGEQSAMEYVTGFVVEKSLAMDNIFIIAMIFSYFAIPRQYQHRVLLWGILGVIVLRGIMIAGGAAIVENFHWVLYLFAAFLVFTGLKMLFSSDHDESDIGNNRILKFLRSHLPVTNRLHGEKFFVKETDETTGKLKTFVTPLFLALIMVEIADLIFAVDSIPAIFAITTDPFIVYTSNIFAILGLRALYFALAALIHRFAYLKYALAAVLVFVGSKIFVADMLGIAKIPPAVSLGVTVAILATGIIGSLIATRKEAKAIE	PGPT0004905_1548	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_TELLURIUM_RESISTANCE	TELLURIUM_RESISTANCE-TER-SYSTEM,PGPT0004905-terC-K05794	NA	NA
BMS010_06208	1575			hypothetical protein	ATGTTCGGCCGTCCCTTGAGGGAATCGGTCCTGATATGCAGCACAGGGAATGGAACATTGCAGGTCGGTATCGACATGGGAACCCTATCGGGCGGGCAGCAGGCCAAGCTCGATATTGAAGAATTGCTTGCGACGCGCCTGCTGGTGCAGGGCAATTCCGGTTCCGGCAAGTCGCATCTGCTGCGCCGGCTGCTCGAGCAATCGGCGCAATGGGTGCAGCAGGTCATCATCGATCCCGAGGGTGATTTCGTCACGCTTTCCGACAAGTTCGGTCATGTGGTGGTGGATGGCGAGCGTACCGAAGCGGAGCTTGCCGGCATTGCCAACCGCATTCGCCAGCACCGCGTTTCCTGCGTGCTGACGCTGGAAGGCCTCGATATTGAACAGCAGATGCGGGCCGCCGCCGCCTTCCTCAACGGCATGTTCGATGCGGATCGTGAATTCTGGTATCCGGTGCTTGTCGTGGTGGATGAGGCGCAGATGTTTGCGCCCTCCGTTGCTGGTGAAGTCACGGAAGATGCCCGCAAGGCCTCGCTGGGCGCCATGACCAATTTGATGTGCCGTGGCCGTAAGCGCGGTCTTGCCGGCGTCATCGCCACGCAACGTCTTGCGAAGCTCGCCAAGAACGTCGCGGCGGAAGCCTCCAACTTCCTGATGGGCCGCACCTTCCTCGATATCGACATGGCGCGCGCGGCTGATCTGCTCGGCATGGACCGGCGGCAGGCGGAAATGTTCCGCGATCTGCAGCGCGGCAATTTCGTGGCGCTTGGCCCGGCGCTGTCGCGTCGGCCGCTGCCCATCGTCATCGGCCCGGTGGAAACCTCGGCGCGTTCCTCCTCGCCGAAGCTGATGCCGCTGCCGGATGCGCCGCAGGATGTGGAAGACCTGATCTTCACGCCGGATCCGGAAGAGTTTACCCGGCCTGCCGTGCGCCGCACACCGCCAGCACCACGTCCGACCACGGATATTCTGGCCGAACTCTCCCGTTCCACACCCGCCGCCGTTGGCCCTACGCCGGAGCAGTCGCCGCGTGCAGGTCAACCGGAACTGACGCCGGAGGAGCGGGAGGAAAAGATCGGGGCGGTGCTGGTTGAAATTCTCGATGATCCGCAATCGGCCTATCGCACGGACGCCGTGCTTTATCAGGATTTTCTGGTGCGCGCCCGCATGCGCCGTATTCCCGGCACGCCGATGACGCTGCCGGAATTCCGCCGACAGGTGGCGATTGCCCGCTCCGGCGTGGATGCGGCGATGGCGGCGAGCGAAGGCTGGGAAAAGGCGCTGGAATTGTCGACGTCGGTTTCCGACGACCTGCAGGGCGTTTTCCTGCTGCTGGTCAAGGCCGCTCTCGGCGAGGAGCCTTGCCCGTCGGATGCCCGCATCGCCCGCGCTTATGGCACCCATTCCGCCCGCCGCGCGCGGCGGCTGCTCGGTTATTTCGAGGAGAAGGAGCTTGTGGTGGTGCATGCCGATTTCTCCGGCAAGCGCATCGTGGCTTTCCCCGATCTCGATGCAAAAACCGCACCCGGCGATGCGGATGCGGCTGAGGATGATGCCAGACTGGCGGCTGAGTGA	MFGRPLRESVLICSTGNGTLQVGIDMGTLSGGQQAKLDIEELLATRLLVQGNSGSGKSHLLRRLLEQSAQWVQQVIIDPEGDFVTLSDKFGHVVVDGERTEAELAGIANRIRQHRVSCVLTLEGLDIEQQMRAAAAFLNGMFDADREFWYPVLVVVDEAQMFAPSVAGEVTEDARKASLGAMTNLMCRGRKRGLAGVIATQRLAKLAKNVAAEASNFLMGRTFLDIDMARAADLLGMDRRQAEMFRDLQRGNFVALGPALSRRPLPIVIGPVETSARSSSPKLMPLPDAPQDVEDLIFTPDPEEFTRPAVRRTPPAPRPTTDILAELSRSTPAAVGPTPEQSPRAGQPELTPEEREEKIGAVLVEILDDPQSAYRTDAVLYQDFLVRARMRRIPGTPMTLPEFRRQVAIARSGVDAAMAASEGWEKALELSTSVSDDLQGVFLLLVKAALGEEPCPSDARIARAYGTHSARRARRLLGYFEEKELVVVHADFSGKRIVAFPDLDAKTAPGDADAAEDDARLAAE				NA	NA	NA	NA	NA
BMS010_06209	894	eamA_2	COG0697	putative amino-acid metabolite efflux pump	ATGGCATTGCCGCATATATTTCTTGCCCTGATCACCGTGTTTTTGTGGGGCTTCAACTTCGTCGTCATCAAGGTGGGCGTCGCCGATATGCCGCCCCTGTTTCTGACGGGTGTGCGTTATCTCTTTGCGGCGGTGCCCCTGGTGTTCTTCCTGCCGAAACCCAATGTGCCGTGGAGACACATGATCGTTTACGGCATGGCCATGGGCTTCGTGCAGTTCGGCCTGCTTTATCCCGCCATCAAGCTCGGGCTGCCGGCGGGGCTCGCTTCGCTCGTCATGCAGTCGCAGGCCTTTTTCACGCTGGCGCTTGCCGTGGTGTTCCTCGGTGAACGGCCATTGCCGTCGCAGGTCTTCGGCGCGATCATCGCTTTTGGCGGGCTGGCGGTCATCGGTGTGGAGCGGATGACGGCGGCGGCGCTGGTACCGTTGCTCATGGGCGTCGGCTCCGCGATTGCCTGGGCCTGTGGCAACATCGTCAATCGCCGCATCGGTCAGGTCAATGCCGTCTCTTTCGTCGCCTGGACCAGTCTTGTGCCTGTTCTGCCATTGATCCTGCTGTCGCTCGTGGTGGAAGGGCCGGAAGCGATTGCCGAAGGGGTTGCCAATGCGACCCCGACCATGGCTTTTGTGGTTATCTACATGGCCTATGGCGCGACGATCGTGGGTGCTGGGATATGGAGTTACCTGCTTCTGCGCTATCCGGCTGGAACGGTGGCGCCATTTTCGCTGCTGGTGCCAATTGTCGGGTTTATCAGCGCCTACCTCGCTTTTGCCGAACATATTACCGTTTTCGAAGTGGTCGGCGCAGCACTGGTCATTCTGGGGCTCGCGCTTAACGTCTTTGGCCGGCGCATCGGCGCTTCACGCTTTTGGGTGAGGTCTACGCAGGGCTAA	MALPHIFLALITVFLWGFNFVVIKVGVADMPPLFLTGVRYLFAAVPLVFFLPKPNVPWRHMIVYGMAMGFVQFGLLYPAIKLGLPAGLASLVMQSQAFFTLALAVVFLGERPLPSQVFGAIIAFGGLAVIGVERMTAAALVPLLMGVGSAIAWACGNIVNRRIGQVNAVSFVAWTSLVPVLPLILLSLVVEGPEAIAEGVANATPTMAFVVIYMAYGATIVGAGIWSYLLLRYPAGTVAPFSLLVPIVGFISAYLAFAEHITVFEVVGAALVILGLALNVFGRRIGASRFWVRSTQG				NA	NA	NA	NA	NA
BMS010_06210	639	rhtB_7	COG1280	Homoserine/homoserine lactone efflux protein	ATGCCGCTGGAAAACTGGCTGGCCTTCGTGGCCGCATCCGCCATCATGCTTGCCATTCCGGGACCGACGATCCTGCTGGTGATTTCTTATGCGCTGGGCCATGGCCGCAAGGCCAGCACGGCGACGGTGACGGGCGTGGCGCTTGGTGATTTCACCGCAATGACGGCTTCCATGCTGGGGCTCGGCGCGCTGCTTGCCACATCGGCGGCGCTTTTCACCGGGCTTAAATGGATCGGTGCGGCTTACCTCATCTATCTCGGCATCAAGCTGTGGCGTTCGCCGGTCAGCGGCGAGGGGGCGGAAGGGACGGGCGTGACCGGCCGTGAAAGACCGCTCAAAATCTTCCTGCATGCCTATATCGTGACCGCGCTGAACCCGAAGAGCATCGTGTTCTTCGTGGCCTTCCTGCCGCAGTTTCTGGTGCCGACGCTGCCTTTCTGGCCGCAGGTGCTGATTTTCGAAGTCACATTCCTGGTGCTTGCCACTGTCAATGCGGCGCTTTATGGACTTCTGGCAAGTGCCGCCCGCAATACGATCCGCAAGCCGAAGGTTCAGCGCATCGTCAACCGCACGGGCGGCGGTCTCCTGATCGGCGCCGGCCTCATTACCTTCGGCTGGAAGAGGGCGGTCGCGCCGTAA	MPLENWLAFVAASAIMLAIPGPTILLVISYALGHGRKASTATVTGVALGDFTAMTASMLGLGALLATSAALFTGLKWIGAAYLIYLGIKLWRSPVSGEGAEGTGVTGRERPLKIFLHAYIVTALNPKSIVFFVAFLPQFLVPTLPFWPQVLIFEVTFLVLATVNAALYGLLASAARNTIRKPKVQRIVNRTGGGLLIGAGLITFGWKRAVAP	PGPT0021036_553	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_SENSING_RELATED_GENES	CE-QSR-PUTATIVE_TRANSPORTER,PGPT0021036-rhtB-K05834	NA	NA
BMS010_06211	240			hypothetical protein	ATGCAGAAAAATCAACCATTGGTAGCATATGCGCTGCCGGATGCGGTCGATCGCTTGTTCGTCACATTCGGTGTCTGGAAAACCCTGAAAGCGGTTCTCATTGCCGCACTGGTGCCGCGTGCACCGCCGACCGATCCTGCCGATCTGCCAGAGCGCCTGCTGGTCGATATCGGCCTTGACCCGTCGCGGGTGAAGCGGCGGCGGGATTGGGAGGTCCCTCACTGGGCGCCCCGGTTTTGA	MQKNQPLVAYALPDAVDRLFVTFGVWKTLKAVLIAALVPRAPPTDPADLPERLLVDIGLDPSRVKRRRDWEVPHWAPRF				NA	NA	NA	NA	NA
BMS010_06212	96			hypothetical protein	ATGACCAATGACATCAATATGCGCCTTAACGGCATGTCAGGCCTTTCCGGCATGTTTATCGGCGGTTATGTGATGCGAGGCATCTCCCTCCGATAA	MTNDINMRLNGMSGLSGMFIGGYVMRGISLR				NA	NA	NA	NA	NA
BMS010_06213	822	murI_2	COG0796	Glutamate racemase	ATGCTGAAGACGAGTGAGGCGGCGGCCGATGTGCTGAAACCGGTGCTGGTGTTCGATTCCGGCATTGGCGGGCTGACCGTGCTGCGCGAGGCGCGGGTGCTGATGCCCGAGCGCGGCTTCATCTATGTGGCCGACGATGCGGGTTTTCCCTATGGCGGCTGGGAGGAGGAAGCGCTGAAGGCGCGTATTCTTTCTCTCTTCGACAAGCTGCTGGACGACTATAGCCCGGAAGTCTGCATCATCGCCTGCAACACCGCCTTCACGCTCGCTGGCGCAGATCTTCGCGCCCGCTTTCCGCAGATGACCTTCGTTGGCACTGTGCCCGCCATCAAGCCGGCGGCGGAGCGTACCCGCTCGGGCCTCGTTTCGGTGCTGGCGACACCGGGTACCGTCAAGCGCGCCTATACGCGCGATCTCATTCAGTCCTTCGCCAGCCAATGTCATGTCCGCCTCGTCGGTTCGGAAAACCTGGCGCGCATGGCGGAAAGCTGGATCAGGGGCGAGCCGGTTTCGGATGAGGCGGTGCTTGCCGAAATCGAACCCTGCTTCATCGACAGCGAGGGAAAGCGCACGGATATCGTCGTTCTTGCCTGCACCCATTACCCCTTCATGGCCAATCTGTTTCGCAGGCTGGCGCCATGGCCGGTGGATTGGCTTGACCCCGCCGAGGCGATTGCGCGGCGCGCGCGCCACCTTGTGCCGCTGCCGCAGGATGCGGAGCATCCGGATGGTTTCGATTTTGCCGTCTTCACCTCCGGCAAGCCGGATTTCGCCACCCGGCGGCTGATGCAGGGTTTCGGTCTCAGCGTTTCGGCAGCCTGA	MLKTSEAAADVLKPVLVFDSGIGGLTVLREARVLMPERGFIYVADDAGFPYGGWEEEALKARILSLFDKLLDDYSPEVCIIACNTAFTLAGADLRARFPQMTFVGTVPAIKPAAERTRSGLVSVLATPGTVKRAYTRDLIQSFASQCHVRLVGSENLARMAESWIRGEPVSDEAVLAEIEPCFIDSEGKRTDIVVLACTHYPFMANLFRRLAPWPVDWLDPAEAIARRARHLVPLPQDAEHPDGFDFAVFTSGKPDFATRRLMQGFGLSVSAA	PGPT0020200_1740	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020200-murI-K01776	NA	NA
BMS010_06214	834	trmJ_1		tRNA (cytidine/uridine/adenosine-2'-O-)-methyltransferase TrmJ	ATGGCAGGCACAAACAGCGATCTCGAACTTGTGGCGGAAGGCCCGGCGATCATTCTCGTCGAACCGCAGCTCGGCGAAAATATCGGCATGGTGGCGCGGGCCATGGCCAATTTCGGCCTGGCCGAATTGCGTCTGGTCAATCCGCGTGACGGCTGGCCGAGCGAGAAGGCGCGCGCCGCAGCCTCCAAGGCCGATCACGTCATTGACGCCACGAAGGTATTCGAGACGCTGGAAGAGGCGATCAAGGACCTGAACTTCGTTTATGCCACGACCGCGCGTGAGCGCTACGGTTTCAAGCCGGTGCGTGCGCCCGTCACCGCCGCCGATACGCTCAGGGCAAAATTCAAGGCTGGCGAAAAGACCGGTATCCTCTTCGGCCGCGAGCGCTGGGGGCTGACCAATGAGGAAGTGGCGCTGGCCGACGAGATCGTGACATTTCCGGTCAATCCCGCTTTTGCCTCGCTCAATATCGCGCAGGCCGTGCTTTTGATGTCCTATGAATGGATGAAATCCGGCATGGACGATCTGGGAGAGACGCTTTTTCAGTCCGTCGAGCAGCGTCCTTCGACCAAGGAACAGGTTTTTGGCCTGTTCGAACATATCGAGGAAGCGCTGGATGCGCGGGGTTATTTTCATCCCGCTGAAAAAAAGCCGAAAATGGTCGACAATCTGCGCGCCGTGCTGTCGCGACGCGGTTTTTCCGAGCAGGAAATCAGCGTTTTCCGTGGCGTGATCAATTCGCTCGACCGCTTTCCACGGCAGTGGCCGAAGCAGGCGGGAAGGGCAGCGGGGCCAGCGGCCGAGGGAGCAGGGGAGAATGCTGAAGACGAGTGA	MAGTNSDLELVAEGPAIILVEPQLGENIGMVARAMANFGLAELRLVNPRDGWPSEKARAAASKADHVIDATKVFETLEEAIKDLNFVYATTARERYGFKPVRAPVTAADTLRAKFKAGEKTGILFGRERWGLTNEEVALADEIVTFPVNPAFASLNIAQAVLLMSYEWMKSGMDDLGETLFQSVEQRPSTKEQVFGLFEHIEEALDARGYFHPAEKKPKMVDNLRAVLSRRGFSEQEISVFRGVINSLDRFPRQWPKQAGRAAGPAAEGAGENAEDE	PGPT0002985_421	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002985-cysS-K01883	NA	NA
BMS010_06215	534			hypothetical protein	ATGCGGAATATTCTGCTTCTGACTGCCGCCGTCCTCTTTTCGCATAGCGCGCTCGCCGCCGGGCCTGCCGATCCCGTTCAGAAGGTGATGGATATCACCGTCAAGAACTGGTCGGGCGAGGCGGAAAACTGGAAATACGTTTTCGACGAGGACATGCTGACCAGCCTGTTCAGCAAGGATTTCGTCGCGCAATATCGCGAAGCCTCCAAGAAGCCGGCTTACGAGGCCGAAAGCGGCGAAACCGGCGATCCCTTCGGTTACGATGTCGTGACGAACTCGCAGGATGGCTGCCCGCTGGCCGATGTTTCCGTGACGCCGGGCGCGGTGAAGGACGGCGTGACGGACGTGACCGCAAAGTTCAAGCTCTGGGCCTGCATGGACGAGGCGGAGATGAAGGCGACGGTTGACGAAGTGCATTTCGACGTCGTCGAGGAAGACGGCCGGCCGGTCATCAGCGATATTCACCGGGTCGGCGATGAGGGCAGGGATTCGCTGCGCGAAGAGATGGCGACGATCATCAAGGGAGAGCAATAA	MRNILLLTAAVLFSHSALAAGPADPVQKVMDITVKNWSGEAENWKYVFDEDMLTSLFSKDFVAQYREASKKPAYEAESGETGDPFGYDVVTNSQDGCPLADVSVTPGAVKDGVTDVTAKFKLWACMDEAEMKATVDEVHFDVVEEDGRPVISDIHRVGDEGRDSLREEMATIIKGEQ				NA	NA	NA	NA	NA
BMS010_06216	1215	icd_2	COG0538	Isocitrate dehydrogenase [NADP]	ATGGCAAAGATCAAGGTAGCCAATCCGGTCGTCGATCTCGACGGCGACGAAATGACCCGTATCATCTGGCAGCTCATCAAGGACAAGCTGATCCTGCCATACCTCGATCTCGACATCGAATATTACGACCTCTCGGTTGAAAACCGCGATGCCACCAACGACCAGGTCACGGTCGATGCGGCGCACGCCATCAAGAAGCATGGCGTCGGCATCAAGTGCGCGACCATCACCCCGGATGAAGCCCGCGTCGAGGAATTCGGCCTGAAGCAGATGTGGAAGAGCCCGAACGGCACGATCCGCAACATTCTGGGCGGCGTCATCTTCCGCGAGCCGATCATCTGCAAGAACGTTCCGCGCCTCGTTCCCGGCTGGACCAAGCCGATCGTCGTCGGCCGTCACGCTTTCGGCGACCAGTACAAGGCAACCGATTTCAAGTTCCCCGGCAAGGGCAAGCTGACCATCAAGTTCGTCGGTGAAGACGGCCAGGTCATCGAAAAGGACGTCTTCGACGCCCCGAGCGCCGGCGTGGCGCTTGCCATGTACAACCTCGACGAATCCATCCGCGAATTCGCCCGCGCCTCCATGAACTATGGCCTGATGCGCAAGTGGCCGGTTTACCTCTCCACGAAGAACACCATCCTCAAGGCCTATGACGGCCGCTTCAAGGATATCTTCGAAGAAGTCTACCAGAACGAATTCAAGAAGCAGTTCGACGAAATCGGCATCACCTATGAGCACCGCCTGATCGACGACATGGTCGCTTCCGCTCTGAAGTGGTCCGGCGGCTACATCTGGGCCTGCAAGAACTACGACGGCGACGTGCAGTCCGACACGGTTGCTCAGGGCTTCGGCTCGCTCGGCCTGATGACCTCCGTTCTCCTGTCTCCCGATGGTCGCACGGTCGAAGCCGAAGCCGCACACGGCACGGTCACGCGCCACTACCGCCAGCACCAGAAGGGTCAGGAAACCTCGACCAACTCGATCGCTTCGATCTTCGCCTGGACCCGTGGCCTCGCCCACCGCGCCAAGCTGGACGACAATGCGGAACTGGCAAAGTTCGCAGCAACGCTCGAAACCGTCTGCGTCCACACCGTCGAAAGCGGCTACATGACCAAGGATCTGGCGCTCCTCATCGGACCGGACCAGCCCTGGCTTTCCACCACCGCCTTCCTCGACAAGATCGACGAAAACCTCAAGAAGGCAATGGCGGCTTAA	MAKIKVANPVVDLDGDEMTRIIWQLIKDKLILPYLDLDIEYYDLSVENRDATNDQVTVDAAHAIKKHGVGIKCATITPDEARVEEFGLKQMWKSPNGTIRNILGGVIFREPIICKNVPRLVPGWTKPIVVGRHAFGDQYKATDFKFPGKGKLTIKFVGEDGQVIEKDVFDAPSAGVALAMYNLDESIREFARASMNYGLMRKWPVYLSTKNTILKAYDGRFKDIFEEVYQNEFKKQFDEIGITYEHRLIDDMVASALKWSGGYIWACKNYDGDVQSDTVAQGFGSLGLMTSVLLSPDGRTVEAEAAHGTVTRHYRQHQKGQETSTNSIASIFAWTRGLAHRAKLDDNAELAKFAATLETVCVHTVESGYMTKDLALLIGPDQPWLSTTAFLDKIDENLKKAMAA	PGPT0001170_5267	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001170-icd-K00031	NA	NA
BMS010_06217	627			hypothetical protein	ATGAGTGAATTGATCTTCTACACCAACCCCATGTCGCGCGGACGCATCGCGCGATGGATGCTTGAGGAAGTGGGCGTTCCTTACCGAACGGAAATACTGGGCTTCGAGACCTCGATGAAATCGCCCGCCTACCGGCTGATAAATCCGATGGCGAAGGTGCCCGCCATCAAACACGGCGATACCATCGTCACAGAGGCGGCAGCGATCTGCGCCTATCTCGCCGATGCCTTTCCCGGCGCGAACCTTGCACCCACACCCAAGGCGCGCGGGCTTTATTATCGCTGGATGTTCTTCGCCGCAGGCCCGTTGGAAATGGCGGCGAGCATGAAGGCGATGGGTTTCGAAGTGCCCAAGGAGAAGCTGCGCATGGCCGGCTGCGGCAGCTATGCGGATGTGATGAATACACTGGAGCGGGCCGTCAGCGAAAACCGCTTCATCGCCGGCGATCTCTTCACGGCGGCGGATGTCTATGTCGGCGCCCATGTCGGCTGGGGCCTGCATTTCGGCACCATCGAAAAACGCCCGGCCTTTCTCGATTACATGGCCCACCTCACCGACCGCCCGGCCTTCAAGCGGGCAGCACAACTAGATGAGGAAGCGGCAAAGGATTTGCAGGCGGCGGGCTGA	MSELIFYTNPMSRGRIARWMLEEVGVPYRTEILGFETSMKSPAYRLINPMAKVPAIKHGDTIVTEAAAICAYLADAFPGANLAPTPKARGLYYRWMFFAAGPLEMAASMKAMGFEVPKEKLRMAGCGSYADVMNTLERAVSENRFIAGDLFTAADVYVGAHVGWGLHFGTIEKRPAFLDYMAHLTDRPAFKRAAQLDEEAAKDLQAAG	PGPT0013170_17346	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS010_06218	2694	alaS_3	COG0013	Alanine--tRNA ligase	ATGGACTCCAGCTGTGAGCGGTGTGTGGGCATGAGCGGTGTGAATGAAATTCGGTCGACCTTTCTCGACTACTTCAAGAAGAACGGACACGAGATCGTGCCCTCCAGCCCGCTGGTGCCGCGCAACGATCCTACACTGATGTTCACCAATGCCGGCATGGTGCAGTTCAAGAACGTCTTCACCGGTCTTGAAAGCCGTCCCTATTCCACGGCCGCCTCGGCGCAGAAATGCGTGCGTGCCGGCGGCAAGCATAACGACCTCGACAATGTCGGTTATACCGCCCGCCACCACACCTTTTTCGAAATGCTCGGTAATTTCTCCTTCGGCGATTATTTCAAGGAAGAGGCGATCACCCATGCCTGGAACCTGATCACCAAGGAATTCGGCATCGACCGCAACCGTCTGCTGGTCACCGTCTACCACACCGACGACGAGGCCTTTAACCTCTGGAAGAAGATCGCCGGTTTCTCTGACGACCGCATCATCCGCATTCCGACCAGCGACAATTTCTGGGCGATGGGCGATACCGGCCCCTGCGGTCCCTGTTCGGAAATCTTCTACGATCATGGCGATCATATCTGGGGCGGCCCGCCCGGCTCGCCGGAAGAAGATGGCGACCGTTTCATCGAAATCTGGAACCTCGTCTTCATGCAATATGAGCAGCTGACGAAGGAAGAGCGCATCGACCTGCCGCGTCCGTCGATCGACACCGGCATGGGTCTTGAGCGCATTTCGGCGCTGCTGCAGGGCAAGCATGACAATTACGATACGGACCTGTTCCGCGCGCTGATTTCCGCTTCCGTGGAAGCGACCGGCGTTCCGGCCGAAGGCGAAAAGCGCGCCAGCCACCGCGTCATCGCCGACCACCTGCGCTCGTCCGCCTTCCTGATCGCCGATGGCGTCCTGCCGTCGAACGAAGGTCGCGGTTATGTTCTGCGCCGCATCATGCGCCGCGCCATGCGCCACGCCGAGCTTCTCGGCGCGCGTGAGCCGCTGATCTACAAGCTTTTGCCGGCGCTGGTGCAGCAGATGGGCCGCGCCTATCCGGAACTGGTCCGTGCCGAAGCGCTGATTTCCGAGACGCTGAAGCTTGAAGAAACCCGTTTCCGCAAGACGCTGGAACGCGGCCTGTCGCTGCTTTCCGATGCGACGTCGACGCTGCACAAGGGCGACATGCTGGATGGCGAGACCGCCTTCAAGCTCTACGACACCTATGGTTTCCCGCTGGACCTGACGCAGGATGCGCTGCGCGCCCGCGAAATCGGCGTCGATATTTCCGGCTTCACCGATGCGATGGAGCGCCAGAAGGCCGAAGCCCGCTCGCACTGGGCCGGTTCCGGCGACAAGGCGACCGAGACCGTCTGGTTCGAGCTCAAGGAAAAGCTCGGTGCGAGCGAATTTCTCGGTTACGACACCGAAACCGCCGAAGGCGTCATCCAGGCAATCGTCAAGGACGGCAAGTCGGTGGATAGCGCTGCCGATGGCGAGACGGTGCAGGTCGTCGTCAACCAGACGCCGTTTTATGGCGAGTCCGGCGGCCAGATGGGCGATACCGGCGTGATTTCCGGCGACAATGGCGCCTTTGCCGTTTCCGATACTCAGAAGAAGGGCGAAGGCCTCTTCGTGCATTTGGGCACGGTCTCCAAGGGCGGTCTGAAAGTTGGCGATGCCGTTCAGCTGACGGTCGATCATGACCGCCGCTCGCGTCTGCGCGCCAACCATTCCGCCACCCACCTGCTGCACGAGGCGCTGCGCGAAGTGCTCGGCACACACGTTGCCCAGAAGGGTTCGCTGGTTGCGCCCGAGCGCCTGCGTTTCGACGTTTCGCATCCGAAGCCGATGTCGGCCGAAGAGCTGAAGGTCGTCGAAGAAATGGCGAACGAAATCGTGCTGCAGAACTCGCCGGTCGTGACCCGCCTGATGAGCGTCGACGACGCCATTGCCGAGGGCGCCATGGCGCTGTTCGGTGAAAAATACGGTGACGAAGTTCGCGTTGTCTCCATGGGCACCGGCCTGCATGGCGCAAAAGCCAACCGTCCCTATTCCGTCGAGCTTTGCGGCGGCACGCATGTGGCGGCCACCGGCCAGATCGGCCTCATTCGCATTCTCGGCGAAAGCGCCGTCGGTGCGGGCGTGCGCCGTCTCGAAGCCGTGACCGGGCAGGGCGCGCTTGCCTATCTGGCCGAACAGGATGAGCGTGTGAAGGCGCTCGCTTCTTCGCTGAAGGTGCAGCCGGGCGATGTACTGTCGCGTGTCGAAGGTCTGCTCGATGAGCGCAAGAAGCTGGAGCGCGAACTTGCCGATGCCCGCCGGAAACTTGCCATGGGCGGCGGTTCGGCGGATGCCGGCGCAAGCGACGTCAAGCAGGTCGCGGGCGTCAACTTCCTGGCAAAATCCATGTCCGGCATCGATGCCAAGGACCTCAAGGGTCTTGCCGATGAGGCCAAGGCCAATCTCGGCTCGGGCGTCGTGCTGTTGATCGCCGTTTCCGAAGACGGCAAGGCAAGTGCTGTCGCTGCCGTGACCGAAGATCTGACGGCCCGTTTCAGCGCTGTCGATATCGTCCGCACCGCTTCCGCCGCACTTGGCGGCAAGGGCGGCGGCGGTCGCCCTGATATGGCGCAGGCGGGTGGTCCCGATGGCGCAAAGGCGCAGGATGCCATCGAAGCGGTGGCAGCGGCCCTGGCGGCCTAG	MDSSCERCVGMSGVNEIRSTFLDYFKKNGHEIVPSSPLVPRNDPTLMFTNAGMVQFKNVFTGLESRPYSTAASAQKCVRAGGKHNDLDNVGYTARHHTFFEMLGNFSFGDYFKEEAITHAWNLITKEFGIDRNRLLVTVYHTDDEAFNLWKKIAGFSDDRIIRIPTSDNFWAMGDTGPCGPCSEIFYDHGDHIWGGPPGSPEEDGDRFIEIWNLVFMQYEQLTKEERIDLPRPSIDTGMGLERISALLQGKHDNYDTDLFRALISASVEATGVPAEGEKRASHRVIADHLRSSAFLIADGVLPSNEGRGYVLRRIMRRAMRHAELLGAREPLIYKLLPALVQQMGRAYPELVRAEALISETLKLEETRFRKTLERGLSLLSDATSTLHKGDMLDGETAFKLYDTYGFPLDLTQDALRAREIGVDISGFTDAMERQKAEARSHWAGSGDKATETVWFELKEKLGASEFLGYDTETAEGVIQAIVKDGKSVDSAADGETVQVVVNQTPFYGESGGQMGDTGVISGDNGAFAVSDTQKKGEGLFVHLGTVSKGGLKVGDAVQLTVDHDRRSRLRANHSATHLLHEALREVLGTHVAQKGSLVAPERLRFDVSHPKPMSAEELKVVEEMANEIVLQNSPVVTRLMSVDDAIAEGAMALFGEKYGDEVRVVSMGTGLHGAKANRPYSVELCGGTHVAATGQIGLIRILGESAVGAGVRRLEAVTGQGALAYLAEQDERVKALASSLKVQPGDVLSRVEGLLDERKKLERELADARRKLAMGGGSADAGASDVKQVAGVNFLAKSMSGIDAKDLKGLADEAKANLGSGVVLLIAVSEDGKASAVAAVTEDLTARFSAVDIVRTASAALGGKGGGGRPDMAQAGGPDGAKAQDAIEAVAAALAA				NA	NA	NA	NA	NA
BMS010_06219	1086	recA_2		Protein RecA	ATGGCACAAAATTCTTTGCGTCTCGTAGAGGATAAATCGGTGGATAAAAGCAAGGCACTGGAAGCGGCGCTCTCCCAGATCGAACGGTCGTTCGGCAAGGGATCGATCATGAAGCTCGGTTCCAATGAAAACGTGGTTGAAGTGGAGACCGTTTCGACGGGTTCGCTCAGCCTGGATATCGCGCTCGGCATCGGCGGTCTGCCGAAGGGGCGCATCATTGAAATTTATGGCCCGGAAAGCTCGGGCAAGACGACGCTGGCATTGCAGACCATTGCCGAAGCCCAGAAGAAGGGTGGCATCTGCGCCTTCGTGGACGCCGAACATGCGCTCGATCCGGTCTATGCCCGCAAGCTTGGCGTGGATCTGCAGGGTCTTCTGATCTCGCAGCCGGATACGGGCGAACAGGCGCTGGAAATTACCGATACGCTGGTGCGTTCCGGCGCGGTTGATGTGTTGGTCGTCGACTCCGTTGCGGCGCTGACGCCGCGGGCCGAAATCGAAGGCGAAATGGGCGACAGCCTGCCGGGTCTTCAGGCCCGTCTGATGAGCCAGGCGCTGCGCAAGCTGACCGCTTCGATCTCCAAGTCGAAGTGCATGGTGATCTTCATCAACCAGATCCGCATGAAGATCGGCGTCATGTTCGGTTCGCCGGAAACGACGACGGGCGGTAACGCTCTGAAGTTCTATGCGTCCGTTCGCCTCGACATTCGCCGCATCGGCTCCGTCAAGGAGCGCGAAGAGGTTGTCGGCAACCAGACGCGCGTCAAGGTCGTCAAGAACAAGATGGCGCCGCCCTTCAAGCAGGTGGAATTCGACATCATGTATGGCGAAGGCGTTTCCAAGACCGGTGAGCTTGTCGATCTCGGCGTGAAGGCCGGCATCGTCGAGAAGTCCGGTGCATGGTTCTCCTATAACAGCCAGCGGCTGGGGCAGGGGCGTGAGAACGCCAAGATATTCCTGCGCGACAATCCGGAAACGGCCAATGAGATCGAACTGGCGCTGCGCCAGAATGCCGGCCTGATCGCCGACCGCTTCCTGCAGAATGGCGGCCCGGAAGCCGGTGACAGCGACGGTGACGACGGCTGA	MAQNSLRLVEDKSVDKSKALEAALSQIERSFGKGSIMKLGSNENVVEVETVSTGSLSLDIALGIGGLPKGRIIEIYGPESSGKTTLALQTIAEAQKKGGICAFVDAEHALDPVYARKLGVDLQGLLISQPDTGEQALEITDTLVRSGAVDVLVVDSVAALTPRAEIEGEMGDSLPGLQARLMSQALRKLTASISKSKCMVIFINQIRMKIGVMFGSPETTTGGNALKFYASVRLDIRRIGSVKEREEVVGNQTRVKVVKNKMAPPFKQVEFDIMYGEGVSKTGELVDLGVKAGIVEKSGAWFSYNSQRLGQGRENAKIFLRDNPETANEIELALRQNAGLIADRFLQNGGPEAGDSDGDDG	PGPT0007235_1420	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0007235-recA-K03553	NA	NA
BMS010_06220	942	psuK	COG0524	Pseudouridine kinase	GTGAAGAAAATACTCGTTCTGGGCGGCGCGCATATCGACAGGCGCGGCATGATCGAGACTGAAACCGCGCCCGGCGCGAGCAACCCGGGCTCCTGGATGGAAGAGGCCGGCGGCGGCGGTTTCAACGCCGCGCGCAATCTTTCCCGCCTCGGTTTTCAGGTCCGCATCATCGCCCCGCGCGGCGGCGACGTCACCGGTGAGGCGGTGGCGGAAGCCGCACGGCAGGCGGGCGTGGAAGACACGCCCTTTACCTTCCTCGACCGCCGCACGCCGAGCTACACCGCCATTCTGGAGCGCGACGGCAATCTGGTCATCGCGCTGGCCGATATGGACCTTTATAAGCTCTTCACCCCGCGCCGCCTCAAGATACGCGCCGTGCGCGAGGCGATCACGGCGAGCGACATCCTGCTCTGCGACGCCAATCTGCCGGAAGACACGCTGACGGCGCTCGGCCTCGTCGCCCGCGCCTGCGAAAAGCCGCTGGCGGCCATCGCCATATCCCCCGCCAAGGCGGTGAAGCTGAAAGCGGCGCTCGGCGATATCGACATTCTCTTCATGAACGAGGCGGAAGCCCGCGCGCTGACCGGCGAAACGACGGCCAATGTCCGCGACTGGCCCGACATCCTGCGCAAGGCCGGGCTTGCCGGCGGCGTCGTCACCCGCGGCGCAAGCGAGGTGGTGGCCTTCAGCAGGACGGAGACGGCGATCCTCCATCCGCCCCTCATCCGCGAGGTGAAGGACGTGACCGGCGCGGGCGACGCGATGGCGTCGGGTTATCTCGCCGCCATCGCCGAGGGAAAGACGATTGCGGAAGCGTTGAGGCAAGGCGCGGCGGCAGCGGCCATCACCGTGCAATCGCCCTTCGCCACCTCCCAGGACCTATCAAAAGACAGTGTCGAAGCCATGTTGGGGCTTGTTCCCCATGCTGAAATGCTGGCATGA	MKKILVLGGAHIDRRGMIETETAPGASNPGSWMEEAGGGGFNAARNLSRLGFQVRIIAPRGGDVTGEAVAEAARQAGVEDTPFTFLDRRTPSYTAILERDGNLVIALADMDLYKLFTPRRLKIRAVREAITASDILLCDANLPEDTLTALGLVARACEKPLAAIAISPAKAVKLKAALGDIDILFMNEAEARALTGETTANVRDWPDILRKAGLAGGVVTRGASEVVAFSRTETAILHPPLIREVKDVTGAGDAMASGYLAAIAEGKTIAEALRQGAAAAAITVQSPFATSQDLSKDSVEAMLGLVPHAEMLA	PGPT0021420_528	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021420-psuK|yeiI-K16328	NA	NA
BMS010_06221	924	psuG	COG2313	Pseudouridine-5'-phosphate glycosidase	ATGACCCGCCCTATCTCCCCGCTCCTGCCCATCGTCTATTCTCAGGAAGTCGCCGCCGCCAAGCAGCGCGGTGCGCCGATCGTGGCGCTGGAATCGACCATCATCACCCACGGCATGCCTTACCCCGGCAATATCGAGATGGCGGAAAGCGTCGAACAGATCATCCGCGATCAGGGTGCGGTTCCGGCCACCATCGCGGTCATTCACGGCACCCTGCATATCGGCCTTGAGAAGGACCAGCTCGAGGCGCTGGCCCAGACCACCGACGCCATGAAGGTCTCGCGCGCCGATATCGCCTTTGCGATCGCCGAGCGCCGCACCGGCGCCACCACCGTGGCCGCCACCATGATCGCCGCCGCCCGCGCCGGCATCCGCGTTTTCGCCACCGGCGGCATCGGCGGCGTGCACAAGGGCGCGGAAGAGACCTTCGACATCTCCGCCGATCTGACCGAGCTTGCGAAGACCGGCGTGATCGTTGTCTGCGCCGGCGCCAAGGCCATTCTCGATATTCCGAAGACGCTCGAGGTTCTCGAAACCAACGGCGTGCCGGTCGTCACTTTCGGCTCGGAAGAATTCCCGGCTTTCTGGTCGCGCTCCTCCGGCCTGCCGAGCCCGCTCTCGCTCAACAGCCCGGCGGCAATCGCCAATTTCCAGACAACCCGCGAACAACTCGGCATCGATGGCGGCATGCTGGTGGCCAATCCCGTACCGGAAGAGGACGAAATTCCACGCGAGGAAATGGAAATCTACATCAACCGCGCCATCTCCCACGCCGAGCGCGACGATATCACCGGCAAGGAAGTCACCCCCTACCTGCTCGGCGACATCTTCCGCCTGACGGATGGCCGCAGTCTGGAAACCAACATCGCGCTGGTGCGCAACAATGCGCAGCTTGCGGCGGAAATCGCGGTGGCGCTGAACTAA	MTRPISPLLPIVYSQEVAAAKQRGAPIVALESTIITHGMPYPGNIEMAESVEQIIRDQGAVPATIAVIHGTLHIGLEKDQLEALAQTTDAMKVSRADIAFAIAERRTGATTVAATMIAAARAGIRVFATGGIGGVHKGAEETFDISADLTELAKTGVIVVCAGAKAILDIPKTLEVLETNGVPVVTFGSEEFPAFWSRSSGLPSPLSLNSPAAIANFQTTREQLGIDGGMLVANPVPEEDEIPREEMEIYINRAISHAERDDITGKEVTPYLLGDIFRLTDGRSLETNIALVRNNAQLAAEIAVALN	PGPT0021425_581	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021425-psuG-K16329	NA	NA
BMS010_06222	2232	pal_5		Peptidoglycan-associated lipoprotein	ATGCTGAAGAAGAACACATTGCTGACGGGGGTGGTTTTCCCCCTCATGTCGCTGGCGATTGCGGTGGAGCCGGCCGCGGCCGGTTTTGCCGGTGCTGCGCGGGCGCAGACGCCCGTGTCGCAGGGGCTTCCCGGCGATGCTGCGACCGGTCAGGTGATTCTGGCGCAGGCGCAGCCGGAAGAACCGAACCCGGAAGAGGAACTGCGCAAGCGTCGCAAGCAGGCCGAAGAGGAGCAGCCGCAGGCCGAGCCCCAACGACAGGAGCGTGCGCCGGAGCCGCAGCGCGAACCGGAGCCCAAGCGCGAAGCCGCGCCTGCCGAACCGCGCCCTGAGCCGCAACGGGAGCCGCAGCCCGAACCCCAGCGGGAACCGCAGCGTGAGGCCCGCCCGGAGCCCGCGCCGGCCGAGCAGCCGCAGGAGCGTCCCCGCAAACCCGAACGCGCGCAGGAGCCGCAGCGCGAGGCCGCACCCGAAGCCGCACCTGCCGAAGAGCAGCCGAAGGAACGTCCGCGCAAGCCGGAACGGGCCGAGCAGCCCGCACGTGAGGGCGAGCAGCGTCCCGAGCGTCCCCGCAAGGAGCGCGCGAAGGAACCGGCTGCCGAACAGGAGCCCGCAGCACGCCCTGAAAATGCCGGCGAGCCGGCCAAGCCCCGCGAACCGGCACCCTCCAAAAAGCCGCCGGTAGAGGAAAAGGCCCCGGAACAGAAAGCCGAGCCGGCCGAAAAAGCCGTTCCGGAGAAAAAGCCGGCCGCCCCCGAGCCCGCCGCGAAGGAAGCACCGGTTCCGACCGAAGCGCCGACGCCTGCGCGTCCGCCGGCACCTGAAGCCCAGCCCAACCCCGCACCGGGCCGTCAGCCTTCGGAACAGCCGCCGGTAGAGGGTCAGGGCAGAACCGAACCCGCAGCCCCGCTGCCAGGCGCGCCGACGCCGCCGCCGAGCGGTACGACGACCGGACAGGCGCCGGCCGGCGAAGCCGTTCCCAATCAGGTTGCTGTTCCGCAGACGGAAGCGCCGCCGATGACGAAGGAAGAGCTGGACAAGGCCAAGGCAATCGCCAAGGACCCGTCCAAGACCGCCGATACCGTCATTCTGCCGGTCGACAAGGGCGCCGCCGTTCTTGACAGCGACAAGGAAGTGGAACGCTCCGGCAACCGCCAGACCCGCGAGGAACGCCGTCGCGAACGCGAGCAGGCCGGTGACGTGAAGGTTCCAACCTCCGACGCCGAGGCGCAGCGCGCCGGCGCCGCCGAAGGCAAGGCCCCGCCGCCGCCCGTCAAGATGGAAGCCATCACCTCGCAGCAGGGCGAGCGTGTCGACCGCCGCCCGCAATATGAGCGGCCGGAAGGCGTGCGCGAATGGCAGCCGCGCGAAGGTCGTCCGCGTGACCGTGACCGCGATGCGCCGATCATCCTGCAATTCGGCGACCGTGTCGTGGTGCGCGGCGACGACAACCAGCGCTTTATCCGCGATGGCGGCGAGCCCTATTATGAGCGTCTGCCCGGCGGCCGTGTCCGCGAAACCGTGGAGCGCCGTGACGGAACGCAGGTGGTGACGATCCGCAACCGTTATGGCGACGTGATCCAGCGCTCGCGCATCGACGATCGAGGCCGCGAATATGTACTGTTCTATGCGCCGGAGCTGATGGAAGATCCAGACCGCGATTACGTCTATCGCGATCCGGGCCTCGACCTGCCGCCGATGCGCCTGCGCATTCCCGTGACGGACTACATCATCGACACCTCGAGCGATCCGGACCGCGATTATTACCGCTTCCTGGAACAGCCGCCGGTCGAGCCGGTGGAGCGTGTCTATTCGCTGGATGAAGTGCGTTATTCGGCCCGTATCCGCGACAAGGTCCGCCGTATCGACCTCGATACCATCACCTTCGCCACCGGCAGCGCCGAAATCCCGATGACGCAGGCCCGTTCGCTGCGCAAGGTGGCGGATGCGATCAACAAGGCGCTGGACAAGAACCCAGGTGAAACCTTCCTGATCGAGGGCCATACCGACGCCGTCGGTTCGGATGAAAGCAACCTCGTTCTTTCCGACGAGCGCGCCGCTTCCGTCGCCAATGTCTTGACCGATGTTTACGGCATTCCGCCGGAAAACCTGGCGACCCAAGGTTATGGCGAGCGTTATCTGAAGGTCCAGACGCTCGGCCCGGAACAGCAGAACCGCCGCGTCACCATCCGCCGCGTGACGCCGCTGGTGAAGCCGGTCGCCCAGAACTGA	MLKKNTLLTGVVFPLMSLAIAVEPAAAGFAGAARAQTPVSQGLPGDAATGQVILAQAQPEEPNPEEELRKRRKQAEEEQPQAEPQRQERAPEPQREPEPKREAAPAEPRPEPQREPQPEPQREPQREARPEPAPAEQPQERPRKPERAQEPQREAAPEAAPAEEQPKERPRKPERAEQPAREGEQRPERPRKERAKEPAAEQEPAARPENAGEPAKPREPAPSKKPPVEEKAPEQKAEPAEKAVPEKKPAAPEPAAKEAPVPTEAPTPARPPAPEAQPNPAPGRQPSEQPPVEGQGRTEPAAPLPGAPTPPPSGTTTGQAPAGEAVPNQVAVPQTEAPPMTKEELDKAKAIAKDPSKTADTVILPVDKGAAVLDSDKEVERSGNRQTREERRREREQAGDVKVPTSDAEAQRAGAAEGKAPPPPVKMEAITSQQGERVDRRPQYERPEGVREWQPREGRPRDRDRDAPIILQFGDRVVVRGDDNQRFIRDGGEPYYERLPGGRVRETVERRDGTQVVTIRNRYGDVIQRSRIDDRGREYVLFYAPELMEDPDRDYVYRDPGLDLPPMRLRIPVTDYIIDTSSDPDRDYYRFLEQPPVEPVERVYSLDEVRYSARIRDKVRRIDLDTITFATGSAEIPMTQARSLRKVADAINKALDKNPGETFLIEGHTDAVGSDESNLVLSDERAASVANVLTDVYGIPPENLATQGYGERYLKVQTLGPEQQNRRVTIRRVTPLVKPVAQN				NA	NA	NA	NA	NA
BMS010_06223	774	artJ_1	COG0834	ABC transporter arginine-binding protein 1	ATGCCTATTTCCACCCGTCTGCTCGCAGCCGTATCGATTGCCGCCATCTCGCTGTTTTCAGGTGCTGCCCTCGCGCAGGACAAGATCGTCATCGGCACCGAAGGCGCCTATCCGCCCTTCAACAATCTCGAAGCCGACGGCACGCTGACCGGCTTCGACATCGACATCGCCAAGGCGCTGTGCGAACAAATGAAGGCCGAGTGCACCTTCGTCACCAATGACTGGGACGGCATCATTCCCGCCCTTCAGGCCAAGAAGTTCGACGCCATCATCGCGTCCATGTCGATCACGCCCGAGCGTCTCGAGAAGGTCGACTTCTCCAAGAAATATTACAACACCCCGCCGGCCATCGCCGTACCGAAGGATTCGCCGATCAAGTCCGTCGAAGACCTCAAAGGCAAGTCGCTCGGCGCACAGGGCTCCACCACCCACTCCAACTATGCCGAAAAGCACTTCCCCGATGCCGACGTGAAGATGTATCCGACCGCCGACGAATATAAGCTCGACATCGCCAATGGCCGTATCGACGCCGTCATCGACGATATCGTCGTGCTGTCGGAATGGCTGAAGACGGATGCGGGCGCCTGCTGCAAGATCCTGACGCCGCTCAAGGTCGATCCCGAGATCAACGGCAATGGCGCGGGCGTTGCCGTGCGCAAGGGTGACACGGCGCTGGCTGACAAGTTTACGGCCGCAATCGCCGGTATCCGCGCCAGCGGCAAGTATCAGGAGATCAACAAAAAATACTTCGATTTCGACGTTTACGGCGATTAA	MPISTRLLAAVSIAAISLFSGAALAQDKIVIGTEGAYPPFNNLEADGTLTGFDIDIAKALCEQMKAECTFVTNDWDGIIPALQAKKFDAIIASMSITPERLEKVDFSKKYYNTPPAIAVPKDSPIKSVEDLKGKSLGAQGSTTHSNYAEKHFPDADVKMYPTADEYKLDIANGRIDAVIDDIVVLSEWLKTDAGACCKILTPLKVDPEINGNGAGVAVRKGDTALADKFTAAIAGIRASGKYQEINKKYFDFDVYGD	PGPT0020800_12741	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_06224	804			hypothetical protein	ATGAGCGGAGCATTTTCCGCCATAGGTGCGTTCTGGACCTATGTCTCGACACTTCTCGATCCCTTCTGCGGGCCGGTCGGTCTCTTCTCGCTTTTCGGAAACGGCACCCTGGTCGCCTGCGGCGATGCGGGATGGGGCGATGAAATCGCCTTCGGCGTCAAGGTCACCATCTCGCTGGCGCTCGCCACCCTGCCCGTCGGGCTGCTGATCGGTTTTCTCATCGCGCTCGCCGCACAATCGGAAGAAAAATCGCTGCGGCTGGCGACCGGCATCTACACCACCATCTTCCGCGGCCTGCCGGAACTGCTGACGCTCTTCATCGTCTATTACGGCATTCAGATGCTGCTGCAATCGGTGGCCGGTTATGTCGGCATCACCGGTCCGGTGGAGATCAACGCCTTCGTGGCGGGCATGGTGGCGCTGTCCGTGGTGTTTTCGTCCTATGCGTCCGAAGTGCTGCTGTCCGCCTTCAAGGCCATACCGAAGGGGCAATATGAGGCGGGTGCGGCACTGGGGCTTTCGCGGGGCCGCACCATGGTGCTCATCATCATTCCGCAGCTGGTCAGGATCGCCCTTCCCGGCATGACCAATCTCTGGGTCATCCTGCTGAAAGACACCTCTTACGTCTCGATCATCGGCCTTGCCGATATCGTTCGCCAGACCGGCATCGCCGCCCGCGTCAGCAAGGAAGCCTTCTTCTTCTACAGCATCGCCTGCCTGCTCTACCTCATTCTCGCGCTGCTTTCGTCCATCGGCATCGGCTTCATCGATCGCTGGTCGCGCAAGTCGGAGGTGAGCCGATGA	MSGAFSAIGAFWTYVSTLLDPFCGPVGLFSLFGNGTLVACGDAGWGDEIAFGVKVTISLALATLPVGLLIGFLIALAAQSEEKSLRLATGIYTTIFRGLPELLTLFIVYYGIQMLLQSVAGYVGITGPVEINAFVAGMVALSVVFSSYASEVLLSAFKAIPKGQYEAGAALGLSRGRTMVLIIIPQLVRIALPGMTNLWVILLKDTSYVSIIGLADIVRQTGIAARVSKEAFFFYSIACLLYLILALLSSIGIGFIDRWSRKSEVSR	PGPT0020795_3137	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
BMS010_06225	831			hypothetical protein	ATGAGCCATATTCAGGAACTCATTCCACCCCGCCCCGCCCCGGCTGTCGCGGAAAAGCCGCTCAATATTTCGCGCATCGTCGGCATCGCCGTCATCACGCTCTGGCTGCTGCTCGCCGCAGGGCTGATCTTCGCCATGATCGAGGGCTGGGACTGGGACAAATTCCAGCGTTACGGGCCGCGCTATATCGACGGTCTCATCACCACCATCACCCTCGTCGGCAGTTCGATCATTCTCGGCGCCATTCTTTCCGTGCCGATCGCCTTCGGCCGCATGTCGGAAAACCGCATCATCGGCGCGCTGGCCTATGCCTATGTTTACGTCTTCCGCAGCACGCCGCTTTTGGCGCAGCTTTTCCTGATCTATTACGGCCTCGGCAGTTTCCGCCAGGGACTGGAAACTGTCGGCCTGTGGTGGTTCTTCCGCGAGGCCTGGTATTGCGGCCTGTTGTCGCTCACCCTCAACACCGCCGCCTATCAGGCCGAAATCCTGCGCGGCGCGATCCGCAGCGTGCCGCGCGGCCAGCATGAGGGCGCCGCCTCGCTCGGCCTGTCGAAACTCGTCACTTTCCGCAAGATCATCCTGCCGCAGGCGCTGATCGTGGCGCTGCGTCCCTATGGCAACGAAATCATCCTGATGATCAAGGGTTCCGCGGTGGTCTCTATCGTCACCGTCTTCGACCTTATGGGCCAGACCCGCTACGCCTTTTCCCGCACCTTCGATTATCAGGCCTATCTGTGGGCCGCGATCTTCTACCTGACGATCGTCGAAACGCTGCGGCATGTCTGGGCATCGCTGGAAGCCCGCCTGACCCGGCATCTCAAGCGCTAG	MSHIQELIPPRPAPAVAEKPLNISRIVGIAVITLWLLLAAGLIFAMIEGWDWDKFQRYGPRYIDGLITTITLVGSSIILGAILSVPIAFGRMSENRIIGALAYAYVYVFRSTPLLAQLFLIYYGLGSFRQGLETVGLWWFFREAWYCGLLSLTLNTAAYQAEILRGAIRSVPRGQHEGAASLGLSKLVTFRKIILPQALIVALRPYGNEIILMIKGSAVVSIVTVFDLMGQTRYAFSRTFDYQAYLWAAIFYLTIVETLRHVWASLEARLTRHLKR	PGPT0020795_2693	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
BMS010_06226	267			hypothetical protein	ATGAACAAGGACATGGAAATGATGCTGAGAGGCTACGGCCTCACCACCGCCCAGATATTTTATCGCCTGCCGGATCATCCGCTGGTTCTCCAGACCTATGTCTGGCAGGACTATGATCTTGCCCCGGACTTCCCTGAGATGCATGGCTTCCTCAAATTCTGGAAGGAAAAGCTCGATGGACCGCTGCATTCCGTCCGCTACGTGCACCGGCAGGTAATCTCGGCGCAGGAATGGCGCGCGCTCAAGGGGGAGTTCATCATCCACTGA	MNKDMEMMLRGYGLTTAQIFYRLPDHPLVLQTYVWQDYDLAPDFPEMHGFLKFWKEKLDGPLHSVRYVHRQVISAQEWRALKGEFIIH				NA	NA	NA	NA	NA
BMS010_06227	825	COQ3		Ubiquinone biosynthesis O-methyltransferase, mitochondrial	ATGACCAAGAACCAGAAAATCGACGAAGAGGCGCTTGCCGAGGCCTATAACCGCGCGCTCGCGCTTGAAAAAGCCGGCGATGTGGACGCGGCGGTGAAGGCCTATGAAGAGGTTCTGGCCATCGATCCGGACGATCACGGCGGAGCGGCCGTTCGCATCGCCGCCATGGGCCGGGGCGAAACCCCGCCAAAGGCGCCTGACGCCTATGTCGAAACCCTGTTCGACCAGCATGCCGAAGCTTTCGAGGATATTCTTGTCGAACAGCTCGGTTATGCCGTGCCGATGATGGTGCGCCAGCGGTTGCAGACGCTGAACCTCGGCCCCTTCAAGCGCCTGCTCGATCTCGGCTGCGGCACCGGCCTCACCGGTGAAGCGCTACGCGATATGGCCGAGGATATCACCGGCATCGACATTTCCGAAAACATGGTCGAGATCGCCCATGAGAAGGACCTCTACGAGACGCTCTACGTCGCCGAAGCCGAGGATTTTCTCGAGGATAATGACGACGAGCCTTTCGACATCATCACCGCCACCGATGTGCTGCCCTATCTCGGCGCGCTGGAGCCGCTGTTTTTCGGCGCCGCCGAAAACCTCAATGCCGGCGGCCTGCTGATCTTCTCGTCGGAAACCCTGCCCGAAGAAACCCTGGCCGGACGCCCCTATATGGTCGGCCCGCACCAGCGTTTCGCCCATGCGGAAACCTATGTCCGCGAAAGACTGGCCGCGACCGGTTTCGAGGTTCTCGAGGTGACCGACATCAACGTGCGCATGCAGGACGGCAATCCGACACCCGGCCATCTGGTGATCGCCAAGCTCAAGGGTTGA	MTKNQKIDEEALAEAYNRALALEKAGDVDAAVKAYEEVLAIDPDDHGGAAVRIAAMGRGETPPKAPDAYVETLFDQHAEAFEDILVEQLGYAVPMMVRQRLQTLNLGPFKRLLDLGCGTGLTGEALRDMAEDITGIDISENMVEIAHEKDLYETLYVAEAEDFLEDNDDEPFDIITATDVLPYLGALEPLFFGAAENLNAGGLLIFSSETLPEETLAGRPYMVGPHQRFAHAETYVRERLAATGFEVLEVTDINVRMQDGNPTPGHLVIAKLKG				NA	NA	NA	NA	NA
BMS010_06228	966	ssuA_3		Putative aliphatic sulfonates-binding protein	ATGCTTACACGACGCGGAACATTGGGACTGATTGCAGGTGCGACCGGGGCGGTGTTTCTGCCGCATATCCGGCGGGCGAGTGCCGCAACCGCCACATTGCGGATTGGCTGGCAGAAGAATGGCGTGATAGCGCTCGCGAAAAGCCAGGGCGCGCTCGAAGCGTTGCTGAAGGATCGCGGTATCGAGGTCAAATGGTCGGAATTCTCCTCCGGGCCGCCGCTTCTCGAAGCGCTGGGTGCCGGTGCGCTGGATATCGGCCCGACCGGGGATGTGCCGCCGCTTTTCGCGCAGGCCGCCGGCGGCAATCTGCGTTATGTGGGCACTTACAAAGCGGCGGCCGGTGGATCGGCCATCCTCGTGCAGAAGGATTCGCCGCTGAAGACGCTGGAAGACCTGAAAGGCAGAAAAGTCGCCTTCAAGCGCGGCTCCAGCGCGCATAATGTCACCGTCAAGGCGTTGCGAAAGGCAGGGTTGACGTTGAATGATATTACGCCGGTCGATCTTGCCCCGCCGGATGCGGCCGCCGCCTTCCGAAGCGGTAGCATCGATGCCTGGTCGATCTGGGATCCTTATTTCGCCGTGGCGGAAAAAGAGCCGACGACACGGGTTCTCTCGACCGCCGAAGGCATCGTCGATCCGTGGAGTTATTTCCTTGCCAATGGCGATTTCGTGGAGGCCAATCCCGATCTCGTGCCGTTGATCCTCAAGGAACTGGCGAATGTGGGTGCGAAAGCGCAGGCCAATATCGATGCAACGGCAAAGTCGCTGGCGTCGATCACCGGCGTTCCCGAGGATGTCACCAAGGTTTCGCTGACGCGGCCGGGCGCCGATCTCGGGCGGGTTTCGCTGGTTCCGGATCAAGCCATCGCCTATCAGCAGGCACTTGCGGATGAGTTCTACGATCTGAAGATCGTGCCGAAGAAACTCAACGTGGCGGATATCGTCTGGCGGCCGAAGGCGAGCTGA	MLTRRGTLGLIAGATGAVFLPHIRRASAATATLRIGWQKNGVIALAKSQGALEALLKDRGIEVKWSEFSSGPPLLEALGAGALDIGPTGDVPPLFAQAAGGNLRYVGTYKAAAGGSAILVQKDSPLKTLEDLKGRKVAFKRGSSAHNVTVKALRKAGLTLNDITPVDLAPPDAAAAFRSGSIDAWSIWDPYFAVAEKEPTTRVLSTAEGIVDPWSYFLANGDFVEANPDLVPLILKELANVGAKAQANIDATAKSLASITGVPEDVTKVSLTRPGADLGRVSLVPDQAIAYQQALADEFYDLKIVPKKLNVADIVWRPKAS	PGPT0003025_2554	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_TRANSPORT,PGPT0003025-ssuA-K15553	NA	NA
BMS010_06229	489	decR_6	COG1522	DNA-binding transcriptional activator DecR	TTGGATCGCCTAGACCGTAAGATTTTGCGCATTCTGCAAGAGGATTCCACGCTGGCCGTTGCCGATCTGGCGAAAAAGGTCGGCCTTTCCACGACGCCCTGTTGGCGGCGTATCCAGAAGATGGAGGAAGACGGCGTTATTCGCCGGCGCGTGGCGCTGCTCGATCCGGTCAAGGTCAACACCAAGGTCACGGTTTTCGTCTCCATCCGCACCGCCTCCCATTCCATCGAATGGCTGAAGCGTTTCTCCGAGGTGGTTTCCGAGTTTCCGGAAGTCGTCGAATTTTACCGTATGAGCGGCGATGTCGATTATCTGCTGCGCGTCGTCGTGCCCGATATTGCGGCCTATGACGCCTTCTACAAGCGCATGATCGCCAAGATCGAAATTCGCGACGTGTCCTCCGCCTTCGCGATGGAGCAGATCAAATATACGACCGAACTGCCGCTCGACTACATGCTGCTGGACAATCCGAAATCCGGCGAGGAGTAA	MDRLDRKILRILQEDSTLAVADLAKKVGLSTTPCWRRIQKMEEDGVIRRRVALLDPVKVNTKVTVFVSIRTASHSIEWLKRFSEVVSEFPEVVEFYRMSGDVDYLLRVVVPDIAAYDAFYKRMIAKIEIRDVSSAFAMEQIKYTTELPLDYMLLDNPKSGEE				NA	NA	NA	NA	NA
BMS010_06230	645			hypothetical protein	ATGGTTGAGCTAGCACCGGTGCGTGATGACGGGCTGGACGGGTTGCGTGGCGAAATCGCCCGCTGTCGTCTCTGTCGCGACAAGCCGCTCAGGGGAATGGCCGATCGCCTGCCGCACGAACCCCGGCCGGTGGTCGTCATGTCGACCAAGGCGCGCATCCTGATTGCCGGGCAGGCGCCGGGGCTTCGCGTGCATGAAACGGGGCTGCCGTTCAACGATGCCTCGGGCGACCGGCTGCGCCAATGGCTGAACGTCGACCGGCAGACATTCTACGATCCGGATCGTTTCGCCATCGTGCCCATGGGCTTCTGTTTTCCCGGCTATGACGACAAGGGCAGCGACCTGCCGCCCCGGCGCGAATGCGCGCCGCAATGGCGTGAGCGGGTAATAATGGCGATGCCGCAGGTGGAGCTGATCCTCGCCATCGGCCAATATGCACAGGCTTTTCACCTGGGTGAAAGGCGCCGCAAGACCATGACGGCAACGGTGCAGGACTGGCGCGGCTTTCTCCATGCCAATTCCGGCCCCGGCATTTTTCCCCTGCCGCATCCAAGCTGGCGCAATACCGGCTGGCTGAAAAAGAACCCATGGTTCACCGAGGAACTGCTGCCGGTTCTGCGACAACATGTGGAAATGCGGCTTTAG	MVELAPVRDDGLDGLRGEIARCRLCRDKPLRGMADRLPHEPRPVVVMSTKARILIAGQAPGLRVHETGLPFNDASGDRLRQWLNVDRQTFYDPDRFAIVPMGFCFPGYDDKGSDLPPRRECAPQWRERVIMAMPQVELILAIGQYAQAFHLGERRRKTMTATVQDWRGFLHANSGPGIFPLPHPSWRNTGWLKKNPWFTEELLPVLRQHVEMRL				NA	NA	NA	NA	NA
BMS010_06231	594			hypothetical protein	ATGAGACGAAATGGAGGCAGGGGCAGGCGGTTTTCGGCATTTCGCGATGGCGGGCTTTTTCTCGCCACGGTTTTTCTCGGCATTCTGATCGCGGCCAAGCTCGACCAGATCAACAGCGAAACCTATAGCGGCCGCTTCTTCGTGATCGATGGCGATACGCTGTCGAAGGGTGAGGAACGTTTCCGGCTGCTTGGCATCGATGCGCCGGAGCTTGCGCAGACATGCCTGCGCGGCAGCGAAAGCTGGCCGTGCGGCGAGGAAGCGCGCCGCGTTCTGCAAAGGCTGGCCGGGGCTGAGGATTTTTCCTGTTCCGGCAGTTCCAGAGACCGTTACGGGCGGCTGCTGGTTTATTGTTCCGCCGGCGGCAGGGATGTCTCATCGGAAATGGTGTCGGCGGGTTTCGCCGTCGCATCCGGTTATTTCCAGTTCTCCAGCGAGCAGGCGGCGGCGCGCAGGCAGGCACTGGGCATCTGGGCGGGAGAATTCGAGAAACCGTCGCAATGGCGGCGGGAACACCGTGCCGCGGATCTGGAAACGCCGGCGGCGGGTTTCCTCACCATTGTCCGTCATCTTCTGGGGTGGGATCATGGTTGA	MRRNGGRGRRFSAFRDGGLFLATVFLGILIAAKLDQINSETYSGRFFVIDGDTLSKGEERFRLLGIDAPELAQTCLRGSESWPCGEEARRVLQRLAGAEDFSCSGSSRDRYGRLLVYCSAGGRDVSSEMVSAGFAVASGYFQFSSEQAAARRQALGIWAGEFEKPSQWRREHRAADLETPAAGFLTIVRHLLGWDHG				NA	NA	NA	NA	NA
BMS010_06232	1536	rcsC_19		Sensor histidine kinase RcsC	ATGAGTAAAAGCGTCAGCACGTCCACCGACAAGATCATCGTCGACCGGTCGAAAAAGCACCGCAACAAGGCGGTCTTCGACACGGTGAAGACGACGCGTGAACGCCTGCAGCAGGGGGCCGGCGCAAGCGACGCCTATGAACGCGAAATGCTGACCATGCACATCGCCGAAACCCTGCAGGGCGCGATGATCATGCCGCTTTTCATCCTGCTCGCCTCCATCATCGGCCTTTATATTACCCGCGACATCAGCCTGATCATCTGGTCGCTCATTGCGCTGAGCTTCCACGCCTTTTCCCTGCTCTTGGCCAAGCGGGCGGCAAAACAGGAGATCACGGCGGAAAATCTTCAGCACTGGAAAAGTCTCTTCCTCGGCATGCAGATCCTCATCGGCTGCGCCTGGGCGATGTTTGCGCTGGCAGAACCGGTGCGCAACGACCCGACGCTCGTGCTTTTCTTCAAGGGCTCGACGCTGCTGATCGCGCTTTCGCTCACCGCCATGGCCAATTTCATGCTGCGGCGGGCGACCTTCATGACCTTTTTGCCGGTGCTGGCGGCTCTCTGCATGACCTCGGCCATTTCGCGCAATCCTTTCGATGTCGGCCTCGCGCTGATGTTCGGCATGGCCATCCTCTTCTGTCATCGCATCACCAGCCGCCTTTACCAGACCAGTATCAAGCTCCTCTCCTCGCAGACGGAAAAGGACGACCTGATTGCCGAACTCGAAGTCGCCAATTCGGTGTCCGACGAGGCGCGGCGGCGCGCGGAAGAAGCCAATCTGGCGAAATCGCGCTTTCTCGCCTCCATGTCGCACGAGCTGCGCACCCCGCTCAACGCCATTCTCGGTTTCTCCGAGGTCATGTCCTCGGAAGTGCTCGGCCCGCTCAACAATCCGCTCTACAAGGAATATTCCGGCGATATCCATCGCTCCGGCCAGCATCTGCTTGATCTCATCAACGAAATCCTCGACCTGTCGCGCATCGAGGCCGGCCGCTATGACCTGAACGAAGAAGCGATCTCGATGCTGGAAATTGCCGAGGATTGCATCGGCATGATCCAGCTCCGCGCCCGCGCCAAGAACATCAAAATTTCCCAGCAGTTCGAAAACAGCCTGCCGCAGGTCTGGGCCGATGAGAAATCCATCCGCCAGGTCATCCTCAACCTGCTGTCCAACGCCGTGAAGTTCACGCCGCAGGGCGGCGAAATCCTCGTGAAGGCAGGCTGGACGGCAGGCGGCGGCCAATATGTCTCGATCAGGGATAACGGCCCCGGCATTCCCGAAGATGAAATTCCCGTGGTGCTGTCCGCCTTCGGTCAGGGATCGATCGCAATCAAGAGCGCCGAACAGGGAACCGGCCTTGGCCTGCCCATCGTTCAGGCCATTCTGGCCAAGCATGACGGCCAGTTCATCCTGAAATCGAAACTGCGCGAGGGCACTGAAGGCATCGCCATCCTGCCGGCCAAACGCGTGCTGCAAAGCCTCCCGGCCGTGGAAGAAACCCACGCCATCCAGCCGCGCCGCCGGTCCTTCGCTTGA	MSKSVSTSTDKIIVDRSKKHRNKAVFDTVKTTRERLQQGAGASDAYEREMLTMHIAETLQGAMIMPLFILLASIIGLYITRDISLIIWSLIALSFHAFSLLLAKRAAKQEITAENLQHWKSLFLGMQILIGCAWAMFALAEPVRNDPTLVLFFKGSTLLIALSLTAMANFMLRRATFMTFLPVLAALCMTSAISRNPFDVGLALMFGMAILFCHRITSRLYQTSIKLLSSQTEKDDLIAELEVANSVSDEARRRAEEANLAKSRFLASMSHELRTPLNAILGFSEVMSSEVLGPLNNPLYKEYSGDIHRSGQHLLDLINEILDLSRIEAGRYDLNEEAISMLEIAEDCIGMIQLRARAKNIKISQQFENSLPQVWADEKSIRQVILNLLSNAVKFTPQGGEILVKAGWTAGGGQYVSIRDNGPGIPEDEIPVVLSAFGQGSIAIKSAEQGTGLGLPIVQAILAKHDGQFILKSKLREGTEGIAILPAKRVLQSLPAVEETHAIQPRRRSFA	PGPT0015895_474	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-CELL_FATE_CONTROL	PUTATIVE-CELL_FATE_CONTROL-1,PGPT0015895-pleC-K07716
BMS010_06233	405			hypothetical protein	ATGGACGTGACGCCGCAAAAGAAGCAACCGGAACCCGCCTTCCGCAAGGAAAAAGGCTGGCGGCATCTTTTTGCCGCCGCGCGCTATTCCGTGCAGGGGCTTGGCCGGCTGTGGCAGGAAGCGGCGTTCCGGCATGAGGTTCTCGCCTTCGGCGTCGGGCTTGCCCTGCTTCTGGTCGTCGGCGCACCCTTTGCCCATCTTCTCGTCTTTACGGTGCTGATGCTGCTTCTGTTTTCGGTGGAGGCGTTGAATACCGCCATTGAAGAGCTGGTGGATCGCATTTCACCGGAAATCTCCTCGGTCGGGCGGCATGCCAAGGACCTCGGCTCTTTCGCCGTCTTCTGCCTGTTGATGGCGAACGGATTTTTCGTGCTGTATTCGCTGGTAACGACGCTGTTCTTCTGA	MDVTPQKKQPEPAFRKEKGWRHLFAAARYSVQGLGRLWQEAAFRHEVLAFGVGLALLLVVGAPFAHLLVFTVLMLLLFSVEALNTAIEELVDRISPEISSVGRHAKDLGSFAVFCLLMANGFFVLYSLVTTLFF	PGPT0024340_3467	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024340-dgkA|DGK-K00901	NA	NA
BMS010_06234	1035	cobU		Nicotinate-nucleotide--dimethylbenzimidazole phosphoribosyltransferase	ATGAGCATGAGCGGATTGCCCTTCGACGATTTCCGCGCGCTGCTGCGCGAGCTTCCCGGCCCGGATACGCACGCGCTTGTGGCGGCCAAGGAGCTTAATGCGCAGCTGACCAAGCCTGCCGGTTCGCTCGGACGTCTCGAAGAAATCGCCATGTGGCTAGCGGCATGGTCGGGCCGTTCTCCGGCCGTCACCCGTCCGCTGGTGGCGATCTTCGCCGGCAATCATGGCGTTACCCGGCACGGCGTCACGCCCTATCCGACATCCGTGACCCAACAGATGGTAGAAAATTTCGCGGCAGGCGGTGCGGCGATCAACCAGATCTGCGTTGCAAACGATCTTGGCCTGAAGATTTTCGATCTGGCGCTCGATTACCCGACCGGCGACATCACCTGCGAGCCGGCGCTTTCCGAGCGCGACTGCGCCGCCACCATGGCCTTCGGCATGGAAGCGATTGCCGGCGGAACCGATCTTCTCTGCGTCGGCGAAATGGGTATCGGCAACACCACCATCGCGGCGGCGATCAATCTCGCGCTTTATGGCGGCACGGCGGAAGAATGGACCGGTCCGGGCACCGGTTCGGAAGGCGAAGTCATGGCCCGCAAGATCGCGGCGGTGAAGGCAGCGGTGGAGTTCCACAAGGATCATCTGTCCGATCCGCTGGAGATCATGCGCCGTCTCGGCGGACGCGAGATCGCAGCGATTGCCGGCGCCATCCTTGCTGCCCGCGTGCAGCGCATTCCCGTGCTGATCGACGGTTATGTGGCGACGGCCGCTGCCGCTCTCCTCAAGGCCGCCAATCCTGCGGCGCTCGACCATTGCCTGATCGGCCATGTCTCGGGTGAGCCCGGGCATCTGGCCGCCATCGAAAAGCTCGGCAAGACGCCGCTTCTGGCGCTTGGCATGCGACTCGGCGAAGGCACGGGGGCAGCGCTTGCCGCCGGCATCGTCAAGGCCGCCGCCGCCTGCCATTCCGGCATGGCGACATTCGAAGCGGCGGGTGTGGACACCCGCATCAGCTCCCGCACCGACCATTGA	MSMSGLPFDDFRALLRELPGPDTHALVAAKELNAQLTKPAGSLGRLEEIAMWLAAWSGRSPAVTRPLVAIFAGNHGVTRHGVTPYPTSVTQQMVENFAAGGAAINQICVANDLGLKIFDLALDYPTGDITCEPALSERDCAATMAFGMEAIAGGTDLLCVGEMGIGNTTIAAAINLALYGGTAEEWTGPGTGSEGEVMARKIAAVKAAVEFHKDHLSDPLEIMRRLGGREIAAIAGAILAARVQRIPVLIDGYVATAAAALLKAANPAALDHCLIGHVSGEPGHLAAIEKLGKTPLLALGMRLGEGTGAALAAGIVKAAAACHSGMATFEAAGVDTRISSRTDH	PGPT0004595_2111	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004595-cobU|cobT-K00768	NA	NA
BMS010_06235	786	cobV		Adenosylcobinamide-GDP ribazoletransferase	ATGAAGGCCGGGGATTTTATAACAGATGTCATGCATTCCCTCGCCTTTCTGAGCCGCCTGCCCGTTCCCTCGCGGTTTTTCGATGATGCCGACGGCGTGTCGATGCGCCGCACAGCCCGCGCCTTTCCCGCCGCCGGCCTGCTGATCGCCCTGCCCGCCGCTTTCCTTGTTGTGGTTTTCGCAGTCTTCGACGCCTCTCCGCAGCTTACCGGCTGGCTCGTCATCGGCCTGACGGCGCTCATCACGGGCGCGCTGCATGAAGACGGTCTCGCCGACATGGCCGACGGTTTCGGCAGCGGCAAGGAGAAGGCCCGCATGCTTGAGATCATGAAGGACAGCCGCATCGGCAGCTATGGCACGATTGCCATGATCCTTTCCTTTGCGCTTCGCGCCACCGCACTCGCCTCGCTCATTGAGACGCTGCCGGCAAAGACCGCCGCTGCCGCCCTGATCGCCACACTTGTCCTGAGCCGCGCCCTGATGGTGTGGCACTGGCAGTCCCTGCCCGCCGCCAAAACCTCCGGCATCGCCGCCGGCGCCGGTCAGCCGGGCACACGCGAGCGCAACATCGCGCTGGTGATCGGGCTGCTGCTTTTCACACTCTTCACGCTGCACGCCCTGCCGCTCCTGTCGATTACACTCGTGCTGGCGGCAGCCTTTCTGGCGGCCGTCCTTTTCGGCAGGCTCTGCGGCAGCAAGATCGGTGGCCATACCGGCGACACCATCGGTGCCTGCCAGCAGATCACGGAGATCGTTACCCTCATCGCCCTTGCCCTTGCGGCGTGA	MKAGDFITDVMHSLAFLSRLPVPSRFFDDADGVSMRRTARAFPAAGLLIALPAAFLVVVFAVFDASPQLTGWLVIGLTALITGALHEDGLADMADGFGSGKEKARMLEIMKDSRIGSYGTIAMILSFALRATALASLIETLPAKTAAAALIATLVLSRALMVWHWQSLPAAKTSGIAAGAGQPGTRERNIALVIGLLLFTLFTLHALPLLSITLVLAAAFLAAVLFGRLCGSKIGGHTGDTIGACQQITEIVTLIALALAA	PGPT0004590_826	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004590-cobS|cobV-K02233	NA	NA
BMS010_06236	192			hypothetical protein	ATGGAAACACCCTGCATCCATATCTGCCGCCTCGATGAAACCAGCAGCCTCTGCATCGGCTGCGGACGAATGCTGGATGAAATCGGCGGCTGGGCAGGCTATAGCGACGAGAAGCGCCGCGAAATCATGCGGTTGCTGCCGCAAAGACTGGCAAACCTGCCCGAGACCGCCAAGGAGACGCATACCGCATGA	METPCIHICRLDETSSLCIGCGRMLDEIGGWAGYSDEKRREIMRLLPQRLANLPETAKETHTA	PGPT0013210_1866	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013210-ydhL-K06938	NA	NA
BMS010_06237	708			hypothetical protein	ATGAACAGGCTGACCATCGTTCTCCTCCTGCTGGCCGTCGGCCTTGGCCTGCTTCTCATCAATCACGACGGCGGCCGAACGCTCGGCATCGACAATGATCAATTCGCCCACGTGCTTTATCTTCTGCCTGTTGCCGGCCTATTATCCGCCGGCATTCTGGCGGGAAGACGCGGCAGTTTCAGCACCGTCATCCGCCAGCTCGCCGTCTGGCTCGTCATTATTCTCGGCCTCGTCTCGCTCTATCTCTATCGCTACGACCTGCAGTCCTTCGGCGACCGGTTGCTCGGCGGCCTGATGCCCGGCCGCGCCGTGGTGGTGACGACAGCTGGCGGCGAACAGGAAATCGTCCTTCATAAATCGATGAGCGGCCATTTCGAGGCAAATGTCGGCGTCGAAGGCAAGACGATCCACATGCTGGTCGATACCGGTGCAAGTTCCGTGGTGCTCGCCAATGCGGATGCGGCAGAAATCGGCATCGACACCGCAAATCTCCGCTATACCGTGCCGGTGATGACCGCGAATGGTCGCACGGCGGCAGCCCCCGTCACCCTTTCGGAAATCAGCATTGGCCCGATCATGCGACGCAACATCCCCGCCCTCGTCGCGCAGGATGGCCAATTGGGCCAAAGCCTGCTCGGCATGAGCTTTCTATCGACGCTCGGTTCGCTGCAGATGCAGACCGATGAATTGCGATTGCGGGATCGGTAA	MNRLTIVLLLLAVGLGLLLINHDGGRTLGIDNDQFAHVLYLLPVAGLLSAGILAGRRGSFSTVIRQLAVWLVIILGLVSLYLYRYDLQSFGDRLLGGLMPGRAVVVTTAGGEQEIVLHKSMSGHFEANVGVEGKTIHMLVDTGASSVVLANADAAEIGIDTANLRYTVPVMTANGRTAAAPVTLSEISIGPIMRRNIPALVAQDGQLGQSLLGMSFLSTLGSLQMQTDELRLRDR	PGPT0015885_66	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-PILUS|FIMBRIAE_SYSTEM	MOTILITY-PILUS_SYSTEM,PGPT0015885-perP-K06985	NA	NA
BMS010_06238	603			hypothetical protein	ATGTCAGCGACGCAGCAAATATCTGCAAGCCCGCAATTGCTCGCCGCGTTGGTGGCGGCTTCCACAGCCTTCACACTTTGGATACTCGGACAATTTGTAGCGGTGGGCGTAGGATTCTGGAAAAAATCGCGAGAAAAAGAGAAATTTATCCGATCCCTGTATGCGGAAATCGACTTTAATACAGCCGACATGGCGATCTTTCTTGCGGCACCTATTTCCTATGTGACTTTCAGGGAGCGCATCAAGGAAAACAAAGATTTCGTTCCGCATATTACAGATGCACGTCACACCCATTTCTATCTGAAGAATATCGATTCCATATCGGCGACTGGAAGAGAGTATATTGGCGATGTCGTCTATTTTTATGGTGTTTTGGATAAAATCCGCGCCAAGATAGAAGGAATATATCGTAAGAGTTTCACCAATATTTCACTCGAGGGTCGGGAGAGTGCCATTCGTAGCCTCTACGAGCACGCGGAAGAGGCAAAGAAAACCGGCGAGAAGCTTTTGCAGACAATGGAAGGAAAATACAGGGGATACAAACTAAAGCGAAAAATCCGTTCGCCGGGCATCTCAAAAAACCAAAAAGCGCCGAAACCATAG	MSATQQISASPQLLAALVAASTAFTLWILGQFVAVGVGFWKKSREKEKFIRSLYAEIDFNTADMAIFLAAPISYVTFRERIKENKDFVPHITDARHTHFYLKNIDSISATGREYIGDVVYFYGVLDKIRAKIEGIYRKSFTNISLEGRESAIRSLYEHAEEAKKTGEKLLQTMEGKYRGYKLKRKIRSPGISKNQKAPKP				NA	NA	NA	NA	NA
BMS010_06240	642	ribB	COG0108	3,4-dihydroxy-2-butanone 4-phosphate synthase	ATGACCATTGCTAAAATTGAAGACGCGATCGAAGCCATTTCCCGTGGTGAGATGGTGATTGTGGTTGACGACGAAGACCGCGAAAATGAAGGCGATATCATCGCCGCCTCCGACAGCATCACCCCACAGCAGATCGCCTTCATGATGAACCATGCGCGCGGGCTGATCTGCGTCGCCATGCCGGGCGAGCGTCTCGATGCGCTCGATATTCCGCTGATGGTGTCGCGCAACACCGAATCCCTCAAGACGGCCTTCACCGTCTCGGTGGACTATATTCCGGGCACCACCACCGGCATTTCCGCCGCCGACCGCGCAAAAACCGTGCGTGCGCTGGTATCGGAAGAATCGCGCCCGGAAGATTTCGCCCGCCCCGGCCACATCTTCCCGCTGCGCGCCAACCCACAGGGCGTTCTCGGCCGCACCGGGCACACCGAAGCAGCTGTGGACCTCTGCCGCCTCGCCGGCAAATATCCCTGCGGCACCATCTGCGAAGTCGCCAATGACGACGGCACCATGGCCCGCCTGCCCCAGCTCGAAGTCTTCGCCGAACGCCACGGCCTGCTGGTCGTGACGATCAAGGACCTTGTTGCTTACCTCAAGGGCGAGGTTGTCGAGGAAGTGGCGCAGAAGCAGGTCGCTTGA	MTIAKIEDAIEAISRGEMVIVVDDEDRENEGDIIAASDSITPQQIAFMMNHARGLICVAMPGERLDALDIPLMVSRNTESLKTAFTVSVDYIPGTTTGISAADRAKTVRALVSEESRPEDFARPGHIFPLRANPQGVLGRTGHTEAAVDLCRLAGKYPCGTICEVANDDGTMARLPQLEVFAERHGLLVVTIKDLVAYLKGEVVEEVAQKQVA	PGPT0008600_1040	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008600-ribB|RIB3-K02858	NA	NA
BMS010_06241	429			hypothetical protein	ATGGACATCGCCGAAGTCGCCAAACGCAGCGGAATACCGGCATCGACACTGCGCTTCTACGAAAAGAAGGGCCTGATCGTCTCCCTCAGCCAGCAAGGGACCCGGCGCTGGTTCGGGCCCGGCATTCTCGATCAGTTGGCCCTGATTTCCTTGGGCCAGGCAGCCGGATTATCGCTGGATGAGATTCGCTCGATGTTCTCACCCGATGGCACGCCGAACATCGACCGGCAACTGCTGGCGACGAAAGCCGACGAGATCGACGCCCTCATCAAACGCCTCGAAGCCATGAGCAAGGGACTACGGCACGCGGCGGCCTGCCCTGCCCCCAGCCACCTGGAATGCCCGACCTTCAAGCGCCTGCTCAAGGCTGCCTCGTCAGGCGTCATCGAGTGGCGCTGGAACAAAGCGACACCCAAGCCAGACCTGTAG	MDIAEVAKRSGIPASTLRFYEKKGLIVSLSQQGTRRWFGPGILDQLALISLGQAAGLSLDEIRSMFSPDGTPNIDRQLLATKADEIDALIKRLEAMSKGLRHAAACPAPSHLECPTFKRLLKAASSGVIEWRWNKATPKPDL	PGPT0012955_860	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012955-soxR-K13639	NA	NA
BMS010_06242	495			hypothetical protein	ATGACGCTACTGCATGACATCATCCAGATCGCCCTCATCGGCATCGGCGCTACCGCCGTCATGGATCTCTGGCTCAGCCTGCTCAAGCGCCTGGGCGTTCAGACACTCAACATCGCATTCATCGGACGCTGGGTCGGCCACCTGTTCCGGGGGCGCTTCGCCCACGCTGCCATCGCCAAGGCGCAACCCATCCCCGCTGAACGGGCCCTGGGCTGGCTGGCCCACTATGTCATCGGTATTGCCTTCGCGGGCTTGCTGGTGGCGATCTCCGGAATGAACTGGGTGGCCGACCCGACCCTGCTGCCCGCCGTGCTGGTCGGGATGGGGACCGTGGTTGCGCCGCTGTTCCTGATGCAACCCGCCATGGGGGCCGGCTTTGCCGCCTCGAGAACACCGACGCCCTTGAAGAACTGCCTGCGCAGCCTGGCCAACCACACGGTCTTCGGCCTGGGGCTTTTCATCGCCGCGCTGCTGATCGACTGGACCGCTCAATAG	MTLLHDIIQIALIGIGATAVMDLWLSLLKRLGVQTLNIAFIGRWVGHLFRGRFAHAAIAKAQPIPAERALGWLAHYVIGIAFAGLLVAISGMNWVADPTLLPAVLVGMGTVVAPLFLMQPAMGAGFAASRTPTPLKNCLRSLANHTVFGLGLFIAALLIDWTAQ				NA	NA	NA	NA	NA
BMS010_06243	570			NAD(P)H dehydrogenase (quinone)	ATGAAGAAACTCGCCGTCATCTACCACAGCGGCCACGGACACACAGAACACATCGCCCGGCAGATTTGCGAGGGTGCCCAGGGCGTGCCCGGCACCGAGGTCCATCTGCTCAAGGCCGAAGATCTGGGCAGGACGCCGGACGATCTGCTCGGCTTCGATGGCTATATCCTCGGCTCGCCCACCTATTTCGGTGGCGTGTCCGGTCCCTTCAAGACCTTCATGGACACCACCGGGCCGCTTTGGCGGGCGCAGAAGCTCAAGGGACGGCTCGCGGCCGGGTTCACCGTGTCGTCGCTGCCGGCGGGGGACAAGCAGTCGACGCTCATGTCGCTGTTCGCGTTCTGCATGCAGCACGGGATGCTCTGGGTGGGCAATCCGATCCTGCCTGAGCAGCATGCGGGCGTACCCTATGACGAAGCGGCCAACCGGCTCGGCTCCTGGTCGGGGTTGATGGCCCAGTCCAGCCACTCCGCTCCGGCCGATGCCTTCGCGCCGGGGGATAGCAAGACCGCGCGGATGTTCGGCCGGCAGTTTTCCGAAACCCTGCACCGGCTCGCCGGCCTCGCCTGA	MKKLAVIYHSGHGHTEHIARQICEGAQGVPGTEVHLLKAEDLGRTPDDLLGFDGYILGSPTYFGGVSGPFKTFMDTTGPLWRAQKLKGRLAAGFTVSSLPAGDKQSTLMSLFAFCMQHGMLWVGNPILPEQHAGVPYDEAANRLGSWSGLMAQSSHSAPADAFAPGDSKTARMFGRQFSETLHRLAGLA	PGPT0009460_2966	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009460-wrbA-K03809	NA	NA
BMS010_06244	228			hypothetical protein	ATGCTGCCCAAGCGCTTCGCTCCGTTGCTGTTCAGCCTGATTCTCTCCGGGCTCATGTCACTGCTGGTGTCCGGCATTTCCACCTACCGGGCTGCCGGGCTGGGGCCGGGTTTCCCCAGCCTGTGGTGCGGCGCCTGGCTGATGGCCTGGCTCTTCGCCTTTCCGGCGGTACTGTTGGTCACGCCGGTGGCGCGGTCGCTGGTCGGGTGGCTGGTCAGGGCGGAATAA	MLPKRFAPLLFSLILSGLMSLLVSGISTYRAAGLGPGFPSLWCGAWLMAWLFAFPAVLLVTPVARSLVGWLVRAE				NA	NA	NA	NA	NA
BMS010_06245	462	iorA_2		Isoquinoline 1-oxidoreductase subunit alpha	ATGGCCACAACGCTCGTGCTCAATGGCAAGAACATCACCCTCGATGCAGACCCCAGCATGCCGCTGCTCTGGGCGATCCGCGAGGTCGCCGGGCTGACCGGCACCAAGTTCGGTTGCGGCATGGCGCAATGCGGCGCCTGTACGGTGCATATGGACGGGCAGGCGGTGCGCTCCTGCGTGTTGCCGCTGTCCGCCGTCGCGGGTAAGCACATCACCACCATCGAGGGTCTGGAAAGCAAGCCCGCCAAGGCGGTCCAGGCCGCTTGGGTGAAGTTGCAGGTGCCGCAGTGCGGCTACTGCCAGTCCGGGCAGATCATGTCGGCGACGGCGCTGCTCGAACGCAACGCCGCGCCGAGCGATGCCGACATCGACGCCGCGATGAACGGCAACATCTGCCGTTGCGCCACCTATGCGCGCATTCGCGATGCCATCCACGAAGCTGCCGACACGCTGAAGGCCTGA	MATTLVLNGKNITLDADPSMPLLWAIREVAGLTGTKFGCGMAQCGACTVHMDGQAVRSCVLPLSAVAGKHITTIEGLESKPAKAVQAAWVKLQVPQCGYCQSGQIMSATALLERNAAPSDADIDAAMNGNICRCATYARIRDAIHEAADTLKA	PGPT0009812_1090	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-QUINOLINE_RESISTANCE,PGPT0009812-iorA-K07302	NA	NA
BMS010_06246	2205	iorB_2		Isoquinoline 1-oxidoreductase subunit beta	ATGACCACTCGACTCGATCTCCCGGAATTGCAGCAACCGTCCCGCCGGACCTTTCTGAAATCCGCCGGTGTCGCGGCCGCCGGCCTGCTGATCGGCTTCCAGTGGGTCGGTAGCGGAGGGCGCGCCATGGCCGCCGATCCGGCCGAGGGCACCTTCGCACCGAACGCCTTCCTGCGCATCGGCCCGGACGACAGCGTCACGGTCATCGCCAAGCACGTCGAGATGGGCCAGGGTGCCTATACCGGCATTGCCACCATCGTCGCCGAGGAGTTGGATGCGGACTGGCGCAAGGTGCGCGTGGAAAGCGCGCCGGCCGACGCGGAGCGCTACGCCAACCTCGCCTGGGGAAAGATGCAGGGTACGGGCGGCAGCTCGGCGATGGCCAATTCCTGGATGCAGTTGCGCGAGGCCGGCGCCAAGGCGCGGGCGATGCTGATCGCGGCGGCGGCTGCCGCGTGGAACGTGCCGGCCTCCGAGCTGACCACCCGTGAAGGCGTGGTCCATCACGCGGCCAGCGGTCGCCAGGCCAGCTACGGTTCGCTCGCGGCTGCGGCATCGAAGCTGCCGATGCCGGAGAAGGTCACGCTGAAGTCGCCCGAGGAGTTCCGCCTGGTCGGCCGGCAGGCGCCGCGGGTCGATGCCGCGGCGAAGTCCGACGGTACCGCGCAGTTCACCCTCGACGTGACGATGCCCGGCATGCTGGTGGCGCTGTTGCAGCGGCCGCCGCAGTTCGGTGCGACGGTGAAAGCGTTCGATGCCTCGGCGGCCAAGGCGGTGCCGGGCGTGGTGTCGGTGGTGCAGGTTCCGCGTGGCGTGGCGGTGGTCGCCCAGGGCTTCTGGGCGGCCAAGCAGGGGCGCGATGCACTCAAGGTCGAGTGGGACGATTCCAAGGCGGAGAAGCGCAGCAGCGATGCAATGCTCGCCGAGTACCGCCAGCTCGCCGAGAAGCCCGGCCTGCCGGCGCGGGTGGAGGGCGATGCGGCCGCTGCGTTGGCCGGAGCGGCGAAGACGGTGTCGGCCAGCTATGAATTCCCCTACCTGGCGCATGCGCCGATGGAGCCGCTGGATGCAGTGGTCAAGCTGACGGCGGACCGCTGCGAAATCTGGACCGGCGCGCAATTCCAGACCATCGACCAGGCGAACGCGGCGAAAACGGCCGGGCTCGAACCGCAGCAGGTGACGATCCACACCCTGTACGCCGGCGGCAGCTTCGGCCGTCGCGCCAATCCGGGCTCGGATTACATCGTCGAGGCGGTGTCCATCGCCAAGGCGCTGGGCGCCAACGGTACGCCGGTGAAGCTGCAATGGACCCGCGAGGACGACATCCACGGCGGGCTTTATCGGCCGATGTACGTGCACAAGCTGGAAGCGGGCCTGGATGCCGAAGGCAAGCTCATCGGCTGGCGGCACCGCATCGTCGGCCAGTCGATTCTCGCCGGCACGCCGTTCGAGCAAATGATGGTCAAGGATGGTGTCGATCACACCTCGGTGGAGGGGGCGGCGAACCTGCCCTATGCGATCCCGAACATGTCGGTGGAGTTGACCACCACCCAGGCCGGCGTGCCGGTGCTCTGGTGGCGGGTGGTCGGCAGCTCGCACACCGCGTTTGCGGTCGAGGCGTTCATCGACGAGGCCGCGCAGGCGGCGGGACAGGACCCGCTCGCTTTCCGCCGTGCGCTGCTCGCGAAGCAGCCGCGCCTGCTCGGTGTGCTCGAACTGGCCGCCGAGAAAGCCGGCTGGGACCCGGCCAAGCCGTTGCCGAAAGGCCGTGGGCGTGGGATCGCGGTGGCCGAGGCGTTCAACACCTATGTCGCCCAGGTCGCGGAAGTGACGGTGGATGAGAAGGGCCAGGTCAAGGTGGATCGCGTGGTCTGCGCCGTGGACTGCGGCACGCCGATCAACCCGGACATCATCGCTGCGCAGATGGAGGGTGGCATCGGCTTCGGCCTTGGCGCGGTGATGCACAGTGCGATCACGCTGAAGGACGGCAAGGTCGAGCAGAACAACTTCGACGGCTACCAGGTACTGCGGATCGCCGAAATGCCCAAGGTCGAGGTGCACATCGTGCCGTCCGGCGAGGCGCCCACCGGCGTCGGCGAGCCGGGTGTGGCCCCGGTCGGCCCTGCGGTGGCGAATGCGATCTTCGCCGCCACCGGCAAGCGCGTGCATACGCTGCCGTTCCTGCCCCAGGGACGCCTGGCCTGA	MTTRLDLPELQQPSRRTFLKSAGVAAAGLLIGFQWVGSGGRAMAADPAEGTFAPNAFLRIGPDDSVTVIAKHVEMGQGAYTGIATIVAEELDADWRKVRVESAPADAERYANLAWGKMQGTGGSSAMANSWMQLREAGAKARAMLIAAAAAAWNVPASELTTREGVVHHAASGRQASYGSLAAAASKLPMPEKVTLKSPEEFRLVGRQAPRVDAAAKSDGTAQFTLDVTMPGMLVALLQRPPQFGATVKAFDASAAKAVPGVVSVVQVPRGVAVVAQGFWAAKQGRDALKVEWDDSKAEKRSSDAMLAEYRQLAEKPGLPARVEGDAAAALAGAAKTVSASYEFPYLAHAPMEPLDAVVKLTADRCEIWTGAQFQTIDQANAAKTAGLEPQQVTIHTLYAGGSFGRRANPGSDYIVEAVSIAKALGANGTPVKLQWTREDDIHGGLYRPMYVHKLEAGLDAEGKLIGWRHRIVGQSILAGTPFEQMMVKDGVDHTSVEGAANLPYAIPNMSVELTTTQAGVPVLWWRVVGSSHTAFAVEAFIDEAAQAAGQDPLAFRRALLAKQPRLLGVLELAAEKAGWDPAKPLPKGRGRGIAVAEAFNTYVAQVAEVTVDEKGQVKVDRVVCAVDCGTPINPDIIAAQMEGGIGFGLGAVMHSAITLKDGKVEQNNFDGYQVLRIAEMPKVEVHIVPSGEAPTGVGEPGVAPVGPAVANAIFAATGKRVHTLPFLPQGRLA	PGPT0009811_1413	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-QUINOLINE_RESISTANCE,PGPT0009811-iorB-K07303	NA	NA
BMS010_06247	1185	pucA	COG1975	putative xanthine dehydrogenase subunit A	ATGACGGGTACCAGTGCATTGCTCGAGGCGATCCAGCGTGCCGAACAGGCTGGCGAAGAGTCGGTCCTGGCCACGGTGGTCAAGGTCGAGGGCTCGGCCTATCGGCGGCCGGGCGCGCGGATGCTCATTCCGCTCTATGGCGGCACGGTCGGCACCGTCAGCGGCGGTTGCCTGGAGGCCGAGCTGGCGAAGAAAGCCTGGTGGTTCACCGAGGCCGGTGTGCCCAGGGTGCGGCGCTACAGCACCGGCACAGACGAGTCGGACGACGAGCAGGAGCGTTCGCTGACCTTCGGCCTGGGCTGCAACGGCACCGTGCATGTGCTGCTGGAGCGCTTGGCGCCGGCGTCTTCGTCGCCAGTGGTGGAGTTGCTGCAGCAGGTGCGCCGGAGCCAACTGCCCGGCGCCCTGGCCACGGTGATCTCCACCTACCGCAATGCCCGTGTCCAGGTCGGCGACCGGCTGGTGCTGGAGCCGTCCTGGCGCTTCGCCGGGCGGTTGTGGCATGCGGAGCTGGAGGAAGCGATCCGTCGCGACCTGGCTGAGGTGCTGTCCCGGCAGCGCTCCGAGTTGCGTGTCTACAGCGACGCGCGGGGCGACATCGAGGTGTTCCTCGAATACGTGGCGCCGCAGGTTCGTCTGGTGGTCTTCGGCGGCGGTCACGACGCCCAGCCGCTGGTGCGCATGGCGAAGATGCTCGATTGGCACGTCACCGTGGTGGACGGTCGCACGCATTTCGCCCGCCCGGAGCGCTTTCCCGAAGCCGATGCGGTGATCTGCGCCACACCCGGCGAGGCGCCGCTGTCGCTCGACGGCGCCGTCGTGCTGGTGATGACCCACAGCTACAGCCAGGATCTCCGCTGGCTGCATCAGGCGTTGCAGTCCTCGCCCGTCTACATCGGCCAACTGGGCCCGCGCGACCGCACCCAGCGCCTGCTGGCGGAGATTGATCCGCAGGGCGCGGGCTCGCCGGGACTCGATAGTCTGCATTACCCCATGGGCCTCGACCTCGGCGGCGACACGCCGGAAAGCGTCGCGCTGGCGGCGCTGGGAGAAATCACCGCCGTGCTCAACCGGCGCGAAGGCGGCATGCTGAAACACCGCCGCGCGGCGATTCACCCGATCGAGGCGGCCATGGTGCGGACGCTGGACGCACCCCAGGCGGAGAAGTTGGCCGACCAGGGTTGA	MTGTSALLEAIQRAEQAGEESVLATVVKVEGSAYRRPGARMLIPLYGGTVGTVSGGCLEAELAKKAWWFTEAGVPRVRRYSTGTDESDDEQERSLTFGLGCNGTVHVLLERLAPASSSPVVELLQQVRRSQLPGALATVISTYRNARVQVGDRLVLEPSWRFAGRLWHAELEEAIRRDLAEVLSRQRSELRVYSDARGDIEVFLEYVAPQVRLVVFGGGHDAQPLVRMAKMLDWHVTVVDGRTHFARPERFPEADAVICATPGEAPLSLDGAVVLVMTHSYSQDLRWLHQALQSSPVYIGQLGPRDRTQRLLAEIDPQGAGSPGLDSLHYPMGLDLGGDTPESVALAALGEITAVLNRREGGMLKHRRAAIHPIEAAMVRTLDAPQAEKLADQG	PGPT0007280_224	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-XANTHINE_METABOLISM	PHYTOHORMONE-XANTHINE_BIOSYNTHESIS,PGPT0007280-xdhC|paod|ygeB|pucA-K07402	NA	NA
BMS010_06248	279			hypothetical protein	ATGAAACCGATACTGAGTGTGCTGATGGCGTTGGCCATGACGGGCACGACAATGGTGTGGGCCGAGGACGGTGGCGAGCGGCTGGGCGAATGGCGGATGAAGCAGCAGATGCTGACCGGTCAGCGGATGGCCATCGACCACTCCGAGCGTTTCGCACAGTTACTGGAAGAACAGCCTACCGCGGCAGGGCCGATGACGGAGATGTCCATGCCGCCGGCCGCGCCGCGCTACCGCTCGCCGATCCTGGAAGACCGGGCACGCTACGGCAGCACGAAGTGA	MKPILSVLMALAMTGTTMVWAEDGGERLGEWRMKQQMLTGQRMAIDHSERFAQLLEEQPTAAGPMTEMSMPPAAPRYRSPILEDRARYGSTK				NA	NA	NA	NA	NA
BMS010_06249	2016	uvrB_2	COG0556	UvrABC system protein B	ATGTCCGAGCTCCAACTCGTCACCCGCTACAAGCCGGCCGGCGACCAGCCGGAAGCCATCCGCCAGATGGTCGAGGGACTGGAAGCCGGGCTCTCGCACCAGACGCTGCTGGGCGTGACCGGCTCCGGCAAGACCTTCAGCATCGCCAACGTCATCGCCCAGGTGCAGCGGCCGACCCTGGTGCTGGCGCCGAACAAGACCCTGGCGGCGCAGCTCTACGGCGAGTTCAAGTCCTTCTTCCCGAACAACGCGGTGGAGTACTTCGTTTCCTATTACGACTACTACCAGCCGGAAGCCTACGTTCCCTCCTCGGACACCTACATCGAGAAGGACGCCTCGATCAACGACCACATCGAGCAGATGCGCCTGTCGGCGACCAAGGCGCTGCTGGAGCGGCCGGACGCGATCATCGTCGCCACCGTCTCCTCGATCTACGGCCTGGGCAGCCCCGATGCCTACCTGAAGATGGTGCTGCACATCGACCGGGGCGACAAAATGGACCAACGCGCCCTGCTCCGCCGGCTGGCCGAGCTGCAGTACACCCGCAACGACATGGACTTCGCCCGCGCCACCTTTCGCGTACGCGGCGACGTGATCGACATCTTCCCGGCGGAGTCCGACCTGGAGGCGATCCGCGTCGAGCTGTTCGACGACGAAGTGGAAAGCCTGGCGGCCTTCGATCCGCTGACCGGCGAGGTGATCCGCAAGCTGCCGCGCTTCACCTTCTACCCGAAGACCCACTACGCCACACCCCGAGAGACCCTGCTGGAGGCCGTCGACCAGATCAAGGCGGAGCTGCGCGACCGCCTCGAGCACCTGCGCAACCAGAACAAGCTGGTGGAGGCGCAGCGCCTGGAACAACGCACCCGCTTCGACCTGGAAATGATCCTTGAGCTGGGTTACTGCAACGGCATCGAAAACTACTCGCGCTATCTCTCCGGTCGCGCACCGGGCGAGCCGCCGCCGACCCTCTACGACTACCTGCCGGCCAACGCGCTGCTGGTGATCGACGAATCCCACGTCACGGTGCCGCAGGTCGGCGCCATGTTCAAAGGCGACCGCTCGCGCAAGGAAACCCTGGTGGAATACGGCTTCCGCCTGCCCTCGGCGCTGGACAACCGTCCGCTGCGCTTCGACGAATGGGAGGCGATCAGCCCGCAGACCATCTTCGTCTCGGCGACGCCCGGCCCCTACGAAGCCGAGCATGCCGGCCGGGTGATCGAGCAGGTGGTCCGTCCGACCGGCCTGGTCGACCCGGAGATCGAAGTCCGCAAGGCCACCACCCAGGTGGACGACCTGCTGTCCGAGATCCGCAAGCGCGTCGCGGTGGACCAGCGGGTGCTGGTCACCACCCTGACCAAACGCATGGCCGAGGACCTGACCGACTACCTGGCCGACCACGACGTGCGGGTGCGCTACCTGCACTCGGACATCGACACCGTCGAACGGGTGGAAATCATCCGCGACCTGCGCACCGGCGCCTTCGATGTGCTGGTCGGCATCAACCTGCTGCGCGAAGGTCTGGATATGCCGGAAGTCTCCCTCGTGGCGGTGCTGGACGCGGACAAGGAAGGCTTCCTGCGCTCCGAACGCTCACTGATCCAGACCATCGGCCGGGCGGCGCGCAACCTGCACGGCAAGGCCATCCTCTATGCCGACAACGTCACCGGCTCGATGCAACGCGCCATCGACGAGACCGAGCGGCGCCGGGCCAAGCAGATCGCCTTCAACGAAGCCCACGGCATCGTGCCGAAGGGCGTCAAGAAGGATGTGCAAGACATCCTCGAAGGCGCCACCGTCCCCGGCTCGCGAAGCAACAAGCGGCGCGGGATGGCCAAGGCGGCGGAAGAAAGCGCCCGCTACGAGAACGAACTGCGCTCGCCCAGCGAGATCAACAAGCGCATTCGCCAATTGGAAGAAAAAATGTACCAGTTGGCCCGCGACCTCGAATTCGAAGCTGCGGCACAGGTACGCGACGAAATTCAGAAACTGCGGGATCGCCTCCTGGCGGTCTGA	MSELQLVTRYKPAGDQPEAIRQMVEGLEAGLSHQTLLGVTGSGKTFSIANVIAQVQRPTLVLAPNKTLAAQLYGEFKSFFPNNAVEYFVSYYDYYQPEAYVPSSDTYIEKDASINDHIEQMRLSATKALLERPDAIIVATVSSIYGLGSPDAYLKMVLHIDRGDKMDQRALLRRLAELQYTRNDMDFARATFRVRGDVIDIFPAESDLEAIRVELFDDEVESLAAFDPLTGEVIRKLPRFTFYPKTHYATPRETLLEAVDQIKAELRDRLEHLRNQNKLVEAQRLEQRTRFDLEMILELGYCNGIENYSRYLSGRAPGEPPPTLYDYLPANALLVIDESHVTVPQVGAMFKGDRSRKETLVEYGFRLPSALDNRPLRFDEWEAISPQTIFVSATPGPYEAEHAGRVIEQVVRPTGLVDPEIEVRKATTQVDDLLSEIRKRVAVDQRVLVTTLTKRMAEDLTDYLADHDVRVRYLHSDIDTVERVEIIRDLRTGAFDVLVGINLLREGLDMPEVSLVAVLDADKEGFLRSERSLIQTIGRAARNLHGKAILYADNVTGSMQRAIDETERRRAKQIAFNEAHGIVPKGVKKDVQDILEGATVPGSRSNKRRGMAKAAEESARYENELRSPSEINKRIRQLEEKMYQLARDLEFEAAAQVRDEIQKLRDRLLAV	PGPT0014920_2882	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014920-uvrB-K03702	NA	NA
BMS010_06250	1197	tyrB	COG1448	Aromatic-amino-acid aminotransferase	ATGAGTTTGTTCTCCGCCGTAGAAATGGCTCCTCGCGACCCCATTCTGGGCCTCAATGAAGCATTCAATGCCGATACCCGTGCCACCAAGGTCAACCTGGGCGTGGGCGTGTACTACAACGAAGAGGGCAGGATTCCGCTGTTGCGCGCGGTAGCGGAGGCTGAGAAAGCCCGTATCGCTGCCCACGCGCCGCGCGGCTACCTGCCGATCGAAGGCATCGCGGCTTATGACCAGGCCGTGCAGACCTTGTTGTTCGGTGCCGGCTCGGCGCTGCAGAGCGAAGGTCGCGTGGTCACGGCCCAGGCCCTGGGCGGTACTGGTGCCCTCAAGGTCGGTGCGGATTTCCTCAAGCGCCTGCTGCCCGAATCGATCGTCGCCATCAGCGACCCGAGCTGGGAAAACCACCGCGCGCTGTTCGAGTCCGCCGGCTTCCCGGTGCAGAACTACCGCTACTACGACGGCGCCACCCACGGCGTGAACCGTGCCGGCATGCTGGACGACCTGAAGGCGCTGCCCGCGCGTTCCGTCGTGGTGCTGCATGCCTGCTGCCACAACCCGACCGGCGTTGACCTCGGCCTTGACGACTGGAAAGCCGTGCTCGAAGTACTGCGTGAGCGGGAGCATGTACCGTTCCTCGACATCGCTTACCAGGGCTTCGGCGACGGCATCGAGGAAGACGCCGCGGCGGTGCGCCTGTTCGCCGAATCCGGCCTGCCGTTCTTCGTGTCCAGCTCGTTCTCCAAATCCTTCTCGCTGTACGGCGAGCGGGTCGGCGCGCTGTCCATCGTCACCGGCTCCAAGGATGAAGCCACGCGCGTGCTGTCGCAGCTCAAGCGCGTCATCCGCACCAACTACTCCAACCCACCGACCCACGGCGCCACCGTGGTCGCCAGCGTGCTGAACAGCGCGGAACTGCGTGCCCTGTGGGAAGAAGAGTTGGGTGAGATGCGCGAACGCATCCGTGGCATGCGCATGGCCATGGTCGAGCAACTGGCCGCCCTGGGCGCCAAGCGCGACTTCAGCTTCGTCGCCCGCCAGCGTGGCATGTTCTCCTACTCCGGCCTGAGCGCCGAGCAGGTGGAGCGCCTGAAGAGCGAGTTCGGCATCTACGCCGTCAGCACCGGCCGCATCTGCGTCGCCGCCCTGAACCGCAGTAACCTGGAAAGCGTCACCCGGGCCATCGCCCAGGTTCTCTGA	MSLFSAVEMAPRDPILGLNEAFNADTRATKVNLGVGVYYNEEGRIPLLRAVAEAEKARIAAHAPRGYLPIEGIAAYDQAVQTLLFGAGSALQSEGRVVTAQALGGTGALKVGADFLKRLLPESIVAISDPSWENHRALFESAGFPVQNYRYYDGATHGVNRAGMLDDLKALPARSVVVLHACCHNPTGVDLGLDDWKAVLEVLREREHVPFLDIAYQGFGDGIEEDAAAVRLFAESGLPFFVSSSFSKSFSLYGERVGALSIVTGSKDEATRVLSQLKRVIRTNYSNPPTHGATVVASVLNSAELRALWEEELGEMRERIRGMRMAMVEQLAALGAKRDFSFVARQRGMFSYSGLSAEQVERLKSEFGIYAVSTGRICVAALNRSNLESVTRAIAQVL	PGPT0020310_724	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020310-tyrB-K00832	NA	NA
BMS010_06252	117			hypothetical protein	ATGAAGCTGCGGATGCCGCTCAGGCTCACCTGCCGCAGCCAGAATAACCGGGACCAAGCCCCGGACAACTTCCAAGGCCAAAAGAAAAAGCCCCAGGTTTTCACCCAGGGCTTTTGA	MKLRMPLRLTCRSQNNRDQAPDNFQGQKKKPQVFTQGF				NA	NA	NA	NA	NA
BMS010_06253	609	yibF_2	COG0625	putative GST-like protein YibF	ATGCAACTCATCTATGCGGCGGCATCGCCCTTTGCTCGGAAAGTCCGTGTCCTGGCCAGTGAAACAGGACTGCTGCCCGGCATTGAGCTGATCGGTACCGCCGTGCTGCCGGTTACCCTCAACGAACAGGTCAACCGCCTCAATCCGCTTGGCAAGATTCCGGTGCTGCTGACCGATGACGGCGAAGCGCTGTTCGATAGCCGTGTGATCTGCGAATACCTCGACAGCCTGCACGACCGCCCTCGACTATTCCCTTCCGAACCGGCCGTACGCTGGCCCACCCTCCGCCTGGCGGCCTTGGCTGACGGCCTCATGGAAGCAGCGCTCCTCGTGCGCTACGAGCAGGCCGTGCGCCCGTTCGAGCACCAGTGGGATGACTGGGCCGAAGGTCAACTCGGCAAGGTGCGTCGTGCACTGACGGCACTGGAAGCGCATGCCGAGCAACTGCAAGGTCCGTTGAACATTGCGCACATTGCCGTGGCTTGTGCGCTGGGATACCTGGACTTTCGTTTCGCCGAAATTGCCTGGCGGAAAACCCACCCTGGACTCGCGAAGTTTCAAGAAACGTTCGCGGCTCGCGAGTCGATGCAGACGACCATCCCAATATGA	MQLIYAAASPFARKVRVLASETGLLPGIELIGTAVLPVTLNEQVNRLNPLGKIPVLLTDDGEALFDSRVICEYLDSLHDRPRLFPSEPAVRWPTLRLAALADGLMEAALLVRYEQAVRPFEHQWDDWAEGQLGKVRRALTALEAHAEQLQGPLNIAHIAVACALGYLDFRFAEIAWRKTHPGLAKFQETFAARESMQTTIPI	PGPT0013170_19224	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS010_06254	468			hypothetical protein	ATGGTCATAGAGAAGAAGATCAATACGGCCTCCGTGCGCATGAAGCCGCTGGACCCGCTCGATCATTCCCTTGAGCTGTTGCACTTCGGTTTTCGTGGGTTGACGGTTGAGGCGGACCGGTTTCTCGAGACCCAGGGCCTGTCTCGTGTCCATCACCGCATCCTGTATGTCATCGCTCGCGCCGACGAAATCAACATCGGCGACCTGGCGTCCACGCTGGGCGTGAGCAAGCAGGCGGCACACCGGCCGCTGACCCACCTGTTCGAGCGTGACCTGGTTTGCTACACCCGCGAGCCGGGGCGCCACCGCTTCAAGCTGCTGGCACTCACTGAGCGCGGACAGGCGTTGGAACAGACCGCCTCCGAGCTGGAGCGGCAGGCCTTGCGTGACGCGTTTGCCCGCACCGATGCACAGGGGCAGGAGGCCTGGATGAAGGTGATGATGGCCTTGGCCGAGCGCCTGAACTGA	MVIEKKINTASVRMKPLDPLDHSLELLHFGFRGLTVEADRFLETQGLSRVHHRILYVIARADEINIGDLASTLGVSKQAAHRPLTHLFERDLVCYTREPGRHRFKLLALTERGQALEQTASELERQALRDAFARTDAQGQEAWMKVMMALAERLN				NA	NA	NA	NA	NA
BMS010_06255	1014		COG1063	putative zinc-binding alcohol dehydrogenase	ATGAAAGCGCTGATCGTCCGTGGCCCCGGTGAGTTGGTCTGGGAAGAACTACCCTCGCCTCCCCTAGCCAGCGCGCATAGCGCACTGGTACGGCCCATCGCCTCCGCATCCTGCGATCTCGATCGCCGGTTGATCGCCGGCGTCACGCCCTTCAAACCGCCCTTCGCGCTGGGCCATGAATGTGTCGCCGAAGTGCTGGAAGTGGGTGACGGGGTGGGAACCGTGCGACGTGGTGACCTGGTGTCGGTGCCGTGGAAGATTGCCTGCGGAGAATGCCCTCAATGCCACGCGGGACGGGCCACCGCCTGTACGTCGGTACCGCGCCATGCCGCCTACGGTGTGCCCGCTGGCGGCCACTGGGGCGGGTTGTTCTCGGAGGTGGTCCATGTACCGTTCGCCGACGCCATGCTGGTGCCCTTACCGCCTGGACTCAACCCGCTCGCGGTAGCCAGCGCCAGCGACAACCTGACCGACGCCTGGGTAGCCACCAGCCGCCCCATCGCCACGCGCAGCGACGCACGCGTGCTGGTGGTCGGCGGCACGGAAAGCCTCGGGGTGTTAGCGGTGCAAATGGCGGTTGCGGCTGGAGCGGCCAGCGTCGACTACCTGGACGACAGCGACTACCGCCGCGACCTGGCCCTACGCAGTGGCGCCAATGTCGAACTGGAACAAACGCTCGACGAGCGCTACGACGTGGTCGTCTCCGCCACACGCGACCCGCAGGCGCTGCACCGGGGACTACTGGCATTGGCACCCGGGGGACACTGCTCATGCATAGGCATCATCTTCGATGACCCGAAGATTCCCTTGTTCGGCATGTACCTGCGCGACGTCACCCTGTCGGTGGGTGTCTGCAACGTACGCCCCCACATTCCCAAGGTATTCGACCTGGTGGGCAGCGGGCGTTGCAACCCGTTGCTGGTGAGCCCGACCGTGGTGTCGTGCGAAGAGGCGACCGAGGCACTGGTCCAGCCCCTGGCCAAGTGCATCGTGGTGCGCGAGCGCATCACGTGA	MKALIVRGPGELVWEELPSPPLASAHSALVRPIASASCDLDRRLIAGVTPFKPPFALGHECVAEVLEVGDGVGTVRRGDLVSVPWKIACGECPQCHAGRATACTSVPRHAAYGVPAGGHWGGLFSEVVHVPFADAMLVPLPPGLNPLAVASASDNLTDAWVATSRPIATRSDARVLVVGGTESLGVLAVQMAVAAGAASVDYLDDSDYRRDLALRSGANVELEQTLDERYDVVVSATRDPQALHRGLLALAPGGHCSCIGIIFDDPKIPLFGMYLRDVTLSVGVCNVRPHIPKVFDLVGSGRCNPLLVSPTVVSCEEATEALVQPLAKCIVVRERIT	PGPT0008290_726	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008290-adh2_1-K18369	NA	NA
BMS010_06256	429			hypothetical protein	ATGAGTGACCAGACTTCGGGCCTGCATGCTCTGCGCGCGTTGATTCGTGGCGAGCTTCCCGCGCCCTCCATCGGCGAGACCATGGGCCTGACCGCCGTGGACGTGGAACCGGGGCGGATCACACTGGAGGCCCGTCCCGATGGGCGCCACCTCAACCCGGCGGGTGCCGTGCATGGCGGCTTCGCTGCGACCTGCCTAGACGGCGCCGCCGCACTGGCATTGTTCTCGACGCTGGAAACCACCACCGCCCATGCCACCGTGGACCTCAACGTCAAATACGTACGGCCCCTCCATGCCGGCGAGACTTACCAGGTCAGGGGATGGGTCGTGGAGCGCACACGAAGCCTGGCGATCTGCGATGCCCAGGTGACCGATGCGGCGGGCAAGCTCTGCGCCAAGGCCACCACCACGTTCGTCATCAGGAGCTAG	MSDQTSGLHALRALIRGELPAPSIGETMGLTAVDVEPGRITLEARPDGRHLNPAGAVHGGFAATCLDGAAALALFSTLETTTAHATVDLNVKYVRPLHAGETYQVRGWVVERTRSLAICDAQVTDAAGKLCAKATTTFVIRS				NA	NA	NA	NA	NA
BMS010_06257	456			hypothetical protein	ATGCCGGATCGCCACACGTTGATCGAGGTCGTGAAGGCCGCCTATGCGGCCTTTGCCGCCCGCCAGGCGCATAGCCTGTTACGCCTCTGCGATGTCGATTGCCGCTGGCAGGCTCCAGGGCTACCAGCGTTCATGCCGTGGGCCGGGCAGCACCGTGGCCATGCCGGAGTGCTTGAGTTCGTCAGACTTCTCGATAGGCACCTCGACTTCCTCGCGTTCGAACCCAGGTCGCTGGTAGTCGATGTGGAGCAGGGCCAGGTTGTGGCGTTCGGCGTAGCGCAGTGCTGCGTGAAAAGGACTGGGCGCCTCTACGTCAATCACTGGGCTCACCTGTTCACCCTGAGGGAAGGACTGATCTCGGCCTTCCGGGAATATCCCGACACCGCGGCACAACTGGCCGCCATCCACCCGGCCCTGCAGGGCGCAGCTTCAGGAGAGGACAATAGCCATGAGTGA	MPDRHTLIEVVKAAYAAFAARQAHSLLRLCDVDCRWQAPGLPAFMPWAGQHRGHAGVLEFVRLLDRHLDFLAFEPRSLVVDVEQGQVVAFGVAQCCVKRTGRLYVNHWAHLFTLREGLISAFREYPDTAAQLAAIHPALQGAASGEDNSHE				NA	NA	NA	NA	NA
BMS010_06258	909	nodD2_1		Nodulation protein D 2	ATGAATCGGAATGAACTCCGTCGCGTCGATTTGAACCTCTTGGTAGTCTTCGAGACTCTAATGTTTGAGAAAAACTTAACCCGTGCTGCGGAGAAGCTTTTCTTAGGGCAGCCAGCTGTCAGTGCAGCGCTTGCTCGCCTAAGAGATCTCTTTGACGACCCATTGTTGGTGCGAAGCGGCAGGGTGTTAGAGCCTACGGCTCGAGCCTTGGTAATCTTGAAAGAGTTGCAGCCAGCATTGGATACAATCTCAAGTGCCGTTAGTAGAGCTCGAGAGTTTGACCCAGCGACAAGTAGAGACACCTTCCGGATTGGTCTATCGGACGACGCCGAGTTTGGTCTCTTCCCTGAACTGCTGAAACATATCCGAGAAGAAGCTCCTCACGTGATAGTCGTGGTACGGCGAGTCAATTTTTTAAATTTGCCAAGCATGTTGGCGTCGGGGGAAATATCTGTTGGTGTGAGTTACACCAAGGACTTACCCGCTAATGCCAAACGTAAGAAGCTGCGTGAGATGCGCGTCAAAGTTTTGCGAGGGGACAACTCACAAGAGGCTCTGACTCTAGACGACTATTGTTCCCGCCCCCATGCGCTGGTGTCGTTTTCCGGCGACCTGAGCGGCAATATCGATAACGACTTGGCGAAGGTGGGTGGCTCGCGCCATGTAATACTGGCCGTACCTCAGTTCAGTGGGTTGCGATGTATTTTGCCGGGGACAGAAATACTGGCATCGGTGCCCGATTATGCAGCCGCGGCACTAGTGCAAGGTGCTGATCTGCGCGCGGATGATCCCCCGTTCCCCATCGTCACATCCGACCTGTGCATGGTATGGAGTGAGGGCACTGATAACGATCCTGCCGAACGTTGGCTCAGAGGAAAAATCACGGAGCATATGTCTGCCCCGGCGTAG	MNRNELRRVDLNLLVVFETLMFEKNLTRAAEKLFLGQPAVSAALARLRDLFDDPLLVRSGRVLEPTARALVILKELQPALDTISSAVSRAREFDPATSRDTFRIGLSDDAEFGLFPELLKHIREEAPHVIVVVRRVNFLNLPSMLASGEISVGVSYTKDLPANAKRKKLREMRVKVLRGDNSQEALTLDDYCSRPHALVSFSGDLSGNIDNDLAKVGGSRHVILAVPQFSGLRCILPGTEILASVPDYAAAALVQGADLRADDPPFPIVTSDLCMVWSEGTDNDPAERWLRGKITEHMSAPA	PGPT0028130_560	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexEF-OprN,PGPT0028130-mexT-K18297	NA	NA
BMS010_06259	522			hypothetical protein	ATGATCAATCCAAGCACAGCCATCCTGTTCGCCCAGTACAAGCGCTGGGCGGATCAAATGTTGTTCACAAGCCTTTCAGAGCTCCCTTCGGAAGAACTCACTAAAGAGCGCCCAGGTCCGCTCAAGAATTTCATAGGTATTCTGAATCACGTCTATGTGATAGACCGAATTTGGCAGGCAAACATTCTGCAACATGAGCACGGCCACAAGTCTCGAATGGAAATCCTTCACCCTACGCTTGCCGACCTGCGACGAGCACAGGAAGACATGAATGAGTGGTTCGTTTGCTGGGCGAAGCAGCAAACTGACGACTCCCTTGCACGGGCTTTGGACTTCCATTTCCTCTCTGGCCAGGCTGGCGTGATGACGGTCGGGACGATGTTTCTCCATGTTGCGAACCATGCCACCTTCCATCGTGGCTGGATAACGCAGCTGTATTTTGAGATTCCAGCTCCACCGCCTGTTACCGATCTCTGCGTCTACCTGACAGAGGTCAGTTGCGCCGCGACTCTCCCGACCTGA	MINPSTAILFAQYKRWADQMLFTSLSELPSEELTKERPGPLKNFIGILNHVYVIDRIWQANILQHEHGHKSRMEILHPTLADLRRAQEDMNEWFVCWAKQQTDDSLARALDFHFLSGQAGVMTVGTMFLHVANHATFHRGWITQLYFEIPAPPPVTDLCVYLTEVSCAATLPT				NA	NA	NA	NA	NA
BMS010_06260	1887	atm1_3	COG5265	ATM1-type heavy metal exporter	ATGTTTGAGCAAACTAAGCCCCTGGCCTACAGCCAGATCATGGGTTTCGTGGGACGGTTATGGATGAGGCGGCCAGGGCGATTCGTTCTAGGCGTATTACTCACCCTTGCCGCAACGGGTTTTGACCTCAGCATGCCTTGGGCCGCAGCAGCACTGATCGACAAGGTTGCGACAAACAGCGACGCGGCTAGCATCTGGCAAAGCTGGGGTTTACTGATTGGTGTCTTTGCCGGCTTCGCCATTAGCCGTAACGTGGCCCATCGTCTTTGGATTCCGCTGGCAGCCCGGAACATGCAAGTGGTGCTGCTGCAGGGAGTCGAACATGTGCTGGCGGCCCCCTTTGAATGGCACGTGACTCAATCAACGGGCGAGACAGTTCGTAGGTTGCGGCGGGCGATGGAGGGATACGATGCCGTAACTGATGCCGTCACCATCAACTTGGGGCCAGCTCTGATCGTGCTTCTGGGCATCGTTGGGATGATTGGCTGGCGCGAGCCGCTGGCTGGGCTTTTAGCCGCAGCGATCGCAGTAGCCTTCGTCCTCAGCAATCTGTTGGTGGGGATGCACTGGATTCGTCCAGCACACCTTCAGGCAAATACCTCTGACGGGCAACTAAGCGGTGCTGCTGCCGATCTGTTGGCTGCGGCTACCACTATCAAGAGCTTTCGCGCCGAGCGCCGTGAGCGCCTGCATATGGCCAAAGTCGCACAAGGCTGGGGAAGCGCATCCTCGTTGGAGTGGCGGCGATTCGTTGACCTGGGTTTGCTGCAAAACTTTCTGCTGCTCGCATTGCTGGCTGGGCTGAGTGGAGTCGCGCTGTTTGCCTGGTCGGAAGGCGCAACGGGGGCCGGAAATGTGGCTTTTGCGGTGACGTCTTTTCTTTTGATGGCAGGTTACCTCCGTGGATTCGGTGAAAGCCTGCGAGTTGCCCAGAAGGGTTTAGAGGATGCCGCGGACGCCTTGATGTTGAATGCCTTGCCTCAAGAGGGCGGAGCGCGTGGAGTGCACCGGACAGGGACACCCAGGCAAGGGAAAGTCTCGTTCGAAGAGGTCTCGTTCGCTTATTCGAGCACATCTAGACTGGTTCTCGACGAGGTTAGCTTGCAAGCTAATCCAGGAGAAACGATCGCTATTGCCGGTGCAAGTGGTTCCGGTAAATCGACCGTGGCTCGATTACTCCAACGCTTTCATACCCCTCAATACGGACGTATTTTTTTGGACGGTCGAGATGTTTCAGAGTTGTCTCTTGGAGAGCTGCGTAGCCAAGTGGCGGTAGTGGCTCAGGAGCCGGCGCTGTTGTATCGGAGCGTTCTGGACAACATCCGTTACTCGCGTCCCAAGGCAAGCGTGGATGAGGTGATCGCTGCTGCTACCGCTGCCTGCGCCCATGAGTTCATCATGCAGTTGCCGCAAGGCTATAACACCATCATTGGGGAGCACGGTGCGTTGTTATCCGGTGGCCAGCGGCAACGGATCGCGATTGCCAGGGCTCTCTTGGCGGACGCTCCAATCTTGATTTTGGATGAGGCGACGTCTGCTCTGGACCACCGAACAGAGGCACAGGTGCTGCTTGGAATTGCGGCGTTTCGACCCGATCAGACGCGTATCGTAATTGCACACCGACCTGCGGCTATCCAGTCGGCGGACAGGGTACTGTGGCTTGAAGATGGCAAGCTAATCGAGACCACCGCGCAGCACGTACTGGGTACAGAAATCACAGCGGCTGCCAGTTCACCTCGGAAGCCTTCTCACGCTCGTTTCGGAGAAAGTCGATCAGGGCCCTCAACTTTCCGGGAACTCGCCGTCTATCCGGATAGTAGAGATGCAGCGCGGGGAGAGCGGGGCTCCAGTCCGGCAGTAGCCGAATCAGCCGGCCTTGCGCCATGA	MFEQTKPLAYSQIMGFVGRLWMRRPGRFVLGVLLTLAATGFDLSMPWAAAALIDKVATNSDAASIWQSWGLLIGVFAGFAISRNVAHRLWIPLAARNMQVVLLQGVEHVLAAPFEWHVTQSTGETVRRLRRAMEGYDAVTDAVTINLGPALIVLLGIVGMIGWREPLAGLLAAAIAVAFVLSNLLVGMHWIRPAHLQANTSDGQLSGAAADLLAAATTIKSFRAERRERLHMAKVAQGWGSASSLEWRRFVDLGLLQNFLLLALLAGLSGVALFAWSEGATGAGNVAFAVTSFLLMAGYLRGFGESLRVAQKGLEDAADALMLNALPQEGGARGVHRTGTPRQGKVSFEEVSFAYSSTSRLVLDEVSLQANPGETIAIAGASGSGKSTVARLLQRFHTPQYGRIFLDGRDVSELSLGELRSQVAVVAQEPALLYRSVLDNIRYSRPKASVDEVIAAATAACAHEFIMQLPQGYNTIIGEHGALLSGGQRQRIAIARALLADAPILILDEATSALDHRTEAQVLLGIAAFRPDQTRIVIAHRPAAIQSADRVLWLEDGKLIETTAQHVLGTEITAAASSPRKPSHARFGESRSGPSTFRELAVYPDSRDAARGERGSSPAVAESAGLAP				NA	NA	NA	NA	NA
BMS010_06261	927	pgrR_9		HTH-type transcriptional regulator PgrR	ATGCGCCAGGACCAGTTAGATGGGCTGATTACCTTCATCACTGTCGCAGAAGAGAAGGGTTTTTCTGCCGCTGCGGTCAAGCTGGGCATCTCGCCTTCGGCAGTGAGCCAGAGTATTCGCAACTTGGAACAACGTTTGGGGCTGGTGCTTTTCAACCGGACGACGAGGAGCGTCAGCCTTACCGAAACCGGTGAGCGGTATCTGGAGCGAGTCCAACCTGCTCTGGAACAGCTAACCTCGGCTTCCTCGGATCTCGGGCGCGAAGCAGACCACCCAGCCGGTATGCTGCGCCTCAACGTCCCGCGCGCTGCGTACCTCATCGTCCTGCAGCCAATGCTACGCCGGTTTATGCTGGCCTATCCGGAGATTAGCCTGGAGATTCGTGCGGAGAACATGTTTGTGGACATCGTCAGCCAAGGTTTCGATGCCGGAATACGCTTTGGCGAGGCAGTGGAAAAGGACATGGTCGCGGTGCCAGTGGGCCCTGCTCTCCAGGTGCACGTCATCGCGTCTCCTGATTACGTGGCATCGCACGGCGTCCCCAAGCATCCACGCGACCTGCTGAGTCACAACTGCATAGGATTTCGCCACACCACCAGCGGGCAAATTGAACGCTGGTCATTTGCCCGTGGTGATGAAGTCTTCGAGCTACAGGTCAAGGGTCGGATGATAGTGAATGACTCCGAAATACTTGTACGGACTGCGCTTGATGGTCTTGGCATTGCCTACATGATCAACGGCTACCTCGAGCATCTCATGGCGCAAGGCCGGCTGATTCGGCTACTGCCGGACTGGAGCCCCGCTCTCCCCGCGCTGCATCTCTACTATCCGGATAGACGGCGAGTTCCCGGAAAGTTGAGGGCCCTGATCGACTTTCTCCGAAACGAGCGTGAGAAGGCTTCCGAGGTGAACTGGCAGCCGCTGTGA	MRQDQLDGLITFITVAEEKGFSAAAVKLGISPSAVSQSIRNLEQRLGLVLFNRTTRSVSLTETGERYLERVQPALEQLTSASSDLGREADHPAGMLRLNVPRAAYLIVLQPMLRRFMLAYPEISLEIRAENMFVDIVSQGFDAGIRFGEAVEKDMVAVPVGPALQVHVIASPDYVASHGVPKHPRDLLSHNCIGFRHTTSGQIERWSFARGDEVFELQVKGRMIVNDSEILVRTALDGLGIAYMINGYLEHLMAQGRLIRLLPDWSPALPALHLYYPDRRRVPGKLRALIDFLRNEREKASEVNWQPL				NA	NA	NA	NA	NA
BMS010_06262	891	pgrR_10		HTH-type transcriptional regulator PgrR	ATGAAATCCGTATCTCAGACCGATCTTTCGGTATTTCTATGTATCGCGAATCACCTCAGCTTTAGCCGAGCAGCCATTGAGCTGGGGTTATCACCGTCAGCTCTGAGTCACGCTCTGCGAGGCCTGGAGGCCCGTTTGGGGGTGCGGCTGTTCAATAGAACAACCCGTAGCGTCGCGCTGACTTCCGCAGGTGAACGTCTTTATTCGCGTGTGCGCCCTGCCTTTCTCGACATTGCTGACGCGCTTGAAGATCTCAATAACTTCCGAGACAAGCCGTCTGGCACATTGCGGATCACGGCCGGACGCCCGGCAACCCAGTTAGTGCTGCTACCACTGGCCAGCAAATTTCTGGAGAACTATCCAGACGTCCGCCTTGAGATCGTTGCTGACGACGCCTTGGTGGATGTCGTTTCCGGCGGGTTTGATGCGGGAGTCCGCTTCGGAGAACGGCTTGAGGCCGACATGATTTCACTCGCAATCGGCCCTAACATGCGTTCCGTGGTGGTTGGCTCCCCAGATTTCTTTGGACGATTTGCAAAACCCCAGAAGCCAAGCGACTTGCACGGGCTACCTTGTATCCGCCATCGATTCCCGAGCGGCACGTTCTATCGGTGGGAATTCGAGCGAGGGGGTATTGCGCAAGAAATCGAAGTGGATGGGCCTCTTACACTTGACGACGTCGGTCTCATGGTAGGCCCAGCCACACGTGGCGTCGGTCTAGCCTATGTCTTCGAGGAGATGGTGAGGGACCACCTAACGGATGGACGCTTGATTCAAGTGTTGGATGATTGGTGTCCGTATTACCCAGGCCTTCATCTTTACTACCCAAGCCGAAGGCACGTGCCTGCGACTCTTAAAGCGTTCATCGACTTTGCTCGCGAAACTCGCTAA	MKSVSQTDLSVFLCIANHLSFSRAAIELGLSPSALSHALRGLEARLGVRLFNRTTRSVALTSAGERLYSRVRPAFLDIADALEDLNNFRDKPSGTLRITAGRPATQLVLLPLASKFLENYPDVRLEIVADDALVDVVSGGFDAGVRFGERLEADMISLAIGPNMRSVVVGSPDFFGRFAKPQKPSDLHGLPCIRHRFPSGTFYRWEFERGGIAQEIEVDGPLTLDDVGLMVGPATRGVGLAYVFEEMVRDHLTDGRLIQVLDDWCPYYPGLHLYYPSRRHVPATLKAFIDFARETR				NA	NA	NA	NA	NA
BMS010_06263	831	hcaB_8		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGCGTACTTGGTTCATTACTGGAGCATCTCGTGGTTTCGGCGCCCTGATCGCCGAGAAGGCCCTGCGTGCTGGCGACGCGGTTATCGCCACTGCACGCAACCCTGAAGACGTAGTCGCCCGCTTAGGTGGCCATCCCAATCTGCTGGCTGTGCGGTTGGACGTCACTCGCGAAGCCGACGCTCATAAAGCTGTTTCCGAAGGCATCAAGCAGTTCGGGCGAATCGACGTTTTGATCAACAACGCGGGCTTCGGTGTGCTGGGTGCTGTAGAAGAGACCAGCGCAAGCGAGACCGAACGCCTTTTCTCTACCAACGTGTTTGGCCTTCTCAACGTCACCCGGGCAGTACTGCCTCACATGCGTCGTCAACGCTCAGGTCACGTTATCAATATCTCCTCCCTGGGCGGCTACCAAGCCTATGTCGGTTGGGGAGTTTATGGCTCCACTAAATTCGCAGTAGAAGGGATCAGCGAGGCTATGCATCAAGAGCTGGCGCCGCTGGGGATTCACGTGACGGTGGTTGAGCCTGGCTTCTTTCGCACCGACTTCCTGGATGAGCAGTCGCTCGTTAAAACTGCTCTCGAGCTGTCGGATTACGACGAGACCGTAGGGGCAATGCGCCGCTTTGCCATGAATGCTAACCATGCCCAGCCGGGCGATCCGACCAAGTTCGCAGAGTCGATCGTTCACTTGGTGAATTCAGCGAAACCGCCGCAACGGCTGCCTCTTGGAAGCGATGCCGTAGCACGCATCCAGGCCAAGAATCAGTTCGTTGAAGCTGAGCTGGCCGAGTGGAAGGAGCTGGCCCTCTCAACTGATTTCGCATCCTGA	MRTWFITGASRGFGALIAEKALRAGDAVIATARNPEDVVARLGGHPNLLAVRLDVTREADAHKAVSEGIKQFGRIDVLINNAGFGVLGAVEETSASETERLFSTNVFGLLNVTRAVLPHMRRQRSGHVINISSLGGYQAYVGWGVYGSTKFAVEGISEAMHQELAPLGIHVTVVEPGFFRTDFLDEQSLVKTALELSDYDETVGAMRRFAMNANHAQPGDPTKFAESIVHLVNSAKPPQRLPLGSDAVARIQAKNQFVEAELAEWKELALSTDFAS				NA	NA	NA	NA	NA
BMS010_06264	264			hypothetical protein	ATGAAGATGCTGATTTCGATAGTAGGGCTGTTGGTTGCCGGCCAAGTGGCTGCTGATGAGGTTGGGCATCACTTACTTCATCAAGTGCGCATGCTGGCTGCCCAGTATCAAGCCAGCCAGAATCTAGATATCGCTCGAGTCATCTCTCACAGCGAGATACCAGTCGTCTGCAAGGTCGTTCCTGTCGAGATGGAGTATGAGGACTCGAAGGGCGAACGCCATGTCCTTCGGTATCAGATAATGGGTACCGGCTGCTTGGGATGA	MKMLISIVGLLVAGQVAADEVGHHLLHQVRMLAAQYQASQNLDIARVISHSEIPVVCKVVPVEMEYEDSKGERHVLRYQIMGTGCLG				NA	NA	NA	NA	NA
BMS010_06265	210			hypothetical protein	ATGCCCTGGAGCTTCCCTGAAGCGATTCATCCGCTGGATGTCGACGATCCCGGCGTTTTGCTCGATGCGGACACCTTGGATGACTTATCCCACCATTCGCCAAATAGCGATGCGGTCGCTTTCGCGACCGCATCGTTGGCCCCGAACGCAGAGATGGCTCGGGATGCTGCTACTGCCGATCATCCCAAGCAGCCGGTACCCATTATCTGA	MPWSFPEAIHPLDVDDPGVLLDADTLDDLSHHSPNSDAVAFATASLAPNAEMARDAATADHPKQPVPII				NA	NA	NA	NA	NA
BMS010_06266	468	iorA_3		Isoquinoline 1-oxidoreductase subunit alpha	ATGGATCATAAGCTCATGATCAACGGCGCCGAGGTTCAGGTGGACGTCGATCCTGACACCCCATTGCTATGGGTTCTGAGAGACGTTCTAGGCATGACGGGAACGAAGTTTGGCTGCGGGATGGCGCTTTGTGGAGCCTGTACTGTCCATATGAACGGCAACGCCATTCGCTCCTGCATCATGCCCGTGAGCGCTCTCGTCGGCGCGGAAATCACCACGATTGAAGCCATTGGTGAAACGCCGGTAGGCAAGCGCGTCCAAGAGGCCTGGCTCGCCCATGAAGTGGTGCAATGTGGCTACTGCCAATCCGGTCAGATTATGTCCGCAACCGCTTTGCTCAGAGCCAACTCGAATCCAAGCGATAGCGAGATTGATGGCGCTATGGCCGGCAATATCTGTCGCTGTGGCACCTACGTAAGGATTCGCGAGGCAATCAAGGCGGCTTCCGAGCCGAGAGCGGAGGGCTGA	MDHKLMINGAEVQVDVDPDTPLLWVLRDVLGMTGTKFGCGMALCGACTVHMNGNAIRSCIMPVSALVGAEITTIEAIGETPVGKRVQEAWLAHEVVQCGYCQSGQIMSATALLRANSNPSDSEIDGAMAGNICRCGTYVRIREAIKAASEPRAEG	PGPT0009812_109	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-QUINOLINE_RESISTANCE,PGPT0009812-iorA-K07302	NA	NA
BMS010_06267	2175	iorB_3		Isoquinoline 1-oxidoreductase subunit beta	ATGACCGATGCACTTCGGAGCGGAGATGCTTCTGACGGTATCAGCCGCCGTGGGTTCTTGAAGGCGGGTATGGCGGTTGGCGGTGGGCTTCTGATCAGCTTCACATTGCCAGGCCTGATGCGAGGAGCTCTCGCCGAATCGGGAGAGTTCACGCCAAATGCTTATGTGCGGATAGACCGCGACGGTCGAGTCTTCCTCACCATACAACCCGTTGAGATGGGGCAGGGCACGTACACCTCTATGCCAGCCCTCATTGCAGAGGAGCTGGAAATTGGCCTGGAGCGTGTCATTGTTGAGCACGCTCCGGCAGACGATAAGCGATATGCCAATCCTGCGCTTGGTTTCCAGGTAACCGGTGGTTCGACTTCTGTTCCTGCCAACTGGAAGCCCTTACGCGAAGCTGGAGCCGTTGCTCGGGTCTTATTGGTTTCAGCGGCAGCGAAGGAATGGGGGGTATCTGCAGATAGCTGTAAAGCGGAGAACGGCGAAGTCTTGCACCCCGACAGCGGTCGTAAGCTTGGATATGGCGCGCTTGTAGATGCAGCGGCTACGTTTGCTGTTCCAGAAAACGTTCCGCTCAAGGATCCGAAGAACTTCAAGCTGATAGGAACCCCGGCGAAGCGCACCGACACGCCGGACAAGGTTGTGGGCAAGGCGGTGTTCGGTATCGACGCTCGGCCCGAGGGCATGAAAATCGCCGCGATAATGTTGTGCCCGGTACTAGGGGGCACACTTGATGATGTGGATCCCGCGCCTGCGCTTGCGATCAATGGAGTTCGCCAAGTATTACGCACTGACAATTCAGTGGCTGTCGTAGCGGATCATACGGGCGCGGCTCGTAAAGGCCTCGCAGCCTTGAACATCAAATGGAATGGTGGAGCAAACTCCTCCGTTTCCAGCGAGCAGATGTTTCAGAAAATGAAAGAAGCGTCTGAGCAACCAGGACTCCAGGCCCGCAGCGAAGGCAATGTTGAGGAAGCCTTTGCCAAAGCAGCGCAAAAGCTGGAAGTTACTTACCAGATCCCATTTCTTGCTCATGCCTGTTTAGAACCAGTGAACTGTACCGTTCATGTGAGGAAGGATTCCTGTGATCTTTGGTTGGGTATTCAAGTACCAGCTCGCGCTAAGTCGGTCGCGGCGCAGATCACCGGTCTTCCGGAAGAGTCCGTACAGGTGCACAACCACCTCATTGGAGGAGGATTCGGGCGGCGTCTTGAAGTCGATTTCGTGGCCGACGCGGTCAAAGTCGCCAAGCAGGTGGATTTTCCTCTAAAGGTCATTTGGTCACGCGAGGAGGACACTCGGCATAGCACCCTCCGCCCCGCACATTACAACCATCTCAGCGCGGCTTTGGACAATGAAGGACGGCCGATCGCATGGACCCACAAGGTTACTGGCGCCTCCATATTGGCACGCTGGCTACCGGCGGCGTTCAAGGATGGTATTGATGGTGACGCAGTACGAGACGCTTGTGGTCCTTATGCCTTTCCCAATTTGAGTGTGCACTACGTTCGCCACGAGCCGCCGAATGGAATTCTTCCCGCGTTCTGGCGTGGAGTCGGGCACACCCAGAATGCATTCATGGTGGAAGGGCTGCTCGACGAACTGGTGCATCTGGCCAAAGCGGATCCCTTTGAGTATCGATATCCGCTGTTGAAAGACCATCCACGTGCCGTTGAGGTATTGAAGCTTCTGCGAGAAAAATCGGGGTGGGACACGCCGTTGCCGTCCGGGCACGGACGTGGGCTCGCGCTCACGTACTGCTTCAGCACCTATGCTGCGCAGGTCGCGGAAGTGAGCGTTGACGCTAATGGTGAGGTCCGGGTACACAAGGTCACTTCCGTGGTTGACTGCGGTATCGCCATCAACCCTGACAGTGTGGTTGCGCAAGTCCAGGGTGGGACCATCTTCGGCCTGACAGCAGCGCTTTTCGGGAATATCACCTTTAAAGACGGTCGTATGGAGCAGGGGAATTTTGATACTTATCGCCTGCTCAGAATCAACGAAGCACCTGTAATAGAGACTCACCGAATCGAGAGTCAGGAAGCCCCAGGAGGTTTAGGCGAAGTATCGACTGTGACTATCGCACCCGCAGTGGTGAATGCCATTTTCGCCGCTACGGGCAAGAGGTTGCGCAGTTTGCCAATCAACTCAGGTGAACTCCGTCCAGCCTGA	MTDALRSGDASDGISRRGFLKAGMAVGGGLLISFTLPGLMRGALAESGEFTPNAYVRIDRDGRVFLTIQPVEMGQGTYTSMPALIAEELEIGLERVIVEHAPADDKRYANPALGFQVTGGSTSVPANWKPLREAGAVARVLLVSAAAKEWGVSADSCKAENGEVLHPDSGRKLGYGALVDAAATFAVPENVPLKDPKNFKLIGTPAKRTDTPDKVVGKAVFGIDARPEGMKIAAIMLCPVLGGTLDDVDPAPALAINGVRQVLRTDNSVAVVADHTGAARKGLAALNIKWNGGANSSVSSEQMFQKMKEASEQPGLQARSEGNVEEAFAKAAQKLEVTYQIPFLAHACLEPVNCTVHVRKDSCDLWLGIQVPARAKSVAAQITGLPEESVQVHNHLIGGGFGRRLEVDFVADAVKVAKQVDFPLKVIWSREEDTRHSTLRPAHYNHLSAALDNEGRPIAWTHKVTGASILARWLPAAFKDGIDGDAVRDACGPYAFPNLSVHYVRHEPPNGILPAFWRGVGHTQNAFMVEGLLDELVHLAKADPFEYRYPLLKDHPRAVEVLKLLREKSGWDTPLPSGHGRGLALTYCFSTYAAQVAEVSVDANGEVRVHKVTSVVDCGIAINPDSVVAQVQGGTIFGLTAALFGNITFKDGRMEQGNFDTYRLLRINEAPVIETHRIESQEAPGGLGEVSTVTIAPAVVNAIFAATGKRLRSLPINSGELRPA	PGPT0009811_1645	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-QUINOLINE_RESISTANCE,PGPT0009811-iorB-K07303	NA	NA
BMS010_06268	714			hypothetical protein	ATGCGCAATGAAGAACTCAAGGCCTTGTTCGACCAGCAGGCCGCCGGCTATGACGAGCAGTGGGCGGGGATGGCGCCCATTCGCGACGCTCTGTATTTTCTGCTCGACTCGCTCTTCATAGGCTTGCCGGAAAATGCCCGGATACTTTGCGTCGGCGTGGGAACCGGTGTAGAGCTGGCCCATTTGGCCGGGCGTTTCCCCGGCTGGCAATTTACAGCCGTCGATCCTTCGGGCGCCATGCTCGATATCTGCCGTCAGCGGGCCGCACAGGGTGGTTTCCTCTCGCGTTGCCGTTTTCACGAAGGCTATCTCGACACGCTGCCCGCCGAAGCCAACCACGACGGTGCTACCTGTTTTCTGGTGTCGCAATTTTTGCTCGAACCGCAAGCGCGCATTGCCTTCTTCCATGAGATCGCCCGTCGGCTGTCACCGGGCGGAGTGCTGGCAAATGCCGATCTCGCCTCTGATACCGAGTCTCCTGCCTATGAGGCGCTGCTACGCAACTGGATGGCGCTGATGTCCTCAGCCGGCGTGCAACCGGAGATGCTGGAACGGGTGCGGGCCGCCTATGCCCGCGATGTGGCAATCCTGCCGGCGCCGCAGGTCGCCGGCATTATCGAGGCGGCGGGGTTCGAGGCGCCGGTGCAGTTCTTTCAGGCCGGACTGATGCATGGGTGGTTCGGTGCGCGGAAGGCAAACATCGAGGTGCGTTAG	MRNEELKALFDQQAAGYDEQWAGMAPIRDALYFLLDSLFIGLPENARILCVGVGTGVELAHLAGRFPGWQFTAVDPSGAMLDICRQRAAQGGFLSRCRFHEGYLDTLPAEANHDGATCFLVSQFLLEPQARIAFFHEIARRLSPGGVLANADLASDTESPAYEALLRNWMALMSSAGVQPEMLERVRAAYARDVAILPAPQVAGIIEAAGFEAPVQFFQAGLMHGWFGARKANIEVR				NA	NA	NA	NA	NA
BMS010_06269	861			hypothetical protein	ATGCTCAGGATTCACTTCGTTGACAACCGCCAGGGCCCCGTCTGGCTTGCCGATGAACACTTCACCCTCGGTGCGGACAGCCGCAACAACCTGGTGCTCGACGCCCCCGGTGTCGGCGCCTTCCACGCCGAGCTGCGCCAGGAAAACCGCTTCTACTACCTGACCGACCTGGGCACGCCCGGCGGCACCTACGTCAACGGCGAGAAGATCGGCGAGCACTACCAGATCCGCTCCGGCGACCGCGTGCGCCTGGGCACGCTGGAGCTGACCATCGACGACCCGGCCCGGACCGGCCCCAAGGTGGCCAACGCGCCGCGCTGGCTGCTGCAGGTGGTGGAAGGCGAAAACCAGGGCCACAAGTACCACATCACCGGCTCGATGACCTTCGGCCGCTCGGTCAAGTGCGAGTTGTGCTTCAGCGACCCGGAGCTGTCGCGCCGGCACGCCGAGTTCTACCTCAAGGGCGACAACCTGGAAGTGAAGGACCTGGCCTCGGCCAATGGCATCCAGGTGAACCGCCAGAAAGTCATCGCCGCCGTGCTGCAACCGGGCGACCTAGTGCAACTGGGCAACACCCGTCTGTTGGTCATCGGCCCCAAGGTGGCCATGCCGGAAGCCGTCGATGAGGACGCCACGGTGTTCATGCGCGCCGCCGACCTGCCCGCTGCCGTCGCTGCCCAGCCGACACCGCCCCGCCCGGCCACACCCAACCCCCTGCGCACGGCCTCAGCGAGCGGCGCGGCACCCAAGCCGCCCGCGTCGGCAACCAGCGCGAAGAAATCCGGCTCGCGCCTGGGCCTGCTGCTGGGTGGCCTGGTATTGGTCGTCCTGGCGGGCGTGATTGCCCAGCGGATGCTGTAG	MLRIHFVDNRQGPVWLADEHFTLGADSRNNLVLDAPGVGAFHAELRQENRFYYLTDLGTPGGTYVNGEKIGEHYQIRSGDRVRLGTLELTIDDPARTGPKVANAPRWLLQVVEGENQGHKYHITGSMTFGRSVKCELCFSDPELSRRHAEFYLKGDNLEVKDLASANGIQVNRQKVIAAVLQPGDLVQLGNTRLLVIGPKVAMPEAVDEDATVFMRAADLPAAVAAQPTPPRPATPNPLRTASASGAAPKPPASATSAKKSGSRLGLLLGGLVLVVLAGVIAQRML				NA	NA	NA	NA	NA
BMS010_06270	1560	pknD_4		Serine/threonine-protein kinase PknD	ATGGAGAGGACGCTGCAAATACCCGGTTATCGCCTGCACAAACGCCTGGGCAAGGGCGGCATGGCGGAGGTCTACCTGGCGACCCAGTTGTCGCTGGACCGGGAAGTGGCCATCAAGGTACTGCTGAACACCGAGGACGAAGCCTTCACCGAGCGCTTCATCCAGGAGGGGCACATCATCGCCTCCCTGCACCACCCTGCCATCATCACCATCTATGACATCGGCCAGATCGGCGACGGCCGCCACTACCTGGCGATGGAATACGTCGGCGGCGGCGACCTGGTGCAGTACCGCGGCACCGTGCTCTCCCCCTCGCGGGCGCTGGATATCGTCCGCCAGTTGGCCGGCGGCCTGGCGGTGGTGCACGACAACGGCTTGGTCCACCGCGACGTGAAACCCGCCAACATCCTGTTCCGCAACGACGGCAGCGTGGTGCTCACCGATTTCGGCGTAGCCAAGGCCGTGGAACTGGACAACGAACTCACACACTTCGGCGTCGCGGTCGGCAGCCCGGCCTACAGCAGCCCGGAACAGGCGCGCTGCGAACCGCTCGACGGGCGCAGCGACATCTATAGCCTCGGCGTCATCCTCGCCGAGATGCTCACCGGGACCAATCCGTTCCGCGCCGGCAGCTACCCCCAGACCGTGCTCAACCACATGCAGATGCTGCCGCCGCAATTGCCGCCGGCCCTGGCCGCGTATCAGCCACTGCTCGAGCGCATGCTGGCCAAGCAGCCGGACGAGCGCTTCGCCAACTGCCGGGAACTGCTGGAGGCCATCGAAGAAGCCACCGAGCCGGACATGGACATGACCCGGATCGCGCCAGCCGTGGCCCTCAAGCCACCGGTCGCCAGCCCGCGCGCCCGTCGCCCCGTGCGACGCTGGCTGACCGCCACGGTCGCCACGCTGCTGCTGGCGGCGGCATTGGGTGTCGGCGGCTTCAAGTGGTACCAACAGCATCGCATCCATGACTACCTGGCCCGCGCCGAGCAGAGCCTGGTCAGCGGCAGGCTGGTGACGCCGGCCCAGGACAACGCCGACTACTGGTTCCGCCAGGCCCTGCGCCTGGATACCGAGAATGCCCAGGCCATCGATGGCCTGAAGCGGGTTCTGGAGGCGCGCATCGCCGGTTATCTGGAGCTGGCCGAGACGCGTCTCGCCGAGGGCCGGTTGATCGAGCCGGTGGAGGACAGCGCGCTCTATTACTACCGTCAGGTGCTCGGCTGGGTGCCGGACCATGCGGGCGCTCTCGACGGCATCCATCGCATCGCCCAGCGCTATGTCGACCTCAGCGAAGCCGCCTACCAGCAGCGCGAATACGCCCAGGCGCTGGAGCATATCCAGCAAGGGCTCGACGTCGAACCCGACAACCAGACCCTGCTCGCGCTGCGCGATGACCACGCCCGGCGCGTTGCCCAGGCCCAGGCGCAAGCCCGCGCGAACCAACTGGCGACACGGGCACCGGCTCCGTCATCCACACGCAGCACGCGCCCCGCCAGCCAGCCGGCGCAAGAGCAGAGCAATCCGATCAAGCGCCTGTGGAACCGAATCTTCCAGTGA	MERTLQIPGYRLHKRLGKGGMAEVYLATQLSLDREVAIKVLLNTEDEAFTERFIQEGHIIASLHHPAIITIYDIGQIGDGRHYLAMEYVGGGDLVQYRGTVLSPSRALDIVRQLAGGLAVVHDNGLVHRDVKPANILFRNDGSVVLTDFGVAKAVELDNELTHFGVAVGSPAYSSPEQARCEPLDGRSDIYSLGVILAEMLTGTNPFRAGSYPQTVLNHMQMLPPQLPPALAAYQPLLERMLAKQPDERFANCRELLEAIEEATEPDMDMTRIAPAVALKPPVASPRARRPVRRWLTATVATLLLAAALGVGGFKWYQQHRIHDYLARAEQSLVSGRLVTPAQDNADYWFRQALRLDTENAQAIDGLKRVLEARIAGYLELAETRLAEGRLIEPVEDSALYYYRQVLGWVPDHAGALDGIHRIAQRYVDLSEAAYQQREYAQALEHIQQGLDVEPDNQTLLALRDDHARRVAQAQAQARANQLATRAPAPSSTRSTRPASQPAQEQSNPIKRLWNRIFQ	PGPT0025905_242	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_REGULATION,PGPT0025905-ppkA-K11912	NA	NA
BMS010_06271	774	prpC_4	COG0631	Protein phosphatase PrpC	ATGCTTCGTATCGCCTCTTCCTCGTTGCTGGATTTCGCCGGGCTCACCTCGCCCGGCCAGATGCGCGAGCACAATGAAGATGCCCTGCTGTGCTGCCCGGCGCTCGGCCTGTGGGCGGTGGCCGATGGCATGGGCGGCCACCAGTGCGGCGAGGTCGCCAGCGCCCTGGCGCTGCAGGCGCTGGAGCAGGCGGTCGAGCGTGGCGAACGACTGGAAGCCGCGGTCCACAGCGCCAACCGAGCCGTGCTCGAAGCGGCACAGGACGGCATGGGCACCACCATCGTCGCCGTTCGTTTCGAGGGCATCGACTTCGAACTCGCCTGGGTCGGCGACAGCCGCGCCTACCGCGTCACCGCCGACGGCATCGTTCCCCTCAGCCGCGACCACAGCTGGGTGCAGACGATGATCGACGCCGGCGAGCTGGACCCTGCCGAAGCCCAGACGCACCGCTGGCGCAACGTCATTCTGCAATGCCTGGGCCGCGACCAGGCGCTCGACGTGGGTGTCCTGAGCGGCACCCTGCAGGCCGGCGAGGTATTGCTGCTGTGCAGCGACGGCCTGACCGGCGAACTCAGCGAAGCGCAGATCCATGCCCAGTGCACCGCCGCCGAGACGCTGGAAGACATGGTCGAGCAATTGATAGGACAGGCCAACGCGCATGGCGGCCGCGACAACATTTCCTGCATCGTGCTCGGACACAGCCTGCCGCCGCCGTCGGCCGAACCACCCCGGAACGGGCTCTTCCACAAGCTGTTGAAACCTTTCAAGTCGTAG	MLRIASSSLLDFAGLTSPGQMREHNEDALLCCPALGLWAVADGMGGHQCGEVASALALQALEQAVERGERLEAAVHSANRAVLEAAQDGMGTTIVAVRFEGIDFELAWVGDSRAYRVTADGIVPLSRDHSWVQTMIDAGELDPAEAQTHRWRNVILQCLGRDQALDVGVLSGTLQAGEVLLLCSDGLTGELSEAQIHAQCTAAETLEDMVEQLIGQANAHGGRDNISCIVLGHSLPPPSAEPPRNGLFHKLLKPFKS				NA	NA	NA	NA	NA
BMS010_06272	912			hypothetical protein	ATGCCCAAGAAGACGCCTCTGAGCCAAGTCAGCGATTTCGATCTGCGCTTGCTGCGACTGTTCAAGACGGTAGCCGAGTGCGGCAGCTTCGCGGCTGCCGAGGGAGCGCTGGGTATCAGCCGCTCGGCCATCAGCCTGCACATGAGCGACCTGGAGAAACGCCTCGGCATGCGCCTTTGCCAGCGGGGCCGGGCCGGTTTCGCCCTGACCGACGAAGGCCGGGAGGTGCTGCGGGCGGGGGAAATGGTGCTGGTGGCCATCGAGAGTTTCCGCAGCGAGGTCAACCTCATGCACCAGCAGCTGCGCGGCGACCTCAACATCGGCATCGTCAATAACCTGGTGACCCAGCCCAGGATGCGCATCACCCGGGCGCTGAAAGCCCTGCGGGCGGAAGGGGCGGGGGTGAAGATCAATCTCAGCATGAGCACGCCGGGCGAGATCGAGCGCGGCCTGCTGGACGGGCGCCTGCACGTCGGCGCGCTGCCGTTGATCACGCCGTTGTCCGGTCTCGAATACAGCCTGCTCTACGAGGAACGTTCGAACCTGTACTGCAGCCACGAGCACCCGCTGTTCGCACGGGCGGCCGAGGTCAGCAACGAGGATCTGAAGACGGCGGATGCCGTAGTACCTAATTACCGCCTGACGGCCGAGGCGATCGGCCTGCACCAGTTGCTCAACTTCGCCGCCTCGGCCACGGACCGCGAAGGCATCGCCTTTCTCATCCTGACCGGCAGTTACATCGGTTTCCTGCCGGATCACTATGCGGCGGCCTGGGTCGAGAAGGGCTTGATGGCACCTCTTGGGCCGGACCGCCTGTTCTTCGACGCCAAGCTGGCCATCGCGACCCGCAAGGGCCGCCGGCAGAACCTGATCCTGGAGCGTTTCCTCGACGCTCTGGAACGCACGCGCTAG	MPKKTPLSQVSDFDLRLLRLFKTVAECGSFAAAEGALGISRSAISLHMSDLEKRLGMRLCQRGRAGFALTDEGREVLRAGEMVLVAIESFRSEVNLMHQQLRGDLNIGIVNNLVTQPRMRITRALKALRAEGAGVKINLSMSTPGEIERGLLDGRLHVGALPLITPLSGLEYSLLYEERSNLYCSHEHPLFARAAEVSNEDLKTADAVVPNYRLTAEAIGLHQLLNFAASATDREGIAFLILTGSYIGFLPDHYAAAWVEKGLMAPLGPDRLFFDAKLAIATRKGRRQNLILERFLDALERTR	PGPT0003120_664	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ACINETOBACTIN_METABOLISM,PGPT0003120-bauR-K21699	NA	NA
BMS010_06273	846	nocT		Nopaline-binding periplasmic protein	ATGGCTAGGTTCTTTTCCCGCTCCATCCGCAATGTGATCGCTTGCGCCACGGCAATCGGTGCCTTGCTCTCCCAGGCTCCCGCTCAGGCGGCCGAAACACAGATCTGGAAGGACATCCAAAGCGCCGGCGTGCTGCGTTGCGGCGCGGCCGTGGCGGCTCCCTACGTCATGCGCGACGTTGCGACCGGCCAGTACAGCGGATATTTCGTGGATTTGTGCCGCGATTTCGGCGAGAAGGTACTGAAGGTCAAGGTTGAATTCGTCGACACCAATTGGGACAACCTGGTGGCGGGCCTGCAGAGCGGCAAGTGGGACCTGGCCATGGCCCTGAACCAGACACCGGAGCGGGCCCTGGCGGTGTCCTTCTCGGCACCGGCGACCGACTACCAGGTGTCCCTGCTGGTCAACAAGGACAACCCGAAGTTCAGCGGCGCCGGCAACAGCGTGGCCGATTACGACAAGGAAGGTGTCACCTTCGCCGTGATGTCCGGCACGGCGCAGGACAAGGCGATCTCCGCAGTGGTCAAGAAGGGCAAGATCATGCGCCTGCCCGGCATGGATGAGACCCGCCTGGCGGTGATGTCCCGTCGCGCCGATGTACTGGTCGATGCCAGCGATACCAACCATCTCTTCGCCGTGGCCAACCCCGACTGGGCCAAGGAAGTCCTGCCTGAGCCGGCGCTCGCCAAGCAGGGTGTGGCCTTCGGCCTGCGCCGCGACGCCAGTGCCGCCGACCTGCAGGTGCTGAACATCTACGTCACCCAGCGTCGCGAGACCGGCGAGATCGACGCCCTGGTCGACAAGGCCTCCAGACAGGCCAACGCCGCCGAAAAATCCGCCCAGTGA	MARFFSRSIRNVIACATAIGALLSQAPAQAAETQIWKDIQSAGVLRCGAAVAAPYVMRDVATGQYSGYFVDLCRDFGEKVLKVKVEFVDTNWDNLVAGLQSGKWDLAMALNQTPERALAVSFSAPATDYQVSLLVNKDNPKFSGAGNSVADYDKEGVTFAVMSGTAQDKAISAVVKKGKIMRLPGMDETRLAVMSRRADVLVDASDTNHLFAVANPDWAKEVLPEPALAKQGVAFGLRRDASAADLQVLNIYVTQRRETGEIDALVDKASRQANAAEKSAQ	PGPT0020800_5669	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_06274	819	glnQ_9		Glutamine transport ATP-binding protein GlnQ	ATGAAAGCTCCCTATCTGGTGGCCGCCCAGCCACAGCCTGCGCTCGCTTCCGATTCGGCTGCCGACTCCTTCATCCAGCTGCGCAACGTCTGCAAATCCTACGGCGAGCAACTGGTGGTGATGGACAACCTGAACCTGGACATGCGTGCCGACGACCGCCTGGTGATCATCGGCCCGAGCGGTAGCGGCAAGAGTTCTCTGTTGCGTGTGCTGATGGGCTTGGAAGGCATACAGGGCGGGACCATCCATTTCCAGGGCAAGCCGTACATCAACGGTGCCACCGTGCGCGGCAAGCCCCTGGACGAAAACCTGCGCACCCAGATCGGCATGGTGTTCCAGCACTACACGCTGTTCCCGCATCTGTCGGTGCTGAGCAACCTGATCCTGGCGCCGACCAAGGTGCATGGCCTGTCCAAGGCCGAGGCCACCGCGCGCGCCCGCACGTACCTGGCGCGCCTGGGCCTGGAAAGCAAGTTGAACGCCTATCCCAGCCAGCTCTCCGGCGGCCAGAAGCAGCGCGTCGCCATTGCCCGTGCGCTGATGCTCGAGCCCAAGCTGATGCTGTTCGATGAAGTGACCTCGGCCCTCGACCCGGAGATGGTCATCGAGGTGCAGAACGTGATGATGCAACTGGCCGAGCAGAAGATGGCCATGATCATCGTCACCCACGACATGCACTTCGCCCGGCATATCGCGACCCGCGTGGTGTTCTGCGCCAACGGCAAGGTGGTCGAGCAGGGCCCGCCGGAGCAGATCTTCACCCAGCCCAAGGAAGCCCGTACCCGCGAGTTTCTCGAAAAAGTCCTGCATCTGGACTGA	MKAPYLVAAQPQPALASDSAADSFIQLRNVCKSYGEQLVVMDNLNLDMRADDRLVIIGPSGSGKSSLLRVLMGLEGIQGGTIHFQGKPYINGATVRGKPLDENLRTQIGMVFQHYTLFPHLSVLSNLILAPTKVHGLSKAEATARARTYLARLGLESKLNAYPSQLSGGQKQRVAIARALMLEPKLMLFDEVTSALDPEMVIEVQNVMMQLAEQKMAMIIVTHDMHFARHIATRVVFCANGKVVEQGPPEQIFTQPKEARTREFLEKVLHLD	PGPT0020790_855	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020790-ABC_PA_A-K02028	NA	NA
BMS010_06275	672	gltK	COG0765	Glutamate/aspartate import permease protein GltK	ATGAATTACCAATTCGACTTCCATTTCCTGAGCGGCAGTTCCGCTGCGCTCTGGGAGGGCCTGAAGGTCACCCTGGAGCTGGCCCTGGTCTCCAACCTCATCGGCCTGGTCTGCGGTTTCGGCCTGTGCCTGATGGCGATGAGCCGGTGGTTCTTCCTACGCTGGCCGGCCCAGTTGTTCATCGAGTTCTTCCGCTGCACACCGGCGCTGCTGCAGATCGTCTGGTTCTTCTACTGCGTGCCGATGCTGTTCAACGTCTTCATCGATCCGGTCGCCATGGGCTTCCTGGCACTGGGCCTGAACCTCACCGCCTTCAACGCCGAAGCCTACCGGGCCGGGGTCCAGGCGGTACCGCGCGAGCACCTGGACGCCTGCGTCGCCCTCGGGCTGCGCCGCTGGCAGCGCACGTTGTACGTGGTGCTGCCGCAGGCCCTGCGCAGTGCACTGCCGGTACTCATGACCAACGGCATCGGCACCCTGCAGCAGAGCGCGCTGGTCGCCATCGTCGCGGTGGCGGACCTGATGTACGTGGGCAAGAGCCTGGCCACCGAGGCGTACCGGCCGCTGGAAACCTACTCGCTGATCGCCCTGATCTATTTCGCCCTGTCGCTGCCGATCGCCCAGTTGGCGCAGATCATCGAGCGGCGCCAGGACGCCGCGACCCAGCGCTGA	MNYQFDFHFLSGSSAALWEGLKVTLELALVSNLIGLVCGFGLCLMAMSRWFFLRWPAQLFIEFFRCTPALLQIVWFFYCVPMLFNVFIDPVAMGFLALGLNLTAFNAEAYRAGVQAVPREHLDACVALGLRRWQRTLYVVLPQALRSALPVLMTNGIGTLQQSALVAIVAVADLMYVGKSLATEAYRPLETYSLIALIYFALSLPIAQLAQIIERRQDAATQR	PGPT0020795_7342	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
BMS010_06276	666	yecS_8	COG0765	L-cystine transport system permease protein YecS	ATGACCATCGACTTCTCCATCGTGTTGTCCTACTGGCAGGTGCTGCTCAAGGGCCTGTCGCTGACCATCGTCATCACCCTCGGCTGCGCCCTGATGGGCAGTCTCGCCGGGTTCCTGCTCAGCCTGCTGCGCGTCTCGCGGATCTGGCTGCTGGCGTTGCCGACGAAGCTCTACGTGGAGTTCTTCCGTGGCACGCCGCTGCTGATCCAACTGTTCTGGGTGTTCTTCTGCTTCCCGGTGGTGTTCGGGCTTTCCATCCCACCCTACGTCTCGGTGGTGATCTCGCTGACGCTCTACATGGCCGCCATCACCAGCGAGACCTTCCGCGGCGCGCTGAAGTCCATCGCCGCCGAGCAGCACGACGCCTGCACCGCCCTGGGCCTGACCGCGCGGGTCAAGGTGCTCTACGTGATTTTCCCGCAGGCACTGCTGCGGGCGATTCCGCCGCTGCTGTCGAACGTGGTCAGCCTGTTCAAGGAGAGTGCATTGATCTCCTCGGTGGGCATCGCCGACCTGATGTTCGTCGGCCAGAACATTTCCAACAGCACGGCACGCCCGGTCGAGTTCCTCTCCGCGGTCGCCGTCATCTATTTCCTCGTGGCTTTCCCGCTGACCCGTCTGGTCGGCGTGATCGAAGCCCGCATGCTCCGGCGCTACGCCTACTAA	MTIDFSIVLSYWQVLLKGLSLTIVITLGCALMGSLAGFLLSLLRVSRIWLLALPTKLYVEFFRGTPLLIQLFWVFFCFPVVFGLSIPPYVSVVISLTLYMAAITSETFRGALKSIAAEQHDACTALGLTARVKVLYVIFPQALLRAIPPLLSNVVSLFKESALISSVGIADLMFVGQNISNSTARPVEFLSAVAVIYFLVAFPLTRLVGVIEARMLRRYAY	PGPT0020795_8270	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
BMS010_06277	879	dapA_7	COG0329	4-hydroxy-tetrahydrodipicolinate synthase	ATGCAACTGAAAGGTATCCTGCCTGCCCTCGTCACCCCCTTCGACAAATCCGGCGCGGTCGATCATGAGACCCTGGCCTCCATCGTCGAGTACCAGTTGAAGGCTGGCGTCAGCGGTTTCGTGCCGCTGGGTTCCACCGGCGAGTACTACGCGCTGACCAACGAAGAGCGCCGCCAGGTGATGGCGACCGTGAAGGAAGTGGTGGGCGACCGGGGCATGCTCATCGCCGGCGCCAATGGCTCCTGCACCCGCGAAGTGCTGGAACAGGTGAAGCAGACCGTCGATGCCGGCTATACCAACCTGCTGATCGCTCCGCCGTACTATGCCTTGCCGTCCCAGGAGGAGCTGCTCAGCCACTACAGGGCGATTCTCGACGCGTTCCCGGAAATCAACGTGGTGCTCTACAACTACCCGGTGCGGACCAACGTCGAGGTCGGCATGGGCGTGGTCGAGGCGCTCAAGGACCATCCGCGCGTCATTGGCATCAAGGAAAGCAGCGGCAACCTGCTGCGCGCCATCGAGATCGGTAACAACTACAAGGGCAAGATCCAGCTCTCCTGCGGTTCCGATGACCAGGCGCTGGACTTCTTCCTCTGGGGCGCTACCAGCTGGATCTGCGGGCCGGCCAACATCTTCCCGGAGAAGGTGGTGGACTTCTACCGCAAGTATTCCGCCGGCGACCTGGCTGGTGCGCAGGATGTCATGCGCAACCTGTTCCCGATCATGGCCAACCTGGAAAGCGGCAAGTTCGTGCAGAAGGTGAAGTACGGCTGCGAGCTGGCGGGCTTCGAGGCCGGTAACGCCCGTGCGCCGCTGCTGCCGCTGACCGACGAGGAAAAGGCTGAGTTCCGCAAGGTGTTCGAGGCTTCTCAGGCGTGA	MQLKGILPALVTPFDKSGAVDHETLASIVEYQLKAGVSGFVPLGSTGEYYALTNEERRQVMATVKEVVGDRGMLIAGANGSCTREVLEQVKQTVDAGYTNLLIAPPYYALPSQEELLSHYRAILDAFPEINVVLYNYPVRTNVEVGMGVVEALKDHPRVIGIKESSGNLLRAIEIGNNYKGKIQLSCGSDDQALDFFLWGATSWICGPANIFPEKVVDFYRKYSAGDLAGAQDVMRNLFPIMANLESGKFVQKVKYGCELAGFEAGNARAPLLPLTDEEKAEFRKVFEASQA	PGPT0002080_7813	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
BMS010_06278	1059	prdF	COG3938	4-hydroxyproline 2-epimerase 2	ATGACCAGGCACAGCTTCACTTGTATCGAAGGCCATACCGAAGGCATGCCCGTCCGTATGGTCGTGGCCGGCGCCCCTGAACTGTACGGCGCGACGATGAGCGAACGACGTCGGCACTTCGTCGAAGAGTACGACTGGATTCGCCGCGCCTTGATGCTCGAACCGCGTGGCCATTCGCATATGTCGGGCACGATCTTCTATCCGCCCATCAGCGACGACGCAGACTTCAGCCTGTTGTTCATCGAAACCTCGGGATGCCTGCCGATGTGCGGGCACGCCACCCTCGGTTCGATCACCTTTGCCCTGGAGTCCGGGCTGGTGACGCCGCGGCAGCCCGGACGGGTAGTGGTGGACGTACCTGCCGGACAGATTCGGGCCACCTACGAGCGGCAGGGCGACAAGGTCTCCTCGGTTCGCTTCACCAACGTGCCGAGCTTCTTGCTGTATCGGGACGTGCAGATCTACCTGCCGCAACTGGGCAAGCTGACGTTCGACATCGCCTACGGCGGCAACTTCTATCCGATCATCGATATTCAAACCAACTATGGGGGCTGCGGACACTTCACCTCCGGGCAACTGCTCGAATGGGGCAGGGAAGTGCAGCGCCTGGTAAACGCCACCTTCGAGGTCGTGCACCCGGACGATGCCTCGATCCATGGCGTGAAGCATTGCATGTGGACCGGCTATCCCTTGTCGCCGGATTCCGATGGGCGCAGCGTCGTGATCGCCGGGGCAGACCTGGTCGACCGCTCTCCCTGCGGGACCGGAACATCGGCACGGGTCGCCCAGCGTTTCGCCCGGGGCTTATTGAAGGCGGGAGCGGCATTCCGCCATGAAAGCATCATCGGTAGCCGCTTCACCGGTCGGGTCGAGGCCACCACTATGCTGTCGGACGGTACGCCGGCCATTCTTCCCAGTGTCGAGGGCCGTGCCTGGATCACGGGGCGCGCGGAGCTGCTGGTGGATACCGGGCAGCCGTTCTGGGATGGATTCTTACTGAGTGATTTCACTGCAAACGGTCGTGGGAAGGTATCGGATGAGCCCCATGCAAAAGCTTGA	MTRHSFTCIEGHTEGMPVRMVVAGAPELYGATMSERRRHFVEEYDWIRRALMLEPRGHSHMSGTIFYPPISDDADFSLLFIETSGCLPMCGHATLGSITFALESGLVTPRQPGRVVVDVPAGQIRATYERQGDKVSSVRFTNVPSFLLYRDVQIYLPQLGKLTFDIAYGGNFYPIIDIQTNYGGCGHFTSGQLLEWGREVQRLVNATFEVVHPDDASIHGVKHCMWTGYPLSPDSDGRSVVIAGADLVDRSPCGTGTSARVAQRFARGLLKAGAAFRHESIIGSRFTGRVEATTMLSDGTPAILPSVEGRAWITGRAELLVDTGQPFWDGFLLSDFTANGRGKVSDEPHAKA	PGPT0014235_25	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014235-lphA-K12658	NA	NA
BMS010_06279	1275	dadA1_6	COG0665	D-amino acid dehydrogenase 1	ATGCAAAAGCTTGAGAAAGAAAAGGCAGTCGTCATCGGCGGCGGCATCGTCGGTGTCTGCTGCGCCCTGTACCTGCAACGCGAAGGCTACCGGGTCACCCTGGTCGATCCTGCCGCACCGGGCGACAGCACGGCCAAGTGGAGCTGCGGGCAGATGGCGGTGAGCGAGGTCATCCCGCTGTCGAAGCCCGGCATCCTGAAGAAGATTCCTGCCTGGCTGCTCGATCAGAAAGGCCCGCTGGCCCTGCGCCCCAGCGCCTTGCCGGGCATCCTGCCGTGGTTCCTGCGCTTCGTCGCCAATGCCCGTCATTCGAAGATCGTCGAGATCGCCCAGGCGATGACGACCCTGACCGAGAATGTCTACGAGGACTACGCCCCGCTGCTGGAAGCCTGTGCGGACAAAAGCCTGCTGGGCGACCGTCCGATCATCGAGGTCTTCGAGTCGGCGGAGGGCGTGGTTCATGAGCGGCCCCACCTGGAACTGCGCAAGTCCCTGGGGTTCAGCTCGGAGGAACTGGACGCCTCGGACATCGCCGAGCTGGAGCCGAGTCTGGCCGGCAAGTTCAAGAGTGGTTTGTTGTTCCCGGACTGGCGTGCGGTCAGCGATACCGAGGGTTTCATCGCCGCCCTGACCCAGAGTTTCATCGAGCAGGGAGGGGTGCGTATCCGCGATCAGGCGAAGCGGATCGACAGCGTGGGCGACCGCGCCACCGGCGTCCTGCTCGCCAACGGCGAGCGTATCCCCGCCCAGCAGGTGGTGGTGGCCGCGGGAACGGGCTCGCGCCAGTTTTTCCCGCAATTGGGCGTGAGCGTTCCGCTGGCCGGCATCGCCGGCTACCAGGTGGTCCTGCCGAACCCCGGCGTCGAGATTCGCCACTCGGTGATCTACGCGGACGGCGGTTTCTGCTTCGCCCCCATGACCCGTGGGTTGCAGATCGGCGGCACCATCGAATTCGCCGGCGCCAACGCCGAACCCAACTTCAAGCGCGCCGACATCATTCTGGAAAAGGCCCGGCGCATCCTGCCGGAGCTGCAGGTCGGCAATCTCGAATACGGCGTGGGCTACCGGCCGTTCCTGCCGGATACCAAACCGGTCATCGACCGCTCTCCGCAACTCACCAACGCCTACATGGCGTTCGGCCACGGCCAGCTCGGGCTGACCCTTGGCGCCACCACCGGGCGCCTGATCGCCGATCTGGTGGCCGGCAGGTCCAGTGCCCAGGACCTGACGCCCTTCCGCGCCAATCGCTTCGCTTTCATTGGAGGACTCGCATGA	MQKLEKEKAVVIGGGIVGVCCALYLQREGYRVTLVDPAAPGDSTAKWSCGQMAVSEVIPLSKPGILKKIPAWLLDQKGPLALRPSALPGILPWFLRFVANARHSKIVEIAQAMTTLTENVYEDYAPLLEACADKSLLGDRPIIEVFESAEGVVHERPHLELRKSLGFSSEELDASDIAELEPSLAGKFKSGLLFPDWRAVSDTEGFIAALTQSFIEQGGVRIRDQAKRIDSVGDRATGVLLANGERIPAQQVVVAAGTGSRQFFPQLGVSVPLAGIAGYQVVLPNPGVEIRHSVIYADGGFCFAPMTRGLQIGGTIEFAGANAEPNFKRADIILEKARRILPELQVGNLEYGVGYRPFLPDTKPVIDRSPQLTNAYMAFGHGQLGLTLGATTGRLIADLVAGRSSAQDLTPFRANRFAFIGGLA	PGPT0020315_1228	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_D-AMINO_ACID_DEGRADATION,PGPT0020315-dadA-K00285	NA	NA
BMS010_06280	1482	gbsA	COG1012	Betaine aldehyde dehydrogenase	ATGAATTCGTATGACCAGCTCTACATCGATGGCCAGTGGGTGACTCCGGTCAAGGGTGGCACTTTCGAGACCGTCGACCCGAGCAGCGAGGCCACGATCGCCTGGGTCGCCGCTGCCACCGCGGAAGACATCGACCTGGCGGTGCAGGCCGCCCGCCGCGCTTTCGACGACGGCCCCTGGCCACAAATGAGCGGCACCGCCCGCGCCGCCGTGTTGCGCCGGATCGCCCAGGGCATCCGCAGCCGCCAGCAGGAGCTGGCCGAGCTGGAAGTGCGCGACAACGGCAAGCCGTTGCCCGAGGCCCTGTGGGATATCGGCGATACCGCCGGCTGCTTCGATTTCTATGCCGACCTGGCCGAAGACCTCGATAGCCAGCAAGAACAGCCCGTGGCCCTGGCCGACGAACGTTTCAGCTCGGTGGCGCGCAAGGAGCCGGTGGGGGTCGCCGGGGCCATCATCCCCTGGAATTTCCCCATGCTGATGGCCGCCTGGAAAGTCGCCCCGGCCCTGGCCGCGGGCTGCAGCATGGTGTTGAAGCCTTCCGAGCTCACCCCGCTGACCGCACTGGAACTGGCGCGCATCGCCGACAAGGCCGGCTTGCCCGCCGGCGTGTTGAACGTGGTGCCGGGCTTCGGTGCGGACGCCGGCGCGCCGCTGGCCGAGCACCCTGGTATCGACAAGCTGGCCTTCACCGGCAGCGTGCCGACCGGCAGCCGGATCATGCAGGCCGCCGCCAAGGACATCAAAAACATCAGCCTGGAGCTGGGCGGCAAATCGCCGTTCATCATCTTCGCCGACAGCGATATCGAAGCCGCCGTCGAATGGATCATGTTCGGCATCTTCTGGAACCAGGGCCAGGTCTGCTCCGCCACTTCGCGGGTGCTGGTCCAGCGCGACCTCTACGAGCCGCTGCTCCGGCGCCTGAAGGAAGAGGCCGAGAAGATTCGCATCGGCAACGGCCTGGAAGAGGGCGTGTTGCTCGGCCCGCTGGTGAACAAGGCGCAGTACGACAAGGTCCTGGCCGCTATCGCCCGTGGCCAGGAGGAGGGCGCGCAACGGGTCACGGGCGGCAGCCGTCCGGCCGGTTTCGACAAGGGCTTCTACCTGCAACCGACCGTCTTCGCCGATGTGCCGGAAGACAGTTGGATCTGGAACGAGGAAATCTTCGGCCCGGTGGTGTGCGTTCGTCCGTTCGATGACGAGGCCGAAGCCTTGCGTTCGGCCAACGACTCGCGCTTCGGCCTGGCCGCCGCGGTGATGTCCCGCGACTTGCCGCGCGCCGAGCGGGTCGCCCGCAAGCTGCGCGCCGGTATCGTCTGGATCAACTGCTCGCAACCGACCTTCACCGAGGCGCCCTGGGGCGGCTACAAGCAGAGCGGCATCGGCCGCGAGCTGGGTGAGTGGGGGCTGAACAACTACCTGGAAACCAAGCAGGTCACCCGCTACGACAGCGAGCAGTCCTGGGCCTGGTACATCAAGTGA	MNSYDQLYIDGQWVTPVKGGTFETVDPSSEATIAWVAAATAEDIDLAVQAARRAFDDGPWPQMSGTARAAVLRRIAQGIRSRQQELAELEVRDNGKPLPEALWDIGDTAGCFDFYADLAEDLDSQQEQPVALADERFSSVARKEPVGVAGAIIPWNFPMLMAAWKVAPALAAGCSMVLKPSELTPLTALELARIADKAGLPAGVLNVVPGFGADAGAPLAEHPGIDKLAFTGSVPTGSRIMQAAAKDIKNISLELGGKSPFIIFADSDIEAAVEWIMFGIFWNQGQVCSATSRVLVQRDLYEPLLRRLKEEAEKIRIGNGLEEGVLLGPLVNKAQYDKVLAAIARGQEEGAQRVTGGSRPAGFDKGFYLQPTVFADVPEDSWIWNEEIFGPVVCVRPFDDEAEALRSANDSRFGLAAAVMSRDLPRAERVARKLRAGIVWINCSQPTFTEAPWGGYKQSGIGRELGEWGLNNYLETKQVTRYDSEQSWAWYIK	PGPT0007165_1103	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0007165-betB_homologous-K00130	NA	NA
BMS010_06281	1029		COG3938	4-hydroxyproline 2-epimerase	ATGCGTTGGAAGAAGACACTGCAACTGGTGGACGTCCACTGCGAAGGTGAGATCGGCAAGGTCATCACCGGCGGCGTGGTCGGCATCCCCGGCGAGACCATGCTGGACAAGATGAACTACATCAACGAGGTCGACGACAGCCTGCGTCGCCTGGTGGTGCTGGAGCCGCGGGGCTGCCTGCAGATGTCGGTGAACCTGCTGCTGCCGCCGACCCGCCCGGAGGCCCAGGCGGGCTTCATCGTGCTGCAGGCCGATAAGGCCCATCCCATGTCCGGCAGCAACTGCATCTGCGTGGTGACTGCCTTGCTGGAGCTGGGCATGCTGCCGATGCAGGAGCCGGAAACCACCGTGGTGTTGGACACTCCGGCCGGCCTGGTGACGGCGCGAGCCCGCTGCGCGGACGGTCGCTGCCTGAGCGTGTCGCTGGACATGGTGCCATCGTTCGTCGAGCACCTGGACGTGGCCATCGAGACGGAGGCGTTCGGCACCATCAAGGCCGATATCGCCTTCGGTGGGGTGTATTACGCCCTGATCGATGTGGAGCAGGTGGGGCTGAGCATCGCCCCCGAGCATGCCCGCGAGCTGGCCGATACCGGCGTGGCGCTCAAGGACGCGATCAACCGCCAGGTCAGCGTCCGGCACCCGTTGTTCGAGGCGCTGGACGATGTCGCCTACGTGATGTTCCGCAACCGCGTCGACGACCGCACCTACCAGACCTGCACCACACTGCCGCCGGGCCGCGTGGACCGCTCGCCCTGTGGCACGGGCAGCTCGGCCAACCTCGCCACCCTGGCGGCGCGCGGCCTGGTGGAAGTGGGCGACCAACTGGTTTCTCGCTCCACCATCAATGGCGAGTTCCAGGTGCAGTTGCTCGGCCGCACCGATGTCGCGGGACGGCCCGCCGTGCTGCCTCGGATAACCGGACGCGCCTGGATCTACGGCATCCAGCAACTGGGCGTCGATCCGGACGATCCGCTGGCGGAAGGCTTCATGCTCAGCGACACCTGGGGGCCGGCGTTTCCCCAGTAA	MRWKKTLQLVDVHCEGEIGKVITGGVVGIPGETMLDKMNYINEVDDSLRRLVVLEPRGCLQMSVNLLLPPTRPEAQAGFIVLQADKAHPMSGSNCICVVTALLELGMLPMQEPETTVVLDTPAGLVTARARCADGRCLSVSLDMVPSFVEHLDVAIETEAFGTIKADIAFGGVYYALIDVEQVGLSIAPEHARELADTGVALKDAINRQVSVRHPLFEALDDVAYVMFRNRVDDRTYQTCTTLPPGRVDRSPCGTGSSANLATLAARGLVEVGDQLVSRSTINGEFQVQLLGRTDVAGRPAVLPRITGRAWIYGIQQLGVDPDDPLAEGFMLSDTWGPAFPQ	PGPT0014240_244	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014240-prdF-K01777	NA	NA
BMS010_06282	708	lutR_10	COG2186	HTH-type transcriptional regulator LutR	ATGGGCGTAGTGACGATGGAAGCGGAAAGCAGCGTGCGGCGACACGGCGGGCGCTACATCTATGAAGAGCTGCGCAAGCAGATCCTGACGCTCCAGCTCAAGCCGGGCGCCCAGTTGGACGAGGTGTCCCTGGCCGCCCAGTTCGGGGTGTCGCGCTCGCCGGTGCGCGATGCCCTGGCACGCCTGATCAGCGAGGGGCTGGTAACCATCCTGCCGAACCGCACCACCCTGGTCACGCCGTTCGAGATCGAAGAGTTTCCCCACTATATCGCCGCCCTGGACCTGACCCAGCGCGCGGTGACCCGCCTGGCCGCGGTGAACCGTACCGACCAGGAGCTGGAGCGTATCCGGGAGGCGAACGCCGCCTATGTCGAAGCGCTGGGCACGGGCAACTTCCAGGACATGTCCGAGCTGAACAAGGCCTTCCACCTGGAGATCGCCCGCGCCGGGCACAACCCCTATCTCACCCGCTATTACGAAAAGCTGCTGGGGGAGGGCCAGCGCCTGCTGCACCTTCACTTCGACTTCATCGTCAGCTCGCAGAGCCTGACCGGACCGGAGCAGGATCACGACGAGATCGTCCAGGCCATCGCGAACAAGCAACCGGATGCCGCGGAAGAGGCGTCCCATGTGCATACGCTGCTGTTCCGCGACCGCTTTCTGGAGTTCATGAAGCAGAACCTGACCAAGAGCGTTTCGATCCTGTAG	MGVVTMEAESSVRRHGGRYIYEELRKQILTLQLKPGAQLDEVSLAAQFGVSRSPVRDALARLISEGLVTILPNRTTLVTPFEIEEFPHYIAALDLTQRAVTRLAAVNRTDQELERIREANAAYVEALGTGNFQDMSELNKAFHLEIARAGHNPYLTRYYEKLLGEGQRLLHLHFDFIVSSQSLTGPEQDHDEIVQAIANKQPDAAEEASHVHTLLFRDRFLEFMKQNLTKSVSIL				NA	NA	NA	NA	NA
BMS010_06283	708	rspR_4	COG1802	HTH-type transcriptional repressor RspR	ATGAGCAACGATGCAGTAGAGCCGGAAAGCAACGGTCGTCGTCACGGCGGTCGCTATATCTACGAAGAGCTGCGCAAGCAGATCCTCACCCTCAAGCTGAAGCCGGGCGCTCCGCTGGACGAAGTGTCCCTGGCGGCCCAGTTCGGCCTTTCCCGCTCGCCGGTGCGCGATGCCCTGGCCCGGTTGATCACCGAAGGGCTGGTGACCATCCTGCCGAACCGCACCACCCTGGTCACGCCGTTCGAGATCGAGGAGTTTCCGAACTACGTCGCGGCGCTGGACCTGATTCAGCGCGCGGTTACCCGGCTGGCGGCCCTGCAGCGTACCGACGAGGAAATGGAGCGTATCCGTGCCGCGGAGAACGCCTACATGGACTCGATCAGCAAGGGCGACTTCCAGGCGATGACCGAGCTGAACAAGGCGCTGCACCTGGAAATCGCACGTGCCGGCAAGAATCCCTACCTGACCGGCTACTACGAAAAACTCCTCGGCGAAGGCCAGCGCCTGCTGCACCTGCACTTCGATTTCATCCTCAATACGGCCAGTTCCTCCGGGCTGGGTCGCGACCATGCAGACATCGTCGAAGCCATCGCCGCTCGCGATGCCGACGCCGCCGAAAGCGCCGCCCATGAGCACACCCTGCTGTTCCAGCGAAGATTCCTGGACTTCATGCAGCAGAACCTGACGTCGCAGATGCGGATTTCCTAG	MSNDAVEPESNGRRHGGRYIYEELRKQILTLKLKPGAPLDEVSLAAQFGLSRSPVRDALARLITEGLVTILPNRTTLVTPFEIEEFPNYVAALDLIQRAVTRLAALQRTDEEMERIRAAENAYMDSISKGDFQAMTELNKALHLEIARAGKNPYLTGYYEKLLGEGQRLLHLHFDFILNTASSSGLGRDHADIVEAIAARDADAAESAAHEHTLLFQRRFLDFMQQNLTSQMRIS				NA	NA	NA	NA	NA
BMS010_06284	711	baeR_3	COG0745	Transcriptional regulatory protein BaeR	ATGCCTGATTCCGCCTCTTTCGCCGCCCGTATCCTTGCCGTCGAGGATGATCTCGTGTTCGCCCACCATCTGCTCGATCACCTGCGGGGCACCGGCTATGCCGTCACCCACAGCCAGGACGGCAGCGAGGGACTGCGCCTGGCCGAGACGCAAGACTTCGACCTGATTCTCATGGATATCCTGCTGCCGGGGACCAACGGCCTGGATGCGTTGCAGCGCTTGCGCCGCCGCCGGGGCGTACCGGTGATCCTGATGTCGGCGCTGGGTGGCGAGCAGGACCGCATCGCCGGGTTCAGCCAGGGCGCCGACGACTACCTGCCGAAACCCTTCAGCCTGGGTGAGCTGGAGGTGCGCATCGAGGCCATTCTGCGCCGCGTCGCTTACGAGCGACGCAGCCATGCGCCGGTTGTCGACGGCGACGGGTTGCAATTCGACGAGGGCCGCCAGGATGTGGCGCTGAACGGACGCTGGGCTGGGCTGACGCCCAGCGAGTACCGCGTGCTGGAGTTGCTCTGGCGGCACTCGGACGAGACGCTGAGCAAGCCCTTTCTCTATCAGCAGGCGCTGTGCCGCGCCTATGCCGTTCATGACCGCAGCCTGGACATGCACGTCAGCCATGTTCGCCGCAAGTTGCAGACGGTGGGATACACCCAGGGACGCCTGGCCACTGTCTGGGGCAAAGGCTATGTGATGACCCGGTGTGAGCGATGA	MPDSASFAARILAVEDDLVFAHHLLDHLRGTGYAVTHSQDGSEGLRLAETQDFDLILMDILLPGTNGLDALQRLRRRRGVPVILMSALGGEQDRIAGFSQGADDYLPKPFSLGELEVRIEAILRRVAYERRSHAPVVDGDGLQFDEGRQDVALNGRWAGLTPSEYRVLELLWRHSDETLSKPFLYQQALCRAYAVHDRSLDMHVSHVRRKLQTVGYTQGRLATVWGKGYVMTRCER	PGPT0003250_88	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ENTEROBACTIN|ENTEROCHELIN_METABOLISM,PGPT0003250-pfeR|pirR-K19610	NA	NA
BMS010_06285	1347	pfeS	COG0642	Sensor protein PfeS	ATGAAGCTGCCGGGCGGCCATTCGTTGTTCTGGCGTCTGGCGCTGCTGCAGGTCGGCTTCTGCGTATCGATCATCTGGCTCACCCACTCCTGGGCCGAGTACGTCGATCAGCGCAGCTATTTCCTGTCCCCCGCCGCGCGCGAGCAGTTGTCCCGCTACGCCGAAGAGGCGGAGCGGGCCTGGCGCTCCGGCGGGCGAGCAGGGATCGACCGTTGGCTGGCGGAACTCGGCCGGCACGAGCCGAGTTGGGCGGCGGTGGTCGGGCCCGACCTGCGCTCCCTGGGCAGCCGGCCTCTGCTGGACAGCGAGTACGCCAATCTGACCTTCATGCGCCGCATCGACTGGCCGATGAGCCGGCGCATGACGGACCTGCCCCATGTCAGCCTGCCGTTTCCCGAAAACCCGGAGCAGGGACGCCTGGTGGTGCAGCTTCCCGAACGCTTCCTGCCCAGCGGCTCCGATCTGCGCATCCAGTTGTTCATCAACGTGCTGGTGCCCGGTCTGCTGGCCCTGTTGCTCTGTGGCCTGATCTACCGCCAGTTGAGCCGGCCGCTGGCACATCTGCGGGCCCAGGCCAACGCCCTGCGTGGCGACCGCCTGGACGCGCGGGTCGCCGCCGAGGTGAGTGCCCGCCGCGATGAGCTGGGCGAGCTGGCGCGCGCGTTCGATCACATGGCCGGGCGCCTGGAGGGCACGGTGGCCTTCCAGCGCCAGTTGCTGCGCGATCTGTCCCACGAGCTGCGCACGCCGCTCAGCCGCCTGCGGGTTGCGGCCGAGCGCGGGGCGGACATTGTCGATCTGCGCCAGCGGCTGGAGCACGAAGTGACGGGCATGGAGAAACTGGTGGGCGATACCCTCGAGCTGGTCTGGCTGGATACCGAGCGTCCGGTGCTGCCGCTCGAGGACGTGCAGGTCGCGGCGCTCTGGGAGGTACTGCGCGAAAATGCCTGCTTCGAAACCGGCTGGAGCCCCGTACAACTGCCTTGCGCACTGGGGCCGGAATGCCGGGTGCGCGGGCACCTCAACGGCCTCGCCCAGGCCCTGGAGAACATCCTGCGCAACGCCATCCGCCACTCACCGCCCGGAGGCATGGTGCGCCTCGACGGACATCGTGAGGAGGGCCACTGGCACCTGTGGGTGGAAGACCAGGGGCCGGGTGTCGAGCCGGATCAGCTGGAGATGATCTTCCAACCCTTCACCCGCCTCAGCGCGGCTCGACCGGGCAACGACGGCTTCGGTCTCGGCCTGGCCATCGCGCGCAGCATGGTGCGTCTGCAAGGCGGCGAGCTGTGGGCGGAGAATGCCTCTCCCGGCTTGCGCCTGCACCTGCGGCTGGCAATTGTATAG	MKLPGGHSLFWRLALLQVGFCVSIIWLTHSWAEYVDQRSYFLSPAAREQLSRYAEEAERAWRSGGRAGIDRWLAELGRHEPSWAAVVGPDLRSLGSRPLLDSEYANLTFMRRIDWPMSRRMTDLPHVSLPFPENPEQGRLVVQLPERFLPSGSDLRIQLFINVLVPGLLALLLCGLIYRQLSRPLAHLRAQANALRGDRLDARVAAEVSARRDELGELARAFDHMAGRLEGTVAFQRQLLRDLSHELRTPLSRLRVAAERGADIVDLRQRLEHEVTGMEKLVGDTLELVWLDTERPVLPLEDVQVAALWEVLRENACFETGWSPVQLPCALGPECRVRGHLNGLAQALENILRNAIRHSPPGGMVRLDGHREEGHWHLWVEDQGPGVEPDQLEMIFQPFTRLSAARPGNDGFGLGLAIARSMVRLQGGELWAENASPGLRLHLRLAIV	PGPT0003245_99	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ENTEROBACTIN|ENTEROCHELIN_METABOLISM,PGPT0003245-pfeS|pirS-K19609	NA	NA
BMS010_06286	2199	pfeA_2	COG4771	Ferric enterobactin receptor	ATGCAGCCGTGCTTCACACTCAGCTCACTGACCCTGGCCATGCTGGTCGCTACGTCACCCTTGGCCCTGGCCGACGAGGCGGCGGATGAGGGCGTTCTCAAGCTGAATGACACCTGGGTGCTGGGCACGGCCGAGGAAGAGCTGAAGCAGGCCCCCGGCGTGTCCATCATCACGGCGGAAGACATCGCCAGGCAGCCGCCGACCAACGACCTCTCCGAAATCATCCGCCGCCAGCCGGGCGTCAACCTGACCGGCAACAGCACCAGCGGCAACCGGGGCAACAACCGCCAGATCGACCTGCGCGGCATGGGGCCGGAAAACACCCTGATCCTCATCGACGGCAAGCCGTCCGCCTCGCGCAACGCGGTGCGCTACGGCTGGAACGGCGACCGCGATACCCGTGGCGAGACCAACTGGGTGCCGGCCGAGCAGGTCGAGCGCATCGAGATTCTTCGCGGCCCGGCCGCGGCGCGCTATGGCTCCGGCGCCATGGGCGGGGTGATCAACATCATCACCAAGCGCCCGTCGGACAAGCTGAGCGGTTCGCTGACCGCCTACACCTCGCTGCCGGAAGACGACGCCGAAGGCATGACCAGGCGCACCAACTTCAGTCTCAGCGGACCGCTCGGCGAGCCGTTCGCCTTCCGCGTCTACGGCGGTTTCAGCAAGACCGACGCCGACGACGCCGACATCAACGCCTCGCACCAGGCCAGCGACGGCACCCTGGTAGCCGGCCGCGAAGGCGTGCGCAACAAGGACATCGACGGCCTGCTCAGTTGGCAGCTCAGCCCCGAGCACAGCCTCGAACTGGAGGCCGGCTACAGCCGCCAGGGCAATATCTATTCGGGCGACACCATGCTCAACAACGGGGGCGGCAACATCCCCTTCATCGACAGCCTGTATGGCCAGGAAACCAACGTCCTGCAACGTACCCACTACGCGCTGACCCACACCGGCCTGTTCGACTGGGGCAGTTCCAAGGCCTCGCTGAGCTACGACTACACCCGCAACTGGCGCCTCAACGAGGGCCTGGCCGGCGGCCCGGAAGGCGCGCCTAGCGAAGGGGCGGGGGCCTTCACCTCGCGGCTGCGCAACACCCGCGCCAGCGCCGAGGTCAACCTGCCGCTGAGTGCTGGCTTCGAGCAGGTGCTCACCCTCGGCAGCGAATACCTCTACGAGTCGCTCAACGACCCGGGCTCGCTGCGGGCGCAGAGCTGGGACACCGACGCCATCGAGGACTTCAGCCGGGGAGATACCAAGACCACTGCGCGCAGCTACGCGCTGTTCGCCGAGGACAACGTCGAAGTGGGCGACAGGACCACCGTCACCCCCGGCCTGCGCTTCGACGACCATGAAGAGTTCGGCGGCAACTGGAGCCCGAGCCTCAACGCCTCGCACGAGCTGACCGACGAGCTGACCCTGAAAGGCGGCATCGCCCGCGCCTACAAGACGCCGAACCTCTATCAGTCCAACCCCAACTATCTGCTGTACAGCCGCGGCAACGGCTGCAATGCCGGCGAGACCAACAGCGGCGGCTGCTACCTGGTGGGCAACGCGGACCTGGAACCGGAAACCAGCGTGAACAAGGAAATCGGCCTGGCGCTGGACAAGGGCACCTGGCGGACCAGCGCGACCTACTTCCGCAACGACTACCGCAACAAGATCGTCGCCAGCAACGAGTACCTCTATCGCTTGGGCAACGGTCGCCGCGTGCTGCAATGGACCAATACCGACGAGGCGGTGGTGGAGGGTATCGAGGGCAACCTGTTCGTCGAACTGACTCCGCAGCTCGACTGGAACACCAACCTCACCTACATGATCAAGTCCGAGGACAAGGAAACCGGCGAGCCGCTCAGCATCATCCCCGAGTACACCGTCAACACCACGCTGGACTGGCAGGCCAGCGAGCAGCTCTCGTTCCAAGTCAACGCCACCTATTACGGCAAGCAGGAGGCGCCGTCGCTCAACCTGCGCACCGGCCAGGAATACGACGACGAGGCGCAGAAGGACGTCGATCCCTACGGCCTGGTGGGTGTCAGCGCTGGCTATGCGTTCAGCAAGAACCTCAGCCTGCGGGTCGGCGTGAACAACCTGTTCGACAAGCGAATCTATCGCGAAGGCAATGCCAGCGACGCCGGCGCCTACACCTACAACGAGCCGGGGCGTGCCTATTTCGCCTCCATCACCACCTCGTTCTGA	MQPCFTLSSLTLAMLVATSPLALADEAADEGVLKLNDTWVLGTAEEELKQAPGVSIITAEDIARQPPTNDLSEIIRRQPGVNLTGNSTSGNRGNNRQIDLRGMGPENTLILIDGKPSASRNAVRYGWNGDRDTRGETNWVPAEQVERIEILRGPAAARYGSGAMGGVINIITKRPSDKLSGSLTAYTSLPEDDAEGMTRRTNFSLSGPLGEPFAFRVYGGFSKTDADDADINASHQASDGTLVAGREGVRNKDIDGLLSWQLSPEHSLELEAGYSRQGNIYSGDTMLNNGGGNIPFIDSLYGQETNVLQRTHYALTHTGLFDWGSSKASLSYDYTRNWRLNEGLAGGPEGAPSEGAGAFTSRLRNTRASAEVNLPLSAGFEQVLTLGSEYLYESLNDPGSLRAQSWDTDAIEDFSRGDTKTTARSYALFAEDNVEVGDRTTVTPGLRFDDHEEFGGNWSPSLNASHELTDELTLKGGIARAYKTPNLYQSNPNYLLYSRGNGCNAGETNSGGCYLVGNADLEPETSVNKEIGLALDKGTWRTSATYFRNDYRNKIVASNEYLYRLGNGRRVLQWTNTDEAVVEGIEGNLFVELTPQLDWNTNLTYMIKSEDKETGEPLSIIPEYTVNTTLDWQASEQLSFQVNATYYGKQEAPSLNLRTGQEYDDEAQKDVDPYGLVGVSAGYAFSKNLSLRVGVNNLFDKRIYREGNASDAGAYTYNEPGRAYFASITTSF	PGPT0003415_696	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-SALMOCHELIN_TRANSPORT,PGPT0003415-fepA|pfeA|iroN|pirA-K19611	NA	NA
BMS010_06287	924	besA	COG2819	Ferri-bacillibactin esterase BesA	ATGATTCCACCCTATCTGCGTTGCCTGGCCTGGCTCGGCCTGCTGCTGGCTTCGACGGCCTCGGCGCGGCCCGACCCCGATGCCGTCCTCGGCGAAACACTGGTCGAGCGCGGCTCGGCGTTCTACCGCTTCGAACACTTCGAGCTGGACTCGCGCGATGGCCAGCGCCACTACCGGGTCCGTCTGGCGATACCGCGTCGTCCGCCGCCCGCCGATGGTTATCCGGCCCTCTACCTGCTCGACGGCAACGCCGCCTTGCAGGCCCTGCGCGAGGACTGGCTGGCCGAGCTGGATGCCGCCGAACCGCCGCTGCTGGTGTTGATCGGCCCGGCGAGCGACCGCCGCCTGGACCTGCCGGCACGGACGCGCGATTACACGCCGGGCTGGCCGGACGGCCGTCCGTTGCAGCGCTACGGCGAGCATGACGGCGGCGGTTCGTCGGCCTTCCGTGAGCTGCTGGAGCAACGCATCCGCCCGGCCGTGGCGGCGCGCCAACCGCTGGATGCATCGCGCCAGGCGATCTGGGGACACTCCTTCGGTGGGCTGTTCGTCCTCGACACGCTGTTCGCTGCACCCACGAGTTTCCAGACTTACATCGCCGCCAGCCCGTCGCTGTGGTGGCAGCCCGGCCTGCTCGCCGAGCTGGAGCGGAGCTATCGCGGAGGTGCCCAGGCGAACCTGCTGTTGCTCAGGGGGAGCGAGGAGGGGACGGCGACGCGGGAGGCGGCTGGAGATTCGCCGCGTGCGCGTGCCATAGCCACACTGTCGGACGATGCACTCCAGCGCCTGGCCGAACGTCTGGGTGGGCACGACGGGCTGGAGGTCACCTACCGAGAGTTGCCCGGCCTCGGCCATGGCCCGATGCTGGCGGCCTCGCTGCATCTGGCGCTGCGTCTGGCAGCCGGGTTGCCGATCCGGGATTGA	MIPPYLRCLAWLGLLLASTASARPDPDAVLGETLVERGSAFYRFEHFELDSRDGQRHYRVRLAIPRRPPPADGYPALYLLDGNAALQALREDWLAELDAAEPPLLVLIGPASDRRLDLPARTRDYTPGWPDGRPLQRYGEHDGGGSSAFRELLEQRIRPAVAARQPLDASRQAIWGHSFGGLFVLDTLFAAPTSFQTYIAASPSLWWQPGLLAELERSYRGGAQANLLLLRGSEEGTATREAAGDSPRARAIATLSDDALQRLAERLGGHDGLEVTYRELPGLGHGPMLAASLHLALRLAAGLPIRD	PGPT0003240_18	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ENTEROBACTIN|ENTEROCHELIN_METABOLISM,PGPT0003240-pfeE-K23722	NA	NA
BMS010_06288	1551	emrB_2		Colistin resistance protein EmrB	GTGGCAGCTGACGCGCTGATACGTCCCACCAACGAGCCCAGTCGCCGCGACTGGATCGCCGTGATGAGCGCCATGCTCGGCGCCTTCATGGCGGTGCTGGACATCCAGATCACCAACTCGTCGCTCAAGGACATCCAGGGCGCGCTGTCCGCCACCCTGGAGGAAGGCTCCTGGATTTCCACCTCCTACCTGGTGGCCGAGATCATCATGATCCCGCTCACCGCCTGGCTGGTGCAGCTGCTCTCGGCCCGTCGCCTGGCGCTCTGGGTTTCCCTGGGGTTCCTCGCTTCGTCGCTGCTCTGCTCCCTGGCCTGGAGCCTGGAGAGCATGATCGTGTTCCGTGCCCTGCAGGGCTTCACCGGCGGCGCGCTGATCCCCCTGGCCTTTACCCTCACCCTGATCAAGCTGCCGGAACACCACCGCGCCAAAGGCATGGCGCTGTTCGCCATCACCGCCACCTTCGCCCCGTCCATTGGCCCGACCCTGGGCGGCTGGCTGACGGAAAACTTCGGCTGGGAATACATCTTCTATATCAACGTGCCGCCGGGCCTGCTGATGATCGCCGGCCTGCTCTACGGGCTGGAAAAGAAGGCACCGCACTGGGAACTGCTGAAAAGCACCGACTACGCCGGCATCGTCACCCTCGGCCTGGGCCTCGGCTGCCTGCAGGTCTTCCTCGAAGAAGGCCACCGCAAGGACTGGCTCGAATCCAACCTGATCGTCAGCCTCGGCAGCATCGCCCTGGTCAGCCTGATCCTCTTCGTCATCCTGCAAGTGTCGCGGCCCAATCCGCTGATCAACCTGGGCATCCTGCGCAACCGCAATTTCGGCCTATCGAGCATTTCCAGCATCGGCCTGGGCATGGGTCTCTACGGCTCGATCTACGTGTTGCCGCTCTACCTCGCCCAAATCCAGGGTTACAACGCGCTGCAGATCGGCGAAGTGATCATGTGGATGGGTATCCCCCAGCTGTTTCTCATCCCGCTGGTGCCCAAGCTGATGAAGGTGATCCCGCCCAAGCTGCTCTGCGGGCTCGGCTTCGGTCTGTTCGGGCTCGCCAGCTTCGCCTCCGGCGTGCTCAACCCGGACTTCGCCGGGCCGCAGTTCCAGCACATCCAGATCATCCGCGCGCTGGGCCAGCCGCTGGTAATGGTGACCATCTCGCTGATCGCCACCGCCTACATCCTGCCGCAGGACGCCGGATCGGCCTCCAGCCTGTTCAACATCCTGCGCAACCTGGGCGGCGCCATCGGCATCGCCCTCCTCGCCACCCTGCTGGACGCCCGCGCCAAGATCTATTTCGACTATTTGCGCGAATCCATCGTGCCGACCAATCCCCAGGTGGCGGAACGCCTGAGCCAACTCACCAACACCCTCGGCAGCGAGCAGGCGGCGCTGGGCAAGCTGAGCGAGATCGTCCACCAGCAGGCGACGATCATGGCCTACAACGATGCCTTCCACTTCATCGGCATCGCCCTGGGCATCAGCATGCTCGCCGTGCTGCTGACCCGGCCGCTCCCCAAGGGCATGCAGGGCGGCGCGGCGCACTGA	MAADALIRPTNEPSRRDWIAVMSAMLGAFMAVLDIQITNSSLKDIQGALSATLEEGSWISTSYLVAEIIMIPLTAWLVQLLSARRLALWVSLGFLASSLLCSLAWSLESMIVFRALQGFTGGALIPLAFTLTLIKLPEHHRAKGMALFAITATFAPSIGPTLGGWLTENFGWEYIFYINVPPGLLMIAGLLYGLEKKAPHWELLKSTDYAGIVTLGLGLGCLQVFLEEGHRKDWLESNLIVSLGSIALVSLILFVILQVSRPNPLINLGILRNRNFGLSSISSIGLGMGLYGSIYVLPLYLAQIQGYNALQIGEVIMWMGIPQLFLIPLVPKLMKVIPPKLLCGLGFGLFGLASFASGVLNPDFAGPQFQHIQIIRALGQPLVMVTISLIATAYILPQDAGSASSLFNILRNLGGAIGIALLATLLDARAKIYFDYLRESIVPTNPQVAERLSQLTNTLGSEQAALGKLSEIVHQQATIMAYNDAFHFIGIALGISMLAVLLTRPLPKGMQGGAAH	PGPT0029220_2205	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029220-emrB-K03446	NA	NA
BMS010_06289	1047	emrA_2		Colistin resistance protein EmrA	ATGCCTGCCCAACTGCAACGACGCCTGTTCGTTTTCCTGCTCGTCCTGGCGCTGGTCGCCGGGGCCTTCTTCCTGCACTGGCTGTTCGTCGGCCGGTTCGTCGAAACCACCGACAACGCTTATGTGCAGGGCGAGATCACGCGCATTTCCAGCCAACTTGGCGCGCGGATCGAAAAGGTCCTAGTGGAAGACAACCAGCACGTGAACCAGGGCGACCTGCTGGTGGTACTGGAAGCGGAAGACTTCCGCCTGGCCGTCGAGCGCGCCCGCGCCACCCTGGCGACGCGCGAGGCGGAACTGGCGCAGGCGCGCAGCAAGCTCGAGCAGCAGGCCAGCCTGATCGCCGCCAGCGAGGCGGACGTGGCCGCCAACCAGGCGACCCTCGGCCGCACCCAGATCGACCTGTCGCGCGCCCAGACCCTGCGCAAGCCCGGCTATGTCTCCGAAGAGCGCGTCACCACCCTGTCCGCCGACGCACGCGTCGCCCGCTCGCAGCTGGCCAAGGCGGAAGCCGACCTCAAGGCCCAACGCCAGCAGATCGAAGCCCTGAACGCCGACATCCGCCGGCTGGAGGCGCAGATCGCCAACGCCCGTGCCGACGTGGCCCAGGCCGAACTGAACCTGACCCGCACGGAAATCCGCGCCCCGGTCGGCGGCTTGGTCGGCCAGCGTGCCGCGCGCTCGGGCCAGTACGTACAGGTCGGCGCCCACCTGCTGTCGCTGGTGCCGGACGACGACATCTGGGTCCAGGCCAACTTCAAGGAAACCCAGATCGGGCGGATGCAGCCGGGCCAGAAGGCCGAACTGCTCTTCGACAGCTTTCCCGACACGCCCATCGAAGGCACCGTGCAGAGCCTGTTCGCCGCCTCCGGCGCCCAGTTCAGCCTGCTGCCGCCGGACAACGCCACCGGCAACTTCACCAAGGTGGTGCAGCGCATCCCGGTCAAGCTGACCTTCGCTGCCGACAACCCGCTGAAAGGCAAGATCCGCCCCGGCATGTCGGTGGAAGTGAAGGTGGAATTGAAGGACGAGCAGCGTGGCAGCTGA	MPAQLQRRLFVFLLVLALVAGAFFLHWLFVGRFVETTDNAYVQGEITRISSQLGARIEKVLVEDNQHVNQGDLLVVLEAEDFRLAVERARATLATREAELAQARSKLEQQASLIAASEADVAANQATLGRTQIDLSRAQTLRKPGYVSEERVTTLSADARVARSQLAKAEADLKAQRQQIEALNADIRRLEAQIANARADVAQAELNLTRTEIRAPVGGLVGQRAARSGQYVQVGAHLLSLVPDDDIWVQANFKETQIGRMQPGQKAELLFDSFPDTPIEGTVQSLFAASGAQFSLLPPDNATGNFTKVVQRIPVKLTFAADNPLKGKIRPGMSVEVKVELKDEQRGS	PGPT0013750_3262	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0013750-emrB-K03543	NA	NA
BMS010_06290	951	dmlR_11		HTH-type transcriptional regulator DmlR	ATGGGGTTGGATGACGCGCTGATCTTTACCCGGGTGGTGGAGTGCCACAGCTTTACCCAGGCGGCGCAAAGCCTGGGCATGCAGAAATCCACGGTGAGCCGGCGTATCGCCTTGCTGGAAGAACGCCTGGGCGTGCGCTTGCTCAACCGCACCACGCGCAAGCTGCGTCTGACCGAGGTCGGCCAGGCCTATTACGACCGCTGCCGGCAGATCATGCTGGATTTCGCCGAGGCCGAGCAGGCGGTCATGCAGTTGCAGCAGGAACCGTCGGGCCTGCTGCGGATCACCGCGCCGATCGAGTTCGGCCAGTTGCTGCTGGGGCGGGTCCTGGGCGAGTTCATGCGCCAATACCCGCAGATCACTGCCGAGGTGGAGCTGACCTCGCGCTACGTCGATCCGGTGGAGGAGGGCGTGGATATCGCCATCATGGTCGGCCAGCCGCAGGATTCCACGCTGATCGGCCGCAAGCTGTTCGAGACCGCCCGGCGCCTGTGCGCCAGTCCCGGCTATCTGGCCGCCCACGGTACGCCGCGCACGGTACAGGACCTGGCCAACCACCGGGCGATCCTGCTGCCCCACGACTCGCCGCGTTACTGGCCGGTGCAGGGGGAGAGCGTCCCCTGCCAGCGCGTGCTCTCCTGCAACAACATCACCTTTGCCCGGGAGGCCGCGATGGCCGGGGCGGGGATCGCGGGGTTGCCGTTGCTGATCACCGAACAGGCGGTGCGCAGCGGGCGTCTGGTGGAGCTGCTGCCCGAGGCGCGGCTGCCGGTCGGCGAGCTGTACGCGGTCTATCCGTCACGGCGTTTCCAGGCCATGAAGGTGAAGGCGTTCCTCGATTTCCTCATGGGCAACCTGCGGATCGAAGGCGGCCACTACGCTGGAGCCTACGGCAGCGCGCCTGTTAACATCGCCGCTTTGATCGATCCCTCTGTTCGAGAGCTTCCATGA	MGLDDALIFTRVVECHSFTQAAQSLGMQKSTVSRRIALLEERLGVRLLNRTTRKLRLTEVGQAYYDRCRQIMLDFAEAEQAVMQLQQEPSGLLRITAPIEFGQLLLGRVLGEFMRQYPQITAEVELTSRYVDPVEEGVDIAIMVGQPQDSTLIGRKLFETARRLCASPGYLAAHGTPRTVQDLANHRAILLPHDSPRYWPVQGESVPCQRVLSCNNITFAREAAMAGAGIAGLPLLITEQAVRSGRLVELLPEARLPVGELYAVYPSRRFQAMKVKAFLDFLMGNLRIEGGHYAGAYGSAPVNIAALIDPSVRELP				NA	NA	NA	NA	NA
BMS010_06291	1482	gltX_2	COG0008	Glutamate--tRNA ligase	ATGACCACCGTTCGTACCCGCATCGCGCCGTCGCCCACCGGCGACCCGCACGTCGGCACCGCCTATATCGCCTTGTTCAACCTCTGCTTCGCCCGTCAGCACGGTGGCCAGTTCATCCTGCGCATCGAAGACACTGATCAGTTGCGTTCGACCCGCGAGTCCGAACAGCAGATCTTCGATGCGTTGCGCTGGCTCGGCATCGAGTGGGACGAAGGCCCGGACGTCGGCGGCCCGCATGGTCCCTACCGGCAGAGCGAGCGGGGCGAGATTTACCAGAAGTACTCAAAGGAGTTGGTGGAGAAGGGCCATGCCTTCCATTGCTTCTGCACCCCCGAGCGCCTCGATGCGCTGCGCGCCGAGCAGATGGAGCGCAAGGAAACCCCGCGCTACGACGGCCATTGCATGCATCTGTCCGCCGAGGAGGTGAACCGCCGCCTGGCGGCCGACGAGTCCAACGTGGTGCGCATGAAGGTGCCGACCGAGGGCGTCTGCGTGGTGCCGGACATGCTCCGCGGCGACGTGGAGATCCCGTGGGACCGCATGGATATGCAGGTGCTGATGAAGGCCGATGGCCTGCCGACCTACTTCCTGGCCAACGTGGTGGACGACCACCTGATGGGGATCACCCATGTGTTGCGTGGCGAGGAATGGCTGCCTTCGGCGCCGAAGCTGATCAAGCTCTACGAATACTTCGGCTGGGAGCAGCCCAAGCTCTGCTACATGCCGCTGCTGCGTAATCCGGACAAGAGCAAGCTGTCCAAGCGCAAGAACCCGACTTCGATCACTTTCTACGAACGCATGGGCTTCCTGCCCCAGGCGATGCTCAACTACCTGGGCCGGATGGGCTGGTCGATGCCGGACGAGCGCGAGAAGTTCAGCCTCGCCGAGATGATCGAGCATTTCGATATCCAGCGGGTTTCCCTGGGCGGGCCGATCTTCGACCTGGAGAAGCTGTCCTGGTTGAACGGTCAGTGGCTGCGCGAGCTGAGCGTCGAGGATTTCGCCGCCGAAGTGCAGAAATGGGCGTTGAACCCCGAGTATCTGATGAAGATCGCCCCGCACGTCCAGGGGCGGGTGGAGACCTTCAGCCAGATCGCCCCGCTGGCCAGCTTCTTCTTTGCCGGCAGCGTGCCGCTGGATGCCCGGCTGTTCGAGCACAAGAAGCTGTCGCCCGACCAGGTGCGCCAGGTGATGCAGTTGATCCTCTGGAAGCTGGAAGCCCTGCGCCAGTGGGAGAAGGACCGGATCACCGGCTGTATCCAGGCGGTGGTCGAGCACCTCGAGCTGAAGCTGCGCGACGCCATGCCGCTGATGTTCGCTGCCATTACCGGGCAGGCCAGTTCCGTTTCGGTGCTGGATGCGATGGAAATCCTCGGGCCGGACCTGACCCGCTTCCGCCTGCGCCAGGCCATCGAACTGCTCGGTGGTGTGTCGAAGAAAGAGAACAAGGAGTGGGAGAAGCTGCTGGCTGCCATCGGCTGA	MTTVRTRIAPSPTGDPHVGTAYIALFNLCFARQHGGQFILRIEDTDQLRSTRESEQQIFDALRWLGIEWDEGPDVGGPHGPYRQSERGEIYQKYSKELVEKGHAFHCFCTPERLDALRAEQMERKETPRYDGHCMHLSAEEVNRRLAADESNVVRMKVPTEGVCVVPDMLRGDVEIPWDRMDMQVLMKADGLPTYFLANVVDDHLMGITHVLRGEEWLPSAPKLIKLYEYFGWEQPKLCYMPLLRNPDKSKLSKRKNPTSITFYERMGFLPQAMLNYLGRMGWSMPDEREKFSLAEMIEHFDIQRVSLGGPIFDLEKLSWLNGQWLRELSVEDFAAEVQKWALNPEYLMKIAPHVQGRVETFSQIAPLASFFFAGSVPLDARLFEHKKLSPDQVRQVMQLILWKLEALRQWEKDRITGCIQAVVEHLELKLRDAMPLMFAAITGQASSVSVLDAMEILGPDLTRFRLRQAIELLGGVSKKENKEWEKLLAAIG	PGPT0008460_2271	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0008460-gltX-K01885	NA	NA
BMS010_06296	543			hypothetical protein	ATGACCGACAAAAAAGCCCAGACCCGCGAACGCATCCTGTCCGCTGCCAGTGCCGCGCTTACTCGGCGTGGCCCGGCCGAACCCAGCGTAGGGGACGTGATGGGCGCGGCCGGTTTGACCGTCGGTGGCTTCTACGCGCACTTCGAAAGCAAGGATGCGCTGATGCTGGAGGCCTTCAGCCAGACGCTCCGGCGGCGGCGTGCCCTGATGGGGGAGCTGGACCGGAGCTTGCCGGCATCCGAGCGGCGTGCCCTGGCGGCGGCGTTCTATCTCTCACGTAAGCACCGCGATGCGGAAACCGGTGAGGCGTGTCCGCTTCCCAGTTCGCTGGCCGAGTTGGCGCATATGCCGGAAGGCTTTCGCGCCGTATTGGCCGAGCATCTGGAGTTGGTCATGGCGGAACTCGCCGACAGCCCGGAGGAGGCCGACAAGGTCCTGGCGGACATGGCGTTGATGGTGGGCGGTTTGGTGCTGGCACGGGCGCTGGGGGCGGGCGAGATGTCCGACCGGGTGCTGCGCGCGGCGAAATCGGCAGTGGTTTGA	MTDKKAQTRERILSAASAALTRRGPAEPSVGDVMGAAGLTVGGFYAHFESKDALMLEAFSQTLRRRRALMGELDRSLPASERRALAAAFYLSRKHRDAETGEACPLPSSLAELAHMPEGFRAVLAEHLELVMAELADSPEEADKVLADMALMVGGLVLARALGAGEMSDRVLRAAKSAVV				NA	NA	NA	NA	NA
BMS010_06297	861	rutD_2		Putative aminoacrylate hydrolase RutD	ATGAGCAGCTTGAACTGGGTTCGCGGTATCAACGCCACCTTGGGCTGGGTGGCTCCGCATGCGGTGGCGAGCAGAATGCGTCGCGAGTTCATGACGCCCCGCGATCTGCCTCCGCGGAATTGGGAGCTGCCGCTGCTGGGCAGTGCGGAACGCATAACGCTGCGCTTTGGCCTGTCCGCGCTGCGCTGGGGAAGCGGGCCCGCCGTCTTGCTGATGCATGGCTGGGAAGGGCGGCCGACGCAGTTCGCCGCGCTGATCGAGGCGCTGGTCCGGGCCGGTTACGCCGTGGTTGCGCTGGATGGACCGGCCCATGGACGCTCGCCGGGGCAGGAGGCCAGTGTGGTCCTGTTCGCTCGCGCTGTGCTCGAAGCGGCCGGGGAGCTGCCGCCGCTGAAAGCGGTGATCGGGCATTCCATGGGTGGTGCCAGTGTGCTGCTCGCAACCCAGCTGGGGTTGCGTAGCGAGGCGGTGGTGACCATCGGGACGCCTAGCCGGATATTGACCGTCCTGCGCCAGTTCGCCCGCTTCATGGCTCTGCCGCCCTTGGCTCGGGCGCACTTCGTCCGGCTGGTCGAGCAACACGCCGGTATGCCGGCCGCGCACTTGGACGTGACGCGCTATCAGTTGGATATGCGAGGCCTGGTGATCCATGCGGCCGACGACACCATGGTGCCGGCGAGCGAAGCGGAGCGAATCCACGAAAACTGGTTCGACAGTCGTCTGCTGTTGCTGGAGTCGGGTGGGCATCACCGGGTTCTTGGCGATCCCCGCGTAGTGAGCGCGGTCATGGAGCTGCTGGAAGAGCAAGCTGGTGCTCGAGGGACGGCGCTGCGTCAGGATGCGTTCTTCCAGGCGAGGTAA	MSSLNWVRGINATLGWVAPHAVASRMRREFMTPRDLPPRNWELPLLGSAERITLRFGLSALRWGSGPAVLLMHGWEGRPTQFAALIEALVRAGYAVVALDGPAHGRSPGQEASVVLFARAVLEAAGELPPLKAVIGHSMGGASVLLATQLGLRSEAVVTIGTPSRILTVLRQFARFMALPPLARAHFVRLVEQHAGMPAAHLDVTRYQLDMRGLVIHAADDTMVPASEAERIHENWFDSRLLLLESGGHHRVLGDPRVVSAVMELLEEQAGARGTALRQDAFFQAR				NA	NA	NA	NA	NA
BMS010_06298	450			hypothetical protein	ATGAACTGGGATCTTGCTAACCCCTTCGTGATCGATATCCGTGTCGAAACGGACGACATCGATGGCCTCGGACATGCCAATAACGCGGTCTACGTCAGTTGGCTGGAGCGTTGCGCATGGCGTCATTCCCAGAGCCTGGGGCTGGACCTGAGCGAATATCGCCGATTGGATCGCGCCATGGCGGTGGTGCGCCATGAGATCGACTACCTGGCCGCCGCCTACGAAGGGGACGAGCTGCAACTGGCCACCTGGATCGTCGAGTCGGACCAGCGCGTGAAGATGCAGCGGCGTTTCCAGTTGGTGCGGCCGGCCGATGCGGCGACTCTGCTGCGCGCATCGACCACCTTCGTTTGCATCGAACTGTCCAGTGGCAAGCCCAAGCGCATGCCGGTGGAGTTCGTCGAGGGTTATGGACAGGCGTTGATCCAGCCATATCCGCTGGAACTCTAA	MNWDLANPFVIDIRVETDDIDGLGHANNAVYVSWLERCAWRHSQSLGLDLSEYRRLDRAMAVVRHEIDYLAAAYEGDELQLATWIVESDQRVKMQRRFQLVRPADAATLLRASTTFVCIELSSGKPKRMPVEFVEGYGQALIQPYPLEL	PGPT0001850_3022	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107	NA	NA
BMS010_06299	375			hypothetical protein	ATGAGAGCTATCGTCCCCTGCGTCGTCCTGATACTGGCCCTGTTCGCCACCGGCATTGCCGGCGGCGAATCCATTACTCCGGACAGCAGCGCACGGCTGATCGTCGAACGCGACAGCTCGTCGGCAAATGCCTGCGACATCGAGCTGTATGTGCAGAACAAACTGGCCGCCCAGCTAGGCCCCGGAGAACGGACGGTACTGCAGGTCGCAGCGGGAGAAGTCTCGCTGGCGGTCACTCAGGCCAGCTCCGGCCCCTGCCTCGAGGCAGCTTCGCCCAGCCGCCCACAGTCCGCCCTGTTCGCACCGGGGCAAACCCGGGCGTACCGGATCATGCAGGATGCCTCCGGTCTGTTTCTCTCTCCGGCTTCCGAATGA	MRAIVPCVVLILALFATGIAGGESITPDSSARLIVERDSSSANACDIELYVQNKLAAQLGPGERTVLQVAAGEVSLAVTQASSGPCLEAASPSRPQSALFAPGQTRAYRIMQDASGLFLSPASE				NA	NA	NA	NA	NA
BMS010_06300	975	dusC	COG0042	tRNA-dihydrouridine(16) synthase	ATGCAGATCGCTCTGGCGCCCATGGAGGGGCTGGTCGACGAGATTCTTCGCGATGTCCTGACCCGTGTCGGCGGCATCGATTGGTGCGTGACCGAATTCATCCGAGTTTGCGACCGTCTGCTGCCTGCCGCCCATTTCCATAAGCTGGCTCCGGAGCTGGCGGTCGGATCGCGCACCCGTGCCGGCACGCCCATGCGCGTGCAACTGCTCGGCTCCGATCCGGTGTGCCTGGCGGAAAACGCCGCCTTTGCCTGTGAGCTGGGCGCGCCGGTGATAGACCTCAATTTCGGCTGCCCGGCAAAGACGGTGAACCGCTCGCGGGGTGGGGCAGTGCTGCTCAAGGAGCCTGAGCTGCTCCATGCGATTCTCTGCGAGGTCCGGCGAGCGGTGCCGCGGGAGATTCCGGTCACGGCGAAAATGCGCCTGGGTTTCGACAGCCCGGACGGGGCGCTGGACTGCGCGCGGGCCCTGGCTGATGGCGGCGCGGCGCAGATCGTGGTGCACGCCCGGACCAAGGCGGAGGGCTACCGGCCGCCGGCCCACTGGGAGTGGGTGGCGCGGGTCCAGGAAGCGGTCAAGGTGCCGGTGTTTGCCAACGGTGAAATCTGGAGCCTGGCCGACTGGCAGCGTTGCCGTGAGGTGAGCGGCGTCGATGACGTCATGCTCGGCCGGGGCCTGGTATCCCGCCCGGACCTGGCCCGGCAGATCGCTGCCGTACGAGCAGGGCAGGTGCCCTGGGAAATGACCTGGGGCGAATTGCTGCCGTTGTTGCGTGACTTCTGGCTGCAGGCCCGGCGCAAGCTGTCGCCGCGCTACGCGCCGGGGCGCCTGAAGCAGTGGTTGGCCATGCTGACCCGCAGCTACCCGGAGGCGGTGGTGCTGTTCGCCGAAGTTCGCCGGGAAAGCGATTGCGCGCGCATCGATGCCTTGTTGGGCATCTCCGATCCGCTCGCAGGCCTGGCGACGGCGGTATGA	MQIALAPMEGLVDEILRDVLTRVGGIDWCVTEFIRVCDRLLPAAHFHKLAPELAVGSRTRAGTPMRVQLLGSDPVCLAENAAFACELGAPVIDLNFGCPAKTVNRSRGGAVLLKEPELLHAILCEVRRAVPREIPVTAKMRLGFDSPDGALDCARALADGGAAQIVVHARTKAEGYRPPAHWEWVARVQEAVKVPVFANGEIWSLADWQRCREVSGVDDVMLGRGLVSRPDLARQIAAVRAGQVPWEMTWGELLPLLRDFWLQARRKLSPRYAPGRLKQWLAMLTRSYPEAVVLFAEVRRESDCARIDALLGISDPLAGLATAV	PGPT0013740_4	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
BMS010_06301	747	ygfF		putative oxidoreductase YgfF	ATGTCGAAAGTCATGCTGATCACAGGGGCGAGCCGGGGCATCGGCGCCGCCACCGCCCGCCTCGCCGCCGCACAGGGCTATGCGCTGTGCCTCAATTACCGGAAGCGCCGCGAAGCGGCCGAGGCGCTGCTGCGCCAGCTCGAAGCCTCGGGGACCGAGGCGATTGCCGTGGCCGCCGATGTCGCGGACGAGGAACAGGTGATGCGTCTCTTCGAGCGCCTGGACCAGGCCTTCGGCCGCCTGGACGTGCTGGTCAACAATGCCGGCCTGCTGGAGCCCCAGGCACGGCTGGAGCAGATGGACGCCGCGCGCCTGCAGCGTGTCTTCGGCGCCAACGTGATCGGCAGCTTCCTCTGCGCCCGCGAGGCGGTAAAGCGCATGTCCACCCACCATGGCGGCCAGGGCGGCGCCATCGTCAATCTCTCCTCGATGGCTGCCCGTCTCGGTGCTCCCAACGAGTACATCGACTACGCCGCCGCCAAGGGCGCCATCGACAGCCTGACCATCGGCCTGGCCAAGGAGGTCGCGGCGGAGGGCATCCGGGTGAACGGGGTGCGCCCCGGCCTCATCCACACCGATATCCATGCCAGCGGCGGCGAACCGGGACGCATCGAGCGGCTCAAGTCCAGCGTGCCGCTGGGGCGCGGCGGCGATCCCGAGGAGGTGGCCCGGGCCATTCTCTGGCTGGCTGGCGACGAGGCGTCCTATACCACCGGCACCCTGCTCGACGTCAGCGGAGGCCGCTGA	MSKVMLITGASRGIGAATARLAAAQGYALCLNYRKRREAAEALLRQLEASGTEAIAVAADVADEEQVMRLFERLDQAFGRLDVLVNNAGLLEPQARLEQMDAARLQRVFGANVIGSFLCAREAVKRMSTHHGGQGGAIVNLSSMAARLGAPNEYIDYAAAKGAIDSLTIGLAKEVAAEGIRVNGVRPGLIHTDIHASGGEPGRIERLKSSVPLGRGGDPEEVARAILWLAGDEASYTTGTLLDVSGGR	PGPT0003180_11804	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0003180-ymfI|fabG|efpI-K00059	NA	NA
BMS010_06303	447	ibpB	COG0071	Small heat shock protein IbpB	ATGAGCACTGCATTTTCCATGGCTCCGTTGTTCCGTCAGTCCATCGGTTTCGACCGGTTCAACGATCTGTTCGAAGCGGCCCTGCGCAATGACGCGGGCAGTTCGTACCCGCCCTACAACATCGAAAAGCACGGTAATGACGAGTACCGCATCGTCGTCGCGGCTGCCGGCTTCCAGGAAGCCGATCTGGAGTTGCAGGTCGAGCGCGGCGTGCTGACGGTCAGTGGCGGCAAGCGCGATCGCAGCGACGAGAACGTCACCTATCTGCACCAGGGCATCGCCCAGCGCGCGTTCAAGCTGTCGTTCCGTCTGGCCGACCACATCGAAGTCAAGCGGGCAGCGCTGGTCAACGGCCTGCTGAACATCGATCTGGTGCGCAATGTGCCCGAAGAAGCCAAGCCGAAGCGCATCCCGATCGGCGGCGAATTGCCGGCTCTGGAACACTGA	MSTAFSMAPLFRQSIGFDRFNDLFEAALRNDAGSSYPPYNIEKHGNDEYRIVVAAAGFQEADLELQVERGVLTVSGGKRDRSDENVTYLHQGIAQRAFKLSFRLADHIEVKRAALVNGLLNIDLVRNVPEEAKPKRIPIGGELPALEH	PGPT0014641_1059	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014641-ibpA-K04080	NA	NA
BMS010_06304	2928			hypothetical protein	ATGGCCAAACCCACTGACCGCACGCCTCCACTCCCCTACATTCCGGCACTCGACCCTGCGGAGTTCGAACAGACCTGGCAAGACGCGCCACGCCTGCTCGCCGCACTGAACGGTGCCCGGTTGGGGGCCTGGTCGTGGGACATCGAAAACGGGCAGGTCAGTTGGTCGCGCGGCGCCCAGGCGCTGTTCGGGCTGGACCCGCGGCGCCCATTGAGCCAGCGGGTCGACTACATCGACCTGATCCCTGAAGAAGACCGCGCCGCGGTGATGCGCTCCTTCCAGGCGGTGCTGACCGGTGCCCCGGAAACCCACTCGCTGCGCCACCGTATCCGCTGGCCGGACGGCAGCCTGCACTGGCTGGAAATCAGCGGCCGCCTGCAGCCGGAAAGCGATCGCCCGATGATGATCGGCGTGATCCGCGACATTACCCTGCAGCGGGCCCAGGAGAGCGCGCTGGAAGAAAGCCAGGAGCGCCTGACCCTGGCGCTGGAGTCCGCCGACCTGGGCACCTGGGACTGGCACATTCCCAGCGGCATGCTCTACGGCTCCGCCCGCGCGGCGAACCTGCACGGATTACCGGCGGAGCCCTACCACGGCGACTTCAACCAGTTCTTCCGGCATGTTCCGGAGGAAGACCGTGAGTTCATGCGCCAGGTCTACAAGGAACTCCTGGCGGGCAAGCGCCAGGAATACCAGATCACCTACCGGATGAACCTGAGCGCCGGCGATGTGCATCACCTGGAGAGCACCGCCCGCCTCTACCGCGACGAGGCCGGGCAGCCGCTGCGCATGGCCGGCATTATCATCGACATCACCGAACGGGTGCTGCGCGAACAGCGCCTGGCAGCCTCGGAGGAGAAATTCGTCACCCTCTTCCAGGCCAGCCCGGAACCCATTTGCGTCACCCGCCTCAGCAACGGCGAATTCATCGAGATCAACCCCAGCTTCAGCGAAACCTTCGGCTGGCAGCCGGAGGACATCGTCGGCCGCAACGCGCCCGAGATCGGCTTCTGGGTCGACCTGGAGCAGCGCCGCGCGCTCTACGAACGACTGCACCGGCAGCAGGGCCTGGATAACGTCGAGGCGCGCTTTCGCACCAAGGATGGCCGCGAGCTGACCTGCATGGTCTCCACCCGCTTCATCCATGTAGAGCGTCAGCCCTGCATCACCACCACCTTTCGCGATATCACCGAGCATCAGCGCGCCGAAGCCGCGCTCAAGGCCAGCGAAGAGAAATTCGCCAAGGCGTTCCACTCCAGCCCGGACGCGATCACCATCACCGAGCGGGACACGGCTCGCTATATCGAGGTCAACGAGGGTTTTTCCCGCCTGACCGGCTACCGGCCGGAAGAAGTGATCGGCCGCACCGCCTACGACATGAATGTCTGGGCCGACCCGACTGAACGCGCCTTGCTGCTGGAAAAACTGCAGCGCGACGGCCGCGTGCACCACTTGGAGATGCACGGCCAGCACCGTGACGGCAGCGTCCGGGTCGTGGAGGTATCGGTCGAACCGATCAACCTGGAAGGCACCGACTGCCTGCTTCTCACCGCCCGCGACATCAGCGAACTGAAAAACGCGCAAGCGCAGATCCATCACCTGGCCTATCACGACTCGCTGACCAACCTGCCCAACCGAGCCCTGCTGATCGACCGCCTGACCCAGCAGATCTCGCTGCTGAAGCGCCACGACCTGCGGGGTGCCCTGCTGTTCCTCGATCTGGATCACTTCAAGCACATCAACGACTCGCTGGGCCACCCGGTCGGCGATGCCGTGCTGAAGATGGTCACGGCGCGACTGGAAGCCAGCGTACGCCTGGAAGATACGGTGGCCCGGCTGGGAGGCGATGAGTTCGTCGTGCTGCTTTCCGGCCTCGAAGGCAAACGCTCCGAAGTGACGCGGCACGTGCGCCAGATCGCCGACAAGCTGCGCAAGCTGCTGGCCGAACCCATGCTGCTCGACGGCCAGCGCCTGCAGGTCACGCCCAGCATCGGCATCGCTCTCATTCCCGACCACGGCAAGACGCCCGCAGACCTGCTCAAGCGCGCCGACATTGCCCTCTACCGCGCCAAGGATTCCGGCAGGAACGCCATTCAGCTGTTCCGCACCACCATGCAGGAAGCCGTCAGCGAGCGGCTGCGCCTGGAGAACGATCTGCGCCTGGCGGTCACCCGTGGCGAATTCGAGCTGTATTTCCAACCGCAGGTGGACGCCCGCAGCAACGCCATCGTCGGCGCCGAAGCCCTGATTCGCTGGCAGCACCCGAGCCTTGGCCAGCAGTCGCCGGCCCTGTTCATCCAGCTACTGGAGGAAAGCGGACTCATCCTGGAGGTCGGCGCCTGGATCCTCAGCGAAGCCAGCCAGATCTGCGCCCAACTGCTCCAGGATGGCCTGGTGGACGAGGACGACTTCAGCCTCTGCATCAACATCAGTCCGCGCCAGTTCCGCCACAACGACTTCGTCGAGCGGGTGGAAACCTGTCTGACCCGCAGTGGCGTGCCCAAGCAGATGGTGACCCTGGAAATCACCGAAGGCATCGTGATTCAGAACCTCGAGGACACCATCGCCAAGATGCATCGCCTCAAGCGCCAGGGTGTCAGCTTCGCGATGGACGACTTCGGCACCGGTTATTCCTCGCTGACCTACCTCAAACGGCTGCCGGTGGACGTGCTGAAGATCGACCAGTCCTTCGTCCGCGATGCCACCACGGACCCCAACGATGCCGAGATCATCCGCGCCATCGTGGCCATGGCACGCAGCCTGGGGCTGGAAATGATCGCCGAAGGCGTCGAGCAAGCCGACCAGTTGGACTTTCTCCAGCAGCAGGGCTGCCATCTCTACCAGGGCTACCTGTTCAGCAAGCCCTTGCCCCTCAATGAATTCCGCGCCCTGCTGGTTCGCAAACCGGAACAATCGGTGCAAGCCTGA	MAKPTDRTPPLPYIPALDPAEFEQTWQDAPRLLAALNGARLGAWSWDIENGQVSWSRGAQALFGLDPRRPLSQRVDYIDLIPEEDRAAVMRSFQAVLTGAPETHSLRHRIRWPDGSLHWLEISGRLQPESDRPMMIGVIRDITLQRAQESALEESQERLTLALESADLGTWDWHIPSGMLYGSARAANLHGLPAEPYHGDFNQFFRHVPEEDREFMRQVYKELLAGKRQEYQITYRMNLSAGDVHHLESTARLYRDEAGQPLRMAGIIIDITERVLREQRLAASEEKFVTLFQASPEPICVTRLSNGEFIEINPSFSETFGWQPEDIVGRNAPEIGFWVDLEQRRALYERLHRQQGLDNVEARFRTKDGRELTCMVSTRFIHVERQPCITTTFRDITEHQRAEAALKASEEKFAKAFHSSPDAITITERDTARYIEVNEGFSRLTGYRPEEVIGRTAYDMNVWADPTERALLLEKLQRDGRVHHLEMHGQHRDGSVRVVEVSVEPINLEGTDCLLLTARDISELKNAQAQIHHLAYHDSLTNLPNRALLIDRLTQQISLLKRHDLRGALLFLDLDHFKHINDSLGHPVGDAVLKMVTARLEASVRLEDTVARLGGDEFVVLLSGLEGKRSEVTRHVRQIADKLRKLLAEPMLLDGQRLQVTPSIGIALIPDHGKTPADLLKRADIALYRAKDSGRNAIQLFRTTMQEAVSERLRLENDLRLAVTRGEFELYFQPQVDARSNAIVGAEALIRWQHPSLGQQSPALFIQLLEESGLILEVGAWILSEASQICAQLLQDGLVDEDDFSLCINISPRQFRHNDFVERVETCLTRSGVPKQMVTLEITEGIVIQNLEDTIAKMHRLKRQGVSFAMDDFGTGYSSLTYLKRLPVDVLKIDQSFVRDATTDPNDAEIIRAIVAMARSLGLEMIAEGVEQADQLDFLQQQGCHLYQGYLFSKPLPLNEFRALLVRKPEQSVQA	PGPT0023624_512	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-GGDEF|EAL|PAC|PAS-DOMAIN-CONTAINING_PROTEIN,PGPT0023624-GGDEF|EAL|PAC|PAS_domain_containing_protein-NA	NA	NA
BMS010_06305	888	cmpR_4		HTH-type transcriptional activator CmpR	ATGGATCTCGCCAGCCTCAACGCCTTTATCGCCATTGCCGAGACGGGCAGCTTCTCGGAGGCGGGCGAACGGCTGCACCTGACCCAGCCGGCCGTCAGCAAACGCATCGCGGCGTTGGAACAGCAGCTCGGCGTCCGCCTGTTCGACCGCCTCGGCCGCCAGGTAAGCCTCACCGAGGCCGGACGCGCACTCCAACCACGCGCCTACCAGATTCTCGGCGTACTGGACGACACCCGCCGGGCGCTTTCCAACCTCAATGGCGAGATCGGCGGCCGTCTGACGCTGGCCACCAGTCACCACATCGGCCTTCACCGCCTGCCGCCCCTGCTCCGCGCCTTTACCCGGGCACACCCCCAGGTGGCCCTGGATATCCAGTTCCTCGATTCCGAAGTGGCTTATGAAGAAGTCCTGCACGGCCGCGCCGAGCTGGCGGTGATCACCCTGGCGCCGGAAACCCACGCCACGGTCAAGGCGGTGCCGGTCTGGGACGATCCTCTCGACTTCGTCGCGGCGCCGGAACATCCCCTGGCCCGGAACTCAGCCATTGGACTGCCGGATATCGCCCGGCATCCGGCAGTCTTTCCCGGCGGCAACACCTTCACCCATCACATCGTACGGCGGCTGTTCGAGGCCGAAGGCCTGACGCCGAACATCGCCATGAGCACCAACTACCTGGAGACCATCAAGATGATGGTGTCCATCGGACTGGCCTGGAGTGTGCTGCCGCGCACCATGCTGGACGATCAGGTGGCACGCCTGCCGTTGCCGGGCATCCAGCTCAGCCGGCGGCTCGGCTATATCCTGCACACGGAACGGACCCTGTCGAACGCTGCCAAAGCCTTCATGGCCCTGCTCGATGAGCAGCGCAGCGGCCTTGCATGGGAATAG	MDLASLNAFIAIAETGSFSEAGERLHLTQPAVSKRIAALEQQLGVRLFDRLGRQVSLTEAGRALQPRAYQILGVLDDTRRALSNLNGEIGGRLTLATSHHIGLHRLPPLLRAFTRAHPQVALDIQFLDSEVAYEEVLHGRAELAVITLAPETHATVKAVPVWDDPLDFVAAPEHPLARNSAIGLPDIARHPAVFPGGNTFTHHIVRRLFEAEGLTPNIAMSTNYLETIKMMVSIGLAWSVLPRTMLDDQVARLPLPGIQLSRRLGYILHTERTLSNAAKAFMALLDEQRSGLAWE				NA	NA	NA	NA	NA
BMS010_06306	1428	leuC_1	COG0065	3-isopropylmalate dehydratase large subunit	ATGGCTGGCAAAACGCTCTACGACAAGCTCTGGGACATGCATGAGGTGAAGCGGCGCGACGATGGCTCGTCGCTGATCTACATCGATCGCCACATTCTCCATGAGGTGACTTCTCCGCAGGCGTTCGAAGGGCTGCGACTGGCCGGGCGCAAGCCGTGGCGGATCGACGCCAACATCGCCACGCCGGATCACAACGTGCCGACCACCCAGGCGGAGCGCAAGGGTGGCCTCGACGCCATCGCCGACGAAGTCTCGCGCATCCAGGTCCAGACCCTGGACGAGAATTGCGACGATTTCGGCATCCTCGAATTCAAGATGAACGACGTGCGCCAGGGCATCGTCCATGTGGTCGGGCCGGAGCAGGGCGCCACGCTGCCGGGCATGACCGTGGTCTGCGGCGATTCGCACACCTCCACGCATGGCGCCTTCGGTGCTCTGGCCCATGGCATCGGCACTTCCGAGGTGGAGCATGTGCTGGCTACCCAGTGCCTGGTGGCGAAGAAGATGAAGAACATGCAGGTGCGCGTCGAGGGCAAGCTGCCGCTCGGCGTCACCGCCAAGGATATCGTCCTGGCCGTTATCGGTCGGATCGGTACCGCCGGTGGCAACGGTCATGCCCTGGAATTTGCCGGCAGTGCCATCCGTGACCTGTCCATGGAAGGCCGCATGACCATCTGTAACATGGCCATCGAAGCCGGCGCTCGTGTGGGGCTGGTGGCGGTGGACGAGAAGACCATCGCCTACGTCGAAGGTCGTCCCTTCGCGCCCAAGGGGGCGCTCTGGGAACAGGCCGTGGCGCAGTGGCGCGGGCTGGTATCCGATCCGGACGCGCATTTCGATACCGTGGTCGAGTTGCGTGCGGAAGACATCAAACCGCAGGTCAGCTGGGGGACGTCGCCGGAAATGGTGGTCGCGGTCGATCAGCGCGTGCCCGACCCCGCTGCCGAGGCCGATCCGGTCAAGCGCGATTCGATTGTCCGTGCCCTGAAATACATGGACCTAGCGGCCAATCAGCCGATTACCGACATCACGCTGGATCGCGTTTTCATCGGTTCCTGCACCAACTCGCGTATCGAAGACCTGCGTGCCGCGGCGGAAGTCGCCAAGGGCCGCAAGGTCGCTCCGACTGTCAAGCAGGCGCTGGTGGTGCCGGGCTCCGGTCTGGTCAAGGCGCAGGCCGAACAGGAAGGGCTGGACAAGATCTTCATCGAGGCCGGTTTCGAATGGCGTGAGCCGGGCTGCTCGATGTGCCTGGCGATGAACCCGGATCGCCTGGAGAGCGGCGAGCATTGCGCCTCCACCTCCAACCGGAACTTCGAAGGCCGCCAGGGCGCCGGTGGCCGGACCCACCTGGTGAGCCCGGCGATGGCCGCCGCTGCCGCGGTGGCTGGGCATTTTGTCGATGTGCGTGAATTGATGCAGGCCTGA	MAGKTLYDKLWDMHEVKRRDDGSSLIYIDRHILHEVTSPQAFEGLRLAGRKPWRIDANIATPDHNVPTTQAERKGGLDAIADEVSRIQVQTLDENCDDFGILEFKMNDVRQGIVHVVGPEQGATLPGMTVVCGDSHTSTHGAFGALAHGIGTSEVEHVLATQCLVAKKMKNMQVRVEGKLPLGVTAKDIVLAVIGRIGTAGGNGHALEFAGSAIRDLSMEGRMTICNMAIEAGARVGLVAVDEKTIAYVEGRPFAPKGALWEQAVAQWRGLVSDPDAHFDTVVELRAEDIKPQVSWGTSPEMVVAVDQRVPDPAAEADPVKRDSIVRALKYMDLAANQPITDITLDRVFIGSCTNSRIEDLRAAAEVAKGRKVAPTVKQALVVPGSGLVKAQAEQEGLDKIFIEAGFEWREPGCSMCLAMNPDRLESGEHCASTSNRNFEGRQGAGGRTHLVSPAMAAAAAVAGHFVDVRELMQA	PGPT0001442_1147	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001442-leuC-K01703	NA	NA
BMS010_06307	645	leuD1_2	COG0066	3-isopropylmalate dehydratase small subunit 1	ATGAAAGCCTTTACCCAACACACTGGTCTCGTCGCACCGCTCGATCGCGCCAACGTCGATACCGATCAGATCATTCCCAAGCAGTTCCTGAAGTCGATCAAACGCACCGGGTTCGGTCCGAACCTGTTCGACGAATGGCGTTACCTGGATGTCGGCCAGCCCAACCAGGACAACTCCAAGCGTCCGATCAACCCGGACTTCGTGCTGAATTTCCCGCGCTACCAGGGTGCCAGCGTGTTGCTCGCCCGCGAGAACTTCGGCTGCGGTTCGTCCCGTGAACATGCGCCCTGGGCCCTGGACGAGTACGGCTTCCGCGCGATCATCGCGCCGAGCTTCGCCGACATCTTTTATAACAACAGCTTCAAGAACGGCCTGCTGCCGATCATCCTCGCCGAGAGCGACGTGGACGAGCTGTTCCAGCAATGCGAGGCCACAGAGGGCTATCGGTTGACCGTGGACCTCGCGGCGCAGACCGTGACGCGCCCGGATGGCAAGCAGTACGGCTTCGAGATCGACGCTTTTCGCAAGCACTGCCTGCTCAATGGCCTGGACGACATCGGCCTTACCTTGCAGGATGCCGATGCGATCAAGGGCTTCGAGGAAAGTTACCGGCAACGCAGTCCCTGGCTGTTTCGCGAAGCCTGA	MKAFTQHTGLVAPLDRANVDTDQIIPKQFLKSIKRTGFGPNLFDEWRYLDVGQPNQDNSKRPINPDFVLNFPRYQGASVLLARENFGCGSSREHAPWALDEYGFRAIIAPSFADIFYNNSFKNGLLPIILAESDVDELFQQCEATEGYRLTVDLAAQTVTRPDGKQYGFEIDAFRKHCLLNGLDDIGLTLQDADAIKGFEESYRQRSPWLFREA	PGPT0001443_774	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001443-leuD-K01704	NA	NA
BMS010_06308	315			hypothetical protein	ATGAAGCGCTTCCATATTGCGCTGGCGGTGGCCGATCTCGACGCGTCCATCGCCGATTACGATCGTCGCCTTGGCCAGCCCGCGACTGTGGTGGTGCCGGGTAAATACGCCATGTGGCGTACCGGGATACTTAACTTCTCGATCAACCAGATGCCCGAGCGCGCTGGAATGCTGCGCCATGTAGGGTTCGAGGACGACGACGCGGAAGGCTTTACCAGTACGCCGGACGTCACTGGCATCGAGTGGGAACACTTTTCCGCCCGCGAGCAGGATGAGCGCATCGCGGCAATCTATGGAGAGCGGATCGGCGCCTGA	MKRFHIALAVADLDASIADYDRRLGQPATVVVPGKYAMWRTGILNFSINQMPERAGMLRHVGFEDDDAEGFTSTPDVTGIEWEHFSAREQDERIAAIYGERIGA				NA	NA	NA	NA	NA
BMS010_06309	1083	leuB_2		3-isopropylmalate dehydrogenase	ATGAGCAAGCAGATTCTGATTCTTCCCGGCGACGGCATCGGCCCGGAGATCATGGCCGAAGCGGTGAAGGTACTGGAGCTGACCAACGACAAGTTCCAGCTCGGCTTCGAACTGAGCCATGATGTGATTGGCGGCGCCGCTATCGACAAGCACGGCGTACCGTTGGCTGACGAGACGCTGGCCCGTGCCAAGGCGGCCGACGCCGTATTGCTCGGTGCAGTCGGCGGGCCCAAATGGGACAAGCTAGAGCGCGATATCCGTCCTGAGCGCGGCCTGCTGAAGATTCGCTCGGCGCTGGGGCTGTTCGCCAACCTGCGGCCGGCCATCCTTTATCCGCAACTGGCCGAGGCTTCGACGCTCAAGCCGGAAGTGGTTGCGGGCCTGGATATCCTCATCGTTCGCGAGCTGACCGGCGGCATCTATTTTGGCCAGCCGCGCGAAACCCGCGTGCTGGAGAACGGCGAGCGTCAGGCTTTCGATACCTTGCCGTACAGCGAGAGCGAAATTCGCCGCATCGCCCGGGTCGGTTTCGACATGGCGCGTGTGCGCGGCAAGAAACTGTGCTCGGTGGACAAGGCCAACGTATTGGCTTCCAGCCAGTTGTGGCGCGAGGTCGTAGAGGAAGTGGCCAAGGATTATCCGGATGTCGAGTTGAGCCACATGTACGTGGACAACGCCGCCATGCAACTGGTGCGCGCGCCGAAGCAGTTCGACGTGGTGGTCACCGACAACATGTTCGGCGACATTCTGTCGGATGAGGCTTCCATGCTTACCGGTTCTATCGGCATGCTGCCTTCGGCTTCGCTGGATGCGAACAACAAGGGCATGTACGAGCCGTGCCACGGTTCCGCTCCCGACATCGCGGGGCAGGGTATCGCCAACCCGTTGGCGACCATTCTGTCGGTCTCGATGATGCTGCGTTACAGCTTCAGCCGGAGCGATGCAGCCGATGCCATCGAGCGTGCGGTCAGCGTGGTGCTGGATCAAGGGCTGCGTACCGGCGACATCTACTCCGAGGGCACCACCAAGGTCGGTACCGCCGGGATGGGCGATGCGGTAGTCGCGGCGCTGCGGAATCTGTAA	MSKQILILPGDGIGPEIMAEAVKVLELTNDKFQLGFELSHDVIGGAAIDKHGVPLADETLARAKAADAVLLGAVGGPKWDKLERDIRPERGLLKIRSALGLFANLRPAILYPQLAEASTLKPEVVAGLDILIVRELTGGIYFGQPRETRVLENGERQAFDTLPYSESEIRRIARVGFDMARVRGKKLCSVDKANVLASSQLWREVVEEVAKDYPDVELSHMYVDNAAMQLVRAPKQFDVVVTDNMFGDILSDEASMLTGSIGMLPSASLDANNKGMYEPCHGSAPDIAGQGIANPLATILSVSMMLRYSFSRSDAADAIERAVSVVLDQGLRTGDIYSEGTTKVGTAGMGDAVVAALRNL	PGPT0001441_1112	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001441-leuB-K00052	NA	NA
BMS010_06310	1113	asd	COG0136	Aspartate-semialdehyde dehydrogenase	ATGAAGCGTGTAGGTCTGATCGGTTGGCGCGGCATGGTCGGTTCCGTGCTCATACAGCGGATGCTGGAAGAGCGGGATTTCGACCTGATCGAGCCGGTGTTCTTTACCACCTCCAACGTCGGTGGGCAGGGGCCTGCCGTGGGCAAGGATATTGCCCCGTTGAAGGATGCCTACAGCATCGATGAGCTGAAAACCCTGGATGTGATCCTGACCTGCCAGGGCGGCGACTACACCAACGAGGTTTTCCCCAAGCTGCGCGAGGCCGGCTGGCAGGGCTATTGGATCGATGCGGCATCCAGCCTGCGCATGCAGGACGACGCGGTGATCGTCCTCGATCCGGTCAACCGCAAGGTGATCGACCAGTCGCTGAACGACGGCGTGAAGAACTACATCGGGGGCAACTGCACCGTCAGTCTGATGCTGATGGCGCTCGGCGGTCTGTTCGAGGCCGGGCTGGTCGAATGGATGAGTGCCATGACCTACCAGGCGGCATCCGGTGCCGGCGCGCAGAACATGCGCGAGCTGATCAAGCAGATGGGCGCGATCAACGGCTCGGTGGCCGATGACCTGGCTAACCCGGCCAGTGCCATCCTGGATATCGATCGTAAAGTGGCGGAGGCCATGCGCGGCGAAGCGTTCCCTGCTGAGCACTTTGGCGTGCCGCTGGCCGGCAGCCTGATTCCCTGGATCGACAAGGAACTGCCGAACGGCCAGAGCCGCGAAGAGTGGAAAGGCCAGGCCGAAACCAACAAGATTCTCGGCCGCTTCAAGAGCCCGATCCCGGTGGACGGTATCTGCGTCCGTATCGGCGCGATGCGTTGCCACAGCCAGGCGCTGACCATCAAGTTGAACAAGGATGTGCCGATTGCCGACATCGAAGGCATGATCAGCCAGCACAACCCTTGGGTGAAACTGGTGCCGAACCAGCGCGAGATCAGCATGCGCGAACTGACCCCGACTGCTGTAACCGGCACTCTGAGTGTTCCCGTAGGCCGGTTGCGCAAACTGAACATGGGGTCCCAATATCTGGGCGCCTTCACGGTGGGCGACCAGTTGCTCTGGGGGGCGGCGGAACCGCTGCGCCGCATGCTGCGCATCCTGCTGGAGCGGTAA	MKRVGLIGWRGMVGSVLIQRMLEERDFDLIEPVFFTTSNVGGQGPAVGKDIAPLKDAYSIDELKTLDVILTCQGGDYTNEVFPKLREAGWQGYWIDAASSLRMQDDAVIVLDPVNRKVIDQSLNDGVKNYIGGNCTVSLMLMALGGLFEAGLVEWMSAMTYQAASGAGAQNMRELIKQMGAINGSVADDLANPASAILDIDRKVAEAMRGEAFPAEHFGVPLAGSLIPWIDKELPNGQSREEWKGQAETNKILGRFKSPIPVDGICVRIGAMRCHSQALTIKLNKDVPIADIEGMISQHNPWVKLVPNQREISMRELTPTAVTGTLSVPVGRLRKLNMGSQYLGAFTVGDQLLWGAAEPLRRMLRILLER	PGPT0014045_961	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014045-asd-K00133	NA	NA
BMS010_06311	1026	usg	COG0136	USG-1 protein	ATGAGCCAGTCCTTCGATATCGCCGTGATCGGCGCCACCGGCACCGTCGGCGAAGCCCTCGTTCAGCTCCTCGAAGAGCGCGATTTCCCGGTTTCCACCTTGCACCTGCTCGCCAGTGGCGACTCCGCAGGCCAATCCGTGCCCTTCAGGGGTAAGAACCTGCGCGTGCGTGCCCTCGACGGGTTCGATTTTTCCCAGGTTCGTCTGGTCTTCTTCGCGGGTAGCCCGGCTGTTACACGAGAGTACGCCTCGCGTGCTTCTGAGGCGGGCTGCTCTTTCATCGATCTGTCCGGTGCCTTATCGCTCGACGATGCGATCCGGGTGGTGCCGGAAGTCAATGCCGACGTCCTGGCGGGGCTCAAAGCGCCGTATCGTCTGACCAGCCCTTGCGCTCCTGTGGTCGCCCTGGCAACGGCGTTGGCTCCGTTGCACCCTTTGCTCGATCTGCGCCAGGTCTGTGCGATGGCTTGTCTGTCGGTTTCCACCTTGGGGCGTGAGGGGGTAAATGAACTTGCGCGCCAGACGGCCGAATTGTTGAATGCCCGCCCGCTGGAGCCGCGCTTCTTCGATCGGCAGGCTGCCTTCAATCTATTGGCTCAGGTGGGTGAAGTGGATTCGGAAGGCCATGCGCTTCTTGAAAAACGCATGGTGTCCGAGTTGAAGCAGATGTTTCGAATTTCTGCGCTGGACGTTTCGGCTACTTGCGTGCAGGCTCCGGTCTTCTTCGGCGATAGCTTGAGTGTGATGCTGCGTAGCGAAAAAGTGATCGACTTGCAGGCAATCTGTGCGGCACTCGATGACGCTCAAGGCATCGAGCGGGTAGAGTCTCCGAACTATCCGACGGTGGTCGGAGATGCTGTCGGCCAGGATGTCGTCTATGTCGGAAGGCTGCGTTGCGGGCTAGGCAATCCCCATGAACTCAATTTGTGGATTGCGTCTGATAACGTACGAAAAGGCGCCGCTCTGAATGCAGTGCAGTTGGGTGAGTTATTGATAAAAGACTATCTGTCAAAGATACTTACCTGA	MSQSFDIAVIGATGTVGEALVQLLEERDFPVSTLHLLASGDSAGQSVPFRGKNLRVRALDGFDFSQVRLVFFAGSPAVTREYASRASEAGCSFIDLSGALSLDDAIRVVPEVNADVLAGLKAPYRLTSPCAPVVALATALAPLHPLLDLRQVCAMACLSVSTLGREGVNELARQTAELLNARPLEPRFFDRQAAFNLLAQVGEVDSEGHALLEKRMVSELKQMFRISALDVSATCVQAPVFFGDSLSVMLRSEKVIDLQAICAALDDAQGIERVESPNYPTVVGDAVGQDVVYVGRLRCGLGNPHELNLWIASDNVRKGAALNAVQLGELLIKDYLSKILT	PGPT0014045_5069	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014045-asd-K00133	NA	NA
BMS010_06312	2865			hypothetical protein	ATGGTTCGGGTTCGCAAACTGGTGCTGGCAATTGCAGCTGCTTCGGCGCTGTCCTCCGGTATGGCGCATGCGCTGGGGCTAGGGGAAGTGACCCTGCAGTCCGCGCTGAACCAGCCATTGGTCGCGGAAATCGAGTTGTTGGAAGTTCGGGATCTGAGCACCAATGAAGTGATTCCCAACCTGGCCTCTCCTGAGGAATTCAACAAAGCTGGTGTCGATCGCCAGTATTTCCTGACCGACCTCAAATTCACGCCGGTGCTTAAGCCGAACGGCAAGAGCGTTATCCGGGTGACCTCCAGCAAACCGGTTCGCGAGCCCTACCTGAATTTCCTGGTCGAAGTGCTCTGGCCGAACGGTCGTCTTCTGCGCGAATACACGCTGTTGCTGGACCCGCCGCTGTACGCACCGTCGACACCAGCCGTCGCTCCGCAATTGCCGGTTGCCTCTTCTGCACCGCGTCCTGCCGCGACGCCTGCTCCGCGCCCGGCGGCACCGGCTACGCAGTCGTCCGGCGCCAGCCGTCCGGCATCTGCTTCGCTGAGTGGCAACGAATACCGGACCAGCTCCAACGACACCCTCTGGGATATCGCCCAGCGTGTACCGGGCGGTTCCGTCCACCAGGCCATGCTGGCCATCCAGGATCTCAACCCGGATGCCTTCGTTGGCGGCAATATCAACCGTCTCAAGAGCGGCCAGGTCCTTCGCTTGCCCGATGAGCAGCAGGTTCGCAGCCGTTCGCAGAGCGAGGCGATTGCGCAGGTCGCCGCGCAAAATACCGCATGGCGCGAAGGGCGAAGTGTCGCTGCGGGAACCCGGCAGCTCGATGCCACCAAGCGTGATACTGCCGGTGCTGCGCCGGCTCGGGTAGAAAGCAAGGACAGTCTGCGCTTGGTCTCGGGTGATACCGGTAAAGCAGCCGCCAAAGGTGACAAAGGTACTGGTGGCGATAGCAAGGCCCTTGCCGATAAGTTGGCGGTAACTCAGGAGAGCCTGGATTCCACGCGGCGTGAGAATGAAGAACTGAAGAGCCGGATGGAGGATCTTCAGAGCCAACTGGAAAAACTGCAGCGACTGATCCAGTTGAAGGATGACCAACTCGCGAAAATGCAAGCCGACCTGGCTAACCAGGGCAAGGCCGGGGCCGGAGGGGCGGACGAGCCCAAGCCCGAGGCGGCAGCACCTGCTTCGCCGGAGCAATCGGCTTCACCTGCGGCGGAGGCGCCGGCGACTCCGCCGGCCCCTGCGGCTCCTGACTACAACTACAGTGAGGAGCCGGTCGCCGAACCCGGCGCGGCTCCTCAGACCAACGTACAGCAGCCGGCCAGTGAGCCGGCTGATGCCGTTAAGCCGCCGGCATCGGCTCCCTCTGCCCAGCCGGCCAAGCCGACTCCTGCAACCCCGGCTCCGAAGCCGGTTGTAGAAGAGCCCCAGTCCACGAGCTTCATCGATGATCTTCTGGGCAACCCTATGCTGCTCGGCATCATTGGTGGTGGCGCGTTACTGCTGCTCCTGGTCGGCTTGATGGTGTTGTCGCGGCGCAACGCCATGAAGGAGGCTGAGCTGCAGAACAGTCTTTCCCTGAATGAGGAAGGCGATAATGCGTTCGATAGCGAGTCGGAGCTTCCCGAGAACAGTTTCGCTGATCTGGAAGCCGACCTCGAGCGTTCCCCGGTCGCGCAGGCTCAGCAGGAAGAGCGCGTAACGGTGCAAACCAGCGATGCGCTGGGTGAGGCTGACATTTATATCGCCTATGGTCGTTTCAATCAGGCGGCTGAGCTTCTGCAGAACGCAATCAATGACGAGCCTCATCGCAAGGACCTTCGCCTCAAGCTCATGGAGGTCTATGCGGAACTGGGCGATCGTGAAGGTTTCGCTCGTCAGGAAAACGAACTGCGCGAGATCGGCGGGGCGGGCCAGGAAGTCGAACAGCTTAAGGCCAAGTACCCAGCAATGGTCGCTCTGGCAGGCGGCATGGCCGCTGCTGCGGCGGCAGACGATTTCGACAGCTTCGATCTGGATGATCTCACGCTGGACGAGCCGGCACAGGCCGCGGCCCCCGCTACTCAGGGGAATCTGGACGATGCTTTCGATCTCAGCCTGGATGACCTTGAGGCGGACCTTGAGCGTGATCTGAAAAGCTCGGCTGCACCTGCACCGGTTTCCGATGATCTCGGTCTCGATGACCTGAGCCTGGATTCCGATCTCGACTTCGGGCTCGATACTGCGCCAGCCGCTTCGACCTCCCATGAAAGCCTCGATTTCGGCCTGGACTTTGCGGATGAGCCGGCGAGCGGAACTGCCTTGGGGCTCGGTGACGATCTGGCGGACTTCAGCCTGGACCTGGACGAGGAAAGCAAGGCCCCGGCAATCGAAGAAGATGATTTCCTGCTCTCCCTGGACGACGAGCCTGCCGTTGCCAGTGTAGGGCCGTCTGTCGAGCTGCCGACGCTGGAACTGCCGGAAGAGAAAGCGGCGAGTGAGTTCGATCTTCCTGCCGACTTCGATCTGTCAGTAGCCGATGAAGCTCCTGCCGCTGCCAAGCCGGAGGCTGATGATTTCGCGGCTCAGCTCGATGAGGTCAACGCCGAGCTCGAAGCGTTTGCCGACAGCCTCGAACCGCAGGCGGATGTTGGGGAGCCGGTTAAGCCGGCGGCCAGCACGCCGAATGTGGCCGATTTGGATGCGGATGATGATTTCGATTTCCTTGCCGGAACCGACGAAACCGCCACTAAGCTCGACTTGGCGCGCGCTTATATCGATATGGGCGATGCCGAAGGGGCTCGTGACATTCTCGACGAAGTGATTTCGGAGGGTAGCGACATCCAGCAGCAGGAAGCGCGCGAATTGCTCGCCCGTCTTGCCTGA	MVRVRKLVLAIAAASALSSGMAHALGLGEVTLQSALNQPLVAEIELLEVRDLSTNEVIPNLASPEEFNKAGVDRQYFLTDLKFTPVLKPNGKSVIRVTSSKPVREPYLNFLVEVLWPNGRLLREYTLLLDPPLYAPSTPAVAPQLPVASSAPRPAATPAPRPAAPATQSSGASRPASASLSGNEYRTSSNDTLWDIAQRVPGGSVHQAMLAIQDLNPDAFVGGNINRLKSGQVLRLPDEQQVRSRSQSEAIAQVAAQNTAWREGRSVAAGTRQLDATKRDTAGAAPARVESKDSLRLVSGDTGKAAAKGDKGTGGDSKALADKLAVTQESLDSTRRENEELKSRMEDLQSQLEKLQRLIQLKDDQLAKMQADLANQGKAGAGGADEPKPEAAAPASPEQSASPAAEAPATPPAPAAPDYNYSEEPVAEPGAAPQTNVQQPASEPADAVKPPASAPSAQPAKPTPATPAPKPVVEEPQSTSFIDDLLGNPMLLGIIGGGALLLLLVGLMVLSRRNAMKEAELQNSLSLNEEGDNAFDSESELPENSFADLEADLERSPVAQAQQEERVTVQTSDALGEADIYIAYGRFNQAAELLQNAINDEPHRKDLRLKLMEVYAELGDREGFARQENELREIGGAGQEVEQLKAKYPAMVALAGGMAAAAAADDFDSFDLDDLTLDEPAQAAAPATQGNLDDAFDLSLDDLEADLERDLKSSAAPAPVSDDLGLDDLSLDSDLDFGLDTAPAASTSHESLDFGLDFADEPASGTALGLGDDLADFSLDLDEESKAPAIEEDDFLLSLDDEPAVASVGPSVELPTLELPEEKAASEFDLPADFDLSVADEAPAAAKPEADDFAAQLDEVNAELEAFADSLEPQADVGEPVKPAASTPNVADLDADDDFDFLAGTDETATKLDLARAYIDMGDAEGARDILDEVISEGSDIQQQEARELLARLA	PGPT0016075_500	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-SURFACE_ATTACHMENT	SURFACE_ADHESION	SURFACE_ADHESIVE_FIMBRIAE,PGPT0016075-fimV-K08086	NA	NA
BMS010_06313	825	truA_2	COG0101	tRNA pseudouridine synthase A	ATGGCTGCCGCTGGCGTTTCCAGGATTGCGCTGGGCATCGAGTACAAGGGTGCCCGTTACCGCGGATGGCAGCGTCAGGAGGCTGGTGTTCCGTCTGTTCAGGAGGCGCTGGAACGCGCGCTATCGAAAGTGGCGGCTGAGCCGGTTTCAGTCGTTTGTGCAGGCCGAACCGATGCTGGCGTGCATGCCAGTGGCCAAGTGGTGCATTTCGACACAACCGTCGAGCGCCCATTGAAGGCGTGGGTCATGGGGGGGAATGCCAATCTGCCCCCGGATATTAGTGTGACCTGGGCCCAGCCGATGCCGAGTCACTTCCATGCGCGTTTCAAGGCATTCGCTCGGCGCTATCGGTATGTGATCTACAACGATCAGATCCGCCCGGCCCACATGGCGGAGGAGGTCACCTGGAATCATCGCCCGCTGGACGTGCAACGTGTGCGCGATGCCGCCCAGTGTCTGATTGGCACGCATGACTTCACGTCCTTCCGTGCGGTTCAGTGCCAGGCGAAGTCGCCGGTCAAGACGGTTCATCACCTGCATGTCCTGCAGCAGGGATGTTTCATCGTTCTGGATATACGCGCCAATGCTTTCCTGCATCACATGGTGCGCAATATCGCAGGGGTTCTCATGACCATCGGGGCGGGAGAGCGGCCTGTCGGGTGGGTGCGTGAGGTTCTCGATGCTCGTGATCGACGGGCTGGCGGCGTAACCGCCCATCCTTATGGGCTTTATCTCGTACAGGTGGAATATCCCGAAGAGTTCGATCTGCCGGAGCGTTACATCGGGCCACATTTCCTCTCGGGATTGCCTCTGCTGGCGGGCTGA	MAAAGVSRIALGIEYKGARYRGWQRQEAGVPSVQEALERALSKVAAEPVSVVCAGRTDAGVHASGQVVHFDTTVERPLKAWVMGGNANLPPDISVTWAQPMPSHFHARFKAFARRYRYVIYNDQIRPAHMAEEVTWNHRPLDVQRVRDAAQCLIGTHDFTSFRAVQCQAKSPVKTVHHLHVLQQGCFIVLDIRANAFLHHMVRNIAGVLMTIGAGERPVGWVREVLDARDRRAGGVTAHPYGLYLVQVEYPEEFDLPERYIGPHFLSGLPLLAG	PGPT0014045_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014045-asd-K00133	NA	NA
BMS010_06314	624	trpF_2	COG0135	N-(5'-phosphoribosyl)anthranilate isomerase	TTGACAGCCATTCGCAGCAAAATTTGTGGGATTACCCGGGTCGAAGATGCGCTGGTCGCTGCCGAGGCGGGCGCCGATGCCATTGGCTTGGTTTTCTATCCGCAAAGTCCGCGCGTGGTAACGATTCAGCAGGCCCGGGCCATTATCGCTGCGATACCTCCTTTCGTGACGACGGTAGGCTTGTTCGTCAATGCCTCCCGGTGCGAGTTGAACGAGATTCTCGATGCCGTGCCGCTGGACCTTCTGCAATTTCATGGCGACGAGTCCCCGTCGGATTGCGAAGGGTTCCATCGTCCCTTCATCAAGGCGCTGAGAGTGAAGCCTGGCGATGATATCGCTGCTGCCGTTGCGTGTTATGGAAAGGCGTCCGGCATCCTCCTCGATACCTACGTGCCCGGAGTGCCGGGGGGGACAGGTGAAGCATTCGACTGGTCTCTTGTGCCGGCCGGTTTGTCCAGGCCGGTGATTCTGGCCGGGGGGCTGACGGCCGGGAATGTCGGCGCAGCCATCGCCCAGGTCCGTCCGTATGCCGTCGATGTCAGTGGTGGGGTCGAGTCGAGTCGGGGGGTGAAGGACCCCGAGAGGATTCGTGCTTTTGTCGCGGCTGTCCGGAATTGCCGGTAG	MTAIRSKICGITRVEDALVAAEAGADAIGLVFYPQSPRVVTIQQARAIIAAIPPFVTTVGLFVNASRCELNEILDAVPLDLLQFHGDESPSDCEGFHRPFIKALRVKPGDDIAAAVACYGKASGILLDTYVPGVPGGTGEAFDWSLVPAGLSRPVILAGGLTAGNVGAAIAQVRPYAVDVSGGVESSRGVKDPERIRAFVAAVRNCR	PGPT0007115_2683	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007115-trpF-K01817	NA	NA
BMS010_06315	885	accD_2	COG0777	Acetyl-coenzyme A carboxylase carboxyl transferase subunit beta	ATGAGCAACTGGTTGGTAGACAAGCTGATCCCTTCGATCATGCGTTCCGAAGTGAAGAAAAGCTCTGTGCCGGAAGGGCTCTGGCACAAGTGCCCTTCCTGCGATGCCGTGCTTTACAAGCCGGAGCTGGAAAAGACGCTCGATGTCTGCCCGAAGTGCAACCACCACATGCGCATCGATGCACGGACCCGATTGGACATCTTTCTGGATGCCGAGGGGCGTGAGGAGCTGGGGGCGGAGCTCGAACCGGTCGACCGTCTCAAGTTTCGCGATAGCAAGAAATACAAGGATCGTCTGACTGCCGCGCAGAAGCAGACCGGCGAAAAGGATGCACTCGTGTCCATGCGCGGTACGTTGCAAGGCATGCCCGTCGTGGCTTGTGCCTTTGAGTTCAATTTCATGGGCGGTTCCATGGGGGCCATCGTAGGCGAGCGCTTCGTTCGCGCCGCCAATGTCGCTCTGGAACAGCGTTGCCCGCTGGTGTGCTTCTCTGCTTCCGGCGGTGCGCGTATGCAGGAAGCACTGATCTCTCTGATGCAGATGGCCAAGACGTCCGCCGTGCTGGCGCGACTGAGGGAGGAGGGGATTCCCTTCGTCTCGGTGCTGACCGATCCGGTCTACGGTGGCGTGTCTGCCAGTCTGGCGATGCTGGGTGACGTGATTGTCGCCGAGCCCAAGGCGCTGATCGGTTTTGCCGGTCCGCGGGTCATCGAGCAGACAGTGCGGGAGAAGTTGCCTGAGGGCTTCCAGCGCAGTGAGTTCCTGCTGGATCATGGCGCCATCGATTTGATCATTTCTCGCGCCGAGCTTCGTCCGCGCCTGGCTGTGCTGCTTGCACAGTTCATGGGGATGCCGAGTCCGGCCCGTCTCCCGGCCACGGCATGA	MSNWLVDKLIPSIMRSEVKKSSVPEGLWHKCPSCDAVLYKPELEKTLDVCPKCNHHMRIDARTRLDIFLDAEGREELGAELEPVDRLKFRDSKKYKDRLTAAQKQTGEKDALVSMRGTLQGMPVVACAFEFNFMGGSMGAIVGERFVRAANVALEQRCPLVCFSASGGARMQEALISLMQMAKTSAVLARLREEGIPFVSVLTDPVYGGVSASLAMLGDVIVAEPKALIGFAGPRVIEQTVREKLPEGFQRSEFLLDHGAIDLIISRAELRPRLAVLLAQFMGMPSPARLPATA	PGPT0001710_1481	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-VOLATILE_RELATED_FATTY_ACID_METABOLISM,PGPT0001710-accD-K01963	NA	NA
BMS010_06316	1278	folC	COG0285	Dihydrofolate synthase/folylpolyglutamate synthase	ATGACAGCACGTTCTCTGGCCGAATGGCTCGCTTACCTGGAGCAACTGCATCCGTCGGCCATCGATATGGGGTTGGAGCGGTCGCGTGAAGTGGCTCTCCGGCTCGGGCTGGGTAAGCCAGCGCCGCTGGTGATCACTGTGACCGGCACGAACGGCAAAGGCTCCACCTGTGCCTTTCTTGCGGCTTTGCTCAAGGAGCAGGGGTTCAAGGTCGGGGTTTACAGTTCGCCGCATCTGCTGCGCTACAACGAAAGAGTGCAGATTGATGGTGTGGAGGCATCGGATGCGGCGCTTTGCGAGGCTTTTGCCGCTGTCGAGGCGGCGCGGGGCGAAATCAGCCTGACTTACTTCGAAATGGGAACGCTGGCGGCCTTCTGGCTGTTCCAGCGTTCCGGTCTCGATGCTGCTGTGCTTGAAGTCGGTCTCGGTGGTCGGTTGGATGCGGTCAATCTGGTCGATCCCGACTTGGCGCTGGTTACCAGCATTGGCCTGGATCATGCCGAGTGGCTGGGAGACACGCGCGAGAGCGTTGCAATCGAGAAGGCAGGTATCTTCCGTGCCGGGAAGCCGGCTTTGTGTGGCGATTTCGATCCACCGACGCCGCTGCTTGAGCGGGTGTCCGAGCTGGATTCGCCGTTTTTCCTGCGTGGCCGCGATTTTGATCTGGCAATCGATGATCGTGCCTGGCACTGGCGTGGGCTGACCAAGGAAGGCGAAGTCTTGGAACTCCACGATCTGCCCCTGCTCGATTTGCCGATGGAAAATGCCGCTTTGGCCTTGCAGACCTATGCCTTGCTGGATTTGCCATGGCAATCGGAACAGATTGCCGCAGCGTTGCAGCAGGCTCGGGTGGTCGGGCGCCTGGATCGCCGTCGGATCGATTGGAACGGTAAGCCGCTCACGCTGCTGCTCGATGTTGGGCATAATCCCCATGCCGCCGATTATCTTGCTCGGCGCTTGGCCAATCGTCCCGTCTCGGGTGTTCGCCTGGCGGTATTCGGCTTGTTGGCCGACAAGGACCTGCCAGGCGTAATCCGACCACTGCTTGGCGAGATCGTCAACTGGGCAGTGGTGCCGTTGCTGACGGTGCGGACTCGTCCGGCGGCGGAGCTCGAAGCTGCTTTGCTGAACCATGGCGTGAGCGTGGCGGCTTATGGCAGTGTCGAGGCCGCATTGGAAGCTCAATGCGCAAGGGCGGTAGCCGGTGATGAGATCCTGGTGTTCGGGTCGTTTTATTGTGTGGCCGAGGCCCTCGACTGGTTGGCCCGGCGCGCTTAA	MTARSLAEWLAYLEQLHPSAIDMGLERSREVALRLGLGKPAPLVITVTGTNGKGSTCAFLAALLKEQGFKVGVYSSPHLLRYNERVQIDGVEASDAALCEAFAAVEAARGEISLTYFEMGTLAAFWLFQRSGLDAAVLEVGLGGRLDAVNLVDPDLALVTSIGLDHAEWLGDTRESVAIEKAGIFRAGKPALCGDFDPPTPLLERVSELDSPFFLRGRDFDLAIDDRAWHWRGLTKEGEVLELHDLPLLDLPMENAALALQTYALLDLPWQSEQIAAALQQARVVGRLDRRRIDWNGKPLTLLLDVGHNPHAADYLARRLANRPVSGVRLAVFGLLADKDLPGVIRPLLGEIVNWAVVPLLTVRTRPAAELEAALLNHGVSVAAYGSVEAALEAQCARAVAGDEILVFGSFYCVAEALDWLARRA	PGPT0007975_3113	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007975-folC-K11754	NA	NA
BMS010_06317	630	dedD		Cell division protein DedD	ATGGCTTTGCTGGATAAAGGGCTCAAGCAACGCATGGTGGGTGCCTTGGTGCTTATCGCACTGGCTGTGATTTTCCTGCCGATGCTGTTTTCTCGCGAGGATGAGCTGCGCCAAGTGGCGGTAGATGCCCCCTCCATGCCGCAGATGCCGTCACCCCCTCGGATCGAGATGGAGCAGACGGTGGTGCCTGAGCCGCAACAATTGCCGGATGAACCGATTCCGAGCGAAGTGACGCCGTCCGAATCGCAGCCCGTCGCTTCGCTTCCGAATGAGCAGACCGCCCCTGTCACGCCTGCCGAAGCGCCGAAAGAGGAGGCCACCAAGCCGGCTGCCTCGCCGATGGCCAGCGTGCCGGCGAAGGCGCCGGAAAGCCGCCTCGATGTCAATGGCCTGCCAGTCAGTTGGTCGGTCCAGTTGGCCAGCCTGTCCAATCGCGCCAGCGCCGAAAATCTGCAGAAAACGCTGCGCAGTCAGGGCTATAACGCTTATATCCGCAGTGCCGATGGCATGAACCGGGTATTCGTCGGGCCGGTGATCGAGCGCGCGGAGGCCGATCGCCTGCGCGATCAGTTGAGCCGTCAGCAGAAACTGAACGGCTTTGTCGTGCGCTTCCAGCCTGAGAAGGGGTGA	MALLDKGLKQRMVGALVLIALAVIFLPMLFSREDELRQVAVDAPSMPQMPSPPRIEMEQTVVPEPQQLPDEPIPSEVTPSESQPVASLPNEQTAPVTPAEAPKEEATKPAASPMASVPAKAPESRLDVNGLPVSWSVQLASLSNRASAENLQKTLRSQGYNAYIRSADGMNRVFVGPVIERAEADRLRDQLSRQQKLNGFVVRFQPEKG				NA	NA	NA	NA	NA
BMS010_06318	513	cvpA	COG1286	Colicin V production protein	GTGGCATTCACCTGGGTCGATTGGGCGATCATCGCCGTCATCGCCGTTTCCAGTCTGATCAGCTTGAAGCGTGGCTTCGTCAAGGAAGCGTTGTCGCTGCTCACCTGGATCATCGCAGGCGTGATTGCCTGGATGTTCGGTGGTGCCTTGTCGCAGCATCTGAGCGAATTCATCGAAACACCTTCTGCGCGCGTGATCGCTGCATGTGCCATTCTCTTCGTCGCTACCCTGCTGGTGGGGGCGTTGGTCAATTTCCTGATCGGTGAGCTGATCCGGGTAACCGGTCTGTCCGGAACCGACCGTTTCCTGGGTATGGTTTTCGGCGCCGCCCGTGGTGGCTTGCTGGTCGTCGTGCTGGTTGGGCTGCTCAGCCTGGCGCCGGTACACCAAGACCCGTGGTGGCAGCAGTCGACGCTGCTGCCGCATTTTCTGATGGTTGCGGACTGGTCCAAGAACCTCATTCTGGGCCTTTCCAGTCAATGGATCGCCGGCGGCCTCGGCTCGCAGAGCTGA	MAFTWVDWAIIAVIAVSSLISLKRGFVKEALSLLTWIIAGVIAWMFGGALSQHLSEFIETPSARVIAACAILFVATLLVGALVNFLIGELIRVTGLSGTDRFLGMVFGAARGGLLVVVLVGLLSLAPVHQDPWWQQSTLLPHFLMVADWSKNLILGLSSQWIAGGLGSQS	PGPT0011655_1450	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|COLICINS,PGPT0011655-cvpA-K03558	NA	NA
BMS010_06319	1506	purF_3	COG0034	Amidophosphoribosyltransferase	ATGTGCGGCATCGTTGGTATCGTCGGTAAGTCGAACGTCAATCAGGCGCTGTATGACGCGCTTACCGTCCTTCAGCATCGCGGCCAGGACGCTGCCGGTATCGTGACCAGTCATGAGGGGCGTTTGTTCCTGCGCAAGGACAATGGCCTGGTGCGCGACGTCTTTCAGCAGCGCCACATGCAGCGTCTGGTCGGTCACATGGGCATCGGTCATGTGCGCTATCCCACCGCTGGCAGCTCCAGTTCCGCCGAGGCGCAGCCGTTCTACGTCAACTCGCCCTATGGCATCACCCTGGCGCACAACGGCAACCTGACCAATGTCGAGCAGTTGTCGCGGGAGATCTACGAATCCGACCTGCGGCACGTCAACACCAACTCTGACTCCGAAGTGTTGCTCAACGTCTTCGCCCATGAGCTGGCGGTGCGGGGCAAGTTGCAGCCGACCGAGGAAGACGTGTTCGCGGCGGTTTCCGGCGTGCATGAGCGCTGCCGGGGCGGTTATGCGGTGGTGGCGATGATTACCGGCTACGGTATCGTCGGCTTCCGCGATCCGAACGCCATTCGCCCGATCGTCTTCGGCCAGCGCCACACCGACGAAGGCGTGGAGTACATGATCGCCTCGGAAAGCGTTTCCCTGGATGTGCTCGGCTTCAGCCTGATCCGCGACCTGGCGCCGGGCGAGGCTGTCTACATCACTGAAGACGGCAAGCTTTACACCCGTCAGTGCGCGAAGGCTCCGCAATATGCACCCTGTATCTTCGAGCATGTCTATCTGGCTCGCCCGGACTCCATCATGGATGGCATTTCCGTGTACAAGGCGCGCCTGCGGATGGGCGAAAAGCTGGCCGAGAAAATCCTTCGCGAGCGTCCGGAACATGACATCGACGTGATCATCCCGATTCCGGACACCAGCCGTACCTCGGCGCTGGAGCTGGCCAATCGCCTGGGCGTGAAGTTCCGTGAGGGCTTCGTCAAGAACCGTTACATCGGTCGTACCTTCATCATGCCGGGGCAGGCTGCACGGAAGAAATCCGTGCGGCAAAAGCTCAATGCCATCGAGCTGGAGTTCCGCGGCAAGAATGTGATGCTGGTGGATGACTCCATCGTGCGCGGCACCACCTGCAAGCAGATCATCCAGATGGCGCGTGAGGCCGGTGCGAAGAACGTTTACTTCTGTTCGGCGGCACCGGCGGTGCGTTACCCGAACGTCTATGGCATCGACATGCCCAGCGCCCACGAGTTGATCGCCCATGGGCGTACCACCGAGGAGGTCTGCGAGCTGATCGGAGCCGACTGGCTGGTCTACCAGGACCTGGAGGACCTCAAGGAAGCCGTGCAGGAAGGCAATCCGGAAGTGAAGGCGTTCGATTGCGCTGTATTCGATGGCCAATACATCACCGGTGATGTCAACGAGGCCTACCTGAACAAGATCGAACAGGCGCGCAACGATGCGTCGAAGGCCAAGGCTCACGCAGTGAGTGCGATCATCGATCTGTACAACAACTGA	MCGIVGIVGKSNVNQALYDALTVLQHRGQDAAGIVTSHEGRLFLRKDNGLVRDVFQQRHMQRLVGHMGIGHVRYPTAGSSSSAEAQPFYVNSPYGITLAHNGNLTNVEQLSREIYESDLRHVNTNSDSEVLLNVFAHELAVRGKLQPTEEDVFAAVSGVHERCRGGYAVVAMITGYGIVGFRDPNAIRPIVFGQRHTDEGVEYMIASESVSLDVLGFSLIRDLAPGEAVYITEDGKLYTRQCAKAPQYAPCIFEHVYLARPDSIMDGISVYKARLRMGEKLAEKILRERPEHDIDVIIPIPDTSRTSALELANRLGVKFREGFVKNRYIGRTFIMPGQAARKKSVRQKLNAIELEFRGKNVMLVDDSIVRGTTCKQIIQMAREAGAKNVYFCSAAPAVRYPNVYGIDMPSAHELIAHGRTTEEVCELIGADWLVYQDLEDLKEAVQEGNPEVKAFDCAVFDGQYITGDVNEAYLNKIEQARNDASKAKAHAVSAIIDLYNN	PGPT0020225_2619	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020225-purF-K00764	NA	NA
BMS010_06320	1212	metZ_1	COG0626	O-succinylhomoserine sulfhydrylase	ATGACGCAAGAATGGGATGCGGGACGGCTGGACAGCGATCTGGAGGGGGTGGCGTTCGATACGTTGGCGGTGCGTGCCGGCCAGCATCGCTCTCCGGAAGCAGAGCATGGCGAGCCGCTGTTCTTCACCTCCAGCTATGTGTTCCGTAGCGCTGCGGATGCTGCGGCCTGTTTCGCCGGTCAGGTGCCCGGCAACGTCTACTCGCGTTATACCAACCCCACCGTGCGCGCTTTCGAAGAGCGTATCGCGGCCTTGGAAGGTGCCGAGCAGGCGGTTGCGACGGCATCCGGCATGTCCGCCATCCTCGCCGCGGTGATGAGCCTGTGTGGCGCGGGCGATCATATCCTTGTCTCGCGTAGCGTATTCGGCGCGACCGTCACGCTGTTCGAGAAGTATTTCAAGCGCTTCGGCGTGCAGGTCGATTACGTGCCCCTGGCTGATCTCGATGCCTGGCAGGCGGCGTTCAAACCCAATACTCGCCTGCTGTTCGTCGAATCGCCGTCCAACCCGCTGGCCGAGCTGGTGGACATCGCCGCCCTGGCCGATCTGGCCCATGCCCGCGGTGCGATGCTGGTAGTGGATAACTGCTTCTGTACGCCGGTGCTGCAACAGCCGCTGGCCCTGGGTGCAGATATCGTCATCCACTCGGCGACCAAGTTTATCGACGGGCAGGGACGTTGCCTGGGCGGCGTGGTCGCCGGCAAGGCCGAACAGATGAAAGAGGTGGTTGGCTTCCTGCGTACAGCAGGGCCGACCCTCAGCCCGTTCAACGCCTGGGTTTTCCTCAAGGGTCTGGAAACCCTGCGTCTGCGCATGCTGGCCCATTGCGCCAATGCCCAGGCGCTGGCCGAGTGGCTGGAAGCCCAGGTGGGTGTGGAGAAGGTCTACTATGCGGGGCTGCGGAGCCATCCGCAGCACGAGCTGGCCAAGCGTCAGCAGAAGGGCTTCGGCGCGGTACTCGCCTTCGAGGTGAGCGGCGGCAAGGATGGCGCCTGGCGTTTCATCGATGCGACCCGGTTGGTGTCGATCACGGCGAACCTCGGTGATACCAAGACCACCATTACCCATCCCGCTACCACGACTCATGGGCGTCTCACGCCGGAAGACCGGGCTGCGGCAGGAATCAAGGATTCGCTGGTCCGTATCGCTGTGGGCCTGGAAGATGTCGCCGATCTCAAGGCCGACTTGGCGCGTGGCCTTGCCGCCTTATGA	MTQEWDAGRLDSDLEGVAFDTLAVRAGQHRSPEAEHGEPLFFTSSYVFRSAADAAACFAGQVPGNVYSRYTNPTVRAFEERIAALEGAEQAVATASGMSAILAAVMSLCGAGDHILVSRSVFGATVTLFEKYFKRFGVQVDYVPLADLDAWQAAFKPNTRLLFVESPSNPLAELVDIAALADLAHARGAMLVVDNCFCTPVLQQPLALGADIVIHSATKFIDGQGRCLGGVVAGKAEQMKEVVGFLRTAGPTLSPFNAWVFLKGLETLRLRMLAHCANAQALAEWLEAQVGVEKVYYAGLRSHPQHELAKRQQKGFGAVLAFEVSGGKDGAWRFIDATRLVSITANLGDTKTTITHPATTTHGRLTPEDRAAAGIKDSLVRIAVGLEDVADLKADLARGLAAL	PGPT0020020_1038	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020020-mdeA-K01761	NA	NA
BMS010_06321	780	bacC_5		Dihydroanticapsin 7-dehydrogenase	ATGATGGAGTGGTCGGGAGAGCACGCGGCTCCGACCAATGGCAAGGTTGCTCTGGTCACCGGAGCCGCGCGCGGCATCGGCTTGGGAATCGCTGCCTGGCTGATCGCGGAAGGGTGGCAGGTCGTGCTGGCCGATGTGGACCGCGAGCGCGGTTCGACGGTGACCAAGGCCTTGGGTGTCAACGCCTGGTTCGTGGCGATGGATGTGGCCCATGAGAGCCAAGTGGCGGTCGGCGTCGCCGAGGTGCTCGGACAATTCGGCCGTTTGGACGCACTGGTATGCAATGCCGCGATTGCCGAACCCTACAACCCTCCGCTGGAAAGCCTTCAGTTATCGCATTGGAACCGTGTTCTGGCGGTCAATCTGACGGGCCCCATGCTGTTGGCCAAACATGCGGCCCCCTACCTGCGCGCTCACAACGGCTCCATCGTCAACGTGGCATCGACCCGTGCACATCAGTCCGAGGCGGACAGCGAAGCCTATGCCGCCAGCAAGGGCGGGTTGCTGGCGCTGACTCATGCGTTGGCGTTGAGCTTGGGGCCGGACATTCGCGTCAACACGGTCAGCCCCGGTTGGATCGATGCCCGCGATCCCTCTGCGCGCCATGAGGCGCCGCTGAGTGAGTCTGACCATGTTCAGCATCCGGTGGGGCGGGTCGGCAGCGTCGAGGACGTTGCCTCGCTGGTGGCATGGCTGCTGTCGGATAATGCGGATTTCGTGACTGGCCAGGAGTTCATCGTCGACGGTGGCATGACCCGCAAGATGATCTACCGGGACTGA	MMEWSGEHAAPTNGKVALVTGAARGIGLGIAAWLIAEGWQVVLADVDRERGSTVTKALGVNAWFVAMDVAHESQVAVGVAEVLGQFGRLDALVCNAAIAEPYNPPLESLQLSHWNRVLAVNLTGPMLLAKHAAPYLRAHNGSIVNVASTRAHQSEADSEAYAASKGGLLALTHALALSLGPDIRVNTVSPGWIDARDPSARHEAPLSESDHVQHPVGRVGSVEDVASLVAWLLSDNADFVTGQEFIVDGGMTRKMIYRD				NA	NA	NA	NA	NA
BMS010_06322	1968	xcpQ_3	COG1450	Secretin XcpQ	ATGCCTCTGACTTTTTCCCGTCTGACCCTAGCTCTCTTCATGGCCGGCGTGAGCACTGTGTCGCAGCCGCTGCTGGCCGCCCCGCAAGCCGCCCCCAGCGGCATCACGCAGAACGACGAGCGCTGGACGATCAACCTCAAGGATGCCGATATCCGTGCGTTCGTCGATCAGATTGCGGACATTACCGGCGAAACCTTCGTCATCGACCCACGGGTGAAAGGTCAGGTCAGTGTCATATCGAAGGCCCCGCTATCGCTGAGCGAGGTCTATCAACTGTTCCTCTCGGTCATGGCCACCCATGGGTTCAGCGTCATTACCCAGGGCGATCAGGCGCGTATCGTGCCCAACGCCGAAGCCAAGGCCGAAGGCGGTATTGGCGGCCAGGGCGCTCCCGACAAGCTGGAAACCCGCGTCATCCAAGTCCAGCACGGCACGGCGGCAGAACTGATTCCGCTCATCCGCCCACTGGTTCCGCAGTATGGCCACCTGGCGGCAGTGACTTCGGCCAACGCCCTCATCATCAGCGACCGCAGCGCCAACATCGCCCGCATCGAGGATCTGGTTCGCCAGCTCGACCAGAAAGGCTCGGACGATTACAGCGTCATCAACCTCCAGTACGCCTGGGTGATGGATATCGCCGAGGTGCTGAACAACACGGCCAACCGCGGCCAGGCCAAAGGCGGCACCGGTACACAGGTCATCGCCGACTCCCGCACCAATCGCCTGGTTCTGCTCGGTCCGCCGGCCGCACGCGCCAAGCTTGCGGAGCTGGCCCGCTCCCTGGACACCCCGACGACCCGCTCAGCCAATACCCGGGTGATCCGTCTCCGACACAACGATGCCAAGGCCCTGGCCGAAACCCTCGGACAGATATCCGAAGGCCTGAAGACACCGGAAGGCGGTGGCGGAGAGGCCGCAGGAAAGCCCCAGAACATCCTGATACGCGCAGATGAAAGCCTCAACGCCCTCGTCCTGCTTGCCGACCCGGACCTGCTGGCGCCCCTGGAGGACATCGTGCGTCAGCTCGACGTACCGCGTGCCCAGGTGATGGTCGAGGCCGCCATCGTCGAGATTTCCGGCGATATCTCCGACGCACTCGGTGTGCAGTGGGCCGTGGACGCCCGCGGCAAGACCGGCGGCCTCGGCGGTGTCAATTTTGGCAATACGGGCTTATCGGTAGGAACCGTGCTGAGCGCGATCCAGAGTGGCGAGATACCGGACGACCTGACACTGCCCGATGGCGCCATCGTGGGTATCGGCACCGACCATTTCGGCGCGCTGATCACCGCCCTGTCGTCCAACAGCAAGAGCAACCTGCTCTCGACCCCGAGCCTGCTGACGCTGGATAACCAGAAGGCGGAGATCCTGGTCGGCCAGAACGTCCCCTTCCAAACCGGCTCCTATACCACCGATTCGTCCGGCTCGAGCAACCCGTTCACCACCATCGAGCGCAAGGATATCGGCGTTACCCTCAAGGTCACGCCCCATATCAACGAGGGCGCCACCCTGCGCCTCGAACTCGAACAGGAAATCTCCTCCATCGCCCCCAGCACCTCGCTGAATGCACAGGCCGTGGACCTGGTAACCAACAAGCGCTCGATCAAGAGCACCATCCTCGCAGAAGACGGCCAGGTCATCGTGCTGGGCGGCCTGATTCAGGACGACGTCACCCGCACCGACTCCAAGGTCCCGCTGCTGGGCGACATTCCCTTCCTGGGCCGGCTGTTCCGCTCCACCAAGGATCAGCACGTCAAACGCAACCTGATGGTTTTCCTCCGCCCCACCGTGATTCGCGACGCAGCAGGACTCGCAGCGCTATCCGGGAAGAAATATGGAGATATACGCGTGCTGGACGACGATGCCAGCCGCAACAGACCCAGCATCCTGCCGAGAAACCCTACTCAGCTGTTCGACGGCGGTCAGGGCGAACCGGCTATCGACGTGCGCCCGCACGATCAGAAGCCGTAA	MPLTFSRLTLALFMAGVSTVSQPLLAAPQAAPSGITQNDERWTINLKDADIRAFVDQIADITGETFVIDPRVKGQVSVISKAPLSLSEVYQLFLSVMATHGFSVITQGDQARIVPNAEAKAEGGIGGQGAPDKLETRVIQVQHGTAAELIPLIRPLVPQYGHLAAVTSANALIISDRSANIARIEDLVRQLDQKGSDDYSVINLQYAWVMDIAEVLNNTANRGQAKGGTGTQVIADSRTNRLVLLGPPAARAKLAELARSLDTPTTRSANTRVIRLRHNDAKALAETLGQISEGLKTPEGGGGEAAGKPQNILIRADESLNALVLLADPDLLAPLEDIVRQLDVPRAQVMVEAAIVEISGDISDALGVQWAVDARGKTGGLGGVNFGNTGLSVGTVLSAIQSGEIPDDLTLPDGAIVGIGTDHFGALITALSSNSKSNLLSTPSLLTLDNQKAEILVGQNVPFQTGSYTTDSSGSSNPFTTIERKDIGVTLKVTPHINEGATLRLELEQEISSIAPSTSLNAQAVDLVTNKRSIKSTILAEDGQVIVLGGLIQDDVTRTDSKVPLLGDIPFLGRLFRSTKDQHVKRNLMVFLRPTVIRDAAGLAALSGKKYGDIRVLDDDASRNRPSILPRNPTQLFDGGQGEPAIDVRPHDQKP	PGPT0026425_1725	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026425-gspD|epsD-K02453	NA	NA
BMS010_06323	684	xcpP		Type II secretion system protein N	TTGCCCTTTGCAGGTGCCCCGCGCTGGCTGCAGCAACATGCGCCCAAGCTGGTCGGTGCGGCATTGATATTCGCCATGTGCGTCAGCCTCGCCTGGCAGACCGCCGGATGGATACGACTGGTGCGCGCCCCCACCCAGACTGTCACCACCGATACCCCTGTCATTCATAGCGCGCCCGTGCTGGAACGATTAGAGCCTTTGTTCGGTCCTAGCAACGCAGTTGCCGGCAATGCACCACCGCCCGCGACCAACCTGCGCCTCACTTTGCATGGCAGCTTCGTGCACGCCGACCCGAAACGGTCCAGTGCAATCATCCAGAGCGAAGGAGGCAAACCGCAGCGTTACCGGGTGGGCGCCGAACTGGAAGGCGGCATACGCTTGCATGCGGTCTATCGTGATCGCGTCGAGATCGAGCGCAACGGGCGATTGGAAACGCTGCCATTTCCCGCCGCACGATCGGGGTCCGGCCCCACCAACTACCTGATGGAAGAGTCGTTCGACCATACCGGGCAAATGGACACGCTGGAGCAAGAGGACGCCGAACTGCTGCGCGAACGGATGGAAGCACTGCGCGAACAAATGGAGGCGGCCGGTAGCGCGCCCGAGGATCACCCGGAGGAGACATCGCCGCCAGAGGATATGCCGAGCGACTCCGACACCGAACAGCCCATGGAAAGCGACTGA	MPFAGAPRWLQQHAPKLVGAALIFAMCVSLAWQTAGWIRLVRAPTQTVTTDTPVIHSAPVLERLEPLFGPSNAVAGNAPPPATNLRLTLHGSFVHADPKRSSAIIQSEGGKPQRYRVGAELEGGIRLHAVYRDRVEIERNGRLETLPFPAARSGSGPTNYLMEESFDHTGQMDTLEQEDAELLRERMEALREQMEAAGSAPEDHPEETSPPEDMPSDSDTEQPMESD	PGPT0026420_708	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026420-gspC|epsC-K02452	NA	NA
BMS010_06326	1038			putative HTH-type transcriptional regulator	ATGAAGGCGCAGCGGGTCCGCCTCGGCGATCTCTCGGTGGGCTTCGTTCATAGCCTGGCCGATGTCATTCAAGAACACGGGATCGATCCAGCGCCCCTTTTGGAGCAATACGGACTGGACCCGATGCGCCTGGGGGAATCCCGGGCACGGCTATCGATTCCACGCTACATGAGGCTCGGCCATGCAGCGATCCAACTGACCGGCAACGCAGCAATCGGCCTCTCGATGGGCCGGCTGAGCCGGCTCAGCCAAGTCGGCCTGGCCGGCGTAACCGCGGCACAGGCCCCCACGGTTCGCGAAGCGGCACGCGCACTGATCCGCTTCGAGCCGCTCTATGCCTCGAATTACCGCGGTCACTCCAGCTTTCACGAGGATGCCGGGGGCGCCTGGCTTCGCTTCTATTCCATCAGCCCGTACAACAACTACAACCGCTTCGTGGTGGACTCGGTGCTGTCCAGTTGGATTTTCCAACTCGGCTTCCTGGCTCGGCAGCCCCTTCGCGTGGAAAAAATCGAGATCGAATTTCCCGCCCCAGGCTATGCCGAGCGGTACATCGAACTGCTTGGCTGCGCGCCGGAATTCGGCGCCAAGGAAAACCAGCTTCGCCTGGATCAGACGAGCCTGGCGCTGCGCAACCCGGAACACTGCCCGAGCACCTGGCGCCAGTTGTTGGAAATCTGCGAGAGAGAGTTGGAGCAGCAGACCCGCACTCGAAGCCTGCGCGAACGCATCATTCAATTGCTCGGCCCGCTGCTCAACGGGCGCGAGCCAGACCTCGAAGAAGTAGCTGCACGTCTGCAACTGCCAACCTGGACGCTTCGTCGCAAGCTGGCCGAGGAAGGCACCCAGTTCCGCAGCATTCTCAACGACACTCGTCGCGACCTGGCGATGACCTACATCCGCGATACGGAGCTTGCCTTCGGTGAAATTGCCTATCTGCTCGGCTTCGCCTCCGCCGAAGCATTCCAGCGCGCCTTCAAGCGCTGGAGCGGACAGACGCCTGGCGAATTCCGCCGCGCCCAGCGCCAGGCGGGGTGA	MKAQRVRLGDLSVGFVHSLADVIQEHGIDPAPLLEQYGLDPMRLGESRARLSIPRYMRLGHAAIQLTGNAAIGLSMGRLSRLSQVGLAGVTAAQAPTVREAARALIRFEPLYASNYRGHSSFHEDAGGAWLRFYSISPYNNYNRFVVDSVLSSWIFQLGFLARQPLRVEKIEIEFPAPGYAERYIELLGCAPEFGAKENQLRLDQTSLALRNPEHCPSTWRQLLEICERELEQQTRTRSLRERIIQLLGPLLNGREPDLEEVAARLQLPTWTLRRKLAEEGTQFRSILNDTRRDLAMTYIRDTELAFGEIAYLLGFASAEAFQRAFKRWSGQTPGEFRRAQRQAG				NA	NA	NA	NA	NA
BMS010_06327	942			hypothetical protein	ATGCGCAAGATTTCCGCTCTTCTCGTCCTCGTCATCCTTGCCGGATGCCTCGCCGCCTTTCTGGTCTGGGCCGAACGGCGCCCCTCCGCCCATTACCTGTCCGATCTTCGCAGCACGATCGACACGGAGCCCAGGCCCATCGACGCGGAGGCCAACATCTTGCTGGTCCGTCCGGAACTCTTCCCGCTGGACTACCAGAGTCCGGACCACCTGCGGCTGAAGCTGGTCGCCGCCCTCGACCGCGCCAAGGCCGAAGGACTCCTTGGCGCCAATACACTGGTGGCACTCCCCGACCATATCGGCACCTGGCTGCTGGCACGAGACGAAAAGGTCGAGTTCTATCGCGCCCGAAGCCGCCAGGAAGTCCGCAACTGGCTGCTTCTCGGCAACCCCCTGCTGGCGGTCAAGGCCCTGATTCTGAACCTCGATGCCGATCGACTGGACGAAGCTCTTCTGAGAATGAAAGCCGAGCAGATGGCTGCGGACTACCAGCAATTGTTCTCCGACCTCGCCCGCAACTACCGCATCACGCTGCTGGCCGGCTCCATGTTGCTACCTGAGCCGTACCTGCAGGACGGCCGCCTGCGCAGCGGCAACGGCCCCCTGCGCAATCTCAGCCTGGTATTCGGCCCTGACGGTAAGATTCTCGGCAATCTCTATAAGGAGCCCTGGCCCTGGCGCCCGGACAGCGGCCACACGCAGCAGGTGCAGCTGGGCGAGCACCATCTCAGCGTCGAGCGGGACTGGAGCCCCGGCTACCCGCAGACCGCCTTGCGCGGGCCGGATGGCGAACCGGCAGGCGCTCCGCTGTTCCTTCGTGGGAAACTGAGCTGGCCGATCGGCGGCGCCTCCCGCAACATCGAACTCACCCCCGGCGCCGCCCCTCAAATGAGCGCTGCGCCGGGCAGCCATCTGCTCAATACCTGGATAAGGCCTCGATGA	MRKISALLVLVILAGCLAAFLVWAERRPSAHYLSDLRSTIDTEPRPIDAEANILLVRPELFPLDYQSPDHLRLKLVAALDRAKAEGLLGANTLVALPDHIGTWLLARDEKVEFYRARSRQEVRNWLLLGNPLLAVKALILNLDADRLDEALLRMKAEQMAADYQQLFSDLARNYRITLLAGSMLLPEPYLQDGRLRSGNGPLRNLSLVFGPDGKILGNLYKEPWPWRPDSGHTQQVQLGEHHLSVERDWSPGYPQTALRGPDGEPAGAPLFLRGKLSWPIGGASRNIELTPGAAPQMSAAPGSHLLNTWIRPR				NA	NA	NA	NA	NA
BMS010_06328	2037	fadH_2	COG0446	2,4-dienoyl-CoA reductase	ATGACCGACGCCACCTACCCGCACTTGCTTGCACCTCTCGATCTGGGCTTCACGACCCTGCGCAACCGGACCCTGATGGGCTCGATGCACACGGGGCTGGAAGAGAAGCCCGATGGCTTCGAGCGGATGGCTGCCTACTTCGCCGAGCGGGCCCGTGGCGGTGTCGGTCTGATGGTGACCGGTGGCATCAGCCCGAATGAAGAGGGCGGCGTCTATTCGGGGGCGGCCAGGCTGACCACCGTCGAAGAAGCGGAGAAGCACCGGATCGTTACCCAGGCGGTGCACGAGGCAGGTGGCAAGATTTGCATGCAGATCCTGCACGCGGGGCGTTATGCATACAGCCCGAAACTGGTGGCGCCAAGCGCCATCCAGGCACCGATCAACCCGTTCAAGCCCAGGGAGCTGGACGAGGAGGGCATCCAGAGGCAGATTGCCGACTTCGTCAATTGCGCCGTACTGGCCCAGCGTGCCGAGTACGATGGCGTCGAAATCATGGGTTCGGAAGGTTACTTCATCAACCAATTCCTGGTCGCTCATACCAACCATCGCACGGATCGCTGGGGCGGCAGCTACGAAAACCGTATGCGCCTGCCGGTGGAGATCGTCCGCCGCGTCCGCGAGGCGGTAGGGCCGAACTTCATCATCATCTACCGGCTGTCGATGCTTGATCTGGTCGAGGGGGGCAGCACTTGGGACGAAATCGTGATGCTGGCCAAGGCCATCGAGGCCGCCGGGGCGACCCTGATCAACACCGGCATCGGCTGGCACGAGGCGCGTATCCCGACTATTGCCACCAAGGTGCCGCGAGCGGCGTTCACCAAGGTCACCGCCAAGCTGCGAGGCGAGGTCGGCATTCCGCTGATTACCACCAACCGTATCAATACTCCCGAAGTGGCCGAGCAGGTCCTGGCCGAGGGCGATGCCGACATGGTGTCGATGGCGCGTCCGTTCCTGGCCGATCCGGACTTCGTCAACAAGGCCGCGCAAGGCCGCGCCGACGAGATCAATACCTGCATCGGCTGCAACCAGGCCTGCCTGGATCACACCTTCGGCGGCAAGCTGACCAGTTGCCTGGTCAACCCGCGTGCCTGCCATGAGACCGAACTGAACTACATCCCGACCGTGACGGTGAAGAAGATCGCCGTGGTCGGCGCTGGTCCCGCGGGGTTGTCGGCGGCCACCGTCGCCGCCGAGCGTGGGCATCAGGTCACTCTGTTCGATGCGGCGAGCGAAATCGGTGGGCAGTTCAACGTCGCCAAGCGCGTGCCGGGCAAGGAGGAGTTCTACGAAACCCTGCGTTACTTCAAGCGCAAGCTGGAAACCACTGGCGTCGAGGTTCGGCTGAATACCCGGGTCGATGTCGAGAGCCTGGCCGCCGGCGGGTTCGACGAGATCATCCTGGCAACGGGGATCAAGCCTCGTACCCCTGAAATTCCCGGCATCGAGCATCCGAAAGTGATCGGATACCTGGACGCCATCCTCGAGCGCAAGCCGATCGGCCAGCGCGTTGCGGTGATCGGCGCGGGCGGTATCGGTTTCGATGTGTCGGAATTCATCACACACCAGGGCGAGGCCAGCAGCCTGAACCGCGAGGTGTTCTGGAAGGAATGGGGGATCGACACGGCGCTGGAGGCGAGGGGGGGCGTTGCGGGCGTGCGCCCGCAGCCGCACCCGGCGGCGCGTCAGGTCTACCTGCTGCAGCGCAAGGCCTCCAAGGTCGGTGACGGCCTGGGCAAGACCACCGGCTGGATTCATCGTACCGGCTTGAAGAACAAGCAGGTTCAGATGCTCAACGCGGTGGAGTATCTTAAGGTCGACGACACCGGCCTGCATGTCCGTATCGCCGGAGGCGAGCCCCAGGTGCTGCCGGTGGATACGGTCATCGTCTGCGCGGGTCAGGAGCCGCTGCGCGAATTGCACGATGGGTTGATGGCTGCTGGGCAGCGGGTTCACCTCATCGGTGGTGCCGACGTCGCCGCGGAGCTGGATGCCAAGCGGGCCATCAACCAGGGTTCGCGTTTGGCTGCGGAGCTGTAG	MTDATYPHLLAPLDLGFTTLRNRTLMGSMHTGLEEKPDGFERMAAYFAERARGGVGLMVTGGISPNEEGGVYSGAARLTTVEEAEKHRIVTQAVHEAGGKICMQILHAGRYAYSPKLVAPSAIQAPINPFKPRELDEEGIQRQIADFVNCAVLAQRAEYDGVEIMGSEGYFINQFLVAHTNHRTDRWGGSYENRMRLPVEIVRRVREAVGPNFIIIYRLSMLDLVEGGSTWDEIVMLAKAIEAAGATLINTGIGWHEARIPTIATKVPRAAFTKVTAKLRGEVGIPLITTNRINTPEVAEQVLAEGDADMVSMARPFLADPDFVNKAAQGRADEINTCIGCNQACLDHTFGGKLTSCLVNPRACHETELNYIPTVTVKKIAVVGAGPAGLSAATVAAERGHQVTLFDAASEIGGQFNVAKRVPGKEEFYETLRYFKRKLETTGVEVRLNTRVDVESLAAGGFDEIILATGIKPRTPEIPGIEHPKVIGYLDAILERKPIGQRVAVIGAGGIGFDVSEFITHQGEASSLNREVFWKEWGIDTALEARGGVAGVRPQPHPAARQVYLLQRKASKVGDGLGKTTGWIHRTGLKNKQVQMLNAVEYLKVDDTGLHVRIAGGEPQVLPVDTVIVCAGQEPLRELHDGLMAAGQRVHLIGGADVAAELDAKRAINQGSRLAAEL				NA	NA	NA	NA	NA
BMS010_06329	1368			hypothetical protein	ATGAGCATCCAGAACAAGCCGCAGATGGTCGAAGCCGTCATGTTCTTCGGCGAGCGCGGCATTTGTAAGGAAATGCTCTTTCCCGAGTTCGAGGCCGTGCTCGACGGTGTGGTGAATATCCCCGAGTTCGCCGATCAGCAGATGCGCGCGGCCTATCTGCTGATCAACCCCCGCCTCATGGTGCGGGCTGCTGTCTTCTTCTACCTGGATTTCGACGAAAAGGGTGGCGCCGATTCCGGTTGGAACATCCCGTTGCGCCATCTGGCGGATCGCGCCGGCCGTGGCCCCGACCTGGGGGCCGGGCCGATCCGACTGGCCTGTCGCAGCCAGTGCCCGGTGTCCTGGCACCAGATGCACCTGTGGGACCCCAGCCTGGCGCCGGGGCAGAACGATCTGGTCATTCTTCGCGATGCGGCCAAGCGCAATAACCTCGGCTTGCTGGTCGAGGATGACACGCCGCAGGCCGTCGCGCCGGAGCGCCTGCAGATGGCCCCGGAAGATAAGTGGTACGCGCCGGATGCCGCGAAGGAGTCGGCCGATAAACTGGCCGAACAGTTGGATCAGGAACACCGGCTGAAAACCGCGCAACTTATCAAGCAGCAGCGATTGCGCATCGCCAGCCTGGGCCAGCAGCACGAGGAGGAACTGGCCAAGCTCCGCCTGGCGGCGGAGGAGCAGCGTAAGCAATTGCAGGCGGAAATTCAGCGTCTGCATCAAGGCTTGCGCCAGCAGGAAGAGCTGAATGCCAACCTCAAGGCGCAACTCGAGGCTCAGGCCGACAGCATCCAGAAAACCCGTGAGGAAATGACTGAGCAGATGCGCGCGATGGAGCGTCACGGACGTACCGAGTCCGACATCCTGCGCAGTCAGTTCGATCAGGAATTGAAGGTGCGGGTCGCCGCGGCGGTAGCGGAATACAAGGAGCAATTGGCGATCCGCGACGTGGAGCTGGCCTACCGCAGCGAGCAGCAGGCCCAGTTGCAGAAGGACGTGGAGCGCCTGCAGCAGGAACGCGACCGCTTCGCCAGCGAAGGCGGTGACCACATTCTCGAGCGCCTGGCCAAGCTGGGTGTGGTTTTCGTCGTCTACCATCCCGGTGCAGGCCACCTCACCATCCCGCTGCAGGACATCGCCCGCTATCAGGACAACCCCATGGCGTATGCCGCAACCAAGTGCTTCGTCTCCGAGACGCAGTACCGCGAGTGGCTGGCGCACTACCAGCAGCCGACCTGCGATGCGTCGTTGCCGAGCGGAGAGCGTTGTGCCATGCCGATCGACCGCGTCGATACGCCGAGCCGCTTCGTGTCCGGCGAGTCCAACTGCTGTACCCGGCACAAGGCAAGCGCCCGCCTGCGTACCGTCAGCTAA	MSIQNKPQMVEAVMFFGERGICKEMLFPEFEAVLDGVVNIPEFADQQMRAAYLLINPRLMVRAAVFFYLDFDEKGGADSGWNIPLRHLADRAGRGPDLGAGPIRLACRSQCPVSWHQMHLWDPSLAPGQNDLVILRDAAKRNNLGLLVEDDTPQAVAPERLQMAPEDKWYAPDAAKESADKLAEQLDQEHRLKTAQLIKQQRLRIASLGQQHEEELAKLRLAAEEQRKQLQAEIQRLHQGLRQQEELNANLKAQLEAQADSIQKTREEMTEQMRAMERHGRTESDILRSQFDQELKVRVAAAVAEYKEQLAIRDVELAYRSEQQAQLQKDVERLQQERDRFASEGGDHILERLAKLGVVFVVYHPGAGHLTIPLQDIARYQDNPMAYAATKCFVSETQYREWLAHYQQPTCDASLPSGERCAMPIDRVDTPSRFVSGESNCCTRHKASARLRTVS				NA	NA	NA	NA	NA
BMS010_06330	906	acdS		1-aminocyclopropane-1-carboxylate deaminase	TTGCGTCTCGACTGGCTGGAGCGGGTCGGAGTCGAGGTTGCGGTGTTGCGCCTGGATCTGATCGATCCGCTGATTTCTGGCAACAAGTGGTACAAGCTGGTTCACCATCTCGCTGCAGCCTTTGACGCCGGGGCCGAAGGGTTGATCAGCCTGGGCGGCCCCCATTCCAATCACCTGCATGCACTGGCCGCCGCCGGCAAACGGTTCGGCTTCCCGACCGTCGGGTTGTTGCGCGGCGAGGCGAAGGAAACGCCAACCGTGGAGGATTTGCGCGCCTTTGGCATGCAGCTTCACTGGCTCGGTTATGGCGGTTACCGGGCGCGTCATGAGGACGGTTTCTGGGATCGGTGGCGTGAACGCTATCCCGGTCTGGATCCGGTACCGGAAGGGGGAGGTGGCCTGGCCGGGGCGCTCGGCTGCATGGTCTTGGTGGAGCACGTCCGGGGCCGGTTGGGAGACGTCGGTTGGGCAGATTATGACTTCTGGTGGCTGGCAGCCGGGACGGGCACCACCCTGGCCGGGCTGGTGCTTGCCGAGTCGGGGGCTCGTCCGGTTTTCGGTGCCATGGCGGTTCCGGCCGATCACGGTGTGGCGACCAACATCCGCGCGATTCTCGATGAGGCGGGAGCGGTAGACCGGGGCTACAGCCTGCTGGAGGCTTGTCGGGGCGGTTTCGGTAAATTGGACGATGAGTTGGCGCGGTTTCTTTTCGACAGCGAGCAGGCGAGTGGCCTGCCGCTGGAGCCCTTGTATACCGCCAAGGCGCTAATGGCGTTGCGCTATCATGTCGAGGCCGGTTACCTTGCGACCGGCACTCGCGTGATTTTCGTGCACACCGGTGGGATGCAGGGTCGTCGGGCCCTGTCGGCATCGGTCGGACATCCGCCCGGCTACACTCAGCCATGA	MRLDWLERVGVEVAVLRLDLIDPLISGNKWYKLVHHLAAAFDAGAEGLISLGGPHSNHLHALAAAGKRFGFPTVGLLRGEAKETPTVEDLRAFGMQLHWLGYGGYRARHEDGFWDRWRERYPGLDPVPEGGGGLAGALGCMVLVEHVRGRLGDVGWADYDFWWLAAGTGTTLAGLVLAESGARPVFGAMAVPADHGVATNIRAILDEAGAVDRGYSLLEACRGGFGKLDDELARFLFDSEQASGLPLEPLYTAKALMALRYHVEAGYLATGTRVIFVHTGGMQGRRALSASVGHPPGYTQP				NA	NA	NA	NA	NA
BMS010_06331	1134			hypothetical protein	ATGACCAGCGAACTCGACGTCTCCATGAACGAACCCCTGAATCCAGAGCAGCTGCGTAGTCTGACGCCGCTGAACGTATTGTCCGAGCACCAGTGGCGCGAGTTGCGCGGGCAGATGGTGCCGCAACCGTTGCTGGCGGGTGAGACGCTATTCCGAAAAGGCGACCAGTCGCGGATGACCTACTACCTGCTGGCGGGCGAGCTGTCGCTGCAGGATGCACAAGGGCGGGTACAGCGGATCGTTGCCGGCAGCGAGGCCAGTTGCCATCCGCTTTCGCCCAGCCTGCCGCGTCTGCACGAGGCGCGGGCACTGACCGACGCCAGTGTGCTGGCGCTGGACAGCGCGGCGCTAAGCCGGCTGTTGACCTGGCGCCTGGCCTACCAGGACCTGCTGCTCGAACTGGAACAGGGCGGCGAGGATGTCGAGTGGCTGGAATCCCTGCTGGAAAACCCACTGTTCGCCAAGGTCCCGCCGACCAATGTCCGTGCCATGCTGGGGCGCTTGCACCGGCTCGAACTGCCAGCCGGCAGTACCGTGCTGCGTGAGGGCGAGGCGGGCGATTGTTGTTACTTCCTCAAGAGCGGTCGGGCCGAAGTGCTCCGTCATTCGTCCGATAAGCCCCAGGTGCTGGCCGAGCTGGAAGTCGGTGCCTGTTTCGGTGAGGAGGCGTTGCTTTCCGATCGGCCGCGCAATGCCACTGTCACCCTGCTGGAAGATGGCGTCGTGCTGCGTCTGGATCGCCAGGACTTCTTCGCGCTATTGAAGGCGCCGGTGGTGGCCGAGGTCTCGCTGGGCGAGGCGGAGCGCATGATCGAGGCCGGTGCCCAGTGGCTGGATGTACGTCTTCAGGACGAGTACGAGCGCGGCCATGCGCCTTCGTCCCTGAACATGCCGCTGAACCTGCTGCGCCTCAAGGCCCGTCTGCTGGACAAGGGGCGCACCTATCTGTGCTATTGCGACAGCGGAAAACGCAGCGCCAATGCAGTGTTCCTGCTGTCGCAACTGGGTTTCGAAACCTACGCCCTGCGGGATGGGCTGGATGCCTTGCCGGCGCTCCAGCGTGAAGGGCTGCTCTGCGAGAGTGGGGCCGGATACTTGGCCCGCTCCGGTGGCCGAACCGAGCGGAGCCGCTGA	MTSELDVSMNEPLNPEQLRSLTPLNVLSEHQWRELRGQMVPQPLLAGETLFRKGDQSRMTYYLLAGELSLQDAQGRVQRIVAGSEASCHPLSPSLPRLHEARALTDASVLALDSAALSRLLTWRLAYQDLLLELEQGGEDVEWLESLLENPLFAKVPPTNVRAMLGRLHRLELPAGSTVLREGEAGDCCYFLKSGRAEVLRHSSDKPQVLAELEVGACFGEEALLSDRPRNATVTLLEDGVVLRLDRQDFFALLKAPVVAEVSLGEAERMIEAGAQWLDVRLQDEYERGHAPSSLNMPLNLLRLKARLLDKGRTYLCYCDSGKRSANAVFLLSQLGFETYALRDGLDALPALQREGLLCESGAGYLARSGGRTERSR				NA	NA	NA	NA	NA
BMS010_06332	972			hypothetical protein	ATGCAGCCGATTCCCGTTGCCCCCGATTTGCTCCCGCACCTGCGCCAACCGCGCGTGCGCGACCTCGCCTGGGCTTTGCTCGCACCGCCGCTGCTGCAGACCTCGCCTTGGCCGCAGCGGCATCCGCTGAGCGCCAGCGATTGGGCACGACAACCGGAACGACTGGAAAGCTGGCTGCTGGCGCTCGACCGGGACAGTTCAGCCCTGGATGCCTGGCTGGCGCAGGGGTCTATCCGTCGCCTGGGACTCTATTACGAGCGGCTCTGGCAATTCGCGCTCAGCCAGGCACCCGGCGTCGAGCTGCTCGCCGCCAACCTGCCGGTTCGCCTCGCGGGGCAGACGCTCGGCGAGTTCGACCTGCTGATTCGCGACCATGAAGGCGTCCATCACCTGGAACTCGCCATCAAGCTCTACCTGGGGCCGCCGGCCGGCGACGGGCACGACCCCAGCCATTGGCTCGGCCCCGGCAGCCATGACCGGCTGGACCTGAAACTCAATCACCTGGTACGGCACCAGCTTCCACTGTCGGCCAGCCAGAGCGGGCGCGTCGCCCTGGCGGAGCTTGGCATCGAGCAGGTGACGGCCGCACTCTGGCTGGGCGGCTATCTGTTCTACCCCTGGCCACGGAGCTGCGAACCGCCCGCCGGCGCCAATCCGCTGCACCAACAGGGACGCTGGCTGTTCCATCGGGACTGGCCAGCCTTCTCCGCGGAACACGCCAGCGGACGCTGGCACCCCCTGCCCCGGCATGCCTGGCTGGCGCCAGCGCGCTACACGGCCAACGAGCTTCCTGAGACCATCGAGCTACCCGCCTGGCTGGCGACGCTCGGCCCGCTGTCGCCGCCCTACCTGCTGGTCAGGCTGGAGGAGAACGCCGCAGGCGAGTGGATGGAAGCGGAACGTGTTTTCCTGGTGAACGATGGCTGGCCCCGCACGGGAGCCCACGAGAACGGCGACCTGTCGCCAGCCTGA	MQPIPVAPDLLPHLRQPRVRDLAWALLAPPLLQTSPWPQRHPLSASDWARQPERLESWLLALDRDSSALDAWLAQGSIRRLGLYYERLWQFALSQAPGVELLAANLPVRLAGQTLGEFDLLIRDHEGVHHLELAIKLYLGPPAGDGHDPSHWLGPGSHDRLDLKLNHLVRHQLPLSASQSGRVALAELGIEQVTAALWLGGYLFYPWPRSCEPPAGANPLHQQGRWLFHRDWPAFSAEHASGRWHPLPRHAWLAPARYTANELPETIELPAWLATLGPLSPPYLLVRLEENAAGEWMEAERVFLVNDGWPRTGAHENGDLSPA				NA	NA	NA	NA	NA
BMS010_06333	888	nadK	COG0061	NAD kinase	ATGGAGCAATTCCGCAATATCGGCATCATCGGTCGCCTGGGCAGTTCCCAGGTGCTCGACACCATTCGCCGGCTCAAGAGGTTCCTGCTCGACCGCCACATGCACGTGATTCTCGAGGACACCATTGGTGAAGTGCTCCCGGGCCATGGCTTGCAAACCTCCTCGCGGAGATACCTGGGCGAGGTCTGCGATCTGGTGATCGTGGTCGGCGGCGACGGCAGCATGCTCGGCGCGGCGAGGGCATTGGCGCGACACAAGGTGCCGGTGCTGGGGATCAACCGCGGTAGCCTGGGCTTTCTCACCGACATTCGCCCGGACGAGCTGGAAACCAAGGTCGCCGAGGTGCTCGAAGGGCAATACCTAGTGGAGAGCCGCTTCCTGCTCCAGGCCGAGGTGCGCCGCCATGCGGAGGCCATCGGCCAGGGGGATGCGCTCAACGATGTGGTCCTGCATCCGGGCAAGTCGACCCGGATGATCGAGTTCGAGCTGCACATCGACGGCCAGTTCGTCTGCAGCCAGAAGGCCGACGGCCTGATCGTCGCCACGCCCACCGGTTCCACCGCCTACTCGCTGTCGGCCGGCGGGCCGATCATGCACCCCAAGCTGGACGCCATCGTCGTCGTGCCGATGTACCCGCACACCCTGTCCAGCCGGCCGATCGTGGTGGACGGCAACAGTGAACTTAAAATCGTTGTATCGCCGAACATGCAGATCTATCCGCAGGTCTCATGCGACGGACAAAACCACTTCACTTGTGCGCCGGGCGATACCGTGACCATCAGCAAGAAGCCTCAGAAGTTGCGACTGATTCATCCGCTGGACCATAACTACTACGAGATTTGCAGGACCAAGTTGGGCTGGGGCAGCCGCCTGGGAGGCGGAGACTGA	MEQFRNIGIIGRLGSSQVLDTIRRLKRFLLDRHMHVILEDTIGEVLPGHGLQTSSRRYLGEVCDLVIVVGGDGSMLGAARALARHKVPVLGINRGSLGFLTDIRPDELETKVAEVLEGQYLVESRFLLQAEVRRHAEAIGQGDALNDVVLHPGKSTRMIEFELHIDGQFVCSQKADGLIVATPTGSTAYSLSAGGPIMHPKLDAIVVVPMYPHTLSSRPIVVDGNSELKIVVSPNMQIYPQVSCDGQNHFTCAPGDTVTISKKPQKLRLIHPLDHNYYEICRTKLGWGSRLGGGD	PGPT0013490_2895	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013490-ppnK-K00858	NA	NA
BMS010_06334	972	apaH_1		Bis(5'-nucleosyl)-tetraphosphatase, symmetrical	ATGCTCGACCCCGCGCGAAGTTATGACCTGATCGGCGATGTGCACGGCTGCGCGCATACCCTGGAACGACTGCTCGACCAGCTCGGCTACAGTCGGCACGGCGGCGTCTGGCGGCATCCGCGGCGGATGGCGCTGTTTCTCGGCGATATCGTCGACCGCGGCCCGCGTATCCGCGAAGCCCTGCATCTGGTGCACGACATGGTCGAGGCCGGCCAGGCGCTGTGCATCATGGGCAACCACGAATTCAACGTACTTGGCTGGGCAACGCCGGCACCGCCCGGTAGCGGGCGCCGCCATGTGCGCGAACACACGCCCCGGCACGAGCGGCTGATCCGTGAGACGCTGCAGCAATTCGAGGCCCATCCGGACGATTGGCGAGCGTTCCTCGACTGGTTCTACGAGCTGCCCCTGTTCATCGATGCCGGACGTTTCCGGGTGGTACACGCGTGCTGGGATGCCGGCCTGATCGAGCCGCTGCGCGCGCTCTATGCCGATGGACGTATCGATGAGCATTTCCTCCAGGCCGCTGCAGTGCCGGGTAGCTTCGCCTGCCAGGTCTTCGACCGCCTGCTGCGCGGCACCGACATGCGTCTGCCCCATGGCTTGACCCTGACCAGCGACGATGGCTTCACCCGTGCCTTCTTCCGCACCAAGTTCTGGGAAGAGAACCCGCAGACTTACGGAGACATCGTGTTCCAGCCCGATGCGTTGCCCGATCATGTGGCACGGACACCCCTGAGCGAGAGCGAAAAGGCCGGCCTGCTGCTGTACGGCCCGAAGGAGCCCATGCTGTTCGTCGGCCACTACTGGCGCAGCGGCAAGCCGGCACCGATCCGGCCGAACCTGGCGTGCCTGGACTACAGCGCGGTGATGTATGGCAAGCTGGTGGCTTATCGGCTCGATCAGGAAACCCGCCTGGACCCGGGCAAGTTCGTCTGGGTCGAGGTGGAGCGGCCTGAGGCGCCGAAATGA	MLDPARSYDLIGDVHGCAHTLERLLDQLGYSRHGGVWRHPRRMALFLGDIVDRGPRIREALHLVHDMVEAGQALCIMGNHEFNVLGWATPAPPGSGRRHVREHTPRHERLIRETLQQFEAHPDDWRAFLDWFYELPLFIDAGRFRVVHACWDAGLIEPLRALYADGRIDEHFLQAAAVPGSFACQVFDRLLRGTDMRLPHGLTLTSDDGFTRAFFRTKFWEENPQTYGDIVFQPDALPDHVARTPLSESEKAGLLLYGPKEPMLFVGHYWRSGKPAPIRPNLACLDYSAVMYGKLVAYRLDQETRLDPGKFVWVEVERPEAPK				NA	NA	NA	NA	NA
BMS010_06335	864	glpG_2	COG0705	Rhomboid protease GlpG	ATGAGTGCCGTCGCAGCACTGAGGCTGCCGCTGGAAGTCGACTTGGGCGCCTTCATCGCCTTGTTGCGGCGCCTGCGGGTGCCGTATCGGGTTAGCGAAGAGTCCGGCGAGCAGGTTCTCTGGGTTCCCGATGAGCCGCTGGCCGAGCAGGTGCGCCAGCTCTATGCGCGTTATCCCGAAGGCGATCCGCAGGCCGCCCTGGTCGTCGACGAGCCGGCCGACGAAGGCTGGTTGCAACGATTGCGCGGCAAGCCGGTCACCGTAGCGGTCCTGGGGCTGACGCTGATCGTCGCCGCACTCACCTTCGTGGGTGACAACGCGGCGGCGATCCGTTGGTTCACCTTCCAGGATTTCCGCATCGATGGCGGCTACATCTACTTCTCCACCCTGGGCGACAGCCTGGCCGCGGGGCAGTGGTGGCGCCTGCTGACGCCCATGCTGCTGCACTTCGGCTTCCTCCACCTAGCGATGAATTCAATGTGGTACTGGGAGCTGGGGCGGCGGATCGAGGCCCACCAGGGCAGCCTGGCGCTGCTCGGCCTGACCCTGGTTTTCGGTTTGGTGTCGAACTTTGCCCAGTATCTGCACGCAGGTCCTTCGCTGTTCGGTGGGCTCTCCGGTGTGCTTTACGGCCTGCTCGGGCATTGCTGGCTGTACCAGAAGTTGGCGCCCAATCCCGCCTACCGACTGCCGCCGGGCGTCGTGGTGCTGATGCTGGTGTGGCTGGTGGTGTGCATGACCGGCGTGTTCGAGTGGCTGGGGATCGCCGCCATCGCCAACGCGGCCCACGTCGGCGGATTGGTGGCCGGCTGCCTGACCGGGGTGGCCGGCGGTGCCCTGGCGCGGCTGCGCCATAGGCAATGA	MSAVAALRLPLEVDLGAFIALLRRLRVPYRVSEESGEQVLWVPDEPLAEQVRQLYARYPEGDPQAALVVDEPADEGWLQRLRGKPVTVAVLGLTLIVAALTFVGDNAAAIRWFTFQDFRIDGGYIYFSTLGDSLAAGQWWRLLTPMLLHFGFLHLAMNSMWYWELGRRIEAHQGSLALLGLTLVFGLVSNFAQYLHAGPSLFGGLSGVLYGLLGHCWLYQKLAPNPAYRLPPGVVVLMLVWLVVCMTGVFEWLGIAAIANAAHVGGLVAGCLTGVAGGALARLRHRQ				NA	NA	NA	NA	NA
BMS010_06336	264			hypothetical protein	ATGTCGTCCTTTGCCGAAATGATCGAAAACATCACCCCCGATATCTACCAGAGCCTCAAGCTCGCCGTGGAAATCGGCAAGTGGCCGGATGGCCGCAAACTCACGCAGGAGCAGAAGGAACTCAGCCTGCAGGCGGTCATCGCCTGGGAAATCCAGAACCTGCCGGAAGAGGAACGGACCGGCTACATGGGTACCCTGGAGTGCGGTTCGAAGTCCGAGCCGATCCCCAACCTGCTGTTCACTTCCGCGGATACCCGGCACTGA	MSSFAEMIENITPDIYQSLKLAVEIGKWPDGRKLTQEQKELSLQAVIAWEIQNLPEEERTGYMGTLECGSKSEPIPNLLFTSADTRH				NA	NA	NA	NA	NA
BMS010_06337	834			hypothetical protein	ATGATCGAGCTGGGACGCGGTGCGCTGGAAAAGATGGCGGTGCGCCTGGACGCACCGGTGCAATACGCCTTTCGCCTGGGCGAGCAGGAGGTGCCGGTCAATCCGCTGATCGGCAAGACCCTGCGCCTGGAGTACCTGGGGGCGATCCACTGCACCCACTGTGGGCGCAAGACCAAAAAGAGTTTCAGTCAGGGTTATTGCTATCCCTGCTTCACCAAGCTGCCGCAGTGCGACAACTGCATCGTCAGCCCCGAGAAGTGCCACCACGAGCTGGGCACCTGCCGGGACCCGGCCTGGGGCGAGCAGTTCTGCATGACCGATCACGTGGTCTACCTGGCCAACTCGTCCGGCGTGAAGGTGGGTATCACCCGCGCCAGCCAGTTGCCGACGCGCTGGCTCGACCAGGGCGCGACCCAGGCCCTGCCGATCCTGCGGGTGAGTACCCGGCAACAGTCGGGCCTGGTGGAAGACCTGTTGCGCAGCCAGGTGGCCGACCGAACCAACTGGCGCGCGCTGCTCAAGGGCGATGCCGCACCGGTGGACCTGCCAGCGATCCGTGAACAGCTCTTCGACGCCTGTGTCGAAGGTTTACAAGCGTTGCAGCAGCGCTTCGGATTGCAGGCGATCCAGCCGCTGGCCGATGCCGAGCCGGTCGAAATCCGCTATCCGGTGGTGAACTACCCGGTGAAGATCGTCAGTTTCGACCTGGATAAACAACCGCTGGTGGAAGGCACGCTGCTGGGTATCAAGGGGCAGTACCTGATGTTCGATACCGGCGTCATCAATATCCGCAAATACACGGCTTACCAGATGGCGGTCAGCCACCTGTCTTGA	MIELGRGALEKMAVRLDAPVQYAFRLGEQEVPVNPLIGKTLRLEYLGAIHCTHCGRKTKKSFSQGYCYPCFTKLPQCDNCIVSPEKCHHELGTCRDPAWGEQFCMTDHVVYLANSSGVKVGITRASQLPTRWLDQGATQALPILRVSTRQQSGLVEDLLRSQVADRTNWRALLKGDAAPVDLPAIREQLFDACVEGLQALQQRFGLQAIQPLADAEPVEIRYPVVNYPVKIVSFDLDKQPLVEGTLLGIKGQYLMFDTGVINIRKYTAYQMAVSHLS				NA	NA	NA	NA	NA
BMS010_06338	2667	pepN_2	COG0308	Aminopeptidase N	ATGCGTACCGAACAGCCGAAAACCATTTACCTGAAGGACTATCAGGCGCCGGATTACCTGATCGACGAGACGCACCTGACCTTCGAGCTGTACGAAGACCACACTCTGGTGCATGCCCAGTTGGTGATGCGCCGCAACCCCGAGCGTGCCGCCAATAACCCGAAGTTGCCGCCGCTGGTGCTGGACGGCCAGCAACTCGAACTGCTCTCGCTGATGCTGGATGACCGTGAGCTGCAACCCGGCGACTACCAACTCGATGCCAATCACCTGACCCTGCAACCGACGGCCGAGCGTTTCACCGTCGACAGCAGCGTGCGCATCCACCCGGAGAGCAACACGGCGCTGGAAGGGCTGTACAAGTCCGGCAAGATGTTCTGCACCCAGTGCGAGGCGGAAGGGTTCCGCAAGATCACCTATTACCTCGACCGCCCGGACGTGATGAGCACGTTCACCACCACCCTGAGCGCCGAGCAGCATCGCTATCCGGTCCTGCTCTCCAATGGCAATCCGATCGCCAGCGGCAGCGAAGACGACGGCCGCCACTGGGCGACCTGGGAAGACCCGTTCAAGAAGCCGGCCTATCTGTTCGCCCTGGTCGCTGGCGACCTGTGGTGCGTGGAGGACCGCTTCACCACCATGACCGAGCGGGAGATCGCCCTGCGCATCTATGTCGAGCCGGAGAACATCGACAAGGTGCAGCACGCCATGAACAGCCTGAAGAAGTCCATGCGCTGGGACGAAGAGGTCTACGGGCGCGAGTACGACCTGGACATCTTCATGATCGTCGCGGTCAACGACTTCAACATGGGCGCCATGGAGAACAAGGGCCTCAACATCTTCAACTCCAGCGCCGTGCTGGCCAAGGCAGAAACCGCCACCGACGCCGCCCATCAGCGTGTCGAGGCGATCGTTGCCCACGAGTATTTCCATAACTGGTCGGGCAACCGAGTGACCTGCCGCGATTGGTTCCAGTTGTCGCTGAAGGAAGGTTTCACCGTATTCCGCGATGCCGAGTTCTCCGCCGACATGAATTCGCGCACGGTCAAGCGGGTCGAGGACGTCGCCTACCTGCGCACCCACCAGTTCGCCGAAGACGCCGGTCCCATGGCCCACCCGGTACGCCCGGATTCCTTCATCGAGATTTCCAATTTCTACACCCTGACGGTCTACGAGAAGGGTTCGGAAGTGGTGCGGATGATCCATACCCTGCTGGGGCCGCAGGGCTTCCGCAAGGGCACCGACCTCTACTTCCAGCGACACGACGGCCAAGCGGTGACCTGCGACGACTTCGTCAAGGCCATGGAAGACGCCAACGGCGTCGACCTGACTCAGTTCAAGCGCTGGTACAGCCAGGCCGGCACGCCGCGCCTGGATGTCAGCGAGGCCTACGATGCCGCGGCCGGCATCTACAGCCTGACGTTCAAGCAGAGCTGCCCGCCGACACCGGGCCAGCCGACCAAGGAACCCTTCGTGATCCCGGTGGAGCTGGGCCTGCTGAATGGGCAGGGCAGGGACTTGCCGTTGCGCCTTCAGGGAGAGGCGGCTGCCCAGGGGACCAACCGGGTCTTCTCGGTGACCGAGGCGGAGCAGACCTTTACCTTCGTCGATATCCCCGAAAAGCCGCTACCGTCTCTGCTGCGGGGCTTCTCCGCGCCGGTCAAGCTGTGCTTCCCCTATGGTCGCGACCAGTTGATGTTCCTCATGCAGCACGACTCCGACGGTTTCAACCGCTGGGATGCCGGCCAGCAACTGTCGGTACAGGTGCTGCAGGAACTGATCGGCCAGCAGCAGCGGGGCGAAACGCTGGCGTTGGACCCGCGACTGGTCGCCGCGCTGCGCAGCGTGCTGGAGAATCGGGAACTGGACCAGGCCATGGTCGCCGAGATGCTCTCGCTGCCGAGCGAGGCCTATCTCACCGAAATCAGCGACGTAGCCGATGTGGATGCGATCCATGCGGCACGCGAGTTCGCCCGCAAGCGTCTCGCCGAGGAACTGTTCGAGCCGCTGTGGCAGCGCTATCAGGCCAATCGCGAGCAATCGCGACAAAGCCCGTATATCGCCGAGGCCGAGCACTTCGCTCGTCGCGCGTTGCAGAACATCGCGCTGTCGTACCTGATGCTCAGCGAGCGTCAGGACGTGCTGGCCGCCTGCATCGAACAGTTCGAGTCCGCCGATAACATGACCGAGCGGCTCACCGCCCTGGGGGTGCTGGTGAATTCGCCGTTCGAGGCGGAGCGGAGCAAGGCCCTGGAGATGTTCGCCGATTACTTCAAGGACGATCCGCTGGTCATGGACCAATGGTTCAGCGTCCAGGCGGGCAGCCCGTTGCCGGGTGGCCTGGAGCGTGTGCAACAGTTGATGCAGCACCCGGCCTTCACCCTGAAGAACCCGAACAAGGTGCGCGCGTTGATCGGTGCCTTCGCCAACCAGAACCTGGTCAATTTCCACCGGATCGACGGGGCAGGCTACCGCTTCCTCGCCGACCAGGTGATCACGCTCAATGCCCTCAACCCGCAGATCGCGTCGCGTCTGCTGGCACCGCTGACCCGTTGGCGCAAGTACGACAACGCGCGCCAGGCGCTCATGCGGGCGGAGCTGGAACGCATCCTTGCCTCCGGCGAGCTGTCCAGCGATGTCTACGAGGTGGTGAGCAAGAGCCTCGCCTGA	MRTEQPKTIYLKDYQAPDYLIDETHLTFELYEDHTLVHAQLVMRRNPERAANNPKLPPLVLDGQQLELLSLMLDDRELQPGDYQLDANHLTLQPTAERFTVDSSVRIHPESNTALEGLYKSGKMFCTQCEAEGFRKITYYLDRPDVMSTFTTTLSAEQHRYPVLLSNGNPIASGSEDDGRHWATWEDPFKKPAYLFALVAGDLWCVEDRFTTMTEREIALRIYVEPENIDKVQHAMNSLKKSMRWDEEVYGREYDLDIFMIVAVNDFNMGAMENKGLNIFNSSAVLAKAETATDAAHQRVEAIVAHEYFHNWSGNRVTCRDWFQLSLKEGFTVFRDAEFSADMNSRTVKRVEDVAYLRTHQFAEDAGPMAHPVRPDSFIEISNFYTLTVYEKGSEVVRMIHTLLGPQGFRKGTDLYFQRHDGQAVTCDDFVKAMEDANGVDLTQFKRWYSQAGTPRLDVSEAYDAAAGIYSLTFKQSCPPTPGQPTKEPFVIPVELGLLNGQGRDLPLRLQGEAAAQGTNRVFSVTEAEQTFTFVDIPEKPLPSLLRGFSAPVKLCFPYGRDQLMFLMQHDSDGFNRWDAGQQLSVQVLQELIGQQQRGETLALDPRLVAALRSVLENRELDQAMVAEMLSLPSEAYLTEISDVADVDAIHAAREFARKRLAEELFEPLWQRYQANREQSRQSPYIAEAEHFARRALQNIALSYLMLSERQDVLAACIEQFESADNMTERLTALGVLVNSPFEAERSKALEMFADYFKDDPLVMDQWFSVQAGSPLPGGLERVQQLMQHPAFTLKNPNKVRALIGAFANQNLVNFHRIDGAGYRFLADQVITLNALNPQIASRLLAPLTRWRKYDNARQALMRAELERILASGELSSDVYEVVSKSLA				NA	NA	NA	NA	NA
BMS010_06339	2007			hypothetical protein	TTGCTGGCAATCCAATCGTCCAAGTTATCTCTCGCACCGGCCAAGGCCGGCTTCGCTTTCGTCGGCCTCCTGCCGCTGCTGGTGGCAGCGCATGCCCAGGCCGTCGAGTTCAGCTTCGCCGATGACGCGATCAGCGGTTCGCTCGATACCACGGTGTCCTACGGCCAGTTGTGGCGGGTTCAGGGCCAGGACAAGACCAACAACGACATCAATACCAACGACGGCAACCGGAATTTCGATACTGGCCTGGTCTCCGAAGTGTTCAAGATCACCTCCGACCTGGAAGTGACCTACGAGAACTACGGCGCCTTCGTGCGTGGCAGCGCGTTCTATGACACCCAGATCATGGACAAGCGCAACGACTACTACGACAACAACAACCCGGCGCAGCCCAGCCAGAGCTATCCGCGCGACGACCGCTTCACCTACGACACCCGCCACACCGCCGGGCGCAACGCCGAGATCCTCGATGCCTATGTCTATGGCAACTGGGACGTGGGCGACATGCCGTTGTCGGCACGGGTCGGCCGTCAGGTGTTCAACTGGGGCGAGGGCGTGTTCTACCGGGGCGGCGTGAACACCACCAACCCGGTGGATGCCGCCAAATTCCGCCTGCCGGGCGCGGAGCTGAAGGAAGTACTGGTGCCGGTCGAAGCGTTCAGCTTCAACATCGGCCTGAGCGACAACCTGTCGATGGAAGCTTTCTACCAGTGGAACTGGAAGGAGACCGCGATCGACCCGGCCGGGACCTTCTTCTCCGAGACCGATCTGTTCGCGGATGGAGGAAATACGGCGTATACCACGCAGGAGCGGCTGGCCAGCCCGCTCTTCCAGACCGCTTATCCCACCCTGGTCAACGGCGGCAGTCTGCTCGGTAATCCGGTCAGCGCTAATTTTGCCGGTCTCCAGGGCACCGACTACCTGGACTCCAACGGCGTATTCAAGGTCGCCAACATCGGATCGGACATCAACGCCAAGAACGACGGCCAGTTCGGCGTTGCCTTCCGCTACATCGCCGAAGAATTGAACTCCACGGAGTTCGGCTTCTACTTCGTCAACTATCACGCGAAAGAGCCGACGATCTACGCCGACCTGAATAGCAGCTATGCCGGGTTGGATATCGATCAGATGGCATTGCTGGCCAATCTGTTGGGCGTTCCGGTTGCGTCCTACGACCAGCTGGTCGCGGCAGCAGCCGGCAATGCCGGTGCACAGAGCATCCTTGATCTGATCAACGGCGCTGCCGCCGTCGACGTCGCCAACCAGGTCAACGGCCGCCGCGAGTATGCCGAAGACATCCGCATGTACGGCATGAGCTTCAATACCACGCTGGGCGAGGCGTCGGTGTTCGGTGAACTGGCCTACCGGCCGAACATGCCGATCGGCATTGCCGCCACCAACGATTTGCTCGGCGACCTGCTGAGCCAGGCGGCGCTGCTGGCCGACGGCCGTACCGTCAACATCGGCGGCCAGCAGGTGCAGATGACCGATCAGATTCATAACGCCACACGTGTGGAAGCGTTCAATACGTCCCTGGGCACCATTTACAACTTCGGCCCGGCGATGAGCTTCGACTCGCTGTTCGGCGTCGCCGAGCTGGCCTCCGAGCACTTGCGCGGCGACAGCCTGCACTACACCGCCTACGACGGCACCACCCGCTACTACGCCGGCCGCGGCAACGGCTCCTACATCTCCGGCTACGAGCGCGACGATCAGGTCAACCGCAATGCCTACGGCTACACCCTGATGCTCAACGGCACCTGGAACGACGTCTACGCCGGGGTCAACCTCTCGCCGTTCGCGGTGTTCAAGCATGACTTCGAAGGCAATTCGCACCAGACCGGCAACTTCATCGAGGGGCGCAAAGCCTACACCCTGGGTGTTCGCGCCAGCTACCTGAGCAACCTCGAAGCCGAACTGCAATACACCGAGTTCTACGGCGCCGGCCAGAACAACGCCGGGCGCGACCGCGATAACGTCGGCGTCAACGTCAAGTACTCGTTCTGA	MLAIQSSKLSLAPAKAGFAFVGLLPLLVAAHAQAVEFSFADDAISGSLDTTVSYGQLWRVQGQDKTNNDINTNDGNRNFDTGLVSEVFKITSDLEVTYENYGAFVRGSAFYDTQIMDKRNDYYDNNNPAQPSQSYPRDDRFTYDTRHTAGRNAEILDAYVYGNWDVGDMPLSARVGRQVFNWGEGVFYRGGVNTTNPVDAAKFRLPGAELKEVLVPVEAFSFNIGLSDNLSMEAFYQWNWKETAIDPAGTFFSETDLFADGGNTAYTTQERLASPLFQTAYPTLVNGGSLLGNPVSANFAGLQGTDYLDSNGVFKVANIGSDINAKNDGQFGVAFRYIAEELNSTEFGFYFVNYHAKEPTIYADLNSSYAGLDIDQMALLANLLGVPVASYDQLVAAAAGNAGAQSILDLINGAAAVDVANQVNGRREYAEDIRMYGMSFNTTLGEASVFGELAYRPNMPIGIAATNDLLGDLLSQAALLADGRTVNIGGQQVQMTDQIHNATRVEAFNTSLGTIYNFGPAMSFDSLFGVAELASEHLRGDSLHYTAYDGTTRYYAGRGNGSYISGYERDDQVNRNAYGYTLMLNGTWNDVYAGVNLSPFAVFKHDFEGNSHQTGNFIEGRKAYTLGVRASYLSNLEAELQYTEFYGAGQNNAGRDRDNVGVNVKYSF				NA	NA	NA	NA	NA
BMS010_06340	1371			putative protein	ATGCTGAAGAAGCACTCGCTGATCGGCGCCGCGATTGCCCTGGCCCTGTCCGCCAGCGGCGCGCTGGCGGCGGTTTCGCCGCAAGAAGCGGCCAAGCTGGGAACCACCCTGACCCCGTTCGGCGCCGAGAAGGCCGGCAACGCGGCAGGGACCATTCCCGAATGGACCGGCGGCATCACCCAGCCGCCGGCCGGCTACAAGAAGCCCGGCCAGCATCACCCGGACCCCTTCGCCGGCGACAAGCCGCTGTTCACCATCACCCAGGCCAACCTGGAGCAGTACAAGGCGAACCTGACCCCCGGCCAGATCGCCCTGTTCGCCACCTACCCGAACAGCTTCCAGATACCGGTCTACCAGAGCCGGCGCTCCGGCTCGGCACCGCAGTGGGTCTATGACAACACGCTGAAGAACGCGACCAGCGCCAAGCTGCTGGACGGCGGCAACGGTTTCGCCGATGCCTTCGGCGGCATCCCGTTTCCGATCCCGCAGAACGGTGTCGAAGCGCTGTGGAACCACATCGCCCGCTACCGTGGCACCTATGTCGTGCGCCGCGCATCGGAAGTGGCGGTACAGCGCAACGGCGCGTTCAATCTGGTGACTTCCCAGCAGGAAGCCCTGTTCAAGTTCTACGAGCCCAAGGGTTCGTTCGCCAACCTGAACAACATCCTCTTCTATTACCTGTCCTTCACCAAAAGCCCGGCGCGCCTGGCGGGTGGGGCGGTGCTGGTGCACGAGACCCTGGATCAGGTGAAGGAGCCGCGCCAGGCTTGGGGCTACAACGCCGGCCAGCGCCGTGTGCGCCGTGCGCCGAACCTGGCCTACGACACGCCGATCGCCGCCGCCGACGGCCTGCGCACCGCCGACGACACCGACATGTTCAACGGTGCCCCGGATCGCTACGACTGGAAGCTGGTGGGCAAGAAGGAAATCTACATCCCTTACAACAACTACAAGGTCACCAGCCCCGAGGTGAAGTACGAGCAGTTGCTGCAGGTCGGCCATCTGAATCCGGCTGTCACCCGTCATGAGCTGCATCGCGTCTGGGTGGTGGAGGGCACGCTGAAGCCCGGTGCTCGCCATATCTATTCCAAGCGCACCCTCTACCTCGACGAGGACAGCTGGCAGATCGCGGTGGCGGACCAGTACGACGGCCGTGGCGAGCTGTGGCGCGTCTCCATCGCTTATCTGAAGAACTACTACGACCTGCCGACCACCTGGTCCGCGCTCGATGTGTTCCACGATCTGCAGGCGCGCCGCTACCACGTGCAGAACCTGGACAGCGAAGAGTCGAGCACCATCGACTTCAGCCAGGCCACGCCGGATGACGGTTACTTCAAGCCGTCGGCCCTGCGTCGGCGCGGTACCCGCTAA	MLKKHSLIGAAIALALSASGALAAVSPQEAAKLGTTLTPFGAEKAGNAAGTIPEWTGGITQPPAGYKKPGQHHPDPFAGDKPLFTITQANLEQYKANLTPGQIALFATYPNSFQIPVYQSRRSGSAPQWVYDNTLKNATSAKLLDGGNGFADAFGGIPFPIPQNGVEALWNHIARYRGTYVVRRASEVAVQRNGAFNLVTSQQEALFKFYEPKGSFANLNNILFYYLSFTKSPARLAGGAVLVHETLDQVKEPRQAWGYNAGQRRVRRAPNLAYDTPIAAADGLRTADDTDMFNGAPDRYDWKLVGKKEIYIPYNNYKVTSPEVKYEQLLQVGHLNPAVTRHELHRVWVVEGTLKPGARHIYSKRTLYLDEDSWQIAVADQYDGRGELWRVSIAYLKNYYDLPTTWSALDVFHDLQARRYHVQNLDSEESSTIDFSQATPDDGYFKPSALRRRGTR				NA	NA	NA	NA	NA
BMS010_06341	1092	hcf136_1		Ycf48-like protein	ATGAGTGAGCCCGTCCTGCGGCGCACCCCGTCCGGTTTCGTCGAGCAGTCTTCCCGCTTGCCGACGTTCCGCTTTCTATCGCCGCTGGCTAAAGCGCTCTCGCTGTGCAGTGTGCTGTCCGTCCTGACCTTCGCCGCTCCGCTGCACGCGGAAGGTTCCACCGATTCCAACCCCGTTTACGCCATCGAGTCGCCCAAGGCCGTGCGTAGCCTGCTGCTCGATGTCACCCGCGCCGGCAAGCGCCTGGTGGCGGTGGGCGATCGTGGCCACATTCTCTATTCCGACGACAACGGCAAGAGCTGGACGCAGGCCAAGGTGCCGACCCGGCAGATGCTCACCGCGGTGTTCTTCATCAATGAGAAACACGGCTGGGCGGTCGGACACGATGCCCAGGTGCTGGCCACCACCGACGGTGGCAACAGCTGGGCCCGTCAGTACCAGGATCTCGAACGCGAAGCGCCGCTGCTGGACATCTGGTTCCAGGACGCCAACCACGGCATCGCCGTCGGTGCCTATGGCGCCCTGCTGGAGACCACCGACGGCGGGCAGAACTGGGAAGATGTCAGCGACCGCCTGGACAACGAAGACGGCTTTCACCTGAACGCCATCGTCGCCGTGAAGGATTCCGGCCTGTTCGTGGTTGGCGAGGCCGGCGCGATGTTCCGTTCCCGCGATTGGGGCCAGACCTGGGAAAAGGTCGAAGGGCCTTACGAGGGCTCGCTGTTCGGCGCGCTGGGCACGGCCGAGCCGGGCACCCTGATGGTTTATGGCCTGCGCGGCCACCTGTTTCGCTCCAACGATTTCGGCGATACCTGGGAGCAGCTCGAGCTGAACACCCAGCACAACGGCCCGCTGGAGTTCGGCCTGGCCGACGGCAACCTCCTGGCAGATGGCGCCATCGTGGTCGTCGGGCATGGCGGCAGCGTGCTGAAAAGCACCGACAGCGGCCGCACCTTCAGCGTGACCAATCGACCCGACCGGCTTTCCCTGGCCGGTGTGAGCGCTACGGATGACGGCAACCTGATCCTGGTGGGGCAGGGCGGCGTGCATGTCGCCTCGCCGACTGGCGCCGATCTGGGCCAACAAAAATAA	MSEPVLRRTPSGFVEQSSRLPTFRFLSPLAKALSLCSVLSVLTFAAPLHAEGSTDSNPVYAIESPKAVRSLLLDVTRAGKRLVAVGDRGHILYSDDNGKSWTQAKVPTRQMLTAVFFINEKHGWAVGHDAQVLATTDGGNSWARQYQDLEREAPLLDIWFQDANHGIAVGAYGALLETTDGGQNWEDVSDRLDNEDGFHLNAIVAVKDSGLFVVGEAGAMFRSRDWGQTWEKVEGPYEGSLFGALGTAEPGTLMVYGLRGHLFRSNDFGDTWEQLELNTQHNGPLEFGLADGNLLADGAIVVVGHGGSVLKSTDSGRTFSVTNRPDRLSLAGVSATDDGNLILVGQGGVHVASPTGADLGQQK				NA	NA	NA	NA	NA
BMS010_06342	2364			hypothetical protein	ATGAGTAAGCATCAACAACAACCCGCGTCCCTTCTCGAGCGGCTGATCTTCAACAATCGCCCGGCCGTGATCCTGCTGTGTCTGCTGATCAGCATCTTCCTCTTCTACCAGGCTTCCCAGGTTCGCCCGGAAACCAGCTTCGAGAAGATGATCCCGCTGGGGCATCCCTACATCCAGAAGATGCTCGAGCACCGCAACGACCTGGCCAACCTCGGCAACACCGTGCGCATTTCGGTGGAAGCGGTGGAAGGCGACATCTTCACCAAGGAGTACATGGAAACCCTGCGTCAGGTGCATGACGAGGTGTTCTACGTGCCCGGTGTCGACCGCTCCGGCCTGAAATCCCTGTGGAGCCCCAGCGTGCGCTGGACCGAGGTGACGGAAGAAGGCTTCGCCGGCGGCGAGGTGATTCCCCAGACCTACGACGGCTCCATGGAAAGCCTGGAGGCGCTGCGCAGCAATATCCTCAAGTCGGGCCAGATCGGCCGCCTGGTGGCGAACAACTTCAAGTCGAGCATCGTCGATGTGCCGCTGCTGGAGTCCTACCCGGACCCGCAGGACCAGAGCAAGCTGCTCAAGCTGGACTACCAGAAGTTCTCCCACGAACTCGAGGAGAAAATCCGCGAGAAATACCAGGCGCAGAACCCGAATGTGAAGATTCACATCATCGGCTTCGCCAAGAAGGTCGGTGACCTGATCGACGGCCTGATCGGCGTGGCGTTGTTCTTCGCCGTGGCCATCGGCATCACCTTCGTGCTGCTGCTGTGGTTCACCCGCTGCTTCAAGAGCACCCTGGCGGTGGTCTTCACCACCCTGATCGCGGTGGTCTGGCAGCTCGGCCTGCTGCACACCCTGGGCTTCGGGCTCGATCCGTATTCCATGCTGGTGCCGTTCCTGGTCTTCGCCATCGGCATTTCCCATGGCGTGCAGAAGATCAACGGCATCGCCATGGCCTCGGGCGAGGCGACCAATGCCCTGAGCGCCGCGCGCATGGCCTTCCGCCAGTTGTTCATTCCCGGCCTGGTGGCGTTGCTCTCCGACGCGGTGGGCTTCATCACCCTGCTGCTGATCGACATCGGCGTGATCCGCGAGCTGGCCATCGGCGCTTCCATCGGCGTGGCGGTAATCATCCTCACCAACCTGATCCTGCTGCCGGTCACCATCTCCTACATCGGCATCAGCAAGCGCGCGGTGCAGAAGAGCCGCGACGAGGCCGCGCGGGAGCATCCGTTCTGGCGCCTGATCGCCAACTTCGCCCATCCGGTGGTGGCGCCGATCTCGGTGGTCATCGCCCTGCTGGCCTTCGGTGGCGGTATCTGGTACGGCCAGAACCTGAAGATCGGCGACCTCGATCAGGGCGCGCCGGAGCTGCATCCAGACTCGCGCTACAACCTGGACAACGATTTCGTCATCCGCAACTACTCGACCAGCTCCGACGTGCTGGTGGTGATGGTCAAGACCGGGCCGGAAGGCTGCTCGACCTACCAGACCCTGTCGGCGATGGACGAGCTGATGTGGAAGATGGAGAACACGGCCGGGGTGCAGTCGGCGATTTCCATGGTCACCGTCTCCAAGCAGGTGATCAAGGGCATGAACGAGGGCAACCTGAAGTGGGAAACCCTGTCGCGCAACCAGGACGTGCTGAACAACTCCATCGCCCGTGCCGAGGGGCTGTACAACACCGACTGCTCGCTGGCGCCGGTGCTGGTGTTCCTCAACGACCACAAGGCGGAAACCCTGGAGCACGTGGTCGCCGCGGCCAAGTCGTTCGCCGATGAGCACAACAAGGATGACCTGCAGTTCCTTCTGGCGGCCGGCAACGCCGGTATCGAGGCGGCCACCAACGAAGTGATCGCAGCCTCCGAGACCACCATGCTGATCGCGGTCTACGCGGCGGTGATCTTCATGTGCCTGCTGACCTTCCGCTCGGTGGCGGCGACCCTCTGCGTGATCCTGCCGCTGGTGCTGACCTCGGTGCTGGGCAACGCGCTGATGGCTTACCTGGGCATTGGCGTGAAGGTCGCCACCCTGCCGGTGATCGCCCTCGGCGTGGGGATCGGCGTGGACTACGGCATCTATATCTACAGCCGTCTGGAAACCTACCTGCGCCAGGGCATGCCCTTGCAGGAGGCGTACTACGAGACCCTCAAGTCCACCGGCAAGGCGGTGCTGTTCACCGGCGTCTGCCTGGCGATCGGCGTGGCCACTTGGATCTTCTCGGCGATCAAGTTCCAGGCGGACATGGGGCTGATGCTGACCTTCATGTTCCTCTGGAACATGGTGGGCGCGATCTGGCTGCTCCCGGCCCTGGCGCGCTTCATGATCAAGCCGGAGAAGCTGCGTCAGGCAGCGGCTGCGGCCTGA	MSKHQQQPASLLERLIFNNRPAVILLCLLISIFLFYQASQVRPETSFEKMIPLGHPYIQKMLEHRNDLANLGNTVRISVEAVEGDIFTKEYMETLRQVHDEVFYVPGVDRSGLKSLWSPSVRWTEVTEEGFAGGEVIPQTYDGSMESLEALRSNILKSGQIGRLVANNFKSSIVDVPLLESYPDPQDQSKLLKLDYQKFSHELEEKIREKYQAQNPNVKIHIIGFAKKVGDLIDGLIGVALFFAVAIGITFVLLLWFTRCFKSTLAVVFTTLIAVVWQLGLLHTLGFGLDPYSMLVPFLVFAIGISHGVQKINGIAMASGEATNALSAARMAFRQLFIPGLVALLSDAVGFITLLLIDIGVIRELAIGASIGVAVIILTNLILLPVTISYIGISKRAVQKSRDEAAREHPFWRLIANFAHPVVAPISVVIALLAFGGGIWYGQNLKIGDLDQGAPELHPDSRYNLDNDFVIRNYSTSSDVLVVMVKTGPEGCSTYQTLSAMDELMWKMENTAGVQSAISMVTVSKQVIKGMNEGNLKWETLSRNQDVLNNSIARAEGLYNTDCSLAPVLVFLNDHKAETLEHVVAAAKSFADEHNKDDLQFLLAAGNAGIEAATNEVIAASETTMLIAVYAAVIFMCLLTFRSVAATLCVILPLVLTSVLGNALMAYLGIGVKVATLPVIALGVGIGVDYGIYIYSRLETYLRQGMPLQEAYYETLKSTGKAVLFTGVCLAIGVATWIFSAIKFQADMGLMLTFMFLWNMVGAIWLLPALARFMIKPEKLRQAAAAA				NA	NA	NA	NA	NA
BMS010_06343	999			putative HTH-type transcriptional regulator	ATGCGCGAACGCACCATCGCCAGCCATTTCGTCCGGGCCGCCCTGCGGGGTGCCGAACGCCAAGGCCACGACTGCGTCCCGCTGCTGCGCCGGGCCGGCATCCAGCCGGCCGTGCTGGAAGAGTCGCGCGCACGGGTGGCGCCGGAGCAGTTCGCCAGGCTGATCCAGTTGCTCTGGGAATTTCTCGACGACGAATACCTCGGCTTCTGCCACCAGCGCAGCAAGCGCGGCACCTTCGCCATGATGTGCCACGCCATCATCCACTGCCGTACCCTGGAAAAGGCGCTGACCCGCGGCACGCTGTTCTATGGCCTGTTCCCCGAGGCACCAACCATTCACCTGCAACGGGAAGGCGACTGGGCGCGCCTGACGGTCGGCGATGCCCACCTGTGGGACCCGGATCATTTCCTGGTGGAAAGCCTGCTGGTGATCTGGCACCGCCTCGGCAGTTGGTTGATCGGCCAGCGTATCCGCCTCGAGGAAGCCACCTTCACCTATGCCGAACCGGCCCATGCCGCCGAATACGACCTGCTCTTCCCCTGCCGCCGACGCTTCGATGCGGGCGCCACCAGCCTGCTGTTCCAGGCCCGCTACCTGACCATGCCGTTGCTGCAGGACGAGCGCACGCTCAAGCACTTCCTCGAATACTCGCCAGCCGACCTGCTGGCCCGTCCGGACAGCGGCGACAGCCTGACCAGCCAGATCCGCCGCCTGCTCGGCCGCGACTGCATCCGCTGGCCAGACCTGGAAAGCGTGGCGCAGCAGCTGCACATGAGCCCACAGACCTTGCGCCGCCACCTGCGCGAGGAAGGCTCCAGCTTCCAGGAACTGAAGGACCATCTGCGCCGCGACCTGGCGATCTACCACCTCGGACGCGACGAGCTGTCGATCCAGGACATCGCCGAACAGCTCGGCTTCTCCGAACCCTCGGCCTTCCACCGCGCCTTCAAGAAATGGACCGGCTTGACACCGGGCGCCTACCGCAGCCAGGAGGGCTGA	MRERTIASHFVRAALRGAERQGHDCVPLLRRAGIQPAVLEESRARVAPEQFARLIQLLWEFLDDEYLGFCHQRSKRGTFAMMCHAIIHCRTLEKALTRGTLFYGLFPEAPTIHLQREGDWARLTVGDAHLWDPDHFLVESLLVIWHRLGSWLIGQRIRLEEATFTYAEPAHAAEYDLLFPCRRRFDAGATSLLFQARYLTMPLLQDERTLKHFLEYSPADLLARPDSGDSLTSQIRRLLGRDCIRWPDLESVAQQLHMSPQTLRRHLREEGSSFQELKDHLRRDLAIYHLGRDELSIQDIAEQLGFSEPSAFHRAFKKWTGLTPGAYRSQEG				NA	NA	NA	NA	NA
BMS010_06344	2199			hypothetical protein	ATGTCCGACACCACGCCGCCAGCCTCATCCACACCGGCTCCTTGCACCGCGAGCAGCTCCCTGTCGCAGCACATCACCTTTCTGTTGCTGGCCGTCCTGACCCTGTTGCTGCTGGCCGTATGGACGCTGCCAGCCGCCTACGGGCTGCGCCTGAGCAACCAGTGGTTCCCGGTTTCGTTGCACACCCTCATCGAATCCAGCGCCGTCGCCGTCGCGATCCTGGTCTTCGCCGTGACCTGGCACGCCTACCGGCCAGAACGCCCGGCCAACCTCGTCGTGCTGGCCTGCGGCTTCCTCGCCGTCGGCCTGCTGGATTTCGTCCATGCGTTGTCCTACAAGGGCATGCCCGATTTCGTCACGCCGGCCTCGCCGGAAAAAGCCATCTATTTCTGGCTGGCCGCCCGGTCGATTGCGGCCCTCACGCTGCTGACCATCGCCTTCCGCTCCTGGCGCCCGCTGGCATCCGCCCGCCGCCGTTATGTCCTGCTCAGCGTCACGCTGGTGCTGGTCGCCGTGCTGAGTTACCTGCAGCTCCGCTACCCGGACATCTGGCCGCGCACCTTCATCGAGGGCAAGGGCCTGACGCCGTTGAAGATCGCCATCGAGTGGCTGATCATCGCGCTGCTGGTGGTCGCCGCCCTGCGCTTTTCCCAGGCCCGGGTGGAAAATCCGCCGTACGACGCCGGCGGCATGCTCGCCGCGACGCTGATCGCGATCCTGTCCGAGCTGTGCTTCACCGCCTATAACAACGTCAACGACATCTTCGCCCTGCTCGGCCACCTCTACAAAATCATCGGCTACTGCTTCATCTACCGGGTGGTGTTCGTCTCCAGCGTGCGCGAGCCCTACGAGCGTCTGAGCGTCGCCATCGCCCAGCGCGATGCCGCCGAACAACGCGCCGACCGCCTGGCGTTCTACGACGGATTGACCGGCCTGCCCAACCTGACGCTGCTGCAGGACCGTGCCGAACAGGCGCTGGCTGCCGCGCAACGTAATCACAGTCAGGTCGCCCTGCTGTGCATGGACATCGACGGCTTCAAGCTGATCAACGACTCCCTCGGCCATGCCCACGGCGACGGGCTGCTGCGCGCCATCGCCGAGCGCCTGCGCGACTGCGTGACCGATACCGACACCGTCTGCCGCCCCGGTGGCGACGAGTTCGCCATCCTGCTCACCGATCTCGCCGACGCGGAGTCCGCCGCGGCAGTGCCGGAGCGGATCATCCAGCACCTGAAAGCGCCCTTCCCGCTGTTCGGCCAAAGCCTCGAGGTTTCCGCCTCCATTGGCGTGGCACTGTCGCCGCACGACGGACTCGACTTCCAGACCCTGCTGCGCAACGCCGAAACCGCCATGTACCAGGCCAAGCGCAGCAACCGGCAGCCCTGGTGCTTCTACGACGCCGCGATGAACACCGAAATGAGCGAACGCCTGAACCTGCTCAACGGCCTGCGGCGCGCCTTGGACGAAGATCAGTTGCAGCTCCATTACCAATTGCAGTTCGACCTCGACAGCGGCGCGATCATTGGCGCCGAAGCCCTGGTGCGCTGGCAACACCCGCAGTTGGGCCTGTTGATGCCCGGGCGCTTCATCGCCGCGGCGGAAGAAAGCGGGCTGATCATCCCCATCGGCGACTGGATCATCCACCAGGCCTGTCGCCAGGCCGTGCAGTGGCGCCAGGGCGGGGTGCCGATCCCCCGGGTGGCGGTCAACCTGTCGGCGATCCAGTTGCACGACGGCAAGGTGGAAGACAGCGTGCTCTCCGCCCTGGCCGCCACCGGCCTGCCCGCTTCCGCGCTGGAACTGGAGTTGACCGAGTCCAGCCTGATCGAGGACACCGAGCAGGTGCAGGCCACCGTCCGACGTCTCAAGGCACTGGGGGTACGGCTGTCCATCGATGACTTCGGCACCGGTTTTTCCAGCCTGTCGTACCTGCGCCACCTGGCGGTCGACAAATTGAAGATCGACCAGTCGTTCATTCGCGACCTGACCGTGACCGCCGACGCCGGAGCGCTGGTCAGCGCCATTCTCAACATGGCCGCCTCCCTGGGTCTGAAGACCATTGCCGAAGGCGTGGAAGACCGGGAGACCGCGGACAAGCTGTGCGAACTGGGCTGCCGGCAGGCCCAGGGCTATCTGTTCGCCCGCCCCATGAGCGCCGAGCAGTTGCCCGATTTCATCGCCGAATTGCCCACACGCTGA	MSDTTPPASSTPAPCTASSSLSQHITFLLLAVLTLLLLAVWTLPAAYGLRLSNQWFPVSLHTLIESSAVAVAILVFAVTWHAYRPERPANLVVLACGFLAVGLLDFVHALSYKGMPDFVTPASPEKAIYFWLAARSIAALTLLTIAFRSWRPLASARRRYVLLSVTLVLVAVLSYLQLRYPDIWPRTFIEGKGLTPLKIAIEWLIIALLVVAALRFSQARVENPPYDAGGMLAATLIAILSELCFTAYNNVNDIFALLGHLYKIIGYCFIYRVVFVSSVREPYERLSVAIAQRDAAEQRADRLAFYDGLTGLPNLTLLQDRAEQALAAAQRNHSQVALLCMDIDGFKLINDSLGHAHGDGLLRAIAERLRDCVTDTDTVCRPGGDEFAILLTDLADAESAAAVPERIIQHLKAPFPLFGQSLEVSASIGVALSPHDGLDFQTLLRNAETAMYQAKRSNRQPWCFYDAAMNTEMSERLNLLNGLRRALDEDQLQLHYQLQFDLDSGAIIGAEALVRWQHPQLGLLMPGRFIAAAEESGLIIPIGDWIIHQACRQAVQWRQGGVPIPRVAVNLSAIQLHDGKVEDSVLSALAATGLPASALELELTESSLIEDTEQVQATVRRLKALGVRLSIDDFGTGFSSLSYLRHLAVDKLKIDQSFIRDLTVTADAGALVSAILNMAASLGLKTIAEGVEDRETADKLCELGCRQAQGYLFARPMSAEQLPDFIAELPTR	PGPT0026010_946	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0026010-mucR-K21023	NA	NA
BMS010_06345	831			hypothetical protein	ATGTCGCTTCGGAACGGTGCCATCGATGCCTGGGCCCAGCCGGCCTTGGGCAACCTGCGCGAACGGATGCCCGAGGTGGCACGGCTGTTCGAGAAATCCGGCTCCACCGACCTGCTCGAGCGGCGCCTCGACCCGGTGCAGACCGTCGCCGAAATGGACAAGGCCGGCGTCGACACGCTGATGCTTGCCGCCTGGTGCCGTCCCGAGGGCTGGGTGATCGACAATGACCAGATCGCCGAATTCACCCGCGCCTTCCCGGATCGCTTCGTCGGCGTCGCCACCGTCGACCTGGGCAAGCCCATGGCCGCCGTGCGCGAGCTGGGGCGGGCGGTGACCGAGCTGGGCTGCAAGGCGCTGCGGGTGGTGCCCTGGCTGTGGAAGCTGCCGCCGGACGACCGGCTCTATTACCCGCTCTACGTGAAGTGCATCGAACTGGACATCCCGTTCTGCACCCAGGTCGGTCACACCGGGCCGCTGATGCCCTCCGAGACCGGCCGGCCGGTGCCCTACCTGGATCGCGTCGCACTGGATTTCCCCGAGCTGCGCATCGTCGCCGGCCACATCGGCCATCCGTGGACCGACGAAATGATCGGCGTGGCCTGGAAGCACGACAACGTGTTCATCGATACCTCCGCCTACCTGCCTCGCTATTATCCGTCGCAGTTGCTGCACTTCATGCGGAGCTACGGGCAGGACAAGGTCCTGTTCGGCAGCAACTTCCCGCAGTTGTCGCTGAGCCGCTGCATGGAGCAGGTGAAGGGCCTGGACCTTCCCGCCGAGGTGGAGGCGAAGTTCCTACGCGGCAACGCGAGGCGTGTATTCAAACTCTGA	MSLRNGAIDAWAQPALGNLRERMPEVARLFEKSGSTDLLERRLDPVQTVAEMDKAGVDTLMLAAWCRPEGWVIDNDQIAEFTRAFPDRFVGVATVDLGKPMAAVRELGRAVTELGCKALRVVPWLWKLPPDDRLYYPLYVKCIELDIPFCTQVGHTGPLMPSETGRPVPYLDRVALDFPELRIVAGHIGHPWTDEMIGVAWKHDNVFIDTSAYLPRYYPSQLLHFMRSYGQDKVLFGSNFPQLSLSRCMEQVKGLDLPAEVEAKFLRGNARRVFKL	PGPT0018545_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENVIROMENTAL_SURRIVAL	CE-BACTERIAL_FITNESS-ENVIRONMENTAL_SURRIVAL-GLYCOGEN_BIOSYNTHESIS,PGPT0018545-glgP-K00688	NA	NA
BMS010_06346	1182	yfdE_3	COG1804	Acetyl-CoA:oxalate CoA-transferase	ATGAAAGGCCCGCTGTCCTCCCTCAAGATTCTCGATTTCTCCACCCTGTTGCCGGGGCCGTTCGCCTCGCTGCTGCTGGCCGACATGGGCGCCGACGTGCTGCGGGTCGAGTCGCCCGGGCGCATGGATCTGGTGCGCCTGCTGCCGCCCCATGACGGCGATACCTCGGCCAGCCATGCCTATCTCAACCGTAACAAGCGCTGCATTGCCCTGGACCTGAAGAAACCGGAAGCGGTGGAGGTGGTGAGACAACTGGTGGGCGAATACGACATCGTGCTCGAACAGTTCCGTCCCGGTGTGATGGACAAGCTCGGCGTCGGTTATGAGGCCCTGAAGGCGATCAATCCCCGGCTGATCTACGTGTCGATCACCGGTTACGGCCAGACCGGCCCCTACAAGGATCGCGCCGGGCACGACATCAACTACCTGGCCCTGGCCGGTGTCGCCAGCTACACCGGCCGGCGCGACACCGGCCCGTTGCCGCTGGGCGTGCAACTGGCGGATATCGCCGGTGGCTCGTTGCATGGCGTCATGGGCCTGCTGGCCGCGGTGATCCACCGCCAGCAGACGGGGGAGGGCCAGCAGGTGGATGTCAGCATGACCGACTGCGCCTTCAGCCTGAACGGCATGGCCGGTGCCGGCTACCTGGCCTGTGGCGTGGAGCCGGACATGGAAAGCCAGGCGCTGAACGGCGGCAGCTTCTACGACTATTACCGGACCCGCGACGGCCGCTGGTTTTCGGTGGGCAGCCTGGAGCCGCAGTTCATGCTGCAGTTCTGCCAGGCCATCGGCCGCCCGGAGCTGGCTGCCCGTGGCTTGTCGCCGAGTGCGGAGGAGCAGCGCCTGCTCAAGCGGGAGATCGCCATCGAGCTGGAAAAGCGCGACTTCGCCGACTGGTGCGAGCGTTTCGCCGCAGTGGACGCTTGCGTCGAACCGATGCTGAGCCTGTCCGAGGCCGTGGAACATCCCCAACTGCGGGCTCGCGGTCTTGTGGTGGGCGTGCCGCGCGACGGAGCGGCGCCGCAGCGGCAGATGGCCTGCCCGATCAAATTCTCCGTCGGGCTGCCGGAGCCCCGCCACATCGGCATGCCCGTGGGTGCGCATACCGATGAGGTGCTGGCCGGCCTCGGTTATGCGGAGCCCCGCATCGCAGAACTCAAGGCTGCCGGGGTTATCGCCTGA	MKGPLSSLKILDFSTLLPGPFASLLLADMGADVLRVESPGRMDLVRLLPPHDGDTSASHAYLNRNKRCIALDLKKPEAVEVVRQLVGEYDIVLEQFRPGVMDKLGVGYEALKAINPRLIYVSITGYGQTGPYKDRAGHDINYLALAGVASYTGRRDTGPLPLGVQLADIAGGSLHGVMGLLAAVIHRQQTGEGQQVDVSMTDCAFSLNGMAGAGYLACGVEPDMESQALNGGSFYDYYRTRDGRWFSVGSLEPQFMLQFCQAIGRPELAARGLSPSAEEQRLLKREIAIELEKRDFADWCERFAAVDACVEPMLSLSEAVEHPQLRARGLVVGVPRDGAAPQRQMACPIKFSVGLPEPRHIGMPVGAHTDEVLAGLGYAEPRIAELKAAGVIA				NA	NA	NA	NA	NA
BMS010_06347	489	sprT		Protein SprT	ATGCCCGAATTGCTCAATGCCCGCGTCGAGGCTTGCTATCAGCAGGCCGAAGCCTTCTTCAAGCGCAGCTTTCCGCGCCCCCGGGTCAGCCTCAAGCTACGGGGGCAGAAAGCCGGCGTCGCCCATCTGGACGAGAACCTGCTGCGTTTCAACCTGCAGCTCTATCGCGAGAACAGCGAGGACTTCCTGCGCCAGACCGTCGCCCACGAGGTGGCCCACCTGATCGCGCACCAACTGTTCGGCCCGCGGATCAAGCCGCACGGCGAGGAGTGGCAGTTGATCATGCGCGGCGTCTACGAACTGCCGCCGAACCGCTGCCACAACTATGCGATCAAGCGCCGCAGCGTGACCCGCTATCTGTACCGTTGCCAGTGCCAGGATTTCCCCTTCTCCGCCCAACGCCACGCCCTGGTCGGCAAGGGCCGCCGCTACTACTGCCGACGTTGCAAGGCGACCCTGGTCTTCACCGGCCAGCAAAGCCGGGAGTGA	MPELLNARVEACYQQAEAFFKRSFPRPRVSLKLRGQKAGVAHLDENLLRFNLQLYRENSEDFLRQTVAHEVAHLIAHQLFGPRIKPHGEEWQLIMRGVYELPPNRCHNYAIKRRSVTRYLYRCQCQDFPFSAQRHALVGKGRRYYCRRCKATLVFTGQQSRE				NA	NA	NA	NA	NA
BMS010_06348	648	yohC_1		Inner membrane protein YohC	ATGATTCCGCACTTTCTGGAACTGATGACCCATCCCGAGCACGCCTGGGAAGAAATCCGCCAGGGCGAAGACCGCAACAGTTTCCACTACCTGCCACACCTGCTGCTGCTCGCGCTGATTCCCGCGATCAGCCTGTTCATCGGCACCACCCGGGTGGGCTGGAGCCTGGTGGAGGACGAGCGGGTGATGCTGACCACGGTCAGCGCATTCCAACTCAGCGCCCTGCTCTACCTCACCATCATGCTCGGCACGCTGCTGATGGGCTGGTTCATCCGCTGGATGTCGCGGACCTTCGATTCCCGCCCTACGTTCAACCAGTGTGTCGGTTTCATGGCCTACATCGCCACGCCCTATTTCATCGCCGGCCTGGCCGCTCTCTACCCCAGCCGCTGGCTGGCGCTGGCCGTATTGCTGCTGGCCTCGGGCTACGCCACCTTCCTGCTGTATGTCGGCCTGCCGCGCTTCATGCGCATCAGCAACGAGCAGGCGTTCCCCTATGCCAGTTCGATCTGGGGCGTCGGCCTGCTGGTCCTGGTGACCATCCTGGTCAGCATGATCCTGCACTGGCAGTACGTCCTGCTGCCCGACTACGAGCGGCCGACAATCCAGGACCAGGCCTATCCGACCCAGGACGAACGCCCGCAGTAA	MIPHFLELMTHPEHAWEEIRQGEDRNSFHYLPHLLLLALIPAISLFIGTTRVGWSLVEDERVMLTTVSAFQLSALLYLTIMLGTLLMGWFIRWMSRTFDSRPTFNQCVGFMAYIATPYFIAGLAALYPSRWLALAVLLLASGYATFLLYVGLPRFMRISNEQAFPYASSIWGVGLLVLVTILVSMILHWQYVLLPDYERPTIQDQAYPTQDERPQ				NA	NA	NA	NA	NA
BMS010_06349	600	yohC_2		Inner membrane protein YohC	ATGATCCATCACGTTTGGGGGCTTTTCACCCATCCCGACCAGGAATGGCAGGAAATCCGTGGCGAGGAAGAAACCATCAGCCACATGTACCTGACCCACGTTCTGATCCTTGCGGCCATTCCGGTCATTTCTGCTTATATCGGTACCACGCAGGTCGGCTGGGCCCACGGCAGCAGCACACCCGTGAAGCTCACGGAGGCCAGTGCACTGCAAATGACCATCATGTCCTATCTGGCGATGCTGGCCGGCGTTGCGGTCATGGGTGCGTTCATCAAGTGGATGGCCCGTACCTACGATGCCAGCCCGAGCCTGGCGCAGTGCGTGGTCTTCGCGGCCTATACCGCCACTCCGCTGTTCATTGGCGGTCTCGCGGCGCTGTATCCCAACCTCTGGCTGGCGATGCTGGTGGGGACCGCGGCGATCTGCTACACGGTGTACCTGCTCTATGTAGGCATCCCTACCTTCATGAACATCCCCGAGGACGAGGGCTTCCTGTTCTCCAGTTCGGTGCTGGCGGTGGGGTTGGTGGTGCTGGTGGCGATGATTGCGATCTCGGTGATTCTCTGGGGTATGGGCATGGGGCCTGTCTATACCAGTTGA	MIHHVWGLFTHPDQEWQEIRGEEETISHMYLTHVLILAAIPVISAYIGTTQVGWAHGSSTPVKLTEASALQMTIMSYLAMLAGVAVMGAFIKWMARTYDASPSLAQCVVFAAYTATPLFIGGLAALYPNLWLAMLVGTAAICYTVYLLYVGIPTFMNIPEDEGFLFSSSVLAVGLVVLVAMIAISVILWGMGMGPVYTS				NA	NA	NA	NA	NA
BMS010_06350	597			hypothetical protein	ATGGCTTCCGATCTCGATCCCACCCTCGATCTCGCCGACCAGTTGTTCTCTCTGCTACGCGAAGCGAACGAAGGTTGCAGCGAATACCAGTTGATCCAGCAGCTCAGGGCGCGTCGATCGACGCATATCCCGCACTTGTCGCTGACCGACCGACTGGTGCTGTTCCGCACCCATTTCCTGCTGTTCAACGCCCTCTACCGGCTGCGCGACCGGCTCTGGGAGGAAGGCTCGGCCCATCTCGAGATCAGCGCGCTGCACATCCAGCTGCATCCCTACCAAAGCGGCACGGCGGAGCTGAGCGAACAAGACCCGCTGCGCGAGTACTACCTGGACATACGCCATCTGCGCGAGACCACCGAGCAGGACGTCGAGAAACTGCTGGCCAGCTTCTGGACGCGCATGCAGGGCGGCGACGAGAAGCGCGCCGCGCTGGAACTGTTCGAACTGGACCGGCTGGACGAACCCGTCAATCTCGCCACCATCAAGCTGCGCTATCGCCAGTTGGTCAGCCTGCACCACCCGGATCGCGGCGGCAGCACATCGCGCCTGCAGTCGATCAACCGGGCGATGGAAATACTACAACGCTATTACACCTGA	MASDLDPTLDLADQLFSLLREANEGCSEYQLIQQLRARRSTHIPHLSLTDRLVLFRTHFLLFNALYRLRDRLWEEGSAHLEISALHIQLHPYQSGTAELSEQDPLREYYLDIRHLRETTEQDVEKLLASFWTRMQGGDEKRAALELFELDRLDEPVNLATIKLRYRQLVSLHHPDRGGSTSRLQSINRAMEILQRYYT				NA	NA	NA	NA	NA
BMS010_06351	813			hypothetical protein	ATGACCCTGCTACGCTGGATGAGCGCCACTTTGCTGATATTCGCCGCTGCGCGGGTGGCCTTTGCCACGCCCGCCATGGAGCCCTGGGAGATCTGGCATCGCAGCGATGAGACGCGGGCGGCGAGCATCGACCACAGTGCCTGGCAGGAGCTGCTGACGCTGTACCTGGACGACCGCCATCCCAGCGGTATCGCCCGCTTCGACTATGCCCGGGTGGACCCTGATCATGTCCGCCTGCTGGACATCTACCTGGAGCAGCTCGCGGCGCTCGATCCGCGCCAGTTCACCCGCGACGAGCAGCGCGCCTACTGGATCAACCTCTACAACGCACTGACCGTGCGCCTGGTACTGCAGCATTATCCGGTCCGTTCGGTCATCCGCCTGGGCGGCTGGTACCGGCTCGGGCCGTGGGACCTGGATTTGGTGGAAGTCGCCGGCCACCGGCTCAGCCTCAACGACATCGAGCACCGTATCCTGCGGCCGTTCTGGCGAGACCCGCGGCTGCACTACGCGCTCAACAACGGCAGCCTGGGCAGTCCGAACCTGGCCGCCGAGGCGTTTACCGCGCAGAACAGCGAGCGTCTGCTCGACCAGGGCGCGCGGGCCTACATCAATCATCCGCGTGGCGTTGACTTCGAGAAGGGCCAGTTGGTGCTCTCGAAGCTCTACGACTGGTTTCCCGCCGATTTCGGCGGCGAAGCCGGCTTGCTCCAGCACCTGACGGCCTACGCGGAGCCCGAGCTGGCACGGCGCCTGGCGAGTTTCGAGGGCGGCGTTCGCTATCGCTTCGACTGGGATCTCAACGAACCCTGA	MTLLRWMSATLLIFAAARVAFATPAMEPWEIWHRSDETRAASIDHSAWQELLTLYLDDRHPSGIARFDYARVDPDHVRLLDIYLEQLAALDPRQFTRDEQRAYWINLYNALTVRLVLQHYPVRSVIRLGGWYRLGPWDLDLVEVAGHRLSLNDIEHRILRPFWRDPRLHYALNNGSLGSPNLAAEAFTAQNSERLLDQGARAYINHPRGVDFEKGQLVLSKLYDWFPADFGGEAGLLQHLTAYAEPELARRLASFEGGVRYRFDWDLNEP				NA	NA	NA	NA	NA
BMS010_06352	825	ttcA_2	COG0037	tRNA-cytidine(32) 2-sulfurtransferase	ATGGGCACCCTTTCGGTCAACCAGAACAAACTGCAGAAACGCCTGCGCCGCCTCGCCGGCGAAGCCATCGCCGACTTCAAAATGATCGAGGACGGCGACAAGGTCATGGTCTGCCTGTCCGGCGGCAAGGACAGCTACACCATGCTCGACGTGCTGCTGTACCTGCAGAAGGTCGCGCCGATCAAGTTCGAGATCGTCGCGGTGAACATGGACCAGAAACAACCCGGCTTCCCCGAGCATGTGCTGCCGGAATACCTGGAATCCCTCGGTGTGGAACACCACATCATCGAGAAGGACACCTACTCGGTGGTGAAGGAAAAGATTCCCGAAGGCAAGACCACCTGCTCGCTGTGCTCGCGCCTGCGCCGCGGCACGCTCTACACCTTCGCCGACGAAATCGGCGCGACCAAGATGGCCCTGGGGCATCACCGCGACGACATTCTGGAAACCTTCTTCCTCAACATGTTCTATGGCGGCACCCTCAAGGCCATGCCGCCCAAGCTGCTTTCCGACGACGGCCGCAACGTGGTGATCCGCCCGCTGGCCTACTGCAATGAAGCGGATATCGAGGCCTATGCGCGGATGAAGGAATTCCCGATCATCCCGTGCAACCTGTGCGGTTCGCAGGAGAACCTGCAGCGCAAGGTGGTCAAGGAAATGCTCCAGGAATGGGAACGCAAGTCGCCGGGACGCACCGAGATCATGTTCCGCGCCTTGCAGAACGTGGTGCCGTCGCAATTGGCCGACCGCAACCTGTTCGATTTCGCCAGCCTGCGTATCGATGACAGCGCCACGCCGCGTTTTCTCGATGTGATGAGCCTGTAA	MGTLSVNQNKLQKRLRRLAGEAIADFKMIEDGDKVMVCLSGGKDSYTMLDVLLYLQKVAPIKFEIVAVNMDQKQPGFPEHVLPEYLESLGVEHHIIEKDTYSVVKEKIPEGKTTCSLCSRLRRGTLYTFADEIGATKMALGHHRDDILETFFLNMFYGGTLKAMPPKLLSDDGRNVVIRPLAYCNEADIEAYARMKEFPIIPCNLCGSQENLQRKVVKEMLQEWERKSPGRTEIMFRALQNVVPSQLADRNLFDFASLRIDDSATPRFLDVMSL				NA	NA	NA	NA	NA
BMS010_06353	672			hypothetical protein	GTGCGTGACTACACCTGGTTGTACGAGTTCTGCCTGAACCGCTTCGGCTCTCGCGAAGCCCTGGAAGCGCGCCTGCCGGTGCCCAGGAGCGACGCGGAGCTGCGCGACCTGGGCGACGACCGCTACCTGTCGACGATCAGCCTGCGCATCTTCCGGGCCGGCCTCAAGCACAGCCTGGTGGACGCCAAGTGGCCAGCGTTCGAAGAGGTCTTCTTCGGCTTCGACCCGGAAAAGGTCGCACTGATGAGTGCCGAACACCTGGAGCGGCTGATGCAGGACGAGCGGCTGATCCGCCACCTGGGCAAGCTCAAGAGCGTGCCGCGCAACGCCCAGATGGTGCTCGATGTGGCGCGGGAAAAGGGCCGCTTCGGGGCGCTGATCGCCGACTGGCCGGTGACCGATATCGTCGGTCTGTGGAAATACCTGGCCAAGCACGGCAACCAGCTTGGCGGAATGTCGGCACCGCGCTTCCTGCGCATGGTCGGCAAGGATACCTTCATCCCCACCGACGACATGGTGGCGGCGCTCAAGGCCCAAGGCATCGTCGACAAGACGCCGACCAGCCAGAAGGATCTCGCCATCGTTCAGGAGGCCTTCAACCGCTGGCATGCCGAGAGCGGTCGACCGCTGTGCCAGTTGTCGGTGATGCTGGCGCACACCGTGAATCATTGA	MRDYTWLYEFCLNRFGSREALEARLPVPRSDAELRDLGDDRYLSTISLRIFRAGLKHSLVDAKWPAFEEVFFGFDPEKVALMSAEHLERLMQDERLIRHLGKLKSVPRNAQMVLDVAREKGRFGALIADWPVTDIVGLWKYLAKHGNQLGGMSAPRFLRMVGKDTFIPTDDMVAALKAQGIVDKTPTSQKDLAIVQEAFNRWHAESGRPLCQLSVMLAHTVNH				NA	NA	NA	NA	NA
BMS010_06354	768	cobB_2		NAD-dependent protein deacetylase	TTGGAACACGACATCATCCGCGTCGCCGAAGCCTTGAGGAAGGCGGAGCGCATCCTGGTGATCACCGGAGCGGGTGTGTCCGCCGACTCCGGCCTGCCTACCTACCGTGGCCTGGGCGGCCTCTACAACGGCAGCACGGAAGAGGGGCTGCCCATCGAGGCGGCGCTGTCCGGGCCGATGCTGCGGCGCGATCCGGGGCTCTGCTGGAAATACCTCGCCGAACTGGGCAAGGCCTGCCTGGGCGCGCGTCCCAACGCCGGGCACGAGGCCATTGCCGAACTGCAGCGGCGCAAGCCCGGCTGCTGGGTGCTGACCCAGAATATCGACGGCTACCACCGGGCCGCCGGCAGCCCGCCGGAGCGCCTGATCGAGATCCATGGCGAGCTGGCGCCCCTTTTCTGCCAGTCCTGCGGGGCGGAGAGCCCCGAGCTGGAAGAGCACCTGCTGCGCCCGCTGCCGCCGTTGTGCGAGCAATGTGGCGGCGTTCTGCGGCCGCCGGTGGTGCTGTTCGAGGAAATGCTGCCCGAGCGGGCCATCGAAGCGCTCTATGCCGAATTGCGCAAAGGCTTCGACGCCGTTCTGGCGGTCGGCACCACGGCGAGCTTCCCCTATATCGTCGAGCCGGTGCTGCACACCCGGGCGGCTGGCGGCTTCACCGTGGAGATCAACCCCGGCTTCACGGACCTGAGCACGACCGTGGACATCCGGTTGGCGGGGAGGGCCTTAGATGTTTTGCCGAGAATACTGAGTCACATTCCCTCCAATTAA	MEHDIIRVAEALRKAERILVITGAGVSADSGLPTYRGLGGLYNGSTEEGLPIEAALSGPMLRRDPGLCWKYLAELGKACLGARPNAGHEAIAELQRRKPGCWVLTQNIDGYHRAAGSPPERLIEIHGELAPLFCQSCGAESPELEEHLLRPLPPLCEQCGGVLRPPVVLFEEMLPERAIEALYAELRKGFDAVLAVGTTASFPYIVEPVLHTRAAGGFTVEINPGFTDLSTTVDIRLAGRALDVLPRILSHIPSN	PGPT0013485_749	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013485-npdA-K12410	NA	NA
BMS010_06355	597			hypothetical protein	ATGCTCAAGCGCTTCGCACCCCTCGTGCCTGTTGCCTTTACCCTGCTGCTGACCGCCTGCGCCGGCTATGCGCCGCAGCCCCAGGCTACCGTCGCTCCGTCCCTTCCAGCGGCCGACGAACCCACCGCCGCCCAACTGGCGGACCTGACCGACGACCAGTCCTACGAACTGCCCAGCCTGGCGGACAGCATCCGTGAACGCGGCCTCGAACTGGTCGGTACGCCGTACCGCTTCGGTGGCCGGTCGGAGAAGACCGGGTTCGATTGCAGCGGTTTCGTCGGCTACCTGTTCCGTGAGGAGGCGGGCATCCTGCTGCCGCGCTCCACACGCGAGATGATCAACCTGAAGGCGCCGCTGGTTTCCCGCGACGAGCTGGAGCCGGGCGATATCCTGTTCTTCAACGACCGCGGCCGTGGCCGGGTCAGCCACGCTGCCATCTATATCGGCGACGACCAGTTCGTCCATTCCTCCAGTCGCCGCAGCGGCGGCGTGCGGGTGGATAGCCTGGATGACCGCTACTGGAGCGCCAGCTACATGGAAGCCAAGCGCGTCCTGGCGCACGCTCCTACCGAGAACAATCCGCTGCACCGTCGCTGA	MLKRFAPLVPVAFTLLLTACAGYAPQPQATVAPSLPAADEPTAAQLADLTDDQSYELPSLADSIRERGLELVGTPYRFGGRSEKTGFDCSGFVGYLFREEAGILLPRSTREMINLKAPLVSRDELEPGDILFFNDRGRGRVSHAAIYIGDDQFVHSSSRRSGGVRVDSLDDRYWSASYMEAKRVLAHAPTENNPLHRR	PGPT0023820_146	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_DD-ENDOPEPTIDASE_ACTIVITY,PGPT0023820-mepS|spr-K13694	NA	NA
BMS010_06356	522			hypothetical protein	ATGCCTGCAACGGCTCGCCTCCTGCTTCTCGTTCTCGCTGCGCTGCTCACTGCCTGCGTCGGCCACGCCCCCTCTCCCGGTCCCGTCATCACCACCCCCAGCGCGAGCTACCCGCCGGTCGCCGACGATGTGCTGATCCGTGCCATCGGACTGGTCGGCACTCCTTATCGCTATGGCGGCAACACGCCGGACTCCGGTTTCGATTGCAGCGGCCTGATCGGCTACGTCTACCGGGATGCCGCCGGCATCAGCCTGCCGCGCTCGACCCGTGAGTTGCTGGCCATGCGCGTACCCAATGTCAGCGTCAGGGCCTTGCAGCCCGGCGATCTGGTGTTCTTTTCCACCCAAGGGGGCGGCAAGGTCAGTCATGCCGGCATCTACGTCGGCGAAGGCCGCTTCGTCCATGCCCCGTCCAGCGGTGGAACCGTGCGTCTGGACAGCCTGTCCACAGCCTACTGGCAGAAAAGCTATCTGAACGCCAAGCGCGTGCTGGACAGCGGCCCCCTCGCCCGGAATCCGTGA	MPATARLLLLVLAALLTACVGHAPSPGPVITTPSASYPPVADDVLIRAIGLVGTPYRYGGNTPDSGFDCSGLIGYVYRDAAGISLPRSTRELLAMRVPNVSVRALQPGDLVFFSTQGGGKVSHAGIYVGEGRFVHAPSSGGTVRLDSLSTAYWQKSYLNAKRVLDSGPLARNP	PGPT0023820_142	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_DD-ENDOPEPTIDASE_ACTIVITY,PGPT0023820-mepS|spr-K13694	NA	NA
BMS010_06357	663	trmR		tRNA 5-hydroxyuridine methyltransferase	ATGACCAACCGTACCCTGAATCTGGACGACGCCCTATACCGCTACCTGCTGGACGTCTCGCTGCGCGAGAGCGAGGTACAGCGCCGCCTGCGCGAAGAAACCGCCGGGCTGCCTACCGCCGGCTGGCAGATCGCCCCGGAGCAGGGGCAATTCATGGGCCTGCTGGTCCAGTTGATTGGCGCGCGGCGTCTGCTGGAAATCGGCACCTACACCGGCTACAGCGCACTCTGCATGGCCATGGCCCTGCCAGAGGATGGCGAACTGATCTGCTGCGACGTTTCCGAGGAGTACACCTCGATTGGGCGTCGCTACTGGCGGGAGGCCGGCGTGGAGGGGCGTATCCAGGTCAGGCTGGCGCCTGCACTGGAGACGCTGGAGGCCTTGCTTCGCGAAGGGCAGGGCAGCCGCTTCGACCTGGTCTTCGTGGACGCCGACAAAACCAACTATCCGGCCTATTTCGAGCAGGCCCTCGCACTGCTGCGGCCCGGTGGCCTGATCCTCTTCGACAACACGCTGTGGAGCGGGCGCGTCCTCGAAACCCAGCCGGAAAGCGCCGACACACGGGCGATCCAGGCATTGAACCGGGCCTTGAGAGATGACGCGCGGATCGACCTGTCCCTGCTGCCCATCGGCGATGGCCTGACGCTTTGTCGCAAACGCTGA	MTNRTLNLDDALYRYLLDVSLRESEVQRRLREETAGLPTAGWQIAPEQGQFMGLLVQLIGARRLLEIGTYTGYSALCMAMALPEDGELICCDVSEEYTSIGRRYWREAGVEGRIQVRLAPALETLEALLREGQGSRFDLVFVDADKTNYPAYFEQALALLRPGGLILFDNTLWSGRVLETQPESADTRAIQALNRALRDDARIDLSLLPIGDGLTLCRKR	PGPT0011950_36	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	TUMORICIDAL_COMPOUNDS	TUMORICIDAL-ANSAMITOCIN_P-3_METABOLISM,PGPT0011950-asm17-K16028	NA	NA
BMS010_06358	321			hypothetical protein	ATGCCTGAACCGATTCGCCTGCCGCCTCAACCCGACGCCTGTGAACTCTGCGGTCGCCAGGCGCCCCTGACCCGGCACCACCTGATTCCCAAAGCCCTGCACGACAAGCCCTATGTGCAGAAGCGCTACGCGAAGAGCGAGCGTATCACCGCCACTCTCTGGGTCTGCCGTCCTTGCCACAATCAGATCCACAAGCTGTTCAGCGAGAAGGAGCTGGCACTGACCTACAACAGCCGCGACGCCCTGCTGGCCGACTCACGCCTCCGTCAATTCGTCGACTGGCTGTCGACCAAGCCGGCCGGCTTCGTTCCCAGGCATTGA	MPEPIRLPPQPDACELCGRQAPLTRHHLIPKALHDKPYVQKRYAKSERITATLWVCRPCHNQIHKLFSEKELALTYNSRDALLADSRLRQFVDWLSTKPAGFVPRH				NA	NA	NA	NA	NA
BMS010_06360	618	yodC	COG0778	Putative NAD(P)H nitroreductase YodC	ATGGACAACCCCATCCGCACGCTCATCGAATCACGCATCTCCGCCAACTACTACGACACCCGCCGCGACGTACCGGAAGCGTTGATCGAGGAGTTGGTCCGCCTGGCTACCCGGGCGCCTTCGGCCTTCAACTTCCAGAACTGGAAATTCATCGCCGTGCGCTCGGCGGAGGCCAAACAGCGTCTGAAGACGGTCGCCTTCGGTCAGCAGAAAGTAGTGGACGCCCCAGTCACCTTCATCATCTGCGGCACGCTGGCCGCCCACGAACGCCTGCCCGAGGTGCTTCGCCCATCGGTCGAGGCCGGTATCCTCGATCGCTCGGTGTTCGACGGCTGGGTGACAATGGCCGCACGCTCGCACAGCGACAACCCGACCCTGCAACGCGACGAGGCGATCCGTTCGGCCTCCCTGGCGGCGATGACGCTGATGCTCGCCGCCGAGGGCATGGGCCTGTCCAGCGGCTCGATGAGCGGCTTCGACCCCGCGGGCGTGGCACGGGAATTCCAGCTGGCGGAAACGGAGATTCCGGTGATCCTGGTGACCGTGGGCTACCCGGCGCCGGGCAACTGGCCGCAGAAGCCGCGCCTGCCGTTGCGGGACGTGCTCGAATTCGCCTGA	MDNPIRTLIESRISANYYDTRRDVPEALIEELVRLATRAPSAFNFQNWKFIAVRSAEAKQRLKTVAFGQQKVVDAPVTFIICGTLAAHERLPEVLRPSVEAGILDRSVFDGWVTMAARSHSDNPTLQRDEAIRSASLAAMTLMLAAEGMGLSSGSMSGFDPAGVAREFQLAETEIPVILVTVGYPAPGNWPQKPRLPLRDVLEFA	PGPT0028511_31	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-CATECHOL|CHROMANON|GANOMYCIN_RESISTANCE,PGPT0028511-yodC-NA	NA	NA
BMS010_06361	879			hypothetical protein	ATGACCGCCCTGGCCCCAGCCATCTGGGGCTCCACCTATATCGTCACGACCGAACTGCTGCCGCCCGACCGGCCCTTCATCGCCGCCGTGCTGCGCTGCCTGCCGGCCGGCCTGCTGCTGGTACTGTTCGCCCGGCACCTGCCCGGCCGTCGCGAATGGGGTCGCCTGCTCGTTCTCGCCGCACTGAACATCGGCTTCTTCCAGGCCCTGCTGTTCGTCGCCGCCTACCGGCTGCCGGGCGGGCTCGCGGCGGTGGTCGGCGCGATCCAGCCGCTGTTGGTGATGGGCCTGGTTTGGGCGGTCGACCGACGCCAACCGGCGGCCCTCTCCGTATGGGCCAGCCTGATGGGCATCGTCGGCATGGCCGCCCTGCTGCTGTCCCCGGACTCGGTCTGGGACCCCATCGGCGTCACCGCCGCGCTGACCGGCGCGATCTGCATGGCGGTGGGCAACTTCCTGGCACGTCGCTGGCAAACCAACATACCGGTGCTGGCCTTCACCGGCTGGCAACTGCTGGTCGGCGGGTTGATGCTGGTCCCGGTCGCCTGGGTCGCCGACCCGCCCCTGCCGGTCCTGACGCCGGTCCAGTGGCTGGGCTATGCCTATCTATCGCTGGTCGGCGCACTGCTCGCCTATGGGCTGTGGTTCCGCGGCATCGCCCGGCTGACACCGGTGGCCGTCTCCTCGCTCGGCCTGTTGAGCCCACTGACCGCGGTAGTCCTCGGTTGGGCCTTACTAGGCCAGTCCATGGGCGGCCTGTCGCTGGTGGGGTTGCTGATGGTGCTCGGCAGCGTCCTGGCCGTGCAATGGCAAGCCGGCCGCGCGTCGTCGACGCCCCGCCCCACCGAAATAGCCCTGGCCACCCGCCGCCCGGCCTGA	MTALAPAIWGSTYIVTTELLPPDRPFIAAVLRCLPAGLLLVLFARHLPGRREWGRLLVLAALNIGFFQALLFVAAYRLPGGLAAVVGAIQPLLVMGLVWAVDRRQPAALSVWASLMGIVGMAALLLSPDSVWDPIGVTAALTGAICMAVGNFLARRWQTNIPVLAFTGWQLLVGGLMLVPVAWVADPPLPVLTPVQWLGYAYLSLVGALLAYGLWFRGIARLTPVAVSSLGLLSPLTAVVLGWALLGQSMGGLSLVGLLMVLGSVLAVQWQAGRASSTPRPTEIALATRRPA				NA	NA	NA	NA	NA
BMS010_06362	513			hypothetical protein	ATGAGTTCGGAGCGACGGGCGGATGCGGTGGAGGTCATTCTCGATCAATGGCGGCGCGAACGGCCTGACCTGGACGTTACGCCCATGGGGCTCATCGGCCGGGCCAAGCGCTGTTCGGCATTGCTACAACGCCGGCTGGACGAGGTGTTCGCCCGCTTCGGGATGAGCGGCTGGGAATTCGATGTCCTGGCCACCTTGCGGCGCTCGGGCGCGCCATACCGGCTGGCGCCGACCGCGCTGTTCTCGTCGCTGATGGTCACCTCCGGCACCATGACCCACCGCCTGCAACGCCTGGAGGCGGCTGGCTGGATACAGCGGGTGCCCAATCCAAGCGATGCACGCAGCCTGCTGGTGCAACTGACCGACGAGGGGTTGGCGCTGATCGACCGCGCCGTGGAAGCCCATGTAGAGAACGAGCGGCGCATCCTCGAACCCCTGGCAGCACAGGACCGGGCAGCGCTGGAGGCCGGGCTGGTGGCGTTGCTGGCCGTTCTGGAGCCCACCGAAGACTGA	MSSERRADAVEVILDQWRRERPDLDVTPMGLIGRAKRCSALLQRRLDEVFARFGMSGWEFDVLATLRRSGAPYRLAPTALFSSLMVTSGTMTHRLQRLEAAGWIQRVPNPSDARSLLVQLTDEGLALIDRAVEAHVENERRILEPLAAQDRAALEAGLVALLAVLEPTED				NA	NA	NA	NA	NA
BMS010_06363	1632	rpfC	COG0642	Sensory/regulatory protein RpfC	ATGTCGAGACAGAACAACACAGGCGATACCGAGCGCTCCCAGGCCATCGTGCGCCTGGTCATCATCTTTCTGGCCATCCTCTACGTGGCGATCGTCCTCGCTGCCGGCTATGCACCGCCGGAGCGGACCCTGCCGATCCTGGTTTACAGCGTGGGCTCCTTCACGTTCTCGCTGGGATTGTTCGCTGTCATCGTGCGCTGGCCCGGCGTGTATCCGCTGCGCCGGTTGAGCGGCATGCTCAACGACTACATGGGCATCACCTTCGCCATGGTGATGGGCGGGGAAGCCCTGCTGCCGCTGTTCGCTGTCCTGCTGTGGGTGACAGTGGGCAACGGTCTGCGTTTCGGCTCGCGCTACCTGGCGGTCGCCACCGGAATGGCGCTGCTGACGCTTGGCATCGTCGCCTGGCTGAACACCTACTGGCTGGAGCATCCCTACCAGGTGGCGACCCTGGCGCTCACCACCATCATCGTGCCAGCCTACGCGCATCTCCTGCTGAACCAGACTCGCCGCGCTTCCGAGGAGGCCACGGCCGCCACGCAGGCGAAATCCCGCTTCCTGGCCCAGGCCAGTCACGACCTGCGCCAGCCGATCCACTCCATCAGCCTGTTCACCGCCTGCCTGCGCGATGCGGAACTCGGCGCGCAAGAACGACAGATGGTGGACAATATCGACCGTTCGCTGCACAGCGTGTCGCAACTGTTCCGCTCGATCCTCGACATCTACACCCTGGACAACGGCAAGGTGGTGCCGCGTCCGGAGGTGATACCGCTGCAGCCGCTGCTCGAGGACCTGTTGCTGCAGAACGCGGAGGCGGCGCGCTGGGCGGGCGTGGAGATCAAGCTCCGGCCGACCTGTTGCTGCGTCCGCTGCGACCCCGGCCTGCTCACCACCATGCTGCAGAACCTGCTGTCCAACGCCCTCAAGTACGCGCCGGGGCGCCCGGTGCTGATCGGCTGTCGGCGGCGCGGCGGTGGCGTGGCTATCGAGCTGTACGACCGGGGCGGCGGCATTGCCACGGAGCATCTGGCGCAGGTGTTCGAGGAGTTCTACCGGGTCCGTCAGCCGCGCGACAAGGACATCGAGGGCGTCGGGTTGGGGTTGTCCATCGTCAGGCGCCTCGGTGATCTGATGGGGCTGCAGGTGCGGATCGCCTCGCGGCCGGGGCGTGGCACGCTGGTGGCGGTCCAGGGCCTGGAGCGGGCCAGCCCGGCGGAGTTGCGTCCGGCGACCGGCCGCGCGCTGCCGTCCCAGCTACTGGAGGGCTTGCATGTAACCCTCATCGAGGACGACCGGCGCGTGTTGCAGGCCACCGCGAGCCTGCTGGAAAAATGGGGCTGTGTGGTTCGCATGGAAACCGCGATGCCGGATGGTGGTGGGCACTGCGACCTGATCGTCACCGATTACGACCTCGGTACCGAAGTGTCCGGCGCGGACTGCATCGCGCGCCTGCGCCACCTGCATGGCCGGCGGATTCCCGCCGTGGTGATCACCGGACACGACGTCAAGCGCGTCCAGGAAGCGGTGGGCGACAAGGACATCCCGGTGCTGGCCAAGCCGGTCCGGCCGGCGGAGCTGCGTTCGCTGCTGAGCGCGCTGCGTCTGGGTGCGCGGGCCCAGGCGGCGGCCTGA	MSRQNNTGDTERSQAIVRLVIIFLAILYVAIVLAAGYAPPERTLPILVYSVGSFTFSLGLFAVIVRWPGVYPLRRLSGMLNDYMGITFAMVMGGEALLPLFAVLLWVTVGNGLRFGSRYLAVATGMALLTLGIVAWLNTYWLEHPYQVATLALTTIIVPAYAHLLLNQTRRASEEATAATQAKSRFLAQASHDLRQPIHSISLFTACLRDAELGAQERQMVDNIDRSLHSVSQLFRSILDIYTLDNGKVVPRPEVIPLQPLLEDLLLQNAEAARWAGVEIKLRPTCCCVRCDPGLLTTMLQNLLSNALKYAPGRPVLIGCRRRGGGVAIELYDRGGGIATEHLAQVFEEFYRVRQPRDKDIEGVGLGLSIVRRLGDLMGLQVRIASRPGRGTLVAVQGLERASPAELRPATGRALPSQLLEGLHVTLIEDDRRVLQATASLLEKWGCVVRMETAMPDGGGHCDLIVTDYDLGTEVSGADCIARLRHLHGRRIPAVVITGHDVKRVQEAVGDKDIPVLAKPVRPAELRSLLSALRLGARAQAAA				NA	NA	NA	NA	NA
BMS010_06364	642	narL_1	COG2197	Nitrate/nitrite response regulator protein NarL	ATGCATGAGCGAACGGTAAAAGATCGAATCATCGTTGCCGATGACCACCCGGTGTTCCGCGATGGTTTGAAACGCATCGTCCTGAAGCAATTCCCCGACGCCCAGGTACAGGAAGCCGGCTGCATGGAAGAAGTGCTCGCCTGCGCCCGCGCAAGCGCGGAACCGCCGGATACCTTCGTCCTCGACCTGCTCTTCCCCGGCCTCGATTCGACGCGCAGTATCGGCGAGCTGCGCCAGGAGTTCCGCAGCAGCTCCATCGTCATCGTGTCGATGGTGGATGACGCCGCGCTGATCCAGGACATCATGGCCGCCGGCGCCGATGGTTTCATCGGCAAGTCCGTTTCCCCCGACGAGATCGGCGCCGCCCTCGCCGCCGTCCGCAACGGCGAGTTCGTGGTGAAGTTCTCGCCCAGCGGCCTGGTCCCGGCCCGGCACGAGCCCCCTGCCCCCCTGGAGCCGCTGACCCCGCGTCAGCGCGACGTACTGCGCCTGGTCGCCGATGGCCTGTCGAACAAGGAGATCGCCCGCAAGCTGGAGATTTCGCCGTTCACCGTGCGCATCCACGTGTCGTCGCTGCTGCGTGCACTCAACGTCGGCACGCGCTCGGCCTTGGCGGCCAAGGCGGCGAAGGCCGGACTCTGA	MHERTVKDRIIVADDHPVFRDGLKRIVLKQFPDAQVQEAGCMEEVLACARASAEPPDTFVLDLLFPGLDSTRSIGELRQEFRSSSIVIVSMVDDAALIQDIMAAGADGFIGKSVSPDEIGAALAAVRNGEFVVKFSPSGLVPARHEPPAPLEPLTPRQRDVLRLVADGLSNKEIARKLEISPFTVRIHVSSLLRALNVGTRSALAAKAAKAGL	PGPT0000550_1373	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	N-AQUISITION-NITRATE|NITRITE_SENSING,PGPT0000550-narL-K07684	NA	NA
BMS010_06365	267			hypothetical protein	ATGAAACCGTTCGTCATGGCGATTGCGCTGCCTGCCCTGTTGCTCGGCGTGGGCGGATGCGGAACGCTGCAACCTTCCTCCACCTACCTGCCGCAAGGGCAGGCCGCACCCACTGGCGGGGCATCGCAGTTCTCGGCGGCACAGCCGAACCAGGTCAACGGCATTCTCAACGACCTGATCCGGACAGCCACCGATACCATGGCCACCGAACTGAACAGAAGCATGCAGGACAAGATCCAGGAGGCCGGCAGCAACCTGCGCAACTGA	MKPFVMAIALPALLLGVGGCGTLQPSSTYLPQGQAAPTGGASQFSAAQPNQVNGILNDLIRTATDTMATELNRSMQDKIQEAGSNLRN				NA	NA	NA	NA	NA
BMS010_06367	1860	btuB_2	COG4206	Vitamin B12 transporter BtuB	TTGATTCGCAAGCCTTTGCTGAGGCCGGCGGCGTACGCGCTGCTGGGCCTGTCTTCCTTTCCGCTGGCCCAGGCGGCCGGCCCCCTGAGCCTCGATGAGCAGGTGGTGACCGCCACCCGCACGGCGCGGACCGCCGAGCAGAACCTGGCCGCGGTCACCGTGATCGACCGTGCCGAGATCGAGCGCAGTCAGGCGCAGTCGGTGCCGGAGCTGCTGAAGAAGGTGCCGGGCGTTTCCCTGACCAGCAATGGCGGGCCGGGCAAGACCACCTCGCTGTTCATGCGCGGTACCAACTCCAACCACGTGCTGGTGCTGATCGACGGCATCAAGGTCGGTTCGGTGAGCTCCGGGGCCGCGGCGTTCCAGGACCTGCCAGTGGAACTGATCGAGCGCATCGAGGTGGTGCGTGGGCCGCGTTCCAGCCTCTACGGTTCCGAGGCCATCGGCGGGGTGATCCAGATCTTCACCCGCCGGGGCACGGGGCAGGGCGCTAAGCCATTCTTCTCCGCCGGCTACGGCACCCACGACAGCTACAACGGCAGCGTCGGCGTGTCCGGCGGCGATGGGCGCGGCTGGTACAGCCTCGGCATCAGCGGCCAGGACACCGACGGGATAAACGCCAAGACCGCTGACGCCAGCGGCTATGAGAACGATGCCGATGGCTACCGCAACCTGTCGGGCTCGCTGAGCGCCGGCTACCGCTTCGACAACGGCCTGGAGCTGGATGGCAACCTGCTGCGGGCCAAGGCCCACAACGACTACGACCAGGTGAACCGCCGCCGCACCGCCGGCTTCGGCGCCAATGCCGATGGGGTGCAGAAGGTGATCGGCGGGCGCGCGCGCTTCGCTCCGCTGGAACCCTGGCTGGTGACGTTGCAAGTGGGGCGCAGCGAAGACAAGTCCGACAGCTACCTGGACGGCGCCTTCGAGTCGCGCTTCGACAGCCGCCGCGACAGCGCCAGTTGGCAGAACGACCTCAGCTTTGCCGAAGGCCATACCCTAAGCCTTGGCTTCGACCATCAGCGCGACGAAGTCAACGGCACCACCGATTACCTTGAGGATTCCCGCGACAACACCGGCGCCTTCGTCCAGTACCTGGGCGAATACGGCCGGCACGACTGGCAACTGTCGCTGCGCCGCGACGACAACGAACAGTTCGGCGGCCACGACACCGGCAACGCCGCCTGGGGCTACGCGCTCAGCGACGCGCTGCGGCTGACTGCCAGCTACGGTACGGCCTTCAAGGCGCCGACTTTCAACCAGCTCTACTTCCCCGGCTTCGGCAACCCGGACCTGGACGCGGAAACCTCGCGCAGCCTGGAGGCCGGCCTCTCCGGCAAGCATGGCTGGGGGCACTGGTCGGTGAATGCCTATCGCACCTCCATCGACAACCTGATCGCCAACGTGCGGGTGAACGGCAACCTGCGCGCCGAGGGTGTCGACAAGGCACGCATCCGTGGCCTCGAACTGGCGCTCGGCAGCACGCTGCTCGGTTGGGACTGGTCCGCCAACTACACCCTGATGGATGCGGAAAACCGCTCCAAACGGGGCGATCTCTATGGCAAGGACCTCAACCGGCGACCCTCGCAACTGTTCAACCTCGACGTGGACCGGGCCTTCGGCGACTTCAGCGTCGGCGCCAGCCTGCACGCCCAGGATTCCAGCTACGACGACCTGGACAACCAGACCGAACTGGCCGGCTTCGCCACCCTCGACCTGCGCGGCGAATACCGCATCGACAAGGCCTGGCGCCTGCAGACGCGCCTGGCCAACCTGTTCGACGCCGACTACCGCACCATCGAAGGCTTCAACCAGCCGGGCCAGGCGGTGTACGTCACCGTGCGCTACCAGGCCTTGTAA	MIRKPLLRPAAYALLGLSSFPLAQAAGPLSLDEQVVTATRTARTAEQNLAAVTVIDRAEIERSQAQSVPELLKKVPGVSLTSNGGPGKTTSLFMRGTNSNHVLVLIDGIKVGSVSSGAAAFQDLPVELIERIEVVRGPRSSLYGSEAIGGVIQIFTRRGTGQGAKPFFSAGYGTHDSYNGSVGVSGGDGRGWYSLGISGQDTDGINAKTADASGYENDADGYRNLSGSLSAGYRFDNGLELDGNLLRAKAHNDYDQVNRRRTAGFGANADGVQKVIGGRARFAPLEPWLVTLQVGRSEDKSDSYLDGAFESRFDSRRDSASWQNDLSFAEGHTLSLGFDHQRDEVNGTTDYLEDSRDNTGAFVQYLGEYGRHDWQLSLRRDDNEQFGGHDTGNAAWGYALSDALRLTASYGTAFKAPTFNQLYFPGFGNPDLDAETSRSLEAGLSGKHGWGHWSVNAYRTSIDNLIANVRVNGNLRAEGVDKARIRGLELALGSTLLGWDWSANYTLMDAENRSKRGDLYGKDLNRRPSQLFNLDVDRAFGDFSVGASLHAQDSSYDDLDNQTELAGFATLDLRGEYRIDKAWRLQTRLANLFDADYRTIEGFNQPGQAVYVTVRYQAL	PGPT0003740_1868	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-VITAMIN_B12_RELATED_FERROUS_UPTAKE,PGPT0003740-butB-K16092	NA	NA
BMS010_06368	588			hypothetical protein	ATGCTCAGACTGCCACCCCGTGTCCAATTGGTCGTCGGTATTGCCCTGGCGCTGCTGATGGCCATGACCCGAGGCCAACACTTCGCCACCGTCAACCTGCCCAGCGCGTCCTGGGCGGTGTTTTTCCTCGCCGGTGTCTTCCTGCGGCCGCGCTGGGTGTTCCCGGCGCTGTTCATCGAGGCGTCGCTGCTGGATTTCGCCGCGATCCAGTGGGCGGGAGTGAGCGACTGGTGCGTGTCGCCGGCCTACTGGCTGCTGCTGCCGGCCTACGGCTCGCTGTGGTTCGGCGGGCACCTGTACGCCGGCTGGCACCGTAACGAATGGGTCAGCCTGGCCACGTTGATCTTGACCCTGGTGGTCAGCGCCTTCGTCTGCTACCTGTTCTCCGGCGGCGGCTTCTACTACTTCTCCGGACGCTACCCGGAACCGATCTTCGCCGAATTCGTGCAGCGCATCGGCATGTACTACCCACGCTACTTCGCCAGCCTGGCGCTGTACGTCGGCATCGCGGCGGTGCTCTATACGGGCGCCTTCGCACTGTTCGGACACCCACGACCCCTGGAGAACCCCGATGAGCGAATCGGCTGA	MLRLPPRVQLVVGIALALLMAMTRGQHFATVNLPSASWAVFFLAGVFLRPRWVFPALFIEASLLDFAAIQWAGVSDWCVSPAYWLLLPAYGSLWFGGHLYAGWHRNEWVSLATLILTLVVSAFVCYLFSGGGFYYFSGRYPEPIFAEFVQRIGMYYPRYFASLALYVGIAAVLYTGAFALFGHPRPLENPDERIG				NA	NA	NA	NA	NA
BMS010_06369	612	cobO_3		Corrinoid adenosyltransferase	ATGAGCGAATCGGCTGACCGCGACGCGCGGCACAAGGCGCGGATGGCGCGCAAGAAAGCCATCGTCGACGAGAAGATCGCCCAGGCGACCGACGAATACGGCCTGCTGCTGGTGCACACCGGCAATGGCAAGGGTAAGAGCAGCTCGGCCTTCGGCATGGTGGCCCGCGCCCTGGGGCACGGCATGAAGGTCGGGGTGGTGCAGTTCATCAAGGGCGCCGCCACCTCCGGCGAGGAACTGTTCTTCCGCCGCTTCCCCGAGGAGGTGCGTTACCACGTGATGGGCGAGGGCTACACCTGGGAAACCCAGGATCGCCAGCGCGATATCGAGAAAGCCCGCCAGGCCTGGGTAGTGGCAACGGAGTTGCTGAGCGACCCGGATATCGGCCTGGTGGTGCTGGATGAACTGAACATCGCCCTCAAGCACGGCTATCTGGAGCTGGACCAGGTGCTGGCCGACATCGCCGCGCGTCCGCTGTACCAGCACGTGGTGGCCACCGGCCGGGGGGCGCCGCCGGGGTTGGTCGAGGCTGCGGACACCGTCACCGAGATGGCCCTGGTCAAGCACGCCTTCAAGGCTGGGGTGAAGGCGCAGAAGGGCGTTGAGTTTTGA	MSESADRDARHKARMARKKAIVDEKIAQATDEYGLLLVHTGNGKGKSSSAFGMVARALGHGMKVGVVQFIKGAATSGEELFFRRFPEEVRYHVMGEGYTWETQDRQRDIEKARQAWVVATELLSDPDIGLVVLDELNIALKHGYLELDQVLADIAARPLYQHVVATGRGAPPGLVEAADTVTEMALVKHAFKAGVKAQKGVEF	PGPT0004645_1029	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004645-cobA|btuR-K19221	NA	NA
BMS010_06370	1296	cbiA	COG1797	Cobyrinate a,c-diamide synthase	TTGAACGGCGTCCGCCCATGCCCCGCGTTGCTGGTCGCCGCGCCGGCGTCCGGCCAGGGCAAGACCACCGTCACCGCCGCGCTCGCCCGTCTGCACAGCCGCCAGGGACGGCGGGTGCGGGTGTTCAAGTGCGGACCGGACTTCCTCGACCCGATGATTCTCGCCCGCGCCAGCGGCCAGCCGGTCTACCAATTGGACCTATGGTTGGTGGGCGAGGCGGAGAGCCGGCGCCTGCTCTGGGAGGCTGCCGATGAGGCCGACCTGATTCTCATCGAAGGGGTAATGGGGCTGTTCGACGGCGCGCCGTCCGCCGCCGATCTGGCACGGCGTTTCGGCGTACCGGTGCTGGCCGTGATCGACGGCTCGGCCATGGCGCAGACCTTCGGCGCCATGGCCCATGGGCTGGCCAGCTACCAACCGGACCTGCCGTTCGCCGGCGTGCTCGGCAACCGCACCGGTAGTGCGCGGCACGGCGAAATCCTGCGCGATTGCCTGCCGGACGGTATCCGCTGGTTCGGTGCCTTGCCGCGCAGCGCCGGCATCGAGTTGCCCAGTCGTCACCTGGGGTTGGTGCAGGCGGAGGAACTGGCCGACCTGGATGCGCGCCTGGACCAGGCCGCCGATGCCCTGGCCGCCAGTGCGTCGGTGGATTTGCCGCCAGCCGTGTGCTTCGCCTCTCCAGAACCCGCGGACATCCCGCCTCTGCTGGACGGAGTGCGTATCGGCGTGGCGCGGGATGCCGCGTTCGCCTTTCTCTACCAGGGCAATCTCGATTTGCTGCGGCGGCTCGGCGCCGAGCTGGCGTTCTTCTCGCCGCTGCGCGATCAGGCCCTGCCGGACGTGGACAGCCTCTACCTGCCCGGCGGCTACCCGGAACTGCATTGGCAGGCACTGGCCGGGAACCGGCCGATGGCCGAGGCGATCCGCGCCCATCATGCCGCCGACAAGCCGATCCTCGCCGAATGCGGCGGCATGCTCTACCTGCTCGATGCCCTCGTCGATGTGGAGGGCCAGCGGGCATCCATGCTCGGGTTGCTGCCGGGCGAGGCGCGTATGCAGCCACGCCTGACGGCCCTGGCGTTGCAGGAAGTCGAGCTGCCGGAAGGCCGCTTGCGTGGGCATACCTTCCATCATTCGGCATTGCAGACGGCGCTGGAGCCGCTGGCGCGCGGGCAGTGCCCGAATTATCGGCGTACCGCCGAAGCCGTCTACCGCCGAGGTCGGCTGACCGCTTCCTACATTCACTTCTATCTGCCGTCCGCGCCCGCTGCTGCGGCGGCCTTGTTCCGGCCATGA	MNGVRPCPALLVAAPASGQGKTTVTAALARLHSRQGRRVRVFKCGPDFLDPMILARASGQPVYQLDLWLVGEAESRRLLWEAADEADLILIEGVMGLFDGAPSAADLARRFGVPVLAVIDGSAMAQTFGAMAHGLASYQPDLPFAGVLGNRTGSARHGEILRDCLPDGIRWFGALPRSAGIELPSRHLGLVQAEELADLDARLDQAADALAASASVDLPPAVCFASPEPADIPPLLDGVRIGVARDAAFAFLYQGNLDLLRRLGAELAFFSPLRDQALPDVDSLYLPGGYPELHWQALAGNRPMAEAIRAHHAADKPILAECGGMLYLLDALVDVEGQRASMLGLLPGEARMQPRLTALALQEVELPEGRLRGHTFHHSALQTALEPLARGQCPNYRRTAEAVYRRGRLTASYIHFYLPSAPAAAAALFRP	PGPT0004605_2372	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004605-cbiA-K02224	NA	NA
BMS010_06371	651	bluB_1	COG0778	5,6-dimethylbenzimidazole synthase	ATGAGCGAGCACGCCTTCACGTCCGAGGAGCGTGCGGCGGTCTACCGAGCCATCGCCGAGCGCCGCGACATGCGTCATTTCAGTGGCGGCGAAGTGGCGCCGGAGCTGCTGGCCCGCCTGCTGGAAGCGGCGCATTGCGCGCCCAGCGTCGGCCTGATGCAGCCTTGGCGTTTCATCCGCATCATCGACGGCGCGCTGCGCGAGGCCATCCATGGGTTGGTGGAGGAGGAGCGGGTTCGTACCGCCGAAGCCCTGGGCGAACGCTCCGATGAATTCATGCGGTTGAAGGTGGAGGGCGTCCGCGATTGCGCCGAGCTGCTGGTCGCCGCCTTGATGGAGGGACGCGAAGAGCATGTGTTCGGCCGGCGCACCTTGCCGGAAATGGACCTGGCGTCCCTGGCCTGCGCCATTCAGAATCTCTGGCTCGCTGCCCGCGCCGAAGGGCTGGGATTGGGCTGGGTGTCGCTGTTCGATCCCGATGCCCTGGCCCGGCTGCTGGACATGCCGGTGGGCAGCAAACCGGTGGCGGTGCTCTGCCTGGGACCGGTCGAGGCCTTCTACCCGGCGCCGATGCTGGCGCTGGAAGGCTGGGCGCAGCCGCGGCCACTGGCCGATCTGCTCTACGAAAATCATTGGGAACGAAACGCATGA	MSEHAFTSEERAAVYRAIAERRDMRHFSGGEVAPELLARLLEAAHCAPSVGLMQPWRFIRIIDGALREAIHGLVEEERVRTAEALGERSDEFMRLKVEGVRDCAELLVAALMEGREEHVFGRRTLPEMDLASLACAIQNLWLAARAEGLGLGWVSLFDPDALARLLDMPVGSKPVAVLCLGPVEAFYPAPMLALEGWAQPRPLADLLYENHWERNA	PGPT0006810_637	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0006810-bluB|drgA-K04719	NA	NA
BMS010_06372	1017	cobD_3	COG1270	Cobalamin biosynthesis protein CobD	ATGAGCCTGGTTTTTCTCACCTGTGCCGGGGTGGCGCTGGACGCCTGGTTGGGCGAGCCACAGCGGCGCCATCCGCTGGTGGCGTTCGGGCGCCTGGCCAACCGGATCGAGGCCCGTTTCAATGGCCCGGCATCCGCCGCGGAGACTGCCGGGCATCCGCACGATCGAGCCGCCGCTCTTTGGGAGCGCGCTCGGGTTTCATTGCTGCCGCCCGTTCAGGCGCAGGAAGGCGAGGCGGGCCGGGGCTGGCGCAGCCATGGTGTCACCGCCTGGTGCCTGGCGGTGCTGCCGCCGACGCTGCTGGTCTGGCTACTGAGCCTGTCGCCGCACTTCGGCTGGTTCGTGGAAGTGCTCGTCCTGTACTTCGCCCTCGGCCTGCGCAGTCTGTACGACCACGCCATGCCGGTGGCCCAGGCCCTGCGCCTCGGCGATCTGGCGGAGGCGCGGCGGCGGGTCGGCTTCATGGTCAGCCGCGACACCTCGCAACTGGACGAGACCGGCGTGGCCCGCGCGGCCACCGAATCGGTACTGGAGAACGGCAGCGATGCAGTGTTCGCCGCGCTGTTCTGGTTCGTCCTGCTCGGCGCGCCGGGCGTGGTGCTCTATCGCCTGAGCAATACCCTGGATGCCATGTGGGGCTATCGCAACGCCCGTTTCGAACGCTTCGGCTGGGCGGCGGCGCGCATCGACGATCTGCTCAATTACCTGCCGGCGCGCCTGGTGGCGCTGACCTACGCGCTGCAAGGTCGCACGCGCCGGGCCCTGGCCTGCTGGTGGCGACAGGCCCCCGCCTGGGACAGCCCCAATGCCGGTCCGGTAATGGCGGCCGGTGCCGGCGCCCTGGGCGTTCTCCTGGGCGGGCCGGCGATCTACCACGGCGAGCGCCACGAGCGGCCGCCGCTGGGCGAGGGCCGTGCGCCCTTGGCACGGGACATCGAACGGGCGCTGAATCGGGTCTGGGGCGGCGTCGCGCTCTGGTTGGCGCTGCTGGTGCTCTGGGGCGTCTGGCATGCTTGA	MSLVFLTCAGVALDAWLGEPQRRHPLVAFGRLANRIEARFNGPASAAETAGHPHDRAAALWERARVSLLPPVQAQEGEAGRGWRSHGVTAWCLAVLPPTLLVWLLSLSPHFGWFVEVLVLYFALGLRSLYDHAMPVAQALRLGDLAEARRRVGFMVSRDTSQLDETGVARAATESVLENGSDAVFAALFWFVLLGAPGVVLYRLSNTLDAMWGYRNARFERFGWAAARIDDLLNYLPARLVALTYALQGRTRRALACWWRQAPAWDSPNAGPVMAAGAGALGVLLGGPAIYHGERHERPPLGEGRAPLARDIERALNRVWGGVALWLALLVLWGVWHA	PGPT0004660_2846	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004660-cbiB|cobD-K02227	NA	NA
BMS010_06373	996	hisC_9		Histidinol-phosphate aminotransferase	ATGCTTGAGCACGGCGGACAACTGCGCGCGGCGGCGCATCGCTACGGGATTCCCGAGGCGGGCTGGCTCGATCTTTCCACCGGCATTTCGCCTTGGCCCTGGGCGCTGGCGGAGCTGCCGGCGAGCGCCTGGACCCGTCTGCCGGAGGCCAGCGATGGCCTGGAGGCGGCGGCCTGCGCCTATTACGGCTGCAGCCAGTTGCTGCCGGTGCCGGGCTCGCAGGCGGCGATCCAACAGTTGCCCCGCCTGTGGCCGCGTCCGGCCCGTGTCGCGGTGCTTTCGCCCTGTTATGCCGAGCACGCCCATGGCTGGCGTTCGGCTGGCCACGATGTGCTGGAGCTGGACGACGACGCGGTGGAGCCGCTGCTCGACAGCCTGGATGTACTGGTGGCGGTCAACCCGAACAACCCGACCGGCCGGCTACTGGCGCCGCAACGCCTCCTCGACTGGCATGCCCGTCTGGCCGCGCGCGGCGGCTGGCTGCTGGTGGACGAAGCTTTCATGGATGCCACCCCGGCACTGAGCCTGGCGGCCAGCAGCGACCGGCCCGGGCTCATCGTGCTGCGCTCGTTCGGCAAATTCTTCGGCCTGGCCGGAGTGCGCCTGGGGTTCGTGCTGGCCGAGGCATCCTTGCTACTGAAGCTTGCCGAGCGGCTTGGCCCCTGGGCGGTGAGCGGGCCGGCACGGGCGCTCGGGCGACTGTGCCTGGAGGAGAGCGAGCACCATGCACAGCAGCGCCAGCGCCAATTGCAGGCGAGCCATCGTCTGGCGCAACTGCTGACCGAGCGGGGCCTGCCGCCGCGTGGTGGCAGCGCGCTGTTCCAATGGGTGGCAAGCGAGCGGGCCGAGCGGCTGTACGACGGGCTGGCCCGGCAGGGTGTGCTGGTCCGGCTGTTCCGAGAGCCGGCGAGCCTGCGTTTCGGCCTGCCGGCGGACGATCCGGCCTGGGGCCGGCTCGACCAGGCACTGGCAGCCTTGCGCAAGGATTTCCCATGA	MLEHGGQLRAAAHRYGIPEAGWLDLSTGISPWPWALAELPASAWTRLPEASDGLEAAACAYYGCSQLLPVPGSQAAIQQLPRLWPRPARVAVLSPCYAEHAHGWRSAGHDVLELDDDAVEPLLDSLDVLVAVNPNNPTGRLLAPQRLLDWHARLAARGGWLLVDEAFMDATPALSLAASSDRPGLIVLRSFGKFFGLAGVRLGFVLAEASLLLKLAERLGPWAVSGPARALGRLCLEESEHHAQQRQRQLQASHRLAQLLTERGLPPRGGSALFQWVASERAERLYDGLARQGVLVRLFREPASLRFGLPADDPAWGRLDQALAALRKDFP	PGPT0004655_557	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004655-cobC1|cobC-K02225	NA	NA
BMS010_06374	1473	cobQ_2		Cobyric acid synthase	ATGACCACCCTGATGGTACAGGGCACCACCTCCGACGCCGGCAAGAGCACCCTGGTGACTGCGCTGTGCCGCTGGCTGCGCCGCCAGGAGGTGACGGTGGCGCCGTTCAAACCGCAGAACATGGCGCTGAACAGCGCGGTGACCGCCGACGGCGGCGAGATCGGCCGGGCCCAGGCGGTCCAGGCCCAGGCCGCCGGGCTGGCGCCGCATACCGACATGAACCCGGTGCTGCTCAAGCCCAACACCGACATCGGCGCCCAGGTGATCATCCATGGCCGCGCCGTCGCCAGCATGGACGCCGTGGCCTATCACGATTACAAACGCGTCGCCCGCGAGGCCGTGCTGGCTTCCCATGCCCGGCTCAGCGCGGCGCACCGGGTGGTGATGGTGGAAGGCGCCGGTTCGCCGGCGGAAATCAACCTGCGCGCCAACGACATTGCCAACATGGGCTTCGCCGAGGCGGTGGACTGCCCGGTGATCCTCATTGCCGACATCGACCGGGGCGGCGTCTTCGCCCATCTGGTCGGAACCCTGGCGTTGCTTTCGGAAAGCGAACGGGCGCGGGTCCGGGGCTTCGTGATCAACCGCTTCCGGGGCGATCTCGCTTTGTTGCAACCGGGCCTCGACTGGCTGGAAGCCCACACCGGCAAGCCGGTGCTGGGCGTGCTGCCGTACCTGACGGATTTTCATCTGGAAGCCGAGGACGCCATCGATACCCGCCAGTCGGCCAAGAGCGACGAAACGCTGCGGGTGGTGGTGCCGGTGATGCCGCGCATCAGTAACCACACCGACTTCGATCCGCTGCGCCTGCACCCGCAGGTCGACCTGCGCTTCGTCGGGCCCGGCCAGCCGATTCCCTCGGCCGACCTGATCGTCCTTCCGGGTTCGAAGAGCGTGCGCGCCGACCTGGACTTCCTGCGTGCCAATGGCTGGGATGCGGCGATCCAGCGGCACCTGCGTTATGGCGGCCGGTTGCTGGGCATCTGCGGCGGCCTGCAGATGCTCGGGCGGCGTATCGACGATCCGCTCGGGCTGGAAGGCGAGGCGGGGAGCAGCGCGGGGCTGGGCCTGCTGGATTTCGTCACGCGGTTGGAGGCGGAAAAGCAGTTGCGCAACGTCCAGGGCCGCCTGTGCCTGGAGGATGCGCCAGTGAGCGGCTACGAGATCCACGCCGGTGTCAGCCAGGGGCCGGCCTTGGAGCACGCTGCCGTCCGCCTGGACGATGACCGCCTTGACGGCGTGTTCAGTGAGGACGGAGCGGTGTTCGGCACCTACCTTCATGGTCTGTTCGAGCAGCCGGCGGCTTGCGGTGCGCTGCTGCGCTGGGCCGGCCTTGAGGCTCCGCAGATTATCGACTACCACGCGCTGCGCGAACGCGACATCGAGCGGCTGGCCGATCTGGTGGAGCGGCATCTGGATACGGCTCGCCTGCGCCACCTCTGTGGCCTCGGCGAGCCCTCTTCCCTGTCTTGA	MTTLMVQGTTSDAGKSTLVTALCRWLRRQEVTVAPFKPQNMALNSAVTADGGEIGRAQAVQAQAAGLAPHTDMNPVLLKPNTDIGAQVIIHGRAVASMDAVAYHDYKRVAREAVLASHARLSAAHRVVMVEGAGSPAEINLRANDIANMGFAEAVDCPVILIADIDRGGVFAHLVGTLALLSESERARVRGFVINRFRGDLALLQPGLDWLEAHTGKPVLGVLPYLTDFHLEAEDAIDTRQSAKSDETLRVVVPVMPRISNHTDFDPLRLHPQVDLRFVGPGQPIPSADLIVLPGSKSVRADLDFLRANGWDAAIQRHLRYGGRLLGICGGLQMLGRRIDDPLGLEGEAGSSAGLGLLDFVTRLEAEKQLRNVQGRLCLEDAPVSGYEIHAGVSQGPALEHAAVRLDDDRLDGVFSEDGAVFGTYLHGLFEQPAACGALLRWAGLEAPQIIDYHALRERDIERLADLVERHLDTARLRHLCGLGEPSSLS	PGPT0004580_2169	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004580-cobQ|cbiP-K02232	NA	NA
BMS010_06375	522	cobP_2		Bifunctional adenosylcobalamin biosynthesis protein CobP	ATGATCGAACTGATTCTCGGCGGTGCCCGTTCCGGCAAAAGCCGCCTGGCAGAGCGCCTGGCGATGGAAAGCGGGCTGGAGGTCTGCTATATCGCCACCAGTCAACCGCTTGATGGCGAAATGGCATCTCGTATTGCGCGGCACCGCCAACGCCGTCCGGAGCACTGGCACCTGGTCGAGGAACCTTTGGCGCTGGCGCGCGTGCTGGGCGAGCAGGCCGCTCCCGGTCGTTGCCTGCTGGTGGACTGCCTGACCCTCTGGCTGACCAACCTGCTGATGCTGGACGACCCGGCGCGTCTCGACGCCGAGCGCGACGCGCTGCTGGAATGCCTGCCGCAGCTGCCTGGGCGGGTCTTGCTGGTGAGCAACGAGACCGGGTTGGGTGTGGTGCCGCTGGGTGAGTTGAGCCGGCGCTACGTGGATGAGGCCGGCTGGCTGCATCAGTCGCTGGCCGAGCGCTGCGAGCGGGTGGTCTTTTGTGTGGCGGGGTTGCCGATGGTCTTGAAAGGAGCACAACTATGA	MIELILGGARSGKSRLAERLAMESGLEVCYIATSQPLDGEMASRIARHRQRRPEHWHLVEEPLALARVLGEQAAPGRCLLVDCLTLWLTNLLMLDDPARLDAERDALLECLPQLPGRVLLVSNETGLGVVPLGELSRRYVDEAGWLHQSLAERCERVVFCVAGLPMVLKGAQL	PGPT0004585_2054	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004585-cobP|cobU-K02231	NA	NA
BMS010_06376	1056	cobT_2		Nicotinate-nucleotide--dimethylbenzimidazole phosphoribosyltransferase	ATGAACCTGTCGTGGTGGGAAGCGGCTTGTCGTCCCCTGGATCTGGAGGCGCAGCGCGAAGCCCTGGCACGCCAGGATCAATTGACCAAGCCGCGTGGCTCGCTGGGCCGCTTGGAGTCGCTGGCCACCACCCTGGCGGGCATGCAGGGCACTGCGCGGCCTGCCGTCGACACACTGTGGATCGCCGTGTTCGCCGGCGACCACGGGGTGGTCGAGGAGGGTGTTTCGGCCTACCCGCAGGCGGTCACCGGACAGATGCTGCGCAACTTCGTCGAAGGCGGCGCGGCGGTCAGCGTGCTGGCGCGGCAGCTCGACGCGGCGCTGGAAGTGATCGACCTGGGCACCGCCGTTCCCCTGGAGCCGTTGCCTAACGTGCGCCACCTCAACCTGGGGCCCGGCACGCAGAATTTCGTTCATGACCAGGCCATGACCTACGCCCAATGCCTGATCGCCCTCGAAGCCGGTCGCGACAGCGTGCGCCGCGCCCGCGAGGCGGGGGCGCAGTTGTATATCGGCGGGGAGATGGGCATCGGCAACAGCACGGCCGCCAGCGCCCTGGCCTGTGCCCTGCTGGACCTGCCGGCGCGGGCGTTGGTCGGGCCCGGCACCGGCCTCGATGCCTCCGGTGTGCGGCACAAGGCGGCGGTGGTGGACTGCGCCCTGGTGCTGCATGGCGAGCATCTCGCCGATCCGCTGCAATGCCTGCTGCGCCTGGGCGGCTTCGAAATCGCGGCACTGGCTGGCGCCTACCTGGCCTGCGCCCAGCAAGGTTTGCCTGTGCTGGTGGACGGCTTCATCTGCAGCGCCGCCGCCCTGGTCGCCACCTGCCTCAACCCCGGTTGTCGCGATTGGCTGCTGTTCTCCCATCGAGGGGCTGAGCCGGGGCATGCCCTGATCCTCGACGCCTTGCAGGCCGAGCCGCTGCTCGAACTCGGGCTGCGCCTGGGCGAGGGGAGCGGGGCGGCGCTGGCGGTGCCGCTGTTGCAGATGGCCTGCCGCCTGCACAACGAAATGGCCACCTTCGCCGAAGCAGCGGTGGCGGATCGCCCGGCATGA	MNLSWWEAACRPLDLEAQREALARQDQLTKPRGSLGRLESLATTLAGMQGTARPAVDTLWIAVFAGDHGVVEEGVSAYPQAVTGQMLRNFVEGGAAVSVLARQLDAALEVIDLGTAVPLEPLPNVRHLNLGPGTQNFVHDQAMTYAQCLIALEAGRDSVRRAREAGAQLYIGGEMGIGNSTAASALACALLDLPARALVGPGTGLDASGVRHKAAVVDCALVLHGEHLADPLQCLLRLGGFEIAALAGAYLACAQQGLPVLVDGFICSAAALVATCLNPGCRDWLLFSHRGAEPGHALILDALQAEPLLELGLRLGEGSGAALAVPLLQMACRLHNEMATFAEAAVADRPA	PGPT0004595_1315	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004595-cobU|cobT-K00768	NA	NA
BMS010_06377	573	cobC	COG0406	Adenosylcobalamin/alpha-ribazole phosphatase	ATGATGCTGCGACTGGATTTGCTGCGCCACGGTGAAACCGAGCGGGGTGGCGGTTTTCGCGGCAGCCTGGACGATGCGCTGACGCCGGCCGGTTGGGCTCAAATGCGCACCGCCATCGCCGACACCGGCCCCTGGGACCGGCTTGTCAGCTCGCCGTTGTTGCGTTGTGCCGACTTCGCCCGTGCGTTGGCTGCGGAGACCGGCGTGCCGCTGCATCTGGACGCCGACCTGCGAGAGCTGCACTTCGGCGCCTGGGAAGGGCGCAGTGCCGCCGAGCTGATGGAGGCCGATGCCGAGGCGCTTGGCCGTTTCTGGGCCGATCCTTATGCCTTCACCCCGCCGGATGGCGAAGCGCTGGAAGCCTTCGAAGCCCGTGTATTGACGGCGGTCCAGCGGTTGGCCCGGCAGTTCGCCGGAGAGCGCTTGCTGGTCATCACCCATGGCGGCGTGATGCGCCTGCTGCTGGCCCGTGCTCGCGGGCTGGAGCGGCGCATGTTGTTGTCGGTCGACGTGGAACACGGCTCGCTGCACCGGCTCGAATGGCCTTGCGAGGCGGCATGCCGGCCTTCCTGA	MMLRLDLLRHGETERGGGFRGSLDDALTPAGWAQMRTAIADTGPWDRLVSSPLLRCADFARALAAETGVPLHLDADLRELHFGAWEGRSAAELMEADAEALGRFWADPYAFTPPDGEALEAFEARVLTAVQRLARQFAGERLLVITHGGVMRLLLARARGLERRMLLSVDVEHGSLHRLEWPCEAACRPS	PGPT0004650_1508	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004650-cobC|phpB-K02226	NA	NA
BMS010_06378	729	cobS_2	COG0368	Adenosylcobinamide-GDP ribazoletransferase	ATGCCGGCCTTCCTGATCGCCTTGCAGTTCCTGACCCGGTTGCCGGTGCGTCTGGCTGGCATGCCGGCGGCGGAACAACTGGGCCGTTCGCTGCTCTGGTACCCAGTCGTCGGGGCACTGCTTGGCGGCGCCTTGCTGCTGCTCGACCGGTTGCTGGACGGTGCGCCGCCCTTGCTGCATGCGGGCCTGTTGCTGGCGTTCTGGGTGTTCGCCAGCGGCGCGCTGCATCTCGACGGGTTGGCCGATACGGCGGACGCCTGGGTGGGCGGGCTCGGCGACCGCGAGCGCACCCTGGCGATCATGAAGGACCCGCGCAGCGGACCCATCGCCGTGGTGGTTCTGGTGATCGTACTGCTGCTCAAGTTCGCCGCCCTGGCCGCGCTGGTCGAAGGCGGGCAATGGTCCGCACTTTTGCTGGCGCCTGTTCTCGGGCGTACCGCCTTGCTGGCGTTGTTCCTCTCGACGCCTTACGTGCGCCCGGGCGGCCTTGGTCAGGCCCTGGCCGATCATCTGCCACGGCAGCAGGGCTGGGGTGTGCTCGGCGTGGCGGCCGTGGGTTGCCTGCTCTTCGGCTGGAGCGGGCTGTTGGCCTTGCTGGCCGCCGCTGCCGTGTGCGGTCTGGTCCGCCAGAGGCTCATGGCGCGCCTGGGCGGAACCACCGGCGACACTGCCGGCGCTCTGCTGGAGCTGGTGGAGTGTGCGGTGCTGGTGGTTCTCGCCCTCGGCTAA	MPAFLIALQFLTRLPVRLAGMPAAEQLGRSLLWYPVVGALLGGALLLLDRLLDGAPPLLHAGLLLAFWVFASGALHLDGLADTADAWVGGLGDRERTLAIMKDPRSGPIAVVVLVIVLLLKFAALAALVEGGQWSALLLAPVLGRTALLALFLSTPYVRPGGLGQALADHLPRQQGWGVLGVAAVGCLLFGWSGLLALLAAAAVCGLVRQRLMARLGGTTGDTAGALLELVECAVLVVLALG	PGPT0004590_1743	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004590-cobS|cobV-K02233	NA	NA
BMS010_06379	336	yhjQ	COG1145	putative cysteine-rich protein YhjQ	ATGAGCACTCAACGCTACGCATCCTGCATCCAAGCCTGCAACGCCTGTGCCGTGGCTTGCGAGCACTGCGCTGCTGCCTGCCTCCAGGAGGCCATGGTCAAGGACTTGGTGACCTGCATACGACTGGATCGCGACTGTGCCGACATGTGCCGCCTCGCCTCGCGCCTGATGTGCCGCGAGAGCGCGCTGGTCGATGAAATCTGCCGCCTCTGCGCCATCGCCTGCCGCGCCTGCGGCCAGGAATGCGCCAAGCACTTGCACGAGCACTGCCAGCAATGCGCCCAGGCGTGCGAACGTTGTGCCGAAGAGTGCGAGTCGATGGCGAAGGCGGCGTGA	MSTQRYASCIQACNACAVACEHCAAACLQEAMVKDLVTCIRLDRDCADMCRLASRLMCRESALVDEICRLCAIACRACGQECAKHLHEHCQQCAQACERCAEECESMAKAA				NA	NA	NA	NA	NA
BMS010_06380	414			hypothetical protein	ATGTTGCCGACCCAATGCCTCTGTACCAAGCTGCGCCGCGCCGCGCGCAACGTCACCAAACGCTATGACGATGCCCTCGAAGGCGCCGGCCTCAAGGCTGCCCAGTATTCGCTGCTGCGCCATCTGGAACGGCTGGACAAGCCCTGCATCACCAATCTGGCCGAGGCCATGGGCCTCGACCGCAGCACCCTCGGACGCAACCTGCGGGTACTGGAGAGCGAAGGGCTGATTCGTCTCGGCGCCTGCAGTGACCAGCGCAATCGCGTGGTGCTGATGACCGACGAGGGCAGGGCGCGCCTGCAACGGGCCCGCGAAGCCTGGGAGGTCGTGCAGGCGGAGCTGGCCGAGCGCCTCGGTGCGGAAAAACGTGCGGCACTGATGGCGCTGCTGGAAGAGTTGGAAACCCTGGATTGA	MLPTQCLCTKLRRAARNVTKRYDDALEGAGLKAAQYSLLRHLERLDKPCITNLAEAMGLDRSTLGRNLRVLESEGLIRLGACSDQRNRVVLMTDEGRARLQRAREAWEVVQAELAERLGAEKRAALMALLEELETLD				NA	NA	NA	NA	NA
BMS010_06381	1209			L-lactate transporter	ATGAACGCTGTCTGGCGTGCGAGTGTCTGGGTGCTGCTGGGTGGGTCCCTGATCCTTGCCCTGTCGCTGGGAATCCGCCATGGCTTCGGCTTGTTCCTGCCGCCGATGAGCGCGGAGTTCGGCTGGGGGCGCGAAGTGTTCGCCTTCGCCATTGCCTTGCAGAACCTGATCTGGGGCCTGACCCAGCCTTTCACCGGCGCCCTGGCCGACCGCCTGGGTGCGATGCGTGTCGTGGTGGTCGGCGGGGTGCTCTACGGGCTGGGTCTGCTGCTGATGGGCTTCGCCGATTCGCCCTGGTCGCTGTCGCTGAGTGCCGGGCTGCTGATTGGTTTCGGTCTGTCCGGGACCACCTTCTCGATCATCCTCGGCGCAGTCGGCCGCGCGCTGCCGCCGGAGAAGCGCAGCATGGGCATGGGCATCGCCGCGGCGGCCGGCTCGTTCGGCCAGTTCATCATGCTACCGGGGACCCTGGGGCTGATCGGCTGGCTCGGCTGGTCCTCTGCGCTGATCGCCCTCGGCCTGCTGGTGGCGCTGATCGTTCCCCTGGCGGCCATGCTGCGCGACCGGCCGCTGCCGGTGCAGGCCCATGAACAGAGCCTCGGCGAGGCGCTGCGCGAGGCCTCCAGTCACAGCGGATTTTGGCTGCTGGCGCTGGGCTTCTTCGTCTGCGGCTTCCAGGTGGTGTTCATCGGCGTCCACCTGCCGGCCTATCTGGTCGACCAGCACCTGCCGGCGCAGGTGGGGACCACGGTCCTGGCACTGGTGGGGCTGTTCAACATCTTCGGCACGTATATCGCCGGCTGGCTCGGCGGACGAATGTCCAAGCCGCGCCTGCTGACCGGCCTCTATCTGGTACGCGCGGTGGTGATCGCGGCATTCATCATGACGCCGCTGACCGTCTGGAGCGCCTATGCCTTCGGTATCGCCATGGGCCTGCTGTGGCTCTCCACGGTCCCACTGACCAACGGCACCGTCGCCACGCTGTTCGGCGTACGCAACCTGTCCATGCTGGGCGGCATCGTCTTCCTGTTCCACCAGATCGGCGCGTTCCTCGGCGGATGGCTGGGCGGCTATCTGTACGACCACACCGGCAGCTACGACCTGGTCTGGCAGCTATCCATCCTGCTCAGCCTGATGGCCGCGGCGCTCAACTGGCCGGTGCGCGAACGGCCGGTGGCGCGCCTGCAGGCGGCGGGTAATGCGGCATGA	MNAVWRASVWVLLGGSLILALSLGIRHGFGLFLPPMSAEFGWGREVFAFAIALQNLIWGLTQPFTGALADRLGAMRVVVVGGVLYGLGLLLMGFADSPWSLSLSAGLLIGFGLSGTTFSIILGAVGRALPPEKRSMGMGIAAAAGSFGQFIMLPGTLGLIGWLGWSSALIALGLLVALIVPLAAMLRDRPLPVQAHEQSLGEALREASSHSGFWLLALGFFVCGFQVVFIGVHLPAYLVDQHLPAQVGTTVLALVGLFNIFGTYIAGWLGGRMSKPRLLTGLYLVRAVVIAAFIMTPLTVWSAYAFGIAMGLLWLSTVPLTNGTVATLFGVRNLSMLGGIVFLFHQIGAFLGGWLGGYLYDHTGSYDLVWQLSILLSLMAAALNWPVRERPVARLQAAGNAA				NA	NA	NA	NA	NA
BMS010_06382	126			hypothetical protein	ATGAAAGCCGGCCACCTGTGGTTGGCCAGCGTGCTGGTGCTGGGTGTGGCCCTGCTGGCGTTGGCCTGGTGGGGCTGGCGCCACAGCGGCCTGGCGTTGTTGCAGCTGGGGCTGGGGAGCTGCTGA	MKAGHLWLASVLVLGVALLALAWWGWRHSGLALLQLGLGSC				NA	NA	NA	NA	NA
BMS010_06383	1032			hypothetical protein	ATGATCAAGGAATTGATCCTGGCCAGTCTGTTGGCCGTCAGCGTTTCCCCTGTGTTTGCCGATACCGCCGCCGAAGAGCCTCAGGAAAGCCATGAGGAAATCCTCGTCGAAGCCGATGAGGCAGCCGTCGAAGAGGCGGAATACCCCAGCCCCGAAGAATTCCTCGCCAGCCTGAAATTCCAGCAGGGCAAGATCGTCATCGGCGATAACCTGGCGACCCTCAACGTCTCCGACCGCTTCGTGTTCCTCGATGGTCCGGATGCCGAGCGCGTGTTGGTCGAGGCCTGGGGCAACCCGCCGAGCGATACGCTGCCGCTGGGCATGATCCTGCCGGCCGGCATTTCCCCGTTCGCCGAGGAATCCTGGGCCGTCACCGTCGAATACGAGGAAAGTGGCTACGTCTCCGACGAAGACGCCGCCGACATCGACTACGACGAAATGCTCGAGGGCATGAAAGAAGACACCGTAGCCGACAACACCTGGCGCAACGAGAACGGCTACGAAAGTGTCGAGCTGGTCGGCTGGGCCGCCAAGCCGCACTACGATGCCGCCGGCAAGAAACTGCACTGGGCCAAGGAACTCAAGTTCGGCGAGGCCGAGGAAAACACCCTCAACTACAACATCCGCGTGCTCGGCCGCAAAGGCGTACTGGTGCTGAACTTCATCGCCAACATGAACCAGTTGCCGGACATCGAGCGCAACCTGCCGGAAGTCCTGGCCATGACCGAGTTCAACCAGGGTAGCCGCTACGCCGACTTCAACCCCGACATCGACGAAGTCGCCGCCTACGGCCTGGGCGCGCTGATCGCCGGCAAGGTCGCCGCCAAGACCGGCCTGCTGGCCATGCTCCTGATCCTGCTGAAGAAGTTCTGGATCGTGCCCGTCGCCATCGGCGGCTGGGTCATATCCCGTCTGCGCGGCAAGAAGAGCGAGCCGGCACCGGTCGTGACGCCGAAAGAGTCCGAGCCGGTTCAGCCCGTCACACCCGCACAGAGTGTGATGGACTTGAACAAGGATGAGCCGAAGGCTTGA	MIKELILASLLAVSVSPVFADTAAEEPQESHEEILVEADEAAVEEAEYPSPEEFLASLKFQQGKIVIGDNLATLNVSDRFVFLDGPDAERVLVEAWGNPPSDTLPLGMILPAGISPFAEESWAVTVEYEESGYVSDEDAADIDYDEMLEGMKEDTVADNTWRNENGYESVELVGWAAKPHYDAAGKKLHWAKELKFGEAEENTLNYNIRVLGRKGVLVLNFIANMNQLPDIERNLPEVLAMTEFNQGSRYADFNPDIDEVAAYGLGALIAGKVAAKTGLLAMLLILLKKFWIVPVAIGGWVISRLRGKKSEPAPVVTPKESEPVQPVTPAQSVMDLNKDEPKA				NA	NA	NA	NA	NA
BMS010_06384	1278		COG4573	D-tagatose 6-phosphate 4-epimerase	GTGACCGGTATACTCGAAAATCTCGCCGCCGCGCGCCGCTCCGGCAAGCCCGCCGGCATCACCTCCGTCTGCTCCGCCCATCCCGTGGTTCTGCGCGCCGCAATCCGCCGTGCCGCCGCCGGCAAGACACCGGTGCTGATCGAGGCGACCTGCAATCAGGTCAATCATCTCGGCGGTTATACCGGCATGACGCCACGGGACTTCGTCAGCTTCGTCAACAGCATTGCCGAGGAAGAAGGGTTGCCCCGCGAACTGGTGATTTTTGGCGGAGATCATCTCGGCCCCAATCCCTGGCGCAGGGAAACGGCCGAGGAAGCGCTGACAAAAGCCGCCGCCATGGTCGAGGCCTATGTGACGGCGGGTTTTCGCAAGATCCATCTCGATGCCTCGATGGGCTGCGCCGGTGAACCGGCGGCGCTGGACGACGACACGATAGCCAACCGCGCCGCCAAGCTTGCAACCGTCGCCGAAAAGGCGGCCGCGGCTGCCAGCCTGCCCAAACCGCTTTATATTCTCGGTACCGAAGTGCCGGTGCCTGGCGGTGCCGACCATGTGCTCGACACGGTCGCGCCGACGCAGCCGCAGGCGGCGCGCCAGACCATCGACCTTCATCGCGAAATATTTGCGCGACACGGCCTTTCCGATGCGTTCGAGCGGGTCATCGCCTTTGTCGTGCAGCCCGGCGTGGAATTCGGCAGCGACAATGTCGTCGCTTACGACCCGCAAGCGGCCACCGCCTTGAGCGCCGTGCTGGACGCCGAACCGCAACTGGTCTTCGAGGCCCATTCCACCGATTACCAGACGCAGGCCGCCCTCACGACACTGGTATGCGATGGATATCCCATCCTGAAAGTGGGCCCCGGCCTGACCTTCGCCTATCGCGAGGCGCTTTACGCTCTCGACATGATCGCCTCCGAGATGATCGGCGATTATGGCGACCGTCCTTTGGCGCGCACCATGGAGGAGCTGATGCTTTCCTCACCCGGCGACTGGCGCGGACATTACCATGGCGATGACATCACGCTGCGATTGCAGCGCCACTACAGCTACAGCGACCGTATCCGCTATTACTGGACGCGGCCGGAAGCGCTTGCGGCCGTTTCCGCCTTGCATAAGGCGCTGGATGGGAAGACAATTCCCGAACCCCTGCTGCGCCAGTATCTCGGCGAGTTGCCGCTCGCGGCAGTTGCAGGAAAGGATATGGAGGAGGTTCTGGTCGCGGCAGTGGATCAGGTGCTGGCGACCTACCATGCGGCAACCGGCGAAGATCGTCACTAA	MTGILENLAAARRSGKPAGITSVCSAHPVVLRAAIRRAAAGKTPVLIEATCNQVNHLGGYTGMTPRDFVSFVNSIAEEEGLPRELVIFGGDHLGPNPWRRETAEEALTKAAAMVEAYVTAGFRKIHLDASMGCAGEPAALDDDTIANRAAKLATVAEKAAAAASLPKPLYILGTEVPVPGGADHVLDTVAPTQPQAARQTIDLHREIFARHGLSDAFERVIAFVVQPGVEFGSDNVVAYDPQAATALSAVLDAEPQLVFEAHSTDYQTQAALTTLVCDGYPILKVGPGLTFAYREALYALDMIASEMIGDYGDRPLARTMEELMLSSPGDWRGHYHGDDITLRLQRHYSYSDRIRYYWTRPEALAAVSALHKALDGKTIPEPLLRQYLGELPLAAVAGKDMEEVLVAAVDQVLATYHAATGEDRH	PGPT0017965_58	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_ALTRITOL|GALACTITOL_DEGRADATION,PGPT0017965-agaZ|kbaZ|tag6PK-K21622	NA	NA
BMS010_06385	1002		COG0524	Tagatose kinase	ATGGAGGAGACGATGAGGCAGACATCCGCACTGGCGCCGCACACGAATGGCCCGACCATCACGGCCGGCGAAATCCTCGTGGAGATCATGGCGACGACGGTGGGAAGCGGCTTTCTCGAGCCACAAACGCTGATCGGCCCCTTCCCGAGCGGCGCGCCGGCCATCTTCATCGATCAGGTGGCGCGCTGCGGCGGAGCCGCCGGCATCATTGCGGCGGTGGGTGACGACGATTTCGGCCGTCTCAATGTCGAGAGGCTGCGCGGCGACGGCGTCGACGTCTCAGCCATCGCCACCATCCCCGACCGGCCAACGGGCAGCGCCTTCGTGCGTTACCGGGAAAACGGCGCAAGGGACTTCGTTTTCAACATCGCCCATTCGGCGGCCAGCGAAACGCATATGACGGCTGAAGCGCAGGCTCTCATCGAAAAAGCCGGCCATGTGCATGTCATGGGATCGGCCTTCGCGATTGCCGGCATTGGCGAAATCATTCTCGAAGCCATCAGACGCGTCAAGGCGCGCGGCGGCTCGGTCTCCTTCGATCCCAACATCCGCAAGGAACTGGCGCAGGGCGATGCCGGCCGCAGACTGATCGACGATCTGCTTGGTGTTACCGATCTTCTCCTGCCCTCCGGTGAGGAGCTTCACGCGGCCTCCGGGCTGAATGACGAGGAGGCGGCGATTGAAAAGCTGCTTGCCTCCGGTATCGGCGAAATCGTGCTGAAGCGCGGCGCGGATGGCGCAAGCCATTTCAGCCGCGCCCATGGGCGCATCGACGTCCCCGGCTTGCGGGTCCGCGAAATCGACCCGACCGGTGCCGGCGACTGTTTCGGTGCGACCTATCTCACCTGCCGCCGCCTCGGCATGCATCCGCAAAAGGCGCTCACCTATGCCAATGCCGCCGGCGCGCACAATGTCACCCGCCGTGGCCCGATGGAGGGCGCCGCCAGCCTTTCCGAACTCGACGCCTTTCTGGCCGCGCAACTGTCGGAGGAAATCCTGTGA	MEETMRQTSALAPHTNGPTITAGEILVEIMATTVGSGFLEPQTLIGPFPSGAPAIFIDQVARCGGAAGIIAAVGDDDFGRLNVERLRGDGVDVSAIATIPDRPTGSAFVRYRENGARDFVFNIAHSAASETHMTAEAQALIEKAGHVHVMGSAFAIAGIGEIILEAIRRVKARGGSVSFDPNIRKELAQGDAGRRLIDDLLGVTDLLLPSGEELHAASGLNDEEAAIEKLLASGIGEIVLKRGADGASHFSRAHGRIDVPGLRVREIDPTGAGDCFGATYLTCRRLGMHPQKALTYANAAGAHNVTRRGPMEGAASLSELDAFLAAQLSEEIL	PGPT0017945_15	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_ALTRITOL|GALACTITOL_DEGRADATION,PGPT0017945-scrK|kdgK|frk-K21621	NA	NA
BMS010_06386	1314			hypothetical protein	ATGAGCAAATTAATTGGAATTCTGTCATCGTCCGTGGTTGGCATCGGCCTTTTCGCCGGTCTGGCGCAGGCGGAGGAAATCAACATCGCCACCGTCAACAATGGCGACATGATCATCATGCAGAAGCTTTCCAGCGCCTGGGAGAAGGAGACGGGCAACAAGATCAACTGGATCGTGCTGGAAGAGAATGTTCTGCGCGAACGCGTTACCACCGATATCGCCACCAATGGCGGCCAGTTCGACATCATGACCATTGGCGGTTACGAAGCGCCGATCTGGGGCAAGCAGGGCTGGCTGGCGCCGGTCGACGATCTCGGCGACGATTACGATTACGCCGATCTGCTCGATCCGATCAAAAAGGGCCTGACTGTCGACGGCAAGCTTTACGCGGTGCCGTTCTACACCGAAAGCTCGTTCACGCTTTACCGCAAGGATCTGTTCGACGCCGCCGGCCTGAAGATGCCGGATAATCCGACCTACGACCAGATCAAGGATTTCGCTGCCAAGCTGACCGACAAGTCGAAACAGCAATATGGCATATGCCTGCGCGGCAAGCCGGGCTGGGGTGAAAACATGGCTTTCCTCGGCACCATGATCAACACCTATGGCGGCCGCTGGTTCGACATGGACTGGAAACCGCAGCTGACGAGCGAGCCGTGGAAAAAGGCGATCTCTGACTATGTGGCGCTAATGACCTCCTACGGCCCGCCCGGCGCGGCCGCCAATGGCTTCAACGAGAACCAGACGCTGTTTTCCTCCGGCCGTTGCGCCATGTGGATCGACGCCACCTCTGCGGCAGGCCGCGTTTATGACCCCAAGCAGAGCCAGGTTGCCGACAAGACCGCGTTTACGCGCGCTCCGGTGGAGGTAACGCCGAACGGTTCGAGCTGGTCGTGGTCCTGGAACCTTGCAATCCCCAACAGCACGAAGAAGCTTGAAACCGCCAAGTCTTTCGTGAAATGGGCGACCTCGAAGTCCTATGTGAAGACGGTTGGCGAAAGCGAAGGCTGGGTGGCCGTGCCGCCGGGCACGCGCAAATCCACCTATGAGCTGCCGGAATATAAGAAGGCCGCGCCCTTTGCGGATACGGTGCTGAAAGCCATCATGTCTGCCGACCCGTCCAAGCCGACCAAGGATCCGGTGCCCTATACCGGCGTGCAGTTCGTCGCCATACCGGAGTTCCAGTCCATCGGCACGATTGTCGGCCAGCAGATCGCGGCAGCCCTTTCCGGCCAGCAGACCGTCGATGCGGCGCTCGAAGGCGCACAGAAACAGGTCGAGCGTGACATGACCCGCGCGGGCTACATCAAGTAG	MSKLIGILSSSVVGIGLFAGLAQAEEINIATVNNGDMIIMQKLSSAWEKETGNKINWIVLEENVLRERVTTDIATNGGQFDIMTIGGYEAPIWGKQGWLAPVDDLGDDYDYADLLDPIKKGLTVDGKLYAVPFYTESSFTLYRKDLFDAAGLKMPDNPTYDQIKDFAAKLTDKSKQQYGICLRGKPGWGENMAFLGTMINTYGGRWFDMDWKPQLTSEPWKKAISDYVALMTSYGPPGAAANGFNENQTLFSSGRCAMWIDATSAAGRVYDPKQSQVADKTAFTRAPVEVTPNGSSWSWSWNLAIPNSTKKLETAKSFVKWATSKSYVKTVGESEGWVAVPPGTRKSTYELPEYKKAAPFADTVLKAIMSADPSKPTKDPVPYTGVQFVAIPEFQSIGTIVGQQIAAALSGQQTVDAALEGAQKQVERDMTRAGYIK	PGPT0016380_468	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MANNITOL|SORBITOL_TRANSPORT,PGPT0016380-smoE|mtlE-K10227	NA	NA
BMS010_06387	771			Galactitol 2-dehydrogenase	ATGAGATTGAAGAACAAGGTCGCGCTGATTACCGGCGCCGCCCGCGGCATCGGCCTTGGTTTCGCGCAGGCTTTTGCCGATGAAGGCGCGAAGGTGATTATCGCCGATATCGATATTGCCCGCGCGACGGCTTCCGCCGCCGCCATCGGCCCTGCCGCCAAGGCTGTGAAGCTGGATGTGACCGATCTTTCCGAGATCGACGCCGTGGTGAAGGCGGTGGATGAGGAATTCGGCGGCATCGACATTCTCGTCAACAATGCCGCGATCTTCGACATGGCGCCGATCAACGGCATTACCGAACAGAGTTATGAGCGGGTCTTCGACATCAATCTCAAGGGACCGCTGTTCATGATGAAGGCGGTCTCGAATGTGATGATCGAGCGGGCGCGCGGCGGCAAGATCATCAATATGGCGAGCCAGGCCGGACGACGCGGCGAGGCGCTCGTCACGCTTTATTGCGCTTCCAAGGCGGCGATCATTTCCGCCACGCAGTCGGCGGCGCTGGCGCTCGTCAAGCACGGCATCAATGTCAACGCCATTGCGCCGGGCGTGGTGGATGGCGAGCATTGGGAAGTGGTCGATGCGGAATTTGCCAAATGGGAAGGCCTGAAGCCGGGCGAGAAGAAGGCGGCGGTGGCGAAATCCGTGCCGATCGGCCGTTTTGCGACGCCCGACGACATCAAGGGGCTGGCGGTTTTCCTCGCTTCTTCCGACAGCGATTATATTCTCGCCCAGACATATAATGTCGACGGCGGCAACTGGATGAGCTGA	MRLKNKVALITGAARGIGLGFAQAFADEGAKVIIADIDIARATASAAAIGPAAKAVKLDVTDLSEIDAVVKAVDEEFGGIDILVNNAAIFDMAPINGITEQSYERVFDINLKGPLFMMKAVSNVMIERARGGKIINMASQAGRRGEALVTLYCASKAAIISATQSAALALVKHGINVNAIAPGVVDGEHWEVVDAEFAKWEGLKPGEKKAAVAKSVPIGRFATPDDIKGLAVFLASSDSDYILAQTYNVDGGNWMS	PGPT0018410_129	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_ALTRITOL|GALACTITOL_DEGRADATION,PGPT0018410-sorbD-K21620	NA	NA
BMS010_06388	1011		COG1063	D-altritol 5-dehydrogenase	ATGCATGCCATTCAATTCGTCGAGAAGGGACAGGCCGTTCTGGCGGAAGTTCCCGTTGCCGATCTGCCGCCGGGCCACGCGCTCGTGCGGGTCAAGGCTTCGGGGCTTTGCCACACCGATATCGACGTTCTCCACGCGCGTTACGGCGACGGCGCCTTTCCGGTCATTCCGGGGCATGAATATGCCGGTGAAGTTGCGGCCGTGGCCGCCGATGTGACGGGCATAAAGTCCGGCGACCGGGTGGTGGTCGACCCCAATCTACCGTGCGGCACCTGCCCGAGTTGCAGGAAGGGGCTGACCAATCTGTGCAGCACGCTGAAGGCCTATGGCGTTTCCCATAATGGTGGTTTCGCGGAATTTAGCGTCGTACACGCCGACCACCTGCACGGCATTGGTTCCATGCCCTATCATGTCGCGGCATTGGCCGAACCGCTTGCCTGCGTCGTCAACGGCATGCAGAGCGCGGGTATCGGCGAGAACGGAACGGTGGCTGAAAATGCGCTGGTTTTCGGAGCCGGTCCCATCGGCCTGCTGCTTGCCCTGTCGCTGAAAGCGCGCGGCGTCGAGACGGTGACGATTGCCGATATCAACGAAAGCAGGCTGGCTTTTGCCGAAGGGCTCGGGCTTAAGGTGGCGGTTTCCGGTTCGGAAACGCTGCTGCGGCAACAGAAGTCTTTCGATGTCGTGGCCGATGCCACCGGTATCGCCCCCGTTGCGGAAGCGATGATCCCGCTGGTTGCCGATGGCGGCACGGCGCTGTTCTTTGGCGTCTGCGCGCCGGATGCCCGCATTTCGGTCGCACCCTTCGAAATCTTCAGGCGTCAGCTCAAGCTCGTCGGTTCGCATTCGCTGAACCGCAACATACCGCAGGCGCTTGCCATTCTGGAAACGGATGGCGATGTCATGGCGCGGCTCGTCTCGCACCGGCTGCCGCTGTCGGAGATGCTGCCGTTCTTTACGAAGAAACCATCCGATCCGGCCACCATGAAAGTGCAATTTGCAGCCGAATGA	MHAIQFVEKGQAVLAEVPVADLPPGHALVRVKASGLCHTDIDVLHARYGDGAFPVIPGHEYAGEVAAVAADVTGIKSGDRVVVDPNLPCGTCPSCRKGLTNLCSTLKAYGVSHNGGFAEFSVVHADHLHGIGSMPYHVAALAEPLACVVNGMQSAGIGENGTVAENALVFGAGPIGLLLALSLKARGVETVTIADINESRLAFAEGLGLKVAVSGSETLLRQQKSFDVVADATGIAPVAEAMIPLVADGGTALFFGVCAPDARISVAPFEIFRRQLKLVGSHSLNRNIPQALAILETDGDVMARLVSHRLPLSEMLPFFTKKPSDPATMKVQFAAE	PGPT0018415_3	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_ALTRITOL|GALACTITOL_DEGRADATION,PGPT0018415-znd-K21616	NA	NA
BMS010_06389	1014	rbsR_1	COG1609	Ribose operon repressor	ATGGAAGAGTTCTCGGAATTCGTCGGCCTTTCGCGCCCGACTGTTTCGAAATACTTCAATGATCCGGCCTCGGTCCGCAAGAAGACCCGGGACGCCATCGAGGATGCGCTGAAGAAATCGGGCTTCAGGCCCAATATTTTCGCCGTCAATCTCAACCGCCGCCGCTCCAATATCATCGGCATCATCATCCCGAATTCCACCGATCCCTTCTATATGGCGCTGACGAGCCGTATCGAGCTCATCGCCAACGAGGCGGGCTTCCTTGCCTTCGTGCTGTCCTCGGATGGCAAGGCGGAAATCGAAGACCGCGCCATCCGCACTTTCAAGTCGATGAATGTCGCCGGCGCGATCATCGCGCCGCTGGGCGTCAAATCCCACCGCGCCACGCTGGAGCAACTCGCCGCCAGCATTCCGATCGTTTATGTCGATTCGCCGCTCGACGAGACCTCGGCCTTTGTTGGCACCGACAACCGCCAGAGTGTCGGGCTGATGGTGGATTATCTCTGCCGCTCGGGCGAGCCGCCCTGTTTCTTCGACATGCCGCAGGTCAATACCAATGCCGCCACGCGTCGCACCGCCTATGAGGAGGCCATGCGGCGCCTTGGTTTCGAGCCGCAGGTGATCAACGTTCCGGATATTGTCACCTGGGATTTCGAGCGTTTCGCCTTCGATGAGGCGGGCCGGCTGCTGGAAGGGGCGGGTTCTCTGCCATCGCGCACCATTCTATGCGCCAACGACCGTATCGCCTTCGGTGTCATCGCAGCCGCCTTCCAGAAGGGCCTCAGGGTCGGCCATGGTGCGGATTATGACCTCAGGGTCGCCGGCCATGACGATCATCCGCTGTCGCGTTATGCCTGTCCGCCGATTACCACGGTAGCGCAGAATTATAACGAGATCGGCAGGCTGTCGATTGAGCTTCTGTTGCAGAAGCTGGACGAGGAGGCGGATGACACGACGCGGATGCGCGAGCGCATTCTCCTCAGCGCCGATCTGATGCTGCGCAAATCGGCCTGA	MEEFSEFVGLSRPTVSKYFNDPASVRKKTRDAIEDALKKSGFRPNIFAVNLNRRRSNIIGIIIPNSTDPFYMALTSRIELIANEAGFLAFVLSSDGKAEIEDRAIRTFKSMNVAGAIIAPLGVKSHRATLEQLAASIPIVYVDSPLDETSAFVGTDNRQSVGLMVDYLCRSGEPPCFFDMPQVNTNAATRRTAYEEAMRRLGFEPQVINVPDIVTWDFERFAFDEAGRLLEGAGSLPSRTILCANDRIAFGVIAAAFQKGLRVGHGADYDLRVAGHDDHPLSRYACPPITTVAQNYNEIGRLSIELLLQKLDEEADDTTRMRERILLSADLMLRKSA	PGPT0021075_424	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021075-cytR-K05499	NA	NA
BMS010_06390	1359			hypothetical protein	ATGAATCTCTATTCTCTTCTGTCAGCGCGTGCAGCCGGCGGCAAGCCTGTTCGGGTGGGTCTCATCGGTGCCGGCAAGTTCGGCTCCATGGTGCTGGCGCAGGCGCAGCGCATTGCCGGTTTCCACATGGTCGCCGTCGCAGACCTCAATGTCGGCAAGGCGAAGGAATCGCTGGATCGCGTCGGCTGGCCGAAGGAGCGTTACGATGCGAAGAGCTGCGGCGAGGCGCTGAAGAGCGGCAAGACCTATGTGACCGACGATGTGAACGAGCTTTTCGCCTGCGGGGAGATCGAATGCGTGATCGAGGCCACCGGCCATCCGCTGGCCGGCGCGCGCCACGCGCTGGGCGCCATCGATCACAACAAGCACGTCGTCATGGTCAATGTCGAAGCCGATGTGATGGTGGGGCCGATCCTGGCCGAAAAGGCGCGGGCAAAGGGCCTGATCTATTCCATGGCTTACGGCGACCAGCCGGCGCTGATCTGCGAACTGGTCGACTGGGCGCGCGCCACCGGCTTCGAGGTCGTCTCCGCCGGCAAGGGCATGAATTTCGAGCCGCGTTACCGTTATTCGACGCCGGACACGGTCTGGGGTTATTTCGGCTGGACGGACGAGGAAGTGGCCAAGGGCGACTTCAATCCAAAAATGTACAATTCCTTCACCGACGGCACCAAGGCGGCCATCGAGATGGCGGCCGTCGCCAACGGCACGGGACTGGATTGCCCGGATGACGGTCTGGCTTTTCCGCCCGCCGGCCTGCACGATCTCGCCCGCGTCTTCCGCCCCGCTGCCGATGGCGGCCGCATGGCGCGCTCCGGCCTCGTCGACATTGCCGCAAGCCAGGAGCCGGATGGACGCGAGGTGTTCAACAACATCCGCTACGGTGTTTTCGTCACCTTCAAGGCCCACAATGAATATGCCCGCGCCTGCTTCAAGCAATATGGCCTGCTGACCGACCCCTCCGGCTGGTACGCCTCCATGTGGCGTCCGTTCCACATCATCGGGCTGGAAACCTCGATCAGCGTGCTTTCCGCCGTTCTGCGCAACGAAGCGACCGGTTGCTCCAAGGAGTTCCGCGGCGATGCCGTCGCTACGGCGAAGAAGGATATGGCACCGGGCGAGATGCTGGACGGCGAGGGCGGATACGCGGTCTGGGCTAATGCCATTCCGGCCACCCGCAGCCTTGATATGAAGGCGCTGCCGATTGGCCTTGCGCATAATGTCAAGTTGAAGCGCGCCATCAAGAAGGACCAGATCGTCAGCTTCGACGATGTGGAGCTGGTGAACGACCTCGATGTGGTGAAGTTGCGTCAGGACATGGAAAACCGCTTCCGTCCGCAAAAAGACGCAGCTGCGTAA	MNLYSLLSARAAGGKPVRVGLIGAGKFGSMVLAQAQRIAGFHMVAVADLNVGKAKESLDRVGWPKERYDAKSCGEALKSGKTYVTDDVNELFACGEIECVIEATGHPLAGARHALGAIDHNKHVVMVNVEADVMVGPILAEKARAKGLIYSMAYGDQPALICELVDWARATGFEVVSAGKGMNFEPRYRYSTPDTVWGYFGWTDEEVAKGDFNPKMYNSFTDGTKAAIEMAAVANGTGLDCPDDGLAFPPAGLHDLARVFRPAADGGRMARSGLVDIAASQEPDGREVFNNIRYGVFVTFKAHNEYARACFKQYGLLTDPSGWYASMWRPFHIIGLETSISVLSAVLRNEATGCSKEFRGDAVATAKKDMAPGEMLDGEGGYAVWANAIPATRSLDMKALPIGLAHNVKLKRAIKKDQIVSFDDVELVNDLDVVKLRQDMENRFRPQKDAAA				NA	NA	NA	NA	NA
BMS010_06391	285	lsrG		(4S)-4-hydroxy-5-phosphonooxypentane-2,3-dione isomerase	GTGGTGATCGCGGAATTTCGGGTGAAGCCTGACGCGATGGATGCCTTTCTCGACGCCGCACGCGATGACGCCCAGCATTCGGTTCAGGATGAACCGGGTTGCCGACAATTCGACGTGGTGCGGCCGGAAACGGGGAACAATGTGGTGTTTTACGAGGTCTACGACGACCGGCAGGCTTTCGACGATCATCTCAAAACACCGCATCTCGACCGGTTTCGGGAAGCATTTCCCGCCCTTATCGAAGAAGAACTGCCGGTGCGTTTCCTGAACCGGCAATGGCTCTGA	MVIAEFRVKPDAMDAFLDAARDDAQHSVQDEPGCRQFDVVRPETGNNVVFYEVYDDRQAFDDHLKTPHLDRFREAFPALIEEELPVRFLNRQWL	PGPT0025515_23	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI-2_PERCIPITATION|SIGNALLING,PGPT0025515-lsrG-K11530	NA	NA
BMS010_06392	861	garR_3	COG2084	2-hydroxy-3-oxopropionate reductase	ATGGGTGCCCCCATGGCGGGGCGTCTGGCGGAGGCCGGGTTTTCCGTCAAAGCCTGGAACCGCAGCGCTGAAAAAGCTGCGGTTCTGGCGGCAAAAGGCGTGCAGCCGGCGGCCACGGCTGCCGAAGCCGTGGCCGAAGCCGATGTCGTCATCTGCATGTTGAGTTCCGGGCCGGTCTGCGACCAGGTTCTGCTCGGTGCCTCGGGTGTCGTTTCCAACATGAAGCCCGGTGCTATTCTGCTGGTGATGAGTTCCATCCCGGTCGACAGCGCACGGGAACAGGCAGAGGTGGCCAAGGCTTATGGCGTCGCATATGTCGACGCACCGGTTTCCGGCGGTGAAAAGGGAGCGATCGAAGGAACGCTCGCCATCATGGCCGGCGGCGAACAGCAGGATGTGGATGCATTGCGGCCACTCCTCAATTGCCTTGGCTGCGTCACCCATGTCGGGCCGGTGGGCTGCGGCTCATTGGCCAAGCTCGCCAACCAGCTGATCGTCGCCTCGACAATCTGCGCCGTTGCCGAAGCGTTGACGCTGGTTGAAGCGGGGGGAGCCGACCCGGCGCAGGTGCGCCAGGCTTTGCTGGGCGGTTTTGCCGAATCCACCGTTTTCCGCCAGCACGGCAAACGCATGGTGGAAGGCGATTTCCGTCCCGGCGGGCCGGCGAAATATCAGGTGAAGGATACGTCCACGGCGCTGGCCTTCGCCAGAAGCCGGGGCCTCAGACTACCGGTCGGCGAGGAGGTTGACCGGCTGTTCCGCTCCATGGTCGAGCATGGCGCGGGCGAGCTTGATCACAGCGGTGTGATCCTTGAGATTAAGCGCATGAATGCGTTCGGAGGAACGCTTGAAACTGTTTGA	MGAPMAGRLAEAGFSVKAWNRSAEKAAVLAAKGVQPAATAAEAVAEADVVICMLSSGPVCDQVLLGASGVVSNMKPGAILLVMSSIPVDSAREQAEVAKAYGVAYVDAPVSGGEKGAIEGTLAIMAGGEQQDVDALRPLLNCLGCVTHVGPVGCGSLAKLANQLIVASTICAVAEALTLVEAGGADPAQVRQALLGGFAESTVFRQHGKRMVEGDFRPGGPAKYQVKDTSTALAFARSRGLRLPVGEEVDRLFRSMVEHGAGELDHSGVILEIKRMNAFGGTLETV	PGPT0018170_184	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTARATE|GLUCARATE_DEGRADATION,PGPT0018170-garR|glxR-K00042	NA	NA
BMS010_06393	996	yiaO	COG1638	2,3-diketo-L-gulonate-binding periplasmic protein YiaO	ATGAAAATTTCGAAACTTTACGGGCTGGCTCTCGCCGCCACCATGCTGGTCGCATCCATCGCACAGGCGGAAACGCTGACACTTTCGACGCCCGATGCGGATACGTCCGAAATCACGCTTGCCGCCAACAAGTTCGCCGAGATCGTTTCGAAAAAGACCGATGGCAAGCTCAAGATCAAGGTGTTTCCGAACGGCACGCTTTATGGCGGCGACCCTTCAGCGGGTGTCAAGCAGCTGGCCGGCGGTTCGCTGGACATGCTGTTGAACTCGACCTCGCTTTACGCGACCTTCAATCCCAAGTTCACGGCCATCGCCATTCCCTACCAGTTCCGCGATATCGACCAGCTCAGGGTCTATCTCGACAGCGATCTCGGCAAGGAACTTTCCACCGATCTCAGCAAAATCGGCATTCACGGGCTCGATCTCTGGTCGCGGCCGCTGCGCCAGATCACCAATTCCAAGGCGCCGATCAAGTCGCCGGCCGATCTCAAGGGCATGAAGCTGCGGGTGCCGAACAATCCGCTCTGGGTCGAATTCTTCGGCGCCATGGGGGCTGCTCCGACGCCTATGGCCTTTGCCGAAGTCTATAACGCTCTTCAGCTGAAAGTCGTCGACGGGCAGGAAAACCCGGTCAACGTGCCGGTCAGCGCCAAGCTTTACGAAGTGCAGAAATATCTGACGATCAGCAATCACATCGCTGACGCCTGGGTGCTGGGCATGAACCCGGCCCGCTTCGAAGGTCTCGATGAGAACTTCAAGACCGCGCTGAAGGAAGCAGCCACCGAGACCGAGGCCTGGAAGGCGCAGAACGATGCTGCCGATATCGACAAGTCGCTCGAAACGCTGAAGAAGAACGGCATGGAGGTCAACACGCTGACCGATGACGAACGCAAGGCCTTCGTAGAGGTCGCGGCCGGGCTTTCGGCGAAGTTCTCCGCACTGGTGAAAGATCAGGCTTTCTTCGACAAGACGCAGGCTTTCCTCAAGACGAACTGA	MKISKLYGLALAATMLVASIAQAETLTLSTPDADTSEITLAANKFAEIVSKKTDGKLKIKVFPNGTLYGGDPSAGVKQLAGGSLDMLLNSTSLYATFNPKFTAIAIPYQFRDIDQLRVYLDSDLGKELSTDLSKIGIHGLDLWSRPLRQITNSKAPIKSPADLKGMKLRVPNNPLWVEFFGAMGAAPTPMAFAEVYNALQLKVVDGQENPVNVPVSAKLYEVQKYLTISNHIADAWVLGMNPARFEGLDENFKTALKEAATETEAWKAQNDAADIDKSLETLKKNGMEVNTLTDDERKAFVEVAAGLSAKFSALVKDQAFFDKTQAFLKTN				NA	NA	NA	NA	NA
BMS010_06394	552			hypothetical protein	ATGAACGATACGAAACCTTCGGTGCTCGGCACCATCGTTAAACTCATCGCCGATGTGGCCGCAGGGGCGGCCTGTGCCGGCATTCTCATCGTCGTTCTTCTTCAGGTCATTGGCCGCCTTGCCGGCAGCCCGCTTCCCTGGACCGAGGAGGCGACCCGCTTTCTTTTCATCTGGATGGTCTTCCTTGGCCTTGCGGCCGGTTTCCGCACCGTGGAAAGCGCCCGTGTCGTGGTGTTTCTGGTGCTGTTTCACCGCTTCTTCCGGCGGCTGGCGGTGCCGATCTATGTCGGTTCCTCGGTGTTCTTTTTCGGCATGATGGGCTGGACGGGCCTGACCCTGGTGCGCCAGCAGATCATGATGAACGAGACCGCCGCCACCCTGCCGATCCCCATGTGGACCATCGGCATCGTCTTGCCGGTTTCCGCCGTCATCGCCGTGCTGGCCATCATCGAATCGCTGCGCAGCCGCCGGGAGCTTATCGCGCTTCCCGAGCTTGGCCTGCCGGCGGATGAGATCGCCCATGCCGATATTTCCATTTCAGCAGGACATTGA	MNDTKPSVLGTIVKLIADVAAGAACAGILIVVLLQVIGRLAGSPLPWTEEATRFLFIWMVFLGLAAGFRTVESARVVVFLVLFHRFFRRLAVPIYVGSSVFFFGMMGWTGLTLVRQQIMMNETAATLPIPMWTIGIVLPVSAVIAVLAIIESLRSRRELIALPELGLPADEIAHADISISAGH	PGPT0017330_409	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017330-dctQ-K11689	NA	NA
BMS010_06395	1281	siaM_3	COG1593	Sialic acid TRAP transporter large permease protein SiaM	ATGTCGGTCTTTCTTCTCGTCGCCTTTTTCGGTCTCAGCATGCTCGGCGTGCCGCTTGCCATCGCGCTCGCGCTCGCCAGTGTCGGCACGCTGTGGCTCTTCACCTCCATGCCCATGGACCTGCTGTCGCAGACGATGTTCTCGTCGATGAACTCCTTCCTCCTCGTCGCCGTGCCGCTTTTCATCCTCGTCGGCACCGTCATGGAACGAGGGCGGGTGGCGGAGCGCATCTTTGATTTCGCCGAGGCCATGGTCGGCTGGCTTCCCGGCGGGCTCGGCCATGTCAATGTCATCTCGTCGGTCATCTTTTCCGGCGTCTCCGGCTCGTCCGTCGCCGATATCGCCTCGGTCGGCGCCATCGAGATCAAGGCAATGGAGCGCCACGGTTTTCCGAAGGGTTATGCCGTCGGCATGACGCTCTGCACCTCGACGCTCTCCTCGATCATTCCGCCGTCGATCCTGATCGTGATTGCCGGTTCCATCGCTAATGTGTCGATCGGCACGCTGCTGATCGCGGGTCTGGTGCCCGGCCTCTTCATCGCCTTCGCCTTCCTCGTCTTCAACCACTTCTATTCGGTGCATTACGGTTACAATCCGCCGACACCGTTCAATTTCCGTCTGGTGGTCGTCACCGGTCTGCGCGCAATCCTGCCGATGCTGACACCGCTGATCCTGATCATCGGCATTGCCAGCGGCCTGTTCACGCCAACGGAGGCCGCTGCCATCGCGGTGGTTTATGTCGCAGTGCTCGGCGTCATCGTCTATCGCACGCTGCCGGTGCGCGAACTGCCGGAAATATTGATCTCAACGGCGCGCATTTCCGGCACGATCCTGTTCATCGCCGCTACCTCGCAGCTCGCCGCCTGGGTCTTCACCTTCGATGGCCTGCCGGAGCAGGTCGCCGATCTCCTGAAGGCCATGAACCTCGGCCCGATGACCGGCATGCTCGTCATCTTTGTGTTCCTGCTCATCATCGGCATCTTCATGGAAGCGATCCCGGCCATGTTTATCCTCATCCCGGTGCTGATGCCGCCGGTCGAAGCACTGGGCATTGATCCGATCCATTTCCTGATCGTGACTGTCATGACGCTGACGCTCGGGCTGGTGACGCCACCGGTCGGGGTCTGCCTGTTTGCGGCGGCACAGGTGGCGAACATGAAGATCGAGGATGTCATTCGCGGTTCGCTGGCGCCGATGACGGTGCTGACGCTCGCCATCTTCGCGCTGGTGCTGTTCCCGGTGCTGACGCTCGGGCCAATCCGGCTGATGGGGCTTTATTGA	MSVFLLVAFFGLSMLGVPLAIALALASVGTLWLFTSMPMDLLSQTMFSSMNSFLLVAVPLFILVGTVMERGRVAERIFDFAEAMVGWLPGGLGHVNVISSVIFSGVSGSSVADIASVGAIEIKAMERHGFPKGYAVGMTLCTSTLSSIIPPSILIVIAGSIANVSIGTLLIAGLVPGLFIAFAFLVFNHFYSVHYGYNPPTPFNFRLVVVTGLRAILPMLTPLILIIGIASGLFTPTEAAAIAVVYVAVLGVIVYRTLPVRELPEILISTARISGTILFIAATSQLAAWVFTFDGLPEQVADLLKAMNLGPMTGMLVIFVFLLIIGIFMEAIPAMFILIPVLMPPVEALGIDPIHFLIVTVMTLTLGLVTPPVGVCLFAAAQVANMKIEDVIRGSLAPMTVLTLAIFALVLFPVLTLGPIRLMGLY	PGPT0017335_2419	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017335-dctM-K11690	NA	NA
BMS010_06396	897	gcvA_10		Glycine cleavage system transcriptional activator	ATGCAAATCCCGATAAAATCGATCCTCGTTTTCCACGCCGCGGCAAGGGCGGGCAGTATTTCACGGGCGGCGGAGGAACTGAGTGTCACACCTTCGGCCGTTTCCCAGCAGATCCAATTGCTGGAAGGCCAGCTCGGCACGACCCTGATGGCGCGAACCGGCCGCAAGGTGACATTGACGGAAGCGGGCGAGCGCTATTTCTCGATGATCACCGCCCAGATCGAGCAGATATCGGACGCCACAGACAGTATTCGCGGCTTCCGTTCAGTCACCACGCTGACGATCCGTGCGACGCCGACCATATCCAACAAATGGCTGCTGCCGCGTCTCGGCTCGTTTCTGGAGGAACACCCGGAACTTGAAGTGCGCCTCGACGGCACCAACGAGCCGACAGATTTTTCGCAGGAACTTGTCGATATAGAGCTGCGCCATGGCGATGGCCGCTGGCCGGGCCTCTTCGTGGAAGGGCTGGTGGAGGAGGAATTCCTGCCGGTCTGTTCGCCGAATTATAAGGGTGCGGGTAAATTTCTGCCCGAGGAATTGCAGAACCAGCGGCTGATCCATTCGGTGAAGGCGCAGGCGCAATGGAACCACTGGTTCCCTCTGGCCGGCGTGACAGCCGAAAAGCGCTGGCGGCGGGTGCTGTTCGACCGCAGCCACATGGCCATCGATGCCGCCGTTCTCGGCATTGGCGTGGCGCTGGAAAGCACCTTGATGATGGAGCGGGAGCTTCAGGACAAAATGCTGGTGCCGGCCGTGACGGACGCGCCGCGCATCAAGCTCGTCACCCAATGGATCGTCTGCCCGCATTCCCATCTGCGGCAGAGAAAAGTCATGCTTTTTCTGGAGTGGATGCGAAAACAACGCGACGAGTGGCAAGCCCGTCGCGTTGTCTGA	MQIPIKSILVFHAAARAGSISRAAEELSVTPSAVSQQIQLLEGQLGTTLMARTGRKVTLTEAGERYFSMITAQIEQISDATDSIRGFRSVTTLTIRATPTISNKWLLPRLGSFLEEHPELEVRLDGTNEPTDFSQELVDIELRHGDGRWPGLFVEGLVEEEFLPVCSPNYKGAGKFLPEELQNQRLIHSVKAQAQWNHWFPLAGVTAEKRWRRVLFDRSHMAIDAAVLGIGVALESTLMMERELQDKMLVPAVTDAPRIKLVTQWIVCPHSHLRQRKVMLFLEWMRKQRDEWQARRVV	PGPT0026360_5201	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
BMS010_06397	1209	fsr_2		Fosmidomycin resistance protein	ATGGCCACTGTCACCAGCGCCAGCACCAGCACCGGGTTCAACCCGCAACGCAGGGCGTTTTCAATCATCGCAGCAGCCAGCTTCTGCCACATGCTGAACGACATCATGCAATCGCTGCTGACGTCGCTTTACCCGCTGCTGAAAGCCAATTACGCGCTCGATTTCGTGCAGATCGGCCTGCTTACCTTCGCTTTTCAGGTCACCGCCTCGCTGCTGCAGCCCGTTGTCGGCATGGTGACGGATCGCTGGCCGATGCCGTTCTCCCTGCCCGTCGCCATGCTGTCCACCTGCGCCGGCCTCATCACGCTTGCTTTTGCCCATAGTTTCGAGGTTCTGGTGATCGGCGCCTGCCTCATCGGCATCGGTTCGGCGATCTTCCATCCGGAAGCTTCCCGCGTCGCGCGCCTCGCATCCGGCGGCCGCCATGGTCTGGCCCAGTCATTCTTCCAGGTGGGCGGCAATACCGGCACGGCCATCGGCCCGCTGCTCGCCGCCTTTATCGTCATCCCGCTCGGTCAGACGAGCCTCAGCTGGTTCTCGCTGATCGCGCTCGTCGGTTTTGGCGTGCTTTCCTGGGTTGGCGTCTGGTACACCCGCCACCGCCGCGCAACCGTTGGCAAGGCGCCGGCCAGCCGCACGCTTCCCCTTGCCCGTGGCACGGTGATCATGACGCTTCTGGTGCTGGTGGTTCTGACCGCTACCAAGAATGCCTATCTCGCCAGCCTGTCCAGCTACTTCACCTTCTACACCATCGACAAGTTCGGTCTTGGTGTTCAGGACGCACAGGTTCTGCTGTTCCTCTTCCTCGGCGCTTCGGCACTGGGCGTGTTCTTCGGCGGCCCGATCGGCGACCGCTTCGGCTCGCGCGTCGTCATCTGGTTCTCGATCCTCGGCGTCATTCCCTTCGCGCTGCTGCTGCCCTATGCGAACCTGTTCTGGACAGCCATTCTCGTCGTCGTCATCGGCTTCGTGTTCTCCTCCGCCTTCTCGGCCATCGTCGTGTTCGCGCAGGAACTGGTGCCGGGCCGCGTCGGCCTCATCGCCGGCATGTTCTTCGGTTTCGCCTTCGGTTTCGGCGGCATCGGGGCGGCAGTTCTGGGCGTTTATGCGGATAAGGAAGGCATCGAATTCGTCTACCGCATCTGCTCCTACATGCCGCTGCTCGGCCTGCTCACGGTGTTCCTGCCCAAACTGCCGAGCCACCGTTAA	MATVTSASTSTGFNPQRRAFSIIAAASFCHMLNDIMQSLLTSLYPLLKANYALDFVQIGLLTFAFQVTASLLQPVVGMVTDRWPMPFSLPVAMLSTCAGLITLAFAHSFEVLVIGACLIGIGSAIFHPEASRVARLASGGRHGLAQSFFQVGGNTGTAIGPLLAAFIVIPLGQTSLSWFSLIALVGFGVLSWVGVWYTRHRRATVGKAPASRTLPLARGTVIMTLLVLVVLTATKNAYLASLSSYFTFYTIDKFGLGVQDAQVLLFLFLGASALGVFFGGPIGDRFGSRVVIWFSILGVIPFALLLPYANLFWTAILVVVIGFVFSSAFSAIVVFAQELVPGRVGLIAGMFFGFAFGFGGIGAAVLGVYADKEGIEFVYRICSYMPLLGLLTVFLPKLPSHR				NA	NA	NA	NA	NA
BMS010_06398	846			hypothetical protein	ATGGCAAAAAACAATTCCATGATCTTCGGCTCCTTTTCTGCCGAAGACCACAACTACATGCTGAATTTGATCGATGGCACCAACGAGCCGGTGCTGGCGATTTCCCGCACCTATGCCAAGGGACATCGCGCACCGGTCCACAGCCATCTGCGGGCGCAGATCTGGCATGCCCGCCGGGGCGTGGTTCTGGTCAGCACCGCCGATGGTCGCTGGATGATACCGCCCGGCCATGGGCTGATCATTCCCGCCGGCCTGGAACACGAGTCGGAAACAATATCGACGGTGGAAATGCAATCGATCTATGTGCATCCTGACCTGTTTCAGGCGGAAGTGCCGCGGGTGGTGGAAATCACCGATCTCGCCTCAAGCCTGATTGCCGAATTGCTGGGCGAGGAGCATGAGCCACCCGCTTTCCATCGGCGCGGTCTGGTGCGGGCGCTGTTGCTGGACGAGATCAACCGTCTGCCGGACCGACCGCTCGGATTGCCTTTTCCCGATAACGAGCGGCTGGCGGCGCTGTGCCGCGATTTCCTGAAAAAGCCGGTGGCGCGGGTGGAGATCGATGACTGGGCGGCGGCCATGGGCATCAGCCGGCGCTCGTTTACGCGGCTGTTCCGCAAGGAATTGGGGTTGAGTTTCGTCACCTGGCGCCAGCAGGCCTGTATCTTCGCCTCCCTGCCGAGGCTGGCAGCCGGCGAGGCGGTGACGAATGTGGCGCTGGATGCCGGTTATGAAAACATCCCGGCTTTCACCACCATGTTCCGGCGAATGCTGGGCAGTTCACCAAGGGCCTATCGGCAGGCGGCGCGGCAGCGCAGCGCCGCTTTCGCCGATAATGAAGACTAA	MAKNNSMIFGSFSAEDHNYMLNLIDGTNEPVLAISRTYAKGHRAPVHSHLRAQIWHARRGVVLVSTADGRWMIPPGHGLIIPAGLEHESETISTVEMQSIYVHPDLFQAEVPRVVEITDLASSLIAELLGEEHEPPAFHRRGLVRALLLDEINRLPDRPLGLPFPDNERLAALCRDFLKKPVARVEIDDWAAAMGISRRSFTRLFRKELGLSFVTWRQQACIFASLPRLAAGEAVTNVALDAGYENIPAFTTMFRRMLGSSPRAYRQAARQRSAAFADNED				NA	NA	NA	NA	NA
BMS010_06399	891	melR		Melibiose operon regulatory protein	TTGGCGGAAAGTAAGATTGCCGAAAGAGCCTTCTACCAGCCGGGTGCGAGCAGCATCGAAGGCATGCCGACAACGCTTCAGCTTTTTCACAATCATCCGCCCATCATGCTCAGGCCCCACTGGCACGCGCAGGTGGAAGTGAATTACGTCATGTCGGGGTCGGTGCATTACCGCATGGGCGATCACGACCTGACGCTCAACGCCGGCCAGATGTGCATCTTCTGGGGCGGCCAGCCGCACCAGATGGACCACTCCTCCGACGATTCCTTTTATGCAGGCGCGCACCTGCCGCTCGTGCATTTCTTCCGAATGCGCCTGCCGGCCGCCGTCTCCAGCCAGTTGATGGGCGGTGCGACGATGGTGAGTGCCGAGACGGACAGGGCGGATGCAGAAAATTTCGGCCGCTGGTTCCGCTACGTCACCTCGGGCGATCCGGCAAAAGCCCAGCACGCGGTCGAGGAACTGCTGCTTCGGGTCGAGCGGATGTTTCTGGAGCCTTACTCCGTCATATCCTCGGCGCTCGATGGAAAACGCAGACAGGATGAGGAGGGCATGGCGCCCTCCATCAGCGTGGTGCGCATGTGCGACTTCATCGCCGCTAATTTTCTCGACGATATCGACGCGACGGAAATCGCCCGCGCCGCCTCGCTGCACCCGAAATATGCGATGAACCTGTTCCGCAAATCCACCGGCATGACGCTGATCAAATATCTGACCCTGCTCCGGCTCTCCCGCGCGCAGGCGATGCTGATGACCGGCAAAGACAATATCCTGCAGATCGCCATGGAAAGCGGCTTCGGCTCGGTCAGCGCCTTCAACAAGGCGTTTCGCCAGATCGCCGGCATGTCGCCTTCCGATTTCCGCCGCGACATGCGGGCGACGGCGGCTTAG	MAESKIAERAFYQPGASSIEGMPTTLQLFHNHPPIMLRPHWHAQVEVNYVMSGSVHYRMGDHDLTLNAGQMCIFWGGQPHQMDHSSDDSFYAGAHLPLVHFFRMRLPAAVSSQLMGGATMVSAETDRADAENFGRWFRYVTSGDPAKAQHAVEELLLRVERMFLEPYSVISSALDGKRRQDEEGMAPSISVVRMCDFIAANFLDDIDATEIARAASLHPKYAMNLFRKSTGMTLIKYLTLLRLSRAQAMLMTGKDNILQIAMESGFGSVSAFNKAFRQIAGMSPSDFRRDMRATAA				NA	NA	NA	NA	NA
BMS010_06400	1272	lacE		Lactose-binding protein	ATGTGCTTGAAATTTCTTGGCGCGTCTACGGCCATGCTGCTTCTCGCAGCCCCGGCTTTCGCGCAAACCGAGACCGTTACCATCTGGAGCTGGAATGTCGCGGCTTCCGCGCTGAAATCCACGGTCGAAGGCTTCAACAAGCAAAATCCGGATATCAAGATCGTCGTTGAAGACCTTGGAAACAATCAGGTTTTTGACAAGACGCTGGCTGCCTGCGCAGCCGGGGGCGATGGTCTTCCTGATATCGTCACCATTGAAAATTTCGAGGCGGAACTGTTCTGGAGCCGTTTTCCCGATTGTTTCGCCAATCTGACCGAGCTTGGCTATACGCCTGAGAAACAGGCGCTTTTCCCTGATTTCAAGCGCACGGAACTGCAGGTTGACGGCGTCGCCTATGCGGTGCCGTGGGATTCCGGTCCGGTGGCGGTATTTTATCGCCGCGACTTCTATGAGAAGGCAGGCGTCGATCCGGCCACCATCAAAAGCTGGGATGATTTCATCGCCGCCGGCAAGAAGGTCATGGCCGCCAATCCCGGCACCGTCATGGCGCAGGCCGATTTCAATGGCGATAGCGAATGGTTTCGCATGATCGCCAATGAGCAGGGATGCGGTTACTTTTCGACCGATGGCCAGAACATCACCATCAACCAGCCCGCCTGTGTCGCGACCCTTGAAAAGGTCAAGGAAATGAAAGACGCCGGCATCATCACGGCGGCGATCTGGGATGAGAAAATCCAGGCCAATACCGCCGGCAAGGCCGCCAGCCAGATGTATGGCGCCTGGTATGAAGGCACGGTTCGTTCCGGCTCTCCTGATCTTTCCGGCAAATGGGGCGTCTATCTGATGCCGAGCCTGACGTCGGATGGCCCTCACGCCGCCAACCTCGGCGGTTCGTCGCTGGCGATCAGCTCGACCTCGGAACACAAGGAGGCCGCGTGGAAATATATCGATTACGCGCTCACCACCAATGAAGGTCAGGTGACGATGCTGAAATCCTTCGGCCTCGTTCCTTCGCTGCTGTCCGCCATCGACGATCCTTTCGTCAAGGAAAAGCAGCCCTATTGGGGCGGACAGGCGGTGTGGACCGATATTCTCGCCACCCTGCCGAAGATCGTGCCGAGCCGCGGCACGGCGTTCCAGTCGGATGCGGATGCGATCTACAAGGCGACGCAGACGAAATATTTCGCGGGCGGTTATCCCGACGCGAAAGCGGCGCTCGACGATGCCGCCAAGCAGATCGAAACGGCGACAGGCCTGCCGGTGGCGGAGTAA	MCLKFLGASTAMLLLAAPAFAQTETVTIWSWNVAASALKSTVEGFNKQNPDIKIVVEDLGNNQVFDKTLAACAAGGDGLPDIVTIENFEAELFWSRFPDCFANLTELGYTPEKQALFPDFKRTELQVDGVAYAVPWDSGPVAVFYRRDFYEKAGVDPATIKSWDDFIAAGKKVMAANPGTVMAQADFNGDSEWFRMIANEQGCGYFSTDGQNITINQPACVATLEKVKEMKDAGIITAAIWDEKIQANTAGKAASQMYGAWYEGTVRSGSPDLSGKWGVYLMPSLTSDGPHAANLGGSSLAISSTSEHKEAAWKYIDYALTTNEGQVTMLKSFGLVPSLLSAIDDPFVKEKQPYWGGQAVWTDILATLPKIVPSRGTAFQSDADAIYKATQTKYFAGGYPDAKAALDDAAKQIETATGLPVAE	PGPT0016360_271	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_LACTOSE|ARABINOSE_TRANSPORT,PGPT0016360-lacE|araN-K10188	NA	NA
BMS010_06401	861	lacF_5		Lactose transport system permease protein LacF	ATGCCGTCTAGGAACAGGATCGCTTATGCGTTCCTTGCGCCCTATCTCCTGATTTTCGCCACCTTCTGGGTCTGGCCGATCATCAGCTCGTTCATGCTGTCGTTCCAGAATACCCGCATCAACCCATGGCGGTTTGCGCCCTCCATGAACTGGGGGCGGCTCGTTTCCGATCCGGCTTTTTATAATGCGCTCTATAATACGCTGATCATTCTGGTCATTCAGGTGCCCGTGATGATCGCGCTCGCCACCGTCATGGCGGTGCTGCTGAACTCGCCGCTCCTGAAGGCGCGGCCGCTTTATCGATTTGCCTTTTTTGCGCCTGTCGTCGTTGGCGAGGTGGCCTATGCGGCTGTCTTCCGGCTGATGTTCAGCGCCGATTTCGGCATCATCAACAAGCTCATCACGTCAGTTGGCCTTTCGCCCGTCTCGTGGTTCGACAATGCCAATGCGGCCATGGCACTGGTCATCATCGCGGTTACCTGGCGCTGGGCGGGATATAACGCCATCATCATTCTGGCCGGGCTGCAATCGATCCCCGGCGATGTCTATGAGGCGGCGACGCTGGACAAGGTCAGCAAGCGTCAGCAGTTCTTTTATATCACCCTGCCGTTGCTTAAACCCATCATCCTGTTCTGCGTCGTGCTGTCGGTCATCGGCACCATGCAGCTGTTTGCCGAACCCTTCCTCATCACCAACAGGGGCGGGCCGGGCGGCGGCACGGAGACGCTGGGGCTGTTCCTCTATCGCCAGGGCTTCACTTCGCTCAATTTCGGTTATGCCTCGGCCATTGCCTACACCATGGCGGCGCTCGCCATCGCCATTTCGCTGCTTAATCTCTGGGTCGGGAGGGAGCCGAAATGA	MPSRNRIAYAFLAPYLLIFATFWVWPIISSFMLSFQNTRINPWRFAPSMNWGRLVSDPAFYNALYNTLIILVIQVPVMIALATVMAVLLNSPLLKARPLYRFAFFAPVVVGEVAYAAVFRLMFSADFGIINKLITSVGLSPVSWFDNANAAMALVIIAVTWRWAGYNAIIILAGLQSIPGDVYEAATLDKVSKRQQFFYITLPLLKPIILFCVVLSVIGTMQLFAEPFLITNRGGPGGGTETLGLFLYRQGFTSLNFGYASAIAYTMAALAIAISLLNLWVGREPK	PGPT0016365_242	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_LACTOSE|ARABINOSE_TRANSPORT,PGPT0016365-lacF|araP-K10189	NA	NA
BMS010_06402	837	araQ_3	COG0395	L-arabinose transport system permease protein AraQ	ATGAGATCGAAATCGAGATCGCTTTTCTGGCAGAAGATCGCGCTGCATGCGGCGCTGACGCCGCTTGCCATCATCTGGCTGTTTCCGCTGTGGATGATGTTCGTGTTCTCGACCATGCCGGATTACGGCATCTTCAGCCCGGATATAGTACTGGTGCCGTCCACCAATTTCATCGAGAATTTCAACAACCTGCAGGCGGACACCAATTTCCTGCGTGCCATGTTCATCTCGATCACCGTCGCCGTCATTTATACCGTGCTTTCGGTGTTCCTGACATCGATGGCCGGCTGGGCGCTGGCGCGGTATCGTTTCGCTGGACGCCGGGTGGTGATCGCCATCATTCTCGGCACCATCACCCTCCCATTTGCCGTCGTCGTCATTCCACAATTCATCATGGTGGCGCGGGAGTTCAAGCTCGCCAATACCTGGGTGGCGCTGATCGTGCCGCCGCTCTTCAACTCGCTTGGCGTACTGTTCATGCGGCAATCCTTCTCGATGATGCCGACGGAACTTTTCGACGCGGCACGGGTGGAAGGCGTGAAGGAATGGCAGATCTTCCTGCGCATCGCTTTGCCGCTGGCGCGGCCCACCATGGCGGCGCTCTCCATCATCCTGTTTCTGGCCTCGTGGAACAATTACCTCTGGCCGCTCCTCATCAATTCCCGCCCAGGAATGATGACCGCACCCGTGGCGCTTGGCACCCTCATCGGGCTGACCAAAGTGTCATGGGGCGGCATCATGGCCGGCGCGGTGCTGCTCACCGCACCCATTCTCGTGGTTTTCGTGGCGTTGCAGCGTCACTTCATCGCCGGCATTTCCGCCGGGGCAGTCAAGTAA	MRSKSRSLFWQKIALHAALTPLAIIWLFPLWMMFVFSTMPDYGIFSPDIVLVPSTNFIENFNNLQADTNFLRAMFISITVAVIYTVLSVFLTSMAGWALARYRFAGRRVVIAIILGTITLPFAVVVIPQFIMVAREFKLANTWVALIVPPLFNSLGVLFMRQSFSMMPTELFDAARVEGVKEWQIFLRIALPLARPTMAALSIILFLASWNNYLWPLLINSRPGMMTAPVALGTLIGLTKVSWGGIMAGAVLLTAPILVVFVALQRHFIAGISAGAVK	PGPT0016370_85	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_LACTOSE|ARABINOSE_TRANSPORT,PGPT0016370-lacG|araQ-K10190	NA	NA
BMS010_06403	1086	malK_6		Maltose/maltodextrin import ATP-binding protein MalK	ATGGCGGAACTTTCGCTCAACAACGTGGTCAAGCGTTATGGCGCGCTGGAAGTGATCCATGGCGCAAATCTGGAGGTAAAGGACGGGGAATTTGTCGTTTTCGTCGGCCCCTCCGGATGCGGCAAATCCACGCTTCTCCGCATGATCGCCGGGCTGGAGGATATTTCCGGTGGGGATATCGTGATCGGCGGCAGGACGGTGAGTGATGCCGACCCGGCCGATCGCGGCATTGCCATGGTGTTCCAGTCCTATGCGCTTTATCCGCATATGACGGTTGCCGAAAACCTCTCCTTCGGCCTCCGGATGAACGGCAACCCGAAGGCCGATACGCAAAAGCGGGTCAACCGCGCCGCCGAAATTCTGCAGATCAACGAATTGATGCAGCGCCGGCCGAAACAGCTTTCCGGCGGCCAGCGCCAGCGCGTCGCCATCGGCCGCGCCATCGTGCGCGAACCGCAGGTCTTCCTGTTCGACGAGCCGCTGTCCAATCTCGATGCGGAATTGCGGGTGCAGATGCGCGTGGAAATCTCGCGGCTGCACAAGCAGCTCGGCACCACGATGATCTATGTGACGCATGACCAGACCGAGGCGATGACGCTCGCCGACAAGATCGTCGTGCTGCGGGCGGGCAATATCGAGCAGGTCGGCGCGCCGCTCGATCTCTATGACGATCCCGCCAACCGCTTCGTTGCCGGTTTCGTCGGCTCGCCGAAGATGAACTTTCTCGACGCCACCATCATCGGCAGCGGCGCCGACAGCGTCACGCTCGCTCTCGACAGCGATCCTGCGGTGCGGCTGACGTTGCCGATAAAGGAAGGCGTCAACGAGGGGGCCAAGGTCTCGCTTGGCATCCGGCCGGAGCATTTTGCCGATGCGGGCGGGGGCGATGCCGATCTCACCGTTCATGTCGATGTCGCCGAACATCTCGGTAATACCAGCTATGTCTATGCCCGAACCGAAGGCGGCGAGCAGCTCATCATCGAGCGGCCGGAGTCGCGCGATGTGGGCAATCGTGACCGGCTGACGGTCGGCCTTTCCGCCCGCCGCGCTTTCCTTTTCGACAGCAAGGGCGAACGCCTGCGCTGA	MAELSLNNVVKRYGALEVIHGANLEVKDGEFVVFVGPSGCGKSTLLRMIAGLEDISGGDIVIGGRTVSDADPADRGIAMVFQSYALYPHMTVAENLSFGLRMNGNPKADTQKRVNRAAEILQINELMQRRPKQLSGGQRQRVAIGRAIVREPQVFLFDEPLSNLDAELRVQMRVEISRLHKQLGTTMIYVTHDQTEAMTLADKIVVLRAGNIEQVGAPLDLYDDPANRFVAGFVGSPKMNFLDATIIGSGADSVTLALDSDPAVRLTLPIKEGVNEGAKVSLGIRPEHFADAGGGDADLTVHVDVAEHLGNTSYVYARTEGGEQLIIERPESRDVGNRDRLTVGLSARRAFLFDSKGERLR	PGPT0016375_38	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_LACTOSE|ARABINOSE_TRANSPORT,PGPT0016375-lacK-K10191	NA	NA
BMS010_06404	2004	iolG_5		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGACGACCGAACAACCGATCCGCTGGGGCATCATCGGCCCGGGCACCATCGCCAGAACCTTTGCCGATGGCATTGCCCATTCCCGCACCGGCAGGTTAGAGGCCATCGCCACCCGCAACCCGGACAAGCCGGGCCTTGCCGAAGCTTTTGCCGGTGCGCGCATTATCGAGGGTTACAATGCCCTGCTTGCCGATCCCGATATCGATGCCGTTTATATCGCCACACCCCATACCGGCCATGCCGAATGGGCAATCAAGGCAATCCGGGCGGGTAAAAACGTGCTGGTGGAAAAGCCCATCGCGCTTTCCGCCTATGATGCCGACGCCATTTTCCACGAGGCGAAAAAGGCCGGTGTCTTCGCGGGCGAAGCCTATATGTATCGCCTGCACCCGCAGACGTCGAAATTGCTGGAACTGGTGAAAGCCCGGGCGGTGGGCGATATCCGCATCATCCGCTCCAGCTTCGGTTTCAACATGGGCTCGTTCCGGGCCGATCACCGGCTGTTCGCCAATGAAACGGCGGGCGGCGGCATTCTCGATGTCGGCGGTTATCCGGTTTCCATGGTGCGGATGATTGCCGGTGCCGTGGATGGCAAACCCTTTGCCGAGCCGGAAAAGGTCTCGGGTGCGGCGCATCTCGGCCAGTCGGGCGTTGATGAATGGGCCTCCGCTGTGCTGAAATTCGCAAACGGTATCGTCGCCGAAGTCTCGTGCTCGATTATGGCGGCGCAGGACAATGTGCTGCGCATCATCGGCTCGGAAGGGCGCATCGAGGTCAAGGATTTCTGGTTTGCCGCCGGCCACAAGGGTGGCACCGGCCGGATCGATATCATCAGGGGCGACAAGGTCGAAACCATCGAGTTGCCGGAGGATCGCTGGCTTTATTCCTTCGAGGTCGACGCGGCCGGCGAGGCGATCCGGCAGGGAAAAAAGGAATTCGATGCACCCGGCATGGCCTGGGCGGACAGCCTCGGCAATCTGCGTGTCATGGATCAATGGCGGGCTTCCGTCGGGCTCGAATACAGCATTGAAAAAGCAACGTTGCGCGTTGCCAATATTGCCGGCGGCAAGGTCGTGGCCGGAAACGCAGTGCCGAAGCGGCAGATTCCGGGCCTTGCCAAACCCGCTTCCGTGGTCGCGCTCGGTTTCGAATTCTTCCCCAATTTCGCTTCTGCATCCCTGACGCTGGATGCCTTTTACGAGGCGGGCGGCAATCTCTTCGATACGGCCTATGTTTATGGCGCAGGCAGGACGGAGACGATTTTCGGCGACTGGCACACCAGCCGCAACGTGCCGCGTGAAGAGATCGTGCTGATCGGCAAGGGTGCACATTCGCCGCTCTGCTATCCTGACATGATCGGAAAGCAGCTCGATCAGTCGCTCGCGCGGCTGAAGACGGATTATGTCGATGCCTATTTCATGCATCGTGATAATCTGGAGGTTCCGGTCGGCGAGTTCGTCGATGCCATGGATGCCGAAGTCCGGCGCGGACGCATTCGCGGCATTTTCGGCGGCTCGAACTGGACGCGCGAGCGCATGGACGAGGCGGCCGCCTATGCTGCGAAGAACGGCAAGCAGGCTCCGGCCGCGCTTTCCAACAATTTCTCGCTTGCCGAAATGCTCGATCCCATCTGGGCAGGCTGCGTTGCGGCATCAGACGACGAGTGGAAGGCATGGCTGCAATCGCGCCAGATCCCGAATTTCGCCTGGTCCAGCCAGGGGCGTGGTTTCTTCACTGACCGCGCAGGGCGGGACAAGCACGATGACGAGGAAATCGTCCGCGTCTGGTATTCCGACCGCAATTTCGTCCGTCGCGACCGGGCGATAGAGCTCGCGCAGAAACTCGGCCGCCACCCGATCCATATTGCGCTCGCTTATGTCATCGCCCAGCCTTTCCCGGTCATTCCGCTGATCGGGCCGCGCACGATTGCGGAGCTGGAAGACAGTCTTTCGGCGCTGGATATCAAACTGACGGCCGAGCAGGTGAAGTGGCTGGAGGCGTGA	MTTEQPIRWGIIGPGTIARTFADGIAHSRTGRLEAIATRNPDKPGLAEAFAGARIIEGYNALLADPDIDAVYIATPHTGHAEWAIKAIRAGKNVLVEKPIALSAYDADAIFHEAKKAGVFAGEAYMYRLHPQTSKLLELVKARAVGDIRIIRSSFGFNMGSFRADHRLFANETAGGGILDVGGYPVSMVRMIAGAVDGKPFAEPEKVSGAAHLGQSGVDEWASAVLKFANGIVAEVSCSIMAAQDNVLRIIGSEGRIEVKDFWFAAGHKGGTGRIDIIRGDKVETIELPEDRWLYSFEVDAAGEAIRQGKKEFDAPGMAWADSLGNLRVMDQWRASVGLEYSIEKATLRVANIAGGKVVAGNAVPKRQIPGLAKPASVVALGFEFFPNFASASLTLDAFYEAGGNLFDTAYVYGAGRTETIFGDWHTSRNVPREEIVLIGKGAHSPLCYPDMIGKQLDQSLARLKTDYVDAYFMHRDNLEVPVGEFVDAMDAEVRRGRIRGIFGGSNWTRERMDEAAAYAAKNGKQAPAALSNNFSLAEMLDPIWAGCVAASDDEWKAWLQSRQIPNFAWSSQGRGFFTDRAGRDKHDDEEIVRVWYSDRNFVRRDRAIELAQKLGRHPIHIALAYVIAQPFPVIPLIGPRTIAELEDSLSALDIKLTAEQVKWLEA				NA	NA	NA	NA	NA
BMS010_06405	1233			Methionine aminopeptidase 1, mitochondrial	ATGAGCGATATCGACCGAAGCCGTGCCCAGCAACTGATGCGGGAAGCGGATATTGAGGCGCTGGTGCTTTTCCAGCCCGAAGCCTTCCGTTATGCAGTCGGCGCCCATGCCGGTGTCGCGACCATGTGGGGCAGGGCGGGTTCGGCAATTGCGCTGGTGCCGGCCGATGCCGATGCGCGGCTTGCGGCCATCGTCAGCGATCATGCCGCCCCGCTTGTCAGAAGGGCCGCGCCGGATATCGATCTGCGCTGCCATCGCATCTGGATCGATTTGGTCGATCTGTCGGGCGCCGAAACCATCGCGCAGGTGGACGATGCCTATCGCCGCAACAATTCCGGTGGCCCTAGGCCGGAAACATTCGACCGCGCTGCCTGTTTCGGCCTGCTGGCTGACCTGCTGCGGGAGCGCGGGCTGTCGGCGGCGCGCATTGGCGCAGACCTCGAGTTCATGCCCGCCGCGGATTTTCTGGCGCTGCATCAGGCGCTGCCCGATGTCGATTGGGTTGACGGATCGGCCGTGCTGCGCCGCCTGCGCGCCGTGAAATCCGAGCGTGAGATCGAGCTTCTGAGGCGTGCGGCGACTGCTGCGGAGGCCGGGCTGGTCGCGATGGCCGCTGCCGTCAGGCCTGGCGCGGCGCTCGGCGGGCTTTCCGCCGCCTGGAAGGCCGGCGCGCAGGCCCATGCCGCGAAATCCGGGTTTTCGCTGAGTGGACATTGGGATTACATATCCGTCGGACCCGCTTTGTCGGATATGGCGGCGGTTGTCACGCCGGGTGCGCTTATCAAGGCCGATGTCGGCACGCTGGTCGATGGTTATTCATCGGATGGCGCGCGGAGTTTTTCGTGGGGGCCGGTCCCGCCGCTGGCCGCCGATATTTTCAGCGCGCTGGAAGCGGCCTTTGCCTGCGGGCTGGAAGCGCTTCGTCCGGGCAATACATTCGGTGCTGTGCACGCCGCCATGCTGGCCTCGATGCGCAGGCAAGGTTTCAGCGAATATTATCGCGGCCATTTCGGCCATTCCGTCGGCGGTGGCGTGGGTATCGAGGAATGGCCGTTCTTTTCCCATGACAATCCGGAAATCATTCTTCCCGGCATGGTCGTCGCGCTCGAAGCGCCGTTTTATGGCGAAGGGCTGGGCGCGCTGATGATCGAGGACCAGTTCCTCGTCACCTGCTCCGGCGCGGAATGCATGAACAGCCTGCCGCGCACCCTGCGGGATTTATCGGCGGACTGA	MSDIDRSRAQQLMREADIEALVLFQPEAFRYAVGAHAGVATMWGRAGSAIALVPADADARLAAIVSDHAAPLVRRAAPDIDLRCHRIWIDLVDLSGAETIAQVDDAYRRNNSGGPRPETFDRAACFGLLADLLRERGLSAARIGADLEFMPAADFLALHQALPDVDWVDGSAVLRRLRAVKSEREIELLRRAATAAEAGLVAMAAAVRPGAALGGLSAAWKAGAQAHAAKSGFSLSGHWDYISVGPALSDMAAVVTPGALIKADVGTLVDGYSSDGARSFSWGPVPPLAADIFSALEAAFACGLEALRPGNTFGAVHAAMLASMRRQGFSEYYRGHFGHSVGGGVGIEEWPFFSHDNPEIILPGMVVALEAPFYGEGLGALMIEDQFLVTCSGAECMNSLPRTLRDLSAD	PGPT0006760_853	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0006760-opaA|pepQ-K01271	NA	NA
BMS010_06406	318			hypothetical protein	ATGCAGCAGCTTCCGACCTTCCCCACCGTTTCCCCCGACGATGGCGTGGAGCGCACCGTGCTTTCCGAAGCGCCGGAACTGATGGTGGTATCCTTCCGCTTCAAGACCGGCGCCGAAGGCAGGCTGCACAGCCATCCGCATGTGCAATCCACCTATGTCGCCAGCGGCAGCTTCCGCTTTTACCGCGACGGTGAGGCCTACGACCTTCAGAAGGGCGATAGCCTCGTCATTCCCGGCCATATCGAGCACGGCTGCCTGTGTCTGGAAGAGGGCGAGCTGATCGACTGCTTTACCCCGCGCCGCGACGATTTCCTCTGA	MQQLPTFPTVSPDDGVERTVLSEAPELMVVSFRFKTGAEGRLHSHPHVQSTYVASGSFRFYRDGEAYDLQKGDSLVIPGHIEHGCLCLEEGELIDCFTPRRDDFL				NA	NA	NA	NA	NA
BMS010_06407	687	lldR_5	COG2186	Putative L-lactate dehydrogenase operon regulatory protein	GTGGTGAAGGTTTCGGAGGAACTCCGCAGCCAGATCGCCAAGGGTCGTTACAAGACGGGTGAGCGCCTTCCCTCCGAAGCGCAGATGACGCAGGAATTCGGTGTCAGCCGTACCGTGGTGCGGGAGGCAATCGCCTCGCTGCGATCCGATGGTCTGGTCGAGCCGCGTCAGGGCGCTGGTGTTTTCGTACTGGAACCCGCACCCACTGAGCGGCGCCCCTTCCACAATGTCGATCTTGCGCGCGTCTCGTCGCTGATCGAAATGCTGGAATTGCGCACCGCCGTGGAAGGTGACGCCGCCGGTCTTGCCGCCATTCGCCGCTCGCCGGCGCAGGAGGAAAAGATCATCGAGGCCTTCGATGCCTTCCGCGCCAGCGCCACCAGGGGCGTGCCGACAGCAGAGGCCGATTTCGCCTTCCATCTCGCCATTGCCGAAGCGACCAACAATCCCCGCTTCAGCGAGTTTCTGCAGGTGCTCGGCCCCACCCTCATTCCGCGCCGCGCCGTGGCCGAAAACGGCACGGAAACCGTGCTTTCGCCCGCCGATCTCGCCCGGCTCGTCGGTGAACATGAAGCGATCCTGATCGCGATACAGGACGGCGACGAGGAGGCGGCGCGCAGCGCCATGCGCAGCCACCTGAAAAGCAGCCAGACGCGTTATCGCTCCATGCTGCGCGCGCCGCGCTGA	MVKVSEELRSQIAKGRYKTGERLPSEAQMTQEFGVSRTVVREAIASLRSDGLVEPRQGAGVFVLEPAPTERRPFHNVDLARVSSLIEMLELRTAVEGDAAGLAAIRRSPAQEEKIIEAFDAFRASATRGVPTAEADFAFHLAIAEATNNPRFSEFLQVLGPTLIPRRAVAENGTETVLSPADLARLVGEHEAILIAIQDGDEEAARSAMRSHLKSSQTRYRSMLRAPR				NA	NA	NA	NA	NA
BMS010_06408	798	udh_3	COG0451	Uronate dehydrogenase	ATGAAACGGCTTCTTGTTACCGGTGCTGCGGGCCAGCTTGGCCGCGTTATGCGCAAACGCCTTGCATCGATGGCCGAGACCATTCGCCTTGCCGATCTCGCCCCGCTCGATCCGGCAGGCCCGAACGAGGAATGCATGCAATGCGACCTTGCGGATGCAGACGCCGTGGATGCCATGGTTGCCGGTTGCGACGGCATCGTTCACCTCGGCGGCATATCGGTGGAGAAGCCTTTCGAACAAATCCTTCAGGGCAACATCATCGGGCTTTATAATCTCTACGAGGCCGCCCGCGCCCACGGCCAGCCGCGAATTATTTTCGCCAGTTCCAACCATACGATCGGCTATTATCCCCAGACCGAACGGCTTGGTCCCGATGTTCCCTTCCGCCCGGACGGCCTCTACGGCGTTTCCAAATGTTTCGGCGAAAACCTCGCCCGCCTGTATTTCGAGAAATTCGGCCAGGAGACGGCGCTTGTGCGCATCGGCTCCTGCACGCCGGAACCCAACAATTACCGCATGCTGTCCACCTGGTTTTCTCATGACGATTTCGTGTCGCTGATCGAAGCGGCGTTCCGCGCCCCCGTTCTCGGCTGCCCGGTCGTCTGGGGGGCCTCCGCCAACGATGCAAGCTGGTGGGACAATTCGCATCTCGGCTTTCTGGGATGGAAACCGAAGGACAATGCCGAGACCTTCCGGGAGCACATCGCCCGGACAGTTCCCAAACCGGACCCGAGCGACGCGCTAGTCCGCTTTCAGGGTGGCGTGTTTGTCGACAACCCGATCTTCAAGGAGACGTGA	MKRLLVTGAAGQLGRVMRKRLASMAETIRLADLAPLDPAGPNEECMQCDLADADAVDAMVAGCDGIVHLGGISVEKPFEQILQGNIIGLYNLYEAARAHGQPRIIFASSNHTIGYYPQTERLGPDVPFRPDGLYGVSKCFGENLARLYFEKFGQETALVRIGSCTPEPNNYRMLSTWFSHDDFVSLIEAAFRAPVLGCPVVWGASANDASWWDNSHLGFLGWKPKDNAETFREHIARTVPKPDPSDALVRFQGGVFVDNPIFKET	PGPT0018290_653	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLACTURONATE|GLUCURONATE_DEGRADATION,PGPT0018290-udh-K18981	NA	NA
BMS010_06409	825	kduI		4-deoxy-L-threo-5-hexosulose-uronate ketol-isomerase	ATGCTGACCGTCGAAACAAGGCAGGCCGTGAACCCGGAATATGCAAAAACGCTGGATACCGAAGGGCTCCGCCGGCATTTCCTCGCCAACGACATGTTTCGTTCCGGCGAAATCAGGCTGATCTACACCCATTATGACCGCTTCGTGATGGGCGGCGCGGTGCCGAACGGTGCGCCGCTGACGCTGGACAAGGTGGAAGAGACCAAAACGCCGTCCTTCCTCGACCGGCGCGAGATGGGCATCGTCAATGTGGGCGAGACCGGCACGGTCAGCGCCGGCGGCGAGACCTATACCCTCAATCGCGGCGATGTGCTTTATCTCGGCGCAGGCAGCGGTGCGGTGACCTTTGACGGGGCAGGGCGATTCTACATCACCTCCTGCCCGGCGCATCGCAGCCTGCCGGCGAAGCTCGTGACACTGGCCAATAGCAAGGAGGTCAAGCTCGGCGCGACCGAAACCTCCAACAAGCGCACCATCAACCAGTTCATCCATCCGCTGGTCATGGAAAGCTGCCAGCTGGTGCTGGGGTATACGACGCTGGAGGACGGCTCGGTCTGGAACACCATTCCTTCCCACATTCACGATCGCCGCATGGAGGCCTATCTCTATTTCGGCATGGATGAGAAGTCGCGCGTGCTGCATCTGATGGGTGAGCCGCAGGAAACCCGGCATCTGTTCATTTCGAATGAAGAGGGTGCGATTTCTCCGCCCTGGTCCATCCATTCCGGCGCCGGCATCGGTTCTTACACCTTCATCTGGGCCATGGCGGGAGACAATGTCGATTACACCGACATGGACTTTATCCAGCCGGGGGATCTGAAATGA	MLTVETRQAVNPEYAKTLDTEGLRRHFLANDMFRSGEIRLIYTHYDRFVMGGAVPNGAPLTLDKVEETKTPSFLDRREMGIVNVGETGTVSAGGETYTLNRGDVLYLGAGSGAVTFDGAGRFYITSCPAHRSLPAKLVTLANSKEVKLGATETSNKRTINQFIHPLVMESCQLVLGYTTLEDGSVWNTIPSHIHDRRMEAYLYFGMDEKSRVLHLMGEPQETRHLFISNEEGAISPPWSIHSGAGIGSYTFIWAMAGDNVDYTDMDFIQPGDLK	PGPT0018245_1010	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_OLIGOGALACTURONIDE_DEGRADATION,PGPT0018245-kduI-K01815	NA	NA
BMS010_06410	744	kduD		2-dehydro-3-deoxy-D-gluconate 5-dehydrogenase	ATGAAGAATCCCTTTTCGCTTCAGGGGCGTAAAGCGCTCGTCACCGGCGCGAATACGGGGCTTGGCCAGGCAATTGCGGTGGGGCTCGCTGCTGCCGGGGCGGAGGTGGTCTGCGCCGCCCGCCGCGCGCCGGATGAAACGCTGGAGATGATCGCCAGGGACGGCGGCAAGGCCAGCGCATTGTCTATCGATTTTGCCGATCCGCTGGCGGCGAAGGACAGTTTTGCCGGAGCCGGTTTCGATATTCTCGTCAACAATGCCGGCATTATCCGCCGTGCCGATTCCGTCGAGTTTTCCGAACTCGACTGGGACGAGGTGATGGACGTCAATCTCAAGGCGCTGTTTTTCACTACCCAGGCTTTTGCGAAAGAGTTGCTGGCGAAAGGCAGGTCCGGCAAGGTGGTCAATATCGCTTCGCTCCTCTCCTTTCAGGGCGGCATTCGCGTGCCGTCCTATACGGCGGCGAAACATGGCGTCGCGGGCCTCACCAAGCTTCTGGCGAATGAGTGGGCGGCAAAGGGCATCAATGTGAATGCGATTGCGCCCGGCTACATCGAAACCAACAATACCGAGGCGCTACGCGCGGATGCGGCCCGTAACAAGGCCATTCTCGAACGTATTCCGGCCGGCCGCTGGGGCCATTCAGACGATATAGCCGGGGCGGCGGTTTTCCTTGCCTCGCCGGCGGCGGATTATGTGCATGGCGCCATTCTCAATGTCGACGGCGGCTGGCTGGCGCGCTGA	MKNPFSLQGRKALVTGANTGLGQAIAVGLAAAGAEVVCAARRAPDETLEMIARDGGKASALSIDFADPLAAKDSFAGAGFDILVNNAGIIRRADSVEFSELDWDEVMDVNLKALFFTTQAFAKELLAKGRSGKVVNIASLLSFQGGIRVPSYTAAKHGVAGLTKLLANEWAAKGINVNAIAPGYIETNNTEALRADAARNKAILERIPAGRWGHSDDIAGAAVFLASPAADYVHGAILNVDGGWLAR	PGPT0018065_1444	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_OLIGOGALACTURONIDE_DEGRADATION,PGPT0018065-kduD-K00065	NA	NA
BMS010_06411	912		COG0329	putative 5-dehydro-4-deoxyglucarate dehydratase	ATGAACCCTGAACAAATCAAGGCGGCGCTCGGCTCCGGCCTCTTGTCTTTCCCGGTCACCCATTTCGATGCCGATGGTCGTTTTGCGGCCGATAGCTACAGGGCGCATGTCGAATGGCTTGCCGGTTATAAAGCGCCGGTGCTGTTTGCCGCCGGCGGCACGGGTGAGTTCTTCTCGCTGAAGCCGGACGAAATTCCGACCATCGTTTCCGCCGCCAAGGATGTGGCCGGTGAAACCGCCATCGTTTCCGGCTGCGGTTACGGCACCGAGATTGCCGTTGATATCGCCCGCTCGGTCGAAAAGGTCGGCGCGGACGGCATCCTGCTTCTGCCGCATTATCTCATCGATGCGCCGCAGGAAGGCCTTTACGCCCATATCAAGAAGGTGTGTCAGTCGGTCGGTATCGGCGTCATGGTTTACAACCGCGACAATTCCGTGCTGCAGGCGGATACGCTGGCGCGTCTCTGCGACGAATGCCCGAACCTCGTCGGCTTCAAGGACGGCACCGGCGATATCGGTCTCGTTCGCCAGATCACCGCAAAGATGGGTGATCGCCTGATGTATCTCGGCGGCATGCCGACGGCGGAACTGTTTGCCGAAGCCTATCTCGGCGCCGGTTTCACCACCTATTCCTCGGCTGTCTTCAACTTCGTGCCGGGCCTTGCCAATGAATTCTACGCCGCGCTGCGCGCCGGCGAACGCGCCACCTGCGAGCGTATCCTGACGGAATTCTTCTATCCGTTCATGGCGATCCGCAACCGCGCCAAGGGTTATGCCGTCTCCGCCGTCAAGGCCGGCGTGCGCCTGCAAGGCTTCAACGCCGGTCCGGTGCGTGCGCCGCTGAAGGACCTGACCAATGAGGAAATCGGCATGCTCGACGCCTTGATCGGCACGCACAAGCGCAAAGCCTGA	MNPEQIKAALGSGLLSFPVTHFDADGRFAADSYRAHVEWLAGYKAPVLFAAGGTGEFFSLKPDEIPTIVSAAKDVAGETAIVSGCGYGTEIAVDIARSVEKVGADGILLLPHYLIDAPQEGLYAHIKKVCQSVGIGVMVYNRDNSVLQADTLARLCDECPNLVGFKDGTGDIGLVRQITAKMGDRLMYLGGMPTAELFAEAYLGAGFTTYSSAVFNFVPGLANEFYAALRAGERATCERILTEFFYPFMAIRNRAKGYAVSAVKAGVRLQGFNAGPVRAPLKDLTNEEIGMLDALIGTHKRKA	PGPT0018160_477	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLACTURONATE|GLUCURONATE_DEGRADATION,PGPT0018160-kdgD|ycbC-K01707	NA	NA
BMS010_06412	1137	gci_2	COG4948	D-galactarolactone cycloisomerase	ATGAAGATCACAGCGGTGCGCACGCATCTGCTCGAACACCGGCTGGACACGCCGTTCGAAAGCGCATCCATGCGTTTTGACCGCCGCGCCCATATTCTGGTGGAAATCGAATGCGACGACGGAACCGTCGGCTGGGGCGAATGCCTCGGCCCGGCGCGGCCCAACGCCGCCGTGGTTCAGGCCTATTCCGGCTGGCTCATCGGCCAGGACCCGCGTGAGACCGAGAAGATCTGGGCCGTGCTTTATAATGCCCTGCGCGATCAGGGCCAGCGCGGCCTCAGCCTCACGGCCCTGTCCGGCATCGATATCGCGCTGTGGGACATCAAGGGCAAGCATTATGGCGCTTCCATCTCGATGCTGCTCGGCGGGCGCTGGCGCGAAAGCGTGCGGGCCTATGCCACCGGCAGCTTCAAGCGCGATGGCGTAGACCGCGTTTCCGACAATGCCTCCGAGATGGCGGAGCGTCGGGCGGACGGCTTTCATGCCTGCAAGATCAAGATCGGCTTCGGCATCGAGGAAGACCTCCGCGTCATCGCCGCGGTGCGCGAGGCGATTGGGCCGGATATGCGGCTGATGATCGACGCCAATCACGGCTACACCGTCACCGAAGCCGTCGCGCTCGGCAACCGCGCCGCCGAGTATGGTATCGACTGGTTCGAGGAGCCGGTGGTTCCCGAACAGCTCGATGCCTATGCCCGGGTGCGGGCCGGCCAGCCGATACCGGTTGCGGGCGGCGAGACCTGGCACGGGCGTTATGGCATGTGGCAGGCGCTTTCCGCCGGCGCCGTGGATATTCTCCAGCCCGATCTCTGCGGCTGCGGTGGTTTTTCAGAAACGCAGAAGATCGCGGCGCTCGCCACGCTGCACGGCGTGCGCATCGTGCCGCATGTCTGGGGCACCGGCGTACAGATTGCCGCAGCCCTGCAATTCATGGCGGCGATGACGCCCGATCCGGTGCGCGTCAATCCCATCGAGCCGATCATGGAATTCGACCGCACCTATAATCCGTTCCGGCAGGCCGTGCTGCGCGAGCCGCTAGAGGCGGTAAACGGCGTTGTCGCGATCCCGAACGGCCCCGGCCTCGGAATAGAGATCAACCGCGACGCATTGCTTGAATTCAGGATGCCAGACCCGTGA	MKITAVRTHLLEHRLDTPFESASMRFDRRAHILVEIECDDGTVGWGECLGPARPNAAVVQAYSGWLIGQDPRETEKIWAVLYNALRDQGQRGLSLTALSGIDIALWDIKGKHYGASISMLLGGRWRESVRAYATGSFKRDGVDRVSDNASEMAERRADGFHACKIKIGFGIEEDLRVIAAVREAIGPDMRLMIDANHGYTVTEAVALGNRAAEYGIDWFEEPVVPEQLDAYARVRAGQPIPVAGGETWHGRYGMWQALSAGAVDILQPDLCGCGGFSETQKIAALATLHGVRIVPHVWGTGVQIAAALQFMAAMTPDPVRVNPIEPIMEFDRTYNPFRQAVLREPLEAVNGVVAIPNGPGLGIEINRDALLEFRMPDP	PGPT0018300_221	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLACTURONATE|GLUCURONATE_DEGRADATION,PGPT0018300-gci-K18983	NA	NA
BMS010_06413	879		COG3618	D-galactarolactone isomerase	GTGAGCGAACTTGTCAGAAAACTGAGCGGCACAGCGCCCCGGCCCGCTTTCCCGAAAGGCGCCGTCGATACGCAGATGCATCTCTATCTGCCCCACTATCCCGCCCTGCCTGGTGGACCGGGCCTGCCGCCGGGCGCTCTGCCCGGACCGGAGGATTATCGCAGCCTCATGCAATGGCTCGGCATCGACCGGGTCATCATCACCCAGGGCAACGCCCATCAGCGCGATAACGGCAACACACTCGCCTGTGTCGCGGAAATGGGCGAGGCGGCCCGCGCGGTGGTCATCATCGATGCGGGAACGACCGAAAAGGACATGGAAAAGCTTGCCGCCTCAGGGGCCGTCGGTGCGCGTATCATGGATCTGCCGGGTGGTGCGGTGAATCTTTCCGAGCTGGAAGCCGTGGACGAGCGCGCGCACGCGGCCGACTGGATGGTGGCGGTGCAATTCGACGGCAATACGCTGCTCGATCACCTGCCGCGCCTTCAGAACATCCGCTCGCGCTGGGTGTTCGATCACCACGGCAAGTTCTTCAAGGGCATCAGAACCGATGGCCCGGAAATGGCGGCGCTTCTGAAACTCATCGACCGAGGCAATCTCTGGTTCAAGTTCGCCGGCGTCTACGAAAGCTCGCGTGAGAGCTGGCCCTATGAGGACATCGCCGCCTTTTCGCGCGTCATCGCCGCCCATGCGCCGGAGCGCATCGTCTGGGGCACAAACTGGCCGCATAACTCCATCCGCGAGACTGCGGCCTATCCCGACGATGCTCGCCTTGCGGAAGTTATACTCGGCTGGCTGCCGGATGAAGCGGCGCGGCATCGCGCGCTGGTGGAAAATCCGGAAGCGCTGTTCAAGCTGCCGCCAGTCACGGCGGGATAG	MSELVRKLSGTAPRPAFPKGAVDTQMHLYLPHYPALPGGPGLPPGALPGPEDYRSLMQWLGIDRVIITQGNAHQRDNGNTLACVAEMGEAARAVVIIDAGTTEKDMEKLAASGAVGARIMDLPGGAVNLSELEAVDERAHAADWMVAVQFDGNTLLDHLPRLQNIRSRWVFDHHGKFFKGIRTDGPEMAALLKLIDRGNLWFKFAGVYESSRESWPYEDIAAFSRVIAAHAPERIVWGTNWPHNSIRETAAYPDDARLAEVILGWLPDEAARHRALVENPEALFKLPPVTAG	PGPT0018295_62	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLACTURONATE|GLUCURONATE_DEGRADATION,PGPT0018295-gli-K18982	NA	NA
BMS010_06414	978		COG1638	Solute-binding protein	ATGAAAAAGATTGCAAGCATGATGTGCGTCGCGATGGGGATCGCGCTCGCCGGTGTTTCCGCCAAGGCGCAGGAAATCACCCTGCGTTCGGCCGATATTCATCCCGACGGTTATCCGACGGTCGAAGCCGTGAAATATATGGGCGAGCTTCTGGCCGAGCGCACCAAGGGTCGCATCAAGATACAGGTCATGAACAATTCCGTTCTCGGCGGCGAGAAGGATACCATCGAGCAGACCCGCTTCGGCGTCATCGACATGAACCGCGTCAATGCCGCGCCTTTCAACAATCTGGTCAAGGAAACCACCGTCCTCGGCCTGCCTTTCCTGTTCCGCTCGACGGAGCACATGCACAACACGGTTGACGGCCCGATAGGCGATGAGGTTCTGGCGGCCTTCGAACCGCACGGCCTCATCGGTCTCGCCTTTTACGATTCCGGCGCACGGTCCTTCTACACCACCAAAAAGCCCATCGAAAAACTCGCGGACCTGAAGGGCCTGAAAATCCGCGTGCAGCAGTCGGATCTGTGGATTTCGATGATGCAGGCTTTCGGCGCCAACCCGACGCCGATGCCGATGGGCGAGGTCTATTCCTCGCTTGAAACCGGCGTTGTCGACGGTGCGGAAAACAACTGGCCTTCTTACGAATCCGCCCGTCACTACGAGGTCGCGAAAAACTACTCCCTGACGGAACATTCGCTGAACCCGGAAATCCTCGTCATTTCCAAGGTCTCTTACGACAAGCTCTCTCCGGAAGATCAGAAGCTGTTGCGTCAGGCGGCCAAGGATTCCGTCGGCAAGATGCGTGAACTCTGGAGCGCCCGCGAAAAGGCATCGGAAGAAAAGGTCCGCGCCGGTGGCGTCAATGTCATCAAGGTCAACAAGGAGGAATTCGCTGCCGCGATGGGTCCGGTCTACGACAAGTTCGTCACCGATCCGAAGATGAAAGACCTTCTGGAACGGGTGAAAGCGGTCAAGTAA	MKKIASMMCVAMGIALAGVSAKAQEITLRSADIHPDGYPTVEAVKYMGELLAERTKGRIKIQVMNNSVLGGEKDTIEQTRFGVIDMNRVNAAPFNNLVKETTVLGLPFLFRSTEHMHNTVDGPIGDEVLAAFEPHGLIGLAFYDSGARSFYTTKKPIEKLADLKGLKIRVQQSDLWISMMQAFGANPTPMPMGEVYSSLETGVVDGAENNWPSYESARHYEVAKNYSLTEHSLNPEILVISKVSYDKLSPEDQKLLRQAAKDSVGKMRELWSAREKASEEKVRAGGVNVIKVNKEEFAAAMGPVYDKFVTDPKMKDLLERVKAVK				NA	NA	NA	NA	NA
BMS010_06415	522			hypothetical protein	ATGCGAAATTTCATGCGGGCCATTCGCCCCTTTCTCGGCGCGCTCAGCCACGCGTCGCTTTATGTTGCCGGTATCGGCATGATCGCCATGACGCTTATCGTCGGCTGGCAGGTCTTTGCGCGGTATATTCTCAACGATTCACCCAGCTGGTCTGAGCCGCTGTCGCTGCATCTCATGTCATGGTTCATCATGCTGGGGGCGGCAGTGGGCGTGCGCGAGAGCGTGCATCTGGGGCTTGATATTTTGCGCTACATGATGCCGCCGCGCGTGCAGAAGGGCATGGACCTGACAAGCCTTGCGCTGATCTTCTTCTTCGGTGCCGGCATGGCCTGGTATGGCACCTCGCTTTCCATGGGCACATGGACGGCGACAATCCCGGTTCTCGGCTGGCCGGGCGGCACGGATTTCTTTCCGCTGATCGGCGGCGGTTTCCTCATTGCGCTGTTTGCGGCTGAACGTTTCGTCGATCTCGCCATCGGCGAGGAGATTGCGGCCGACGTCATCGTGCAGGAGGCAGCATAA	MRNFMRAIRPFLGALSHASLYVAGIGMIAMTLIVGWQVFARYILNDSPSWSEPLSLHLMSWFIMLGAAVGVRESVHLGLDILRYMMPPRVQKGMDLTSLALIFFFGAGMAWYGTSLSMGTWTATIPVLGWPGGTDFFPLIGGGFLIALFAAERFVDLAIGEEIAADVIVQEAA				NA	NA	NA	NA	NA
BMS010_06416	1281	dctM_3	COG1593	C4-dicarboxylate TRAP transporter large permease protein DctM	ATGGCTTACACCATTCTCTTCGGGGTGTTCACCCTGCTGATGCTGATCGGCACGCCGATCGCGTTCTGCCTCGGCATCGCCTCTTTCGCCACGGTTCTTTATCTCGGCCTGCCGCCCATTGTCGTGTTCCAGCAGATGAATTCCGGCATGAACGTGTTTGCGATGATGGCGATACCGTTTTTCATCTTCGCCGGAGACCTGATGGTGCGCGGCGGCATCGCCCATCGCCTCATCCGCTTTGCGGCCGGTCTCGTCGGACACCTGCGCGGCGGTCTCGGCCAGGTCAACATCGTGGCCTCGACGCTGTTCGGCGGCATTTCCGGCTCGGCCGTGGCCGATGCTTCGGCCGTCGGCGGGCTGATGATCCCGCAAATGGCCAAGCGCGGTTATGACAGGGACTATGCGGTCAATGTCACTGTCAATGCGGCCATCATCGCGTTGATGATACCGCCCTCGCATAACATGATCCTTTATTCCATCGCGGCGGGCGGCAATGTTTCGGTGGCCGATCTCTTCACCGCCGGCATTGTTCCGGGTTTCCTGCTTGCAGCGGCGCTGATGGTGACGGCCTATATCGTTGCCCGGCGCAAGGGTTATCCTTCCGAGCCGTTCCCTGGCTTCTCGAAGCTGATGTATTATCTCCTGGCTTCGTTCCCCGGCATCCTGTTGATCGGCATCATCTTCGGCGGCGTGCGTTCGGGCATCTTCACCGCGACGGAAAGTTCCTGCATCGCGGTTCTCTACGCCTTCCTCGTTGCCATGCTCGTCTACCGCGAGCTGGACTGGAGCGGTTTCGTCGAGGCGGTGATGGGTGCGGTGCGCACGACGGCCATGGTTCTGCTGGTCATCGGCACGGCGGCGTCCTTCGGCTGGCTGATGGCCTTCCTGCAGGTGCAGACGCTGATGATTGCCGCAATCAGCGCGATTTCGGACAATCCGATCATCGTGCTGCTCGTCATCAATGTCATCCTGCTGTTGCTCGGCACCTTCATGGACATGGCGCCGATGGTCATCATCTCCACGCCGGTGCTTCTGCCCGTCGTGAAGGCCTTCGGCATCGACCCCGTGCATTTCGGTGTCGTGATGATCCTGAACGCCGGCATCGGGCTCAACACGCCGCCGGTCGGAACGGTGCTTTTCGTCGGCTGCGCGGTGGGCGGCATATCGATACGGGAAGCGATGCGGACGATCTGGCCGTTCTTTGGGGCCAGCATCGCGGTGCTGCTTGCCGTCACCTATATTCCGTCGCTGTCCCTGTGGTTGCCGTCACTGTTCCGGTAA	MAYTILFGVFTLLMLIGTPIAFCLGIASFATVLYLGLPPIVVFQQMNSGMNVFAMMAIPFFIFAGDLMVRGGIAHRLIRFAAGLVGHLRGGLGQVNIVASTLFGGISGSAVADASAVGGLMIPQMAKRGYDRDYAVNVTVNAAIIALMIPPSHNMILYSIAAGGNVSVADLFTAGIVPGFLLAAALMVTAYIVARRKGYPSEPFPGFSKLMYYLLASFPGILLIGIIFGGVRSGIFTATESSCIAVLYAFLVAMLVYRELDWSGFVEAVMGAVRTTAMVLLVIGTAASFGWLMAFLQVQTLMIAAISAISDNPIIVLLVINVILLLLGTFMDMAPMVIISTPVLLPVVKAFGIDPVHFGVVMILNAGIGLNTPPVGTVLFVGCAVGGISIREAMRTIWPFFGASIAVLLAVTYIPSLSLWLPSLFR	PGPT0017335_2762	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017335-dctM-K11690	NA	NA
BMS010_06417	927			hypothetical protein	ATGGACGAAATCGAAGGTGGCATTCTGTCGTCCGTTCCGCCTGCGGCGCTCAACCTCAACCTGACGCGCGCAACGATCAAGATGGAGCATTCGCGCACCTGGCAGATCGACAAATCCAACCAGGTGGACGATCTCATCATCTGTCTGGAAGGGCGCGGGCATTATCTCGTCGATGGCGAGGCGCGGGTGCTGGAACCGGGTGACGCCATGCTGATTTTCCGGGGGCAGCGCTTTGTCGGCTGGAACGAGCAGGCCGTCACCTATCGCGGGGTGGCGCAGCATTTCACGCTGGATATTTACGGCCGCCACAACCTGATCGCGCAGATGGACCTGAAGCCGAAAGTGAGGCTGAGCCGCTGGGCGCTCTTGGAACCGCTGGTGCGCCACTACCGGCAGAGCGCCCCGCCCTCCTCCGTCACGCTTGGCCAGCATCATCTCTTTATGGTGCTTCTCATCGCCTTCATCGACGACGCCTTCCTCGGATGGGTGGACCGCCCGAGTTTCCAGCCGGAGGGGACGGAAGGCCTCGACCTTGCGGTGATGAAGGCGATCACCATGATTTCGGCCAATCCGCTGGACCCCGACATTGCCGGCCGGGCGACCGAGGCGGCTCCCTATAATCGCGATTATTTTCTGCGGGAATTCCAGAAGCGGGTGGGACGGACGCCGCGCAAATATCAGGAGTTCAAACGCATGGAACGCGCCATGCATTTTCTCGAGGCGGGGCTTTCGGTCTCGGCGGCGGCCGCCGAAGTGGGCTATGGCGACCCCTATTATTTCTCACGCATGTTCAAACGGACATTGGGGTTAAGCCCGCGCGACCATATGAACCGCATACGCCGCAGCCGGCACGGCAATCTCATGGCCTTTGACGAACACGAACAGCAGCGGCTGCTTGCCACTGAAATGGAAAAGGCCCCGGCATAG	MDEIEGGILSSVPPAALNLNLTRATIKMEHSRTWQIDKSNQVDDLIICLEGRGHYLVDGEARVLEPGDAMLIFRGQRFVGWNEQAVTYRGVAQHFTLDIYGRHNLIAQMDLKPKVRLSRWALLEPLVRHYRQSAPPSSVTLGQHHLFMVLLIAFIDDAFLGWVDRPSFQPEGTEGLDLAVMKAITMISANPLDPDIAGRATEAAPYNRDYFLREFQKRVGRTPRKYQEFKRMERAMHFLEAGLSVSAAAAEVGYGDPYYFSRMFKRTLGLSPRDHMNRIRRSRHGNLMAFDEHEQQRLLATEMEKAPA				NA	NA	NA	NA	NA
BMS010_06418	882	lacF_6		Lactose transport system permease protein LacF	ATGAAATCTCAGCGCTTCCTCGGGCTGGGATATCTGACGCCTTATATCGTCGGGCTTCTGGTCTTCACGGCCATCCCGTTTCTCGGCTCGCTCTATCTCAGCTTCACCCGTTACGATCTGATGAGCGATCCCAGCTGGGCTGGATTGGCCAATTACGAGCGGCTGTTCACCCGCGACCGCACCTTCATGAAATCGCTGAACGTTACCCTGTTCTACGTGTTTCTGACGGTGCCGTTGAAGCTTGCCTTCGCGCTGTTCATTGCGGCCATACTCAATTACAAGCTGCAATTCATCAACTTCTTCCGCACCGCCTTTTACGTGCCGTCCATTCTCGGCGGCTCCATCGCGATTGCGGTTCTGTGGCGCTATATCTTCGCGAGTGAGGGGCTTGCCAATATGGCGCTGGCCGCCATCGGCCTGTCGCCGGTGGACTGGTTCGGCGATCCCGGCAACGCGCTTTTCACCATCACGCTGCTGCGCTGCTGGCAGTTCGGTTCGGCCATGGTGATCTTTCTCGCGGCGCTGCAATCCATCGACAAGTCGCTTTATGAGGCCGCCGCCATCGATGGCGCGGGCAAGGTGAGAACTTTCTTCTTCATCACGCTGCCGCTGCTGACGCCGGTGATCTTCTTCAACCTCATCATGCAGATGGTTCAGGCATTCCAGGAGTTCAACGGGCCTTACATCATCACCCAGGGCGGGCCGTTGAAGTCCACTTATCTCTTGCCTCTTTACATCTATGACGAGGCCTTCAAGAAGTTCAACATGGGCTATGCCTCCGCCATCGCCTGGGTGCTCTTCACCATCATCACCGTGCTGACCCTCGTGGCCTTCTGGTCCTCGAAGAAGTGGGTCTATTACGCCGGCGACAAGCGGAACTGA	MKSQRFLGLGYLTPYIVGLLVFTAIPFLGSLYLSFTRYDLMSDPSWAGLANYERLFTRDRTFMKSLNVTLFYVFLTVPLKLAFALFIAAILNYKLQFINFFRTAFYVPSILGGSIAIAVLWRYIFASEGLANMALAAIGLSPVDWFGDPGNALFTITLLRCWQFGSAMVIFLAALQSIDKSLYEAAAIDGAGKVRTFFFITLPLLTPVIFFNLIMQMVQAFQEFNGPYIITQGGPLKSTYLLPLYIYDEAFKKFNMGYASAIAWVLFTIITVLTLVAFWSSKKWVYYAGDKRN	PGPT0017290_148	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_OLIGOGALACTURONIDE_TRANSPORT_II,PGPT0017290-togM-K10193	NA	NA
BMS010_06419	885	ngcG_4	COG0395	Diacetylchitobiose uptake system permease protein NgcG	ATGACCGATATCGCAACCCTAAACGACATGCAGGCGGCCCGCCGGGCACGGCTGAGGCTCGTCTCCACCTCTGTCCGTTACGTGCTTCTCTTCGCGGTCGGCCTCATCATGCTCTATCCGCTGATCTGGCTGGTGGGCGCAAGTTTCAAGACCAATTCGGAAATCTTCTCCGGCGCCGGCTTCATCCCCGATAATCCGACGCTGGACGGCTATATTCGCGGTTGGGAAACCTCGACGCCCTATACGTTCGGTCGGTTCTTCTGGAATTCGTTCCTGATCATCCTGCCGAAAGTCATCGGCACGGCGATTTCCTGCACCATGGCGGCCTATGCCTTTGCCCGCTTCGATTTTCCGCTGAAGAAGATCCTGTTCGGCTCGGTCATCGCCATTCTGCTGCTGCCGAATGTCGTTACCCGCATTCCGCAATATATCCTGTTTCGCGATCTCGGCTGGCTGGACAGTTTCCTGCCGCTCTGGGTGCCGTCCGCGCTCGCCGGCGATGCCTTCTTCGTCTTCATGCTGGTGCAGTTTCTGCGCTCGCTGCCATCGGACATGGAAGAGGCCGCCCGGGTGGATGGCGCCAACAGCCTGCAGACCCTCATCTATATCGTGGTGCCGATGCTGGCGCCGGCACTGATCTCGGTTTGCCTGTTCCAGTTCATGTGGACGATGAACGATTTCCTCGGGCCGCTGATCTACCTGTCATCGGCCGACAAATATCCGGTGAGCCTCGCGCTCAAACTCTCCATCGACACCACCGAAGCCTTCGAATGGAACCGCATCCTGGCAATGTCGGTGCTGACGATCGCGCCTGCGCTGATCGTGTTCTTCGCGGCGCAACGGTATTTCATTGAAGGGATCTCGTCTGGCGGGGTCAAGGGCTGA	MTDIATLNDMQAARRARLRLVSTSVRYVLLFAVGLIMLYPLIWLVGASFKTNSEIFSGAGFIPDNPTLDGYIRGWETSTPYTFGRFFWNSFLIILPKVIGTAISCTMAAYAFARFDFPLKKILFGSVIAILLLPNVVTRIPQYILFRDLGWLDSFLPLWVPSALAGDAFFVFMLVQFLRSLPSDMEEAARVDGANSLQTLIYIVVPMLAPALISVCLFQFMWTMNDFLGPLIYLSSADKYPVSLALKLSIDTTEAFEWNRILAMSVLTIAPALIVFFAAQRYFIEGISSGGVKG	PGPT0017295_139	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_OLIGOGALACTURONIDE_TRANSPORT_II,PGPT0017295-togN-K10194	NA	NA
BMS010_06420	1101	ugpC_10	COG3839	sn-glycerol-3-phosphate import ATP-binding protein UgpC	ATGGCAAGCGTTCAACTTAAAAATCTCGAAAAAATCTATGGCGGCAGCTTCAAGGCCGTGCACGGCATCAATCTCGAGGTCGAGGATGGCGAGTTCATGGTGTTCGTCGGCCCCTCCGGCTGCGCCAAATCCACGACGCTGCGCATGGTGGCGGGGCTGGAGGAAATCACCGGCGGTGAAATCCTGATCGGCGACCAGCGCGTCAACGACCTGCCACCCGGCAAGCGCTCCATCGCCATGGTGTTCCAGAATTATGCGCTTTATCCGCATATGAAGGTGCGCGGCAATCTCGCCTTCGGCCTGAAGATCGCCGGTGTCGCGAAGCCCGAGATCGAAAAGGCAATCGACAATGTCGCGCGCATTCTCGAAATCGAGCCGCTGCTCGACCGTCTGCCGAAACAGCTCTCGGGCGGGCAGGCGCAGCGTGTGGCGCTGGGCCGCGCGCTCATCAAGAAGCCCGGCGTGTTCCTGTTCGATGAGCCGCTGTCCAATCTCGACGCAAAGCTTCGCGCCTCCATGCGGGTGCGCATCACCGATCTGCACCGTCAGTTAAAGGCGGAAGGCCTGTCTTCGACGGTCATTTACGTCACCCATGACCAGACGGAGGCCATGACCATGGGCGACCGTATCTGCGTCATGCAGGCGGGCCGCATCATGCAGGTCGCGACGCCGAAGGAGCTTTATAACCATCCCGCCAATCTCTTTGTCGCCGGTTTCATCGGTACGCCGGAAATGAACCTGGTGGATGTGGCAATCGAGGGCGCTGAGTTCGTCATCGCCGGCCAGCGCCTGCCCATCGGTGCGCATCTGGAGCAACGGCTATCGGCGAGACCCGCAGACGCCGTCATCGGCATCCGCCCGCAGCATCTTGCTCTGGCGGGAGAACCCGATGGCCCGGCGCTGCAGGCGAAACTCACCAATGCGGAATTCATGGGCCACGAGGTCTATCTGCACGCCGATCTCGGCGGCCAGAAGCTGGTGAGCGTGGTCGGTGCGGCAGAGTTCGAGGCGCTTGGGCGCGACGGCATCCTGCGGCTGAAGCCGGACCCGGAGAAGCTGCATATTTTCGACAAGGCCGATGGTCGCAACGTTTCGCTGTGA	MASVQLKNLEKIYGGSFKAVHGINLEVEDGEFMVFVGPSGCAKSTTLRMVAGLEEITGGEILIGDQRVNDLPPGKRSIAMVFQNYALYPHMKVRGNLAFGLKIAGVAKPEIEKAIDNVARILEIEPLLDRLPKQLSGGQAQRVALGRALIKKPGVFLFDEPLSNLDAKLRASMRVRITDLHRQLKAEGLSSTVIYVTHDQTEAMTMGDRICVMQAGRIMQVATPKELYNHPANLFVAGFIGTPEMNLVDVAIEGAEFVIAGQRLPIGAHLEQRLSARPADAVIGIRPQHLALAGEPDGPALQAKLTNAEFMGHEVYLHADLGGQKLVSVVGAAEFEALGRDGILRLKPDPEKLHIFDKADGRNVSL	PGPT0017300_146	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_OLIGOGALACTURONIDE_TRANSPORT_II,PGPT0017300-togA-K10195	NA	NA
BMS010_06421	1269	yesO_1	COG1653	Putative ABC transporter substrate-binding protein YesO	ATGAAGACGATGACAAGAATGATGGCGATGCTCGCCGGCGTAGGTTATGTGGCGATGGCGACGGCCCCGGCGGTGGGTGCTGCGGAACTGCGCATGTCATGGTGGGGCGGCGAAAGCCGCCACGTCGCCACCCAGAAGGCCATTGCCGCCTGCGGCGAGAAATACGGCCACACGGTGAAGGGCGAATTCACCGGCTTCGACGGCTATCTGGAAAAGCTCACCACGCAGATGGCCGGCAAGACGGAGGCCGATATCGTTCAGGTCAACTGGCCGTGGCTGCCGCTGTTTTCCAAGAGCGGCGAAGGTTTTGCCGATCTGCGCCAGCTGAAACCGCTCGATCTTTCGCAATGGGCCGAGAGCGATCTGGACGCCGGTTCGATGAACGGCGTGTTGCAGGGGCTTTCCGTTTCCACCACCGGCCGCGTCTTCTTCTTCAACGCCACCACCTTCGAAAAGGCCGGCGTTGAAATTCCGAAGACCTGGGACGAGTTTTTCGCGGCAACCAAGACCATCAAGGAAAAGCTCGGCAAGGACTATTACACCTTCAATGCCGTGAAGGAGACTGCCCAGCTGCTGGTGACACTGGCTGTCGTGCAGAAGACCGGCAAGGATCTGGTCGACCCCAAGACCAACCGCGTGGCCTGGACGCCGGAGGAGCTGGCCGAGGGCATTTCCTTCGTCGGCAAGCTGGTCGAAACCGGATCGATCCGCTCGCAGAAAGAGGAAGCTGCCGACGGTAACGTCAATCTTTACGAAAAGCCGTCCTGGTCCGAAGGCCGGATTGCCGGTTCCTATGAATGGGATTCGACCTATTCGAAATATGCCGATCCGCTCAAGGAAGGGCAGGTTCTGAAACCGTTCCCGATGCTGAAGCTTGCCGATGCCGTAACAGAGGGCGTCTATCGTAAGCCCTCCATGGTGTTTTCGATCTCGAAAAACTCTAAGAACCCGGAGGCGGCCGCGCAAATCCTGAACTGCCTGCTGAACGAACCTGAGGGCATCGATGCGCTCGGCACCTCACGCGGCCTGCCCGCTTCGAAGGCAGCGGCGGCGCGTCTGGGTGACAAGGGCGAGCCGGAGGTGCGGGCCGCCAACGCCATCGTCATGGCGGCATCCGGACCGGTGGTGTCACCCTTCAACGAGCATCCTGAAATCCGCTCGGGCTTCATCGATACGCTTGAGGAATATGCCTATGGCCAGCTGACGGCGGAAGAAGCGGCCGAGCAGATCATCGATACGACCAACGATGTTCTTGCCAAATTCGATTGA	MKTMTRMMAMLAGVGYVAMATAPAVGAAELRMSWWGGESRHVATQKAIAACGEKYGHTVKGEFTGFDGYLEKLTTQMAGKTEADIVQVNWPWLPLFSKSGEGFADLRQLKPLDLSQWAESDLDAGSMNGVLQGLSVSTTGRVFFFNATTFEKAGVEIPKTWDEFFAATKTIKEKLGKDYYTFNAVKETAQLLVTLAVVQKTGKDLVDPKTNRVAWTPEELAEGISFVGKLVETGSIRSQKEEAADGNVNLYEKPSWSEGRIAGSYEWDSTYSKYADPLKEGQVLKPFPMLKLADAVTEGVYRKPSMVFSISKNSKNPEAAAQILNCLLNEPEGIDALGTSRGLPASKAAAARLGDKGEPEVRAANAIVMAASGPVVSPFNEHPEIRSGFIDTLEEYAYGQLTAEEAAEQIIDTTNDVLAKFD	PGPT0017285_224	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_OLIGOGALACTURONIDE_TRANSPORT_II,PGPT0017285-togB-K10192	NA	NA
BMS010_06422	1554			hypothetical protein	ATGAACGAACCCCTTATCATCGCGTCTTCGGCGCGAACGGCAGCGCTTTGCCTTGCCGTGCCCGGCGCTCGCTATTTCCTTCCGTCCAAAACGGCATGGCGTTTGACGTCGGCGGATGGCGCCGAAAGGAGAGGCGAAACCGCGACCGTGGTGATGCTGCTGCATGATCTCTCCCCGGATACGCGCTATGTTTTCGAAGCGGAGGGGTTCGGGCGGCTGGAGTTCAGAACCGCCCCCTGTGCCGGGCTTGTCGAGGCTGCGGAATTTTCCCTCATGCCGGATGTTGCGCTCGATGATGAGACACGTGCGCGCGCCAATGCACAGGCGCTGGAAAGGGCAGTGGCCGCGGTGCCGCAGGGTGGCGCGTTGCGTCTCTCGGCCGGTCTCTGGACAGCCTTTCCCGTTCGCCTGAAAAGCAACATGACCTTCCACCTTGCCGAAGGAGCCGTGCTGCGCGCGCCCTCCACCCGCAGGGGCTGGCCGATCCTGCCTGCCCGCGATGAGGCAGGCCGTATGCTCGGAAGCTGGGAAGGCTTGCCGGATGCCTGTTTTGCCGCGCCGGTTCATGCCATCGCGGCAGATAATCTCGTCATCGAGGGCAGGGGCGTTCTCGATGGCTCCGGCGATAGCGGCGACTGGTGGAGCTGGCCGAAAGAAACCCGCGATGGCGCGCGCCGGCCGCGCGGCCTGCATCTCGTTTCCTGCCGGAACACAAACCTGCTCGGTTTCACCATCCGAAACGCCGCCTCCTGGACGATCCATCCGCAGGGCTGCGAAGACTTGATCGCCGCCGGCCTCAGCATCGTCGCACCGCATGACAGCCCGAACACCGATGGTTTCAACCCCGAAAGCTGCCGCAACGTTACGATATCAGGCGTGCGCTTTTCCGTCGGCGACGATTGCATCGCGGTGAAGGCGGGAAAGCGCGGCCCCGATGGCGAGGACGATCATCTCGCGGAAACGCGCGGCATTCGGGTGCGCCATTGCCTGATGCAGCGCGGCCATGGCGGGCTGGTGATCGGTTCGGAAATGTCCGGCGGTGTGCATGACGTGGCGGTCGAGGATTGCGACATGGTCGGCACGGATCGCGGCCTGCGCCTCAAGACACGGCGCGGGCGGGGCGGAACAGTCAGCAACATCGCCATGCGCCGGGTGCTGCTGGATGGCGTGCAGACCGCGCTTTCCGCTAATGCCCATTACCATTGCGATGCCGATGGACATGATGACTGGGTGCAGTCGCGAAAGCCGGCGCCGGTCGATGGCGGCACGCCCTTTATCGACGGCATTACCGTGGAGGATGTCGAAATCCGCAATCTCTCCCATGCGGCCGGTGCTTTTCTCGGCCTTGCCGAAGCGCCCATCCGCAACATCGCCATCAGCAATCTCACCATCGTCTCGCGTGATCCTTCGGCCATCGCAACGCCGCCGATCATGGCCGACCGGGTGCGTCCCATGCGCCATGAGGCGATTGTTTTCGAGCAGGCGCATATAGTCTGCGATAATCCCGCCCTGTTGAGCGATGCTTCCGTTTCCATTGTGTCAGATTTCGATTGA	MNEPLIIASSARTAALCLAVPGARYFLPSKTAWRLTSADGAERRGETATVVMLLHDLSPDTRYVFEAEGFGRLEFRTAPCAGLVEAAEFSLMPDVALDDETRARANAQALERAVAAVPQGGALRLSAGLWTAFPVRLKSNMTFHLAEGAVLRAPSTRRGWPILPARDEAGRMLGSWEGLPDACFAAPVHAIAADNLVIEGRGVLDGSGDSGDWWSWPKETRDGARRPRGLHLVSCRNTNLLGFTIRNAASWTIHPQGCEDLIAAGLSIVAPHDSPNTDGFNPESCRNVTISGVRFSVGDDCIAVKAGKRGPDGEDDHLAETRGIRVRHCLMQRGHGGLVIGSEMSGGVHDVAVEDCDMVGTDRGLRLKTRRGRGGTVSNIAMRRVLLDGVQTALSANAHYHCDADGHDDWVQSRKPAPVDGGTPFIDGITVEDVEIRNLSHAAGAFLGLAEAPIRNIAISNLTIVSRDPSAIATPPIMADRVRPMRHEAIVFEQAHIVCDNPALLSDASVSIVSDFD				NA	NA	NA	NA	NA
BMS010_06423	1125			hypothetical protein	ATGAAAGCCACTGAATATTTTGATCAATTCTCCAGTCGCTATACACATTACAAGGGTGGAAGCTGGTGTTATGAGGATGGGTGCGTCTATCGTGGCCTGCAGCAGCTGTTCGACGCGACCGGGGAGGCGCGCTGGAACGACCATCTGCATCGTCTCGCCGATGCGCAGATAGCGCCAGACGGCACGCTCGCCGGGTACGATCCGCAGGAATATAATATCGACCATATTCTCGCCGGCCGTATCCTCTTTCCCCTTGCGGCGGAAACGGGCGATCCGCGTTACCTCGCTGCGGCGGAACATCTGGCGGGGCAACTGCGCAGCCATCCACGCATCGCATCCGGGAATTACTGGCACAAGAAGCGTTATCCGCATCAGGTCTGGTTGGACGGGCTTTATATGGGGCTTCCTTTCCAGATCGAATATGCGCAGGCGACGGGCCGGGCGGAACTGATCGACGATGCACTGCGGCAGTTTTCAGCGGCACTCGCGGCGACCGAGGATAGCGGTGGGCTCTATGCCCATGGTTACGACCACAGCCGCAGCCAGCGCTGGGCCGATCCTCAAAGCGGCAAGTCTCCAGCCATATGGGCGCGCGCGGTCGGCTGGCTGGCCATGGCGCTGGTGGACGCGCTGGCCATCCTGCCGGAAGACGGCGCGACGGCGGCGCTTCGCAACAAGACGCAGTCGCTTCTGACCGGCATCATCGCACGGCAGACCGAGACAGGGCTCTGGATGCAGGTTCTCGACAATCCGGGCCTTGCGGGCAATTACGAGGAAACATCCGCCTCAGCCATGTTTGCCTATGCCTTGCTGCACGCAGTGCGGCTGAAGCTCGTGCAGGGCGAAGAGGCGAATGCCGCCCTTTCGGCGGGTCGTCGCGCGCTTGAGGCGCTTCTTGAAACCCGGCTGAAAGCCGATGAAGAGGGCGTGACGCGCCTCACCGGTATCGTGCATGTCGCAGGCCTTGGCGGCTTTGAGGGCAATTATCGCGATGGAACGCCGGAATATTATCTGACCGAGCCGGTGGTGTCCGACGATGCCAAGGGCGTCGGGCCGCTGATGATGGCCTATGCCGAAAGCCTGCTTCTGGCCAAGCCGCAGGCGCAGGCTGTTTCAGCGGCGTGA	MKATEYFDQFSSRYTHYKGGSWCYEDGCVYRGLQQLFDATGEARWNDHLHRLADAQIAPDGTLAGYDPQEYNIDHILAGRILFPLAAETGDPRYLAAAEHLAGQLRSHPRIASGNYWHKKRYPHQVWLDGLYMGLPFQIEYAQATGRAELIDDALRQFSAALAATEDSGGLYAHGYDHSRSQRWADPQSGKSPAIWARAVGWLAMALVDALAILPEDGATAALRNKTQSLLTGIIARQTETGLWMQVLDNPGLAGNYEETSASAMFAYALLHAVRLKLVQGEEANAALSAGRRALEALLETRLKADEEGVTRLTGIVHVAGLGGFEGNYRDGTPEYYLTEPVVSDDAKGVGPLMMAYAESLLLAKPQAQAVSAA	PGPT0018255_1236	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-HYDROLASE,PGPT0018255-yteR|yesR-K15532	NA	NA
BMS010_06424	1263	rcsC_20		Sensor histidine kinase RcsC	ATGAGCTCGCTTAAAAACCGCATCACGGCGCTGATGATCGTCTCCATCATCGCGGTCATCGCACTTGCGACTTTTGTAGCGGACCGGACGTTGCAGCCGCCGCCGCCCGACGCCACCATCGAGCCGCTCGCCCGCAGCCTCGCCTTTGCCGTGACTATGGCCGAGCGTGATCCTTCCCTGCAGCAGCCCGGCTATTTCCAGATAGAACAGAAGCCGCCGCAAGGCGATCTCGACGGCATGCTTTCGGAATTTCTGGAAAAGGCGCTGGCCCGCGTCGGAGAGCCGCGCACCGCGATGGTCATCCGCTCGCCGGGAAACCCTGCGCCCGTGGCAGCTATCGCGCTGGAAAAAGGCGGCTGGCTGGTCGCGGAAATTCCGCATATGGGTCCGCCGCCGGGCGGCTGGAAAATTTTCGGCATGTGGATCGGGCTGATCATCCTCGGCAGTGCCGCCGTTTCGATCTTTGCCGCCAGCAAGATCACCCGCCCGCTCGGCATGCTGGAAAATGCCGCCGCCAGCATCGGGCCTGACGGTTCGCTGCCGCACCTACCGGAAACCGGACCGGGCGAAATCCGCGCCACCGCGCGGGCGCTGAACGAACTCTCCACCCGCCTGAAGGCGGCGATGGAAAGCCGCATGCGCCTCGTCGCCGCCGCCGGCCACGATCTCAGAACCCCGATGACCCGCATGCGGCTGAGGGCGGAATTCATCGAGAACGACGAGGAACGGGCCAAATGGCTGGCGGACCTTGAGGAGCTAGACGCCATCGCCGACAGCGCCATTCTTCTGGTGCGGGAAGAGGTCAGCCAGGACAGCGTCAAGACGATCGACATCGGTACGCTTCTCAGCGAGATCGTCAGCGATGTTTCCGATCTTGGTCATGCGGGTGCGCTCGACTTCATCGAGCCGGAAGCCGCCATGACCATCAAGGCGGCACCGCTGGCGCTGAAGAGAGCCCTGCGCAACCTCATCCTGAACGCCGTTACTCATGGCAAGAAGGCGCATATCGATCTGACCGGAGACGACAGCGAAATCGTCGTGACAATCAGGGATGAAGGCCCCGGCATTCCCCAGGAACTGATCGGGCGGGTTTTCGAGCCCTTCTTCCGGGTGGACCTCGCGCGGCGCAAATCAATCCCCGGCGTGGGTCTTGGCCTTGCCATCGCCAGGGAAATCATCGAGCGCTTCGGCGGCACGATCACCATTGCCAACCACAAGAAACAGGGCCTGATCCAGACCGTGATCTTCACAAGGGCGTCGTGA	MSSLKNRITALMIVSIIAVIALATFVADRTLQPPPPDATIEPLARSLAFAVTMAERDPSLQQPGYFQIEQKPPQGDLDGMLSEFLEKALARVGEPRTAMVIRSPGNPAPVAAIALEKGGWLVAEIPHMGPPPGGWKIFGMWIGLIILGSAAVSIFAASKITRPLGMLENAAASIGPDGSLPHLPETGPGEIRATARALNELSTRLKAAMESRMRLVAAAGHDLRTPMTRMRLRAEFIENDEERAKWLADLEELDAIADSAILLVREEVSQDSVKTIDIGTLLSEIVSDVSDLGHAGALDFIEPEAAMTIKAAPLALKRALRNLILNAVTHGKKAHIDLTGDDSEIVVTIRDEGPGIPQELIGRVFEPFFRVDLARRKSIPGVGLGLAIAREIIERFGGTITIANHKKQGLIQTVIFTRAS				NA	NA	NA	NA	NA
BMS010_06425	732	ompR_4		Transcriptional regulatory protein OmpR	ATGACGACAGTTTCGGTGACACATATATTGATCGTTGATGACGATCCGGAAATACGCACATTGCTCGCGAAATATCTCGGCTCGCAGGGGTTCCGCGTGTCGATGGCCGCCGACAGGCGTGAGTTCGAGGAAAAGATCGCCAGCTCCGATCCCGATCTCATCGTGCTCGACGTGATGCTGCCCGATGGCTCCGGCCTCGATATCTGCCGCGATCTGCAGGGTCGCCGGCCGCGCACGCCGGTCATTCTCCTGACTGCGCTGAAGGAAGATGTCGACCGGATCGTCGGGCTGGAAATCGGCGCCGACGACTATCTCGGCAAACCCTTCAATCCGCGCGAACTCACGGCGCGCATCAAGGCCGTGCTGCGCCGCGCCACGCCGCAGGAAGCCCCTCGCCCCTCATCCGCCGCCTATGGTTTTGCGGATTTCACCGCCGATCCCGAGCAGCGCTCCGTCATCCGCGCCAGCGGTGAAAAGATAGATTTGACGGGAGCTGAGTTCGATCTTCTGAAAGTCTTTCTCGACAGGCCCGGCCGGCTGCTTTCCCGCGATCAGCTTCTCGATCTCACGCAGGGCAAGGATCGCGGCCCGTTCGACCGCTCCATCGACGTGCTGATGAGCCGCTTGCGCAAGAAGCTGGACGCCGACACTCAAACGCCGATATTCAAGACCGTGCGCAATGGCGGTTACCAGATGACGGTTCAGGTCAAAACCCTGCCGGTGCAGCGATGA	MTTVSVTHILIVDDDPEIRTLLAKYLGSQGFRVSMAADRREFEEKIASSDPDLIVLDVMLPDGSGLDICRDLQGRRPRTPVILLTALKEDVDRIVGLEIGADDYLGKPFNPRELTARIKAVLRRATPQEAPRPSSAAYGFADFTADPEQRSVIRASGEKIDLTGAEFDLLKVFLDRPGRLLSRDQLLDLTQGKDRGPFDRSIDVLMSRLRKKLDADTQTPIFKTVRNGGYQMTVQVKTLPVQR	PGPT0012985_28	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OSMOLARITY_SIGNALLING,PGPT0012985-ompR-K07659	NA	NA
BMS010_06426	639			hypothetical protein	ATGAGAAACTCGCTACTGGCCGCCGCCATCGCGACAGCAACTATTGGCGTTTCCGCCGCCGCGCAGGCAGCGGAAGAGAATGCGCCCGCACCCCAGGCGACCGAACAGGCTGCGCCGCCGCACGCCAATCTCGATCTCGGCCCGGACATCGGCCCGGATCGGGGTCCGGATGAAAGGCCGCTGCCGCCGCATATGCGCAGAATGCCCGGCCCGGATGTTCTAGGGCTGGCGACGAAGCTTTCGGCGGCTGAAATCTATCTCGGCGTCACGCCGGAACAGCTCGGTCCATGGCGCGCCTATACCGCGGCGCTGATCGATCTCGTTTCCCCCGGTCCAGAGCGCAATCCGCCGCCGTCGGTGCCGGGTGAAGGCAAGGCCAGACCCGAGCCGCGTCTTGCGGGAGAGGAGCTGGCAGGCATCATCGCGCAGAAGGCGGAAAAGGCCAAAGCCCTGCAGGACGCCATTGCGGCGCTGAAACCGAAGCTTTCGCCGCAGCAGGTGCTGAAGCTTGCCGAGCTTGAGCGTGCACTGATGCCGCCTCCGCCTCCCGGCCCGCGTCATGGCCCCGCAGACCGCGGCGGCTTTGCTCCCCCGCATGGCGATATGAGGCCGCCGGTTCCCGAGGCGGAACGGGGCTGA	MRNSLLAAAIATATIGVSAAAQAAEENAPAPQATEQAAPPHANLDLGPDIGPDRGPDERPLPPHMRRMPGPDVLGLATKLSAAEIYLGVTPEQLGPWRAYTAALIDLVSPGPERNPPPSVPGEGKARPEPRLAGEELAGIIAQKAEKAKALQDAIAALKPKLSPQQVLKLAELERALMPPPPPGPRHGPADRGGFAPPHGDMRPPVPEAERG				NA	NA	NA	NA	NA
BMS010_06427	297			hypothetical protein	ATGAGATACTTCTATCTGGTGCTGGCAACGGCTTTTGGTTTGAGCTTTGCCTGGTCGGTGGCCGTGGCAAAGGACAAGCCCGTGCAACAGCCGGCGGCCAAATCCCGGCAGGATGAACAACGGCGTCAGCCCGCCTGTGCGAAGGATCAGCGCGAAAAGATGGATTCGAGACGTCTTCGCAGCACCTGCCGCAAGGCCGCGGTGCGAAAATCGGCCTCTGCCTATGAATGGATCGAAGCGGAGAGGGGTTTCATCCTCGTAAAACACGACATGACGCCGGTTTCTTCCTTCGAGTGA	MRYFYLVLATAFGLSFAWSVAVAKDKPVQQPAAKSRQDEQRRQPACAKDQREKMDSRRLRSTCRKAAVRKSASAYEWIEAERGFILVKHDMTPVSSFE				NA	NA	NA	NA	NA
BMS010_06428	1224	macA_2	COG0845	Macrolide export protein MacA	ATGAAAACGGCACGCAAGGCAGGCGCATTGCTGGCGGTTGTCGCTCTCGCTGTGGGCGGCTACTGGTTGTCCTCGCAATATACGCGGGCGGCCACACCCGGCTATATCACCGCGCCGGTGACGCGCGGCGATATAGAGCAGACGGTGCTGGCGACGGGAACGCTGAAACCCGTTCGCCTTGTCGCCGTCGGCGCGCAGGCCTCCGGCCGCATCACCGCCGTCAAGGTGGCGCTCGGCGATACGGTCAAGGCGGGCGATCTGATCGCCGAAATCGATTCCGTTACCCAGACGAACAGTCTGCGCACGGCGCAGGCGGCTCTTGCGAACGTGAAGGCGCAGCGCGTGGAGAAACAGGCGACGCTTGTTCTCAACCGCCAGAGCCTTGCCCGTCAGCAGGAGATGGTGTCGAAGAACGCCGCCTCCCGCGCCGATTTCGAAAGCGCCACCGCTGCCTTTGCCGTTACCGAGGCGCAGATCGAGGCCATCGACGCCCAGATCGAGGAAGCGCAGGTCGCGGTGGAAACGGCCGAGGCCAATCTTGGCTATACGAAGATCACCGCGCCCATCGAAGGCACGGTTCTGTCGATCGTCAGCCAGGAAGGGCAGACCGTCAACGCCACCCAATCCGCGCCAACCATCGTCATTCTCGGCCAGCTCGACCGGATGACGGTGCGCACGGAAATTTCCGAGGCGGATGTAACGCGGGTCAGGCCGGACCTGCCGGTCTATTTCACGGTGCTCGGCGAGCCGCAGCAGCGTTACAACGCGACGGTCGCCTCGATAGAGCCGGCGCCGGAATCGGTGCGCAGCGATTCCAGCTTCAGTTCCTCCACCTCTTCATCCTCCAGCTCGTCCTCTTCCAGCACGTCGTCATCCGAGGCGATCTATTATAATGGCGTGTTCGAAGTGCCGAACCCGGACGGCAAGCTGCGTACCTACATGACGGCGGAGGTCCATATTGTTCTCGGTGAAGCGAAGGATGTGCTGACCGTCCCTTCGGCGGCCCTTGGCAGCATGGAAAGCGACGGCAGCTATGCCGTGCGCGTGGCCGACGCCGATGGCCGGGTTTCCGAGCGCAAGGTCGAAATCGGGCTCAACAACAAGGTCACGGCGGAAGTGCGTTCCGGCCTTGCCGAAAACGAGCGCGTGGTGACCGGCGAGCGTTCCACCGACACCACCGCAAACGCCATGCCGGGGCCCGGCGGCCCGCCGATGGGGCTTTGA	MKTARKAGALLAVVALAVGGYWLSSQYTRAATPGYITAPVTRGDIEQTVLATGTLKPVRLVAVGAQASGRITAVKVALGDTVKAGDLIAEIDSVTQTNSLRTAQAALANVKAQRVEKQATLVLNRQSLARQQEMVSKNAASRADFESATAAFAVTEAQIEAIDAQIEEAQVAVETAEANLGYTKITAPIEGTVLSIVSQEGQTVNATQSAPTIVILGQLDRMTVRTEISEADVTRVRPDLPVYFTVLGEPQQRYNATVASIEPAPESVRSDSSFSSSTSSSSSSSSSSTSSSEAIYYNGVFEVPNPDGKLRTYMTAEVHIVLGEAKDVLTVPSAALGSMESDGSYAVRVADADGRVSERKVEIGLNNKVTAEVRSGLAENERVVTGERSTDTTANAMPGPGGPPMGL	PGPT0027919_235	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027919-macA|pvdR-K13888	NA	NA
BMS010_06429	1959	macB_4		Macrolide export ATP-binding/permease protein MacB	ATGGCTGAACCTTTGATTTCGCTTAAATCCGTGCGGCGGGATTATCCCTCCGGCGAAGGCACGATCAGCGTGCTGAAGAATATCGACCTCACCATCGAGGCCGGTGAGATGGTGGCGATCGTCGGCGCGTCCGGGTCGGGCAAGTCGACGCTGATGAATATTCTCGGCTGCCTCGACCGCCCGACATCGGGTAGCTACAGCATCAGGGGCCGGGAAACGGGCAATCTCGATGCCGACGCGCTTTCGGCGCTCAGGCGTGAAAATCTCGGCTTTATCTTCCAGCGCTACCATCTGCTGGCCGAGTTGACGGCGCTCGGCAATGTTGAAATTCCGGCGATCTATGCCGGCAAGACGCAGGGCGACCGCAGGCACAATGCCGCAAGGCTGCTTGGCCGCCTCGGCATGGCGGAACGCCTCGATCACCGTCCCGGCCAGCTTTCCGGCGGCCAGCAGCAGCGCGTTTCCATCGCCCGCGCCCTGATGAACGGTGCCGAGATCATTCTTGCCGACGAACCGACCGGCGCGCTCGACAGCGCCAGCGGCGACGAGGTGTTGCGCATCCTCGGCGAGCTGCATGCCGAAGGCCGCACCGTCATCATCGTTACCCATGACATGTCGATTGCCAGACGCGCCGGGCGGATCATCGAGATCAGCGACGGCACGATCATTTCCGACCGCAGGACGGATGCAACGCCCGTACCGCAGGACGATGCCAAACCCGCTGCCGTTTCCGTCGGGTCTTCGGGGCTTGCGGGTCTCGTTTCGTCTCTGCGCGAGGCGTTGCGCATGGCGCTTCTGTCGATGCGGGCGCACAAGCTGCGCACCTTTCTCACCATGCTCGGCATCATCATCGGCATCGCCTCGGTCATCAGCGTCGTGGCGCTGGGGCAGGGGTCGCAGCAGCGGGTGCTGCAGAACATATCGAGTCTTGGCACCAACACGCTGGAAATCTTCGCCGGCAAGGATTTCGGTGACATAAGGTCGGGCAAGATCACCACGCTCGTCGTTTCCGATGCCGAAGCGCTTGCCAAGCAATCCTATGTCGCGGCGGTGACGCCGACGGTCTCGACCTCCAGCACGGTGCGTTTCGGCGCGAAGGAAGCGAATGCGCTGGTGAACGGCGTCAGCGAGCGCTATTTCGTCGCCAAGGGCACCAAGCTGTCCCAGGGCCGCTTTTTCGATGGCGGAAGCGTCGCGCAGAAGGCGCAGGAAGTGGTGATCGACGAAAATACCCGCAAATCGCTGTTTGCGGATTTCGACGGCAGCCCTGTCGGCCAGGTCATTCTCATCGGCAAGGTGCCGGCCCGCATCGTCGGCGTCACGCAGGCGCAGCAGGGCGGTTTCGGCTCAAGCCAGAACCTTTCGCTTTACCTGCCCTATACCGCCGTCCAGTCGCGCTTTCTCGGCAGCCTGTCGCTGCGCAGCATCACGGTGCAGGTGGCCGACGATGTCGATGCCTCAATCGCCGAACAGGCGGTGACGACGCTTCTGACCCAGCGGCACGGCACACGGGATTTCTACATTCTCAATACCGACGATATCCGCCAGACCATCACCAGCACCACGCAGACGCTGACCCTTCTGATTGCCGCCATTGCGGTGATTTCGCTGCTGGTCGGCGGCATCGGGGTGATGAACATCATGCTCGTTTCCGTGTCTGAACGCGTATCGGAAATCGGCGTGCGCATGGCGGTGGGCGCGCGCCGCACCGATATTCTGCGGCAGTTCCTCATCGAGGCGGTGCTGGTCTGCATCATCGGCGGTACGCTGGGCGTGCTCGGCAGCCTCGGCTTCGGCGCGCTTTTTTCCGCCTTCAGCAGCAATTTCGCCATGGTCTATTCCACGGCGTCGATCATCGCCGCCTTCGTCTGCTCGACGCTGATCGGCGTTGTCTTCGGTTATCTGCCGGCGCGCAACGCGTCGAAGCTCGATCCCGTCGCGGCTTTGTCTGCGGGGTGA	MAEPLISLKSVRRDYPSGEGTISVLKNIDLTIEAGEMVAIVGASGSGKSTLMNILGCLDRPTSGSYSIRGRETGNLDADALSALRRENLGFIFQRYHLLAELTALGNVEIPAIYAGKTQGDRRHNAARLLGRLGMAERLDHRPGQLSGGQQQRVSIARALMNGAEIILADEPTGALDSASGDEVLRILGELHAEGRTVIIVTHDMSIARRAGRIIEISDGTIISDRRTDATPVPQDDAKPAAVSVGSSGLAGLVSSLREALRMALLSMRAHKLRTFLTMLGIIIGIASVISVVALGQGSQQRVLQNISSLGTNTLEIFAGKDFGDIRSGKITTLVVSDAEALAKQSYVAAVTPTVSTSSTVRFGAKEANALVNGVSERYFVAKGTKLSQGRFFDGGSVAQKAQEVVIDENTRKSLFADFDGSPVGQVILIGKVPARIVGVTQAQQGGFGSSQNLSLYLPYTAVQSRFLGSLSLRSITVQVADDVDASIAEQAVTTLLTQRHGTRDFYILNTDDIRQTITSTTQTLTLLIAAIAVISLLVGGIGVMNIMLVSVSERVSEIGVRMAVGARRTDILRQFLIEAVLVCIIGGTLGVLGSLGFGALFSAFSSNFAMVYSTASIIAAFVCSTLIGVVFGYLPARNASKLDPVAALSAG	PGPT0027920_529	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027920-macB|ybjZ|pvdT-K05685	NA	NA
BMS010_06430	237	acpP_4	COG0236	Acyl carrier protein AcpP	ATGTCCACCATTGCAGAGCGTATCAGAAAAATCATTGTGGACCAGCTTGGCGCAGACCCTGCCACCATCGTGGACGAGGCCAGTTTTGCTGACGATCTCGGTGCGGATTCGCTCGAGACCGTTCAGATCGTCATGGAAATCGAAGAGGAATTCGGGGTGGAAATTCCAGATTCCGCCGCAAGCACGATCCTGACCGTTGGCGACGCCATCCGCTTCGTCGAAAAAAACAAGGCGTGA	MSTIAERIRKIIVDQLGADPATIVDEASFADDLGADSLETVQIVMEIEEEFGVEIPDSAASTILTVGDAIRFVEKNKA	PGPT0011375_5928	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0011375-acpP-K02078	NA	NA
BMS010_06431	1098			hypothetical protein	ATGGTCCAGTCGTCCCCGGAACGCTTTATATTGCTCGATGGCATAAGGGGCGTGGCCGCCCTTTTCATCGTCCACCGCCATGCCGAGGATCTGTTCGGGAAAAGCACGGCTTCGAGCTATCTCGCCGTGGATCTGTTCTTTGCGCTCAGCGGTTTCGTGCTCGCGCATGCCTATAGCCGGAAACTGGCCGAAGGGGCGATTACGCCAGGCTTTTTCATGAAGGCGCGCTTCGCACGTCTTTACCCTCTTTATGGGCTGGCGCTGGCCCTGATGGCGGCCTATTTCATCTGTCTCTACGTGCTGGGCCTGCCGACGCCGATCGACGATCTGCATCGTCTTATCGATCCCGGCGAGCTTGCTTTCGCCTTGGTAACGGGGCTGCTCTTTTTGCCGGCGCCCTTCACGCTCACTCTGAACGGCGCGCTGTTTCTCGTCAGCCCGGCATGGTCGCTTTTCAACGAGCTGGTGGTGAATGCGTTTTACGCCCGCTTCGGTGTCCGGGCCACGACGAAACAGACCGCCGCGGTGCTCATTGTGAGCGCCCTTGTGCTGGTGGTGGCTGCTGCCGAGTTCGGCCGTCTGCATGCCGGTTTTCGCTGGCATGAAATGTATGCCGGCATGGGGCGGGTGTTCTTCTCGTTTTTTGCCGGCGTGCTGATTTACCGTTTCCGCAATCGCGTACCGCAGTTGAGACCTTTTCAGGCGGCGCTTTGCCTTCTGCTGGTCTGTTTCATTCTGGCCGTGCCGATGTCGCGCGAGCTTCGGCCGTTCTTCGATCTTGCGGTGGTCCTCGTCGTCTGGCCGCTGCTGCTGTTCGTCGCCAGCAAGACGGTTCCGGGCCGCGGTGTGGGAATGGTGTCGGTGTTTCTCGGCACGGCGTCCTACGCGGTCTATGTGCTGCATATTCCGCTTCTGGCCTGGACGGAGCTTCTGATCCCCGCAGTACACCGGGAAAACCTTGCTTTGCCGGCCGGCATTGTTTTCCTCATCGGCACGACGTGCCTGTCATGGTGGCTGACGGTCCATTACGATCAGCCCGTTCAGAAATGGCTGAAGAACCGGTTGAGAAAGCCGAGTGAAGTCCGCCAGCCGGTATGA	MVQSSPERFILLDGIRGVAALFIVHRHAEDLFGKSTASSYLAVDLFFALSGFVLAHAYSRKLAEGAITPGFFMKARFARLYPLYGLALALMAAYFICLYVLGLPTPIDDLHRLIDPGELAFALVTGLLFLPAPFTLTLNGALFLVSPAWSLFNELVVNAFYARFGVRATTKQTAAVLIVSALVLVVAAAEFGRLHAGFRWHEMYAGMGRVFFSFFAGVLIYRFRNRVPQLRPFQAALCLLLVCFILAVPMSRELRPFFDLAVVLVVWPLLLFVASKTVPGRGVGMVSVFLGTASYAVYVLHIPLLAWTELLIPAVHRENLALPAGIVFLIGTTCLSWWLTVHYDQPVQKWLKNRLRKPSEVRQPV				NA	NA	NA	NA	NA
BMS010_06432	114			hypothetical protein	ATGACGTATGACTGGAGCGGCCGCAAAATGCGCCGCATGCGAGCGGCGAAACTGACGATCATCAGCCTCGTCGCGGCTTTCGTGCTGACTGCCCCGATTTTCGCCCATTATTGA	MTYDWSGRKMRRMRAAKLTIISLVAAFVLTAPIFAHY				NA	NA	NA	NA	NA
BMS010_06433	288			hypothetical protein	ATGTCTTCCGCATATGAAAATTGCATCATCACATCGCAGGACCTGAAAATGCTGCAGTCAGTGCTGGAAGGTCTCGGTTATGACAGCCACACCATGGATGACGAAGTCATTCTCTACAACAATGCCGCCCGCAAGGTGATCGAGCTCTTTCAGGATGGCTTGACCGACCCTGCCGATATTTCGCAGGAAATGCTGTTCCTGTTCGGCGTTCACAAACATGAACGCGTCAAACCGTGGAAACCGCTGCCGCGTTACGCCATTCAGGGCTTGCCGCCTCTTTACCGGTGA	MSSAYENCIITSQDLKMLQSVLEGLGYDSHTMDDEVILYNNAARKVIELFQDGLTDPADISQEMLFLFGVHKHERVKPWKPLPRYAIQGLPPLYR				NA	NA	NA	NA	NA
BMS010_06435	138			hypothetical protein	GTGGCCAAGGGTCAATTGCGCAGCAACAAGGAAATCCGCAAACCGAAGAAGGACAAGACGAAAGCGCCTGCCGCGCCGCCCACCGGTTCGCAGGTCAAATTCGCAAACGCCACGACAGCGGATAGCAAAAAGAAATAG	MAKGQLRSNKEIRKPKKDKTKAPAAPPTGSQVKFANATTADSKKK				NA	NA	NA	NA	NA
BMS010_06436	216			hypothetical protein	ATGGCCGCGTCAAAGGAAGCTTTTTTCAAACCCGGCAAACTATCCGCACAGGACAGGGCGTCATTGACGGATAACGCCGCAAAGCAGATCATAAACGCCGAGGCCGACCAGCGCGCCCGCAAAACGGAACGCCTTCGCCAGCTTCGCGAAGCACAGGAAGCGACGATCATCGCCGACGTGCCGGTTTCCGCAAAAAAACGATCCGGCAAGAACTGA	MAASKEAFFKPGKLSAQDRASLTDNAAKQIINAEADQRARKTERLRQLREAQEATIIADVPVSAKKRSGKN				NA	NA	NA	NA	NA
BMS010_06437	210	cspA_2	COG1278	Cold shock protein CspA	ATGAACACTGGTACTGTAAAGTGGTTCAACGCCACCAAGGGCTTCGGCTTCATTCAGCCTGACAATGGCGGCACGGACGTTTTCGTTCACATCTCCGCTGTTGAGCGCGCTGGCATGCGTTCGCTGAACGACGGCCAGAAGATCAGCTACGAGATCGTCCAGGACCGTCGGTCCGGCAAAAGCTCGGCTGATAACCTTCAGGCAGCTTGA	MNTGTVKWFNATKGFGFIQPDNGGTDVFVHISAVERAGMRSLNDGQKISYEIVQDRRSGKSSADNLQAA	PGPT0014675_4223	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
BMS010_06438	171			hypothetical protein	ATGACCAAGAAAACGAAGCCGAAAACAGTCGACAAACGGCCTTCCAGCCCGAACGACATTCCTCCCGCCGGCCCGCACGCCAAACCGTCCCTCACCGACTATGACAAGACGCCGGGCGCAGGCAGCCTGCCGGATGACCGTGCGAAGGACGTGTCTCCCGGTGGAGGTTGA	MTKKTKPKTVDKRPSSPNDIPPAGPHAKPSLTDYDKTPGAGSLPDDRAKDVSPGGG				NA	NA	NA	NA	NA
BMS010_06439	120			hypothetical protein	ATGTCCAGTTTTGAATCCTTCGTTCCGCTCATCATCATCGGCCTCAGCCTCGTCGTATTTTTCAAATGGGTGGGGCGAGATATGAACCGGGAAGAGAAAAAGCCGCGTTCCCGCCGCTGA	MSSFESFVPLIIIGLSLVVFFKWVGRDMNREEKKPRSRR				NA	NA	NA	NA	NA
BMS010_06440	1236	yteT_2	COG0673	Putative oxidoreductase YteT	ATGCCTGAAAAGGTGAAACGCAAACGCTATGCGCTGGTCGGCACCGGCAATCGCGGCACCACCATGTGGGGCCGGGAACTTCTGGCCGGCTGGAGCGACTATGTCGAACTGGTCGGCATTTGCGACCTGAACCTGATGCGCGCCGAACGCGCCCGCGCCATGATGGGATCGAGCGCGCCGCTTTACGACGATTTCGACCGGATGATGGAGGAGCAGCGACCCGAGCTGGTGATCGTCTGCACACCTGATGACACACATGACGACATCATCATCCGGGCGCTGGAAGGCGGGGCCGATGTCATCAGCGAAAAACCCATGACCACCACCCCGGAAAAGATCGACCGTATTCGCGCTGCGGAGGCCAAAAGCGGCCGCCGCGTCGACGTCTCCTTCAATTACCGTTTCTCTCCCACCGCTGCCCGCATCAAGGAGCTGATCGACGAAGGCGCCATCGGCACCGTCACCTCGGTCGATTTCCACTGGTATCTGGATAACCAGCACGGCGCAGATTATTTCCGCCGCTGGCACGCCTTTACCGAGCATTCCGGCAGCCTGTTCGTGCACAAGGCGACCCACCATTTCGATCTCTTGAACTGGTATCTCGATTCCGATCCCGTGGAGGTGAAGGGCTTCGGGCAATTGCTGCATTATGGCAAGAACGGTCCGTTCCGCGGAACGCGCTGTCGCACCTGTCCGCACAAGAACGAGTGCGATTATTTCATGGATCTCGGGGCCGATCCTTTTCTCGATGCGCTTTATGAAGACCCTTCGACGGTGGACGGTTATGTGCGCGATGCCTGCGTCTTCCGCGAGGAGATCGACATTCCCGATACGATGAGCGCCTCGATCCGTTATGCCAGCGGCGTGCAGGTCTCCTATTCGCTCAACACCTATATGCCGATCGAGGGCCACCACATCGCCTTCAACGGCCATAAGGGCCGCATCGAGATGCGCCAGTATGAAAAGCAGCCCTGGACGGAACCGCCGGCCGATGAAATCCTGCTGGTGAAAAGTTTTGGCGGCGGTGTCGAGCATATCTGGGTGCCGCATGAGCCGGGCGGCCATTATGGCGGCGACAACCGCATGCGCGACATGATCTTCAAGCCCGGCTCCAACGACCGGCTACGGCAGCGGGCGGGCTCGCGCGCCGGCGCCATGTCCGTCCTGACAGGGGTGGCGGCGCTGAAAAGCGCCCGTGAAGGCGGCACGGCAGCGGTGAAATCGCTGCCGGTTTAA	MPEKVKRKRYALVGTGNRGTTMWGRELLAGWSDYVELVGICDLNLMRAERARAMMGSSAPLYDDFDRMMEEQRPELVIVCTPDDTHDDIIIRALEGGADVISEKPMTTTPEKIDRIRAAEAKSGRRVDVSFNYRFSPTAARIKELIDEGAIGTVTSVDFHWYLDNQHGADYFRRWHAFTEHSGSLFVHKATHHFDLLNWYLDSDPVEVKGFGQLLHYGKNGPFRGTRCRTCPHKNECDYFMDLGADPFLDALYEDPSTVDGYVRDACVFREEIDIPDTMSASIRYASGVQVSYSLNTYMPIEGHHIAFNGHKGRIEMRQYEKQPWTEPPADEILLVKSFGGGVEHIWVPHEPGGHYGGDNRMRDMIFKPGSNDRLRQRAGSRAGAMSVLTGVAALKSAREGGTAAVKSLPV				NA	NA	NA	NA	NA
BMS010_06441	822			hypothetical protein	ATGAGCCTTGAAGGCCTTTCCATCAATTTCGCCACCGTGCGTCAGGGCGGAGACTTCGGCGCAATCGTCGATGCCTGCCTCGCGCACGGCATAACCGCCATCTCGCCCTGGCGTGAGCAGGTGCATGGCGTTGGCCTTGCTGAAGCCGCCCGCATTGTCGAGCATAACGGCCTGCGCCTCAGCGGCCATTGCCGGGGCGGCTTTTTCCCCGCGCCCAATGCGGAAGGCCGCCGCCTCGCCATCGAGGACAATAAACGCGCCGTCGATGAGGCAGCCGCCATGAAGGCAGACTGCCTTGTGCTGGTCGTGGGCGGCCTGCCCGCCGCCTCACGCGACCTGAAGGGCGCGCGGCAGATGGTGGAGGACGGCATGGCCGAGCTTCTTCCCTATGCGCGGGCTGCCGGCGTGCCGCTCGCCATCGAGCCGCTGCACCCCTTTTATGCCGCCGACCGCGCCTGCTTCAACACGTTGAAACAGTCGCTCGATCTCTGCGACAGGCTGGGTGCCGGCACCGGTGTCGCCATCGATGTCTACCACGTCTGGTGGGATCCGGAACTGGAAGAACAGGTGGCGCGCGCCGGCAGGAACGGGCAAATTCTCGCCCACCATATCTGCGACTGGCTGGTGCCGACCACCGATCCGCTCAACGATCGCGGCATGATGGGCGACGGCGTGATTGACCTCAAGGCATTTCGCGCCATGATCGAGGCCGCCGGCTTCCACGGCCCGCAGGAAGTGGAAATCTTTTCGCATCGCTGGCAGGCGCGCCCGATGGACGAGGTCCTGGCCACCGTAGTCGAGCGTTTCAAGACTGTTTGTTGA	MSLEGLSINFATVRQGGDFGAIVDACLAHGITAISPWREQVHGVGLAEAARIVEHNGLRLSGHCRGGFFPAPNAEGRRLAIEDNKRAVDEAAAMKADCLVLVVGGLPAASRDLKGARQMVEDGMAELLPYARAAGVPLAIEPLHPFYAADRACFNTLKQSLDLCDRLGAGTGVAIDVYHVWWDPELEEQVARAGRNGQILAHHICDWLVPTTDPLNDRGMMGDGVIDLKAFRAMIEAAGFHGPQEVEIFSHRWQARPMDEVLATVVERFKTVC				NA	NA	NA	NA	NA
BMS010_06442	1164			hypothetical protein	GTGAGCGAACTCAAGCTTCCGAAGGACGACCGCAGCATCGAGGTCTACAGACTATCAGGCACGCCGGTCGCGGTTGAGAAACGAAGTGCGGCGGATTTCAACCGCGTCGCCTTCGCGGCCGCCCATGTGGTGGCCGATCCCCTTGCCGATAACGACCCATGGCTGACGCCCGCCATCGACTGGGACGCGACGCTGCGTTTCCGTCACCGCCTGTGGGATCTCGGCCTCGGTGTTGCCGAGGCCATGGATACGGCCCAGCGCGGCATGGGGCTGGCGTGGCCGCAGGCGCAGGAACTGATTTCCCGTTCGCTGAAGGAGGCGGCCAGCCGCAAGGATGCGCTGATTGCCTGCGGCGTCGGCACCGATCATCTGAATGGCGGCGGTTACGACCTGAACCAGATTGTCGACTCTTATCTCGAACAGCTTGATTTTGTTCAGGGAGAAGGCGGACGCGTGATCCTGATGGCGAGCCGCGCTCTGGCCGCTGCCGCCCGTTCGCCGGATGATTATCTCAAGGCTTATGCCAGAGTTTTATCCCATGCCGACCAGAAAGTGGTGATCCACTGGCTGGGCGAAATGTTCGATCCCGCGCTTGAGGGTTATTGGGGTTCCGGTGACCACATGCAGGCCATGGAAACCTGCCTTGCCATGATCGAAGAGAATGCCGACAGGATCGACGGCATCAAGATTTCGCTTCTCTCCAAGGAAAAGGAAATCGTCATGCGCCGCCGCCTGCCATCAGGCGTGCGCATGTATACCGGTGACGATTTCAACTATGCCGAACTGATCGCCGGTGACGAGAAGGGCCATTCGGATGCCCTGCTCGGCATTTTCGACGCCATAGCGCCTGCGGCTTCGAAAGCGCTGGCCTGCCTGAAGCGCGGGGCGGACAACGAGTTCTTCGATATTCTGGAGCCGACGGTGGCGCTGTCGCGCCATATCTTCAAGGCCCCGACCCGCTTCTATAAGACCGGCGTGGTGTTCCTCGCCTATCTCAACGGGTTGCAGGACCACTTCACCATGGTCGGCGGGCAGGAAAGCACCCGCTCCACGCAGCATTTCGCTGAGCTTTTCCGGCTGGCGGACAGGGCCAATGTGCTCGCCGAGCCGGATCTGGCGACGCAGCGCATGAAGGCGTTTCTGGCCGTCCGTGGCATCGGGTGA	MSELKLPKDDRSIEVYRLSGTPVAVEKRSAADFNRVAFAAAHVVADPLADNDPWLTPAIDWDATLRFRHRLWDLGLGVAEAMDTAQRGMGLAWPQAQELISRSLKEAASRKDALIACGVGTDHLNGGGYDLNQIVDSYLEQLDFVQGEGGRVILMASRALAAAARSPDDYLKAYARVLSHADQKVVIHWLGEMFDPALEGYWGSGDHMQAMETCLAMIEENADRIDGIKISLLSKEKEIVMRRRLPSGVRMYTGDDFNYAELIAGDEKGHSDALLGIFDAIAPAASKALACLKRGADNEFFDILEPTVALSRHIFKAPTRFYKTGVVFLAYLNGLQDHFTMVGGQESTRSTQHFAELFRLADRANVLAEPDLATQRMKAFLAVRGIG				NA	NA	NA	NA	NA
BMS010_06443	1143	xdh_2		D-xylose dehydrogenase	ATGAAACGTATCGGCGTCATCATGCACGGCATCACCGGCCGCATGGGTTACAACCAGCATCTCGTACGCTCCGTTCTCGCCATTCGCGATCAGGGCGGCGTGCTGTTGAAAAACGGCGAAAGGGTCATGCTCGACCCCATTTTGGTCGGCCGCAACGGCGCAAAGATCGAGGAAATCGCGAAAAAGCATAATGTCGCGCGCTGGACGACCGATATCGATGCGGCGCTGGCGAACCCCGACGATACGCTGTTCTTCGATGCCGGCACGACACAGATGCGCGGCAGCCTGCTGGAGAAAGCCATCAAGGCCGGCAAGAACGTTTACTGCGAAAAGCCGATTTCCGACACGATGGAAGAGGCGCTGGCCATTGCCCGGCTTGCCGAAAGCGCCGGCATCAAACACGGCGTCGTTCAGGACAAGCTTTTCCTGCCCGGCCTGCGCAAGCTCGCTATGCTGCGCGACAGCGGCTTCTTCGGCAAAATCCTATCGGTGCGCGGCGAGTTTGGTTACTGGGTGTTCGAAGGCGACTGGCAGCCGGCGCAGCGCCCTTCTTGGAATTACCGTCTGAAAGATGGCGGCGGCATCATTCTCGATATGCTGTGCCACTGGCGTTATGTGCTCGACAATCTGTTCGGGCCGGTGAAATCCGTCAGCTGCCTCGGCGCGACCCATGTTCCGGAACGTTTCGATGAGCAGGGCAAAGCCTATAAGGCGGATGCTGACGATGCCGCTTATGCGACCTTTGAGCTGGAAGGCGGCGTGATCGCCCACATCAACTCCTCATGGGCGGTGCGGGTGCGCCGCGACGACCTCGTGACCTTCCAGGTCGACGGCACGCATGGTTCGGCGGTGGCGGGCCTGACAAAATGCTTTACCCAGCACCGCACCAACACGCCGAAGCCGGTGTGGAACCCCGACCAGCCGCAGACCATCGATTTCTACAAGACCTGGCAGGAGGTGCCGGACAATGTCGTCTATGACAACGGCTTCAAGGCGCAGTGGGAAATGTTCGTGCGCCACCTCGTCGACAACGATCCGTGGCCCTATGGCCTCATGGAAGGCGTGAAAGGCGTGCAGCTAGCCGAGCTTGGACTGAAATCCTGGAAGGAACGCCGCTGGCTCGACGTTCCCGCCCTTTCCTGA	MKRIGVIMHGITGRMGYNQHLVRSVLAIRDQGGVLLKNGERVMLDPILVGRNGAKIEEIAKKHNVARWTTDIDAALANPDDTLFFDAGTTQMRGSLLEKAIKAGKNVYCEKPISDTMEEALAIARLAESAGIKHGVVQDKLFLPGLRKLAMLRDSGFFGKILSVRGEFGYWVFEGDWQPAQRPSWNYRLKDGGGIILDMLCHWRYVLDNLFGPVKSVSCLGATHVPERFDEQGKAYKADADDAAYATFELEGGVIAHINSSWAVRVRRDDLVTFQVDGTHGSAVAGLTKCFTQHRTNTPKPVWNPDQPQTIDFYKTWQEVPDNVVYDNGFKAQWEMFVRHLVDNDPWPYGLMEGVKGVQLAELGLKSWKERRWLDVPALS				NA	NA	NA	NA	NA
BMS010_06444	711	nicS_3		HTH-type transcriptional repressor NicS	ATGGAAGAAACGACAAAAAACCAGCCGTCCGATCCTGCTCCCGATGCGGCCATGGAGAAAACGCCGTCACCCAAGCGCAAACGCGCGACGACACAGGTGCGAAACCCGGAAAGAACGCGCGCCGCCATTCTCGAAGCCGCCCGCCGCGAGGTGGCCGCCAAGGGGCTGGCGGGGGCTCGAATCGATGTCGTCGCCCGCCGCGCCGGCACCAACAAGCGGATGATCTACCATTATTTTGGCGACAAGGATGCGCTTTATCTCGCCGTTCTGGAAGACGCCTACCGCCATATCCGCCACACCGAGAGACGGCTTGACCTGGCCCGCAAGGCCCCTTCGGAGGGCTTGCGCGAGCTTGCGCTTTTCACCTGGCACTACTTCCTCGACCACCCCGAATTCCTCAGCATCCTCGCCACGGAAAACCTCAATAAAGCCCGCTATCTCAGGCAATCCCCGACGATTACGGCGATGCATTCGAATTTCATTTCAGAGCTGGAAGACGTTCTGCGGCGCGGCAGCAACGCGGGCGAATTCCGTGACGGCCTCGATCCGATCGACGTCTATCTGACCATCGCTTCGCTCGGCGCTTTTTATCTTTCGAACCGGTTCACGCTGTCGACCATCTTCCAGCGCGACCTGACAGACCCCGCCGAACTCGAACGCTGGGGCCAGCATATCGTCGACACCCTGCTTGCTGCAGTGCGGCCGGTCTGA	MEETTKNQPSDPAPDAAMEKTPSPKRKRATTQVRNPERTRAAILEAARREVAAKGLAGARIDVVARRAGTNKRMIYHYFGDKDALYLAVLEDAYRHIRHTERRLDLARKAPSEGLRELALFTWHYFLDHPEFLSILATENLNKARYLRQSPTITAMHSNFISELEDVLRRGSNAGEFRDGLDPIDVYLTIASLGAFYLSNRFTLSTIFQRDLTDPAELERWGQHIVDTLLAAVRPV				NA	NA	NA	NA	NA
BMS010_06445	1290	yesO_2	COG1653	Putative ABC transporter substrate-binding protein YesO	ATGCCCGTGATGCTTCAGAGGAGAGGTGTGCTTTCAGCGGGGCTTGCGGCCCTGTCGCTTGCAACACTGGGAGGTGGTTCAGCGCAGGCCCAGGCCGCGCGCCTTCGCATGTTGTGGTGGGGGTCGCAGGAACGCGCCGACCGCACCAACAAGGCGATAGCAGCCTATAAGCAGGTCAAGCCGGATCTCGATATTGCCGGTGAATTCGCAGGCTGGAGTGATTATTGGCCGCGCCTTGCCACGCAGGTGGCGGGCCGCAACGCGCCTGACCTGATTCAGATGGATTATCGTTACATCTTCGAATATGGCCGTCGCGGCGCGTTGGCACCCCTCGATGAATATATCGGCAAGGGCCTGAAGATCGAGGATTTCGGCAAGATGAACATCGATTCCGGCCGGGTCGATGGCAAGCTTTACGGCATCAATCTCGGCGTCAATTCCAGCGCCGTCTTCTTCGACAAGGCGGCCTGGGAAAAATCCGGTGCGACACCGCCGGCTATCGGCCAGACCTGGGAGGAGTTTGCCGAAAATGCCGCCAAGCTCAGCAAGAACAAGCCGAAGCCGGGTTATTACGCCACGGCGGATGCCAGCGGCGTGGAGCCGAGCTTCGAGAACTGGCTGCGCCAGAACGGCAAGTCGCTTTACACGCAGGATGGCGGCATCGGCTTCGATCCTGCCGATGCGACCAAGTGGTTCACTTTGTGGGCGGATCTGCGTAAGAGCGGCGCCTGTGTGCCGGCCGATGTGCAGGCGCTCGACCAGCTCAACATCGAAACGAACCCTTTGACGACGGGCAAGGCGGCAACCGCATTCGCCCATTCCAACCAGTTCGTCGGTTATCAGAAGCTCAACAAGTCCAAGCTTGCCATAAGCTCCTATCCGAAGAGCACCAAGGATGGCCCTTCCGGCCATTATCTGAAACCCTCCATGCTCATCAGCGTCGCCAATGGCAGCGCCGGCATCGAGCAGGCCGTCGGTTTCATCAACTTCCTTGTGGCTGAACCGCAGGGCATCGATATTCTCGGCGTCGAGCGCGGCGTTCCTGCTTCGGAATCCATGCGTAGCCAGTTGAGCAGCAAGCTCGACGAGGTGAGCAAGACGATGGTGGACTATATTGCCGAGATTACCCCCGGCGTCGGCGATCTGCCGCCGGCGCCGCCTCCGGGCGCGGGCGAATTCGCCTTCGTCCTCAAACGCACGGCGGAGGAAATCGGCTTCGGCAAGATCACGCCGGAAGAGGGCGGTGACCGCCTCGTCAAGGAATCCGAAACCGTTATCAAACGGAAGTGA	MPVMLQRRGVLSAGLAALSLATLGGGSAQAQAARLRMLWWGSQERADRTNKAIAAYKQVKPDLDIAGEFAGWSDYWPRLATQVAGRNAPDLIQMDYRYIFEYGRRGALAPLDEYIGKGLKIEDFGKMNIDSGRVDGKLYGINLGVNSSAVFFDKAAWEKSGATPPAIGQTWEEFAENAAKLSKNKPKPGYYATADASGVEPSFENWLRQNGKSLYTQDGGIGFDPADATKWFTLWADLRKSGACVPADVQALDQLNIETNPLTTGKAATAFAHSNQFVGYQKLNKSKLAISSYPKSTKDGPSGHYLKPSMLISVANGSAGIEQAVGFINFLVAEPQGIDILGVERGVPASESMRSQLSSKLDEVSKTMVDYIAEITPGVGDLPPAPPPGAGEFAFVLKRTAEEIGFGKITPEEGGDRLVKESETVIKRK	PGPT0016545_7067	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
BMS010_06446	954	lacF_7		Lactose transport system permease protein LacF	ATGGCCTTTCGATCTGAAACTCTTGTGGGGGAGAGCCGTGGCGCGGCTCTCCCGAAGCGGGGCGGCGTGAAGCGGATTTTCGACCGCAACATTCACGCCTACCTGTTTCTGCTGCCCTGGCTGATTGGCTTTTTCGGCCTCACCCTCGGTCCCGCGCTTGCGTCGCTTTACCTGTCTTTCACCAATTACGACCTGTTGCAGTCGCCGGACTGGGTGGGGGCGGCCAATTATGTGCGCATCGCCACGGCCGATCCGAAATTTGCCGCAGCCATGCAGGTCACCTTCACCTATGTGCTGCTGTCAGTGCCGCTGAAGCTGATCTTCGCGCTGCTCGTCGCGCTCGCCTTCAACCGCGGCATCAAGGGGCTGACGCTTTATCGTGCGATCTTCTACCTGCCGTCGCTGCTGGGTTCGAGCGTCGCGATTGCCGTGCTCTGGCGCCAGCTTTTCGCCTCTGACGGTCTCGTCAACATGGTCCTCTGGCAGGCCTTCGGTTACGAAGGGCCGAGCTGGATTTCCAATCCGGATTATTCGATCTACACGCTGGTCATCCTGTCCGTCTGGCAGTTCGGTTCGCCGATGATCATCTTCCTCGCGGGTCTGAGACAAATCCCGCAGGACATGTATGAAGCCGCCGAAATCGACGGCGCGAGCAAGGTGCGGCAGTTCTTCCGCATTACCCTGCCGCTGTTGACGCCGGTGATCTTCTTCAACGCGGTGATCCAGACCATCGACGCTTTCAAGGCCTTCACGCCCGCCTTCATCATTTCCGAAGGCACCGGCGGTCCGATCAACTCGACGCTGTTCTACACGCTTTACCTCTATCAGGAAGCCTTCGGTTTCTTCCGCATGGGTTATGCCTCGGCGCTTGCCTGGATTTTGGTGATCATCATCTCGCTGTTCACGGCCTTCTCGTTCCTCAGCGCGAAATACTGGGTGCACTACGATGACTGA	MAFRSETLVGESRGAALPKRGGVKRIFDRNIHAYLFLLPWLIGFFGLTLGPALASLYLSFTNYDLLQSPDWVGAANYVRIATADPKFAAAMQVTFTYVLLSVPLKLIFALLVALAFNRGIKGLTLYRAIFYLPSLLGSSVAIAVLWRQLFASDGLVNMVLWQAFGYEGPSWISNPDYSIYTLVILSVWQFGSPMIIFLAGLRQIPQDMYEAAEIDGASKVRQFFRITLPLLTPVIFFNAVIQTIDAFKAFTPAFIISEGTGGPINSTLFYTLYLYQEAFGFFRMGYASALAWILVIIISLFTAFSFLSAKYWVHYDD	PGPT0016535_2346	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
BMS010_06447	876	araQ_4	COG0395	L-arabinose transport system permease protein AraQ	ATGACTGATGCTGTTACCGCCCCCCGGCCGGGCCAGGGCCCGCAACGTTCGCCGCTGAAATCGGTGATGCTCCACACGGCGCTGATCATCGCGTCCTTCGCGATGCTCTATCCGATCCTGTGGATGATATCGGGTTCCTTCCGGCCGCAGGACGAGCTGTTCGGCTCTTCCTCGCTCATTCCCTCGGCGGTGGATGTCGGCGGATATATTCGCGGCTGGACCGGGCTGCAGGTGAGCTTCGGGCAGTTCTTCTGGAACTCCTTCTTCATCTCGGTGCTGGCCACCATAGGCAACGTGGTCGGTTGCTCGCTCGCCGCCTTCGCTTTTGCCCGGCTTCGCTTCGGAGGGCGCAATTTCTGGTTCGCGCTGATGCTCGGCACGCTCATGCTGCCCTATCACGTCGTGCTCATTCCGCAGTATATCCTGTTTCTGGAAATGGGCTGGGTGAACACCTCGCTGCCGCTGATCGTGCCGAAGTATCTCGCGACGGATGCCTTCTTCATCTTCCTGATGGTGCAGTTCTTTCGCGGTATCCCGCGTGAATTGGACGAGGCGGCTGTTATGGATGGCTGCTCGCCCTTCCGCATTTACTGGAAGATCATGCTGCCCCTGTCGCTGCCGGTGCTCGCAACGGCTGCTATCTTTTCCTTCATCTGGACATGGGACGATTTCTTCGGTCCGCTGATCTATCTGAACGACATCAACACCTACACCGTGCAGCTCGGCCTCAGATCCTTCGTGGATTCCACCGGCAGCTCGGACTGGACCTCGCTTTTCGCCATGTCCAACCTGTCGCTGGTGCCGGTCTTCCTGTTCTTCCTGTTCTTCCAACGGCTGCTGATCGAAGGCATCGCCACCACCGGAATGAAACGCTGA	MTDAVTAPRPGQGPQRSPLKSVMLHTALIIASFAMLYPILWMISGSFRPQDELFGSSSLIPSAVDVGGYIRGWTGLQVSFGQFFWNSFFISVLATIGNVVGCSLAAFAFARLRFGGRNFWFALMLGTLMLPYHVVLIPQYILFLEMGWVNTSLPLIVPKYLATDAFFIFLMVQFFRGIPRELDEAAVMDGCSPFRIYWKIMLPLSLPVLATAAIFSFIWTWDDFFGPLIYLNDINTYTVQLGLRSFVDSTGSSDWTSLFAMSNLSLVPVFLFFLFFQRLLIEGIATTGMKR	PGPT0016540_3455	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
BMS010_06448	1077	malK_7		Maltose/maltodextrin import ATP-binding protein MalK	ATGGCAAGCAGCATTACGCTCGAAAAAATCGTCAAGCGGTTCGGCGCTTTTCCGGTCGTTCACGGCATCGATCTCAAGATCGAACCGGGCGAGTTCACCGTTTTCGTCGGCCCCTCGGGCTGTGGCAAATCCACGCTTCTGCGCATGATTGCAGGGCTTGAGGAAATCTCCGAAGGCGATCTGCGTATCGATGGCGAAAGGGTCAACGAAACCGCCGCATCCAAGCGCGGCATCGCCATGGTCTTCCAGTCCTATGCGCTTTATCCGCATATGAGCGTCTACAAGAACCTTGCCTTCGGTCTGGAGACGGCAGGCTACAAGAAACCGGAAGTCCAGGCGCGGGTGCAGAAGGCCGCCGATATCCTGCAGATCGGCCCGCTTTTGCAGCGCAAGCCGAAGGCGCTTTCCGGCGGCCAGCGCCAGCGCGTCGCCATCGGCCGCGCCATCGTGCGCGAACCGAAAATCTTCCTGTTCGACGAGCCCTTGTCCAACCTCGATGCGGAACTGCGCGTGCAGATGCGCGTCGAAATCGCCAAGCTGCACCAGACGCTCGGCAGCACCATGATCTATGTGACGCACGACCAGGTGGAAGCCATGACCATGGCCGACAAGATCGTCGTGCTGCGCGACGGCCGCATCATGCAGGTCGGCCGCCCGCTCGATCTCTACAACAACCCCTCCAACCAGTTCGTCGCCGGTTTCATCGGCTCGCCGAAGATGAATTTCCTCTCCGCGAAAGTGGCTTCAGGCGACAGTTCCAACCGCACCATCGAAGTGGCCGGCCAGCGCATCGTGCTGGAAAAACCGGTCGCCGCGCAACAGGGCGAACCGCTCACCTTCGGCGTGCGCCCGGAACATGTGAACCCGCAGGCGCAATCCGCCTCTCTGGGTGAGGCCTCCATCCAGCTCGTCGAACATCTCGGCGGCTCAACGGTGGTCTACACCGCGACCCCCGACGGCCAGCCCGCCACCGTGCTGCTGGACGGCCAGCGCCATATCCGCATCGGCGAGACCATTCCCTTTGCGTTCGATCTTTCTAAGACGCATCTCTTCGGGGCGGATGGGCGGCGGATATGA	MASSITLEKIVKRFGAFPVVHGIDLKIEPGEFTVFVGPSGCGKSTLLRMIAGLEEISEGDLRIDGERVNETAASKRGIAMVFQSYALYPHMSVYKNLAFGLETAGYKKPEVQARVQKAADILQIGPLLQRKPKALSGGQRQRVAIGRAIVREPKIFLFDEPLSNLDAELRVQMRVEIAKLHQTLGSTMIYVTHDQVEAMTMADKIVVLRDGRIMQVGRPLDLYNNPSNQFVAGFIGSPKMNFLSAKVASGDSSNRTIEVAGQRIVLEKPVAAQQGEPLTFGVRPEHVNPQAQSASLGEASIQLVEHLGGSTVVYTATPDGQPATVLLDGQRHIRIGETIPFAFDLSKTHLFGADGRRI	PGPT0014160_1454	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0014160-malK|mtlK|thuK-K10111	NA	NA
BMS010_06449	789			hypothetical protein	ATGAGATTTTTCGAGCCGGGCCTCTGCTCCGTCACCTTCCGCTCCCTGTCGCCACAAGCCGTCATCGAGCTTGCCGCCGCAAACGGCATCAGGTCCATCGAATGGGGCGCGGATATCCATGTACCGCCCGGCGATCTCGAAAATGCAAGGGATGTGGCGGCGCGGACAGCGCAAGCCGGCCTCTCCGTCTCCTCTTACGGCTCCTATATCTTTGCGCCGGATTTTGCGCCGGAAGATGTGACCGCCGTGCTCGAAACCGCAAAGGCCCTCGGAACCGGCCATATCCGCATCTGGCCCGGCAGCCGCAAACGCCCATCTGCCGATTACTCCCCCGGAGAACGCCGCGCGGCAACGGAAGCGCTGGCGACAATCGCCCGCCGGGCGCACGACCACGGCATCACAATCGGCCTCGAATATCACCCCAACTCCCTGACGGACACCCTGCCCTCGGCCCTGCAACTCATGCAGGATTTGCCGATGCCCAACCTGTTTTTCTACTGGCAACCCGCCCCCGGCCTGCCGCTGGAGGACGCACTCGCGGAAATATCGGCAATCGGCCGACGCATCTGCCATCTCCACGTCTTCGCCTGGCTCGCCGACGCCAGCCGCCTGCCGCTTCACGAACGCGCGGATTATTGGCGGGCGGGCGTGGATGCATTGCCGGAAGGCGCCTGGACGAAACCAGCCTATGCGATGCTGGAATTCGTCAGGGGTGATGACATCGGCCAGTTTGGGGAAGATGCGGTGACGCTAAGCAAGATACTCGCTGGCCACAGAGCGGCCGATTAG	MRFFEPGLCSVTFRSLSPQAVIELAAANGIRSIEWGADIHVPPGDLENARDVAARTAQAGLSVSSYGSYIFAPDFAPEDVTAVLETAKALGTGHIRIWPGSRKRPSADYSPGERRAATEALATIARRAHDHGITIGLEYHPNSLTDTLPSALQLMQDLPMPNLFFYWQPAPGLPLEDALAEISAIGRRICHLHVFAWLADASRLPLHERADYWRAGVDALPEGAWTKPAYAMLEFVRGDDIGQFGEDAVTLSKILAGHRAAD	PGPT0003570_130	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-PETROBACTIN_BIOSYNTHESIS,PGPT0003570-asbF-K15652	NA	NA
BMS010_06450	1017		COG0111	Hydroxypyruvate reductase	ATGACGAGCCCGCTTCCGCGTCTCAGCCTTGCCATGGACCCGGAGCGAACCCAGCATGTGCTGACACCGCAGGCGCTTGAAAGGCTGTCGCAGAGCGTCCATATTCTCGACACGGGGCGGATCTGCGATTTCCACGATCCCGCAGTGAAAGAGCAGCTGGCGCGGACGGATATTCTTCTGACCGGCTGGGGCTGCCCGGAAATCGGCGCGCGGGAGCTGGCGCTGATGCCCCGCGTCAGGCTGATTTCCCATGCCGCCGGCACGGTCAAATATTTCCTGTCGCAAGCGGTGTTCGACCGTGGCGTTACCGTGTGCAGCGCGGCGGAGGCGAATGCACAGCCGGTCGCCGAATTTTCGCTGGCGATGATCCTGCTCGCCGGCAAGCGCACCTTCGGCTTCCGACGCCTTTATCTGGAGCATCGCGACCGCGCCCCTGTCGAGCGACTGCAGGCGCAGGCCATCGGCAATCTCGGCCTGACGGTCGGCATCGTCGGCGCATCGCGCATCGGACGTCGCGTCATCAATCTGTTGCAGCCCTTCGATCTCAACCTCATCCTTTTCGATCCGCTTCTAAGCGCTGCGGAGGCGGAAAAGCTCGGCGTGCAGCTTGTGTCGCTCGAGGAGCTGATGGCGGTGAGCGATGTCATTTCGCTGCATGCACCCTCCCTGCCGCAGACGCGGCATATGATCGGTGCGGCAGCGCTTGCCCGCATGAAGGACGGCGCGACCCTGATCAATACGGCGCGCGGCGCACTGGTGGATGAAAACGCGCTTCTGGCCGAACTGAAAACCGGACGCATCGAAGCCGTCATCGACGTGACCGACCCGGAAGTGCCGCCGCCGGACTCACCCTTTTACAGCCTGCCGAACGTGTTCCTGACGCCGCATGTCGCTGGCGCCACCGGGCTCGAACGCGCAAGGCTCGGCGACATGGCGATTGCCGAAATCGAACGCTTCTGCCGCGCGGCACCCTTGCAACAGCAGGTGCGGCCGGAACATCTGGAACTGATCGCATGA	MTSPLPRLSLAMDPERTQHVLTPQALERLSQSVHILDTGRICDFHDPAVKEQLARTDILLTGWGCPEIGARELALMPRVRLISHAAGTVKYFLSQAVFDRGVTVCSAAEANAQPVAEFSLAMILLAGKRTFGFRRLYLEHRDRAPVERLQAQAIGNLGLTVGIVGASRIGRRVINLLQPFDLNLILFDPLLSAAEAEKLGVQLVSLEELMAVSDVISLHAPSLPQTRHMIGAAALARMKDGATLINTARGALVDENALLAELKTGRIEAVIDVTDPEVPPPDSPFYSLPNVFLTPHVAGATGLERARLGDMAIAEIERFCRAAPLQQQVRPEHLELIA				NA	NA	NA	NA	NA
BMS010_06451	1878			hypothetical protein	ATGCATGACACCATGAGTAAGCCCACCATGGCCAGATTTAATCCGCTGCATGGCAATCCGCTCAAAAGCCGCGTCGATGTCCGACGAGCGCTCGACGACAGTTTCGCGCCGCTCCTTCCCTATTTTTCACCGGGCGGCGCAAGAGTGACGCTGAGCGGCACCGCCGCGCATTTCGACCGGGCGGCGGCCGATCTGGAAGGTTTCGCCAGGCCGCTCTGGGGCATCGCGCCGCTTGCGCTGAGCGGCGATCATTTCGACCATTGGCCGCTTCTGGCGCGGGGAATAGCCAACGGCACCGATCCTTCCCATCCCGAATATTGGGGCGACGTGCGCCAAAGGGATCAGCGGCTGGTGGAGCTTGCCGCGCTTGGTTTTGCGCTGCGGCTTGCGCCGCAGCACCTGTGGGAACCGCTCTCCGACGCGCAGAAAGACAATGTGCGCCGCTATCTCCTGACGGCGCGCGAGCGCAATTACGCCGATAATAACTGGAAGTTTTTCCGGGTGATGGTCGATATGGCGCTGGATCATCTCGGCATCGATTTCGACCGCAGCCTGACAGAAACATTCCAGAAGGAACTGGATGAATTCTATATCGCCGACGGCTGGTATCGCGATGGCAATTACCGCCGCATCGACCATTACATCGCCTTTGCCATGCATTTTTACGGCCTGATCTACGCGAAACTCAGCAAGCCTGACGATGCCTACGCCGCACGCTACCGGGAACGGGCGCGCCTCTTTGCCGGCGATTTTGCCAACTGGTTCGATGAGGATGGCGGCACGCTCGCCTTCGGTCGCTCCATGACCTACCGCTTCGCCTGTGGCGGCTTCTGGGCCGGTCTCGCTTTTGCCGATGAGGAGGCGCTGCCCTGGGGCGAGATCAAGGGGCTTTATCTGCAACATCTGCGCTGGTGGGCGAAAAAGCCGATTGCCGACCGCGACGGCGTGCTTTCCATTGGCTACGCCTGTCCGCAGCTCACCATGTCGGAAAGCTATAATTCAGCGGGCTCGCCCTATTGGGCCTTCAAGGCCTTCCTGCCGCTCGCCCTGCCGGAAAGCCACCCCTTCTGGCAGGCAGAGGAAAAGCAGCCCGAAACATCCGCAAAACCAAAGCCGCTCATTCATCCCGGCATGGTTATGATGCAAACGAAGGGCAATGTCACCGCGCTTTCCAGCGGGCAGGAAAACCTCTCCATGCGCGGCGGGCCGGAGAAATATGCCAAATTCGCCTATTCATCCCGTTACGGTTTCGGCGTCGAAGTGGATGAGCGCGGTTTCAGGACCAACGGTTTCGACAATATGCTGGCATTCTCCGAAGACGGCCTGCATTACCGCGTGCGCGAGACCAACGAAAAGGTTCTGCTGGCCGGGGAAAGCCTGCGGGCAACGTGGAAGCCCTTCCCGGATGTGGCGGTTGAAACTTCGCTGGTTGCGGCTGGCGGCTGGCATATCAGGCTGCACCGGATCACCTCCGCCCGCCCCCTTTCGGTGACCGAAGGCGGCTTCGCAATCAACCGCAACGATGGCGACCGCGATGCCGTGCGCGAAGAGACCGGCCGGGCGACAGCCGATTGCGGCACAGACATATCCGCCATTGTCGATCTCGGCTCCAGCATAATCCGCCACGGCGTGGCGCTGAAGGCGCTGCCCAACACCAATCTCATCAACGCCAAGACCACGGTGCCGCAACTGCGGGGCGAGATTCCGGCGGGCGAAACCCTGCTTGCCTGCGCGGTCTTTGCCGGAGTGACCGGGCCAGAAAGCGAAACAGCGTTGGCGACCGTTCCGGCACTTCCGGACATGGAGGCGCTTGACCGCCTGTTTGCGGAACGGGGCGTTCCGGTCAGCAGCATGGCGGCAACGGGAGAGCCGCAATGA	MHDTMSKPTMARFNPLHGNPLKSRVDVRRALDDSFAPLLPYFSPGGARVTLSGTAAHFDRAAADLEGFARPLWGIAPLALSGDHFDHWPLLARGIANGTDPSHPEYWGDVRQRDQRLVELAALGFALRLAPQHLWEPLSDAQKDNVRRYLLTARERNYADNNWKFFRVMVDMALDHLGIDFDRSLTETFQKELDEFYIADGWYRDGNYRRIDHYIAFAMHFYGLIYAKLSKPDDAYAARYRERARLFAGDFANWFDEDGGTLAFGRSMTYRFACGGFWAGLAFADEEALPWGEIKGLYLQHLRWWAKKPIADRDGVLSIGYACPQLTMSESYNSAGSPYWAFKAFLPLALPESHPFWQAEEKQPETSAKPKPLIHPGMVMMQTKGNVTALSSGQENLSMRGGPEKYAKFAYSSRYGFGVEVDERGFRTNGFDNMLAFSEDGLHYRVRETNEKVLLAGESLRATWKPFPDVAVETSLVAAGGWHIRLHRITSARPLSVTEGGFAINRNDGDRDAVREETGRATADCGTDISAIVDLGSSIIRHGVALKALPNTNLINAKTTVPQLRGEIPAGETLLACAVFAGVTGPESETALATVPALPDMEALDRLFAERGVPVSSMAATGEPQ				NA	NA	NA	NA	NA
BMS010_06452	1065	rbsR_2	COG1609	Ribose operon repressor	ATGAACGATACGCCCGACATCAGCCGCCCGCGCCAGTCGGATATCGCCCAGCGCGCCGGCGTTTCCATCAGCACCGTCTCGCGCGTTCTTGCGGGAGAGAAAGGTATCAGCGCGTCGATCCAGACCAAGGTTCTGGGGGTGGCGGCGGAGCTCGGTTATCCGTTGCGACCGGTCGCGAACCAGACCGGCGGCGTGCCGCTGGAGGGCAAGAAAATCCTCGCACTCATGTCCGCCGAAAGGGCGACCGGCGATATCGGCGCTTTTTATCACGATATTTTCGACATGCTGCGCAGCCTTGCCCAGACCGACGGTTTCGAACTCGACATCCGGCTCTTGCACCAGAAACAGGTGGATGATGCGCTGACCCAGCGGGTCTGCGAGGTGGACGGACTTCTCGCCATCGGCCTCGATCCCGAGGATGAAATCATCCACCGCATCACGCAGGGTGTGCTGCAACCGGTTCTGGTCAACAGCGCCGATCCCTCCATGATGCTGGACTGCGTCTCGCCCTCCAATTTTTACGGCGGCGCGCTGGCGGCGCGGCGGCTGCTGCAACTCGGTCACCGCAAGGTCGCCTATATCGGCCCGCATCATCGCCACACCATAAGGGAGCGTATGCGTGGCTTTCGCCACACGATCCTCGAGGAAGAGGGAACGACCTATGAGGAGTTCCTGCTTTCGACGGCGGATAGCGGCTTTGGACAGGCAGGCGATGCGGTTCGCCAGCTATTGGCCAAAAACCCCGAACTCACCGGCATTTTCTGCATGAATGACGCGATTGCGCTCGGGGCGCTCGGGGCGGCGCAGGAGCTTGGCCTCGCCGTGCCGGACGATCTTTCCATTATCGGCTTCGACGACCTGCCCTTTGCCGAACTCTCCACGCCCCGTCTCAGCACGATCCGCGTCGACCGCCGCGAAATCGCCCGCGAGGCGGTGGAGCTGATGCGCCGCCGGCTGACGGAACCCTCCGCCAATGCCCGCCAGGTACAACTTGGCGTGCAGCTGGTGGAAGGACAGACGGCCGGTAAGGCAAAAAAGACGGGAAAGGCGGCACGCGATGCATGA	MNDTPDISRPRQSDIAQRAGVSISTVSRVLAGEKGISASIQTKVLGVAAELGYPLRPVANQTGGVPLEGKKILALMSAERATGDIGAFYHDIFDMLRSLAQTDGFELDIRLLHQKQVDDALTQRVCEVDGLLAIGLDPEDEIIHRITQGVLQPVLVNSADPSMMLDCVSPSNFYGGALAARRLLQLGHRKVAYIGPHHRHTIRERMRGFRHTILEEEGTTYEEFLLSTADSGFGQAGDAVRQLLAKNPELTGIFCMNDAIALGALGAAQELGLAVPDDLSIIGFDDLPFAELSTPRLSTIRVDRREIAREAVELMRRRLTEPSANARQVQLGVQLVEGQTAGKAKKTGKAARDA	PGPT0021075_206	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021075-cytR-K05499	NA	NA
BMS010_06453	1308	yesO_3	COG1653	Putative ABC transporter substrate-binding protein YesO	ATGCAAACTATCGACAGACGTGGATTTTTGGTGACGGCGGCGCTGGCCGGTCTCGGCGTGGTCGGTCTTGGTGCAGTGGGGGGCGGTTTTCGCGCGGCCGCGGCTGAGACGCGGCTTCGCTGCGTATGGTGGGGATCGGCCGACCGCAGCAAGCGCACCAACGACGTGATCGCCCTTTACCAGAAGGCTAACCCGCAAACGGAAATCAGCGGCGAAATGATCGCCGGTTCCGATTACTGGACCAAGCTTGCGACGTCTATGGCGGGGCGCAACGTCGCCGATATCTTCCAGCTTGAACCTTCCACCATCGCCGATTATTCCGGCCGTGGCGCCTGCATGGAGCTGGACCAGTTCGTCGGCAAGTCGCTCGATCTTTCCACCTTCGGCAAAAGCGAGGTCGATCTCTGCCGCATCGACGGCAAGCTTTACGGCGTCGGCCTCGGGCTGAATTCCTTCTGCATGATGTATGATGCCGACACGCTGAAGGAAGCCGGCGTTTCCTTACCGCAGGACCAGATTACCTGGAAGGCGCTCTCGGAACTGGCGCGCGATTTCAAGAAGAACGGTCCGGCAAAACGGAACTACTGGGCGGTGCCCTATGGCGCGCGTTATCATTATGTTTTCGATGTCTGGCTGCGCCAGCGCGGCAAGCTGCTGTTTCAGGATGGCACCATCGGCTTCAAAAAGGAAGATGCGAAGGAATGGTTCGCCTATTGGGAGGATCTGCGCGAGAACAAGCTCTGCGTTTCCGCCGATATCCAGACGCGTGACGACAATACCATCGAATCCAACGCCCTGACGCTCGGCAATTCGGCTATCGGCTTTGCCTATTCCAACCAGCTTGTCGGTTATCAGAAGCTGAATAAACAAACGCTGTCCATCGGCATGCTGCCGGGTGAGGGGCCGGGCAAGCCGACCGGGCATTATTACCGGCCGGGCCTCATCTGGTCCATTTCGTCCACCTCGACCAATGCGGAAGCGGCGGCGAAATTCATCAACTTCTTCGTCAACGATCTGGAAGCAGGCAAGGTGCTCGGCGTCGAGCGTGGCGTGCCGCCCGCCAAGGTCGTGCGGGAAGCATTGCTGCCGAGCCTTAACGAGACCGAGCGCAAGACGGTTGATTATATCGAAAGCCTGTCGGGCAAGCTCGATACCTATCCGGAACCCGCGCCGATCGGCGCCAACGAGTTCGACCGCGGCGTGATGCGCCCCATTGCCGATTCGCTCGCCTTCGGCCGCGCCAGCGTGGATGAAGCGGCGCAAAACCTCGTCGACACCGGCACGCGGACCCTGCGCAAGCGCGGCTGA	MQTIDRRGFLVTAALAGLGVVGLGAVGGGFRAAAAETRLRCVWWGSADRSKRTNDVIALYQKANPQTEISGEMIAGSDYWTKLATSMAGRNVADIFQLEPSTIADYSGRGACMELDQFVGKSLDLSTFGKSEVDLCRIDGKLYGVGLGLNSFCMMYDADTLKEAGVSLPQDQITWKALSELARDFKKNGPAKRNYWAVPYGARYHYVFDVWLRQRGKLLFQDGTIGFKKEDAKEWFAYWEDLRENKLCVSADIQTRDDNTIESNALTLGNSAIGFAYSNQLVGYQKLNKQTLSIGMLPGEGPGKPTGHYYRPGLIWSISSTSTNAEAAAKFINFFVNDLEAGKVLGVERGVPPAKVVREALLPSLNETERKTVDYIESLSGKLDTYPEPAPIGANEFDRGVMRPIADSLAFGRASVDEAAQNLVDTGTRTLRKRG	PGPT0016545_6710	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
BMS010_06454	930			hypothetical protein	ATGGCGCCCAATTTCCTCCTCGTTGATGCTGAAAAAGAATTCGATGTCCTGAAAGCGGCGGCGTCGCTGATCCGCGTGCAGATATTGAAGTTGCTGCATGAGGCGAGCGGCCTCAACGTCAACGAAATTGCGCAGAGACTGGAGCTTCCCCAGTCCACCGTTTCCGCCGGCGTGGCCGTTCTCGAGGAGGCGGGGCTGCTGCGAACCGAAACGCGCAAGGCGCGCAAGGGCAACCAGAAAATCTGTTTCGCCACCTGTGACGAACTGATTGTTTCCTTCCGAAAACCCGAGGCGCCGGTCGCATCAAATTACATCGCGGTCGCCATGCCGCTCGGTCTCTACACCCAAAGTTCGGTAACCGCGCCCTGCGGCATCTGCTCGCCGGAGGGCATCATCGGCCTTCTCGATGTGCCCGATACATTCATGGATCCGGACCGCATGAAGGCGGCGCTGCTATGGTTGACCTCCGGCTTCGTGGAATATCAATTTCCCAATAATGCCAAGATTCAAGGCCGGGAAGTCGAAGAAATCGAGTTTTCGATGGAGGTCAGCTCTGAAGTGCCGGGAACGCACAGCAACTGGCCGTCCGATATTACGCTATCCGTCAACGGCCGGGAAATCGGCGTCTGGACCTCGCCCGGCGACTTCGGCGACAAGCGCGGTGCGTTTACGCCGGACTGGTGGAAGCTCTCCGGTTCCCAATATGGCATGCTCAAGACCTGGCGCATCACCGCGCAGGGAACCTATGTCGACGGAACCCGGATTTCGGATGTGACGCTGGCGGATATCGATCTGACCAGCCACCGTTCCATCCGCCTGCGCATCGAGGTCAAGGCCGATGCAAAACATCCGGGCGGGCTGAATATTTTTGGCCGCGGCTTCGGGAATTACGATCAGGACATCGTTCTGCGCCTGCGCACCGCAGGCTGA	MAPNFLLVDAEKEFDVLKAAASLIRVQILKLLHEASGLNVNEIAQRLELPQSTVSAGVAVLEEAGLLRTETRKARKGNQKICFATCDELIVSFRKPEAPVASNYIAVAMPLGLYTQSSVTAPCGICSPEGIIGLLDVPDTFMDPDRMKAALLWLTSGFVEYQFPNNAKIQGREVEEIEFSMEVSSEVPGTHSNWPSDITLSVNGREIGVWTSPGDFGDKRGAFTPDWWKLSGSQYGMLKTWRITAQGTYVDGTRISDVTLADIDLTSHRSIRLRIEVKADAKHPGGLNIFGRGFGNYDQDIVLRLRTAG				NA	NA	NA	NA	NA
BMS010_06455	1512	abfA		Intracellular exo-alpha-(1->5)-L-arabinofuranosidase	ATGAAAGCGCGGGTTTCAGTCCACCGGGACTTCCGGATTGGGCGTATCGACGATCGTCTTTATTCCGCCTTCATCGAACATATGGGGCGTGCCATCTATGGCGGCATCTATGAGCCGGGCCATCCGCAGGCGGACGCGAACGGCTTCCGCAGGGACGTTCTGAAATTCGTGCAGGATCTGAAAATTCCGGCCATTCGTTATCCCGGCGGCAACTTCGTTTCCGCCTATCGCTGGGAAGACGGCATCGGGCCGCGCGACCAGCGCCCCATCCGTCTCGATCTCGCATGGCGCTCCAAGGAAACCAACCAGATCGGTATCAACGAATTCGCCGACTGGGCGCAGATGGCCGGCATCGAGATGATGCTCGCCGTCAATCTCGGTTCCCGTGGTTTGGATGACGCCCGCAATTTCCTCGAATATGTGAATTTTCCGGGCGGCAGCACGCTCAGCGATTTGCGCCGCAGCCATGGCGCGGAAAAGCCCCACGGCGTGAAAATGTGGTGCCTCGGCAACGAAATGGACGGTCCCTGGCAGATCGGTCACAAGACGGCGGTGGAATATGGCCGTCTGGCCAATGAAACCGCCAAGGCCTTCAAGGGTTTCGATCCGACGATTGAAGCGATTGTCTGCGGCAGCTCCAATGACGGCATGCCGACCTATCCCGAATGGGAGCGCGAGGTGCTGGAGGAGTGCTATGAGAATGTCGACCACATCTCGCTGCACAAATATTTCGGCAATAACAGCCGCGACACGCTGAATTATTTCGGCAAGATCGAGGAAACCGGGCGCTATATCCAGACGATTGCCGGCGTCATCGATTACGTGAAGGCCAAGAAGCGCGCTAAAAACGAGGTTTCCATCTGCTTCGACGAATGGAACGTCTGGTATCATATCCGCGAAGAAGACGGCAAACGCATCAAGAGCTGGGACTGGCCGGAAGCGCCTGCACTTCTGGAAGAGACATACAACTTCGAAGATGCGCTTTTTGTCGCCGGCCTGCTCAATGAGTTCATCCGCCGTTCGGACCGCGTGCGCATCGCCTGCATCGCCCAGCTCGTCAATGTCATCGCCCCCATCCGGGCGGAAAAGAACGGGCCTGCATGGCGGCAGACGATCTATTATCCCTATCAGTTCGCCTCGCTTTATGGCCGTGGCGTCGCGCTGAACGTCGCCGTCGATTGCCCGACTTACGATTGCAACGCGGCCGACGACGTCAAATATCTCGATGTTGCCGGTGTTTACGACGAGGCGGAAGGCGTCGTGACGCTGTTCGTGCTCAACCGCCATCTGACAGAGGCGGCGGAGATCGATGTCAGCCTCACCGGCTATTCATCCGCCACTCTCAGCCTGCATCTTGCCATGGCGGGATATGATCTGCGTCTCGGCAACGGCCCGGATCAGCCGGATCGCGTTGTGCCGGTGCCGGGCAGCGGCGTCGCCGTGGAGGACGGGGCGCTGAAGGGTTCGGTGCCTGCGCTGTCCTATCATGTGCTGCGGCTGAAGGTTCAGTGA	MKARVSVHRDFRIGRIDDRLYSAFIEHMGRAIYGGIYEPGHPQADANGFRRDVLKFVQDLKIPAIRYPGGNFVSAYRWEDGIGPRDQRPIRLDLAWRSKETNQIGINEFADWAQMAGIEMMLAVNLGSRGLDDARNFLEYVNFPGGSTLSDLRRSHGAEKPHGVKMWCLGNEMDGPWQIGHKTAVEYGRLANETAKAFKGFDPTIEAIVCGSSNDGMPTYPEWEREVLEECYENVDHISLHKYFGNNSRDTLNYFGKIEETGRYIQTIAGVIDYVKAKKRAKNEVSICFDEWNVWYHIREEDGKRIKSWDWPEAPALLEETYNFEDALFVAGLLNEFIRRSDRVRIACIAQLVNVIAPIRAEKNGPAWRQTIYYPYQFASLYGRGVALNVAVDCPTYDCNAADDVKYLDVAGVYDEAEGVVTLFVLNRHLTEAAEIDVSLTGYSSATLSLHLAMAGYDLRLGNGPDQPDRVVPVPGSGVAVEDGALKGSVPALSYHVLRLKVQ	PGPT0018655_1363	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-ARABINOFURANOSIDASE,PGPT0018655-abfA-K01209	NA	NA
BMS010_06456	1074	ugpC_11	COG3839	sn-glycerol-3-phosphate import ATP-binding protein UgpC	ATGGGTGTCCGTCTCAACAATGTCGCCAAGTCCTTCGGATCCTTCGCGGCGATCCGGGATGTTTCGATGGAAATCCCAGCCGGCAGCTTCGCGGTCTTCGTGGGGCCTTCCGGCTGCGGAAAATCCACCCTGTTGCGCATGATCGCCGGCCTTGAGGAAACCAGCGGCGGGCGCATCGCCATCGATGAGCGTGATGTCACCGCGGTCGAACCGGCGGATCGCGGGGTTGCGATGGTGTTCCAGAACTATGCGCTCTATCCGCATCTGACGGTGTTCGAGAACATGGCGTTCAGCCTGCGTCTTGCCCGCCGGCCGAAGGCGGAGGTGACGGAAAGGGTGGGCGAGGCCGCGCGAATCCTCCAGCTTGAGGAGCATCTGCACAAACGGCCCTCGCAGCTTTCCGGCGGCCAGAGGCAGCGCGTGGCCATCGGCCGGGCCATCGTGCGGCAGCCGAAGGTTTTCCTGTTCGATGAGCCGCTGTCCAATCTGGACGCCGAACTGCGTGTGCAGATGCGGCTGGAACTGACCCGGCTTCACCGCAAGCTGGGCGCGACGATGATCTATGTCACGCATGACCAGGTGGAAGCCATGACGCTTGCGGACAGGATTTTCGTGCTGAAGGGCGGCATCGTGCAGCAGGCGGGGGCGCCGCTCACCCTTTATGACGATCCGGACAACCGCTTCGTGGCCGGTTTTATCGGATCGCCGGCGATGAACTTCCTGCGGGCCGATATCGTCTCCCAGGCGGATGGCATCGTGACGCTCGCGCCCGAGGGCGGGGCAGGGCATTTCAGGGCCCGGCTTGCCCAGTCCGTTTCCCCCGGCCAACGGGTCGAGATCGGAATTCGGCCGGAGCATCTGACGATTACGGAACAGGGCGCCCTGCCGGTCGTCGTCGAGGTCGCGGAAGAGCTTGGCGATCTTTCCTACCTCTATACCCGCACCGGAGCCGGGAAAGAAATCATCGTGCAGCGGCAGGGCACGCGGGAAAGGCTGGATGGCCGGTCGGTATCGCTTACCGCCTCGCCCGACCATGTCCTTGTCTTCGACGATGACGGCAGACGGTTGCGATAG	MGVRLNNVAKSFGSFAAIRDVSMEIPAGSFAVFVGPSGCGKSTLLRMIAGLEETSGGRIAIDERDVTAVEPADRGVAMVFQNYALYPHLTVFENMAFSLRLARRPKAEVTERVGEAARILQLEEHLHKRPSQLSGGQRQRVAIGRAIVRQPKVFLFDEPLSNLDAELRVQMRLELTRLHRKLGATMIYVTHDQVEAMTLADRIFVLKGGIVQQAGAPLTLYDDPDNRFVAGFIGSPAMNFLRADIVSQADGIVTLAPEGGAGHFRARLAQSVSPGQRVEIGIRPEHLTITEQGALPVVVEVAEELGDLSYLYTRTGAGKEIIVQRQGTRERLDGRSVSLTASPDHVLVFDDDGRRLR	PGPT0014160_1489	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0014160-malK|mtlK|thuK-K10111	NA	NA
BMS010_06457	1275			hypothetical protein	ATGCGACTGATCAAGACATTGCTTGTTGGTGCGGCTCTGGGTCTCAGCGCCCTGCCGGCTCTCGCGAAGCAGGATATCGTCTGGTGGGACTTTCTGTCGGGCGGTGACGGCGTGCGCATGAAGGCATTGATCGATGCCTTCAACAAGGAACACCCCGACATCCAGATCAAGGGAACGACGCTCGAATGGGGCGTGCCCTTTTATACCAAGGTGCGCACGGCCTCCGCGGTGGGTGAGGGGCCGGATATCATGACCTATCACCTGTCACGCGCGCCGCTCGGCCTTGAAGAAAAAGTGCTGAGCGAAATCACCGAAAAGGATCTCGATGATGCGGGGCTGAAGGCTGGAGACTTCTTCAGCGCACCCGTGGATGCGGCCACCCAGAACGGCAAACTCTACGCCGTGCCCTTCGATATCCACGCGCTTGTCCTTTATTACAACGCCGATCTTCTCAAAGGCTCGCCCTATCTCGACGCCGAGGGCAAGCTGACCGGCATCAAGACGATCGAGGATTTCGAGAAGGCGCTGGCCTGGGCGAAGGACAATGGCGTTGAGACGCCGATCACCTATCAATCGGGTGGCGAAGGCGGGGTGTGGCGCGTCTTTTATACGCTGCTGTCGCAACAGGGCGGCGAACTCGTCACTGAAAAAGAGGTTCTCGCCGACGACAATGCCGAAAAGGCGGCAAAGGCCATCGAGACCATGTCCAGATGGCGGGAGAACGGCTGGGCCCCGGAACAGGCGGAATATGAAGCCTCGGTGGCGCTGTTTTCCGCCGGCAAATCCGCGTTCCAGCTAAACGGCGTCTGGGAAGTTCCGACCTACAAGGATCTGGAAAAGAACGGCAAGCTCGGCTTCAAATGGAGTGCGGTGGAAGTGCCGCCGCTGATGGGCAAGCGCGCCACCTGGGCGGATTCCCATGCTTTCGCCATTCCGAATGAAGGTGACAAAACGGTCTCCGGCGAAAAACGCGCTGCGGTGATGAAGGTGATCGGCTGGATGGAAAAACACGCCCTCAGCTGGGCCGATGCCGGGCATATTCCGGCTTACAAGTCCATCACCGAAAGCAGCGAATACAAGGCGATGCAGCCGAATGCCACCTATGCCTCGCTGGCGGAAGCGGCGGTGTTCGATCCGAAGACCACCATAACCGGGGTCGCTTCGCCCGCCTATGACGCCGCTCTCAACGTCATCGCCCCTGCCATTCAGGGCTTCATGGGCAGCACCGACGCCGTGGAGCAGATCAAGGATGAGCTGCAGGGCAAGCTCAGGTAA	MRLIKTLLVGAALGLSALPALAKQDIVWWDFLSGGDGVRMKALIDAFNKEHPDIQIKGTTLEWGVPFYTKVRTASAVGEGPDIMTYHLSRAPLGLEEKVLSEITEKDLDDAGLKAGDFFSAPVDAATQNGKLYAVPFDIHALVLYYNADLLKGSPYLDAEGKLTGIKTIEDFEKALAWAKDNGVETPITYQSGGEGGVWRVFYTLLSQQGGELVTEKEVLADDNAEKAAKAIETMSRWRENGWAPEQAEYEASVALFSAGKSAFQLNGVWEVPTYKDLEKNGKLGFKWSAVEVPPLMGKRATWADSHAFAIPNEGDKTVSGEKRAAVMKVIGWMEKHALSWADAGHIPAYKSITESSEYKAMQPNATYASLAEAAVFDPKTTITGVASPAYDAALNVIAPAIQGFMGSTDAVEQIKDELQGKLR	PGPT0016545_8030	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
BMS010_06458	885	ycjO_2	COG1175	Inner membrane ABC transporter permease protein YcjO	ATGGCAATGATTGAAAACCGGCGCAAGAAATCGCTGATCGCGCTGTCGATGGTGACGCCGTTCGTTCTGGTCTTCACCACCTTCTTTCTTTATCCGCTGATAGAGATGGTGCGCATGAGCTTCACCGATGCGCCGCTGATCGGTGAGGGAAACTGGGTCGGCCTGGAGAATTACGCGAAACTGCTGGGCGACCGCCTGTTCGTCACCTCGCTCAAGAACAACGGCTATTTCGTGCTTCTGACCGTCGTGCCCACGACCGTCATCGCCCTGATGATCGCTCTCGCCATCAGCCGCCTCTCGGGCGTGAAGCAGACGATTGCGATGAGCCTGTTTTTCCTGCCCTATGTGCTGCCGGTTTCGGTCGTCACCGAAATCTGGGCGTGGATGCTCGATTTGCAGTTCGGCATTCTCCAGCCGGTCATATCGCTGCTGGCGGGCAAACCCGTCGCCGTTTTCAAGAACCCCTACTGGGTCATGCCGATGGTCGCCGTCGTCACCATCTGGTGGACGAACGGCTTTAATGTGCTGCTCTTCATCGCCGGGTTGCGGAATATACCGGCCGAGCTTTATGAGGCGGCGGCTCTGGATGGCGCGACGACCTGGCAGCGCTTCCGGCGCGTCACCTGGCCGCTTCTGTGGCCGGTGACGGCGCTGGTGCTGACGCTGCAACTGATCCTGCAACTGAAGATATTCGACCAGATCTATCTCTTAAGCGGCGGCGGGCCGTTCAATTCCAGCTTCGTTCTGCTTCTCAAGGTCTATCGCGAGGCCTTCCAGATGAACAATGGCGGTTATGCGTCTGCCGTCGCGACGGTGCTTTTCCTGCTGATCGTCATCGTTTCCGTTTTCCAGTTCCAGCTGCTGCGCATCCGGAGGAATTCATGA	MAMIENRRKKSLIALSMVTPFVLVFTTFFLYPLIEMVRMSFTDAPLIGEGNWVGLENYAKLLGDRLFVTSLKNNGYFVLLTVVPTTVIALMIALAISRLSGVKQTIAMSLFFLPYVLPVSVVTEIWAWMLDLQFGILQPVISLLAGKPVAVFKNPYWVMPMVAVVTIWWTNGFNVLLFIAGLRNIPAELYEAAALDGATTWQRFRRVTWPLLWPVTALVLTLQLILQLKIFDQIYLLSGGGPFNSSFVLLLKVYREAFQMNNGGYASAVATVLFLLIVIVSVFQFQLLRIRRNS	PGPT0016535_8272	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
BMS010_06459	828	araQ_5	COG0395	L-arabinose transport system permease protein AraQ	ATGAGCCCGATGAGAAAATTCGAGAACCTCGTTCTGACGCTGCTGACTTTTTCGGCTGCCCTCGTCTGGATTTTTCCGCTCTACTGGAGCTTCGTCACCTCGCTTCGCGCCGATGAGAACGTTTCCGGCAACATGTCGCTTTTGCCGGACGAGTTTCGCCTCGGCGCTTATTTCAATGCGATATTCAATACCCGGCTGATGACCTGGTATGTGAACTCCATCGGCGTCGCCGTCATCGTCACGATCTCGGTGCTGTTCATTTCCATGCTCTGCGCCTATGCGCTGTCGCAGATACGCTTTCCGGGCAGGCGGCTGCTTTATGGCATCGTGCTGGCGAGCTTCATGGTGCCGGCGCAAACACTGGTCGTCACCCAGTTCATACTGATGAAGAACCTCAACCTCATCAACACCTGGGCGGGCATCATCCTGCCGCAGTTGATCACGCCCATCGTCATCATCGTCTACAAGCAGTTTTTCGACAGCGTGCCGAAGGAGATGCGCGAAGCGGTGGTGCTGGATGGCGGCGGTGAATACACGATCCTGTTCCGGGTCTATCTGCCGCTCAACTGGGGCATCACGACCGCCATGGCGATCGTGACCTTCATTACGGTATGGAACGCCTTCTTCTGGCCTTTCCTCGTGGTCACTTCCGAAAACATGATGACGATCCCGGTCGGGATCACCCAGGTCAACGACGCTTTCGGCGTCGCCTATGCGCGGCTGATGGCCGTCGCCATGCTGGCGGCCCTGCCGGTCATCATCGCCTATGTCATCTTCCAGCGGCGCGTGACGGAGGCGATCATGATTTCGTCGGGTGTGAAGGGGTGA	MSPMRKFENLVLTLLTFSAALVWIFPLYWSFVTSLRADENVSGNMSLLPDEFRLGAYFNAIFNTRLMTWYVNSIGVAVIVTISVLFISMLCAYALSQIRFPGRRLLYGIVLASFMVPAQTLVVTQFILMKNLNLINTWAGIILPQLITPIVIIVYKQFFDSVPKEMREAVVLDGGGEYTILFRVYLPLNWGITTAMAIVTFITVWNAFFWPFLVVTSENMMTIPVGITQVNDAFGVAYARLMAVAMLAALPVIIAYVIFQRRVTEAIMISSGVKG	PGPT0016540_8200	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
BMS010_06460	1326	ntaA_1		Nitrilotriacetate monooxygenase component A	ATGGCAAATGATCGCAAACTGCATCTCGGCGCCTTCATGCGGCCCGTCAGTCTCCACACGGGCGCATGGCGTTATCCGGGCGCCTTCCCCGATGCGAATTTCAATTTCGCCCATCTGGCGCGCTTCGCGCAACAGCTCGAGGCCGCGAAGTTCGATGCATTCTTCATGGCCGATCATCTGGCGGTGCTGAACATGCCCACCGAGGCGCTCCGCCGCAGCCACACCGTCACCTCCTTCGAGCCCTTTACCCTGCTTTCGGCGCTCGCCGCCGTCACCTCCCGCATCGGGCTGGTCGCCACCGCCTCCACCACCTTCGATGAGCCCTATCACGTCGCCCGGCGTTTCGCCTCGCTCGATCACCTCAGCAACGGTCGCGCCGGCTGGAACATCGTCACCACGTCAAATCCCGACGCGGCCCGGAACTTCGGCCGCGAGGAACAGCCGGATCATGCCGAGCGCTATGGCCGCGCGCGGGAATTTTACGATGTCGTCACCGGTCTCTGGGATTCCTTTTCCGACGACGCTTTTATCCGGCATGTCGATAGCGGGCTGTTCTTCGATCCCGAAAAGATGCATGTGCTGGACCACAAGGGACCTGAATTTTCCGTGCGCGGGCCGCTCAATATCGCGCGTCCAGTGCAGGGTTGGCCCGTCATCGTGCAGGCCGGAGCTTCCGAGCCGGGACGCCAGCTTGCCGCCGAGACGGCAGAGGTGGTTTTTGCCGCAACACCCACGCTTGCGGCGGGCAAGGCTTTTTATAAGGACGTCAAGGACAGGACCGTCGCCGCTGGCCGTTCACGCGACGGAATTGTCATCCTGCCGGGCGCTTTCGTTCTCGTCGGCGACAGCGTCGAAGAGGCGAAGGCCAAACGCGCCCGGCTCGACAGTCTCGTCCATTATGACAGCGCAATCGCCTCGCTTTCGATTGCGCTCGGCCACGATGTTTCCGGCTTCGATCCTGATAGCCCCCTACCTGATATTCCGGAAACCAACGCCAGCAAATCCAGCCGTGAAAGGGTGATCGAGCTTGCCCGAAGCGAGGGCCTGACGGTGCGCCAGCTTGCCCAGCGGCTGGGCGGTTATGCGGGTCTTGCCTTCGTCGGTACGCCAAAGACCATCGCCGACGAGATGGAGCAATGGCTCCATGAAGAGGGTTCGGACGGTTTCAATGTCACCTTCCCTTTCCTGCCTGCCGGCCTCGACGACTTCACGACGAAGGTAGTGCCGGAACTGCAAAGGCGCGGGCTGTTCCGCAGGGACTATGAGGGGCCGACATTGCGCGACCATCTTGGCCTGCAACGACCAGCCAATCGTTTTTTCACCTGA	MANDRKLHLGAFMRPVSLHTGAWRYPGAFPDANFNFAHLARFAQQLEAAKFDAFFMADHLAVLNMPTEALRRSHTVTSFEPFTLLSALAAVTSRIGLVATASTTFDEPYHVARRFASLDHLSNGRAGWNIVTTSNPDAARNFGREEQPDHAERYGRAREFYDVVTGLWDSFSDDAFIRHVDSGLFFDPEKMHVLDHKGPEFSVRGPLNIARPVQGWPVIVQAGASEPGRQLAAETAEVVFAATPTLAAGKAFYKDVKDRTVAAGRSRDGIVILPGAFVLVGDSVEEAKAKRARLDSLVHYDSAIASLSIALGHDVSGFDPDSPLPDIPETNASKSSRERVIELARSEGLTVRQLAQRLGGYAGLAFVGTPKTIADEMEQWLHEEGSDGFNVTFPFLPAGLDDFTTKVVPELQRRGLFRRDYEGPTLRDHLGLQRPANRFFT	PGPT0003040_13	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_DEGRADATION,PGPT0003040-ssuD-K04091	NA	NA
BMS010_06461	1122	ugpC_12	COG3839	sn-glycerol-3-phosphate import ATP-binding protein UgpC	ATGGCTCAGATCGATATCCGTCAGGTCCGCAAATCCTATGGCAAGACGCCCACCCTGCACGGCGTGGACCTCACTTTCGACTCCGGCGAATTCGTCGTCATCCTCGGCCCGTCGGGCTGCGGCAAATCCACGCTTCTGCGCATGATCGCCGGTCTGGAGGACATCACGTCGGGCGAGATCGCCATTGGCGGGCGGGTGGTCAACACGCTGGAACCGCGCGAGCGCGGCTGCGCCATGGTGTTCCAGAACTACGCGCTTTATCCGCATATGTCGGTGGCCGGCAATATCGGCTATGCGCTGAAAGTCGCCGGCGTTCCGAAGGTCGAACGCCAGCGCCGCATCGAGGAGACCGCAAAGATCGTCGGCCTTTCCGATTATCTTGAGCGCAAGCCCGCGGCCCTTTCCGGCGGCCAGCGCCAGCGCGTCGCCATGGCCCGCGCCATCATCCGCGAACCTGCGGTGTTTCTCTTCGACGAGCCGCTCTCCAACCTCGACGCCAAGCTGCGCGTGACCATGCGCGCGGAAATCCGCAAGCTGCACCAGCGCCTCTCCGCCACCTCCATCTTCGTCACCCACGATCAGGTGGAGGCCATGACGCTGGCCGACCGGCTGGTGGTGATGAACAGGGGCAATGTCGAGCAGGTCGGCCATCCGCTGGATATCTATCACCGCCCGGCCAGCACCTTCGTTGCCTCTTTCATCGGCTCGCCTGCCATGAACCTGTTCAACACGAGGGTGGAAGTGGAATCCCCCGCCGTGATGCTGCATGGCACGCCCGTAAAGCTCTTCCCCGAAACCGCGCTGGAACTGCGCGGCCGCGACGTGACCGTCGGCATCCGCCCGGAACAGTGCGTGGTCAGCACGGATGGCGCCGGCGTGCCGGCAGTCGTGGATTTCGTCGAAGAACTTGGCTCGGGCCGCATCGTCCATGCCGATATCGCCGGCGAGACCTTCTCCGCCGCCATCGGTGAGGACCTTTCGGTAAAACCCGGCCAGCGCATCCACCTCGATCTCCCCGCCGCCCACCTTCATTTCTTCGATCCGGCCACGGGAAAACGGATCGAAACCGAGGGCGCCGTCGAAACCACCCGCATCGGCAACGAGAAACTGCTGGCGGTTTAG	MAQIDIRQVRKSYGKTPTLHGVDLTFDSGEFVVILGPSGCGKSTLLRMIAGLEDITSGEIAIGGRVVNTLEPRERGCAMVFQNYALYPHMSVAGNIGYALKVAGVPKVERQRRIEETAKIVGLSDYLERKPAALSGGQRQRVAMARAIIREPAVFLFDEPLSNLDAKLRVTMRAEIRKLHQRLSATSIFVTHDQVEAMTLADRLVVMNRGNVEQVGHPLDIYHRPASTFVASFIGSPAMNLFNTRVEVESPAVMLHGTPVKLFPETALELRGRDVTVGIRPEQCVVSTDGAGVPAVVDFVEELGSGRIVHADIAGETFSAAIGEDLSVKPGQRIHLDLPAAHLHFFDPATGKRIETEGAVETTRIGNEKLLAV	PGPT0016850_178	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_sn-GLYCEROL-3P_TRANSPORT,PGPT0016850-ugpC-K05816	NA	NA
BMS010_06462	885	lacG_3		Lactose transport system permease protein LacG	ATGATCCAGCGCACACCCTATGCCGACGCCCTGACCTATGCGATCATGGTGGCCGGCTTCGTCCTGCTCATCGGCCCTTTCATCGTCGTCATTTCGGGCGCCAGCCAGTCGGTCCAGCAGGTCAACAGCGTCCCCTTCAGCTTCATGCCGCAGGGCGAATTCTTCACCAATGCGCAGGCGGCCTGGCAACGCGCCAATCTTGGCAACGCCCTCCTCAACAGTATCATCATGGCGACGCTGGTGACCGTCGGCAAGGTGGCCCTTTCGGCCTTCACCGCCTTCGCCATCGTGTTCTTCCGCTCACCGCTCAGGCATCTGTTCTTCTGGACGGTGTTCATCACCCTGATGCTGCCGCTCGAAGTGCGCGTGGTGCCGACCTATTCGGTCGCCGCCGATCTTTTCCAGCCGTTCCGCTCCATCCTCGGCCTGTTCGGCATCGAGGTCACGCTGGAATGGAACCTGCTGAACTCCTATGCCGGCCTCACCCTGCCGCTGATCGCCACCGCCACAGGCACTTTTCTCTACCGGCAGTTCTTCATGACGATCCCGGACGAGCTGGCGGAGGCCGCACGCATGGATGGTTCGGGTGCGGCGCGTTTCTTCGTGGACATGCTGCTGCCGCTGTCGCGCACCAACATGCTGGCGCTCACCACCATCATGTTCGTTTACGCCTGGAACCAGTATCTGTGGCCGCTGCTGATGATCACCGATCCGTCCTACAAGACGGTGATGATGTCGCTGCGCGCGCTTCTGCCCGCCGATGACGGCACGCCGGACTGGAACGTCACGCTGGCCGGTTCCCTCATCATCATCCTGCCGCCGCTTCTCGTCGTGGCCTTCCTGCAACGCTGGTTCGTCCGCGGCCTCGTCTCGTCCGACAAGTAA	MIQRTPYADALTYAIMVAGFVLLIGPFIVVISGASQSVQQVNSVPFSFMPQGEFFTNAQAAWQRANLGNALLNSIIMATLVTVGKVALSAFTAFAIVFFRSPLRHLFFWTVFITLMLPLEVRVVPTYSVAADLFQPFRSILGLFGIEVTLEWNLLNSYAGLTLPLIATATGTFLYRQFFMTIPDELAEAARMDGSGAARFFVDMLLPLSRTNMLALTTIMFVYAWNQYLWPLLMITDPSYKTVMMSLRALLPADDGTPDWNVTLAGSLIIILPPLLVVAFLQRWFVRGLVSSDK	PGPT0016845_325	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_sn-GLYCEROL-3P_TRANSPORT,PGPT0016845-ugpE-K05815	NA	NA
BMS010_06463	891	ugpA_3	COG1175	sn-glycerol-3-phosphate transport system permease protein UgpA	ATGGAAAAGCGTACCGTCTTCAAAAGCACATGGCTGCCTGTGCTCTTCGCCCTGCCGCAGTTTCTGCTTATCCTTCTGTTCTTCTATTGGCCGGTTGCGGCGGTGCTGAACTGGGCATTCACCCTGGAGCCGCCCTTCGGCGGCAAGGCGGAATTCGTCGGTTTGGCCAATTTCATCGAAACCTTCGGCGATCCGCTTTATTGGCAGTCGATCCTCACCAGCCTGATCTTTGCGGTCGCCGGGCCGTTTTTCGCGATCCTCATCGGCCTTGTGCTCGCCCTTGCGGTCGATCGCCAGCTTCCCGGCTCCGGCTTTTTCCGGGTGCTTTATATCCTGCCCTATGCGATTGCAGGTCCGGCCGCCGGCATGGCCTTCCGCTTCATCCTGTCGCCGGAACGCGGCATCGCCGCATCGCTGAATTCCTGGTGGCCCGATATCTGGAACCCGGCCAAATATGGCGAGCACGCGCTCATCCTCGTCATTGTCATCTTCATCTGGAAATGGGCGGGCTACACCTTCATCTTCCTGTTCGCCGGCCTGCAATCCGTGCCGCGTTCGCTGACCGAGGCCGCCGCCATGGACGGTTCCGGGCCCATTCGCCGCGCCATCGACATTCAGGTGCCGCTGCTTGCACCCACCCTGTTCTTCCTCACCGTCATCATGATGACCGAGGGTTTCGTCGGCGCCGATACGTTCGGCATCGTCGCCTCCACCACCGAGGGCGGTCCCAACCACGCCACCGAAGTGATGGTCTACCGCATCGTCAGCGAGGCCTTCGAGGGGCTGAACTATTCCGGCGCCTCTGCCCAGAGCCTCGTCCTCATCGGCCTCATCATGGTCTTCACCTTCATCCAGTTCCGCTTCGTCGAGCGGCAAGTCCATTACAAGTGA	MEKRTVFKSTWLPVLFALPQFLLILLFFYWPVAAVLNWAFTLEPPFGGKAEFVGLANFIETFGDPLYWQSILTSLIFAVAGPFFAILIGLVLALAVDRQLPGSGFFRVLYILPYAIAGPAAGMAFRFILSPERGIAASLNSWWPDIWNPAKYGEHALILVIVIFIWKWAGYTFIFLFAGLQSVPRSLTEAAAMDGSGPIRRAIDIQVPLLAPTLFFLTVIMMTEGFVGADTFGIVASTTEGGPNHATEVMVYRIVSEAFEGLNYSGASAQSLVLIGLIMVFTFIQFRFVERQVHYK	PGPT0016840_580	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_sn-GLYCEROL-3P_TRANSPORT,PGPT0016840-ugpA-K05814	NA	NA
BMS010_06464	1344	ugpB_4	COG1653	sn-glycerol-3-phosphate-binding periplasmic protein UgpB	ATGAAATCTTCCGCTCTGACTTCCTTCGTGGCCGGCGTCGCCATCGCCGCCGCCTTCGGCGCCACCGCCGCCCAGGCAGAAAAGACCAAGTTCGAATTCTGGTACGGTCTTTCCGGCGATCTCGGCGACCGCGTGCAGGACACCTGCAAGAAGTTCAACGACTCCCAGGCCGAATTCGAGATCGTCTGCACCTCGCAGAACGATTACGAATCCACCCTGCAGAACACCATTGCCGCCTATCGCGCCAAGAAGCAGCCCGCCATCACCCAGATTTATGACGCCGGCACGCTGGACATGATGCTGTCCAAGGCTTTCGTTCCCGCCAAGAAGCTGATGGCCGACAATGGCTACAAGATCGACTGGAACAATTATTTCCCCGGCATCGCCAATTATTACGCCACGGCTTCGGGTGAATTGAACTCCTTCCCCTATAATTCTTCGACCGCGATGTTCTATTACAATGTCGACGCTTTCGAAAAAGCCGGCATCACCTTCAAGCCCGACACATGGGAACAGGTCGAAGAAGCTTCCAGGAAGCTGAAAGCCGCCGGTTTCGAATGCCCGCTCGCCTTTAACTTCGACACATGGATGCTGATGGAGCAGTTCTCCGCCATCCACAACCAGCCGATCGCCACCAAGGCCAACGGTTATCAGGGTCTGGACGCGGAACTTGCGATCAACAAGACCAAGTTCGTCGACCACGTGAAATTCTTCAAGAAGATGCAGGACGAGAAGCTGTTCGTCGTCAAGACCAAGCAGCTCGGCATGGATATCCTGCCGGCCTTCACCTCGCAGACCTGCCAGATGTTCATGACTTCCATCGCCAACCACGGCACCGTCGGCAAGTCCATGCCGGAAGGCGTGAAGTGGGACGTCGCCATGCTGCCGATCTGGAAGGGCACCGAACGCCACAACTCGCTGGTCGGCGGCGCTTCGCTGTGGGTCATGGCCGGTCGTCCGGAAGCCGAATACAAGGGCGCTGCCGCATTCCTGAACTTCATCGCCCAGCCCGACATGGTTGAGTGGTGGTCGACCGTTACCGGTTACATCCCGGTCACCAAGACCGGCTTCGACGCCATGAAGGCCAACGGTTTTTACGACAAGGCCCCCTATAAGGGCCGCGAAAAGGCCATCGAGAGCCTGACCTTTACGCCGCCGTCCGAATATACCCGTGGTATCCGCCTCGGCGGTTTCACGCAGATCCGCAAGGAAGTCGCCACCTCGCTCGAAGCCATCTTCATGCAGAACGCCGATATACAGGCTGAACTCGACAAGGCCGTCGAGCGCGCCAATACAGGCCTGCGCCGCTTCGAAAAGACGTATGAAGGCGCCAAGCTGAACTAA	MKSSALTSFVAGVAIAAAFGATAAQAEKTKFEFWYGLSGDLGDRVQDTCKKFNDSQAEFEIVCTSQNDYESTLQNTIAAYRAKKQPAITQIYDAGTLDMMLSKAFVPAKKLMADNGYKIDWNNYFPGIANYYATASGELNSFPYNSSTAMFYYNVDAFEKAGITFKPDTWEQVEEASRKLKAAGFECPLAFNFDTWMLMEQFSAIHNQPIATKANGYQGLDAELAINKTKFVDHVKFFKKMQDEKLFVVKTKQLGMDILPAFTSQTCQMFMTSIANHGTVGKSMPEGVKWDVAMLPIWKGTERHNSLVGGASLWVMAGRPEAEYKGAAAFLNFIAQPDMVEWWSTVTGYIPVTKTGFDAMKANGFYDKAPYKGREKAIESLTFTPPSEYTRGIRLGGFTQIRKEVATSLEAIFMQNADIQAELDKAVERANTGLRRFEKTYEGAKLN	PGPT0016835_404	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_sn-GLYCEROL-3P_TRANSPORT,PGPT0016835-ugpB-K05813	NA	NA
BMS010_06465	474			hypothetical protein	ATGGAAAAGAACACGATCTGTATCTGGTACGACAAGGATGCCGAGGCCGCGGCCAGATTTTATGCCGAAACCTTTCCGGATAGCGCGGTAACCGGCGTTCACCATGCGCCGAGCGACTATCCCTCCGGCAAGAAGGGAGATGTGCTGACGGTGCAGTTCACCGTGGCAGGCGTTTCCTGCATCGGCCTCAATGGCGGGCCGGTCTTCAAGCAGAGCGAGGCTTTCTCGTTCCAGATATCGACCGAAGACCAGGAAGAAACCGACCGTTACTGGAACGCCATCGTCGGCAATGGCGGGCAGGAAAGCGCCTGCGGCTGGTGCAAGGACAAATGGGGCGTTTCCTGGCAGATCACGCCGCGCGTGCTGATGGAAGCCATGGCCGCCGGCGGTGCGGAGGCCAAACGCGCCTTCGACGCGATGATGGACATGAAGAAAATCGACGTCGCCGCCATCGAGGCTGCACGTCGCGGTTGA	MEKNTICIWYDKDAEAAARFYAETFPDSAVTGVHHAPSDYPSGKKGDVLTVQFTVAGVSCIGLNGGPVFKQSEAFSFQISTEDQEETDRYWNAIVGNGGQESACGWCKDKWGVSWQITPRVLMEAMAAGGAEAKRAFDAMMDMKKIDVAAIEAARRG				NA	NA	NA	NA	NA
BMS010_06466	1785			hypothetical protein	GTGAGTATTCTTGATCGTGGTGCCAATGCTTTTGCGGTTCTCGCCGCGCTTTCCAAATCACAGGCCATCATTGAATTCGACCTTTCGGGAAAAATTCTCAACGCCAACGAAAATTTCTGTCGGGCGCTCGGTTATGAGCTTTCGGAAATCGTCGGCAGGCACCACAGCATGTTCGTGGAGCCTGCGGTCGTGTCCTCGCAGGATTACAAGGCCTTCTGGTCCAAGCTCTCGGCCGGCCAGTTCGATCAGCGGCAATATAAGCGCATCGGCAAGGGCGGCCGTGAAGTCTGGATCGAGGCGTCCTACAATCCGGTGTTTCGTCGCGGCAAGCCGGTGAAGGTGGTCAAGATCGCCACCGATATTACCGACCGCAAGCTGAAGGCGGCGGAAGATGCGGGCAAGATCGACGCCCTGTCACGGGCGCAGGCCATCATCGAATTCTCCCCGAACGGCGAGGTTTTGACCGCAAACGAGAATTTTCTGGCCGCGCTCGGTTATTCGCTGGCGGAAGTGCAGGGCAGGCACCATTCCATGTTCTGCGAACCGGCCTATACGCAGTCGTCGCAATATAAGCAGTTCTGGGAAAGGCTGGCCGGCGGCGATCTCGTGGCGGATGAGTTCATGCGGCTTGGCAAGGGCGGCCGCAAGGTCTTCATTCAGGCGTCCTATAACCCGATCTTCGATCTCAACGGCAAGGTGTTCAAGGTCGTCAAATTCGCGACCGACGTGACCGGCCGCGTCGAAAATGTCGAAAAGCTGGCGCAATGTCTCACCGATCTGGCCGAGGGCGATCTTGCCCAGAGCATCGACAAACCCTTCATCCCCTCGCTTGAAAGATTGCGCACGGATTTCAACGCGGCTTCGGAAAAGCTGAAAAGGGCCATGACGCTGGTGTCTGAAAATGCCGGCGCCATTTCTTCCGGTTCCAACGAGATCAGGTCCGCTGCCGACGATCTCGCCAGACGCACGGAGCAGCAGGCCGCCTCCATCGAGGAAACGGCAGCCGCGCTCGAAGAAATCACCACCGCCGTCAACGATTCGAGCCGTCGCGCCGAAGAGGCCGGCAAGATCGTCGCCCGTGCCCGTGACCATGCGGAACATTCGGGACAGGTGGTGCGCGATGCGATCGGCGCCATGGACCAGATCGAAAAATCATCGCGCGAGATTTCCAACATTATCGGCGTGATCGACGAAATCGCCTTCCAGACCAATCTTCTGGCATTGAATGCAGGCGTGGAAGCCGCCCGCGCGGGTGAGGCGGGCAAGGGTTTTGCCGTGGTGGCGCAGGAAGTTCGCGAACTCGCGCAGCGTTCCGCGACGGCCGCCAAGGAAATCAAGAGCCTGATCAATGCCTCCGGCGCGCAGGTGGAAAACGGCGTCGGCCTTGTCACCCGGGCGGGTTCGGCCCTGCAGGAAATCGCCGAGCAGGTGCGGGATATCAACACCAATGTCGTGGCGATTGTCGATGCCGCGCGCGAACAGTCCACGGCGCTTGCGGAAATCAATCAGGCGGTCAACACCGTCGATCAGGGCACCCAGCAGAACGCCGCCATGGTGGAGGAACAGACCGCCGCAAGCCACAGCCTTGCGCGGGAAGCGGCGGCCCTGTTCGAACTTCTCGGGCAATTCCGGTTCGAGGACATGGCCCGATCCTCCGCCTCTGCGCGCGGCGGCTTCGAGCAGCAATCCACGCCGGTGAACTCGCATCGCAGCGCACCCCGCCCGCTTGCGGCGCGTGGTTCCGCTGCGGTTGCCGTCAAGCATGAGGAGTGGCAGGACTTTTAG	MSILDRGANAFAVLAALSKSQAIIEFDLSGKILNANENFCRALGYELSEIVGRHHSMFVEPAVVSSQDYKAFWSKLSAGQFDQRQYKRIGKGGREVWIEASYNPVFRRGKPVKVVKIATDITDRKLKAAEDAGKIDALSRAQAIIEFSPNGEVLTANENFLAALGYSLAEVQGRHHSMFCEPAYTQSSQYKQFWERLAGGDLVADEFMRLGKGGRKVFIQASYNPIFDLNGKVFKVVKFATDVTGRVENVEKLAQCLTDLAEGDLAQSIDKPFIPSLERLRTDFNAASEKLKRAMTLVSENAGAISSGSNEIRSAADDLARRTEQQAASIEETAAALEEITTAVNDSSRRAEEAGKIVARARDHAEHSGQVVRDAIGAMDQIEKSSREISNIIGVIDEIAFQTNLLALNAGVEAARAGEAGKGFAVVAQEVRELAQRSATAAKEIKSLINASGAQVENGVGLVTRAGSALQEIAEQVRDINTNVVAIVDAAREQSTALAEINQAVNTVDQGTQQNAAMVEEQTAASHSLAREAAALFELLGQFRFEDMARSSASARGGFEQQSTPVNSHRSAPRPLAARGSAAVAVKHEEWQDF	PGPT0015710_13708	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_06467	894			hypothetical protein	ATGGCTCTTGCCCTGTGTCTGCTGACCGCAGCCTTCGGCGCGGCGCAAGCCGAAGAGCCCGCCGGGAAAAAAGCCGCCTGCGCCTATAGCCATGATGTCGCGCCGGACCTGTGCATCAATGCAGGCAGTTACAATAACGATCTTTGCCATGCCATTGAGGTGCTCGCCGCCCGCCATGCCGTTCCGCCGGATTATTTCGCCCGGCTGATCTGGCGGGAAAGCCTGTTCCGGCCCAATGCGGTCAGTCCGAAGGGGGCGGAGGGCATCGCCCAGTTCATGCCGGGAACGGCCCGGTTGCGCGGTCTCGAAGACAGTTTCAACATCATCGCCGCGCTTGAGGCGTCTTCCCGATATCTCTCCGAATTGAACGTGCAGTTCGGCAATTTCGGCCTTGCCGCCGCAGCTTACAATGCGGGGGAGACGGGCTTGCGGAACTTCATCGCCAACGGCCGCCTGCCCACCGAAACCCGCGATTATGTGTTTGCGATCACCGGTTATCCGGTGGAGACATGGAAGGACAATCCGCCAGAAAAGGCGGCGCCGGCGCTGGATGACAACCGTTCCTTCCTCGATGCCTGCGTGCGTCTCGCCGACACCCGCACCATGAACGATCCCGTTCTCATTGCATCGGCCGACTGGGCGCCATGGGGCGTGCAGCTTGCGGCGCATTATAATCCGTCCGTGGCGAACCGGCTTTTCACCCGGGCGATCCTGCAGCTTTCGGAGCCGCTGAATGCCGAGCGGGCTTTGATCGTGCGCCAGCGGGGCGGAAATTTCGGTTCGCGGCCGCGTTATGCCGCCCGCATCGGCCGGGAGACCAGAGCCGAAGCGAATGCGCTTTGTGGCGATATCCGGCGCGCTGGCGTTCCCTGCACCGTGTTCCGCAACAGGTGA	MALALCLLTAAFGAAQAEEPAGKKAACAYSHDVAPDLCINAGSYNNDLCHAIEVLAARHAVPPDYFARLIWRESLFRPNAVSPKGAEGIAQFMPGTARLRGLEDSFNIIAALEASSRYLSELNVQFGNFGLAAAAYNAGETGLRNFIANGRLPTETRDYVFAITGYPVETWKDNPPEKAAPALDDNRSFLDACVRLADTRTMNDPVLIASADWAPWGVQLAAHYNPSVANRLFTRAILQLSEPLNAERALIVRQRGGNFGSRPRYAARIGRETRAEANALCGDIRRAGVPCTVFRNR				NA	NA	NA	NA	NA
BMS010_06468	381			hypothetical protein	GTGCTGGTCGTCGTTGCGGCGTGCACCAGCGCCGGCGAGACGGAGATTTCCCGCACTGTCGCCGGTTTCGTGGGGCAACCGCGCGAGGCCGCAATCGCCCGACTCGGCCGCCCGAACAAGGTCATCATCGAGAACGGCGACACCGAATCCTACTGGCTGAAAGTCGATAGGGAGACCTATGCCGGTCTCAGCAACAGGCGCGAAGTCAAGACCGTAGACGGGCAGGCGCAGGTCTCGGAAACCGAGGGCATGAAGATCAAGGAGCATCGCCGCGACTGCATCATCAAGATAACCGCAGATGCCGCCTCCATCATCAGGACGAGCGAGATCATCGGCAATCCGGCCAATTGCGAAAACCTTCTCGACAGCCAGGCCTCCTGA	MLVVVAACTSAGETEISRTVAGFVGQPREAAIARLGRPNKVIIENGDTESYWLKVDRETYAGLSNRREVKTVDGQAQVSETEGMKIKEHRRDCIIKITADAASIIRTSEIIGNPANCENLLDSQAS				NA	NA	NA	NA	NA
BMS010_06469	903			hypothetical protein	ATGCCGCTTCCATCGCCTTCCAACCCGAAAACGCTCGCTGACCAGAGCCGGCTAAAACTGTTTCCGCTGCAAAGCGGGCCGCATTTCGCCAATGCAGGCCTTACCAACGGGGCAAGCGGCATTGTCTTTACGGGCTATACGCGCGATGCGAGCCCCGACAATGAAGCCTTCTCCTGCTGCGGCAGTTACACCCTGCGCAATTCCGTCCACGCCGCGATTGCCGGCACGACAAGCGACAATTGCACGGTCTTTGCCCTGAAGAGCATCATCAACCAGCGCCCGTGCCTGGCGGTCGGGAAGTTCGACCCGGATGGCAAGCCGCTGGCATTGTCGAAGTCGGAATTCGAAGAGGTCACCAAACCCCTGTTCCAGTTTGCGGACAAGGTATCGCCGATTCTCGGCAGCGAGCCGGCGCCGGGCATCCAGATCCGCAGCGGCGACGCCTCCTATAATTATCAGGTGGACGCACGCAGCGGCCGCTTCCGCTTCACCTATAAGGATGCCATGAACGGCGGTCGTTTCGGACCTTCGGCCGATGGCAATTTTTCCCTGGAACATGACGGCCATCGCCTCGCCAGAATAAGCGCCGGCGGCAGCTATAGCAGCTCGGACAATTCGATTGCCGCCTCGGCCTATCGCGACCTCGAATCCCGCGGTTTCGAAACGACGGTGCGCAGCGGCCAGGCTTCCGCCATGTTCGGAAGAACCTACACGGAAAACGCCATTACCCGCAAAATCGGCGTCGGTTACGGCGACACCTCGTTCCGGCGCGAGGATACGCCGGGAGGAACGATCAAGGAAACCCTTGGGCACAAGATGGATAAGGTCACGCTCGAAGTCTCCCGCACGCGCGACCGGGCGAAGGGCACCGAATATATGCTGACGATCAAGATGGAGCTTTGA	MPLPSPSNPKTLADQSRLKLFPLQSGPHFANAGLTNGASGIVFTGYTRDASPDNEAFSCCGSYTLRNSVHAAIAGTTSDNCTVFALKSIINQRPCLAVGKFDPDGKPLALSKSEFEEVTKPLFQFADKVSPILGSEPAPGIQIRSGDASYNYQVDARSGRFRFTYKDAMNGGRFGPSADGNFSLEHDGHRLARISAGGSYSSSDNSIAASAYRDLESRGFETTVRSGQASAMFGRTYTENAITRKIGVGYGDTSFRREDTPGGTIKETLGHKMDKVTLEVSRTRDRAKGTEYMLTIKMEL				NA	NA	NA	NA	NA
BMS010_06470	981	dinG_3		3'-5' exonuclease DinG	ATGACCTCCCAGTTGGATTTTTTCGCACCCGCGGCAGCGCGGCTTCCGCAGGCTGAAAGAGGGCGAAAAGCCGGTGGTCGCGAAACGGCCCAAAAGACCGGTACGGACGATGAGGCCCTTGCCGCATATCTTCAATCCACCGGCAATTATCGTGTCCTGCGCCGGCTGCAACCGCGCGCGGTCGTCGATCGGCCAAGGCCGGAATTTGCCCGTCAGGGTGTGATCCTCGATACGGAAACGACGGGTCTCGACCATCGCACCGATGAGATCATCGAAATCGGCGTCATCACCTTCACATTCGACGACAACGGCACAATCGGCGATGTCACCGGCATTTATGGCGGGTTGCGGCAGCCAGGTATCGCCATTCCCGAAGAAATCACCCGCCTGACCGGGATCACCGATGAGATGGTCGCGGGACAGTCGATAGACGTGGACCGGCTGACCTCCCTCGTTGCCCATGCCGATCTGATCATCGCCCACAATGCCGGTTTCGACCGCCCCTTTTGCGAGGCCTTCTCACCGATCTTCTGCGACAAGGCATGGGCCTGCTCCGTTTCGGAAATAGAATGGCGCACGCGTGGTTTCGAGGGCAACAAGCTCGGTTATCTGATCGGCCAATCCGGCTATTTCCACGATGGCCATCGCGCGGTGGACGATTGTTTCGCCCTGCTGGAAGTGCTGGAGCAGACGCGCCCCGGCCAGAGCAGCACGCCCTTTGCCGAACTCCATGACGCGAGCCGGCGCTCAAGGGTGCGCCTCTACGCGGAAAACAGCCCGTTCGACATGAAGGATCATCTGAAAAAGCGCGGCTATCGCTGGTCGGACGGCTCCGATGGCCGGCCGAAATCCTGGTGGGTGGAGCTGCCGGAGGAAAAGCTCGAAGAGGAGCTGCATTTCCTGCGGACCGAAATCTACCGCTGGGATGCCGATCCCACGGTCAAATATCTCACCGCTTTCGACCGGTTCAGGGCCGGGTGA	MTSQLDFFAPAAARLPQAERGRKAGGRETAQKTGTDDEALAAYLQSTGNYRVLRRLQPRAVVDRPRPEFARQGVILDTETTGLDHRTDEIIEIGVITFTFDDNGTIGDVTGIYGGLRQPGIAIPEEITRLTGITDEMVAGQSIDVDRLTSLVAHADLIIAHNAGFDRPFCEAFSPIFCDKAWACSVSEIEWRTRGFEGNKLGYLIGQSGYFHDGHRAVDDCFALLEVLEQTRPGQSSTPFAELHDASRRSRVRLYAENSPFDMKDHLKKRGYRWSDGSDGRPKSWWVELPEEKLEEELHFLRTEIYRWDADPTVKYLTAFDRFRAG				NA	NA	NA	NA	NA
BMS010_06471	1086	potA_8	COG3842	Spermidine/putrescine import ATP-binding protein PotA	ATGAGCAAAGCCGCAGCAATCGACATCGCGTCCGTATCCAAGATTTACGGCAACACCACCGCCGTGCATGCGATAAGCCTCAAGATTCCCGCCGGGAGCTATTGCTGCCTGCTTGGCCCGTCGGGCTGCGGCAAGACCTCGACATTGCGGATGATTGCCGGCCACGAAAGCATCTCCAGCGGCGATGTCCGGCTCGGCAATACAGTCGTCACCGATCTGCCGCCCGCCCGGCGCGGCACGGCGATGATGTTCCAGTCCTATGCGCTGTTTCCGCATCTCGATCTCGTCGACAATGTCGCTTTCAGCCTCAAGATGAAGGGCGTGGACAAGGAAACCCGCCGGGCGAAGGCGCTCGAAATGCTGCGGCTGATGCAGCTGGAACCCTATGCCAGCCGCCGGCCCGCCCAGCTTTCCGGCGGGCAGCAGCAGCGCGTGGCGCTGGCGCGTGCGCTGATTACCGATCCCGAGGCGCTGCTGCTGGACGAGCCGCTTTCGGCGCTCGATCCGTTTCTCAAGATCCGCATGCGCGCCGAGCTGAAGAAGCTTCAGACCTCGCTCGGCATCACCTTCGTCCACGTCACCCACAGCCAGGAAGAGGCCATGGCGCTGGCCGATATCATCGTCGTCATGAATGACGGCCGCATCGAACAGGCCGCCACCCCGCGCGAGGTGTTCGAGCGTCCCGCCACCGCCTTCGTTGCCCGCTTCATGGGCGACCACAATGTCATTTCCGGGCGTTACCGGGAAAAAACGGATGATTTCGTCACGCTCGAAGTGGCGGGCGGCGGCACTTTCACGGCAAGCGGCGTCGCCCCGGATGACGGCGCGGTCGATATCGCCGTGCGCACCGACCGCGTCCGCGTCGGGGAGGCGCAACAGCCGGGCCTCGGTTTCACCGGCATCGTCTCGAATGTCGAATATCGCGGCGCAAGCGTGAAGATCGCCGTAACCGGCGCGGGTATCGAGGATTTCAACGTCATCCTCAGCGATGCCGCCTTCTTCGAAAATCCGGTCAGGACCGGCGACGCCATACCGCTTTCATGGAATGCGGCCGATGCCATCGTGCTCGGCCGGGTAGAGAAGTGA	MSKAAAIDIASVSKIYGNTTAVHAISLKIPAGSYCCLLGPSGCGKTSTLRMIAGHESISSGDVRLGNTVVTDLPPARRGTAMMFQSYALFPHLDLVDNVAFSLKMKGVDKETRRAKALEMLRLMQLEPYASRRPAQLSGGQQQRVALARALITDPEALLLDEPLSALDPFLKIRMRAELKKLQTSLGITFVHVTHSQEEAMALADIIVVMNDGRIEQAATPREVFERPATAFVARFMGDHNVISGRYREKTDDFVTLEVAGGGTFTASGVAPDDGAVDIAVRTDRVRVGEAQQPGLGFTGIVSNVEYRGASVKIAVTGAGIEDFNVILSDAAFFENPVRTGDAIPLSWNAADAIVLGRVEK	PGPT0007860_1598	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007860-ABC_SP_A|ydcT-K02052	NA	NA
BMS010_06472	1290			hypothetical protein	ATGACCGATACCACCAACAGCAAAAAGGGCCTGTCCCGCCGCGGCCTCCTGAAGGCGGGCGCTGCCGCCACGGGTGCGGCGATCGGCTCCGGCCTCATCACCGGCTTCCCGACCATCTGGGCGCAGAACCCGATCACCATCCGCCAGTTCGGCACGGGTGTGTCGAACCTCAACGCCATTGCCGAAAAGTGCAAGGCCGATCTCGGCATCACGCTTGAAATGACGGCGACGGATTCGGATGCCGCCGCCCAGCGCGCCGTCACCCAGCCGAATTCCTACGACATCGCCGATATCGAATACTGGATCCTGAAGAAGGTCTATCCGGCCGGCGTCATCCAGCCGATGGAAATCAAGAAGCTGAAATATTACGACAAGATCGTGCCGCTGTTCAAAAACGGCAAGCTGAAGCCGGACAGCGTCGTGGCGCAGGGCACGGCCCCGCACACCGTCGGTTTCGTCGAAAAGCCCGGCGACAAGAAGTTCGCCAAGGGCGAGACCGATTATTTCACCATGGTTCCGACCATCTACAATGCCGATACGCTCGGCATCCGCCCCGATCTCGTCGGCCGCGATATCTCCAGCTGGGCCGATATCATGGACCCGAAGTTCAAGGGCAAGACCTCCATTCTCAACATCCCCTCCATCGGCATCATGGATGCGGCGATGATCATGGAAGCCATGGGCAACATCAAATATGCCGACAAGGGCAACATGACCAAGGAGGAGATCGACAAGACCATCGACTTCCTCATCAAGGCGAAGAAGGACGGCCAGTTCCGCGCCTTCTGGAAGAGCTTCGACGAAAGCGTCAACCTCATGGCGTCGGGCGAAGTCATCATCCAGTCCATGTGGTCGCCCGCCGTCGCGGCGGTCCGTTCCAAGGGCATCGCCTGCAAATACCAGCCGCTGAAGGAAGGCTATCGCTCCTGGGGCGGCGGTCTCGGGCTTGCGAAGCACCTCTCGGGCGCGAAACTCGATGCGGCCTATGAATATATCAACTGGTACACCTCGGGCTGGGTCGGCGCTTACCTCAACCGTCAGGGTTATTATTCCGCCGCCATGGAAACGGCCAAGGAGCACATGAGCGCCGACGAGTGGGGTTATTGGGTCGAAGGCAAGCCGGCGCAGGGCGATATCATCGCACCCGACGGCAAGGTCATGGAAAAGGCCGGCGCCGTGCGCGATGGCGGCTCCTTCGAGGAGCGCATGGGCAAGGTGGCGTGCTGGAACTCCGTTATGGATGAAGACCGCTACATGGTTCGCCGCTGGAACGAATTCATCGCGGCCTGA	MTDTTNSKKGLSRRGLLKAGAAATGAAIGSGLITGFPTIWAQNPITIRQFGTGVSNLNAIAEKCKADLGITLEMTATDSDAAAQRAVTQPNSYDIADIEYWILKKVYPAGVIQPMEIKKLKYYDKIVPLFKNGKLKPDSVVAQGTAPHTVGFVEKPGDKKFAKGETDYFTMVPTIYNADTLGIRPDLVGRDISSWADIMDPKFKGKTSILNIPSIGIMDAAMIMEAMGNIKYADKGNMTKEEIDKTIDFLIKAKKDGQFRAFWKSFDESVNLMASGEVIIQSMWSPAVAAVRSKGIACKYQPLKEGYRSWGGGLGLAKHLSGAKLDAAYEYINWYTSGWVGAYLNRQGYYSAAMETAKEHMSADEWGYWVEGKPAQGDIIAPDGKVMEKAGAVRDGGSFEERMGKVACWNSVMDEDRYMVRRWNEFIAA	PGPT0007855_184	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007855-ABC_SP_S|ydcS-K02055	NA	NA
BMS010_06473	912			hypothetical protein	ATGGTGACGGTCAGACTCATCGGCGTCAGCGACAAAAAGGACACGCCGCCCCGCAGTTTCGCGCTGCCGCAAAAGCTCGTCTCCTATGTCCAAGCTGCCCCGCTTTTCCTGATCCTCGGCTTTTTCCTGGCTCTGCCGAGCCTCATGATCGCCGTCGTCAGCTTCTGGGATTACGATTTCGCCCAGATGTATCCGGATTTCGTGACGTTCAACTATCTGGAAACGCTCGGCTCCTGGGTCACATGGCAGACCTATCTTAACACCCTGAAATATGCCGCCATGGTCTGGGTGATCACGCTGTTCTGCGGTTTCTGGATCGCCTATTTCCTCGCCTTCCACATCCGCACCACCACCATGCAGATGGTGCTCTTCCTCGTCTGCACCGTGCCCTTTCTGACGTCGAATATCATCCGCATGATTTCCTGGATTCCGGTGCTTGGGCGAAACGGCCTCGTCAACAGCGCATTGATCGGCACCGGCATCATTCCCGAGCCGATCGAATGGCTGCTTTATTCGGATTTCGCCGTGGTGCTGGCAATGGTGCATCTTTATACGCTGTTCATGGTCACGCCGATCTTCAACACGCTGATGCGCATCGACAAATCGCTGATCGAGGCTGCGCGTGACGCCGGCGCGACGGGCTGGCAGACGCTCAGCAACGTCATCATTCCGCTTGCCAAACCCGGCATGGCCATCGGCAGCATCTTCGTCGTCACGCTGGTCATGGCCGATTTCTCCACCGTTCAGGTGATGTCCGGCGGCCAGAGCGCCTCGGTGGCGCTGATGATGAAGAACCAGATGTCGCTGCTGCAATATCCGGCCGCCGCTGCGAACGCCGTCATCCTGCTCATCCTCGTTCTTCTGATGGTCGCGGGCATCCTGCGCATCGTCGATATCCGCAAGGAGCTTTGA	MVTVRLIGVSDKKDTPPRSFALPQKLVSYVQAAPLFLILGFFLALPSLMIAVVSFWDYDFAQMYPDFVTFNYLETLGSWVTWQTYLNTLKYAAMVWVITLFCGFWIAYFLAFHIRTTTMQMVLFLVCTVPFLTSNIIRMISWIPVLGRNGLVNSALIGTGIIPEPIEWLLYSDFAVVLAMVHLYTLFMVTPIFNTLMRIDKSLIEAARDAGATGWQTLSNVIIPLAKPGMAIGSIFVVTLVMADFSTVQVMSGGQSASVALMMKNQMSLLQYPAAAANAVILLILVLLMVAGILRIVDIRKEL	PGPT0007850_1580	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007850-ABC_SP_P1|ydcU-K02054	NA	NA
BMS010_06474	819	ydcV_7		Inner membrane ABC transporter permease protein YdcV	ATGCATCAGGAAAAACGCGGCCGCGAATTCTACATCCTCGCCTTCTTTTTCGCCCTCTTCGTGCTGTTTCTTTACGGTCCGCTGTCGGCCATCCTCATCCTCGCCTTTCAGGGGCCGAATGGCGGCCTGACTTTCCCGCTGAACGGCGTTTCGCTGCACTGGTTCGGCAATCTCTTCGAACAGCAGGCCGTCGGCGATTTCGGCGGCTCCTTCCGCCGTTCCTTCGCTCTTGGCCTGATGGTCATGGCCGTTACCGTGCTGGTCTCGCTGCTGGCGGGCCTTGCCTTCCGGCGCAAATTCATCGGTGCGACGCCGTTGTTCTATCTGTCGGTCGCAAGCCTCGTGGTGCCGTCGATCATCATTTCGCTCGGCATCGGCGTTCTGTTCCAGCAGCTCGGGCTGGAACCGTCATGGTATACGTCCGCCTTCGGTGCGCATCTCACCTGGACGCTGCCCTTCGGCGTGCTCATCATGCTGGCCGTCTTCAACCGCTTTTCGCCGTCCTATGAGGAAGCGGCCCGGGATCTCGGCGCATCCTCCTGGCAGACCTTCGCCCATGTGGTACTGCCGATGATCGCACCGAGCCTGATCGGCGTCGGCCTCTTCGGCTTCACGCTTTCTTATGACGAGTTTGCCCGCACATTGATGACGTCAGGCACCTACAACACGCTGCCGCTGGAAATCTACGGCATGACCACCAATGTCACGACGCCGGTGCTTTATGCGCTCGGTGCTGTTACAACCCTGTTTTCCTTCCTGGTGATCGCGGCCACGCTCGGCCTGATCGTCACGCTCAATCGCCGCCATTCACGCGGATAA	MHQEKRGREFYILAFFFALFVLFLYGPLSAILILAFQGPNGGLTFPLNGVSLHWFGNLFEQQAVGDFGGSFRRSFALGLMVMAVTVLVSLLAGLAFRRKFIGATPLFYLSVASLVVPSIIISLGIGVLFQQLGLEPSWYTSAFGAHLTWTLPFGVLIMLAVFNRFSPSYEEAARDLGASSWQTFAHVVLPMIAPSLIGVGLFGFTLSYDEFARTLMTSGTYNTLPLEIYGMTTNVTTPVLYALGAVTTLFSFLVIAATLGLIVTLNRRHSRG	PGPT0007845_1986	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007845-ABC_SP_P|ydcV-K02053	NA	NA
BMS010_06475	804	hyuE		Hydantoin racemase	ATGCGCATTCTCGTCATCAATCCCAACACAACGCAATCCATGACCGCGACCATCGCCGACGCCGCGACGCGGATAGCTGGCCGCGATACGGACATAATGGCCGTTACCTCGTCCATGGGCCCCGTCTCCATCGAAGGTTATTACGACGAGGTTTTCGCCGTTCCCGGCCTGCTGCTGGAGCTGGCAAAGGCGCCGGCGCTTGGAGCCGACGCGGCGATCATCGCCTGTTTTGATGATACCGGGCTCGATGCCGCCCGGGCTCTCGCCGATATTCCCGTTATCGGCATCTGCGAGGCGGCGGTCTCCGCCACCGCCTTCATCGCGCAGAAATTCACCATCGTCACGACGATGGAACGCTCGCGGCTGCCGCTGGAACATCTCGTCCATCGTTATGGCATGTCCGCCCGCTGCAATGTGCGCGCCGCCGATATTCCGGTGCTGTCGCTGGAAGATCCCGCCTCGAACGCTCGTGAAAGGCTGCGCGCGGAAATCTCGCTGGCCCTGAAAGAGGACAGGGCGGAGGCGATCGTGCTCGGCTGCGCCGGCATGGCGGACCTTGCCGCCGAACTGCGCGATGAGTTCGGCGTGCCGGTTGTCGATGGCGTCGCGGCGGCCGTCAAGCAGGCGGAATCGCTGGTGTCCATGGGGTTGTCCACCGCCAAGCGTGGTGCCTATGCCACGCCGCTCGCCAAGCCCTATCGCGGATTGCTGGAGCCATTCCGGCCGGACAGGCTCTCCGGGGCATCAGCAGACGGCGGAGACGTTCTCACCGCTTCCGCCCATAATACGACGAAGGCGAGCTGA	MRILVINPNTTQSMTATIADAATRIAGRDTDIMAVTSSMGPVSIEGYYDEVFAVPGLLLELAKAPALGADAAIIACFDDTGLDAARALADIPVIGICEAAVSATAFIAQKFTIVTTMERSRLPLEHLVHRYGMSARCNVRAADIPVLSLEDPASNARERLRAEISLALKEDRAEAIVLGCAGMADLAAELRDEFGVPVVDGVAAAVKQAESLVSMGLSTAKRGAYATPLAKPYRGLLEPFRPDRLSGASADGGDVLTASAHNTTKAS	PGPT0000895_213	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000895-hpxA-K16841	NA	NA
BMS010_06476	894			hypothetical protein	ATGCTTCGAGAGAGGCTGGACCTACTTGCGAACCGAATCCTGAACGACGATGCCTTTGGTGATGCTGTCGCCTATCTTTGCACCCACCTATCGAACGCCTTCAAACAGGAGCAGCGCCTCGTCCGTGCGCTCGGAGACTTCGGCGCATTCGCCACCGTCATGTGCGCCGTGGGTATCGCATCGGTCCATGGCGGGCAATTTACGCTGGCGGCGGTTCAGGCAGTCGTCGTTCCACCCGGCTGGGCATCCAGCCGCAGGACACGCGCCTTGATCGACTGGCTGGAACTGGAAAATACCGCGCAGCGTCACCCGCCCGGCGGCGATAACCGTGAGCGGCCATGGTCGCTAAATGGCTGGATTATTTCGGCAATAGAGAGGCTTGCCAGCACATATCACGTCGCGGCCTCGCCATGGCAAACCCTCGCGGCGATGGAGACACCTGCGGAGGAAACCATCGGAACGGGCGTGCTGATCGACGGTGTGAGCTGGTTTTTGCGGCACGCGCAGGATTTGCCTTGTCTCTCAGAGGAAATGCGGATGTTCCTTGGGCATGCGCCGGGTTTCCTGATCCTGTTGGACCTGCTGTCCGCTGCGCAGACGGACGTGTGCGATGCGACGGGTTGCGTGTTCTCCCGCAAGGCGACGGCGCGCGCCTATGGGGTCAGCCGCGCTCATGTAACGGCCATACTCGCCAGGGCCGAGCGTTTGAACATCTTGCAAAGAAACGGACCCAGAATAGTTCTGAGCGATCTGGCATTGCAGAACGTCCGGCGCGATCTGGCCTATCAGCTCGCCTTCGTCGTATTATGGGCGGAAGCGGTGAGAACGTCTCCGCCGTCTGCTGATGCCCCGGAGAGCCTGTCCGGCCGGAATGGCTCCAGCAATCCGCGATAG	MLRERLDLLANRILNDDAFGDAVAYLCTHLSNAFKQEQRLVRALGDFGAFATVMCAVGIASVHGGQFTLAAVQAVVVPPGWASSRRTRALIDWLELENTAQRHPPGGDNRERPWSLNGWIISAIERLASTYHVAASPWQTLAAMETPAEETIGTGVLIDGVSWFLRHAQDLPCLSEEMRMFLGHAPGFLILLDLLSAAQTDVCDATGCVFSRKATARAYGVSRAHVTAILARAERLNILQRNGPRIVLSDLALQNVRRDLAYQLAFVVLWAEAVRTSPPSADAPESLSGRNGSSNPR				NA	NA	NA	NA	NA
BMS010_06477	903			hypothetical protein	ATGATGCAACTTAAACACGTTGTTTTTGCCGGCCTTGCGGCCTTCGCAATGCAATTCGATATCCCGTCCATGGGCCAGCCGGCCATTGCGAACGCGGCCACCCTCACCGCCGAGCAGACGGCGGCTTTCAAGTCGAAACTGGAACAGGCGGAAGCGAGCCGCGAGCTGCTCGGCCGCCGATCCGTGTGCCTGATGGACCATCTGACGGCGCAACAGCAGCTCAGCGCCGACCGCGAGAAGGCCCTGGGGGAGGCCATGTACCTGCAGATCGAGCTGGAGCGGCAGGTGGTGCAGTCCGAAACCAGCGTGAAGGGCTATGAGGAGCTGGTTCAGTCCGAAAACGAGAACGTCAAGGCGCGCCAGGCCACTTTCGAAAAAGCCCGGAAGGAAAGGGACGAGCAGGCCAAGCGAGTAAAAATATGCAGCGGCGTCCTCTTCTTCCTGCCGGGAATTTGCCAGGCCGGTGACGCCGCGGTGAAGGCGCTGGGCTGGATGAATGATGCGGAGCGGGAATACCGGACCGCGCAGCCACGGCTGGACAATGCCCGGGCGGCTCTTGAAGGCGTTCGCAACCAGCTCGAAAACAATCGCCGCCAGCTTGCGGCGGCACAGCAGAGCCACGCGGAAAACCAGAAGGCGGTGAAAACTCTGGAGGAGCAGATCACCAAGCTCAAAGCGGCGATCTCCACCATCAACGTCAAGGTTCAGGACTTCAACATTCAGGTCGGCAACTTCACCAGCGCTCTGAAGGAAGCGAGCGAGGTCAATCCTGACGACGCGAAAATACGTCAGGTTACGCGGCTGTCCGCCGAGATCGACGGCCTGACCAAAGACGTGCCGCAGTTCATTTCCTCCACCGAGGCCGGACTGCCGGACGACGCGAAGAAGCAGTGCGGATCGTGA	MMQLKHVVFAGLAAFAMQFDIPSMGQPAIANAATLTAEQTAAFKSKLEQAEASRELLGRRSVCLMDHLTAQQQLSADREKALGEAMYLQIELERQVVQSETSVKGYEELVQSENENVKARQATFEKARKERDEQAKRVKICSGVLFFLPGICQAGDAAVKALGWMNDAEREYRTAQPRLDNARAALEGVRNQLENNRRQLAAAQQSHAENQKAVKTLEEQITKLKAAISTINVKVQDFNIQVGNFTSALKEASEVNPDDAKIRQVTRLSAEIDGLTKDVPQFISSTEAGLPDDAKKQCGS				NA	NA	NA	NA	NA
BMS010_06478	1869			hypothetical protein	ATGAACAATGTCGTGACTTTCGAAAGCCGGACCGCCCAGATCAACAGCGCAATCGACGCCGGCGTCGACGCTATCGTTTCGCAACCGAATTTCAGCCTTCCCAAGTCTGATACGGCGCTTGTCCGGTCTTATGTCGATAAGATCCAGGGAACCTATGATGTCGAGCGCGCCAAGCGCGACACCGACAATGCGATCGATCTGCTTTACATCGCCTATAACACCACGCCGCAGGAGAACGGCGATATTCGCGTCCGCATCAGCGCTATCATGAACAGGCTGATCACGTCGCAGCAGAAAAGCGAAATAGTCATGAAGAACGCGATGGAGGCAGCCACCCGCATCGGCCTGTCCATCGCCGATCTTTTCCCGGACTGGCTCGATGTCAGGGAAGAAAACGATCAGGCCGAAATCAAGGCATTTGTCTCTAACGATCTGATAAAGCTCGCAACGAATATCCGGGATAGGGCGCTCAGCGTTCGAGACGAGCTTCTTGCCCTTGCTGCAACCTATGACGCCATCATCAGGGACACGGCGCAAACCACGGATATGAGCGAAACGGCCTTGAGCAAACGCCTCGCCGATAAAGCCGTGATGGAACGGGAAATCCGGGAGGCGGACGCACGGCGGGAACAGCTTGAATCGCTTGTCAACGATCTCAAGGAACAGGTTGCGGCATTCGAAAAGAAGGCCCGGGAATATGAGCAGCGGGCCAATACGGCCGAGCAGCGTGCTTTTGTCATGTCGATCGTCCGCGTCGGCGCGCAGATGATTTCAAGCGCAATTCCCGCCATCGCCATGGTGGCGGGCGGTCCTGCCTCCATGCTGGCCTCGTCGGTTGGCGGCGCGCTTTCGGGACAGTCCAAGGGCGGGCAGGATGCAGACGGGCAGGGGCAGGGCGGCGGCTCCCGCACCCCGTCAGGCGGCGGAAGCAAGGCCGATGCGGCCGCCAAGCAGAGCGAGCTTTCCGAAAAGAAAGCCGAGCTTCGCAAGAGCGAGGAAAAACGCGACGCTCTGAAGGGGGATGTCAAGTCGCTCGAGGACGCCAAGGCGAAGCTTGCGCAGGACGCGGAGAGCGCGGACCCCAAATCGAGCAAGGCCATCGAGCTTGCCGAACTCGACAAGCGTCTGGCTGCACGTGCCGCGGAACTCAAGGCGCAGGAAGAAAAGATCGCCGCTCAGCAAACGGTTATTTCCAGCCTGCAGGCTTCGCTCGATGCTTTGGACAAGGGGCTGGGCAAGCTCTCCGAAGAGCAGCAGCAACAGGCGGCCAGCCTGCGCGAAATCCAGATGCAGATGATCGACAAGGCGGAGGCCTATGAGAAGGAACGCCGTACCCAGGCGGCCGAGCTCATCAGGATCAATGCCCTGCTGAAGGGAAAGCAGGCCGAGGATGACAAGATCAAGCTTGCGGTGCAATCGCTCAACGTCAGCATTTCCGCGCTGAAACGCATGAAGGAAATCGTTGAAGAAATCGCCTTCTTCTTCAAGGGCTTCGCCGATTTCATGCAGGCGGTTGCAGATGATGCCCAGCGTCAGATCACCGGCATCGAAAATGTCGCCGGGCAGGAGACGCTGCGAAAGAACCGCTTCGCGCAGCTCATCCGCTCCGTCGACGAGTTCTTCGTCAGGCAAACCGCCCAGTGGCACGCGGTGGTGATCGTCTCCGACCGCTTCAACCGCAGCTTTGCCGAAGGATGGTCGAAGCTCAACAAGTTGCAGGGTGGATATATCGACAGTGCCAATCTGCCGGCCTATCTGGCGGGTGTCGCGGAGAAGCTCTCGGCCATCGTCGCCGAACGTGAGGCTGCCGCGGACGCAAAAATCGCGTCGTTGCAGGCCTATCGTCAGGATCTGAGCAAAACCGCCTGA	MNNVVTFESRTAQINSAIDAGVDAIVSQPNFSLPKSDTALVRSYVDKIQGTYDVERAKRDTDNAIDLLYIAYNTTPQENGDIRVRISAIMNRLITSQQKSEIVMKNAMEAATRIGLSIADLFPDWLDVREENDQAEIKAFVSNDLIKLATNIRDRALSVRDELLALAATYDAIIRDTAQTTDMSETALSKRLADKAVMEREIREADARREQLESLVNDLKEQVAAFEKKAREYEQRANTAEQRAFVMSIVRVGAQMISSAIPAIAMVAGGPASMLASSVGGALSGQSKGGQDADGQGQGGGSRTPSGGGSKADAAAKQSELSEKKAELRKSEEKRDALKGDVKSLEDAKAKLAQDAESADPKSSKAIELAELDKRLAARAAELKAQEEKIAAQQTVISSLQASLDALDKGLGKLSEEQQQQAASLREIQMQMIDKAEAYEKERRTQAAELIRINALLKGKQAEDDKIKLAVQSLNVSISALKRMKEIVEEIAFFFKGFADFMQAVADDAQRQITGIENVAGQETLRKNRFAQLIRSVDEFFVRQTAQWHAVVIVSDRFNRSFAEGWSKLNKLQGGYIDSANLPAYLAGVAEKLSAIVAEREAAADAKIASLQAYRQDLSKTA				NA	NA	NA	NA	NA
BMS010_06479	543			hypothetical protein	ATGCCAACAGTCAACAACCCTCCCGCCCTGGTGCCCCAGCTAACCCCCGCCTGGTGCTTTGCCGCCGTCGAACAGATGGTGCGGGCCTATTACGGACTTCCCGCGGCGACGCAATACGTCATTGCAAGGCGCAACACCGCAGCACTCGCCACCGTCGATCCCGAGGTTCGCGAGCGCTGGGAACTGGCGGAGGTTCTGGATCAAACCGGCGGCATCAATGAACAGGCCGGCGCCAACCAGAACAGCAATATCGTCCAGCTGGTTTCCAGCCAGTGGAACGCCTTCGATCACGAAACGACCGGCGGCCACTTCGTCAATGGCCTGACGGCCGATATCGTCAGACACGAGATCGATAACAACCGCGTCTTCGTGATCGGCACGGAGTACCACTATTACCTCGTCTATGGCTACACCGTGAATGGCAAGGATCTGGAACTTCATATCCTCGATCCATGGCCAGCCGGGCAGGGCGGTGCCAGAACGCGGCTCGGCCTGCAGGCGTTTTTGGCCATGCCGGCCCGCGTCGCCATCACCTTCGGCTAA	MPTVNNPPALVPQLTPAWCFAAVEQMVRAYYGLPAATQYVIARRNTAALATVDPEVRERWELAEVLDQTGGINEQAGANQNSNIVQLVSSQWNAFDHETTGGHFVNGLTADIVRHEIDNNRVFVIGTEYHYYLVYGYTVNGKDLELHILDPWPAGQGGARTRLGLQAFLAMPARVAITFG				NA	NA	NA	NA	NA
BMS010_06480	483			hypothetical protein	ATGCCACTTCTTGGCAATTTCGTCGTCAAGCATATCCGGCCCTTCGGTGAAGCAGGATATAATGCTTTCGGCAATGATCAAACCATCGAGTTCCTCTCAAGTCTCGGGCTCAGCGGCGGGGATATCGCGAATATTTTCGCCGCCTGGCGCCTGGCGGCCCTGGCCGATCCCGTCGGCGAGAGCAATCTTCTCGTTGCGGCAGCGAATGGGCTGGCGCAGGCGCGATGGGAATATCTCTATGAGACCCAGATGAGCACTGTCCTGTTCCTCGACGATGTCCAGCTTGAATCGCTCAGCCACCTCGCGCCGGGCGCCAACCAAAACTTCTCATGGCGATCCCCAACCCCCATCGCCGCCGCGGTGACCATCCACAACGGCAGCAACCGGCATCACATCATCTGGGATGCGACGGGCTTTTCCGGCGGCACCGATGAAAATGGCTGGATTTCGCACTTCACCGCATTGTTGCCCACCGAGCGATAG	MPLLGNFVVKHIRPFGEAGYNAFGNDQTIEFLSSLGLSGGDIANIFAAWRLAALADPVGESNLLVAAANGLAQARWEYLYETQMSTVLFLDDVQLESLSHLAPGANQNFSWRSPTPIAAAVTIHNGSNRHHIIWDATGFSGGTDENGWISHFTALLPTER				NA	NA	NA	NA	NA
BMS010_06481	1197	chrA		Chromate transport protein	GTGCACGGCCAGAGACACGGCACGACCAACGAGGTTTTCGCAGCTTTCCTGAAGCTCGGCGTCACCTCCTTCGGCGGCCCCATCGCCCATCTCGGTTATTTTCGCGATGAACTGGTCGTGCGGCGCAAATGGATCGATGAGGCCGGTTATGCCGATCTCGTGGCGCTGTGCCAGTTTCTTCCCGGCCCGGCCTCCAGCCAGGTGGGGTTTGCGCTCGGGCTGCTGCGGGCAGGCCCGCTCGGTGCGCTGGCGGCCTGGACGGCTTTTACCCTGCCATCCGCCATTCTCCTCTTTTTCTTCGCCATGGTTGCCGCCTCCATCGAAGGACCAGTCGGCACCGGCCTCCTGCATGGGCTGAAAATCGTCGCCGTCGCCGTCGTGGCGCAGGCGGTCTGGGGCATGGCAAAAAGCCTTGCGCCGGATCGTGAGCGGGCCAGCATCGCGCTTGCCGGCATCGTCTGCGTCGTGTTTGTCGCCGGCGCCTTCGGGCAGATCCTGGCGCTTGCCGTCGGCGCGCTCGCCGGCCTTGCCTTCTGTCGCGCCGATGCCGCGCGGCAGGCCACCCATCTCGCCTTCCGGGTGCCAAAAAGTGCGGGATACATTGCGCTCGCCACCTTTGCCCTGCTTCTTGGCCTCCTGCCGCTGCTTGCGGCGGTCGCGGCGTCACAGGGCCTCTCCTTGTTCGATGCCTTTTATCGCGCCGGCGCGTTGGTTTTCGGTGGCGGGCACGTGGTGCTCCCGCTGCTGCAATCGGAAGTCGTCGCCACGGGCTGGGTTACGGAAGATGCCTTCATCGCCGGATATGGCGCAACCCAGGCCGTGCCCGGCCCGCTCTTCACCTTCGCCGCCTATCTCGGTGCGGTGGCAGGGCCACAGCCCAACGGCGTTGCAGGTGCGGCTATCGCCCTTGTCGCGATCTTCCTGCCCGGCATGTTGCTGCTCGTCGGCGCGCTGCCCTTCTGGGAAGGGTTCCGCAAGCACCTTTTGGCGCAGGCTGCCATGCGCGGCGCAAATGCCGCTGTCGTCGGCATTCTGGGCGCAGCGCTTTATGATCCGGTCTGGACAAGCGCCATCTTCACCCCGAAGGATTTCACCCTGGCGCTCACTGGCTTCATCCTGTTGACGATCTGGAAAACCCCGCCATGGGCCGTGGTGGTCCTCTGCGCGGCCGGCGGCGTTCTGCTCGCCCTGGCATAG	MHGQRHGTTNEVFAAFLKLGVTSFGGPIAHLGYFRDELVVRRKWIDEAGYADLVALCQFLPGPASSQVGFALGLLRAGPLGALAAWTAFTLPSAILLFFFAMVAASIEGPVGTGLLHGLKIVAVAVVAQAVWGMAKSLAPDRERASIALAGIVCVVFVAGAFGQILALAVGALAGLAFCRADAARQATHLAFRVPKSAGYIALATFALLLGLLPLLAAVAASQGLSLFDAFYRAGALVFGGGHVVLPLLQSEVVATGWVTEDAFIAGYGATQAVPGPLFTFAAYLGAVAGPQPNGVAGAAIALVAIFLPGMLLLVGALPFWEGFRKHLLAQAAMRGANAAVVGILGAALYDPVWTSAIFTPKDFTLALTGFILLTIWKTPPWAVVVLCAAGGVLLALA				NA	NA	NA	NA	NA
BMS010_06482	882	ampR		HTH-type transcriptional activator AmpR	ATGGTTCGGCAATTTCTTCCACTGAACGGCTTACGGGCTTTTGAGGCATCGGCGCGGCACCTGAGCTTCACCCGCGCGGCCATCGAATTATGTGTGACGCAGGCGGCTGTGAGCCAGCAGGTGAAAGGACTGGAAAAGCGGCTTGGCGTTTCGCTTTTTCAGCGGCTTCCGCGCGGCCTGAAGATTACCGCCGAAGGCGAGGCCCTGCTGCCGACGGTGACGAGTTCCTTCGACCAGATGGCGACGACGCTCGACCGGATCGAGGCCGGTCAGGTGCGCGAACTGCTGTTTCTGGGTGTTGTGGGAACCTTTGCCGTGGGCTGGCTGCTGCCCCGGCTGAAGGCGTTTCAGAAGCAGCATCCCTTCATCGATGTCAGGGTTTCCACCAATAATAACCGGGTGGATATGGCGGCTGAAGGGCTGGATTTCGCCATTCGTTTCGGCCAGGGTTCCTGGCATGGCACGGATGCCTTTCGGTTATTCGAGGCGCCTCTCTCCCCGCTCTGCACGCCGAAACTGGCAGAGACGCTGAAAACGCCCGCTGATCTGATGGAATCGACGCTGCTGCGCAGCTACAGGGCCGATGAATGGAGCAACTGGTTTGCGGCGGCCGGCGTGACGCCCGCCGCGCAGGTGAATGCCGGCATTGTTTTCGATACGTCTCTGGGCATGATGGAGGCCGCCCTGCAGGGGCTGGGCGTGGCGCTGGCGCCGCCATCGATGTTTTCGCGGCATCTCGCCTCCGGCGCGATCATCCAGCCTTTTCCGGTTACCATTTCGCTCGGAAGCTATTGGCTGACCCGGCTGCAATCGAAACCGCCGACACCCGCCATGCAGGCCTTTTCCGACTGGATGTTCGAAAGCATAGGCGCTGCGGGATAA	MVRQFLPLNGLRAFEASARHLSFTRAAIELCVTQAAVSQQVKGLEKRLGVSLFQRLPRGLKITAEGEALLPTVTSSFDQMATTLDRIEAGQVRELLFLGVVGTFAVGWLLPRLKAFQKQHPFIDVRVSTNNNRVDMAAEGLDFAIRFGQGSWHGTDAFRLFEAPLSPLCTPKLAETLKTPADLMESTLLRSYRADEWSNWFAAAGVTPAAQVNAGIVFDTSLGMMEAALQGLGVALAPPSMFSRHLASGAIIQPFPVTISLGSYWLTRLQSKPPTPAMQAFSDWMFESIGAAG	PGPT0028085_218	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028085-ampR-K17850	NA	NA
BMS010_06483	1158	ampC	COG1680	Beta-lactamase	ATGAAACTTAATCGCAGACATATCGCACTGGCCACTTTGCTTTCGACGGGCCTGTTCACGCAGGCGCTCGCCGCCGATGATGCGAAGCTGAAAGCGATAACGGATGCAGCGATCAAACCGGTCATGGAGAAAAACGGCATTCCGGGCCTTGCCGTTGGTATCAGTGTCGATGGCGAAAGCCACATCTTCACCTATGGCGTCATGTCCAAAAGCTCGGGCCAGCAGGTGACGGCGCAGACGCTTTTCGAACTCGGCTCCATCTCCAAGACTTTCACGGTCACCCTCAGCACCTATGCCGAAATGAATGGCCGGCTTTCGCTCTCGAGCAAGGTGGAAAATTATCTTCCCTCCATGAAAGGCAAGCCCTTCGGTGATGTCACGCTGATGCAACTCGGCACCCACACCGCCGGCGGCTTTCCGTTGCAGGTGCCGGATTACGTCAAGACGGAACAGCAGTTGCTGGCCTATCTCAAGGCCTGGAAACCCTCATACAAGCCCGGAACACACAGAACTTATGCCAATCCCAGCATCGGAATGCTCGGATACATCACCGCAAAGGCCATGGGCCAAAGCTTCGATGACGCCATGAAAGATACGCTCTTTCCCGCTCTGGGCTTGAAGAACACCTTTACCGTGGTGCCTGAGGCAAAGATGGCCGATTACGCGCAGGGCTATAAGCGAACGGGCGAGCCCGCCCGCGTGACACCCGCCGTTCTCTCTTCGGAAGCCTACGGCGTCAAATCGACAGCGGAGGATATGATCCGTTTCGTCAATGCGAATATGGGACTGGAAAAGCTGGACGGAAAAATCCAGCAGGCGCTCACCAACACCCATACGGGATATTTCAGCGTCGGCGCAATGACGCAGGACATGGTCTGGGAGCAATATACCCATCCCGCACCGCTGAAGACATTGCGAGAGCTAAATTCCGGTGCCCTGCTCAAGACTGTTCCGGTCTCCGAAATCTCGCCGCCCATGAAGCCGCGCCAGGATGTCTTCATCAACAAGACCGGCTCCACCAATGGTTTTGGCGCTTATGTGGCGTTCATACCAAAGCAGAAATTGGGCATCGTCATTCTGGCCAATAAAAACTACCCCAATGAGGAGCGGGTTTCGGCGGCCTATGAGATTCTGACGGCGCTTGAAAAAGCGCGCTAA	MKLNRRHIALATLLSTGLFTQALAADDAKLKAITDAAIKPVMEKNGIPGLAVGISVDGESHIFTYGVMSKSSGQQVTAQTLFELGSISKTFTVTLSTYAEMNGRLSLSSKVENYLPSMKGKPFGDVTLMQLGTHTAGGFPLQVPDYVKTEQQLLAYLKAWKPSYKPGTHRTYANPSIGMLGYITAKAMGQSFDDAMKDTLFPALGLKNTFTVVPEAKMADYAQGYKRTGEPARVTPAVLSSEAYGVKSTAEDMIRFVNANMGLEKLDGKIQQALTNTHTGYFSVGAMTQDMVWEQYTHPAPLKTLRELNSGALLKTVPVSEISPPMKPRQDVFINKTGSTNGFGAYVAFIPKQKLGIVILANKNYPNEERVSAAYEILTALEKAR	PGPT0028115_593	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028115-ampC-K01467	NA	NA
BMS010_06484	1323	rutG	COG2233	Putative pyrimidine permease RutG	ATGAGTGATACCGGTGGTTATTTTCCGCGCTGGCGACTGAAAACCGAAGGGCGCATCCTGCCCGATGAGCGTCTGCCTGCGGGGCAGACGGCGGTGCTCGGTCTTCAGCATGTCGTGGCGATGTTCGGATCGACGGTTCTTGCACCATTGATCATGGGGTTTGATCCGAACGTCTCTATCCTGTTTTCGGGCATCTCGACACTGATTTTCTTCATCGCCGTTGGCGGACGTGTCCCGAGCTATCTTGGCTCTTCCTTTGCGTTCATCGGACCGGTGCTCGTGGCAACGGGTGCGGCCGCGGGCGCGGCGAGCCCTGATATCGCGCTGGCGCTCGGCGGCATCATCGCCGCAGGTGTGCTTTATGCGCTGATCGGCGTCATCGTCATGATCGCCGGCCATGACTGGATCGAAAAGCTGATGCCGCCGGTTCTGACCGGCGCGATCGTTGCGGCAATCGGTCTCGTTCTCGCACCCATTGCGATTGCAAGCGCTTCCGGCTCCGGCCCGGGCAATCCCGACGGCGACCAGCTGTCGCGCTGGATTGCGATCCTAACTGTCACATCGGTCGGCGCGATTGCTGTCTATGCGCCCGGCATGGCGCGCCGCTTGCCCATTCTTCTCGGCGGCGCGATTGCCTATATCGCTTATCTCGTGGTGGCGAATGGCCTCGGTCTCGGCAAACCGGTCGATTTTGCAGGCGTTGCGGCCGCATCGTGGTTCGGTCTGCCGACATTCACCGCGCCGGTATTTGCCGGCTCCGCGATTGCGCTGATTGCTCCGGTCGTCGTCATCCTCGTGGCGGAAAATCTAGGGCATATCAAGGCGATAGGCGCGATGACCGGGCAGAACCTCGATCGTTATCTCGGTCGCGCCTTTATCGGTGACGGCATTGCGACGATGTTCTCAGGCGCCTTCGGTGGAACCGGCATGACGACCTATGCCGAAAACATGGGTGTCATGGCGATAACCCGCATTTTCTCGACGCTCGTCTTCGTCGTAGCTGCACTGGTGGCCATCATTCTCGGCTTTTCGCCGAAATTCGGTGCGCTCATTCAGACCATCCCCGGACCGGTCATCGGCGGCCTTTCCGTCGTGGTCTTCGGCCTCATCGCGGCGACCGCCGGGCGGATCTGGGTTGAAAACAGGGTCGATTTTTCCGAGCCGCGCAACCTCATCACCGTGGGTATCGCGCTGGTGCTGGGCGCCGGCAACTTCAAGCTCAATGTCGCGGGCTTCACGCTCGATGGCATCGGCACGGCAACAATCGGAGCGATTGCCTTTTACCACCTGCTGGGCCTTGGCAGACGGGCGTCGGGCAAGTGA	MSDTGGYFPRWRLKTEGRILPDERLPAGQTAVLGLQHVVAMFGSTVLAPLIMGFDPNVSILFSGISTLIFFIAVGGRVPSYLGSSFAFIGPVLVATGAAAGAASPDIALALGGIIAAGVLYALIGVIVMIAGHDWIEKLMPPVLTGAIVAAIGLVLAPIAIASASGSGPGNPDGDQLSRWIAILTVTSVGAIAVYAPGMARRLPILLGGAIAYIAYLVVANGLGLGKPVDFAGVAAASWFGLPTFTAPVFAGSAIALIAPVVVILVAENLGHIKAIGAMTGQNLDRYLGRAFIGDGIATMFSGAFGGTGMTTYAENMGVMAITRIFSTLVFVVAALVAIILGFSPKFGALIQTIPGPVIGGLSVVVFGLIAATAGRIWVENRVDFSEPRNLITVGIALVLGAGNFKLNVAGFTLDGIGTATIGAIAFYHLLGLGRRASGK				NA	NA	NA	NA	NA
BMS010_06485	897			hypothetical protein	ATGCGTGTTTTTCTGACAGGTGCCACCGGGTTCATCGGCTCCCGGATTCTTCGTGAACTGCTCATCGACGGCCATGAGGTAGTCGGCCTCACCCGCTCGGAGGCCGGCGCAAAAGCGCTGCAGGCCGCTGGAGCTTCCGCCCACATCGCAACGCTGGAAGATGCGGCCAGACTCGCCGGGGGTGCAGAGACTGCCGATGCCGTCATCCATACGGCTTTCGACCATGATTTCGCGAATTTCGCCGCCAATTGCGAAAAGGATCGCCGGGTGATCGCGGCGCTCGGTGCCGTATTGGCTGGTTCCGACAGGCCGATGCTCATCACCTCAGGGGTCGGCATGGGTGACCCCGGCAATGGCGAACCCGCCCGGGAGGATGTGTTCGATACGCATCATTTCAATCCGCGCATCGCCTCGGAACTCGCGGGCCAGGAGCAATTGCAGGCGGGCGTCAATCTCGGCGTCGTCCGGCTCCCGCAGGTGCATGACACGGTAAAACAGGGCCTCATCTCGCCCTATATCGAGATGTCGCGCGAAAAAGGCATCGTCGCTTATGTCGAGGATGGCGGCAATCGCTGGTCAGCCGGGCATGTGGACGATGTGGCGAAGCTCTACGTGATGGCGCTCCTTCGGGCCGAGCGGGGTGCTCGCTATAATGCCGTGGCGGAAGAAGGCGTTGTGGTGCGCGATATTGCCGGGATAGTTGCCGAGAGGCTTGGGCTGCCGCTCGTTTCCATAGGCAAAGAGGACGCCGCCGGCCATTTCGGCTGGTTTGCCCTGTTCGCCGCTATGGATCTTACGGCCTCCAGCGCGCTCACCCGGGAGAAACTCGGCTGGATACCCACTGGACCGGGCCTGCTCGACGATCTCAGAGCCATGGACTACGCGACGATCGAATAA	MRVFLTGATGFIGSRILRELLIDGHEVVGLTRSEAGAKALQAAGASAHIATLEDAARLAGGAETADAVIHTAFDHDFANFAANCEKDRRVIAALGAVLAGSDRPMLITSGVGMGDPGNGEPAREDVFDTHHFNPRIASELAGQEQLQAGVNLGVVRLPQVHDTVKQGLISPYIEMSREKGIVAYVEDGGNRWSAGHVDDVAKLYVMALLRAERGARYNAVAEEGVVVRDIAGIVAERLGLPLVSIGKEDAAGHFGWFALFAAMDLTASSALTREKLGWIPTGPGLLDDLRAMDYATIE				NA	NA	NA	NA	NA
BMS010_06486	891			hypothetical protein	ATGAAGAATTGTCCTGTTAAAGTAGTGACTTTATCATGGTATAATTCTCAACAGGCTGCGGCGAGAAATGTAATGACGGAGAATGCACTTAGCACCTTCCTGCGTGATCGCCGCCTGCGGCTTGATCCTGCAACGTTTGGTTTTCCCATCGGCCGCCGCCGCACACCGGGTCTGCGGCGCGAGGAGGTCGCCCAGCGTGCCAACATAAGTCCCACCTGGTATACGTGGCTGGAGCAGGGTCGCGGCGGTTCGCCCTCGGCGGATGTGCTGGATCGTATCGCCAAAGGACTGATGCTGACCGATCCCGAGCGCGACCACCTGCATATATTGGCCTTCGGACATCCGCCCGAGCAGCGTTATCGCCAGCCTGAGACGATAACGCCCCGTCTTCAGGGCGTGCTTGACGCGTTGCCCTTCAGCCCCGCGATCATCAGAACGGCGACATGGGACGTCCTGGCATGGAACCGGGCCGCCGCCGTCATCCTCACGGATTACAGCAAACTGGCGAGGGAGAACCGCAACATTCTGCGTCTGATTTTCTCCGATGAACGGGTGCGCACTGCCCAGGAGGACTGGCGCAATGTCGCCCGCTACGTGGTCGGCGCGTTCCGGGCAGATGCCGCGCGCGCTGGCGCTGGCGCAGGCATCCAGCAACTTGTCGATGAGCTCTCGGCCGCCAGCTCCGAATTCAAGGCCATGTGGGATGACAACGAGGTCACAAGCATGCACGAGGGCCTCAAGCGCCTACACCATCCGGTTCTGGGAACAATCGAACTGGAGTTTTCATGCTTTGCGGTGGAGGGACGCTCGGATCTCAACATGATGGTCTATAATCCCGCCAACCCTGAAATGAGCGAGCGATTTCGCGCGCTGATCGCAAAATCCGGATGA	MKNCPVKVVTLSWYNSQQAAARNVMTENALSTFLRDRRLRLDPATFGFPIGRRRTPGLRREEVAQRANISPTWYTWLEQGRGGSPSADVLDRIAKGLMLTDPERDHLHILAFGHPPEQRYRQPETITPRLQGVLDALPFSPAIIRTATWDVLAWNRAAAVILTDYSKLARENRNILRLIFSDERVRTAQEDWRNVARYVVGAFRADAARAGAGAGIQQLVDELSAASSEFKAMWDDNEVTSMHEGLKRLHHPVLGTIELEFSCFAVEGRSDLNMMVYNPANPEMSERFRALIAKSG				NA	NA	NA	NA	NA
BMS010_06487	1113	dhpH		2,6-dihydroxypyridine 3-monooxygenase	ATGAAACCATTGACGATCCGGATCGCCGGCGGCTCGCTTGCCGGTCTCTTCACGGCGATATTGCTTCAGCAGGACGGGCACGATGTGAAAGTCTACGAGCGCTCTGCATCCGGCCTCGCGGGGCGTGGTGCAGGACTGGTGCCGCAGCAGGAATTATTCGAGGTTCTGGACCAGATCGGCTGCGAAGACGTCTCCCATGTCGGTGTGGTTGCAAAGGAGCGCATCTACCTCGACGCCGGCGGCCACGTCGCCCAGCGCCAGAAGACGCCGCAGATGCAGATTTCATGGGACTATCTCTTCGAGAGCGTATCCTCCCGCCTCCTCGCCGATACCTATCGTCTCCGACACCATATCAACGCGGTTCGGGAAGGCCCTGATGGAGTGACACTATCCTTCACCGACGGCACGGAAGACCGCGCCGATCTGGTGATCGGCGCGGATGGCCTGGGTTCGGTCATCCGCAAGGCGGTTAATCGTCATTCAGAAAACGCCTTTGCGGGTTACGTCGCCTGGCGCGGACTGATCCTGGAAACCAAATTGCCGGCCGATGAATCCCTGCTGCTCGACCGCTTCGCTTTTCATATCGCACCCGGCATTCATGTTTTGGGTTACCTCGTGCCGGGCCCAAAGGGTGAGACACAACAGGGACAGCGCCGTTACAACTGGGTATGGTATCGCCCCACACCGGCTGACGAGCTGCCCCGCACCTTCGCCGGCCGCGACGGCAGGCATTTCGAGCATTCGCTCCCCCGAGGTGAGCTGGCCGAACAGCGCCGCGAGCAACTGCGCAGGGACGCGTTTTCCCTTCTGCCGCCGCAACTGGCTCTTGCGGTCGAAGCCGAGGAAACCCCATCGATCCAGGGCATTTTTGACTATGAGGCTGAACAGATGGTGTCGCCACATATGGCGCTGGTCGGGGATTCCGCCTTTGTGGTTCGCCCTCACACCGCAATGGGCGTTTCCAAGGCCGCGGGCGACGCAATGGCACTGCGCGACGCCCTGCGACAGACGGACGACCTGCCTGCAGCCCTTTCACGATATCAGAAAACCCGCCTGCCGGTGGGCAAGTCAATCGCCGCCTATGGCCGGAGGCTTGCCGAGACCGCGATCTGA	MKPLTIRIAGGSLAGLFTAILLQQDGHDVKVYERSASGLAGRGAGLVPQQELFEVLDQIGCEDVSHVGVVAKERIYLDAGGHVAQRQKTPQMQISWDYLFESVSSRLLADTYRLRHHINAVREGPDGVTLSFTDGTEDRADLVIGADGLGSVIRKAVNRHSENAFAGYVAWRGLILETKLPADESLLLDRFAFHIAPGIHVLGYLVPGPKGETQQGQRRYNWVWYRPTPADELPRTFAGRDGRHFEHSLPRGELAEQRREQLRRDAFSLLPPQLALAVEAEETPSIQGIFDYEAEQMVSPHMALVGDSAFVVRPHTAMGVSKAAGDAMALRDALRQTDDLPAALSRYQKTRLPVGKSIAAYGRRLAETAI				NA	NA	NA	NA	NA
BMS010_06488	1248	oxdD	COG2140	Oxalate decarboxylase OxdD	ATGGAAACGTTGACCAGACGCGCAGTCCTCGCAATCGGCGCCGTCGGCGGCACCGCCCTTGCCGCCAGCGCGGCCGGAGCAGCATCTTTCGGCAATCCCGATCAGCCCGCCGAGGGAGCAATTAATGCCAATGCCGCCGGCCTCAGCGATCCCGGCCCGAAGAACCCTGCGATCAACAACCAGTTTCCGTCTTTCCAGAGCCCACCGGCGACCGATGTTGGCGACATGCAGCTTTTCTGGGGTTCGTTCAACAACGCCGCCAAACGTATCCAGAATGGCGGCTGGGCACGTCAGGTGACCAAGTCGGACTTCGCGATTTCGGATGCCGTGTCCGGCGTCAACATGCGGCTCGGACCGGGCGGCATTCGTGAGATGCACTGGCACCGCGCCGCAGAATGGGCCATCATGACCAACGGGCGTTGCCGCATCACCGTGCTCGATACGCAGGGCCGCGCTTATGTGCAGGATGTGGAGGCCGGTGATCTCTGGTATTTTCCGGCCGGCTACCCCCATTCGCTGCAGGGACTTGGTCCCGACGGTTGCGAATTCGTCATCGTGTTCGACGAAGGCGACCAGTCCGAATATGGCACCCTGCTTCTCACCGACTGGTTGGCGCATACCTCTCCCGAACTGCTGGCCAAGAATTTCGGCATCGCGCCGGACGTGTTCCGGACCATTCCACTGCAGAACCTCTGGATATTCCAGGGCAAGGAGCCGGGACCGCTCTCCCGGGATCAGGAAGCCGTTGCCGGCGCGGGGCTTCCCCCGTTTCCGTTCACCTATAAGCTCGCGGCATCAAAGCCACTGAAGGAAAACGCTGCCGGCGTCATTCGCCTCGCCGACAGCAGCGCCTTTACGGTGTCCAAAACCATCGCCGCCGCCATCGAAACGATCAAGCCCGGCGGGGTGCGCGAAATGCACTGGCACCCCAACGCGGACGAATGGCAATACTGGATCAAGGGTGAAGGCCGGATGACCGTGTTCGACGCGGGTCCACGCAGCCAGACCGCGGATTTCCGTGCTGGCGACATTGGCTACGTGAAGAGGAGCCAGGGCCACATCATCGAAAATACCGGCAAGACCGACCTGCAATTCGTCGCGGTCTTCAAGACCGCCGAATACCAGGAGGTCAGCCTGTCGTCCTGGCTGACCCACACCCCGCCGGCGCTCGTAGCCCAGCACCTCAACGTCAGCATCGAGGATGTGGCGAAGTTTCCCGCAAACCAGCCGGCGATCATGCCGGGCTGA	METLTRRAVLAIGAVGGTALAASAAGAASFGNPDQPAEGAINANAAGLSDPGPKNPAINNQFPSFQSPPATDVGDMQLFWGSFNNAAKRIQNGGWARQVTKSDFAISDAVSGVNMRLGPGGIREMHWHRAAEWAIMTNGRCRITVLDTQGRAYVQDVEAGDLWYFPAGYPHSLQGLGPDGCEFVIVFDEGDQSEYGTLLLTDWLAHTSPELLAKNFGIAPDVFRTIPLQNLWIFQGKEPGPLSRDQEAVAGAGLPPFPFTYKLAASKPLKENAAGVIRLADSSAFTVSKTIAAAIETIKPGGVREMHWHPNADEWQYWIKGEGRMTVFDAGPRSQTADFRAGDIGYVKRSQGHIIENTGKTDLQFVAVFKTAEYQEVSLSSWLTHTPPALVAQHLNVSIEDVAKFPANQPAIMPG				NA	NA	NA	NA	NA
BMS010_06489	468			hypothetical protein	ATGACCTCCATCAGCAAGAATGCCGACGCGCAAAGACGGCGTCACCTCAAAGTCGCAGCAATGTTGGTTCTGGGTGCGGTCGCCTTGTTCGGAGGAAATGTACTCCTGATCAGGGATAGCGAGCCGGCGCTCGCGGCCTCCGAAGACGTCGCATCAGCCAGCGCCTTCCGCATCCTCACACCGCAGACGATCGACAGGCCTTACGGACATTCCGCGCCTGTCGCGTCTGCCGGCGATGCAACCGAAGGCAAAGAGACTGTAGCGGCCACCGACGACACATCCTGCGTCGCCATGCGCGCCGCCCGAAAAACGGACCGGCACGACACGCTGGATCCAAAAGCCTTCTGTCAGCTCCAACACCGCCTCTTCAATGCCGAGCTGATCGACCGCATCGCCTTGCTCCAACTCGCATCACAGACCCACACAATCGACACCTCGTCCCAACTCGCTATGAACAAGGAGTTCTGA	MTSISKNADAQRRRHLKVAAMLVLGAVALFGGNVLLIRDSEPALAASEDVASASAFRILTPQTIDRPYGHSAPVASAGDATEGKETVAATDDTSCVAMRAARKTDRHDTLDPKAFCQLQHRLFNAELIDRIALLQLASQTHTIDTSSQLAMNKEF				NA	NA	NA	NA	NA
BMS010_06490	375	tmoT_1		Response regulator protein TmoT	TTGCCCCCCGTTCCCGTCATTGCTGTCGTCGACGACGATCCCGCCATTCGCGAAGCCATGGATGATCTGATCATGTCCTTTGGTTACGAATGCCGCCTGTTTGCTTCTGCCGAAGAATTCCTGGAATCGAAGCAGCAGGCGGGCATCGACTGCATCGTCGTGGACGTGAAAATGCCCGGTCTTTCCGGCATCGAGTTGCAGAGCGAGCTGAACCGGCGCGGCGACCATCCACCCATGATCTTCGTCACCTCCTATCAGGATGAGCGCACCCGGAACGCGGCTTTGAACGGCGGCGCATTGGCCTTTCTCGGCAAGCCAGTCAATATCGTCAGTCTGATCGGATGCCTGCAATCCGTGCTCAACGCGCAATCCTGA	MPPVPVIAVVDDDPAIREAMDDLIMSFGYECRLFASAEEFLESKQQAGIDCIVVDVKMPGLSGIELQSELNRRGDHPPMIFVTSYQDERTRNAALNGGALAFLGKPVNIVSLIGCLQSVLNAQS	PGPT0000145_656	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0000145-fixJ-K14987	NA	NA
BMS010_06491	657	todT		Response regulator protein TodT	ATGCCTGAGCAACGCAAGACGACAAAGGAGCCGCCGTCACCCATCGTGTTCATCGTCGACGACGATGTGTCGATGCGCGAGGCGCTCACCGATCTTTTCCGCTCCATGAAGTTCGATGCCGAGGCTTTCGACAGCGCCGGCGCCTTTCTTGAAAAAGCCAATCTGAACCGGCCTGGCTGCCTGCTGCTTGATGTGCGGCTTCCGGGCATAAGCGGCCTGGATTTCCAGATGCAGCTGGAACGCGTCGGCAACCGGATGCCGATCATTTTCATGACCGGCTTCGGCGATATTCCGATGAGCGTGCGGGCGATGAAGGCGGGCGCCGTGGATTTTCTGACCAAGCCCTTCAAGGAACAGGACATTCTCGACGCCGTCGCGGCCGCGATGGAGCGGGATGCGTCACGACGCCGCGAAAGCGCCCAGAACGATGCCGTCACCTCCCTTGCCGAACAGCTGACGCCAAGAGAACGCGAGGTCATGGGCGCGGTTGTCCGCGGCCTGATGAACAAGCAGATCGCCTACGAGCTCGGCATAAGCGAGGTCACCGTGAAGCTGCATCGGGGCAATGTCATGCGCAAGATGGAGGCGAGATCCGTCGCCGATCTCGTGCGCAAAGCGGAGCTGATCGGCGAGAAGCTGCGGCCACCTGTATCTTAG	MPEQRKTTKEPPSPIVFIVDDDVSMREALTDLFRSMKFDAEAFDSAGAFLEKANLNRPGCLLLDVRLPGISGLDFQMQLERVGNRMPIIFMTGFGDIPMSVRAMKAGAVDFLTKPFKEQDILDAVAAAMERDASRRRESAQNDAVTSLAEQLTPREREVMGAVVRGLMNKQIAYELGISEVTVKLHRGNVMRKMEARSVADLVRKAELIGEKLRPPVS	PGPT0015288_19	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULE_REGULATION,PGPT0015288-nodW-NA	NA	NA
BMS010_06492	1581	sasA_19		Adaptive-response sensory-kinase SasA	ATGTCGATTGCGTCAAGGATGTTTCGCGCGCGCGAACCGGAAGGTGGAGCGCACCATCTGGCCTTTGGCCTTGGGGCGCTGGCGCTGGCGGCCGCGGTATTTTACGTTGATACCTATACCGACATAGAAGGCGCGATCGCGGTGCTTTATGTCATCACGGTCCTTTTGGCCGCGCAGACTGTAAGCTGGTCGGGACTGATCGTGATCTCCTGCGCCTGCGCCATTCTTTCCCTCCTGTCCTATGCAGCGACCCACGCGCAGGATGCGGATTTCCAGTCGGCGCTTCGGTTGGTCGTCGCCCTTGCGGCACTTGCCGTCACCACCATGCTGCTTTTGAAAACCGAGACCGCCCGGCTGGCAATGTTGTCCGTCAATGCGGCGCTGAAGGAAAGCGAGGAGCGTTATCGCTCCATTTTCGATCGTACGCGCGTCGCACTTTGGGAACGCGACTATTCGAAGCTTCACGCCCTGCTGATGGGCCTCAAGCAACGGGGCATCACCGACATGCGGGCCCATGCCCGCGCCAATCCGGGTTTTACGCAGCAATGCATCGATCTCATCACCGTCGTTGCATCGAATGAAGCCGGAAAGGAAATGCTGGGTTACGATTCCTCTATCCGCGGCACCCTTCAGCGATCGGTCGTGTCTTCGTCCGGCAAGTTCGTCGATGTGCTGCAGGCGATCATCGACAATCAGGGTGTCTTTGAAGACAAGGTGGTGGTGCGCACCGACAGCGGCGAAGACAAGCTGGTGCTTCTTTCAATCAGTTTCCCCGCGGAGGCGGCCTCCTTCAATCGTGTGGTGGTCAGCATGGTGGATATCACCCAGCGCGAAATGGCGCTGAAGGCGCTGGCTGAAGCTCAGGCGGAATTGACAAAGGCCTCGAAGGCGGCGGCCGTCGGAGCCATGTCCGCATCGCTCTCCCACGAACTGAACCAGCCGCTTGGCGCCATCATCGTCAATGCGCAGACATTGCTGCGCTGGCTCGATCGCGATCCGCCGGATCTCGCCGCCGCCCGCCGCTCGGCCGAACGCATGATCCGCGACGGGCAGCGCGCTAGTGAAATCATCCAGAACACGCGCAGCCTGCTCGCCCATACGAGCGGCAAGGTGGAAACCTTCGACCTCGATGAGTTCATCGACGAAACACTAAGCCTTCTCGAACATGAGCTGGAACGCAGCAGAACCACGGTGCATGTGGAAAAAGCGGCCACGCCGCCGATAACAGCCGTCAGGATCGAATTGCAGCAGGTCCTCATCAATCTTCTCACAAACGCCATTCAGGCCATGGAAGAGGCGGGCACCGGCAATCGCACCATCACGGTGCGGAAGGAACGTGAAGACAGGGACAATATTTATATTGCGGTTCACGACAATGGACCGGGTTTCCCGGTGCAGATGAAGGAAAAGCTGTTTTCGCCGTTTTTCACGACCAAGGAAACGGGAATGGGCATGGGGCTTTCCATCTGCCGCACGACACTGGAAGCACGGGGCGGCAGGCTTACCGGTGACAATCATCCTCTCGGCGGGGCGGTCTTTACCATTTCCATGCCGATCAGCCAGGAGATGGAACATGCCTGA	MSIASRMFRAREPEGGAHHLAFGLGALALAAAVFYVDTYTDIEGAIAVLYVITVLLAAQTVSWSGLIVISCACAILSLLSYAATHAQDADFQSALRLVVALAALAVTTMLLLKTETARLAMLSVNAALKESEERYRSIFDRTRVALWERDYSKLHALLMGLKQRGITDMRAHARANPGFTQQCIDLITVVASNEAGKEMLGYDSSIRGTLQRSVVSSSGKFVDVLQAIIDNQGVFEDKVVVRTDSGEDKLVLLSISFPAEAASFNRVVVSMVDITQREMALKALAEAQAELTKASKAAAVGAMSASLSHELNQPLGAIIVNAQTLLRWLDRDPPDLAAARRSAERMIRDGQRASEIIQNTRSLLAHTSGKVETFDLDEFIDETLSLLEHELERSRTTVHVEKAATPPITAVRIELQQVLINLLTNAIQAMEEAGTGNRTITVRKEREDRDNIYIAVHDNGPGFPVQMKEKLFSPFFTTKETGMGMGLSICRTTLEARGGRLTGDNHPLGGAVFTISMPISQEMEHA				NA	NA	NA	NA	NA
BMS010_06493	2295	ydeP_2	COG0243	Protein YdeP	ATGGCAGAAGAGCGGCCGGAAGGTATTGAAAAATACGATCATCCCGCTGGCGGCTGGGATGCGTTGAAAGCTGTTGCGAAAACGCTCGCGCATCAGCAGATCGTCGCACAGGGCACGATGACGCTCCTTAAGGCCAATAAGCCCGAAGGTTTCGACTGTCCCGGCTGCGCCTGGCCCGACCCCAAACACACCTCCTCGTTCGAGTTCTGCGAAAACGGCGCCAAGGCAATCACCTGGGAATCGACGGCGAAACGATCCGGACCCGAACTTTTCGCGCAGCATACGGTTTCCGAACTGTGGCAATGGACCGATCACAAGCTCGAGGATGCCGGCCGGCTAACCCTTCCCCTGCATTACAATTCCGAGAAGGACCGCTATGAACCGATCGCCTGGGACGATGCCTTCAGCCTGATCGCACGGGAACTCAACAAGCTTGACGACCCCGACAAGGCTGAGTTCTACACGTCCGGCCGGGCATCCAATGAGGCTGCGTTTCTCTACCAGCTTTTCGTGCGCGCCTATGGCACGAACAATTTCCCTGACTGTTCCAACATGTGCCATGAGGCGACAAGCGTCGGCCTTCCGAAATCCATCGGTGTCGGCAAAGGCACGGTGACGCTGGAGGATTTCGACCATGCCGATGCGATCTTCAGCTTCGGCCACAATCCCGGCACCAACCATCCCCGCATGATGACGACGCTGCATAATGCCGCAAAACGCGGCGTGCCGATCGTCGTGTTCAATCCGCTGAAGGAACGCGCGCTGGAGCGCTTCGCCGCGCCGCAGGACCCGATCGAGATGGCGACGCTCTCTTCGACGCCGATCGCCTCCGCCTATCACCAGCTTCGCACCGGAGGCGATCTCGCCGCCCTCCAGGGCATTATGAAGGCGGTGTTCGAACTCGATGCGGAGAACCTTCAGGCGGACCGCGGCGGCGTACTCGACCGGACTTTCATCGAGCAACATACCGCAGGCCTCGACGCGCTTCGCGCCGATATCGACGCGACGTCCTGGGATATGATCTGCTCAGTCAGCGGGCTGACGAAGGAGGCTATAGAGAGTGTTGCGAGGATTTATGTGAACGCTTCTAACGTCATCATCTGTTACGGCATGGGTATAACCCAGCACGCCAAGGGTACCAGCAACGTACAGCAGATCGCCAATCTCCTGCTGCTGCGTGGAAATATGGGCCGCCCCGGGGCGGGAATAGCGCCCATTCGCGGCCATTCCAACGTTCAGGGAGACCGTACCGTCGGCATTACCGAAATCCCGAACAAGGCGCTGTTGGACGGCATGGAACGCGCTTTCGGTTTCCGCCCATCTGCGGAGAAGGGTCACAACGCGATAGAAGCCGTAGAGGCAATCATCGCCGGCGAATCCCGCGCACTTATCTGCCTCGGCGGCAATCTCGCCGTCGCCATGTCGGATACAGGCGCGACCTTCGAGGGCATGCGCAACCTCGATCTGGCCGTTCATATCGCAACGAAGCTCAACCGCTCTCATCTTTTGACAGCAAAGACATCGCTGATCCTGCCTTGCCTTGGACGCACCGATCTGGATACTCAGGCGTCAGGACCGCAGGCTGTAACAGTCGAGGATTCGATGTCGATGGTGCATGCCTCTCGCGGTTTCCTCAATCCACCAGGGGAACTGGTGAGGTCAGAGCCCGCCATCATCGCCGGCATCGCCAAGGCAACCATCGGAAACCGTCACGGAATTGATTGGGACTGGCTGATTGCCGATTACGACCGAGTCCGTGACAAGATCGAAGAGGTCTTTCCCGATTTCAGGGATTTCAACAGCCGGGTTCGGGTGAAAGGCGGTTTTCGCCTTGATGTCGCGGCCTCCTTCCGCCGTTGGAACACGCAGAGCGGCAGGGCCAATTTCCTCGTCGCCACAGGACTTGAGGAAGACCCGCTCATCTCCAATCCGAAGGCCCTCGTGCTGACCACGATCCGCAGTCACGATCAGTACAATACGACGATCTATGGCATGGATGACCGTTATCGCGGCGTCTTCGGCCGAAGGGACATTATCTTCATGAACCGGCACGACCTTGCCGCGCGCGGCCTGAAGGATGGTGATCGCATCGATATTCACGGCATCGGCCCGGAAAATGAGGGCCGACACCTCGTTCAGGGTTTCACGGCGGTCGAATACAATATCCCGAAGGGATCGGCCGCAGGCTATTATCCGGAGATGAATGCGGTGGTGGCGCTCGGCCATTATGACCGCCTTTCCGGAACGCCTTCCTACAAGGGTGTCCCGATCACGGTGAGTCCGGCAGCCGCCTGA	MAEERPEGIEKYDHPAGGWDALKAVAKTLAHQQIVAQGTMTLLKANKPEGFDCPGCAWPDPKHTSSFEFCENGAKAITWESTAKRSGPELFAQHTVSELWQWTDHKLEDAGRLTLPLHYNSEKDRYEPIAWDDAFSLIARELNKLDDPDKAEFYTSGRASNEAAFLYQLFVRAYGTNNFPDCSNMCHEATSVGLPKSIGVGKGTVTLEDFDHADAIFSFGHNPGTNHPRMMTTLHNAAKRGVPIVVFNPLKERALERFAAPQDPIEMATLSSTPIASAYHQLRTGGDLAALQGIMKAVFELDAENLQADRGGVLDRTFIEQHTAGLDALRADIDATSWDMICSVSGLTKEAIESVARIYVNASNVIICYGMGITQHAKGTSNVQQIANLLLLRGNMGRPGAGIAPIRGHSNVQGDRTVGITEIPNKALLDGMERAFGFRPSAEKGHNAIEAVEAIIAGESRALICLGGNLAVAMSDTGATFEGMRNLDLAVHIATKLNRSHLLTAKTSLILPCLGRTDLDTQASGPQAVTVEDSMSMVHASRGFLNPPGELVRSEPAIIAGIAKATIGNRHGIDWDWLIADYDRVRDKIEEVFPDFRDFNSRVRVKGGFRLDVAASFRRWNTQSGRANFLVATGLEEDPLISNPKALVLTTIRSHDQYNTTIYGMDDRYRGVFGRRDIIFMNRHDLAARGLKDGDRIDIHGIGPENEGRHLVQGFTAVEYNIPKGSAAGYYPEMNAVVALGHYDRLSGTPSYKGVPITVSPAAA	PGPT0019635_3094	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FORMATE_UTILIZATION,PGPT0019635-fdoG|fdhF|fdwA-K00123	NA	NA
BMS010_06494	519	tpf1	COG0783	Antigen TpF1	ATGGACATGACCACAGTTGCCAGCAACCGCAAGCTTCCACTCGCAACGCCGACTGACCTCGGTGCCGAAGCGAGCCGCGAGATCGCCGCCGCATTGACCGCCCTGCTGGCGGATGTCTTCACGCTCTACATCAAGACCAAGAATTTCCACTGGCATGTTTCCGGTCCGCATTTTCGTGATTATCACATGCTGCTGGACGAACAGGGAGCGCAGATATTCGCGATGACCGACGACATTGCTGAAAGGGCGCGCAAGGTCGGCGGCACTACCATCCGTTCCATCGGTCATATCGGCCGCCTCCAGCGTCTCCTTGATAATGATGCCGACTTCGTCACCCCGGAGGACATGCTCGCCGAACTGCGCGAGGACAACAAGCAGCTGACCGCCATCCTGCGACAAACGCACAACCTCACCTCCGACCTCAACGATCACGCCACCACCAGCCTGATCGAAAACTGGATCGACGAGACCGAGCGCCGCACATGGTTCCTGTTCGAAACCACCCGTCGCTCCCGCTGA	MDMTTVASNRKLPLATPTDLGAEASREIAAALTALLADVFTLYIKTKNFHWHVSGPHFRDYHMLLDEQGAQIFAMTDDIAERARKVGGTTIRSIGHIGRLQRLLDNDADFVTPEDMLAELREDNKQLTAILRQTHNLTSDLNDHATTSLIENWIDETERRTWFLFETTRRSR	PGPT0004055_1120	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0004055-dps|dpsA-K04047	NA	NA
BMS010_06495	843	cpo_2		Non-heme chloroperoxidase	ATGACCGAATCATTCGTAAAGACCAAGGACGGCGTCGATATCTATTTCAAGGATTGGGGTCCGAAGGATGCCCAGCCCATCGTGTTCCATCACGGCTGGCCGCTATCCTCCGACGACTGGGATGCGCAGATGCTGTTCTTCGTAAACAACGGTTACCGCGTCGTCGCCCATGACCGTCGCGGCCACGGCCGTTCCCAGCAGGTGAGCGACGGTCACGACATGGATCATTATGCCGCCGATGCATCCGCCGTTGCCGAACACCTCGATCTCAGGAACGCTGTTCATATCGGACACTCGACTGGCGGTGGTGAGGTCGCGCGTTACGTCGCAAAATTCGGCGAACCGCAAGGCCGGGTCGCCAAGGCCGTTCTCGTCTCCGCCGTTCCGCCACTGATGCTGAAGACGCCTTCCAATCCCGGCGGTCTGCCGATCGAAGTCTTCGACAGCTTCCGCAAGGGTGTGGCCGAAAACCGCGCCCAGTTCTTCCTCGACGTGCCGACCGGTCCGTTTTACGGCTTCAATCGTTCGGATGCCAAAGTCTTTCCCGGTGTTATCCAGAACTGGTGGCGTCAGGGTATGATGGGCAGCGCCAAGGCCCATTACGACGGCGTCAAGGCCTTCTCGGAAACCGATCAGACGGAAGACCTGAAGGCGATCACGGTGCCGACGCTCGTTCTCCACGGCGATGACGACCAGGTCGTGCCGATCGCAGATTCTGCCGAATTGTCGGTCAAATTGCTGAAGAATGGCACGCTGAAGGTGTATAAGGGATATCCGCACGGCATGCTGACAACTCATGCCGACATCATCAATCCGGATCTGCTGGCCTTCGTGAAGAGCTGA	MTESFVKTKDGVDIYFKDWGPKDAQPIVFHHGWPLSSDDWDAQMLFFVNNGYRVVAHDRRGHGRSQQVSDGHDMDHYAADASAVAEHLDLRNAVHIGHSTGGGEVARYVAKFGEPQGRVAKAVLVSAVPPLMLKTPSNPGGLPIEVFDSFRKGVAENRAQFFLDVPTGPFYGFNRSDAKVFPGVIQNWWRQGMMGSAKAHYDGVKAFSETDQTEDLKAITVPTLVLHGDDDQVVPIADSAELSVKLLKNGTLKVYKGYPHGMLTTHADIINPDLLAFVKS	PGPT0013125_164	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013125-cpo-K00433	NA	NA
BMS010_06496	171			hypothetical protein	ATGCCGTTCAAACCATTTTATGAAGACCTTGCCCTTCGTGACGGCATCGCCAGCCTGCCCGAGATGGAGGACATCCAACTGGAGCTTCCCCTGTCGCAGCAGGCCGAGGCGGAAACTCGCGTCGATGCGAAGCCGGATCCTTCGGACAACGAAACGAAAATTCAGGTCTGA	MPFKPFYEDLALRDGIASLPEMEDIQLELPLSQQAEAETRVDAKPDPSDNETKIQV				NA	NA	NA	NA	NA
BMS010_06497	132			hypothetical protein	ATGACCAACGCCATTTCGCGTCCGGAACAGGTAGATGTTGATCGTATCCCGGCTGTTTCTTTCGACCTGCTGTTGCGTCACCAAACGTCGGTTTTCGCACGGCTGACACTTCTGGATACAAAGTCGGCCTGA	MTNAISRPEQVDVDRIPAVSFDLLLRHQTSVFARLTLLDTKSA				NA	NA	NA	NA	NA
BMS010_06498	1419	ald_1		3-succinoylsemialdehyde-pyridine dehydrogenase	ATGCGATCAATTGAACACATCTATATCGACGGTAAATTTGTGGTGCCAGACGGCAATGAACGGCTGGACCTTTTCAATCCGGCGACGGAAGAAAAAATCGGCGATGTCCGGCTTGGCAATGCAGATGATGCAAGGGCCGCAGTGGCAGCCGCAAAACGGGCTTTTCCCGCCATGGCAACCTCCACCAAGGCGCAGCGTATCGATATGCTGCGCAGCCTGCGCGATACGATCGAAGAGCGACCGGATGAGCTCACGCAGGTCATGACCGAAGAATACGGCGCACCCGCTTATTTCACGGCTTTCTCCGTTCAAAACGCAGCGTCGATTTTTGATGTTATGGCTGAGACCGTGGCGAACTACGACTTTGACCGGGTCGTGGGCAAAAGCACGGTCAGGATGCTGCCGCGCGGCGTTCTCGCCGCCATCACGCCCTGGAACAGCAATTTCGGTTTTATCGCCACCAAGCTTGCGCATGCAATCGGTTCAGGCTCGTCGCTCGTCATCAAGCCGGCCGAACAGAGTGCGTTTCAGACGGATATTCTGGTGAGAAGGTTGCATCGGGCCGGCCTGCCGGCAGGAGTTTTCAACATTGTTAACGGCACGGGTCCGGTGGTCGGTGCGGCGCTGACGCAGGATCCCGACGTGGCGACCGTCAGTTTCACCGGTTCCACCCAGGCTGCAAAGATCATTCAGCGTGCGGCGATCGACGGCATGAAAAGGGTGGTTCTGGAGCTGGGAGGCAAGGCACCCACCATTATCCTGCCGGAAGCCGACCTCGACAAGGCTATACCTGTCGCCCTGATGTCGGGCTTTGCAAACAGCGGCCAGGCCTGCGTCGCGGGTACCCGCATTCTGGCTCCGAGGTCCCGTCTCCCCGAGATTGCCGAGCGGTTGAGGATGGCGGCTGAAAAATTCAAAGTTGGCGATCCCCGTGATCCGGAGGTTCGGGTAGGCCCTCTCGCCAGCCTTGCCCAGTGGGAAAGGATCCAGACTTACATCCGGCTTGGTGTCGAAGAAGGAGCAACCCTGCTGACAGGCGGAACCGGACGACCGGCCGGGATTGAAAAAGGATGGTTCGCCCGCCCGACAATCTTCGCAGATGTCACGAACGAAATGCGCGTCGCCCGCGAAGAAATCTTTGGTCCCGTCCTGTGTCTTCTCGCCTATGAGGACGAAGATGAGGCCGTCAAAATCGCCAATGATAGCGACTACGGATTGCAAGCCTATGTGCTTGGATCCGACATCAGACGTGCCGAACGCATCGCCGAGAGGCTGATGGCCGGCCGCGTCGTCATCAACGGCGCACCGCATGATCCTCGCGCGCCCTTCGGCGGTTTCAAGCAATCCGGTATCGGCAGGGAGATCGGTGCCTTCGGTCTCGACGGCATGCTCGAACCGCGAGCCGTTCTCACCCCGTAA	MRSIEHIYIDGKFVVPDGNERLDLFNPATEEKIGDVRLGNADDARAAVAAAKRAFPAMATSTKAQRIDMLRSLRDTIEERPDELTQVMTEEYGAPAYFTAFSVQNAASIFDVMAETVANYDFDRVVGKSTVRMLPRGVLAAITPWNSNFGFIATKLAHAIGSGSSLVIKPAEQSAFQTDILVRRLHRAGLPAGVFNIVNGTGPVVGAALTQDPDVATVSFTGSTQAAKIIQRAAIDGMKRVVLELGGKAPTIILPEADLDKAIPVALMSGFANSGQACVAGTRILAPRSRLPEIAERLRMAAEKFKVGDPRDPEVRVGPLASLAQWERIQTYIRLGVEEGATLLTGGTGRPAGIEKGWFARPTIFADVTNEMRVAREEIFGPVLCLLAYEDEDEAVKIANDSDYGLQAYVLGSDIRRAERIAERLMAGRVVINGAPHDPRAPFGGFKQSGIGREIGAFGLDGMLEPRAVLTP	PGPT0006875_8652	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128	NA	NA
BMS010_06499	417	ohrB_3	COG1764	Organic hydroperoxide resistance protein OhrB	ATGACCAAGATCGAGACTGTTCTTTATACCGGCAAGACCCACACGACCGGCGGGCGTGACGGATCGGCGCAAAGCGATGATGGCGCGCTGGGCATCAAGCTCTCGCCTCCGGGCAGCGGAAAGCCGGGCACGAATCCCGAACAGCTTTTTGCGGCCGGCTGGTCGGCATGTTTTATCGGCGCCATGACAAAGGCGGCGGCGAAACGCCAGCTCCGGCTTCCCGCCGACACCGCCGTCGATGCGGAGGTTGACCTCGGCACGACGGGCGGCGAGTTCTTCCTGCAGGCTCGCCTGTCGGTAAGCCTGCCCGGGATCGATCGTCCCGTAGCACAGGCCATCATTGAGGATGCCCACCAGATCTGCCCCTATTCGAAGGCAACCAGGGGAAACATCGATGTTACGCTCAAGCTCGCTTAA	MTKIETVLYTGKTHTTGGRDGSAQSDDGALGIKLSPPGSGKPGTNPEQLFAAGWSACFIGAMTKAAAKRQLRLPADTAVDAEVDLGTTGGEFFLQARLSVSLPGIDRPVAQAIIEDAHQICPYSKATRGNIDVTLKLA	PGPT0013160_3772	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013160-ohrB|osmC|ohr|ykzA-K04063	NA	NA
BMS010_06500	1317	sasA_20		Adaptive-response sensory-kinase SasA	ATGAACGGCCCGCGCCTGCTCGCCGGCTGGTGGCCGCGCTCATTGCGGTCCAGACTTTTCATCATCCTTTTTGCCGGCCTCGCCATCGCCTACGGCCTGTCGTTCAGCATCCTCTTTGCCGAACGATATATGTCGGCAAAGGCGGTTATGCTCGGCACTCTGGAGCAGGATCTGGCGGTATCGATCGCCATCATCGACCGCCTGCCTGCGGAAGAGCGGGCGCAATGGGTCCATCGCCTGAGCCGCAACAATTATCAACTCGTCCTCGGCCCCGGTCTTCCCGGTGTTTCCGACATGACCGGCCGCGGCGCTGAAATTGCGCAGAGGATCGAGGAAGCCGCGGGACACCGTTTTCCCGTCAGGGTCGAGTCCATTCCCGGCGACGGCAAGCGGCTTCAGGCGCACCTGACGCTTTCGGACGGCTCGCCCCTGACGATCGACGTGACACCGCGCGGCGTGATGCCCCTGGCGGAATGGCTGCCTTATGTCTTCGCCGCGCAGATGGCGCTTCTCCTCCTCTGCACCTGGTTTGCAGTGCGACAGACGACCAGATCCCTCAGCGCGCTTGCTGCGGCAGCCGAAGCGCTGGATCCGGGGGAAAAGGGGTCGCCGATGAGTGAGGGCGGCCCAAGCGAAGTTGCTCACGCCGCCCGCGCCTTCAACGCCATGCGCGATCGCGTCGCGCAATATCTCGAGGAGCGCGTCCAGATTCTTGCGGCGATCTCGCACGACCTGCAGACGCCCATCACCCGGATGCGGTTGCGGGCCGATATGGCAGACGATACGCCGGAAAAGGAAAAGCTGGTCAGTGACCTGCGTGAAATCGAACGTCTGGTGCAGGATGGGATCGCTTACGCACGCAGCGCTCACGGCAATGGCGAGAAATCCTCCCGTATCGATCTGGCCTCTTTCATCGACAGCATTGCCTACGACTATCAGGATACCGGAAAAGCCGTAACGGTTGCCGGCATGGTGCGCGGCACCGCGTCGACAAAGCCCCATGCATTGCGAAGAATCCTGACGAACTTCATAGATAACGCCCTCAAATTCGCCGGCAGCGCCGAGATTAAAGTGGACCGGCGTGGTGAAGGCACAGTGGTCATCACGGTGCTCGATCGGGGGCCGGGCATCCCGGACGAGATGCTGCAAAATGCCATGCAACCCTTCTTCCGGATCGAAACATCGAGAAACCGCGATACGGGCGGAACCGGTCTCGGACTGGCGATCGCACAGCAACTCGCCGGAACGATCGGCGGCTCGGTTCGCCTCTATAACAGGCAGGGCGGCGGGCTTGCGGCCGAGGTCGCTTTTCCCTGA	MNGPRLLAGWWPRSLRSRLFIILFAGLAIAYGLSFSILFAERYMSAKAVMLGTLEQDLAVSIAIIDRLPAEERAQWVHRLSRNNYQLVLGPGLPGVSDMTGRGAEIAQRIEEAAGHRFPVRVESIPGDGKRLQAHLTLSDGSPLTIDVTPRGVMPLAEWLPYVFAAQMALLLLCTWFAVRQTTRSLSALAAAAEALDPGEKGSPMSEGGPSEVAHAARAFNAMRDRVAQYLEERVQILAAISHDLQTPITRMRLRADMADDTPEKEKLVSDLREIERLVQDGIAYARSAHGNGEKSSRIDLASFIDSIAYDYQDTGKAVTVAGMVRGTASTKPHALRRILTNFIDNALKFAGSAEIKVDRRGEGTVVITVLDRGPGIPDEMLQNAMQPFFRIETSRNRDTGGTGLGLAIAQQLAGTIGGSVRLYNRQGGGLAAEVAFP				NA	NA	NA	NA	NA
BMS010_06501	741	ompR_5		Transcriptional regulatory protein OmpR	ATGGAACATATCGACCATATTCTCGTCGTAGACGACGACAGGGAAATCCGGGAGTTGGTTTCCAGCTACCTGAAGAAGAACGGCCTGCGCACGAGCGTGGCGGCCGACGGACGGCAGATGAGAAGTTTTCTCGACGGCAATACCGTCGATCTCATCGTGCTCGACGTGATGATGCCTGGCGATGACGGGCTGGTCCTATGCCGTGAGCTGCGAGCGGGGAAACACAAAGCCACGCCGGTCTTGATGCTGACCGCCCGCGATGACGAGATGGATCGCATTATCGGGCTCGAAATGGGAGCCGACGACTATCTGTCGAAGCCCTTCGCTGCCCGTGAGCTTCTTGCGCGGATCAAGGCCATCCTGCGCCGCACGCGGATGCTGCCTCCCAATCTGCAGATCAGCGAGGCCGGGCAGCTCCTGACCTTTGGTGACTGGCGCCTCGACACGGTGGGCCGTCACCTGCTCGACAGGGAGGGCACGACCGTTGCCCTGAGCGGGGCTGAATACCGGCTTCTCAGGGTCTTCATCGATCATCCCCAGCGCGTCCTCAACCGGGACCAGCTGTTAAATCTCACCCAGGGACGCGATGCGGAGCTTTTCGACCGGTCGATCGATCTTCTTGTGAGCCGCGTGCGCCAGCGCCTGGGGGATGACGCGCGCGAACCCATCTACATCAAGACCGTACGGGCGGAGGGTTATGTCTTTGCGGTGCCCGTGGAAATTTCGGAGCCGAGGATATGA	MEHIDHILVVDDDREIRELVSSYLKKNGLRTSVAADGRQMRSFLDGNTVDLIVLDVMMPGDDGLVLCRELRAGKHKATPVLMLTARDDEMDRIIGLEMGADDYLSKPFAARELLARIKAILRRTRMLPPNLQISEAGQLLTFGDWRLDTVGRHLLDREGTTVALSGAEYRLLRVFIDHPQRVLNRDQLLNLTQGRDAELFDRSIDLLVSRVRQRLGDDAREPIYIKTVRAEGYVFAVPVEISEPRI	PGPT0012985_563	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OSMOLARITY_SIGNALLING,PGPT0012985-ompR-K07659	NA	NA
BMS010_06502	1047	dhmA_2		Haloalkane dehalogenase	ATGAATTCCGAGATCAATTTCCAGCGCCGCCGCTTCTTCGGCATCGCCGCAATGACAGTTGCCGCCGTCGAATTCGGGGCCGCAGGCCTTGCTCATGCCAAGGGCGAAGCGCCTTCGCCTCAGCCGTCAACCGGACGCGACGGAGCCACCTCCTTTGGCGCCCTGAAGCAGGTTGAAGCGGGCGTACTCAGCGTCGGTTATGCAGAAGCCGGCCCCGCAGACGGCCCGGTCGTGCTGCTGCTGCACGGATGGCCTTATGACATCTACAGCTATGTCGATGTTGCACCCATCCTTGCATCGGCTGGATATCGGGTACTCATCCCCTATTTGCGCGGGTATGGCACGACCCGCTTTCTCTCGGACGACACCGCACGCAACGGACAGCAGGCGGCGCTTGCGGTCGATATGATCGCCTTTCTCGACGCGCTCGGCGTCAAGCAGGCGGTCGTTGCCGGTTATGACTGGGGCGCTCGCACCGCCGACATCATGGCGGTGCTCTGGCCCGAACGTTGCACCGGGCTCGTATCGGTCAGCGGCTACCTTATCGGCAGCCAGGAGATCAACAGGAAGCCGCTTCCGCCCAAGGCGGAACTCTCCTGGTGGTATCAGTTCTATTTCGCGACGGAACGCGGCCGTGCGGGCTATGCCGCCAACACCCGCGACTTCGTACGCCTGATCTGGCAGACGGCATCTCCAACCTGGAAATTCAGCGACGAGACCTTCAATCGTTCGGCCCCCGCATTCGACAATCCCGACCATGTGGCCATCACCATCCATAACTACCGCTGGCGGCTGGCACTGGCCGACGGAGAAGCCAAGTACGATAATTACGAGCGCCAGCTTGCGAAACTTCCCGTCATCACCGTGCCGACGATAACGCTGGAAGGCGACGCCAACGGCGCGCCGCATCCGGATCCTTCCGCCTACGCATCGAAGTTTTCCGGCAAGTACCAGCACCGCAACATCAGCGGCGGCATCGGTCACAACCTGCCGCAGGAAGCACCCGAGGCTTTTGCCAGGGCTGTTCTGGACGTCGCAAAGCTTTAA	MNSEINFQRRRFFGIAAMTVAAVEFGAAGLAHAKGEAPSPQPSTGRDGATSFGALKQVEAGVLSVGYAEAGPADGPVVLLLHGWPYDIYSYVDVAPILASAGYRVLIPYLRGYGTTRFLSDDTARNGQQAALAVDMIAFLDALGVKQAVVAGYDWGARTADIMAVLWPERCTGLVSVSGYLIGSQEINRKPLPPKAELSWWYQFYFATERGRAGYAANTRDFVRLIWQTASPTWKFSDETFNRSAPAFDNPDHVAITIHNYRWRLALADGEAKYDNYERQLAKLPVITVPTITLEGDANGAPHPDPSAYASKFSGKYQHRNISGGIGHNLPQEAPEAFARAVLDVAKL				NA	NA	NA	NA	NA
BMS010_06503	759	pytH_2		Pyrethroid hydrolase	ATGCACCATCGTCTCATGCCAAAATTCGCGCTTGCCGTCGCAACCGCACTGATCGCTTTTGCCGCACAGGCGGCAGAGGTGAAGAATATCGTCATCGTCCATGGCGCGCTGGCCGATGGTTCGGCCTGGCGCAGGGCGACAGACATCCTTGAAAGCCGTGGTTTCAACGTCACGATCGTGCAGGAGCCCATCACCTCTCTTGCCGATGACGTGGCGGCCACCAACCGTGTTCTCGATCTCCAGCAGGGGCCGAGCCTGCTCGTCGGGCACAGCTACAGCGGGATGGTGATCTCGGAAGCGGGTAACCGGCCGGATGTGGCCGGGCTGGTCTATGTCGCCGCCTTCCAGCCGGAGAAGGGAGAGAGCCTTCTCGACCTCGCCGGCTCGAAACCGCCGGCTGGCAACGGCATCAAGCCGACGAAGGATGGCGCGTTCCTTTATCTCGATCCCGCCGTCTTTGGACAGGATTTCGCCGGCGACCTGCCGCGTGAGGACGCGGCCTTCATGGCAAGAAGTCAGGTCTTCGCCGCCAAGGCCGCCTTTGCCGCCAAAGCCGGCGAACCCGCCTGGAAAACCAAGAAAAGCTGGTCGATTGTCGCAACGCAGGACCGCTCGATCAACCCCGATCTCGAGCGCGACATGGCCAAGCGCGCCGGCAGTGCGGTGACCGCAATTGCGGCAAGCCATGCGGTCTTTGCCTCCCAGCCCGAAAAGGTCGCAGACGTCATCGAACAGGCCGCCCGGCAATCCGCCAAATAA	MHHRLMPKFALAVATALIAFAAQAAEVKNIVIVHGALADGSAWRRATDILESRGFNVTIVQEPITSLADDVAATNRVLDLQQGPSLLVGHSYSGMVISEAGNRPDVAGLVYVAAFQPEKGESLLDLAGSKPPAGNGIKPTKDGAFLYLDPAVFGQDFAGDLPREDAAFMARSQVFAAKAAFAAKAGEPAWKTKKSWSIVATQDRSINPDLERDMAKRAGSAVTAIAASHAVFASQPEKVADVIEQAARQSAK				NA	NA	NA	NA	NA
BMS010_06504	1746	dipZ	COG0785	Protein DipZ	ATGACGTTTCTGGTCATTGCCTATCTCGGAGGGGCGCTGACAATTCTCAGCCCCTGTATCCTGCCCATCCTTCCCTTCGTTTTTGCGCGGGCGGGGCAACCGTTCCTGCGCAGCACGCTGCCCCTGCTTGCGGGAATGGCGGCAACGTTTTGCGCCGTCGCGACGCTGGCCGCGGTGGGCGGCAGCTGGGCAATCAGCGCCAATGAATATGGCCGGCTCGCGGCTCTTGCGCTGCTTGCGGTCTTCGGCGTCGGGCTGCTCTCGCCGCGTGCGGCGAGCATCATCACCCGTCCGGTCGTCGAACTCGGCAACCGGCTCGCCAATGCCGCCGGCAAGCCCGGGGCAATGCCGACGGTCGCGGGCTCGCTGTTACTCGGCATCGCCACCGGCCTTTTATGGGCGCCCTGCGCCGGACCGATCCTCGGGCTCGTGCTGACGGGTGCGGCCCTGAAGGGGGCCAATCTGGAAACCAGCCTGCTGCTTGCCGCCTATGCCGCCGGGGCTGCGACCTCCCTTGCCGTCGCCATCCTCGTCGGCGGCAGGGTATTTGCAGCCATGAAGCGGTCTCTGGGTTTCAGCGAGCGGATCCGGCAGGTGCTTGGCGCGGCGGTGCTTGCCGGCGTCGCGGCCATCGCGCTCGGGCTGGACACGGGTTTCCTGTCGCAGATATCCTATGCGAGCACGGCATCCTTCGAACAGCGGGTGCTCGATCGGCTCCACACCGCCATAGCGCCCGAAGTGGCGGCGGCGGGCGTCAGCGCCGCCACGGCCCGGTCGGAGCTGCCGGTTGAGGGCAAGGCCCCATCCCTCGACGGCGCCGTGGAGTGGCTCAATTCCCCGCCGCTCACGCGTGAGCAATTGCGTGGCAAGGTCGTTCTCGTCGACTTCTGGACCTATTCCTGCATCAACTGCATCCGCACCATTCCCTATGTGCGTGCCTGGGCGGACAAATACCGGGATCAGGGCCTCGTCGTCATCGGCGTTCACGCCCCCGAATTCGCCTTTGAAAAGAAGATCGACAATGTCAGACAGGCCGTCGCCAGCTTCAAGATCGATTACCCGGTGGCAATCGACAATGATTACAAGATCTGGCGCGCCTTTGATAACAGCTATTGGCCGGCACATTACCTGATCGATGCCAGGGGCCAGATCCGTTACCACCATTTCGGCGAGGGCAACTACCGGCAGACCGAAGAGGCGATCCAGGACCTGCTGCGCGAGGCCGGCAGCAGCGCCTCCGCCAGCGCACCGGTGAGCCCGCAGGCGGCAGGAGCCGAAGCCGGTGCGGATATCGGGCACATGCGCTCGGGCGAAACCTATATAGGCTACCGGCAGGCTCGAAGCTTCGCATCCAACGAGGCGATGCGTGCAGACACGCCGCGCAACTACTCCGTCAAGACGCCTTCCCTCAACGAATGGGGACTTTCCGGCACCTGGACGATTGGCGCGGAGGCGGCCACACTTGATGCGGCTGATGGCGGCATCACCTATCGCTTCAGCGCCCGTGACCTGCATCTAGTCCTTGGGCCGGATGCAGCCGGAAAACCGGTTCGTTTCCAGGTCACCATCGACGGGCATCCGCCGGGTGCGGATCATGGGGCCGACACGGATGCCGAGGGCAATGGCGTCGTCACCTCAACCCGTCTTTACCAGCTCGTCCGCCAGTCCGGCGCCGTCGAAGCGAGAACCTTTGCCATCCGCTTCCTCGACCCCGGCGTGCAGGCCTATGCCTTCACTTTCGGCTGA	MTFLVIAYLGGALTILSPCILPILPFVFARAGQPFLRSTLPLLAGMAATFCAVATLAAVGGSWAISANEYGRLAALALLAVFGVGLLSPRAASIITRPVVELGNRLANAAGKPGAMPTVAGSLLLGIATGLLWAPCAGPILGLVLTGAALKGANLETSLLLAAYAAGAATSLAVAILVGGRVFAAMKRSLGFSERIRQVLGAAVLAGVAAIALGLDTGFLSQISYASTASFEQRVLDRLHTAIAPEVAAAGVSAATARSELPVEGKAPSLDGAVEWLNSPPLTREQLRGKVVLVDFWTYSCINCIRTIPYVRAWADKYRDQGLVVIGVHAPEFAFEKKIDNVRQAVASFKIDYPVAIDNDYKIWRAFDNSYWPAHYLIDARGQIRYHHFGEGNYRQTEEAIQDLLREAGSSASASAPVSPQAAGAEAGADIGHMRSGETYIGYRQARSFASNEAMRADTPRNYSVKTPSLNEWGLSGTWTIGAEAATLDAADGGITYRFSARDLHLVLGPDAAGKPVRFQVTIDGHPPGADHGADTDAEGNGVVTSTRLYQLVRQSGAVEARTFAIRFLDPGVQAYAFTFG				NA	NA	NA	NA	NA
BMS010_06505	342			hypothetical protein	ATGCCGGATACCTGCAGGGCAGATCATGACCTGATCTACTATGTCGCCGCCAACGCCTACAAAAGCGGAACCCTGCCCTTTCCCGATGGCTCGATACTGGTGAAGCTTGCCTATAAGCGGCAGCAATCCACGGAGTTTCCGCCGGCCACGGTGCCGGGAGCGGCAACCACCGTGCAGGTGATGGTGAAAGATTCCAAGAAATATGCCGGCAGCCACGGCTGGGGCTTCGGGCGGTTTGTCAACGGCAAGCCGGTGGATGCCGCGCAACATGAGACCTGTCTCTCCTGCCACGAGGGCAACGTCAAGGACCATGATTTCGTCTTCACGCGCTATGCGCAGTGA	MPDTCRADHDLIYYVAANAYKSGTLPFPDGSILVKLAYKRQQSTEFPPATVPGAATTVQVMVKDSKKYAGSHGWGFGRFVNGKPVDAAQHETCLSCHEGNVKDHDFVFTRYAQ				NA	NA	NA	NA	NA
BMS010_06506	1089			hypothetical protein	ATGGTTGATCCAACGGGTATCGAAACAAATCCAAACCGCAGCTATGTGGACTGGCCAGCGATTTTCGCCGGTGCCGTCATCTCCTCGGGCGCCATGGCAGTCCTCACCGCATTTGCGGGCGGCCTAGGCCTGAGTTCCATCTCGGCCGACGATGGCGGCGAGATCAGCACAGTCTGGCTCATCATAACCGCGCTCTTCGTCATCATTTCCATGGTCGGCTCATACATGCTGGGCGGCTATATTGCCGGCCGCATGCGTCGGCCTGCCGGCGCTGCCGACAGGAACGAACTGACGGTCCGCGATGGTGTGAATGGCTTGGTCGTATGGGGTCTCGGGACGGTCGTCTCGGCTTTTCTCGCGCTCGGCGTGCTGTCCGGTGGCGCCAAGGCTGTCGGCAGCGTGGCGCAGACCGCCGTCGAGGCCACGGGTTCCGCAGTCGGCGGCGCCGTTCAAGGGGCTGGCCAACTGGCAGGCGGCATCATTTCCGGCGCTGGCAGTGCAGCCGGTGGTCTGGCGCAAGGACCCGGTCAGGCTGCAGCACCCAGCATTGAGCAGATGCTTCCGCAAGGCCTGAGAACCAACCCGATCGACTATTTCACCGATACGCTGCTGCGGACCGATACGCCCGCCACCCCTCTGACGGGTGAACAGAGCGCCGGTGACTATCAGCGACAGATTAGCGGAATCCTCGGCAATCTGATGGCAACAGGCGAGATATCTGATGCCGACAAAACATGGCTCGCCAATCAGGTCGCTGCCCGCACAAACATCAGCCAGACCGATGCGCAAACCCGCGTGAACCAGACGGTTGAACGTGTGCAGGCCGTCAGGGCGGAAGCACAGAAGAAGGTCGATGAAGCCCAGAAACAGGTTGAGACCGTGAAGGCTGATGCGCAGAAGGCATTAGACGATGCCAAGACCAAGGCTGCGGATGCCGCAGAAAAAGCACGGGTCGCAGGTATTCTGACAGCATTCCTGCTGGCCGCTTCCGCGCTCGTTTCCGCTGCGGCTGCCTATATCGGCGCAGTACACGGCGGCCGCCACAGAGACGAAGGCCGCATCTGGGGTGGGCTAGCCTACCGCAAGTAA	MVDPTGIETNPNRSYVDWPAIFAGAVISSGAMAVLTAFAGGLGLSSISADDGGEISTVWLIITALFVIISMVGSYMLGGYIAGRMRRPAGAADRNELTVRDGVNGLVVWGLGTVVSAFLALGVLSGGAKAVGSVAQTAVEATGSAVGGAVQGAGQLAGGIISGAGSAAGGLAQGPGQAAAPSIEQMLPQGLRTNPIDYFTDTLLRTDTPATPLTGEQSAGDYQRQISGILGNLMATGEISDADKTWLANQVAARTNISQTDAQTRVNQTVERVQAVRAEAQKKVDEAQKQVETVKADAQKALDDAKTKAADAAEKARVAGILTAFLLAASALVSAAAAYIGAVHGGRHRDEGRIWGGLAYRK				NA	NA	NA	NA	NA
BMS010_06507	276			hypothetical protein	ATGATCGGCCCTGACGGCACAGTCTTCCCGAACCATCATCGTTATGTCGAGGTCCGGCCAGAAGAGAGGATCGCCTATACGCTGCTGTGGGGCGAAAACGGGCCGAAACATGCCGATGCCTGGGCCTCCTTTGAAGATCAGAATGGCGCGACGAAAGTTGTGCTGGGCATGGTGTTCAGCACGGAAGCCGAGTTCCAGCAAGCGAAGGGTTTCGGCGCCGTGGAGCTGGGTCAGCAAACGCTGGGCAAACTGGAACGCTTCGCCAAGGCGCTATAG	MIGPDGTVFPNHHRYVEVRPEERIAYTLLWGENGPKHADAWASFEDQNGATKVVLGMVFSTEAEFQQAKGFGAVELGQQTLGKLERFAKAL				NA	NA	NA	NA	NA
BMS010_06508	1068			hypothetical protein	ATGATAATCAATTTGCAAGTTTTGAGAGCAGCAGCGGCTTTCCTAGTTTTTTTTCATCATTTTATGCCGAATATAGATAAATTGTTTCCAGGGGCAAAAACCTATGAATTCGGCGCTGCTGGCGTAGACATTTTTTTTGTCCTTAGCGGGTTCATTATGGTGTTGACAACCTTCAACAAAGACAGCGACCCGGCAAGGTTCTTCTTTAATCGAATTGCCCGTATCGTTCCTATATACTGGATAATGACGTCAGCTATCGTAGCCCTGTTCCTCATTGGGTTTCGCCCCATAGGCGTGCTTGATCTGCAACTCAGCTACGTTTGGAAATCACTTCTCTTTATCCCATTTATGCGCAACGGCCTGTGGGAGCCAATTTTATCTGTTGGATGGACACTAAATTTTGAAATGTTTTTCTATGCGCTATTTGCCTTGCTGCTTATTGTGCCCGATTTTAGATTGAGAATAGTGCTCCTGGTAACAATTCTGGCGTGCCTGGTTGGTGCCGGAATGATTTTCGTACTAAATCCCTACCTAGAATACTATACGAGCCCCGTAATTTTGGACTTTGCTTTTGGGGCGGGCTTCGGAGCTTTTTATGTTTCAGGACGCGCGAGTTTTTCGTCAGGAAACAGAACATGCGCTTGGCTCCTCATCGCTATGGGAGCGCTACTCATCGCTGCAACAGGCCGCGGTTTGGAGCTGAGCTCCAGTCATAACATATTGCGCCCTATGACTTGGGGCTTCGCTGGGCTATTGCTGATTTACGGCTGCGTACTTCTTGAGGAAAATGGTTTCGTCGCAAAAAATAGAATATTGATCTATCTTGGGAATGCGAGTTACTCGATATATCTCGTTCATAACTTGATGATCCAAGTTTCTGAAAAAACAGTAAATCTATTTTTGACGCCCGGCTTAGTTGCACTGGGGGTAATGACCCTCTTCGCTTTGGCACTGACCATCATATTTGGCCTAGCCTCCTATAAATTCATTGAGTATCCAATAAACCAAATTTATCGCCGAATAACGATAAAAACACAAAGTATAAAAGCGATTTTATCCCGGATATAG	MIINLQVLRAAAAFLVFFHHFMPNIDKLFPGAKTYEFGAAGVDIFFVLSGFIMVLTTFNKDSDPARFFFNRIARIVPIYWIMTSAIVALFLIGFRPIGVLDLQLSYVWKSLLFIPFMRNGLWEPILSVGWTLNFEMFFYALFALLLIVPDFRLRIVLLVTILACLVGAGMIFVLNPYLEYYTSPVILDFAFGAGFGAFYVSGRASFSSGNRTCAWLLIAMGALLIAATGRGLELSSSHNILRPMTWGFAGLLLIYGCVLLEENGFVAKNRILIYLGNASYSIYLVHNLMIQVSEKTVNLFLTPGLVALGVMTLFALALTIIFGLASYKFIEYPINQIYRRITIKTQSIKAILSRI	PGPT0026580_372	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-SUCCINOGLYCAN_METABOLIC_PATHWAY,PGPT0026580-exoZ-K16568	NA	NA
BMS010_06509	717			hypothetical protein	ATGGTGCCACACTCTCTTTCCAATTTCATATTTTCAGGCTGCATGGTCGTTCCGTTACTTTTTGCCGGCCCTACGAACGGAACGTGTCTATCTGATCAAATTGTCGTCACGCCTAATTCAGAAATCGCTTTTGAAGGAGATAGTTTGACCTATGGCTATGATGAAACCGAAATGGCGGGTGCACAAAAAATCAATGGTGCATGGCCGCGAAGAAGCAAAATTCCTTTTCCCGAAGAGGTAGGCAAAATTCTGGTGAATTTGCAAGTCACGAATCATGGATTTCCAGGTGACAGAAGTCGCGAAGGCATCAAAAGATGGGCGTCACTGAAAACTGCCAGTTTAACGGTCTTGATGTATGGGACCAACGACTTCGGCAACTTCGGTAAGCTGGAGAGGTCGCTTACCACGGAAGAATTCAAAGTGAACTTAGAACGCCTAATCAAGCGCCGCACACTCAGGGGCGGTCAAGTTCTTCTCGTGACCCCTCCACCGATTGCTGAGAACGCAGTAGACGCTGGTTTGGAGCCGTATCGTGAGGTCGTTCGGAATATGGCGCGTCAACGGAATTTGCCTTTGGTTGAGGCATCGGCAGCAATGTCAGATGTTCCTCACAAATGGGTAGACGGTTTGCACCTAAGTGCGGCGGCTAATCAATCGCTTGCGCGTGCTGTTTCTAAGAAAATTTGCGTTCGCGCACCCGATCACGCCCGCGACTAA	MVPHSLSNFIFSGCMVVPLLFAGPTNGTCLSDQIVVTPNSEIAFEGDSLTYGYDETEMAGAQKINGAWPRRSKIPFPEEVGKILVNLQVTNHGFPGDRSREGIKRWASLKTASLTVLMYGTNDFGNFGKLERSLTTEEFKVNLERLIKRRTLRGGQVLLVTPPPIAENAVDAGLEPYREVVRNMARQRNLPLVEASAAMSDVPHKWVDGLHLSAAANQSLARAVSKKICVRAPDHARD				NA	NA	NA	NA	NA
BMS010_06510	1062			hypothetical protein	TTGATCAAGAACCTTCACGCCCTCAGAGCTGTCGCCGCGTTGATGGTAGTTTATGTGCACATCGTCCCCAACTTGCGACGCGCATATGAGGATCTTCCCATATTCGTCTCCGCAAATGCCGGTGTCGACATATTTTTCGTGTTGTCCGGCTTTCTTATGGTAACAAGCACCGAAAAATCGCAAACAACAATATTAGAATTCTATTTCAACCGTATGGCAAGGATAGTACCATTGTATTGGCTACTTAATTTGCTTATCTGCACCACATATTTTCTAGGACTGAAGCCAATCGGCGTGATCAGTCTTCAGCTTGACAGTGTTCTTAAGTCCTTTCTATTTCTTCCAGTCCACAGGAATGGAGTGGACTATCCTATTCTATACGTCGGATGGACATTGATTTACGAAATATTTTTCTATTTATTATTTGGATTTTTTGTACAAATGAAATATCGAATTTATGCCTCGATTTTCGTTACATTGATTGTGACAATTTTGGGTGGACTACCCTTGGTGTTAAACGTTGGAGATTCGGTATTCGCACGATTTTACACAAACCCGATCATGCTGGACTTCGCTTTAGGTGTTTGGCTTGCTCACTTATCATTGGCATACGATTTCAGACGACTCCCTGCTTACAGCTTGATTAGCAGTGCGTTAGCAGGAGGATTGCTCGTAGCTATACCCGATATTATTTCCCTTCCCTCGTTTGAGGGTTTTATCAGGCCTGCCACTTGGGGGCTTGGAGGGAGTTTAATAATTTTCACGCTGATAGGCTTGGAAAAACGAGGACTATATCTGAACTACTCGCCCGTGATTACGATTGGCTCCGCCAGTTATGCAATATATCTAATCCACCCATTTGTATTACAAATTGTCGAAAAAGTTACATCCCCCGTCGTGGAATATCCTCTAATATATGCCGTTCTGACTGTACTTAGCGGACTTGGACTAACAATACTTATTAGCGCGGTAGTATGGCGACGTTTCGAAATCCCTGCGAATAAAGCATTACGAAACTGGTACACTGCACGAACGCTCAGAATACACTCAAATGCGGTTTAG	MIKNLHALRAVAALMVVYVHIVPNLRRAYEDLPIFVSANAGVDIFFVLSGFLMVTSTEKSQTTILEFYFNRMARIVPLYWLLNLLICTTYFLGLKPIGVISLQLDSVLKSFLFLPVHRNGVDYPILYVGWTLIYEIFFYLLFGFFVQMKYRIYASIFVTLIVTILGGLPLVLNVGDSVFARFYTNPIMLDFALGVWLAHLSLAYDFRRLPAYSLISSALAGGLLVAIPDIISLPSFEGFIRPATWGLGGSLIIFTLIGLEKRGLYLNYSPVITIGSASYAIYLIHPFVLQIVEKVTSPVVEYPLIYAVLTVLSGLGLTILISAVVWRRFEIPANKALRNWYTARTLRIHSNAV				NA	NA	NA	NA	NA
BMS010_06511	1209			hypothetical protein	ATGATAGTTATAACAACTCTTCCTATATTGTATATTGTATACATTAGGTTGTTTAATTCTGCGCTTATTTTAATATATCTTTTGCCCGTGATGTTTGCATTCCTCACGTCTCTATTATTTTTCACTGATAGAGGGAATGGGGAACTCTATTCATCCGTATTCACGTTTTTATACATAATTTATTTTCTCCCTTTTACATTTGCCTTGCTTCGAGATGGCTGCCTAGATTTATTTTGTTGGGGTATTTTGGCAGGATTCGCTGCAACTACTTTTTGTTTGTTTGTTGATTTGTATGTTCCATATACTCTTACAAATGTTGGTCTGGCCCTTGTCTTTGACTATCAGGCCGTCGCTGATGCTGCAGCAAACGGTGACTATAATGCACCTCTTCTACGCTTCGAGAAAGCGGGTGGACTTTGGACGCACGGAAATGAAGCTGGTCCGGTGTTCGCATTGGCTGCCGCCGCTGCGGCGTATTTGGCAGAGAGGCGTCGCAGCTTTTTTATATTTGCGTCATTTGCAGCTATATACCTAGTTTCGTTTACTGCTACATTAAACAGATCGGGAATGGGTACAGTCGTCTTAATAGGGCTGATGTCGTACATGTCGTCGTTGTCGAGCCGAAAAATAACTTTGACATTGGTGTATGCCATCCTTGGGATTATGGTTGTCTTACTGATGTTCTCCTTTGGCTTATTCGATTCGATCGATGGCGCGATCTCAAAAAGGTTTCTTGAGGACGAGAATGCTAGCTCGAATATTTTCGAGCGGCTAGAATCTCTCGGCTATGGCATCCAAGTGGCTCTAAACAATCCTTTTGGTATAGGGCTTATTTCTAGGATTGCCGAGATGAATATGTTCAGTCACTTCGGAACGCCTCACAACGGTTTTGTTTCTACTGCCTTCACGGCCGGTGTTTTAGTTAGCTTTTTTGTTGTCACGTCAGTTGCATATATCTTTTTTCGTTTTAGAAAAATTAGATTTTTTCTTTACGTCGCAGTTACGCTGACGTGCGGCTATCTTTTTGAGGAATTGGATGTCAATGCTGCCTTTATGTGTTGGGCTGGTTTGTTAATAGGTTACACTTGTTTGGATCTCGATTATCGCTTGGTTCGGGGACGGGCAATTTTGCGATACCTGTCGAAAGAATTTCGTAATCAGCAGTCCTTGTGCTCTGAAGGCACTAGTTTACCTTCGACGAAGGCCTGA	MIVITTLPILYIVYIRLFNSALILIYLLPVMFAFLTSLLFFTDRGNGELYSSVFTFLYIIYFLPFTFALLRDGCLDLFCWGILAGFAATTFCLFVDLYVPYTLTNVGLALVFDYQAVADAAANGDYNAPLLRFEKAGGLWTHGNEAGPVFALAAAAAAYLAERRRSFFIFASFAAIYLVSFTATLNRSGMGTVVLIGLMSYMSSLSSRKITLTLVYAILGIMVVLLMFSFGLFDSIDGAISKRFLEDENASSNIFERLESLGYGIQVALNNPFGIGLISRIAEMNMFSHFGTPHNGFVSTAFTAGVLVSFFVVTSVAYIFFRFRKIRFFLYVAVTLTCGYLFEELDVNAAFMCWAGLLIGYTCLDLDYRLVRGRAILRYLSKEFRNQQSLCSEGTSLPSTKA				NA	NA	NA	NA	NA
BMS010_06512	2061			hypothetical protein	ATGAGCCAGATCAAGACGCAACTAGCCATCTACGGCGAGAACCACACGAAGAAGGCCTTCAGCGAGGTCAACAACAGCCTCGGCTCACTGAGCCAGAATGCGAAAAAAGCCGGTGCTGCAGTGCTCGGGGCGTTATCCGTTGGCGTTTTTGCCTCGTGGATCAAGGACAGCATCGATGCAGCGGACGCGGCGCGGAAATCGGCCCAGGCAACGGGCTTGGCGGTGGAGAAGTACACTGCCTTGGAATACGCCGCGAAGCTTGCTGGCGTTGAAACAGGCAACCTGGACAGCGCGCTCGGCAAGTTCAACAAGACGGTCGATGCCGCAGCAAACGGGTCTGAGAAGCAGGTCCAGGCATTCGCCAGACTGGGCATCTCGGTGCGCGATCAGGAAGGCGCCCTGAAGAGCAATGACCAGCTTCTGGCAGAGGTTGCGGATCGCTTCCAGTCGATGCCAGATGGCGTGCAGAAGTCGGCCATTGCCATGGAACTATTCGGACGCTCCGGTGCGCAGCTCATCCCCCTACTCAATGGTGGCTCCAAGGGGCTAGCGGAAATGACGGCCGAGGCTGAGGCCCTGGGGCTGGTCATCACCGAGGATCAGGCAGCTGCCGCCGAGGTTCTGAACGACAATATCTCGCGCTTGGGCGCGGCATCGACGGGTGCGGCAAACAAGATATCTGGCGAGTTGCTGCCTACGCTGGTCAGCCTTTCCGATCTGGTCGTAGATCTGAACAAGAATACGGAAGCCTCCTCGGTAATCGCGGATGTGGTAGGAGGAGCCCTGAAAGTTCTGGCCACCATCCTCGTTGCTGTCGGAGTGGGCTTTCAAGCAGTGGGAAATCATATCGCCGGTACGGCAGCTGCAGCCGCCGCCGCTGTAAAAGGCGACTTCGCTGGAGCTATTGAGACACTCAACCAAGTTACGCAGGACAACAATAAGCTCCTCAGTGATGCCGGAGAGCGCATCAGCAACCTCTGGTCAGATGCGGGGAAGGAGACGGCTGCCGCAGCGATCGAGCAGGAGAAACAGCAGGCCAAGATGTTGGATGATGTCACTCACACCACGGAAGGCATGAAGGATCAGCTCAAACAACAGGTAAAAGACGTTCAGGACGCGCTTCGCCAACAGCTCTCCGCTCAGCGCGACGCGGCGCGGGATCTGGAGAAGGCCAAGCAGGAACAACTCGACACTGAAAAGCGCTATTCGGAAGCTCTGGCCAAGCTGAACGGAGGGACCGGCCCCGCGTCGTTCGGCCAAGCCCAGGCGCTTAAGGTGGGAGCGCGCGAGGCCTTGCGTGCCGGCGATGTCGAGGGTGCGAAGCAGCAGGCGCAGGCGGCCCTGGATATCCTCCAACAGTTGGCTTCCGCCGGAGAGAATACATTCGGCTTCCAAGGTTTTATCAAGGAGCTGCAGGACATCGAGACCAGCGCGAATCAAATCAACGTGGACCGGGCGAAGGACAGTTTCGACGAGGCAGACAAGAAAGCGAAAAAGCTGAAGGACACTCTGGATCAGTTGAAGAAGGTGAAGATTTCCATTGAGCTTCCTCAGGAAGAGATCGCCAAGATCAAGGGGCTAATGCAGCAGGTCGCCACTGAGTTAGGCAAAGAGTTAGTCATAACTCCTACCCTTGCCGCTCTTGACTACACCAAGGAATACACCCTGCAAGACCCAGGTCCGGCCCCTCAAGACTATGTGCTCCGAACCCCCAAGGGTTACGCCACCGGCGGCCTGGTGACCGGCGCCGGTACGGGAACCAGCGACAGCATCCCGGCCCTGCTCTCCAATGGTGAATACGTCATCCGAGCGGCAGCAGTGAGTCGGTTAGGACAAGGCTTTCTCGATCTGATCAACCAGGGCCTGCCGATCGCCCGTTTCGCCGATGGTGGGCTGGTCGAGGCGGCAACCGTAGCTGCTCCGGTTGCCAGCCCGGGACGCGACCTGGGCCGAGTGGAGCTGGCTGTCGGCGGTGAACGCTACTCACTGCTGGCCGAAGGTGAAGAGTTCTCCCGCGTCCTCAGGCGCACCGCCACCAAGTTCGGGCGCACCAAACGCTAA	MSQIKTQLAIYGENHTKKAFSEVNNSLGSLSQNAKKAGAAVLGALSVGVFASWIKDSIDAADAARKSAQATGLAVEKYTALEYAAKLAGVETGNLDSALGKFNKTVDAAANGSEKQVQAFARLGISVRDQEGALKSNDQLLAEVADRFQSMPDGVQKSAIAMELFGRSGAQLIPLLNGGSKGLAEMTAEAEALGLVITEDQAAAAEVLNDNISRLGAASTGAANKISGELLPTLVSLSDLVVDLNKNTEASSVIADVVGGALKVLATILVAVGVGFQAVGNHIAGTAAAAAAAVKGDFAGAIETLNQVTQDNNKLLSDAGERISNLWSDAGKETAAAAIEQEKQQAKMLDDVTHTTEGMKDQLKQQVKDVQDALRQQLSAQRDAARDLEKAKQEQLDTEKRYSEALAKLNGGTGPASFGQAQALKVGAREALRAGDVEGAKQQAQAALDILQQLASAGENTFGFQGFIKELQDIETSANQINVDRAKDSFDEADKKAKKLKDTLDQLKKVKISIELPQEEIAKIKGLMQQVATELGKELVITPTLAALDYTKEYTLQDPGPAPQDYVLRTPKGYATGGLVTGAGTGTSDSIPALLSNGEYVIRAAAVSRLGQGFLDLINQGLPIARFADGGLVEAATVAAPVASPGRDLGRVELAVGGERYSLLAEGEEFSRVLRRTATKFGRTKR				NA	NA	NA	NA	NA
BMS010_06513	363			hypothetical protein	ATGAACGACTTGGAAATTCTGTACCCAACCCACAAGCGAATCCGCGTCGGCCGCCGGTGGGTGACTATCCGGCCGATCGAATTCAAGTACTTCGCCGACTTCGGGCAAGCCGCGAGCGAACTGCTGCTGGTTCTGGCCAAAGGCGACGCGACGCAGATCTACACTTGGGCAAAGCGATCCGGCGTACTGCGCGCCATCTTGGTGAACTGCACCAACCTGAGCAAATGGCGTGTCGATCGTCTCCCGGTAGTGGTGGGCGTCGAGCTGATGCTCCATGTGATCGCAATGAACTCCCGTTTTTTCGATCAAGCCCTGGTCAACACGGCTCAGCTGTTGGCTGGGGAGACGTCGCCCAAAAGCTGA	MNDLEILYPTHKRIRVGRRWVTIRPIEFKYFADFGQAASELLLVLAKGDATQIYTWAKRSGVLRAILVNCTNLSKWRVDRLPVVVGVELMLHVIAMNSRFFDQALVNTAQLLAGETSPKS				NA	NA	NA	NA	NA
BMS010_06514	198			hypothetical protein	ATGACCGACACCAACCTTCCCAAGCCTATCAAGCGCGCCCTGAACCAACTGGCTTATTCCCGCGCGCTTCTGCACCAGGCCCATCAGCGCACGATCCTCCGTTGCGAAATCGACCGCCTGATCGCCAGCGGCCTCTCGCCGGCAGACGCCCTGGAACAGTTGCGGGCCAATCCGCCGGCGCTGGCTCCTAATTTCTAG	MTDTNLPKPIKRALNQLAYSRALLHQAHQRTILRCEIDRLIASGLSPADALEQLRANPPALAPNF				NA	NA	NA	NA	NA
BMS010_06516	1263			hypothetical protein	ATGGGCAACCAAGACCACCAATCGAGATGGGATCGGTTACGTGCGCGCTTAGCGTCCGGCGGCCATGTCCCCAGCAACGACCCCCAAGTCCTCGCCACCATTACGCAGGAAGTGACAGAGATGGATACAGACATCGGCCTGATGGCCGCAGCAATCAAGAACCACAACGAAGCCCTGCAGAGCCACCAGGAGGGCCTGCAGCGTTACAGCGACAAGCAGATGGAAATCCAAGCGCGGCTGATGGAGCTGGAACAGAAAGCAGTCGGAAGTGGCTTCTCGTCAGCGAGCCAGCCGGGCAGCAAGAGCAACAGCCGTGTGGCAGCTGAGTTTACTGGCTCCGACGGCCTCGCGGCCCTCAAGGGTGGGCAGAAGACTTCGGGCCGCTTCACTGTACAGGAAGGAGTGAAAGCGATTGTCACCAACCCCGACCGCGGCGATTCTAGCTCGACCAGTTACCCGACGGCACCGCAGCGGGCGCCGGGTATCCAGGGCATCCCGACGCCACCGCTCACGTTGTTAGACGTACTTCCGATCCAGCCGGTAGAAAGCTCGACCTTCGAGTATGTCTACCTGGACGATTTCCTGAGCGGCGCGGCCTATCAACACACCGAGGGCGACGAAAAGGCCGAAAGCGATCTGCCGACCCAGCTGCAACGGGCGGAGATTGCCACCATCGCCACGTGGATTCCTGCGAGTAAGCAGGTCCTCGACGACAACGACCAGCTGCAAGGCCAGATCAGCCTGCTGATGAGCAATGGTGGCCGTCAGAAGCTCGAGCATGAGCTGCTGGTTGGCGCTGGCGGCCCGGGCGAAATCCAGGGCCTGGTCAACCAGGCGATGCCCATCGTCTCGACCACGCAACATCCGGCAGACCGGGTTGGCGAGGCAATCACCACGCTCAAGGCCCGTGGCTGGATGCCCAATGTGGTGGTCATGAACCCGGTGGACTGGTTCTCCATCGCCAGCGAGCGCGCCTCGACCGGCAATGGCCAGTATGTGCTGGGGAGCCCCCGCGATCCGTCGCCGCCGAGCCTGTGGGGCGTTCCGGTGGTAGTGACCCTTTCGATGCCGGAAGGCCAGGCCCTGGTGCTGGACACCACAACCCTCGCCCTTCTCGATCGCCAAGAAGTGACCGTGGAGGCGAGCCGCCATGACGGCAACAACTTCCGCCGCAACCTGATCACCATACTGGCCGAGCTGCGCGCAGGCCTGGCGGTGTATGCGCCGTCCGCGAACCTGCTGGTTGACCTTGTTTCTAGCTGA	MGNQDHQSRWDRLRARLASGGHVPSNDPQVLATITQEVTEMDTDIGLMAAAIKNHNEALQSHQEGLQRYSDKQMEIQARLMELEQKAVGSGFSSASQPGSKSNSRVAAEFTGSDGLAALKGGQKTSGRFTVQEGVKAIVTNPDRGDSSSTSYPTAPQRAPGIQGIPTPPLTLLDVLPIQPVESSTFEYVYLDDFLSGAAYQHTEGDEKAESDLPTQLQRAEIATIATWIPASKQVLDDNDQLQGQISLLMSNGGRQKLEHELLVGAGGPGEIQGLVNQAMPIVSTTQHPADRVGEAITTLKARGWMPNVVVMNPVDWFSIASERASTGNGQYVLGSPRDPSPPSLWGVPVVVTLSMPEGQALVLDTTTLALLDRQEVTVEASRHDGNNFRRNLITILAELRAGLAVYAPSANLLVDLVSS				NA	NA	NA	NA	NA
BMS010_06517	291			hypothetical protein	ATGGCGAAGCGCTGGAGGCCGCCCGTTGGCGCTGGCCGGATGTGGAGGTGGAACGTGACTGACGCCATCGAAACTGAAATCCGCCAACACCTGGAACGCCTGGGCGTGATCCCGCTGGTGGGTGGGCTGGTGCCGGAACCGGCCACGGCAGAGTTGCTGGGCTATGCGCCGTCGTATCTGCGCCGCCTGGCTGCTGCCGGCCTGGCGCCACTGCCCTTCGTCCGCCGCGGCAATCGCAGGTTCTACAAGATCGACGACATCCGCCGCTTCGCGACGGAAACCGTCGCATGA	MAKRWRPPVGAGRMWRWNVTDAIETEIRQHLERLGVIPLVGGLVPEPATAELLGYAPSYLRRLAAAGLAPLPFVRRGNRRFYKIDDIRRFATETVA				NA	NA	NA	NA	NA
BMS010_06518	300			hypothetical protein	ATGGCAGCCATCGATTACCTCACCGCTCGCGGTTTCTCCGCCAGGGTCTCCGGTAAGCGGTTGGTCGTTTCGCCTGCCAGCCGCCTGACCGATGACATTCGCAAGTACATCAAGGCCCATCGCCTGGAACTGATCGCTGAGCTGGCAGCGAACGACGGACAGGAGCGTCGCAGCCACTGGCGGATCACCCGAGACGGGAAACCGCTATGCATGATGATTGGCGAGGAGCCCATGACCTATGGCGAAGCGCTGGAGGCCGCCCGTTGGCGCTGGCCGGATGTGGAGGTGGAACGTGACTGA	MAAIDYLTARGFSARVSGKRLVVSPASRLTDDIRKYIKAHRLELIAELAANDGQERRSHWRITRDGKPLCMMIGEEPMTYGEALEAARWRWPDVEVERD				NA	NA	NA	NA	NA
BMS010_06519	1323			hypothetical protein	ATGAGTGCTGAACCTATCTCCATCATCAAGACGCCGGTGTCACCGACGTGGCGTGCCGAGCTGACGCCGGCCTCTTCGATTACACCAGTGGCCATCCGCTGGCTGTGGCCCGGCTGGGTCGCCCGGGGGAAGTTGACTGTGCTGGCTGGTGCTGGCGGCAGCGGCAAGACCACGCTGGCCGTGGGCCTGATCGGCACGCTGACCAGTGGTGGCCGCTGGCCGGATGGCGAGCTGTGCAGCGAGAAAGGTAATGCCCTGATCTGGTCGTCGGAGGATGACCCGGCCGATACCCTGGTTCCGCGACTGATGGCGGCCGGCGCCGATCTCGGCCGGGTGCACATCATTCAGGGACGGGTAAACGCCGCCACCGGTGATCGTGAACCCTTCGATCCGGCCACGGATTTCGACCTGCTGAAGGAGGCCGTCCAGGAGATCGGCGGCGCCTCCCTGCTGCTGCTCGACCCAGTGGTGAATGTGGTCAAGGGCGACATGCACCGAGCCAACGACGTGCGTCGCGCACTGCAGGCGGTGATCGACTTCGCCGAGGCGCACTGGTGCGCCGTGCTGGGCATCACTCACTTCAGCAAGGGCAGCGGTGCCTCTTCACCGGCCGACCGGGTGATCGGCAGCCAGGCGTTCGGCGCGCTGGCGCGAGCGGTGCTGGTGGCCGCTAAGCAGGAAGATACCGAAACCAGGGTGCTGGCGCGGGCGAAGTCCAATATCAGCGATGACCAGGGCGGCGTGGGCTACGTGGTCGAGCCGTGCACCGTCGGCGATGGCATCGAGACGACCCGCGTGCTCTGGGGGGAACGGATCGAGGGCAGCGCGCGGGAGATCCTTGCCGAAGTGGAACGGGTCGAGGACGACGATCAACCTGACGGCGATGATCCCACCGAAGCACTGCGTCGCATCCTCAGCGCGGGACCGCTGTCCGGAAAGGACGCCAAACGGTTGATGACCGACAACGGCTACACGCAAAAGCAGATCCGTACCGCCCGCGAAAAACTGTCTGTCGTGACCACCCGCGAAGGCTTCGGCAAGGACATCAAATCCTACTGGTTGCTCCCGTCATTTGTGCCCAGTTCTTCATTCGTGCCCTCGGAAACCCATTCGTGCCCATCCTATGGCGTGGGCACGAATGAGGAAAAAGGGCACGAATGGGTGAGAGGCCACTCTGTAGGCGTCGTTCATGACGACTCAAAAGGTGCTCATAAAACACAGAAGGTGCTCAGCGAAAACAGTGAGCACCTTCTGGAAAACGTGAGCACCTTCTGCACTTCGCCAATGCCTCCCTTCGACGAATCGGACGTGGAGGTATTGTGA	MSAEPISIIKTPVSPTWRAELTPASSITPVAIRWLWPGWVARGKLTVLAGAGGSGKTTLAVGLIGTLTSGGRWPDGELCSEKGNALIWSSEDDPADTLVPRLMAAGADLGRVHIIQGRVNAATGDREPFDPATDFDLLKEAVQEIGGASLLLLDPVVNVVKGDMHRANDVRRALQAVIDFAEAHWCAVLGITHFSKGSGASSPADRVIGSQAFGALARAVLVAAKQEDTETRVLARAKSNISDDQGGVGYVVEPCTVGDGIETTRVLWGERIEGSAREILAEVERVEDDDQPDGDDPTEALRRILSAGPLSGKDAKRLMTDNGYTQKQIRTAREKLSVVTTREGFGKDIKSYWLLPSFVPSSSFVPSETHSCPSYGVGTNEEKGHEWVRGHSVGVVHDDSKGAHKTQKVLSENSEHLLENVSTFCTSPMPPFDESDVEVL				NA	NA	NA	NA	NA
BMS010_06520	924	traC		DNA primase TraC	ATGGCTCAAAAAAACGGCGCCTGTGCGCCGCTGGCCTCACTCGGCCTGGAGAAAGTGGAATCGGCCTTTCGTGACGCCCTGCAGGGCTCTTTCGGCAGGCTTGACTGGTTGCCTATGGCGGACGGTGAGATCCACCGGTTCCACGTCCCAGGCGATCGCTCCGGCACGTTAAACGGCTGGTATGTCCTGTTCGGCGAGCGCTTCCCAGCCGGCGCTTTCGGTAGCTGGAAGACGGGGGATATACACCACTGGCGCCTCGAAGGAGCGGCTACACCGGTCGATGCCGAACAGATCCGCCAGCGCATCGAGCAGGCCAGGCGCCAGCGGGAGGCCGAGCAGCACCAGCGCAAGCTAAAGGCCGCCGAGTCTGCGCAACGTCTGTGGCGCGATGCTCGCCGTGCCGCCCCCTCCCACCCGTACCTGATGGCCAAGCAGGTACGCCCACATGGCTTGAGGCAGCACCGCGACCGCCTGCTGGTGCCGCTGTACTGCGACGACCAATTGGTGAACCTGCAAAGCATCGGTCCGGATGGCTCCAAGCTGTTCCAGGCCGGTGGCCAGGTGAAAGGCTGCTATTCGCCGCTGGGCTGCTTCGCCGAAGGCAAACCGCTGTACGTCTGCGAAGGCTGGGCAACGGGCGCCACGCTTCAGCAGCACACCGGCGCCGCGGTCGCCTGCGCCATGAACGCCGGCAACTTGAAGCCGGTGGCACTGGCACTGCGGGCCAAGTACCCGGCCGCCGAGATCGTGATAGCCGGCGACGACGACCGGCAGACCCTGGGCAATCCGGGGCGGAAATCCGCAACGGAGGCAGCACTGGCCGCTGGTGCACTCGTCACGTTCCCCGACTGGCCGGCCGACGCGCCACTGAAGCTGACCGACTTCAACGACCTGGCGAATTGGAGGGCTGCACATGAGTGCTGA	MAQKNGACAPLASLGLEKVESAFRDALQGSFGRLDWLPMADGEIHRFHVPGDRSGTLNGWYVLFGERFPAGAFGSWKTGDIHHWRLEGAATPVDAEQIRQRIEQARRQREAEQHQRKLKAAESAQRLWRDARRAAPSHPYLMAKQVRPHGLRQHRDRLLVPLYCDDQLVNLQSIGPDGSKLFQAGGQVKGCYSPLGCFAEGKPLYVCEGWATGATLQQHTGAAVACAMNAGNLKPVALALRAKYPAAEIVIAGDDDRQTLGNPGRKSATEAALAAGALVTFPDWPADAPLKLTDFNDLANWRAAHEC				NA	NA	NA	NA	NA
BMS010_06521	546			hypothetical protein	ATGAACGCCTTGGTAAAACCGCATCAGCTTGACACCCAGCCCTCGGCCATACCGCGCCCACTCTCCAAGCCCCAGAAAAATCGGTTGCGTTTCAAATCCCCGAAGAAACATTGCCCCGACTTCTTCACGCTTCCGTTCGTTGGAAAAGATCATGGCGAGTTCAGCTACTGGGATGTTCCTCTGACGACCGGCTTCCTGCCCGGGACATATCTCGGCAGTGCACTCGCGCTCATCTACCTGAACTACATCCGCGACTCCGATTACATCGTCAAGCACGTCCTTCTGGGCGATATATCGGCAGCCTGGCTCGATAAAGCGAGGTCCTGCACACCAGAAGAGCACAAGGCCCTCCTCGGCCAGATGAAAGGATTCCTCGGAAAAATCAATCCGTGCCAGCCATTTTCCAGTTGGCCCGGAGAAGCCGCCGATGCTTCGCAGAGCAATGAATCGCTGATCGAACAGGCGAATCGTTGGTTGGAAATCGGCAGTGACGACACCCTGCTCAGCATGTTGAGCAGCGCTACCGAACAGCCCGCGAAGGAGTAA	MNALVKPHQLDTQPSAIPRPLSKPQKNRLRFKSPKKHCPDFFTLPFVGKDHGEFSYWDVPLTTGFLPGTYLGSALALIYLNYIRDSDYIVKHVLLGDISAAWLDKARSCTPEEHKALLGQMKGFLGKINPCQPFSSWPGEAADASQSNESLIEQANRWLEIGSDDTLLSMLSSATEQPAKE				NA	NA	NA	NA	NA
BMS010_06522	243			hypothetical protein	ATGCGTAACCAACTCACCACCCGCACCAGCTCCATCCCCGAAGTGGTTTATACCGCTGATGGTCTGCTCGACGGTCACGCTGTCGAGATCGTTGCCTGGAGCCGCAGCCGACTGACGATCAACTTCGGCCCCTGCAGCCTATCCCTGACACCGGTGGCGATGATCGAGCTGATCAACCACTTGGCCAAGGCCATGGACAAGATCGTGGAAACGCAAGCCAGCGAGCAGGAGGTGCCCCAATGA	MRNQLTTRTSSIPEVVYTADGLLDGHAVEIVAWSRSRLTINFGPCSLSLTPVAMIELINHLAKAMDKIVETQASEQEVPQ				NA	NA	NA	NA	NA
BMS010_06523	456			hypothetical protein	ATGATCGCCCTTGCACTTCTCCGCGCTCGCGGCTATGGTTCGCCTCAGGTCGCGGTAAATCCCGTGACCCAGGGCGTGAGAACCCTTTCAGAAAACTTGGCGCACATGCGCCCCCATCCCATTGCCGGCGCATTTTTTGTGTCCGCAATGTCGCTTTATGGCGGGCCGTGTTGGGCAGGTTTCGGCCTGGCCGGGTTCCAAGTTTCCCGGTTTCTCACCCCGGCACGGCCTGCCACCATTACCAGTGAGAAGGTAGGTGGCAGCTCCTCATGCAAACTTGGAGCACCACCCATGAAACACACCCGCAATCCGTCCGCCTCCCATGCTGCCGCTTGGAAAGCCCGAGCCTTCGCGGCCCTGCGCAGCAACTCGTCCCTCTCCGTCCGCTTGGCTCGCTACAACGAAGCCATGGCCAAGGCTCGCACTCTGGAAGCCCAGGAGGTGACCAATGCGTAA	MIALALLRARGYGSPQVAVNPVTQGVRTLSENLAHMRPHPIAGAFFVSAMSLYGGPCWAGFGLAGFQVSRFLTPARPATITSEKVGGSSSCKLGAPPMKHTRNPSASHAAAWKARAFAALRSNSSLSVRLARYNEAMAKARTLEAQEVTNA				NA	NA	NA	NA	NA
BMS010_06525	225			hypothetical protein	ATGGCAAGCACTACCAATAATTCCCAATCCACACGCCGCTTCATCAAGCGCCAGGTAGTCGAAGAAATCACCGGACTGTCCTGCTCCGAAATCTACCGACGCATTGCCGCTGGCACCTTCCCCGCGCAAGTCCACTTGGGCCCCAAGTCCGTGGTCTGGATCGAGGCCGAGGTTAATGCCTGGTGTGAGCAACGGATCGCCGCCAGTCGCCAGGAGGTCGCATGA	MASTTNNSQSTRRFIKRQVVEEITGLSCSEIYRRIAAGTFPAQVHLGPKSVVWIEAEVNAWCEQRIAASRQEVA				NA	NA	NA	NA	NA
BMS010_06526	576			hypothetical protein	ATGAGCGGGATAAGGGTGAAGGTTATGACCTTCCAAGCCCCTGTGGATATAACAGCACCAGGAGCCCTTGAAGGTGTTCTAGAGCGAGCCCGGTTGTTCGCTGACACCCTCTATCTTGAGCGTGAAGGGCTGCCCGCCAATCTGTCTGCGCTGGCGCAGAGAATAATCATGCTTGCCCCTCAGGCAGCATCCGATGTCCGCTCAGCGGCCGAAATCATGGCCCGCATAGGCGACATCAACCGCCTGCTTGCCGTGTGGCCGGTCCTTAAAGCGGCAGAGGCAGCGAAACACAACGGGGCCATAGGTGGACGCCATCCCAAGCGGAAGAAGTGGGCCGAGGCAGCAGCCGAAAAGCTGGCCGGCCTGGGATATCAAACCGAAGATGCCGCCTGGCTTGCACTACCCACACCCGAAGTCGCATGGGATGTTGAAACCGATGAAGCCGACTTCGAGGTCTATGCGGATGGAAGTAAGCTGATCGCAGTCAACTCAGACTCCAGAAAGGAAGAGCGACCACTCAAGAAGAGCACCTTCCTAAAAAATTACTACCGACCTGCTCGCCAAGCCGGAGCGTAA	MSGIRVKVMTFQAPVDITAPGALEGVLERARLFADTLYLEREGLPANLSALAQRIIMLAPQAASDVRSAAEIMARIGDINRLLAVWPVLKAAEAAKHNGAIGGRHPKRKKWAEAAAEKLAGLGYQTEDAAWLALPTPEVAWDVETDEADFEVYADGSKLIAVNSDSRKEERPLKKSTFLKNYYRPARQAGA				NA	NA	NA	NA	NA
BMS010_06527	1206	intA_2	COG0582	Prophage integrase IntA	TTGCCACTCACAGATACCGCAGTCCGTACCGCCAAGCCCAAGGAGAAGCTCTATCGCCTCTCCGACATCCTGGGGCTGAGCCTGGAGGTGACGCCGGCAGGCGCCAAGCTCTGGCGGTTCCGCTACCGCTTCGCCGACAAGGCGAAAATGATCAGCCTGGGGGCCTATCCTGCCGTCACGCTCGCCAAGGCCCGAGAGAAGCGCGACGCTGCGAGATCATTGGTAGCCGCCGGGGTAGACCCTTCCGCGCACAAACAGGCCGAGAAACGCGCCAGGGAGGCTGATAGCCTGACCTTCGAGACGCTGGCCAGGGAGTGGTACGCCTATAACGCGCCACGCTGGGCCGAGAGCACTGCCTACAAGGCCAAGCTGTACCTGGAGAACGACCTGATCCCCGGCATCGGCTCCCATCCGATCGCCAGCATCACGCGCCCCGAGCTGGTGGATCTGGTGCGCAAGGTGGAGGCACGCGGCACCCTGAACGCCGCCAGCAAGATCCGCCAATGGCTGCACCAGATCTTCCGCTACGGCCTGGCCAAGGGTGTGGTGGACAGCAACCCGGCCACCGACCTTGATGTGGTCGCGGCACCGGCCAAGGCCGCCCGCCATCATCCGCACGTTCCCTTCGCCGAGCTGCCCGAGCTGCTGGAGCGACTGGAAAGCACCCGCCTCAGCGATCTGACCCGCTGGGCCATCCGCCTGCTGATCCTCACGGCCGTTCGCCCTGGCGAGCTACGCGCCGCACCCTGGGCCGAGTTCGACCTCGACGGGGCCATCTGGACGATTCCCAGAGAGCGGATGAAGGCCCGCCGGCCGCACCTGGTCCCGTTGCCTCGCCAGGCCGTGGCCATACTGCGCCAGCTCCAGGAAGTCACCGGCGGCTACACCCTGCTGTTCCCCGGACAGCAGAACGCTGAGCGCCCCATGAGCGAAAACACCATCAACAAGGCCCTGCGCCTGATGGGCTACGAAGGCCGGCAGACCGGCCACGGCTTCCGCCACCTACTCAGCACCGAACTGAATGGCCGCGGCTACAACCGCGACTGGATCGAGCGCCAGCTCGCCCACGGCGATCAGGACGAGATCCGCGGCACCTATAACCACGCCACCTACCTCGAGCAGCGCCGGGGGATGATGCAGGCCTGGGCGGATGAGATCGATGCGCTATACGCTGGCGCCAACGTCGTGAGCATCAAGCGCGCATGA	MPLTDTAVRTAKPKEKLYRLSDILGLSLEVTPAGAKLWRFRYRFADKAKMISLGAYPAVTLAKAREKRDAARSLVAAGVDPSAHKQAEKRAREADSLTFETLAREWYAYNAPRWAESTAYKAKLYLENDLIPGIGSHPIASITRPELVDLVRKVEARGTLNAASKIRQWLHQIFRYGLAKGVVDSNPATDLDVVAAPAKAARHHPHVPFAELPELLERLESTRLSDLTRWAIRLLILTAVRPGELRAAPWAEFDLDGAIWTIPRERMKARRPHLVPLPRQAVAILRQLQEVTGGYTLLFPGQQNAERPMSENTINKALRLMGYEGRQTGHGFRHLLSTELNGRGYNRDWIERQLAHGDQDEIRGTYNHATYLEQRRGMMQAWADEIDALYAGANVVSIKRA				NA	NA	NA	NA	NA
BMS010_06529	273		COG2924	putative Fe(2+)-trafficking protein	ATGACCCGCACCGTGCACTGCCGCAAATACAACGAAGACCTCCCCGGCCTCGACCGCCCGCCCTACCCCGGCGCCAAGGGCGAAGACATCTACAACAACGTGTCGAAGAAAGCCTGGGACGAGTGGCAGAAGCACCAGACCATGCTCATCAACGAACGCCGCCTGAACATGATGAACGCCGAGGACCGCAAGTTCCTCCAGCAAGAGATGGACAAGTTCCTTTCCGGCCAGGAATACGCCCAGGCGGAAGGCTACGTACCCCCGAGCCCGTGA	MTRTVHCRKYNEDLPGLDRPPYPGAKGEDIYNNVSKKAWDEWQKHQTMLINERRLNMMNAEDRKFLQQEMDKFLSGQEYAQAEGYVPPSP				NA	NA	NA	NA	NA
BMS010_06530	1068	mutY_2	COG1194	Adenine DNA glycosylase	ATGACACCCGAGCAATTCGGCGCAGCGGTACTGGACTGGTACGACCGCCACGGCCGCAAGGACCTGCCCTGGCAGCAGGGCATCACCCCCTACCGGGTCTGGGTTTCGGAAATCATGCTGCAGCAGACCCAGGTCGGCACCGTGCTCGACTACTTCGACCGTTTCATGGCCGCCCTGCCCACCGTCCAGGCGCTGGCCGCTGCGGAAGAGGACGAAGTGCTGCATTTGTGGGCCGGCCTCGGCTACTACAGCCGAGCCCGCAACCTGCACAAGACGGCGAAGATCGTGGTCGAACGCCACGACGGCGAATTCCCCCGCGACGTCGAGCAGCTCGCCGAACTGCCCGGCATCGGCCGCTCCACCGCCGGCGCCATCGCCAGCCTGTCCATGGGCCTGCGTGCGCCGATCCTCGACGGCAACGTCAAGCGCGTCCTGGCCCGCTACCTCGCCCAGGAAGGCTACCCGGGCGAACCCAGGGTGGCCCGTCAGCTCTGGGAGGCCGCCGAGCGCTTCACGCCCTTCGAGCGGGTCAACCACTACACCCAGGCGATGATGGACCTAGGCGCCACACTCTGTACCCGCAGCAAGCCGAGCTGCCTGCTCTGCCCACTGCGCAGCGGCTGCCGAGCCAACCTGCTGGGCCGGGAGAGCGACTTCCCCGCGGCGAAACCGCGCAAGGCGCTGCCACAGAAACGCACCCTGATGCCCCTGCTGGCCAACCGGGAGGGCGCCATCCTGCTCTACCGGCGCCCCTCCAGCGGCCTCTGGGGCGGGCTCTGGAGCCTGCCGGAACTGGACGACCTCACGGCCCTCGCCCCGCTCGCCGCCCAACACGCCCTGCGCCTTGGCGAGCGGCGCGAACTGCCCGGCCTGACCCACACCTTCAGTCACTTTCAACTGGCCATCGAGCCCTGGCTGGTTCGGGTGGACACCGCCACCCCCGGCGTGGCCGAGGCCGATTGGCTCTGGTATAACCTCGCCACCCCGCCGCGCCTGGGCCTCGCCGCACCGGTGAAAAAACTGCTCAAGCGCGCCGCCGATGAGCTGAATGCAGGAGAGATGTCATGA	MTPEQFGAAVLDWYDRHGRKDLPWQQGITPYRVWVSEIMLQQTQVGTVLDYFDRFMAALPTVQALAAAEEDEVLHLWAGLGYYSRARNLHKTAKIVVERHDGEFPRDVEQLAELPGIGRSTAGAIASLSMGLRAPILDGNVKRVLARYLAQEGYPGEPRVARQLWEAAERFTPFERVNHYTQAMMDLGATLCTRSKPSCLLCPLRSGCRANLLGRESDFPAAKPRKALPQKRTLMPLLANREGAILLYRRPSSGLWGGLWSLPELDDLTALAPLAAQHALRLGERRELPGLTHTFSHFQLAIEPWLVRVDTATPGVAEADWLWYNLATPPRLGLAAPVKKLLKRAADELNAGEMS				NA	NA	NA	NA	NA
BMS010_06531	2226			hypothetical protein	ATGAAAGCCTTTGGCAAGATCCTGGGCCTCTTCTTCCTCGGTCTGCTACTGATCGTCGTGGCACTGGGCTTCGCCCTGACCCACCTGTTCGACCCCAACGACTATAAGGACGAGATCCGCCAGATCGCCCGCGACAAGGCCAACCTGGAACTGGCCCTGAACGGCGACATCGGCTGGAGCCTGTTCCCCTGGCTCGGCCTCGAACTGCACCAGACCACCCTGGCCAGCGCCGCCACCCCGGACAAACCGTTCGCCGACCTGCAGATGATCGGCCTGTCGGTCCGCGTGCTGCCGCTGCTGCGCAAGGAAGTGCAGATGAGCGACATCCGCATCGAGGGCCTCAACCTGAGCCTCAGCCGCGACGAAAAAGGCCGTGGTAACTGGGAAGACATCGGCCGCCCCGCGCAGGCCAGCGCCACGACCGGAAAGCCGGTGGAAACGCAGCCCGCACCGCAACCCACCGAACCAGCCGAGGAAAAACCGGCGCAACCGATCAAGCTGGACATCGACAGCCTGACCGTGAACAACGCCCGGATCGACTACCAGGACGCCAAGACCGGCCAGCAATTCAGCGCCGAAGGCATCGAACTCACCACCGGTGCCATTCGCGAAGGCAGCAGCATCCCGCTCAAGCTCAGCGCCTTCTTCGGCACCAACCAGCCGGTGATACGCGCCCGCACCGAACTGCAGGGCGACCTGCGCTTCGACCGCGCGCTCAAGCGCTACCAACTGGAGAACGCCAAGCTCTCCGGCGAGGTTTCCGGCGAGCCGCTGCAAGGCAAGACCCTCACCTTCGGCGCCCAAGGCGAGCTGCTGGCCGACCTCGCCGCCCAGATCGCCGAGTGGAACAGCCTGAAACTCTCCGCTAACCAGTTGCTCGGCCTCGGCGAGCTGAAAGTGCGTGACCTGGATAAAGAGCCGAAACTCACCGGCGGCCTGTCCATCGCCCAGTTCAACCTGCGCGAATTCCTCGAAGGCATCGGCCAGACCCTGCCGCCGATGGCCGACGGCAATGCCCTCGGCAAAGCCGAACTGGTCGCGCGCCTCAACGGCACCCCGACCAGCCTTGCCCTGGAAGAGCTGAACCTGAAACTGGACGACAGCAGCTTCACCGGCCGAATCGCCATCGCCGACTTCGCCAAGCAGGCGCTGCGCATCCAACTCAAGGGCGACCGCCTGGACCTCGACCGCTACCTGCCGCCCAAGTCCAAGGAAGCCGAAGGCACCAGCGCCGCACGCAAGACCGAAGTGAAGGAAACCGTCGCCAGCGCCGGCCAGAGCGGCACCACGCCGTTGCCCAAGGCACCGACCCAGCAGGCCTGGAGCGAAGAGCCGGTGCTGCCGCTGGAGCAATTGCGCAAACTCGACATCGAGGCGACCCTCAGCCTCGCCCAGCTCACCCTGAACAAGCTGCCCATTGAGAACGCCACCCTGAAAACCAAGGGCAAGGGCGGCCTGCTGAACCTCGAAGACATGCGCGGCAATCTCTACAACGGCACCTTCGAAGCCAAGGGTCAGCTCGATGTCCGCCAGCAGGTACCGCAACTGAGCGTGCAGAAACGCGTCGCCCGGATTCCCGTGGAAAAACTGATCCAGGCCCAGGGCGAGAAGCCGCCGGTCAAGGGTCTGCTGGACATGACCGCCGACATCAAGACCAGCGGCAATAGCCAGAAGGCCTGGGTGGATGCCCTCAACGGCAATGCCAATTTCGTCCTGAACGATGGCGTGCTGGTCGACGCCAACCTGGAGCAGCAGCTCTGCCAAGGTATCGCCACGCTCAACCGCAAGTCGCTGAGCGGCGAGCCGCGCGGCAAGGACACACCCTTCGAAGAGCTGAAGGGCAACCTGGTGTTCCGCAACGGCGTGGCCAACAACCCGGACCTCAAGGCGCGCATCCCCGGCCTGACTGTCAACGGCAACGGCGACGTGGACCTGCGGGTGCTGGGCATGGACTACCGCGTCGGCATCGTCATCGAAGGCGACAAGAGCGCCATGCCGGACCCGGCCTGCCAGGTCAACGAACGCTACGTCGGCCTGGAATGGCCACTGCACTGCCGCGGCCCGCTGGAGCTCGGCGCCAAGGCCTGCCGCCTGGACAAGGACGGCATGGGCAAGATCGCCGCCAAGCTGGCCGGCGACAAGATCAGCGAAAAGCTGGAAGAAAAACTCGGCGACAAAGTCAGCCCGGAACTCAAAGACGCACTCAAGGGCCTGTTCAAGCGATGA	MKAFGKILGLFFLGLLLIVVALGFALTHLFDPNDYKDEIRQIARDKANLELALNGDIGWSLFPWLGLELHQTTLASAATPDKPFADLQMIGLSVRVLPLLRKEVQMSDIRIEGLNLSLSRDEKGRGNWEDIGRPAQASATTGKPVETQPAPQPTEPAEEKPAQPIKLDIDSLTVNNARIDYQDAKTGQQFSAEGIELTTGAIREGSSIPLKLSAFFGTNQPVIRARTELQGDLRFDRALKRYQLENAKLSGEVSGEPLQGKTLTFGAQGELLADLAAQIAEWNSLKLSANQLLGLGELKVRDLDKEPKLTGGLSIAQFNLREFLEGIGQTLPPMADGNALGKAELVARLNGTPTSLALEELNLKLDDSSFTGRIAIADFAKQALRIQLKGDRLDLDRYLPPKSKEAEGTSAARKTEVKETVASAGQSGTTPLPKAPTQQAWSEEPVLPLEQLRKLDIEATLSLAQLTLNKLPIENATLKTKGKGGLLNLEDMRGNLYNGTFEAKGQLDVRQQVPQLSVQKRVARIPVEKLIQAQGEKPPVKGLLDMTADIKTSGNSQKAWVDALNGNANFVLNDGVLVDANLEQQLCQGIATLNRKSLSGEPRGKDTPFEELKGNLVFRNGVANNPDLKARIPGLTVNGNGDVDLRVLGMDYRVGIVIEGDKSAMPDPACQVNERYVGLEWPLHCRGPLELGAKACRLDKDGMGKIAAKLAGDKISEKLEEKLGDKVSPELKDALKGLFKR				NA	NA	NA	NA	NA
BMS010_06532	1182	lhgD_2	COG0579	L-2-hydroxyglutarate dehydrogenase	ATGGTGATTGAACTCACGCAGCGGATTCCAACGGGTAAGCGACCCGCATCAAACGAAAGAGCCACGACCGACGAACGAATGGACAGTATCGACACCCTCATCATCGGCGCCGGCGCCCTCGGCCTGGCCTGTGCAGCGCGCCTGGCCTCGCCCTCGCGCAGCCTGTTGATCGTCGAAGCGGAAAGACTGATCGGCAGTCACACCTCCAGCCGCAACTCCGAAGTGATCCACGCCGGCCTCTACTACCCACCCGGCTCGCTGAAGGCGGAACTTTGCCTGGAAGGCCGCGAACGCCTCTATGCCTGGTGCGAGCAGCATGGCGTGCCCCATCGGCGCATCGGCAAGCTGCTGGTGGCCGTGGAAAACGCCGAGCGCGGCAAACTGGAAAGCCTGGCCGCCAATGCCGAGGCCTGCGGTGTCCATGACCTGCAACCGCTCGAACGCGACCAACTGGAACGCCTCGAACCGGCCGTGCGTGGCGTGGCGGCCCTGCTCTCGCCAAGCACCGGCATCGTCGACAGCCACCACTACCTGCAATCGCTCCTGGCCGCTGCGGAAAACCGCGGTGCCCAACTCGTGCTGGATACCCGCGTCGAACGCCTGCGGCGAGCCCCCGATGGCTGGATCGCAGAAGGCGTCAGCGGCGGCGAACCGTTCCAGTTGCGTGCCGAACAAGTAATCAACGCCGGCGGGCTGTTCGCCCAGCAACTCGCGAGCCGCACCGAAGGCTTGCGCGCCGACCTGATACCGCCGCTGCACCTGTGCCAGGGCCGCTATTTCAGCTACTTCGGACGCTCGCCGTTCCAGCACCTGATCTACCCGATGCCGGAGGCCAACACGGCCGGGCTCGGCATCCATGCCACCCTGGACATGGGCGGACAACTGCGTTTCGGCCCGGACGTGCACTATCTCGATGCCCTCGACTACGCAGTGGCCGAAACCCTGCGCGAGTCCTTCGCCCGAGCCATCGCCCGCTACTTCCCGAGTCTCGACCCTGGCCGTCTGAGCCCCGGCTACAGCGGCATACGGCCGAAACTCTCCGGCCCCGGGGAACCGGCCGCCGACTTCCTCATCCAAACCCCACTCGATCACGGCCTCCCCGGCCTGATCAACCTGTTCGGTATCGAATCGCCGGGCCTGACCGCCAGCCTCGCGATCGCCGAACGGATCGGCGGTTCGTGA	MVIELTQRIPTGKRPASNERATTDERMDSIDTLIIGAGALGLACAARLASPSRSLLIVEAERLIGSHTSSRNSEVIHAGLYYPPGSLKAELCLEGRERLYAWCEQHGVPHRRIGKLLVAVENAERGKLESLAANAEACGVHDLQPLERDQLERLEPAVRGVAALLSPSTGIVDSHHYLQSLLAAAENRGAQLVLDTRVERLRRAPDGWIAEGVSGGEPFQLRAEQVINAGGLFAQQLASRTEGLRADLIPPLHLCQGRYFSYFGRSPFQHLIYPMPEANTAGLGIHATLDMGGQLRFGPDVHYLDALDYAVAETLRESFARAIARYFPSLDPGRLSPGYSGIRPKLSGPGEPAADFLIQTPLDHGLPGLINLFGIESPGLTASLAIAERIGGS				NA	NA	NA	NA	NA
BMS010_06533	108			hypothetical protein	ATGACCGCGACCGACTGGGCGTCAGCGGTGGACGTCAGTGAAACATCACAAGCCTACCTGACCCGTGCCGAGTGTTCGCCACGCTCGCAGAAGACCCGCGCCGAGTAA	MTATDWASAVDVSETSQAYLTRAECSPRSQKTRAE				NA	NA	NA	NA	NA
BMS010_06534	1218			hypothetical protein	ATGAACGTCGCCGTACTCGCCTTTCCGCTTTACGTTCTGCTGATGCTGCTGGAACTGGCCTATGAGCGCCATGCCGGCCGGCATACCTACCGCCTTGCGGACGCCAGCACCAGTATCAACACGGCGGTGCTGCGGGTTCTGCTGGAAGGGCCGCTGCGGCTGCTGTTGATCGTTCCTTACGCCTGGCTCCACGAACATGCCCGCCTGTTCGAGCTGGATGCGGCGTCGCCGTGGGTATGGCTGGGTGGCTTCGTGGCGGTGGACTTCTGTTTCTACTGGGCCCATCGCAGCCTGCATCGCTACAACCTGTTGTGGGGCGCACACCAGCCGCACCATTCCAGCGAAGACTTCAACCTGTCCACGGCCTTGCGCAAAGGCGCTTTCCAGCCGGCCTTCGATTGGCCCTTCTATCTGCCGCTGGCACTGCTCGGCGTGCCGCTGCCGCTGTTCCTGGTGCTGCTCGGCATCCAGTTGGCCTATCAGTTCTGGATTCATACCCAGCACGTCGGCCGCCTGGGTTGGCTGGAGCGGGTCTTGGTCACGCCCTCGCTGCACCGCGTCCATCATGGTCAGAACGCCTGCTACATCGATCGCAACCATGGCGGCGTCTTCATCGTCTGGGACCGGCTGTTCGGTACCTTCGCCGAGGAGATCGAGCCGGTGCGTTACGGCGTCACCACGCCGGTGCGGACCTTCGATCCGATCCGGCTGCAATTCTCCTGGTGGCGACTGCTCTGGGGCGATGCCCGGGCGACCCGGCGCTGGCGGGACAAGCTGCGACTTTGGTGGATGCCGACAGGGTGGCGGCCGGCCGACGTGCTGTCCCGCCCCTGGCCGAAAATGGGTGAGGAGAAGTTCGCAGAAAGTTACCCGCCCGGCTTACGCGGCTATGCCCTGGTGCAGTTCGTTGCGATCAACATCCTGGCGCTGGGCTTTCTCGCCAGTGTCGCGCGGGCCGCGTTCTGGGAGCCATGGCTGCTGGCGTTCTCGATTCTCGCGGGCTGCGTCGGTCTCGGCCTGCTGTTCGAAGGCCATGCCGGCGCAAGAGCGGTGGAGATCGCCAGACTGACAGGCATGGCGCTGCTGGCGCTGGTGTGGAGCCTGTGGCTGACGCCGGGCCAGCAGGCCTGGGGGCTTGGGTTGGCCGGCTTCTGTGTGATCAGTCTGTTCTGGTTGCGTGGATTGCAGGGGAAGCCTTCGGCGCTGGGCCAACGCTAG	MNVAVLAFPLYVLLMLLELAYERHAGRHTYRLADASTSINTAVLRVLLEGPLRLLLIVPYAWLHEHARLFELDAASPWVWLGGFVAVDFCFYWAHRSLHRYNLLWGAHQPHHSSEDFNLSTALRKGAFQPAFDWPFYLPLALLGVPLPLFLVLLGIQLAYQFWIHTQHVGRLGWLERVLVTPSLHRVHHGQNACYIDRNHGGVFIVWDRLFGTFAEEIEPVRYGVTTPVRTFDPIRLQFSWWRLLWGDARATRRWRDKLRLWWMPTGWRPADVLSRPWPKMGEEKFAESYPPGLRGYALVQFVAINILALGFLASVARAAFWEPWLLAFSILAGCVGLGLLFEGHAGARAVEIARLTGMALLALVWSLWLTPGQQAWGLGLAGFCVISLFWLRGLQGKPSALGQR				NA	NA	NA	NA	NA
BMS010_06535	399	panZ		PanD regulatory factor	ATGCCCGTGATCGTCGAAGCCGTCAGCGCCCCGAGCGAACAGGACCGCACCGACCTGGCGAAGATCTACGCCGATGCGCCGGCCTGGCTGATCGCACCCCATGCCGATGTCGACAACCTGATCGATACCTGCCTGGGCGACGGCACGTTCATCGCCGGTCGATTCAATGACCGCCTGCTGGGCGCCGGCCGCCTGCAGAAGTACACGGATCGCTGGGTTCTGTCCCATCTCTGCGTGCGCCGGGTCACCCGCGGTCGTGGCGTCGGTCGGCGCCTGCTCGACGAAGCCCGGCGGATGGCATTCGAGGCAGGCAAGCCGCTGCATCTGGCGGCCCCGGACGGTCATCTCGAAAGCCAGGCGTTGGCGGCGCGCCTGCAATTGCCGATGGAATCGCTCTAG	MPVIVEAVSAPSEQDRTDLAKIYADAPAWLIAPHADVDNLIDTCLGDGTFIAGRFNDRLLGAGRLQKYTDRWVLSHLCVRRVTRGRGVGRRLLDEARRMAFEAGKPLHLAAPDGHLESQALAARLQLPMESL				NA	NA	NA	NA	NA
BMS010_06536	594	hisB_2	COG0131	Histidine biosynthesis bifunctional protein HisB	ATGGCCGAACGTACGGCATCCGTCGAGCGCAACACCCTGGAGACCCAGATCAAGGTCTCGATCAACCTGGATGGCACCGGCAAGGCGCGCTTCGATATCGGCGTCCCCTTCCTCGAGCACATGCTCGACCAGATTGCCCGTCATGGCCTGATCGACCTGGACATCGAGTGCAAGGGCGATCTGCATATCGACGATCACCACACCGTGGAAGACGTCGGCATCACCCTGGGCCAGGCCTTCGCCAAGGCCATCGGCGACAAGAAGGGCATCGTCCGCTACGGGCACTCCTACGTGCCGCTGGACGAAGCGCTGTCCCGTGTGGTGATCGATTTCTCCGGCCGTCCCGGCCTGCAGATGCACGTACCCTTCACCCGTGCGGTGGTCGGCGGTTTCGACGTGGACCTGTTTCAGGAGTTCTTCCAGGGCTTCGTCAACCATGCCCTGGTCACCCTGCACATCGACAACCTGCGCGGGCACAACACTCATCACCAGATCGAGACGGTGTTCAAGGCGTTCGGCCGCGCGCTGCGCATGGCGATCAGCCTGGACGAGCGCATGGCCGGGCAGATGCCCTCCACCAAGGGTTGTCTCTGA	MAERTASVERNTLETQIKVSINLDGTGKARFDIGVPFLEHMLDQIARHGLIDLDIECKGDLHIDDHHTVEDVGITLGQAFAKAIGDKKGIVRYGHSYVPLDEALSRVVIDFSGRPGLQMHVPFTRAVVGGFDVDLFQEFFQGFVNHALVTLHIDNLRGHNTHHQIETVFKAFGRALRMAISLDERMAGQMPSTKGCL	PGPT0020305_27	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817	NA	NA
BMS010_06537	639	hisH_2	COG0118	Imidazole glycerol phosphate synthase subunit HisH	ATGCAGACGGTTGCTGTCATCGACTACGGCATGGGCAACCTGCACTCGGTGGCCAAGGCCCTCGAGCACGTGGGCGCCGGTAAGGTGCAGATCACCAGCGATGCCGCCGTGATCCGTGAGGCCGACCGGGTGGTGTTCCCCGGCGTCGGCGCGATTCGCGACTGCATGGCGGAGATTCGCCGGCTCGGCTTCGACACGCTGGTCCGCGAGGTGAGCGTCGACCGGCCGTTCCTCGGCATCTGCGTGGGTATGCAGGCCCTGCTCGAACGCAGCGAAGAGAACGGCGGGGTCGACTGCATCGGCCTGTTCCCCGGCCAGGTGCGTTTCTTCGGTAAAGACCTGCATGAAGACGGCGAGCACCTCAAGGTGCCGCACATGGGCTGGAACGAGGTTCGGCAATCCGTCGATCACCCGCTCTGGCACAACATCCCCGACATGGGCCGCTTCTACTTCGTACACAGCTATTACATCGAGGCCGGCAATCCGCGCCAGGTAGCCGGGCGCGGGCATTACGGCGTCGACTTCGCCGCCGCGCTGGCCGACGGTTCGCGCTTCGCCGTGCAATTCCACCCGGAAAAGAGCCATACCCATGGCCTGCAGTTGCTGCAGAACTTCGCCGCCTGGGATGGACGTTGGTGA	MQTVAVIDYGMGNLHSVAKALEHVGAGKVQITSDAAVIREADRVVFPGVGAIRDCMAEIRRLGFDTLVREVSVDRPFLGICVGMQALLERSEENGGVDCIGLFPGQVRFFGKDLHEDGEHLKVPHMGWNEVRQSVDHPLWHNIPDMGRFYFVHSYYIEAGNPRQVAGRGHYGVDFAAALADGSRFAVQFHPEKSHTHGLQLLQNFAAWDGRW				NA	NA	NA	NA	NA
BMS010_06538	744	hisA_2	COG0106	1-(5-phosphoribosyl)-5-[(5-phosphoribosylamino)methylideneamino] imidazole-4-carboxamide isomerase	ATGCTGATTATCCCCGCTATCGATCTGAAGGACGGCGCCTGCGTACGTTTGCGCCAAGGCCGCATGGAAGATTCCACGGTGTTCTCCGATGACCCGGTGAGCATGGCCGCCAAGTGGGTCGAGGCCGGTTGCCGGCGCCTGCACCTGGTCGACCTGAACGGCGCCTTCGAAGGGCAGCCGGTGAACGGCGAGGTGGTCACCGCCATCGCCAAGCGCTACCCGGAACTGCCGATCCAGATCGGCGGCGGCATCCGTTCGCTGGAAACCATCGAGCACTACGTCAAGGCCGGGGTCAGCTACGTGATCATCGGCACCAAGGCGGTGAAGCAGCCGGAATTCGTCGGCGAAGCCTGCCGCGCCTTCCCCGGCAAGGTCATCGTCGGCCTGGATGCCAAGGACGGGTTCGTCGCCACCGACGGCTGGGCGGAAGTCAGCCAGGTGCAGGTCATCGACCTGGCCAAGCGCTTCGAGGCCGATGGCGTTTCCGCGATCGTCTACACCGACATCGCCCGCGACGGCATGATGCAGGGCTGCAACGTCCCGGCCACGGCGGCGCTCGCCAACGCCACGAAGATTCCGGTGATCGCATCCGGGGGTATCCATAACATCGGCGACATCCAGGCGCTGCTGGACGCCAACGCCCCCGGCATCATCGGCGCGATCACCGGCCGTGCGATCTACGAGGGCACCCTCGACGTCGCCGAGGCCCAGGCGATCTGCGACCTGAAATACAAAGTCGAGTAA	MLIIPAIDLKDGACVRLRQGRMEDSTVFSDDPVSMAAKWVEAGCRRLHLVDLNGAFEGQPVNGEVVTAIAKRYPELPIQIGGGIRSLETIEHYVKAGVSYVIIGTKAVKQPEFVGEACRAFPGKVIVGLDAKDGFVATDGWAEVSQVQVIDLAKRFEADGVSAIVYTDIARDGMMQGCNVPATAALANATKIPVIASGGIHNIGDIQALLDANAPGIIGAITGRAIYEGTLDVAEAQAICDLKYKVE				NA	NA	NA	NA	NA
BMS010_06539	771	hisF_2	COG0107	Imidazole glycerol phosphate synthase subunit HisF	ATGGCCCTGGCAAAACGCATCATCCCCTGCCTCGACGTCGATAACGGCCGCGTGGTCAAGGGCGTGAAATTCGAGAACATCCGCGATGCCGGCGACCCGGTCGAGATCGCGCGCCGCTACGACGAGCAGGGTGCCGACGAAATCACCTTCCTCGATATCACCGCGAGCGTGGACGATCGCGGCACCACGCTGCATACCGTCGAGCGCATGGCCAGCCAGGTGTTCATCCCGCTGACCGTCGGCGGTGGCGTGCGTACCGTGCAGGACATTCGCAACCTGCTGAATGCCGGTGCGGACAAGGTGTCGATCAATACCGCGGCGGTGTTCAACCCCGAGTTCGTCGGCGAAGCCGCTGCCCGTTTCGGTTCGCAGTGCATCGTCGTGGCCATCGACGCGAAGAAGGTTTCCGCGCCGGGTGAGACGCCGCGCTGGGAAATCTTTACCCATGGCGGGCGCAAACCTACCGGCCTGGATGCCGTGGTTTGGGCGAAGAAGATGGAAGACCTTGGCGCCGGCGAGATCCTGCTCACCAGCATGGACCAGGACGGTATGAAGAGCGGCTTCGACCTCGGCGTGACTCGTGCCATCAGCGAGACGGTCGGTATTCCGGTGATCGCCTCGGGCGGGGTCGGCAATCTCGAGCATCTCGCCGCCGGCATCCTCGAGGGTAAGGCCGACGCGGTGCTCGCCGCGAGCATCTTCCACTTCGGTGAATACACCGTGCCGGAAGCCAAGGCCTACCTTGCCAGCCGCGGTATCGTCGTGCGCTGA	MALAKRIIPCLDVDNGRVVKGVKFENIRDAGDPVEIARRYDEQGADEITFLDITASVDDRGTTLHTVERMASQVFIPLTVGGGVRTVQDIRNLLNAGADKVSINTAAVFNPEFVGEAAARFGSQCIVVAIDAKKVSAPGETPRWEIFTHGGRKPTGLDAVVWAKKMEDLGAGEILLTSMDQDGMKSGFDLGVTRAISETVGIPVIASGGVGNLEHLAAGILEGKADAVLAASIFHFGEYTVPEAKAYLASRGIVVR	PGPT0007095_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-HQQ|PQS_BIOSYNTHESIS,PGPT0007095-trpE|phnA-K01657	NA	NA
BMS010_06540	738			hypothetical protein	ATGCCTGTCTTCCGGCTACTCGCCGCCGTCTGTCTGTTCTGCCTGGCCGCTCCCCTGCGGGCCGAGTCCCTGGTCCTGCTCACCGAGAACCTGGCGCCCTTCAACATGGCGGCCAACGGTAGCAATTTCGCTCGCGACGAAGGCATCCAGGGTATCAGTGCCGATACGCTGCGCGGCATGTGCCGGCGCGCGGGAGTCGAGTGCCAGTTGATCCTGCGGTTCCCCTGGGAGCGCGTCTACCAGCAGGCGCTCGATGAGGCGGGCTATGGCCTGTTTTCCACCGCGCGGACGCCTGAGCGGGAAAGCCAGTTCAAGTGGGTCGGCCCCATCGCCAGCAACGACTGGGTGCTGTTCGCCCTACCGGACAGCCCGATCCAGCTCAACAACCTCCAGGATGCTGCGCGTTATCGCATCGGCGGCTACAAGGATGACGCCAAGAGCCGCTACCTCACCGACCGTGGCCTGACCGTGCAGACCGCCCTGCGTGACAACGAAAACGTGCGCAAGCTGATGAAGGGGCAGATCGATCTCTGGGTTACTGCCGACCCCAACGGGCGTTACGTGGCGAAGCAGGAAGGTCTGGATGGACTCAAAGTGGTGCAGCGCTTGTACACCGCTGAGCTTTACCTGGCCCTGAATCGCAATACGCCGGACGAACTGGTTCAGAAGTTGCAGAATGCCTTGGATGAGATGCGAGAAGCAGGGGAATTGCAGACGATCAAGGCACGCTATCTCTAG	MPVFRLLAAVCLFCLAAPLRAESLVLLTENLAPFNMAANGSNFARDEGIQGISADTLRGMCRRAGVECQLILRFPWERVYQQALDEAGYGLFSTARTPERESQFKWVGPIASNDWVLFALPDSPIQLNNLQDAARYRIGGYKDDAKSRYLTDRGLTVQTALRDNENVRKLMKGQIDLWVTADPNGRYVAKQEGLDGLKVVQRLYTAELYLALNRNTPDELVQKLQNALDEMREAGELQTIKARYL	PGPT0020800_14926	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_06541	852			hypothetical protein	ATGGCCTGGCGCCATTTTTTCGCCATTATCGCTGGGCTAGGATGGTGGCGCTGGGTATGCTGGAACTCTCCATTTCAAAAGAATGAGAAAGAGATCATGTGCAAACGCTTTCTGTTGGGGCTGGCCTGCGCTGTTTTGGTGCATGTGGGCGCTGCCCATGCCGAAGTCGACCCCAGCTATGAAGTGGTGCTGCTGACGGAAAACTTCCCGCCTTACAACATGGCGACCAACGGTAAGAATTTCGCACAAAACGAGAACATTTCCGGCATCGCTACCGAGATCGTTCGTGAGATGTTCAAGCGTGCGGGTGTGAAGTACAGCCTGACTCTGCGTTTTCCCTGGGACCGCATCTACAAGCTAGCCTTGGAGAAGCCCGCTCACGGCGTGTTCGTGACCGCGCGGCTGCCGGAGCGGGAGGAACTGTTCAAATGGGTAGGGCCGATCGGGCCGGACGATTGGGTGATGCTGGCCAGGGCGGACAGCTCCATCACGCTGGCCAGCCTGGAGGAGGCCAAGGCCTACCGGGTCGGCGCCTACAAGGGCGATGCGATTGCCGAGCACCTGCAGGAGAACGGACTGGAGCCGATCACCTCGCTGCGTGACCAGGAGAACGCTCACAAGCTGGTGCGTGGGCAGATCGATCTCTGGGCCACTGGCGATCCCGCCGGGCGCTATCTGGCCCGCCAGGAAGGTGTGTCCGGGCTGAAGACCGTATTGCGTTTCGACAGTGCCAAACTCTATCTGGCGCTGAACAAGGAGGTACCGGACGAAGTCGTGGCGAAATTGCAGTCCGCACTGGACGGACTGCGCGCCGAGGGCTTCGTCGACGGTGTCTTCGACCGCTACCTGTAA	MAWRHFFAIIAGLGWWRWVCWNSPFQKNEKEIMCKRFLLGLACAVLVHVGAAHAEVDPSYEVVLLTENFPPYNMATNGKNFAQNENISGIATEIVREMFKRAGVKYSLTLRFPWDRIYKLALEKPAHGVFVTARLPEREELFKWVGPIGPDDWVMLARADSSITLASLEEAKAYRVGAYKGDAIAEHLQENGLEPITSLRDQENAHKLVRGQIDLWATGDPAGRYLARQEGVSGLKTVLRFDSAKLYLALNKEVPDEVVAKLQSALDGLRAEGFVDGVFDRYL	PGPT0020800_14239	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_06542	756			hypothetical protein	ATGCTGAAACTGTTGAAAAGGGCCGTTCTGCTGGGTTTGGTGATGGGGGCCGCCGTGGCCCGTGCCGAGTTGCCGCCTGACTACAAGGTGGTGCTGCTGACGGAAAACTTCCCGCCTTTCAACATGGCGGTGGACGACAAGAACTTTGCCCGTGACGAGGGTATCGACGGGATCAGCGCCGATATCGTGCGCGAGATGTTCAAGCGGGCCGGCATCAACTACACCCTCAGCCTACGTTTCCCCTGGGACCGCCTGTATCGCCTGACCCTCGATAAACCGAGCTATGGCTTGTTCTCCACCACCTTCACCGCCGAGCGCCAGCCGCTGTTCAAGTGGGTAGGCCCGATTGCCAAGACCAGTTGGGTACTGTTGTCCGCCCCAGGCAACAAGCTCCAGATCAAGGATCTGAAAGACGCCGGGCAGTACCGGATCGGTGCCTACAAGAACGATGCGGTGAGCCAGCACCTGGAAAGCATCGGCTTGAAGCCGGCCAATGCTCTGCGCGATCAGGAAAACGTGAAGAAGCTGATCAAAGGGCAGATCGACGTCTGGGCGACCACCGATCCGGTTGGCCGTTACCTGGCCAAGCAGGAAGGCGTCACTGGGCTGGAAACCGTGCTGCGCTTCAATGAGGCCGAGCTTTACCTGGCGCTGAACAAGGACACCCCGGACGAAGTGGTGCAGCGCCTGCAGAAGGCGCTCGATGAGCTGCGTGCCGAGGGCTTCGTCGACGAGATCACCTCCAGCTATCTGTGA	MLKLLKRAVLLGLVMGAAVARAELPPDYKVVLLTENFPPFNMAVDDKNFARDEGIDGISADIVREMFKRAGINYTLSLRFPWDRLYRLTLDKPSYGLFSTTFTAERQPLFKWVGPIAKTSWVLLSAPGNKLQIKDLKDAGQYRIGAYKNDAVSQHLESIGLKPANALRDQENVKKLIKGQIDVWATTDPVGRYLAKQEGVTGLETVLRFNEAELYLALNKDTPDEVVQRLQKALDELRAEGFVDEITSSYL	PGPT0020800_14262	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_06543	771		COG2861	putative protein	GTGCGGGGCTGGGCGCTGCTACTGCTGCTGGGCGCGGCCATGGCCTGTGCCCAGCCTTCGGCGCCCCCGAGTCATTCCGCCCGACTCAGCCTGGTCATCGACGACCTCGGCCAAAACTTGACGCGCGATCGCCGTGTTCTGGCTCTGCCCGGCCCCGTGGCGATGGCCATCCTGCCGGACACACCTCACGCCACCGAACTGGCCCGGGAGGCGTACACCGCCGGCAAGACGGTCATTCTGCACTTGCCCATGGACCCTGCCGAAGGGCCTTTTTCCTGGCATCCCGAACAGCCGGCCGCCGAGCGTTTCGAGCGCCTCGACGCGGCCTTGCGTGCCGTGCCCCATGCCCGTGGCCTGAACAACCACATGGGGAGCCGGATGACCGCCGATGTCCCGGCCATGGCCGGGCTGATGAACGAACTGCAGCGCCGCCATCTGTTCTTTCTCGACAGCCGGACCAGCGCCAGCACCCACGCCGCCGCCGAAGCCCAGCGCATCGGCTTGGCCAGCCTGTCGCGCGATGTCTTCCTCGATGACGATCCGTCACCCGAAGCCATCGCCCGGCAATTCGAGCGAGCCGTCGAACTGGCACGCCGGCAGGGATCGGCGGTGATGATCGGCCATCCCTACCCGTCCACCCTGGCCGTGCTCGAACGCGAGCTGCCGCGGCTCGCCGCGCAAGGCATCGAATGGATAGAGATCAGGCAAATGATCGCCGTGCGCGGCAATCGGGCGATGGCGGCGCACGGGAAGAACGGCTACTACCGGTAG	MRGWALLLLLGAAMACAQPSAPPSHSARLSLVIDDLGQNLTRDRRVLALPGPVAMAILPDTPHATELAREAYTAGKTVILHLPMDPAEGPFSWHPEQPAAERFERLDAALRAVPHARGLNNHMGSRMTADVPAMAGLMNELQRRHLFFLDSRTSASTHAAAEAQRIGLASLSRDVFLDDDPSPEAIARQFERAVELARRQGSAVMIGHPYPSTLAVLERELPRLAAQGIEWIEIRQMIAVRGNRAMAAHGKNGYYR				NA	NA	NA	NA	NA
BMS010_06544	1344	ctpB	COG0793	Carboxy-terminal processing protease CtpB	ATGCCGCATGTGCGCCGTTTTGCCCGCCCCACCTCGTTCGCCCTGGCGTTGACGCTGGGCGTTGCCATCGGCAACGTCTGGGCCCAGGAGCCGCCGGCCTCCACGGCACCGGCCCCCGAGGCGGCTCCCGCGCAGAACAAGGCACCGCTGCCGCTCGACGAGCTGCGCACCTTCGCCGAGGTGCTCGACCGTATCAAGGCTGCCTACGTCGAGCCGGTGGATGACAAGACCCTGCTGGAAAACGCCATCAAGGGCATGCTCAGCAACCTCGACCCGCACTCCGCCTACCTCGAGCCGGAGGCGTTCGCCGAGTTGCAGGAAAGCACCAGCGGCGAATTCGGCGGCCTGGGCATCGAGGTCGGCGTGGAAGACGGCTTCATCAAGGTCGTTTCGCCGATCGACGACACCCCCGCTTCCAAGGCCGGCATCGAGGCCGGCGATCTCATCGTCAAGATCGACGGCCAGCCGACCAAGGGCCTGTCTATGATGGAAGCGGTGGAAAAGATGCGCGGCAAACCCGGCAGCAAGATCACGCTGACCCTGGTCCGCGAAGGCGGCAAGCCCTTCGACGTCGAGCTGACCCGCGCAGTGATCAAGGTCAAGAGCGTGAAGAGCCAGTTGCTCGAACCGGGCTACGGTTACATCCGCATCACCCAATTCCAGATCAACAGCGGCGAAGAAGTCGGCAAGGCCCTCGCCAGACTGAAGAAGGATAACGGCGGCAAGAAACTCAACGGCCTGGTCCTCGACCTGCGCAACAACCCCGGCGGGGTGCTGCAGGCGGCCGTGGAGGTCTCCGACCACTTCCTCACCAAAGGGCTGATCGTCTACACCAAGGGGCGTATCGCCAACTCCGAGCTGCGTTTCTCCGCCGACCCGGCCGACGCCAGCGAAGGCGTACCGCTGGTGGTGCTGATCAACGGCGGCAGCGCCTCCGCCTCGGAAATCGTCGCCGGCGCCCTCCAAGATCACAAGCGCGGCGTGCTGATGGGTACCGACACCTTCGGCAAAGGCTCGGTGCAGACCGTCCTGCCGCTGAACAACGACCGCGGCCTGAAGCTCACCACCGCCCTGTACTACACGCCGAACGGCCGGTCGATCCAAGCCCAGGGCATCGAGCCGGATATCGAAGTCGGCCGCGCCAAGCTGACCCGCGAACAGGACGGAGAGAACTTCCGCGAGGCGGACCTGCAAGGGCACCTCGGCAACGGCAACGGCGGCGAGGACAAGCCGAGCAGCAAGCAGAAGGAGCGCAGCAAGGACCCGCGTCCGCAGGACGATGACTACCAGCTGGGGCAAGCCCTCAACCTGCTGAAAGGCCTGAGCGTCACCCGCGGCGAATAA	MPHVRRFARPTSFALALTLGVAIGNVWAQEPPASTAPAPEAAPAQNKAPLPLDELRTFAEVLDRIKAAYVEPVDDKTLLENAIKGMLSNLDPHSAYLEPEAFAELQESTSGEFGGLGIEVGVEDGFIKVVSPIDDTPASKAGIEAGDLIVKIDGQPTKGLSMMEAVEKMRGKPGSKITLTLVREGGKPFDVELTRAVIKVKSVKSQLLEPGYGYIRITQFQINSGEEVGKALARLKKDNGGKKLNGLVLDLRNNPGGVLQAAVEVSDHFLTKGLIVYTKGRIANSELRFSADPADASEGVPLVVLINGGSASASEIVAGALQDHKRGVLMGTDTFGKGSVQTVLPLNNDRGLKLTTALYYTPNGRSIQAQGIEPDIEVGRAKLTREQDGENFREADLQGHLGNGNGGEDKPSSKQKERSKDPRPQDDDYQLGQALNLLKGLSVTRGE	PGPT0015095_5605	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0015095-prc|ctpA-K03797	NA	NA
BMS010_06545	1257	envC	COG4942	Murein hydrolase activator EnvC	ATGCTCCGCGCCCTCGCCCTCGTTGTTCTTGCCGGCCTGTTCAGCCAGGCCATTGCCGACCAACGCGCCGAAACTCAGCAGCAACTGGAGGCGGCGCGCAAGGATGTCGCCGAACTGAAGAAGCTGCTCGAGCAGTTGCAGCAGGAAAAATCCGGCGTCCAGAAAGAGCTGCGCTCCACCGAAACCGAGATGGGCGATCTGGAAAAGCAGGTCAAGAGTCTCGAAAACGAGCTGAAGAAGAGCGAGGACGAGATCCAGCGCCTCAACCAGGAGAAAAAAAAACTCCAGGACGCGCGCCTTGAACAGCAAAGACTGATCGGCATCCAGGCCCGTGCTGCCTACCAGAGTGGTCGCCAGGAATACTTGAAGCTGCTACTCAACCAGCAGGAGCCGGAGAAGTTCTCGCGCACCCTGACCTACTATGACTACCTCAGCCAGGCGCGGCTGGAGCAGCTCGAAACCTTCAACGAAACCCTGCGCCAACTGGCCAATGTGGAAAACGACATCGCCACCCAGCAGGCCCAGCTCTCGGAGCAGCGCAGTGCCCTCGACAGCCGCCGCGAACAGCTCGCGGCGGTACGCCAGGAGCGCCAGCAGGCACTGGCCAAGCTGAATCGTGAATATTCCGCTGGCGGCCAGAAGCTGAAAGCCCGCCAGCAGGAACAGGCCGAACTGGCCCAGGTGCTCAAGACCATCGAGGAAACCCTGGCACGCCAGGCCCGGGAAGCCGAGGAAGCCCGCCAGCGCGCGCTCGCCGAGCAGCGGCGCCAGCAGCAGGAGCAGTCACGCCCCGGCCGCCCGGCCACAGCCGACGGCCCTCTGGTATCGAGCGCCGGCACCAGCTATGGCGGTCCGTTCTCCCAGGCCAAGGGCAAGCTGCCATGGCCGGTGGACGGCCGTCTCGTCGCCCGCTACGGCACTCCGCGCGGCAGCGACGCTCGAACCAAGTGGGACGGCGTTCTGATCGGCGCCGCGGCCGGCAGCCAGGTACGCGCCGTCCACGGCGGACGCGTGGTGTTCGCCGACTGGTTGCGCGGCGCCGGGCTTCTCGTCATTCTCGACCATGGCAATGGTTATCTGAGCCTCTACGGGCACAACCAGAGCCTGTTGAAAGATGCCGGAGACATCGTCAAGGCTGGCGAGCCTATCGCCACCGTCGGTACGAGCGGCGGCCAGAATACGCCCGCGCTGTACTTCGCCATTCGCCAGCAGGGCCGCCCCAGCGACCCCGCCCTATGGTGTCGTGCGCAGGGATAG	MLRALALVVLAGLFSQAIADQRAETQQQLEAARKDVAELKKLLEQLQQEKSGVQKELRSTETEMGDLEKQVKSLENELKKSEDEIQRLNQEKKKLQDARLEQQRLIGIQARAAYQSGRQEYLKLLLNQQEPEKFSRTLTYYDYLSQARLEQLETFNETLRQLANVENDIATQQAQLSEQRSALDSRREQLAAVRQERQQALAKLNREYSAGGQKLKARQQEQAELAQVLKTIEETLARQAREAEEARQRALAEQRRQQQEQSRPGRPATADGPLVSSAGTSYGGPFSQAKGKLPWPVDGRLVARYGTPRGSDARTKWDGVLIGAAAGSQVRAVHGGRVVFADWLRGAGLLVILDHGNGYLSLYGHNQSLLKDAGDIVKAGEPIATVGTSGGQNTPALYFAIRQQGRPSDPALWCRAQG	PGPT0023855_1098	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN-ENDOPEPTIDASE_ACTIVITY|LIPOPROTEIN,PGPT0023855-envC-K22719	NA	NA
BMS010_06546	1536	gpmI_1	COG0696	2,3-bisphosphoglycerate-independent phosphoglycerate mutase	ATGACTGCGACGCCCAAACCTCTGGTACTGATCATCCTGGACGGCTTCGGTCACAGCGACAGCCCCGAATACAACGCTATCCATGCCGCCAACACCCCGGTCTACGACCACCTGCGCGCCACCCAGCCGCACGGGCTGATCTCCGGTTCGGGCATGGACGTCGGCCTGCCGGACGGTCAGATGGGCAACTCCGAAGTGGGACACATGAACCTCGGTGCCGGCCGGGTCGTCTACCAGGACTTCACCCGCGTGACCAAGGCGATCCGCGACGGCGAGTTCTTCGAGAACCCGGCGATAGCCGCCGCGGTGGACAAGGCCGCCGGCGCCGGCAAGGCGGTACATATCCTCGGCCTGCTGTCCGATGGCGGCGTGCACAGCCACCAGGATCACCTGGTCGCGATGGCCGAGATGGCGGCCAAGCGCGGCGCCGAGAAAATCTACCTGCATGCCTTCCTCGACGGCCGCGACACACCGCCGAAGAGCGCCCAAAGTTACATCGAACTGCTCGACACCACCTTCGCCCGCCTCGGCAAGGGCCGCATCGCCTCGCTGATCGGCCGCTACTACGCCATGGACCGCGATAACCGCTGGGACCGCGTCCAGGCCGCCTACGAGCTGATCGTCGATGGGAAGGCCGAGCAGCTCGCCGACACGGCGCTCGACGGCCTCAATGCCGCCTACGAGCGCGGCGAAAGCGACGAATTCGTCAAGGCCACGGCCATCGGCTCGCCGGTGAAGGTCGAGGATGGCGACGCCGTGATATTCATGAACTTCCGTGCCGACCGCGCCCGCGAGCTGACCCGCGCCTTCGTCGAGCCCGGCTTCAAGGAATTCGAGCGCAGCCGCGTACCGGCCCTGGCCGGCTTCGTCATGCTCACCCAGTATTCCGCCAGCATCCAGGCACCCTGCGCCTTCGCGCCGGAACCCTTGACCAACGTGCTCGGCGAATACCTGGCGAAGAACGGCAAGACCCAACTGCGCATCGCCGAGACCGAGAAATACGCCCACGTCACCTTCTTCTTCTCCGGCGGCCGTGAAGAGCCGTTCGAGGGCGAGGAACGCATCCTTATCCCGTCACCGAAGGTCGCCACCTACGATCTGCAGCCGGAAATGAGCGCGCCGGAAGTCACCGACCGCATCGTCGAAGCCATCGAACAGCAGCGCTACGACGTGATCGTGGTCAACTACGCCAACGGCGACATGGTCGGCCACACCGGCGTCTTCGAGGCGGCGGTCAAGGCCGTCGAATGCCTGGATACTTGCATGGGCCGGATCGTCGACGCGCTGGACAAGGTGGGCGGCGAAGCGCTGATCACCGCCGACCACGGCAACGTCGAGCAGATGGAAGACGAAACCACCGGTCAGGCGCACACCGCGCATACCTGCGAACCGGTACCGTTCATCTACGTCGGCAAGCGCAAGCTGCACATCCGCGAAGGCGGTGTGCTGGCCGACGTGGCGCCGACCATGCTCAAGCTGCTCGGCCTGCCGCAGCCGTCGGAAATGACCGGCCGCTCGATCGTCGAGCTGGACTGA	MTATPKPLVLIILDGFGHSDSPEYNAIHAANTPVYDHLRATQPHGLISGSGMDVGLPDGQMGNSEVGHMNLGAGRVVYQDFTRVTKAIRDGEFFENPAIAAAVDKAAGAGKAVHILGLLSDGGVHSHQDHLVAMAEMAAKRGAEKIYLHAFLDGRDTPPKSAQSYIELLDTTFARLGKGRIASLIGRYYAMDRDNRWDRVQAAYELIVDGKAEQLADTALDGLNAAYERGESDEFVKATAIGSPVKVEDGDAVIFMNFRADRARELTRAFVEPGFKEFERSRVPALAGFVMLTQYSASIQAPCAFAPEPLTNVLGEYLAKNGKTQLRIAETEKYAHVTFFFSGGREEPFEGEERILIPSPKVATYDLQPEMSAPEVTDRIVEAIEQQRYDVIVVNYANGDMVGHTGVFEAAVKAVECLDTCMGRIVDALDKVGGEALITADHGNVEQMEDETTGQAHTAHTCEPVPFIYVGKRKLHIREGGVLADVAPTMLKLLGLPQPSEMTGRSIVELD	PGPT0018040_1094	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0018040-gpmI-K15633	NA	NA
BMS010_06547	414	yibN	COG0607	putative protein YibN	ATGGTCGCCAAGCTGATTGAATTTATCTCTCATCACTATGTGCTCAGCAGCCTGTTCCTGGTGCTGCTGGTACTCCTGATCATCACCGAGCTGCGCCGTGGCGGCCGTAACCTTTCCACTCGCGAGCTGACCGCGCTGGTCAACGGCGAGCAGGCCGTGGTGTTGGACGTGCGCGCGAAGAAGGAGTTCGATGGCGGGCACATCGTCGACGCCTTGAACATTCCTTATGAGAAGCTGGTCAACCGCATAGCCGAGCTGGAGAAGCACAAGGCCAAGACCATCATCGTGGTCGATGCCATGGGCCAGCACGCCGGCACCGTCTGCCGCGAGCTGAAGAAGGCCGGCTATACGGCCGCCAAGCTGTCCGGTGGGATTGCCAGCTGGCGGGGAGACAACCTACCGCTGGTGAAGTGA	MVAKLIEFISHHYVLSSLFLVLLVLLIITELRRGGRNLSTRELTALVNGEQAVVLDVRAKKEFDGGHIVDALNIPYEKLVNRIAELEKHKAKTIIVVDAMGQHAGTVCRELKKAGYTAAKLSGGIASWRGDNLPLVK				NA	NA	NA	NA	NA
BMS010_06548	267	grxC_2	COG0695	Glutaredoxin 3	ATGTCCAAGATCGTCATCTATACCACCGCCTGGTGTCCCTATTGCATTCGCGCCAAGCAGTTGCTGAACCACAAGGGCGTTTCCTTCGAGGAAATCCCGGTCGACGGCAAGCCTGACCTGCGTGCCGAGATGGCCCGCAAGGCGGGACGTACCTCGGTGCCGCAGATATGGATCAACGGTGCCCATATCGGTGGCTGTGACGATCTTTATGCGCTGGAGCGTGCCGGCAAGCTGGATGCGCGTCTGGCGGAAGCTGCCCAATCCTGA	MSKIVIYTTAWCPYCIRAKQLLNHKGVSFEEIPVDGKPDLRAEMARKAGRTSVPQIWINGAHIGGCDDLYALERAGKLDARLAEAAQS	PGPT0013201_4304	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CHAPERONES,PGPT0013201-grxC-K03676	NA	NA
BMS010_06549	489	secB_2	COG1952	Protein-export protein SecB	ATGACCGACCAACAAGCGAACGGCTCCACCCAGAACGGCCAAGGGCCGCAATTCTCCCTGCAGCGCATCTACGTGCGCGACCTGTCCTTCGAAGCCCCGAAAAGCCCGGAAATCTTCCGCCAGGAGTGGTCGCCGAGCGTTTCCCTGGACCTCAACACCCGCCAGAAGCACCTCGAAGCCGATTTCCATGAAGTGGTGCTGACCTTGTCGGTCACCGTGAAGAACGGCGAGGAAGTCGCTTTCATCGCCGAAGTCCAGCAGGCCGGCATCTTCCTGATCAAGGGCCTGGACGCGGCGTCCATGAGCCATACCCTTGGCGCTTTCTGCCCGAACATCCTGTTCCCCTATGCCCGCGAGACGCTGGACAGCCTGGTCACCCGTGGCTCCTTCCCGGCGCTGATGCTGGCTCCGGTGAACTTCGACGCCCTGTATGCCCAGGAACTGGCGCGCATGCAGGCGGCTGGCGAGGCGCCCGGCGCGATTCAGTAA	MTDQQANGSTQNGQGPQFSLQRIYVRDLSFEAPKSPEIFRQEWSPSVSLDLNTRQKHLEADFHEVVLTLSVTVKNGEEVAFIAEVQQAGIFLIKGLDAASMSHTLGAFCPNILFPYARETLDSLVTRGSFPALMLAPVNFDALYAQELARMQAAGEAPGAIQ	PGPT0025745_1267	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025745-secB-K03071	NA	NA
BMS010_06550	450	trmL_2	COG0219	tRNA (cytidine(34)-2'-O)-methyltransferase	GTGATCCTCTTTCAACCGGAAATCCCGCCGAACACCGGCAACATTATCAGGCTCTGCGCCAACACCGGCTGCACGTTGCATCTGATCGAGCCGCTGGGTTTCGAACTGGACGACAAGCGCCTGCGCCGCGCCGGCCTGGACTACCATGAATACGCCACGCTGAAGCGCCACCCGGACCTGTCGGCCTGCCTGGGCAGCCTTGGCCATCCCCGCGTCTTCGCCTTCACCACCAAAGGCACGCAGCCCTACCATGAGGTCCGCTACCAGCCGGGCGATGCCTTTCTCTTCGGCCCGGAAAGCCGTGGCCTGCCGCAGGAAATTCGCGACAGCCTGCCGACCGGGCAGCGGCTGCGCTTGCCGATGCGCGAGGGCTGCCGCAGCCTCAACCTGTCCAACACCGTTGCGGTCGCCGTCTACGAGGCTTGGCGGCAACAGGGTTTCGCCCTATAG	MILFQPEIPPNTGNIIRLCANTGCTLHLIEPLGFELDDKRLRRAGLDYHEYATLKRHPDLSACLGSLGHPRVFAFTTKGTQPYHEVRYQPGDAFLFGPESRGLPQEIRDSLPTGQRLRLPMREGCRSLNLSNTVAVAVYEAWRQQGFAL				NA	NA	NA	NA	NA
BMS010_06551	441			hypothetical protein	ATGCACGGCTCCGACACTGAGGACGGGCGGCATTCTAACCCCGAAGAGGACCCTCGGCCGCGCCTGTGGCTGCGCTTTCTCGCTTCGCTGGCGCTGATCGGCTTTCTGGTCGGGCTGATGATCGGGCGTCTCACGCAATCGGAGCTGGTGGTCCTGCAGCGGGTCGAGGAGCGTCCGGCGGGGCTGGTCCTGTGGTTCGACCATGAGCCAAAAGTGTTCGTGGAGCACTTGGATGGTGCATTTGCGCTGTCCGTCGAGGCGGTCGCCCGAGCGCGTGCAGGACGCGTCGAACTGGCGGGAAAACCCGTCAATTGGCGGCTACAGAGCGGAGATAAGGGGTTTTTACTGCGATTCGTGGCTGCCCGCCCACTCCGCGGCGCATGGGAGGCTGCGGAAGTGGACGGGCAGTGGCGGCTGTCGATCAGCCTGCGGGAGGAATAA	MHGSDTEDGRHSNPEEDPRPRLWLRFLASLALIGFLVGLMIGRLTQSELVVLQRVEERPAGLVLWFDHEPKVFVEHLDGAFALSVEAVARARAGRVELAGKPVNWRLQSGDKGFLLRFVAARPLRGAWEAAEVDGQWRLSISLREE				NA	NA	NA	NA	NA
BMS010_06552	1437	glnG_2	COG2204	DNA-binding transcriptional regulator NtrC	ATGAGCCGAAGCGAAACCGTCTGGATCGTCGACGACGACCGCTCCATCCGCTGGGTACTGGAAAAAGCCCTGCAACAGGAAGGGATGACCATCCAGAGCTTCGACAATGCGGACAGCGTGCTCAACCGCCTGTCCCGCCAGCAGCCGGACGTGATCATTTCGGACATCCGCATGCCCGGCGCCAGCGGCCTCGATCTGCTGGCCCGCATCCGCGAACTGTATCCGCGGCTGCCGGTGATCATCATGACCGCACATTCCGACCTGGACAGCGCCGTGGCGTCCTACCAGGGCGGCGCCTTCGAATACCTGCCCAAGCCGTTCGACGTGGACGAAGCGGTCTCGCTGGTCAAGCGCGCCAATCTCCACGCCCAGGAACAGCAGGGCCTGGAGACCCCGGCCAACCTGACGCGCACCCCCGAGATCATCGGCGAAGCACCGGCCATGCAGGAGGTCTTCCGCGCCATCGGCCGTCTGAGCCACTCGAACATCACCGTGCTGATCAACGGCGAGTCCGGTACCGGCAAGGAACTGGTCGCTCATGCCCTGCATCGCCATAGCCCGCGCGCGGCCTCCCCGTTCATCGCCCTGAACATGGCGGCGATTCCGAAGGACCTGATGGAGTCCGAGCTGTTCGGCCACGAGAAAGGTGCGTTCACCGGCGCGGCCAACCAGCGGCGCGGCCGCTTCGAGCAGGCCGACGGCGGCACCCTGTTCCTCGACGAGATCGGCGATATGCCGGCCGATACCCAGACCCGCCTGCTGCGCGTCCTGGCCGACGGCGAGTTCTACCGGGTCGGCGGCCATACGCCGGTCAAGGTGGACGTGCGGATCATTGCCGCCACCCACCAGAATCTGGAAAACCTGGTCCAGGCCGGCAAGTTCCGCGAAGACCTGTTCCACCGGCTCAACGTCATCCGCATCCACATCCCGCGCCTGGCCGATCGCCGCGAAGACATCCCCGCCCTGGCCCGCCACTTCCTCAGCCGCGCCGCGCAGGAACTGTCGGTCGAACCCAAGCTGCTCAAGAGCGAAACCGAAGACTACCTGATGAACCTGCCCTGGCCGGGCAACGTCCGCCAGTTGGAGAACACCTGCCGCTGGATCACCGTGATGGCGTCCGGGCGTGAGGTGCATGTCGACGACCTGCCGCCGGAACTGCTGACCCAGCCCCAGGACGCCACGCCGGTGACCAACTGGGAGCAGGCCCTGCGCCAGTGGGCCGACCAGGCGCTGACACGCGGGCAGTCCAGCCTGCTCGACAGCGCTGTACCGACCTTCGAGCGGATCATGATCGAAACCGCGTTGAAACATACCGCAGGCCGCCGCCGCGACGCCGCCATCCTGCTCGGCTGGGGCCGCAACACCCTGACCCGCAAGATCAAGGAACTGGGCATGAAGGTGGATGGCGGAGACGACGACGAAGGCGACGATTCCTAA	MSRSETVWIVDDDRSIRWVLEKALQQEGMTIQSFDNADSVLNRLSRQQPDVIISDIRMPGASGLDLLARIRELYPRLPVIIMTAHSDLDSAVASYQGGAFEYLPKPFDVDEAVSLVKRANLHAQEQQGLETPANLTRTPEIIGEAPAMQEVFRAIGRLSHSNITVLINGESGTGKELVAHALHRHSPRAASPFIALNMAAIPKDLMESELFGHEKGAFTGAANQRRGRFEQADGGTLFLDEIGDMPADTQTRLLRVLADGEFYRVGGHTPVKVDVRIIAATHQNLENLVQAGKFREDLFHRLNVIRIHIPRLADRREDIPALARHFLSRAAQELSVEPKLLKSETEDYLMNLPWPGNVRQLENTCRWITVMASGREVHVDDLPPELLTQPQDATPVTNWEQALRQWADQALTRGQSSLLDSAVPTFERIMIETALKHTAGRRRDAAILLGWGRNTLTRKIKELGMKVDGGDDDEGDDS	PGPT0000685_815	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-GLUTAMATE|GLUTAMINE_SYNTHASE|GLTS_PATHWAY,PGPT0000685-ntrC|glnG-K07712	NA	NA
BMS010_06553	1086	glnL_2	COG3852	Sensory histidine kinase/phosphatase NtrB	ATGACTATCAACGACACCCTGCACCGACTACTGCTCGACAACCTCACCACCGCGACCATCCTGCTCAACGCCGAATTGCGCCTCGAGTACATGAACCCGGCGGCGGAGATGCTACTGGCGGTCAGCGGTCAACGTAGCCACGGACAATTCATCAGCGAACTGTTCACCGAGTCGCCCGAGGCCTTGCAGTCGCTCCGCCAGGCGGTCGAGCAAGCCCACCCCTTCACCAAGCGCGAGGCGATGCTGACCTCGCTGACCGGCCAGACGCTGACGGTGGATTACGCAGTGACGCCCATCATCAACCGGCGCGAAACCCTGCTGCTGCTGGAAGTCCATCCGCGCGATCGGTTGCTGCGGATCACCAAGGAAGAGGCCCAGCTCTCCAAGCAGGAGACCACCAAGCTGCTGGTGAGAGGGCTGGCCCACGAAATCAAGAACCCGCTCGGCGGCATTCGCGGCGCGGCGCAACTGCTCTCCCGCGAGCTGCCGGACGAAAGCCTCAAGGACTATACCAACGTCATCATCGAAGAGGCCGACCGACTGAGAAACCTGGTCGACCGCATGCTCGGCTCGAACAAGCTGCCGTCGCTGGCGATGACCAACGTCCATGAAGTGCTGGAGCGGGTCAGCAGCCTGGTCGAGGCCGAAAGCCAGGGACGCATCACTTTGGTGCGCGACTACGACCCGAGCATCCCGGAAGTCCTGATCGATCGCGAGCAGATGATCCAGGCGGTGCTCAATATCGTGCGCAACGCCATGCAGGCACTGGCCAGCCAGAGCGACCTGCGCCTCGGCCGCATCAGCCTGCGCACCCGCACGCTGCGCCAGTTCACCATCGGCCACACCCGTCACCGGCTGGTGTGCAAGGTGGAGATCATCGACAACGGCCCCGGCATCCCGCAGGAGCTGCAGGAAACCATCTTCTATCCCATGGTCAGCGGCCGTCCGGACGGTACCGGGCTGGGGCTGGCCATCACCCAGAACATCATTAGTCAGCACCAGGGCCTGATCGAATGCGAAAGCCATCCCGGCCATACCGTGTTCTCGATCTTCCTACCGCTGGAACAAGGAGCCGTATCCCCATGA	MTINDTLHRLLLDNLTTATILLNAELRLEYMNPAAEMLLAVSGQRSHGQFISELFTESPEALQSLRQAVEQAHPFTKREAMLTSLTGQTLTVDYAVTPIINRRETLLLLEVHPRDRLLRITKEEAQLSKQETTKLLVRGLAHEIKNPLGGIRGAAQLLSRELPDESLKDYTNVIIEEADRLRNLVDRMLGSNKLPSLAMTNVHEVLERVSSLVEAESQGRITLVRDYDPSIPEVLIDREQMIQAVLNIVRNAMQALASQSDLRLGRISLRTRTLRQFTIGHTRHRLVCKVEIIDNGPGIPQELQETIFYPMVSGRPDGTGLGLAITQNIISQHQGLIECESHPGHTVFSIFLPLEQGAVSP	PGPT0000680_693	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-GLUTAMATE|GLUTAMINE_SYNTHASE|GLTS_PATHWAY,PGPT0000680-ntrB|glnL-K07708	NA	NA
BMS010_06554	609			hypothetical protein	ATGCGCCACCTGCTGTTCTGCCTGCTGCTGCTCGGCCTGCCTGCCGTCGCCGAGGTTTACACCTACATCGACGCCGAGGGAAATCGCGTTTTCACCGACCGCCCCCGGTCCGACCGCGCCGAGCGCATCCAGCTCGCGCCGGCCAATGCCATGCCGGCGGCACCGGTCGCCATCGCCCCGCCTTCCCCACCCCAGACCGTAATCGCGCCGGCCTACCAGCTCCTGCGCATTCTGTTCCCCGAGCCCGACGCCACCATCCGCGACAATACCGGCAACCTCATCGTCACCCTGGTCAGCGAGCCGGGCCTGCTGACGGGGCACAACTACCGGCTGTTCGTCGATGGCCAGCCTGCCGGCGCACCGAGCCGGAGCCCGGTGTTTCCGCTGAGCAACCTGGATCGCGGCACGCATCAGCTGGCGGCGGAGATCATCGACGCGAGCGGACGCATCCTCGAGCGCACCCCGAACCAGCCGGTCCACATCAAGCGTATCTCCCTGGCCCAAAAGCGCCTGGCCAACCCCTGCAAGAAAGACGACTACGGCGTACGCCCGGAATGTCCGTTGAAGGACAAACCCAAGGAAAAGCCCAGCATCCTGCCCTTCCTCTGA	MRHLLFCLLLLGLPAVAEVYTYIDAEGNRVFTDRPRSDRAERIQLAPANAMPAAPVAIAPPSPPQTVIAPAYQLLRILFPEPDATIRDNTGNLIVTLVSEPGLLTGHNYRLFVDGQPAGAPSRSPVFPLSNLDRGTHQLAAEIIDASGRILERTPNQPVHIKRISLAQKRLANPCKKDDYGVRPECPLKDKPKEKPSILPFL				NA	NA	NA	NA	NA
BMS010_06555	528			hypothetical protein	ATGCGCCTGCTAATCGCCTGCCTGATCGGTGCCCTGGCCCTGCCGGCCATGGCTGCACAGATCTACAAGTACACCGATGCCAACGGCAATGTCGTCTACACCAACCAGCCCCCGGAAGGCGTGCAGGCCGAAGAGGTGGACGTGAAGGCGCCGAACACGGTGGAAATGAGCGCACCGCCCCCCTCGCTTCCCAGCCAGGCCGATCAACAACCCGCCGCCGGAAACCCTTACAGCGTGCTCGAGCTGACCGGTATTCCGGATGACGAGGCGATGCGCGCCAACAACGGGACCTTCAGCGTGGGCGTGGCCCTGGAGCCCCGCCTGCAGCGAGGCCACCTGCTGCGCCTGGTTCTGGATGGCCAGCCTTACGGCCAGCCCACCAACGTGCCCCAACTGCAACTGGTCAATATCGACCGGGGCGAACACAGCCTGGTGGTGGAAGTGCTCAGCGGCGACCGCGTCGTCCAGAGGAGCGACGCGAAGACCTTCGCCGTGCAACGGGTCCATATCAACAAGCCAGGCTCCTGA	MRLLIACLIGALALPAMAAQIYKYTDANGNVVYTNQPPEGVQAEEVDVKAPNTVEMSAPPPSLPSQADQQPAAGNPYSVLELTGIPDDEAMRANNGTFSVGVALEPRLQRGHLLRLVLDGQPYGQPTNVPQLQLVNIDRGEHSLVVEVLSGDRVVQRSDAKTFAVQRVHINKPGS				NA	NA	NA	NA	NA
BMS010_06556	1404	glnA_2	COG0174	Glutamine synthetase	ATGTCGAAGGCGCTTCAACTGATTAAAGACAATGACGTGAAGTGGATTGATCTGCGCTTCACCGATACCAAAGGCAAGCAGCAGCACGTCACCATGCCGGCCCGCGATGCGGACGACGACTTCTTCGAATACGGCAAGATGTTCGACGGCTCCTCGATCGCCGGCTGGAAGGGCATCGAAGCATCCGACATGATCCTGATGCCGGACGACAGCACCGCCGTCCTGGACCCGTTCACCGAAGAGCCGACCCTGATCCTCGTCTGCGACATCATCGAGCCCTCCACCATGCAGGGTTACGAGCGCGACCCGCGCGGCATCGCCCGCCGCGCCGAGGAATACCTGAAGTCCACCGGCATCGGCGACACCGCCTTCTTCGGTCCGGAACCCGAGTTCTTCATCTTCGACGAAGTGAAGTTCAAGTCGGACATCTCCGGCTCCATGTTCAAGATCTTCTCCGAGCAGGCCTCCTGGAACACCGACGCCGACATCGACGGCGGCAACAAGGGCCACCGTCCGGGCGTCAAGGGCGGCTACTTCCCGGTACCGCCGGTCGACCACGACCACGAAATCCGTACCGCCATGTGCAACGCCCTGGAAGAAATGGGCCTGGTGGTCGAAGTTCACCACCACGAAGTGGCGACTGCCGGCCAGAACGAAATCGGCGTCAAGTTCAACACCCTGGTCGCCAAGGCCGACGAAGTGCAGACCCTGAAGTACTGCGTGCACAACGTCGCCGACGCCTACGGCAAGACCGTGACCTTCATGCCGAAGCCGCTGTACGGCGACAACGGCTCGGGCATGCACGTGCACATGTCGATCTCCAAGGACGGCAAGAACACCTTCGCGGGTGAAGGCTATGCCGGTCTGTCCGAGACCGCCCTGTACTTCATCGGCGGCATCATCAAGCACGGCAAGGCCCTGAACGGCTTCACCAACCCGTCGACCAACTCCTACAAGCGTCTGGTCCCCGGCTTCGAAGCCCCGGTCATGCTGGCCTACTCCGCCCGCAACCGTTCCGCCTCGATCCGTATCCCGTACGTCAACAGCCCGAAAGCCCGCCGTATCGAAGCGCGCTTCCCGGACCCGGCGTGCAACCCCTACCTGGCCTTCGCCGCTCTGCTGATGGCCGGTCTGGACGGTATCCAGAACAAGATCCACCCCGGTGATGCCGCCGACAAGAACCTGTATGACCTGCCGCCGGAAGAGGCGAAGGAAATCCCGCAGGTTTGCGGCAGCCTGAAGGAAGCCCTGGAGTCCCTGGACGCCGACCGCGCCTTCCTGACCAAGGGCGGTGTGTTCACCGACGAGTTCATCGATGCCTACATCGAGCTGAAGAGCGAAGAAGAAATCAAGGTGCGCACCTTCGTGCACCCGCTGGAATACGACCTGTACTACAGCGTCTGA	MSKALQLIKDNDVKWIDLRFTDTKGKQQHVTMPARDADDDFFEYGKMFDGSSIAGWKGIEASDMILMPDDSTAVLDPFTEEPTLILVCDIIEPSTMQGYERDPRGIARRAEEYLKSTGIGDTAFFGPEPEFFIFDEVKFKSDISGSMFKIFSEQASWNTDADIDGGNKGHRPGVKGGYFPVPPVDHDHEIRTAMCNALEEMGLVVEVHHHEVATAGQNEIGVKFNTLVAKADEVQTLKYCVHNVADAYGKTVTFMPKPLYGDNGSGMHVHMSISKDGKNTFAGEGYAGLSETALYFIGGIIKHGKALNGFTNPSTNSYKRLVPGFEAPVMLAYSARNRSASIRIPYVNSPKARRIEARFPDPACNPYLAFAALLMAGLDGIQNKIHPGDAADKNLYDLPPEEAKEIPQVCGSLKEALESLDADRAFLTKGGVFTDEFIDAYIELKSEEEIKVRTFVHPLEYDLYYSV	PGPT0000645_1677	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMATE_DEGRADATION|CONVERSION,PGPT0000645-glnA-K01915	NA	NA
BMS010_06557	1506	thiI	COG0301	tRNA sulfurtransferase	ATGAAACTCATCGTCAAGGTCTTTCCGGAAATCACCATCAAGAGCAGTCCGGTGCGCAAGCGTTTCATTCGCCAGTTGGCGAAGAACATTCGCACGGTGCTGCGCGACCTCGATCCCGATCTGGTGGTGAACGGTGTGTGGGACAACCTCGAGGTGGAAACCTCGGTCCGCGAGCCGAAGGCCCTGCGCGAGATGGTCGAGCGCCTGACCTGCACGCCGGGCATCGCCCACTTCCTCGAAGTGCACGAATACCCGCTGGGCGATTTCGACGACATTCTGGAGAAGTGCAAGCTGCACTTCGCCGACCAGTTGCCGGGCAAGATTTTCGCCGTGCGCTGCAAGCGCGCCGGCAAGCATCCCTTCACCTCCATGGAAGTCGAGCGCTATGTCGGCGGCTGTCTGCGCCAGCAGTGCGGTGCCGCCGGGATTTCGCTGAAGGCGCCGGAAGTGGAAGTGCGGATGGAAATCCGCGACCAGCGGCTGTTCATCATCCATAGCCAGCACGACAGTATCGGTGGCTATCCGCTGGGCTCGCTGGAGCAGACCCTGGTGCTGATGTCCGGTGGCTTCGATTCCACCGTGGCGGCCTACCAGATGATGCGCCGCGGGCTGATGACGCACTTTTGCTTCTTCAACCTGGGCGGCCGCGCCCACGAGCTGGGGGTGATGGAAGTCGCCCACTACCTCTGGGAGAAATTCGGCCGTTCGCAGCGCGTGCTGTTCATCAGCGTGCCGTTCGAAGAGGTGGTGGGCGAGATTCTCGCCAAGGTCGACAACAGCCAGATGGGCGTGGTGCTCAAGCGCATGATGCTGCGCGCCGCGACCCGCGTCGCCCAGCGCCTGCAACTGGATGCGCTGGTCACCGGCGAAGCGATTTCCCAGGTATCCAGCCAGACCCTGCCGAACCTCTCGGTGATCGATTCGGCTACCGACATGCTGGTGCTGCGTCCGCTGATCGCCAGCCACAAGCAGGACATCATCGACACCGCCATGCGCATCGGTACCGCCGAGTTCGCCATGCACATGCCGGAGTACTGCGGCGTGATTTCGGTGAACCCGACCACCCGGGCCAAGCCGGCACGCATCGTCTACGAGGAATCGCAGTTCGACATGGCGATCCTCGAGCGCGCCCTCGAGCGGGCCCGGCAGGTGACCATCGACCGGGTGATCGACGAGCTGGACGAAGATTTGCAGGTGGAAGAGGTGAGCGAAGCGCTGCCCGGCCAGATCGTGCTGGACATCCGCCACCCGGACGCCATCGACGACGAACCGCTTGACCTGGGCGGCGTCGAAGTCAGGACCATGCCGTTCTATGCGATCAACAGCCGCTTCAAGGAACTGGATGAGAACCGCCAGTACCTGCTGTATTGCGATAAAGGTGTCATGAGCCGCCTGCATGCTCACCACCTGTTACACGAAGGGCATGCCAACGTGCGTGTCTACAGGCCCTTCGGCCAGGCCCAAGCCGCAAGCGACAAGCTGCAAGGGAAGAGCGAACAGTCATGA	MKLIVKVFPEITIKSSPVRKRFIRQLAKNIRTVLRDLDPDLVVNGVWDNLEVETSVREPKALREMVERLTCTPGIAHFLEVHEYPLGDFDDILEKCKLHFADQLPGKIFAVRCKRAGKHPFTSMEVERYVGGCLRQQCGAAGISLKAPEVEVRMEIRDQRLFIIHSQHDSIGGYPLGSLEQTLVLMSGGFDSTVAAYQMMRRGLMTHFCFFNLGGRAHELGVMEVAHYLWEKFGRSQRVLFISVPFEEVVGEILAKVDNSQMGVVLKRMMLRAATRVAQRLQLDALVTGEAISQVSSQTLPNLSVIDSATDMLVLRPLIASHKQDIIDTAMRIGTAEFAMHMPEYCGVISVNPTTRAKPARIVYEESQFDMAILERALERARQVTIDRVIDELDEDLQVEEVSEALPGQIVLDIRHPDAIDDEPLDLGGVEVRTMPFYAINSRFKELDENRQYLLYCDKGVMSRLHAHHLLHEGHANVRVYRPFGQAQAASDKLQGKSEQS	PGPT0008940_274	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0008940-thiI-K03151	NA	NA
BMS010_06558	1821	typA_2	COG1217	GTP-binding protein TypA/BipA	GTGATCGAAAAACTTCGCAACATCGCCATCATCGCCCACGTCGACCATGGCAAGACCACTCTCGTCGACAAGCTGCTCAAGCTGTCCGGCACCCTTGACCGCAAGGAAGCCGAAAGCGAGCGCGTGATGGACTCCAACGACCAGGAAAAGGAACGCGGCATCACCATCCTGGCGAAGAACACCGCCATCAAGTGGAACGGCTACAACATCAACATCGTCGACACCCCCGGCCACGCCGACTTCGGTGGCGAGGTGGAGCGCGTGATGTCGATGGTCGACTCCGTACTGCTGGTGGTCGACGCCCAGGACGGCCCCATGCCGCAGACCCGTTTCGTGACCCAGAAGGCGTTCAAGGCCGGCCTGCGTCCGATCGTGGTGGTGAACAAGATCGACCGTCCCGGCGCGCGTCCGGACTGGGTCATCGACCAGATCTTCGACCTGTTCGACAACCTCGGCGCCACCGATGAGCAGCTCGACTTCCCGATCGTCTACGCCAGCGCCCTGAACGGCATCGCCGGCCTCGACCACGAGAAGATGGACGACAACATGGACGCCCTGTTCCAGGCCATCATCGACCACGTACCGGCCCCGGTGGTGGACCTCGAGGGCTCGTTCCAGATGCAGATTTCCCAGCTGGACTACAACAGCTTCCTCGGCGTGATCGGCATCGGCCGCATCACCCGCGGCCGGGTCAAGGCCAACACCCCGGTGGTCGCCGTCGATGCCAAGGGCAACAAGCGCAACGGCCGCATCCTGAAGATCATGGGCCACCATGGCCTGCAGCGCGTCGAAGTGCCGGAAGCCGAAGCGGGCGACATCGTCTGCGTCAGCGGCATGGACGAGCTGTACATCTCCGACACCCTGTGCGACCCGCAGAACGTCGAGGCGCTACCGCCGCTGACCGTCGACCAACCGACCGTGAGCATGACCTTCCAGGTCAACGACTCGCCGTTCGCCGGCAAGGAAGGCAAGTTCGTCACCAGCCGCAACATCAAGGATCGGCTGGAGAAGGAACTGCTGCACAACGTGGCTCTGCGCGTCGAGCAAGGCGACAGCCCGGAGAAGTTCAAGGTCTCCGGCCGTGGCGAACTGCACCTCTCCGTGCTGATCGAAACCATGCGCCGTGAAGGCTTCGAGCTGGCCGTGGGCCGTCCTGAAGTGGTGATCATCGAGAACGAGGCCGGCGAAAAGCAGGAGCCCTACGAGAACGTCACCATCGACATCGAGGAGCAGCACCAGGGCCCGGTGATGGAGCAGATGGGCCTGCGCAAGGGTGACATGACCAACATGATCCCCGACGGCAAGGGCCGTATCCGCCTGGAGTACATCATTCCGGCGCGCGGCCTGATCGGCTTCCGTAACGCCTTCCTGACCATGACCTCGGGCACCGGCATCCTCACCAGCACCTTCAGCCACTACGGCCCGATCAAGGCCGGCGAAGTGGCCCACCGCCAGAACGGTGTGCTGGTGTCCATGGCCACCGGTACCGCGCTGACCTACTCGCTGGAAACCCTGCAGGACCGCGGCAAGCTGTTCCTCTCCCCCGGCGACGAAATCTACGAAGGCCAGCTGGCCGGCATCCACAGCCGCGACAACGACCTGGTGATCAACCCGACCAAGGCCAAGAAGCTTGACAACATGCGTGCTTCCGGCAAGGACGAGACCATTCAGCTGACCCCGGCGCTGAAATTCACCCTGGAACAGGCTCTGGAATTCATCGACGAAGACGAGCTGGTGGAAGTGACGCCGAAGTCCATCCGCCTGCGCAAGAAACTGCTCAACGAGAACGACCGCAAGCGCTACGAGCGCAGCAAGGTCTGA	MIEKLRNIAIIAHVDHGKTTLVDKLLKLSGTLDRKEAESERVMDSNDQEKERGITILAKNTAIKWNGYNINIVDTPGHADFGGEVERVMSMVDSVLLVVDAQDGPMPQTRFVTQKAFKAGLRPIVVVNKIDRPGARPDWVIDQIFDLFDNLGATDEQLDFPIVYASALNGIAGLDHEKMDDNMDALFQAIIDHVPAPVVDLEGSFQMQISQLDYNSFLGVIGIGRITRGRVKANTPVVAVDAKGNKRNGRILKIMGHHGLQRVEVPEAEAGDIVCVSGMDELYISDTLCDPQNVEALPPLTVDQPTVSMTFQVNDSPFAGKEGKFVTSRNIKDRLEKELLHNVALRVEQGDSPEKFKVSGRGELHLSVLIETMRREGFELAVGRPEVVIIENEAGEKQEPYENVTIDIEEQHQGPVMEQMGLRKGDMTNMIPDGKGRIRLEYIIPARGLIGFRNAFLTMTSGTGILTSTFSHYGPIKAGEVAHRQNGVLVSMATGTALTYSLETLQDRGKLFLSPGDEIYEGQLAGIHSRDNDLVINPTKAKKLDNMRASGKDETIQLTPALKFTLEQALEFIDEDELVEVTPKSIRLRKKLLNENDRKRYERSKV	PGPT0023720_3156	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0023720-typA|bipA-K06207	NA	NA
BMS010_06559	1365			hypothetical protein	ATGCCTACTGCCCTGCCTACCTTTCGGCCGGCCCATGCCGGCTTCCTGCTCGCCCTCCTGGCCTGCCAGGCCAACGCCGCCGACCTGAGAGTCACCAAGTTCACCGATAGCCTCGACGGCGCCTGCGATGCCGATTGCTCCCTGCGCGAAGCCGTGCAACACGCCAATATGACCGCCGAGCCCGACCGCATCATTCTGACGTTCGGCACCTACAGCCTGAGCCTGGCGCCAGCCCGCGACGGCGCCCGCATTCTGCAAGAGGACGATAACCAGAACGGTGATCTCGATGTGATGTTCAGTGACCTCACCATTCACACCGTCGGCGCCGGCCGGATCGTCATCGATGGCCTGCGCAACGATCGCCTGTTCGACGTCCATCCAGGCACACAACTCAACCTGCGAGGCGTTATCCTGCAGAACGGCCTCACCTCCAGTTTCGGCGGCGCGCTACGCAACCGGGGAGAGACCAACCTGCGCAAGGTCGCGGTGGAAAACAGCGCGGCGATTGCCGAGATCGGTGCCGGTGGCGCCATCGCCAACTTCGGCCGGCTGAACATCACCTCTTCGCGTTTTTCCAACAACGAAACCTACGCCGATGCCGGCTCCGGCGAAGGCGGCGCGATCTACAACGCCACGCAGGGTTGGCTGGAAGTGCGCACCAGTGTCTTCGAAGGCAACATCAGCTACGACAACGTCGACACGGGACGCGGCGCCGCCATTTATAACGAAGGTCTGGCCGACATCGCCCGCAGCGCCTTCATCGGCAACAAGGGCGGCGAGTACGGCAACGGCTCCGCTATCCTCAATGCCGAGGGCGGGCTGCTCAAGTTGACCAACAGCACCCTCAGCGGTAACCGCGGCTACTACGGTACCGGCGCCTTCTCCAACGGCCAATGGGGCAGCCGCAACAACGCCAACACCGAAGCGCTGCTGATCAACGTCACCATTGCCGACAACACCGGCGGTGCTGCCCTGCTCAACCTGGGCAAGCTGACCGCACGCAACAGCATCGTCGCCGGCAACTACTTCATTCCCGACGAAGGCTCCAACCGCCCGGCCAACTGCCGCAACGGCGAAGGCGCCAGCTTTCAGGCCCGCGGCCTGATGCTCGGCAAGGATAACCAGGGCTGCGCCGCCGACCTGCCGATCGACGACAGCCTGACGTTCACCCAGATCCTCGAGCCCCTCGCTGACCCCTCCCTCGCCACTCCCCTGTATCCGTTACTGGAGAACAGCCCGGCCATCGATGCCGCCATCGGCAACTGCCCGCAAACCGACCAGCGCAGGGTCGCCCGTCCACAGGACGGCAACGGCGATGGCGTGGCGGTGTGCGACCTGGGAGCGTATGAGCTGAAGCCGCTCTGA	MPTALPTFRPAHAGFLLALLACQANAADLRVTKFTDSLDGACDADCSLREAVQHANMTAEPDRIILTFGTYSLSLAPARDGARILQEDDNQNGDLDVMFSDLTIHTVGAGRIVIDGLRNDRLFDVHPGTQLNLRGVILQNGLTSSFGGALRNRGETNLRKVAVENSAAIAEIGAGGAIANFGRLNITSSRFSNNETYADAGSGEGGAIYNATQGWLEVRTSVFEGNISYDNVDTGRGAAIYNEGLADIARSAFIGNKGGEYGNGSAILNAEGGLLKLTNSTLSGNRGYYGTGAFSNGQWGSRNNANTEALLINVTIADNTGGAALLNLGKLTARNSIVAGNYFIPDEGSNRPANCRNGEGASFQARGLMLGKDNQGCAADLPIDDSLTFTQILEPLADPSLATPLYPLLENSPAIDAAIGNCPQTDQRRVARPQDGNGDGVAVCDLGAYELKPL				NA	NA	NA	NA	NA
BMS010_06560	948	yedI	COG2354	Inner membrane protein YedI	GTGGCCGGAGCCAGCCTGTTAACCCTGATCGACGATATCGCCAGCGTTCTCGACGATGTGGCTGTGATGACCAAGGTCGCGGCGAAGAAAACCGCCGGCGTGCTGGGCGATGACCTGGCGCTGAACGCGCAACAGGTGTCGGGTGTGAATGCCGACCGCGAGCTGCCGGTGGTCTGGGCGGTGGCCAAGGGATCAATGCTGAACAAGGCGATCCTGGTGCCGGCGGCGCTGCTGATCAGTGCCTTCATTCCCTGGGCGGTGACGCCCTTGCTGATGGTCGGCGGTGCCTTCCTCTGTTTCGAGGGCTTCGAGAAGTTGGCGCACAAGCTGCTGCACAGCAAAGCGGAAGACAGCAGCGAACATGCGCAACGGGCGGAAGCCATCGCCAATCCCGCGGTGGACATGGTGGCGTTCGAACGGGACAAGGTGAAGGGTGCGATCCGCACCGATTTCGTGCTGTCGGCGGAGATCATCGCCATCACCCTGGGGACTGTCGCCACGGCGACGTTCGCCTCGCAGGTGGCGGTACTTTGCGGCATCGCGGTGATCATGACGGTGGGGGTCTACGGCCTGGTGGCCGGCATCGTCAAGCTGGACGACGGCGGGCTTTACCTCAGCCGTCTGGGCAGCCCGCTGGCGCGCAGCCTCGGACGCGGTGTCCTGCGCACCGCGCCGTTCCTGATGAAGGGGCTGTCGATCGTGGGGACCGCGGCGATGTTCATGGTGGGCGGTGGCATTCTCACCCACGGCATCCCGCTGGCGAACCAGGCGATCCATGACCTTGCCCACTCCGCCGGCGGCGTGGCGGGGATCGGTGGCCTGCTGGAGGCGCTGGCGCCGACGCTGCTGAACCTGCTGTTCGGCATCCTGGCCGGTGCCGTGGTGCTGGCGGTGGTCGGGCCGTTGCAGCGGCTATATCGGAAGCTGGCTCACCAGCAGCCTGGCTAG	MAGASLLTLIDDIASVLDDVAVMTKVAAKKTAGVLGDDLALNAQQVSGVNADRELPVVWAVAKGSMLNKAILVPAALLISAFIPWAVTPLLMVGGAFLCFEGFEKLAHKLLHSKAEDSSEHAQRAEAIANPAVDMVAFERDKVKGAIRTDFVLSAEIIAITLGTVATATFASQVAVLCGIAVIMTVGVYGLVAGIVKLDDGGLYLSRLGSPLARSLGRGVLRTAPFLMKGLSIVGTAAMFMVGGGILTHGIPLANQAIHDLAHSAGGVAGIGGLLEALAPTLLNLLFGILAGAVVLAVVGPLQRLYRKLAHQQPG				NA	NA	NA	NA	NA
BMS010_06561	753	fliY_3	COG0834	L-cystine-binding protein FliY	ATGCGCCACCTTGTACCTTGCCTGCTTTTGCTCCTCTCTCTGTACGCCACGGCCGAGGAGACACCGCTGGTGGGCAATGCCTACTCGCCGCCAAAGATCTACAGCGAGAAGGGGCAGACCCTGGGCATCCTCGCGGATATCGTGCGCTATGCCGACGAGGTACTGGAAGACGAGCGCTTCGACCTCCAGCTCTACCCCTGGGCACGGGCCTACAACATGGCCGAGCACGCGCGGGCGGGCATCATCGGCCTGTCGATGACCGAGGAACGGCTGGGCATCTTCGATTACTCCGAGCCGGTGTTCTATGACGAGGTCATCGTGGTGGTGCGCCGGGGCCAGGCCTTTCCGTTCGAGCACATCGAGGACTTGCGCGGACGCCGGGTCGGCATCGGCCTGGGAGGCTCGTTCGGCGAAGCCTTCGAACGGGCGAAACGGGAAGGCAGCCTGGTGGTGGTGGAGGACAACGGCCCGACGATGCGCCTGAGAAAGCTACTCGCCGGGCGCATCGACGCGGCCCTGATCAACCCCGGCCGCGCCGGCCTGCTTCGTGCTCTGCAACAGGACGCCGAACTGGCGTCACGGGCCGATGAGTTCGAGGTGCTGCCCGTTCCCCTGCTGCGCGACCCCAACTACCTCGCCTTTCACAAGAGCCTGCACCGTGGCGCGACATTGCGCGCCTTCAACGAAGTCATCCGCCGCGGTTACGAGAACGGCGACATTCAGCGCATCATCGAGCGCTATACGGATCGCTAG	MRHLVPCLLLLLSLYATAEETPLVGNAYSPPKIYSEKGQTLGILADIVRYADEVLEDERFDLQLYPWARAYNMAEHARAGIIGLSMTEERLGIFDYSEPVFYDEVIVVVRRGQAFPFEHIEDLRGRRVGIGLGGSFGEAFERAKREGSLVVVEDNGPTMRLRKLLAGRIDAALINPGRAGLLRALQQDAELASRADEFEVLPVPLLRDPNYLAFHKSLHRGATLRAFNEVIRRGYENGDIQRIIERYTDR	PGPT0020800_14380	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_06562	1056			hypothetical protein	ATGAGGAAGCGGTCGTTGCTGATCGCCGCCCTGCCGGTGATTGCCCTGCTCTGTGGGGCGCTGGTCTGGGCCGCATTGCGCGGCGCGCCGGAACCACCCTGGGTCGCGGAGCTGCAAGGGAACATCCTCCGGCTGGACCAACGCACACCCGGTGATCTCGGCGTGTACATCAAGCACCTGGGCGACGGCGGCGAACTCGACTACCAGGCCGGACGCTACTGGTACCTGGCCTCGGCGGTGAAGGTGCCGGTGGCCATCGCCACCCTGCAACGCGTCGACGAAGGCGTATGGCCGCTCGACCAGCGGCTCGCCCTGCGCAACGAGGACAAGGTGGACGGCTCCGGTGGCCTGGCCTGGCAGGACTCCGGCAGCGAATACGATCTGAAGACCCTGCTGGAAGAAATGCTGCAGCGCAGCGACAGCACCGCCGCCGACATGCTGATCAACCGTATCGGCGAAGACGAACTGAACCGGCGAATCGCGTCGAGCATGGCCGACCAGGGCTTCGGCCGCATCACCTCGTTGCTGCGGGTGCGCCACGAGCTGTACCGCGAGCTGCATCCCGACGCGGCGAACCTGAGCAACCGCGACGTCATTCAGTTGGCATCGGCCCCGCTGGGCCGGGAGCGTGTGCGAGCCCTGGCCAGGACACTCGACGTCGATCCCTCCGAGCTGCGCGCGGACAACCTGAAGCAGGCCTACCAGCGCTACTACGCGCGCCGTCTCAACGCCGCTACCCTGCGCGCCTACGGCGGCATGTTGGAAAAGCTGGCGCGCGGGCGATTGCTGTCCCGGGCGAACACCGACCTCCTGCTCGACCTGATGGGGCTCGACGAGTACCACGCCTACCGCCTCGAAGCCGGGCTCGGCAAGGACGTCCCGTTCGCCCAGAAGACCGGGACCCAGTTCGAACGGGCCTGCCACATGGGCATCATCGACCCGAAGGGCGAACAGGCCATCGTGATCGCCGCCTGCGTCGAAGGCGCCGGGCAGGAACAGGCCGCGCAGACGCTCGAAATGCTCGGCAGCCTGGTCTCCGATACGTTGCTCCGTTGA	MRKRSLLIAALPVIALLCGALVWAALRGAPEPPWVAELQGNILRLDQRTPGDLGVYIKHLGDGGELDYQAGRYWYLASAVKVPVAIATLQRVDEGVWPLDQRLALRNEDKVDGSGGLAWQDSGSEYDLKTLLEEMLQRSDSTAADMLINRIGEDELNRRIASSMADQGFGRITSLLRVRHELYRELHPDAANLSNRDVIQLASAPLGRERVRALARTLDVDPSELRADNLKQAYQRYYARRLNAATLRAYGGMLEKLARGRLLSRANTDLLLDLMGLDEYHAYRLEAGLGKDVPFAQKTGTQFERACHMGIIDPKGEQAIVIAACVEGAGQEQAAQTLEMLGSLVSDTLLR	PGPT0028070_407	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028070-penP-K17836	NA	NA
BMS010_06563	1107			hypothetical protein	ATGCCTCGATCACGGTTGCCGACTTCCGCGCGCTTCCTCCCGCTTCCGGGGCTCCTCCTGCTCTGCGCGCTGGCCACTGCGGCGACCCCGCAAGACGCGGGCCTCGGCTGGCCCGAGCGGTTGCTTGAGGAGTTGAGCCGGATCGACACCGACTACCCCGGCGAAATCGGCGTCTTCGCCAAGGACCTGGATAGCGGCCTGTCGATCTCCTTTCGTGGCGAGGAAACCTGGTACCTGGCTTCCGGAATCAAGGTGCCGGTGGCCATCGCCGTCCTGCGTGGCGTGGAGCGCGGCGAGTTCACGCTCGACGATCGCCTGCGCCTGGAGGCCTACGACTATGTCGATGGCGCCGGCGAGACCAATCGCCATCCGCCGGGCGCACGGCTCAGCGTGCGCTTCCTCCTCGAACAGATGGTGATCCACAGCGACAACAGCGCCTCCGACCGCCTGATCCGGCTGGTCGGCATCGAGGCGGTCAACCGGGTCGTCGAGGAGCTGGCGCCAGGTGGTTTCCAGCCGATCACCCCGCTGGCCGACGTCCGCCGGCATGCCTACAGCCAGTTGCACCCGGCCGCGTTCCGCCTGAGCGGCCGGGATTTCCTGCAATTGAAGCAACAACGCAGCGACGCGGCCCGGCGCGCCACCCTCGCCCGACTGCTCGGCGTCGCCCCCACCGAGTTGCGCCCCCTCAGCCTGGGAGAAGCCTTCGAAGCCTACTACGCCACCCAGCTCAACTCCGCCCGGCTCAGCGCCTACGGCGAGCTGCTGGAAGCCCTGGCCAACGGCAAGGCCCTGGGAGCCGAGGGCAGCGCCCACCTAATGGGGTTGATGGAGCGCGTCGCCACCGGACGCAAGCGGATCAAGGCCGGCCTGCCGACCGTTGCGGCGTTCCTCCACAAGACCGGCACCCAGCGTGCCCGCTTCTGCGACCTCGGCATCGTCCGTACCGCCGGGACGGACGGCGACAAGCGCCTGATCGTCGCCGCCTGCACCCGTGGCGATTCGTCGCTGGCTCGCTCGGAAACCGCGCTGCGCCTGGTGGGACAGGCCGTCTGGCAATCCGGTGCACTGCTTCCGGCGCCGGAAGAACTGGAGGTGCGGCGATGA	MPRSRLPTSARFLPLPGLLLLCALATAATPQDAGLGWPERLLEELSRIDTDYPGEIGVFAKDLDSGLSISFRGEETWYLASGIKVPVAIAVLRGVERGEFTLDDRLRLEAYDYVDGAGETNRHPPGARLSVRFLLEQMVIHSDNSASDRLIRLVGIEAVNRVVEELAPGGFQPITPLADVRRHAYSQLHPAAFRLSGRDFLQLKQQRSDAARRATLARLLGVAPTELRPLSLGEAFEAYYATQLNSARLSAYGELLEALANGKALGAEGSAHLMGLMERVATGRKRIKAGLPTVAAFLHKTGTQRARFCDLGIVRTAGTDGDKRLIVAACTRGDSSLARSETALRLVGQAVWQSGALLPAPEELEVRR	PGPT0028070_336	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028070-penP-K17836	NA	NA
BMS010_06564	426			hypothetical protein	ATGCGCCCCTTCGCAGACCCGAGCATGAAAAAGCCCGTCATCGCCGCCGCCGACATCGACCGCCTGGAAACCTGGGTGAAATACAAGGACAGCCTGTGCCGCGACTGCATGGCGAGCTGTTGCACCCTGCCGGTGGAAGTGCGCATCGGCGACCTGATCCGCATCGGCCTGGTCGACGAATTCGAGCGCGGCGAACCGGCCAAGCAGATCGCCAAGCGATTGATGAAGGACGGCATCGTCGAACACTTCAACCACAAGCAGGAAGTGTTCACCCTCACCCGCCTGGCGAACGGCGACTGCCTCTACCTGGACCGGAAGACGCGGCTCTGCACCATCTACGCAAAGCGCCCGGATACCTGCCGCAACCATCCCAGAATAGGCCCGCGTCCGGGCTATTGCGCGTATCGGCCGAAAAACCAGGGCTGA	MRPFADPSMKKPVIAAADIDRLETWVKYKDSLCRDCMASCCTLPVEVRIGDLIRIGLVDEFERGEPAKQIAKRLMKDGIVEHFNHKQEVFTLTRLANGDCLYLDRKTRLCTIYAKRPDTCRNHPRIGPRPGYCAYRPKNQG				NA	NA	NA	NA	NA
BMS010_06565	2451	malP_2	COG0058	Maltodextrin phosphorylase	ATGCCCAAGGAGCCTCTCGTTTCCGCCGATGAAGTCGCCGCTTTCCGTGCCAATGTCCTTTCCAAACTGACTTACTCGGTGGGTAAGGACCCCGAGCATGCCTTCGATCACGACTGGTTCGAGGCCATCGCCCTGGCCACCCGCGATCACATGGTCGATCACTGGATGGACCACACCCGGCAGATTTATCGCAAGGGACAGAAACGGGTCTATTACCTCTCCCTGGAGTTCCTCATTGGCCGCTTGCTGCTGGATAACCTGAGCAACCTCGGCCTGCTCGAAGTGGCGCGCCAGGCGCTGAGCGAGCTGGATGTCGATATCGAGCGCATCCGTACTCTCGAGCCGGACGCCGCGCTCGGCAACGGAGGGCTCGGCCGGCTCGCCGCTTGCTTCATGGAAAGCATGGCCACTCTCGGCGTGGCCGCCCACGGCTACGGCATCCGCTACGAGCACGGTCTGTTCCGCCAGGCGATCATCGACGGCTGGCAGCACGAGCAGACCGAAACCTGGTTGGATTTCGGCAACCCCTGGGAGTTCGAGCGCCCCGAAGTGAGCTACCTGATCGGTTTCGGGGGTAGCGTGGTGCCGGTGGTGGACGAGAACGGCACCTTGCGCCAGGTCTGGCACCCGGCCGAAGCGGTCCGCTCGATCGCCTACGACACACCCATCGTCGGCTGGCGCGGCGCCAGCGTGAACACCCTGCGTCTGTGGCGGGCCCGCGCCGAGAGCGAACTGCACCTGGAGCGCTTCAATGCCGGCGACCATATCGGCGCGGTGGTGGAGGAGGCACGGGCGGAAAGCATCTCGCGGGTGCTCTACCCTGCGGACAGTACCGAGGCCGGCCAGGAGCTGCGCCTGCGCCAGGAATACTTCTTCGTCTCCGCCTCGCTGCAGGACTTGCTGCGCCGTCATCTCAAACAGCGCGGCACCTTCCTCAACCTGCCCGAGTACGCCGCCATCCAGCTCAACGACACCCACCCGGCCATCGCCGTGGCGGAGCTGATGCGCCTGCTGGTGGACGAACACCTGCTGCCCTGGGAACAGGCCTGGGAGCTGACCGTCGGCACGCTCTCCTACACCAACCACACCCTGCTGCCGGAGGCCCTGGAAACCTGGCCGGTGAGCCTGATGGAGCGGCTGTTGCCGCGGCACATGCAGATCATCTACCTGATCAACGCCTACCACATCGACCAGTTGCGCGAGCAGGGGCTGCACGATTTCGACCTGCTGCGCGCCGTCTCGCTGATCGAGGAAGAACATGGCCGGCGGGTGCGCATGGGCAACCTGGCGTTCCTCGGCTCGCACAGCGTCAATGGCGTATCGGCCCTGCATACCGATCTGATGCGCAGCACGGTGTTCGCCGAGCTGCATCGCCTCTACCCGCAGCGGATCAATAACAAGACCAATGGCATCACCTTCCGCCGCTGGCTGTACCAGGCCAACCCCGGGTTGACCGAGCTGCTGGTGGAGTCGGTGGGAGAGCAGTTGCTGGACGATCCGGAAAATCTCCTGCCGAACCTGGAGCCGTTCGCCGACAAACCGGCCTTCCGCAAGCGCTTCGCCGAGCAGCGCCGGCGCAACAAGGAGGCCCTGGCCAACCTGGTGTACGAGCGCCAAGGCATCGTTCTCGATCCCGGTGCGCTGTTCGACGTGCAGGTCAAACGCATCCACGAATACAAGCGGCAACTGCTCAACCTGTTGCACACCGTGGCGCTGTACCAGGCCATCCGCGACGAGCCGAGCATGCCCTGGGTGCCGCGGGTGAAGATTTTCGCCGGCAAGGCGGCGGCCAGCTATCACCAGGCCAAGCTGATCATCAAGCTGGCCAACGACATCGCCCGCGTGGTCAACGGCGACCCGACCGTGCGCGGCATGCTCAAGGTGGTATTCCTGCCCAATTACAACGTCAGTCTGGCGGAGAGCATCATCCCGGCGGCGGACCTGTCCGAGCAGATTTCCACCGCCGGCATGGAGGCCTCGGGCACCAGCAACATGAAGTTCGCCCTCAATGGCGCCCTGACCATCGGCACCCTGGACGGCGCCAATGTGGAGATGTGCGAGCGGATCGGCCAGGAACACATGTTCATCTTCGGCCTGCGCGCCCAGGAGGTGGAGGCGCGCAAACGGGCCGGCGAGTTCAACGCCGAGGCCATCGTCGCCGCCTCACCGCGGTTGCACGAGGTGCTGATGGCGATCCGCAGCGGGGTGTTCTCGCCGGACGATCCGGGGCGCTACGTTGGGCTGGTCGATGGCCTGACCTGGCACGACACCTTTATGGTCTGCGCCGATTTCGATGCCTACTGGGAGGCCCAGCGCCAAGTCGAGCTGTGCTGGAACGACCCGAAGCAGTGGTGGCGTTCGTCGGTGCTGAATACCGCGCGGGTCGGCTGGTTCTCCTCTGACCGCACCATCCGCGAATACGCTGGCGAGATCTGGCGGGCTCTAGACTGA	MPKEPLVSADEVAAFRANVLSKLTYSVGKDPEHAFDHDWFEAIALATRDHMVDHWMDHTRQIYRKGQKRVYYLSLEFLIGRLLLDNLSNLGLLEVARQALSELDVDIERIRTLEPDAALGNGGLGRLAACFMESMATLGVAAHGYGIRYEHGLFRQAIIDGWQHEQTETWLDFGNPWEFERPEVSYLIGFGGSVVPVVDENGTLRQVWHPAEAVRSIAYDTPIVGWRGASVNTLRLWRARAESELHLERFNAGDHIGAVVEEARAESISRVLYPADSTEAGQELRLRQEYFFVSASLQDLLRRHLKQRGTFLNLPEYAAIQLNDTHPAIAVAELMRLLVDEHLLPWEQAWELTVGTLSYTNHTLLPEALETWPVSLMERLLPRHMQIIYLINAYHIDQLREQGLHDFDLLRAVSLIEEEHGRRVRMGNLAFLGSHSVNGVSALHTDLMRSTVFAELHRLYPQRINNKTNGITFRRWLYQANPGLTELLVESVGEQLLDDPENLLPNLEPFADKPAFRKRFAEQRRRNKEALANLVYERQGIVLDPGALFDVQVKRIHEYKRQLLNLLHTVALYQAIRDEPSMPWVPRVKIFAGKAAASYHQAKLIIKLANDIARVVNGDPTVRGMLKVVFLPNYNVSLAESIIPAADLSEQISTAGMEASGTSNMKFALNGALTIGTLDGANVEMCERIGQEHMFIFGLRAQEVEARKRAGEFNAEAIVAASPRLHEVLMAIRSGVFSPDDPGRYVGLVDGLTWHDTFMVCADFDAYWEAQRQVELCWNDPKQWWRSSVLNTARVGWFSSDRTIREYAGEIWRALD	PGPT0018545_3060	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENVIROMENTAL_SURRIVAL	CE-BACTERIAL_FITNESS-ENVIRONMENTAL_SURRIVAL-GLYCOGEN_BIOSYNTHESIS,PGPT0018545-glgP-K00688	NA	NA
BMS010_06566	1431	clsA_1	COG1502	Major cardiolipin synthase ClsA	ATGGAGTTACACCTGCTGGGGTACCTGCTCGCCGGCGTCCAGGCGCTCGGCGTGCTGGCGGCGATTCATGCGGTGCTGACCGTGCGTACCGCCCAGGGTGCCATCGCCTGGGCCATTTCCCTGGTGTTCATGCCTTACCTGACCCTGCTACCGTACCTGGTGTTCGGCCGCAACCGCTTCGACGCCTACATCCGCGCGCGGCGCGAGGCCGATCACGAGATGCGCCGGGCCATGGTCGATGTGGACTGGCGACCCTGGGTGGAAGAGGCTCAGGCCGCTCGCGAGAGCGAGGCCTACCGGGGCCTGCGGGTCCTGGCGAAGCTGGCGCGCCAGCCGACCCTGGCGAACAATTGGGTGCGCCTGCTGATCGATGGTGACGCCACCTTCGAGGCGATCCTTGGGGCTATCGCCGAAGCGCGGCAGGTGGTGCTGGTGCAGTTCTTCATCGTCCGTGACGATCCGCTCGGGCGGCGTCTGCAGGCGGCGCTGTTGGAGCGGGCAGCCGCCGGCGTGCGGGTGTTCGTGCTGTTCGACAGCATCGGCAGCCATGCGCTGCCCCGCGGCTACGTGCAGCGGTTGCGCGACGGCGGTGTGCAGGTGCACGGCTTTTCCGCCCGCGGCGGGATGATCAATCGTTTCCAGCTCAACTTCCGCAACCACCGCAAGATCGTCGTGGTGGACGGCCTGCGCGGGTTCGTTGGCGGGCTCAACGTCGGCGAGGAATACCTCGGCCTCAAGCCGCCGCTGGCGCCCTGGCGTGACACCCACCTGGAAATTCGCGGGCCGGCCCTGGCCTGCCTGCAAGAGTCATTCGCCGAGGACTGGTTCTGGGTGACCCGGCGCTTGCCGCCGCTGCTGTTGCCGGATGCCTACGAGAGCGGCGGAGTGATCTGCCAGGTGGTCACCAGCGGCCCGGCGGATGCCCAGGAAACCGGCTCGCTGCTGTTCGTCGCGGCGATTCATGCGGCGCGCCAGCGGGTGTGGATCACCAGCCCCTACTTCGTGCCCGACGAGGCAGTGTTCGCCGCCCTGCGCCTGGCCGTGATGCGCGGCGTGGAGGTGCGCATCCTGCTGCCGTCGCGGGCGGACCACCGGGTGGTCTACGCGGCGTCCAGCCTATACGCCTACGAGGCGGCCAAGGCCGGTATCCGGGTGTACCGCTACCTGCCGGGCTTCCTGCACCAGAAGGTGATGCTGATCGACGACCGCGCCGCAGCGGTGGGCAGTGCCAACCTGGACAACCGCTCCTTCCGGTTGAACTTCGAGGTGACGGTATTCACCGTCGACACCGCCTTCGCCGGCGAGGTGGAGCGCATGCTGCTCGACGATTTCGCCCAGGCGCGTGAGCTGGGCGTGGAAGACCGCCACCGCCTGCGTCATTTGCAGCAGCTCGGCATGCGGGTGGCGCGGCTGATTTCGCCGATTCTCTGA	MELHLLGYLLAGVQALGVLAAIHAVLTVRTAQGAIAWAISLVFMPYLTLLPYLVFGRNRFDAYIRARREADHEMRRAMVDVDWRPWVEEAQAARESEAYRGLRVLAKLARQPTLANNWVRLLIDGDATFEAILGAIAEARQVVLVQFFIVRDDPLGRRLQAALLERAAAGVRVFVLFDSIGSHALPRGYVQRLRDGGVQVHGFSARGGMINRFQLNFRNHRKIVVVDGLRGFVGGLNVGEEYLGLKPPLAPWRDTHLEIRGPALACLQESFAEDWFWVTRRLPPLLLPDAYESGGVICQVVTSGPADAQETGSLLFVAAIHAARQRVWITSPYFVPDEAVFAALRLAVMRGVEVRILLPSRADHRVVYAASSLYAYEAAKAGIRVYRYLPGFLHQKVMLIDDRAAAVGSANLDNRSFRLNFEVTVFTVDTAFAGEVERMLLDDFAQARELGVEDRHRLRHLQQLGMRVARLISPIL	PGPT0007725_2579	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_SENSING_RELATED_GENES	CE-QSR-CARDIOLIPIN_SYNTHESIS,PGPT0007725-clsA_B|ybhO|ywiE-K06131	NA	NA
BMS010_06567	519			hypothetical protein	ATGATCAGGAAAGGCACACCGGATGACCTGGAAGCGGTGCTGACGATATGGCTGGAAGCCTCCCTGCATGCCCATGACTTCATCGAGCCGGCCTTCTGGCAGAGCAAACTGGAGGATATGCGCAATCATTACCTGCCCAGTGCCGATGTCTGGGTCTTCGAGGAAGACGGAGTAATCCTCGGTTTCTTCGCCTTGCAGGCCCATGTGCTGGCGGCGCTGTTCGTTTCTCCTTCGCAGCATGGCCGCGGTATCGGCTCCAGGCTGCTGGAGAAAGCCAAGTCCCTGGCCGACGGGCTGGAGTTGTCGGTCTATCAACGCAACAACCACGCCGTGGCCTTTTACCAGCGCCATGGCTTCCGGCAGATCGATTTGCGTACCGACGCGCGCGCCGGGCATGTCGAACTGGTCATGAAGCAGATCGATGAGATGGCGCCGGTCGAGCGCCAGATCGCGGATCAGGGCGACGTCGCCTTGCTGATCGGCTCCCCGGTACCGATGGCCTCGTCGCCGGAAAGCTGA	MIRKGTPDDLEAVLTIWLEASLHAHDFIEPAFWQSKLEDMRNHYLPSADVWVFEEDGVILGFFALQAHVLAALFVSPSQHGRGIGSRLLEKAKSLADGLELSVYQRNNHAVAFYQRHGFRQIDLRTDARAGHVELVMKQIDEMAPVERQIADQGDVALLIGSPVPMASSPES				NA	NA	NA	NA	NA
BMS010_06568	459			hypothetical protein	ATGAAGAATTTCTCGTCGATGCTTTTGCTGTCCCTGGGCCTGGCCAGCGGCGCCGCCTTCGGTGGCGATACCCAGGCCGCCGTGGGCGGTGCGCTGGGCGGGGCGTTGGGTTCTGTGGTCGGCCAGCAGGTCGGCGGCGATACCGGCGCGGCCATCGGGGCCGGCCTGGGTGGCGCAGCCGGCGGCGCGGTGAGCGCCAACCGCGGCAGCAAGACCGAAGCGGCGATCGGCGGCGGCCTGGGTGCGGCCGGTGGCAACGTGATCGGCCAGAAAGTCGGTGGCACCACCGGCGGCGTGATTGGCGCAGCCGTGGGTGGCGGCGCCGGTAGTGCGCTGGGCAACCATTACGGTGACGGAGGTAGCGAAGGCGGCCGCCACTACTATGTCCGTGACCATGACGACGACCACCGCTACGGCCGCAAGCACAAGAAACACTGGAAGAAGCACCGCCACCACTGA	MKNFSSMLLLSLGLASGAAFGGDTQAAVGGALGGALGSVVGQQVGGDTGAAIGAGLGGAAGGAVSANRGSKTEAAIGGGLGAAGGNVIGQKVGGTTGGVIGAAVGGGAGSALGNHYGDGGSEGGRHYYVRDHDDDHRYGRKHKKHWKKHRHH				NA	NA	NA	NA	NA
BMS010_06570	828	fdhD_2	COG1526	Sulfur carrier protein FdhD	ATGAATGCCCAGCGTCCCGTCCGCCCGCCGCTGGCTGCGGCTGGCGAACAACCGGCCCACGCCAGTCGCGCCTACCGTTACCAGCCTCTCGACGCCAGCGGCGACATGCCGGTGGAGCTGGCCGAGGAGGTCGCGCTGGCCATCGCCTGCAACGGCATCAGCCAGGCGGTGATGCTGGTCTCCCCCACCGATCTGGAAGATTTCGTCGTCGGCTTCTGCCTCGGCAACGGTATGGTCGACACCATCGACGATATTTATGACCTCCACCTGAGCGGCCTCGGCGAAGCCCGCCAAGCCCAGGTGCGGATCGCCAATCGCGCCTTCTGGCGTCTCAAGCAGCAGCGCCGCGCCCTGGCCGGCACCAGCGGCTGCGGGCTCTGCGGCGTCGAAGCGCTGGACCAGGCGCTGCCCAGCCTGCCCAGCCTGCCGCTGGCCCCCTTGCCCCCGGCCGAATGGCTCGAGGGCCTGCGTTCGCGCATCGAGGCCTTCCAACCTCTCGGTCAGCATTGCGGCGCAGTGCATGCCGCGCTGTTCATGGACGATCATGGCGAAATCCGCCTCGGCCGCGAAGACATCGGCCGCCACAATGCCCTGGACAAGCTGATCGGCGCCCTGGCCCGGCAAGGCATCGCCACGGCCGGCGGGCTGGCCATCGTCACCAGCCGCTGCAGCCTGGAGCTGATCCACAAGGTACTGCGCGCCGGCATCCAGACCCTGGTCAGCCTCTCCGCCCCCACCGGCCTCTCCGTGCAGTGGGCGCAGCGGCACAACCTGAACCTGATCCACCTGCCCCACCACAGCGCACCACGGGTCTACAGCCCGGCGTAA	MNAQRPVRPPLAAAGEQPAHASRAYRYQPLDASGDMPVELAEEVALAIACNGISQAVMLVSPTDLEDFVVGFCLGNGMVDTIDDIYDLHLSGLGEARQAQVRIANRAFWRLKQQRRALAGTSGCGLCGVEALDQALPSLPSLPLAPLPPAEWLEGLRSRIEAFQPLGQHCGAVHAALFMDDHGEIRLGREDIGRHNALDKLIGALARQGIATAGGLAIVTSRCSLELIHKVLRAGIQTLVSLSAPTGLSVQWAQRHNLNLIHLPHHSAPRVYSPA	PGPT0019920_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_PHENYLACETATE_DEGRADATION,PGPT0019920-padA-K18360	NA	NA
BMS010_06571	207			hypothetical protein	ATGACCAGAGGTCTAGGCGGCTCGTCCCCGGCGAACGTATCCCAATACCTGAAAGGCGTCGGCTTCCCCGCGACCAAGCAGCGTCTGCTGGAACAGGCCGAGCGCAACGGTGCACAGGACGAAGTGCTGAACGTGTTGCGCAAGATGCCGGAGGCGCAGTACGAAGACATGGCGGGCGTCATGAAGGGCTTCGGCCAGGTGGAGTGA	MTRGLGGSSPANVSQYLKGVGFPATKQRLLEQAERNGAQDEVLNVLRKMPEAQYEDMAGVMKGFGQVE				NA	NA	NA	NA	NA
BMS010_06572	900	hdfR_3		HTH-type transcriptional regulator HdfR	ATGGACATCAAACAGCTCAAGTTCCTGATCGCCCTGGACGAGACCCGGCATTTCGGCCAGGCCGCGGAGCGCTGCCACATCACCCAGCCGACCCTGTCCATGCGCCTGCGCAACCTGGAAGAGGAACTGGGTGTGCCGCTGGTCCGCCGCGGCCAGCGCTTCGAAGGCTTCACCGAGCCGGGCGAGCGGGTGCTGGCCTGGGCACGCAGCGTGATGGCCGCCTATGACGGCTTGCAGGCCGAGGCGGCAGCCTGCCGGGGCAATCTGGTCGGCACCCTGCGCCTGGGCGTGGTACCGCTGTCCAGCTTCGATCCTCTGCCACTGCTGCAACGCCTGCACCAGCGCCATCCGAACCTGCACTTCGTGCTGTCGGCGCTGACGTCGGAACAGGTTCTCGAACAACTGGCGAGCAACCGCATCGACCTCGGCGTGTCCTACCTGGACCACCTCGACGCCGAGGCCTTCGACTGCCTGCCGCTGATGGATACCGAAATGGGGCTGCTCTACGACCAGCGCCACTTCCGTTTCGACGACCTGCCGCTGAGCTGGGAAACCCTGGTGACGCTGCCGCTCGGGCTGCTGTCCAGCGGCATGCATTTCCGCCAGTCCATCGACCATGCCTTCCGCTCGCGCAGCCTGAAACCCAATCCGCTGCTGGAAACCGATGCCGTGCACCAGTTGCTGCAAGCGGTTCACAGCGGTTTCTGCTGCGCCATCATGCCGCTCGGCGACGGCTTGTCCGGGCTCACCGAACATTTGCGCCTGCAACCCATCGAAAATGCCCACACCCTGGCGCCGCTGGGTTTGATCATGCGCCGCGGCGCCCCTCGCTCGGCGCTGGCGGAGGCCTGCTTCGACCTGTGCCGTGAACGGCTCGGCGAGGGCACCGCGGAAGGCTGA	MDIKQLKFLIALDETRHFGQAAERCHITQPTLSMRLRNLEEELGVPLVRRGQRFEGFTEPGERVLAWARSVMAAYDGLQAEAAACRGNLVGTLRLGVVPLSSFDPLPLLQRLHQRHPNLHFVLSALTSEQVLEQLASNRIDLGVSYLDHLDAEAFDCLPLMDTEMGLLYDQRHFRFDDLPLSWETLVTLPLGLLSSGMHFRQSIDHAFRSRSLKPNPLLETDAVHQLLQAVHSGFCCAIMPLGDGLSGLTEHLRLQPIENAHTLAPLGLIMRRGAPRSALAEACFDLCRERLGEGTAEG				NA	NA	NA	NA	NA
BMS010_06573	672	yrfG	COG1011	GMP/IMP nucleotidase YrfG	ATGAACCCATTAAACTGGCGCGCCATCGACACCGTCCTGCTCGACATGGACGGCACCCTGCTCGACCTGCATTTCGACAATCATTTCTGGCTGGAACACCTGCCACAGCGCTACGCCGAGCACCACGGCATCAGCCGGGCCATGGCCGAGCTGGAGCTGATGCCGCTGTTCGAGGCGCATGCCGGCAAGCTGACCTGGTACTGCCTGGACTTCTGGAGCACCGAACTGAAGCTGTCGGTGCGCGATCTCAAGCGCGAAGTGGCGCACCTGATCGCCCTGCGTCCGGATGCCGACCGCTTCCTCGCCGCCCTGCGCAAGGCCGGCAAGCGCGTGGTGCTAATCACCAATGCGCATCGCGATTCGCTGTCGCTGAAGCTGGAAAAGGTCGAGCTGGCTCCCTGGTTCGATCGTCTGATCAGCTCCCACGACTACGGCTTTCCCAAGGAGGACCAGCAATTCTGGTTCGCCTTGCAGCAGGATTTCCCGTTCGACCCCGCGCGCAGCCTGTTCATCGACGACAGCCTGCCGATCCTGCGCAGCGCCCGGCGCTTCGGTGTCGCCCACCTGCTCGCGGTGCGCCAGCCGGACAGCCGTAAAGGCCCCAAGGACACCGAGGAATTCGCCGCCGTCGAGGACTACCGCACGCTGGTTGAGGAACTGGAACGCCCGTAA	MNPLNWRAIDTVLLDMDGTLLDLHFDNHFWLEHLPQRYAEHHGISRAMAELELMPLFEAHAGKLTWYCLDFWSTELKLSVRDLKREVAHLIALRPDADRFLAALRKAGKRVVLITNAHRDSLSLKLEKVELAPWFDRLISSHDYGFPKEDQQFWFALQQDFPFDPARSLFIDDSLPILRSARRFGVAHLLAVRQPDSRKGPKDTEEFAAVEDYRTLVEELERP	PGPT0013415_7	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013415-yrfG-K20881	NA	NA
BMS010_06574	567	nudE	COG0494	ADP compounds hydrolase NudE	ATGCGACAGAAACCCACCGTCCTCGCTCGCGAGATCGTCGCGAGCAGCCGCCTGTTCCGTGTCGAAGAGCTTCAGTTGCGTTTCGCCAACGGCGTCGAACGTACTTACGAGCGGCTGGTGGGCAAGGGCGTGGGCTATGGCGCGGTGATGATCGTGGCGCTGGCCGACGCCGAGCATGTGCTGCTGGTGGAGGAATACTGCGCCGGCACCGACGATTACCAGTTGTCGTTGCCCAAGGGGCTGATCGAGCCGGGCGAGGACGTGCTGGCGGCGGCCAACCGCGAATTGAAGGAAGAGGCCGGTTTCGGCGCGCGGCAACTGGAACATCTCACCGAACTGTCCCTGTCCCCCGGCTACATGAGCCAGAAGATCCAGGTCGTGCTGGCCCGCGATCTCTACCCGGAAACCCTGCCCGGCGACGAGCCGGAGCCGCTGCGACTGGACAAGGTCAGCCTGCGCGAACTGTCGAGCCTGGTGCAGCATCCGCAGTTCAGCGAAGGCCGCGCCCTGGCCGCGCTCTATCTGGCGCGCGACCTGCTGACCCAGCGCGGGGAGCTGCAGCTATGA	MRQKPTVLAREIVASSRLFRVEELQLRFANGVERTYERLVGKGVGYGAVMIVALADAEHVLLVEEYCAGTDDYQLSLPKGLIEPGEDVLAAANRELKEEAGFGARQLEHLTELSLSPGYMSQKIQVVLARDLYPETLPGDEPEPLRLDKVSLRELSSLVQHPQFSEGRALAALYLARDLLTQRGELQL	PGPT0021615_217	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021615-nudE-K08312	NA	NA
BMS010_06575	822	cysQ_4	COG1218	3'(2'),5'-bisphosphate nucleotidase CysQ	ATGAGCCAGGCGCTGCTGCCCGCCGTGATCGAGTTGGTCCGCGCCGCCGGCCAGGCCATCCTGCCGCACTGGCGCATCGGCGTGACTGTCACCGAGAAGGCCGACGCCTCGCCGGTCACCGCCGCCGACATGGCCGCGCACGACCTGCTGGTGGCCGGACTCCGGGCCCTGGCGCCGGACATCCCGGTGCTTTCCGAGGAAGATGCCGAAATCCCGCTGTCGCAGCGCGCCGCCTGGACACGCTGGTGGCTGGTGGACCCGCTGGACGGCACCAAGGAATTCATCGCTGGCACCGAAGAGTTCACCGTCAACGTGGCGTTGATCGAACGAGGCCGGGTGTTGTTCGGCGTGGTCGGCATTCCGGCCAGTGGACGCTGTTACTACGGTGGAGCCGGGCTGGGCGCCTGGTGTGCCGAGGCCGATGGCGAGCCGCAGCCGATTGCGGTGCGCATCGCGCCGGCGGAAGCCTTCACCGTGGTGGCCAGCCGGCGCCATTCCAGTCCGGCCCAGGAACGCTTGTTGGCCGGCTTGGGTGAGCGCTTCGGCGACCTGCAATTGGCCAACGTCGGTAGCTCGCTGAAGTTCTGCCTGCTGGCCGAAGGCGAGGCCGATTGCTATCCGCGCCTGGCACCCACCTCGCAGTGGGACACCGCGGCCGCCCAGGGCGTGCTGGAAGGCGCCGGCGGCGAGGTGCTCAACCTGCACGGCGAGCCGCTGACCTACGAGGCGCGCGAGACCTACCTGAACCCCTCGTTCCTTGCCTTGCCGGTCGCCGCTGAATGGCGCGCCGAGTTGATCCAGCTCGCCCGCGCACTGGACTGA	MSQALLPAVIELVRAAGQAILPHWRIGVTVTEKADASPVTAADMAAHDLLVAGLRALAPDIPVLSEEDAEIPLSQRAAWTRWWLVDPLDGTKEFIAGTEEFTVNVALIERGRVLFGVVGIPASGRCYYGGAGLGAWCAEADGEPQPIAVRIAPAEAFTVVASRRHSSPAQERLLAGLGERFGDLQLANVGSSLKFCLLAEGEADCYPRLAPTSQWDTAAAQGVLEGAGGEVLNLHGEPLTYEARETYLNPSFLALPVAAEWRAELIQLARALD	PGPT0002975_1614	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002975-cysQ-K01082	NA	NA
BMS010_06576	882	cynR_5		HTH-type transcriptional regulator CynR	TTGGATTTCCGCCAGCTCAAATACTTCGTCGCGCTCTACGAGGAAACCCACGTCGGGCGCGCGGCGGAGCGCCTGTGCATTTCCCAGCCGGCGCTGTCGCAGCAGATCCGCCAGTTGGAGGGTGAGCTGGACGTGCCGCTGTTCCATCGGCACAACAAGCGCCTGTCGCCGACCCTCGCCGCGCATACCCTCTATCAGCACGCCGTGCCGTTGCTGGACGGGCTGGGCCGCGCGCACGACGCCCTGCACGCCTACCGGGGCCAGCCGCCGAAGGTGCTGGCCATCGGTGTGCTGCAGACGGTGAATGCCTCGCTGATCCCGCCGCTGCTGGAAAAACTCCGGGAGCGCCAGCCCTACCTGAAGGTGCAGGTCTACGAGCTGTCCGGCGACGAGATCGAGCGGCGCCTGCTGGCGGGCAGCCTGGACATCGGCATCAGCTTCTTGCCACCCCGGCACGCGGGCTTGCACGGCATGCCGGTCTACGAGGACGAGCTGAACCTGGTGGTGGCCGAGGACCATCCGCTCAAGGACTTCCGCAAAGTATCGGTGGCCCAGGCCGCCGAGCAGCCGATGATGCTCCTGGGCGAGGAGTTCCGTACCCGGCAGATCTGGGAGGAGCAACTGGCGCGCATCGGCCGGCAGCCGCAGGTGCAGATGGAGCTGAACCAGATGAATGGGATTCTCGACAGCCTCGGCCGGGCCCGCCTGGCCACTGTGTTGCCGGGGCGTGCGCAGGCGTTGCGTACCGGCCAGGGCCTGCTGTGGAAGCCGCTGAGCGATCCGCGCGTGGTGCTCAAGGTGGGCCTGGTGTTCCGCGATGCGCAACGGCAGAAGCCGATGCTGGAACTGATCGACGATGTGCTCGCCGATCTGGAAGGATGA	MDFRQLKYFVALYEETHVGRAAERLCISQPALSQQIRQLEGELDVPLFHRHNKRLSPTLAAHTLYQHAVPLLDGLGRAHDALHAYRGQPPKVLAIGVLQTVNASLIPPLLEKLRERQPYLKVQVYELSGDEIERRLLAGSLDIGISFLPPRHAGLHGMPVYEDELNLVVAEDHPLKDFRKVSVAQAAEQPMMLLGEEFRTRQIWEEQLARIGRQPQVQMELNQMNGILDSLGRARLATVLPGRAQALRTGQGLLWKPLSDPRVVLKVGLVFRDAQRQKPMLELIDDVLADLEG				NA	NA	NA	NA	NA
BMS010_06577	888	dapA_8	COG0329	4-hydroxy-tetrahydrodipicolinate synthase	ATGAAAGAACTGAACCTCAAGGGCATCATCGCCTACCCCATCACGCCCTTCTCAGCCTGCGGCGAACGCATCGACGGCGACACCCTCGGCCTGCTCATCGACCGTCTGATCGACAGCGGCTGCCACGCCATCGCCCCGCTGGGCAGCACCGGCGAGAGCGCCTACCTGAACGACAAGGAATGGGACGAAGTGGCCGAGCGCTCGCTGAGCCAGGTGAACCGCCGGGTGCCGGTGATCGTCGGTATCTCCGACCTGACCACGCAGAACGCCATCCGCCGCGCCCGCTTCGCCCAGGCGCACGGCGCCGACGCGGTGATGGTGTTGCCGGTGTCCTACTGGAAGCTCTCCGAGCGCGAGATCTACCGGCACTACAGCCGCATCGCCCAGGCCATCGATATCCCGATCATGCTCTACAACAACCCGGCCACCAGCGGCGTGGACATGTCGCCGGAGCTGATCGCACGGATCGTGCGGGAAGTAGACAACGTCACCATGGTCAAGGAGAGCACCGGCGACATCCAGCGCATGCACCGCCTGGCGCAGCTTTCCGACCGGCGCATTCCGATGTACAACGGCAGCAATCCACTGGCCCTGGAAGCCTTCGCCGCTGGCGCGGTGGGCTGGTGCACCGCGGCGCCCAACCTCATTCCGGCCCTGAACCTGCGGCTCTACGAAGCGGCGCTGGCAGGTGACCTGCAGCAAGCCCGAGACCTGTTCTACCGGCAGTTGCCGCTGCTGCAATTCATTCTCAAGGGTGGACTGCCGACCACCATCAAGGCCGGCCTCACGCTCTGCGGCATCGACGCCGGCGTCCCCCGCCTGCCGCTGGAAGCGTTGGACGAGGCTGAAACCGAGCGGCTGGCCGCGATCCTCGACACGCTGCGCTAA	MKELNLKGIIAYPITPFSACGERIDGDTLGLLIDRLIDSGCHAIAPLGSTGESAYLNDKEWDEVAERSLSQVNRRVPVIVGISDLTTQNAIRRARFAQAHGADAVMVLPVSYWKLSEREIYRHYSRIAQAIDIPIMLYNNPATSGVDMSPELIARIVREVDNVTMVKESTGDIQRMHRLAQLSDRRIPMYNGSNPLALEAFAAGAVGWCTAAPNLIPALNLRLYEAALAGDLQQARDLFYRQLPLLQFILKGGLPTTIKAGLTLCGIDAGVPRLPLEALDEAETERLAAILDTLR	PGPT0002080_5860	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
BMS010_06578	783	fucA		L-fuculose phosphate aldolase	ATGTCCACGACATTCGAAATGAGCAAACCCGAGCTGATGGCCAAGGCCCATCGGCAAATGCGCGACGCCCTGCCGGAAACCGCCTGGAGCGCCCGGCAGAAGCTGGCGCTGACCTGCCGCATCCTGCACGACGCCGGCCACGACTCCGGCCTGGCGGGGCAGATCACCACCCGTGCGGAGAAACCCGGCACCTACTACACCCAGCGACTCGGGCTGGGCTTCGATGAAATCGGCGCGGAAAACCTGCTACTGGTGGACGAGGACTTGAATGTCCTCGAAGGCGACGGCATGCCCAATCCGGCCAACCGCTTCCACAGCTGGGTCTACCGCGCCCGCCCGGATGTGAACTGCATCATCCACACCCATCCGCTGCACGTCTCCGCACTGTCGATGCTGGAGGTGCCGCTGGCGATCTCGCACATGGACACCAGCCCGCTGTTCGAGGACTGCGCCTTCCTCCCGGAATGGCCGGGCGTGCCGGTGGGTAACGAAGAGGGCCGGATCATCTCCGAAGCCCTCGGCGACAAGCGTGCGGTGCTGCTCGCCCACCACGGTCAACTGGTGGCCGGGCGCAGCATCGAGGAAGCCTGTGTACTGGCGGTGCTGATCGAACGCGCGGCGCGGTTGCAACTGCTGGCCATGTCCGCCGGTGCCCTCAAGCCCATTCCCGAAGCGCTGGCCCGCGAAGCCCACGACTGGGTATCCGCGCCCAAGCGCCATCAGGCGGCCTTCGCCTACTACGCCCGCCGGGCGCTGAAACAGCACCCGGACTGCCTGGCCTGA	MSTTFEMSKPELMAKAHRQMRDALPETAWSARQKLALTCRILHDAGHDSGLAGQITTRAEKPGTYYTQRLGLGFDEIGAENLLLVDEDLNVLEGDGMPNPANRFHSWVYRARPDVNCIIHTHPLHVSALSMLEVPLAISHMDTSPLFEDCAFLPEWPGVPVGNEEGRIISEALGDKRAVLLAHHGQLVAGRSIEEACVLAVLIERAARLQLLAMSAGALKPIPEALAREAHDWVSAPKRHQAAFAYYARRALKQHPDCLA	PGPT0017430_201	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FUCOSE_DEGRADATION,PGPT0017430-fucA-K01628	NA	NA
BMS010_06579	1908	fabY	COG0304	Beta-ketoacyl-[acyl-carrier-protein] synthase FabY	ATGTCTCGTCTACCTGTGATCGTTGGTTTCGGGGGTTATAACGCCGCAGGCCGCAGCTCCTTCCACCATGGATTCCGACGCACCGTCATCGACAGCCTGGACCCACGCGCACGCCAGGAGACCCTGGCCGGCCTCGCGGTAATGATGAAGCTGATCAAGGTGGTGGACGGCGAATACCGCGACGACACTGGCGCCACGCTGACCCCGGCGGACATCGAAGCCCGCCATGCGCAACGCATCCTCGATTCCACCCTGGTCCGCCGCATCGAGAAGCAGTACCTCGACGTCGACGCCGCCTATTGGCAGAAGAACGTCACCGTCGCCGGCGTGGAAGGCGCGCCGCTGACCTTCTGCGTACCGCTCAAGCAGCTCCCCGAGCCGGTCCCGGCCAGCTGGTCGGTGGAATCGATCAGCGCCACCGAAGCCCGCGTCACCCTCCACGAAAGCTGCGAGTTCAAGGTCGAGAGCTACCGTTCGCTGCCGGTGAAGTCCGCCGGGCAACTACCCTCCGGCTTCGAGCCCAGCGAACTGTACAACTCGCGCTTCCACCCGCGCGGCCTGCAACTGACCATCGTCGGCGTCACCGATGCCCTGCGCTCGGTGGGCATCGATTGGAAGACCATCGTCGAGCACGTCGCCCCGGATGAAATCGCCGTGTTCGCCGGCAGCATCATGAGCCAGTTGGACGAGAACGGCTTCGGCGGCCTGATGCAATCGCGCCTCAAGGGCGGCCGGGTGACCGCCAAGCAGTTGCCGCTGGGCCTCAACACCATGCCCGCCGACTTCATCAACGCCTACGTGCTGGGCAGCGTCGGTACCACCGGCAGCGTCACCGGCGCCTGCGCCACCTTCCTCTACAACCTGCAGAAGGGCGTCGACTGCATCACCTCGGGCCGCGCCCGGGTGGTCGTCGTCGGCAACAGCGAAGCCCCCATCACCCTGGAATGCATCGACGGCTACGGCGCCATGGGCGCCCTGGCCACCGAAGAGGGTCTGCGCCTGATCGAAGGCCGCGACGACGTGGACTTCCGCCGCGCCAGCCGGCCGTTCGGCGAGAACTGCGGCTTCACCCTGGCCGAGTCGGCCCAATACGTGGTGCTGATGGACGACGAACTGGCCCTGGAGCTGGGTGCCGATATCCATGGCGCCGTGCCGGACGTGTTCATCAACGCCGACGGCTTCAAGAAATCCATCTCCGCCCCCGGCCCCGGCAACTACCTGACCATGGCCAAGGCCGTGGCCGGTGCCGCCCAACTGGTGGGCATCGATGCCGTGCGTCGACGCAGCTTCATCCACGCCCACGGCTCCAGTACCCCGGCCAACCGCGTCACCGAATCGGAATTGCTGGACCGCATCGCCGCCGCCTTCGGTATCGAGAGCTGGCCGGTCACCGCGGTGAAGGCGTTCGTCGGCCACTCCCTGGCGCCGGCCAGCGGCGACCAGCTGATCTCCGCCCTGGGTTCGTTCAAGTACGGCATCGTCCCCGGCATCAAGACCATCGACGGCGTGGCCCATGACGTGCACCAGCAGCACCTGCGCATCGTCACCCAGGACCTGAAGCTGGGCGACAACGCCCTGGACGTCTGCTTCATCAACTCCAAGGGCTTCGGCGGCAACAACGCCAGCGGCTACGTGCTGGCGCCCCAGGTGGTCGAACGCATGTTGCGCAAGCGCCACGGCGACGCCGCCTTCTCCGCCTACCGCGAGCGCCGCGAACAGACCCGCGCCAACGCCCTCCGCTACGAGGAGCAGGCGCTCAAGGGCCAGTTCGACATCATCTACAACTTCGGCCAGGACCTGATCGACGACCGCGATATCCGTATCAGCGACAGCCGTATCGAAGTGCCGGGTTTCGCCCAGCCGCTGGAATACCCGAAGGACGCACGCTTCCTCGACATGCTGGACTGA	MSRLPVIVGFGGYNAAGRSSFHHGFRRTVIDSLDPRARQETLAGLAVMMKLIKVVDGEYRDDTGATLTPADIEARHAQRILDSTLVRRIEKQYLDVDAAYWQKNVTVAGVEGAPLTFCVPLKQLPEPVPASWSVESISATEARVTLHESCEFKVESYRSLPVKSAGQLPSGFEPSELYNSRFHPRGLQLTIVGVTDALRSVGIDWKTIVEHVAPDEIAVFAGSIMSQLDENGFGGLMQSRLKGGRVTAKQLPLGLNTMPADFINAYVLGSVGTTGSVTGACATFLYNLQKGVDCITSGRARVVVVGNSEAPITLECIDGYGAMGALATEEGLRLIEGRDDVDFRRASRPFGENCGFTLAESAQYVVLMDDELALELGADIHGAVPDVFINADGFKKSISAPGPGNYLTMAKAVAGAAQLVGIDAVRRRSFIHAHGSSTPANRVTESELLDRIAAAFGIESWPVTAVKAFVGHSLAPASGDQLISALGSFKYGIVPGIKTIDGVAHDVHQQHLRIVTQDLKLGDNALDVCFINSKGFGGNNASGYVLAPQVVERMLRKRHGDAAFSAYRERREQTRANALRYEEQALKGQFDIIYNFGQDLIDDRDIRISDSRIEVPGFAQPLEYPKDARFLDMLD				NA	NA	NA	NA	NA
BMS010_06580	930	arcC1		Carbamate kinase 1	ATGCGACTAGTCATCGCTCTGGGCGGCAACGCCCTGCTCCGTCGTGGCGAGGCCATGACGGCGGAGAATCAACGCGAGAACGTTCGCATCGCCTGCGAACAGATCGCCAAGGTGGCACCGGGCAACGAACTGGTGATCGCCCACGGCAACGGCCCCCAGGTGGGCCTGCTGGCGCTCCAGGGTGCCGCCTACACCGAGGTCGGTACCTACCCGCTGGATGTGCTCGGCGCCGAGACCGAAGGCATGATCGGCTACATGATCGAACAGGAGCTGGGCAACCTGCTGCCGTTCGAGGTGCCGTTCGCCACCCTCCTCACCCAGGTCGAAGTGGATGCCGGCGACCCGGCCTTCCAGAAGCCGAGCAAGCCCATCGGCCCGGTCTACGCCAAGGAAGAGGCCGAGCGCCTGGCCCGGGAGAAAGGTTGGAGCATCGCGCCAGACGGCGACAAATTCCGCCGCGTGGTGCCGAGCCCGCGACCCAAGCGGATCTTCGAGATTCGCCCGATCCAGTGGCTCTTGGAGAAGGGCTCGGTGGTGATCTGCGCCGGTGGCGGCGGCATACCCACCATCTACGACGAGAACCGCAAGCTGCACGGCATCGAGGCGGTGATCGACAAGGACCTCTGCTCCGCGCTGCTGGCCGAACAACTGGAAGCCGACCTGCTGGTGATCGCCACCGACGTCGACGCCGCCTACCTCGACTGGGGCAAGCCGATGCAGAAAGCCATCGCCCAGGCCCACCCGGACGAACTCGAGCGCCTCGGCTTCGCCGCCGGCTCCATGGGCCCGAAGGTCCAGGCCGCCTGCGAATTCGCCCGCCATACCGGCACGGTCGCGGTGATCGGCTCACTGGCCGACATCCAGGCCATCGTCCAGGGCGAAGCCGGTACACGGGTGAGCACGGCGCAAGCGGGTATCCGATACCGTTGA	MRLVIALGGNALLRRGEAMTAENQRENVRIACEQIAKVAPGNELVIAHGNGPQVGLLALQGAAYTEVGTYPLDVLGAETEGMIGYMIEQELGNLLPFEVPFATLLTQVEVDAGDPAFQKPSKPIGPVYAKEEAERLAREKGWSIAPDGDKFRRVVPSPRPKRIFEIRPIQWLLEKGSVVICAGGGGIPTIYDENRKLHGIEAVIDKDLCSALLAEQLEADLLVIATDVDAAYLDWGKPMQKAIAQAHPDELERLGFAAGSMGPKVQAACEFARHTGTVAVIGSLADIQAIVQGEAGTRVSTAQAGIRYR	PGPT0020085_1329	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020085-arcC-K00926	NA	NA
BMS010_06581	1011	arcB	COG0078	Ornithine carbamoyltransferase, catabolic	ATGGCCTTCAACATCCACAACCGCAGCCTGCTGAGCCTGATGCACCACAGCGAGCGCGAGCTGCGCTACCTGCTCGACCTATCCCGCGACCTCAAGCGCGCCAAGTACACCGGCACCGAACAGCAGCACCTGAAAGGCAAGAACATCGCGCTGATCTTCGAAAAGACCTCGACCCGTACCCGCTGCGCCTTCGAGGTGGCGGCCTATGACCAGGGCGCCAACGTCACCTACATCGATCCGAATTCCTCGCAGATCGGCCACAAGGAGAGCATGAAGGACACCGCCCGGGTGCTCGGTCGCATGTACGACGCCATCGAATACCGGGGCTTCAAGCAGGAAATCGTCGAGGAACTGGCCAAGTTCGCCGGCGTGCCGGTCTACAACGGCCTGACCGACGAGTACCACCCGACCCAGATGATCGCCGACGTGCTCACCATGCGTGAACACAGCGACAAGCCGCTGCACGAGATCAGCTATGCCTACCTCGGCGACGCGCGCAACAACATGGGCAACTCCCTGCTGCTGATCGGCGCCAAGCTCGGCATGGACGTGCGCATCGCCGCGCCCAAGGAGTTGTGGCCGAACGAAGAGCACATCGCCGCCTGCAAGCGCTTCGCCGAAGCTTCCGGCGCCCGCCTCACCCTCACCGAGGACGCACAGGCCGCGGTGAAAGGCGTCGACTTCATCCATACCGACGTCTGGGTCTCCATGGGCGAGCCGGTGGAAGCCTGGGGCGAACGCATCCGCCTGCTGCTGCCCTACCAGGTCAATGCCGCACTGATGAAAGCCTCCGGCAATCCTCGCGTGAAATTCATGCACTGCCTGCCGGCGTTCCATAACGCGGAAACCAAGGTCGGCAAGCAGATCGCCGAGCAATACCCGAACCTGGCCAACGGCATCGAAGTGACCGAGGACGTCTTCGAGTCCCCGGCCTGCATCGCCTTCGAACAGGCGGAAAACCGCATGCACACCATCAAGGCCATTCTGGTTTCCACATTGAGTGAGATTTGA	MAFNIHNRSLLSLMHHSERELRYLLDLSRDLKRAKYTGTEQQHLKGKNIALIFEKTSTRTRCAFEVAAYDQGANVTYIDPNSSQIGHKESMKDTARVLGRMYDAIEYRGFKQEIVEELAKFAGVPVYNGLTDEYHPTQMIADVLTMREHSDKPLHEISYAYLGDARNNMGNSLLLIGAKLGMDVRIAAPKELWPNEEHIAACKRFAEASGARLTLTEDAQAAVKGVDFIHTDVWVSMGEPVEAWGERIRLLLPYQVNAALMKASGNPRVKFMHCLPAFHNAETKVGKQIAEQYPNLANGIEVTEDVFESPACIAFEQAENRMHTIKAILVSTLSEI	PGPT0020080_896	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020080-arcB|argF|argI-K00611	NA	NA
BMS010_06582	1257	arcA_2	COG2235	Arginine deiminase	ATGTCCACTGAACCCCTCAAACTCGGCGTCCATTCGGAAGTCGGCAAGCTGCGCAAAGTGATGGTCTGTTCGCCCGGCCTCGCCCACCTGCGGCTGACCCCGAGCAACTGCGACGAGCTGCTGTTCGATGATGTGATCTGGGTGAACCAGGCCAAGCGCGACCATTTCGACTTCGTCACCAAGATGCGCGAACGCGGCGTCGAGGTGGTGGAAATGCACAACCTGCTCACCGAGACGGTGAAGAATCCCGAAGCCCTGAAATGGATTCTCGACCGCAAGATCACGCCGAACCAGGTCGGCCTCGGCCTGGTCAACGAGACCCGCTCCTGGCTGGAAGAACTGGAGCCGCGCAAGCTGGCCGAGTTCCTCATCGGCGGCGTCTCCGGGGCCGATTTGCCGGAGAGCCACGGCGGGGAGATCGTCAAGATGTTCCGCGACTACCTGGGGCACTCCAGTTTCGTGCTGCCGCCGCTGCCGAACACCCAGTTCACCCGCGACACCACCTGCTGGATCTACGGCGGGGTGACGCTGAACCCGATGTACTGGCCGGCGCGCCGCCAGGAAACCCTGCTGGCCAGCGCCATCTACAAGTTCCACCCGGACTTCGCCAACGCCGACTTCCAGGTCTGGTACGGCGACCCGGACATCGACCACGGCATGGCCACCCTCGAAGGCGGCGACGTGATGCCCATCGGGAACCGCGTGGTACTGATCGGCATGGGCGAACGCACTTCCCGCCAGGCCATCGGCCAACTGGCGCAATCGCTGTTCAAGCACCGCGCAGTGGAGCGGGTGATCGTCGCCGGGCTGCCACGCTCCCGCGCGGCCATGCATCTGGATACCGTGTTCAGCTTCTGCGACCGCGACCTGGTCACCATCTTCCCCGAGGTGGTGCAGGGCATCGTGCCGTTCAGCCTGCGCCCGGACGAAAGCAAACCGGGCGGCATCGACGTGCGCCGCGAGGGAAAAGGCTTCCTCGAGGTGGTTGCCGAGGCGCTCAACCTGCCCGCCCTGCGCGTGGTACAGACCGGCGGCGACAGCTACGAAGCCGAACGCGAGCAATGGGACGACGGCAACAACGTGGTGGCCCTGGAGCCCGGCGTGGTGATCGGCTACGACCGCAACACCTACACCAACACGTTGCTGCGCAAGGCCGGAGTGGAAGTGATCACCATCAGCGCCAGCGAACTGGGCCGGGGACGCGGCGGCGGCCACTGCATGACCTGCCCGATCATCCGCGACCCGATCGACTACTGA	MSTEPLKLGVHSEVGKLRKVMVCSPGLAHLRLTPSNCDELLFDDVIWVNQAKRDHFDFVTKMRERGVEVVEMHNLLTETVKNPEALKWILDRKITPNQVGLGLVNETRSWLEELEPRKLAEFLIGGVSGADLPESHGGEIVKMFRDYLGHSSFVLPPLPNTQFTRDTTCWIYGGVTLNPMYWPARRQETLLASAIYKFHPDFANADFQVWYGDPDIDHGMATLEGGDVMPIGNRVVLIGMGERTSRQAIGQLAQSLFKHRAVERVIVAGLPRSRAAMHLDTVFSFCDRDLVTIFPEVVQGIVPFSLRPDESKPGGIDVRREGKGFLEVVAEALNLPALRVVQTGGDSYEAEREQWDDGNNVVALEPGVVIGYDRNTYTNTLLRKAGVEVITISASELGRGRGGGHCMTCPIIRDPIDY	PGPT0020075_328	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020075-arcA-K01478	NA	NA
BMS010_06583	1428	arcD	COG0531	Arginine/ornithine antiporter	ATGTCGCAAGCCACTCAAAAACTGAAGTTGGGGGCACTGGTCGCGCTGGTGGTCGGCTCGATGATCGGTGGCGGGATTTTTTCCCTGCCCCAGAACATGGCGGCCAGCGCTGGTGCGGGAGCGGTGCTGATCGGCTGGGCCATCACCGCGGTGGGGATGCTGACCCTGGCCTTCGTCTTCCAGACCCTGGCCAACCGCAAACCGGAGCTGGACGCGGGCGTCTACGCCTACGCCAAGGCCGGTTTCGGCGACTACATGGGCTTCTCCTCGGCCTGGGGTTACTGGATCAGCGCCTGGATCGGCAACGTCAGCTACTTCGTCCTGCTGTTCAGCACCCTCGGCTACTTCGTTCCGGCCTTTGGTGAAGGCAACACGGTCGTCGCCATCGTCTGCGCCTCGCTGGTGCTGTGGGGCGTGCATTTCCTGGTGCTGCGCGGCATCAAGGAGGCGGCGTTCATCAATCTGGTCACCACGGTGGCGAAGATCGTGCCGCTGGTACTGTTCATCGTCATCGCCGCCATCGCCTTCCGCCTGGATGTGTTCACGGCGGATTTCTGGGGCAGCGGCAACGTCGAGCTGGGCAGCGTGATGGACCAGGTGCGCAACATGATGCTGGTCACCGTCTGGGTGTTCATCGGTATCGAGGGCGCCAGCGTGTTCTCCGCCCGCGCCGAGAAGCGCACCGACGTCGGCAAGGCCACTGTCATCGGCTTCGCCGGGGTGCTCCTGCTGCTGGTGCTGGTCAACGTGCTGTCCATGGGCATCATGAGCCAGCCGGAGCTGGCCGGGCTGAAAAACCCGTCCATGGCCGGCGTGCTGGAGCATGTGGTCGGTCGCTGGGGTGCGATCTTCATCGCCATCGGCCTGGTGGTCTCGCTGGCCGGGGCGTTGCTGTCCTGGACCCTGCTGTGCGCCGAGATCCTCTTCGCCGGCGCCCGCGACCACACCATGCCGAACTTCCTGAAGAAGGAAAACGCCCGGCATGTCCCGGTGAACGCGCTGTGGCTCTCCAACGGCCTGATCCAGTTGTTCCTGATCCTCACGCTGTTCAACGAGTCCACCTACCTGAGCCTGCTGTACCTGGCCACCTCGATGATTCTGGTGCCGTACTTCTGGTCCGCCGCCTACGCCGTGCTGCTGAGCTGGCGCGGCGAGACCTACGAGAACGCGCCCGTCGAACGCAACAAGGACCTGGCGATCGCCCTGGTCGCCCTGCTCTACAGCGTCTGGCTGGTCTATGCCGGTGGCGTGCAGTACCTGCTGCTCTCGGCATTGCTCTATGCCCCCGGCGTGCTGTTCTTCGCCAAGGCCAAGCGCGAACTCGGCCAGCCGGTGTTCACCCCGATCGAGAAGCTGATCTTCGCCGCCGTGGTGATCGGCGCGCTGATCGCCGCCTACGGCCTGTACGACGGCTTCCTCAGTCTTTGA	MSQATQKLKLGALVALVVGSMIGGGIFSLPQNMAASAGAGAVLIGWAITAVGMLTLAFVFQTLANRKPELDAGVYAYAKAGFGDYMGFSSAWGYWISAWIGNVSYFVLLFSTLGYFVPAFGEGNTVVAIVCASLVLWGVHFLVLRGIKEAAFINLVTTVAKIVPLVLFIVIAAIAFRLDVFTADFWGSGNVELGSVMDQVRNMMLVTVWVFIGIEGASVFSARAEKRTDVGKATVIGFAGVLLLLVLVNVLSMGIMSQPELAGLKNPSMAGVLEHVVGRWGAIFIAIGLVVSLAGALLSWTLLCAEILFAGARDHTMPNFLKKENARHVPVNALWLSNGLIQLFLILTLFNESTYLSLLYLATSMILVPYFWSAAYAVLLSWRGETYENAPVERNKDLAIALVALLYSVWLVYAGGVQYLLLSALLYAPGVLFFAKAKRELGQPVFTPIEKLIFAAVVIGALIAAYGLYDGFLSL	PGPT0020620_728	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ARGININE_TRANSPORT,PGPT0020620-arcD|lysl|lysP-K03758	NA	NA
BMS010_06584	363			hypothetical protein	ATGTTCAAGCCGGGCCATGTGGAAATCGAGCGCGTCGCCATCGGGCGTCAGCCGGGCTACCGGTTGAACCTGGACTATGCCGTGAGCCGGCGCGACAACGGCACCTACGTTCATTTCGATCTGGATGGCGAGGTGGGTGGCCGTCCGGTGCACGACAGCTTCGAGCTGCACCGCGACGTCGCCTACAACTTCCTTCACGTGGCGGCGGACTGCCTGCGCCGGCGAGGTATTCCGCTGCCGGGACAGGCCATGCTGTTCGGCGCGCACAAGGACTACGACCGCCTCTTCGCCGACCTGCGCCGGCAACTGGGCGTCCATTCCGGCGAGCCGATCGATCTGGAGCGTTTTCTCCGGGAGGGGTAG	MFKPGHVEIERVAIGRQPGYRLNLDYAVSRRDNGTYVHFDLDGEVGGRPVHDSFELHRDVAYNFLHVAADCLRRRGIPLPGQAMLFGAHKDYDRLFADLRRQLGVHSGEPIDLERFLREG				NA	NA	NA	NA	NA
BMS010_06585	1284	dctM_4	COG1593	C4-dicarboxylate TRAP transporter large permease protein DctM	ATGACCATCCTGTTCCTCTTCCTGATCCTCTTCCTGCTGATGTTCATCGGCGTACCGATCGCCGTGTCCCTCGGCCTGTCCGGCGCGCTGACCATCCTGTTCTTCAGCCCCGACTCGGTGCGCTCGCTGGCGATCAAGCTGTTCGAGACCTCCGAGCACTACACCCTGCTGGCGATTCCGTTCTTCCTGCTCTCCGGCGCCTTCATGACCACCGGTGGCGTGGCCCGCCGGCTGATCGACTTCGCCAACGCCTGCGTCGGCCACATCCGTGGCGGCCTGGCGATCGCCGCGGTACTTGCCTGCATGCTGTTCGCCGCCCTGTCCGGCTCCTCGCCGGCCACCGTCGCCGCGGTGGGCTCCATCGCCATCGCCGGCATGGTCCGTTCCGGTTATCCGCAGGCCTTCGGCGCCGGCATCGTGTGTAACGCCGGGACCCTGGGCATCCTGATCCCGCCGTCGATCGTCATGGTGGTCTACGCCGCCGCCACCGAAACCTCGGTGGGCAAGCTGTTCATGGCCGGCGTGGTGCCGGGTCTGCTGCTGGGCCTGATCCTGATGGTGGCGATCTACATCGTCGCCCGGGTGAAGAAGCTGCCGGCCATGCCGCGCGCCTCCCTGCGCGAATGGCTGGGTTCCGCGCGTCGCGCCATCTGGGGCCTGCTGCTGATGGTGATCATCCTCGGCGGTATCTACTCGGGCATGTTCACCCCCACCGAGGCCGCGGCCGTGGCGGCGGTCTACGCCGGCTTCGTTGCGCTCTTCGTGTACAAGGACATGCGCGTCAGCGAGTGCCCGAAGGTGCTGCTGGAGTCCGGCAAGCTGACCATCATGCTGATGTTCATCATCGCCAACGCCATGCTCTTCGCCCACGTGCTGACCACCGAGCAGATCCCCCAGACCATCGCCGCCTGGGTCACCAGCCTCGGCCTGTCGCCGTGGATGTTCCTGCTGATCGTCAACATCGTGCTGCTGATCGCGGGCAACTTCATGGAGCCTTCGGCGATCATCCTGATCCTCGCGCCGATCTTCTTCCCCATCGCCATGGAACTGGGCATCGACCCGATCCACCTCGGTGTGATCATGGTGGTGAACATGGAGATCGGCCTGATCACTCCACCGGTGGGCCTGAACCTGTTCGTCACCTCGGCGGTCACCGGCATGCCGCTGTCCGCCACCATCCGCGCCGCGCTGCCGTGGCTGATGCTGCTGATCAGCTTCCTGATGATCGTCACCTACATCCCGGCCGTGTCCATGGCCCTGCCGAACTGGCTGGGAATGAACTGA	MTILFLFLILFLLMFIGVPIAVSLGLSGALTILFFSPDSVRSLAIKLFETSEHYTLLAIPFFLLSGAFMTTGGVARRLIDFANACVGHIRGGLAIAAVLACMLFAALSGSSPATVAAVGSIAIAGMVRSGYPQAFGAGIVCNAGTLGILIPPSIVMVVYAAATETSVGKLFMAGVVPGLLLGLILMVAIYIVARVKKLPAMPRASLREWLGSARRAIWGLLLMVIILGGIYSGMFTPTEAAAVAAVYAGFVALFVYKDMRVSECPKVLLESGKLTIMLMFIIANAMLFAHVLTTEQIPQTIAAWVTSLGLSPWMFLLIVNIVLLIAGNFMEPSAIILILAPIFFPIAMELGIDPIHLGVIMVVNMEIGLITPPVGLNLFVTSAVTGMPLSATIRAALPWLMLLISFLMIVTYIPAVSMALPNWLGMN	PGPT0017335_2251	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017335-dctM-K11690	NA	NA
BMS010_06586	630	dctQ	COG3090	C4-dicarboxylate TRAP transporter small permease protein DctQ	ATGAGTACCCTGCTGCGTATCTGGGCGCGCTTCGAGGAAGGCTTCATTGCCTTTCTGCTGGCCGCCATGACGCTCGTGACTTTCGTCTACGTGGTGCTGAACAACCTCTACACCCTGTTCTACAACATCGCCGACCTCTGGGAGGGCGGCAGCGAATTCTTCTCGGCCATCGGCGACGCCATTCTCGACCTGGCCCAAGGCATGACCTGGAGCAACGCCCTGACCAAGGCGCTGTTCGCCTGGCTGCTGTTCTTCGGCATTGCCTACGGTGTGCGTACCGCCGGCCACCTCGGCGTAGACATCCTGGTCAAGCTGACCCCGCGGCCCGTGCAGCGTGTGCTCGGTATCCTCGCCTGCCTGGCCTGCCTGATCTACGCGGCGCTCATCACCGTTGGCAGCTACGACTGGGTGCGCGTCCTGTATACCGCCGGCATCGGCGCCGAGGACCTCGACCATTTCGGCATCAAGCAATGGCACATCGGCCTGATCGTGCCCTTCGGCTTCACCATGGTGCTGCTGCGCTTCGCCGAAATCTTCGTCCGCATCCTGCAGAACCGCCAGACCGGCCTTGGCCTGGCCGATGAGGCCCACGACGTGCTCAAACTGACCGAACACGAGGAGCAGAAGTAA	MSTLLRIWARFEEGFIAFLLAAMTLVTFVYVVLNNLYTLFYNIADLWEGGSEFFSAIGDAILDLAQGMTWSNALTKALFAWLLFFGIAYGVRTAGHLGVDILVKLTPRPVQRVLGILACLACLIYAALITVGSYDWVRVLYTAGIGAEDLDHFGIKQWHIGLIVPFGFTMVLLRFAEIFVRILQNRQTGLGLADEAHDVLKLTEHEEQK	PGPT0017330_260	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017330-dctQ-K11689	NA	NA
BMS010_06587	993	dctP_2	COG1638	C4-dicarboxylate-binding periplasmic protein DctP	ATGTTCAAAACGACTGCCAAGGCGCTCGTATGCGCCCTGTCACTGGGCATCGCCGGCCTGGCCCAGGCTGCCGATCCGATCGTCATCAAGTTCTCCCACGTGGTCGCCGAGCACACCCCGAAAGGCCAGGGTGCCCTGCTGTTCAAGCAGCTCGCCGAAGAGCGTCTGGCCGGCAAGGTGAAGGTCGAGGTCTACCCGAACTCCCAGCTGTTCGGCGACGGCAAGGAAATGGAAGCGCTGCTGCTCGGCGACGTGCAGATCATCGCCCCGTCCCTGGCCAAGTTCGAGCAGTACACCAAGAAGCTGCAGATTTTCGACCTGCCCTTCCTGTTCGATAACATCCAGGCAGTCGACCGCTTCCAGAACAGCCCCGAAGGCAAGTCCCTGCTGACCTCCATGGAAGACAAGGGCATCACCGGCCTGGCCTACTGGCACAACGGCATGAAGCAACTGTCCGCCAACAAGGCCCTGCGCGAGCCGAAGGACGCCCGCGGCCTGAAGTTCCGCGTACAGGCGTCCAAGGTGCTGGAAGAGCAGTTCAAGGCCGTCCGCGCCAACCCGCGCAAGATGAGCTTCGCCGAGGTCTACCAGGGCCTGCAGACCGGTGTGGTCAACGGTGCCGAGAACCCCTGGTCGAACATCTACTCGCAGAAGATGCACGAAGTGCAGAAGTTCATCACCGAGTCCGACCACGGCGTACTGGACTACATGCTGATCACCAACACCAAGTTCTGGGACGGTCTGCCGGCTGACGTGCGCAGCGAACTGGAGAAGATCGTCGCGGAAGTGACCGTCGAGGTGAACAAGCAGGCCGAAGCCCTCAACCAGGGCGACAAGCAGCGCATCATCGACGCCAAGACCAGCGAAATCATCCAGCTCACTCCGGAGCAGCGCGGCATGTGGCGCGACGCCATGAAGCCGGTGTGGAAAGAGTTCGAAGGCGAGATCGGCGCCGATCTGATCAAGGCCGCGGAAGCCGCCAACAAGCAATAA	MFKTTAKALVCALSLGIAGLAQAADPIVIKFSHVVAEHTPKGQGALLFKQLAEERLAGKVKVEVYPNSQLFGDGKEMEALLLGDVQIIAPSLAKFEQYTKKLQIFDLPFLFDNIQAVDRFQNSPEGKSLLTSMEDKGITGLAYWHNGMKQLSANKALREPKDARGLKFRVQASKVLEEQFKAVRANPRKMSFAEVYQGLQTGVVNGAENPWSNIYSQKMHEVQKFITESDHGVLDYMLITNTKFWDGLPADVRSELEKIVAEVTVEVNKQAEALNQGDKQRIIDAKTSEIIQLTPEQRGMWRDAMKPVWKEFEGEIGADLIKAAEAANKQ	PGPT0017325_641	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017325-dctP-K11688	NA	NA
BMS010_06588	1383	dctD_3		C4-dicarboxylate transport transcriptional regulatory protein DctD	ATGAGTACGGACATCGCCCTCGACAGCCGCACCCAGGTCTTGCTGATCGACGACGACCCGCACCTGCGCCAGGCCTTGAGCCAGACCCTGGACCTGGCCGGCCTCAAGGTCATGACCCTGGCCGACGCCCAAGGCGTCGCCGAGCGCATCCCCGGCGGCTGGCCGGGCGTGGTGGTCAGCGATATCCGCATGCCCGGCATCGATGGGCTGCAACTGCTCGAAGACCTGCACCGCCAGGACCCCGAGCTGCCGGTGCTGCTGATCACCGGCCATGGCGACGTACCGCTGGCGGTACAGACCATGCGCGCCGGTGCCTATGACTTCCTGGAAAAGCCTTTCGCCAGCGAGCACCTGCTCGACAGCGTGCGCCGCGCCCTCGACCGGCGCCGGCTGGTGCTGGACAACCGCAGCCTGCGCCTGGCCCTCTCCGACCGGCAGGAACTCTCCGCCCGCCTGGTCGGCCAATCGCCGGCGATGCAGCAGCTCCGCCAGCAGATCGGCGCGCTCGCCGGCACCAGCGCCGATGTGCTGATCCTCGGCGAGACCGGCGCCGGCAAGGAGGTCGTGGCCCGCGCCCTGCACGATCTCTCCAGCCGCCGCGACGGCCCCTTCGTCGCCATCAACGCCGGGGCGCTGGCCGAATCGGTGGTGGAAAGCGAACTCTTCGGCCATGAGCCTGGCGCCTTCACCGGGGCGCAGAAGCGGCGCATCGGCAAGTTCGAATTCGCCAACGGCGGAACCCTGTTTCTTGACGAAATCGAGAGCATGAGCCTGGACGTCCAGGTCAAACTCCTGCGCCTGTTGCAGGAGCGCGTGGTCGAGCGCCTCGGCGGCAACCAGCTGATTCCCCTGGATATCCGCATCGTCGCGGCGACCAAGGAGGACCTGCGCCAGGCGGCGGACCAGGGACGCTTCCGTGCCGACCTGTACTATCGGCTCAACGTCGCGCCGCTGCGCATCCCGCCGCTGCGCGAACGCGGCGAGGACGCCCTGCTGCTGTTCCAGCATTTCGCCGAAGCCGCACGGGCGCGCCACGGCCTGCCGCTCCGCGAATTGCAGCCGGCACAGCGGGCCCTGCTCCTGCGGCATGCCTGGCCCGGCAACGTGCGCGAACTGCAGAATGCCGCCGAACGCTTCGCCCTCGGCCTGGAACTGGCGCTGGATAATCACGCGCCGAGCCTGCCGGCGGTGAGCGGCGGGCTCAGCGAACAGGTGGAGGCGTTCGAGCGGGCGCTGATCGCCGCCGAGCTGGCCCGGCCGCACGGTTCGCTGCGCAGCCTCGCCGAAGCCCTGGGCATTCCGCGCAAGACCCTGCACGACAAACTGCGCAAGCACGGCCTGCATTTCGATGCTGGCGGAAGCTCGCCAGAAGAATTCGAGTAG	MSTDIALDSRTQVLLIDDDPHLRQALSQTLDLAGLKVMTLADAQGVAERIPGGWPGVVVSDIRMPGIDGLQLLEDLHRQDPELPVLLITGHGDVPLAVQTMRAGAYDFLEKPFASEHLLDSVRRALDRRRLVLDNRSLRLALSDRQELSARLVGQSPAMQQLRQQIGALAGTSADVLILGETGAGKEVVARALHDLSSRRDGPFVAINAGALAESVVESELFGHEPGAFTGAQKRRIGKFEFANGGTLFLDEIESMSLDVQVKLLRLLQERVVERLGGNQLIPLDIRIVAATKEDLRQAADQGRFRADLYYRLNVAPLRIPPLRERGEDALLLFQHFAEAARARHGLPLRELQPAQRALLLRHAWPGNVRELQNAAERFALGLELALDNHAPSLPAVSGGLSEQVEAFERALIAAELARPHGSLRSLAEALGIPRKTLHDKLRKHGLHFDAGGSSPEEFE	PGPT0017310_136	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017310-dctD-K10126	NA	NA
BMS010_06589	1815	dctB_3		C4-dicarboxylate transport sensor protein DctB	ATGAGTAAAGTCTTATCCCATTCGCAGCGCCCGCGCTGGCGCAGCCTCGCCCTGCTGACCCTGTTGCTGGCGCCGCTGCTCTGGCCACTGCAGCACCTCGCCGAGCGCTACTACAGCGACGAGCTGATCCAGCAGAACAGCCAGACCCTGGACCTCTACGTCGCCAATCTGCTCGGCACCCTGCGCCGCTACGAAGTGCTGCCGCAGATCCTCGGCGACCTCCCCGCCCTGCGCAGCGCCCTGCTCCAGCCCGACGACCCGGCCACACTGAATGCCGCGAATCGCCTGCTCAAGCGCGTGCGCGGCCAGACCGGTGCCGACGTCATCTACCTGATGGACAACCGCGGCAAGACCCTGGGCGCCTCCAACTGGGATCACGAAGACAGCTTCGTCGGCCGCAACTTCGCCTTCCGCCCCTATTTCCGCGAGGCCATCGCCGGGCGCCTCGGGCGCTTCTTCGGCCTCGGCACCACTTCCGGCAAGCGCGGCTACTACTTCGCAGCGGCGGTGCGCGACGGCGAGCAAGTGCTCGGTGCCCTGGTGGTCAAGGTCGACCTCGACCACACCGAAAACCTCTGGGGCCATACCCCTGAACAGTTGCGTGTGACCGATGCCAACGGCGTGGTGATCCTCACCTCGCGCCCGGAATGGCGGTTCCGCGCCACCCGTCCGCTGGATGAGCGCGAGCGCAACGAAGTGGCCGCCAACCAGCCCTATCCGACCCTGGCGCCCAAGGCGCTGGAACTGGACGACAAGGCCTGGCTGATCCAGAGCCGAGAGCTGGAGGAAACCGGCTGGACGGTCAGCATCCTCGCCCCCACCAGCCTGATCGAGCGACCGGTCCGCAACGTAGTCGCCATCGGCGGAGCAACGCTGCTGGTGCTGGTCCTGCTGGTTGGCCTGCTGATGCAGCGCCGTCGTCACTATCTGGAGCGCATCGCACTCGACGCCCGTGCCCGTCGCGAGTTGGAAATCCGCGTTCTCGAGCGCACCCGCGATCTGGAAGCGCTGAACAGTCGCCTCAAGCAGGAGGTGCTGGAGCGCGAGCAGGCACAGCAGGAACTCGTACGCGCCCAGGACGAACTGGTCCAGGCCGGCAAGCTCTCCGCCTTGGGCACCATGTCGGCGAGCATCAGCCACGAACTCAACCAGCCGCTGGCGGCGATCCGCAGCTATGCCGAAAACGCCGGCGTGCTGCTCGATCACGGGCGCACCGACGACGCCCGCGGCAACCTGCGCCTGATCAGCGAGCTGACCGAGCGCATGGCCTCGATCATCGCTCACCTGCGCGCCTTCGCCCGCCGCGACCGCCACGCCCCGGAAAGCATTGCCCTGCAACCGGCGCTGGAGGATGCCCTGGCGCTGCTGGCCAAGCGCCGGCGGGCCCTGGACGTCGAGCTGATCCGCGACATTCCGGACGCCACGCTCTGGGTCCAGGCCGGCGAAACCCGTTTGCGTCAGGTACTCGGCAATCTGCTCGCCAACGCCCTCGACGCCCTCGCCGAAAAGGCCCCGCCACGGCGCATCTGGCTCAGCGTCGAGCAGAACGCCGACGGCATCGCCCTGCAACTGCGCGACAACGGTCCCGGCTTCTCCGCCGAAGCCTTGCAACGCGCCCGCGAGCCCTTCTTCACCACCAAGACCAGCGCCCAGGGCCTTGGCCTCGGCCTGGCCATTTGCGATAGCCTGATGCGCGCCATCGGCGGCGAGCTGCTGCTCGACAACCACCCCGACGGCGGCGCCCTGCTGACCCTGCGCCTGCGTGCCGGCGTACCCGGCGTCAATCTCCAGCCCCCCGAGGATCTTTCTGCATGA	MSKVLSHSQRPRWRSLALLTLLLAPLLWPLQHLAERYYSDELIQQNSQTLDLYVANLLGTLRRYEVLPQILGDLPALRSALLQPDDPATLNAANRLLKRVRGQTGADVIYLMDNRGKTLGASNWDHEDSFVGRNFAFRPYFREAIAGRLGRFFGLGTTSGKRGYYFAAAVRDGEQVLGALVVKVDLDHTENLWGHTPEQLRVTDANGVVILTSRPEWRFRATRPLDERERNEVAANQPYPTLAPKALELDDKAWLIQSRELEETGWTVSILAPTSLIERPVRNVVAIGGATLLVLVLLVGLLMQRRRHYLERIALDARARRELEIRVLERTRDLEALNSRLKQEVLEREQAQQELVRAQDELVQAGKLSALGTMSASISHELNQPLAAIRSYAENAGVLLDHGRTDDARGNLRLISELTERMASIIAHLRAFARRDRHAPESIALQPALEDALALLAKRRRALDVELIRDIPDATLWVQAGETRLRQVLGNLLANALDALAEKAPPRRIWLSVEQNADGIALQLRDNGPGFSAEALQRAREPFFTTKTSAQGLGLGLAICDSLMRAIGGELLLDNHPDGGALLTLRLRAGVPGVNLQPPEDLSA	PGPT0017305_732	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017305-dctB-K10125	NA	NA
BMS010_06590	255			hypothetical protein	ATGAAGCCGATCAAGCACCTGTACCTGTATTTCCACGATGGCCAGCGACTGGCCCTGCGCTTTCCCGGCACCGCCAGCGACCCGGTGGAAATCGCCCGCGGCCTGAGCCGGCAACTGGAGTCGCCGTTTCTCAGCATCGCGGTGGATGGCGACCTGATGCTGATTCCCCGGGAAAGCATCAAGTACCTGCAGATCAGCCCGGCACCGCCCGTGTTGCCGGATGCGACCATTCTCGGCGCCCAACTGATCGTCTGA	MKPIKHLYLYFHDGQRLALRFPGTASDPVEIARGLSRQLESPFLSIAVDGDLMLIPRESIKYLQISPAPPVLPDATILGAQLIV				NA	NA	NA	NA	NA
BMS010_06591	324			hypothetical protein	ATGGATCTGCTACTGGACCTGATCGCCACCCTGTCGCGCTGGAGCCGCAGCCATCTGCACGACATTTCCCTGGCCATCCTCGCCACCCTGATGGTGCTGTTCGGCCCCGGCCTGAACACCTGGATGCAGCAACGCATCGGCAGCCTCAACTTCATTTTCCGCACCCTGATCTTCGTGCTGTTCTGCGCGCTGGCCTACGGCATGCTGCTGATCTTCCTCACCCCCTGGCTGGCCAAGGGGCTGGGTTATTTCAATAACTACACCCTGGCGCCGGTCCTGCTACTAGTCTTCTTCCTGATCGGAGTGATCGCCGATCGCAGCTGA	MDLLLDLIATLSRWSRSHLHDISLAILATLMVLFGPGLNTWMQQRIGSLNFIFRTLIFVLFCALAYGMLLIFLTPWLAKGLGYFNNYTLAPVLLLVFFLIGVIADRS				NA	NA	NA	NA	NA
BMS010_06592	1215	hemW_2	COG0635	Heme chaperone HemW	ATGACCCCAGCGGCAAGCGGCAAGCCCCAAGCCGCAGGGGAGAGCGACTCCGAGCGCTTGCAGCTTTCGGCTTGTCGCTTTGCGCTACCCCCTCTGGCGTTGTACGTGCACATCCCCTGGTGCGTGCGTAAGTGCCCTTATTGCGACTTCAACTCCCATGCCGCCGGCCCCGAGTTGCCGGAAGAGGCCTATGTCGACGCCTTGCTCGCCGACCTTGATGCCGATCTGTCGCAGGTTCACGACCGTCGGCTGACCTCGATCTTCTTCGGCGGCGGCACGCCCAGCCTGTTTTCCGCGAAGGCGCTGGGCCGGTTGCTGGAAGGCGTCGAGCGGCGGGTGGCCTTCGAGGACGATATCGAGATCACCCTGGAAGCCAACCCGGGCACCTTCGAGCAGGCCAAGTTCCGCGATTACCGGGCGCTGGGCATCAACCGGTTGTCCATCGGCATCCAGAGCTTTCAGGAAGACAAGCTGAAAGCGCTGGGCCGCATCCATGACGGCGGCGAAGCGATCCGCGCGGCGGACATGGCGCGCCAGGCCGGCTTCGATAACTTCAACCTGGACCTCATGCACGGCCTGCCCGGCCAGAGCCTCGACGAAGCCCTGGCCGACCTGCGCCAGGCCATCGCCCTGGCGCCCACCCACCTGTCCTGGTACCAGCTCACCCTGGAGCCGAACACCCTGTTCTGGAGCCAACCGCCCCAGTTACCCGAGGACGACATTCTCTGGGACATCCAGGAAGCCGGACAGGCCCTGCTGGCCGCCGAGGGTTACGCCCAGTACGAAGTCTCCGCCTACGCCCGGGACGGTCGGCGCGCCCGGCACAATCTGAATTACTGGACCTTCGGCGATTTCCTCGGCATCGGCGCCGGCGCCCACGCCAAGCTGAGCGACCCGCACGGCCGCATCCAGCGAACCTGGAAGACCCGCCTGCCAAAGGACTACCTCAACCCGAAGAAACCGTTCCAGGCCGGCGAACGCCTGCTCGAACGCGACGAGCTGCCGTTCGAATTCCTGATGAACGTCCTGCGCCTCACCGAGGGCGTTCCCGCGGCGCTCTTCACCCAGCGCACCGGACTGCCCCTGGCCGAACTGGACAAGGCCCGCCATGAAGCCGAAACCCGTGGTCTCCTCCAGACCGACCCGCAGCGGCTGACCGCCACCCGCGAAGGTCAACTGTTCCTCAACGATCTCCTTCAATTCTTCCTGCCCTGA	MTPAASGKPQAAGESDSERLQLSACRFALPPLALYVHIPWCVRKCPYCDFNSHAAGPELPEEAYVDALLADLDADLSQVHDRRLTSIFFGGGTPSLFSAKALGRLLEGVERRVAFEDDIEITLEANPGTFEQAKFRDYRALGINRLSIGIQSFQEDKLKALGRIHDGGEAIRAADMARQAGFDNFNLDLMHGLPGQSLDEALADLRQAIALAPTHLSWYQLTLEPNTLFWSQPPQLPEDDILWDIQEAGQALLAAEGYAQYEVSAYARDGRRARHNLNYWTFGDFLGIGAGAHAKLSDPHGRIQRTWKTRLPKDYLNPKKPFQAGERLLERDELPFEFLMNVLRLTEGVPAALFTQRTGLPLAELDKARHEAETRGLLQTDPQRLTATREGQLFLNDLLQFFLP	PGPT0003200_2983	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003200-hemN|hemZ-K02495	NA	NA
BMS010_06593	594	rdgB	COG0127	dITP/XTP pyrophosphatase	ATGATGCCCTTCAAGGAACTGGTGCTGGCCAGCCATAACGCCGGCAAACTCAAGGAGCTGCAGGCCATGCTCGGCGACGCCGTGCGGGTGCGCTCCGTTGGTGAATTCAGTGACGTGGAGCCGGAAGAAACCGGCCTCTCCTTCGTAGAAAACGCCATCCTCAAGGCCCGCCATGCGGCCAGGATCTCCGGCCTGCCGGCGCTGGCCGACGATTCCGGCCTGGCGGTGGACGCCCTTGGCGGTGCGCCGGGCATCTACTCGGCACGCTATGCCGATGGTGCCGGCGATGCGGCGAACAACGCCAAGCTGCTGGAAGCGCTGAGAGACGTCCCGGATACCGAACGCGGCGCCCAGTTCGTCTGCGCCCTGGCGCTGCTCCGGCACGCCGAGGACCCGTTGCCGATCCTGTGCGAAGGTCTCTGGCATGGCTCCATCCTGCACGAAGCGCGCGGCAGCAACGGCTTCGGCTACGACCCGCTGTTCTGGGTCCCCGAACGCGATTGCTCCAGCGCCGAGCTGGATTCCAGCACAAAGAACCAGCTAAGCCACCGCGCCCGCGCCATGGCACAGTTACGCCAGCGGTTGGGGTTATGA	MMPFKELVLASHNAGKLKELQAMLGDAVRVRSVGEFSDVEPEETGLSFVENAILKARHAARISGLPALADDSGLAVDALGGAPGIYSARYADGAGDAANNAKLLEALRDVPDTERGAQFVCALALLRHAEDPLPILCEGLWHGSILHEARGSNGFGYDPLFWVPERDCSSAELDSSTKNQLSHRARAMAQLRQRLGL	PGPT0021590_4190	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021590-rdgB-K02428	NA	NA
BMS010_06594	420			hypothetical protein	ATGCGTCGCATCGCCCTCTTCCTCCTCGCCCTCTGCCTCGCCGTGCCGGCCTTTGCCGAGCGCAAGCAGAGCTTCGGTGATCTGGATGTCCACTACAGCGCCTTCAACTCCAGCTTCCTCCAGCCCGACATCGCCGCAGCCGCCGGCCTGACCCGCAGCAAGAGCCAGGGCGTACTCAACGTCGCCGTGCTCAAGGCCGGCAAGGCCAGCGCCGCCCAGGTCAGCGGCCAGGTGAAGAACCTGCTCGGCCAGGTCACGCCACTGAGCTTCAAGCAAGTCACCGAAGGCGAGGCCATCTACTACCTCGCGCAATTCCCGCTCGGCTCCCGCGAAATGCTCAGCTTCACGCTCAACGTGCAGAGCGCCGGCGGGCAGCCGTATACGTTCAGTTTCGACCAGGAAGTGTTTCCAGACGAATGA	MRRIALFLLALCLAVPAFAERKQSFGDLDVHYSAFNSSFLQPDIAAAAGLTRSKSQGVLNVAVLKAGKASAAQVSGQVKNLLGQVTPLSFKQVTEGEAIYYLAQFPLGSREMLSFTLNVQSAGGQPYTFSFDQEVFPDE				NA	NA	NA	NA	NA
BMS010_06595	621	metXA	COG0500	Bifunctional methionine biosynthesis protein MetXA/MetW	ATGCGAGCCGACCTGGACATCATCCAAGACTGGATTCCCACCGGCAGCCGGGTGCTCGACCTCGGCTGCGGCAAGGGCGAACTGCTGGCCTGGCTGCGCGACCACAAGCAGGTCAGCGGCTACGGCCTGGAGATCGACGCGGACAACATCGCCGAATGCATCGCCAAGGGCGTGAACGTCATCGAACAGAACCTCGACGAAGGCCTGGGCAACTTCGCCGACAACAGCTTCGACGTGGTGGTGATGACCCAGTCGCTGCAAGCCCTGCGCTACCCGGATAAGGTGCTGGCGGAAATGCTCCGCGTCGGACGCCAGTGCATCATCACCTTCCCCAACTTCGGTCACTGGCGCTGCCGCTGGTACCTGGCGAGCAAGGGCCGGATGCCGGTATCCGAATTCCTGCCGTATACCTGGTACAACACGCCCAACATCCACTTCTGCACCTTCGAGGATTTCGAGCGGCTGTGCCGGGAAATGCGCGTCAAGGTACTCGACCACCTCGCGGTGGACCGCGAGCACCGGCATAACTGGGCCAGCCGGCTATGGCCTAATCTATTAGGTGAGATCGGCATCTACCGCGTCAGCGGTCCCGCCGCGTCGGATCTGCAGATTGCCGTCTGA	MRADLDIIQDWIPTGSRVLDLGCGKGELLAWLRDHKQVSGYGLEIDADNIAECIAKGVNVIEQNLDEGLGNFADNSFDVVVMTQSLQALRYPDKVLAEMLRVGRQCIITFPNFGHWRCRWYLASKGRMPVSEFLPYTWYNTPNIHFCTFEDFERLCREMRVKVLDHLAVDREHRHNWASRLWPNLLGEIGIYRVSGPAASDLQIAV				NA	NA	NA	NA	NA
BMS010_06596	1140	metXS	COG2021	Homoserine O-succinyltransferase	ATGCCCACGTCTTTTCCAGAAGATTCCGTCGGACTGGTCACTCCACAGTCGATCCGTTTCAGCGAGCCGCTGGCGCTGGCCTGCGGGCGCAGCCTGGCCGAGTATGAACTGGTCTACGAAACCTACGGTGAACTCAACGCCGCGCGCAGCAATGCGGTGCTGATCTGCCACGCCCTGTCCGGCCATCACCATGCCGCCGGCTACCACAGCCCCGACGACCGCAAGCCGGGCTGGTGGGATAGCTGCATCGGGCCGGGCAAGCCCATCGACACGCGCAAATTCTTCGTCGTCAGCCTGAACAACCTGGGCGGCTGCAACGGCTCCACCGGCCCGTCCAGCACCAACCCCGCCACCGGCAAGCCCTATGGCGCCGACTTCCCGGTCGTCACCGTGGAAGACTGGGTGCACAGCCAGGCTCGCCTGGCCGATGCCCTCGGCATCCAGCAATGGGCGGCGGTGGTCGGTGGCAGCCTCGGAGGCATGCAGGCGCTGCAATGGACCATCAGCTACCCGGAACGCGTCCGGCACTGTCTGGCCATTGCTTCGGCGCCCAAGCTGTCGGCACAGAACATCGCCTTCAACGAAGTGGCGCGGCAGGCGATCCTGTCCGATCCGGAGTTCCACGGCGGCCATTTCCAGGAGAAAGGCGTGATTCCCAAGCGCGGCCTGATGCTGGCGCGCATGGTCGGGCACATCACTTACCTGTCCGACGACGCCATGGGCGAGAAATTCGGCCGCGGGCTGAAGAGCGACAAGCTCAACTACGACTTCCATAGCGTGGAATTCCAGGTGGAAAGCTACCTGCGCTACCAGGGCGAGGAGTTTTCCGGACGCTTCGACGCCAATACCTACCTGCTGATGACCAAGGCCCTCGACTACTTCGACCCGGCCGCCGCCCATGACGGCGACCTGGCGAAAACGCTGAGCGCGGCCAAGGCCGACTTCTGTGTGATGTCCTTCACCACCGACTGGCGCTTCTCGCCGCAGCGCTCGCGGGAAATCGTCGACGCCCTGCTCGCTGCGCGGAAAAACGTCTGCTACCTGGAAATCGACGCCCCGCAGGGCCACGACGCCTTCCTCATGCCGATCCCGCGCTACCTGCAGGCGTTCGGCAGCTACATGAACCGGATTCTGGTGTAA	MPTSFPEDSVGLVTPQSIRFSEPLALACGRSLAEYELVYETYGELNAARSNAVLICHALSGHHHAAGYHSPDDRKPGWWDSCIGPGKPIDTRKFFVVSLNNLGGCNGSTGPSSTNPATGKPYGADFPVVTVEDWVHSQARLADALGIQQWAAVVGGSLGGMQALQWTISYPERVRHCLAIASAPKLSAQNIAFNEVARQAILSDPEFHGGHFQEKGVIPKRGLMLARMVGHITYLSDDAMGEKFGRGLKSDKLNYDFHSVEFQVESYLRYQGEEFSGRFDANTYLLMTKALDYFDPAAAHDGDLAKTLSAAKADFCVMSFTTDWRFSPQRSREIVDALLAARKNVCYLEIDAPQGHDAFLMPIPRYLQAFGSYMNRILV	PGPT0011520_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-CYCLOSERINE_METABOLISM,PGPT0011520-dcsE-K19726	NA	NA
BMS010_06597	1989			hypothetical protein	ATGAGCATGGAACGTCTTGGCCAGCAGGTCGATGCCTATGTCGGCTGGAAACGCGAGCTCATGCGGGAGATCACCCGCTACCGCAGCTGGTTGGCGAACAACCGGCTCAGTTCCGAAGCGGTGGAGGCCAAGCTCGAACGGGCCCTGCGCCTGCTGCGCACGGACCACATCACCCTGGCCTTCATCGGTGAGTTCTCCCGCGGCAAGACCGAGCTGATCAACAGCCTGTTTTTCTCCGGCTACGGCCAGCGCATGCTGCCGTCGCAGGCCGGGCGCACCACCATGTGCCCCACCGAACTCCTGTTCGACCCGCGCTCCGAGCGCTCCTATATCCGCCTGCTGCCGATCGAGACGCGCGTCTCCGACGCCAGCATGGCGCAGTTCAAGCGCATTCCCCGGCATTGGGTGAACATCCCGCTCGACCCCAGCGATCCGGACAACATGGTCCAGGCCTTCGCCCAGGTCGCCAAGACCAAGCCGATGGCCGTGGAGCAGGCGATCCAGCTCGGCTTCCATCCGGACATGCTGGAAAGCGCCGGCAAACCGGGCCAGGTGCTGGTGCCGGCCTGGCGCCACGCCATCGTCAACTTCGACCACCCGCTGCTGCGCCAGGGCCTGCGCATCCTCGACACCCCCGGCCTGAACGCCCTGGGCAGCGAGCCCGAGCTGACCCTGTCGATGCTGCCCGCCGCCCAGGCGATCATCTTCCTGCTGGCCGCCGACACCGGTGTCACGGCCAGCGACATGGCGATCTGGCAACAACATATCCGCCAGCTCGACGAGGACACCCAGACCAGCCTGTTCGCCGTCCTGAACAAGATCGACGTGCTCTGGGACGACCTGGCCGGCGAAGCCTTCGTGCAGAACGCCATCCAGCAGGTCCAGGCCACCACTGCCCAGCAGCTCGGCATCGCCCCCGAGGATGTCCTGCCGCTGTCGGCCAAGCAGGCGCTGCTGGCCAAGGTCCGCCGCGATCCGGCGCTGCTCGAGCGCAGCCAGATGGCCACGCTCGAACACCTGCTTTGCGAACGCATCGTCGCGCAGAAGGAGCGGCTGCTCGAGGAGCAGGTGGTCCGCCAGGTGCTCAATCTGCTGCAGAACAGCCAGCACGTGCTCAACCTGCGCCTGGAGAAGGTCCGCGAGCAGCGCAACCTGCTCGACAACCAGCGCCAGGACAACGGCCAACTGCTGTTCGAACTGACCGCCCGGACCAAGGACGACCACAGCCTGCACCACAAGCGACTGCTCGGCCTGAAGACCAACCAGCGGCTGCTCAAGCGCCAGGGCGACCTGCTGCGCGCCGCGGTACGCAGCGAGCGCCTGGAAAACCATCTGCGCAAGGTCCGGCGGAACCTGACCGGAAGCTGGACGACGCTCGGCATCAACCAGGCGATCCTGCATTTCTTCCGCTCGGTGGAAGCCGACTTGCACACCCTCGAACACGAGGCCGAGATGGCCAACAAGATGGTTGCCGCCATCTACCGCCGGCACAACGAGGAGAACCCGCTGCACGGCATCGACGCTCCGCAGTTCGATGTGCGGCGCTACCTGCGCGAACTCAAGCACCTGCAGGCCAAGGCCGACCAGTTCCGCCTGCACGTGAAGACGCTGCTCACCGAGCAGCGCACCCTGACCCGCCGCTTCTTCGCCACCCTGGTGCAGGAAGTCATGGGCCTGCACCAACGCCTGCGCCTGGCTGCCGGACAGTGGGCCAACGATGCACTGATGCCGCTGATGCAGCACACCCTGGAGCACAAGCAACTGCTCGAGGCTCACATGCTGCAGCTCAAGTCGCTGGCCCAGGACACCCAGCAGGCGCAGAAGCGCAGCCAACTGCTGGCCCGCTACGCCAACGACCTGGAGCAGCAACTGGCCCAGGCCAACGAAATGCTGCGCGTCCTGCGCCGGCCGGCGCCGATCCAGCGCCAGGGCAAGGTGGTCAGCCTGCATCCGGCCGCCTGGCAAGCAACCGCAGTCGACCAAGCCTGA	MSMERLGQQVDAYVGWKRELMREITRYRSWLANNRLSSEAVEAKLERALRLLRTDHITLAFIGEFSRGKTELINSLFFSGYGQRMLPSQAGRTTMCPTELLFDPRSERSYIRLLPIETRVSDASMAQFKRIPRHWVNIPLDPSDPDNMVQAFAQVAKTKPMAVEQAIQLGFHPDMLESAGKPGQVLVPAWRHAIVNFDHPLLRQGLRILDTPGLNALGSEPELTLSMLPAAQAIIFLLAADTGVTASDMAIWQQHIRQLDEDTQTSLFAVLNKIDVLWDDLAGEAFVQNAIQQVQATTAQQLGIAPEDVLPLSAKQALLAKVRRDPALLERSQMATLEHLLCERIVAQKERLLEEQVVRQVLNLLQNSQHVLNLRLEKVREQRNLLDNQRQDNGQLLFELTARTKDDHSLHHKRLLGLKTNQRLLKRQGDLLRAAVRSERLENHLRKVRRNLTGSWTTLGINQAILHFFRSVEADLHTLEHEAEMANKMVAAIYRRHNEENPLHGIDAPQFDVRRYLRELKHLQAKADQFRLHVKTLLTEQRTLTRRFFATLVQEVMGLHQRLRLAAGQWANDALMPLMQHTLEHKQLLEAHMLQLKSLAQDTQQAQKRSQLLARYANDLEQQLAQANEMLRVLRRPAPIQRQGKVVSLHPAAWQATAVDQA				NA	NA	NA	NA	NA
BMS010_06598	297			hypothetical protein	ATGAGCTATTTCCGCTGGGATGGCGAGGACCTGATCCTCGACTGCCACCTGCAGCCCAAGGCGAGCCGCGACGAGTTCGCCGGGCTGCACGGTGAGCGCCTGAAAATCCGCCTCACCGCCCCGCCGGTGGAAGGCAAGGCCAACGCCCACCTGCTGGCCTTCCTCGGTGCGGCCTTCGGTGTCGCCAAGAGCCAGGTCCGCCTGGAGAGCGGCGAACTGAACCGGCAGAAGCGAGTGCGCATCCTGTCGCCGAAGCAACTGCCCGACCTGCCCGGACTGACCATTCGTTCCCCTTGA	MSYFRWDGEDLILDCHLQPKASRDEFAGLHGERLKIRLTAPPVEGKANAHLLAFLGAAFGVAKSQVRLESGELNRQKRVRILSPKQLPDLPGLTIRSP				NA	NA	NA	NA	NA
BMS010_06599	594			hypothetical protein	ATGTCCGGATTCGCCGAAGCCCTCATCTATGTCATCCAGACGCTGGGCAGCCTGTATCTGCTGATCGTCCTGCTGCGCTTCATCCTGCAACTGGTCCGCGCCGATTTCTACAATCCGCTCAGCCAGTTCATCGTCCGCGCCACCCAGCCGTTGCTGCGTCCGATGCGACGGGTGATTCCCAGTTTCGCGGGGCTCGACCTGTCTTCGTTGCTGCTGGCGGTGCTGATCCAACTGCTGCTGATGGTCGTCACCCTGGTCCTGATGGGCTACGGCGTGGGCGGGTACCTGCTGCAACTGCTGGTCTGGTCGATCATTGCGGTCACCTCGCTGTTCCTCAAGGTGTTCTTCTTCGCCCTGATCGTCAGCGTCATCCTGTCCTGGGTCGCGCCCGGCAGCTACAACCCGGCCGCCCAACTGGTGAACCAGATCTGCGAACCCCTGCTAGCGCCGTTCCGCCGGATACTGCCGAACCTCGGCGGCCTGGATATCTCGCCGATCTTCGCCTTCATCGCGATCAACCTCATCGACCGTTTCGTGCTGGGAAACCTCGCGGTGATGACCGGCATGCCGAGAATCCTCAGCCCGTTCCTCTGA	MSGFAEALIYVIQTLGSLYLLIVLLRFILQLVRADFYNPLSQFIVRATQPLLRPMRRVIPSFAGLDLSSLLLAVLIQLLLMVVTLVLMGYGVGGYLLQLLVWSIIAVTSLFLKVFFFALIVSVILSWVAPGSYNPAAQLVNQICEPLLAPFRRILPNLGGLDISPIFAFIAINLIDRFVLGNLAVMTGMPRILSPFL	PGPT0013730_175	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IVa_PILUS_HOMOLOG_PROTEIN,PGPT0013730-yggT|ylmG-K02221	NA	NA
BMS010_06600	822	proC_3	COG0345	Pyrroline-5-carboxylate reductase	ATGAGCACACCCCGCATTGCCTTCGTTGGCGCCGGCAACATGGCCGCCAGCCTGATCGGCGGCCTGCGTGCCCAGGGCGTCGACGCGGCCCTGCTGCGCGCCAGCGATCCGGGCGCCGAACAACGCGCACGCATTTCCGCCGAACACGGGATCGAGGTATTCGCCGATAACGCCGACGCCATAAGCGGAGCCGATGTGGTGGTGCTGTCAATCAAGCCGCAGGTCATGAAAACCGTCTGCCAAGCCCTGGCACCGAGCCTGCGCGATGGCCAACTGATCGTCTCGATCGCTGCCGGCATCACTTGCGCCAGCCTGGAGAACTGGCTGGGCAACGACCGCCCCATCGTGCGCTGCATGCCGAACACCCCCGCCTTGTTGCGCGAAGGCGCCAGCGGGTTGTACGCCAATGACAACGTGTCCGCCGTGCAACGCGAACAGGCCGAGCAGTTGCTCTCGGCGGTCGGATTGGCGCTGTGGCTGGACGAGGAACACCTGATCGACGCGGTTACCGCCGTTTCCGGTAGCGGTCCCGCCTATTTCTTCCTGCTGGTCGAAGCGATGATCGCCGCCGGCGAAAAACTCGGCCTGCCGCACGAAACCGCCGCCCGCCTGACCCAGCAGACCGCCCTCGGCGCTGCGCGGATGGTGATCGGCAGCGACGTGGACGCCGCCGAACTGCGCCGCCGCGTGACCTCGCCGGCCGGCACCACCGAGGCGGCGATCAAGACGTTCCAGGCCGGCGGCTTCGAAGCCCTGGTCGAGCAGGCGCTTGGCGCCGCTGCACGCCGCTCTGCCGAGCTGGCCGAACAATTGGGTCAATAG	MSTPRIAFVGAGNMAASLIGGLRAQGVDAALLRASDPGAEQRARISAEHGIEVFADNADAISGADVVVLSIKPQVMKTVCQALAPSLRDGQLIVSIAAGITCASLENWLGNDRPIVRCMPNTPALLREGASGLYANDNVSAVQREQAEQLLSAVGLALWLDEEHLIDAVTAVSGSGPAYFFLLVEAMIAAGEKLGLPHETAARLTQQTALGAARMVIGSDVDAAELRRRVTSPAGTTEAAIKTFQAGGFEALVEQALGAAARRSAELAEQLGQ	PGPT0014225_2992	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014225-proC-K00286	NA	NA
BMS010_06601	741	yggS	COG0325	Pyridoxal phosphate homeostasis protein	ATGCCGAACCCAGACGGGCTGGCCGCTAGAGCGCAGGTAATGTCCACGATAGCAAAGAATATTGCAAAGGTCGGAGCTCGCATCCGTGAGGCGGCGCAAGCCTCGCAGCGTGATTTTTCGACTATCGGTCTGCTCGCCGTGAGCAAGACCAAGCCCGCCGATGCCATCCGCGAAGCCTACGCCGCGGGTTTGCGCGATTTTGGCGAAAACTACCTGCAGGAAGCCCTGGGCAAGCAGCAGGAACTCATCGATCTCGACCTCTGCTGGCACTTTATAGGTCCTATCCAGTCGAACAAGACCCGGGCCATCGCCGAACATTTCTCCTGGGTACACTCCGTGGATCGCCTGAAGATCGCTCAGCGCCTGTCCGAACAGCGACCAGCGCAGTTGCCCCCGCTCAACGTCTGCCTGCAAGTGAACGTCAGCGGCGAAGCCAGCAAGTCCGGCTGCGCTCCCGAAGAACTGCCCGACCTGGCCAACGCCGTCGCATGCCTGCCGCGACTCAGGCTGCGCGGCCTGATGGCGATTCCCGAACCCACCGACGACACAGCCGCCCAGCATGCCGCCTTCGCCCGCCTGCGCGAACTACAACAGGCCTTGAATATGCCGCTGGACACCCTATCCATGGGAATGAGCCACGATCTCGAGGCTGCCATCGCCGAAGGCGCGACCTGGGTCCGCATAGGCACCGCACTCTTCGGTGCGCGCGACTACGGTCGCGCCCAGCCACAGAATCCATAA	MPNPDGLAARAQVMSTIAKNIAKVGARIREAAQASQRDFSTIGLLAVSKTKPADAIREAYAAGLRDFGENYLQEALGKQQELIDLDLCWHFIGPIQSNKTRAIAEHFSWVHSVDRLKIAQRLSEQRPAQLPPLNVCLQVNVSGEASKSGCAPEELPDLANAVACLPRLRLRGLMAIPEPTDDTAAQHAAFARLRELQQALNMPLDTLSMGMSHDLEAAIAEGATWVRIGTALFGARDYGRAQPQNP				NA	NA	NA	NA	NA
BMS010_06602	1035	pilT_2	COG2805	Twitching mobility protein	ATGGATATCACCGAGTTGCTTGCCTTCAGCGCCAAGCAAGGCGCTTCGGACCTGCATCTCTCTGCCGGTCTGCCGCCGATGATCCGCGTCGACGGCGATGTGCGCCGGATCAACCTGCCCGCCATGGATCACAAGCAGGTTCACGCGCTGATCTACGACATCATGAACGACAAGCAGCGCAAGGATTACGAGGAGTTCCTGGAGACTGACTTCTCCTTCGAAGTCCCCGGCGTGGCGCGTTTCCGGGTCAACGCCTTCAATCAGAACCGTGGCGCGGGCGCGGTGTTCCGGACCATTCCTTCCAAGGTCCTGAGCATGGAAGACCTGGGCATGGGCGAAGTGTTCAAGAAGATCACCGACGTGCCGCGCGGCCTTGTGCTGGTGACCGGCCCCACCGGTTCGGGCAAGTCCACCACCCTGGCGGCGATGCTCGATTACCTGAACAACACCAAGTACCACCATATCCTGACCATCGAAGACCCGATCGAATTCGTTCACGAGTCGAAGAAGTGCCTGGTCAACCAGCGCGAGGTGCATCGCGACACCCTGGGCTTCTCCGAAGCCCTGCGTTCGGCACTGCGGGAAGACCCGGACATCATCCTGGTGGGTGAGATGCGTGACCTGGAAACCATCCGACTGGCGCTGACCGCCGCGGAAACCGGTCACCTGGTATTCGGCACCCTGCACACCACCTCCGCGGCCAAGACCATCGACCGGGTGGTCGACGTGTTCCCCGCCGAGGAAAAGTCGATGGTTCGCTCGATGCTCTCCGAGTCGCTGCAAGCGGTAATTTCCCAGACGCTGCTGAAGAAGATCGGCGGTGGCCGGGTTGCGGCCCACGAGATCATGATCGGTACCCCGGCGATCCGTAACCTGATCCGGGAAGACAAGGTTGCGCAGATGTACTCGTCGATCCAGACCGGCGGCTCCCTGGGCATGCAGACGCTCGACATGTGCCTGAAGAACCTGGTCGCCAAGGGCCTGGTCAGCCGCGAGGCTGCCCGCGAGAAGGCGAAGGCGCCGGAGAACTTCTGA	MDITELLAFSAKQGASDLHLSAGLPPMIRVDGDVRRINLPAMDHKQVHALIYDIMNDKQRKDYEEFLETDFSFEVPGVARFRVNAFNQNRGAGAVFRTIPSKVLSMEDLGMGEVFKKITDVPRGLVLVTGPTGSGKSTTLAAMLDYLNNTKYHHILTIEDPIEFVHESKKCLVNQREVHRDTLGFSEALRSALREDPDIILVGEMRDLETIRLALTAAETGHLVFGTLHTTSAAKTIDRVVDVFPAEEKSMVRSMLSESLQAVISQTLLKKIGGGRVAAHEIMIGTPAIRNLIREDKVAQMYSSIQTGGSLGMQTLDMCLKNLVAKGLVSREAAREKAKAPENF	PGPT0015875_2300	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015875-pilT-K02669	NA	NA
BMS010_06603	1146	pilT_3	COG2805	Twitching mobility protein	ATGGAATTCGAGAAGCTGCTGCGCCTGATGGTGGAAAAGGGTGGTTCCGATCTTTTCATCACCGCCGGTGTGCCGCCGTCGATGAAGGTGAACGGCAAGATCATGCCGGTGACCAAGAACGCCATGTCCCCCGAGCAGACCCGGGAAACCGTGCATGGGGTGATGAACGAGCAGCAGCGTCGCGAATTCACCGAGAATCATGAGTGCAACTTCGCCATCAGCGCGCGTGGCATCGGCCGTTTCCGGGTCAGTGCCTTCTACCAGCGCAACCTCGCCGGCATGGTGCTGCGTCGCATCGAGACCAACATTCCGACTCTGGAAGACCTCAAGCTGCCGGATGTGCTGAAGAAGCTGGCGATGACCAAGCGCGGTCTGGTGCTGTTCGTCGGTGCCACGGGTACCGGTAAGTCCACCTCTCTGGCGGCAATGATCGGTTACCGTAACAAGAACAGCAGCGGCCACATCATCTCCATCGAAGACCCGATCGAATACATCCACCAGCACCAGAACTGCATCGTCACCCAGCGCGAGGTCGGCATCGATACCGAGTCCTTCGAAGTGGCGCTGAAGAACACCCTGCGACAGGCGCCCGACGTGATCCTGATCGGTGAGGTGCGTACCCGCGAAACCATGGACTATGCGGTGGCTTTCGCCGAGACCGGTCACCTGTGCCTGGCGACCTTGCACGCCAACAACGCGAACCAGGCGCTGGACCGCATCATCAACTTCTTCCCGGCGGATCGTCAGCAGCAGGTCTGGATGGACCTCTCGCTGAACCTCAAGGCGATCGTCGCCCAGCAACTGATCCCGACCCCGGATGGCAAGGGTCGTCGTGCGGTGATCGAGGTGCTGATCAATACCCCGCTGGCCGCCGACCTGATCCGCAAGGGCGAAGTACACGAACTCAAGGGGTTGATGAAGCGCTCCACCGAGCAGGGCATGCAGACCTTCGACCAAGCGCTCTACCAGCTCTATACCCAGGGCGAAATCACCTACGAAGACGCACTGGCCCACGCCGACTCGGCCAACGACCTGCGTCTGATGATCAAACTGGGTTCGGAAACGGACGGCGATCACCTGACCAGCATCAGCCAGGGCTTGAGCCTGGAGGTCAGTGAAGAGGACCCGGGGCGGCGCTTCCGCTGA	MEFEKLLRLMVEKGGSDLFITAGVPPSMKVNGKIMPVTKNAMSPEQTRETVHGVMNEQQRREFTENHECNFAISARGIGRFRVSAFYQRNLAGMVLRRIETNIPTLEDLKLPDVLKKLAMTKRGLVLFVGATGTGKSTSLAAMIGYRNKNSSGHIISIEDPIEYIHQHQNCIVTQREVGIDTESFEVALKNTLRQAPDVILIGEVRTRETMDYAVAFAETGHLCLATLHANNANQALDRIINFFPADRQQQVWMDLSLNLKAIVAQQLIPTPDGKGRRAVIEVLINTPLAADLIRKGEVHELKGLMKRSTEQGMQTFDQALYQLYTQGEITYEDALAHADSANDLRLMIKLGSETDGDHLTSISQGLSLEVSEEDPGRRFR	PGPT0015880_406	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015880-pilU-K02670	NA	NA
BMS010_06604	531			hypothetical protein	ATGCGTTTCTTCATCCTGACAGGTCTGCTTGCCTGCCTGCTTCTGCCGCCAACGGCAGGGGCGACCAACCGCCATAAGCTGCTGCATCCCGCGGACTCGGTGCATCTCGCGGCGCGCCAGAGCAGCGATGTATTGAGCCGTGCCGTGAACAGTCTCGGTACGCCTTATCGCTGGGGCGGCACCACGCCCGAGAAAGGTTTCGACTGCAGCGGACTGGTGAAATATGCCTTCGGCGAGATCGACGACGTAGAGCTGCCGCGCACTTCCAGCGCCATGGCCAGGTCCGGCGGAAAACAGGTCTCGCGCAACCAACTGCAACCAGGCGATCTGCTGTTCTTCAGGCTGAGAAGCCGCCGTATCGATCACGTGGCCATCTACCTGGGCGGCGACCGCTTCATCCATGCGCCGCGCCGCGGAAAGTCCGTGAGCATCGACACCCTGGAGAAGCCCTTCTGGAAGCGTCACTACGTCATGGCGAAACGCGTACTGCCCGCCATGCCGGCGGATGGGCCGGCGCTGACCTCGCGTTGA	MRFFILTGLLACLLLPPTAGATNRHKLLHPADSVHLAARQSSDVLSRAVNSLGTPYRWGGTTPEKGFDCSGLVKYAFGEIDDVELPRTSSAMARSGGKQVSRNQLQPGDLLFFRLRSRRIDHVAIYLGGDRFIHAPRRGKSVSIDTLEKPFWKRHYVMAKRVLPAMPADGPALTSR	PGPT0023830_376	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_DD-ENDOPEPTIDASE_ACTIVITY,PGPT0023830-mepH-K19303	NA	NA
BMS010_06605	399			hypothetical protein	ATGCAGACCCAGGACACCCATAGCAAGGCCATCGGTTACCTGCTGTGGATCTTCGGCTTTCTCGGTTCGCACCGTTTCTACTACGGCAAACCCGTCACGGGGACGATCTGGTTCTTTACCCTGGGCTTGTTGTTCGTCGGCTGGATCATCGACTTGTTCCTGATCCCTTCGATGGACCGGGAGGCTGACCAGCGTTACACCGCAGGCGGCTTGGACTATAACGTGGCCTGGATTCTGCTGACCTTCCTCGGGATCTTCGGTGTGCACCGGATGTACCAGGGCAAGTGGATCACCGGCATCCTCTACCTGTTCACCGGCGGCCTTTTCATGCTGGGCGTGCTGTATGACTTCTGGACCCTGAACGAACAGGTATCCGAGCGTAACGCAGGGCGTGGCTGA	MQTQDTHSKAIGYLLWIFGFLGSHRFYYGKPVTGTIWFFTLGLLFVGWIIDLFLIPSMDREADQRYTAGGLDYNVAWILLTFLGIFGVHRMYQGKWITGILYLFTGGLFMLGVLYDFWTLNEQVSERNAGRG				NA	NA	NA	NA	NA
BMS010_06606	1275	pyrC'	COG0044	Dihydroorotase-like protein	ATGCGAACCCAGATTCTCGGCGCCCGCGTCATCGACCCTGCCAGCGGCCTGGACCAGCTCGCCAATCTCTATCTGGAGGGCGGCAAGATCATCTCGATTGGCCAGGCGCCGGCCGGTTTCGAAGCCGACCGCACCATCGATGCCTCCGGACTGATCGTCGCTCCCGGGCTGGTCGACCTTTCCGTCGCCCTGCGCGAGCCGGGCTACAGCCGCAAGGGCAATATCGCCAGCGAAACCCTGGCCGCGGCGGCAGGAGGCGTTACCAGCCTGTGCTGCCCGCCACTGACCCGCCCGATCCTGGATACGCCGGCGGTCGCCGAACTGATCCTCGACCGGGCGCAGGAAGCCGGCCATACCAAGGTGTTCCCCATCGGTGCTCTGAGCAAAGGCTTGGCAGGCGAGCAACTGGCCGAACTGGTCGCCCTGCGCGATGCCGGCTGCGTGGCCTTCGGCAACGGCCTGAACAACTTCGCCAACAACCGCACCCTGCGCCGTGCGCTGGAGTATGCGGCCACTTTCCAGTTGACCGTGGTCTTCCACTCCCAGGACGCTTCTCTCGCGGAAGGCGGCCTCGCCCACGAAGGCCCCACCGCCGGCTTCCTCGGCCTTGCCGGCATCCCCGAATCGGCGGAAACCGTGGCCTTGGCCCGCGACCTGCTGCTGGTCGAGCAGACCGGCGTACGCGCCCACTTCAGCCAACTGACCAGCGCGCGCGGCGCTCAGATGATCGCCGATGCCCAGGCCCGCGGGCTGCCGGTGACCGCCGACGTGGCGCTTTATCAACTCATCCTGACCGACGAGACACTGGAAGGCTTTTCCAGCCTCTACCACGTCCAACCGCCGCTGCGTACCCGTGCGGACCGCGATGGACTGCGCGAGGCGGTGAAAAGCGGGGTGATCCAGGCCATCGCCAGCCATCACCAGCCCCATGAAGCGGATGCCAAGCTGGCCCCGTTCGGCGCGACCGAACCCGGTATCAGCGGCGTCGAACTGCTGTTGCCGCTGGCAATGACCCTGGTGGAGGACGGCCTGCTCGACCTGCCGACCCTGCTGATGCGGCTCACCGCCGGCCCGGCGAAAGCCCTGCGCCTGCCTGCCGGCCGCCTCGCCGCCGGCGCACCGGCCGATCTCGTTCTGTTCGACCCCAACGCCTCCACATTGGCCGGGGAAGCCTGGTACTCCAAAGGCGAAAACTGCCCGTTCATCGGCCATTGCCTGCCAAGCAATGTGCGCTACACCTTGGTGGACGGTCGCATCAGCTACCAGGCCGAATAG	MRTQILGARVIDPASGLDQLANLYLEGGKIISIGQAPAGFEADRTIDASGLIVAPGLVDLSVALREPGYSRKGNIASETLAAAAGGVTSLCCPPLTRPILDTPAVAELILDRAQEAGHTKVFPIGALSKGLAGEQLAELVALRDAGCVAFGNGLNNFANNRTLRRALEYAATFQLTVVFHSQDASLAEGGLAHEGPTAGFLGLAGIPESAETVALARDLLLVEQTGVRAHFSQLTSARGAQMIADAQARGLPVTADVALYQLILTDETLEGFSSLYHVQPPLRTRADRDGLREAVKSGVIQAIASHHQPHEADAKLAPFGATEPGISGVELLLPLAMTLVEDGLLDLPTLLMRLTAGPAKALRLPAGRLAAGAPADLVLFDPNASTLAGEAWYSKGENCPFIGHCLPSNVRYTLVDGRISYQAE	PGPT0021145_4061	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021145-pyrC-K01465	NA	NA
BMS010_06607	1011	pyrB_2		Aspartate carbamoyltransferase	ATGACGCCGACCGACGCCAAGCGCCCGCTGCAGCTCAACGACCAGGGCCAACTGCGCCACTTCCTCTCGCTCGACGGCCTGCCCCGCGAGCTGCTGACCGAAATCCTCGATACCGCCGACTCCTTTCTGGAAATCGGCACCCGCGCCGTGAAAAAGGTTCCCCTGCTGCGCGGCAAGACGGTGTGCAACGTGTTCTTCGAGAACTCGACACGCACCCGCACCACCTTCGAGCTGGCCGCCCAGCGCCTGTCCGCCGACGTGATCACGCTCAACGTGTCCACGTCCTCCACCAGCAAGGGCGAGACGCTCTTCGACACGCTGCGCAACCTGGAAGCCATGGCCGCCGACATGTTCGTCGTCCGTCATGCCGATTCCGGCGCGGCGCACTTCATCGCCGAGCATGTTTGCCCCGACGTGGCAATCATCAACGGCGGCGACGGCCGTCATGCGCACCCGACCCAGGGCATGCTCGACATGCTCACCATTCGCCGGCACAAGGGCAGCTTCGAGAATCTCTCGGTGGCCATCGTCGGCGATATCCTGCATTCCCGGGTCGCCCGCTCGAACATGCTGGCGCTGAAAACCCTGGGCTGCCCGGATATTCGCGTGATCGGTCCGAAGACACTGCTCCCCATCGGCATCGAGCAATATGGCGTCCGCGTTTTCACCGACCTCGCCGAGGGGCTCAAGGACGTTGACGTGGTGATCATGCTGCGCCTGCAACGGGAGCGTATGCAGGGCGGCCTGCTGCCCAGCGAGGGCGAGTTCTACCGACTCTATGGCCTGACCACCGCGCGTCTCGCACTGGCCAAGCCGGAGGCGCTGGTCATGCACCCGGGGCCGATCAACCGCGGCGTGGAGATCGAGTCCGCGGTGGCCGACGGCCCACAGTCGGTGATCCTCAACCAGGTCACCTACGGCATCGCGATCCGCATGGCGGTCCTGTCCATGGCCATGAGCGGCCAGGCCGCACAACGTCAACTGAATCAGGAAGCCGAGGAGCAGAACTGA	MTPTDAKRPLQLNDQGQLRHFLSLDGLPRELLTEILDTADSFLEIGTRAVKKVPLLRGKTVCNVFFENSTRTRTTFELAAQRLSADVITLNVSTSSTSKGETLFDTLRNLEAMAADMFVVRHADSGAAHFIAEHVCPDVAIINGGDGRHAHPTQGMLDMLTIRRHKGSFENLSVAIVGDILHSRVARSNMLALKTLGCPDIRVIGPKTLLPIGIEQYGVRVFTDLAEGLKDVDVVIMLRLQRERMQGGLLPSEGEFYRLYGLTTARLALAKPEALVMHPGPINRGVEIESAVADGPQSVILNQVTYGIAIRMAVLSMAMSGQAAQRQLNQEAEEQN	PGPT0021160_857	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021160-pyrB-K00609	NA	NA
BMS010_06608	516	pyrR		Bifunctional protein PyrR	ATGACATTGCCGATTCCCGCCGAACTGCTGCCTGGGATGGCCACCGCACTGAAAACGCATCTGACCAACCGCAAGATCACCGAGCCCCGTTTCATCGGCATCCGCACCGGCGGCGTCTGGGTCGCCCAGGCCCTGTTGGACACCCTTGGCAGCCAGGAGCCGCTGGGCAGCCTGGACGTGTCGTTCTACCGCGACGATTTCACCCGCAACGGCCTGCATCCGCAGGTGAAGCCCTCGGCCCTGCCCTTCGAGATCGAAGACCAGCACCTGGTACTGATCGATGACGTATTGATGAGTGGCCGCACCATTCGCGCCGCGCTCAACGAACTGTTCGATTATGGCCGGCCCGCCAGCGTAACCCTCGTCTGCCTGCTGGATCTCAATGCCCGTGAGCTGCCGATCCGTCCCGACGTGGTCGGCGCCACCCTGTCGCTCGGCGAGGATGAGAGAGTAAAATTGCTCGGTCCGACGCCGCTCACCCTTGAGCTTCAGACCCTCGCCCCCGCCGACCATTGA	MTLPIPAELLPGMATALKTHLTNRKITEPRFIGIRTGGVWVAQALLDTLGSQEPLGSLDVSFYRDDFTRNGLHPQVKPSALPFEIEDQHLVLIDDVLMSGRTIRAALNELFDYGRPASVTLVCLLDLNARELPIRPDVVGATLSLGEDERVKLLGPTPLTLELQTLAPADH	PGPT0021245_2268	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021245-pyrR-K02825	NA	NA
BMS010_06609	429	yqgF	COG0816	Putative pre-16S rRNA nuclease	ATGAGCGCCCCACGACTGCTGCTTGGTTTCGACTACGGCACCAAGCAGATCGGCGTAGCCGTCGGCCAGGCGGTCACCGGGCAAGCCCGCGAACTGTGCGTGCTGAAAGCGCAGAACGGCGTACCGGACTGGCAAAAAGTGGAAGCGTTGATTCGCGAATGGCAGCCGGACGCCATCGTCGTCGGCCTGCCGCTGAACATGGATGGCACCCCCAGCGACATGAGCGAGCGTGCGGAGAAGTTCGCCCGCCGCCTGCACGGCCGCTTCAATCTGCCCGTGCACACCCACGACGAACGATTGACCACCTTCGAAGCCAAAGGCCAGCGCCTGGCCCAGGGCCAGCGGGGCGGTTACCGCGAGCGTCCGGTGGATGCCCTGGCGGCAGCACTATTGCTGGAAGGCTGGCTCGCCGAACACAGCAACGGTTGA	MSAPRLLLGFDYGTKQIGVAVGQAVTGQARELCVLKAQNGVPDWQKVEALIREWQPDAIVVGLPLNMDGTPSDMSERAEKFARRLHGRFNLPVHTHDERLTTFEAKGQRLAQGQRGGYRERPVDALAAALLLEGWLAEHSNG				NA	NA	NA	NA	NA
BMS010_06610	570			hypothetical protein	ATGAAAAGCACCTCGCCCAGCTACCTCAAGCACCACTTTCTCATCGCCATGCCCCACATGGCCGACCCCAGCTTCGCGCAGACGGTCACCTACCTGGTCGACCACAACGAGCAGGGCGCCATGGGCCTGGTGATCAATCGGCCCAGCGGCCTGAATCTCGCCGATGTGATGGAACAACTGCGCCCGGACTTCGACGCATCCCCGGCCTGCCAGAACATTCCCATCTTTTCCGGCGGCCCGGTGCAGACCGACCGTGGCTTCGTCCTGCATCCCGCCGGACAGAGCTACCAGGCCACCCTGGAGCTGGGCGAGCTGTCGCTTTCCACCTCGCAGGACATTCTGCTCGCCATTGCCGACGGGCAGGGTCCCAGGCGCAGCCTGATCGCACTTGGCTATGCCGGCTGGGAAGCCGGCCAACTGGAAGCCGAACTGGTCAGCAATGCCTGGCTGACCTGTCCGGCCGATCTGTCGATTCTCTTCGATACCCCTGCCGAACAGCGCCTCGAAGCGGCAGCGTCCCACCTGGGCATCAACCTCAGCCTGCTGACCGCTCAGGCCGGCCACGCATGA	MKSTSPSYLKHHFLIAMPHMADPSFAQTVTYLVDHNEQGAMGLVINRPSGLNLADVMEQLRPDFDASPACQNIPIFSGGPVQTDRGFVLHPAGQSYQATLELGELSLSTSQDILLAIADGQGPRRSLIALGYAGWEAGQLEAELVSNAWLTCPADLSILFDTPAEQRLEAAASHLGINLSLLTAQAGHA	PGPT0026120_1508	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0026120-algH-K07735	NA	NA
BMS010_06611	894			hypothetical protein	ATGAACGCAGCTGCTAACTTGCCCGAACTTTCCACCACCGGCGTCCGACCGGGGGACAGGCTGGGCTTTACTCTTTTTCTCGCCGCCGCGATCCACGCGGCGCTGATCCTCGGCCTCGGCTTTACTTTCGCCGAGCCCAGCCAGGTCAGCAAAAGCCTGGAAGTGACGCTTTCCACCTTCAAGAGCGAAGAAAAGCCGAAGGACGCCGACTTCATCGCCCAGGACAACCAGCAGGGCAGCGGCACGCTGGAGCACAAGGCCGCGCCGAAGACCACCGAGCAGGCGATGTTCCAGGACAGCGAGATCAAGCGTGTCACGCCGCCCACCGCCCCGCCCCAGACCCAATCCAAGGAAACACCCAAGGCCGCCGTGGCGACCCGCGCACCGCAACCGCAGAAAACCCCGGTCAATCGTGAAGAAACCAAGCCCGAACCGGAAGCGCGCCCGGCCCCCGTCTTCGACAGCGCCCAACTGTCTTCCGAGATCGCCAGTCTCGAGGCGCAACTGGCCCAGGAGCGCGAGCAGTACGCCAAGCGACCCAAGATCCACCGCCTGAATGCAGCCTCGACCATGCGGGACAAGGGCGCTTGGTACAAGGACGAATGGCGCAAGAAGGTCGAGCGGGTCGGCAACCTCAACTACCCTGAGGAAGCACGCCGGCAGCGCATCTATGGCAGCCTGCGCCTGCTGGTTTCCATCAATCGCGACGGCACACTGTATGAAGTCCAGGTTCTGGAGTCGTCCGGCCAGCCGATACTGGACCAGGCGGCATTGCGTATCGTGCGTCTCGCCGCGCCCTTTGCGCCGTTCAGCGGAGACCTCTCCGACATCGACCGCCTCGAGATCATCCGGACCTGGCGCTTCGAGCGCGGCGACCGTCTGTCGAGCAACTGA	MNAAANLPELSTTGVRPGDRLGFTLFLAAAIHAALILGLGFTFAEPSQVSKSLEVTLSTFKSEEKPKDADFIAQDNQQGSGTLEHKAAPKTTEQAMFQDSEIKRVTPPTAPPQTQSKETPKAAVATRAPQPQKTPVNREETKPEPEARPAPVFDSAQLSSEIASLEAQLAQEREQYAKRPKIHRLNAASTMRDKGAWYKDEWRKKVERVGNLNYPEEARRQRIYGSLRLLVSINRDGTLYEVQVLESSGQPILDQAALRIVRLAAPFAPFSGDLSDIDRLEIIRTWRFERGDRLSSN	PGPT0003745_888	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003745-tonB-K03832	NA	NA
BMS010_06612	951	gshB_3	COG0189	Glutathione synthetase	ATGAGCGTTCGCCTCGGGATTGTCATGGACCCCATCGCAGGCATCTCCTTCAAGAAGGACAGCTCGCTGGCCATGTTGCTTGCCGCCCAGTCTCGTGGCTGGGAGCTGTTCTACATGGAGCAGCAGGATCTATACCAGATCAAAAGCGAAGCCCGCGCGCGCATGCGCCGGATCGAAGTATTCAACGATCCCCAGCGCTGGTTCGAGCTGGCCGAGGAAATCGACACGCCGCTGTCCGAACTGGATGTGATCCTGATGCGCAAGGATCCGCCCTTCAACAGCGAGTACGTTTACGCAACCTATCTGCTGGAACTTGCCGAGAAGGCCGGCACCCTGGTGGTCAATCGCCCACAGAGCCTGCGTGATTGCAACGAGAAGTTCTTCGCCACCCAATTTCCGCAATGCATGCCGCCGACTCTGGTAAGCCGACGCGCCGATATTCTGCGTGAGTTTGCCGAAGAGCAACGTGACATCATTCTCAAACCCCTGGACGAAATGGGCGGCGCCTCAATCTTTCGCCATCGCCAGGGAGACCCCAATCTCTCGGTGATCCTGGAGACCCTGACTCACCACGGCGCCCGCCAGATCATGGCGCAGCGTTATCTGCCGGAGATCAAGGACGGCGACAAACGCATCCTGATGATCGATGGCGAACCCGTCCCCTATTGCCTCGCGCGCATCCCGGCAGCCGGAGAAACTCGCGGCAACCTCGCCGCCGGCGGTCGCGGAGTGGCCCAGCCGCTGTCTCCGCGCGACTTCGAGATCGCCGCTGAGGTGGGCCCCGAGCTGCGCAAGCGGGGACTGCTGTTCGTCGGCCTGGATGTGATCGGCGATTACCTTACGGAAATCAACATCACCAGCCCGACCTGCATCCGCGAAATCGACAATGCCTTCGATACCCGCATCGGAGAGCGCCTGATAGATGCCATCGCCGAGAAACTGAAGGCCTGA	MSVRLGIVMDPIAGISFKKDSSLAMLLAAQSRGWELFYMEQQDLYQIKSEARARMRRIEVFNDPQRWFELAEEIDTPLSELDVILMRKDPPFNSEYVYATYLLELAEKAGTLVVNRPQSLRDCNEKFFATQFPQCMPPTLVSRRADILREFAEEQRDIILKPLDEMGGASIFRHRQGDPNLSVILETLTHHGARQIMAQRYLPEIKDGDKRILMIDGEPVPYCLARIPAAGETRGNLAAGGRGVAQPLSPRDFEIAAEVGPELRKRGLLFVGLDVIGDYLTEINITSPTCIREIDNAFDTRIGERLIDAIAEKLKA	PGPT0013040_1344	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013040-gshB-K01920	NA	NA
BMS010_06613	408	walR_3	COG0745	Transcriptional regulatory protein WalR	ATGGAACAGCATTCCGAAGGTTTGAGAGTGATGGTGATCGACGACTCGAAAACGATTCGTCGTACCGCGGAAACTCTTCTGAAGAAAGTGGGGTGCGACGTTATTACGGCGGTCGACGGTTTCGATGCGCTGGCCAAGATCGCCGATACCCATCCCAGTATCATCTTTGTCGACATCATGATGCCGCGGCTCGATGGATATCAGACCTGCGCCCTGATCAAGAATAACAGTGCTTTCAAATCCACCCCGGTGATCATGCTGTCCTCCAAGGACGGCCTGTTCGACAAGGCCAAGGGCCGTATCGTTGGGTCCGACCAGTACCTCACCAAGCCTTTCAGCAAGGAAGAGCTGCTCGGCGCCATCAAGGCCCACGTGCCCGACTTCACCCCGGTGGAGCAAGCATCCTGA	MEQHSEGLRVMVIDDSKTIRRTAETLLKKVGCDVITAVDGFDALAKIADTHPSIIFVDIMMPRLDGYQTCALIKNNSAFKSTPVIMLSSKDGLFDKAKGRIVGSDQYLTKPFSKEELLGAIKAHVPDFTPVEQAS	PGPT0015835_248	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015835-pilG-K02657	NA	NA
BMS010_06614	366	pleD_2		Response regulator PleD	ATGGCTCGTATTCTGATTGTTGATGACTCGCCGACCGAGATGTACAAGCTGACCGCTATGCTGGAAAAGCATGGTCATCAGGTACTCAAGGCTGAAAATGGCGCCGATGGTGTGGCTTTGGCTCGCCAGGAAAAGCCCGACGCCGTATTGATGGATATCGTCATGCCCGGCCTCAACGGCTTCCAGGCAACCCGTCAACTGACCAAAGATGCCGACACCAGTCACATTCCGGTGATTATCGTCACCACCAAGGACCAGGAAACCGATAAGGTCTGGGGCAAACGTCAGGGCGCGCGTGACTATCTGACCAAGCCGGTCGATGAAGATACGTTGCTGAAAACCCTTAACGCGGTCCTGGCCGGCTAA	MARILIVDDSPTEMYKLTAMLEKHGHQVLKAENGADGVALARQEKPDAVLMDIVMPGLNGFQATRQLTKDADTSHIPVIIVTTKDQETDKVWGKRQGARDYLTKPVDEDTLLKTLNAVLAG	PGPT0015840_244	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015840-pilH-K02658	NA	NA
BMS010_06615	537			hypothetical protein	ATGTCGGAAGCCCAGACTCCCTTTGAACTCCTGATCGAGATCGACCAGCGTTGCCGTCAGTTGGCCGCTGGCCTTCCCTCGCAGCAGGAAGTCGTCCAGACCTGGAGTGGGATCGGTTTCCGCATGGGCGATCGTCTTTTCGTCGCACCGATGGGGGAGGTCGGTGAGGTACTCCACGAACCGCGCTACACCTTGCTGCCCGGTGTGAAGTCCTGGGTCAAGGGCGTAGCCAACGTGCGTGGACGGCTATTGCCGATCATGGACCTGTGTGGGTTCTTCGGTAGCGAGCTGTCGCCACTGCGCAAGCAGCGGCGGGTACTGGTGGTCGATCACCAGGAAATTTTCGCTGGACTGACCGTCGACGAAGTCTTCGGTATGCAGCATTTCCCTGTGGACGCGTTTTCTGAGCAGCTGCCTCCTCTGGAGGCGGTCATCCAGCCTTTCATACATGGGGTTTTTCAGCGCGAACAACCCTGGCTGGTGTTCAGTCCACACGCGCTGGCGCAGCACCAAGGCTTTCTCGACGTGGCGTTATAA	MSEAQTPFELLIEIDQRCRQLAAGLPSQQEVVQTWSGIGFRMGDRLFVAPMGEVGEVLHEPRYTLLPGVKSWVKGVANVRGRLLPIMDLCGFFGSELSPLRKQRRVLVVDHQEIFAGLTVDEVFGMQHFPVDAFSEQLPPLEAVIQPFIHGVFQREQPWLVFSPHALAQHQGFLDVAL	PGPT0015845_289	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015845-pilI-K02659	NA	NA
BMS010_06616	2049			hypothetical protein	ATGAAAAAACTAAACGCAGGAAACTTGCTGGCAGGTATGCGCAGCAGCACCTTGATCGCAGGGCTCTTCGTCGTCCTGATCGTATCCATCGTGCTGTTGTTCGCCAACTTCGCCTATCTCAACACCCAGTCGAACAACGACAAGGACTACCTCAGCCACTCCGGTGAGCTGCGCGTCCTGTCGCAGCGTATCGCGAAGAACGCCACGGAAGCGGCGACGGGTAAGGCCGAGGCCTTCGCCCTGCTGAAGGATGCGCGTAACGACTTCGAAAAGCGCTGGGGCGTCCTGCGTAACGGCGACGAGGCTTCCGGCCTGCCGCCCGCGCCCGAGGCCGTCCAGCCGGAAATGGCCGCGGTGCAGCAGGACTGGGATGTCCTGCGGCAGAACGCCGACGCCATTCTTGCCAGCGAACAGACCGTACTGTCCCTGCACCAGGTGGCCGCGACCCTGGCGGAAACCATTCCGCAGCTGCAGGTCGAGTACGAAGAGGTCGTGGACATCCTGCTGGAAAGCGGGGCTCCCGCCGTTCAGGTTTCCGTGGCCCAGCGCCAATCCTTGCTGGCAGAGCGTATTCTCGGCTCGGTGAACAAGGTGTTGGCCGGTGACGAGGATTCGGTGCAGGCCGCCGATATGTTCGGTCGCGACGCCAGCCTGTTTGGCCGCGTATTGAACGCGATGCTGGAAGGCAACACGGCGATGGAAATCACCAAGGTGACCGACCCCGAGGCGCTGGAGCGCCTGGCCGAGATTTCCGAACTGTTCGAGTTCGTCTCCGGTTCGGTGGACGAAATCCTCGAGACTTCGCCAGAGCTGTTCCAGGTCCGTGAATCCGCCGGCACCATCTTCACCGTTTCCCAGACCCTGCTGGATCGCGCCTCGGCGTTGGCAGACAGCTTCGAGAATCTGGCGTCCGGTCGTTACTTCAATATCCTGGCCGGTTATGTGCTGGGTGCGCTGGCTCTGGCATCGATCATCCTGATCGGTCTGGTCATGGTACAGGACACCCGCCGTCGTCTTGCCGAGACCGCCGAGAAGAACGAACGCAACCAGGCGGCGATTCTGCGACTGCTCGACGAGATCGCCGACCTCGCGGACGGTGACCTCACCGTGGCCGCGACCGTGACCGAAGATTTCACCGGTGCGATCGCCGACTCCATCAACTACTCCATCGACCAGTTGCGCGATCTGGTACTGACCATCAACCAGACCGCCGTGCAGGTGGCTGCGGCCGCCCAGGAAACCCAGGCCACGGCCATGCACCTTGCTGAAGCGTCCGAGCACCAGGCGCAGGAAATCGCCGGCGCCTCCGCCGCGATCAACGAGATGGCGGTATCGATTGACCAGGTATCGGCGAACGCCTCGGAGTCCTCGGCGGTAGCGGAGCGCTCCGTAGCCATTGCCAACAAGGGCAACGAAGTGGTGCACAACACCATCACCGGCATGGACAACATCCGTGAGCAGATCCAGGACACCTCGAAGCGGATCAAGCGTCTCGGTGAATCGTCCCAGGAGATCGGTGACATCGTTAGCCTGATTAACGACATTGCCGACCAGACCAACATCCTCGCACTGAACGCCGCGATCCAGGCATCCATGGCCGGCGATGCGGGCCGGGGCTTCGCGGTGGTAGCGGACGAAGTACAGCGCCTCGCAGAGCGTTCTTCCGCGGCAACCAAGCAGATCGAGGCACTGGTAAAGACCATTCAGACCGACACCAACGAAGCGGTTATCTCCATGGAACAGACCACCGCGGAAGTGGTACGCGGTGCTCGTCTGGCCCAGGACGCCGGTGTGGCGCTGGAAGAGATCGAGAAGGTATCCAAGACCCTCGCGGCCTTGATTCAGAACATCTCCAACGCCGCCCGTCAGCAGGCCTCTTCGGCCGGCCATATTTCCAACACCATGAACGTGATTCAGGAAATTACCTCGCAGACGTCGTCCGGTACGACCGCCACCGCGAAGAGCATCGGTAACCTGGCCAAGATGGCCAGCGAGATGCGCAAATCGGTATCGGGCTTCACCCTGCCGGAAGCGTCGGAGCAGGTTTGA	MKKLNAGNLLAGMRSSTLIAGLFVVLIVSIVLLFANFAYLNTQSNNDKDYLSHSGELRVLSQRIAKNATEAATGKAEAFALLKDARNDFEKRWGVLRNGDEASGLPPAPEAVQPEMAAVQQDWDVLRQNADAILASEQTVLSLHQVAATLAETIPQLQVEYEEVVDILLESGAPAVQVSVAQRQSLLAERILGSVNKVLAGDEDSVQAADMFGRDASLFGRVLNAMLEGNTAMEITKVTDPEALERLAEISELFEFVSGSVDEILETSPELFQVRESAGTIFTVSQTLLDRASALADSFENLASGRYFNILAGYVLGALALASIILIGLVMVQDTRRRLAETAEKNERNQAAILRLLDEIADLADGDLTVAATVTEDFTGAIADSINYSIDQLRDLVLTINQTAVQVAAAAQETQATAMHLAEASEHQAQEIAGASAAINEMAVSIDQVSANASESSAVAERSVAIANKGNEVVHNTITGMDNIREQIQDTSKRIKRLGESSQEIGDIVSLINDIADQTNILALNAAIQASMAGDAGRGFAVVADEVQRLAERSSAATKQIEALVKTIQTDTNEAVISMEQTTAEVVRGARLAQDAGVALEEIEKVSKTLAALIQNISNAARQQASSAGHISNTMNVIQEITSQTSSGTTATAKSIGNLAKMASEMRKSVSGFTLPEASEQV	PGPT0015850_528	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015850-pilJ-K02660	NA	NA
BMS010_06617	864	cheR2_2		Chemotaxis protein methyltransferase Cher2	ATGCAGCCAAGCGGCGTTTGGGCCTTGCAACCCCTGGCCGATATGTCAGCGGCTGAGTTTCATGATTGGCAGGCGCTGCTCGAAGAACGCACCGGGCTGGTGATCAACGAGCAGCGTCGCGCGTTTCTGCAGACCAACCTGAGCGTACGCATGCGCGAACTGGGGGTGGCCGACTACGCCAGCTACTACCGGCAAGTGACTGCCGGCCCCCGGGGAGCGGTGGAGTGGTCGACGCTGCTGGATCGGTTGACCGTGCAGGAGACTCGCTTCTTTCGTCATCGCCCTTCCTTCGATGTGCTCGAGACCTATCTGCGAGAACGGTTGGAGCGGGAGGGCGCCGGGCGCCCCTGGTCGCTCTGGAGCGTAGGCTGTTCGAGCGGCGAAGAGCCGTATTCGTTGGCTATCTGCGCTGCAGAGGTGCTGCGTGAAAGTCAGTGGCCCGAACACTACGGTGTCACGGGTACCGATATCAGCCTGAGCGCGTTGAACAAGGCGCGGGAAGGCCACTATGCGGCACGGAAATTGGAACAACTGGATACCGATCTGAGCCAGCGTTATTTCGAGACGCTGGCCGATGGGAGCTTCAAGGTTTTACCGAGCCTGGCGTCGCGCGTCTGCTGCGCCCGGCTCAATGTGCTGGAACTGGCCAAGGCGCCGATGTCCGGCATGGACGTTATCTTCTGCCAGAACCTGCTGATCTATTTTCGCCGCTGGCGCCGCCGCGAGATCCTCAACCGTCTGGCCGAGCGCCTGGCACCGGGTGGTCTGATGGTGATCGGTGTGGGGGAAGTGGTCGGCTGGCAACATCCGGACATGCAGCCGGTAGCCGATGACAGGGTTCTGGCTTTTACCCGAAAGGGGTAA	MQPSGVWALQPLADMSAAEFHDWQALLEERTGLVINEQRRAFLQTNLSVRMRELGVADYASYYRQVTAGPRGAVEWSTLLDRLTVQETRFFRHRPSFDVLETYLRERLEREGAGRPWSLWSVGCSSGEEPYSLAICAAEVLRESQWPEHYGVTGTDISLSALNKAREGHYAARKLEQLDTDLSQRYFETLADGSFKVLPSLASRVCCARLNVLELAKAPMSGMDVIFCQNLLIYFRRWRRREILNRLAERLAPGGLMVIGVGEVVGWQHPDMQPVADDRVLAFTRKG	PGPT0015855_36	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015855-pilK-K02661	NA	NA
BMS010_06618	7368	rcsC_21		Sensor histidine kinase RcsC	ATGGGTGATCGGCACGATTATGTCGCCCTGGAGTGGGTCAAGGGCGAAATCGCCGAGACGCTGAAACAGGCGCGTCAGGCTCTGGAGGCGTTCGTCGAGAACCCGCAGGACCCGACACGCATGCGTTTCTGCCTGGCCTATGTGCACCAGGTCCACGGCACCCTGCAGATGGTCGAGTTCTATGGCGCGGCGCTGCTGGCCGAAGAAATGGAGCAACTGTCGCAGGCACTGATGGAAGGCCGCGTAGCCAGCCAGGGCGAAGCCCTGGAAGTGCTGATGCAGGCGATCCTGCAGTTGCCGGTCTATCTCGACCGTATCCAGAGCGCGCGTCGCGACCTGACCGTGGTGGTGCTGCCGCTGCTCAACGATCTGCGTGCGGCCCGTGGCGAAAAACTCCTTTCGGAAACCAGCCTGTTCGCCCCGGATATGTCCGGGCGTTTGCCTGCCTTGCCGGTCGAAGCGCTGGCCCGACTGCGCACGGCCGAGTTGCCTGTCCTGCTGCGCAAGCTGCGGCAGATGCTGCAGATGGCGCTCGTCGGGGTGATTCGGAACCAGGACCTGGCGACCAATCTCGGCTACATGGCGCGGGTTTTCGCCCGTCTGGAAACGCTGTGCAAGGATGCGCCCCTCGGCCCGCTGTGGCAGATCGCATCCGGCCTGATCGAAGGCTTGGCCAATGGCAGTGTCGTCAACGGTGCTTCGGTGCGGACCCTCCTGCGCCAGGTCGATCGCGAGCTCAAGCGACTGGTGGAACAGGGTGCCGACGGCATCAACCAGTCGGCTCCGGACGAACTGACCAAGAACCTGCTTTTCTACATCGCCAAGGCTCCGGCGCAGTCGCCGCGGATTCGGGCGCTGAAGGAACAGTACCGGCTGGATGAGGCCCTGCCGGGCAGCGATGTGGTCGATGAAGAACGGGCCCGCATGGCCGGTCCCGATCGCGATGCCATGCGCTCGGTGGTTACTGCCCTCTGCGAAGAGCTGGTGCGGGTCAAGGACAGCCTGGACCTGTTCGTGCGCAGCGACCGCAAAGGGGTCACCGACCTGGATGCCCTGCTGCCACCGCTCAAGCAGATCGCGGATACCCTCGCCGTTCTTGGCTTCGCTCAACCGCGCAAAGTCATCCTCGATCAGATCGACGTCGTTCACAGCCTGTCTCTCGGCCAACGCGAGCCGACTGATGCAGTGCTGATGGATGTCGCGGGAGCGCTGCTCTACGTCGAAGCCACCCTGGCCGGCATGGTTGGCCCGGCGGAAGAAGCCGGCCGTGAAGAAAGCCACCTGCCGACCACCGATGTGGCGCAGATTCACCAGTTGGTGATCAAGGAGGCGCGCAATGGCTTGGAGCAGGCCAAGGACGCCATCATCGAATTCATCGCCTCGCAGTGGAACCATGAGCATCTGGCTCGGGTGCCCGACCTGCTGACCCAGGTCCGTGGCGGGCTGGCCATGATTCCCCTGAATCGCGCGGCCGAACTGCTCAACGCCTGCAACCATTACATCCAGGAGCAGCTTCTGGCGCGCAAGGCGGTCCCGAACTGGCAGAGCCTCGATACCCTGGCCGATGCCATCACCAGCGTCGAGTATTACCTCGAGCGTCTGGCTGAAGACCATGCGACACAGGGCGATCTGATCCTCGACGTTGCGGAAGAGAGCCTGGAAAGCCTCGGCTACCCGCTGAAGCAGAAACCGTCGATTCTGGATGCCGCGGAGCCGGTCGAAGAGGAAGAGCCCCTGGCGCCTCTGGCCGACCCGTTGCAGGACATCGAAGTCCTCGCAGCCGAGGAAAGCGAGCTGGTTCAGGATCTCGAGCCGATGGCTTGGGACGAGCGCCCCGCGTTCGACGCTCCGGAGCTCTCCTCGGAGCCCGAAACGCCCCTCGACGAGCTGACCCTGGACGACGGCGCCTTCCTCACCGCGGAAGAGCCCGCCGCTGCCGAAGGCGAACTGTTGGTTTCCGACGATAACTGGAGCCTGGGCGAAACCGTTCCTCTCGAAGAGGCCGAGGTCATCGATTTCAGCCTCGACATGCCGCTCGAAGAACCCTCGGTTCAGGAAGAGGTAGCGCACCGGCCCACCGAGACGTTCGACCTGGAGCTGGAGACGCTGAGCCTCGAGCCGCAGGACGAAAGCCCGGTCCAATGGAACGAAGCGGAGTTCGCCGCGCTCGACTTGCCGGAAGTGGAGTTGCCGAGCGCCCCCGAGGAGGTTGAACTGCCTCCGGTTGCCGAGCAGCCGACGCTGTCCATCGCGGATGTCATGGCTGCTCCTGTGCAGGCCATCAATCCCCCGGCACAGGATATCCCGCCGAGTCTGCTGCCCCCGCCTGCCGATGAGGAGCCGGTCGATGAGGACCTTCTGGAAGTTTTCATCGAAGAAGCGGGCGAAGTGCTGGAAACCATCGGTGAGTACCTGCCGCGCTGGCGTGCCGACACGAGCGACCGCGAGTCGTTGACCGAAGTACGTCGCGCCTTCCACACCCTGAAGGGTAGCGGTCGCATGGTCCGCGCCCTGGTGATCGGTGAGTTGGCCTGGTCCATCGAGAACCTGCTGAATCGGGTCCTGGATCGTACGATCGAGCCGAGCGACGACGTGCAGCAGGTGGTCGCCGACGTGGTGGCGTTGATGCCGGCGCTGGTCGATGAGTTCGCGGCCAAGGCCCAGCGCCAACGCGACGACGTGGACCGTCTGGCGGCCAATGCCCATGCGCTGGCCAAGGGGCTTGGCCTCCCAAAAACTGAAGCCCCGGCCTCAGCTCCGGCGGTCGAGCCCGAGGGAGCGACCGTAGCTGCTGCCGGGGCTGGAGATAGCGAGGACGAGGCGCTGGACCCGCAGTTGCTGGAAATATTCCGCAACGAGGCAGAGACTCACCTCGATACCTTGAACGCCTTCCTCGCCGAGTGCGACCGGGAGTTGCCGCAGCCGGTGAATGACAGCCTCCAGCGCGCCTTGCACACCCTGAAGGGGAGTGCGCACATGGCCGGCATCCTGCCGATCGCCGAGATCGCCATGCCGCTGGAAAAGCTGGTCAAGGAATTCAAGACCAACCTGATTCCCATCGACCTGGCCGAGGCCGAGTTACTGGGTACAGCCGAGACGCTGTTCCGCCGCGGTCTCGATCAGTTGGAAAGCCAGCCCTTGGCGCCCATCGAAGGGGCCGCCGAGTTCCTCGCCCGGGTGCATAAGCTGCATCAGGACCGCCTGGAAGTGGCCGAGAACACTCGCAAGGGTGAACAGGGCGAGGCCCGCGACCCGCAGCTGATTTCCATTTTCCTCGCCGAGGGGATGGATATCCTTCTCGACGCCGAGGACTTGCTCCATCGCTGGCGGGAACATCCTGCCGAGCGCCAGGAACTGAGTTCTCTGCTCGACGAGCTAACAACCCTCGGTCGTGGCGCTCAGATGGCCGAGCTGCCGCAGATCGATGAGCTCTGCCAGGCGTTGCTGGATATCTATGGTGCGGTCGGCGAGGGCCGTCTGGCGGTCAGTGAGCGCTTCTTCGACGAGGCCGAGCAGGCCCATGAGGCGCTGATTGGCATGATGGACCAAGTGGCCGCCGCCCTCCAGGTCACCGCCCAACCGGAACGTGTCGCCGCGTTGCGCGCGCTTCTGGAGGAAGCGCTCGATCCGGCCGCCCTGGCGCTGCTGGAACCGGATGCCATGCCGGGGATGGAAGTGCTGGAGCTCGACGAGGAGCAGGCCAGTGAACTGGAGGAGGCCTGGCCGGTGGCGTCGGAGAACGACGTACAGCCGGAGGCCGAATTCCAGGCGCCGGTCGATCAGGCGCAGACGTTCGCTCCGGTGGAGTCCGACGAGCTTGACGAGGAGATGGTTGCCATTTTCCTCGAGGAGGCGGAGGACATCCTGGAAAGCGCCGCCCAAGCACTCGAGCGCTGGTTGGAAGAGCCGGACAATCACAGCGTGTTGTCTTCGCTGCAGCGCGACCTGCATACCCTCAAGGGCGGGGCGAGAATGGCCGAGATTCGCCCGATAGGCGATCTGGCCCACGAGCTGGAATCTCTTTATGAGGGACTGGTCGACCGGCGTTTCAGCTATTCCCCCTTGCTGGGCAGCCTGTTGCAGCAGAGTCATGATCGTCTGGCCGCCTTGCTGGAGCAGTTGCAGGCCCGACGCCCCCTGGGCGATCCGGACGAGTTGCTGATTCAAGCGATTCGCGATTTCCGCCAGGGTGGTGGCCAGTCCTTGTCGGCAGCCTTCGCACTCCCCCAGACTGATTCCGAAGCCGAAGCCGAAGCCGAAGCCGAAGCCGAAGCCGAAGCCGAAGCCGAAGCCGAAGCCGAAGCCGAAGCCGAAGCCGAACCTTCCTTCGATACCGAACTTCCGCCGCCGCTGGATGTGGTGGAAGAGCCCATGATGGCCGAGCCGGAATTCGAATCCGTACCGGATGCCGCTGAACCCGTTCTCGAAAGCGAGCCGGAAGCGTTCGAGACCATCGAGCTGGAAGAGGTGGACGAGCCGACGGAGGTGCTTCCTCCGCAGGAAGCCTTGTCCATGGCGACACCGGTGACCGATGAGCCGCGGGTCGAAGAGCCGGTTGTTTCTTTCGATGAAGATCGCGATCCCGAGCTGGTGGAAATCTTCCTGGAAGAAGGTTTCGACATCCTGGAAAGTGCTGGCGCCGCCTTGCAGCGCTGGATGGGGGACGTCAACAACAGCCTCGAAGTCGAAGCGTTGCAGCGCGACCTGCACACCCTCAAGGGCGGTGCACGGATGGCGGAGATCCGTCAGATCGGCGATCTCGCCCACGAACTGGAGTACCTGTACGAAGGCTTGTGCGACGGGCGCCTGCGCGCCAGTCCGGAGCTCTTCGAACTGCTCCAGGCCTGCCACGACCGTCTGGCGGAAATGCTCGAAGCCGTGCGTGACAAGCGCCCGGTCCCCGGTGGGGAAGTCCTGATCGATGCCATCCGGCGGTTCCGTGCCAATCCGAACGAACAACTGAGCACGCCGGCCAGCGTTCATCTGCAGGCAGTGCCCGAACAGCACGAGGGTGAGGTCGCGGAGGCCGATATCCTCGACATCTTCCTGGAAGAGGCCGATGACCTGCTGGAGTCCCTTGAAGAGTCCATCGGCCTGTGGGAGCAGGATCGCACGGACGGGGCGATGCTCGATGATATGCTGCGTGTCCTGCATACCCTCAAGGGCGGTGCACGGCTGGCCGGTCAGAAGCGCCTCGGCGACCTGACCCACGATCTGGAACAACATCTCACCGAGGCGCAGCAGCAAGGTGCCCCCTGGCCGGAGAGCCTGTTCATTGACCTGCAGTCCGGTTTCGAAGGGCTGCAAAAGGAAGTGGACCTGCTGCGCCAACGCCTGGACGAAAGCCTGTCGGAAGGTGCCGTCGAGCCTGTCGAAGCGCCTGCCCCTGCGCCGACCCCAGCTCTGGTCGATCCGATCGTTGCTGCCAGTTCCTTGCCGATGGCCCAACCCTCGGCGGCCAAGGTCCTGCCGTTCGTTCGGCGGGCCCAGGAAGCTGCCATGGAGGCGGCGGCCCGGCGTGCGCCGCAGGAACTGGTCAAGGTACCGGCGGATCTGCTCGAAGGGCTGGTCAACCTGGCCGGCGAGACCTCGATTTTCCGTGGCCGGGTCGAGCAACAGGTCAGCGACGTCGGCTTCACCCTCAGCGAGATGGAAGCCACCATCGAGCGGGTGCGTGACCAGTTGCGCCGTCTGGATACCGAGACCCAGGCGCAGATTCTCAGCCGCTACCAGGCCGAAGCCGAGCGTGCGGGCTACGAAGAGTTCGATCCGCTTGAGATGGACCGCCATTCGCAATTGCAGCAGCTCTCGCGCGCATTGTTCGAATCCGCCTCCGACTTGCTCGACCTCAAGGAGACCCTGGCCGCACGTAATCGCGACGCGGAAACGCTGCTGCTGCAACAGGCACGGGTCAACACCGAGCTGCAGGAAGGCCTGATGCGTACCCGCATGGTGCCGTTCGACCGGCTGGTGCCGCGTCTGCGCCGGATCGTCCGTCAGGTCGCCAGCGAACTGGGCAAGCAGGTCGAATTCGTCGTCGGTAACGCCGAGGGCGAGATGGACCGTACCGTGCTGGAGCGCATCGTCGCGCCGCTGGAGCACATGCTGCGCAACGCCGTGGACCACGGCATCGAACCGGTGGAAGTCCGTCGTGCGGCCGGCAAGTCGGAGCAGGGCACCATCCGCCTGAACCTTGGCCGCGAGGGGGGCGATATCGTCCTCACGCTGTCCGACGACGGTGGCGGCATCAAGCTCGAAGCCGTGCGTCGCAAGGCCATCGAGCGTGGCCTGATGGATGCCGAATCCGACCTGTCGGATCACGAGATTCTGCAGTTCATCCTCGAGGCGGGTTTCTCCACGGCGGAGAAGGTTACCCAGATTTCCGGCCGTGGCGTCGGCATGGACGTGGTGCACTCCGAGGTCAAGCAGCTCGGCGGCTCCATGAGCATCGACTCGACGCCGGGCGAGGGCACCCGCTTCCTCATCCGCCTGCCGTTCACCGTGTCGGTGAACCGTGCGCTGATGGTGTATTCCGGCGAAGACCTGTATGCGATCCCGCTGAACACCATCGAAGGTATCGTACGGGTCTCGCCCTACGAGCTGGAGGCGTATTACCAGCCCGATGCGCCGCGTTTCGAATATGCCGGCCAGGCCTATGAACTGCGCTACCTGGGCGAACTGCTGAACAATGGCCAGCAGCCCAAGTTGATCGGCCAGAGCCTGCCGCTACCGGTGATTCTGGTGCGCTCCAGCGAGCATGCCGTGGCGGTGCAGGTGGACAGCCTTGCGGGCTCCCGCGAAATCGTAGTGAAGAGCCTCGGTCCGCAATTCGCCGGGGTGCACGGTATTTCCGGTGCGACCATCCTCGGTGACGGCCGGGTCGTGGTGATTCTCGACCTGCTGGCGACCATCCGTGGCCTGCATGCGCACCTCACCCAGCTGTTGCCGCGCACGTCCACCCCGTTCCAGTTGCCGTCGGAAGTCGATATCGAACGTCCGCCGCTGGTCATGGTGGTGGACGACTCGGTCACCGTGCGCAAGGTGACCAGCCGCCTGCTCGAGCGGAACGGGATGAACGTGCTGACCGCCAAGGACGGGGTGGATGCGATCTCGCAACTGCAGGAACAGCGGCCCGACATCATGCTGCTGGACATCGAGATGCCGCGTATGGACGGCTTCGAAGTCGCCACCCTGGTACGCCACGACGAGCGCTTGAAAGACCTGCCGATCATCATGATCACCTCGCGGACCGGCGAGAAGCACCGCGATCGTGCCATGTCCATCGGCGTCAACGAGTACCTGGGCAAGCCGTACCAGGAATCCCTGTTGCTCGAAACCATTCAGCGATTGGTCAAGGGAAATGACTGA	MGDRHDYVALEWVKGEIAETLKQARQALEAFVENPQDPTRMRFCLAYVHQVHGTLQMVEFYGAALLAEEMEQLSQALMEGRVASQGEALEVLMQAILQLPVYLDRIQSARRDLTVVVLPLLNDLRAARGEKLLSETSLFAPDMSGRLPALPVEALARLRTAELPVLLRKLRQMLQMALVGVIRNQDLATNLGYMARVFARLETLCKDAPLGPLWQIASGLIEGLANGSVVNGASVRTLLRQVDRELKRLVEQGADGINQSAPDELTKNLLFYIAKAPAQSPRIRALKEQYRLDEALPGSDVVDEERARMAGPDRDAMRSVVTALCEELVRVKDSLDLFVRSDRKGVTDLDALLPPLKQIADTLAVLGFAQPRKVILDQIDVVHSLSLGQREPTDAVLMDVAGALLYVEATLAGMVGPAEEAGREESHLPTTDVAQIHQLVIKEARNGLEQAKDAIIEFIASQWNHEHLARVPDLLTQVRGGLAMIPLNRAAELLNACNHYIQEQLLARKAVPNWQSLDTLADAITSVEYYLERLAEDHATQGDLILDVAEESLESLGYPLKQKPSILDAAEPVEEEEPLAPLADPLQDIEVLAAEESELVQDLEPMAWDERPAFDAPELSSEPETPLDELTLDDGAFLTAEEPAAAEGELLVSDDNWSLGETVPLEEAEVIDFSLDMPLEEPSVQEEVAHRPTETFDLELETLSLEPQDESPVQWNEAEFAALDLPEVELPSAPEEVELPPVAEQPTLSIADVMAAPVQAINPPAQDIPPSLLPPPADEEPVDEDLLEVFIEEAGEVLETIGEYLPRWRADTSDRESLTEVRRAFHTLKGSGRMVRALVIGELAWSIENLLNRVLDRTIEPSDDVQQVVADVVALMPALVDEFAAKAQRQRDDVDRLAANAHALAKGLGLPKTEAPASAPAVEPEGATVAAAGAGDSEDEALDPQLLEIFRNEAETHLDTLNAFLAECDRELPQPVNDSLQRALHTLKGSAHMAGILPIAEIAMPLEKLVKEFKTNLIPIDLAEAELLGTAETLFRRGLDQLESQPLAPIEGAAEFLARVHKLHQDRLEVAENTRKGEQGEARDPQLISIFLAEGMDILLDAEDLLHRWREHPAERQELSSLLDELTTLGRGAQMAELPQIDELCQALLDIYGAVGEGRLAVSERFFDEAEQAHEALIGMMDQVAAALQVTAQPERVAALRALLEEALDPAALALLEPDAMPGMEVLELDEEQASELEEAWPVASENDVQPEAEFQAPVDQAQTFAPVESDELDEEMVAIFLEEAEDILESAAQALERWLEEPDNHSVLSSLQRDLHTLKGGARMAEIRPIGDLAHELESLYEGLVDRRFSYSPLLGSLLQQSHDRLAALLEQLQARRPLGDPDELLIQAIRDFRQGGGQSLSAAFALPQTDSEAEAEAEAEAEAEAEAEAEAEAEAEAEPSFDTELPPPLDVVEEPMMAEPEFESVPDAAEPVLESEPEAFETIELEEVDEPTEVLPPQEALSMATPVTDEPRVEEPVVSFDEDRDPELVEIFLEEGFDILESAGAALQRWMGDVNNSLEVEALQRDLHTLKGGARMAEIRQIGDLAHELEYLYEGLCDGRLRASPELFELLQACHDRLAEMLEAVRDKRPVPGGEVLIDAIRRFRANPNEQLSTPASVHLQAVPEQHEGEVAEADILDIFLEEADDLLESLEESIGLWEQDRTDGAMLDDMLRVLHTLKGGARLAGQKRLGDLTHDLEQHLTEAQQQGAPWPESLFIDLQSGFEGLQKEVDLLRQRLDESLSEGAVEPVEAPAPAPTPALVDPIVAASSLPMAQPSAAKVLPFVRRAQEAAMEAAARRAPQELVKVPADLLEGLVNLAGETSIFRGRVEQQVSDVGFTLSEMEATIERVRDQLRRLDTETQAQILSRYQAEAERAGYEEFDPLEMDRHSQLQQLSRALFESASDLLDLKETLAARNRDAETLLLQQARVNTELQEGLMRTRMVPFDRLVPRLRRIVRQVASELGKQVEFVVGNAEGEMDRTVLERIVAPLEHMLRNAVDHGIEPVEVRRAAGKSEQGTIRLNLGREGGDIVLTLSDDGGGIKLEAVRRKAIERGLMDAESDLSDHEILQFILEAGFSTAEKVTQISGRGVGMDVVHSEVKQLGGSMSIDSTPGEGTRFLIRLPFTVSVNRALMVYSGEDLYAIPLNTIEGIVRVSPYELEAYYQPDAPRFEYAGQAYELRYLGELLNNGQQPKLIGQSLPLPVILVRSSEHAVAVQVDSLAGSREIVVKSLGPQFAGVHGISGATILGDGRVVVILDLLATIRGLHAHLTQLLPRTSTPFQLPSEVDIERPPLVMVVDDSVTVRKVTSRLLERNGMNVLTAKDGVDAISQLQEQRPDIMLLDIEMPRMDGFEVATLVRHDERLKDLPIIMITSRTGEKHRDRAMSIGVNEYLGKPYQESLLLETIQRLVKGND	PGPT0015785_49	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|VFR_SIGNALLING_PATHWAY,PGPT0015785-chpA-K06596	NA	NA
BMS010_06619	1020	cheB_11		Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGACTGAAAAGAGCACCGCGCGTATCGCGGTCATCGCCGACACCTCGCTGCAGCGCCATGTGCTGCAGCAGGCGCTGACCGGAAGTGGCTATAACGTCGTGCTCAACAGCGACCCCGCGCGCCTCGACGAAGAGGCGCTGGCGGCTTGCGAGACCGATCTCTGGCTGGTGGATCTGGCTCAGCTGGAGGATTCTCCACTGGTCGATACCCTGCTCGAAAAAGCCAGCGCTCCGGTGCTGTTCGGCGAAGGGCATGCTCCGGAGCGTCATTCCGAAAACTATCCGCGCTGGGAACGGCGGTTGTTCGGCAAGCTCAAGCGACTGGTCGGCGATCCGTCCCAGGCGGTCGGCCCCAGTCTGCAAGCCTTGTTGACCGAGGCGCAGCGTCCGACCCGGCTGGAATTGCCGCAATCACTGGCCTCTACTCCGCTGGTTGCTGGCGAGCCGGCCCGCCAGGTCTGGCTGCTCGCCGCGTCCCTTGGCGGACCGGCGGCGGTCAAGGCGTTTCTCGACGCCTTGCCAGGCGGTTTGCCGATCGGCTTCATCTACGCGCAGCATATCGACGCCGCTTTCGAGGCCGCCTTGCCCCAGGCGGTCGGGCGGCATAGCCAATGGCATGTCGGCATGGCTCGCGACGGAGATGCGGTGCGCTGCGGCGAAGTGATCGTGGCGCCTATCGCCCACGAGTTGGGCTTTCGCGACGACGGGGCGATGCAGATTGCCGAACAGGGTTGGCCGGACCCGTACAGCCCCTCCATCGACCAGATGATGCTCAATATGGCGCAGCACTTCGGCGCGAATTGCGGAATCATCGCCTTCAGCGGCATGGGTAGCGACGGTACGGCTGCGGCGGCCTACATGCGGCGGCAGGGCGGACATATCTGGACCCAGCGGGCCGATAGCTGCGCCTGTTCGAGCATGCCGGACAGCCTCCGCGAGGGAGGTTACAGCAGCTTCACTGCCGATCCTCGCGAGTTGGCCGAGGCCCTGGTGAACCATCTGGCGACGCAGTACGCCTGA	MTEKSTARIAVIADTSLQRHVLQQALTGSGYNVVLNSDPARLDEEALAACETDLWLVDLAQLEDSPLVDTLLEKASAPVLFGEGHAPERHSENYPRWERRLFGKLKRLVGDPSQAVGPSLQALLTEAQRPTRLELPQSLASTPLVAGEPARQVWLLAASLGGPAAVKAFLDALPGGLPIGFIYAQHIDAAFEAALPQAVGRHSQWHVGMARDGDAVRCGEVIVAPIAHELGFRDDGAMQIAEQGWPDPYSPSIDQMMLNMAQHFGANCGIIAFSGMGSDGTAAAAYMRRQGGHIWTQRADSCACSSMPDSLREGGYSSFTADPRELAEALVNHLATQYA	PGPT0015790_135	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-PILUS|FIMBRIAE_SYSTEM	MOTILITY-PILUS_SYSTEM-TWITCHING_MOTILITY,PGPT0015790-chpB-K06597	NA	NA
BMS010_06620	471			hypothetical protein	ATGAGCCAAGCCATCGCCACCCAGAGCACTGCCAAGGAGCTGACCGGTCTTCTGCTGCCGTTGACGGACCGGACCCTGCTCCTGCCCAACGTGGCGGTCGCCGAACTGATTCCCTTCCGGGCTCCCCAGGCCAGCCCCGGGCTGCCGGATTGGTTCCTGGGTCAGGTCGCCTGGCGTGACCTGCGTCTGCCGCTGCTGTCCTTCGAGGCGGCCTCCGACGGCCAGGCCGTGATCGGAATGGGCGCTCGCGTGGCTGTGATCAACGCGCTTGGCGGTCGGGCCCATGTGAAGTTCCTGGCTCTGCTGGTGCAGGGTATCCCGCGCTCGATCAAGGTCGATGCGCATCTGCTGCAATCCAATGCCCCCTTGGCGCCGCTGGAACTGGCGGCAGCCGACCTCGGCGAAGGGATCGTCAAGATCCCGGACCTGATCGGACTGGAGCAAATGCTCGCCGACGCGGGTTTGATTTGA	MSQAIATQSTAKELTGLLLPLTDRTLLLPNVAVAELIPFRAPQASPGLPDWFLGQVAWRDLRLPLLSFEAASDGQAVIGMGARVAVINALGGRAHVKFLALLVQGIPRSIKVDAHLLQSNAPLAPLELAAADLGEGIVKIPDLIGLEQMLADAGLI	PGPT0015795_176	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|VFR_SIGNALLING_PATHWAY,PGPT0015795-chpC-K06598	NA	NA
BMS010_06621	720	rsmE_1	COG1385	Ribosomal RNA small subunit methyltransferase E	ATGCGTCTATCCCGTTTCTTCGTCGATCAACCGCTCTCCCTTGGCCAGCATGAACTGCCCGAGACCCAGGCTCACTATATCGGCCGCGTCCTGCGCCTCGCGGTGGGCGATGCGGTGCAACTGTTCGATGGCAGTGGCCAGGAGTTCCTGGGCCAGTTAAGCGAAGTCGGGAAGAAGAGTGTGCGGGTCGAGCTCACAGAGCAGTTCGACGGACAAGCGGAATCGCCGCTCCGAGTGCACCTCGGTCAGGGCCTTTCGCGCGGCGAACGAATGGATTGGGCCATCCAGAAAGCCACCGAGCTGGGCGTCGCGGTCATCACGCCCGTGGTCAGCGAGCGCTGCGAAGTACGCCTGAAGGACGAGCGCGCCGACAAGCGCCTGGCTCACTGGCGGCAGATCGCGATCAGCGCCTGCGAGCAATGCGGTCGCTCGGTGCTGCCGGTCATCCACCCGCCCCTGCTGCTGAGCGACTGGCTGTGCCAGACCGAAGCCGATCTCAAGCTGGTCCTGCATCCGGTGGCCGAGCCGCTGAGCAGCCATCCGAAACCGGCATCGCTGGCCTTTCTCATCGGTCCCGAGGGTGGGCTCTCCGAAACGGAAGTCGACCAGGCGAAAGCAGCCGGCTTCCACGCCGCCCGGCTCGGCCCGCGTGTATTGCGCACAGAAACCGCGCCCGTGGTGGCCCTGAGCGTGGCACAGCAGTTGTGGGGGGACTTCTAA	MRLSRFFVDQPLSLGQHELPETQAHYIGRVLRLAVGDAVQLFDGSGQEFLGQLSEVGKKSVRVELTEQFDGQAESPLRVHLGQGLSRGERMDWAIQKATELGVAVITPVVSERCEVRLKDERADKRLAHWRQIAISACEQCGRSVLPVIHPPLLLSDWLCQTEADLKLVLHPVAEPLSSHPKPASLAFLIGPEGGLSETEVDQAKAAGFHAARLGPRVLRTETAPVVALSVAQQLWGDF				NA	NA	NA	NA	NA
BMS010_06622	1404	bioA_2		Adenosylmethionine-8-amino-7-oxononanoate aminotransferase	ATGGGCCTCAACGCCGAGTGGATGCAGCGCGACCTCGCCGTGCTCTGGCATCCCTGTACCCAGATGAAAGACCACGAGCGGCTGCCGCTGGTGCCGATCCGCCGCGGCGAAGGTGTCTGGCTGGAGGATTTCGAGGGCAAGCGCTATCTCGACGCGGTCAGCTCCTGGTGGGTCAATGTGTTCGGCCACGCCAACCCGCGCATCAACCAGCGGATCAAGGATCAGGTCGACCAGCTCGAACATGTCATTCTCGCCGGCTTCAGCCACCAGCCGGTGATCGAACTCTCCGAGCGGCTGGTCGCCATGACGCCGGCCGGCCTGGAACGGGTCTTCTATGCCGACAATGGCTCGTCCTGCATCGAAGTGGCGCTGAAGATGAGCCACCACTACTGGCTCAACATCGGCAAGCCGGAGAAGAAGCGCTTCGTCACTCTCAGCAACAGCTACCACGGCGAAACCGTGGCCGCGATGTCGGTGGGAGACGTCGCGCTGTTCACCGACACCTACAAGGCGCTGCTGCTGGATACGCTCAAGGTGCCGAGCCCGGACTGCTATCACCGCCCCGAGGGGGTGAGCTGGGAAGACCATTCGCGGCTCATGTTCGGCCACATGGAACAGACTCTGGCCGAGCACCATCGGGAAATCGCGGCCGTGATCGTCGAGCCGCTGGTCCAGGGTGCGGGCGGCATGCGCATGTACCACCCGATCTATCTCAAGCTCCTGCGCGAAGCCTGCGATCGCTACGGCGTGCACCTGATCCATGACGAGATCGCCGTCGGCTTCGGCCGCACCGGCACGATGTTCGCCTGCGAACAGGCCGGCATCACCCCCGATTTCCTCTGCCTGTCCAAGGCGCTCACCGGGGGCTATCTGCCGCTGGCGGCCTGCCTCACCACCGACCGGATCTACCAGGCCTTCTACGACGACTACTCGACACTGCGTGCCTTCCTCCACTCGCATAGCTATACCGGCAATCCGCTGGCGTGTGCGGCGGCCCTGGCGACCCTGGATATCTTCGAGAGCGACCAGGTGATCGAGAACAACCGGCGGCTTGCCGCACGCATGGCCCAGGCCACGGCGCACCTGATCGATCATCCGCAAGTGGCCGAAGTGCGCCAGACCGGGATGGTGCTCGCCATCGAAATGGTCCAGGACAAAGCCAGCAAGACGCCCTACCCCTGGCAGGAACGTCGCGGCCTGAAGGTCTTCGAGCATGCGCTGTCGCGTGGTGCCCTGCTCCGTCCCCTGGGTAGCGTGGTGTATTTCCTGCCGCCCTATGTGATCACCGAGGAGCAGATCGACTTTCTTGCCGAGGTGGCGAGTGAGGGCATCGACATCGCTACGCGCGACAGCGTGAGCGCTCCGCTGGGCGGCCGTTATCCCGGGTTCCGCGATCCCGGATAA	MGLNAEWMQRDLAVLWHPCTQMKDHERLPLVPIRRGEGVWLEDFEGKRYLDAVSSWWVNVFGHANPRINQRIKDQVDQLEHVILAGFSHQPVIELSERLVAMTPAGLERVFYADNGSSCIEVALKMSHHYWLNIGKPEKKRFVTLSNSYHGETVAAMSVGDVALFTDTYKALLLDTLKVPSPDCYHRPEGVSWEDHSRLMFGHMEQTLAEHHREIAAVIVEPLVQGAGGMRMYHPIYLKLLREACDRYGVHLIHDEIAVGFGRTGTMFACEQAGITPDFLCLSKALTGGYLPLAACLTTDRIYQAFYDDYSTLRAFLHSHSYTGNPLACAAALATLDIFESDQVIENNRRLAARMAQATAHLIDHPQVAEVRQTGMVLAIEMVQDKASKTPYPWQERRGLKVFEHALSRGALLRPLGSVVYFLPPYVITEEQIDFLAEVASEGIDIATRDSVSAPLGGRYPGFRDPG	PGPT0022100_195	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022100-bioA-K00833	NA	NA
BMS010_06623	1485			L-amino acid dehydrogenase	ATGTCGTTACGTTGGGCACGCGCGTTGGCGCTGCTGGTGCTTGGGTTGGCTGCCGGTCTGGCGCAGGGCAAGGACAAGCAGCCCACGGCGATTGTGGTCGGCGCGGGTTTGTCGGGGCTTTCCGCGGCCTACGAGCTACAGCAGGCCGGCTGGCAGGTGACCCTGCTGGAAGCCAAGCCGACCGTCGGCGGGCGCTCCGGGCTGGCGGCTGGCGAGTGGGTCGGCAACGCCAAGGTGCAGCCGGTGCTCAACGGCTACCTCGACAGCTTCAAGATCAAGACGCAACCGGCACCCGACTACGTACGCACGCCGGGCTATCTGATCGATGGCCAGTATTTCAGCGCCACCGAACTGGCCGACAAGCAGCCGACCACCGCTCAGGCCTTGTTGCGTTTCGAAAAGACCCTCGACGATCTGGCCGCCGCCATCGACGACCCGCTCAACCCGGTGGCGAACAACACGCTGTTCGCCCTCGACCAGATCAACGTGGCGCGCTGGCTGGACAAGCTCGAACTGCCGCCGACCGCGCGTCTGCTGGTCAACCAGCGCATTCGTACCCGCTACGACGAACCGTCGCGGCTGTCGCTGCTTTATCTGACGCAACAGACCCGGGTCTACCGCGGCATCGACGACCGCGACCTCCGCGCGGCGCGTCTGCCGGGCGGCAGCCAGGTGCTGGCCCAGGCATTCGTCAAGAAGCTGAAGACGATCAAGACCAGCGCGCGGGTTTCCGCCATCAGCCAGGACAAGGACGGCGTCACCGTGAAGGTCGGTGCCACTGGCTATCACGCCGACTACGTGGTGCTCGCCGTACCCTTGCGCGCATTGGCGCAGATCCAGTTCAACCCGGCGCTTTCCGAGCGGCAGCAAGGCGCGCTGAAGAGCACCAACTACGGTTGGCGCGACCAGATGCTGCTGAAGTTCAAGAGCCCGGTCTGGGACAGCAAGGCGCGGATGTCCGGGGAAATCTACAGCGACCAGGGCCTCGGCATGCTCTGGATCGAGCCGGCGCTGAAAGGCGGCGCCAATGTGTTGATCAACTTGTCCGGCGATAACGCGCGGCTGTTGCAGGCGTTCGGTGACCGGCAGATGGTGGACCAGGTACTGATTCGCCTGCACAAGCACTATCCCAAGGCGCGGGGTGCGTTCAGCGGCTACGAGATCCGCCGCTACAGCACCGATCCGGGAACGGTCGGCGCCTACCTTGCCTATGGCCCGGGGCAGATCAGTCGTTTCTGGCGGCTCTGGGAGCAGCCGTTGCAGCGTGTGGCCTTCGCCGGCGAACACACCGATGCGCTGCATCCGGGCACGCTGGAAGGCGCGCTGAGCAGCGGCAAGCGGGCTGCCGCGCAGTTGCAGGATCTGCTGGCCGGCAAGACCATCGAGCCGGTACATCCGGCGGCGGTCGCTCCGAAGCAGTCCGAGCCGGCCAAGGCCGAAGAGGCCAAGCCGAAGCCGGGCTTCTTCTCCCGATTGTTCAAATAA	MSLRWARALALLVLGLAAGLAQGKDKQPTAIVVGAGLSGLSAAYELQQAGWQVTLLEAKPTVGGRSGLAAGEWVGNAKVQPVLNGYLDSFKIKTQPAPDYVRTPGYLIDGQYFSATELADKQPTTAQALLRFEKTLDDLAAAIDDPLNPVANNTLFALDQINVARWLDKLELPPTARLLVNQRIRTRYDEPSRLSLLYLTQQTRVYRGIDDRDLRAARLPGGSQVLAQAFVKKLKTIKTSARVSAISQDKDGVTVKVGATGYHADYVVLAVPLRALAQIQFNPALSERQQGALKSTNYGWRDQMLLKFKSPVWDSKARMSGEIYSDQGLGMLWIEPALKGGANVLINLSGDNARLLQAFGDRQMVDQVLIRLHKHYPKARGAFSGYEIRRYSTDPGTVGAYLAYGPGQISRFWRLWEQPLQRVAFAGEHTDALHPGTLEGALSSGKRAAAQLQDLLAGKTIEPVHPAAVAPKQSEPAKAEEAKPKPGFFSRLFK	PGPT0007641_987	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007641-aofH-K00274	NA	NA
BMS010_06624	546	yceJ	COG3038	Cytochrome b561	ATGCAATTGCGCAACTCTTCTGCCCGCTACGGGCTGGTCAGCGTCCTGCTGCACTGGCTGGTGGCCGTGGCCGTCTTCGGTCTGTTCGCCCTTGGCTTCTGGATGGTTGGGCTGGACTACTACAGCAGCTGGTACAAGCGCGCGCCGGACATTCACAAGAGCATCGGCATCCTCCTGTTCCTCCTCATGCTGGGGCGCCTGGTCTGGCGTTTCGTCAGCCCGCCGCCAGCCGCGCTGCCCGAGCACGATCGGTTGACCCGCCTGGGCGCGACGCTGGGGCACGGCCTGCTCTACCTGGGGCTGTTCGGCGTGATGATTTCCGGCTACCTGATCTCGACGGCGGACGGACGCGGCATCGGTGTCTTCGGCTGGTTCGAAGTGCCGGCGCTGATCAGCGGCCTGCCGGAGCAGGAGGACATCGCCGGGCTTATCCACAAGTACCTGGCCTGGGGACTGGTGATCTTCGCGGTCATCCATGCCCTGGCCGCGTTGAAGCACCACTTTCTCGACCGTGATGCGACGCTGGTGCGGATGCTCGGCCGCTGA	MQLRNSSARYGLVSVLLHWLVAVAVFGLFALGFWMVGLDYYSSWYKRAPDIHKSIGILLFLLMLGRLVWRFVSPPPAALPEHDRLTRLGATLGHGLLYLGLFGVMISGYLISTADGRGIGVFGWFEVPALISGLPEQEDIAGLIHKYLAWGLVIFAVIHALAALKHHFLDRDATLVRMLGR				NA	NA	NA	NA	NA
BMS010_06625	579	yceI	COG2353	Protein YceI	ATGTTGAAGAAAACCCTCGCCGCACTGGCGCTCGGCTCCGCACTGCTGACCGCCGGCCAGGCCATGGCCGCCGATTACGTGATCGACAAGCAGGGCCAGCACGCGTTCGTCAATTTCAAGATCAGCCACCTGGGCTACAGCTGGCTGTACGGTACCTTCAAGGATTTCGACGGCACCTTCAGCTTCGACGAGAAGAACCCGGAAGCGAGCAAGGTGAAGGTGACCATCAACACCGAGAGCGTCGACACCAACCATGCCGAGCGTGACAAGCACCTGCGCAGCGGCGACTTCCTCAACGTCAGCAAGCACCCGACTGCGACTTTCGAGTCGACTGCGGTGAAGTCCACCGGTACCGGCACCGCCGACATCACCGGCAACCTGACCCTCAACGGCGTGACCAAGCCGGTGGTGATCAAGGCCAAGCTGGTCGGCCAGGGCGATGACCCGTGGGGTGGTTACCGTGCCGGTTTCGAGGGTTCCACCACCCTCAAGCTGAAGGACTTCGACATTCAGAAGGACCTCGGCCCGGCTTCCCAGGAAGTGGAACTGATTCTCTCGGTGGAAGGCGTGCGCCAGTAA	MLKKTLAALALGSALLTAGQAMAADYVIDKQGQHAFVNFKISHLGYSWLYGTFKDFDGTFSFDEKNPEASKVKVTINTESVDTNHAERDKHLRSGDFLNVSKHPTATFESTAVKSTGTGTADITGNLTLNGVTKPVVIKAKLVGQGDDPWGGYRAGFEGSTTLKLKDFDIQKDLGPASQEVELILSVEGVRQ				NA	NA	NA	NA	NA
BMS010_06626	1818	rhlE_4		ATP-dependent RNA helicase RhlE	ATGTCCTTTGCTTCCCTCGGTCTCTCCGAGGCTTTAGTCCGTGCCATCGAGGCAGCCGGCTACAAAGAGCCCACCCCAGTGCAACAGCGGGCCGTTCCCGCCGTGTTGCAAGGCCGCGACCTGATGGTCGCCGCCCAGACGGGTACGGGCAAAACCGCAGGCTTCGCCCTGCCCATCCTCGAACGCCTGTTCCCCGGCGGACATCCCGACCGCGAACATCGCCACGGCCCGCGCCAGCCGCGCGTGCTGGTCCTGACGCCGACACGCGAACTGGCGGCCCAGGTACATGACAGCTTCAAGGTCTACGCCCGCGACCTGAAATTCGTCAGCGCCTGCATCTTCGGCGGCGTCGGCATGAACCCGCAGGTCCAGGCGCTGGCCAAGGGCGTCGACGTCCTGGTGGCCTGCCCCGGTCGCCTGCTCGACCTGGTCGGTCAGGGCAGCGTCGATCTGTCCCACGTGGAAATCCTCGTGCTCGACGAAGCCGACCGCATGCTCGACATGGGCTTCATCCACGATGTGAAGAAGGTCCTCGCCAAGCTGCCGCCCAAGCGCCAGAACCTGCTGTTCTCGGCGACCTTCTCGAAAGACATCACCGACCTCGCCAGCAAGCTCCTGCATAACCCCGAACGCATCGAAGTCACCCCGCCGAACACCACGGTGGAGCGCATCGAGCAGCGCGTGTTCCGCGTGGCCGCCAGCCACAAGCGTGCCCTGTTGGCCCATCTGATCACCCAGGGCGCCTGGGAACAGGTCCTGGTGTTCACCCGCACCAAGCATGGTGCCAATCGCCTGGCCGAGTACCTCGACAAGCATGGCCTGCCGGCGCTGGCGATCCACGGCAACAAGAGCCAGAACGCCCGCACCAAGGCCCTGGCCGACTTCAAGGCCAACCAGGTGCGCATCCTGGTGGCCACCGATATCGCCGCCCGTGGCCTGGACATCGACCAGTTGCCCCATGTGGTCAACTTCGAGCTGCCCAATGTCGAGGAAGACTACGTGCACCGCATCGGCCGTACCGGCCGTGCCGGCCGCAGCGGCGAAGCCATCTCGCTGGTGGCCCCGGATGAAGAGAAGCTGCTGAAAAGCATCGAACGGATGACCAAGCAGAAGATTCCGGACGGCGACACCATGGGCTTCGACCCAGCCTCGGTCGAGGCCGAACGCCCGGAAACCCGCGAGCGCCAGGAGCCGCGCCCGCCGCGCAACCAACAGCCGGCCGGCGAGCGCAAGGCCGGGAGCGGCCGCAAAGACAAGGGCAAGGAACGCAACAAGGCCAAGCCGAAGGGCCCGCGCCAGGACCAGCAGCAGCCCGCCAAGGCCGCGCGTGCGCCCGTCCCCGCGCTACCTCCGGACCGCGATCCCGAAGAATTCCTCGACGACGAAGTCGACAACTTCGGCAACCGGGTCGATTACGTCAGCCCGTACCAGAAGCAGCAAGGCCGCGGGCGCCGTAGCGGTGGACAGGGTCAGGGCCAGCCGCAGGGTGGCAGCCAGGGCCGTGGCCAGGGCGCTCGTGGACAAGGCTCGCAAGGGCCGGCTCAGGGCCGCAGCAACAATGGCCAGGGGCAAGGCCAGGGCAAGGCCGGCCAAGGCCGGCGCAAGGGCCGGGGTGGCCAGGGCCGTCGCGAAGACAGCCTGCGCAGCGAGCCGCCGTTGCGCGAGCCGACCGAGGCTCGACCGCAGCGCGAGACCCAGCCGCGCATCCTGCACAAGTCCCGGGGTGAGCGCCTGCCCACGCTGGAGCAACTGGAGCAGTTGCCGAGCCGTCCACGCGGCGAAAAACCAGCCCTGCTGACCCGTAACCGGGATAGCTGA	MSFASLGLSEALVRAIEAAGYKEPTPVQQRAVPAVLQGRDLMVAAQTGTGKTAGFALPILERLFPGGHPDREHRHGPRQPRVLVLTPTRELAAQVHDSFKVYARDLKFVSACIFGGVGMNPQVQALAKGVDVLVACPGRLLDLVGQGSVDLSHVEILVLDEADRMLDMGFIHDVKKVLAKLPPKRQNLLFSATFSKDITDLASKLLHNPERIEVTPPNTTVERIEQRVFRVAASHKRALLAHLITQGAWEQVLVFTRTKHGANRLAEYLDKHGLPALAIHGNKSQNARTKALADFKANQVRILVATDIAARGLDIDQLPHVVNFELPNVEEDYVHRIGRTGRAGRSGEAISLVAPDEEKLLKSIERMTKQKIPDGDTMGFDPASVEAERPETRERQEPRPPRNQQPAGERKAGSGRKDKGKERNKAKPKGPRQDQQQPAKAARAPVPALPPDRDPEEFLDDEVDNFGNRVDYVSPYQKQQGRGRRSGGQGQGQPQGGSQGRGQGARGQGSQGPAQGRSNNGQGQGQGKAGQGRRKGRGGQGRREDSLRSEPPLREPTEARPQRETQPRILHKSRGERLPTLEQLEQLPSRPRGEKPALLTRNRDS	PGPT0013740_52	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
BMS010_06627	738			hypothetical protein	ATGGGGCGGCTCGCGCGAACCCTGGCCGCCCGTATTCTGCTGGCACTCCTGGCTGCTCCGTGGCCTTCCGGCCCGGCGAACGCTGCCGTGGAAGCCAGCGACTACGATGCCTTCTGGCTGTGGGGCGGCGTCCGCCCTCAGCCCGTCCTGGCCCAGGCCAGGACCCTGTACATCCTGCAAGGCCAGATCAGCGCCACACGCCGCAGCGCACACCCCGAAGTTCGCTTCGCCGCTCAAGGCGTGGCCATTCCCAAGCCGAGCCGCAGCGAGGTCTGGCTGGCCTATCGCGCACACACCCTGCGCTGGCCGCCGCACGTCCACGATACCCTGCTCGCGCAATTGCGCCGCTGGCAGCGCGCCGGACATCGGGTGGTCGGCGTACAGATCGATTTCGACGCCCGGACGCTGCACCTCCACGAATACGTGGATTTCCTCCGCGACCTGCGCCGTCGCCTGCCGGTCGAATACCGCCTCAGCATCACCGGACTGCTGGATTGGAGCAGCAATGCCGACCCGGCAGCCATCGGGCAGTTGAAGGGCGTCGTCGATGAGGTGGTGGTCCAGACCTACCAGGGTCTCTCGACCATCACCGATTACCAGGCCTACCTGCCACGCGTCAGCCGGTTGGGCCTGCCGTTCAAGATCGGGCTGGTGCAACAAGGCGAGTGGCGGGCGCCCGACTACCTCGTCCGTTCGCCTTGGTTTCGTGGCTACGTGGTGTTCCTGCGCAACCCGTGA	MGRLARTLAARILLALLAAPWPSGPANAAVEASDYDAFWLWGGVRPQPVLAQARTLYILQGQISATRRSAHPEVRFAAQGVAIPKPSRSEVWLAYRAHTLRWPPHVHDTLLAQLRRWQRAGHRVVGVQIDFDARTLHLHEYVDFLRDLRRRLPVEYRLSITGLLDWSSNADPAAIGQLKGVVDEVVVQTYQGLSTITDYQAYLPRVSRLGLPFKIGLVQQGEWRAPDYLVRSPWFRGYVVFLRNP				NA	NA	NA	NA	NA
BMS010_06628	2163			hypothetical protein	ATGAAACAGCACCGCCTTTCCCTCATCGCCCTGCTTCTCGGCGGATTCACCGCCCCCTTCGCCCAAGCCAGCAGCGATGACGGCTGCTACCCGGAATGGTCGCTCATCCACCACCAACTGGATGCCTGCAGCAACCTGCCATTCCTCAGCCCGGGCAACGACAGCCAGGTGAACCTGCGCTTGCTGCTGACCGATGCCGGCCAGGCCTCGCTGCCGGAATACCCGGTCTCGGAGTACGACCGCACGCTCGGCTACGGCCCGGTGCCTTTCAACCTGGCCATGCTCCACGAGCCCAGCCCGGCCGTCGAAGCGGCAGCCTCCACGTCCACCACGCCCGAGCCGGCGGACGATCTGCTGCAACGCATCGGCGGCGACGTCGCCAGCCTGAGCCTGGGCGACGAGGACAGCTATGCCGAGGGCGAAGGTGGGCGTGGACGCAGCAACAACCGCGACACCGCCCGGCTATTCCTGACCCGGCTGCTCGAAGCCGACCTGCCCGACGCCGAGCGCCAGGAGCTGGCCCGCGTCCGTCTGCGCATGCTCCAGTTGCATCTGGAAGACGGCTCGGAGGACGCGCTCACTCCGACGGGTATCGAGACACCGCTCGGCCAGCAGTTCGCCCATTACCTTACCGGTGCCACGGCTTTCTATACCGGCGACTTCGACACGGCGCGGCAGGACTTCGAGGCCCTTGTCGACAGCGAGGACGACTGGCTGCGCGAAACCGCGCGCTATATGGTCGGCCGTACCCAGTTGAACGCCGCCCAGCGCAACGCCTTCGACGAGTGGGGCTACCCGCAGATGGAGAACGTCGACCACGATGCTCTCCAGGCCGCGCGAACCGCCTTCGAGGCGTATCTCGCCGCCTACCCGGAAGGCCGCTACGCCCTCTCCGCAAACGGCCTGCGCCGCCGGGTCTACTGGCTGATGCAGGACCCGCGCAAGCTGGCCGACGAATACGCACGGCTCTTCGCCGAAGCGAATGCGCAACAGAACCCGGATCAGCAAGTGGCGCTGCTACAGGAAGTGGATAACAAACTGCTCACCGTCACCGCTCCCGATGCGGTCGACAGCCCCCTGCTGCTGGCCACGCTCGACCTGATGAAGTTGCGCACCGACGCGCCCGGCGCCCTCGACCGGGATGCCCTCCAGGCCCAGCGCGGGTCGTTCGAGCAACATCCGGCGCTGCATGCCTATCTGCTGAGCGCCTACCACTTCTTCGTCGAAGGCTCCCCGGAGAAAACCCTGGAAAGCCTGCCCAGCACCCTTCCGACAACACCGCTGGACTACCTGACCTTCAGTCAGCAGACCCTGCGCGGCCTGGCCCTGGAGGCCAAAGGCGACCGGCAGCAGGCCGCCAAGCTCTGGCTGGATCTGCTGCCCCTGGCCCAGCACCCCTTGCAGCGCGCCCAGCTGGAACTGGCCCTGGCCATGAACTACGAGCGCAGTGGCCAACTGGACGCGGTGTTCGCCGACGGCTCGCCGATCCGCACTCCCCGCGTCCGGGAAATCCTGTTGCGCCATGTCGCCGGCCCTGACCTGCTGCGCAAGCAGGCCCAGGCGGGCGGAGTTCCGAATGAAGAACGGGAAACGGCGCTGTTCGCCCTGCTCTACAAGGACTTGCTCCGCGGCCATTACGACGATTTCTCCACCGACCTGGCGCTGCTGCCAAAGACAACGCCGGAGCAGCCCGCAGCCAACGTCGACAGCCTGCGCAACCTGGCACTGTTCCGCTGGTCTGGCGGGGATACCTCGGGCTATCAGTGCCCATCCCTCGCAGAGACAGCCCAGGCGCTACAGGCGAACGCGCAGGCCCCGAAAGGCTTGAACTGCCTGGGCGAATTCATCCTGCGCAACGGCCTGGATGGCTTTGCGCTGGACCGCCAGCCCGACGAACAGGTCCTCGGCGGCAGCGAGCCGCTGTTCCCCGGCCCGGTCTATTCCCGGCTGGATGGCTATCTCCATGTAGTCGCCGATGCCAAGGCCTCACCCGACGACAAGGCCTACGCGCTGTACCGGGCGATCAACTGCTACGCGCCGAGCGGCTACAACGGCTGCGGCCCGCAGGACATTCCGCAGAGCCAGCGCAAGCAGTGGTTCCAGACCCTGAAGAACCGCTATGCCCAGACCACCTGGGCGCAGTCGCTGAAGTACTACTGGTAA	MKQHRLSLIALLLGGFTAPFAQASSDDGCYPEWSLIHHQLDACSNLPFLSPGNDSQVNLRLLLTDAGQASLPEYPVSEYDRTLGYGPVPFNLAMLHEPSPAVEAAASTSTTPEPADDLLQRIGGDVASLSLGDEDSYAEGEGGRGRSNNRDTARLFLTRLLEADLPDAERQELARVRLRMLQLHLEDGSEDALTPTGIETPLGQQFAHYLTGATAFYTGDFDTARQDFEALVDSEDDWLRETARYMVGRTQLNAAQRNAFDEWGYPQMENVDHDALQAARTAFEAYLAAYPEGRYALSANGLRRRVYWLMQDPRKLADEYARLFAEANAQQNPDQQVALLQEVDNKLLTVTAPDAVDSPLLLATLDLMKLRTDAPGALDRDALQAQRGSFEQHPALHAYLLSAYHFFVEGSPEKTLESLPSTLPTTPLDYLTFSQQTLRGLALEAKGDRQQAAKLWLDLLPLAQHPLQRAQLELALAMNYERSGQLDAVFADGSPIRTPRVREILLRHVAGPDLLRKQAQAGGVPNEERETALFALLYKDLLRGHYDDFSTDLALLPKTTPEQPAANVDSLRNLALFRWSGGDTSGYQCPSLAETAQALQANAQAPKGLNCLGEFILRNGLDGFALDRQPDEQVLGGSEPLFPGPVYSRLDGYLHVVADAKASPDDKAYALYRAINCYAPSGYNGCGPQDIPQSQRKQWFQTLKNRYAQTTWAQSLKYYW				NA	NA	NA	NA	NA
BMS010_06629	846	metF_2	COG0685	5,10-methylenetetrahydrofolate reductase	ATGTCGCAAGAACGCCGTTACAGCTTCGAATTCTTCCCTGCCAAGACCGAAGCCGGACACGAAAAACTGCTGGCCACCGCACGCCTGCTGGCTGGCTACAACCCCGATTTCTTTTCCTGCACCTATGGGGCCGGTGGCTCGACCCGCGACCGTACCCTGAACACCGTGCTGCAGCTGGACAGCGAAGTGAGGGTGCCTACCGCGCCGCACCTGTCCTGCGTCGGCGACTCCAAGGCCGAACTGCGCGAGCTGCTGGCGCGCTACAAGGACGCCGGGATCAAGCGCATCGTCGCCCTGCGCGGCGACCTGCCGTCCGGCATGGGCATGGCCAGCGGCGAGCTGCGTTATGCCAACGAACTGGTCGAATTCATCCGCGCCGAAACCGGCGAGCACTTCCACATCGAAGTGGCCGCCTACCCCGAAGTCCATCCGCAGGCGCGCAACTTCGAATCCGACCTGGCCAACTTCGTGCGCAAGGCCAAGGCCGGCGCCAGCAGCGCCATCACCCAGTACTTCTTCAACGCCGACAGCTATTTCTACTTCGTCGAGCGCGTGCGCAAGATGGGTGTGGACATCCCGGTAGTGCCCGGCATCATGCCGATCACCAACTACAGCAAGCTGGCGCGCTTCTCCGATGCCTGCGGTGCGGAAATCCCGCGCTGGGTACGCAAGCAGCTGGAAGCCTATGGCGATGATATCGACAGCATCCAGGCGTTCGGCGAGCAGGTGATCACCGAGATGTGCGAACGATTGCTGCAAGGTGGCGCGCCGGGTCTGCACTTCTACACTTTGAACCAAGCCGAACCCAGCCTCGCCATCTGGAACAACCTCAAACTGCCCCGCTGA	MSQERRYSFEFFPAKTEAGHEKLLATARLLAGYNPDFFSCTYGAGGSTRDRTLNTVLQLDSEVRVPTAPHLSCVGDSKAELRELLARYKDAGIKRIVALRGDLPSGMGMASGELRYANELVEFIRAETGEHFHIEVAAYPEVHPQARNFESDLANFVRKAKAGASSAITQYFFNADSYFYFVERVRKMGVDIPVVPGIMPITNYSKLARFSDACGAEIPRWVRKQLEAYGDDIDSIQAFGEQVITEMCERLLQGGAPGLHFYTLNQAEPSLAIWNNLKLPR	PGPT0008160_3487	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008160-metF-K00297	NA	NA
BMS010_06630	1410	ahcY_2	COG0499	Adenosylhomocysteinase	ATGAGCGCTGTACTGACGCCTGCCGGTTTCACCGACTACAAGGTCGCCGACATTTCCCTGGCTCCCTGGGGCCGCCGCGAAATCATCATCGCCGAATCGGAAATGCCTGCCCTGATGGGTCTGCGCCGTAAATACGCCGCCGAACAACCGCTCAAGGGCGCGAAGATCCTCGGCTGCATCCACATGACCATCCAGACCGCCGTGCTGATCGAGACCCTGGTCGCGCTGGGCGCCGAAGTACGCTGGTCGTCCTGCAACATCTTCTCGACCCAGGACCAGGCCGCCGCCGCCATCGCCGCCGCCGGCATCCCGGTGTTCGCCTGGAAGGGCGAGACCGAGCAGGAATACGAGTGGTGCATCGAGCAGACCATCCTCAAGGACGGCCAGCCCTGGGACGCCAACATGGTGCTCGACGACGGCGGCGACCTGACCGCGATCCTGCACCAGAAGTACCCGCAGATGCTCGATCGCATCCACGGCATCACCGAGGAAACCACCACCGGCGTGCACCGTCTGCTCGACATGCTCAAGGCCGGCACCCTGAAAGTCCCGGCGATCAACGTCAACGACTCGGTGACCAAGAGCAAGAACGACAACAAGTACGGCTGCCGCCACAGCCTCAACGACGCCATCAAGCGCGCCACCGACCACCTGCTATCCGGCAAGCAGGCGCTGGTCATCGGCTACGGCGACGTGGGCAAGGGCTCGGCCCAATCGCTGCGCCAGGAAGGCATGATCGTCAAGGTGGCCGAAGTCGACCCGATCTGCGCCATGCAGGCCTGCATGGACGGCTTCGAAGTCGTTTCGCCGTACAAGAACGGCCTCAACGACGGCACCGAAGCCAGCATCGACCGCGACCTGCTGGGCAAGATCGACCTGATCGTCACCACCACCGGTAACGTCAACGTCTGCGACGCCAACATGCTCAAGGCGTTGAAGAAGCGCGCCGTGGTCTGCAACATCGGCCACTTCGACAACGAAATCGACACCGCCTTCATGCGCAAGGCCTGGGCCTGGGAAGAAGTGAAGCCGCAGGTGCACAAAGTCCACCGCACCGGCGCGGACGGTTTCGATCCGCACAACGACGACTACCTGATCCTGCTCGCCGAAGGCCGCCTGGTGAACCTGGGCAACGCCACCGGCCACCCGAGCCGGATCATGGACGGCTCCTTCGCCAACCAGGTATTGGCACAGATCCACCTGTACGGCGCGAAGTTCGCCGACCTGCCGGCCAGCGGCAAGCCGGCGCAGATTCGCGTGGAAGTGCTGCCGAAGAAGCTCGACGAAGAAGTCGCCCTGGAAATGGTGAAAGGCTTCGGCGGCGTGGTCACCCGCCTGACCGCCCAACAGGCCGAGTACATCGGCGTGACCCAGGAAGGCCCGTTCAAGCCGAACAGCTACCGCTACTAA	MSAVLTPAGFTDYKVADISLAPWGRREIIIAESEMPALMGLRRKYAAEQPLKGAKILGCIHMTIQTAVLIETLVALGAEVRWSSCNIFSTQDQAAAAIAAAGIPVFAWKGETEQEYEWCIEQTILKDGQPWDANMVLDDGGDLTAILHQKYPQMLDRIHGITEETTTGVHRLLDMLKAGTLKVPAINVNDSVTKSKNDNKYGCRHSLNDAIKRATDHLLSGKQALVIGYGDVGKGSAQSLRQEGMIVKVAEVDPICAMQACMDGFEVVSPYKNGLNDGTEASIDRDLLGKIDLIVTTTGNVNVCDANMLKALKKRAVVCNIGHFDNEIDTAFMRKAWAWEEVKPQVHKVHRTGADGFDPHNDDYLILLAEGRLVNLGNATGHPSRIMDGSFANQVLAQIHLYGAKFADLPASGKPAQIRVEVLPKKLDEEVALEMVKGFGGVVTRLTAQQAEYIGVTQEGPFKPNSYRY				NA	NA	NA	NA	NA
BMS010_06632	1248	nhaP_2	COG0025	Na(+)/H(+) antiporter NhaP	ATGCTCGAAATCGCCGCCGTCTTCATCAGCCTCACCGCCGCGCTGGCCTATCTGAACCACCGTTTCGTCGGATTCCCGCCGACCATCGGCGTCATGGCCATCGCCCTGGGCTTCTCGCTCCTGCTCCAGGGCCTGAGCGCGCTGGGCCATTCGGTGCTGGAAGACAGCATCGAGACGATGATGAACCGCATCGACTTCAACGACCTGCTGATGAACGGCATGCTTTCTCTGCTGCTGTTCGCCGGCGCCCTGCACATCAACCTTGCCGACCTGCGCGAGCGGCGCTGGGCTATCGGCTCGCTGGCGACCTTGGGCGTGCTGGTTTCCACCGCCCTGATCGGCGCCTGCGCCTACGGCGTCTTCCAGCTCTTCGGCTTCCAGGTCTCCTGGATCTACTGCCTGCTGTTCGGTGCGCTGATCTCGCCCACCGACCCCATCGCCGTACTCGGCATCATGCGCTCGGCGGGCGCGCCCAAGCCGCTGGAGATCACCATCGTCGGCGAGTCGCTGTTCAACGACGGGGTCGCCGTGGTGGTGTTCACCGTGCTGCTGGGCATCCTCGCCGCCGGCGAGATTCCCAGCGTCGGGGAGATCGGCTGGCTGTTCGTCGAAGAAGCCATCGGCGGCATGCTGTTCGGCGCCCTGCTGGGCTGGATCGTCTATCGCATGCTGAAGAGCATCGACCAGTACCAAGTGGAAGTCTTGCTGACCCTCGCCCTGGTCATCGGCGGCTATACCCTGGCGACCCACCTGCACCTGTCGGGCCCCATCGCCATGGTGGTGGCCGGCCTGATCATCGGCAACCAGGGCCGGCTCCACGCCATGTCCGACAAGACGCGGGAAAACGTCGACAACTTCTGGGAGCTGATCGACGAAATCCTCAATGCGGTGCTGTTCGTGCTGATCGGCATGGAGCTGCTGCTGTTGCCCTTCACCTGGCTCTACCTGGCGATCGGCGCAACCCTGATGCTGTCGATCCTGGTCATCCGGCTGCTGACCATCGGCCTGCCCTTCTCGCTGATCCGCCTGCGCGGCGGCGTGCCGCGCGGGACCATCCGCCTGCTCACCTGGGGCGGATTGCGCGGCGGCATCTCGGTGGCCCTCGCCCTGGCCCTGCCGGCCGGCGAAGAGCGCAACCTGCTGCTGAACATCACCTACATCATCGTGCTCTTCTCGATCCTCGTGCAGGGCCTGAGCATCGGCCGGCTGGTGCGCCACATTTGCGGCAACGAACCGCGCGCACACTGA	MLEIAAVFISLTAALAYLNHRFVGFPPTIGVMAIALGFSLLLQGLSALGHSVLEDSIETMMNRIDFNDLLMNGMLSLLLFAGALHINLADLRERRWAIGSLATLGVLVSTALIGACAYGVFQLFGFQVSWIYCLLFGALISPTDPIAVLGIMRSAGAPKPLEITIVGESLFNDGVAVVVFTVLLGILAAGEIPSVGEIGWLFVEEAIGGMLFGALLGWIVYRMLKSIDQYQVEVLLTLALVIGGYTLATHLHLSGPIAMVVAGLIIGNQGRLHAMSDKTRENVDNFWELIDEILNAVLFVLIGMELLLLPFTWLYLAIGATLMLSILVIRLLTIGLPFSLIRLRGGVPRGTIRLLTWGGLRGGISVALALALPAGEERNLLLNITYIIVLFSILVQGLSIGRLVRHICGNEPRAH	PGPT0013930_961	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013930-nhaK|TC_CPA1-K03316	NA	NA
BMS010_06633	453			hypothetical protein	ATGAATGCTCTTCTACGCGCCACCGTCCTGGCCTTCGCGGCTTCCGCGTGCCTGCCGGCGCTGGCCGAATCCTGCCATGTGTCCGCCCAGCCCGAGGCCAAGACCCCACCGAGCAATGGCGGCAACGAATACTGCTTCGAACACGAGGGCATGCCGAAGGGGTCGCTGGACTGGTCATGCAACAACAAGACTGGAGACGTCGCCGGCATGCGCAAGGAAAAGCGCCAGGCTTGCCCCTCCGGTTACTTCGGCAGGTGCGTCGCGCCCCTGACCCAGGAAACGCTGGCCAACGAAATGTCCTCCGGCCGCTACGGCCAGGAGGCGGGCACGCCGCCGAACGTGCCGGACGAAGCGAAGATCGTCACCTACCATTACCAGGCGCTGGACAAGGGACAGGCGAAAGTCGACTGCGAAAGCGGCGGTGGCCGCTGGACGGAGGGTGAGGCTCGCTGA	MNALLRATVLAFAASACLPALAESCHVSAQPEAKTPPSNGGNEYCFEHEGMPKGSLDWSCNNKTGDVAGMRKEKRQACPSGYFGRCVAPLTQETLANEMSSGRYGQEAGTPPNVPDEAKIVTYHYQALDKGQAKVDCESGGGRWTEGEAR				NA	NA	NA	NA	NA
BMS010_06634	1599			hypothetical protein	ATGTCGTCGCACAGTGTTACCCACGTGTTGGATCGGTTGCTCGCCGGTATCGGCCTGAGGACGCTGAACCACCAGTTCCTGTTTTCCTATGCCCTGATGTTCGTGCTGGCCGCCAGCGCTTCGGTGGCCCTGTACCTGAGCATGTCGGTATCGCCGGACACCCTCAACGTGGCGGGCGCGCAACGCATGCTCAGCCAGAAAATGACCAAGGAGGCGCTGCTGCTGAGCCAGGGCGTCGGCGAGCGGGCGGTATTCCAGGGCACCCTCGAGCAGTTCGAACAGGCGCACCGGGACCTGACGAACGGCAACCCGGCGCGCAACATCAGCGCATTTCCCGATGCGGCGGTGCAGGCACAACTGGCGCGTGTCGGAGAGCGCTGGCAGACCTTGCGCCCGTTGCTGGAGCAACTGGCTGGCCGGGCCGGCGAGGCGTCGCTGGATGAGGTCCAGGCGGCGTCGGTGGCGTTGCTCAAGGACATGAACGGTGCTGTCGGCATGATGACCGAGCTGGCCGAGCGGACCCAGCGCACCCAGATGTGGATCGCCTTCGTCTGTGTGCTGGGCATCCTGACCCTGGTGGTGTTCGGCCGCCAGTTCGGCCTGAGCCCGCTGATGAGCCAGTTGCGCGCGATCGAGCATGCACTGGTGCGGGTTGGCTCCGGGGATTTCCTCAATCGCCTGGACAGCCGCTACCGGGACAACGAAATCGCCCATATCTCCAATGGCTACAACCGCATGCTGGAGCAGGTGCGCGAACTGCTCGGACGGATCAAGGACACCTGCGGCAACACCCAGCGCCATCTGGACGACGTGCTCCTGGCCGTGGAAGCGGCCGGTGGCGGGGTCAGTCGCCAGCAGGAGGAGCTGGAGCAGGTCGCCACGGCCATGAATGAAATGAGTGCGACCGTGGTGGACGTGGCGCGCAACGCGGCCCAGGCCGCGGAGAACAGCCAGCGGGCTGAACGCTTGGTGCAGGACGGGCGCAGGGCGGTGCAGGTCAGTGCCGGCCAGCTCGCCGCGCTGAGTGCGCAACTGGACGGCAGCGCCGAACAGGCCGGCGCACTGGAGAAGGACAGCGAGCAGGTGGGCAAGGTGCTGGCGGTGATCACCAGCATCGCCGAGCAGACCAACCTGCTGGCGCTCAATGCAGCCATCGAGGCGGCCCGGGCCGGTGAAGCCGGGCGCGGGTTCGCCGTGGTCGCCGATGAGGTCCGCACGCTGGCCAGCCGGACCCAGGCCTCCACCGAGGAAATCCGCGCCATCGTCCAGCGCTTGCAGGAAGGCGTCCATGGCGCCGGATCGAGCATGCGCGACAGCGCCGCCCAGGCCCGCAACAATCTCGGGCACATCCAGCAGGCGACCCAGGCGCTGGACGGCATCGTCGAAGCGGTGGATGCCATCAATGCCCTCAACCTGCAGATTGCCAGCGCCACCGAGGAGCAGAGCCAGGTGGCGTTGGACATCGACCAGCGTATCGGGCGGATCGCCGACCTGGCCAACCGGACCCGCGGCGACGCGCAGACGGTGAGCACCTCGGTGTCGGTCATCGATGGTGGCTTGCAGCAACTCCATGGCTTCCTCGAACGCTTCCGGACCTGA	MSSHSVTHVLDRLLAGIGLRTLNHQFLFSYALMFVLAASASVALYLSMSVSPDTLNVAGAQRMLSQKMTKEALLLSQGVGERAVFQGTLEQFEQAHRDLTNGNPARNISAFPDAAVQAQLARVGERWQTLRPLLEQLAGRAGEASLDEVQAASVALLKDMNGAVGMMTELAERTQRTQMWIAFVCVLGILTLVVFGRQFGLSPLMSQLRAIEHALVRVGSGDFLNRLDSRYRDNEIAHISNGYNRMLEQVRELLGRIKDTCGNTQRHLDDVLLAVEAAGGGVSRQQEELEQVATAMNEMSATVVDVARNAAQAAENSQRAERLVQDGRRAVQVSAGQLAALSAQLDGSAEQAGALEKDSEQVGKVLAVITSIAEQTNLLALNAAIEAARAGEAGRGFAVVADEVRTLASRTQASTEEIRAIVQRLQEGVHGAGSSMRDSAAQARNNLGHIQQATQALDGIVEAVDAINALNLQIASATEEQSQVALDIDQRIGRIADLANRTRGDAQTVSTSVSVIDGGLQQLHGFLERFRT	PGPT0015710_22800	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_06635	447			hypothetical protein	ATGAAGTTGAAGTCCCTGTCGATAGTGGTGCTCTGCGCGGGCCTGGCCGCCTGCGGTGGTGTCGATCCCAACTCGCCCCTCGGCAAGCGCCAGGCGCTGTTCAAGGCAATGCTCAAGACCAGCGAAGACCTCGGGGGCATGCTGCGCGGGCGCGTTCCGTTCGACGAGCAGCGCTTCAGCGAGGGCGCAGTGAAGCTGGACGACCTCTCGCGCCAGCCCTGGCAGCATTTCCCGCAGGTCAAGGAAGAGGACGATACCTCGGCGCGGGACGAGGTCTGGCAGCGCCAGGAGCGCTTCCAGCAACTGGCCCGCGATCTCGAAGCCTCGACGGCGGCGCTGGTCGAGGCGACCATCCACAAGCCGCTCCAGCCCGAGTCACTGGCGGCGCCGGTGCAGCGCGTCGAGGATGCCTGTGAGGCCTGCCATCAGGAGTTCCGGGCGTACTGA	MKLKSLSIVVLCAGLAACGGVDPNSPLGKRQALFKAMLKTSEDLGGMLRGRVPFDEQRFSEGAVKLDDLSRQPWQHFPQVKEEDDTSARDEVWQRQERFQQLARDLEASTAALVEATIHKPLQPESLAAPVQRVEDACEACHQEFRAY				NA	NA	NA	NA	NA
BMS010_06636	348	ltxD		Leukotoxin export protein LtxD	ATGTACACGCAGGACTCAAATGCCCAGCCCGCCCCGGAACTGGATATCGGCTTCGTCCATTCCGACCTAGAAGTCGAGATCAAGGTCGAGACCCTCACCCAATACAGCGTCGTCCACGGCACCGTGCAAAGCGTCTCCAACGACGCCATCGAAGACGAAAAACTCGGCCTCGTATACAGCACACGCATCCAACTGAAGGAAAAGACCCTCCAAGTCGGCGGCAAGGAAATCGCCCTGTCGCCGGGCATGGCGGTAAGGGCGGAAGTGAAGACGGATAAGCGCAGGGTGATCGATTATTTCCTGAGTCCGCTGAAGAAGTATATGGATGAAAGCCTTGATGAGCGTTAA	MYTQDSNAQPAPELDIGFVHSDLEVEIKVETLTQYSVVHGTVQSVSNDAIEDEKLGLVYSTRIQLKEKTLQVGGKEIALSPGMAVRAEVKTDKRRVIDYFLSPLKKYMDESLDER	PGPT0029365_397	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-ALPHA-HEMOLYSIN|CYCLOLYSIN_TRANSPORT,PGPT0029365-hlyD|cyaD-K11003	NA	NA
BMS010_06637	423			hypothetical protein	GTGCTCGGCCAGGGTTTTCAGTTCGCTGGCCTGGCTGATGCCATCCTGGTTAGCGTCCTGCCAGACGCGGACATTGGCGAACTGGGTATCTTTGGCGTCGAATACGTCATCCGCATTGCTATCCAGATCGCTCAAGGCATCGAAGCCATTGACTGCTTTCTGCCCGTTGCGCTTGACGGTATCCACACCAAACAGCTCACGGCCGGTATCGATGGTGCCATTGCCATTACGGTCCAGCACCAGGAAACCATCGTCTCCCTTGACCCAACCAGTGCCGGTTTTCAGGCCGTCGCCATCGAAATCGAAGGTGATGCCGGTATTGGCGGAAGTGGTTTCGATGCCGTCGGCGTCGAGGTCCAGGGTAAGGGGGTCGTAGCGTTGAATGAACTCTCTTGCAGACAAGAAAAACTCATTTACAGCTGA	MLGQGFQFAGLADAILVSVLPDADIGELGIFGVEYVIRIAIQIAQGIEAIDCFLPVALDGIHTKQLTAGIDGAIAITVQHQETIVSLDPTSAGFQAVAIEIEGDAGIGGSGFDAVGVEVQGKGVVALNELSCRQEKLIYS				NA	NA	NA	NA	NA
BMS010_06638	672			hypothetical protein	ATGCCCAGCACCCGTATTCTGCTGTTTGCCCTGCTGCCCCTGTTCGCCGCCTGCCAGACGTTCAACGACAAGCCCGCCAATCCGGCCGCCGGCCAGACCCGCCTGCAAGGCGAACTGAGCGCCGAAGCCGGCCACCTGCTGTTCCGTCCGTGCCAGGAGCAACGCCGTTTCACCGTCAAGGATAGCGGCGACAGCGGCCTGACCCGCGAAGCCGCCCTGCTCTTCGCGGAAAACCCCGCCCCGCTGTTCGCCGACCTACGCGGTACCCTCGGCGGCAGCCAGGCGGCCGGCGTCGACGGCGAACTCACCGTGAAGCGTTACTACCGCGTGCAGCACGAAGGCCACGGCTGCGACGACCCGAACTTCAAACGCCTCATCGTCCGAGCCAGCGGCCACGAGCCGGAGTGGAACCTGAACGTCAGCGGCAAGGGCCTGGTCCTCGAACGGCAAGGCCAACCACCCCTCGCCCTGCCCTACCTCGAAGAACAACTGCCGGACGGCCTGTTCAATATCACCAGCGAAGCCAACGGCCAACGCTTCCAACTCTGGATCGCCCCGCAACGCTGCGTCGACAGCATGACCGGCGCCATCACCCACCTCGCCGCCGAACTGCGTTTGGATGGGCAGGTGCAACGCGGCTGCGCCTATTACGGGGCGGCGCGGAGCGATTGA	MPSTRILLFALLPLFAACQTFNDKPANPAAGQTRLQGELSAEAGHLLFRPCQEQRRFTVKDSGDSGLTREAALLFAENPAPLFADLRGTLGGSQAAGVDGELTVKRYYRVQHEGHGCDDPNFKRLIVRASGHEPEWNLNVSGKGLVLERQGQPPLALPYLEEQLPDGLFNITSEANGQRFQLWIAPQRCVDSMTGAITHLAAELRLDGQVQRGCAYYGAARSD				NA	NA	NA	NA	NA
BMS010_06639	402			hypothetical protein	ATGATCCAATGCAAACGCGTTTATGAACCGGCAGCCGCGTCGGATGGCTACCGGGTGCTGGTGGACCGGCTGTGGCCCCGCGGCTGCCGCAAGGAAACGCTGGCCCTGGATGGCTGGCTGCGTGATCTGGCGCCCTCGGCGGAGTTACGCAAGGCGTTCTGCCACGAGGCGGAGCGTTTCGACGAGTTCCGCCTGCTCTATCGCGGCGAGCTGGCGGCGCACCCGGAGCACTGGTGGGGCCTGTTGGACAAGGCCCGCCAGGGCACCCTGACGCTGCTCTATGCCGCCCGCGACGAGGTGCACAACAACGCACGGGTGCTGGCGGAGTTCCTCGAGGACGAGCTGGAGCGCCAGGGGGAGGCCAGCTCGCCGGTGTGTTATGCCGGCGAGGGCCTGGGCTGA	MIQCKRVYEPAAASDGYRVLVDRLWPRGCRKETLALDGWLRDLAPSAELRKAFCHEAERFDEFRLLYRGELAAHPEHWWGLLDKARQGTLTLLYAARDEVHNNARVLAEFLEDELERQGEASSPVCYAGEGLG	PGPT0014885_18	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014885-yxlJ|aag-K03652	NA	NA
BMS010_06640	600			hypothetical protein	ATGAAGATTCTTCTGATCGGCGCCAGCGGCACCCTCGGCAAGGCCATCGACCAGGAACTGCGCGAGCGCCACGAGATCGTCCGCATCGGCCACAGCAGCGGCGATTTCCAGGTGGACATCACCGACACCGCCTCGATCCGCCGCCTGTTCGAGCAGACCGGCCCCTTCGATGCGCTGATCAGCGCCACCGGCAAGGTGCACTTCGCCGACCTGGCGGACATGGGCGATGCCGAGTTCACGGTCGGTTTGCGCGACAAACTGATGGGCCAGGTGAACCTGGTGCTGATCGGCCGCGAATACGCCAACGAGGGCGCTTCCTTCACCCTCACCTCCGGCGTGCTCAGCGAAGACCCAATCCGCTACGGCAGTTCGGCGAGCATGGTGAACGCGGCCATCGAAGGCTTCGTCCGCGGCGCCGCCATCGAACTGCCGCGCGGCCTGCGCCTGAACGCAGTGAGCCCGACCATCGTGCGCGAATCGCTGCCGGCCCTGGGCGAGTACTTCCGTGGCTGGAAAGCCATCCCCGCTGCCGACGCCGCCCTCGCCTACGCGAAGAGCGCCGAGGGCCTGCAAACCGGGCAGGTCTACAAGGTCTGGTAA	MKILLIGASGTLGKAIDQELRERHEIVRIGHSSGDFQVDITDTASIRRLFEQTGPFDALISATGKVHFADLADMGDAEFTVGLRDKLMGQVNLVLIGREYANEGASFTLTSGVLSEDPIRYGSSASMVNAAIEGFVRGAAIELPRGLRLNAVSPTIVRESLPALGEYFRGWKAIPAADAALAYAKSAEGLQTGQVYKVW				NA	NA	NA	NA	NA
BMS010_06641	915	dmlR_12		HTH-type transcriptional regulator DmlR	GTGAGCGAGATGGACGATCTGGCCGCCTTTGCCGTGCTGCTGGAGGCCGGCAGTTTCACCCGTGCGGCGGAGCGGCTTGGTTGCAGCAAGGGGCAGTTGTCCAAGCGCATCCGCCTGCTGGAAGAGGGGTTCGGTGTGAGCTTGCTGCACCGCACCACCCGGCGGCTCACGCTCACCGCAGCGGGTGCCGCGCTGCTGCCGGAGGCCCAGACGCTGGTCGCCCAGGCCAGTCGCGCCCGGCAGGCGCTGGCGCGGCTGCGCGAGGAGGTGGCCGGGACGGTACGCATCACGGTGCCGGTGTCGTTGGGCGAGACCTTCTTCGATGCGCTGCTGCTGGACTTCACCCAACGCTATCCCGACGTGCGGGTGGAGCTGGACCTGCACAACGGCTACCGCGACCTGGTGGCCGAGGGCTTCGACCTGGCGATCCGTTCCGGCGTCCAGGGCGACGAGCGCCTGGTGGCGCGGCCGTTATTCGCCATGCAGGAGCTGACCTGCGCCAGCCCGGCCTATCTGGAGCAGCACGACGAACCGCTGACACCTGCGGACCTGGCCAACCACCGCTGCCTGCTGAACACGCACTACAGCGGCTACGAGGAATGGCTTTACCACCGCCAGCACCGGTTGGAGCGGGTGAAGGTCTCCGGGGCCCTGGCGAGCAATCACTACAGCCTGCTGAAGAAGGCCGCGCTGGTCGGGGCCGGGGTGGCGCGGCTGCCGTCGTACATGCTGCACGCGGAACTGGCCGACGGTCGCTTGCGCTGGCTATTGCGCGATTACCAGACGCGCAGCACGCCGGTGTTCCTCGTCCACCCGTACCAGGCGGGCCTGCCCAGGCGGACCCAGGTATTGGCCGATTACCTGCTGGCGTGGTTCGAACGCAGCCGGGTGGCGCTGGCCGCGTTGACGGCGTAG	MSEMDDLAAFAVLLEAGSFTRAAERLGCSKGQLSKRIRLLEEGFGVSLLHRTTRRLTLTAAGAALLPEAQTLVAQASRARQALARLREEVAGTVRITVPVSLGETFFDALLLDFTQRYPDVRVELDLHNGYRDLVAEGFDLAIRSGVQGDERLVARPLFAMQELTCASPAYLEQHDEPLTPADLANHRCLLNTHYSGYEEWLYHRQHRLERVKVSGALASNHYSLLKKAALVGAGVARLPSYMLHAELADGRLRWLLRDYQTRSTPVFLVHPYQAGLPRRTQVLADYLLAWFERSRVALAALTA				NA	NA	NA	NA	NA
BMS010_06642	2097	flhA_3	COG1298	Flagellar biosynthesis protein FlhA	ATGAATGTAATGCAGCAACTCATGCCGACCCTGCGCAGCGGACGCATCGGGATTCCGGTGCTCATCCTCTCGATCCTGGCGATGATTATCCTGCCGCTGCCGCCGCAGCTGCTGGACATCCTGTTCACCTTCAACATCGCCATGGCGATCCTAGTGCTGCTGGTCAGCGTGTCGTCAAAGAGCCCGCTGGACTTCTCGCTGTTCCCCACGGTGATCCTGGTCACCACGCTGCTGCGCCTGACCCTCAACGTCGCCTCGACCCGCGTGGTGCTGCTGGAAGGCCACACCGGCACCGGTGCGGCGGGCAAGGTGATCGAGGCCTTCGGGCAGGTGGTGATCGGCGGCAACTTCATCGTCGGCCTGATCGTCTTCGTGATCCTGATGATCATCAACTTCATGGTGGTCACCAAGGGCGGCGAGCGGATCTCCGAAGTCACCGCGCGCTTCACCCTGGACGCCCTGCCCGGCAAGCAGATGGCCATCGACGCCGATCTCAATGCCGGCCTGGTCACCCAGGAAGAAGCCAAGGCGCGGCGTCAGGAAGTGGCCAAGGAAGCCGACTTCTACGGGGCCATGGACGGTGCCTCGAAGTTCGTTCGCGGCGACGCCATCGCCGGCATCCTGATCCTGCTGATCAACCTGTTCGGCGGCTTCGCCATCGGCATGTTCGTCTACAACCTGCCGGCCGCCCAGGCGTTCCAGCAGTTCGCCCTGCTCACCATCGGCGACGGCCTGGTGGCGCAGATTCCGGCGCTGCTGCTATCCACCGCGGCGGCGATCATCGTCACCCGGATCAACGAATCGGCGGAAATCACCGGCCAGGTCCGCCGCCAGCTCCTCGCCTCGCCATCGCTGCTCTACACCGTGGCCGGCATCCTCTTCGTGCTGGCGCTGGTGCCGGGCATGCCGCACTTCGCCTTCATCGCCTTCGCCGCGCTGATCGCCTTCGTCGGCTGGGCCGTGGGCCGCAACCCCTCGCCCGACGAAGCGGCCAGCCTCGAACAGGTGGAAGCGATCAACAAGGCCATGGAGCAGGACCGCGCGCAGAACCTGGCCTGGGAAGACATCCCGCTGGTCGAGCGGCTGTCCATCTCCCTCGGCTACAAGCTGGTCGGGCTGGTCAACGAAGCCGCCGGCGCGCCCCTGGCGCAGCGGGTGCGCGGGGTGCGCCAGACCCTCTCGGAGAACCTCGGCTTCCTCCTGCCGGAAGTGCAGATTCGCGACAGCCTGCGCCTGAAAGCCTCGCAGTACAGCATCTACATCAACGGCGAACGCATCGACGGCGCGGAAATCCACGCCGACCGGCTGATGGCGATTCCCTCGCCGGAACTCTACGGCGAGATCGACGGCATCCTCGGCACCGACCCGGCCTACCGCATGCAGGTGGTGTGGATTCTGCCGACCGACAAGGCGCGCGCGCTCAACCTCGGCTACCAGGTGATCGACTGCGCCAGCGTGGTGGCGACCCACCTGAACAAGGTGATCCGCGATCACCTGCCGGACATCTTCAAGCACGACGACGTCGAGCACCTGATGCAGCGCCTCGCCCTGCAGGCGCCCAAGTTGGCGGAGAACCTGAAGGGTCAGCTCAGCTACAGCCAGCAGCACCGGGTGTATCGCCAACTGCTGCAGGAGCAGGTGCCGCTGCGCGACATCGTCACTATCGCCAGCACCCTGCTGGAGTCCAGCGAAACCACCAAGGACCCCGTGCTGCTCGCCTCCGATGTGCGCTACGCGCTGCGCCGCAGCATCGTCTCGGCCATCGCCGGGGAACGCAGCGAACTGGCGGTGTTCATCCTGGAGAACGCCCTGGAAAACACCCTGCTCAGCGCCCTCAGCATCGCCCAGCAGGCCGGCCCGGTGAGCCTGGACAACATCCCGGTGGAGCCGAGCCTGCTCAATCAGTTGCAGAGCACCATGCCGGTGATGAAGGAAAAACTGCGCCAGGCCGGCCACCCGCCGGTGCTCACCGTGATCCCGCAACTGCGCCCGCTGCTGGCCCGCTACGCCCGCGTCTTCAGCCCCGGTCTGCACGTGCTGTCGCAGAACGAGATTCCAGAGCGGGTTGGCGTGAATATTCTCGGGACGTTGGGTTGA	MNVMQQLMPTLRSGRIGIPVLILSILAMIILPLPPQLLDILFTFNIAMAILVLLVSVSSKSPLDFSLFPTVILVTTLLRLTLNVASTRVVLLEGHTGTGAAGKVIEAFGQVVIGGNFIVGLIVFVILMIINFMVVTKGGERISEVTARFTLDALPGKQMAIDADLNAGLVTQEEAKARRQEVAKEADFYGAMDGASKFVRGDAIAGILILLINLFGGFAIGMFVYNLPAAQAFQQFALLTIGDGLVAQIPALLLSTAAAIIVTRINESAEITGQVRRQLLASPSLLYTVAGILFVLALVPGMPHFAFIAFAALIAFVGWAVGRNPSPDEAASLEQVEAINKAMEQDRAQNLAWEDIPLVERLSISLGYKLVGLVNEAAGAPLAQRVRGVRQTLSENLGFLLPEVQIRDSLRLKASQYSIYINGERIDGAEIHADRLMAIPSPELYGEIDGILGTDPAYRMQVVWILPTDKARALNLGYQVIDCASVVATHLNKVIRDHLPDIFKHDDVEHLMQRLALQAPKLAENLKGQLSYSQQHRVYRQLLQEQVPLRDIVTIASTLLESSETTKDPVLLASDVRYALRRSIVSAIAGERSELAVFILENALENTLLSALSIAQQAGPVSLDNIPVEPSLLNQLQSTMPVMKEKLRQAGHPPVLTVIPQLRPLLARYARVFSPGLHVLSQNEIPERVGVNILGTLG	PGPT0015320_1025	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015320-flhA|lfhA|fhiA|rhcV-K02400	NA	NA
BMS010_06643	1140	flhB_3	COG1377	Flagellar biosynthetic protein FlhB	GTGTCTGAGCAGAACAGCGCCCAGGAAAAAACAGAAGAGGCCTCCCAGCAGAAGCTGAAGAAAAGCCGGGAGGAAGGCCAGGTCGCGCGCTCCAAGGACCTGTCCACCACCCTCTCGCTGCTGGTGACCCTGTTCGCCCTCAAGTTCAGCACCGGGCTGTTCCACGAGGGGTTGCAGGAGAGCTTCCGCCTCGCCTACCTCGACTTCGGCCACAGCGAGATCGGCCTGGACGACCTCAGCCTGATCCTCGGCCACAACCTGCTGATCTTCATCAAGCTGCTCGCCCCGCTGCTGATCACACCCTTGCTGGTGGTGGTGTTTTCCCTGGTGCCGGGCGGCTGGGTGTTCTCCTCGAAGAACTTCACCCCCAAGCTGAGCAAGCTCAACCCCATCACCGGCCTGGGACGGATGTTCTCGATGCAGAACTGGAGCGAGCTGCTCAAGTCGGTGCTGAAGATCCTGGTGCTCTTCGCCATCGCCGGCTGGCTGCTGGCGGAGGCCACGCCGCAACTGATCGCCCTGCAACGCACGGACATCCGCACCGCCATCGGCAGCGCCGTCGCCCTGGCGTTCGACATGACCTTGAGCCTGATGCTGGTGTTCGTGCTGTTCTCGCTGATCGACATCCCGCTGCAACGCTTCTTCTTCTTCAAGAAGCTGCGCATGACCAAGCAGGAGCGCAAGGAAGAACACAAGAACCAGGAAGGCCGCCCCGAGGTGAAGGCGCGCATCAAGCAGGTGCAGCGGCAACTGCTGCAACGGCAGATCAGCCGGGTGATCAAGAACGCCGACGTGGTGATCGTCAACCCGCAGCACTTCGCGGTCGCCCTCAAGTACGACCCGAAGAAGGCCCAGGCGCCCTACGTGATCGCCAAGGGTGTCGACGAGACCGCGCTGTACATCCGCAAGATGGCCCAGGCCAACCAGCTCGAAGTGCTGGAGCTGCCGCCACTGGCGCGGGCCATCTACTTCAGCACCCAGGTCAACCAGCAGATTCCGGCTCCGCTCTATACGGCGGTGGCCCACGTCCTCACCTACATCCTGCAGCTCAAGGCCTACCGCCAGGGCCGCCGGGGCCGCCCGGTACTGGCGGCCAACCTCCCCATTCCTGACAGCATGGCGAACAGGTCCCAACCATGA	MSEQNSAQEKTEEASQQKLKKSREEGQVARSKDLSTTLSLLVTLFALKFSTGLFHEGLQESFRLAYLDFGHSEIGLDDLSLILGHNLLIFIKLLAPLLITPLLVVVFSLVPGGWVFSSKNFTPKLSKLNPITGLGRMFSMQNWSELLKSVLKILVLFAIAGWLLAEATPQLIALQRTDIRTAIGSAVALAFDMTLSLMLVFVLFSLIDIPLQRFFFFKKLRMTKQERKEEHKNQEGRPEVKARIKQVQRQLLQRQISRVIKNADVVIVNPQHFAVALKYDPKKAQAPYVIAKGVDETALYIRKMAQANQLEVLELPPLARAIYFSTQVNQQIPAPLYTAVAHVLTYILQLKAYRQGRRGRPVLAANLPIPDSMANRSQP	PGPT0015325_1061	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015325-flhB-K02401	NA	NA
BMS010_06644	801	fliR_2	COG1684	Flagellar biosynthetic protein FliR	ATGCCGTCGAGCGAGCCGATCCTCCAGGCCAGCCAGTACCTGCATCAGTTGCAGGGCTACTGGTGGCCGTTCTGCCGCATCCTGGCCCTGTTCAGCCTGGCGCCGCTGTTCAGCCACAAGGCGGTGTCGATCCGCATCCGCGTGCTGCTCGCCCTGGCCCTGACCTTCGCCCTGGCCAAGGCCCTCCCCGATCCGCCGCGCATCGACGCGCTCTCGCTGCACGGCGTGCTGGTGGCGGCCGAGCAGATCGCCTTCGGCCTGCTCATGGGCCTGGCGCTGCAACTGGTGTTCACCGTGTTCGGCCTGGTCGGCGAAGTGATTTCCACCCAGATGGGCATGAGCATGGCGCGCTACAACGACCCGGTGAACGGCGTGTCGTCGTCCTCCATCGTGTCGCAGCTGTACTTCATCCTGCTGGTGTTCCTGTTCTTCGCCACCGATGGCCACCTGCTGATCGTCAGCGTGCTCTACCAGAGCTTCGTCTACTGGCCGGTGGGCAGCGGCCTGCACTATCTCGGCTTCGAAACCCTGGTCTACTCCCTCGGTTGGGTCCTCTCGGCGGCGGTGCTGGTCACCTTGCCCGTGGTGTTCTTCATGACCCTGATGCAGTTCTGCTTCGGCCTGCTGAACCGCATCTCCCCGGCGATGAACCTGTTCTCCCTCGGCTTCCCCATGACCATCCTCGGCGGCCTGCTGTGCATCTGGCTGACCCTGCCGCACCTGCCGGAAAACTACCTGCACCTGTCGCGCGAGCTGCTCGACAACATCGGCATCCTGTTGCGGAGCGATGGCCGTGTCTGA	MPSSEPILQASQYLHQLQGYWWPFCRILALFSLAPLFSHKAVSIRIRVLLALALTFALAKALPDPPRIDALSLHGVLVAAEQIAFGLLMGLALQLVFTVFGLVGEVISTQMGMSMARYNDPVNGVSSSSIVSQLYFILLVFLFFATDGHLLIVSVLYQSFVYWPVGSGLHYLGFETLVYSLGWVLSAAVLVTLPVVFFMTLMQFCFGLLNRISPAMNLFSLGFPMTILGGLLCIWLTLPHLPENYLHLSRELLDNIGILLRSDGRV	PGPT0015360_253	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015360-fliR|lfiR-K02421	NA	NA
BMS010_06645	273	fliQ_2	COG1987	Flagellar biosynthetic protein FliQ	ATGCTGACCCCGGAAACCGCCGTCGCCATCGTCTCCAACGCCGTGCACATCACCGCGTTGATCGTCTGCGTGCTGGTCGTGCCCAGCCTGATCGGCGGCCTGCTGGTGAGCATTTTCCAGGCGGCGACCCAGATCAACGAGCAGATGCTGAGCTTCCTGCCGCGCCTGCTGATCACCCTGGGCATGCTGATCTTCGCCGGCAACTGGATCCTGCGGACCCTCGGCGACCTGTTCATCGAAACCTTCAAGCAGGCCGGCCGGCTGGTCGGTTGA	MLTPETAVAIVSNAVHITALIVCVLVVPSLIGGLLVSIFQAATQINEQMLSFLPRLLITLGMLIFAGNWILRTLGDLFIETFKQAGRLVG	PGPT0015355_255	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015355-fliQ|lfiQ-K02420	NA	NA
BMS010_06646	759	fliP_4	COG1338	Flagellar biosynthetic protein FliP	ATGAAAAGCCTGCGTCGCCTCGCCGTCCTCGTCCTGCTGCTGGCCGTCGGCCTGTGCCCGCTGGTCGCCCAGGCGGCCGGCGGGGACATCACCCTGCTCAACCTGAACGACACCGAGAACGGCCAGGAGCTGAGCGTCAAGCTGCAGATCCTGATCGTCATGACCCTGCTTGGCTTCCTGCCGGCAATGCTCATGATGATGACCTGTTTCACCCGCTTCATCGTCGTCCTGGCCATCCTGCGCCAGGCCATCGGCCTGCAGCAGAGCCCGCCGAACAACATCCTGATCGGCATCGCCCTGTGCATGACGCTGCTGGTGATGCGCCCGGTCTGGCAGGAGATCTACAGCGAGGCCTACGTGCCCTTCCAGGCCGACCAGATCACCCTGGAGCAGGGCCTGGGCAAGGCCAAGCAGACGCTGTCGCGCTTCATGCTCGCGCAGACCAACAAGAATTCCCTGGAAACCATGGTCTCCCTGGCCGGCGAAGAACTGCCGCAGAACCTCGAGGAGCTGGACTTCTCCCTGCTGCTGCCGGCCTTCGTGCTCAGCGAGCTGAAGACCGCCTTCCAGCTCGGCTTCATGATCTTCATACCGTTCCTGGTGATCGACCTGGTGGTGGCCAGCGTGCTCATGGCCATGGGCATGATGATGCTCTCGCCGATGATGATCTCGCTGCCGTTCAAGCTGATGGTGTTCGTCCTGGTCGACGGCTGGGCCCTGATGATGGGGACCCTGACCACCAGCGTGCAGCCGTTCTAG	MKSLRRLAVLVLLLAVGLCPLVAQAAGGDITLLNLNDTENGQELSVKLQILIVMTLLGFLPAMLMMMTCFTRFIVVLAILRQAIGLQQSPPNNILIGIALCMTLLVMRPVWQEIYSEAYVPFQADQITLEQGLGKAKQTLSRFMLAQTNKNSLETMVSLAGEELPQNLEELDFSLLLPAFVLSELKTAFQLGFMIFIPFLVIDLVVASVLMAMGMMMLSPMMISLPFKLMVFVLVDGWALMMGTLTTSVQPF	PGPT0015350_1466	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015350-fliP|rhcR-K02419	NA	NA
BMS010_06647	369			hypothetical protein	ATGACCGCGCAATTGACCGACAACGATTTCGAAAGCCTGATCAACGAAGGCGACCTGGGTCTCGATGCCGCCGACGAGGTGGTCAACGTCGAAGCCCCGGCGCAACTGCCGCACCAGGACCTGAGCTTCTTCGGCAAGATTCCGGTGAACGTGACCCTGGAAGTCGCCTCCACCGAGATTTCCCTCAAGGAGCTGATGGAGGTGGACACCAGCAGCGTGATCGTGCTCGACAAGCTGGCCGGCGAGCCCCTCGACGTGAAGGTCAACGGCGCCCTGTTCGCCAAGGCCGAAGTGGTGGTGATGAACGGCAACTACGGCCTGCGCATCGTCGAACTCAGCGGCACCAGCCTGAACGACCTGACCCGATGA	MTAQLTDNDFESLINEGDLGLDAADEVVNVEAPAQLPHQDLSFFGKIPVNVTLEVASTEISLKELMEVDTSSVIVLDKLAGEPLDVKVNGALFAKAEVVVMNGNYGLRIVELSGTSLNDLTR	PGPT0015410_2113	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015410-fliN|lfiN|fliNY|cheC|cheD-K02417	NA	NA
BMS010_06648	840			hypothetical protein	ATGACCGGTAATTCGAAAGTCCACCATGGCGTGCCCGCCGACAGGCTGACCCGGTTGAAGCCGCAGAAGTTGGGTCGGCATTACCATAAGATTCCGCAGTACATCCGCGAGTTGACCAGTAAACATCCGCGGATCATCAGCGATTATTTCCTGCGCAATTACCGGATCAATCTGGAATTGAACCGGGTGGATGTGCATGAACAACTTCAGCGCCCGGCCGAATGCACCTATCGCTGCCCGTTCGGCAAGGTGGGTTTCGCCATCGATCGTGCCCTGCTGACCGAAGCCCTGGAGTGCTATTACGGCGGCAGCTGCCTGCCCAGCCACGACGAACCGCCGATCAGCACCTCGGAACAGCGGATGCGCGAGCGGCTGGGCAAGGACATCGCCAACCTGTTCGCCCGCAAGCTGCTGTCCGGCGCCACCTTCGGCGAGCTGGTCCGGCACGAGAACGCCTACGAGCAGGTGGAGTGGGAGTACGTGGCCGAGTTTTCCTACACCAGCCACCTCACCGGCAGCCAGTCGTCCATCTTCATCTTTCTCGACAACCCGCTGGTGGACGAACTCACCAGCCGCCTGACCGGCCCCGCGGCGTCGCGGCCGACCGGCAGCCCGGCGAACAACATCCGCCACCTGCCGGTGCGCCTGGATTGCGTGATCGCCGCCCTGCAGATGCCGCTGGCGCAGGTCCTCGCCCTCAAGCCCGGCGACATCCTCATGGTGCGTCTGCTGGAGCGCTGCGAGGTGCAGATCAACCAGCAGAAGCTGTTCCGCGGCAGCCTTTTCGAAGAAGACGGCGCCTTGTTCCTGACCTCTCTTGAGAGCGTGAAAAACCCATGA	MTGNSKVHHGVPADRLTRLKPQKLGRHYHKIPQYIRELTSKHPRIISDYFLRNYRINLELNRVDVHEQLQRPAECTYRCPFGKVGFAIDRALLTEALECYYGGSCLPSHDEPPISTSEQRMRERLGKDIANLFARKLLSGATFGELVRHENAYEQVEWEYVAEFSYTSHLTGSQSSIFIFLDNPLVDELTSRLTGPAASRPTGSPANNIRHLPVRLDCVIAALQMPLAQVLALKPGDILMVRLLERCEVQINQQKLFRGSLFEEDGALFLTSLESVKNP	PGPT0015405_2433	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_C-RING,PGPT0015405-fliM-K02416	NA	NA
BMS010_06649	1392	norR_3		Anaerobic nitric oxide reductase transcription regulator NorR	TTGAAGCGTGTCAGTCAATCGGTGAGTTATTCATATGATGAGCTGCCGGCGCAGAAGACCGTTATTGTTGGCGGCAGCGGCGAAGAGAGCCATTCGTTGCTGGCCGACAGCCTCGTGCGCCAGGGCTGCCGGGTCGTCGTCTCGGCCACCTGTGCCGAGCTGGACAGCGAGAGCCTGGCCGGTACCGGGCTGGTCTTCGTGTTCGCCAGCAGCCTGCCGGAGCACGGTTTGTATGCTCAGGTGGGCGCCCTGTTGCGGCGGGCCCGCAGCCTCAGTGTGATCCCCATCGTCGAGTACGCCGACCAGGAGAAGGCCGCCGCGCTGCTGGAGCTGGGCTGCGTCGACTATCTGCTGTCGCCGTTCAGCGAATCGCAACTGGAGGCGCTACTGCGCCGCCAGGAGTTCGCCTGCGCCGCCGAGGAGAGCTTCGTCTCCTGTTCCCAGGCCGGCCGCCGCCTGCTGGCCATGGCCCAGCGCGTGGCGCTGACCCGCGCGCCGATCCTGATCACCGGCGAAACCGGCACTGGCAAGGAGCTGATGGCGCGCTACATCCACCGTTTCTCGGCCAGCGACGACGCACCCTTCGTCGCCGTCAACTGCGCGGCGATTCCCGAGCAGATGCTCGAGTCCATCCTCTTCGGCCACGAGCGCGGCGCCTTCACTGGCGCGGTCACCGCCCAGCCCGGCAAGTTCGAGCTGGCCAACGGCGGCACCCTGCTGCTCGACGAAATCGGCGAACTGCCTCTGGGGCTGCAGGCCAAGCTCCTGCGCGTACTCCAGGAGCAGCGGGTGGAGCGCCTGGGCGGGCGCAAGGAAATCGAACTCAACGTGCGCATCATCGCCGCCACCAACCGCGACTTGCAGGCCGAAGTGGCGGAAGGCCGCTTCCGCGCCGACCTGATGTTCCGCCTCGACGTGCTGCCGCTGCACATCAGCCCGCTGCGCGAGCGCAAGGAAGACGTGCTGCCCCTGGCGCGCCGCTTCATTCGCCAGTACGCGCCGCAGGAAAAGCACGACGACCTGCTCACCGAAGACGCCTGCCGTGCCCTGCTGGCCCACGACTGGCCGGGCAACGTCCGCGAGCTGGAAAACACCGTGCAGCGCGCCCTGGTGCTGCGCAACGGCTTGTTCATCCAGCCCCGCGACCTCGGCCTGGCCACGCCCGAGCCGCTGCCCGTCCGCGAGGAAAGCCGCCCCCTGGCCATGCCCGAAGGCGGCAAGGCGGCCCTGCGTGCCAGCGGCAAATGGGCCGAGTACCAGCATGTGCTGGACACCATCCGCAAGTTCGGCGGGCACAAGACCAAGGCCGCCGAAAGCCTCGGCATGACCCCCCGCGCCCTGCGCTATCGCCTCAACGCCATGCGCGAGCAGGGCGTCCAGATACCCGTCTAG	MKRVSQSVSYSYDELPAQKTVIVGGSGEESHSLLADSLVRQGCRVVVSATCAELDSESLAGTGLVFVFASSLPEHGLYAQVGALLRRARSLSVIPIVEYADQEKAAALLELGCVDYLLSPFSESQLEALLRRQEFACAAEESFVSCSQAGRRLLAMAQRVALTRAPILITGETGTGKELMARYIHRFSASDDAPFVAVNCAAIPEQMLESILFGHERGAFTGAVTAQPGKFELANGGTLLLDEIGELPLGLQAKLLRVLQEQRVERLGGRKEIELNVRIIAATNRDLQAEVAEGRFRADLMFRLDVLPLHISPLRERKEDVLPLARRFIRQYAPQEKHDDLLTEDACRALLAHDWPGNVRELENTVQRALVLRNGLFIQPRDLGLATPEPLPVREESRPLAMPEGGKAALRASGKWAEYQHVLDTIRKFGGHKTKAAESLGMTPRALRYRLNAMREQGVQIPV	PGPT0015570_148	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_REGULATION,PGPT0015570-flrC|fleR-K10943	NA	NA
BMS010_06650	333	fliE_3		Flagellar hook-basal body complex protein FliE	ATGACATCCATCACTCAGGTCCGGCAGGACATGCTGGACCGGATGAATCAGATCCGAGAACTGTCCGAGGGCGCGGCGATCAAGCCCGCCGCGCTGCAGGGAGACGCCGGGCCGGCCGGCCCCGCGGCGGCCTTCGACAGCGTGCTGCGTGCGGTGGACGCCCAGCAGCACCAGGCCAGCGCGGCGATGGCGGCGGTGGACAGCGGCAAGAGCGAGGACCTGGTGGGCGCGATGATCGACAGCCAGAAGGCCAGCGTGTCCTTCTCCGCGTTGCTGCAGGTGCGCAACAAGCTGACCAATGCCTTCGACGAAATCATGAGAATGCCGCTGTGA	MTSITQVRQDMLDRMNQIRELSEGAAIKPAALQGDAGPAGPAAAFDSVLRAVDAQQHQASAAMAAVDSGKSEDLVGAMIDSQKASVSFSALLQVRNKLTNAFDEIMRMPL	PGPT0015515_620	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015515-fliE|lfiE-K02408	NA	NA
BMS010_06651	1689	fliF_3	COG1766	Flagellar M-ring protein	GTGCTGCAGACAATCAAGAGCAAGCTGCCCGCGCAAGGGCTGAAGCTGGACCCGCGCCTGTCGCTGCTGGCGATGGCGGCGGTGGCCGCCCTGCTGGCGGTGGGCGTGGTGTATTACCTGTGGCGCGACCAGGGAGCGTTCCGCCCGCTGTACGGCTCCGGCGAGGCCTATCCGGCTGCCGAAGTGATGCAGGTGCTGGACGGCGAGGCGGTGGCCTATCGCATCCATCCGCAGAGCGGCCAGGTGCTGGTACGGGAGGACGATTTGGCCCGCGCGCGTATGCTGCTGACCGCCAAGGGCGTGAAAGTCTCGGTGCCGGCCGGCTATGAGCTATTCGACCGCGACGAGCCGCTGGGCACCAGCCAGTTCGTCCAGGACGTGCGCCTCAAGCGCAGCCTGGAAGGCGAGCTGGCCCGCACCGTGATGTCGCTCAAGGGCATCGAGTCGGCGCGGGTGCACCTGGCGCTGGAGGAAACCAGTTCCTTCGTGGTCAGCAAGCGCGACCCGGCCAAGGCCTCGGTGATGGTGCAACTGGCGCCCGGTTACCGGCTCAAGCCGGAGCAGGTGGCGGCCATCGTCAACCTGGTGGCCAACAGCGTGCCGCAGCTCAAGCCGGAGGACGTCGGCGTGGTCGACCAGCACGGCGCACTGCTGTCGCGCGGGCTGAATGCCTGGGGCGGGCCGGCGCAGAGCTGGCAGGTGGCGGATGACTACCAGCAGAAGGCGGTGGCCAACGTGGAAGAGGTGCTGGCGCCGATCCTCGGCAATGGCAACTACCGCGTCAGCGTGGCCGCCGACTTCGATTTCAGCCAGAAGGAAGAGACCTTCCAGGCCTACGGCGACGCGCCGCGCTTGCGCAACGAGGTGCTACGTGACGAGAGCACCCTGGACCAACTAGCCCTGGGTGTGCCCGGCTCCCTGAGCAATCGCCCCGTGCCGCAGCCGGAGGATGAACAGGGCAATGCCGGGAATGCCGGTAACGAGCAGCAGAAGAAGGACACCGAGAACAAGGCGGCCACGTCGCTGCGCAAGGAGTCGACCCGCCAGCTCGACTACGACCAGACCGTCACCCACGTCAAGCACGCGCCGTTCTCCCTGCGCCAACAGAGCGTGGCGGTGGTGCTGAATGCCGCCAGCGCGCCGGAAGGCGGTTGGACGCCCGAGGCACGGGCAGAGCTGGAGGCCATGGTGAAGAGCGCGGTGGGCTTCAACCAGAGCCGTGGCGACCTGCTCACCGTCAGCGTGTTCCCCTTCGCCAACGAAGCCGTGACGGAAGAGCCGCTGCCCTGGTGGGAAAACAGCCGCATCCATGAGCTGATCAAGCTCGGTGTGTTCGGTCTGATCAGCCTGCTCCTGTTGTTGATGGTGGTTCGCCCGGCGGTGCGCAACCTGACCAGCCCGGCGCGCCCCGAAGAGCCCCAGGCGCTGCCCGAAGGCGATGCCCTGGCGGCGCTGGCCAGCGAGCGCAGCGAACGCCTGCTCGCCCAGGTGGGTGAGGAAAACCCTGGCATCAACATCCTCGGTGAATTGAGCCCGCTTTCGGAAATCCGCCTGCCGGCTCCGGATTCCGGGTTGGAAATGCAGATCGAGCATTTGCAGATGCTGGCGAAGAACGATCCCGAGCGTGTCTCGGAAGTCATCAAGCAGTGGATAGGGCGAAATGAAAGAGACCTCAACCCGGCAAGCTGA	MLQTIKSKLPAQGLKLDPRLSLLAMAAVAALLAVGVVYYLWRDQGAFRPLYGSGEAYPAAEVMQVLDGEAVAYRIHPQSGQVLVREDDLARARMLLTAKGVKVSVPAGYELFDRDEPLGTSQFVQDVRLKRSLEGELARTVMSLKGIESARVHLALEETSSFVVSKRDPAKASVMVQLAPGYRLKPEQVAAIVNLVANSVPQLKPEDVGVVDQHGALLSRGLNAWGGPAQSWQVADDYQQKAVANVEEVLAPILGNGNYRVSVAADFDFSQKEETFQAYGDAPRLRNEVLRDESTLDQLALGVPGSLSNRPVPQPEDEQGNAGNAGNEQQKKDTENKAATSLRKESTRQLDYDQTVTHVKHAPFSLRQQSVAVVLNAASAPEGGWTPEARAELEAMVKSAVGFNQSRGDLLTVSVFPFANEAVTEEPLPWWENSRIHELIKLGVFGLISLLLLLMVVRPAVRNLTSPARPEEPQALPEGDALAALASERSERLLAQVGEENPGINILGELSPLSEIRLPAPDSGLEMQIEHLQMLAKNDPERVSEVIKQWIGRNERDLNPAS	PGPT0015430_1385	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015430-fliF-K02409	NA	NA
BMS010_06652	1005	fliG_3	COG1536	Flagellar motor switch protein FliG	GTGCGTAGCCAGGCCCGGCCGCTCAGTTCGGTCGAGCAGGCGGCGATCCTCATGCTGAGCATGGGCGACGACGCCTCCGCCGGCGTGCTGCGCCATTTCACCCGCGAAGAGATCGTCAGCATCAGCCAGGCCATGGCGCGCCTGAGCAACATCAAGCAGCCGATGGTCTCCGAGGTGATCGGCCGCTTCTTCGAGGATTTCAAGGAGCAGAGCAGCATCAAGGGTGCCTCGCGCAGCTACCTCTCGCGCATGCTCGGCAAGGCGCTGGGCGGCGACATCACCCGCAGCCTGCTGGACAGCATCTACGGCGAGGAAATCCGCGCCAAGATGGCCAAAATGGAATGGCTCGATCCCAAGCAGTTCGCTGCGCTGATCGCCAAGGAGCACCCGCAGATGCAGGCGGTGTTCCTCGCCTTCCTGCCGCCGGGCATGGCCAGCGAGGTGCTGGAGTGCATGCCGGCCGAGCGCCAGGACGAGCTGCTCTACCGCATCGCCAACCTCACCGAGATCAACAGCGATGTGATCGAGGAACTGGAGCAGCTCATCGAGCGCAGCCTTTCGGTGCTTTCCACCCAGGGCTCGCAAGTGCGCGGGGTGAAGCAGGCGGCGGACATCATGAACCGCTTCAAGGGCAATCGCGACCAGATGTTCGAGCTGCTGCGCGCCCACAGCGAAGAGTTGGTGGAGAAGATCGAGGACGAAATGTACGACTTCTTCATCCTCTCCCGGCAGAACCAGGAAGTGCTGCAAACGCTGCTCGAAGCCATCCCGCTGGAAGAGTGGGTGGTCGCCCTCAAGGGAGCCGAGCCCGAGCTGGTCCGCGCCATCCAGGGCGCGCTGCCCAAGCGCCAGGCGCAGCAGATGGAGTCGATCAACCGGCGTCAGGGCCCGGTGCCGCTCAGCCGCGTCGAGCAGGTGCGCAAGGACATCATGGCGGTGGTCCGCGAGCTGTCGGCCCAGGGCGAGCTGCAGGTCCAGCTGTTCCGTGAACAGACGGTGGAATGA	MRSQARPLSSVEQAAILMLSMGDDASAGVLRHFTREEIVSISQAMARLSNIKQPMVSEVIGRFFEDFKEQSSIKGASRSYLSRMLGKALGGDITRSLLDSIYGEEIRAKMAKMEWLDPKQFAALIAKEHPQMQAVFLAFLPPGMASEVLECMPAERQDELLYRIANLTEINSDVIEELEQLIERSLSVLSTQGSQVRGVKQAADIMNRFKGNRDQMFELLRAHSEELVEKIEDEMYDFFILSRQNQEVLQTLLEAIPLEEWVVALKGAEPELVRAIQGALPKRQAQQMESINRRQGPVPLSRVEQVRKDIMAVVRELSAQGELQVQLFREQTVE	PGPT0015400_213	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_C-RING,PGPT0015400-fliG-K02410	NA	NA
BMS010_06653	693			hypothetical protein	ATGACGGTCAAGGTGATCAAGGATGGCCGCAACTGGCGGCCCTATCGTTTCCCGCCGCGGTGCAGTGCGCCGGTGCAGACGGACTGGAGCGGCGATCCGTCGGCCCTGCAGCGGGCGATCTCCGACGGGTTCCAGCAGGGCATCGAGAAGGGCTACCAGGAGGGTCTGCTGCAAGGGCAGGAAGCCGGCCAGCGCGAAGGCTTCGAAACCGGCCGCCAGGAAGGCTTGCGCCAGGGCCGTGAAGAAGGCCGCCAGCAGGGTCGCCAGGCTTTCGAGGCGGCCAGCCAGCCGCTGGACCGCATCACCGCCGAGCTGAACCGCTTCCTCGCCGAATTCGAACGCAACCGCCGCCAGGACCTGCTGGAGCTGGTGAAGAAGGTCTCCAAGCAGGTGATCCGCTGCGAGCTGACCCTCAATCCCACGCAACTGCTGACCCTCGCCGAAGAGGCTTTGGCGGCCATGCCGGGCGAGCAGGGCGACGTGCACATCCACCTCAACCCGGAAGAATGCACCCGCATCAAGGACCTCGCCCCCGAACGGGCGGCGGCCTGGCGGCTGGTGCCCGACGAGCGCCTGGCCCTCGGCGAGTGCCGCGTGGTGACCGCCCAGGCGGAGGCCGACATCGGCTGCCAGCAGCGCCTGGACTCCTGTATGGACACGCTCTCCGAACACCTGAACGTGGCTGAGGCCTGA	MTVKVIKDGRNWRPYRFPPRCSAPVQTDWSGDPSALQRAISDGFQQGIEKGYQEGLLQGQEAGQREGFETGRQEGLRQGREEGRQQGRQAFEAASQPLDRITAELNRFLAEFERNRRQDLLELVKKVSKQVIRCELTLNPTQLLTLAEEALAAMPGEQGDVHIHLNPEECTRIKDLAPERAAAWRLVPDERLALGECRVVTAQAEADIGCQQRLDSCMDTLSEHLNVAEA	PGPT0015335_1760	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015335-fliH-K02411	NA	NA
BMS010_06654	1326	fliI_2	COG1157	Flagellum-specific ATP synthase	ATGTCGCTGCTGGAAAGCTTCAAGCTCGACGACGCCCTGCGCTCCCTGGAGTCGGTCCAGTTGGCCAAGGTCAGCGGCCGGCTGGTGCGGGTTTCCGGCATGCTCCTGGAAAGCCTCGGCTGCCGCCGTATGACCGGCCAGCGCTGCAACGTCGAGCAGGCCGACGGCAGCATGCTGGAAGCCCAGGTGGTGGGCTTCAACCGCGACATCACCTACCTCATGCCATTCAAGAAGCCCATGGGCCTGACCGCCGGCTCGCGGGTGTTCCCGGCGCGGGACGAGGCCCTGCTGCACATCGACGAGTCCTGGCTGGGACGGGTCATCAACGGTCTCGGCGAGCCGCTGGACGACCTCGGCCGCCTGGGCGGGCGCGATCCGCTGCCGGGCGAGCTGCCCTCGGTCAACCCGCTCAAGCGCAAGCCGGTGTCCGAGCCGCTGGACGTCGGCGTGCGGGCGATCAACGCCATGCTCACCTTAGGCAAGGGTCAGCGTGTCGGCCTGTTCGCCGGCAGCGGGGTGGGCAAGAGCGTGCTGCTCGGCATGATCACCCGGCAGACCAAGGCCGACGTGGTGGTGGTCGGCCTGATCGGCGAGCGCGGCCGCGAAGTGCAGGAGTTCATCCTCCATGCCCTCGGCCCGGAAGGGCTGCGCAAGGCCGTGGTGGTGGTGGCGCCGGCCAACGAGTCGCCGTTGATGCGGCTGAAGGCCACCGAGCTGTGCCACAGCATCGCCGCCTATTTCCGCGACCAGGGCAAGGACGTGCTGCTGCTGGTGGATTCCCTGACCCGCTACGCCATGGCCCAGCGCGAGATCGCACTGGCCCTCGGCGAGCCGCCGGCGACCAAGGGCTATCCGCCGTCGGTGTTCGCCATGCTCCCGGAGCTGGTGGAAAGCGCCGGCAACGGCGAGAGCGAGCGGGGCAGCCTGAGCGCGCTGTACACGGTGCTCGCCGAGGGCGACGACCAGCAGGACCCGATCGTCGATTGCGCGCGGGCGATCCTCGACGGCCACATCGTCCTGTCGCGCCGGCTGGCGGACGTCGGCCACTACCCGGCGATCGACATCGCCGCCTCGGTGAGCCGCTGCATGAGCCAGGTCACCAGCCCGGCGCACCAGGGCGCGGCCCGGCAGCTCAAGGAGTTCTACAGCACCTACGGCAAGATCAAGGAACTCATCCCCCTGGGCGGCTATACCCCCGGCATGGACGCCAAGACCGACCGCGCCGTGCAATTGGCCCCGGCCATCGAACGCTTCCTGCGCCAGGAGACCGGCGACGCCGCCGAGCTGGCGCCGAGCATCGCCACCCTGCAGAGCCTGGTGAAATGA	MSLLESFKLDDALRSLESVQLAKVSGRLVRVSGMLLESLGCRRMTGQRCNVEQADGSMLEAQVVGFNRDITYLMPFKKPMGLTAGSRVFPARDEALLHIDESWLGRVINGLGEPLDDLGRLGGRDPLPGELPSVNPLKRKPVSEPLDVGVRAINAMLTLGKGQRVGLFAGSGVGKSVLLGMITRQTKADVVVVGLIGERGREVQEFILHALGPEGLRKAVVVVAPANESPLMRLKATELCHSIAAYFRDQGKDVLLLVDSLTRYAMAQREIALALGEPPATKGYPPSVFAMLPELVESAGNGESERGSLSALYTVLAEGDDQQDPIVDCARAILDGHIVLSRRLADVGHYPAIDIAASVSRCMSQVTSPAHQGAARQLKEFYSTYGKIKELIPLGGYTPGMDAKTDRAVQLAPAIERFLRQETGDAAELAPSIATLQSLVK	PGPT0015340_2023	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015340-fliI|lgiI-K02412	NA	NA
BMS010_06655	432			hypothetical protein	ATGACCATGAAAGAGCAGATCGAAACCCTGTCGCGGCTGGCCAGCCTGCGCGAGAACAAGGTGCGGCAGATGCTCGGCCGGGTCGCCTACCAGCAGAACCTCTGCCAGCGCTACCGCAACAACATCGCCGGCCTCAGCCGCCTGTGCGGATTCACCGTGCCCATGACCACGCCGTTGCAGCGCGACAACCAGCAGAAATACAAGGCGACCCTGCACAAGATGGTCGAACTGCAGCGCCGCGAACTGAGCGTGGCCGAAGCGGCGCTGGCGCGCATCCAAGCCGAGCTGCTGCAAGCCATGCGCAACGAGAAGATCCTCACCCAGGTGATCGACATGAAGATGGCGCAATGGCAGGAAGACCTTGCACGGCAGGAGCAGAAAATCCAGGATGGCCTCGCCGCCCAGAGCTGGTGGCGGGCGCATGGCAGTTGA	MTMKEQIETLSRLASLRENKVRQMLGRVAYQQNLCQRYRNNIAGLSRLCGFTVPMTTPLQRDNQQKYKATLHKMVELQRRELSVAEAALARIQAELLQAMRNEKILTQVIDMKMAQWQEDLARQEQKIQDGLAAQSWWRAHGS				NA	NA	NA	NA	NA
BMS010_06656	282			hypothetical protein	ATGGAAATCAACCGGCACTTCAAATCCAGCTTCACGGCCCAGGCCGAGGCCTCGAATGTGGCCCGGAACGACCGCACCAGCCCGGCGAAATCCACGTCCGCCAGCCGCGTTTCCGCCGAACCGAGCCTCGAGCCGCTGCAGGATGCCCTGCGCAGCCTGCCCGACGTCGACCTGGACAAGGTCGCCGAGATCAAGGCCGCACTTCAGCGCGGTGAGATCAGCAGCGATGCCGACAGTCTCGCCGGCAGCATGCTGGCCTACCACAGCGGTAGCGATACGTGA	MEINRHFKSSFTAQAEASNVARNDRTSPAKSTSASRVSAEPSLEPLQDALRSLPDVDLDKVAEIKAALQRGEISSDADSLAGSMLAYHSGSDT	PGPT0015530_1421	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0015530-flgM-K02398	NA	NA
BMS010_06657	441			hypothetical protein	GTGAGTCGAGCCGCCCAGTTGTTGCATGTCTTCGAACAGGACCTGCAGCAGGACTGCGCCGATTACCTCGGCCTGCGCGGCTTGATGCAGGAACTGTACGACCAGTTGCTCAAGCGCGACTGCGGGCGGATCGACCTGCTCAACCGGCAGATCGGCGACATGCTGGAACAGATGGGCGCCCGCGCGCAGCGGCGCAGCAAAATCCTCACGGCCTTCCGCCTGGACAAGGGCGCCGAGGGCATGCAGAAGCTGCTCGACCATTTCCCCCCGGCCCAGCGGGCACGGCTCCGTGAATCATGGGAACAACTCGGCCAACTCGCGGCCCAGTGCAAGCGCCTGAACGAACGCAACGGCAAACTCCTGGCCATGCACCACGAGATTCTCGACCAGTTGCTCGGCGAAACCGACCCCGCCCAACTCTACGCCCCACAGCCGTGCTGA	MSRAAQLLHVFEQDLQQDCADYLGLRGLMQELYDQLLKRDCGRIDLLNRQIGDMLEQMGARAQRRSKILTAFRLDKGAEGMQKLLDHFPPAQRARLRESWEQLGQLAAQCKRLNERNGKLLAMHHEILDQLLGETDPAQLYAPQPC	PGPT0015535_451	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_REGULATION,PGPT0015535-flgN-K02399	NA	NA
BMS010_06658	648			hypothetical protein	ATGAAAGTTTTGCTGTGCTCAATCCTCATCCTGCTCGCCGGCTGCCAGGCCATGCACGAGACGCCTCAATCCTTCAGCTCGATCACCCTTCCCTGGGGGTTCGGATTCACCGTCCCCGACTGTATGGATGCCTGGGTGGAATGGGCGGGCGCCGAGGATATGCAGGGACGTTACCTTCGCCTGGCCGGCGGCGTTCCCGCCTACAACTGCTCGCCCACATCCAATGACGAACAGGCACGCGGCTGGCAAGGGGTTGGCGGCAGCGGAATGGGGCTGTCCGGCTACGACCTGCCCAAACGGTTCTATGTCCGCTGGCAATCCATCGTCGAGCAGAAAACCTACAAGGCCTGGGTAGACTTTCCCGAGGAGGCGCGCACGCTCCTGCAACTAAGCGATACCACTCGCTGCCCGGCAACGCCAGAAGACGATCCCATCGGGATGGCAATCAATATGGGGCTTGCCCCTGGTGGTGTGATCGTCGTTTGGGTGCGCGATCCTTGCTTAAAACCAATTGAAGTCGCCAGCGCCCAGGCAGAAGAAGAGCCCCTAGGCCCATATCAGGGCGAATCCGGTGGCGAGTATTACTTCCAGAAGGAAGCCTCTAAACGCTACATCGAACGCTTCGGCATTCCCTACGGCAGTTGGTGA	MKVLLCSILILLAGCQAMHETPQSFSSITLPWGFGFTVPDCMDAWVEWAGAEDMQGRYLRLAGGVPAYNCSPTSNDEQARGWQGVGGSGMGLSGYDLPKRFYVRWQSIVEQKTYKAWVDFPEEARTLLQLSDTTRCPATPEDDPIGMAINMGLAPGGVIVVWVRDPCLKPIEVASAQAEEEPLGPYQGESGGEYYFQKEASKRYIERFGIPYGSW				NA	NA	NA	NA	NA
BMS010_06659	651			hypothetical protein	ATGAAACGATTACGGATAGCCCTGCTCGCTCTGCTCGCCGGTTGCCAGGCCGCGCCCGCACCACATCCTTCCCTAAAAGTACCTCCCGACTGGTGGCAACTGGGCTTTACCGTTCCCGACTGCATGGATGCCTGGGTCGAATGGGCCGCTGCGGAAGATATCCAGGGACGGATGTTCAACCGCATCGGCAGTGGCCTCCCCGCCTATAACTGCCCCGGCAACACCTCGACGGAAATAGGCCGGGGGTGGCAGGGTCCTGGGGTAGGCGGTCGGCAGGTTCCCGGGGCGGACCTGCCCAAGCGGATTTATGTCCGCTGGCAGTCCATCGTCGAACGAAAAACCTACAGGGCATGGATCGAAATACCTGAACAGGCACGTACCCTGATGCGAGCCAGCCAAACCCAAACCTGCCCCAACGATCCGGATTTCGGCATCCCGGGTATCTTCATCCATCTCGGTCTGGCCCCCGGTGGAGCGATAGTCGTCTGGGTACGCGACCCCTGCCTCAGCGCTGTTCAAGTCGCCAGCGCCCAAGCGGAGGAAGAGCCTCTCGGCCCACACCAAGGTGAATCAAAAGGACACTACTACCCACAAAAGGAAGCCTCCCAGCACTACATCGAACGCTTCGGTATTCCCTACGGCAGTTGGTGA	MKRLRIALLALLAGCQAAPAPHPSLKVPPDWWQLGFTVPDCMDAWVEWAAAEDIQGRMFNRIGSGLPAYNCPGNTSTEIGRGWQGPGVGGRQVPGADLPKRIYVRWQSIVERKTYRAWIEIPEQARTLMRASQTQTCPNDPDFGIPGIFIHLGLAPGGAIVVWVRDPCLSAVQVASAQAEEEPLGPHQGESKGHYYPQKEASQHYIERFGIPYGSW				NA	NA	NA	NA	NA
BMS010_06660	1608			hypothetical protein	ATGGCTCGAGACAAGCGCCCGCTGGTCACGGAGTGGAAGTGGTACAAGAACGGCCAGGGTCTGCTGGTCCGCCGGGTGGTCACCGCGGAGGAACATGAGGCTCGACAACGCGCCACCGATGAAGCCCGCGCTCGCCAGGAGCGCTTCCTGGATGAGCAGGTCCGGATCGCCGACGAATTGGAACGGCGGCGGCTCGAACGGCAGGTCGCCGTCAGCCTGCGCATCGGCGTGTTCTTCGACGGCACCGGCAACAACACCGCCAACGCCGAAGAAGGCGCCGCCTGCCGCCGCTCCCGGAGCATGCCGGAAGACCAGGCCCGCGCCATCGTCGACCGCTGCGAGCCCTACAAGCTGACCGGCAGCTATGCGAACGATGTGACCAATGTGTGGCGGTTGTACGACCTATACCCGGCCTCTCGCGCGCTTCAAGGCGAAGGGCAAAAGCGCTGGGCATCCTTGAGCATCTATGTCCAAGGCATAGGCACCGTAGCCGGCCAGCCGGATCAAGTGTTCAGCTCCGCGACCGGACGCGGGGAAACGGGTATTGCCGCCCGTGTCTATGACGCTTTCAAGGCGATCCGGAGCGAAATCAAGCAGATGCTTCAGCAGAACGCCGACTTCCAGATCGAATCCATCACCTTCGATGTCTTCGGCTTCAGCCGTGGCGCAGTGGCCGCCCGGCATTTCGCCCACCAGCTCCTCTTCGTGAAGAACTGGCCGGTGTGCGAACTGCTGTCCGGCCTGGGTAGGCACTTGGAAAGCCACTTCGTGCATCGCTTCGGCGAGGGTATTCGCGCCGGCGTGCTCGGCCTGTTCGACAGCGTGGCCGCCACCGCCGGCTGGACCGACTGGAGCGTGCGCAACCCAGTGGAACCGGGCCTGACGATCGCCCTGCCCCAGTCCCACTTTCCTCATGTGGTGCATCTGATCGCCGCCGATGAACAACGGGCCAACTTCCCGCTCAGCAGCCTGGCCCCGGATCACCTGGAAATCGCCCTGCCCGGCGTGCACTCGGATATCGGCGGTGGCTACCTGGCCGAGGATCAGGAACGTGTCCTGGTCGGCCCGATGCGCGCCCAGACCGTGCCTCTGCAGACGCCCATCGAAGCAACCGCCATCTATGCCGAAGTCCAGGAAGACCTGGCCCGGCAGATCGCCCAAGGCTGGCCTGCCGACGCCCTGAGCATCCACACGCCGCCCGCCGAACCGCTGCCGGCCGATCCCCAGGATCGACTGGCGCCCCGCCTCAAGCGGGTTTTCGCCGGTGTGGAACTGAGCCGCCCCATGAGCGGAAAGCTGTCGCTGGTTTACTTGCGACTGATGCACAAGCTGGTCACCGAAAGAGGCGTACCCTTGGATGTCATCGATATCCATGATCCAAAGTATGAAATCCCCGACGAATTGGCGCCCCTCTGCGAGCGCTTCCTAGCCGGCGACTACCAAGTGACCGACGCCGAGTACCGTGTGCTCCGCAGGCGCTACATTCATTGCTCGGCACACTGGACACCCATCCTCAATGGGCATTACAACCGCCTGCTCTACGTCAACACGCCCACGAACGATGGCATACGGGTCATCCATCCCCACAAGCCCCAAGGACGCCCATGA	MARDKRPLVTEWKWYKNGQGLLVRRVVTAEEHEARQRATDEARARQERFLDEQVRIADELERRRLERQVAVSLRIGVFFDGTGNNTANAEEGAACRRSRSMPEDQARAIVDRCEPYKLTGSYANDVTNVWRLYDLYPASRALQGEGQKRWASLSIYVQGIGTVAGQPDQVFSSATGRGETGIAARVYDAFKAIRSEIKQMLQQNADFQIESITFDVFGFSRGAVAARHFAHQLLFVKNWPVCELLSGLGRHLESHFVHRFGEGIRAGVLGLFDSVAATAGWTDWSVRNPVEPGLTIALPQSHFPHVVHLIAADEQRANFPLSSLAPDHLEIALPGVHSDIGGGYLAEDQERVLVGPMRAQTVPLQTPIEATAIYAEVQEDLARQIAQGWPADALSIHTPPAEPLPADPQDRLAPRLKRVFAGVELSRPMSGKLSLVYLRLMHKLVTERGVPLDVIDIHDPKYEIPDELAPLCERFLAGDYQVTDAEYRVLRRRYIHCSAHWTPILNGHYNRLLYVNTPTNDGIRVIHPHKPQGRP				NA	NA	NA	NA	NA
BMS010_06661	1329	fliD_2	COG1345	B-type flagellar hook-associated protein 2	ATGGCGATAGATTCGGATTACGTACAGCAGATGGCCACCCAACTGGCTTCCTATGAAGTCCAGTCGGCGCTGACGCGGGCCAACCGCAACCAGGCCACCTACAAGGCCCAGTTGAACGCCGTGACCACCCTGGAGACGGCGTTGCGCTCGTTCGCCTCGGCGGTCAAGGGGCTCAAGGGCAGCAGCGGCAGCATGCTGGTCAACAGCGCCACCTTCAGCCAGAGCGGCTATGCCACCGCCACGGTGGGGGCCACTGCGGTACCCGGCAGCTACCAGTTCTTCGTCGAGCAGTTGGCGACCCGTCACCAGCTCGCCCTGGAAGGCCTGCAGAACAGCGACATCGACACCAGCGGCACCCTGACCATCGGCCAGGGCGGCAGCAGCTTCAGCATCGACCTGGCCGGCGTGGACAAGGACGGCGACGGCATCAACTCCCTGGAGGAGCTGGCGGCGGCGATCAACGGCGCGGCGGACAACACCGGCGTCAACGCCACCCTGGTACGCAGCAACGGCACGGTCTCCCTGGTGCTCGGCAGCGAGGAAACCGGTACCGCCAATGCCATCAGCCTGTCCGCGTCCGGTACCAGCGGAGGGGCGTTCGATAGTGCCCTGGCCAGTGCACGTGAACTGTCTGCGGCGAAGGATGCCCGGGTACGCCTCGGCGGTGAGAACGGCATGCTGCTGACCAACGGCAGCAACACCTTCGACCAGATCATCGATGGCGTCAGCCTGACCTTCACCCAGGCCCACCAGGCCGGCGGCCAGCCGCTGACCGTGGACATCGGCCAGGACCAGAGCGCGACCAAGGACAAGGCGCAGGCCTTCATCAGCGCGTTCAACACGCTGATGGGCAGCTTCGACTCGTTGACCGTCAGCGGCAACGAAAGCACCGCCCGTGGCGTGCTGGCCGGCGATTCGAGCATCCGCGCCATCGAGAGCATGCTCAACCAGGTGCTGCGGACCTCCTACGGCGGCGCGACGCTGATGGATTTCGGCATCGTCGCCGACCGCAACGGCAAGCTGACCCTCGATGCCAAGCGCTTCGAGAAGGCCGTCGCCGCCGACCCTGACGGCTTCGAAAAGCTGTTCACCGACAAGGGCAACCTGATCGACAGTCTGGACAAGAACCTGGCGGTCTACACCAGCAGCGTCAACGGCGTGATGAAAAGCCGCAAGGAGACCCTCAACGCCATGCTGCGCCGGGTCGGCGATCAGTTCGACAACCTCCAGAAGCAATACGACAGCTACTACGGTCGCTACCTCAAGCAGTACACCGGCTTGATGCAGACCATGGCGGCGATGGAACAAACCTACGGCATGTTCTCATGA	MAIDSDYVQQMATQLASYEVQSALTRANRNQATYKAQLNAVTTLETALRSFASAVKGLKGSSGSMLVNSATFSQSGYATATVGATAVPGSYQFFVEQLATRHQLALEGLQNSDIDTSGTLTIGQGGSSFSIDLAGVDKDGDGINSLEELAAAINGAADNTGVNATLVRSNGTVSLVLGSEETGTANAISLSASGTSGGAFDSALASARELSAAKDARVRLGGENGMLLTNGSNTFDQIIDGVSLTFTQAHQAGGQPLTVDIGQDQSATKDKAQAFISAFNTLMGSFDSLTVSGNESTARGVLAGDSSIRAIESMLNQVLRTSYGGATLMDFGIVADRNGKLTLDAKRFEKAVAADPDGFEKLFTDKGNLIDSLDKNLAVYTSSVNGVMKSRKETLNAMLRRVGDQFDNLQKQYDSYYGRYLKQYTGLMQTMAAMEQTYGMFS	PGPT0015200_2362	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015200-fliD|flaB-K02407	NA	NA
BMS010_06662	399	fliS_3	COG1516	Flagellar secretion chaperone FliS	ATGAGCACCTATCACCTGAACGACAGTTACGACAGCTACCGCTCCGTCGACCTCGAGGCCCGCGCGGCCGCGGCGTCGCCCTATGAACTGGTCCTGGTCCTGTTCGACGGCCTGCTCGACGAGCTGGCCCGCGCCCGCGGCCACATCGAGGCTAAGCGCTACCAGCAGAAGGGCCAGTCGCTGGAGAAATGCCTGAACATTCTCAACGGCCTCAACGGCGCCCTCGACTACGAGAACGGCGGCGAGATGGTCCAGGGCCTGGCGCGCCTCTACGACTACTGCATTTACCGGCTCTCCGACGTCAGCGTGACGCTGTCGCTGGAAGGGCTGGACGAAGTGGTCCATCTGCTCGAAGTGCTGCGCGAAGGCTGGGATGGCGTGAATGCCCAGCGTGGATGA	MSTYHLNDSYDSYRSVDLEARAAAASPYELVLVLFDGLLDELARARGHIEAKRYQQKGQSLEKCLNILNGLNGALDYENGGEMVQGLARLYDYCIYRLSDVSVTLSLEGLDEVVHLLEVLREGWDGVNAQRG	PGPT0015620_1375	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_CHAPERONES,PGPT0015620-fliS-K02422	NA	NA
BMS010_06663	312			hypothetical protein	ATGCCCAGCGTGGATGACCTCGGCCGCCGGCTGCTCGCCGTGCAGGGCGAGCTGGCCGAGGCCCTGGCGAAGAAAGACTGGGAGCGCATGGCCGCCATCGACGCGCGTATCCGCGAGCTGTTGCAGGCCCTCGCCGGGCGCGAGTCGGAGCCGGAATTGCAGCGCGCCAAGCGGGCCTTGCAGCGCCTGCACGGCCAGGCGCTCCAGGCGTGCGCCGAGGAGTGCGAGCGCCTGCGGCGATTGTTGCTGACACACCTGGAGTATGCCGAGGGACGTTCGGCCTACATGCGGACCGAGATGTATGGGAGATAA	MPSVDDLGRRLLAVQGELAEALAKKDWERMAAIDARIRELLQALAGRESEPELQRAKRALQRLHGQALQACAEECERLRRLLLTHLEYAEGRSAYMRTEMYGR				NA	NA	NA	NA	NA
BMS010_06664	1107			hypothetical protein	GTGCTTCATTCGATAACCCAGCGCGGGCCGGTCGCCGCCGTACCGGCCGGGGACATGGCGAAGCCAGGTGGCGACCCGCGGGGGGCCGTCGCCCGATCCGGCGAGACGTTCGTGCTGCCCGACACGGCGCTGCTTCCCGAGAATGGAACGCCCGATGAGAGCGAGCGTGACGAGTTCGTCGACGCGCTGTCGGCCGAATCCGGGGCGGATGAGCTGCAGCCGCAGGCGGCCGACGTCATGCCGCTGGACCCGGCCGCCGTGCCGGAAACGGAATCGCGGGCCGAACGCTGGCTGCTGAGCATGCTCGACCAGCGCGCCACCCGCGTGCAGGCACAGGACAGCGATGAAACACCGGCCCGGCAAGCCATGGACATCGCCCTGCGGAGCATTCCCCAGGTGGTGGTGAATCCGCTGCGGCAGGACGGCTTGGCCCAACCGCTGAGCATGCCGCCCTCGCTGGGCGTCGGTGGTGCCTTCGTCATGCCCGAAGCGACACCGGCGCTTCACTCTGCCGAACCGGCCGAGAGTGGCGAAGTGGCGTTGCTCGCCTCCCTGGAACGTGCCGGTGGCAAGGCGTCTTCGCTGCCGCAGGCCGCTTCGCCGGCGATCGACGGCGCTAACCCGATCGCTTCGCCCATGGCGGCAGTGCAACCGGCGACCGCTGTGGAACGCACGCTGAAGCTGGAGGCGCCGGAGGCCAAGTGGGGCGAGCAGATGCTGCATGCCCTGCGCGACACCGTCGAGCTGCAGGTCCAGCAGCGCGTGCAGAACGCCAGCATCCGTCTCGATCCGCCTGAGCTGGGCAGCCTGGAGATTTACCTGAGCCACGAATCGGGCCGCCTGAACGTGCAGATTTCCGCCGCGCAAAGCGATGTCGCACGGCTGCTCAACCAGACCAGCGAGCGCCTGCGCCAGGAACTGGTGGGGCAGAACTTCCTGCAGGTCAGCGTGCAGGTTTCCGCCGACGGCCAGTCGGGGCAGCAGCACGCCCGGCAGGGGCGGGCCTGGGCGCCGGTAGAGGACGAGATCGCGGCGAACGTCCTGCGTGAGAGCACATCGTCGGGCAGCCGGCGGGCGGCGTCGGACGATGTCCTGGTCACCGTGTAA	MLHSITQRGPVAAVPAGDMAKPGGDPRGAVARSGETFVLPDTALLPENGTPDESERDEFVDALSAESGADELQPQAADVMPLDPAAVPETESRAERWLLSMLDQRATRVQAQDSDETPARQAMDIALRSIPQVVVNPLRQDGLAQPLSMPPSLGVGGAFVMPEATPALHSAEPAESGEVALLASLERAGGKASSLPQAASPAIDGANPIASPMAAVQPATAVERTLKLEAPEAKWGEQMLHALRDTVELQVQQRVQNASIRLDPPELGSLEIYLSHESGRLNVQISAAQSDVARLLNQTSERLRQELVGQNFLQVSVQVSADGQSGQQHARQGRAWAPVEDEIAANVLRESTSSGSRRAASDDVLVTV	PGPT0015520_2281	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015520-fliK|motD-K02414	NA	NA
BMS010_06665	480			hypothetical protein	ATGGCGATGCCGCGAATCATCCTGTTGATGCTGGTCCTGAACACGGTCATCGCCCTGGGCGGGCTGGCATTCAACTACAGCATGCTCAAGACCTTGCAGGCCGGTGGCGGTGTGGCGAACGGCGAGTCGGTCGAGGGGCGGACCGAAGCCGAGGCGGAGGAAGCGTCGGAATACACCTTCTTCCCCATCGAAAAAGTCATCGTCAGCCTACCCGGCAAGGGGCGCGAGCACTACTTCGTGCTGGACCTGGTGCTGCAGGCCGAGCTGGATACCGACCGCAAGAAGCTCGAACAGGTCGACCCCATGGTGCGCAACTCGGTGGTGGCGCATCTCTCCACCCTGAGCTTCGACCAACTGCGCGGGCTGCCGATCACCGAGCTGCAAGGGACGCTGGAAAAGGTCCTGCTCGACGATTTCGCCAGCAAGAAGGTCGCGGTGCCTTTCGTCCACGTGCTGGTCAGCAAACTCATCGTGCAATAA	MAMPRIILLMLVLNTVIALGGLAFNYSMLKTLQAGGGVANGESVEGRTEAEAEEASEYTFFPIEKVIVSLPGKGREHYFVLDLVLQAELDTDRKKLEQVDPMVRNSVVAHLSTLSFDQLRGLPITELQGTLEKVLLDDFASKKVAVPFVHVLVSKLIVQ	PGPT0015525_1927	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015525-fliL-K02415	NA	NA
BMS010_06666	735	lafS	COG1191	RNA polymerase sigma factor for flagellar operon	ATGAACGCGAACTGCGCTATCGATTACGACTACGCCCTTGGCCAGGCGGCGCCCGCGCTGCTGCGGCCGGAGGACGAGCGGAAGTGGCTGATGCAATACCTGCCGCTGGTCAAGCGCATCGTCAGCCAACTGTCGCTGCAGGCCAACCAGGTACTCGACCGCGAGGACATGGAGCAGATCGGCCTGATGGGCCTGCTCGATTGCCTGCGCCGCTACGGCGAGCCGGACGAGGGCTTCGGCCGCTACGCCGCCCTGCGCGTGCGCGGCGCCATCCTCGACGAGCTGCGCCGCCAGGACTGGCGGCCGCGCCAGGTGCGCCAGCAGACCCACAAGATCCGCGACGCCATCCGCCAACTGGCGCGCCAGCTCGGCAGGACGCCGAGCGACGAGGAAATCCTCGCCGCCACCGGCCTCGCCGAGAAGGATTACCAAGCCTTCCTCCAGGCCGAGTCCTGCGAGGCCATCGAGAGCCTGGACGAGCTGTTGCAGAACGGCCACGAAGCCTTCGCCGACGGCGCCCAGGGCGTCGAGGAACGCGTGCTCAAGGAACGTCTGCTGGCGCAGGCGCTGAGCCGGCTGGACGAGCGCGAGCGCCTGGTGCTGACGCTCTACTACCAGCACGACTTGAGCCTGAAAGAAATCGCCCTGGTCCTCGATGTGAGCGACGCCCGGGTATGCCAACTGAGCAAGCAGGCGCTGAACAAGGCCTGCCGCTACCTGACCGAGAGAGCCTGA	MNANCAIDYDYALGQAAPALLRPEDERKWLMQYLPLVKRIVSQLSLQANQVLDREDMEQIGLMGLLDCLRRYGEPDEGFGRYAALRVRGAILDELRRQDWRPRQVRQQTHKIRDAIRQLARQLGRTPSDEEILAATGLAEKDYQAFLQAESCEAIESLDELLQNGHEAFADGAQGVEERVLKERLLAQALSRLDERERLVLTLYYQHDLSLKEIALVLDVSDARVCQLSKQALNKACRYLTERA	PGPT0015610_1255	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0015610-fliA|sigD|whiG-K02405	NA	NA
BMS010_06667	873	lafT	COG1291	Chemotaxis protein LafT	GTGCAGAAGTTATTGGGTGCATTGATCATCGTCGCCTGTGTACTGGGCGGTTACGCCATGGCCCATGGCGACATGCGGGTGCTCTGGCAGCCGGCCGAGGTGGTGATCATCCTGGGCGCCGCCCTGGGCAGCCTGATCGTCGGCAACCCGAAGGAAGTGCTGATGGAGATGTGCTCGCAGATCAAGGGCGTGTTCGTCTACAAGCGCCGTGGCGAGGAATTCCAGCGGCAATTGCTGATGCTGCTCTACGAACTGCTGGAGATGGTCGACGTGGGTGGCCTCAAGGTGCTCGACGCGCACATCGAGGAGCCGGAGCAGAGCGAACTGTTCGCCAAGTACCCGCTGATCCGCCAGGAAAAGAACCTGATGGCCTTCATCGCCGACAACTTCCGCCTGATGGCCATGGGCAAGATCAGCGCCCATGAGCTGGAAGGTTTCCTTGAGCAGGAGCTGGAGGCCATGGAGCACACGCTGCTGCTACCGTCGAAATCGCTACACAAGATCGGCGAAGCCATGCCGGGATTCGGCATCCTGGCGGCGATCATGGGCATCATCATCACCATGGGCAACATCGGCGGTTCGGTCGCCGACGTCGGTACTCACGTGGCGGCAGCGCTGGTCGGCACCTTCCTCGGCATCTTCTTCTGCTACTGCCTGATGGACCCGTTGAGCAACGCCATGGCGCAACGGATCAAGACCGAGCTGTCGGCCCTGGAATGCGTGCGCACCACCCTGGTGGCGCATGTCGCCGGCAAGCCGACGCTGCTGGCGGTGGACGCCGGGCGCAAGCTGATCGAGCAGGACGTGAAGCCTGCCTTCAAACAGCTGGAGACCTGGGTCAACCGCTACGAGGATGAAAGGGACGTGGCATGA	MQKLLGALIIVACVLGGYAMAHGDMRVLWQPAEVVIILGAALGSLIVGNPKEVLMEMCSQIKGVFVYKRRGEEFQRQLLMLLYELLEMVDVGGLKVLDAHIEEPEQSELFAKYPLIRQEKNLMAFIADNFRLMAMGKISAHELEGFLEQELEAMEHTLLLPSKSLHKIGEAMPGFGILAAIMGIIITMGNIGGSVADVGTHVAAALVGTFLGIFFCYCLMDPLSNAMAQRIKTELSALECVRTTLVAHVAGKPTLLAVDAGRKLIEQDVKPAFKQLETWVNRYEDERDVA	PGPT0015370_472	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015370-motA-K02556	NA	NA
BMS010_06668	942	lafU	COG1360	Chemotaxis protein LafU	ATGAAGAAGCGTTCCGACAAGGATCACGAGATCATCGTCAAACGCCGTTCGAAGAAGGGGCATGACGAGGAGCACGGCGGTGCCTGGAAGGTGGCCTTCGCCGATTTCACCCTGGCGATGATGGCGCTGTTCATGGTGCTCTGGGTGGTCCAGCCGCAGAACCAGTCGCCTGTGCCGCCACAATCCGATCTTATGACCAACCCGTTGGTCGATGGCGGCGCGGGCGTGTTCGACGGAACCAGCCAGACCCCGCTTGACCTCGACGGCGTACCGCTGCCTGAGCGCCAGGACAGCCAGCCTGTCGCCGATGCCGAGCCGCTACGGGACGGCGAGGAGCGATCGGAAGGGGAGTCCTCGCGCAAGCGCTACGGCTCTTCGGCGGAAATGGCCGAGCTGGCCGAGCTGATGGAAAAGATGGCGCTGGAAGTCGATGCGATGGCCAACATCGAGGTCAACGTGGTGCCCCAGGGCCTGCGCATCCTGATCAAGGACGACCAGCGGCGCTTCATGTTCCAGCGCGGCAGTGCGGTGCTCAACCCGCATTTCCAGGGGCTGCTCGGCGCGCTCGCCGGCATCCTGGCCAAGGTGGACAACAAGCTGATCATCAGCGGCCACACCGACGCCACGCCGTACCGGACGCGCGCCGGCTACAACAACTGGAACCTCTCCGGCGACCGCGCACTGCGGGCGCGCAACGTGATGGTCGATGCCGGCCTGCCGTCGGCCAGCGTGCTGCAGGTGGCGGCCCAGGCGGATGTCATGCCGCTGCGACCGGAGGAGCCGGAAGACGGCGCCAACCGGCGCATCGAACTGTTGCTGCTGACCACCCGTGCCGAAGCGCTGTACCGCGAGCTGTTCGGCGATGCCCAGGCGCAGGTGCATTACTCGCCGAAGGGCAGCGACTACGTGGCACCGGCACGACCGGAAAAGCAGCCGCTCTGA	MKKRSDKDHEIIVKRRSKKGHDEEHGGAWKVAFADFTLAMMALFMVLWVVQPQNQSPVPPQSDLMTNPLVDGGAGVFDGTSQTPLDLDGVPLPERQDSQPVADAEPLRDGEERSEGESSRKRYGSSAEMAELAELMEKMALEVDAMANIEVNVVPQGLRILIKDDQRRFMFQRGSAVLNPHFQGLLGALAGILAKVDNKLIISGHTDATPYRTRAGYNNWNLSGDRALRARNVMVDAGLPSASVLQVAAQADVMPLRPEEPEDGANRRIELLLLTTRAEALYRELFGDAQAQVHYSPKGSDYVAPARPEKQPL	PGPT0015375_1758	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015375-motB-K02557	NA	NA
BMS010_06669	456			hypothetical protein	ATGAACCTGCCGTCTCTGACCGGCCGGGGCATCGCTGCCCTGTTCGGGGCCACGGTGCTGCTCGGCGGCGGCTTGCTGGCGGCCTGGATGAACGTCAATTCCGCCGCCGAACTCAGCGGCCGCTACACCTCGGGCGGGCAGGTGCTGTCGAGCAAGGGCGAATTGACCGAGGTGCGCCACAGCATCCAGTTCAGCAAGGACCATTTCCACGCCATGACCCGCCAGGGCGACACCATCCTGGAGACCAGCGGCAGCGTCGAGTTCGGCTTTCTCGGTCATTACCTGCTGCGAGTGGAGAGCGGGCGCATTTCCGGTCTCTGGCCGAACAACGCGCTGGACGACGACCTCCTGTTCAACCTGCTGTATGCCCGCAAGCCGGGTTCGACACTCAAGCTCGAACCGCTCCACGGCTGCCTCTACGCCCAGGAAATCCGCCAGGTCTACTGTGCGCAGTGA	MNLPSLTGRGIAALFGATVLLGGGLLAAWMNVNSAAELSGRYTSGGQVLSSKGELTEVRHSIQFSKDHFHAMTRQGDTILETSGSVEFGFLGHYLLRVESGRISGLWPNNALDDDLLFNLLYARKPGSTLKLEPLHGCLYAQEIRQVYCAQ				NA	NA	NA	NA	NA
BMS010_06670	831			hypothetical protein	ATGAACGCACCTTACGATCCTCAAGTGACCGGCGAAGCAGGGAATCTTTCTTGCCTGGTACTGAAAACAGGCAGGGACGATTGCTACGCGCGCTTCTATCCGGCCCTGTACCAGCTGGATCTGCAAGTGGATGGCAAACGGGAAAAAGTCGACCTCGGCTTTTCCGGCAGCCGGTTGCTGGAGCGCCTGTTGCTCGAGCCCGGCGAGGTGGTGTCGCGCGAAGCGCTGATGTCGCACGCCTGGTCGGACCGGGTCGTCGGCCAGGGCAGCCTGAACCAACAGATCTATACCCTGCGTCAGGTGCTCGCCGACGAAAAGAAGCGGCAGATCATCCAGACCCTGCCGCGCCGGGGCTATCTGTTCAATCCGCAGTTCCTGCTGACCCAGGTGCCGGCCAACGAACCGGTGGTCGAGGCGGAAGAAAGCGAAGCACCGCCGGCCACGCCCCCGGTGGCGATGAAGCGCACCGCGACCTGGCCGCTGCTCGCGCTCGCCCTGCTGGCCCTGCTCGGCATCAACGTGGCGCAGTACATCCACCGGGTCGGCCTGCAGAGCGAACTGGCCAGGAGCCATGCCCAGGTGGGAAAGCTGCACGTCGAGTACATCGATGAAAAGCAACAGGTGCTTCCCGAGCTGAGCAAGGCTACCCAGGGCCTGACTACACGCATGGCGACCCTGGCGAAAAAACCGGTCGACGTGGTGATCGCCATGACCACCGGCTTTTTCGAGGTGTTCTGCCGTCAGCCGGACGGCGGCATGCGCACGCTGACGGTGAACAGGAAACGGATCGACGACCTGACCGACCAGATGCTGCTGGAGTGCCTGCCATGA	MNAPYDPQVTGEAGNLSCLVLKTGRDDCYARFYPALYQLDLQVDGKREKVDLGFSGSRLLERLLLEPGEVVSREALMSHAWSDRVVGQGSLNQQIYTLRQVLADEKKRQIIQTLPRRGYLFNPQFLLTQVPANEPVVEAEESEAPPATPPVAMKRTATWPLLALALLALLGINVAQYIHRVGLQSELARSHAQVGKLHVEYIDEKQQVLPELSKATQGLTTRMATLAKKPVDVVIAMTTGFFEVFCRQPDGGMRTLTVNRKRIDDLTDQMLLECLP	PGPT0023730_82	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0023730-toxR-K10921	NA	NA
BMS010_06671	879	hag	COG1344	Flagellin	ATGGCTCTGTCGATCCACACCAACTACTCCTCCCTGGTAACCCAGACCAACCTGTCCAAGACCAACAACGCCCTGGGCACCAACCAGCAGCGTCTGGGCACCGGCCTGCGCATCAACTCCGCCGCCGATGACGCCGCCGGTCTGCAGATCGCCACCCGTCTGAACGCCCAGTCCCGCGGCATGGACGTCGCCATGCGCAACACCGGCGACGCCATCTCCATGCTGCAGACCGCCGAAGGCGCGTTCAACGAAATGACCGACATCCTGCAGCGCATGAAGGACCTGGCCACCCAGTCCGCCAACGGCACCAACGCCCAGGCCGACCGTGACGCCCTGCAAGCCGAGTTCGACGAACTGGGCAAAGAGCTGGCCAACATCATGACCAACACCAGCTACGCCGGCGAAAAACTGTTCGGCCTGGACGGCAGCACCGGCAAGTTCGGCGCCGCCGCCGTGGACTTCCAGATCGGCGCCACCACTGCCGAGAAGCTGACCCTGGACGTGACCACCGCTTCCGCCGCGCTGGGCACCACCCTGGACGGCCTGTCCAGCAACTACACCACTCCGGGCACCGCAGGCACTGAAATCGCTTCCGCCGCTGGCGCCAACACCATGATCGACACCATCGCTTCCGCCCTGGACGACGTCGGCTCGCTGCGCGCCCAGTTCGGCGCGAACATCAACCGCCTGAACCACACCAACAACAACCTGGCCAACATGAAGGACAACACCGACATGGCCAAGGGCCGCATCATGGACGCCGACTTCGCCAAGGAAAGCGCGAACATGACCAAGAACTCCATGCTCATGCAGTCCGGCATCTCCATGCTCAAGCAAGCCGGCCAGATGCCTGGCATGGTCATGTCCCTGCTCGGCTAA	MALSIHTNYSSLVTQTNLSKTNNALGTNQQRLGTGLRINSAADDAAGLQIATRLNAQSRGMDVAMRNTGDAISMLQTAEGAFNEMTDILQRMKDLATQSANGTNAQADRDALQAEFDELGKELANIMTNTSYAGEKLFGLDGSTGKFGAAAVDFQIGATTAEKLTLDVTTASAALGTTLDGLSSNYTTPGTAGTEIASAAGANTMIDTIASALDDVGSLRAQFGANINRLNHTNNNLANMKDNTDMAKGRIMDADFAKESANMTKNSMLMQSGISMLKQAGQMPGMVMSLLG	PGPT0015190_3484	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015190-fliC|laf1|lafA|fla1|hag-K02406	NA	NA
BMS010_06672	843			hypothetical protein	ATGCCCAACCTGACAAATGCGAGTATCCGATTGATTTTCCTGGATTTTTTTGGAGCAACCGAGACTCCTCGGGCCATCCTGCTTCCGCTTTCGGCGGGTCGCCGGGGCGGAAGCGGAAGCGTTCTTTCCGCCTGCCGCCGCCTGGTTTTCCTGCTCGCCGCGCTCCTGTCGCCGCTGCATGCCGCCGCCGAGGCGAGGCAGCAAATCGACGAGGCGGTGCATGCCTATCTGGCGCAACGGCTGCAGGAAGAAGCCAGCCGCCAGGGTTGGCAGGGCCTGCGTTTCACCCACGACAGCAGCCCGCTGTCCGCCACGGCGGCTCTGCCGGCCTGTTCCGTCCCGCCGCAGGTGAGCGTCAGCGGCGACAACCCGTCCCTGCTGGCGCGCCAGCGCTACAGTGTGCACTGCCCCGACCAGCCCGGCTGGACCGTCGCCGTGGTCAGCCAGGCGAACGTCTTCCTGCCCGTGGTCCATGCGCGCACGGTGATCGAGCGCGGCCAGACCATCGGCGCCGACCAGCTCAAGCGGGAAGAACTGAACATCGCCAAGGCCCCACGCGGCTTCTTCAACGACCCGGACGACGTCATCGGCCAGGGCGCCAAGCGCCGTATCCGCGCCAACCAACTGATCACCCCCGCCCTGCTCGGCACGCCGCTGCTGGTCCGCCGCGGCCAGCGCGTGACCATCGTCGCCAACCAGGACGGCATCGCCGCCTCGGCCCAGGGCGAAGCCCTGGAAAACGGCCGCGAAGGCGCGGTGATCCGGGTGAAGAACCTCAGCAGCGAAAAAGTCATCGACGCCAAGGTGCTCGAGGCGGGGGTGGTGACCAGTACGTTTCAGTGA	MPNLTNASIRLIFLDFFGATETPRAILLPLSAGRRGGSGSVLSACRRLVFLLAALLSPLHAAAEARQQIDEAVHAYLAQRLQEEASRQGWQGLRFTHDSSPLSATAALPACSVPPQVSVSGDNPSLLARQRYSVHCPDQPGWTVAVVSQANVFLPVVHARTVIERGQTIGADQLKREELNIAKAPRGFFNDPDDVIGQGAKRRIRANQLITPALLGTPLLVRRGQRVTIVANQDGIAASAQGEALENGREGAVIRVKNLSSEKVIDAKVLEAGVVTSTFQ	PGPT0015415_408	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_M|S|P|L-RINGS,PGPT0015415-flgA-K02386	NA	NA
BMS010_06673	366	flgB_2	COG1815	Flagellar basal body rod protein FlgB	ATGAGTATACGGATTGAAGACGCGCTGGGCGTCCATGCGCGAGCGCTGGAGCTGCGGATGCAGCGCAGCGAGATTCTGGCCTCCAACCTGGCGAACGAGGACACCCCGGGCTTCCAGGCGCGGGACATCGATTTCGCTGGCGAAATGCAGCGGCTGGACAGCGACCGGCAACTGCACGTCGCCACCGCCGGCGCCGACCCGCAACTGAAGTACCGCGTGCCGACCCAGCCGTCGCAGGACGGCAACACGGTCGAGCTGAGCGTCGAGCAGGGCGCGTTCTCCAAGAACGCCATGGATTTCCAGACCAGCCTGACCTTTCTCAACATGAAATTCCGCGGCCTCAAGCAGGCCATCGAGGGACGTTGA	MSIRIEDALGVHARALELRMQRSEILASNLANEDTPGFQARDIDFAGEMQRLDSDRQLHVATAGADPQLKYRVPTQPSQDGNTVELSVEQGAFSKNAMDFQTSLTFLNMKFRGLKQAIEGR	PGPT0015470_2299	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015470-flgB-K02387	NA	NA
BMS010_06674	429	flgC_3	COG1558	Flagellar basal-body rod protein FlgC	ATGTCGTTCGATTCCATCTACCGCATCGCCAGCTCGTCGATGAACGCGCAGACCGTGCGCCTGAACACCGTGGCCAGCAACCTGGCCAATGCCGAGTCGGCCGCGACCAGCGCCGAAGATGTCTACCAAGCGCGCAAGCCGGTGTTCGCCGCGGTCTACGAGAACGGCGAGCTGACCCGCGACGCTGGCCTCGGCGGCGCCCATGTGCAGGTGCTCGACGTGGTCACCGCCGGTCGCGATCCGGTGCGCCGCTACGAGCCGGACAACCCCCTGGCCGACCGCGACGGCTACGTGTTCTACGCCAACGTCAACGAGATCGAGGAAATGACCGACATGATGTCGGCCAGTCGCAGCTTCGAGACCGGCGTCGAGGTGCTCAACCGGGTCAAGAGCATGCAGCAGAGCCTGCTCAAGCTGGGAGACGCCTGA	MSFDSIYRIASSSMNAQTVRLNTVASNLANAESAATSAEDVYQARKPVFAAVYENGELTRDAGLGGAHVQVLDVVTAGRDPVRRYEPDNPLADRDGYVFYANVNEIEEMTDMMSASRSFETGVEVLNRVKSMQQSLLKLGDA	PGPT0015475_903	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015475-flgC-K02388	NA	NA
BMS010_06675	681			hypothetical protein	ATGGCCACGGTCAACGCAACGAGCCAGTCGAATGCCGCGTCGCTCGATATCGATGCGGTGAAGAACCAGGCGGTGAACGTCAGCGACGCCACCCAGATGGAGAACAACTTCATCAGCCTGATGGTCGCCCAGATCAAGAATCAGGACCCGACCAAGCCGGTGGACAGCACCGAGTTCCTCAACCAGTACGCCGCCATGTCCCAGGTCAAAAGCATGGAGAACATGACGGCGCTCACCAAGAGCAACCTGGTGTTGCTCGACAACTTGCAGACCCTCACGGCGGCCGGCCTGGTCGGCCAGGACGTGAAGGTGGCGGCGAGCAGCCTGCAACTCGACGGCGACAGTGTCAGCGGCCGGCTCACCCAGGCGCATGCCTCGAGCAAGACGGTGCTGGTGCTCACCGATGTCAACGGCGTGAAAACCGAGGTGCCGCTCGGCTCCCAGGAAGCCGGCGCGGTGGAGTTCGTCGTCGATCCGAAGGCCCTTGGCCTGGCGCCCGGCAAATACAGCATCGAGGCGAAGACCGACAGCGGCGAGTACCCGACGGTGGAGGTCGCCGGCCGGGTGAAGCAGGTACGGGTCAGCAGCGAGGGCCCGGTGCTGGAAATCGAAGGCGTCGGCTCCGTGCCGTTCTACAACATCACCGAATTCGGTCAGACCCCGGTGGCCGGACTGCTCTAG	MATVNATSQSNAASLDIDAVKNQAVNVSDATQMENNFISLMVAQIKNQDPTKPVDSTEFLNQYAAMSQVKSMENMTALTKSNLVLLDNLQTLTAAGLVGQDVKVAASSLQLDGDSVSGRLTQAHASSKTVLVLTDVNGVKTEVPLGSQEAGAVEFVVDPKALGLAPGKYSIEAKTDSGEYPTVEVAGRVKQVRVSSEGPVLEIEGVGSVPFYNITEFGQTPVAGLL	PGPT0015480_1418	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015480-flgD-K02389	NA	NA
BMS010_06676	1188	flgE_3	COG1749	Flagellar hook protein FlgE	ATGAGTTTCAACATCGCCCTGACCGGCCTGAACGCGGTCACCGAACAGCTCGATGCCATCAGCAACAACATCGCTAACGCCGGCACCACGGGCTTCAAATCGTCGCGCGCCGAATTCGGCAGCATCTATGCCGACAGCCAGGCCATGGGTGTGGAGGTCCTCGGCCTGACCCAGAGCATCAGCCAGGGCGGCGCCCTGGTGACCACCGGTCGCAGCCTGGACCTGGCCATCTCCGGCGGTGGCTTCTTCGTCACCAAGGCGAGCAACGGCGACGTCAACTACACCCGCGCCGGCGTGTTCGGCGCCGACAAGAGCAACTACCTGGTCAACGTCTCCGGCCAGCGCCTGCAAGGCTACCCGGTGGACGCCGCCGGCAACCTGCTGGTGGGTGCGGTGGGCGACCTGCAACTGCAATCGGCCAACCTGCCGGCCAAGGCCACCGATGCGCTGGCCTTCGTCGCCAACCTGGACTCCAACGAGAGCGTTCCGGCGGTGGGGCCGTTCGATCCGGCCAACGTGGACACCTACAACTCCACCTACACCACCAAGGTCTTCGACTCCCAGGGCAAGGAACACACCCTGACCCAGTATTTCGTCAAGACCGCCGACAACACCTGGGATGCCTACTACTACGCCGACGGCGGCTCGGTGGGCGGCCCGCAGGCGCTGACCTTCGCCACCAACGGCTCGCTGGCGACGCCGGTGGGTGAGGTGACCGTGGGCTTCCCGCTGGCCGGGGTCGACCCGATGAGCGTCGCCATCGACTACAGCGGCACCAGCCAGTACGGCTCCGATTTCGTCGTCACCACCAACCGCGCCACCGGCTATTCGGCTGGCGAGCAGACCGGCCTGGCGGTGGAGAAGGATGGCATGGTCTACGCCAACTACAGCAACGGCCAGCGCATGCTGCAGGGCCAGGTGGTACTGGCCAACTTCACCAATCCCGGCGGCCTGCGCAACGTCAACGGCACCGCCTGGAGCGAGACCTCCGATTCCGGCGCGCCGCTGGTGGGGGCGCCGGGCGTCGGCATGTTCGGCGAACTCAGTGCAGGGACCCTGGAAAGCTCCAACGTCGACCTGACCCAGCAACTGGTCGGGCTGATGGAAGGACAGCGCAACTACCAGGCCAACACCAAGGTGCTGTCCACCGACAAGGAACTCACCCAAGTGCTGTTCGGCGCGATCTGA	MSFNIALTGLNAVTEQLDAISNNIANAGTTGFKSSRAEFGSIYADSQAMGVEVLGLTQSISQGGALVTTGRSLDLAISGGGFFVTKASNGDVNYTRAGVFGADKSNYLVNVSGQRLQGYPVDAAGNLLVGAVGDLQLQSANLPAKATDALAFVANLDSNESVPAVGPFDPANVDTYNSTYTTKVFDSQGKEHTLTQYFVKTADNTWDAYYYADGGSVGGPQALTFATNGSLATPVGEVTVGFPLAGVDPMSVAIDYSGTSQYGSDFVVTTNRATGYSAGEQTGLAVEKDGMVYANYSNGQRMLQGQVVLANFTNPGGLRNVNGTAWSETSDSGAPLVGAPGVGMFGELSAGTLESSNVDLTQQLVGLMEGQRNYQANTKVLSTDKELTQVLFGAI	PGPT0015485_2579	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015485-flgE-K02390	NA	NA
BMS010_06677	732	flgF_2	COG4787	Flagellar basal-body rod protein FlgF	ATGGACCGTCTGGGATACACCGCGATGACCGCCGCGAGCCGCACCATGACCTCGCTGCAGGTGCGCGCCAACAACCTGGCCAACGTCAACACCCCCGGCTTTCGCGCCGACCTGGAGCAGGCCAAGGCCGTGGACGTCCAGGGCTACGGCTACGACAGCCGGCACATGGCGCTGGCCAAGAGCAACGGCGTGAGCCTGGCGCCGGGCGCGCTGATGGCCACCGGCCGCGACCTCGACTTCGCCATCCAGGGCAAGGGCTTGATCGCCCTGGAAGGCGCCGACGGCAAGGAGGTCTACACCCGCCACGGCAGCGTCCAGGTGGATGCCGAGCTGCGCCTGACCGTCAACGGCCGGCCGGTGCTCGGCGAGGGCGGCCCGATCGTCCTGCCGGAATACGACAGCCTGCACATCGGCTCCGATGGTGTGGTCTCGGTAATGCCGCGCGGCGATTACCTGATGGCCGAGGTGGACCGCATCAAGCGCGTCGACGTGCCGGCCTCCGACCTGGTGAAGGACGCCAGCGGCCTGCTGCGCACCAAGGACGGCCAGCCGGCCGAGGCCAGCGAGGAGGTGGCGCTGGTATCCGGCTACCTGGAAGCCAGTAACGTCTCGGCCATCGAGCAACTGGTCGGCACCATGAGCCTCAATCGCCTGTTCGAGACCCAGGTGAAGATGATGAAAGCCGCCGAGGACTTGTCCGACGCGGGCAATCGCATGATTCGCGGCAGCTAA	MDRLGYTAMTAASRTMTSLQVRANNLANVNTPGFRADLEQAKAVDVQGYGYDSRHMALAKSNGVSLAPGALMATGRDLDFAIQGKGLIALEGADGKEVYTRHGSVQVDAELRLTVNGRPVLGEGGPIVLPEYDSLHIGSDGVVSVMPRGDYLMAEVDRIKRVDVPASDLVKDASGLLRTKDGQPAEASEEVALVSGYLEASNVSAIEQLVGTMSLNRLFETQVKMMKAAEDLSDAGNRMIRGS	PGPT0015490_2103	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015490-flgF-K02391	NA	NA
BMS010_06678	786	flgG_4	COG4786	Flagellar basal-body rod protein FlgG	ATGAGTTCGGCACTTTGGGTCAGCAAGACCGGCCTGGCGGCACAGGACACCGCCATGGCGGCGGTGGCCAACAACCTGGCCAACGTCAACACCACCGGCTTCAAGAGCGACCGGGTGGTTTTCGAGGACCTGTTCTATTCCATCGAACTGCAGCCCGGCGCCCAGGCCGACCAGGTCAACACCGTGCCGTCCGGCATCCAGCTGGGCAGCGGCGTGCGCGTCGCCGGCACGCAGAAGGTGTTCACCGAGGGCAGCATCCAGACCACCGGCCAGCCCATGGACCTGGCCATCATCGGCCACGGCTTCTTCCAGGTGGAAGCGCCGTCCGGGGAGATCTTCTACACCGAGAACGGCCAGTTCCAGCTCAACGCCGAGGGCGTGATGGTCAACGCCCAGGGCCTGCCGCTGGTGCCGGCCATCGAAGTGCCGGCCGGCAGCAGCCGTTTCACCGTGGGCAGCGACGGCACCGTCACCGCCGTGCTGGCCGGTGAGACCGTGCCGGTGGAGCTGGGCCAGATCACCCTGGTCAACTTCGCCAACCCGGCCGGCCTCGAGGCCCTGGGCGGCAACCTCTACAAGGAAACCGTGGCCAGCGGCGAGCCGGTGGAAGGCGCACCGGGCGAGGAAGGCCTCGGCAGCCTCAAGCAGGGCGTGCTGGAAGGCTCCAACGTGCAGGTGGTCGAGGCCATGGTCAACATGATCGCCATCCAGCGCGCCTACGAGGCCAACGCCAAGGTGCTGGACGCTTCTTCGAGCATGCAGCAGTTCCTCAACCAGACCGTTTGA	MSSALWVSKTGLAAQDTAMAAVANNLANVNTTGFKSDRVVFEDLFYSIELQPGAQADQVNTVPSGIQLGSGVRVAGTQKVFTEGSIQTTGQPMDLAIIGHGFFQVEAPSGEIFYTENGQFQLNAEGVMVNAQGLPLVPAIEVPAGSSRFTVGSDGTVTAVLAGETVPVELGQITLVNFANPAGLEALGGNLYKETVASGEPVEGAPGEEGLGSLKQGVLEGSNVQVVEAMVNMIAIQRAYEANAKVLDASSSMQQFLNQTV	PGPT0015495_1396	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015495-flgG-K02392	NA	NA
BMS010_06679	672	flgH_3		Flagellar L-ring protein	ATGCCGATGATGCGTACCTTCAGCCTGTTCGTCCTGCTGGCCCTGCTCGCCGGCTGCCAGAGTTTCGACGAGATGCGCCCGGACGAGGACTCCAGCCAGTACGAGCCGCTGGAACTGGACTACAGCCTGCCGCCGACGTCGCGCGGCGGGCTGTTCCGCTCCGGCCATGCCGGCTCGCTGCTGCAGGACAAGCGCGCGCTGCGGGTGGGCGACATCCTCACCGTGGTGCTGGACGAATCCACCCAGTCGAGCAAGAGCGCCGGCACCAGCTTCGGCAAGTCCTCCAGTGTCGGCATCGGCGTGCCCACCGTGCTCGGCAAGACCTACCCGAAGTTGGAAAGCTCGGCGGAGGCGGAGCGCGATTTCGAGGGCTCGGCCAAGAGTTCGCAGCAGAACACCCTGCGCGGCTCCATCGCCGTCACCGTGCACAAGGTCCTGCCCAACGGCGTGCTGCTGGTGAAGGGCGAGAAATCGCTGCGCCTGAACCAGGGGGACGAGTTCATCCGCCTGACCGGCCTGGTGCGCCTGGACGACATCGACCGCTTCAACCAGGTGTCCTCGCAGAACGTCGCCAACGCACGCATCTCCTACGCCGGTCGCGGCGTGCTCAACGACAGCAATTCGGCGGGCTGGCTGACGCGTTTCTTCACCCACCCCCTGTTCCCCCTCTGA	MPMMRTFSLFVLLALLAGCQSFDEMRPDEDSSQYEPLELDYSLPPTSRGGLFRSGHAGSLLQDKRALRVGDILTVVLDESTQSSKSAGTSFGKSSSVGIGVPTVLGKTYPKLESSAEAERDFEGSAKSSQQNTLRGSIAVTVHKVLPNGVLLVKGEKSLRLNQGDEFIRLTGLVRLDDIDRFNQVSSQNVANARISYAGRGVLNDSNSAGWLTRFFTHPLFPL	PGPT0015420_1801	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_M|S|P|L-RINGS,PGPT0015420-flgH-K02393	NA	NA
BMS010_06680	1104	flgI_3		Flagellar P-ring protein	ATGCGTCAGTTTTCCCGGTTCCTGCTGGCCGCCTGCGGCCTGATCTGGCAGACGGCCGCCCATGGCGTGCCGCTGATGGACCTCGTCGACATCGAAGGCATCCGCGGCAACCAGTTGATCGGCTATGGCCTGGTGGTCGGCCTCGACGGCACCGGCGACAAGAACCAGGTGAAGTTCACCAGCCAGTCGGTGGCGAACATGATCAAGCAGTTCGGCGTGAACCTGCCGCCGAACACCGACCCCAAGCTGAAGAACGCCGCCGCGGTGATGGTCACCGCCAACGTGCCGCCGTCCTACAGCGCCGGCCAGACCATCGACGTCACCGTGTCCTCCCTGGGCGATGCCAAGAGCCTGCGCGGCGGCCTGTTGCTGATGACGCCGCTGCAAGGCGTGGACGGCGAGACCTACGCCCTGGCCCAAGGCAACCTGGTGGTGGGCGGCCTCAAGGCGGAAGGCGCCAGCGGCTCCAGCGTGGCGATCAACAGCGCCACCACCGGCCTGATTCCCAACGGCGCCACCATCGAGCAGATGATCCCCAGCGATTTCGCCCAACGCGATGACGTCATGCTGAACATCCGCAAGCCCAGCTTCCAGACCGCCAGCAAGGTGGTGGAAGCGGTCAACGCCCGCTTCGGCAGCGGCACCGCCACCGCCCTCGACGCCACCAAGGTATCGCTGCGCGCGCCGGTGTCGAGCAACCAGCGCATCGGCTTCATGGCCATGCTGGAAGCGGTCGAAGTGGACGAGGGCCGGGTCCGGCCGAAGGTGGTCTTCAACAGCCGCACCGGCACCGTGGTGGTCGGGCAGGGCGTGCGTGTGAAGGCGGCGGCGGTGGCCCACGGCACCCTCACCGTGACCATCAGCGAGAACCCCCAGGTCAGCCAGCCCGCGCCGTTCTCCCAGGGCCAGACGGCGGTGGTGCCGCAGTCCGACGTGGCGGTCACCCAGGACAAGAACGCCATGTTCAAGTGGCCGGAAGGCGCCAGCCTGGAAAGCATCATCAACACGGTGAACAGCCTCGGCGCCACGCCGGACGACGTGATGAGCATCCTGCAATCCCTGGAGCGGGCCGGCGCCCTGAACGCCGAGCTGATCGTGATCTGA	MRQFSRFLLAACGLIWQTAAHGVPLMDLVDIEGIRGNQLIGYGLVVGLDGTGDKNQVKFTSQSVANMIKQFGVNLPPNTDPKLKNAAAVMVTANVPPSYSAGQTIDVTVSSLGDAKSLRGGLLLMTPLQGVDGETYALAQGNLVVGGLKAEGASGSSVAINSATTGLIPNGATIEQMIPSDFAQRDDVMLNIRKPSFQTASKVVEAVNARFGSGTATALDATKVSLRAPVSSNQRIGFMAMLEAVEVDEGRVRPKVVFNSRTGTVVVGQGVRVKAAAVAHGTLTVTISENPQVSQPAPFSQGQTAVVPQSDVAVTQDKNAMFKWPEGASLESIINTVNSLGATPDDVMSILQSLERAGALNAELIVI	PGPT0015425_684	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_M|S|P|L-RINGS,PGPT0015425-flgI-K02394	NA	NA
BMS010_06681	1197			hypothetical protein	ATGAGCATCGTTTCCCTGAATCGCAATACCTCCGCCTCCGTCCCGGCCGATGGCAGCGGAGCCGCGCCGCGCGAGCAGTTGCAGCAGGCCGCCGAACAGTTCGAAGCCCTGTTTCTCCAGCAGATCCTCAAGCAGATGCGCAAGGCCGGCGACGTGCTGGCGGCGGACAATCCGATGCGCAGCCGCGAGCTGGACACCATGCGCGACTTCTACGACGAAGTGCTGGCCGAGACCCTGGCCGGCAAGAAGCAGACCGGCATCGCCGACCTGCTGGTGAAGCAGCTCTCCGGTGACGGCGCTTCCATCGCCGATATCGAGCAGGCCGGTGCGGCGGCACGCTCCGCCGAACTGTCGCGCGGCTCGCTGATCGAGCCGCTGGCGAGCACCTGGCGACGCGGCATGAATGGCCTGGCGGAAGCCTGGCAGCGTGGTACGGCCGGCTTCAAGGCGCTGGTGGAGAGCGTCATTGCCCAGGAATCCGCCGGGCGCATCGATGCGGTGTCGTCCAAGGGCGCGCGCGGCCTGATGCAGCTGATGCCGGAGACCGCCCGCGAGATGGCTGCCGAACTCGGCCTGGCCTACGACGAGGCGCGCCTGACCAGCGACGCGGCCTACAACAAGACCCTCGGCAGCGCCTACCTGAACAAGATGCTGGCGCGTTACGACGGCGAGCACGCGCTGGCCCTGGCCGCGTACAACGCCGGTCCCGGCCGGGTCGACGAGTGGCTGGAGCGCAACGGCGACCCGCGCCGCGGCGAGATCAGCGTCGGAGCCTGGATCGAGCGCATCCCGTTCAAGGAAACCCGCGACTACACCACGCGCATCCTGCGCAGCCTGCGGAACGCGCCGCTGGCCGAAACCCCACGGGCGGAGCCGGGCGGGCTGGCCCAGGCCCAGCCGTTGCAGCCGCGCTGGACGGCGCAGACCCGTGCCCAGGTGGAGCTGGCCGAGGGCGTGCGCCAGGGCGAGCTGCTGGGCGCCGCAGTGGGCAAGCGCATCGCCGTACAGGAGACGCCACGCGAGCTACCGTCCGTCAGCGGCCCGGTGATCGAGCTGGCGCGATTTAAGTCCGCCGCCGATCCGGTCGCCTTGCAAGAGAAGAGCATCTCTCGATCCGCTGCCCCGGGCACCCATCAATCCCTGTCGGCGGCCTTTGCCCAACCGATCCGGATCGAGCGCAAGGAGACCTTGTCGTGA	MSIVSLNRNTSASVPADGSGAAPREQLQQAAEQFEALFLQQILKQMRKAGDVLAADNPMRSRELDTMRDFYDEVLAETLAGKKQTGIADLLVKQLSGDGASIADIEQAGAAARSAELSRGSLIEPLASTWRRGMNGLAEAWQRGTAGFKALVESVIAQESAGRIDAVSSKGARGLMQLMPETAREMAAELGLAYDEARLTSDAAYNKTLGSAYLNKMLARYDGEHALALAAYNAGPGRVDEWLERNGDPRRGEISVGAWIERIPFKETRDYTTRILRSLRNAPLAETPRAEPGGLAQAQPLQPRWTAQTRAQVELAEGVRQGELLGAAVGKRIAVQETPRELPSVSGPVIELARFKSAADPVALQEKSISRSAAPGTHQSLSAAFAQPIRIERKETLS	PGPT0024070_2831	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-SOLUBLE_LYTIC_MUREIN_TRANSGLYCOSYLASE_ACTIVITY,PGPT0024070-slt-K08309	NA	NA
BMS010_06682	1368			hypothetical protein	GTGAGTATCTTGAGCCAGATCGGCTACAGCGGTGTGCGGGCGTCGCAGGTGGCGCTGACCACCACCGGCCAGAACATCGCCAACGTCAACACCCCCGGCTTCAGCCGGCTCAACCCGGTGTTCGGCTCGCTGGCCGGGCAGGGCGGCCTGAGCGTCGGCGGCGGCGTGCAGGTCACCAGCATCCGCCGGCTGGCCAACGACTTCCAGAACCAGCAGCTGTGGCGCGCCAACACCGAGTTGAGCTACTACAGCAACGCCCAGCAGTACCTGACCTCGCTGGAAGGCCTGATGGCAGGTGAAGGCTCGAGCATCAGCGTCGGCCTCGACCGCTTCTTCGCCGCAGTGAGCGAAGCCAGCGCCTCGCCGGACTCCATCGCCCTGCGCCAGCAGATCCTCAGCGAAGCGAAGAACCTCAGCCAGCGCTTCAACGGCCTGGGCAGCAACATCGGCGCCCAACTCAACGCCCTGCACGAACAGCGCAGCGCCATGGCCGGCGAAGTCAACGGGCTGATCGGCAACATCGCGCTGCTCAACCGCAAGATCGTCGAGACCGAATCCGTCGGCGGCGACAGCACGGCGCTGCGCGACCACCGCGAAAGCCTGGTCAAGGACCTCAGCCAGTACGCTGCCCTGCGCGTCCACGAGACGCCGGACGGCGCCCTCAGCGTCGCCCTGGCCAACGGCCAGCCTTTGGTGGCGGGCAGCACGGCGGGGCAGTTGCAGGTGAACACGACCGCCAGCGGCGAACAGGTGGTGGCGCTGTCCTTCGCCGGCACCAGCTTCCCGCTCAAGCAGGACGGCTTCGGCGGCGCCCTGGGCGGTCTCTACGACAGCGAATACGCCAGCCTGCGCCCGGCGCTGGAGGCCCTGCACGACATGGCCGGGGCGCTGGCGCAGATGCTCAACGACACCCTGGTCACCGGCTTCGACCTCGCCGGCAACCCCGGCCAGCCCTTGCTGACCTACAACGCCGCCAGCACCACGGCGATGCTCAGCGTCAACGCGCTTGCCCCGGAGCAGTTGGCGTTCTCTTCCACGGCCGGCGAAACCGGCAACAACGAAGTGCTGCTGGCGCTGCTCGAACTGAAACGGCAGACCATCACCCTCGGCGGCAGCCAGGTCACCCTGAACGATGCCTATGCCGGGCTGCTCGGCCAGGTGGCCAGTGCCAGCCGGCAGAACCAGGCCGACCTGAAATCGGCCACGGCGGTGGCCGAGCAGGCCCAGGCCCAGCGCGACAGCGTCAGCGCCGTGAGCCTGGACGAGGAGGCGGTGAACCTGATGACCTACCAGCAGGCCTACCAGGCCAACATGAAGGTGATCAGTACCGCCAACCAGATGTTCGACGACATGCTCGCGGCGTTCTGA	MSILSQIGYSGVRASQVALTTTGQNIANVNTPGFSRLNPVFGSLAGQGGLSVGGGVQVTSIRRLANDFQNQQLWRANTELSYYSNAQQYLTSLEGLMAGEGSSISVGLDRFFAAVSEASASPDSIALRQQILSEAKNLSQRFNGLGSNIGAQLNALHEQRSAMAGEVNGLIGNIALLNRKIVETESVGGDSTALRDHRESLVKDLSQYAALRVHETPDGALSVALANGQPLVAGSTAGQLQVNTTASGEQVVALSFAGTSFPLKQDGFGGALGGLYDSEYASLRPALEALHDMAGALAQMLNDTLVTGFDLAGNPGQPLLTYNAASTTAMLSVNALAPEQLAFSSTAGETGNNEVLLALLELKRQTITLGGSQVTLNDAYAGLLGQVASASRQNQADLKSATAVAEQAQAQRDSVSAVSLDEEAVNLMTYQQAYQANMKVISTANQMFDDMLAAF	PGPT0015195_2754	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015195-flgK-K02396	NA	NA
BMS010_06683	915	flgL	COG1344	Flagellar hook-associated protein 3	ATGCGGATCACCAACGCCCAGACCACCGCCCTGATGCACAACGCCATGAGCGCCAACTCCGCGCAACTGGGCAAACTCATGCAGCAGATGGCCACCGGACAGCGTCTCATGCTGCCCTCCGACGACCCCATCGCCAGCGTGCGCATCCTCCGCGTGCAGCGCGAAGAGGCCAGCCTGACGCAGTACCGCAGCAACATCGCCAACGTCTCCAGCAGCCTGTCGGTGCAGGAAGCCAACCTGCAATCCACCTCGGACGCCATGCTCAACGTGCGCGACCTGCTGCTGTGGGCGGCCAACGGCTCCAACACCAGCGAGGATCTGTCGGCCATCGCCGGCGAACTGAGCAACATCGAGAAGACCCTGCTCAGCTTCGCCAACGTGCGTGACGAGGAGGGCCGCTACCTGTTCTCCGGTACCCTCAGCGACACCCCGGCGGTGACCTTCGATGCGGCCACCGAGACCTACGCCATCACCGGCAACGGCAAGCACCGTCAGGCGGCGGTGGCCAACGGCGTGCTGGTCGAGGAGAACGTCACCGCGCTGGACGTGTTCGGCACCGGCATCCCGATGCTCAACGAGCTGCACGCCCTGGTGAAGACTCTGCAGGACCCGGCCCTCGACGCGAACGATCCGGCGGTGCGCCAGCAGATCGACGACACCCTGCTGCGCCTGGACGAGACCCACGCCGGCGTGCTCGGCGCGATCACCGAACTGGGGGGGCGGCAGAACACCCTGACGCTGCTCACCGACAGCAACGAGGAAGTCTCCCTGGTCAACCAGAAGATCGAAGGCGAACTGTCCCGGCTCGACTACGCCGGCGCGTCCATCGACCTGAACAACTACCAGTTGTCCTTGCAGGCCACACAGAAGACCTACCTGAAGATTCATGAGCTGTCGTTGTTCAGCCTGTTGTAA	MRITNAQTTALMHNAMSANSAQLGKLMQQMATGQRLMLPSDDPIASVRILRVQREEASLTQYRSNIANVSSSLSVQEANLQSTSDAMLNVRDLLLWAANGSNTSEDLSAIAGELSNIEKTLLSFANVRDEEGRYLFSGTLSDTPAVTFDAATETYAITGNGKHRQAAVANGVLVEENVTALDVFGTGIPMLNELHALVKTLQDPALDANDPAVRQQIDDTLLRLDETHAGVLGAITELGGRQNTLTLLTDSNEEVSLVNQKIEGELSRLDYAGASIDLNNYQLSLQATQKTYLKIHELSLFSLL	PGPT0015505_2138	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015505-flgL-K02397	NA	NA
BMS010_06684	1041			hypothetical protein	ATGAAGGTCGAAAAGCAGCTACCGGCCGTTGCCACCATCGATTCCCGCGAGCGGCGCCAGGCGGTCCTGCCGGATGCGCCGGCGACCGTGTCGCGCAAGGCTCCGGCCAATCCTGTCGATACGCACCGGGCGGAACGGGCCACGGGGAAGAATGCGAATTTCAACCTGCAGCTCAACCAGCAACTGTCGTCGATGCAGTCGGCGGACAGCTACCTGGGCGAGCTGGCGGATCGCCTGGCCCAGCTCAAGCTCAGCCTCGGCCGCGAGCTGAGCAATTCGCAGCCCGGCGCGCGGGAAGCCGTGAAGCAGGCCATGCAGCAGGCCGACAGCCTGCTCCGGCAACGCGCCGAGCGCTCTGGCAACAGCCTCGACGCCAGCTTCAAGCTGCGCCTCAACGAGCCGGTGCGCAGCCGCTTCAGCCTGGAGGGCCTGGAGTCCATCGACGCCATCCGCCGTGCCGGCAAGGAGACGCTGCTGTTCAGCGGCGGACGCGCGCTGGCCGAGCCGGTGGCGGTGGTGCTCGACGAGGACATGAGCGAGCAGCAGATTCTGCGCCGCTTCAACACCAGCCTCGGCCAGGCCGGCATCCGTGCCGAGCTGGATGCGGGCGGCGCAGTGAAGTTCACCGCGAAGGAGAGCGACTGGCAGCAGCTCAAGGGGCAGTTGGCGGTGCAGGGGGAGGGCAAGCTGTTCGCCAAGGGCAAGCCGACCCGCCTGGACAGCCACGAGGACGAACTGCTCAGCCTGCCGGCGGACAGCAGCCTGGACAGCTTCCGCGAGCTGCGCCGGGTGCTCGACGACGTGGTGCGCGCGCTGGACAAGATCGCCTCGCTGCGCGAGCAGCTCAGCCATCGGCAGGAGGAAATCCGCGAGTTTCTCGCCCGCCAGTCCCACCAGGACGAGAAGCAGTGGGCGCAGGATTACGCCAGCCTGGTGTTCAACCTGATGCGCCAGAGTCCATCCAGCTATGCGGCGGTCACCCAGACCGTGATCGCCCAGGCCAATATCAACCGTTTCACCGTGGTCAGTCTGCTTTCCTAG	MKVEKQLPAVATIDSRERRQAVLPDAPATVSRKAPANPVDTHRAERATGKNANFNLQLNQQLSSMQSADSYLGELADRLAQLKLSLGRELSNSQPGAREAVKQAMQQADSLLRQRAERSGNSLDASFKLRLNEPVRSRFSLEGLESIDAIRRAGKETLLFSGGRALAEPVAVVLDEDMSEQQILRRFNTSLGQAGIRAELDAGGAVKFTAKESDWQQLKGQLAVQGEGKLFAKGKPTRLDSHEDELLSLPADSSLDSFRELRRVLDDVVRALDKIASLREQLSHRQEEIREFLARQSHQDEKQWAQDYASLVFNLMRQSPSSYAAVTQTVIAQANINRFTVVSLLS				NA	NA	NA	NA	NA
BMS010_06685	336			hypothetical protein	ATGGTTTACGTACAACGGGACGCGGACGGACACATTCTTCGGGTCGAGCACGAGCCCTTCGACGAAATGACCGAAGTGCTGGCCGTCGAAAGCGAAGAGCTGCAGCGCTGGATCACCGCCAAGGAAGAAATGAAGGCGCGCCTCGACGCGCTGCGCAGTTCCGACCTCGACCTGATCCGCGTGCTCGAGGATGTGGTCAGCGTGCTGGTGGTACGCGGGCTGATCAGCTTCACCGACCTTCCCGAGGCCGCACGCCTCAAACTCGACCAACGCGCCCTGGCCCGTGCCGAAATCGAAGGCCTGGCCGACGTGCTCGGCGAAGAAAAGGACGTTTGA	MVYVQRDADGHILRVEHEPFDEMTEVLAVESEELQRWITAKEEMKARLDALRSSDLDLIRVLEDVVSVLVVRGLISFTDLPEAARLKLDQRALARAEIEGLADVLGEEKDV				NA	NA	NA	NA	NA
BMS010_06686	366			hypothetical protein	TTGTCCAAGCTTGCCGAATTCCGCGCCGCCGAAAGAGCGCTTCAAGAACACCTGGCCCAGCTTGAATCGCTGAAAAAGGATGCGGCATTAAAGAAAGAACTCGAGTTCGAAGAAAAACTGCTGGCGCTGATGCAAAGCTACGACAAGGGCTTGCGGGATATCATCGCGATCCTCGATCCGGAGCCGGTCAGCGCCAAGCCAGGCAAGGCCGCCCGTGGTCCGCAGCGCCGCCAGCGCGCCGTCAAGGTCTACAAGAACCCGGAAACCGGTGAGGTCGTCGAGACCAAAGGCGGTAATCACAAGGTTCTGAAAGCCTGGAAAGAAAAGTACGGTGCGGAAAAGGTCGAAGGCTGGCTCCAGGCCTGA	MSKLAEFRAAERALQEHLAQLESLKKDAALKKELEFEEKLLALMQSYDKGLRDIIAILDPEPVSAKPGKAARGPQRRQRAVKVYKNPETGEVVETKGGNHKVLKAWKEKYGAEKVEGWLQA				NA	NA	NA	NA	NA
BMS010_06687	882			hypothetical protein	ATGCGCAGCATCTTTCCTCGCCTTCGCGAACGACTCCCGCTGGTGGCGGCGCTCGGCGCGCTGTTGCTGCTCGTCTCCTGTACCCGGGTCGGCCTGGTTTATCGCAACCTCGACGTGCTGATTCCCTGGTCGGTCAACGAGTACCTGAGTATGACCACGGAGCAGGAGCAGACCTTCAAGACCCGTTTGCAGGAACACCTCGCCTGGCATTGCAAGACTCAGCTGCCGGCCTATCTCGAGTGGCTGAACGAGATCAACCGCGAGGTCGAGACCGGGCAGGTCACCGAAGCCAACCTGCGTGCCCGCCTGGAGGAAGCGAAGGGCGCCATCGAGGAGATCGCCAAGGAAATCACCCCCTCCACCGTCCAGCTTCTGCGCAAGCTGACCGATGCCCAGGTGCAGGAGTTGTACGACTCGCTGGACAAGGACATGCGCCAGCGCCGCGAGAAGCTACGGGACGAATCCTGGGACGACCGTCTGGAGGAGCGCACCGAGCGCATGGAGAAACGCCTGGGCAATTGGCTCGGCCGTCTCAGCCCGGCGCAACGCCAGCGGGTGAGCGAGTGGGCCCTGTCGCTCGGCGACCAGAATGGCCTCTGGCTGGATAACCGTGCCCGCTGGCAGGCGGAATTCCGCGACGCCCTCGCCCATCGCCAGGCCGACGACTTCCCGGCCCGCATCGCACGTCTGCTGCAACGCCGCGAGGAACTCTGGAACGAACAGTACCGGCAAACCTTCGCCCGCAACGAACAGGCTGCCATTCGTTTGTTGGTGGATGTCATGGCGCTCGCCGACGACAAACAGCGCACCCGCCTGCTGAATCGCCTGGACGGCATGCATACCGACTTCGCCAGCCTGGCCTGTCTGAACGGTGGGGGTTGA	MRSIFPRLRERLPLVAALGALLLLVSCTRVGLVYRNLDVLIPWSVNEYLSMTTEQEQTFKTRLQEHLAWHCKTQLPAYLEWLNEINREVETGQVTEANLRARLEEAKGAIEEIAKEITPSTVQLLRKLTDAQVQELYDSLDKDMRQRREKLRDESWDDRLEERTERMEKRLGNWLGRLSPAQRQRVSEWALSLGDQNGLWLDNRARWQAEFRDALAHRQADDFPARIARLLQRREELWNEQYRQTFARNEQAAIRLLVDVMALADDKQRTRLLNRLDGMHTDFASLACLNGGG				NA	NA	NA	NA	NA
BMS010_06688	180			hypothetical protein	ATGAAAACCGAAGTGATACAGCTCAAGGGCGACCAATTGCCGGATGTCTGGCGTCCCGCCTGGGAGGTGTGCTGGGCGATCGTCATGGACGGCTCGCTGATGGCTGGCCCTTACGCCTCGGAGGAGGAAGCACGTGCCTCGCTGGCGCAATCCTCGGTGTTTTCCGTCGACCTGGGCTGA	MKTEVIQLKGDQLPDVWRPAWEVCWAIVMDGSLMAGPYASEEEARASLAQSSVFSVDLG				NA	NA	NA	NA	NA
BMS010_06689	528			hypothetical protein	ATGAAACGATGGACCATCTTCGCTCTGCTGCTGCCTCTCGCCGGCTGCGCTTCGCAGCCCTGCGACACGCCCTGGAGCGAAAGCCGTTGCCGCGAGGAAAGCCTGCTCTACCAGAACGACTTGTTGCAGGCCAAGCTGCTGATCGTGTCCGGCGACCCGGAAACCTACGAACTGGCCAATGTGCTGCTCAAACGTGCAGCCCCCCACGACAAAACCGGCGAAACCGAGTTCTACAAGGCGGTGATGCTGATCCGCATGGGTCCCCAGGTGGACGAAGTGCTGGAGCTGCTGCAACAGGCGGTCGACAAGGGCCATCCACACGCCACGGCGCTGATGTACAAGATCTACGCCGAACCCTACCTGCTCGAGACGCCCGACCCGCTCAAGGCGGAAACCTACCGGGCGCGCTACGCCGAACTGGACGTGGCGAAGAGCGGCTATCCCTCGTTCGAAAAGGCCCTGAACCTGGTCAGCGCCCTGGTGGGCCAGCCCGCCGCCCTGGCCGGTGCCCATGCACCCGATCCTTAG	MKRWTIFALLLPLAGCASQPCDTPWSESRCREESLLYQNDLLQAKLLIVSGDPETYELANVLLKRAAPHDKTGETEFYKAVMLIRMGPQVDEVLELLQQAVDKGHPHATALMYKIYAEPYLLETPDPLKAETYRARYAELDVAKSGYPSFEKALNLVSALVGQPAALAGAHAPDP				NA	NA	NA	NA	NA
BMS010_06690	903	trxB_2	COG0492	Thioredoxin reductase	ATGCTGGATTGCATCATCGTCGGGGCGGGCCCGGCCGGGTTGACCGCGGCCATCTATCTGGCGCGCTTTCACCGGTCGTCGCAGGTGATCGACGGCGGCCCCGGTCGGGCGTCCCTGATTCCGATGTCCCATAACTACCCCGGTTTCCCGCCGGGCATCGCCGGCCCGGAGCTGCTCGAACGCTTGCGCTGCCAAGCACTGGATTTCGGGGCGACGATCACTGCCGCGCAGGCCCGGGCCCTGCGCCAGGAAACGCTGGGTTTCTGCCTGACCCTCGATGACGGGCGTGAGCTGGAGGCCCGGCGGGTACTGCTGGCGACCGGCATCGAAGACGAGTTGCCCGATATCCCCGACGCGGCGGAGGCCATTCGCTCCACCCGCGTGCGTCTGTGCGCGATCTGCGACGGCTACGAGGTGAACGGCGATGACGTGGCGGTGTACGGTCCGGCGGAGCGGGCGATTCGCCACGCGGTGTTCCTGCGGACCTTCACCGACCGGGTCACCGTGATCGCGCATGGCGACTCGCAGGCCTGCGAGGACGCCCTGGCCTTGGCGCGCCACTATGGCATCCGGCTGGTCGGCGACCGTGTCGAGCGTCTGCAGATCGCTGCCGATCGCCGTGTCGGCATGCGTACCCGCAAGGGTGAGCAGTACTGGTTCGACGTAGTGTACCCGGCTTTGGGCGCACGGGTTCGCTCCGACCTGGCGCGGCCCCTGGGGGCCCGTTGCGACGAAGAGGGCCGGCTGTTCGTCGATGCTGCGCAGTGCACCAGTGTGCCGGGGCTGTACGCAGCGGGCGATGTGGTCAGTTCCTTGAACCAGGTCAGCGTCGCCACCGGCCAGGCGGCGCAGGCGGCCACGTCCATTCACAACAGCCTGGAGGCCAATCCCTGGCGGCGTTGA	MLDCIIVGAGPAGLTAAIYLARFHRSSQVIDGGPGRASLIPMSHNYPGFPPGIAGPELLERLRCQALDFGATITAAQARALRQETLGFCLTLDDGRELEARRVLLATGIEDELPDIPDAAEAIRSTRVRLCAICDGYEVNGDDVAVYGPAERAIRHAVFLRTFTDRVTVIAHGDSQACEDALALARHYGIRLVGDRVERLQIAADRRVGMRTRKGEQYWFDVVYPALGARVRSDLARPLGARCDEEGRLFVDAAQCTSVPGLYAAGDVVSSLNQVSVATGQAAQAATSIHNSLEANPWRR	PGPT0013060_8637	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
BMS010_06691	1212			hypothetical protein	ATGCTGGCCATCAGCCACTTAGGGTCGTCCGTCGTGTTCCGTCCGTCGCTACAGAAGCTCCGCGCCGCCTCGGCCGTCAACGACGCGCTGCAGCCGCTCGCCAGCCAGGAAAACCTCAAGCGCCTCGCGCTGCTGGCGCTGTTCGCGGTGCCCTTCAACCTGATCCATATCCTGGTGTTCTGGACCAAGGTCCCTGCCAGCCCGGAAGAAGTCCTCTGGCGCCAGGGCATCATGCTCAGCCATGCCGCGCTGGCATTGCTGTTCACCAGTTTCGGCCTGCTCGCCCACCGCCTGCGCCACGGCCGTTCGCCGTCCTGGGCGGTCGGCATACTGACGAGGCTGGCGATCGGTGCGGTACTCGCCTTTGCCGTGGCGATCGCCTGCATTGACCAGTGGGTCACCCCGAACATCACGCCCCTGCTGCTCGGTTGCACTTTGGCCGGCCTGGCATTCCTGGTGCGTCCCGGCGAGGCCGCGGCCTTCTATGCAGCCACCCTGGCCGCCTTCGAAGCAGGCATGCAGTTCAGCCAGCCCGATCCGCAACTGCGCCTGTCCAACCAGGTCAACGGGCTGAGCGCCTGCGGGCTCGGCATGCTGCTGTCGGTGATTCTCTGGCAGGGCTTCGCACGCATTCAGCGGCAACAAGAGGAGCTGGCGGAAAAGCACCGCCAACTGGAATACCTCGCCGGACACGATGCCCTCACCGGCCTGCTCAACCGCCGCGAGTTCGACCGCCTGATCCGTGCCGAACTGGCCCGTGCGGAACGCAGCCTGCAACCCCTCAGTCTGCTGATGGTCGATCTCGACCACTTCAAACAGGTGAACGACCGCCATGGGCACCCAGTCGGCGACAAAGTGATCCGCCAGACCGCCGACCTGCTCCTGCGCCACACCCGGGCCGGCGACAGCGTCGCCCGCTTCGGCGGCGAGGAATTCATTCTGCTGCTGCCCGACACCGACGCCACGGAAGCGGCGAAACATGCCGAAAACCTGCGCCGCCTGCTGGAAACTACGCCCGTGCCGCTCGACCACGGCGAAGTACGGCTCACCGCCAGCTTTGGCCTGACCAGCTTGCCGGCGCGACATTCAGCCAGCTACGAAGCGCTCTACGCCACCGCCGACCGGGCCCTCTACCTGGCCAAGGCGAACGGCCGCAATTGCGTGAAGGCCCTGGTACCGGAAAGCATCGCGCAGGTGCGCAAGCGCGGCTGA	MLAISHLGSSVVFRPSLQKLRAASAVNDALQPLASQENLKRLALLALFAVPFNLIHILVFWTKVPASPEEVLWRQGIMLSHAALALLFTSFGLLAHRLRHGRSPSWAVGILTRLAIGAVLAFAVAIACIDQWVTPNITPLLLGCTLAGLAFLVRPGEAAAFYAATLAAFEAGMQFSQPDPQLRLSNQVNGLSACGLGMLLSVILWQGFARIQRQQEELAEKHRQLEYLAGHDALTGLLNRREFDRLIRAELARAERSLQPLSLLMVDLDHFKQVNDRHGHPVGDKVIRQTADLLLRHTRAGDSVARFGGEEFILLLPDTDATEAAKHAENLRRLLETTPVPLDHGEVRLTASFGLTSLPARHSASYEALYATADRALYLAKANGRNCVKALVPESIAQVRKRG	PGPT0026005_60	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-c-di-GMP_SIGNALLING_PATHWAY,PGPT0026005-roeA-K21022	NA	NA
BMS010_06692	1077	prtS		Protease PrtS	ATGCGTGACCGTACCGCCCAACAGAGCCCGTTCCTTTCGCCTGCTTTCGTCCTGCCGCCCTACCTGCTCGATCGGGTGGCCCGCCACGGCAATGCACGGCTGCGCGCCCTGGCCAGCGACACCCTGGCGCTCGATCAGCATATGCGGGGCCTGCGCGCCGGGATGCCACGGGTCTCCAGCATTTCGGCGCAGGCTCGCGCCTCGTCGCCCGGTCAGGTGCAGCGCGCGGTATACAGTGCCGAGCAGGGCAACCAGTTGCCCGGCACCCTGGTGCGCGGCGAAGGCCAGCCGGCCAGCGGCGATCCGGCGGTGGACGAAGCCTACGAGTACCTGGGGGCTACCTATGCGCTGTTCTGGGAGGTCTACCAGCGGCATTCCATCGATGGCGCCGGCCTGCCGCTGATCGGCACGGTGCACTACGGGCAGGGCTATGAGAACGCCTTCTGGAATGGCGAGCAGATGGTGTTCGGCGATGGCGACGGGGAAATCTTCAACCGCTTCACCATCGCCGTCGATATCGTCGGCCACGAGCTGGCGCACGGCGTCATCGAGCACGAGGCGGGGCTGATCTACCAGAACCAGGCGGGCGCGCTCAACGAATCCCTGTCCGATGTGTTCGGCAGCCTGGTCAAGCAATACCGCCTGAAACAGAACGCCGAGGAGGCCGACTGGCTGATCGGTGCCGGCCTGTTCACCTCGGCGGTCAAGGCCCGCGCATTGCGCTCCATGGCCGAGCCCGGCAGCGCCTACGACGACCCGGTGCTGGGCAAGGACCCGCAGCCGGGGCACATGAAGGATTTCGTCGACACCCACATTGACAACGGTGGCGTCCACATCAACTCGGGCATACCCAATCGTGCCTTCTACCTGACGGCCACCGCCCTCGGCGGCCCGGCCTGGGAAAAGGCCGGGCGGGTCTGGTACGACGCCCTGCGCGACGAGCGCCTGGGCAGCAACGCCGATTTCGCTGCCTTCGCTCGCCTGACCCTGGACAACGCCGCTAAGCTTTTCGGGGCCAACAGCACCGAGCAGCAGGCCGTGAAGGCCGGTTGGGACGGTGTGGGAGTGACGACATGA	MRDRTAQQSPFLSPAFVLPPYLLDRVARHGNARLRALASDTLALDQHMRGLRAGMPRVSSISAQARASSPGQVQRAVYSAEQGNQLPGTLVRGEGQPASGDPAVDEAYEYLGATYALFWEVYQRHSIDGAGLPLIGTVHYGQGYENAFWNGEQMVFGDGDGEIFNRFTIAVDIVGHELAHGVIEHEAGLIYQNQAGALNESLSDVFGSLVKQYRLKQNAEEADWLIGAGLFTSAVKARALRSMAEPGSAYDDPVLGKDPQPGHMKDFVDTHIDNGGVHINSGIPNRAFYLTATALGGPAWEKAGRVWYDALRDERLGSNADFAAFARLTLDNAAKLFGANSTEQQAVKAGWDGVGVTT	PGPT0020995_86	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020995-nprM-K01400	NA	NA
BMS010_06693	324			hypothetical protein	ATGATCGAACTACCGCCGCTGGCTGCCGCCACCGGCCTGCGGGTAAGCCGCGAAGGTGGGGTGGCCCATCTGCCCGGCCTGGTCCGGGCCTGTTCCATTGACCTGGCCAACTGCCCTGAGGCCGAGCGCCAGCAAGCCTGCGCCGCCGTCGAAACCGCCGCGCCGAAGGCCAGCGAACCCGGGCAGGCCGGGCGCGGCGACCAGCGCTATTTTCGAGTGGAGGTCAGCTTCCAGGGGCTCGAAGTGGAGCGGGTCAGCTTCAACGTACCGGAAACCGAAGCGCCGGAAGCGCTGGTGAACTTGTGGAAGCAGCGCGGGGAGTGA	MIELPPLAAATGLRVSREGGVAHLPGLVRACSIDLANCPEAERQQACAAVETAAPKASEPGQAGRGDQRYFRVEVSFQGLEVERVSFNVPETEAPEALVNLWKQRGE				NA	NA	NA	NA	NA
BMS010_06694	711	rluF	COG1187	Dual-specificity RNA pseudouridine synthase RluF	ATGATCGACCCCATCCGCCTCTCCAAACGCCTTGCCGAACTGCTGCCCTGCTCACGCCGCGAGGCCGAACTCTATATCGAGGGCGGCTGGGTCCTGGTCGACGGCCAGGTGATTGAGGAGCCGCAGTTCAAGGTGGCGGACCAGCGCATCGAACTGCTGCCCGGCGCCACGCCCGCGCCGATCGAGCCGGCGACCCTGTTGCTGCATAAGCCTGCCGGGCTGGACGAGGCAGCAGCTCTGGCCCTGCTCGCCATCGATAGCCGGGCCGACGACGACAGCTCCGGCATTCGCCCGGTAAAACGCCACTTCCGCCACCTCAGCGCGCCACTGCCACTCGATACCGATGCCAGTGGCCTGTTGGTGTTCAGCCAGCACCGCGGCGTGCTGCGCAAGTTGAGCGAGGATGCCGACCGGCTGGAACAGGAGTTCATCGTCGAGGTGAGCGGGCAGATCGCCGAGAACGGGCTCGCCCGGCTCAATCATGGGCTCAGTTACCGAGGCGTCGCGCTGGCGCCGTGCAAGGTCAGTTGGCAGAGCGAGAACCGCCTGCGCTTCGCCCTCAAGGCGCCGCGCAGCGGACAGATCCGCCATATGTGCGAAAGCGTCGGGCTGCGGGTGCTGGGGCAGAAGCGCATCCGTATCGGCCGGCTGGCCATGGCTAAGCTGCCGTCGGGCATCTGGCGCTTCCTCGGCGTCCACGAACGCTTCTAA	MIDPIRLSKRLAELLPCSRREAELYIEGGWVLVDGQVIEEPQFKVADQRIELLPGATPAPIEPATLLLHKPAGLDEAAALALLAIDSRADDDSSGIRPVKRHFRHLSAPLPLDTDASGLLVFSQHRGVLRKLSEDADRLEQEFIVEVSGQIAENGLARLNHGLSYRGVALAPCKVSWQSENRLRFALKAPRSGQIRHMCESVGLRVLGQKRIRIGRLAMAKLPSGIWRFLGVHERF				NA	NA	NA	NA	NA
BMS010_06695	1155	yliI_2	COG2133	Aldose sugar dehydrogenase YliI	ATGACCCGGACAACCCTGTGGATGGCCTGCGCCGTCGCCCTTTTTCTCCCCGGCGGCGCTCAGGCTGCGGAGACATCGAAGCACGACAGCGAACTGGGGCCGCTGATGGTCACCGAGGTGGTCGGCGGGTTGGAGAATCCCTGGGCACTGGCTTTCCTGCCCGGCGACGAGGGGATGCTGATCACCGAGCGGCCGGGGCGCCTGCGCCTGCTCGACCGCAGCGGCAATCTGTCCAGACCGCTGGCCGGTGTGCCGGAGGTCTTCGCCCGCAGCCAGGGCGGCTTGCTCGATGTGGCGGTGTCGCCGGACTTCGCCACGGATCGCCTGGTCTACCTGTCCTACGCCGAAGCGGGCGAGGGCGGGCGTGCCGGTACCGCCGTCGGACGCGGCAAGCTGTCCGTCGACCGCACCCGCCTGGACGATTTCCAGGTGATCTTCCGCCAACAACCCAAGCTGTCGACCGGAATCCACTTCGGCTCGCGGCTGGTGTTCGATGGTAAAGGCCATCTGTTCATCGCCCTGGGCGAGAACAACGAACGGGCCACCGCCCAGGACCTGGACAAGCTGCAAGGCAAGCTGGTGCGCCTCTCCCTGGACGGCAAGGTGCCGGATGACAACCCCTTCGCCGGCCGCAAGGGCGCGCGCCCGGAGATATGGTCCTACGGCCACCGCAACCAGCAGGGTGCCGCGCTCAACCCCTGGACCGGCCAGCTCTGGACCCACGAGCACGGCCCGCGCGGCGGCGACGAAATCAACATTCCCCAGGCCGGCAAGAACTACGGCTGGCCGCTCGCCACCCATGGCATCAACTACTCGCTGCTGCCGATTCCCGAAGCCAAAGGCAAGACCGCGCCGGGCACCGAGCCGCCGCACTACGTCTGGGAGAAATCGCCGGCCATCAGCGGCATGGCGTTCTACGACGCCGACCGTTTCCCGGCCTGGCAGCACAACCTGTTCATCGGCGCCCTGGCGGCGCAGACGCTGATCCGCCTGCAACTGGACGGCGACAGGGTGGTGCATGAGGAGCGCCTGCTAGCAGACCTCGGCAGCCGCATCCGCGACGTGCGCCAGGGGCCGGATGGCTATCTCTACCTGCTGACCGACGAAGCGGACGGCAAGCTGTTGCGGGTTGGGTTGGAGGAGGGGAGTGAATGA	MTRTTLWMACAVALFLPGGAQAAETSKHDSELGPLMVTEVVGGLENPWALAFLPGDEGMLITERPGRLRLLDRSGNLSRPLAGVPEVFARSQGGLLDVAVSPDFATDRLVYLSYAEAGEGGRAGTAVGRGKLSVDRTRLDDFQVIFRQQPKLSTGIHFGSRLVFDGKGHLFIALGENNERATAQDLDKLQGKLVRLSLDGKVPDDNPFAGRKGARPEIWSYGHRNQQGAALNPWTGQLWTHEHGPRGGDEINIPQAGKNYGWPLATHGINYSLLPIPEAKGKTAPGTEPPHYVWEKSPAISGMAFYDADRFPAWQHNLFIGALAAQTLIRLQLDGDRVVHEERLLADLGSRIRDVRQGPDGYLYLLTDEADGKLLRVGLEEGSE	PGPT0017700_1211	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_ALDOSE_DEGRADATION,PGPT0017700-yliI-K21430	NA	NA
BMS010_06696	1917			hypothetical protein	ATGTTGGACTTACTCATCGTATTGGCATTCGTCGTCTACTCCATCGGTTCGGGCCTGCGCGCCCGAGAGCAGGCCTCACAGAACCTCGGCGAATACTTTCTCGCCGGCAAGACGATCAAGGGATGGCAGTCGGGCTGTTCGATGGCCGCTACCCAGTTCGCCGCCGACACCCCCCTGCTGGTGACTGGCCTGGTGGCCACCGCCGGGGTCTTCGCCCTCTGGCGCCTGTGGATCTACGGTCTCGCCTTCCTGCTCCTGGCATTCGTATTCGCCGTCGGCTGGCGCCGCGCCGGCGTGCTCACCGACGCCGAGCTGACCAACGTGCGCTACAGCGGCACCGGCGTCACCCTGCTGCGCCTGCTCAAGGCGATCTACTACGGCACCGTGATCAACTGCGTGGTGCTGGCCATGGTGCTGGTGGCGGCGATCCGCATCGCCGAAGTCTTCCTGCCCTGGCACGACTGGCTGCCCGCGGCGCTCTACGAACCGATACTCGGTTTCGTCACCGCCACCGGCCTCAAGCTGGGCGACAGCATGACCGGCCTCGATCCGCAGGTGATGACCACCAACAACCTCATTTCGATCCTGCTGATCATGCTGTTCACCGCCGCCTACTCCATTACCGGCGGCCTGCGTGCGGTGATCCGCACGGACGTGATGCAGCTCGCCGTCGCCCTGATCGGCACCCTCGCCTATGCCTGGTTCGTCATCGACGCGGCCGGCGGGCTCGGCGGGCTGAGCGATCGGGTGGTCAGCCTCTACGGCGAAGACCTGGCCGGCAAGATGCTTTCCTTCGGCCCACCGGAGAATGCCAGCGATCTGCTGCTGCCGTTCCTGATGATCATCGGCATGCAGTGGCTGTTCCAGATGAACTCCGACGGCACCGGCTATCTCGCCCAGCGCAGCATGGCCTGCAGCAGCGACCGCGACGCACGGATCGCCGGCGTGGTGTTCGCCTGGCTGCAGATATTCCTGCGCAGCCTGTTCTGGCTCGGCATCGCCATCGGCCTGCTGGTGCTTTACCCCTTCACACCGGAAGACATGAACAGCGAGGGTTTCACCGCCGCGCGGGAGATCCTTTTCGTCCAGGGCATCCAGGACCTGCTGCCGCCGGGCTTTCGCGGCCTGATGCTGGTGGGCCTGCTGGCGGCCCTGGCTTCCACGGTGGATACCCACCTGAACTGGGGCGCCTCGTACTGGAGCAACGACATCTATGACGGCGTGGTCTGCCAGCGCCTGCTCAAGCGCAAGCCGAAGGGCCACGAGCTGGTGCTGGTGGCGCGGCTGTCCAACGTGCTGATCATGATCATCGCCCTGGCGATCATGGCCAACCTGGGCTCGATCCAGACCGCCTGGTTCATTTCCCTGCTGTTCGGCGCCGGCATGGGCTCGGTGCTGCTGCTGCGCTGGCTGTGGGAGCGGATCAACCTGTACTCGGAACTCACCGCCATGGCCGTGTCGCTGGTCACCGCACCGTTGCTGCTGTATTTCCTCGGCACCGACCCGGACGAGGAATGGATTCGCCTCGGCATCATGGCGCTGGTGACCACCAGTGCGGCGATCCTGGTGACCTTCTTCACCCCGGCCACCGACGACAAGACCCTGCAGCGCTTCTACAAGCGCGTCCGCCCGTTCGGCATCTGGCGCAGGAGTACCCAGGCCGTCGGCGATATGCCCAGCGCCCCGCTGTATGCGCTGGGCGAGCGCCTCGGCGCCGTGGCGGTGACCGCGGTCTCGCTGTTCGCGCTGCTCGTCGGGGTCGGTCGATTGCTGTTTCCGCCGCCGGGTAGCGGCCCGCTGTTCACTTGGATCTGCATCGGCCTCGGCCTGATGCTGATTCCGCTCTGGCTGCGCATGCTGCTCAACGAAGCGCCGCACGAAGAGCATCTGGAGGCGAAGCCGGCCATGGGTAAGTGA	MLDLLIVLAFVVYSIGSGLRAREQASQNLGEYFLAGKTIKGWQSGCSMAATQFAADTPLLVTGLVATAGVFALWRLWIYGLAFLLLAFVFAVGWRRAGVLTDAELTNVRYSGTGVTLLRLLKAIYYGTVINCVVLAMVLVAAIRIAEVFLPWHDWLPAALYEPILGFVTATGLKLGDSMTGLDPQVMTTNNLISILLIMLFTAAYSITGGLRAVIRTDVMQLAVALIGTLAYAWFVIDAAGGLGGLSDRVVSLYGEDLAGKMLSFGPPENASDLLLPFLMIIGMQWLFQMNSDGTGYLAQRSMACSSDRDARIAGVVFAWLQIFLRSLFWLGIAIGLLVLYPFTPEDMNSEGFTAAREILFVQGIQDLLPPGFRGLMLVGLLAALASTVDTHLNWGASYWSNDIYDGVVCQRLLKRKPKGHELVLVARLSNVLIMIIALAIMANLGSIQTAWFISLLFGAGMGSVLLLRWLWERINLYSELTAMAVSLVTAPLLLYFLGTDPDEEWIRLGIMALVTTSAAILVTFFTPATDDKTLQRFYKRVRPFGIWRRSTQAVGDMPSAPLYALGERLGAVAVTAVSLFALLVGVGRLLFPPPGSGPLFTWICIGLGLMLIPLWLRMLLNEAPHEEHLEAKPAMGK	PGPT0013955_185	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013955-TC_SSS|yerK|opuE-K03307	NA	NA
BMS010_06697	717			hypothetical protein	GTGATTCGTCATGTGTTTTTCATCCTTCCGCTGCTCGCCGGTTGCGCGGCGGCGGTGAACCAGCCGGTCGAGCGAGAGCTGGGCGACTACGACCTCAAGATGAGCTATGCGCCGCCGCGCAGCATGGCCCAGGGGCTGGTGCAACCGAACAGCGGAACCCTCGCCCACGGCGGGCTCGACGTGACCCACACCAGCGGCTGGTACTTCGGCCAGTGGGCCGCCAATCTCGATCCGACCGAAGGCAAGATGATCAAGCTGGACAGCTACACCGGCTTCAAGCAGCCGCTCGACGAACGCTTCGGCTATGAACTGGGCACGCTGCTGCACAGCTACCCGACGCTCAGCCAACGCAATGTCGAGGAGTACTACGCCGGCCTGTCGGTGTTCGGCAGCCGCCTGGGTGCGGCGTTCAGCCTCGATCCCGGCCGCTCGGACCGCACCCTGCTGGCCGACCTCGGCCTGCAGGACGATCTCGGCTTCAGCGTCACGCTCAAGTACGGCAACCACGCCCTGGACAACCCGGTGGGCGTCGGCAACGGGCGCAACGTGCGGGTCTTCAACGACTGGTCGATCAACCTGGTGCGCCCCTGGCTCGGCTTCGACCTCAACCTCAGCTATTCCGACTCCAGCCTGAACGCCCTGGAATGCTCAGCCTATTCGGGCTTCAACCGCTACTGCGACGGGGCCTTGACCTTCAAGGCGTCGAGGGCTCTGTAA	MIRHVFFILPLLAGCAAAVNQPVERELGDYDLKMSYAPPRSMAQGLVQPNSGTLAHGGLDVTHTSGWYFGQWAANLDPTEGKMIKLDSYTGFKQPLDERFGYELGTLLHSYPTLSQRNVEEYYAGLSVFGSRLGAAFSLDPGRSDRTLLADLGLQDDLGFSVTLKYGNHALDNPVGVGNGRNVRVFNDWSINLVRPWLGFDLNLSYSDSSLNALECSAYSGFNRYCDGALTFKASRAL				NA	NA	NA	NA	NA
BMS010_06698	1182			hypothetical protein	ATGGTGCCGGTCATGAGCGCGTCGCGGCGCCATGCCGGCTGCCTCGCCTTCGGCCTGTGCCTGATCACCTTCGCGGTGAACCTGCAGGCACCGCTGTACACCGTCTATGCGCAACTGTCCGGGCAGGGCGCGGCGGCCACCGCCATCGCCTTCTCCGGCTACGTGCTGGGAGTGATGCCGGTGCTGCTGGCGTTGGGCGGACTTGCCGACCGGGTCGGGCGGCGGCCATTGATCGTCGCCGCGTTGTGCCTGTCGATGCTTGCCACCCTGGTCATGCTGATCTGGCCGCGCCTGGAGGTGCTCGGCGTCGCGCGTTTCCTGCTGGGGATCGGCACCGGGCTGGCCTCGGCCACCGGCACCGCCTACATGGCCGAACTCATGGGCAGCCGCGATGCCCGCGCCTCGGCGAACTGGGTGACGGCCAGCACCTCGCTGGGCTTCGGCCTGGGCGCCGCCCTGACCAGCCTGTTCCTGCTGGCCGGGCCGACGCTGGCGCCGGGCAGCTTCTGGCTGCACCTGGCGTTCGCCGCCATCGCCTTGATCGTGGTGGCGCGGCTGCCGGACCCGGCGCCCCGTGGCCGGGCCACGCCCATGCTGCGCCTGCCGTGCTTTCCGGGCGGCAGCCTGCCGTTCGGTTTCGCCATCCTGCTCGCCTGGGCGACGGTCGGGCTGGTGATCGCCATCCTGCCCTCGGTGTTGGCGGCGCATGGCCTGGCCGCCTGGTCCGGCTTCTCCACCTTTACCGTGATCAGTTGCGGCCTGCTGTTCCAACCGGCGGCGCGCAGGCTGCATCCGGCCCAGGCGACCTGCCTCGGACTGGCCATCCTGCCGTTCGGCTACGCCCTGTTGGCCTGGGGCGCGACGAACGGCTCGCTCGCCGCCGTGCTGTTGGGAGCGCTGGCGGCGAGCAGTTCCTGCTATGGCTTCGTCTACCTGGGCGGGCTGTCCGCCGTCACCCTGCTGGCGGAAACGGAGAAACCTCGCGCCAGTGCCGGGTTCTTCCTGATGGCCTACCTGGGGTTCAGCGTGCCGGTGATCTTCACCGGTGTGCTGGCTGACCGCTACGGCGCTCCGGCGGCCTTGCTGGCATTCGGGTTGCTGCTCGGCCTGGGTGCCTGCCTGGTGGCGCTGGGTGTCGTGCGGGCGCTGCCGAACGTCCGGGCCGCTCTTTCGTCTTCCTAG	MVPVMSASRRHAGCLAFGLCLITFAVNLQAPLYTVYAQLSGQGAAATAIAFSGYVLGVMPVLLALGGLADRVGRRPLIVAALCLSMLATLVMLIWPRLEVLGVARFLLGIGTGLASATGTAYMAELMGSRDARASANWVTASTSLGFGLGAALTSLFLLAGPTLAPGSFWLHLAFAAIALIVVARLPDPAPRGRATPMLRLPCFPGGSLPFGFAILLAWATVGLVIAILPSVLAAHGLAAWSGFSTFTVISCGLLFQPAARRLHPAQATCLGLAILPFGYALLAWGATNGSLAAVLLGALAASSSCYGFVYLGGLSAVTLLAETEKPRASAGFFLMAYLGFSVPVIFTGVLADRYGAPAALLAFGLLLGLGACLVALGVVRALPNVRAALSSS				NA	NA	NA	NA	NA
BMS010_06699	837	cvfB	COG2996	Conserved virulence factor B	ATGGCGTTGATCGGGCGGTTCAATTCTCTACAGGTGGTCAAGCACACCGATTTCGGGCTCTACCTGGATGGCGGCACGGAGGGCGAGATTCTTCTGCCCAAGCGCTACCTACCCAAGGAGCAGCCGAGCGAGATCGGCGACTGGTTGAACGTGTTCGTCTACCTGGACAGCGACGACCGGCCCATCGCCACCACCGAGAAACCCAAGGTGCAGGTTGGCGGGTTCGCCAGCCTGAAGGTAGTGGAGATCAACCGCATCGGCCTGTTCCTCGACTGGGGGCTGCCGAAGGACCTGCTGCTGCCGCATTCGGAAGAGAAGCGGCCGTTGCAGGTCGGCGATTATTGCGTGGTCCATGTCTACCTGGACCGCCGGACCCGCCGAATCACCGCCACCGCCCGGCTGGATCGCTACCTCGACAAGACCCCACCGCACTACAAGACCGGCCAGGCGGTGGACCTGCTGGTGGTGGAACCCACGCCGATGGGCTTCAAGGCCATCATCGAAGGGAAGCACTGGGGGCTGATCCATCGCAACGAGGTATTCAAGTTCCTTCGAGGTGGCATGCAGGAGAAAGGCTTCATCAAGGAGGTGCGCGCCGACGGCAAGATCAGCCTGAGCCTGCAACCGATCGGCCAGGTGGCGGTGAGCGGCCTCGGCGAGCGGATCATGCAGGAGCTGCGCACCAATGGCGGTTCCCTGCCGCTCGGCGACAAGAGTCCGCCGGAAACCATCAGCCGGCTGTTCGGCGTCAGCAAGGGCACCTTCAAGAAGGCCATCGGCGGTCTCTACAAGCAGGGGTTGATCGTTATTCGTGAGGATCGTATCGAGCTGACCTGA	MALIGRFNSLQVVKHTDFGLYLDGGTEGEILLPKRYLPKEQPSEIGDWLNVFVYLDSDDRPIATTEKPKVQVGGFASLKVVEINRIGLFLDWGLPKDLLLPHSEEKRPLQVGDYCVVHVYLDRRTRRITATARLDRYLDKTPPHYKTGQAVDLLVVEPTPMGFKAIIEGKHWGLIHRNEVFKFLRGGMQEKGFIKEVRADGKISLSLQPIGQVAVSGLGERIMQELRTNGGSLPLGDKSPPETISRLFGVSKGTFKKAIGGLYKQGLIVIREDRIELT				NA	NA	NA	NA	NA
BMS010_06700	636			hypothetical protein	ATGCGCAAAGCCGAATACCAGCAGCGTGGCCCCGTGCCGCAGGACGTGATCGATGCCGTGGAGTTCGAGTTGCCGCCACCGGCCGCCGGCCAAGTGCTGGTCAAAGTATTGGCCGCGCCGATCAATCCGTCCGACGTGCTCACCCTGACCGGCGAATACGGCATGCTGCCGCCGCTGCCCGCGGTGGGTGGCAACGAGGGTGTCGGACGCATCGAGGCGCTGGGTCCGGAGGTCGGCTCGCTGAAGGTCGGCCAGACCGTGCTGCTGCCGGCCGGCTGCGGTACCTGGACCACGCTATGTCGATCATCTGGCCAGCGCCGAATTCGCCGCCGGGCTCGACGAACTGCTGACGTTCGCCAGCGCACAACCCACCGCGATGATGTGCGCCGAGCTGCTCTGGTGGCGCTGCCACCGCTCGCTGATCGCCGACGTGCTGAAGGTGCGCGGTATCGAGGTCATCCACATCCAAGACCCGCATACCGCCATCGTCCACCCCTACACCTCGGCGGCGCGGATCGAAGACGGCCGCCTCAGCTATGCCGGCGATGCGCAGGGTCAGGGGGACTTGTTCGGCGGCTGAGCGCTCAGGTCAGCTCGATACGATCCTCACGAATAACGATCAACCCCTGCTTGTAG	MRKAEYQQRGPVPQDVIDAVEFELPPPAAGQVLVKVLAAPINPSDVLTLTGEYGMLPPLPAVGGNEGVGRIEALGPEVGSLKVGQTVLLPAGCGTWTTLCRSSGQRRIRRRARRTADVRQRTTHRDDVRRAALVALPPLADRRRAEGARYRGHPHPRPAYRHRPPLHLGGADRRRPPQLCRRCAGSGGLVRRLSAQVSSIRSSRITINPCL				NA	NA	NA	NA	NA
BMS010_06701	1056			hypothetical protein	ATGACGTTTGCACGCACGCTGTTGGCAGGATTGTTCTGCATCGGGCTGGCCGGCCAGACCCTGGCCGTCGAGTTGAAGCACTGGCCGGAGCCGGCCGCCAAGCAACTGAACGAGCTGGCCAAGGCCAACGCCAATACCGGCGCGTATGCCGTGTTCGACATGGACAACACCAGCTATCGCTTCGACCTGGAAGAGTCGTTGCTGCCGTTCATGGAGATGAAGGGGGTGCTGACCCGCGACAACATCGACCCGTCGCTGAAGCTGATTCCCTTCAAGGACGTCAATGGCCACAAGGAAAGCCTGAACAGCTATTACTACCGGCTCTGCGAGATCGACGACATGGTCTGCTACCCCTGGGTGGCGCAGGTGTTTTCTGGCTTCACCCTGAAGGAGCTGAAAGGCTACGTCGATGAGCTGATGGCCTACGGCAAGCCGATTCCCAGCACCTATTACGAAGGCGACGCGGTCAAGACCATCGAAATCAATCCGCCGAAGATCTTCACCGGCCAGGTCGAGCTGATGAACCTGCTGCAGGAGAACGGCATCGAGGTCTACATCATGACCGCCGCCCATGAGGAGCTGGTGCGCATGGTGGCGTCCGATCCGAAGTACGGTTACAAGGTCAAGCCGGAGAACGTCATCGGCGTCACCACCCTGCTGAAGGACCGTGCCACCGGGGCCGTGACCACCGCCCGCAAGCAGATCGCCAGCGGCAGCTACGACGAGAAAGCCAACCTGGCCCTGGAAATGACCCCCTACCTGTGGACCCCGGCAACCTGGATGTCCGGCAAGTACGCGGCCATCCTCACCTACATCGACGAGTGGAAGAAGCCGATCCTGGTGGCCGGCGATACGCCCAGCAGCGATGGCTACATGCTGTTCCACGGCACCGATGTGGCGAAGGGCGGCATCCACCTCTGGGTGAACCGCAAGGCCAAGTACATGGACCAGATCGACGCGATGATCAAGCGGAACGCCGAAGCCCAGGCCAAGGCCGGCCTACCGGTCACTGCGGACAAGAACTGGATCGTCGTCCAGCCCGACGACATTCTCTGA	MTFARTLLAGLFCIGLAGQTLAVELKHWPEPAAKQLNELAKANANTGAYAVFDMDNTSYRFDLEESLLPFMEMKGVLTRDNIDPSLKLIPFKDVNGHKESLNSYYYRLCEIDDMVCYPWVAQVFSGFTLKELKGYVDELMAYGKPIPSTYYEGDAVKTIEINPPKIFTGQVELMNLLQENGIEVYIMTAAHEELVRMVASDPKYGYKVKPENVIGVTTLLKDRATGAVTTARKQIASGSYDEKANLALEMTPYLWTPATWMSGKYAAILTYIDEWKKPILVAGDTPSSDGYMLFHGTDVAKGGIHLWVNRKAKYMDQIDAMIKRNAEAQAKAGLPVTADKNWIVVQPDDIL				NA	NA	NA	NA	NA
BMS010_06702	726			hypothetical protein	ATGGGTAGGGGTGTTCTGGGTTGGGTCCTGCTCTGGTTGGCTGTCGGCGTCTCGGCCGATCCGGTGCGGATGGGCTTCGGAACGCACAAACCGCCGTATATCTTCGAGAATGAGCAGCGCGGGCTGGAATACGACATCGTCGACGCGGCGTTCCGCAGCGCCGGCTATACCATCGAAGCCCACTACCTGCCGATGGAGCGCCTGCACCTGATGCTGAAGCGGGGCGAGCTGGACGGCATCGCCACCACCAACCGGTACAGCCAGCTCGACGTGGCCTATTCCGACGTCTACATCCAATACCACAATGTCGCGGCCGCCCTGGCCTCGCGGAAATACCCCATCCACAGCATCGCCGATCTCGGCCGTTACTCGGTGAGCGCCTTCCAGCGTGCCCGCTACCTGCTCGGTCCGAAATTCCAGGCCATGGCGGAGCACAATCCGCGCTACCGGGAAGAAGCCCACCAGATCGCCCGCAACCGCCTGCTCTACAGCGGGCGCATCGATGTAGTGGTGGGGGACCTGCGCATCCTCAACTACTTCAATCGGGAGGTCGCCGATCAGGTCGATGTGACGCAGCCATTGACCTTGTATGAACTCTTTCCGCCGACGCCCTACCATGTCGGTTTCCGCACCGCGTCGATGCGGGATAAGTTCAACCGGGGCCTGGCGACCATTCGCAGCAATGGCACCTATCGGGCCATCGAGCGGCGCTACGAGGCGTATTGA	MGRGVLGWVLLWLAVGVSADPVRMGFGTHKPPYIFENEQRGLEYDIVDAAFRSAGYTIEAHYLPMERLHLMLKRGELDGIATTNRYSQLDVAYSDVYIQYHNVAAALASRKYPIHSIADLGRYSVSAFQRARYLLGPKFQAMAEHNPRYREEAHQIARNRLLYSGRIDVVVGDLRILNYFNREVADQVDVTQPLTLYELFPPTPYHVGFRTASMRDKFNRGLATIRSNGTYRAIERRYEAY	PGPT0020800_16329	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_06703	282			hypothetical protein	ATGAAAATCTTCATAGCCCTGGCCAGCGCGCTTTCCCTGCTGGCCGCCGTGCCCGCCCAGGCGGCCTGCACGCCGGAAGAGGCCACCGCGAAAGCCGAACAACTGGCCGCCAAGGTCAACGAAGTCACCGAAAGCGATCCGGAGAAAGCCGCCGAAATCAACGAGGAATTGAAACGGATGAAGGTCGAGCGTACCGCCGAGGAGCTGGAGAGCGAATGCGCCGCCTACGACCAACGCCTGCAAGAGCTGGAAGAGGCCGAAGAGAAAGCGGCGGACGATTGA	MKIFIALASALSLLAAVPAQAACTPEEATAKAEQLAAKVNEVTESDPEKAAEINEELKRMKVERTAEELESECAAYDQRLQELEEAEEKAADD				NA	NA	NA	NA	NA
BMS010_06704	1770			hypothetical protein	ATGCCGCTCATCGCCCCACGTTGCCCCATCTGCTTGCTACTCGCCCTGCTGCCTTCCCTCATCCCCGCCGCCCATGCCGAAAACGCGCTGCGTATCGAGCAGTTGCAACGCTGCGGAGACCTGCTGGAGCAGGAGCGCCAGGAATTCTGCCTGCGCATCCGGGGGCTGGAAGACGGGGACCTGCGCGTGTCGCTCGGCGAGCGGGAACTGCCCGCCGCGAGCATCCGCCGCGAGGGCGAGCAACTCCGGCTGAGCCTCGCCAGCGCCGATCACCGGAGCGCTCCGCTCTGGCTGGAACAGGGCGAACGCCGCAGTAACCCGGTATGGCTGTCGTTACGCGGCAGCCACGTTCTCGCAGCCACTCCGGCGGAGGTGGCAAAGAACATGGACGGGCTGACCACCTATGTCGATCTGGTCAGCCTGATCATCGAAGAGCGCTTCGATGGCCTCAAGGAGGCCCGGCGCCTGGCGGACAAGTACGGCGCCCGGGTAGTCGGCGCCATCGCCCCGCTGAACACCTACCAGCTTCGCCTGCCGGTGAAGAATCTCACCGAACGCGACGCCCTGCTGCTGCGCCTGGGCAGCGAAACCAGCGTCGATGCCGTGATAGTCGAGGAATCCGCAGCGGAGGGTGAAACCGAGGCGGAGCCGGCGCAGGAGAAACCGGATCAGGACGAATGGGCCGCCAATCGCTTCGTCGATGCGGTGAACTACTATCGTCGACGCATCCCGGCGGGCGAGTCGCCGATCAAACCCACACCGATCCGCATCGGCATCATCGAACGCAACGTCGATTTCGATGCCCCCGATTTCGCCCGGTATCTCGGCGATTGCCGCCCGCAACAGCCACGCACCTGCCTGTATGCCCGCGACGCGGACAAGCCGGACAACCACGGCTCCACCGTGACCGGGATTCTCGCCGCACACTGGGACAAGGGCGGCAACACGGGCTTTCTCAGCGGCCTGGAAAAGGCCAGTGGTGGCTTCGAGGTGATCGTCGAACGCAACTCGGACGCCGGCATCACCGCCAACATCGCCGCCTCGGTGAATCTGGTGGAAGACGGCGTGCGCGTGCTCAACTGGAGCTGGGGCATCCACCGCGTCGGCGCCAAGGATATCCAGGGCGACGAGGTCGATTCGCTGATCCGCTCGGGGCTGGCCATGAGCGGCTATGAAGAACTGCTGGAGGAGTTCTTCCTCTGGCTGCGCAGCAAGCACCCGGACGTGGTGGTGGTCAACTCGGCCGGCAACGGTTCGTCTTTCTCCGGCACCGACGAGTACCGCCTGCCCTCCTCCTTCGTCACCGACCAGTTGCTGGTGGTTGGCGGCCACCAGCGCAGCGGTCGTACCGACGTGGCGGTGGACGACCCGGCCTACGTGACCAAGCGCAGCTCGTCGAACATCGACATGCGGGTCGACATCACCGCCTCGGCCTGTGCCCACGCCTCGACCCTGCGCGCCGACCAGCGCGGCGAAGTGCACTGCGGCACCTCCTACGCCACGCCGATGGTCACCGGCATCGTCGCCGCCATGCTGTCGATCAACCCGACCCTGACCCCGGAGCAACTGCGCATGCTGCTCCGGCGCAGCGCCATGACCATCGGCGGCGACTACGACTTCGAGCCGATGGACGCCGACGACCTGACCGCGCCGATCCTGCCGTCCGAACGCAACTACGAGTTGAACAACGAGGACGTCGGCCGCTCCGCCCGGCTGGACATGCAGAAGGCGCTGGATCTGGCCGTACAGAGCCGCGACCGGGTGCGCTGA	MPLIAPRCPICLLLALLPSLIPAAHAENALRIEQLQRCGDLLEQERQEFCLRIRGLEDGDLRVSLGERELPAASIRREGEQLRLSLASADHRSAPLWLEQGERRSNPVWLSLRGSHVLAATPAEVAKNMDGLTTYVDLVSLIIEERFDGLKEARRLADKYGARVVGAIAPLNTYQLRLPVKNLTERDALLLRLGSETSVDAVIVEESAAEGETEAEPAQEKPDQDEWAANRFVDAVNYYRRRIPAGESPIKPTPIRIGIIERNVDFDAPDFARYLGDCRPQQPRTCLYARDADKPDNHGSTVTGILAAHWDKGGNTGFLSGLEKASGGFEVIVERNSDAGITANIAASVNLVEDGVRVLNWSWGIHRVGAKDIQGDEVDSLIRSGLAMSGYEELLEEFFLWLRSKHPDVVVVNSAGNGSSFSGTDEYRLPSSFVTDQLLVVGGHQRSGRTDVAVDDPAYVTKRSSSNIDMRVDITASACAHASTLRADQRGEVHCGTSYATPMVTGIVAAMLSINPTLTPEQLRMLLRRSAMTIGGDYDFEPMDADDLTAPILPSERNYELNNEDVGRSARLDMQKALDLAVQSRDRVR				NA	NA	NA	NA	NA
BMS010_06705	393			hypothetical protein	ATGGCCTACAACTGGGATCTCATCGAACGCCTGCTGCTCAAGGTCCAGGAGTCCGCGGGCAAGAATTTCGCGCCGCGCGCCTATGCCGAAGAGCTGGCGCAGGAACATTCGGCTGCCGGGTTGCCGGTGGGCAACCTGGACGCCATGAAGCAGGACGCGGCGGATTACGAGGCCGTGCTGTTCAACGGTGGCTTCATCGAACCCCGCCCGGAGGAACGTGGCGGTACCGGAGAGAACTTCGTCCTCACCGAGCGTGGCTTGCGGCTGTTGCGGTTGATCGGCGGCACCACCGAATCCAGTGCCGAGGCCCGTCGGCGCCTGGATGAAAAGGATACGGCGGCGCTGGTGCCGGAAATCTTCGACGACCTGGCGAACGGCATGGGCGTGGTGTAG	MAYNWDLIERLLLKVQESAGKNFAPRAYAEELAQEHSAAGLPVGNLDAMKQDAADYEAVLFNGGFIEPRPEERGGTGENFVLTERGLRLLRLIGGTTESSAEARRRLDEKDTAALVPEIFDDLANGMGVV				NA	NA	NA	NA	NA
BMS010_06706	960	egtD	COG4301	Histidine N-alpha-methyltransferase	ATGACCGTGCACTTCCATGACCAGCGCCAGCGCGCTGCCTGCACTTCGCTGCGCGAGGAGACGCTGGCCGGCTTCGCTGCCGATCCCAAGGCCGTGCCGCCGAAGTTTTTCTACGACCGGCGCGGCTCCGAGCTGTTCGAGGCGATCTGCTGCCAGCCGGAGTACTACCCGACGCGTACCGAGGAAGCCATCCTCGCCCGCGCCGCCCACGACATCGCCGAGATCGCCGGGCGGGACACCAACCTGGTGGAGCTGGGCAGCGGCGCCAGCCGCAAGGTGCGCCTGCTGCTGGAAGCGCTGCATCCGGCCAGCTACCTGGGGATCGACATTTCCAAGGACTTCCTGCTCGACAGCACGCAGCGCCTGGCCAACGACTACCCTTGGCTCGACGTGCATGCGGCCTGTGCCGACTTCTCCCAACCGATGGCATTGCCGGAAGGCTTCGATGGCCATCATCCGCTGGCTTTCTTTCCCGGTTCCAGCATCGGCAACTTCGACCCGGAAGACGCCCAGCGCTTCCTCGGCAACATCCACGAACTATTACCGGAGGGTGGCGGCCTGTTGATCGGCGTCGATCTGGTGAAGGACAAGGACATCCTGGAGGCCGCCTACAACGACGAGGCGGGCGTCACGGCGGCCTTCAACCGCAACCTGCTGGAACGCATCCGCCAGGAACTGGACAGCAACATCGACCCCAGCTGGTTCGAGCACCATGCGTTCTACAACGAAGGCGCCTCACGCATTGAAATGCACCTCATCAGCCCGCAAGCCCAGCAGGTCCGCATCGAAGAGGCCCATTTCGACTTTGCCGCCGGCGAGAGCCTGCACACGGAGAATTCCTACAAATACACCGCCGCCAGCTTCCGCGACCTGGCCGGCAGCGCCGGTTTCGACACCGTCGCCACCTGGACCGACCCGAGGGAATTGTTCAGCGTGCATTACCTGCAGCGCGTGGCGTGA	MTVHFHDQRQRAACTSLREETLAGFAADPKAVPPKFFYDRRGSELFEAICCQPEYYPTRTEEAILARAAHDIAEIAGRDTNLVELGSGASRKVRLLLEALHPASYLGIDISKDFLLDSTQRLANDYPWLDVHAACADFSQPMALPEGFDGHHPLAFFPGSSIGNFDPEDAQRFLGNIHELLPEGGGLLIGVDLVKDKDILEAAYNDEAGVTAAFNRNLLERIRQELDSNIDPSWFEHHAFYNEGASRIEMHLISPQAQQVRIEEAHFDFAAGESLHTENSYKYTAASFRDLAGSAGFDTVATWTDPRELFSVHYLQRVA	PGPT0020260_336	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020260-egtD-K18911	NA	NA
BMS010_06707	1296	egtB		Hercynine oxygenase	ATGCCCAATCTCGCCCGCGAGCCACAGGAGCGGCTCGCCGCGGATCGCTTCCACGAGCTGTTCGTTCGATTCCAGGCCGTCCGCGCCACCAGCGAGGCGATCTGCGCGCCGCTGGCCATCGAGGATTTCGTCGTCCAGAGCATGCCGGACGTCAGCCCGCCGAAGTGGCACCTGGCGCATGTGAGCTGGTTCTTCGAGGCCTTCATCCTGCAACCCTACCTGCGCGGCTATCAGCCGCTCGATCCGCGCTACGACCACCTGTTCAACTCCTATTACCAGACCCACGGCACGCCGTTTCCCCGTGCCAATCGGGGCCTGCTGTCGCGGCCGACGGTGAGCCAGGTTTACAGCTATCGCCAGCACGTCGACCTGGCCATCGGCGACCTGCTCGCGCATCCGCCCGCCGAGCATGCCGAGGAGATCGCCCGCCGCGTGGAGCTGGGCCTGCAGCACGAGCAGCAACACCAGGAACTGCTGCTGATGGACATCAAGCACATCCTGGCGCAGAACCCACTGCTGCCGGCCTATCGCAGCGACCTACGCCCCGCCCCGTTGCAGGCGGCCGGGATGATGCGCTGGCAACGCTATCCCAGCGGCCTGCGGCAGATCGGCCACGGCGGCGACGGCTTCGCCTTCGATTGCGAGACGCCCCGTCACCGCCAATTCCTCGAGGATTTCCGCCTGGCCAGCCGACCGGTGACCAACGGCGAGTACCTCGCCTTCATCGAAGACAAGGGCTATGAGCGTTCCGACCTCTGGCTGGCCGACGGCTGGACGCTGAGCCGCCAGGCCGGCTGGCAGGCGCCGCTGTATTGGCAGCGCGTGGACGGCGCCTGGTGCGAAATGACCCTCGGCGGCCTGCGCCCGCTGGATCATGAGGCGCCGGTCTGCCACGTCTCCTTCTTCGAGGCCGATGCCTTCGCCAGTTGGGCCGGCGCGCGTCTGCCGAGCGAGGCGGAGTGGGAGGTCGCCGCCCAGGGCATGCCGGTGCGCGGCAATTTTCTCGAAACCGACCATCTGCAACCGGTCGCCGCCGCCCCGCTCGGCGAAGGTCCCGAGCAGTTGTTCGGCGACGTCTGGGAATGGACCGCCAGCGCCTACCGCCCCTACCCGGGATTCCGCCCGTTGCCCGGCAGCCTGGGCGAGTACAACGGCAAGTTCATGTCCGGGCAGATGGTCCTGCGCGGCGGGTGTTGCGCGACGCCGCAGAGCCACGTCCGCGCCAGCTACCGCAACTTCTTCTATCCCGGCATGCGCTGGCAGTTCGCCGGGCTGCGCCTGGCCAGGGAGGCATGA	MPNLAREPQERLAADRFHELFVRFQAVRATSEAICAPLAIEDFVVQSMPDVSPPKWHLAHVSWFFEAFILQPYLRGYQPLDPRYDHLFNSYYQTHGTPFPRANRGLLSRPTVSQVYSYRQHVDLAIGDLLAHPPAEHAEEIARRVELGLQHEQQHQELLLMDIKHILAQNPLLPAYRSDLRPAPLQAAGMMRWQRYPSGLRQIGHGGDGFAFDCETPRHRQFLEDFRLASRPVTNGEYLAFIEDKGYERSDLWLADGWTLSRQAGWQAPLYWQRVDGAWCEMTLGGLRPLDHEAPVCHVSFFEADAFASWAGARLPSEAEWEVAAQGMPVRGNFLETDHLQPVAAAPLGEGPEQLFGDVWEWTASAYRPYPGFRPLPGSLGEYNGKFMSGQMVLRGGCCATPQSHVRASYRNFFYPGMRWQFAGLRLAREA				NA	NA	NA	NA	NA
BMS010_06708	309			hypothetical protein	ATGACCACCCCGCTGGATATCGACGCCGCCATGAAGCTCGCGTCCGAAGCCTTCCAACCCTACGGGTGCGTGACCAGCGCCAACCCCGAGGACGACAGCTTCGGCTTCACCGTGATGAGCAGCGCCGGCGCGGAGGTGCTCGCCGTGCCGCACGTGCCGCGCACCCAGTACGCCAACCCGCTGCGGCTGTGCGGCGTGATCGAACAGGCGCGGCTGGACCTCCTGCACAAGGGCTGCCATCTCGATCCCTGGACCATGCCCTACATCACCGATCCCTCGGCGATTCCGGAGACGCCGCCGAATTACTAG	MTTPLDIDAAMKLASEAFQPYGCVTSANPEDDSFGFTVMSSAGAEVLAVPHVPRTQYANPLRLCGVIEQARLDLLHKGCHLDPWTMPYITDPSAIPETPPNY				NA	NA	NA	NA	NA
BMS010_06709	1011	des	COG3239	Fatty acid desaturase	ATGACCAGCCTGACCGTCCGCCACCCACAGCTGCGCAGCCAGTTGCTCGCATTGCGCGATGTCTATGCACAGCCCCGCCCCTGGCGCTCCACCTGGCAACTGGCGAGCACCCTGGTGCCGCACTTCGTGCTGACCTGGCTGACCTACCGCCACTGGAACGGGCCGCTGTGGATCACCCTGGCCCTGCTCTATGCCAACAGCCTGTTCCTCAACCGCCTGTTCGTGCTGTTCCATGACCTCATGCATGGCTCGATGTACCGCTCGCGGCGGCTGGGCAACCTGCTCGGCACCCTGGCCAGCCTGCTGCTGTTCATGCCGGCCCATCACTGGCAGTACGAGCACAACTTCCACCACGCCAGCTCCAACGACCTCGGCCGGCGCGGCTACGGCGACATGCCCCTGCTGACGGTGCGCGAGTATCACGCGCTGAGCCCCTGGCGGCGGCTGTGCTACCGGGTACTGCGGCACCCGCTGTTCCTCTTCGGACCGCATGCGCTGTACAAGCTGGTGCTGTTCCCAAGGGTGGTGGCCAACTCGGCCTGGCCGGCGCGAGTGAAGCGCTCGGTGTACCTGACCAACCTGGCGCTGCTGGCGATCTTCCTCGGCCTGTGGATGGCCGGGCTGGAGCGGTTGTTCTGGATCCAACTGGCAAGCTTCGCCATCAGTACGCCGACCACGGTGTTCCTCTTCTACATCAACCACCACTTCGAGCAGTCGCAGTGGCGCGCACCGGCCCAGTGGAATTTCGTCGACGCGGCGCTGCGCGGCACCTCGGTGCTGATCTATCCGCCGTGGATGCGTTGGTTCGCCGCCGGCATCGGCATGCACTGCATGCATCACCTGGTGCCGAAAATCCCCAACTACAACCTGGAACGCTGCTGGAAGGAGAGCCCGCTGTTCGACCAGGCCACGGTGATCCCCTTCCGCGACAGCCTGGCGGCGACCCGGCTGCGCCTGTGGGATGAGGACAAGCAGCGCTACGTGGGTGTCGAGGGCTATCGGCGGGGTTGA	MTSLTVRHPQLRSQLLALRDVYAQPRPWRSTWQLASTLVPHFVLTWLTYRHWNGPLWITLALLYANSLFLNRLFVLFHDLMHGSMYRSRRLGNLLGTLASLLLFMPAHHWQYEHNFHHASSNDLGRRGYGDMPLLTVREYHALSPWRRLCYRVLRHPLFLFGPHALYKLVLFPRVVANSAWPARVKRSVYLTNLALLAIFLGLWMAGLERLFWIQLASFAISTPTTVFLFYINHHFEQSQWRAPAQWNFVDAALRGTSVLIYPPWMRWFAAGIGMHCMHHLVPKIPNYNLERCWKESPLFDQATVIPFRDSLAATRLRLWDEDKQRYVGVEGYRRG				NA	NA	NA	NA	NA
BMS010_06710	1044			hypothetical protein	ATGATGAACGGCACCTCCTTGTTCCTCGGTGAGTCCCAGGAAGACGTCGCCAGCGAGCGCGATGCGCGCCTGCGGCACTTCCTCGACCGCCACGGGCGCGGCTGCATGGCCTATTCGACGCTGCAACCGGGCCTGGGGTATTTCATCCACGACTCGCTCGGCTACCTCGCCTACCTGCCCTTGCACCATCCGCTGTTCGCGCCGGGCCGGCTGCATGTGGTGATCGGCGACCCCATCGCCGCGCCCGCCGACTACGAAGCCCTGCTGGACGCCTATCTGGCCGCACCGGGTGCGGCGGCCACGGTGTTCCTGGAAATCGGCGCGGCCTTCGCCGATATCCTCGCCCGGCGCGGCCTGCCGGTGAACGAGATGGGCATCGAGTGGGAAATCGACCTGCCGGCCTTCGACAGCGACCTGCGCGGCCCGGCCTTCGCCCATCTGCGGCGCTGGCGCAACAAGGCGCGCAAAGAAGGCGTGGAAGTGGCCGAGGGGCGCATCACCGACCTCGACGCCGACGAGTTGATCGCCCTCAGCCGGCAATGGCTGCAACGCAAGGGCGGTCACGAGTTCATCGGTCTCAACCGCCCGCTGTTGCTGGAGAACGAGCCGGACGCCCGTTATTTCTGGGCGACCCGCGAAGGCCGCCTGCTGAGCCTGGCGATCTTCGACCCGCTGTACCGCGACGGCCAGGTGATCGGCTACCTGCACAACCTGTCGCGCACCCTCGCCGAGGCACCCCACGGCACCAACGATCTGATCGTGCTGGAGGCCATCCGTCGCTTCCAGGCCGAGGGCCGCGAGGTGCTGTCCCTCGGCCTGTCGCCTTTCGCCGAGGTGGAAAACGGGCCCTACCCGCACCGCACCTACCTGACCGGGCTGTTCCGCTTCATGTTCCGCCACTGCCCGTTCATCTATCCGTTCCAGGGCAACTACTTCCACAAGGACAAGTACCGCGGCCGCTCCTTCAAGGTGTACCTGGCCTCGGTCCCGGCGCTGAACCTGTACCGGGTGCTGGGGGTGTTCAAAGCGCTCAAGGTGTTCTGA	MMNGTSLFLGESQEDVASERDARLRHFLDRHGRGCMAYSTLQPGLGYFIHDSLGYLAYLPLHHPLFAPGRLHVVIGDPIAAPADYEALLDAYLAAPGAAATVFLEIGAAFADILARRGLPVNEMGIEWEIDLPAFDSDLRGPAFAHLRRWRNKARKEGVEVAEGRITDLDADELIALSRQWLQRKGGHEFIGLNRPLLLENEPDARYFWATREGRLLSLAIFDPLYRDGQVIGYLHNLSRTLAEAPHGTNDLIVLEAIRRFQAEGREVLSLGLSPFAEVENGPYPHRTYLTGLFRFMFRHCPFIYPFQGNYFHKDKYRGRSFKVYLASVPALNLYRVLGVFKALKVF				NA	NA	NA	NA	NA
BMS010_06711	834			hypothetical protein	ATGAGCGAACCCGTCAACGCCTCGATCCGCGCCCGCCACTTCGCCGTCGACTATGCCGAGCCCAAGCCGGCGCGGCTGTGGGTCGGCGGCAGCCCGTTCCTGACCCATTGGCTGAACGCCTACACCATGACCATCCCGGACGGCGAAGCCTTCATCGTCCAGACCCTGCGCACCTTCCTCGACCGTATCGAAGACCCGCAGCTCGCCCGCGACGCACTCGGCCTGATCGGCCAGGAAATCTCCCACTCGCGGGGCCACCTGAAGTTCATCGAGGCGCTGCGCGAACAGGGCTTCAAACTGGATACCTATCTGCGCTTCACCCGTTTCATCTCCTTCCGCATCCTCCAGCCCACCGCCACCCCGCTGCAGCAACTCGCCTTCGTGGTGGGCATCGAGCGGGTCAACGAGCTGTTCGCCGAGATCACCCTGGGCAGCGGCAAGCTGGCCGGCGCGGAGCCGTCGGTGCGGGCGCTCTACGAGTGGCATTTCGCCGAGGAGATCGAGCACAAGGCGGTGGCCTTCGATGTCTACCAGGCGATCTCCGGCAAGCGCTTCTGGCTCGCCTACGGGGTGCTGTTCTGCTACGTGGTGAACATGAGCTACCTGTTCCTGGCCTGCGCCACCTTCCTGCGCCAGGACGGCCAGTTGTTCAAGTGGCGGGTGTGGAGGGAGGCGTTCCGCTACTTCTTCCGCGACGAGCGCTTCCTGCCGCGCATGACCCGTGGCTGCCTGCAGGCGATTCGCCGCGGCTTCCACCCCTCCCACAGCGACAACCGCCCACTCGCCGAGCATGTCCTGCGCCGGCAGGTGATCAGCGTGGAGGTGGCGCCATGA	MSEPVNASIRARHFAVDYAEPKPARLWVGGSPFLTHWLNAYTMTIPDGEAFIVQTLRTFLDRIEDPQLARDALGLIGQEISHSRGHLKFIEALREQGFKLDTYLRFTRFISFRILQPTATPLQQLAFVVGIERVNELFAEITLGSGKLAGAEPSVRALYEWHFAEEIEHKAVAFDVYQAISGKRFWLAYGVLFCYVVNMSYLFLACATFLRQDGQLFKWRVWREAFRYFFRDERFLPRMTRGCLQAIRRGFHPSHSDNRPLAEHVLRRQVISVEVAP				NA	NA	NA	NA	NA
BMS010_06712	936			hypothetical protein	ATGAACATCACGGACCCCGTTGCCCGTCACGAGCACTCCCTTGCCGGCTACCCGGCCACCGAGGGCGATATCCGCCAGGACAACCTGCGCCTGGAGGGCGGTTGGCTGTTCCGCCACAGTGCCCTGGACGGCCTGCTGGTGCTGCTCTCGCTGGGCAACGCCACCGCGCTGGTGGCCACCGCCCTCGCCTTCGAACACCTGGGCGGCTGGCCGCTGGCCGGGCTGGCGCTGTTCTTCATGGCAATGATCTGCACCAACTACCAGTGCATTGCCCACAACCACATCCACAACCCGTTCTTCCGCCACGAGGGCCTGAATCGGCTGTTCGCGGTGCTCAACTCGCTGTCGCTGGGCATGCCGCAGACGCTCTACCGCGTACACCACCTCAATCACCATCGCTACAACAATGACCTCAAGGACCCGCTCAGCGGCCTGACCGGCGACCTGTCCTCGCTGTACCGCTTCTCCCGCCGCGAGGGCCAGCCGGAGAACATCTGGTGCTATTCGCTGCTCGGCCCGCTGCGCACCGACTTCGCCCTGCTCTACCGCATCGCCCGACGACGCCGGCTGGATGGCCAAGTGCGCCTGGAAAGCGCCGCCCTGCTGGCGTTCTACTCCGGGCTGGCCTGGCTCGACTGGCGCTTCGCGCTGTTCTATTTCCTGCCAGTGCTGTATGCCGGCCAGGCCCTGGCGCTGGCGGAGAACTATCTGGAGCACTACGGCGCCGACCCGCGCGACCGCCGCACCGATTCGGTGAGCTGCTACGGCCGGCTGTACAACCTGCTCTGGTTCAACAACGGCTACCACCAGGAACACCACTTCCGCCCCGGCGTGCATTGGCGGCGGGTGCCGCGCCTGCGCCCGGCCATGCTGCCGGAGGACCGCCGCCGGGTGGTTCGCGGCGCGCACTTCTTCAACTTCTTCCGCCAATCCTGA	MNITDPVARHEHSLAGYPATEGDIRQDNLRLEGGWLFRHSALDGLLVLLSLGNATALVATALAFEHLGGWPLAGLALFFMAMICTNYQCIAHNHIHNPFFRHEGLNRLFAVLNSLSLGMPQTLYRVHHLNHHRYNNDLKDPLSGLTGDLSSLYRFSRREGQPENIWCYSLLGPLRTDFALLYRIARRRRLDGQVRLESAALLAFYSGLAWLDWRFALFYFLPVLYAGQALALAENYLEHYGADPRDRRTDSVSCYGRLYNLLWFNNGYHQEHHFRPGVHWRRVPRLRPAMLPEDRRRVVRGAHFFNFFRQS				NA	NA	NA	NA	NA
BMS010_06713	2970	argD_2		Acetylornithine/succinyldiaminopimelate aminotransferase	ATGCTGGCCGAGAACAGACTGGCGTTCGCCACCACCACCGACGACAACCGTCTCAACTACCAACGCTTCGTCCGCCCACTCACCGGGCGTCTGCTGGAAGCCCTGCGCCTGGACGTGGAGTACGTCTTCGGCGAAGGCGACACCCTCGAATACTTCGACGAGCACGGCGAGCGCGTGCAGGTCTACGACTTCCTCGGCGGCTACGGCGCCCTGCTGTTCGGCCACAACCACCCGCAACTGGTGGATACCGCCATCGACCTGCTGCGTGCCGGCCGGCCCTTTGCCGTGCAGGCCAGCCTGCGCGGCTACAGCGCCCAGCTCGGCCGCAAGCTGAACGACATGCTGCAGGCGCGCCTCGGCCGGGAATACGTCACCACCCTGGCCAACAGCGGCACGGAGGCCGCCGAGGCGGCGCTCAAGCACGCCCAGTTGGCCCATCGCAACCGCAAGCAGGCGCTGCTCGATCGCCAGGAGGCCCGCCTGCTCAAGCTGCGCAACCAGCAGCACCCCGAGCGCCTGCCGCTGGCGCCGGAGTCCGCGCGGCTGTTGCGCAGCCTGCTCGGCGAGAAGGTCGAGACCTTCGCCCAGGCCGTAACCGCCGTGCGCCGGCTGAACCGCGAACGCTTCCTCGAAACCGGGGCGCTGTTCTGCTGCCTGAACAAGTCCTACCACGGCAAGACCGCCGGCGCGGTGAACCTCACCGAAAACGAGCTTTACCGCAGCCCGTTCGTCTCCATCGGCCCCTCGGTGCTCTTCGTCGATCGCCGCGACCCGGCCGATTTCGAGCAACAGGCACGAGCCAACCGGTTGCGCTACTTCAGCCTCGCGCTGGACGAACAACGTCGGGTGACGGTGCAGAGCCACGACTTCTGCAACATCGCCGCGCTGTTCGTCGAGCCGATCCAGGGCGAAGGCGGCGTGCATGTGCTGGAGGGCGACTACCTCGCCGCGCTGCGACGGATTTGCGACGAACACGGCATCCACCTGGTGTTCGATGAAATCCAGAGCGGCATGGGCCGCACCGGCCATTTCCTCGCCTCCGAGCCCAGCGGCGTGCGCGCCGACTGCTACCTGCTGTCGAAGAGCCTCGGCGGCGGCCTGGCGAAGATCGCCAGCGTCAGTATCGCCCGCGACTGCTTCGAGGAAGACTTCAGCCTGATCCACACCTCCACCTTCGCCGAGGACGACTTCAGCTCGGCCATCGCGCTGCGCGGCCTGGAGCTGCTGGAGAGCGACCGGTCGATCCTGCGCAACTGCCGCGAGGTCGGCTCGGAGATCAAGGCCGCCCTGCTCGACCTCCAGCGACGCTACCCGGAGGTGATCGCCGAGGTGCGCGGCGAAGGGTTGATGCTGGCCATTGAGTTCGCCGACCAGAGCGAAGCCGAGTCCCATGGCCTGCGCGCCCTGGCCTGCAGCGAGCTGATCGGTTTCGTCTACGCCGGCTACCTGCTGCACGAGCACCGCATCCGCGTGGCGCCGCTGCTGTCGAACAACAACGTGCTGCGCCTGGAACCGGCCGCCTGCGTCGGCCGGCAGGCACGCCAGCAGCTCTACGCCGCCCTCGACCGCCTGTGCCTGGCCCTGCGCCAGCAGCATTTCCACGAACTGGTGAAGTTCATCGTCGGCCAGGCCAGCCCCGGCCGGCACGGCCCGTTGGCCGACTATCGCGGGCGCTGCTTCAGCACCCCGCCCGAAGAGGTCGTGGACCGCACCGTCGGCTTCCTCATGCATTTCGTCGACGCCAGCAACATGCACCTCTTCGACCCGAGCTGCGAGCAGTTCAGCCTGGCCGAGCTGGAAGACCTGCTGGAGCGCTGCTACCTGTTCCTCAAGCCGTTCCGCATGCACGCCCACGTGCTCTATTCGAAGACCGGTAAGAAGGTGCGCCTGCAACCGTTCGGCCTGGCCATCACTTCGGAAATGATCCAGCGGCACATGCAGGCGCGCGACCTGGAACCGGTGCAGACGCTGATCGAGACCGGCATCGACAAGGCCGTTGCCGCCGGCTGCGAAGTGCTCGGTTTCGGCGGTTTCACCTCCATCGTCATGCAGAACTGCAAGGCGGTGCGCGAAGAGACGCTGGCGGTGACCACCGGCAACTCGCTGACCGTCGGCATGGGCTACGAGGCCCTGCTGCAGGCCGCCGCCGAGGCCGGCATCGACCTCGACAGCGCCTGCTTCGCCGCCATCGGTGCCAACGGCAACATCGGCAGCCTCTACTGCGAGCTGATGGCGGAGAAGGTGCCGAGCCTGGTCCTGATCGGCCGCCCCGGCCGCGAGCGCGCCTTGCAGGCCCTCGCCGCACGGCTCTACGCCCAGGCGTTCCGCCGCCTGCGCGCGGCGCTGGCGCGCAAGGGCGGGTTGGTCCGCCTGGCCGAGGAACACACCCTGGCCGCACGACTCGCCGAACTGCCGGCGGCTCGCCACTGGCTGGAGGACGAGACCGATGACGCAACGATCGGCACCCGTCTCTACCACGGCCTGCTGGACGCCCTCGGCGACGAGGCTCCGGTGCGGATTTCCACCGACCCGGCGGACATCCGTCATGCCGACCTCATCCTCGGCGCCAGCAACCAGGCCGGCAGCCTGATCCTGGCGGAGTACCTGCGGCCGGGACCGGTGGTGATCTGCGACGTTGCCCTGCCGGCAGACACTCACCCTTCGGTGGCCAACCAGAGGCCGGACGTACGGGTGATCAAGGGCGGCCTGGTACGGGTGCCGCCGGCGCCGGATTACGTGGCGGCGCGCAACGCCCACCTGGGCGTGCGCGACTTCCTGCTGGAAGGGCTGCCGATCCCGCCGGAGCACGTCTTCGCCTGCATGGGAGAAACCCTGCTCATGGGCCTCACCGGCATCACCAGCCATTACAGCCGCGGCGACGTGCGCCAGGAGCAGGTTCGGGAAATGCTCGAGCTGGCGCGGCTGCACGGCTTCACGCTGGGCGACTTGAAGACCGGGCGCAGTTTCTGA	MLAENRLAFATTTDDNRLNYQRFVRPLTGRLLEALRLDVEYVFGEGDTLEYFDEHGERVQVYDFLGGYGALLFGHNHPQLVDTAIDLLRAGRPFAVQASLRGYSAQLGRKLNDMLQARLGREYVTTLANSGTEAAEAALKHAQLAHRNRKQALLDRQEARLLKLRNQQHPERLPLAPESARLLRSLLGEKVETFAQAVTAVRRLNRERFLETGALFCCLNKSYHGKTAGAVNLTENELYRSPFVSIGPSVLFVDRRDPADFEQQARANRLRYFSLALDEQRRVTVQSHDFCNIAALFVEPIQGEGGVHVLEGDYLAALRRICDEHGIHLVFDEIQSGMGRTGHFLASEPSGVRADCYLLSKSLGGGLAKIASVSIARDCFEEDFSLIHTSTFAEDDFSSAIALRGLELLESDRSILRNCREVGSEIKAALLDLQRRYPEVIAEVRGEGLMLAIEFADQSEAESHGLRALACSELIGFVYAGYLLHEHRIRVAPLLSNNNVLRLEPAACVGRQARQQLYAALDRLCLALRQQHFHELVKFIVGQASPGRHGPLADYRGRCFSTPPEEVVDRTVGFLMHFVDASNMHLFDPSCEQFSLAELEDLLERCYLFLKPFRMHAHVLYSKTGKKVRLQPFGLAITSEMIQRHMQARDLEPVQTLIETGIDKAVAAGCEVLGFGGFTSIVMQNCKAVREETLAVTTGNSLTVGMGYEALLQAAAEAGIDLDSACFAAIGANGNIGSLYCELMAEKVPSLVLIGRPGRERALQALAARLYAQAFRRLRAALARKGGLVRLAEEHTLAARLAELPAARHWLEDETDDATIGTRLYHGLLDALGDEAPVRISTDPADIRHADLILGASNQAGSLILAEYLRPGPVVICDVALPADTHPSVANQRPDVRVIKGGLVRVPPAPDYVAARNAHLGVRDFLLEGLPIPPEHVFACMGETLLMGLTGITSHYSRGDVRQEQVREMLELARLHGFTLGDLKTGRSF				NA	NA	NA	NA	NA
BMS010_06714	4584	srmB		ATP-dependent RNA helicase SrmB	ATGAGCCAATCGACCCTCGACACCACGCTCGCGGACGACGTGCTGGCCGGCTTCCATCCCGCCGTCGGCGCCTGGTTCCGCCACACCTTTCCCGCGCCCACCCCGGCGCAGGTCGCTGCCTGGCCGCTGATCCGTGCAGGCCGGCCGACGCTGGTCGCCGCGCCGACCGGTTCCGGCAAGACCCTGACCGCCTTCCTCGCCGCGCTGGACGAACTGGTCCGCGAGGGCCTGGCGCGCGGCGGCACGCTGCCGGACGAAACGGTGGTGGTCTACGTCTCACCGCTCAAGGCGCTGTCCAACGACATCCGTCTGAATCTCGAAGCACCGCTGGAAGGCATCTCCGCCGAACTGGTGCGCCAGGGACTGCCGCCACTGGAAATTCGCACCGCCGTGCGCACCGGCGACACTCCGCAGTCCGAGCGCAATGCGATGCGCAAACGCGCCCCGCACATCCTGGTGACCACCCCGGAATCGCTCTACGTCCTGCTCGGCTCGGAATCCGGCCGACGCATGCTCGCCACAACCCGCAGCCTGATCGTCGACGAAATCCACGCCATCGCCGGCAGCAAGCGCGGCAGCCACCTGGCCCTCTCCATGGAACGCCTCGAAGCCCTCTGCGGTCGCCGCCTGGTGCGGGTCGGCCTGTCGGCGACGCAGAAGCCCATCGAAGCCGTGGCGGCGTTTTTGGTGGGTGTGAGGGGGGAAGAGGGGAGGAGTGAGGATGTAAGGGGTGAGGAAGCGGAGTCCCGACCCAACACCACCCCTCAACCCCCGCACGTCCAAACCCTCTCGCCCCCCTGGGGAGAGGGCCGGAGTGAGGGGGCGGAGTCCAAGCCAAACACCACCCCAAAATCCCTGCACGCCCCAACCCCCTGCGCCATCGTCGACATCGGCCACACCCGTGCCCGCGATCTGGCCCTGGAAGTCCCGCCGGTCCCTCTCGAAGCGGTGATGGCCAACGACGTCTGGGAGCGGGTCTACGACCGCCTCGCCGAACTGGCCCGGCAGCACCGCACCACGCTGATCTTCGTTAACACCCGGCGCATGGCCGAGCGCGCCGCGCGGCATCTGTCCGAACGCCTGGGCACCGAGGCGGTGGCGGCGCACCACGGCAGCCTGGCCCGCGAGCAGCGGCTGGATGCCGAGCAGCGCCTCAAGCACGGCAAGCTGCGCGTGCTGATCGCCACTGCCTCGCTGGAGCTGGGCATCGATATCGGCGACGTGGAGCTGGTCTGCCAGCTCGGCTCGCCGCGTTCCATCGCGGCCTTCCTGCAGCGCGTCGGCCGCTCCGGGCACCAGGTCGGCGGGCTGCCCAAAGGCCGGCTGTTTCCCAACTCCCGCGACGACCTGATCGAATGTGCCGCGCTGCTCGACTGCGTGCGGCGCGGCGAGCTGGATGCCCTGGCGATCCCTCGGGCCCCGCTGGATGTGCTGGCCCAGCAGATCGTCGCCGAAGTGGCCTGCCAGGAATGGTCGGAGGACGCGCTCTTCGCCCTGTTCCGCCGCGCCGCGCCCTATGCCGAACTGCGCCGCGAGGACTACCAGGCCGTGCTGCGCATGCTCGCCGAGGGCTACAGCAGTCGCCACGGCGCACGCGGCGCCTACATCCACCGCGACACGGTGAACCGCACCCTGCGCGGGCGCCGCAATGGCCGGCTGACCGCCGTCACCTCCGGTGGGACCATCCCGGACAACGCCGACTATGCGGTGATCCTCGAACCCCAGGCGCACAACATCGGCACGGTGAACGAAGACTTCGCCGTGGAAAGCCTGGCCGGGGACGTCTTCCAACTGGGCAATGCCTCCTACCGCATCCTGCGCATCGAGCCGGGACGGGTGCGGGTCGAGGACGCCCAGGGCCAGCCGCCGAACATTCCCTTCTGGCTCGGCGAGGCGCCGGGGCGCAGCGACGAGCTGTCGGCAGGAGTGGCGCGCCTGCGCGAGCGGATCGACGAGCTGCTGGCGAGTGGGGGCGCATTCATTCGCGACAAGGAGTATTCGGTCGAGTCCGCATCGCGAATGAATTCGCTCCCACAGACCATGGGCCCGGACAACCCCTTGCAACCCGCCCTCGACTGGTTGACCGGCGAACTCGGCCTGGATGAGGCCGCCGCCCGCCAGATCGTCGAATACCTCGCCCGTGCCCGAGCCGCCCTGGGCGTGCTGCCGAGCCAGCGGACCCTGGTGATGGAGCGCTTCTTCGACGAGTCCGGCGGCACCCAACTGGTGATCCACTCGCCCTACGGCAGCCGCCTCAACCGCGCCTGGGGGCTGGCGTTGCGCAAGCGCTTCTGCCGCACCTTCAACTTCGAATTGCAGGCGGCGGCCACCGAGGACGCCATCGTGCTGTCGCTGTCCACCAGTCATAGCTTTCCGCTGGAGGACGTCTGGCGCTACCTGCACGCCAACTCCGCCGAGCATGTGCTGATCCAGGCCCTGCTCGACGCGCCGCTGTTCGGCGTGCGCTGGCGCTGGAACGCCACCACCGCGCTGGCCCTGCCGCGCATGACCGGTGGGCGCAAGGTGGCGCCGCAACTGCAGCGCATGCGCAGCGAAGACCTGTTGGCCACGGTGTTCCCCGACCAGGTGGCGTGCCTGGAGAACATCGTCGGCGAGCGCGAAATTCCCGATCACCCGCTGGTCGCCCAGACCCTCGACGACTGCTTGCACGACGCCATGGACAGCGAGGGCTGGCTGGCCCTGCTGCGGCGCATGGAACGCAGCGAGGTGCGCCTGGTGGCCCGCGACCTGCCGGCGCCGTCGCCGCTGGCGGCGGAAATCCTCAATGCCCGGCCCTATGCCTTCCTCGACGATGCGCCGCTGGAAGAGCGCCGCACCCAGGCGGTGCTCGCTCGCCGCTGGACCGATCCGGAATCGGCCGACGACCTCGGCGCGCTGGACGCCGAGGCCATCGCCGCCGTGGCTGCCGAAGCCTGGCCCGAGGCCCGCGATGCGGACGAAATGCACGAGGCACTGATGGGGCTGGCCTGCATCGCCGAGGTCGAGGCGCAGCGCCAGGACGGTTGGCCGGATTGGCTGGCGGCGCTGGCCGGGGCTGGGCGTGCCACGCGCATGCAGGTGGCGCGCGAGACGGCGCTGTGGTTGCCGGTGGAGCGTCTGCATAGTTTTCGTGCCGTTTATCCGGTGGCGCCGATCGAGCCGACGGTGCAGCCGCCCGCCGAGTTCGCCGAGACGTGGAGCGAGGAGGAGGCGCTGGTCGATATCGTCCGCGCCCGCCTGACCGGCTTCGGCCCGCTGCCGGTGGGCCTGATCGCCCGCGCGCTGGCGTTGCCCGCCTCGCAGGTGGCCCAGGCGCTGGTACGCCTGGAGGCGGAAGGCTACGTGCTGCGTGGCCGTTTCACCCCCGGCGCGACAGAGGACGAATGGTGCGAGCGGCACCTGCTGGCACGCATCCATCGCTACACGGTCAAGCGTTTGCGCCGTGAGATCGAGCCAGTGGAACGGGTGGATTTCCTGCGCTTCCTGTTCGACTGGCAGCGGGTCACGCCGACGACCCGGGTGCAGGGCGCCGAGGCCCTGGCCGGGGTGGTCGGGCAACTGGAAGGCTTCCAGGCCGCGGCCGGGGCCTGGGAGAGCGAGATCCTGCCGGCGCGGGTCAAGGACTACGGCATCACCTGGCTGGACGACCTGTGCCGCTCCGGGCGGGTGGTCTGGCTGCGCCTGGCCGGCCGCCTGCGCGCCAGCGGCGGGCCGGTGCGCGGTACGCCCATCGTGCTGCTGCCGCGTCGCCACCTGGGGGCCTGGAGTGCGTTGGCGGCGGATGCGCCGGCACCGCAACTGTCGTCCCGGGCGCAGTTGGTGCTGGATGCGCTGGGTCGCCACGGTGCGTTGTTCTTCGACGAATTGCTGGATGAGGTGCGCCTGTTGCGCACCGAACTGGAGAACGCCCTCGGCGAGCTGGTGGCGGTTGGGCTGGTGAATGCCGACAGCTTCGCCGGCCTGCGCGCCTTGCTGATGCCGGCGAGCAAGCAGCGGGTGCGTGCCGGGCGGCGGGCACGGGGTGGAGCGTTCATCGGCGGCATGGCCGATGCCGGACGCTGGGCGCTGATACGGCGCCCCACGGCGGAGCCGGCCGGGCCGGTAGGCGGGCGGCGCCCGGCGCTGGCCGACGAGGCGCTGGAGCATATCGCCCGCTGCCTGTTGCGCCGTTACGGCGTGGTGTTCTGGCGGCTGCTGGAGCGCGAGGCGGACTGGCTGCCGCCCTGGCGCGATCTGCTGCGTGTCTACCATCGCCTGGAAGCCCGCGGCGAGATTCGCGGCGGGCGCTTCGTCAGCGGTCTGGCCGGCGAACAGTTCGCCCTGCCTGAGGCGGTGGGCCTGCTGCGCGACGTGCGCAAGCGCCCGGCGGACGGCAGCCTGGTCTGCGTGTCCGCTGCCGACCCGCTGAACCTGGTAGGCAGCCTGATCCCCGGCACCAAGGTCCCGGCCGTGGCCGGCAACCGGGTGCTCTACCGCGACGGTGTGCCGGCCGCCGCCATCGTGTCCGGCAAGCCGCAGTATTGGCTGGAGCTGGACGCCGACAGCGCCCGCCAGGTCCAGGCGCGGTTGGTGCAGCGGCCTTGA	MSQSTLDTTLADDVLAGFHPAVGAWFRHTFPAPTPAQVAAWPLIRAGRPTLVAAPTGSGKTLTAFLAALDELVREGLARGGTLPDETVVVYVSPLKALSNDIRLNLEAPLEGISAELVRQGLPPLEIRTAVRTGDTPQSERNAMRKRAPHILVTTPESLYVLLGSESGRRMLATTRSLIVDEIHAIAGSKRGSHLALSMERLEALCGRRLVRVGLSATQKPIEAVAAFLVGVRGEEGRSEDVRGEEAESRPNTTPQPPHVQTLSPPWGEGRSEGAESKPNTTPKSLHAPTPCAIVDIGHTRARDLALEVPPVPLEAVMANDVWERVYDRLAELARQHRTTLIFVNTRRMAERAARHLSERLGTEAVAAHHGSLAREQRLDAEQRLKHGKLRVLIATASLELGIDIGDVELVCQLGSPRSIAAFLQRVGRSGHQVGGLPKGRLFPNSRDDLIECAALLDCVRRGELDALAIPRAPLDVLAQQIVAEVACQEWSEDALFALFRRAAPYAELRREDYQAVLRMLAEGYSSRHGARGAYIHRDTVNRTLRGRRNGRLTAVTSGGTIPDNADYAVILEPQAHNIGTVNEDFAVESLAGDVFQLGNASYRILRIEPGRVRVEDAQGQPPNIPFWLGEAPGRSDELSAGVARLRERIDELLASGGAFIRDKEYSVESASRMNSLPQTMGPDNPLQPALDWLTGELGLDEAAARQIVEYLARARAALGVLPSQRTLVMERFFDESGGTQLVIHSPYGSRLNRAWGLALRKRFCRTFNFELQAAATEDAIVLSLSTSHSFPLEDVWRYLHANSAEHVLIQALLDAPLFGVRWRWNATTALALPRMTGGRKVAPQLQRMRSEDLLATVFPDQVACLENIVGEREIPDHPLVAQTLDDCLHDAMDSEGWLALLRRMERSEVRLVARDLPAPSPLAAEILNARPYAFLDDAPLEERRTQAVLARRWTDPESADDLGALDAEAIAAVAAEAWPEARDADEMHEALMGLACIAEVEAQRQDGWPDWLAALAGAGRATRMQVARETALWLPVERLHSFRAVYPVAPIEPTVQPPAEFAETWSEEEALVDIVRARLTGFGPLPVGLIARALALPASQVAQALVRLEAEGYVLRGRFTPGATEDEWCERHLLARIHRYTVKRLRREIEPVERVDFLRFLFDWQRVTPTTRVQGAEALAGVVGQLEGFQAAAGAWESEILPARVKDYGITWLDDLCRSGRVVWLRLAGRLRASGGPVRGTPIVLLPRRHLGAWSALAADAPAPQLSSRAQLVLDALGRHGALFFDELLDEVRLLRTELENALGELVAVGLVNADSFAGLRALLMPASKQRVRAGRRARGGAFIGGMADAGRWALIRRPTAEPAGPVGGRRPALADEALEHIARCLLRRYGVVFWRLLEREADWLPPWRDLLRVYHRLEARGEIRGGRFVSGLAGEQFALPEAVGLLRDVRKRPADGSLVCVSAADPLNLVGSLIPGTKVPAVAGNRVLYRDGVPAAAIVSGKPQYWLELDADSARQVQARLVQRP				NA	NA	NA	NA	NA
BMS010_06715	789	xthA_4	COG0708	Exodeoxyribonuclease III	ATGGACACACTGAAAATCGCCACCTTCAACATCAACGGCATCCGCTCGCGCCTGCCGGCGCTACTGGAATGGCTGGAGCGCGAAGCACCGGACGTGGCCTGCCTGCAAGAGCTGAAGGCACCGGACACGGCATTCCCCATCGACGCCATCCAGGCAGCCGGCTACCGGGCGATCTGGCAGGGCCAGCCGTCTTGGAACGGCGTGGCCATCCTGGCGAAGGGGGCCGAGCCGCTGGAAATCCGTCGCGGACTCCCCGGCATGGAGGACGACAGCCATAGCCGCTACCTGGAAGCGGCCGTGCAAGGTGTGATCGTCGCCAGCCTCTACCTGCCCAACGGCAACCCGCAGCCGGGGCCGAAGTTCGACTACAAGCTGGCCTGGTTCGAGCGCCTGATCGCCCATGCGGCCGGGCTGCTGGAAAGCGGGGATCCGGTGGTGCTGGCCGGCGACTTCAACGTGGTGCCCACCGACGAGGATATCTACAACCCGCGCTCCTGGCTGAAGGACGCCCTGCTCCAGCCGGAAAGCCGCGCCTGTTACCAGCGCCTGCTCGCCCAGGGCTGGACCGACGCGATCCGCGCCCGTTACCCGGACGAGCGCATCTACACCTTCTGGGACTACTTCCGCCAGCACTGGGAGAAGAACTCCGGCCTGCGCATCGACCACCTCCTGCTCAGCCCCGACCTCGCCCCGCGCCTGCGCGATGCCGGCGTCGACCGCTGGGTCCGGGGCCAGCCCCACGCCAGCGACCACGCGCCGACCTGGATCACCCTGGAGCGAAGCCTGTAG	MDTLKIATFNINGIRSRLPALLEWLEREAPDVACLQELKAPDTAFPIDAIQAAGYRAIWQGQPSWNGVAILAKGAEPLEIRRGLPGMEDDSHSRYLEAAVQGVIVASLYLPNGNPQPGPKFDYKLAWFERLIAHAAGLLESGDPVVLAGDFNVVPTDEDIYNPRSWLKDALLQPESRACYQRLLAQGWTDAIRARYPDERIYTFWDYFRQHWEKNSGLRIDHLLLSPDLAPRLRDAGVDRWVRGQPHASDHAPTWITLERSL	PGPT0014910_15	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014910-ligD-K01971	NA	NA
BMS010_06716	945			hypothetical protein	ATGAACAGATTCACGCACTGGCTGCTCGCACTCCCCTTCCTTTTCGCCGGTAGCCTGCAGGCTGCCGAGGATGCCCGCTGCGAACTGGTACGTCTCTCCGACGTGGGCTGGACCGACATCACCATGACCACCGCCGTGGCCCGCCTGGTGCTCGGCGAGATCGGTTACCGCACCCAGATCAAGCGCCTGTCACTGCCGGAAACCTACCGCACCCTCGCCGAAGGCCAGACGGACGTGTTCCTCGGCAACTGGATGCCGGCGCAGAGCGAGCTGGTCCAGCCGCACCTGGACAGCGGCCGCATCGAGAAGCTGCAGACCAACCTGCCGACGGTGCGCTACACCCTGGCCGTACTCACGCCCGGTTATGAGGCCGGACTGCACGATTTCGCCGACATCCACAAGTTCAAGGAGCAGTTGAACGGCCAGATCTTCGGTATCGAGCCCGGCAACGAAGGCAACGCGATGATCAAAGGCATGATCCGCGACAACACCTTCGGCCTGAGCGGCTTCACCCTGGTCGAATCCAGCGAAAGTGGCATGCTCAATCACGTCGAACGTGCCCAGCGCATGGGCAAATGGGCGGTGTTCCTCGGCTGGGAACCGCACCCGATGAACGAACGACTGCGCATGAACTACTTGTCCGGCGGCGACAAGTTTTTCGGCCCCGACTATGGCGCCGCACAGGTCAACACCGTCGCGCGCGGCGGTTTCAGCGACGAATGCCCGAACCTGGCGCGGCTGTTTCGCAACATGACCTTCACCATCCCCGCGGAAAACCAGCTGATGGGCGCGGTGCTGGAAGGCAACACCAACCGGCGCCGGGTAGCCAAGGCCTGGATCGAGGACAACCCGCAGACCATCGCCGCCTGGCTCGACGGCGTGACCCATCGGCAAGGCGGGCCCATCACCGGCATTTTTGGCCTACCTTTGGGTCGAAAGGACTGA	MNRFTHWLLALPFLFAGSLQAAEDARCELVRLSDVGWTDITMTTAVARLVLGEIGYRTQIKRLSLPETYRTLAEGQTDVFLGNWMPAQSELVQPHLDSGRIEKLQTNLPTVRYTLAVLTPGYEAGLHDFADIHKFKEQLNGQIFGIEPGNEGNAMIKGMIRDNTFGLSGFTLVESSESGMLNHVERAQRMGKWAVFLGWEPHPMNERLRMNYLSGGDKFFGPDYGAAQVNTVARGGFSDECPNLARLFRNMTFTIPAENQLMGAVLEGNTNRRRVAKAWIEDNPQTIAAWLDGVTHRQGGPITGIFGLPLGRKD	PGPT0013640_2369	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013640-gbuC|proX-K02002	NA	NA
BMS010_06717	2277			hypothetical protein	ATGGGTGAATACCGCAAACTCTGGGGCCTGCTGATCCTGGTCCTGGGTATCACGTTCTGCCTGCTCGGCTGGTTCGGCCGGGAAGTCTATCGGCAGGCACCGCCGATTCCGCAGCAGGTCATGACGCTTGACGGCGAACGGCTGTTCGGCGCCGACGACATCCTCGACGGCCAGACCGCCTGGCAAAGCGTCGGCGGCATGCAGCTCGGCTCGGTCTGGGGCCATGGCGCCTATCAGGCGCCGGACTGGAGCGCCGACTGGTTGCACCGGGAGCTGGTCACCTGGCTCGACCTGGCCGCCGGCGAAGCCTACGGCAAGCCGTTCGCCGAACTGGACGACGAGGCCCAGGCCCTGCTGCGCCATCGCCTGAAGCGCGAGTACCGCGACAACGACGTCGATGCCGCCGGCAACCTGCTGCTCTCGCCGCGCCGCGTCGAGGCCGTGCGCCAGACCGCCGCTTACTACGACAGCCTGTTCGGCACCACGCCGGACCTGCAAGGCACCCGCGAAAGCTACGCGATGAAGGAGGGCACCCTGCCCGACGCCGCCCGCCGCGAACAACTCACCCGGTTCTTCTTCTGGACCTCGTGGGTCGCCGCCACCGAGCGCCCGGACAGCGACGCCACCTACACCAACAACTGGCCCCACGAGCCGCTGATCGACAACAAGCCCACCGCGGAAAACCTGATGTGGTCGATCGTCAGCGTGGTGCTGCTGATCGCCGGAGTCGGCTTCCTGGTCTGGGCCTGGGCCTTCCTGCGTGGCCAGGAGGAAGAGGAACCGGCCGCACCGGCCCACGATCCGCTCAGCCTGGTCGGCCTGACCCCGTCGCAGAAGGCCCTGGGCAAGTACCTGCTGCTGGTGGTCGGGCTGTTCGTCTTCCAGGTCTGCCTCGGCGGCGCGACCGCCCACTACACGGTGGAAGGCCAGGACTTCTACGGCTTCCCGCTATCCCAGTGGTTCCCCTACTCGCTACTGCGCACCTGGCACATCCAGAGCGCGCTGTTCTGGATCGCCACCGGCTTCCTCGCCGCCGGCCTGTTCCTCGCCCCCATCATCAACGGCGGCAAGGACCCGAAGTACCAGAAGCTCGGCGTGGACGTGCTGTTCTGGGCACTGGTCGCCGTGGTGGTCGGTTCCTTCATCGGCAACTACCTGGCCATCGCCCAGTTGATGCCGGCCGAATGGAATTTCTGGCTCGGCCACCAGGGCTATGAATACGTCGACCTCGGCCGCCTGTGGCAGATCGGCAAGTTCGCCGGCGTCGCCTTCTGGCTGCTGCTGATGCTGCGTGGCATCGTTCCTGCCTTCCGCCAGCCCGGCGACAAGAACCTGCTGGCCCTGCTCTCCGCGTCGGTGATCGCCATCGGCCTGTTCTACGGCGCCGGCTTCGGCTACGGCGAGCGTACTCACCTGTCGGTGATGGAGTACTGGCGCTGGTGGGTGGTGCACTTGTGGGTGGAAGGCTTCTTCGAGGTCTTCGCCACCACCGCCCTGGCCTTCATCTTCTCCAGCATGGGCCTGGTCTCCAAGCGCATGGCCACCACCGCCAGCCTGGCATCGGCCTCGCTGTTCATGCTCGGCGGCGTGCCGGGAACCTTCCACCACCTGTACTTCGCCGGCACCACCACTCCGGTGATGGCAGTGGGCGCCACCTTCAGCGCCCTGGAAGTGGTGCCGCTGATCGTGCTCGGCTACGAGGCCTGGGAGAACTGGCGCCTGAAGAGCCGCGCGGCCTGGATGGAGCGGGTCAAGTGGCCGCTGCTGTGCTTCGTCGCCGTGGCCTTCTGGAACATGCTCGGCGCCGGGGTGTTCGGCTTCATGATCAATCCGCCGATCTCGCTCTACTACGTGCAAGGCCTCAACACCACGCCGGTGCATGCGCATGCCGCGCTGTTCGGGGTCTACGGCTTCCTCGCCCTGGGCTTCACCCTGCTGGTGCTGCGCTACGTCCGCCCACAGATGCAGTTCAACGAACGGCTGATGAAGACCGCCTTCTGGTGGCTCAACGGCGGGCTGGTCCTGATGATCGCCACCAGTCTGCTGCCGATCGGCATCATCCAGTTCCACGCCAGCGCCAGCCAGGGCCTGTGGTATGCCCGCAGCGAGGCCTTCATGCAGCAGGACATCCTGGAAACCCTGCGCTGGGTCCGTACCTTCGGCGACGTGGTGTTCATCGTCGGCGCCCTGGCCATGGCCTGGCAGGTGGTCTCCGGTGTGCTCTTCGGCAGCCGCCAGGAGGAACCGGCAATCCTCGGCGCCAACCAGCGCGCCTGA	MGEYRKLWGLLILVLGITFCLLGWFGREVYRQAPPIPQQVMTLDGERLFGADDILDGQTAWQSVGGMQLGSVWGHGAYQAPDWSADWLHRELVTWLDLAAGEAYGKPFAELDDEAQALLRHRLKREYRDNDVDAAGNLLLSPRRVEAVRQTAAYYDSLFGTTPDLQGTRESYAMKEGTLPDAARREQLTRFFFWTSWVAATERPDSDATYTNNWPHEPLIDNKPTAENLMWSIVSVVLLIAGVGFLVWAWAFLRGQEEEEPAAPAHDPLSLVGLTPSQKALGKYLLLVVGLFVFQVCLGGATAHYTVEGQDFYGFPLSQWFPYSLLRTWHIQSALFWIATGFLAAGLFLAPIINGGKDPKYQKLGVDVLFWALVAVVVGSFIGNYLAIAQLMPAEWNFWLGHQGYEYVDLGRLWQIGKFAGVAFWLLLMLRGIVPAFRQPGDKNLLALLSASVIAIGLFYGAGFGYGERTHLSVMEYWRWWVVHLWVEGFFEVFATTALAFIFSSMGLVSKRMATTASLASASLFMLGGVPGTFHHLYFAGTTTPVMAVGATFSALEVVPLIVLGYEAWENWRLKSRAAWMERVKWPLLCFVAVAFWNMLGAGVFGFMINPPISLYYVQGLNTTPVHAHAALFGVYGFLALGFTLLVLRYVRPQMQFNERLMKTAFWWLNGGLVLMIATSLLPIGIIQFHASASQGLWYARSEAFMQQDILETLRWVRTFGDVVFIVGALAMAWQVVSGVLFGSRQEEPAILGANQRA	PGPT0000350_394	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000350-norB-K04561	NA	NA
BMS010_06718	687	ytfE	COG2846	Iron-sulfur cluster repair protein YtfE	ATGAGCAACGCCCTCCTCGACGAAACCCTGGGCAACCTGGCCTGTGAAATTCCGGGCGCTACCCGGGTATTCCACGAATACAACCTGGACTTCTGCTGCGGCGGCCAGAAGACCCTGCGCGAAGCCGCCGTCCGCCGCGGTGTCGATCCGTCGACCATCGCCGCCCGCCTGGAAGAACTGCAAGCGCAGCCGGGCCAGGGTACCGACTGGCGCAGCGCCGATACCGACAGCCTGATCAGCCACATCCTCTCGCGCTTCCATGCCCGCCATCGCGAACAACTGCCGGAGCTGATCCGTCTGGCCCGCCGGGTCGAGCAGGTGCACGGCCATCGCCGCGACTGCCCGCACGGGCTGGCCGACCACCTGAGCGACATGCACCAGGAGCTGGAGAGCCACATGCTCAAGGAAGAACAGGTGCTCTTCCCCATGCTGCTGCGCGGCCAGGGTGCCTTCACCCAGGGACCGATCTCGGTGATGCGCTTCGAACACGACCAGCACGGCGCCGCCCTGGAGCGCCTGCACGGCCTCACGGCCGGCATCACCCCGCCGGAAGACGCCTGCAACACCTGGATGGCGCTGTACCGCGGGCTGACCGAGCTGCGCAACGATCTGATGCAACACATCCACCTGGAAAACAATGTCCTGTTCGTCCAGGCCCTTGCGCCGCAGGAGGTGCATCATGGGTGA	MSNALLDETLGNLACEIPGATRVFHEYNLDFCCGGQKTLREAAVRRGVDPSTIAARLEELQAQPGQGTDWRSADTDSLISHILSRFHARHREQLPELIRLARRVEQVHGHRRDCPHGLADHLSDMHQELESHMLKEEQVLFPMLLRGQGAFTQGPISVMRFEHDQHGAALERLHGLTAGITPPEDACNTWMALYRGLTELRNDLMQHIHLENNVLFVQALAPQEVHHG	PGPT0012950_585	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012950-ytfE|scdA-K07322	NA	NA
BMS010_06719	1536	norR2_2	COG3604	Nitric oxide reductase transcription regulator NorR2	ATGATGGAAGAAGCTCTGCTGGCCGACTTGATCACCGAATTGCCGAACGCCGTGCGCCTGCAACGGCTGGTGCAGACACTGCGCGAGCATTTTCATTGTGGCGCCGTCGGCCTGCTGCGCCTGGATGACGACAGCCTGCGCCCGGTGGCGGCGGTGGGGCTGGTGCACGAAGCCCTCGGCCGGCGTTTCGTGGTCGCCCAGCATCCGCGCCTGGCGGCGATCCTGGCGCGCCGCGAGCCGACCTGGTTCGAGCCGGACAGCCGCCTGCCCGACCCTTACGACGGCCTGCTCGACGAACACGTCGGCGAACCCCTGCCGGTGCACGATTGCATGGGCGTGAGCCTGTTCGTCGAGGGCCAGTTGTGGGGCGCGCTGACCCTCGATGCGCTGCATGATGGGACCTTCGATGACCAGGCCCGGCGCGATTTGCAGCGATACACGCTGCTGATCGAAGCAGCGGTGCGCATCACCCGTCTGGAGCGGGAGAACCGCAGCCTGCGCCAGGCGCGCAGCGAGGTGGTGGAGATCGAGCATGTCGCCGGGGAAGGCGAGATTCTCGGCCAGAGCAAGGCGATCCGCGACCTGTTGCAGGAACTGGAAGTGGTGGCGGATTCCGAACTGCCGGTGCTGCTGCTCGGCGAGACCGGCGTCGGCAAGGAGCTGTTCGCCCGCTGGCTGCACCGCCACTCGCGGCGCCGGCACAAGCCACTGGTCCACGTGAACTGTGCGGCGCTGCCGGAATCCTTGGCCGAGAGCGAGTTGTTCGGCCATGTGAAGGGTGCGTTCTCCGGCGCCGCCAGCGACCGCCCCGGACGCTTCGAGGCGGCCAATGGCGGCACCCTGTTCCTCGACGAAGTCGGCGAGCTGCCGCTCACGGTGCAGGCCAAGCTGCTGCGCGCCTTGCAGAACGGCGAAATCCAGCGGCTCGGTGCCGACAAGCCGCGCCACGTGGACGTGCGCATCATCGCCGCGACCAACCGCCAGCTCGGCGACAGTGTGCGCGACGGGCATTTCCGCGCCGATCTCTACCACCGGCTCTCGGTCTACCCGGCGCCGATCCCGCCGCTGCGCGAACGCGACAACGACGTGCTGATCCTTGCTGGTCACTTCCTCGAACTCAACCGCGCCCGCCTCGGGTTGCGCAGCGTGCGCCTGTCGCCGGCCGCCGAGCGGGCGCTGCTGGCCTATCCCTGGCCGGGCAACGTGCGCGAGCTGGAACACGTAATCAGCCGTGCCGCGCTCAAGCTGCTCAGCAGTGGCGCGTCGCGCAGCGAAATCCTCACCCTGCCGCCTGAACTGCTCGACCTCGACACCGTGCCGGCCGCCGTGGCGCCCATCGTCGGGGTGGCGGGCGAACGGCCGTCCGCGACGCAGCCGGTGCCGTTGCGCCAGGCCGTGGAGGATTGCCAGCGACAGAGCATCCGCCGTGCTCTGGAGCTTTGCGACGACAACTGGGCCAGCGCCGCCCGCCTGCTCGACCTGGACCCGAGCAACCTGCACAAACTGGCGAAGCGGCTGGGGGTGAAGCAGAGGTGA	MMEEALLADLITELPNAVRLQRLVQTLREHFHCGAVGLLRLDDDSLRPVAAVGLVHEALGRRFVVAQHPRLAAILARREPTWFEPDSRLPDPYDGLLDEHVGEPLPVHDCMGVSLFVEGQLWGALTLDALHDGTFDDQARRDLQRYTLLIEAAVRITRLERENRSLRQARSEVVEIEHVAGEGEILGQSKAIRDLLQELEVVADSELPVLLLGETGVGKELFARWLHRHSRRRHKPLVHVNCAALPESLAESELFGHVKGAFSGAASDRPGRFEAANGGTLFLDEVGELPLTVQAKLLRALQNGEIQRLGADKPRHVDVRIIAATNRQLGDSVRDGHFRADLYHRLSVYPAPIPPLRERDNDVLILAGHFLELNRARLGLRSVRLSPAAERALLAYPWPGNVRELEHVISRAALKLLSSGASRSEILTLPPELLDLDTVPAAVAPIVGVAGERPSATQPVPLRQAVEDCQRQSIRRALELCDDNWASAARLLDLDPSNLHKLAKRLGVKQR	PGPT0000375_483	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0000375-norR-K12266	NA	NA
BMS010_06720	555	moaB_2	COG0521	Molybdenum cofactor biosynthesis protein B	ATGGCTCACCTGGCCCGGCAGGACTTCCAGTCGCTGCGCATCGCCGTGCTGACCGTCAGCGACACCCGTACCTTCGCCACCGACACGTCCGGACAGACCCTGATCGATCTGCTGGAGCAAGACGGCCACGCCCTGGCCGAACGCGATCTGGTCATCGACGACATCTACCGCATCCGCGCCCGACTCTCGCAGTGGATCGCCGATCCGCTGGTGCAGGTGGTGTTGATCACCGGCGGGACCGGCTTCACCGCGCGGGACAACACGCCGCAGGCGGTGGAGCCACTGCTGGACAAGCGCGTCGAAGGTTTCGGCGAGCTGTTCCGGCAGATTTCCACCGACGAGATTGGCACCTCCAGCCTGCAATCGCGGGCGCTCGCCGGGATGGCCAACGGCACCCTGGTCTGCTGCCTGCCGGGCTCGCCGGGCGCTTGCCGCACCGGCTGGACCGGCATCCTCCGCCAGCAACTGGACAGCCGCACCCGGCCCTGCAACTTCGTGCCGCATCTCAAGGCGTTGCCGGAGCAGCTGACGGTCGCCTGCGGGAGCCGGTCATGA	MAHLARQDFQSLRIAVLTVSDTRTFATDTSGQTLIDLLEQDGHALAERDLVIDDIYRIRARLSQWIADPLVQVVLITGGTGFTARDNTPQAVEPLLDKRVEGFGELFRQISTDEIGTSSLQSRALAGMANGTLVCCLPGSPGACRTGWTGILRQQLDSRTRPCNFVPHLKALPEQLTVACGSRS	PGPT0008420_286	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008420-moaB-K03638	NA	NA
BMS010_06721	1239	moeA_1	COG0303	Molybdopterin molybdenumtransferase	ATGAGCGCCTGCGGCTGCGACGGCGGCGAGCTGCGGCCGGTCGACGAAGCCATCGAACACCTGCTTGGGCGCGTATCGGGGCCGCCGCCCATTGAGCGTGTGGCGTTGGCCGATGCGCTGGACCGGGTCCTGGCCGAACCGATCCTGGCGCCGGCCGACGTGCCGGCCTGGAACAACAGCGCCATGGACGGCTACGCCCTGCGCGCCGCCGATCTGCCACCCCAGGGTGGCCGGTTGCCGCTGGCCGGACGGGTTGCGGCCGGCGATGCGGGCCTGACGCCGTTGCCGGCGGGCCATGCCGTGCGCATTTTCACCGGCGCGCCCTTGCCACCGGGAGCGGACAGCGTGGTGCCGCAGGAGCACTGCCGGGCTGAGGCGGAGGCCGTCTGGCTGCCTCCGGTGCGGCGCGGCGCCCATGTGCGCCCTCAGGGCGAGGAGTTGCGGCGGGGCCAGCCGGTACTGGACGCCGGCCATCGCCTGCGGCCGCAAGAGCTGGGGCTGCTGGCCAGCCTGGGGCAGGCCGAGGTACCGGTCTACCGGCGCCTGCGCGTCGGCCTGCTGAGCAGCGGCGACGAGCTGCGCGAACCGGGCGAGCCGCTGGGGCCGGGGCAGATCTACAACGCCAATCGCTTCAGCCTGGGCGCGGTGCTGCAAGGGTTCGGCGTCGAGGTGGAAGACTATGGGGTGATGGTCGACGAACTGGCCGCCAGCCGCGATGCCCTGAGCCTGGCGGCATCCGAGTGGGACCTGCTGATCACCTCGGGCGGGGTGTCGGTGGGCGAGGAAGATCACCTCAAGCAGGCGATTCGCGAGTTGGGTCAGCTGCACCTCTGGCGCCTGGCGATCCAGCCGGGCAAGCCACTGGCCTTCGGCGAAGTGAGCGGCAAGCCCTGGCTGGGGCTGCCGGGCAACCCGGCGGCGGCGTTGATCACTGCCCTGGTGGTGGCGCGGCCGTTCCTGTTGCGCGCCCAGGGCCAGCGGAATGTGCTGCCCAAGGCCATGCCGTTGCCCGCTGGATTCGACTGGCCGGAGCCGCGTCCGCGTCGCCAGTACCTGCGCGCCCGCTTGGAGCGCGGCGATCACGGACGGCTGGAGGTGATCCCGCATCCGCAGCAGGGCTCGGCGATGCTCACCGCCGCGAGCTGGGCCGATGGCCTGGCGGTGGTGGAGCTGGGCGCCACCCTGGCCCGGGGCGAGACGGTGGCGTTCCTGCCGTTCGATGGGTTGTTGCGGGGATAG	MSACGCDGGELRPVDEAIEHLLGRVSGPPPIERVALADALDRVLAEPILAPADVPAWNNSAMDGYALRAADLPPQGGRLPLAGRVAAGDAGLTPLPAGHAVRIFTGAPLPPGADSVVPQEHCRAEAEAVWLPPVRRGAHVRPQGEELRRGQPVLDAGHRLRPQELGLLASLGQAEVPVYRRLRVGLLSSGDELREPGEPLGPGQIYNANRFSLGAVLQGFGVEVEDYGVMVDELAASRDALSLAASEWDLLITSGGVSVGEEDHLKQAIRELGQLHLWRLAIQPGKPLAFGEVSGKPWLGLPGNPAAALITALVVARPFLLRAQGQRNVLPKAMPLPAGFDWPEPRPRRQYLRARLERGDHGRLEVIPHPQQGSAMLTAASWADGLAVVELGATLARGETVAFLPFDGLLRG	PGPT0008430_3514	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750	NA	NA
BMS010_06722	987	ynfM		Inner membrane transport protein YnfM	TTGCGGTCTGCCCTGTTGGTATCCGGGGCCCTGGCGGAAAGCTGGGGGCGCAAGCCGGTGATGGTGGCGGCCCTGGGATTGGCCAGCGTGCTCGGCATCGCCTGTGCGCTGGTGGAGTCCTGGCATCTGCTGCTGGTGCTGCGTGCGGCGCTCGGGTTGGCACTGAGCGGGTTGCCAGCGCTGGCCATGGCCTATGTCGGAGAAGAGTTCGACCCGGAAGCGCTGCCGGCGGCGATGGGGCTGTACATCGGCGGCACCGCGCTGGGCGGGCTGCTCGGCCGTCTGCTCGCCGGTCTGCTCAGCGACCTCGGCGGCTGGCAACTGGCCCTCGGCGGCATCGCCGCGGTGGGGCTGGCGGCCCTGGCGCTGTTCGCCTGGCTGTTGCCGCCGTCGCGGCATTTCAAGGCCCACCCGTTGTCCCTCGGCGGGCTGCTCGGCAACTTCCGGGCTCACCTGGGCAATGCGGACCTGCGCGGCCTGTTCCTGCTGGCGTTCCTGCTCATGGGCGGTTTCGTCGCGCTGTTCAACTACGTCGGTTTCCGCCTCGCCGGGCCACCGTTCGGCCTGTCTTCGACGGTGATCGGCCTGCTCTTCACCGTCTACCTGGTGGGCATCCTCAGCGCCGGTTGGGCTGGGCGCTTGGTGCCGCGCTTCGGCGCCCGGCGGGTGATGCTCGGTGGTATCGGCATCATGCTGTCTGGCGTGGCGCTCTGCGCGCTGCCCTGGCTGAGCGCCGCGGTGATCGGCCTGGCGCTGGTCACCCTGGGCTTTTTCGCCGCCCACGCGGTGGCCAGCGGGCAGGTTGGCCAGCGCGCCCAGGGAGCCAAGGCGCAGGCGTCGGCGCTCTACCTGTGCGCCTATTACCTGGGCTCCAGTCTGGTGGGTTATGCAGGCGGCTATGTCTGGGAGCACGCCGGCTGGCTGCCGCTGCTCGGCCTGCTGGCCGCCGTCTTCGTGCTCGCGGCGTGGCGTGCGCGGCGCCTGTAG	MRSALLVSGALAESWGRKPVMVAALGLASVLGIACALVESWHLLLVLRAALGLALSGLPALAMAYVGEEFDPEALPAAMGLYIGGTALGGLLGRLLAGLLSDLGGWQLALGGIAAVGLAALALFAWLLPPSRHFKAHPLSLGGLLGNFRAHLGNADLRGLFLLAFLLMGGFVALFNYVGFRLAGPPFGLSSTVIGLLFTVYLVGILSAGWAGRLVPRFGARRVMLGGIGIMLSGVALCALPWLSAAVIGLALVTLGFFAAHAVASGQVGQRAQGAKAQASALYLCAYYLGSSLVGYAGGYVWEHAGWLPLLGLLAAVFVLAAWRARRL	PGPT0017201_1736	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_OTHER_SUGAR_TRANSPORT_RELATED_PROTEINS,PGPT0017201-ynfM-K08224	NA	NA
BMS010_06723	1635			hypothetical protein	ATGATCCGCCTGCTTTGTGCCCTTTTGCTCAGCCTGCTCGCCTTGCAGGCCGGCGCCGCGGGCTTCTCCGCCAGCGTCGACCGCACGCGCCTGAGCGAAGGCGAAACCGTCGAACTGATCCTGGAGTCGACCGACGCCACGCTGTTCGGCAAGCCCGACCTGAGCCCGCTCGAAGAACGCTTCGACGTGCTCGGCACGCGCCAGGTCAACCGGCTCACCACGCTCAACGGCGAAGCCCGCGCCACCACCCGCTGGATCGTCACCCTGCAGCCGAAACAGAGCGGTGAAGTGCAAGTCCCGCCCCTGCGCCTGGCCGACGCCGAGACCCAGCCCATTACCCTCCACGTCCAGCCCAGCGGCAGCGCGGATACCGCCCAGTTGGCCCCGGTGTTCATTGATGCCAGCCTGGACCAGGACAGCATCTACGTGCAGGCACAGGCGGTACTGACCCTGCGCATCTACCATTCGGTCTCGCTCTACGACGACAGCAGCCTGACCCCGCTGCAGATGCCCGACGCCCGCATCGAGCCGCTGGGCGAACCGCGTACCTACGAGAAGACCATCAACGGCGTGCGCCACGGCGTCATCGAACTGCGCTACGCCATCTTCCCGCAGCGCAGCGGCGAGATAACCATCCCCGCGCAGACCTTCAGCGCCACCCTGGTGGACCGCTCGCAGCGCGACGACTTCCTGCCCTTCGGCCCGCGACCGGGCAAGCTGACCCGGGTGAAATCGCCGGAGATTCCGCTGGAGGTCAAACCGATCCCGGCCGGCTACCCCAACGACGCGCCCTGGCTGCCGGCTCGTTCCGTGGGTCTTGCCGAGTCCTGGAACCCTGACCCCAGCCACGCCATGGTCGGCGACTCGCTGACCCGCAGCCTGATCCTCAAGGCCGAGGGCCTGTCCAGTGCCCAGTTGCCGCCGATCCGCACTGGCCAGGTGGAGGGCCTGCGGCGCTACCCCGACCAGCCGCAACTGTCCTCGACGGCGGGCGAAAGGGGCCTGACCGGTAGCCGGGAGGAGCGCGAAGCACTGGTGCCCACCCGCGCCGGGCGCATCGAGTTGCCGCCGGTGGAAGTCGTCTGGTGGAACACCCGTGAAGACCGCCTCGAACGCACCCAACTGCCCGGCCGCAACCTGGAAGTGGCGGCCAACCCTAGCCTGGAAATGGACAGCCCGCGTGGTGCGGAGCCCAGCCCGATCCTCGTCGAAGGACCGGCCGTATGGCCGTGGCAGCTCGCCACCGCACTGCTGGCCGGTACCACCCTGCTCGGCTTCGGACTCTGGTGGCGCGCCCGCCGACAGCCGGCGATCCCACCCAGCGCACAGAGCGGCCCGAGCCCACGCACGCTGCTCGACGACCTGAGGCGCGCCTGCCTGGCCAACGATCCCCAGGCGACCCGCCAGGCCCTCGACGCCTGGGCCCGCCAGCAGCCGGAGACCCTGGCCGACATGGCGGCGCGTTTCGTACCCCTATCGGATGCCCTGGATGGCCTGAACGGCGCGCTCTACAGCGAGAGCGGCCAGCACTGGCAGGGCGAGGACCTGTGGAAAGCGATCCGCGCCCTGCCCGCCGCCGAAGCGCCCAGCGGCCCGCAGGAACCGAGCCCGCTGCCGCCGCTGTATCCGCGCTGA	MIRLLCALLLSLLALQAGAAGFSASVDRTRLSEGETVELILESTDATLFGKPDLSPLEERFDVLGTRQVNRLTTLNGEARATTRWIVTLQPKQSGEVQVPPLRLADAETQPITLHVQPSGSADTAQLAPVFIDASLDQDSIYVQAQAVLTLRIYHSVSLYDDSSLTPLQMPDARIEPLGEPRTYEKTINGVRHGVIELRYAIFPQRSGEITIPAQTFSATLVDRSQRDDFLPFGPRPGKLTRVKSPEIPLEVKPIPAGYPNDAPWLPARSVGLAESWNPDPSHAMVGDSLTRSLILKAEGLSSAQLPPIRTGQVEGLRRYPDQPQLSSTAGERGLTGSREEREALVPTRAGRIELPPVEVVWWNTREDRLERTQLPGRNLEVAANPSLEMDSPRGAEPSPILVEGPAVWPWQLATALLAGTTLLGFGLWWRARRQPAIPPSAQSGPSPRTLLDDLRRACLANDPQATRQALDAWARQQPETLADMAARFVPLSDALDGLNGALYSESGQHWQGEDLWKAIRALPAAEAPSGPQEPSPLPPLYPR				NA	NA	NA	NA	NA
BMS010_06724	1761			hypothetical protein	ATGATCGCGCTCTGGCCTCACTGGCTGCGCCCTTACTGGCTGGTCCTGCTGCCATTGCTCGGCTGGCTGCTCTGGCAGCTCTGGCACCGCGAACGGCGTAGCGGACACTGGCAACTGCTGCTGCCGCCCGCCTTTCATGCGGTACTGCTGTCCGGTGGCCGCGGGCGCGGCAGCCGGCTGCCCTGGATCGCCCTCGGCCTGGCCTGGCTGCTCGCCCTCCTGGCACTGCTCGGGCCGAGCTGGCAGCGCGTCGAGCAACCCGCGCAGAAACGTGCCGACCCGCTGGTGATCCTGCTCGAACTGACGCCCGCGATGCTCGCCACCGATGCCGCGCCAAACCGCCTGGAACAGGCCAAGCGCAAGCTCCTCGACCTGCTGGAAGCACGTCGAGACGCACAAACGGCCATCGTCGTCTTCGCCGGCAGCGCCCACACGCTGGTCCCGCTCTCCGATGACCTCGCCACCACCCGCAACCTGCTGGAGTCGCTCAAGCCGTCGATCATGCCGGTGCCAGGGCGGCGCGCCGACCTCGCCGTGGAAAAGGCGTTGGCCCTGCTCCAGCAAGGCGCCCAGGGCAACGGCCAGATACTGCTGATCGGCTCGGAACTCGACGAACAGGAACGCCAGGGCATCCGTCGCGTCCTCGAGCAGGGTGAGCGCCTGCGTATCCTCGGCATCGGCACACCCCAGGGTGCCCCCATCGCCGCCGAGAACGGCGGGTTCCTCAAGGATGCCCAGGGCGCGATCCTCCTGCCGCGCCTGGACAGCGCCGGACTCAGGCGCTTCGCCGACGAACTGGGTGGCAGCTACCGGCAGGCGCGCCTGGACGACAGCGACCTGCGCGCCCTCGGCCTGCTCGATGGCCCGCAAAGCCTGCGCAGCGACGGCGAACCGACCCGCCTGCAAGCCTGGGCCGACCAGGGCTACTGGCTGCTACTGCCGCTCCTGCTGATCGCCGCCTGCGCCGGCCGTCGTGGCTGGCTGTTCTGCCTGCCGCTGCTGATGCTCAGCCTGCCGCAACCCGGCTATGCCTTCGATTTCGACGACCTCTGGCTGCGCCGCGACCAACAGGGCCAGCGCCTGCTCGACGCACAGCGCCCGGCCGAGGCCGCCCAGCGCTTCGAAGACCCGCGCCGCCAGGGCCAGGCGCTCTATCAAGCCGGCGACTACGCCGGCGCCGCCGAACGCTTCGCCCAGGGCGATAGCGCTGCCGATCAATACAACCGCGGCAATGCCCTGGCCCGCAGCGGTGAACTGGAAGCCGCGCTGGATGCCTATGATCAGGCCCTGGAGCGTCAACCGGACCTGGAGCCGGCGCGCAAGAACAAGGCGCTGGTGGAAGAGTTGCTGCGCCAACAGAAGCAAAAACAGCAGCAACAAGGACAGGACGCGCAGCAGAACGGCGATTCCAATCAAGGGCAATCCTCCCCACAGAGCGCCGGCGACAGCCAGAACGGCAATGAGGGAGAGAAACAACAAGCCGGCAACGAACCGCAGAACGGCGAGAAGAAGGACAACGGGAATACCGGCGAGCAAAAGCCTTCGGAGCAACAGGCCGGCCAGCCGCAAGGCAACGGCCAGGAAAACGGCGACGGCGATCCCGCCAAGGCCAGCCAGGCCGAAGAAGCCCTCGACTCGCTCGACACCGAGCGCCGCCAGGCCCTGGAACAATGGCTGCGACAGATCCCCGACGACCCGGGCGAGCTGCTGCGGCGCAAATTCTGGTATGAACAGCAACAGCGTCAGGAACAGAACCGATGA	MIALWPHWLRPYWLVLLPLLGWLLWQLWHRERRSGHWQLLLPPAFHAVLLSGGRGRGSRLPWIALGLAWLLALLALLGPSWQRVEQPAQKRADPLVILLELTPAMLATDAAPNRLEQAKRKLLDLLEARRDAQTAIVVFAGSAHTLVPLSDDLATTRNLLESLKPSIMPVPGRRADLAVEKALALLQQGAQGNGQILLIGSELDEQERQGIRRVLEQGERLRILGIGTPQGAPIAAENGGFLKDAQGAILLPRLDSAGLRRFADELGGSYRQARLDDSDLRALGLLDGPQSLRSDGEPTRLQAWADQGYWLLLPLLLIAACAGRRGWLFCLPLLMLSLPQPGYAFDFDDLWLRRDQQGQRLLDAQRPAEAAQRFEDPRRQGQALYQAGDYAGAAERFAQGDSAADQYNRGNALARSGELEAALDAYDQALERQPDLEPARKNKALVEELLRQQKQKQQQQGQDAQQNGDSNQGQSSPQSAGDSQNGNEGEKQQAGNEPQNGEKKDNGNTGEQKPSEQQAGQPQGNGQENGDGDPAKASQAEEALDSLDTERRQALEQWLRQIPDDPGELLRRKFWYEQQQRQEQNR	PGPT0014015_1930	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0014015-yfbK-K07114	NA	NA
BMS010_06725	1020			hypothetical protein	ATGTTTGAGTTCGCCTGGCCCTGGGTCTTCCTGCTCGCCCCGCTGCCCTGGCTGCTGCGCATCCTGCTGCCGGTGGCCGACAGCGGCGAAGCGGCACTGAAGGTCGCCTACCTCGACGAGCTGGAAGGGCTGGCCGGCCGTCGCGCCCGCGCCAACCTGCCGGCCTGGCGCCAGCAGGCGCCCTTCGCCCTGCTCTGGCTGCTCCTCCTGCTCGCCGCGGCCCGCCCCGAGTGGGTCGGCGAGCCGCTGCCGCTGCCGGCCAGCGGGCGCGACCTGCTGCTGGCGGTGGACGTGTCCGGCTCCATGGACTACGCCGACATGGAGTGGGAAGGCACCGAAGTCAGCCGCCTCACCCTGGTCAAGCACCTGCTCGGCGACTTCATCGAGGATCGCCGCGGCGACCGCGTCGGCCTCATCCTGTTCGGCAGCCAGGCCTACCTGCAATCGCCGCTGACCTTCGACCGCGCCACCGTACGCACCTGGCTCGACGAGGCTCTGATCGGTATCGCCGGCAAGAACACCGCCATCGGCGACGCCATCGGCCTGGCGGTCAAGCGGCTGCGCGAACGCCCGGCCAACAGTCGCGTTCTGGTGCTGGTCACCGACGGCGCCAACAATGGCGGCCAGATCGAACCGATCACCGCGGCCCGCCTCGCCGCCGAAGCCGGCGTGACCATCTACCCCATCGGCATCGGCGCCGACCCGCAGCAGAGCGGCGCCCTCGGCCTGCTCAGCTTCAACCCCGGCGTCGATCTGGATGAACCGACCCTGCGCGAAATCGCCGAACTGACCGGCGGCACCTACTTCCGCGCACGCTCCAGCGAAGAACTCGAAGCCATCGAAGAAACCCTCGATCGCCTGGAGCCGGTCGCCCAGCAACCCACCCAGGCGCGCCCGGCCCTGGCCCTGTATGCCTGGCCACTGGCCGCCGCCCTGCTGCTCAGCCTGCTGCTGGTCGTCCGCGAACTCTGGCCGCAGGCGCTGCACCGGCCGCCGCGCGGATTCTGGAGGCGTACATGA	MFEFAWPWVFLLAPLPWLLRILLPVADSGEAALKVAYLDELEGLAGRRARANLPAWRQQAPFALLWLLLLLAAARPEWVGEPLPLPASGRDLLLAVDVSGSMDYADMEWEGTEVSRLTLVKHLLGDFIEDRRGDRVGLILFGSQAYLQSPLTFDRATVRTWLDEALIGIAGKNTAIGDAIGLAVKRLRERPANSRVLVLVTDGANNGGQIEPITAARLAAEAGVTIYPIGIGADPQQSGALGLLSFNPGVDLDEPTLREIAELTGGTYFRARSSEELEAIEETLDRLEPVAQQPTQARPALALYAWPLAAALLLSLLLVVRELWPQALHRPPRGFWRRT	PGPT0014015_4876	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0014015-yfbK-K07114	NA	NA
BMS010_06726	495			hypothetical protein	ATGAATCCGCTGGACCAGTTGCAACCGCTGATTCCGCCACCGCCGGTGAGCTGGTGGCCGCCAGCGCCCGGCTGGTGGCTGCTGGCCGTGCTGCTGCCGCTGCTGGTCGCCGGGCTCTGGCGCCTGCGTCGCCGGCTGCCCTGGCCACGCCGCAAGGTCGCCGCCGAACAACCAGTGGACCCACTGCGCCTGGCCGCCCTCGCCGAACTGGCGCAATTGCGCAAACCCTACGACGGCGTGCCGGCCGGTCCCTGGCTGCAACAGCTCAACGCCCTGCTCAAACGCCTCTGCCGGGCCCATTACCCGGACAACCACAGCCACACCCTCAGCGGCCGCAGTTGGCTCGCCTTTCTCGACAGCCGCTGCCCGGCCGCCGGCCTGACGCGCTGGATGATTCTGGTGGAAGGCGCCTACCGCGCCGAATGCCGGCTCGACGACAAGGCCGTGGACGGTCTCAACCAGGCCGTGGACACCTGGATTCGCAAGCATGTTTGA	MNPLDQLQPLIPPPPVSWWPPAPGWWLLAVLLPLLVAGLWRLRRRLPWPRRKVAAEQPVDPLRLAALAELAQLRKPYDGVPAGPWLQQLNALLKRLCRAHYPDNHSHTLSGRSWLAFLDSRCPAAGLTRWMILVEGAYRAECRLDDKAVDGLNQAVDTWIRKHV				NA	NA	NA	NA	NA
BMS010_06727	942			hypothetical protein	ATGCACAGCCTCGCCCCGCAACCCGGCATCTATGCCAGCCTGGCCGAACTGATCGAGATGCGTCACCGCGTGCGCGAGGTGCCACTGTTCTCCACGCCCGGCCGGCGCAGCCCGCTGATCGGCTTGCACCACTCCAAGCTGCGCGGGCGCGGCGTCGACTTCGACCAGGTGCGCGTCTACCAGGCCGGCGACGACGTGCGCAACATCGACTGGCGCGTCACCGCGCGCACCCAGGAACCGCACACCAAGCTGTTCCACGAGGAGCGCGAACGGCCGATCTTCGTCCTCGTCGAACAGAGTCGCCAACTGTTCTTCGGCTCCTCGTTGATGTTCAAGTCGGTGCTCGCCGCCCAGGCCGCCGCGTTCATCGGCTGGGCCGCCCTGGGCCACAACGACCGCATCGGCGGGCTGGTGTTCAGCGACAGCGAACACCACGAAATCAAGCCCCGACGCAGCAAGCAGAGCCTCCTGCAACTGCTCAACCGCCTGGTCCGCGCCAACACCGCCCTGCACACCGAAATCCAGCCCAACCGCGACGCCTTCGCCCTGGCCCTGCGCCGCACCCGCGAAGTGCTGCGCCCCGGCAGCCTGGTGGCGGTGCTGTGCGACGAGCGCACCCTGAACGACAACGCCGAACGCCAGCTCGCCCTGCTGGCGCGGCACATCGACTTACTACTGCTGCCGATCGCCGACCCACTCGACCGTGCCATGCCCGCCGCCGGCCTGTTGCGCTTCGACCAGCGCGGCGCCCTGCTCGAACTGGATACCCACGCCGCCGAACTGCGCCGCACCTACCGCGACCGTGGCGAAGAGCGCGGCGCCCGCTGGCAGCGCCTGGCGCAAAAGCTGCGCGTACCGCTGCTGCCGCTGAGCACGCAATACGAGCTGGTCGATCAGTTGCGCGACCACCTCGCCGTGCAACGCCAGGACATCGCTCCATGA	MHSLAPQPGIYASLAELIEMRHRVREVPLFSTPGRRSPLIGLHHSKLRGRGVDFDQVRVYQAGDDVRNIDWRVTARTQEPHTKLFHEERERPIFVLVEQSRQLFFGSSLMFKSVLAAQAAAFIGWAALGHNDRIGGLVFSDSEHHEIKPRRSKQSLLQLLNRLVRANTALHTEIQPNRDAFALALRRTREVLRPGSLVAVLCDERTLNDNAERQLALLARHIDLLLLPIADPLDRAMPAAGLLRFDQRGALLELDTHAAELRRTYRDRGEERGARWQRLAQKLRVPLLPLSTQYELVDQLRDHLAVQRQDIAP				NA	NA	NA	NA	NA
BMS010_06728	960			hypothetical protein	ATGGAACACCGTGAAGCGCTCGTCGCGCTGCGACACTTTCTTTCAAGCCAGATTCTCGGCCAGGAAAAACTCATCGAACGCCTGCTGATCGCGCTGCTCGCCGACGGCCACCTGCTCGTCGAAGGCGCCCCCGGCCTGGCCAAGACCAAGGCGATCAAGGACTTGGCCGAGGGGCTCGAAGCCGAGTTCCACCGCATCCAGTTCACTCCCGACCTGCTCCCGGCGGACATCACCGGCACCGAGATCTATCGTCCGGAAACCGGCAGCTTCGTGTTCCAGCAGGGGCCGATCTTCCACAACCTGGTGCTGGCCGACGAAATCAACCGCGCACCGGCCAAGGTGCAGTCGGCGCTGCTCGAAGCCATGGCCGAGCGCCAGGTCAGCATCGGCCGCAGCACCTACGAGCTATCGCCGCTGTTCCTGGTCATGGCCACGCAGAACCCCATCGAGCAGGAAGGCACCTACCCGCTGCCGGAGGCCCAGCTCGACCGCTTCCTCATGCACGTCAGGATCGGCTTCCCGGATGCCGGCGTAGAGCGGCGCATCCTCCAGCAGGCCCGCGGCGAGGCGCTCAACGGCGAGACCAAGCCGGAACGCCGCCTGAGCCAGCAGGCGATCTTCGCCGCACGCAAGGAAATCCTCGGCCTGTACATGGCCGACGCGGTGGAGGAGTACTTGGTGCAACTGATCATGGCCACCCGCACGCCGGCCAAGTTCGATCCCGAGATGGCCGAATGGATCGCCTACGGCGCCAGCCCACGCGGCTCCATCGCCCTCGACCGCTGTGCGCGTGCCCATGCCTGGCTGGCCGGGCGCGATTTCGTCAGCCCCGAGGACATCCAGGCGGTGCTGTTCGACGTGCTGCGCCACCGCATCATTCTGTCCTTCGAGGCGGAAGCCGCCGGCATCGACCAGGACCGGGTCATCCAGCGCATCCTCGACGTGGTGGCGGTGGCCTAG	MEHREALVALRHFLSSQILGQEKLIERLLIALLADGHLLVEGAPGLAKTKAIKDLAEGLEAEFHRIQFTPDLLPADITGTEIYRPETGSFVFQQGPIFHNLVLADEINRAPAKVQSALLEAMAERQVSIGRSTYELSPLFLVMATQNPIEQEGTYPLPEAQLDRFLMHVRIGFPDAGVERRILQQARGEALNGETKPERRLSQQAIFAARKEILGLYMADAVEEYLVQLIMATRTPAKFDPEMAEWIAYGASPRGSIALDRCARAHAWLAGRDFVSPEDIQAVLFDVLRHRIILSFEAEAAGIDQDRVIQRILDVVAVA				NA	NA	NA	NA	NA
BMS010_06729	558			hypothetical protein	ATGCGCCACCTCATCGCTGTTTGCTGTGTCCTGTTCAGTGTGCATGTCGCCGCCGAGCCGTGGGAGGAAATGGCCGCCGAAGGCGCGGCGCTGATCCCGCCGTTCCAGCAGCAATTGCTGAAGACGGTGAAGGCTGCCATGGCCAGCGGTGGGCCGGCCAAGGCGGTGGAAGCTTGCCAGTTGCTGGCGCCGGGTATCGCGTCCGCCCATGGGCGCGATGGCTGGACGGTGGGACGGACGGCGTTGAAGGTGCGTAACCCGGACAATGCGCCGGATGCCTGGGAGCGTGCCGTGCTCGAACGCTTCGCTGAGCGGGCGGCGGCCGGTGAGCCGCTGGCGTCGATGCAGCAGGCCGAGGTGGTGGGTGGTGAGGTGCGGTTGATGAAAGCCATTCCCACCGGAGAGCCCTGCCTGGCGTGCCATGGCCGGAAGATCGAGCCGGCCCTGGCAGCGCTGATCGACCAGCGCTACCCGGACGACCAGGCACGCGGCTTTGCCGTGGGCGATCTGCGCGGCGCCTTCACTCTGCGGCGCCCGCTGGAGTCGTCGGTGGAATAG	MRHLIAVCCVLFSVHVAAEPWEEMAAEGAALIPPFQQQLLKTVKAAMASGGPAKAVEACQLLAPGIASAHGRDGWTVGRTALKVRNPDNAPDAWERAVLERFAERAAAGEPLASMQQAEVVGGEVRLMKAIPTGEPCLACHGRKIEPALAALIDQRYPDDQARGFAVGDLRGAFTLRRPLESSVE				NA	NA	NA	NA	NA
BMS010_06730	1197			hypothetical protein	ATGAAAACAACGATGAAACGCCGCTTTACCCTCCTGGCTGCCGGCCTGCTGCTCAGCACGTCGCTGCCCTCCCTTGCCGACGACCTCGGCTACGATCAGACCCACTACGGCGAAGCCACCGGCTACGGTGGCGGCCCCGGCGGGCAGTGCAGTTTCCCGCTGCCGGACGACCTGCCCATCGCCGCCATGAACCACACCGACTACGCCGGTTCCCAAGCGTGCGGCGCCTGCGTCGAAATCACCCGGCCAGAAACCGGCAAGACGGTGATCGCGCGGGTCGACAACCGCTGCCCGGAATGCGCGCCGGGCGACATCGACATGAGCGACCCGGCCTTCCTCCAGATTGGCACCTACCAGGAAGGGCGCTTCCCGATCAGTTGGAAGTACATCCCCTGCTCTTACGCCTCGATGTCGCTGTTCTTCAAGGAAGGCTCCAGCCAGTGGTGGACCGCCGTGCAAGTGCGCGACGCGCGCTACCCGGTGAAGAGCCTGGAGTATCGTCGCAGCAACGGCGACGCGACCTACAAGGCACTGCCGCGGGAGATGTACAACTACTTCCTCGAAGCCGGCGGCATGGGCGAAGGCCCGTATGACTTCCGCATCACCGACGTTTTCGGTCACGTCGTCGAGGCCAAGGGCATCGCCCTGGTGGTGACCACACCCATCGTGCTGAATCAGCAGTTCGAGACCAGTCCGGGGCCCGTCCCGGCGGCCTGCGCCGATGGCATCGACAACGATGGCGACGGCAACACCGATTACCCGGCCGACAGCGGCTGTACCTCCGCCAGCGACGATGACGAAGCCGGCACGGCGGAAGAACCGGCGAAGGCCTGCTTCGACAACATCGATAACGACGGCGACGGCCTGATCGACTACCCCACCGACCTCGGTTGCGACTCGGCGGACGACGACGACGAAAGCGGCCCGACGACCACACCGCCGGCCAGCGAAGCGACTGTTTCCCAGCGCATCGACAACGACTGGGGCAACGGCTACTGCGCCACCGTCACCGTCGCCAACCCCGGCAGCGCTGCGCTGACCTGGAACATCGCACTGAACGTGGAAGGCACTCTCTACACCGCCTGGAACGCCACCTGGAGCCAGGACGGCGCAACCCTGACGGCCTCTGGCGTCAACTGGAACGCCACCCTCGCCGCCGGTGCCAGCACCGAGTTCGGCTACTGCGCCAACCGCTGA	MKTTMKRRFTLLAAGLLLSTSLPSLADDLGYDQTHYGEATGYGGGPGGQCSFPLPDDLPIAAMNHTDYAGSQACGACVEITRPETGKTVIARVDNRCPECAPGDIDMSDPAFLQIGTYQEGRFPISWKYIPCSYASMSLFFKEGSSQWWTAVQVRDARYPVKSLEYRRSNGDATYKALPREMYNYFLEAGGMGEGPYDFRITDVFGHVVEAKGIALVVTTPIVLNQQFETSPGPVPAACADGIDNDGDGNTDYPADSGCTSASDDDEAGTAEEPAKACFDNIDNDGDGLIDYPTDLGCDSADDDDESGPTTTPPASEATVSQRIDNDWGNGYCATVTVANPGSAALTWNIALNVEGTLYTAWNATWSQDGATLTASGVNWNATLAAGASTEFGYCANR				NA	NA	NA	NA	NA
BMS010_06731	4863	gdhB_2	COG2902	NAD-specific glutamate dehydrogenase	ATGGCGTTCTTTACGGCGGCCAGCAAAGCCGACTTCCAGCATCAACTGCAAGCGGCCCTGGCGCAGCACGTCAGCGAGCAGGCACTGCCACAAGTGAGTCTGTTCGCCGAACAATTCTTCGGCATCATCGCCCTCGACGAACTGATTCAGCGCCGGCTGTCCGACCTGGTCGGCTGCACGCTGTCGTCCTGGCGGCTGTTGGAGAACTTCGATCCCGCCAAGCCCGAAGTGCGGGTGTTCAATCCGGATTACGAGAAGCACGGCTGGCAGTCCACCCACACGGCGGTGGAAGTGCTGCATCGCGACCTGCCGTTCCTGGTCGATTCGGTGCGCATGGAGCTGAACCGCCGCGGCTATAGCATCCACACCCTGCAGAACAGCGTGCTCAGCGTGCGCCGCAACGCTGCCGGCGAATTGCTCGAACTGCTGCCCAAGGGCAGTCAGGAAGAGGGCGTGCAGCAGGAAGCGCTGATGTTCCTGGAGATCGACCGCTGCGCCAACGTGGGCGAGCTGCGGGCCCTGGAAAGCGCCTTGCAGGAAGTGCTCGAGGAAGTGCGCTTGGCGGTGACCGACTTCCAGCCGATGAAGGCCAAGGCCCAGGAGCTGCTGGCTGCGCTGGACAAGAGCAAGCTGAAGGTCGACGCCGACGAGCTGGCGGAGGTCAAGGTCTTCCTCGGCTGGCTGCTAGACAACCATTTCACCTTCCTCGGCTATGAGGAATTCACCGTCGCCGAACAGCCCGGCGGCGGCCACATGGTCTACGACGAAAAATCCCTGCTGGGCCTGTCCAGGCGCCTGCGCACCGGGCTCAAGCCGGAAGACCTGCACATCGAGCCGGAAGCCGTGGCCTACCTGCGCGAGCCGCTGCTGCTGTCCTTCGCCAAGGCGGCGGTGCCGAGTCGCGTGCATCGTCCGGCCTACCCGGATTTCGTCTCCATCCGTGAGCTGGACAGCAAGGGCAATGTGGTCAAGGAGTGCCGCTTCATGGGCCTCTACACCTCTTCGGTGTATGCCGAAAGCGTGCATCACATCCCCTACATCCGCCGCAAGGTCGCTGAGATCAAGCGCCGCTCCGGCTTCGAAAGCTCCGCCCACCTGGGCAAGGAGCTGGCCCAGGTGCTGGAAGTGCTGCCGCGCGACGATCTGTTCCAGACTCCGGTGGACGAGCTGTTCAGCACCGCCATTTCCATCGTGCAGATTCAGGAGCGCAACAAGCTGCGCCTGTTCCTGCGCAAGGACCCCTACGGTCGTTTCTGCTACTGCCTGGCCTATGTGCCGCGTGATGTCTATTCCACGGAAATCCGCATAAAGATTCAGCAGGTGCTGATGGAGCGCCTGCAGGCCAGCGATTGCGAGTTCTGGACCTACTTCTCCGAGTCGGTGCTGGCGCGGGTGCAGTTCATCCTGCGGGTGGATCCGAAGAACAAGGTGCAGATCGATCCGCTGCGCCTCGAGCAGGAAGTGATCCAGGCCTGCCGTTCGTGGAAGGACGACTACACCAGCCTGATGGTGGAAAGCTTCGGCGAGGCCCAGGGCACGTCGATCCTGGCCCAGTTCCCGGGCGGTTTCCCGGCCGGCTACCGCGAGCGTTTCGCCCCGCACTCGGCGGTGGTCGACATGCAGCACCTGCTCAGCCTGGGCGACCAGCGCCCGCTGGTGATGAGCTTCTACCAGCCGCTGACGCAGGTCGGCCAGACGCTGCATTGCAAGCTCTACCACGCCGACAGCCCGCTGCCGCTGTCCGACGTGCTGCCGATCCTGGAGAACCTCGGCCTGCGCGTGCTCGGCGAGTTCCCCTATCGCATGCGCCAGCAGAACGGCCGCGAGTTCTGGATTCATGACTTCGCCTTCACCTATGCCGAAGGCGTGGACATCGATATCCAGCAGCTCAACGACACCCTGCAGGATGCCTTCATCCATATCAGCAACGGTGCGGCGGAGAACGATGCCTTCAACCGCCTGGTGCTGACCGCCGGCCTGGCCTGGCGCGACGTGGCGCTGCTGCGTGCCTATGCGCGCTACATGAAGCAGATCCGCCTGGGCTTCGACCTCGGCTATATCGCCAGCACCCTGATCAACCACACCGACATCGCCAAGGAACTGGTGCGTCTGTTCCGCACCCGCTTCTACCTGGCGCGCAAGCTGTCCGCCGAAGACCTGGACGACAAGCAGCAGAAGCTCGAGCAGGCCATCCTCAGCGCCCTGGACAATGTCGCGGTGCTCAACGAAGACCGCATCCTGCGGCGCTACCTGGACCTGATCAAGGCCACCCTGCGTACCAACTTCTACCAGCCGGATGCCAACGGCCAGGCGAAGAGCTACTTCAGCTTCAAGTTCAACCCGCGCGCCATTCCGGAAATGCCGCGTCCGGTGCCGAAGTTCGAAATCTTCGTCTATTCGCCGCGCGTCGAGGGCGTGCACCTGCGTGGCGGCAAGGTCGCCCGTGGCGGCCTGCGCTGGTCCGACCGCGAGGAGGACTACCGCACCGAGGTGCTCGGCCTGGTCAAGGCCCAGCAGGTGAAGAACGCGGTGATCGTGCCGGTCGGCGCCAAGGGCGGCTTCGTGCCGCGTCGCCTGCCCGTCGGTGGTTCGCGTGACGAGGTGCAGGCCGAGGCCATCGCCTGCTATCGCATCTTCATCTCCGGCTTGCTGGATATCACGGACAACCTGAAGGAAGGCGAGGTGGTGCCGCCGGCCAACGTGGTGCGCCACGACGAGGATGACCCCTACCTGGTGGTGGCGGCCGACAAGGGCACCGCGACCTTCTCCGACATCGCCAACGGCATTGCCGCCGAGTACGGCTTCTGGCTGGGCGATGCCTTCGCCTCGGGCGGCTCCGCCGGCTACGACCACAAGGCCATGGGCATCACCGCCAAGGGCGGCTGGGTGTCGGTGCAGCGCCACTTCCGCGAGCGCGGGCTGGACGTGCAGAAGGACAACATCACCGTCATCGGTATCGGCGACATGGCCGGCGACGTGTTCGGCAACGGCCTGCTGCTGTCCGACAAGCTGCAACTGGTGGCTGCCTTCAACCACATGCACATCTTCATCGATCCGAACCCGGATGCGGAGAAGAGCTTCGCCGAGCGCCAGCGCCTGTTCAACCTGCCGCGTTCGTCCTGGACCGACTACGACGCCAAGCTGATTTCCGCCGGTGGCGGGATTTTCCTGCGCAGCGCCAAGAGCATCGCGATCAGCAAGGAGATGAAGGAGCGCTTCGACATCGCTGCCGACAAGCTGACCCCGACCGAGTTGATCAACGCGCTGCTCAAGGCGCCGGTCGACCTGATCTGGAACGGCGGCATCGGTACCTACGTCAAGGCCAGCAGCGAAAGCCACGCCGACATCGGCGACAAGGCCAACGACGCCCTGCGGGTCAATGGTAACGAGTTGCGTGCCAAGGTGGTGGGCGAGGGCGGCAACCTCGGCATGAGCCAACTGGGCCGCGTGGAATATGGCCTCAATGGCGGCGCCAGCAACACCGACTTCATCGACAATGCCGGCGGCGTGGACTGCTCGGACCATGAGGTCAACATCAAGATCCTGCTGAACGAAGTGGTTGCGGCAGGTGACATGACCGAGAAGCAGCGCAACAAGCTGCTGGCCGAGATGACCGATGCCGTGGGTCAACTGGTGCTCAACAACAACTACAAGCAGACCCAGGCGCTGTCCCTGGCGCAACGCCGCGCCCGCGAGCGGATCGGCGAGTATCGCCGCCTGATCGCCGCGCTGGAAGCGGCCGGCAAGCTGGACCGCGCCCTGGAATTCCTGCCCACCGATGAGCAGTTGATCGAGCGCGCCGCCAACGGCCACGGCCTGACCCGTGCCGAACTGTCGGTGCTGATCTCCTACAGCAAGATCGACCTCAAGGAAGCGCTGCTGAAGTCCCAGGTGCCGGACGACGATTACCTCGCCCGCGAGATGCAGACCGCCTTCCCGGCGCTGCTGACCGAGACGTTCGGCGAGGCCATGCGCCGCCATCGCCTGAAGCGCGAGATCGTCAGCACCCAGATCGCCAACGATCTGGTCAACCACATGGGCATCACCTTCGTGCAGCGCCTGAAGGAGTCCACCGGCATGAGCGCCGCCAACGTGGCCGGCGCCTACGTGATCGTGCGCGACATCTTCCACCTGCCGCACTGGTTCCGTCAGATCGAAGCCCTGGATTACCAGGTACCCGCCGAGCTGCAACTGAGCCTGATGGACGAGCTGATGCGCCTGGGCCGTCGCGCGACCCGCTGGTTCCTGCGCAACCGTCGCAACGAACTGGATGCCGCCCGTGACGTCGCCCACTTCGGCCCGCGCATCGCCGCGCTCGGCCTGAAGCTCGACGAACTGCTCGAGGGTCCGACCCGAGAGCTATGGCAGGCGCGCTTCCAGGCTTATGTGGATGCCGGTGTACCGGAGCTGTTGGCGCGTATGGTTGCCGGTACCAGCCACCTGTACACCCTGTTGCCGATTCTCGAAGCGGCGGACCTCACCGGGCAGGACCCGGCCCAGGTCGCGGCGGCCTACTTCGCCGTCGGCGGTGCCCTGGACCTGACCTGGTATCTGCAGCAGATCACCAGTCTGCCGGTGGAGAACAACTGGCAGGCCCTGGCGCGGGAAGCCTTCCGCGACGATCTGGATTGGCAGCAGCGGGCGATCACCGTGTCGGTGTTGCAACTGGCCGATGCCCCGGAAGACATCGAGGAGCGCGTGGCGCTCTGGCTGGAGCAGCACCGTCCGCTGGTCGAGCGCTGGCGCGCCATGCTGGCCGAGCTGCGGGCGGCTACCGGCACCGACTACGCCATGTATGCCGTCGCCAACCGCGAGCTGATGGATCTGGCGCAGAGCGACAAGCAGGGCGTCTGCATTCCCTGA	MAFFTAASKADFQHQLQAALAQHVSEQALPQVSLFAEQFFGIIALDELIQRRLSDLVGCTLSSWRLLENFDPAKPEVRVFNPDYEKHGWQSTHTAVEVLHRDLPFLVDSVRMELNRRGYSIHTLQNSVLSVRRNAAGELLELLPKGSQEEGVQQEALMFLEIDRCANVGELRALESALQEVLEEVRLAVTDFQPMKAKAQELLAALDKSKLKVDADELAEVKVFLGWLLDNHFTFLGYEEFTVAEQPGGGHMVYDEKSLLGLSRRLRTGLKPEDLHIEPEAVAYLREPLLLSFAKAAVPSRVHRPAYPDFVSIRELDSKGNVVKECRFMGLYTSSVYAESVHHIPYIRRKVAEIKRRSGFESSAHLGKELAQVLEVLPRDDLFQTPVDELFSTAISIVQIQERNKLRLFLRKDPYGRFCYCLAYVPRDVYSTEIRIKIQQVLMERLQASDCEFWTYFSESVLARVQFILRVDPKNKVQIDPLRLEQEVIQACRSWKDDYTSLMVESFGEAQGTSILAQFPGGFPAGYRERFAPHSAVVDMQHLLSLGDQRPLVMSFYQPLTQVGQTLHCKLYHADSPLPLSDVLPILENLGLRVLGEFPYRMRQQNGREFWIHDFAFTYAEGVDIDIQQLNDTLQDAFIHISNGAAENDAFNRLVLTAGLAWRDVALLRAYARYMKQIRLGFDLGYIASTLINHTDIAKELVRLFRTRFYLARKLSAEDLDDKQQKLEQAILSALDNVAVLNEDRILRRYLDLIKATLRTNFYQPDANGQAKSYFSFKFNPRAIPEMPRPVPKFEIFVYSPRVEGVHLRGGKVARGGLRWSDREEDYRTEVLGLVKAQQVKNAVIVPVGAKGGFVPRRLPVGGSRDEVQAEAIACYRIFISGLLDITDNLKEGEVVPPANVVRHDEDDPYLVVAADKGTATFSDIANGIAAEYGFWLGDAFASGGSAGYDHKAMGITAKGGWVSVQRHFRERGLDVQKDNITVIGIGDMAGDVFGNGLLLSDKLQLVAAFNHMHIFIDPNPDAEKSFAERQRLFNLPRSSWTDYDAKLISAGGGIFLRSAKSIAISKEMKERFDIAADKLTPTELINALLKAPVDLIWNGGIGTYVKASSESHADIGDKANDALRVNGNELRAKVVGEGGNLGMSQLGRVEYGLNGGASNTDFIDNAGGVDCSDHEVNIKILLNEVVAAGDMTEKQRNKLLAEMTDAVGQLVLNNNYKQTQALSLAQRRARERIGEYRRLIAALEAAGKLDRALEFLPTDEQLIERAANGHGLTRAELSVLISYSKIDLKEALLKSQVPDDDYLAREMQTAFPALLTETFGEAMRRHRLKREIVSTQIANDLVNHMGITFVQRLKESTGMSAANVAGAYVIVRDIFHLPHWFRQIEALDYQVPAELQLSLMDELMRLGRRATRWFLRNRRNELDAARDVAHFGPRIAALGLKLDELLEGPTRELWQARFQAYVDAGVPELLARMVAGTSHLYTLLPILEAADLTGQDPAQVAAAYFAVGGALDLTWYLQQITSLPVENNWQALAREAFRDDLDWQQRAITVSVLQLADAPEDIEERVALWLEQHRPLVERWRAMLAELRAATGTDYAMYAVANRELMDLAQSDKQGVCIP	PGPT0014290_584	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014290-gdhB-K15371	NA	NA
BMS010_06732	1014	menH_4		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGCCACGCTGGCCCCTCTGCCTGATCCCGTTTCTTTGCCTGCCCACCCTGGCGAACGCCGCCCCGACCGCCGAAACACCCAGCTATGGCGAACGGCTGGAGGGGTTCGACTATCCCTTCCCGGTCAAGACCTTTGCCTTCCAGTCCCAGGGCGAAACGCTGGAGATGGCCTACCTGGACGCCCAACCGGAACGCCCCAACGGCCGCACACTCGTGCTGCTGCACGGCAAGAACTTCTGCGCCGCCACCTGGGAAGGCAGCATCCGCGCCCTGACCCGGGCCGGCTACCGCGTGGTGGCGCCGGATCAGGTCGGCTTCTGCAAATCGACCAAGCCGGATCACTACCAGTACAGCTTCCACCAGCTCGCAGCCAACACCCGCGCCCTGCTCGACAGTCTCGGCATCAGCCGTTTCGGCCTGATGGGGCATTCCATGGGCGGCATGCTCGCCACCCGCTATGCCCTGCTCTACCCGGAGCAGGTCGAGCAGCTCATCCTGGTCAATCCGATCGGCCTGGAAGACTGGAAAGCCCTGGGCGTGCCGTACCGCAGTGTCGACGAGTGGTTCCTGCGCGAACAACGGACCAGCGCCGACAGCATCCGCGCCTATCAACGCACCACCTACTACGCCGGCGAATGGAGGCCCGAATTCGAACGCTGGGTCGGCATGCAGGCAGGTCTGTTCAAGGGGCCGGGCAAGGACAAGGTGGCCTGGAACTCGGCGCTGACCTACGACATGGTCTTCACCCAGCCGGTGTTCTACGAATTCGAAGGATTGAAAATGCCGACCCTGCTGCTGATCGGCGAACGCGACAACACGGCCATCGGCAAGGACGCCGCGCCCGAGCCGTTGCGCAAGAAGCTCGGCGATTATCCGCGCCTCGCCCGGGAGGCCGCCCGGCGCATCCCCGGTGCCACCCTGGTGACCTTCGCCGACCTCGGCCATTCGCCGCAGATCCAAGACCCGCAGCGCTTCCACGAAGCCTTGCTGAAGGGATTGGAAAGAGCGCAGTGA	MPRWPLCLIPFLCLPTLANAAPTAETPSYGERLEGFDYPFPVKTFAFQSQGETLEMAYLDAQPERPNGRTLVLLHGKNFCAATWEGSIRALTRAGYRVVAPDQVGFCKSTKPDHYQYSFHQLAANTRALLDSLGISRFGLMGHSMGGMLATRYALLYPEQVEQLILVNPIGLEDWKALGVPYRSVDEWFLREQRTSADSIRAYQRTTYYAGEWRPEFERWVGMQAGLFKGPGKDKVAWNSALTYDMVFTQPVFYEFEGLKMPTLLLIGERDNTAIGKDAAPEPLRKKLGDYPRLAREAARRIPGATLVTFADLGHSPQIQDPQRFHEALLKGLERAQ	PGPT0024360_3	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_LYSOPHOSPHOLIPASE_ACTIVITY,PGPT0024360-PLB-K13333	NA	NA
BMS010_06733	258			hypothetical protein	TTGACACCCGGCGAGGTCAGCCTGCCTCGCCTCTGCCATCACGCCGTCGATCTCGCACGCGGCAAACCCATCTGGCTGAACCATGCCGAACAGGAAGCCTTTCGCTCCCTGGCCGAACTGGGTTACCTGCGTTTCCGCGATCCACAAGGTGGCCAGACGCTCTGCACCTGCCTGCACCCGGCCTTGTTCGAGTTCCACTTCTATTACCGCTGGCTGCCGGAGCATTCGCACCGTTTCAGGCCCCGGCGCGCCACCTGA	MTPGEVSLPRLCHHAVDLARGKPIWLNHAEQEAFRSLAELGYLRFRDPQGGQTLCTCLHPALFEFHFYYRWLPEHSHRFRPRRAT				NA	NA	NA	NA	NA
BMS010_06734	207			hypothetical protein	ATGAAACTGGAAGAACTCTCCCCGGCGCAGTTTGTTGAATACCCCCGCTATATCAGCGTGACGCGCTTCGCAGAACTGATCGGTCTGGGCGAACAGCAGGAGATCGTGGCGACATGGATAGAAAGCGGAAAATTGCCCGTCCGACGCTTCGGCAAGCAGATCCTGGTGGATCTGGAGGAGCTGGAAAGACGCATCCAACAACCTTGA	MKLEELSPAQFVEYPRYISVTRFAELIGLGEQQEIVATWIESGKLPVRRFGKQILVDLEELERRIQQP				NA	NA	NA	NA	NA
BMS010_06735	516			hypothetical protein	ATGAATAAGAAATACTTCATGTTTTCGGCCGGCGAACGCATGCGAGGTCTGCGCGAACTGGCCGGGCTCAGCCGTCGAAAATTCTCCATGGTCGTCGGGATCAAACCGAAGCGGCTGGAAAATATCGAAAACGGCTGGCAGCGCATGCACGACGAGGATTTCCAGAAGGTCTGCAGTGTATTCCCGGAGTTCAGCCGCTGGATTTCCTATGAAGGGCCGCTCGACCCGAAGCCCATGGAGTTGAAGGTGGCCGATTCGGCGCAGAAGGCTGCGGTCTACCTGGTCAATCGCAACCCGGAGCTGCTCGAGGGCAGCGACTTGACCTTCGAGGAGTGGCAGCAGCGTCACGAGAATATCCTCAACGAACTGCAGGAGGCCGAAGCACAGCAGGCAGCCGAAGCACTGCGTGAGGGAGAGGAAGTGCCGGAGGCCAAGCCCAGGAGCAAGGCCAGGGCGAAAAGAGCCAAGGCCCTGGCTGAAGCCCAAGCCAAGGCAAAGGACAGCGAGCCGACGTGA	MNKKYFMFSAGERMRGLRELAGLSRRKFSMVVGIKPKRLENIENGWQRMHDEDFQKVCSVFPEFSRWISYEGPLDPKPMELKVADSAQKAAVYLVNRNPELLEGSDLTFEEWQQRHENILNELQEAEAQQAAEALREGEEVPEAKPRSKARAKRAKALAEAQAKAKDSEPT				NA	NA	NA	NA	NA
BMS010_06736	876			hypothetical protein	ATGAGTCTGCCCGAGCCGATGCCATCCCTGTCCTCTCGCCTTGCCGCACTGACCCAGCGCCTGGGGCTGACCGGCCGTGCGGCACGTCATATCCTGGAACGCGCGCATGCCTTGCGCCTACCGTTCCAGGCCCTGCCGGCCGTCAGCGACAGCATCTGGTGGCAAGCCGGACCGCCCCTGCAATGGCTGGTCGACTTACCGCGCGGTGCCCTCTCCGGCCCGGTTCAGGAAGACAAGGCCCAGGCCCATGCCGTGCTGGTCCGGGTGGTCGAACAGAGCCAAAGCCACCTGGACGCCATCGACCTGCGCCGGATCGACGGCCTCGGCGGCGGCACAGCGGATTCGCCACCCTGCCGCACCCTCGAAGACTACGCTGCGACCCAGGCATGTCGCTGCGTGCGCATCATCAGCTACAAGGATTTCCTGCGCGCCCTCGGCCAGCCGCTGCCCGGTTTCTCGAGCGGCGAACCGATTGCGCTGCGCCAAGCCACCTGGCGGGGGGAACGGTTGTTCTGGGCGGGCGAGCACCATGGCGAAGCCTTCGCCTGCGCCATCGCCTATGCCCGCCGCCGCGGACTGGAGATCAGCCTGCCGGCGGAGCTGACCCGCTATCGCCTCAGCGAAGAAGGATTGGACGCCCTGCGCCTGAACTATCACGCGCTGGCCATGCCGGTTCAGTCCTGGAACGATCCGGGCTTCATGGGACTACTGCTGGATAACGGCCTGCCCTATGCCCGCCTGTCCCTGCTGCGCACCCCGGGAGCCCCCGAAGTGTTGCTGCTGCCCCGGCAGAACCCCGAGGCCAACGCACTGGGCGAAGGACTGCACCTGGCCGGGGCTGCCGATGTGATTGCTTATCTGAAAACGTTGCTCTGA	MSLPEPMPSLSSRLAALTQRLGLTGRAARHILERAHALRLPFQALPAVSDSIWWQAGPPLQWLVDLPRGALSGPVQEDKAQAHAVLVRVVEQSQSHLDAIDLRRIDGLGGGTADSPPCRTLEDYAATQACRCVRIISYKDFLRALGQPLPGFSSGEPIALRQATWRGERLFWAGEHHGEAFACAIAYARRRGLEISLPAELTRYRLSEEGLDALRLNYHALAMPVQSWNDPGFMGLLLDNGLPYARLSLLRTPGAPEVLLLPRQNPEANALGEGLHLAGAADVIAYLKTLL				NA	NA	NA	NA	NA
BMS010_06737	222			hypothetical protein	ATGCCCAGCCTGTTGCTGGATATCGCCTTGTCCGCCGAGCGGCTGCGCGCTGTCTACCAGGGCCATGCCAATCGGGTGCTGCTGCGCAGTCGCGATGGTCGGCGGGTCAGCCTGCCGGCCCATCACCTGCGCCCCTTTCTGACTCACGAAGGCGTCTACGGTTCCTTTGCCCTGGAATTCAACGCCGACGGCGAGCTTCTGGCCCTGCGGCGCCTCGCCTGA	MPSLLLDIALSAERLRAVYQGHANRVLLRSRDGRRVSLPAHHLRPFLTHEGVYGSFALEFNADGELLALRRLA				NA	NA	NA	NA	NA
BMS010_06738	1026	pyrD_2	COG0167	Dihydroorotate dehydrogenase (quinone)	ATGTACAGCCTGGCTCGCGATCTCCTGTTCAAACTGTCCCCGGAAACCTCCCATGAACTGTCCATCGACCTGATCGGGGCCGGCGGACGCCTGGGGTTCAATCGCCTGCTGAGCAAGCCGGTGCCGAGCCTGCCGGTGCGGGTGATGGGCCTGGATTTCCCCAATCCGGTCGGGTTGGCGGCGGGGTTGGACAAGAACGGCGATGCCATCGACGGTTTCGCCCAGCTGGGTTTCGGTTTCATCGAGATCGGCACCGTCACGCCGCGTCCGCAGCCGGGCAACCCGAAGCCGCGCCTGTTCCGCCTGCCGGAGGCCGAGGCGATCATCAATCGCATGGGTTTCAACAACCAGGGTGTCGATCACCTGCTGGCGCGGGTCAAGGCGGCGAAATACAAGGGTGTGCTCGGCATCAACATCGGCAAGAACTTCGACACGCCGGTCGAGCGCGCGGTGGATGACTATCTGCTGTGCCTGGACAAGGTCTACCCGCATGCCAGCTACGTGACGGTGAACGTCAGCTCGCCGAACACCCCCGGCCTGCGCAGCCTGCAGTTCGGCGAGTCGCTGAAGCAACTGCTCGAAGCCCTGCGCCAGCGCCAGGAAGACCTGGCCCAGGTACATGGCCGGCGCGTGCCGCTGGCGATCAAGATCGCACCGGACATGAGCGACGAGGAAACCGTCCAGGTCGCCGAGGCGCTGCGTGATGCCGGCATGGACGCGGTGATCGCCACCAACACTACCTTGGGTCGCGAAGGCGTTCAGGGCATGCTGCATGCCGACGAGGCGGGCGGCTTGTCCGGCGCACCGGTGCGCGACAAGAGCACGCACACGGTCCGGGTGCTGGCCGATGCCCTGGGTGGGCGTTTGCCGATCATCGCCGTGGGCGGCATCACCGAGGGCCGGCATGCGGCGGAGAAGATCGCCGCCGGTGCGAGCCTGGTACAGATTTATTCCGGTTTCATCTACAAGGGGCCGGCGCTGATTCGCGAGGCGGTGGACGCGATTGCGGCGCTGCCGAAGGCGTGA	MYSLARDLLFKLSPETSHELSIDLIGAGGRLGFNRLLSKPVPSLPVRVMGLDFPNPVGLAAGLDKNGDAIDGFAQLGFGFIEIGTVTPRPQPGNPKPRLFRLPEAEAIINRMGFNNQGVDHLLARVKAAKYKGVLGINIGKNFDTPVERAVDDYLLCLDKVYPHASYVTVNVSSPNTPGLRSLQFGESLKQLLEALRQRQEDLAQVHGRRVPLAIKIAPDMSDEETVQVAEALRDAGMDAVIATNTTLGREGVQGMLHADEAGGLSGAPVRDKSTHTVRVLADALGGRLPIIAVGGITEGRHAAEKIAAGASLVQIYSGFIYKGPALIREAVDAIAALPKA	PGPT0021190_2689	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021190-pyrD-K00254	NA	NA
BMS010_06739	216	rmf		Ribosome modulation factor	ATGAGAAGACTTAAGCGTGATCCGTTGGAACGAGCATTTCTGCGCGGCTATCAGCACGGCATCCATGGTAAATCCCGGGATCTTTGTCCTTTCACCCATCCGTCCACCCGCCAAGCCTGGATAAACGGCTGGCGCGAAGGTCGAGGCGACCAGTGGGACGGCCTGACCGGCACGGCCGGCATTCATCGACTCAACGAACTCCACGCCGTAGGCTGA	MRRLKRDPLERAFLRGYQHGIHGKSRDLCPFTHPSTRQAWINGWREGRGDQWDGLTGTAGIHRLNELHAVG				NA	NA	NA	NA	NA
BMS010_06741	2184	rlmL_2	COG0116	Ribosomal RNA large subunit methyltransferase K/L	ATGTCGGATCGTTACGAACTCTTTCTCACCTGCCCCAAGGGCCTGGAAGGCCTGCTGGTCGAGGAAGCCACCGCCCTGGGTCTGGAAGAGGCGCGCGAGCAGAGCGCGGCGATACGGGGATACGCGACGCTGGAGACGGCCTATCGCCTGTGCCTGTGGTCGCGCCTGGCCAACCGGGTACTGCTGATGCTCAAGCGCTTCCCGGTGGAGAACGCTGAGGCGCTTTATCGCGGCGTACTGGCCGTGGACTGGGCCGACCATCTGGAGCCCAGCGGTACGCTGGCGGTGGAGTTCAGCGGGCGCGGCGCGGGCATCGATAACACCCATTTCGGCGCGCTCAAGGTCAAGGACGCCATCGTCGACAAGCTGCGCAGCCTGTCCGGCCAGCGTCCGTCGGTGGACAAGCTGAACCCGGACGTGCGCATCCACCTGCGCCTGGACCGGGGCGAGGCGATCTTGTCCCTCGATCTCTCCGGGCACAGCCTGCACCAGCGTGGCTATCGCCTGCAGCAGGGCGCCGCGCCGCTGAAGGAGAACCTGGCTGCCGCTATTCTGATCCGCGCCGGCTGGCCGCGCATCGCCGCCGCCGGCGGGGCGCTGGCCGACCCCATGTGCGGTGTCGGCACCTTCCTGGTCGAGGCCGGGATGATGGCGGCCGATATCGCACCGAACCTCAAGCGCGAGCACTGGGGCTTTTCCCGCTGGCTCGGCCATGTGCCCGCTATCTGGAAGAAGCTGCACGAAGAGGCCCGTGCCCGTGCCGAGGCCGGTCTCGCCCGGCCGCCGCTGTGGATTCGTGGCTACGAGGCCGACCCGCGCCTGATCGCCCCGGGGCGGAACAACGTCGAGCGTGCCGGGTTGGGCGAGTGGATTCGCATTTACCAAGGCGAACTGGCCACCTTCGAGCCTCGCCCGGATCGCAACCAGACCGGCCTGGTGGTGTGCAACCCGCCCTATGGCGAGCGCCTGGGGGATGAAGCGAGCCTGCTCTATCTCTACCAGAACCTCGGCGAACGCTTGCGCCAGTCCTGCCTGAACTGGGAAGCGGCGGTATTCACCGGCGCGCCCGAGCTGGGCAAGCGCATGGGCATCCGCAGCCACAAGCAATACGCCTTCTGGAACGGCGCGCTGCCGTGCAAGCTGCTGCTGATCAAGGTCCAGCCCGATCAGTTCGTCACCGGCGAGCGGCGCAGCGAAAGCCGCCCGCAGGAGGCCGGTGAGACGGCGCCCAGCGAGCCGGCGCGTCTCAGCGAGGGCGGCCAGATGTTCGCCAATCGGCTGCAGAAGAATCTCAAGCAACTGGGCAAATGGGCCCGGCGTGAAGGAATCGAGTGCTATCGCCTGTATGACGCGGACATGCCGGAATATGCCCTGGCCGTCGATTTGTATCGCGATTGGGTACACGTGCAGGAGTATGCACCGCCGCGCTCCATCGACCCGGAGAAGGCCCAGGCCCGTTTGCTCGACGCCCTCGCCGCCATTCCCCAGGCGCTCGGCATCGATCCAGGCAAGGTGGTGGTGAAGCGCCGCGAGCGGCAGAGCGGCACCCGCCAGTACGAGCGGCAGGCGGCCAAGGGTGAGTTCCTCGAAGTGACGGAGGGCGGCGTGAAGCTGCTGGTCAACCTCACCGATTACCTCGACACCGGCCTGTTCCTCGACCATCGCCCCCTGCGTCTGCGCATCCAGCGCGAAGCGGCGGGCAAGCGCTTCCTCAACCTGTTCTGCTACACCGCCACGGCCACGGTGCATGCGGCCAAGGGCGGCGCGCGCAGCACCACCAGCGTCGACCTGTCGAAGACCTACCTCGACTGGGCGCGACGCAATTTGTCGCTGAACGGTTTTTCCGACAGGCAGCGGCTGGAGCAGGGCGATGTCATGGCCTGGCTGGCGGAGGACCGCGGCGAGTACGACCTGATCTTCATCGATCCGCCGACCTTTTCGAACTCCAAGCGTATGGAAGGCGTGTTCGACGTGCAGCGCGATCACGGGGGGTTGCTCGATCTGGCCATGGCCCGCCTGGCCCGTGGCGGAGTGCTGTATTTCTCCAACAACTTCCGCAAGTTCGAGCTGGACGAAGGCTTGGTGGCCCGCTACGCGGTAGAGGAAATCAGTGCGTCCACGCTGGACCCGGATTTCGCCCGTAACCCGAAGATCCATCGCGCCTGGCGTTTCACGGCGCGCTAG	MSDRYELFLTCPKGLEGLLVEEATALGLEEAREQSAAIRGYATLETAYRLCLWSRLANRVLLMLKRFPVENAEALYRGVLAVDWADHLEPSGTLAVEFSGRGAGIDNTHFGALKVKDAIVDKLRSLSGQRPSVDKLNPDVRIHLRLDRGEAILSLDLSGHSLHQRGYRLQQGAAPLKENLAAAILIRAGWPRIAAAGGALADPMCGVGTFLVEAGMMAADIAPNLKREHWGFSRWLGHVPAIWKKLHEEARARAEAGLARPPLWIRGYEADPRLIAPGRNNVERAGLGEWIRIYQGELATFEPRPDRNQTGLVVCNPPYGERLGDEASLLYLYQNLGERLRQSCLNWEAAVFTGAPELGKRMGIRSHKQYAFWNGALPCKLLLIKVQPDQFVTGERRSESRPQEAGETAPSEPARLSEGGQMFANRLQKNLKQLGKWARREGIECYRLYDADMPEYALAVDLYRDWVHVQEYAPPRSIDPEKAQARLLDALAAIPQALGIDPGKVVVKRRERQSGTRQYERQAAKGEFLEVTEGGVKLLVNLTDYLDTGLFLDHRPLRLRIQREAAGKRFLNLFCYTATATVHAAKGGARSTTSVDLSKTYLDWARRNLSLNGFSDRQRLEQGDVMAWLAEDRGEYDLIFIDPPTFSNSKRMEGVFDVQRDHGGLLDLAMARLARGGVLYFSNNFRKFELDEGLVARYAVEEISASTLDPDFARNPKIHRAWRFTAR				NA	NA	NA	NA	NA
BMS010_06742	2817			hypothetical protein	ATGCCTGTCCTTCCGGCCGTTGGTGAAAAAAACCAGCGTTTCATTCGACGGCCCCGCGCTGCCTGGCTGGTGGCCAGTGTTGCCTTGCTGGGGGGCGCCCTGCTGACCGCCAGCGTCATCGTTGTCACCCAAGACATCCATCAACGCCAGATTCGCCAGCGTTTCGAACTGGTGGCCAGCGAACGCTTCAGTCGCACCCAGGAGCGTTTTGACGATCAGCTCTTGAAGCTGGATAGCCTGCGGCGCTTCATGTTGTACGCGGGCGGGATTGTCCGTGCGGATTTCACCGGTTACGCCAGGCCGTTGCTCAACGGCACGCTGTCCTATTCCTGGGGGCCGCGTGTCCTCGCTGGCGAGCGCGCGGCGTTCGAGAAGCAGGTGCGCGACGAGGGGATTGTCGGGTTCGCCATCGAGGGGCTGGACGAAGCGGGCGCCCGCTATGCCATGCCGGAGCGAGCGGAGTATTTCCCGATTCTGTTCAATACCGCCCGGCGGACGGCTCTTCCGCTCATCGGTGTCGACGTGGCCTCGGAAGCCGCGCGGCGCGCCGTTCTGGAGCGGGCGGTGACGAGCGGCGAGATGGTGGTATCCGACCCGGTTCACCTGGCGCAATCGACGGGGGGCGACCGTTCGGGACTGATCATGTTGGTTGCCCTATACCCGGGGCCGATGCCGCCGGCGACGGCCGAACAGCGTCGCGAACAGTTACGCGGTTTCGTCATGGCGAGCATCAGCCTGGAGCAACTGATGGAGGAAGGGCTGACCGAGGAGAGCAGCCAGCACCTGGCCGCGGAATTGACCGACATGGGCGAGGCTTCGTCACGAAAGGCGCTCTACCGCTCGTCGCAAGAGCCTGCCGACAGCCCGCTGCGGATCAGTCGGACGTTGCGCCTGGCCGACCACTACTACGAACTGAATCTGCGGCCCACGCAGCGCTACCTGTTGGCGAACCAGGCGTCCGGCCTGGGGCTGCTCGCGACGCTGGGGGCCCTGCTGAGCCTGCTGTTCAGTGCTTTCTGCTACAGCCTGGTGAGCCAGCGCCAGCGGGCCCTGGCGCTGGTGGACGAACGCACCGCCGATCTGCGGCTGCGCGAGGAAGAACTGGCGGTCAGCGAGGAGCGCTGGAGCTTCGCCCTGGACGGTGCAGGACATGGTGTCTGGGATTGGAACTTGGACAGCGGCGAAGTGTTCTTTTCGCGCGCCTGGGGGGCGATGCTTGGCTATGCCGAGGGCGAGGTGGAAAACAATCGCCAGGCCTACCTGCGCCTGCTGCATCCCGAGGATGCGTCGGACTGCGAAGCCAGCCTGGCGCGTTACTTTTCCGGCGAGACCTCGTTCTATCAGGACGAGCACCGCATGCTCACCCGGGATGGCCGCTGGCTTTGGGTCCAGGAGCGCGGCAAGGCGGTGGAGCGCGACGAGGAGGGCGCGGTGCGCCGGCTGATCGGCACCCAGACCGATATCAGCGCGCGCAAGACCGCCGAACTGGAACTCGCCCGCGCCAACGCGCAGTTGCGCGGCGTGCTCAATGCCGCGACCCAGGTGGCGATCATCGCGACCGATCTGGAGGGCGTGATCCTCACCTTCAATGTCGGCGCCGAGCGCATGCTGGGGTATCGGGCTCTGGAAATGATCGGCCAGTGGACGCCGGAGCGGCTGTTCCTCGCCGATGAGTTGCAGGCCCGTGGTCTGGAACTGAGCCAGCGCTACGGCCGCACGGTGGTGGGGTTCGAAATCCTGGTGGCGGAAGCCGTCGAGGAGGGTAGTCACGAGGAGCGCGAATGGACCTGGCTGCGGCGCGACGGCAGCCGGCTGGCGGTCAACCTCATCGTCACCGGTGTGCACGATGCGCAGGGCCGCTTGGTCGGCTATCTAGCCATCGCGCTGGATACCACCGAGCGCAAGCGGGTCCGCGAGGCGCTGGAGGCGCGGGACCGTTTGCTGGAGAAACTCACTTCGCGGGTTCCCGGCGTCATCTACCAATATCAGCGCTTTGCGGACGGTCGCGACAGGATGCCCTATGTCAGCGCGGCGGTGCGTACCGTCTACGAGCTGGAGCCCGAACACGCGCGGCAGAACGTGCAGGCGATATTCCGGCGTGTCCATCCCGAGGATCAGGAACGGGTCTATACCTCGATCCTGCGCTCGGCCCGCGACCTGACTCCCTGGCGCGAGGACTACCGGTTGCTGCTGCCGCGCCAGGGCTTGCGCTGGGTACGTGGCGAGTCGGTACCGGAGCGCCAACCGGACGGCTCCACGCTCTGGTATGGCTACATCTCCGACATCACCGGGCTCAAGCTGGTGGAAGAAGAGTTACGGGCGCTCTCCATCACCGATGCGCTCACCGGTACCTACAACCGGCGCTATTTCCAAGAGCGACTGGAAACGGAAATCGCCCGCGCCGAGCGTCAGGAAGGGCCGCTGGCGCTGATCATGCTGGACATCGATCACTTCAAGCAGATCAACGACCGCCATGGGCATGAAGCTGGCGACCGCGTGCTGCGGGAAGTCTGCCGGCGAATCAGCCAGCGTCTACGGCGGATCGACGTGTTCTGCCGGTTGGGCGGGGAGGAGTTCATCGTGCTCTGCCCGGACACCGGCTCCGAGCAGGCCGGCGTGCTCGCCGAGGCGTTGTGGCAGTCGCTGCGGCGCGAACCGGTCGAGGGCATCGGCATCGTGACCGCCAGTTTCGGCATCGCCAACTGGCATGAGGGAGAAGGTGCGGATGCCTTGCTCCGGCGCGTGGATGTGGCGGTGTACCGGGCGAAGCAGAAGGGCCGTGACCGTATCGAGCAGGAGAGCCTGGAGCTGCTCTGA	MPVLPAVGEKNQRFIRRPRAAWLVASVALLGGALLTASVIVVTQDIHQRQIRQRFELVASERFSRTQERFDDQLLKLDSLRRFMLYAGGIVRADFTGYARPLLNGTLSYSWGPRVLAGERAAFEKQVRDEGIVGFAIEGLDEAGARYAMPERAEYFPILFNTARRTALPLIGVDVASEAARRAVLERAVTSGEMVVSDPVHLAQSTGGDRSGLIMLVALYPGPMPPATAEQRREQLRGFVMASISLEQLMEEGLTEESSQHLAAELTDMGEASSRKALYRSSQEPADSPLRISRTLRLADHYYELNLRPTQRYLLANQASGLGLLATLGALLSLLFSAFCYSLVSQRQRALALVDERTADLRLREEELAVSEERWSFALDGAGHGVWDWNLDSGEVFFSRAWGAMLGYAEGEVENNRQAYLRLLHPEDASDCEASLARYFSGETSFYQDEHRMLTRDGRWLWVQERGKAVERDEEGAVRRLIGTQTDISARKTAELELARANAQLRGVLNAATQVAIIATDLEGVILTFNVGAERMLGYRALEMIGQWTPERLFLADELQARGLELSQRYGRTVVGFEILVAEAVEEGSHEEREWTWLRRDGSRLAVNLIVTGVHDAQGRLVGYLAIALDTTERKRVREALEARDRLLEKLTSRVPGVIYQYQRFADGRDRMPYVSAAVRTVYELEPEHARQNVQAIFRRVHPEDQERVYTSILRSARDLTPWREDYRLLLPRQGLRWVRGESVPERQPDGSTLWYGYISDITGLKLVEEELRALSITDALTGTYNRRYFQERLETEIARAERQEGPLALIMLDIDHFKQINDRHGHEAGDRVLREVCRRISQRLRRIDVFCRLGGEEFIVLCPDTGSEQAGVLAEALWQSLRREPVEGIGIVTASFGIANWHEGEGADALLRRVDVAVYRAKQKGRDRIEQESLELL				NA	NA	NA	NA	NA
BMS010_06743	1461			hypothetical protein	ATGATCAAGTCGCTCCGTCCCCTCGTCCTCGCCTGCCTGCTCCCACTGGCCCTGCCGGCCGCCGCCGCGCCGACCACCAGCGCCCTGCCGGCCAACGTGCAGAAGGCCCTGCAAGCCAACAAGCTGACCGCCGATGCGATCTCCGTGGTCATGCTGCCGCTGAATGGTCCCGGTACGGCGACCATCCACAATGCCGACGTGTCGGTGAACCCGGCGTCGACCATGAAGCTGGTCACCACCTATGCCGCGCTGGAGCTGCTGGGGCCCACCTACCAGTGGCAGACCGAGTTCTATGCCGACGGCCCGCTGCAAAACGGCGTGCTGAACGGCAACCTCTACCTCAAGGGCGGTGGCGATCCCAAGCTGAACATGGAGAAGCTCTGGCTGATGATGCGCGACCTGCGCGCCAACGGCGTGCAGAAGGTCACCGGCGACTTGGTGCTCGACCGCAGCCACTTCGTCCAACCGCAGTTGCCGGTCTTCGACGACGATGGCGGCGACGAGAACAAACCCTTCCTGGTGACTCCCGACTCGCTGCTGGTCAATCTCAAGGCGCTACGCTTCATCGCCCGCTCCGAAGGCGGCAAGGTGAACATCGCCGTGGAGCCGCCGATCGCCACGGTCAAGATCGACAACCGGGTCAAGGCCACCGCCGCGGCGAAATGCCCGAGCTGGCCCGACGTCCGCTACAACCCGGTGCAGGAGTTCGACGGCGTCACGGTGATCGCCACCGGCAAGCTGCCGGCCGGCTGCAGCGCCCAGACCTACCTGTCGCTGCTCGACCACCCGGCCTACGCGGCCGGCGCGGTGCGCGCCATCTGGCAGGAACTCGGCGGCAGCATCCTCGGCAAGGATGCCGTCGGCAACGTGCCGAAGAGCGCCCGCCTGCTGTCCCGCGCCTATTCGCCGGACCTGGTGGAAATCATCCGCGACATCAACAAGTACAGTAACAACACCATGGCGCGCCAACTGTTCCTCAGCCTCGGCGCGCAGTTCCGCACCTCGGCCGACCCGGACGACGCCAAGGCCGCGCAGCGGGTGATCCGCCAATGGCTGGCGCGCAAGGGCATCACCGCCCCGCACCTGGTGATGGAGAACGGCTCGGGCCTGTCCCGCGACGAACGGGTCAGCGCACGCGAGATGGCGATCCTGTTGAAGGACGCCTGGAACAGCCCCTACGCCGCCGAGTTCATCTCCTCGATGCCGCTGGCGGCGATGGACGGCACCATGCGCAAGCGCCTGCGGCGTACCGCGCTGGTCGGCGAGGCGCACATCAAGACCGGCACGCTGAACAACGTGCGCGCCATTGCCGGCTACAGCCGCGACATCAACGGCAACACCTGGGCGGTGGTGGCCATCCTCAACCATCCGCGGCCCTGGGGCGCCTCGGCGATTCTCGACCAGGTCCTGGTGGACCTTTACCGGCAACCTAAGATCTCCAGCAACACCGCCCAGCGCTGA	MIKSLRPLVLACLLPLALPAAAAPTTSALPANVQKALQANKLTADAISVVMLPLNGPGTATIHNADVSVNPASTMKLVTTYAALELLGPTYQWQTEFYADGPLQNGVLNGNLYLKGGGDPKLNMEKLWLMMRDLRANGVQKVTGDLVLDRSHFVQPQLPVFDDDGGDENKPFLVTPDSLLVNLKALRFIARSEGGKVNIAVEPPIATVKIDNRVKATAAAKCPSWPDVRYNPVQEFDGVTVIATGKLPAGCSAQTYLSLLDHPAYAAGAVRAIWQELGGSILGKDAVGNVPKSARLLSRAYSPDLVEIIRDINKYSNNTMARQLFLSLGAQFRTSADPDDAKAAQRVIRQWLARKGITAPHLVMENGSGLSRDERVSAREMAILLKDAWNSPYAAEFISSMPLAAMDGTMRKRLRRTALVGEAHIKTGTLNNVRAIAGYSRDINGNTWAVVAILNHPRPWGASAILDQVLVDLYRQPKISSNTAQR	PGPT0024035_1222	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024035-dacB-K07259	NA	NA
BMS010_06744	345		COG3171	putative protein	ATGGCCACCAACCGCTCCCGCCGCCTGCGCAAGAAGCTTTGTGTCGACGAATTCCAGGAACTGGGTTTCGAGTTGACCCTGAATTACAAGGACGGGATGGCGCCCGCCGACCTGGAGGCTTTCCTCGAAGCGTTCCTGCGCCAGGCCATCGAAGGCAACGGGCTGGGCTATGTCGGCGGTGAAGACTATGGCTTCGTCTGCCTGGGCAAGCGTGGTTCGGTCAGCGAAGAGCAGCGGGGCCAGGTCGAGGCCTGGTTGAAGGGCCGCAGTGAATTGGCCGATTTCACCGTCAGCCCGCTGATGGATGTGTGGTACCCGGAAAATCCGATCAACAAGCCGGCGTGA	MATNRSRRLRKKLCVDEFQELGFELTLNYKDGMAPADLEAFLEAFLRQAIEGNGLGYVGGEDYGFVCLGKRGSVSEEQRGQVEAWLKGRSELADFTVSPLMDVWYPENPINKPA				NA	NA	NA	NA	NA
BMS010_06745	3000			hypothetical protein	ATGCCCATGACGGCCCAGCGCGGCGACAGACGCTATCCCCTGCATATCCACATCAGTGTCGTTTTCAGCCTTCTGCTCCTGATTGCCGGTCTCGTGCTGGGCTACTTCAACTACCGGCAAACCACCGAGATCATCTTTTCCAGCAGCGACAAGCTCTTCGAACGCATTCAGGAGGCCGTCCGCCTCGATCTCGAACACACCTACGAGCCCATTCGCCACCTGCTCAGCCTGCTGGCCCTGGGCGAAGCGGCCCAGGTATCCGACCTCGACGCACGCCTGACACTGCTCAAGCCGCTCGCCCAGGCCTTGCGCGACCAACCGAAGCTGGCCTCGATCTACCTGGCCGACGAAGACGGCGACTTCTTCATGCTCCGCCCGCTGCGCACCGATGCCTTACGCGAGCGCTTCGACGCACCCGCCGACGCGGCGTTCCAGGTCTGGTCGATCGAGCGCAGCGGCGACGTCGTCGAGGCCTCGTACCTGTTCTTCGATGGTTCGCTGAACCTGCTCGCGCGGCGCCCACGCTTGCAGGAGACCTTCGACCCGCGCACCCGCCCCTGGTACCGCAACGCCCGCGACGATGGCGGACAGATCACCACCGCACCCTACGTGTTCTTCTCCACCGGCGATGTCGGCACCACCCTGGCCCGGCGTGCCGGCATGCGCGGAGTGATCGCCGCCGACCTGACCCTGGCCGATCTGTCCGCCACCCTGGCCCGGCACCGGGTCACTCCGTCCACGGAGGTCGTGCTGTTCGACCCCCAGGGCAACGCCGTGGCCTATCCAGACGGCAGCCGGCTGGTGGTGGAGAATGGCTCCGTGCACCTGGCACGGGCGGAAGCCTTGAGCCCGGCGCTGACGGCCTTGCTGGCCAGCGACCTGCAAGGGCGCCGCCAGGGGGTGATGACCCTGGCCAAGCGTCGCTGGGTGGTCTCCCGCAGCCACTTGCAGGAAGGCGGTCCGCAGGGCCTGCACCTGGCGCTTCTGGTACCGGAGGACGAACTGCTGGCCGGCGCCTACCGCATCCGCTGGCAGGGCGCGATGATCACCCTGCTGATCCTGCTCCTCTGCCTGCCCCTGGGCTGGCTGGCCTCGCGGCTGGTGGTCGGCCCCCTGGTCGCGCTGATGCGCGAAGCCGAAGCCATCCGCAGCTTCGATTTCAGCTACCCGGCCAGCGGCCGTTCACCGGTGCTGGAGATCGACCGGCTGGCCGTGGCCATGGGGCGGATGAAGGAAACCCTCTCCAGCTTCCTCGAGATCACCGCCAGCCTGTCCGCCGAAACCCGCTTCGATGCCCTGCTCACCCGCGTCCTGCAAGAGACCCTGGACATCAGCGAAGCCAATGGCGGCCTGCTCTACCTGATCGACGACGATGGTCGGCTGGAGCCCCATGGCCTGTTCCTCGACGGCCGTGCCCATGCGCTGGAGACCCACGGCATTCCCGGCTACGCCAGGAACGCCCCCGACCTGCCCCACTGGCTCGGCCAGCCCGCCAGCGGAGGCGACACCGCGGTGGTCTCCCTCGGCTATGACAAGGCCGACGCCTTCCGCAGCCTGCTCAGCAGCCTCGACAGCCCGCGCGTGCATCTGGTCGGCGCCGGCCTGCACAACCGCCAGGGCGATACCGTGGGCGTGCTCGTCCTCCTGCATCGCGACACCGGCAACGAAGCCGACCTGGCAATGCTGCGCCCGGAGCGGATCGCTTTCGTCGAAGCGGTCTCCAGCGTCGCCGCCCTGTGCATCGAGAGCCAGCGCCTGCTGCGTAAACAGAAAGCGCTGCTGGACGCCTTCATCCAGTTGATCGCCGGGGCCATCGACGCCAAGAGCCCCTACACCGGCGGCCACTGCCAGCGCGTGCCGGAACTCACCCTGATGCTCGCCCGCGCCGCGGCGTCCAGCGACGAAGCGCCGTTCCGCCACTACCGGCCCAGCGAAGAGGAATGGGAGGCCCTGCACATCGCCGCCTGGCTGCACGACTGCGGCAAGGTCACCACCCCGGAATACGTGGTAGACAAGGCGACCAAGCTGGAGACGCTGTACGACCGTATCCACGAGATTCGCACCCGCTTCGAAGTGCTCAAGCGCGACGCCTGGATCAGCTACTGGAAAGGCCGCGCCGAAGGCGGCGACGCCGAACGGCTCGGCCAGTGGCGCGACGAACTGCTGGCCACACTGGACGATGAATTCGCCTTCGTCGCCCGCTGCAACCTGGGCGGCGAGGCGATGGACGAGGCGGATCTGCAACGGCTGCGGCAGGTCGCCCAACGCACCTGGACGCGCACGCTCGACGATCGCCTCGGGGTGTCCTGGGAAGAGGCCCGCCGCCTTGCGCGGACGCCGGCCAAGCCGTTGCCGGTGGAGGAGCCATTGCTGGCCGACCGGGAGGATCACCTGATCGAACGGCCCGACAGCGAGCGCATGCCGGACGACAATCCCTGGGGTTTCAAACTGGATGTGCCGGCGTTCAAGTTCAATCGCGGGGAGCTGTACAACCTGTCCGTCGAGCGCGGCACCCTGACGGCGGAAGAGCGCTACATCATCAACCACCACATCGTGCAAACCATCCTGATGCTCGATCGCCTGCCCTTCCCGCCGCACCTGGCGAACGTGGCGGAAATCGCCGGTGGGCATCACGAGAAGATGGATGGCACGGGCTACCCAAAACGCCTGACCCGCGAGCAGATGAGCCTGCCGGCGCGGATGATGGCCATCGCCGACATCTTCGAAGCCCTGACCGCGGCGGACCGCCCGTACAAGAAGGGCAAGACGCTTTCCGAAGCCCTCGGCATCATGGCCGGCATGTGCCGCGGCGCGCACATCGACCCGGAGCTGTTCGGCCTGTTCCTACGCTCGGGCATCCACGCCGACTATGCGCGACGCTTCCTCAAGAGCGAACAGATCGATGCGGTGGACGTTGCCGCCATCCTGGCCAAGGCTGGCCTGGGCGACGGCCAGCAGATAGGCGCGGCAACGGGTCGGGATGTGCCGACGCATCTGTAG	MPMTAQRGDRRYPLHIHISVVFSLLLLIAGLVLGYFNYRQTTEIIFSSSDKLFERIQEAVRLDLEHTYEPIRHLLSLLALGEAAQVSDLDARLTLLKPLAQALRDQPKLASIYLADEDGDFFMLRPLRTDALRERFDAPADAAFQVWSIERSGDVVEASYLFFDGSLNLLARRPRLQETFDPRTRPWYRNARDDGGQITTAPYVFFSTGDVGTTLARRAGMRGVIAADLTLADLSATLARHRVTPSTEVVLFDPQGNAVAYPDGSRLVVENGSVHLARAEALSPALTALLASDLQGRRQGVMTLAKRRWVVSRSHLQEGGPQGLHLALLVPEDELLAGAYRIRWQGAMITLLILLLCLPLGWLASRLVVGPLVALMREAEAIRSFDFSYPASGRSPVLEIDRLAVAMGRMKETLSSFLEITASLSAETRFDALLTRVLQETLDISEANGGLLYLIDDDGRLEPHGLFLDGRAHALETHGIPGYARNAPDLPHWLGQPASGGDTAVVSLGYDKADAFRSLLSSLDSPRVHLVGAGLHNRQGDTVGVLVLLHRDTGNEADLAMLRPERIAFVEAVSSVAALCIESQRLLRKQKALLDAFIQLIAGAIDAKSPYTGGHCQRVPELTLMLARAAASSDEAPFRHYRPSEEEWEALHIAAWLHDCGKVTTPEYVVDKATKLETLYDRIHEIRTRFEVLKRDAWISYWKGRAEGGDAERLGQWRDELLATLDDEFAFVARCNLGGEAMDEADLQRLRQVAQRTWTRTLDDRLGVSWEEARRLARTPAKPLPVEEPLLADREDHLIERPDSERMPDDNPWGFKLDVPAFKFNRGELYNLSVERGTLTAEERYIINHHIVQTILMLDRLPFPPHLANVAEIAGGHHEKMDGTGYPKRLTREQMSLPARMMAIADIFEALTAADRPYKKGKTLSEALGIMAGMCRGAHIDPELFGLFLRSGIHADYARRFLKSEQIDAVDVAAILAKAGLGDGQQIGAATGRDVPTHL				NA	NA	NA	NA	NA
BMS010_06746	1104			hypothetical protein	ATGCGTCGGCTGATACGACAGAGCCTGCACTGGCGTCCGGTGACGCCTGCCTGGGGACCGGCGATGGTTGCCGGCCTCGGCTGTGCCCTGCCGTTGCTGCTCGGCCTGTTCAGCGCCCACTCGGGTTTCCTCTGGGCCTCGGTCGGCGCCTTCCAGGCCGCCCAGACCAACCCCCTGCACCGCTTCGGCATGCTGCGCATGTTGCTGCTCATCGGCCTCGGCGCCTGTAGCGCGGGGCTGGGCTTCTGGGCCGCCACCCATTCGCTGATCAGCCTGGGCCTGTTCGCCGCCTTCGGCCTGCTCCTGGCCTGGTTGCAGCGCTTCGGCAACGAAGCCGGCAAGCTGGGTATCGGCCTGGCCGTCTGCCTTTGCCTGGGACAGGGCCAGTACGGCCTGGGCAACCTCAACAACCCCTATGCGGTGGCCGCGCTGTTCACCCTCGGCGGGCTCTGGGTGATGCTGCTCGCCTTTGGCCTGCGCGGCCTGCACGGCTTGCGCATGTGGCCGTACATGCCGCGCCTGATGGCCCTGCTGCGCGTATTGCGGCGCCATGCCCGGCGCCTGCCGCGCATCCAGTGGCGACTGCATGCGCTGAACTGCACCCTGGCCGGCGCGCTGGCCGGGCTGATCGTCGAACTCGCCGACCTGCCGCGTGGCTATTGGCTGACCCTGACGGTGTTCAGCACGTTGCAACTGGAGTTCCAACACAGCCTGGTGCGGGCGGTGCAATCCAGCTTCGCCAGCCTGTGTGCCGCCGGCCTGCTGATCTTCATCGGCCACAGCTTGCAGAACCCGCCGATGATCGTGGCCAGCATGCTGCCGCTGATCGTTCTGAGCCGGGCGTTCCAGGTCAATCACTACGGCCTCTTCGTGATGCAGAACACCTTCTGCTTCGTGCTGCTGGCTGAAAGCCTGTCCCAGGACTGGCACCTGCCCGAGCAGCGCATCATCAATACCCTGCTCGGTGCCGGGGTCGCCCTCGGCGTCGCCCTGCTGATCCATGCCGCACGCCTGCGCCTGGCCAAGCGGAGCGCCCCGCAGACCCGCGAGGCAAACGCCGACCCCACCCTGCACGAACTGGATCAACCCTCTCGCACCCGGTGA	MRRLIRQSLHWRPVTPAWGPAMVAGLGCALPLLLGLFSAHSGFLWASVGAFQAAQTNPLHRFGMLRMLLLIGLGACSAGLGFWAATHSLISLGLFAAFGLLLAWLQRFGNEAGKLGIGLAVCLCLGQGQYGLGNLNNPYAVAALFTLGGLWVMLLAFGLRGLHGLRMWPYMPRLMALLRVLRRHARRLPRIQWRLHALNCTLAGALAGLIVELADLPRGYWLTLTVFSTLQLEFQHSLVRAVQSSFASLCAAGLLIFIGHSLQNPPMIVASMLPLIVLSRAFQVNHYGLFVMQNTFCFVLLAESLSQDWHLPEQRIINTLLGAGVALGVALLIHAARLRLAKRSAPQTREANADPTLHELDQPSRTR				NA	NA	NA	NA	NA
BMS010_06747	1332	dgt_2	COG0232	Deoxyguanosinetriphosphate triphosphohydrolase	TTGGACTGGCAAACCCTGTTGACCCGCGAACGTCTCGGCAAACCGGTGCACAGCACCGATGAACTCGGCCGTAGCCCCTTCCACAAGGACCACGACCGCATCATCTTCTCCGGCGCCTTCCGCCGCCTGGGGCGCAAGACCCAGGTCCACCCGGTGTCCAGCAACGACCACATCCATACCCGCCTGACCCATTCGCTGGAGGTGAGCTGCGTCGGCCGCTCGCTCGGCATGCGTGTCGGCGAGGTGCTGCGCGACGATCTGCCGGACTGGTGCGCCCCCTCCGACCTAGGCATGATCGTGCAGTCCGCCTGCCTCGCCCACGACATCGGCAACCCGCCGTTCGGCCATTCTGGCGAGGACGCCATCCGCCACTGGTTCCAGCAGGCCGAAAGACGCGGCTGGCTCGATGGCATGAGCGAGCCGGAGCGCGCCGACTTCCTCAACTTCGAAGGCAATGCCCAGGGCTTTCGCGTGCTGACCCAGCTGGAATACCACCAGTTCGACGGCGGCACCCGGCTCACCTACGCCACCCTCGGCGCCTACCTGAAATACCCCTGGACGGCGCGCCACGCCGAGGCCCTGGGCTACAAGAAGCACAAGTTCGGCTGCTACCAGAGCGAACTGCCGCTGCTGGAACAGATCGCCGCCAAGCTGGGCCTGCCGATGATCGAAGAACAGCGCTGGGCACGGCACCCGCTGGTCTACCTGATGGAGGCGGCGGACGACATCTGCTACGGCCTGATCGACCTCGAAGACGGCCTGGAGATGGACCTGCTCGACTATGCCGAAGTGGAAGCCCTGCTGCTCGGTCTGGTCGGCGACGACCTGCCGGAAACCTACCGCCAGCTCGGCCCGCGCGACTCGCGCCGGCGCAAACTGGCGATCCTGCGCGGCAAGGCCATCGAACACCTGACCAACGCCGCCGCACGCGCCTTCGTCGAACAACAGGACGCGCTGCTCGCCGGCCGCCTGCAAGGCGATCTGGTGGAGCACATGCACGGGCCGGCCAAGCGCTGCGTACTACACGCCAAGACCATCGCCCGCGAGAAGATATTCCAGGACAAGCGTAAGACGCTGCACGAAATCGGCGCCTACACAACCCTGGAAATCCTCCTCAATGCCTTCTGCGGCGCGGCCCTGGAACAGCACGGCGGGCGCCCCCTGTCGTTCAAGAACCGGCGCATCCTCGATCTGCTCGGCAACAATGCGCCGGACCCGCACTGGCCGCTGTACCGCTCCTTCCTGCGCATGATCGATTTCATCGCCGGGATGACCGACAGCTACGCCACCGAGATGGCGCGGGAAATGACCGGACGCTCGAGCCCGGTCTGA	MDWQTLLTRERLGKPVHSTDELGRSPFHKDHDRIIFSGAFRRLGRKTQVHPVSSNDHIHTRLTHSLEVSCVGRSLGMRVGEVLRDDLPDWCAPSDLGMIVQSACLAHDIGNPPFGHSGEDAIRHWFQQAERRGWLDGMSEPERADFLNFEGNAQGFRVLTQLEYHQFDGGTRLTYATLGAYLKYPWTARHAEALGYKKHKFGCYQSELPLLEQIAAKLGLPMIEEQRWARHPLVYLMEAADDICYGLIDLEDGLEMDLLDYAEVEALLLGLVGDDLPETYRQLGPRDSRRRKLAILRGKAIEHLTNAAARAFVEQQDALLAGRLQGDLVEHMHGPAKRCVLHAKTIAREKIFQDKRKTLHEIGAYTTLEILLNAFCGAALEQHGGRPLSFKNRRILDLLGNNAPDPHWPLYRSFLRMIDFIAGMTDSYATEMAREMTGRSSPV	PGPT0021495_1489	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021495-dgt-K01129	NA	NA
BMS010_06748	390			hypothetical protein	ATGGGCTGGCTGGATTCGCTCAAACACCGCGCACGGCAACTCAAGCAGCACACCCTGACGGTGTACTTCGCCGCGCGCGATCCACGCACGCCGCTTCTCGTGCGGCTGCTGGCGCTGCTGGTGGCAGCCTACGCGCTGAGCCCGATCGACCTGATCCCCGATTTCATTCCGGTGATCGGTTACCTGGACGATCTGCTGCTGATTCCCCTGGGCTTGGCGCTGGTGGTGAAACTGACTCCGCCGGAGGTGCTGAACAGCGCCCGCGAGCAGGCGCAACAGGCGGCGGACAAGCCGGTCAGCTACGGGGCGGCGGCGTTCATCCTGCTGATCTGGCTGCTGCTGGCGTGGCTGTTGGTACGTTGGATAGGCGCCTGGTGGGGCGCCGATTAA	MGWLDSLKHRARQLKQHTLTVYFAARDPRTPLLVRLLALLVAAYALSPIDLIPDFIPVIGYLDDLLLIPLGLALVVKLTPPEVLNSAREQAQQAADKPVSYGAAAFILLIWLLLAWLLVRWIGAWWGAD				NA	NA	NA	NA	NA
BMS010_06749	1230	ykuI	COG2200	putative EAL-domain containing protein YkuI	ATGACCTGCCAACTGCCGAACGGCTTTCCGTTCCCACCGCTCAAGGACGCGTCCGTGACAGACGGGCAACCGATTGCGTGTTTCCAGCCTTTCATCGATACCGCCACCGGCCGCATCGCCGGCATCGAAGCGCTCGGGCGCCTGCGCCAGGCGGACGGCGAACTGCGCTCCGTCGGCCCGCTGTTCCTCGACCCGAAGAACTCCCCCGCCGCGCTGCGCCGGCTCGACCGGCTGATCCGCGAGAACGCCCTGCAGCGCCTGGCGGAGGCGCCCGACGATTGGTTCCTCAGCCTGAACATCTCGCCGCGCTGGATCAGCCGGCTGCGACCGGGCCAGCCGCTGCCCAGCCTGAAGCAGCTGGAGCGCCAGGGCGTGCCCGCCGAACGCATCGTCTTCGAAATCACCGAACTGGGCGGCGCCAGCCACCGGCTGCCGGAGGTGGTGGCGCGCTACCGGGAAGCCGGCGCACGCATCGCCATCGACGATTTCGGTGCCGGTTATTCCCAACTCGACCGCGTGCTGGCCTTGCAGCCGGACATCCTCAAGCTGGACATGCGCCTGTTCCAGGCCGCTGCGCGAGGTGGTCCCAGCGGCGAAGTGGTGAAGGCCCTGGCGATGATGGCGGAGAAAACCGGTTGCTGGATCATTGCCGAAGGCGTGGAGACCGAAGCCGAACTGGACTTCGCCCTGGAATGCGGCGCCCGTTACGTGCAGGGCTACCTGTTCGCCCGGGCCGAGCCGGACTTCTTCCCGGCCGATGCCTTCGTCGAGCGCTTCGCCCAACTGCGCGATCGCTACGTCCACGACAAGCTGGCCGAGCGGGCCCGCGGTATCGCGCTGCGCCAGCAACTGCTCGAACTCATGGGCATTCTCAAACCCTGGGCAGAAGCCGGCGCGGCGCCCGAACAACTGCCGTCGCTGCAGCGCTACCCGTGGTTGCTGCGTCTCTACCAGTGCGACCGCCAGGGCACCCAGGTCAGCCCCAACCTGGAGCGGCACCAGGGGCAATGGCGGGAAGATGCCCGCTACCTCGGGCACAACTGGTCGTGGCGACCGTACTTCTACCAGTTGCTCGCCGAAGGCTGGGAAGAGCGCCGGCTGTCCGTCTCCGGGACCTACCGCGACGCCACCACCAACCAGTACTGCCTCACGGCCGGGCAATTCGTCGACAACGGTCGCCGGTTGCTATTGGTGGATGTGGATGCGGCGAGCTTCCAGGCAAAGGTTTAA	MTCQLPNGFPFPPLKDASVTDGQPIACFQPFIDTATGRIAGIEALGRLRQADGELRSVGPLFLDPKNSPAALRRLDRLIRENALQRLAEAPDDWFLSLNISPRWISRLRPGQPLPSLKQLERQGVPAERIVFEITELGGASHRLPEVVARYREAGARIAIDDFGAGYSQLDRVLALQPDILKLDMRLFQAAARGGPSGEVVKALAMMAEKTGCWIIAEGVETEAELDFALECGARYVQGYLFARAEPDFFPADAFVERFAQLRDRYVHDKLAERARGIALRQQLLELMGILKPWAEAGAAPEQLPSLQRYPWLLRLYQCDRQGTQVSPNLERHQGQWREDARYLGHNWSWRPYFYQLLAEGWEERRLSVSGTYRDATTNQYCLTAGQFVDNGRRLLLVDVDAASFQAKV				NA	NA	NA	NA	NA
BMS010_06750	318			hypothetical protein	ATGAGCACGCCCCTATCCAGTTCGGCCCGTCGCAGCATGCGCAAGGACCTGATCCGCCTGCGCATGGAAATGCACCGCCAGCAGTTGCTCTATCACTCGCGCCCGCTGACCCATCCGCTCGAACAGATCGGCCGCTTCCTGCCCAGCCAGGGCGGCATGCTCGGTTCCAGCAAGACGCCCCTGGCCATCGGCGGCGCGCTGTTCCTGCTGCTGTTCGGCAAGCGCCTGGGCGCCTTCGGCAAGCTGGCGCGCATCGGCTTGGCGGTGTACCCCATCGTCCGTCAGTTGAAGCGGCCTCCGCCCCCTGACAGGCACTGA	MSTPLSSSARRSMRKDLIRLRMEMHRQQLLYHSRPLTHPLEQIGRFLPSQGGMLGSSKTPLAIGGALFLLLFGKRLGAFGKLARIGLAVYPIVRQLKRPPPPDRH				NA	NA	NA	NA	NA
BMS010_06751	387			hypothetical protein	ATGGAATCCCTGCCACCACCCGCCGACGACGCGCCCAAGCCATCGCTGAAGAAGCTCGCCGGCGCGTTCGTCGGCTTGCTGCAAAGCCATCTGGAATTGCTCGGCATCGAGTTCCAGGAAGAGAAGGCACGCACCTTTCAGTTGTTCGTCTTCTCCGGACTCAGCCTGATTCTCGGCCTGATGGTGATGCTGGGGCTGTCGGCGGCGGTGATTATCGCCTTCTGGGACAGCTACCGGCTGACGGCTACCCTCGTGCTGTGCGCGTTCTACGGCATCGCCCTGCTGTTCTGCATCAGCAAGGCCGTCCACCTCGCGCGCAAGGGCGAATCGCCGTTCCAGGCGACCGTCGAAGAACTCGCCCGCAACCGGGAGCAACTGTTGCCATGA	MESLPPPADDAPKPSLKKLAGAFVGLLQSHLELLGIEFQEEKARTFQLFVFSGLSLILGLMVMLGLSAAVIIAFWDSYRLTATLVLCAFYGIALLFCISKAVHLARKGESPFQATVEELARNREQLLP				NA	NA	NA	NA	NA
BMS010_06752	384			hypothetical protein	ATGACTCTGCAAAGCACTTCGACGCCTTCCCCGGACGGTCTCGGCCAAGGCCCGGTCGACGAGAAGGCCGTGCACAAGCGCAACCTGCACGCCGCCCAGGACGAACTGATGGCCGAGTTCCAGAACCTGATCGGCGATACCGAAAAACTGCTCAAGCACACCGCCAGCGTTGCCGGTTCCCAGGCCGAGGAGCTGCGTGCGCGGATCAACGAAAACCTCACCCGCGCCAGGGCGATGATCAAGGACAGCGAAGCCAGCCTGCGCGACCAGGGCCGTGCCGCCGTCGAGGCCACCGAGGAGTACGTGCACAGCCACCCCTGGCAATCCATCGGCATCGCCGCCGGGGTCGGTTTCCTGCTCGGCCTGCTCGCCGGCCGCCGTTGA	MTLQSTSTPSPDGLGQGPVDEKAVHKRNLHAAQDELMAEFQNLIGDTEKLLKHTASVAGSQAEELRARINENLTRARAMIKDSEASLRDQGRAAVEATEEYVHSHPWQSIGIAAGVGFLLGLLAGRR				NA	NA	NA	NA	NA
BMS010_06753	1209	amt		Ammonia channel	ATGGAAAATCTCAGCAGTGCCGTGGAAACCCTGATCCACGGTTCCAACACCCTGTTCATCCTGCTCGGCGCCGTGATGGTGCTGGCGATGCACGCCGGTTTCGCCTTCCTCGAGGTGGGCACGGTCCGCCTGAAGAACCAGGTCAATGCCTTGTCGAAAATCCTTTCCGATTTCGCCGTTTCCACCCTGGCTTATTTCTTCATCGGCTACTGGATCGCCTACGGGGTGACCTTCCTGGAGCCGGCCGCGGCGCTGACCGCGGACCACGGCTACGGCTTGGTGAAGTTCTTCTTCCTGCTGACCTTCGCCGCGGCGATCCCGGCGATCATATCCGGCGGTATCGCCGAGCGCGCCAAGTTTGCCCCGCAACTGTGCGCCACCGCATTGATCGTGGCGTTCGTCTACCCCTTCTTCGAAGGCATGGTGTGGAACGGCAACTTCGGGTTGCAGGCTTGGCTGGAGGCGCGTTTTGGTGCCGCCTTCCATGATTTCGCCGGTTCGGTGGTGGTGCATGCGGTGGGCGGTTGGCTGGCCCTGGCTGCGGTGCTGCTGCTGGGACGGCGCAACGGCCGCTATCGCGACGGCCGTCTGGTGGCCTTCGCGCCATCCAACATTCCGTTCCTCGCGCTGGGCTCGTGGATTCTCATCGTCGGCTGGTTCGGCTTCAACGTCATGAGCGCGCAAACCGTGGAAGGCATCAGCGGGCTGGTGGCGGTCAACTCGTTGATGGCCATGGTGGGCGGTACCGTGGCGGCCCTGCTGGTCGGCCGCAACGACCCCGGCTTCCTGCACAACGGCCCGCTGGCCGGGCTGGTGGCAGTCTGCGCCGGCTCCGACCTGATGCACCCGGTAGGGGCCCTGGCTACCGGCGCGTTGGCCGGTGCGCTGTTCGTCTGGGCGTTCACCGCGACCCAGGTGAAGTGGAAGATCGACGACGTCCTCGGCGTCTGGCCGCTGCACGGACTGTGCGGTGTCTGGGGCGGCATCGCCTGCGGCATCTTCGGCCAGCAGGCGCTCGGCGGCCTGGGCGGCGTGAGCCTGGCCAGCCAGCTCGCCGGCACCGTGCTCGGTGTGTTGGTGGCCTTCCTCGGTGGCTTGCTGGTGTACGGGGTGCTCAAGTCCGTGGTGGGGCTTCGCCTGAGCCAGGAGGAAGAGTTCAACGGTGCGGATCTGTCCGTGCACAAGATTGGTGCGGTTAGCGTCGATTGA	MENLSSAVETLIHGSNTLFILLGAVMVLAMHAGFAFLEVGTVRLKNQVNALSKILSDFAVSTLAYFFIGYWIAYGVTFLEPAAALTADHGYGLVKFFFLLTFAAAIPAIISGGIAERAKFAPQLCATALIVAFVYPFFEGMVWNGNFGLQAWLEARFGAAFHDFAGSVVVHAVGGWLALAAVLLLGRRNGRYRDGRLVAFAPSNIPFLALGSWILIVGWFGFNVMSAQTVEGISGLVAVNSLMAMVGGTVAALLVGRNDPGFLHNGPLAGLVAVCAGSDLMHPVGALATGALAGALFVWAFTATQVKWKIDDVLGVWPLHGLCGVWGGIACGIFGQQALGGLGGVSLASQLAGTVLGVLVAFLGGLLVYGVLKSVVGLRLSQEEEFNGADLSVHKIGAVSVD	PGPT0000840_6949	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-AMMONIUM_ASSIMILATION|USAGE	N-AQUISITION-AMMONIUM_TRANSPORT,PGPT0000840-amtB|ybaG|amt-K03320	NA	NA
BMS010_06754	2082	rcsC_22		Sensor histidine kinase RcsC	ATGCAACCGGAGCGAATAGTCACCGGCCCCATGAACCTGATAACGGCCCCGCGGATGCCCCGCTTCCCCTTCGACGGCGGAGAGATGGGACAGAAGGTCCGCACCTTCGACTGGAGTGCCACTCCGCTCGGCCCGATCCAGGACTGGCCGAGCGTGTTGCGCGTCACCGTGGAGTTCGTCCTCAACTCCAAATTTCCCAAGTGCCTGGTGTGGGGCTCCTCCCTCACCATGATCTACAACGATGCCTTCAAGCCGATCCTCGGCAACAAGCCGGAAGCCCTGGGCCGGCCGTTCAACGAGATATGGAGCGAAGCCTGGGATGCCATCGGCCCGATCGCCGAACGCGCGTTTTCCGGCGAGGCGACCTATATCGAGGATTTTCCGCTCGCCATCAACCGCCACGGCCATCTGGAGCAGGCCTTCTTCACCTTCTGCTACAGCCCGGTACGGGACGAGAACGGCGTGGTCGTCGGTATGATGGATACCGTTATCGAAATGACCGGCAAGTACCTCGCCGAACGCCAGTTGCGCGAACTCGCCAACTCGCTGGAAAAGCAGGTCGCCGAACGCACCGCCGACCGCAACCGCCTCTGGCAGTTGTCCACCGACATCATGCTGGTGACCCATTTCGACAGCGTGATTACCGCCGCCAACCCGGCCTGGCAGCGCATGCTCGGCTGGAGCGAGCAGGAACTGGTCGGCCAGCGGGCGCTGAGCCTCATCCACCGCGAGGACCTGCACCGCACCATCCGCACCATCCGCCTGTTGTCCCGCGGTACGCCGATCTCCGGCCTGGACAACCGCGTCCGCCACAAGGACGGCAGTTACCGTTGGATCAGTTGGAACGCGGTGCCCGGCGATGGCCTGATCAATGCCGTGGGGAGGGACTTCACCGCGGAAAAGGAGCAGGCCGAAGCCCTCCAGCAGGCCGAGGAAAACCTTCGCCACAGCCAGAAGATGGAAGCGGTCGGCCAGCTCACCGGCGGTCTGGCGCACGACTTCAACAACCTGCTGCTGAGTATCGGCGGCAGCCTGGAATTGCTGGGCGAACGGCTCCGCCAAGGGCGCACCCAGGACCTCGAGCGCTACATCGAGGCGGCCCAGGGCGCGACCCAGCGCGCGGCCTCCCTGACCCACCGCCTGCTGGCCTTTTCCCGGCGCCAGACCCTCGATCCGCGGCCGACCCGGGTCAACCACCTGATCGCCGACATGGAAGAACTGGTCCGCCATACCATGGGGCCGACCATCCGGGTGGACATCATCCACTCCACGGACCCCTGGACCGCCCTGGTGGATCGCAACCAACTGGAAAACTCCCTGCTCAACCTCTGCATCAACGCGCGCGATGCGATGCCGGAAGGCGGGCGGCTGATCATCGAGACGGCCAATGTCGAACTGGATGCAAAAGCCGCGGGCGCGCTGGAACTGGCACCCGGCGAATACCTGTCGCTGAGGGTCAGCGATACCGGCATGGGCATGTCGGCGGAAGTCGCGAAACGGGCCTGCGAACCCTTCTTCACCACCAAACCCACCGGCCAGGGTACCGGGCTGGGGCTTTCCATGGTGTACGGCTTCGCCCAGCAATCCGGCGGCCAAGTGCGAATCCACTCGGAAACCGACCGGGGGACCTCCGTCATGCTCTACCTGCCGCGCCAAGCGGATGAGCCGGACGCCCCCAGCGAGACGGCACAGCCCTCCGACATGCCGGTGACCAGCCAGGGCGAAACCGTGCTGGTGATCGATGACGAGGCGACCCTGCGCATGCTGGTGACCGAAGTGCTGGAAGACCTCGGCTACGCCACCCTCGAAGCCGCGGAAGGCCCGTCCGGCCTGGCGTTGCTGGAATCGGGCCGGCCCGTGGACCTGCTGATCACCGACATCGGCCTGCCCGGTGGCATGAACGGCCGCCAGGTCGCCGACGCCGCGCGCCGTGTCCGACCGGGGCTGAAAGTGCTGTTCATCACCGGCTATGCCGAGACCACCGTGGTCGGCAACGACCGCCTGGAGCCGGATATGCAGATTCTGACCAAGCCCTTCACCCTGGACGCCTTGGCCAACCGGATCAAAGGCCTGCTCGGCTGA	MQPERIVTGPMNLITAPRMPRFPFDGGEMGQKVRTFDWSATPLGPIQDWPSVLRVTVEFVLNSKFPKCLVWGSSLTMIYNDAFKPILGNKPEALGRPFNEIWSEAWDAIGPIAERAFSGEATYIEDFPLAINRHGHLEQAFFTFCYSPVRDENGVVVGMMDTVIEMTGKYLAERQLRELANSLEKQVAERTADRNRLWQLSTDIMLVTHFDSVITAANPAWQRMLGWSEQELVGQRALSLIHREDLHRTIRTIRLLSRGTPISGLDNRVRHKDGSYRWISWNAVPGDGLINAVGRDFTAEKEQAEALQQAEENLRHSQKMEAVGQLTGGLAHDFNNLLLSIGGSLELLGERLRQGRTQDLERYIEAAQGATQRAASLTHRLLAFSRRQTLDPRPTRVNHLIADMEELVRHTMGPTIRVDIIHSTDPWTALVDRNQLENSLLNLCINARDAMPEGGRLIIETANVELDAKAAGALELAPGEYLSLRVSDTGMGMSAEVAKRACEPFFTTKPTGQGTGLGLSMVYGFAQQSGGQVRIHSETDRGTSVMLYLPRQADEPDAPSETAQPSDMPVTSQGETVLVIDDEATLRMLVTEVLEDLGYATLEAAEGPSGLALLESGRPVDLLITDIGLPGGMNGRQVADAARRVRPGLKVLFITGYAETTVVGNDRLEPDMQILTKPFTLDALANRIKGLLG				NA	NA	NA	NA	NA
BMS010_06755	279	ppiC_1	COG0760	Peptidyl-prolyl cis-trans isomerase C	ATGCCCAAAGCCATGGCCCGCCACATCCTGGTCAAGACCGAGGCCGAAGCCGAGCAACTGAAAAAACGCCTCGCCAACGGCGAAGCCTTCGATGTCCTGGCGAAGAAACACTCGCTCTGCCCGTCCGGTAAACGCGGCGGCGATCTCGGCGAGGTCCGCCCCGGCCAGATGGTGCGGGCCATCGACCAGGTGATCTTCAAGAAGCCCCTGCGCACCGTGCACGGGCCGATCAAGAGCGCCTTCGGCTATCACCTAGTACAAGTGTTCTATCGAGAATGA	MPKAMARHILVKTEAEAEQLKKRLANGEAFDVLAKKHSLCPSGKRGGDLGEVRPGQMVRAIDQVIFKKPLRTVHGPIKSAFGYHLVQVFYRE	PGPT0000050_2710	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000050-nifM-K03769	NA	NA
BMS010_06756	1200	pilT_4	COG2805	Twitching mobility protein	ATGGATATCCAATCGATGCTGAAAATCCTGGCCAGCCAGGACGGTTCCGACCTCTACCTCTCCACGGGCGCGCCGCCCTGTGCCAAGTTCAACGGCGTGCTCAAGCCGCTCAGTGCCGAACCGCTGAAGCCGGGGGAGGTGGCGAAGATCGCCGAGTCGGTCATGGATGCCGAGCAACGGGCCGAATTCGAACGCGAGCTGGAGATGAACCTGGCGATCTCGCTGCCGCACATCGGCCGCTTCCGCATTAACATCTTCAAGCAGCGCAACGAGGTGTCCATCGTCGCGCGCAACATCAAGATGGAAATCCCCAGGTTCGAGGACCTCAAGCTGCCGGAAGTGCTGCTCAAGGTGGTGATGGAGAAGCGCGGCCTGGTGCTTTTCGTCGGCGGCACCGGTTCCGGCAAGTCGACCTCCCTGGCGGCGCTGATCGACTACCGCAACCGCAACAGCGGCGGGCACATCATCACCATCGAGGACCCGGTGGAGTACGTGCACCGGCACAAGAAATCCATCATCAACCAGCGCGAGGTCGGCGTGGACACTCGCAGCTTCCACGCCGCGCTGAAAAACACTCTGCGCCAGGCGCCGGACGTGATCCTGATCGGTGAGATCCGCGACCGCGAGACCATGGAGCACGCCCTGGCGTTCGCCGACACCGGCCACCTGGCGATTTCCACCCTGCACGCCAACAACGCCAACCAGGCGCTGGACCGCATCATCAACTTCTTCCCGGAAGACCGCCGCCCGCAGTTGCTCAACGACCTGGGCAACAACCTCAAGGCGTTCGTCTCCCAGCGGCTGGTCAAGACCGTCGACGGCAAGCGCCGCGCCGCCGTGGAGGTGCTGCTCGGCACGCCCACCGTGCGCGACCTGATCAAGCGCAGCGAACTCAGCTCGATCAAGGAAGTGATGGAGAAGTCGAAGAATCTGGGCATGCAGACCTTCGACCAGGCGCTGATCGACCTGGCCAACGAGGGCGCGATCAGCGAAGAGGAAGCGATCAAGAACGCCGACTCGGCCAACAACGTCCGCCTCAAGCTGAAGCTCTACAAGGACTCCCCGGCCGCTGCCCAGCCCGCGGCGCCCAGTGCTCCCGAACCGGCCAGACCGGCGGAAGCCCCGGCCTGGGGGCTGGAATTGAAGCTGGAGGATATCGAGGAGGACGGCGGGCCGGAGGAGCCGGGGCGTCCGCAATAA	MDIQSMLKILASQDGSDLYLSTGAPPCAKFNGVLKPLSAEPLKPGEVAKIAESVMDAEQRAEFERELEMNLAISLPHIGRFRINIFKQRNEVSIVARNIKMEIPRFEDLKLPEVLLKVVMEKRGLVLFVGGTGSGKSTSLAALIDYRNRNSGGHIITIEDPVEYVHRHKKSIINQREVGVDTRSFHAALKNTLRQAPDVILIGEIRDRETMEHALAFADTGHLAISTLHANNANQALDRIINFFPEDRRPQLLNDLGNNLKAFVSQRLVKTVDGKRRAAVEVLLGTPTVRDLIKRSELSSIKEVMEKSKNLGMQTFDQALIDLANEGAISEEEAIKNADSANNVRLKLKLYKDSPAAAQPAAPSAPEPARPAEAPAWGLELKLEDIEEDGGPEEPGRPQ	PGPT0015880_61	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015880-pilU-K02670	NA	NA
BMS010_06757	2580	ligD_2	COG1793	Multifunctional non-homologous end joining protein LigD	ATGGCCAAGCCGCTGGAAGAGTACAACCGCAAGCGCGATTTCTCCGCCACCCCAGAGCCTTCCGGCGCGGCCCGGCGAACCCGTCGCAAGGCCGCGGCGGCGGAGCATGCGCTGCAATACTGCATCCAGAAACACGATGCGACCCGCCTGCACTACGACTTCCGCCTGGAACTGGACGGCACCCTGAAGAGCTGGGCGGTGCCCAAGGGGCCCTGCCTCGATCCCAAGGTGCGGCGGCTGGCGGTGCATGTCGAGGATCACCCGCTGGACTACGCGGACTTCGAGGGGCATATCCCCGAGGGGCATTACGGCGCCGGCGATGTGATCGTCTGGGACCGGGGCGTCTGGACGCCGGAGGGCGATCCCCGCGAGGGCTACCGCAAGGGCAAGCTCAAGTTCAGTCTGGAGGGTGAGAAGCTCAGCGGTAGCTGGAACCTGGTGCGCACGCACATGCAGGGCAGCAAGGAGCAGTGGTTCCTGATCAAGTCCAACGACGAAGCGGCGCGCCCGGAAAGCGAATACGACATCGTCGAAGACCAGCCGGACAGCGTCATCAGCGACCGCACCATCATCCCGCGCCAGCGCGGCGCCAAGGCGACCGAAGCACGCCGGCCGATCAAGACGCCGGCGCGGCGGCGCGGCCAGAAGGAGGAGGGGCAGCGGCTGGCCGGCGCGCGCGAGGCGCCCATGCCGGAGAAGCTGATGCCGCAACTGGCGACCCTGGTCGAGTCTGTCCCGGATGGCGACTGGCGCTACGAGATCAAGTTCGACGGCTACCGCATCATGGCCCGTATCGAACGGGGCAAGGTGCGCCTGATTACCCGCAACGGCCATGATTGGACGGCGAAAATGCCGCGCCAGGCCGAGGCGTTGGCCGCCCTGGGGCTGGAGTCGGCCTGGCTGGACGGTGAGGTGGTGGTGCTGAACGAGGAAGGGCTGCCGGACTTCCAGGCCCTGCAGAACGCCTTCGATCTCGGCGGCAGTGAGCGCATCGTCTATTACCTGTTCGATGCGCCGTACCTGAACGGCATGGACCTGCGCGAGGTGGCGGTGGAACAGCGTCGCGCCGCACTGGCGGCGCTGATGGCGGACAACGAGAGCCAGCTGCTGCGCTTCTCCGAGGACTTCGCCGAGGACCCCGACGCGGTGCTGGAGAGTGCCTGCCAGATGCGCCTGGAGGGCCTGATCGGCAAGCGCGCCGGCAGCTCTTACGTGTCCCGTCGCAGCTCCAGCTGGATCAAGGTGAAGTGCCAGAACCGCCAGGAATTCATCATCGTCGGTTATACCGACCCGAAGGGCGCGCGCAATGCCTTCGGCGCGCTTCTGCTCGGTCTGCACGACGAGGACAGCGGCCAGCTACGCTACGCAGGCAAGGTGGGCACCGGCTTCAACGAGGCCACCCTGCGCACGGTGTACAAGCAGCTCAAGGCGCGGGAAATCGACCGGCCGGCGGTGGTCAACCCGCCTACCGGTGCGGACGCTCGCGGCGCCCACTGGCTGAAGCCCGAGCTGATGTGCGAAGTGGCCTACGCGGAAATGACCCGCGACGGAGTGATCCGGCATTCGGTATTCCACGGCTTGCGTTCCGACAAGCCGGCCAAGGCGATCAGCCGCGAACGGGCGCAGCCGGCGGAGAAGGTCGAGGAGCAGGCGGTGCCGAAACGACGCAGCGGGCAGGCCAAGGCGAAAGCGGACGGTGTCGGGCAGATCAAGATCAGCCACCCGGATCGCATCATCGACAAGACCATCGGCGCCACCAAGCTGGAGCTGGCGCAATACTACGGGCGGGTCGCCCCCTGGATCCTGCCCGACCTGCAAGGACGCCCGGTGGCGCTGGTGCGGGCGCCGGAGGGTATCGACGGTGAACTGTTCTTCCAGAAGCACGCCGGCAAGCTGAGCCTGCCCCACGTCAACCAGACCGAGGACCCGGAAGACCCGCAACCGGTGCTGCTGGTGGACACGCCCGAGGGGCTGGTGGGCGCGGCGCAGATGGGCACCATCGAGCTGCATACCTGGAACGCCACCGCGCCGAAGCTGGAGCGTCCGGACCGCTTCATCCTCGACCTCGACCCGGACCCGGCATTGCCCTGGAAGCGCATGATCGAGGCGACCCAGTTGACCCTGACCCTGCTCGACGAGCTGGGGTTGCGCTCCTTCCTCAAGACCAGCGGCGGCAAGGGCATTCACGTGGTGGTGCCGCTGACCCGCCGCCTGGGCTGGGACGCGGTGAAGGATTTCAGCCAGGCCATCGCTCGGCATATGGCCAAGCTGATGCCGGATCGCTTTTCCGCCGTCAGCGGGCCGAAGAATCGCGTCGGGAAGATATTCATCGATTACCTGCGCAACGGTCGCGGCGCCACCTCGGTGGCGGCTTACTCGGTGCGGGCGCGGGAGGGGTTGCCGGTGTCGGTGCCGATCCACCGGGAAGAGCTGGCCGACCTCAAGGGCGCGAACCTGTGGAACATCCGCAACCTGTTCGAGCGCCTGGACGAGCTGGGTGACGACGACCCCTGGGCAGACATGGCCGGCACCCGGCAGGCGATCACGGCGGACATGCGCCGGCGGTTGGGGATGAAGTAG	MAKPLEEYNRKRDFSATPEPSGAARRTRRKAAAAEHALQYCIQKHDATRLHYDFRLELDGTLKSWAVPKGPCLDPKVRRLAVHVEDHPLDYADFEGHIPEGHYGAGDVIVWDRGVWTPEGDPREGYRKGKLKFSLEGEKLSGSWNLVRTHMQGSKEQWFLIKSNDEAARPESEYDIVEDQPDSVISDRTIIPRQRGAKATEARRPIKTPARRRGQKEEGQRLAGAREAPMPEKLMPQLATLVESVPDGDWRYEIKFDGYRIMARIERGKVRLITRNGHDWTAKMPRQAEALAALGLESAWLDGEVVVLNEEGLPDFQALQNAFDLGGSERIVYYLFDAPYLNGMDLREVAVEQRRAALAALMADNESQLLRFSEDFAEDPDAVLESACQMRLEGLIGKRAGSSYVSRRSSSWIKVKCQNRQEFIIVGYTDPKGARNAFGALLLGLHDEDSGQLRYAGKVGTGFNEATLRTVYKQLKAREIDRPAVVNPPTGADARGAHWLKPELMCEVAYAEMTRDGVIRHSVFHGLRSDKPAKAISRERAQPAEKVEEQAVPKRRSGQAKAKADGVGQIKISHPDRIIDKTIGATKLELAQYYGRVAPWILPDLQGRPVALVRAPEGIDGELFFQKHAGKLSLPHVNQTEDPEDPQPVLLVDTPEGLVGAAQMGTIELHTWNATAPKLERPDRFILDLDPDPALPWKRMIEATQLTLTLLDELGLRSFLKTSGGKGIHVVVPLTRRLGWDAVKDFSQAIARHMAKLMPDRFSAVSGPKNRVGKIFIDYLRNGRGATSVAAYSVRAREGLPVSVPIHREELADLKGANLWNIRNLFERLDELGDDDPWADMAGTRQAITADMRRRLGMK	PGPT0014910_485	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014910-ligD-K01971	NA	NA
BMS010_06758	744			hypothetical protein	GTGAATATTCGAGCCCTTTGGCTATCTGCCCTCGTCCTGTCGTGCCTCGATGCCCCCGCCCAAGCCAGGGAACTCGAGCTTTACCTGATCGATGCGCCGCCGCTGACCTTCGTCGAAGACCCGCAAGGCCATGGTCTGGTCGGCGACGTGGCCATCGCCGCCATCGAGCGGGCGGGCTACCAGGCCAAGCTCAGCGTGTTGCCCTGGGCACGGGCACAGCGCTTCGTCAGCCTGGGCAGCGACCTGCTGATCATCCCGCTCTCGCGGATTCCCGAACGGGAAGACCAGTACACCTGGATCGCACCGATCCTCACCATGGATCGCGCCTTCTTCAGCCTGGAGCACAAAGTCGACACGTTCGACGAAGCGAAGCGGCGTTTCCGCAAGATCGGCGTCGGCCTCGGCAGCGCCCAGGAAGCGACGCTGCTGTCGGAGGGTTTCCCGCCAAGCCAGATCTACTCCATGAAGATCGGCGAAAACCCGGCCCACATGCTCGACCTCGGCCGTATCGACGCTTGGTTCAACGGCGTGCCGGAAAGCCTCTACATCTGGAAGAACACCGGCATCCAGCGCCGCCTGCGGATGGGCAAGGCCGTCACCTCCTCCGACCTCTACGTCGCCTGCTCGAAAAAATGCGACCCGGAATTGGTTCGGCAGTTGCGCGAAGCCATGGAAGCCATCCAGGCCGACGGCACCGCCCAACGCCTGCAGGACGCCTACCAGCTTCAGTTGCCGAAGCATTGA	MNIRALWLSALVLSCLDAPAQARELELYLIDAPPLTFVEDPQGHGLVGDVAIAAIERAGYQAKLSVLPWARAQRFVSLGSDLLIIPLSRIPEREDQYTWIAPILTMDRAFFSLEHKVDTFDEAKRRFRKIGVGLGSAQEATLLSEGFPPSQIYSMKIGENPAHMLDLGRIDAWFNGVPESLYIWKNTGIQRRLRMGKAVTSSDLYVACSKKCDPELVRQLREAMEAIQADGTAQRLQDAYQLQLPKH	PGPT0020800_17243	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_06759	1956	acsA_3	COG0365	Acetyl-coenzyme A synthetase	ATGCAGACACCTCTCTGGACCCCCTCTCCTGAGCGCATCGCCGCCACCCGCATGGAAGCCTTCCGCAACTTCGCCAACCAGCGCCATGCCCTGGCGCTGGCCGACTACCCCGCCCTGCACGCCTGGAGCATCGAAGATCGGCCCGCCTTCTGGCAGGCCATCGTCGATTTCTTCGACGTACGCTTCCAGCAGCCGCCGCGCAGTGTGCTCGAAGAAGGCGAGACGATGCCCAGCGCACACTGGTTCCCCGGCGCCACCCTGAATTTTGCCGAACACCTGCTGCGCCGCCGTGACGACCACCCGGCCCTGGTGGCCATCGGCGAGGACGGCTCGCGCGAGCAGTTGAGCTACGCCGAGCTGGCCGCCCATGTCGCCGGCCTGCAGCGCAGCCTGGAAGCAGCCGGTATCGGCCCCGGCGACCGGGTCGCGGCCTTCATGCCGAACACCTGGCAGACCGTGGTCGGCATGCTCGCCACCACCAGCCTCGGTGCCACCTGGTCGTCATGCTCGCCGGACTTCGGCACCCAGGGCGTAGTCGACCGCTTCGGCCAGATCGATCCCAAGGTGCTGATCGCCGCCGCCGGCTTCCGCTACGCCGGCAACAACACCGACCTCACCGGCAAGCTCAACGAAATCCTCGAACACCTGCCGTCGCTGCAACAGTTGATCGTCGTCCCCTACTCCAACCCGGCTGTCACCGCCGAAGCATTCCAGACCTCGGCCCGGGTCACGCTCTGGCAGGATAGCTACCGGCCCGGGGGCGAACCGCGCTTCCAGCCGGTGCCGTTCGAACAGCCGCTGTACATCCTCTACTCCAGCGGCACCACCGGCGTACCCAAGTGCATCGTCCACGGCACCGGCGGCGTGTTGCTCCAGCATCTCAAGGAACTGGGCCTGCACACCGACCTGCGCGCAGACGACTGCCTGTTCTACTACACCACCTGTGGCTGGATGATGTGGAACTGGCTGGTCTCCGGCCTGGCCCTGGGCGCCACCCTGGTGCTGTTCGATGGCTCACCGTTCCAACCCGGCCCGGAGCGGCTGATGGACCTGATCGACGCCGAAGGCATTTCCATCTTCGGCACCAGCGCCAAATTCCTCGCCGCCCTGGAGAAGGCCGGCGTGCGGCCCGGTGCCAGCCATCACCTGGAGCGCCTGCGGACGATCCTTTCCACCGGCTCGCCGCTGTCCCACGAGCGCTTCGAATTCGTCTACCGCGAGATCAAGGCGGACCTGTGCCTGTCGTCGATCTCCGGCGGCACCGACATCGTTTCCTGCTTCGCCCTCGGCAACCCGGTGTTGCCGGTCTGGCGCGGCGAGTTGCAGTGCAAGGGGCTCGGCATGGCCGTCGAGGTATGGAACGACGCGGGCCAGCCGGTACACGGGGAAAAAGGCGAGCTGGTCTGCACCCGGCATTTCCCGTCGATGCCGGTGGGCTTCTGGAACGACCCCGACGGTGCCAAATTCCACGCGGCCTACTTCGAGACCTTTCCCGGTGTCTGGGCCCATGGCGACTATGCCGAAGAGACCGGGCATGGCGGCCTGGTCATCCATGGCCGCTCGGATGCCGTGCTCAACCCCGGCGGCGTGCGCATCGGCACCGCGGAAATCTACCGGCAGGTGGAAAAGGTCCCCGAGGTGCTGGAATCCATCGCCATCGGCCAGGATTGGGCCGGCGACGTGCGGGTGGTGCTGTTCGTACGGCTGCGCGACGGCGTCGCCCTCGACGAGCCCCTGCAGGAGCGCATCCGCGAGGTCATCCGCCGCAACACCACCTCGCGCCACGTGCCGGCGAAGATCGTCGCGGTGCCGGACATCCCGCGTACCATCAGCGGCAAGATCGTCGAGCTGGCGGTGCGCAACGTGGTCCATGGCCGGCCGGTGAAGAACACTGATGCGCTGGCCAACCCGGAGGCGCTGGAGCACTTCCGCGACCGTCGCGAACTGGCCGATTGA	MQTPLWTPSPERIAATRMEAFRNFANQRHALALADYPALHAWSIEDRPAFWQAIVDFFDVRFQQPPRSVLEEGETMPSAHWFPGATLNFAEHLLRRRDDHPALVAIGEDGSREQLSYAELAAHVAGLQRSLEAAGIGPGDRVAAFMPNTWQTVVGMLATTSLGATWSSCSPDFGTQGVVDRFGQIDPKVLIAAAGFRYAGNNTDLTGKLNEILEHLPSLQQLIVVPYSNPAVTAEAFQTSARVTLWQDSYRPGGEPRFQPVPFEQPLYILYSSGTTGVPKCIVHGTGGVLLQHLKELGLHTDLRADDCLFYYTTCGWMMWNWLVSGLALGATLVLFDGSPFQPGPERLMDLIDAEGISIFGTSAKFLAALEKAGVRPGASHHLERLRTILSTGSPLSHERFEFVYREIKADLCLSSISGGTDIVSCFALGNPVLPVWRGELQCKGLGMAVEVWNDAGQPVHGEKGELVCTRHFPSMPVGFWNDPDGAKFHAAYFETFPGVWAHGDYAEETGHGGLVIHGRSDAVLNPGGVRIGTAEIYRQVEKVPEVLESIAIGQDWAGDVRVVLFVRLRDGVALDEPLQERIREVIRRNTTSRHVPAKIVAVPDIPRTISGKIVELAVRNVVHGRPVKNTDALANPEALEHFRDRRELAD	PGPT0002265_850	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895	NA	NA
BMS010_06760	1338	atoE	COG2031	Putative short-chain fatty acid transporter	ATGCTCACCCGCATCACCGAGTTCAGCGTCAAGCTGGTGCAACGCTACCTCCCCTCACCGTTCGTCTTCGCCCTGCTGCTGAGCTTCATCGTGCTGGTCGCCAGCATGTTCGGCACCGGACAGAGCCTGCCGCAGATGGCCAAGCACTGGGGCACCGGCTTCTGGAACCTGTTGATGTTCGCCATGCAGATGGCGCTGATCCTGGTCACCGGCCATGCGCTGGCCCGCGCGCCCCTGGTCAACCGCCTGCTCGACCGGCTCGCCCGGATTCCCACCACACCGGGCCAGGCCATCGTCACCGTGACCTTGGTCGGACTGGCCGGCGCCTGGCTCAACTGGGGCTTCGGCCTGGTCATCGGCGCGGTGTTCGCCCGCGCCCTGGCGCGCCAGGTGAAGGGGGTCGATTACCCGCTGCTGGTGGCCTCGGCCTACTCCGGCTTCCTCATCTGGCACGGCGGGCTGTCCGGTTCGATCCCGCTGTCCCTGGCCACCGGCGGGGCGGACACCGAGCGCATGAGCGGCGGCGTGGTCACCGCCGCCATCGGCGTCGGCCAGACGCTCTTCACCCCGCTCAACCTCACCCTCATCGCCCTGTTGGTGGTCGGCCTGCCGCTGCTCAACCGGGCCATGCAACCGAAGCAGCCGAAGGTGGCCGATCCGGCCCTGCTGCACGAGCCCGAGCCGCAACCGCTGCCCCGGGAAACCCCGGCCCAGCGCATCGACGACAGCCGCCTGCTCGGTCTGGCCACGGTGGCGCTGGCCGCGGTGTTCTTCGTCGGCTACTTCGCCGATGGCTTCGCCCTGAGCCTGAACATCGTCATCGCCCTGTTCCTGTTCGCCGGTCTGCTCCTGCACGGCACTCCGGAGCGCTACATGAACGCGGTGCAGGACAGCATCGGCGGCATCAGCGGCATCGTCATCCAGTTCCCCTTCTATGCCGGGATCATGGGCATGATGGTCGGCGCCAACGCCGAAGGCGCGTCGCTGGGCAAGCAGATCACCGATGCCTTCGTCGCTTGGTCGTCGGCCGACACCTTCCCGGTGCTCGCCTTCCTCAGCGCCGGACTGGTGAACGTCTTCGTGCCGTCCGGCGGCGGCCAGTGGGCCGTCCAGGGACCGATCATGCTGCCCGCCGGCCAGGCCCTGGGCGTGGCGCCCGAAGTGACGGCCATGGCTATCGCCTGGGGCGATGCCTGGACCAACATGATCCAGCCGTTCTGGGCCCTGCCGCTGCTCGGCATCGCCGGCCTCGGCGCGCGCGACATCATGGGCTACTGCCTGCTGATGCTGCTGTACTCGGGCATCGTCATCAGCGCCGGGTTCTATCTGTTGGCGTAA	MLTRITEFSVKLVQRYLPSPFVFALLLSFIVLVASMFGTGQSLPQMAKHWGTGFWNLLMFAMQMALILVTGHALARAPLVNRLLDRLARIPTTPGQAIVTVTLVGLAGAWLNWGFGLVIGAVFARALARQVKGVDYPLLVASAYSGFLIWHGGLSGSIPLSLATGGADTERMSGGVVTAAIGVGQTLFTPLNLTLIALLVVGLPLLNRAMQPKQPKVADPALLHEPEPQPLPRETPAQRIDDSRLLGLATVALAAVFFVGYFADGFALSLNIVIALFLFAGLLLHGTPERYMNAVQDSIGGISGIVIQFPFYAGIMGMMVGANAEGASLGKQITDAFVAWSSADTFPVLAFLSAGLVNVFVPSGGGQWAVQGPIMLPAGQALGVAPEVTAMAIAWGDAWTNMIQPFWALPLLGIAGLGARDIMGYCLLMLLYSGIVISAGFYLLA	PGPT0021760_654	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021760-atoE-K02106	NA	NA
BMS010_06761	903	liuE_1	COG0119	3-hydroxy-3-isohexenylglutaryl-CoA/hydroxy-methylglutaryl-CoA lyase	ATGGATATTCCCCAACAAGTCCGCCTGGTCGAAGTCGGTCCCCGCGATGGTTTGCAGAACGAGAAACAACCCATCGAGGTGGCGGACAAGATCCGCCTGGTCGATGACCTCACCGAGGCCGGCCTGGGCTATATCGAGGTGGGCAGCTTCGTGTCGCCCAAATGGGTGCCGCAGATGGCGGGCAGCGCCGAGGTCTTCGCCGGTATCCGGCAAAAGCCCGGCGTCACCTACGCCGCGTTGGCGCCCAACCTGAAGGGATTCGAAGCGGCGCTGGAAAGCGGGGTGAAAGAAGTCGCAGTGTTCGCCGCCGCCTCGGAAGCCTTTTCCCAGCGCAACATCAATTGCTCCATCGCCGAAAGCCTGGAACGCTTCGTCCCGGTGATGGACGCGGCGCGCCAACACGGTATCCGTGTCCGCGGCTATGTCTCCTGCGTGCTCGGCTGTCCCTACGACGGCTTCATCGCCCCGGAACAGGTGGCCGGCGTCGCCCGCGAGCTGCATGCCATGGGTTGCTACGAAGTCTCCCTCGGCGACACCATCGGCACCGGCACCGCCGGCGACACGCGCCGGCTGTTCGAGGTGGTCGGCAAGGACATCCCCCGCGACAAGCTGGCCGGCCATTTCCACGACACCTACGGCCAGGCCCTGGCCAACATCTATGCGAGCCTGCTGGAAGGCATCGCCGTGTTCGACAGCTCGGTCGCCGGTCTCGGCGGCTGCCCCTACGCCAAGGGCGCGACGGGTAACGTCGCCAGCGAGGACGTACTGTACCTGCTCGGGGGCCTGGGTATCCGCACCGGCATCGACATGGACAAGCTGATCGATGCCGGCCAACGCATCTGCCAGGTGCTCGGCAAGGCCAACGGTTCCCGCGTCGCCCGCGCCCGCCTGGCGCAACGCTGA	MDIPQQVRLVEVGPRDGLQNEKQPIEVADKIRLVDDLTEAGLGYIEVGSFVSPKWVPQMAGSAEVFAGIRQKPGVTYAALAPNLKGFEAALESGVKEVAVFAAASEAFSQRNINCSIAESLERFVPVMDAARQHGIRVRGYVSCVLGCPYDGFIAPEQVAGVARELHAMGCYEVSLGDTIGTGTAGDTRRLFEVVGKDIPRDKLAGHFHDTYGQALANIYASLLEGIAVFDSSVAGLGGCPYAKGATGNVASEDVLYLLGGLGIRTGIDMDKLIDAGQRICQVLGKANGSRVARARLAQR	PGPT0008315_3135	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TERPENE_UTILIZATION	PLANT_DERIVED_CITRONELLOL-CITRONELLAL-CITRONELLATE_DEGRADATION,PGPT0008315-hmgL-K01640	NA	NA
BMS010_06762	1947	accA1_3	COG4770	Acetyl-/propionyl-coenzyme A carboxylase alpha chain	ATGATCACCACCCTCCTCGTCGCCAACCGCGGCGAAATCGCCTGCCGAGTCATGCGTACCGCTCGGGCGCTGGGTCTGCGTACAGTCGCCGTGCACAGCGCCATCGACCGCAACGCCCGGCACGTCCAGGAAGCCGACATTGCCTATGACCTCGGCGGCGCCAAGCCGGCGGACAGCTACCTGCGTGCCGACCGGATCATCGCCGCCGCCAAGGCCTGCGGCGCCCAGGCGATCCACCCCGGCTACGGCTTCCTTTCGGAAAACGCCGGTTTCGCCCGCGCCATCGAAGAGGCCGGGCTGATCTTCCTCGGCCCGCCCGCGTCGGCCATCGACGCCATGGGCAGCAAGTCCGCCGCCAAGGCCCTGATGGAAGCGGCCGGCGTGCCCCTGGTGCCGGGCTACCACGGCGAAGCCCAGGACCTGGACACCTTCCGCCAGGCCGCCGAGCGGATCGGCTACCCGGTGCTGCTCAAGGCCGCTGCCGGTGGCGGCGGCAAGGGTATGAAGGTGGTGGAGCGCGAGACCGATCTCGCCGAAGCCCTGGCCTCGGCCCAGCGCGAAGCGCAATCCGCCTTCGGCGATGCGCGCATGCTGGTGGAAAAGTACGTACTCAAGCCGCGCCACGTGGAAATCCAGGTGTTCGCCGACCGACACGGCAACTGCCTGTACCTCAACGAGCGCGACTGCTCGATCCAACGCCGTCACCAGAAAGTGGTGGAAGAAGCCCCTGCCCCCGGCCTGACGCCCGCGCTGCGCAAGGCCATGGGCGAAGCGGCGGTGAAGGCCGCCCAAGCCATCGGCTACGTCGGTGCCGGCACCGTGGAGTTCCTGCTCGACGAGCGCGGCGATTTCTTCTTCATGGAGATGAATACCCGCCTGCAGGTGGAGCACCCGGTCACCGAAGCCATCACCGGGCTCGACCTGGTGGCCTGGCAGATCCGCGTGGCCCGTGGCGAGCCGCTGCCGATCGGCCAGGAGCAGGTGCCGCTGAACGGCCACGCCATCGAGGTGCGGCTGTACGCGGAAGACCCGGACAACGACTTCCTGCCGGCCACCGGCACCCTCGATCTCTACCGCGAGCCGGCCGCCGGCCCGGGTCGCCGGGTGGACACCGGCGTGCGCGAGGGCGATACGGTGTCGCCGTTCTACGACCCCATGCTCGGCAAACTGATCGCCTGGGGCGAGAACCGCGAGGAAGCCCGGCAGCGCCTGCTGGCGATGCTCGACGAAACACTGGTCGGCGGGGTGAAGACCAACCTCGCCTTCCTCCGCCGCGTGCTGGCCCACCCGGCCTTCGCCCGGGCCGAGCTGGACACCGGCTTCATCCCCCGCCACCAGGCGGACCTGCAACCGGTCGCCACGCCGCTCTCCGCCGAGTTCTGGCTGATCGCCGGGGAAGCCTTCCGCCAGAGCGAAGCCCAAGCCGCGCGCGATGACGACCCGCATTCGCCGTGGCGCCTGAACAGCGGCTGGCGCAGCGCCCTGCCCTATGAGATCGATCTGCACCTGAGCTGCGACGACGAGCGCCACGTGGTGCGCCTGCGCAGCACCAACGCCGCTTCGCCGGTGCGCCTGGAAGGTGAGCGCCTGTGTATCGAGCAGGACGGCAGCACGCACCGGGTCGCGGCGATCCGCCGTGGCGATGCCCTCCACCTGCATTGGAACGGCGAGCTGCGCAGCGTCCGACGAGTCGACCCGATCGCCGACGTCGAGGCCAGTCACCACCACCACGGCGGCTTGACCGCGCCGATGAACGGCAGCATCGTCCGTGTGCTGGCGGAAACCGGACAACGGGTCGAAGCCGGCGCCACCCTGGTGGTGCTGGAAGCCATGAAGATGGAACACAGCATCCGTGCGCCCCATGCCGGTGTGGTCAAGGCGCTGTATTGCAACGAAGGCGAGCTGGTCAGCGAAGGCACCGCGCTGGTGGAGCTGGACGAGGCGTGA	MITTLLVANRGEIACRVMRTARALGLRTVAVHSAIDRNARHVQEADIAYDLGGAKPADSYLRADRIIAAAKACGAQAIHPGYGFLSENAGFARAIEEAGLIFLGPPASAIDAMGSKSAAKALMEAAGVPLVPGYHGEAQDLDTFRQAAERIGYPVLLKAAAGGGGKGMKVVERETDLAEALASAQREAQSAFGDARMLVEKYVLKPRHVEIQVFADRHGNCLYLNERDCSIQRRHQKVVEEAPAPGLTPALRKAMGEAAVKAAQAIGYVGAGTVEFLLDERGDFFFMEMNTRLQVEHPVTEAITGLDLVAWQIRVARGEPLPIGQEQVPLNGHAIEVRLYAEDPDNDFLPATGTLDLYREPAAGPGRRVDTGVREGDTVSPFYDPMLGKLIAWGENREEARQRLLAMLDETLVGGVKTNLAFLRRVLAHPAFARAELDTGFIPRHQADLQPVATPLSAEFWLIAGEAFRQSEAQAARDDDPHSPWRLNSGWRSALPYEIDLHLSCDDERHVVRLRSTNAASPVRLEGERLCIEQDGSTHRVAAIRRGDALHLHWNGELRSVRRVDPIADVEASHHHHGGLTAPMNGSIVRVLAETGQRVEAGATLVVLEAMKMEHSIRAPHAGVVKALYCNEGELVSEGTALVELDEA	PGPT0019850_222	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TERPENE_UTILIZATION	vCITRONELLOL-CITRONELLAL-CITRONELLATE_DEGRADATION,PGPT0019850-atuC|atuF-K13777	NA	NA
BMS010_06763	798	paaF_2	COG1024	2,3-dehydroadipyl-CoA hydratase	ATGACCGACTTCACCACCGTCCAACTGGAAAAAGACCCGCGCGGTTTCGCCACCCTCTGGCTCAACCGTCCCGCGAAGAACAACGCCTTCAACGCCGAGATGATCCGCGAGCTGATCCTCGCCCTGGACGCGGTGCAGGACGACAAGTCGCTGCGCTTCCTGGTGGTGCGCGGACGCGGCAAGCATTTCTCGGCGGGCGCCGACCTGGCCTGGATGCAGCAGTCCGCCGCCCTCGACTACAACGCCAACCTCAACGATGCGCGTGAGCTGGCCGAGCTGATGTACAACCTCTACCACCTGAAAGTCCCGACGCTGGCAGTGGTCCAGGGCGCGGCTTTCGGCGGTGCCCTGGGCCTGATCGCCTGCTGCGACATGGCCATCGGCGCGAGCGATGCCCAGCTCAGCCTGTCCGAGGTGCGCATCGGCCTCGCCCCGGCGGTGATCAGTCCCTTCGTGGTCCAGGCCATCGGCGAACGCGCCGCGCGCCGCTATGCGCTGACCGCCGAACGCTTCAGCGGCGAACGCGCCCGCGAGCTGGGCCTGCTCGCCGAAACCTACCCGGCCGACAGCCTGGACGAAGCCCTTGCCGGCTGGATCGACAACCTGCTGCTGAACAGCCCGCAGGCGATGCAGACCAGCAAGGAGCTGCTCAAGGAAGTCGGCAGCGGCGCCCTCACCCCGGCGTTGCGCCGCTACACCGAAACCGCCATCGCCCGCATCCGCGTGAGCGCCGAAGGCCAGGAAGGGCTGCGCGCCTTCCTGGAGAAGCGCAAGCCGGCCTGGCAGGAGCAAGCATGA	MTDFTTVQLEKDPRGFATLWLNRPAKNNAFNAEMIRELILALDAVQDDKSLRFLVVRGRGKHFSAGADLAWMQQSAALDYNANLNDARELAELMYNLYHLKVPTLAVVQGAAFGGALGLIACCDMAIGASDAQLSLSEVRIGLAPAVISPFVVQAIGERAARRYALTAERFSGERARELGLLAETYPADSLDEALAGWIDNLLLNSPQAMQTSKELLKEVGSGALTPALRRYTETAIARIRVSAEGQEGLRAFLEKRKPAWQEQA	PGPT0026240_49	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR_VIRULENCE_REGULATORY_SYSTEM,PGPT0026240-paaK-K01912	NA	NA
BMS010_06764	1605		COG4799	Methylmalonyl-CoA carboxyltransferase 12S subunit	ATGATCCTGAACACACAGATCAACTCCCGCTCGCCGGAGTTCGCCGCCAACCGCGAATCGATGCTGGCCCAGGTCAATGAGTTGCGCACGCTGCTCGGGCGCGTCCATGAAGGCGGCGGCGAGAAGGCGCAACTGCGCCATACGTCGCGCGGCAAGCTGCTGCCCCGCGAACGCATCAACCGCCTGCTCGACGCCGGCTCGCCGTTCCTCGAGGTCGGCCAGCTCGCCGCCCACGAAGTGTATGGCGAGGATGTGCCGGCCGCGGGCGTGGTGGCCGGTATCGGCCGGGTCGAAGGCGTCGAATGCATGATCATCGCCAACGACGCCACGGTGAAAGGCGGCAGCTACTACCCGCTCACCGTGAAGAAGCACCTGCGCGCCCAGGCCATCGCCCGGGAAAACCGCCTGCCCTGCATCTACCTGGTGGATTCCGGCGGCGCCAACCTGCCGCGACAGGACGAGGTATTCCCCGACCGCGAGCACTTCGGCCGCATCTTCTTCAACCAGGCCACCATGAGCGCCCTGGGCATCCCGCAGATCGCCGTGGTGATGGGCTCCTGCACCGCCGGCGGCGCCTACGTGCCGGCCATGGCCGACGAGACCATCATGGTGCGCAACCAGGCGACCATCTTCCTCGCCGGCCCGCCGCTGGTGAAGGCCGCCACTGGCGAGGTGGTGAGCGCCGAGGACCTGGGCGGCGCCGACGTGCACTGCAAGACCAGCGGCGTGGCCGACCACTACGCGGAGAGCGACGAACACGCCCTGGCCCTGGCCCGTCGCTGCGTGGCCAACCTCAACTGGCGCAAGCTGGGCGAGCTGCAGAGCCTGCCGCCGAAGCCGCCGCGCTATGACGCCGAAGAGCTGTACGGTGTGATCCCGGCCGACAGCAAGCAGCCGTTCGACGTGCGCGAAGTGATCGCCCGCCTGGTGGACGACTCGGCCTTCGATGAATTCAAGGCGCTGTTCGGCACCACCCTGGTCTGCGGCTTCGCCCATCTGCACGGCTATCCCGTGGCGATCCTGGCGAACAACGGCATCCTCTTCGCCGAAGCCGCGCAGAAAGGCGCCCACTTCATCGAACTGGCCTGCCAGCGCGGCATCCCGCTGCTGTTCCTGCAGAACATCACTGGTTTCATGGTCGGCCAGAAATACGAAGCCGGCGGCATCGCCAAGCATGGCGCCAAGCTGGTTACCGCAGTGGCCTGCGCCCGTGTGCCGAAGTTCACCGTGATCATCGGCGGCAGCTTCGGCGCCGGCAACTACGGCATGTGCGGCCGCGCCTACGACCCGCGCTTCCTGTGGATGTGGCCGAACGCGCGAATCGGCGTGATGGGCGCACAGCAGGCGGCCGGCGTACTGGTGCAGGTCAAGCGCGAGCAGGCCGAGCGCAGCGGCCAGGCGTTCTCCGACGAGGACGAGGCGCGCCTCAAACAGCCCATCGTCGAGCAGTACGAGCGCCAGGCCCATGCCTTCTACTCCAGCGCACGGCTGTGGGACGACGGCGTGATCGATCCGGCGCAGACCCGCGAGGTGCTGGCCCTGGCGATCTCCGCCAGCCTCAACGCCCCGATCGAGAAGACCACCTTTGGCGTATTCCGGATGTAA	MILNTQINSRSPEFAANRESMLAQVNELRTLLGRVHEGGGEKAQLRHTSRGKLLPRERINRLLDAGSPFLEVGQLAAHEVYGEDVPAAGVVAGIGRVEGVECMIIANDATVKGGSYYPLTVKKHLRAQAIARENRLPCIYLVDSGGANLPRQDEVFPDREHFGRIFFNQATMSALGIPQIAVVMGSCTAGGAYVPAMADETIMVRNQATIFLAGPPLVKAATGEVVSAEDLGGADVHCKTSGVADHYAESDEHALALARRCVANLNWRKLGELQSLPPKPPRYDAEELYGVIPADSKQPFDVREVIARLVDDSAFDEFKALFGTTLVCGFAHLHGYPVAILANNGILFAEAAQKGAHFIELACQRGIPLLFLQNITGFMVGQKYEAGGIAKHGAKLVTAVACARVPKFTVIIGGSFGAGNYGMCGRAYDPRFLWMWPNARIGVMGAQQAAGVLVQVKREQAERSGQAFSDEDEARLKQPIVEQYERQAHAFYSSARLWDDGVIDPAQTREVLALAISASLNAPIEKTTFGVFRM	PGPT0008345_225	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-VOLATILE_RELATED_FATTY_ACID_METABOLISM,PGPT0008345-accD-K01970	NA	NA
BMS010_06765	1164	mmgC_3	COG1960	Acyl-CoA dehydrogenase	ATGAGCTACCCGAGCCTCAACTTCGCCCTCGGCGAAACCATCGACATGCTGCGCGAGCAGATCCAGGCCTTCGTCGCCAGCGAGCTGGCCCCGCGCGCCGCCGCCATCGACCAGGAAAACCAGTTCCCCATGGACATGTGGCGCAAGTTCGGCGACATGGGCCTGCTCGGCATTACCGTCGAGGAAGAGTACGGCGGCTCGGGCCTGGGCTATCTGGCCCATGTCATCGCCATGGAAGAAATCAGCCGCGGCTCGGCCTCGGTCGCCCTCTCCTACGGCGCCCACTCCAACCTGTGCGTCAACCAGATCAAGCGCAACGGCAATGCCGAGCAGAAAGCCAAGTACCTGCCCAAGCTGGTCTCCGGCGAGCACGTCGGCGCCCTGGCGATGAGCGAACCCAACGCCGGCTCCGACGTGGTTTCCATGAAGCTGCGCGCCGAACGCAAGGGCGACCGTTTCGTTCTCAACGGCAGCAAGACCTGGATCACCAACGGCCCGGACGCCAACACCTACGTGATCTATGCCAAGACCGACCTGGACAAGGGGCCGCACGGCATCACCGCGTTCATCGTCGAGCGCGACTGGAAGGGTTTCTCCCGCAGCCAGAAGTTCGACAAGCTCGGCATGCGCGGCTCCAACACCTGCGAGCTGTTCTTCGATGACGTCGAGGTCCCGGAAGAGAACGTCCTCGGCGCGGTCAACGGCGGCGTCAAGGTGCTGATGAGCGGGCTCGACTACGAGCGCGTGGTCCTCTCCGGCGGCCCGGTGGGCATCATGCAGGCGTGCATGGACGTGATCGTCCCCTACATCCACGACCGCAAGCAGTTCGGCCAGAGCATCGGCGAATTCCAGCTGATCCAGGGCAAGGTGGCGGACATGTACACCCAGCTCAACGCCAGCCGCGCCTATCTCTATGCCGTGGCCCAGGCCTGCGACCGTGGCGAGACCACCCGCAAGGACGCCGCCGGGGTGATCCTCTACACCGCCGAGCGCGCCACCCAGATGGCCCTGGAAGCGATCCAGATCCTCGGCGGCAACGGCTACATCAACGAATTCCCCACCGGCCGCCTGCTGCGCGACGCCAAGCTCTATGAGATCGGTGCCGGCACCAGCGAAATCCGCCGCATGCTGATCGGCCGCGAGCTGTTCAACGAGACGAAATAA	MSYPSLNFALGETIDMLREQIQAFVASELAPRAAAIDQENQFPMDMWRKFGDMGLLGITVEEEYGGSGLGYLAHVIAMEEISRGSASVALSYGAHSNLCVNQIKRNGNAEQKAKYLPKLVSGEHVGALAMSEPNAGSDVVSMKLRAERKGDRFVLNGSKTWITNGPDANTYVIYAKTDLDKGPHGITAFIVERDWKGFSRSQKFDKLGMRGSNTCELFFDDVEVPEENVLGAVNGGVKVLMSGLDYERVVLSGGPVGIMQACMDVIVPYIHDRKQFGQSIGEFQLIQGKVADMYTQLNASRAYLYAVAQACDRGETTRKDAAGVILYTAERATQMALEAIQILGGNGYINEFPTGRLLRDAKLYEIGAGTSEIRRMLIGRELFNETK	PGPT0002285_734	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0002285-bcd-K00248	NA	NA
BMS010_06766	396	cueR	COG0789	HTH-type transcriptional regulator CueR	ATGACGACCTACTCCATCTCCGATCTCGCCCGCGAACTGGATGTCACTACCCGCGCCATCCGCTTCTACGAGGAGCAAGGCATGCTCAGCCCGGAGCGCCGTGGCCAGGAGCGCATCTACAGCCCGAAGGACCTGGTGGCCCTGAAACTGATCCTGCGCGGCAAGCGCATCGGCTTTTCGCTGGCCGAATGCAAGGAACTGATCGACCTCTACGACCCCAGCAGCGGCAACCGCAAGCAACTGGAGACCTTCATGGAGAAGATCGCCGCCCGCCGCGCCCAGCTCGAACAGCAGTTGCTGGACATCGAGCAGATGAAACTGGAACTGGACACCGCCGAGGAGCGCTGCCTCGCCGCCCTCGCCGAAACCAAGCAGAAACAGGGCGCCAGCGCCTGA	MTTYSISDLARELDVTTRAIRFYEEQGMLSPERRGQERIYSPKDLVALKLILRGKRIGFSLAECKELIDLYDPSSGNRKQLETFMEKIAARRAQLEQQLLDIEQMKLELDTAEERCLAALAETKQKQGASA				NA	NA	NA	NA	NA
BMS010_06767	1683	fadD3	COG0318	3-[(3aS,4S,7aS)-7a-methyl-1,5-dioxo-octahydro-1H-inden-4-yl]propanoyl:CoA ligase	ATGACCCACCTCAGCTATACCCGTGGCCCGCAGGACAAGCCCCTGCTGGCGATGACCATCGGTGCCGCGTTCGACGATACCGTGCGCCGCTTCCCGCAACGTGAAGCCCTGGTGGTGCGTCACCAGGGGCTGAGGTTCAGCTGGGCCGAGCTATCCGAGGCGGTCGACGGGTGTGCACGTGGCCTGATGGCGCTGGGGCTGCAACCGGGCGACCGGCTGGGCATCTGGGCGCCGAATTGCGCGGAGTGGTGCATCACCCAGTTCGCCAGCGCCAAGGTCGGCGCCATCCTGGTCAACATCAACCCGGCCTATCGGCTCAACGAGCTGGAGTATGCGCTCAAGCAATCCGGTTGCCGTTGGCTGATCTGCGCCGATGCCTTCAAGACGTCCGACTACCACGCCATGCTCGCCGAACTGCTGCCAGAACTGCCCGGCTCGACACCGGGCCAGCTGGATTGCGTGCGCTTGCCCGAGCTGCGCGGCATTGTCAGCCTCGGTGCCGAACCGGCCCCCGGCATGCTCGGCTGGCAGGCGCTGCAGGCCGGGGCCGAGCAAATCCCCGCCGACGCCCTGGCGGCACGCGGAGAACTGCTGCAGTTCGACGACCCGATCAACATCCAATACACCTCCGGCACCACCGGCTTCCCCAAGGGCGCCACCCTCAGCCACTACAACATCCTCAACAACGGCTTCATGGTCGGCGAGAGCCTGAGACTCACCGAGCAGGACCGCCTGGTGGTGCCGGTGCCGCTGTACCACTGCTTCGGCATGGTGATGGCCAATCTCGGCTGCCTGACCCATGGCTCGACCCTGATCTACCCGAGTGCCGCCTTCGAGCCGCTGGCGGTGCTGGAAGCGGTGGCGGAGGAGAAGGCCACCGCGCTGTACGGCGTGCCGACCATGTTCATCGCCGAGCTGGATCACCCGGAACGCCCGCGTTTCGACCTCTCCAGCCTGCGCACCGGGATCATGGCCGGCGCCACCTGTCCGATCGAGGTGATGAAACGGGTGATCGGCGAGATGCACATGAGCGAGGTGCAGATCGCCTACGGCATGACCGAGACCAGCCCGGTGTCCACCCAGACCGCGCCCGACGACGACCTGGAGCGCCGTACCTGCAGCGTGGGCCGCACCCAGCCGCATCTGGAGAGCAAGATCATCGACGAGCACGGCCGCATCGTCCCGCGCGGGCAGATCGGCGAATTGTGCACCCGTGGTTACAGCGTGATGCTCGGCTACTGGAACAACCCGGAGGCGACCCGCGAGGCCATCGACGGGGCGCGCTGGATGCACACCGGCGACCTGGCGGTGATGGACGACGACGGCTACCTGAAGATCGTCGGGCGCAACAAGGACATGATCATCCGCGGCGGCGAGAACATCTATCCGCGGGAGATCGAGGAGTTCTTCTATACCCACCCGGCAGTGGCCGACGTGCAGGTGATCGGTATTCCCGACGACAAGTACGGCGAGGAGATCGTCGCCTGGGTCAAGCTGCATCCGGGGCACAGCGCCACCGAGCAGGACCTGCGTGCGTTCTGCCAGGGCCGCATCGCCCATTTCAAGGTGCCGCGCTACTACCGCTTCGTCGACGAATTTCCCATGACCGTGACCGGCAAGATCCAGAAGTTCCGCATGCGCGAGATCAGCGTGGAAGCGTTGCGATTGCCTGTGGCCGGTTGA	MTHLSYTRGPQDKPLLAMTIGAAFDDTVRRFPQREALVVRHQGLRFSWAELSEAVDGCARGLMALGLQPGDRLGIWAPNCAEWCITQFASAKVGAILVNINPAYRLNELEYALKQSGCRWLICADAFKTSDYHAMLAELLPELPGSTPGQLDCVRLPELRGIVSLGAEPAPGMLGWQALQAGAEQIPADALAARGELLQFDDPINIQYTSGTTGFPKGATLSHYNILNNGFMVGESLRLTEQDRLVVPVPLYHCFGMVMANLGCLTHGSTLIYPSAAFEPLAVLEAVAEEKATALYGVPTMFIAELDHPERPRFDLSSLRTGIMAGATCPIEVMKRVIGEMHMSEVQIAYGMTETSPVSTQTAPDDDLERRTCSVGRTQPHLESKIIDEHGRIVPRGQIGELCTRGYSVMLGYWNNPEATREAIDGARWMHTGDLAVMDDDGYLKIVGRNKDMIIRGGENIYPREIEEFFYTHPAVADVQVIGIPDDKYGEEIVAWVKLHPGHSATEQDLRAFCQGRIAHFKVPRYYRFVDEFPMTVTGKIQKFRMREISVEALRLPVAG	PGPT0008380_8037	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
BMS010_06768	1023			hypothetical protein	ATGTCGGTAGAAAAGGGCACCATTTCCATTCGGCTGGTCAACGAGGCGCTGCTCGAATTGCGCCGGCAGGGGCACGACGAACGCGGGCTGCTGGCCCGCGCCGGGATCGCCGCCGAGTGGCTGGACAAGCCATACGCCCGGGTGCCGGCGAAAGCCTACGGGCGGCTCTGGTTATCCATTGCCGCGTGCATGGACGATGAGTTCTTCGGTATGAACCCGCGGCGGATGAAGGTCGGCAGCTTCGCCTTCCTGTGCCGCTGCGCCGTGGGGGAGCCGGACCTGGAGAGGGCGCTGGGGTTGGCCTCGAGGTTCCTCGACCTGGTCTTCGACGACCTGCAGCCGAAGCTGGTGCGCCAGGGCGGCATGGCGGAAATCCAGTTGCTCGAACAGGCTGCGCCGCGTCGCGCCTTCAGCTATTTCACCTGCTGGATGATCATCCACGGCCTGGCCTGCTGGCTGGTGGGGCGGCGCATCCCGATTCTCGCGGTCGACCTGCGCTGCGCGAAGCCGGACTACATCGAGGACTACCGGGTGATGTTCAGCGACAACCTGCGCTTCGACCAGCCGGTGTCGCGCCTGCTGTTCAACGCCGAGAGCCTCGACCTGCCGGTGCGCCGCAGCGAGCTGGAGCTGAAGCGTTTCCTTGCCGGCGCGCCGGCCAACATCCTGGTCAAGTACCGCGATCCGAAGAGCCTGGCGGCGCGGATCAAGGCCTACCTGCGCAGCCTGCGGCCGGACCGCTGGCCGGACCTGGAGTCGCTCGCCGGACACTATTTCATGGCCGCCTCGACGCTGCGGCGCAAGTTGGCCCAGGAGGGGCAGTCCTACCAGTCGCTCAAGGACCAGGTGCGCCGCGACCTGGCCATCGCCCGGCTGAACCAGGATGGGGACAGCCAGTTCGACGCGCTGGCCGCCGAACTGGGCTTCGCCGATATCAGCGCCTTCTACAAGGCGTTCAAGAAGTGGACCGGCTCGACGCCAGGGCAGTATCGCCGGCTGATGCGGCCGGATGACAGCGCCTAG	MSVEKGTISIRLVNEALLELRRQGHDERGLLARAGIAAEWLDKPYARVPAKAYGRLWLSIAACMDDEFFGMNPRRMKVGSFAFLCRCAVGEPDLERALGLASRFLDLVFDDLQPKLVRQGGMAEIQLLEQAAPRRAFSYFTCWMIIHGLACWLVGRRIPILAVDLRCAKPDYIEDYRVMFSDNLRFDQPVSRLLFNAESLDLPVRRSELELKRFLAGAPANILVKYRDPKSLAARIKAYLRSLRPDRWPDLESLAGHYFMAASTLRRKLAQEGQSYQSLKDQVRRDLAIARLNQDGDSQFDALAAELGFADISAFYKAFKKWTGSTPGQYRRLMRPDDSA				NA	NA	NA	NA	NA
BMS010_06769	1662	acsA_4	COG0365	Acetyl-coenzyme A synthetase	ATGCGCGACCATGCCGCCGCCGTTGCCGGATTCGATCTTGCCGCCGCCGCCCGGGACACCCTGGCCGGTTCCCTGGACGCCCTGAACGCCTGCGTCGAATGCTGCGACCGCCACGCCGACAGCGACGCCATTGCCCTGCATTGGGAAGGCCGCGACGGCAGCAGCGCCGTCTACCGTTTCAGCCAGCTTCGCGAACTGTCCGCCCGCTTCGCCAATTTCCTGCGGCAGCAGGGTGTCCAGCCTGGCGATTGTGTGGCCGGGATGCTGCCACGCACGCCGGCGCTGCTGGTGACCATCCTCGCCGCCTGGCGGCTCGGTGCGGTCTATCAACCGTTGTTCACCGCGTTCGGGCCGAAGGCCATCGAGCATCGGGTCGCCACCGCCGGCACGCGCCTGGTGGTCACCGACCCGGCGAACCGGGCCAAGCTGGACGAGGTGAGCGGTTGTCCGCCGGTGGTCTGCGTCATGCCGGAGGGGGAGGCGGCGCGCCCCGGCGACTTCGATTTCTGGGCCGAGGTGGCGCTTCAGCCCGCCGACTGCGAGCCGGTGCTGCGCAGCGGCGAAGACCCGTTCCTGATGATGTTCACCTCGGGCACCACCGGTCTGGCCAAGCCGGTGCCGGTCCCGCTCAAGGCGATCCTCGCCTTTGTCGGCTACATGCGCGACGCCATTGGCCTGCGTCCCGACGACGCCTTCTGGAACCTCGCCGACCCGGGCTGGGCCTACGGGCTCTATTACGCCGTCATCGGGCCGCTCGCCCTCGGCCATGCCACCACCTTCTACGAAGGGCCGTTCACGGTGGAGAGCACCTGCCGGATCATCGACAAATACGCTATCACCAACCTTGCCGGCTCGCCCACGGCCTACCGGCTGCTGCTGGCAGCGGCGGATGAGGCGGAGCCGGCGCTCAAGGGCCGCCTGCGCGCGGTGAGCAGTGCCGGTGAACCGCTCACGCCGGAGGTGATCCGCTGGTTCGCCGACCGGCTGGACACGACTATCCACGACCATTACGGCCAGACCGAACTGGGCATGGTGGTGTGCAATCACCATGCGCTGGCGCATCCGGTACGCCTCGGCGCGGCCGGATTCCCGGTGCCTGGCCACCGGGTCGTGGTGGTCGACGAACAGGCGCGGGAATTGCCGCCCGGCGTACCCGGCATCCTCGCGGTGGACAGCGCGCGCTCGCCGCTGTTCTGGTTCCCCGGCTACCAGGGCATGGCGACCGGCGCCTTCGTCGGCGACTACTACCTGAGCGGCGATACGGTCGAACTGAACGAGGATGGCAGCATCAGCTTCGTCGGCCGCTCGGACGACATCATCACCACCTCCGGCTACCGGGTCGGTCCGTTCGACGTGGAAAGCGCGCTGATCGAGCACCCGGCGGTGGTGGAGGCGGCGGTGATCGGCAAGCCGGACCCTGAGCGCACCGAGATCGTCAAGGCGTTCGTGGTGCTCGGTGGCCGCTACGCCGGCAGCCCGGAGTTGGCGACGGAACTGCAGCAGCATGTGCGCAAGCGACTTTCGGCCCATGCTTACCCACGCGAGATCGAGTTCGTCGCTGAACTGCCGAAGACCCCGAGCGGCAAGATCCAGCGCTTTCTGCTGCGCAACCAGGAAATCGCCCGCCAGCAGGCGGCCATGCCGCAAGCGGTGGCGAATTGA	MRDHAAAVAGFDLAAAARDTLAGSLDALNACVECCDRHADSDAIALHWEGRDGSSAVYRFSQLRELSARFANFLRQQGVQPGDCVAGMLPRTPALLVTILAAWRLGAVYQPLFTAFGPKAIEHRVATAGTRLVVTDPANRAKLDEVSGCPPVVCVMPEGEAARPGDFDFWAEVALQPADCEPVLRSGEDPFLMMFTSGTTGLAKPVPVPLKAILAFVGYMRDAIGLRPDDAFWNLADPGWAYGLYYAVIGPLALGHATTFYEGPFTVESTCRIIDKYAITNLAGSPTAYRLLLAAADEAEPALKGRLRAVSSAGEPLTPEVIRWFADRLDTTIHDHYGQTELGMVVCNHHALAHPVRLGAAGFPVPGHRVVVVDEQARELPPGVPGILAVDSARSPLFWFPGYQGMATGAFVGDYYLSGDTVELNEDGSISFVGRSDDIITTSGYRVGPFDVESALIEHPAVVEAAVIGKPDPERTEIVKAFVVLGGRYAGSPELATELQQHVRKRLSAHAYPREIEFVAELPKTPSGKIQRFLLRNQEIARQQAAMPQAVAN	PGPT0002265_6781	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895	NA	NA
BMS010_06770	768			putative oxidoreductase	GTGCGTATCGACAACCGCGTATTCCTGATCGCCGGCGGTGGCTCCGGCCTCGGTGCCGCCACCGCGCGCCTGCTGGTGGAAAACGGCGGCAAGGTGGTGCTGGTGGACGTCAACGCCGAAGCCGGCCAGGCCTTGGCGACGGAACTCGGTGCGGCCGCGCGTTTCGTGCGCGCCGACATCACCCGGGAAGAAGACGGCCGCCAGGCGGTGGAGCAGGCCCTCGATGCCTTCGGGGCGCTGCACGGGCTGGTCAATTGCGCCGGCGTGGCGCCGGCGGAGAAGGTCATCGGGCGCAACGGCGTACACGGTCTGGAAAGCTTCAACCGGGTGATCGCCATCAACCTGATCGGCACCTTCAACATGCTGCGCCTGGCGGCCGAGGCCATGGCGCGCGGCGAGCCGAACGAGGAGGGCGAGCGCGGGGTGATCGTCAATACGGCCTCGGTGGCCGCCTTCGACGGGCAGATCGGCCAGGCCGCCTATTCGGCGTCGAAGAGCGGCGTGGTCGGCATGACCCTGCCGATCGCACGCGAGCTGGCGCGCTCCGGCATCCGCGTGATGTGCATCGCCCCCGGCATCTTCGAGACGCCGATGATGGCCGCGATGCCCCAGGAAGTGCGCGACGGCCTGGGCGCCAGCGTGCCGTTCCCGCCGCGCCTGGGCCGGCCGGCCGAGTACGCCGCGCTGGTCCGCCACATCATCGAGAACCCCATGCTCAACGGCGAGGTGATCCGTCTCGACGGCGCCATCCGCATGGCCGCGAAATAA	MRIDNRVFLIAGGGSGLGAATARLLVENGGKVVLVDVNAEAGQALATELGAAARFVRADITREEDGRQAVEQALDAFGALHGLVNCAGVAPAEKVIGRNGVHGLESFNRVIAINLIGTFNMLRLAAEAMARGEPNEEGERGVIVNTASVAAFDGQIGQAAYSASKSGVVGMTLPIARELARSGIRVMCIAPGIFETPMMAAMPQEVRDGLGASVPFPPRLGRPAEYAALVRHIIENPMLNGEVIRLDGAIRMAAK	PGPT0002265_65	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895	NA	NA
BMS010_06771	1182	thlA_1	COG0183	Acetyl-CoA acetyltransferase	ATGAACGATCCAATCGTCATCGTCAGCGCCGCCCGCACCCCAATGGGTGGCTTCCTGGGCGACTTCAAGGACGTCACTGCGGCGGAACTGGGCGCCTCCGCCATCCGGGCCGCCGTGGAGCGAGCGGGGCTAGCCGCCGACGCGGTGGACGAAGTGGTGATGGGCTGCGTGCTGCCCGCCGGCCAGGGGCAGGCACCGGCACGCCAGGCGGCCCTGGGCGCCGGGCTGGCGCGCGGGACCGTCTGCTCGACCCTGAACAAGATGTGCGGCTCGGGCATGAAGGCCGCGATGCTGGGGCATGACCTGCTGCTCGCCGGCAGCGCCGACGTGGTGATTGCCGGCGGCATGGAGAGCATGTCCAACGCCCCCTATCTGCTGGAGCGGGCGCGTTCCGGCTATCGCATGGGGCATGGCCGGGTGCTCGATCACATGTTCCTCGACGGCCTGGAAGATGCCTACGACAAGGGCCGCCTGATGGGGACGTTCGCTGAGGATTGTGCCGAAGCCTACGGTTTCAGCCGCGAGGCCCAGGACCGTTTCGCCATCGCTTCCCTGACCCGGGCGCAGCAGGCCATTGCCACCGGCCGCTTCGCCGACGAAATCGTCCCGGTACAGGCCAAGGCCGGTCGGGAACTGCGTACCGTCGAGCACGACGAGCAGCCGCCCAAGGCGAAACTGGACAAGATTCCGACCCTCAAGCCGGCCTTCCGCGAGGGTGGCAGCGTCACCGCGGCGAATTCCAGTTCCATTTCCGATGGCGCCGCCGCCCTGGTGCTGATGCGTCTGTCGGAGGCGGAGAAGCGCGGGCTGACGCCGCTGGCGGCGATCCGTGGACATGCCTCCTTCGCCGACGCGCCGAACCTGTACCCCACCGCGCCCATCGGCGCCGTGCGGCGGCTGATGGAGCGCACCGGCTGGTCCCTGGACGGGGTCGATCTGTTCGAAGTCAACGAAGCCTTCGCCGTGGTGGCCATGGCGGCCATGCGCGACCTCGATCTGCCCCACGACAAGCTCAACGTACATGGTGGCGCCTGCGCCCTCGGCCATCCCATCGGGGCGTCCGGGGCACGAATCCTGGTCACGCTTCTATCGGCGCTGAAGCAGTACGACCTGAAACGCGGCGTCGCGGCCATCTGCATCGGTGGTGGTGAGGCGACGGCCGTGGCGGTCGAGCGACTGTAA	MNDPIVIVSAARTPMGGFLGDFKDVTAAELGASAIRAAVERAGLAADAVDEVVMGCVLPAGQGQAPARQAALGAGLARGTVCSTLNKMCGSGMKAAMLGHDLLLAGSADVVIAGGMESMSNAPYLLERARSGYRMGHGRVLDHMFLDGLEDAYDKGRLMGTFAEDCAEAYGFSREAQDRFAIASLTRAQQAIATGRFADEIVPVQAKAGRELRTVEHDEQPPKAKLDKIPTLKPAFREGGSVTAANSSSISDGAAALVLMRLSEAEKRGLTPLAAIRGHASFADAPNLYPTAPIGAVRRLMERTGWSLDGVDLFEVNEAFAVVAMAAMRDLDLPHDKLNVHGGACALGHPIGASGARILVTLLSALKQYDLKRGVAAICIGGGEATAVAVERL	PGPT0008320_7353	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
BMS010_06772	1128	mmgC_4	COG1960	Acyl-CoA dehydrogenase	ATGCTACCCAGCGAAGAAGCCCTGCAAATCCGCGACGTCGCTCGCCAGTTCGCCCAGGAACGGCTGAAACCCAACGCCGCCGAATGGGATCGCGAGCACCGATTTCCCGCCGAGGCGATTCACGAGATGGCCGACCTCGGCTTTCTCGGCATGCTGGTGCCGGAAGAGTGGGGTGGGGCGCAAACCGGTCACTTGGCCTATGCCATGGCGCTTGAGGAAATCGCCGCTGGCGACGGTGCCTGCTCCACCATCATGAGCGTGCACAACTCGGTGGGCTGCATGCCGATCCTCAAGTTCGGTAGCGAGGCGCAGAAGCGCGACTTCCTCATCCCGCTGGCGCGTGGCGAGATGCTCGGTGCCTTCGCCCTGACCGAACCCCAGGCCGGGTCGGATGCCAGCGCGCTGAAAACCCGCGCAAGGCGCGACGGGGAGCACTACGTACTGAACGGCACCAAGCAGTTCATCACCTCGGGTGCCCATGCCGGAATGGTGATCGTCTTCGCCGTGACCGATCCGGCGGCCGGCAAGAAGGGCATCAGCGCCTTCATCGTGCCCACCGACAGCCCCGGCTATCAGGTGGCGCGGGTGGAGGACAAGCTCGGCCAGCATGCGTCGGACACCTGCCAGATCGTCCTCAACGATGTGCGGGTGCCGGCGGAGCTGCGCCTGGGCGAGGAGGGCGAAGGGTACCGGATCGCGCTGGCCAACCTGGAGGGGGGACGTATCGGTATCGCCGCCCAATCGGTGGGCATGGCCCGTGCCGCCTTCGAAGCCGCCCGCGACTACGCCCATGAGCGCAGCGCCTTCGGCAAGCCGCTGATCGAGCACCAGGCCGTGGCCTTCCGCCTGGCCGACATGGCCACGCAGATCGCCGTGGCCCGGCAGATGGTCCATCACGCCGCCAACCTGCGCGAAGCCGGCCTGGCCTGCCTGACCGAAGCCTCCATGGCCAAGCTGTTTGCCTCGGAGATGGCCGAGAAGGTCTGTTCGGCGGCCATCCAGACCCTGGGCGGCTATGGTTACCTGAGCGACTTCCCGGTGGAGCGCATCTACCGCGACGTGCGGGTCTGTCAGATCTACGAAGGCACCAGCGACGTGCAGCGGATGGTGATTGCGCGCGGGTTGTAG	MLPSEEALQIRDVARQFAQERLKPNAAEWDREHRFPAEAIHEMADLGFLGMLVPEEWGGAQTGHLAYAMALEEIAAGDGACSTIMSVHNSVGCMPILKFGSEAQKRDFLIPLARGEMLGAFALTEPQAGSDASALKTRARRDGEHYVLNGTKQFITSGAHAGMVIVFAVTDPAAGKKGISAFIVPTDSPGYQVARVEDKLGQHASDTCQIVLNDVRVPAELRLGEEGEGYRIALANLEGGRIGIAAQSVGMARAAFEAARDYAHERSAFGKPLIEHQAVAFRLADMATQIAVARQMVHHAANLREAGLACLTEASMAKLFASEMAEKVCSAAIQTLGGYGYLSDFPVERIYRDVRVCQIYEGTSDVQRMVIARGL	PGPT0002285_1111	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0002285-bcd-K00248	NA	NA
BMS010_06773	1674			hypothetical protein	ATGGATATGTTAGGAAATGGTTTTTCCTTCGTTAAATCGACGGCCATCATTGCGGGACAAGTCGCAGCGGTGGTCGCCGGTGGTTTTCTGTCATTCGCTGCGCAAGCGGCGAACTGCACCTATATGCCGGTGAGCGGCAAGGTCTATAACATCGTCAATGAAGCCAGCGGCCTGTATCTGGATGTCGCAAAAGGCTCCAAAGAAAACAATGCAAGCATTATTCAGTGGCCGGCGAACGGGGCAGCCAACCAGCGCTGGCTGGTTACCGACCTGGGTAATAAGGAATGGTCGATTCGCCCCGTGCACAGCAATAAGTCCATGGACGTCTACGGTTGGTACACCGTGGATGGTGGCGCGATCAAGCAATGGGACTACTACGGCTACGCGAATCAGCAGTGGCAATTGGTTAGCACCAGCAGCGGCGCCTTCAAGATCATAGGCGAAAATTCGAAAAAGCTCGTGACGGTAGCCAATAAAGACCGTGGTTCGGCGATCTACCAGAATGCCGATACGTCGTCGGCGAGTCAGCGTTGGTATTTCAACCCGGTGGATGGCGATTGTGGGGCTTCGGTCTCGAAGGGCGGCTCGTTCAGCAAGTCTTTCATGGGCAGCGACAAAATACTGATCGGCGGAGCGATGGAGGATAAAACCTCTGACGCGGCACCGTTCCATATACGTTACCACTATGTGCATAGCCAGCCCGCGACCAACCAGGCTTGTTATAACAATTGCGATGATGCCTGCGGCAATATGACTCAATGGTGGGCCTGCTGGTCGCGGTCGCAATGGAACACCAAACCCGGCCTTTTCGTTTCCTATTGGCGCGACCATACGAACCCGGTAATTGGACAGAACCGTGCGCAAATCAAGCACTGGACCTGGTATTCGCTGCGGGATCTTGGGGACGCGGCGGGCTATTCCGACGGCCCGGCCGAAGTCAACGCCGTCAACGACGCCAAGCTGCTCAAGCGTTACATGGATGATTACCGCTTCTTCCTTCAGCAGATTGGGGATGCGAAGACTATCGTCCACCTGGAGCCGGACTTCTGGGGCTATGTACAAGCGAACAACAGCAATCCGCGTGCCGTCCCGGCGAAAGTCACGGTCGCTAACTCGACCGATTGTGCCAAGGAAGAGAACAATGCTGCCGGACTGGCAAGCTGCTTGATCTCGATGGCGCGCAAGTATGCGCCCAACTCCGGTGTGGGTATCCACGTTTCTTGCTGGAGTTACAACATGGATGGGAAACCGCAGGAGTGTGTCAAGTTCTATAAAGACCTTGGTGCAAGCAAGGGCGATTTCCTCGTGACCGATGCCTCGGATCGTGATGCGGGTTGGTACGAGGTGAACGGGAATCCTCACGCCTGGTGGGATGACAAAGGGTTTGCCACTTATATCTCTTACATCAAGACAATGACCGAGGGTGTCGGCAAGCCCATGATCATCTGGCAGATTCCGCTGGGCAACATGGACATGAACAATACCTACCAGAACTATAAGGACAACAAGGTGGACTACTTCTTCTCGCACATGAACGATGTCGCGAATGCCCACGTCGTTGCCCTGCTGTTCGGTGCCGGACATTACGAGACGACCAATCCGGAAACCGATGGTGGTTATCTGATCAAGAAGACCAACAACTATTGGAAGTCGGGCGGCGTATCGCTGCGCTGA	MDMLGNGFSFVKSTAIIAGQVAAVVAGGFLSFAAQAANCTYMPVSGKVYNIVNEASGLYLDVAKGSKENNASIIQWPANGAANQRWLVTDLGNKEWSIRPVHSNKSMDVYGWYTVDGGAIKQWDYYGYANQQWQLVSTSSGAFKIIGENSKKLVTVANKDRGSAIYQNADTSSASQRWYFNPVDGDCGASVSKGGSFSKSFMGSDKILIGGAMEDKTSDAAPFHIRYHYVHSQPATNQACYNNCDDACGNMTQWWACWSRSQWNTKPGLFVSYWRDHTNPVIGQNRAQIKHWTWYSLRDLGDAAGYSDGPAEVNAVNDAKLLKRYMDDYRFFLQQIGDAKTIVHLEPDFWGYVQANNSNPRAVPAKVTVANSTDCAKEENNAAGLASCLISMARKYAPNSGVGIHVSCWSYNMDGKPQECVKFYKDLGASKGDFLVTDASDRDAGWYEVNGNPHAWWDDKGFATYISYIKTMTEGVGKPMIIWQIPLGNMDMNNTYQNYKDNKVDYFFSHMNDVANAHVVALLFGAGHYETTNPETDGGYLIKKTNNYWKSGGVSLR				NA	NA	NA	NA	NA
BMS010_06774	1149			hypothetical protein	ATGCCTACTGTCCATCCTGCCCGCGTCGAAGAGCCGGCACGCCGCACCCTGGTGGTGATGGGCGTCAGTGGTTCCGGCAAGAGCGACATCAGCCAGGCCGTCGCCGCCGAACTCGGCTGGCGGCATATCGAGGCCGATCATTTCCATCCCCGCGAAAACGTCGAGCGCATGCGCGCCGGCATTCCCCTCGGCGACGAAGACCGCATCCACTGGCTGGACGCGCTGATCGTCGAGATGCAGGCCGCGCTGGCGTCCGGCGAAGGCTTCGTGCTGGCCTGTTCGGCGCTCAAGCGCGCCTACCGCGACCGCCTGCGTGCAGCCGTTCCCGGCTTGCGTTTCGCCCACTTGAGCATCGATCACCCCACCGCGTTGCAACGGGTCGGGGCCCGTCCCGGTCACTTCATGCCGACCTCCCTGGTCGACAGCCAGTTCGCCACCCTCGAGTCGCCGGAAGGCGAGCCCGGCGTGCTGTGCGTGGATGCCTCCCAGGCCCGCCAGGCGGTGGTCGCCGAGGTGTGTGCCTGGGTGCGCCACGTCACCGTGGGTGAGGCGATTCAGGAGCGCGTGGGTTTTTCCGCGCAGTCCGGTGATAGCGCTAACCATATCCCCGGCGTGCAACCCCAGTTGACCGGCGAGCCCATCTACACCGGTGGTGTGGCGCGGCTGTTCGACCGTCTCACCGACGGGATGATGGCGGTACTGATGGCCTTCATGGTGGTGGTGGTATTCGGCAACGTGGTGGCGCGCTATGCCTTCGGTACCGGCTGGGCCGGGGCCGAGGAACTGTCGCGGCTGGCCTTCGTCTGGCTGGTGTTCGTCGGCGTCGCATCGAGCATGCGGCGCGGCGAACTGATGCGCTTCAGCATGATCCGCGACCGCTTCCCGCATCTGGCGCGGCGCCTAGTGGATTCCGCCAGTTGGCTGCTGGTGGCGATCGCCAGTGCCTTGTCGACCCTCGGCGCCTGGAACCAGGTGCAGTTCGGCTGGAGCAATTCGAGCCCAGTGGTGGGCTACCCGGTGGTGCTGGCGATGGTCCCGGTGCTGGCCTGCATGGCGGTGCTGGTGCTGCTGGCCCTGGTCCAACTGATCAACGTCTGGCGCCGTCCCGAAGAGCTGGCCAGCCCGCTGGCCAATGTCACGGCCGACTGA	MPTVHPARVEEPARRTLVVMGVSGSGKSDISQAVAAELGWRHIEADHFHPRENVERMRAGIPLGDEDRIHWLDALIVEMQAALASGEGFVLACSALKRAYRDRLRAAVPGLRFAHLSIDHPTALQRVGARPGHFMPTSLVDSQFATLESPEGEPGVLCVDASQARQAVVAEVCAWVRHVTVGEAIQERVGFSAQSGDSANHIPGVQPQLTGEPIYTGGVARLFDRLTDGMMAVLMAFMVVVVFGNVVARYAFGTGWAGAEELSRLAFVWLVFVGVASSMRRGELMRFSMIRDRFPHLARRLVDSASWLLVAIASALSTLGAWNQVQFGWSNSSPVVGYPVVLAMVPVLACMAVLVLLALVQLINVWRRPEELASPLANVTAD	PGPT0018055_14	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_GLUCONIC_ACID_UTILIZATION,PGPT0018055-gntK|idnK-K00851	NA	NA
BMS010_06775	1278	siaM_4	COG1593	Sialic acid TRAP transporter large permease protein SiaM	ATGACTGTCGCCGTCTTCCTTTCTTCACTGCTGGGTTTCATGGCCTTCGGGATGCCCATCGCCTTCGCCCTGATCCTCACTGGCGTGGTGCTGATGTGGTACCTGGACTTCTGGGATGTGCAACTGCTGGCGCAGAACCTGTTGGCCGGTGCCGACAGCTTCCCGCTGCTGGCCGTGCCGTTCTTCATCCTGGCCGGCGAGCTGATGAATGCCGGCGGGATTTCCCGGCGGATCATCGCCATGGCCCAGGCCTATGTCGGCCATTTGCGCGGCGGGCTGGGCTTCGTCGCCATCGCCGCCGCCGTGCTGCTGGCCAGCATGTCCGGCTCGGCGCTGGCGGACACCGCGGCGCTGGCCACCTTGCTGCTGCCGATGATGCGCCAGCGCGGCTACCCGCTGCATGCCTCGTCGGGCCTGGTCGCGGCCGGCGGGATCATCGCGCCGATCATCCCGCCATCGATGCCCTTCGTGATCTACGGGGTGGTGACCAACACCTCGATCAGCCAGTTGTTCATGGCCGGCCTGGTGCCCGGCCTGATCATGGGCGTTGGCCTGATCATCGCCTGGTCGCTGATCGCCCGTGGCTTCACTGAGCCGACCCCGCCCAAGGCCAGCGCCGCCGAACGACGGCGCGCGCTGGTGGACGGCGCGGCGGCGCTGATGCTGCCGGTGATCATCGTCGGCGGCCTGCGCTTCGGCATCTTCACCCCGACCGAGGCGGCGGTGGTGGCGGCGGTCTACGCGCTGGCGGTGTCCACCTTGCTCTATCGCGAGCTGAACTGGACCACCCTGGTGGAGGCGCTGACCCGCGCCAGCCGCACCACGGCCTCGGTAATGTTTCTCTGCGCCGCCGCCACGGTGTCCGCCTACATGGTGACCCTGGCGCAACTGCCGGACGAGATCGGCGCCATGCTCGGCCCGCTGGCCAATCATCCGCAGCTGCTGGTGCTGGCGATCATGGTGTTGATGATCGCGGTGGGCATGGTGCTCGACCTGACCCCGACCATCCTGATCCTCGCCCCGGTGCTGTCGCCCATCGTGGTCAAGGCCGGCGTCGACCCGGTGTACTTCGGCGTGATGTTCGTGCTGATCGGCTCCATCGGCCTGATCACCCCGCCGGTGGGTACGGTGCTCAACGTGGTCGGCGGCATCGGCCGCCTGCGCATGGAGGTGCTGGTGCGCGGGGTGATGCCGTTCTTCCTGGTGTACATGGCCATCGTCGCGTTGCTGATCGCCTTCCCGCAGATCGTCACGGTGCCGCTGGCATGGCTGCGCTGA	MTVAVFLSSLLGFMAFGMPIAFALILTGVVLMWYLDFWDVQLLAQNLLAGADSFPLLAVPFFILAGELMNAGGISRRIIAMAQAYVGHLRGGLGFVAIAAAVLLASMSGSALADTAALATLLLPMMRQRGYPLHASSGLVAAGGIIAPIIPPSMPFVIYGVVTNTSISQLFMAGLVPGLIMGVGLIIAWSLIARGFTEPTPPKASAAERRRALVDGAAALMLPVIIVGGLRFGIFTPTEAAVVAAVYALAVSTLLYRELNWTTLVEALTRASRTTASVMFLCAAATVSAYMVTLAQLPDEIGAMLGPLANHPQLLVLAIMVLMIAVGMVLDLTPTILILAPVLSPIVVKAGVDPVYFGVMFVLIGSIGLITPPVGTVLNVVGGIGRLRMEVLVRGVMPFFLVYMAIVALLIAFPQIVTVPLAWLR	PGPT0017335_2335	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017335-dctM-K11690	NA	NA
BMS010_06776	1014		COG1638	putative protein	ATGAGACGTTCACTGATCGCTGCCCTGGCTGCCGCCGTTCTGCTCAGCCCCCTCGCCAGCCTGTCGGCGCAGGCCGACGACATCCGTCCGCGCATGATCCGCTTCGGCTACGGCCTTAACGAGAACAGTAACCAGGGCAGGGCGGCCAAGCTGTTCGCCGAGGAAGTGGCCAAGGCCTCCGACGGCAAGCTGAAGGTGCGTACCTTCGGCGCCGCCAGCCTGGGTTCCGATGACCAGATGCAGAACGCGCTGATCGGTGGCGCCCAGGAAATGATGGTGGGTTCCACCGCCACCCTGGTGGGCATCACCAAGGAAATGGCAGTGTGGGACACGCCGTTCCTGTTCAGCAGCGAAAAGCAGGCCGACGCCGTGCTCGATGGTCCGGTCGGCCGGCAGATCATGGACAAGCTGGAAGAAAAGGGCCTGGTCGGCCTGGTCTACTGGGAAAACGGCTTCCGCAACATGACCAACAACGTGCGGCCGATCGCGAAGATGGAAGACTTCCAGGGCATCAAGCTGCGTGTGATGCAGAACCCGGTGTTCCTCGACACCTTCAACCGGATGGGCGCCAACGCGGTGCCGCTGCCGTTCTCCGAGCTGTTCACCGCGCTGGAGACCAAGGCCGTGGACGGTCAGGAAAACCCCTACAACACCATCCTCTCGTCGAAGTTCTATGAGGTGCAGAAGTACCTCACCGTGACCAACCACGTGTACAGCCCGTGGATCGTCACCGTGTCCAAGCGCTGGTGGGACGGCTTGTCGCAGACCGAGAAGGACATCCTCATGGAGGCGGCGAAGAAGGCCCGTGACTTCGAGCGCCAGGACACCCGCGAGGAAGCGGCCAAGGCCCTGGCCCAACTCAAGGAGAAGGGTATGCAGGTCAACGAGATCAGTGCCGAGGAAGTCCAGCGCATGCGCGAGCAGGCGCAGCCGGCGATCCAGAAGGTGATCGACACCGTGGGCCAGGAGCTGTTCCAGCAGGTCCAGGCCGAGCTGGAGAAAGCACCGCAGTGA	MRRSLIAALAAAVLLSPLASLSAQADDIRPRMIRFGYGLNENSNQGRAAKLFAEEVAKASDGKLKVRTFGAASLGSDDQMQNALIGGAQEMMVGSTATLVGITKEMAVWDTPFLFSSEKQADAVLDGPVGRQIMDKLEEKGLVGLVYWENGFRNMTNNVRPIAKMEDFQGIKLRVMQNPVFLDTFNRMGANAVPLPFSELFTALETKAVDGQENPYNTILSSKFYEVQKYLTVTNHVYSPWIVTVSKRWWDGLSQTEKDILMEAAKKARDFERQDTREEAAKALAQLKEKGMQVNEISAEEVQRMREQAQPAIQKVIDTVGQELFQQVQAELEKAPQ				NA	NA	NA	NA	NA
BMS010_06777	1020	gntR_3		HTH-type transcriptional regulator GntR	ATGAGCCAACGTCGTCGCCGCTCCGCCGAACGTGTCACCCTGTCCGATGTGGCCCAGGCCGCCGGTTGTTCGCTGATGTCCGCCTCGCGGGCGTTGTCGCAGCCGGAGCGGGTATCGGATGCGTTGCGCGAGCAGGTGATGAAGGCGGTCAAGGCACTCGGCTATGTACCGCACCCGGCGGCACGGGCGCTGGCCAGTTCCAAGTCGAACCTGGTGGCAGTGGTGATTCCGTCGCTGTCCAACTCGGTATTCGTCGATACCGTCGAGGCCATCCAGCGGGTCCTGATGCCGGCCGGTTTCGAGATGATGATCGGCGTCAGCCACTACCGCGTCGAGGAGGACGAGCGGCTGCTACGGGCTTTCCTGGCGCACCAGCCGGCCGGGTTGCTGGTCACCGGCTTCGAGCGCAGCGACGCGGCCCGGGAAATCCTCGGCAGTTGCCGGGGCCCCGTCGTCACCCTGATGGAATTGAGCGAAACCGAGGACGACTACTGCGTCGGCTTCTCCCAGGTGGAGGCGGGTGCGGCCATGACCCGTGCACTCATCGAGCGGGGTTATCGGCACATCGCCTTCGCCGCGACGCAGCTCGACCCGCGTACCCTGCAGCGTGCCGAAGGCTATCGCCAGGCCATGCGCGAGCAGGGGCGCCACGACCCGAACCTGGAGCTGCTGACGTCGGAGTTGTCCTCCATCGGCCTTGGTGCCGATCTCCTGGATCGCCTGCTGGCCCGGCATCCCCAGGTCGACGCGATCTTCTTCAACAACGACGACGTGGCCCTGGGCGCACTGTTCCGTGCGCGCCAGCTCGAGATCGCCGTTCCGCAGCGGCTGGCCATCGCCGGCTTCAACGACCTGCCGGCCGCCGCCTGGGTGCATCCGGCGCTGACCACCGTGCGTACGGCACGCGGCCGCATCGGGCAACTGGCGGCGGAAATGCTGCTCGGCCTGATGCGCGGCGAGCAGCCCACGCAACGGCGGATCGACGTGGGGTTCGAAGTCGTTCTGCGCGACAGTGCCTGA	MSQRRRRSAERVTLSDVAQAAGCSLMSASRALSQPERVSDALREQVMKAVKALGYVPHPAARALASSKSNLVAVVIPSLSNSVFVDTVEAIQRVLMPAGFEMMIGVSHYRVEEDERLLRAFLAHQPAGLLVTGFERSDAAREILGSCRGPVVTLMELSETEDDYCVGFSQVEAGAAMTRALIERGYRHIAFAATQLDPRTLQRAEGYRQAMREQGRHDPNLELLTSELSSIGLGADLLDRLLARHPQVDAIFFNNDDVALGALFRARQLEIAVPQRLAIAGFNDLPAAAWVHPALTTVRTARGRIGQLAAEMLLGLMRGEQPTQRRIDVGFEVVLRDSA				NA	NA	NA	NA	NA
BMS010_06778	4239	pal_6		Peptidoglycan-associated lipoprotein	ATGGGATTCGCCTGGCTGTTTTCGTTGATGCTCGCCCTGTCGCACGTGCCTCAGGCATCGGCGGAAGTACTGGGTGAATGTCGCTTGTCCGACCCCAACTCCCGGGGCGAGCACACCGATGAAATCTGCTGGCTGCAGTTCGGCAGTGCCGGGCAACTGCTCGCGTCCGGCTACAACGACGACTACCTGTTCACCCTGCCGGACGGCTCCACCCTGCGCCTGCACATGGCGGTGAGCAACGGCGGGACGCTGCAGGTCTCCCAGGCACCGACATGGACCGGCTCGAACTTCAGCGGCGACACCGACTTCTATCGCCTGCTGACGCCGAATGCCGCGGCGCTCTACACGGAAACCAACGGCAGCGCCAATGGGACCGTGGTCACCCTGACGAACATCCGCCTGTTCAACCCGGCCGGCGCCGAGGTGATCGAGCCCTACGAGATCGTGGTGGCGGACGCCGAGCGCCTGAACAGCAACGGGTTGCCCGGTTTCACCCGTGGCGAGCGCCTGGACTTCGGTGTGGTGTCCGGCGGTACCGCCTGGCAGACGGTGGAGTTTCTCGGCGACGCGCCGGCAAGCGCGGTGACGCGGCTGTCGTTGCCGGAGGACGGCGGCCCGACCTCGGTCTGCGAAGGGGCCATCGACTGCGTGCGTTTCCGCGGCGAAACCCGTAGCGACGCGAATGCCGTGGTACTGGCCACCCGTAAGGACGTGGCTGGCAGCCAGCCATTCAGCATCGTCGGGCAGATCCATTCCATGGCGTCCCAGGGCTTCGCCTATGGGCTGCGCTGGGGTGGTGCGCGCCTGCGCAAGCGTCTGCCGGCCGGGCGTCTGGAGCCGGCCGACCAGTTCGTCTACCGCATCGAGAACGTGGTGGGCGCGACCATTTCCAGCCGCACCACCAGCGGCAACGCGTCCGGTAACTATCCCTATATCAGCGGCCAGGTAATGCCCGGCAACACCCTGAGCCTGATCGAAGAGATGGCTCCCGGCAGCGCTTCGACGCTGCGCCAGTACGATCGCAGCATCGCTTGTGTCAACACCAATACGGGCTCTACCACGCCATTGCCGAGCGGCACCTACGATCCGGCCGACCCGCCCAGCCTGGAGCTGCAACTCGCCGACACGGTGGATTGCACGATCAGCAACGTACCGCGCCTGGTCGATCTGTCTATCGCCAAGAGTGCCTCCGCCACTGCCGTGAGGGCAGGGCAGGCGTTCACTTACAGCCTGCGGATCGGCAACCGCGGCACCCACGACGCGACCAACGCGACCTTCACCGACCGGCTGCCCGTGGGCATCAGCGGCCTGAGCGCGGCCGGCGTGACTTGCGGCAGTGCCAGCGGCGGAGCGGTGTGCGGCGACCTGGGCATCACCATCAGCGGCGATGCGACGAGCGGGTTCGTGCTCAGCGGCCGTATCCAGTCGTTGCCCGGCACCAACAGCGCCGGTTCGGCGGGCAGTGCGGTGACCGTGACCGTCCAGGTCACTGCGCCGACGAGCGCCGGGAATATCACCAACAACGCCTCGGTGGCGCTGTCTACGGACGACTCCACCGTTGGCGAGCCCACATCGCGCCAGGACGACAACCAGAGCAGCGTAACGGTGACGGTCAGCGAGCCGACCGTCGATGCGGTGGACGACCGCTATACCCCGACGCGCGGTGACACCCGTGCCGGCAATGTCTTCGACAACGACAGCCTGAACAGCCGGACGGTGGCGCCGGCCGATGTCACCGCGACCCTGGTCGGCGATCTGCCGCCGGAGCTGACCTTCGACCCGGCGACCGGCGAGGTCGGCGTGCAGCCGGACAGCCCGGCGGGTTCCTACAGCTTCGTCTACCGGCTGTGCGAATCGGCGAGCACGGTCAACTGTGACGAAGCCACCGTGACCGTGGTGGTGACGGCCCTGGCAATAACCGCCACGGACGATACCTTCGTCACCGGTTCGGGTGCCTCCGGCGATCCGTCGCTGGGCAATCTGTTCGATAACGACAGCCTGAACGGAACCGTGGCCGATCCGTCCACGGTCATCCTGACACTGGTCGGCACGCCGCCGTCGCCATTGCTGGTCGATACCCAGACCGGTGTCGTCGGGATCAATCCCGGCACCCCGGCGGGCGACTACAGCGTCGATTACCGCATCTGCGAGCGCGCCGTGCCGGATAACTGCGCGACCGCCACCATCACCGTGCGGGTCGCGCCGCCGATCATCGATGCGCTGGACGACGACTACAGCACTTCGACCATCGAAGCGCTGACCGGCGGCGCGGTGGGCAACGTCCTGGGCAACGATTCCCTGAACGGCATCGCGCTGGCACAAGGCGCTGTGACCCTGGAGCAGATCGGCAGTTCCAGCCCGGATGTCAGCCTCGATCCGGCGACCGGGGCAATCCGTGTGGCCGCGAGCGCTTCGTCGGGGACCTACACGCTCGACTACCGCATCTGCGATGCGCTCAATCCGAGCATCTGCGACACCGCCCGGGCAACGGTGGCGGTGGCCGGCAGCATACCTGTGCGCCTGAGCAAGCAGGCCAGCCCGCAGAAGGTGAAGATCGGCGATCTGGTGCGCTACACCCTGGTGGCGGAAAACACCGGCAGCACCGACCTGACCGGCGTATCGCTGGTGGATACGCCGCCGGCGGGCTTCAGCTATGTCGACGGTTCGCTGGCCGTGAGCGACCGCGATGGCGTCGCCCATCTCGCCGGCCTCGATCCGCTGCGGGTCGAAGGCCTGTCCGTGGCCGCAGGCGGTCGCTTGACCATCAGCTATTTCCTGCGCGTCGGCGCCGGCGTCGTCGCCCGCGGCGAGTACGTCAACAGCGCCCGCCTGATGCTCGCCGGCAGTGTCATCAGCAACGTCGCGCGGGCTTCGGTCCAGCGCGAGGCCGATCCGCTGTTCGAAGATGCCCGCGTGCTCGGCACGGTCTTCCTGGATCGCGACGGCGATGGCTGGCAGGACAGCGCCAAGGCCACTGGGCTGAAGGTCCATGGCGGCTTCGCAGCGGACGCCTATGTGCCCGCTTCGACCCTGGTGGACCGTGGCGACGGGCCGCACCCGGAGCCGGACGCCAGCGCACCATTGCTGCATGGCATCGTGCTGGGCGATCTGCTCGGGCGCCGTTCGCCGGACGAGTCGGCAGGGCAGCGGCGGATCACCATCAGCCAGCGCTTGCGCAGCCCGACCTTCACCGATGACTTCGAATTGCGCAGCGCCGAAGGCACGCTGCTGCGGATGCGCGCCGACGGCAGTGAGACGGTGACGCGTGAGGGCGATGCCGCACGTGGGCTTGGAACCCAGGATCTGCGCGTAACGCGTCATGTCGCGGTGACCGACGGCGGCGAGTACTGGGTAACCTACGAAATCGTCAACGCGGGCGTCGACGAGCCGGGTCTGCCGGGCGTGCGCCTGGGAACGGTGGAAGGGCTGCTGGTGGAAACCGATTCGCGCGGCCGTTTCCATCTGGAAGGGTTGGACGTCGAGCATATCGGTCGGGGCCGTAACTTCATCATGAAGGTGGACACGGCGACCTTGCCGGCCGGCAGCCACTTCGTCGATGGCAATCCGAAGGTCAAGCGCATCACCCAGGGCATGCCGGTCCGTTTCGATTTCGCCGTGCAGGCCCCGGAGCAACCCTGGCACGCACCCGAGCGGGTCGAGCTGGAGCTGGGTGAGGTGGTCTTCGCGCCGGGCAGTGCGGAAATCCGTCCCGAGTACACGCCGGCCATCGACACCATGGTGCGCATCCTTGGCGAACACCAGGGCGGCGATGTGGACGTGGTGGGGCACGCCGAACAACCGGCGCTCGCCTTGCGCCGGGCCGAGGCGTTGCGCGATGCCTTGTTCGCCAGGGTCTCTCCGACGGTGCGCGAACGCCTTGGCATCCGTGTGCGGCCGGAAACCCGCAGCCTTCTGCGGCTGAGCGGTGAACAGGTGCGCCTGGGCGAAGTGCTGTTCGAAACGGACAAGGCCGAGGTCCGCCCGCGCTACCAGGCGCTGCTGGATCAGCTCGCGCAGCAATGGCTGGCCCGCCAGGCCGCCGGGATGGACAGCCGCCTGGTGATCGTCGGGCATGCCGATCGTCGCGGTTCCCAGGCCTACAACCAGGCCCTGGGTCTGCGCCGGGCGAAGGCGTTGTTCACCGCGCTCGCCGAACGCCTGCCGCCAGGGGAGAGGGCGAGGCTCAGGGTGGAGGTGGATCACGGAAGCCTCGATCCGGTACGGGAGGGCGCGCTATGA	MGFAWLFSLMLALSHVPQASAEVLGECRLSDPNSRGEHTDEICWLQFGSAGQLLASGYNDDYLFTLPDGSTLRLHMAVSNGGTLQVSQAPTWTGSNFSGDTDFYRLLTPNAAALYTETNGSANGTVVTLTNIRLFNPAGAEVIEPYEIVVADAERLNSNGLPGFTRGERLDFGVVSGGTAWQTVEFLGDAPASAVTRLSLPEDGGPTSVCEGAIDCVRFRGETRSDANAVVLATRKDVAGSQPFSIVGQIHSMASQGFAYGLRWGGARLRKRLPAGRLEPADQFVYRIENVVGATISSRTTSGNASGNYPYISGQVMPGNTLSLIEEMAPGSASTLRQYDRSIACVNTNTGSTTPLPSGTYDPADPPSLELQLADTVDCTISNVPRLVDLSIAKSASATAVRAGQAFTYSLRIGNRGTHDATNATFTDRLPVGISGLSAAGVTCGSASGGAVCGDLGITISGDATSGFVLSGRIQSLPGTNSAGSAGSAVTVTVQVTAPTSAGNITNNASVALSTDDSTVGEPTSRQDDNQSSVTVTVSEPTVDAVDDRYTPTRGDTRAGNVFDNDSLNSRTVAPADVTATLVGDLPPELTFDPATGEVGVQPDSPAGSYSFVYRLCESASTVNCDEATVTVVVTALAITATDDTFVTGSGASGDPSLGNLFDNDSLNGTVADPSTVILTLVGTPPSPLLVDTQTGVVGINPGTPAGDYSVDYRICERAVPDNCATATITVRVAPPIIDALDDDYSTSTIEALTGGAVGNVLGNDSLNGIALAQGAVTLEQIGSSSPDVSLDPATGAIRVAASASSGTYTLDYRICDALNPSICDTARATVAVAGSIPVRLSKQASPQKVKIGDLVRYTLVAENTGSTDLTGVSLVDTPPAGFSYVDGSLAVSDRDGVAHLAGLDPLRVEGLSVAAGGRLTISYFLRVGAGVVARGEYVNSARLMLAGSVISNVARASVQREADPLFEDARVLGTVFLDRDGDGWQDSAKATGLKVHGGFAADAYVPASTLVDRGDGPHPEPDASAPLLHGIVLGDLLGRRSPDESAGQRRITISQRLRSPTFTDDFELRSAEGTLLRMRADGSETVTREGDAARGLGTQDLRVTRHVAVTDGGEYWVTYEIVNAGVDEPGLPGVRLGTVEGLLVETDSRGRFHLEGLDVEHIGRGRNFIMKVDTATLPAGSHFVDGNPKVKRITQGMPVRFDFAVQAPEQPWHAPERVELELGEVVFAPGSAEIRPEYTPAIDTMVRILGEHQGGDVDVVGHAEQPALALRRAEALRDALFARVSPTVRERLGIRVRPETRSLLRLSGEQVRLGEVLFETDKAEVRPRYQALLDQLAQQWLARQAAGMDSRLVIVGHADRRGSQAYNQALGLRRAKALFTALAERLPPGERARLRVEVDHGSLDPVREGAL				NA	NA	NA	NA	NA
BMS010_06779	3672			hypothetical protein	ATGAGCCAGCTCATTCGCAAATCCCGTGTCTCCCATGGCCTGCCGTTGAAACCATTGGATGCGGCGATCCTCTTCGCCCTGGCGATGGGCGCTGCGCAGGCGGAAACCCGCGGCCCGTTGGATTGCGACGCGCAAGGTTGCGCCAGTGATGGTCAACCGGTGGTCCGGGTGATCAGCAAGGGGGAAAGCGAACCCCTGCCCGCCGGCTCCTCGCCGGATGCCGACGGCTTGGCGCGCGAGCGCCGGGCAACGGTCGATCTGCAGCAGTTACCGCCTGGGAAGGCGTCGGCACGGCTCACCCTGGAGTTGCCGGGTGGCGGCTCGATCTGGGCCACCGAGGACCCGGCGCTGACCGAGCCGGTGCTGAACGTCCAGGGCAGCCCGCAGGCGGCGTTCGCCCAAGGACGCCTGACCGAACCGGTGCGCTTCCACGTCTATAGCAACTACGCCGGGTTCATCGAACGGATGGAACTGGTGCTCTATCGCGGCAACGATATCGACCGGGTCACGCCGCTGGCGACGCAGGCTATAGAGCCGGGTGTTTCCCGTGAGCTGGCCTGGAATATCGACCTGCCGGAAGGTACCCACCTGCGTCAGGGCGATGAGTTGCAATACGTGTTACGGGCCTACGGTGCGGACGGCAGCGTCGACGAGACCTGGGCGCAGCGCATACGACTGGTGCGCCCCGAAGACCGCCGTCGCAGCCTTGAGCAGCAGCGCCTTTCGGCGGGCAGTGAATTGCGCGACCTTTCTGCCGAGGCGCTGGAGAGCCGCCGACTGCTGTCCGAAAGCTACGGGCGCGGCAGTGCGTTGCGCCAGCAGAACATTCCGATCCATGGCTCGCGGGTCCGTGTGTCCGGCCAGGACATTCCGGACGGCTACCAACTGAGCATCAACGGGCAGCCGGTGCCGGTCGATCTGGAACGCAAATTCGTCGCGGAATACCTGCTGCCGGTGGGCAGCCACACCTTCGATCTGCGTCTGCGTAACCGCGACAAGGAAATCGACCGGCAATTACAGGTGGACGTCACCGGCCGCTACCTGTTCCTGGTGGCGATTGCCGATGTCACCGCCTCGGAAAACCGCGTCAGCGGTGCGGTGGAAGCGTTGTCCGCGGACGACCGCTACGAGGACTTCCTGGTGGATGGCCGGCTGGGCTTCTATCTGAAAGGTAAGATCCGTGGCAAATACCTGATCACGGCCCAGGCCGATACCCGCGAGCAACGGGCCGGCGACCTGTTCAGCGGCTTCTTCCGGGCCGATGCCCAGGACGTTTTCCGGCGCCTGGACCCGGATGCCTATTACCCGGTCTACGGCGACGACTCGACCACCCGACGCGACGTCGACACCCAGGGCAAGCTCTACGTCCGGGTCGACTGGGACCGGAATCAGGCGCTCTGGGGCAACTTCCAGACCGGCCTGACCGGCACCGAGTACGCCCAGTACGTGCGCAGCCTGTATGGTGCCGCGCTGAAATGGCGTAGCCGCGACAGCACGGACCTGGGCGAGGCGCGCAGCGAAGTGCGGGTGTTCGGCTCGGAAGCGCAGACGTCACTGGGGCACAGCGAATTCCTCGGCACCGGGGGTAGCCTCTATTACCTGCGACATACCGATATTCTCCGGGGCTCCGAGCAGGTCGTGCTGGAACTGCGCGACCCGACCACCGGCCGGGTGGAGGCGCGTACCGTGCTGGTCCGCGACGTCGATTACCAACTGGACGAGCTGCAGGGGCGCATGATCCTGACCCGGCCGCTGCTGCAGATCAGCCGGGAGAATGCGCCGACGCTGACCCGCGATACGCCGCTGGGTGGTTACACCAATGTCCTGCTGGTCGATTACGAATACATCAGCCGCGGCATCCGCTATGGCGAAGTCACCGCTGGTCTGCGTGGCAAGCAATGGTTCGGCGAGCACTTGGCTCTGGGCGGCACCTACGTCGATGAGAACCGGGCCGGCGACGACTATCGCCTGATGGGTGTCGATACCACCCTGCAGGCGGGGCGCGGCACCTACCTCAAGCTGGAGCAGGCCCACAGCGAGTCCACCTCCGCACCGGTGTTCTATTCGGACAACGGCGGCTTGAGCTTCGCCCGGCTCAACCCGAACGGCCGCCGCGAAGGCGATGCCCAGGCACTCGAAGCGCGGGCCAATCTGAAGGAGCTGGGGCTGCTCGACAACGAGTGGGCGCTGGCCGGCTGGTACCGGCTGGTGGATTCCGGCTATTCCATCAGCCGCTTCGACATCGGCATGCCGGTGGTGGAGAAGGGTGCGGAGTTCTCCGGCGAGCTGAGCGAGACGCTGGAGCTATCCGGACGGGCGAGCCGTGCCGAGCGCGGTATAGATCGCTTCGACCAGGCCCAGGTCGGCGCGGGCTGGCAACTGAGCGAAGACGACCAACTGGATGCCGAGCTGCGCCAGACCACCGAGACGCGCTCATCGGATGCGGTGGAGGGAACGCTGGGCGCCCTGCGCTATACCCGGCGGATCACTCCATCGCTGGAGGTCTACGGCGTCGGCCAGCTCACCCTCGACAATGACAATGGCCGTTACCGCGACAACGATGCGCTGACGCTCGGCGGCAAATACCTGTTCGGCGATCTCTCCAGTGTCGGCACGGAAGTGACCGGCGGCGATCGCGGCAATGCCGCCAGCATCAACGGCGAATATCGGGTTGCCGCGGACCACAGCCTGTATGGCGGCTACACGGTGACCACCGACTCCAGCGCGGAAACCGACCCGCTGTTCGGCGGCAAACCGGGTGGGCTGACCCTTGGCCAGCGCTGGCGGCTGTCGAACCAGGCCAGCCTGTTCAACGAAAGCCAGTGGCTCAAGTCCGGAGAGGAGCAGGGCATCGCCCACACTTTCGGCATGGACTTCTACCCGGTCGAAGGCTGGAACTATGGTTTCACGGTGCAGGAAGGCGAGCTGGAGGCCGTCAGCGGTGTCGTCGACCGCCATGCGCTCAGCGTGCGCGGTGGCCATGTCTCGGCGAAGACCACTTGGAGCAGTGCCTTGGAGTACCGTCGCGACACTGGCGCGGAGGAACGCCGTCAATGGCTGACGACCCATCGCATGCTGCACAAGCTCGACGAGTCCTGGCGCATCGCTGGTCGCCTGAATATCTCCGATACCCGCGACCAGATCGACACCCGGGCCGGCGCACGTTTCGTCGAGTCGAACCTGGGCTTCTCCTGGCGTCCGGCGGACAACACGCGGTGGGGCTTGCTCGGCAAGTACACCTACCTTTATGACCTGTCCACCCTGGGCCAGGAGGGCGATGTGTCCCGTTTCGACCAGCGCTCCCATGTACTCGCGCTGGAAGGTACCTACCGCTTCGACCAGCGCTGGGAGTTCGCCGGCAAGCTCGCCGAGCGGCTGGGGCAGGCCAGGGCGGGGCGGTTGGAAGGCGAATGGTTCGACAGCCGGGCGAGCCTGGCGGCGGCGCAGATGCGCTATCGCCTGCAAGGCGCCTGGAGTGCCCTCGGCGAATACCGGGTGCTGGAGGCGAAGGATGGTGGGGCACGTCAGGGCTGGCTGGTGGGCGTCGATCGCGATGTCGGCGAGAACTTCCGGGTCGGTGCCGGCTACAACTTCACCGACTTCAGTGACGACCTGACGCGGCTGGATTATCGCTACCAGGGCTGGTTCCTCAACTTCGTCGGCTTCTATTGA	MSQLIRKSRVSHGLPLKPLDAAILFALAMGAAQAETRGPLDCDAQGCASDGQPVVRVISKGESEPLPAGSSPDADGLARERRATVDLQQLPPGKASARLTLELPGGGSIWATEDPALTEPVLNVQGSPQAAFAQGRLTEPVRFHVYSNYAGFIERMELVLYRGNDIDRVTPLATQAIEPGVSRELAWNIDLPEGTHLRQGDELQYVLRAYGADGSVDETWAQRIRLVRPEDRRRSLEQQRLSAGSELRDLSAEALESRRLLSESYGRGSALRQQNIPIHGSRVRVSGQDIPDGYQLSINGQPVPVDLERKFVAEYLLPVGSHTFDLRLRNRDKEIDRQLQVDVTGRYLFLVAIADVTASENRVSGAVEALSADDRYEDFLVDGRLGFYLKGKIRGKYLITAQADTREQRAGDLFSGFFRADAQDVFRRLDPDAYYPVYGDDSTTRRDVDTQGKLYVRVDWDRNQALWGNFQTGLTGTEYAQYVRSLYGAALKWRSRDSTDLGEARSEVRVFGSEAQTSLGHSEFLGTGGSLYYLRHTDILRGSEQVVLELRDPTTGRVEARTVLVRDVDYQLDELQGRMILTRPLLQISRENAPTLTRDTPLGGYTNVLLVDYEYISRGIRYGEVTAGLRGKQWFGEHLALGGTYVDENRAGDDYRLMGVDTTLQAGRGTYLKLEQAHSESTSAPVFYSDNGGLSFARLNPNGRREGDAQALEARANLKELGLLDNEWALAGWYRLVDSGYSISRFDIGMPVVEKGAEFSGELSETLELSGRASRAERGIDRFDQAQVGAGWQLSEDDQLDAELRQTTETRSSDAVEGTLGALRYTRRITPSLEVYGVGQLTLDNDNGRYRDNDALTLGGKYLFGDLSSVGTEVTGGDRGNAASINGEYRVAADHSLYGGYTVTTDSSAETDPLFGGKPGGLTLGQRWRLSNQASLFNESQWLKSGEEQGIAHTFGMDFYPVEGWNYGFTVQEGELEAVSGVVDRHALSVRGGHVSAKTTWSSALEYRRDTGAEERRQWLTTHRMLHKLDESWRIAGRLNISDTRDQIDTRAGARFVESNLGFSWRPADNTRWGLLGKYTYLYDLSTLGQEGDVSRFDQRSHVLALEGTYRFDQRWEFAGKLAERLGQARAGRLEGEWFDSRASLAAAQMRYRLQGAWSALGEYRVLEAKDGGARQGWLVGVDRDVGENFRVGAGYNFTDFSDDLTRLDYRYQGWFLNFVGFY				NA	NA	NA	NA	NA
BMS010_06780	1746	sasA_21		Adaptive-response sensory-kinase SasA	ATGCAGCAGTACGGGTTCGGGCGCTTGATGCGTGGGGTGGTCGGCTCTTCTCTCGTATGGGGAGGATTGCTGGCCGCGGCGGCTGTTGCAGTACTGGTCTTCCTGCTTTCGCAGGTCCAGGCGGTCAACTGGCGTGAGCACTATGAAATGCGTGACGCGATTCGTGAACTGCAGGAACTGGACATGCAACTGAATGTCCGCTTGCTCATGGCGCGCCAGGATCTCCCCCAGGAGGAGCACGCGATCGCTGGCGTCCAGGCCCGTATCCGCGAGACCGAAGACCGCGTGTTCGGCGACATCAAGGCCAGCGGTACCAGCCCGGCGGACCCGGCTCGCCTCGGCCACGGCGACGAGGCTGCACTGGTTCTGGAGTATTACGGCGCCAAGAGCAAGAAGCAGGAACTCATCGAACAGTTCCTTTCCCTGAACACGACGCTCAAGGACACGGTGGATCAGGCCGTCTTCGAGCTGAACCGTCTTTCCGGTCATTCGGCCGCGATGGAGACCCAGGCCAATGCCCTGCGCCTGTTGCTGTTCCTCTACCTGCACGATGGCAGCGAGGATTCCGCGAAAAAGTTGCAGGATCGCCTGGATGGCCTGTTGCAGGACTCGGCCGCACGCGCGGACAGCGACACCTTCAAGCTGGTCGAGGCGCTCGGTACCAATATCCTTTATATCCTCCAGCAACTTCCCAACCGGGATGCCGCGCTGCTCGGTATCGTCAATGCGCCCACGTCCACGCTCAGCGATATCCTCAACGCCTATACCCAACGCTACTCCGACATCTTCCGGCGTGCCGAGACCTACCGGCTGGCGCTGATCGCCTATGCGGCCATGCTGCTGCTCGTGCTGCTGGTCCTGGCGCTGCGCCTGCGCCACAGCTATGCGACCCTCGAGCATCAGGTAGGCGAGCGCACCCAGCAGTTGGCGAAAGCCTACGACGAGCTAAAACAGTCTCAGCTGCAGATGATGCAGACCGAGAAAATGGCATCGCTGGGGCAGATGGTCGCCGGGGTCGCCCACGAGATCAACACACCGCTCGGCTTCTCGCGCAGCAACGTCGAGATCGTGCGGGAGCGTCTCGGCGAAATGGGGCAGGTCTTCGATCGCTTCGTCGAGGTGACGGCGGATACCTTGGCGGCAACCGATCCGGAAACGGCTCACCATGCCCGCCAACTGCAGGAAGAGCATTGCCGGGAGGAAATGGAAGAGCTGCTTCTGGCTACCGGGGAAGGGCTGAATCAGATCAGCGAGCTGGTGAAGAGCCTGCGCGACTTCAGTCGCCTCGACCGCAGCAAGAACGACCGCGTCGATCTCAACAAGGGGATCGACGATGTGCTGCGTATCGCCAACAACACCTTGCGCAAGCGCAATGCCCAGGTGCACCGCGATTACGCCGAACTCCCCCTGGTGGAATGCGCTCCCTCGCAGATCAACCAGGTCCTGCTCAACCTCATCGTCAATGCGGCGCAGGCGCTCCCGGAACAGGGGGGAAACATCGCCATCGGTACGCGGGTCAATGGGCGTTTCATCGAGATCACTGTGGAAGACGATGGTCACGGTATCCCGGCCGACCTATTGCCGAGAATCTTCGATCCATTCGTCACGACCAAGGAAATAGGCAAGGGGACCGGACTGGGATTGTCCATTGCTTACCAGATCGTCCAGGACCATGGCGGCGCGTTGACGGTTGAGTCGACGCCCGGCACGGGAACCTGTTTCACTCTCAGCTTGCCGGTAACCTGA	MQQYGFGRLMRGVVGSSLVWGGLLAAAAVAVLVFLLSQVQAVNWREHYEMRDAIRELQELDMQLNVRLLMARQDLPQEEHAIAGVQARIRETEDRVFGDIKASGTSPADPARLGHGDEAALVLEYYGAKSKKQELIEQFLSLNTTLKDTVDQAVFELNRLSGHSAAMETQANALRLLLFLYLHDGSEDSAKKLQDRLDGLLQDSAARADSDTFKLVEALGTNILYILQQLPNRDAALLGIVNAPTSTLSDILNAYTQRYSDIFRRAETYRLALIAYAAMLLLVLLVLALRLRHSYATLEHQVGERTQQLAKAYDELKQSQLQMMQTEKMASLGQMVAGVAHEINTPLGFSRSNVEIVRERLGEMGQVFDRFVEVTADTLAATDPETAHHARQLQEEHCREEMEELLLATGEGLNQISELVKSLRDFSRLDRSKNDRVDLNKGIDDVLRIANNTLRKRNAQVHRDYAELPLVECAPSQINQVLLNLIVNAAQALPEQGGNIAIGTRVNGRFIEITVEDDGHGIPADLLPRIFDPFVTTKEIGKGTGLGLSIAYQIVQDHGGALTVESTPGTGTCFTLSLPVT				NA	NA	NA	NA	NA
BMS010_06781	969	cheB_12		Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGTCAGCCATCCCAGCGTATGAAATTCCCGAACGGGCGACCGTACTGTTCGTCGACGATGAGCGCTACATCCTGATGAGCCTGTCGTCGTTGTTCCGCAGCAGTTACCGGGTGCTGAGTACCACGGACCCGAACGAGGCCCTGGAAATCGTCCGCAGGGAAAAGGTCGATGTCATCGTCAGCGACCAGCGCATGCCCCAGATGCTCGGTGCGGAGCTGCTGCGCCGGGTTCGCCGGGTGTCTCCCGGGACCATGCGCATCCTGCTGACCGGCTATTCCGATATGTCCTCCGTCATCAGCTCCATCAACGATGGCGAGGTGTTCCGCTTCATCAACAAGCCCTGGTCCAACGATGAAATGCGCACGCTGGTGGCCAGCGCCGTCCAGATCGCGCGCAACACCGTCAACGTCATACCGCTGGAAGGTGAAGAGGAGCTGGCCGAGGCTGCACCGGTAAAGGTCTCGCCGATCGATGCAGGGGTGTTGGTGATCGACGACGAAGGAGACCTGGCGGACGTCTGCCGAGACGTCATGGAAAACTCCTCCCGCTGTTTCGTCGTACGCGACCTGGACAGCGCCTTGCGGGTGCTGGACCGGGAAAACGTCGATGTGGTGGTTTCCGACGTCAGCGTGGCAGGCCAGGACGTCAGCGATTTCGTCAAGGTGCTCAAGGCCATGCACCCGGCGATTTCCACCATCGTCACGTCGCGCAATCTGGACTCCAACGTCGCGATCAACCTCATCAACGAGGGGCAGATCTATCGCTACCTCAAACGCCCCGTGCAGAAAGGCATGATGCGGCTGAGCCTGATGTCGGCCGCTCGCCATGTCAGCAACGTGCGCGCCGTACCCGAGCTGCAACAACGACATGTGGTCGAGGACATCGGCCAGATTCGCGATCAGAGCCTCTTCAGACGCCTGGTCACGCGCTATTGGCCGTTCCGCAAAGGCGATGCTCCCGACGCCTGA	MSAIPAYEIPERATVLFVDDERYILMSLSSLFRSSYRVLSTTDPNEALEIVRREKVDVIVSDQRMPQMLGAELLRRVRRVSPGTMRILLTGYSDMSSVISSINDGEVFRFINKPWSNDEMRTLVASAVQIARNTVNVIPLEGEEELAEAAPVKVSPIDAGVLVIDDEGDLADVCRDVMENSSRCFVVRDLDSALRVLDRENVDVVVSDVSVAGQDVSDFVKVLKAMHPAISTIVTSRNLDSNVAINLINEGQIYRYLKRPVQKGMMRLSLMSAARHVSNVRAVPELQQRHVVEDIGQIRDQSLFRRLVTRYWPFRKGDAPDA				NA	NA	NA	NA	NA
BMS010_06782	1227			hypothetical protein	ATGGCTCTGTTCAGCCCGCTTTCCTTCGCGATCACCGACGAGGAGGGCACGGCCGGCATGCAGTTCAATTTCTCCAATCCCGGGGCACGGAGCCTGTCCATGGCCGGCGCGTTCGTGGCGTTGGCGGACGATGCTACGGCCGCCTATGCCAACCCGGCCGGGCTTACTCAATTGTCCCGCCGGGAGTTTTCGGCCGAAGGGCGCTACTACGACTACTCCACGCCGCACCTGAGCGATGGTCGGTTGCCCACCGACGGGAGCTTCATGGACGTGCTGTCCTACGGTACGAGCGAGTCTTCCTCCAGCGGGGCGGCCTTCCTGTCGATGGTCTTCCCCTTCGAGCAGGCGACCCTGGCGATCTATCGGCACGAGGTCATGGATTTCAACACGCAGTTCGCTTTCGAAACGGAGGGGGTCAATCCCGCTGCGTTCAAGAGCGATATAGATTTGAAGGATGTGAGTTACGGCGTATCGGCCGGTGTCGCGCTAGGTGAGCGCTTGCGCCTGGGAGCGGGCCTCGTCTGGCACGAATTCTCTATCGACTCGGAAACTGTACGGGATACCAATTTCGGTACCGCGAGCATCCAGACGCAGAAAGGCAAGGATAGCGGCCTCGGCTATATCCTGGGGATGCGTTATCTGATTACCGACGACCTGTCGATGGGGGCTGTCTACCGACGTTCACCACGTCTGCGTTACCAGGCGAGAAGCCTTTCCCTCGACCCCGTTTTCCAGGGGCCGGAACCTATCGAGGTCATGAGGAAGCACAGCGATTTCGACATACCGGATGTCTGGGGTGTCGGAGTGAGCTACCGCTTCAACGAGGCCCTCACGGTCAACCTGGATATCAACCGGGTCCTCTATTCGCAACTGACACGGAACATCACTTCGGCGTTCGATTCGACCACAGCAAGCGATGCTCCGCTTTCCACGCTGAAACTGTCGGACGGTACGGAAATCCGCCTCGGCGGCGAATATGTGTTCGTCGATCTTCCGGTACCCCTGAGCATCCGTGCCGGCGTCTGGCGCGATCCGGAACACATCATCCATTACCACGGCGACGATCCCAACAGCATCGAGTCGCGGATCTTTTCCGCCAGTACGGGTGACCAGACCCACTACACCTTCGGCATGGGATTGGCCTTCGAGCAGTTTTCCATCGATTTCGGCGCCGATCTTTCGAAGTATTACGACACCTACTCCCTGGCTGCGGTGGCCAGATTCTGA	MALFSPLSFAITDEEGTAGMQFNFSNPGARSLSMAGAFVALADDATAAYANPAGLTQLSRREFSAEGRYYDYSTPHLSDGRLPTDGSFMDVLSYGTSESSSSGAAFLSMVFPFEQATLAIYRHEVMDFNTQFAFETEGVNPAAFKSDIDLKDVSYGVSAGVALGERLRLGAGLVWHEFSIDSETVRDTNFGTASIQTQKGKDSGLGYILGMRYLITDDLSMGAVYRRSPRLRYQARSLSLDPVFQGPEPIEVMRKHSDFDIPDVWGVGVSYRFNEALTVNLDINRVLYSQLTRNITSAFDSTTASDAPLSTLKLSDGTEIRLGGEYVFVDLPVPLSIRAGVWRDPEHIIHYHGDDPNSIESRIFSASTGDQTHYTFGMGLAFEQFSIDFGADLSKYYDTYSLAAVARF				NA	NA	NA	NA	NA
BMS010_06783	1266			hypothetical protein	ATGACTATTCGTTTGCGCCTGGCCATTGCGCTGGCATTGATGGGTTCGAACAGCGCTTTCGCCCTCACCGATGATGAGGGTACCTCGGCGGTCCAGTTCAATTTCGCCAATCCGGGCGCGCGTAGTCTGTCGATGGGGGGCGCGTTCGTGGCTCTGGCGGACGATGCCACCGCTGCGTATGCGAATCCTGCGGGCCTGACGCAGCTATCGCGTCGCGAGCTGTCCGTGGAGGGGCGCTACAACCGGTATTCCACGCCGCACCTCAGCGATGTCGAGGAGTCCACGGACGGGAGCTTCGAAACCACGTCCTTTCACGACGAGGCCCGGTCGTCCACCAGCGGCGCCTCCTTCCTGTCTGCCGTCTTCCCGTTCGAACACGCAACGGTCGCCCTGTACCGTCATGAGCTGATGAACTTCAAGACGCGGTTCGATTATCAGCCGGAAAACGCTTTTCTGTTCCCATTCCACAGCCGTGCCGAGCTGAAGGATGTGGCCTATGGCGCTTCGGTCGGCTGGGCCGTGGGAGAGCGCTTGCGCCTGGGCGCCGGCATTGCCTGGCATGGCTTCGAACTCGACTCGCTGACCACACGCGACGCCGACAACGGGGTCACGACCCGGCAGCGCCAGAATGGGTCGGATCATGGCTTCGGCTATACCCTTGGCCTTCGTTATCTCATCACCGACGACCTGTCCTTGGGCATGGTTTACCGGAGGTCGCCACGCTTCCACTACAAGGTGAGCGCGAGCACCGATGAAGCCAACCCCGGCGGCGAACAGGTCGCGTTCGTGAACAAGCAAAGCGATTTCGACATCCCGGACGTACTGGGCGTGGGAGTCAGCTATCGGATCACCCCGGCTTTCACACTCAATTTCGATGTGAACAGGGTTCGATATTCGCAACTGACCGACAACATCAGTTCCCGCTTCGCACCGGAAGGTGCCGATCAGACCGAGGATGGCGATCCGGCATTGCTCAAACTGCGCGACGGAACCGAGGTTCGTTTCGGAGGCGAATACGTCTTCATCGACATGCCGGTCCCCCTGAGCCTCCGAGCCGGGGTCTGGCGCGACCCCGAGCACACGCTCCATTACCGCGGCGACGATCCGTTCGACGGTAACGCCGAAGTGTTCTCGGCGAGAACGGGCGATCAGACCCACTACACCTTCGGTCTCGGCCTTGCCTTCGAACAGTTCTCTGTCGACTTCGGCGCCGATCTCTCGAAGTACTACGACACCTTCTCATTGGCTGCGGTTGCCCGCTTCTGA	MTIRLRLAIALALMGSNSAFALTDDEGTSAVQFNFANPGARSLSMGGAFVALADDATAAYANPAGLTQLSRRELSVEGRYNRYSTPHLSDVEESTDGSFETTSFHDEARSSTSGASFLSAVFPFEHATVALYRHELMNFKTRFDYQPENAFLFPFHSRAELKDVAYGASVGWAVGERLRLGAGIAWHGFELDSLTTRDADNGVTTRQRQNGSDHGFGYTLGLRYLITDDLSLGMVYRRSPRFHYKVSASTDEANPGGEQVAFVNKQSDFDIPDVLGVGVSYRITPAFTLNFDVNRVRYSQLTDNISSRFAPEGADQTEDGDPALLKLRDGTEVRFGGEYVFIDMPVPLSLRAGVWRDPEHTLHYRGDDPFDGNAEVFSARTGDQTHYTFGLGLAFEQFSVDFGADLSKYYDTFSLAAVARF				NA	NA	NA	NA	NA
BMS010_06784	1272			hypothetical protein	ATGAATAATCGCTTGCGCTTGGCCATTGCACTGGTATTGAGCAGTTCGGGAAGTGCTCATGCCATTACGGATGAGGAAGGGACCTCGGGCATCCAGTTCAATTTTTCCAATCCGGGAGCGCGTAGCCTGTCGATGGGCGGTGCTTTCGTGGCCCTGGCGGACGATGCGACCGCAGCCTACGCCAACCCGGCAGGCCTGGTACAACTGACGCGTCGGGAGTTTTCCGCCGAGGGACGTTATTACCGCTATTCCACGCCTTATCTGCGCGATCTGTCATTTGCTGACGGAGGGAACTTCTTCGAGCCCAACTACCAACTCTCTCATGACACATCGGACTCCAGTGCGCGTGGCGTCTCTTTCCTTTCGGCGGTGTTTCCTTTCGAAGCCGCGACGGTGGCCTTCTACCGTCACGAGCAGATGGATTTCAACACCCGGTTCGATTTCATCTCCGATGACTTTGCGTTGTTCCCTTTCTCCAGTCGCATCAAGCTGAGCGACGTCAGCTATGGCACCTCCGTGGGTTTTGCCATCGGCGAGCGTTTACGCTTGGGGGCGGGTATCGCCTGGCACGAATTCGAGATCGACTCCGCAACGACTCGGGACGTGGGCGGCGGTGCCGTCACCCGGCAATCGCAGAAAGGCAAGGACCATGGCTTCGGCTATACCCTGGGTCTGCGTTACCTGCTCTCGGATCGACTTGCCTTCGGCGCAGTGTACCGTCGCTCGCCACGGCTTTATTACGATGTCGTTGCCAGCGACGACTTCGAAACCCCGGGGCAGCAGGTCGCCTGGTTGCGCAAGCGAAGTGATTTCGACATTCCCGATGTGATGGGGGTTGGCCTCAGCTACCGCGTCAACGATGCCCTCACGTTGAACCTCGACGTCAATCGCGTGCTGTATTCGCAACTGACCCACAATATCAGCTCTGCATTCGCGGCCGAAGGCGACGATCAGAACTCGGATGGAGACCTTTCGCAGCTGAAGCTTCGCGACGGGACGGAAATCCGCTTCGGGGGCGAATACGTCTTCTTCGAACTCCCTGTGCCCGTCAGTTTGCGTGCGGGCGTCTGGCGGGATCCGGAGCACACCCTGCATTACCGAGACAAAAACCTGGAAGACGCGAACGCCTTGGTCTTCTCCGGCAGAACGGGCGACCAGACCCACTACACCTTCGGTCTGGGCCTGGCTTTCGAACAATTCTCCGTCGACTTCGGCGCGGACTTCTCGAAGTACTACGACACCTTCTCCCTGGCCGCGGTAGCGCGTTTCTAG	MNNRLRLAIALVLSSSGSAHAITDEEGTSGIQFNFSNPGARSLSMGGAFVALADDATAAYANPAGLVQLTRREFSAEGRYYRYSTPYLRDLSFADGGNFFEPNYQLSHDTSDSSARGVSFLSAVFPFEAATVAFYRHEQMDFNTRFDFISDDFALFPFSSRIKLSDVSYGTSVGFAIGERLRLGAGIAWHEFEIDSATTRDVGGGAVTRQSQKGKDHGFGYTLGLRYLLSDRLAFGAVYRRSPRLYYDVVASDDFETPGQQVAWLRKRSDFDIPDVMGVGLSYRVNDALTLNLDVNRVLYSQLTHNISSAFAAEGDDQNSDGDLSQLKLRDGTEIRFGGEYVFFELPVPVSLRAGVWRDPEHTLHYRDKNLEDANALVFSGRTGDQTHYTFGLGLAFEQFSVDFGADFSKYYDTFSLAAVARF				NA	NA	NA	NA	NA
BMS010_06785	2496			hypothetical protein	GTGACTGAACAATCCCTGGAGAAACGATCCATCAGCCGCCTGGTGAGCCTGCAACACGAACCGGACGGCTCGTTGTTCGTGCTCTCTCCCTACGGACGGGGCAAGGGAACCGTCATGGCCCGTTTCGTCCGGGAAACCGAACTGTTGCACCAGGCCCGGCACCCCAATCTGCTGCGTGGCGTTCAGGAGGGGGCCGAACACAATCGGAAAGCCGAACCCTTGAGCGGTTGCTGGCCTGGCGATGCAGGGTGGTTGTCCACGTTGTCGCTTCGCCAGCGTTTGCGGCTGTTCGCGGAAATCGCCTCGGCGGTTGGCGGTTTGCATCGTGCCGGTGTCGTGTACAGCGTCCTGCATCCGGACCGCATTGGCATCCGGGCCAATGGCGAGGCCGCCCTGCTGGACCTTGGCATGACCTGGATGGTGGGCTCGGTTCGAGGAGGAGGGGACGCGCTCGATTACTGTGCGCCGGAGTGTTTTTCCAACCGTGTTCCAGATGCGCGGGCGGATATCTATAGCCTCGGTCTCCTGCTGCATTACCTGCTGACGGGCGAGCCGCCGCCGGCCCGGAGCCGGGTCGGACAAGCTGCGCGGCTGTCGGCCTTGCCCGACAGTCTCGCCGACCTGCAGCCGCTCCTGACGTTGATGCTGGTGGACCAACCGACGCAGCGGCCAAGCAGCGTGACCATGTTGCTGGACCAGCTCAATGCCCTGGTGATGCGTTCGTCACGTCTGGCCGCAAGGCTGGAGGCCGACCGGGATATCGGCGAATTGCCGTTCGAGCGCTTGCTGACCCCGCTGTCCGCCTTGTCGCAACGTCCTGCTCTGGCGGCTAGCGCGGGAGCGCAGGTGGACAGCATCGAGGCCAGTCGCTGGGAAGTTTCCGTCGGCACCTCCCGCTGGAGCCTGTGGTCGCTGGGCCTGGGCATTCCGGTGATTTGCGGCGTGGCCTTGCTGTTCTGGTTGCAGACCCGGCCGGAGGAGGAGTTGGGTCTGATCGAGAAGCTGGTGCTGCGCGCCGATACCCAGCTCAAGGAGGGCAAGTTGTTGCTCCCCGCCGAGGACAACGCGCTGGACACCTTGCGCACCTTGCGCATCGCGGATCCGGATAACGCGAAACTGTCGGCGCTGTCGGAGCGAGTCGAGGAGGGGGCTGGCCAGTCCGTGCTGGAGGCGCTTCGCCAGGGCCGGTTGGATGAGGCGGATCTGGCGTTGAGCCGTGCGATCCGGGCGTTTCCCGACGATCCGAAACTGGTGGCCTTGTCGGGAACCCTGGCGCAGGCACGACGAGAAGCAGAGGAGCGGGATCGTCTGAATCGTCTCTTCGCCAAGATCGACGATCGTCTGGCAGGGCACCTGGATACTCCCGAAAAAACCGATTCGGTCATCGCCCTTTTACGGCGGGCGCAGGATTTGGCCGGCGAGAACATTGGCGTGGCAGAGCGCAGGCTGCGGCTGGAAGAAGTTCTTGCCGAGCAGGCCAGGGGCGAGCTGAAGAAGGGGCATCCGGAACAGGCCAAGGAGAGCATGGACCGGCTGCGCGAGCTGGCGCCTGCCAGTGCCTCCCTGGCCATGCTGGAAGCGGAATACCGCAAGTTGTTGGGGGCCGAAGCGCATCGCAAGCAACTGGCCAGGCTGTTGAAGGACGCGGCGGAGGCAGAAAAGGCTGGCGTCGACAGACCGGCGGGATTGCGGCGCGCGCTGGAGGCCTATCTGCAGGTGCTGCGGCTGGAGCCGGACGATGCCACGGCCAAGGAACGCGTGCAGGGGTTGGGTGAGGTTGCCCTGAACGGGACGCGCAGAGCGGTCGAGAGGGAGGACTGGGAGCAGGCGAGAAATTATCTCGTACTAGGCTACCGTGCTCTGCCCAGGAACAGTGACCTGGCGGCGCTGGACGCACGGATCGCCGAGGGAGCCCGGGAACAGTCCGCCGAAGTACGCAAATTGCTCGATCAGGCCGACCTGGCTTTGCGTCGTGGCAACTATTTCACTCCTGAGAGTCGGAACGCCTGGGATCTTTACCAGAGGGCGGGGGCCTATCCGCAGGCGGAGGAGGAGGTACGCGACGGCCTGCGCAGGTTGCGGGCCGCCGTACTGAAGGAAGTGGACAGCCTGATGGCGCAGCGTCGCTATGATGACGCCGGGACGTTGGTCGAGCGTGCCCGCCAGCACATCGCCAACGATGCCGAACTGGGACGGCGCAAGCTGACCCTGGCCTCCATACTCGAGCAACGCTCGACCAACAGTGCGGTTGCCGATGGATTCCTGGCGATCAACGCCATTCCGTGGGCGCATATCCATTCGGTCAAGCGGGTAGGGAGCCGCCAGCGAATCGCGCTCGAAGACGATGCCACGACTCCGCTCCGCTTGAAGGTTCCAGCAGGAGATTATTTGATCGAACTCCGCAATCCGGATGATGGCCAGTTGCGTGAAATCCGTGCCAGGGTACAGTCTGGGCAGGGCACCAACGTCAGCGTGAACCTGCGCGGCGATCGATAA	MTEQSLEKRSISRLVSLQHEPDGSLFVLSPYGRGKGTVMARFVRETELLHQARHPNLLRGVQEGAEHNRKAEPLSGCWPGDAGWLSTLSLRQRLRLFAEIASAVGGLHRAGVVYSVLHPDRIGIRANGEAALLDLGMTWMVGSVRGGGDALDYCAPECFSNRVPDARADIYSLGLLLHYLLTGEPPPARSRVGQAARLSALPDSLADLQPLLTLMLVDQPTQRPSSVTMLLDQLNALVMRSSRLAARLEADRDIGELPFERLLTPLSALSQRPALAASAGAQVDSIEASRWEVSVGTSRWSLWSLGLGIPVICGVALLFWLQTRPEEELGLIEKLVLRADTQLKEGKLLLPAEDNALDTLRTLRIADPDNAKLSALSERVEEGAGQSVLEALRQGRLDEADLALSRAIRAFPDDPKLVALSGTLAQARREAEERDRLNRLFAKIDDRLAGHLDTPEKTDSVIALLRRAQDLAGENIGVAERRLRLEEVLAEQARGELKKGHPEQAKESMDRLRELAPASASLAMLEAEYRKLLGAEAHRKQLARLLKDAAEAEKAGVDRPAGLRRALEAYLQVLRLEPDDATAKERVQGLGEVALNGTRRAVEREDWEQARNYLVLGYRALPRNSDLAALDARIAEGAREQSAEVRKLLDQADLALRRGNYFTPESRNAWDLYQRAGAYPQAEEEVRDGLRRLRAAVLKEVDSLMAQRRYDDAGTLVERARQHIANDAELGRRKLTLASILEQRSTNSAVADGFLAINAIPWAHIHSVKRVGSRQRIALEDDATTPLRLKVPAGDYLIELRNPDDGQLREIRARVQSGQGTNVSVNLRGDR				NA	NA	NA	NA	NA
BMS010_06786	759			hypothetical protein	ATGACTGTACGAGCGAGAAGGAGAGCTGTTGTCTGTGCTCCGCACGCCGGGCGTCGATGGTTGTTTCTGCTGGCCCTGACGGCCACGAGCCCTGCGTGGGCTTCGTTGGGAAAGGACTACGACACTGCCATTCTGCAGATCGAGCGGGAGAACTATGAAAAGGCGATCCCGCTACTGAAAGAAGTGATCAGCGAAGTACCGGCTTCGTTACCCCGCATTCGCCTGTACGGCATGCGCTTCGCTTCCTATACGCCGCATTACTACCTCGGGCTGGCGCACTATCGGTTGGGAAACTGCGAAGAGGCCTTGAGTAGTTGGGCGGATGAGGCGCGTTTCCAGGTCTTGTCCGGCGAAAACGCACAGAACATGGCCAGCGGCAAGGCGGATTGCGAGACCCGATTGGTTCAGGCCGGAAAGGAGCTGCCTGTTCCTGGCGCGAGTGTCGCCGACAACGGCAACACGAACGACGCGGCTTTGCGTGAAGTCGTCAATGCATTCTTCAATGGCTCTTACGAACAGGTCGCTCGTTTCGACCCCATGACGCTGGGTGATCCGGCTTCCCGTGGCCAAGCCTGGATCTATCGCGCAGCCAGCCAGTACACCCTTTATGTCCTGGGCGGGGAGGCTAATGGAAAGAGCCTGTCCGATGTACGTAGCAGCCTGGCGAACGCACGTTCTTCAGACCCCAACCTGGTTATCGATCGAAACCAGTTCTCTCCCAAGTTCCTCAAGTTGATGGATCAGGGCGTCGTTCGCTGA	MTVRARRRAVVCAPHAGRRWLFLLALTATSPAWASLGKDYDTAILQIERENYEKAIPLLKEVISEVPASLPRIRLYGMRFASYTPHYYLGLAHYRLGNCEEALSSWADEARFQVLSGENAQNMASGKADCETRLVQAGKELPVPGASVADNGNTNDAALREVVNAFFNGSYEQVARFDPMTLGDPASRGQAWIYRAASQYTLYVLGGEANGKSLSDVRSSLANARSSDPNLVIDRNQFSPKFLKLMDQGVVR				NA	NA	NA	NA	NA
BMS010_06787	1878			hypothetical protein	ATGAATCCCATCACCTTGCCAATCGGCTCCAGACTGGCGCAATGGTCGCTCGCCGGCCTGGCCGGTCTCTATGCCATGAGCAGCCTTGCGGGCCCGATCGCCTCCGGCGAATACATGATCAAGTCGGTCCAGAGCAACAAATGCATCGACGTCGCCGGCGAACACAACGGCGCCAACGTCCAGCAGTACAACTGCTGGTCCGGAGCGAACAACCAACGTTTCCTGGTCACCGACCTGGGCAACGACGCCTATAGCATCCAGCCCCGCCACACCATGATGTCGCTGAGCGCCGCCAGTGCCGGCATGGTCAAGGGCACCAACCTGGAACAGGCATCCTGGTCCGGCGCTGCGCACCAGCAGTGGGAAGTCCGTTCTGTCAGCGGCGGCCATGAAATCCGCCCGCGACATGCCACGGGGCTCTGCGTGGACGTTGCCGGCGCCAGCATGAACGACGGGGCCAACCTGCTCCTCTGGACCTGCCACGGCGGCAATAACCAGAAGTGGATCTTCACCCGCATGGATGACGGCGCCTCCACTGGCGGCACGGCGGCCGGAGAAGGCCAGACGACCACGGTCAATGGCATCAGCTTCGCCAGCAAATCCACAGGCGGCGCCGGTGCGGAAGATAGCTGGAACATCTGGTCGAATGGCTACATCGAGCAGAGCTTCGCCTTCAGTAACCCCAGCAGCCTGAGCGTCATGGCCAGAGGTGAAGTGGCCGGCGGCGTCTGGCCGGCCATGACCGTCAGCGTCGGCGGCACCCAGGTAGCCAGCTTCACGGTCAACAGCAGCGAGTGGAAGAGCTACAACTTCGACGTCACCGGCAAGACCGGCAGCCAGGCGGTACGCGTCGCCTTTACCAATGACGCGATCGTCAATGGCGAAGACCGCAACCTGCTGGTCAAGTCAGTGAGCGTCACTACGTCGGGCGACACCGGAAGCGATGAAACCACCGAGACCACTACTCCGACCGCTAATGCACTGGTCGCCCAGAATGGCCAACTGCGGGTCAGCGGCGTCAATCTGGTCAACGCTGCCGGGCAACCGATCCAGTTGGCCGGCATGAGCTCCCATGGTCTGCAGTGGTTCGGTCATCTGATGAACGCCAGCAGCATCAAGTGGCTGCGCGACGACTGGAAAGCCAACGTCGTCCGGGCGGCGATGTACACCGCCGATGGCGGCTACATTTCCAACCCGTCGGTGAAGGACAAAGTGGTCGAGATCGTCGACGCGGCCATCCAGAACGACATGTACGTGATCATCGACTGGCACATCCTCAACGACAACGATCCCAACATCTACAAGACCCAGGCGATCGAGTTCTTCCGCGAAATGGCCACCCGCTATGGAAATCGTCCGAACGTGATCTATGAGATCGCCAACGAACCCAACGGCTACGCCAACTGGAACGACCATATCCGCCCCTATGCCGTGGACGTGATCAACGCGATCCGCCAGATCGATCCGGATAATGTGGTCCTGGTCGGCACCGGAACCTGGAGCCAGGATATCCATCAGGCGGCCGACAATCCGTTGAAGGACCCGAACGTCATGTACACGCTGCACTTCTATGCCGGCACGCACGGCCAGGAACTGCGTGACCGCATCGACTATGCCCGCAACAAAGGGGCCGCCATCCTCGTCAGCGAATGGGGCACCTCCCAGGCCAGCGGTGGTGGCGGCGTCTATGCCAACGAAACCCGTACCTGGATCAACTTCCTCAATCAGCGTGCCATCAGCTGGGTCAACTGGAACCTTTCCGACAAAGGTGAAAGCTCCGCAGCCCTGGCACCTGGCGCCAGCGCCACTGGCGGCTGGACGAGCCAGCAGCTCAGCGACTCGGGCCGCCTGGTTCGTGAACTGATGCGTAATCGCTAA	MNPITLPIGSRLAQWSLAGLAGLYAMSSLAGPIASGEYMIKSVQSNKCIDVAGEHNGANVQQYNCWSGANNQRFLVTDLGNDAYSIQPRHTMMSLSAASAGMVKGTNLEQASWSGAAHQQWEVRSVSGGHEIRPRHATGLCVDVAGASMNDGANLLLWTCHGGNNQKWIFTRMDDGASTGGTAAGEGQTTTVNGISFASKSTGGAGAEDSWNIWSNGYIEQSFAFSNPSSLSVMARGEVAGGVWPAMTVSVGGTQVASFTVNSSEWKSYNFDVTGKTGSQAVRVAFTNDAIVNGEDRNLLVKSVSVTTSGDTGSDETTETTTPTANALVAQNGQLRVSGVNLVNAAGQPIQLAGMSSHGLQWFGHLMNASSIKWLRDDWKANVVRAAMYTADGGYISNPSVKDKVVEIVDAAIQNDMYVIIDWHILNDNDPNIYKTQAIEFFREMATRYGNRPNVIYEIANEPNGYANWNDHIRPYAVDVINAIRQIDPDNVVLVGTGTWSQDIHQAADNPLKDPNVMYTLHFYAGTHGQELRDRIDYARNKGAAILVSEWGTSQASGGGGVYANETRTWINFLNQRAISWVNWNLSDKGESSAALAPGASATGGWTSQQLSDSGRLVRELMRNR				NA	NA	NA	NA	NA
BMS010_06788	1092	spuD_3	COG0687	Putrescine-binding periplasmic protein SpuD	ATGCGTCGTTTATTGTTCGGCCTGTTGGTTGGTTCAAGTCCGTTGTTTGCACAGGCTGAGGTCGTGCATGTCTATAACTGGAACGATTACATCGCTCCCCAGGTACTGGAGGATTTCGAACGGCTGACGGGCGTTCATGTCGACTACCATACCTACGATTCGACGGAAGAGCTGGAGAAGCTGCTCGAAAGCGGGGAGCCGATAGATGTAGCGGTGCCTTCCCATGACTCGTTGCCCGGCCTGATCGGCGCTGGGCGCCTCCAGCGTCTCGATGAAGCGCTTTTGCCAAATGCCGTGCACCTCGATCGGACGCTGCAACAGAAGCTGGCTGCCTACGATTCCGGTAACCGTTATGCGGTGCCCTATCTATGGGGGGCCGCGGGACTGGCCATCAATACGCCGAGAGCGGAGCAGGCATTCGGCGGGCCGCTGCCGAACAGTTGGAGCCTGTTGTTCGACCCGGAGCAGAGCGGCCGGTTGAGCACATGCGGCATGAGTGTGCTCGATGCTCCCGACGAAACGCTGTCGATCCTGATGAGCTACCGCGGCCGGACACTTTCGCGCAGCGGCGCTCATCAACTGGGGCGCGCCGCCGAGATACTCGGCCTGCTGCGCCCCAACTTGCGCTATGTCGACAGTGAGCGCTACATCGAAGATCTGAAATCGGGAGAGCTCTGTGTCGCCATGGCCTGGGTGGGCGATGCGCTGGCCGCGGCAGACGCTGGCCAGCCCGTGGTGTTCATGATTCCCGAAGAGGGCTCGTTCTCGTTCATCGACAGCATGGTGATACCGGCGGGTGGTCGCTCGGCCTTGGCCCATCAGTTCATCAACTACATCTTGGAGCCCAAGGTCGCCGCGCTGATTACCACGGAGACCTTCTATCCCAACGGCAACGCCTCTTCCAGAGATTTCATCGACGAGGCGCTACGGGCACAGCCCGGCCTGTATCCGGACCGGAGCACCAGACGCCGACTCTCCATGCTGGACCCATTGCCGGAGAAGGTCGCCGGCTACCGCGATAAGGTTTGGGCGCGCTTCCGGGATGGGTTGCCGCCCATTGATACCCACGAACTGGAACACTTCCAGGACTGA	MRRLLFGLLVGSSPLFAQAEVVHVYNWNDYIAPQVLEDFERLTGVHVDYHTYDSTEELEKLLESGEPIDVAVPSHDSLPGLIGAGRLQRLDEALLPNAVHLDRTLQQKLAAYDSGNRYAVPYLWGAAGLAINTPRAEQAFGGPLPNSWSLLFDPEQSGRLSTCGMSVLDAPDETLSILMSYRGRTLSRSGAHQLGRAAEILGLLRPNLRYVDSERYIEDLKSGELCVAMAWVGDALAAADAGQPVVFMIPEEGSFSFIDSMVIPAGGRSALAHQFINYILEPKVAALITTETFYPNGNASSRDFIDEALRAQPGLYPDRSTRRRLSMLDPLPEKVAGYRDKVWARFRDGLPPIDTHELEHFQD	PGPT0007805_1795	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007805-potF-K11073	NA	NA
BMS010_06789	996	norR_4		Anaerobic nitric oxide reductase transcription regulator NorR	ATGAGTGACGGGATGAAAGGAGCGACAGTTGCCTCTGGCTTTCTGGAACGCAGCCAACCGTGCTCGACTGGTCAGTTGCCCAAAGGCCAGCCAGAGGGATTGGATTTGTTCGGGTCACTGGAGCCGTTCATTCGAACAGCAGCCCCGTTGAGAATCGATATGGTTCTGGTCGGCGAGACCGGTACCGGCAAGGACACGCTGGCCCGCCGCATCCACGAATTGTCGGGTTGCAAAGGGCGGTTGGTCGCCGTCAACTGCGCGGCAGTACCCGAGTCGTTGGCGGAAAGCGAACTGTTCGGCGTCATGCCGGGCGCCTACACCAGCGCTACCCGGGCCCGGGCTGGCTACATCGAGGCGGCCGACAAGGGCACCCTGTATCTCGATGAAATCGACAGCATGCCGTTGTCTCTGCAGGCGAAACTCCTGCGTGTCCTCGAGGGGCGGGGCGTCGAACGGCTTGGTTCGACCGAGTTCCTGCCGCTGGATTTGCGCATCATCGCGGCCTGTCAGACGCCGTTGGAACAATTGGTCGAGCAGGGGAAATTCCGGCGCGACCTGTTCTTCCGCCTGAACGTGGTGAAGATGGAGCTGCCCTCGCTGCGCTCCCGCCCGCAATTGATCGCTCCCTTGTTCCGCCAGTTTGTCCAGGATGCGGCCAAGCGGATGAAAATGGTCGCACCCGAAGCCGATCCGGGCTGCATGGGGGAACTGCTCAGCTATCGCTGGCCGGGTAACGTCCGCGAGTTGCGCGCTGCCGCCGAGCGCTTCGTGCTCGGCTTGCCCCCTTTGGGAGGTGGGCAGGGCGGCAGGGACGGACGGATGCTGCTCAAGGACCAACTGCGTCATATCGAGAAGATTCTGATCCAGGATTGCATGCATCGTCACGCCAAGTGCATCGACTCCATGGTCTGTGAGCTGGGTATTCCCAAGCGGACGCTGTATCACCGTATGAAAGTGTTGAATATCCACGGTTGTGAAGGAACCTTTTTGCAGTAG	MSDGMKGATVASGFLERSQPCSTGQLPKGQPEGLDLFGSLEPFIRTAAPLRIDMVLVGETGTGKDTLARRIHELSGCKGRLVAVNCAAVPESLAESELFGVMPGAYTSATRARAGYIEAADKGTLYLDEIDSMPLSLQAKLLRVLEGRGVERLGSTEFLPLDLRIIAACQTPLEQLVEQGKFRRDLFFRLNVVKMELPSLRSRPQLIAPLFRQFVQDAAKRMKMVAPEADPGCMGELLSYRWPGNVRELRAAAERFVLGLPPLGGGQGGRDGRMLLKDQLRHIEKILIQDCMHRHAKCIDSMVCELGIPKRTLYHRMKVLNIHGCEGTFLQ	PGPT0017310_1124	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017310-dctD-K10126	NA	NA
BMS010_06790	219			hypothetical protein	ATGGCTGTCAACTCTACTGCTAGCACTGCCAACCAGACCATGGTGAATGAGCAGAACCAGAGCCTGGAAAACATGACTCAGAACTTCAAGGACATGGGTAAGTTCACCCGTGAATCCCAGGATGCGCAGAACAAGAGTGCGATGGCCTCCGTCGCCTCCGAGAACACCAAGACGGCGTTGAACTCGCAGATCAACGGTGCCAAGGGCGTTCAGTACTGA	MAVNSTASTANQTMVNEQNQSLENMTQNFKDMGKFTRESQDAQNKSAMASVASENTKTALNSQINGAKGVQY				NA	NA	NA	NA	NA
BMS010_06791	219			hypothetical protein	ATGGCTGTCAACTCTACTGCTAGCACTGCCAACCAGACCATGGTGAATGAGCAGAACCAGAGCCTGGAAAACATGACTCAGAACTTCAAGGACATGGGTAAGTTCACCCGTGAATCCCAGGATGCGCAGAACAAGAGCGCGATGGCCTCCGTCGCCTCTGAGAACACCAAGACGGCGTTGAACTCGCAGATCAACGGCGCCAAGGGCGTTCAGTACTGA	MAVNSTASTANQTMVNEQNQSLENMTQNFKDMGKFTRESQDAQNKSAMASVASENTKTALNSQINGAKGVQY				NA	NA	NA	NA	NA
BMS010_06792	219			hypothetical protein	ATGGCTGTCAACTCTACTGCTAGCACTGCCAACAAAACCATGGTGGACGAGCAGAACCAAAGCCTGGAAAACATGACTCAGAACTTCAAGGACATGGGTAAGTTCACCCGTGAATCCCAGGACGCACAGAACAAGAGTGCGATGGCCTCCGTCGCCTCCGAGAACACCAAGACGGCGTTGAACTCGCAGATCAACGGCGCCAAGGGCGTTCAGTACTGA	MAVNSTASTANKTMVDEQNQSLENMTQNFKDMGKFTRESQDAQNKSAMASVASENTKTALNSQINGAKGVQY				NA	NA	NA	NA	NA
BMS010_06793	219			hypothetical protein	ATGAGCATTAGTGGAACGGCTTTTCAAGCATTAAATGAGATTCAGCAAGAGTCTGATCTAACGCTTCGTAATTCTAAGAAAAATGCACAGGTTTCGGCCGAGGTCTTCAGGTTGATGCTGCGCGCCAGCGAAAAGCGTGCCGCAGGCGCTGTTCTTCAGGATCAGCAAATCAAATTCCAGACCAAGGTCATCGAGGGGACGCGGGATATCCAGTTTTGA	MSISGTAFQALNEIQQESDLTLRNSKKNAQVSAEVFRLMLRASEKRAAGAVLQDQQIKFQTKVIEGTRDIQF				NA	NA	NA	NA	NA
BMS010_06794	369			hypothetical protein	ATGAAAATCACGAATGTAACGGGCATAGCCTCGGGGCAGGGGATAGGCACAGGGCCTTCGGCTGGAAAACTGGCCGATCCGTCCGGTTCCGATGTCTCCTGGTTCAGCGCAGCCATGCAGGAAGGCGGCGATCAGGCGCCGATGACGCTCGAGAGTGCGAGCCGTCCCTTCAATGAGCTGTTCCAGAGTTTGCAGGGCAAGTCCGACATTGCGGCCCGACGGCTGAAAAAGGCGGCGGCCTCCGTGGACCCGAAGGACATCCGCCAGGCCAACAAGTCCCTGTCGTCGTTCTACCTGGAAAGCATGCTGTCGGCCAAGCTGGTCGGCAAGGCTGCCCAGAGCGTGGAAAAGCTCACCAACCTTCAGTAA	MKITNVTGIASGQGIGTGPSAGKLADPSGSDVSWFSAAMQEGGDQAPMTLESASRPFNELFQSLQGKSDIAARRLKKAAASVDPKDIRQANKSLSSFYLESMLSAKLVGKAAQSVEKLTNLQ				NA	NA	NA	NA	NA
BMS010_06795	789			hypothetical protein	ATGCGCCCGAATCGCCTCAAGTTCCTGGTTCTGCTGCTCGCCACGATGTTGACCGCCTGTGGAGAGCGCATCGAGCTGCACAGCCAGCTGTCCGAGCAGGATGCCAATGAAGTGATTGCCGAACTGGCGGACAAGCACATTTCTGCGGAAAAGCGTATCGGCAAGGAAAGCGTGTCGGTGCTGGTGTCGTCGGAAGACATCAACCGCGCCGTGCATGTGCTGTCCGCCGCAGGCTTGCCGAAGCGTTCGCGCAACAGCCTGGGGGATGTGTTCCAGAAGGATGGCGTGATCTCCACGCCGCTGGAGGAGCGGGCGCGTTACATCTATGCCTTGTCCCAGGAGCTGGAGGCGACCCTGTCGCAGATCGATGGGGTGATCGTGGCCCGGGTTCATGTCGTGCTGCCTGAGCGGATCGCCCCGGGCGAACCGGTGCAGCCCGCATCGGCCGCGGTGTTCATCAAGCACCGGATGGACCTCGATCCGGATAGCGTGCTTCCGCGCGTTCGCCGGCTGGTGGCCAGCAGCATTCCCGGCTTGTCCGGCAAGGAAGAACAGAAGCTGGCCATCGTCTTCGTCCCGTCCGAGTCCTACCGGGAGGCGCCGAGAATGGTACGCATCGGCCCGTACAGCGTGCCGGAAGAGCGCATCGAGCTGCTGCAGTTGCTGCTCGTCGTAGGCTTGGTGGGCGGCATCGTGATCCTGCTGATTCTCCTGGCGGTCAAGCCGGAGTGGCGGAACGCCTTGCTGGCCAAGATTCGTTCGCTCAAGTCTTCGTCCCGGACTGCGTGA	MRPNRLKFLVLLLATMLTACGERIELHSQLSEQDANEVIAELADKHISAEKRIGKESVSVLVSSEDINRAVHVLSAAGLPKRSRNSLGDVFQKDGVISTPLEERARYIYALSQELEATLSQIDGVIVARVHVVLPERIAPGEPVQPASAAVFIKHRMDLDPDSVLPRVRRLVASSIPGLSGKEEQKLAIVFVPSESYREAPRMVRIGPYSVPEERIELLQLLLVVGLVGGIVILLILLAVKPEWRNALLAKIRSLKSSSRTA	PGPT0029650_267	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-TYPE_III_SECRETION_CORE_APPARATUS,PGPT0029650-yscJ|sctJ|hrcJ|ssaJ-K03222	NA	NA
BMS010_06796	588			hypothetical protein	ATGATTCCCCATGCGGACTGCATGCGATGGGCGCAATGGTGGGCGACCGGCTGGACCGGCGCGGATGAGAGCTGGGGTGTGGAGGCCTGTTTCGCGCCCTGGGAGCGGTCGATGATCGAACATGCTGCTCCCTTGCATCACGGAGCCTTCGCGCGGCGCCTGGGATTGTCGCAAGACCTGCCTTCCCATCCCGATCCGGTGGTGCTGCGGTTGATCGACGAAACCGCCGAGGCGCGCCTGCATGCCTTATTGCTGGTCGCCGAGATTTTCGGCAAGGGGCGGGTCGTCGATCTGCCCGACGCCGAGGCTCAATGGTGCCGACGGATTGCCCGGGCGCTGCTGCCCGGGAGTTGGGTACCGGCCGAGTGGGCCGGGGACGAGCCCCGTGTCGCGGGGCTTCGGTCGCTGTATGGCCGGCTCGATGCGGCGTGCTGGAAACGAGCGCGTCTGCTGTTTCCCAGGTCGCTGGTCGAGCAGGTCGAATCCTGTGAGCCGGCGCCGCTGCCGGCCGCCAAACTCGCCGCGCTCTGGGATGCGGTCATCTGGAAGAATCGATGCCTTTGGGAAAGGGGAGCGCAGGCATGCTGA	MIPHADCMRWAQWWATGWTGADESWGVEACFAPWERSMIEHAAPLHHGAFARRLGLSQDLPSHPDPVVLRLIDETAEARLHALLLVAEIFGKGRVVDLPDAEAQWCRRIARALLPGSWVPAEWAGDEPRVAGLRSLYGRLDAACWKRARLLFPRSLVEQVESCEPAPLPAAKLAALWDAVIWKNRCLWERGAQAC				NA	NA	NA	NA	NA
BMS010_06797	588			hypothetical protein	ATGCTGACGCGTCGAACGGTAAGACTGAACGGTGCCCAGCCCACCGAGGCCGAGCCCCTGCTGCGGCGCGAGCTGATCGAGCAGCACCGGGAAGCGGAAAGTGTCATCGAGACGGCACGGCTTCAGGCCGAGGCGCTTCTCGACGAGGCCCGCTGCCAGGCGGATGCGTTGGCCCGGGAGGCCAGGGATGCCGCCACGGCGGAGTTCTGGCAGCGGGCGGAAGCCTTCTTCGAGGGCTGGCGCAAACAGCAGGCACGGATGACCGAGGGGCTGGTGGACAGCGCTTGCCAACTGGTAAGCCAGGCGCTGACCACGCTGTTGGACGAAGTCCCGGACGAGGCACGCATCCGCGCCTTGCTACGGCAACTGCGCACCGCCCAGGCGGACGGTGCCGGTGGCGAACTGTATTGCCACCCGCAGGCGCGTCCGGCGGCAGAGGCATGGCTGAGCGAGCGGAGCACTTGCGACTGGCGTATCCGTGAGGACGAAAGCCTCGACGTCGGTAGCGTCCGCCTGGTGGCGGAGCATGGCGACTTCCTGCTGAACTGGGGCGACGCCGTGACAGCGCTGCTGCCTCGGTATTCCTGA	MLTRRTVRLNGAQPTEAEPLLRRELIEQHREAESVIETARLQAEALLDEARCQADALAREARDAATAEFWQRAEAFFEGWRKQQARMTEGLVDSACQLVSQALTTLLDEVPDEARIRALLRQLRTAQADGAGGELYCHPQARPAAEAWLSERSTCDWRIREDESLDVGSVRLVAEHGDFLLNWGDAVTALLPRYS				NA	NA	NA	NA	NA
BMS010_06798	222			hypothetical protein	ATGTCTTTCGACAGCGTTCAACGTCGCCTCGATTCCGTTTTCCAGCGCTCCCAGACCCAGCTTGACCAGGCCGCGGTCCAGGCCGCCGAAGGTGCTTCGTTGGAGGACATCAGTGCGTTCACCGACGCGATGATGCAGCACTCCCGGGCCAACTGGGCGGTGAGCCGTGTGGGTGTGCTCGAGCACAACCTGGCCAAGGCCATCCTCAATGAAATCCACTGA	MSFDSVQRRLDSVFQRSQTQLDQAAVQAAEGASLEDISAFTDAMMQHSRANWAVSRVGVLEHNLAKAILNEIH				NA	NA	NA	NA	NA
BMS010_06799	450			hypothetical protein	ATGAAATCCACTGACCCGGGCGCGCTGCTGCAGGACTGGCTCGACAGCGTCGAGCCGGAACTGCTCCTCAGCATCGATGGTGGCGACGTGGCGCTCCAGCGGGTCGACGGCGGCGTGCTGTGCAAGGCGGCCCTGGACATCGGCTGGAAAGGCCAGCCCGGTCTGCTGGAGAAAGCCTTGCGTTTGTCCTTGCCCAGCCTGGGCCAGTTCCGGGAGCGCACCGCCGCGTTGTCTCTGGACCCGGCGGATGGACGCTTCTGGCTGTTGCTTCGTGCCGGTATCGGCGCCGAGGACTCCCTGGAGGCATGCATCGAAGCGTGCCTGGAAGCCTTGATCACCCAGCGCGATGTCTGGAACGAGCTGCTCCAACGCGAGGCAGGCGGACGCAAGACCGCTGCTGCCCAACCCCTGTATCCCTGGTCGCTCCGGCAACGAGGTGCCTATGCGTAA	MKSTDPGALLQDWLDSVEPELLLSIDGGDVALQRVDGGVLCKAALDIGWKGQPGLLEKALRLSLPSLGQFRERTAALSLDPADGRFWLLLRAGIGAEDSLEACIEACLEALITQRDVWNELLQREAGGRKTAAAQPLYPWSLRQRGAYA				NA	NA	NA	NA	NA
BMS010_06800	2019	sctC_4		Type 3 secretion system secretin	ATGCGTAACGTATTGCTTGCATTGCCGCTTCTGGCCGGTTTGTCGATGTCCGCCGTGGCGGCCATACCGGCGGACTGGCGCAAAGGCGCCTATGCCTATGAAGCCGAAGGGACATCCCTGGCATCGGTATTGGAAGATTTCGCCCAGAGCCACGGTGTGAAGCTCCGGATCGGCAACGTCTCCGGTGCGGTGGATGCGAAGATCCGCGCCGACAGCGCCGAGGCGTTTCTCGACCGCTTGGCCCTCGAACACCGTTTCCAGTGGTTCGTCTACAACGGAACACTGTTCATCAGCCCCATCGAGGAACTCACCTCCGTGCGCCTCGAGGTATCGCCCGAGGCGGCACCGGACCTCAAGCAGGCGCTGACCGACATCGGCCTGCTCGACAGTCGCTTCGGTTGGGGCGAACTACCGGACGAAGGCGTGGTGCTGGTGACCGGGCCTGCCCGTTATGTCCAGCTCATCCGTCGCTTCAGCAAGGAGCGGGTCAAGGGCGATGAGCGCCAGCAGGTGATGGTATTTCCCTTGCGCTATTCCGCCGTCGCCGACCGGGAGATCCAGTACCGCGACCAGAGCTTGCAGATCCCTGGCGTCGCTCGCCTGCTGGCGGGGCTGATGGGAACCGAGGGGGGCGCCAGCGGGGGGACATCGCCGTCCGCCTCGTTCGGTGGGATCAACGAGGCGCTCCAATCGGCGATGAGCATGGCCGAGAAGGCGAACAGTTCCGCCATGGGACTGGCGGTGAAAGAAACCCCGCCGCTGGGCCCATTGAAGGTGGGCGGTTCGGGACGCTCGGGCAAGGGGCGTGTGGTCGCCGATGTGCGGAACAACGCGATCCTGGTCTGGGACGACCTGAAAAGACGCGATATGTACCAGCAGGTGATCGATCGCCTGGATGTACCGCAGAACCTGGTGGAAATCGATGCGCTGATCCTGGACATCGACCGCGAGGAAATCGAGCGTCTGGGTTCGTCCTGGCAGGCGCGGATTGGCAACATCTTCGGTGGCACCTCGATTCCTGGCGGCGGCAGCTCGACGCTCTTCATCGGCGACTTCAAACGCTTCTTCGCCGAGCTGCAGGCCCTGCAGGAGAAAGGTGTCGCCTCCATCGTGGCCAATCCCTCGGTACTGACCCTGGAAAACCAGCCGGCGGTGATCGACTTCAGTCGTACCGCCTTCATCACGGCAGTTGGCGAGCGGGTGGCAGATATCCAGCCGGTGACCGCCGGCACCAGCCTGCGGGTGATTCCACGCGCCATCGACCAAGGTGCCCACAAGAGCATCCAGCTCATCGTCGATATCGAGGACGGACAGGTGGAGCTGAACCGTGAGGGAGGGGCTTCCGGCATGAAGCGGGGGACCGTCGGCACCCAGGCGGTCATCGACGAACAGCGTTCGCTGGTCATCGGCGGATTCCACTCGGAGGAAAGCGGTGATCGCGACCGGCGCATCCCGCTGCTCGGCGACATCCCTTGGATCGGCCAGTTGTTCACGTCCACGCGCCGGGAAACCTCGCGCCGGGAGCGCCTGTTCATCCTGACGCCGAAGCTGATCGGCGACCAGACCAACCCAGTGCGCTATGTCGGCGCGGACGACCGCGAGCGCCTGGACGAAGCCCTGGTCCGGGTACAGCGTCGGCATGGCAACGGCAACCTGCGGGCCAAGCTGGAGAACGTCATGCTCGACCTGGTGAAGGGGCGCCTGCCGGCGGGGCTCGAGCCCGGGGCGCCGAGCCTGGCCTTGGACACCCTTTGTCGCCCGCAAGCGGGGATCCAGTTCGACGCAGAGCGTCGGCAGTGGTTCAGCGACAAGGAATTCAATGTCGGCGTCGGTGTGGTACGCAACGCCGGGGACAAGGCCGTGCAGTTCGATGAGGCGGCCTGTGGCGGGGACAATACGCTCGCCGTCACCCTGTGGCCGCGTAGCCGACTGGAGCCCGGAGAAGCCAGCGAGATATTCGTCGCCCTGCGCAAGCAGATCGTGAATACGCCGGCCAGGGCATCGTTGCTGGTTCCTTGA	MRNVLLALPLLAGLSMSAVAAIPADWRKGAYAYEAEGTSLASVLEDFAQSHGVKLRIGNVSGAVDAKIRADSAEAFLDRLALEHRFQWFVYNGTLFISPIEELTSVRLEVSPEAAPDLKQALTDIGLLDSRFGWGELPDEGVVLVTGPARYVQLIRRFSKERVKGDERQQVMVFPLRYSAVADREIQYRDQSLQIPGVARLLAGLMGTEGGASGGTSPSASFGGINEALQSAMSMAEKANSSAMGLAVKETPPLGPLKVGGSGRSGKGRVVADVRNNAILVWDDLKRRDMYQQVIDRLDVPQNLVEIDALILDIDREEIERLGSSWQARIGNIFGGTSIPGGGSSTLFIGDFKRFFAELQALQEKGVASIVANPSVLTLENQPAVIDFSRTAFITAVGERVADIQPVTAGTSLRVIPRAIDQGAHKSIQLIVDIEDGQVELNREGGASGMKRGTVGTQAVIDEQRSLVIGGFHSEESGDRDRRIPLLGDIPWIGQLFTSTRRETSRRERLFILTPKLIGDQTNPVRYVGADDRERLDEALVRVQRRHGNGNLRAKLENVMLDLVKGRLPAGLEPGAPSLALDTLCRPQAGIQFDAERRQWFSDKEFNVGVGVVRNAGDKAVQFDEAACGGDNTLAVTLWPRSRLEPGEASEIFVALRKQIVNTPARASLLVP	PGPT0029635_86	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-TYPE_III_SECRETION_CORE_APPARATUS,PGPT0029635-yscC|sctC|ssaC-K03219	NA	NA
BMS010_06801	180			hypothetical protein	ATGCGGAAAATCATCTTGATTCTGGGGGGCTGCCTGCTGGTCAGTGCATGCTCGACCGGGCCATGCGGTTCCAAAGGCTGCGCGCGGCCATCGTCGGATGCTCAGCAACTGGTGATCTGGTGGTCGCCGGAGCTGCGCAGCAATGCGGAAGACTATACGGTGGTGCCGGTACATGATTGA	MRKIILILGGCLLVSACSTGPCGSKGCARPSSDAQQLVIWWSPELRSNAEDYTVVPVHD				NA	NA	NA	NA	NA
BMS010_06802	384			hypothetical protein	ATGCGGAAGACTATACGGTGGTGCCGGTACATGATTGAGCAGCTCAAGACCCATTCCGATCATGAGAACTTTCTTGCGTCCGTCCTGGCGGGCGAGGCCAGCCGTTTGAGTTGGGCACCGGGGATCGACTTCACCTTCAGCGAGGAGCGTGTCGGCTGGGGAGTGGCCTTGAACATCAAGCGTCAGGTCCAGCGTCGCGACCTGTTCTCCAGCGCGTTGGCGAAGCGTTTCACGGATGCGGTGAGCTACGAGGGCTGCTACCTGTGCCTGGATAGCTGGGAGAACTTCATCGTCTGGCATGCCGTGCGGCAGGACAACTGTGACGTCGGCTCGTTGCAACACATCATGAACCGCCTGCTGGAACTCGCCGGCTTGCATCGCTGA	MRKTIRWCRYMIEQLKTHSDHENFLASVLAGEASRLSWAPGIDFTFSEERVGWGVALNIKRQVQRRDLFSSALAKRFTDAVSYEGCYLCLDSWENFIVWHAVRQDNCDVGSLQHIMNRLLELAGLHR				NA	NA	NA	NA	NA
BMS010_06803	381			hypothetical protein	ATGGATGTGCAACGGATCGTTCATGGCTTCGTGGCCCGCCTTGGCGAGCGCCTGGGAACGTCGCTGACGCTGCAGAACGGTGTGTGCGCCCTTTACGACGAGCAGGACCGGGAGCTGGCGGTCATCGAGATTCCGCTCCCGGGCAGCGCCGTCATGCTCTATTGCCACCTCGGGCGGAGCGGCGCCGGCCTCGATTATCAACGTCTGCTCACGGCCAATTTCGACATGGGCTCGATGCGTGGCTGCTGGTTCGCCCTGGATCGCGGAGCGCTGTGCCTGTGTACGCAGCGGGAGATCGCCGATCTCGATGAACAACGCTTCTGCGACCTGGCAATGGGTTTCATTGCCCAGGCGAAGACGATGCGGAACACCTTGCAGTAA	MDVQRIVHGFVARLGERLGTSLTLQNGVCALYDEQDRELAVIEIPLPGSAVMLYCHLGRSGAGLDYQRLLTANFDMGSMRGCWFALDRGALCLCTQREIADLDEQRFCDLAMGFIAQAKTMRNTLQ				NA	NA	NA	NA	NA
BMS010_06804	1413			hypothetical protein	ATGGAGATCAAGTTCAACCTCAACGTCCGCCCCGATGCGTTCTCGCCGCAGTCGGACTTGCCGTCGGACCACAAGCGAAGCCCCCTGGCCAATAAGAACAACGGTACGCAGGACGGGAGGTCGTTCGAAGAGTTCGCCGAGCAGATGGCCATGGCCTTGATCGCCGAGCTGTTGAAAGGCAGCCCGCTGCTCCAGCAGCTCCTGGGGCTCGGCAATGAGGGTAGTGACAAGGGCAGTCGCAAGAGCGATGGGCTGGACGGTGGCTCCAGGCTGGGACAGGACTTCGGCAGCCGCTTCAAGGACGCGTTGTTCTCCTTCCTGGATCGGATGTTGGGTGGCGACGGTGGCAGCGTGAAGGGCAACGCGCCCTCCGACGGGGCGGAGGAATCCAACTGGCCGAACAGCACCAACCAATTCCTGCGCGACGGCGGTACGAGCCTGTTGAACAACTCGATCGCGCCCACCGAGGACGGTGGCGGCCAGGTTCAGAACAAGGATGTCCTGAAACCGATCTCGCTCCTGATGGACAAGCATCCCGAGGTGTTCGGCAAACCCGGCCCGCAAGGCGAGACACCGACTACCGAATCGTTCGGCAAGCCGACCACGAGCGTTCCGTCGAGCACGCCGTCTTCCTTCGATCAATTCACCAGGCCGGTCAGCCTGAGCCAGGTGCCGACCAGCGAAGCGCCGGCGTCGGGCCTGTCCAAGTCGGCGCCGGCGAAAGTGGACTCGACTCGCAACGAGGGCAACTTCAATTTCACCAGGATCCAGGAAGGCGTCGCAGGCGGCAGTTCCGGAGTGAACTTCCCGAAAGCCTCCTCCAACCCCATCGTGGTCAACGAACCCATCGTGGTGAAGAAGGGTGAGGTGTTCGACGGCAAGGGCCAGACTTTCACCGCCGGCAGCAAGCTGGGCGATGGTGGCCAGCGTGAGGACCAACTGCCTCCGTTCATCTTGGAAGATGGTGCGACGCTGAAGAACGTCGTGATCGGCGATAACGGTGCCGACGGCGTCCATGTCTACGGCGATGCCAAGATAGACAACGTGCACTGGACCAATGTCGGCGAGGACGCCCTGACCATCAAGCCGAACAAGGAAGGCAAGAAGGCCAACGTCGAGATCACCAACAGCAGCGCCCAGGGCGCCAACGACAAGATCTTCCAGTTGAACGCCGACGCCAACATCACCATCGACAACTTCAAGGCGAAAGACTTCGGCACCTTCCTGCGCACCAATGGCGGTCAACAGGGCGACTGGAACATCAACCTGAAGAACATCACCGCTGAGGACGGCAAGTACAAGTTCGTCAACAGCGACTCGGAAGGTGTGAAGGTCTCGGCCGACAACATCAACCTGCAGAACGTCCACGAACACTTCCGTCTGTCGAAATCCAGCACCCTGAATCTGGCCTGA	MEIKFNLNVRPDAFSPQSDLPSDHKRSPLANKNNGTQDGRSFEEFAEQMAMALIAELLKGSPLLQQLLGLGNEGSDKGSRKSDGLDGGSRLGQDFGSRFKDALFSFLDRMLGGDGGSVKGNAPSDGAEESNWPNSTNQFLRDGGTSLLNNSIAPTEDGGGQVQNKDVLKPISLLMDKHPEVFGKPGPQGETPTTESFGKPTTSVPSSTPSSFDQFTRPVSLSQVPTSEAPASGLSKSAPAKVDSTRNEGNFNFTRIQEGVAGGSSGVNFPKASSNPIVVNEPIVVKKGEVFDGKGQTFTAGSKLGDGGQREDQLPPFILEDGATLKNVVIGDNGADGVHVYGDAKIDNVHWTNVGEDALTIKPNKEGKKANVEITNSSAQGANDKIFQLNADANITIDNFKAKDFGTFLRTNGGQQGDWNINLKNITAEDGKYKFVNSDSEGVKVSADNINLQNVHEHFRLSKSSTLNLA				NA	NA	NA	NA	NA
BMS010_06805	315			hypothetical protein	ATGAAAGACACTACCAACCACGTACTGACCTGGAGCGATCTACTGGAAGGCGACGGCTATCTTTCGCCCTCTCAGAGGGATGCCTTCGAGCGAGCCATCGGTCTGGTCCTGCGCTGCCTGGACGATACGCTCGGCACGCCGGTCGAGCCCCAGTACGGTGCTTTTCACTTCGGGACCTTCGTCGATGATCTGGAGCCTCGCTTCCTGCACCGACCGGCGCAGGACGAGCTGAGCGGCGATGCCGCCCTGACGGCCTACTGGGTAGTGCGGCATATCGCCGACGGGCTGTTGCGGGGCCGGGGCCGGCTGCATTGA	MKDTTNHVLTWSDLLEGDGYLSPSQRDAFERAIGLVLRCLDDTLGTPVEPQYGAFHFGTFVDDLEPRFLHRPAQDELSGDAALTAYWVVRHIADGLLRGRGRLH				NA	NA	NA	NA	NA
BMS010_06806	1050	yahK	COG1064	Aldehyde reductase YahK	ATGACCAAGGCCAAGGCTTATGCAGCGCTTGACCCGCACAGCGCGCTCGTCCCGTTCGAAATAGAACGTCGCGCCCTCGGCCCGACGGACGTGCAGATCCAGATTCTCTATTGCGGGGTCTGCCATTCCGATCTGCATACCGCTCGCAACGAATGGAACAACACCCTGTACCCCTCCGTCCCGGGACACGAGATCGTCGGCCGCGTCGTCGCGGTTGGCGAGCAGGTGAGCCGCTTCAAGGCGGGCGACCTGGCCGGCGTCGGCTGCATGGTCGATAGCTGCGGCGATTGCCCGTCGTGCCATGACGGAGACGAGCAGTACTGCGAGCACGGCTTCACCGGCACCTACAACGGCCCGGTGTTCGGCGGCGAGAACACCTATGGCGGCTATTCCCAGACGATTGTCGTCAAGGAGTCCTTCGTCCTGCGCATTCGCCACGCCGAGACGGACCTGGCCGGCGTCGCCCCCCTGCTGTGCGCGGGCATCACCACCTACTCGCCGCTACGCCACTGGCAGGTCGGACCGGGCAAGAAAGTTGGCATCGTCGGCCTGGGCGGTCTCGGCCATATGGGCGTCAAGATCGCTCACGCCATGGGCGCCCAGGTCGTACTGTTCACCACGTCGGCGAGCAAGGTCGAGGATGGCAAGCGCCTGGGGGCCGACGAAGTGTGCGTGTCCACCGACCCGGAGCAGATGAGCCGCTACACCGGCCAGCTCGACTTCATCCTCAATACGGTGGCGGCGCCCCACGACCTGGACGCCCTCCTGCAACTGCTCAAGCGCGACGGCACCATGACGCTGGTCGGCGCCCCGGCCGAGCGACACCCGTCGCCAGACGTATTCGGCCTGATCTTCAAGCGGCGCAGCATCGCCGGCTCGCTGATCGGCGGCGTCCGCGAGACGCAGGAGATGCTCGACTTCTGCGCCGAGCACGGCATCACCTCGGACATCGAGCTGATCCCGATGCAGTACATCAACACCGCCTACGAGCGGATGCTGAAAAGCGATGTGCGCTACCGCTTCGTCATCGACATGGCGACCCTGAACTGA	MTKAKAYAALDPHSALVPFEIERRALGPTDVQIQILYCGVCHSDLHTARNEWNNTLYPSVPGHEIVGRVVAVGEQVSRFKAGDLAGVGCMVDSCGDCPSCHDGDEQYCEHGFTGTYNGPVFGGENTYGGYSQTIVVKESFVLRIRHAETDLAGVAPLLCAGITTYSPLRHWQVGPGKKVGIVGLGGLGHMGVKIAHAMGAQVVLFTTSASKVEDGKRLGADEVCVSTDPEQMSRYTGQLDFILNTVAAPHDLDALLQLLKRDGTMTLVGAPAERHPSPDVFGLIFKRRSIAGSLIGGVRETQEMLDFCAEHGITSDIELIPMQYINTAYERMLKSDVRYRFVIDMATLN	PGPT0024430_128	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0024430-yahK-K13979	NA	NA
BMS010_06807	1128			hypothetical protein	ATGTCCCTGGGAAGCATCCTTGGAAACGCAGCATCCACCGCCATCAACATCACCGTGAACGTCACCCCCATGGGACGTGGCCTTGGCTTGGCCAACGAACTGCTGGGCGGCGGCACCCAGGATTTGGCCGGTGCGTTGACCGATACGCTGATGAAAGGTCTGTTCGGCGAACCGGATAAAAAAGGCATTTCGAAGTTCAACGACTGGAACAACAAGTCCGCCGACAACCCCCTGCTGAAAATGCTCGCCGAGTTCATGGATGCCTCCACCGGTGCCTATGGGAAGCCGGACGGAAAAGCCGGCAACTGGAAAGAAGAACTGTTTGAAAACGATACGGTGAACCAGCAGGAACGCGACGCGTTCGGCCAAGGCCTGAAAGACGTCATCAGCATGTTCCTGGACCAATCGCTCCTCAACGAAGCGATCACGGGACTGGCCCTGCTCGGGAGTGGTGGCGGCTTGGGCGCCCTGGGCGGTCTGGGTGGTGGGCTGGGTGGTGGCTTGGGCGGTCTGGGCGGTGGCCTGGGTGGCGGACTGGGCAACCTTCTGGGTGGTGGCCTGGGCGGCGGTTTGGGCGAAAACCTGTTCGGCAACAACCCGTTCTCCGGTGGTTCGACCGGCACCCCGTTCGCCAACAACCCGTTCTCCAGTGGCCTGAGCGGTCTGGGCAGCAGCATTCTCGGTGGCGGTCTGAGTGGCATGGGCCAGACCGGCATGGGATTCGGCCTGGACCTCGCCTCGCACATGTCCCTGCAAAAGCTGAGCGACATCGGCACCCACGTGGACGGCCAGAACCGTCACTTCATTAACGAAGAAAACCGTGGCACGGCCAAGGAAATCGGCAAGTTCATGGACCAGCATCCCGAGATCTTCGGCAAGCCGGAATATCAGAAGGATGGCGGTGATGTGAAAGCCGACACCAAGTCCTGGGCCGAAGCCCTGAGCAACCCGGATGACGACGGCATGACTGGCGAAAGCATGGACAAGTTCCATAAGGCCACGAACATCATGAAGGATGTCATGCTGGGCGATACCTCTCAGTGCCCGAGCAAGGCCACCGCCGGTGACGCCATGCTGGCTATCAGCAACATCGTCAGCGAAGGGCTGGGAAAAACCAGCAATAGCTGA	MSLGSILGNAASTAINITVNVTPMGRGLGLANELLGGGTQDLAGALTDTLMKGLFGEPDKKGISKFNDWNNKSADNPLLKMLAEFMDASTGAYGKPDGKAGNWKEELFENDTVNQQERDAFGQGLKDVISMFLDQSLLNEAITGLALLGSGGGLGALGGLGGGLGGGLGGLGGGLGGGLGNLLGGGLGGGLGENLFGNNPFSGGSTGTPFANNPFSSGLSGLGSSILGGGLSGMGQTGMGFGLDLASHMSLQKLSDIGTHVDGQNRHFINEENRGTAKEIGKFMDQHPEIFGKPEYQKDGGDVKADTKSWAEALSNPDDDGMTGESMDKFHKATNIMKDVMLGDTSQCPSKATAGDAMLAISNIVSEGLGKTSNS				NA	NA	NA	NA	NA
BMS010_06808	5652			hypothetical protein	ATGAACATCACGGGTCGCGATATCACGACACATTCTCTCCGGCCGTCCACCGCGCCGGAGTCGACCGGCCAGGCGAGCCCGATCCGGCAGCGCCCGCAGAACGCCACGCAGCGGACCGGCCCCCTTTCGCTCGGTGAAATGGGCCGGCGCATGGGCAACCTGATCGGGTTGCGCCAGAGGAACGGGACCGAGCCTCGCCAGGCTCCCGCCGGGGCGGACCGGGCATCGACCTCGCGCGCGGCCGGTCCGACGCTCACCGAGCTGTTCGAACGCTCCACAAGGCAACAGGACCCACTTGGCCTGGGCCGCGCCGCCCGTCGTGTCGACGGCCATGCCATCGACCGCATTCTCGCGGAAGACCCGTCCCTGCAGGAAACGGCTCCCGAGCCCTATGAGCGCCCGGCCCCCACACTAGGGGAAATCCTGGAGCACAAACAAACGTCGGGCCGCTTCCTCTCCAGTCGATCCAACGACAGCATGGATATGTCGGGCAGTGGCCTTCCCACCGACGGGGAACAACCGACTCTGGCGCGTTCGAGCGGACGTCGCTTCGAAGGCGACTTGGTGGAGCGAGCCAAGCGGCCGGCACAATCGTCCGGTGTGGAAGGCATCCATGAGAGGCAGGACTCACTGGAGCGTTCCGATAGTTTTCGCTCGGCGCAGACGCATCTCTCCTCGCCAGCCTCTTCCTCACGCTATTTCACCGCCGCAGAGAGCGAGGGGTCGGACTCCGAACCCGACCAGCCGCCACTGGATCGCAGTCTGGCCAACCGTTATCACGGGAGATACTTCAGCGATCAGGGTGAGCGACTGTCACGCAGCGACTCGCACAACTCATCGGCGAGCGGTTCGTCCCGTCATGACGATTCCCCGATACGCCACGATCCAGGTTCGCAACCGGAGGGTCTGGAACGCTCCCCTGCCGGTCGCTTCGATGAGAGCTGGCTGCACACTGGCATCAGACACCCCTCGCCTTTCGACTCCGCCGGCCCCTCCACGACCCTCCAGCGGGAAGATTCCACGAACTCCCAGGCGTCGAGCTCCAGTACCGGATCGGTTCCGGACGATCAGCCGGCACTGGATCGTGCACGGGCCCGGCACTTCCAGAACATCGACCTCGACCGGATCATGGCCTACAACCCCGCCCGCCAGTCGACGACCTCGCTGGAGATGGGGCTGGATGGCAAGGGGCGGCTGAAGCTCGGCGACAACACACCGGAATCCCTCCGCCAGTTGCTGGAAAATACCCTGGGCAAGCCCGAACGGACCTACTTGGCCCATCATGGCCAACCGGATGGCGATCAGTTGCTGATGGACAAGCAAGGCCACCTGCTGCACCTGCAACAGACGCCCGCCGCCATCGTCGTCATGCGCAGCAGCCGGCCCAGCGAATCCATGAAACTGTTCCAGGCGGCCACGAACGGGCAGGTCGCCGGCTATGGGTTGGAGCGCGAGGGTGACTCCATCGTCGTATCGGCACGCGGCCAGAACAACCGACGTCGTGTCGACCAGGAGGTCACCGGCCGGGCACACATCGCCCAGGTCTCTGGCATTCACGAGGATGCCGAAGGCCAACGGCTGCGCGTACATGACGGACACCTTTACCGCTTCGATGTCGACAAGCAGGCCTGGCAGTCGCACCCCGGCGACGATGGCAAGCCGTTCTCCCAGCTCGGCTTGCAAGCCGACGGGCGACTCTATGCCCTGCACGATGGCGCGCTGCTCGACATGAGCGCCGAGGAACCCCGTCCGCCCGTCGAGGCGCAGGATGCCCGCTCCTTTTCCGTGGCCGCCGATGGCACCGTGGCGCTGCTCTGCGGCAGCGGAGACGCGCAACATATCCGCCTGCGGAACGAGGATGGAGAAATTACCATCCCGTTGAAGCTGGATGACGGCAATGCCGAGGCGGTGCATGTCGGCCTCGACCGTGACCGTCTGTTCCTGACCGACAACGAAGGGCGGCTGTACAGCGCGGGACGAAATGCCGGGGACTTCAACCTGAGACCGGGGCCCCAAGGCGTCCCCCAGGGCGAAACGCTTGGCCGGACGCACTTCGCCGAAGGCTTCATGCAGGACGACCAGGCCCGCTTGAACCTGCTGTTCAAGGATCGCCAGGGTCACATGCACAGCCAGCCCGTCAGCCGCTCCGACGTTCCCCTCCATGCGGGTTGGAACCTCAGCGATGTGCTGGTCATCGACAATCGCCGGGGCCTGCCCAACGCCAATCCGGACCCGCTCAGCCGTCTCAGCCTCGGCCGCCTCGGGCACGTGGCACTGGAAGGCGGCGAGCTTCAGCGCTGGGACAGCGTAGCCAACGCCTGGGCATCCACAGGCATCAAGGGCATCGAGCGGTTGCAACTGGGCCTGGACGGCAAGCCCTATGTGCTGCAGGAGGGCAAGCTGTCCGGGCTCGGCGTCAGTCCCACGATCGGGCGCTTCGCCCACGACGGCAGCCAGAGCCTGGCTCCGACCGGCGTGAACATCCAGGTTTCCATGGGGAGCGCGGTGGTGGACGGCCCGGTCCGCGACTTCGCCCTGGTCAACGACAAGCTGTTCGTCACCCTCGACGGCGAAGGCCAGTTGAATCTGCATGACAACGGCAAACCGGCACGTCCCCTGCCCCTCCGGGGCTTGGAAGGTGAACCTCGCTCACTGGCATTGGACAAGCAGCAGAACCTGTACGTCCTGACGGAAAGCGGCCATCTTTATTGCCTGCCGCGCAAAGACTGGCAAGCGACGGAAGCCACGCCGCGCGAGCCCAGCTGGGGAACAATCAGTACTCCGGACAACCAACCCGTGGCTTCGATCCGCACCGGGTCGGGCAATACCTTGCTGATAGCCCTCCAGGGCAGCAAGGAGGAAGAATTACAGCACGATGGCACGGACTGGCAGCCCCACACCCCCGCCCCGCTGACCCCGCCACAGGTGCTCAAGGCACTGTTCGAACGGGTGCGCGACGACAACAAGTCCTGGAAGCTGGGCGGCCATACCGTGAAGGTGACCGGCGAACGACTGGGGCGCACCGGTGTGGAAAATCACCATCGCAGCGGTACCGCCGAGTTCATCCGCGCCCACATCTTCAAACCTACCTTGGAAACCCCTCGCCCGCTGAAGAACCTCGGCTACAACCTGCAACATCGCTGGCAAGGTCGCGAGGGGCTGGCAGCGGTCTATGAACAGGAAGGGGCGGCATTCGACCGCCTCAGGACCATTGCCCAGGGCGGCTCGGCGAAGCCCGCCGAGGGCACGGACCTGAAATCGCGTATCGCTCGTCTCGGTTTGGGCGAGGAAGGGAAGCCTCTCGCCAAGGCGCTGGAAACCTTTCGCACCGAGTTGGAGGACAGCATCACTCAGACGCTGATCAACCTCGGCAAGGAGAAAGGGTTGCTGAACCTGCACGGCGAGCCCCGGGAAGGCTTCAAGGCACCGCTGCTCGGCGGCCTCAAGCAGAAGCTCAACCCCTTCAGCACCGGCGAAGACCTGAACCACCAATTGCGCGATGCCCTCGCCCAGTTGGGCTCGGAGCCCCACCGCAGCGCCGAACTGCTCGGCCTGCTCGAAGAGAAAGGCATCACGCTCTCCCCGCAGAAGAGCGAGGTTCCGCTGGGGCGCCGTCGCGATCCCGGCGACGACAGCGCCTTGCTCAAGGCGCGCCTGGCACTGGATGTGACGACCCTGCACGAGCTGAATCAATTGGTGGAGCAGATCGGCGCCGCCCCCGAGGCCGAGGAACTCGGTGCCCAGGCCCTGTCGCAACTACGCGACCATCAATATGGCGACAGCCCGCTCAAGGTGGTCACCGACATGGGGTTCCGCGGCCATGACAGCCTGGAAGCCGACTACGACGCCGTGAAAGCCTTCCTCAACGCCTTCAAGAAAACCGACCACGCCGTGCACATCAACCTGCGCACCGCCTTCGGCGGCGATTCGGCGGACATGGCCAAGGGGTTGAAGGCCGCCCTCAAGGAAATCGAAGGCGACCATGAGCTGCATATCCACCGGAACTATGGCGGGGCACTCAGCACCCCGACCACCGGCCCCGGCGGCAACTTCACCTTTCCCAACGGCCGGCTCGCCGGCGATCGCGGCTATTCGCTGACGTTCGAAATCATCGACGACAAGCTGACCGCCACCTTCGTCCGCCAGGGCGGTGGTTCCGCCAGCGTCGGCGCGGGCGTCCGGGATCGGACCCTCAAGCGCAACCACGATCTGGGCCCGGACCGGGCAGCCAGTTTCAGCTTTCCGCTGGATGTCTACGCGAAAGGCACGTTGGGGGCAAACCAGCGTGACGCCCTGCTCTTTACCCTGGCGGAAGGCGAAATCGACGCATTCGTCGACGATCTGATGCAAGGAAAGCTCAACCCCTACGAGCTAATGAAAAAAGGCTCGAATCACGAGGTGCAACATGGCTACCGCGTCAACTTCGATATCGATGCCGGCGCTTCGGTGAACCTCGGCTATGGGTTCAACCTGCATGAGACGGGTTCCCCGTTTTCCGGGATCGCCCGGTTCCGCGGCGCCGTCGAGGTGAACCTGAATCTGTTGAACTACAGCCATTACCGCCAGACCAACACCAACAGTGCTGGCCGTATCCTGGAAGAAGGCGGTCTCAACCGGCCCCGGTTGCTCAACCGGGCGGAGATCAAGCTGGCAGCCCAGGCACAGCTATTGGCCGGGCATGAAGACGAGAAGGCAAAAAAGGCGGCCAAGGCAGCCAAGGAAGCGGGTTTGCCGGAACTGTCCGTGCCCTTCGAAACCACCGGGATGAACCTAGGCGGCTCCCTCAGCGCTTCGGTGGACATGAAGACCACCAAACGCTTCAAGTTCCTGTTCAAGCCGGCCCAGCCCCTGACCAGCAGCGATCTGGCCAAGCTCGGCGACACGCTCGGCAAGGCCTTCAAGGACAAAGCCAGCACCGCCCGGCTGGCGGAAATCGCCAAGGAAGAAGACCTGGACAAGCACCTCACTGCCCTACAGGAGGCATTCGGCGACAGGGAGGTCATCAACGACGACCAACATGCGGCATTGAAGAGCCTGCGTCAGGCCGGAGACCGCCACGAAGCGGCCAAGGCCGGTCACAACATGCTGGATTACATGCGTCTGGAGAGTTCCTACACCAACCTCTCACGGCTGGACCAGGCAAGCCTGCTGACCAGGCTGAGCGCCGAGTTGAATCCGAGCCATGTCCAGAGCAACTCCGAATACCTGGCCAGCCTCATGAAGAACGATCCGAAGCTGGAAGCGCTGATCAAACAGTTGCAGGACACACCCGGCACCCTGGCCAGGGTGCGCCTGGAGTTCAAGGACGAGGTGGCGGCCCGGGTGGACAAGGGCAGCCGCGACGGCACGCTGACCCAGGACGAGCTCGTCTCCCTGCTGAGCGACCGCAACAACATGCGCTTGAAGGCGATCATGGTCTACCAGACGGAAAGCAAGAGCGAAGGCTTCGTCTCTCCGCTGCCGCTGGTGGGCTACAACAGCAGTACATCGCTGAGCCTCATTCGAGCCCTGGGACGGGTCAACTTCGAATACGGCCAGGACCAGAGCACGCCCAAGGGCTACAAGCTGGATGGCGATATCGCGGAGTTCGACAAGCCTACCCAGCAATCCATCGCCGCATTGAAGAGCCATGGGTATACCTTGAAACAGTAA	MNITGRDITTHSLRPSTAPESTGQASPIRQRPQNATQRTGPLSLGEMGRRMGNLIGLRQRNGTEPRQAPAGADRASTSRAAGPTLTELFERSTRQQDPLGLGRAARRVDGHAIDRILAEDPSLQETAPEPYERPAPTLGEILEHKQTSGRFLSSRSNDSMDMSGSGLPTDGEQPTLARSSGRRFEGDLVERAKRPAQSSGVEGIHERQDSLERSDSFRSAQTHLSSPASSSRYFTAAESEGSDSEPDQPPLDRSLANRYHGRYFSDQGERLSRSDSHNSSASGSSRHDDSPIRHDPGSQPEGLERSPAGRFDESWLHTGIRHPSPFDSAGPSTTLQREDSTNSQASSSSTGSVPDDQPALDRARARHFQNIDLDRIMAYNPARQSTTSLEMGLDGKGRLKLGDNTPESLRQLLENTLGKPERTYLAHHGQPDGDQLLMDKQGHLLHLQQTPAAIVVMRSSRPSESMKLFQAATNGQVAGYGLEREGDSIVVSARGQNNRRRVDQEVTGRAHIAQVSGIHEDAEGQRLRVHDGHLYRFDVDKQAWQSHPGDDGKPFSQLGLQADGRLYALHDGALLDMSAEEPRPPVEAQDARSFSVAADGTVALLCGSGDAQHIRLRNEDGEITIPLKLDDGNAEAVHVGLDRDRLFLTDNEGRLYSAGRNAGDFNLRPGPQGVPQGETLGRTHFAEGFMQDDQARLNLLFKDRQGHMHSQPVSRSDVPLHAGWNLSDVLVIDNRRGLPNANPDPLSRLSLGRLGHVALEGGELQRWDSVANAWASTGIKGIERLQLGLDGKPYVLQEGKLSGLGVSPTIGRFAHDGSQSLAPTGVNIQVSMGSAVVDGPVRDFALVNDKLFVTLDGEGQLNLHDNGKPARPLPLRGLEGEPRSLALDKQQNLYVLTESGHLYCLPRKDWQATEATPREPSWGTISTPDNQPVASIRTGSGNTLLIALQGSKEEELQHDGTDWQPHTPAPLTPPQVLKALFERVRDDNKSWKLGGHTVKVTGERLGRTGVENHHRSGTAEFIRAHIFKPTLETPRPLKNLGYNLQHRWQGREGLAAVYEQEGAAFDRLRTIAQGGSAKPAEGTDLKSRIARLGLGEEGKPLAKALETFRTELEDSITQTLINLGKEKGLLNLHGEPREGFKAPLLGGLKQKLNPFSTGEDLNHQLRDALAQLGSEPHRSAELLGLLEEKGITLSPQKSEVPLGRRRDPGDDSALLKARLALDVTTLHELNQLVEQIGAAPEAEELGAQALSQLRDHQYGDSPLKVVTDMGFRGHDSLEADYDAVKAFLNAFKKTDHAVHINLRTAFGGDSADMAKGLKAALKEIEGDHELHIHRNYGGALSTPTTGPGGNFTFPNGRLAGDRGYSLTFEIIDDKLTATFVRQGGGSASVGAGVRDRTLKRNHDLGPDRAASFSFPLDVYAKGTLGANQRDALLFTLAEGEIDAFVDDLMQGKLNPYELMKKGSNHEVQHGYRVNFDIDAGASVNLGYGFNLHETGSPFSGIARFRGAVEVNLNLLNYSHYRQTNTNSAGRILEEGGLNRPRLLNRAEIKLAAQAQLLAGHEDEKAKKAAKAAKEAGLPELSVPFETTGMNLGGSLSASVDMKTTKRFKFLFKPAQPLTSSDLAKLGDTLGKAFKDKASTARLAEIAKEEDLDKHLTALQEAFGDREVINDDQHAALKSLRQAGDRHEAAKAGHNMLDYMRLESSYTNLSRLDQASLLTRLSAELNPSHVQSNSEYLASLMKNDPKLEALIKQLQDTPGTLARVRLEFKDEVAARVDKGSRDGTLTQDELVSLLSDRNNMRLKAIMVYQTESKSEGFVSPLPLVGYNSSTSLSLIRALGRVNFEYGQDQSTPKGYKLDGDIAEFDKPTQQSIAALKSHGYTLKQ				NA	NA	NA	NA	NA
BMS010_06809	255			hypothetical protein	ATGCCTGATTTCCGTCCTCTTCCCTCCCTCAGTACCACTGCCAGCCCTGTTCTTTATGCCAACGCCAGCCTCGGCGCTCACGAACTGTTCGAAGCCGGCCAAGAGCGCCTGAACGCCGCACGGCAATTGGCGCTGGTGTTGTTCTGCAACGAGCCGCAGTTGGATAACGGCGAGGTGTTCGCGGTGTTTCATCTGCTGTTGAACGATGCGGCGGGTTTGTACGACGCGGCGTTCGAGCAGGTGCGGCGCACCTGA	MPDFRPLPSLSTTASPVLYANASLGAHELFEAGQERLNAARQLALVLFCNEPQLDNGEVFAVFHLLLNDAAGLYDAAFEQVRRT				NA	NA	NA	NA	NA
BMS010_06811	753			hypothetical protein	ATGGACGTCCGCAGCCCCTTCTTCCAGACCATCGCCCTGATCCTCAGCGGCGTGCTGTTGCTCAACCCCCTCGTCGCCACCGCGGCGGACCTGGCGGTGGCGGCCGGCAGCGGCGCCACGTTGACCCAGGCGGGCAACGGCGTGCCGGTGGTCAACATCGCCAAGCCCAACGGCAACGGCCTCTCGCACAACAAATTCTCGGAATTGAACGTCGGCCAGCAGGGCCTGATCCTCAACAACGCCACCAGCGCCACGCAAAGCACCCAGCTTGGCGGCATCATCCTCGGCAACGCGAACCTCCAGGGCCAGGCGGCGGGCCTGATCCTCAACGAAGTCACCGGCGGCAACCCCAGCCAACTCAAGGGCTACACCGAAGTGGCGGGCAAATCCGCCCACGTCATCGTCGCCAACCCCCACGGCATCACCTGCGACGGCTGCGGCTTCCTCAACACCCCGCGGGTCACCCTCAGCACCGGCAAACCCATCGTCGAGAACGGCCGGCTGGACCGCTTCAGCGTCGACGGCGGCGAGATCGCCCTCGAAGGCGCGGGCCTCAACGCCAGCAACATCGACCAGTTCGACCTGATCACCCGCAGCGCCAAACTCAACGCCGAACTGCACGCCAAGCAGCTCAACGTCATCGGCCCCTTCACGTTTTTCCCTCCGCACCTTGCCGCTCGCTTGCCTCATCTCTCCCTAGCCGCTAGAGTCCGCCCGTCACGGTCAATCCCGTGGCCGGGTGTCGCAACCTGA	MDVRSPFFQTIALILSGVLLLNPLVATAADLAVAAGSGATLTQAGNGVPVVNIAKPNGNGLSHNKFSELNVGQQGLILNNATSATQSTQLGGIILGNANLQGQAAGLILNEVTGGNPSQLKGYTEVAGKSAHVIVANPHGITCDGCGFLNTPRVTLSTGKPIVENGRLDRFSVDGGEIALEGAGLNASNIDQFDLITRSAKLNAELHAKQLNVIGPFTFFPPHLAARLPHLSLAARVRPSRSIPWPGVAT				NA	NA	NA	NA	NA
BMS010_06812	4908			hypothetical protein	ATGCAGGTTTCCGGTTCCGAGCACGCCACCCCAGCGCACGCCACAGCCTTACGCCTGGAAGGCAGCGACACCATTAATCAACGACCCTTGGCAGCGACGCAGCAAGCGGGCGGACTCTCGCTCCTCGAGCTGGGAAAGCGCATCGGCCGGCTGCTGGCGCCTCGTCAACGCCTCGAGGCCGAACCGCTGCAGGCTCAGTCGACCGGTACCAGCCCGGAGTCGAGCCACCGGCCACTGTTACGCCCCGCTCCGGCATCGCCGGAGATGGAGCTGGAGCGTCTTCCCGGGCGGCGCTTCCAGGGCCTGAATATCGAACGCCTGTTGTCCCACGACCCCTCGCGCCACGCCACCACATCCCTGGAAATGAGCCTGGGCCCGCACGGACGACTGGTGATCGGTGACAACACACCCACGGGCCTGCGGCATCTGCTCCAGGCCACGCTGGGCCAGGCATCGAAAACCTACCTCGCTCACCATGGCGAGCCGGACGGCGACCAGTTGCTGATGGACCGGCAGGGCACCCTGCTGCACCTGCGGCAGACACCCGCCGCCATCGTGGTGCTGCGCAGCAGCCGGCCCAGCGACGCCAAGCGCGACCTCGATGCCCTCCTGTGCCCCGGCGGCGTGGCCGAGTACCACCTGCAGCGCGAGGAAGACGGCGACAGCATCCAAGTGCGGGCCCGCCCGAAGAACGGTGGCGAAGAGCACAGCCTGAACGACCTGGACATCGGCGGGCGAGCCCATCTCGCCCAGCTCACCGGTATCCACGAAGACACGGCTGCCCAGCGACTGCGCCCGCACGACGGCAAGCTCTACCGCTTCGACATCGAAGAACAGGCCTGGGCCCTCCACCCCGCCAACGACGGCACACCGTTCAAGCAGCTCTCGCTACAGGCGGACGGCCACCTGTATGCGCTGCACGGCGATCACCTGGTGAACCTGAGCGCACCCCAGCCGAGCATGCCGCTGGCAGCGCGTGGCGCCGTGGCCTTCTCCGTCGCCGCCGATGGCACCGCCGCGCTGCTCTGCGGCAAAGGCGCTGCGCAGAGCGTCCGGCTGGTCAGGCCGGACCAGGCCGACAGCATCCAGGCGGGCCTGGCAGCCGTGGACGGACAGGTCCGCCTGCAACTCGGCCTGGTCGACAGCCACCATGAACACGCCTTGCGCCTCGATGGCGGCAATGCCGAGGCGACCCGCATCGGCATTGCCGACGGCCGTCTGTTTCTGATCGACAACGAAGGGCGGCTATACAGCGCCGACACCCCTTCGGCCAACGGTCCTCTGGATCTCCAGCCTGACACCGGGGCGATCCCGAACGGCCAGGCGCTGGGGCGCACCACCTTCGCCGAGGGCTTCATGCAGGACGACCAGGCCCACTTGAATGTCCTGGTCAAGGATGCCCAGGGGCAGTTGCACAGCCAGCCGGTGAACCTGATCGACCAACCGGCGAAAGGCGGCTGGAACCTCACCGATGCACTGGTGCTGGATAACCGCCGCGGGCTGCCCGAGCCGCAACCCGCCCAGGCGAATACCCTGAATCTGGGCCGCCTCGGCCACGTCGCCCTGGAGGGCGGCGAGCTGCTGCGCTGGGATGCCACCGCCAACACCTGGGCCAGCACTGGCGTCAAAGAAGTGGAGCGCCTGCAACAGGGCCTGGACGGCAAGCCGTATATCCTCAAGGGCGGCAAATTGCAGAAGCTGGACGTGACCCTCAGCGTAGGGCGCTTCCTCCATGACGGGCAGCATTCCCTCGCCCCCATCGGCCAGAACATCAAGGTCGCCGGCGGACGCGCGCTGCCCGCCGCAAGCGGCCTGCGCGACGTCGCCCTGGTCAATGAAAAGTTGTTCGTCACCCTGGGCCGCGACGGCCGGCTGGAGCTGCACCACCCCACCCGGCCCGACGGGGAAATCCCTCGGACCGGGCTCGACGAAGAGATCCAGTCCCTTGCCCTCGACGAGAAGCAGACCCTCTATGCCCTGACCCAAAGCGGCCGGCTCTTCAGCTTGCCGCGTGCCGACTGGCAGGCAGCCGAAGCGGAGCAGCGGGAGCCTGCGGCCTGGCAGCCCTGCGAGCTGCCCGACGAGCAGCCGCTGCAAACGATCCGCACCGGCCCCGGCAACCGCCTGCTCGCCAGCCTCCGGGGAGCGGAAGGCGCCGAAGAGCTTCGGCATGACGCCAGCCTCGGCTGGCATCCCCACCAGCCCTCCGACCTGTCGCCGCCGCAAGCGCTCAAGTCGCTGTTCGAGCGCGTCCGCGACGACAGCAGGACCTGGAAACTGGGTGGAGCCACGGTCAAGGCATCGGTCAACCGGGCGGGCCGCAACAGCGCGGAATACAAATACCGCTCCGGTACTGGCGAATTCATCCGCGCCCACGTCTTCAAGCCGACCCTGGAAACCCCGCGCCCGCTGAAAAACCTCGGCTACAACCTGCAGCACCGCTGGCAGGGCCGCGAAGGCTTGAGCCCGATCTACGAGGCGGAAAGCACACTGTTCGAGCAACTGAAATCATTGGCCGACAAAGCGGCTCCGGCCGCCGGCCAGGACCTGAAGGCCCGCATCGCGGGACTCGACCTGGGTGCAACCGGTGCACCGCTGAAGGCGGCGCTGGAAGCCTTCCAGACCGAGCTGCAACGCAGTTGCGACAAGCATGCCGTGGCCCTGGGCCAGGCCGTGGGCGTTCTCAACATGCACGGCGAACCCCGGGAAGACTTCAAACCGCCGCGACTCGGCGCCCTGCGGCAGAAACTCGACCCTTACAGCGCCGGCGCCGACTTGGCGCCCCTGCTGCGTGACGCCCTCGCCCGCGTGGCGCCGGCGGACGCGCGCGCCGTCGAACTGCTCGACCGCTTCACCGGGCAAGGTGCCCTGCTCTCCTACCGCAAGAGCGAAATGCCCCTCGGCCGCCGTCGCGATCCGGGTGACGACAGCGCCCTGCTCAAGGCACGCCTGGCGCTGGATATCGCGACCCTGCACGAACTGAATGCCCTGGTCGACCGGCTGGAAGACGCCCCGCTGGAAGAATCGAGCAAGGCACTCTCGGCCCTGCGCGACCAGCACTACCACGAGCACCCGCTCAAGGTGGTCACCGACATGGGCTTCCGCAACCATGACAGCCTGGAGGCCAACTATGACGCGGTGAAGGCATTCCTCAAGGCGTTCCGCAAGACCGACCACGCCGTGCACATCAACCTGCGCGGCGCCTTCGGCGGCGACTCGGCGGACATGGCCAAAGGCTTGAAGGCCGCGCTCAAGGAAATCGAGGGCTACCACGAACTGCACGTCCAGCGCGGCTACGGGGGCCGGCTGAGCACCCCGACCACGGGACCTGGCGGCGTCGTCACCTATCCCAGCGGAAGCCTCGGAGCCAACCGCGGCTACAGCCTTACCTTCCAGATGGAAGACGACAAGTTCACCAAGGAAGAGCGCTTCCTGGTGACCTTCGTCCGCCAGGGCGGCGGCTCGGGCAGTGTCGGTTTCGGCATACGCGACCGAACCCTGGGCCGTAGCCATGGTGTCGGCCCCGAACGCGAGGCCAGCCTGAGTTTCCCGCTGGATGCCAGTCTGCGCGCCAGCGTCAGCGGCTCCACCCAGGATGCCCTGACCTTCATGCTGGCGCCCGGCGAGATCGACGCCTTCGTCGACAGCCTGGTCGAGGGCACCCTCGACCCGTACGAGCTGATGCGCCGCGGTGTGGAACATGAAGTGCAGCATGGCTATCGCTTCAGCGTCGACCTGGATGTCAGCGCCTCCGCGAACGTCGGGTACGGGGTCAACATGGCGGAAAGCCAGTCGCCCCTGGATGCTCTCTTCCGCATGCAGGGGGGCGCCGAGCTGAGCCTGAACCTGATCAACTACAGCCAGCACCGGCTGGCCAGCAGCGGAGCATTCCAACGGGAGGAAGGCAGCCTGAACCGGCCACGCTTCTTCAACCAGTTCCGCGCGGCCCTGCATCTGCCACAGGCCCACCTGATCGGCTCGCATACTGCGCCGGACGGGGAATTCCAGCAGGCACGCGGTGGCCTGGACAATTCCGTCAGCGCAACGATGGAGACGCGTACCACCAAGCGCTACAAATTTCTTTTCAAGGCCGTGGAACCGATCACCGAAGCCGACGTGGCCAAGGCCGCCGCCACCCTGGGCAAAGCCTTCCGCGACAAGGCCTCCGCGGCGGCGCTCAAGGAAATGGCCACGGAGCGCGACCTCGGCCGCCGGCTGGAGCGCATGGGCGAACGCTTCGCCGGCCGGGAACCGGAGAACGACGACCAGTACGCTGCGCTGCGCTCCTTGCGCGCCCTGGCCGACAAGCATGTCGCCACCCTCGCCGGCCACAGCCTGCTGGGCGAAGCCTATTTCGACAGCACCTACACCGATCTCGGCCGCCTGGACAAGATGAGCTTGCTGACCCGACTGAGCGCCGGGCTCAACCCCAACCATGTGCAAAGCAATGCCGAATACATCGCCGGGCTCATGGCGAACGACCCGAAGCTGGAAAACCTGATCAAGCACCTGCAGGACACGCCCGGCACAACCGCCCGCGTCCGCCTCGAGTTGAAGGACGCGGTCAAGGCCGAAATCGAACGCGGCAGCCGGGACGGCACCCTGACCGAAGACCAACTCATCGCCAAGCTGCAGGACCGCGCCAACCTGCGCCTGAAGGCGATCTTCCTGTTCCAGACCGTGGACAAACGCGAAGGCTTCACCTCCCCCCTGCCCTTGGTCTCCTACAACAGCGAAACCTCGCTGAACCTGGTGCGCTGCCTGGGTCGGGTCATCTTCGACTTCGGTCGCGACCAGAACACCCCCAAGGGCTACACCCTGGACGGCGACATCGCGCATTACGACGAACCCACCCAGCAAGGCATTGCCGCCATGAAGCGCGAAGGGTTCGATTTGCGGCGGCCGTGA	MQVSGSEHATPAHATALRLEGSDTINQRPLAATQQAGGLSLLELGKRIGRLLAPRQRLEAEPLQAQSTGTSPESSHRPLLRPAPASPEMELERLPGRRFQGLNIERLLSHDPSRHATTSLEMSLGPHGRLVIGDNTPTGLRHLLQATLGQASKTYLAHHGEPDGDQLLMDRQGTLLHLRQTPAAIVVLRSSRPSDAKRDLDALLCPGGVAEYHLQREEDGDSIQVRARPKNGGEEHSLNDLDIGGRAHLAQLTGIHEDTAAQRLRPHDGKLYRFDIEEQAWALHPANDGTPFKQLSLQADGHLYALHGDHLVNLSAPQPSMPLAARGAVAFSVAADGTAALLCGKGAAQSVRLVRPDQADSIQAGLAAVDGQVRLQLGLVDSHHEHALRLDGGNAEATRIGIADGRLFLIDNEGRLYSADTPSANGPLDLQPDTGAIPNGQALGRTTFAEGFMQDDQAHLNVLVKDAQGQLHSQPVNLIDQPAKGGWNLTDALVLDNRRGLPEPQPAQANTLNLGRLGHVALEGGELLRWDATANTWASTGVKEVERLQQGLDGKPYILKGGKLQKLDVTLSVGRFLHDGQHSLAPIGQNIKVAGGRALPAASGLRDVALVNEKLFVTLGRDGRLELHHPTRPDGEIPRTGLDEEIQSLALDEKQTLYALTQSGRLFSLPRADWQAAEAEQREPAAWQPCELPDEQPLQTIRTGPGNRLLASLRGAEGAEELRHDASLGWHPHQPSDLSPPQALKSLFERVRDDSRTWKLGGATVKASVNRAGRNSAEYKYRSGTGEFIRAHVFKPTLETPRPLKNLGYNLQHRWQGREGLSPIYEAESTLFEQLKSLADKAAPAAGQDLKARIAGLDLGATGAPLKAALEAFQTELQRSCDKHAVALGQAVGVLNMHGEPREDFKPPRLGALRQKLDPYSAGADLAPLLRDALARVAPADARAVELLDRFTGQGALLSYRKSEMPLGRRRDPGDDSALLKARLALDIATLHELNALVDRLEDAPLEESSKALSALRDQHYHEHPLKVVTDMGFRNHDSLEANYDAVKAFLKAFRKTDHAVHINLRGAFGGDSADMAKGLKAALKEIEGYHELHVQRGYGGRLSTPTTGPGGVVTYPSGSLGANRGYSLTFQMEDDKFTKEERFLVTFVRQGGGSGSVGFGIRDRTLGRSHGVGPEREASLSFPLDASLRASVSGSTQDALTFMLAPGEIDAFVDSLVEGTLDPYELMRRGVEHEVQHGYRFSVDLDVSASANVGYGVNMAESQSPLDALFRMQGGAELSLNLINYSQHRLASSGAFQREEGSLNRPRFFNQFRAALHLPQAHLIGSHTAPDGEFQQARGGLDNSVSATMETRTTKRYKFLFKAVEPITEADVAKAAATLGKAFRDKASAAALKEMATERDLGRRLERMGERFAGREPENDDQYAALRSLRALADKHVATLAGHSLLGEAYFDSTYTDLGRLDKMSLLTRLSAGLNPNHVQSNAEYIAGLMANDPKLENLIKHLQDTPGTTARVRLELKDAVKAEIERGSRDGTLTEDQLIAKLQDRANLRLKAIFLFQTVDKREGFTSPLPLVSYNSETSLNLVRCLGRVIFDFGRDQNTPKGYTLDGDIAHYDEPTQQGIAAMKREGFDLRRP				NA	NA	NA	NA	NA
BMS010_06813	1605			hypothetical protein	ATGAACGTAAACGATGCAAGCTACCAGTCCATGGCCTCCCTATTGGGACAGTCCTTCCGTTCCGATCACGACCCCGATGCAGGAGAGATATCCAGCCGATCACATACCCTGTCCAGTACCGGAGCGACCCATGCCGGGTCATTCCACTCCATAAATACCGTCATCGGCGTTCATGATCCGGAGCATTCACCGAACGCCGTCGCCCTGCGCGAAAAGCTGAACAAACTGTTCGAGCCGCACATCACCGAACAGAACCGGGAGGCATTCAAGCAACTCATCGACCAACGGGCGATTCGCCTGAACGAGATGGGGGAAACGCCGGAAAGCGTCGAAGCCACCCTGGCCAAGGGGCAGAAGCTGGACCGTTTATCCAAGGGAGTGGTGGGAGCGATGAACTCGGTGCCGTTCGGCGCGGCCTCGCGCCTGCTGGACACCGTGCCGGCGCTCACCGCCTTTGCCTCCGGGCCGGCCATGGTCGGCCTTGTCGGTGGAACGATAGCGGGCGTGGCGAATACCGTCGGGGTTGGCATGTTGAAACGGGCCACCAGTGATACCCAATGGCTGACCGCCAAGCCCGAGGAACTGGACCCGGTGATGGCCGATGCCGCCAAGGCCCGCGAGCCCAGCCAACTGCGCTCCACCCTCGAGGCGAGCGCGAACCTGCAGACCTTTACGCTGCGCAACATCCTGCGCACCGGATTGGCAGGTCTGACGATGACGAACGTCCCCGACAAGAAAGAGAACGAAACTCCAGCCGAAGCGGCGGACCGCACAGCCAAGGCAGAACACAACGCCAACGTCAAGAACACCGATTCCTGGATCTCGGCCTCCGGCAGCGTGGTGGCGGGAGGCGCCTCCGCGTTGATACAGCAGGGTATCAATGAGCACTATCACCGCACCGGCCCGGAATACCTGCTCGGCCGCCAGGATTGGGAAGCGCAGTACACGGCGCTGAAAGAGGTCAACCCGCTGCGGGACCCGCTGATCAATGCCGGCAAGCGGCTGGCGCAGCTCCCCGTGGACATCGCCACCGACAGCCTCGAAGCGACCCGCAAGGCCTTCACCGCCAGTGCCCTGATGGAGAACGTCGGCATGCTCGGTGGCGGTTTTGCCGCTGTGTCCGTGGCACAGGCAGCAGCCAAAAAGACGGCGACCGATGCCGGCCTTGGAGAACCCGCCGTCGAAGCGGTCGGCCAAGCCGTGAACGCCGCCCTCGGCGGGCCGGTTTTCGCCGCATGGGCCGGGGCCTCGATCATGACCGGCCCGGCTGCCGATAAAGCGGCCAATTACCTGCAGGAGAAAGCGTCCTCGCTGCTCGGGCAGGCCGCCAACTATCTGCATGGCCGCCCGTCCGGTTCCCAGCCGCTACCCAGCGACGACGACGCTCTGCGGGACCTGGAGGAAGGACGGCTTCCCCCGCAGGGCGCTGCCGACAACGGTCAACCCATCGCCGCCACCCACAACCAGAACCAACTGGAGAGAGTGACGGAAGAACCGCCGACCACGGTCGATACTGGCCAGCCTTCCACCAGCGGCCAGGGTGAAATAGAGATGGTACAGACAGAATCCTCCCCACCGCTGAACAATGCTGAGCGTAACGTGTAA	MNVNDASYQSMASLLGQSFRSDHDPDAGEISSRSHTLSSTGATHAGSFHSINTVIGVHDPEHSPNAVALREKLNKLFEPHITEQNREAFKQLIDQRAIRLNEMGETPESVEATLAKGQKLDRLSKGVVGAMNSVPFGAASRLLDTVPALTAFASGPAMVGLVGGTIAGVANTVGVGMLKRATSDTQWLTAKPEELDPVMADAAKAREPSQLRSTLEASANLQTFTLRNILRTGLAGLTMTNVPDKKENETPAEAADRTAKAEHNANVKNTDSWISASGSVVAGGASALIQQGINEHYHRTGPEYLLGRQDWEAQYTALKEVNPLRDPLINAGKRLAQLPVDIATDSLEATRKAFTASALMENVGMLGGGFAAVSVAQAAAKKTATDAGLGEPAVEAVGQAVNAALGGPVFAAWAGASIMTGPAADKAANYLQEKASSLLGQAANYLHGRPSGSQPLPSDDDALRDLEEGRLPPQGAADNGQPIAATHNQNQLERVTEEPPTTVDTGQPSTSGQGEIEMVQTESSPPLNNAERNV				NA	NA	NA	NA	NA
BMS010_06814	306			hypothetical protein	ATGGCAGTGTCCGGCTTGCTGGTCCTGGTCATGCCCAATGCGCAGCCACCCTTGCTGCCTCCTTTCGGTGGCTATCGACCGGAGCCCATCGCGCTGTTGCACCAACCCCAGCCGTTGCCGTTTCTCCAAGGGCTGATCGGACATACCTGCAAGCAAAACCCGCATGAGCGGAACCGGCCGCTGTCGATGCTGGAACCGGCGCAGTCCGAGTTCGAGGTCCAGCAACGGCAGTTCGCCCACTGCATGGAGAACTATCGAGAAGCCATGAAGCAGCTATGCAACGCTGCCAAGGGCCTCAAGTACTGA	MAVSGLLVLVMPNAQPPLLPPFGGYRPEPIALLHQPQPLPFLQGLIGHTCKQNPHERNRPLSMLEPAQSEFEVQQRQFAHCMENYREAMKQLCNAAKGLKY				NA	NA	NA	NA	NA
BMS010_06815	504			hypothetical protein	ATGACTTCCATACAGGCGGAAGAAACCATCAATCGTTGGCTGATACGTTGCGGAGTGACGGCCGTGAACGGGCGCGTGCTGGACGCGCAGGGCTGTTGCAGCGTCGCGCTGGAGGACGGGCAGGAGGTGCTGGTGATGCTGCCGGCGAACCAGACCTGCGTGTATTTCTACGGCTTGGTCGGTGAACTCGACCTGAGCCGCGACAACGGCGTACTGACTCTGGCGATGACACTCAACCTAGACCCTGCTTATACGCGCGGGGCGGCGCTGGGGTTCGACCCGGAGCGGCGCCAACTGCTGCTGCGCGCCGTCCATCCGCTGGAGCAGGCGCGGGACGACGAGCTGGACCGCGTGCTGCGCAACTTCGGTGAGCTGGTCCGGCAACTCAGGGATTACGTCGAACGCTACCGCCACCAGGCACCGGCCAGCGCCACGCCAAGAACGGCGCGGGAGGGTGGCTCGTTGAATTCACTGGTTCTGGCGGCAGGTGGGCGATTGGCATGA	MTSIQAEETINRWLIRCGVTAVNGRVLDAQGCCSVALEDGQEVLVMLPANQTCVYFYGLVGELDLSRDNGVLTLAMTLNLDPAYTRGAALGFDPERRQLLLRAVHPLEQARDDELDRVLRNFGELVRQLRDYVERYRHQAPASATPRTAREGGSLNSLVLAAGGRLA				NA	NA	NA	NA	NA
BMS010_06816	969			hypothetical protein	ATGATCGGCTCCGTTCAGAACCGGGGCGTTGTCGACATCGCTGCCGGGCCGCAGCAGGAAGCGGCACTTTCCCTGACGCGCTCGGGCCAACCAGCCATGCGGCCACCCATGTTGCACAGGGGCCAGGCCGAGCTCGACCAGCCCTTGGCGTCTCCGTTGCCGCTGCCTCCGCCTGGCCGCTTCGAGCCTCGGCCGGTAGCGCACGGACCCGCCAATCACCCGTTGCCGTCGTTTCTGGCCAATGCCGGCGGGCCGGGACGGACGAAAGGCCTGCCGGGAGACGATGCGCTGACCGAAGACTTCCGTGATCTCGCCGAGCGGAACGGTTGCACGGTAACCACCGCGTTCAGCCAGACCACCACCCGGAAAGCCATTCTTGGCAGCATTCCCGGAGCTGCGGAAATGATCCCGGAGAAGCTGCAGAACAAGGGGCTGTGCTACGGGCTGTCGCTGAACTGGCTGAAGAACGCCGGGGAGGGCAGGAACGATGCGCATTTCTTCCAGGCGTTACCGGCCTGGAGCGAGGACTCCCTGTTCCTTCGTTGCCTCGGCCTGGAGATCGAGCAGGATCGGATGTTGCCCCACGGCGATGAAGCGACGTTCCTGCACATGCTGTCGTTCGTCGGGCTGCATTCTGCGACGCCCGAACGGCCGCTCACGGAGTTGTCATGGGATTCCGATCGGGCGTTCGCACGGCAACTGAACGACAGAATGATGCCGGGTCAGGAGCAATTTTTCGTGTTGCTTACGGACCAGCACGTCATGGGCTTGCGCAAGGATGCTTCCGAACGGCTGCATTTCTTCGACCCGAACCTGGGGGTGGTGGCTGCCGACCGGGCCGGTGCCTTGGTACAGGTGATCCAGGAGGTGCTGGAAGCGGCGCCGGAATACTGGTCGGAAGGCAATAGCCAGCGGCCCTTGAGTCTGTGCGAAGTCCGGCCGATGGCCAATCGCCGCCAGACGGGCTGA	MIGSVQNRGVVDIAAGPQQEAALSLTRSGQPAMRPPMLHRGQAELDQPLASPLPLPPPGRFEPRPVAHGPANHPLPSFLANAGGPGRTKGLPGDDALTEDFRDLAERNGCTVTTAFSQTTTRKAILGSIPGAAEMIPEKLQNKGLCYGLSLNWLKNAGEGRNDAHFFQALPAWSEDSLFLRCLGLEIEQDRMLPHGDEATFLHMLSFVGLHSATPERPLTELSWDSDRAFARQLNDRMMPGQEQFFVLLTDQHVMGLRKDASERLHFFDPNLGVVAADRAGALVQVIQEVLEAAPEYWSEGNSQRPLSLCEVRPMANRRQTG				NA	NA	NA	NA	NA
BMS010_06817	1047	ybhN	COG0392	Inner membrane protein YbhN	ATGAATCGAGCGGAACCTCCGACAACGCAGCGGAAGCGCTGGTGGCCCCTGGTGAAGCGCCTGCTCACCGTGGCCTTCTTCATCCTGCTCATCGTGCTCTTGGTAATGCTCGGCAAGAACGTCGACTGGAATGAAGTGCTGGCCACCCTGCGCGACTACCGCGCCAACACACTGCTGCTGGCGGCCGCTGCCTGCCTGGCCAGCTACCTGGCCTACAGCAGCTTCGACCTGCTCGGCCGCGCCTACGCCAAGCACCACCTGCCGGCCTGGCAGATCATGCCGGTGACGTTCGTCTGCTATGCCTTCAACCTTAACCTCAGTGCCTGGGTCGGTGGGCTCGCCCTGCGCTACCGCCTCTATGCGCGGCTGGGGCTGAGCAACGCCGAGATCACCAAGGTCTACAGCCTCAGCCTGATGACCAACTGGCTGGGCTACCTGATGCTCGGCGGCGTGCTCTTCGCCTTCGGCCCCATCGAGCTGCCCGATAGCTGGGCCATCGGCCGCGGTACCCTGCGCCTGCTGGGGCTCGCCCTGCTGGCCGTGACCATCGGCTACCTGCTGCTCTGCGGTTTCTCGCGGCGGCGCAGTTGGCACGTCCGTGGCCACGAAATCCGCCTGCCCTCGCTCTGGCTGGCCAGCACGCAAATGGCCCTGGGCGCCATCAACTGGGCGCTGATGGGGCTGGTGATCTACATCCTGCTGATGAACCGGGTGAGCTATGCCGAGGTGCTCGGCGTACTGCTGATCAGCAGCATCGCCGGGGTCATCACCCACGTTCCGGCCGGCCTCGGCGTGCTGGAGGCGGTGTTCGTCACGCTGCTCCAGCACCAGATATCCAAAGGCAGCCTGCTGGCCGGCCTGATTGGCTATCGCGCGCTCTACTTCCTCGCGCCGCTGTTGGTGGCGACGCTGGTGTACCTGGTGCTGGAATTCCGCGCCAAGCGCCTGCGCCAGATGAATCGCGACAAGCGGACGACGGAGAAACCACCCACCAACCCCGAACGACCAGCACCCAAGCGGAGCATGGCCAAGCCACCGCTCCCCTAG	MNRAEPPTTQRKRWWPLVKRLLTVAFFILLIVLLVMLGKNVDWNEVLATLRDYRANTLLLAAAACLASYLAYSSFDLLGRAYAKHHLPAWQIMPVTFVCYAFNLNLSAWVGGLALRYRLYARLGLSNAEITKVYSLSLMTNWLGYLMLGGVLFAFGPIELPDSWAIGRGTLRLLGLALLAVTIGYLLLCGFSRRRSWHVRGHEIRLPSLWLASTQMALGAINWALMGLVIYILLMNRVSYAEVLGVLLISSIAGVITHVPAGLGVLEAVFVTLLQHQISKGSLLAGLIGYRALYFLAPLLVATLVYLVLEFRAKRLRQMNRDKRTTEKPPTNPERPAPKRSMAKPPLP				NA	NA	NA	NA	NA
BMS010_06818	1251	clsB	COG1502	Cardiolipin synthase B	ATGAAATTCACCTGGAAGGATGGCAACCGGCTTCAACTCCTGGAAAACGGCGAAGCGTTCTTTCCTCGCGTGTTCGAGGCGATCAGTCAGGCCGAGAAGGAGGTCCTGATCGAGACCTTCATCCTCTTCGAGGACAAGGTCGGCCAGGCCTTGCAGCGCGAGCTGATCGCCGCCGCCGAGCGTGGCGTGCGGGTGGAAGTGACGGTGGACGGTTACGGCTCGGCCGACCTCGGCAGCGAATTCATCGCCGCCATGACGCGGGTCGGCGTGCACATCCAAATGTTCGACCCCAAGCCGAAGACGCTGGGCATGCGCACCAACGTGTTCCGCCGGCTGCACCGCAAGCTGGTGGTGGTGGATGGCAAGCTGGCCTTCATCGGCGGCCTCAACTTCTCGGCCGACCACCTGGCCGACTATGGTCCGGAAGCCAAGCAGGATTACGCCCTGGAAATCGTCGGCCCGGTGGTGGACGACATCCACCGCTTCGCCCTCGCCACGGTGGCGCCGCCGAGCCCGCCCCGGCACTGGTGGCAGCGGCGCATCGAGGCCGTCGAGAATACCGAAACACCACATATCGAGGGCATCGGCAACGTACGCGCGCTGTTCGTCACCCGTGACAACGAGGAGCACCAGAACGACATCGAGGAGCATTACCTCGACGCCATCCGCAACGCGCGCCGCCGGCTGGTGATCGCCAATGCTTACTTTTTCCCCGGCTACCGCCTGCTGCGGGAAATCCGCAACGCGGCGCGGCGCGGGGTGAAGGTCAAGCTGATCCTCCAGGGCCAGCCGGACATGCCGATCGCCAAGTTCGGCGCGCGCATGCTCTACAACTACCTGCTGCGCGACGGCGTGGAAATCTACGAATACTGCCGCCGGCCGCTGCACGGCAAGGTGGCGTTGGCCGACCACGAGTGGGTGACCGTCGGTTCGAGCAACCTCGACCCGCTGAGCCTGTCGCTGAACCTGGAGTCGAACCTGGTGATCCGCGACGCGGAGATCAACCGCCAGCTCTACGAACACCTCGAAGCACTGATGACCAGCGACTGCAAACACATCGTCCTTGAGCGGATCGTGCGCGGCTACTTCTGGCGGGCACCGCTGATCTTCCTGATCTTCCACTTCCTCCGTCACTTCCCGTCCTGGGTGGGCTGGTTGCCGGCGCACAGCCCGACGCTGGCGCAACTGCAACCTCACGTGGACAGCATCGACGAGGACGATGCCACGCGCCTGCAGCGAGGCCATCAATGA	MKFTWKDGNRLQLLENGEAFFPRVFEAISQAEKEVLIETFILFEDKVGQALQRELIAAAERGVRVEVTVDGYGSADLGSEFIAAMTRVGVHIQMFDPKPKTLGMRTNVFRRLHRKLVVVDGKLAFIGGLNFSADHLADYGPEAKQDYALEIVGPVVDDIHRFALATVAPPSPPRHWWQRRIEAVENTETPHIEGIGNVRALFVTRDNEEHQNDIEEHYLDAIRNARRRLVIANAYFFPGYRLLREIRNAARRGVKVKLILQGQPDMPIAKFGARMLYNYLLRDGVEIYEYCRRPLHGKVALADHEWVTVGSSNLDPLSLSLNLESNLVIRDAEINRQLYEHLEALMTSDCKHIVLERIVRGYFWRAPLIFLIFHFLRHFPSWVGWLPAHSPTLAQLQPHVDSIDEDDATRLQRGHQ	PGPT0007725_4209	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_SENSING_RELATED_GENES	CE-QSR-CARDIOLIPIN_SYNTHESIS,PGPT0007725-clsA_B|ybhO|ywiE-K06131	NA	NA
BMS010_06819	801			hypothetical protein	GTGACTTCGGATCATCCCGGCATCGTCAGCGCGGAGCTGGACGCCCACCTCGCCAGCGCCGTGCATTCGCTGAAGGTCCTGACGGTGAATACCCACAAGGGATTCACCTTCTTCAACCGCCGCTTCATCCTCCATGAGCTGCGCGATGCGGTGCGCACCACCCATGCCGACATCGTGTTCCTCCAGGAAGTGCTCGGCACCCATCAGCGGCATGCCCTGCGCTTCCCCAATTGGCCGAGCACGCCGCAGTACGAATTCCTCGCCGACAGCATGTGGACGGACTTCGCCTACGGACGCAACGCGGTCTACCCGGACGGCGACCACGGCAACGCGCTGCTGTCGAAATTTCCCATCCTGCGCTACGACAACCTCGACGTGTCCATCAGCGGCCCCGAGCGCCGCGGGCTGTTGCACTGCGTGCTGCAAGTGCCGGGGCAGGACGAGTTCCACGCCATCTGCGTGCACCTGGGCCTGCGCGAGGTGCACCGCGAGCAGCAGTTGCACCTGCTCTGCGAGCTGCTCGACTCGCTGCCGCCGCAGGCGCCTGTAGTGGTGGCCGGCGACTTCAACGACTGGCGCCTGCGCGCCACCGCGATCCTCGACCGCTGCGCCGGGCTGCATGAAGCCTTCGCGGTAGCCCATGGCAAGGTCGCCAAGAGTTTCCCCGCCCGCTGGCCGGTGCTACGCCTGGACCGGGTGTACGTGCGCAACGCGCGCAGCCGCGATCCGCAAATCCTGTCGGCGCGACCCTGGTCGCACCTGTCGGACCATGCCCCCCTGGCCGTGGAGATCCAGCTATGA	MTSDHPGIVSAELDAHLASAVHSLKVLTVNTHKGFTFFNRRFILHELRDAVRTTHADIVFLQEVLGTHQRHALRFPNWPSTPQYEFLADSMWTDFAYGRNAVYPDGDHGNALLSKFPILRYDNLDVSISGPERRGLLHCVLQVPGQDEFHAICVHLGLREVHREQQLHLLCELLDSLPPQAPVVVAGDFNDWRLRATAILDRCAGLHEAFAVAHGKVAKSFPARWPVLRLDRVYVRNARSRDPQILSARPWSHLSDHAPLAVEIQL				NA	NA	NA	NA	NA
BMS010_06820	918			hypothetical protein	ATGGGAGACATCCGCATAGGCATATCCGGCTGGCGCTACGCCCCGTGGCGGGGCGTGTTCTACCCCGAGGGGCTGGCACAGAAGAACGAATTGCAGTTCGCCTCCCGGGCGGTGAACAGCATCGAGATCAACGGCTCGTTCTACGCGCTGCAGACCCCGGAACGCTACGCCGACTGGTACGAGGACACGCCGGACGACTTCGTCTTCAGCGTCAAGGCGCCCCGCTACATCACCCATATCCGCCGGCTGGACGACGTGGAGAAGCCCATCGCCAACTTCCTCGCCTCCGGCGTGCTGCGCCTGCGCCAGAAGCTCGGCCCGATCCTCTGGCAGTTCCCGCCGAGCTTCGCCTTCGACCCGGCGCAGTTCGAAGCCTTCCTGCGCCTGCTGCCGCAGGACACCGAGGAAGCCCTTGCCTGCGCACGCGGCTGCGAGGAGCGGATGGAAGGCCGCCAATACCTGCAGATCGACCAGAAACGCCGGCTGCGCCACGCGGTGGAGATTCGCAACCCGAGCTTCGTCGATCCGGCCTTCGTGGCCCTGCTGCGCGAATACCGGGTCGCCCTGGTGGTCGCCGATACCGCCGGCCGCTGGCCCTATTACGAAGACCTGACCAGCGACTTCGTCTACATCCGCCTGCACGGCGACGAAGTGCTCTACACCAGCGGCTATACCCCCGAGGCGCTGGACAACTGGAGCCGGCGCATCCGCCGCTGGAGCCACGGCTCGCAGCCGTCGGACGCGCGTCTGATCACCCAGCGCAAGCCGCAGCCGCGCCGCTCGCGGGCGGTGTTCTGCTACTTCGACAACGACGTCAAGGTGCGCGCCCCCTTCGATGCGCGCCAGTTGCTGGAACGACTTGGACTGGACGGGTCCCTGGAAACCACACCCGGCGAACTGGAAGGAGCCCTGCTGTGA	MGDIRIGISGWRYAPWRGVFYPEGLAQKNELQFASRAVNSIEINGSFYALQTPERYADWYEDTPDDFVFSVKAPRYITHIRRLDDVEKPIANFLASGVLRLRQKLGPILWQFPPSFAFDPAQFEAFLRLLPQDTEEALACARGCEERMEGRQYLQIDQKRRLRHAVEIRNPSFVDPAFVALLREYRVALVVADTAGRWPYYEDLTSDFVYIRLHGDEVLYTSGYTPEALDNWSRRIRRWSHGSQPSDARLITQRKPQPRRSRAVFCYFDNDVKVRAPFDARQLLERLGLDGSLETTPGELEGALL				NA	NA	NA	NA	NA
BMS010_06821	1329	adh_4	COG1063	Alcohol dehydrogenase	ATGAAAGCGGTTGTATTCCATGACATCGGCGATATCCGCCTCGACGACGTGCCCGAACCACGCATCGAGGCCCCCACCGATGCCATCGTCCGGCTGACCGCCTCGGCTATCTGCGGTACCGACCTGCACTTCGTCCGCGGCACCGTGAGCGGCATGCGCAAGGGCACCATCCTCGGCCACGAGGGTGTCGGCATCGTCGAAGAACTCGGCCCCGACGTGCGCAACCTGCAGATCGGCGACCGCGTGGTGATCCCCTCCACCATCGCCTGCGGCAACTGCGCCTATTGCCGCGCCGGTTACTTCGCCCAGTGCGACGTGGCCAACCCGAACGGCAAGGAGGCCGGCACGGCCTTCTACGGAGGCCCATCCACCACCGGGCCGTTCCACGGCCTGCAAGCGGAGAAAGCACGCATTCCCTTCGCCAACATCGGCCTGGTCAAGCTGCCCAGCGAGATCAGCGACGACCAGGCGATCCTGCTTTCGGACATCTTCCCCACCGGCTACTTCGGAGCGGAAATGGCCGAGGTCACGAGCGGCGACACGGTGGCCGTGTTCGGCTGCGGGCCGGTCGGCCAGTTCGCCATCGCCAGCGCCAAGCTGCTCGGAGCCGGCCGGGTGTTCGCCATCGACAAGTACCCGGACCGCCTGAAGATGGCCCGCCAGCAAGGCGCCGAGACGATCGACTTCGAGCGCGAGGACCCGGTGGAAACACTGCTGCGGCTGACCGGCGGCATCGGCGTGGACCGCGCCATCGATGCGGTGGGTATCGATGCCGAGCATGCCCATTGCGGCGCTGCCGCCGAGCACACGGACACGCGCCACTTCCGTGGCGAGGTCGCCGAATCGGCGCCGGTTTCCCGCCCGCTGGGCGAGAACTGGCATCCGGGCGACGGTCCCAGCCAGGTGCTGGAATGGGCGGTCAAGGGCCTGGCCAAGGCCGGCACCCTGTCGATCATCGGCGTCTACCCGCCGACGGCGCGGACCTTCCCCATCGGTGTGGCGATGAACAAGAACCTCACCATCAACATGGGCAACTGTCATCACCGCAAGTACATTCCGCGGCTGATCGAACTGATCCTGGCGCGGCGCTTCGACCCGGCCACGGTGCTCACCCAGATCAAGCCGATGAACGACGCGATCGCCGCCTTCCAGGCCTTCGACCGTCGCGAGAACGGCTGGATCAAGGTGGAGCTGCACCCGCAGATGCAGGTGGCGACGGGCAACGGCGACGAGGAACGGCTGGACGAGGAAAAACTGCTCGACGAAGGCATCGAGGAATCCTTCCCGGCCAGCGATCCGGTCTCGGTAGCGGCTCCGCGCCGTTCTTGA	MKAVVFHDIGDIRLDDVPEPRIEAPTDAIVRLTASAICGTDLHFVRGTVSGMRKGTILGHEGVGIVEELGPDVRNLQIGDRVVIPSTIACGNCAYCRAGYFAQCDVANPNGKEAGTAFYGGPSTTGPFHGLQAEKARIPFANIGLVKLPSEISDDQAILLSDIFPTGYFGAEMAEVTSGDTVAVFGCGPVGQFAIASAKLLGAGRVFAIDKYPDRLKMARQQGAETIDFEREDPVETLLRLTGGIGVDRAIDAVGIDAEHAHCGAAAEHTDTRHFRGEVAESAPVSRPLGENWHPGDGPSQVLEWAVKGLAKAGTLSIIGVYPPTARTFPIGVAMNKNLTINMGNCHHRKYIPRLIELILARRFDPATVLTQIKPMNDAIAAFQAFDRRENGWIKVELHPQMQVATGNGDEERLDEEKLLDEGIEESFPASDPVSVAAPRRS				NA	NA	NA	NA	NA
BMS010_06822	414	hrp1_1	COG0517	Hypoxic response protein 1	ATGAAAATCAGCGAAATCATGACCCGCAACGTCCAGACCGTCCGTCCCGAACAGAGCGTTCGCGAAGCGGCCGGGCTGATGGCGCAAATCGACACCGGCGCCTTGCTGGTCGAAGACAACGACCGCCTGGTCGGCATGGTCACCGACCGCGACATCGCCTTGCGCGCGGTGGCCGAAGGGCTCGGCAGCGACACCCCGATCCGCCGGGTGATGAGCCCGAACATCCGCTACTGCTTCGAGGACGAAGACATCCAGCACGTGGCGGAAAACATGGCCGACATCCAGGTCCGCCGCCTGCCGGTGATGAACCGCGAGAAGCGCCTGGTCGGCGTGGTCTCGCTGGGCAACATTTCCGCCGCCCGCAGTACCCAGGCCAGCGCGACGGTCCTGCGCGGCGTGGCCCAGGCACATTGA	MKISEIMTRNVQTVRPEQSVREAAGLMAQIDTGALLVEDNDRLVGMVTDRDIALRAVAEGLGSDTPIRRVMSPNIRYCFEDEDIQHVAENMADIQVRRLPVMNREKRLVGVVSLGNISAARSTQASATVLRGVAQAH				NA	NA	NA	NA	NA
BMS010_06823	813			hypothetical protein	ATGATCCTGGCCTCACCCCCTCGAAGTCGCGAAAGCCGCATTGTCCGACTTCTGGAGCTGGATCTCCTGCGCGGCCGGGGCACGCCCCTGTCGGCCTGGAAGAATTCGCGCCATCTGGCGCGCCTGCCCCTGATCGACGTGGAGGAGCTGGTGCCGGGCCAGGCGCGGGCCGTGATCATCGCCCCGCACCCGGATGACGAGGTGCTGGGCTGCGGGGGGATGCTGCAATTGCTGACCCAGCTCAAGCGCCCGCTGCAACTCATCTCGATCACCGACGGCAGCGCCAGCCACCCGGGCTCCAAGCGTTGGACGCCGGCCCGCCTGAGCGCCATCCGCCCGCAGGAGAGCGCGGAATCGCTGCGTCGCCTGGGCCTGATGTTCGGCCGCCTGAAATGGATTCGCGGCGGATTTCCGGATGGTGCGGTCAGCGAGCACGAGGACGAACTCGCCGCCTTCCTGATGCGCTACCTGCGCGAGGATGACGTGGTCTTCACCCCCTGGCGCCACGATGGCCATCCCGACCACGAAGCCGTCGGCCGCGCCGCCGTGGCGGCCACCCACCTGGTCGGCGCGCAACTGCACGAAATTCCCATCTGGACCTGGCACTGGGCCGGCCCGGAAGACTCGCGCATCCCCTGGGAACGCGCACGCAAGATTCCCCTGGATATCTGGACCCTGGCCCGCAAGCGCCACGCGGTGCAGGCCCATGCCAGTCAACTGCTCGGTGACCCCGACGCCGGCATCCCCCCGACCCTCGGCCCTCATGTACTGGAGCGCCTGCTGCAACCGTTCGAGGTGGTGTTTCAGGGGTAA	MILASPPRSRESRIVRLLELDLLRGRGTPLSAWKNSRHLARLPLIDVEELVPGQARAVIIAPHPDDEVLGCGGMLQLLTQLKRPLQLISITDGSASHPGSKRWTPARLSAIRPQESAESLRRLGLMFGRLKWIRGGFPDGAVSEHEDELAAFLMRYLREDDVVFTPWRHDGHPDHEAVGRAAVAATHLVGAQLHEIPIWTWHWAGPEDSRIPWERARKIPLDIWTLARKRHAVQAHASQLLGDPDAGIPPTLGPHVLERLLQPFEVVFQG				NA	NA	NA	NA	NA
BMS010_06824	2169	glgX_2	COG1523	Glycogen operon protein GlgX	ATGAACACCCACCGCAAAAGCAACCCGCACGCCCCGCAGGTGAAGACGACGTCCCGTATCCGCGAGGGGCTGCCGTTTCCGCTGGGGGCGACCTGGGACGGCCTCGGCGTCAACTTCGCGTTGTTCTCCGCCCATGCCACCAAGGTGGAGTTGTGCCTGTTCGACGACAAGGGCGAAGTCGAACTGGAACGCATCGAACTGCCGGAATACACCAACGAGATCTGGCACGGCTACCTGCCCGACGCCCATCCGGGACAGATCTACGGCTACCGCGTGCATGGCCCCTACGAACCGGACGCCGGGCACCGCTTCAACCCCAACAAGCTGCTCATCGACCCCTACGCCAAGCAACTGGTGGGCGAACTGCGCTGGTCCGAGTCGCTGTTCGGCTTCACCATCGGCCACAAGGATGCCGACCTCAGCTTCGATACCCGCGACAGCGCGCGCTACGTGCCCAAGAGCAAGGTCATCGACCCCGCCTTCACCTGGGGCCGCGACCGCCCGGTGCGGGTGCCCTGGGAGCGCACCATCCTCTACGAGACCCACGTGCGCGGCTACACCATGCGCCACCCGGCCGTGCCGGAGAACAAGCGCGGCACCTTCGCCGGGCTGATGACCAACGAGGTGGTGGAATACCTGCGCAAGCTCGGGGTCTCCTCGCTGGAGCTGCTGCCCATCCATGCCTTCGTCGACGACCAGCACCTGCTGGAAAAAGGCATGCACAACTACTGGGGCTACAACACCATCGGCTTCTTCGCGCCGCACCCGCGCTACCTCTCCAGCGGACATATCAACGAGTTCCGCGAGATGGTCGCGCACCTGCACGACGCCGGCCTCGAAGTCATCCTCGACGTGGTCTACAACCACACCGCCGAAGGCAACGAGCGCGGCCCGACCCTGAGCATGCGCGGCATCGACAACGCCACCTACTACCGCCTGAACCCGGACGAGCGGCGCTACTACATCAACGACTCCGGGACCGGCAACACCCTCGACCTCAGCCACCCGTGCGTGCTGCAGATGGTCACCGACTCGCTGCGCTACTGGGTCACCGAGATGCACGTGGACGGCTTCCGCTTCGACCTGGCGACCATCCTCGGCCGCGAGCCGACCGGCTTCGACGAGCGCCACGGCTTCCTCGTGGCCTGTCGCCAGGACCCGGTGCTGAGCCAGGTCAAGCTGATCGCCGAGCCCTGGGACTGTGGCCCCGGCGGCTATCAGGTCGGGGGCTTCCCGCCCGGCTGGATGGAATGGAACGACCGTTTCCGCGATACCGTGCGCGCCTTCTGGAAGGGCGACGAGGATCAACTGGCCGACTTCGCCCGGCGCCTCACCGCCTCCGGCGACATGTACAACCAGCGCGGACGGCGGCCGTTCGCCTCGGTCAACTTCATCACCGCCCACGACGGCTTCACCCTGCGCGACCTGGTGTCCTACAACCACAAGCACAACGAAGCCAACGACGAGAACAACCAGGACGGCAGCGATAACAACCTGTCCTGGAACCACGGTGTCGAAGGCCCCACCGACGATCCGGAAATCCGCGCCCTGCGCCTGCGCCAGATGCGCAACTTCATGGCCACCCTGCTGTTCTCCCAGGGCACGCCGATGCTGGTGGCCGGCGACGAGTTTTCCCGCACCCAGCACGGCAACAACAACGCCTACTGCCAGGACAGCGAGATCGGCTGGGTGGACTGGAATCTCGACGAGGAAGGCAAGTCGCTGCTCGCCTTCGTGCGCAAGGCGATCAAGCTGCGCCTCTCCTACCCCATCCTCCGCCGCGGCCGCTTCCTAGTCGGCGCCTACAACGAGGAACTGGGCGTCAAGGACGTCACCTGGCTGGCCCCCAATGGCGAGGAAATGACCGTCGAGCAATGGGAAGACCCCCACGGCCGTTGCCTCGGCATGCTCATGGACGGCCGCGCCCAGCCCACCGGCATCCGCCGCGCGGGCTCCGACGTCACCCTGTTGCTGATCGTGAACGCTCATTACGATCTGGTGAACTTCCGCCTCCCGGCGGTGCCAGAAGGTTCGCACTGGATGTGTCTGGTGGACACCAACCAGACGCAGGGCGACTGCACGGCGGAGCACTATCCGTTCGACGAGGATTTCGGCGTCACCGCGCGCTCCCTGCTGCTGTTCGAGCTGGTACGCAACGACGCCCCCTAG	MNTHRKSNPHAPQVKTTSRIREGLPFPLGATWDGLGVNFALFSAHATKVELCLFDDKGEVELERIELPEYTNEIWHGYLPDAHPGQIYGYRVHGPYEPDAGHRFNPNKLLIDPYAKQLVGELRWSESLFGFTIGHKDADLSFDTRDSARYVPKSKVIDPAFTWGRDRPVRVPWERTILYETHVRGYTMRHPAVPENKRGTFAGLMTNEVVEYLRKLGVSSLELLPIHAFVDDQHLLEKGMHNYWGYNTIGFFAPHPRYLSSGHINEFREMVAHLHDAGLEVILDVVYNHTAEGNERGPTLSMRGIDNATYYRLNPDERRYYINDSGTGNTLDLSHPCVLQMVTDSLRYWVTEMHVDGFRFDLATILGREPTGFDERHGFLVACRQDPVLSQVKLIAEPWDCGPGGYQVGGFPPGWMEWNDRFRDTVRAFWKGDEDQLADFARRLTASGDMYNQRGRRPFASVNFITAHDGFTLRDLVSYNHKHNEANDENNQDGSDNNLSWNHGVEGPTDDPEIRALRLRQMRNFMATLLFSQGTPMLVAGDEFSRTQHGNNNAYCQDSEIGWVDWNLDEEGKSLLAFVRKAIKLRLSYPILRRGRFLVGAYNEELGVKDVTWLAPNGEEMTVEQWEDPHGRCLGMLMDGRAQPTGIRRAGSDVTLLLIVNAHYDLVNFRLPAVPEGSHWMCLVDTNQTQGDCTAEHYPFDEDFGVTARSLLLFELVRNDAP	PGPT0019225_1459	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-ISOAMYLASE,PGPT0019225-ISA|treX-K01214	NA	NA
BMS010_06825	324			hypothetical protein	ATGACCGCAGACGAGCAGCGCATTCGTGAATTCGCCTATCAGATCTGGGAATCCGAAGGCCGGCCGCATGGCCAGGACGCCCGCCACTGGGAGATGGCCCGCAAACTCGCCGAAGCCGAGTCGCGGCCGGCGGAACAGCCGGCCGGCAAGGTGCGCCGGGTGAGCAAACCGAAAGCCGCCACCACGACCACCCCCACGCCCGCCACGGCCAAGACCACCCGTGCGACCAAGGCCACCACTACAACCAAACCAGCCAAATCGGCCGACGCCGCCACGCCAGTGAAGAAACCGCGCACGCCGCGCGCGCCCAAGCCGGCGAGCTGA	MTADEQRIREFAYQIWESEGRPHGQDARHWEMARKLAEAESRPAEQPAGKVRRVSKPKAATTTTPTPATAKTTRATKATTTTKPAKSADAATPVKKPRTPRAPKPAS				NA	NA	NA	NA	NA
BMS010_06826	2802			hypothetical protein	ATGACGACGTTACGCGCCACCCTCCGCCTGCAGTTCCACCGGGGTTTCACCCTCGACGACGCTTGCGACCAGGTCGAATACTTCGCCAGTCTCGGCATCAGCCACCTGTACGCCTCGCCGTTGCTGACCGCGCGGCCGGGTTCGATGCACGGCTACGACGTGGTCGACCCGACCCGGATCAACCCCGAACTGGGCGGCGAAGAAGCGCTGCGTCGGCTGGTCGCCACGTTGCGCCGGCACGGCATGGGGCTGATCCTCGACATCGTGTCCAACCACATGGCGGTCGGCGGCTCGGCCAATCCCTGGTGGCTCGACGTGCTGGAATGGGGTCGGCGCAGCCCCTACGCGCAATTCTTCGACATCCAGTGGCACTCCCCCGACCCGCTGCTGGAGGGACAACTGCTGGTGCCCTTCCTGCGCAGCGACTACGGCGAAGTGCTGCACAGCGGCGAACTGCCCCTGCGTTTCGATGCCGAACATGGCAGCTTCCATGTCGAACATTACGAACATCGCTTCCCGATCAACCCGCTCGGCTACGGCGAGCTGCTCGGCGCCGCCGAACACCCGGCTCTGACCGAGCTGGCGGCCCGCTGCAAGGCCCTGGCGCACGAACCCAATCCCTATCGGGAAGCCACCGCGATCAAGCGCGAACTGGCCCGGCTCGCCAGCGCCCCCGAGGTGGCCGCCGCGCTGGGGCGGGTGACGGAACGCTACGATGGCCGCCGCGAAGACGGCATGCGCCGCCTGCACGACCTGCTCGAGCGCCAGCACTACCGCCTGGCGAGTTGGCGCACCGCGGCGGACGACATCAACTGGCGGCGCTTCTTCGACATCAACGAACTCGGCGGCCTGCGGGTGGAACGCCCGGTGGTGTTCGAGGAGACCCACGCGAAGATTTTCGAGCTGATCGGCGAAGGGCTGATCGACGGCCTGCGCATCGACCACATCGACGGTCTCGCCGATCCGCACGGTTACTGTCGCCGCCTGCGCCGGCGGGTCGACCGGCTGCTCGGGGCACGGCCGCCGGAAGCAGCAGTGGCGCACTTCCCGATCTATGTCGAGAAAATCCTCGGCCAGGGCGAACGGCTGCGCATCGACTGGGGCGTGGACGGCACCACCGGCTACGAATTCATGAACGAGGTCTCGCTGCTGCAACACGACCCGGCCGGCCAGCCCTTGCTCTGCAACCTGTGGAACAGCGTCAGCGGACGCCCCGCCGACTTTCTCGAAGAAGCCCGGCAGGCCCGCCAACTGGTACTCACCGGCCCCCTCGCCGGCGACTTCGAGAACACCGCCCAGGCCCTGCTGCAAGTGGCGCGCGGCGACCTCATGACCCGCGACATCACCCTCGGCGCGATCCGCCGCGCCCTGCTCGAACTCATCGTGCACTTCCCGGTATACCGCGTGTATATCGGCGGCGCCGGCCGTTCCAGCATGGACGAGCCCTTCTTCCAGCAGGCCCTGGAAGGCGCCCGCACCACCCTCGGCGAAGCCGACTGGCCGCTGCTCGACCACTTGCAGCGCTGGCTCGGCGGCGAAAGCCTGCGCCGGCTGCCACCGGGTCCGTTGCGCCGTGCCCGCCGGCAGGCCTGCGTGCGCTTCCAGCAACTCACCTCGCCGGCGGCCGCCAAGGCCGTGGAAGATACCGCCTGCTACCGCTCCGGGGTGCTGCTGTCGCGCAACGACGTCGGCTTCGACGTGCATCGCTTCAGCGCGCCGCCGGAAGCCTTCCATGACGCCTGCCAACGCCGGCACGAGACATTCCCGCGCAACCTGCTGGCCACTGCCACCCACGACCACAAGCGCGGCGAAGACACCCGTGCGCGCCTGGCGGTGCTCAGCGAACGGGCCGAATGGTTCGCCGAGCGCACCTGGCACTGGCTGCAACTGGCCGCGCCGCTGTGCCAGGAACTGGCCGACGGCCCCGCTCCGGCGGCGGGCGACCAGCTCATGCTGTTCCAGTGCCTGCTCGGCAGTTGGCCGCCCGGCCTCGCGGCCGATGACGACGAAGGCCTGCGCGCCTACGCCGAGCGCCTGTCGCAGTGGCAGGAAAAAGCCCTGCGCGAAGCCAAACTGCGGACCCGTTGGAGCGCACCGAACGAGGCCTACGAAACGGCCTGTCGCCACTACCTGCACGCATTGCTGCTCGACCCGGCACAGCAGGCGCTGCGCGACGAAATCGCCGCCGCAGCCCGCACCGTCGCGCCCGCCGGCGCGCTCAACGGGCTGGTCCAGACGCTGCTGCGGATGACCGTGCCGGGCGTGCCGGACCTCTACCAGGGCGCCGAATACTGGGACTTCAGCCTGGTCGACCCGGACAACCGCCGCCCGGTGGACTTCGCCCGGCGCCGGCAGACGCTGGCCGAAGAAGCCGGGCCGGCGGAGTTGCTCGCCCACTGGTCCGACGGCCGCATCAAGCAGTGGCTGATCCATCGCACCCTGGGCCTGCGCACGCGTCGCCCGGGCCTGTTCCTCGACGGCCGCTATCGCCCGCTGAACGTACAGGGCGAGCAGTCCCAGCGGGTCCTGGCCTTCGCTCGTGAGCAGGACGGCGACTGGCTGCTGGTGGTGGTCCCGCGCCTGGCCGCCCCGCTGCTCGGCGATGCCGCGATCCCGCACATCGATCCCGCGGCCTGGGCCAATACCCGGGTCGAATTGCCGCCGGAGGCGCGGAACACAGCCTGGACGGGACTTTTTTCCGACTGTGCAGTCACAGACAACGAGACATTGCCATTGGCGCAAGTCCTGCGGGACTTCCCTGTGGGCGTCCTTTTTTCACTATCGAGTCAGGGAGAACCTTGA	MTTLRATLRLQFHRGFTLDDACDQVEYFASLGISHLYASPLLTARPGSMHGYDVVDPTRINPELGGEEALRRLVATLRRHGMGLILDIVSNHMAVGGSANPWWLDVLEWGRRSPYAQFFDIQWHSPDPLLEGQLLVPFLRSDYGEVLHSGELPLRFDAEHGSFHVEHYEHRFPINPLGYGELLGAAEHPALTELAARCKALAHEPNPYREATAIKRELARLASAPEVAAALGRVTERYDGRREDGMRRLHDLLERQHYRLASWRTAADDINWRRFFDINELGGLRVERPVVFEETHAKIFELIGEGLIDGLRIDHIDGLADPHGYCRRLRRRVDRLLGARPPEAAVAHFPIYVEKILGQGERLRIDWGVDGTTGYEFMNEVSLLQHDPAGQPLLCNLWNSVSGRPADFLEEARQARQLVLTGPLAGDFENTAQALLQVARGDLMTRDITLGAIRRALLELIVHFPVYRVYIGGAGRSSMDEPFFQQALEGARTTLGEADWPLLDHLQRWLGGESLRRLPPGPLRRARRQACVRFQQLTSPAAAKAVEDTACYRSGVLLSRNDVGFDVHRFSAPPEAFHDACQRRHETFPRNLLATATHDHKRGEDTRARLAVLSERAEWFAERTWHWLQLAAPLCQELADGPAPAAGDQLMLFQCLLGSWPPGLAADDDEGLRAYAERLSQWQEKALREAKLRTRWSAPNEAYETACRHYLHALLLDPAQQALRDEIAAAARTVAPAGALNGLVQTLLRMTVPGVPDLYQGAEYWDFSLVDPDNRRPVDFARRRQTLAEEAGPAELLAHWSDGRIKQWLIHRTLGLRTRRPGLFLDGRYRPLNVQGEQSQRVLAFAREQDGDWLLVVVPRLAAPLLGDAAIPHIDPAAWANTRVELPPEARNTAWTGLFSDCAVTDNETLPLAQVLRDFPVGVLFSLSSQGEP	PGPT0014125_237	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TREHALOSE_METABOLISM,PGPT0014125-treY|glgY-K06044	NA	NA
BMS010_06827	2073	malQ	COG1640	4-alpha-glucanotransferase	ATGAGCGATCAGCGTCTCTTTGCCCTTGCGCAGGCCGCCGGTCTCTCCATCGACTGGGTGGACGCCGACGGCCGACCGCAACAAGCCACCCCGGAAGTCCTGCGTGCGGTGCTCGCCGGGCTCGGCCACGCGGCCGGCAGCCCGGCCCAGGTCGAGGAGAGCCTGCGCGAACTGGAGCAGCTCGACGACCGTGCCAGCCTGCCGCCGCTGCTCACCCTGGACCAGGGGCAGCCGCTCGACCTGTCGCGTCATTTCGCGCCCGGCGCGGCGTTCGAGCTGCTCCAGGAAGACGGCAGCCGGATCGACGCCCGCCTGGACGACCAGGGCCGTCTCCTCGCCTTCGCCGGCATCGGCTACCACCACCTGCGGATCGCCGACCGCGAACTGACCCTGGCGGTGGCCCCGTCGCGCTGCCACTCGCTGCGCGACGCCCTGCAGAGCGACCGGCCGAACGCCTGGGGCCTCGGCGTGCAGCTCTATGCCCTGCGCCGCAATGGCGACGGCGGCATCGGCGACACCCAGGCGCTGGAGACCCTGGCGCACTCCGCCGCCGCCCACGGCGCCGACGCCCTGGCGATCAGCCCGTTGCACGCCATGTTCAGCGCCGACACCTACCGTTTCAGCCCCTACTCACCCTCCAGCCGGCTGTTCTTCAACGTCCTGCACAGCGCGCCCGGCAGCATCCTCGGTGAGTACTCCCTGCGCCAGGCCATCGAGGCCGCCGGGCTGGCCGACGAACTGCGCCGGCTGGAATCGCTCGACCTGATCGACTGGCCCGCCGCCGCCCAGGCCAAGCTGCGCCTGCTGCGCACCCTGTACGACGAGTTCCGTCGCGGTGGCCACCCGCTCCACGAAGACTTCGCCAGCTTCCGCCATGCCGGCGGCGAGGCGCTGGAGAACCACTGCCGCTTCGAAGCGCTGCACGCCTTTCATGCCCGCGACGGTGTGCCGCGCGACTGGCACCAGTGGCCGGATGCCTATCGCGACCCACGCAACCCGGCGGTGGCGCGGTTCGCCGCCGAGCACGCGGACGAGGTCGCCTTCCACGCCTTCGCCCAATGGCTGGTGGCGCGAGGACTCGAACGGACCCAGACGGCGGCGCGCACAGCGGGCATGCGCGTCGGCCTGATCGCCGACCTGGCGGTGGGCGCCGACGGCGGCGGCAGCCAGGCCTGGAGCCGTCAGGCCGAACTGCTGTCGGCGCTGACCGTCGGCGCGCCGCCGGACATTCTCAACCGCGCCGGACAGAGCTGGGGCATTTCCGCGTTCTCGCCGGAAGGGCTGAAGCGCCACGGTTTCCACGCCTTCATCGAAATGATCCGCGCCAACCTGGCCCATGCCGGCGGCCTCCGCATCGACCACGTGATGGGACTCAAGCGCCTGTGGGTGATGCCGGCCGGCGCCGGGCCCGAAGCCGGCGCCTACCTGAGCTACCCGCTGCAGGACCTGTTGCGCCTGCTCTGCCTGGAATCCTGGCGGCACAAGGCGGTGATCCTCGGGGAAGACCTCGGCACCGTACCGGAAGGCTTCCGCGAGCACCTCATCGCCCGCGACATCCTCGGCATCCGCGTGCTGCTGTTCGAGCACGACTGGGGCTGGCGCTTCCGGCCGCCGCAGGTCTGGCCGGACAACGCGCTGGCCACCACCACCACCCACGACCTGCCGACCCTGCATGGCTGGTGGATCGGTCGCGATCTCGACTGGCTCGGCCGCCTCGGTCAGCTCGACGAGGCCGGCCTGCACGCGGCCCGCGCCTCCCGCGCCCAGGAGCGCGAGGGCTTGGCGCGCGCCCTGGCCGCCGATGCCGGCGCGGAGCCGGACCAGCCGATCGACGGCGACACCCTGCTCGACCGCAGCGCCGCCTTCATCGGCCATACCCCCGCGCCGCTGGTGCTGCTGCCGATGGAAGACGCCCTCGGCCTGGTCGAACAGCCGAACCTGCCCGGCACCGTGGACAGTCACCCCAACTGGCGTCGTCGCTGGCCGGGCGATTGCCACCACCTGCTCGAAGCCGAAGGCCCGGCGCGCCGCCTGCACCTGCTCGACCAGGCCCGCAAACGGAACCCGTCATGA	MSDQRLFALAQAAGLSIDWVDADGRPQQATPEVLRAVLAGLGHAAGSPAQVEESLRELEQLDDRASLPPLLTLDQGQPLDLSRHFAPGAAFELLQEDGSRIDARLDDQGRLLAFAGIGYHHLRIADRELTLAVAPSRCHSLRDALQSDRPNAWGLGVQLYALRRNGDGGIGDTQALETLAHSAAAHGADALAISPLHAMFSADTYRFSPYSPSSRLFFNVLHSAPGSILGEYSLRQAIEAAGLADELRRLESLDLIDWPAAAQAKLRLLRTLYDEFRRGGHPLHEDFASFRHAGGEALENHCRFEALHAFHARDGVPRDWHQWPDAYRDPRNPAVARFAAEHADEVAFHAFAQWLVARGLERTQTAARTAGMRVGLIADLAVGADGGGSQAWSRQAELLSALTVGAPPDILNRAGQSWGISAFSPEGLKRHGFHAFIEMIRANLAHAGGLRIDHVMGLKRLWVMPAGAGPEAGAYLSYPLQDLLRLLCLESWRHKAVILGEDLGTVPEGFREHLIARDILGIRVLLFEHDWGWRFRPPQVWPDNALATTTTHDLPTLHGWWIGRDLDWLGRLGQLDEAGLHAARASRAQEREGLARALAADAGAEPDQPIDGDTLLDRSAAFIGHTPAPLVLLPMEDALGLVEQPNLPGTVDSHPNWRRRWPGDCHHLLEAEGPARRLHLLDQARKRNPS	PGPT0018570_1542	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0018570-malQ-K00705	NA	NA
BMS010_06828	1776	treZ	COG0296	Malto-oligosyltrehalose trehalohydrolase	ATGTCCGTGCATTTCACCCACACCTGCCGCCACGGCGCCACGCCGATCAACGCCACACACACCCGTTTCGCCCTCTGGGCACCGGATGCGCGCCAGGTCAGCGTGCGCATCGTTGGCGGCGACAGCCACCCGATGCGCGCCGAAGCCGATGGCTGGTTCGTACTGGAGGCACCCTACGGCGCCGGCACCCTGTACCGCTACCAGATCGATGGCGACCTGCAGGTACCGGACCCGGCCTCCCGCGCCCAGGCCGGCGATATCCTCGCGCCGAGCATCGTGGTCGATCCGTACGCCTACGGCTGGCGCCACGAAACCTGGCGCGGCCGGCCCTGGCACGAAACCGTGCTCTACGAACTGCACGCCGGGCTGCTCGGCGGCTTCGCCGGCGTCGAGGCCGAGCTGCCGCGGTTGGCCGAGCTGGGCATCACCGCCATTGAACTGATGCCCGTCGCGGAGTTCCCCGGCGAACGCAACTGGGGCTACGACGGCGTACTGCCCTATGCGCCGGAGGCCGCCTACGGCCCACCGGAGGCGCTCAAGCGCCTGGTCGATACCGCCCACGGCCTGGGCCTGATGGTATTCCTCGACGTGGTCTACAACCACTTCGGCCCGGACGGCAACTTCCTCGGCCAGTACGCCGGTGCCTTCTTCCGCGAGGATCGCCACACACCCTGGGGCGCCGCCATCGATTTCCGTCGCCGCGAGGTACGCGACTTCTTCATCGACAACGCCCTGATGTGGGTGCAGGACTACCGCATCGATGGCCTGCGCCTGGATGCCGTGCATGCCATCGACGACGAAAGCTTCCTCTGCGAACTGGCCCAGCGCGTGCGGGCGGCGGTGGAGCCGGACCGCTACGTGCACCTGGTACTGGAGAACGAGCACAACAGCGCCCGCCTGCTGGAGCAGGGTTACGACGCCCAATGGAACGATGACGGGCATAACGTCCTGCACATACTGCTCACCGGCGAACGGGAAAGCTACTACGCCAACTACTGCCAGAACCCGACCGGCAAGCTCGCCCGCTGCCTCGCCGAAGGCTTCGTCTACCAGGGCGAACCGAACCGCCACGGCACGCCGCGCGGCGAACCCAGCGCGCACCTGGAGCCGGTATCGTTCGTGCTGTTCCTGCAGAACCACGACCAGATCGGCAACCGCGCGTTCGGCGAGCGCCTGATCAGCCTCTGCGACCCCGAGGCGCTGCGCGCTGCCACCACCCTGTTGCTGCTCTCGCCCATGGTGCCGCTGCTGTTCATGGGCGAGGAATGGGGCGCGCGCCAGCCGTTCCTGTTCTTCACCAGCCACCACGGCGAACTGGCCGATGCGGTGCGTGAGGGCCGGCGCAACGAGTTCCGCGATTTCGCCGCCTTCGCCGACGCCGAAACCCGCGCCCAAATTCCCGATCCCAACGCCGAGAGCACCTTCGCCGCCTCGCGTCCGGACCGTCATGCCCTCGCCGAGCCGGGCCACGCCGAATGGCTGGCGCTGTATCGCGAGCTGCTGGATATCCGCCAGCACGTCCTGTTTCCACGCCTGCCCGGTTGCCGGGCGCTCGGCGCCGAGGTGCTCGGCGAAAGCGCCGTGACGGCCTGCTGGCGACTCGGCGACGGCAGCCGCCTGCGGATCGAACTCAACCTCGGCGCGCAGGCTGTCGACGTTCCCGGCGAAACGCCCGGCGCCGCGTTGTTCCAGAGCCGGCCAGGCGGCTTCGACGAACGCCGCCTGGGACGCCTACCGGCGCGCCTGGCCCTGGTCTACTTCGAGGAGGCCCCATGA	MSVHFTHTCRHGATPINATHTRFALWAPDARQVSVRIVGGDSHPMRAEADGWFVLEAPYGAGTLYRYQIDGDLQVPDPASRAQAGDILAPSIVVDPYAYGWRHETWRGRPWHETVLYELHAGLLGGFAGVEAELPRLAELGITAIELMPVAEFPGERNWGYDGVLPYAPEAAYGPPEALKRLVDTAHGLGLMVFLDVVYNHFGPDGNFLGQYAGAFFREDRHTPWGAAIDFRRREVRDFFIDNALMWVQDYRIDGLRLDAVHAIDDESFLCELAQRVRAAVEPDRYVHLVLENEHNSARLLEQGYDAQWNDDGHNVLHILLTGERESYYANYCQNPTGKLARCLAEGFVYQGEPNRHGTPRGEPSAHLEPVSFVLFLQNHDQIGNRAFGERLISLCDPEALRAATTLLLLSPMVPLLFMGEEWGARQPFLFFTSHHGELADAVREGRRNEFRDFAAFADAETRAQIPDPNAESTFAASRPDRHALAEPGHAEWLALYRELLDIRQHVLFPRLPGCRALGAEVLGESAVTACWRLGDGSRLRIELNLGAQAVDVPGETPGAALFQSRPGGFDERRLGRLPARLALVYFEEAP	PGPT0014130_952	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_GLYCOSIDE-GLYCOSIDASES|GLYCOSYLHYDROLASES,PGPT0014130-treZ|glgZ-K01236	NA	NA
BMS010_06829	1554	glgA	COG0297	Glycogen synthase	ATGAGCCAAGCCGCTGCGAAGGTCTATGGGGAAAGGAACAGGGTTGAAGGGACCGTTTCAACGGCGGCGAACACACCGATTCTGCAAATACACCGGTCGACAACGCCCAGGCGCAAGGTGCTCTTCGTCACCTCGGAACTGGCCGACCTGATCAAGACCGGCGGCCTGGGCGACGTTTCCGCCGCCCTGCCCCGTGCCCTGCGCGACCACCAGCACGACGTGCGCGTGCTGCTGCCAGGCTATCCGCAGGTGGTCGATGCCGGCTACCCCATCCAGATGGTCGGCCAGATCGCCGGCCATGCCGCGCTGCCGGCCTGCCGCCTCGGCCGGCTGGAGCTGGAAGACGGCCTGATTGTCTATGTGCTGCTCTGCCCCGAACTCTACGAACGCCCCGGCAACCCCTACGTCGATTCGCAGGGGCGCGACTGGGCAGATAACCACATCCGCTTCGCCCGCCTCAGCCTGTCCGGCGCCGACCTCGCGGCCGGGCTGGCGGGCATCAGCTGGTGCCCGGACCTGGTCCACGCCCACGACTGGCCCGCCGCCCTGACCCCGGCCTACATGCGCTGGCGCGGGCAAACCACGCCGAGCGTGTTCACCATCCATAACCTCGCCTACCAGGGCCTGCTCGGCACCGATTGCCGGCCGGAACTGGCGATCCCCGAGGAAGCCTGCCGTCCCGAGGGCATGGAATTCCACGGCCAGCTTTCGCTGCTCAAGGCCGGTATCGCCTACGCCAGCCATGTGACCACGGTGAGCGCCACCTACGCCCGCGAGATCACCACCGCCGAGTTCGGCTGCGGCATGCAGGGCTTCCTCGCCAGCAAGGCGCGCCAGGGCCTGCTCAGCGGCATCCCCAACGGCATCGACGAGAGCTGGAACCCACGCACCGACCCGCATCTGGTCAGCCCCTTCGACAGCAGCGACTGGAGCGGCAAGGCGCGTAATGCCGAGCACGTGCGCCGCCTGTTCGGCCTGGAGCCGTCGTCCGGCCCGCTGTTCGCCGTGGTCTCGCGTCTGGTGCACCAGAAGGGCCTCGACCTGACCCAGGCGGTGGCCGCGGACATCGTCGCGGCGGGCGGCCAGATCGCCATGCTCGGTTGCGGCGAACCGCAGGTGGAAGAGGAATTGCGCCAGCTCGCCCGGCGCCATCCGGGGCGGATCGCTGTGCACGTCGGCTTCAACGAAACCGATGCACGACGCCTCTACGCCGGCAGCGACTTCCTGCTCATGCCCTCGCGCTACGAGCCCTGCGGCCTGAGCCAGATGTACGCGCAGCGCTTCGGCTCGCTGCCCATCGCCCACCGTACCGGCGGCCTGGCGGACACCATCGAGGACGGCGTCAGCGGCTTCCTCTTCGCCCAGGCCAGCGTCGACAGCTACCGCGCCGCCGTCGAGCGCGCCCTGCGTGTCTACGCCATGCCGGCGCTGTTCGGCGCCATGCGCTGCCGGGCGATGTCCGCGCCGTTCTTCTGGCGGCAATCGGTGGCGCCCTACCTGCGTCTCTACCAGCGGCTGGCGCCGGAACGCGCGGACGTCGCCCTGGCGGTCTGA	MSQAAAKVYGERNRVEGTVSTAANTPILQIHRSTTPRRKVLFVTSELADLIKTGGLGDVSAALPRALRDHQHDVRVLLPGYPQVVDAGYPIQMVGQIAGHAALPACRLGRLELEDGLIVYVLLCPELYERPGNPYVDSQGRDWADNHIRFARLSLSGADLAAGLAGISWCPDLVHAHDWPAALTPAYMRWRGQTTPSVFTIHNLAYQGLLGTDCRPELAIPEEACRPEGMEFHGQLSLLKAGIAYASHVTTVSATYAREITTAEFGCGMQGFLASKARQGLLSGIPNGIDESWNPRTDPHLVSPFDSSDWSGKARNAEHVRRLFGLEPSSGPLFAVVSRLVHQKGLDLTQAVAADIVAAGGQIAMLGCGEPQVEEELRQLARRHPGRIAVHVGFNETDARRLYAGSDFLLMPSRYEPCGLSQMYAQRFGSLPIAHRTGGLADTIEDGVSGFLFAQASVDSYRAAVERALRVYAMPALFGAMRCRAMSAPFFWRQSVAPYLRLYQRLAPERADVALAV	PGPT0025880_984	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENVIROMENTAL_SURRIVAL	CE-BACTERIAL_FITNESS-ENVIRONMENTAL_SURRIVAL-GLYCOGEN_BIOSYNTHESIS,PGPT0025880-glgA-K00703	NA	NA
BMS010_06830	510	pncC_3	COG1546	Nicotinamide-nucleotide amidohydrolase PncC	ATGCACAGCCCGGAACAGGTCGTCGAATTCCTCAAGCAACAGAAGCTGATCCTGACCACCGCCGAGTCCTGCACGGCGGGCTTGATGGCCTCCCTCCTGGCCGACGTACCGGGTTGCGGATCGGTGCTGGAAAGCGGCTACGTGGTGTACGCCCCGCAGGCGAAGCAGCGCTGCCTGGGCGTGCGCCCCGAGACCATCGAACGCTTCGGCCTGACCAGCGAGGAAGTGGCCCGGGAAATGGCCCTGGGGGCGCTGCGGGTCAGCGGCGGGACTATCGCCATCGCCAACAACGGGGTGGCTGACGACGACACCGAGGAGGCGGCGGGCGTGCAGTGCTTCGCCTGGGCGTTGAGCCTGGGCGACCGCCAGGTGGTGATCAGCGAGACGACCCGCTTCGATGGCGACCGCAGCGGCATCCGCATCGCCGCGGCCCGCTACGGCTTGGGGCGACTGCCGCATTGTCATCGGCAGTTGCTGGAGCAGGCCGATGCGGCGGTCGATACCGCCTGA	MHSPEQVVEFLKQQKLILTTAESCTAGLMASLLADVPGCGSVLESGYVVYAPQAKQRCLGVRPETIERFGLTSEEVAREMALGALRVSGGTIAIANNGVADDDTEEAAGVQCFAWALSLGDRQVVISETTRFDGDRSGIRIAAARYGLGRLPHCHRQLLEQADAAVDTA	PGPT0013460_1284	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013460-pncC2-K03743	NA	NA
BMS010_06831	1131			hypothetical protein	ATGACGAATCTCCTCGACTGGCACACCTACATTTCCGTCGCCGGGCTCAACACACTGCTGGCGGCGACCGTCGCCCTGCTCGTCCTGAGCATCGCCGGACGCCTGTTGACGGCGGCCCTGCGGCGTATCGGCAAGAACTTCCTGTTCACCCGCGAACTGACCGCGCACATCGGCAAGCCGGTGCGCGTGCTGCTGCCCCTGCTCGGTTTGCAAGCGGTATGGAGTTCCGCCCCGGATGACCTGCTGCTGATCGCGCCGGCCCGGCACATCACCTCCCTGGCCACCATCGCCGCCTTCACCTGGCTCGGCCTCCGCGCGGTGAAGGCCATCGAACAGGTGATCGTGGTGAGCAACCCGGTGGACATCAGCGACAACCTGCGCGCCCGCCGCATCCAGACCCAGACCCGCGTGCTGACCCGCAGCCTGAGCTTCTTCGTCCTGCTGTTCGGCGCCTCGACGATGCTGATGACCTTCCCCGCCGCGCGCCAGTTCGGCACCAGCCTGCTCGCCTCCGCCGGCCTCGCCGGGCTCGCCGCGGGCTTCGCGGCCAAGCCGGTGCTCGGCAACCTGATCGCCGGCCTGCAGATCGCCATTACCCAGCCGATCCGCCTGGACGACGTGGTGATCATCGAGAACGAGTGGGGCCGCATCGAGGAAATCACCGGCAGCTACGTGGTGGTGCGCATTTGGGACGACCGCCGGCTGGTGGTGCCCTTGCAGTACATCATCGAGCGGCCGTTCCAGAACTGGACACGGGTGTCGTCCGGCCTGACCGGCGCGGTGTTCATCTGGGTGGATTACTCACTGCCGCTGGAGCCGCTGCGCGAGGAGCTGAAGCGACTCTGCGCCGGGGTGCCGGAACTCTGGGACGGCCGCGTCTGCGTGCTCCAGGTGACCGACGCCAGCGAGCGCGCCATGCAACTGCGCGTGCTGGTCAGCTCGCCCGACTCGTCACGCAACTGGGACCTGCGCTGCCACCTGCGCGAAAGCCTGATCGGCTTCGTCAGCCGGGAGTACCCGCATTGCCTGCCGCAACTGCGCGCCGACCTCAACGAAGGCTACAACCGCAAGGCCGAGCCGGCCGCCCCGCGCGACGTGCAGAGCGAGGCGGAGCGACAGCCGCCGGTGTGA	MTNLLDWHTYISVAGLNTLLAATVALLVLSIAGRLLTAALRRIGKNFLFTRELTAHIGKPVRVLLPLLGLQAVWSSAPDDLLLIAPARHITSLATIAAFTWLGLRAVKAIEQVIVVSNPVDISDNLRARRIQTQTRVLTRSLSFFVLLFGASTMLMTFPAARQFGTSLLASAGLAGLAAGFAAKPVLGNLIAGLQIAITQPIRLDDVVIIENEWGRIEEITGSYVVVRIWDDRRLVVPLQYIIERPFQNWTRVSSGLTGAVFIWVDYSLPLEPLREELKRLCAGVPELWDGRVCVLQVTDASERAMQLRVLVSSPDSSRNWDLRCHLRESLIGFVSREYPHCLPQLRADLNEGYNRKAEPAAPRDVQSEAERQPPV				NA	NA	NA	NA	NA
BMS010_06832	723			hypothetical protein	ATGCAGAACAAAGTGAAGACCGGCCTGAACATGACCGGGGCGCAGATGTCGCCCGACGACAGCGAACGCATGCTCGACGCCGCCTTGTCGATCAAGCCCGACGTCAAGGGCACCACCAAGGGCATCGCCGAACAGCGCCGCCTGCGCGTGGTGGAATCCGACCAAGTGGGCTCGGTGCCGATTCCCGGCACGGCCAAGGGCATGATGAAGACCGCCATCAACAAGCTGATGGGCAAGCAGCCCGAAGTGCTCATCGACAAGCTCGGCGAACGCCTGGCCTTCGAGCGCTCGGGCACCCGCCTGTACGAGGCCCTGATCGCCAAGGCGGAAGCCCTGGACGGCACGCCGGAGGCGATGCTGCGCGACCTGCGCCATTTCCAGAAGGAAGAGGCCGACCACATGCAGCTGGTGGTGGAAGCCATCGAACGCCTCGGTGCCGATCCGACCGCGCAGACGCCCTGTGCCGACGTCACCGGCGTCGCCTCGATGGGCATCATGCAGGTCATCACCGACCCGCGTACCACCCTGTCGCAATCGCTCAACGCCATCCTCATGGCCGAGCTGACCGATAACGCGGGCTGGGAGTTGCTCATCGAACTGGCGCGCCAGGCCGGCCAGACGGAAATCGCCGAAGCCTTCGGCAAGGCGCTGAAGCAGGAGCAGCACCACCTCGTCACCGTGCGTGCCTGGCTGGAGAAGGACCTGACCAGCCAATTGAGCTGA	MQNKVKTGLNMTGAQMSPDDSERMLDAALSIKPDVKGTTKGIAEQRRLRVVESDQVGSVPIPGTAKGMMKTAINKLMGKQPEVLIDKLGERLAFERSGTRLYEALIAKAEALDGTPEAMLRDLRHFQKEEADHMQLVVEAIERLGADPTAQTPCADVTGVASMGIMQVITDPRTTLSQSLNAILMAELTDNAGWELLIELARQAGQTEIAEAFGKALKQEQHHLVTVRAWLEKDLTSQLS				NA	NA	NA	NA	NA
BMS010_06833	1170			hypothetical protein	ATGAAGAAACTATCGAGTCTGCTAGATACAAAGGGGTACCCGCTCGAGAAACAGAAGTTCACCTGGAAGGACCTGACCGGCAAGCCCATCAGCAAGCTGGATGACGATGCCTTCACCCGGGTGCGGGTCATCCTGATGAACGGCATCGAGAACGATGCCTTGCGCCTGAAGCACATCGGCGCGCGCATGAACCGCGAGCTGCGCCTGCCGCTGGCGGAAGTGCGGCGGGTCGAGCACTTCCAGGCCACCATGGTCAACTGGCTGCTGTCCGCCGACCATTCGCCGATCGAAACCACCATCGCCTACGAGCAGGTGGCCATCGAAGTGACCGCCGCGGTCGCCCAGACCGAGCCCGATCCCTACCAGGCCCAGACCTACCGCTACGGCCTGCTGGAGGATTTCGACCACCTCTACCGCTATTCCGCCCTGCTCGACCGGGTGGAGGGCAAGGACGCCAACAATATCCTCCAGGGCTATACCGACATCGTCCCCGGCCGCCGCACCGCCCTGGAATTCCGCGCCCCCGAGGACGACCTGCGGGAGAACTACGACAAGGAGAACGCCGCACTGATCACCAAGATCCACGCGGCGATGATCACCGCGGCGGAATACCAGACCCACGACTACTACATGAACATCGGCCCGACCTTCGCCGACCCGATCGCGCGCCAGCTCTACGCCGAGATCGCCTCGGTGGAAGAGCAGCACGTGACCCAGTACGGCTCGCTGCAGGACCCGGACGAGAGCTTCCTGGAGAAATGGCTGATCCACGAGGCCATGGAGGTCTACAACTACCACGGCTGCGCCGAGCAGGAGCCGAACCCGCGGGTCAAGGCGATCTGGGAGCGCTTCCTGGACTACGAGCTGGGCCACCTGAACCTGGTCTGCGAGCTGTTCAAGAAATACGAACGGCGCGACCCGGAAGAAGTGCTCGGCGGCGAGTTGCCGGCGATGGTGGAGTTCAAGAGCCAGCGCGATTTCGTGCGCAAGGTGCTTGCCGAAGAAGTCGACCTGCGCAGCAAGGGCACCGAATACGTCCCGCTGAAGCAGGAAAGCAAGGCGAGCATCGCCTACCGCGAACAGCTCAATTCCGAAGGGGTCGCCGCCGACATCGTCTCGGCCGGCTACACCTGGGCACCCGGCACCGAACTGGCACGCAAGCGCGCTTGA	MKKLSSLLDTKGYPLEKQKFTWKDLTGKPISKLDDDAFTRVRVILMNGIENDALRLKHIGARMNRELRLPLAEVRRVEHFQATMVNWLLSADHSPIETTIAYEQVAIEVTAAVAQTEPDPYQAQTYRYGLLEDFDHLYRYSALLDRVEGKDANNILQGYTDIVPGRRTALEFRAPEDDLRENYDKENAALITKIHAAMITAAEYQTHDYYMNIGPTFADPIARQLYAEIASVEEQHVTQYGSLQDPDESFLEKWLIHEAMEVYNYHGCAEQEPNPRVKAIWERFLDYELGHLNLVCELFKKYERRDPEEVLGGELPAMVEFKSQRDFVRKVLAEEVDLRSKGTEYVPLKQESKASIAYREQLNSEGVAADIVSAGYTWAPGTELARKRA				NA	NA	NA	NA	NA
BMS010_06834	156			hypothetical protein	ATGTCCGTCGTCGATAGAAACGAAGTCGAGCCCCTGATCCCCAGCAGCCATGGCGGAGGCATTGCCGTCGCCACCGCCCGCCTGCCGCGCCACATGGTCCGGCCCGCGTTGCCGGTGATCGCGGGAGCGCTTCGTCCACGGCTCTCCCAACCCTGA	MSVVDRNEVEPLIPSSHGGGIAVATARLPRHMVRPALPVIAGALRPRLSQP				NA	NA	NA	NA	NA
BMS010_06835	471		COG5592	DNA nickase	ATGAAAGACGCAATCGAACTGCTCATCAGCGATCACGAGAAGGTCCGCGGCCTCCTGGAAGAACTCAGCCAGACCACCGACCGCGCCGAGAAGAAGCGCCAGGATCTGCTGCAGAAAATCGAAATGGAACTGCACGTCCACACCACCATCGAGGAAGAAATCTTCTACCCCGCCTTCCGCGACGCCGGCACCAAGGAGGACAAGAAGATGTTCTTCGAAGCCGTCGAGGAACACCGCGCCGTCGAGGCCCTGGTCGTGCCGGACCTGAAGAAGACATCGCCGAGCGAAACCGCCTTCGCCGGTCGGGTCAAGGTCCTCAAGGAACTGGTCGAGCACCACGTGCAGGAAGAGGAGCAATCGATGTTCCCCCGCGCCCGCGAACTGTTCGGCAAACAGCAGTTGCAGGAGCTGGGCGAGCGGATGGAGAACCGCAAGAAGGAACTGATGCGCGAGCAGCGCAAGGCTGCCTGA	MKDAIELLISDHEKVRGLLEELSQTTDRAEKKRQDLLQKIEMELHVHTTIEEEIFYPAFRDAGTKEDKKMFFEAVEEHRAVEALVVPDLKKTSPSETAFAGRVKVLKELVEHHVQEEEQSMFPRARELFGKQQLQELGERMENRKKELMREQRKAA				NA	NA	NA	NA	NA
BMS010_06836	1449			hypothetical protein	ATGTTCGGTCTGGACGCTTTCGAACTCGCGCGAATCCAGTTCGCCTTCACCATCTCGTTCCACATCATTTTTCCGGCCTTCAGCATCGGCCTGGCCAGCTACCTGGCGGTGCTGGAGGGGCTCTGGCTGCGCACTCACAAGGAGGTCTATCGTCAGCTCTATCGCTTCTGGCTGCAGATCTTCGCTGTCACCTTCGCCATGGGCGTGGTGTCCGGGGTGGTCATGAGCTATCAGTTCGGCACCAACTGGGCCGGTCTGTCGGAGAGTGCCGGGGCGATCATGGGGCCGCTGCTGACCTACGAGGTGCTCACTGCGTTCTTTCTCGAGGCGGGCTTCCTCGGGATCATGCTGTTCGGCTGGAACAGGGTGGGCCGGGGGCTGCACTTCTTCGCCACGCTGATGGTGGCCATCGGCACGCTGATCTCGACCTTCTGGATCCTTTCGTCGAATAGCTGGATGCACACGCCCCAGGGCCACGAACTGGTGGACGGGGTGTTCCGGCCGGTGGACTGGCTGCAGATCGTCTTCAATCCCTCGTTCCCGTTCCGTCTCGCCCACATGGCGATCGCCGCCTTCATCAGCACCGCCTTCATCGTCGGCGCCACTGCCGCCTGGCACCTGCTCAAGGGGCGTAGCGAGGAACCGGGCATCCGCATGATGTTCTCCATGGCCATGTGGATGGCGCTACTGGTGGCGCCGGTGCAGGCGGTGGTCGGCGACCTGCACGGGCTCAACACACTGGAACACCAGCCGGCGAAGATCGCCGCCATCGAGGGCCACTGGGAAACCGGGCGCGGCGTGCCGCTGCTGCTGTTCGGCCTGCCGGACATGAAGGCGGAGACCACCCGCTATGCGGTGGGCATCCCCCGGCTCGGCAGCCTGATCCTGGCCCACGACTGGGAGGGCGAGATTCGCGGGTTGAAGGAGTGGGCCAAGGAGGACCGGCCCAACTCGTTGATCGTGTTCTGGAGCTTCCGGGTCATGGTTGGGCTCGGCTTGCTGATGATCCTCGCCGGGCTGATCGGCGGCTACCTGCGCTGGCGCGGCCGGCTGTACGACTCCCCCGGCTTTCACCGCTTCGTCCTGCTGCTCGGCCCGTCGGGGCTGCTGGCGTTGCTGGCCGGCTGGATCACCACCGAGGTCGGCCGCCAGCCCTGGGTGGTCTATGGTCTGCTGCGCACCTCCGATGCGGTGTCGGACCACGGGGTGGGGCAGATGAGCGTATCGCTCGGCATCTTCGTGGTGGCCTACATCATGGTGTTCGGCGTCGGCATCACCTACCTGCTGCGCCTGATGCGCAAGGGCCCGCAGGAGATCGGCGAAATTCCCACGCCGGAGGATTCCGGCCCCGGCCATACCCGCCATCCGATGCGTCCGCTGTCGGGCGCCGAGCCGGATATCGAGGACGACGAGCGTCAGGATGTGAGGAGCGACCGCGATGGACATTGA	MFGLDAFELARIQFAFTISFHIIFPAFSIGLASYLAVLEGLWLRTHKEVYRQLYRFWLQIFAVTFAMGVVSGVVMSYQFGTNWAGLSESAGAIMGPLLTYEVLTAFFLEAGFLGIMLFGWNRVGRGLHFFATLMVAIGTLISTFWILSSNSWMHTPQGHELVDGVFRPVDWLQIVFNPSFPFRLAHMAIAAFISTAFIVGATAAWHLLKGRSEEPGIRMMFSMAMWMALLVAPVQAVVGDLHGLNTLEHQPAKIAAIEGHWETGRGVPLLLFGLPDMKAETTRYAVGIPRLGSLILAHDWEGEIRGLKEWAKEDRPNSLIVFWSFRVMVGLGLLMILAGLIGGYLRWRGRLYDSPGFHRFVLLLGPSGLLALLAGWITTEVGRQPWVVYGLLRTSDAVSDHGVGQMSVSLGIFVVAYIMVFGVGITYLLRLMRKGPQEIGEIPTPEDSGPGHTRHPMRPLSGAEPDIEDDERQDVRSDRDGH	PGPT0026700_2567	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026700-cydA-K00425	NA	NA
BMS010_06837	1005	cydB_3	COG1294	Cytochrome bd-I ubiquinol oxidase subunit 2	ATGGACATTGACCTTCCGCTGATCTGGACCGCCATCATCGGCTTCGGCATTTTCATGTACGTGGTGATGGACGGCTTCGACCTGGGCATCGGCATCCTCTTTCCGTTCATCCCGGAAAAGGACAACCGCGACGTGATGATGAACACCGTGGCGCCGATCTGGGACGGCAACGAAACCTGGCTGGTGCTCGGCGGCGCCGGCCTCTTCGCGGCTTTCCCGCTGGCTTATTCGGTGGTGCTGACGGCCCTCTACATGCCGTTGATCCTGATGCTGGTGGCGCTGATTTTCCGTGGCGTGGCCTTCGAGTTCCGCTTCAAGGCCAAGCGCACCCGACACCTGTGGGACGCCGCCTTCATTGGCGGCTCGGTGCTCGCCACCTTCACCCAGGGTGTGGTACTCGGCGCCTTCATCGACGGGATACCGGTGGAGGGGCGACGCTTCGCCGGCGGGCCGTTCGACTGGCTGTCGCCGTTCCCGCTGTTCACCGGCCTGGCGCTGATCGTCGGCTACGCCATGCTCGGTTGCGGCTGGCTGATCATGAAGACCGCCGGCGACCTGCAGCAACGCATGTTCAAGCTGATGCTGCCGCTGGCCTGCCTGCTGCTGGCGGCCATCGCCATCGTCAGCCTGTGGACACCCTGGACCCACCCGGCCATCGCCGAACGCTGGTTCAGCCTGCCGAACCTGTTCTATTTCATGCCGGTGCCGATCCTGGTCGGGGTGACCATGCTGGCGCTGGTGCGGGCGGTGGTGCGGCACCGGGAGATCCAGCCGTTCGTGCTGACCCTGGTGTTGATCGTGCTGTCCTACCTGGGGCTGGCCATCAGCCTGTGGCCGAACATCGTGCCGCCGTCGGTTTCCATCTGGGAGGCTTCGGCGCCGGAGAAAAGCCAGCTCTTCACCCTGGTGGGCGTGGTTATCCTGCTGCCGATCATCCTGAGCTACACGGTCTACAGCTACTGGGTGTTCCGCGGCAAGATCCACGTCGGCGAGGGCTATCACTGA	MDIDLPLIWTAIIGFGIFMYVVMDGFDLGIGILFPFIPEKDNRDVMMNTVAPIWDGNETWLVLGGAGLFAAFPLAYSVVLTALYMPLILMLVALIFRGVAFEFRFKAKRTRHLWDAAFIGGSVLATFTQGVVLGAFIDGIPVEGRRFAGGPFDWLSPFPLFTGLALIVGYAMLGCGWLIMKTAGDLQQRMFKLMLPLACLLLAAIAIVSLWTPWTHPAIAERWFSLPNLFYFMPVPILVGVTMLALVRAVVRHREIQPFVLTLVLIVLSYLGLAISLWPNIVPPSVSIWEASAPEKSQLFTLVGVVILLPIILSYTVYSYWVFRGKIHVGEGYH	PGPT0026705_4271	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026705-cydB-K00426	NA	NA
BMS010_06838	111			hypothetical protein	ATGGGCACGCGCTGGCGGCAACTGGCTTGGTTCGTCGGGCTCTGGTGCGGCGGCGTGGCGGCAGTGTCGCTGCTGGCCTACGGGGTGCGCTGGGCGATGGGGATGGGCTGA	MGTRWRQLAWFVGLWCGGVAAVSLLAYGVRWAMGMG				NA	NA	NA	NA	NA
BMS010_06839	1008	dctP_3	COG1638	C4-dicarboxylate-binding periplasmic protein DctP	ATGCTCAAGTCACTCTTCGCCTCGGCCGCCTGCGCCCTACTACTGGTTTCGACCAGTGCGCACGGCGCCCAACCCGGCTCGCCGATTGTCATCAAGTTCTCCCATGTAGTCGCCGACGACACGCCCAAGGGCCACGGCGCCCTGCTCTTCAAGCAACTGGTGGAAGAGCGCCTGGAGGGCCAGGTCAAGGTGGAGGTCTACCCCAACTCCACTCTGTACGGCGACGCCAACGAGCTGGAGGCCCTGGCCAACAACCAGGTCCAGCTGCTGGCGCCGTCGCTGGCCAAGTTCGAGCAGTACACCAAGCAGTTGCAGGTCTTCGATCTGCCGTTCCTGTTCGACGACCTGGAAGCGGTCAACCGTTTCCAGAAGCGCTCCAAGGGCCGCCAGCTACTGCGCTCGATGGAGAAGCACGACATCGTCGGCCTCGCCTATTGGCACAACGGGATGAAGCAGTTGTCCGCCACCCGCCCGCTGCGTGTTCCAGCGGATGCCGCCGGGCTGAACTTCCGCATCCAGCCCTCCGGCGTCCTCGAGGCGCAGTTCGCACAGATCGGCGCGAAGACCCAGAAGCTGCCCTTCGCGGAAGTCTTCAATGCGCTGAAGAGCGGCGCGGTACAAGGCGCGGAGAACCCCTGGTCGAACATCTACAGCAAGCAGTTGCACCAAGTGCAGCCCTACATCACCGAGACCAACCACGGTGTGCTGGACTACATGCTGGTGAGCAATGCCAAGTTCTGGTACGGCATCCCGCACCGCACCCGCGTCGAACTGGAAGCGATCATCGATGAAGTGACCTATGCGGTGAACCGCGAGGCCGAGGCCCTCAACAATGCCGACCGCGCCCGCATCCAGGCGTCCGGCAGCACCCAGTTGATCACCCTCAACCCGGAAGAACGCGAAGCCTGGCGCGCCGCCATGCGCCCGGTATGGCAGCAGTTCGAGGATCAGATCGGCAAGGACGTGATCAAGGCCGCCGAAGCGGTCAACCGCAAGCAACGCCAGTAA	MLKSLFASAACALLLVSTSAHGAQPGSPIVIKFSHVVADDTPKGHGALLFKQLVEERLEGQVKVEVYPNSTLYGDANELEALANNQVQLLAPSLAKFEQYTKQLQVFDLPFLFDDLEAVNRFQKRSKGRQLLRSMEKHDIVGLAYWHNGMKQLSATRPLRVPADAAGLNFRIQPSGVLEAQFAQIGAKTQKLPFAEVFNALKSGAVQGAENPWSNIYSKQLHQVQPYITETNHGVLDYMLVSNAKFWYGIPHRTRVELEAIIDEVTYAVNREAEALNNADRARIQASGSTQLITLNPEEREAWRAAMRPVWQQFEDQIGKDVIKAAEAVNRKQRQ	PGPT0017325_351	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017325-dctP-K11688	NA	NA
BMS010_06840	1434	ttgI		Toluene efflux pump outer membrane protein TtgI	ATGACGCGGCCGTTCGCAACCCCGACGACCTCGCGGCCCACGGCGCTACGCGCGCCGCTGGCCCTGGCGCTGAGCCTGGTTCTTTCCGCCTGTGCCGTGGGCCCCGATTACCAGGCGCCGCAAACCGAGCCGGCGCGCCTCGCCCAGGCACAGGACGCGGGCTATGACCGCGCGCGCTTCGAGTCGGCCTGGTGGCACCAGTTCGACGATCCGACCCTGGATCGCCTGGTCGACAAGGCCCTGGCGGAAAACCGCCAACTGCGTGTCGCCTATGCCCGTCTGCAGGCGGCACGGGCGATCCGCGACGACGTCGGCAACGATCAGTTGCCCACCGTCACCAGCCGCGCCAGCGCCGAGATCGGCAAGGGCCAGCAGCCGGGGCAGACCGAGAACCGGGTGAATGCCGAGCGTTACGACCTCGGCCTGGACATGGCCTGGGAGCTGGACCTGTTCGGCCGCATCCAACACCAGATCGAGGCCAGCGATGCCGAGATCGGCGTCGCCGAGGCCGAGCTGCAGCAGTTGCAGGTCAGCCTGATCGCCGAGCTGGTGGATGCCTATGGCAACCTGCGCGGCGCCCAGCTGCGCGAACGTATCGCCCGGGAGAACCTGAAGAACCAGCAGGAGTCCCGCGCCCTGACCGAGCAACTGCGCGAAGCCGGTATCGGCAGCGAGCTGGACGTACTGCGCGCCGATGCCCGCCTGGCGTCTACCGAAGCCACGCTGCCGCGCCTGCAAGCCGAACAGGTGCGGGCCCGCAACCGCATCGCCACCCTGCTAGGCCAACGCCCGGATCAGTTGGCCGAAGACCTCGCGCCCCGCGAGCTGCCGGCCATTGCCAAGGCCCTGCCGGTGGGCGACCCGGCTGAGCTGCTGCGCCGCCGGCCGGACATCCGCGCGGCCGAACGCCAGCTGGCCGCCGCCACGGCGAATGTCGGCGTCGCCACGGCCGACCTGTTCCCACGGGTCAGCCTGTCCGGCTTCCTCGGTTTCACCGCCGGGCGCGGCTCGCAGATCGGCTCGTCGGCGGCACGGGCCTGGGGCGTGGCGCCGACCATCAGTTGGGCCGCCTTCGACCTCGGCAGCGTCCGCGCCCGCCTGCGCGGTGCGAAAGCCGACGCCGACGGTGCCCTCGCCCAGTACGAGCAGCAGGTGCTACTGGCATTAGAAGAGTCGGAAAACGCCTTCAGCGACTACGGCAAGACCCAGCAACGGCTGCTGTCGCTGCTGCGCCAGTCCGAAGCCAGTCGCGCGGCGGCCGAGCAGGCGGCGATCCGCTACCGCGAAGGCACGGTGGATTTCCTCGTGCTGCTCGATGCCGAACGCGAACGCCTGGCGGCGGAAGACGCCCAGGCCCAGGCGGAAGTCGAGCTGTACCAGGGCATCGTGGCCATCTACAAGGCGCTCGGGGGTGGCTGGCAGCCCCAGGCCTGA	MTRPFATPTTSRPTALRAPLALALSLVLSACAVGPDYQAPQTEPARLAQAQDAGYDRARFESAWWHQFDDPTLDRLVDKALAENRQLRVAYARLQAARAIRDDVGNDQLPTVTSRASAEIGKGQQPGQTENRVNAERYDLGLDMAWELDLFGRIQHQIEASDAEIGVAEAELQQLQVSLIAELVDAYGNLRGAQLRERIARENLKNQQESRALTEQLREAGIGSELDVLRADARLASTEATLPRLQAEQVRARNRIATLLGQRPDQLAEDLAPRELPAIAKALPVGDPAELLRRRPDIRAAERQLAAATANVGVATADLFPRVSLSGFLGFTAGRGSQIGSSAARAWGVAPTISWAAFDLGSVRARLRGAKADADGALAQYEQQVLLALEESENAFSDYGKTQQRLLSLLRQSEASRAAAEQAAIRYREGTVDFLVLLDAERERLAAEDAQAQAEVELYQGIVAIYKALGGGWQPQA	PGPT0028880_94	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexEF-OprN,PGPT0028880-oprN-K18300	NA	NA
BMS010_06841	3171	oqxB9_1		multidrug efflux RND transporter permease subunit OqxB9	ATGAAATTCTCGCAATTCTTCATCCAGCGGCCGATCTTCGCCGCCGTGCTCTCGCTGATCATCCTGATCGGCGGAGCCATCTCGCTGTTCCAGTTGCCGATCAGCGAATACCCGGACGTGGTGCCGCCCACCGTGGTGGTGCGCGCCAACTTCCCCGGCGCCAACCCCAAGGTGATCGGCGAAACCGTCGCCTCGCCGCTGGAGCAGGCGATCACCGGCGTCGAGGGCATGCTGTACATGTCGTCCCAGGCCACCGCCGACGGCAAGATGACCCTGACCATCACCTTCGCCCTCGGTACCGACCTGGATAACGCCCAGGTCCAGGTGCAGAACCGGGTGACCCGGACCATGCCGACCCTGCCCACCGAAGTGCAGCGTCTCGGCGTGACCGTGGACAAGGCCTCTCCCGACCTGACCATGGTGGTGCACCTGACCTCGCCGGACGACCGCTACGACATGCTCTACCTGTCCAACTACGCCGCGCTCAACGTCAAGGACGAGCTGGCCCGGCTGGACGGCGTGGGCGACGTGCAGCTCTTCGGCCTCGGCAACTACTCTCTGCGCGTCTGGCTGGACCCGAACAAGGTGGCCTCGCGCAACCTCACCGCCACCGACGTGGTCAACGCCATCCGCGAGCAGAACCGCCAAGTGGCGGCCGGCTCCCTGGGCGCTCCGCCGGCGCCGGGCGAAACCAGCTTCCAGTTGTCCATCAACACCCAGGGCCGCCTGGTCACCGAGGAAGAATTCGAGAACATCATCATCCGCGCCGGCGACGACGGCGAGATCACCCGGCTGAAGGACATCGCCCGCATCGAGCTGGGCTCCAGCCAGTACGCCCTGCGCTCGCTGCTGGACAACAAGCCGGCGGTGGCCATCCCGATCTTCCAGCGGCCCGGCTCCAACGCCATCGCCATCTCAGACCTGGTGCGCGAGCGCATGGCGGAGTTGAAGAAGAACTTCCCGGAAGGCGTGGACTATTCCATCGTCTATGACCCGACCATCTTCGTCCGTGGCTCCATCGAGGCCGTGGTTCACACCCTGCTGGAGGCCATCGTCCTGGTGGTCCTGGTGGTGGTGCTGTTCCTGCAGACCTGGCGCGCCTCGATCATCCCGCTGGCGGCCGTCCCGGTATCGCTGATCGGTACCTTCGCGGTGATGCACCTGTTCGGCTTCTCGCTCAACGCGCTGTCGCTGTTCGGCCTGGTGCTGGCCATCGGTATCGTGGTGGACGACGCCATCGTGGTGGTGGAGAACGTCGAGCGCAACATCGGCCTCGGCAAGACCCCGGTGGAGGCCACCAAGCAGGCCATGAAAGAAGTGACCGGGCCGATCATCGCCACCGCCCTGGTGCTCTGCGCCGTGTTCGTGCCGACCGCGTTCATTTCCGGCCTCACCGGCCAGTTCTACCAGCAGTTCGCACTGACCATCGCGATCTCCACGGTGATCTCGGCATTCAACTCGCTGACCCTGTCGCCGGCCCTGGCCGCCACCCTGCTCAAGGGGCATCACGAGCCGAAGGACGCTTTCTCGCGTTTCCTCGACAGGCTCCTCGGCGGCTGGCTGTTCAAACCGTTCAACCGCCTGTTCGACCGCGCCAGCCATGGTTATGTCGGCACCGTACGGCGCGTGCTGCGCGGCAGCTCCATCGCACTGATCGTCTACGGCGGGTTGATGGGCCTCACCTACCTGGGCTTCTCCAGCACCCCGACCGGCTTCGTGCCGGGGCAGGACAAGCAGTACCTGGTGGCCTTCGCCCAGTTGCCCGACGCCTCCACCCTCGATCGCAGCGAAGACGTGATTCGCCAGATGTCGGCCATCGCCAGCAAGCATCCGGGCGTGGAAAGCACCGTGGCCTTCCCCGGCCTGTCGATCAACGGCTTCACCAACAGCCCGAACAGCGGCATCGTCTTCGTCACGCTGAAGCCGTTCGACCAGCGCAAGAACCCGTCGCTCTCGGCCAATGCCATCGCCGGCGCGCTGCAAGGGCAGTTCGGCACGATCCAGGAAGCCTTCATCGCCATCTTCCCGCCGCCGCCGGTCATGGGGCTCGGGACCATCGGCGGTTTCCGCGTGCAGATCCAGGATCGCGGCAGCCTCGGCTATGAAGAGCTCTACGCGCAGATGCAGAACGTCATCGCCAAGAGCCAGAGCGTGCCGGAGCTGGCCGGGCTGTTCTCCAGCTATCAGGTGAACGTGCCGCAGATCGACGCCGCCATCGACCGCGAGAAGGCCAAGACCCATGGCGTGGCGATCAGCGACATCTTCGACACTCTGCAGATCTACCTGGGCTCGCTGTACGCCAACGACTTCAACCGCTTTGGCCGTACCTACCAGGTGAACGTCCAGGCCGAGCAGCAGTTCCGCCTGGAGCCCGAGCAGATTGGCCAGCTCAAGGTGCGCAACAACCGGGGCGAGATGGTTCCGCTGTCCACCTTCGTCAAGGTCAGCGACGCCTCCGGGCCGGATCGGGTGATGCACTACAACGGCTTCCTCACCGCCGAAATCAACGGCGCCGCCGCACCGGGCTACAGCTCCGGCCAAGCCGAGGCCGCCATGGAGAAACTGCTGCGCGAGGAATTGCCCAACGGCATGACCTACGAATGGACCGACCTGACCTACCAGCAGATTCTCGCCGGCAACACCGCGATCTTCGTCTTCCCGCTCTGCGTGCTGCTGGCCTTCCTGGTGCTGGCCGCCCAGTACGAAAGCTGGAGCCTGCCGCTGGCGGTGATCCTGATCGTGCCGATGACCCTGCTGTCCGCCATCACCGGGGTGATCCTCTCCGGCGGCGACAACAACATCTTCACCCAGATCGGCCTGATCGTACTGGTGGGCCTGGCATGCAAGAACGCGATCCTCATCGTCGAGTTCGCCAAGGACAAGCAAGAGGAAGGCATGGATCGTCTCAGTGCGGTGCTGGAAGCCTGCCGCCTGCGTCTGCGGCCGATCCTGATGACCAGCTTCGCCTTCATCATGGGGGTGGTGCCGCTGGTGCTCTCCTCCGGTGCCGGTGCCGAAATGCGCCACGCCATGGGTGTGGCGGTGTTCTCCGGCATGCTCGGGGTGACTTTCTTCGGCCTGCTGCTGACCCCGGTGTTCTACCTGTTGATCCGTGCGTTCGTGGAGAAACGCGAAGCGAAGAAAGCCCAACTGAAGGAGGCCCACGCATGA	MKFSQFFIQRPIFAAVLSLIILIGGAISLFQLPISEYPDVVPPTVVVRANFPGANPKVIGETVASPLEQAITGVEGMLYMSSQATADGKMTLTITFALGTDLDNAQVQVQNRVTRTMPTLPTEVQRLGVTVDKASPDLTMVVHLTSPDDRYDMLYLSNYAALNVKDELARLDGVGDVQLFGLGNYSLRVWLDPNKVASRNLTATDVVNAIREQNRQVAAGSLGAPPAPGETSFQLSINTQGRLVTEEEFENIIIRAGDDGEITRLKDIARIELGSSQYALRSLLDNKPAVAIPIFQRPGSNAIAISDLVRERMAELKKNFPEGVDYSIVYDPTIFVRGSIEAVVHTLLEAIVLVVLVVVLFLQTWRASIIPLAAVPVSLIGTFAVMHLFGFSLNALSLFGLVLAIGIVVDDAIVVVENVERNIGLGKTPVEATKQAMKEVTGPIIATALVLCAVFVPTAFISGLTGQFYQQFALTIAISTVISAFNSLTLSPALAATLLKGHHEPKDAFSRFLDRLLGGWLFKPFNRLFDRASHGYVGTVRRVLRGSSIALIVYGGLMGLTYLGFSSTPTGFVPGQDKQYLVAFAQLPDASTLDRSEDVIRQMSAIASKHPGVESTVAFPGLSINGFTNSPNSGIVFVTLKPFDQRKNPSLSANAIAGALQGQFGTIQEAFIAIFPPPPVMGLGTIGGFRVQIQDRGSLGYEELYAQMQNVIAKSQSVPELAGLFSSYQVNVPQIDAAIDREKAKTHGVAISDIFDTLQIYLGSLYANDFNRFGRTYQVNVQAEQQFRLEPEQIGQLKVRNNRGEMVPLSTFVKVSDASGPDRVMHYNGFLTAEINGAAAPGYSSGQAEAAMEKLLREELPNGMTYEWTDLTYQQILAGNTAIFVFPLCVLLAFLVLAAQYESWSLPLAVILIVPMTLLSAITGVILSGGDNNIFTQIGLIVLVGLACKNAILIVEFAKDKQEEGMDRLSAVLEACRLRLRPILMTSFAFIMGVVPLVLSSGAGAEMRHAMGVAVFSGMLGVTFFGLLLTPVFYLLIRAFVEKREAKKAQLKEAHA	PGPT0028875_233	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexEF-OprN,PGPT0028875-mexF-K18299	NA	NA
BMS010_06842	1227	bepF_1		Efflux pump periplasmic linker BepF	ATGGAACAGTCACTCAAGGCCTTGCGTTTGCCCCTGGCCGCTCTTGCCGTCGTCGTACTCAGTGCCTGCGGCCGTGCGCCGGAAGCCACTACCGCGGCTCCGGTGCCCAGCGTCAGCGTGGCCAAGGTGATTCAGCAGCCCATTAACGAATGGGACGAGCTCACCGGCCGCCTGGAAGCACCGGAATCGGTGGAAATCCGCCCGCGCGTTTCCGGCTACATCGACCGCGTCGCCTTCACCGAAGGCTCGCTGGTGAAGAAAGGCGACCTGCTGTTCCAGATCGACCCGCGTCCGTTCGAGGCCGAGGTGAAGCGTCTGGAAGCGCAACTGCAACAGGCCCGCGCCAACCAGACCCGTACCGCCAGCGAGGCCCAGCGTGGCGAGCGCCTGCGTTCGAGCAACGCGATCTCCGCCGAACTGGCCGATGCCCGCGCCAGCGCCGCCCAGGAAGCCAAGGCCGCGGTCGCCGCGATCCAGGCGCAACTGGAGGCCGCTCGCCTCAACCTCAGCTTCACCCAGGTCACCGCCCCCATCGACGGCCGCGTCGGCCGCGCCGAGGTGACCGCCGGCAACCTCGTCAATACCGGCGAATCGCTGCTCACCACCCTGGTTTCCACCGATAAGGTCTACGCCTACTTCGAGGCCGACGAGCGCGTCTTCCTCAAGTACAACGAGCTGGCCCGCCAGGGCGCGCGCGGCGAGGAAAGCCCGGTCTACCTCGGTCTGAGCAACGAGGACGGCCACCCGCACCTGGGCCACATGGACTTCATGGACAACCAGGTCGACCCGCGTACCGGCACCATCCGCGGTCGCGCCGTGTTCGACAACCGCGACGGCCGCTTCACCCCCGGCCTCTATGCCCGTCTCAAGCTGGTCGGCAGCGGCACCTACGACGCTGTGCTGATCAAGGACGTCGCGGTGGGCACCGACCTGGGCAAGAAGTTCGTCCTGGTGCTCGACGCGGAAGGCAAGGTGAATTACCGCGCCATCGACCTGGGGCCGAAGCTGCAGGGCCTGCGCATCGTTCGCAACGGTCTTGGCGAAGGCGACCGCATCGTGGTCAACGGCCTGCAGCGGGTACGCCCGGGCATGGCGGTGCAGGCCCAGGATGTGCCGATGGCCGACGAGCAGACCCTCGCCGCCCTGCGCGAACAGCGCCGTGCCGTGGAAGCGGCCGAGGCGCCACGGGTCGCCGACCAGCGCGCACCGGCCAAACCGAGAAGCTGA	MEQSLKALRLPLAALAVVVLSACGRAPEATTAAPVPSVSVAKVIQQPINEWDELTGRLEAPESVEIRPRVSGYIDRVAFTEGSLVKKGDLLFQIDPRPFEAEVKRLEAQLQQARANQTRTASEAQRGERLRSSNAISAELADARASAAQEAKAAVAAIQAQLEAARLNLSFTQVTAPIDGRVGRAEVTAGNLVNTGESLLTTLVSTDKVYAYFEADERVFLKYNELARQGARGEESPVYLGLSNEDGHPHLGHMDFMDNQVDPRTGTIRGRAVFDNRDGRFTPGLYARLKLVGSGTYDAVLIKDVAVGTDLGKKFVLVLDAEGKVNYRAIDLGPKLQGLRIVRNGLGEGDRIVVNGLQRVRPGMAVQAQDVPMADEQTLAALREQRRAVEAAEAPRVADQRAPAKPRS	PGPT0028870_160	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexEF-OprN,PGPT0028870-mexE-K18298	NA	NA
BMS010_06843	921	leuO_2		HTH-type transcriptional regulator LeuO	ATGAATCGCAACGACCTGCGCCGCGTCGACCTCAACCTGCTGATCGTGTTCGAAACGCTCATGCACGAGCGCAGCGTGACACGCGCGGCGGAAAAACTCTTCCTCGGCCAACCGGCGATCAGCGCCGCCCTCGCCCGCCTGCGCTCGCTGTTCGACGACCCGCTGTTCGTCCGCACCGGGCGCAGCATGGAGCCCACCGCCCGGGCCCAGGAAATCTTCAACCACCTGTCGCCGGCGCTGGATTCGATCTCCACCGCCATCAGCCGTTCGCAGAGCTTCGACCCGGCCACCGCCGAAGCGGTGTTCCGCATCGGCCTGTCCGACGAAGTGGAGTTCGCCCTGCTGCCACCGATGCTGCGGCGCATCCGTACCGAGGCGCCGGGGGTGGTGCTGGTGGTGCGTCGTGCCAACTATCTATTGATGCCCAGCCTGCTGGCCTCCGGCGAGATTTCCGTGGGTGTGAGCTATACCGACGAGCTGCCGGCCAACTCCAAGCGCAAGACGCTGCGACGCAGCCGCCCCAAACTGTTGCGTGCCGACTCGGCGCCGGGGCCGATGAGCCTGGACGACTTCTGCACCCGGCCGCATGCCATGGTGTCGTTCGCCGGCGACCTCGACGGCTTCATCGACGAGGAACTGGCCGTGCTCAATCGCACCCGCAAGGTGGTGCTGGCGGTGCCGCAGTTCAACGGCCTGGGCAGCCTGCTGGCCGGCACCGACCTGGTCGCCACGGTGCCGGACTATGCCGCCGACGTGCTGGCGGCCGGCGGCGGTCTGCGCGTGGAAGAGCTGCCCTTCGAAACCGAGCGTTCCTTCGAGCTGTCCATGGCCTGGCGCGGTGCGCTGGACAACGACCCCGCCGAGCGCTGGCTGCGCTCGCGCATCCAGATGTTCGTCGGCGATCCAGACAGCCTGCAATGA	MNRNDLRRVDLNLLIVFETLMHERSVTRAAEKLFLGQPAISAALARLRSLFDDPLFVRTGRSMEPTARAQEIFNHLSPALDSISTAISRSQSFDPATAEAVFRIGLSDEVEFALLPPMLRRIRTEAPGVVLVVRRANYLLMPSLLASGEISVGVSYTDELPANSKRKTLRRSRPKLLRADSAPGPMSLDDFCTRPHAMVSFAGDLDGFIDEELAVLNRTRKVVLAVPQFNGLGSLLAGTDLVATVPDYAADVLAAGGGLRVEELPFETERSFELSMAWRGALDNDPAERWLRSRIQMFVGDPDSLQ	PGPT0028130_416	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexEF-OprN,PGPT0028130-mexT-K18297	NA	NA
BMS010_06844	1017	ppsC		Phthiocerol synthesis polyketide synthase type I PpsC	ATGTCCCGGGTGATCCGTTTTCATCAGTTCGGCCAGGCCGACGTGCTCAAATTCGAAGAGCAACCCACGCCGCAGCCGGGGCCGGGCGAGGTGCTGATCCGCGTGGCAGCCATCGGTGTGAGCTGGAGCGACGTGCTCTGGCGCCAGGACCTGGCTCCGCAACATGCACGGCTTCCTGCCGGGCTCGGCCATGAATTGGCGGGCGAGGTGCTCGCCGTGGGCGAGGGCGTCGACGACCTGTCGGTGGGCACGCGTGTCGCCAGCTTCCCGGCGCACAGCGTCAACCAGTACCCGGCCTACGGCGATTGCATGCTGATGCCGCGTACCGCGCTGACCCGCTATCCGGACCTGCTGACCCCCGTCGAGGCCAGCGTCCACTACACGCCGCTGCTGATCGCCTATTTCGCCTTCGCCGAACTGGCCCGCCTGCAACCCGGCCTGCGCGTGCTGGTGACCGACGGCAGCCGCTGTTCCGGCCCGGCCGCGATCCAGTTGGCCAAGGCCATGGGCGCCCAGGTGATCACCACCACGGCGACGGAAGACGATCGCGAATACCTGACCCAGCTCGGCGCGGACAAGGTGATCAATACCGAAGAGGAAGACCTCGTTGGGCGCATCGCCAAACTCACCGACAGCCGTGGCGTCGAGGTGGTCTTCGACGCCCTGGGCGGCCCGCAGATGTGTATGCTCGGCGACGTGATGGCGCCGTGCGGCAAGCTGATCCTCTATGGCCTCAACGGCGGCAACCAGACGCCGTTCCCGGCCTGTGCGGCATTCAAGAAGAACTTCAAGTTCTTCGTCCACTGCGTCTTCGACTTCACTGGCGACCCCGAACTGGGCATCGTTCAGGAACGAGAGGCGTTGGAACGTGCCCTGGCGCGGATCAACCAGATGACCGCCGACCGGCTGCTCACCCCGCAGATCGACCGAGTGTTCGCCTTCGACAAGGTGCAGGACGCCCACCGCTACATGGAAACCTGCCCGAGCCGCGGCCGGGTGGTGTTGCAAGTGGAGTGA	MSRVIRFHQFGQADVLKFEEQPTPQPGPGEVLIRVAAIGVSWSDVLWRQDLAPQHARLPAGLGHELAGEVLAVGEGVDDLSVGTRVASFPAHSVNQYPAYGDCMLMPRTALTRYPDLLTPVEASVHYTPLLIAYFAFAELARLQPGLRVLVTDGSRCSGPAAIQLAKAMGAQVITTTATEDDREYLTQLGADKVINTEEEDLVGRIAKLTDSRGVEVVFDALGGPQMCMLGDVMAPCGKLILYGLNGGNQTPFPACAAFKKNFKFFVHCVFDFTGDPELGIVQEREALERALARINQMTADRLLTPQIDRVFAFDKVQDAHRYMETCPSRGRVVLQVE				NA	NA	NA	NA	NA
BMS010_06845	582			hypothetical protein	GTGTTCCGAAAACAGCGTCTCGACGACCTCCACCGCCGTCTTGTCCATCCAGATACGGCAATCCGACCGGCGCGACAGAAGCCACATTTGCGGGCGTATGGTCAGCGCATAGGAGCGCATGCCGCGGGTGATCGGCGGGCCTTCATGCAGCTCCGTCACCAAGCCGTTGAAGGGGCGGCGAACACCGCCGCCATCGCCGTCGCCCTGGCTGATCTCGATGGAGATATCGACCAGCCGTCCGATCAGCTCTTCGGGCTTGACCGCTTCCTTCTTGGCACGCACCGTCAGGCGAATGTCGAAGAGCAGCGATACGCCCTCCTCGACGGACAGGCGCTCCGGCAGAAGCTGGTCTTCGCCGAGTGGCGAAGACACCTTCAGAACACGGCTCGCCTGAACGAAATCGGAAAAAGACGGCTGGTCGTTCATGGGATACTCCTAATCAGGACCCGCGGCTGGACTGCAGGGGCCAGAACCAGATCGTTTCCGAATTGTAGTAGCAGGCCGAGGCGCATTGGGTGGCTTCGGAGCCGCCCCGCACAAGATCGATATGACCGCCGCCGGTGTAGCCGGGGATATTGTTGA	MFRKQRLDDLHRRLVHPDTAIRPARQKPHLRAYGQRIGAHAAGDRRAFMQLRHQAVEGAANTAAIAVALADLDGDIDQPSDQLFGLDRFLLGTHRQANVEEQRYALLDGQALRQKLVFAEWRRHLQNTARLNEIGKRRLVVHGILLIRTRGWTAGARTRSFPNCSSRPRRIGWLRSRPAQDRYDRRRCSRGYC				NA	NA	NA	NA	NA
BMS010_06846	501			hypothetical protein	ATGCGCGTTAACTTTGACACTCTCTATAAGAATTATCCGAGCAGCGACCCGTCGCATCCGAACTATCTCAGCCAGCGTGATCTGTTCACGGAAATCGGCTGGGACGATTTCATCGGCAATCCGAACTATCACAATACCTGCGCCATCCGCGTCAGCATCGCTTTCGTGAAGTCGGGCATCAACATCGTGCCCGCCTCGCACCGCATCCAGAAGGGCCCCTATGCCGGAAAGGGCATAGAGGTGAACATGCGCCGCCTTGCCAGCCTGATGAAGCGGACGAGCTATCTTGGCGAACCCGAGCCTTTCACCCCCGCGACGGCGCGTAACGGTATCGGCGCGCGCAACGGTGTCGTGGCGTTCAACAATATCCCCGGCTACACCGGCGGCGGTCATATCGATCTTGTGCGGGGCGGCTCCGAAGCCACCCAATGCGCCTCGGCCTGCTACTACAATTCGGAAACGATCTGGTTCTGGCCCCTGCAGTCCAGCCGCGGGTCCTGA	MRVNFDTLYKNYPSSDPSHPNYLSQRDLFTEIGWDDFIGNPNYHNTCAIRVSIAFVKSGINIVPASHRIQKGPYAGKGIEVNMRRLASLMKRTSYLGEPEPFTPATARNGIGARNGVVAFNNIPGYTGGGHIDLVRGGSEATQCASACYYNSETIWFWPLQSSRGS				NA	NA	NA	NA	NA
BMS010_06847	390			hypothetical protein	ATGCGCTCCCTATATGCGTTTTTTGTTTCCGTGCCGGTTGTTCTGGCTCTGTCCGGTCTTTCGCCGGCGGGTGCCGAGGAACGGACTTGGATATTCTCCGGTGCTGAACTCAAGCAGGCCATCGAGGGCAAACTTGCCCCGGAAGTGTCTGATCCGGAAATGCGGCGGCTGGTTTCCGTCGCAAAATCGAGCGCCTATATCGCCGGTGTGGCCGATCTGACAAGCGGATCGGACTGGTGCGGTGCGGGCGCCGTGGCGCCCCATGAACTCACCGACCGGATTTACACCTATCTCGGCGATCTTCCTGCGGAAAAACTGGATGAACAGGCAGCCACTCTCGTGCGGGAGGCGCTCAAGGTCTCCTTTCCCTGTGAGCAGAAAAGTAACTAG	MRSLYAFFVSVPVVLALSGLSPAGAEERTWIFSGAELKQAIEGKLAPEVSDPEMRRLVSVAKSSAYIAGVADLTSGSDWCGAGAVAPHELTDRIYTYLGDLPAEKLDEQAATLVREALKVSFPCEQKSN				NA	NA	NA	NA	NA
BMS010_06848	477			hypothetical protein	ATGCCAATTTATCTGCAGATTGACGGTATCCAGGGCGACGCCACGCATGAGGAACACCGCAAGTGGATGGACATCGAAGCCATTCACTGGAACGTAGCGCGCAACATGAACACTTCTGCCGGTTCTGCTGCAAACCGCGAAGCATCCGAACCGACCATTTCGGAAGTCATTCTGACCAAGGTTAGCGATTCTTCTTCCACCAAGCTTTTCCAGGAAGCCTGCGCCGGCCGCACTGGCAAGCTCGCAACCATCCATCTGGTGACAACGGGTAATCCGGGCAACACCTATATCGAGTATCTGCTGACGAACACGCTCATCGCCAGCTACTCGGTGGATTCCAGCGGTGACCGTCCGGTGGAAACCATCAAGCTCAACTTCACCAAGATGGAAGTGAAGTACACGCCGTTCGACGACAACAACTCGCCGCAGTCTCCGATGATCGCCTCTTACGATCTGGCGACGACGAAGGCCGCTTGA	MPIYLQIDGIQGDATHEEHRKWMDIEAIHWNVARNMNTSAGSAANREASEPTISEVILTKVSDSSSTKLFQEACAGRTGKLATIHLVTTGNPGNTYIEYLLTNTLIASYSVDSSGDRPVETIKLNFTKMEVKYTPFDDNNSPQSPMIASYDLATTKAA	PGPT0025980_1743	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0025980-hcp-K11903	NA	NA
BMS010_06849	2655	clpV1_4	COG0542	Protein ClpV1	ATGTCGCATATCGATCTCAATCGCCTCGTTGAAGCGCTTGAGCCTGACCTGCGCGTCACGCTTGAAGCTGCGGCTTCCGTTGCGGTGCGTATGGGGCACAGGTACGTGGATATCCCGCATTGGCTGCTGGCGGTTGTAGATGCTGGTATCTATGCGAAAACATTCGAGGAATTAAAAATTCCACTTCCGGTATTGCAGGCGGAAATCGGCCGCAGCCTGGAAGAGGCCGTGATCGGCGATGGCGAGGCTTTGTCGCTCTCACAGAACATTCTGACGGCGGGCCGTGAGGCATGGGTTCTCGCGTCGCTGGAGGCCGGGCGCGACCGCGTGACGCTTTGCGATCTGCTTCTGGCGATGGACGAGGAAACCTCGCTTCGCTCTTTCGTCCGCTCGGCATTTCCGTCGCTGAAGGCGATGGATCGCGCGGCTCTCGAACGCCTTCGCAGTTCGGTTGAAGACAGCAGCGGAAGAGAAGTTCCTGCCGCGGCGGCGGGTGCCGCGACGGCCGCCGGCCAGAACGATTTTCTGCGCCTTTACACCCAGGACATGACAGCCGACGCCCGGAACGGCAAGGTCGATCCGGTGATCGGGCGCGATGATGAATTGCGCCAACTCGTTGATATTCTTACGCGCCGTCGTCAGAACAATCCCATTCTGGTGGGTGAGGCCGGCGTTGGCAAAACGGCGGTCGCCGAAGCGCTGGCGCTCGAAATCGCTTCCGGAAATGTGCCGGAAAAATTGCGCAACGTCCGCCTGCTGAACCTCGATATTTCGCTGCTGCAGGCCGGTGCCGGCGTGAAGGGCGAGTTCGAGCGCCGTCTTCATGGCGTGATCGATGCGGTAAAACGCTCGGCCGAGCCGGTCATCCTGTTCATCGACGAGGCGCATGGCCTTGTCGGCGCCGGTGGTGCAGCCGGACAGGGCGATGCGGCCAATATTCTCAAGCCCGCTCTGGCGCGCGGCGAAGTGCGCACCGTCGCGGCCACGACCTGGAGCGAATACAAGAAATATTTCGAAAAGGATGCGGCGCTGACGCGTCGTTTCCAGCCCGTGCATGTGCGCGAGCCGGATGAGACGACAGCGATCCGCATGTTGCGTGGTGTCGCCGACAGCTTCGTCAGCCATCATAACGTTGTGGTTCGTGACGAGGCGATTGTGGCGGCGGTGCAATTATCGGCGCGTTACATGCCGGCGCGGCAATTGCCGGACAAGGCCGTCAGCCTTCTCGATACGGCCGCGGCTGCCGTTTCGCTGGCGCGGCAGACCCTGCCGGAACGGCTGCGCGCCATGGAAAGCGAGCGGCGTCTTCTGACCGATGAGTTGAACTGGCTTCTGCGTGAACCGCAGGATGACGAGATGCAGAGCCGTATCCACTCGATACGCGACGAAGTCGAGAAGCTCGAGAGCGGGATCGACGATCTGCGCGGCCGTTACGATGCGGAAATGGCTGAACTCAGCGAAGAGCAACCCGTTGAAAACGGCGCATCGAATGTGTCGCGCCTGCGGCCGGCGGCTGAGACCAAACCGGCAAATGCCGAAAGACTCGTGCCGACGGTGGTCGACCGTGAAGCGATTGCATCCGTCGTATCGCGCTGGACCGGTATTCCGCTCGGAAAGCTTCTGGCCGACCAGATCGAAAGCGCGCGCACATTGGATGCGCGCATGCGCCAGCGGGTCGTGGGGCAGGATGCTGCAATTACCCGCATTGCCGATGCCATGCGCACCGCCCGTGCCGGATTGTCCGATCCGCGCCGCCCGCCCGCCGTGTTCTTCCTCGTCGGTATGTCCGGAACGGGAAAGACCGAGACGGCGCTGTCGCTGGCCGATCTGCTTTATGGCGGCAACAGCCATCTGACGACGATCAACATGTCGGAGTTCAAGGAGGAGCACAAGGTTTCACTGCTTCTCGGTTCGCCGCCCGGTTATGTCGGTTTCGGCGAAGGCGGCGTGTTGACGGAAGCGGTGCGCCGCCGACCGTTCGGCGTTCTCCTTCTCGATGAGATCGACAAGGCCCATCCCGGCGTCCAGGATATTTTCTATCAGGTGTTCGACAAGGGCGTGCTTCGCGATGGCGAAGGCCGCGATGTCGATTTCAAGAACACCACGATCTTCATGACGGCCAATACCGGTTCGGAACTGCTGGCCGCGCTCTCCGCCGATCCGGATACGATGCCGGAAGGCGAGGCGCTGGAAGCGCTGCTGATGCCGGAGCTGACCAGACAGTTCAAGCCCGCATTCCTCGGGCGCACGATCATCCTGCCCTTCATGCCGCTCGGTGCGGAAGAACTTGCAAGGATCGTGGATATGCAGATCGGCAAGATCAGGGAACGCGTTCTCGCAACATACGGCGCCGACCTGACCCTTTCCGATACCGCGCGCGACGCGTTGGTGGCGCGCGCCGGTGCAAGTGAAATTGGCGCACGCGCCATTGAAATCATGATCGGCAAGGATCTCCTGCCGCCTCTTTCCAGCTTTTTCCTCGAAAAAGTCATCGCGGGAGAACGCGTGGGCAAGATCGTCGTCGATTTTGGTGAAAACAGGTTCGGCATTCGTGCCGAAGCGGCTGGGGAAACAGATGAATTCGCCGCGCCCGAAGAGGGTGGGGTGGATGAAGTTGCCGCGTCGGAAGGGGCTACCCGACGCATGCGGCATTAA	MSHIDLNRLVEALEPDLRVTLEAAASVAVRMGHRYVDIPHWLLAVVDAGIYAKTFEELKIPLPVLQAEIGRSLEEAVIGDGEALSLSQNILTAGREAWVLASLEAGRDRVTLCDLLLAMDEETSLRSFVRSAFPSLKAMDRAALERLRSSVEDSSGREVPAAAAGAATAAGQNDFLRLYTQDMTADARNGKVDPVIGRDDELRQLVDILTRRRQNNPILVGEAGVGKTAVAEALALEIASGNVPEKLRNVRLLNLDISLLQAGAGVKGEFERRLHGVIDAVKRSAEPVILFIDEAHGLVGAGGAAGQGDAANILKPALARGEVRTVAATTWSEYKKYFEKDAALTRRFQPVHVREPDETTAIRMLRGVADSFVSHHNVVVRDEAIVAAVQLSARYMPARQLPDKAVSLLDTAAAAVSLARQTLPERLRAMESERRLLTDELNWLLREPQDDEMQSRIHSIRDEVEKLESGIDDLRGRYDAEMAELSEEQPVENGASNVSRLRPAAETKPANAERLVPTVVDREAIASVVSRWTGIPLGKLLADQIESARTLDARMRQRVVGQDAAITRIADAMRTARAGLSDPRRPPAVFFLVGMSGTGKTETALSLADLLYGGNSHLTTINMSEFKEEHKVSLLLGSPPGYVGFGEGGVLTEAVRRRPFGVLLLDEIDKAHPGVQDIFYQVFDKGVLRDGEGRDVDFKNTTIFMTANTGSELLAALSADPDTMPEGEALEALLMPELTRQFKPAFLGRTIILPFMPLGAEELARIVDMQIGKIRERVLATYGADLTLSDTARDALVARAGASEIGARAIEIMIGKDLLPPLSSFFLEKVIAGERVGKIVVDFGENRFGIRAEAAGETDEFAAPEEGGVDEVAASEGATRRMRH	PGPT0025985_549	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025985-vasG|clpV-K11907	NA	NA
BMS010_06850	1056			hypothetical protein	TTGAACGCGCCGCATGTTAAAAGAGATATAGAGTTTTTTGGAGATTGCGGAGAAAACATCCGCATCGATTCAAGAACGCGTGAAATATACTACAGAATTAAGGATGAAAGAAACCAGGCACGCACAGAAGAGCGCGCCGCGTCCCCACAGGATAACTTAAAGATTTCCAGTAGCTGGGACAGTGTCAGCAATCTTGGATTGCAGATTATATATTCCGAAAGCAAGGACATAGAAATATTGGCGTGGCTTGCCGAAGCAAGCCTGCGGCTGCGCGGCTTTCCTGGATTGCGAGAAATCTATGAGCTTTGTGGCGATCTTTTTTACAACCACTGGGACTCATTGCGCTCCATCAGCGACGATAATGATGAGGAAAAATTTGCACCTTTTGCGGGATTGAACGGCATCGGCACCGAGGGAACGCTTGTGCAGCCGCTCCGGCTTGCGCCGCTGATCCCCGGAGGGAAATTTGGAGAGCACAGCCTCTGGGATTTCCAGCTGGCGCAGCGACCCAACGAGAGCAAACGGCGCGAAGAACTGTATCGGCTGGCGTCGGAAGCAGGCGTTGCCGCCATGTCTTCCCATCTGGCCGAGGTCAACGCCTGCCTCTCCAGCTTCGACGCCATCATGGCGGTTCTTTCCGAACGCTGCGGCCAGTCTGCGCCACCCAGTTCCAATATCCGCAACACGCTCATCGAAGCTGCTGCGGCCATTCGCACGCTGGGCGGGCGCGAGCAGGAGCCGGCACCGGTCGAGCAGGCGGCAGCCGCGGTTCCTGGAACCAACGACAACGGACAACCGGCGATACGAACAGCAGCGACGTCACCGGAAGGCATATCTTCACGCGATGAAGCGTTTGAAACTCTTCTTTCGGTTGCGCGTTACTTTCGCCGGACCGAACCGCATTCGCCGATCTCGCTCTCCATCGAAACGCTGGTTCGCAGGGGACGCATGGATTTTTCCGAACTGCTGGCGGAGCTTTTGCCCGAGGCACAGGCCCGCAATGCAGTTCTGACGGCCGCAGGCATCAAGCCCGGCGGAGACAACAACGGAAAATAA	MNAPHVKRDIEFFGDCGENIRIDSRTREIYYRIKDERNQARTEERAASPQDNLKISSSWDSVSNLGLQIIYSESKDIEILAWLAEASLRLRGFPGLREIYELCGDLFYNHWDSLRSISDDNDEEKFAPFAGLNGIGTEGTLVQPLRLAPLIPGGKFGEHSLWDFQLAQRPNESKRREELYRLASEAGVAAMSSHLAEVNACLSSFDAIMAVLSERCGQSAPPSSNIRNTLIEAAAAIRTLGGREQEPAPVEQAAAAVPGTNDNGQPAIRTAATSPEGISSRDEAFETLLSVARYFRRTEPHSPISLSIETLVRRGRMDFSELLAELLPEAQARNAVLTAAGIKPGGDNNGK	PGPT0025910_628	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025910-impA-K11902	NA	NA
BMS010_06851	510			hypothetical protein	ATGGCAAGTGTACACGAAAAGCTGGAACGGGTTCGCAAGCCCCGCGTCCACATCAAATACGAAGTCGAAACCGAAGGCGCGATGGTGGTCAAGGAACTGCCCTTCGTCGTCGGCGTTCTCGGCGATTTCTCGGGCAATCCGACCCAGCCGCTGAAGCCGTTCGGCGAACGTAAATTCGTTCAGATCGACCGCGACAATTTCGATGAGGTGATGCGCCGCATGACGCCTGGCCTCAACATTGCCGTTGCCAACACGCTGCAGAAAGACGGCACGGACATGCAGGTCAACCTGAAGTTCGAAAGCATGGACGATTTCGAGCCCGGCGCCGTGGTGCAGCAGGTTCCCGCCCTCAAGGCGCTTCTGGACGCCCGCAACGAGCTGCGCGACCTGCTTTCCAAGGCCGACCGTTCGGAAGATCTGGAGCGGATGCTGGAAGATATTCTGCAGAACAAGACCGATCTCGCAACGCTGGTTTCCGAACTCAAGGAAAAGAACGGCGCGAGCAAATAA	MASVHEKLERVRKPRVHIKYEVETEGAMVVKELPFVVGVLGDFSGNPTQPLKPFGERKFVQIDRDNFDEVMRRMTPGLNIAVANTLQKDGTDMQVNLKFESMDDFEPGAVVQQVPALKALLDARNELRDLLSKADRSEDLERMLEDILQNKTDLATLVSELKEKNGASK	PGPT0025915_790	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025915-impB-K11901	NA	NA
BMS010_06852	1482			hypothetical protein	ATGAGCGCTGAAAGCCTGCTGAAAAACGAAGCACAGGCAACGACCGCCGAAGATCAGGGACTGCTGTCCAAGGTGGTTGCCGCAACCCGCCAGACCGAACCGGACCGCGCGCAAAATCTTCTGCGCACGCTGACAGACCAGGCGCTGAAGGGAACGGTCAAATACGACCGCAACCTCACCGTCACCCTCAACCACGCCATTGCCGAACTGGACCGAACGATTTCCGAACAGCTCGCCGCCATCATGCAGGCGCCGGAATTCGCCAAGCTTGAAGGCACCTGGCGCGGGCTCAACTATCTCGTCAAGAATTCCGAAACGAGCGTCAACCTGAAGATCCGCGTCATGAACGCCGGCAAGCGGGAACTGGCGCGCGATCTGGAAAAGGCCGTGGAATTCGATCAGTCCCGCCTCTTCAAGGCGATCTACGAAGACGAATTCGGCACCCCCGGCGGCGAACCGCTCGGCGCGATCATCGGTGATTACGAATTCGACAATTCCTTCGATGACGTACAGCTGCTTCAGGGCGTTTCATCGATTGCGGCGGCGGCTTTCGCTCCGTTCATCTCGGCGGCAAGCCCGCACATGTTCGGCTTCGAGGATTATCGCGATCTCGCCCGTCCGCGCGATCTGGAGAAGATTTTCGATACGGTGGAATATGCCAAGTGGCGCAGCTTCCGCGAAAGCGACGATTCCCGTTTCGTCACGCTCGCTTTGCCGCGTGTTCTGGCGCGCATGCCCTATGGCCCGAAAACCAACCCGATCGATGACTTCGCCTATGACGAAACCAGGGGTGCGGTGAATGGCGATCTGCAACATGACGAATATTGCTGGATGAACGCCGCCTATGTCATGGGCACGAAGCTGACCGACGCTTTTGCAAAAAGCGGCTGGTGCACGGCTATCCGCGGTGCGGAAAATGGCGGCCGGGTGGAAAATCTGCCCATGCACGTCTTCTCCAGCGATGACGGCGATCTCGATCTGAAATGCCCGACCGAAGTGGGCATCACCGACCGCCGCGACGCGGAACTGGGCAAGCTCGGCTTCCTGCCGCTCTGCCACTACAAGAACACCGATTATGCGGTATTCTTCGGCGCCCAGACCGCACATAAGCCGAAGCTCTACGACAAGCCGGAAGCCACGGCCAACGCCGCCGTTTCGGCCCGCCTGCCCTACATCATGGCCACGTCGCGCTTCGCGCATTACCTCAAAGTGATGGGCCGCGACAAGATCGGCTCCTTCATGGAGGCGTCCGATTGCGAAGTCTGGCTCAATCGCTGGATCGCCAACTACGTCAACGCCAATGACGAGGCGGGCGAGGAAAGCCGGGCGAAATATCCGCTGCGCGACGCCAAGGTGACCGTGCAGGAAGTGCCGGGCAAACCCGGCGCCTACAATGCGGTCGCCTGGATGCGGCCCTGGTTGCAGATGGAAGAACTGACGACCTCGCTGCGCATGGTCGCCCGTATTCCGTCGAAGAACTGA	MSAESLLKNEAQATTAEDQGLLSKVVAATRQTEPDRAQNLLRTLTDQALKGTVKYDRNLTVTLNHAIAELDRTISEQLAAIMQAPEFAKLEGTWRGLNYLVKNSETSVNLKIRVMNAGKRELARDLEKAVEFDQSRLFKAIYEDEFGTPGGEPLGAIIGDYEFDNSFDDVQLLQGVSSIAAAAFAPFISAASPHMFGFEDYRDLARPRDLEKIFDTVEYAKWRSFRESDDSRFVTLALPRVLARMPYGPKTNPIDDFAYDETRGAVNGDLQHDEYCWMNAAYVMGTKLTDAFAKSGWCTAIRGAENGGRVENLPMHVFSSDDGDLDLKCPTEVGITDRRDAELGKLGFLPLCHYKNTDYAVFFGAQTAHKPKLYDKPEATANAAVSARLPYIMATSRFAHYLKVMGRDKIGSFMEASDCEVWLNRWIANYVNANDEAGEESRAKYPLRDAKVTVQEVPGKPGAYNAVAWMRPWLQMEELTTSLRMVARIPSKN	PGPT0025920_1177	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025920-impC-K11900	NA	NA
BMS010_06853	1395			hypothetical protein	ATGGCGCATCAGTCCTTTCCGGATGCCCGCATTTTCGCCGACCAGCTCATCGCTCTCATCGACGATGCGCTGACCGGCCAGGTGAACGCCATTCTGCACCACCCTGATTTTCAGGCGATGGAAGCGAGATGGCGCGGTCTGGCCATGGTCGTGCGTGAGGCTGGCCGCGGCGCAGACGTCAAGGTGAAGCTGCTAAATGCCAGCTGGCGCGATCTTGCCCGCAACACGGAACGCGCTACCGACTTCGACCAGAGCCATCTTTTCGAAGTCGTCTATAATCGCGAATTCGGCATGCCGGGCGGCGAGCCGGTCGGCCTGTTGATCGGCGATTACGCCTTTTCCCCCGACGATCTTCAGGGCGCCGATTCCATCACGACGCTGTCGCAGATCGGCATGGTGGCTGCGGCCGCCTTCTGCCCCTTCGTCGCGGCGGCAGCACCTTCCGCCGTCGGCCTGCAGGACTTCGCCGAACTCAGCCGGGTTCACGACTTTTCCTCTCTGAAGCAGGATAAATCGCGGCTGCGGTGGAATGCGCTTCGCGCACGCGACGATTCCCGCTTTGTCGGCCTTGTCGCGCCGCGCGTTTTGCTGCGCTCGCCCTACAGGCCCTATGCGCGGGGGCGGGATGACGGATTTCCATTCCGCGAGCATGTGGCGGAAAGCGGCGAGACCCTGCTGTGGGGCAATGCCGCCTTCGCTTTTGCAACGGTGGTGGTGCGCAATTTCGTCGATTCCGGCTGGTTTGCGGATCTGCGCGGTGTGACGCAGGATGCCGTGGATGGCGGCATGCTCTCTTCCCGGCAATTGCCGCCGCTCGATCTCGGCATCGAGAGCAACGGCCTTTCCGCGCAGCCGCCCGTCGAGGTGCAGCTGACGACCGGACAGGAACAGCAATTTTCCGATCTCGGCATCGTGCCTGTCTCCACCACCTATCTCTCCGGCATGGCGATCTTCAACGCCAACCAGTCCCTGCATGCACCCGGCCATTATTCCAGCGAAGCGGCAAGACAGAACGCCCGCCTCGCGGCCATGCTGCAATATGTGCTGTGCGCCTCCCGGTTCTCCCACTACCTCAAGGTCATCATGCGCGACGATATCGGCCAGCTCAGCGATGCCTCGACGATAGAGCGGAAGCTGGAAGGCTGGCTTTCCTCCTACACGCTCGGCAATGACGATGCGGAAGCGGCGCTGCGCACGCGCTACCCGCTGCGTTCCGCCGGCATCAACGTCTTCGAGGTTCCCGGCAAGCCCGGAACATTCTCCTGCACCGTGCGCCTTCAGCCGCATTTCCAGCTCGATGACGTCTCCACGAGCTTCCATCTCATTGCCGAAACCATGATGCCGCCCGCCGCCGCATCCCGGTCTCCGGCCGAGCCGCAAAGGATACCCGCATGA	MAHQSFPDARIFADQLIALIDDALTGQVNAILHHPDFQAMEARWRGLAMVVREAGRGADVKVKLLNASWRDLARNTERATDFDQSHLFEVVYNREFGMPGGEPVGLLIGDYAFSPDDLQGADSITTLSQIGMVAAAAFCPFVAAAAPSAVGLQDFAELSRVHDFSSLKQDKSRLRWNALRARDDSRFVGLVAPRVLLRSPYRPYARGRDDGFPFREHVAESGETLLWGNAAFAFATVVVRNFVDSGWFADLRGVTQDAVDGGMLSSRQLPPLDLGIESNGLSAQPPVEVQLTTGQEQQFSDLGIVPVSTTYLSGMAIFNANQSLHAPGHYSSEAARQNARLAAMLQYVLCASRFSHYLKVIMRDDIGQLSDASTIERKLEGWLSSYTLGNDDAEAALRTRYPLRSAGINVFEVPGKPGTFSCTVRLQPHFQLDDVSTSFHLIAETMMPPAAASRSPAEPQRIPA	PGPT0025925_84	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025925-impD-K11899	NA	NA
BMS010_06854	825			hypothetical protein	ATGACGCTGCGCGACGATATTTCCCGCCTTCTCGACGATGACCGGCTGCAAGAGGCAATCGGGCTTGCGCGCGAACACGTCAAAACGAAGCCAACCGACAAGGATGGCCGCCATTTCTACATCGACCTGCTGGTCCTTGCCGGCGACTACGAGAAGGCCGATGCGCAATGCAATCTGGCCGCAACATTCTCGCCGCAGGAAAGCGTCGGCTTTTCCCTCTTTCGCCACCAGCTGCGCGCCATGGCCGCACGCAATGCGTGGTTCGAAACCGGCGCGGTGCCGGATTTCCCCGGCGGTCCGTCCGAACTCGATCAACTGGCCATCCGGGCTAATATCGCTGCACGCAGCGGCGATGCGGATGCCGCCAGAACCGCACTGGCTGAACTCGATGAAAAACGCGGCAATGTACCAATCGGCCGCAACGGCAAAAGCGCCGGCGATATTCGCGATCTGGACGACCGGATTCCGCATGCGCTGGAGGTGCTGACCAATGGCGGCCGCTACCTGTGGATCGACTACGGCCGCGTAGAAAGCCTCGCCATCGACCCGATGAGCCGCCCGCGCGACCTCGCTTTCCGCGGGGCTGAGCTGACGTTGCGCGACGGCGCGGTCGCATCCGTGCTGCTTCCGGCCATCTATCACGGTGCGAAGGACGATGTCAGCCTCCTCCTCGGCCGGGAAACCCGATGGAGCGAGGAAGACCAGCCTCTGGCAACCGGGCAAGGCCAGCGCTGCCTGCTGATTGGCGACGATGTGGTGCCGTTCCACGAGATCGGCTCCCTTTCCGCCGCCTCCGACGATGAAAGGCAGATCGCCCGTGGTTGA	MTLRDDISRLLDDDRLQEAIGLAREHVKTKPTDKDGRHFYIDLLVLAGDYEKADAQCNLAATFSPQESVGFSLFRHQLRAMAARNAWFETGAVPDFPGGPSELDQLAIRANIAARSGDADAARTALAELDEKRGNVPIGRNGKSAGDIRDLDDRIPHALEVLTNGGRYLWIDYGRVESLAIDPMSRPRDLAFRGAELTLRDGAVASVLLPAIYHGAKDDVSLLLGRETRWSEEDQPLATGQGQRCLLIGDDVVPFHEIGSLSAASDDERQIARG	PGPT0025975_163	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025975-impE-K11898	NA	NA
BMS010_06855	510			hypothetical protein	GTGGTTGATCCGCTCGAGCAATATCGCGCGCGGCAGAGAACGCTGTCACGCTCCGTTCTGGACCGGCTGCTCGATGACGCGCCGGACTCGGAAACGGATATGCTCGTCAGCCTGAAGGATCAGGCGCGCGAGATGCGCGAGGTGATCCGCCGCGATCTCGAGGCATTGCTCAATACCCGTCGTAACCCCGCCGGTCCGCCGGCGGCGCTGAAGGAACTGTCCGATGCGCTGGTGAGCTATGGCGTGGACGGCATTCTTTCGGCCAATCTGGTGACGGATGCCTCCAAGGCGCGGCTTGCACGCAGCATCGAGCGGCGGATTTCCCTGTTCGAAACCCGCCTTTGCGATGTGCATGTGACGATCCTGAAAAACCGCACGGATGGCGACCGGGCGCTTCGCATGCGCATACAGGCAAGCTTCCGCCTTCAGGAAGGTATGCCGCCGATCAGCTTCGAATCCCGGATCGATCCGTCCACGCAGCGTTTCCTGGTGGAGGCGACGAATGGCTGA	MVDPLEQYRARQRTLSRSVLDRLLDDAPDSETDMLVSLKDQAREMREVIRRDLEALLNTRRNPAGPPAALKELSDALVSYGVDGILSANLVTDASKARLARSIERRISLFETRLCDVHVTILKNRTDGDRALRMRIQASFRLQEGMPPISFESRIDPSTQRFLVEATNG	PGPT0025930_341	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025930-impF-K11897	NA	NA
BMS010_06856	1782			hypothetical protein	ATGGCTGACGGCTTTCTCGAAAAATACAATGATGAACTTTTCGCGCTCCGAAAACGCGCATCGCGTTTTGCGGCGGCGTTTCCGAAGATCGCCGGCCGGCTGCGCATGACGGGCGATGTCGCCGACGATCCGCATGTCGAGCGGCTGATCCAGAGTTTCGCCTATTCCGCCGCCCGTGTGCGCCAGAAGCTGGACGACGAGTTTCCCGAACTGTCGGACAGTCTCTTGGAAACGCTCTACCCGCATTATCTAGCGCCGATCCCGTCCATGAGCGTGGTTCAGTTCACCCCAAGCACGGCGCTCGCAACCGTGCAGACGCTTCCGCGGCACAGCGAAATCCTCGCCGAGCCGGTGGGCGGTGAAAGCTGCCGTTTTCGCACCACGCAGGCGGTGGAAATCGCGCCGCTGCAAATCACAGCCGCAACGCTGTCCGGCCAGCCGATCGACGCGCCTTTTTCGGCCTCGTTTACCGGTGCCGCCAGCTGCCTGCGGCTTTCGCTGCGCAGCACGGCGCCGCGCAGCGGCACCTTCCCGGAAATGGGCCTGACGAAGCTTCAGATTTTTCTGTCCGCCGCATGGCAGCAGGCCACGGCGCTTTACGAGCTTTTGACCAATCATTGCGTGGGCATGGCGCTTGCGCGGCACGCCGAGGACAAGGAAGCCGTTTTCCTGCCCGCCGGCAATCTAACGCCATCCGGCTATACGCGCGATCAGGCCATGTTGCCCTATCCGGCCAACAGTTTTGACGGATACCGGCTTCTCACCGAATTCTTCGCGCTGCCGCAGAAATTTCTCTTTCTCGATATCGACGGGCTACAAAAATGGAGCGGCGGCGATTGCGAACTTTACATCTATCTGGATGCGGCGGACACGCAGCTTGAGCGCATGGTGTCGGTCAGGGATTTCGTATTGAACGCCTCGCCGGTCATCAACCTGTTCAAACAAAGCTGCGAACCGCTCAGCCTCGATGGTACGCGCACGGAATATCGGCTGCTGCCGGATGCACGGCGGCAGCGGACCCGCGAAATCTATGCCGTCGAGAATGTTCAACTGACCAGCCGCGCCGGGCAGACGGAAAAGACCTCCCCGTTCTTCGGCCGCACCCAGCGCAATAACGGCGCGAACGTTTTCTGGCAGATACAGCGCCGTTTCGATGACGACGGTTCTTCCGATACGGACATCGCCTTCGTCGATCAGAAGCGCGGACCGCTTGGACCGCTCGACATGGTGGCGAGCATCGATACGCTGTGCATCAATCGTGAACTGCCGAGCCAGCTTCCCTTTGGCGGCGGCCACCCCTTCCTGCAGCTTTCGTCCGGCAACGAGGCTATAAAATCCATCCATGCGCTGATGCCGCCGACGGCGGCGATCCGCGTCAACGAACGCTCGGCGCGTGAATGGCGGCTGATCTCGCATCTCCTCCTCAACCATCTCTCCCTCACCGACAGCGCCGGTGCACCTCTGAAGGACATTCTTTCGCTCTATTCCTTCAGGGACAGCCCGGAAACACGGCAGCTGGTGGAGGCGATCAGCAATGTCGAGGCGCAGAATTCCCACGCCCGGATCGGCTCGGCCATTGTGCCGGGAACGGATATCACCGTGGAGTTCGACCCCGCGCTGATAGCCCGGCCCGCCGCATTTGTTTTCGCCAATGTCCTCAATCATTTCTTCGGGCTCTACACCTCGATCAACAGTTTCACGCGGCTGACGGCGACGATGCGCGGCCACTCCAAACCGATTGCCCGCTGGCCGGCCCGCGCGGCCGACCGGCCGCTGCTCTAG	MADGFLEKYNDELFALRKRASRFAAAFPKIAGRLRMTGDVADDPHVERLIQSFAYSAARVRQKLDDEFPELSDSLLETLYPHYLAPIPSMSVVQFTPSTALATVQTLPRHSEILAEPVGGESCRFRTTQAVEIAPLQITAATLSGQPIDAPFSASFTGAASCLRLSLRSTAPRSGTFPEMGLTKLQIFLSAAWQQATALYELLTNHCVGMALARHAEDKEAVFLPAGNLTPSGYTRDQAMLPYPANSFDGYRLLTEFFALPQKFLFLDIDGLQKWSGGDCELYIYLDAADTQLERMVSVRDFVLNASPVINLFKQSCEPLSLDGTRTEYRLLPDARRQRTREIYAVENVQLTSRAGQTEKTSPFFGRTQRNNGANVFWQIQRRFDDDGSSDTDIAFVDQKRGPLGPLDMVASIDTLCINRELPSQLPFGGGHPFLQLSSGNEAIKSIHALMPPTAAIRVNERSAREWRLISHLLLNHLSLTDSAGAPLKDILSLYSFRDSPETRQLVEAISNVEAQNSHARIGSAIVPGTDITVEFDPALIARPAAFVFANVLNHFFGLYTSINSFTRLTATMRGHSKPIARWPARAADRPLL	PGPT0025935_1204	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025935-impG|vasA-K11896	NA	NA
BMS010_06857	1005			hypothetical protein	ATGGAACAGCAGACGCCAACCATGAAAGACCGGCAGGCGGCGCTTCTCAGCGACGATCCCGGCCGTTTTGAGCCCGCCACCGCGTTTCGCGTCGCCCAGCTGGTTTCGGCGGATGACGGGATTGTCGTCGGCGCTCATGGCGGAACACAGCCGACCCCGCTGGCGATCAGCGGTTTCAACCACAAACGCGGCCAGGCCGAACTGAAATCCGCCTTCGCGCCCATTGTCGGGCCGCTCGGTTCGCTGCCGCCGGCCTATGGCGAATTGCTGCAGCGGGAAGAGCGCAATCGCTCCGGCGCGCTGGCGAGCTTCTTCAATCTGTTCGCCGCAAGGTTCAGCGAACTGTTCGTATCCGCGACGGAAAAATACCGCCTTGCAAGGGGATTGCGCTGGTCGGCCGATCAGAGGGAGAACGGTTTTCGCAAAACCCTGCTTGCACTCACCGGGTTCCGCACGGCCGGTCTGGTGGAAAAGGCAGGCGTGAGCGAAGATGCGCTCCTTAGGTTCAGCGGCCTTCTGGCCGGCCGCAACCGCAATGTCTCGGCCCTGACCTCCATGCTTTGTGAATTCACGGGACTTCCGGTGAATGTCGAACAGTTTCGCCGGCGATGGGTGGCTTTGCCGCTTCACGAACAAAGCCAGCTCGGACAGCCATCCGGGCTGAGGCTCGGACAGAACACGACGGCGGGAAGCGCTGTCGAAGATATGAGCGGTGGTTTCCGGATCGTGATCGGTCCCGTCGCCTACGCGGATTATCTGGCTCTGACGCCCGGATCGAAACGGCTTGCGGAGATATTTTCGCTGACACGCCTGTTCGTCGGAAGCGCCTTGCATTTCGATGTGCAGGTGATCCTGAAAAAGGAGGACATTCCCTTCTGCCGCCTCGGCCAGTCCGATGCCCCCGCCCGCCTCGGCTGGAATAGCTGGGCTCGCGTGGCGCCCGCAGAAAAAGACAGCGCCGATGCTGTAGTGACCGAGCGCGAAGGCTCGGCGGTTTCCGCGTGA	MEQQTPTMKDRQAALLSDDPGRFEPATAFRVAQLVSADDGIVVGAHGGTQPTPLAISGFNHKRGQAELKSAFAPIVGPLGSLPPAYGELLQREERNRSGALASFFNLFAARFSELFVSATEKYRLARGLRWSADQRENGFRKTLLALTGFRTAGLVEKAGVSEDALLRFSGLLAGRNRNVSALTSMLCEFTGLPVNVEQFRRRWVALPLHEQSQLGQPSGLRLGQNTTAGSAVEDMSGGFRIVIGPVAYADYLALTPGSKRLAEIFSLTRLFVGSALHFDVQVILKKEDIPFCRLGQSDAPARLGWNSWARVAPAEKDSADAVVTEREGSAVSA	PGPT0025940_1293	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025940-impH|vasB-K11895	NA	NA
BMS010_06858	1200			hypothetical protein	ATGAAGCTTGCACTCAAGGACACACGAAATATCGGAGCCGCAAGAGCCAGTCAGTGGAGCTTCGAGCGCGGCCGCCGCGTCATCGGCCGGTCTCGCGATTGCGACTGGCAGATCGATGACAATGAGCGGCGCGTTTCCAAGCTGCACTGCACGCTCAGCCGCGATGGCGAAGGTTTTACGATCCTTGACCAGAGCGCGAACGGCACGCTGGTCGATGGCCGCCTGCTGCTGGAAGGCGAAAGCGCACGTCTGCGCGACGGTTCGCAAATCAACATTGGCGGGCAGGTTTTCCAGGTCGCCATCAGCGGCGATGCCGAGCTGGATTTTTCCGATCCCGACGCTTCCCTGCGCATGAGTGACGAGCCGCTGACCATTTCGGCGATCCTTGCCGACATCGCCCCGAATGGCCGCTCGGCCGAAGGCGTGATGGGCAACGCCGCCTCCGCCGACGACTGGTCCGAAACATGGCGCGAGGGCGCGAAGCGGAAGGCGAAATCCATTTCGCGAAATGTCGAGATCGGCTGGAGCGAACCGCCCGCGGCGCGCGGAATAGGCGCTGTTCTGCCTGATAACTGGGACGAGGAACCGGTTGCGAGCAGCGAGCACGAACATACCGACGCGCTGAACACGCCGGTGATGATCTCACGTCCGGTTTCGACCTCAGGTAGCGAGGATTTCGACAGCGTTTTCCCGGAAGCAGACGAAGAGCTGACCCCAGAGGGCGCCTCGGCTGCGGGCGCTTCGACCGCGCAGGAGATCGGCGATCTTCTGACCGAGCTGGAGCAGGAAAGCGCCGATTGTCTGGCCATTCTCGACATTGAAGGCGAGCGCACCGGCCACGGTTCGTCAGCCTCCCTGAGCGAGCGGGTGGAAACACTCATCCGCCAGCAGCGGCGGCTCGCCGCCTCTCTTGAGACCCTGATCCACGGCTGCACGCAAAAGCTCGAGCCGAGGCTTCTCGAAGCCTCCGTCGATGCCGGTAACGATCTTCGTGCCAAAATCGAGCGCCGCGACTGGCAGGGGCTGATCATGAAGACCGATTACTGGTCCACTTACAAAAAGCAATTTGAGGAAAACGGCCATCCATTGCCGGTCAGGCAGTTCCTGCAGCGGGCAGCACGCGGTGAGGCCGCGCCCACGCAGGAACCTGACGCGATAACGGCCGATGCAACGGGGGTAAACAACCACGATGAGACATGA	MKLALKDTRNIGAARASQWSFERGRRVIGRSRDCDWQIDDNERRVSKLHCTLSRDGEGFTILDQSANGTLVDGRLLLEGESARLRDGSQINIGGQVFQVAISGDAELDFSDPDASLRMSDEPLTISAILADIAPNGRSAEGVMGNAASADDWSETWREGAKRKAKSISRNVEIGWSEPPAARGIGAVLPDNWDEEPVASSEHEHTDALNTPVMISRPVSTSGSEDFDSVFPEADEELTPEGASAAGASTAQEIGDLLTELEQESADCLAILDIEGERTGHGSSASLSERVETLIRQQRRLAASLETLIHGCTQKLEPRLLEASVDAGNDLRAKIERRDWQGLIMKTDYWSTYKKQFEENGHPLPVRQFLQRAARGEAAPTQEPDAITADATGVNNHDET	PGPT0025945_308	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025945-impI|vasC-K11894	NA	NA
BMS010_06859	1305			hypothetical protein	ATGTTTCTTCGCGTTCAGCATTTTCAGCAATCCGACCGATGGACCGAACGGCTGGTGCGCAACACCACGCGCAACCTCTCGCCCTACCCGTGGGGCATCGCCGAAATCGGCGTGGACCGTAGCGCGCTGTCGATAGGGCAATTCGCCCTGTCGAACCTGCGCGGCGTTCTTCCCGATGGAACGCCCTTCGAGGCGCCGGAGGATTCCGACCTGCCGCCGCCGCTCGATCTCGACGAAAGCGTCAAAAACGCCGTTATCTATCTCGCCCTGCCGGCCCGGCAACCCGGCAAGGCCGACATGTCCGCCAGCGGCCGCAACGATGCGAACAATGTGCGCTTCACCGCCTCAAGCTATGAGGTCTCCGACACCAATATCGAGACGGACTTCGTGGCCCCCATCGATGTCGGCCGTCTCAGCCTGAAATTCCTGAAAACCGGCGACGATCTTTCCGGTTACGATCTCATCGGCCTTGCAAGGGTCATCGAGGTCCGCTCAGACCGCGCGGTCATTCTGGACCCGGATTTCATTCCTCCGAGCCTGAGCTGCGCGGCGGCGCCCCGCCTCAACGAATTGCTGACGGAGCTTCTGGGGATCGTGCGCCACCGCGCGCAGGCGATTGCAGAACGCATCGGCGATCCGACGATCAGGGGAACGGCGGAAGTGGGCGATTATTTCCTGCTGCAAATCCTCAACCGGGCCGATCCGCTGCTGGCGCATCGCTGCGCCAACGCCACGCGTTTTCACCCCATCCGGTTTTACGAAGACTGCATCCAGCTTGCCGGCGAGCTTGCGACCTTCACCACGGACAAAAAACGCGCGACGGATTTCCCGCCCTATCGGCACGAGGACTTGAAAGCCACCTTCGCGGCAGTTTTCGACGATCTGCGCACATCGCTGTCAGCGGTCCTGGAACAGGCAGCCGTTGCGATCGAGCTGGTGGAGCGCCGCCACGGCGTCCGCGTCGGCACTATCCACGACCGCACGCTGCTGCGCGATGCCGGCTTCGTGCTTGCGGTGCGCGCGGATATGGCCGCCGAAGACATTCGCCGCCGCCTGCCGGCCCAGATCAAGGTCGGGCCGGTGGAGCGGATTTCCGAACTGGTCAACGTGGCGCTGCCCGGCATTCCCGTGCGCTCCCTGCCGGTCCTGCCGCGGCAATTGCCCTATCGGTCCGGCACCGTCTATTTCGAGATCGACACGCAATCACCCCTCTGGAAGCAGCTTGAGACCTCCGGCGCGATTGCCCTGCATCTGGCGGGCGAGTTCCCCGGGCTTGAGATGGAAATGTGGGCGTTACGCGAATGA	MFLRVQHFQQSDRWTERLVRNTTRNLSPYPWGIAEIGVDRSALSIGQFALSNLRGVLPDGTPFEAPEDSDLPPPLDLDESVKNAVIYLALPARQPGKADMSASGRNDANNVRFTASSYEVSDTNIETDFVAPIDVGRLSLKFLKTGDDLSGYDLIGLARVIEVRSDRAVILDPDFIPPSLSCAAAPRLNELLTELLGIVRHRAQAIAERIGDPTIRGTAEVGDYFLLQILNRADPLLAHRCANATRFHPIRFYEDCIQLAGELATFTTDKKRATDFPPYRHEDLKATFAAVFDDLRTSLSAVLEQAAVAIELVERRHGVRVGTIHDRTLLRDAGFVLAVRADMAAEDIRRRLPAQIKVGPVERISELVNVALPGIPVRSLPVLPRQLPYRSGTVYFEIDTQSPLWKQLETSGAIALHLAGEFPGLEMEMWALRE	PGPT0025950_899	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025950-impJ|vasE-K11893	NA	NA
BMS010_06860	1503			hypothetical protein	ATGAGCAAGGAAAACCCCTCTTCCTGGCAGGATTTGCCGACGGTGGTTGAAATCACCGAGGAAAGCCGCAGACGCAACCAGAACGCCCGCAACATGGCGGCGATCCTCGAAGACATTGTCGAGACCGATGGGCCGGCCGGGCGACCGAAGGCAAGCGGGGCCGCCATGCCGGTCGATCAGCTGCTCTCCGGTTTCCATTTCGGCGGCGGCGATGTGCCGACGCTCGTGCAATCGGCCGCTCCCCTCCTCAACCTAGCGCATCTCCTGCGCTTCAGCGATGCGGAGCCGGATCCCGATCAGCTTCGCCGCGCCTGCATTGAGGCGATCACCCGCTATGAGCGCGATCTCGCTTCCGCCCGCATCAGCCCCGAGCGGGCAAGAGCGGCGCATTATGTCGTCTGCGCCACGGTGGATGATGTGGTTCTGAGCAAACCCTGGGGCGTGCGGGCAGGCTGGGCGCGCTCCGGCCTTGTCTCCACCTTCCACAACGATGTCACCGGCGGCGACCGGGTTTTCGACATTCTCGACCATTTCCATCAGTCGCCCGGCGCCAGCAAGGATCTGCTGCTGCTGATCTATCTGTGCCTGTCGCTGGCTTTCGAAGGGCGCACCCGCGTTTCACCAAAGGGTGCGCTAGAGCTTTCGCGCATCCGCGACAGCCTCTACAAGACGCTGATCGGCCAATACGGCACCTTCGAACGGGAGCTTTCGCCACACTGGAAAGGCGTGGAAGCCCGTCATACGCCATTGCGCACGATGGCCGCGCTGTGGACTCTGCTGTCCCTGATGGCGCTTGCCTTCGCGCTTGGTTATCTCTTCTTCACGCTGTCGCTCAACGACGCATCCGATGTCACTTTCGAGAAGCTCGCTCATCTGCCGCCGAACGAGACGCCGAGCGTGCTGATCGCAAGCCCGCCTCAGCCACCGGCGCAGGTCGAAACGCCCAAGGTCGTGGAACCGCCGAAGACGGTGGAGCCACGGCAACCCTCACGGCTTGAAAAGCTGATGGCCTTCCTTCAGCCGGAAGTCGAAAAGAAGCTTGTCACGCTGGCGGATGTAAACGGACGGCTGCGCATTCGCATCAACAATTCGGGCCTGTTCTCCACCGGCAGCGCCGATGTCAGCCCGCAGTTCCGCGATCTCATCCAGCGTATCGGCGGCGCGCTTGCGGCCGAAAAATTCCGCGCCGTCGTCATCGGCTATACCGATACCGTGCCGATCAAGACGGTGGAATTTCCGTCCAACTGGCACCTTTCCGAAGCCCGCGCCAAGGCGGTCGGGGACATTCTTTCACAATTCACCGGCCCGGAAGCGATCCTGACGGAAGGCCGTGCCGACAGCGACCCGATCGCCGACAACAAAACGGAAGAAGGCCGCCAGATCAACCGCAGAACGGAAATCATGGTCCTGACCAATCCCGATGAAAAACTGAGCGACGCCGGCATTCTCTCGCCGACCATAGAGAACAGTTCGGGACAGCAGCCGCAAGAGGCAAAGCCATGA	MSKENPSSWQDLPTVVEITEESRRRNQNARNMAAILEDIVETDGPAGRPKASGAAMPVDQLLSGFHFGGGDVPTLVQSAAPLLNLAHLLRFSDAEPDPDQLRRACIEAITRYERDLASARISPERARAAHYVVCATVDDVVLSKPWGVRAGWARSGLVSTFHNDVTGGDRVFDILDHFHQSPGASKDLLLLIYLCLSLAFEGRTRVSPKGALELSRIRDSLYKTLIGQYGTFERELSPHWKGVEARHTPLRTMAALWTLLSLMALAFALGYLFFTLSLNDASDVTFEKLAHLPPNETPSVLIASPPQPPAQVETPKVVEPPKTVEPRQPSRLEKLMAFLQPEVEKKLVTLADVNGRLRIRINNSGLFSTGSADVSPQFRDLIQRIGGALAAEKFRAVVIGYTDTVPIKTVEFPSNWHLSEARAKAVGDILSQFTGPEAILTEGRADSDPIADNKTEEGRQINRRTEIMVLTNPDEKLSDAGILSPTIENSSGQQPQEAKP	PGPT0025955_77	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025955-impK|ompA|vasF|dotU-K11892	NA	NA
BMS010_06861	3480			hypothetical protein	ATGAATCCATTGAGCTATTTTTATACGATCCGATCCTATGTCGAGAGCTATGCCGCTCTCATCGGCCGTCGTTTCCTGTCGCTGTTATGGGTAGTCGCGCTCTGCATCGTCATCTGGTTTTACGGCTATCTGGTCGCGCTGGGCGATTTCAAGCCCTTGGGAACGACGCAGGCCCGGCTCATCGCTATCGGCATCATTGTGGCGATATGGCTGGTTTATATCGCCGTCACGATTTATCGCGGGCGCAAGCAGGACAAGGAACTTGTCGACAGTATCGAGCGCGAGGCTCTTGCCAACCGCCAGGCCGAAGTCGGCGAAATCCAGATGCGTCTCAAGGAAGCGCTGGCGCTGCTGCGGCGGGTCACGAAAAAGCGTTTCGGTTATATTTACGATCTTCCCTGGTACGTGATCTTCGGCGCACCCGGCTCCGGCAAGACGACGGCACTCACCAATTCCGGCCTGCAATTTCCGCTCGGCGATGCGCTCGGCGAAAACGCAGTAAAGGGCATCGGCGGCACGCGCAACTGCAACTGGTGGTTCGCCGATGAGGCGATATTGATCGACACCGCCGGCCGTTACACCACGCAGGACGATCTCGATGGCTCATCCAAAGCCGGCTGGGAAGGTTTCCTCGGTCTTCTGAGACGCTATCGCCGGTCGCAGCCGATCAACGGCGCATTGGTGACATTGTCCATCCCCGATCTTCTCACCCGCGATCCCGAGGAACAACGGCAGGAACTGCGCTCCATCCGCCAGCGGCTTTCGGAACTGGACGAATATCTGCACGCCCGCGTTCCAGTCTATATCGTGCTGACCAAGGCCGATCTGCTGCATGGTTTCGTGGAATTCTTCGACGGTTTCAACAAGACCGACCGCCAGCAGGTATGGGGCACCACCTTCAAGCTGGATGAGAGCTATACCGCCGAGAACCTGCCGCAACGCCTGACGGAAGAGTTCGAACTGCTGCAACAACGGGTCGATGCGATTTTGATCGAGCGCCTGCAGCAGGAGCAGAATGCCGAGACGCGCGGGCGCATCTTCCGCTTCCCCGCCGAACTTGCGCGGTTGAAAGACCGGCTCCATGAGGCCCTGACCGAACTTTGCGCACGGTCTCCGCTGATCGAAGCCCCGCTTTTGCGGGGCGTTTATCTCGCTTCGGGAACGCAGCCGGAAACGGAAAGGTCTCCCGCAGCGGCCAGGACCCGCCGAAGCTACTTCCTGTCGCGGCTGTTCAAGGATGTCATCTTCCCCGAAGCCGCGCTGGTGATGCGCGACAAGCGCCTTTCCGGACGGCAATTGCTGGTGCGGCGCATCGCCTATGGCATATCGGCCGCCGCAGTCGCCATCGTCTTCACCGGCTGGATTTTCACCTATTTCGCCAATACGCAGGCGCTTGCCGAAGCGGATCGCAAACTTGGCGCTTATGAACAGCTCGTTCAGGGCATTCCCGTGCGCGATGTTTCCGACGCCGATTTTCTCCGCATCCTTCCGGCGCTCGACAATCTGCGCGACGTCAATTCCGGCTTTGCCCGCGAGAGCGTGTGGAACGTCAGCTTCGGGCTCGATCAGGAAGACAAGATCGCGGGACGGCAGCGTGACGCCTACCAGCGCGCGCTCAATGCCCTGCTCCTGCCGCGCATGATCGTGCAGCTGCAGAAACAGCTCAAGGATGAAAAGGATGTCACGCGCACCTTCAATTCGCTGAAGCTCTATGGAATGCTTGGCGGCATGGGTGCGCTGGACCCCGATTTTCTGACCGTGCAGACGCACCAGATGTTCGCATCCCTCTATCCCGGCGATGGAAGGGCGGCGGCCAGAGAAGCGCTCGACCAGCATGCGAAAGCGCTCGCGGACGGCGTGCTCGCCCCGATTGAGCTAGACGCACGGCTCATCGCAACTGCCCGTGAAACCATCCGCAATCAGGCTGTCGGCACGCGCGCCTATGATATTCTCGCCGGTCTTCCGCAGGCGCGGGAACTGATGGAATGGACACCCGCCACGGCCTTCGGCCCGCTGGGAGAGCGGGCCTTCGAGCGGCGCAGCAAAGCGCCGATGGCGGAAGGCATCGAAGGTCTTTTCACGGCGGAAGGATATCGCAGCGTCGTCATTCCGCAGGTCGCCCATGCGGCGCGCATCGCGCTTTCCGAAGGGTGGGTGCGCGGTTCCGATGATGCCATAAGGGGTGCCACGGTCGAGCAGGTGGCGCAGGCCGCGCTGCAAATCTATTTCGACCGTTTCGAGAACAAATGGGCCGATACGCTGGCCGACCTTCGGGTCAAGCCGTCCCAGACCCTTGGCGACGCCGTGGAAACAACCCGCGCGCTTGCCAATGAACGCAATATCGTGGTGGAGGCTGCCAGATCGATCGCGGAGGCGACCGATCTGCGCCCCGGAGCAAACCCCGCCGCCCTCGCCTCCGCCGCTGAAGGCGACGCGACGGCAGCCGTTCTGGCCGCAACGGTGAACGCGGCCGATCCCTATGCGAGACTGCGGGACATGCTGGCGGCGAAGGGCGCGGCCACAACGGGCGAGCAGGCCAATGGCGGCAAGGCCGGAGGCTCGCCATCGGAACAGTTGCTCGCGCACTTCAAGATGCTGAACGAGCAGCTTGCCCGCTCGGCAACCACCTCCGACGAAGTCGCCAAGGTGTTCGACGTGGACAGCCAGCTCACCAAGGCCAATCAGGATCTGTTGCAGCAGGCCCGTGAATTGCCGGCGCCCCTCGATGTGTGGGTGGCGGGCGTTGCGGCGGATGTCGGCTCGCTTGCGGTCAAATCCGCCCGCAGCCGCATTGCCGAACTCTGGGCGGCCGATGCGGCATCGCTGTGCTCTTCCATCGTGACCGGGCGTTATCCTTTCGACAGGTCATCTTCCCGCGATGTCGCCATCGCGGATTTCACCCGTCTCTTCGGGCCGACCGGGGTTTTCCAGTCCTTCTTCAAACAGCGTATGGAAGCCTTTGTCGACAAGACGACCAACCCCTGGAGCTGGAAAGGCACTTTCGGCGCCGCCGGCATTCCAAGCAGCGCCGTCGCCCAGTTCGAAAATGCCGATAAGATTTCGCGTGCCTTTTTCCCGAATGGCAGCGAGACGCCGGCGGTGTCGATCAATGTCAAACCCGTTTCGCTCACCAATGCCTCCAGCGCGGTGATGCTGGAAATCGAAGGCGAGCGGGTGGTTTATTATCACGGCCCCATTCAGGCGAAATCGATCACCTGGCCCTCGCGTGAAAACACGGCGAGCCTGTCGCGCATCGCGTTCCAGCCAGGCGGCTGGCAGCAGGCGAAAACCGAAAACGGCGACTGGTCGCCATTCCGGCTGTTCGACGGCGCCGACATCGAAAACCAGTCGGGTGACCTGCTGCGGGTGCGATTTGCGAATGGCGCTCAGGCTGCCGAATTCGATATTCAGTTCGGCTCGGTTCTCAACCCGTTCAGGCTGGACGCCATCGCCGGCTTTGCCTGCCCCGCGCAATTTTAG	MNPLSYFYTIRSYVESYAALIGRRFLSLLWVVALCIVIWFYGYLVALGDFKPLGTTQARLIAIGIIVAIWLVYIAVTIYRGRKQDKELVDSIEREALANRQAEVGEIQMRLKEALALLRRVTKKRFGYIYDLPWYVIFGAPGSGKTTALTNSGLQFPLGDALGENAVKGIGGTRNCNWWFADEAILIDTAGRYTTQDDLDGSSKAGWEGFLGLLRRYRRSQPINGALVTLSIPDLLTRDPEEQRQELRSIRQRLSELDEYLHARVPVYIVLTKADLLHGFVEFFDGFNKTDRQQVWGTTFKLDESYTAENLPQRLTEEFELLQQRVDAILIERLQQEQNAETRGRIFRFPAELARLKDRLHEALTELCARSPLIEAPLLRGVYLASGTQPETERSPAAARTRRSYFLSRLFKDVIFPEAALVMRDKRLSGRQLLVRRIAYGISAAAVAIVFTGWIFTYFANTQALAEADRKLGAYEQLVQGIPVRDVSDADFLRILPALDNLRDVNSGFARESVWNVSFGLDQEDKIAGRQRDAYQRALNALLLPRMIVQLQKQLKDEKDVTRTFNSLKLYGMLGGMGALDPDFLTVQTHQMFASLYPGDGRAAAREALDQHAKALADGVLAPIELDARLIATARETIRNQAVGTRAYDILAGLPQARELMEWTPATAFGPLGERAFERRSKAPMAEGIEGLFTAEGYRSVVIPQVAHAARIALSEGWVRGSDDAIRGATVEQVAQAALQIYFDRFENKWADTLADLRVKPSQTLGDAVETTRALANERNIVVEAARSIAEATDLRPGANPAALASAAEGDATAAVLAATVNAADPYARLRDMLAAKGAATTGEQANGGKAGGSPSEQLLAHFKMLNEQLARSATTSDEVAKVFDVDSQLTKANQDLLQQARELPAPLDVWVAGVAADVGSLAVKSARSRIAELWAADAASLCSSIVTGRYPFDRSSSRDVAIADFTRLFGPTGVFQSFFKQRMEAFVDKTTNPWSWKGTFGAAGIPSSAVAQFENADKISRAFFPNGSETPAVSINVKPVSLTNASSAVMLEIEGERVVYYHGPIQAKSITWPSRENTASLSRIAFQPGGWQQAKTENGDWSPFRLFDGADIENQSGDLLRVRFANGAQAAEFDIQFGSVLNPFRLDAIAGFACPAQF	PGPT0025960_1290	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025960-impL|vasK|icmF-K11891	NA	NA
BMS010_06862	1407			hypothetical protein	ATGGCCAATCAGGCATCGAGGCCCGCGGAGACCGCAGCGGAAAGTGATCGCATCGGTTTCTTCGGCAAGGTCCCCAGCCATGGCGACTTCATCTCCGACGGGCTTGAACGGGAGCTGATCGGGACATTTGACGACTGGATGCGATCCGGCCTGCACGCCTGCGCGGACCTGTTTTCGGGCCGATGGCCCGAAATATTCACGTCATCGCCGCCCATTCGCTTCATCATCGAAAGCGGTATATGGGGAAACTGCGCCTATGCCGGCGTGCTGGTGCCCAGTGCAGACCGGGTGGGGCGCAAATATCCGCTTGCCATCATTGCCCAGCTCAATAGCTTCCGGAAACATCCGAGAACACTCTATCTCGACGACACCTGGTTCATGGCCGCCGAGGCGCTGGCCGAGACATCCATGACGGGCGATTTCGACATGTCCCGGTTTAACACCTCCGTTAAAAAACTGCGCCTGCCGAAACCACGGGAAGAGGATGACGCGCCGGAAATGGTGCGCGGCCGCGCACCGACCAGCCTCTGGTGGCGCATCGATCCCGTCAGCCGCCGCGCCCGCGGTCTCAAATTCGACGGCAAACCAAAAGCTTCCGATTTTCTGCGCCTCTTCAGCGACATGGCAGGCAAGGGCGAAGAGGACGGCTCGACATCCGTACAGCCGCAGGAAAGTGCGAAACACAAAACTCCGCCGGTGATGACGCAACCGCCCGCGCCGGCAACCGAACAGCCGTCATCGGTCATCTATAGCTATGCCACGCACCCGGGAACACGGCTTTCCCTGAATGCGGATTCGCTCTTCGTTTCCCAGAGCCCTGCCCTCTTTGCCATAGCAGATGGACAGGGAGACACGCACAGCGCCGTGGAAGCAGCGCGTCTGGCCACAAATATTCTTGCCGAGACCCCCGATGCCGAAAGCCCCGAGGTGATGGCGCAGCAGATCAGGGGAAAGCTCGGCACCGTCAACAGCCTGCTTCTTTCCCGACAAGCCATGGGCGCTGACGGCAGGCCGATGGCAAGCGTCATCATTGCCTCCATTATCGGCCGCAGGCTGAGCGTCCTGTGGTCCGGCGACGCGCGCGCCTATCTCCTGAAAAACGGAACCATGCACCAGCTTTCGCGCGATCACGTCGTCGTCGGCATGAAAAGGCAGCTCGCGCAATGCGTCGGCCTTTCCCAGCAGTTCCGCCCGGACATCGTCGGAGAAGACTGGGGGTCGCAGGACAGGCTGCTCCTGTGCAGCTATCCGCTGGTACAAATCCTGAAGGAGCGGGCCATTGCCGAGATTGTCGGCGACACTCCGATCAAGGACTGCGCCAGCGCCCTGATCCAGGAAGCGCTGATCGAGGACGCACGCGAGAATGTCAGCGCCATCGTGATTGGAAACCGCCTTGAGCAAGGGTAA	MANQASRPAETAAESDRIGFFGKVPSHGDFISDGLERELIGTFDDWMRSGLHACADLFSGRWPEIFTSSPPIRFIIESGIWGNCAYAGVLVPSADRVGRKYPLAIIAQLNSFRKHPRTLYLDDTWFMAAEALAETSMTGDFDMSRFNTSVKKLRLPKPREEDDAPEMVRGRAPTSLWWRIDPVSRRARGLKFDGKPKASDFLRLFSDMAGKGEEDGSTSVQPQESAKHKTPPVMTQPPAPATEQPSSVIYSYATHPGTRLSLNADSLFVSQSPALFAIADGQGDTHSAVEAARLATNILAETPDAESPEVMAQQIRGKLGTVNSLLLSRQAMGADGRPMASVIIASIIGRRLSVLWSGDARAYLLKNGTMHQLSRDHVVVGMKRQLAQCVGLSQQFRPDIVGEDWGSQDRLLLCSYPLVQILKERAIAEIVGDTPIKDCASALIQEALIEDARENVSAIVIGNRLEQG	PGPT0025965_12	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025965-impM-K11890	NA	NA
BMS010_06863	906			hypothetical protein	TTGAGCAAGGGTAAACAACCGGGCGACGGGCCTGCCTATCCGCAGGTTGCCGAGCGCTTCTCCGATCTGTGGCAAAGCATTCGCCATGACGGCACGCGGGAAAGGCCAGCCGAAGAACAGAAAGACCTCATCGATCAGGTCAGAAATGCGCTGGACCGGAAAATCTCGCATTTTTCCGATGCAAGACCCAGCTGGATCGCCGACAGTTTTGCCCTCGAACGGATTGCCTACGAGAGTAAAAACACCCTGCTGCTGCAGGTGCGGCACCGCGATCTCGGCTCCCTTCACGCCCTGAAAACCACGCCGCCGGCGTTGAGAAACGACGCGGCGCTGCTGCAAAGATTACGCGAGGAGGCGCAGCTCGGCCTGACATTGCGCCATCCGTGTCTGGTGGAAACATCGGCGCTGCTGAGGCTGGCCGATGGCCGACCGGGCCTGTTGCAGCCATGGTTTCCGCAATCATTGGCGTCGCTTGCATCGCAGCGGCCGGTTAGCGCGCCGCAGGCGATCGCAATCCTTCGCCGCCTGCTGGAAGGGCTGAGCGCCATGCATGCACGGGGGTACGTCCACTGCGATGTAACGCCAGCCAATATTCTGCTGGAGGACGGCGATTTCGAAACGGGCAGGCTTGGCGATTTCGGCATTGCGCTGGAGATCGGCCAAAAACACGCAGATCGGGGCATGAGCTTTGCCGCCTCGCGCGAATTTGCAGCGCCGGAACGGATGCGGGACGCAACCGCGAAGCCGGATCAGGATATATTCTCCGTGGGGCGGCTTGCCCGGCGGCTTATCGCGACGGATGAGATGCGAACAACGCAAAGGCTGGCGGATTTTGCGGACGCCTGTTGCCAGGACGAACCCGCGTCGCGGCCGCAATCGGCAATGGAAGCGCTACAGCTTCTGTAG	MSKGKQPGDGPAYPQVAERFSDLWQSIRHDGTRERPAEEQKDLIDQVRNALDRKISHFSDARPSWIADSFALERIAYESKNTLLLQVRHRDLGSLHALKTTPPALRNDAALLQRLREEAQLGLTLRHPCLVETSALLRLADGRPGLLQPWFPQSLASLASQRPVSAPQAIAILRRLLEGLSAMHARGYVHCDVTPANILLEDGDFETGRLGDFGIALEIGQKHADRGMSFAASREFAAPERMRDATAKPDQDIFSVGRLARRLIATDEMRTTQRLADFADACCQDEPASRPQSAMEALQLL	PGPT0025970_6	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_SYSTEM_BIOSYNTHESIS,PGPT0025970-impN-K11889	NA	NA
BMS010_06864	1137			hypothetical protein	ATGAAAAAGTTGGGGGCGGTTTTGCTGGTGGCTCTTTTGAGCGCATGTGCAAAGCCATCTGACGGACCGACCGCAGGCAATATCCGATCTGCGACTTTCCCTCGAACCAACGAAAAAATCCCCGTCATCGAGCTGGCGAATGCGCCGGCGGCCACGGTATCCGCCGGAAGCCTGCAGAATGCCTCCGGCCCCGGCCTCACAGCACTTCGCAACACCGGTTACAACGCCCAGAGATTGCGTCGCGGCGACGTGATCGACATCACCGTGCTCGATACCGGCGAAGACGGGCTTTTCTCCCCAACGCAAAGCAAGACGCTCAATCTCGGACGCTTTACGGTGGACCAGAGCGGATCGGTGAATATCCCCTTCGTCGGCAAACAGAGGGTGGTGGATTCGACGCCCGAGGGGCTGCAATCGCAGGTCGTTGCCGGGCTCAAGGGATCGGCCGTGAACCCGCAGGCCGTCGTCACCGTCGTTGACAAGCCGACGAGCGCCGTCATGCTGAGCGGTGCGGTGAAAAATCCCGGAAAAATAACGCTCACCGCCCGTCAGGAGCGGGTGCTCGATGCGCTCAATCAGGCCGGCGGCCCGACCGTCGCTCCGGGCGCTGCCACGGTTACCGTCGTTCGCGGCTCGCACAGGGCGAGCGCGCCGCTTGACCGCGTCATGCGGGAGGACCGCCAGAATATCCGCCTGTCGCCGGACGATCAGATCATGATCGATGGCGATGCGGCGAGCTACACCGCGCTCGGCGCTTTCAAGAGCGCCGGCGAATTCCAGTTCGAAGCCGGAAAACTGACCCTCGCTCAGGCTGTCGGCCGCGCCGGCGGGTTGCTGGATGACCGTGCGGACGCGCGCAATGTCTATGTCTTCCGCAACGAGATCGTTCAGGTGCCGTCGGCAACCGTATCGGGCGCGAAAGGCCCGGTCGCGACGGCCACGACCATGCGGCCGGTGATTTATCACGTCAATATGCGCGATGCTTCCAGCATTGCGCTCATGCAGCTCTTCCAGATGCAGAAGGGCGATGTACTCTATGCCAGCAACGCACCGCTGGTGGATTCGGCCAAGCTCCTGACCGTGTTCCAGAAGAGCGTGCCGACGGCGGCAGCACCGCTTCCCGGCAGCGGCAACTGA	MKKLGAVLLVALLSACAKPSDGPTAGNIRSATFPRTNEKIPVIELANAPAATVSAGSLQNASGPGLTALRNTGYNAQRLRRGDVIDITVLDTGEDGLFSPTQSKTLNLGRFTVDQSGSVNIPFVGKQRVVDSTPEGLQSQVVAGLKGSAVNPQAVVTVVDKPTSAVMLSGAVKNPGKITLTARQERVLDALNQAGGPTVAPGAATVTVVRGSHRASAPLDRVMREDRQNIRLSPDDQIMIDGDAASYTALGAFKSAGEFQFEAGKLTLAQAVGRAGGLLDDRADARNVYVFRNEIVQVPSATVSGAKGPVATATTMRPVIYHVNMRDASSIALMQLFQMQKGDVLYASNAPLVDSAKLLTVFQKSVPTAAAPLPGSGN	PGPT0025530_1701	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT-1,PGPT0025530-wza|gfcE|epsA-K01991	NA	NA
BMS010_06865	297			hypothetical protein	ATGGATCACACCAATCACGTACGCCTGGTTGAAACCGAACTGACGCCCTCCGTTCTTGAAGGCGCCACCGTTTATGGTGCAGACGATCACAAGGTCGGCAAGGTGGATCATGTCCACGGCGTCGGGGCCGGCAGCACCGCCATCATCGATGTCGGCGGCTTTCTTGGTATCGGCGCAAAGCCGGTCGCAGTACCGCTCAGCGATCTTGATTTCATGCGGGATGAGGACGGCGATGTCCACGCGGTCACTTCATGGACCAAGGACCAGCTGAAGGACATGCCCGAGCATCGTCATTAA	MDHTNHVRLVETELTPSVLEGATVYGADDHKVGKVDHVHGVGAGSTAIIDVGGFLGIGAKPVAVPLSDLDFMRDEDGDVHAVTSWTKDQLKDMPEHRH				NA	NA	NA	NA	NA
BMS010_06866	726	golD		NAD-dependent glycerol dehydrogenase	ATGCAGTTTTCTGGAAAATCCGTCATCATCACCGGCGCAGGCAAAGGCATCGGCCGCGCCTGCGCTCGCCTGATGGCCGCGCGCGGTGCGGAAGTGGTGGCGATCAGCCGCACCCAGTCCGATCTCGACAGCCTGAAAAGCGAAATCGGCGGCCGTTCGATCCGTGTCGATCTTGCCGATGTCGCGGCCACCCGCGCCGCCATGAAGGAAGCGGGCCCTTGCGATTTCCTGATCAACAGCGCCGGCATCAACGTGCTCGAAAGCGTGCTGGATATGAGCGATGCGGGTTATGAAGCCATTCTCGGCATCAACCTGCGCGCGGCCTTGGTCGCATGTCAGGAATTTGCCCGCGCCCGCGTTGCAAAGGGCGGCGGCGGCGCCATCGTCAACATCACCTCCATCGCCGGTCACCGCGGTTTTCAGGATCACCTCTGCTACGCAGCCTCCAAGGCCGGGCTGGAAGGGGCGACCCGCGTTCTTGCCAAGGAGCTTGGCCCGCACGGCATCCGCGTCAACGCGGTTGCACCGACCATCACCCTCACCGAACTGGCCGCGGAAGCATGGAACGATCCGGCGAAAAGCCAGCCGATGATGGTTCGCCATCCGCTCAACCGGTTTGCCGAAGCGGAAGAGGTGGCTCAAAGCATAGCGCTGCTCCTGTCGGATGATAGCCGCATGATTTCCGGAGCCGTATTGCCGGTCGATGGCGGTTTCCTCGCCGTTTGA	MQFSGKSVIITGAGKGIGRACARLMAARGAEVVAISRTQSDLDSLKSEIGGRSIRVDLADVAATRAAMKEAGPCDFLINSAGINVLESVLDMSDAGYEAILGINLRAALVACQEFARARVAKGGGGAIVNITSIAGHRGFQDHLCYAASKAGLEGATRVLAKELGPHGIRVNAVAPTITLTELAAEAWNDPAKSQPMMVRHPLNRFAEAEEVAQSIALLLSDDSRMISGAVLPVDGGFLAV	PGPT0017555_333	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017555-cbr-K03331	NA	NA
BMS010_06867	1611	araB_1	COG1069	Ribulokinase	ATGGCTTCCTATCTGATTGGCGTCGATGTCGGGACCGGCTCGGCGCGCGCCGGTGTCTTCGATGTCGCGGGCAAGCTTCTCGCCACCGCCAAGCGCCCGATCAGTATGCATCGTGAAGATGGCGGCATTGCCGAACAATCGAGCGGCGAAGTATGGCAGGCCGTTTGCGACAGCGTCCGGGAAAGCGTTTCCCGCGCCGGCATCGATCCCGCCGAGGTCGCCGGTATCGGTTTCGATGCCACCTGCTCGCTGGTGGTGCGCGGACCGGAAGACGAGACCCTGCCGGTTGGCGCACCGGATCATCCCGAGCGGGATATCATCGTCTGGATGGATCACCGCGCCGTCGAACAGGCGGAGCGCATCAATGCCGGCGAACACGCCGTGCTGAAATATGTCGGCGGCCGTATTTCCCCGGAAATGCAGACGCCGAAACTGCTGTGGCTCAGCGAAAACAGGCCGGACATCTATGTCCGGGCAGAGCACTTCTTCGATCTCACGGACTTTCTGACATGGAAGGCTTCGGGAGCGCTCGATCGCTCCGCCTGCACGGTGACCTGCAAATGGACTTATCTGGCCCATGAAAACCGTTGGGATGCGGAATATTTCACCCGCATCGGGCTTGGCGATCTCGCCGAACAGGGTTTTCGCCGTATCGGTCAAAGTGTCGTCCATCCAGGCACGGCGCTGGGTAACGGTTTGACGGAAGACGCTGCAAAAGCCATGGGTCTGGTTGCGGGCACCGCGGTTGCGGCAGGTCTGATCGACGCCCATGCCGGCGGCGTCGGCACGGTGGCCGCGGGCGGCGATGCGTCGCGATGCCTCGGTTATGTTTTCGGCACCTCATCCTGCACCATGACGACCACTGCTGAGCCCGCCTTCGTGCCCGGCGTCTGGGGACCCTATTATTCAGCCATGGTTCCGGGCGCGTGGCTCAATGAAGGCGGCCAGTCCGCTGCCGGCGCTGCCATCGATTACCTGGTGCAGTTGCACCCGGCCTATGCCGAGGCGAAGGCGCTTGCCGCTAAGGAAGATAAAGCATTGCCGGTTTGGCTCGCTGACCGGGCGCTCAATCTTGCCGCATCCGCGTCCGCTGCCGCAAAGATCGCCGAGGATTTTCACGTGGTGCCGGAGTTTCTCGGTAACCGCGCGCCCTTTGCCGATCCCCATGCCCGCGCCGTCATCGCCGGTTACGGCATGGAGACGGGCGTGGAATCCCTTGTCGCGCTTTATGTGGCCGGCCTTCTCGGCCTCGGTTACGGGCTTCGCCAGATCATCGAAACGCAGGCCCGCAATGGTGCGCCGGTGGAAACCATCAGCGTCAGCGGCGGGGCGGGTGCGCATCCGCTTGCCCGACAACTGCTCGCGGACGCGACGGGGCTTCCCGTGGAACTGACTGAATGCGAGGAGCCGGTGCTTCTCGGCTCGGCCATGCTGGGCGCCGTCGCCGCCGGAACCTATCGGGACCTGATGGTCGCCATGCCCGCGATGTCGCGTATCGACAGTTGTGCTGCGCCAGATCCAGATTTTCAGAAGGTTCATCAGGTGCGTTACGACGCGTTTCTGGCGCTGCAAAATGCGGCGCGCGCCATTCGTTCTGCCAGTCCTTCCTGA	MASYLIGVDVGTGSARAGVFDVAGKLLATAKRPISMHREDGGIAEQSSGEVWQAVCDSVRESVSRAGIDPAEVAGIGFDATCSLVVRGPEDETLPVGAPDHPERDIIVWMDHRAVEQAERINAGEHAVLKYVGGRISPEMQTPKLLWLSENRPDIYVRAEHFFDLTDFLTWKASGALDRSACTVTCKWTYLAHENRWDAEYFTRIGLGDLAEQGFRRIGQSVVHPGTALGNGLTEDAAKAMGLVAGTAVAAGLIDAHAGGVGTVAAGGDASRCLGYVFGTSSCTMTTTAEPAFVPGVWGPYYSAMVPGAWLNEGGQSAAGAAIDYLVQLHPAYAEAKALAAKEDKALPVWLADRALNLAASASAAAKIAEDFHVVPEFLGNRAPFADPHARAVIAGYGMETGVESLVALYVAGLLGLGYGLRQIIETQARNGAPVETISVSGGAGAHPLARQLLADATGLPVELTECEEPVLLGSAMLGAVAAGTYRDLMVAMPAMSRIDSCAAPDPDFQKVHQVRYDAFLALQNAARAIRSASPS	PGPT0017415_142	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_RIBITOL_METABOLISM|DEGRADATION,PGPT0017415-rbtK-K00875	NA	NA
BMS010_06868	732	rbtD		Ribitol 2-dehydrogenase	ATGTCTGAATCGCTGCAAGGCAAGATTGCGGTCATCACCGGCGCCGCATCCGGCATCGGGCTTGCCGCCACCGAAGCGCTGCTGGAGCAGGGCGCAACCGTGGTCATGGTCGACTGGAATGAGAAAGCCTTGAATGATCTGGTCGCCAAGCTCGGCGACCGCGCCATCCCGCAGGTCACCAATCTGCTGGATGCCGACAGCTGCAACGCGATGATCCCCGAGATCCTCAAAAAGGTCGATCATATCGACATTCTCTATTGCAACGCCGGCACCTATATCGGCGGCGATCTTACCGAGACGACGCCGGAAGCCATCGACAAGATGCTGAACCTCAACGTCAACGCCGTCATGAAGAACGTCCATGCCGTCGTGCCGCATATGTCGGAGCGCAAGACCGGCGATATCGTCGTCACCTGCTCGATTGCCGGCCACTTCCCGACCTATTGGGAGCCGGTCTATTCGGGCTCGAAATGGGCGATCACCAGCTTCGTTCAGGGCATGCGCCGCCAGATGATCCCGCACGGCGTGCGTGTCGCGCAGGTGTCTCCCGGCCCGGTCGTTTCCGCACTTCTGGCGGACTGGCCGGAGGAAAACCTCCGCAAAGCCAAGGAATCCGGCAGCCTCATCGATGCGAGCGAAGTGGCCGATGCCGTTGTCTACATGCTGACGCGCAAGCGCACGGTTACCATCCGCGACATGCTGGTCTTGCCGACCAACTTCGACCGCGTTTAA	MSESLQGKIAVITGAASGIGLAATEALLEQGATVVMVDWNEKALNDLVAKLGDRAIPQVTNLLDADSCNAMIPEILKKVDHIDILYCNAGTYIGGDLTETTPEAIDKMLNLNVNAVMKNVHAVVPHMSERKTGDIVVTCSIAGHFPTYWEPVYSGSKWAITSFVQGMRRQMIPHGVRVAQVSPGPVVSALLADWPEENLRKAKESGSLIDASEVADAVVYMLTRKRTVTIRDMLVLPTNFDRV	PGPT0018325_54	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_RIBITOL_METABOLISM|DEGRADATION,PGPT0018325-rbtD-K00039	NA	NA
BMS010_06869	978	rbsC_8	COG1172	Ribose import permease protein RbsC	ATGTCGCTTGATGCAAACACCGGCGTTGCCGCGAAAACGGGCGGTTTTAGTCTCAGCGCCATGCTGCGTTCGCCGCTTGCCCTGCCTCTGGCGGGCCTGATTGTCGTATCGATCCTGATGGGGCTTGCGAGCGACAATTTCTTCAGCCTCAACAACATCATGAATGTGCTGCGGCAGGTTTCTGTCGTCGGCATCCTCGCCGTCGGCATGACCTTCGTCATCCTCACCGGCGGCATCGACCTGTCGGTCGGCGCGGTCATGGCGCTGATCGGAACGTTGTCCGCTGGCCTGATGGTGAATACCGGACTCTCGCCTGCAATTGCCCTGCCGGCCGGCCTGTTCATCGGTCTCGGCATCGGCATCTTCAATGGCGCGCTCGTCGCCTGGGGCAAGATGCCGGCCATAATCGTCACGCTCGCCACCATGGGCATGGCACGTGGCCTCGGCCTCATCTATTCCGGCGGTTATCCGGTCAGCGGCATTCCGAGCTGGATTTCCTGGTTCGGCGTCGGCCGCGTCGGTGTCGTTCCCGTACCGGTCATCATCATGGTGGTGATCTATGCCATCGCCTGGGTGTTGTTGCAGCGCACGGCTTTCGGCCGCCACGTTTATGCACTCGGTGGCAACGAACTTGCCGCCCGCCTTTCGGGTGTGAAGACCCAGCGCGTCAAACTTGCCGTCTATGGCATTTCGGGTGTCACCGCAGCACTTGCCGCCCTCATCCTCACCGGCCGCCTGATGAGTGGCCAGCCCAATGCCGGCGTCGGCTTCGAACTGGACGCCATCGCAGCGGTGGTTCTCGGCGGCACGGCGATTGCCGGCGGCAGGGGCCTCATTCTCGGCACGCTCATCGGTGCGGTGCTGCTCGGCATCCTCAATAACGGCCTCAACCTGATGGGCATCAACCCCTATCTGCAGGATGTCATCAAGGGCGGCATCATCCTGCTGGCCATCTATATCGGGCGCGAATGGCGCTGA	MSLDANTGVAAKTGGFSLSAMLRSPLALPLAGLIVVSILMGLASDNFFSLNNIMNVLRQVSVVGILAVGMTFVILTGGIDLSVGAVMALIGTLSAGLMVNTGLSPAIALPAGLFIGLGIGIFNGALVAWGKMPAIIVTLATMGMARGLGLIYSGGYPVSGIPSWISWFGVGRVGVVPVPVIIMVVIYAIAWVLLQRTAFGRHVYALGGNELAARLSGVKTQRVKLAVYGISGVTAALAALILTGRLMSGQPNAGVGFELDAIAAVVLGGTAIAGGRGLILGTLIGAVLLGILNNGLNLMGINPYLQDVIKGGIILLAIYIGREWR	PGPT0016590_4089	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0016590-rbsC-K10440	NA	NA
BMS010_06870	1503	rbsA_6	COG1129	Ribose import ATP-binding protein RbsA	ATGCTGGAACTGAATGGAATAAGAAAAAGCTTTGGCAAGATCGAAGTCCTGCGCGGCGTCGACCTTGAGGCGCGCGCCGGTGAGGTGCATGCGCTTCTGGGCGAAAACGGTGCCGGCAAGTCGACGCTGATGAAAATCCTGTGCGGCATTTTGCAGCCATCCGAGGGAACGATCTGCATTGACGGCAAGGATCGCCGCTTCGCCAATTACGATGAGGCGATTGCCGCCGGCGTCGGCATCGTGTTTCAGGAATTCAGCCTGATCCCTTATCTCAACGCCGTTGAAAACATGTTTCTTGCCCGCGAGATCCGCGGGCCGCTGCGCCTTTTGAACAAGGGCGCCATGCGCAAGCGCGCGGCCGAGATCATGAGCCGTCTGGCCGTGGATGTTCCGCTCGACGTGCCGGTGCATCGGCTCTCCGTCGCCCAGCAGCAATTTGTCGAAATTGCCAAGGCGCTGTCACTGGATGCCCGCATTCTCGTGCTCGACGAGCCGACGGCGACGCTCACTCCCTCCGAGACGGAACACCTGTTCAAGGTCATGCGCGAGCTGCGGCGTCAAGGCGTGGCGATCATCTTCATTTCGCATCACCTCGAAGAAATATTCGAGATCTGCGACCGCATTACCGTTCTGCGCGATGGCGAATTGATCGGCTCGTGCCTGACCTCGGAAGTCGATAACGATCGGCTGGTGGAGATGATGGTCGGCCGGCGCATCGAAGCCAGTTTCCCGCCGAAGCCAGAGCTCGATCCTTCCGCCGCAAAGGTGATCGAGGTGGAAGAGCTGCAATTGAAGAAGGGCGGCCCGGTATCGCGTTTTGCGCTGCGCAAGGGCGAAATTCTCGGCTTTGCCGGACTTGTCGGCTCGGGCCGCACGGAAACCGTTCTCGCCATGCTCGGCGCGCATTCCGCCTCGCGCCGAAAGATCAAGCTCGATGGTGTGGAGACGCGTTTTTCCGGCCCCGATGATGCGCTGATGCGCGGCATTGGCCTGCTGCCGGAAAGCCGAAAGGAGGAGGGGCTGATTACCAGCTTCTCTATTCTGCAGAATATTTCGCTCAACAATTACCGCAAATACCGCAAGGCCCACTGGTTCCTCGATCTCAAAAAGGAACTGGAGCATACGACAAAGGCCATGGCGCAGGTGCAGGTCAAGGCGCAGGGGCCTTATGCCCGCGTCGACACGCTATCGGGCGGCAACCAGCAGAAGATCGTCATCGCCCGCTGGCTGAACCATGACATGCGCGTGCTGATCTTCGACGAGCCGACACGCGGCATCGATGTCGGCGCTAAGGCGGAAATCTATGCGCTGATGCGGGAATTCGCCGCCAGGGGCCATTCGATCATCATGATCTCCTCGGAGCTGCCGGAAGTGATCGGCATGTCCGACAGGGTCTGCGTTTTCCGATCCGGCGGCATCGTCGCCACGGTCGAGGGAGACGACATCAATTCAGAAACAATAATGACAAACGCCACCACCGGGAGAGTTGAACATGTCGCTTGA	MLELNGIRKSFGKIEVLRGVDLEARAGEVHALLGENGAGKSTLMKILCGILQPSEGTICIDGKDRRFANYDEAIAAGVGIVFQEFSLIPYLNAVENMFLAREIRGPLRLLNKGAMRKRAAEIMSRLAVDVPLDVPVHRLSVAQQQFVEIAKALSLDARILVLDEPTATLTPSETEHLFKVMRELRRQGVAIIFISHHLEEIFEICDRITVLRDGELIGSCLTSEVDNDRLVEMMVGRRIEASFPPKPELDPSAAKVIEVEELQLKKGGPVSRFALRKGEILGFAGLVGSGRTETVLAMLGAHSASRRKIKLDGVETRFSGPDDALMRGIGLLPESRKEEGLITSFSILQNISLNNYRKYRKAHWFLDLKKELEHTTKAMAQVQVKAQGPYARVDTLSGGNQQKIVIARWLNHDMRVLIFDEPTRGIDVGAKAEIYALMREFAARGHSIIMISSELPEVIGMSDRVCVFRSGGIVATVEGDDINSETIMTNATTGRVEHVA	PGPT0016600_3748	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0016600-rbsA-K10441	NA	NA
BMS010_06871	912	rbsB_3	COG1879	Ribose import binding protein RbsB	ATGAAAATGAAGTCCAAGTTTCTGATGGCGACAGCCGCAATTGCAATGATGGCCGCTCCGGCGCTGGCGCAGGAAAAGCTGAAGATCGGCATGACCTTCCAGGAGCTGAACAACCCCTATTTCGTGTCGATGCAGGAAGCGCTGAAGGAAGCCGCCGCAAGCATCGGCGCAGATGTCGTCGTGACCGATGCCGGCCACGATGTGGCAAAGCAGATTTCCGACGTCGAAGACATGCTGCAGCAGAAGATCGATATCCTGCTTCTGAACCCCACCGACAGCGCCGGCATCGAAGCCGCCGTTCACGCTGCCAAGGCTGCTGGCGTAATCGTCGTTGCGGTTGACGCCAACGCAAACGGCCCGGTCGACACCTTCGTCGGCTCGAAGAACCGTGACGCGGGCTACAAGTCGTGCAAGCATCTCGGTGACGCGCTCGGCGGCAAGGGTGAAGTCGCAATCCTCGACGGTATCCCGGTCGTTCCGATCCTGCAGCGCGTCGAAGGATGCAAGGCCGCACTTGCAGAATTCCCCGAGATCAAGCTGGTCGATACGCAGAACGGCCGTCAGGACCGCTCCGTTGCTCTCGGCGTCGTTGAAAACATGATCCAGTCGCGTCCGAACCTCGCCGGTATCTTCTCGGTGAATGACGGCGGTGCGATGGGCGCTCTGGCTGCGATCCAGGGTTCCGGCAAGGACATCAAGCTGACCTCGGTCGACGGTGCTCCGGAAGCTGTGAAGGCGATTGCCGAGGGTGGTCCTTTCATCGAAACCACCGCGCAGTTCCCGCGTGACCAGGTTCGCGTTGGCCTTGCCATGGCGCTCGCCCAGAAGTGGGGCGCTCGCGTCGTGCCGAAGGAAGTTCCGATCGACGTCATGGTCGTCGATAGCAAGAACGCCGGCGAGTTCAGCTGGTAA	MKMKSKFLMATAAIAMMAAPALAQEKLKIGMTFQELNNPYFVSMQEALKEAAASIGADVVVTDAGHDVAKQISDVEDMLQQKIDILLLNPTDSAGIEAAVHAAKAAGVIVVAVDANANGPVDTFVGSKNRDAGYKSCKHLGDALGGKGEVAILDGIPVVPILQRVEGCKAALAEFPEIKLVDTQNGRQDRSVALGVVENMIQSRPNLAGIFSVNDGGAMGALAAIQGSGKDIKLTSVDGAPEAVKAIAEGGPFIETTAQFPRDQVRVGLAMALAQKWGARVVPKEVPIDVMVVDSKNAGEFSW	PGPT0015740_5775	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0015740-rbsB-K10439	NA	NA
BMS010_06872	888	rhaS_14		HTH-type transcriptional activator RhaS	ATGATGCAGCCCGATCTGGAACTGGTGCACATCCGCAAGGGCGAATCCTTCGCCGCCTGGCGGCATGGCTATCCGTTCCGTACCGTGCGCTGGCATTATCATCCCGAATACGAAATCCATCTGGTCGTCGCCACGTCAGGCACGTTTTATATCGGTGATTTCGTCGGCCGTTTCGGCCCCGGTCAGCTCATCATGACCGGTCCCAATCTCCCCCAGAACTGGATCAGCGAGATCGAGCCGGACGAAATCGTGCCGACACGCTCTCTCGTGATCCAGTTTCCGGAGGCTTTTATCGAGGATGCCTGCACCTCCATGTCCGAGATGGAGGTGGTGCGTGCGCTGCTGGACCGCAGCCGCCGCGGCATTCTGTTCGACGATGAGACAAGTGATCGTGTTCGTCCGCTGATCCTTCGGCTGATCGAGGCGCAGGGGCTGACGCGGCTCGCGCTTTTCTGGGAAATTCTCGATCTGCTGGTCAACGCGCCGTCTTCCGAGGTGCTTGCAAGCCTTAGCTACGAGCTGGACCTGACCGGCATCGGCGACAGCGGCATCAACCGCGCACTGTCGCATCTGCGCCAGCACCTGACCGAACAGGTCGAGGAAATCGACCTCGCCGACATGGTGGGCCAGAGCCAGAGCGCCTTTTCCCGCGCCTTCAAGCGTCACACGGGAACGACGCTGGTGCGGTATCGCAATCAGTTACGCATCGATCTTGCCTGCCAGATGCTGCTGGCGGATCAGGAGGTCAAGGTGGCGGAGGTCTGCTACGATGTGGGCTTCTCCAATCTTTCGAATTTCAACCGGCATTTCCTGAAATTGAAGGGAATGTCGCCGTCGAGGTTCCGCACGATATTCGCAGCCCAGAAGGCAGCGGTCATGGCGGATTAA	MMQPDLELVHIRKGESFAAWRHGYPFRTVRWHYHPEYEIHLVVATSGTFYIGDFVGRFGPGQLIMTGPNLPQNWISEIEPDEIVPTRSLVIQFPEAFIEDACTSMSEMEVVRALLDRSRRGILFDDETSDRVRPLILRLIEAQGLTRLALFWEILDLLVNAPSSEVLASLSYELDLTGIGDSGINRALSHLRQHLTEQVEEIDLADMVGQSQSAFSRAFKRHTGTTLVRYRNQLRIDLACQMLLADQEVKVAEVCYDVGFSNLSNFNRHFLKLKGMSPSRFRTIFAAQKAAVMAD				NA	NA	NA	NA	NA
BMS010_06873	1053			D-xylulose reductase	ATGAAGGCACTGGTGCTGGAAGAAAAGGGCAAGCTCTCGCTCAGGGATTTTGACATTCCGGGTGAAGCAGGATCCGGTGAACTCGGGCCCAGGGATGTGCGCATCCGCACCCACACGGTCGGTATCTGCGGCTCGGACGTCCATTATTACACCCATGGCAAGATCGGTCATTTCGTCGTCAACGCGCCGATGGTGCTCGGCCATGAAGCGTCTGGAACGGTGATCGAAACCGGCGACGAGGTGACGCATCTGAAGGTGGGCGACCGCGTCTGCATGGAGCCCGGCATTCCCGATCCCACATCGCGCGCCACCAAGCTCGGCATCTACAATGTCGATCCGGCTGTCCGCTTCTGGGCGACGCCGCCCATCCATGGCTGCCTGACGCCCGAGGTCATTCATCCCGCCGCCTTCACTTATAAGCTGCCCGACAATGTGTCCTTCGCCGAAGGCGCCATGGTCGAACCTTTCGCCATCGGCATGCAGGCGGCGCTCCGGGCACGTATCCAGCCGGGCGATATCGCTGTCGTCACTGGAGCTGGTCCGATCGGCATGATGGTAGCGCTGGCGGCGCTTGCCGGCGGTTGCGCCAAGGTCATCGTTGCCGATCTCGCCCAGCCGAAGCTCGATATCATCGGTGCATATGATGGCATCGAAACCGTCAACATCCGCGAACGCAATCTCGCCGAGGCCGTCTCGGCGGCGACCGACGGCTGGGGCTGCGATATCGTCTTCGAATGCTCGGGCGCAGCACCCGCCGTGCTCGGCATGGCAAAGCTGGCGCGGCCGGGCGGCGCGATCGTGCTGGTCGGCATGCCTGTCGATCCGGTTCCGGTCGATATTGTCGGCCTGCAGGCCAAGGAACTGCGGGTCGAAACGGTTTTCCGTTATGCCAATGTTTACGACCGGGCAGTTGCGCTCATCGCCTCCGGCAAGGTTGATCTGAAGCCGTTGATTTCCGCGACCATTCCCTTTGAAGACAGCATTGCCGGTTTCGACCGTGCGGTTGAAGCACGGGAAACGGATGTGAAACTGCAGATCGTGATGCCGCAGTAA	MKALVLEEKGKLSLRDFDIPGEAGSGELGPRDVRIRTHTVGICGSDVHYYTHGKIGHFVVNAPMVLGHEASGTVIETGDEVTHLKVGDRVCMEPGIPDPTSRATKLGIYNVDPAVRFWATPPIHGCLTPEVIHPAAFTYKLPDNVSFAEGAMVEPFAIGMQAALRARIQPGDIAVVTGAGPIGMMVALAALAGGCAKVIVADLAQPKLDIIGAYDGIETVNIRERNLAEAVSAATDGWGCDIVFECSGAAPAVLGMAKLARPGGAIVLVGMPVDPVPVDIVGLQAKELRVETVFRYANVYDRAVALIASGKVDLKPLISATIPFEDSIAGFDRAVEARETDVKLQIVMPQ	PGPT0017551_201	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017551-xylD|sorD|ydjJ-K05351	NA	NA
BMS010_06874	450			hypothetical protein	ATGGTCGACAAGCCGTCGGAAAAAGCGTCCGGAAGCGCGCCATCGGATCAATCGCCAAAGCTTCTTTCGGGCGGGAATCCCCAGATTGCAAAAGGATATGGCGACGCGCCGGTGCGGGCCTATATCGCCGCCATGCCGGGCTGGAAAAGCGCGGTCGGTGGCCGTATCGACAGGCTGATCGAAGGTGTCGTGCCCGGCGTGCGCAAGGCTGTGAAGTGGAATTCGCCCTTCTATGGCATGGAGGACGATATCTGGTTCCTCAGCCTTCACTGCTTCACGAAATATATCAAGGTGACCTTCCTCAATGGTGCATCCTTGCAGCCTTTGCCGCCCGGCACCTCCAAACATCCGAAAGTCCGTTACCTCGATATCCGCGAGGATGCGTTCGATGAAGCGCAGTTCGTGGAGTGGGTGAGGCAGGCAAGCGTGTTGCCCGGCGAAAAAATGTGA	MVDKPSEKASGSAPSDQSPKLLSGGNPQIAKGYGDAPVRAYIAAMPGWKSAVGGRIDRLIEGVVPGVRKAVKWNSPFYGMEDDIWFLSLHCFTKYIKVTFLNGASLQPLPPGTSKHPKVRYLDIREDAFDEAQFVEWVRQASVLPGEKM				NA	NA	NA	NA	NA
BMS010_06875	594			hypothetical protein	ATGCGCAAACCTCGCAGTGAAATGATTGCCGAGACGCGGGCGAAGCTTCTGGCTGCCGGCCGCAAGGCCTTTGGCAGCATCGGTTATGCGGAAGCGTCGATGGACGACTTCACCGCCGAAGCCGGTCTCACCCGTGGCGCGCTCTATCACCATTTCGGCGACAAGAAAGGCCTGTTGCTGGCGGTTGTGGCCGAGATCGATGCGGAGATGACGAAGAGGCTCTGTGACATCTCCTCGAGGGCCGCGACCCGATGGGAGGGTTTCGTCGAGGAGAATGTCGGTTATGTGCGCATGGCTCTCGAACCGGAAATCCAGCGGATCATGTTTCGTGACGGGCCGGCCGTGCTCGGCGATCCGTCGCGCTGGCCCAATGCCAATGGCTGTATCTCGGCTGTCGCCCGAAGCCTGGATGCGCTCCGGGAAGAAGGCACTATCGGCGACATCGATCCGGAGGCATGCGCCCGCTTCATCAATGCGGCGAGCAGCAGCGCCGCCCAATGGATAGCCAATTCCGACGATCCCGAAACGACCTCGAAACGGGCTGTCGGCAGTTTCCGGACCTTTCTGGAGGGATTGCGTGTCAGGAAAGACTGA	MRKPRSEMIAETRAKLLAAGRKAFGSIGYAEASMDDFTAEAGLTRGALYHHFGDKKGLLLAVVAEIDAEMTKRLCDISSRAATRWEGFVEENVGYVRMALEPEIQRIMFRDGPAVLGDPSRWPNANGCISAVARSLDALREEGTIGDIDPEACARFINAASSSAAQWIANSDDPETTSKRAVGSFRTFLEGLRVRKD				NA	NA	NA	NA	NA
BMS010_06876	1230			hypothetical protein	ATGTCTAATCCATACAGAGAAATTTTCCGGGCTCCAGGCGCAAAAGGCTTTTCCGCCGCCGGTTTCTTCGCCCGCCTTCCCATTGCCATGGCCCCGATCGGCATCGTCGCCATGCTTTCCCAGACTCATGGCGAATATTGGCTGGCCGGCGCCGTCTCGGCAACCTTCGCATTGACCAATGCCGCCCTCTCCCCGCAAATCTCCCGGCTGGTGGACCGCAAGGGGCAGAGCAAGGTCCTCATCCCCGCCACCATCGTCTCGGTCATCGCCTTTGCGGCGCTGATTATCGCGACAAATCAGAGATGGCCCGCCTGGACACTGTTCCTTTCCGCCTTCCTCGCCGCCGCCATGCCGAGCATTCCCGCCATGATGCGCGCCCGCTGGACGGAAATCTTCCGCGACCGGCCGGAGCTGAACACCGCCTTCGCCTTCGAATCCGCCGCCGACGAACTTGTCTACATCTCCGGCGCCTCGCTTTCCGTTGGTCTTGCGGTTTCGCTCTTTCCGGAAGCGGGCATGATGATCAGCACCACCTTCCTGGCGCTCGGCACCTTTGCCTTCCTTCTGCAACGCGCGACCGAACCCAAGGTGCGGCCGGTTGAAAGCGGCCGCCGGCAGCGTTCGGCCATCTTCCTGCGCCCGGTTCAGATCATCACGCTCGCGCTGATCTTCGTCGGCTCCACTTTCGCCACGGCCGAGGTAAGCGCCGTCGCAATCACCAAGGCGCTTGGTCAACCGGAAGCCGCCAGCCTCGTCATCGGCGTCTATGCCATCGGCTCCTTCGTGGTCGGCCTCATTCTCGGCGCGCTCAACCCCAAAATGCCGCTGCAACGGCAATTGCTGATCGCCGTCAGCGTGCTTGCACTCACCGCCCTGCCGCTGCTTGTCGCCAACACCTCGGTAGCACTTCTCGCTTTCGCCGTTTTCCTCAGCGGCGTTGCAATCTCGCCGATTTTCATCACCTCATTCGGCCTGATCGAGCGCCGCGTGCCGGAATCGATGCTGACGGAAGGCGTGACCTGGGTGATGACCGGCATCGGTATCGGCATGGCGCTCGGCGCCTTCGTCTCCGGCTGGGTGATCGACAATTTCGGCCCGGATAACGGTTTCTGGGTCTCCGTCGCCGCAAGCCTTTCGACAGTCGCTATCATCGCGCTCGGCCAGCGCAGCCTCTCCGGAGATCGCGGACGGTCCGGCCCGGCAGCCGCAATGCAGCAGCCCGCGGAGTAA	MSNPYREIFRAPGAKGFSAAGFFARLPIAMAPIGIVAMLSQTHGEYWLAGAVSATFALTNAALSPQISRLVDRKGQSKVLIPATIVSVIAFAALIIATNQRWPAWTLFLSAFLAAAMPSIPAMMRARWTEIFRDRPELNTAFAFESAADELVYISGASLSVGLAVSLFPEAGMMISTTFLALGTFAFLLQRATEPKVRPVESGRRQRSAIFLRPVQIITLALIFVGSTFATAEVSAVAITKALGQPEAASLVIGVYAIGSFVVGLILGALNPKMPLQRQLLIAVSVLALTALPLLVANTSVALLAFAVFLSGVAISPIFITSFGLIERRVPESMLTEGVTWVMTGIGIGMALGAFVSGWVIDNFGPDNGFWVSVAASLSTVAIIALGQRSLSGDRGRSGPAAAMQQPAE				NA	NA	NA	NA	NA
BMS010_06877	885	purU_3	COG0788	Formyltetrahydrofolate deformylase	TTGACCACCTATATCATGAAAGTCGCGTGTCCGGCGCGCAGCGGCATCGTCGCCGCCGTCTCCGGTTATCTTGCCCGGTCCGGCTGCAACATCAACGACAGTTCGCAGTTCACCGACCAGGAGACGGGCCGCTTCTTCATGCGGCTGAGCTTCGTTTCCGAACAGGGATCGGGACGCGATGCACTGCTTGACGGGTTTGGTTCCGTCGCGGCCGATTTCGATATGGATTATGATATTCATGACCTTTCGCGAAAGACGAAAGTCGTGATCATGGTCTCGCGATTCGGTCATTGCCTGAACGATCTGCTGTATCGCTCCCGCATCGGTGCGCTGCCGGTCGAGATCGTCGCCGTAATTTCCAATCATCTTGATTATCAGAAGCAGGTGGTGAATGAGGATATTCCCTTTCACCACATTCATGTCACGCCGGAAACGAAGCCCGAGGCGGAAGCTGCGATCCTGCAGGTGGTGCAGGATACCGGAGCGGAGCTCGTGGTGCTGGCGCGCTACATGCAGGTCCTGTCGGACCGGCTATGTCAGGAAATGTCAGGCCGTATCATCAACATCCACCACTCCTTCCTGCCGTCTTTCAAGGGCGCCAATCCCTACAAACAGGCCTATGAGCGCGGCGTGCGGCTGATCGGCGCGACCGCCCACTACGTCACCGCCGATCTCGATGAAGGACCGATCATCGAGCAGGATACCATCCGCGTCACCCATGCCCAGAGCGCGATGGATTATGTCAGCCTCGGCCGGGATGTGGAAAGCCAGGTGCTCGCACGGGCCATCCACGCCCATATTCACCACCGGGTCTTCCTGAACGGAAACAGGACGGTCGTTTTTCCCGCGTCTCCCGGAGAACATGTGTCCGAACGTATGGGCTGA	MTTYIMKVACPARSGIVAAVSGYLARSGCNINDSSQFTDQETGRFFMRLSFVSEQGSGRDALLDGFGSVAADFDMDYDIHDLSRKTKVVIMVSRFGHCLNDLLYRSRIGALPVEIVAVISNHLDYQKQVVNEDIPFHHIHVTPETKPEAEAAILQVVQDTGAELVVLARYMQVLSDRLCQEMSGRIINIHHSFLPSFKGANPYKQAYERGVRLIGATAHYVTADLDEGPIIEQDTIRVTHAQSAMDYVSLGRDVESQVLARAIHAHIHHRVFLNGNRTVVFPASPGEHVSERMG	PGPT0008155_1053	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008155-purU-K01433	NA	NA
BMS010_06878	1269	glyA2_2		Serine hydroxymethyltransferase 2	ATGCTCAACCGACTGTCGCATAATACCGTTTCGGACACGGTGATCGCCGACGCCATCGCCGAGGAACTCGACCGCCAGAAGACGCAGATCGAGCTGATCGCTTCGGAAAACATCGTTTCCGCCGATGTTCTGGCGGCACAAGGCTCGGTGCTGACCAACAAATATGCCGAGGGCTATCCCGGCAAGCGTTATTACGGCGGCTGCGAATTCGTCGATAAGGTCGAGGCGGTCGCCATCGACCGGCTGAAGCAGCTCTTCGGCGCGGAATTCGCCAATGTGCAGCCGCATTCCGGCGCGCAGGCCAATCAGGCGGTGTTTCTGGCTCTGCTTCAGCCTGGCGACCGGATCATGGGGCTTTCGCTTGCCCATGGCGGCCACCTGACGCATGGTTCGCCGGTCACCATGTCCGGCAAGTGGTTCGATGTCGTCTCCTATGAGGTCGACGCCGAAACCCATCTGATCGATATGGAGAAGGTGCGGGCACGGGCGCTGGAGACGAAACCAAAGCTTCTCGTGGCGGGCGCATCGGCCTATCCGCGCCAGATCGATTTCGCCGGCTTCCGCAGAATAGCCGACGAAGTCGGCGCTTATCTGATGGTCGATATGGCCCATTATGCCGGGCTGATCGCCGGCGGCAAATATCCGAACCCCGTGCCGCACGCCCATGTGGTCACCTCCACCACCCACAAGACCCTGCGCGGTCCGCGCGGCGGCGTTATCCTCACCAACGATGCCGATCTCGCCAAAAAGCTCAATTCGGCGGTATTCCCCGGCAATCAGGGCGGTCCGCTGATGCATGTCATCGCCGCCAAGGCCGTGGCTTTCGGCGAGGCGCTGCGCCCGGACTTTGCGGATTACGCCGGCCAGGTCATCGCCAATGCGCAGGCGCTTGCCGCCGTGCTGACAAAGGGTGGTCTGGGGATCGTCTCTGGCGGAACCGACAGCCATATGGTGCTGGTCGATCTGCGCCCGAAAGGCGTGACCGGCAAGATCGCCGAAATCGCGCTGGAGCGGGCGGGGCTTACCTGCAACAAGAACGCCATTCCCAACGATCCGGAAAAGCCCTTCGTCACCTCGGGTATCCGGCTCGGCAGCTCCGCCGGCACCACGCGCGGTTTTGGCGTCGCCGAATTCGAACAGATCGGTGCGCTGATCCTGCGTGTCATCGATGCGCTGGCGGCGAATGCCGAGGGTGACGCCGCAGTCGAGGCCGACGTGCGGGAGCAGGTCGCAGCGCTTTGCGACGCCTTCCCGATCTACGGTTCGTAA	MLNRLSHNTVSDTVIADAIAEELDRQKTQIELIASENIVSADVLAAQGSVLTNKYAEGYPGKRYYGGCEFVDKVEAVAIDRLKQLFGAEFANVQPHSGAQANQAVFLALLQPGDRIMGLSLAHGGHLTHGSPVTMSGKWFDVVSYEVDAETHLIDMEKVRARALETKPKLLVAGASAYPRQIDFAGFRRIADEVGAYLMVDMAHYAGLIAGGKYPNPVPHAHVVTSTTHKTLRGPRGGVILTNDADLAKKLNSAVFPGNQGGPLMHVIAAKAVAFGEALRPDFADYAGQVIANAQALAAVLTKGGLGIVSGGTDSHMVLVDLRPKGVTGKIAEIALERAGLTCNKNAIPNDPEKPFVTSGIRLGSSAGTTRGFGVAEFEQIGALILRVIDALAANAEGDAAVEADVREQVAALCDAFPIYGS	PGPT0008090_4218	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008090-glyA-K00600	NA	NA
BMS010_06879	555	soxG_1		Sarcosine oxidase subunit gamma	ATGAACATGCGCGTTTCCTCCCCCGTTCCCGGCACGCTGGCCGAGAGCAAAGCAGCCCGGGTCAGCATTCTGGCCGCGCAGGCGCGGCTGTCGCTGCGGGCGCGCGGCGATCTCGCCCCGCTCAACGTCGCCCTTGGCCTTACCCTGCCGGATCGGATCGGCCTCCGCGCCGCTTCAGGCGACATCGAAGTCCTGCGCCTTGGCCCCGACGAATGGACCGTGCTTGCACCTGTCAGCGCGGTCGACGGGCTGATCGCCGCCTGCGCAGGCGTTTACGCCGGCCATCCGCATAGTCTCGTCGATATTTCCGGACGAGAAGTGACGCTCCTGATCGAAGGTCCGCAGGCTGCCGAATTGCTGACGCTGGGCTGCGCCCGCGACATCGACACGATTGCCGTCGGCGAGGGACGCCGGACGATTTTCGATGGCGTCAGCGTGGTGCTCTGGCGCGATGCGGAAAACCGTTTCCGCATGGATGTCTGGAACAGTTTCGTATCGCATCTTGGCCATCTGCTTGAAACCGGCTGCAAGGAACTTGCGGCGGACATCGCCTGA	MNMRVSSPVPGTLAESKAARVSILAAQARLSLRARGDLAPLNVALGLTLPDRIGLRAASGDIEVLRLGPDEWTVLAPVSAVDGLIAACAGVYAGHPHSLVDISGREVTLLIEGPQAAELLTLGCARDIDTIAVGEGRRTIFDGVSVVLWRDAENRFRMDVWNSFVSHLGHLLETGCKELAADIA	PGPT0013525_592	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013525-soxG-K00305	NA	NA
BMS010_06880	2991	soxA_5		Sarcosine oxidase subunit alpha	ATGAACTCCTATCGCGTTTCCGGCCGTGGCCGCGTGGATGCCGCCCGCTCCGTGAGCTTCACCTTCGACGGCAAGACCTATCGCGGTGTGAAGGGCGATACGGTCGCCTCCGCACTTCTCGCCAATGGCGTGCATCTGATGGGCCGCTCGTTCAAATACCACCGCCCGCGCGGCCCGGTGGCGGCGGGTTCCGAGGAGCCGAATGCGCTGATCGGCACCCGCCGCGGCGCCGGACGTTTCGAGCCGAACACCCGCGCCACGGTGCAGGAAATCTGGAACGGGCTGGAAACCACCTCGCAGAACAAATATCCGAGCCTGAAATTCGATATCGGTGCGGTCAACGACATGGCCTATATGCTGTTTTCGGCGGGCTTCTATTACAAGACCTTCATGTGGCCGAAGAGCTTCTGGAACAAGGTCTACGAGCCCTTCATCCGCGCGGCTGCGGGTCTCGGCGTTTCGCCGACGGAGGAGGACCCCGACACCTATGCCTCGCGCAACCTGCATTGCGATGTGCTGATCGTCGGCGCCGGTCCCGCGGGTCTCGCGGCAGCGCGTGCGGCGGCGGTCGATGGTCTGAAGGTCGTGCTGGTCGATGAAAATGCCGAAGCCGGCGGTACGCTTCTGTCCGAGCCGCAGGCGAAGATCGACGGCAAGCCCGCATGGAACTGGCTGGCGGATGAGTTGAAGGCGCTGAAAGAGCGCGGCGTCAGGGTGATGACCCGCACGACGGCGATTGCCTATTACCACCAGAACATGATCGGCCTTTGCGAAAAGCTGACCGACCATCTGGAAACCGTGCCGAAAGATACGCCGCGCGAGCGCCTGTGGCGCGTTCGGGCGCGCCAGGTGGTGCTGGCGCAGGGCGCGCTGGAAAAGCCGCTGGTCTTCCACGGCAACGACCGTCCGGGCGTGATGCTGGCGGGGGCTGCCCAGACCTATCTCAACCGTTACGGCGTCAAGGTCGGCAACCGGCCGGTGGTGGTGACGAGCCATGACAGCGCCTGGTATGCGGCCTTCGATCTTCATGGCGCGGGCGCGCGTGTTCAGGCCATTGTCGATACCCGCGCCAAGGTGCGCGAGGAACTGGTGAACGAAGCGCGCGCGCTCGGCATTCCGGTCAAGCTGTCGCATACGGTCACGGCGACCTCGGGCCGGCTGCGGGTCAAGTCCGTCCGGGTCAATGCGGTTAATGGCGCGTCGGTCGGTGCGGGACAGGAGATTGCCTGTGATGCGGTGCTGATGTCGGGCGGCTGGACGCCGTCGCTGCATCTCTTTTCCCATACGCAGGGCAAGATCGCCTGGGACGATGAACGGACTACGTTCCTTCCTGCCCTCACTAACGAGGATTGCGTCATTGCCGGGGCCGGGCGAGGGCTGTGGGGCATCGAGGCCGCGTTGAAGGACGGTGCGGAACGGGGTCGCGACGTCGCCGCCGCACTCGGCAAGGCCGCCAATAGTTCCAGCCATGCGGTGGAACATGACCGTACCGGCAGCGGCGTCTCGCACACGGAACTGCCGAGCGACCGCGATGCCGGCAAGGCCAAGGCCTTCGTGGATTACCAGAATGACGTGACCGCCAAGGATCTGCGGCTTGCCGTGCGTGAGGGCATGCGTTCCATTGAGCATGTCAAGCGCTATACCACCAACGGCATGGCGACCGATCAGGGCAAGATGTCCAACATCAACGGCCTCAACATCGCGGCAGAAGCGCTGGGCAAGCGCCAGCCGCAGGTGGGGCTGACCACCTTCCGTCCGCCCTATACGCCAACGTCCTTCGGCGCTTTTGCGGGTTATCACCGCGGCGCGCATTTCGAAGTGACGCGCAAGACGCAGATCGACGGTTGGGCCGACGAGCACGGCGCGGTTTACGAGCCGGTCGGGCAATGGCGTCGCGCCTGGTATTTCCCGAAGCCGGGCGAAGACATGGATGCGGCGGTCAGCCGTGAATGCCGGGCGGTGCGCCAGAGCGTTGGCATTTTCGATGCCTCGACGCTCGGCAAGATCGAGGTTGTCGGTCCCGATGCGGTCGAGTTCATGAACCGCATGTATACCAATCCCTGGACGAAGCTTGCCGCCGGCCGTTGCCGTTATGGCCTGCTGCTCGGCGATGACGGCTTCATCCGCGATGACGGCGTCATCGGCCGCATGACCGAGGACCGTTTCCATGTCACCACCACCACCGGCGGTGCCGCCCGCGTGCTGAACATGATGGAGGATTACCTCCAGACCGAATGGCCCGATCTCAATGTCTGGCTGACCTCGACCACCGAACAGTGGTCGACCATTGCGCTGAATGGCCCGAACGCGGCAAAGCTGCTCGCGCCGCTGGTGCAAGGCGTCGAACTGATGGAAGAGGCCTTCCCGCATATGTCCTGCGTGGAATGCACCGTTGCCGGCATGCCGACGCGGTTGTTCCGCGTCAGCTTCACCGGCGAGATCGGCTTCGAGGTCAATGTGCCGGCGCCGCTCGGCCGCAAGCTCTGGGAAATCCTGTGGGAGGCCGGCCAGCAATATGGCATCACGCCTTACGGCACGGAAACCATGCATGTGCTGCGCGCCGAAAAGGGTTACATCATCGTCGGCCAGGACACCGATGGCACGGTTACGCCCTATGATGCGGCGATGGGCTGGGCCGTGGGCAAGAACAAGCCGGATTTCGTCGGCAAGCGCGGCCTTGCCCGCCCCGATCTCGTCGCCAAGGGCCGCCGCCACCTCGTCGGTCTTCTGACCGAAGACCGCTCCAAGCTGGAAGAGGGCGCACAGATCGTCTTCGATGCGAAACAGCCTATCCCGATGAAAATGGTCGGCCACGTTACATCATCCTACCATTCGGATGCGGTTGGCCAGCCGATCGCGTTGGCGCTGGTGGAGGGCGGTCATGAGCGTATGGGCGAGACCGTCTACATCCCCATGCTGGATCGCACCATTGCCGCGAAAATCACCGGAATGGTCTTCGTGGATCCCGAAAATATCCGCCTGAAGATTTGA	MNSYRVSGRGRVDAARSVSFTFDGKTYRGVKGDTVASALLANGVHLMGRSFKYHRPRGPVAAGSEEPNALIGTRRGAGRFEPNTRATVQEIWNGLETTSQNKYPSLKFDIGAVNDMAYMLFSAGFYYKTFMWPKSFWNKVYEPFIRAAAGLGVSPTEEDPDTYASRNLHCDVLIVGAGPAGLAAARAAAVDGLKVVLVDENAEAGGTLLSEPQAKIDGKPAWNWLADELKALKERGVRVMTRTTAIAYYHQNMIGLCEKLTDHLETVPKDTPRERLWRVRARQVVLAQGALEKPLVFHGNDRPGVMLAGAAQTYLNRYGVKVGNRPVVVTSHDSAWYAAFDLHGAGARVQAIVDTRAKVREELVNEARALGIPVKLSHTVTATSGRLRVKSVRVNAVNGASVGAGQEIACDAVLMSGGWTPSLHLFSHTQGKIAWDDERTTFLPALTNEDCVIAGAGRGLWGIEAALKDGAERGRDVAAALGKAANSSSHAVEHDRTGSGVSHTELPSDRDAGKAKAFVDYQNDVTAKDLRLAVREGMRSIEHVKRYTTNGMATDQGKMSNINGLNIAAEALGKRQPQVGLTTFRPPYTPTSFGAFAGYHRGAHFEVTRKTQIDGWADEHGAVYEPVGQWRRAWYFPKPGEDMDAAVSRECRAVRQSVGIFDASTLGKIEVVGPDAVEFMNRMYTNPWTKLAAGRCRYGLLLGDDGFIRDDGVIGRMTEDRFHVTTTTGGAARVLNMMEDYLQTEWPDLNVWLTSTTEQWSTIALNGPNAAKLLAPLVQGVELMEEAFPHMSCVECTVAGMPTRLFRVSFTGEIGFEVNVPAPLGRKLWEILWEAGQQYGITPYGTETMHVLRAEKGYIIVGQDTDGTVTPYDAAMGWAVGKNKPDFVGKRGLARPDLVAKGRRHLVGLLTEDRSKLEEGAQIVFDAKQPIPMKMVGHVTSSYHSDAVGQPIALALVEGGHERMGETVYIPMLDRTIAAKITGMVFVDPENIRLKI	PGPT0013515_503	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0013515-soxA-K00302	NA	NA
BMS010_06881	321	soxD_3		Sarcosine oxidase subunit delta	ATGCTGCTGATCCGCTGCCCCTATTGCAACGAAACGCTGCCCGAAGCCGAATTCACCTATGCCGGGCAGGCCCATATTACCCGCGCCGCCGATCCCTCGTCGCAGACCGATGAGCAATGGGAAGAATTCCTGTTCATCCGCGAAAACGTCAAGGGCCCGCATTTCGAGCGCTGGCGGCACCTGCATGGCTGCGGCCGCTTCTTCAACGCCGTGCGTGATACGGTGAGCGACCGTTTCCTCACGACCTATCGGGCCGGCGAGCCGCGTCCTGAACTTTCTTCCCTGACCCGTGCACCAGCCAGTTCCGAGGTGTCGAAATGA	MLLIRCPYCNETLPEAEFTYAGQAHITRAADPSSQTDEQWEEFLFIRENVKGPHFERWRHLHGCGRFFNAVRDTVSDRFLTTYRAGEPRPELSSLTRAPASSEVSK	PGPT0013520_279	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013520-soxD-K00304	NA	NA
BMS010_06882	1254	soxB_3		Sarcosine oxidase subunit beta	ATGACGCGTTTTAATGCTTTCAATCTTTTGCGGAATGCCGTGACCGGCCACAAGAACTGGGACGAGCAATGGCCCGACAGTCAGCCGAAAGCCGAATATGACGTGGTCATCGTCGGCGCCGGCGGCCATGGTCTTGGCGCTGCCTATTATCTGGCCAGCCAGCACGGCATCACCAATGTCGCTGTCATCGACAAGGGCTGGCTCGGCGGCGGCAATACCGGCCGCAACACCACGATCATCCGCTCGAACTATCTCTATGACGAGAGCGCCCGTCTTTACGATCACGCCGTCGATCTGTGGGAGAACTTGAGCCAGGAATTGAACTACAACGTCATGTATTCAAGGCGCGGTGTGCTGATGCTGGCGCATAATGTGCACGATGTGCAGAGCTTCAAGCGCCACATCCATTCCAACCGTTTGAATGGCGTCGATAATCGCTGGCTCACCCCGGAAGAATGCAAGGAATACTGCCCGCCGCTCAGCATTGCGCCGAATGCCCGCTATCCGGTCATGGGCGGCGCGCTTCAGGAACGGGCCGGCACGGCGCGCCACGATGCGGTCGCCTGGGGTTATGCGCGCGGCGCTGCCGCCCGCGGCGTCGATATCATCCAGAACTGCCCGGTCACGGCCATTCGCCGCAACGCTGACGGCTCCGTCGCGGGCGTCGAGACGGCGAGGGGTTTCATCAAGGCAAAGAAGGTCGCGGTTTCCGCCGCCGGTCACACTTCGGTCGTCATGGACACGGCCGGTGTGCGTCTGCCGCTCGAAAGCTATCCGTTGCAGGCGCTGGTGTCGGAGCCGATCAAGCCGATCTTCCCCTGCGTGGTCATGTCGAACGCGGTTCACGCCTATATCAGCCAGTCGGACAAGGGCGAACTGGTGATCGGTTCGGGCACGGACCAATATACCTCCTATTCGCAGCGCGGCGGCCTGCCGCTGATCGAACATACGATCGCAGCCATCGTCGAAATCTTCCCGATATTCAACCGCATGCGGATGCTGCGTAAATGGGGCGGCATCGTCGATGTGACGCCGGATCGCTCGGCCATTCTCGGCAAGACGCCGGTTGCCGGCCTTTACGTCAATTGCGGCTGGGGTACCGGCGGTTTCAAGGCCACGCCCGGCGCTGCCCATACCTTCGCCTGGACCATCGCCAAAAACGAACCGCACCCGATCAACGCGCCTTTCACGCTGGAACGCTTCCGTTCCGGCCGCCTGATCGACGAGGCCGCCGCCGCAGCCGTGGCGCACTGA	MTRFNAFNLLRNAVTGHKNWDEQWPDSQPKAEYDVVIVGAGGHGLGAAYYLASQHGITNVAVIDKGWLGGGNTGRNTTIIRSNYLYDESARLYDHAVDLWENLSQELNYNVMYSRRGVLMLAHNVHDVQSFKRHIHSNRLNGVDNRWLTPEECKEYCPPLSIAPNARYPVMGGALQERAGTARHDAVAWGYARGAAARGVDIIQNCPVTAIRRNADGSVAGVETARGFIKAKKVAVSAAGHTSVVMDTAGVRLPLESYPLQALVSEPIKPIFPCVVMSNAVHAYISQSDKGELVIGSGTDQYTSYSQRGGLPLIEHTIAAIVEIFPIFNRMRMLRKWGGIVDVTPDRSAILGKTPVAGLYVNCGWGTGGFKATPGAAHTFAWTIAKNEPHPINAPFTLERFRSGRLIDEAAAAAVAH	PGPT0013510_315	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013510-soxB_-K00303	NA	NA
BMS010_06883	1047	cdhR_6	COG4977	HTH-type transcriptional regulator CdhR	ATGAATATTTGCGTCATGACCTCACCCCGCGCCAGAAAACGCCTCAGCGTCGCCTTCCTGCTTGCCGACCGCTTCACGCTGTCGGCCTTCGCGAATTTCGTCGATGTGCTGCGCCTTGCGGCCGATGAGGCGGACCGTTCGCGGCCTATCCTGTGCGAATGGTCGGTGCTCTCGGCAACCATGAGCAGCGTGCAGTCGAGTTGCGGCGTGAAGGTGCAGCCGGATACACGGCTGATGGACGCCGCGCACTACGACTATATCGTCGTCGTCGGCGGTTTGATCAGCGATCACAGCGCCCTGCCGCAGGAGGCGCTGCGCTTCCTGAAGGAACGGGCGGCGGCGGGCGTTCCCATCGTCGGGCTATGCACCGGCGTTTTCATCCTGCACGAGGCCGGCCTGCTCGATGGTTATCGCTGCTGCGTAAGCTGGTTCCACCGTCAGGATTTTCTCGACCGTTTCGATACCGTCCAGATGATCTCCGACCAGATCTTCGTCATCGACCGCGACCGGCTGACCTGTTCCGGTGGCCACGGCGCAGCGCATCTGGCAGCCTTCCTCGTCGAGCGTCATGTCGGCCAGTCCGCCGCCATCAAAAGCCTCAACATCATGATGATCGACAGCGCGCTGAGCGGCGAAAAGCCTCAACCCGGCCAGCAGAGCACGCGCAAGGCCAACGATCCCCTCGTCAAAAAAGCGATCCTGCGCATGCAGCAGAATATCGAGGTTCCGAGAACCGTGCTGGAACTGGCGAATGATCTCGGCCTTGGCCGCCGCAGCCTCGAACGGCGTTTCCTCGCCGACCTGGGCGCAACGCCTTCGAAGGTCTATCTCGAGCTTCGGCTGGATCGCGCTTTGTCGCTGCTGCGCACGACGCGTGACAGCATCACCCAGATTTCGCTCGCCACCGGTTTTTGCGATGCGCCGCACCTTTCGCGCACGCTACGAGCCGAGCGCGGTTTCACCCCCAGCGAATATCGCAAGACTCAGGCCGGCCACGTCGCAACCGAAGAGGAATTCGCCGTCGGCGTGCTGCTTCCACAATCCTGA	MNICVMTSPRARKRLSVAFLLADRFTLSAFANFVDVLRLAADEADRSRPILCEWSVLSATMSSVQSSCGVKVQPDTRLMDAAHYDYIVVVGGLISDHSALPQEALRFLKERAAAGVPIVGLCTGVFILHEAGLLDGYRCCVSWFHRQDFLDRFDTVQMISDQIFVIDRDRLTCSGGHGAAHLAAFLVERHVGQSAAIKSLNIMMIDSALSGEKPQPGQQSTRKANDPLVKKAILRMQQNIEVPRTVLELANDLGLGRRSLERRFLADLGATPSKVYLELRLDRALSLLRTTRDSITQISLATGFCDAPHLSRTLRAERGFTPSEYRKTQAGHVATEEEFAVGVLLPQS				NA	NA	NA	NA	NA
BMS010_06884	333			hypothetical protein	ATGGCACAGCAACAGTCACAACAGGGACAGCAGCATCCGATAAGACTTTACATGGTGGTCTGGGGATTGCTTTTCGTCCTTAGCGCCTTCTCCTATATGGTCGATTATCTTGGCATTCAGAGCTATCCGAGATGGTCTCTCATCATCCTGTTCATGATCCTGAAGGCGGGGCTGATCATGGCGATTTTCATGCATATGGCCTGGGAACGGCTGGTCCTGATCTACGCCATCCTGCTTCCGCCGGTTCTTGTGCTCATCTTCGCAGCCCTGATGGCCTCGGAATCCAGCTATACGGCTCTTACCCGGGTGACCTTCATGGGTGCGGGTTCCTAG	MAQQQSQQGQQHPIRLYMVVWGLLFVLSAFSYMVDYLGIQSYPRWSLIILFMILKAGLIMAIFMHMAWERLVLIYAILLPPVLVLIFAALMASESSYTALTRVTFMGAGS	PGPT0004040_555	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004040-coxD|ctaF-K02277	NA	NA
BMS010_06885	726	cyoC_2	COG1845	Cytochrome bo(3) ubiquinol oxidase subunit 3	ATGGCCGCATCCATGGAGGAAAGACCGGTAAGTGATCCGCATCTGCGGCCGGCGGGACTGCGCGGCGTCGCCGCCGATCTGTCATCGGACCAGCGGGCGTTCAAGAACGTCTCCTGGGGCAAGGCGATGATGTGGATATTCATCCTGAGCGATATCTTCATTTTCGGCTGTTTCCTGCTGGCCTATATGGCGGCGCGCATGTCGGCCACCGCGGCCTGGCCCAATCCGAGCGAGGTTTTCGCGCTCACGATTGCCGGCCGGCACATTCCGCTGATCCTGATTGCCATCATGACATTTGTTCTCATCAGCAGCAGCGGCACGATGGCCATGGCCGTCAACTTCGCATATCGCCGCGACCGTCGCAAAACCGCCGCGCTGATGGTGGCGACGGCAGCGCTTGGCGCGACATTCGTGGGAATGCAGGCATTCGAATGGAGCAAGCTTATCGCGGAGGGCGTTCGCCCCTGGGAAAACCCGTGGGGTGCGGCGCAGTTTGGTTCGGCTTTCTTCATGATCACTGGCTTTCACGGCACCCATGTTTCCATCGGCGTCCTGTTTCTTCTCATCGTCGCGCGCAAGGTGTGGCGGGGAGATTTCGATGAGGAAAGGCGAGGGTTCTTCACCAGCCGCAAGGGGCAATATGAGATCGTCGAGATAACCGGGCTTTACTGGCACTTCGTGGATCTGGTGTGGGTCTTTATCTTCGCATTCTTCTATCTGTGGTGA	MAASMEERPVSDPHLRPAGLRGVAADLSSDQRAFKNVSWGKAMMWIFILSDIFIFGCFLLAYMAARMSATAAWPNPSEVFALTIAGRHIPLILIAIMTFVLISSSGTMAMAVNFAYRRDRRKTAALMVATAALGATFVGMQAFEWSKLIAEGVRPWENPWGAAQFGSAFFMITGFHGTHVSIGVLFLLIVARKVWRGDFDEERRGFFTSRKGQYEIVEITGLYWHFVDLVWVFIFAFFYLW	PGPT0004035_1615	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004035-coxC|ctaE-K02276	NA	NA
BMS010_06886	705			hypothetical protein	ATGAGCGCCATCCTCGTCTTCATGGCCGGGATCGCCGGCATCATCGGCTGGTGGATGGCGCGGCAGCGGCTGGCCTCGAAGCCCTGGCTGGAAGTCGGTTTGGCAGGCGATGCGCAGCAGATGCAGGGATCGTCGGCGACGATTGCGAAAGTCGGACTTGGGATATTTCTGGCGGTTGTCGGTGCGTTGTTCACCTTGCTCATCAGCGCCTATCTCGGCCGCATGGGCGGCGCCGACTGGTGGGGTATCCCGATCCCCAGACTGTTATGGGTGAATACTGCGACGCTTGCCGCCAGCAGTCTGGCGCTGCAATGGGCGAAAACCGAAATCCGTCCAGATCATCGCGACAGGCTGAACGCGGCTCTTGTGACAGCCTTTGCAACGGCTGTTTTCTTTGTCGCCGGTCAATTCCTGGCGTGGCGGCAACTCATCTCCGCAGGCTATGTTCTAGCGGATAACCCATCGAACAGCTTCTTCTACATGATCACGGGCCTGCACGGCCTGCATATATTGGGCGGGCTCTTCGTGCTTGGACGCACCGCAATCCGTGCCCGGAGCGAGCCCTTGTCGGCAAGGATGCGCCTGAGTGTGGAGCTGTGCGCCATCTACTGGCATTTCATGCTGATCGTCTGGCTGGTCCTTTTTGCGCTTTTCGCCGGTTGGGCGAACAGTTTCGTCGATCTCTGCCGTCAATTGGTCACCTGA	MSAILVFMAGIAGIIGWWMARQRLASKPWLEVGLAGDAQQMQGSSATIAKVGLGIFLAVVGALFTLLISAYLGRMGGADWWGIPIPRLLWVNTATLAASSLALQWAKTEIRPDHRDRLNAALVTAFATAVFFVAGQFLAWRQLISAGYVLADNPSNSFFYMITGLHGLHILGGLFVLGRTAIRARSEPLSARMRLSVELCAIYWHFMLIVWLVLFALFAGWANSFVDLCRQLVT	PGPT0004035_1810	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004035-coxC|ctaE-K02276	NA	NA
BMS010_06887	1779	coxN	COG0843	Alternative cytochrome c oxidase subunit 1	ATGGTCGAGATTGGATCCGGCGCCGGGCAGGTCATTCAGCCCGCTGAAGTCGAGGACGTCGAGCTTTATCACCCGAAAAGCTGGTGGACGAAATATGTCTTCAGCCAGGATGCCAAGATCATTGCCATTCAATATTTCCTGACAGCCATCGCAATAGGCATGGTGGCGCTGGTGCTTTCCTGGCTGATGCGGCTGCAGCTCGCTTTTCCCGGCTATTTCTCCTTCATCGATGCGGAACATTATTATCAGTTCATCACCATGCATGGCATGATCATGGTGATCTACCTGCTGACGGCATTGTTTCTCGGCGGTTTCGGCAACTACCTGATCCCGCTGATGCTCGGCGCGCGCGACATGGTGTTTCCCTATGCCAATATGCTGAGCTACTGGCTCTACCTCTCCGCCGTCCTTGTGCTGGTGGCTGGTTTCTTCGCACCCGGCGGGCCGACGGGCGCAGGCTGGACGCTCTATCCGCCGCAGGCGCTTCTTTCGGGAACGCCGGGCGGGCGCGACTGGGGCATCATCCTGATGCTGTCATCGCTGATCCTGTTCATCATCGGCTTTACTCTGGGCGGGCTGAATTACGTCGTCACCGTGTTGCAGGGACGCACGCGGGGCATGACGCTGATGCGCATGCCACTGACGATATGGGGCATATTCACGGCGACCGCCATGGCGCTGCTCGCTTTCCCGGCGCTCTTCGTCGCCGCGGTCATGATGCTGTTCGACCGGCTGCTCGGCACGAGCTTCTTCATGCCGGCCATCGTGGAGATGGGCGAACAATTGAAGCAGGAGGGCGGCAGTCCCATCCTGTTCCAGCACCTGTTCTGGTTCTTCGGCCATCCGGAAGTCTATATCGTCGCACTTCCCGCCTTCGGCATCGTCTCGGATCTGATCAGCACCCATGCGCGCAAGAATATCTTCGGCTACCGCATGATGGTCTGGGCGATCGTCATCATCGCGGCGCTGAGCTTCGTCGTCTGGGCGCATCATATGTATGTCAGCGGCATGAACCCGAATTTCGGGTTCTTTTTCGCAACCACGACGCTGATCATCGCCGTGCCGACGGCGATCAAGGTCTATAACTGGGTGCTGACACTCTGGCGCGGCGATATCCATCTCACCCTGCCGATGCTGTTTGCGCTCGCCTTCATCGTCACATTCATCAATGGCGGATTGACGGGTCTCTTCCTCGGCAATGTCGTCGTCGATGTGCCGCTTTCGGATACGATGTTTGTGGTCGCCCATTTTCATATGGTGATGGGGGTCGCGCCGATCATGGTGATCTTCGGGGCGATTCATCACTGGTATCCGAAAGTCACGGGCCGGATGCTGAACGAGGCGATGGGGCACGTCCATTTCTGGATCACCTTTCTCGGTGCCTATGCCATCTTCTTCCCGATGCATTATCTCGGGCTGATGGGGGTGCCGCGCCGCTATTACGAGCTGGGCGAAACGGCTTTCATTCCAGATTCGGCGCACACGTTGAACATATTCATCACCGTGGCCGCGCTCATCGTCGGTGCGGCTCAACTGCTGTTCGTGTTCAATCTCGAGTGGAGCCTGCGCTGGGGCAAAAAGGCGGTCGGCAATCCGTGGCGGGCCACGACACTGGAATGGCAGACGCCGCAGACCCCGCCGGTTCATGGCAACTGGGGCAAGGAACTGCCGGTCGTTTATCGCTGGCCGTATGATTACAGCGTGCCCGGCGCGGCTGAGGACTTCCTGCCGCAAAACCAGCCGGCGGCTGCCGGGCCTCCCGAAAGGGCCCTGTCATGA	MVEIGSGAGQVIQPAEVEDVELYHPKSWWTKYVFSQDAKIIAIQYFLTAIAIGMVALVLSWLMRLQLAFPGYFSFIDAEHYYQFITMHGMIMVIYLLTALFLGGFGNYLIPLMLGARDMVFPYANMLSYWLYLSAVLVLVAGFFAPGGPTGAGWTLYPPQALLSGTPGGRDWGIILMLSSLILFIIGFTLGGLNYVVTVLQGRTRGMTLMRMPLTIWGIFTATAMALLAFPALFVAAVMMLFDRLLGTSFFMPAIVEMGEQLKQEGGSPILFQHLFWFFGHPEVYIVALPAFGIVSDLISTHARKNIFGYRMMVWAIVIIAALSFVVWAHHMYVSGMNPNFGFFFATTTLIIAVPTAIKVYNWVLTLWRGDIHLTLPMLFALAFIVTFINGGLTGLFLGNVVVDVPLSDTMFVVAHFHMVMGVAPIMVIFGAIHHWYPKVTGRMLNEAMGHVHFWITFLGAYAIFFPMHYLGLMGVPRRYYELGETAFIPDSAHTLNIFITVAALIVGAAQLLFVFNLEWSLRWGKKAVGNPWRATTLEWQTPQTPPVHGNWGKELPVVYRWPYDYSVPGAAEDFLPQNQPAAAGPPERALS	PGPT0004025_814	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004025-foxA|coxA|ctaD-K02274	NA	NA
BMS010_06888	816	coxM	COG1622	Alternative cytochrome c oxidase subunit 2	ATGGCTGTCGTTGTGATTCTCGTTCTGCTGGTGGTGGGATCGATCGTATTCCACCTGCTGAGCCCGTGGTGGTGGACGCCGATAGCCTCGAACTGGAGCTATATCGACAATACGATCATCATCACTTTCTGGATCACCGGCTTCGTTTTCTCGGCCGTCGTGCTGTTCGTCGCCTATTGCGTGTTCCGCTTCCGGCACCGCGCCGGAAACCGGGCGGCATACGAGCCCGAAAACAAGCGCCTGGAATGGTGGCTGGCGGGCGGAACCGGGGTTGGGGTGGCTGCAATGCTTCTGCCGGGCCTCTTCGTATGGAACCAGTTCGTAACCGTACCGGACGGTGCAAGCGAAGTGGAAGTCGTCGGTCAGCAATGGCAATGGAGTTTCCGGCTGCCGGGAGCGGACGGACGGCTCGGGCGGGCGGATACGCGCGCTATTGGACCCGGCAATCCGCTTGGCCTGAACAGGAACGATCCCGCCGGAATGGACGACGTCATCATTGAAGGCGGCGAGTTGCATCTGCCCGCCGGCAGGCCGGTTAAAATGCTGCTGCGCGCGGTCGATGTCGTGCATGATTTCTACGTGCCGGAGTTCCGGGCCAAGATGGACATGATCCCCGGCTCGGTCACCTATTACTGGTTCACGCCGACCCGGACGGGAACTTTCGAGGTTCTGTGCGCGGAACTGTGCGGTGTGGGCCATCCGCAGATGCGCGGCACCGTCGTCGTCGATACCGAGACCGATTATCAAGCCTGGCTGCAGCAGCAGCCGACTTTCTCGAAATTGCTGGCTTCGGCGGAAACGTCGGTGGCCAGATGA	MAVVVILVLLVVGSIVFHLLSPWWWTPIASNWSYIDNTIIITFWITGFVFSAVVLFVAYCVFRFRHRAGNRAAYEPENKRLEWWLAGGTGVGVAAMLLPGLFVWNQFVTVPDGASEVEVVGQQWQWSFRLPGADGRLGRADTRAIGPGNPLGLNRNDPAGMDDVIIEGGELHLPAGRPVKMLLRAVDVVHDFYVPEFRAKMDMIPGSVTYYWFTPTRTGTFEVLCAELCGVGHPQMRGTVVVDTETDYQAWLQQQPTFSKLLASAETSVAR	PGPT0004030_3438	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004030-foxB|coxB|ctaC-K02275	NA	NA
BMS010_06889	816			hypothetical protein	ATGACGGCATTCCATGTCATGGCCGGTGCGAGTGGCGAATTTGCCCGCCCGGAAGTCCGCAAGATTGGCATCCCGGATATTGTGGATGCGTTGAAGCTGGGACTTGAGGACTTTAAAGAAAAGCCGTCCCACTATGTTTTTCTCTGTCTTATGTATCCGATCGCCGGTGTTTTTCTGGTGATGTGGAGTTCCGGCGCCAATCTGCTGCCGGTTATTTATCCGCTGATGTCGGGTTTTGCACTGATTGGTCCGATCGCGGCCATCGGGCTTTATGAAATCAGTCGACGACGCGAGCAGGGGTTGGATAGCTCCTGGCGGCACGCACTGGAGGTTCGGCACTCTCCGGCCCTGCCGTCGATCATCGCGGTCGCCGTCATGCTGTTCGTGCTTTTCGTCGTCTGGTTGATTGTTGCGCAGAGCATCTACACTGCGACTTTCGATGCGACCGGTCCGGTCTCGCTCTCCACCTTTCTGTCGGACGTATTGACGACCTCGCAAGGTCTCTCCCTCATCGTCTGGGGCAATCTGGCCGGCTTCGTTTTCGCGGTCGTCGTGCTGGCGACAACGGTGGTGGCGTTCCCACTGCTGCTCGACCGGGATGTCGGCGCAGTTGCGGCGGTGGATGCGAGCATCCGCGCCACGCTTGCCAACCCGGTTCCGGTGGCGCTTTGGGGATTGATCGTCGCGGCCTTGCTCGTCGTCGGTACGATCCCGGTATTTATCGGCCTCGCGGTCGTCATGCCCATCCTCGGCCACGCGACCTGGCACCTTTATCGGAAACTGATCGTGTCCGATTATCCACGCCGTACGCCCTGA	MTAFHVMAGASGEFARPEVRKIGIPDIVDALKLGLEDFKEKPSHYVFLCLMYPIAGVFLVMWSSGANLLPVIYPLMSGFALIGPIAAIGLYEISRRREQGLDSSWRHALEVRHSPALPSIIAVAVMLFVLFVVWLIVAQSIYTATFDATGPVSLSTFLSDVLTTSQGLSLIVWGNLAGFVFAVVVLATTVVAFPLLLDRDVGAVAAVDASIRATLANPVPVALWGLIVAALLVVGTIPVFIGLAVVMPILGHATWHLYRKLIVSDYPRRTP				NA	NA	NA	NA	NA
BMS010_06890	1446	glpK_3		Glycerol kinase	ATGCGCATTGCCGCAATCGATCAGGGAACGACATCGACCCGGTGCCTTGTGGTGAGCGATGGCGGCACGGCGGAGGTCGTGGCCAGCCGGCGTCACGCACAATTTTATCCGGCCGCCGGCCATGTGGAACATGATCCGGAAGAACTGCTGGGCAACATCCGCGCAGTGCTGGCTGCCGCCGGGCCGGTGGATGCCATCGCCATCGCCAATCAGGGCGAGAGTTGCCTGGCGTGGGATGCCGTGAGCGGGGAGGCGCTGTCGCCGGTCATAGTCTGGCAGGATGCCCGCACCGCCGAAGCGCTGGCCACCCTGCCGCCTTCGGCAACGGATCGTTCGAAAGAGATTTGCGGGCTGCCGCTCGATCCCTATTTTTCGGCCAGTAAACTGGCCTGGCTGGTCAGGCACAATCCAGCGGTGGCACAGGCACGCGCGGCAGGCCGTTTGCGGCTGGGCACCACCGATGCTTTTTTTCTGGACCGGCTGACGGGCTGTTTCCGCACCGACCTTGCAACGGCGTCGCGCACGGGTCTGCTCGATCTTTCAACCGGAGACTGGAGCCCGGAACTCTGTGCGCTTCACGGCGTGCCGCTGGATTGCCTGCCCAAGATCGGTCCTGTCGATGGCGGCTTCGGCGCGGTTGACGGAACTCCTATCCGCGTTTCCATCGTCGATCAGCAGGCAGCGCTTTATGGGCATGGCTGCCGCAATGCCGGCGATTGCAAGATAACCTTCGGAACCGGAGCCTTTCTGCTCGCCGTTGCCGGTCACGGGCGGCCGTTGACGGGAGAGCTTCTGCCGACCATTGGCTGGCAAATGCAGGGGGCGCCTGTGGTTTTCGCCATCGAAGGCGGGATCTATGATGCCGGCGCGGCGCTCGAATGGGCGAAAAAGATCGGCCTCTATGCTGAAAATGCCGAACTCGACGGTTTCGAGGGACCATCGGCCATTCGCCGCGGCCTTGTCTTCGTGCCCGCCCTTTCGGGCCTTGCCGCGCCCTATTGGGACAGGCAGGCGGTGCCTTTGTTCATCGGCATGGACAACGCGACCGAGCGGCGTGACATGGTGCGCGCCGTGCTGGAAGGCATTGCCCTGCTGACGGCGCGGCTGATCGAGGCGGCATCGGCGGTCGCCCCCATAGGCGATACGATCTCCATCGATGGCGGCTTGTCGAACAGCCGCTATTTCGCCCGCTTTCTGGCTGCCGCCAGCGGTCGAACCATCTGCGTGCCCGCCATGCGCGAGTTGACGGCGCTCGGCCTGGCGGAACTGTGCGGCGTCGATGTCGCGGCCCTACGAGGCGATGCCGAGATATTCGCGCCCGACGGATCGGTCGATGCCAAAGACCATGCTCGCTTCGCACGCGCCATAGACAGTGCACGGAGCTGGCAACGATCCCAAACCTGCACGAGCGCGGTTCTGTCGACCATGCCGGCAGCGGGCGTCTGA	MRIAAIDQGTTSTRCLVVSDGGTAEVVASRRHAQFYPAAGHVEHDPEELLGNIRAVLAAAGPVDAIAIANQGESCLAWDAVSGEALSPVIVWQDARTAEALATLPPSATDRSKEICGLPLDPYFSASKLAWLVRHNPAVAQARAAGRLRLGTTDAFFLDRLTGCFRTDLATASRTGLLDLSTGDWSPELCALHGVPLDCLPKIGPVDGGFGAVDGTPIRVSIVDQQAALYGHGCRNAGDCKITFGTGAFLLAVAGHGRPLTGELLPTIGWQMQGAPVVFAIEGGIYDAGAALEWAKKIGLYAENAELDGFEGPSAIRRGLVFVPALSGLAAPYWDRQAVPLFIGMDNATERRDMVRAVLEGIALLTARLIEAASAVAPIGDTISIDGGLSNSRYFARFLAAASGRTICVPAMRELTALGLAELCGVDVAALRGDAEIFAPDGSVDAKDHARFARAIDSARSWQRSQTCTSAVLSTMPAAGV	PGPT0018435_5719	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018435-glpK-K00864	NA	NA
BMS010_06891	1221			hypothetical protein	ATGAGTGCGGATGTGATCGTGGTCGGCGGCGGCCCGGCGGGCGTGGCGGCGGCGCTGGAGCTGAAAGCGCGCGGTATCGCCCGCGTGATGATCCTCGAGCGTGAGCCGGCCCTTGGTGGCGCAACCCGGCATTGCCTGCATTCGCCCTTCGGCATGCGTGAGTTCGGACGCGTCTATTTCGGCCCGGCCTATGCGCAACGCCTGCAGCGGCAGGCGCAGGATGCGGGTGTCGATATCCGCACCGGTCATTCCGTGGTGGAACTCGGACAGGATGGCGCGCTGCTGGTGACGTCGGCGCGCGGCGTCGAGACGCTGAAGGCCCGGCGTATCGTGCTTGCGACCGGCGCGCGGGAAAAACCACGCTCCGCGCGGCTTTTACCCGGCGACCGGCCGGTGGGTGTGGTCACCACCGGCACGCTGCAATCCTATGTCGCCTTTCACGGCATCATGCCCTTTCGCCGGCCGCTTATCGTCGGTTCGGAACTGGTTTCCTTTTCCGCGCTTCTAACCTGCCTGACGCATCGCGCCCGGCCGGTGGCGATGATCGAGCCGGAACCGCATCCGCTGGCGCGGTCGCCTTTTCAATGGTTTCCCCGACTGGCCGAGGTGCCCTTTCATTGTGGCGCGGTACTTACGGATATTCGCGGACGCGGCCGGGTGGAGGAGGCCGATATCCGTCTGGCGGATGGTCGCATCATGACGGTCCAATGCGACGGTGTTCTGCTCACCGGGCGCTTCACGCCGGAAGCAGCGCTTCTCAATGCATCCGCCGTGGATGTTGCGGCAGGCAGTGCCGGGCCGCTGATCGATCAGGACGGACGGATGCCCAACCCGATATTCTTCGCCGGCGGGAATGTCTTGCGAGCCGTGGAAACGGGCGGCTGGGCGTTTCGCGAAGGGCGTCGGGTTGGCGCGGCGGTGGCTGACGATCTCGCCCGGGAACCATGCGGCGCGCCGGGAGTGCCCGTCACCTTCGCCGATCCGCTCAAGCTGGCGGTTCCCGCCATGTTGCGGCCGGGTGGGCTCGACAGACCCGCATTTCGCGATTTTCAGCTTCGTTTCACCAGACCCGTTCAAGGCCGGCTTTCGCTGCATCTCGACGGGACGGACGTGTGGAGCAAGACCGGCCGTTGGCGTCCTGAACGCCGTGTGTTGGTGCCCATTCCCGGCGCTGCGTTTGAAGCGGGGCGGATTGCTTTTCACTTTCAGGAGACCAATTGA	MSADVIVVGGGPAGVAAALELKARGIARVMILEREPALGGATRHCLHSPFGMREFGRVYFGPAYAQRLQRQAQDAGVDIRTGHSVVELGQDGALLVTSARGVETLKARRIVLATGAREKPRSARLLPGDRPVGVVTTGTLQSYVAFHGIMPFRRPLIVGSELVSFSALLTCLTHRARPVAMIEPEPHPLARSPFQWFPRLAEVPFHCGAVLTDIRGRGRVEEADIRLADGRIMTVQCDGVLLTGRFTPEAALLNASAVDVAAGSAGPLIDQDGRMPNPIFFAGGNVLRAVETGGWAFREGRRVGAAVADDLAREPCGAPGVPVTFADPLKLAVPAMLRPGGLDRPAFRDFQLRFTRPVQGRLSLHLDGTDVWSKTGRWRPERRVLVPIPGAAFEAGRIAFHFQETN				NA	NA	NA	NA	NA
BMS010_06892	1398	lhgD_3		L-2-hydroxyglutarate dehydrogenase	ATGGCTGAAACCCCCTCCACGGAATTTGATGTCGCCGTCATCGGCGCCGGTGTGGTCGGTTGCGCGGTCGCCCGCCGTTTCGCGCTGGCCGGTGCGAAGGTGGTGGTCATCGAAAAAGGCCCCGATATCCTCTCCGGCGCCTCCAAGGCCAATAGCGCCATCCTCCATACCGGTTTCGATGCGCCAGAAGGCAGTCTGGAACTGGAACTGGTGAAGGCCGGCCGGGAGGAATATCTCTCCATTCATGCGCAGATGGGCCTCAGCCTCGTCGAAACAGGCGCGCTGGTCTGCGCCTGGAACCCGGACGAGGCGGAAAAACTGCAGGCGATTGCCGATCAGGGGCGGCGCAACGGCATTGCCGGGCTTGAGCTTCTCACAGCGGGGCAGGCTCGCGAAACCATGCCGGGCCTGTCCGACCGCCTTGTCGCCGCGCTCGACGTTCCGGGTGAACATATCATCGATCCTTGGTCCGCACCGCTTGGCTATCTTACGCAGGCGGTGGCGCTCGGCGCGCAGCTGGTGCGCAACGCGGAAGTCCTGTCCGGTGCGTTCGACGGCGCGTGGCGGATCGAGACGACGGCCGGCGTTATCCTTGCCGCAAGCATTGTCAATGCCGCCGGGCTGTTCGGCGATATTGTCGACGCGCGTCTGGGGCTTTCGCCGGACTTCGCCATCAAGCCCCGCAAGGGGCAGTTCGTGGTGCTGGACAAGGCTGCCCGCCGGCATGTGCCGCGCATCGTCCTGCCCGTTCCGACCGAAATCACCAAGGGCATCGTCGTGTGCCCCAGCGCCTTCGGTAATGTTCTCGTCGGCCCGACGGCGGAAGAGCAGGAAGACCGGGAGCGCGCGACGGTCGAGACGGCGACGCTGGAAGCACTGCTGGAACGCGGCGCGGAGATCGTTCCGGCGCTTGCTTCCGTTTCCGTAACCGCCGTTTATGCCGGTCTGCGACCGGCGTCTGAAAAGAAGCATTACCGCATTTCCGCCCGGCCGGACCGGCGGGCGATCACGCTCGGCGGCGTTCGCTCCACGGGCCTCAGCGCCGCACTCGGTCTGGCGCAACATGCGCTGAAGCTTCACGAAGGTTTCGGCACGCATTTTGTCTCACCGCCCTCAGTTCCCGACGTGACGATGCCCAACCTGACGGAAACCTGCGAGCGGGACTGGCAGCGTGCCGATCACGGCGAAATCGTCTGTCATTGCGAACTCGTCACCCGTCGCGAGATAGAGGCGACCTTTTTAAGCCCGGTGCCGCCGGGCGATTTCGGTGGGCTGCGGCGGCGCACCCGCGCCGGCATGGGCCGCTGTCAGGGCTTTTATTGCAACGCCCGGCTGGCCGCGATGACGGGCGACCGCCTGGCGATCCCGCTTGCCGTTCACGAGGGAGGCGACCGATGA	MAETPSTEFDVAVIGAGVVGCAVARRFALAGAKVVVIEKGPDILSGASKANSAILHTGFDAPEGSLELELVKAGREEYLSIHAQMGLSLVETGALVCAWNPDEAEKLQAIADQGRRNGIAGLELLTAGQARETMPGLSDRLVAALDVPGEHIIDPWSAPLGYLTQAVALGAQLVRNAEVLSGAFDGAWRIETTAGVILAASIVNAAGLFGDIVDARLGLSPDFAIKPRKGQFVVLDKAARRHVPRIVLPVPTEITKGIVVCPSAFGNVLVGPTAEEQEDRERATVETATLEALLERGAEIVPALASVSVTAVYAGLRPASEKKHYRISARPDRRAITLGGVRSTGLSAALGLAQHALKLHEGFGTHFVSPPSVPDVTMPNLTETCERDWQRADHGEIVCHCELVTRREIEATFLSPVPPGDFGGLRRRTRAGMGRCQGFYCNARLAAMTGDRLAIPLAVHEGGDR	PGPT0006775_5578	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0006775-glpA|glpD-K00111	NA	NA
BMS010_06893	795	ydcV_8		Inner membrane ABC transporter permease protein YdcV	ATGGAAGAACGTCCCGCTCCGCTGGCGCTGAAAATCGTCGCCTTCATCATGTTCCTTTTCCTGCTGGCACCCGTGGTTCTCGTCGTGCCGATCTCATTTTCAGCCGATAGCTACATGACCTTTCCTCCCTCCGGCTGGAGCCTGCGCTGGTATGTGGATCTCATGCATAATTCGAAGATGATGGGAGCGCTGGGCACCAGCACCCTTCTCGCCATCATCGTCACTGCGCTCTCCATGCTGATCGCGCTGCCGGCCTCCTATGCCATCGTGCGCATGCGGGTGATCGGGGCGGATGCGCTTCTCGCCTTCTTCACCGCGCCGCTGCTGCTGCCGACCATCGTTCTCGGCCTCGCGATCCTGATCGTCTTTGCCGGTGCCGGCCTGCTAGGCACCTTCACCGGTCTGGTGATTGCGCATCTCATCATCGTGCTGCCCTATGCGCTGCGTGTTCTCACCACCTCGCTTGCCGGCCTGCCGCTGATTTTCGAGGAGGCTGCTTCGACACTCGGGGCATCGCCGCTCACGGTCTTCCGACGCGTGACCATGCCGATGATCGCGCCGGGTGTCGTGGCGACGGCGGCACTTTCCTTTCTGGTGTCGTTCGATGAAGCGGTAATTTCGCTGTTCCTCACCGGCCCGCGCATCACCACGCTTCCCGTCGCCATGTATCAGCATGTGGAAACGCAGGCCGATCCGCTCGTTGCGGCCATTTCCGTTCTCTTGATCGTCCTCACCCTTGCCGTCGTCCTCATCGTCGACCGCACGGCGGGCTTGACCAAAACTTTCGTGAAATAA	MEERPAPLALKIVAFIMFLFLLAPVVLVVPISFSADSYMTFPPSGWSLRWYVDLMHNSKMMGALGTSTLLAIIVTALSMLIALPASYAIVRMRVIGADALLAFFTAPLLLPTIVLGLAILIVFAGAGLLGTFTGLVIAHLIIVLPYALRVLTTSLAGLPLIFEEAASTLGASPLTVFRRVTMPMIAPGVVATAALSFLVSFDEAVISLFLTGPRITTLPVAMYQHVETQADPLVAAISVLLIVLTLAVVLIVDRTAGLTKTFVK	PGPT0007845_3547	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007845-ABC_SP_P|ydcV-K02053	NA	NA
BMS010_06894	879	potB_4	COG1176	Spermidine/putrescine transport system permease protein PotB	ATGACAGCGGCGGTCATGATCACGGCTCCCGGCAGCCGCACATCCTCCATGGTGTTTCTCGCAACGCTTCTTCTCGGGCCGATCATTGCGGTCAATGGGCTGGCCTTCGTCATGCCCGTCTTCAACCTGCTCCTGCTTTCCTTCCGTGAAAGCCTTGGCGGCGGCGGTCTTGGCGAAGCCCACACGCTCGACAACTGGTCGTCCACCCTGACCGACGGTTTTTATATTGAACTGATCGGCCAGAGCATCCTGACCAGTCTTCTGATCACGGTTCTCACACTCATCGCCTCCTATCCCATCGCGCTTTATCTTCACCGGGCGCAGGGCCGCTGGAAGACGCTGCTGCTGGTGCTCGTCATTTCGCCGTTGCTCACATCGGCCGTGGTGCGCACCTATGGCTGGATCGCGATCCTTGCCGATGACGGCCTCATCAACAACATCCTCTTAGCGCTCGGTGCCGAAAGCGGCGTGCGGTTGCTGTTCAACAAGGTCGGCGTCGTCATCGGTCTCACGGAAATCCTGATGCCCTATATGATCCTGGCGCTGCTTGCCGGTTTCGGCAGGCTCGATCCGCGTGTCGAAGAGGCGGCGGAAACGCTCGGCGCATCGCCGTGGAAGGTATTCTGGCGGATCATCGTGCCGCTCACCATGCCCGGCGTCGCGCTCGGTTGCCTGCTTTCCTTCGTTCTCGCCGTCAGTTCGTTCATTACCCCCAAGCTGCTTGGCGGCGGGCGCGTCTTCCTTCTCGCGACGGAAATCTACGATCAGGCCATCGTGACGCTCAACTGGCCGCTCGCCGCGACGCTGTCGATGATCATCCTCGTGATTTTCGGCGCTGCCCTGGTGCTCTATTCCCGGCTTCTGCGGGCCATTCTTTAA	MTAAVMITAPGSRTSSMVFLATLLLGPIIAVNGLAFVMPVFNLLLLSFRESLGGGGLGEAHTLDNWSSTLTDGFYIELIGQSILTSLLITVLTLIASYPIALYLHRAQGRWKTLLLVLVISPLLTSAVVRTYGWIAILADDGLINNILLALGAESGVRLLFNKVGVVIGLTEILMPYMILALLAGFGRLDPRVEEAAETLGASPWKVFWRIIVPLTMPGVALGCLLSFVLAVSSFITPKLLGGGRVFLLATEIYDQAIVTLNWPLAATLSMIILVIFGAALVLYSRLLRAIL	PGPT0007850_2284	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007850-ABC_SP_P1|ydcU-K02054	NA	NA
BMS010_06895	1074	potA_9	COG3842	Spermidine/putrescine import ATP-binding protein PotA	ATGCAGCCAGGATTTCTCTCGATTCGTTCATTGACCAAGCGCTACGAAACCATGGTCGCCGTGGATAATCTCAATCTCGAGATTCCCAAGGGCGAACTGGTTGCCTTCCTCGGTCCATCCGGCTGCGGCAAGTCGACATCGCTGCGCATGATTGCCGGCCTTGCCCCCGTGACGTCGGGTTCGATCCTGATCGACGGCAAGGATGTGACCCAGCTTGCTCCCTACAAGCGCGATATCGGCCTCGTTTTTCAGAGTTACGCGCTTTTCCCGCATATGACGGTTCTCAAGAACGTCATGTTCGGTCTTGAAATGCGCAAGGTACCGGCTGCCGAAGCGGAACGGCGTGCACGCGAAGCGATTGCCATGGTGCGGCTGGAAGGGCGCGAGGATCGCCGGCCCGCCCAGCTTTCCGGCGGCCAGCAGCAGCGCGTCGCACTGGCGCGTGCACTGGTCATCCAGCCCTCCATCCTTTTGTTTGACGAACCTCTTTCCAATCTCGACGCCAAGCTGCGCGACGAGATGCGCTCTGAAATCCGCCGCATCCAGAAACAGCTCGGCATCACCTCCATCTTCGTCACCCATGATCAGGTGGAGGCGCTCAGCATGTGCGACAAGGTTGCCGTGCTCAATGGCGGGCGTCTGGAACAGCTCGGTACGCCGCATGATCTTTACGAGCGCCCGGCAACGGCTTTCGTCGCCTCTTTCGTCGGCCGCACCAACAGGCTGGTCGGAAACGCGGTCGGCGATCACATCACGGTCGGGGATGCGGTGTTGCGTGCGCCCGGCTCGCACAGTGGCAAGATCGACCTTATGGTACGGCCGCACCGTATGGCCATGACGGTTGCCGGTGACGCCGCACCCGATTTCGAGGGGGCGCCGGTCAATCGCATCGCCGGTGAGGTTCGCGATGTCTATTATGCGGGCGATATCCTTCACTACGAGATCGCTGCGGGCGGACAGACATTGTCGGTGGAGCGCGCGACTTCCGGCGGGGAAACACCTGTGGCGGCGGGCAGCGCGGTCAGCCTAGTCTGGCGGGTGGAGGACACGCTGGTCTTCGGAGCAGGCCAATGA	MQPGFLSIRSLTKRYETMVAVDNLNLEIPKGELVAFLGPSGCGKSTSLRMIAGLAPVTSGSILIDGKDVTQLAPYKRDIGLVFQSYALFPHMTVLKNVMFGLEMRKVPAAEAERRAREAIAMVRLEGREDRRPAQLSGGQQQRVALARALVIQPSILLFDEPLSNLDAKLRDEMRSEIRRIQKQLGITSIFVTHDQVEALSMCDKVAVLNGGRLEQLGTPHDLYERPATAFVASFVGRTNRLVGNAVGDHITVGDAVLRAPGSHSGKIDLMVRPHRMAMTVAGDAAPDFEGAPVNRIAGEVRDVYYAGDILHYEIAAGGQTLSVERATSGGETPVAAGSAVSLVWRVEDTLVFGAGQ	PGPT0007860_2031	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007860-ABC_SP_A|ydcT-K02052	NA	NA
BMS010_06896	1041		COG1840	putative protein	ATGAAGAAATCGATACTTCTGAGTGGGATTCTCATGCTGGGCGCGGCCGCCATGCCGGCGCACGCCCAGCAGACCGTGACGTTCCTCGGCTATAGTGGCCTTTTCCAGGAGCGTTACACCAAGGCCGTCATCGAGCCTTTCATGGCCGCCAACCCGGATATAAAGGTCGACTATTTCCCGCAGCAGGGTTCCGCCGCCATGCTCGGCTCGCTGCGCGCCCAGAAAGCTGCTCCGCAATCCGATATCACGCTGATGGACGTCTCCGTCGCCAAGACCGGCACGGACGAAGGCCTGTTCGACAAGGTCGATGAAAGCGTTACCAAGAACGTTGCCGACCTCTATCCGAACGCCCGCTTCGAAGGCGTCGCCGGTGTCGGCGTGACCTTCGACAACCTCGTTCTCATCTACAATACCGATGCAATCAAGACCGCACCGGATAGCTGGAATGCCCTGAAAGACAGCGCCTTCAAGGGCAAGATCGCCATGCTGAGCGCTCCTGACATCGTCGGTATCGGTACGACCATCATCATGGACCACATGAATGGCGGCACCGACTTCATCAAGAATATCGACGCCGGCATCAATGCCATGGCTGAAGTCGCGCCGAACGTCCAGACCTGGGAACCGAAGCCGGAAGTCTATCCAACTGTCGTCAACGGCCAGGTGTCGCTGGGCGTGGGCTGGAATGCCCGCAGCCAGGTGAATGCCGATGGTTCCAAGGGCAAGATGAAGGTCGTTCTTCCGAAGGAAGGCACGATCCTGCAGATCAATACGCTCAATCTCGTCAAGGGCGGCCCGTCGTCCGAGGCGGCCCGCAAGTTCATCGATTACGCGCTGAGCCCGGAAGCCCAGGCCGCCTTCACCGCCGCCATGTATTATGCGCCGACCAACGCCAAGGCCACGGTGGCTCCCGATGTCAGCGATCGTACGGTCGTCAAGGCGATGGACAAGGTTATCCCGGTCGACTGGATCGGCCTCTCGAAGGTTCGTGACCAGATCACGCAGGACTGGCGTCGCAAGGTCATCCCGCTCAGCCGCTAA	MKKSILLSGILMLGAAAMPAHAQQTVTFLGYSGLFQERYTKAVIEPFMAANPDIKVDYFPQQGSAAMLGSLRAQKAAPQSDITLMDVSVAKTGTDEGLFDKVDESVTKNVADLYPNARFEGVAGVGVTFDNLVLIYNTDAIKTAPDSWNALKDSAFKGKIAMLSAPDIVGIGTTIIMDHMNGGTDFIKNIDAGINAMAEVAPNVQTWEPKPEVYPTVVNGQVSLGVGWNARSQVNADGSKGKMKVVLPKEGTILQINTLNLVKGGPSSEAARKFIDYALSPEAQAAFTAAMYYAPTNAKATVAPDVSDRTVVKAMDKVIPVDWIGLSKVRDQITQDWRRKVIPLSR	PGPT0007855_4039	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007855-ABC_SP_S|ydcS-K02055	NA	NA
BMS010_06897	666			hypothetical protein	ATGTTTATCGTCAACCCCATGCCGGAACAGATCGGTGCCGACATCATCGAGCTTCTTGAAAAGGTCGAAGTCGCAACGATCGGACATGTGCTTCATTCCGGTTTCGTCGATCCTGAAATCCGGGCCGTTCTTCCGGGCAAGCGCGTGGCGGGCACCGCCGTCACGCTGCGCATCCCGAATGCGGATTCGACCATGCTCCACTACCTGACGCAACTCGTGCGTCCCGGTGATATCGTTCTCATCGACCGTTGCGGTGATACGCGCCACGCCTGCTGGGGCGGCGTCATCACCAACACCATGAAGATGGCCGGCGTCAAAGCCGGTGTCGTCGATGGCCCGGCGACCGATTTCTCGGAATTCACCAAGGTAGACATGCCAATGTGGTGCCGCGGCCCGTCGCCGATCACCACCAAGATCCTTGGTCTGGAAGGCGCGATCAACGTTCCGATCAGCGTCGGCGGCCAGATGATCAATCCAGGCGATGCGATCCTGTGCGATGAAAGCGGCGTTGTCGCCCTTCATCCGAGCCAGGCCCGCGCCATGGCGGAACGCGCCATCGGCATGCAGGAAGCCGAGATCGTGCTTTTGGAACGCCTGCGCAACGGCGAGAAGCTGCCGGATATTTCCGGCGCCAACAAATTCGTCCAGGCGAAGCTCAGCGCCTGA	MFIVNPMPEQIGADIIELLEKVEVATIGHVLHSGFVDPEIRAVLPGKRVAGTAVTLRIPNADSTMLHYLTQLVRPGDIVLIDRCGDTRHACWGGVITNTMKMAGVKAGVVDGPATDFSEFTKVDMPMWCRGPSPITTKILGLEGAINVPISVGGQMINPGDAILCDESGVVALHPSQARAMAERAIGMQEAEIVLLERLRNGEKLPDISGANKFVQAKLSA	PGPT0002085_993	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-GALLATE_RESISTANCE,PGPT0002085-ligK|galC-K10218	NA	NA
BMS010_06898	804	nit1_3		Deaminated glutathione amidase	GTGAAAGTCTCACTTGTTCAAATGAATACCCAGAACGACAAGGCAGAAAACCTCAAGGTTGCTGCCGATTTAATTGAGAAGGCAGTCAAGGCGGATAGTCCTGATCTTGTTGTTCTTCCGGAATACTTCGCATTTCTTGGAGATAATCCTCAGGAAATGCATGAGAGCGGGGAAGAATTCCCCGGCGGCGAGATTTACTCGCTGCTTTCGGATCTGGCCAGAAAGCACGCGATCACGCTGCATGCCGGTTCCATCGTCGAGAAGGAAGGCAACCGCTTTTACAATTCGACGCTCGTTTTCGGCCCGGACGGCAAACAGATCGCCCGTTACCGTAAAATTCACCTGTTCGACGTCGATACGCCGAACGGCATCAGCTACCGCGAATCCGACTCCGTTGCCCGTGGCGAAGAGGTCGTCACCTACAAGGTTGGCGACAGGACGGTCGGTTGCGGCATCTGCTACGATATCCGCTTCCCGGAACTGTTCCGCGCCCTGCGGGACAAGGGTGCAGATGTCATCGTTCTGCCGGCCGCCTTCACGCTGATGACCGGCAAGGACCATTGGGAAGTGCTGGCCCGCGCCCGCGCTGTCGAAACCCAGACCTATTTCCTCGCTGTCGGCCAGATCGGCACCCATGCGGGCGGCAAGAAGGCCTGCTGGGGTCATTCCATGGTCATCGATCCGTGGGGTCACATCGTCGCGCAATGCTCCGACACCGTCGGAACTGCCGGCGCCGCTCTCGACTTCGACTATTCGGCCAAGGTGCGCGCCAACGTGCCGGTGGCGAACCACCACGTTCTCTGA	MKVSLVQMNTQNDKAENLKVAADLIEKAVKADSPDLVVLPEYFAFLGDNPQEMHESGEEFPGGEIYSLLSDLARKHAITLHAGSIVEKEGNRFYNSTLVFGPDGKQIARYRKIHLFDVDTPNGISYRESDSVARGEEVVTYKVGDRTVGCGICYDIRFPELFRALRDKGADVIVLPAAFTLMTGKDHWEVLARARAVETQTYFLAVGQIGTHAGGKKACWGHSMVIDPWGHIVAQCSDTVGTAGAALDFDYSAKVRANVPVANHHVL	PGPT0000835_1177	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRP-DEPENDENT_PATHWAY_3,PGPT0000835-nitA|nitB|nitR|nit1-K01501	NA	NA
BMS010_06899	909	gltR_1	COG0583	HTH-type transcriptional regulator GltR	ATGAATACGCGATTCCTCGAAACTTTTCTCTGGGCTGCCCGATTGAGCAGCTTTTCGGCAGCCGCGGAACGTTTGCACACAACGCAAGCATCGGTGTCCAACCGGATTGCCGCTTTGGAGCGGGAGCTTGGTGTCGTGCTGTTCACGCGCGATGTGCGCTGCGTCAACCTCACGCCCGCGGGTCGTCTGGCGCTGCAACATGCCGAAAAGATCGTCAATCTCACCGGCGAGTTCCGGCAGATCGTCAGTAACCGGGAGGCGCTGAGGGGTACGGTGCGGATCGGTGCCGCCGATACGATCGTCTATGCCTGGCTGCCGCTGCTCATCCGCCGCGTGAACGAACAATATCCCGGTGTCAGCCTCGATCTGACCATCGATACCAGTCTGAAACTCTCGCAGCGCATTCAGAGCGGCGAGGTGGATGTCGGTTTTATCATGGGGCCGATCATGGCTGCGGATATCTATAACTCACCGCTCTGCACCTTCGAATCCTGTTGGGTCGGCGCCGTCGAGCTGCCGCTGCCGGAAACCGGTGTGACGCTCGAAGATATAGCGCATTTTCCGCTGCTTACCTTCTCGACCGGCTCACAGCCGCATCAGGCGTTGCGGGCGCTTCTCGATTCCCACGGACTGTCCGATAGCCGCATCTACAATTCCAATTCGCTGTCGATCATGACGCGCCTTGTGGCCACGGCTGTCGGGGTGGGCGCCTTGCCGCGCGTTTTGGTGGACGGCATCATCAAATCGGGCGAAGCGCGTATTCTCGACATCACGCCGGCGGTGCCGCCTCTTACCTTCCACACGGTTTATCAGGAGCGCGGCGACAATGCGCTTGCCCGTGCCATTGCCGACATGGCGACGGAAATCGTCAGTGAAACCACCACGCAATGGATGACGGTCGCAGCTTAA	MNTRFLETFLWAARLSSFSAAAERLHTTQASVSNRIAALERELGVVLFTRDVRCVNLTPAGRLALQHAEKIVNLTGEFRQIVSNREALRGTVRIGAADTIVYAWLPLLIRRVNEQYPGVSLDLTIDTSLKLSQRIQSGEVDVGFIMGPIMAADIYNSPLCTFESCWVGAVELPLPETGVTLEDIAHFPLLTFSTGSQPHQALRALLDSHGLSDSRIYNSNSLSIMTRLVATAVGVGALPRVLVDGIIKSGEARILDITPAVPPLTFHTVYQERGDNALARAIADMATEIVSETTTQWMTVAA				NA	NA	NA	NA	NA
BMS010_06900	597	nudK_2		GDP-mannose pyrophosphatase NudK	ATGACTAGCAGTGTTTACCGCCCCATTTCCGAACGCGTATTGGCGGATGATTGGGGACGGCTGACCAAGTATGAGTATGAACTTCAGCTGAGGGACGGAAGCTGGCAACGGCAGACCCGGGAGGCATATGATCGCGGCAACGGCGCGACATGCCTTTTGTACAATCCGGCAAGCGACAATGTGCTGCTGACCCGCCAGTTCCGGTTGCCGGTGCTTTTGAATGGCGGTCTGGAATCGCTGATCGAGACACCGGCGGGGCTGCTGGAAGGCGCTGAACCGGCGACGCGCATGCGTGCGGAACTGATCGAGGAAACCGGTTATGAGGTTTCCGAACTTACGCATCTGTTCGATATCTATATGAGCCCCGGATCGGTCACGGAATATCTCGCCTTTTTCTACGGCGAATATGCCGAGAAACATAAGGTCGGGGCAGGTGGCGGTTCAGCGGACGAGGGCGAAGACATCGACGTGCTGGAAATCGCCTTGCCCGAGGCGATGCGGATGATCGGCCGCGGCGATATTCGCGATGCCAAGACGATCATTCTGATCCAGCATCTCGCCATCCGGCTCTTGCAGGAAAAGATCACGGCACGCTGA	MTSSVYRPISERVLADDWGRLTKYEYELQLRDGSWQRQTREAYDRGNGATCLLYNPASDNVLLTRQFRLPVLLNGGLESLIETPAGLLEGAEPATRMRAELIEETGYEVSELTHLFDIYMSPGSVTEYLAFFYGEYAEKHKVGAGGGSADEGEDIDVLEIALPEAMRMIGRGDIRDAKTIILIQHLAIRLLQEKITAR	PGPT0017890_149	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0017890-nudK-K12945	NA	NA
BMS010_06901	201			hypothetical protein	ATGCAACCGGCCTTCGACATGCGTGTGCGTTTCGCCGCCAACCCATATCTGGCCGGCATCGTCGCGGGTCAGATAAATGCGGCCGTGGCGGCCAAGGTACGTTCCCTGCGCCGCGACATAGTCTTCGTCAACCACACCCTTCGCGAAAAGCCATTGCGCCGGCACTATCTTGCCACCACATTGTGCGCCGTTTCGGGCTGA	MQPAFDMRVRFAANPYLAGIVAGQINAAVAAKVRSLRRDIVFVNHTLREKPLRRHYLATTLCAVSG				NA	NA	NA	NA	NA
BMS010_06902	300			hypothetical protein	ATGGAATTCATAAGCCGCATCGTCGGACACGGCCTTGGCCGCCAGCCACGCATGGTGATGCCGCTGGGCGGTAATGACGACGGCGCAACACATTCCGCCGGACTGCTGAGCGGGCGGGAAACCACCGTTTTGAAACTTCTCTCCGAAGGCCGCAGCAACAAGGAAATGGCCCGCGATCTCGGCCTTTCGGAAGCGACCGTGAAATTCCACCTGAAGAACATCTACGCGAAGCTTGGCGTCAGCCGGCGTGGCATGACCGTTTCCGTCAGCAAACATCTCAAGCTGACCGACCGCGAATGA	MEFISRIVGHGLGRQPRMVMPLGGNDDGATHSAGLLSGRETTVLKLLSEGRSNKEMARDLGLSEATVKFHLKNIYAKLGVSRRGMTVSVSKHLKLTDRE	PGPT0018616_1178	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0018616-malT-K03556	NA	NA
BMS010_06903	963			hypothetical protein	ATGAATATCGCGAGCTTTTCGCAATCGAAATACAAGAACGCCGCAAAGCCGGGGGACGATGTGGCGCTTCTCATTCCCGGACGGGTTCTGGCCGTTTTCGACGGCGCGACCGACCCGACCGGAGCAAGTTACGGCGGGCTGAGTTCCGGCCGCATTGCGGCCCTTGCCGCCGCCAATGCCGTGGCTGAGATGAGCCTTGACGGCAGGCTGGAAACACTCGCCGCGCCCGCGCTTTTTCAGAATATCAGCGATATCCTGAAAAAGGAGGCGCAGCGCATCAATGCCGGCCATCCGCCATCAACCACCCTGGCGATCGTCGCGGATATGGGCGACAGCTTCCGCCTGCTGCTTGCCGGCGATTCCGGCGTCAGGATCAACGGCACCCGTCTGTTTCAGCACACAAAGCTTATCGATACGGTAAGCACCTCGGCGCGTATATTCGTGTTCAAACAGCTTCTCGCCGCCATCGGCGATGGCGACGCGGCCGAGGCGCGCACGCGCGCGACGATCTTCTCAGGCCTGCGTTCGGCTGTCGCAAACGGTATCATGACGGCGCGGGATGCGGAAAATGTCGTTATTGCCGCGGCCGGGATGAGCGGCCTTGAGAACGAGATTGAAACGGTCGAGGAATTCCTGATGGGTGGAATCCGTGTCCAGCCGCAATTCGCAAACCGGCATGGGCATGTACTGGGTTACGCCTCGGTGAATGGCGGAACCGTCATGCAGGAGGGGACGGTTGACGTCCGCATCGCCAAAGACGGGCTCTCGAGTGTTGAAATATTCTCCGACGGCTATTTGTCCCTGCCGGCGGGGACGGATGTTACGGCCTGGGAAGCGGAATTCGCGCGTGTCGAGGCGGCGGATTTTCACAAGCTGCGTGAGTATCCGTCCGTCAAAGGCTCGACAACGGCGGAATTCAGCGATGACAGGACCGTCATTTGCCTCAACCTGGTTCAAGTGTAG	MNIASFSQSKYKNAAKPGDDVALLIPGRVLAVFDGATDPTGASYGGLSSGRIAALAAANAVAEMSLDGRLETLAAPALFQNISDILKKEAQRINAGHPPSTTLAIVADMGDSFRLLLAGDSGVRINGTRLFQHTKLIDTVSTSARIFVFKQLLAAIGDGDAAEARTRATIFSGLRSAVANGIMTARDAENVVIAAAGMSGLENEIETVEEFLMGGIRVQPQFANRHGHVLGYASVNGGTVMQEGTVDVRIAKDGLSSVEIFSDGYLSLPAGTDVTAWEAEFARVEAADFHKLREYPSVKGSTTAEFSDDRTVICLNLVQV				NA	NA	NA	NA	NA
BMS010_06904	1686			hypothetical protein	ATGACGGATATGACCGCGACCGCAACGACGGGCGGCTTCCGCCTGAGACTGCCAGGCTTCTGGACCAGCGTGACGGCATTTGCCGTTGTCATATTGGCGATCTTTTTGATCCTGCCCATTTTCAGCGTGTTCTTCATCAGCTTCTTCGACGCCAAGACGGGTGATTTCGGTTTCGGCAACTATGTTCAAGTGCTGACGCGGCGTTTTTATACCGTGGCATTGTGGAACACGCTTGTCATCGGCGTGCTCGGCATGTTGGGGGCCTGCCTGCTCGGTATTCCGCTTGCCTTCTGCACCTCGCGTTACCGCATCAAGGGCCGCACCTTCATTGCCACCTTCGCGGTGCTGGTTCTGTGCGCACCGCCCTTCATCGGCGCCTATGCCTGGATCATGCTGTTCGGCGCCAACGGCGCGGTTACCAATCTCCTGTCTTTCGCCGGTATTTCATTGCCGACGATTTATGGGATACCCGGCATCGTGATGGTCTTCAGCCTGAAGTTCTTTCCCTATATCTTCCTGATGACGGAAAATGCGCTGAACACCATCAACAAATCCTATGAGGATGCGGCGGAAAACCTCGGCTGCACGGCGTTCCAACGGTTCCGCAAGATCACCTTGCCGCTGGTCTTTCCGGCAGTCAGCACCGGCGCGATCATCTGCTTCGTATTGTCGATCGCAGACTTCGGAACGCCGGCAATCCTCGGCAAGGGCATCAGGACGCTCTCGACCATCGCCTATGCGCAATACACCTCCGAAATGGCCGGCACGCCGACCATGGCAGTCACGATTTCCATGGTGATGATTGCGATTTCCATGGCCGCACTTCTCTTGCAGCGGCACATTCTCGCCAAGCGCCGTTATGCCAGCTCATTGACGAACCGGCCGGTAAAGCGCTCCATGCGCCCGCTGAAATCGTTTATCGTGCACGGTTTCTGCTATCTGGTTGTCTTTGTCGCCATGCTGCCGTCCCTTACGGTCATCTACACATCGTTCCTCGCAACGAACGGTCCCGTCTTCACGGGCGGTTTCGGGTTGGACAGCTATGCCCGCATTCTCCGCGATTCGCCGCAGGCGATTGCCAACAGCTTCACCTTTGCGCTTGCCGCCGTGGTGTTGATCGCCATCGTTTCCGGCCTGCTCTCTTTCATCGTTGTCAGGCGGGACAATGCGGTATCAGGCTCGCTCGATCTTCTGTTGATGGTGCCCTATCTGATACCCGGTGTCGTCATGGCAATCGGCTACGTCACGACGTTCCGTTATCCGCCTTTCGACATTACCGGCACGGCGCTCATCATCATCCTGCTGGTGTTTATCCGTCGCCTGCCTTACGGTGTCCGCTCCACCACTTCGATTCTCAGGCAGATCAAGCCTTCCATCGAAGAGGCCGCGGTCAATCTCGGCGCTTCGCCGGCAAAGACGTTCATATCGGTGACGGTGCCGCTGATGTTGCCGGGGCTCATCATCGGTTCCTTGATGAGCTTCATCACCGCCATCAACGAATTGTCCTCGACGCTGATCCTCTATACGGCGCGGACGATTACGATGCCGGTCCTGATCTATATTCAGGTGATTGACGGCGAGTTCGGCACGGCAGCCGCACTTTCGACGCTGCTTCTCGTCAGCACCGGACTTTGCGTCTTCGTCGTCTTCCGGCTTTCGGAAGACAAGGAAGCCTCTTTCGTCTGA	MTDMTATATTGGFRLRLPGFWTSVTAFAVVILAIFLILPIFSVFFISFFDAKTGDFGFGNYVQVLTRRFYTVALWNTLVIGVLGMLGACLLGIPLAFCTSRYRIKGRTFIATFAVLVLCAPPFIGAYAWIMLFGANGAVTNLLSFAGISLPTIYGIPGIVMVFSLKFFPYIFLMTENALNTINKSYEDAAENLGCTAFQRFRKITLPLVFPAVSTGAIICFVLSIADFGTPAILGKGIRTLSTIAYAQYTSEMAGTPTMAVTISMVMIAISMAALLLQRHILAKRRYASSLTNRPVKRSMRPLKSFIVHGFCYLVVFVAMLPSLTVIYTSFLATNGPVFTGGFGLDSYARILRDSPQAIANSFTFALAAVVLIAIVSGLLSFIVVRRDNAVSGSLDLLLMVPYLIPGVVMAIGYVTTFRYPPFDITGTALIIILLVFIRRLPYGVRSTTSILRQIKPSIEEAAVNLGASPAKTFISVTVPLMLPGLIIGSLMSFITAINELSSTLILYTARTITMPVLIYIQVIDGEFGTAAALSTLLLVSTGLCVFVVFRLSEDKEASFV	PGPT0003730_2138	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003730-afuB|fbpB-K02011	NA	NA
BMS010_06905	1086	btuD_15		Vitamin B12 import ATP-binding protein BtuD	ATGGCCGCCGTGGAAATTACTAGCATCAAGAAGAGTTACCGGGATGTCGTTGCCCTCTCCGACATCAATATCTCCATCCCCTCGGGATCGTTCTTTACGCTTCTCGGTCCGAGCGGATGCGGCAAGACGACCCTCCTGCGCACGATTGCCGGGTTTCACCAGCAGGATAGCGGCAGCATCAGTATTGAAAGACAGGCGATCGAACATGTGCCTGCGCATAAGCGCGATGTCGGCATGGTTTTTCAGGATTATGCGGTCTTCCCGCATATTTCCGTCTTCGACAACATCGCCTTCGGTTTGAAGCAGCGCAAGGCGTCTTCCACCGAGATTCGCGAACGCGTCGGCAAGATTCTCGACATCGTGCAGCTCGCTCCCTACGCCAAGCGCATGCCGCATGAATTATCCGGCGGTCAGCAGCAGCGTGTCGGCCTGGCGCGTGCGCTCGTCATCAATCCGAAAGTGTTGTTGATGGACGAGCCACTATCCAACCTCGATGCGAAACTGCGGGTGGATCTGCGGCGCGAGCTGCGCGAAATCCAGCAGGCCATGAACATTACCACGGTCTATGTGACCCACGATCAGGAGGAGGCGCTTGCCATGTCCGATCTGGTCTGTGTGATGTATGGCGGCGTCATCCAGCAGGCCGCAGCGCCCTGGGAAGTCTATAATAACCCTGCCAACCGTTTCGTCGCCTCCTTCGTGGGTGCGAACAATTTCCTGACGCTGGATCGTTCGGGCGGACAGACCTCCATTTCCGGGCACGTGGTGGCGCTACCGCAGGTCGACGCCCTTGTGCCGGAACGAACGGTCGTTGCCGCCATCCGTCCCGAAGCGATTACCGTTGGCTCGCCCGCGACCGAAGATGAACGCCGCATCGAACTGCCTGTCACCATAAGGCAGGTCAGCTTCACCGGTCGCGAGATGAATGTTGCCGCGGTACTGTCGTCGGGAGAGGAAATCGAGGCGATCACCAAGCCGTCGCCCGATATCATCGCCCTTCAGCCCGGCCAGAAAACGGTTTTCTCCTGGTCTGCGGGCGATACCAAGCTCTTCGGTGAGGGCGTTACCGGGGAGCGCCTGTCATGA	MAAVEITSIKKSYRDVVALSDINISIPSGSFFTLLGPSGCGKTTLLRTIAGFHQQDSGSISIERQAIEHVPAHKRDVGMVFQDYAVFPHISVFDNIAFGLKQRKASSTEIRERVGKILDIVQLAPYAKRMPHELSGGQQQRVGLARALVINPKVLLMDEPLSNLDAKLRVDLRRELREIQQAMNITTVYVTHDQEEALAMSDLVCVMYGGVIQQAAAPWEVYNNPANRFVASFVGANNFLTLDRSGGQTSISGHVVALPQVDALVPERTVVAAIRPEAITVGSPATEDERRIELPVTIRQVSFTGREMNVAAVLSSGEEIEAITKPSPDIIALQPGQKTVFSWSAGDTKLFGEGVTGERLS	PGPT0003735_1072	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003735-afuC|fbpC-K02010	NA	NA
BMS010_06906	993		COG1840	putative protein	ATGCGTCAATCATGCACTATTTTCGCGCGCCTTTTTGCCGGCGCCACTTTCCTTGCCAGCGCGGCTTTCGCTCATGCGGAAGGTACCGTCGTGGTCTATTCCGCCGCCCCGCAGCAGCTTATGGACGAGTTGCTGCCCATGTTCGAAAAGAAAACCGGCACCAAGGTCGAGCTTGTCAAAGCCGGGTCCGGCGAGCTGATGAACCGCATCAAGGCGGAGAGCGGCAAAGCGGCGGGCGATGTGATCTGGAGCGTTGACGGAACGGTTATCGATTTCTCCGCCGACCTTTTCGAGCCATACAAGCCGGTTGAGGCTGCGTCGATCAACCCTGCCTTTTCACCAAGCGCGAACTGGGTGCCTTTCACGGCCGTCGTCACGGCCTTTATCGTCAATAAGGAGGCGTTGAAAGGTGCCCCTGTTCCGACGTCCTGGGCTGATCTTGCAAAACCGGAATATAAGGGCCTGATTTCGTCGGCTCGCGCCGATCAGTCCGGCTCGGCCTATATTCAGATGGCGACGGTATTGCAGGATTTCGACAGCGAGGAAAAAGGCTGGGAAATTTATACCGGCATCCTCGGCAACTCGGTTCTTTCCACCTCGTCAGGCGCGGTGCCGCGTTTCGTGAACGACGGCGAGCAGGCCGTTGGCATTACGCTGGAAGATGCCGCGCTGCGCTACAAGCTCGGCAGCGCGCCGGTCGAAATCGTGTATCCGAAAGAGGGTACGGCAATTGCGCCTGACGGCATGGCGCTCGTGAAGGGAGCGCCGAATGCCGACAATGGCAAGGCCTTCATCGATTTCATCGTCTCCAAGGAAGCGCAGGAAATCGTGGTGAAGGCGGGTCGTCGCTCGGTTCGAACCGATGTCCCCGCCAATCCGGCACTCGTTCCGCTTTCCGATGTTCCAGACGCCAAATACGATTTCAAATGGGCTGCGGACAACCGCGCTCGCCTGATGGAAAAATGGAACGAGACATTGCTCGACGTTCAGTAA	MRQSCTIFARLFAGATFLASAAFAHAEGTVVVYSAAPQQLMDELLPMFEKKTGTKVELVKAGSGELMNRIKAESGKAAGDVIWSVDGTVIDFSADLFEPYKPVEAASINPAFSPSANWVPFTAVVTAFIVNKEALKGAPVPTSWADLAKPEYKGLISSARADQSGSAYIQMATVLQDFDSEEKGWEIYTGILGNSVLSTSSGAVPRFVNDGEQAVGITLEDAALRYKLGSAPVEIVYPKEGTAIAPDGMALVKGAPNADNGKAFIDFIVSKEAQEIVVKAGRRSVRTDVPANPALVPLSDVPDAKYDFKWAADNRARLMEKWNETLLDVQ	PGPT0003725_4732	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003725-afuA|fbpA-K02012	NA	NA
BMS010_06907	1134	nagC_2	COG1940	N-acetylglucosamine repressor	TTGATCGATCTCGGCTACAATGAGCGGCGTCTGCTCGAGATTTTGCGCGGCAAGGGAGGCATGTCGCGTATCGAGCTGGCGCGGGAGATGGATGTTTCCGCACCCACGCTGACCCGCCTGACGGCCAATCTCCTGGAATCCGGCCTCATCGTCGAAGCGGAGGAGGCCCGCAACGACGGTAAACGGGGGAAACCCTCCACCGCCATCGAGATCAATCCGAACGGGCTTTTCACGCTGGGGGTCTACTTCAATCCAGACGATCTGCGGGTCTGCGTGGCCGATCTCAACGGCACGATAAGGCAGGAAATCAGATCGGAGCTGGAGGGGCACAGTTTCGAACATATTATGGAGATGGCGGAGGCATCCGCACGGCAAGTCATTGAAAAAGCGAAGATAAAAAAGAAAGATGTGCTCGGCTGCGGCATCAGCTTTCCCGGCCATTTCAAGCGGGATCGCGGCCATGTCTTCCGCATCAAGCAGTTTGAAAGCTGGCGCGATATCGACGTCGAAAAGGACTTCCAACCCTATTTCGATTTCCCGGTCTTTCACGAAAATGACGGCAACACCGTCATTCTTTCCGAACTCTATTATGGTGCAGGCCGCAATATTCGCAATTTCGCGATGATCTGGCTGACATACGGCATCGGTGGCGCCCTGGTGGTGCAGCGCCATCTCTACCGCGGCACCAATGGCAATGCCGGCGAGTTCGGCGGGCTGTTTCCGAAATCCCATCCCCGCCCCTCGGGGCAGGACCTCTGCGACACTCTGGCTGCTCAAGGCGTCAGCATTCGGCGCCTGAAGGACATTGACGAAAGTTATTCCGATCATCCCGCCGTGGTGTCGTGGCTGGAGCGGGCAACGGATCAGCTTCGCCTGCTTTCACTGACGGTCGCCCGCACGATGGATCCGGCAGCCATCATTTTCGGTGGATCGCTGCCGGACTGGATTCTCGAACATATCGTGCGGCGTATCGGTTCGCTGGACATACTCGGCGAAGATTTTTTCGTCGAGCCTCCGGAAATACGCAAATCGATCATGAGCGACCTGCCTCATCTCGGCGCCGCCAGCATACCGATCTACCGCGCCACCACGCCCAGCTATTATTCCGGGCGGGCGCTGAAAGGCTGGGCATAA	MIDLGYNERRLLEILRGKGGMSRIELAREMDVSAPTLTRLTANLLESGLIVEAEEARNDGKRGKPSTAIEINPNGLFTLGVYFNPDDLRVCVADLNGTIRQEIRSELEGHSFEHIMEMAEASARQVIEKAKIKKKDVLGCGISFPGHFKRDRGHVFRIKQFESWRDIDVEKDFQPYFDFPVFHENDGNTVILSELYYGAGRNIRNFAMIWLTYGIGGALVVQRHLYRGTNGNAGEFGGLFPKSHPRPSGQDLCDTLAAQGVSIRRLKDIDESYSDHPAVVSWLERATDQLRLLSLTVARTMDPAAIIFGGSLPDWILEHIVRRIGSLDILGEDFFVEPPEIRKSIMSDLPHLGAASIPIYRATTPSYYSGRALKGWA				NA	NA	NA	NA	NA
BMS010_06908	924	dapA_9		4-hydroxy-tetrahydrodipicolinate synthase	ATGACCAAGCGTATCGAAGGCATCATTCCCGTGATGATTACCCCCTTCAGGGGCGGCAAGATAGATTTCGAGGGCGTCGCCAATCTCGTGGAATGGTACATCGCCAATGGATCGGACGCGCTGTTTGCCGTTTGCCAGTCTTCTGAGATGATGTTCCTCACCCTTGAGGAGCGCGTGGAACTGGCTGCTTTTGTTAAGAAGGCCGCAGCCGGCCGCATTCCCGTCATTGCCTCGGGCCATATCAGCGAGGCGCTTGAGGATCAGCAGAAAGAGCTCAATGCCATCGCGCAGACGGGGGTTGACGGCATGGTGCTTGTAACCAACCGGCTGGATGCCCGGCAGGAGGGCGGTTCGAAGTTTCTCGACGATCTCGGCTGGCTCCTTGAGCGTCTGCCTTCCGACCTGCCGCTTGGGCTCTACGAATGCCCGGCGCCCTATCGCCGTCTCATGACCGATGCCGAAATTTCCTTCTGCGCCAATAGCGGTCGTTTTGTTATCCTGAAGGATGTCTCCTGTGATCTTGAAACGGTCAAGCGGCGTGTGGCGCTCACCGCGAATACGCCGCTCGCCATCGTCAACGCCAATGCGGCAATTGCATTCGACGCCATGAAAGCGGGATCGCGCGGTTTCACCGGGGTCTTCACCAATTTCCATCCCGATCTCTACAAATGGCTGCTGACGGAAGCCGGCCGGCAACCGGAACTGGCTGACGAGCTGTCGGTCTATCTGGCGCTCGCCGCCATGGCGGAGCCCATGGGGTATCCCAAACTGGCGAAGCTCTATCACCAGCGCCTCGGCACCATAAGCGACATCGAAAGCCGTGCGGTGACGTTCGATATTCAGGAGCGTTTCTGGGCGATAGAGGCTCTTCTGGACAAGATCATGCAGGGCACGGAGGAATTCCGGCGGCGCATATCAAGATAG	MTKRIEGIIPVMITPFRGGKIDFEGVANLVEWYIANGSDALFAVCQSSEMMFLTLEERVELAAFVKKAAAGRIPVIASGHISEALEDQQKELNAIAQTGVDGMVLVTNRLDARQEGGSKFLDDLGWLLERLPSDLPLGLYECPAPYRRLMTDAEISFCANSGRFVILKDVSCDLETVKRRVALTANTPLAIVNANAAIAFDAMKAGSRGFTGVFTNFHPDLYKWLLTEAGRQPELADELSVYLALAAMAEPMGYPKLAKLYHQRLGTISDIESRAVTFDIQERFWAIEALLDKIMQGTEEFRRRISR	PGPT0002080_1572	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
BMS010_06909	849	hdfR_4		HTH-type transcriptional regulator HdfR	ATGCGCTCATTGGATCCCGAGGCCGTCGAGGCTTTTCTTCTCGTTGCCGAATTGCAGTCTTTCACACGGGTTGCAGGCATGATGAACACGTCACAGGCGGCAATATCGCTGCGCCTGCGCCGGCTTGAGGACATGCTGGGGCATCGCCTCGTCGAACGGACGCCGCGTCGCGTGCGTTTGACGGCGGCCGGCGAACGCTTTCTGGAGCCCGCGCGGGCTTATGTTGCAGCCGGCCGGCGTGCGCTCGATGTCTTTGGGCAGGAGCCGACCCGCCTCGCAATCGGTTTCACGCATCATTTGATCGGGGCCGATCTGCCCCGGATACTCCGGGTGATCAGCGAGCGTGAGACGAGCGTTACACTTCATTTGCGCACCGCCGGCACCAGGACCCTGCTTGAGCTCTACGATGCCGGCGCGCTCGATGCGATCGTCGTGTTGCGGCATGACGACATTCGCCGCGATGGCGAGTTGCTGTTTCAGGAAAGCTTCGGCTGGTACTGTAGCGCGGATTTCGATCTGCCTTCGAACCTGCCGGTGCCGCTGGTGCTTCAACCGGAGCCCTGCAATTTGCGAGCCATGGCCCTTCGGGCGCTGGAGGCGGCGGACATCGCCTGGCGTGAGGTATTCGTCGGAACCGGGGCAACGGCGGTGGGAGCGGCTGCCGAAGCCGGGATCGGCGTCGCACTGCTGGCGCGAAGTGTAGCGCCCGCCGGTCTGCGGGAGGTGAGGGAAGGCCTGCTCCCACAGCTTTCGAAACTGGACGTGGTGATGATTTCCGCGGTCACAGGCGATCATGCGAACGCCGTGCTGCGACGGATCACGCGGGCATTTCAGTCCCCTCGAGCCTGA	MRSLDPEAVEAFLLVAELQSFTRVAGMMNTSQAAISLRLRRLEDMLGHRLVERTPRRVRLTAAGERFLEPARAYVAAGRRALDVFGQEPTRLAIGFTHHLIGADLPRILRVISERETSVTLHLRTAGTRTLLELYDAGALDAIVVLRHDDIRRDGELLFQESFGWYCSADFDLPSNLPVPLVLQPEPCNLRAMALRALEAADIAWREVFVGTGATAVGAAAEAGIGVALLARSVAPAGLREVREGLLPQLSKLDVVMISAVTGDHANAVLRRITRAFQSPRA				NA	NA	NA	NA	NA
BMS010_06910	1251			hypothetical protein	GTGTCTTCACAGATTTCCTCGACCTCGCCCACGCCCGCCACCGACCGCCGGATCTGGGCAGTCCTTGCCGTCGCCGTCGCAACGCAAACCGCCGGCTCGTTCGTATCGCAGGGGATTTACATCCTCGTGCCCTTCTGGCGAGAAGCATTCGGCATCTCCCTTGCATCCGCATCACTGGCCGTGACCGTCATGAACGGTGTGCAGATCGTGACGATGTTCACGCTCGGCCGCGCCATCGATATTCACGGCGAACGCCGCATTGTCGGCATTGCCATGCTCGGCATGGCGCTCGCGATGGCCTGCGCGGCGGCATTCGCAAACAGCCTGCCGGCGCTGCTTTTGTGCATCGCGTTTCTGGGCGGCACCTATGCTGCGGTCCAACCGGGCGGCACGCGGGCGATCATGCGCTGGTTCCCGCCTGCCAAGCGCGGCATAGCGACTGGGTTTCGGCAGGCTGCGGTTCCTTTCGGAACGATGATCGCGGCCGCCCTCCTCCCGTTCATGGCGGTTCGTTACGGATGGCATGCGGCAGCATGGCTCTGCGCCGGTGTTTCCGTCACGGGCGCCGCACTCTTCTGGGGTCTCTATCGCGAGGGAGGCGATGTGGCCGCAAAAACCGAGCGCCCGCTTCCCCTGGCAAGACTCGCCCGCGAGGTCGGGCAGAATTCGAGCTTCTGGCCCGTATTACGGCTTGGTATAGCCATGTCCGCGTTTCAATTCACCCTCACCGCACACGTCATCGGCTTCATGGCGGATGGATTGGGGCTTGGCCTTTTTGCCGCATCGTCCATGTTTGCCGCAACGCAGCTTGCGGGCATTCCCGGCCGGATTTTGCTGCCATGGCTCAGCGACCGTTTCCGGCCCGGCCTTCGTACGCAATCCTTCGGCCTGGTATCCGTCATTGCCGCAGGCGCTGCCGCAATCCTCGCGGCACTGCCCATCGGCGTTCCGACGCCGATTATCCTCATCGTGCTTGTCGTGCTGGGAATATTCGGGATCGGTTGGTTTCCACTTTACCTTCTTCAGATCGCCGAAAGCGCACCGAAAGGTTCAATAGCGTCGACGATCGCCTTCGCTTCCACGATCTGCATCGGTGTCATGGCAATCGGCCCCTATATATTCGGCCTTCTGGTCGATCATCTTGGCTACGGGGCAGCATGGTTCGCACTGATCGTGCCGGTGGTCGCAACAGCGCTGCCCCTCACAATCTCATCGCCGCGCCTGCCGAAAGCTCAGATCGGCTCTTCATGA	MSSQISSTSPTPATDRRIWAVLAVAVATQTAGSFVSQGIYILVPFWREAFGISLASASLAVTVMNGVQIVTMFTLGRAIDIHGERRIVGIAMLGMALAMACAAAFANSLPALLLCIAFLGGTYAAVQPGGTRAIMRWFPPAKRGIATGFRQAAVPFGTMIAAALLPFMAVRYGWHAAAWLCAGVSVTGAALFWGLYREGGDVAAKTERPLPLARLAREVGQNSSFWPVLRLGIAMSAFQFTLTAHVIGFMADGLGLGLFAASSMFAATQLAGIPGRILLPWLSDRFRPGLRTQSFGLVSVIAAGAAAILAALPIGVPTPIILIVLVVLGIFGIGWFPLYLLQIAESAPKGSIASTIAFASTICIGVMAIGPYIFGLLVDHLGYGAAWFALIVPVVATALPLTISSPRLPKAQIGSS				NA	NA	NA	NA	NA
BMS010_06911	237			hypothetical protein	GTGCGCGGCGAGCCGCAATTGGGCATCGTGACAGTCGGGCGTTTTCCGCTTGGACAGGATGACGTGACCGCGCAGGTCACGGCGGACCTCAACAGGGCAGGATATCTTGCCGAGGCAAGCGACGACATCCATGAGGACACCTCCGTCGCCATTCTCGGACGCGCCGCCTTTCACCGCTGGAAAACGAGCGGGAATGACCGGTCGGCACCCAACCTGTCGATCCTGAAGACGGCTTGA	MRGEPQLGIVTVGRFPLGQDDVTAQVTADLNRAGYLAEASDDIHEDTSVAILGRAAFHRWKTSGNDRSAPNLSILKTA				NA	NA	NA	NA	NA
BMS010_06912	930			hypothetical protein	ATGATCCCGGACTTCCTCGTCACCCATTCCGGTGGCTTCCATGCCGACGAACTGCTGTCGAGCGTCGTGCTGACCCGGCTTTTCCCGCAGGCACGCCTGATCCGCAGCAGGGCGCCCGAATGGACCGCACCTGGCGCAGACCGCATCGTCTACGACGTCGGCGGTGTTTATGACGCGGCGAAGGGCGCCTTCGATCACCACCAGCGCGGTGCGCCGTTGCGCGAAGACGGTCAGCCCTATAGTTCGTTCGGACTGATCTGGAAGCATTTCGGCCGCGATTATCTCGCCGCCTTTGGCGTTCCTGAAGACCATATCGAAACCATTCACGCCTCTTTCGATGCCAGCTTCGTGCTGCCGGTCGATCTGGTCGACAATGGCGCGCTCAGCCCCTCCACCGCCGGGGCACTCGCCGGGCTGACCCTGCCCGTGTTGCTGGAAACTCTGAAACCTGTTTTCGACGAGACAGATCCCGAAGCGGACAATCGCAGTTTCCACGCGGCGCTGGCCATCGCCCGCAGCTTCGTGGAGGCAAAGATTGCCAACAGCGCCGCGAAATTGCGGGCTGAAGCGCTCGTGAGCCGGGCTATCGTGGATGCCGGCGACGGACATATTCTGGAACTGCCGATGGGAATGCCGTTTCGGCCCGCCATCAAGAAGGCGGGCGCCGACCATCTGCTCTTCGTCGTTCATCCACGCAACAACGACTGGTGCCTGACCGGCATCCGCCGCGCGGATGAAGGCTTTGAACTGCGGGCGGATCTGCCGGCGACCTGGGCCGGCCTGACGGACAAAGATCTAGAAGCGGTTTGCGGCGTCGAAGGCGCGAGCTTCTGCCACAACGGCCGATTTGTCGCGGCGGCCAGAACCCGCGATGCGGCACTCGCCATGGCGGAGCTGGCGGTAAAGGAGGCGACCGCAGCCAAACAGTGA	MIPDFLVTHSGGFHADELLSSVVLTRLFPQARLIRSRAPEWTAPGADRIVYDVGGVYDAAKGAFDHHQRGAPLREDGQPYSSFGLIWKHFGRDYLAAFGVPEDHIETIHASFDASFVLPVDLVDNGALSPSTAGALAGLTLPVLLETLKPVFDETDPEADNRSFHAALAIARSFVEAKIANSAAKLRAEALVSRAIVDAGDGHILELPMGMPFRPAIKKAGADHLLFVVHPRNNDWCLTGIRRADEGFELRADLPATWAGLTDKDLEAVCGVEGASFCHNGRFVAAARTRDAALAMAELAVKEATAAKQ				NA	NA	NA	NA	NA
BMS010_06913	549			hypothetical protein	ATGAAGTTTCTGTTGGCCGTTTCGCGCGCCATCGATGCCGCCAATGCAGCCATTGGCAAAGGCATTTCCTGGCTGCTTCTCGCGGCCATTTTCATCAGCGCCATCAATGCCGTCATGCGCAAGGCGTTTTCGATGAGTTCCAACGCCTGGCTTGAATCGCAGTGGTATTTGTTTTCCGCCGTGTTTCTGATCGCCGCCGCCTACACGCTTCTTAACAACGAGCATGTGAAGGTAGATCTGGTCTACGGTAATCTTCCGCGCAAGGGACAGCTCTGGGTCGACATTCTCGGGACCATTTTCTTTCTCATGCCCTTCTGCCTCATCACGGTCTATCTCTCCTGGCCGGTGTTTCTGCAGAAACTTGCTTCCGGTGAGGTTTCAAACAACACGGGCGGCCTCATTCAATGGCCGGTCTGGGCGCTGATACCGATTGGCTTCAGCCTTCTCGCCATCCAGGGCGTTTCGGAACTCATCAAGCGTGTCGCGATCCTGCGCGGCGATATCCCCGATCCCGTTGCAGAGGCTGACGCCGCGGCGGCAATGCTCTGA	MKFLLAVSRAIDAANAAIGKGISWLLLAAIFISAINAVMRKAFSMSSNAWLESQWYLFSAVFLIAAAYTLLNNEHVKVDLVYGNLPRKGQLWVDILGTIFFLMPFCLITVYLSWPVFLQKLASGEVSNNTGGLIQWPVWALIPIGFSLLAIQGVSELIKRVAILRGDIPDPVAEADAAAAML				NA	NA	NA	NA	NA
BMS010_06914	1506	dctM_5	COG1593	C4-dicarboxylate TRAP transporter large permease protein DctM	ATGGCATTCATTGCGGAAAATCTCGCGCCCATCATGTTTGCGGCGCTCATCATCGTGCTGTTGCTCGGCTATCCCGTGGCCTTCGCGCTAGCCTTTGTCGGCTTTTTCTTCGGCTTCATCGGAATCGAACTCGGCTTGCTGCCAGCGACGCTGTTCCAGGCCATTCCCGATCGCATATTCGGCCAGATGTCGAACGAAACGCTGCTGGCGATACCGTTCTTCACCTTCATGGGGCTCATTCTTGAAAAGAGCGGCATGGCGGAGGATTTGCTGGACACGATCGGCCAGCTGTTTGGACCGGTCCGCGGCGGCATTGCGTTTGCCGTGATCTTCGTCGGGGCAATTCTGGCCGCCACCACCGGCGTCGTCGCCGCCTCGGTTATCTCGATGGGCCTCATCTCGCTTCCCATCATGTTGCGCTATGGTTATGACCGCAAGGTCGCCGCCGGCACGATCGCGGCTTCCGGCACGCTGGCGCAGATCATCCCGCCCAGCCTCGTGTTGATCGTGCTCGCCGACCAGCTTGGCCGTTCGGTGGGCGACATGTACAAGGGCGCGCTCGTTCCGGGTCTTATGCTCGTGGCGGCCTATGCGCTCTATATCATCGTGACCTCGATCATCAGCCCCACGAAAGTCCCGGCCCTGCCGCTGGAGGCGCGGACCCTGCGCGGCACCAAGCTGCTGCTCAAGGTCATCACCTCGCTGGTGCCGCCGCTCGTCTTGATATTCCTCGTGCTCGGCACGATCTTCCTTGGGATCGCCACCCCCACGGAAGGCGGTGCCATGGGTGCTGTCGGCGCGCTTGCCCTTGCGTTTGCCAACCGCAAGCTCAATTTCGGTCTGATCCAGCAGTCGCTGCACGCCACGGCGAAGCTGTCGTCCTTCGTGCTGCTCATCCTGCTCGGCGCGCGCGTCTTTTCCCTGACCTTCTATGGCGTGAACGGCCACGTCTGGGTCGAGCATCTGATGACATCGATCCCGGGCGGCGAGATCGGCTTCCTGATCGTCGCCAACCTGCTGGTCTTTTTCCTGGCCTTCTTCCTCGATTATTTCGAGCTGGCCTTCATCATCATCCCGCTGCTGGCGCCGGTCGCCGATGCGCTTGGCATCGACCTGATCTGGTTTGGCGTGATGCTAGCGGTCAACATGCAGACGTCGTTCATGCACCCGCCCTTCGGTTTCTCTCTGTTCTTCCTGCGATCCGTCGCACCGACGCGGGCCTACAAGGATCGGATCACGGGACAGACGATCCAGCCGGTCACCTCGTCCCAGATCTACCTGGGCGCCATTCCCTATCTGTTCATCCAGCTGACCATGGTCGTCATCATCATCGCCTTCCCCGGCATCGTGATGCACTACAAGTCAGGCGCCAAGGTGGCGGATCCTTCGTCCGTCCATATCAACGTTCCCATGCCGAGTGCGGGAACGGACGCCGATCCCTTCGCCAATCCTTTCTCGGCACCCGGCAACAGCGCACCGAGCTTCGGAAAGCCGGCCACCCCATGA	MAFIAENLAPIMFAALIIVLLLGYPVAFALAFVGFFFGFIGIELGLLPATLFQAIPDRIFGQMSNETLLAIPFFTFMGLILEKSGMAEDLLDTIGQLFGPVRGGIAFAVIFVGAILAATTGVVAASVISMGLISLPIMLRYGYDRKVAAGTIAASGTLAQIIPPSLVLIVLADQLGRSVGDMYKGALVPGLMLVAAYALYIIVTSIISPTKVPALPLEARTLRGTKLLLKVITSLVPPLVLIFLVLGTIFLGIATPTEGGAMGAVGALALAFANRKLNFGLIQQSLHATAKLSSFVLLILLGARVFSLTFYGVNGHVWVEHLMTSIPGGEIGFLIVANLLVFFLAFFLDYFELAFIIIPLLAPVADALGIDLIWFGVMLAVNMQTSFMHPPFGFSLFFLRSVAPTRAYKDRITGQTIQPVTSSQIYLGAIPYLFIQLTMVVIIIAFPGIVMHYKSGAKVADPSSVHINVPMPSAGTDADPFANPFSAPGNSAPSFGKPATP				NA	NA	NA	NA	NA
BMS010_06915	1113	takP_2	COG4663	Alpha-keto acid-binding periplasmic protein TakP	ATGAAGGTCAACCCAGGTCGCAGACAACTCTTGTCGGGCGGCGTACTTGCAGGGGCTGCTGCGGCTGCTTCGGCACTTGCGACACCCGCCATAGCCCAGTCTTTGCCAACCGTTCGCTGGCGTCTCACGTCCGGCTTCCCGAACAATCTGGACACGATCTATGGCGGCGCCGTCGTCATGGCCAATGCATTGAAGGCGATTACAGGCGGCAAGTTCGAAATCCAGGTCTTCCAGGCCGGTGAAATCGTTCCCGGCGCCCAGGCCATCGACGCCGTAAAAGCCAATACCGTCGAGATTTCCCATACCTGCGGCTATTATTTCACCGGGAAAGATCCGACATTCGCCATCGGTTCGACCATCCCCTTCGGCCTGAACGCCCGCCAGCAGAACGCATGGCTCTACCACGGCGGCGGCAACGAGGCTTACAACGAATTCCTTTCCGACTACGGCGTCATCGGCATTCCCGGTGGAGCAACGGGCGCCCAGATGGGCGGTTGGTATCGCAAGGAGATCAAGAGCCTCGAGGATATCAAAGGCCTCAAGATGCGTATCGCCGGCGTTGCCGGACAGGTGCTCGCCAAGCTTGGTGCGGTGCCGCAGCAGCTTCCGGGCGGCGACATCTATCCGGCGCTGGAGCGGGGCACGATTGATGCCGCGGAATGGGTCGGTCCCTATGACGACGAAAAGCTCGGCTTCTACCAGATCGCGCCATACTACTATTATCCCGCATTCTGGGAAGGCGGACTGACGATCCACTTCTTCGTCAACAAGGACCAGTACGCAGCATTGCCTGATGAATACAAGGCAGCCCTCGACACCGCCTGCAAGGCCGCCAACATCAACATGCAGGCGCTGTACGACGTCAAGAACAAGGATGCGATCCGCTCGCTGGTTTCCAAGGGCACGCAGCTTCGCCCGCTGCCCCGCGATGTGCTCGACGCCGCCTATAAGGCGACCTTCGAGCTTTATGACGAGTACACCCAGAAGCATCCCGCATGGGCCAAGATCTATCCGGGCTGGAAGAAGTTCCGCGACGAGAGCTTCGAATGGTTCCGCGTCGCCGAATATACCTATGACAGCTACGGCTATGCCATGCAGACGGCCGGCAAATAA	MKVNPGRRQLLSGGVLAGAAAAASALATPAIAQSLPTVRWRLTSGFPNNLDTIYGGAVVMANALKAITGGKFEIQVFQAGEIVPGAQAIDAVKANTVEISHTCGYYFTGKDPTFAIGSTIPFGLNARQQNAWLYHGGGNEAYNEFLSDYGVIGIPGGATGAQMGGWYRKEIKSLEDIKGLKMRIAGVAGQVLAKLGAVPQQLPGGDIYPALERGTIDAAEWVGPYDDEKLGFYQIAPYYYYPAFWEGGLTIHFFVNKDQYAALPDEYKAALDTACKAANINMQALYDVKNKDAIRSLVSKGTQLRPLPRDVLDAAYKATFELYDEYTQKHPAWAKIYPGWKKFRDESFEWFRVAEYTYDSYGYAMQTAGK				NA	NA	NA	NA	NA
BMS010_06916	633	degU_4	COG2197	Transcriptional regulatory protein DegU	GTGACCGTTCATCCGATCCGTGTGTTGTTGATAGACAACCATCCTCTCGTTCTGGATGGGTTGAGGGCCGTCCTTGAGACTTACGAGCATCTCGCGGTCGTTGGAACGGCGGTGTCCGCCATGGCCGGTATCGACGCGGCTGTCGCCACGCGGCCCGATGTGGTGCTGATGGATATCAACATGCCGCAGATCAATGGCATCGATGCCCTGGAGCTGTTCAAGGAAAAGCAGCTTTCCGCCCGGGTGCTGATGCTGTCGATGCATGACAGCCGGGAATATATATCGACATCGGTTATGTATGGTGCGGCCGGTTACATTCTGAAGGACGTGGCGACCGAAGAAATAGTCGCCGCAATCGAAACCGTGGCTGCCGGCGGCACCTATTTTTCCTCTGGCGTTCGCGATGTGCTGATGGAAGGGTCTTCCGGCAGGCTGAAGGCGCTGACGACACGCGAGCAGGAAGTTCTGCTGTTGATCGCGCGCGGAAAGAGCAATCGCGACGCTGCCCTGGCGCTCGACATCGCCGAGCGCACGATGGAAACCCATCGCAAGAATATCAAGAGGAAACTGGATATAGCGACGACCGCCGGTCTCATCCGCTATGCGATCGATAACGGGCTTATCAAAGAATAG	MTVHPIRVLLIDNHPLVLDGLRAVLETYEHLAVVGTAVSAMAGIDAAVATRPDVVLMDINMPQINGIDALELFKEKQLSARVLMLSMHDSREYISTSVMYGAAGYILKDVATEEIVAAIETVAAGGTYFSSGVRDVLMEGSSGRLKALTTREQEVLLLIARGKSNRDAALALDIAERTMETHRKNIKRKLDIATTAGLIRYAIDNGLIKE	PGPT0000550_1477	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	N-AQUISITION-NITRATE|NITRITE_SENSING,PGPT0000550-narL-K07684	NA	NA
BMS010_06917	1398			hypothetical protein	ATGAAACTCAGGAGCCAGATTCTCGCATTGGCCATCGGGCCTCTCGTTCTTGCGATTATCGTCATCACAGCGCTGATCACGTGGCAGTCCATGACGCTGGCGCGCACGAGCATCGATGCGTTCGAACGAAACATGCTCGCGGCAAAGGAGGCTGAACTCCTTAACCTCACCAATCTTGCCCTTTCGGCGATCCGCTCGGTCTATGACAGGGCAGGACCTGATGACGAGGCCGCGAAGGAAGAGGTCAAGCGCATCCTGACCGGTCTCGACTACGGCACTGACGGCTATTTCTTCGTCTATGACTATGACGGGCTGAACGTGGTCCATCCGCGACAGAATTTCCGTCCGGGGAACAACTGGCTGGATCTCCACGATCCCGATGGCAACCGGGTGATCTACGATCTGATCGTCGAGGCGAAAAAGGGGGGAGGACTGGTCCAGTACAAGTGGGAAAAGCCTTCCACCAAAAAAATGGCCGACAAGCTTTCCTTTGCGGCCGGCCTCGACAAATGGCGCTGGATGATCGGTACCGGCGTTTACCTCGACGACGTTTTTGCGACGACGGCAGCGGCGAAGGAGGAGTTGCGGCATTCGATCACCTGGAACTTCCTGATCGTCGCCCTGTTTGCGGTTCCCGCCGTATTGCTGGTGTTTGCCACCTGCATGTTGCTCAATCTGCGCCAGCAGCGGCTGGCGGATGGGCGGCTCAAGGAATTGATGCAAAGGATCATCGATACCCAGGAGGAGGAGCGTCTGCGCATTGCCCGGGAGCTGCATGACGGCATTTCCCAAAATCTTGTCGGCGTGCGTTTTGCGATCGATCTCGCGCGGCGCAAGGTCACGCCGGATAATGTCGGCGCTGTCGAGGCAATCGGCAAAGGCGCCATTGCGCTGAACGAAGCGATCAAGGAAGTCCGCCGCATCTCGCACGATCTTCGCCCGCGTGTCCTCGACGATCTGGGGCTGACGGCAGCTCTGGAATCCCTGATCTCGAGTTTTTCCGAACGCACGGGAATTGCGGCGACGCTTGAATCCGTGGCCTTCAAGCATATGCTTGTCCCGGAGGCACGGGTTGCCCTTTACCGTGTCGCACAGGAGGCGCTGACCAATATCGAGCGCCATGCCGACGCGACGCAGGTCGCCATCCGTTTTTCCAGTCGCGACGAACGGGTGCAGATGGATGTCAGCGACAATGGCCGCGGCTTTCCGGCCGTTCGGACGGAAAACGGGATGCCGGCGAGCAAGGGGCTCGGTTTGAGAAACATGCAGGAACGCATGACGCATTTCGGGGGCAGGCTGGATGTCGAAAGCTCGGCAAAGGGAACCGTTCTGCGGGCGGTGCTGCCCATCACCGCCATGAAGGATCGCAATGGCGGCTTGCAGGAGGCCGCCGAGTGA	MKLRSQILALAIGPLVLAIIVITALITWQSMTLARTSIDAFERNMLAAKEAELLNLTNLALSAIRSVYDRAGPDDEAAKEEVKRILTGLDYGTDGYFFVYDYDGLNVVHPRQNFRPGNNWLDLHDPDGNRVIYDLIVEAKKGGGLVQYKWEKPSTKKMADKLSFAAGLDKWRWMIGTGVYLDDVFATTAAAKEELRHSITWNFLIVALFAVPAVLLVFATCMLLNLRQQRLADGRLKELMQRIIDTQEEERLRIARELHDGISQNLVGVRFAIDLARRKVTPDNVGAVEAIGKGAIALNEAIKEVRRISHDLRPRVLDDLGLTAALESLISSFSERTGIAATLESVAFKHMLVPEARVALYRVAQEALTNIERHADATQVAIRFSSRDERVQMDVSDNGRGFPAVRTENGMPASKGLGLRNMQERMTHFGGRLDVESSAKGTVLRAVLPITAMKDRNGGLQEAAE				NA	NA	NA	NA	NA
BMS010_06918	1284	mdeA		L-methionine gamma-lyase	ATGACCGCGCCGCATCCGTCCAAAACCCATATCGGCAACCACGCTCTCCATCCTGAAACCCAGATGCTCAATTACGGTTATGATCCGGAATTGTCGGAGGGCGCCGTAAAGCCTCCCGTGTTCCTGACATCGACCTTCGTTTTCAAATCGGCGGAAGACGGGCGCGACTTCTTCGACTACGTCTCCGGCCGCAAGGAGCCGCCGGAGGGCAGGGGCGCGGGTCTCGTCTATTCGCGCTTCAACCATCCGAACAGCGAAATCGTCGAGGATCGTCTTGCCGTTTATGAGCGCACCGAGAGCTGTTCGTTGTTCTCCTCGGGCATGTCCGCCATTTCAACGACGCTTTTCGCCTTTGTCCGGCCCGGTGACACCGTGCTCCATTCCCAGCCGCTGTATGGCGGCACGGAGACGCTGCTGGCCAAGACCTTCCATAATTTCGGCGTCTCGGCAGTGGGTTTCGCCGATGGTGTCAGCGAAACCTCGGTGATGGCTGCGGCAGAAGAGGCGATGGCGAAAGGCAGGGTCTCCGTCATCCTCATCGAGACCCCCGCCAATCCGACAAACAGCATTGTCGATATTTCGATGATGAGCCGGGTCGCCGACTTGATCAGCGAAACGCAGGGGCACAGGCCAATCATCGCCTGCGATAATACGCTTCTCGGCCCGGTGTTCCAGCGGCCCATCGAATACGGTGCGGACATCTCGCTCTATTCGCTGACGAAATATGTTGGCGGGCATTCCGACCTCATTGCCGGGGCAGCGCTCGGCCGGAAGGATGTCATGAAACAGGTGAAGGCATTGCGTGGAGCAATCGGCACGCAGCTCGATCCGCATTCGTGCTGGATGCTCGGACGTTCCCTTGAGACGCTGCAGATCCGGATGGAGCGGGCGGACAGCAACGCCAGGGTCGTGGCGGAATTCCTGAACACGCATCCCAAGGTCGAGAAAATCCATTACCTGCCGTTCAGCGATCCGGCGTCCGCGGTTGGCAGGGTATTCGCCGCTCAATGCTCCGGCGCGGGATCGACCTTCTCGTTCGACATCGTCGGCGGGCAGGCCGCATCTTTCAAATTTCTCAATGCGCTCAACATATTCAAACTCGCGGTAAGCCTCGGCGGCACGGAGTCTCTTGCGTCTCACCCTGCAACGATGACGCATTCGGGAGTTCCTGCCGATGTCCGCCAGCGCATCGGTGTGCTGGATTCCACGATCCGGCTGTCAATCGGCATCGAACATCCCGACGATCTTGTCGCCGACCTGACGCTTGCCCTGGATCAGGCCTGA	MTAPHPSKTHIGNHALHPETQMLNYGYDPELSEGAVKPPVFLTSTFVFKSAEDGRDFFDYVSGRKEPPEGRGAGLVYSRFNHPNSEIVEDRLAVYERTESCSLFSSGMSAISTTLFAFVRPGDTVLHSQPLYGGTETLLAKTFHNFGVSAVGFADGVSETSVMAAAEEAMAKGRVSVILIETPANPTNSIVDISMMSRVADLISETQGHRPIIACDNTLLGPVFQRPIEYGADISLYSLTKYVGGHSDLIAGAALGRKDVMKQVKALRGAIGTQLDPHSCWMLGRSLETLQIRMERADSNARVVAEFLNTHPKVEKIHYLPFSDPASAVGRVFAAQCSGAGSTFSFDIVGGQAASFKFLNALNIFKLAVSLGGTESLASHPATMTHSGVPADVRQRIGVLDSTIRLSIGIEHPDDLVADLTLALDQA	PGPT0020020_365	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020020-mdeA-K01761	NA	NA
BMS010_06919	459	lrp_9	COG1522	Leucine-responsive regulatory protein	ATGTCGCAAAAAATTGCAGACCCGATCGACAGGCGGATACTCAAGGAATTGTCTGCCGATGCGCGGATCACGAACAACGAACTTGCCGAGCGGGTCGGACTGTCGGCATCGGCGTGCCTGCGACGGCTTCGACGCCTGGAAGAGATGGGCGCCATCAAAGGGTACTCCGCGATCATCAATCCGGCAATCGAGGGATGGACCATGACCGCCCTTGCGTCCGTCCGCCTCAGCCGCCAGCACGATGACGAAATCCGGATGTTCGAGGCGGCCGTGCTTGACTGGGACGAGGTTCTCGAATGTCATCTCGTCACGGGTCCGAGGGACTACATGCTCAAGGTCATGTGCGGTGGGCTGGAGGATTACGAGCGTTTCATCAAGGACAAGATTGCAAAGCTGAAATGCGTCGAGACTATCGAGACCAGCTTCGTCATGAACACCATCAAGGCGCGGCGCATCTGA	MSQKIADPIDRRILKELSADARITNNELAERVGLSASACLRRLRRLEEMGAIKGYSAIINPAIEGWTMTALASVRLSRQHDDEIRMFEAAVLDWDEVLECHLVTGPRDYMLKVMCGGLEDYERFIKDKIAKLKCVETIETSFVMNTIKARRI				NA	NA	NA	NA	NA
BMS010_06920	1689			hypothetical protein	ATGAAGAAGCTCATCAACGATCCAGCCACCGTTGTGCGGGACATGCTCGAAGGCGTGGTGGCCCTCAGCCCCGCGACGGTCCTGCTTGCGGATGAGAATGTCGTTATCCGGTCTGGCCTTCAGGCCCCGGAAAAGCGCAGGGTGGCGGTGCTGTCGGGCGGGGGCAGTGGCCATGAGCCAGCCCATGCGGGTTATGTGGGCGCGGGCATGCTGACCGTTGCGGTGGCAGGCGATGTCTTCACCTCGCCAAGCACCGATGCGGTTCTTGCCGGCATCAGGGCTGCGGCCGGACCCGCCGGTGCTCTGGTTATCGTCAAGAACTACACGGGCGACCGGCTGAATTTCGGATTGGCGGCCGAGCTGGCACGGGCTGAAGGAATTCCGGTCGAAATCGTGGTCATTGCCGATGATGTCGCCTTGAAGGACACAGTTCCCGACGACCGCCGCCGGGGTATTGCAGGCACAGTGCTCGTTCACAAGCTCGCCGGCGCGGCCGCGGAGCAGGGACTTCCCCTTCAAGAGGTGGCCCGCATCGCCCGGGAAGCTGCCGGAAAATTGTCCTCCATGGGAATATCGCTGGGGTCCTGCACGCTCCCTGCCGTCGGCAGACCGGGCTTCGTCCTTGGCGACGCTGAAATCGAAGTCGGGCTCGGCATCCATGGCGAGCAGGGCGTCCGGCGGATGTCCATCGCATCGGCGGACGAGCTTGTGAAGCTGGTCCTCGAGACGATCGAAGCCGATGGCAGGCTGAAGAGCGGAGACCGGGTTGCGCTTCTGGTCAACGGACTGGGATCGACGCCGCCAATGGAACTTGCGGTCGTGGCGCGATCCGCCATCACACGCCTGGAAGCAAAGGGCGTCGTGGTCGAAAGGGCATGGGCCGGTACCTTCCTCTCCGCCCTCGATATGCCCGGCTTTTCTTTGTCAGTCATGCATGTGGACGACGCAATGCTCAACCTCATGGATGCGCCAACCGATGCCGGTGCGTGGCCGCGCGGCGGTGCGGTGAACCGCAACCGCGTCTTGCCTTCGGCAGGTGTCGAGAAGAGCGTGACTGCGGAAATCAGGATAACGGCCGCCGGTGAACGACTGCGTTCCGCGGCGGAGCGGGTCGCCCGAGCCCTGATCGCTGCAGAGCCTAAACTGACGCAGCTGGACAGTGTTACGGGCGACGGTGACCTTGGGACAAGCATGGTGCGAGGCGCCGAAGCAATATTGGCGCTGCCTCGGGAGAGCTTCGCAGATGTGTCCGGTGGCTTGATGGCGATGGCAAACGCGATGCGGAAGGCAATCGGCGGAAGCTCTGGCCCCTTTTACGCCACGGGTCTGATGCGCGCTTCGCGCCATCTTGCCGGGACCGAAAAGCCGACTGCCCAACAGATGGCGGAGGCGTTCGTGGCTGCCGTTCTTGCCGTCTCGGAACTCGGTGGTGCGAAACCGGGGGACCGTACGATGATAGATGCGCTTCATCCGGCGGCGGAAACGTTCCGGGACAAGCTCGCAGCCGGAGCTTTAGCCGATGAGGCCTGGCGATCCGCCTCGGCGGCAGGCATCGCAGGCGCCGAGGCGACGACGTCGATGAAGCCGCGGCTCGGGCGCGCGAGCTATCTTGGCGAGCGGGCTATAGGACATCCCGATGCGGGAGCTGTCGCCGTCAGCATCTGGCTTGAAGCAATCGGGAACGATTAG	MKKLINDPATVVRDMLEGVVALSPATVLLADENVVIRSGLQAPEKRRVAVLSGGGSGHEPAHAGYVGAGMLTVAVAGDVFTSPSTDAVLAGIRAAAGPAGALVIVKNYTGDRLNFGLAAELARAEGIPVEIVVIADDVALKDTVPDDRRRGIAGTVLVHKLAGAAAEQGLPLQEVARIAREAAGKLSSMGISLGSCTLPAVGRPGFVLGDAEIEVGLGIHGEQGVRRMSIASADELVKLVLETIEADGRLKSGDRVALLVNGLGSTPPMELAVVARSAITRLEAKGVVVERAWAGTFLSALDMPGFSLSVMHVDDAMLNLMDAPTDAGAWPRGGAVNRNRVLPSAGVEKSVTAEIRITAAGERLRSAAERVARALIAAEPKLTQLDSVTGDGDLGTSMVRGAEAILALPRESFADVSGGLMAMANAMRKAIGGSSGPFYATGLMRASRHLAGTEKPTAQQMAEAFVAAVLAVSELGGAKPGDRTMIDALHPAAETFRDKLAAGALADEAWRSASAAGIAGAEATTSMKPRLGRASYLGERAIGHPDAGAVAVSIWLEAIGND	PGPT0018465_460	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018465-dhaK_2-K00863	NA	NA
BMS010_06921	372			hypothetical protein	GTGAGACGGATGTGGCCAGACGAATTTGCGTTTCTGCTGGACGGTGCAGAAGAGGTTGACCTACATATTCCATCGACGGCGCATGACGATGGTTCGCCCGGAAAAACAATATCCAGAAAGGCCTTGAAAGCCCGGATCAGCCAGCAGGATTTTGAAAATATCTGGCATCTCGCAGAGGCCCGCTACCGGCTGAACGGCAGGTTCTCTGACAAGGCGATTACGCTGATCGCCAACAACCCCCACTACCAGAAATGGCACCCTTCCGACGGCGGCAGCATCGAAAGCGTCTCCGATAGCGGTCAGAAATACACGACACGCTATGTGATCGTGCATTTTCTTCTGGATGATGTCAGCGAAGCTGTCGAAGCCTGA	MRRMWPDEFAFLLDGAEEVDLHIPSTAHDDGSPGKTISRKALKARISQQDFENIWHLAEARYRLNGRFSDKAITLIANNPHYQKWHPSDGGSIESVSDSGQKYTTRYVIVHFLLDDVSEAVEA				NA	NA	NA	NA	NA
BMS010_06922	378	pdeB_2	COG4943	putative cyclic di-GMP phosphodiesterase PdeB	ATGAGCCCGCGCAAGGCGGGACATTCCATCGCGATAGACGATTTCGGCACCGGCTATTCCAGCCTTCAATATTGGCAGGGGCTCCCCATGGATGCCCTGAAGATCGACAAGTCCTTCGTCGACACGACTGGCAGGAAATCCGCAACCAGCACCGTTACGCTGCATATTACCGGAATGGCGCGTGAACTTAGCCTGTTGACCCTCTGCGACGGTATCGAGACGGAGGAGCAGGCAGCGTATCTGCGGGAACACGGCGTGGACTTCGCTCAGGGCTGGCTTTTTTCGAGGGCCCGGCCTGCCCCCGAAACGCTTTCGCTCGGCTCCTTCACTTCTCCGTGCTGTTTATTTTTCGAACGCTTCTTCTGGTCGCTTTCTTGA	MSPRKAGHSIAIDDFGTGYSSLQYWQGLPMDALKIDKSFVDTTGRKSATSTVTLHITGMARELSLLTLCDGIETEEQAAYLREHGVDFAQGWLFSRARPAPETLSLGSFTSPCCLFFERFFWSLS	PGPT0023624_1236	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-GGDEF|EAL|PAC|PAS-DOMAIN-CONTAINING_PROTEIN,PGPT0023624-GGDEF|EAL|PAC|PAS_domain_containing_protein-NA	NA	NA
BMS010_06923	1269			hypothetical protein	ATGATCACCAAAGCCATTTTTGTGGGGGCAGCCGCTGCCTTGACGACGCTTTTTTCCACTGTGGCACTGGCGCAGACCGACCTGACTATGTGGTATCACGGCGCGGGCAATGTGGAAGAACGCAAGATTCTGGCCGGCATCATCGAGGACTTCAATTCGTCCCAGTCGGACTGGCGGGTCTCGCTTCAGGAATTTCCCCAAACCGCCTATAACGAATCCGTCACCGCCGCCGCGCTCTCCAACAAGCTGCCAGACATTCTGGATGTCGACGGCCCGAACATGCCGAACTGGGCCTGGTCCGGTTATCTGCAGCCACTGCAGATCGACGAGGCAAAGCTTGCCAATTTCCTGCCCGGCGCGGTGGGAAAGTGGGGAGACAAGCTCTATTCGGTCGGCCTGTGGGACGCGGCTGTCGCGGTCTTTGCCCGCAAATCGGTTCTCGATGAAAATGGCATTCGCATTCCAACGCTGGACCGGCCGTGGAGCGGCGAGGAATTTAATGCCGCGCTCGAAAAGCTCGCGGCCAGCGGCAAGTTCGAATATGCGATCGACCTCGGTATGGCCGATAAAACCGAATGGTACAGCTATGCCTTCAGCCCATTTCTGGAAAGCTTCGGCGGAAGCCTGATCGACAAGGAAAATTATCAAACCGCCGAGAACGCCCTTAACGGAGACAATGCCATCAAGTTCGGAGAATGGTGGCAGTCCCTGTTCCAGAAAAAACTGGCACCCGGAACATCGCAATCGCCTGCCGACCATGAAACCGGCTTTCTGGAAGGCCGTCACGCGCTGCAATGGATGGGCAACTGGGTTGCGGTGAAGGCTCTGGAGAAATATGGAGACGACCTGCTGTTCCTGCCTGCCCCTGATTTCGGGAACGGTCCGAAGATCGGTGCAGGATCCTGGCAGTTTGGTGTATCGGCCACCAGCAAGCATCCCCAAGGCGCATCCGCCTTCATCGAATTCGCCATACAGGACAAATATCTCGCGCAGTTCTCCGATGCGATCGGCCTGATCCCGGCCACGTCTTCCGCAGCCCAGATGACGGAGAACTATAAACAGGGTGGCCCGCTCGAAGTTTTCTTCGAGCTCTCCAAGCGTCAGGGAACGTTGCGCCCGGTGACGCCGGCTTACGCCTTCATCTCGCCGGTGTTTTCGAAAGCGGTGTCTGACATTGCCAATGGCGCGGATGTCGCCGATACGCTGGACAACGCGGCCGACGAGATAAACAACAACATAGAACGCAATTCCGGTTACCAACCCAAATAG	MITKAIFVGAAAALTTLFSTVALAQTDLTMWYHGAGNVEERKILAGIIEDFNSSQSDWRVSLQEFPQTAYNESVTAAALSNKLPDILDVDGPNMPNWAWSGYLQPLQIDEAKLANFLPGAVGKWGDKLYSVGLWDAAVAVFARKSVLDENGIRIPTLDRPWSGEEFNAALEKLAASGKFEYAIDLGMADKTEWYSYAFSPFLESFGGSLIDKENYQTAENALNGDNAIKFGEWWQSLFQKKLAPGTSQSPADHETGFLEGRHALQWMGNWVAVKALEKYGDDLLFLPAPDFGNGPKIGAGSWQFGVSATSKHPQGASAFIEFAIQDKYLAQFSDAIGLIPATSSAAQMTENYKQGGPLEVFFELSKRQGTLRPVTPAYAFISPVFSKAVSDIANGADVADTLDNAADEINNNIERNSGYQPK	PGPT0016545_8389	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
BMS010_06924	1089	melD_6	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	ATGGCGCTCTTGTCTTCAAAGGGAAAATTGACCCGTGACAGCTTTACGGGCTGGTTCATGGCTGCACCGGCGATGGTGCTGATCGGGCTGTTCCTGATCACGCCCTTTCTGCTGGGGCTCGGGTTTTCCTTCACCAACCAGCGGCTGACATCTCCCAATCCGACCGAGTTTGTCGGCGTTGAAAATTACACCCGGCTGCTGGGTATCGGCGTGCTGAAGCTTGAGCCGGAAAGGGAGGCGGATGGGAGCCTCAAGCAGGATGCGGATGGCGCAACCTCCTATCCGCGAATTCGCACTTTCACCCGCAACAATCCAGACTATCCCCATCTGGACGGGATGCGGGAATATAGGAGCTTCAGCTGGGGTGAGAACCAGATCGTCATTCTGGCGCGCGACGTCGTGTTTTTGACAGCGCTCGTCAACACGCTTTCCTTCGTGGCGGTCGTTGCCCCGGTTCAGGCGGCGCTGGCGTTGTTTCTTGCCCTGTTGGTGAACCAGAAGATTCCCGGCGTCACGATTTTCCGCGCGGTCTACTTCATGCCCGTCGTGCTGTCGGTTGTGGTGGTGGCGTTGCTCTGGCGGTTTATTTATGCGGCGGATAACGGGCTCCTCAACAGCCTTTTGAGTTACATGAGCTTCGGGCTTTTCCAGCCAGTCGACTGGCTGGGCAGAACCGATACCGCCCTGTGGGCCATCCTGGTCATGTCCGTCTGGCAGGGGGTAGGTTTCCACATGGTCATATGGCTTTCCGGCCTGCAAACAATCTCTCCGGATCTTTACGAGGCAGCCGATATCGAAGGCGCGAGCCGCTGGCAGAAGTTCAGCATGATAACCTGGCCGCTGCTGCGCAACACCGCCGTGCTAATTATCATCGTCATCACCATGCAGGCTTTTGCCCTTTTTGCGCAGATCGATGTGATGACCAAGGGCGGCCCCCGCGATTCGACACAAAGCATCGTCTATCAGGCGGTTGAGCGGGGATACCGACAACAGGACATCGCGGCAGGTTCGGCAATCTCGGTCGTCCTCTTCCTGCTTGTCCTGTGCATCTCACTGACCCAACGATACCTGACAAGGGAGAAGCAATGA	MALLSSKGKLTRDSFTGWFMAAPAMVLIGLFLITPFLLGLGFSFTNQRLTSPNPTEFVGVENYTRLLGIGVLKLEPEREADGSLKQDADGATSYPRIRTFTRNNPDYPHLDGMREYRSFSWGENQIVILARDVVFLTALVNTLSFVAVVAPVQAALALFLALLVNQKIPGVTIFRAVYFMPVVLSVVVVALLWRFIYAADNGLLNSLLSYMSFGLFQPVDWLGRTDTALWAILVMSVWQGVGFHMVIWLSGLQTISPDLYEAADIEGASRWQKFSMITWPLLRNTAVLIIIVITMQAFALFAQIDVMTKGGPRDSTQSIVYQAVERGYRQQDIAAGSAISVVLFLLVLCISLTQRYLTREKQ	PGPT0016535_326	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
BMS010_06925	882	araQ_6	COG0395	L-arabinose transport system permease protein AraQ	ATGATGCAGGCCGGACAACGCAAGAGCCTCGCTTTTCTCATCGGCAACTATGTGCTCATGCTCGCTTTCGCGGCGATCTTCATTTTGCCTCTCTTGTTCATGGGCTTCTCGTCGCTGAAACCGAACGACCAGCTGCTCAGTGATGCGACCTCGATACGCGCTTTCCTGCCGGTTGGAGATCTGTCGCTTCAAAACTACACCGCCGCTTTCGCCCGGGCGCCGATTGCGACCTTCATATTCAACTCGGTTCTGGTAACGGCCGTTACCGTGTTTCTCGCCCTGCTGCTTGGCTCGCTTGCCGCATTCGCCTTTACCTTTTTGAACTGGCGCGGAAAGGATGTTCTCTTTTCGATCATCCTCGCCACGCTCATCATTCCCTTTGAAACCATTGCCGTGCCGCTGCTGCTCGAGGTCAACAATCTGCCATGGATCGGCAGCAACGGGTTTACCTGGGGATGGCTCAATTCGTGGCATGTGCAGATCATCCCATGGATCGCAGACGGGCTGACGATTTTCCTCTTCGTGCAATATTTCAAGGATCTGCCAAAGGAGTTGCTGGAGGCGGCGCGCATCGACGGGGCCAGCTGGCTGCGGATTTACGCACAGGTGGTGATGCCGCTTAGCGGCCCGGTCATCGCAACGGCTGCGATCCTGAAGTTTCTCGTCATGTACAGCCAGCAATATCTATGGCCGCTTCTCGTTACCCAGTCCGAGGCCTACAGGCCGGTGATGGTGGGGCTGCAATATTTCTTCCAGCTCAACACACCCTGGGGTGAGGTGATGGCCTATCTCACCATCATCACGCTGCCGGTGCTGATCTTTTATCTCTGCCTGCAGAGGCTGTTCATCTCCAGTATCGCGGCAAGCGGGATAAAGGGATAG	MMQAGQRKSLAFLIGNYVLMLAFAAIFILPLLFMGFSSLKPNDQLLSDATSIRAFLPVGDLSLQNYTAAFARAPIATFIFNSVLVTAVTVFLALLLGSLAAFAFTFLNWRGKDVLFSIILATLIIPFETIAVPLLLEVNNLPWIGSNGFTWGWLNSWHVQIIPWIADGLTIFLFVQYFKDLPKELLEAARIDGASWLRIYAQVVMPLSGPVIATAAILKFLVMYSQQYLWPLLVTQSEAYRPVMVGLQYFFQLNTPWGEVMAYLTIITLPVLIFYLCLQRLFISSIAASGIKG	PGPT0016540_3054	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
BMS010_06926	1752	ggt_1	COG0405	Glutathione hydrolase proenzyme	ATGAGATTTCTCTGTGAGGCTGTTGTTGCCTTGATGTTTTCCACCGCAATCGCCTCCGCCCAGCAGGCGTCCGACGCGGTGGCGCCGGAAAGGGCAACCGGGCTTGCCACCGCCAAACGCGTCCAGTCAAAGAACTTCATGGTCGCCGCAGCCAATCCGCTGGCGACCAAAGCGGGACGCGACGTGATCGCCGCGGGCGGCAACGCCATAGATGCGATGGTGGCGGTGCAGACTGTGCTGGGCCTCGTTGAACCGCAGAGTTCCGGTCTCGGCGGCGGCGCCTTTCTCGTCTATTACCACGCTAAAAGTGGCAGGCTGACGACATTGGACGGCCGGGAGACGGCACCGATGGATGCCACGCCAAAGCTCTTCCTGGATGACAAAGGTCAGCCGCTTAAATTCATGAACGCAGTCATCGGCGGTCGTTCCGTTGGCACGCCGGGAACGGTGCGACTTCTGGAGGAAGCTCACAAACGCTATGGAAAGGCGGAATGGGCAAGCCTGCTGAAGCCGGCGGAAACGCTGGCGACCGACGGTTTTCAGGTGTCGCCGCGCCTTGCCTCTCTGATCGCATCAGAGGGTGACCGGCTGAAGACATATCCAGAAGCGCGGTCCTATTTCTTCGACACCTCCGGGGCCGCGCTGCAGGCCGGTGCTCCGTTGAAGAACCCGGCCTATGCCGAGACGCTTGCAGCGATCGCCAAGGGCGGCGCCGATGCCTTTTACAAGGGGAAAATTGCCGAGGCGATCGTCAAGACCGTGCGCGAGCCAGCCGACAATCCTGGCGTGCTGTCGCTTTCCGATCTTTCCAACTATCGCGTCATCGAGCGCGAGCCAGTCTGCTTTATCTATCGTGCACTTGACGTTTGCGGCATGGGACCGCCATCGTCAGGCGGCATCGCCATCGGCCAGATGCTCGGCATGGCGGAGAATTTCGATCTTAGATCGCTGGGGCCGAAAAATGTCGAAAGCTGGCGCATTATCGGCGACGCGCAGCGTCTCGCCTTCGCCGACCGCGAGCGTTACGTCGCTGACACCGATTTCGTGCCGCTACCGGTCAAGGGCATGCTGGACAAGACCTATCTAGGGGAGAGGGCAAAGCTGCTCGACGGCGACAAGGCGCTGGCCAAAGACGCGGTCAATGCCGGTGAGCCGGAATGGGACCACGCGCTGCTTTTCGGCCGGGATGCCGCGCTTGAGTTGCCGTCGACGAGCCATTTCGTCATCGTCGACAAGGAAGGCAACGTGGTCTCGATGACGACAACGATCGAAAGCGGCTTCGGCTCGCGTCTGATGACGAATGGCTTCCTGCTGAACAACGAGTTGACGGACTTTTCCTTCAAGACGCATGACGGCGGTCTGCCGATCGCCAACCGCGTCGAACCCGGTAAACGACCGCGCTCCTCCATGGCCCCCACTATCGTGATGAAGGATGGAAAACCGCTGCTCGCCATTGGTTCGCCCGGAGGAAGCCAGATCATCGGCTATGTGGCGCAGGCGCTGATCGCCTATATCGACTGGGGCATGCCGGTGGAAGTGATCGTCGCCCAGCCGCATCTCATCAACCGGTTCGGTACCTATGACATCGAGGCCGGCACCAGCGCGGAAGAACTGGCCGGTCCGCTGAAGGCGCTTGGTTACGAGGTGAAACCGGGTGAGATGAATTCCGGTCTGCATGCTGTCGAAATCACCGCCGAAGGCTTGGCCGGCAGCGCCGACCCACGACGCGAGGGAGTGGTGATGGGGGAGTGA	MRFLCEAVVALMFSTAIASAQQASDAVAPERATGLATAKRVQSKNFMVAAANPLATKAGRDVIAAGGNAIDAMVAVQTVLGLVEPQSSGLGGGAFLVYYHAKSGRLTTLDGRETAPMDATPKLFLDDKGQPLKFMNAVIGGRSVGTPGTVRLLEEAHKRYGKAEWASLLKPAETLATDGFQVSPRLASLIASEGDRLKTYPEARSYFFDTSGAALQAGAPLKNPAYAETLAAIAKGGADAFYKGKIAEAIVKTVREPADNPGVLSLSDLSNYRVIEREPVCFIYRALDVCGMGPPSSGGIAIGQMLGMAENFDLRSLGPKNVESWRIIGDAQRLAFADRERYVADTDFVPLPVKGMLDKTYLGERAKLLDGDKALAKDAVNAGEPEWDHALLFGRDAALELPSTSHFVIVDKEGNVVSMTTTIESGFGSRLMTNGFLLNNELTDFSFKTHDGGLPIANRVEPGKRPRSSMAPTIVMKDGKPLLAIGSPGGSQIIGYVAQALIAYIDWGMPVEVIVAQPHLINRFGTYDIEAGTSAEELAGPLKALGYEVKPGEMNSGLHAVEITAEGLAGSADPRREGVVMGE	PGPT0002935_2331	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_TAURINE_UTILIZATION,PGPT0002935-ggt-K00681	NA	NA
BMS010_06927	699			hypothetical protein	ATGAAAAACTTCGCCCTTTATTACTGGCCAGTTCCTTTTCGAGGTCAGTTCATCCGCGGAATTCTGGCCCATTGTGGGTACTCTTGGGATGAACACGATGCCGATGCGATTGAAAATATTATGGATTGTGCGGTGGACAAGCAGCCGGTTGCCTTCATGGGGCCACCGGTTCTGATTGACCGTGAGCGCAATTTTGCGATCTCCCAGATGCCGGCGATCGCCATCTACCTGGGTGAACGGCTGGATATGTTGCCGACAACTATTGAGGGCCGCGCACTCAGCGCCAAGATCGTTAACGATGCCAACGATGTCCTTGATGAGTTGACTCTCAACGGCGGGCGCGAAATGTGGACACCTGAAAAATGGGAAGGGTTCGTCCCACGCATCCAAAAATGGATCCGTATTTTCGCGGATACCGGGGCACGAAACGGCTTGAGCGCTACTTCCGGCTTTATGCTCGGAACAGAGAAGATTGGCGTAGCAGATATAGCGACTGCAATCCTTTGGACTACCGTCGCCGACCGGTTCCCCGTGATTCAGGGCATCATTGAGGATACGTCACCTACAATCTGGGGTCTTTCCAGAAGAGTGGTAGCCACAACTTCGCTAGCCGCCTTGAACAATAAAAGTTTCGAGGAATACGGCAACGCTTTTTGCGGAGGAGAGATTGAGAAATCGCTCCGAAAGGTAGCGGGTTGA	MKNFALYYWPVPFRGQFIRGILAHCGYSWDEHDADAIENIMDCAVDKQPVAFMGPPVLIDRERNFAISQMPAIAIYLGERLDMLPTTIEGRALSAKIVNDANDVLDELTLNGGREMWTPEKWEGFVPRIQKWIRIFADTGARNGLSATSGFMLGTEKIGVADIATAILWTTVADRFPVIQGIIEDTSPTIWGLSRRVVATTSLAALNNKSFEEYGNAFCGGEIEKSLRKVAG	PGPT0013170_4425	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS010_06928	1776	ydaP	COG0028	Putative thiamine pyrophosphate-containing protein YdaP	ATGACGACCGCAGCAGACGTTCTGGTGGAGACCTTGATCGACTGGAAGGTCGACACGATCTTCGGCCTTCCGGGAGACGGCATCAATGGCGTCATGGAGGCGCTTCGCAAACGTCAGGATGCGATAAGGTTTGTCCAGGCCCGACACGAGCAATCCGCTGCCTTCATGGCGACGGCCTATGCCAAATGGACCGGCAGGCTCGGCGTCTGTCTTGCCACTTCGGGTCCCGGTGGCACCAATCTTCTGACCGGTCTTTATGACGCCAAGCTGGACCAAGTTCCTGTCCTCGCGATCACCGGGATGCAATATCACGACCTGATCGAAACTTTCACGCAGCAGGACGTCAACCTGACCCGCGTTTTTGAGGATGTCAGCATTTATAACACCGTCGTCAGCGATGCTGCGCATATCGAAAATGTCGCCAGCCTCGCCTGCCGCACGGCGATCGCGCGGCGTGGCGTCGCGCATCTCTCGATAGCAAACGACACGCAGGAAAAGCCAGCCGAGGAAGGACGGTCTCGCCGTAACCTGCCCAGGCATGTTCCGAATGACTGGTTCGCGTATCGTCCGAAACCCGCTCACGAACTCATCCACGAGGCAGCATCCTTGCTCAATCGTGGCAGTAGGGTTGCGATACTTGCCGGACGCGGTGTCCTTGGCGCTGAGAAAGAATTGAAGCGAACAGCCGAACTGCTTGGCGCGCCGGTGGCGAAAGCTCTTCTGGGCAAGACGGTCATGGATGATGACGACCCCTTCACCACCGGCGGAATTGGCATTCTGGGAACCGCCGCCTCCCAGGACATCATGAAAAATTGCGATACCCTGCTTATCGTGGGGTCGACATTTCCTTACATCGAATTTTATCCGGATCCAAACACCGTCAAGGCGGTTCAGATCGATCTTGACCCGCAGCGCATCGGACTTCGGCATCCCGTGCAGTGTGGCCTGGTGGGTGACGCAGGTGACATACTGAACCGGTTGAATTCCCTGCTGGAGAAAAAGAGCGACCGGAGTTTTCTGGAAGCTGCGCGGAAAGGGATGCACACCTGGCGCGAACAGATGGACGCCCTGACATCGGAGCAATCAACACAGTTGAAACCGCAGCCAGTGGTGCGTGCCTTCGGCAGGCGTATCGATGGAGACGGAATGCTTGTGACCGATTCCGGTCAGAACACGGAACTGGCTGCGCGTCACATCGACCTGAAAACCAGCAACGCCTTTGCCGTTTCGGGTGCACTCGCCTCAATGGCCTCCGGCTTGCCCTACGCCATTGCCGCCGGATTGGCCTATTCCGGGCGTAACGTATATGCGGTTGTGGGCGATGGCGGACTTGCCATGCAACTCGGCGAATTCTCCACCGCCGTCCGGCATCGGTTGCCTCTGAAGATTCTGGTTATCTGCAATGGGATGCTGAATCAGATTGCATGGGAGCAGATGATGTTCCTCGGCCATCCGCAATTCGCCTGCGAACTCGCACCCATAGACTTTGCCCGGGCGGCCGATGCAATGGGCGGAAAGGGTTTTACGATTTCCGGGTTTGACGAGATAGAACCGGTCCTTGACGCGGCGTTCGCCGAGGATGGCCCTGTTATCATCCAGTCGATTGTCGATAAATACGAACCGATGATGCCGCCGAAAATGCCGGGCGACTATGCGGCGAACTTCAAGAAGGCGCTGCCCGATACGCCGGGGCATCGGCAGATAGAAGAGAATATGGCGCGCGAGCCGCTGCGGACAATGATGCTTGGAGAAGGTCTGCCAGAAGCTGACCCATGA	MTTAADVLVETLIDWKVDTIFGLPGDGINGVMEALRKRQDAIRFVQARHEQSAAFMATAYAKWTGRLGVCLATSGPGGTNLLTGLYDAKLDQVPVLAITGMQYHDLIETFTQQDVNLTRVFEDVSIYNTVVSDAAHIENVASLACRTAIARRGVAHLSIANDTQEKPAEEGRSRRNLPRHVPNDWFAYRPKPAHELIHEAASLLNRGSRVAILAGRGVLGAEKELKRTAELLGAPVAKALLGKTVMDDDDPFTTGGIGILGTAASQDIMKNCDTLLIVGSTFPYIEFYPDPNTVKAVQIDLDPQRIGLRHPVQCGLVGDAGDILNRLNSLLEKKSDRSFLEAARKGMHTWREQMDALTSEQSTQLKPQPVVRAFGRRIDGDGMLVTDSGQNTELAARHIDLKTSNAFAVSGALASMASGLPYAIAAGLAYSGRNVYAVVGDGGLAMQLGEFSTAVRHRLPLKILVICNGMLNQIAWEQMMFLGHPQFACELAPIDFARAADAMGGKGFTISGFDEIEPVLDAAFAEDGPVIIQSIVDKYEPMMPPKMPGDYAANFKKALPDTPGHRQIEENMAREPLRTMMLGEGLPEADP	PGPT0001371_485	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-ACETIC_ACID_BIOSYNTHESIS,PGPT0001371-poxB-K00156	NA	NA
BMS010_06929	180			hypothetical protein	ATGCCAAATCAAGGTGGTACGCACGAACAGCACGTGAAGGCCGGCCAGCAGAGCCACAAGAACAGCGACAAGCGTTCGCAGTCGGCATCGGCCTCCAATAACGACGACAATGGCAAGACCCGCGGTGGCACGCATGAGCAACATGTGAAGGCGGGCCAGCAGAGCCACAAAAACTCCTAA	MPNQGGTHEQHVKAGQQSHKNSDKRSQSASASNNDDNGKTRGGTHEQHVKAGQQSHKNS				NA	NA	NA	NA	NA
BMS010_06930	117			hypothetical protein	ATGACCAGGAAAACGCTCTGCATTCCTGAAGAAAACCGCAGCCATCACTATCCCGGCGACAATGGCCGTCAGAGCACAGAAGATTCCTCTTCCGACAACACCCAGACGGGCCGATAG	MTRKTLCIPEENRSHHYPGDNGRQSTEDSSSDNTQTGR				NA	NA	NA	NA	NA
BMS010_06931	1554	glgA1_2	COG0297	Glycogen synthase 1	ATGCGGATTCTTGCCGTCACGGCCGAAATGTTTCCATTCGTCAAAACCGGCGGATTGGCCGATGCGGCAGGCGCTCTGCCGGAGGCACTAGCAAGACACGGCGCGGAAGTTCGTACATTGCTACCCCTCTACCGTAGGCTCACGCCGCTCGTCCGCGGCAAGAAGCCGTGTCTGGTCGCCAATATTCTAAAGCAAGCGGTATCGGTTTACTCCCTTGACGCCGACGGTCACAAGCTTCTGCTTCTTGAAGCGGCAGACCTGTTTGACAGGGAAGGTCCTCCCTATGGCATGAATGGCAAACCTTTTGCCGACAATGATCTGCGCTTTGCGGTCCTGTCCAAGGCGGCGGCGGAAATTGCCCTCGGCGCGATTGACGACTGGAAGCCTGATCTTGTTCATGCCCATGACTGGCACGCGGCCTTGACCTGCGTTTATATCGCGGAGTCGGCGGCGACGGTGCCCTCCGTCCTCACCCTTCACAATCTCGCATTTCAGGGACAATATCCACTCGAGCGGGCGGGTATGCTTGAGTTGCCCCAACATCTCTGTACCGTCGATTGCCTCGAATATTATGGCGACCTGTCGTTTTTAAAGGGTGGCCTGACGACCGCGTCGGCCGTAACGACAGTAAGCCCCACTTACGCAAGAGAAATTCTGACACCGGAAATGGGAATGGGTATGCACGGCGTGCTTGCCACGCGGCGCGAGGACCTGCGTGGCATCGTCAACGGTGTCGACCAGGAAGTCTGGGACCCGGCAACAGACCCCTACATTCTTACAAATTTCACGGCTGCGACGGCCACGCGCCGGAGCCTTAACAAATATGCCTTGCTTCAGGCCCTTGGCCTCGCCCCGACCCAAGGCCCTGTTTTCGGTGTGGTCAGCCGTCTGACCTGGCAAAAGGGCATCGACCTCCTCCCTCAGGTCGTTCCACTTATCATTGCGAGAAAAGGAAGATTGGTGATTCACGGAGAAGGCGACACCGCACTGGAAGACAGCTTGCGCGCGCTGGCAAAACGTTATCCTGAACTGGTCTGCGCCCATATCGGTTACGATGAGCGTCTGGCGCATATGATTCAGGCGGGCTCAGACTTCATTATCCAGCCTTCACGGTTCGAACCCTGCGGCCTGACACAGCTTTACGCCCTGCGATACGGCGCACTGCCCATAGTCAGCCGCACTGGCGGGCTAGCGGAAACCATCATCGATGCGAATGACGCAGCCATTGAGGCGGGCGTGGCAACAGGCTTTCAATTCGAGCCTGCAAATGAGGACGATCTACGCGCGGCGCTCGATCGTGCCATCAGTGCCTATAGTGACCGAGAACTTTTCAGACGGCTTCAGGCACAAGCCATGCGGGCCAATTTTTCCTGGGACAAGAGTGCCGCACAGTATATGGCGCTTTTTGAAAGCCTTGTCGGCGACAACAGGCCCAAAACGGGTGCTGTCGCCGATATTAGGCCCGAGACTTTTGCAAAGATAAGAGCTGACAGACGGCAGGCAGGAACCCTGGGATCACCAACAGGTCAGGCCACTGGCAACAGGAGGCTTTGA	MRILAVTAEMFPFVKTGGLADAAGALPEALARHGAEVRTLLPLYRRLTPLVRGKKPCLVANILKQAVSVYSLDADGHKLLLLEAADLFDREGPPYGMNGKPFADNDLRFAVLSKAAAEIALGAIDDWKPDLVHAHDWHAALTCVYIAESAATVPSVLTLHNLAFQGQYPLERAGMLELPQHLCTVDCLEYYGDLSFLKGGLTTASAVTTVSPTYAREILTPEMGMGMHGVLATRREDLRGIVNGVDQEVWDPATDPYILTNFTAATATRRSLNKYALLQALGLAPTQGPVFGVVSRLTWQKGIDLLPQVVPLIIARKGRLVIHGEGDTALEDSLRALAKRYPELVCAHIGYDERLAHMIQAGSDFIIQPSRFEPCGLTQLYALRYGALPIVSRTGGLAETIIDANDAAIEAGVATGFQFEPANEDDLRAALDRAISAYSDRELFRRLQAQAMRANFSWDKSAAQYMALFESLVGDNRPKTGAVADIRPETFAKIRADRRQAGTLGSPTGQATGNRRL	PGPT0025880_1149	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENVIROMENTAL_SURRIVAL	CE-BACTERIAL_FITNESS-ENVIRONMENTAL_SURRIVAL-GLYCOGEN_BIOSYNTHESIS,PGPT0025880-glgA-K00703	NA	NA
BMS010_06932	1806	glgB_3		1,4-alpha-glucan branching enzyme GlgB	ATGATGAATGCAGCGAATTACCGCAAATGGGGCGCGCAGCGCAATCAATCCGGCGACACGGATTTCAGCATCTGGGCACCCGCCTCAGCAGCGGTGAAACTGTGGCTGAACGATGCGGAATTCGACATGCACACGGCTGGTGATGGCTGGCACCACATCACAAAACCCGCCCTCCCCGGCGATCGCTATTGCTTCGTGCTGGCCGACAGGACGAGGGTTGCAGATCCCGCTTCCAATCAGCAACAGGTAGGCCCGCTTGGCCCCTCCCTGATCGTCAACCATGATTTCACCTGGAAAAACCCGGACTGGAAGGGCCGACCGTGGCACGAAACAGTCGTCTATGAGCTCCATGTCGGGACTTTTACACCCGAGGGCACCTTTGCGGCCGCGGCGGAGAAACTTGAATATCTCGCAGACGTGGGCATTACCGCGATCGAACTCATGCCGCTTGCGACCTTTGCTGGAAGTCGCGGCTGGGGTTACGACGGCGTCCTGCAATTTTCACCCCAACGGGATTATGGCTCCCCAGACGAGCTCAAGGCCTTCATTGATCAAGCCCATGGCCACGGTATCATGGTGCTGCTGGATGTCGTCTACAATCACTTCGGCCCCGCAGGAAATACGCTTCAGGCCTACGCCCCGGCATTTTTCAAGAAGGATGAGACACCATGGGGACCGGCGCCGGACTTCAACCGGGCCGAAGTTCGGTCATTCTTTCTTCAGAACGCATTCTACTGGCTCGAGACCTATCGCTTCGACGGATTGCGGATCGATGCCGCTGATCATCTCGCTGGCGGCGGCGGAGAGGTCGATTTCCTCATCGAGATGGCGCGAGAGGTGAAGCGGATAATAAGAAACAGGCATGTGCATCTGGTCATAGAGGACGCGAGAAACGCGGCCTCGCCAATGACGCCCTTGGCTGATGGCACCGTCCTGATTGATGCGCAGTGGAACGATGACTTTCACCACGTCGTCCATGTTGCGACTACGAAGGAAAAGGGCGGCATCTATGGTGACTTCGCGGCACTGCCCTATGACAAGCTTTGCCGCTCGCTTGCGACCGGTTTTGTCTACCAGGGCGAACCGCGCCCTTCCCGGGATTTTGGCAGCAGCGGAGAACCGAGTGAGCATCTGCCACCGCAACGATTCGTGAATTTTCTCCATAATCATGATCAGGCCGGAAACAGGTTACGCGGTGAAAGGCTTCGTGCCCTTATTGCGCTGCCCCTCTTTGAGACGCTTGAAACAATTCTACTCCTTTCCCCACAGACGCCGTTAATTTTCATGGGTGACGACCATGGCTCGGCCAACCCTTTTTTCTTTTTCTCCGACCATCCGGATGACGACCGGGAACAGGAAATAGAAAATCGGCTTAAACAGGCGGAAATGTTCCAGGGAGAACTCCCACCCAATGCCCGGCAGCTGGTGCGTGATCCAAACGATCCCCACACGATGCAGCTTTCGACCTTGAACTGGCAAGGGGCTGAAACGACCGATGGAAAACTGGCAAGAGCAAGGATGACCGCGTTGCTTTCAAAACGGCGCTGGCACATCTGGCCTCTCCTTTGCTCTCACTTCGAGAAAGGTGTTGTCCTCGAATGTGAGTCAAAATGCCTTGCAATCGACTGGCATTTCCAAATGGGACGGCTCCAGATGCGGGCAAATCTTTCGGCAAACACATGTGAGCTGCCGCCGGTAAAGGGAAAACTCCTTCACCAGTATGGCAGCATCAATAACACAAACTACGGAGGTTATGCGGCACAGTTTGCAGTTGACGGACCGCACTCGGTCCAGATTTCGACGTAG	MMNAANYRKWGAQRNQSGDTDFSIWAPASAAVKLWLNDAEFDMHTAGDGWHHITKPALPGDRYCFVLADRTRVADPASNQQQVGPLGPSLIVNHDFTWKNPDWKGRPWHETVVYELHVGTFTPEGTFAAAAEKLEYLADVGITAIELMPLATFAGSRGWGYDGVLQFSPQRDYGSPDELKAFIDQAHGHGIMVLLDVVYNHFGPAGNTLQAYAPAFFKKDETPWGPAPDFNRAEVRSFFLQNAFYWLETYRFDGLRIDAADHLAGGGGEVDFLIEMAREVKRIIRNRHVHLVIEDARNAASPMTPLADGTVLIDAQWNDDFHHVVHVATTKEKGGIYGDFAALPYDKLCRSLATGFVYQGEPRPSRDFGSSGEPSEHLPPQRFVNFLHNHDQAGNRLRGERLRALIALPLFETLETILLLSPQTPLIFMGDDHGSANPFFFFSDHPDDDREQEIENRLKQAEMFQGELPPNARQLVRDPNDPHTMQLSTLNWQGAETTDGKLARARMTALLSKRRWHIWPLLCSHFEKGVVLECESKCLAIDWHFQMGRLQMRANLSANTCELPPVKGKLLHQYGSINNTNYGGYAAQFAVDGPHSVQIST	PGPT0014130_812	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_GLYCOSIDE-GLYCOSIDASES|GLYCOSYLHYDROLASES,PGPT0014130-treZ|glgZ-K01236	NA	NA
BMS010_06933	198			hypothetical protein	TTGACCCAGACAGTTGAGTACGAAACCAGCAACAGCCTGAACATCGAAGCTGCGACCCCCAAGGTGATTTGGATCATTGTAGACGAACGCACCGTGCTTGAGGGTGTTTTGAACACCGGCAGCGTTTTGACGGTGCAGACGAAAGAAGGCGCCGAACCACAATCCATCGAACTTGTGATCGAGGACCTGGCACGGTGA	MTQTVEYETSNSLNIEAATPKVIWIIVDERTVLEGVLNTGSVLTVQTKEGAEPQSIELVIEDLAR				NA	NA	NA	NA	NA
BMS010_06934	1170		COG1063	putative zinc-binding alcohol dehydrogenase	ATGAAGGCACTGACTTGGCACGGCAAACACGACATTCGCTGTGAGAGCGTCCCTGATCCGCAAATCGAGGACGGCCGCGACGCGATCATCAAGGTGACCGCCTGCGCAATCTGCGGTTCCGATCTTCATCTCTACAACGGGATCATGCCCGACATGCATGGTGGCGATATAATGGGCCACGAGACTATGGGCGAAGTCGTCGATGTCGGTAGGGACAATAAGACGCTGAAGGTCGGAGACCGGGTTGTCGTTCCCTTCACGATTGCCTGTGGAGAGTGTTTCTTCTGCAAAAGAGGGTTTTATTCCGGCTGCGAGCGCAGCAACCCCAACCCCCATAAGGTCCGGGAAATGTGGGGAAACTCCCCCGCCGGGCTGTTCGGCTACACGCACCTTCTGGGAGGTTTCAGCGGCGGCCAGGCCGAATATATGCGCGTTCCCTACGCCGATGTCGGGCCTATCAAGGTTCCTGACGGGCTGACAGACGAGCAGGTCCTGTTCCTGTCAGACATTTTCCCGACCGGTTACATGGCGGCGGATTTCTGTAATATCCAGCCCGGCGATACGATCGCGATCTGGGGCTGTGGTCCTGTCGGCCAGATGGCCATCCGCTCCGCCTTCCTGTTGGGTGCGGAACGGGTCATCGCTATCGATTCCGTGCCGGAACGGATCGCCCTTGCCGCCGCCGCCGGCGCGCTCACACTGAATTATCTGGATGACGATATTTACGAGCAGATCATGGAATTAACCCATGGCCGGGGCGCCGACGCCTGCATCGACGCCGTGGGGACGGAACCGGATCCGGCCGCCGGCTGGGATTCCCGTCTTGACCGTATCAAGGTGGCAACATTCATGGGGACGGACCGCCCGCATGTGCTGCGGCAGGCTATTTATTGCTGCCGCAACTTCGGCACAGTCTCGATCGTCGGCGTCTATGGCGGTTTTCTCGACAAAATCCCGATGGGCTCCGCGATCAATCGCGGCCTGACATTCCGGATGGCTCAGACACCGGTGCAGGCCTATCTGCCCACCCTTATGGGTCGGATCGAGAAGGGAGAGATCGACCCCTCCTTCGTCATCACCCACCGCGCCACCCTCGATGAAGGTCCTGATCTTTATAAAACATTCAGCCACCGCGACGACGGCTGTATCAAAGTCGTCCTGAAGCCATAG	MKALTWHGKHDIRCESVPDPQIEDGRDAIIKVTACAICGSDLHLYNGIMPDMHGGDIMGHETMGEVVDVGRDNKTLKVGDRVVVPFTIACGECFFCKRGFYSGCERSNPNPHKVREMWGNSPAGLFGYTHLLGGFSGGQAEYMRVPYADVGPIKVPDGLTDEQVLFLSDIFPTGYMAADFCNIQPGDTIAIWGCGPVGQMAIRSAFLLGAERVIAIDSVPERIALAAAAGALTLNYLDDDIYEQIMELTHGRGADACIDAVGTEPDPAAGWDSRLDRIKVATFMGTDRPHVLRQAIYCCRNFGTVSIVGVYGGFLDKIPMGSAINRGLTFRMAQTPVQAYLPTLMGRIEKGEIDPSFVITHRATLDEGPDLYKTFSHRDDGCIKVVLKP	PGPT0006355_1825	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006355-frmA|ADH5|adhC-K00121	NA	NA
BMS010_06935	795			hypothetical protein	ATGCCTGCGGAAAAATCAATCAAAGGCCTTGCTGTCGTCACCGGCGCCTCCTCAGGCATCGGTTACGAACTGGCAAGATGCGCGGCGCAGGACGGCTACAATCTCATCATCGTGGCTGACGAGGCGGAAATCGAAACGGCGGCGACACAGTTGCGGGCAGCGGGAACGGAAGTGGAGGCCGTGCAAGCCGACCTTTCGACACAGGCAGGCGTGGAAAAACTTCTCTCCCGCATAGCGACGAAAGAGTGGCCGGTCGATCTGCTGTTTGCGAACGCGGGACAGGGGCTGGGCAACAGTTTTCTCGATCAGAAAATGGATGCGGTCCAGCGGGTGATAGCCACGAATATCAGCGGCACCGTTGCGCTGGTGCATGCGATCGGCAACGGCATGCGCCAGCGCGGCAGCGGCCGGATTCTACTCACGGGCTCCATTGCCGGTTTCATGCCCGGCACCTTTCAGGCGGTCTATAACGCGACAAAAGCCTTCATTAATTCCTTCTCATTCGCACTTCGCGAAGAGCTGGATGGCACCGGGGTCACCGTCACGTGCCTGATGCCCGGCGCGACCGAGACAGCGTTTTTCAAGCGCGCGGACATGCTCGACACGGCGGTTGGCAAACAGAAAAAGGACGACCCCGGCTTCGTTGCACAAATCGGCTACGATGCGATGATGAATGGTGACGGAGACGTCGTGTCCGGCTGGAAGAACAAGCTGATATCGGCCGCGGCAAACGTGACCCCTTCGCATATCCTCGCAAAACAACACCGCAAAATGGCTGCCCGGGAAGGAAAGTGA	MPAEKSIKGLAVVTGASSGIGYELARCAAQDGYNLIIVADEAEIETAATQLRAAGTEVEAVQADLSTQAGVEKLLSRIATKEWPVDLLFANAGQGLGNSFLDQKMDAVQRVIATNISGTVALVHAIGNGMRQRGSGRILLTGSIAGFMPGTFQAVYNATKAFINSFSFALREELDGTGVTVTCLMPGATETAFFKRADMLDTAVGKQKKDDPGFVAQIGYDAMMNGDGDVVSGWKNKLISAAANVTPSHILAKQHRKMAAREGK	PGPT0030485_1935	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-OXIDOREDUCTASE_ACTIVITY	PUTATIVE-OXIDOREDUCTASE_ACTIVITY-1,PGPT0030485-yqjQ-K07124
BMS010_06936	1047	iolU	COG0673	scyllo-inositol 2-dehydrogenase (NADP(+)) IolU	ATGACATTTCCAACCGCTCTTCCACCGTCCCGATTGCGAGCACCCCTGGACGCTCCTCCACTGCGCTGGGGCATTTTGGGGACTGGCTGGATAGCGGCAAAGTTCACAGAATCGGTAAAGGCACACACTCGGCAAGTAATCGCGGCCGTGGGTTCGAGATCGGAAGAAACTGCCAAGCGGTTTGCATCTGAGTGGGGTGTCGAGAACGCTTATGGAAGTTACGAGGCGCTCGTTCAATCACTCGATATCGATATCATCTATGTGGCTACCCCACATGGTTGGCACCATGAGCACGTCCTGCTCGCGATCAACGCCGGTAAGCACGTGCTCGTCGAAAAGCCGATGGCGCTGAATCATGCCCAGGCTGCCGAAATGGTCACTGCTGCTCGTAAGAAAGGCGTCTTTTTTGCAGAAGCGCTCTGGACGTATTTCCTGCCGAAATTCGACATTGTCCAGCAGGTCCTTGATGCGGGCGTTATTGGGGACATCCAATCGGTCTACACGGAATATGGCGAGTATCTTCCGCGTGAGCACCGCATCTTCAACCCAAAACTGGCGGGCGGGCCGCTGCTTGATCTAGGTACGTATCCAGTGTCGTTAATAAGCAAGCTGCTTGGCGTTCCTTCCAAGGTCGTCGGCGTTGCAAGTCCCGATCCGGCCGGAGTGAATGGGCAGCTGGCTGTAGCCATGATGAATTCCCGGGGCTGCCAGGGGACCATGGCAACGACCCTTTATGGGTTTACGCCAACCGGCGCGACCATGGTCGGCACGGAGGGCTCGATCCGGTTTGTCAACGAGTTCCATTTGCCAGGCGCGTTCGAAGTGTGGTCGCTGGACGGGACTGTCAGGTTGAAATACGCGGAACCTCGTGGCGCGCATTTCGAAGGGCTTTACCATCAGGCTGCTGGGGTCGCTTACAGTATCAGCGACGGCGACGTTGAAAGTCCTTGCAGACCGCTTGATGCATCACTTGACACGATGAAAACACTTGATGCGATCCGCGCAGCGCTCGATATCGACTTCAGGAAAGCAGGGTTGTCTGAATGA	MTFPTALPPSRLRAPLDAPPLRWGILGTGWIAAKFTESVKAHTRQVIAAVGSRSEETAKRFASEWGVENAYGSYEALVQSLDIDIIYVATPHGWHHEHVLLAINAGKHVLVEKPMALNHAQAAEMVTAARKKGVFFAEALWTYFLPKFDIVQQVLDAGVIGDIQSVYTEYGEYLPREHRIFNPKLAGGPLLDLGTYPVSLISKLLGVPSKVVGVASPDPAGVNGQLAVAMMNSRGCQGTMATTLYGFTPTGATMVGTEGSIRFVNEFHLPGAFEVWSLDGTVRLKYAEPRGAHFEGLYHQAAGVAYSISDGDVESPCRPLDASLDTMKTLDAIRAALDIDFRKAGLSE				NA	NA	NA	NA	NA
BMS010_06937	1173	iolG_6		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGACCCAAAAAAAACTCAATATCGGCCTGATCGGTTCAGGCTTCATGGGCCAGGCCCATGCGGACGCCTACCGTCGTGCTGGCGTGCTGTATCGTGATCTGGCGGCCATCCCCCATCTCTATATGCTCGCCGATGCGAGCGATGAAATGGCTGCCGATGCCGCCGCCCGATATGGTTTCGAGAAAAGCACCGGAGACTGGCGGCGACTGGTTGAGGATCCCAACGTCGATATCGTCGACATCACCTCGCCAAACGTCATGCACCATGAAATGGCGCTTGCAGCGATAGAAGCAGGCAAGCACGTCTACTGCGAAAAGCCACTTTCCGTGACGCTGGCAGAGGCAGAGCAAATGGCTGCAGCTGCCCGAAAAAAAGGCGTCAAGACGATGGTCGCCTTCAACAACATCAAGACACCGGCGGCAATGTTGGCCAAGCAATTGATCGACAGAGGCGATATCGGACAGCCCATGCGCTTTCGCGGCTGGTTCGATCAAGGCTTTTTCAATGATCCCGATTTGCCATTTTCGTGGCGCTGTACGCGTCGCGATGCAGGATCAGGGGCGCTGGGCGATCTCGGCAGCCACGTAATTTCCGTTGCACAATATCTGCTGGGTCCGGTTGAAAGCGTCATCGCCCAAAGTCAGACGTTTTTTCCGACGAGGCCCGTGCCCCGGGGTGGTTCGGGTTACGGTGCAAAGGCGGGCAATGATGCGCCTCGCGCGATGGTCGAGAACGAGGATCAGATCCAGGCGCTGGTCCGCTTCAAATCCGGCGCAGGTGGCACCATTGAGGCATCCCGCGTAGCTGCCGGCAAGGTCTTTGGCGTCTACTGGGAAATATCCGGGACGGAGGGCACGATCATCATGGACGGAGAGCGCTTCAACGAGCTGAAGATATCGCGTTTCAACGACCCCAAGCCTGACCGCGGATTCAAGACGATCCTAGCGGGAAGCCAAGTGCCGCAGTTTTCGGCATTTTTCGGCTTTGATTTCGCTGGCGGTGGCCTCGGCTACTTCGACGTCAAGGTTATCGAGGTACGTGACCTGATCGAAGGCATCATGCGCGATGCCGACTGTTACCCAAATTTCGAATTCGGGCTAGCCAACGAACAGATTATTGACGCCATGGAGCGGTCTCTGGCAACGGGCCAGTGGGAACAGACGGCGTCCTGA	MTQKKLNIGLIGSGFMGQAHADAYRRAGVLYRDLAAIPHLYMLADASDEMAADAAARYGFEKSTGDWRRLVEDPNVDIVDITSPNVMHHEMALAAIEAGKHVYCEKPLSVTLAEAEQMAAAARKKGVKTMVAFNNIKTPAAMLAKQLIDRGDIGQPMRFRGWFDQGFFNDPDLPFSWRCTRRDAGSGALGDLGSHVISVAQYLLGPVESVIAQSQTFFPTRPVPRGGSGYGAKAGNDAPRAMVENEDQIQALVRFKSGAGGTIEASRVAAGKVFGVYWEISGTEGTIIMDGERFNELKISRFNDPKPDRGFKTILAGSQVPQFSAFFGFDFAGGGLGYFDVKVIEVRDLIEGIMRDADCYPNFEFGLANEQIIDAMERSLATGQWEQTAS				NA	NA	NA	NA	NA
BMS010_06938	915	iolE_3	COG1082	Inosose dehydratase	ATGACAACCACCGATCTCCTGCCAGAAGGTGTCAGAATTGCCGTCAGCCCGTTGTCATGGGTAAATGACGTGCTTGAGGATCTCGGACGCGACATATCGCTTGAAACCTGCCTGAACGATGCGGCAGCAATCGGCTACCAAGGCGTAGAGCTGGGTCGCAAGTTCCCCCGAGACGCCGCCGTGCTTCGTCCGCTTCTGGACAGCCGCGACCTGCAACTCGCATCCGGCTGGTATTCCGGCGAACTTGCCGAGCGCGGCGTCGATGCGGAGATGGCAAGCGTCGCCGCGCACGCTGCCCTGCTGCGGGACATGGGCAGCAGTGTGCTTGTCTATGGCGAGGTGGCGATGATGGCACCAGGCGCGCCGCTCGATGCGCCGATGTCGAAACGCCTGACCATGCCGGCGGATGATATCGGCGGTTACGCCGCGAGACTGACAGAGTTCGGCAAGCGGCTTGGCGGAGAATACGGGCTGGTGCTCGCCTATCATCACCACCTGATGATGGTCGCAGAGACCTTCGACGAGATTTCGTCGCTCTTCGACAAGACGGGAGCGGAGGCTGGGCTTCTGCTCGATACCGGCCATGCCGCCGGTGGTGGTTTCGAGTACGCACGGCTGATCGAACGTTTCGGCGATCGCATCAACCACATTCATCTCAAGGATATGCGCACTCCCGTGATGACGGATGTTCGCAGCCGCGACCTCAGCTTTAACGACGGTGTTCGTGCCGGCATGTTCACTGTTCCTGGCGATGGTAACGTCGATTTCAGTCCGATCGTGCGCTTTGTTCGCGGCGGCTACAAGGGCTGGCTCGTGGTGGAGGCTGAGCAGGATCCCGCCCAAGCGCCGCCGCGTCCTGCCGTCACTCGCGCCTTCTTTCACATGCACGACCTTTTCGCAGCTAGACCAGATTGA	MTTTDLLPEGVRIAVSPLSWVNDVLEDLGRDISLETCLNDAAAIGYQGVELGRKFPRDAAVLRPLLDSRDLQLASGWYSGELAERGVDAEMASVAAHAALLRDMGSSVLVYGEVAMMAPGAPLDAPMSKRLTMPADDIGGYAARLTEFGKRLGGEYGLVLAYHHHLMMVAETFDEISSLFDKTGAEAGLLLDTGHAAGGGFEYARLIERFGDRINHIHLKDMRTPVMTDVRSRDLSFNDGVRAGMFTVPGDGNVDFSPIVRFVRGGYKGWLVVEAEQDPAQAPPRPAVTRAFFHMHDLFAARPD	PGPT0016785_675	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_CATABOLISM,PGPT0016785-mocC-K03335	NA	NA
BMS010_06939	1008	iolG_7	COG0673	Myo-inositol 2-dehydrogenase	ATGATTGAGCTCGCCGTCTTTGGCGCAGGCCGTATCGGGCAGGTGCATGCCCTGAACGCGGCTGCTCACCCCTCAGCGCGCCTGAAATACATCGTTGACCCCGTCGCAAGCGAGCATCGCGAGCATCTCGTAATCCAAACCGGAGCCGTGCTGTGCGAGCCGGAAGAAGTCTTTGCCGACCCAGGCATTACAGGCATCGTCATAGCGAGTTCCACTGATACCCATGCGGAACTGCTTTTGCGGGCGGCGCAGGCAGGCAAAGCCGTGTTCTGTGAAAAACCGGTCAGCCTTGATTTTGCAACCGTCGTAGATGTCACAAGCAAGGTTGAAAACGCCGGTGTGGCCTGCCTACTTGGATTTCAACGCCGATATGATCCGGATTATCGTCTGGTGCGTGACAGGATTGCGAGTGGTCAGGCAGGCCGCTTGGAGCACATCGTCATGCACACCCGCGACCCGTCGCCCCCGCCACGTTTCTACGTCGAGCGGTCGGGTGGCATGTTTCGAGACCAGGCGATCCATGATTTCGACATGGCCCGTTATCTTCTTGGAGAGGAAATCGCAATTGTCTACGCGGTTGGAAAAAGCCTGATCGACCCCGAAATCGAAGCGGCAGGCGATATCGACACGGCAATGATCACACTGACATCGGTTTCTGGTCGCTTCGTTCAGATGATAAATTGCCGGCGTGCGCCATTCGGTTACGATCAGAGGTTGGAGGCCCTGTGCTCGAGCGAGGTGCTCTACGTCGAAAACCGCCCGCAACGGGGCGTCATGATCGCCGACGCCAATGGTTTTCATTCGTCGATACCCATGAACTATTTCATCGAACGTTTTGCGGGTGCCTATCTCGCGGAAATGCACGCCTTCATCGATATGATCGAGAAGGGTACCAAACCCCTCGCCGGGATAAGAGATGGCTTGGAGGCACAACGCCTTGCCGAGGCCGCGATCGTTTCGATGACAACCGGCTCACCCGTCCACATCAGTTCCGACTGGCATCCTTGA	MIELAVFGAGRIGQVHALNAAAHPSARLKYIVDPVASEHREHLVIQTGAVLCEPEEVFADPGITGIVIASSTDTHAELLLRAAQAGKAVFCEKPVSLDFATVVDVTSKVENAGVACLLGFQRRYDPDYRLVRDRIASGQAGRLEHIVMHTRDPSPPPRFYVERSGGMFRDQAIHDFDMARYLLGEEIAIVYAVGKSLIDPEIEAAGDIDTAMITLTSVSGRFVQMINCRRAPFGYDQRLEALCSSEVLYVENRPQRGVMIADANGFHSSIPMNYFIERFAGAYLAEMHAFIDMIEKGTKPLAGIRDGLEAQRLAEAAIVSMTTGSPVHISSDWHP				NA	NA	NA	NA	NA
BMS010_06940	1014			hypothetical protein	ATGGGAAAGATCACGGCAAGGGACATCGCCAAGGCAGCAAACGTTTCGCTTTCCACCGTTGACCGTGTTCTTAACAATCGTGGCGGCGTCACCGACGCGAAGGAAAGGCGCGTTATCGAATGGGCTCGAAAGCTCAAGATTGATCGCGCGCTCAATCAGCGGGCCGCACGAACTCTCAGGATTGCCGTTCTGCTTCAGCGTCCCGAAAACCCGTTTCACGCCACAGTCCAGGCAAACTTCGAGGCGGCAGCGCGAGATTTTCCGCAGTTCAATCTGCAGTTCAAAATCCATCATATCGATCCGGTAAAGCCTCGTGCAACAGCAGGCCTGATCGGCAGCCTCATCAAGACATGCGATGGGATGGTGATTGTCAGCGCAGCGGATCCCGATATTGCTGCCGCATTGAGAGAATTTGGCACGTCGGGCAAGCCGGTTATCACGCTTGTCACTGACATCGCGGGCTCGGAGCGCTTTGCCTATGTTGGTCCCGACAACGTCAAGACAGGCAGGATTGCCGGCGATCTGATGGGCCGCCTTCTGGGGCGAGACGGTGGAGACGTCATTGTGATTTCTGGAATGCTCAGCATGATGGGACATGAGGAGCGTGAAGCCGGTTTCCGTGCCGTGCTAAACGAACGCTATCCCGATTGTCATGTGACCGAGGTGCTTGAAAGCTATGAGCGGGCTGAACTGGCTGGCGACTTAGTGTTTAGCGCCTTGAAGCGCAACAGCGCCATTCGCGGGATCTACAATGCGTCAGCTGGCGCATCAACCGTCCTGAATGCCGTGGATGCTGTAGGACGAGCGAATGAAATAGTGTTCATCACCCACGAATTGACGGACGAGAGACGGCAGTTGCTGCGACAGGGCTTGATCGATATCATCATCGATCAAGGACCCGCTTTCGAGGTGCAGACTGCCATTGGTGCGCTTGCAGCTTTCTTTGGGCGACAGGAAAGACCACCACCCTCGCTCATAACGCCGGTCCAGATCCACACAATTGAAAACTGCTGA	MGKITARDIAKAANVSLSTVDRVLNNRGGVTDAKERRVIEWARKLKIDRALNQRAARTLRIAVLLQRPENPFHATVQANFEAAARDFPQFNLQFKIHHIDPVKPRATAGLIGSLIKTCDGMVIVSAADPDIAAALREFGTSGKPVITLVTDIAGSERFAYVGPDNVKTGRIAGDLMGRLLGRDGGDVIVISGMLSMMGHEEREAGFRAVLNERYPDCHVTEVLESYERAELAGDLVFSALKRNSAIRGIYNASAGASTVLNAVDAVGRANEIVFITHELTDERRQLLRQGLIDIIIDQGPAFEVQTAIGALAAFFGRQERPPPSLITPVQIHTIENC	PGPT0017992_6663	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017992-lacI|galR-K02529	NA	NA
BMS010_06941	867	pdxI		Pyridoxine 4-dehydrogenase	ATGAGCACTATCGAAAATACAGGAACCTTCAAGCTTGGCGATCGTACGGTGCGCCGGCTGGGTTATGGCGCGATGCAGCTTGCGGGCAAAGGCGTGTTCGGCCCGCCGCGCGATCGTCGGGAGGCCATCGCCGTTCTGCGCGAGGCTGTGGACAGTGGCGTCAATCACATCGACACCAGCGACTTCTACGGTCCGCATGTCACGAACGAGATCATACGCGAGGCCTTGCATCCCTATGGCAGCGACCTGGTGATTGTCACGAAAGTCGGCGTAGTCAGGGGAGCTGACGCCTCGTGGAACGCGTCATTTTCGCGCGCCGGCCTGACGCAGGCCGTTCATGACAACCTCCGCAATCTCGGGCTCGATGTGCTCGATGTAGTGAACCTCCGCGCCATGTTCGACGTGCATGGTCCCGCAGAAGGCTCGTTGGATGAGCCGCTTCAGGTTCTGGCGGAGTTGAAGCAACAAGGCCTGATCCGGCATATTGGACTGTCTAATGTCACGGCCAAGCAGGTTGAGGAAGCCGGCAAGATCACCGAGATCGTCTGTGTGCAGAACCAGTACAACCTTGCGCATCGCCAGGACGAAGCCTTAATCGACACGCTCGCCTCTCGAGGCGTGGCCTATGTCCCGTTCTTTCCTCTTGGCGGCTTCTCACCGCTGCAATCCTCGACCCTGTCGAGCCTCGCCGCCCGGCTCAACGCCACGCCGATGCAGGTGGCCCTTGCATGGCTTCTCCAACGATCGCCGAATATTCTCCTGATCCCTGGCACTTCATCACGAATCCATCTGCGGGAAAACCTCGCATCGGCCACGATAGAGCTTCCCTCGGAGGTACTGTCGGAGCTGGAGAATGTTGCTGCCTAA	MSTIENTGTFKLGDRTVRRLGYGAMQLAGKGVFGPPRDRREAIAVLREAVDSGVNHIDTSDFYGPHVTNEIIREALHPYGSDLVIVTKVGVVRGADASWNASFSRAGLTQAVHDNLRNLGLDVLDVVNLRAMFDVHGPAEGSLDEPLQVLAELKQQGLIRHIGLSNVTAKQVEEAGKITEIVCVQNQYNLAHRQDEALIDTLASRGVAYVPFFPLGGFSPLQSSTLSSLAARLNATPMQVALAWLLQRSPNILLIPGTSSRIHLRENLASATIELPSEVLSELENVAA	PGPT0009140_1349	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009140-ydbC-K05275	NA	NA
BMS010_06942	918	pgrR_11		HTH-type transcriptional regulator PgrR	ATGTCGGACATTACGGACGTCAATGCGTTTCTGCTGGTGGCTCGATCCAGAGGTTTTCGGCAGGCCGCGCGCGAAAGTGGCATCAGTTCCTCCGCGTTGAGCGATGCGGTAAAACGCCTGGAAGAGGACATTGGGGTAAGGCTATTCAATCGCACCACTCGCAGCGTACTCCCGACGGAGGCCGGACGTCTCTTGATGGAGCGCACCGGACCTGCGTTTGCAGAAGTCGCATCGGCACTCGACGAGGTAAGAAGCAGCCGCGGCCGCCCCTCGGGGGAGCTCAGGCTAAATGTCCCGATGAGCGCGGCAAGGCTGGTCCTGCCTGCGATCGTGCCGCCGTTCTTGGCGGCCTATCCAGACATAAGGCTGGAAATCGTGACCGACGAGAATTTCGTCGACATCATAAAAAGCGGCTGCGATGCTGGCATCCGTTATGACGAACGGCTCGAGCAGGATATGGTGGCTTTGCCGATCGGCCCGCGTCAGCAGCGCTACGCCCTTGCCGCGTCGTCGCGTTATCTCGCAAGGAGGGGTGGACCGCAACATCCACGAGACCTGCTTTCGCATGATTGTATTCTAGGGCGGTTTTCGGGGCGTGCACTCCCCTCTTGGGAATTCGAACGCGATGGGGAGGAAGTCATCATAAATCCGAAAGGTAACCTCGTGGTCCAGTTCGGCGGCGGCACCGATCTTGGCATCGACGCAGCCATTGCCGGTTCTGGCATGATTTATATTTTCGAGGACTGGCTAAGGCCACACTTTGATCGAGGAGATCTGGTGCCGGTGATGGAAGAATGGTGGCTGCAGTTTTCGGGTCCGTTCCTCTATTACCCTGGGCGGCGCCTTGTGCCCGCGCCATTGCGCGCATTTATCGATTTCGTGAGGCAATCGCACAAGGTATGGATCGGGGCAGAATGA	MSDITDVNAFLLVARSRGFRQAARESGISSSALSDAVKRLEEDIGVRLFNRTTRSVLPTEAGRLLMERTGPAFAEVASALDEVRSSRGRPSGELRLNVPMSAARLVLPAIVPPFLAAYPDIRLEIVTDENFVDIIKSGCDAGIRYDERLEQDMVALPIGPRQQRYALAASSRYLARRGGPQHPRDLLSHDCILGRFSGRALPSWEFERDGEEVIINPKGNLVVQFGGGTDLGIDAAIAGSGMIYIFEDWLRPHFDRGDLVPVMEEWWLQFSGPFLYYPGRRLVPAPLRAFIDFVRQSHKVWIGAE				NA	NA	NA	NA	NA
BMS010_06943	480	ibpA_3	COG0071	Small heat shock protein IbpA	ATGGCAACATCTTACGACTATGCACCACTCTACCGCTCGAGCGTTGGTTTCGACCGGATCTTCAATCTTCTGGAAAACGCTCAGCGTGCCCGTTCGACGAACGACTGGCCGCCCTATGACATCGTCAAAACAGGCGACGATTCATATCGGATCTCGATTGCGGTGGCGGGCTTTGCCCAAGACGATCTCGACGTCAGTTTCCAATCCAACCTGCTCACTGTTGCCGGCAAGAAGCAGGAGGCACCCTCGGATGACTACCTGCATCGCGGCATCGCTGGTCGCCCGTTCGAACATCGTTTCGAACTCGCCGACCATGTCCGTGTGAGCGGAGCGGGTTTGAATAACGGTCTCCTGTCGATCGAGCTTGTCCGCGAGATTCCCGAGGCATTGAAGCCGCGCAAGATCTCGATTCAGAGCACGCCCACGCCCACGCTGACGTCGGCGGCTCCGGCACAGATTGAAGCACAGAAGGCGGCTTGA	MATSYDYAPLYRSSVGFDRIFNLLENAQRARSTNDWPPYDIVKTGDDSYRISIAVAGFAQDDLDVSFQSNLLTVAGKKQEAPSDDYLHRGIAGRPFEHRFELADHVRVSGAGLNNGLLSIELVREIPEALKPRKISIQSTPTPTLTSAAPAQIEAQKAA	PGPT0014641_458	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014641-ibpA-K04080	NA	NA
BMS010_06945	291			hypothetical protein	ATGGAAGAGGACATTAAGATCATCAAGGACGCTAGCATCGCCGAGAGGGAAGAGATTATTGTCGATTTTGCGCGATGGCTTGAGACCGCCTCGCAGGAGGCCCTTGTCTACGGTGAGGGGCGATTTGCATTGATGTCTGCGAATATGGCGGAAGCCATCCGCGTAAACGCCGATGAACTGGCACGCGACAGTCCCGAAACCGCCGAGCGGGTATTGCAACAAGCTTGCGAGATGATCTCGCAGTTCAAGGCGGCTTATCCGCATCGTGTTCTCAGTCGATCGGTACATTGA	MEEDIKIIKDASIAEREEIIVDFARWLETASQEALVYGEGRFALMSANMAEAIRVNADELARDSPETAERVLQQACEMISQFKAAYPHRVLSRSVH				NA	NA	NA	NA	NA
BMS010_06946	1110			hypothetical protein	ATGACAGATGACCCTCAGACCCGACAAGACGCCAGAGATGCAGGGAACCGTCTCGTTGCTGGTCATGCTTCTGAAGATCCATTCGCGGCGGCGTTCAAAGCCACGCGTATGCCCATGCTCATCACCGATCCGCGTCAACCTGACAACCCGATTATCTTCTGTAATACGGCGTTCTCTAAGTTGACCGGCTATTCCAACGAGGAGCTAATCGGAAAGAACTGCCGTCTCCTTCAGGGACCGAATACCGATCCGAAAGCTGTGCAGAAGCTTCGCGAAGCCATTGCGGCAGCGCAGGATCTGTCAATCGATATCCTAAATTACCGGAAAGATGGATCAGAATTCTGGAATGCCCTCTTCGTCAGTCCGGTTCGCGATGCCTCAGGAACGGTCATCTATTTCTTTGCCTCGCAACTCGACTTCACAAATATCAAGAGCAAGGAAGCGAAGCTCGCCCAGGCACGTCATACCGCCGAAGAAGAAGTTGCGTTGCGAACCGCGGCTCTGACAGATGCTCTTCGAGCGAAAACGGCCTTGGTTCACGAGGTCGATCATCGGGTAAAAAACAACCTGCTGACGATTGCGTCGATCGTGAAACTTCAAGCGCGTATGACTGAAAATGATGTCGTTGAGCGAACACTCATGTCAGTGCTCAATCGGGTCGAAGCTCTAAGCACGGTTCAGCGTAAACTCCTGAACGACGAAGAGGTCGGCTATTTCGACGTCGCAGATTTCGCAAACACCCTGATGCTTGACAAGATAGGTGCGCTTAAGCGCCCCGACATCCAGCTCACGACAGATCTTCACGAAGTCGTAGTCCCAGCGACTAAGGCATCTCCGCTGGCCCTGATCATAAACGAGCTCGTCGGCGACGCTATCCGCAGGGGTCTGAGTGACGGCGGTGGCAAAATCCATCTCGAGATAAGGCGGCTGAACGGGCACTTCTTGATGCGGGTCATCGACACCGTTTCGCCAGTGGAGGTAGACAAAGAAGAGGAGGCTTTCAGCCAGAAGATGCTTGAGGCGTGTCTCCTGCAACTTCGCGCCAAGATGGACCGGAAGATTACCGGTCACAAAACAAACGTCAGCGTCGAACTGTCGGTGAAAGACTGA	MTDDPQTRQDARDAGNRLVAGHASEDPFAAAFKATRMPMLITDPRQPDNPIIFCNTAFSKLTGYSNEELIGKNCRLLQGPNTDPKAVQKLREAIAAAQDLSIDILNYRKDGSEFWNALFVSPVRDASGTVIYFFASQLDFTNIKSKEAKLAQARHTAEEEVALRTAALTDALRAKTALVHEVDHRVKNNLLTIASIVKLQARMTENDVVERTLMSVLNRVEALSTVQRKLLNDEEVGYFDVADFANTLMLDKIGALKRPDIQLTTDLHEVVVPATKASPLALIINELVGDAIRRGLSDGGGKIHLEIRRLNGHFLMRVIDTVSPVEVDKEEEAFSQKMLEACLLQLRAKMDRKITGHKTNVSVELSVKD				NA	NA	NA	NA	NA
BMS010_06947	447			hypothetical protein	TTGAATATTTTGATTGTCGAGGACGAGGTCCTCCTGGCTATGGAGCTGGAAAACGAAGTGGAAGATGCCGGCCATCATGTCGTCGGGACGGCCGCTGACAGCCGGGAAGCAATCGAACTCGCTGAAGCGACCTCTCCGGAATTTGCTTTTGTCGATATTCAGTTGCTCGACGGCCCGACAGGCATCGATGTCGGCCGCTACCTGTCGGAGAAAACAATACCCTTCGTTTTCGTGTCAGGTAATCTCAAGCGTATACCAGACGATTTTGCGGGAGGACTTGGGGCGATCGAGAAGCCTTACACGATGAACGGGCTGCAGAACGCCATGCAGTTTCTTCAAAGTTTTGTCGATGGAGGCCCCCCGTCCGTAGTTCCGCCGAGCCTTGTTCTTTCGCCCGCCGTCCTTGCGGCTCTTGCTTCACGATCAACTTCGCGTCCGCGCGGTTAA	MNILIVEDEVLLAMELENEVEDAGHHVVGTAADSREAIELAEATSPEFAFVDIQLLDGPTGIDVGRYLSEKTIPFVFVSGNLKRIPDDFAGGLGAIEKPYTMNGLQNAMQFLQSFVDGGPPSVVPPSLVLSPAVLAALASRSTSRPRG				NA	NA	NA	NA	NA
BMS010_06948	2313			hypothetical protein	GTGAGTTCACCATCGGAGCGCATTGGCGCTGTTCGAGATTCAGGTCTGCTTGAAGCTCCGGTTCAGTCGGAATTCCAGGACATTATCGAGGTCGTCAAAGCCGGGCTGAACTGTCCTGTGGCGCTTGTGTCGATACTCGATGAAGATCGTCAGGTTTTTATCGCTCACCTCGGCTTGCCGGAAAAATGGGCCGAGGCGGCTGAGACGCCCCTGACGCACTCATTCTGTCAACATGTCGTCCGCGATAAACAACCTCTGATCATAGGTGACGCGACGATACACGATCTTGTCCGGAACAATCTTGCCATCACGGATCTGGGCGTGATCTCCTACATGGGGGTTCCAGTTAAGTTACCGGACGGAATGGTGATCGGGGCGTTGGCTGCGATCGATGGTGAGCCACGTAACTGGACGGAGAGCGAGCTCGAGTTGCTCAGTCGGATCGGCAAGCTGGTTTCGAACCAGATCGCCACTTTTCTATCCGAGCGTCGATGGAGTTCGCTTTTCGAGCAGCTCGAGGAAGGCATTATCGTCGGCTCAGTTGTTCGGGATATCGATGGCAAGATCGTCGACTGGCGGTATGAAACGGTCAATCCCGCTTGGAGTGAACTGGTAGGCTATCCTGACCAAAACGTGTCAGGCCGTACAATGCGTGAGATTTTCCCGAGTTTTGAACAGGAGTGGGTTTCCGACGTCGCAGACGTGGTCGAAACCGGCCGGAATATACGGTTTACCCGGAAAGTTGGCTCGCTTGGCCGCTGGTTCGATGGCTACGTACAAGCCACTGGTAATGATAAGTTTGTCATCATCTTTGTCGAGGTGACAGACCGAATGCGGGCGCTGGAGGCACTTCAGGAGAGCGAGACAAAACTGCGGCTCATCGTCGAGGGGGCGAAAGACTACACAATTCTGACAGTGGATAACCAGCACCGCATTACCAGCTGGTTTGGGGGGGCGCAGGAAACGTTTGGCTGGTCGGAAGCGGAGATGCTCGGCCGGCCGTTCGCAGAGCTCTTTACGGACGAGGATCGCGCGGCAGACGTTCCGGCTAGGGAAGTGCGTAAAGCCGCAGCAGAAGGCCTCGCAGTCGATCGGCGATGGCACCAGGCAGCGGACGGATCAAAGGTGTTTCTCGACGGAACCCTTCGCCCGCTTCCAAGCCGAGGTGCTTCACCGATTTCCGGGTTCATCAAGGTCGCGCGGAATGCTACGGCGCAAAAAGTTGCGGAAGACCGACAGCTGGCATTTCTGGAGCTAGGTGACAAAATTCGTGAACTGGACGATGTCACAGATGTAGCATTTGCTGCAGCCGAGATTATGGCGCGAAACCTGGCTGGCGCCACAAGAGCAGGCTACGGCCTTGTGGACCCGATTGCCGAGACCGTTGAAATGCTGCCAGACTGGCGAGCAGAAGGGGTCTCGACCGTCGCTGGCCTACATCAGTTTCGTAACTATGGATCATATATCGAGGATCTTAAGCGCGGCGAGACGGTGATTATCCCAGACGTGGAAAAAGATCCCCGGACGGCAGACTCGGCCGAGCTGTTTCATTCGATCGGAATCTCGGTTCTCGTCAATGTTCCGATCGTTGAGCACGGCGCGTTTGTGGGAGTGATGTTCGTTCACTACGCCAGACCCCATCACTTCACGACGGAAGAGCGCGATTTTGTCCGCACAATTGCCGACCGCACGCGCGAAGCCATCTCCAGGATACTAGCCCAACAGGAACAGCAGGTTTTGAACCACGAGATCAGTCATCGCCTGAAGAACACGATGGCCATGGTCCAGGCGATTGCAACGCAGACCTTGCGTCCGGTGACAGATCGAGGGCCAGTCGAGGCCTTTACCAACCGTCTCCACGCGCTCTCCAAAGCCCACGAGGTCCTTCTCGTGCAGGATTGGTCTTCCGCGCGTATGGAGGCCGTCATTGATTCTGTTTTGCGCCAGCTGTCACTACCCGACCGTTACTCGATGTCAGGTCAAGACTTGGAGCTAGGACCGCGCTCGGCTCTTTCTCTGGCTCTTTTGATGCATGAACTTGGCACCAACGCCCTGAAATATGGAGCATGGTCGAACGACGTGGGTACCGTTACCGTTCGTTGGACAACGCAGGAGTGCAACGGAGATACTGCACTTCTTCTTGACTGGAACGAGCATGATGGCCCCGCGGTGGTTGCGCCATCAGGTAAAGGTTTTGGATCGAAACTCATACGACTTGGATTGATGGGAACAGGCGGTGTCGAAATCAATTACGATCCGGAAGGATTGCGAGTGACGATGCAGGCATTGGTTTCGCAACTGAGGCACTCATGA	MSSPSERIGAVRDSGLLEAPVQSEFQDIIEVVKAGLNCPVALVSILDEDRQVFIAHLGLPEKWAEAAETPLTHSFCQHVVRDKQPLIIGDATIHDLVRNNLAITDLGVISYMGVPVKLPDGMVIGALAAIDGEPRNWTESELELLSRIGKLVSNQIATFLSERRWSSLFEQLEEGIIVGSVVRDIDGKIVDWRYETVNPAWSELVGYPDQNVSGRTMREIFPSFEQEWVSDVADVVETGRNIRFTRKVGSLGRWFDGYVQATGNDKFVIIFVEVTDRMRALEALQESETKLRLIVEGAKDYTILTVDNQHRITSWFGGAQETFGWSEAEMLGRPFAELFTDEDRAADVPAREVRKAAAEGLAVDRRWHQAADGSKVFLDGTLRPLPSRGASPISGFIKVARNATAQKVAEDRQLAFLELGDKIRELDDVTDVAFAAAEIMARNLAGATRAGYGLVDPIAETVEMLPDWRAEGVSTVAGLHQFRNYGSYIEDLKRGETVIIPDVEKDPRTADSAELFHSIGISVLVNVPIVEHGAFVGVMFVHYARPHHFTTEERDFVRTIADRTREAISRILAQQEQQVLNHEISHRLKNTMAMVQAIATQTLRPVTDRGPVEAFTNRLHALSKAHEVLLVQDWSSARMEAVIDSVLRQLSLPDRYSMSGQDLELGPRSALSLALLMHELGTNALKYGAWSNDVGTVTVRWTTQECNGDTALLLDWNEHDGPAVVAPSGKGFGSKLIRLGLMGTGGVEINYDPEGLRVTMQALVSQLRHS				NA	NA	NA	NA	NA
BMS010_06949	390	cckA_2		Sensor kinase CckA	ATGATGATGGCTGACATTATGAACAAAGTTGCGATCATCCTGGTAGTCGAAGACGAACCGCTGTTGCGTCTGGCTGCCGTCGACCTCGTTGAGGCGGCAGGATATCAAGCGGTTGCCGCGGCAGATGCGACAGAAGCCGTGGCTATTCTGGAGGAACGCGACGATATCCGCATTGTGTTTACCGACGTCGATATGCCGCGCGGCCTCGACGGCATGCGCCTTGCGGCCATCATTCGTGTTAGGTGGCCGCCGATCAAGGTGATCGTTGTTTCTGGACATATCCAGGACCCTGGCGACCGGATTCCTGCTGAAACGGTATTTTTCGCCAAGCCTTACCGGGAGGAGCAGATCGTCGAGACTATTAGGCAGCTGCTTCAACAGAAGGCGTAA	MMMADIMNKVAIILVVEDEPLLRLAAVDLVEAAGYQAVAAADATEAVAILEERDDIRIVFTDVDMPRGLDGMRLAAIIRVRWPPIKVIVVSGHIQDPGDRIPAETVFFAKPYREEQIVETIRQLLQQKA				NA	NA	NA	NA	NA
BMS010_06950	345			hypothetical protein	TTGGCCTTCAGGGCACTGCCAATCGACGGCCTCGACGGCGCCTGCTGTACGAACCAGAAGACCATCCTGCGCAAGAACCTCGAGGATCGGGTTCTGTCCTGCCTCCCCGCTGCGTTCTTCGGAACGGGTTTATTCGACGACGTCGCCGGACAGGCAGCGCCCATCAAGAACGAACCCGACGAGCGCGAGCAGATTTCCAGGGAGTTGAAAGCTGCCGAACAGGAACAGCGCCAGATCATCCAGCAGATCAGCGATCGTGCGGCCGAGGGGCGGCACCGTCTGGCTGCCCTTGACGATACGCTCGACACGCTTGAGGAACGCCGTGCCGGCCTGAGGCGCGGCTGA	MAFRALPIDGLDGACCTNQKTILRKNLEDRVLSCLPAAFFGTGLFDDVAGQAAPIKNEPDEREQISRELKAAEQEQRQIIQQISDRAAEGRHRLAALDDTLDTLEERRAGLRRG				NA	NA	NA	NA	NA
BMS010_06951	300			hypothetical protein	TTGGTCATCAACTCTGCCTTCTATTACCTACGCGAACACGCCGACACGGAGACGAAGCAGCCCTTCATCAACATCGTGCGCCAGTTCATGCAGAAGGTCGTCATCGGCAAGACCCCCGGCCATCAGCAGGCATCGCTTCAGGTCCACGGTCGCATGGCGTCGATCCTCGCCGCGATGGAAGCGGCAACGATCCTGGAAAAACAGTTCGAGGCACTCAAGCAGCATGATTACCTGGAGAAGCCGCGCGACGGCGAACTGGACATGAAGCACAAACAAAAAAAGCTCCTTGAGGCTTATTGA	MVINSAFYYLREHADTETKQPFINIVRQFMQKVVIGKTPGHQQASLQVHGRMASILAAMEAATILEKQFEALKQHDYLEKPRDGELDMKHKQKKLLEAY				NA	NA	NA	NA	NA
BMS010_06952	1092	rutA	COG2141	Pyrimidine monooxygenase RutA	ATGGAAGTTGGTGTTTTTATCCCGATCGGGAACAATGGTTGGCTGCTGTCAGAAAACGCGCCGCAATACAAACCGAGTTTCGACCTGAACAAGGCCATCACTTTGAAGGCGGAGCAATATGGTTTCGACTTCGCGCTCTCGATGATCAAGCTGCGCGGCTTTGGCGGCAAGACCGAGTTCTGGGACTATAATCTGGAATCCTTCACGCTGATGGCGGGCCTTGCCGCCGTCACCTCCAAGATCAAGCTCTTCGGCACGGCCGCTACGCTGGTCATGCCGCCGGCCATCGTTGCCCGCATGGCGACGACCATCGATTCCATTTCCGGCGGCCGTTTCGGCATCAATCTTATTACCGGTTGGCAGCGGCCGGAATATAGCCAGATGGGGCTCTGGCCGGGCGACGATTATTTCGGCGACCGCTACGAATATCTCGGCGAATATACTTCCATCTTGAAAGAGCTGCTGACAGACGGACAATCGGACTACAAGGGCAAGTTCTTCCAGATGGACGATTGCCGCATGAAGCCGGTTCCGCAGGGCGACGTCAAACTCATCTGCGCCGGCTCTTCCAATTCCGGAATGGCGTTTTCGGCCAAGTTCGCCGATTACAGCTTCTGCTTCGGTGTCGGCGTCAATACGCCGAAAGCTTTCGCCCCCACCAATGAGCGGCTGCTGGCGGCAACGGAAAAGACCGGCCGCGAGGTTAAATCCGTCGTGCTGACCATGATCCTTGCCGAGGAAAAATCCGAAGATGCCTGGGCGAAATGGGAGCATTACAAGGCCGGTGCGGATGAGGATGCGATCAAGTGGCTCGGCCTGCAAAGCGCTGTCGATACCAAATCCGGCTCTGACACCAATGTCCGGCACATGTCCAATCCCGTCTCGGCGGTCAACATCAACATGGGAACGCTGATCGGCTCCTATGAGGAAGTGGCGGCGATGCTGGACGAGATGAGCGAAGTGCCGGGAACGGGCGGCGTGATGCTGACCTTTGATGATTTCCTCGAAGGCGTCGAGAAATTCGGCAAATATGTGCAGCCGCTGATGAAGAGCCGCGCGCATGTTCAGGCTGCACTGGAGGCTGCGGAATGA	MEVGVFIPIGNNGWLLSENAPQYKPSFDLNKAITLKAEQYGFDFALSMIKLRGFGGKTEFWDYNLESFTLMAGLAAVTSKIKLFGTAATLVMPPAIVARMATTIDSISGGRFGINLITGWQRPEYSQMGLWPGDDYFGDRYEYLGEYTSILKELLTDGQSDYKGKFFQMDDCRMKPVPQGDVKLICAGSSNSGMAFSAKFADYSFCFGVGVNTPKAFAPTNERLLAATEKTGREVKSVVLTMILAEEKSEDAWAKWEHYKAGADEDAIKWLGLQSAVDTKSGSDTNVRHMSNPVSAVNINMGTLIGSYEEVAAMLDEMSEVPGTGGVMLTFDDFLEGVEKFGKYVQPLMKSRAHVQAALEAAE	PGPT0021260_156	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021260-rutA-K09018	NA	NA
BMS010_06953	741	rutB_2	COG1335	Peroxyureidoacrylate/ureidoacrylate amidohydrolase RutB	ATGAGTGAAGCCGTCGTGGCAGGTTACAAGGGACCGGAAAGCCGTTCGGAAAGCGTGACGCTTCCCGCCCGGCCGGAGCCGATCACCCTGAAACCCAGCGAGACCGCCGTTGTCGTGGTCGACATGCAGAACGCCTATTCGACCGAGGGCGGTTATGTCGATCTGGCCGGTTTCGATATTTCCGGGGCCAAGGGTACCATCGCCAACATCAAGAAGACGCTGGATGCCGCGCGGGCGGCGGGTGTTCAGGTCATTTATTTCCAGAATGGCTGGGACAAGGATTATGTCGAGGCGGGCGGCCCGGGCTCGCCCAACTGGCACAAATCCAATGCGCTGAAGACCATGCGCAAAAGGCCGGAACTGCAGGGCCAGCTCTTGGCCAAAGGCACGTGGGATTATGCCATCGTCGACGAGTTGCAGCCGCAGCCCGGCGATATTCTGGTGCCGAAGACGCGTTACAGCGGTTTCTTCAACACCAACATGGACAGCGTTTTGCGCGCCCGCGGCATACGCAATCTGGTATTCGTCGGCATTGCCACCAATGTCTGCGTGGAAAGCTCGCTGCGCGACGCCTTCCATCTCGAATATTTCGGGGTGATGCTGGAGGATGCCACGCACCATCTGGGCCCCGATTATATCCAGCAGGCGACTGTCTACAATGTCGAGAAATTTTTCGGCTGGGTCGCCACCGTCAATGATTTCTGCGGCGTCATCTCGCAGGCCGCACCCGTCAGCGCTTGA	MSEAVVAGYKGPESRSESVTLPARPEPITLKPSETAVVVVDMQNAYSTEGGYVDLAGFDISGAKGTIANIKKTLDAARAAGVQVIYFQNGWDKDYVEAGGPGSPNWHKSNALKTMRKRPELQGQLLAKGTWDYAIVDELQPQPGDILVPKTRYSGFFNTNMDSVLRARGIRNLVFVGIATNVCVESSLRDAFHLEYFGVMLEDATHHLGPDYIQQATVYNVEKFFGWVATVNDFCGVISQAAPVSA	PGPT0021270_146	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021270-rutB-K09020	NA	NA
BMS010_06954	387	rutC_2	COG0251	Putative aminoacrylate peracid reductase RutC	ATGCCGAAGAAGATCGTCGTGCCCGCCGGCACCAGCAAACCCATCGCTCCCTTTTCGCCGGGAACCCTTGCCGATGGCGTGGTTTACGTTTCCGGCACGCTGCCCTTCGACAAGGACAATAATGTCGTGCATGTGGGCGATGCCAGCGCCCAGACCCGCCATGTTCTCGAAACCATCAAGTCCGTCATCGAAACCGCCGGCGGCACGATGGAGGACGTGACGATGAACCATATCTTCATCACCGACTGGGCGAATTACCAGGCCGTCAACACGGTCTATGCCGAATATTTCCCCGGCGACAAGCCGGCGCGTTATTGCATCCAGTGCGGCCTCGTAAAGCCAGACGCGCTGGTGGAAATCGCCACCGTCGCCCATATCGGCAAATAG	MPKKIVVPAGTSKPIAPFSPGTLADGVVYVSGTLPFDKDNNVVHVGDASAQTRHVLETIKSVIETAGGTMEDVTMNHIFITDWANYQAVNTVYAEYFPGDKPARYCIQCGLVKPDALVEIATVAHIGK	PGPT0021275_88	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021275-rutC-K09021	NA	NA
BMS010_06955	792	rutD_3		Putative aminoacrylate hydrolase RutD	ATGATGCATTTCGAGGTTCATGGCCGGACTGATCCTGAGGCGCCCACCATCCTGCTGTCATCGGGGCTGGGCGGATCGGGCGCCTATTGGACGCCGCAGATCGAAGCCCTTGCCGATCATTTCCGGATTGTCACCTACGATCATCGCGGAACCGGCAGGACCGGCGGCGAGGTGCCGCTGGATGGCGGCATATCGGCGATGGCGGATGATGTGCTGGAAATCGTCTCGGCGCTGAACCTCGAGAAATTCCACTTCATGGGTCATGCGCTTGGCGGTCTGATCGGCCTCGATATCGCGCTGCGCAGGCTCGGCCTTATCGACAGGCTCGTTCTCATCAATGCCTGGAGCAAGGCCGATCCGCATTCCGGGCGCTGCTTCGATGTGCGGATCGAGCTTCTGGAAAAATCCGGCGTCGAGGCTTTCGTGAAAGCCCAGCCGCTGTTTCTCTATCCGGCCGCCTGGATGTCGGAACATCAGGAGCGGCTGGCGCGGGACGATGCCCATGGCGTCGCGCATTTTCAGGGCAAGGGGAATGTGCTTCGGCGCATCGCGGCACTGAGGGCCTTTGACGTCGATAGTCGCCTCGGCGAGATCGGCAATCCGGTTCTGGTGGTGGGCACGAAAGATGATCTTCTGGTGCCCTACACCCGCTCCGTGCGTCTCGCTGAGGGTTTGCCGCAGGGGGAACTCTGCCTTCTCGATTTCGGGGCGCATGCGGTCAATATTACGGAAGCTGACCTTTTCAATGCTCGGCTTTTGCAGTTTCTGCTACCGGTAACACGAACATTCTGA	MMHFEVHGRTDPEAPTILLSSGLGGSGAYWTPQIEALADHFRIVTYDHRGTGRTGGEVPLDGGISAMADDVLEIVSALNLEKFHFMGHALGGLIGLDIALRRLGLIDRLVLINAWSKADPHSGRCFDVRIELLEKSGVEAFVKAQPLFLYPAAWMSEHQERLARDDAHGVAHFQGKGNVLRRIAALRAFDVDSRLGEIGNPVLVVGTKDDLLVPYTRSVRLAEGLPQGELCLLDFGAHAVNITEADLFNARLLQFLLPVTRTF	PGPT0021280_236	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021280-rutD-K09023	NA	NA
BMS010_06956	591	rutE	COG0778	putative malonic semialdehyde reductase RutE	ATGACCACAGCACTCGACGACAAGGCACTTGCAGCACTTTTCACCGCGGCGCGCACCCACAATGGCTGGGCTGACAAGCCGGTCGGCGACGAGACGCTGAGAGAGCTCTACGATCTGACAAAGATGGGTCCGACCTCAGCCAATTGCTCGCCGGGGCGTTTCGTGTTCGTGCGCAGCCAGGAAGCGAAAGAAAAACTGCGGCCGGCGCTTTCGTCGGGTAATCTTGAAAAGACCATGGCAGCACCCGTCACCGTGATTGCCGCCATCGACCGCGAATTTTACGAAAAACTGCCGATGCTGTTTCCGCATGCCGATGCCCGTTCGTGGTTCACCTCCAGCCCGGCCGTGGCCGAGGAAACGGCCTTCCGCAATGCCACTTTGCAGGCGGGCTATCTCATCCTAGCAGCCCGCTCGTTGGGACTTGATACCGGGGCGATGTCCGGTTTCGATAAAGGCAAAGTGGATGCGGCGTTTTTTGCCGGCACGACGTGGAAATCCAATTTCCTGATCAATCTCGGTTATGGCGATCCGTCTAAGCTCTTTGGCCGCCTGCCGCGTCTTGGCTTTGATGACGCCTGTGTGCTGGCTTGA	MTTALDDKALAALFTAARTHNGWADKPVGDETLRELYDLTKMGPTSANCSPGRFVFVRSQEAKEKLRPALSSGNLEKTMAAPVTVIAAIDREFYEKLPMLFPHADARSWFTSSPAVAEETAFRNATLQAGYLILAARSLGLDTGAMSGFDKGKVDAAFFAGTTWKSNFLINLGYGDPSKLFGRLPRLGFDDACVLA	PGPT0021290_590	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021290-rutE|ycdI-K09019	NA	NA
BMS010_06957	525	rutF	COG1853	FMN reductase (NADH) RutF	ATGCAGATGATGTCTCTTGAAAAGGAAGCGGAAATGGAGACGAAGACTGCACAGCAGCGCAGCCTCGATTATAGAAACGCCATGGCGCGGCTCGGTGCGGCGGTCAATATCGTCACCACGGACGGGGCGGCAGGCCGTGCAGGCTTTGCAGCGACAGCGGTTTGCAGCGTTTCCGACAACCCGCCCACCCTTCTTATCTGCCTCAACCGCAATTCTTCCGCTTACAGGGTGGTGAAGGCCAATGGCGTCGTCTGCGTCAACACGCTCGCCGCCCATCACGAGGTGCTGAGCACGCTTTTCGGCGGCAAGACGCCGGCGGAAGAGCGTTTCGCCGCCGGAAGCTGGGGTGTGCTTGAAACCGCCGCGCCGGTTCTGGAGGACGCGCTTGTCTCTTTCGACTGCCGCATCCGCGAGGCGCATGACGGCGGCACGCATGATATTCTGATCTGCGAGGTTGTGGATATGAAGATCAATGAAGGCGATGAGGCGCTGATGTATTTCAACCGGCGTTACCGGGTGCTTTGA	MQMMSLEKEAEMETKTAQQRSLDYRNAMARLGAAVNIVTTDGAAGRAGFAATAVCSVSDNPPTLLICLNRNSSAYRVVKANGVVCVNTLAAHHEVLSTLFGGKTPAEERFAAGSWGVLETAAPVLEDALVSFDCRIREAHDGGTHDILICEVVDMKINEGDEALMYFNRRYRVL	PGPT0021265_202	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021265-rutF-K09024	NA	NA
BMS010_06958	1446	pntB_1	COG1282	NAD(P) transhydrogenase subunit beta	ATGACCATTGGTATCGTTTCCGCGGCCTATGTTGCCGCAGCCGTTCTTTTCATCCTTTCTCTTGGTGGCCTTTCCGGACAGGAAAGCGCCAAACGCGCCGTCTGGTACGGCATTGTCGGCATGGGTCTCGCCATCGTCGCCACCGTCTTCGGCCCTGAGATCAGCAAGGGCGTCGGGCAGTGGCTCGTGGTGCTGCTGATGCTGGCGGGCGGCTCCGTTCTCGGCTACTTCGTCGCAAGCCGCGTGCAGATGACCGAAATGCCGCAGCTTGTTGCAGCCCTTCACTCCTTCGTCGGCCTCGCCGCCGTCTTCATCGGCTTCAACGCCCATATCGAGGAAGCGCATGTCGCCTCGCTCGATGAGACCGCGCGTTCGCTGCTGACGGGCTTTTCCGCCATTCTCGCCCACAAGACGCCGGTTGAACTGGCGATCATGAAGGTCGAGGTCTTCCTTGGCGTCTTCATCGGCGCAGTCACCTTCACTGGCTCCGTCGTCGCCTTCGGCAAGCTTGCCGGCAAGGTGGACGGCAAGGCGAAGAAACTGCCGGGCGGGCATCTGCTCAATGCCGGCGCTGCGATCCTGTCGCTCGTGCTGCTCATCATGTATTGCAACGGCGCCGGCGCATGGACGCTGGTGCTGATGACGCTTGCCGCCTTCTTCATCGGTTATCACCTGATCATGGGCATCGGCGGCGCCGACATGCCTGTCGTCGTTTCGATGCTGAACAGCTATTCCGGCTGGGCGGCCGCAGCAATCGGCTTCACGCTCGGCAACGATCTGCTGATCGTCACCGGTGCGCTGGTCGGCTCCTCGGGTGCGATCCTCTCCTACATCATGTGCAAGGCGATGAACCGCTCCTTCATCTCGGTCATCCTCGGCGGCTTCGGCGGCACGACGGGTCCGGCGATGGAAATCGAGGGCGAGCAGGTGGCGATCGACGCCGAAGGCGTGGCGGCCGCGCTGAATGACGCCGACAGCGTCATCATCGTTCCCGGCTACGGCATGGCGGTGGCGCAGGCGCAGGCCGCGGTCTCCGAACTGACCCGCAAGCTGCGCGCCGACGGAAAGACCGTGCGCTTCGCCATCCACCCGGTCGCAGGCCGCCTTCCCGGCCACATGAACGTACTGCTGGCCGAGGCCAAGGTGCCTTACGACATCGTGCTGGAAATGGACGAGATCAACGACGACTTCCCCAATACCGACGTCGTCATCGTCATCGGCTCCAACGACATCGTCAATCCGGCCGCCCAGGACGATCCCAACTCGCCGATTGCGGGCATGCCGGTTCTGGAAGTGTGGAAGTCCAAACTTGTCATCGTCTCCAAGCGCGGCCAGGGCACCGGTTACTCCGGTATCGAGAACCCGCTGTTCTACAAGGACAATACCCGGATGTTTTACGGCGACGCCAAGAAGTCGATCAACGATCTTCTGCCGCTGATCAAGTAA	MTIGIVSAAYVAAAVLFILSLGGLSGQESAKRAVWYGIVGMGLAIVATVFGPEISKGVGQWLVVLLMLAGGSVLGYFVASRVQMTEMPQLVAALHSFVGLAAVFIGFNAHIEEAHVASLDETARSLLTGFSAILAHKTPVELAIMKVEVFLGVFIGAVTFTGSVVAFGKLAGKVDGKAKKLPGGHLLNAGAAILSLVLLIMYCNGAGAWTLVLMTLAAFFIGYHLIMGIGGADMPVVVSMLNSYSGWAAAAIGFTLGNDLLIVTGALVGSSGAILSYIMCKAMNRSFISVILGGFGGTTGPAMEIEGEQVAIDAEGVAAALNDADSVIIVPGYGMAVAQAQAAVSELTRKLRADGKTVRFAIHPVAGRLPGHMNVLLAEAKVPYDIVLEMDEINDDFPNTDVVIVIGSNDIVNPAAQDDPNSPIAGMPVLEVWKSKLVIVSKRGQGTGYSGIENPLFYKDNTRMFYGDAKKSINDLLPLIK	PGPT0013505_466	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013505-pntB-K00325	NA	NA
BMS010_06959	1575	pntA_1	COG3288	NAD(P) transhydrogenase subunit alpha	TTGAGAATCGGGACACCTAAGGAATTATATGAGGGCGAGGCGCGCGTCGGCATGACGCCCGACAGCGCCCAGGCATTGCAGAAACTCGGATATGATTGCATTCTTGAAACCGGTGCAGGCAAGGCGGCGGGTTTTTCCGACGACGCCTATCGCGCAGCCGGTGTGACGATCGTCGACAGCGCCGATGCGCTTTACGCCGGTTCCGACATCATCGCCAAGGTTCGTCCGCCGGAAACGTCGGAGATTGATCGCCTGTCATCGGACAAGACGCTGATCTCGTTCTTCTATCCCGCCCAGAACAAGGACCTGCTGGAGCAGGCGAAGGAAAAGGGCGCAAATGTCATCGCCATGGACATGGTGCCGCGCATTTCCCGTGCCCAGAAGATGGACGCCCTGTCTTCCATGGCCAATATCGCCGGTTATCGCGCGGTCATCGAGGCCGGCAATAATTTCGGCCGCTTCTTCACCGGTCAGGTCACCGCCGCCGGCAAGGTGCCGCCCGCCAAGGTGCTGGTCATCGGCGCAGGCGTCGCCGGTCTCGCCGCCATCGGCACGGCCACATCGCTCGGCGCCATCACCTATGCCTTCGACGTTCGCCCGGAAGTGGCCGAACAGATCGAATCCATGGGCGCCGAATTAGTCTATCTTGATTTCGCCGACCAGCAGCAGGATGGCGCGGCCACCGGCGGTTATGCCGCCCCCTCCTCGCCGGAATTCCGCGAGAAGCAGCTCGAAAAATTCCGCGAACTCGCGCCGCAGATCGATATCGTCATTACCACGGCGCTCATTCCGGGCCGCGACGCCCCGAAACTGTGGCTCGCCGACATGGTGGCGATGATGAAGCCGGGTTCGGTCATCGTCGACCTGGCCGCCGAACGCGGCGGCAATTGCGACCTCACGGTTCCCGACAGCCGTGTCGTCTCAGAGAATGGCGTCATCGTCATCGGCTATACGGATTTCCCGAGCCGTATGGCCACGCAGGCCTCGACGCTCTATTCCACCAACATCCGCCACATGATGACCGATCTGACGCCCGCCAAGGACGGCAAGCCGGTTCACAACATGGAAGACGACGTCATCCGCGGTGCGACGGTCACCTATCAGGGTGAAATCACTTACCCCCCGCCGCCGCCGAAAATTCAGGCGATTGCCGCGCAGAAGCCGAAGGAAAGAGCAAAAGAACTCACGCCTGAAGAAAAGCACGCCAAGGAACACGCGGACTTCAAGGCGCAGACGAAAAGCCAGGTCGGCCTGCTCGCCGTCGGTACGGCGATCCTGCTTCTTGTGGGCGCTTTCGCGCCGGCAAGCTTCATGAGCCACTTCATCGTTTTCGTGCTGGCCTGCTTCGTCGGTTTCCAGGTCATCTGGAATGTCAGCCATTCGCTGCACACGCCGCTGATGGCGGTGACGAACGCGATTTCCGGCATCGTCATCATCGGCGCATTGCTGCAGATCGGTTCCGGCAACTGGCTGGTGGTGATCCTCGCCTCGCTTTCCGTCCTGATCGCGACGATCAACATCGTCGGCGGTTTCCTCGTGACACGGCGCATGCTCGCCATGTTCCAGAAGTCCTGA	MRIGTPKELYEGEARVGMTPDSAQALQKLGYDCILETGAGKAAGFSDDAYRAAGVTIVDSADALYAGSDIIAKVRPPETSEIDRLSSDKTLISFFYPAQNKDLLEQAKEKGANVIAMDMVPRISRAQKMDALSSMANIAGYRAVIEAGNNFGRFFTGQVTAAGKVPPAKVLVIGAGVAGLAAIGTATSLGAITYAFDVRPEVAEQIESMGAELVYLDFADQQQDGAATGGYAAPSSPEFREKQLEKFRELAPQIDIVITTALIPGRDAPKLWLADMVAMMKPGSVIVDLAAERGGNCDLTVPDSRVVSENGVIVIGYTDFPSRMATQASTLYSTNIRHMMTDLTPAKDGKPVHNMEDDVIRGATVTYQGEITYPPPPPKIQAIAAQKPKERAKELTPEEKHAKEHADFKAQTKSQVGLLAVGTAILLLVGAFAPASFMSHFIVFVLACFVGFQVIWNVSHSLHTPLMAVTNAISGIVIIGALLQIGSGNWLVVILASLSVLIATINIVGGFLVTRRMLAMFQKS	PGPT0013500_221	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013500-pntA-K00324	NA	NA
BMS010_06960	1884	nanT		Sialic acid transporter NanT	ATGGCAGATATTGCAGCCGTGAGCGGCGCCGCCCGTCCAATGACGGGTGAAGAGAAGAAGGTGATTTTCGCCTCTTCTCTCGGAACAGTCTTCGAATGGTACGATTTTTATCTGTACGGCTCGCTCGCGATCTATATCGGCGCGAACTTCTTCAGCCAATATCCGGAAACGACACGCAACATCTTTGCGCTGCTGGCCTTCGCCGCCGGCTTCCTCGTGCGCCCCTTCGGCGCGCTGGTATTCGGCCGTCTGGGCGACATTGTCGGCCGCAAATATACCTTCCTCATCACCATCCTCATCATGGGCGTTTCGACCTTCCTCGTCGGCGTCCTGCCCGGCGCATCGCAGATCGGCATTGCCGCTCCGATCATCCTGATCGTTCTGCGCATGCTGCAGGGCCTGGCGCTCGGCGGTGAATATGGCGGTGCGGCAACCTATGTTGCCGAACATGCACCGAACGGCCGCAGGGGCTATTACACCTCGTGGATCCAGACGACGGCGACGCTCGGCCTGTTCCTGTCGCTGGTGGTCATTCTCGGCGTGCAGTTCGCACTCGGCAAGGAAGCCTTCGCCGCCTGGGGCTGGCGCATTCCCTTCCTCGTCTCCGTTCTGCTGCTCGGCGTATCGGTCTGGATTCGTCTGAAAATGAACGAATCTCCGGCCTTCAAGAAAATGAAGGAAGAAGGCAAGACATCCAAGGCGCCGCTCAGCGAAGCCTTCGGCCAGTGGAAGAACGCCAAGATTGCGCTCATCGCGCTTGTCGGCGCCGTCATCGGCCAGGCCGTTGTCTGGTATACGGGCCAGTTCTACGCGCTGTTCTTCCTGCAGAGCATCCTGAAGGTCGACGGCCAGTCCGCCAACATCATGGTGGCGGCAGCACTCATCCTCGGCACCAGCTTCTTCGTCATCTTCGGCTGGCTTTCCGACAAGATCGGCCGCAAGCCGATCATCATGGCCGGTCTCATCCTTGCCATGCTGACCTACTTCCCGCTGTTCAAGGCACTGACATGGGCCGGCAACCCGGCGCTGGCGCAAGCCCAGTCCACCGTTCGCGCCACCGTGACCGCAGCCCCCGGCGACTGCAAGTTCCAGTTCAACCCGACCGGCACGGCGAAGTTCACCACATCCTGCGATATCGCCACCTCGTTCCTGACACGCAACTCCGTGCCTTACGACGTGGTTGCGGGCACAGCCGGCCAGCCGGCCACCGTGAAGATCGGCGATGCCACCATTACCAGCTATGACGCCGTCGCCGCCGGTGCGGATGCGGCAGCCAAGGACAAGGCCTTCCAGAAGCAGGTCAACATGGCGCTTCACGATGGCGGCTACCCGCTGGTGCGCGGCGCGGCGCAGGTGCCGGACGCGAAACTGGATGCCTTCATTGCCGCAAATCCGGAGCTTAACCTCAATGCGGAGGCCGTTCGCGCTGCCGACAAGAAGATGGTCGCGACCGACAAGCTGGTGGCGGACAAGCTGCTGACACCGGCAGAAGCCGCAGGTGCGGCGGAAATGGCCGTCTACACCGTAGCCGGCGGCGGCACCTTCTCCATGGTGGCCGATCCGGCCGCCGTGAACTGGGTCGTCATCATCGCAGTCCTGACCGTTCTCGTCATCTACGTGACGATGGTCTACGGCCCGATCGCGGCCCTGCTGGTCGAACTGTTCCCGACCCGCATCCGCTACTCCGGCATGTCGCTGCCATACCACATCGGCAACGGCTGGTTCGGCGGCCTTTTGCCCGCCACCGCCTTTGCGATGAGCGCGGCGAAGGGCGACATCTATTACGGCCTCTGGTACCCGATCATCTTCGCGGGCATCACGCTGGTCGTCGGCCTGCTGTTCCTGCCGGAAACCAAGGATCGCGATATCCACGCCATGGATTGA	MADIAAVSGAARPMTGEEKKVIFASSLGTVFEWYDFYLYGSLAIYIGANFFSQYPETTRNIFALLAFAAGFLVRPFGALVFGRLGDIVGRKYTFLITILIMGVSTFLVGVLPGASQIGIAAPIILIVLRMLQGLALGGEYGGAATYVAEHAPNGRRGYYTSWIQTTATLGLFLSLVVILGVQFALGKEAFAAWGWRIPFLVSVLLLGVSVWIRLKMNESPAFKKMKEEGKTSKAPLSEAFGQWKNAKIALIALVGAVIGQAVVWYTGQFYALFFLQSILKVDGQSANIMVAAALILGTSFFVIFGWLSDKIGRKPIIMAGLILAMLTYFPLFKALTWAGNPALAQAQSTVRATVTAAPGDCKFQFNPTGTAKFTTSCDIATSFLTRNSVPYDVVAGTAGQPATVKIGDATITSYDAVAAGADAAAKDKAFQKQVNMALHDGGYPLVRGAAQVPDAKLDAFIAANPELNLNAEAVRAADKKMVATDKLVADKLLTPAEAAGAAEMAVYTVAGGGTFSMVADPAAVNWVVIIAVLTVLVIYVTMVYGPIAALLVELFPTRIRYSGMSLPYHIGNGWFGGLLPATAFAMSAAKGDIYYGLWYPIIFAGITLVVGLLFLPETKDRDIHAMD				NA	NA	NA	NA	NA
BMS010_06961	1035	asd2	COG0136	Aspartate-semialdehyde dehydrogenase 2	ATGGGTTTCAAAGTTGCAATTGCAGGCGCCACCGGCAACGTCGGTCGCGAAATGCTCAATATCCTGGCCGAACGCGGTTTCCCCGCCGATGAAGTCGTGCCGCTCGCTTCCGCCCGCTCGCAGGGCACGGAAGTCTCCTATGGCGACCGCACGCTGAAGGTCTCGAACCTCGAGAACTACGATTTTTCCGACACGGATATTTGCCTCATGTCGGCCGGCGGCGATGTTTCCAAGAAGTGGTCTCCGAAGATCGGCCAGCAGGGCTGCGTTGTTATCGACAACTCTTCCGCATGGCGCTACGACCAGGACGTTCCGCTGATCGTTCCGGAAGTCAATGCCGATGCGGTTGCCGGCTTCACCAAGAAGAACATCATCGCCAACCCCAATTGCTCCACGGCACAGCTCGTCGTCGCGCTGAAGCCGCTGCATGACTTCGCTAAGATCAAGCGCGTTGTCGTCTCCACCTACCAGTCGGTGTCCGGCGCCGGCAAGGAAGGCATGGACGAGCTGTTCCAGCAGACCCGCGCCGTGTTCGTCGCTGATCCGGTGGAAGCCAAGAAGTTCACCAAGCGCATCGCCTTCAACGTCATTCCGCATATCGACGTCTTCATGGAAGATGGCTATACCAAGGAAGAGTGGAAGGTTTTGGCCGAAACCAAGAAGATGCTCGATCCGAAGATCAAGGTAACCTGCACGGCCGTGCGCGTTCCGGTCTTCATCGGCCATTCGGAATCGGTCAATATCGAGTTTGAAAACGAGATCACCGCCGATCAGGCGCGCGATATCCTGCGCGAAGCGCCGGGTTGCCTCGTGATCGACAAGCGCGAAAACGGCGGCTACATCACCCCGGTTGAATCCGCCGGTGAGGACGCGACCTATATCTCGCGCATCCGCGAAGATGCGACGGTCGAAAACGGCCTCAACCTGTGGGTTGTTTCCGACAATCTGCGCAAGGGTGCGGCTCTCAACGCCGTCCAGATCGCCGAACTGTTGATCAATCGTGGTTTCATCAAGCCCCGCAAGGCGGCTGCCTGA	MGFKVAIAGATGNVGREMLNILAERGFPADEVVPLASARSQGTEVSYGDRTLKVSNLENYDFSDTDICLMSAGGDVSKKWSPKIGQQGCVVIDNSSAWRYDQDVPLIVPEVNADAVAGFTKKNIIANPNCSTAQLVVALKPLHDFAKIKRVVVSTYQSVSGAGKEGMDELFQQTRAVFVADPVEAKKFTKRIAFNVIPHIDVFMEDGYTKEEWKVLAETKKMLDPKIKVTCTAVRVPVFIGHSESVNIEFENEITADQARDILREAPGCLVIDKRENGGYITPVESAGEDATYISRIREDATVENGLNLWVVSDNLRKGAALNAVQIAELLINRGFIKPRKAAA	PGPT0014045_3230	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014045-asd-K00133	NA	NA
BMS010_06962	816			hypothetical protein	ATGCGGGCAATGAAGGTAATTCTGGCTGGTGTGGCCATGGTTTCGGTTCTGGCAGCGACGCCGGTTATGGCTGCGCAATGCGGCAACACTTCGGCGGGCTTCGATGCCTGGGTCGGCGCCTTCAAGCAGGAAGCGGCGGGCCGCGGCGTCAGCGCCTCGGTGCTCGACCGTGCTTTCTCCGGCGTCTCCTACAACCAGGCGACGATCCGCGCAGACCGCGGCCAGCACAGCTTCAAGCTTTCCTTCGAACAGTTCATGCAGAAGCGCGGCGGTCAGACGATCATTTCGCGCGGCAAGACCATGAAGAAGAACAACGCTTCTCTCTTCGCCTCCATCGAGCGCGCCTATGGCGTGCCGGCCGGTCCGCTTCTGGCCATCTGGGGCATGGAAACCGGCTTTGGCGGCTTCATGGGCAACCAGCACACGCTTTCCGCCGTCGCGACGCTCTCCTTCGATTGCCGTCGTTCGGATTATTTCACCGAGCAGCTTTACGCGGCCCTCAAGCTCGTCGGCAGCGGTTCGCTCAACGTCAACGCCAAGGGTGCGGCCCATGGTGAAATCGGCCAGACGCAGTTCCTGCCGCTGAACGTCGTGCGTTACGGCGTGGATTTCGACCGCGACGGCCGTATCGATCTCGTCGGTTCGCGTGCCGATGCGCTGGCTTCCACCGCGAACTTCCTCGTCGGCCATGGCTGGCAGCGCGGTGCAGGCTACCAGCAGGGACAGGCAAACTACGCCGCCATCCAGGGCTGGAACGCAGCAAGCGTCTACCAGCAGGCCATCGCGTTCATCGGCAAGGCGATTGACGGCCAATAA	MRAMKVILAGVAMVSVLAATPVMAAQCGNTSAGFDAWVGAFKQEAAGRGVSASVLDRAFSGVSYNQATIRADRGQHSFKLSFEQFMQKRGGQTIISRGKTMKKNNASLFASIERAYGVPAGPLLAIWGMETGFGGFMGNQHTLSAVATLSFDCRRSDYFTEQLYAALKLVGSGSLNVNAKGAAHGEIGQTQFLPLNVVRYGVDFDRDGRIDLVGSRADALASTANFLVGHGWQRGAGYQQGQANYAAIQGWNAASVYQQAIAFIGKAIDGQ	PGPT0023785_177	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_TRANSGLYCOSYLASE_ACTIVITY,PGPT0023785-mltB-K08305	NA	NA
BMS010_06963	642	cynT_2	COG0288	Carbonic anhydrase 1	ATGAAAGATTTTCCGGAAAACCTTCTCAACGGCTACAAGAACTTCATGAACGGTCGCTATGTCGACGAGCGCGAAAGATACCGCGTTCTGGCCGACACCGGACAGAAGCCGCAGACCCTGTTCATTGCCTGTTGTGACTCCCGCTCCGCGCCGGAAACCATTTTCGACTGCGGACCGGGAGAGCTTTTCGTCGTCCGCAACGTCGCCAACATGGTGCCGCCCTTCGAGCCGGACGGGCAGTACCACGCCACCTCGGCGGCCATCGAATATGCCGTTCAGGTTCTGAAGGTGAAGGATATCGTCGTCATGGGCCACGGCCGCTGCGGCGGCATTCAGGCTGCACTCGACCCCAATCTCGAGCCGCTGTCGCCCGGCGATTTCATCGGCAAATGGATGAACATGGTCAAGTCGGCCGCCTCGCAAATCCAGAGCAACGACGTGATGACAGCTTCCGAGCGGCAGACGGCACTGGAACGCGTTTCCATCCGCAACTCCATCGCCAACCTGCGCGGCTTCCCCTTCGTCAAGGCGCAGGAAACCGCCGGCAAGGTGAAGCTGCACGGCGCATGGTTCGATATTTCGACCGGCGAATTGTGGGTAATGGACGGCAAGACGGGTGATTTCCGTCGCCCGGATCTGTGA	MKDFPENLLNGYKNFMNGRYVDERERYRVLADTGQKPQTLFIACCDSRSAPETIFDCGPGELFVVRNVANMVPPFEPDGQYHATSAAIEYAVQVLKVKDIVVMGHGRCGGIQAALDPNLEPLSPGDFIGKWMNMVKSAASQIQSNDVMTASERQTALERVSIRNSIANLRGFPFVKAQETAGKVKLHGAWFDISTGELWVMDGKTGDFRRPDL	PGPT0002415_4532	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002415-cynT|can-K01673	NA	NA
BMS010_06964	876	pdxK	COG2240	Pyridoxine/pyridoxal/pyridoxamine kinase	ATGCAGGAAAATACACAGGGCGCCGTCATCGTCATTTCCAGCCATGTCATGCGTGGCTCCGTCGGCAATCGCGCCGCAGTCTTTGCGCTGGAGACACTCGGTTATCCCGTCTGGGCGGTGCCCACAATCGTCATGCCCTGGCACCCCGGCCACGGCCCCTCCACCCGCATGCGCTTTCAGGACGACGATTTCGACAAGGCGATGACCGACCTCGAAAACGCCAAATGGATCGGCGAGGTCAAGGCTGTTCTGACCGGTTATTTCGGTAGCGCCGCACAGGTGCGCTCCACCGCAAGACTGATCCGCAATCTGAAGGAAAAGAACCCGTCGCTGATTTACGCCTGCGACCCGGTCATGGGCGATCTGGGCGGGCTTTACATTCCGCTCGAGACCGCAGAAGCCATCCGCGATCACCTCATCCCGCTTGCCACTGTCGCCACGCCGAACCGTTATGAACTCGCCTGGATGAGCGGCGCGGAGCTCGAGACCAACAATGCCATCATGGATGCCGCACTTGCGCTGGGCCCGCCGAAAATGCTGGTCACCTCGGCCGTGCCGATGATGACGGGCGGCACCGGCAATCTTTATCTCAGCGGCCGCCACGCGCTGCTTGCCGAACATCGCGCCATTGAGAATGCGCCGAACGGGCTTGGCGATCTGATGTCGGCGCTGTTCCTCGCCCGCCTGCTGGAAGGCATGGATGACGAAAAGGCGCTGCAGCTCGCGACCGCCAGCGTGTTCGAAATTCTGGCCCGCACCAAAAAACGCGAGATGAACGAACTGACGCTGGAGACGGACTCTTCCAGCCTCTCCACACCCATGGCCATGGTGCAGATGCGTCATCTCTTGCATCCTTCGCGCAGCAAGCGCAAATAG	MQENTQGAVIVISSHVMRGSVGNRAAVFALETLGYPVWAVPTIVMPWHPGHGPSTRMRFQDDDFDKAMTDLENAKWIGEVKAVLTGYFGSAAQVRSTARLIRNLKEKNPSLIYACDPVMGDLGGLYIPLETAEAIRDHLIPLATVATPNRYELAWMSGAELETNNAIMDAALALGPPKMLVTSAVPMMTGGTGNLYLSGRHALLAEHRAIENAPNGLGDLMSALFLARLLEGMDDEKALQLATASVFEILARTKKREMNELTLETDSSSLSTPMAMVQMRHLLHPSRSKRK	PGPT0009125_851	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009125-pdxK|pdxY-K00868	NA	NA
BMS010_06965	1461	clsA_2	COG1502	Cardiolipin synthase A	ATGCTCGATCTCGTCATTGCCTATTGGCCGCATATCCTTGCCGTTCTCTCGATTTTGATGGGAAGCGTGGCGGCCGTGCATGCCACGATGACGAAGGAGGAGGTCCGCTCCGCGCTCGGTTGGGTCGGCGTCATCGTGCTGTCGCCCGTCGTCGGCGCGGTCATCTATGCCATTGCCGGCATCAACCGCATTCGCCGGTCCAACATCACGCAGCAGCGGTCCTTCATGCAGGACGAGATCATGGATCGCGTGGCGCGTCTGGATGCCAGCGGCGACATGATCGCTGCGCGCTTCGGACGCCGTTTCGAGGCGATGAAGACGCTGGGCGACCGGGTGACGCGCCATGCGCTGACGACAGGCAACGGCATAGAGCCGCTGGTGACGGGGGATGCCGCCTATGCCGCCATGCTGGGGGCCATCGACGAGGCGAAGCGGTCTATCATTCTCGAAACATATATTTTCGACAATGACCGGATCGGCGCCCGCTTTGTCGCGGCGCTCGAAAGGGCGAAGTTCCGCGGCGTGGAGGTGCGGGTGCTGGTGGATGCGGTGGGCGCGCGTTATTCGGTGCCGAGCATCCTGCCGACGCTCAGGGAAAAGGGCATCGTCTGCGACGTCTTCAACGGCAATGTCATCATGGGGCTGCGGCTGCCCTATGCCAATCTGCGCACCCACCGCAAGATCCTCGTGGTGGACGGGCGCATCGCGTTCAGTGGCGGCATGAATATCCGCGAGGGGTTCACCCAGGAATTCGGCGGCGAAAGCCAGTCGCACGACACGCATTTCAAGATCACCGGGCCGGTCGTATCGGATTTTTTCTCCATCGCGGCGGAGGACTGGCGTTTCACGACGAAGGAACTGCTGGACACGCCCGTCTGGGATATCGCCATTCCCGATGGTGTGCCGGGTTCGCAGATCGTTGCCCGCGTCTGCTCCTCAGGGCCGGATAAAAGTATCGAGACCAGTCACAAAATGCTGATGGGTGCGTTTTCCGTCGCGCGCTCCTCCATTCTCATCATGTCGCCCTATTTTCTCCCCGATCGGGAGCTTATTTCGGCGCTCATAACCGCAGCAAGGCGGGGAGTCGTGGTGGATATCATCGTGCCGAAAAGCAACAATCTGGTGCTTGTGGACAGGGCGATGACGGCGCAGTTCGACCAGATGTTGAGGAATTACTGCCGCATCTGGCGGGCGACGGGGGCTTTCAATCACTCCAAGCTTCTGGTGATCGACGGGCGCTGGAGCTGCATTGGCTCTTCCAATCTCGATCCGCGGTCGCTGCGGTTGAACTTTGAGATCGATCTCGAAGTTATGGATGAGGAATTCGCCGCGACAATCGGCGAGCGCATCCGGGATGCACGGGCAACCGCCTTGCCCGTGCGGCTCAGCGAACTGAATGCGCGGCCATTCGTTGTCCGTTTTGTGGAGCGTGTCCTGTGGCTCGCTTCGCCTTATCTTTAG	MLDLVIAYWPHILAVLSILMGSVAAVHATMTKEEVRSALGWVGVIVLSPVVGAVIYAIAGINRIRRSNITQQRSFMQDEIMDRVARLDASGDMIAARFGRRFEAMKTLGDRVTRHALTTGNGIEPLVTGDAAYAAMLGAIDEAKRSIILETYIFDNDRIGARFVAALERAKFRGVEVRVLVDAVGARYSVPSILPTLREKGIVCDVFNGNVIMGLRLPYANLRTHRKILVVDGRIAFSGGMNIREGFTQEFGGESQSHDTHFKITGPVVSDFFSIAAEDWRFTTKELLDTPVWDIAIPDGVPGSQIVARVCSSGPDKSIETSHKMLMGAFSVARSSILIMSPYFLPDRELISALITAARRGVVVDIIVPKSNNLVLVDRAMTAQFDQMLRNYCRIWRATGAFNHSKLLVIDGRWSCIGSSNLDPRSLRLNFEIDLEVMDEEFAATIGERIRDARATALPVRLSELNARPFVVRFVERVLWLASPYL	PGPT0007725_1731	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_SENSING_RELATED_GENES	CE-QSR-CARDIOLIPIN_SYNTHESIS,PGPT0007725-clsA_B|ybhO|ywiE-K06131	NA	NA
BMS010_06966	846			hypothetical protein	GTGAAAAAGAACGGTTTGCTGGATGATGAAAAAGCGGCTTTGACGAAAAACACCAGCCTGTCCGCCTTCGTCATGCAGTCGCTGCGCGACCGCCGCCAGCGCCAGAATGCGGCGCCAGCGACGAAAGATCATTCCTTCCCCGTCATCGCCTCCTACAATGTGCATAAATGTGTCGGCCGCGACCGCAAGTTCGATCCCGATCGCACCAGCCGCGTCATTCAGGAAATCGGCGCTGACATCATCGCCCTTCAGGAAGCGGACAGCCGTTTCGGCGAGCGTACCGGCCTGCTCGATCTCGCGCGGCTGGAGCGGGAAAGCGGTCTCATTCCCGTGCCCGTGCAGGCCGGCGTGAAGGCGCATGGCTGGCACGGCAACGTCGTGCTGTTCAAGGAAGGCGCGGTCAGGGATGTGCATACGCTGAAATTGCCGGGGCTGGAGCCGCGCGGCGCGCTCGTGGTGGAGCTGGATCTAAAGCGGGGCGGCACGCTGCGGGTCATCGCCGCCCATTTCGGGCTTCTCAGACATTCCCGCGCCCAGCAGGCGAAAGCGTTGATCAGCCTTCTCGAAGCACGCAACGAATGCGCGACCATCCTCATGGGAGACCTGAACGAATGGCGTCTCGGCAACGGGTCGTCGCTCAATACGTTCCGGGATGCTTTTGGCGCTTTGCCGCCGGCGGTGCCGAGTTTTCCGTCCAACCTGCCGGTGCTGGCGCTCGACAGGATCATCGCCAATCGTGAAGGACTGATCGAGCAGGTGGAGGCGCATGACAGCGCGCTGGCGCGCATCGCCTCGGATCATCTGCCGCTGAAGGCGGCGGTGCGGACCGACCTGCTGCCGGCCTGA	MKKNGLLDDEKAALTKNTSLSAFVMQSLRDRRQRQNAAPATKDHSFPVIASYNVHKCVGRDRKFDPDRTSRVIQEIGADIIALQEADSRFGERTGLLDLARLERESGLIPVPVQAGVKAHGWHGNVVLFKEGAVRDVHTLKLPGLEPRGALVVELDLKRGGTLRVIAAHFGLLRHSRAQQAKALISLLEARNECATILMGDLNEWRLGNGSSLNTFRDAFGALPPAVPSFPSNLPVLALDRIIANREGLIEQVEAHDSALARIASDHLPLKAAVRTDLLPA				NA	NA	NA	NA	NA
BMS010_06967	204			hypothetical protein	ATGATGGAGCAGGACTACGAAAACTGGGCAACGACCGTTGCCTATTCGATAGTGATGCATGAGGGTCTCGATCTCGCGCTTGCCGCGCAAAATCTCGACAGAGGCAAGACCAGAAATAATCGCGAGCGGCTGATGGAAGCCATTCGCACGTCGTTGCTTGAAGCGCGCTCGCGCAGCCACATGACGGTGGCGCAACGGGTTTAA	MMEQDYENWATTVAYSIVMHEGLDLALAAQNLDRGKTRNNRERLMEAIRTSLLEARSRSHMTVAQRV				NA	NA	NA	NA	NA
BMS010_06968	3195	oqxB9_2		multidrug efflux RND transporter permease subunit OqxB9	ATGAATATTTCCAGATTTTTTGTCGACCGGCCGGTATTCGCTGCCGTGCTTTCGGTCCTGATTGTGGTGGCAGGCCTACTCGGCATGCGCGCCCTGCCGATTTCGGAATATCCCGAAGTCGTTCCGCCATCCGTCGTCGTGCGTGCCACCTATCCCGGTGCGAACCCGACCGTTATTGCCGAAACCGTCGCGACACCGCTGGAAGAACAGATCAACGGCGTCGAGGACATGCTCTATATGGGCAGCCAGGCGACGTCCGACGGCGTGCTGACGCTGACCGTGACCTTCAAGCTCGGCACCGACCCTGACAAGGCGCAGCAGCTGGTGCAGAACCGCGTGTCGCAGGCCGAACCGCGCCTGCCGGCGGAAGTGCGCGCCCTCGGCATCACCACCGTCAAGAGCTCGCCCGACTTCATCATGGTCGTCAACCTCGTCTCGAAGACCGACGCCTATGACATCACCTATCTGCGCAACTACGCGACGCTGAACGTCAAGGATCGCCTCGCCCGCATCGAAGGTGTCGGCCAGGTGCAGGTCTTCGGCGCAGGCGACTATTCCATGCGCGTCTGGCTCGACCCGCAGAAAGTCGCCGAGCATGATCTGGCCGCCAGCGACGTTTCCGACGCCATCCGCCAGCAGAACGTACAGGCCGCAGCCGGCGTCATCGGCGCTTCCCCAAGCCCGAACGGCGTCGACCTGCAACTCAACGTCAATGCGCAGGGCCGTCTGACGACGCCGGAGGAATTCGGCAACATCATCGTCAAGAGCGGCGCGAACGGTGAAATCACCCGCCTGCGCGATGTCGCCCGCATCGAACTCGGTGCGGCCGATTACACACTGCGCTCGCTGCTGGACGGCGAACCCGCCGTGGCTGTCGCCGTGCTTCAGGCCCCCGGCTCCAACGCCATCGAAATCGCCGACAATGTCCGCGCCACGATGGACAATCTGCAGCTGGCAATGCCTGACGGCGTAAAATACGAGATCGTCTACGACACGACGAAATTCGTGCGCTCCTCCATCGAAAAGGTTGTCGATACACTCCTCGAGGCCGTTGGCCTCGTGGTGCTTGTCGTCATCCTCTTCCTTCAGACATGGCGCGCCTCGATCATTCCGCTGATCGCCGTTCCGGTCTCGATCATCGGCACCTTCGCCGTCATGTATGCCTTCGGTTTCTCCATCAACGCGTTGACCCTGTTCGGTCTCGTGCTCGCCATCGGCATCGTGGTGGATGACGCCATCGTTGTCGTCGAAAACGTCGAGCGAAATATCGAAAACGGGCTCTCGCCGCGTGACGCCACCTATAAGGCCATGCGCGAAGTCTCCGGCCCGATCATCGCGATTGCGCTGGTTCTGGTCGCGGTCTTCGTGCCGCTTGCCTTCATCTCCGGCCTGTCCGGCCAGTTCTACCGGCAGTTCGCACTGACCATCGCCATATCCACCGTCATTTCGGCAATCAACTCGCTGACGCTGTCGCCCGCTCTTGCAGCCCTGCTGCTGAAGGAACACGGCGCACCGAAAGACTGGCTGACCCGCTTCATGGACAAAATCCTCGGCTGGTTCTTCCGCGGCTTCAACCGTGCCTTCGGCGCCGCGTCGAACGGCTACGGCAAGACCGTCGGCGGGCTGGTGACGCGCAAGAGCCTTGTCATGATCGTCTATATGGCGCTGGTGGCCGCCACCTACGGCATGTTCACGACGGTGCCGAGCGGCTTCGTGCCGGCGCAGGACAAGCAGTACCTGATCGGCTTCGCCCAGCTTCCCGACGGCGCAACGCTTGACCGCACGGAAAGCGTCATCAAGCGGATGAGCGACATCGCGCTCGAAACACCCGGCGTCAGCCACGCCATCGCCTTCCCCGGCCTGTCGATCAACGGCTTCACCATCGGCTCCAATTCCGGCATCGTCTTTGCGGTTCTCGATGACTTCGAAGAGCGCAAGACACCGGAACTGTCCGGCGGCGCCATCGCCATGCAGCTGAACCAGAAATATGCGGGCATTCAGGATGCCTTCATCGCCATGTTCCCGCCGCCGCCGGTCAACGGTCTCGGCCAGACGGGCGGCTTCAAGCTGCAGATCGAAGACCGCGCCGGCTACGGCTATCAGACGCTGGATGAAGCGACGAAGGCCGTGATCGGCAAGGCCTATCAAACGCCGGAACTCGCGGGCATCTTCTCCAGCTACCAGATCAACGTGCCGCAGCTCTTCGCCGATCTCGACCGCGCCAAGGCGGAACAGCTGGGCGTTTCCGTCAGCGACGTCTTCCAGACGCTGCAGATCTATCTCGGCTCGCTCTATGTCAACGACTTCAATGCTTTCGGACGGACATACAGCGTGCGGGTTCAGGCGGATTCCCAGTTCCGCGCGCATGCCGAAGATATCGGTCGCCTGAAGGTTCGCTCCGCATCGGGCCAGATGATCCCGCTGTCGACGCTCTTGAAGGTAAATGCGACGACGGGGCCGGAGCGCACCAACCGTTATAACGGCTTCCTTGCGGCCGATATCAACGGCGGTCCGGCACCGGGCTTCTCCTCTGGACAGGCACAGGCGGCGATTGAAAAAATCCTTGCCGAAACCCTGCCCGCAGGCGTCGACTACGAATGGACGGACCTGACCTACCAGCAGATTCTGGCCGGCAATTCCAGCATCGTGGTTTTCCCCTTGGCGCTGCTGCTCGTCTATCTCGTGCTCGCCGCGCAATATGAAAGCCTCACCTTGCCGATTGCGATCATCCTGATCGTCCCGCTCGGTGTGCTTGCGGCCCTCACGGGCGTCTGGCTGACGGGAGGGGATAACAACATCTTTACGCAGATCGGCCTTGTCGTCCTTGTCGGTCTCTCGGCGAAAAACGCGATCCTGATCGTGGAATTCGCCCGGGAGCTGGAATTCGAAGGACGAACACCGCTTCAGGCGGCCATCGAGGCAAGCCGGCTTCGCCTGCGCCCGATCCTGATGACCTCGCTCGCCTTCATCATGGGCGTGGTGCCGCTGGTCGTCTCCACCGGTGCAGGTGCGGAAATGCGTGCGGCCATGGGTGTCGCGGTGTTCTCCGGCATGATCGGCGTAACGTTCTTCGGCATCTTCATGACACCGGTCTTCTACGTGCTGGTGCGCAGGCTGGCGGGCAATCGTCCGCTCATCCAGCACAAGCAGGAAGAACCGGCCAATTCGGACTACAAGCTCGAAAAGGCCGGCTGA	MNISRFFVDRPVFAAVLSVLIVVAGLLGMRALPISEYPEVVPPSVVVRATYPGANPTVIAETVATPLEEQINGVEDMLYMGSQATSDGVLTLTVTFKLGTDPDKAQQLVQNRVSQAEPRLPAEVRALGITTVKSSPDFIMVVNLVSKTDAYDITYLRNYATLNVKDRLARIEGVGQVQVFGAGDYSMRVWLDPQKVAEHDLAASDVSDAIRQQNVQAAAGVIGASPSPNGVDLQLNVNAQGRLTTPEEFGNIIVKSGANGEITRLRDVARIELGAADYTLRSLLDGEPAVAVAVLQAPGSNAIEIADNVRATMDNLQLAMPDGVKYEIVYDTTKFVRSSIEKVVDTLLEAVGLVVLVVILFLQTWRASIIPLIAVPVSIIGTFAVMYAFGFSINALTLFGLVLAIGIVVDDAIVVVENVERNIENGLSPRDATYKAMREVSGPIIAIALVLVAVFVPLAFISGLSGQFYRQFALTIAISTVISAINSLTLSPALAALLLKEHGAPKDWLTRFMDKILGWFFRGFNRAFGAASNGYGKTVGGLVTRKSLVMIVYMALVAATYGMFTTVPSGFVPAQDKQYLIGFAQLPDGATLDRTESVIKRMSDIALETPGVSHAIAFPGLSINGFTIGSNSGIVFAVLDDFEERKTPELSGGAIAMQLNQKYAGIQDAFIAMFPPPPVNGLGQTGGFKLQIEDRAGYGYQTLDEATKAVIGKAYQTPELAGIFSSYQINVPQLFADLDRAKAEQLGVSVSDVFQTLQIYLGSLYVNDFNAFGRTYSVRVQADSQFRAHAEDIGRLKVRSASGQMIPLSTLLKVNATTGPERTNRYNGFLAADINGGPAPGFSSGQAQAAIEKILAETLPAGVDYEWTDLTYQQILAGNSSIVVFPLALLLVYLVLAAQYESLTLPIAIILIVPLGVLAALTGVWLTGGDNNIFTQIGLVVLVGLSAKNAILIVEFARELEFEGRTPLQAAIEASRLRLRPILMTSLAFIMGVVPLVVSTGAGAEMRAAMGVAVFSGMIGVTFFGIFMTPVFYVLVRRLAGNRPLIQHKQEEPANSDYKLEKAG	PGPT0028950_206	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-CHLORAMPHENICOL|TRIMETHOPRIN_EFFLUX_PUMP_BpeEF-OprC,PGPT0028950-bpeF-K18902	NA	NA
BMS010_06969	1191	bepF_2		Efflux pump periplasmic linker BepF	ATGACGCTGAACACAAAGCGCCGGGCCCTGACGGGTGCCGGCATCGGGCTTGCCATGTCCGTTGCAGCAGCAGCACTGTTTTTTGACCTCCCCACCAGCCGCGATGCAACGGCCGCTTCGACGCCTGCTGAAACACCGGCAATCCCGGTTACCGTCGCCAAGGTGGAAAGCCGCGACGTGATGCGCTGGGAAGAGTTTTCCGGCCGTCTCGAAGCCGTTGACCGGGTGCAGATCCGCTCCCGCGTCGCCGGCCAGATCAAGGCCGTGCATTTCCGCGAAGGCGCGCTGGTGAAGGAAGGCGATCCTCTCTTCACCATCGACCCGGCCCCTTATCAGGCCGCTGTTGCGGGTGCTGAAGGCCAGGTCGCTTCCGCCGAAGCCAAGGTCAGCCTTGCCAAAACGGAACTCGACCGTGGCCGCAGGCTTTCCGATAACCGCACCATCTCCCAGAGCGATCTCGACCAGCGGCAAAGCTCGTTTGCGGATGCCGAAGCCCAGCTTCGCGCCGCCCGCGCAGCGCTGACCACGGCTCAGCTCGATCTCGGTTATACCGAAATCCTCGCCCCGGTTTCCGGCCGCGTCGGCCGCATTGAAATCACCGCCGGCAACCTCGTCGCCGCCGGCTCGACCTCGCCGGCGCTCACGACACTGGTATCGGTCAACCCGATCTATGCCAGCTTCAATGCCAGCGAAGGCGTGGTGGCCAAAGCGCTTGCCGAACTGCCGCAGACGGACGGCGCCCTGCCCGCTCTCGAACAGATCCCGGTGGAAATCGGCACGCTTTCGGATGAGGGCACGCCGATCAAGGGCACGCTGCATCTGATCGACAACCAGGTGGATTCGGCAAGCGGCACCATCGGTGTCCGCGCCGTCTTCGAAAATCCGGACGGCAGGCTCATTCCCGGCCAGTTCGTGCGGGTGCGCATGGGTGAACCGAAGCCGGAAAACCGCATCGTCATCAGCGACCGAGCCATCGGCACGGATCAGGACAAGCGTTTCGTCTTCGTGGTCGATGCCGAAAACAAGGTAAGCTACCGCCAGATCAAGCCGGGCGCACCGGCCGATGGCCAGCGCATCATCGAAAGCGGCCTTGCCGCCGGTGATACCATCGTCGTCAACGGCCTGCAGCGCATTCGTCCCGGCGCCACCGTCGCACCGCAGGCGGAAGACAAGGTTGCTGCTTCGCAGTAG	MTLNTKRRALTGAGIGLAMSVAAAALFFDLPTSRDATAASTPAETPAIPVTVAKVESRDVMRWEEFSGRLEAVDRVQIRSRVAGQIKAVHFREGALVKEGDPLFTIDPAPYQAAVAGAEGQVASAEAKVSLAKTELDRGRRLSDNRTISQSDLDQRQSSFADAEAQLRAARAALTTAQLDLGYTEILAPVSGRVGRIEITAGNLVAAGSTSPALTTLVSVNPIYASFNASEGVVAKALAELPQTDGALPALEQIPVEIGTLSDEGTPIKGTLHLIDNQVDSASGTIGVRAVFENPDGRLIPGQFVRVRMGEPKPENRIVISDRAIGTDQDKRFVFVVDAENKVSYRQIKPGAPADGQRIIESGLAAGDTIVVNGLQRIRPGATVAPQAEDKVAASQ	PGPT0028945_501	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-CHLORAMPHENICOL|TRIMETHOPRIN_EFFLUX_PUMP_BpeEF-OprC,PGPT0028945-bpeE-K18901	NA	NA
BMS010_06970	807	nlhH_2	COG0657	Carboxylesterase NlhH	ATGAACGCGCATTGGGAAAATATGGGTAGCGAGACGTCCGCGTCGAAGCTCTCCGTGCGCCGTTATGAAGGTTCCTGCCTCTGCAGCCATCCGCCTGTCGTGCTTTATCTGCGTGGCGGATCGTTTCTGGAACCCGGCCTTGAGCCGGGCGGCAATTGCCCCGAGCTTCCGGTGGCCCGCGCGCTTGCGGAAAGCGGCGCGGTGGTCGTGGAAGCCGATTACAGCAAGCCGTCCGGCAACGAGTTTCCGATGGTCATCGATTGCGCCTATGAGGCGCTCGATCATCTGAGCCGGGACCGCAAGCATTATGGCGGCGCGAAATCGCTGCTGTTCGTGGCCGGCGAAGAGGCTGGCGGCAATGTGGCGGCGGGGCTTGCCTTGAAGGCCCGCGACCGCATGCCGGGCAAACTCGCAGGCCAGATTCTTCTGTCGCCCATGATCGACCCGATGATGACGACGGAATCCTTCCGCGATGCGGACAGGATCGGCATGCGCCAGCGCTGGGCCGATGGCTGGAGCCATTACCTTGCCAAGGCGTGCGGGTTTTTCCACCCCTATGCCGCGCCCTGCCAGTGCACGCGGCTGAACCGGGTGGCGCCGGCGCTGATCTTTACCGCCGAGGACGACCCTCTGCGCGACGAAACGGTCAATTATGCAGACCGCCTCATCGCCTCCGGTGTCAGCGTCCGGCAGCATGTTTTCCCCGCCGGTGTCGGCTGGACGGGGCTTTATCAAGGAGAGGGCGGCGGATGGGTCTCATCCGTCTGTTCGGAGTTCAAGACCTTCGTTGACCAGTTAAAGCACTGA	MNAHWENMGSETSASKLSVRRYEGSCLCSHPPVVLYLRGGSFLEPGLEPGGNCPELPVARALAESGAVVVEADYSKPSGNEFPMVIDCAYEALDHLSRDRKHYGGAKSLLFVAGEEAGGNVAAGLALKARDRMPGKLAGQILLSPMIDPMMTTESFRDADRIGMRQRWADGWSHYLAKACGFFHPYAAPCQCTRLNRVAPALIFTAEDDPLRDETVNYADRLIASGVSVRQHVFPAGVGWTGLYQGEGGGWVSSVCSEFKTFVDQLKH				NA	NA	NA	NA	NA
BMS010_06971	900	pgrR_12		HTH-type transcriptional regulator PgrR	ATGGATCAGCTCTCCGCCATGCGGGTTTTTACGCGGGTCGTGGAAACCGGCAATTTCAGCCGCGCCGCCACCGCGCTGAACATGCCGAAAACCACTGTTACCAATATGGTGCAGGCGCTGGAGGCGCATTTGCACACCACACTTCTCAACCGCACCACGCGCCGGGTGATGCTGACAACGGACGGCGCTCTCTATTATGAGCGGGCCTCACAGATTTTATCGGAAATCGAAGAACTCGACGGTAGCATGTCCAGCGCTCAGGTGCAGCCATCCGGCCGGTTGCGGGTGGAAATGGCCGGTGTCTTCGCGGACCTGGTGGTTATCCCACATCTTTGCGAATTTTACCAGCGTTATCCGCAAATCCGTCTCGACCTCGGTGTCGGCGACCGTCTGGTCGATTATATCGCGGAGAATGTCGACTGTGCGCTGCGGGTCGGCGTGCTGCGCGATCAGTCGCTGATTGCCCGTAAAGTGGGCGAACTCCGGTTCGAGACATTCGCCTCGCCGTCCTACATCGAAAATTTCGGCATGCCGCAAGAACCGGAGGATCTGGAGAAGGAGCATTATTCGGTGGGCTACCTCAACGCCACCACCGGCCAGATCATGCCGGCCTCCTTCGACAATGGCGTGCGCAGCGTCGAGCTGACCCCGAATTATGTCGTCTCGGTCAATGACAGCCGCACCTATCTCAATGCGGCGCTGGCCGGCATGGGTATCGTGCAGCTTCCCGTTTTCATGGTGAAGGATGCGCTTTCGCGGGGAGAACTGGTGCCGGTGCTTTCCGGATGGCGGCGCGAGGCCATGCCGATCTATGTGGTCTATCCCCAGACCCGGCATGTAACCAACAAGGTCCGCGTTTTTGTCGACTGGCTGGCCAAGTTGGTGCACGGCCTGGTGTGA	MDQLSAMRVFTRVVETGNFSRAATALNMPKTTVTNMVQALEAHLHTTLLNRTTRRVMLTTDGALYYERASQILSEIEELDGSMSSAQVQPSGRLRVEMAGVFADLVVIPHLCEFYQRYPQIRLDLGVGDRLVDYIAENVDCALRVGVLRDQSLIARKVGELRFETFASPSYIENFGMPQEPEDLEKEHYSVGYLNATTGQIMPASFDNGVRSVELTPNYVVSVNDSRTYLNAALAGMGIVQLPVFMVKDALSRGELVPVLSGWRREAMPIYVVYPQTRHVTNKVRVFVDWLAKLVHGLV	PGPT0028940_874	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-CHLORAMPHENICOL|TRIMETHOPRIN_EFFLUX_PUMP_BpeEF-OprC,PGPT0028940-bpeT-K18900	NA	NA
BMS010_06972	900	dmlR_13		HTH-type transcriptional regulator DmlR	ATGGACAATCGGGCCGGAGAAATGGAAGTCTTCGTGGCGGCGGCGGAACTTGGCAGCTTTTCCGCCGCCGGGCGCAGGCTGAAGCTTTCACCCTCGGCGGTGAGCAAGCTTGTCACCCGTATCGAAGACCGCCTTGGCACCCGGCTTCTTGCCCGCTCCACCCGGCTTGTCACGCTCACACCGGAGGGCGAAGTCTATCTTGCGCGGGCAAGGCGCATTCTCGCCGATATAGCCGAGACCGAGCAGATCGTGGCGAGCGGCGGCAAGGTGGTGCCGCGCGGCCTTTTGCGCGTCAACACCACGCTGGGCTTCGGCGAACGTTATCTGCTGCCGCTTACGCCGGAATTTTTGTCGCTTTATCCGGAAATCGAGCTGGATATCTCGCTGACCGACGGCGTCATCAGCCTGATCGAGGAACGCACCGATATCGCCATCCGCTCGGGCGCGATGGGAGATTCATCCCTGAAGGCGAGAAAGCTGAAGGAAGTCCGCCGCGTCATCGTCGCCTCCCCCGCCTATATCGAACGACACGGAATGCCGGAAAAACCGCAGGATCTGGCGCGGCACAATTGCTTCAGCTTCAATTTCAGCCGCAGCCTCAACGAATGGCCGTTTCGCAACCCCGGCTCTGCGGAAGTTTACCGTCTGCCCGTAACGGGCAATGTCTCGGTCAACAGCGGCATGGCCATGCGAAGGCTCTGCCTGACGGGCCTGGGACTGGGAAGGGTCGGCGAATTTCATATCGAGCCGGATATAAAGGCGGGCCTGCTCGTACCGGTGCTGGAAGACTACAATGCCGAGGAGATGGAAGTGATCCACGCGGTTTATGCCGGTCACGAACACCTGGCCGCCCGCGTTCGCGCCTTCATCGATTTTGTCGCAGCAAGGGTCGGGCGGTGA	MDNRAGEMEVFVAAAELGSFSAAGRRLKLSPSAVSKLVTRIEDRLGTRLLARSTRLVTLTPEGEVYLARARRILADIAETEQIVASGGKVVPRGLLRVNTTLGFGERYLLPLTPEFLSLYPEIELDISLTDGVISLIEERTDIAIRSGAMGDSSLKARKLKEVRRVIVASPAYIERHGMPEKPQDLARHNCFSFNFSRSLNEWPFRNPGSAEVYRLPVTGNVSVNSGMAMRRLCLTGLGLGRVGEFHIEPDIKAGLLVPVLEDYNAEEMEVIHAVYAGHEHLAARVRAFIDFVAARVGR	PGPT0028940_840	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-CHLORAMPHENICOL|TRIMETHOPRIN_EFFLUX_PUMP_BpeEF-OprC,PGPT0028940-bpeT-K18900	NA	NA
BMS010_06973	1317	ydhP_2	COG2814	Inner membrane transport protein YdhP	ATGCAAGTCCCCTTCGCCCATATTGCGTCCATGGATTTGATCCAACCGGATAGCATCGCTATCCAAATGATCCAACCTGACGGCGTTGCTGTCCAGAACGCCCGCGATCCCGCTCCGGGCGAAGAGGTATTTGTCATGCCATTGGCCATATTTGCCCTGACGATCGCGGCCTATGCGATCGGCACCACGGAGTTCGTGATTGTCGGTCTTCTGCCGACGGTCGCGACCGATCTCAACATTACCCTGCCGCTTGCCGGCCTCATCGTCAGCGTTTATGCGCTGGGCGTCACCTTCGGTGCGCCGATCCTGACGGCGCTAACCGGCAGGATCGAAAGAAAGCCGCTGCTGCTCGGCCTGATGGCCCTGTTCATCATCGGCAACAGCGCGGCGGCCCTGTCGCCCAGCTATGAGACGCTGCTTGTCGCCCGCGTCATCGCCGCCTTCGCCCATGGTGTCTTCTTCTCGGTCGGCTCCACCATCGCCGCCGATCTCGTGCCGGAAAATCGCCGCGCCTCGGCCATTGCCATGATGTTCATGGGGCTGACGGTCGCCATCGTCACCGGCGTTCCGCTCGGCACCTATATCGGGCAGGTCTTCGGCTGGCGTGCGACCTTCTGGGTCGTTGCCGCCCTTGGCGTCATCGCCTTCTTCGGCATTGCCACGCTTCTGCCGAACACGCTCAAGAAGGCGCCGCCGGCGAGCCTCTTCGATCAGGTCCGTGTTCTCGGCTCCGGTCGCCTGCTCATCGTTTTCGCCATGACCGCGCTTGGTTACGGCGGCACCTTCGTCGCCTTCACCTTCCTTGCGCCGATCCTGCAGGATGTCACCGGCTTTTCCGAAAAGAGCGTCAGCCTGATCCTCGTGCTCTATGGCATCGCCATTGCGGCCGGCAATATCGGCGGCGGCAGGATCGCCAACCATAACCCGGCCAGGGCGCTGATCGGCCTCTTCCTGGCACAGGCCATCGTGCTGCTCGTCTTTTCCTTCACCGCCTTCTCGCCGGTGCTGACGCTCATCACGCTTGCCGCGCTCGGTTTCCTGTCCTTCGCCAATGTTCCCGGCCTGCAGCTTTATGTGGTGCAGCTTGCCAAGGAACATCGCCCCGGCGCTGTCGATGTCGCCTCGGCGCTCAACATCGCCGCCTTCAATCTCGGCATCGCCATTGGCGCATGGCTTGGCGGTCTGGTGGTGGAATCGCCGATGGGTCTTGCCGCAACCCCATGGGTCGGCGCCATCCTCGTCGCCGTGGCCCTGCTCCTGACCATCTGGAGCAGCACGCTCGACCGCCGCGCCGCGCTGACCCTGAAAACCGCCTGA	MQVPFAHIASMDLIQPDSIAIQMIQPDGVAVQNARDPAPGEEVFVMPLAIFALTIAAYAIGTTEFVIVGLLPTVATDLNITLPLAGLIVSVYALGVTFGAPILTALTGRIERKPLLLGLMALFIIGNSAAALSPSYETLLVARVIAAFAHGVFFSVGSTIAADLVPENRRASAIAMMFMGLTVAIVTGVPLGTYIGQVFGWRATFWVVAALGVIAFFGIATLLPNTLKKAPPASLFDQVRVLGSGRLLIVFAMTALGYGGTFVAFTFLAPILQDVTGFSEKSVSLILVLYGIAIAAGNIGGGRIANHNPARALIGLFLAQAIVLLVFSFTAFSPVLTLITLAALGFLSFANVPGLQLYVVQLAKEHRPGAVDVASALNIAAFNLGIAIGAWLGGLVVESPMGLAATPWVGAILVAVALLLTIWSSTLDRRAALTLKTA	PGPT0028991_2787	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0028991-ydhP-K19577	NA	NA
BMS010_06974	834	dkgB_2	COG0656	2,5-diketo-D-gluconic acid reductase B	ATGTTTGATGTCACCGCAAATGGCGCTTCGATCCCGGCGCTGGGTTTCGGCACGTTTCGTATTCCCGGTGCCGATGTGCTGCGCATCGTTCCCCATGCGCTGAAAGCCGGTTTCCGCCATATCGATACCGCCCAGATCTACGGCAATGAGGCCGAGGTCGGTGAAGCCATCGCTGCTTCGGGCGTGGCGCGCGGCGACGTGTTTCTCACCACCAAGGTCTGGGTCGAGAACTACAGGCACGATGCCTTCCTCGCCTCCGTGGATGAGAGCCTGAAAAAGCTGAAGACCGATTATGTCGACCTGCTGCTGCTGCATTGGCCGAACGAGGCGGTTTCGCTTGCAGAACAGATCGGTGCACTGAACGCGGTAAAGGAAGCGGGCAAGGTGCGCCATATCGGCGTTTCCAATTTCAGCACGGCGCTGATGGCCGAGGCGGTGAAGTTGTCCAAGGCCCCGATCGTGACCAACCAGATCGAATACCACCCCTATATCGATCAGGACGTGGTTATCGCCGCGGCAAAGGCCGCCGGCATGTCGGTGACGGGTTATTACGGCATGGCCGATGGCAAGGTCTTCACCGATCCGGTGCTGAAGGAAATCGCCGCAGGCCGTGGCAAGTCGGTGGCGCAGGTGGTGCTGCGCTGGCTCGTGCAGCAGCAGGGTGTCATCGCACTGTCGAAAACGGTCAGCGAAGCGCGCGTCGATGAAAATCTCGCCATCTTCGATTTCGAACTTTCGGCCGATGAAATGGCGGCGATCCGCGCGCTTGCCAGACCTGATGGCCGCATCGTTTCACCGGAAGGGCTTGCACCCGTCTGGGACAAGGCCGCCTGA	MFDVTANGASIPALGFGTFRIPGADVLRIVPHALKAGFRHIDTAQIYGNEAEVGEAIAASGVARGDVFLTTKVWVENYRHDAFLASVDESLKKLKTDYVDLLLLHWPNEAVSLAEQIGALNAVKEAGKVRHIGVSNFSTALMAEAVKLSKAPIVTNQIEYHPYIDQDVVIAAAKAAGMSVTGYYGMADGKVFTDPVLKEIAAGRGKSVAQVVLRWLVQQQGVIALSKTVSEARVDENLAIFDFELSADEMAAIRALARPDGRIVSPEGLAPVWDKAA	PGPT0001325_143	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0001325-dkgB-K06222	NA	NA
BMS010_06976	489	dps	COG0783	DNA protection during starvation protein	ATGAAGACGCACAAGACGAAGAACGACCTGCCTTCCAACGCCAAGTCGACCGTGATCGGCATTCTCAACGAATCGCTGGCCTCGGTGATTGACCTTGCGCTCATCACCAAGCAGGCGCACTGGAACCTCAAGGGCCCGCAATTCATCGCCGTGCATGAACTTCTCGACACTTTCCGCACCCAGCTCGACAATCATGGCGATACGATTGCCGAGCGTGTTGTCCAGCTTGGCGGTACTGCGCTCGGCAGCCTGCAATCCGTCTCTTCCACGACGAAGCTCAAGGCCTATCCGACCGATATCTACAAGATCCACGACCATCTGGACGAGCTGATCGAGCGTTATGGCGAGGTCGCGAACATGATCCGCAAGGCTATCGACGATTCCGACGAGGCGGGCGACCCGACGACGGCGGACATCTTCACCGCCGCCTCGCGCGATCTCGACAAGTCGCTGTGGTTCCTCGAAGCGCATGTGCAGGAAAAGAGCTGA	MKTHKTKNDLPSNAKSTVIGILNESLASVIDLALITKQAHWNLKGPQFIAVHELLDTFRTQLDNHGDTIAERVVQLGGTALGSLQSVSSTTKLKAYPTDIYKIHDHLDELIERYGEVANMIRKAIDDSDEAGDPTTADIFTAASRDLDKSLWFLEAHVQEKS	PGPT0004055_2116	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0004055-dps|dpsA-K04047	NA	NA
BMS010_06977	759	yclP	COG4604	Petrobactin import ATP-binding protein YclP	ATGATCATCGCCAGTCAGATCAGCAAATCCTATGGCGACAGCCTCGTCGTCGATGGCGTCTCCGTCTCCATTCCGGCAGGCGGCGTCACCTCCATCATCGGGCCGAACGGTGCTGGAAAATCGACGCTGCTTTCCATCGTCGCAAGGCTGATGTCGATGGATGCCGGAACGGTGACGGTGGACGGTCTGGATGTCACGAAAACCCCATCCGATACGCTGGCCAAGCGGCTTTCTATATTGCGGCAGGACAACCACATCTCTTCGCGCCTGACGGTGCGCGACCTCGTCGGTTTCGGCCGTTACCCCTATTCCAAGGGCCGCCCCACCATCGAGGACAAAGTCCATATCGACCGGGCGCTGGAATATCTGCACCTCGAAGCCCTTGCCGGCCGGTTTCTGGACGAGCTTTCCGGCGGCCAGCGCCAGCGCGCCTTCGTGGCCATGGTGCTGTGCCAGGATACCGATTACGTGCTGCTCGACGAGCCGCTCAACAACCTCGACATGAAACACGCCTCCAGCATGATGAAGATCATGCGCCGCGCCGCTGACGAGCTGAAGAAGACCGTGGTTCTGGTGCTGCACGACATCAACTTCGCCTCCTGGTATTCCGACACCATCATCGCCATGCGCGAAGGCCGCATCTGCCATCAGGGGCCGGCGGAAGAGATCATCCGTCCAGATGTCCTCAAGGACATCTACGACATGCCAATCCGCGTCAATGAGATAGACGGCCGGCGCATCTGCCTGTTTTACGAATGA	MIIASQISKSYGDSLVVDGVSVSIPAGGVTSIIGPNGAGKSTLLSIVARLMSMDAGTVTVDGLDVTKTPSDTLAKRLSILRQDNHISSRLTVRDLVGFGRYPYSKGRPTIEDKVHIDRALEYLHLEALAGRFLDELSGGQRQRAFVAMVLCQDTDYVLLDEPLNNLDMKHASSMMKIMRRAADELKKTVVLVLHDINFASWYSDTIIAMREGRICHQGPAEEIIRPDVLKDIYDMPIRVNEIDGRRICLFYE	PGPT0003760_7733	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003760-yusV|ABC_FEV_A|feuD-K02013	NA	NA
BMS010_06978	969	yclO	COG4605	Petrobactin import system permease protein YclO	ATGCGTGAGAGACATCCCGACCGGCGTGCAAAAACCGTTCTGCTGGTGCTTGCGGTATTCGCACTCATCTCCATGGCCGCCTTCATGACGCTTGGCGCCAAGGGCAGTTGGAGCTTCGTACTGCCGTTTCGCGGCATCAAGCTTCTGTCGCTCTTGCTGGTGGCCTATGCCATCGCGGTCTCAACCGTGCTGTTCCAGACGGTCACCAACAACCGCATCCTCACCCCTTCGGTCATGGGTTTCGATTCGCTTTATGTGCTGATGCAAACCGGGCTGATCTTCGTTTTCGGCTCGGCAACCGTCGTCCTGATCGATCCGCAGCTGAAATTTCTCACGGAGACCGCGCTGCTCGTCGCCTTTTCCGCCCTGCTCTATCGCTGGCTTTTCGTCGGCGCGGAACGCAGCCTGCATCTTCTGGTGCTGGTCGGCATCGTCTTCGGCGTCTTCTTCCGCAGCCTCTCGGGTTTCATGCAGCGCGTGCTGGACCCAAATGAATATACGGTGCTGCAGGATGTGCTGTTCGCCAGCTTCAATTCCATCGATCCGACGCTTCTTGCGGTCTCCGCCGTCATCATCGGCGTGGTGACCATCATCGGGCTCAGGCTCATGCACACGCTCGACGTCCTCTCGCTCGGCCGCGCCACGGCCATCAGCCTGGGGGTCGAATACAAGCGCACGGTCACCATCATCCTCGTGCTGGTTTCGGTGCTGGTCGCCGTCTCGACCGCTCTCGTCGGCCCGGTCATGTTCTTCGGGCTGCTGGTCGCGGCGCTGGCCCATTATCTTACCGGCAATGGCAAACACGCCTATGTGTTGCCGGCCGCGATCCTTATCGCCGTGATCTGCCTCGTGGGCGGTCAGGTGGTGCTGGAGCGGGTCTTCGCCTTCGATACGGCGCTCTCGATAATCATCGAATTTCTGGGCGGTATCATCTTTATCGGTCTTATTCTGAAGCGGGGTGCGCGATGA	MRERHPDRRAKTVLLVLAVFALISMAAFMTLGAKGSWSFVLPFRGIKLLSLLLVAYAIAVSTVLFQTVTNNRILTPSVMGFDSLYVLMQTGLIFVFGSATVVLIDPQLKFLTETALLVAFSALLYRWLFVGAERSLHLLVLVGIVFGVFFRSLSGFMQRVLDPNEYTVLQDVLFASFNSIDPTLLAVSAVIIGVVTIIGLRLMHTLDVLSLGRATAISLGVEYKRTVTIILVLVSVLVAVSTALVGPVMFFGLLVAALAHYLTGNGKHAYVLPAAILIAVICLVGGQVVLERVFAFDTALSIIIEFLGGIIFIGLILKRGAR	PGPT0003770_9913	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_TRANSPORT,PGPT0003770-feuB|feuC|chuU|yfhA|hmuU|ABC_FEV_P|fatC|fatD-K02015	NA	NA
BMS010_06979	966	yclN	COG4606	Petrobactin import system permease protein YclN	GTGAAATCCCTGTCTCTCATCCTTGCCCTTCTTCTGGCCCTGGTGCTCGCCATCACCAGCCTGTTCGTCGGCGTGAGCAACGTTTCGCTCACAACGCTTTTCGCACCGGACACGAGTGCGGACGCACTGCGCGTGCTGCTGGTCAGCCGCATTCCGCGCACGCTGGCGTTGATCCTGGCCGGAAGCTCGATGGCGATTGCGGGGCTCATCATGCAGATGCTGGTGCGCAACCGCTTCGTGGAACCTTCGACGGCGGGCACCACCGAATCCGCCGGCCTTGGCCTGCTCACCATCACCCTGCTGGCGCCGGATACGCCGATCTTCGGCAAGATGCTGGTGGCCGCCGTTTTCGCGCTCGCCGGCACCGCGCTGTTCCTGCGTATCCTGCGGCAGGTGCCGCTGCGCGACGTGCTGCTGGTGCCGCTGATCGGCATCATGCTGGGCGGCGTCATCTCCGCCGTCACCACCTTCTTCGCTTATCGTTTCGATCTCCTACAATCGCTGGGCGCATGGATGACGGGGGATTTTTCCGGTGTGCTTCGCGGCCGTTATGAGTTGCTGTGGGTCGGCTTCCTCTTCGCCATCGCCGCCTATCTCGCGGCAGACCGCTTCACCGTGGCCGGCATGGGTCGCGATTTCACCACCAATCTCGGCCTCAACTATCGCCGCGTCATGGCGCTCGGCCTCACCATCGTCTCGCTGGTCAGCGCGGTCGTCGTCGTCACCGTCGGCATGATCCCCTTTCTCGGGCTGATCGTGCCGAATGTCGTCAGTCTGATGATCGGTGACAATATGCGCCGCTCAGTGCCCTGGGTGGCAACGCTCGGCGCGGTCTTCGTGCTTTCCTGCGATATCATCGGCCGCACCGTGCGCGCGCCTTACGAAATACCCATCGGAACCGTGGTCGGCGTCATAGGCAGCGCGCTGTTCCTCTATCTCCTGCTGCGGAAACGCCACCATGCGTGA	MKSLSLILALLLALVLAITSLFVGVSNVSLTTLFAPDTSADALRVLLVSRIPRTLALILAGSSMAIAGLIMQMLVRNRFVEPSTAGTTESAGLGLLTITLLAPDTPIFGKMLVAAVFALAGTALFLRILRQVPLRDVLLVPLIGIMLGGVISAVTTFFAYRFDLLQSLGAWMTGDFSGVLRGRYELLWVGFLFAIAAYLAADRFTVAGMGRDFTTNLGLNYRRVMALGLTIVSLVSAVVVVTVGMIPFLGLIVPNVVSLMIGDNMRRSVPWVATLGAVFVLSCDIIGRTVRAPYEIPIGTVVGVIGSALFLYLLLRKRHHA	PGPT0003770_10053	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_TRANSPORT,PGPT0003770-feuB|feuC|chuU|yfhA|hmuU|ABC_FEV_P|fatC|fatD-K02015	NA	NA
BMS010_06980	939	yclQ	COG4607	Petrobactin-binding protein YclQ	GTGGCCATCAACTTCACCTTCCCCGTTCGGCTGCTGGCGGCAGCGGCCTTCAGCCTCGGCGCGATGACGGCGAGTGCCGAAGAAATGACGATCAAGCACGCGCAGGGCGAGACCGTGCTGAAGGCGGCGCCGAAGAAGGTTCTGGTTCTCGATATTCCCTCTCTCGACAATCTCGATGCGCTCGGCGTCGAGCCCGCCGGTGTCGTCGGCTCCAACCTGCCCACCTATCTGCAGAAATATGCCGACGGCAAATATCTGAAGGTCGGTACGCTGTTTGAGCCTGATTATGAGGCGATCAATGCGGCCGAGGCCGATCTCGTCATCGTCGGCGGCCGTTCGCGGGCGAAATATCCGGACGTTGCGAAGATCACGCCCGCCATCGACATGTCGGTGGATTCCAAGGAATTCATCGGCAGCGTCAAAGCCAACATCACCAAGCTCGGCGATATCTTCGGCAAGCAGGAAGAAGCCAAGAAGCTTGATGCCGCCATCGATGAAAAAGTGGCGAAGCTGAAGGAAATCGCGCCCAATTCCGGCACGGCGATGATCCTCGTCACCAATGCCGGCAAGGTCGGCGTATATGGCCCCAGTTCGCGCACCGGCTGGCTGCACACCGAAATCGGCTTCAAGCCGGTCGCAGCCGACATCGACGACCGTTTTGACCGTGGCGATGTCGTCTCCTTCGAATATCTGGCCGAGGTCAATCCCGAATGGCTGTTCGTGATCGACCGCGACGCCGGCATCGGCCGCGCCACCGATCCGGGCAAGGCAGCCGCGCAGGTGCTGGACAACGAGCTGGTGCACCAGACCAATGCCTGGAAGAAAAAGCAGATCGTTTATCTCGATCCGCAGGCGGCCTATATCGTCAGCAGCGGTTATACGGCGCTCTCCACCCTGCTCGATCAGGTCTACAAGGCCGTCTCGGAGAAGAAATCGTAA	MAINFTFPVRLLAAAAFSLGAMTASAEEMTIKHAQGETVLKAAPKKVLVLDIPSLDNLDALGVEPAGVVGSNLPTYLQKYADGKYLKVGTLFEPDYEAINAAEADLVIVGGRSRAKYPDVAKITPAIDMSVDSKEFIGSVKANITKLGDIFGKQEEAKKLDAAIDEKVAKLKEIAPNSGTAMILVTNAGKVGVYGPSSRTGWLHTEIGFKPVAADIDDRFDRGDVVSFEYLAEVNPEWLFVIDRDAGIGRATDPGKAAAQVLDNELVHQTNAWKKKQIVYLDPQAAYIVSSGYTALSTLLDQVYKAVSEKKS	PGPT0003765_9022	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003765-feuA|yvrC|ABC_FEV_S|fatB-K02016	NA	NA
BMS010_06981	258			hypothetical protein	ATGCGCACGATTGCGATCATGATGGTTCTGGCGCTTGCCGGCTGCACCACCGCCCCCGATGTCGAGCCCATTCCCGGCAGCATCACCTATGGCGGACAGCCTCGCACCAAACTGACCAAGTCCCCCATCGGCAGCACGCTCAGCAATGAATTCGTCATGGGCGACGGGCGGCTGGCGATCGAAACCTACCGCGTGCAACCGGACCGGTCGCTGAAACTCGAGAGGCGCGAAATCGTCGGCGACTGGCCGCCGAATTGA	MRTIAIMMVLALAGCTTAPDVEPIPGSITYGGQPRTKLTKSPIGSTLSNEFVMGDGRLAIETYRVQPDRSLKLERREIVGDWPPN				NA	NA	NA	NA	NA
BMS010_06982	1518			hypothetical protein	ATGAGTACCTTTGAATTCCTGCTGCACGGTCTTGAGGTTGCCGCCCAACCCATGAACCTGCTCTATGCGCTGATCGGCGTGACACTCGGCACCGCCGTCGGCGTTCTGCCCGGCATCGGGCCTGCGCTGACCGTGGCGCTGCTTCTGCCCGTTACCTACAGGCTCGATCCCGCCGGTTCGCTCATCATGTTCGCCGGCATCTATTATGGCGGCATGTATGGCGGCTCGACCACCTCGATCCTGCTCAACACGCCGGGCGAAAGCGCCTCGATAGTGACCGCGCTTGAAGGCAACAAGATGGCCCGCAAGGGCAGAGGCGGTCCGGCCCTTGCCACCGCCGCCATCGGCTCCTTCGTTGCCGGCCTTATCGCCACCATCGCACTCGCCTTCATCGCGCCCTATATCGTCAAGCTGGCGCTGGTCTTCGGCCCGCGTGAATATTTCGCGCTGATGGTGCTCGCCTTCGTTACCGTTTCCTCCGCTTTCGGGGATTCGGCGCTGCGCGGCCTTACCTCGCTGTTCATCGGCTTTGCGCTTGCCATCGTCGGTATCGACCAGCTGACCGGCCAGACCCGCATGAGCTTCGGCATTCCCGACCTCCTCGACGGTGTGGAAGTGACGACGCTTGCGGTCGCCATGTTCGCCATCGGCGAAACCCTGTTCATCGTCGCTCAGGGCAGCACCGGCCCGGACAAGGTCGAAGCCGTGAAAGGCTCCGTCTGGATGAGCGCGCAGGACTGGGCACGCTCGTGGAAAGCCTGGCTGCGCGGCACGCTCATCGGCTTCCCCATCGGCGCCATGCCGGCGGGCGGCGCTGAAATCGGCACCTTCCTGTCCTATGCCACCGAAAAGAAGCTGACCAAATATCCGGAAGAATTCGGCCATGGCGCCATCGAAGGCGTCGCAGGTCCGGAAGCCGCCAACAATGCCTCCGCCGCCGGTACGCTGGTGCCGCTCTTGACGCTCGGCCTGCCGACGACGGCGACCGCCGCCATCATGCTCGCCGGCTTCCAGCAATATGGCCTTCAGCCCGGCCCGCTGCTGTTCGCCACCAATCCGCAGCTGGTCTGGGGCCTGATCGCCAGCCTGTTCATCGCCAACCTGATGCTGCTGGTTCTGAACCTGCCGCTCGTCGGCCTGTGGGTGAAGCTGCTGACCATTCCGAAGCCCTGGCTTTATGCCGGCATCCTGCTGTTTGCGACGCTCGGCACCATCGGCGCCAACCCGTCGGTCTTCGAACTCGGCATGCTGCTCGCCTTCGGTATCCTCGGCTATATCATGCGCATCTTCGGTTATCCGATTGCGCCTGCGGTCGTTGGTCTCATCCTCGGCCCGCTTGCGGAACAGCAGCTGCGCCGCGCTCTTGCCATCGGCCAGGGCGACCCGACGGTGCTGTTTACCTCGCCGATTGCCGTTGGCCTCTTCATCGTGGCAGCCGCCGCCTTCATCATCCCGCTCATCATGCGTATCCGCGGCCGTGGCGAGGTGCTGACGCAGCTTGCCGCCAACGAGGACTGA	MSTFEFLLHGLEVAAQPMNLLYALIGVTLGTAVGVLPGIGPALTVALLLPVTYRLDPAGSLIMFAGIYYGGMYGGSTTSILLNTPGESASIVTALEGNKMARKGRGGPALATAAIGSFVAGLIATIALAFIAPYIVKLALVFGPREYFALMVLAFVTVSSAFGDSALRGLTSLFIGFALAIVGIDQLTGQTRMSFGIPDLLDGVEVTTLAVAMFAIGETLFIVAQGSTGPDKVEAVKGSVWMSAQDWARSWKAWLRGTLIGFPIGAMPAGGAEIGTFLSYATEKKLTKYPEEFGHGAIEGVAGPEAANNASAAGTLVPLLTLGLPTTATAAIMLAGFQQYGLQPGPLLFATNPQLVWGLIASLFIANLMLLVLNLPLVGLWVKLLTIPKPWLYAGILLFATLGTIGANPSVFELGMLLAFGILGYIMRIFGYPIAPAVVGLILGPLAEQQLRRALAIGQGDPTVLFTSPIAVGLFIVAAAAFIIPLIMRIRGRGEVLTQLAANED	PGPT0017350_1251	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017350-tctA-K07793	NA	NA
BMS010_06983	495			hypothetical protein	ATGAGCCAGGGTTCCAACCCTTCGCAGCATCAAAAGCGCCGCCCTGACTGGGCGGCGCTGGCGATCGCCATCTTCCTCGTCATCATCGCCTGCGTAATCTTCTGGGATAGCGCCCGCCTCGCCAGCGTCACCGGTTATTCGCCGGTCGGCCCGGCAACCGTGCCTTATGCCATCGGCTTCTGTCTTATCGGCCTGGCGCTGTGGACGGCCATCGAGGCCTGGCGCGGTGATTTTCCCGAACGCGACAAACAGGAAATCGCCCCGGTTATCTGGGTCGTCGCCGGCCTTGCCGCGCAGATGTTGCTGCTCAACGTCGCGGGTTTCTCCATTGCCACCGGCCTGCTTTTCGCCTTTACGGCGCGCGCCTTCGGCAAACGCAAGCTCTGGTATTCGATCCCCATCGGCATCGCCCTGAGCTTCTTCATCTGGTTCATCTTCGCGCGGCTGCTGCAACTTTCGCTGCCCGCCGGGCCTCTGGAACGGCTGTTGTTCTAA	MSQGSNPSQHQKRRPDWAALAIAIFLVIIACVIFWDSARLASVTGYSPVGPATVPYAIGFCLIGLALWTAIEAWRGDFPERDKQEIAPVIWVVAGLAAQMLLLNVAGFSIATGLLFAFTARAFGKRKLWYSIPIGIALSFFIWFIFARLLQLSLPAGPLERLLF	PGPT0017355_908	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017355-tctB-K07794	NA	NA
BMS010_06984	945			hypothetical protein	GTGAAGCATTTTCTTATCGGCACATTCCTGGCGGGCGTGATCGCGCTTCCGGCGGTTGCAGCGGATTACACCATCATCGCCCCGGCAAATCCCGGCGGCGGTTGGGACCAGACCGCGCGCTCCCTGCAGACCGTGCTGCAGGAAGAAGGCATTTCCAAGAGCGTTCAGGTGCAGAACGTACCGGGCGCAGGCGGCACCATCGGTCTTGCGCAGTTCGCCAGCCAGCAGAAGGGCAACCCGAACGCTCTCATCGTCGGCGGTTACGTGATGGTTGGCGCGATCCTCACCAACAACGCGCCCGTCACCCTCAAAGAAGTGACGCCGATCGCCCGTCTGACCGGCGAATATGAAGCCATCGTCGTTCCGGCATCCTCGCCGCTGAAGACCATCGGCGACCTCATCGACCAGCTCAAGAAGGATCCGGGCAGCGTTTCCTGGGGCGGCGGCTCCGCTGGCGGCACCGACCATATCGCCGTTGGCCTTATTGCCAAGGCAGCCGGTGTCGACCCGACCAAGATCAACTACATCGCTTATTCCGGCGGCGGCGAAGCGCTTGCCTCGATCCTCGGTTCGCAGGTGACTGCCGGTATTTCGAGCTACGGCGAATTCGAGAGCCAGGTAAAGGCCGGCACGCTGCGCCTGCTCGCAGTTTCCAGCGAAGAGAAGCTGGAAGGCGTCGATGCGCCGACGCTGAAGGAAAGCGGTCTCGATGTCGTCGTCCAGAACTGGCGCATGGTCGCCGCTCCTCCCGGCCTGACGCCGGAGCAGGAAAAGGCCGTCAATGCCGACATCGAAAAGCTGGTGAAGTCCGCCAAGTGGCAGGAAACCCTGAAGACCAAGAGCTGGATGGACACCTATCTCGCCGGTGACGAATTCAAGGCGCAGCTCGCCAAGGATACCGACGCCACCGCCGCCATCCTCAAAGACATCGGACTGGTAAAATGA	MKHFLIGTFLAGVIALPAVAADYTIIAPANPGGGWDQTARSLQTVLQEEGISKSVQVQNVPGAGGTIGLAQFASQQKGNPNALIVGGYVMVGAILTNNAPVTLKEVTPIARLTGEYEAIVVPASSPLKTIGDLIDQLKKDPGSVSWGGGSAGGTDHIAVGLIAKAAGVDPTKINYIAYSGGGEALASILGSQVTAGISSYGEFESQVKAGTLRLLAVSSEEKLEGVDAPTLKESGLDVVVQNWRMVAAPPGLTPEQEKAVNADIEKLVKSAKWQETLKTKSWMDTYLAGDEFKAQLAKDTDATAAILKDIGLVK	PGPT0017360_1470	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017360-tctC-K07795	NA	NA
BMS010_06985	1080			hypothetical protein	ATGATCTTTTCCATGCGTATCTGCCTTCTCCTCTGTCTCTGTCTTTGCACGGCCTCGCCGGCGCTTGCGCAAGTCGCCATCTTTCCGGCACCCTCCGGCAAGGCGGATGCCGAAACGCTGGTGGTCTATTCCTCGCTGGACGAACCGCTGGCGACGCCGATGATCGAGGGTTTCCAGAAGGCCAATCCCGATATCGCCGTCCATTATGAGGATATGCTGACCGGCGAGATTTACGACCGCATCGTGAAGGAAACCGATGCGGGCAAAAAGACCGCCGATTTCGCCTTTTCCTCCGCCATGGATTTGCAGGTGAAGCTGAGCAATGACGGTTATGCCCAGCGTTCCGACCTCGCCATGAGCGCCCGCTGGCCCGCCTGGGCGAACTGGCGCAACACCGCTTACGCGCTGACTTTCGAGCCGGCGGTTTTCGTTTATCACAAGCCGAGCTTCACCACCGAAGAACCGCCAGCCAGCCGCGCCGAATTCGTCGATTATCTCGAACGCAACGCCAAGCAAGTGCATGGCCGCATCGCCACCTACGACATCGAACGCTCCGGCGTCGGTTTCCTGTTCATGTCGCGCGATCAGGAGCAGTTCGGCGATATATGGAACGTCATCAAGGCCATGGGCGCGGCGGGCGTGAAGGTCTATTCCACCTCGTCGGCCATTCTGGAACGTGTTTCCGACGGACGCTTCGTGCTGGGCTACAATATTCTTGGCTCCTACGCAGCCGACTGGGCCTCGCGCCACCCCGATGTCGGCATCGTGCTGCCGAAAGATTATACCGTCGTCATGTCGCGCATCGGCCTGGTGCCGGAAGCCGCCGCCAACCCGGCGCTCGGCCGTCGTTATCTCGAATTCTTCATGTCGAAGGAAGGCCAGACGATCATGGCCCGGCAGTTGCAGATTCCCGCCGTCAGTCCGGAAGTGGCGGGCGAAAACACCGCCAACACCATGCAGGCCATCCACGGCGCACAATTGCGCCCCGTGCCGGTCAGCCCCGGCCTGATGGTCTATCTGGATCAGGTCAAACGCAGCCGCCTGATTGAGCGCTGGAACGAGGCGTTGCGGTCGCAGTAG	MIFSMRICLLLCLCLCTASPALAQVAIFPAPSGKADAETLVVYSSLDEPLATPMIEGFQKANPDIAVHYEDMLTGEIYDRIVKETDAGKKTADFAFSSAMDLQVKLSNDGYAQRSDLAMSARWPAWANWRNTAYALTFEPAVFVYHKPSFTTEEPPASRAEFVDYLERNAKQVHGRIATYDIERSGVGFLFMSRDQEQFGDIWNVIKAMGAAGVKVYSTSSAILERVSDGRFVLGYNILGSYAADWASRHPDVGIVLPKDYTVVMSRIGLVPEAAANPALGRRYLEFFMSKEGQTIMARQLQIPAVSPEVAGENTANTMQAIHGAQLRPVPVSPGLMVYLDQVKRSRLIERWNEALRSQ	PGPT0003725_1100	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003725-afuA|fbpA-K02012	NA	NA
BMS010_06986	681	tctD_2	COG0745	Transcriptional regulatory protein tctD	TTGCGTATTTTGCTGGTCGAGGACAATCAGGTGCTGTCGGAGGGGCTGTCGGCGCTGTTGCGCGGCAGCGGTTATGCCGTGGATGTGGTGTCCGATGGCGCTTCCGCCGATGCGGCGATTGCGGCGGAAAGTTTCGACCTCGTCATTCTCGATCTCAACCTGCCGGAAATGGACGGTATCGAGGTGCTGCGCTCCATGCGTTCGCGCCAGGACAAGGCGGCGGTGCTGATCCTGACGGCGCGCGGCACGCCGGAGGAAAAGGTCAAGGGGCTCGATCTCGGCGCTGACGACTACATGATCAAGCCTTTCGACATCACCGAATTCGAGGCGAGGGTGCGCGTGCTGCTGCGCCGCAATGCCGGGCTGCGCTCCTCGGCGCTGAGTTTCGGCAAGGTGCTGTTCGATCTCAATTCCCGCACCTTTTCGGCGGATGGGCGTCCGCTCGATATTCCGGCGCGCGAGGTGGCGCTGCTTGAAGTGCTGTTCATGCGGGCCGGCAAGGTCGTCGCCAAGGAAGCCATCGTTCAGTCGCTGACCGGCTTCGACGACGATATTTCCGCCAATGCCATCGAGCAATATGTCAGCCGCCTGCGCAAGCGGCTCGCGCCGCACGGGTTGACGGTGAAGACGGCGCGCGGCATCGGTTATTATCTCGAAAAGCTGCCGGAGATGGCTGAATGA	MRILLVEDNQVLSEGLSALLRGSGYAVDVVSDGASADAAIAAESFDLVILDLNLPEMDGIEVLRSMRSRQDKAAVLILTARGTPEEKVKGLDLGADDYMIKPFDITEFEARVRVLLRRNAGLRSSALSFGKVLFDLNSRTFSADGRPLDIPAREVALLEVLFMRAGKVVAKEAIVQSLTGFDDDISANAIEQYVSRLRKRLAPHGLTVKTARGIGYYLEKLPEMAE	PGPT0017365_302	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-GENTAMICIN|TOBRAMYCIN|KANAMYCIN_RESISTENCE,PGPT0017365-tctD-K07774	NA	NA
BMS010_06987	1395	sasA_22		Adaptive-response sensory-kinase SasA	ATGAGACAGGCCGCCTATTCGCTCAGGCGGCGTCTTTTAGGCTGGCTTCTCATCTCCACCGCCATTATCGGCTGCGTTGCGCTGACCGATACCTGGCGTGAGGCGGTCAATACCGCCAATGTCGTCTCCGACCGGGTACTATCAGGTTCCGCGCTTGCCATTGCCGAGCGGGTGGTGGTGGCCGAGGACGGCTCGCTGGAAGTCGATATTCCCTATGTGGCGCTGGAAATGCTGACATCGGCCGCACAGGACCGGGTGTTTTACCGTGTCGACGGGCCGAACGGGCAATTCCTGACCGGCTACCAGAACCTGCCGACGGTGGAGAACCCGGCGGGCGATATCCCTGCCTATCGCGATGCCGTGTTCCGCGACGAGCCGATCCGCATCGCTGCGATCCGCCGTTTCGCTTCCACCGGCATCAATTCCGTGCCTTTTTCCGTAACGGTAGCCGAAACCACCATTGCCCGCAGCCAGCTGGCGCAGGCGATCATCCTGCGCTCGGCGCTGCGCCTGCTGTTGATGATTGTGGGGGCGGCGATCATCGTCTGGATCGCGGTGACGATTTCGCTCAGACCGCTTTACCGGCTCAGCGAAGCCATTGCCGAGCGCAGCCCGAACGACCTGCACCCCATCCGCCAATCCGTGCCGGTGGAGGTGGAAAATCTGGTGGAAACGGTCAATTCCTTCATGGTGCGGCTGCAATCGGCGCTCGATGCGCTCCGGCATTTTACCGGCAATGCCAGCCACCAGCTGCGCACACCGCTTGCCATCATCAGCACCCAGCTCGCCCTTTCCGCCCGCGCCGCAAGCCTTGAGGAAGCGCAGGCGGCGGCGCTGAAGGGCGGGGCGCCCGTGGCCCATGCCGAACATATCCTCGCCCAGCTGCTGCGCATGGCCAATATCGATGCCGCCGGCTCCAGCGAAAAACATGATTTTTCCGCGATCGATCTCGTGGCCGTTGCGCAGAATGTGACGGCCGATTTCGTGCCGCGTGCGGCCGAAGCCGGCATCGATCTCGGTTTCGAAGGCGAGGGGGAGGTCGCCATTCTCGCCGAGCCGCTCCTGATCGGCGAACTGATCGGCAATCTCGTTTCCAATGCCATCAACTATGCCGGTCGTGGCGCGGAAGTCACCGTCCGCGTCGGCAAGGAGACGGACGCCGTCTGGCTGGAAGTGGAAGATAACGGCCCCGGCATCCCTCCGGAAAAACGCGCCATGGTGCGCCAGCGCTTTGCCCGCGGCGAAGCCAACGCCGCCCCCGGCGCCGGCCTCGGCCTCGCCATCATCGAAGAGATCGCCGGGCTATTCGGCGGGCGGCTGACGCTGGAGGATGGCGCGGAGGGGCGTGGGCTGAGGGCGCGGGTGATGTTTGGTGGCGTGGAAAAGGCGCCGTAG	MRQAAYSLRRRLLGWLLISTAIIGCVALTDTWREAVNTANVVSDRVLSGSALAIAERVVVAEDGSLEVDIPYVALEMLTSAAQDRVFYRVDGPNGQFLTGYQNLPTVENPAGDIPAYRDAVFRDEPIRIAAIRRFASTGINSVPFSVTVAETTIARSQLAQAIILRSALRLLLMIVGAAIIVWIAVTISLRPLYRLSEAIAERSPNDLHPIRQSVPVEVENLVETVNSFMVRLQSALDALRHFTGNASHQLRTPLAIISTQLALSARAASLEEAQAAALKGGAPVAHAEHILAQLLRMANIDAAGSSEKHDFSAIDLVAVAQNVTADFVPRAAEAGIDLGFEGEGEVAILAEPLLIGELIGNLVSNAINYAGRGAEVTVRVGKETDAVWLEVEDNGPGIPPEKRAMVRQRFARGEANAAPGAGLGLAIIEEIAGLFGGRLTLEDGAEGRGLRARVMFGGVEKAP	PGPT0017370_823	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-GENTAMICIN|TOBRAMYCIN|KANAMYCIN_RESISTENCE,PGPT0017370-tctE-K07649	NA	NA
BMS010_06988	306			hypothetical protein	ATGCCACTTGTGACACGCGATTACGATGCTGCCCGCTACCTTGATAGTGACGAAGCGCTTGCCGCTTACATCGCCGACGCCACAGAAAGCGGCGACGCACAGGAGCTTGCCCATGCGCTGGGCGTCGTGGCGCGGGCCAAGGGTATGACTGACCTTTCGAGGCAAACTGGCCTTCCCCGCCAGACCTTGTACAAGGCGCTGAGCGGCGACGGAAATCCGGAACTGGCGACGATTGCCAAGGTCGCCGACGCGCTGGGCTACAGGCTCTCGCTGGTGGCGAAATCGCCTGCAGACACAGCCGCCTGA	MPLVTRDYDAARYLDSDEALAAYIADATESGDAQELAHALGVVARAKGMTDLSRQTGLPRQTLYKALSGDGNPELATIAKVADALGYRLSLVAKSPADTAA	PGPT0027571_53	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HigB-HigA_TOXIN-ANTITOXIN_SYSTEM,PGPT0027571-toxin_higB1-na	NA	NA
BMS010_06989	297			hypothetical protein	ATGCTCACGATCCGGGAAACAAGCGAGTTTGCCGACTGGCTGGCGGGTCTGCGCGATGTGCAGGCGCGCGCCCGCATAGCACGGCGCATTTACCGGCTGGCGGACGGCAATCCCGGAGACGTGAAACCGGTTGGCGAAGGCGTCAGCGAACTCAGGATAGACCTTGGACCCGGATATCGGGTCTATTTTGTCCGGCACGGCGATGTCGTCATCATATTGCTGTGTGGCGGCGACAAGGCATCGCAGTCCCGCGACATCGCCAGAGCCAAGAAACTGGCCAGAGCGCTCAAGGAGTGA	MLTIRETSEFADWLAGLRDVQARARIARRIYRLADGNPGDVKPVGEGVSELRIDLGPGYRVYFVRHGDVVIILLCGGDKASQSRDIARAKKLARALKE	PGPT0027571_12964	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HigB-HigA_TOXIN-ANTITOXIN_SYSTEM,PGPT0027571-toxin_higB1-na	NA	NA
BMS010_06990	885	purU_4	COG0788	Formyltetrahydrofolate deformylase	ATGACATCCTATGTTCTGACCGTAGCCTGCAAATCGACCCGTGGCATTGTGGCTGCGATTTCCGGTTATCTGGCGGAAAAAGGCTGCAACATCGTCGACAGTTCGCAGTTCGACGACCTCGAGACCGGCAAGTTCTTCATGCGCGTCTCCTTCATCTCCGAAGAAGGCGCCACCCTTGAGGCCATCACCGACGGCTTCAAGCCGGTGGCGGAAAAATTCGGCATGGAGGCGGATATCTATCCGGACGGCCAGCGCATGAAGACGCTGTTGATGGTCTCCCGTTTCGGCCATTGCCTCAACGACCTGCTCTATCGCTGGAAGATCGGCGCATTGCCGATCGACATCGTCGGCGTCGTCTCCAACCATTTCGATTACCAGAAGGTTGTCGTCAACCACGACATTCCCTTCCACCACATCAAGGTGACGAAGGAGAATAAACCCAAAGCCGAAGCTCAGCTGATGGACCTGATCGAGACCAGCGGCACGGAACTCGTCGTGCTGGCGCGCTACATGCAGGTTCTGTCCGACGACATGTGCCGGAAGATGTCTGGCAAAATCATCAACATCCACCATTCCTTCCTGCCGAGCTTCAAGGGCGCCAACCCCTACAAGCAGGCCTATGAGCGCGGTGTGAAGCTGATCGGTGCCACGGCCCATTACGTCACCGCCGATCTCGACGAAGGCCCGATCATCGAGCAGGACACGGTGCGTATCACCCACGCACAGAGCGCCGACGATTATGTCTCGCTTGGCCGCGATGTCGAAAGCCAGGTGCTGGCCCGCGCCATCCACGCCCATATCCACCACCGCACCTTCATCAACGGCAACCGCACCGTCGTCTTCCCGCCAAGCCCTGGAAGTTATGCTTCCGAGCGGATGGGGTGA	MTSYVLTVACKSTRGIVAAISGYLAEKGCNIVDSSQFDDLETGKFFMRVSFISEEGATLEAITDGFKPVAEKFGMEADIYPDGQRMKTLLMVSRFGHCLNDLLYRWKIGALPIDIVGVVSNHFDYQKVVVNHDIPFHHIKVTKENKPKAEAQLMDLIETSGTELVVLARYMQVLSDDMCRKMSGKIINIHHSFLPSFKGANPYKQAYERGVKLIGATAHYVTADLDEGPIIEQDTVRITHAQSADDYVSLGRDVESQVLARAIHAHIHHRTFINGNRTVVFPPSPGSYASERMG	PGPT0008155_943	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008155-purU-K01433	NA	NA
BMS010_06991	777			hypothetical protein	ATGACCGACCGCCAACCTCTTCTTTCTCGCCGCAGTTTCGCCGGGCTTGTTGCGCTTGCGCCGCTTTTTGCGGCGGGCGGTGCGGCTGCCGCACCGGCAAGTCTGCGCGGCAGCGTTTCCTATCGTGAACGCATCGCCCTGCCGCCGGGCGCGACCGTCACCGTGCGTCTGATCGACGTTTCGCTTGCGGATGCGCCCTCGCAGACGATTGCCGAAACCACCATTCGCCCGCGCGGCCAGGTGCCGGTGCCCTTCGTGCTGCGTTATGATGACCGCGACATCCGTGGCCGCCGCTCCTATGCGCTGAGCGCCGAAATTCGCGACCGCGACCGGCTGCTCTTCACCACCACCCGCCGTTATTCGGTGCTAACCGGCGGTCGCGACGATACCGACCTCGTGCTGGAGCGTGTCGGCGCGGGTCCGGGTCGGCCGGAGCCGGAAGCCGGTATCGATGGGCGCTGGCTGGTGCAGGACATCCGTGGCGAGCGGGTTCGCGGCCGCCGTCAGGCGACGCTGGAAATTACCCGCGAGGGCCGCGTTTCCGGTAATGCCGGTTGCAACGGCATCGGCGGCGAGGTGAAGATCAGCCGCAACCGCATCGATTTCGGCCGGATGATTTCTACCCAGATGGCCTGCGCGCCTGACATCATGCGCCAGGAACGGCAATTCATCGAAGCGCTGGAGGGCGCTCGCTCCTTCAGGCTGGAGCCGCGCCGCGGAACGCTCGAACTGCTCGACGGTCGCGGCCGCACGGCGATGCGCCTTCGCCGCGCCTGA	MTDRQPLLSRRSFAGLVALAPLFAAGGAAAAPASLRGSVSYRERIALPPGATVTVRLIDVSLADAPSQTIAETTIRPRGQVPVPFVLRYDDRDIRGRRSYALSAEIRDRDRLLFTTTRRYSVLTGGRDDTDLVLERVGAGPGRPEPEAGIDGRWLVQDIRGERVRGRRQATLEITREGRVSGNAGCNGIGGEVKISRNRIDFGRMISTQMACAPDIMRQERQFIEALEGARSFRLEPRRGTLELLDGRGRTAMRLRRA				NA	NA	NA	NA	NA
BMS010_06992	525	hutX	COG3721	Intracellular heme transport protein HutX	ATGAGCATTGCAGCCCAAAAGACCGACGACGACAGGCAGGCCCGCGCCGCCGCTGCGCTCGCCGAAAAGCCCGATGGCATCGTGGAGGCCATCGCCGCCAAGGCCGAGGTGACGCCGGCCGAAATTCTGGCGATCCTGCCGGAAGGTGCCGCCGTTTCCGCTGCCGCCGACCGCTTCGACGCCATCTGGAACGAGATGCGCGGCTGGGGCGAAGTCCTGATGATCGTGCAGACCGGCGATATCGTGTTCGAAGTGCCGGGCCACCTGCCGGAAGGCAGCGAAAGCCACGGCTGGTTCAACATCCACGGCGACAGCCCCATCGGCGGTCACATCAAGAAGGACAATTGCGCCGGCATTACCTTCGTCGATCGCGGCTTCCACGGCCGCCGCTCCTGTTCCGTCTGGTTCATGAACGCCGCCGGCAACGCCATGTTCAAGATTTTCGTCCGCCGCGACGAGAACAAGGAACTGCTGGCCGGGCAACTGGCGAAGTTCGAAGCGCTGCGGGACGGTTTCCGCGGCTGA	MSIAAQKTDDDRQARAAAALAEKPDGIVEAIAAKAEVTPAEILAILPEGAAVSAAADRFDAIWNEMRGWGEVLMIVQTGDIVFEVPGHLPEGSESHGWFNIHGDSPIGGHIKKDNCAGITFVDRGFHGRRSCSVWFMNAAGNAMFKIFVRRDENKELLAGQLAKFEALRDGFRG				NA	NA	NA	NA	NA
BMS010_06993	348	isdG		Heme oxygenase (staphylobilin-producing)	ATGTTTATCGCAATGAACCGCTTTCGTGTCGTGCCGGGCTATGAGGAAACCTTCGAATCCATCTGGCGCGAGCGCAAATCGCATCTGAGCGAATTGCCGGGCTACATCGAATTTCACATGCTGAAAGGCCCGAAGGCGGATGACCACACGCTTTATGCCTCGCACACCGTCTGGGCCACCAAGGACGATTTCCTCGCCTGGACGAAATCCGAACAGTTCCGCGCCGCCCACGCCAAGGCCGGCGAAAATCGCGGTAAGGTGGAATATCTCTCCGGCCCGCATTTCGAAGGCTTCGACGTCATCATCCATGAAGACAAGAATGGCGAACGCCGTTCGATTGCCGCCTGA	MFIAMNRFRVVPGYEETFESIWRERKSHLSELPGYIEFHMLKGPKADDHTLYASHTVWATKDDFLAWTKSEQFRAAHAKAGENRGKVEYLSGPHFEGFDVIIHEDKNGERRSIAA				NA	NA	NA	NA	NA
BMS010_06994	894	hmuT_2	COG4558	Hemin-binding periplasmic protein HmuT	ATGTTGAATTCCCGCCTTCGTTCCTTCGTTTTCGCCGCTCTCGTGCCCGCCGCAATCGCCTTTGCCGCACCTGCCGCCATGGCTTCGGACAAGGGCAATCCGGAAGCGAAACGCATCGTCGCGGTGGGCGGCACGGTCACCGAAATCCTTTATGCGCTGGGCGCAGGAGACCGCGTCGTTGCGCGTGACAGCACCAGCAGCTATCCGGCCGATGCATTTGCCAAGCCGGATATCGGTTACATGCGGGCGCTCTCGTCGGAAGGCATCCTGTCGCAAAAGCCCGATCTCATCCTGTCCGAAGACGGGTCCGGCCCGGCGGATGTCATCGCCATCCTGAAGGCAAGTGCGGTGCCGTTCGTCACCGTCGATACGCCGCCGAGCGGCGACGCCATCCCCAAAAAGATCGAGGATGTCGGCGCGGCAGTCGGTCTTTCTGACAAGGCGAAGGCGCTGGCTGCCGAGACCAAGGCCGGGCTCGATGCGCTCGCCAAAGATGTCGCCGCCGTGCCGGAAAAGGGCAGGAAGCGGGTTCTATTCGTGCTTTCCACCGCCGGCGGCCGCATCATGGCGGCGGGCAAGGATACAGAAGCCGCCGCGATCATCGAAATGGCAGGTGGCATCAATGCGGCTCAGGAGATCACGGGTTACAAGCCGCTGACGGATGAGGCGGTCATTGCCGCGGCACCCGACGTGGTGCTGACCATGGCGCGCGGCGATCATGCCGCAAAGGCGGAAGAGATCTTCGCGCTGCCGGCCTTCCAGTCCACGCCTGCCGCCGCCAGCAAGGCACTCATCAGCATGGATGGGCTTTATCTCATCGGTTTTGGCCCGCGCACGCCCGCTGCGGGCCGCGAGCTGGCAGCCAAGCTCTATCCTGAGGTGGTGAAGCCGTGA	MLNSRLRSFVFAALVPAAIAFAAPAAMASDKGNPEAKRIVAVGGTVTEILYALGAGDRVVARDSTSSYPADAFAKPDIGYMRALSSEGILSQKPDLILSEDGSGPADVIAILKASAVPFVTVDTPPSGDAIPKKIEDVGAAVGLSDKAKALAAETKAGLDALAKDVAAVPEKGRKRVLFVLSTAGGRIMAAGKDTEAAAIIEMAGGINAAQEITGYKPLTDEAVIAAAPDVVLTMARGDHAAKAEEIFALPAFQSTPAAASKALISMDGLYLIGFGPRTPAAGRELAAKLYPEVVKP				NA	NA	NA	NA	NA
BMS010_06995	1089	hmuU_2	COG0609	Hemin transport system permease protein HmuU	GTGAGCCTTGCCGCCTTGAGTTCCGCTGAAGGCAGGGTTGCGGGCGACAGATCCCGCCAGGGGGTCGTCACCCTCGCCGTGCTCGTCGGCATCCTGCTGTTTGCCTGTGGCGTGTCGCTGGTCAGCGGACCCACGGGCGTCGGCATGTCCGAACTCTGGGCCTATTTCACCGGCGGCGCGGATCAGCTCGATGCGCGCGACAGGGTCATTCTTGAGGCGGTTCGCCTGCCGCGCACGGCGCTCGGCATGTTGATCGGCGCGGGGCTTGCCGTTTCGGGGGCGATGATGCAGGGCCTGTTTCGCAATCCGCTGGCCGATCCCGGCATTGTCGGCGTCACCTCGGGTGCAGCGCTCTTCGCGGTCGCGGCCATTTCTCTCGGGGAAGGCGCGCTTGCCACCGTCGCCGTGTTTTTCGGCCCGCATTTTCTGCCGCTGATGGCGTTTTTCGGCGGGTTGCTGAACACCTGGGTACTTTACCTGATCGCGACGAAGGATGGCGCCACCTCCACCACCACGCTCATTCTGGCCGGCATCGCGGTGGCGGCGATCAGCGGTGCTTTGACGGGGCTGATGATTTTCATGGCCGATGACCGGGCGCTGCGCGATATTACCTTCTGGTCGCTCGGTTCGCTCGGTGGTGCAACGCCCGCCAAGGTCCTCGCGACCCTCCCTTTCATCATCGTTGTTCTCGCCATCATTCCCTTCGTTGCCCGCGGGCTGGATGCGCTCATTCTCGGCGATGCCGCCGCCTTTCACATGGGCGTTCCGGTGCAGCGGCTGAAGCGGATCGTCATTCTGGCCGTTGCCGCCGCCTGCGGGGCAAGCGTGGCGGCGGCCGGCTCCATCGGTTTCGTCGGCATCGTCGTGCCACATCTTCTGCGGCTCGCCATAGGCCCGTCGCACCGCTTCCTGTTGCCGGCCTCCGCACTTGGCGGGGCGGCACTTCTGCTTCTGGCCGATAGTTTCGCCCGCACCGTCGCGTCGCCGGCGGAACTGCCCATCGGCGTCGTCACGGCGCTCATCGGCGCGCCGGTCTTCCTGTTCCTGCTATTGGGACGCGGCGGCTTTTCCATGCGGAACATGTCATGA	MSLAALSSAEGRVAGDRSRQGVVTLAVLVGILLFACGVSLVSGPTGVGMSELWAYFTGGADQLDARDRVILEAVRLPRTALGMLIGAGLAVSGAMMQGLFRNPLADPGIVGVTSGAALFAVAAISLGEGALATVAVFFGPHFLPLMAFFGGLLNTWVLYLIATKDGATSTTTLILAGIAVAAISGALTGLMIFMADDRALRDITFWSLGSLGGATPAKVLATLPFIIVVLAIIPFVARGLDALILGDAAAFHMGVPVQRLKRIVILAVAAACGASVAAAGSIGFVGIVVPHLLRLAIGPSHRFLLPASALGGAALLLLADSFARTVASPAELPIGVVTALIGAPVFLFLLLGRGGFSMRNMS	PGPT0003770_2889	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_TRANSPORT,PGPT0003770-feuB|feuC|chuU|yfhA|hmuU|ABC_FEV_P|fatC|fatD-K02015	NA	NA
BMS010_06996	783	hmuV_2	COG4559	Hemin import ATP-binding protein HmuV	ATGATCCGGGCCGAAAACCTCACCCTCATCCGTTCCGGCCGCCGGCTTCTCGATGCGGTCAGCGTCGATCTGATGCCCGGCAAGGTCAATGTCATCATCGGCCCCAACGGTGCGGGTAAATCCACGTTGATGAAGGTTCTCTCGGGCGAGATGCGCGCCGAGGGCGGTTCGGTGACCTATAACGACATCGACCTGCCGGCCTTCACGCCCGTCCAGCTCGCCCGTCTCAGGGCCGTGCTGCCGCAGAGCACCCAGCTTGCTTTCCCCTTCACCGCGCTCGAAATCGTGCGGATGGGGGCTGTCGCACAGGGGTCCCGCGCGCCCGAAGAGCAGGCCCGCCGCGCGCTCGCCAAGGCCGGGCTGCGCGGTTTCGAGCAGCGGTCCTACAACATGCTCTCCGGCGGCGAGCAGCAGCGGGTGCAGTTTGCCCGGGCGCTGGCGCAGGTGCCGAACCCGATGGAAAATGGCGAGGCGCGGGCGCTCTTCCTCGACGAGCCCACCGCAAGTCTCGATATCGGCCACCAGATTGCCGTGCTGGAAACGGCGCGCGACTTTGCAAGCGGCGGCGGGCTGGTGCTTGCCATCCTGCACGACCTCAACCTTGCGGCCGAATTTGCCGATCAACTTATCGTCATGCATGGCGGCCGGGTGACGGCGAGCGGCCCCTCGCTGGAAACGATCAGCGACGAGACGATTGCAAGGGTCTATGGCATTGGCGGTGTTGTCGGCCGGCTGCCGGCGCGGCATATTCCTTACGTGCTGCCGCAGTCGCGCCACCGTTAA	MIRAENLTLIRSGRRLLDAVSVDLMPGKVNVIIGPNGAGKSTLMKVLSGEMRAEGGSVTYNDIDLPAFTPVQLARLRAVLPQSTQLAFPFTALEIVRMGAVAQGSRAPEEQARRALAKAGLRGFEQRSYNMLSGGEQQRVQFARALAQVPNPMENGEARALFLDEPTASLDIGHQIAVLETARDFASGGGLVLAILHDLNLAAEFADQLIVMHGGRVTASGPSLETISDETIARVYGIGGVVGRLPARHIPYVLPQSRHR	PGPT0003760_1133	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003760-yusV|ABC_FEV_A|feuD-K02013	NA	NA
BMS010_06997	357	ybaN	COG2832	Inner membrane protein YbaN	ATGCGCCTTTTATACCTCTGTCTTGGCTGGCTTATGGTCGCGACCGGCATTGTCGGCGCGTTTCTTCCCGTTTTGCCCACCACGCCGTTCCTGCTTCTGGCGCTCTGGTGTTTTTCCCGCTCCTCGCCAAGACTCGAGGCATGGCTGCTGGCCCACCCCAGATTCGGCCCTTCGCTGCGGCGATGGCGCGAACGCGGCGCAATCGCCCGCAACGCCAAGGTCGCAGCACTTTCTGCCATGTCCGTCAGTTACGCCGCTTTCTGGTTTCTGAGCGAGCCGCCGCCACTGCGGGCCGCCATCGTCGCCGCCGTCATGCTCGGCTCCGCGCTTTTCATCGCCACCCGGCCGGAAAGCTGA	MRLLYLCLGWLMVATGIVGAFLPVLPTTPFLLLALWCFSRSSPRLEAWLLAHPRFGPSLRRWRERGAIARNAKVAALSAMSVSYAAFWFLSEPPPLRAAIVAAVMLGSALFIATRPES	PGPT0003745_97	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003745-tonB-K03832	NA	NA
BMS010_06998	639			hypothetical protein	ATGATAGAGCGGCGGCATGAAATCTGTGAGCCCTGTTGCCGCAGGCCCTTGTCGCAGAGCCTTACCGCAGGGGGCGAAGCAGAGGTTTTCTCCATCACATTTATCGTGATCGGCGTTTGGCCCGTCGGTCTAAAAGCGCCTTTAGGGTTGAAAGCGAAGCACGCAGTCTTTATCCCCTTGGGCCGCGATGCCCGGAGCATAACCGGGCCGTCAAAGGTTAAGAAGAAGAAGAAGGAAAACACCATGGCCAAGCTGATCCACTCGATGGTCCGGGTGCTGGACGAAAAGCGTTCGGTGGAATTTTACAAACAGGCTTTCGGGCTTGAGGTTGCGGAACGCGCCGAGTTCGAAAACTTCACGCTGATCTATCTCAGCAATGCCGAGGGTGATTTCGAGCTGGAACTGACCGTCAACCGGGGTCGCGAAGTGCCCTATGCGCTGGGCGACGGTTATGGTCACCTCGCGGTCAGCGTGGCCGATGTGGATGGCGAGCATCAGCGCTTCACCGAGATCGGCCTTTCCCCCGGAAAAATCATCGCAGCCGATTATAAGGGCCAGCCTTTCGCGAAATACTTTTTCATCTGCGATCCGGACGGTTACAAGATCGAAGTGCTGCAACGCGGCAACCGGTTCAAATAA	MIERRHEICEPCCRRPLSQSLTAGGEAEVFSITFIVIGVWPVGLKAPLGLKAKHAVFIPLGRDARSITGPSKVKKKKKENTMAKLIHSMVRVLDEKRSVEFYKQAFGLEVAERAEFENFTLIYLSNAEGDFELELTVNRGREVPYALGDGYGHLAVSVADVDGEHQRFTEIGLSPGKIIAADYKGQPFAKYFFICDPDGYKIEVLQRGNRFK				NA	NA	NA	NA	NA
BMS010_06999	714	ung_1	COG0692	Uracil-DNA glycosylase	ATGGCAGAGGCAGGCGTCAAACTCGAGGATAGCTGGAAACGCGTTCTTTCCGGTGAATTCGCCAGCCCCTATATGCTCAAGCTGAAAGAGTTCCTGCTTGCCGAAAAGACCGCCGGCAAGCGCATCTTCCCCAGGGGTGCGGAATATTTCCGGGCGCTGGATCTCACGCCTCTCGATGAGGTCAAGGTCGTCATTTTAGGCCAGGACCCTTATCACGGGCTCGGTCAGGCGCATGGGCTGTGCTTTTCCGTCCAGCCCGGCGTGCGCATTCCGCCTTCGCTCGTCAATATCTACAAGGAATTGCAGAGCGATCTCGGCATTCGCCCGGTGGGTCACGGTTTTCTGGAAAGCTGGGCGAAACAGGGCGTGCTTCTGCTCAACAGCGTGCTGACGGTGGAGGAATCCCGCGCCGCCTCGCATCAGGGGCAGGGCTGGGAAAGGTTCACCGACGCCGTCATCCGCGCCGTCAACGACGAATGCGACCATGTCGTCTTCCTGCTCTGGGGTTCCTATGCCCAGAAGAAGGCGGCCTTCGTGGATCAGCGCAAGCATCTCGTGCTGCGCTCGCCGCATCCGTCCCCGCTTTCGGCCCATAACGGCTTTTTCGGCAATGGCCATTTCTCCAAGGCAAACGCCTTTCTCGCCTCCCATGGCCGCCAGCCGATCGACTGGCAATTGCCGGAAACGGTGGGAAGCGACAAAAACCTTCTCTAG	MAEAGVKLEDSWKRVLSGEFASPYMLKLKEFLLAEKTAGKRIFPRGAEYFRALDLTPLDEVKVVILGQDPYHGLGQAHGLCFSVQPGVRIPPSLVNIYKELQSDLGIRPVGHGFLESWAKQGVLLLNSVLTVEESRAASHQGQGWERFTDAVIRAVNDECDHVVFLLWGSYAQKKAAFVDQRKHLVLRSPHPSPLSAHNGFFGNGHFSKANAFLASHGRQPIDWQLPETVGSDKNLL	PGPT0007090_2	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007090-trpD-K00766	NA	NA
BMS010_07000	1071			hypothetical protein	GTGTCTCTCCTGTCTGCCGAAACCTCCGTCTCGCTGCCCGATCCGCTGTCGATCGTCGATGCCTTCGAGGATCATTTTTCCGAGCATATGGAGATGGACCGCGAAGGTGCTACGGTGCGGTTCAAGACGGAATACGGCCATGGCAGCTTCAGCGCCGAGGGCGGGCGTTTCGCCGCAAGGGTGAGCTGCATTTCCGAACATATATTGATGTCGGTAAAGGCGATGGTCGCCGAGCATATCGTCGAATTCTCCGGCGAGACGGGGCTCGATTTCCGCTGGAGCGGCCATGGCGCGGAGCAGCGTGAACTGCCCAATCTTTTCGTCGGCAAGGTTGCCCGCGCTTATAATCTGACGCCGCATATGCGCCGGCTAGTGGTTTCCATCGAAAGCGGCATCGAAAGGCTGCTGACCGGCGGCATGCATGTGCGCCTGCTTCTGGTGCCGGATCAGGCCCGCGCGCCGGTCTGGCCTTATCTTGCGCCCACCGGCGCCATCGTCTGGCCGGCGGGCGACGATCTTCTCACACGGCGTGTCTACACCATCCGTTCCGGCGATATCGCGCGCGGTGAAGTCGATATCGACTTCGTCATGCATGAGGGCGACCACATGCCGGGCGCGACCTTCGGCGCGACGGCGAAGCCCGGCGATGTTCTCGGCATCATCGGCCCGAGCGGTGTCTGCCCGGAAGCCGAGCGTTATGTCTTTGCCGGTGACGAAACGGCGCTGCCGGTGATGCTGCGCATGGCCGCCGAAATGCCGGCCGGGAAAAAGCTCAGCGTCTATGCGGAGATCGACGATGAAGCCGAGCGGCAGGAGATCGTCTGCGCGGCAAATGTCGAGTGGACATGGCTTTATCGCCGCGGCAAGCCCGCCGGCACCGCGGGCCTCATCGAAAAGGCGCTGCGCGACCATGGCTGGAGCGCGGATCATGACGGCCTGCATGTCTTTGTCGCCTGCGAAAAATCCGAGGCGAGGGCGGCAAAATCCTTCCTCACCGACGAGATAGCTTTCCCGAAAGCATCGCTGCGCGCTGTCGGCTACTGGACCCTGGGCGTCGCCGACGATCATTGA	MSLLSAETSVSLPDPLSIVDAFEDHFSEHMEMDREGATVRFKTEYGHGSFSAEGGRFAARVSCISEHILMSVKAMVAEHIVEFSGETGLDFRWSGHGAEQRELPNLFVGKVARAYNLTPHMRRLVVSIESGIERLLTGGMHVRLLLVPDQARAPVWPYLAPTGAIVWPAGDDLLTRRVYTIRSGDIARGEVDIDFVMHEGDHMPGATFGATAKPGDVLGIIGPSGVCPEAERYVFAGDETALPVMLRMAAEMPAGKKLSVYAEIDDEAERQEIVCAANVEWTWLYRRGKPAGTAGLIEKALRDHGWSADHDGLHVFVACEKSEARAAKSFLTDEIAFPKASLRAVGYWTLGVADDH				NA	NA	NA	NA	NA
BMS010_07001	945	mhqO_2	COG0346	Putative ring-cleaving dioxygenase MhqO	ATGCTCAACCAGATCAAGGGCCTGCACCACGTCACGTCCATGGCGGCGAGCGCGCGCCAGAACAACAGTTTTTTCACCGATACGCTTGGCCTGCGCCGGGTGAAGAAGACGGTCAATTTCGACGCGCCTGACGTCTATCATCTCTATTATGGCGATGAAGTCGGCACGCCCGGCTCCGTCATGACTTACTTTCCGTTCCCGCATATCGCCCGCGGCCGTCCCGGCACCGGCGAGGTGGGCACGACGCTGTTTTCCGTTCCGGAAGGATCGCTCGGCTACTGGCAGGACCGTCTTTCGAAGGCCGACGTAGATGGCCTGAAGGCGGATGAAGCCTTCGGCAACAAGCGTCTGCATTTCGCAGGTCCCGATGGCGACGGTTTTGCGCTGGTCGAGGTCAGGGATGACAACCGTGCGCAGTGGATCGGCAATGGCGTCGGCGCGGATCAGGCGATCCATGGTTTTCAGGGCGCCTCGCTGCGTCTTCGCGATGAAGGTGCGACGGCCGAGCTTTTGAAATTCATGGGCTATCAGGAAGTGGACCGTCAGGATGGCGTTCTGCGCCTCGGTATTCCCGGCGGCAACGGTGCCGACTTCATCGACATCGAAACCATGCCGAATATTTCTGGCGCGCGGCTGGGTGCGGGGTCCGTGCACCACATCGCCTTTGCGGTCGAAAACCGTGAAAAGCAGCTGGAGGTGCGCAAGGCGCTGATGGATACCGGCTATCAGGTGACGCCGGTGATCGACCGCGATTATTTCTGGGCGATCTATTTCCGCACGCCGGGCGGGGTGCTGTTCGAAGTGGCCACCAACGAACCCGGTTTCGACCGGGACGAGGACACCGCCCATCTCGGCGAGGCGCTGAAGCTGCCGACCCAGCACGCGCATCTGCGCTCCGTGCTTGAAGAGCATCTGGAGCCGCTGGGGGACGAGAAGGAGGCTTAA	MLNQIKGLHHVTSMAASARQNNSFFTDTLGLRRVKKTVNFDAPDVYHLYYGDEVGTPGSVMTYFPFPHIARGRPGTGEVGTTLFSVPEGSLGYWQDRLSKADVDGLKADEAFGNKRLHFAGPDGDGFALVEVRDDNRAQWIGNGVGADQAIHGFQGASLRLRDEGATAELLKFMGYQEVDRQDGVLRLGIPGGNGADFIDIETMPNISGARLGAGSVHHIAFAVENREKQLEVRKALMDTGYQVTPVIDRDYFWAIYFRTPGGVLFEVATNEPGFDRDEDTAHLGEALKLPTQHAHLRSVLEEHLEPLGDEKEA	PGPT0028510_997	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROQUINONE-DERIVATE_RESISTANCE,PGPT0028510-mhqA|mhqE|mhqO|yaiA-K15975	NA	NA
BMS010_07002	615	mhqD_2	COG0400	Putative hydrolase MhqD	ATGACCAGGGACAGCTATTTCCACAAATCACGCGCCGGCGCTGCCGGTGCACCGCTCTTCGTTTTGCTGCACGGCACCGGCGGCGATGAAAACCAGTTCTTCGATTTCGGCTCGCGCCTGCTGCCTGAGGCGACCATTCTCTCGCCCGTCGGCGATGTCTCCGAATACGGCGCGGCGCGGTTTTTCCGGCGCACGGGAGAGGGCGTCTACGACATGGCCGACCTTCAACGGGCGACCGTCAAGATGGCGGATTTCATTAGGGCGAACCGGGAGCATTATCAGGCCGGTCCGGTCATCGGCCTCGGCTTTTCCAATGGCGCGAATATTCTCGCCAATGTGCTGATCGAAGAACCCGGGCTTTTCGATGCGGCGGTGCTGATGCATCCGCTCATCCCGTTCGAGCCGAAAATCTTGCCCGCCAAGGCTTCGCGCCGGGTGTTGATCACGGCTGGCGAGCGCGATCCGATCTGCCCGGTGCCGCTGACGAAGGCGCTTGAACAGAGCCTCAAGGCGCAGGGCGGCACGGTGGAAACCGTGTGGCACCCGGGCGGACATGAAATCCGCTCCGGCGAGATCGATGCGGTCAGGGGTTTTCTGGCGGCTTATAACGCTTAG	MTRDSYFHKSRAGAAGAPLFVLLHGTGGDENQFFDFGSRLLPEATILSPVGDVSEYGAARFFRRTGEGVYDMADLQRATVKMADFIRANREHYQAGPVIGLGFSNGANILANVLIEEPGLFDAAVLMHPLIPFEPKILPAKASRRVLITAGERDPICPVPLTKALEQSLKAQGGTVETVWHPGGHEIRSGEIDAVRGFLAAYNA	PGPT0028515_3281	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROQUINONE-DERIVATE_RESISTANCE,PGPT0028515-mhqD-K06999	NA	NA
BMS010_07003	585			hypothetical protein	ATGCGTGGCGTATTTGCCGTTGTTTTTCTGATGCTCGTTCTGGCCGGCTGCGCCACCGCACCGTCGCAGGTCACCAATGCCTGTGCGATTTTCGAGCAACGGAACGGCATCTTCAACAACTGGCGGCGCGATGCGAAAGCGGCCGAGCGCGAATTCGGCGTGCCCGTGCCTGTCATGATGGCGACGATCTACACCGAATCCGCCTTCCGCCCCTATGCGCGGCCGCCGCGCACCAAGCTTCTCGGTTTCATTCCCTGGACACGCCAGTCGAGCGCCTACGGTTATGCACAGGCGCTGGACGGCACATGGAGCGTTTACCAGCGTGAAACCGGCCGCTGGTCGGCAAGCCGCACCGATTTCACCGATGCCATCCACTTCGTCGGCTGGTATCATGCCAAGAGCCGGCGCGAAAACGGCATTTCGCTGAACGACCCCTATAATCTCTACCTCGCCTATTATTCCGGCCATGCCGGTTATGCGAAGGGCAGCTGGCGCAACAATTCCGCCGTCCAGAAGGCCGCCCGCCGCTCCGCCAACATGGCGCTGCGTTACGAGGCGCAGCTGCAGCAATGCGGATATCGCTGA	MRGVFAVVFLMLVLAGCATAPSQVTNACAIFEQRNGIFNNWRRDAKAAEREFGVPVPVMMATIYTESAFRPYARPPRTKLLGFIPWTRQSSAYGYAQALDGTWSVYQRETGRWSASRTDFTDAIHFVGWYHAKSRRENGISLNDPYNLYLAYYSGHAGYAKGSWRNNSAVQKAARRSANMALRYEAQLQQCGYR				NA	NA	NA	NA	NA
BMS010_07004	810			hypothetical protein	GTGTTTTTCCTGCAGGGTTGTACGGCCACGGGCCTGCGCGAATTCGAGCTCTACCGGCAGGCTTACGAGGCGCAATTTGCCGAAGCGAACGCACTTCTTGTGGATATTGCCAAAGCCGAGCGAAAGGCGTGGTTTGATATCAACGGCAAGGACAAAAACTTTGCTCCGGATGATGCGGCCTATTATGTGGAAAGCGTCGAGCCGCCGCTCACCGCGTCATTGCGTCGATCGCTGCAGGCTCTCAACGACTACAACGCCGCCCTCGTTGCTCTGGGAAAAGGTGAAAATGCCGCTGCGGCCGTTGATCGAGTTACCGGTTTTGCGCTGAACATCAAAAGTGCTTCAGCGGCGATAGGGGCAATTGACGGGAAAACCGCTCCTCCGGTGGTTGCTCAGGCCGCTTTGACACTTTCTCCAGGGGTGGCGCAGGCGAAAATTGCCGCCGAAGCCCTGCTGGCGGCGGCGGGCCGAGAGGAGTTTCGTCGCCGTCTCGTCGCCAATGGCAAGCACATGGATGCTTTCCTTGTCGCCCTACGGGACGCGACGCCTTCCATGCATTTACTGCTCAATGCGGGACAGAATCGCTATTCCACCGATGGTGGCAGCGCGGCCACGCGAAACGCGGCTTTTGAGAGCAACCGGCTTCGTCTGGCGGGATGGGTCTTGTTGATTGACCAGTCGCGGGTGGCTCTCGCAAGGGCGCTGGCCGCCGCCTCGGCTCCTGCCGGTGTCAGTATCAGCAGCCTCAACGACGCCTCGATCGAACTTCGCGTGCTTGCAGAAAAAATAAGGTCGGAACGCCTCAGATAA	MFFLQGCTATGLREFELYRQAYEAQFAEANALLVDIAKAERKAWFDINGKDKNFAPDDAAYYVESVEPPLTASLRRSLQALNDYNAALVALGKGENAAAAVDRVTGFALNIKSASAAIGAIDGKTAPPVVAQAALTLSPGVAQAKIAAEALLAAAGREEFRRRLVANGKHMDAFLVALRDATPSMHLLLNAGQNRYSTDGGSAATRNAAFESNRLRLAGWVLLIDQSRVALARALAAASAPAGVSISSLNDASIELRVLAEKIRSERLR				NA	NA	NA	NA	NA
BMS010_07005	1776			hypothetical protein	ATGCTCGATGCCGCAGAACTTACCAAGCGCCTCAATGCTCAACTTGATGCAGCCTACAATGAATATGATGCAGCCAAAGCAAAGGGCGACGAGGCGGGAATGAAAATGGCGCTCGCTCGTCAGGAAATCCTGATCCCGGCAATTTCCCTCCTCGCGCTCGGAGCATATGATCGCGCAGTTGCGCTTCTCGCCGCAAAAGGTGTGGAATTTGAACGTAAAGCCGCCGCAGTCCGGGCCTCGCCATTGCCTGCGCCGGCAACCGACCCCTTCGAGCCGCCGGAAAAGGTCGAGTTTTCAGATGCCCAGCTGGATGCGGCGGCGGCGAAACAACCGTCTGCCGAGCCTGCGAAGGTTGCGGCCGGCAAGCCGGCGGGTTGGTCCGAGGACTATCAGACGCTTTGGGATACGATGGAAATCCGTGCTGAATGGCGCGACGATGCGGAATTTGCAGCGCGTAAAGCGGTTGAAAACCAGAAGCGCTATGCAGCCGTCGTTTCGGGGACCACGGTGCCCTGGTGGTTCGTGGCGATTGTCCATTGCATGGAATGCGGGTTCAAGTTCGATCGTCATCTGCTGAACGGCGACCCCTTGAGCGGGCGCACGGTGCGGGTGCCTGCGAACCAGCCGCCTTTCGGGTCGCCACCCTATGACTGGGAGACGGCAGCGCGATATGCGATGACCTATGAAGAGCTGGACAAGATAACCGACTGGTCCCTGCCCAACGTCTTGAACCGATGGCACCGCTATAATGGTGTCAAAAACGAATATCGGCGGCGGAAAATTCCCACGCCTTATTTGTGGAGCGGTTGCTATCACTACGACAAGGGTAAATACACCCGCGACCGTTATTTCGATCCAGAGGTGCCATCCAAACAGGTCGGCGCTGCCATCATCCTGAAGACGCTGATCGAAATGGGGGCTGTATCGCTCGGCGCCACGAATGTGCTCAAAGCCAATCCCCTGGCGGCGACGGAGAATTTGTCGCTTCTGTCTCACGATTTGCCCGGAGCCGCGTTCAAATCCATCGAGCAGGAACTCGCCTTTCCCGGCGCGTTGAAGCTTGGCTCCTCCGGTGCGGGTGTCAAGCGCTTGCAGGAATGGCTGCATCTGAACGGCTGTTACACCAGTGTCGATGGCGATTTCGGCGCCTCCACCGAAACGATGCTGGACCGTTTCGCAAAGGCGCAGGGGCGAAGCGGTGCGACGATGCTGGATGAGGAGTTGTGGGCAGTCCTGACCGCTCCGCTTCGCCGTGCAGTGGCGAAGGTCGTTCCCGGTGCGTCTTTTGAGGAGACCGTGCTGAAGGTTGCTCGGCAGCATATTGCTGAGCGGCCGAAGGAGGCCGGCGGCAACAATTGCGGTCCATGGGTGCGTGCCTATATGCGCGGAGCGGATGGGGCGGATCAACTCTGGTGCGCCGGTTTTGTCTCGCTCATCTTCGAACAGGCGGCGCGGGACATGGGTATCAAGGTGCCGCTTAAGCGCCAGGCCGGCGTCGATGCGCTGGTTGCGGACGCGAAGACGAGCGGGCGGTTCATTGCCGAAAGCGAGGTAAACACCGCGCTTCTTCGCGCATCCAGGCTGCGGCCGGGTTATCTTTTCGTCATCCGGAAAGATGCGAAGGACTGGACCCATGTCGGTTTCGTTCTGTCCATCGGGCCGACGAGTTTCGACACCATTGAGGGCAATACAGGCGGGGAGGGCGGCGTGGATGGCGATGAGGCCCGTCAGAACAACAGAAGTTATCCCTCGCGTGATTTCATAAGGCTTATTTGA	MLDAAELTKRLNAQLDAAYNEYDAAKAKGDEAGMKMALARQEILIPAISLLALGAYDRAVALLAAKGVEFERKAAAVRASPLPAPATDPFEPPEKVEFSDAQLDAAAAKQPSAEPAKVAAGKPAGWSEDYQTLWDTMEIRAEWRDDAEFAARKAVENQKRYAAVVSGTTVPWWFVAIVHCMECGFKFDRHLLNGDPLSGRTVRVPANQPPFGSPPYDWETAARYAMTYEELDKITDWSLPNVLNRWHRYNGVKNEYRRRKIPTPYLWSGCYHYDKGKYTRDRYFDPEVPSKQVGAAIILKTLIEMGAVSLGATNVLKANPLAATENLSLLSHDLPGAAFKSIEQELAFPGALKLGSSGAGVKRLQEWLHLNGCYTSVDGDFGASTETMLDRFAKAQGRSGATMLDEELWAVLTAPLRRAVAKVVPGASFEETVLKVARQHIAERPKEAGGNNCGPWVRAYMRGADGADQLWCAGFVSLIFEQAARDMGIKVPLKRQAGVDALVADAKTSGRFIAESEVNTALLRASRLRPGYLFVIRKDAKDWTHVGFVLSIGPTSFDTIEGNTGGEGGVDGDEARQNNRSYPSRDFIRLI				NA	NA	NA	NA	NA
BMS010_07006	249			hypothetical protein	ATGTGCATATCGCTAAACGGCGGGCTTTTGCCCGCCGTTTTTTCGGTGTTTCAGGGCGGTAAAACTGAAAAAAAAGCTGTCCGCTGTACAAAAATGAAAACCGATAAAATTGTAGCAATCGGCTTAAAGCGGCTGAAAACAGTGCTGTGCCATTGTGGGATCACAGACGGGGAGCGGCCTTTTAAAGAGACGCTCCACACAACAGAAATCGAGACCGGCACAAGCCGGCGGATCGCAAACGGGGTATGA	MCISLNGGLLPAVFSVFQGGKTEKKAVRCTKMKTDKIVAIGLKRLKTVLCHCGITDGERPFKETLHTTEIETGTSRRIANGV				NA	NA	NA	NA	NA
BMS010_07007	534			hypothetical protein	ATGCTGAAGAAGATTATTGCTGCCGCCATCTGCGGAATTGCCGTTGCTTCCATGTCTAATCATGCCGACGCGGCTGGCGCTGCCGGTTTTGCCCGCGGTTTTGCCGCCGTCGAGAAATCCGCGGCGACGCAGATCGGTGTTTCCGCGCGGGGCGGTTTCGATGGCTGCGTTCTTTCCGCCGGTCAATGCGTTTCCACCATCGCCGCGCCGCTGACGGTCGAGCGCCGTGAGGAACTGCTGCGCGTCAACCGCGATGTAAACGCCACCATGGGCGCGCTCGACGATTATTTTTCTGGTTTTGCAACCGATGTTCCGGCAACGCCGTCGTTGAGCCTTGGCGATTGCGGTGACTGCGCCGCCATCAAGCGCACGGCCCTTGCCGGCGCCGGCTGGTCTTCCAGCGCGCTGCGCCTTGCCTTTTCGCTGAACAATGACGGGTCGCTCGAAAAAGTGCTGATCGTCACCACCGACAAGGGCGATATCGTCCTTGGCAACGCCGTCCTTTCTCCGGCTGATCGCGAAACCGCGCTCTGA	MLKKIIAAAICGIAVASMSNHADAAGAAGFARGFAAVEKSAATQIGVSARGGFDGCVLSAGQCVSTIAAPLTVERREELLRVNRDVNATMGALDDYFSGFATDVPATPSLSLGDCGDCAAIKRTALAGAGWSSSALRLAFSLNNDGSLEKVLIVTTDKGDIVLGNAVLSPADRETAL				NA	NA	NA	NA	NA
BMS010_07008	888			hypothetical protein	GTGCCCTCCAAAGCCTATATCGCCCTCATCATCGCCACGCTCTGCTGGGGCGGCAACACCGTTGCCGGCAAGCTGGCGGTCGGCCACATCAGCCCCATGGCCTTCACCTTCCTGCGCTGGGTCTTCGCCGTCGCCATCATCGTCGCCATTTCCGTGCCGCAGCTCATCAAGGACTGGCCGGTGGTGAAAAAACGCCTGCCCTATTTCCTCGTGCTCGGCAGCGTCGGTTATACCGCCTTCAACGTGTTTCTCTACACGGCCCTGCAACACACCTCGGCCATCAATGCTGCCGTCATCCAGGCCGGCATTCCCATGGTCATCTTCGTCTTGAACTTCATCCTGTTCCGCACCCGTGTCCTGTTCGGCCAGATCGCCGGCTTCTGCCTCACCATCGCCGGCGTCGCGCTTCTCGCCTCGCACGGCGATCCGGTCTCGCTGCTGCAACTGGAAATGAATGTCGGGGACGCGATCATGCTGCTGGCCGTGCTGGTCTATGCCATCTACACCGTCATCCTGCGCTGGAAACCGGCGGTCGACTGGCGCACGCTGATGGCCATTCCCGCCTTCTTTGCCCTCCTCACCTCGGTGCCGCTGATCTTCTGGGAAATCTCACGCGAGAGCGTCGTCTGGCCGGATCAGAAGGGCTGGGTGCTGGTGGTCTATGCCGCCATTTTTGCGTCGCTGATCGCGCAGATCCTCTATATCAAAGGCGTTGAACAGATCGGCGCCAACCGCGCCGGCCTCTTTATCAACCTCGTGCCGGTCTTCGGCACCCTGCTGTCGGTTATCGTGCTCAGCGAGACGCTGCACACCTATCAGATCGTCGCTCTCATCATGGCGCTGGCGGGCATTGCCGTCGCGGAACGAAAAAAATCGCCGGCTTCCTGA	MPSKAYIALIIATLCWGGNTVAGKLAVGHISPMAFTFLRWVFAVAIIVAISVPQLIKDWPVVKKRLPYFLVLGSVGYTAFNVFLYTALQHTSAINAAVIQAGIPMVIFVLNFILFRTRVLFGQIAGFCLTIAGVALLASHGDPVSLLQLEMNVGDAIMLLAVLVYAIYTVILRWKPAVDWRTLMAIPAFFALLTSVPLIFWEISRESVVWPDQKGWVLVVYAAIFASLIAQILYIKGVEQIGANRAGLFINLVPVFGTLLSVIVLSETLHTYQIVALIMALAGIAVAERKKSPAS				NA	NA	NA	NA	NA
BMS010_07009	1299	purA_2	COG0104	Adenylosuccinate synthetase	ATGACGAATGTTGTGGTGGTCGGCTCGCAGTGGGGCGACGAAGGCAAAGGCAAGATTGTCGACTGGCTGTCCGAGCGGGCAGATGTCGTCGTGCGGTATCAGGGCGGCCATAATGCCGGCCATACGCTTGTCATCGATGGCATCAGCTACAAGCTTTCGCTTCTGCCGTCCGGCGTCGTGCGTCCCGGCAAGCTCGCCGTCATCGGCAATGGCGTCGTGGTCGATCCGCATGCGCTGATCGCCGAAATCGGCCGTCTGGAAGCGCAGGGCGTGAAGGTGACGCCGGAAAACCTGCGTATCGCCGACAATGCCACCCTCATTCTGTCGCTGCACCGCGAGCTGGACGGCATGCGCGAAGACGCGGCCTCCAACAGCGGCACCAAGATCGGCACCACCCGCCGCGGTATCGGCCCGGCCTATGAAGACAAGGTTGGCCGCCGCGCCATCCGCGTCATGGATCTCGCCGACATGGAGGCGCTTTCCGCCAAGGTTGATCGCATCCTCACGCATCACAATGCGCTTCGTCGCGGTTTCGGTGCAACCGAAGTCTCGCATGAGACGATCATGGAAGAGCTGGGCTCGATTGCCGAGCGCATCCTGCCGTTCAGCGAAACCGTCTGGCTGCTGCTCGACAAGAAGCGCCGCGCCGGTGCGCGCATCCTGTTCGAAGGCGCTCAGGGCTCGCTGCTCGATATCGACCATGGCACATACCCCTATGTGACATCTTCCAACACGGTTGCCGGCCAGGCCGCCGCTGGTTCGGGCATGGGTCCGGGTTCGCTGGGTTATATCCTCGGCATCACCAAGGCTTACACCACCCGTGTCGGCGAAGGTCCGTTCCCGACGGAGCTGAACGACGAGATCGGCCAGTTCCTCGGCGAAAAGGGCCATGAATTTGGCACCGTCACCGGCCGCAAGCGCCGCTGCGGCTGGTTCGACGCGGCACTGGTGCGCCAGTCGGTCGCCACCAATGGTATTACCGGCATCGCGCTTACCAAGCTTGATGTGCTTGATGGTCTCGACGAGCTGAAAATCTGCGTCGGTTACAAGCTTGACGGGCAGGAAATCGATCATCTTCCGGCGAGCCAAGGCGCGCAGGCGCGTGTCGAGCCGATCTACATCACGCTGGAAGGCTGGAAGGAATCTACCGTCGGTGCCCGAAAATGGGCGGATTTGCCTGCTCAGGCAATCAAATATGTCCGTCAGGTCGAGGAATTGATCGGGGCGCCTGTCGCACTTCTGTCGACAAGTCCGGAGCGTGACGACACCATACTTGTGACTGATCCGTTTGAGGATTAA	MTNVVVVGSQWGDEGKGKIVDWLSERADVVVRYQGGHNAGHTLVIDGISYKLSLLPSGVVRPGKLAVIGNGVVVDPHALIAEIGRLEAQGVKVTPENLRIADNATLILSLHRELDGMREDAASNSGTKIGTTRRGIGPAYEDKVGRRAIRVMDLADMEALSAKVDRILTHHNALRRGFGATEVSHETIMEELGSIAERILPFSETVWLLLDKKRRAGARILFEGAQGSLLDIDHGTYPYVTSSNTVAGQAAAGSGMGPGSLGYILGITKAYTTRVGEGPFPTELNDEIGQFLGEKGHEFGTVTGRKRRCGWFDAALVRQSVATNGITGIALTKLDVLDGLDELKICVGYKLDGQEIDHLPASQGAQARVEPIYITLEGWKESTVGARKWADLPAQAIKYVRQVEELIGAPVALLSTSPERDDTILVTDPFED	PGPT0020140_2110	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020140-purA-K01939	NA	NA
BMS010_07010	2295			hypothetical protein	ATGGCGGATTTTGTAGCAGTCATTCGCAAGGCCGTGGATGGCTTGGCGAACAATACTCCCGAAAACCGGGCGAAGGTTTACGACAAGGCGCGCAGTGCGGTTGTGCGCCAACTCGAGAATATGAAGCCACGTCCGCCGGAAGAATTGTTGCGCCGGCAGATCGCCAAGCTGGACGCCGCCATAGCCGAGGTGGACAGCGAATATGCCGAGGCGCTTCCGGCGCTGGAGGATGATGACGCCGTCTCTCCCGCCGCGGAAGAGACGGCGGCATCCTATTACCAGCAGGATGCTGCCGACGAAGACGAGGCCCGCGCCGCCGAGCCGGCAGAGGATGCCGACCGGGAAGAGGCGCGGCACGAGCCGGCCTACGAAGAGCCGGCATCCGCTGAGCCCGCGCAATCGGAGCCGGCTTACGAAGAAGCGGCCGAAGAGGAAGAACCCCGGTACGCTGACACCGCTGCCGATGAGGAGCAGAATCACGGCGACCGCGCGCCGGAAGAGCTTTATGATGCGCCGGAAACGGTTCATGCCGCTCCCGCCCCGGCACACGGTTCCGACGAAGTCGTCGGCACCTATTTCACACGGGCGGATGAAGAGCCGGCTCACCAGCCGGAGCCTGAAACGGCGCTCGGCGCTGCCGATGATTCCGTTCCTTCCCATTGGGCGCAGCCGGTGGATGAGGATGACTGGCGCAAGCTCGATGAAGGGCAGGACGACGATGTGCGTCCGGTCGCCGAGGAATATGAAGAGGTTCGCAACGAGACCGACGAACGTCCGCTCGTTGCCGGTTATGCCGCGCAGCATTACCAGGAGCCGGAAGTAAGTTTCGAGCCCGCCCCTTACGAAAAGGATGAGCGGCGCGAGGGGGACGACCATTTCGGCCCCGCCGCCGTGGAGCATGCTCCGGCGTTTGGCGGCCGGCACGATTTTGACGACCATCGCCAGCCGGAAGAGCAGGCTCCGAAAAAGGCGGCCGTGGTCGAGGATTTCTCGTCCTATTTCCAGGATGCGGATATTGCCATTCCCGCCAAGGACGCGCCGGCGCTGCCGCGCGCGGATAACGATCTCTTCGGCGATCAGGCAGCGGCAAAGGACAACAAGGAACGCACGCCCTGGGACGATCTGGACGAGCTGATCGGTTATGACGGCGCGTCGTCCTCCACCCGTCAGGCTTCGGGCGAAACGAATGGCGTGGGCGCTGCCGCCGCAACGCCCGCCTATATGGTCAAGAAGAAGCCGCGCCGCAATTATGCGTCGCTGGTTCTGGCCGTTGTGGGCGTGGCGCTGCTTGCCGGCGGCGGTTATGCCGTGTGGATGAACCGCGATGCGCTGAACGATATGGTCGGCGGGCTGGTCAGTTCCGCACAGAACGGCGGCACCAGCCAGACGGCTTCGAACGGCACGGGTGAGGCGCAGACTTCGACACCGCCGGCGACCCAGCAGCCGCCCGCCACGGGGCAGCAGCCGACAACCCCGACCAACCATCAGGCCCCGACCCATGGCGATGACGGCTCCGTCACCGGCACCAAGTTCACCCAGCGGCTTCTGGCCGACGGCACCGAGCGTGACGAGGGACCTGCCGCCGGTGCGAACGGCCAGCCGGTCACTGCCGAAGGCCAGTCGGTCTATGAGCAGAATGTCGCGCCGCCGCCTGCGGGCGAGGCTCCGGCCAATAATGCCGGTGCGCCCGCCGGAACCCCGGCTGGCACGCCGCCGGCGCAGCAGCCTGCCGCCGCTGCCGGCGACCGCATGTTCCTTTATGAGGAAGTGCTGGGCCAGACGGTGCCGACCGCCATTCAGGGCAGTGTTTCCTGGTCGCTGCAGCAGGAAAATGACGGTGAGGGCAAACCTTCTCCGACCGTGCAGGGCCAGATCACCGTTCCCGGCCGTGGCCTCAGCGCGCTGATCACCTTCAAGCGCAATACCGACCCGTCGCTGCCGGCCAGCCATCTGATCGAGATCGTCTTCTCGGTTTCGCCCGGCTTCGAAGGCGGCGCTATCGACAGCGTCCAGCGCATCGCGATGAAGAGCACCGAGCAGGATCGCGGCAACGCGCTGATCGCGGTTCCGGCCAAGATCACCGACGATTTCCACATGATCGCGCTCAACGACTTCCCGGATGCGATGAAGACCAATCTGGAGCTTCTGAAGAGCCGCAACTGGATCGACATTCCGGTGTCCTACCGCAACGGCCGCCGTGCGCTGCTGACCCTGCAAAAGGGCAATGACGGCATCGCCGCCTTCGACAAGGCGCTCAGCGAATGGGCGGCGGCAACGCCAGCGACCGGTCAATGA	MADFVAVIRKAVDGLANNTPENRAKVYDKARSAVVRQLENMKPRPPEELLRRQIAKLDAAIAEVDSEYAEALPALEDDDAVSPAAEETAASYYQQDAADEDEARAAEPAEDADREEARHEPAYEEPASAEPAQSEPAYEEAAEEEEPRYADTAADEEQNHGDRAPEELYDAPETVHAAPAPAHGSDEVVGTYFTRADEEPAHQPEPETALGAADDSVPSHWAQPVDEDDWRKLDEGQDDDVRPVAEEYEEVRNETDERPLVAGYAAQHYQEPEVSFEPAPYEKDERREGDDHFGPAAVEHAPAFGGRHDFDDHRQPEEQAPKKAAVVEDFSSYFQDADIAIPAKDAPALPRADNDLFGDQAAAKDNKERTPWDDLDELIGYDGASSSTRQASGETNGVGAAAATPAYMVKKKPRRNYASLVLAVVGVALLAGGGYAVWMNRDALNDMVGGLVSSAQNGGTSQTASNGTGEAQTSTPPATQQPPATGQQPTTPTNHQAPTHGDDGSVTGTKFTQRLLADGTERDEGPAAGANGQPVTAEGQSVYEQNVAPPPAGEAPANNAGAPAGTPAGTPPAQQPAAAAGDRMFLYEEVLGQTVPTAIQGSVSWSLQQENDGEGKPSPTVQGQITVPGRGLSALITFKRNTDPSLPASHLIEIVFSVSPGFEGGAIDSVQRIAMKSTEQDRGNALIAVPAKITDDFHMIALNDFPDAMKTNLELLKSRNWIDIPVSYRNGRRALLTLQKGNDGIAAFDKALSEWAAATPATGQ				NA	NA	NA	NA	NA
BMS010_07011	903	rpoH_1	COG0568	RNA polymerase sigma factor RpoH	ATGGCCCGCAATAGTTTGCCTACGATTACAGCCGGCGAAGCCGGTCTCAATAGATATCTCGACGAAATCCGTAAATTTCCGATGCTGGAGCCGCAGGAAGAATACATGCTTGGCAAACGTTATGCCGAGCATGGCGACCGCGACGCCGCGCATAAACTCGTCACCAGCCACCTGCGTCTCGTCGCCAAGATCGCCATGGGTTACCGCGGTTACGGCCTGCCGATCGGCGAAGTCGTCTCCGAAGGCAATGTCGGCCTGATGCAGGCGGTGAAGAAGTTCGATCCGGAGCGCGGTTTCCGCCTGGCCACCTATGCCATGTGGTGGATCAAGGCCTCGATCCAGGAATATATCCTGCGCTCGTGGTCGCTGGTGAAGATGGGCACGACCGCCAACCAGAAGCGTCTGTTCTTCAACCTGCGCCGGCTGAAAGGCCGCATCCAGGCAATCGACGATGGCGATCTGAAGCCGGAACACGTCAAGGAAATCGCGACGAAGCTTCAGGTGTCGGAAGAAGAAGTCATCTCGATGAACCGCCGCCTGCATGGCGACGCGTCGCTCAATGCGCCGATCAAGGCGTCGGAAGGCGAGTCCGGCCAATGGCAGGACTGGCTGGTGGACGACCATGACAGCCAGGAAGACGTGCTGATCGAGCAGGACGAACTGGAAACCCGCCGCCGCATGCTGGCGAAAGCCATGGGCGTGCTGAACGACCGCGAACGCCGCATCTTCGAAGCCCGCCGGCTTGCCGAAGACCCGGTGACGCTGGAGGAACTTTCCTCCGAGTTCGACATCAGCCGCGAACGCGTGCGCCAGATCGAGGTTCGCGCCTTCGAGAAGGTGCAGGAAGCGGTGCAGAAGGACGCGCTGGAAGCTGCGCGCGCCTTGCGCGTGGTGGATGCGTAA	MARNSLPTITAGEAGLNRYLDEIRKFPMLEPQEEYMLGKRYAEHGDRDAAHKLVTSHLRLVAKIAMGYRGYGLPIGEVVSEGNVGLMQAVKKFDPERGFRLATYAMWWIKASIQEYILRSWSLVKMGTTANQKRLFFNLRRLKGRIQAIDDGDLKPEHVKEIATKLQVSEEEVISMNRRLHGDASLNAPIKASEGESGQWQDWLVDDHDSQEDVLIEQDELETRRRMLAKAMGVLNDRERRIFEARRLAEDPVTLEELSSEFDISRERVRQIEVRAFEKVQEAVQKDALEAARALRVVDA				NA	NA	NA	NA	NA
BMS010_07012	825			hypothetical protein	ATGAATATCGAAGACCGCCGGTTTATCTTTCAGGAGTTGCGCAGCGTCGAAGGCTATATCGACCCGCCCGATGCGCTTGTCTTCAAGGCGCTGTTGCAGGCCCAGACGAAAAGCGGCCTCCATGGCGGCATGGCGGAAATCGGCGTTTATTACGGCCGCTCCTATTTCCTGCTGCGTAAATTCGCCGGGAAGCAGGAAAAGGTGCTGGGCGTCGATCTCTTCGATCTCGATCCGCCCGAAGATGGCAGCCTCGACCAATATGAACGGCTGATGGAAAACGGCCGCCGGCTGGGTTTCGCCATGGATGAAGACCTGATCATCAGGGGCGACAGCACGCGGCTGGCGCCCGCCGACATCACCTCCCGCATCGGCCCCGCCCGCTTCTTCAGCATCGATGGCGGCCACAACCTGCACCACGTTCTGGCCGATGCGAAACTGGCGATGGAAGTGATCGCGCCGCATGGCGTCATCGTCTTCGACGACACTTTCAATCCCGCCTGGCCGGAAGTGACGGTGGGCGTCGCCGATTTCCTGCGCACCCATGGCCACAGCCTGGTCTGCTTCGGCATGACGAAATACAAAACCTATGTCTGCCGCCGGGAATTTCACGCAACCTACGCGAACGCGATTGCCGCCGATCCCGATCTGCAGGCGCTTGCCCATGTGGAGACGCAGTTCCTTGGCTCCAAGGTCGTGCGTCTGCACAATCCCATGCGCCGGCGGGTAATGTATGAGCTGATGGTGCGCTCCGGCCTTGGCGGTTTTTCGGAACGAATCTACCGTTCGAAAGTTAAACAGGTCAAAGAAGGTGTCACTGGAACATAA	MNIEDRRFIFQELRSVEGYIDPPDALVFKALLQAQTKSGLHGGMAEIGVYYGRSYFLLRKFAGKQEKVLGVDLFDLDPPEDGSLDQYERLMENGRRLGFAMDEDLIIRGDSTRLAPADITSRIGPARFFSIDGGHNLHHVLADAKLAMEVIAPHGVIVFDDTFNPAWPEVTVGVADFLRTHGHSLVCFGMTKYKTYVCRREFHATYANAIAADPDLQALAHVETQFLGSKVVRLHNPMRRRVMYELMVRSGLGGFSERIYRSKVKQVKEGVTGT				NA	NA	NA	NA	NA
BMS010_07013	1023	rluD_2	COG0564	Ribosomal large subunit pseudouridine synthase D	ATGAACGACCCCTTTAAACAAGGCGGAGACGCAAGGAAAGTCCTGATTGCCGGGGAAGACGCCGAAGGCCGCCTCGATTCATGGCTGGCAGGCGAAGTGGGCGGCGACCTCTCCCGCAGCCGCCTGAAGGCGCTGATCGAACAGGGCGCGGTCTCCATCAACGGCCAGCCGGTAACGGAGCCGAAAAAGAAGGTGCATCCCAAGGATCGCATCGAAATCGTCATGCCCGAGCCGGAAGACCCGGAACCCAAGGGCGAGGACATTCCGCTCGACGTGGAATATGAGGATGAAGACCTGATCGTGCTCATCAAGCCCGCCGGTCTCGTCGTGCATCCGGGCGCCGGCAACTGGACCGGCACGCTGGTCAACGCCCTCATCCACCATTGCGGCGACAGCCTCTCCGGCATTGGCGGCGTCAGGCGCCCCGGCATCGTGCACCGGCTGGACAAGGAAACCTCCGGCGTCATGGTCGTTGCAAAGAACGACAATGCCCACCGCCATCTCGCCGCACAATTTGCCGACCATGGCCGCACCGGGCCGCTGGAGCGCGCCTACAAGGCCGTTGTCTGGGGCCGCCCGCGCACCCTGCGCGGCACCATCGACGCAGCACTGGGCCGCAGCGCCGACCGCACCAAACGCGCCGTCAAGCACGAGGATTCGGACGATGCCCGCGAGGCGATCACCCATTACGAGGTGATGGAGCGTTACCATGAGCGGCCGGACGCCACCTGCCTCGCCTCCATGGTGGAATGCCGGCTGGAAACCGGCCGCACCCACCAGATCCGCGTTCACATGGCCCATATCGGCCATCCGCTGATCGGCGATCCCGAATATGGCGCGGCCTTCCGAACCAAGGCAAACCTTCTCGAAGAACCGGCAAAAAGCACCGTCCGCGGCTTTCCGCGCCAGGCCCTGCATGCCTATCTGCTCGCTTTCGAACATCCGCGCACCGGCGAGGTGATGGAATTCGAAACCGACCTGCCGGATGACATGGAAGCGCTGACCGCCGCATTGCGTGGCTGA	MNDPFKQGGDARKVLIAGEDAEGRLDSWLAGEVGGDLSRSRLKALIEQGAVSINGQPVTEPKKKVHPKDRIEIVMPEPEDPEPKGEDIPLDVEYEDEDLIVLIKPAGLVVHPGAGNWTGTLVNALIHHCGDSLSGIGGVRRPGIVHRLDKETSGVMVVAKNDNAHRHLAAQFADHGRTGPLERAYKAVVWGRPRTLRGTIDAALGRSADRTKRAVKHEDSDDAREAITHYEVMERYHERPDATCLASMVECRLETGRTHQIRVHMAHIGHPLIGDPEYGAAFRTKANLLEEPAKSTVRGFPRQALHAYLLAFEHPRTGEVMEFETDLPDDMEALTAALRG				NA	NA	NA	NA	NA
BMS010_07014	393			hypothetical protein	ATGACGCAGATCGAGCAAGACGAACAGGAAGACAAGCCGCTTGATCCGGCCATGGAAAAAGTTCGCCGCAAGATGATCCGTTTGCAGATCGTGTCGGGCTCCGTGATGTTTATCAGCCTTATGGCCGTCTTCGGTGCGGTTGTCTACAAGGCGATGGGGCCGTCGAAGGCGGTTCAGACGCAGACGGAAGCGCCGAACCTCGCCGTTCCCACCGGCAACGGGCCGCTGGCCGTCACCGCCAGCCTGCCGCAGGGCTTCGTGATCGATAATGTCAGCTATTCCGGCGGCGACATGCTGTTTTACGGGCGGCTCGCCAACGGCACCCGCAAGGCGCTGGTCTTCAACGTCGCGGCCGGCCGGTTCCTCGCCGATGTGACGGTCGATGGCCAGTGA	MTQIEQDEQEDKPLDPAMEKVRRKMIRLQIVSGSVMFISLMAVFGAVVYKAMGPSKAVQTQTEAPNLAVPTGNGPLAVTASLPQGFVIDNVSYSGGDMLFYGRLANGTRKALVFNVAAGRFLADVTVDGQ				NA	NA	NA	NA	NA
BMS010_07015	855	rlmB_3		23S rRNA (guanosine-2'-O-)-methyltransferase RlmB	ATGGCCAGTGAGGCCAATAAGCTGCTGGACGGTCGAGCGCTGATCCCGGTCGAAGATCCGGCCGATCCGCGCATCGCCGCCTTTCGCGATATTCGCGAGCGTGACCTGACCGGGCGTCAGGGCCGCTTCATTGCCGAAGGAACGGTGGTGCTGCGCATGCTGGCCGCCGCCCATAAAGCGGGTGGGGCCTTTGCGGCCGAGAGCATCCTCATCCTCAGAAACCGGCTTTCGGGCGTTGCGGATATCCTCGCCGATTTCCCGCCGGATGTGCCGGTTTATGTGGCTGAAGCGCCGGTGCTGGATGGCATCGTCGGGTTCCACCTGCATCGCGGCATTCTGGCGCTCGGGCGGCGGGTTCAGGATCGCGGGCTGGAAGAGATGACGGCGGCACTTCCCGCCTCGTCGCTGGTGCTTGTCGGCTGCGGCATTTCCAATCACGATAATCTGGGGGCGATGTTCCGCAATGCGGCGGCGTTTTATGCCGATGCGATGTTGCTGGACGAGACGTGCTGCGATCCGCTTTATCGCAAGGCACTGCGGGTTTCCGTGGGGTCGGTGCTGTGGGTTCCCTATCATCGCGGCGGCGGGGCGGTGGAGATGCTGGAACGGCTTTCCGAGGCCGGTTTTGCGATCTGGAGCCTGTCTCCGAATGGCGAGACGGAGATACGCGATATTCCCCGGTCCGAACGAATGGCGCTGGTCATCGGTACGGAGGGTGAGGGGTTGCCGCAATCGGTGCTGTCGCGGTTTCATACCGCACGGATTGCGCAATCGCCGCAGCTGGATAGCTTGAACGCGGGGACGGCTTCGGGGCTGGCGCTTTATCAGATGGCAGGGGTTATGGGGCGGGTGTGA	MASEANKLLDGRALIPVEDPADPRIAAFRDIRERDLTGRQGRFIAEGTVVLRMLAAAHKAGGAFAAESILILRNRLSGVADILADFPPDVPVYVAEAPVLDGIVGFHLHRGILALGRRVQDRGLEEMTAALPASSLVLVGCGISNHDNLGAMFRNAAAFYADAMLLDETCCDPLYRKALRVSVGSVLWVPYHRGGGAVEMLERLSEAGFAIWSLSPNGETEIRDIPRSERMALVIGTEGEGLPQSVLSRFHTARIAQSPQLDSLNAGTASGLALYQMAGVMGRV				NA	NA	NA	NA	NA
BMS010_07016	1230			hypothetical protein	GTGATCGAATATGCCATTCTCTTCGGATTGGGTTTTCTCACCGCAACCCTGCTGGCCCTGTTGATCGCACCCGCGATCCACCGCCGCATCGTCGCCTATACGGAAAACCGCATACGCGCGACGATGCCCATCAGCCCGCAGGAAGTGCGCGCCCAGAAGGACATGGCGCGTGCGCTCTACGCCGCCGAAAACGCCAAGGTCCGCCAGGAACTGGATACCGAACGGGAAAAGAACACCTCGCTGCGCCTCGCCAACGAAGCCGCTTCCAGCGATGCCTATCGCCTTGGCGAGCAGAATCGCAGCTTCTCCCTGAAAATCGAAGAGCTGACGCTGGAAATCGGCGAATTGCGCGCAGCGCTTGATGCCGCCGAAGAACACGCCGGCATCATACAGGCGAACCTCGCACAGCAGGAGCAGGCCGCCAACGAGCGCGCCAGCCAGATGTCCGATCTCACCGCCCGCCTCACCAACCTGACGCGCGAGCTGGATGATTCGAAAATCCTCGCCGCCACCCGCGATCTGGAAGCCGAGCAGGCCAAGCAGAGCGCCACGCGTTTCCGCAAGGAAGGCGAGACCGCCACCCGCGAATTGCAGGATGTGGCCGCCCGCAACAAGGAAGCGATGACGGCGGTTGCGCGCGAAAGCCGCAAGGTCACCCGGCTGGAGGAACAGGTCGCTACGCTCATGGCGAAAAATGCCGATCTCGACACGATGCTGACGCTGCGCAACCAGGAAGTCGCCCGCCTCAAGGAACAGCTTGCCGCAACCGGCGGCCGCGCCAACGACATGATCATTCGCCTGCCGAACCCGGCCGTGCCGGTCGAGAAAACGACTAGCCCATCGCAACCGGCGGCCCCTGCCCCCGCCGCCGCGCTTGAAACCGCACCCGCCGCCGAAGACGAGGCGGCACCGGCGATGGCCGCAGCGGAGCCAGCCCCTCCGGTCGTGACGGCGCCAGCGGCGTCGCAAGGTCTGGAGCAGGAAATCGAGGATATCCGCAATCAGGGCACCGCTCTCACTGAACGCCTGCTGAACGTGCGCGGCACCGGCAATGACGAACCCATCCGCCGCGAAATCGCAAGGATCGCCGCCGAGATGATCGCGCTCACCGCCGCGCAGGAGGGCGAGAAATCGCCCATTCCGGGGCTGCTCGCCAAGGCCTCCGGCTCATCGGGGCGGGAGAGCCTTGCGAAGCGGGCGAAGGTGGTGATGGAGAAGCGGGAACATTAG	MIEYAILFGLGFLTATLLALLIAPAIHRRIVAYTENRIRATMPISPQEVRAQKDMARALYAAENAKVRQELDTEREKNTSLRLANEAASSDAYRLGEQNRSFSLKIEELTLEIGELRAALDAAEEHAGIIQANLAQQEQAANERASQMSDLTARLTNLTRELDDSKILAATRDLEAEQAKQSATRFRKEGETATRELQDVAARNKEAMTAVARESRKVTRLEEQVATLMAKNADLDTMLTLRNQEVARLKEQLAATGGRANDMIIRLPNPAVPVEKTTSPSQPAAPAPAAALETAPAAEDEAAPAMAAAEPAPPVVTAPAASQGLEQEIEDIRNQGTALTERLLNVRGTGNDEPIRREIARIAAEMIALTAAQEGEKSPIPGLLAKASGSSGRESLAKRAKVVMEKREH				NA	NA	NA	NA	NA
BMS010_07017	597			hypothetical protein	ATGACGATGCGCCTTACGAAAACCCGCACCATTGCACGCCTCGGACTGGGAAAGATTGTCGCGCTCCTTGCGAGCCTCCTGATATGGGTCGCACCGGCCGCGGCCCAGAACAGCGATCAATATTCTTTCCAGGAAGTCGTGGATGCAGGCCACGGATTCTTCGGTGAAACCACCGGCGGCCTTGCCAAGGTGGTGGAGCGCGCCTTCCAGCAATACGGTCTTCCAAACGGTTACATTCTGGGCCAGGAAGGCTCCGGCGCCTTCGTCGCGGGGCTCACCTATGGCGAAGGTACGCTTTACACCAAGAATGCCGGCCAGCACCCCGTCTTCTGGCAGGGCCCCTCCCTCGGCCTCGATTATGGCGGCCAGGGCACCCGCGCCATGATGCTGGTCTACAACCTGCCCTCCGTCGATGCGCTTTACCGCCGTTACGGTGGTGTGAGCGGCTCCGCCTTCATCGTCGCCGGCGTCGGCATGACCTATCTGAAGAGCAGCGACGTAACGCTTGCCCCCATCCGCACCGGCATCGGCGCGCGCCTCGGCATCAATGTCGGTTACCTGAAGCTCACCCAGCAGCCGACCTGGAACCCCTTCTGA	MTMRLTKTRTIARLGLGKIVALLASLLIWVAPAAAQNSDQYSFQEVVDAGHGFFGETTGGLAKVVERAFQQYGLPNGYILGQEGSGAFVAGLTYGEGTLYTKNAGQHPVFWQGPSLGLDYGGQGTRAMMLVYNLPSVDALYRRYGGVSGSAFIVAGVGMTYLKSSDVTLAPIRTGIGARLGINVGYLKLTQQPTWNPF				NA	NA	NA	NA	NA
BMS010_07018	648	chpT		Protein phosphotransferase ChpT	ATGACCAGCAAACTCAATATCACGCTGTCCGGTCCCGATCTGGCGGCTCTTCTGTGCAGCCGTGTGTGCCATGATGTGATTTCTCCTGTCGGCGCCATCAATAACGGCCTCGAACTCCTGGACGAGGGCGGCACGGATGACGACGCGCTCGATCTCATCCGCACGTCAGCCCTTAACGCATCCGTGCGGCTGAAGTTCGCCCGCCTTGCTTTCGGCGCTTCCGGCTCCGCCGGCGCGTCCATCGACACCGGCGAGGCCGAAAAAGCCGCCCAGGATTTCGCCGCCGCTGAAAAGAAGGCGGAGGTGAGCTGGAACGGCCCGCGCGCCATCGTTGCGAAGAATCGTGTCAAACTTCTGCTCAATCTCTTCCTCGTGGCTTATGGCGCCATTCCGCGCGGCGGCAATGTGGATGTGCTGCTGGAAAGCCCCGACGGCGACGCCAGGTTCGAAATCACCGTCAAGGGCCGGATGATGCGCGTGCCGGCCAAGTTCGTGGAAATTTACGAGGGCAGGCTGGAAGAGGCGGTCGACGCCCATTCCGTTCAGCCCTATTACACGCTGCTTCTGGCCGAGGAGGCCAATATGGCGGTGGAATACAAGGTGCATGACGACCGCATCGTGTTTACCGCCAAGACGGTTGCCGAGTGA	MTSKLNITLSGPDLAALLCSRVCHDVISPVGAINNGLELLDEGGTDDDALDLIRTSALNASVRLKFARLAFGASGSAGASIDTGEAEKAAQDFAAAEKKAEVSWNGPRAIVAKNRVKLLLNLFLVAYGAIPRGGNVDVLLESPDGDARFEITVKGRMMRVPAKFVEIYEGRLEEAVDAHSVQPYYTLLLAEEANMAVEYKVHDDRIVFTAKTVAE				NA	NA	NA	NA	NA
BMS010_07019	528			hypothetical protein	ATGACCCGTCTGACAACCGCTCGCCTTGTCCTGCGGCCGCATGCCATCGCGGATGAAGCGCTCTATCGCGCCTTCTGGGGCGCGGATGTTCCGCAGATCGAAGGGGTCGTATCGATTGCGCCGCTGGACCCGGAACTCACCTTCGCCCGGCTTTTGCGTTTTCTGGGCCATTGGTCCGCGTTCGGCTTCGGCCCTTTCGTGGTGGAAGAGCTTGCCACGGGGCGCATCGTGGGCGAGGTGGGCTTTGCCCATATGCGCCGTGGCAACGGTGAGGATTTCGACGGCGTGCCCGAGGCGATGTGGAAAATCGACGGGGCGCTGGTGGGCAAGGGTGTCGCGACAGAGGCGGTGGAGGCGGCGCTGCGATGGTTCGATGGCCGCGGGATTTCCCAGCGGACCGTCTGCATGATCAATCCGCTCAACAGCCCGTCGCTGGCCATAGCCGCCCGATTCGGTTTCCGGCCATTTCGCGATACGACGTTCCGCGACAGTCCCGTTCGGCTTTTCGAGCGGATCGCGGATATCTAG	MTRLTTARLVLRPHAIADEALYRAFWGADVPQIEGVVSIAPLDPELTFARLLRFLGHWSAFGFGPFVVEELATGRIVGEVGFAHMRRGNGEDFDGVPEAMWKIDGALVGKGVATEAVEAALRWFDGRGISQRTVCMINPLNSPSLAIAARFGFRPFRDTTFRDSPVRLFERIADI				NA	NA	NA	NA	NA
BMS010_07020	1047			hypothetical protein	ATGCGCTATCTTCTTGCGGCGGTCATCGTCATTTTTTCCACTGTCCACTCCGCAACGGCGGAAAGCGGCATCGGTTTTAAACAGATCGAATTGCCGGATGAGGCCGGTTCGAGAACGCTAGCCGTTTCATTGTGGTACCCGGCCGCGCCGTCGGGCAAAAGCGAGATCGTCGGTGAAAATGCCGCCTTTTACGGCCTTGAGGTTCAACCGGGCGCTTCCCTTCTTGACGGTTCACGTCCTCTCATATTGCTGTCGCACGGTTTCGGTGGAAGCTGGCGCAATCTGAACTGGATTGCCGGTGAGCTTGTTCGGGAAGGTTATGTCGTGGCCGCCCCGGATCACGGCGGCGAATCGTTCACCGAAGAAAATGCGACCGAGATCGTTCCACTGTGGGAACGGCCGCGCGACATAAGCAGAACGCTGACCGCATTGCTCGGCAATGACCGATTCGCCGGCAGGATCGACACGACGCGCATCGCCGTAATCGGCCATTCCCTCGGCGGCTGGACCGCAATGGAGCTGGTTGGCGCGCGATACAGCGCCGATCTTGCGCTGAAGGATTGCCGCGGGGAAAAGCGCCCGCCGCAATGCAAGGCTCCGCGGCTGCTCGCCAAAGTCGGGGTAGTCGGTGACGGCAGGGCCGATCCGCGTCTTTCGATGGATTTGAAGGATACCCGCATCCGCGCTGCCATTGTGCTGGATCTCGGGCCGGCCGCCGGTTTCCTGCCGGAGACGCTGCAAGCCGTCGGCGTGCCGGTCCTGGTTCTGGCCGCGGGTGTGGAAACACCGGAGATCGCCGCCATCAAGGCCGATTCCGACTATATCGCTCGGCATCTGCCAAAGGCGATGACCGTTTATCGGGCAATACCGGATGCCAGCCATTTCAGCTTCATGCAGATTTGCAGGCCGAACGGCGAAAAGATCGTGGAGGAGCTTTCACCGGGCGAAGGTTTCGTCTGTTGGGATGGCGGCGGCAGGGACCGCGCGGCCATCCATGCGCAGATTGCGCAGGCAATCCTCGGCTTTCTGAAAGCGGAGATGCGCTAG	MRYLLAAVIVIFSTVHSATAESGIGFKQIELPDEAGSRTLAVSLWYPAAPSGKSEIVGENAAFYGLEVQPGASLLDGSRPLILLSHGFGGSWRNLNWIAGELVREGYVVAAPDHGGESFTEENATEIVPLWERPRDISRTLTALLGNDRFAGRIDTTRIAVIGHSLGGWTAMELVGARYSADLALKDCRGEKRPPQCKAPRLLAKVGVVGDGRADPRLSMDLKDTRIRAAIVLDLGPAAGFLPETLQAVGVPVLVLAAGVETPEIAAIKADSDYIARHLPKAMTVYRAIPDASHFSFMQICRPNGEKIVEELSPGEGFVCWDGGGRDRAAIHAQIAQAILGFLKAEMR				NA	NA	NA	NA	NA
BMS010_07021	531		COG1670	Acetyltransferase	ATGAACCACCCCATCCCCACCCTCAGGACCGAACGCCTGACGCTGCGCCCGCTGATGATCACAGACTTTCCCGCCTATCGGGACTTCATGGCGTCGCCACGCTCCATCGGTGTCGGCGGTCCTTACGACCTGCCCTCGACATGGGGCGTGTTCTGCCACGATCAGGCCAACTGGTACTTTTTCGGCCATGGCGCACTGATGATCGAGCTTGGCGAAACGGGACAATGCGTCGGCCAGGTCGGCATCAATCACGGCCCGCTGTTTCCGGAAAAGGAACTGGGCTGGCTGCTTTACGAAGGCCATGAAGGGCGCGGTTATGCGGCGGAAGCCGCCTCGGCACTGCGCGACTGGGCCTTCAAGACCCTGAACCTGCCCACGCTTGTCAGCTACGTCTCGCCGCAGAACCGCAAATCCGCGGCCGTCGCCGAACGAATCGGCGGCAAGCTCGACCCGGCGGCACCCCGTTCCGATCCCGAAGATCTCGTTTATCGGCACCATCCGGCCACGAGGCTTCCGGAAAACCCGACCTAG	MNHPIPTLRTERLTLRPLMITDFPAYRDFMASPRSIGVGGPYDLPSTWGVFCHDQANWYFFGHGALMIELGETGQCVGQVGINHGPLFPEKELGWLLYEGHEGRGYAAEAASALRDWAFKTLNLPTLVSYVSPQNRKSAAVAERIGGKLDPAAPRSDPEDLVYRHHPATRLPENPT				NA	NA	NA	NA	NA
BMS010_07022	705	ctrA		Cell cycle response regulator CtrA	ATGCGGGTTCTACTTATTGAAGACGACAGCGCGACAGCGCAGAGCATTGAACTGATGCTCAAGTCGGAGAGCTTTAACGTCTACACGACCGACCTCGGTGAGGAAGGTGTGGACCTCGGCAAGCTCTATGATTACGACATTATTCTTCTCGACCTCAACCTGCCCGACATGTCGGGTTACGAGGTTCTGAGAACGCTTCGCCTCTCCAAGGTCAAGACGCCGATCCTCATCCTGTCCGGCATGGCCGGCATCGAGGACAAGGTTCGCGGCCTGGGCTTCGGCGCAGACGATTACATGACGAAGCCGTTCCACAAGGACGAGCTTGTTGCCCGCATTCACGCCATCGTCCGCCGTTCCAAGGGCCATGCACAGTCGGTCATCGCCACCGGCGAGTTGATCGTCAATCTCGATGCCAAGACGGTTGAAGTGGGTGGCCAGCGCGTTCACCTGACTGGCAAGGAATATCAGATGCTCGAGCTGCTTTCGCTGCGCAAGGGCACGACGCTGACCAAGGAAATGTTCCTGAACCACCTCTATGGCGGCATGGACGAGCCGGAACTGAAGATCATCGACGTCTTCATCTGCAAGCTGCGCAAGAAGCTCGCAAACGCCGCCGGCGGCGCAAACTACATCGAAACCGTCTGGGGCCGCGGCTATGTTCTGCGCGAGCCGGATGGCGCGACGGAATTCCTCGAAACCGCCTGA	MRVLLIEDDSATAQSIELMLKSESFNVYTTDLGEEGVDLGKLYDYDIILLDLNLPDMSGYEVLRTLRLSKVKTPILILSGMAGIEDKVRGLGFGADDYMTKPFHKDELVARIHAIVRRSKGHAQSVIATGELIVNLDAKTVEVGGQRVHLTGKEYQMLELLSLRKGTTLTKEMFLNHLYGGMDEPELKIIDVFICKLRKKLANAAGGANYIETVWGRGYVLREPDGATEFLETA	PGPT0015600_304	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-PILUS|FIMBRIAE_SYSTEM	MOTILITY-PILUS_SYSTEM,PGPT0015600-ctrA-K13584	NA	NA
BMS010_07023	351			hypothetical protein	ATGAAGTCGCGTGACAGCCTGGTTCGCCTGAAGGAATTTCAGGTCAATGAAAAACGCCGGCAGCTTAACCAGCTGCAGCAGATGATGTCCGAGTTCGAGCGGATGGCAAAGGAACTGGTGCATCAGATATCTCTGGAAGAAAGCAAGTCGGGCATTACCGATCCGACGCACTTCGCCTATCCGACCTTCGCCAAGGCCGCGCGCCAGCGGGCGGATAATCTTCAGGTCTCGATCCGTGAGCTGAAGGCCCAGCAGGAAGCGGCCGAAGCTTCGCTGGAGGAAGTGCAGGCCGAATATGAAAAGGCCGCCGCACTGGAAAACCGCGACGGAGCCATCCGCGCCCGCGCCTGA	MKSRDSLVRLKEFQVNEKRRQLNQLQQMMSEFERMAKELVHQISLEESKSGITDPTHFAYPTFAKAARQRADNLQVSIRELKAQQEAAEASLEEVQAEYEKAAALENRDGAIRARA	PGPT0015615_1753	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_CHAPERONES,PGPT0015615-fliJ-K02413	NA	NA
BMS010_07024	204			hypothetical protein	ATGGCCCGCCAATATATCGATTGCCGCGAATTCCCCAGTGACAGCAGATGCACCGTCGCCATCTCCGCCGATTCTCCGGAGGAGCTTATGGAAGCGGCCGTGCAACACGCCGTGGCCGTGCACGGCGCAAAGGATACGCTTGAATTCCGTGAAGAAGTCCGCCGGAGCATGCATGCCGGGACGCCGCCGTTGAAGGTGGCGTGA	MARQYIDCREFPSDSRCTVAISADSPEELMEAAVQHAVAVHGAKDTLEFREEVRRSMHAGTPPLKVA				NA	NA	NA	NA	NA
BMS010_07025	282			hypothetical protein	ATGGACATCAAGACAACCGAAACCGGATCGCACGGCGAATATTCGGCGACCATCGACGGCCACAAGGCGGAGATGACCTATTCGCGCACCTCCCCTTCCCTCATCATCATCGACCATACCGGCGTGCCCGATGCGCTACGCGGCAAAGGCGTCGGCCAGGCGCTCGCCGCCCATGCGATCGATGAAGCCCGCAAGGGCGGCTGGAAAATCATTCCGCTCTGCCCGTTCTTCAAGGCCCAGACATTGCGCCATGCCGAATGGGCGGATGTGATTCAGGGGTAA	MDIKTTETGSHGEYSATIDGHKAEMTYSRTSPSLIIIDHTGVPDALRGKGVGQALAAHAIDEARKGGWKIIPLCPFFKAQTLRHAEWADVIQG				NA	NA	NA	NA	NA
BMS010_07026	276			hypothetical protein	ATGACCGAAATGATACGCCCACGAGTTAAATATGTCATCGGCCCCGATGGCAGCCCTCTGACGATCGCGGATCTTCCGCCTGCCAATACCCGTCGCTGGGTCATTCGCAGAAAGGCGGAGGTGGTTGCAGCGGTACGCGGTGGACTGTTGAGCCTCGAGGAAGCCTGCGAGCGTTATACGCTCACCGTTGAAGAATTTCTGTCCTGGCAGTCCTCGATTGCCGATCATGGCCTTGCCGGCCTGCGCACCACGCGCATTCAGCAATATCGCCACTAA	MTEMIRPRVKYVIGPDGSPLTIADLPPANTRRWVIRRKAEVVAAVRGGLLSLEEACERYTLTVEEFLSWQSSIADHGLAGLRTTRIQQYRH				NA	NA	NA	NA	NA
BMS010_07027	1041			hypothetical protein	ATGACGGAACAGACGGCGAGACTTCGGCTTCCCTATATCCTCCCCTCGCAGGCACAGAAACACGTCACCCATAACGAAGCCCTGCAAAGGCTGGACGCAATTGTGCAACTGGTCATCAAGGCCGTCATCACCACACCGCCCGATAATGCAGCGGAAGGGGATTGTTTCCTCCTCTCCGTCGATGCTGCGGGCGACTGGGCCGGCAAGGGCGGCAGGCTCGCCTTCCGGCAGGATGGCGCCTGGCTCTCGATCACGCCGCAGCCGGGCTGGACGGCGTGGTTTGCGGACGAGAGCAGATATCGCATCCTGCGCGACGGCAGCTGGCGCGACATGCCGCTGCCGGCCGCCGGCCGGCTGGAAAGGCTGGGCATCGGCACCGAGGCCGACGCCACCAATCGGCTGGCGCTCACCTCCCCCGCCAGCCTCTTCACCCACACCGAAGAAGGCGGCAGCCACCGCATGACGATCAACAAGTCGGGCAAGGGCGATACCGCCTCGCTGCTGTTCCAGTCCGGCTGGAGCGGCCGGGCGGAAATGGGCCTTGCCGGCACTGACGGGTTTTCGATCAAGACCAGCAAGGACGGCGCCTCATGGCACACCGCACTTCTGTGCAGCGGCGACGGCCGGGTCTCGATGCCGAACCGCCCGCTCGCCGTTGCCGGCCTGCCGGCGGGCACGACGAAACCCGCCAACGGCACGGCGGCGGGTTTTTCCGTGCTCTCCATCGCCGAGGGCGGCTTTGCGCTCGGCGATGCGGTGAGCGGTGGCGGACGTGAACTCGTGGTTCCGGCAAAGGGCCCTTATCTGGCGGCCCTGACGCTCGCCGTGGTCTCCTCTTCCGGCCACCGGGTGACGCTTTTCATCAATGGCGCGGCGGCCAGCTTCGGCATCGCCGGCAATGCATCCACATCAGGCACATCGCAGTCGGCAACCTCCATCCTTTCCCTCGATGCCGGCGACCGCCTGCGGCTGCAGCATGAGGGAACGGCGGAATTTACCCAGGGCAGCGGGAAAACGTGCCTTTCGCTTGCGGCACTCTGA	MTEQTARLRLPYILPSQAQKHVTHNEALQRLDAIVQLVIKAVITTPPDNAAEGDCFLLSVDAAGDWAGKGGRLAFRQDGAWLSITPQPGWTAWFADESRYRILRDGSWRDMPLPAAGRLERLGIGTEADATNRLALTSPASLFTHTEEGGSHRMTINKSGKGDTASLLFQSGWSGRAEMGLAGTDGFSIKTSKDGASWHTALLCSGDGRVSMPNRPLAVAGLPAGTTKPANGTAAGFSVLSIAEGGFALGDAVSGGGRELVVPAKGPYLAALTLAVVSSSGHRVTLFINGAAASFGIAGNASTSGTSQSATSILSLDAGDRLRLQHEGTAEFTQGSGKTCLSLAAL				NA	NA	NA	NA	NA
BMS010_07028	789	cysQ_5	COG1218	3'(2'),5'-bisphosphate nucleotidase CysQ	ATGATCGACATATTGACGAAAGCGGCGCTGGACGCCGGGCAGGCCATCATGGCGGTCCACCGTGCCGGCCCGCATGTGTCGTATAAGGACGACTGTTCGCCGGTGACCGAGGCCGATCAGCGCGCCGAGGCGATCATTCTTGCGGCGCTGGCCGCCCATTTTCCCGACATCCCCGTTGTTGCCGAAGAGGCGGTATCGAGCGGCATCCTGCCGGAAACCGGTGCGGAATTCTTCCTCGTCGACCCGCTGGATGGCACCAAGGAATTCATTTCGGGCAAGGACGATTTCACCGTCAACATCGCGCTCATCCGCAACGGCGTTCCGGTGGCCGGCGTGGTTTACGCCCCCTGCCGCGGACAGGCTTGGACGGGCGAGGACAATGCCGCCGAAAAGCTCGCCATATCAGGCGAAGGCGCCATCCTGTCGCGCCACCCCATCCGCGCGCGCCAGCGCGGCGCCTCCCCCGTGGCGCTGATCAGCCGCTCGCATTGCACGGCGAAAACGGAAGCCTTTGTGGCCGAACACGGGCTGAAGGACTGCATTTCCGTCGGCTCTTCGCTGAAATTCTGCATGCTGGCAGAGGGCGCCGCCGATATCTACCCCCGCTTCAGCCGCACCATGATGTGGGACACGGCCGCCGGCGACGCCGTGCTGCGTGCGGCCGGCGGCAGGACGCTCGATTGCGAGGGCAGGCCGCTTGCATATGCGGTGAGGGGCGATGGCGAGGATGCGCTGGCCAATCCGGATTTCATTGCCGAAGGGGCGATGGCAGTGGAACACGCGGGGTAA	MIDILTKAALDAGQAIMAVHRAGPHVSYKDDCSPVTEADQRAEAIILAALAAHFPDIPVVAEEAVSSGILPETGAEFFLVDPLDGTKEFISGKDDFTVNIALIRNGVPVAGVVYAPCRGQAWTGEDNAAEKLAISGEGAILSRHPIRARQRGASPVALISRSHCTAKTEAFVAEHGLKDCISVGSSLKFCMLAEGAADIYPRFSRTMMWDTAAGDAVLRAAGGRTLDCEGRPLAYAVRGDGEDALANPDFIAEGAMAVEHAG	PGPT0002975_2403	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002975-cysQ-K01082	NA	NA
BMS010_07029	903	livH_7	COG0559	High-affinity branched-chain amino acid transport system permease protein LivH	ATGGAGTATTTTATCCAGCAGCTCATCAACGGGCTGACTCTTGGATCGATCTACGGCCTCATCGCTATCGGCTATACGATGGTTTACGGCATCATCGGCATGATCAACTTCGCCCACGGCGATATTTTCATGCTCGGCGGCTTTGCCGCGCTGATCGTTTTCCTGATCGTGACATCCTTTGTCGCCGGCATTCCGGTGGCGCTTCTTCTGCTTCTGATGATGGTCGTCGCCATGCTGATGACCGGCCTGTGGAACTGGGTGATCGAACGCGTCGCCTATCGCCCGCTCAGAGGCTCCTTCCGTCTTGCACCGCTGATCACGGCCATCGGCATGTCGATCGCGCTGTCCAACTTCATCCAGGTGACGCAGGGTCCGCGCAACAAGCCGATCCCGTCGATGGTGACGGAAAGCTATCATTTCGGCGCCATTACCGTGTCGCTGAAGCAGCTCATCATCATGGTCGTTACCTCGGTGCTGCTCTTCGCCTTTTGGTATATCGTCAACAAGACCCCGCTCGGTCGGGCGCAGCGCGCCACCGAACAGGATCGCAAGATGGCGGCACTGCTTGGCGTCGATGTCGACAAGACGATCTCCATCACCTTCATCATGGGTGCGGCGCTCGCCGCTGTCGCGGGCACCATGTATCTCATGTATTACGGCGTTGCCTCTTTCAGCGATGGCTTCATTCCCGGCGTCAAGGCGTTTACGGCGGCCGTTCTCGGCGGCATCGGCTCACTTCCGGGCGCTGTTCTCGGCGGTCTGCTGATCGGCCTCATCGAATCGCTGTGGTCGGCCTATTTCTCCATCGCCTACAAGGATGTCGCGGCATTCGGCATCCTGGCTTTCGTGCTGATCTTCAAGCCGACCGGCATTCTCGGTCGTCCGGAAGTCGAGAAGGTGTGA	MEYFIQQLINGLTLGSIYGLIAIGYTMVYGIIGMINFAHGDIFMLGGFAALIVFLIVTSFVAGIPVALLLLLMMVVAMLMTGLWNWVIERVAYRPLRGSFRLAPLITAIGMSIALSNFIQVTQGPRNKPIPSMVTESYHFGAITVSLKQLIIMVVTSVLLFAFWYIVNKTPLGRAQRATEQDRKMAALLGVDVDKTISITFIMGAALAAVAGTMYLMYYGVASFSDGFIPGVKAFTAAVLGGIGSLPGAVLGGLLIGLIESLWSAYFSIAYKDVAAFGILAFVLIFKPTGILGRPEVEKV	PGPT0020770_4499	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020770-livH-K01997	NA	NA
BMS010_07030	1398			hypothetical protein	ATGACCAATATCGCTTCCGACAACGCTGCTTCCAGCCCGAGCCTGATGGCGGCGGCTGTGAAGGAGGGCCTGATTGCGGGCCTCATCTCGTTCGGCATGTTCATTCTTTATGTCGGCATCGTCACCTATCAGGATATCAACAACCAGCTGATCTGGGGCACCCGCTGGGGGCTTCTGGCGGTCTTCGTCGGCATTGCCGCTGTCGGCCGTTTCCTCGTCGTCGGCTTCATCAAGCCGTCGCTCGATCGTCGCAAGCTGGCCAAGGCCAAGAGCGGCGTGCTGGAGATTTCCGAAGAGAAGGGCTTTTTTCACAAGCACTTCCTGAAGCTGGCGCTGGTCCTGCTGCTGCTTTATCCCGTTATCGCCGTGCAATTGTTCGGCTTTCAGGGTTCGCTGAAATTCGTCGACAATTTCGGCATCCAGATCCTGATCTATGTGATGCTGGCCTGGGGCCTCAACATCGTCGTCGGCCTCGCTGGCCTGCTCGATCTCGGTTACGTGGCCTTTTATGCGGTCGGCGCCTATTCCTATGCGCTGCTCTCCAGCCATTTCGGCCTGTCCTTCTGGGTGCTCCTGCCGGTCGCCGGCATTCTCGCGGGCTTCTGGGGCATCATCCTCGGTTTTCCGGTTCTTCGTCTTCGCGGCGACTATCTGGCAATCGTGACGCTCGCCTTCGGTGAAATCATCCGCCTCGTGCTTTTGAACTGGACGGATGTGACCAAGGGTACCTTCGGTATTTCGGGCATCGCCAAGGCGTCCGTCTTCGGCATCTGGTCCTTCGATGTGGGCGCGTCGAACAATTTCGCCAAGGCCTTCGGCCTGTCGATGTCGTCGGCCTATTACAAGATCTTCCTGTTCTACGTGATCCTGCTGCTTTGCATGCTGACGGCCTATGTGACCATCCGCCTGCGCCGCATGCCAATCGGCCGTGCCTGGGAAGCGCTGCGCGAGGACGAGATCGCCTGCCGTTCGCTCGGTATCGATACCGTCATCACCAAGCTCACCGCCTTTGCGACGGGCGCGATGTTTGGCGGTTTTGCCGGTTCCTTCTTCGCCGCGCGTCAGGGTTTCGTGTCGCCGGAAAGCTTCGTGTTCCTCGAATCCGCCGTTATCCTCGCCATCGTCGTTCTTGGCGGCATGGGCTCGCTGACGGGTATCGCCATTGCGGCGCTGGTCATGGTCGGCGGCACCGAGCTTCTGCGTGAAATGGAGTTCCTGAAGCATGTCTTCGGGCCCGACTTCACGCCTGAACTTTACCGTATGCTGCTCTTCGGCCTTGCCATGGTCATCGTCATGCTGTTCAAGCCGCGCGGCTTCGTCGGCTCGCGTGAACCCACGGCCTTCCTCAAGGAACGCAAGGCCGTCTCCGGCAGCTTTACCAAGGAAGGTCACGGTTGA	MTNIASDNAASSPSLMAAAVKEGLIAGLISFGMFILYVGIVTYQDINNQLIWGTRWGLLAVFVGIAAVGRFLVVGFIKPSLDRRKLAKAKSGVLEISEEKGFFHKHFLKLALVLLLLYPVIAVQLFGFQGSLKFVDNFGIQILIYVMLAWGLNIVVGLAGLLDLGYVAFYAVGAYSYALLSSHFGLSFWVLLPVAGILAGFWGIILGFPVLRLRGDYLAIVTLAFGEIIRLVLLNWTDVTKGTFGISGIAKASVFGIWSFDVGASNNFAKAFGLSMSSAYYKIFLFYVILLLCMLTAYVTIRLRRMPIGRAWEALREDEIACRSLGIDTVITKLTAFATGAMFGGFAGSFFAARQGFVSPESFVFLESAVILAIVVLGGMGSLTGIAIAALVMVGGTELLREMEFLKHVFGPDFTPELYRMLLFGLAMVIVMLFKPRGFVGSREPTAFLKERKAVSGSFTKEGHG	PGPT0020775_1560	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020775-livM-K01998	NA	NA
BMS010_07031	858	artM_1	COG1126	Arginine transport ATP-binding protein ArtM	ATGACACCCAATACGATTGGCGACACGATCCTCAAGGTCGAACATCTCTCGATGCGCTTTGGCGGCCTGATGGCCATCAACGACTTCTCCTTCGAGGCGAAGCGCGGCGAGATCACCGCGTTGATCGGCCCGAACGGTGCGGGCAAGACCACGGTCTTCAACTGCATTACGGGCTTCTACAAGCCGACCATGGGCATGATCACCATGCGCCAGCAAAGCGGCGAGGCGCATCTTCTCGAGCGCCTGCCGGATTTCGAAATCACCAAGAAGGCCAAGGTGGCGCGCACCTTCCAGAACATCCGCCTGTTTTCGGGGCTGACGGTTCTGGAAAACCTGCTGGTGGCGCAGCACAATGCGCTGATGAAGGCCTCGGGTTACACGATCCTCGGACTTCTCGGCCTGCCCGCTTACCGGCGGGCGGTGGATGCCTCTATCGAAAAGGCCAAATACTGGCTTGAAAAGGCCGATCTGATCGACCGCGCCGACGATCCGGCCGGCGATTTGCCCTATGGTGCGCAGCGCCGTCTGGAAATCGCCCGCGCCATGTGCACGGGGCCGGAGCTTCTGTGCCTCGACGAGCCGGCCGCCGGCCTTAACCCGAAGGAATCGCTGGCGCTCAACGCGCTCCTGCGCGGCATTCGCGACGAGGGCACGTCGCTGCTCCTCATCGAGCACGACATGTCCGTGGTGATGCAGATTTCCGACCATGTGGTGGTTCTGGAATATGGCCAGAAGATTTCCGACGGCACGCCGGACCATGTGAAGAACGACCCGAAGGTCATCGCCGCCTATCTGGGTGTCGAGGATGATGAAGTGGAAGACGTGATTGCGGAAGAACTCGACGGAGGAGCGGCCTGA	MTPNTIGDTILKVEHLSMRFGGLMAINDFSFEAKRGEITALIGPNGAGKTTVFNCITGFYKPTMGMITMRQQSGEAHLLERLPDFEITKKAKVARTFQNIRLFSGLTVLENLLVAQHNALMKASGYTILGLLGLPAYRRAVDASIEKAKYWLEKADLIDRADDPAGDLPYGAQRRLEIARAMCTGPELLCLDEPAAGLNPKESLALNALLRGIRDEGTSLLLIEHDMSVVMQISDHVVVLEYGQKISDGTPDHVKNDPKVIAAYLGVEDDEVEDVIAEELDGGAA	PGPT0020780_1626	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020780-livG-K01995	NA	NA
BMS010_07032	729	livF_6	COG0410	High-affinity branched-chain amino acid transport ATP-binding protein LivF	ATGTCCGGTGAACCGCTTCTGAAAGTCCAGGGTGTCGAAACCTATTATGGCAATATCCGTGCTCTGGCCGGTGTCGATGTCGAGGTCAAAAAGGGTGAGATCGTCAGCCTGATCGGCGCCAACGGCGCCGGCAAGTCAACGCTGATGATGACCATCTGCGGCAGCCCGCAGGCGCGCGCCGGTCAGGTAATCTTCGACGGCGAGGATATTACCCAGCTGCCGACCCATCTGATCGCCCGCAAACGCATTGCCCAGTCGCCCGAAGGCCGCCGGATTTTCCCGCGCATGACGGTGCTGGAAAACCTGCAGATGGGCGCCAATCTCGATAACCTGAAATATTTCAAGGAAGACGTCGAGAAGATCTTCGTGATGTTCCCGCGCCTGAAGGAGCGCCAGAGCCAGCGGGGCGGCACGCTTTCCGGCGGTGAGCAGCAGATGCTCTCCATCGGCCGCGCGCTGATGGCACGGCCGAAGCTCCTGCTGCTGGATGAGCCGTCGCTCGGTCTCGCACCCTTGATCGTCAAGGGCATTTTCGAGGCGATCAAGAAACTCAACCAGGAAGAGGGGCTGACCGTCTTCCTCGTGGAGCAGAACGCCTTTGCCGCGCTCAAGCTTTCCGACCGCGCTTATGTGATGGTCAACGGCAAGGTGACGATGAGCGGTTCGGGCAGGGAACTGCTCGCCGATCCGCAGGTGCGCGCCGCCTATCTCGAAGGCGGACGGCACTGA	MSGEPLLKVQGVETYYGNIRALAGVDVEVKKGEIVSLIGANGAGKSTLMMTICGSPQARAGQVIFDGEDITQLPTHLIARKRIAQSPEGRRIFPRMTVLENLQMGANLDNLKYFKEDVEKIFVMFPRLKERQSQRGGTLSGGEQQMLSIGRALMARPKLLLLDEPSLGLAPLIVKGIFEAIKKLNQEEGLTVFLVEQNAFAALKLSDRAYVMVNGKVTMSGSGRELLADPQVRAAYLEGGRH	PGPT0020785_3309	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020785-livF-K01996	NA	NA
BMS010_07033	354			hypothetical protein	ATGCAGGGCCTTTTTTTCGAAACGGATAACGGCGTGCGGTATGTTCTGCGCGCGCTGGTTGTTCTTCTGGGTTTCTGGACGGCATGGCGCACGGGCAAGTCCGTGGCCGATGGCTGGGGCGGTTATACGCGGGTGGTTATCTATACGCTCGCTCTGGGTGTGGTGATGCGGTTTCTGCATCACGCGCTGTTCAATGGGCCGTTCATCAACGGCTTCTATTACGTGTTTGACGTCGTTCTTCTTCTGGTTTTTTCCAGCGTCGGTTTCCGCACGCGCCGGACAAGCCAGATGGTCAATAACTACTATTGGCTTTACGACCGGACATCGGCATTTTCCTACAAGAAGAAAGATTGA	MQGLFFETDNGVRYVLRALVVLLGFWTAWRTGKSVADGWGGYTRVVIYTLALGVVMRFLHHALFNGPFINGFYYVFDVVLLLVFSSVGFRTRRTSQMVNNYYWLYDRTSAFSYKKKD				NA	NA	NA	NA	NA
BMS010_07034	1119		COG0683	Leu/Ile/Val-binding protein	ATGAAGAAGTCTCTTCTTTCCGCTGTTGCGCTGACCGCCATGGTCGCGTTTGGCGGTTCGGCCTGGGCCGATGTCGTGATCGCTGTCGGCGCACCGCTGACCGGCCCGAACGCTGCTTTCGGCGCTCAGATCCAGAAGGGTGCCGAACAGGCCGCGAAAGACATCAATGCCGCCGGCGGTATCAATGGCGAGCAGATCAAGATCGTGCTGGGCGACGACGTATCCGACCCCAAGCAGGGTATTTCGGTTGCCAACAAGTTCGTCGCTGACGGCGTGAAATTCGTTGTCGGTCACTTCAACTCCGGCGTTTCCATTCCGGCTTCTGAAGTCTACGCCGAAAACGGCATTCTCGAAATCACACCCGCCGCAACCAACCCGGTCTTCACCGAGCGTGGCCTTTGGAACACGTTCCGTACCTGCGGCCGTGACGACCAGCAGGGCGGCATTGCCGGCAAGTACCTTGCCGATCATTTCAAGGACGCCAAGGTCGCCATCATTCACGACAAGACGCCTTACGGTCAGGGCCTTGCCGATGAAACCAAGAAGGCTGCCAATGCGGCCGGCGTGACGGAAGTCATGTATGAAGGCGTCAACGTCGGCGACAAGGACTTCTCCGCGCTGATCTCCAAGATGAAGGAAGCCGGCGTTTCCATCATCTACTGGGGCGGCCTGCACACCGAAGCCGGCCTCATCATCCGTCAGGCGGCTGACCAGGGCCTCAAGGCCAAGCTCGTTTCGGGCGACGGTATCGTCTCGAACGAACTTGCTTCCATCGCCGGCGACGCCGTCGAAGGCACGCTCAACACCTTCGGCCCCGATCCGACGCTGCGCCCGGAAAACAAGGAACTGGTAGAGAAGTTCAAGGCCGCCGGTTTCAACCCGGAAGCCTACACGCTCTACTCCTATGCCGCGATGCAGGCGATTGCCGGTGCGGCGAAGGCCGCCGGTTCCGTGGAGCCGGAAAAGGTTGCCGAGGCCCTGAAGTCCGGCACCTTCCCGACCGCGCTCGGCGACATCTCCTTCGACGAGAAGGGCGACCCGAAGCTTCCCGGCTACGTCATGTACGAATGGAAGAAGGGTCCGGACGGCAAGTTCACCTACATCCAGCAGGGCAGCTAA	MKKSLLSAVALTAMVAFGGSAWADVVIAVGAPLTGPNAAFGAQIQKGAEQAAKDINAAGGINGEQIKIVLGDDVSDPKQGISVANKFVADGVKFVVGHFNSGVSIPASEVYAENGILEITPAATNPVFTERGLWNTFRTCGRDDQQGGIAGKYLADHFKDAKVAIIHDKTPYGQGLADETKKAANAAGVTEVMYEGVNVGDKDFSALISKMKEAGVSIIYWGGLHTEAGLIIRQAADQGLKAKLVSGDGIVSNELASIAGDAVEGTLNTFGPDPTLRPENKELVEKFKAAGFNPEAYTLYSYAAMQAIAGAAKAAGSVEPEKVAEALKSGTFPTALGDISFDEKGDPKLPGYVMYEWKKGPDGKFTYIQQGS	PGPT0020765_13550	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020765-livK-K01999	NA	NA
BMS010_07035	525			hypothetical protein	ATGGACCGTTTCATCATCCTTTCCGGCTGCTCCGGCGGCGGAAAATCGACGCTTCTTGCCGAGCTTGCCCGGCGCGGTTTCGCCACCGTGGAAGAGCCAGGCCGCCGCATCGTCATCGAAGAAACCCGCAATGGCGGCGCGGCCCTGCCGTGGATCGACATCGAAGCCTTTGCCCGCCGCGCCATCGCCATGGCGCTCGAAGACCGGCAAAAGGCCCCGCCCGAAGGCCCGGTCTTCTTCGATCGCGGCCTGATCGACGCCGCCTCGGCGCTTCGTCATATCAATGGCGATGCCTTCATCGAGACGCTGCGGGTTGCACACCGCTATAATCGTCTGGTCTTCCTCACCCCGCCATGGCCGGAAATCTACAGGGGCGACAGCGAGCGCAAGCACGGCTTCGATGCGGCGGTCGAGGAATATGAGCGTTTGCTCCGCGACTATGACGAGCTTGGTTACGATATTTCCGTGCTTCCGAAATCCGGCATAGGGGAACGTGCGGACTTTATTCTGACGCGGATCGACTGA	MDRFIILSGCSGGGKSTLLAELARRGFATVEEPGRRIVIEETRNGGAALPWIDIEAFARRAIAMALEDRQKAPPEGPVFFDRGLIDAASALRHINGDAFIETLRVAHRYNRLVFLTPPWPEIYRGDSERKHGFDAAVEEYERLLRDYDELGYDISVLPKSGIGERADFILTRID				NA	NA	NA	NA	NA
BMS010_07036	930	rcsC_23		Sensor histidine kinase RcsC	ATGAGCGGTCAGGCGGCGGCAGCCCCGAGAGACATCGTATTGCTGGTGGATGACAGCCCGGAAGCACTGGGGTTCCTCACCGATGCACTGGAACAGTCAGGCTTTTCCGCCCTCATCGCCACCTCCGGCCAGGCCGCGCTCAACATCGCCGAACGCATCACGCCCGATATCATCCTGCTCGACGCCGTCATGCCGGCCATGGACGGTTTCGAGACCTGCCGCCGCCTGAAGGCCAATGCGGCGGTGGCGCAGGTGCCCGTCATCTTCATGACCGGGCTGACGGAGACCGAACATGTGGTGCGGGCGCTCGAATCCGGCGGCGTCGATTATCTGACCAAGCCGATCAACATCGACGAGCTGCGCGCCCGCATCCGCGTCCATCTCTCCAATGCCCGCTCGGCACAGAGCGCCCGCGTCGCGCTCGATGCCGCCGGCCGCCACCTGCTTGCCGTGCGCGCCAATGGCGCCATCCACTGGTCGACACCGCAGGCGACGCGCCTCGTCAACGCCGCCACCGGCCGCGACGACGGCATGGAGATCGTCACCAGCCATATTGGCCGCTGGCTCGCAGAACGGGCGGCGGCGGAAACCGGCCGCGACGTGCCGCTGACGATCACCGAGGCCGGGCGGCCCGCCCTGCAGCTGTCCTTCCTCGGCGCCATGGGGCAGGATGAATTCCTCTTCCGCCTCACCGCCGCCAATGAGAAATCCGGCGACCACCTGCTGCGCGAGCATTTTTCCCTCACTGCCCGGGAATCGGAAGTGCTGCTGTGGATCGCGAAGGGCAAATCCAATCGCGATATCGGCGATATCCTTGGCCTTTCCGCGAGAACCGTGAACAAGCATCTGGAGCAGATCTATGTGAAGCTCGGGGTGGAAAACCGGGCATCGGCTGCCGTGAAGGCGGCGCATATTCTGCATCAGGGGTGA	MSGQAAAAPRDIVLLVDDSPEALGFLTDALEQSGFSALIATSGQAALNIAERITPDIILLDAVMPAMDGFETCRRLKANAAVAQVPVIFMTGLTETEHVVRALESGGVDYLTKPINIDELRARIRVHLSNARSAQSARVALDAAGRHLLAVRANGAIHWSTPQATRLVNAATGRDDGMEIVTSHIGRWLAERAAAETGRDVPLTITEAGRPALQLSFLGAMGQDEFLFRLTAANEKSGDHLLREHFSLTARESEVLLWIAKGKSNRDIGDILGLSARTVNKHLEQIYVKLGVENRASAAVKAAHILHQG				NA	NA	NA	NA	NA
BMS010_07037	3396	rcsC_24		Sensor histidine kinase RcsC	ATGGCCGCACGGCAACGCATCATCCCCGTCAGGCGCGAATATAACCGCTGGGTCGCCAACCAGACGCTGGAAGATTATGCGCTGCGCTTCACTGCCAAAAGTGCCCGGCAATTTTCCTCCAATCGCATTTCCCACACCGCCATCGGCGCGATTTCCTTTCTGGCGCTGGAAGCCATCGGCGGCGCCATCACGCTCTCCTACGGCACCACCAACGCCTTTTACGCCATCCTCGTCGCCGCCATCGCCATGCTGGCCGTCGGCCTGCCGATCAGCCGTTATGCCATCCGTCACGGGGTCGATATCGATCTTCTGACGCGCGGCGCAAGCTTCGGTTACATCGGCTCCACCATAACCTCGCTCATCTATGCCGCCTTCACCTTCATGCTCTTCGCCATCGAGGCGTCAATCATGTCCGGCGCGCTGGAACTGGCGCTCGGCATCCCCCTGTGGATCGGCTACATCATCTCGGCCGTCATGGTCATTCCGCTCGTCACCCATGGCGTGCGCCTCATCAGCCGTTTCCAGATCGTCACCCAACCCTTCTGGATCGTGCTGAATATTCTGCCCTTCGTGTTCATCGCTTTGATGGACTGGGAAAAATACGATCTTTGGCGCGCCTTTGCCGGCATCCACCACGCCTCCGGCCCGCCGGGAACGGTCGCGGATTTCAACCTCGTGGAATTCGGCGCGGCCTCCGCCGTCATCCTGGCGCTGATGTCGCAGATCGGCGAACAGGTGGACTTCCTGCGCTTCCTGCCGGCCGAAGGCCAGAGCCGCCTGCGCCACCGCATCGCGGTGTTCCTGGCGGGCTCCGGCTGGGTCGTCGTCGGCGTGCCGAAGCTGCTCGCCGGCTCCTTCCTCGTGGTGCTCACCTTCAGCTCCGGCGTCTCGGTGGATCGCGCCGCCGATCCGGCGCAGATGTATCTCACTGCCTTCGGTTACATGATCCCCAACGAAACCGCCGCCATGCTGCTGATGGTCGCCTTCGTGGTCGTCTCGCAGCTGAAGATCAACGTCATGAACGCCTATGCGGGTTCGCTCGCCTGGTCGAACTTCTTCTCGCGCCTCACCCACAGCCACCCCGGCCGCGTCGTCTGGCTGGTCTTCAACGTGGCGATCGCACTGCTTCTGATGGAACTCGGCATTTACCGGCTGCTGGAAGAAACGCTCGGCATCTTTTCGATCATCGCCATGGCGTGGCTCTGCACCATCTCGGCCGATCTTTTCATCAACAAGCCGCTTGGCCTTGCCCCGCCCGGCATCGAATTCAAGCGTGCCCATCTTTACGATATCAACCCCGTCGGCGTCGGCTCCATGGCGCTTTCGGCGACCATCGCGCTGATGGCGCATTTCGGCGCCTTCGGGCCGCTCGCCGCATCGCTCGCGCCCTATCTCACACTGATCGTCGCTTTCATCGCCTCGCCGCTGATTGCCTGGGGCACGAAGGGCAAATTTTATCTCGCCCGCAAGCCGCGCCAGAAATGGCGTGAGGAAAGCAGCATCACCTGCTCGATCTGCGAACACCCTTTCGAGCCGGAAGACATGGCCTGGTGTCCCGCCTATGCCGCGCCGATCTGTTCGCTCTGCTGCTCGCTTGACAGCCGCTGCCATGACATGTGCAAGCCGAAGGCGAAGCTGAACTATCAGGTCGCGACCGTCGCGAAATCTTTCCTGCCGGATCAACTGGTCGCCAAACTCGCCACCCGGCTCGGACGTTACGGCATGGCCGCGGCGATTGCCGTCACCGCCATCGGCGGCATATTGGCAATGATCGCCCATCAGGTCGGCACCGCCTCGCCGGAAACGGCCGATGTGGTGAACCGCACCATCCTCATCGTGTTTTTCGTCTTCGCCGTCATTGCCGGCATCGTCTGCTGGTTCCTCGTGCTTGCCCATGACAGCCGTGTGGTGGCGGAAGAGGAATCTTCCCGCCAGAACACGCTGCTGCTCAAGGAAATCGCCGCCCACAAGAAGACCGATGCCGCCCTTCAGGACGCCAAGGAAACGGCTGAGGCCGCCAACCGCGCCAAGAGCCGTTATGTGGTGGGCCTCAGCCATGAATTGCGCACCCCGCTCAACGCCGTCCTGGGTTATGCCCAGATTCTCGAGCGCGACGACACCATCCCCCCGCCCCGGCAATCGGCGATCAAGGTCATCCGCCGCTCGGCCGATCACCTGTCCGGCCTGATCGACGGGCTTCTCGATATTTCAAAGATCGAGGCCGGCCGTCTGCAGGTCTATTCCAACGAGATCAATATTCAGGATTTCCTCGACCAGATCGTCGACATGTTCCGCCCGCAGGCGCAGGCCAAGGGGCTGGAATTTCGCCATGACCGCTCCCGCGCCCTGCCGCAATATGTCCGCACCGATGAAAAGCGGCTGCGGCAGATCCTCGTCAACCTCATCTCCAACGCCATCAAGTTCACCGATGAGGGCGCCGTCACCTTCGATGTCGGTTACCGCAGCCAGGTGGCCAGCTTCACCGTTTCCGATACCGGCCGCGGCATTGCCGAAAAAGACCTCGCCCGCATCTACGAACCCTTCCAGCGCGGCGAGGCAGACAGCGTGCGCCCCATGCCGGGCCTCGGCCTCGGCCTGACCATCACAAGGCTCCTCACCAACACGCTCGGCGGCGAGATTTCCGTCTCCAGTGCAAAGGATGAAGGCTCCACTTTCCGCGTGCGCCTCATGCTCTCTGCCGTGCACCGGCCAAGCACGGCGCCGGCGGCGGAAAAGACCATCCGCTCCTATTCCGGGCCGCGTCGCACCATCGTCGTGGTCGATGACAATGAGGATCATCGCGAGCTGATGCGGCAGGTGCTGGTGCCGCTCGATTTCGTGGTGCTGACCGCCCAGAGCGGGCCGGAATGCCTGACGCTGATCGAAGGCGTGAAGCCCGATCTCTTCCTCATCGATATTTCCATGCCCGGCATGACCGGCTGGCAGCTTGTGACGAAACTGCGTGAAGCCGGCCAGACCGCCCCGCTCATCATGCTCTCGGCCAATATCGGCGACGGAACCGTGGCGGGCGCGGGCGAGGACAACCACAATGACGCCATCGCCAAGCCCGTCGATATCCGTCATCTCTGCGACAGGCTTGCCGTGCATCTCGGCCTGAAATGGATCTACGAGGCGGATATGCCGCCCCCGCCATCGCCGCCGCCGGTGGCGCAGATCGTCCATCCCGGCGCAATTCACATTCAGGATTTGCAGCGGCTCGGCGAAATAGGCTACATACGCGGCATCGAAGCGAAACTCGCCGATCTTGCCCGCAACACGGAAAACCTGCCCTTCACGCAGGAGCTCGGCACCTATGTGCAGGCCTTCGATCTGGCCGGTTACGCGCATTTTCTCAAACGGTTTGCGGATAGTGACACGGGAGACGGCAAGGCATGA	MAARQRIIPVRREYNRWVANQTLEDYALRFTAKSARQFSSNRISHTAIGAISFLALEAIGGAITLSYGTTNAFYAILVAAIAMLAVGLPISRYAIRHGVDIDLLTRGASFGYIGSTITSLIYAAFTFMLFAIEASIMSGALELALGIPLWIGYIISAVMVIPLVTHGVRLISRFQIVTQPFWIVLNILPFVFIALMDWEKYDLWRAFAGIHHASGPPGTVADFNLVEFGAASAVILALMSQIGEQVDFLRFLPAEGQSRLRHRIAVFLAGSGWVVVGVPKLLAGSFLVVLTFSSGVSVDRAADPAQMYLTAFGYMIPNETAAMLLMVAFVVVSQLKINVMNAYAGSLAWSNFFSRLTHSHPGRVVWLVFNVAIALLLMELGIYRLLEETLGIFSIIAMAWLCTISADLFINKPLGLAPPGIEFKRAHLYDINPVGVGSMALSATIALMAHFGAFGPLAASLAPYLTLIVAFIASPLIAWGTKGKFYLARKPRQKWREESSITCSICEHPFEPEDMAWCPAYAAPICSLCCSLDSRCHDMCKPKAKLNYQVATVAKSFLPDQLVAKLATRLGRYGMAAAIAVTAIGGILAMIAHQVGTASPETADVVNRTILIVFFVFAVIAGIVCWFLVLAHDSRVVAEEESSRQNTLLLKEIAAHKKTDAALQDAKETAEAANRAKSRYVVGLSHELRTPLNAVLGYAQILERDDTIPPPRQSAIKVIRRSADHLSGLIDGLLDISKIEAGRLQVYSNEINIQDFLDQIVDMFRPQAQAKGLEFRHDRSRALPQYVRTDEKRLRQILVNLISNAIKFTDEGAVTFDVGYRSQVASFTVSDTGRGIAEKDLARIYEPFQRGEADSVRPMPGLGLGLTITRLLTNTLGGEISVSSAKDEGSTFRVRLMLSAVHRPSTAPAAEKTIRSYSGPRRTIVVVDDNEDHRELMRQVLVPLDFVVLTAQSGPECLTLIEGVKPDLFLIDISMPGMTGWQLVTKLREAGQTAPLIMLSANIGDGTVAGAGEDNHNDAIAKPVDIRHLCDRLAVHLGLKWIYEADMPPPPSPPPVAQIVHPGAIHIQDLQRLGEIGYIRGIEAKLADLARNTENLPFTQELGTYVQAFDLAGYAHFLKRFADSDTGDGKA				NA	NA	NA	NA	NA
BMS010_07038	771	gno_2		Gluconate 5-dehydrogenase	ATGGGCATTCTCCAGAAATTCTCTCTCGAAAACCGCACCGCCGTCATCACCGGCAGCGGCCGCGGCCTTGGCTTCGAAATCGCCAGCGCCTTCGCCGAAGCGGGCGCCCATGTGTGGCTGACCGGCCGCAATACCGAAACGCTGGAACAGGCGGTCGAAACGCTGCGCAAGGCCGGCGGCAAGGCCGATTACGCTGCCTTCGATATTGCCGATACGGCAGCCGGCAGCGCCCTTGTCCGCCGCATCATGGACGAGTTCGGCCACCTCGATATCCTCGTCAACAATGTCGGCGCGCGCGACCGCCGCCCGCTTGCCGAATTCAGCGACGAGGACGTGCTGGAACTGATCCGCACCGATCTCACCTCCTCCATCTCGCTGTCGCGGGATGCCGCGGAGGCCATGAACGCCAATGGTTACGGCCGCATCATCACCATCACCTCCATTCTCGGCCATATCGTCCGGCCGGGGGATGCCATCTATCCCGTCGCCAAACAGGGTCTGACCGGCCTGATGCGGGCGATTGCCGTGGAATATGGCGCACGCGGCATTACCAGCAACGCCATCGCACCCGGCATGTTCGCCACCGAAACCAATGCCGCTCTTGCCGAAAATCCTGAGATGGTGGCCTTCGCCAAACTGCGGGTGCCGCTGGAGCGCTGGGGCCGGCCGGATGAGATTGCCGGTGCTGCCCTGTTTCTGGCCAGCGACGCGGCCTCCTTCGTCAACGGCCATGTGCTGACGGTGGATGGCGGCATGTCGGTGCGGCTGTGA	MGILQKFSLENRTAVITGSGRGLGFEIASAFAEAGAHVWLTGRNTETLEQAVETLRKAGGKADYAAFDIADTAAGSALVRRIMDEFGHLDILVNNVGARDRRPLAEFSDEDVLELIRTDLTSSISLSRDAAEAMNANGYGRIITITSILGHIVRPGDAIYPVAKQGLTGLMRAIAVEYGARGITSNAIAPGMFATETNAALAENPEMVAFAKLRVPLERWGRPDEIAGAALFLASDAASFVNGHVLTVDGGMSVRL	PGPT0018070_641	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_IDONATE_DEGRADATION,PGPT0018070-idnO-K00046	NA	NA
BMS010_07039	1035	glnII	COG0174	Glutamine synthetase	ATGACTAAGTTCAAACTCGAGTACATCTGGCTGGACGGATACAAGCCGGTCCCCAACCTGCGCGGCAAGACCCAGATCAAGGAATTCGACGAATTCCCCACACTCGAGCAGCTGCCGCTTTGGGGCTTTGATGGCTCGTCCACGCAGCAGGCCGAAGGCCACTCGTCGGATTGCGTGCTGAAGCCCGTCGCGATCTATCCCGACCCGGCCCGCTCCAATGGTGCACTCGTCATGTGCGAAGTCATGATGCCCGATGGCGTCACCCCGCATCCGTCGAACAGCCGCGCAACCATCCTCGACGACGAAGATGCATGGTTCGGCTTCGAGCAGGAATACTTCTTCTACCAGGACGGCCGCCCGCTCGGCTTCCCGGAGCAGGGTTACCCGGCTCCGCAGGGTCCTTATTACACCGGCGTCGGCTTCAAGAATGTCGGTTCGGTTGCCCGCGAAATCGTTGAAGAGCACCTCGATCTCTGCCTCGAAGCCGGCATCAACCACGAAGGCATCAATGCCGAAGTGGCCAAGGGCCAGTGGGAATTCCAGGTATTCGGCAAGGGCTCCAAGCGCGCCGCCGACCAGATCTGGATCGCCCGTTACCTGCTGCTGCGTCTTTGCGAACAGTACGGCATCGACGTCGAATTCCATTGCAAGCCGCTCGGCGACACCGACTGGAACGGTTCGGGCATGCATTGCAACTTCTCCACCAAGTTCATGCGCGAAGTTGGCGGCAAGGAATATTTCGAAGCCCTCATGGCCGCTTTCGCCAAGAACTGGAAAGAGCACATCGACGTTTACGGCCCGGACAACCACCTGCGCCTGACCGGCAAGCACGAAACCGCTCCGTGGAACAAGTTCTCCTACGGCGTTGCCGACCGTGGCGCTTCGATCCGCGTTCCGCATTCCTTCGTCAACAACGGTTACAAGGGTTACCTCGAAGACCGTCGTCCGAACTCTCAAGGCTGCCCTTACCAGATCGCTTCCGTCGTTCTGAAGACGATCGCAGAAGTGCCGCTCGCAAAGTCGGCTGCTGCCTGA	MTKFKLEYIWLDGYKPVPNLRGKTQIKEFDEFPTLEQLPLWGFDGSSTQQAEGHSSDCVLKPVAIYPDPARSNGALVMCEVMMPDGVTPHPSNSRATILDDEDAWFGFEQEYFFYQDGRPLGFPEQGYPAPQGPYYTGVGFKNVGSVAREIVEEHLDLCLEAGINHEGINAEVAKGQWEFQVFGKGSKRAADQIWIARYLLLRLCEQYGIDVEFHCKPLGDTDWNGSGMHCNFSTKFMREVGGKEYFEALMAAFAKNWKEHIDVYGPDNHLRLTGKHETAPWNKFSYGVADRGASIRVPHSFVNNGYKGYLEDRRPNSQGCPYQIASVVLKTIAEVPLAKSAAA	PGPT0000645_10771	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMATE_DEGRADATION|CONVERSION,PGPT0000645-glnA-K01915	NA	NA
BMS010_07040	198			hypothetical protein	ATGGCGACTGGCTTTCATCGTGAGACGGCAACGATCTATCAATTCCCGATTGGCGGGCGCGCGGGCGTGTCCAAATTCCGCAACAGCGGGCTGAGTGACCTCGAGCGCGAGGCGCGCGAGCCGCATGTGGATTTCGGCTCGTGGTACCACGACGAGGCGATCCGCGACGAAGAGCGGAACGACAAGCCGCATTCCTGA	MATGFHRETATIYQFPIGGRAGVSKFRNSGLSDLEREAREPHVDFGSWYHDEAIRDEERNDKPHS				NA	NA	NA	NA	NA
BMS010_07041	1290	amiC_2		Aliphatic amidase expression-regulating protein	ATGATATTCCGCAAGACGCTTAGTGCCGCGCTGCTTGGCGCGATCCTGTCCACCACCGCCTTTCATGGCGCCTTTGCCGCTGACGACACCATCAAGGTCGGCGTGCTGCATTCGCTGTCCGGCACCATGGCCATTTCAGAGACCACGCTGAAGGACGCCATGCTGATGCTCATCGACGAGCAGAACAAGAAGGGCGGCGTGCTCGGCAAGAAACTCGAAGCCGTGGTGGTCGATCCGGCTTCCGACTGGCCGCTTTTCGCTGAAAAGGCCCGCCAGCTGATTTCGCAGGACAAGGTCGCCGCCGTTTTCGGCTGCTGGACGTCTTCCTCGCGCAAATCCGTTCTGCCGGTCTTCGAGGAACTGAACTCGATCCTGTTCTATCCGGTTCAGTACGAGGGTGAAGAATCCTCGCGCAACATCTTCTACACGGGTGCTGCCCCCAACCAGCAGGCCATTCCGGCCGTGGATTACCTTGCCAACACCGAAGGCGTCGAGCGCTGGGTTCTGGCCGGCACGGACTATGTCTATCCGCAGACCACAAACAAGATCCTGAAGGCCTACCTGATGTCGAAGGGCGTCAAGGAAGAGGACATCATGATCAACTACACGCCGTTCGGTCATTCCGACTGGCAGACGATCGTGTCCGACATCAAGAAATTCGGTTCGGCCGGCAAGAAGACCGCCGTTGTCTCCACCATCAATGGTGACGCCAACGTGCCCTTCTACAAGGAACTGGCGAACCAGGGCATCAAGGCCGAGGACATTCCGGTCGTCGCCTTCTCCGTGGGTGAAGAAGAGCTTGCCGGTCTCGATACCGCGCCGCTGGTCGGCCACCTTGCCGCCTGGAACTACTTCCAGTCCGTCGATGCGCCGGTCAATGCCGAATTCATCAAGACCTGGCATGCCTTTACCAAGAACGACAAGCGCGTGACCAACGACCCGATGGAAGCCGCCTATATCGGCTTCAACGCCTGGGTAAAGGCCGTCGAATCCGCCGGCACGACGGATACGGACAAGGTTCTGGACAGCATCATCGGTGTTTCCGTGCCGAACCTTTCGGGCGGCTACTCCACCGTCATGCCGAACCACCACATCACCAAGCCGGTGCTGATCGGTGAAATCCAGGCCGATGGCCAGTTCGAAATCGTGCAGCAGACGCCGCAGGTGGTGGGTGACGAGTGGTCGGATTACCTGCCGGACTCGAAGGATCTGATCTCGGACTGGAGGAAGCCGATGTCCTGCGGCAACTTCAACGTGGCCAGTGGGAAGTGCGGCGGCAAGGGTAGCTGA	MIFRKTLSAALLGAILSTTAFHGAFAADDTIKVGVLHSLSGTMAISETTLKDAMLMLIDEQNKKGGVLGKKLEAVVVDPASDWPLFAEKARQLISQDKVAAVFGCWTSSSRKSVLPVFEELNSILFYPVQYEGEESSRNIFYTGAAPNQQAIPAVDYLANTEGVERWVLAGTDYVYPQTTNKILKAYLMSKGVKEEDIMINYTPFGHSDWQTIVSDIKKFGSAGKKTAVVSTINGDANVPFYKELANQGIKAEDIPVVAFSVGEEELAGLDTAPLVGHLAAWNYFQSVDAPVNAEFIKTWHAFTKNDKRVTNDPMEAAYIGFNAWVKAVESAGTTDTDKVLDSIIGVSVPNLSGGYSTVMPNHHITKPVLIGEIQADGQFEIVQQTPQVVGDEWSDYLPDSKDLISDWRKPMSCGNFNVASGKCGGKGS	PGPT0000925_513	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_TRANSPORT,PGPT0000925-urtA-K11959	NA	NA
BMS010_07042	198			hypothetical protein	ATGCCCGGCAGGGCAGAGGGGGGTAATTCTTGTTCAGTTTCCAATGAGAAAACCGCCCCCAACGAAGAGGGAGCGGCACCATCCCCCGGGGCTAATCAGCTACCCTTGCCGCCGCACTTCCCACTGGCCACGTTGAAGTTGCCGCAGGACATCGGCTTCCTCCAGTCCGAGATCAGATCCTTCGAGTCCGGCAGGTAA	MPGRAEGGNSCSVSNEKTAPNEEGAAPSPGANQLPLPPHFPLATLKLPQDIGFLQSEIRSFESGR				NA	NA	NA	NA	NA
BMS010_07043	1614			hypothetical protein	ATGACGATCCGATCTTTTCTCGGAGCCATCTTCCTCTGGCTCACCCTGGGGATCGCCGCCCAATCCTTCGCGCAAAGCGAACCCAAGGCGCTGATCGACCAGCTCGGCACGGCGGATTTCAAGCAGGCCGAAGTGCTGATCGGGCAGATTGCCGCCACGGGCGATGCGCGTGTCGTGCCGGCGCTCGAGGCTTTTGCGGCGGGCGATCTTTATGTGCGCAAGGCCGACAATCTGGTGTTCATGACGAAACCGGCGGGTTCCAATTTTACGCTGATCGACCCGCTGACGGGCGAAAGTGCGGGTGAAGCGCCGAAGGCGGCCGTCAGCAAGATCAAGGTCAACAATAATCTGCGCCGCGTCATCCGCGCCGCGCTTGGCGGACTGACCCTGCTCAGCCCGGAAAAATCCGTGCGGCTTTCCGCGGCAGACGCGGTTCTGAAAGCGCCGAGCGCGGAAAATCTCGAATTGCTGGAAGCGGCCATCGCCAAGGAGGCCGATACTGAGGTGCGGACCCGGATGGAGGAGGCGCGGGCTGTCTCGCTGCTCTCCTCCGAACGGTCGCTCGAACAGAAGAAAGAGGCAATCGCCACCATCAAGAGCCTTGGCGGGCGCGATGCGATCGGCATTCTGATGGCGGCCTCCTCGTCGGTGGATCAGAGCCTGAAACCGGATATCGACAGCGCCATATCGAGCATCGAAAGCTCCCTTGCCTTCTGGGACTATGCGCAGAATGTCTGGTACGGCCTGTCGCTCGGTTCCGTGCTTTTGCTCGCCGCCATCGGCCTTGCCATCACCTTCGGCGTCATGGGCATCATCAATATGGCGCATGGCGAGATGGTGATGATCGGCGCCTATTCCACCTTCATGGTGCAGGAGGTGATCCGCACGCATTTCCCCGGCCTTTTCGACTGGTCGCTGGCGATTGCTCTGCCCGCCGCCTTTCTGGTGACGGCCTTGGTCGGCCTCGTGATGGAGCGCGGTGTCATCCGCTTTCTTTACGGGCGGCCGCTGGAAACGCTTCTCGCCACCTGGGGCATCTCGCTCATCTTGCAACAGGGCGTGCGCTCCATCTTCGGCCCCACCAACCGGGAAGTCGGCAGCCCCAGCTGGATGTCCGGCTCCTTCAGCGTTGGTTATCTCAATTTCACCTGGAACCGGGTGTGGATCGTCTGCTTCTCGCTTTCGGTATTCTTCGCGCTGCTGGTGCTGCTGAAACGCTCCGCCTTCGGGTTGCAGATGCGCGCCGTGACGCAGAACCGCCGCATGGCCTCTTCCATGGGCATCCGCACCCCCTGGGTGGATGCCTTCACCTTCGCGCTTGGTTCGGGCGTTGCCGGTCTCGCCGGCGTGGCGTTGTCGCAGATCGACAACGTCTCGCCCAATCTCGGCCAGAGCTACATCATCGACAGTTTCATGGTGGTGGTGTTCGGCGGTGTCGGCAATCTCTGGGGAACGTTGGTCGGCGCCCTGTCTCTCGGCGTGCTCAACAAGTTCCTTGAGCCGACGGTGGGCGCCGTGCTCGGCAAGATCCTCGTGCTCGTCCTCATCATCCTGTTCATCCAGAAGCGGCCGCGCGGTCTCTTCGCACTCAAGGGAAGGGCAATCGAAGCATGA	MTIRSFLGAIFLWLTLGIAAQSFAQSEPKALIDQLGTADFKQAEVLIGQIAATGDARVVPALEAFAAGDLYVRKADNLVFMTKPAGSNFTLIDPLTGESAGEAPKAAVSKIKVNNNLRRVIRAALGGLTLLSPEKSVRLSAADAVLKAPSAENLELLEAAIAKEADTEVRTRMEEARAVSLLSSERSLEQKKEAIATIKSLGGRDAIGILMAASSSVDQSLKPDIDSAISSIESSLAFWDYAQNVWYGLSLGSVLLLAAIGLAITFGVMGIINMAHGEMVMIGAYSTFMVQEVIRTHFPGLFDWSLAIALPAAFLVTALVGLVMERGVIRFLYGRPLETLLATWGISLILQQGVRSIFGPTNREVGSPSWMSGSFSVGYLNFTWNRVWIVCFSLSVFFALLVLLKRSAFGLQMRAVTQNRRMASSMGIRTPWVDAFTFALGSGVAGLAGVALSQIDNVSPNLGQSYIIDSFMVVVFGGVGNLWGTLVGALSLGVLNKFLEPTVGAVLGKILVLVLIILFIQKRPRGLFALKGRAIEA	PGPT0000930_464	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000930-urtB-K11960	NA	NA
BMS010_07044	1176			hypothetical protein	ATGATTACCGGCTTCCTCCTGCGCGCGCTCGACCGCCGCATTTCCATCGCCATCGGCATTATTCTCGCCATCGCCGTGCTGGTGCCAGCCTCCAATCTGCTGCTGCCGGCCGACAGCGCGTTCCGCATCCCGACCTATATCATGTCGATGCTCGGCAAATATCTGGCCTATGCGCTGCTGGCGCTCGCGCTCGATCTCGTCTGGGGTTATTGCGGCATTCTCTCACTTGGCCACGCCGCCTTCTTCGCGCTCGGCGGTTATGCCATGGGCATGTATCTGATGCGGCAGATCGGCACGCGCGGGGTTTATGGCCATCCGGTGCTGCCCGATTTCATGGTGTTCCTCAACTGGAAGGAACTGCCGTGGTTCTGGCAGGGCTTCGACATGTTCTGGTTTGCGGCGCTCATGGTGCTTGTCGTGCCGGGGCTGCTCGCCTTCGTGTTCGGCTGGTTCGCCTTCCGCTCGCGCGTCAACGGCGTTTATCTTTCCATCATCACCCAGGCCATGACCTACGCCCTGCTGCTCGCCTTCTTCCGCAACGACATGGGTTTCGGCGGCAATAATGGCCTGACCGATTTCAAGGATATTCTCGGCTTTTCCGTGCAGGCGGATGGCACGCGGGCCGTGCTGTTCGCCATGACGGCGGTAATGCTTGCGATCTCGCTTTTGATCGCGTCCGGCATCGTCAATTCCAAATTCGGCAAGGTGCTGGTGGGCGTGCGGGATGCCGAAAGCCGGGTGCGCTTCCTCGGTTTCCGGGTGGAAAACATCAAGCTCTTCACCTTCGTCGTCTCGGCCATGATGGCGGGCATTGCCGGCGCCTTGTTCGTGCCGCAGGTGGGCATCATCAATCCCGGCGAATTCTCGCCCGCCAACTCCATCGAAGTGGTGGTGTGGACGGCTGTCGGCGGGCGCGGCACGCTGATCGGGCCGATCATCGGGGCGCTGCTGGTCAACGGCGGAAAAAGCTATTTCACCGGCGCTTTCCCCGAATTCTGGCTGTTTGCGCTGGGTGGGCTGTTCATCGCGGTGACGCTGTTCTTCCCCAAGGGCATCGTCGGCACGCTGCAACACTATCTGGCCCGGCGGCGCGAAAAGCGGGTCGCGCTTGCGGCAGCCGACGCCCAGCCGGGCAATGACAGCGGCTCGACAGTGGCGCAACAGGCGGCGGAGTGA	MITGFLLRALDRRISIAIGIILAIAVLVPASNLLLPADSAFRIPTYIMSMLGKYLAYALLALALDLVWGYCGILSLGHAAFFALGGYAMGMYLMRQIGTRGVYGHPVLPDFMVFLNWKELPWFWQGFDMFWFAALMVLVVPGLLAFVFGWFAFRSRVNGVYLSIITQAMTYALLLAFFRNDMGFGGNNGLTDFKDILGFSVQADGTRAVLFAMTAVMLAISLLIASGIVNSKFGKVLVGVRDAESRVRFLGFRVENIKLFTFVVSAMMAGIAGALFVPQVGIINPGEFSPANSIEVVVWTAVGGRGTLIGPIIGALLVNGGKSYFTGAFPEFWLFALGGLFIAVTLFFPKGIVGTLQHYLARRREKRVALAAADAQPGNDSGSTVAQQAAE	PGPT0000935_355	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_TRANSPORT,PGPT0000935-urtC-K11961	NA	NA
BMS010_07045	762	artM_2	COG1126	Arginine transport ATP-binding protein ArtM	ATGAACACAGTTTCCGAAAACAGAACGAAAAGCCTGCTTTATCTCGACGGCGTCTCGGTGTCGTTCGATGGTTTCAGGGCGCTCAATTCCCTCTCCTTCGTGGTGGAACCCGGTGAGCTGCGCGCCATAATCGGCCCGAATGGGGCTGGCAAGACGACGATGATGGACATCATCACCGGCAAGACAAGGCCGGATACGGGCACGGTGCTGTTCGAAGACAGTATCGACCTCACCAAAAAGGACGAGGCGGATATCGCCCAGCTTGGCATCGGGCGGAAGTTCCAGAAGCCGACGGTGTTTGAGAGCCATACCGTCTGGGACAATCTGGAACTGGCGCTCAACCGCAAGCGCGGGGTGTTCGCGACGCTGTTTTACCGGCTGACGGAGGAAGACAAGGCCCGCATCGAGGAAATCCTCGCCACCGTGCGCCTCGGCCACCGCCGCGGCGATCTCGCCGCCAACCTCTCGCACGGCCAGAAACAATGGCTGGAAATCGGCATGCTCCTGGCGCAGGAGCCGAAGCTGCTGCTGGTGGATGAGCCGGTGGCCGGCATGACGGATGCGGAAACGGCCGAAACCGCCGTGCTTTTGAAGGAAATCGCCAAGACCCGTTCGGTTGTGGTGGTGGAGCACGACATGGGTTTCATCCGCGAGCTGGGGGTGAAGGTGACGTGCCTTGCCGAAGGTTCCGTGCTGGCTGAAGGGTCGATTGATTTTGTGTCGAACGATCCCAAGGTGATTGAGAATTATCTGGGGCGGTGA	MNTVSENRTKSLLYLDGVSVSFDGFRALNSLSFVVEPGELRAIIGPNGAGKTTMMDIITGKTRPDTGTVLFEDSIDLTKKDEADIAQLGIGRKFQKPTVFESHTVWDNLELALNRKRGVFATLFYRLTEEDKARIEEILATVRLGHRRGDLAANLSHGQKQWLEIGMLLAQEPKLLLVDEPVAGMTDAETAETAVLLKEIAKTRSVVVVEHDMGFIRELGVKVTCLAEGSVLAEGSIDFVSNDPKVIENYLGR	PGPT0000940_933	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_TRANSPORT,PGPT0000940-urtD-K11962	NA	NA
BMS010_07046	696	livF_7	COG0410	High-affinity branched-chain amino acid transport ATP-binding protein LivF	ATGCTGAACGTCGACAACATCAACCTCCACTACGGCGCGGCCCAAGCGCTCCGCGGCGTTTCGCTGACGGCGGAGATGGGCAAGATCACCTGCGTCCTCGGCCGCAACGGGGTGGGCAAAAGCTCGCTGCTGCGGGCCGTTACCGGCCAGCACGCCATCAGTGCCGGGACGATCAGCTTTGAAGGGGCGGCATTGGATGGGCTGGCGCCTTACCACCGGGCCAAGCGCGGCGTCGGCTACGTGCCGCAGGGGCGCGAGATTTTTCCGCTGCTCAGCGTGCAGGAGAATCTCGAAAGCGGCTATGCGCCGCTGCCGCGTAAGGAACGGTTTATCCCGGATGATATTTTCAGCCTGTTTCCGGTACTGCAATCCATGCTGGGAAGACGCGGCGGCGATCTCTCCGGCGGCCAGCAGCAGCAGCTCGCCATCGGCCGGGCGCTGGTGACGCGGCCGAAAATCCTCGTTCTCGACGAGCCGACCGAGGGCATTCAGCCGTCGATCATCAAGGATATCGGACGGGCGATCAAATATCTGCGCGATTCCACCGGCATGGCGATCCTGCTGGTCGAGCAATATCTGGATTTCTGCCGCGAGCTTGCCGATTACGTCTATATCATGGACCGGGGTGAAATCGTGCATCAGGGGCTGGCCGAAACGCTGGATGCGCCGGAAGCGCGGCGTCACCTGACAGTATAA	MLNVDNINLHYGAAQALRGVSLTAEMGKITCVLGRNGVGKSSLLRAVTGQHAISAGTISFEGAALDGLAPYHRAKRGVGYVPQGREIFPLLSVQENLESGYAPLPRKERFIPDDIFSLFPVLQSMLGRRGGDLSGGQQQQLAIGRALVTRPKILVLDEPTEGIQPSIIKDIGRAIKYLRDSTGMAILLVEQYLDFCRELADYVYIMDRGEIVHQGLAETLDAPEARRHLTV	PGPT0000945_1117	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_TRANSPORT,PGPT0000945-urtE-K11963	NA	NA
BMS010_07047	1254			hypothetical protein	ATGAATCAAGACTTTGCCATTGGCCGGGCCGCCCGGCTGTTCCGCTCCGCCCGCACCCTTTTTCTGGGTCTTGCGATGTGCGCGAGCGCCGGTGTCGCAGCGTCGGCATCGACCTGCGGTCAGTTGCCCGGACCCGGCATGGAGCCGGGCAGGCATGATTTTTCCATTCTTTCCAACGGTGAAAAACGCGACGGAGTCTATTTTGTTCCCTCGGCCTATGACGGAAAAAAGCCGCTGCCCGTGGTGTTCGATTTCCATGGCTCCAACAGCAATCCGCATGGCCAGCTGAACCGCAGCGGCTGGGACAAGCTGGCCGAACGTGACGGTCTGGTGGTGGTGGCGCTGGCCGGCAGCCTGAATGGCGAATTGCCCGGCACCCATGCCTGGAATGTTCCCGGTGTTACCAAGCGTCCGGGCGGGCTGGACGAGGTCGGTTTCATCCGCGATGCCATCACCATGGTGAAGGGCAAGTTCTGCGTGGATGAGGAGCGTTTTTACGGTTCCGGTTATTCCGGCGGCGGGCGCATGCTCTCGCAATTCATCTGCAATGGCAGCGCGGATTTCACCGCTGCCGGTTTCGTCGCCTCGCTGCGCGCGGGTTATCCGCTGGAGACCGACGGCAAATGGGGACCGGATGCGGCAAGCTGCACGCCGGCGCGGCCGATGTCCATCATCGCCTTTGCGGGGCTGAAGGATCCCGCCAACCCCTATCAGGGCGGCGGCAAGTCCTATTGGCAATATGGCGGCGAGACGGCGCTGAAGCGCTGGGCCGAGATGGATGGCTGCAAGGGCGCCGCCAAAAGCAAGGTGGGCGAAAGTTTTACCGTCAATTCCTATGATGTCTGCAAGGCCGGCGCACGTATTCAGTCCTATGTCATCAACGACTGGGACCACGCCTGGCCGCGCGCCACCATGAAGGCGGAAGTGCTGGCCGCAAGCGCCGTCGTTACCCGCAAGCCGGGCGGCGAACAGACGCCGAAGGCGGAACCGGCCGTGGAGCGCAAGATGCCCACAGGCGAAGTGACGCGCACGGTTGATGCGGCGGAAAGAATGTGGGATTTCTTCCGCAATACGGAAGGGCAGCTGGTCGTGGATGCCGTCGTCAAGAAGGATTGCGGCGCAAAGGCCTCGTCCACTTCCGCAACCGCTTCGGAGACCGCGTGCAGCCAGAACAGCAAGCCATCGGCCCTTCCGGTCGCCAAGACGCTCAACCTGTCCGGCAGCAGCGCGCCCGTGGCAGAGGACGCATTGTAA	MNQDFAIGRAARLFRSARTLFLGLAMCASAGVAASASTCGQLPGPGMEPGRHDFSILSNGEKRDGVYFVPSAYDGKKPLPVVFDFHGSNSNPHGQLNRSGWDKLAERDGLVVVALAGSLNGELPGTHAWNVPGVTKRPGGLDEVGFIRDAITMVKGKFCVDEERFYGSGYSGGGRMLSQFICNGSADFTAAGFVASLRAGYPLETDGKWGPDAASCTPARPMSIIAFAGLKDPANPYQGGGKSYWQYGGETALKRWAEMDGCKGAAKSKVGESFTVNSYDVCKAGARIQSYVINDWDHAWPRATMKAEVLAASAVVTRKPGGEQTPKAEPAVERKMPTGEVTRTVDAAERMWDFFRNTEGQLVVDAVVKKDCGAKASSTSATASETACSQNSKPSALPVAKTLNLSGSSAPVAEDAL				NA	NA	NA	NA	NA
BMS010_07048	579	ureD_1		Urease accessory protein UreD	GTGGTAACCACGCAGGCCTGCGAGAAGGTCTATAAGGCATCCTCCGGCACAGCCACCGTTACCGCCCGGGTTTCCGCCGGGCCGGGCGCCAGATTGCACTGGCTGCCGCAGGAAACAATCCTTTTCGACCGGGCGTCGCTGACCCGCCGGCTGGAAGCCGATCTCGACCAAACTTCCGAATTCATCGCTGTCGAAGCCGTGCTGCTCGGCCGCCAGGCCATGGGCGAGGCGATGGCGCATGGTCTTTTCCGCGACCGCTGGCGCATTCGCCACGGCGGCAAGCTGGTGCATGCCGAAGAGCTTCTGCTGCAAGGCGAGGTAGCGGCGCTGACCGCGAAACCGGCGGTTCTGGCCGGTCAGGTCGCCTTTGCGACGCTGCTTTATATCGGGCCTCTCTCCGAGGCGCTTCTGCCTAAAATCCGGGCTATTGCCGGGGAAAGCGGCGGCGCCAGCGAATGGCAGGGCAAGCTTGTCGTTCGCGTCTCTGCCGCCGATGGTTTCTCCTTGAGAAAATTGCTTTTTCCGATCATTTCGCTCTTGCGAAACGGCGCGCCAGTGCCGAAAGTCTGGAATCTGTAA	MVTTQACEKVYKASSGTATVTARVSAGPGARLHWLPQETILFDRASLTRRLEADLDQTSEFIAVEAVLLGRQAMGEAMAHGLFRDRWRIRHGGKLVHAEELLLQGEVAALTAKPAVLAGQVAFATLLYIGPLSEALLPKIRAIAGESGGASEWQGKLVVRVSAADGFSLRKLLFPIISLLRNGAPVPKVWNL	PGPT0000970_2102	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000970-ureD-K03190	NA	NA
BMS010_07049	303	ureA_1	COG0831	Urease subunit gamma	ATGAACCTTAGCCCAAGAGAAAAAGACAAGCTGCTGATTTCCATGGCCGCCATGGTGGCGCGCCGCCGGCTGGAACGCGGCGTGAAGCTGAACTATCCCGAAGCGATTGCGCTGATTACCGATTTCGTGGTCGAGGGCGCCCGCGACGGCCGTGCCGTGGCGGAGCTTATGGAAGCCGGCGCGCATGTCATCTCCCGCGACCAGGTGATGGATGGCATTGCCGAGATGATTCACGATGTGCAGGTGGAAGCGACGTTTCCCGATGGCACCAAGCTGGTGACCGTTCACGAACCGATACGGTAA	MNLSPREKDKLLISMAAMVARRRLERGVKLNYPEAIALITDFVVEGARDGRAVAELMEAGAHVISRDQVMDGIAEMIHDVQVEATFPDGTKLVTVHEPIR	PGPT0000955_732	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000955-ureA-K01430	NA	NA
BMS010_07050	258			hypothetical protein	ATGGCGCTGGAGCTTCGACCCAATTGCGAATGCTGCGACCGCGATCTTGCTCCCGACAGCCGGGATGCGATGATTTGCTCGTTCGAATGCACCTTCTGCGTCGATTGCGTGACGGATGTGCTTCACTGCGCCTGCCCGAATTGCGGCGGTGAGCTGGTTCGCAGGCCCGTTCGCCCGGCGGCGAAACTCGTCAATAATCCCGCGTCGACACGGCGCGTCCTGAAGGCCGAAGGCTGCACGGCGGCCAAAGTTGCTTGA	MALELRPNCECCDRDLAPDSRDAMICSFECTFCVDCVTDVLHCACPNCGGELVRRPVRPAAKLVNNPASTRRVLKAEGCTAAKVA	PGPT0019420_174	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_ALGINATE_DEGRADATION,PGPT0019420-putative_alginate_lyase-K09984	NA	NA
BMS010_07051	306	ureB1		Urease subunit beta 1	ATGAAACCCGGCGAAATCATTGCCGCAGAGGGCAGCATCGAACTCAATGCCGGCCAGCCGACCGTGACCATCGAAGTCGCCAATTCGGGCGACCGGCCGGTGCAGGTGGGCAGCCACTATCATTTCTTCGAGACCAATGCGGGTCTTCTCTTTGACCGCGACAAGGCGCGCGGCATGCGCCTTGATATTCCCGCCGGCACGGCGGTTCGTTTCGAACCCGGCCAGAAGCGGGAAGTGACGCTGGTGCCGCTTTCCGGCAAGCGCGAGGTTTACGGTTTCCGTCAACAGGTCATGGGGAGGTTATGA	MKPGEIIAAEGSIELNAGQPTVTIEVANSGDRPVQVGSHYHFFETNAGLLFDRDKARGMRLDIPAGTAVRFEPGQKREVTLVPLSGKREVYGFRQQVMGRL	PGPT0000960_1266	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000960-ureB-K01429	NA	NA
BMS010_07052	357			hypothetical protein	ATGGCGACGGCGCATTATCATGGAAGCTGCCAGTGCGGCGATGTGAGCTTCGAGGTCGACGCCGATCTCGATCATACCATCATCTGCAATTGTTCGCGCTGCAAGCGCCTGGGTTCCACGCTGGCCTTTGCGCCGCGTGAGAAATTCACGCTGCTTTCCGGCGAGGACAAGCTGGCGGAATATCTCTTCAACAAACACAAGATCCATCATCTTTTCTGCTCCACCTGCGGCATCGAGAGCTTTGCTTATGCCGATGGGCCGGATGGCACGCCGATGGTGGCGGTCAATGCCAATTGTCTCGATGGTGTCGATCCCCGGGCGTTAAAGCCGCAGGCTTTCGATGGCGCGGCGGCCTGA	MATAHYHGSCQCGDVSFEVDADLDHTIICNCSRCKRLGSTLAFAPREKFTLLSGEDKLAEYLFNKHKIHHLFCSTCGIESFAYADGPDGTPMVAVNANCLDGVDPRALKPQAFDGAAA				NA	NA	NA	NA	NA
BMS010_07053	417			hypothetical protein	ATGAGCCGAAAAAACGTCCTTCTGGCGACCGTGCTTCTCTGCGCGACCGCCGGCCTGTCCATGCCGGCCGCCGCGCAGGGCGAGCCGGATTGCAAGGCCCCGCAGACGCAGGCGGACATGACCATCTGCGCCGGCAAGGATTACGAAAAGGCCGACAAGCAGCTCAACGCCGAATATCAGAAGCTGCGCAAGCTGCTCACCGAGCGCGACAAGGCGGCGGATGCAGACGGCAAGGGTGCGACCGACGCGCTGGTGACCGCCCAGCGTGCCTGGGTGGCGTTTCGTGACGCCAATTGCGCGCTTTCAGGCTTTCAGGCCCGCGGCGGCTCGATGGAACCGATGCTGATTTCCTCCTGCCTCGCCGAAATGAGCGGCAAGCGGGCGGAAGAATTGCGTCAGTTGTCGGAAGGTTTCTGA	MSRKNVLLATVLLCATAGLSMPAAAQGEPDCKAPQTQADMTICAGKDYEKADKQLNAEYQKLRKLLTERDKAADADGKGATDALVTAQRAWVAFRDANCALSGFQARGGSMEPMLISSCLAEMSGKRAEELRQLSEGF				NA	NA	NA	NA	NA
BMS010_07054	645			hypothetical protein	ATGGGGCGGCGCATCACGATTGTCGGAAATGGGGAGCTGCCGCCGGGCGCAGCCCGGCTCATCGACCGTTCGGACATCGTCATCCGCTTCAACGATTGCCGGTCGCTGGGGCTGGGCGGCACGCGCACCGATGTTGTGGCTGTGTGTAACACCGGGCGGCCGGGTCTCGAGATGACCGAGAGAACCGAATGGCGCGAGAGTGACGGTGTGCGGCAGGCCGCCGTCATCTGGTCCGTGCGTGATCCCGCGAAATTTTCCGAAATGGAACCGGACATACGCGCATGCTGGCCGGAGCTGACCGATTTCTGCGCCGATTACACCGAAGGCTTTGCCGCCATCGCCCGGGAAACCGGCAAGGGTCATATCGTCATTCCGCGCGGTGTGCATGAAAGGCTCGATGCCGCGCTCGAAGCCTATGCGCCCGGGCCCTATGTCTGCCCCAGCACCGGTCTTTTTGCCATCGCCCATGTTCTTGAGAGCGTGAGCGATGATGGCGACGAGGTGGCGATTGCCGGTTTCGGCCATCAGGGCTGGAGTGGCCATCCCTTTGCTGCCGAACAACAGCTGGTCGAAGCCCTTGCGGGCGAGGGCCGGCTGACACGAATTTCTCCCACATCGATTTTCTCCGCGTCCGAAGGAGCCTGA	MGRRITIVGNGELPPGAARLIDRSDIVIRFNDCRSLGLGGTRTDVVAVCNTGRPGLEMTERTEWRESDGVRQAAVIWSVRDPAKFSEMEPDIRACWPELTDFCADYTEGFAAIARETGKGHIVIPRGVHERLDAALEAYAPGPYVCPSTGLFAIAHVLESVSDDGDEVAIAGFGHQGWSGHPFAAEQQLVEALAGEGRLTRISPTSIFSASEGA				NA	NA	NA	NA	NA
BMS010_07055	1710	ureC1		Urease subunit alpha 1	ATGCCCTACAAGATTTCCCGCGCCGCCTATGCCGGCATGTTCGGCCCGACCGTTGGCGACAAGGTGCGTCTTGCCGATACCGAACTCTTCATCGAGATCGAGAAGGACCACACGATCTATGGCGAGGAAGTGAAATTCGGCGGCGGCAAGGTCATTCGCGACGGCATGGGCCAGAGCCAGGCGACGCGGGCCGAAGGCGCGGTCGATACCGTCATCACCAATGTGGTGATCGTTGACCATAGCGGCATCTACAAGGCGGATGTGGGCCTGAAGAACGGCCGCATCCACGCCATCGGCAAGGCGGGCAACCCGGATACGCAGCCCGGCGTGACGATCATCGTCGGCCCCTCGACCGAGGCGATTGCCGGCGAAGGCAAAATTCTGACGGCTGGCGGCATGGACGCGCATATCCACTACATCTGCCCGCAGCAGATCGAAGAAGCGCTGATGAGCGGTGTGACCTGCATGTTGGGCGGCGGCTCCGGCCCGGCGCATGGCACGCTCGCCACCACCTGCACCGGCGCATGGCACATCGAGCGGATGATCGAAAGCTTCGATGCCTTCCCGATGAATCTGGCGCTGGCCGGCAAGGGCAATGCCTCGCTGCCTGCCCCTCTGGAAGAGATGATCCTTGCCGGCGCGTCGTCGCTGAAGCTGCATGAGGACTGGGGCACGACGCCGGCCGCCATCGACAATTGCCTGACGGTGGCCGATCAATACGATGTGCAGGTGATGATCCACACCGACACGCTGAACGAAAGCGGTTTCGTGGAAGATACGGTCGCCGCCATCCGTGGCCGTACCATCCACGCCTTCCACACCGAAGGGGCGGGCGGCGGGCACGCGCCCGATATCATCAAGGTCTGCGGCAATCCCAACGTCATTCCGTCTTCCACCAACCCGACACGGCCCTATACCGTCAATACGCTCGCCGAACATCTCGACATGCTGATGGTGTGCCACCACCTGTCGCCGTCCATCCCTGAAGATATCGCCTTTGCCGAAAGCCGCATCCGCAAGGAAACCATCGCGGCGGAGGATATTCTCCATGATATCGGCGCGTTTTCGATCATCTCTTCCGACAGCCAGGCCATGGGCCGCGTCGGCGAAGTGGCGATCCGCACCTGGCAGACGGCCGACAAGATGAAGCGCCAGCGCGGCCGCCTGAAGGAAGAGACCGGCGAAAACGACAATTTCCGTGTCCGCCGTTACATCGCCAAATATACCATCAATCCCGCCATCGCCCAGGGTGTCAGCCACGAGATCGGCTCCATCGAAGTCGGCAAGCGCGCCGATCTGGTGTTGTGGAACCCGGCCTTTTTCGGCGTGAAGCCGGAGATGGTGCTGCTCGGCGGCTCGATTGCCGCCGCCCCGATGGGCGATCCGAACGCTTCCATTCCCACACCGCAGCCGATGCATTACCGGCCGATGTTCGCCGCCTATGGCAAGCTGCGCACCAATTCCTCGGTCACTTTCGTGTCGCAGGCGTCGCTGGATGCGGGGCTTGCGGGGCGCCTCGGGGTCGCCAAGAAGCTGTTGCCGGTGAAGAATGTGCGCGGCGGCATCTCCAAGGCGTCGATGATCCACAATTCGCTCACCCCACATATCGAGGTCGATCCGGAAACCTACGAAGTGCGGGCGGATGGCGAGCTTTTGACCTGCGAACCGGCAACCGTGCTGCCGATGGCGCAGCGTTATTTCCTGTTCTGA	MPYKISRAAYAGMFGPTVGDKVRLADTELFIEIEKDHTIYGEEVKFGGGKVIRDGMGQSQATRAEGAVDTVITNVVIVDHSGIYKADVGLKNGRIHAIGKAGNPDTQPGVTIIVGPSTEAIAGEGKILTAGGMDAHIHYICPQQIEEALMSGVTCMLGGGSGPAHGTLATTCTGAWHIERMIESFDAFPMNLALAGKGNASLPAPLEEMILAGASSLKLHEDWGTTPAAIDNCLTVADQYDVQVMIHTDTLNESGFVEDTVAAIRGRTIHAFHTEGAGGGHAPDIIKVCGNPNVIPSSTNPTRPYTVNTLAEHLDMLMVCHHLSPSIPEDIAFAESRIRKETIAAEDILHDIGAFSIISSDSQAMGRVGEVAIRTWQTADKMKRQRGRLKEETGENDNFRVRRYIAKYTINPAIAQGVSHEIGSIEVGKRADLVLWNPAFFGVKPEMVLLGGSIAAAPMGDPNASIPTPQPMHYRPMFAAYGKLRTNSSVTFVSQASLDAGLAGRLGVAKKLLPVKNVRGGISKASMIHNSLTPHIEVDPETYEVRADGELLTCEPATVLPMAQRYFLF	PGPT0000965_1142	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000965-ureC-K01428	NA	NA
BMS010_07057	327			hypothetical protein	ATGAACGACGGCAACAAGGAATCGACCAAGGAAATGCTGGCGGTTTTCCGCATCATCGCCAGCGCCGGGCTTTCGCTGATCCTCCTTCTGGCCACTTTCAAGAACAGGACGCCGGACCTTTCCAATTGGCTGGTTTACCCAGCCGCCCTGTTTTTCAGCGCCTCTTTGCTGTTCTGCCTCTACCTGTTTCTGCAAGCCATAACCCTGCTTGCGGGCGAAGCGGACGCAATCATCGATCAGCCGAGGATAAAGGTCCCCGCAATGGCGGCCATGGGGCTGTTCATGGCCGGCGTTGCAAGCCTGCTGACCGCGCTCATGTGCATCTGA	MNDGNKESTKEMLAVFRIIASAGLSLILLLATFKNRTPDLSNWLVYPAALFFSASLLFCLYLFLQAITLLAGEADAIIDQPRIKVPAMAAMGLFMAGVASLLTALMCI				NA	NA	NA	NA	NA
BMS010_07058	504			hypothetical protein	TTGATTTTGAAAGATCGCGTACTCAATCATCTCGACAGTACCCTCAGAGCCTATTTCGACTATAGCGACGGCCCGCAATGCTCCAATTTGCGTGGCTTCGTCGCAGGGCTGGTCACGGATGTCTGCGAAAAGATGGATGGAGACTTGCTGCGGAAGGTCGCGGAAAAGGTAGACGGCAAGAGTTTCGCCGAATGGCGGTCATGGTACATCGATGAAGTCGTCACTCTGCAGGCCAGTGCAGTGGGCGCATTCGCCCATCGCATCATTGACGTGGAAACGCTCAGCGCCTCGGCGCGCAGCGGAAAAGTGCCCTGCGAGCTTGGCTACAGACACGCGGATGAATTCATCGCCTGCTGGGAGGAGACCTATGCAAAGCGGCAAGCGGAGAAGGAAAAGCTGCCTTCATCGAAAAAATTTCAGGACAAGCGCAACAGCCACACCGAGCCGCCGTACCTGATGAAAGATATCCTGGGGCTGTCCTGGTGGCGCAAGCGGTCCAAATGA	MILKDRVLNHLDSTLRAYFDYSDGPQCSNLRGFVAGLVTDVCEKMDGDLLRKVAEKVDGKSFAEWRSWYIDEVVTLQASAVGAFAHRIIDVETLSASARSGKVPCELGYRHADEFIACWEETYAKRQAEKEKLPSSKKFQDKRNSHTEPPYLMKDILGLSWWRKRSK				NA	NA	NA	NA	NA
BMS010_07059	537			Peroxiredoxin	ATGCTCGGCAAAAAAGTGCCCGCCGTAACCTTCCGCACGCGCGTTCGCGATGAGGCCGTCGGTGGCCCCAACCCGTTCCGTTGGCAGGACATGACCTCCGACGATTATTTCAAGGGCAAGAAGGTCGTTCTGTTTTCGCTGCCCGGCGCCTTTACGCCGACCTGCTCGACCTACCAGCTTCCCGATTTCGAAAAGCTGGCGGGCGAGTTCCGCGCGCTCGGCGTCGATGATATCTATTGCCTGTCGGTCAATGACGCCTTTGTCATGAATGCCTGGGCAAAGGGCCAGAACCTCGAAAATGTCAAGGTCATTCCGGATGGTTCGGGTGAGTTCACCCGCAAGATGGGCATGCTGGTCGCCAAGGACAATCTCGGCTTCGGCATGCGCTCCTGGCGTTACGCCGCCGTCGTCAACGATGGCGTCGTTGAGCAGTGGTTCGAGGAAGAGGGCTATTCGGACAATTGCGAATCTGACCCTTACGGCGTTTCCGCGCCGCAGAACATTCTGGAAAACCTGAAGGCACGCGCTGCGGCCTGA	MLGKKVPAVTFRTRVRDEAVGGPNPFRWQDMTSDDYFKGKKVVLFSLPGAFTPTCSTYQLPDFEKLAGEFRALGVDDIYCLSVNDAFVMNAWAKGQNLENVKVIPDGSGEFTRKMGMLVAKDNLGFGMRSWRYAAVVNDGVVEQWFEEEGYSDNCESDPYGVSAPQNILENLKARAAA	PGPT0013095_116	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013095-pgdX-K24136	NA	NA
BMS010_07060	486	ureE_1		Urease accessory protein UreE	ATGCTGCGCGTCACCTCCTATCATCCGGCCGGAACCCCTGCCGACGAAGCTTCCGGTTATGTCACCCTGGCGCATGACCAGCGGCATTTGCGCCGCAAGCTTCTGCATCTGCAAAATGATGAGATGGTGATGCTGGACCTGAAGGAAGCCGTGCTGTTTGCCCATGGCGATCTTCTGGTGGTGGAGAACGGCGACCTGATCGAGGTTCGCGCGGCGGATGAAAAGCTGTTCGAAATCAAGGCGAAGGACCGCCTTCACCTGATCGAGCTTGCCTGGCATCTGGGCAACCGGCATCTTTCCGCGCAGATCGAGGAAGAGCGTATTCTCATCCTGCGCGACCATGTCATTCGCGCCATGCTGGAAGGTCTGGGCGCCACCGTGCGTGAGGTGGAGGAGCCCTTCCAGCCGGCGCGCGGCGCTTACCACGCCCATGGCGGCCATTCCCATGGGCATGACCACGGGCACCACCATCACGATCACGGCTGA	MLRVTSYHPAGTPADEASGYVTLAHDQRHLRRKLLHLQNDEMVMLDLKEAVLFAHGDLLVVENGDLIEVRAADEKLFEIKAKDRLHLIELAWHLGNRHLSAQIEEERILILRDHVIRAMLEGLGATVREVEEPFQPARGAYHAHGGHSHGHDHGHHHHDHG	PGPT0000975_904	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000975-ureE-K03187	NA	NA
BMS010_07061	672	ureF_1	COG0830	Urease accessory protein UreF	GTGAGTGAAGATCGCGGCGTCGCCGCGCTGCTGCGGCTCATGGCCTGGATGTCGCCTGCCTTTCCCGTCGGTGGTTTTTCCTATTCCGGCGGGCTTGAAAAGGCGGTGGAGGATCGTCGCATCGGCGATGCGGCGGCCTTGCGCGACTGGCTCGAAACGCTGCTGCGCCACGGCAGCCTGTGGAACGATGCGGTGTTTCTGGCGCATGCGTGGCGCAGCGCCGGGGATGCGGCCATCTTGAGCGAAACGGCCGATCTGGCGCGGGCGCTGGCCGGTTCGGCGGAGCGATACCGCGAGACGGTGCTTCTGGGCGATGCCTTCGTTGCCGCCGCCGGCGCATGGCCGCATGCGGTTCTTGAGTTGTTGCCGAAAGACGTTCCTTATCCCATCGCCGTCGGCGGGGTCGCCGCCGGCCATGCGGTGCCGCTCAGGGAAACGGTTGCCGCCTTTTTGCATGCCGGCGCCTCGCAGATCGTTTCAGCGGGCATCCGCCTCGGGGTCGCGGGACAGAAGGATGGCGTTGCCATTCTGGCCGCAAGCGAGGCGATCATCGCAGAGATGGCGGCGCGGGCGATGCAATCCACGCTCGACGATCTCGGCAGCGCGACGATCATCGCCGATACGGCAGCCATGCGCCATGAAACGCAGGGCACCCGGCTTTTCCGGTCCTGA	MSEDRGVAALLRLMAWMSPAFPVGGFSYSGGLEKAVEDRRIGDAAALRDWLETLLRHGSLWNDAVFLAHAWRSAGDAAILSETADLARALAGSAERYRETVLLGDAFVAAAGAWPHAVLELLPKDVPYPIAVGGVAAGHAVPLRETVAAFLHAGASQIVSAGIRLGVAGQKDGVAILAASEAIIAEMAARAMQSTLDDLGSATIIADTAAMRHETQGTRLFRS	PGPT0000980_1762	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000980-ureF-K03188	NA	NA
BMS010_07062	612	ureG_1		Urease accessory protein UreG	ATGAAATCGGGTAATGGACCGCTGCGCGTCGGCATTGGCGGGCCGGTCGGTTCTGGCAAGACGGCGCTGACGGAAAAGCTCTGCAAGGCAATGAGCGCGGATTATTCCGTCGCGGTCGTCACCAACGATATCTACACCAAGGAAGATGCCGAGGCGCTGGTGCGCATGCAGGCGCTGCCGTCCGAGCGTATCGTCGGGGTCGAGACGGGCGGTTGCCCGCATACCGCCATTCGTGAGGATGCGACGATCAATCTGCAGGCGATTGCCGGGCTCAATGCGCGGTTTCCCGATCTCGATGTGGTCTTCATCGAATCCGGCGGCGACAATCTCGCTGCGACCTTTTCGCCCGATCTGGCCGACATTACCATCTATGTGATCTCCGTCTGCCAGGGTGAGGAAATTCCGCGCAAAGGCGGGCCGGGTATCACCCGCTCGGACCTGCTGGTCATCAACAAGAAGGACCTTGCGCCCTATGTCGGCGCTGACCTCACCGTCATGGACAGCGATGCGACCCGCATGCGCAACGCCATGCCCTTCGTTTTCACCGATATGAAACGCGGCGACGGCGTGGATCGCATCGTCGGTTTTCTGAAAGAGCAGGGCGGTCTCTGA	MKSGNGPLRVGIGGPVGSGKTALTEKLCKAMSADYSVAVVTNDIYTKEDAEALVRMQALPSERIVGVETGGCPHTAIREDATINLQAIAGLNARFPDLDVVFIESGGDNLAATFSPDLADITIYVISVCQGEEIPRKGGPGITRSDLLVINKKDLAPYVGADLTVMDSDATRMRNAMPFVFTDMKRGDGVDRIVGFLKEQGGL	PGPT0000985_1809	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000985-ureG-K03189	NA	NA
BMS010_07063	825			hypothetical protein	ATGGCTATCGCCCGCCGTTTCGGTGCTTACGAGGTTTCCCGTTTTGTCGACGGTGTCTACAAGGCGCCGGTCGGCCATCTTATCCATCGTCAGGGCGCCGAAGCGCTGGCTGCGGCCCTTGCCGGCCATCGGGGCGAAACGGTGGATATGGACGTCAACTGCTTCGCGCTGTCCGGGCCTGACGGCATCTGGCTGATCGATGCCGGTTGCGGCACGGCCTGGGGTGCGGCCTATGGCCATGCCCGCGCGGCGATGATTGCCGCCGGGATTCAGCCGGCCGATGTGACGCGTATCATCCTCACCCATATTCATGGCGACCATGCGCTTGGCCTCATCGATGGCGACCGGCCTTATTTTCCCAATGCCGACATATGGGTTCCCGAGGCCGATCTTGGCTTTTTCAGCAGCGCGGAGGCGCGCAAAAGCCTGCCGCCGGCCCGGCAGGGCGGGTTCGACCTTGCCGCGCGGCTGCTAGACATTTGCGGCCCGATGTTGCGGCCGATCCCCATGGGCGCGGTCGCCGAGGGTATCGAGGCAGTCGCCATGCCTGGCCATACACCGGGGCACACCGGTTATCTGATCGGCAATGGCGATGAGCGGCTGTTATTATGGGGCGACGTGCTGCATGTCAGCGAGTTGCAGGTGAGAGATCCCGGCGTCGGTTTCGTCTACGATATCGATTCCGCTCTTGCTTATGAAACACGCCTCAAGGCGCTGGCCGAGGCAGCCGATCATGGCTGGCTGGTTTCCGGCGGTCATCTCGGCGGATTTTTCCGTGTCGAGCGGCAGGGCGACAGCTTCCGTTTTGTGCCGCAGCCGGGCTGA	MAIARRFGAYEVSRFVDGVYKAPVGHLIHRQGAEALAAALAGHRGETVDMDVNCFALSGPDGIWLIDAGCGTAWGAAYGHARAAMIAAGIQPADVTRIILTHIHGDHALGLIDGDRPYFPNADIWVPEADLGFFSSAEARKSLPPARQGGFDLAARLLDICGPMLRPIPMGAVAEGIEAVAMPGHTPGHTGYLIGNGDERLLLWGDVLHVSELQVRDPGVGFVYDIDSALAYETRLKALAEAADHGWLVSGGHLGGFFRVERQGDSFRFVPQPG				NA	NA	NA	NA	NA
BMS010_07064	783			hypothetical protein	ATGAGCTCTTTTCAGATAGGCGTGCGGGAACACGAACATCCCCGGTTTCGTATCGCTTCGGACAGCCCGGCAAAAGGTATGAGCGGGAGCCGGATGGACGTGAACAAGACCGTGAAGCTGAGCAACAGGGACAGGAACATTCTGCTGCGTGCACCCTTGATCGGGATAGCGGATGATGCGGCGGCGTTGAAGCTGATGGAGGCGGCGACCATCACCAATGTGAACGCCCGCCATGTGCTCTTCAAGGAAGGCGAAGCGGCGCAGCATTTCTACTGCGTACTGTCGGGTTACGTCAGGCTTTACCGGCTGGACCGGCATGGACGCGAGGCGGATGTGCGCGTCAGCGGCCCCGGCGATACCTTCAACGAATGCCTGATTTTCGGCAGCGATACCTATCGCTACAGCGCGCAGGCGGCGGAAAGCTGCACCGTAGCGCGGTTCGAACTTGCGAGAATCCGCAGCCTGATCGATCAGGAGCCGGCCATCGCCAAGGCCGTCATGCGCTGCCTCTCCAACAGCCTGCTGGCCACGATGGATTGCATCGCGAACGACCGGCTACAGACGGCGCCGCAACGTGTCGCCCATTACCTCATCAATCAGGGCCCGCGCGACGCGACATCCTTTTCGCTGCGGCTGCCCTTCCAGAAAAGCCTGCTCGCCGGCAAGCTAGGCCTCGCGCCGGAAGCGCTGTCGCGCGCCTTTTCGGCACTGAAAAAGGCTGGCGTTACCGTGCGCGGACGCATTGTGCAGGTCAATGACGTCGCCGCACTGAAGCAGATCTGA	MSSFQIGVREHEHPRFRIASDSPAKGMSGSRMDVNKTVKLSNRDRNILLRAPLIGIADDAAALKLMEAATITNVNARHVLFKEGEAAQHFYCVLSGYVRLYRLDRHGREADVRVSGPGDTFNECLIFGSDTYRYSAQAAESCTVARFELARIRSLIDQEPAIAKAVMRCLSNSLLATMDCIANDRLQTAPQRVAHYLINQGPRDATSFSLRLPFQKSLLAGKLGLAPEALSRAFSALKKAGVTVRGRIVQVNDVAALKQI	PGPT0001075_31	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001075-dnr-K21563	NA	NA
BMS010_07065	3321	mdtC_5	COG0841	Multidrug resistance protein MdtC	ATGAACTTTTCCGCATGGTCAATCCGTAACCCGATTGCGCCGCTGCTCGGCTTCGCGCTTTTGATGATCCTCGGCATGCAGGCGTTCAACACCCTGCCCATCACCCGTTTTCCGAATATCGACGTTCCCGTCGTGGCCGTTACCGTGACCCAGAGCGGCGCTTCGCCGTCCGAACTGGAAATGCAGGTGACGAAGGAGATCGAGGACGCCGTCGCCGCCATCAGCGGTGTCGACGAAATCCAGTCCACCGTGGTCGACGGCCAGTCGACGACAACGGTTGTCTTCCGCATCGAAAAGCCGACGGAAGAAGCGGTTCAGGACACCAAGGACGCCATCGACAAGATCCGCAGCGATCTGCCCGCCGATATCGAAGTGCCCGTCGTCAGCAAGATCGACGTCGAGGGACAGGCGATCCAGACGTTTGCCGTCTCTTCGCCCAACATGACGCTGGAAGAACTGTCCTGGTTCGTGGATGACACGATCAAGCGTTCGCTCCAGGGCCAGTCCGGCATCGGCAAGGTCGACCGTTACGGCGGCGCCGACCGCGAAGTTCGCGTGTCGCTGAGCCCCGAAAAGCTCGACGCCTATGGCATCACCGCCACCGAGGTGAACAGCCAGCTGCGCGGCACGAACGTCGATCTCGGCTCGGGCCGAGGCCAGGTGGGCGGCAACGAGCAGACCATCCGCACGCTCGGCGATACGCGCGATGTGAGCCAGCTCGCCAACACCACGATTGCGCTTTCCAACGGCCGCTTCGTCAAGCTTTCCGAACTCGGCACGGTCACCGACACCTATGAGGAGCAGAAATCCTTCTCGCGCTTCAACGGCAATCCCGCCGTCACCTTCGCGGTGTTCCGCTCCAAGGGCGCAAGCGAGGTCTCGGTCGCCGAAACCGTGGCGGCAAGCCTCAATGAAGTGCGCAAGAATCATCCGGATGTGTCGATCGAAATGGTCGATGACGCCGTTTATTTCACCTATGGCAACTACAAGGCCGCGCTCGACACGCTGATCGAAGGCGCGATCCTCGCCGTCATCGTCGTCCTGCTCTTCCTGCGCAACTGGCGCGCGACCCTGATTGCCGCCGTGGCGCTGCCGCTTTCCGCGATCCCGACCTTCTGGATCATGGACATCATGGGCTTCTCGCTCAACCTCGTCAGCTTCCTGGCGCTCACGCTCGCCACGGGTATTCTCGTCGACGACGCCATCGTGGAAATCGAGAACATCGCCCGCCATATCAAGATGGGCAAGACGCCCTATCGGGCGGCACTCGAAGCGGCGGATGAAATCGGCCTTGCCGTCATCGCCACCAGCTTCACCATCATCGCGGTCTTTGTGCCGGTGTCGTTCATGCCCGGCATTCCCGGCCAGTACTTCATCCAGTTCGGCCTCACCGTCGCTTTCTCGGTGTTCTTCTCGCTCGCCGTGGCCCGCCTCATCACACCGTTGATGGCGGCCTATCTGATGCGCGCCGAAGATGCGATGGACGATCACCACGACAATGACAGCCGGTTGATGAAGGCCTATACGCGCATGGTAACCGCCACCACCCGCAAGTGGTGGGCGCGCTATCTGACGCTGCTCGGCGCCATCGGCTTCCTCGTCGCTTCCGTCATTCTGCTTGCCGGCGTTCCGGGCAGCTTCCTGCCGCCGGACGACGCCTCACGCGTGACGCTTTCGGTGGAGCTGCCGCCCAATGCGACGCTCGACGAAACCGACCGCACGACGACGCAGATTTATCATGCCCTGCGTGACATCAACGGCGTTGAAAGCGTCTTCATCCTTGGCGGCGCTTCGCCCAAGGGCGATCTGGAGCTTCGCCGCGCCACCGTCAACGTCATCCTCCAGCACATCGACCATTCGCTGCTCAAGCTGGTGGTCAACAAGGGCCTCGGCTCCATCCCGCTCATCGGCCCATACTTGCCGAAGGTGGAGGAAAAGGGTCGCACACGTCCGCAATGGGATGTGGAACGGGATATTTTCGCGCAGGTGCGCGGCATCCCGGATGTCCGCATCATCAAGCTGAACGACCGTGCGGAACGCGAGCTCTCCTTCAACTTCCTCTCGACGAACGAGAAGGACCTGAACGACGCCGTCGGTATTCTCGAAAGCCGCCTGCGCGCCTCGCCCATCCTTGCCAATGTCAGTTCGGAAGGTGCGTTGCCCCGCCCCGAACTGCAGATTCGCCCGCGCAAGGATGAAATCGCCCGCCTCGGCATCACGCCGCAGCAGATTTCGCAGACCGTGCGTGTCGCCACCATCGGCGATATCGATGCGCAGCTGACGAAGATTTCGCTGGATGACCGGCAGATTCCGATCCGCGTGCAGGCCTCGCTCGATACCCGCCGCGATCTCGCCACCATCCGCGCGCTGAAGATCAAGACCGCCTCCGGATCGCTGGTGCCGCTCTATAGCGTTGCCGATATCGACTATTCGGAAGGTCCAAGCTCGATCAAGCGCAACGACCGCAACCGCGTCGTCTCCATCGGCTCCGACGTGCCCTTCGGCACGGCGCTCGATACATCGACGGCCGAGTTCAAGCGCATCGTGTCGGAAACCGACCTGCCGGCGAGCGTGCGCCTCGCCGAAAGCGGCGACGCCAAGGTGCAGGGCGAAATGCAGCAGGGCTTCGTCAACGCCATGCTGCTCGGCCTGATGCTGGTGCTGGTCGTGCTCATCCTGCTGTTCAAGGATGTCATCCAGCCCTTCACCATCCTGTTCTCGCTGCCGCTTGCCATCGGCGGCGTGGCGGTCGCACTCATCATCACGCAGAACGCGCTGTCCATGCCCGTTCTCATCGGCATCCTGATGCTGATGGGCATCGTGACGAAGAACGCCATCCTGCTGGTGGATTTCGCCATCGAAATGCGCCGCCACGGCATGGAACGGGTGCATGCCATGGTGGAGGCCGGCCGCAAGCGCGCCCGCCCGATCATCATGACCTCCATCGCCATGTCGGCGGGCATGTTGCCCTCCGCGCTCGGCGTCGGCGAAGGCGGTTCGTTCCGCGCGCCGATGGCGATTGCGGTGATCGGCGGCATCATCGTCTCGACGGTGCTGTCCCTCATCGTGGTGCCGGCCTTCTTCCTCATCATGGACGACCTGTCGCGCCTGCTCGCCCACCTCTTCGGCCGCTTCGTCGGCAAGAAGGAAGAGGAGGAAGAGGCCCTCTCCAACGAGAAACTCTCGGAGATCGCCCGCGAAAACAGCCTGGCGCTCTCCTCGCTGGAGGCACGCGTCGCCAGCATGGAAAAGGGCACCGGCGACAAGGCCGCGGACAAGGGCAGCAACATATTGCGGCTACCGCCGCTCGCTGCGGAGTGA	MNFSAWSIRNPIAPLLGFALLMILGMQAFNTLPITRFPNIDVPVVAVTVTQSGASPSELEMQVTKEIEDAVAAISGVDEIQSTVVDGQSTTTVVFRIEKPTEEAVQDTKDAIDKIRSDLPADIEVPVVSKIDVEGQAIQTFAVSSPNMTLEELSWFVDDTIKRSLQGQSGIGKVDRYGGADREVRVSLSPEKLDAYGITATEVNSQLRGTNVDLGSGRGQVGGNEQTIRTLGDTRDVSQLANTTIALSNGRFVKLSELGTVTDTYEEQKSFSRFNGNPAVTFAVFRSKGASEVSVAETVAASLNEVRKNHPDVSIEMVDDAVYFTYGNYKAALDTLIEGAILAVIVVLLFLRNWRATLIAAVALPLSAIPTFWIMDIMGFSLNLVSFLALTLATGILVDDAIVEIENIARHIKMGKTPYRAALEAADEIGLAVIATSFTIIAVFVPVSFMPGIPGQYFIQFGLTVAFSVFFSLAVARLITPLMAAYLMRAEDAMDDHHDNDSRLMKAYTRMVTATTRKWWARYLTLLGAIGFLVASVILLAGVPGSFLPPDDASRVTLSVELPPNATLDETDRTTTQIYHALRDINGVESVFILGGASPKGDLELRRATVNVILQHIDHSLLKLVVNKGLGSIPLIGPYLPKVEEKGRTRPQWDVERDIFAQVRGIPDVRIIKLNDRAERELSFNFLSTNEKDLNDAVGILESRLRASPILANVSSEGALPRPELQIRPRKDEIARLGITPQQISQTVRVATIGDIDAQLTKISLDDRQIPIRVQASLDTRRDLATIRALKIKTASGSLVPLYSVADIDYSEGPSSIKRNDRNRVVSIGSDVPFGTALDTSTAEFKRIVSETDLPASVRLAESGDAKVQGEMQQGFVNAMLLGLMLVLVVLILLFKDVIQPFTILFSLPLAIGGVAVALIITQNALSMPVLIGILMLMGIVTKNAILLVDFAIEMRRHGMERVHAMVEAGRKRARPIIMTSIAMSAGMLPSALGVGEGGSFRAPMAIAVIGGIIVSTVLSLIVVPAFFLIMDDLSRLLAHLFGRFVGKKEEEEEALSNEKLSEIARENSLALSSLEARVASMEKGTGDKAADKGSNILRLPPLAAE	PGPT0016195_112	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-SURFACTIN_RESISTANCE,PGPT0016195-swrC|yerP-K03296	NA	NA
BMS010_07066	1194	macA_3	COG0845	Macrolide export protein MacA	ATGCAGCATAAAGTCACGTTTAACCGCTTTGTATTCCTTCTTCTTTCCGCAACGGCGCTTCCCCTCTCCGCAGCCGCCGAGGGAGAGGCGCAGGCGCCGGTCAAACAGCAGAACCTGCCTTCCATCATCGTCGCCCATGCGGCAAAACGCGATCTCGTGGACCGCATCATCGCCACCGGCACGATCCGCCCCGTGGACGAGATTTACGTCCAGCCGCTGGTCGACGGCCTGTCCATCGACACGCTGAATGCCGATATCGGCGACCGGGTGGAAGCGAATGCGGTTCTTGCCGTGCTGTCCTCCGACAGCCTCGTGCTGCAAAAGAGCCAGCTTGAGGCCAACAAGGCCAAGGCCGAAGCCTCCGTCACCCAGTCGAAAGCCCAGGTGCTAGAAGCGCAGGCCAATCTCAATGACGCCCTTCGCCAGCGCGACCGCGCCGCCAAGCTCGGCCAGAGCGGCTCCGGCTCCGTCTCCGAAACGGAAAAGACCGAAGCGGCCGCTCAGGTGGCGCAGGCCCGCCTCGATGCGGCCAAACAGGCCGTTTCCGCCGGCGAAGCCGACATCAAGGTCGTCGACGCGCAGATCGACGACATCGATCTGAAGCTGACGCGCACCGGCGTGAAAACCCCGGTCGCCGGCATCGTATCCGCCAAGAACGCCAAGGTGGGCGCAATCGCCAGCGGTGCGGGAAATCCGCTGTTCACCGTCATCAAGGACGGCGCGATAGAACTCGTCGCCGATCTCTCCGAGACCGATATCCAGAAGGTCAAGGCAGGCCAGAAAGCCTATTTGACGGTTGCCGGCGGAGCTGAGAAAATAGAAGGCAAGGTGCGCCTCGTTTCACCCACCGTCGACCCGACGACGCGCCTCGGCTCCGTGCATGTGGTTCTGCCGACCGACAGCCCGGCGCGTTCCGGCATGTATGCCAGCGCGGCGATCATCGTCGAGGAGACGAATGCGCTCGCTTTGCCGCTGTCGGCCGTCACCTCCGGGCGTGAAGGCTCGACCACCCGCAAGGTGGAAGGCGACGTCGTCAAGCAGGTGAAGATCGAGACCGGCATCGAAGACGGCGGTTTTATCGAGATTGTCAGCGGTCTTGCCGCTGGAGACAAGGTTGTCGAGAAAGCTGGAGCATTCGTGCGTGATGGTGACCGGATAAGACCGGTGGAAGCCCAGACGGCTGCGTCCAACTGA	MQHKVTFNRFVFLLLSATALPLSAAAEGEAQAPVKQQNLPSIIVAHAAKRDLVDRIIATGTIRPVDEIYVQPLVDGLSIDTLNADIGDRVEANAVLAVLSSDSLVLQKSQLEANKAKAEASVTQSKAQVLEAQANLNDALRQRDRAAKLGQSGSGSVSETEKTEAAAQVAQARLDAAKQAVSAGEADIKVVDAQIDDIDLKLTRTGVKTPVAGIVSAKNAKVGAIASGAGNPLFTVIKDGAIELVADLSETDIQKVKAGQKAYLTVAGGAEKIEGKVRLVSPTVDPTTRLGSVHVVLPTDSPARSGMYASAAIIVEETNALALPLSAVTSGREGSTTRKVEGDVVKQVKIETGIEDGGFIEIVSGLAAGDKVVEKAGAFVRDGDRIRPVEAQTAASN				NA	NA	NA	NA	NA
BMS010_07067	1587			hypothetical protein	ATGCTGCTGCAACTCATCGAACATCCCGCCGTCAGCCTGGCCCAGGGCCATGGACTGGATCTTCCGACCCAGGCGGCGCGGGCCCGGGCCACCTGGATGGCCGGACGCCAGGGACGCTCGCCCCTGCTGCTGGTCGCGCTGCTCTGGGCCCGCAATTGCCCCGATGTGGTGCAGGTGCTGGACGATCACCTGGATGCGCTGTTCGCCGACTTCAGTTGCACCCCGGAAAGCTGGAGCGAATCCCAGGCCGCTCGTCAGGTGCTGGCGGCGTTCAATCTGCAGCTGTTCCGCAGCGCTCGCGAGGGCGAGGGCGTTGCCGACCTGAGCGCCGGGCTGTTGCTGGTCCAGGCCGGCGAGGCACAGTTTCTCCAGGCCGGCGCCATTGGCTTGCTGCGCTACCAGGGCGGCGCCTTGCAGACCCTGGCTGGGCGCGAAGGCGTGCCATTGGGCGCCCAGGCCGAGCTGGCGCTGGTGCAGCACAACCTGGCGCTGAACCGAGGCGAGGCCCTGTTGCTGGCGCCGCAGCCGTTGCTCGAAGTGACCGATCTGCAGGATTTCCAACGCAACTGCCGGGAGTTGCGCAGCGGGCAGTTGTGCACGTTGCTCGAACCCTTCCTGATGGCACCCGGCGCGGCGGTGCTGTTGCTCCCGGGCGCGGCGGACAACCGTCCGCCACCCGCTCCGGTCGAGCACTGGCCGGCCCCGGCCGAGGGGCGGAGCGGCGACTGGCTGGACGGCTGGCAACTACTCGAAGCCTGTCCCTACGGCCCGCCCCGTCGGGTCTTTCGTGCCCGCGACGGCAGTGGTCGCGAGGCGCTGCTGTGGCTGGCCGAAACGGAGGCCGACGAGGCGTTCTGGCAGCGCGAGTGGGTGTTGCGGCGCAGCTCGGTGCCGAGCCTGCCGCGGGTGTTGTCGTCCCATGAGCCGCGGCGCCATGCGTTCCAGTTGTTCGCCCTGCCGGAGCCGGGCATGCGCAGCCTGGCCGACTGGATGGCGGCGGGTGGCCCGCTGGAGCCGGAAAAGGTGCATGCCGTGCTGCTCCAGTTGATCGAGGCGGTGCGGGTGTTGCAGCGGCGCGGCATGCAGGGGCTGTGGCTGAGCCCGCGGCAAATCCTGATGAATGCGCAGGGGCGTATGTTGTTGCTGCCGGAGCATGCGGCGATCCTGCCGGGTGTCGGACGCCAGCCGATCCCGCCCGATGCCGTGCCGTTGGCGCCGGAGCTGCGCAACGGCCGGCGAGCGGATGGCCGCGCCGATCAGTTCGCCCTGGCGGCCCTGGCCTATTGGTTGCTCAGCGGTCAATGGCCGGAAGTGGCGCGGCCGGAGCAGAGCCTGAACGGCCAATACGTGCCCCTCGCGCGCTTCAACCGGCGCTTGCCGCCGGGGTGGGATGGTGTGCTGGCGCGTGCCCTGGCGCCGCAGGCACGGGTTCGCTTCGAGGCGTTGTCGGAGTTCCAGTTGGCCTTGGAGCGGCCCAAGCCGACCGCTGCCGTGCGTCCCCGCCGATGGTCACGGCGTTGGCGGTTGGCTTTGTTGGTGGTGTTAGGGCTTCAACTGGCGTTCGGGCTTTGGCTGAGCCTGGGGTGA	MLLQLIEHPAVSLAQGHGLDLPTQAARARATWMAGRQGRSPLLLVALLWARNCPDVVQVLDDHLDALFADFSCTPESWSESQAARQVLAAFNLQLFRSAREGEGVADLSAGLLLVQAGEAQFLQAGAIGLLRYQGGALQTLAGREGVPLGAQAELALVQHNLALNRGEALLLAPQPLLEVTDLQDFQRNCRELRSGQLCTLLEPFLMAPGAAVLLLPGAADNRPPPAPVEHWPAPAEGRSGDWLDGWQLLEACPYGPPRRVFRARDGSGREALLWLAETEADEAFWQREWVLRRSSVPSLPRVLSSHEPRRHAFQLFALPEPGMRSLADWMAAGGPLEPEKVHAVLLQLIEAVRVLQRRGMQGLWLSPRQILMNAQGRMLLLPEHAAILPGVGRQPIPPDAVPLAPELRNGRRADGRADQFALAALAYWLLSGQWPEVARPEQSLNGQYVPLARFNRRLPPGWDGVLARALAPQARVRFEALSEFQLALERPKPTAAVRPRRWSRRWRLALLVVLGLQLAFGLWLSLG				NA	NA	NA	NA	NA
BMS010_07068	810	mtfA	COG3228	Protein MtfA	ATGTGGTCGTTCCGTGCCTGGCGCCGCCAGCGCATCCTTGCCAAGCATCCCGTCGACCCGCAGCTCTGGGCCCGGGTCCGGCAGCGGCTACCGCTGCTGGACGGACTCAGCGCGGCGGAAGACCAGCGGCTGCGTGAACGCAGTGTGCTCTTCCTTCATGGCAAGCATCTGACCGCCCTCCCCGGCGTCGAACTCGGCACCGAGGAACGCCTGTTGCTGGCCGCCCAGGCCGAGCTGCCGCTGCTTCACCTGCCCGACCTCGACTGGTACCAGGGCTTCCATGAGCTGGTGCTCTACCCGGACGATTTCGTCAGCCCGCAGCGCCACCGCGACGCCGCCGGCGTGGAGCACGAATGGGACGACGAGCGCAGCGGCGAAGCCTGGTCCCAGGGCCCGGTGATCCTGGCCTGGCCCGGCGTCCAGGCCAGCGGAGGCTGGGAGGGCTACAACCTGGTGATCCACGAACTGGCGCATAAGCTGGACATGCTCAACGGCGACGCCAACGGCCTGCCGCCCCTGCACCGCGACATGCGCATCGGCGACTGGGCCACCGCCATGCAGGCCGCCTACGACGACCTCAACGCCCAGCTCGATCGAGATCCGGACGCGGAAACCGCCATCGACCCCTACGCCGCGGAAGACCCGGCGGAGTTCTTCGCCGTCACCAGCGAATACTTTTTCAGCGCCCCCGACCTGCTGGACCAGACCTACCCGGCGGTCTATGCCCAGCTCAGGGCCTTCTACCGCCAGGACCCGCTGGCCCGCCTGCGCCAGTTGCAGGCCGAGCACCCGGACTATCGAGAGAGCTGA	MWSFRAWRRQRILAKHPVDPQLWARVRQRLPLLDGLSAAEDQRLRERSVLFLHGKHLTALPGVELGTEERLLLAAQAELPLLHLPDLDWYQGFHELVLYPDDFVSPQRHRDAAGVEHEWDDERSGEAWSQGPVILAWPGVQASGGWEGYNLVIHELAHKLDMLNGDANGLPPLHRDMRIGDWATAMQAAYDDLNAQLDRDPDAETAIDPYAAEDPAEFFAVTSEYFFSAPDLLDQTYPAVYAQLRAFYRQDPLARLRQLQAEHPDYRES				NA	NA	NA	NA	NA
BMS010_07069	528	ppa_2	COG0221	Inorganic pyrophosphatase	ATGAGCTACAGCAAGATCCCGGCCGGCAAAGACCTGCCGAACGACATCTACGTCGCTATCGAGATCCCGGCCAACCATGCGCCGATCAAGTACGAGATCGACAAGGACACCGACTGCCTGTTCGTCGACCGCTTCATGGCGACCCCGATGTTCTATCCGGCCAACTACGGCTACATCCCCAACACCCTGGCCGACGACGGCGACCCGCTGGACGTCCTGGTCGTGACCCCCTACCCGGTGGCGCCGGGCTCCGTGATCCGCGCCCGTCCGGTCGGCGTGCTGCACATGACCGACGAAGCCGGCGGCGATGCCAAGCTGGTTGCCGTCCCGCACGACAAGCTGAGCCAACTGTACGTGGACATCAAGGAATACACCGACCTGCCCGCCCTGCTCCTGGAGCAGATCAAGCACTTCTTCGAGAACTACAAAGACCTCGAAAAAGGCAAGTGGGTGAAAGTCGAGCGCTGGGGCAACGCCGAAGAAGCCCGCGCAGAAATCATGAAGGCAGTTGCGGCTTATCAAAAATAA	MSYSKIPAGKDLPNDIYVAIEIPANHAPIKYEIDKDTDCLFVDRFMATPMFYPANYGYIPNTLADDGDPLDVLVVTPYPVAPGSVIRARPVGVLHMTDEAGGDAKLVAVPHDKLSQLYVDIKEYTDLPALLLEQIKHFFENYKDLEKGKWVKVERWGNAEEARAEIMKAVAAYQK	PGPT0002600_3333	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATASE_ACTIVITY	P-SOLUBILISATION-INORGANIC_PHOSPHATASE,PGPT0002600-ppa-K01507	NA	NA
BMS010_07070	1026			hypothetical protein	ATGAAACTCGGCGCCGTACGTCATGTGCTATTCGCCTGCCTGCTCGGCATGGTGGTGGCGGTAGGTCATAGCCAGTGGTCGGGCCCGGACAAAGGGCCTGCGGCGGTATCGGACAAGCGGGTGATCTTCCTCGCCTCCGACTTCCGCAACGGCGGTGTGGTGGGGGTGTACCGGAGCTTCGAGCGCGCGGCCAAGCTGCTCGGTTGGCAGGTGCGGGCGCTGGATGGGCGGGGCGATGCCGACGAGCTGCGGCGTATCGCCGACCAGGCCCTGCGAGAGGCGCCGGACGGCGTGGTGCTGGGGGGTTTTGGACTGGCTGCACTGGGTACGCCACCCAAACTCCTCCAGCAGCGCGACATTCCCGTGGTGGGCTGGCACGCCGGCGACCATCCGGGACCGAACGAATGGCTGTTCAGCAATGTCACCACCGATCCGCTGGTGGTCGCGGACATGGCCGCCGAGCTGGTGATCGGCGATGGCCCGGTCGGTGTGGTGATCTTCACCGACAGCCACTTCGCCATCGCCACCGCCAAGTCCCAGCGCATGGCCGAACGTGTGGCCGCCTGCCCGAACTGCCAGGTGCTGAGTGTCGAGGACCTGGCCATTTCCCGGGCATCGACGGACGTGGAAAAACGGGTCGAGCAGCTCCAGCAGCGCTTCGGCGCGGCCTGGACCCACACGCTGGCGATCAACGACGTGTACTTCGACCATATGCACCTGCCCCTGTCCCGGCTCGGGCGCAAGGATATCCGTCTCATCTCGGCCGGTGACGGCTCCTCCAAAGCGCTGGGGCGCATCTACTCCGGACTGTCGCAACAGGTCGCCACCATCGCCGAACCCCTCGGCGCCCATGGCTGGCAACTGGTGGACGAACTCAACCGCGCCTTCGCCGGCGAACCGCCCAGCGGCTTCGTCGCCCAACCGCTGCTGATCACCACCGAGGTCCTGCGCCAGAGCGAAACCATCACCATCGAGCTGGATAGCAGCTACGAGGACGCCTACCTGCGCCTCTGGCGGCCCAAGTGA	MKLGAVRHVLFACLLGMVVAVGHSQWSGPDKGPAAVSDKRVIFLASDFRNGGVVGVYRSFERAAKLLGWQVRALDGRGDADELRRIADQALREAPDGVVLGGFGLAALGTPPKLLQQRDIPVVGWHAGDHPGPNEWLFSNVTTDPLVVADMAAELVIGDGPVGVVIFTDSHFAIATAKSQRMAERVAACPNCQVLSVEDLAISRASTDVEKRVEQLQQRFGAAWTHTLAINDVYFDHMHLPLSRLGRKDIRLISAGDGSSKALGRIYSGLSQQVATIAEPLGAHGWQLVDELNRAFAGEPPSGFVAQPLLITTEVLRQSETITIELDSSYEDAYLRLWRPK	PGPT0015740_1955	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0015740-rbsB-K10439	NA	NA
BMS010_07071	327			hypothetical protein	ATGCGGACGGGATGGAAGGGGATTATGGGCGGCGTGGTCCTGGCAACATTGGCCGCCTGCGGGCAGGCGGCCGACGAGCGACAGCCGCCACCGGACGACGGCAAGCCACGCATGCCGCCGCCCGAGGCTTTCGCGGCCTGCGCCGGGAAAACCGAAGGCGCCGCCGTGTCGTTCACCGGCCGGGACGGCAAGCGGGCGATGAAGGGTGTCTGCCGCGATTTCGAAGGCAAGTTGGCGGCTGCGCCGGATCATCCACCGGGCGGCCCCGGCGGCGGTGATCGCGAAGGCCCGCCACCCGGCCCACCGCCGGGTGAAGAAGACGAGTGA	MRTGWKGIMGGVVLATLAACGQAADERQPPPDDGKPRMPPPEAFAACAGKTEGAAVSFTGRDGKRAMKGVCRDFEGKLAAAPDHPPGGPGGGDREGPPPGPPPGEEDE				NA	NA	NA	NA	NA
BMS010_07072	771	yfcA_3	COG0730	putative membrane transporter protein YfcA	ATGAGCCTGATCGATCTCCTGTTGCTGGTCCTCGCCGGCTTCGCCGCCGGCGGCATGAATGCCCTGGCCGGCGGCGGTACGTTCTTTTCCTTTCCCGCTCTCCTCGCCACCGGCCTGCCGCCGGTCACCGCCAACGCCACCAACGCCGTCGCCCTCTGGCCGGCCAGCCTCGCCGGGGCCTGGGCCGCGCGCGGCTCGTTGCGGCCGCTGGGGCGTTACCTGCTGCCGCTGCTGATCGCCGGCCTGCTCGGCGGGCTGGGTGGCGGACTGCTGCTGCTTGCCGGCGGCGATTCGGTGTTCCGCGTATTGATCCCCTGGCTGCTGCTCGCCGCCACCGCCCTGTTCGCCGCCAGCCCCTGGCTCAGCCGCTGGCTCGCGGCGCGGCGCCAGGAAGCCGAGCGTCCGCCGCACACGCCGCTGTCCATCGGTGCCCACGTCGGCGTATCCATCTACGGTGGGTATTTCGGCGCCGGCATGGGCATCCTCCAGCTCGCCGCCTTTTCCATCGAAGGCCATCCGCTGGCCCGCGCCAACGCGCTTAAGAACCTCATTTCAGCAGTGATCTACAGCATCGCCACCGTGACCTTCGTGGTAGCCGGACGGGTGAGCTGGAGCGAACTGGCGATCCTGCTGGTCGGCGCCACCCTGGGCGGTTACGTCGGCGGCGCCCTCGGCGAACGGCTGCCGCCGCGTCTGCTGCGCGCCTTCGTGATCCTGGTCGGCAGCGCCATGACGCTCTACTACTTCTACGCCACCTATTTCGCCGGCTGA	MSLIDLLLLVLAGFAAGGMNALAGGGTFFSFPALLATGLPPVTANATNAVALWPASLAGAWAARGSLRPLGRYLLPLLIAGLLGGLGGGLLLLAGGDSVFRVLIPWLLLAATALFAASPWLSRWLAARRQEAERPPHTPLSIGAHVGVSIYGGYFGAGMGILQLAAFSIEGHPLARANALKNLISAVIYSIATVTFVVAGRVSWSELAILLVGATLGGYVGGALGERLPPRLLRAFVILVGSAMTLYYFYATYFAG				NA	NA	NA	NA	NA
BMS010_07073	243	xseB_2	COG1722	Exodeoxyribonuclease 7 small subunit	ATGGCCCGCAAGAAAGCCGCCCTCGATTTCGAACAGTCACTCGCCGACCTGCAAGCCCTGGTCGAGCGCCTGGAAAGTGGCGAACTGTCGCTGGAAGACTCGCTGACCGCCTTCGAACAGGGCATCCGTCTGACCCGCGACTGCCAGGCCGCGCTGAGCCAGGCCGAGCAGAAGGTGCAGATTCTCCTCGAGCGCGACGGCGAGCTGGAGGAAGCGCCTTTCGAGACGGATTCCGACGCATGA	MARKKAALDFEQSLADLQALVERLESGELSLEDSLTAFEQGIRLTRDCQAALSQAEQKVQILLERDGELEEAPFETDSDA				NA	NA	NA	NA	NA
BMS010_07074	888	ispA	COG0142	Farnesyl diphosphate synthase	ATGATCGAGACCTACCAGGCGCGCTGCCAGGCGCGTGTCGACGCCGCCCTGGCCAACCTGTTCCAGCCCTCCCGCCCGGAGCTGGAGCGCCTCTACCAGGCCATGCGCTACAGCGTGATCAACGGCGGCAAGCGGGTCCGGCCGCTGCTGGTCTACGCCGCCTGCGAGGCCCTCGACGGCGATGTCGGCCGGGCCGACGGCGCGGCCTGCGCGGTGGAGCTGATCCACGCCTACTCGCTGGTCCACGACGACCTGCCGGCCATGGACGACGACGACCTGCGCCGTGGCCAGCCCACCACCCACAAGGCGTTCGACGAAGCCTGCGCCATCCTCGCCGGCGATGGCTTGCAGACCCTGGCCTTCGAAGTGCTCGCCGACCCGCGCGGCAACCCGCGCGAAATCGAACTGCGCCTGGCGATGATCACCGCCCTGGCGCGCGCTGCCGGCCCGGCCGGAATGGTCGGCGGCCAGGCCATCGACCTCGGCTCGGTAGGCCGCAAGCTGGACCGCCAGGCCCTGGAAACCATGCACCGGCACAAGACCGGTGCGCTGATCGAAGCCAGCGTGCAACTCGGTGCCCTGGCCAGCGGCCAAGCCGACGACATCGCGCTGAAAGCCCTGCACCAGTATGCCCAGGCTATCGGCCTGGCATTCCAGGTGCAGGACGACATCCTCGATGTGGAAAGCGACACCGCCACCCTGGGCAAGACCCAGGGCAAGGACCAGGCCAACGACAAACCCACCTACCCCGCCCTGCTCGGCCTCAACGCGGCCAAGGCCTATGCCCAAGACCTGCGCGACCAGGCCCTGCACGCCCTGCGTGCCTTCGGCGATGCCGCCGAGCCGCTGCGCGAACTGGCGCGTTTCATCGTCGAACGGCGCAACTGA	MIETYQARCQARVDAALANLFQPSRPELERLYQAMRYSVINGGKRVRPLLVYAACEALDGDVGRADGAACAVELIHAYSLVHDDLPAMDDDDLRRGQPTTHKAFDEACAILAGDGLQTLAFEVLADPRGNPREIELRLAMITALARAAGPAGMVGGQAIDLGSVGRKLDRQALETMHRHKTGALIEASVQLGALASGQADDIALKALHQYAQAIGLAFQVQDDILDVESDTATLGKTQGKDQANDKPTYPALLGLNAAKAYAQDLRDQALHALRAFGDAAEPLRELARFIVERRN	PGPT0007560_2078	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CAROTENOID_BIOSYNTHESIS,PGPT0007560-crtE|ispA-K13789	NA	NA
BMS010_07075	3264	accA_2		Acetyl-coenzyme A carboxylase carboxyl transferase subunit alpha	ATGCCCTTTGCCGCCCTGTTGATCGCCAACCGTGGCGAGATCGCCATCCGTATCGCCCGCGCCGCCGCCGAGCTGGGCATCCGCAGCGTGGCAGTGCACGCCGAAGACGACGCCGGCTCGCTGCACACCCGCAAGGCCGATCTCAGCGTGCCGCTCGCCGGACGCGGCGCGGCAGCGTATCTGGACATGCGCCAACTGATCGACATCGCCCTGGCCCAGGGCTGCGACGCCCTGCATCCCGGCTACGGCTTCCTCAGTGAGAATGCGACCTTCGCCCGCCTCTGCGCCGAGGCCGGCATCCGCTTCATCGGCCCGGCGCAGGAGGTGCTGGAAGTCTTCGGCGACAAGGCCAGGGCCCGTGAGCTGGCCGAGCGCTGCGGCGTGCCGCTGGCGGCCGGCAGCAACCGGGCGACCCGCCTGGAGGACGCCCGCGCCTTTCTCGCCGACGGGCCGATCATGCTCAAGGCCCTGGCCGGTGGGGGTGGACGCGGCATGCGCGCAGTCCGCGAGGCGAGCGAGCTGGAGGAGGCCTACGCCCGCTGCCAGTCCGAAGCACGCACGGCCTTCGGCAATGGCGACCTCTACGTCGAGCGGCTGATCGAAAATGCCCGGCACATCGAGGTGCAAGTGATCGGCGACGGCCACCGTGTCACCCACCTATGGGAACGCGATTGCAGCCTGCAACGGCGCCACCAGAAGCTCATCGAACTCGCCCCCAGTCCGGGCCTCGACGCCGCGCTGCGCCAACGTATCCTCGACGCCGCCCTGACCCTGGCGGAGGCCACCCACTACCAGGGCATCGGCACCTTCGAGTTCCTGGTGGACGCGGCGCGCGGCGACTTCGTGTTCATGGAGGCCAACCCGCGTATCCAGGTCGAACACACCGTGACCGAGGCCATCACCGGCGTCGATCTGCTGCACGCCCAGCTGCGCCTCGCCGCGGGCGCCCGTCTCGACGAACTGGGCCTGGCGCAGCCGCCGGCGACCCGTGGCAGCGCGATTCAACTGCGGATCAACCTGGAAAGCATGCAGGCGGACGGCAGCGCCCGCTCCAGCGGTGGCACTCTCGCCGCCTATGAGCCGCCGAGCGGGCCGGGCATCCGCGTCGATGGCTACGGCTACGCCGGCTACACCACGTCCCCGAGCTACGACTCGCTGCTGGCCAAGCTGATCGTCCACGGCGACGACCATGCCTCCGCCCTGCGCCGCACCTACCGCGCCCTCTGCGAGTTCCGTCTGGAAGGCGTGGCGAGCAATATCCATTTCCTGCAAAACCTGCTGCGCCGTCCCGAGCTGGCGGACAACCGGGTCGACACCCGCTTCATCGAGCGCCACATCGCCGAACTGCTGGCGCCCCAGGCGCAGGCCCACCCGCACCTGTATGCGCCCGTCGAGGCCGCTACGGACACCCGCCCGCACCAGACCGACGCCCCACCCGGCTGCCTGCCGCTGGCGGCACCGAGCCAGGGCGTGCTGGTGAGCCTGGACGTACAGGTCGGCGACGCCGTCGCCGTGGGCCAGACGGTGGCGGTGCTGGAAGCCATGAAGATGGAATTCGTGGTCAAGGCCCGCCAGAGCGGCATCGTCCGGGCGCTGGCCGCCGAGCCCGGCGCCAGTCTGTTCGAGGGCGCCGCGTTGCTGTTTCTCGAACCGGCGGACGTGGACGGCCCGGCGCTGGCCAGCGAAGAGCAGCTCGACCTCGACCACATCCGCGCCGACCTCGCCGAGGTCCTCGAACGCCACGCCCTGACCCGCGACGAGCGCCGCCCGGAAGCCGTGGCGAAACGGCGCCGCACTGGGCAGCGCACCGCCCGCGAAAACCTCGCCGACCTGCTCGACGCGGGCAGCTTCAACGAATACGGCGCCCTCGCCCTGGCCGCCCAGCGCCGGCGCCGCTCGGCGGAAGAACTGCTGCAGCTCAGCCCGGCCGACGGCCTGGTGGCCGGCATCGGCACGGTCAACGCCGAACGCTTCGGCGCCGAGGCGGCACGCTGCATGGCGCTGGCCTACGACTACACGGTGTTCGCCGGCACCCAGGGGGTGATGAACCACAAGAAGACCGACCGCCTGCTGCAACTCGCCGAGCAATGGCGACTGCCGCTGGTGCTGTTCGCCGAGGGTGGTGGCGGGCGGCCGGGCGACACCGATTTCGTCGGCGTCGCCGGCCTCGACTGCCACACCTTCGTCGGCATGGCCCGGCTGTCGGGGTTGGTGCCGCTGGTGGGAATCGTTTCCGGCCGCTGCTTCGCCGGCAACGCCGCGCTGCTCGGCTGCTGCGACGTGATCATCGCGGCGAAGGATGCCAGCCTCGGCATGGCCGGCCCGGCGATGATCGAGGGCGGCGGCCTCGGCCGCTTCGCCCCGGAAGAGGTCGGCCCGGTGAGCGTGCAGGCGCCGAACGGGGTGATCGACGTGGTGGTCGAGGACGAGGCCGACGCGGTGCGGGTGGCGCGGCAATACCTGTCCTATTTCCAGGGCCCACTCGACGACTGGCAGTGCGCCGACCAACGCCTGCTGCGCCAATCGATCCCGGAAAACCGCCTGCGCGTCTACGACATCCGCCAGCTCATCGAAACCCTCGCCGACAGCGGATCGGTGCTGGAGCTGCGCCGGCAGTTCGCGCCGGGCATGATCACCGCCCTCGTCCGCATCGAAGGACGGCCGTTCGGCCTGCTGGCCAACAACCCCGCCCACCTGGGCGGTGCCATCGACGCGGCCGCCGGCGACAAGGCCGCGCGCTTCATGCAGCTCTGCGATGCCTTCGACCTCCCGTTGCTGTCGCTCTGCGACACCCCCGGCTTCATGGTCGGCCCTGAGGCGGAGAAACAGGGCACGCTGCGCCACGTCTCGCGCATGTTCGTCGCCGCCGCCAGCCTGACGGTGCCGTTCTTCACCGTGGTGCTGCGCAAGGGCTACGGGCTCGGCGCCCAGGCCATGGCCGCCGGCAGCTTCCATTCGTCGCTGTTCACCCTCGCCTGGCCCACCGGCGAATTCGGCGCCATGGGCCTGGAAGGCGCGGTGCGCCTGGGCTTCGCCAAGGAGCTGGCGGCCCAGCCGGACGAGACGGCCCGCCAGGCGCTGTTCGACAAGCTGGTGGCCAAGGCCTACGACAACGGCAAGGGCCTCAACATGGCCAGCTACCTGGAAATCGACGGCGTGATCGACCCGGCGGAAACCCGCGCCTGGCTGATACGCGGCCTCAATTCCGTGCCCCACCCGCCACGCCGGGACGGCAAGAAACGCCCCTTCATCGACACCTGGTGA	MPFAALLIANRGEIAIRIARAAAELGIRSVAVHAEDDAGSLHTRKADLSVPLAGRGAAAYLDMRQLIDIALAQGCDALHPGYGFLSENATFARLCAEAGIRFIGPAQEVLEVFGDKARARELAERCGVPLAAGSNRATRLEDARAFLADGPIMLKALAGGGGRGMRAVREASELEEAYARCQSEARTAFGNGDLYVERLIENARHIEVQVIGDGHRVTHLWERDCSLQRRHQKLIELAPSPGLDAALRQRILDAALTLAEATHYQGIGTFEFLVDAARGDFVFMEANPRIQVEHTVTEAITGVDLLHAQLRLAAGARLDELGLAQPPATRGSAIQLRINLESMQADGSARSSGGTLAAYEPPSGPGIRVDGYGYAGYTTSPSYDSLLAKLIVHGDDHASALRRTYRALCEFRLEGVASNIHFLQNLLRRPELADNRVDTRFIERHIAELLAPQAQAHPHLYAPVEAATDTRPHQTDAPPGCLPLAAPSQGVLVSLDVQVGDAVAVGQTVAVLEAMKMEFVVKARQSGIVRALAAEPGASLFEGAALLFLEPADVDGPALASEEQLDLDHIRADLAEVLERHALTRDERRPEAVAKRRRTGQRTARENLADLLDAGSFNEYGALALAAQRRRRSAEELLQLSPADGLVAGIGTVNAERFGAEAARCMALAYDYTVFAGTQGVMNHKKTDRLLQLAEQWRLPLVLFAEGGGGRPGDTDFVGVAGLDCHTFVGMARLSGLVPLVGIVSGRCFAGNAALLGCCDVIIAAKDASLGMAGPAMIEGGGLGRFAPEEVGPVSVQAPNGVIDVVVEDEADAVRVARQYLSYFQGPLDDWQCADQRLLRQSIPENRLRVYDIRQLIETLADSGSVLELRRQFAPGMITALVRIEGRPFGLLANNPAHLGGAIDAAAGDKAARFMQLCDAFDLPLLSLCDTPGFMVGPEAEKQGTLRHVSRMFVAAASLTVPFFTVVLRKGYGLGAQAMAAGSFHSSLFTLAWPTGEFGAMGLEGAVRLGFAKELAAQPDETARQALFDKLVAKAYDNGKGLNMASYLEIDGVIDPAETRAWLIRGLNSVPHPPRRDGKKRPFIDTW				NA	NA	NA	NA	NA
BMS010_07076	951	ephA		Epoxide hydrolase A	ATGCGCGACTACGAACACCAACGGCTCGACGTCAACGGCATCCAGCTCAGCCTCTACTCGGCCGGCCCGGCGAACGGCCGCCCGGTCTGGCTGCTGCACGGCTTCCCCGAGTGCTGGTACGCCTGGCACCCGCAGATCGACGCGCTGGCCGCCGCCGGCTACCGGGTACACGCCCCGGAGATGCGCGGCTACGGCCAGAGCAGCGCGCCACGGGAGATCGGCGCCTACGCCCTGCTGACCCTGTGCGATGACATCCTCGGCGCCATGGACACCCTGGGCGAACGCACGGTTTGCGTGGTCGGCCACGACTGGGGCGCGGTGGTCGCCTGGCACCTGGCGCTGCGGGCGCCGGAGCGGGTCCAGGCCCTCGGCGCCTTCTCGGTGCCCTACGGCGGACGGCCGAAACGCCCGGCCACCGAGATCATCCGCGAAGCCAGCGCAGGACGCTTCAACTACATCCTGCACTTCCAGGAACCGGGCGTGGCCGAAGCCGAACTGGATGCCGACATCGAACGCAGCCTGCGCCTGCTGCTCGGCGAACTCGACCGGCCCCTGCTGCACGACCGCCCGGCCGGCCACGGCCTGTTCGACGGCCTCCCCGCACACCCGCCGCTACCGGCCTGGTGCGACGCCGACACCTTCGACGCCTACCGGCAGAGCCTGGCTCGCGGCTTCCACGGCCCACTCAACTGGTACCGCAACTTCGAACGCAACTGGGAGGAAACCGCCCCCTTCGCCGGCCAGTTGGTGACACCGCCGACGCTGTTCCTGGTCGGCGACAACGACCCGGTGGCCCGCCTGGAAGCCCACACCCTCAAACGCATGGCCGACGTCGTACCGCGCCTGGAACAACACCGCCTGCCGAACTGCGGCCACTGGCTGCAAGGCGAACAGCCGCAGCGGGTGAACGCGCTATTGCTGGACTTTCTCGCGCGCCACTACCCTGCCTGA	MRDYEHQRLDVNGIQLSLYSAGPANGRPVWLLHGFPECWYAWHPQIDALAAAGYRVHAPEMRGYGQSSAPREIGAYALLTLCDDILGAMDTLGERTVCVVGHDWGAVVAWHLALRAPERVQALGAFSVPYGGRPKRPATEIIREASAGRFNYILHFQEPGVAEAELDADIERSLRLLLGELDRPLLHDRPAGHGLFDGLPAHPPLPAWCDADTFDAYRQSLARGFHGPLNWYRNFERNWEETAPFAGQLVTPPTLFLVGDNDPVARLEAHTLKRMADVVPRLEQHRLPNCGHWLQGEQPQRVNALLLDFLARHYPA	PGPT0019791_36	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TERPENE_UTILIZATION	PLANT_DERIVED_EPOXIDE_DEGRADATION,PGPT0019791-ephA-NA	NA	NA
BMS010_07077	1890	dxs_2	COG1154	1-deoxy-D-xylulose-5-phosphate synthase	ATGCCCAAGACGTTCCACGAGATCCCCCGCGAGCGCCCCGAAACGCCGCTGCTCGACCGTGCCGACACCCCGCAGCAGCTGCGTCTGCTGGGCGAGGCGGAGCTCGAGGTGCTCGCCGACGAGCTGCGCCAGTACCTGCTGTACACGGTCGGGCAGACCGGCGGGCATTTCGGCGCCGGCCTCGGCGTGATCGAACTGACCATCGCCCTGCACTACGTCTTCGACACACCCGACGACCGGCTGGTCTGGGACGTCGGCCACCAGGCGTATCCGCACAAGATCCTCACCGGCCGCCGCGAACGCATGAGCACCCTGCGCCAGAAGGACGGCATCGCCGCCTTCCCGCGCCGCTCGGAAAGCGAGTACGACACCTTCGGCGTCGGCCACTCCAGCACCTCCATCAGCGCCGCCCTGGGCATGGCCATCGCCGCCCGCCTACAAGGCAGCAAGCGCAAGAGCGTGGCGGTGATCGGCGACGGCGCGCTGACCGCTGGCATGGCCTTCGAGGCGCTGAACCACGCCTCGGACGTGAAGGCCGACATGCTGGTGGTGCTCAACGACAACGACATGTCCATTTCGCGCAACGTCGGCGGGCTGTCCAACTACCTGGCGAAGATCCTCTCCAGCCGCACCTACGCCAGCATGCGCGAAGGCAGCAAGAAGGTCCTCTCGCGCCTGCCCGGCGCCTGGGAAATCGCCCGCAAGACCGAAGAACACGCCAAGGGCATGCTGGTCCCCGGCACGCTGTTCGAAGAGCTGGGATGGAACTATATCGGCCCCATCGACGGCCACGACCTGCCGACCCTGCTCGCCACCCTGCGCAACATGCGCGACCTGGAAGGCCCGCAGTTCCTCCACGTGATCACCAAGAAGGGCAAGGGCTTCGCCCCGGCCGAAGTCGACCCCATCGGCTATCACGCGATCACCAAGCTGGAGCCCCTGGGCGCGGCGCCGAAACAGGCCGGCGGGCCGAAGTACTCCAATGTGTTCGGCCAGTGGCTGTGCGACATGGCCGCCGCCGACACCCGCCTGATGGGCATCACCCCGGCGATGAAGGAAGGCTCGGACCTGGTGGCCTTCAGCGAGCGCTTCCCGGAGCGCTACTTCGACGTCGCCATCGCCGAGCAGCACGCCGTCACCCTGGCGGCCGGCATGGCCTGCGAAGGCGCCAAGCCGGTGGTGGCGATCTACTCCACCTTCCTCCAGCGCGCCTACGACCAGTTGGTCCATGACGTCGCGGTGCAGAACCTCGACGTGCTGTTCGCCATCGACCGCGCCGGCCTGGTGGGCGAAGACGGCCCAACCCACGCCGGCAGCTTCGACCTCTCCTACCTGCGCTGCATCCCCGGCATGCTGGTGATGACCCCCAGCGACGAGAACGAGATGCGCCGCCTGCTCACCACCGGCTACCTGTTCGAAGGCCCGGCCGCCGTGCGCTACCCGCGCGGCAGCGGGCCGAACGCCGCCATCGAGCCCGGCCTGGAGCCGCTGGAAATCGGCAAGGGCGTCGTCCGCCGCCAGGGCCAGGGCGTGGCCTTCCTGGTGTTCGGCGTGCAACTCGCCGATGCGCTCAAAGTGGCCGAAGGGCTGGACGCGACCGTCGCCGACATGCGCTTCGTCAAGCCGCTGGACGAGGCCTTGGTACGCCAGTTGGCCGACAGCCATGAGTTGCTGGTGACCGTCGAGGAAAACGCCGTGATGGGTGGCGCCGGCAGTGCGGTGAATGAATTCCTGGCCCGCGAGGGTCTGCGCGTCCCGGTACTCAACCTGGGCCTGCCGGACTACTACGTCGAGCACGCCAAGCCGGCCCAGATGCTCGCCGAGTGCGGCCTCGACGCCGTCGGCATCGAAGCTGCGGTGCGCGCGCGCCTGGCCAGATCGAACGATTGA	MPKTFHEIPRERPETPLLDRADTPQQLRLLGEAELEVLADELRQYLLYTVGQTGGHFGAGLGVIELTIALHYVFDTPDDRLVWDVGHQAYPHKILTGRRERMSTLRQKDGIAAFPRRSESEYDTFGVGHSSTSISAALGMAIAARLQGSKRKSVAVIGDGALTAGMAFEALNHASDVKADMLVVLNDNDMSISRNVGGLSNYLAKILSSRTYASMREGSKKVLSRLPGAWEIARKTEEHAKGMLVPGTLFEELGWNYIGPIDGHDLPTLLATLRNMRDLEGPQFLHVITKKGKGFAPAEVDPIGYHAITKLEPLGAAPKQAGGPKYSNVFGQWLCDMAAADTRLMGITPAMKEGSDLVAFSERFPERYFDVAIAEQHAVTLAAGMACEGAKPVVAIYSTFLQRAYDQLVHDVAVQNLDVLFAIDRAGLVGEDGPTHAGSFDLSYLRCIPGMLVMTPSDENEMRRLLTTGYLFEGPAAVRYPRGSGPNAAIEPGLEPLEIGKGVVRRQGQGVAFLVFGVQLADALKVAEGLDATVADMRFVKPLDEALVRQLADSHELLVTVEENAVMGGAGSAVNEFLAREGLRVPVLNLGLPDYYVEHAKPAQMLAECGLDAVGIEAAVRARLARSND	PGPT0008960_2208	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0008960-dxs-K01662	NA	NA
BMS010_07079	1887	btuB_3	COG4206	Vitamin B12 transporter BtuB	ATGAGACTGTCCCGACTCACCCTGGCCGTTGCGCTGCTGCCTGTCACCGGCTTCGCTGCCGAACCCGAAACCTACGACGACGCCCTCAAGCTCCCCGCCCTGGTGGTCACCTCCGGCCGCCAGGTGGAGCCGCAGCGCCAGGCCACCGCCGCCACCACCGTGTTCACCCGCAAGGACATCGAGCGCCTGCAGGTGCGCAGCGTGCCGGAACTGCTGGGGCGGGTGCCGGGCTCGTCGCTGGTGCAGAGCGGCGGACGCGGTAGCCAGACCGGCCTGTTCCTGCGCGGCACCTCGCCCGCGCAAACCCTGGTGCTGGTGGACGGACAGCGGATCGGCAGCGCCTCCAGCGGTACGCCGAGCCTGGAATTCCTCGCCATCGACCAGATCGAGCGGGTCGAAGTCACCCGCGGCCCCCGCTCGTCGCTCTATGGCTCCGATGCCATCGGCGGCGTGGTGCAGATCTTCACGCGCCGGGGCGAACCCGGCTTGCAGCCCCGCCTGCGGATCGCGGCCGGCAGCCACAACACCTTCGAGCGCAGCCTCGGACTTTCCGGTGGCGACGCCGCCACCACCTTCAACCTCGGCGCCAGCATGGATGACACCCGAGGCATCGACCGGACCCGCGACAACCTCGGCGGCGACGCCGACCGCGATGCCTTCCGCAACCGCGCCCTGAGCTTCAGCCTCAGCCACCGGTTCAACGACAGCCTGGAAGCGGGCCTGAACGTACTCGACCAGCGTGGCCAGGCCGAATACGACGACGCCAACGCCTTCGCCTCTGGCCAGCCCAGCGACGACTTCCTGCTGAGCAGCGCGTCCGGCTATCTCCAGGCACGGTTCAACGACGTCTGGACCAGCAAGCTGTCCCTCGGCCACAGCGAAGACAAGCGCGACACCAGTGACCCGACCAACCCCTTCGGCAACTTCACCTTCAACACCTACCGCGACTCCGCCACTTGGCAGAACACCCTGCAGCTCACCGAGCAGCACCAACTGCTGGCCGGCCTCGACTGGTACGAAGACAAACTGCACAGCACCACGGCCTTCAACGAGACCGAGCGCTGGAACCAGGCGGCCTTCATCCAGCACCGTTACCAGGGCGAGTGGTTCGGCACCGAACTGGGCCTGCGGCATGACAAGAACGAGCAGTTCGGCAGCGAGAACAGTTGGAACGCCGCCCTGCGCGTACCGGTCGGCACACTGGACGAGGTGATGCTGTCCTATGGAGAAGGCTTCCGCGCGCCGACCTTCAACGACCTGTATTTCCCCGACTTCTGCTCGTCGTTCGGCTGCTTCGCCAGCGCCAACCCCAACCTGAAACCGGAGCGCTCCAAGACCTACGAACTGCAATGGCGCCATCAGCTCGCCAACGACGGCAGCTTCGACGTCTCGCTGTACCGGACCGACATCCGCGACATGATCACCCTGGATGAAAACTTCATCCCGCAGAACGTCGCCACCGCCCGCATCAATGGCCTCGAGGCGAGCTGGAACCAGACGCTGTTCGGCTGGCACACCCGCCTCAGCGCCGGCCTCATCGACCCGCGCGACCGCGACAGCGGGCACACGCTGCAACGCCGCGCCAAACGCACCTTCAGCCTCGACCTGGACCGCGAGTTCGGCGACTTCTCGGCCGGGCTCGGCTGGCAGTTGGTCAGCCAGCGCTTCGACGACGCCGCCAACACCATCGAAGTACCGGGCTACGGCGTCCTGGGCGTCCGCGCCGGCTGGCAGATGACCCCGGAACTGCGCTGGGAAGCCAAGGTGGACAACCTCCTGGACCGCGACTACTTCAGCACCACCTACGGCCGGGTGGACGGTCGCTACGGCTACCGCGAAGAAGGCCGCACCGGCCTGCTATCGCTCACCTGGACGCCCACGCTCTAA	MRLSRLTLAVALLPVTGFAAEPETYDDALKLPALVVTSGRQVEPQRQATAATTVFTRKDIERLQVRSVPELLGRVPGSSLVQSGGRGSQTGLFLRGTSPAQTLVLVDGQRIGSASSGTPSLEFLAIDQIERVEVTRGPRSSLYGSDAIGGVVQIFTRRGEPGLQPRLRIAAGSHNTFERSLGLSGGDAATTFNLGASMDDTRGIDRTRDNLGGDADRDAFRNRALSFSLSHRFNDSLEAGLNVLDQRGQAEYDDANAFASGQPSDDFLLSSASGYLQARFNDVWTSKLSLGHSEDKRDTSDPTNPFGNFTFNTYRDSATWQNTLQLTEQHQLLAGLDWYEDKLHSTTAFNETERWNQAAFIQHRYQGEWFGTELGLRHDKNEQFGSENSWNAALRVPVGTLDEVMLSYGEGFRAPTFNDLYFPDFCSSFGCFASANPNLKPERSKTYELQWRHQLANDGSFDVSLYRTDIRDMITLDENFIPQNVATARINGLEASWNQTLFGWHTRLSAGLIDPRDRDSGHTLQRRAKRTFSLDLDREFGDFSAGLGWQLVSQRFDDAANTIEVPGYGVLGVRAGWQMTPELRWEAKVDNLLDRDYFSTTYGRVDGRYGYREEGRTGLLSLTWTPTL	PGPT0003740_1661	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-VITAMIN_B12_RELATED_FERROUS_UPTAKE,PGPT0003740-butB-K16092	NA	NA
BMS010_07080	561			hypothetical protein	ATGTTTTCCCGCTTGCTGTTACTGCCCCTCATCCTGCTCCTGGCCGCCTGCCAGACCACCCGGCTGGAGCGGGACTTCGACCCCAACCGCGACTTCGCCGCCTACCGCAGTTGGAGCTGGCAGGAACCCGCCCTGCAATACCGCCCCGACGACCCGCGCCTGAAGAGCGATCTCACCGAACAACGCATCCGCGAGGCAGTCTCCGAGCAACTCGACCAGCGCGGCCTGCGCCTGGCACAGGCCGGTACGGCGGGGGACGTGAAGGTGCAGGTCTGGCTGATCGTCGACAAGCGCCGTGACGAAGTCACCACCCACTACGGCGGCTTCTGGGGCGGGCCGTGGAACGGCTACTGGGGCGGACCGGGCTACAGCGAGACGCGCACCCTCGACTACCAGGTCGGCACCCTGCAGATCGACCTCTACGACGGCAAGGACGGCAAGCTGGTCTGGCGCGGCAGCGGCGAGCAGATCATGCGCAGCGACCAGCCGAACCCGAACGAGCGCGCAGCCGCCATCCGCGAAACGGTGGCGAAAGTTCTCTCCCAATACCCGCCGCACTGA	MFSRLLLLPLILLLAACQTTRLERDFDPNRDFAAYRSWSWQEPALQYRPDDPRLKSDLTEQRIREAVSEQLDQRGLRLAQAGTAGDVKVQVWLIVDKRRDEVTTHYGGFWGGPWNGYWGGPGYSETRTLDYQVGTLQIDLYDGKDGKLVWRGSGEQIMRSDQPNPNERAAAIRETVAKVLSQYPPH				NA	NA	NA	NA	NA
BMS010_07081	489			hypothetical protein	GTGGACACACCCAACCTCACCCACCGCCCCGCCGCGGACGACGACCTGCACCAGGTGATCGACTTCGTGCAGACGCCGGACGAACTCTTCTTCGCCTACCCCAAGGGCACCTGGCCGCTCACCGTCGAACAGCTCGCCGCCGCCCGCGCCGAGCGGCGCGGCAGTACCCTTGCGCTGCTCGACGGCCGCCCCGCCGGCTACGCCAACTTCTACCAATGGCACCCCGGCGAAAGCTGCGCCCTGGGCAACCTGATGATCGCCCCCTGGGCCCGCAGCCGGGGCGTGGCGCGCTACCTCATCGGCGTGATGGAACAACAGGCCCGCGAGCACTTCGACGCCCGCCGCCTGGACATCTCCTGCTTCAACGCCAACGCCGCCGGGCTGCTGCTCTACACCCGGCTCGGCTATACGCCGAAGGAAGTCGTCGAACGCAGCGACCCGCAGGGCCAGCGGGTCGCCCTGATCCGCCTGGAGAAAGCCCTTGGCTGA	MDTPNLTHRPAADDDLHQVIDFVQTPDELFFAYPKGTWPLTVEQLAAARAERRGSTLALLDGRPAGYANFYQWHPGESCALGNLMIAPWARSRGVARYLIGVMEQQAREHFDARRLDISCFNANAAGLLLYTRLGYTPKEVVERSDPQGQRVALIRLEKALG				NA	NA	NA	NA	NA
BMS010_07082	369			hypothetical protein	TTGGCTGATGCACAGCGGGTCCTCATCCTGGTCGCCAGCGGCCCGAGCACGCCCGCGCGCTGCGCCGCACCCTTCCACGTCGCCACCCTGCTCGCCTGCATGGACGCCAACGTCACCCTCTACCTCACCGGCGAAGCCACCCAACTGGCCCACCGAACCGTCGCGGAAAGCCTGCGCGCCGTGGAAGGCGGCGAGCCCGTGCTGCATTTCATCCAGCAGGCGAAGCACGCCGGCGCCCGTTTGCTGATGTGTCGCCAACCCGGCGTGCCCCTGGACCCGGAGGCGCTGATCGACGAACTGGATGAAATCGCCAGCGGCGGCGAACTGGCGCAACTCATCCTCGAATGCGACAAGGTGCTCAGCCTGTGA	MADAQRVLILVASGPSTPARCAAPFHVATLLACMDANVTLYLTGEATQLAHRTVAESLRAVEGGEPVLHFIQQAKHAGARLLMCRQPGVPLDPEALIDELDEIASGGELAQLILECDKVLSL				NA	NA	NA	NA	NA
BMS010_07083	465	gcvH_2		Glycine cleavage system H protein	GTGAACCTGCACGGCCTGGATTTCCCCGAGGGGCTGCTCTACGCCCCCGCTCACAACCTCTGGCTGCGCGAAGAGGCGGACGGCAGCGTCACCCTCGGCCTCACCGCCTACGGCTGCGCGCTCTACGGGCAGATCTTCGCCTTCATCGCCAAGCGCCCCGGCACTCGCATCGAGGCGGAGCGCAGCTTCGGCGTGGTGGAATTCGCTAAGGCCGCCGCCTCGGCGCGCAGCCCGCTGGCGGGCGAACTGCTGGCAGCCAACGACGCCCTGCTGCACCACCCTGGCCTGATCAACCGCGACTGCTACGGCGAGGGCTGGATGGTGCGCCTGCGCCCGGACGACTGGCCCATCCAGCGCTCCGCCTTCCTCCAGGGCGAAGCAGCCGTGGCGGCCTTCGCCGAACGCATGCGCCAGGACGGTTTCGACCCCGCCGACAACGGCGTGCAAGCGCTGCGAACCGACTAG	MNLHGLDFPEGLLYAPAHNLWLREEADGSVTLGLTAYGCALYGQIFAFIAKRPGTRIEAERSFGVVEFAKAAASARSPLAGELLAANDALLHHPGLINRDCYGEGWMVRLRPDDWPIQRSAFLQGEAAVAAFAERMRQDGFDPADNGVQALRTD				NA	NA	NA	NA	NA
BMS010_07084	621			hypothetical protein	ATGAACGACCTGACGCCCCCTACCTTCGATGGCCAGCAGTGGAGCAACGCTGCGGACGACCCGATCCGCATCGAAGCCCCCCGCGAGGACTGGCCGCAACGCTACGACGAAGAAGCCGCCCGCATCCGCGACGCCCTGGCCGAGCGCGGCATCGCCGGTGTGCGCCTGGAACACTTCGGCAGCACCGCCGTGCCGGGCCTGGCGGCCAAGCCGATCATCGACATCCTGCTCATTCCCCCGCTGGACGCCGACTGGCAGCGCCTGGTCGAACCGCTGGAGGCGCTTGGCTACCAGTTCTGGCGCAGCAACCCGGCGACCCAGCGGATGTTCTTCGTCAAAGGCATGCCACCCTTCGGCCAAAGCCGCACCCATCACGTCCACGTCATGGGCCTGGACGAAGCCGACCGCCACCTGCTGTTCCGCGACTACCTGCGCACCCACCCCGAAGACGCCCAAGCCTACGCCCGCCTCAAGCGCGAACTGGCCGAGCGCTACCCCCACGACCGCGAAGCCTACACACGCGGCAAGGACGCCTTCGTCGCCACCCTCCTCGGCCGCCAACAAGCCACCATGTCCGCCCCGGACCAAGGCGGCCCGGTGATGCCCGACGCCCAGCCGTAG	MNDLTPPTFDGQQWSNAADDPIRIEAPREDWPQRYDEEAARIRDALAERGIAGVRLEHFGSTAVPGLAAKPIIDILLIPPLDADWQRLVEPLEALGYQFWRSNPATQRMFFVKGMPPFGQSRTHHVHVMGLDEADRHLLFRDYLRTHPEDAQAYARLKRELAERYPHDREAYTRGKDAFVATLLGRQQATMSAPDQGGPVMPDAQP				NA	NA	NA	NA	NA
BMS010_07085	1317			hypothetical protein	ATGCCCGAACAACTCACAATACAAACCTACGTCGACGGCCAATGGCACGACGCTCTGGTGCTCACTGTAGAAAACTCGAGAAAGGTCGCCGAGGGGGCTTGCTCGGTCGCCTACCACCAAGCCTATCTCCTGCAATTCCTCGACAAAATCGATTCGATTTTCGAGAACGCTGTTAGCGTGAACGTGCCGATGAACTGGACGATCGCTCGCGGCATCGGCTACCCGGCGTTCGTCTATGACATCGTGCCTGCCGGTGCCGCTCGGAGATCGCTGGAGGCCCGCTTTTCCAACGAAAAGCCGGAGGGGATGGACATGGAGTTTTTTCTCCTGAAGCGTTGTTCTCCCGCGCCCATCGGACATCTGCGGGTAAAGGAATCCTTCGAGCATATAGACCAGGGGCGGACCATCGCTTTTTCGCGCGCGGAGGTCGTAGAGAGAACGAACGAATTTCTGGAGTACGCCTACGAGCTGGGCGCGGCTATCGGCGGCGCCACCGGCGCCCAGGGCGAAGCGCCGAAGCTGCTCATGGCCGAGGATGCCAACGGTGGGCTGCATGCCGATGCCGTGTTGCCGGATGATCACGTCAAACGCCATTGGCTCGTGAAATTCGCCCGCAACCGAGTGACCGAGCGTGACAAGAACATCCTGCGCGCCGAATACCACTACTACAAAGCGATCTCGACGCTGGGACTGAATACCCTCTCAACGGACGGGCTGGCGCTCGAAGAGGCTGAAAAACCCAGCCTTTGGATGCCCCGCTTCGACAGACGCATCATCAATGGCAGGGTAGAACGCCTTCCCATGGAGTCGATCTACTCGATCTGCGGGAACACCGTTCCAGGCTCCCCGATGAGGCATGAAGAGGTGCTGTATCGCCTGGCCAACCTTTGGCGGGAGAACCAGCAAACCGACGAAATCGAGGATTTGGTATTCGAGTACGTGCGGCGCGACCTGCTCAACCGCATCCTGGGTAACTCGGATAACCATGGCCGGAATACCTCGGTCATCCGTTACCAACAACGTTTCCAGCTGGCGCCCATCTACGACCTCGCTCCGATGGTGCTTGATCCGGAGGGCGTCACGCGGGTCACCAAATGGGAGAGCGAGCGGCAAGGCTCGCCCAACTGGGAAGCTGTATCTGCGGCCCTCAAGGGACTGATCGCCCCGGATACCCTGATGCGTCGTTTGAAAGGCGCAGCCCAGGAATTTCGAGCCCTTCCCAGCCTTCTGACGGACCTTCCGGAAGAAGTACTGAAGGCTCGTTCGATCCCCCTCAACAACCTGGATACCCGCCTGGGTGAATGGGGCCTGCTATGA	MPEQLTIQTYVDGQWHDALVLTVENSRKVAEGACSVAYHQAYLLQFLDKIDSIFENAVSVNVPMNWTIARGIGYPAFVYDIVPAGAARRSLEARFSNEKPEGMDMEFFLLKRCSPAPIGHLRVKESFEHIDQGRTIAFSRAEVVERTNEFLEYAYELGAAIGGATGAQGEAPKLLMAEDANGGLHADAVLPDDHVKRHWLVKFARNRVTERDKNILRAEYHYYKAISTLGLNTLSTDGLALEEAEKPSLWMPRFDRRIINGRVERLPMESIYSICGNTVPGSPMRHEEVLYRLANLWRENQQTDEIEDLVFEYVRRDLLNRILGNSDNHGRNTSVIRYQQRFQLAPIYDLAPMVLDPEGVTRVTKWESERQGSPNWEAVSAALKGLIAPDTLMRRLKGAAQEFRALPSLLTDLPEEVLKARSIPLNNLDTRLGEWGLL	PGPT0027480_105	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HipA-HipB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027480-toxin_hipA-K07154	NA	NA
BMS010_07086	354			hypothetical protein	ATGAATATCCTCACGCCCGAAGAGCGCCAGAAACTGCTCGAAGACATCCAACTGCAGAACACGCTGGGCAAGGAGACGCTGGGAACGTCGATACGTCGTCTGCGCCTAGAGATGACCGGCCTCGATCAAGAAACCTTCGCCGCCATGTGCAAAATCTCGACGAGAGCGCTCTACCAGTTGGAAAGCGACAAAGGCAACCCGACCCTCAACACCCTCAACGGCATTCTGCGACTGTTCGGTATGAAGATGACGCTCGGCTCGATCAGGAGCGCCCCCATCATTCCGACAGAGACGCGCACCATAACCAAAAAGCGCGGCGCACGGCCGGCCTCGAAGATCAGACAAAACGGATAA	MNILTPEERQKLLEDIQLQNTLGKETLGTSIRRLRLEMTGLDQETFAAMCKISTRALYQLESDKGNPTLNTLNGILRLFGMKMTLGSIRSAPIIPTETRTITKKRGARPASKIRQNG				NA	NA	NA	NA	NA
BMS010_07087	324			hypothetical protein	ATGAAAGGCTTCTTTCCTGTCCAGTGCACCACGACCCTGCACAAAATCGGCCTTCTGGTAAAAGAAGCCAGGCTTCGCCTGAGCATCCGGCAGGTCGATCTGGCCGAACAGGCAGACATCTCCCTGCGTGCCGTACGGCATATCGAGGCAGGGAATGCCGAGGGTGTATCCCTGCGCGACTTCATGATGGCCTTGTTCACACTGGGCATCACCGACCGGGTTTTCCAGAGCCTGAATGAAGACCCGGCCTTCACCTCCCGATTCCTGGACACGGCCGGGGACAAACGCGTCCGCCTGCCCAAGAGCCGGTCGGAGGACTTCTGA	MKGFFPVQCTTTLHKIGLLVKEARLRLSIRQVDLAEQADISLRAVRHIEAGNAEGVSLRDFMMALFTLGITDRVFQSLNEDPAFTSRFLDTAGDKRVRLPKSRSEDF				NA	NA	NA	NA	NA
BMS010_07088	1227			hypothetical protein	ATGGCCAGCGCCTACATCTACATGGAGTGTCCGCTCACCGGCGAAACCGTGACCTTGGGCAAGCTGACGATCGACGGCAAGGAAGGCGCCTTCGTTTACTCGCCCGAGGCCGTCGAGCAAGGCTTCTGGGTACCCGACCCGATCCGCTTCCCACTCTCCGACCGTAAATTCATCGTCCGCCGGAACAATGGAGTACCCGGCTTCATCGACGACGCCATGCCCGACGGCTGGGGCGAGCGGCTATTGCGGCGCACACTCAAGGGCGACCTGGGGCCGATTCAATTGCTGCTGAAATCCCCCAACGAAGACCGTGCCGGCAACATCATGGCCGGTGAACAACGAACTCCCCGGCAAGGTATCGGCGACAAACCCCAGAAAATGCTGGACGCCAAAGGACTGGATCACTTCATCGACGTATGTGCGGCCGTCTACGATAGCCAGCTCACCTCCGAGCAACTGGAAGCCCTGCGGGTTCGCGACCAGCGCTCCTCGGCGGGTGGCGCGCGGCCGAAGCGCACCTACCGGAGCGATCACAAACTGATCCTGGCGAAGCCACGCGACAAGTTCGACCACTACGACCTCCCCGTCTTCGAACATGCCTGCATGACCTTTGCCGGCAGCAGAGGCATGAACGTCGCCAAGACAGCCCTCCATCGCGGGGAAAAAGCCAATACGCTACTGATCGAGCGATTCGACCGGCTGTATAGCGAGCAGGAAAAGCGCTTTCGCCGCATACCGATGCTGAGCGGCCTGACCCTGCTGGACGCCGAGTGGCAATCGCAAACCTTCGAGGGCTGGATCTACGCAGCCCTTGCCGATGAGCTATACCGCCGCGGCGCCCCGGACGAAGACCGCCGCGAACTGTTCAGGCGCATGGCCTACAACGCCTTGGTGGGAAACAGCGACGACCACCCGCGCAACCATGCCGTGATGTGGAAAGACGGCACTTGGCGCCTGGCCCCCATGTACGACGTGCTGCCCGTCCTGGACGAAGGCCCCGCCCAGGCGCTATCGATGGCGGTTGGGGTAGAGGGCAACGTGATCCACAGGGCCAACCTGTTGAGCCAGCACCTACATTTCGCCCTGAACAAAGGCGAGGCGGAAGCGATCCTGGACGAAGTTGCCCACTGGGAACCAGAACTGAAGGACCACTACGCCCAACACCTCACCGGCGCCGAACTGGATGCCGCCGTAGCAGCCACCAGCGGCGCCAGATTGCTGAAATAG	MASAYIYMECPLTGETVTLGKLTIDGKEGAFVYSPEAVEQGFWVPDPIRFPLSDRKFIVRRNNGVPGFIDDAMPDGWGERLLRRTLKGDLGPIQLLLKSPNEDRAGNIMAGEQRTPRQGIGDKPQKMLDAKGLDHFIDVCAAVYDSQLTSEQLEALRVRDQRSSAGGARPKRTYRSDHKLILAKPRDKFDHYDLPVFEHACMTFAGSRGMNVAKTALHRGEKANTLLIERFDRLYSEQEKRFRRIPMLSGLTLLDAEWQSQTFEGWIYAALADELYRRGAPDEDRRELFRRMAYNALVGNSDDHPRNHAVMWKDGTWRLAPMYDVLPVLDEGPAQALSMAVGVEGNVIHRANLLSQHLHFALNKGEAEAILDEVAHWEPELKDHYAQHLTGAELDAAVAATSGARLLK	PGPT0027480_2274	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HipA-HipB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027480-toxin_hipA-K07154	NA	NA
BMS010_07089	285			hypothetical protein	ATGACAACGGCTGCTGATAGAGCCCGCCTATTGATCAAGCAAATAGGCCCGAAGAAAACCAGCGCGTACGGTGGTGATTACCAACGCTGGAAGAGCGTCAGCAAGGGCGCGGTTCGGGTCTCCACCGAAGAAATCGATGTGCTGGTGAAGATTTACCCGCAATACGCGCTGTGGCTCGCCAGCGGCCAGATCGCCCCGGAAATCGGGCAGACGAGTCCCGAATACGACGAAGCGCACCCAGGCGTGCCGGCATCCGGCAAGGCCCCAGGGAAATCACCGAGCTGA	MTTAADRARLLIKQIGPKKTSAYGGDYQRWKSVSKGAVRVSTEEIDVLVKIYPQYALWLASGQIAPEIGQTSPEYDEAHPGVPASGKAPGKSPS				NA	NA	NA	NA	NA
BMS010_07090	240			hypothetical protein	ATGGAATCGATGCAGGCAAGAGCTCGGCTTCTTATAGATAAGGCCGGCTTCGAACAGTTGATCAGAGAGAGCGACATCGGTTTGGTCCGCTGGCAAACCGTGCGCTACAAGAACATCCGGATGAGCACCCAGGAGCTTGAGGTGCTCGTTCGGTTTTACCCGCAGTACGCCTTTTGGCTGGCCAGTGGCAAGATTGCCCCGGAAATTGGGCAGACCAGTCCTGAGTACGATGAGGCGTAG	MESMQARARLLIDKAGFEQLIRESDIGLVRWQTVRYKNIRMSTQELEVLVRFYPQYAFWLASGKIAPEIGQTSPEYDEA				NA	NA	NA	NA	NA
BMS010_07091	210			hypothetical protein	ATGGATACGGAAGGCCTGGACCCGCAAAAGCTCATCGGATGCCCACCCCTCATGCCCTGGCAGTCCTTCGCCGAATGGATCGGCATGGGCGACGAACCCATCGTCGTACGAAGTTGGCTGGAACGCGGCTACATACCCAGCCTCAAGGTCGGCAGGCGCCTGATGGTCAACGTGGCGCTGCTGACGCGCCAGCTCATGGAACAGGAGTGA	MDTEGLDPQKLIGCPPLMPWQSFAEWIGMGDEPIVVRSWLERGYIPSLKVGRRLMVNVALLTRQLMEQE				NA	NA	NA	NA	NA
BMS010_07092	351			hypothetical protein	ATGCGACAGGGAAGCCCATCCCCACAACCCCAAACCTCCACCCGCCGCGAACTTCGGCTGCTTTGCCTGGTGGAACAAGCACCGGACGGTCGCGTCCTTTGCCTCCCCATCCACACCCTGTACCAGCTCCATGTCCCCTGGGCGGTCACCACATACAAATGGGCCCGAGTGCTCCCCGCAGGCTTCATCCTGCGCGACGCCCGCGCCACCGCACCAAGCCCCGAAGCACTGGCACGCTGCCGCCGACAGCACCGGGCCGATGCGCTGGGAACACGCTTGCGGGTTTATGACTGGAAGCCGCCTTTGCGGCGGCTCGTTGTGGGGTTAAGGGCCTGTGAAGGGAGCGGTTGA	MRQGSPSPQPQTSTRRELRLLCLVEQAPDGRVLCLPIHTLYQLHVPWAVTTYKWARVLPAGFILRDARATAPSPEALARCRRQHRADALGTRLRVYDWKPPLRRLVVGLRACEGSG				NA	NA	NA	NA	NA
BMS010_07093	1206			hypothetical protein	ATGGACCCTATCCGGAATCCCTACTCCCCTGGGGCCGGTACCAGACCACCGGAGCTTGCTGGCCGCGACGAACTGCGCGAAACGGTCCGCATTGCACTCGAGCGCATTCGGCTTGGCCGACCAGCCAGAAGCGTCATCATGGTTGGCCTTCGCGGTGTCGGGAAAACGGTCCTCCTGAATCAAATGCAGCGTGACGCGGAAGCTGCCGGCATCCAAACGGTCTACGTCGAGGCTCCCGAATCCAGATCATTACCCGCCATCCTGGCTCCCAAGCTTCGCGTAGCCTTGATCCGCATGAGCCGGATAGACGCGGCAAAGGAGGCGGCGATCAAGGGGCTTCGGGCATTGGCAGGCTTCGTCGGTGCCCTGCGCGTGAAGTTCGGAGACATCGAAGTCGGGATCGATTACGAACCCGAACCCGGCTTGGCCGACAACGGCGATCTTGAAGGGGACCTGATCGACCTGCTGCAACAGGTGGGTGAAGCGGCTAAAGCCTCGGGCACCGTCCTGGCCCTCTTCATCGACGAACTTCAGTATGTTGACGAAGACCAGTTCGCGGCATTGATCACCGCCCTGCACCGCGTCTCCCAGATTCCCTTACCCGTAACCCTGATTGGTGCCGGCCTCCCCCAGCTCCGAGGACGGGCGGGAAACGCCAAGTCGTATGCAGAGCGGCTCTTTACCTACCCGGATATAGGTCCCCTGCCCGCCCCACAAGCCAGTATCGCCTTTGCGAAACCCGCGGAAGACGAGCACGTCCGGGTTGAACCCGCCGCGACACAGAAGGTGGTCGATCTGACCGAGGGCTATCCGTACTTCATCCAGGAGTGGGGCAAGAACACCTGGGACCTGGCCAACGACGCCAGAATCACCGAACAGGACATAGACGCCGCGTCAGCCCAAGTCATCGCATCGCTAGATGAAAGCTTCTTCCGCGTGCGCTTCGACCGAATGACCCTGGCCGAGAAGATCTACCTGCGCGCCATGGCCGAGCTGGGGCCGGGGCCGCATCGCTCAGGCGATATCGCCGCCGTCCTCAATCGAAAAGTCCAATCGCTAGGCCCCATCCGCAGCAGCCTGATCGCAAAGGGAATGATCTGGAGCCCGAACCACGGCGACACGGCCTTCACCGTACCAATGTTCGACAAGTTCATGCGCAGGATCATGCCCGGAGACGATTGGGTGCCGGCTGTTCATGGGGGTTAA	MDPIRNPYSPGAGTRPPELAGRDELRETVRIALERIRLGRPARSVIMVGLRGVGKTVLLNQMQRDAEAAGIQTVYVEAPESRSLPAILAPKLRVALIRMSRIDAAKEAAIKGLRALAGFVGALRVKFGDIEVGIDYEPEPGLADNGDLEGDLIDLLQQVGEAAKASGTVLALFIDELQYVDEDQFAALITALHRVSQIPLPVTLIGAGLPQLRGRAGNAKSYAERLFTYPDIGPLPAPQASIAFAKPAEDEHVRVEPAATQKVVDLTEGYPYFIQEWGKNTWDLANDARITEQDIDAASAQVIASLDESFFRVRFDRMTLAEKIYLRAMAELGPGPHRSGDIAAVLNRKVQSLGPIRSSLIAKGMIWSPNHGDTAFTVPMFDKFMRRIMPGDDWVPAVHGG				NA	NA	NA	NA	NA
BMS010_07094	282			hypothetical protein	ATGAAGCCGAACTTCGGTGTCGGAATGCTGATCTGGGTGGTTGCGACGAACGTTTCGGCGGACGTCACATGCAAGTGCGATTCCTTCCCATTTTTGCCTTCGCCTCCTTGTCCAAAGGTATGCAGGGCTCTTTTGATAGAGAAAGCCGACATTGGCGCGCTTACGACAAGCCTAAAACTGTCGAACGACGAAGCCCTAGCAGTTGAGCGATATCGCCAGCGCTTTGGCTTCGCCAAATACGCCAAACCCGCCGACTCATTGGGATGTAGAGCTTACGCCTGA	MKPNFGVGMLIWVVATNVSADVTCKCDSFPFLPSPPCPKVCRALLIEKADIGALTTSLKLSNDEALAVERYRQRFGFAKYAKPADSLGCRAYA				NA	NA	NA	NA	NA
BMS010_07095	405			hypothetical protein	ATGGACCTATTCCTTGCAGGGTTGAAGGAGATCGCCGGCGCTTCGTCGCAGCTCACTACATGGGCGCTGGCCATGCTCGGCGGCTCGGTAGCCGTCGTTATTGGATCTTCGCATTACAGTCCTGCTGGCCGGAGATGGCGTAGCTTCTATTTTCTCCTAGCTCCAGTCTGGATCTTTCTGCTGGTATCCGTTCGGGCGGGCAATGAGCTCTCGCGTAGCTACCTAGCTGCGTTGTTTACCAAGGGTGCCGCCCAGGATGAGGCATTCAATCAGATCAACGCCGACTCCCAGGCCCAACTGGATTACCTATTCTACGGGGTTATCGCGTTTGCACTTTGGCTCACAGCCTATCTTTTTTGGTGGGTGCTATTGCGCGACGTTGACCGTGGGGAGGGCGACGCATGA	MDLFLAGLKEIAGASSQLTTWALAMLGGSVAVVIGSSHYSPAGRRWRSFYFLLAPVWIFLLVSVRAGNELSRSYLAALFTKGAAQDEAFNQINADSQAQLDYLFYGVIAFALWLTAYLFWWVLLRDVDRGEGDA				NA	NA	NA	NA	NA
BMS010_07096	783			hypothetical protein	ATGGATACTGAGAGCATTTACGATGAGCTTGTGAAGTTAATTGTCACGGTAGATGATTTGGGGTCGGTAAACGTAAAAGCCGCACAGCAGTTAAAACAAAGGGTCATGCCTAAATCAATCTATAAATATCGGCTCGGTAGGTATAACGAGTGCGGGTCATGCTGGGATATTGAGAATCTAAAAAACAACAAGATTCGAATGACATTACCCGAGGAATTTAACGACCCTTACGATTCTTCTTTTAACATAGCTATAAGGGCGAATAATGAGGCCCAAAGGCAGCTTCTTGATCAAACAATTTACACCCTTTCGAAACGATCAATAAGAGCTTGCTGTTTTAGTGAATCAATTGAGTCAATGCTGATGTGGACTCATTATGCAAATGAGCACAAAGGATTCGCGATAGAATATAGGCCAAATGAAAAAAGCTCAATTGCATTGCAGCTTTGGCCAGTGTTCTATCGTGAGAAACTATTCGATATAAGTAAATATTTTGTGCGCAATGGCTCTAATCTCATTCCGCTTTTGCCTGTCCTTCACAAGGCCATCGATTGGAAATATGAGAAAGAATGGCGCTTGGTAATACCCGGCAATGAAGGTGAAAGCATTTCAATGCCGCACCCAAAAGCGATTTACATGGGTTCGAATGTATGTCCAAGGGTTGAGGAGGATTTGACGACGATAGCCGCTGAAAGACGAATAAAGCTTTACAGGATGAGTCATAATCGCCACGAATTTAAAATGGATAAGACGCTAGTGTTGGGTCCAAAAAACATGCAATAG	MDTESIYDELVKLIVTVDDLGSVNVKAAQQLKQRVMPKSIYKYRLGRYNECGSCWDIENLKNNKIRMTLPEEFNDPYDSSFNIAIRANNEAQRQLLDQTIYTLSKRSIRACCFSESIESMLMWTHYANEHKGFAIEYRPNEKSSIALQLWPVFYREKLFDISKYFVRNGSNLIPLLPVLHKAIDWKYEKEWRLVIPGNEGESISMPHPKAIYMGSNVCPRVEEDLTTIAAERRIKLYRMSHNRHEFKMDKTLVLGPKNMQ				NA	NA	NA	NA	NA
BMS010_07098	1914	selB	COG3276	Selenocysteine-specific elongation factor	GTGATCGTCGGAACCGCCGGCCACATCGACCACGGCAAGACCGCCCTCCTGCGCGCCCTCACCGGCCAGGAGGGCGACCGCCGCCCGGCCGAGCGCGAACGCGGCATCACCATCGACCTCGGCTACCTCTACGCCACCCTCGACGGCAACGAGCCCATCGGCTTCATCGACGTCCCCGGCCACGAACGCTTCGTCCACAACATGCTCGCCGGCGCCTGCGGTATCGACCTCGTCCTGCTGGTGGTGGCCGCCGACGACGGCGTAATGCCGCAGACCCGCGAACACCTGGCCATCGTCGAACTGCTCGGCATCCGTCGCGCCCTGGTCGCCCTCACCAAGATCGACCGGGTGGACGCCGCGCGCCTTGCCGACGTCCGCGCCGAGATCGCCGCGCTGCTGGCGCCGGGGCCGCTGCACGGCAGCCCGGTCCATGCCGTCTCCAGCCTGAGCGGGGAGGGCATCGACGCCCTGCGCCAAGCCCTCATCGACGAAGCCAGCGCCTGCCGCCAGCGCAGCGACACCGGTTACTTCCGCCTGCCCATCGACCGCGCCTTCAGCCTCACCGGCGCCGGCGTGGTGGTCACCGGCACCGCCTTCGCCGGGCGCGTGCGGGTGGGTGATGAACTGGTCCTGAGCCCCTCCGGGCGCCCCGTGCGGGTGCGCGGCCTGCACGCGCAGAACCGCGAAACGAGCGAAGCCCACGCCGGCCAGCGGGTGGCCCTCAACCTTGCCGGCGAGCGCCTTGCCGTGGAGCAGATCCACCGTGGCGACTGGCTGCTGCACCCTGTGCTCCACGCCCCCACCAGCCGCATCGACTGCCTGCTGCACCTGCTCCCCGGCGAGCCCCGCGACCTCAAGCACTGGACCCCGCTGCACCTGCACCTCGGCGCCCAGGACCTGACCGGCCGCGTCGCCTTGCTGGAAGGCGAAAGCCTCGCGCCGGGCGGGCGCATGCTCGCGCAACTGCTGCTCAACGCCCCGGTGCATGCGGTACACGGCGACCGCCTGGTGATCCGCGACCAATCCGCCCAGCGCACCCTCGGCGGCGGCGTGGTCCTCGACCCCTTCGCCCCCAGCCGGGGCCGCCGCGCGGAAAACCGCCTCGGCCAACTGCGCGCCCTGATCGACGCCAGCCTGGAAAACGCCCTGCCGACCCTCCTCGCCGAAGCCGAAAGCGGCCTCGACCCGGCCCTGCTGGAGCGCCAGTTCAACCGCCCGCGATCCGGCTGGCACCTGCCAGACGGCCTGCTGGAAATCCCCACCCGCCTCGGGTCGCGCCTGTTCGACCGAACGCGCTGGCAAGCGCTGGGCGACCACTTGGTGGCGCGGCTGGAACACTTCCACAGCGAACAACCCGACGAACTCGGCCCCGACCGCGACCGCCTGCGCCGCTACGCCTTGCCGCAACTGGAACGCCCCGTCTTCATCGCCCTGCTCGACGCCGCCATGGCCTCCGGCCGCATCGAAGCCAGCGGCCCCTGGCTGCACCGCCCGGACCACCGCGTGCGCCTCAGCGACGCAGAAGAAGCGATCAGGGAACGCCTCTGGCCCCTGCTCGAAGCGGGCGGCTTCGACCCACCCTGGGTTCGCGACCTCGCCCGCGAACTCGGCCAGGACGAAGCCTCCGTGCGCCTGCTCCTGCGCAAACTCGCCCGGCTCGGCCTGCTGCAACAAGTGGTGAAAGACCTGTTCTACCCGGATACGACCATCCGCCAACTGGCCAGCGAAGTCCTGCGCCTGGAAGATCAGACCGGCGTCATCCGCGCCGCCGCCTTTCGCGACCGCATCCACCTGGGCCGAAAACGCAGCATCCAGATACTCGAACACTTCGACCGCATCGGCCTCACCCGCCGCTTCGGCAACGAACGCAAAGTCCGCCGCGACAACGCCCTGGCCCACCCGGCCCCGGCCTGA	MIVGTAGHIDHGKTALLRALTGQEGDRRPAERERGITIDLGYLYATLDGNEPIGFIDVPGHERFVHNMLAGACGIDLVLLVVAADDGVMPQTREHLAIVELLGIRRALVALTKIDRVDAARLADVRAEIAALLAPGPLHGSPVHAVSSLSGEGIDALRQALIDEASACRQRSDTGYFRLPIDRAFSLTGAGVVVTGTAFAGRVRVGDELVLSPSGRPVRVRGLHAQNRETSEAHAGQRVALNLAGERLAVEQIHRGDWLLHPVLHAPTSRIDCLLHLLPGEPRDLKHWTPLHLHLGAQDLTGRVALLEGESLAPGGRMLAQLLLNAPVHAVHGDRLVIRDQSAQRTLGGGVVLDPFAPSRGRRAENRLGQLRALIDASLENALPTLLAEAESGLDPALLERQFNRPRSGWHLPDGLLEIPTRLGSRLFDRTRWQALGDHLVARLEHFHSEQPDELGPDRDRLRRYALPQLERPVFIALLDAAMASGRIEASGPWLHRPDHRVRLSDAEEAIRERLWPLLEAGGFDPPWVRDLARELGQDEASVRLLLRKLARLGLLQQVVKDLFYPDTTIRQLASEVLRLEDQTGVIRAAAFRDRIHLGRKRSIQILEHFDRIGLTRRFGNERKVRRDNALAHPAPA	PGPT0004825_388	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SELENIUM_RESISTANCE	SELENIUM_RESISTANCE-SELENIUM_HOMEOSTASIS,PGPT0004825-selB-K03833	NA	NA
BMS010_07099	1407	selA	COG1921	L-seryl-tRNA(Sec) selenium transferase	ATGACCAGCGCCCGCCTGCCTTCGGTAGACCGCCTGCTGCGCGCGCCGGCCTGCGCCCCGCTGCAACAGCGCTACGGCCGCGAAGCTCTGCTCGCCACCCTGCGCGGCCTGCTCGACGAACTGCGCGAGCCGGCGCGCCAGGGCCATCTGGCCAGCCTGGAACTCTCCGAAGCCGTGCTCGCCGGGCGTGCCGGCGAACGTCTCGCCGCCCAGCACCGCAGCCGCGTGCGGCGAGTGTTCAACCTCACCGGCACCGTGCTGCACACCAACCTCGGCCGCGCCCTGCTGCCGGAAGAAGCGGTGGAAGCGATCTGCACGGCGGCGCGCTACCCGCTCAACCTCGAATTCGACCTCGCCACCGGCAAGCGCGGCGACCGCGACGACCTCATCGCCGGGCTCACCCGCGAACTGACCGGCGCCGAAGCCGTCACCGTGGTCAACAACAACGCGGCGGCCGTGCTGCTCGCCCTCAACAGCCTCGGCGCGCGCAAGGAAGGCATCATCTCCCGTGGCGAACTGATCGAAATCGGCGGCGCCTTCCGCATCCCCGACATCATGGCCCGCGCCGGCGTGAAGCTGGTGGAAGTCGGCACCACCAACCGCACCCATCCGCGCGACTACGAGGCCGCCATCGGTCCGCGCAGCGGCCTGCTGATGCGCGTCCACACCAGCAACTACAGCGTCCAGGGCTTTACCGCCAGCGTCGCCACCGCCGACCTCGCCGCCATCGCCCATGCCCATGGCCTGCCCCTCTTGGAAGACCTCGGCAGCGGCAGCCTGGTGGACCTCAGCCGCTGGGGCCTGCCCAAGGAACCCACCGTGCAGGAAGCCCTGCGCGACGGTGCCGACCTCGTCACCTTCAGCGGCGACAAGCTGCTCGGCGGCCCCCAGGCCGGCCTCATCGTCGGCCGCAAGGACCTCATCGACCGGATCAAGAAAAACCCGCTCAAGCGCGCCCTGCGGGTGGACAAACTGACCCTCGCCGCCCTGGAAGCCGTGCTCGGTCTCTACCGCGACCCCGACCGCCTCGGCCAGCGCCTCACCAGCCTGCGCCTGCTCAGCCGGCCGCAGGCGGACATCCGCGCCCAGGCCGAACGCCTCGCCCCGGCCCTCGCCGCCGTGCTGGGCGACACCTGGCGCGTCAGCGTGGAAGACGCCCTCGGCATGATCGGCAGCGGTGCCCAGCCGGTGGCGCGCCTGCCCAGCGCCGCCCTGTGCCTGCGCCCGCAGCAGCCCAGGCGCCTGCGCGGCCGCGCCCTGCACCAACTGGAAGAAGCCCTGCGCCTGCTGCCCATCCCGGTGCTCGGCCGCCTCGACGACGACGCCCTCTGGCTCGACCTGCGCCAGCTCGACGACGAACCGGCATTCCTGGCGCAACTCGCCGACCTCCGCAGGGAGGTACCGTGA	MTSARLPSVDRLLRAPACAPLQQRYGREALLATLRGLLDELREPARQGHLASLELSEAVLAGRAGERLAAQHRSRVRRVFNLTGTVLHTNLGRALLPEEAVEAICTAARYPLNLEFDLATGKRGDRDDLIAGLTRELTGAEAVTVVNNNAAAVLLALNSLGARKEGIISRGELIEIGGAFRIPDIMARAGVKLVEVGTTNRTHPRDYEAAIGPRSGLLMRVHTSNYSVQGFTASVATADLAAIAHAHGLPLLEDLGSGSLVDLSRWGLPKEPTVQEALRDGADLVTFSGDKLLGGPQAGLIVGRKDLIDRIKKNPLKRALRVDKLTLAALEAVLGLYRDPDRLGQRLTSLRLLSRPQADIRAQAERLAPALAAVLGDTWRVSVEDALGMIGSGAQPVARLPSAALCLRPQQPRRLRGRALHQLEEALRLLPIPVLGRLDDDALWLDLRQLDDEPAFLAQLADLRREVP	PGPT0004815_405	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SELENIUM_RESISTANCE	SELENIUM_RESISTANCE-SELENIUM_HOMEOSTASIS,PGPT0004815-selA-K01042	NA	NA
BMS010_07100	921	fdhE	COG3058	Protein FdhE	GTGTCAGGCACCATTCTCGAGCCGGGCCAGATCGAAGCCGCGGCCAGCAAGCCGCCTTTCGTCCAACTGCCGCCGCGCAACCTCTTCGAGCTGCGCGCCGCGCGCCTGGACACGCTCGCCCAGAACCACCCGCTCTCCGCCTACCTGAGCCTGACCGCCGCGATCTGCCGTGCCCAACAGGCCGTGCTCGACGCTCCGCCGGATGTCCCCGCGCCGAACGCCCACCGCATCCGCGAATCCCTGGTCCACGGCCTGCCGCCCCTGGCCGCCGACACCCTGGTGCGCGACGACGGCTGGCTCGCCTTTCTCGACGCCGTGCTGCGCGCCTTCACCCCAGCGGCCGCCAATCCGGCCCTGGACGAGGCCCTCGACCACCTGCGCAAAACCGGATCGAGCCAGCGCAAGGCCTGGGGCGTGGCTCTGGTCAGCGGCCAGTACGACCTGCTGCCGGCCGCGCTGGTGCCCTTCGTCGGCGCCGGCCTGCAAACCGCCTGGAGCCACTGGCTGCTCGGCCTCGACCTCGGCGAACTGCGCGAGCGCGAAGACCAGGCCTATTGCCCGTGCTGCGGCGCGCCGCCCATGGTCGGGGTGATCCGCCATCGCGGCCAGGTCAACGGCCTGCGCTATTTGGTCTGCTCCCTGTGCAGCGTCGAATGGCACTACGTGCGCCTGAAATGCAGCCACTGCCAGAGCACCAAGCGCCTCGACTACCTGCACCTCGACGGTTCGCCCCACGGCGTGCGCGCCGAGGCCTGCCCGAGCTGCAAGACCTACCTCAAGCAGCTCTACCTGGAACACGCCCCCGACGGCGAATGCCTCTCCGCCGACCTCGCCAGTCTCGACCTCGACCTGCTGCTGGCCGAACAGGGCTACCTGCGCCGGGCACCCAACCTGCTGCTGGCGCCGGGAGGGGAGGGATGA	MSGTILEPGQIEAAASKPPFVQLPPRNLFELRAARLDTLAQNHPLSAYLSLTAAICRAQQAVLDAPPDVPAPNAHRIRESLVHGLPPLAADTLVRDDGWLAFLDAVLRAFTPAAANPALDEALDHLRKTGSSQRKAWGVALVSGQYDLLPAALVPFVGAGLQTAWSHWLLGLDLGELREREDQAYCPCCGAPPMVGVIRHRGQVNGLRYLVCSLCSVEWHYVRLKCSHCQSTKRLDYLHLDGSPHGVRAEACPSCKTYLKQLYLEHAPDGECLSADLASLDLDLLLAEQGYLRRAPNLLLAPGGEG				NA	NA	NA	NA	NA
BMS010_07101	624	fdoI	COG2864	Formate dehydrogenase, cytochrome b556(fdo) subunit	ATGAACGACGACATCGAACGCTACACCCCCTCCGAACGGAGCAACCACTGGGCCGTGGCGGTTCTCTTCATCCTCGCCGGCCTGTCCGGGCTGGCGCTGTTCCACCCGGCGCTGTTCGGCCTCTCCGCCCTGTTCGGCGGCGGCACCTGGGCGCGCATCCTGCATCCGTTCCTCGGTCTGGCGATGTTCCTTCTGTTCCTCTGGCTGGCGATCCGCTTTGCCGGACACAACCGCATGAGCGACAGGGACGCCCGCTGGCTGCGGCAATGGCGCGACGTGGTCGGCAACCGCGAAGACCGCTTGCCGGAAGTCGACCGCTACAACGCCGGGCAGAAACTGCTGTTCTGGGTGCTGGTGCTGAGCATGCTGGTGCTGGTGGTCAGCGGCGTGATCATCTGGCGGCAGTACTTCAGCGCAATGTTCGGCATCGAGACCCTGCGCTGGGCCAGCCTGTTGCATGCGGCGGCGGCCTTCGTGCTCATCCTCAGCATCATTGTCCACATCTACGCCGCCATCTGGGTCAAGGGCTCGGTGGGCGCCATGCTCTATGGCCGGGTTAGCCGCGCCTGGGCGCGCAAGCACCACCTCGGCTGGTACAAGACGGTGGTGCGCGAACGCAAATGA	MNDDIERYTPSERSNHWAVAVLFILAGLSGLALFHPALFGLSALFGGGTWARILHPFLGLAMFLLFLWLAIRFAGHNRMSDRDARWLRQWRDVVGNREDRLPEVDRYNAGQKLLFWVLVLSMLVLVVSGVIIWRQYFSAMFGIETLRWASLLHAAAAFVLILSIIVHIYAAIWVKGSVGAMLYGRVSRAWARKHHLGWYKTVVRERK	PGPT0019670_1288	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FORMATE_UTILIZATION,PGPT0019670-fdoI|fdsG-K00127	NA	NA
BMS010_07102	924	fdnH	COG0437	Formate dehydrogenase, nitrate-inducible, iron-sulfur subunit	ATGGCCACTCAAGACATCATCGCCCGTTCCGCCACCACCACACCGATGCCCTCGGTGCGCCAGGTCGGCGAGGTGGCCAAGCTGATCGACACCTCCAAGTGCATCGGCTGCAAGGCCTGCCAAGTCGCCTGCTCGGAGTGGAACGACCTGCGCGACGACGTGGGCTCCAACCTGGGTGTCTACGACAACCCCATCGACCTCACCGCCGACTCCTGGACCGTGATGCGCTTCGCCGAGTACGAGAACCCGGCCGGCAACCTCGAATGGCTGATCCGCAAGGACGGCTGCATGCACTGCGAGGACCCGGGCTGCCTCAAGGCCTGCCCGAGCCCCGGCGCGATCGTCAAGTACGCCAACGGCATCGTCGACTTCAACCAGGACAAGTGCGTCGGCTGCGGCTACTGCATCACCGGCTGCCCGTTCAACATCCCGCGCATCTCGCAGAATGACCACAAGGCCTACAAGTGCACCCTCTGCTCCGACCGCGTGGCGGTGGGCCTGGAGCCGGCCTGCGTGAAAACCTGCCCGACCGGCGCCATCGTCTTCGGCAGCAAGGAAGACATGATCGAACACGCCGACGGCCGCATCGCCGACCTCAAGGAACGCGGCTTCGAGCACGCCGGCCTGTACGACCCGGCCGGCGTTGGCGGCACCCACGTCATGTACGTGCTGCACCACGCCGACCAGCCCTCGCTCTACAGCAGCCTGCCGGACGAACCGGCCGTCAGCCCGCTGGTGAGCCTGTGGAAAGGCGTGACCAAACCCCTGGCCCTGTTCGCCATGGGCGCCGCCGTGCTGGCCGGCTTCTTCCACTACGTGCGCGTCGGCCCGAACCGCGTCGAGGAAGACCCGGAGCCGGGAGAGCCCATCGTCCACGAGGTCGATCCATCGGTGCATGTGGTGGACCCGAAGGGTAGGGAGTGA	MATQDIIARSATTTPMPSVRQVGEVAKLIDTSKCIGCKACQVACSEWNDLRDDVGSNLGVYDNPIDLTADSWTVMRFAEYENPAGNLEWLIRKDGCMHCEDPGCLKACPSPGAIVKYANGIVDFNQDKCVGCGYCITGCPFNIPRISQNDHKAYKCTLCSDRVAVGLEPACVKTCPTGAIVFGSKEDMIEHADGRIADLKERGFEHAGLYDPAGVGGTHVMYVLHHADQPSLYSSLPDEPAVSPLVSLWKGVTKPLALFAMGAAVLAGFFHYVRVGPNRVEEDPEPGEPIVHEVDPSVHVVDPKGRE	PGPT0019665_1144	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FORMATE_UTILIZATION,PGPT0019665-fdoH|fdsB-K00124	NA	NA
BMS010_07103	2436	fdoG_1	COG0243	Formate dehydrogenase-O major subunit	ATGACCAACCACTGGGCCGACATCCAGAATGCCGACCTCGTGCTGATCATGGGCGGCAATGCTGCCGAAGCCCATCCCTGCGGCTTCAAGTGGGTGACCGAAGCCAAGGCGCACAACAAGGCCCGGCTGATCGTGGTCGATCCGCGCTTCAACCGCTCCGCCTCGGTGGCGGACCTGTACGCGCCGATCCGCACCGGGACGGACATCGCCTTCCTCGGCGGGCTGATCTACCACTTGATCAGCAACGACAAGATCCAGCACGAGTACGTGCGCAATTACACCGATGCGTCGTTCATCGTGCGTGAAGGCTTCACCTTCGAGAACGGCCTGTTCAGCGGCTACGACGCCAGCCAGCGGCGCTACGGCGACAAGTCAGCCTGGGGCTACGAGATCGGCGAGGACGGCTTCGCCGTGGTCGATCCGACGCTCAGCCACCCGCGCTGCGTGTTCAACCTGCTCAAGCAGCACTACAGCCGCTATACCCCCGAGGTGGTCAGCAGCATCTGCGGCACGCCGAAGGAGCTGATGCTCAAGGTCTGGGACACCATCGCCGAGGCCTCCGCCCCGGACAAGGTGATGACCATCATGTACGCCCTCGGCTGGACCCAGCACTCGACGGGCTCGCAGATGATCCGCACCGGCGCCATGCTGCAACTGCTGCTCGGCAACATCGGCATGCCCGGCGGCGGCATGAACGCCCTGCGCGGTCACTCCAACATCCAGGGGCTGACTGACCTTGGCCTGCTCTCCAACCTGCTGCCGGGCTACCTCACCCTGCCCGGCGACGCCGAACAGGACTATGCCGCCTACATCGCCAAGCGCACGCAGAAACCGCTGCGGCCGGGGCAGCTTTCCTACTGGCAGAACTACGAGAAATTCCACGTCAGCCTGATGAAGGCCTGGTACGGCAAGAACGCCACCGCCGAGAACAACTGGGGCTACGACTGGCTGCCCAAGCTGGACATCCCCGGCTACGACGTGCTCAAGGTCTTCGACCTGATGTACCAGGGCAAGATCAACGGCTACTTCTGCCAGGGCTTCAACCCCATCGCCTCGTTCCCCAACAAGGCCAAGGTCGGCGCCGCGCTGGCCAAGCTCAAGTACCTGGTGGTGATGGACCCGCTGGCCACCGAGACCTCTGAGTTCTGGCGCAACGCCGGCGACTACAACGACGTCGACACGGCGGCGATCCAGACCACGGTGATCCGCCTGCCCACCACCTGCTTCGCCGAGGAAGACGGCTCCCTGGTCAACAGCGGGCGCTGGCTGCAGTGGCACTGGAAGGGCGCCGAGCCGCCCGGCCAGGCGCGCACCGATATCGCCATCATGGGCGGGCTGTTCCATCGCCTGCGCGAGTTGTACCGCAAGGAAGGCGGCGCCTTCCCCGACCCGATCCTCAACATCGATTGGAGCTACCTGCGCCCGGACGAGCCGGGGCCGGACGAAATCGCCCGCGAGTTCAACGGCAAGGCCCTGGCCGACGTTACCGACCCGGCCACCGGCGCCGTGCTGGCCAAGGCCGGCGAGCAACTGGCCGGCTTCGCCCAGCTCCGTGCCGACGGCTCCACCGCCAGCGGTTGCTGGATCTTCTGCGGCTCCTGGACCCAGCAGGGCAACCAGATGGCGCGGCGCGACAACGCCGACCCCTACGGCATGGGCCAGACCCTCGGCTGGGCCTGGGCCTGGCCGGCCAACCGGCGCATCCTCTACAACCGCGCCTCGGCCGACCCCTCGGGCAAACCCTGGGACCCACGGAAGAAGCGCCTGGTGTGGTGGAACGGCACGGCCTGGGGCGGCACCGACGTCCCGGACTTCAAACCCGACTCGCCGCCGGACGCGGGCATGAACCCGTTCATCATGAACCCGGAAGGCGTGGCGCGGCTGTTCGCCGTGGACAAGATGGCCGAAGGCCCGTTCCCCGAGCACTACGAGCCGTTCGAGACCCCCATCGGCCGCAACCCGCTGCACCCGGACAAACCCGGCGTGACCAGCAACCCGGCGGCGCGGGTGTTCCAGAACGACCTCGAACTGTTCGGCAAGGCCGACGAGTTCCCCTACGCGGCGACCACCTACCGGCTGACCGAGCACTTCCACTTCTGGACCAAGCACAGCCGCCTCAACGCCATCACCCAGCCGGAGCAGTTCGTCGAGATCGGCGAGGCGCTGGCCAAGGAACTCGGCATCCAGGCCGGACAGCGGGTCAAGGTGTCTTCCAACCGTGGCTTCATCAAGGCCGTGGCGGTGGTCACCAAGCGCCTCAAGCCGCTGACCGTGGACGGCAAGACCGTGCACCAGGTGGGCATCCCGCTGCACTGGGGTTTCACCGGCGTGGCCAGGAACGGTTACCTGACCAACACCCTGACCCCCTTCGTCGGCGACGCCAACACCCAGACGCCGGAGTTCAAGTCGTTCCTGGTGAACGTGGAGAAGGTGTGA	MTNHWADIQNADLVLIMGGNAAEAHPCGFKWVTEAKAHNKARLIVVDPRFNRSASVADLYAPIRTGTDIAFLGGLIYHLISNDKIQHEYVRNYTDASFIVREGFTFENGLFSGYDASQRRYGDKSAWGYEIGEDGFAVVDPTLSHPRCVFNLLKQHYSRYTPEVVSSICGTPKELMLKVWDTIAEASAPDKVMTIMYALGWTQHSTGSQMIRTGAMLQLLLGNIGMPGGGMNALRGHSNIQGLTDLGLLSNLLPGYLTLPGDAEQDYAAYIAKRTQKPLRPGQLSYWQNYEKFHVSLMKAWYGKNATAENNWGYDWLPKLDIPGYDVLKVFDLMYQGKINGYFCQGFNPIASFPNKAKVGAALAKLKYLVVMDPLATETSEFWRNAGDYNDVDTAAIQTTVIRLPTTCFAEEDGSLVNSGRWLQWHWKGAEPPGQARTDIAIMGGLFHRLRELYRKEGGAFPDPILNIDWSYLRPDEPGPDEIAREFNGKALADVTDPATGAVLAKAGEQLAGFAQLRADGSTASGCWIFCGSWTQQGNQMARRDNADPYGMGQTLGWAWAWPANRRILYNRASADPSGKPWDPRKKRLVWWNGTAWGGTDVPDFKPDSPPDAGMNPFIMNPEGVARLFAVDKMAEGPFPEHYEPFETPIGRNPLHPDKPGVTSNPAARVFQNDLELFGKADEFPYAATTYRLTEHFHFWTKHSRLNAITQPEQFVEIGEALAKELGIQAGQRVKVSSNRGFIKAVAVVTKRLKPLTVDGKTVHQVGIPLHWGFTGVARNGYLTNTLTPFVGDANTQTPEFKSFLVNVEKV	PGPT0019635_272	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FORMATE_UTILIZATION,PGPT0019635-fdoG|fdhF|fdwA-K00123	NA	NA
BMS010_07105	591	fdoG_2	COG0243	Formate dehydrogenase-O major subunit	ATGGATATGAACCGTCGGCAATTCTTCAAGGTCTGTGCGGTCGGCCTTGGGGGATCGAGCATGGCGGCGCTGGGCATGGCTCCACCGGCTGCCTTCGCCGACCAGGTTCGCCACTTCAAACTGGCGAGCACCCGTGAGACGCGCAACACCTGTCCTTATTGCTCCGTCGGCTGCGGGCTGATCATGTACAGCCAGGGCGACGGCGGCAAAAACGTGGTCCAGGAAATCATCCACATCGAGGGCGATGCCGACCATCCGGTCAACCGCGGCACCCTCTGCCCGAAAGGCGCCGGCCTGCTGGATTTCGTGCACAGCCCCAACCGGCTGAAGTACCCGCAGATTCGCGAGCCCGGCTCCAACGAATGGAAGCGCCTGGAGTGGGACGACGCCCTGGACCGCATCGCCAAGCTGATGAAAGAGGACCGCGACGCCAACTTCATCGAGCGCAACGAGCAGGGCCAGACGGTCAACCGCTGGCTGACCACCGGATTCCTCGCCGCCTCGGCATCCTCGAACGAGGCGGGGTACATCACCCACAAGGTGGTGCGTTCCCTCGGCATACTGGGGTTCGATAACCAAGCGCGTGTCTGA	MDMNRRQFFKVCAVGLGGSSMAALGMAPPAAFADQVRHFKLASTRETRNTCPYCSVGCGLIMYSQGDGGKNVVQEIIHIEGDADHPVNRGTLCPKGAGLLDFVHSPNRLKYPQIREPGSNEWKRLEWDDALDRIAKLMKEDRDANFIERNEQGQTVNRWLTTGFLAASASSNEAGYITHKVVRSLGILGFDNQARV	PGPT0019635_3377	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FORMATE_UTILIZATION,PGPT0019635-fdoG|fdhF|fdwA-K00123	NA	NA
BMS010_07106	972	yjiK_1	COG3204	putative protein YjiK	ATGTCCGCTATCACCAAGGGGCTGCTGGGAAAGCTGCCTGTCCTCGGTCCATGGAAATGGGCGCTGCTGCTCTTCGCTCTGCTGTCGTTCTATCAGGTGCGCCTCCTGCACCTCGACGAGCGGGTCTATTTCTGGCTGAAAACCGCCTGGCACTCGGGCGCTGAGGCGTCACGCGGCCTGCGCCTGCCGGAGTACCGGGTCCTCACCGAGGCGCTGGCGGTGGAGACGGTGGACAAGAACCTTTCCGGGCTGGCCTATGACGAGCGGCGCGACCGCTTCTGGGCAGTGGTGAACAACCCGGAGGAACTGATCGCCCTGGACAAGGAGGGCGAGTTCCTCGGACGTTATCCGCTTAGCGGCTTCTCCGACGTCGAAGACCTCACCTACCTGGGCGACGACCTGCTGCTGGTGATCGAGGAGCGCAGCCAGGCGCTGCTGGTGGTCCCCGTGCCGGAGCGCCCCGGTCCGCTGTTCCGCAGCGATGCGCGCAGCCTGACGCTCAGCCTCGGCGAGGTCGACAACAATGGCTTCGAAGGCGTCGGCTACGACCGTGCCGGCGATCGCCTGTTTGTCGCCAAGGAGCATTCGCCGATCAAGCTCTACGAGATTCGCGGGCTCAAGGCCAGCCTCGACGGCGCGTTCGGCCTGCAGGTGATCGATCGCGAGGCGTGGGTGAAGGACCTGCCGGCCCGCGACCTGTCGGCGGTGCATTTCGACGCCGGCAGCGGGCATCTGGTGTTGCTCAGCGACGAATCGAAGCTGCTGATGGAGCTGGACCGCAACGGCCGCCTGATTGGCCTGCGCTCGTTGTTCGGCGGTTTCGCCGGGCTCGACAACGGCGTGCCGCAGGCCGAAGGCATGACCTTCGACGAGCGGGGCAACCTTTACCTGGTCAGCGAACCCAATCTGTTCTACGCCTTCGGCCGGGGCGGCCGGTCAGCGGATCAGCCAGATACCGGCGCCGATCGGTAG	MSAITKGLLGKLPVLGPWKWALLLFALLSFYQVRLLHLDERVYFWLKTAWHSGAEASRGLRLPEYRVLTEALAVETVDKNLSGLAYDERRDRFWAVVNNPEELIALDKEGEFLGRYPLSGFSDVEDLTYLGDDLLLVIEERSQALLVVPVPERPGPLFRSDARSLTLSLGEVDNNGFEGVGYDRAGDRLFVAKEHSPIKLYEIRGLKASLDGAFGLQVIDREAWVKDLPARDLSAVHFDAGSGHLVLLSDESKLLMELDRNGRLIGLRSLFGGFAGLDNGVPQAEGMTFDERGNLYLVSEPNLFYAFGRGGRSADQPDTGADR				NA	NA	NA	NA	NA
BMS010_07107	1134			hypothetical protein	ATGACCGACGCCGAGATTCCCCGTCAGCTGGACGCCTTTACCCTGTGGCGGGAAGCCGTGGACATGCGTTCGCGCTCGCGCCTGGGCGGCTTCTACTACCTGTTCGCCTGGCTGCTGGTCTGGGGATTCAGCGCGGCGCCCATGGCGAACTGGCCTGCGGGCCTCGGACTCGGCCTGTTGTTCGGCCTGACCCTGGCCCTGCGCTGGCTGCACGACCTGCCGACGAGCCACGATCCCGATCTGCTGCGGCACTGGATGAAGCGCCGCTGGCAGTTGATCCACTTCACCTCGCTGGCCTGGGGCCTGGTCCAGGCCTGGGTGCTGCTCGACGAGGCCTACCGGGACACGCGGCTGATCGCCACGCTCAGCACCATCGCCTTCAGCACGGCGATGGTCTCCACCTTCGCCATGAATCGCCGCTGCTGTGCCCTGGCCATCCTACTGCTGTACCTGCCCGGGCTGATCAGCCTGAGCCGGGACGATGGAAATCTCGGCGAGCTGGTGACCCTGACTTTCTACTTCAGCTACCTGCTGCTGGCGCTCAACCGCAGCCACACGGACTACCACGGCAACCTCGCGCTGGAGTTGCAACTGATCGAGCAGCGCGACCGCCTCGATGCCCTCAGCCGTACCGACAGCCTCACGCAGTTGGGTAACCGCTACCAGTTCAACAACCTGTTCCCGTCCATGGTCGCGGCGGCCCAGCGCCAGCGCGGCTCGCTGGCGCTGGTGCTGCTGGATATCGATTACTTCAAGCACGTGAACGACAACTTCGGCCACACCGCCGGCGACCTCTGCCTGCAACACTTCGCCGAGCGCATGCGCCAGGTGTTCCGCCGCGACAGCGACGCCCTGCTGCGCCTGGGCGGCGAGGAATTCGGCGTGCTGATGCCGGACACCAGCCTGGAACAGGCCCAGTCGCTGGCCGAAAGCTTCCGGCAGAACCTGATTCATCGGGGTTTCGAGGTGCAGGGGCGCACCCTGCCGCTGACCGCCAGCCTCGGCGTGGGCTGCTTCGAGCCCGGCCAGGACAGCGCGGAATCCTTCTTCAAACGCGTCGACGATGCGCTGTACAAGGCCAAGGCCACCGGCCGCGATCGCATGGTCCTGGCCAGTTACGCCTCGGCCCAGTAG	MTDAEIPRQLDAFTLWREAVDMRSRSRLGGFYYLFAWLLVWGFSAAPMANWPAGLGLGLLFGLTLALRWLHDLPTSHDPDLLRHWMKRRWQLIHFTSLAWGLVQAWVLLDEAYRDTRLIATLSTIAFSTAMVSTFAMNRRCCALAILLLYLPGLISLSRDDGNLGELVTLTFYFSYLLLALNRSHTDYHGNLALELQLIEQRDRLDALSRTDSLTQLGNRYQFNNLFPSMVAAAQRQRGSLALVLLDIDYFKHVNDNFGHTAGDLCLQHFAERMRQVFRRDSDALLRLGGEEFGVLMPDTSLEQAQSLAESFRQNLIHRGFEVQGRTLPLTASLGVGCFEPGQDSAESFFKRVDDALYKAKATGRDRMVLASYASAQ	PGPT0026005_109	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-c-di-GMP_SIGNALLING_PATHWAY,PGPT0026005-roeA-K21022	NA	NA
BMS010_07108	1932	mcpH_1		Methyl-accepting chemotaxis protein McpH	ATGCGCCTTTGGCAACGCAGTATTCAATGGCAGCTGATCCTCAGCATGGGCACCGCCCTGCTGGCCAGTATCCTCATCGTGGTCGGCATCTATTCGGCGGTATCCAATCGCCTGGCCGAGCGCTACCTGATCGAGGAAGCCCTGCCCGCCAGCATCCTGGCGATTCGCAACGATCTCGAGCGGGTTCTCGCCGAGCCGCTCACCGCGGCGCAGGGCATCGCCGGCAACAGCCTGGTGGCGGACTGGCTGGCCAACGGCGAGGATGCCAGTGCCCAAGGCGGTTTCAGCCGCTACCTCGCCGGCGTACAGGCGCGGCAGAAGGCGCTGATCACCTTCATCGTCGCCCTCGACAGCGGCCACTACTTCACCAGCAAGGGGCTCGACCGCACCCTCAGCCGCGGGCCGAAGGAAAACGCCTGGTTCTATGGCTTCGTCGATTCCGGCAAGGACCGCTCCTTGGAAGTCGACATCGACCAGGGCACGCGCCAGCCGACGCTGTTCATCAACCAACGCATCACCGTCGAGGGCAAGACGCTCGGGGTGGCCGGGCTCGGCTTCAGCCTCGGCGCCATGTCCGACATGATCCGCGACTTCCGCTTCGGCCAGGCCGGGCGCGTCTATCTGGTGAGCGCTGACGGCCGGGTGAAGGTGCATCCGCAGGCGGAGTTCAACGACAGCCGCGAGCTGGCGCAACTGGTGGGTGCCGATGCGGCCAGGAAGCTGCTCGGGGCGTCGAGCAAAGCCGTGTCGTTCGAGCGCGATGGCGAGACGTTTCTCGCCATCGCCCAGCCGCTGCAGGCCCTCGACTGGGTGCTGATCAGCGAGGTGCCGGAATCGGAAGTCTACGCCGAAGCCCGCCAGGCGCTGTGGATGACCAGCCTGATCGGCGTGGCGGTGGCGCTGCTGTTCCTCGGCCTGGTGGTGCTGCTGGCGCGCGGGCTGGTGCGGCCGATCCGCCAGGTCACCGCGGCGCTGGTGGAAATCGGCGGTGGGGGCGGTGACCTGACCCGCCGGCTGCGCGAAGACCGTGCCGACGAGCTGGGCGATCTGGCGCGCGGCTTCAACCGCTTCCTGGAAAGCCAGCGCAGCCTGATCGGCGAAGTGCTGGCCACCAGCGAGCGTCTGCGCTTGGCGGTGGGGCAGGTGGCGCAGGTGGTGGAGAACACCGCCGGCCGCGCCGGTCGCCAGCAGGAAATGACCGACATGGTGGCCACCGCCGTTCATGAAATGGGGCTGACCGTGCAGGAGATCGCTCGCAACGCCAGCGCCGCCGCCCAGGCATCGCAGACGGCACGCAGCGAGGCCAGCGGCGCGCGGCAGGTGGTCGGCCAGTCGGTGGCGCTGATCGAGCGGATGTCCGGCGAGATCGGCAGCGCCTCCGAGGCGGTCACCGAGCTGGCGGAGCAGGTGGCGTCCATCGACCAGGTGCTGGCGGTGATCCGCGGGATTTCCGAACAGACCAACCTGCTCGCCCTGAATGCCGCCATCGAAGCGGCCCGGGCCGGGGAGATGGGACGCGGTTTCGCCGTGGTCGCCGACGAAGTGCGGACCCTGGCCAGCCGTACCCAGTCCTCCACCGATGAAATCCAGCAGATGATCCAGCGCCTGAAACAGGGCGCCGACACCGCGGTCAGCTCGATGCACGCCGGGCAGTCGGCCACTGGCACGGGCGTCGAGGCGAGCCAGCGCACTGGTCATTCGCTCGGCGCGATCACCGACCAGGTGGAGCGGATCAGCGACATGAACACCCAGGTGGCGGCGGCCACCGAGGAACAGACCACCGTCACCGAAGAGATCAACCGCAACGTCCAGGGCATCGCCGACCTGGCCCACGCCACGGCCGACGAAGTCCGCGCCTGCCGCGAGGATTGCCGCACCCTCAGCCGCCTGGCCGAAGACCTGGCGCGGCAGATGGGCAATTTCCGGCTCTGA	MRLWQRSIQWQLILSMGTALLASILIVVGIYSAVSNRLAERYLIEEALPASILAIRNDLERVLAEPLTAAQGIAGNSLVADWLANGEDASAQGGFSRYLAGVQARQKALITFIVALDSGHYFTSKGLDRTLSRGPKENAWFYGFVDSGKDRSLEVDIDQGTRQPTLFINQRITVEGKTLGVAGLGFSLGAMSDMIRDFRFGQAGRVYLVSADGRVKVHPQAEFNDSRELAQLVGADAARKLLGASSKAVSFERDGETFLAIAQPLQALDWVLISEVPESEVYAEARQALWMTSLIGVAVALLFLGLVVLLARGLVRPIRQVTAALVEIGGGGGDLTRRLREDRADELGDLARGFNRFLESQRSLIGEVLATSERLRLAVGQVAQVVENTAGRAGRQQEMTDMVATAVHEMGLTVQEIARNASAAAQASQTARSEASGARQVVGQSVALIERMSGEIGSASEAVTELAEQVASIDQVLAVIRGISEQTNLLALNAAIEAARAGEMGRGFAVVADEVRTLASRTQSSTDEIQQMIQRLKQGADTAVSSMHAGQSATGTGVEASQRTGHSLGAITDQVERISDMNTQVAAATEEQTTVTEEINRNVQGIADLAHATADEVRACREDCRTLSRLAEDLARQMGNFRL	PGPT0015710_9894	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_07109	849			hypothetical protein	ATGGGTAAGCGGGCACTGGAGTGCCATTATTTTTATGGCCTCACTGACCGGGCCGGGGACGTACGAGTGGTGAGAACGATGGCAGCGTGGTGGTTGCGCCTGGTGTTGGCTTTGCTGCTCTGTACCGATGCGCGGGCGGCGGAATTGCTGCTGTATACGGAAGAGAACCCGCCAATCAACTTCAGCCACGACGGTGTGCCCGACGGCATGGCGGTCGCCGTGGTGACAGAACTCCTGCGCCGCACCGAGACCCGGGCGGAGATCAAGGTCGTGCCCTGGGCGCGCGGCTACAAGATGGCCACCACCCTGCCCAACGTCGGCCTGTTCGTGACCGTCCGCACGCCGGACCGGGAAACCCTGTTCCGTTGGGTCGGGCCGATCGTCAGTACCAGCACCAGCCTCTATGCGCGCAAGGGCGAGCCCCTGCCGGTCTCCAGCCTGGAGGAGGCGCGGCAACTGAGCCGTATCGCCGTGCCGCGCGAGTGGTATTCCCACCAGGTCCTGGTGCGGCTGGGTTTCACCAACCTGGAGCTGGTGCCCAAGCCGCATGAAATGGTGCGCATGACCCTGCTCGGCCGGGTCCCGCTGATGGTCTACGAGGACCAGTTGCTGCCGGGCTTGCTGAAAGAAGTCGGCGCGCCGCCGGATGCGCTCCAGCCTGTACACACCTTTATGCGCACCAGCAGCTACATCGCCTTTTCCCTGGAGACCGACAAGGCATTGGTGCAGCGCTGGCAGGCGGCTCTCGACGACATGAAGCGAGACGGCAGCTTCGCGCGCATTCACGCTCAGTGGTTTCCTGACAGCCCTCCGGCCGGGTTGAAAGCCGACCAGGACATGCTGCCTTGA	MGKRALECHYFYGLTDRAGDVRVVRTMAAWWLRLVLALLLCTDARAAELLLYTEENPPINFSHDGVPDGMAVAVVTELLRRTETRAEIKVVPWARGYKMATTLPNVGLFVTVRTPDRETLFRWVGPIVSTSTSLYARKGEPLPVSSLEEARQLSRIAVPREWYSHQVLVRLGFTNLELVPKPHEMVRMTLLGRVPLMVYEDQLLPGLLKEVGAPPDALQPVHTFMRTSSYIAFSLETDKALVQRWQAALDDMKRDGSFARIHAQWFPDSPPAGLKADQDMLP	PGPT0020800_13404	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_07110	2343	pbpC_2	COG4953	Penicillin-binding protein 1C	ATGTCGAAATATTGGCGTTCGTTGATTTGGCGTCGTCCCTGGCTGCTCTGGCCGTTGCTCGCGCTGGCGGCGCTATGGAGCGCGGATCGGCTGTTCCCGTTGCCGCTGCCCCAGGACGATCTGGCGCGGGTCGTACTGGCCGAGGACGGCACGCCGCTCTGGCGTTTCGCCGACCGTGACGGCGTCTGGCGCTATCCGGTGAGCGCGGCGGAGGTGTCGCCTTACTACCTTGAAGCGCTGCTGACCTACGAGGACCGCTGGTTCTATAGTCATCCCGGCGTCAACCCGCTGGCCCTGGCCCGTGCCGCCTGGCAGAACCTGCGCGGAGGGCGGGTGCTGTCCGGTGGCAGCACGCTGTCGATGCAGGTGGCGCGTCTGCTCGATCCCCACGAGCGCAGCCTCGGCGGCAAGCTGCGCCAGCTCTGGCGCACCTTGCAACTCGAATGGCACCTGTCCAAGGACGAGATTCTCCAGCTCTACCTCAACCGCGCCCCGTTCGGCGGCACGTTGCAAGGCGTGGCGGCGGCCAGTTGGGCCTACCTGGGCAAACCACCCAGCCAACTGACCCGCGCCGAGGCGGCATTGCTTGCGGTGCTGCCCCAGGCCCCCAGCCGGCTGCGTCCGGATCGCCATCCCGAGCGGGCGCAGGCGGCGCGGGACAAGGTGCTGCGGCGCTTGGCCGAATTCCAGGTCTGGCCGCAAGGGGCGGTGACGGAGGCCCTCGAAGAACCGGTATTCCTCGCCCCGCGCCAGGAACCCCGGCTGGCACCCCTGCTGGCCCGGCGCCTGAACGTACCCGGCAGCCCGCCGCTGATCCGCACCACGCTCGACGCCGCGCTGCAACGCCGCCTGGAAGAGCTGCTGATGGGCTGGCGGGCGCGCCTGCCGGAACGCACCTCGGCGGCGATCCTGGTAGTCGAGCACGAAAGCATGAAGGTGCGCGCCTACCTGGGCTCGGTGGATATCGGCGACGCCCGCCGCTTCGGCCATGTCGACATGATCGCCGCCTCGCGCTCGCCGGGTTCGACGCTCAAGCCGTTCCTCTACGGCCTGGCCCTGGACGAGGGACTGATCCATTCGGAATCGCTGCTGCAGGACGTGCCGCGCCGCTACGGGGACTACCGGCCGGGCAATTTCGCCGCCGGTTTCACCGGGCCGGTGTCCGCCAGCGAAGCCCTGGCCACCTCGCTCAACCTGCCGGCGGTGCAATTGCTGGAGGCCTACGGGCCCAAGCGCTTCGCCGGTGAACTGCGTAACGCCGGCGTGCCGCTCGCCCTGCCGCCGCTGGCCGAGCCCAACCTGGCGATGATTCTCGGCGGGGCGGGCAGCCGCCTGGAAGAGCTGGTCAGCGGCTACGGCGCGTTCGCCCGGCAAGGCCGCACGGCCCGCCTGCGCTTCCATCCCGGGGATGCCCTGTACGAGCGACGCCTGCTGTCGCCCGGTGCGGCCTGGATCATCCGGCGCATCCTCAGCGGCCAGGCACGCCCGGACCGCGACCCCCGCGCCCAACTGGTGCAACGCCCGAGCCTGGCCTGGAAGACCGGCACCAGCTACGGCTTCCGCGATGCCTGGGCAATCGGCGTCGGCCCGCGGCATCTGATCGGCATCTGGATCGGCCGGCCGGACGGCACTCCGGTGCCCGGCCAGTTCGGCCTGGCCTCGGCCGCGCCCTTGCTGCTGCAAGTGCACGACCTGCTGGTCAACCGCGACAGCCAGCGCGGTATCGGCGTGCCGGTGGAACTGGTGCCGGAGAGCATCGGCGTGGCCGCGATCTGCTGGCCGCTCGGCCAACCCATGGCCCGGAGCGATCCGAACTGCCGCCGCCAGCGCTTCGCCTGGACACTCGACGGCACCACGCCGCCGACGCTGCTGGCCGCGGATCAACCGCTGGGGCTCGGCCTGCGCCAGACGATCTGGACCAATGCCCAGGGCCTGCAAGTGGACAGCGGTTGCCCCGGCGCCACGGCGTCCGAGCGGGTGTTCTGGCCGGCGCCGCTGGAGCCTTGGCTGCCGCGCCGAGAACGGCGCAGCGCACGCCTGCCGGCCAGCGACCCGGAGTGTCCGCCCCGGCAGGCGCCGGTCGCCGCGTCGTTATCCATCGTCGGCGTGCGTGAGGGCGACAACCTGCGCCGTCCGGCGGGCAGTACCGAGCCCCTGCGGCTGAGCCTCTCGGCGCTCGGCGGCAGCGGCCGGTACTGGTGGTTCCTGAACGGCGTCCCGTTGGCGGAACGCGCCTCCGGTCAGCCGTTCGACCAGGCGTTCAGCCGCGCCGGGCGCTACCAGCTCAGCGTGCTCGATGAGGCGGGGCAGACCGCCCGGGTGGAGTTCGAGGTGGCCGAATGA	MSKYWRSLIWRRPWLLWPLLALAALWSADRLFPLPLPQDDLARVVLAEDGTPLWRFADRDGVWRYPVSAAEVSPYYLEALLTYEDRWFYSHPGVNPLALARAAWQNLRGGRVLSGGSTLSMQVARLLDPHERSLGGKLRQLWRTLQLEWHLSKDEILQLYLNRAPFGGTLQGVAAASWAYLGKPPSQLTRAEAALLAVLPQAPSRLRPDRHPERAQAARDKVLRRLAEFQVWPQGAVTEALEEPVFLAPRQEPRLAPLLARRLNVPGSPPLIRTTLDAALQRRLEELLMGWRARLPERTSAAILVVEHESMKVRAYLGSVDIGDARRFGHVDMIAASRSPGSTLKPFLYGLALDEGLIHSESLLQDVPRRYGDYRPGNFAAGFTGPVSASEALATSLNLPAVQLLEAYGPKRFAGELRNAGVPLALPPLAEPNLAMILGGAGSRLEELVSGYGAFARQGRTARLRFHPGDALYERRLLSPGAAWIIRRILSGQARPDRDPRAQLVQRPSLAWKTGTSYGFRDAWAIGVGPRHLIGIWIGRPDGTPVPGQFGLASAAPLLLQVHDLLVNRDSQRGIGVPVELVPESIGVAAICWPLGQPMARSDPNCRRQRFAWTLDGTTPPTLLAADQPLGLGLRQTIWTNAQGLQVDSGCPGATASERVFWPAPLEPWLPRRERRSARLPASDPECPPRQAPVAASLSIVGVREGDNLRRPAGSTEPLRLSLSALGGSGRYWWFLNGVPLAERASGQPFDQAFSRAGRYQLSVLDEAGQTARVEFEVAE	PGPT0023940_518	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023940-pbpC-K05367	NA	NA
BMS010_07111	654			hypothetical protein	ATGGACATGTATCGCTTTCGCCGGAACCTGCTCGGCGCCGCGTTCCTCTCGGCGCTTTCCATCCCCTGCGCGTTCGCCTTCACCCCGACCGTGGAAATCACCGAACCCAGCGGCATCCACTATGTCGCCGGCTTCCCGGCCAACGTGAACGTCACCTTGAGCCTCTCGGTGTTCAACACGAGCAACAACAACTGCATCACTAACGGCATCAAGTCGATCACGGTGAATGCACAACGCGGCGACGACCCGGCGACCACCATCCACACCTCGTCCAGCGACCCGATCAACAATTCGACACAGCTTTGCCCGGCGCCCTATGGCTTCAACTGGAGCGTACCGGCACCCGGCAGCTACACCCTGCTGGTGACCGTGAAGCACGGCAACGATACCGGGGTCGATACCGAGACCGTCGAATTCCTCATGCTGACGGTGGAATACCCCGCCCCGCCGGCGGTCGCCAACGCCTATATCAACAGCGTGCCGCTGTACAAATCCGCCTCCGGCAAGAAGCGCGGCTGCATCATCTCCAAGATCGCCGAGAAACACGCCAAGCTCGCTGGCGAGCAGGGCGGCTACGGGGCGAAAGGCGGCCCCTACGACGAACCGGCGATTCGCCAGGACGTGGACCTCTACTACGCCGGCGCCGGCTGCTGA	MDMYRFRRNLLGAAFLSALSIPCAFAFTPTVEITEPSGIHYVAGFPANVNVTLSLSVFNTSNNNCITNGIKSITVNAQRGDDPATTIHTSSSDPINNSTQLCPAPYGFNWSVPAPGSYTLLVTVKHGNDTGVDTETVEFLMLTVEYPAPPAVANAYINSVPLYKSASGKKRGCIISKIAEKHAKLAGEQGGYGAKGGPYDEPAIRQDVDLYYAGAGC				NA	NA	NA	NA	NA
BMS010_07112	294			hypothetical protein	ATGCAGGTAGAAGGCTTTTTCGAATGGCTCGGCCAGGTGCTGGGGTCGTTCATCCGCTTCATCGTCGAGGGGCTGCGCGGCTTCTTCTCGCTGCTCGCCGATGCGGGCAGCAGCTTCATCAACGGCCTTTCCAAGGCGCTGGGCATGAGCCCGTCGCTGCTCGGCATCATCGTCCTGATCATCGGTTTGCTGCTGCTCTTCGCCGCGTTCCGCGCCTTCATGCGCAAGTCCATCGTGTTCGGCCTGATCTGGCTGCTGCTCGCCCTCTGGGTCCTGAGCCTGGTGGTCAGCTGA	MQVEGFFEWLGQVLGSFIRFIVEGLRGFFSLLADAGSSFINGLSKALGMSPSLLGIIVLIIGLLLLFAAFRAFMRKSIVFGLIWLLLALWVLSLVVS				NA	NA	NA	NA	NA
BMS010_07113	4905	yfhM_2	COG2373	Alpha-2-macroglobulin	ATGCCGAAGAAAGGATTGCTTCTGGCCCTCGCCCTGAGCCTGCTCAGCGGCTGCGATTCCTCCACCCCCGAACCTTCATCCTCCGCACCGCCTGCCGCTGTCGTCGAACAGGCCAAGCCCAAGCCGGCCCAGGATCTCGCCGCTCTCGGCAAGCGCTATGCCGGTCGCGAGCTGAGCGTGGTGGATGTGTCCGAGGTCCAGTTGGACGGCGCCAGCGCCCTGTCCGTGACCTTCTCGGTGCCGCTGGACCCGGAGCAGAAGTTCGCCGACAAACTGCATCTGGTCGACAGCAAGGCCGGCAAGGTGGACGGCGCCTGGGAGCTTTCCGACAACCTCATGGAATTGCGCCTGCGCCATTTGGAGCCCCAGCGCAAGCTGGTGCTGACGGTGGATGCCGGGCTGCGCGCGGTGAACGGCGCCAAACTCGCCGCCGAGCACGTCAGCCGCCTGGAAACCCGCGACCTGCAAGCGACCGTCGGCTTCGCTAGCCGTGGCTCGCTGCTGCCGACACGTCTGGCCGAAGGGCTGCCGGTGATCGCCCTGAACGTGGACAAGGTCAACGTCGAATTCTTCCGTATCAAGGACGAGGCGCTGCCGAAGTTCCTCAGCCGTTGGGGACGTAGCAGCAACCTGGACAACTGGGAATCGCGCGAGCTGCTGCCGATGGCCGAACTGGTCTATGGCGGGCGTTTCGACCTGAACCCGGCGCGCAACACCCGCGAGACCCTGCTCCTGCCCATCGCCGGGCTGGAGCCGTTCAAGCAGCCGGGCGTTTATCTGGCGGTAATGCGCGAGGCCGGCACCTATAACTATTCGCAGCCGGCGACCCTGTTCAGCCTCAGCGACATCGGCCTGTCCGCCCACCGCTACCGCGATCGCCTGGATGTCTTCACCCAGGCGCTGGACGGCGGCAAGGCGCTAGACAAGGTGAGCCTGGAACTGCTCGACGGAGACGGCCGCGTCCTGGCCAGTGGCGAGACGGACGACAAGGGCCACGCGCAACTGCCGCTGGCGGAAAAGGCCGACGTGCTGCTGGCCCGCCAGGGCGAGCAGACCAGCCTGCTGCGCCTCGCCGGCGCGGCGCTCGACCTGGCCGAGTTCCAGATCGACGGACCGCAGGCGCACCCGCTGCAATTCTTCATCTTCGGCCCGCGCGATCTCTATCGGCCGGGCGAGACCGTGCTGCTCAACGCTCTGCTGCGCGATGCCGACGGTCGCGCGGCGCAAGCCCAGCCGGTGACGGTCGAAGTGCGCCGGCCGGACGAGCAGGTCAGCCGCCGCTTCGTCTGGGAGGCGGACGAAAACGGCCTGTACCAGTACCAACTGCAACTGGCTGCGGAAGCGCCGACCGGGCGCTGGCAACTGGTCTACGACCTCGGCGACGGCAAGCCGCAGCTCTACGAATTCCTCGTCGAGGATTTCCTGCCGGAGCGCCTCGCCCTGGAGCTGAAAGGCAGCGACACGCCGCTCCAGCCGGGCGTGGACGCGCAATTCGCGGTCAACGGTCGTTATCTCTACGGCGCTCCCGCAGCCGGCAACCGTCTGACCGGGCAGGTCTATGTCCGTCCGCTGCGCGACGCCGTCGCGGTCTTGCCCGGCTACCAGTTCGGCTCGGTCACCGAAGAGGAGTTGACCCAGGACCTGGAACTGGACGAAACCACGCTGGACGCCGAAGGCAGCGCCACGCTCTCGGTGGAATCCCGCTGGGCAGACGCCAAGTCGCCGCTCAAGCTGATCCTCCAGGCCAGCCTGCAGGAGTCCGGTGGCCGTCCCATCACCCGTCGGTTGGTTCAACCCGTTTGGCCGGCCGAGCGCTTGCCGGGCGTGCGCGGGTTGTTCGACGGGGAAGAGGTGGATGCCGACAGCCTCGCCGAATTCGAAGTGCTGGTAGCCGATCCAGAGGGCAACAAGCTCGCCGCGAATGGCCTGAAAGTGCGCCTGATCCGCGAGCGGCGCGACTACTACTGGAACTTCTCCGACAGTGACGGCTGGAGCTACCACTACAACGAGAAGTACCTGAACCTCAGCGAGGAAACCCTCGACCTGGCCGCCGGCGCGACGGCCAAGGTTGCCTTCCCGGTGGAATGGGGCTCCTACCGCGTCGAGGTGGAAGACCCGCAGACCGGCCTGCTCAGCAGCCTGCGCTTCTGGGCCGGCTGGCGCTGGCAGGACAACGCCGAGGGCGGCGCGGTGCGCCCGGACCAGGTCAAGCTGGCGCTGGATAAGCCCGCCTATGGCGATGGCGACACCGCCAAGGTCACCGTGACCCCGCCGGCGGCCGGCAGCGGCTACCTCTTGGTGGAATCCAGCGACGGGCCGTTGTGGTGGCAGGCCATCGAGGTGCCGGCGGAAGGCAAGGCGTTCGACATCCCCATCGCCAAGGACTGGGCGCGCCACGACCTGTACGTCAGCGCCCTGGTGATCCGCCCGGGCGAGAAGGCAGCCAAAGCCACGCCCAAGCGCGCCGTCGGCCTGCTGCACCTGCCGTTGGACCGTGCCCCGCGCAAGCTGTCGCTGAGCCTGGAAGCCCCCGAGAAGATGCGGCCGAAGCAGGCGCTGACAGTCAAGGTGAAGGCGCGCAACGCCGATGGCAGCGTGCCGAAGCAGGCCCATGTGCTGGTTGCCGCGGTGGACGTCGGCATTCTCAACATCACCGAATACCCGACGCCCGATCCGTTCGCCGCGCTGTTCGGCCGCAAGGCCTACGGTGCCGACCAACTGGACATCTACGGTCAACTGATCGAAGCCGGCCAGGGGCGCATCGCCAAACTCGCCTACGGTGGTGACGCCGCCCTGGCGGCCGGTGGTAAGCGGCCGGATACCAGCGTGCTGATCGTCGCCAGGCAGAGCCAGCCGCTGGCGCTGAATGCCGAAGGCGAGGGCGAAGTCAGCCTGGATATTCCCGACTTCAACGGCGAGCTGCGCCTGATGGCCCAGGTCTGGACCGACGAGCGCTACGGCATGGCCGAGGCCAAGACCGTGGTGGCCGCGCCGCTGGTGGCCGAGCTGTCGGCGCCGCGCTTCCTCGCCGGTGGCGACCAGACCACCCTGGCGCTGGACCTGACCAACCTGTCCGGCAAGGCGCAGCAGTTAGACGTGCAGCTGAGCGCCGAGGGCCAATTGAGCCTGGACGGCGTCGCCGCCAGCCAGCGCCTCGATTTGGCCGAAGGCCAGCGCAGCACCCTGCGTATCCCGGTGCGGGCGCTGGGCGGGTTCGGCCAGGGCCGTGTGAAGGTCGCGGTCGATGGCCTCGACCTGCCGGGCGAGAGCCTGCCGCCGTTCACCCGCGAATGGACCCTGGGCGTGCGTCCGGCCTATCCGGCGCTGCTCAAGCAGTTCCGCGCGGTGCTCAAGGATGAAGCCTGGAGCCTGCCGGAAGGCACCCTGGCGCAGTTCGAGCCGGCCGGCCGCGAGGCGCTGCTGAGCCTGTCCAGCCGTCCGCCGCTCAACCTCGGCGAGCACATCCAGGCACTCAAGGCCTATCCCTACGGCTGCCTGGAGCAGACCACCAGCGGCCTGTACCCGTCGCTCTATGCCGACGAGGCGACGCTCAAGCGCCTCGGCTTGGAAGGCGAGCCGGACGCCGAGCGGCGCAAGAAGATCGAGCTGGGCATCGAGCGCCTGCTCGGCATGCAGCGCTACAACGGCGGCTTCGGCCTCTGGGGGCCGGACAGTGAGGAAGAATACTGGCTGACCGCCTATGTCACCGACTTCCTCCTGCGTGCCCGCGAGCAGGGTTTCGCCGTGCCGCCGGAGCCGTTGAAGAAGGCCAGCGAACGCCTGCTGCGCTACCTGCAGGAACGCAGCCTGATCGAGGTCGGCTACAGCGGCAATTCCGAGCACACCCGCTTCGCGGTGCAGGCCTATGCCGGCTACGTCCTGGCGCGCAGCCAACAGGCGCCGCTCGGTGCGTTGCGCACCCTGTACGAACGCCGCAGCGAGGCCCGCTCCGGCTTGCCGATGGTGCAACTGGCGGTGGCCCTGCAACGCATGGGCGACCAGCCGCGCGCCGACGAAGCGCTGTACGCCGGCCTGAACATGCACCGCAACGAGCGGGACTGGTGGCTGGCCGACTACGGCAGCGAGCTGCGCGACGAAGCGCTGATCTACGCCCTGCTGGAAGAGCACGACCTGGCGAAAGGGCAGCGGGAAGAGCGGCTGTTCGCCCTGTCGGACGCGCTGGCCGGCCAGCGCTGGCTGTCCACCCAGGAGCGCAATGCGCTGTTCCTCGCCGGTCGCGGCCTGCTCGACAAGCCCGAGGGCAACTGGCGCGCCGAGCTGGACGTCGCCGGCCAGACCCGCGAGATCAATCCGCAGCAACCGGGCCTCAAGCTGGACGGCGCGGCGCTCGCCGAGCCGCTGACCCTGCGCAACCCGGGCAGCGAGCCGCTCTACCAGCGCCTGAGCGTTTCCGGCTATCCGGTGGAGGCGCCTGCCGCGCACGGCAACAACCTGCACATCTTCCGCGAATACCTCGGCCTGGACGGCAAGCCGCTGAACCTCAACGGCCTGGAGAGCGGCGAACTGGTGCTGGTGCACCTCGTCGTGGAAGCCAACGAGCGGGTGCCCGATGCCCTGGTGGTGGATCTGCTGCCGGCCGGCCTGGAACTGGAAAACCAGAACCTGGCGAACAGCTCGGCCAGCCTGGAAGACGCCGGCAGCCAGGTGAAGGAGTGGGCGAACAACATGCAGAACGCCCGCCTGCGGCACCAGGAGTTCCGCGACGACCGCTACGTCGCCGCTCTGGACCTGGATGGCTACGGCAGCACGCACCTGCTCTACCTGGCCCGCGCGGTGACGCCCGGCCGCTACCGCGTGCCGCCGCCCCAGGCGGAGTCCATGTACCGGCCGGAATGGCAGGCCCTGGGCGAGGCGCCGCCGGTGCTGGTGGTCAAGCCACGCTGA	MPKKGLLLALALSLLSGCDSSTPEPSSSAPPAAVVEQAKPKPAQDLAALGKRYAGRELSVVDVSEVQLDGASALSVTFSVPLDPEQKFADKLHLVDSKAGKVDGAWELSDNLMELRLRHLEPQRKLVLTVDAGLRAVNGAKLAAEHVSRLETRDLQATVGFASRGSLLPTRLAEGLPVIALNVDKVNVEFFRIKDEALPKFLSRWGRSSNLDNWESRELLPMAELVYGGRFDLNPARNTRETLLLPIAGLEPFKQPGVYLAVMREAGTYNYSQPATLFSLSDIGLSAHRYRDRLDVFTQALDGGKALDKVSLELLDGDGRVLASGETDDKGHAQLPLAEKADVLLARQGEQTSLLRLAGAALDLAEFQIDGPQAHPLQFFIFGPRDLYRPGETVLLNALLRDADGRAAQAQPVTVEVRRPDEQVSRRFVWEADENGLYQYQLQLAAEAPTGRWQLVYDLGDGKPQLYEFLVEDFLPERLALELKGSDTPLQPGVDAQFAVNGRYLYGAPAAGNRLTGQVYVRPLRDAVAVLPGYQFGSVTEEELTQDLELDETTLDAEGSATLSVESRWADAKSPLKLILQASLQESGGRPITRRLVQPVWPAERLPGVRGLFDGEEVDADSLAEFEVLVADPEGNKLAANGLKVRLIRERRDYYWNFSDSDGWSYHYNEKYLNLSEETLDLAAGATAKVAFPVEWGSYRVEVEDPQTGLLSSLRFWAGWRWQDNAEGGAVRPDQVKLALDKPAYGDGDTAKVTVTPPAAGSGYLLVESSDGPLWWQAIEVPAEGKAFDIPIAKDWARHDLYVSALVIRPGEKAAKATPKRAVGLLHLPLDRAPRKLSLSLEAPEKMRPKQALTVKVKARNADGSVPKQAHVLVAAVDVGILNITEYPTPDPFAALFGRKAYGADQLDIYGQLIEAGQGRIAKLAYGGDAALAAGGKRPDTSVLIVARQSQPLALNAEGEGEVSLDIPDFNGELRLMAQVWTDERYGMAEAKTVVAAPLVAELSAPRFLAGGDQTTLALDLTNLSGKAQQLDVQLSAEGQLSLDGVAASQRLDLAEGQRSTLRIPVRALGGFGQGRVKVAVDGLDLPGESLPPFTREWTLGVRPAYPALLKQFRAVLKDEAWSLPEGTLAQFEPAGREALLSLSSRPPLNLGEHIQALKAYPYGCLEQTTSGLYPSLYADEATLKRLGLEGEPDAERRKKIELGIERLLGMQRYNGGFGLWGPDSEEEYWLTAYVTDFLLRAREQGFAVPPEPLKKASERLLRYLQERSLIEVGYSGNSEHTRFAVQAYAGYVLARSQQAPLGALRTLYERRSEARSGLPMVQLAVALQRMGDQPRADEALYAGLNMHRNERDWWLADYGSELRDEALIYALLEEHDLAKGQREERLFALSDALAGQRWLSTQERNALFLAGRGLLDKPEGNWRAELDVAGQTREINPQQPGLKLDGAALAEPLTLRNPGSEPLYQRLSVSGYPVEAPAAHGNNLHIFREYLGLDGKPLNLNGLESGELVLVHLVVEANERVPDALVVDLLPAGLELENQNLANSSASLEDAGSQVKEWANNMQNARLRHQEFRDDRYVAALDLDGYGSTHLLYLARAVTPGRYRVPPPQAESMYRPEWQALGEAPPVLVVKPR				NA	NA	NA	NA	NA
BMS010_07114	549			hypothetical protein	ATGACGTCCATCCATCGTTACGCCGCCCACCTGGGCATCGCCCTCTGCCTATGCGGCTCGCTCGCCCTCGCGGCCCCGCCTGATCAGAAGGACGAACCTCGTGCCGGCCAAAATAATGCACCGCAACAGCATGGCACCCACGGACAACAACCCGGCAAGGGGCAAGCGCAGAACGCCGGCCCCTCCAACCCGGCGAAACCTGGCAAAGGACAGGCGCAACAAAGCGGGACATCCGCACAGGGCAAACCCGGCAAGGGATCGCCCGCCGCGCAACATGCGGGGCATCCGCCGGCCGACTTCAAGCCGGTCCGCCAGAGCGTCCATGAACAGCGCCACCTGATCGGCCGCGGCCCTGCGCTTCCCAGCCATGTGCATATCGTCAAGGGCAAACCGCTGCCGCCCGGCTATGGCAAACGCCTGCCCGCCGCCACCCTCGCCCATCTGCCGCACTATCCGGGCTATGAGTGGCGCCGGGTCGGTAGCGACATGGTGTTGATCACGATCAGCACTGGCCTGGTCTACGAGATTCTCGCCGACGTGCTCGACTGA	MTSIHRYAAHLGIALCLCGSLALAAPPDQKDEPRAGQNNAPQQHGTHGQQPGKGQAQNAGPSNPAKPGKGQAQQSGTSAQGKPGKGSPAAQHAGHPPADFKPVRQSVHEQRHLIGRGPALPSHVHIVKGKPLPPGYGKRLPAATLAHLPHYPGYEWRRVGSDMVLITISTGLVYEILADVLD				NA	NA	NA	NA	NA
BMS010_07115	1338	dinF	COG0534	DNA damage-inducible protein F	ATGCTGCGCGACGCCTGGCGGCACGCCCCGACCCATCGCAAGGTCTGGGCGCTGGCCGCCCCCATGATCCTGTCCAATCTGTCCGTACCGTTGGTCGCGCTGGTCGACAGCACGGTCATCGGCCACCTGCCCCATGCGCATCAACTGGGCGCGGTGGCGGTGGGCGGCAGCCTGTATACCCTGCTGGTCTGGCTGATGGGTTTCCTGCGCATGGGCACCACCGGATTCGCCGCCCAGGCCAGCGGTCGCGAGGACGGCGGAGCACTGCGCCAGGTATTGCTGCAAGGGTTGCTGCTGGCCCTGGGCTTCGCCCTGCTGCTCGGGTCGCTGGCGATCCCCTTCACCGGTTTCGCCCTCGACCTGATGCGCCCTTCGGCGGCACTCGACGAACTGACCCGCGACTATTTCCATACCCGCCTGCTCGGCCTGCCGGCGGCGCTGGCCAGCTACGCGCTGATCGGCTGGTTCCTCGGTACGCAGAACGCCCGCGCGCCGCTGGCGATCCTGCTGACCACCAACCTGCTCAACGTCGCGCTGGACCTCTGGTTCGTGCTCGGCCTCGATTGGGGCGTGGCCGGCGCGGCCCGCGCCTCGGTAATCGCCGAGTGGAGCGGCGCCCTGCTCGGCCTGGCGCTGACCCGCCATGCCCTGCGCGAGCATCCGGGCCGTCCGGACTGGCACAGCCTGGGCCGCCTCGCCAGTTGGCGGCCGTTGCTGGTGGTGAACCGCGACATCTTCATCCGCACCCTGGCGCTGGAGCTGGTGTTCTTCCTCGTCACCCTGCAAGGCACACGTCTGGGGGAAGCGACGGTCGCCGCCAATGCCCTGCTGCTCAACGGGCTGCTGCTGACCGCCCATGCCCTGGATGGTCTGGCCCATGCGGTGGAAGCACTCTGCGGACATGCCATCGGCGCGCGCGACCGTACGGCGCTGCGCCGCTCGCTGGTGGTCGCGGGCGGCTGGTCGCTGCTGGCCAGCGTCGCGTTCGCCCTGTTCTTCCTGCTCGCCGGGCAGGGTTTCGTCCGCCTGCAGACCGACATCGCCGAGGTGCGCGCGGTGGCCTTCGTCTATCTGCCGTACCTGGCCCTGCTGCCGCTGGTGGCGGTGTGGAGCTACCTGCTCGATGGCCTGTTCATCGGCGCCACCCGCGCCCGCGAGATGCGCGACGCGATGCTGGTCGCCGTGACCCTGGCGGTGCCGTTGGGCTGGGCCCTGAGCGGACTGGGCAACCATGGCCTGTGGCTGGCCTTCCTGACCTTCATGCTGCTGCGCGGAATCTGCCTCGGCCTGCTGGCTTGGCGCCTGAATCGGCGCGATGCCTGGTTCGCCTCGCCCTGA	MLRDAWRHAPTHRKVWALAAPMILSNLSVPLVALVDSTVIGHLPHAHQLGAVAVGGSLYTLLVWLMGFLRMGTTGFAAQASGREDGGALRQVLLQGLLLALGFALLLGSLAIPFTGFALDLMRPSAALDELTRDYFHTRLLGLPAALASYALIGWFLGTQNARAPLAILLTTNLLNVALDLWFVLGLDWGVAGAARASVIAEWSGALLGLALTRHALREHPGRPDWHSLGRLASWRPLLVVNRDIFIRTLALELVFFLVTLQGTRLGEATVAANALLLNGLLLTAHALDGLAHAVEALCGHAIGARDRTALRRSLVVAGGWSLLASVAFALFFLLAGQGFVRLQTDIAEVRAVAFVYLPYLALLPLVAVWSYLLDGLFIGATRAREMRDAMLVAVTLAVPLGWALSGLGNHGLWLAFLTFMLLRGICLGLLAWRLNRRDAWFASP	PGPT0029115_7284	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029115-TC_MATE|norM|mdtK|dinF-K03327	NA	NA
BMS010_07116	456			hypothetical protein	ATGGCCAACGCCATCGCCGCCTACCTGCATTACCTGTCGATCTTCGTCCTGTTCGCCCTGCTGACCATGGAGCACGTGCAGTTCAAGCTGCCCATGGACCTGCCGCGCGCCCGCAGCCTGTACATCACCGACATCGCCTTCGGCATCACTGCCGGCGTGGTCCTGGCGACCGGCCTGTTGCGCGTCTTCTGGCAGGGCAAGGGCCTGGAGTTCTACCTGAAGAACGGCTTCTTCCATGCCAAGGTCAGCCTGTTCATCCTGATCGCGCTGCTGTCGATCCTGCCGACCTTCACCATCCTCAACTGGCGCAATGCCTTGAAGGCCGGCCAGGTGCCGGAGATCAGCGCCTCGAAGGGACGGCTGGTCATCATGTTCATCCGACTGGAGCTTCTGCTGCTGATGATGATGCCGCTGATGGCGGTGTTCATGGCACGGGGATTCGGGATGGGTAGCTGA	MANAIAAYLHYLSIFVLFALLTMEHVQFKLPMDLPRARSLYITDIAFGITAGVVLATGLLRVFWQGKGLEFYLKNGFFHAKVSLFILIALLSILPTFTILNWRNALKAGQVPEISASKGRLVIMFIRLELLLLMMMPLMAVFMARGFGMGS				NA	NA	NA	NA	NA
BMS010_07117	1914	speA		Biosynthetic arginine decarboxylase	ATGTCCGCACGACGCACGCGTAAGGACGATGGCAGCAGCTGGACAGTGGCCGACAGCCGCAGTGTCTATGGCATCCGGCACTGGGGAGCCGGCTATTTCGCCATCAACGACGCGGGACGCGTGGAGGTTCGCCCGAACCGCCAGGCGGACCAGCCGATCGATCTCTATTCGATGCTCGACGAACTTCGCTCCAGCGGCCTGTCGCTGCCGCTGCTGGTGCGTTTCCCGGACATCCTGCAGGACCGCGTTCGCCAACTGACCGGGGCGTTCGACGCCAACATCGCGCGCCTGGAATACCAGAGCCGCTACACCGCGCTGTACCCGATCAAGGTCAACCAGCAGGAAGCGGTGGTGGAAAACATCATCGCCACCCAGAACGTTTCCATCGGCCTGGAGGCCGGCTCCAAGCCCGAGCTGCTGGCGGTGCTGGCACTGGCGCCGAAGGGCGGCACCATCGTCTGCAACGGCTACAAGGACCGTGAGTTCATCCGCCTGGCGCTGATGGGGCAGAAGCTCGGCCACAACGTCTTCATCGTCATCGAGAAGGAATCCGAGGTACAGCTGGTGATCGAGGAGTCGGCCGATCTCAAGGTCGCGCCCCAGGTCGGCCTGCGCGTGCGCCTGTCCTCCCTGGCCTCCTCGAAATGGGCCGATACCGGAGGCGAGAAATCCAAGTTCGGCCTGTCCGCCGCGCAACTGATCTCGGTGGTCGAGCGCTTCCGCGCCGCCGGCCTGGATCAGGGCATCCGCCTGCTGCACTTCCACATGGGCTCGCAGATCGCCAACCTGGCCGACTATCAGCACGGCTTCAAGGAAGCCATCCGCTATTACGCCGAACTGCGTGCGCTCGGCCTGCCGGTGGACCACGTGGACGTCGGTGGCGGCCTGGGCGTCGACTACGACGGCACCCACTCGCGCAACGCCAGTTCGATCAACTACGACATGGATGACTATGCCGCCACCGTGGTCGGCATGCTCAAGGAGTTCTGCGACGCCCAGGGCCTGCCGCACCCGCACATCTTCTCCGAGAGTGGTCGTTCGCTCACCGCGCACCACGCGGTGCTGGTGATGCAGGTCACCGACGTGGAGAAACACAACGATGCCGTTCCGGTGATTGAGGACAAGGCCAGCCTGCCCGAGCCGGTACGCTGGGTGGCAGAGCTGCTCGGCCCGACCGACATCGAGATGGTCACCGAGACCTACTGGCGCGCAACCCACTATATGAGCGACGTCGCCACCCAGTACGCCGAAGGCAAGCTGACCCTGTCCGACAAGGCCCTGGCCGAGCAGTGCTACTTCGCCCTCTGCCGCCGCCTGCACAACTCGCTGAAGGCCCGCCAGCGCTCGCACCGCCAGGTGCTGGACGAGCTCAACGACAAGCTCGCCGACAAGTACATCTGCAACTTCTCGGTATTCCAGAGCCTGCCGGACACCTGGGCCATCGGCCAGGTGCTGCCGATCCTGCCGCTGCACCGCCTGGACGAGGAACCGCTGCGCCGCGCCGTGCTGCAAGACCTCACCTGCGACTCCGACGGCAAGATCAAGCAGTACGTCGACGAGCAGAGCATCGAGACCAGCCTGCCGGTGCACGAGGTACGCGACGGCGAGGAGTACCTGCTCGGCGTGTTCCTGGTCGGCGCCTACCAGGAAATCCTCGGCGACATGCACAACCTGTTCGGTGACACGGATTCGGTGAACATCTACCAGCGCGACGACGGCAGCGTCTATCACGCCGGCATCGAGACCCACGACACCATCGAGGACATGCTGCGCTATGTGCATCTGTCGCCGGAAGAGCTGATGACCTACTACCGCGACAAGGTGGCCGGCGCCCGCCTCAGCGCTCGCGAGCGTACCCAGTACCTGGATGCGCTGCGCCTGGGCCTGACCCGTTCGTCCTACCTGTCGTCGTAA	MSARRTRKDDGSSWTVADSRSVYGIRHWGAGYFAINDAGRVEVRPNRQADQPIDLYSMLDELRSSGLSLPLLVRFPDILQDRVRQLTGAFDANIARLEYQSRYTALYPIKVNQQEAVVENIIATQNVSIGLEAGSKPELLAVLALAPKGGTIVCNGYKDREFIRLALMGQKLGHNVFIVIEKESEVQLVIEESADLKVAPQVGLRVRLSSLASSKWADTGGEKSKFGLSAAQLISVVERFRAAGLDQGIRLLHFHMGSQIANLADYQHGFKEAIRYYAELRALGLPVDHVDVGGGLGVDYDGTHSRNASSINYDMDDYAATVVGMLKEFCDAQGLPHPHIFSESGRSLTAHHAVLVMQVTDVEKHNDAVPVIEDKASLPEPVRWVAELLGPTDIEMVTETYWRATHYMSDVATQYAEGKLTLSDKALAEQCYFALCRRLHNSLKARQRSHRQVLDELNDKLADKYICNFSVFQSLPDTWAIGQVLPILPLHRLDEEPLRRAVLQDLTCDSDGKIKQYVDEQSIETSLPVHEVRDGEEYLLGVFLVGAYQEILGDMHNLFGDTDSVNIYQRDDGSVYHAGIETHDTIEDMLRYVHLSPEELMTYYRDKVAGARLSARERTQYLDALRLGLTRSSYLSS	PGPT0007770_567	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007770-speA-K01585	NA	NA
BMS010_07118	372	yciH	COG0023	putative protein YciH	GTGGTCAAGAAAGCTTCGTCCTTCGCTGCCCTTGGCGGTCTGGTGTACTCCACCGACAGCGGCCGGCATTGTCCGGAATGCCGCCAGCCCATCGATGCCTGTATCTGCACGCAAACGGCCGTTCCCGCTGGCGACGGTATCGCCCGCGTACGCCGCGAAACCAAGGGCCGGGGCGGCAAGACGGTGACCGCGGTGAGCGGCGTACCGCTGGCCGAGGATGCGCTCAAGGAGCTGGCCAGTGCGCTCAAGCGCCGCTGCGGCACCGGCGGCGCCTTGAAGGACGGTGTCATCGAGATCCAGGGCGACCACGTCGAGCTGTTGCTCGAAGAACTCGCCAAGCGCGGTTTCAAGGCCAAGAAGTCCGGCGGCTGA	MVKKASSFAALGGLVYSTDSGRHCPECRQPIDACICTQTAVPAGDGIARVRRETKGRGGKTVTAVSGVPLAEDALKELASALKRRCGTGGALKDGVIEIQGDHVELLLEELAKRGFKAKKSGG	PGPT0015030_277	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015030-yciH-K03113	NA	NA
BMS010_07119	1335			hypothetical protein	ATGAGTCGATATGATGCGTTGTCCCGACGCTGGAGCGGTGTCGTTGGTGTCAGCACGCTGAGCGCGCTGGCCTTGATATCGCCGCTGGCGCTTGCGGCGAAAAGCGATGTACCGCCGGGGTTCGGCTACCAGACCACGGGCGGCAAGGGTGGCCAGGTCATCGAGGTTTCTACCGCGGAGGATTTGGAAAAGGCGCTGTGCGATCCGAAGAAACTGTCCGGCGATGGGCGGGTGTGCTATGACACGACGCCGAAGATCATCAAGATCAAGGGCATCATCGACTATAACGCCAAGGGCCTCGCGAAGATGGCAAACGGTGTCGGTTGCTATTACTCCGACGAGAAGGTTTGTACCGCCAAGGGTGTGCCGCCTTCGAAATGGAGTCGTCTGCTCTCGGACAATAACTCCTATAGGGGCCAATGCAACGGGCACACGAATGCAGGCACCATTACCTACAACTCATGGGGCTTGAATTCCCTGGCGATCGGTTCCAACACCACGGTAATGGGAGTGGGCAAGAATTCCGGGATCAAGGGCCGTGGCTTCGCGGTCCGTTTGGCCTCGAACGTCGTCATCCGCAACCTGTCGATCACCGATATCAATGAAAACATCGTCTTCGCCGGTGACGGTATCGAGGTGCAGGATGCGGACAAGGTCTGGATCGACCAGAACCGCTTCACCCGTATCGGCCGGCAGTGGATTACCGTCGGTTGGGGCAAGGCCACCAATGTCACCATCTCCAACAACGACTTCGACGGCTCCAGCAACATGGGCCAGTACTGCGACGGTACACATTATTTCGGCCTGATCATTTCCGCTAGGAACCAGAACGTCTCCCTCGTGGGCAACTGGTTCCACCACTTCCGCGGTCGTTCGCCGGATGTCGCACCGCCTGAGGCTGCCGGCCAGGCGCCGATCGTGCATATGCTGAACAACTACTTCCAGCACGGCACCTGGCACGGGCTGGCGGCTACCAAGCCTGCGCGGGTGTTGGCAGAGGGGAACTACTACGAGAATGTCGATACGCCGATCATTCGTTATGGCAGCGGCGACGCGGCGAAGAATGCCGGCTATGTCTTCGCGCCGCTGGCTACGGTCACGAGCCAGTGCCAGGGGCAGCTCGGCCGGGTCTGCACCGCCAACCTGGTATTTGGCGAGAACCCCCGCCCCAGCAGTCTGCCGAAGGCGCAGGCCTTTACCCAGGACCTGACCGTGCTGGACGCCATGAAAAAGGCGGTGGCGGCCAGCCGTGGCGGCAATCTGAAGCCTTTCCCGGCGAAGAACGTCCCGCGGCGTGTCATGGCCGAAGCCGGTCCGCAGGACTGGCTGCGCTGA	MSRYDALSRRWSGVVGVSTLSALALISPLALAAKSDVPPGFGYQTTGGKGGQVIEVSTAEDLEKALCDPKKLSGDGRVCYDTTPKIIKIKGIIDYNAKGLAKMANGVGCYYSDEKVCTAKGVPPSKWSRLLSDNNSYRGQCNGHTNAGTITYNSWGLNSLAIGSNTTVMGVGKNSGIKGRGFAVRLASNVVIRNLSITDINENIVFAGDGIEVQDADKVWIDQNRFTRIGRQWITVGWGKATNVTISNNDFDGSSNMGQYCDGTHYFGLIISARNQNVSLVGNWFHHFRGRSPDVAPPEAAGQAPIVHMLNNYFQHGTWHGLAATKPARVLAEGNYYENVDTPIIRYGSGDAAKNAGYVFAPLATVTSQCQGQLGRVCTANLVFGENPRPSSLPKAQAFTQDLTVLDAMKKAVAASRGGNLKPFPAKNVPRRVMAEAGPQDWLR	PGPT0023525_9	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_MEMBRANE_POLYSACCHARIDE_DEGRADING_FUNCTIONS	PLANT_MEMBRANE_PECTATE_LYASE|ESTERASE,PGPT0023525-pelB-K01732	NA	NA
BMS010_07120	1329			hypothetical protein	ATGAAGAAGTATGAAACGTTGTCCCGACGCTGGGGGAAGGCGGCGATTTACGCAGGGGCTTTCGCAGGCATGGCGATGCTGTCTCCATTGGCTGCGGCCGCGAAAGCTCCGTTGGGCTTTGGACAGGGAGTGAAAGGGGGGGAAGGTGGCGTCGTGATCGAAGTCACCACGGCGGCGGAGCTGGAGAAAGCGCTCTGCGATCCCAAGAAATTATCCGGCGATAAGCGAGTCTGCTCCGACTCCACTCCCCGCATCATCAAGATTAAGGGAATCATTGACTACAACGCGCCGGAACTGAGGGAAATGGCAACCTCGGGAGGGTGCTATTACGCGGATGAAGAGGTTTGCATCGCAAAGGGGGTGCCAGCCAAGGAGTGGGATCTTCTCGTTGCGGATAAGTCCTCTTACAACGGCCACTGTAAAGGCCATACCGGTGTCGATCAGATCAAATACAACAACCTTGGTCTGAAGCCGTTGGCAATCGGCTCCAACACCACCGTAATGGGCGTTGGTAAGAACTCCGGCATCAAAGGGCGCGGATTCGCAGTACGTAACGCCTCCAACGTCATTATTCGTAACCTGTCGATTACCGATATCAACGAAGGCATTGTTTTCGTAGGTGACGGCATTCTGCTCGAGAACGCAGATAAGGTCTGGATCGATCAGAACTATATCTCTCGTATCGGACGCCAATGGATCACCCTTGGCTATGCAAAAACTACCAATGTCACGATTTCCGATAACGACTTCGATGGCACCAGTAAGCAAGGAAAGAGCTGTAACCAGGCTCATGCCTATGGGCTCTACGTGGCGGGGAAAAATCAGAGCGTCACGATCGTTGGCAACTGGTTCCGTAATTTCCGGTCGCGTGCGCCGATAGTCATGCCGCCGGATGGTGATGGTCCGGCGCCCGTCGTCCACATGGCGAACAACTATTTCGAGCACGGCACCTGGCACGGACTGGATGCGTATAAACCTGCCCGCGTACTCGTGGAAGGGAACTATTACGAGGACGTTCAAACACCAATCATGAGATATCCGGATTCGGACTCAAAGGGTCAGAACGCAGGCTATGTTTTCGCCCCGTTGGCGACAGAGAAGCAGTTGTGCAAGTCCAAGCTCAAGCGCGAATGCACAGCAAATCTGGTATTCAAAGCCAATCCCAAGCCTTACTGCCTAACGGTAGAAAATGCTTTCACACTCGACGCCAACGTGCTGGACGCGATGAAGGTCGCTGCTGATGGCAAGTCGGTGTTCAAGGCCTATCCGGCCAAGAATGTGCCGAAACGTGTCAAGGCCGAAGCAGGGCCGCAGGATTGGCTTCGCTGA	MKKYETLSRRWGKAAIYAGAFAGMAMLSPLAAAAKAPLGFGQGVKGGEGGVVIEVTTAAELEKALCDPKKLSGDKRVCSDSTPRIIKIKGIIDYNAPELREMATSGGCYYADEEVCIAKGVPAKEWDLLVADKSSYNGHCKGHTGVDQIKYNNLGLKPLAIGSNTTVMGVGKNSGIKGRGFAVRNASNVIIRNLSITDINEGIVFVGDGILLENADKVWIDQNYISRIGRQWITLGYAKTTNVTISDNDFDGTSKQGKSCNQAHAYGLYVAGKNQSVTIVGNWFRNFRSRAPIVMPPDGDGPAPVVHMANNYFEHGTWHGLDAYKPARVLVEGNYYEDVQTPIMRYPDSDSKGQNAGYVFAPLATEKQLCKSKLKRECTANLVFKANPKPYCLTVENAFTLDANVLDAMKVAADGKSVFKAYPAKNVPKRVKAEAGPQDWLR	PGPT0023525_9	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_MEMBRANE_POLYSACCHARIDE_DEGRADING_FUNCTIONS	PLANT_MEMBRANE_PECTATE_LYASE|ESTERASE,PGPT0023525-pelB-K01732	NA	NA
BMS010_07121	534	yfcD		putative Nudix hydrolase YfcD	ATGAGCGCCTGGAGCGAACGCGAGGCGGCCCACCGGGCCGCTTCCGACGCTGAGCTGATCGCCTGGGTCGACGAACAGGACCGCCCGCTCGGCGGTCTGCCGCGCGCCGAGTTGCGCCAGCGGGGGCTGGTCGGCCGGGGCACCTTCATTCTCCTGTTCAACTCCGCCGGGCTGCTCTGCGTGCACCGCCGGACCCTCAGCAAAGCGCTCTATCCCGGCTATTGGGACGTGGCCGCCGGTGGCATGGTGCTGGCGGGTGAGACCTACCTCGAATCCGCCACCCGCGAACTGGAAGAGGAGCTGGGCGTCAGTGGCGTCGAGCTGCACGAGCACGGCCGCTTCTTCTTCGACCAGCCGGACAATCGCCTGTGGTGCGCGGTGTTCTCCGCGGTATCCGACCAGCCGCTGGTCCTGCAGCCCGAAGAGGTGCTGGAGGCGCGCTTCACCCCTCCCCACGATGTGCTTGTGGAAGCCTGTGACAAGCTCTTCTGCCCGGACTCCCTGGAAGCCCTGAGACGCTATCTCGGGGTGTAA	MSAWSEREAAHRAASDAELIAWVDEQDRPLGGLPRAELRQRGLVGRGTFILLFNSAGLLCVHRRTLSKALYPGYWDVAAGGMVLAGETYLESATRELEEELGVSGVELHEHGRFFFDQPDNRLWCAVFSAVSDQPLVLQPEEVLEARFTPPHDVLVEACDKLFCPDSLEALRRYLGV				NA	NA	NA	NA	NA
BMS010_07122	1068			hypothetical protein	ATGCTGGACTGGAAGAACCGCGCCGGCCGTCTGCGCGACCGCGTCGACGACTCGGTGGATGATGTGCGCAGCTACTTCGGCGGCTTCTGGCTGAGCCGCGCCCTGGGGTTGCTGCTCGGCCTTTATCTGCTGATCACCCTGGTGCTCGGCTGGTACTGGAGCCAGGAACCCGGTTTCTTCCCGGTCCAGCAGAACGCCCAGGCCGCGGCCGAGCGTGCACAGCGGCAACTGGTGGGTGGCTACACCACGGTGGAAACCCTGAAGAAGGTCGCCAGTACCCTGCTGGACAAGCCGGGCGGCTACCTGTCCAACGACCTGGCGCCGCCCGGCCTCTGGCTGGACAACATGCCGAGCTGGGAATACGGCGTGCTGGTCCAGGTCCGCGACCTGTCGCGCGCGCTGCGCAAGGACTTCGCCCGCTCGCAGTCGCAGTCCACCGAGGACTCCGACCTGGCCCGCGCCGAGCCGCGTTTCAACTTCGACAACAAGAGCTGGGCACTGCCCGCTTCCGAATCCGAATACCGCGAAGGGTTGCGGGCGCTGGATCGCTACCTGGCCAAGCTGGCCGACCCGAACCAGCCCAAGGCGCAGTTCTATACCCGTGCCGATAACCTCAACAACTGGCTGGGCGACGTCGCCACCCGTCTCGGTTCGCTGTCCCAGCGCCTGTCCGCCAGCGTCGGCCGGGTGCGTTTGAACACCGACGCGAAACCCGAGGAAGTGAAACCCGGAGAAGTGCCGCGGGTCAGCGAGGAAACGGTGGAAACGCCCTGGCTGCAGATCGACAACGTGTTCTACGAGGCGCGTGGCCAGGCCTGGGCGCTGTCGCACCTGTTGCGCGCCATCGAGGTGGACTTCGCCGATGTGCTGGCGAAGAAGAACGCCACCATCAGCGTGCGTCAGATCATCCGCGAGCTGGAGGCGGCACAGGAGCCGTTGTGGAGCCCGATGGTGCTGAACGGTAGCGGCTACGGCGTGCTGGCCAACCACTCCTTGGTGATGGCCAACTACATCTCCCGCGCCAACGCCGCGATCATCGATCTGCGCAACCTGCTCGAGCAGGGCTGA	MLDWKNRAGRLRDRVDDSVDDVRSYFGGFWLSRALGLLLGLYLLITLVLGWYWSQEPGFFPVQQNAQAAAERAQRQLVGGYTTVETLKKVASTLLDKPGGYLSNDLAPPGLWLDNMPSWEYGVLVQVRDLSRALRKDFARSQSQSTEDSDLARAEPRFNFDNKSWALPASESEYREGLRALDRYLAKLADPNQPKAQFYTRADNLNNWLGDVATRLGSLSQRLSASVGRVRLNTDAKPEEVKPGEVPRVSEETVETPWLQIDNVFYEARGQAWALSHLLRAIEVDFADVLAKKNATISVRQIIRELEAAQEPLWSPMVLNGSGYGVLANHSLVMANYISRANAAIIDLRNLLEQG				NA	NA	NA	NA	NA
BMS010_07123	1617	cheB_13		Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGATCGATCAAGAAGATCCCAGCCGCGACCGCCTCAAGCATCATTTCGCCCAGCGCGTGATCCATCAGGCGCGGCATGTGCTGGAGGTCTGGCAGCGGTTGCAGTCGAGCGAATGGACCGCCCCGCACATGGCCGAACTGGCCGAGGCCAACGAGCGGCTGCTGCGCTATGCCGAGCGTTTCGAGCAGGCCGGGCATGCCCAGCTCGCCCACGGCATCGCTCACTGCCTGCATGCCATCGAAGCCAACCATGGACGCATCACCAGCGCGCTGATCAGCGAACTCAACCTGCTGATGCAGCGCCTGTCGCGCACCGGCCTGCGCCATCGCGACCGTCTCGAACAGACCTTCCTGCCGCCGCTGCGCAAGCCGGTCTACCTGGCGCTCCAGGACGTCGAGCGCGCCGAACGGCTGGGCCAGCAGCTCGAGTTCTTCGGCGTCAACGCCCAGGCCCTTGGCGATGCCAATGCCTTTCGCAGCGCCATGGCCGAGCGCCATCCGGCGGCGATCGTCATGGAGATCGATTTCTCCGGCACCGGCTGCGGGCTGCGTCTGGCCGCGGAGGTCCAGCAGGACCTGGAACAGAAGCTGCCCATCCTGTTCTTCAGTCACGAAGACACCGACACCCCGACCCGGCTCGCCGCGGTGCGCGCGGGCGGCGAGGAATTCTTCACCGGAACCCTGGACGCCTCCAGCCTGCTCGAACGCATCGAAGAACTGACCCACGTTACCCAGTACGATCCGTACAAGGTCCTGATCGTCGACGACTCGCGGGCCCAGGCGACCCATACCGAGCGCGTGCTGAACAGTGCCGGCATCGTCACCCGCACCCTCACCGAACCGATCCGGGCGATGGCCCAACTGGCCGACTTCCAGCCCGACCTGATCATCCTCGACATGTACATGCCGGAGTGCAACGGCACCGAACTGGCCAAGGTGATCCGTCACAACGACCGCTATGTCAGCGTGCCGATCATCTACCTCTCCGCCGAGGACGATCTCGACAAGCAGCTGGATGCCATGAGCGAGGGCGGCGACGATTTCCTGACCAAGCCGATCAAGCCGCGCCACCTGATCGCCACCGTGCGCAACCGCGCCGCCCGCGCGCGCAACCTGAAGGCCCGCATGGTGCGCGACAGCCTCACCGGCCTGTACAACCACACCCATACCCTGCAACTGCTGGAGGACGCTACCTTCCGCGCCCGCCGCGACAGCCAGCCGCTGGCTTTCGCCATGCTCGACATCGACCATTTCAAGCGGGTCAACGATACCTACGGGCATCCCATGGGCGACCGGGTGATCAAGAGCCTGGCCCTGTTCCTCAAGCAGCGCCTGCGCAAGACCGACCACATAGGCCGCTACGGCGGCGAAGAGTTCGCCGTGATCCTGCCCGACACCGATGCGGCCTCGGCCTTCCGCGTACTGGAAGAAATTCGCCAGCGATTCGCCGAAATCCATTACCCGGCCAAACCGCAGGACCTGACCTGCACCTTCAGCTGCGGCGTCGCCGAATGGTCTGACGGGGTCGACAGCAAGATGCTGTCCAAGCAGGCCGACCAGGCGCTCTACCAGGCCAAGCACGGCGGCCGGAACCGGACGGTAATTTTCTCCGGCTGA	MIDQEDPSRDRLKHHFAQRVIHQARHVLEVWQRLQSSEWTAPHMAELAEANERLLRYAERFEQAGHAQLAHGIAHCLHAIEANHGRITSALISELNLLMQRLSRTGLRHRDRLEQTFLPPLRKPVYLALQDVERAERLGQQLEFFGVNAQALGDANAFRSAMAERHPAAIVMEIDFSGTGCGLRLAAEVQQDLEQKLPILFFSHEDTDTPTRLAAVRAGGEEFFTGTLDASSLLERIEELTHVTQYDPYKVLIVDDSRAQATHTERVLNSAGIVTRTLTEPIRAMAQLADFQPDLIILDMYMPECNGTELAKVIRHNDRYVSVPIIYLSAEDDLDKQLDAMSEGGDDFLTKPIKPRHLIATVRNRAARARNLKARMVRDSLTGLYNHTHTLQLLEDATFRARRDSQPLAFAMLDIDHFKRVNDTYGHPMGDRVIKSLALFLKQRLRKTDHIGRYGGEEFAVILPDTDAASAFRVLEEIRQRFAEIHYPAKPQDLTCTFSCGVAEWSDGVDSKMLSKQADQALYQAKHGGRNRTVIFSG	PGPT0015900_1290	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-CELL_FATE_CONTROL	PUTATIVE-CELL_FATE_CONTROL-1,PGPT0015900-pleD-K02488
BMS010_07124	1965	ctpL		Methyl-accepting chemotaxis protein CtpL	ATGCGCCTCAAGCTGCTCACCAACCTCAACACCCTGCTCCTGGTCACCGTCTGCCTCGCCCTGGGCGCCACCCTCTGGTGGTCGCAACGCGCCCTGGAGCGCCCCTACCTGTTGATGGCGAACTACCTGAGCCTGTCGCAGCAGTTCCAGAACGACGTGGCACAAAGCATCCACGACTACCTCGCCAGCGGCGATGCCCTGCGCCACAGCGCCGCCAGCCAGGCCATCGATGAGCTGGAACGGGAACTGGATAGCCTGCCGGAGCCGTTGGCCGATTCGCTGCGACCAACCTTTGGAGAACTGCGCGACTTTGTCGCCACCGACCTGCTGGCCGCCGGAAAACTGGCTGGCGATCCGCAGGGCCTGCTGTTGCAGGCAGAGCGGGAGATTGGCGGTCTCCTCGACCAACTCGCCCAGTACGCCGACAGCAGCACCCAAGCAGCCGCCACCGACTATCGCCCTCCGCTGTTCCAGATCGCCCAGCACCTGCAACGTCTTGCCCATGCCCGCGACAAACTGGTGGCCAGCGGGCGCGTCGAACTGGCGGCGGATGTCGAGCGGGAAATCGCCGCCCTCCAGCGCCAGGCCGAACGCCTGGACGCCCTGCCCCTGCTTGGCGTGGAAGAGCGGAGCCCCTCCGATGGCAACGCGTTCGCCGCGCTGCTCGGCCTGGACAGCGACACCGAAGAACAGCAGGCCGAAGACCGGGGAATCGCCCTCAAGCGCGAGCTGAACAGCCTGATCAAACGCTACCCGGGCGAGCTTGCCCGCACCCGGGAGCTGATCCAGCGCCGCACCGAACTGGCCAATACCACCCGCCAGAAGCTGGCCGCCCTGCAGCAGGCCCTGGCCGCGCTGGAACCCGCCGTACGGGCCGAGCATGGCCGTATCCAAGGCGAGGTTCGCCTGATCCAGGGGCTGATGATTGTCCTGATCCTGCTCATCGCCTTGACCATCGACACCATCCAGCGCCGCCTGGCCCGCGTCCTCGGACGCCTGGTTCCAGCATTGTCGGCCTGGGCCGCCGGCGATTTCGCGACGGATATCCGCCTCGACGCACGCACCCGCGAACTGCGCGATATCGAGGATTCCCTCAATCACCTGCGCGCCTATCTGGTCGATCTGGTCGGCACCATCCGCCGGCATGCCGAGCAGGTTGCCGGCAGCAGCCGCACCCTGGCCGGGCTGAGCAGCGGCCTGCACAGCGGCGCCGAACGCCAGGCGGGCGACACCGCCCTGATCCGCGACGCCCTGGGCGAACTGGAAGCCACCATCCAACAGGTCGCCGACGATGCCAGCCAGGCCGCCAACGCCAGCCGCCAGGCCGGGCGCTCGGTGGAACAGGGGCAAGGGGTCATCGACCAGAGCCTGGCGGGCCTGCACGGGCTGGTCAGCGAAGTCCAGGACAACGCCCAGGCCATCGAGCGCCTGGCCGAGGAAACCGCCACCATCGGCAACGTGCTGACCGTGATCCGCGCCATCGCCGAGCAGACCAACCTGCTGGCGCTGAACGCCGCCATCGAGGCCGCCCGTGCCGGCGAGCAAGGGCGCGGCTTCGCCGTGGTCGCCGAGGAAGTCCGCTCCCTGGCCCAGCGCACCACCGGCGCCACCGAGGAAATCCAGCAACTGATCGCCCGCCTGCAACAGGCCGCCCGTCAGTCGGTGGAGGCCATGCGCGCCCAGGTCGAGCATGCGCAGGACACCGCCCTCCAGGCCGAAGCCGCCGATGGCGCGCTGGTGGAAGTGGTCGAAGCGATCCGCACCATCGCCAGCATGGCCGAACGCATCGCCGAAGCCACCGCCCAGCAGAGCGGCGCGGTGAGCGAAATCCGCGATCACAGCGAACGCATCCACAGCCTCGGCAGCGACAACCTGCAGCGCATCGGCGAAGGACGCCACCAGGGCGAACAACTGCTCGAACTCGGCGGCCGGCTGCATACCGCCGTCCAGGCGTTTCGCGTTTAA	MRLKLLTNLNTLLLVTVCLALGATLWWSQRALERPYLLMANYLSLSQQFQNDVAQSIHDYLASGDALRHSAASQAIDELERELDSLPEPLADSLRPTFGELRDFVATDLLAAGKLAGDPQGLLLQAEREIGGLLDQLAQYADSSTQAAATDYRPPLFQIAQHLQRLAHARDKLVASGRVELAADVEREIAALQRQAERLDALPLLGVEERSPSDGNAFAALLGLDSDTEEQQAEDRGIALKRELNSLIKRYPGELARTRELIQRRTELANTTRQKLAALQQALAALEPAVRAEHGRIQGEVRLIQGLMIVLILLIALTIDTIQRRLARVLGRLVPALSAWAAGDFATDIRLDARTRELRDIEDSLNHLRAYLVDLVGTIRRHAEQVAGSSRTLAGLSSGLHSGAERQAGDTALIRDALGELEATIQQVADDASQAANASRQAGRSVEQGQGVIDQSLAGLHGLVSEVQDNAQAIERLAEETATIGNVLTVIRAIAEQTNLLALNAAIEAARAGEQGRGFAVVAEEVRSLAQRTTGATEEIQQLIARLQQAARQSVEAMRAQVEHAQDTALQAEAADGALVEVVEAIRTIASMAERIAEATAQQSGAVSEIRDHSERIHSLGSDNLQRIGEGRHQGEQLLELGGRLHTAVQAFRV				NA	NA	NA	NA	NA
BMS010_07125	1782	dsbD_1	COG4232	Thiol:disulfide interchange protein DsbD	ATGCCCCGCCTGCTGACCCTGTTGCTGTTCCTGGTCGCCCTCCCCGCCGCCGCGGGCCTCTTCGACAGCCGCCCTAGTCCCACCCTCGGCGCACCGCTGAATAACAGCAGCGACTTTCTGCCAGTGCGCGAAGCCTTCCGCCTGAGCCTGGTGGAGAGCGGCCCCGAGTCGGTGAAACTGCGCTTCGTCGCCGCCGAAGGCTACTACCTCTACCGGCACCGTTTCGCCTTCCGCACCGACCCGGCGGATATCGCCCTGGGCCAACCCCGGCTGCCGGCCGGCGAAGCCAAGACCGACGACTACTTCGGCGACGTCGAGGTCTACTACGGCGTGCTGGACGTCGACCTGCCGGTGGATAACCCGCAGCAGCGACCTTTCACCCTGGAGGTCACCTACCAGGGTTGTGCCGACAAGGGGCTTTGCTATCCGCCGGAAACCGAACGCATCGCCATCGGCGACCTTCCGAGCGGCGCCTCCGCCCCAAGCACCAGCGAACCCGCCCGCCAACCCCGCGATCTGGACTGGAAGGCCCTGGCGCTGTTCTTCCTCGCCGGCCTCGGCCTGACTTTTACCCCCTGCGTCCTGCCCATGCTGCCGATCCTTTCCGGTGTGGTGCTGCGCGGGCAGATCGGCGGCCTGCGCGGCCTCGCCCTGTCGCTGGCCTACGTACTGCCGATGGCGGCCTGCTTCGCCCTGCTCGGCGCGCTGATGGGCGTGTTCGGTGCCGAACTCAATCTCCAGGCGCGCCTGCAATCGCCCTGGGTGCTGGTGCCCTTCGCCGCCTTCTTCGGCCTGTTCGCCCTGGCCATGTTCGGCGTCTTCGAAATGCGCCTGCCGCATTTCATCAGTGCGCCGCTCGACCGCCTGGCCGGCAACACTCGTGGCGGTTCGCTGTGGGGGGCTGCGCTGCTCGGCGTCCTGTCCAGCCTGCTGGTCTCCCCCTGCGTGTCCGCCCCGCTGGCCGGCGCCCTGCTCTATATCAGCGCCAGCGGCGATGCGCTCGGCGGCGGGCTGAAGCTGTTCGCCCTCGGTCTCGGCATGGGCACCCCGCTGGTGCTGTTCGCCCTGGGCGGGGGCGCGCTGCTGCCGAAATCCGGTATCTGGATGGTATCGGTGCGCAACGCCTTCGGCGTCCTGCTACTCGCCGTCGCCGTGTGGTTGCTCGAACGGGTGCTGCCGGGCCCGCTGACCCTGGCACTGTGGGGCCTGCTCGCCGCCGGCGTGGCACTCTGGCTCGGCGCCCTGGAATTCACGCCGAAGACGCACCGGCAGAAGCTCGCCCAGCTCGCCGGCCTCGCCCTGCTGGTCTATGCCCTGGCCAGTTGGGTCGGGGCGCTGCAGGGCCAGTCCGATCCCCTGCGCCCACTCGGTCGTGTCCCGCTCGCCGGCAATGCTCTACCGGCCAGCAGCGCAGGCGAATGGCGCACCATCACCCAACCCACCGAGTTGGATACCGCCCTGGCCGAGGCCAAGGCGGTCGGCCAGCCGCTGCTGCTCGACTGGTATGCCGACTGGTGCATCAGTTGCAAGGTGATCGAGCGTGAAGTCCTGACCGCTCCCGAAGTAGCCAGCCAACTCGGTGCCTTCCGCCTCGTCCGCTTCGACATGACCGAGAGCAACCCGGCCCAGCGTGCCCTGCTCGATCGCTATCGGCTGTTCGGCCCTCCGGCCATCCTCTTCTTCGCCGGCAACGGCGACGAAATCGCCGAGCTGCGGGTGATCGGGGAAATCGATGCGGCGAACTTCGCCGAACGTCTGCAACGCAGCAAAGCGCTTCGTTGA	MPRLLTLLLFLVALPAAAGLFDSRPSPTLGAPLNNSSDFLPVREAFRLSLVESGPESVKLRFVAAEGYYLYRHRFAFRTDPADIALGQPRLPAGEAKTDDYFGDVEVYYGVLDVDLPVDNPQQRPFTLEVTYQGCADKGLCYPPETERIAIGDLPSGASAPSTSEPARQPRDLDWKALALFFLAGLGLTFTPCVLPMLPILSGVVLRGQIGGLRGLALSLAYVLPMAACFALLGALMGVFGAELNLQARLQSPWVLVPFAAFFGLFALAMFGVFEMRLPHFISAPLDRLAGNTRGGSLWGAALLGVLSSLLVSPCVSAPLAGALLYISASGDALGGGLKLFALGLGMGTPLVLFALGGGALLPKSGIWMVSVRNAFGVLLLAVAVWLLERVLPGPLTLALWGLLAAGVALWLGALEFTPKTHRQKLAQLAGLALLVYALASWVGALQGQSDPLRPLGRVPLAGNALPASSAGEWRTITQPTELDTALAEAKAVGQPLLLDWYADWCISCKVIEREVLTAPEVASQLGAFRLVRFDMTESNPAQRALLDRYRLFGPPAILFFAGNGDEIAELRVIGEIDAANFAERLQRSKALR				NA	NA	NA	NA	NA
BMS010_07126	444	aroQ1	COG0757	3-dehydroquinate dehydratase 1	ATGGCTACCCTACTGGTCCTGCATGGCCCCAACCTGAATCTTCTCGGCACCCGCGAGCCGGGCGTCTATGGCGCCGTCACCCTCGACCAGATCAACCAGGATCTGGAGCGCCGCGCCCGCGAGGCCGGCCACCACCTGCTCTACCTGCAGAGCAATGCCGAGTACGAACTGATCGAGCGCATTCATGCCGCCAGGGGCGAAGGTGTCGACTTCATCCTGATCAATCCCGCCGCATTCACACATACCAGCGTCGCATTACGTGACGCGCTGCTGGCGGTGAGCATCCCATTCATCGAAGTGCACCTGTCCAACGTGCACAAGCGTGAACCTTTTCGTCATCACTCCTACTTCTCCGATGTTGCGGTAGGGGTGATCTGCGGCCTCGGCGCCACCGGCTATCGCCTGGCCCTGGAGGCGGCACTGGAACAACTGGCCACGTCCTGA	MATLLVLHGPNLNLLGTREPGVYGAVTLDQINQDLERRAREAGHHLLYLQSNAEYELIERIHAARGEGVDFILINPAAFTHTSVALRDALLAVSIPFIEVHLSNVHKREPFRHHSYFSDVAVGVICGLGATGYRLALEAALEQLATS	PGPT0012905_2270	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_QUINATE_CATABOLISM,PGPT0012905-aroQ|qutE-K03786	NA	NA
BMS010_07127	465	accB_3	COG0511	Biotin carboxyl carrier protein of acetyl-CoA carboxylase	ATGGATATCCGTAAAGTCAAGAAACTGATCGAACTGCTGGAAGAGTCCGGTATCGACGAGCTGGAGATTCGCGAGGGCGAAGAGTCCGTGCGCATCAGCCGCCACGGCAAGACCGTCGCTCCGCAGCAGGTCTACGCTGCCGCACCCGCCCCGGTCGCCATGGCCGCCGCCCCTGCGGCAGCGCCTGCTCCGGCCGCCGAAGCCGCTGCCCCGGCCGCGCCCAAGCTGAACGGCCACGTGGTTCGCTCGCCGATGGTCGGCACCTTCTACCGCTCGCCGTCCCCGACTGCCTCTTCTTTCGTCGAGATCGGCCAGAGCGTCAAGAAAGGCGACATCCTCTGCATCGTCGAAGCCATGAAGATGATGAACCACATCGAGGCCGAAGCCAGCGGCGTCATCGAATCCATCCTGGTGGAAAACGGTCAGCCGGTGGAATACGACCAGCCGCTGTTCACCATCGTCTGA	MDIRKVKKLIELLEESGIDELEIREGEESVRISRHGKTVAPQQVYAAAPAPVAMAAAPAAAPAPAAEAAAPAAPKLNGHVVRSPMVGTFYRSPSPTASSFVEIGQSVKKGDILCIVEAMKMMNHIEAEASGVIESILVENGQPVEYDQPLFTIV	PGPT0001700_2785	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0001700-accB|bccP-K02160	NA	NA
BMS010_07128	1350	accC_3	COG0439	Biotin carboxylase	ATGTTGGAAAAAGTCCTGATCGCCAACCGCGGCGAGATCGCCCTGCGCATCCTTCGCGCCTGCAAGGAGCTGGGCATCAAGACGGTGGCGGTGCATTCCACGGCGGACCGCGAGCTGATGCACCTGTCGCTGGCCGACGAAACCGTCTGCATCGGGCCGGCCTCCGCCGCCCAGTCCTACCTGAACATTCCGGCGATCATCGCCGCTGCCGAAGTGACCGGCGCGACCGCGGTCCACCCGGGCTACGGCTTCCTTGCCGAAAACGCCGACTTCGCCGAGCAGATCGAGCGCTCCGGCTTCGCCTTCGTCGGCCCGACCGCCGACGTGATCCGCCTCATGGGTGACAAGGTGTCGGCCAAGGACGCGATGAAGAAGGCCGGCGTTCCCACCGTACCGGGCTCTGACGGCCCGCTGCCGGAAGACGAGGAAACCGCCCTGGCCATCGCCCGCGAGGTCGGCTACCCGGTGATCATCAAGGCCGCCGGCGGCGGCGGCGGTCGCGGCATGCGCGTGGTGCACAAGGAAGAGGACCTGATCAAGTCGGCGCGTCTGACCCGCACCGAGGCCGAGGCCGCGTTCGGCAACGGCATGGTCTACCTGGAGAAATTCCTGGTGAACCCGCGTCACGTGGAAGTCCAGGTGCTGGCCGACGGCCAGGGCAACGCCATCCACCTGGGCGATCGCGATTGCTCGCTGCAGCGCCGTCACCAGAAGGTCCTGGAAGAAGCCCCGGCACCGGATATCGACGAAGGCGCACGCGCCGAAGTGCTCGACCGCTGCGTCCGCGCCTGTATCGAGATCGGCTACCGCGGCGCCGGCACCTTCGAGTTCCTTTACGAAGACGGCCGCTTCTACTTCATCGAGATGAACACCCGCGTCCAGGTGGAGCACCCGGTCACCGAAATGGTCACCGGCATCGACATCGTCAAGGAGATGCTGCGCATCGCCGGCGGCGAAAAACTGTCGATCCGCCAGGAAGACATAGTCATCCGCGGCCATGCCCTGGAGTGCCGGATCAACGCGGAAGACCCGGACAACTTCATGCCCTGCCCCGGCAAGGTGCAGTACTTCCATGCACCGGGCGGCAACGGCATCCGTGTCGACTCGCACCTGTACAGCGGCTATGCGGTTCCGCCGAACTACGACTCGCTGATCGGCAAGCTGATCGCCTACGGCTCCAGCCGTGACGAGGCCCTGGCGCGCATGCGTAACGCCCTGGAAGAGATCGTGGTGGACGGGATCAAGACCAACATCCCGCTGCACCGCGACCTGGTCCGCGACAAGGGCTTCTGCAAAGGCGGCATCAACATCCACTACCTGGAAAAGAAGCTGGGTATGGATAAGCACTAG	MLEKVLIANRGEIALRILRACKELGIKTVAVHSTADRELMHLSLADETVCIGPASAAQSYLNIPAIIAAAEVTGATAVHPGYGFLAENADFAEQIERSGFAFVGPTADVIRLMGDKVSAKDAMKKAGVPTVPGSDGPLPEDEETALAIAREVGYPVIIKAAGGGGGRGMRVVHKEEDLIKSARLTRTEAEAAFGNGMVYLEKFLVNPRHVEVQVLADGQGNAIHLGDRDCSLQRRHQKVLEEAPAPDIDEGARAEVLDRCVRACIEIGYRGAGTFEFLYEDGRFYFIEMNTRVQVEHPVTEMVTGIDIVKEMLRIAGGEKLSIRQEDIVIRGHALECRINAEDPDNFMPCPGKVQYFHAPGGNGIRVDSHLYSGYAVPPNYDSLIGKLIAYGSSRDEALARMRNALEEIVVDGIKTNIPLHRDLVRDKGFCKGGINIHYLEKKLGMDKH	PGPT0001705_2741	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-VOLATILE_RELATED_FATTY_ACID_METABOLISM,PGPT0001705-accC-K01961	NA	NA
BMS010_07129	879	prmA	COG2264	Ribosomal protein L11 methyltransferase	ATGCCGTGGCTACAAGTCCGCCTCGCCATCACCCCGGAACAGGCTGAAACCTACGAAGACGCCCTGCTCGGCGTCGGGGCCGTGTCGGTGACGTTCATGGATGCCGAGGACCAACCGATCTTCGAACCGGACCTGGGCACCACGCCGCTCTGGTCCCACACCCATCTTCTCGCCCTGTTCGAGGCCGACGTGGACCCGGCCAATCTGGTCGCCCATCTCGAGCTGCTCACCGGCGGCCCGCTGCCGGAGCACCAGATCGAACGCATCGAAGACCAGGATTGGGAGCGCAGTTGGATGGACAACTTCCAGCCGATGCGCTTCGGCCGCCGCCTGTGGATCGTCCCCAGCTGGCACGCTGCACCAGAGCCCGATGCGGTCAACCTGCTGCTCGATCCGGGCCTGGCCTTCGGCACCGGCACCCACCCGACCACCGCGCTCTGCCTGGAGTGGCTGGATGGCCAGGACCTCACGGGTCGCCAGTTGCTGGACTTCGGCTGCGGCTCCGGCATCCTCGCCATCGCCGCCCTGCTTCTCGGCGCCGAACGCGCCGTGGGCACCGATATCGATCCCCAGGCCCTGGAGGCTTCGCGGGACAACGCCGAGCGCAATGGCATCGACCACGCACGTTTCCCGCTCTACCTGCCGGAAGCGCTGCCGGCCGAACAGGCCGACGTGGTGGTCGCCAATATCCTCGCCGGCCCGCTGGTTTCGTTGGCCCCGCAGATTACCCGGCTGGTCAGGCCCGGCGGCCTCCTGGCGCTGTCCGGCGTGCTCGCCGAACAGGCGGACGAGGTCCGCGCCGCCTACCAGGACGCCTTCGAACTCGATCCGACCGCGGAAAAGGACGGCTGGGTTCGCATCAGCGGCCGCCGCCGTTGA	MPWLQVRLAITPEQAETYEDALLGVGAVSVTFMDAEDQPIFEPDLGTTPLWSHTHLLALFEADVDPANLVAHLELLTGGPLPEHQIERIEDQDWERSWMDNFQPMRFGRRLWIVPSWHAAPEPDAVNLLLDPGLAFGTGTHPTTALCLEWLDGQDLTGRQLLDFGCGSGILAIAALLLGAERAVGTDIDPQALEASRDNAERNGIDHARFPLYLPEALPAEQADVVVANILAGPLVSLAPQITRLVRPGGLLALSGVLAEQADEVRAAYQDAFELDPTAEKDGWVRISGRRR				NA	NA	NA	NA	NA
BMS010_07130	1368			hypothetical protein	ATGACCGAAACCTTCGTCACCCAATGCCCCCACTGCCAGACCAGCTTCCGCGTCAACCGCGCACAGCTCGGCGCAGCCCATGGCGCAGTACGGTGCGGTGCCTGTCTGCATGTCTTCAATGCCGCCCGGCATCTGCTCGGCGCGCAACCGGCCGCCGCGCAACCGCCCATGCCGCCCGCCCAGCCCTCTGCGCCGCCGGTTACGGCGCAACCGACCCAGGCAGCGCCGGCTGCTGTACCGCCGCGGCCGCTACCGACGCCTCCGGCCGGAAAGCCGGCCAGCGATACGCTGTGGATTCACGACGACCTCGACCTGGACAGCCTCGACCTGGATGAAGAGCTGGCGAAGCTGGAACGGGAAGAGCAGGCGCTGCTGTCGAAGGAATTCCTCGCCCTGGAGAAAGCGCCGAAACCCGAGGAAAGCCTGCTGAAACCCCAGGAAGAAGCGCCGAACCGACACGACGAATCCTGGGCCGAGGCCCTGCTCAACGAGGAGCCGCCGAGCCGCCCGGCCAGCCTGACACCGCCGCCGGCCTCGTTGCCGCCGAAGTTCTCCGCTCCGGCTGTCGCCCCGGCACCCGAGGAAATCCCCGAGGTTCCGGCGAGCGCCAAACCACGCAGTGAACCTTCGATTTCCAGGTTGTCCGCCGATGAGGACGACGAGGAACGGAGCGACCTGCAACTGCAGGCCGAACGCGACGACGATCCGTTGGGCGATTTCTACGGTTTCGACGACGTGACCGCCGAAGCGCCCACTACGGATGATGACGAGCCCGAGTCCGAAGCGCCTCGGCAGTCCTCCCGCCAGGAACCGGCACTGCGCGACGACAGCCTCTACGACCTGGCAGACGAACCGCTGCAACTGGACTGGCAACGACCGAAGAAACCCTGGGGCCGCTGGATCGGCTGGGGCCTGCTGAACCTGCTGGCCCTGCTCGCACTCGGCGGGCAGTACGTCTGGTATCACTTCGACGAACTGGCGCGCCAGGACCGCTATCGCCCCTGGTTCGAGCAGCTCTGCCCGGAACTCGGCTGCACACTGCCGTCCAAGGTGGATATCGCCCAGATCAAGAGCAGCAACCTGGTGGTCCGCAGCCACCCGCAATTCGCCGGCGCGCTGGTGGTGGATGCCATCCTCTACAACCGGGCGCCTTTCGCCCAGCCATTCCCGCTGCTGGAACTGCGCTTCGCCGACCTCAACGGTCAACTCCTGGCCAGTCGCCGGTTCAAGCCGAGCGAATACCTGGGCGGCGAGCTGGCCGGACAGACGGAAATGCCGCCGCAGACGCCCATTCACATTTCCCTGGATATCCTCGACCCGGGTGCCAAGGCCGTGAACTACAGTCTCAGCTTCCACTCGCCCGAGTAG	MTETFVTQCPHCQTSFRVNRAQLGAAHGAVRCGACLHVFNAARHLLGAQPAAAQPPMPPAQPSAPPVTAQPTQAAPAAVPPRPLPTPPAGKPASDTLWIHDDLDLDSLDLDEELAKLEREEQALLSKEFLALEKAPKPEESLLKPQEEAPNRHDESWAEALLNEEPPSRPASLTPPPASLPPKFSAPAVAPAPEEIPEVPASAKPRSEPSISRLSADEDDEERSDLQLQAERDDDPLGDFYGFDDVTAEAPTTDDDEPESEAPRQSSRQEPALRDDSLYDLADEPLQLDWQRPKKPWGRWIGWGLLNLLALLALGGQYVWYHFDELARQDRYRPWFEQLCPELGCTLPSKVDIAQIKSSNLVVRSHPQFAGALVVDAILYNRAPFAQPFPLLELRFADLNGQLLASRRFKPSEYLGGELAGQTEMPPQTPIHISLDILDPGAKAVNYSLSFHSPE				NA	NA	NA	NA	NA
BMS010_07131	993	dusB_2	COG0042	tRNA-dihydrouridine synthase B	ATGGCGGTACGCATCGGCCCTTACACGTTGCCCAACCGGTTGATCCTCGCCCCCATGGCAGGCGTCACCGACAGACCGTTTCGTCTGCTGTGCCGTCGCCTCGGCGCCGGCCTGGTCGTGTCCGAGATGGTCACCAGCGACGTGCGCCTGTGGAACAGCCGCAAGTCGCGCCTGCGCCTGCTGCACGAAGGGGACCCGGAGCCACGCTCGGTGCAGATCGCCGGGGGTGACCCGCAGATGCTCGCGGAAGCGGCCCGGCGTAACGTCGAGTTGGGCGCCCAGATCATCGACATCAACATGGGCTGTCCGGCCAAGAAGGTCTGCAACAAGGCCGCAGGCTCCGCCCTGATGAAGAACGAAAGCCTGGTCGAAGCGATTCTTCAGGCAGTGGTCGCCGCGGTGGACGTGCCGGTGACCCTGAAGATCCGCACCGGCTGGGACCGTCAGAACAAGAACGGCTTGCGCGTGGCGAAGATCGCCGAGCAGGCCGGGATCGCCGCGCTGGCCGTGCATGGCCGTACCCGCGCCGATCTGTACACCGGCGAAGCCGAGTACGACACCATTGCCGAGATCAAGCAGGCGGTGTCGATGCCGGTGTTCGCCAATGGCGACATCGACTCGCCGCGCAAGGCCCGCACGGTGCTCGAGCGCACCGGTGCCGATGCGCTGTTGATCGGCCGGGCTGCCCAGGGGCGGCCGTGGATCTTCCGTGAGATCGAACATTACCTGGCGACCGGCAACGAACTGCCGCCGCCGTCGTTGACCGAGGTGGAACGCATTCTGCTTGAGCACCTGGCCGCGCTTCACGCCTTCTATGGCGAGGAAATGGGCGTACGCATCGCCCGCAAGCATGTCGGCTGGTATCTCGCAACTCTGCCGGGCGCCAGGGAGTTTCGCGCCCATTTCAATCGTTTGGACAATACGGACGCGCAATGCGCCAACGTTCGGCAGTACTTCGCCGAACGTCAGAACGGAGAAGAGGTGGCCGCATGA	MAVRIGPYTLPNRLILAPMAGVTDRPFRLLCRRLGAGLVVSEMVTSDVRLWNSRKSRLRLLHEGDPEPRSVQIAGGDPQMLAEAARRNVELGAQIIDINMGCPAKKVCNKAAGSALMKNESLVEAILQAVVAAVDVPVTLKIRTGWDRQNKNGLRVAKIAEQAGIAALAVHGRTRADLYTGEAEYDTIAEIKQAVSMPVFANGDIDSPRKARTVLERTGADALLIGRAAQGRPWIFREIEHYLATGNELPPPSLTEVERILLEHLAALHAFYGEEMGVRIARKHVGWYLATLPGAREFRAHFNRLDNTDAQCANVRQYFAERQNGEEVAA	PGPT0001030_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0001030-acoR-K21405	NA	NA
BMS010_07132	321	fis		DNA-binding protein Fis	ATGACGACGATGACCGAGACTTTAGTGAGTGGAACCGCACCCGTGAGCGACAACGTCAACCTGAAACAGCACCTGACCACGCCGAGCGAAGAGGGCCAGACCCTGCGCGGCAGCGTGGAAAAAGCGCTGCGCAACTATTTCGCCCACCTCGAAGGGGCCTCCGTCACCGACGTCTACAACCTGGTGCTTTCCGAAGTGGAAGCCCCCTTGCTGGAAACCGTCATGAATTACGTGAAAGGTAACCAGACCAAGGCCTCCGAACTGCTCGGCCTCAACCGCGGCACGCTACGCAAGAAGCTCAAGCAGTACGACCTTCTCTAA	MTTMTETLVSGTAPVSDNVNLKQHLTTPSEEGQTLRGSVEKALRNYFAHLEGASVTDVYNLVLSEVEAPLLETVMNYVKGNQTKASELLGLNRGTLRKKLKQYDLL	PGPT0025570_77	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI1|AI-2|CAI-1_PERCEPTION|SIGNALLING,PGPT0025570-fis-K03557	NA	NA
BMS010_07133	1608	purH_2	COG0138	Bifunctional purine biosynthesis protein PurH	ATGACCGACCAGACCACCCGCATTCCCGTCCGCCGCGCACTGATCAGCGTTTCCGACAAGACCGGTATCCTTGACTTCGCCCGCGAACTCGTCGCGCTCGGGGTGGAGATCCTGTCCACCGGCGGAACCTACAAGCTGCTCAAGGACAACGGCATCGCCGCGGTGGAAGTCGCCGATTACACCGGCTTCCCGGAAATGATGGACGGCCGGGTCAAGACCCTGCATCCGAAGATCCATGGCGGCATCCTTGGCCGCCGCGACCTCGACGGCGCGGTGATGGAGCAGCACGGCATCAAGCCGATCGATCTGGTGGCGGTCAATCTCTACCCCTTCGAAGCCACCGTGGCCAAGCCCGATTGCGACCTGCCCACCGCCATCGAGAACATCGATATCGGCGGCCCGACCATGGTCCGTTCCGCAGCGAAGAACCATAAGGACGTTGCCATCGTGGTCAATGCCGGCGACTACGCCGGCATCGTCGAGAATCTCAAGGCCGGCGGCCTGACCTACGCCCAGCGCTTCGACCTGGCGCTGAAGGCCTTCGAGCACACCGCCGCCTACGACGGCATGATCGCCAACTACCTGGGCACCATCGACCAGAGCCGCGATACCCTCTCCACCGAAAGCCGCGGCGCCTTCCCGCGCACCTTCAACAGCCAGTTCATCAAGGCCCAGGAAATGCGCTACGGCGAGAACCCGCACCAGAGCGCGGCCTTCTACGTCGAGAGCAAGCCGGCCGAGGCCAGCGTCGCCACCGCGCGCCAACTGCAGGGCAAGGAGCTCTCCTTCAACAACGTCGCCGATACCGACGCCGCCCTGGAATGCGTGAAGAGCTTCGTCAAGCCGGCCTGTGTCATCGTCAAGCACGCCAACCCCTGCGGCGTCGCCGTGGTGCCGGAAGACGAAGGCGGCATCCGCAAGGCCTATGACCTGGCCTACGCCACCGACACCGAATCCGCGTTCGGCGGCATCATCGCCTTCAACCGCGAACTGGACGGCGAAACCGCCAAGGCCATCGTCGAGCGCCAGTTCGTCGAAGTGATCATCGCGCCCAAGGTCACCCAGGCCGCTCGCGACGTGGTCGCCGCCAAGGCCAACGTACGCCTGCTCGAGTGTGGCGAGTGGCCGGCCGAGCGTGCACCGGGCTGGGACTTCAAGCGCGTCAACGGCGGCCTGCTGGTGCAGAGCCGCGACATCGGCATGATCCAGGCGTCCGACCTCAAGGTGGTGACCAAGCGCGCCCCCACCGAGCAGGAAATCCATGACCTGGTATTCGCCTGGAAAGTGGCCAAGTTCGTCAAATCCAACGCCATCGTCTACGCCAAGAACCGCCAGACCGTCGGTGTCGGCGCCGGCCAGATGAGCCGCGTGAACTCCGCCCGCATCGCCGCCATCAAGGCCGAGCACGCCGGCCTGGAAGTGAAAGGCGCGGTGATGGCCAGCGACGCCTTCTTCCCGTTCCGCGACGGCATCGACAACGCCGCGGCGGCCGGTATCACCGCAGTGATCCAGCCGGGTGGCTCGATGCGCGACAATGAAGTCATCGCCGCCGCCGACGAAGCCGGCATCGCCATGGTATTTACTGGCATGCGCCATTTCAGGCATTGA	MTDQTTRIPVRRALISVSDKTGILDFARELVALGVEILSTGGTYKLLKDNGIAAVEVADYTGFPEMMDGRVKTLHPKIHGGILGRRDLDGAVMEQHGIKPIDLVAVNLYPFEATVAKPDCDLPTAIENIDIGGPTMVRSAAKNHKDVAIVVNAGDYAGIVENLKAGGLTYAQRFDLALKAFEHTAAYDGMIANYLGTIDQSRDTLSTESRGAFPRTFNSQFIKAQEMRYGENPHQSAAFYVESKPAEASVATARQLQGKELSFNNVADTDAALECVKSFVKPACVIVKHANPCGVAVVPEDEGGIRKAYDLAYATDTESAFGGIIAFNRELDGETAKAIVERQFVEVIIAPKVTQAARDVVAAKANVRLLECGEWPAERAPGWDFKRVNGGLLVQSRDIGMIQASDLKVVTKRAPTEQEIHDLVFAWKVAKFVKSNAIVYAKNRQTVGVGAGQMSRVNSARIAAIKAEHAGLEVKGAVMASDAFFPFRDGIDNAAAAGITAVIQPGGSMRDNEVIAAADEAGIAMVFTGMRHFRH	PGPT0008110_763	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0008110-purH-K00602	NA	NA
BMS010_07134	1290	purD_2	COG0151	Phosphoribosylamine--glycine ligase	ATGAACGTATTGATCATCGGCAGCGGTGGCCGTGAACACGCCCTGGCGTGGAAAGTCGCCCAGGACCCGCGTGTGGAGAAGGTCTTCGTCGCGCCGGGCAACGCCGGTACCGCCACCGAGGCGAAGTGCGAGAACGTAGCCCTCGATGTATTGGCGCTGGACAAGCTGGCCGATTTCGCCGAGCAGAACGCGCAACTAACCATCGTCGGCCCCGAGGCTCCGCTGGTCGCCGGCGTGGTGGACCTGTTCCGCCGCCGCGGCCTGGCGATCTTCGGCCCCACCGCCGCTGCCGCCCAATTGGAAGGCTCCAAGGCCTTCACCAAGGACTTCCTCGCCCGCCACAAGATTCCCACCGCCGCCTACCGGAACTTCACCGACGTCGAGCCGGCGCTGGCCTATCTGCGCGAACAGGGCGCACCGATCGTGATCAAGGCCGACGGCCTGGCCGCCGGCAAGGGCGTGATCGTCGCCATGACCCTCGAGGAAGCCGAAGCCGCCGTGCGCGACATGCTCTCCGGCAATGCCTTCGGTGACGCCGGGGCGCGGGTGGTGATCGAAGAGTTCCTCGAAGGCGAGGAAGCCAGCTTCATCGTCATGGTCGATGGCCAGAACGTCCTGCCGATGGCCACCAGCCAGGATCACAAGCGCGTCGGCGACGGCGACAGCGGTCCCAACACCGGCGGCATGGGCGCCTACTCCCCGGCACCGGTGGTCACCCCGGACGTGCACCAGCGCGTGATGGACGAAGTGATCTGGCCGACCGTGCGCGGCATGGCCGAGGAAGGCAACGTCTACACCGGCTTCCTCTATGCCGGCCTGATGATCGACAAGACCGGCGCGCCCAAGGTGATCGAGTTCAACTGCCGCTTCGGCGACCCGGAAACCCAGCCGGTCATGCTGCGCCTGGAATCCTCCCTGGTGCTGCTGGTCGAGGCCGCCCTGGCCAAGGCCCTGGACAAGGTCGAGGCGACCTGGGACCCGCGCCCGACAGTGGGCGTGGTGATCGCCGCCGGCGGCTACCCGGGCGACTACGCCAAGGGTGATGTGATCGAGGGCCTGGACGCCGCCGCCAGGATCGACGGCAAGGTATTCCACGCCGGTACCGCGCTGAAGGACGGCCAGGTCGTCACCGCCGGCGGCCGCGTGCTGTGCGCCACCGCCATCGGCCCGAGCGTGTCGTCCGCCCAGCAACAGGCCTACCGCCTGGCCGAGCAGATCCGCTGGAACGGCAGTTTCTACCGCAAGGACATCGGCTACCGCGCCATCGCCCGGGAACGTGGCGAGAAATAA	MNVLIIGSGGREHALAWKVAQDPRVEKVFVAPGNAGTATEAKCENVALDVLALDKLADFAEQNAQLTIVGPEAPLVAGVVDLFRRRGLAIFGPTAAAAQLEGSKAFTKDFLARHKIPTAAYRNFTDVEPALAYLREQGAPIVIKADGLAAGKGVIVAMTLEEAEAAVRDMLSGNAFGDAGARVVIEEFLEGEEASFIVMVDGQNVLPMATSQDHKRVGDGDSGPNTGGMGAYSPAPVVTPDVHQRVMDEVIWPTVRGMAEEGNVYTGFLYAGLMIDKTGAPKVIEFNCRFGDPETQPVMLRLESSLVLLVEAALAKALDKVEATWDPRPTVGVVIAAGGYPGDYAKGDVIEGLDAAARIDGKVFHAGTALKDGQVVTAGGRVLCATAIGPSVSSAQQQAYRLAEQIRWNGSFYRKDIGYRAIARERGEK	PGPT0021575_1296	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021575-purD-K01945	NA	NA
BMS010_07135	2772	rcsC_25		Sensor histidine kinase RcsC	GTGCGTCGGCTCAGGAATGCCATAGCCCTCTTCGTCAGCCTCCTGCTGACCCTGCTCTGTCAGTTACCTGCCCAGGCGCAGGAGGGACAGTGGTTCGCGCTGATCGACCACGACGCCACACTGCAGCTCGGCGACATCCGCTCCCCCCGCTACCATTCGCAATTCACCCCGGTCGAACTCGACCAGCTCTACACCCCGGGCGGTCCCAACGCCCTCTGGCTGCGCTACCGCCTGCAGCCCGAAGATCGCGAACAACTGATACGGGTCTTCGCGCCCTACCTCGCCTATCTCGACCTGTACGTGATGCGCGGCGACGAACTGGTCGCCCATACCCGCACCGGCGCGCGCCTGCCCTTCGCCGACCGCCCCCTGCCCAGCCGCGATTTCCTGCTACCGCTCCCCATTGCCCGCGAGCCGCTGGATATCTATCTGCGTCTGGCTTCGGAACATGCCCTGCGCCCCACCGTCAGCCTGCAATCCGCCGCGATGATGGCCGCCGACGATAACCGTCCGCTGCTCATCGGCCTGCTGGTCGGCGGCCTGGTCATGCTGGTCCTGTATAACCTGCTGCGCTTCGTCTACACCCACGCCCTGAGCAGCCTGTGGCTGGCCGGCACCCAGCTCGCCATCCTCAGTACCGCGCTCAGCCTGCTGGGCATCAGCACGCCCTGGCTCGGCGAGTGGCAGACCGCCCAGCCGCAGATCGCCAACCTCTCCATGCTGCTGGCGATGCTCGGCGCGCTGGCCTTCACCGCCAGCTTCTTCCGCCGGGTCTGCTCCAATACGCCGCTCACCGGCCTGCTGATCGGCGAAATCGTGGCGATCGGCCTGATCTGCCTGGTACTGCTGATCGCCACGGACCTGCAATTCAACCAACTGGTCTACCTGCTCTCCGCCCTGGCCGGGCTCACCATCCTGCTGGTGTCCGCCTACCACTGGGCCCATGGCTACCGGCCGGCCCGGCTGTTCACCCTGGCCGTACTGATCTTCTGCTTCGCCTTCATCGGCACCCTGCCAGTGCTGTTCGGCTACTGGCAGGTGAAATCGGACTGGCTGGTCTACGGCCTGCTGGCCGTTTCCACGGTCAGCGGCATGATGCTCAGCCTGGCCCTGGCGGAACGCCAGCGGCGCATCGTCCAGGACAAGTTCACCGCCAGCCGCGCCCTGGCGGCCAGCTCGGCCGAACTAAAGGCCAAGGCCGAATTCCTCGCCAAGATCAGTCATGAAATCCGCACCCCAATGAACGGCGTGCTGGGCATGACCGAGCTGTTGTTGGGCACGCCGCTGTCGGCCAAGCAGCGCGACTACGTACAGACCATCCACAGCGCCGGCAACGAACTGCTTACGCTGATCAACGAGATTCTCGACATATCCAAGCTGGAATCCGGGCAGATCGAGCTGGACGACGTCCAGTTCGACCTCAATGCGCTGGTCGAGGACTGCCTCGACATCTTCCGCGCCAAGGCCGAGCAGCAGAAGGTGGAGCTGATCAGCTTCATGCAGCCGCAAGTACCGCGGGTGATCAGCGGAGATCCGACGCGCCTGCGCCAGACCCTGCTGAGCCTGCTGGACAACGCTTTCAAGCAGACCGACGAAGGCGAAATCCTGTTGGTGGTCGCCTTGGACAGCAGCGGCGACAGCCCGCGCCTGCGCATCGCCGTGCAGGACAGCGGCCGGCCGCTGGAAGCCAACGAACGCGAGGCGCTGCTCAACGCCGAGCTGCACAGCAAGGATTTCCTCTCCGCCACCAAGCTTGGCGGCCGCCTCGGCCTGATCATCGCCCGCCAACTGGTAGGCCTGATGGACGGGCAGTTCGGCATCCAGAGCGGCGGCAGCCAGGGCAACACACTCTGGCTGACCCTGCCGCTGGACGCCGAGCGCCTGGAACAGCCGGTCACCGACCTGGACAGCACCCTGCAAGGCGCCCGCCTGCTGGTGGTGGACGACAACGACACCTGCCGCAAGGTGCTGGTGCAGCAGTGCAGCGCCTGGGGCCTGGCGGTCAGCGCCGTGCCGTCCGGCAAGGAAGCGCTGGCCCTGCTGCGGACCAAGGCGCACCTGCGCGAATACTTCGACGTGGTTCTGCTCGACCAGGAAATGCCAGGCATGTCCGGCATGCAGCTGGCGGCGAAGATCAAGGAAGACCCCAACCTCAGCCACGACATCCTGGTGATCATGCTCACCGGCATCAGTAACGCGCCGAGCAAGATCATCGCCCGCAACGCCGGCATCAAGCGCATCCTGGCCAAGCCGGTGGCCGGCTACACGCTCAAGACCACCCTCGCCGACGAACTGGCCCAGCGCAAGAAAGGCGCCGGCACGCGCCTGCCGCCGACACCGGTCAGCGAGCCGCTCGCCGTGCCCAGCGACTTCCGCATCCTGGTCGCCGAAGACAACACCATTTCCACCAAGGTCATCCGCGGCATGCTGAGCAAGCTCAACCTGCAGCCGGATACCGCCAGCAACGGCGAAGAAGCCCTCAGTGCGATGAAAACCAAGCAGTACGACCTGGTGCTGATGGACTGCGAAATGCCCGTGCTCGACGGCTTCTCCGCCACCGAGCAACTGCGGGAATGGGAAATCCGCGAGCAGCGCCCGCGCACGCCGGTGGTGGCGCTCACCGCGCACATCCTCGCCGAGCACAAGGAGCGCGCCCGCCAGGTCGGCATGGATGGTCACATGGCCAAGCCGGTGGAACTGTCGCAATTGCGCGAGCTCATCGAGCATTGGGTGACGGAAAAGGAATTGCGCCGCCAGCACGTGCTGCCCTGA	MRRLRNAIALFVSLLLTLLCQLPAQAQEGQWFALIDHDATLQLGDIRSPRYHSQFTPVELDQLYTPGGPNALWLRYRLQPEDREQLIRVFAPYLAYLDLYVMRGDELVAHTRTGARLPFADRPLPSRDFLLPLPIAREPLDIYLRLASEHALRPTVSLQSAAMMAADDNRPLLIGLLVGGLVMLVLYNLLRFVYTHALSSLWLAGTQLAILSTALSLLGISTPWLGEWQTAQPQIANLSMLLAMLGALAFTASFFRRVCSNTPLTGLLIGEIVAIGLICLVLLIATDLQFNQLVYLLSALAGLTILLVSAYHWAHGYRPARLFTLAVLIFCFAFIGTLPVLFGYWQVKSDWLVYGLLAVSTVSGMMLSLALAERQRRIVQDKFTASRALAASSAELKAKAEFLAKISHEIRTPMNGVLGMTELLLGTPLSAKQRDYVQTIHSAGNELLTLINEILDISKLESGQIELDDVQFDLNALVEDCLDIFRAKAEQQKVELISFMQPQVPRVISGDPTRLRQTLLSLLDNAFKQTDEGEILLVVALDSSGDSPRLRIAVQDSGRPLEANEREALLNAELHSKDFLSATKLGGRLGLIIARQLVGLMDGQFGIQSGGSQGNTLWLTLPLDAERLEQPVTDLDSTLQGARLLVVDDNDTCRKVLVQQCSAWGLAVSAVPSGKEALALLRTKAHLREYFDVVLLDQEMPGMSGMQLAAKIKEDPNLSHDILVIMLTGISNAPSKIIARNAGIKRILAKPVAGYTLKTTLADELAQRKKGAGTRLPPTPVSEPLAVPSDFRILVAEDNTISTKVIRGMLSKLNLQPDTASNGEEALSAMKTKQYDLVLMDCEMPVLDGFSATEQLREWEIREQRPRTPVVALTAHILAEHKERARQVGMDGHMAKPVELSQLRELIEHWVTEKELRRQHVLP				NA	NA	NA	NA	NA
BMS010_07136	600			hypothetical protein	ATGCTTTCCGAGCTGTTCAGTCTGTATTTGAAACTACTGGTGCTCTACAGCCCGTTCTTCGTGCTGTCCTGCTTTATCGGCCTCAGCCGCGGCTACACGGTGAAGGAGCGCAAGCGGCTGGCCTGGAAGGTCGCCCTCGGTGTGCTGGTCGCCAGCGTGCTGCTCTACCTGTTCGGCCGGCACATCTTCGTGCTGTTCGGCATCACCATCGATGCCTTCCGCATCGGCGCCGGCAGCGTGCTGTTCATTTCCGCGCTGGGTATGGCCCAGGGCAAGTCCGCCGTGCAGAGCGACAACGTCCAGCAGGACGTGACCATCGTGCCGCTGACCATCCCCCTCACCGTCGGCCCAGGTACCATCGGTGCGCTGTTGGTGATGGGCGCCACCCAGCCGCACTGGGAAGACAAGCTGCTCGCCGTGCTGGCGATCCTCCTGGCCAGCCTCACCGTCGGCCTGGTGCTGTACCTGTCGAACCGCTTCGAACGCCTGCTCGGCGACCAGGGCTTGCAGATCGTCAGCCGCCTGATGGGGCTGTTCGTCTGTGCCCTCGCCGCACAGATCATCTTCACCGGGGTGAAGAACTACCTCGCCACGCCCTGA	MLSELFSLYLKLLVLYSPFFVLSCFIGLSRGYTVKERKRLAWKVALGVLVASVLLYLFGRHIFVLFGITIDAFRIGAGSVLFISALGMAQGKSAVQSDNVQQDVTIVPLTIPLTVGPGTIGALLVMGATQPHWEDKLLAVLAILLASLTVGLVLYLSNRFERLLGDQGLQIVSRLMGLFVCALAAQIIFTGVKNYLATP	PGPT0029250_2966	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIPLE_ANTIBIOTIC_RESISTANCE,PGPT0029250-marC-K05595	NA	NA
BMS010_07137	1269	amiC_3		Aliphatic amidase expression-regulating protein	ATGAAACGCCGTCCTCTTCTGAAATCCACCCTGGCCGTCAGCGCTCTGCTGCTCAGCGGCCTGTTCCCGTACAGCACCCAGGCCGCCGAGACCATCAAGGTCGGCATCCTCCACTCGCTGTCGGGCACCATGGCCATCTCCGAGACCTCGCTCAAGGACATGGCGTTGATGACTATCGACGAGATCAACGCGAAGGGCGGCGTGCTCGGCAAGCAACTCGAACCCGTAGTGGTCGACCCAGCCTCCAACTGGCCGCTGTTCGCCGAAAAGGCGCGCCAGTTGCTGACCCAGGACAAGGTGGCGGTGACCTTCGGCTGCTGGACCTCGGTATCGCGCAAATCCGTGCTGCCGGTCTACGAAGAACTCAACGGCCTGCTGTTCTACCCGGTGCAGTACGAAGGCGAAGAGCTGTCGCCGAACGTCTTCTACACCGGCGCGGCGCCGAACCAGCAGGCCATCCCGGCCGTCGAGTACCTGATGAGCGAAGACGGCGGCGGCGCCAAGCGTTTCTTCCTGCTCGGCACCGACTACGTCTACCCGCGCACCACCAACAAGATCCTGCGCGCCTTCCTGATTTCCAAGGGCGTGGCGGAGAAGGACATCGAAGAGGTCTACACCCCCTTCGGCCACAGCGACTACCAGACCATCGTCGCCAACATCAAGAAATTCTCCGCCGGCGGCAAGACCGCGGTGATCTCCACCGTCAACGGCGACTCCAACGTGCCCTTCTACAAGGAACTGGCCAACCAGGGCCTGGAAGCCACCGACGTGCCGGTGGTGGCCTTCTCCGTGGGCGAAGAGGAATTGCGCGGCATCGATACCAAGCCGCTGGTCGGCCACCTGGCCGCCTGGAACTACTTCCAGTCGGTGGAAAATCCGGTCAACACCGCATTCGTCGACAAGTGGAAAGCCTACGCCAAGGCCAAGGGCCTGCCGGGCGCCGACAAGGCGGTGACCAACGACCCGATGGAAGCCACCTACGTTGGCATCCACATGTGGGCCCAGGCCGTCGAGAAAGCCGGCAGCACGGATGTCGACAAGGTTCGCGAAGCCCTCGCCGGCCAGACCTTCGCCGCACCATCCGGCTACACCCTGACCATGGACAAGACCAACCACCACCTGCACAAGCCGGTGATGATCGGCGAGATCCAGGAAGACGGGCAGTTCTCCGTGGTCTGGGAAACCTCCAGCCCGATCCGGGCCCAGCCATGGAGCCCGTTCATCCCGGGCAACGACAAGAAGCCGGACTACGCGGTGAAGTCGAACTGA	MKRRPLLKSTLAVSALLLSGLFPYSTQAAETIKVGILHSLSGTMAISETSLKDMALMTIDEINAKGGVLGKQLEPVVVDPASNWPLFAEKARQLLTQDKVAVTFGCWTSVSRKSVLPVYEELNGLLFYPVQYEGEELSPNVFYTGAAPNQQAIPAVEYLMSEDGGGAKRFFLLGTDYVYPRTTNKILRAFLISKGVAEKDIEEVYTPFGHSDYQTIVANIKKFSAGGKTAVISTVNGDSNVPFYKELANQGLEATDVPVVAFSVGEEELRGIDTKPLVGHLAAWNYFQSVENPVNTAFVDKWKAYAKAKGLPGADKAVTNDPMEATYVGIHMWAQAVEKAGSTDVDKVREALAGQTFAAPSGYTLTMDKTNHHLHKPVMIGEIQEDGQFSVVWETSSPIRAQPWSPFIPGNDKKPDYAVKSN	PGPT0000925_915	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_TRANSPORT,PGPT0000925-urtA-K11959	NA	NA
BMS010_07138	1572			hypothetical protein	ATGCCCACTGCCGTCATACGAATCCTGCTGTCACTGACCTTGTTGCTGCCGCTGACCAGCCATGCCGGCGACGCCGCCGATTTCGCCCGGGCCAACCCGGCCAAGCAGGCCAAGCTGCTGGAAAGCTGGGGAGCCGAGCCCGATCCCGCCCGCCTGCCGCTGCTCGAGGCCTTGCAACAAGGGCGCATCGCCCTGGATGGCGAGAAACATCCCTTCGTCGACGAGTCCGGCACGCTGAAACCGCTCGAAGGCAGCGCCGAACCCGTGGGGACAACGCGCAAACTGCGCCTGAACAACCGCTTGCGCGGCCTGCTCAACGGCGCCCTGGCCAGCCACGCGCTGCTGGCCGACGATGCCGCCGCCCGCCTGGCCGCCGCCCAGCAACTGCAAAAGAGCGCCCGCCCCGCGCAATTGCCCTTGCTCAACCAGCGCATGGTCGCCGAGCAGGACGAAGCCGTGAAGAACGCTCTCGCCCTGGCCCTGGCCAACCTGCAACTGACCGATCCGGACCCGGCGATCCGCCTCACCGCCGTGCGCCTGCTCGGCGAAACCGGCGACCCGCTGGCACGCACCCGCCTGGAGGGCCTGCTCGAACCCGGCGCCGAACAGGACGCCGCGGTGCGCACCGCGGCCGAGACCAGCCTGGCGCAGATCAAGCGCCGCCTGCTGGTGGGCGAACTGCTCGGCCAGGCCTTCAGCGGCCTGTCCCTGGGCAGCATCCTGCTGCTCGCCGCCCTCGGCCTGGCCATCACCTTCGGCCTGCTCGGGGTGATCAACATGGCCCACGGCGAAATGCTCATGCTCGGCGCCTACACCACCTACATGGTGCAGTTGCTGTTCCAGCGCGCCGCCCCCGAATACCTGGCGATCTACCCGCTGGCCGCGCTGCCTGTGGCCTTCTTCGTCACCGCCGCCATCGGCATGGCACTGGAACGCACCGTGATCCGCTTTCTCTACGGCCGCCCGCTGGAAACCCTGCTGGCGACCTGGGGCATCAGCCTGATCCTCATCCAACTGGTGCGCGTGGCGTTCGGCGCGCAGAACGTCGAGGTCGCCAACCCGGCCTGGCTGTCCGGCGGCATCCAGGTGCTGCCCAACCTGGTGCTGCCCTACAACCGCCTGATCATCATCGGCTTCGCCCTGTTCGTGGTGGCGCTGACCTGGCTGCTGCTGAACAAGACCCGCCTCGGCCTCAACGTCCGCGCCGTCACTCAGAACCGCAACATGGCCGCCTGCTGCGGCGTGCCCACCGGCCGCGTGGACATGCTCGCCTTCGGCCTCGGCTCCGGCATCGCCGGCCTCGGTGGCGTCGCCCTGAGCCAGATCGGCAACGTCGGCCCCGATCTCGGCCAGAGCTACATCATCGACTCCTTCCTGGTGGTGGTGCTCGGCGGCGTCGGCCAGCTCGCCGGCAGCGTGCTGGCGGCCTTCGGCCTGGGCATCGCCAACAAGATCCTCGAACCGCAGATCGGCGCCGTGCTGGGCAAGATTCTGATCCTGGCGCTGATCATCCTGTTCATCCAGAAGCGCCCGCAGGGGCTGTTCGCACTGAAAGGGAGGGTGATCGATTGA	MPTAVIRILLSLTLLLPLTSHAGDAADFARANPAKQAKLLESWGAEPDPARLPLLEALQQGRIALDGEKHPFVDESGTLKPLEGSAEPVGTTRKLRLNNRLRGLLNGALASHALLADDAAARLAAAQQLQKSARPAQLPLLNQRMVAEQDEAVKNALALALANLQLTDPDPAIRLTAVRLLGETGDPLARTRLEGLLEPGAEQDAAVRTAAETSLAQIKRRLLVGELLGQAFSGLSLGSILLLAALGLAITFGLLGVINMAHGEMLMLGAYTTYMVQLLFQRAAPEYLAIYPLAALPVAFFVTAAIGMALERTVIRFLYGRPLETLLATWGISLILIQLVRVAFGAQNVEVANPAWLSGGIQVLPNLVLPYNRLIIIGFALFVVALTWLLLNKTRLGLNVRAVTQNRNMAACCGVPTGRVDMLAFGLGSGIAGLGGVALSQIGNVGPDLGQSYIIDSFLVVVLGGVGQLAGSVLAAFGLGIANKILEPQIGAVLGKILILALIILFIQKRPQGLFALKGRVID	PGPT0000930_848	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000930-urtB-K11960	NA	NA
BMS010_07139	1077			hypothetical protein	ATGAACCAGCCCCTCGCCCTCACGGCCGCGCAGAAAGCCGGCCCGGCCGTCACCACCCTGGTGCTCGCCGCGTTGCTGGCGCTGCTCGTCGCCCTGCCCCTGCTGCACCTGTTACCGCCGGACAGCGCCCTGCACGTCTCCGCCTACACCCTGACGCTGGTGGGCAAGATTCTCTGCTACGCCATCGTCGCCCTGGCGCTGGACCTGGTCTGGGGCTACGCCGGCCTGCTGTCCCTCGGCCACGGGCTGTTCTTCGCCCTCGGCGGCTACGCCATGGGCATGTACCTGATGCGTCAGAGTGCGGGCGACGGGCTGCCGGCCTTCATGAGCTTCCTCGCCTGGACCGAACTGCCCTGGTACTGGTACGGCACCAGCAGCTTCCTCTGGTGCCTGGCCCTGGTGGTGCTGGTGCCCGGCCTGCTGGCCCTGGTGTTCGGTTTCTTCGCCTTCCGCTCGCGGATCAAGGGCGTGTACTTCTCGATCATGACCCAGGCGCTGACCTTCGCCGGCATGCTGCTGTTCTTCCGCAACGAAACCGGCTTCGGCGGCAACAACGGCTTCACCGGGTTCAGCCGTATCCTCGGCTTTTCGATCACCGCGCCGGGCACCCGCGCCGTGCTCTTCCTTGCCACCGTGGCGCTGCTCGCCGGCAGCCTCTACCTCGGCTGGCGACTGGCGCAGAGCAAGTTCGGCCGGGTACTCACCGCCGTGCGCGACGCCGAGAACCGCCTGATGTTCTGCGGCTACGACCCACGCGGCTACAAGCTGTTCGTCTGGACCCTGAGCGCCGTGCTCTGCGGTCTCGCCGGCGCGCTCTACGTGCCGCAGGTGGGCATCATCAACCCCAGCGAAATGGCACCGACGCAATCCATCGAAGCCGCCGTCTGGGTCGCGCTCGGCGGACGCGGTACCCTGGTCGGCCCGCTGCTCGGCGCCGGAATCGTCAACGGCATGAAGAGCTGGTTCACCGTGGCCTTCCCGGAATACTGGCTGTTCTTCCTCGGCGCGCTGTTCATCGTCGTCACCCTGTTCCTGCCCAAAGGCGTATTCGGCCTGTTGAAGAAGGAGCAACCATGA	MNQPLALTAAQKAGPAVTTLVLAALLALLVALPLLHLLPPDSALHVSAYTLTLVGKILCYAIVALALDLVWGYAGLLSLGHGLFFALGGYAMGMYLMRQSAGDGLPAFMSFLAWTELPWYWYGTSSFLWCLALVVLVPGLLALVFGFFAFRSRIKGVYFSIMTQALTFAGMLLFFRNETGFGGNNGFTGFSRILGFSITAPGTRAVLFLATVALLAGSLYLGWRLAQSKFGRVLTAVRDAENRLMFCGYDPRGYKLFVWTLSAVLCGLAGALYVPQVGIINPSEMAPTQSIEAAVWVALGGRGTLVGPLLGAGIVNGMKSWFTVAFPEYWLFFLGALFIVVTLFLPKGVFGLLKKEQP	PGPT0000935_1293	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_TRANSPORT,PGPT0000935-urtC-K11961	NA	NA
BMS010_07140	849	lptB_6	COG1137	Lipopolysaccharide export system ATP-binding protein LptB	ATGAAAGCCAGCGCCACCCCCGAGCTCATGCTCGAGCCCATTCTCGATGCCGGCAGCGGACGCGACGCCGTCGGCCTCGGCTCGCGCGCCGGGAAGCAGCTCGACGTCCGCCACGGCACCCTCCTCACGCTGGAGGATATCAACGTCAGCTTCGACGGCTTCAAGGCCCTGCGCGAGTTGACGCTATACATCGGCGTCGGCGAGCTGCGCTGCGTGATCGGCCCCAACGGCGCCGGCAAGACCACGCTGATGGACGTGATCACCGGCAAGACCCGCCCGGACAGCGGCACCGCCTGGTTCGGCGAAACCTTCGACCTCACTCACATGAGCGAAGTCGAGATCGCCCAGGCCGGCATCGGTCGCAAGTTCCAGAAGCCCACGGTATTCGAGGCGCTGTCGGTGTTCGAGAACCTCGAACTGGCGCTGAAAACCGACAAGTCGGTCTGGGCCAGCCTGCGCGCCCGCCTCTCCGGCGAACAGCGCGACCGCATCGACGAGGTACTCGCCACCATCCGCCTGGACGGCTCGCGGCAACGCCCGGCCGGCTTGCTGTCCCACGGCCAGAAGCAATTCCTCGAGATCGGCATGCTGTTGGTCCAGGACCCGCAACTGCTGCTGCTCGACGAACCCGTCGCCGGGATGACCGACGCCGAGACCGAATTCACCGCCGAGCTGTTCAAGTCCCTGGCCGGCAAGCACTCGCTGATGGTGGTGGAACATGACATGGGCTTCGTCGGCAGCATCGCCGACCACGTCACCGTGCTGCACCAGGGTCACGTTCTGGCAGAAGGCTCGCTGGAGCAGGTGCAGGCGGACGAGCGGGTGATCGAGGTGTATCTGGGACGATGA	MKASATPELMLEPILDAGSGRDAVGLGSRAGKQLDVRHGTLLTLEDINVSFDGFKALRELTLYIGVGELRCVIGPNGAGKTTLMDVITGKTRPDSGTAWFGETFDLTHMSEVEIAQAGIGRKFQKPTVFEALSVFENLELALKTDKSVWASLRARLSGEQRDRIDEVLATIRLDGSRQRPAGLLSHGQKQFLEIGMLLVQDPQLLLLDEPVAGMTDAETEFTAELFKSLAGKHSLMVVEHDMGFVGSIADHVTVLHQGHVLAEGSLEQVQADERVIEVYLGR	PGPT0000940_264	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_TRANSPORT,PGPT0000940-urtD-K11962	NA	NA
BMS010_07141	699	livF_8	COG0410	High-affinity branched-chain amino acid transport ATP-binding protein LivF	ATGCTGCATGTTGATCAACTTCACCAGTACTACGGCGGCAGCCATATCCTCCGGGGGCTATCGTTCGAGGCGAGGGTCGGCGAGGTCACTTGTCTGCTCGGCCGCAACGGCGTGGGCAAGACCACCCTGCTGCGCTGCCTGATGGGCCTGGTGCCGGCGAAGGAAGGCCAGGTGAACTGGGAAGGCCGGGCGATCACTGCGTTCAAGCCGCACCAGCGCGTGCAGGCCGGGATCGCCTATGTGCCGCAAGGGCGCGAAATCTTTCCCCGGCTGACGGTGGAAGAAAACCTGTTGATGGGCCTGTCGCGCTTCAGCGCCAGGGAAGCCAAGGCAGTGCCGGACTTCATCTACGAGCTGTTCCCCGTCCTGCGGGAAATGAAGCAGCGCCGTGGCGGCGACCTTTCCGGCGGCCAGCAGCAGCAACTGGCCATCGGCCGCGCCCTGGCCAGCCGGCCGCGGCTGCTGATCCTCGACGAACCCACCGAAGGCATCCAGCCATCGGTGATCAAGGAGATCGGCGCGGTGATCAAGAAGCTCGCCGCGCGGGGTGACATGGCCATCCTGCTGGTCGAACAGTTCTACGACTTCGCCGCCGAACTGGCCGACCAGTATCTGGTCATGTCCCGTGGCGAGATCGTCCAGCAGGGCCGGGGCGACAGCATGGAAGCCGACGGCGTACGCGGGTTGGTTGCCATATGA	MLHVDQLHQYYGGSHILRGLSFEARVGEVTCLLGRNGVGKTTLLRCLMGLVPAKEGQVNWEGRAITAFKPHQRVQAGIAYVPQGREIFPRLTVEENLLMGLSRFSAREAKAVPDFIYELFPVLREMKQRRGGDLSGGQQQQLAIGRALASRPRLLILDEPTEGIQPSVIKEIGAVIKKLAARGDMAILLVEQFYDFAAELADQYLVMSRGEIVQQGRGDSMEADGVRGLVAI	PGPT0000945_930	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_TRANSPORT,PGPT0000945-urtE-K11963	NA	NA
BMS010_07142	873	ureD_2		Urease accessory protein UreD	ATGACAGCAGCGGCAAGCGGCAGGCTTCAAGCGGTAAGAGAAGAGCGGGAGGCGCCGGCGTTCACCCCATCCTGGCATGCCGAGTTGGAGTTGGCCTATGCCCGTATCGGCGAGTGCACCCGGCCGGTATTGCGTCGTCATCAAGGCCCCTTGCGCGTGCAGAAGCACCTGTATGCGGAAGGCCCTGAAGTCTGCCAGCACATCGTCGTGCACCCGCCCGGTGGCATCGCCGGTGGCGATCGACTGGCCATTTCCGCCCATGTCGGCGAGGGCGCCTGGGCCCAACTCACCAGCCCCGGCGCGGCCAAGTGGTACCGCGCCACCGGTCCGGCCCGGCAGACCCTCGAGCTGCGGGTCGCGGCCGGCGCCACCCTGGAATGGCTGCCGCAGGAAACCATCGTCTACTCCGGTGCCCAAGCCGAACTGGAGTCCCGCATCGAACTGAACGGCGATGCCCGTCTGTTCTATTGGGATATCGTCGCCCTGGGCCGTCCGGCCAGCGGCGAACGCTTCGACGCCGGCCATTTCCAGGCACGCCTGGACATCCGCCGCGACGGCCAGCCGCTCTGGCACGAGCGCCAGCGCGTGACCGGCGGCGACGGGCTGCTCGATTCCCCCATCGGCCTGGCGGGCCAGCCGGTCTTCGCTACGCTGATCGCCAGCGGCGAAATCGACGCCGCGCGGCTGGACGCCTGCCACGCGCTGCCCAGCGCAGTACGCGGCGACCTGACCCAACTGCCCGGCCTGCTGGTCGCCCGCTGCCTGGCCGCCGAAGCACTGCACGCCCGGGCCTGGCTGATCGCTCTCTGGCACCTGCTGCGCCCCGCATTGCTGGGTCGTGAGGCCGTCGCGCCACGCATCTGGAATACATGA	MTAAASGRLQAVREEREAPAFTPSWHAELELAYARIGECTRPVLRRHQGPLRVQKHLYAEGPEVCQHIVVHPPGGIAGGDRLAISAHVGEGAWAQLTSPGAAKWYRATGPARQTLELRVAAGATLEWLPQETIVYSGAQAELESRIELNGDARLFYWDIVALGRPASGERFDAGHFQARLDIRRDGQPLWHERQRVTGGDGLLDSPIGLAGQPVFATLIASGEIDAARLDACHALPSAVRGDLTQLPGLLVARCLAAEALHARAWLIALWHLLRPALLGREAVAPRIWNT	PGPT0000970_1340	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000970-ureD-K03190	NA	NA
BMS010_07143	303	ureA_2		Urease subunit gamma	ATGGACCTGAGCCCTCGCGAAAAAGACAAGCTGCTGATTTTCACCGCCGGCCTGGTGGCCGAGCGCCGTCTCGCCCGTGGCCTCAAGCTCAACTACCCGGAGGCCATGGCCTATATTTCCGCCGCCCTGCTGGAGGGCGCCCGCGACGGCCAGACCGTCGCCGAGCTGATGCACTATGGCACCACCCTGCTCAGCCGCGAGCAGGTGATGGAAGGCGTGCCGGAAATGATTCCGGAAATCCAGGTGGAAGCCACCTTCCCCGACGGAACCAAGCTGGTCACCGTGCATCAACCGATTCCCTGA	MDLSPREKDKLLIFTAGLVAERRLARGLKLNYPEAMAYISAALLEGARDGQTVAELMHYGTTLLSREQVMEGVPEMIPEIQVEATFPDGTKLVTVHQPIP	PGPT0000955_247	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000955-ureA-K01430	NA	NA
BMS010_07144	513			L-methionine sulfoximine/L-methionine sulfone acetyltransferase	ATGCACATCCGTGACGCCACCGATGCCGACCTCGCCGGCATCCTGGAGATCTACAACGACGCCGTGCTCAACACCACGGCGATCTGGAACGAGAAGACCGTCGACCTGGCCAACCGCCGCGCCTGGCTGGCCGAGCGCAACGCCCAGGGCTACCCGGTGCTGGTCGCCGTCGACGAGCAGGACCAGGTGCTCGGCTATGCCTCCTTCGGCGACTGGCGCACCTGGGACGGCTACCGGCACACCGTCGAGCACTCGGTCTACGTGAAGAACGACCACATCGGCGCCGGGATCGGCAAGGCGCTGATGCGTGCCCTGATCGACCGCGCCCGCGCCCTCGGCAAACACGTCATGGTGGCCGGCATCGAGAGCGAGAACCGCGCCTCGATCCACATGCACCAGCAGCTCGGCTTCGTCCATGTCGGCCAACTGCGCGAAGTCGGCACCAAGTTCGGCCGCTGGCTCGACCTGACCTTCATGCAACTGATCATCAACCCGCAACGGAGTGCGACCTGA	MHIRDATDADLAGILEIYNDAVLNTTAIWNEKTVDLANRRAWLAERNAQGYPVLVAVDEQDQVLGYASFGDWRTWDGYRHTVEHSVYVKNDHIGAGIGKALMRALIDRARALGKHVMVAGIESENRASIHMHQQLGFVHVGQLREVGTKFGRWLDLTFMQLIINPQRSAT				NA	NA	NA	NA	NA
BMS010_07145	537	ttr_2		Acetyltransferase	ATGCCCAACCTGACCATTACCCGCGTCGCCGCGGACGACTTCGAGCGCTATCGGCCGGGGCTCGTCGAGCTGCTGATGGATGCCGTGCGGCACGGCGCCTCGGTGGGTTTCCTCGCCGATATGCACGTCTCCGAAGCGAACGCCCTGTTCGACCGTTACCTGCCGGGCCTGCATGACGGCTCGCGGTTGCTCTGGGTGGCCGAGGCGGACAGCCGGGTGCTCGGCAGCGTGCAGCTCGCCCTGTGCCAGGACCGCAACGGCCTGAACCGCGCCGAAGTGCAGAAGCTGCTGGTGTTATCCAGCGCGCGCCGGCGTGGCATCGCCCGGCAACTGATGCAGCGCATGGAGGGCGAAGCGCAGGAGCTGCAACGCGGCCTCCTCTATCTGGACACCGAAGCCGACTGCCCGGCGGAGAAGTTCTACCAGGCGATGGGCTACACCTGCATCGGCGGCATGCCCGACTACGCCTGCGGCCCGGACGGCGTGTACCGGGCCAATGCCATCTACTACAAGACCCTGTCGAGGAGAGCGTCATGA	MPNLTITRVAADDFERYRPGLVELLMDAVRHGASVGFLADMHVSEANALFDRYLPGLHDGSRLLWVAEADSRVLGSVQLALCQDRNGLNRAEVQKLLVLSSARRRGIARQLMQRMEGEAQELQRGLLYLDTEADCPAEKFYQAMGYTCIGGMPDYACGPDGVYRANAIYYKTLSRRAS	PGPT0012925_62	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-TABTOXININE-BETA-LACTAM_RESISTANCE,PGPT0012925-ttr-K19113	NA	NA
BMS010_07146	306	ureB		Urease subunit beta	ATGATTCCCGGCGAATACCGGATCCAGGACGGCGAGATCGAACTCAACGCCGGCCGCCGCACCGTCACCCTGAACGTCGCCAACAGTGGCGACCGGCCGATCCAGGTCGGCTCGCACTACCACTTCTTCGAAACCAACGACGCCCTCTCCTTCGACCGCGCTGCCGCCCGCGGCATGCGCCTGAACATCCCAGCCGGCACCGCCGTGCGCTTCGAACCGGGCCAGACCCGCGAAGTGGAACTGGTGGAACTGGCCGGCGCCCGCCGCGTGTTCGGCTTTGCCGGGCGGGTCATGGGCGATCTTTAA	MIPGEYRIQDGEIELNAGRRTVTLNVANSGDRPIQVGSHYHFFETNDALSFDRAAARGMRLNIPAGTAVRFEPGQTREVELVELAGARRVFGFAGRVMGDL	PGPT0000960_1454	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000960-ureB-K01429	NA	NA
BMS010_07147	1701	ureC		Urease subunit alpha	ATGAAGATCAGCAGACAAGCCTACGCCGACATGTTCGGTCCTACCGTCGGCGACAAGGTGCGCCTGGCCGATACCGAGCTGTGGATCGAAGTGGAACAGGACTTCACCGTCTACGGCGAAGAAGTGAAATTCGGTGGCGGCAAGGTGATCCGCGACGGCATGGGCCAGGGCCAACTCTGCGCCGCCGACGTGGTCGACACGCTGATCACCAACGCGCTGATCCTCGACCACTGGGGCGTGGTCAAGGCCGACGTCGGCCTCAAGAACGGCCGCATCGCCGCCATCGGCAAGGCCGGCAACCCGGACATCCAGCCGGGCGTCACCATCGCCATCGGCGCCGGTACCGAGGTGATCGCCGGGGAAGGCATGATCCTCACCGCCGGTGGCATCGACACGCACATCCACTTCATCTGCCCGCAACAGATCGAAGAAGCCCTCATGAGCGGCGTCACCACCATGATCGGTGGCGGCACCGGGCCGGCCACCGGCACCAACGCCACCACCTGCACCCCCGGCCCATGGCACATGATGCGCATGCTCCAGGCCGCCGACGCCTTCCCGATGAACCTCGGCTTCACCGGCAAGGGCAACGCCTCGCTGCCCGAACCGCTGATCGAACAGGTCGAGGCCGGCGCCATCGGCCTCAAACTGCATGAAGACTGGGGCACCACCCCGGCGGCCATCGACAACTGCCTGAGCGTGGCCGACCGGTATGACGTGCAGGTTGCCATCCACACCGACACTCTCAACGAATCCGGCTTCGTCGAAACCACCCTGGCCGCCTTCAAGGGCCGCACCATCCATACCTACCACACCGAGGGCGCCGGCGGCGGCCACGCGCCGGACATCATCAAAGCGTGTGGATTCCCGAATGTGCTGCCCAGTTCGACCAATCCGACCCGGCCATTCACCCGCAACACCATCGACGAACACCTCGACATGCTGATGGTCTGCCACCACCTCGACCCGAGCATCGCCGAGGACGTGGCCTTCGCCGAGAGCCGCATCCGCCGCGAAACCATCGCCGCCGAAGACATCCTCCATGACCTCGGCGCCTTCTCCATGATCAGCTCCGACAGCCAGGCCATGGGCCGCGTCGGCGAAGTAATCACCCGAACCTGGCAGACCGCCGACAAGATGAAGAAGCAACGCGGTGCCCTGGCTGAGGACGCGCCCGGCAACGACAACTTCCGCGCCAAGCGCTACATCGCCAAATACACCATCAACCCGGCGATCACCCACGGCATCAGCCATGAGGTGGGCTCCATCGAAGTGGGCAAGTGGGCCGACCTGGTGCTCTGGCGCCCGGCCTTCTTCGGCGTCAAACCCTCGCTGATCCTCAAGGGCGGGGTGATCGCCGCCAGCCTGATGGGCGACGCCAACGCCTCCATCCCCACCCCGCAACCGGTGCACTACCGGCCGATGTTCGGCAGCTTCGGCGGCAGCCTGCATGCCAGCAGCCTGACCTTCATCAGCCAGGCCGCCTTCGACGCGGGCGTCCCCGAACGGTTGGGCCTGAAGAAAACCATTGGCGTGGTGAAAGGCTGCCGCAACGTGCAGAAGAGCGACCTGATCCACAACGGCTACACCCCGGCCATCGACGTCGACCCACAGACTTACCAGGTCAAGGCTGACGGCCAATTGCTCTGGTGCGAGCCGGCGGAGGTGCTACCGATGGCGCAGCGGTATTTCCTGTTCTGA	MKISRQAYADMFGPTVGDKVRLADTELWIEVEQDFTVYGEEVKFGGGKVIRDGMGQGQLCAADVVDTLITNALILDHWGVVKADVGLKNGRIAAIGKAGNPDIQPGVTIAIGAGTEVIAGEGMILTAGGIDTHIHFICPQQIEEALMSGVTTMIGGGTGPATGTNATTCTPGPWHMMRMLQAADAFPMNLGFTGKGNASLPEPLIEQVEAGAIGLKLHEDWGTTPAAIDNCLSVADRYDVQVAIHTDTLNESGFVETTLAAFKGRTIHTYHTEGAGGGHAPDIIKACGFPNVLPSSTNPTRPFTRNTIDEHLDMLMVCHHLDPSIAEDVAFAESRIRRETIAAEDILHDLGAFSMISSDSQAMGRVGEVITRTWQTADKMKKQRGALAEDAPGNDNFRAKRYIAKYTINPAITHGISHEVGSIEVGKWADLVLWRPAFFGVKPSLILKGGVIAASLMGDANASIPTPQPVHYRPMFGSFGGSLHASSLTFISQAAFDAGVPERLGLKKTIGVVKGCRNVQKSDLIHNGYTPAIDVDPQTYQVKADGQLLWCEPAEVLPMAQRYFLF	PGPT0000965_2070	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000965-ureC-K01428	NA	NA
BMS010_07149	2244			hypothetical protein	ATGAACATCCTGCCGGGTTTTCCATCCTTCCTGCTGGCGCTGACCGTTAGCACCAGTCTGTCGCTGGGACTCTCCGGCTGCCTGTTCGAGTCGTCGTCCGGCTCGTCGCGCTCGTCGACCACAACCGAGGTCACGACAGCGGCCAACGAACCAACCCCCAGCACGCCCACGCCTTCCGTCACCACGCCAACGGTACCGACCACGTCCGTCACGGAATCCAGCGCCCCGGTCACCGAAGAATCCAGCACGCCCATCACGACGTCGCCCAGCCAGGCATCCGGCTTCCTCCATCCCGGCCTGCTGCACACCGAGGCGGACTTCGAGCGCATGCGCAGCAAGATCCAGGCGGGCGAGGAGCCCTGGGCCAGTGCCTGGCAGGGCCTGATTACCGATGGTTCCTCCAGCCTGGGAGCGAAGCCCGCACCGCTGTCGGTGATCATCCGCGGCGGTGACGGACAGAACTTCGGCCGCGTCATCAGCCAACTGCGTTTCGCCTACGGCCTGGCACTGCGCTGGAAGATCTCCGGCGACGAGGCCTACGCCAAACGGGCGGTGGAATTCCTCAATGCTTGGTCCTCGACCCTCACCGCCATCACCGGCAACGCCGACCGCTTCCTGGCGGCGGGCCTCTACGGCTACCAGTTCGCCAATGTCGGCGAGATCATGCGCACCTACGACGGCTGGGCGGCCGAGGACCGTGCCCGCTTCAAGAGCATGCTGCTGGATATCTTCTACCCCCTCAGCCACGACTTCCTGGTCAACCACAACGGTGCCTGTATTTCCAACTACTGGGCCAACTGGGACCTGGCGAACATCGCCAACGTGCTGGCCATCGGTGTGTACGCCGACCGCGAGGACCTCTACCAGGAAGCGCTGGATTACCTCTACTACGGCAAGGGCAACGGCGCGCTGGACAACCTGGTGTACTACCTCCACGCCGGCAACCTCGGGCAGTTCCAGGAAAGCGGCCGCGACCAGGGGCATACCACCCTCGGCGTCGCCCTGTTCGGTGCCATCGCCCGGATGGCCTGGAGCCAGAACGAGGATTTGTTCGCCTACGACAACTACCGGCTGCTCGCCGCCTCGGAATACATCGCCCGCTACAACCTGATGGAAGAGGTACCCTTCGTTCCCTACGGCCCGAACTGCCGGAGCGCCGGCCTGCAAACGGTGATCTCCGACGCCGCGCGCGGCCACCGGCGGCCCGCCTGGGAACTGATCTACAACCAGTACCAGAACCGCATCGGCATCGCCGCGCCCTGGTCGGAGAAAATGGCCCAGGCGACACGCCCGGAAATATACGGCAACGGTGATCAAGTGGGCTGGGGCACGCTGACCGAAAGCCGCGACCCCTTGCCTCCCGGCGGCGCGCCACACGGCCTGACCAGCGAACTGCATGCCGGCTCGGTGATCCTCTCCTGGTGGGGAGCGACCGGTGCGGAAAGCTACTACCTCAAGCGCGCCACCTCGGCATCCGGCCCGTTCACGCGGATCGCCATCCGTACCGCCAGCCAGGACCAGACCTTCACCGACACCGCCGTCGTGCCGGGGCGGGACTACTACTACCAGGTGACGGCGATTTCGAGCCAGGGCGAGAGCACCCCGTCCAACACCGCGAAGGCCGAGATCGGCCCCCGTCTCAAGGTGCACCTGACCTTCGACGAAGCCAGCAACGACACCCTGCGCAACGCGGTGGACGGCAGCCAGATTGGCCAATTGCATAACGGCGCCCAGCTCGGCACCGGCCTTCTGGGGCAGGCCCTGCAACTGGACGGCACGGACGACTATGCGAGCCTGTCGACAGGCATCGCCGCGAACCTGGCCGACTACACCGTGGCCGCCTGGGTGAACCTCGACGAGGCACGCACCTGGGCCCGCCTGTTCGACTTCGGCGACAGCGACCAGCGCTACATGGCCCTCGCCCCCTCCCGCGCACAATACGCCATCACCCGCATCAGCGGCTACGCGGACCAGACGATAGCCAGCAGCGGCATCGCCACCGGCCGCTGGGTGCACCTGGCCGTCACCCAGGAAGGCAACGTCGGCACGCTCTACGTCGATGGTGCCAAGGTCGGCAGCGGCGACTTCGCCCTCGCCCCCTTCCGCCTCGGCAAGACCCGACAGAACTGGCTGGGCCGCTCCCAATACAGCGCCGATCCCTTCCTGAAAGGCCGGATCGACGACTTCCGCCTCTACAGCGGCCCGCTGTCGGCTGAGGAGATTGCCGAGTTGGCCAAGCAGTGA	MNILPGFPSFLLALTVSTSLSLGLSGCLFESSSGSSRSSTTTEVTTAANEPTPSTPTPSVTTPTVPTTSVTESSAPVTEESSTPITTSPSQASGFLHPGLLHTEADFERMRSKIQAGEEPWASAWQGLITDGSSSLGAKPAPLSVIIRGGDGQNFGRVISQLRFAYGLALRWKISGDEAYAKRAVEFLNAWSSTLTAITGNADRFLAAGLYGYQFANVGEIMRTYDGWAAEDRARFKSMLLDIFYPLSHDFLVNHNGACISNYWANWDLANIANVLAIGVYADREDLYQEALDYLYYGKGNGALDNLVYYLHAGNLGQFQESGRDQGHTTLGVALFGAIARMAWSQNEDLFAYDNYRLLAASEYIARYNLMEEVPFVPYGPNCRSAGLQTVISDAARGHRRPAWELIYNQYQNRIGIAAPWSEKMAQATRPEIYGNGDQVGWGTLTESRDPLPPGGAPHGLTSELHAGSVILSWWGATGAESYYLKRATSASGPFTRIAIRTASQDQTFTDTAVVPGRDYYYQVTAISSQGESTPSNTAKAEIGPRLKVHLTFDEASNDTLRNAVDGSQIGQLHNGAQLGTGLLGQALQLDGTDDYASLSTGIAANLADYTVAAWVNLDEARTWARLFDFGDSDQRYMALAPSRAQYAITRISGYADQTIASSGIATGRWVHLAVTQEGNVGTLYVDGAKVGSGDFALAPFRLGKTRQNWLGRSQYSADPFLKGRIDDFRLYSGPLSAEEIAELAKQ	PGPT0019417_30	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_ALGINATE_DEGRADATION,PGPT0019417-putative_alginate_lyase_2-NA	NA	NA
BMS010_07150	477	rayT_1	COG1943	REP-associated tyrosine transposase	ATGCGTGAACGACGCATTTCCGTGCTGGACGGCACGTTCTTCTTCACGGTCCATCTGGCCGATCCTTCGCTCTCCCTGTTGACCGATCACATCGACATCCTGCGCGACGCAGTGCGTCGGGTCAGAACGGCGCATCCTTTCGAAATCCTGGCCATGGTGGTGTTGCCGGACCATCTGCATGCATTATGGCGGCTGCCGGAGGATGACAACGAGCATGCCCTGCGTTGGGAGTTGATCCAGAGCGAGTTTTGCCGACGAACACCCCATCTGGAACCAATTCGCCTGTCCCGGCGGCTGCAACGCGAGCGTAGTGTCTGGAGAAATGGCTACCGACTCCGCCCGATTCGAAACGATGAAGAACTACAGCACCACACCGCACTCATTCACGCCAACCCGGTGAGGCACGGTCATGTGCAGCGACCGGAAGAATGGCCGTATTCGACGGTTCATCGCGCGCGCACCGTATCGAAGCCGTGA	MRERRISVLDGTFFFTVHLADPSLSLLTDHIDILRDAVRRVRTAHPFEILAMVVLPDHLHALWRLPEDDNEHALRWELIQSEFCRRTPHLEPIRLSRRLQRERSVWRNGYRLRPIRNDEELQHHTALIHANPVRHGHVQRPEEWPYSTVHRARTVSKP	PGPT0030655_2127	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030655-yafM|rayT|tnpA-K07491	NA	NA
BMS010_07151	570			hypothetical protein	ATGAAACGGATCGACTACGGCGCAGATATTTTTACGCTGGCGGATTTTCTCTCGCCAAGCGAATGTGAGCAGTACATCGCCCTGAGCCAACGCATGGGTTACGAGGAGGCGGCTATCCAGACACGGAGCGGCGCTGAACTCATCAAGGAAGTGAGGAACAATGATCGGGTGATCTTCGACGACCCAGCCCTGGCACAGCATCTGTTCGAACGTGCCCAGCCCCTGTTGCCGGATGACTCACCCGATTGGCGCCTGTCGGGCTTCAATGAGCGGTTCCGTTTCTACCGCTATGTGCCCGGCCAATTCTTCACTTGGCATAAGGACGGTTTCTACCGCCGTAACGACGACGAAATCAGCCAGTACACGTTTCTGATCTATCTGAACGATGGCTATCAAGGCGGCGAGACCGAGTTCAAGTGGGACATCGTCAAGCCGGAAGCCGGCATGGCGCTGGTGTTTCCGCACTTGATGATGCACCAGGGAAGAACGCTGGATGTCGGGGTGAAGTACGTGTTGCGAACCGATGTCATGTACGAGCGGCGCCAACCGACTCGCCACTACCTGAGCTGA	MKRIDYGADIFTLADFLSPSECEQYIALSQRMGYEEAAIQTRSGAELIKEVRNNDRVIFDDPALAQHLFERAQPLLPDDSPDWRLSGFNERFRFYRYVPGQFFTWHKDGFYRRNDDEISQYTFLIYLNDGYQGGETEFKWDIVKPEAGMALVFPHLMMHQGRTLDVGVKYVLRTDVMYERRQPTRHYLS	PGPT0020375_3126	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0020375-P4HA_like-K00472	NA	NA
BMS010_07152	267	ybiI	COG1734	putative protein YbiI	ATGGCCACCGGTTGGGCGCATGACGGCGCCGTCCAGGAACAGATCGACAGCACCATCGACGATGCCGTGCAGCGTGCCCGCAGCCAGCTCCCGAAGGGCGAGAGCCTGAGCCACTGCGAGGAATGCGGCGCGAAAATCCCCGAAGCCCGCCGCGCGGCCGTCCCCGGCGTGCGCCTGTGCATCGCCTGCCAGAGCGAGCAGGACAAGCAACAGGCGAGCTATGCCGGCTACAACCGGCGCGGGAGCAAGGATAGTCAGCTCAGGTAG	MATGWAHDGAVQEQIDSTIDDAVQRARSQLPKGESLSHCEECGAKIPEARRAAVPGVRLCIACQSEQDKQQASYAGYNRRGSKDSQLR				NA	NA	NA	NA	NA
BMS010_07153	864		COG2513	Oxaloacetate decarboxylase	ATGCAGAAAACTTCGCACCACGCCTTGCGCCAATCGTTCCGTTCCCTGCTCGAATCGAGCGCCTGTTACCACACCGCTTCGGTGTTCGACCCCATGTCCGCGCGTATCGCTGCCGATCTCGGCTTCGAGGTCGGCATCCTCGGCGGCTCGGTCGCCTCGTTGCAGGTGCTGGCCGCACCGGACTTCGCCCTGATCACCCTCAGCGAGTTTGCCGAACAGGCCACCCGCATCGGCCGGGTCGCCCGCCTGCCGGTGATCGCCGACGCCGACCACGGCTACGGCAACGCCCTCAACGCCATGCGCACCGTGGTCGAGCTGGAGCGTGCCGGCGTCGCCGCGCTGACCCTGGAAGACACCCTGCTGCCGGCGCAGTTCGGACGCAAATCCACTGACCTGATCCCGGTGGACGAAGGCGTCGGCAAGGTTCGCGCGGCCCTGGAGGCGCGCGACGATTCGGCCCTGAGCATCATCGCCCGCACCCATGCCGGCGTGATCGGCACGGCCGAAGTGATCGAACGCTGCGTCGCCTACCAAGGCGCCGGGGCGGACGGCATCTGTCTGGTGGGCGTCAACGACTTCGAGCACCTCGAGGCCATTGCCGCGCACCTGCGCATCCCGCTGATGCTGGTGACCTACGGCAACCCGGCGCTGCGCGACGACGCCCGCCTGGCGAGCCTCGGCGTGCGTATCGTGGTCAACGGCCACGCCGCCTACTTCGCCGCGATCAAGGCCACCTACGATTGCCTGCGCGAGCAGCGCCAGGTCGCCGCCTCCGACCTCAACGCCACCGAGCTGACGCACAAGTACACCCAGCCCGAGGACTACATCGTCTGGGCGCGGGAATACATGGACGTGAAGGAGTAA	MQKTSHHALRQSFRSLLESSACYHTASVFDPMSARIAADLGFEVGILGGSVASLQVLAAPDFALITLSEFAEQATRIGRVARLPVIADADHGYGNALNAMRTVVELERAGVAALTLEDTLLPAQFGRKSTDLIPVDEGVGKVRAALEARDDSALSIIARTHAGVIGTAEVIERCVAYQGAGADGICLVGVNDFEHLEAIAAHLRIPLMLVTYGNPALRDDARLASLGVRIVVNGHAAYFAAIKATYDCLREQRQVAASDLNATELTHKYTQPEDYIVWAREYMDVKE	PGPT0001930_125	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001930-bcpA-K01003	NA	NA
BMS010_07154	1266	dnaK_3		Chaperone protein DnaK	ATGAACACAGCCCTTCCCGCCCGTGCCTGCGGCATCGACTTCGGTACCTCCAACTCCACCGTCGGCTGGCTGCGCCCCGACGCCGAATCGTTGATCGCGCTGGAAGACGACAAGATCACCCTGCCCTCGGTGGTGTTCTTCAACTTCGAGGAGCGCCGTCCGGTCTATGGCCGCCTCGCCCTGCACGAGTACCTGGAGGGCTATGAAGGCCGGCTGATGCGCTCGCTGAAGAGCCTGCTCGGCTCCAAGCTGCTGAAGAGCGAGACCACCCTGCTGGGCAGTGCGCTGCCGTTCACCGAGATCCTCGGGCTGTTCCTCGGCGAGTTGAAGAAGCGCGCCGAAGCGGTGGCGGGCCGGCCGTTCGAGGAAGCGGTGCTGGGTCGCCCGGTGTTCTTCGTCGACGACGATCCAGTGGCCGACCGCGAGGCCGAGGACACCCTGGTGGGCGTGGCCCGCAAGCTCGGCTTCAAGGAGGTGTCGTTCCAGTACGAACCGATCGCCGCGGCGTTCGACTACGAATCCGTCATCCAGCGGGAAGAGCGGGTGCTAATCGTCGATATCGGCGGCGGCACCTCGGACTTCTCCCTGGTGCGCCTGTCGCCGGAGCGCCGCCAGGTGGCGGACCGGCAAAGCGATATCCTCGCCACCGGCGGCGTGCACATCGGCGGTACCGACTTCGACAAGCAGCTCAGCCTGCAGGGCGTGATGCCGCTGTTCGGCTATGGCAGCCGGATGAAGAGCGAGGCGCTGATGCCGACCAGCTTCCACCTCAACCTCGCCACCTGGCACATGATCAACGCGGTGTATGCGCAGAAGTCGCAACTGGCGCTGAAAAGCATGCGCTACGACATCGTCGATCCCACCGGTATCGACCGTCTGTTCAAGCTGATCGAGCAGCGCGCCGGACACTGGCTGGCGATGCAGGTGGAAGACGCCAAGATCGCCCTGACCGACAGCGACCGGCAGCGTATCGACCTCGCCCGCATCGAGGACGGCCTCGCCGCCGAGCTGAGCCGCGACCTGTTCGAAGCCTCCATCGAACCGTTGCTGGAGCGCGTGCGCGCCAGCGTCAGCCAACTGCTGACCAGCGCCGGCGTCACGGCGGAGCAGGTCGATACGCTGTTCTTCACCGGCGGCTCCAGCGGCATCCCGGCGCTGCGCCAGGGCATTGCGGCGATGCTGCCCAACGCCCGTCCGGTGGAAGGCGACACCTTCGGCAGCATCGGCAGCGGCCTGGCCATCGAGGCGAAGAAGCGCTACGGCTGA	MNTALPARACGIDFGTSNSTVGWLRPDAESLIALEDDKITLPSVVFFNFEERRPVYGRLALHEYLEGYEGRLMRSLKSLLGSKLLKSETTLLGSALPFTEILGLFLGELKKRAEAVAGRPFEEAVLGRPVFFVDDDPVADREAEDTLVGVARKLGFKEVSFQYEPIAAAFDYESVIQREERVLIVDIGGGTSDFSLVRLSPERRQVADRQSDILATGGVHIGGTDFDKQLSLQGVMPLFGYGSRMKSEALMPTSFHLNLATWHMINAVYAQKSQLALKSMRYDIVDPTGIDRLFKLIEQRAGHWLAMQVEDAKIALTDSDRQRIDLARIEDGLAAELSRDLFEASIEPLLERVRASVSQLLTSAGVTAEQVDTLFFTGGSSGIPALRQGIAAMLPNARPVEGDTFGSIGSGLAIEAKKRYG				NA	NA	NA	NA	NA
BMS010_07155	456			hypothetical protein	ATGGCTTCACGCATCGTCGAATTGCCCGCCTTCAGCGTCGTGGGCATGGAGTACCAGGGAGACCCGATGAACGGCGACATTGGCCTTCTCTGGCAACGCTTCGCCGCCCGCGAGCACGAGATCGCCGGTGTCTCCGAACCACGGATCGCCTATGGCCTGTGCCGGCTCACCGCACCCGGCGAAATGCACTATGTCGCCGGCTTCGGCGTCGAGGCGGAACACTCGGTGCCGGAAGGCATGCAGCGCTTCGAGGTGCCGGCACAGAAGTACGCCGTGTTCACCCATAAGGGCACGGTGGAGGGGCTCGGCGAGAGCTTCCAGGCGATCTACGCCAGCCGCCTCGCCGAACTGGGCCTGGAGCCCCGCCAAGGGGTGAGCTTCGAGCGCTACGACGAGCGCTTCATCGCCGCCGACGACCCGGCTTCGGAAGTGGACCTGTACATTCCGGTCTACTGA	MASRIVELPAFSVVGMEYQGDPMNGDIGLLWQRFAAREHEIAGVSEPRIAYGLCRLTAPGEMHYVAGFGVEAEHSVPEGMQRFEVPAQKYAVFTHKGTVEGLGESFQAIYASRLAELGLEPRQGVSFERYDERFIAADDPASEVDLYIPVY				NA	NA	NA	NA	NA
BMS010_07156	207			hypothetical protein	ATGCCTTACCTTCACCGTCTCATTCCCTTGACCGTCGTGCTGTCGCTGGCCGGCTGTGGTGCCAGCGAAACCGCGACCACCGCTGCCCTGCAGGCGGAACAAGCCAAGCAGGCGCAACAGCAGATGGACCAGCTCAAGCAGCAGGTGGAACACGCCAACGCGCAGAGCATGCAACGCCTGCAACAGGCGGCCGAAGAGTCGGACTGA	MPYLHRLIPLTVVLSLAGCGASETATTAALQAEQAKQAQQQMDQLKQQVEHANAQSMQRLQQAAEESD				NA	NA	NA	NA	NA
BMS010_07157	1419	hss_2		Homospermidine synthase	ATGAACGAGACCGGCAAGACCCAGCGGTTCCATGGCCGCCTGCTGATGGTCGGCCTGGGCAGCATCGGCCAGGGCGTGCTGCCGTTGCTGCTGCGCCATATCGACCTGCATCCCGAGCAGATGCTGATCGTCAGCGCCGACGACGATGGCGAACAGGTCGCCCGGGAATACCAAGTGGAACACCTCACGCTCGGCCTCACCCGGGACAACTACGCCGAGGTGCTGAAACCCCGTTTGCGAGCCGGCGATTTCCTGCTCAACCTCTCGGTGGATGTCTCCAGCGTCGCGCTGATCGAACTCTGCCGCGCGTGCGGCGCGCTTTACCTGGATACCTGCATCGAGCCCTGGGCCGGCGGCTACACGGACAGCCGCCTGCCACTTGCCGCACGCTCCAACTACGCCCTGCGTGAGGCCGTGCTGGACCTGCGCCGCCAGTCGCCCGGCGGGCCGACCGCGATCATCACCCACGGCGCCAACCCCGGCCTGGTCTCGCACTTGGTCAAGCAAGCGCTGCTGAACATCGCCGACGATCTCGGCCAACCCCAGGCCGCCCCGACCCGGCGCGAAGACTGGGCGCGGCTGGCCCAACGCCTGGGCATCCGCACCATCCATATCGCCGAGCGCGACACCCAACGCGCCCTGCAGCCCAAGGCCATGGGCGAGTTCGTCAACACCTGGTCGGTAGCCGGCTTCGTCGGCGAGGCCTGCCAGCCGGCCGAGCTGGGCTGGGGCAGCCACGAGCGGCATTTCCCGACGGATGCTCATCGCCACGACAGCGGCAGCCAGTCGGCGATCTATCTCGAACGCCCCGGCGCCGACACGCGGGTCAGGAGCTGGACGCCCCTGGCCGGGCCGCAACTGGGCTTCCTGGTGACCCACAGCGAATCCATCTCCATCGCCGATTACTTCACCCTGGGCGAAGGTGCCCAGCCGGAGTACCGACCCACCGTGCACTACGCCTACCACCCGTGCGACGACGCGGTACTCTCCCTCCACGAACTGGCGGGCCGCAACTGGCACTTGCAGGAGCGCCAACGCATCCTCGAAGAGGACATCGCCGATGGCCGCGACGAACTGGGCGTGCTGTTGATGGGCCACGGACGCCGGAGCTACTGGTACGGCTCGCGCCTGTCGATCGCCGAAGCTCGTGCGCTCTGCCCGCACAACAGTGCCACCAGCCTGCAGGTGACCGCCGCGGTGATGGCCGGGGTGATCTGGGCGATGCGCCACCCCGACCGGGGCATCCTCGAGCCGGACGAACTGCCCTACGCTACCCTGCTCGATCTGTGCCGGCCATACCTCGGCGAAGTGGTGGGCGTGTACAGCGACTGGACGCCCTTGCAGGACCGCGATCACCTGTTCGAGGAGGACCTGGATCGCACGGACCCGTGGCAGTTCAAGAACTTCCGCGTCGTCTGA	MNETGKTQRFHGRLLMVGLGSIGQGVLPLLLRHIDLHPEQMLIVSADDDGEQVAREYQVEHLTLGLTRDNYAEVLKPRLRAGDFLLNLSVDVSSVALIELCRACGALYLDTCIEPWAGGYTDSRLPLAARSNYALREAVLDLRRQSPGGPTAIITHGANPGLVSHLVKQALLNIADDLGQPQAAPTRREDWARLAQRLGIRTIHIAERDTQRALQPKAMGEFVNTWSVAGFVGEACQPAELGWGSHERHFPTDAHRHDSGSQSAIYLERPGADTRVRSWTPLAGPQLGFLVTHSESISIADYFTLGEGAQPEYRPTVHYAYHPCDDAVLSLHELAGRNWHLQERQRILEEDIADGRDELGVLLMGHGRRSYWYGSRLSIAEARALCPHNSATSLQVTAAVMAGVIWAMRHPDRGILEPDELPYATLLDLCRPYLGEVVGVYSDWTPLQDRDHLFEEDLDRTDPWQFKNFRVV				NA	NA	NA	NA	NA
BMS010_07158	747			hypothetical protein	ATGATCCACGCCACCTTCCGCTTCCACGAGGAACTCAACGACTTCCTCCCCGCCGCGCAGCGGCGGCGCGACTTCGGCGTCGTCTGCGCGCCGACGGCCACGGTCAAGCACCTGATCGAAGCGCTCGGCGTGCCACACACCGAAGTCGAGCTGATCCTGGTCAACGGCGAGTCGGTGGGCTTCGAGCGGCGTTTGGCGGACGGCGACCGGGTGGCCGTCTACCCCACCTTCGAGTCGCTGGACATCAGCCCGCTGCTGCGCGTGCGCGAACGGCCACTACGGGCGCTGCGCTTCATCGCCGACGCCCACCTCGGCGGGTTGGCGCAATTGCTGCGCATGGCCGGCTTCGATACCCGCTACGAGAACCCTTTCGATGACGACCGCATCGTCGAACTGGCCCTCGCCGAACAGCGCATCGTGCTCAGCCGCGACCGTGAACTACTGAAACGGCGCAGCCTCGACCACGCCTGCTACATCCATGCGCTGCAACCGGACCGGCAACTGGCCGAGCTGTTCCAGCGCCTCGACCTGGCGCGCAGCGCGCGGCCGTTCAGCCGTTGCCTGCGCTGCAACCTGCCGTTGCGGGACATAGACAAGGCCTTGGTGGCCGAGCGCCTGCCGCCCGCCGTGCGCGAACGGCAGCAGCGCTTCTTCGTCTGCGACGGCTGCGGCCGGCTGTACTGGGAAGGCTCGCATTGGCGTGACATGCGCGCACGTCTCCAACCGCTACTGGACGGTGCCTACTGA	MIHATFRFHEELNDFLPAAQRRRDFGVVCAPTATVKHLIEALGVPHTEVELILVNGESVGFERRLADGDRVAVYPTFESLDISPLLRVRERPLRALRFIADAHLGGLAQLLRMAGFDTRYENPFDDDRIVELALAEQRIVLSRDRELLKRRSLDHACYIHALQPDRQLAELFQRLDLARSARPFSRCLRCNLPLRDIDKALVAERLPPAVRERQQRFFVCDGCGRLYWEGSHWRDMRARLQPLLDGAY				NA	NA	NA	NA	NA
BMS010_07159	888	lips		Triacylglycerol lipase	ATGGCGCTGAACGCGAGAACCCGCTTTCCCCTGGTCTTGGTCCACGGCCTGCTCGGCTTCGTCCGGGTGGCCGGCTATCCCTACTGGTTCGGCATCGACAGTGCGCTGCGGCGGCACGGCGTACAGGTGTTCCTGCCACGGGTGTCGGCGGTGCACTGCAACGAGCTGCGTGGGGAGCAATTGCTCGAGCAGATACCCGCGATCCTCGCCAACAGCGGCGCCGAACGGGTGCACCTGATCGGCCACAGCCAGGGCGCCCTGACCGCCCGCTACGTGGCGGCCCGCCGTCCGGAGTGGGTTGCCTCGGTCACCTCGGTGGCCGGGCCCAACCAGGGCTCCGAACTGGCCGATTACCTGCAGTTGAAGCTGGGCCTGGATACCCCGCGCGAACGCTTGTTCCGAAGTGCTATCGAAGGTGTGGCGAAGCTGATGGATCGCCTGGACCGCCGCGATAAGCGCATCCGTCTGCCCCAGGACGTGCTTGCCTCGCGCCAGGCGCTGACCCAGCAAGGCGTGGCGGCCTTCAACGCCAAGTATCCCCAGGGCCTGCCGGAGGTGTGGGGCGGCGAGGGTCCCGAGGAGGTGAACGGCGTGCGTTATTACTCCTGGTCCGGCACCTTGCAGCCGGCGACTGATCGCGGACGCAACCGTTTCGATGCCTCCCATGCGTTGTGCCGGCGTTTGTCGCGCTGCTTCCAGATCGAGAAGGGGCAGAACGACGGCATGGTCGGGCGCTTCAGTTCTCACCTGGGCAAGGTGATCCGCTCGGACTATCCGCTGGATCATCTGGACATCATCAACCAGACCGCCGGCGCCGTCGGCCAGGGCATCGATCCGGTGGCGTTGTTCGTCGAGCATGCGGCGCGCCTGCGCGAGGCGGGGCTTTAG	MALNARTRFPLVLVHGLLGFVRVAGYPYWFGIDSALRRHGVQVFLPRVSAVHCNELRGEQLLEQIPAILANSGAERVHLIGHSQGALTARYVAARRPEWVASVTSVAGPNQGSELADYLQLKLGLDTPRERLFRSAIEGVAKLMDRLDRRDKRIRLPQDVLASRQALTQQGVAAFNAKYPQGLPEVWGGEGPEEVNGVRYYSWSGTLQPATDRGRNRFDASHALCRRLSRCFQIEKGQNDGMVGRFSSHLGKVIRSDYPLDHLDIINQTAGAVGQGIDPVALFVEHAARLREAGL	PGPT0024445_1486	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_LIPASE_ACTIVITY,PGPT0024445-lip|lipC-K01046	NA	NA
BMS010_07160	900			hypothetical protein	ATGGTGGCGGTACAGGCGATTCTGCCGATCTTTGGTCTGATTGTGCTGGGCTATCTGCTCGGCTGGCGGCAATGGTTGAGCACGGAGGCGGCCACCGGCCTGGCCAGCATCACCTTCAAGCTGTTCATGCCGGCCGTGCTGTTCGTCGGTATCGCCAAGGCCTCGTTGGGCGATGGCCTGTCGCCGTTCCTCCTGCTGGCCTATTTCGCCCCGGTGCTGGTGGTGTTCGGGCTGGTCAATCTGGTTGCCCACCGCCTGCGCGGCGGTGCCACGCCGCTGGGCCTGACCGCCGCCTATTCGAATAACGTGCTGGTGGGCATTCCCCTGGTGACCACGCTGCTCGGCGTGGAAAACCTCGTCTACGTCTTCGCCATCCTGGTGTTCCACAGCCTGGTGCTGTTTTCCCTGCACAGCTTCTATGCTGCGTTCGGCGGCAGCGAGCGGGTGGATGGGCGTGCCTTGCTGAAGAACCTGGCCAACCCGCTGATCATCGGCCTGTTGCTGGGGGCCTTGCTCAATCTGTCCGGCGTGGCGCTGCCGGATTCGCTATGGCGGATGTTCACCTGGCTGTCCCAGGCCGCCTTGCCCTGTGCGCTCATCGTGCTGGGCATCAGCCTGTCGCGCTATCGCCTGCGCCCGAGTGCGGCGGTGCTGGCGCTGACCACCGCCAAGCTGTTGCTCTTCCCGCTCATGGTGTGGTGGCTGAGCGGCCTGATGCCGGGCCTCAACCAGGCGGCACGGACGGTGCTGGTGTTGATGGCTGCCTGCCCCACCGGGGTCAACGTGCTGGCCTTCGTCAAGACGCCGGAAGACAGCCGCACGGTCAGCTCGGCGGTGTTCCTCTCCACGGTGCTGGCGGCCGTCACCCTGCCGCTGTGGATGCACGCGATAGGGTCCTGA	MVAVQAILPIFGLIVLGYLLGWRQWLSTEAATGLASITFKLFMPAVLFVGIAKASLGDGLSPFLLLAYFAPVLVVFGLVNLVAHRLRGGATPLGLTAAYSNNVLVGIPLVTTLLGVENLVYVFAILVFHSLVLFSLHSFYAAFGGSERVDGRALLKNLANPLIIGLLLGALLNLSGVALPDSLWRMFTWLSQAALPCALIVLGISLSRYRLRPSAAVLALTTAKLLLFPLMVWWLSGLMPGLNQAARTVLVLMAACPTGVNVLAFVKTPEDSRTVSSAVFLSTVLAAVTLPLWMHAIGS	PGPT0001720_3037	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0001720-mdcF-K13936	NA	NA
BMS010_07161	342	osmE		Osmotically-inducible putative lipoprotein OsmE	ATGTTCAAGCCACTTCTTCTGGCGGCAGGGGTGCTGGCTTCGGTGGCGGGTTGCGCCACCAAGGTCGAGAACCCGGTCGATTACGTCACCTTCCGCAACGAGCCCCTGGTCAAGCAGGTGGACAAGGGCATGAGCAAGCAACAGGTCCGCGAAATCGGCGGCCCGCCCTCGACGGAGATGCAGCGCACGAACGTAGAAGGGACCTGTAACAACTACGTCCTCAACCGCGACGGCCACCAGCAGCCCTACCACGTCAGCTTTAACGCCGCCGGCGTGGTCGATGGCAAGGGCTTCATGACCTGCGAAGAAATGGAACGCCACGAACGCGCCGCCCGCACCTGA	MFKPLLLAAGVLASVAGCATKVENPVDYVTFRNEPLVKQVDKGMSKQQVREIGGPPSTEMQRTNVEGTCNNYVLNRDGHQQPYHVSFNAAGVVDGKGFMTCEEMERHERAART	PGPT0013755_81	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0013755-osmE-K04064	NA	NA
BMS010_07162	405			hypothetical protein	ATGCCACGGGGTGAGAAATCCAAGTACACCGACAAACAGAAGCGCAAGGCCGAACACATCGAGGAGAGCTACGAAAAGCGTGGCGTTTCCGAAGGCGAGGCCGAGGCGCGTGCCTGGGCGACGGTGAACAAGCAATCCGGCGGCGGCGAGAAAGGCGGCTCCGGGCGGAAGAAAAGCGAGACGGCCAAGCGCGCCGACCGCAAGGACTCGGCCCGCCGTGCGGTGGCCACCAAGCACGGCCATTCGCCGAACCGCGGCTCGGCATCGGCCCGCTCGCGCTCCAAGTCGCGCAGCACCTCGCTCACCGACATGACCCGAGACGAACTGATGCAGCGCGCCCGCGAACGCGACGTGCGCGGCCGCTCCAAGATGCGCAAGGACGAACTGATCCGCGCGCTGAGCTGA	MPRGEKSKYTDKQKRKAEHIEESYEKRGVSEGEAEARAWATVNKQSGGGEKGGSGRKKSETAKRADRKDSARRAVATKHGHSPNRGSASARSRSKSRSTSLTDMTRDELMQRARERDVRGRSKMRKDELIRALS				NA	NA	NA	NA	NA
BMS010_07163	153			hypothetical protein	ATGTCACCTGATGCACCGGCCCCGCGGCCCGACCCGAACCAGCCGGACCTGTTGCCGGGCGATACCCATGCGCCCTTGCCGCCCGACCGGCAGACCATTCCGCATCCCGCCGGACAACCCCGCGACAAGAGCGGCCCACGAAGCGAATCCTGA	MSPDAPAPRPDPNQPDLLPGDTHAPLPPDRQTIPHPAGQPRDKSGPRSES				NA	NA	NA	NA	NA
BMS010_07164	534	bfr_3	COG2193	Bacterioferritin	ATGAGCCATGTGCAGTTGACCGACGTCCAGACGCTGCGCGAACGCGCCCGCCAGCACGTGGAGAACGGTGCGGTGACCGAAGGCTACACCGCCGACCGGGAGACCGTGCTGCGGCTGCTCAACGAAGCGCTGGCCACCGAACTGGTCTGCAACCTGCGCTACCGCCGCCACTACCACATGGCCAGCGGCCTGAAGGCCAGCGTCGCCGCCGACGAGTTTCTCGAACATGCCGAACAGGAACTGGAGCATGCCGACCGTCTGGCCGAGCGCATCGTGCAGCTCGGCGGAGCGCCGGACTTCAACCCCGAAGGACTGACCCGACGCTCCCACGCGCAGTACGTCGAAGGCGCCAACCTGCGCGAGATGATCGTCGAGAACCTGGTGGCCGAGCGCATCGCCATCGACAGCTACCGAGAGATCGTCCAGTACCTCGGCGAGCACGATCCCACCACCCGGCGCATTTTCGAAGACATCCTGGCCCAGGAGGAAGAACACGCCGACGACATGGCCAGCCTGCTGGACGGCCTCGGCTGA	MSHVQLTDVQTLRERARQHVENGAVTEGYTADRETVLRLLNEALATELVCNLRYRRHYHMASGLKASVAADEFLEHAEQELEHADRLAERIVQLGGAPDFNPEGLTRRSHAQYVEGANLREMIVENLVAERIAIDSYREIVQYLGEHDPTTRRIFEDILAQEEEHADDMASLLDGLG	PGPT0003965_163	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-RELATED_PROTEINS_FERRITIN,PGPT0003965-bfr-K03594	NA	NA
BMS010_07165	312	yjcH	COG3162	Inner membrane protein YjcH	ATGCAAGATCCCATCTACGCGCGCATTCAAAGCAATCCGCGCTTCCAGGAGCTGGTCGGCAAGCGCGAGCGTTTCGCCTGGCTGCTGTCCGCCGTGATGCTCGGCCTGTATCTCGCCTTCATCCTGCTGATCGCCTTCGAGCCCCAGGTACTCGGCACACGCATCAGTCCCGATTCCACCACCACCTGGGGCATCCCCATCGGCGTCGGCCTGATCCTCGCCGCCTTCGTGCTCACCGGCATCTACGTCTACCGTGCCAACGGCGAGTTCGACGAACTCAACGCCGCCATCCTCGACGAGGTGAAGAAATGA	MQDPIYARIQSNPRFQELVGKRERFAWLLSAVMLGLYLAFILLIAFEPQVLGTRISPDSTTTWGIPIGVGLILAAFVLTGIYVYRANGEFDELNAAILDEVKK	PGPT0001400_299	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CATION_TRANSPORT,PGPT0001400-actP-K14393	NA	NA
BMS010_07166	1659	actP_3	COG4147	Cation/acetate symporter ActP	ATGATCGCCCGCCTGCTCTCCGGCCTTGCCCTGCTCGTGCTGGCTCCGTCCCTCTGGGCCGCCGGCGCCCTCGAAGGCGAGGTGCAGCGCCAGCCGCTGAACGTTTCCGCCATCGTGATGTTCATCGCCTTCGTCGGCGCCACCCTGTGCATCACCTACTGGGCGTCCAAGCGCAACACCTCGGCCGCCGACTTCTACACTGCCGGCGGTGGTATCACCGGCTTCCAGAACGGCCTGGCGATCGCCGGCGACTACATGTCGGCGGCATCCTTCCTGGGCATTTCCGCGCTGGTGTTCACCTCCGGCTACGACGGCCTGATCTACTCGATCGGCTTCCTGGTCGGCTGGCCGGTGATCCTCTTCCTGATCGCCGAACGCCTGCGCAATCTGGGCAAGTACACCTTTGCCGACGTCGCCTCCTATCGCCTCAAGCAGAAGGAAATCCGCACCCTGTCGGCCAGCGGCTCGCTGGTGGTGGTGGCCTTCTACTTGATTGCGCAGATGGTCGGCGCCGGCAAGCTGATCGAACTGCTGTTCGGCCTCAACTACCACGTCGCCGTGGTGCTGGTGGGCATCCTGATGGTGCTCTACGTGCTGTTCGGCGGCATGCTGGCGACCACCTGGGTACAGATTATCAAGGCCGTCCTGCTGCTCTCCGGCGCGACCTTCATGGCCGTGATGGTGATGAAGCACGTCGGCTTCGACTTCGGCACCCTGTTCGCCGAAGCGGTCAAGGTGCACGCCAAGGGCGAGGCGATCATGAGCCCCGGCACCCTGGTGAAAGACCCGCTGTCGGCCATCTCCCTGGGCCTGGCGCTGATGTTCGGCACCGCTGGCCTGCCGCACATCCTGATGCGCTTCTTCACCGTCGCCGACGCCAAGGAAGCGCGCAAGAGCGTGTTCTTCGCCACCGGTTTCATCGGCTACTTCTACATCCTGACCTTCATCATCGGCTTCGGCGCGATCCTGCTGGTCAGCACCAACCCGGCCTTCAAGGACGCCACCGGCGCCCTGCTCGGCGGCAACAACATGGCCGCGGTGCACCTGGCCAACGCGGTGGGCGGCAGCCTGTTCCTCGGCTTCATCTCGGCCGTGGCCTTCGCCACCATCCTCGCGGTGGTTTCCGGGCTGACCCTGGCCGGCGCCTCGGCGGTCTCCCACGACCTCTACGCCAGCGTGCTGAAGAAGGGCAAGGCCAACGAGAAGGATGAACTGCGTGTGTCGAAGATCACCACCGTCGCCCTCGGCGTGCTGGCGATCGTCCTCGGCATCCTGTTCGAGAAGCAGAACATCGCCTTCATGGTCGGCCTGGCGTTCTCCATCGCCGCCAGCTGCAACTTCCCAGTGCTGATCCTCTCCATGTACTGGAAGAACCTGACCACCCGCGGCGCGATGATCGGCGGCTGGATGGGCCTGATCACCGCGGTGACCCTGATGATTCTCGGCCCGACCGTCTGGGTGCAGGTGCTGGGCAACGCCCAGGCGATCTTCCCCTACGAATACCCGGCGCTGTTCTCGATGATCGTTGCCTTCGCCGGTGTCTGGTTCTTCTCCGTCACCGACAAGTCGAACGCCGCCGAAGAAGAACGTGCGCGCTTCCTGCCGCAGTTCATCCGCTCGCAGACCGGCTACGGCGCTTCCGGCGCAGTCGCTCACTGA	MIARLLSGLALLVLAPSLWAAGALEGEVQRQPLNVSAIVMFIAFVGATLCITYWASKRNTSAADFYTAGGGITGFQNGLAIAGDYMSAASFLGISALVFTSGYDGLIYSIGFLVGWPVILFLIAERLRNLGKYTFADVASYRLKQKEIRTLSASGSLVVVAFYLIAQMVGAGKLIELLFGLNYHVAVVLVGILMVLYVLFGGMLATTWVQIIKAVLLLSGATFMAVMVMKHVGFDFGTLFAEAVKVHAKGEAIMSPGTLVKDPLSAISLGLALMFGTAGLPHILMRFFTVADAKEARKSVFFATGFIGYFYILTFIIGFGAILLVSTNPAFKDATGALLGGNNMAAVHLANAVGGSLFLGFISAVAFATILAVVSGLTLAGASAVSHDLYASVLKKGKANEKDELRVSKITTVALGVLAIVLGILFEKQNIAFMVGLAFSIAASCNFPVLILSMYWKNLTTRGAMIGGWMGLITAVTLMILGPTVWVQVLGNAQAIFPYEYPALFSMIVAFAGVWFFSVTDKSNAAEEERARFLPQFIRSQTGYGASGAVAH	PGPT0001400_1570	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CATION_TRANSPORT,PGPT0001400-actP-K14393	NA	NA
BMS010_07167	453			hypothetical protein	ATGAACAGCAAATTGATCCTCGGCCTTGCCTTCACTCTCGTCGCGGCACACGCCTTCGCTCTGCCGGAAACCCAACCGCAACCCCTGCTGGGTGAAGCCAAGGGTGGCAGCGAAGTCCTCGAGGAAAACGGTTTCGACCGCACGCCCCTGGGCGGCGGGCTCGCCGAAGGCGGTTCCGACCGCGTGCTGGAGCGTAACCGCGTCGCGGAAGACGGCTATGACCGTACCTTGGAAAACCGCGTTGCCGAAGATGGCTCTGATCGCACCGGCGCCAACCGCGTTGCCGAGGGCGGCTCCGACCGTCTGCTGGAACGCTTCCGTGTCGCCGAAGACGGCTACGACCGCACCCTGGAAAACCGCGTTGCCGAAGATGGCTTCGACCGCACCGGCGGCGCCAACCGCGTCGCCGAGGGCGGTGCCGACCGTCTGCTGGAACGCCATCGTGTGGTGTAA	MNSKLILGLAFTLVAAHAFALPETQPQPLLGEAKGGSEVLEENGFDRTPLGGGLAEGGSDRVLERNRVAEDGYDRTLENRVAEDGSDRTGANRVAEGGSDRLLERFRVAEDGYDRTLENRVAEDGFDRTGGANRVAEGGADRLLERHRVV				NA	NA	NA	NA	NA
BMS010_07168	630	fabR_2	COG1309	HTH-type transcriptional repressor FabR	ATGTCGCCCCGCAGTGCCCAGAAACAGCAGACCCGCAAGGCCCTGATGGATGCCGCCCGCACCTTGATGGACAGTGGGCGAGGCTTCGGCAGCCTGAGCCTGCGCGAAGTGGCGCGCAGCGCCGGGATCGTCCCGACCGGTTTCTACCGGCACTTTCCGGACATGGATGCGCTCGGGCTGGCGTTGGTCGCCGAAGTGGGCGAGACCTTCCGCGAAACCATTCGCGCGGTCCGCCAGAACGAGTTCGAGCGCGGCGGGTTGATCGACGCTTCGGTGCGCATCTTCCTCGACGCGGTGGCCGCCAACCGTGGCCAGTTTCTCTTCCTCGCCCGCGAGCAATACGGCGGCTCGCAGCCGGTGCGCCAAGCCATCGCCGAGCTGCGCCAGCGCATCACCGGCGACCTCGCCGCCGACCTGCGCCTGATGGCCCGCCTGCCGCACCTGGACGACCCGGCCCTGGAGGTCTTCGCCGACCTGGTGGTGAAAACGGTCTTCGCGACCCTGCCGGAGCTGATCGACCCTCCCGCCGCCGACCTGCCCCCACACCTGCGCCCAGAAGAGAAGATCACCCAGCAACTGCGCTTCATCATGGTGGTCGGCAAGCATTGGCAGGGGCTCGGCGGCAGATAG	MSPRSAQKQQTRKALMDAARTLMDSGRGFGSLSLREVARSAGIVPTGFYRHFPDMDALGLALVAEVGETFRETIRAVRQNEFERGGLIDASVRIFLDAVAANRGQFLFLAREQYGGSQPVRQAIAELRQRITGDLAADLRLMARLPHLDDPALEVFADLVVKTVFATLPELIDPPAADLPPHLRPEEKITQQLRFIMVVGKHWQGLGGR				NA	NA	NA	NA	NA
BMS010_07169	501	ureE_2		Urease accessory protein UreE	ATGCTGGTCATCCACACACGCATCGGCGCACAGGACCACCACGATGCCGAACTGCTGCTGACCTATGAGGCACGCAGCAAAAGCCGGCTGCGCTGCTTCACCACCGACGGCGAGGACGTTGGCCTGTTCCTCGAACGCGGCCAGCCCGCGTTGCACGACGGCGAGTGCCTGCGGGCCGAGGACGGCCGCATCGTGCGCGTCCGCGCCAAGCCGGAGCCTCTGCTCCACGTCACCTGCGCCAACGCCTTCGAGCTGACCCGCGCGGCCTATCACCTGGGCAACCGCCATGTCGCCCTGCAACTCGGCGACGGCTGGCTGCGTCTGCCCGACGACTATGTGCTCAAGGCCATGCTGGAACAGCTCGGTGCCAGCGTGGAGGCCATCGAAGCGCCCTACCAACCGGAACAGGGGGCCTACGGCGGCGGCCATCATCATTCCCATGCCGGCGAGGCCGAATTCAATTACGCGCCGCGCCTGCACCAGTTCGGAGTGGGCCGGTGA	MLVIHTRIGAQDHHDAELLLTYEARSKSRLRCFTTDGEDVGLFLERGQPALHDGECLRAEDGRIVRVRAKPEPLLHVTCANAFELTRAAYHLGNRHVALQLGDGWLRLPDDYVLKAMLEQLGASVEAIEAPYQPEQGAYGGGHHHSHAGEAEFNYAPRLHQFGVGR	PGPT0000975_824	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000975-ureE-K03187	NA	NA
BMS010_07170	675	ureF_2	COG0830	Urease accessory protein UreF	GTGAATCCAGCCTGGGCCCTGCTGCGCCTGGCCAGTCCGCAGTTGCCCATCGGCGGCTACAGCTACTCGCAAGGGCTGGAGATGGCGGTCGAGCAGGGTTTGGTCAAGGACCCGGACAGCGCCCGTCGCTGGATCGGCGACCAATTGCTGCTCAACCTCGCGCGCTTCGAGGCGCCGTTGCTGCTGGCCCACTGCGAGTCTGCCACTGCGGGAGACTGGCCCGAGCTGGCGCATCTCGCCGGGCTGCACCGCGCCAGCCGGGAAACCCGCGAGCTGCGCCAGGAAAGCCGGCAGATGGGCTACTCGCTGAAGCAGTTGCTCGACGGCCTGCCGGAGCTCGATGCCCCCTCCCGCCACCTTTTCGAACAGATCGAGGAACCCGGCCTGGCCCTCGGCTGGGCCCTGGCCGCCCGAGCCTGGCGGATCGCCCCGCAAGATGCCCTCGCCGCCTGGCTCTGGGGCTGGCTGGAAAACCAGTTGGCGGTGCTGATGAAAACCCTTCCGCTCGGCCAGCAGGCGGCCCAGCGGCTGACCTCCGAGCTGTTGCCGGTGCTCGAACAGGCCCAGCGGGACGCCACCGGGATCGCCCCGGAGCATTGGGGTAGCGCCGCCTTCGGCCTGGCGCTCACCAGCATGGCGCACGAACGACAGTATTCGCGGCTGTTCCGTTCCTGA	MNPAWALLRLASPQLPIGGYSYSQGLEMAVEQGLVKDPDSARRWIGDQLLLNLARFEAPLLLAHCESATAGDWPELAHLAGLHRASRETRELRQESRQMGYSLKQLLDGLPELDAPSRHLFEQIEEPGLALGWALAARAWRIAPQDALAAWLWGWLENQLAVLMKTLPLGQQAAQRLTSELLPVLEQAQRDATGIAPEHWGSAAFGLALTSMAHERQYSRLFRS	PGPT0000980_1727	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000980-ureF-K03188	NA	NA
BMS010_07171	615	ureG_2		Urease accessory protein UreG	ATGAACAGCCAACCCCTGCGCGTCGGCATCGGCGGCCCGGTCGGTTCCGGCAAGACGGCCCTGACCCTGGCGCTGTGCCGCGCCCTGCGCGACCGCTACAACCTCGCCGTGGTCACCAACGATATCTACACCCAGGAAGACGCCCAGTTCCTGGTGCGCAACGAAGCCCTGGAGCCGGAGCGCATCATCGGCGTGGAAACCGGCGGCTGCCCGCACACGGCGATCCGCGAGGACGCCTCGATCAACCTGGAAGCGGTCGAGCAGCTCAACCGCCGCTTCCCCGGCCTCGACCTGATCATCGTCGAATCCGGCGGCGACAACCTTTCCGCCACCTTCAGCCCGGAGCTGTCCGACCTGACCCTCTACGTGATCGACGTGGCCGCTGGCGACAAGCTGCCGCGCAAGGGTGGGCCGGGCATCTGCAAGTCCGACCTGCTGGTGATCAACAAGATCGACCTGGCGCCCCTGGTCGGCGCGTCGCTGGAAGTCATGGAGCGCGATACGAAGACGATGCGCGGCGACAAGCCGTTCGTCTTCAGCAACCAGAAAGTCGGCCAGGGCCTTGACGAGATCATCGCCTTCATCGAGCACCAAGGCATGCTCACCGCGGCCTGA	MNSQPLRVGIGGPVGSGKTALTLALCRALRDRYNLAVVTNDIYTQEDAQFLVRNEALEPERIIGVETGGCPHTAIREDASINLEAVEQLNRRFPGLDLIIVESGGDNLSATFSPELSDLTLYVIDVAAGDKLPRKGGPGICKSDLLVINKIDLAPLVGASLEVMERDTKTMRGDKPFVFSNQKVGQGLDEIIAFIEHQGMLTAA	PGPT0000985_1678	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000985-ureG-K03189	NA	NA
BMS010_07172	564			hypothetical protein	ATGAAACTACGCAAAAGCCTCTACGCCCTCGCCCTGTTCCTCACGCCGGCCGTGGCCTTCGCCCATCCCGGACACGATCATGCAGGGTTGCTCGCCGGCCTCGCTCACCCCGTGTTCGGCCTCGATCATCTGCTGGCGATGCTCGCCGTCGGCCTCTGGGCCGCGCAACAGCAGGGCGCAGCTCGCTGGGCACTGCCGTTGACCTTCGTCGCCACCCTGCTGGTGGGCGGGTTATTCGGTTTCGCCGGCGTCGAAATGCCATTGATGGAAACCGGCATCGCCGGCTCGGTGCTGGCCATCGGGCTGCTGGTGGCGCTGGCCGTACGCCCGCCGCTGGCCATCGCCGTCGGCCTCACCGCGCTCTTCGCACTGGCCCATGGTGTCGCCCACGGCCTGGAACTGCCAGCCCTGGCCAGCCCCTGGGGCTATGCCGCCGGTTTCGTCGTGGCCACCGCCGCGCTGCACGCCGCCGGCTATGCGCTGGTCCGCCTCCTTCCGCAGGCGGCTGCGCGCCTGGCCGGCATCGGCTCGGCCGGCGTCGGCGCCTGGCTGCTGGCCGGCTGA	MKLRKSLYALALFLTPAVAFAHPGHDHAGLLAGLAHPVFGLDHLLAMLAVGLWAAQQQGAARWALPLTFVATLLVGGLFGFAGVEMPLMETGIAGSVLAIGLLVALAVRPPLAIAVGLTALFALAHGVAHGLELPALASPWGYAAGFVVATAALHAAGYALVRLLPQAAARLAGIGSAGVGAWLLAG	PGPT0000995_665	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000995-ureJ-K03192	NA	NA
BMS010_07173	951	pobB		Phenoxybenzoate dioxygenase subunit beta	ATGATCGAGGTCATCGTCCGCGCCCTGCGCCTGGAGGCCGAGGGCATTCTCGGCCTGGAACTGGTGGCTGCCGACGGTGCGCCGCTTCCGCCCTTCGAGGCCGGCGCGCATATCGACCTGCACCTGCCGAACGGGCTGATCCGCCAGTATTCGCTGTGCAACGACCCGCGCGAACGCCACCGCTACCGCATCGCCGTGCTGCGCGACGCCGCCTCGCGCGGCGGCTCGCAGGCCGTGCACGAGCTGCTGCGCATCGGCCAGCGCTTGAACATCAGCGCGCCGCGCAACCTGTTCGCCCTCAACGAACAGGCGCCGCGTAGCCTGCTGTTGGCCGGCGGCATCGGCATCACCCCGCTGCTGGCGATGGCCTGGCGCCTGTATGCCCTGGGTGCGGACTTCGATCTGCACCAGTGCGTGCGCTCAGGCAGGCTCGCCGCCTTCGCCGAACGCCTGGCCATTGCGCCCTTCGCCGCGCACACCCACCTGCACCGCGACGACGGTAGCGCCGAGCAGAAGCTCGACCTGCCCGCCCTGCTCGCCGCCGAGCCGCCCGGCAGCCAGCTGTATGTCTGCGGCCCCAACGGTTTCATGGAGTACGTGCTGGATACCGCCCGCGCCCTGGGCTGGGCGGAAGAGCGCCTGCACCGCGAATACTTCGCCGCGCCGCCAGGCGAAGGTGGTGGTGGCACCTTTACCCTGCGCATCGCCAGCAGTGGCCAGGAGCTGCAGGTGCCGGAAGATCGCACGGCGCTGGAGGTGCTGGAGGAGGCCGGTTTCGATATCCCGGTGTCCTGCGGCCAGGGCATCTGCGGCACCTGCGTGACCCGTGTGCTGGACGGCCAGCCGGAGCATCGCGATCTGTTTTTCAGCGACGAGGAACGCGCGCGCAACGACCAGTTCACGCCTTGTTGTTCGCGGGCGCGTAGTGCTTGTTTGGTGGTGGATCTGTAG	MIEVIVRALRLEAEGILGLELVAADGAPLPPFEAGAHIDLHLPNGLIRQYSLCNDPRERHRYRIAVLRDAASRGGSQAVHELLRIGQRLNISAPRNLFALNEQAPRSLLLAGGIGITPLLAMAWRLYALGADFDLHQCVRSGRLAAFAERLAIAPFAAHTHLHRDDGSAEQKLDLPALLAAEPPGSQLYVCGPNGFMEYVLDTARALGWAEERLHREYFAAPPGEGGGGTFTLRIASSGQELQVPEDRTALEVLEEAGFDIPVSCGQGICGTCVTRVLDGQPEHRDLFFSDEERARNDQFTPCCSRARSACLVVDL	PGPT0005495_290	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005495-vanB-K03863	NA	NA
BMS010_07174	1059	tsaM1		Toluene-4-sulfonate monooxygenase system iron-sulfur subunit TsaM1	ATGTTTCCGAAGAACGCCTGGTACGTTGCCTGTACCTCCGACGAGATCGACGCCAAGCCACTGGGCCGCACCATCTGCGGCGAATCGATGGTGTTCTACCGCGGCGCGGAAAACCGCGCCGTGGCCCTCGAAGACTTCTGCCCGCACCGTGGCGCGCCGCTGTCGCTGGGCTATGTCGAGGACGGCCTGCTGGTCTGCGGCTACCACGGCCTGGCCATGGGCTGCGACGGCAAGACCGCCGCCATGCCCAACCAGCGCGTGCAGCACTTTCCCTGCATCAAGCGTTACCCGGTGGTGGAGCGCTACGGCTTTATCTGGGTCTGGCCCGGTGACGAGGCGCTGGCCGATCCGGCGCAACTGCCACATCTGCACTGGGCGGAAAGCCCCGAGTGGGCCTACGGCGGCGGTCTCTACCACATCGCCTGCGACTACCGGCTGATGGTCGACAACCTGATGGACCTGACCCACGAGACCTACGTGCACGCCAGCAGCATCGGCCAGAAGGAGATCGACGAGGCGCCGGTCAACACCCGCGTCGAGGGCAGCGAGGTGATCACCAGCCGCTTTATGGAGAACATCTCCGCCCCGCCCTTCTGGCGCGCGGCACTACGGGCCAACGGTCTGGCCGACGACGTGCCGGTGGATCGCTGGCAGATCTGCCGCTTTACCCCGCCCAGCCACGTGCTGATCGAGGTCGGCGTGGCTCATGCCGGGCATGGCGGCTATGACGCGCCCGAGCAGTACAAGGCCAGCAGCATAGTGGTCGACTTCATCACCCCGGAGAACGAAACCTCCATCTGGTATTTCTGGGGCATGGCGCGGCGCTTCAAGGTGAACGACAGCGAGCTCACCGACCGCATCCGCGAAGGCCAGGGCAAGATCTTCAGCGAAGACCTGGAGATGCTCGAACGCCAGCAGCGCAACCTGCTGCGCTACCCGGAACGCAGCCTGCTCAAACTCAATATCGACGCCGGTGGCGTGCAGGCGCGGCGCATCATCGAGCGTCTGCTTAAAGCCGAGCAGGCCAGCGATCACGTGCTGGCAAGGAGCGCCCTATGA	MFPKNAWYVACTSDEIDAKPLGRTICGESMVFYRGAENRAVALEDFCPHRGAPLSLGYVEDGLLVCGYHGLAMGCDGKTAAMPNQRVQHFPCIKRYPVVERYGFIWVWPGDEALADPAQLPHLHWAESPEWAYGGGLYHIACDYRLMVDNLMDLTHETYVHASSIGQKEIDEAPVNTRVEGSEVITSRFMENISAPPFWRAALRANGLADDVPVDRWQICRFTPPSHVLIEVGVAHAGHGGYDAPEQYKASSIVVDFITPENETSIWYFWGMARRFKVNDSELTDRIREGQGKIFSEDLEMLERQQRNLLRYPERSLLKLNIDAGGVQARRIIERLLKAEQASDHVLARSAL	PGPT0005490_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005490-vanA-K03862	NA	NA
BMS010_07175	732			hypothetical protein	ATGAGCGGACCGGGGCAACGGGTGCTGGCGCTGCTGCGGCAGATGATCGCCGAGGGCAGCCTGATGGCGGGCGAGCGCATCGCCGAGATACCCACGGCCGAGCGCCTGGGGGTGTCGCGCATGCCGGTGCGCATGGCCTTTCGCGTGCTGGAGCAGGAGGGCTTGCTGATCCGCCATGGCGCGCGCGGCTACGCGGTGCGCCAGCTGGGCGAGGAGGAACTGGCCGGCGCGGTGGAAGTGCGTGGTGTGCTGGAAGGCCTGGCGGCGCGCCAGGCGGCTGAGCGCGGGGTGTCCGCAGAGGTTCGCGCGGTGCTGCTGGAGTGCCTGGAACGGGGCGATCTGCTGTTCGACAAGGGCTATCTATGCGAGGAAGACCTGGCCAGCTATCACGACCTCAACCTGCGCTTTCATCAGACCCTGGTGGAGGCCAGCGGCAACCCGGCCATCGCCGCGGCGCTGGCGCGCAACGACCACCTGCCATTCGCCTCGGTCAGCGCCCTGGTGGTCGACCGCGAGCATCTGGAGCGCGAATACCGCCGTTTCAACTTCGCCCATCTGCAGCACCACGCGGCGGTCGACGCGGTGCTGGCGGGGCAGGGCGCTCGCGCCGAGGGAATCATGCGCGAGCACGCCAATGCGACGTTGCGTTACGCCCGGTTGTTCGGCGCGGAAGAGGGCGAAAGCGTTGGACGTACAGTGATTCAGCGGGGCGGTAAGAGCCTGAGCGAATAA	MSGPGQRVLALLRQMIAEGSLMAGERIAEIPTAERLGVSRMPVRMAFRVLEQEGLLIRHGARGYAVRQLGEEELAGAVEVRGVLEGLAARQAAERGVSAEVRAVLLECLERGDLLFDKGYLCEEDLASYHDLNLRFHQTLVEASGNPAIAAALARNDHLPFASVSALVVDREHLEREYRRFNFAHLQHHAAVDAVLAGQGARAEGIMREHANATLRYARLFGAEEGESVGRTVIQRGGKSLSE				NA	NA	NA	NA	NA
BMS010_07176	963	xerC_7		Tyrosine recombinase XerC	ATGGAAACCTCCAGCAAGCCTCGCCTGCAAGAGCAGTTCCGGGCGGTGATGCGTGTGCATCACTACAGCATCCGTACGGAACAATCCTACTGGTACTGGATTCGCTATTTCATCCGTTTCCATCGACTGCGTCATCCGATGGAGCTTGGCGCTGCAGAGGTCAACGCTTTTCTCTCCTGGCTGGCCGTTGAGCGCAAGGTGGCTGCCGCCACCCAGAATCTGGCACTCAATGCACTGGTATTCCTGTACGACAAGGTGCTGCAGCAGCCCCTTGGGCAAGTTGGCGAGGTGGTGCGAGCCAAACGCTCGGCGCGTATTCCATGCGTGCTGACGCACGAGGAAGCAACAGCGCTGATTGCCAGGTTGGGTCAACCTCATCAGTTACTGGCTTCGCTGATGTATGGTGCGGGCTTGCGCGTGGTGGAAGCCGCACGTTTGCGCATCAAGGATGTGGATTTCGATAAGCAGGTCATCACTATCCATGACGGCAAAGGCGCCAAGGATCGAACGACACTCTTGCCCGCGCCCTTGATCACACCATTGTTAGAGCGCAGAGAGCGTATGTTTCTCGCCTGGAAGCAACGAGACATTTTCTATCAAGCCCCCGTCAGCCTGCCCTTTGCGTTACGCCGCAAATATCCAAAGGCCGGCCACTCGTTCGAGTGGCAATGGCTGTTCCCGTCAACGGGGCTTTGCACGGATGCAGACGGGCAGATCGTTCGTCATCACCTGCATATCAGTGCCATCCAGAAGGCCGTCAGGTATGCGGTCAGGCAGTCCAACCTGAACAAACCTGCAAGTTGCCATACCTTTCGCCACAGCTTTGCCACCGAACTGCTACGCCGAGGCAGTGATATCCGCACTGTGCAAACGCTGCTGGGGCATGCCGATATCCGCACGACGCAGATCTATACGCATGTGCTTGGCCAGGGCTTTGCCGGTGTTGTCAGCCCGCTGGGGTGA	METSSKPRLQEQFRAVMRVHHYSIRTEQSYWYWIRYFIRFHRLRHPMELGAAEVNAFLSWLAVERKVAAATQNLALNALVFLYDKVLQQPLGQVGEVVRAKRSARIPCVLTHEEATALIARLGQPHQLLASLMYGAGLRVVEAARLRIKDVDFDKQVITIHDGKGAKDRTTLLPAPLITPLLERRERMFLAWKQRDIFYQAPVSLPFALRRKYPKAGHSFEWQWLFPSTGLCTDADGQIVRHHLHISAIQKAVRYAVRQSNLNKPASCHTFRHSFATELLRRGSDIRTVQTLLGHADIRTTQIYTHVLGQGFAGVVSPLG				NA	NA	NA	NA	NA
BMS010_07177	546			hypothetical protein	ATGATAAAACCAGTCACCATATTAATCGCCATCACATTAAGCGGATGTTCAAACAAAGAAATAGAGCTTAAAGAATTTGACAGCGCCAAATCCACAACAATTACATTTGTAAATCTTTCCCCAAATGCAACCGCATACCCATCAGTTTTCGAGGACGACTATGATTGTTATGCCTCAAAAATCGCGAAACCTGAAGGCCCCCACAGAAGCAAGACAATCCCTATTGATACAGCCAACCGTAGATCCTATACGGTCCTTCTAGGATTTTCCGACTTTCAGTACGGCGTAGTAAAGGATTGCCAAGCTATCTATAGTTTCAGCGTGGAAAATTCGAAAACTTATAAAGTGCTAATGTCTGCCAACGAGAAACTTTGCACATTTTCCATCCAACAAAAGCCTAAGAACTCAGACAGTCTAGACTGGGAGCCAGTTGAGACTTATAAAAGAACTAAAGAAACTCCGATGTGGGACGGATACGGCCCTTGGTGTGCACCTGATGATCACTTCAAAAACTCCTCATCACTACTTCAACCAAGAGGCATCTAG	MIKPVTILIAITLSGCSNKEIELKEFDSAKSTTITFVNLSPNATAYPSVFEDDYDCYASKIAKPEGPHRSKTIPIDTANRRSYTVLLGFSDFQYGVVKDCQAIYSFSVENSKTYKVLMSANEKLCTFSIQQKPKNSDSLDWEPVETYKRTKETPMWDGYGPWCAPDDHFKNSSSLLQPRGI				NA	NA	NA	NA	NA
BMS010_07178	318			hypothetical protein	ATGACGGAAGAAGAGATAAGGCAGCTTCTTGAGGAAAATCGGACCTATCATCTACCTGAAGCAATCTTGGTACGAGAGTTCTCGCTTGGCCTGATTCAGGCTGGTGACCCGATGTTCCTTCTTAAGGTGCCACAGCCCTATCGAGGCAAAGTCATAGAGTTCGGTATGAGCGTCACAAGTGAGTGGTACGAAACCTCCAACAACGGCACGCGCGACTACTCCGAACATGCGCCAAAACTGCATTATCTAGTTGAACGCTTTCTTAGGGAAGTACCGCTGGGTAGTCATATTCAGTGGCACAGTGCAAAAAACACATAA	MTEEEIRQLLEENRTYHLPEAILVREFSLGLIQAGDPMFLLKVPQPYRGKVIEFGMSVTSEWYETSNNGTRDYSEHAPKLHYLVERFLREVPLGSHIQWHSAKNT				NA	NA	NA	NA	NA
BMS010_07179	459			hypothetical protein	ATGTCTCAATACAAGCTCACGGAAGAAATTCTGAAACGATCACATGCTCAGGTATGGGATTTGGCGAAGCTTGAGTGGAGCCTATATCAAATTTATGAAGCAGAAACTCCAGAAACTTGCCTCTGCGGGCATTTCCCAATAATTGAAATCTGTACGCTTCGCAACAAAGTAAACGGGCAGTTCGCAACTGTAGGTAATTGCTGCGTTAAGAAATTTATCGGGCTACCCTCTGACCTAATATTTCAAGCCGTAAAGCGGGTCAGAAAAGACAATCAAAAATCACTTAACTCCGAAGCCATTCAGCACGCATACGAAAAAGGCTGGATAAACGAGTGGGAATATAAATTCTCAATTGACACGATGCGGAAAAGATTATTAACGAGCAAGCAGCTTCAAACCCGCATAAATGTTAACGAAAAAATGCTCGCCAATATGCGCAAGAACAGTGGCGGCGGCTAG	MSQYKLTEEILKRSHAQVWDLAKLEWSLYQIYEAETPETCLCGHFPIIEICTLRNKVNGQFATVGNCCVKKFIGLPSDLIFQAVKRVRKDNQKSLNSEAIQHAYEKGWINEWEYKFSIDTMRKRLLTSKQLQTRINVNEKMLANMRKNSGGG				NA	NA	NA	NA	NA
BMS010_07180	1215			hypothetical protein	ATGGCGTTTAAAAGAATAACTCGGAAAGGGAAAGCAACAACCTCAAAAGACAACCTTGAAGACCTTCTTATCAATGCCCTCCAGAAATCCAAAAAAACAAACGAACCACCCCCATCATGCGCTACAAAATATAGCGCCATAGCAGCTAATTGCTCACAAGTAGCTATGCTAGCGATTGTCATATGGGGGTATTTTTATACTGTATTGCCCGTATTTCAAAAAGAGAAGCTAACTGAAGATTTAGCACGCTTGGAAATTGAAAAGTCGAGTTGGCAAGAAAAACTGGACAGCTATGCTCGAGATATTGAAGAGAGCAAAATTAACTTATCAAAGCTGGCTAAAGAGAGCAAAGGGCTAGAAGATAGATTAAACAGTATTAAATACGAAAAGGAACAAACAGAGAAAGCACTAGAGAGCTTAGCAAATAAAGAGCAAACCTCTAGAGAGCAACTTGCAGATACTGCCAAGGCGTTGCGTGAGGCTGAGAGTCAACTTTATGAACAGCAGCGACTCACCTTGCTAGGGAAAACCCCTATACCGATAGAGTCGATCTTTCTTATTAATAAAAGTCGCGACACGTTCAATATTTTTGAGCGTGACGCATCGCAAGCAGTAGCAGAAAAACTACATGACACATTCGTTCAGCCCATTGCATTTGTAGATAAAAAACTTGAAGAGCTAACAACTCAAGCAAATTCAGCCTCAAGTAAAATATATAGAAATGTCCAGCTACGACTAATAGATGAATATAGAAAAGGTATCCAAAGCAGCGCTCAGATCTTGCAGTGTCCAGAACCTAATTTTGAATCCTGGCAAGCTGAGTTTAGTCGCGCGCTTGCACTAGGCGATTCAATGGTTGAGGGGTGCGTCGACTATCACTTCAAGGCTAGAGAGAGAAAAGAAGGTTGGTCATCACGTGAAGTGGCGGAACTCAAGAACTCTGACTTTTGGGAAAAACAGAGGAAAATCTTTGCCCATAGCTGTTCAATAACAATCGACTTTAAAGTTAGCGAGCTGTACCGTGAGCGCTGGTCGTACATAAGCGACCCATGCGAGGAGAGGTTGCATAAAATGAGCTCAATTGCCCTGGAGGATGGAGCTGCATTGAACCTAACTCCTTTTAGAGATACCGCGCCACCAACTGAATCCCATATCAAGGCTCAGATTCAAGCTGCCATTGATGGCTGGTACAAATCACCAGATCAGCGCATGTAA	MAFKRITRKGKATTSKDNLEDLLINALQKSKKTNEPPPSCATKYSAIAANCSQVAMLAIVIWGYFYTVLPVFQKEKLTEDLARLEIEKSSWQEKLDSYARDIEESKINLSKLAKESKGLEDRLNSIKYEKEQTEKALESLANKEQTSREQLADTAKALREAESQLYEQQRLTLLGKTPIPIESIFLINKSRDTFNIFERDASQAVAEKLHDTFVQPIAFVDKKLEELTTQANSASSKIYRNVQLRLIDEYRKGIQSSAQILQCPEPNFESWQAEFSRALALGDSMVEGCVDYHFKARERKEGWSSREVAELKNSDFWEKQRKIFAHSCSITIDFKVSELYRERWSYISDPCEERLHKMSSIALEDGAALNLTPFRDTAPPTESHIKAQIQAAIDGWYKSPDQRM				NA	NA	NA	NA	NA
BMS010_07181	615	betI_4		HTH-type transcriptional regulator BetI	GTGAGCGGTCTGCGCGAACATCAGAAAGCCATGCGCCGCAAGGCGATCAGCGAGGCGGGTGTGGCCCTGTTCGAGCGGCAGGGATTCGCCAACACCACCATCGAGCAGATCGCCAGGGAGGCAGGCGTTTCCGCGCCCACGGTGTTCAAGTACTTCGGTTCGAAGCAGGAAATCATCCTGGAGATGCTGCAGAAGGCCGATGAAACGGCGCTGCAGGACGCCCGCGCGCACATGGCCGAGCTGGACGACCCGCTCGAGGCGCTGTGCTATCTGGAGCAGGTGCTGGTCGACCATGCCCTGAGCATGCTGCCCGCGCCGATCTGGCGCGAGCTGCTGCTGCACGTGCTCGGCGGCGACCAGAGCGGGCTGCCGGAGAAATACAAGCGCCTCAACGAGAGCCTGCAGCACGCCATCGCCAGCCTGCTGCGCGACCTGCAGCAGCGCGGTAAGCTGCGCCAGGACCTGGACGTGGAGCTGGCCGCCTTCCTGCTCAACGACTACTCGCACCTGCAGATCCTGCGCCTGGTCAGCAGCGAGCCGATGGACCTCGAACAGCACCGCCGCCAGGTACGCCAGACCAGCGGGCTGATCCTGCAGGGCATGATCGCTCGCTAG	MSGLREHQKAMRRKAISEAGVALFERQGFANTTIEQIAREAGVSAPTVFKYFGSKQEIILEMLQKADETALQDARAHMAELDDPLEALCYLEQVLVDHALSMLPAPIWRELLLHVLGGDQSGLPEKYKRLNESLQHAIASLLRDLQQRGKLRQDLDVELAAFLLNDYSHLQILRLVSSEPMDLEQHRRQVRQTSGLILQGMIAR				NA	NA	NA	NA	NA
BMS010_07182	1272	nylB'_2		6-aminohexanoate-dimer hydrolase	ATGACTTCCTCCGCAACCCCTTCCATCCCGAACCAGCTGGCTCGTCTGTACGCCGATGCCCATGAGGCGCTGCTCACAGCGCCGGTGCCTCAACGCTTCATGAGCGGCTTTCCGCCCGCCGCGGAACAGTTGGTGACCTGGGACAACTGGATGAGCCCGCCCTGCAACAAGTGGGGCTTTCGCCATCTGGGTCGCCTGCGCCCGAGCATCAGCGTGCCGTGCGGTCAGGCGCTGCAGCCGCTGGCCGAAGCGCCGCTGGATCTCGACGGTTTCAGCTTCGCCAGCGAGTGCGGGCTGAGCGTGCGCCTCGACGAGCATCTGCTGGCCAGCCATGCCGATGGCTTTATCGTGCTCAAGGCGGGGAGGGTGGTATACGAACGCTACTTCAACGGTCACGGCGCCAACGACCGCCACGTCATGTTCTCGGTGACCAAGTCGCTGATCGGCACCCTCGCCGAGCAGTTGATCTGCGAGGGCAAGCTCGACCCCGAGCGCCTGGCCGGCGACTACGTGCCGGAGTTCGCCGGCAGTGCCTATGCCGATGCCAGCGTGCGCCAGTTGCTGGATATGGCGGTGGGCATCGATTACACCGAGCGCTACGACGACCCGGCCTCGGAAAGCTCGCAGTTCGGCTATGCCTGTGGCTTCCAGCCGGCGCCTGCCGAGTACGCCCAATACGCCTCGCTCTACCAGTACCTGCCGTCGCTGCGTAAACGCGGCGAGCACGGCGGGCTGTTCCACTATGTCACCGCCACCACCGAGGCGCTGGCCTGGGTGATGGAGCGCGCTTGCGGTGAAGCCTGCCATGAACTGTTGGCGCGGGTCTGGGCGGCGATCGGCTGCCAGCGCGACGGCTACTTCCTGGCCGACCCCTGGGGGCGCGGCGTCTCCGGCGCCGGTTTCAACGCGACGCTGCGCGACATGGCGCGCTTCGGCCTGCTGCTGGCAGGCCGTGGTCAGCACCAGGGCGAGCCGCTGATCGATGCTCGCGCCATCGATGCCATCGCCGCCGGCAGCGACCCGCGGATCTACGCCCAGGACGAGGAGTTCGCCCAGTGGATGCCCGGCGCCTCCTACCGCAGCCAGTGGTACGTGTTCAACGACCACAGCCGCGCCATCGCCGCCGGCGGCATCCATGGCCAGTACCTGTTCGTCGACTTCGACGCCGATGTGGTGATCGTCAAGCAGTCCTCGCTGCCCGAGGCGGTGGGCATCTTCGACGTCGATAACGTGCGCGCGCTGCGCACGCTGGCCGCTCATCTACGCGACTGA	MTSSATPSIPNQLARLYADAHEALLTAPVPQRFMSGFPPAAEQLVTWDNWMSPPCNKWGFRHLGRLRPSISVPCGQALQPLAEAPLDLDGFSFASECGLSVRLDEHLLASHADGFIVLKAGRVVYERYFNGHGANDRHVMFSVTKSLIGTLAEQLICEGKLDPERLAGDYVPEFAGSAYADASVRQLLDMAVGIDYTERYDDPASESSQFGYACGFQPAPAEYAQYASLYQYLPSLRKRGEHGGLFHYVTATTEALAWVMERACGEACHELLARVWAAIGCQRDGYFLADPWGRGVSGAGFNATLRDMARFGLLLAGRGQHQGEPLIDARAIDAIAAGSDPRIYAQDEEFAQWMPGASYRSQWYVFNDHSRAIAAGGIHGQYLFVDFDADVVIVKQSSLPEAVGIFDVDNVRALRTLAAHLRD				NA	NA	NA	NA	NA
BMS010_07183	1329			hypothetical protein	ATGATTCGCCTACCCTTCACGCCCACGCTGCTCGCCGTGGCGCTGCTGAGCAGTGCCAGCGCCATGGCCGGCTACAGCTTCGAGTCCGGCGGACTCGAAGGCGAGGTCAGCCTGACCGCCTCCGCCGCCGCCCTGTTCTCGCGCAACAGCAACTTCGGCGCCGGCCGACTCGATACCCGCACCGGCGAGATCGGCGCCAAGCACGCCGACTGGCAGGAGCTGGCGGTCAAGCCGGCGCTCACCCTGCAATACCACCTGGGCCCCGATTTCGATCTGCTGGCCGGCGGCTCGGTGGTCGGCGCCAGCACCTTCGGCGACGGCGATGCCGGCGGCTTCACCCGCAGTTCCGATGGCCGGGCCAGCGTCGAGGAGGCCTACGCCGGTTTCCGCGCCGGGCAATGGCGCTTCACCGCCGGTCGCCAGGACTACATGATCGGCCAGGGTTTCATCGTCATGGATGGCAACCTCGACATGCACAACGATGGCGCCTATTGGCTGGGGCCGCGCACCGCCTTCCGCGACAGCGCCGTGCTGGATTGGAGCGGCGAAGCGCTGTCGGCGCAGGCATTCACCCTGCGCAGCGACGATCATCTCGGCGACTACCGCATGACCGGCCTCAACGCCGACTACCAGCTCGGTGAGCTGGCCACGCTGGGCGCCATGGCCATGAAGCTCGACTCCGAGGAGCGTTCGTCCAACCTGGCGGCGCCGCGCGAGGGCATGAAGGTCTACAACCTGCGCGCCCTCAACGTCGTGCTACCGGGCCTCAGCGATCTGACCCTGAACGGCGAGTACGCCGTGCAGCGCGGCAGCGGCGAGGGCACCGAGTTCGATGCCAAGGCCTGGTACCTGGGCGGCGAGTACCGCTTCAGCCAGCTGCCGTTGCAACCGCGGCTGGGTTATCGCTACGCCTACTTCTCCGGCGACGACGATCTGGGCGACAACCGGCAGAAGGCCTGGGACGCGCTGAGCAAGGGCTACATCGACTGGGGCACCTGGCTGATCGGCGACATCACCGGCAACTACCTGCTCAACAACAGCAACCAGAAGGTGCACACCTGGTCGCTGAAGTCCGAGGTCGCACCGGGCGTCACGCTGGGCACCCTCTATCATCGTTTCACCCTGGACGAGCAGAATCTGTTCGGTGCGCCGCTGAGCAGCACGCGCTTCGCCGACGAGCACGCGCTGTTCGTCGACTGGAGCCCCAACGCCAGCCTGTCCACCTCGCTTTCCTACAACTGGGTCAAGGCCAAATCCGCCGCCAAGGAGTTCTTCGGCAACGACCGGGATTTCTCCACACTGCAGCTGTATGTCACTTACCGCTATTGA	MIRLPFTPTLLAVALLSSASAMAGYSFESGGLEGEVSLTASAAALFSRNSNFGAGRLDTRTGEIGAKHADWQELAVKPALTLQYHLGPDFDLLAGGSVVGASTFGDGDAGGFTRSSDGRASVEEAYAGFRAGQWRFTAGRQDYMIGQGFIVMDGNLDMHNDGAYWLGPRTAFRDSAVLDWSGEALSAQAFTLRSDDHLGDYRMTGLNADYQLGELATLGAMAMKLDSEERSSNLAAPREGMKVYNLRALNVVLPGLSDLTLNGEYAVQRGSGEGTEFDAKAWYLGGEYRFSQLPLQPRLGYRYAYFSGDDDLGDNRQKAWDALSKGYIDWGTWLIGDITGNYLLNNSNQKVHTWSLKSEVAPGVTLGTLYHRFTLDEQNLFGAPLSSTRFADEHALFVDWSPNASLSTSLSYNWVKAKSAAKEFFGNDRDFSTLQLYVTYRY				NA	NA	NA	NA	NA
BMS010_07184	1101	spuE_3	COG0687	Spermidine-binding periplasmic protein SpuE	ATGATGATGTGCAAACGTGGCGCGCTGGCCCTGCTGGCGGCAACCCTGATCAGCCTGCCGGCGCTGGCCGAACAGCGCAGCGTGCGGGTCTACAACTGGATCGAGTACCTGCCGGGCGAGATTCTCAAGGACTTCGAGGCCGACACCGGCATTCGTCCGATCTATGACGTGTTCGACAGCGCCGAGACCCTCGAATCCAAGCTGCTCACCGGCAATTCCGGGTACGACGTGGCCTTTCCCAGCAGCTCTTCGCTGGCGACTTTCATCGCCGCCGGTACCTTCGAGAAAATCGACCGCAGCAAGCTGAGCAACTGGCAGCGCCTGGACGAGTCGTTCATGGCCGAGCTGGAGAAGACCGGCGACGTCGGCAACCAGTACGCCGTGCCCTACATGTGGGGCACCACCCTGATCGGCTACAACGTCGACAAGGTGCGCGCTGCGCTGGGGCCGGACGTACCGCTGGACAGCTGGGACCTGATCTTCAACCCCGAGTACCTGTCGAAGCTGGCCTCCTGCGGTGTCGGCTTCCTCGATTCGCCGAGCGAGATCCTGCCCATCGCCCTACATCATCTGGGCCTGTCGCCGCACTCGCAGGACCCCGGCGACTACCGCAAGGCGCAGGAGCTGATGATGAGCATCCGCCCGCACATCACCTACTTCAACTCCTCGCGCTACGGCTACGACCTGGCCAACGGCGAGATCTGCATCGCCGTCGGCTGGTCGGGCGGCGTCGAGCTGGCGCGGAAGATGGCGGTGGTCGCGGGCAAGGGCGTGCGCATCGACATGATCCTGCCCAAGGAAGGCGCGCCGCTGTGGTCCGACGTGATGGTGATCCCCAAGGGCGCCGGCAACGTCGACGAGGCACATGCCTTCATCGACTACCTGATGCGCCCGGAGGTGATCGCCAAGATCAGCACCGCCATCGGTTATCCCAACGCCAACAAGGACGCCACCGCGTTGGTCGACCCGAGCGTGCGCGACAACCCCAAGATGTACATCCCCGCCGAACAGATGGACACCCTGTTCGCCCTCAAGGCCTTACCGCTGAAGGTCGAGCGCGTGCGCATGCGCACCTGGAACAGCATCCGTACCGGCAAGTAA	MMMCKRGALALLAATLISLPALAEQRSVRVYNWIEYLPGEILKDFEADTGIRPIYDVFDSAETLESKLLTGNSGYDVAFPSSSSLATFIAAGTFEKIDRSKLSNWQRLDESFMAELEKTGDVGNQYAVPYMWGTTLIGYNVDKVRAALGPDVPLDSWDLIFNPEYLSKLASCGVGFLDSPSEILPIALHHLGLSPHSQDPGDYRKAQELMMSIRPHITYFNSSRYGYDLANGEICIAVGWSGGVELARKMAVVAGKGVRIDMILPKEGAPLWSDVMVIPKGAGNVDEAHAFIDYLMRPEVIAKISTAIGYPNANKDATALVDPSVRDNPKMYIPAEQMDTLFALKALPLKVERVRMRTWNSIRTGK	PGPT0007805_1054	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007805-potF-K11073	NA	NA
BMS010_07185	831			Hydroxycinnamoyl-CoA hydratase-lyase	ATGAGCAAGTACGAAGCGCGCTGGCAAACCGTGAAGGTCGAAGTGGAGGAGGGCATCGGCTGGGTCATCCTCAACCGTCCGGAAAAGCGCAACGCCATGAGCCCGACCCTCAACCGCGAGATGGTCGAGGTGCTGGAAACCCTGGAGCAGGATGCCGAGGTCGGCGTGCTGGTGCTGACCGGCGCCGGCGAGTCCTGGACCGCCGGCATGGACCTGAAGGAATACTTCCGCGAGGTCGACGCCGGCCCGGAAATCCTCCAGGAGAAGATTCGCCGCGAGGCCTCGACCTGGCAGTGGAAGCTGCTGCGCATGTACGCCAAGCCGACCATCGCCATGGTCAACGGCTGGTGCTTCGGCGGCGGCTTCAGCCCGCTGGTGGCCTGCGACCTGGCGATCTGCGCCGACGAGGCGACCTTCGGCCTGTCCGAGATCAACTGGGGCATCCCGCCGGGCAACCTGGTGAGCAAGGCCATGGCCGACACCGTGGGCCATCGCCAGTCGCTGTACTACATCATGACCGGCAAGACCTTCGGCGGGCAGAAGGCCGCCGAGATGGGCCTGGTCAACGAGAGCGTGCCGCTGGCGCAGCTGCGCGAGACCACCATCGAACTGGCGCGCAACCTGCTGGAGAAGAACCCAGTGGTGATGCGCGCGGCGAAGATCGGCTTCAAGCGCTGCCGCGAACTGACCTGGGAGCAGAACGAGGACTACCTGTACGCCAAGCTCGACCAGTCGCGCCTGCTGGACAAGGAAGGCGGTCGCGAGCAGGGCATGAAGCAATTCCTCGACGACAAGAGCATCAAGCCCGGCCTGCAGGCTTACAAGCGCTAA	MSKYEARWQTVKVEVEEGIGWVILNRPEKRNAMSPTLNREMVEVLETLEQDAEVGVLVLTGAGESWTAGMDLKEYFREVDAGPEILQEKIRREASTWQWKLLRMYAKPTIAMVNGWCFGGGFSPLVACDLAICADEATFGLSEINWGIPPGNLVSKAMADTVGHRQSLYYIMTGKTFGGQKAAEMGLVNESVPLAQLRETTIELARNLLEKNPVVMRAAKIGFKRCRELTWEQNEDYLYAKLDQSRLLDKEGGREQGMKQFLDDKSIKPGLQAYKR	PGPT0019905_139	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-PLANT_HYDROXYCINNAMIC_ACID_RESISTANCE	ADAPTION_TO_PIS-HCA_DEGRADATION-VANILLIN_INTERMEDIEATE,PGPT0019905-ferB-K18383	NA	NA
BMS010_07186	1449	vdh_4		Vanillin dehydrogenase	ATGTTCGAAGTGCCTCTTCTGATCGCCGGCCAGTCTCTCGCCGCGGCCGATGGCCGGACGTTCGAGCGCTGCCATCCGGTGACCGGCCAGCCGGTGTCGCGCGTCGCCGCCGCCACCCTGGCCGATGCCGACGCCGCCGTGGCGGCCGCCCAGGCCGCGTTTCCGCAGTGGGCCGCGCTGGGCCCCGGCGAGCGCCGCGCGCGCCTGCTCAAGGCCGCCGAGCTGCTGGAGGAGCGTGCCGGCGATTTCATCGCGGTGGCCGGCGAGACCGGCGCCACCGGCACCTGGTACGGCTTCAACGTGCATCTGGCCGCTGCCATGTTGCGCGAGGCGGCGAGCATGACCACGCAGATCAAGGGCGAGGTCATCCCCTCCGACGTGCCCGGCAACTTCGCCATGGCCCTGCGTCAGCCCTGCGGCGTGGTGCTCGGCATCGCGCCGTGGAACGCCCCGGTGATCCTCGGCACGCGCGCCGTGGCCATGCCGCTGGCCTGCGGTAATACCGTGGTGCTCAAGGCCTCCGAACTGAGCCCGGCGGCGCACCGGCTGATCGGCCAGGTGCTACAGGAAGCCGGCCTCGGCGACGGCGTGGTCAACGTGATCAGCAACGCCCCCGAGGACGCTCCGGCCATCGTCGAGCGGCTGATCGCCAATCCGGCGGTGCGCCGGGTCAACTTCACCGGCTCCACCCATGTCGGGCGGATCATCGGCGAACTGGCGGCGCGGTACCTGAAACCGGCCGTGCTGGAGCTGGGCGGCAAGGCGCCGCTGCTGGTACTGGACGACGCCGACCTGGATGCGGCGGTGGCCGCCGCCGCGTTCGGCGCCTACTTCAACCAGGGGCAGATCTGCATGTCCACCGAGCGGCTGATCGTCGACGCCAAGGTGGCCGATGCCTTCGTCGACAAGCTGGCGCAGAAGGTCGCCAGCCTGCGCGCGGCCGACCCGCAAAGCGGGGCCGCGCCGCTCGGTTCGCTGATCGGCGCCGCCGCCGGTCAGCGTATCCAGGGGCTGGTCGACGATGCATTGAGCAAGGGCGCGCGCCTGCTCGCCGGTGGTCAGCTCGACGGCAGCATCATGCAGGCCACCCTGCTCGATGGGGTCACTGCCGACATGCGCCTGTATCGCGAGGAGTCCTTCGGCCCGGTGGCCGTGGTGCTCAGGGGCGATGGCGACGAGGAGCTGTTGGCGCTGGCCAACGACTCCGAGTTCGGCCTGTCGGCGGCGATCTTCAGCCGCGACGTGTCGCGTGCGCTGCAGTTGGCGCAGCGCATCGAATCGGGCATCTGCCATATCAACGGGCCGACGGTGCACGACGAGGCGCAGATGCCCTTCGGCGGGGTCAAGGCCAGCGGCTACGGCAGCTTCGGCGGCCAGGCGGCGGTGGAGGCCTTCACTCAGTTACGTTGGGTGACGGTACAGAACGCTCCGCGGCATTACCCGATCTAG	MFEVPLLIAGQSLAAADGRTFERCHPVTGQPVSRVAAATLADADAAVAAAQAAFPQWAALGPGERRARLLKAAELLEERAGDFIAVAGETGATGTWYGFNVHLAAAMLREAASMTTQIKGEVIPSDVPGNFAMALRQPCGVVLGIAPWNAPVILGTRAVAMPLACGNTVVLKASELSPAAHRLIGQVLQEAGLGDGVVNVISNAPEDAPAIVERLIANPAVRRVNFTGSTHVGRIIGELAARYLKPAVLELGGKAPLLVLDDADLDAAVAAAAFGAYFNQGQICMSTERLIVDAKVADAFVDKLAQKVASLRAADPQSGAAPLGSLIGAAAGQRIQGLVDDALSKGARLLAGGQLDGSIMQATLLDGVTADMRLYREESFGPVAVVLRGDGDEELLALANDSEFGLSAAIFSRDVSRALQLAQRIESGICHINGPTVHDEAQMPFGGVKASGYGSFGGQAAVEAFTQLRWVTVQNAPRHYPI	PGPT0005525_270	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_VANILLIN|VANILLATE_DEGRADATION,PGPT0005525-vdh-K21802	NA	NA
BMS010_07187	1875	menE_2		2-succinylbenzoate--CoA ligase	GTGAGTTCCGCTTCTATCAAGGCGCCGGGAGCCGAGCCGGTCTACCGCCCCGTGTCGATCAGCCGCGCGCCGGTCGAATTCAGCCGCGACGCCAACGGCGTGATGCGCCTGCGTTCCGGCGAGCCGCTGCAAACGCCGGCCCGGCACCTACTCGAGCGCCTGGAATACTGGGCGAGGCAGGCTCCCGAACGCACCTGCATGGCGGCGCGCGCGGCCGACGGCAGCTGGCGTCGTATCAGCTACGCGCAGATGCTCGCCAACGTGCGCCTGATCGGCGCGCACCTGCTGCCGTTCGGACTGTCGCCGCAGCGGCCGCTGCTGATTCTCTCCGGCAACGATCTGGAGCATATCCAGCTGGCCTTCGCCGCCCTGTACGTCGGCGTGCCGTACTGCCCGGTGTCGCCGGCCTATTCGCTGCTGTCGCAGGACTTCGGCAAGCTGCGCCACATCGTCGAGCTGCTGCAGCCGGGGCTGGTGTTCGCCAGCCAGGTGCAGGGCTATGCGCGGGCCATCGACACCCTGTTGCCGGCCAGCGTGCCGGCGATTTTCACCGAGGGCGCGCTGGCCGGGCGGCGGAGTCTGGCCTTCGCCGATCTGCTGCAGCCCATCGACACCGCCCCCGCGCAGCAGGCCTTCGCCGCCAGCGGGCCGCAGACCCTGGCCAAGTTCCTCTTCACCTCCGGCTCCACCAGCCTGCCGAAGGCGGTGCCGACCACCCAGCAGATGCTCTGCGCCAACCAGCAGATGCTGCTGCAGACCTTCCCGGTGCTCGGCGAGGAGCCGCCGGTGCTGGTCGACTGGCTGCCGTGGAACCACACCTTCGGCGGCAGCCACAACGTCGGCATCACCCTGTACAACGGCGGCAGCTTCTACCTGGATGCGGGCAAGCCCACCGCCCAGGGCTTCGCCGAGACGCTGCGCAACCTCAAGGAAATTTCCCCCACCGCCTACCTGACGGTGCCCAAGGGCTGGGAGGAATTGGTCGGCGCGCTGGAGCAGGACGCCGAGCTGCGCCAGTCGTTCTTCGCCCGCATGAAGCTGTTCTTCTTCGCCGCCGCCGGCCTGTCCCAGTCGATCTGGGATCGCCTCGACCGCGTCGCCGAGGCGCACTGCGGCGAGCGCATCCGCATGATGGCCGGCCTGGGCATGACCGAGGCCTCGCCATCGTGCACCTTCACCACCGGGCCGCTGTCGGTGGCCGGTTATGTCGGGCTGCCGGCACCGGGTTGCGAGGTCAAGCTGGTGCCGGTCGACGGCAAGCTGGAGGGGCGCTTCCGTGGCCCGCACATCATGGCCGGCTACTGGCGCGCGCCCGAGCAGAACGCCAAGGTGTTCGACGAGGAAGGCTATTACTGCTCCGGCGATGCGCTGAAACTGGCCGACCCGCAGGCGCCTGAGGTGGGGCTGATGTTCGACGGCCGTATCGCCGAGGACTTCAAGCTGTCCTCCGGGGTGTTCGTCAGCGTCGGGCCGATGCGCACCCGCGCCGTGCTCGAAGGAGCGCCGCTGGTGCAGGACGTGGTGGTGGCGGCGCCGGATCGCGAGGAACTCGGCCTGCTGGTATTTCCCCGCCTGGATCAGTGCCGGGTACTGGCCGGTTTGAGCGACAGCGTCGACGATCAGGCGGTGCTGGACAGCGAGCCGGTGCGGGCCTGGTTCGCCGACTGGCTGGCGCGCTTCAACCGCGATGCCACCGGCAGCGCCTCGCGCATCCAGTGGCTGCTGCTAATGGCGCAGCCGCCGTCGCTGGAGGTGGGGGAAATCACCGACAAGGGCTCGCTGAACCAGCGTGCGGTGCTGGCGCAGCGCGCCGCTCTGATAGATGCCGCCTACCAGGGCAGCGCCCCCGGCCTGCTGTGTCGGCAAACGCAATGA	MSSASIKAPGAEPVYRPVSISRAPVEFSRDANGVMRLRSGEPLQTPARHLLERLEYWARQAPERTCMAARAADGSWRRISYAQMLANVRLIGAHLLPFGLSPQRPLLILSGNDLEHIQLAFAALYVGVPYCPVSPAYSLLSQDFGKLRHIVELLQPGLVFASQVQGYARAIDTLLPASVPAIFTEGALAGRRSLAFADLLQPIDTAPAQQAFAASGPQTLAKFLFTSGSTSLPKAVPTTQQMLCANQQMLLQTFPVLGEEPPVLVDWLPWNHTFGGSHNVGITLYNGGSFYLDAGKPTAQGFAETLRNLKEISPTAYLTVPKGWEELVGALEQDAELRQSFFARMKLFFFAAAGLSQSIWDRLDRVAEAHCGERIRMMAGLGMTEASPSCTFTTGPLSVAGYVGLPAPGCEVKLVPVDGKLEGRFRGPHIMAGYWRAPEQNAKVFDEEGYYCSGDALKLADPQAPEVGLMFDGRIAEDFKLSSGVFVSVGPMRTRAVLEGAPLVQDVVVAAPDREELGLLVFPRLDQCRVLAGLSDSVDDQAVLDSEPVRAWFADWLARFNRDATGSASRIQWLLLMAQPPSLEVGEITDKGSLNQRAVLAQRAALIDAAYQGSAPGLLCRQTQ	PGPT0019895_115	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0019895-fcs-K12508	NA	NA
BMS010_07188	189			hypothetical protein	ATGAGCTGGAGCGACACAGCGTTCTCGCATTTCGATGACGCCGCCATCGTGCAGATGGCGCGCACGCCCTGGGTCGATGTTGGCGGGGCGCCGGCCAAGGTCTCGCCGATCGCCCAGGGCCAGCCACTGGCGGCCGCCAGATCGCGCCTGTGCATGTCGCTGCTGCTGGGAAATCCTCTCGTCTGCTAG	MSWSDTAFSHFDDAAIVQMARTPWVDVGGAPAKVSPIAQGQPLAAARSRLCMSLLLGNPLVC				NA	NA	NA	NA	NA
BMS010_07189	1185	pobA_1		p-hydroxybenzoate hydroxylase	ATGAAAACCCAAGTCGCCATCATCGGGGCCGGCCCTTCCGGCCTGCTGCTCGGCCAGTTGCTGCACAACGCCGGCATCGACAACGTCATCATCGAACGCCAGAGCCCGGACTACGTGCTCGGCCGCATCCGCGCCGGGGTGCTCGAACAGGGCATGGTCGACCTGCTGCGCGAGGCCGGCGTCGGCCAGCGGATGGACCGCGAAGGGCTGGTCCACGACGGCTTCGAGCTGGCCTTCGACGGCCGCATGGAGCGCATCGACCTGCGCGCGCTGACCGGCGGCAAGACCGTCATGGTCTACGGCCAGACCGAGGTCACCCGCGACCTGATGGAGGCCCGCGCGGCCAGCGGCGCGCCCTGCTTCTACGAGGCCAGCGAGGTCGAGCTACACGAGCTCAAGGGCGCAACCCCCTACGTCACCTTCATCCACCAGGGCCAGCGGATGCGCCTAGACTGCCAGCAGATCGCCGGTTGCGACGGCTTCCACGGCGTGTCGCGCAAGTCCATCCCGGCCGGCGTGCTCAGCGAGTTCGAACGGGTCTACCCATTCGGCTGGCTCGGCGTGCTGGCCGATACGCCGCCGGTCAACGACGAGCTGATCTACGCCAGCCACGAGCGCGGCTTCGCCCTGTGCAGCATGCGCTCACCGACGCGCACCCGTTACTACGTGCAGGTCGGCAGCGAGGAGAAGGTCCAGGACTGGTCGGACGAGCGCTTCTGGGACGAACTCAAACGCCGCCTGCCCGCGCAGACCGCCGCCAGGCTGATCACCGGCCCGTCCATCGAGAAGAGCATCGCCCCGCTACGCAGCTTCGTGGTCGAACCCATGCAATATGGCCACCTGTTCCTCGTCGGCGACGCCGCACACATCGTCCCGCCGACCGGCGCCAAGGGCCTGAACCTGGCCGCCAGCGACGTCAGCACCCTGTATCGCATCCTGCTCAAGGTGCATCAGGAAGGCCGTAACGACCTGCTGGAAAAATATTCGTCGATCTGCCTGCGGCGAATCTGGAAGGCCGAACGCTTCTCCTGGTGGATGACCTCCATGCTGCACCGCTTCCCCGACACCGACGCCTTCAGCCAGCGCATGCAGCAGACCGAGCTGGACTACTACGTCGGCTCCGAAGCCGGGCGCCGCACCATCGCGGAGAACTATGTCGGCCTGCCTTACGAGGCGGTGGAATAA	MKTQVAIIGAGPSGLLLGQLLHNAGIDNVIIERQSPDYVLGRIRAGVLEQGMVDLLREAGVGQRMDREGLVHDGFELAFDGRMERIDLRALTGGKTVMVYGQTEVTRDLMEARAASGAPCFYEASEVELHELKGATPYVTFIHQGQRMRLDCQQIAGCDGFHGVSRKSIPAGVLSEFERVYPFGWLGVLADTPPVNDELIYASHERGFALCSMRSPTRTRYYVQVGSEEKVQDWSDERFWDELKRRLPAQTAARLITGPSIEKSIAPLRSFVVEPMQYGHLFLVGDAAHIVPPTGAKGLNLAASDVSTLYRILLKVHQEGRNDLLEKYSSICLRRIWKAERFSWWMTSMLHRFPDTDAFSQRMQQTELDYYVGSEAGRRTIAENYVGLPYEAVE	PGPT0005065_470	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYBENZOIC_ACID_GALLATE_RESISTANCE,PGPT0005065-pobA-K00481	NA	NA
BMS010_07190	858	rhaS_15		HTH-type transcriptional activator RhaS	ATGACTGGCCAGATTCCGGTGTTCAAACTCTACGGCGAGGAGCGGGCGTGGCCGACGCCGGACCTGATCCATTGCGAATCGATCGCCGAGCGCAGCCGCCTGCACGGCTGGGAAATCCGCGCCCATCTGCACAGCGATCTGCTGCAGGTGCTGTATATCCAGAGCGGCCACGCCGAGGCGGAGATCGACGGCCAGAGGAGGGTGCTCGATCACTCGGCCGTGCAGCTGGTGCCGGCACTGTGCGTGCACGCCTTTCGCTTTTCCGAGGATATCCAGGGCCATGTGCTGACCCTGGCGCAGCCGCTGGTGGAACATCTCGGCGCGGCGCTGGAGCAGCAGCCCTTGAGCCGCGCCGCCTGCTACCCGGCCGACGACCACCGCGGGCGCCTGGACGTGCTGTTCGAGACCCTGGCGCGCGAGTACGGCCGGCACGAGCCGGGGCGCGAACTGATGCTGCAGTCGCTGATCAGCGCGCTGCTGGTATGGCTGGCACGCCAGGCCCTGGCCGACGAGCGCGCCCAGGCGTCGCTCAGCGATCGCGGCCGTACCCACCTGCGGCGCTTCCAGGCGCTGATCGAGCAGCATTATCGCGAGCATCGCCCGCTGGACTGGTACGCCTCGCAGCTGGGCCTGAGCGTGGCGCACCTCAACAGCCTGTGCCGGCGTCTGGCCGGGCAGTCGGGCTTGCAGCTGCTCCACCAGCGCCTGCTGCTCGAGGCCAAGCGCAACCTGGTCTACACCTCGATGACCATCGCTCAGGTCGCCGACAGTCTCGGCTTCTCCGAGGCGGCCTATTTCTCCCGTTCCTTCAGGCGCTGGACGGGCGTGTCACCCAAGGATTTCCGGAGCCAGCGATGA	MTGQIPVFKLYGEERAWPTPDLIHCESIAERSRLHGWEIRAHLHSDLLQVLYIQSGHAEAEIDGQRRVLDHSAVQLVPALCVHAFRFSEDIQGHVLTLAQPLVEHLGAALEQQPLSRAACYPADDHRGRLDVLFETLAREYGRHEPGRELMLQSLISALLVWLARQALADERAQASLSDRGRTHLRRFQALIEQHYREHRPLDWYASQLGLSVAHLNSLCRRLAGQSGLQLLHQRLLLEAKRNLVYTSMTIAQVADSLGFSEAAYFSRSFRRWTGVSPKDFRSQR				NA	NA	NA	NA	NA
BMS010_07191	933	hdfR_5		HTH-type transcriptional regulator HdfR	ATGAACATCGACACCCGCATCAAGTTTCGCCATCTGCTGTGCTTTCTCGAGATCGCCCGTCAGCGCAGTTTCGCCAAGGCCGCCGATGTGCTGGCCGTGAGCCAGCCGGCAATCTCCAAGACGCTCAAGGAGCTGGAGGAAATTCTCGACGCCAGTCTGTTCGAGCGCGGCAAGCAAGGCGTCAGCCTGACCGCCTCGGGTGTCGCCTTCATGCGCTACGCCGGGCCCTGCGTGCAGGCGCTGCGCGATGGGGTCGACAGCCTGCGCAGTGGCGAACACGAGGCCGGGCAGGTGCGCGTCGGCGTGCTGTCCACCGTCGAGAGCCTGCTGATTCCCGAGGTGGTGCGGCGCCTGCACGAGCGCCATGCGGCGCTGGTGGTCAGCGTCGCCACCGGGCCGGGCGCCTATCTGCTCGGCCAGTTGCGCGTCGGCGAGCTGGACCTGGTGATCGGCCGCATGACCGACAGCCCGGATATCCAGGGTCTGACCTTCGAGCACCTGTACAGCGAATCCATGACCCTGGTGGTGCGCCCCGACCATCCGCTGCTGGCCGCAGGCCGCGCCGCGTTGGGCCGGCTCGGCGATTACCCGCTAGTATTGCCGACCGTCGGCACCACCATCCGCAAGCATGCCGACAGCCTGTTCGTGCAATGCGGCGTGACCCCGTCGCGGCAGCGCCTGGAGACCCTGTCGCCGGCGCTCAGCCGGCGTTACGTGCAAACCAGCGATGCGCTATGGGTGGCGCCGCAAGACGCGGTCTGCCTGGACGTGCAGCGCGGTGAGCTGGTCGAGTTGCAGTTGGGCGTGCAGGAGCCAGGCGGTTCGGTGGGCATCTGCCGCAACGGCGCGCTGGGCCTGTCGCTGGCTGCCGAGGGCTTCTGCGGGGTGCTGCGCGAGGTGGCGCAGGCCTACCGTGAGGGCGTCTTCCCATAA	MNIDTRIKFRHLLCFLEIARQRSFAKAADVLAVSQPAISKTLKELEEILDASLFERGKQGVSLTASGVAFMRYAGPCVQALRDGVDSLRSGEHEAGQVRVGVLSTVESLLIPEVVRRLHERHAALVVSVATGPGAYLLGQLRVGELDLVIGRMTDSPDIQGLTFEHLYSESMTLVVRPDHPLLAAGRAALGRLGDYPLVLPTVGTTIRKHADSLFVQCGVTPSRQRLETLSPALSRRYVQTSDALWVAPQDAVCLDVQRGELVELQLGVQEPGGSVGICRNGALGLSLAAEGFCGVLREVAQAYREGVFP				NA	NA	NA	NA	NA
BMS010_07192	720	pcaH_1	COG3485	Protocatechuate 3,4-dioxygenase beta chain	ATGCCTGCCGAGGACAACCGTCGTTTCGCCATTCGCGACCGCAACTGGCATCCGAAGGCCTTCACTCCCGACTACAAGACCTCCATCGCCCGCTCGCCGCGCCAGGCGCTGGTGAGCATCCCGCAGTCGATCTCCGAGATCAGCGGCCCAGATTTCTCGCATCTGAAAATGGGCCGCCACGACAACGACCTGCTGCTCAACTTCAACAACGGCGGCCTTCCGGTGGGCGAACGGATCATCGTCTCCGGCAAGGTGATGGACCAGTACGGCAAGCCGATCCCGCATACCCTGGTGGAGATGTGGCAGGCCAATGCCGGCGGACGCTACCGGCACAAGAACGACCGCTATCTGGCACCGCTCGACCCGAATTTCGGCGGTGTCGGTCGTACCCTGACCGATGGCGACGGCAACTATTACTTCCGCACCATCAAGCCGGGCCCGTACCCCTGGCGCAACGGTCCGAACGACTGGCGGCCGGCGCACATCCACTTTTCCATTACCGGTCCGTCGATCTCGACGCGGCTGATCACCCAGCTCTACTTCGAAGGGGATCCGTTGATTCCGAAGTGTCCCATCGTCAAGTCCATCGCCAACCCGGATGCGGTGCAGACGCTGATCGCCCGCCTGGACATGAGCATGGCCAACCCGATGGACTGCCTGGCCTACCGCTTCGACATCGTGCTGCGCGGCCAGCGCAAGACCTTCTTCGAGAACCAGTGA	MPAEDNRRFAIRDRNWHPKAFTPDYKTSIARSPRQALVSIPQSISEISGPDFSHLKMGRHDNDLLLNFNNGGLPVGERIIVSGKVMDQYGKPIPHTLVEMWQANAGGRYRHKNDRYLAPLDPNFGGVGRTLTDGDGNYYFRTIKPGPYPWRNGPNDWRPAHIHFSITGPSISTRLITQLYFEGDPLIPKCPIVKSIANPDAVQTLIARLDMSMANPMDCLAYRFDIVLRGQRKTFFENQ	PGPT0005015_652	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005015-pcaH-K00449	NA	NA
BMS010_07193	606	pcaG_1	COG3485	Protocatechuate 3,4-dioxygenase alpha chain	ATGAACTTCGACCTGCTGCCGGAAACCCCCTCGCAGACCGCCGGCCCCTACGTGCACATCGGCCTGGCCCTGGCCGCCGCCGGCAACCCGACCCGCGACCAGGAAATCTGGAACCGCATGGCCAAGGCGGACGCTCCGGGCGAGCACATCCTGCTCATCGGCCAGGTGTTCGACGGCAATGGCCACCTGGTGCGCGACTCCTTCCTCGAGTTCTGGCAGGCCGATCACCTGGGCCGCTACGAAGAGGCCTACGACCTGGAAAAGCCGTTCAACTGCTTCGGCCGCACCGCCACCACCTTCGATGCCGGCGAATGGACGTTGCACACGGTGAAGCCGGGAGTGGCGAACAACGCCGCCGGTGTTCCCATGGCGCCGCACATCAACGTGGCGCTGTTCGCCCGGGGCATCAACATTCACTTGCAGACGCGGATCTATTTCGACGATGAGGCCACGGCCAACGCCGCCGATCCGGTGCTCAACCTGATCGAGCAGCCGCAACGGCGCGAGACGCTGGTAGCCCGGCGTTGCGAGATGGACGGCAAGACCGCCTACCGCTTCGATATCCGCATCCAGGGGGAAGGGGAAACCGTCTTCTTTGACTTCTAG	MNFDLLPETPSQTAGPYVHIGLALAAAGNPTRDQEIWNRMAKADAPGEHILLIGQVFDGNGHLVRDSFLEFWQADHLGRYEEAYDLEKPFNCFGRTATTFDAGEWTLHTVKPGVANNAAGVPMAPHINVALFARGINIHLQTRIYFDDEATANAADPVLNLIEQPQRRETLVARRCEMDGKTAYRFDIRIQGEGETVFFDF	PGPT0005010_391	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005010-pcaG-K00448	NA	NA
BMS010_07194	1095	zapE_3	COG1485	Cell division protein ZapE	TTGACTTCTAGGACTGAAGAGCCCGGCCGGGACGGACTCGTCGAACCCGTCCCGCAACGTATCCGGCGGCACTTCGAAGCGGCGCTGGAGGCGCGCGGCTACCGGGCCGATGGTGCGCAACAGGCCGCTATCGATCACCTCGGCAGTTGGCTGGAGTCCCATCTCGCCGGTCGTCGCGGCTGGTTGCGGCGGGTGCCCGCCGGGGTCTACCTGTGGGGCGGGGTGGGGCGCGGCAAGAGCTTCCTGATGGACGCCTTCTTCGCCGCCGCGCCAGTGCAGGCCAAGCGGCGCGTGCATTTCCATGCGTTCCTGCAGGAGTTGCAGGCACGCATGCTGGCGTTCAGCGGCCAGGCCGATCCGCTGGCCAAGGCTGCCAGGGCGCTCGCCGCCGAGCTTCGGTTGCTCTGCTTCGACGAATTCCACGTGCATGACATCGGCGACGCCATGCTGCTCGGCCGTCTGCTCGCCGTGCTGGTGGAGGAGGGCGTCGGGCTGGTCTGCACTTCCAACTACCACCCCGACGGGCTGTGCCCGAACCCGCTCTACCGCGAGCGTTTCGAGCCGGCCATCCGCCTGCTCGAAAAGCGCTTCGACGTGCTCTCCGTGGACGGCGGCGAAGACTACCGGCAGCGTTCCACCGCGCTGGAAGCCTGGGGCAGCTATGGCTGGCCGCTGGCAGCCGGGGACGACTGGCCGGGACGGCAACTGGAGCTGACGACCGCTGCGGAGCGGGATCTCACCCTGGAGGTCAACCATCATCCGTTGCAGGTGATGGCACACGAGGATGACCGCGCCTGGCTGGAGTTCGATGCGCTGTTCCGCCAGCCGCATTCCAGCGCCGATTTCCTCTGGCTGTGCCAGCGCTTCTGCCGCATCGCCATCGGCACCGTGCCCTGGCTGGACGGCGAGGGCATCGACGTGCAGCAACGCTTCCTCAACTTCATCGACATCGCCTACGACAGCGGCGTCCGGTTGGTTCTGGGGTGTGCGGCGGACCTCGATACGCTGTGCGCCGGCAAGGCACCTCAGGACTATGCCCGTACCCGCAGCCGGCTGCGCCAGCTTCAGCCGGTCAACCTGTCTCCCGACCCTTGA	MTSRTEEPGRDGLVEPVPQRIRRHFEAALEARGYRADGAQQAAIDHLGSWLESHLAGRRGWLRRVPAGVYLWGGVGRGKSFLMDAFFAAAPVQAKRRVHFHAFLQELQARMLAFSGQADPLAKAARALAAELRLLCFDEFHVHDIGDAMLLGRLLAVLVEEGVGLVCTSNYHPDGLCPNPLYRERFEPAIRLLEKRFDVLSVDGGEDYRQRSTALEAWGSYGWPLAAGDDWPGRQLELTTAAERDLTLEVNHHPLQVMAHEDDRAWLEFDALFRQPHSSADFLWLCQRFCRIAIGTVPWLDGEGIDVQQRFLNFIDIAYDSGVRLVLGCAADLDTLCAGKAPQDYARTRSRLRQLQPVNLSPDP				NA	NA	NA	NA	NA
BMS010_07195	930			hypothetical protein	ATGCTGCAAATCCTGGGTATCACCGCGCCCATCTTCATCCTGATCGCCATCGGCTTCGGCTCGTCCCGTGCGCGGCTGGTGAGCCGCGAGCAGATCGCCGGCATGGGCACCTTCGTCATCACCTTCGCCCTGCCGGCGCTGGTGCTGAAGGCGCTAATCGAACGACCGCTGGGCGAGGTGTTCAACGGCACCTACCTGCTGGCCTATGGCCTGGCTTCGCAGGCGGTGTTCTGGCTGGGCTTCCTGTATTCGCGGCGGATACGCAAGGACAGCCTCAGCGGCAGCGCACTGAACGCCCTCGGCATGTCGGTTTCCAACAGCGGCTTCATCGGATACCCCATCGTGGCCATGGTGGTGGGACCGACCGGCGCGGTCGCCCTGGCCCTCGGCATGATGGTGGAAAACCTGCTGATGATCCCGCTGGCCCTGGCGCTGGCCGAACTGGGCCGGCAGAGCGGCGAAGGCCTGCGTGGGGCGCTGATCGGGACCTTCCGCCGCCTGCTGCGCCATCCGATCATCCTGGCCATTTCCCTCGGGCTGTTGCTGTCGCTGTTCGAGGTGCGCCTGCCGGCAATGTTGGGGAAAGTCGTCGAGATGCTGGCGATGGCCTCGGCGCCGGTGGCGCTGTTCGTCATCGGTGGCAGCCTGGATGGCCTGAAGGCACGCGGACTCTTGGCCGACGTGGCGCAGCTCGGCCTGGGCAAGCTGATCCTCCACCCGTTGGCCGTGCTGTTGTGCTTCGCGCTGCTGCCGGCCGTCGATCCGGCGTTGCGCACGGCGGCCGTCCTGTTCGCCTGCGCGCCGATGATGAGCATCTTCCCCATCCTCGGCCAGCGCTACGGTTTGGAGGGCCGCTGTGCCGCGGCGCTGGTGGTCTGTACCGTGCTGTCGTTCCTCACGATCAGCGTCTTCGTCGGCCTGTTGCGGTAA	MLQILGITAPIFILIAIGFGSSRARLVSREQIAGMGTFVITFALPALVLKALIERPLGEVFNGTYLLAYGLASQAVFWLGFLYSRRIRKDSLSGSALNALGMSVSNSGFIGYPIVAMVVGPTGAVALALGMMVENLLMIPLALALAELGRQSGEGLRGALIGTFRRLLRHPIILAISLGLLLSLFEVRLPAMLGKVVEMLAMASAPVALFVIGGSLDGLKARGLLADVAQLGLGKLILHPLAVLLCFALLPAVDPALRTAAVLFACAPMMSIFPILGQRYGLEGRCAAALVVCTVLSFLTISVFVGLLR	PGPT0001720_1999	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0001720-mdcF-K13936	NA	NA
BMS010_07196	843	pcaR_1	COG1414	Pca regulon regulatory protein	ATGAACGACGATTCCCGCCCCAGCCCGTCCACCCTGGCGCCGCCGATCATCGCGTCGCCGGCCAAGCGCATCGAGGCCTTCACCGGCGATCCCAATTTCATGACCTCCCTGGCCCGGGGCCTGGCGGTGATCCATGCGTTCCAGGAGCGCAAGCGCCACCTGACCATCGCGCAGATCAGCCACCGCACCGAAATCCCCCGCGCTGCCGTGCGCCGCTGCCTGCACACGCTGATGAAGCTGGGCTACGTCACCACCGACGGGCGCACCTATTCGCTGCTGCCCAAGGTGCTCACCCTTGGCCACGCCTACCTGTCCTCGACCCCGCTGGCGGTCACCGCCCAGCCGATCCTCGACCGCCTCAGCGAGCAACTTCACGAAGCCTTCTCCATGGCCACCCTGGAGGGTGATGAGATTCTCTACATCGCCCGCTCGGCGACGCCGCAGCGGCTGATCTCGGTAGACCTCAGCGTCGGCAGCCGGTTGCCGGCCTACTGCACGTCCATGGGCCGCATCCTGCTGGCGGCGCTGGACGATGCCGCCCTGGACGACTACCTCAGCCATGCCGACCTGCAGGTGAAGACCAGCCGCACCCTGCACACCCCCGAGGCGCTGCGCGCCAGCATCGAGGAGATCCGCCGACAGGGCTGGGTGATCATCGACCAGGAATTGGAAGTCGGCCTGCGCTCACTGGCGGTGCCGGTGCGCGACTCTTCCGGACAGGTGCTGGCGGCGCTGAACGTCGGCACCCATGCCGGCCGGGTCAGCCGGCAGGAGCTGGAAAACCGCTTCCTCCCGGCATTGCTGGTGGCCAGCCGCGAATTGAGCACGCGGCTCTATGCCTGA	MNDDSRPSPSTLAPPIIASPAKRIEAFTGDPNFMTSLARGLAVIHAFQERKRHLTIAQISHRTEIPRAAVRRCLHTLMKLGYVTTDGRTYSLLPKVLTLGHAYLSSTPLAVTAQPILDRLSEQLHEAFSMATLEGDEILYIARSATPQRLISVDLSVGSRLPAYCTSMGRILLAALDDAALDDYLSHADLQVKTSRTLHTPEALRASIEEIRRQGWVIIDQELEVGLRSLAVPVRDSSGQVLAALNVGTHAGRVSRQELENRFLPALLVASRELSTRLYA				NA	NA	NA	NA	NA
BMS010_07197	1350	pcaK	COG0477	4-hydroxybenzoate transporter PcaK	ATGAACAGCCCCGCCGACATGCCGGCTGCCGTCCACCTGGACGTGCAGGACTTCATCAATACCCAGCCACTTTCCGCCTATCAGTGGCGGATCGTGGTGCTGTGCTTCCTGATCGTGTTTCTCGATGGCCTGGATACCGCAGCCATGGGGTTCATCGTTCCGGCGCTGACCCAGGATTGGGGCATCGATCGCGCTAACCTCGGCCCGGTGATGAGCGCCGCGCTGGGTGGCATGGTGTTCGGTTCGCTTGGCTCCGGACCCCTGGCCGACCGCTTCGGACGCAAGCTGGTGCTGATCGGCGCGGTGTTCCTGTTCGGTGTGTTCAGCCTGCTGGCGACCTTCAGTGCCAACATCGAACAGCTGATCGTGCTGCGTTTCCTCACCGGGCTCGGTCTCGGCGCGGCGATGCCCAACGCCGGCACGCTGGTCTCCGAATACACCCCGGAGCGCCTCAAGTCGTTGTTGGTCACCGGCATGTTCTGCGGGTTCAACCTGGGCATGGCCTCTGGCGGTTTCATCTCCGCCGCGCTGATCCCGACCTTCGGCTGGCAGAGCCTGTTGTTCGTCGGTGGCGTGCTGCCGCTGGTGCTGGCCGCCGCGCTGCTGCTCTGGCTGCCGGAGTCGGCGCGCTACCTGGTGGTGCGCAACCATGACGCGGAGCGGATTCGCCGGACCCTGGCACCCATCGCGCCGGCCGAGGTCTCCATGGCCGGCAGCTTCAGCGTGCCCGAGCAGAAAACCGTACAGAGCCGCAACATGTTCCGGGTGATCTTCTCCGGTACCTACAGCGCCGGCACGCTGCTGCTCTGGATGACCTACTTCATGGGGCTGGTGATCATCTACCTGCTCACCAGTTGGCTGCCGACCCTGATGCGCGACAGCGGTGCGAGCATGGAACAGGCGGCGCTCATTGGCGCGCTGTTCCAGTTCGGCGGTGTGCTCAGCGCGGTGGGGGTGGGCTGGGCGATGGACCGGATCGACCCGCACAAAGTGGTCGGCGTCTTCTACCTGATGGCCGGGGTATTCGCCTACTGCGTCGGCCAGAGCCTCGGCGAAGTGGCGCTGCTGGCCACCCTGGTGCTGTTGGCGGGCATGTGCATCAACGGTGCGCAATCGGCCATGCCGTCGCTGGCGGCGCGCTTCTACCCGACCCAGGGGCGGGCCACGGGGGTGTCTTGGATGATCGGTATCGGCCGCTTCGGCGCCATCCTCGGTGCCTGGATCGGCGCCACCCTGCTGGGGCTGGGCTGGAGCTTCGAACAGGTGCTCACGGCGCTGGTGGTGCCTGCGGCTCTGGCGACCCTGGCGGTGTTGGTGAAGGGGATGGTGAGCCACGCCGACGCCACTTGA	MNSPADMPAAVHLDVQDFINTQPLSAYQWRIVVLCFLIVFLDGLDTAAMGFIVPALTQDWGIDRANLGPVMSAALGGMVFGSLGSGPLADRFGRKLVLIGAVFLFGVFSLLATFSANIEQLIVLRFLTGLGLGAAMPNAGTLVSEYTPERLKSLLVTGMFCGFNLGMASGGFISAALIPTFGWQSLLFVGGVLPLVLAAALLLWLPESARYLVVRNHDAERIRRTLAPIAPAEVSMAGSFSVPEQKTVQSRNMFRVIFSGTYSAGTLLLWMTYFMGLVIIYLLTSWLPTLMRDSGASMEQAALIGALFQFGGVLSAVGVGWAMDRIDPHKVVGVFYLMAGVFAYCVGQSLGEVALLATLVLLAGMCINGAQSAMPSLAARFYPTQGRATGVSWMIGIGRFGAILGAWIGATLLGLGWSFEQVLTALVVPAALATLAVLVKGMVSHADAT	PGPT0005400_883	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-HYDROXYBENZOATE_METABOLISM,PGPT0005400-pcaK-K08195	NA	NA
BMS010_07198	858	catI		3-oxoadipate CoA-transferase subunit A	ATGGCTGAGTTACTCACCCTCCGCGAAGCGGTCGGACGCTTCGTCCACGACGGCGATACCGTCGCCCTCGAAGGTTTCACCCACCTGATTCCCACCGCCGCCTCCCACGAGCTGATCCGCCAGGGCAAGAAAGACCTGACCCTGGTGCGCATGACTCCCGACCTGGTCTATGACCTGCTGATCGGCGCCGGTTGTGCGAAGAAACTGATCTTCTCCTGGGGCGGCAACCCCGGCGTCGGTTCGCTGCACCGTCTGCGCGACGCGGTGGAGAAGGGCTGGCCGCAGCCGCTGGAGATCGAGGAGCACAGTCACGCCGACCTGGCCAACGCCTACGTCGCCGGTGCCTCGGGCCTGCCGTTCGCGGTGCTGCGCGCCTATGCCGGTTCCGACCTGCCGAAGGTCAACCCGATGTTGAAGACCGTTACCTGCCCGTTCACCGGCGAGGTGCTGGCGGCGGTGCCGAGCGTGCGTCCGGACGTTACCGTGATCCACGCGCAGAAGGCCGACCGCAAGGGCAACGTGCTGCTCTGGGGCATCCTCGGCGTGCAGAAGGAAGCGGCCCTGGCGGCCAAGCGCTGCATCGTCACCGTGGAAGAGATCGTCGATGACCTGAACGCGCCGATGAACGCCTGCGTGCTGCCGACCTGGGCACTCAGCGCCGTCTGCCACGTGCCGGGCGGTGCCCGTCCGTCCTACGCCCATGGCTATTACGAGCGCGACAACCGCTTCTACCAGGCCTGGGACCCGATCGCCCGCAGCCGCGAAAGCTTCAGTGCCTGGATCGACGAATACATCCGCGGCACCGCCGACTACGCCGAGTACCTGAACAAGCTGGCCACGCAGCAGGAGGCCCCGTGA	MAELLTLREAVGRFVHDGDTVALEGFTHLIPTAASHELIRQGKKDLTLVRMTPDLVYDLLIGAGCAKKLIFSWGGNPGVGSLHRLRDAVEKGWPQPLEIEEHSHADLANAYVAGASGLPFAVLRAYAGSDLPKVNPMLKTVTCPFTGEVLAAVPSVRPDVTVIHAQKADRKGNVLLWGILGVQKEAALAAKRCIVTVEEIVDDLNAPMNACVLPTWALSAVCHVPGGARPSYAHGYYERDNRFYQAWDPIARSRESFSAWIDEYIRGTADYAEYLNKLATQQEAP	PGPT0006105_553	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_ACRYLONITRITE|ACRYLAMIDE_DEGRADATION,PGPT0006105-gctA-K01039	NA	NA
BMS010_07199	798	catJ		3-oxoadipate CoA-transferase subunit B	ATGAGCACGCTCTCCACCAGTGACTACAGCACCAACGAAATGATGACTGTGGCCGCCGCCCGCCGCCTGAAGAACGGCGCGGTCTGCTTCGTCGGCATCGGCCTGCCGTCCAAGGCGGCCAACCTGGCGCGCCTGACCTCGTCGCCGGATGTGGTGCTGATCTACGAATCCGGTCCCATCGGCGCCAAGCCATCGGTGCTGCCGCTGTCCATCGGCGACGGCGAGCTGGCCGAGACCGCCGACACCGTGGTGCCCACCGGCGAGATCTTCCGCTACTGGCTGCAGGGCGGGCGTATCGACGTGGGTTTCCTCGGCGCCGCCCAGGTGGACAGGTACGGCAACATCAACACCACCGTGATCGGCGACTACCGGCAACCCAAGGTACGCCTGCCGGGCGCCGGCGGTGCGCCGGAGATTGCCGGTTCGGCCAAGGAGGTGCTGATCATCCTCAAGCAGTCGCACCGCACCTTCGTCGACAAGCTGGCCTTCGTCACCTCGGTCGGCCATGGCGAGGGCGGCGACCATCGCCGGCAGCTCGGCCTGCCGGGCAAGGGGCCGGTGGCAATCATCACCGACCTCTGCATCATGGAACCGGAAGCCGGCACCAACGAATTCATCGTCACCGCGCTGCACCCCGGTGTGACCCGCGAACAGGTGATCGAAGCCACCGGCTGGCCGATCCGCTTCGCCCCTGTCGTCGCCGAGACGCCCGCGCCCGACGAGACCGAGCTGAGCGCTCTGCGCGCCCTGGAAGCCCGCACGGCGGCCGCGCACGGTCAGCAAGGGGGTGAGGAATGA	MSTLSTSDYSTNEMMTVAAARRLKNGAVCFVGIGLPSKAANLARLTSSPDVVLIYESGPIGAKPSVLPLSIGDGELAETADTVVPTGEIFRYWLQGGRIDVGFLGAAQVDRYGNINTTVIGDYRQPKVRLPGAGGAPEIAGSAKEVLIILKQSHRTFVDKLAFVTSVGHGEGGDHRRQLGLPGKGPVAIITDLCIMEPEAGTNEFIVTALHPGVTREQVIEATGWPIRFAPVVAETPAPDETELSALRALEARTAAAHGQQGGEE	PGPT0006110_278	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_ACRYLONITRITE|ACRYLAMIDE_DEGRADATION,PGPT0006110-gctB-K01040	NA	NA
BMS010_07200	1206	pcaF_1		Beta-ketoadipyl-CoA thiolase	ATGAGCCACGAGGTGTTCATTTGCGACGCGGTGCGCACGCCCATCGGCCGCTTCGGCGGTGCTCTCTCGGCGGTGCGCGCCGACGATCTGGCAGCCATCCCGCTGAGAGCCTTGCTGGAGCGCAACCCGCGCCTGGACCCGGCGGCCATCGACGAAGTGTTCATGGGCTGCGCCAACCAGGCCGGCGAGGACAACCGCAACGTGGCGCGCATGGCGTTGCTGCTGGCCGGACTGCCGGAAAGCGTGCCGGGTGTAACCCTGAACCGCCTCTGCGCCTCGGGTATGGACGCGGTGGGCACCGCCTTCCGCGCCATCGCCGCCGGCGAGATGGAACTGGCCCTGGCCGGGGGCGTGGAGTCCATGTCCCGCGCGCCCTTCGTCATGGGCAAGGCGGATGCCGCTTTCTCGCGCAATATGAAGATCGAGGACACCACCATCGGCTGGCGTTTCGTCAATCCGCTGATGAAGCAGCAGTACGGCGTCGATTCCATGCCGGAGACCGCCGACAACGTGGCCGATGAGTACGGCATCTCCCGCGCCGACCAGGACGCCTTCGCCCTGCGCAGCCAGCAGCGTGCGGCGGCGGCCCAGGAGGCGGGGTTTTTCGCCGAAGAGATCGTGCCGGTGCGGATCGTCCACAAGAAGGGCGAGACGCTGGTCGAGCACGACGAGCATCCGCGTGCCGACACCACGCTGGAGGCCCTGGCCAGGCTCAAGCCCGTCAACGGTGCGGACAAGACGGTCACCGCCGGCAATGCCTCGGGCGTCAACGACGGCGCGGCGGCGATGATCCTGGCCTCGGCCGAAGCGGTGGAAAAGCATGGCCTGCGGCCGCGCGCCCGGGTGCTCGGCATGGCCAGCGCCGGCGTCGCGCCGCGCATCATGGGCTACGGCCCGGTGCCGGCGGTACGCAAGCTGATGGCGCGCCTCGACCTGCAGATCGCCGACTTCGACGTCATCGAACTCAACGAGGCCTTCGCCAGCCAAGGCCTGGCCGTGCTGCGCGATCTCGGCCTGGTCGACGACGCCCCGCAGGTCAACCCCAACGGTGGCGCCATCGCCCTCGGCCATCCGCTGGGTATGAGCGGTGCGCGTCTGGTCCTGACCGCGTTGCACCAATTGGAAAAATCCGGCGGCCGCCGTGGCCTGGCCACCATGTGCGTGGGGGTAGGGCAGGGCCTGGCCCTGGCCATCGAACGGGTATGA	MSHEVFICDAVRTPIGRFGGALSAVRADDLAAIPLRALLERNPRLDPAAIDEVFMGCANQAGEDNRNVARMALLLAGLPESVPGVTLNRLCASGMDAVGTAFRAIAAGEMELALAGGVESMSRAPFVMGKADAAFSRNMKIEDTTIGWRFVNPLMKQQYGVDSMPETADNVADEYGISRADQDAFALRSQQRAAAAQEAGFFAEEIVPVRIVHKKGETLVEHDEHPRADTTLEALARLKPVNGADKTVTAGNASGVNDGAAAMILASAEAVEKHGLRPRARVLGMASAGVAPRIMGYGPVPAVRKLMARLDLQIADFDVIELNEAFASQGLAVLRDLGLVDDAPQVNPNGGAIALGHPLGMSGARLVLTALHQLEKSGGRRGLATMCVGVGQGLALAIERV	PGPT0001570_150	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0001570-pcaF-K07823	NA	NA
BMS010_07201	1353	pcaB_1	COG0015	3-carboxy-cis,cis-muconate cycloisomerase	GTGACCAATCAACTCTTCGATGCCTATTTCACCGCTCCGGCCATGCGCACGGTGTTTTCCGACGCCGGTCGCCTTCAGGGTATGCTCGATTTCGAAGCCGCCCTGGCGCGGGCGGAGGCGCGTTGCGGGGTGATCCCGGCCGCAGCCGTGGCGCCCATCGAGGCCGCCTGTAAAGCCGATCTCTATGACCTTGCCAACCTGGCCGAAGCCATCGTCAGCGCGGGTAACTCGGCGATCCCGCTGGTCAAGGCGTTGGGCAAGCGCATCGCCGCAAGCGACGCCGACGCCGAGCGTTACGTTCACCTCGGTGCCACCAGCCAGGACGCCATGGACACCGGCCTGGTGCTGCAACTGCGCCGGGCCCTTGGCCTGCTGAACGGCGATCTGGCGCGACTGGCCGAGGCGCTGGCCGAACAGGCCGAGCGCCATGCCGATACCGTGCTCAGCGGGCGCACCTGGCTGCAACACGCCACTCCGGTGACCTTGGGCATGAAGCTCGCCGGCCTGCTCGGTGCCGTCACCCGGCATCGCCAGCGCCTCGCCGAAATAGAACCGCGCCTGCTCTGCCTGCAATTCGGCGGCGCCTCCGGTTCCCTCGCCGCTCTGGGCGAACAGGCTTGGCCGGTGAGCCAGGCCCTGGCCCGCGAACTGGACCTGAACCTGCCGGACCAACCCTGGCACACCCAGCGCGACCGTCTTGCCGAGGTCGCCGCGCTGCTCGGCCTGATCGCCGGTACGTTGGGCAAGCTCGGCCGCGACCTCAGTCTGCTCATGCAGACCGACGTGGGCGAGGCCTTCGAGCCTTCCGCGCCGGGCAAAGGCGGCTCGTCGACCATGCCGCACAAGCGCAATCCAGTGGGCGCCGCCGTGCTGATCGGCGCCGCCACCCGCGCGCCGGGGTTGGTTGCGACCCTGCTGGCCGCCTTGCCGCAGGAGCACGAGCGCAGCCTCGGGCTCTGGCACGCGGAATGGGAAACCCTGCCTGAACTCTGCTGCCTGGTGTCCGGTGCCCTGCAGCATGCCCTGGTCATCGTCCCCGACCTGGAGGTGGATGCCACGCGGATGCGCGACAACCTCGAACTGACCCGGGGCTTGGTGCTGGCCGAGGCGGTAAGCATCGCCCTGGCCCAGCGCATCGGTCGCGAGACAGCTCATCAACTGGTCGAGCGCTGCTGCCGCCAGGCCGTCGCCGAACAGCGCCATCTGCGTGCGGTGCTCGGCGACAGCGCCGAAGTCACCGCACAGCTTTCCGCCGCTGAGCTGGATCGCCTGCTCGATCCGGCCCGCTACCTGGGCCAGGCGCGCCGCTGGGTCGAGCGCGCCCTGGCCGAACACCAAGCCTTGTCCCGTTGA	MTNQLFDAYFTAPAMRTVFSDAGRLQGMLDFEAALARAEARCGVIPAAAVAPIEAACKADLYDLANLAEAIVSAGNSAIPLVKALGKRIAASDADAERYVHLGATSQDAMDTGLVLQLRRALGLLNGDLARLAEALAEQAERHADTVLSGRTWLQHATPVTLGMKLAGLLGAVTRHRQRLAEIEPRLLCLQFGGASGSLAALGEQAWPVSQALARELDLNLPDQPWHTQRDRLAEVAALLGLIAGTLGKLGRDLSLLMQTDVGEAFEPSAPGKGGSSTMPHKRNPVGAAVLIGAATRAPGLVATLLAALPQEHERSLGLWHAEWETLPELCCLVSGALQHALVIVPDLEVDATRMRDNLELTRGLVLAEAVSIALAQRIGRETAHQLVERCCRQAVAEQRHLRAVLGDSAEVTAQLSAAELDRLLDPARYLGQARRWVERALAEHQALSR	PGPT0005000_629	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005000-pcaB-K01857	NA	NA
BMS010_07202	789	catD_2	COG0596	3-oxoadipate enol-lactonase 2	GTGGCTGATCTCCACCTCGCCGATGGCGACCTGAACTACCAGTTGGAAGGCCCGGCCGGCGCGCCGGTGCTGGTGCTGTCCAACTCCCTGGGCACCGATCTGCATATGTGGGACGTGCAAATGCCGGCCTTCACCGAGCATTTCCGCGTGCTCCGCTACGACACCCGTGGCCATGGCGCATCGCTGGTGACGCCGGGGCCGTACACCATCGAACAGCTCGGCCGCGACGTGCTGGCCCTGCTGGATGCGCTGGACATTCCCCGGGCGCATTTCTGCGGCCTGTCCATGGGCGGGCTGATCGGCCAGTGGCTGGGCATCCATGCCGGCGAGCGCTTGAGCAAGCTGGTGCTGTGCAACACGGCGGCGAAAATCGCCAACGACGAGGTCTGGAACACCCGTATCGAGACCGTTCTGAAGGGCGGCCAGCAGGCTATGCGCGACCTGCGCGATGCCTCCATCGCCCGCTGGTTCACCCCGGCCTTCGCCGAGGCACAGCCGGCCCAGGCCGCGCACATCACCGCGATGCTCGCCGCCACCTCGCCGGAAGGCTACGCCGCCAACTGCGCCGCCGTGCGCGATGCGGACTTCCGCGAGGCGCTGGGTGTGATCGCCGCGCCGACGCTGATCGTCTGCGGCAGCCAGGACCCGGTCACCACCACCGAGAACGGCCGCTTCATGCAGGCGCACATCGCGGGTGCCGACTTGGCCGAATTCACCGCCGCGCACCTTTCCAATGTCGAGGCGGGCGACCGGTTCACCCGTCGCGTGCTGGATTTCCTGCTGGGTTGA	MADLHLADGDLNYQLEGPAGAPVLVLSNSLGTDLHMWDVQMPAFTEHFRVLRYDTRGHGASLVTPGPYTIEQLGRDVLALLDALDIPRAHFCGLSMGGLIGQWLGIHAGERLSKLVLCNTAAKIANDEVWNTRIETVLKGGQQAMRDLRDASIARWFTPAFAEAQPAQAAHITAMLAATSPEGYAANCAAVRDADFREALGVIAAPTLIVCGSQDPVTTTENGRFMQAHIAGADLAEFTAAHLSNVEAGDRFTRRVLDFLLG	PGPT0004995_1431	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0004995-pcaD|catD-K01055	NA	NA
BMS010_07203	396			hypothetical protein	ATGGACGAAAAAGAACGCTACGAAGCCGGCATGCAGGTCCGCCGTGCGGTGCTGGGCGATGCTCATGTCGACCGCAGCCTGAAGAACCTGACGCCGTTCAACCAGGAATTCCAGGAGATGATCACCCGCCATGCCTGGGGCGATATCTGGACCCGTCCGGGCCTGCCGCGCCACACCCGCAGTCTGATCACCATCGCCATGCTGATCGGCATGAACCGCGAGGGCGAGTTGCGCCTGCACCTGCGCGCGGCGAAGAACAACGGCGTGACCCGCGACGAGATCAAGGAAGTGCTGATGCAGAGTGCGATCTACTGCGGCATCCCGGCGGCCAACGCCACCTTCCACCTGGCCGAGGAAGTCTGGGACGAACTGGGCGTCGAATCCCTGCAGGACTGA	MDEKERYEAGMQVRRAVLGDAHVDRSLKNLTPFNQEFQEMITRHAWGDIWTRPGLPRHTRSLITIAMLIGMNREGELRLHLRAAKNNGVTRDEIKEVLMQSAIYCGIPAANATFHLAEEVWDELGVESLQD	PGPT0005005_2721	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005005-pcaC-K01607	NA	NA
BMS010_07204	1731	kstD	COG1053	3-oxosteroid 1-dehydrogenase	ATGGCTCACGCCGAACTTCCCCGACTCGACTGCGACGTACTCATCGTCGGCTCGGGCGCCGCCGGGCTGGCCGCGGCGGTCACCGCCGCCTGGCATGGGCAGGAGGTCATCCTGGTGGAAAAAGACCCGGTGTTCGGCGGTGCCACGGCCTGGTCCGGGGGCTGGATGTGGTTACCGCGCAATCCACTGGCCCGCCGCGCCGGCATCGTCGAAGACATCGAGCAGCCGCGCACTTATCTGCGCCACTGCCTCGGCGAGCATTACGACGCGGAACGGGTGGACGCCTTCCTCGAAGCCTGCCCTTACATGGTCGGGTTCTTCGAGCGACACAGCCGCCTGCAATTCGCCGACGGCAACACCATCCCCGATATGTATGGCGACGCGCCGGGTGCCGCCACCGGTGGGCATCAGGTGATCGCCGCCCCCTATGACGCGCGCGAAGTGGGTTCGTTGCTGGCGCGCCTGCGCAAGACTATGCGGGAGACGTCCTTCCTGGGCATGCCGATCATGGCCGGGGCCGACCTGTCCGCCTTCCTCAACCTGACCCGCTCGGGCAAAGCCGCGCTGTACGTGGCCAGGCGTGTCACTACCCATCTTTGGCACTTGGTATGTCATGGCCGTGCCATGCACTTGGTCAACGGCGTGGCGCTGGTGGCGCGGCTGGCCAAGTCGGCCGAGGAGCTGGGTGTGCAGTTGATCGAAGCCGCCCCGGCTAAACGCTTGCTCAGCGAACACGGACGTATCTGTGGCGCGGTGGTGCAACGGGGCGACGGCGAACAGACGATCCGGGCGCGCAAAGGCGTTGTGCTGGCTGCCGGCGGATTCGCCAACGACATCCCGCGGCGCCGCGAGCTGTTCCCGCGCACGCCCACCGGCCATGAGCATCTGGCACTGCCGCCACCGGCCTGCAACGGCGACGGCCTGCGCCTGGGCGAGGCGGTGGGTGCGGCACTGAACACCGAACTCAAGTCGCCGGTGGCCTGGGCGCCGGTGTCACGCGTGCCCTATGCAGACGGCAGCGTTGGCCATTTCCCACACATCATCGACCGCGGCAAGCCGGGGCTGATCGCCGTACTGAAGAACGGCAAACGCTTCGTCAACGAAGCCGACGGCTACTACGCTTACACCGCCGCCATGGTCGAGGCGGTGCCGGAGGGTGAAGAGGTCTGCTCCTGGCTGATCTGCGACCATCGCTTCATCCGTCGCTACGGCCTGGGTATCGCCCGGCCCGCGCCGGTGCCGCTGTGGTCAGTGCTGCGCAGCGGTTATCTCAAGCGCGGCGCCAGTATCGAAGAGCTGGCCCGCCAGTGCGGCATCGACCCGCCCGGCCTGGCGCAAACGGTGAGCGAATACAACCGCCATGCGCGCCTGGGCGAAGACCCGGCCTTCGGGCGCGGCACCTCGCCCTTCAACCGGCGCAGCGGTGACGCCAACCATCCCGGCCCCAACCCCTGCGTCGCCCCCATCGAGCGCGGCCCCTTCTATGCGGTGCAGGTGGAGCCCGGCAGCTTCGCCACCTTCGCTGGCCTCAAGACCAACGGCCAGGCCCAAGTGCTGGATGCCGATGACCGCCCGATCCCCGGCCTGTACGCAGCCGGCAGCGACATGGCCAGCGTGATGGGCGGCCACTACCCGTCCGGTGGCATCAATCTGGGCCCGGCGCTGACCTTCGGCTACGTCGCCGCCCGCCACATCGCCGGCGTGCGTGCCTACGAAACCGTCCTGGAGTGA	MAHAELPRLDCDVLIVGSGAAGLAAAVTAAWHGQEVILVEKDPVFGGATAWSGGWMWLPRNPLARRAGIVEDIEQPRTYLRHCLGEHYDAERVDAFLEACPYMVGFFERHSRLQFADGNTIPDMYGDAPGAATGGHQVIAAPYDAREVGSLLARLRKTMRETSFLGMPIMAGADLSAFLNLTRSGKAALYVARRVTTHLWHLVCHGRAMHLVNGVALVARLAKSAEELGVQLIEAAPAKRLLSEHGRICGAVVQRGDGEQTIRARKGVVLAAGGFANDIPRRRELFPRTPTGHEHLALPPPACNGDGLRLGEAVGAALNTELKSPVAWAPVSRVPYADGSVGHFPHIIDRGKPGLIAVLKNGKRFVNEADGYYAYTAAMVEAVPEGEEVCSWLICDHRFIRRYGLGIARPAPVPLWSVLRSGYLKRGASIEELARQCGIDPPGLAQTVSEYNRHARLGEDPAFGRGTSPFNRRSGDANHPGPNPCVAPIERGPFYAVQVEPGSFATFAGLKTNGQAQVLDADDRPIPGLYAAGSDMASVMGGHYPSGGINLGPALTFGYVAARHIAGVRAYETVLE				NA	NA	NA	NA	NA
BMS010_07205	1269	nicP_3		Porin-like protein NicP	ATGAAAACCACCGTCACCCGTCTGCTACCCACCGCTCTGGCCCTGTCCGTCGCCGCCGCGCTGCCGGTCGGCGCCCAGGCCGCCGGCTTCGTCGAAGACGCCAAGGTCTCGCTGAACCTGCGCAACTACTACTTCAACCGCAACTTTCTCAACCACTCCGGCCCCAGCGTCCAGGGCGACGACCAGGGCCAGGCCGCCGAGTGGACGCAGAGCTTCATCCTCGATGCCCGCTCCGGCTTCACCGAAGGCACCGTGGGCTTCGGTCTCGATGCCCTGGGCCTGTACTCGTTGAAGCTCGACGGCGGGCGCGGCACCATGGGCAGCCAACTGCTGCCGGTCCATGGCACCGGCAACGACCGCCACGCCCCGGACGATTTCGGCCGCATCGCCGTCGCCGCCAAGGCGAAGGTCTCCAAGACGGAACTGAAAGTGGGCGAATGGTTCGCCGTCCTGCCGATCCTGCGCGCCGACGACGGCCGCTCGCTGCCGCAGACCTTCCAGGGCGCGCAGATCACCTCCAACGAGATCGACGGCCTGAGCCTGTACGGCGGCCAGTTCCGCAAGAACAGCCAGCGTAACGATGCCAGCCGCGAAGACATGTCCTACAGCGGCTTCGAATCCGACCGTTTCAACTTCGTCGGCGGCGAATACCGCTTCAACGGCGACCGCACCCTGGTCGGCCTGTGGCGCGCCGAGCTGGAGGACATCTATGAGCAGAACTACCTGCAACTGACCCACAGCCAGCCGGTCGGCGACTGGGTGCTGAGCGCCAACCTCGGCTACTTCAACGGCAAGGACAACGGCTCGGCCAAGGCCGGCGAGCTGGACAACAAGGTCTACCAGGGCAGCTTCTCCGCCAAGACCGGCAACAACACCTTTACCGTGGCATACCAGAAACTCGGCGGTGACACCAAGTTCATGCGCGTGGACGGCACCAGCGGCGGCTCACTGGTCAACGACGGCTTCACCAACAGCTACGACAACCCCAACGAGCGCTCCTGGCAGTTGCGCCACGACTACAACTTCGCCGGCCTCGGCATCCCCGGCCTGACCCTGATGAACCGCTACGTCAACGGCGACCACATCCACACCGGCGGCCGCACGGATGCCGAGGAATGGGGCCGCGAGTCGGAGCTGGCCTACACCATCCAGGACGGCAGCCTGAAGAACCTCAGCATCCGCTGGCGCAACTCCGACGTACGCCGCGATGTCGGTGCCGACCTGCACGAGAACCGGTTGATCATCAACTACCCGTTCTCGCTGCTCTGA	MKTTVTRLLPTALALSVAAALPVGAQAAGFVEDAKVSLNLRNYYFNRNFLNHSGPSVQGDDQGQAAEWTQSFILDARSGFTEGTVGFGLDALGLYSLKLDGGRGTMGSQLLPVHGTGNDRHAPDDFGRIAVAAKAKVSKTELKVGEWFAVLPILRADDGRSLPQTFQGAQITSNEIDGLSLYGGQFRKNSQRNDASREDMSYSGFESDRFNFVGGEYRFNGDRTLVGLWRAELEDIYEQNYLQLTHSQPVGDWVLSANLGYFNGKDNGSAKAGELDNKVYQGSFSAKTGNNTFTVAYQKLGGDTKFMRVDGTSGGSLVNDGFTNSYDNPNERSWQLRHDYNFAGLGIPGLTLMNRYVNGDHIHTGGRTDAEEWGRESELAYTIQDGSLKNLSIRWRNSDVRRDVGADLHENRLIINYPFSLL	PGPT0023610_3	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-GALLATE_RESISTANCE,PGPT0023610-galP-K16517	NA	NA
BMS010_07206	1002			hypothetical protein	ATGCTCAAAGCCTTACTGACCGGCGCCGCTCTCGGCCTCAGCGCGCTGACCCTGGCCCTGCCGGCCCACGCCGACTATCCCGAGCGCAGCATCCAGGCGGTGATTCCCTGGGGTGCCGGCGGTGCCACCGACAACGTGATGCGCAGCCTGACCCCCTACGTGGAGAAGGAGCTGGGCGGCAAGTTCATCCTCAACAACCGCCCGGGCGGCACCGCCGTGATCGGCAGCACCTACGTCATGCAGCAGCGCCCCGACGGCTACACCATCCTGCTCGGCGCCGAAAATCCACAGCTCTACCCGGTGCTGAAGCTGGCCACGTTCGACTACAGCGATTTCTACCCGATCAACATCATCGGCCAGAACGTGGTGGTAATCGCCGCCCCCGCCGACGCGCCGTTCAGCACCATGGCCGAACTGCTGGCCGCCGCCAAGGCCAACCCGGACACCCTGCGCATGGGCACCACCGGCGCCGGCGGCCTGCCGAGCACCGTACATGCGATGATCAACGCGGTGGACGAACTAAAGGTGCGTGAAGTGACCTTCGGCGGCGACGGCCCCGGCATCACCGCGCTGATGGGCAAGCACATCGACTTCATGCCGCTGAGCCTGGCCGCCGCCAAGGAACTGGTGCGCACCGGCAAGCTCAAGGCCCTGGCCGTGCTGACCACCGAGGAAGTACCCGAGCTGCCGGGCGTCGAGCCGATCACCAAGGCCCTGCCGGCAATCTCCGAATACCTGCCGTGGGGTCCGTTCTGGGGCGCCTTCGTGCGCAAGGACACGCCGGACGACGTCAAGCAGAAGCTGGTCGACGCCTACGCCAAGGCCGTGGCCAACGACGAGTTCCAGGGCTTCCTGAAGAACTTCGGCGCGCACAGCCTGAACCTCACCGGCGCCGAGGCCGAGGCGTTCCTCAAGCGCTGGCAGTCGGTCACCGCCTGGTCGATGTACAAGGCCAAGGCCATCGACATCGCGCCCGACTCGGTCGGCATCGCCAAGCCCTGA	MLKALLTGAALGLSALTLALPAHADYPERSIQAVIPWGAGGATDNVMRSLTPYVEKELGGKFILNNRPGGTAVIGSTYVMQQRPDGYTILLGAENPQLYPVLKLATFDYSDFYPINIIGQNVVVIAAPADAPFSTMAELLAAAKANPDTLRMGTTGAGGLPSTVHAMINAVDELKVREVTFGGDGPGITALMGKHIDFMPLSLAAAKELVRTGKLKALAVLTTEEVPELPGVEPITKALPAISEYLPWGPFWGAFVRKDTPDDVKQKLVDAYAKAVANDEFQGFLKNFGAHSLNLTGAEAEAFLKRWQSVTAWSMYKAKAIDIAPDSVGIAKP	PGPT0017360_747	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017360-tctC-K07795	NA	NA
BMS010_07207	1515			hypothetical protein	ATGACCGAGACCCTTTCCTACCTGCTGATGGCCTGGAGCGACCCGCAGCTGTTGCTGCTGACCGCCCTGGGGACCTTCGCCGGCATCTATATCGGCGCCATCCCGGGCCTGTCGGTGACCATGGCGGTGTCGATCCTGGTGTCCTTCACCTTCTCCTGGGAGGTCAACGATGCCCTCGCACTGATCGTCGGCATCTTCATCGGCGGCGTCTACGGCGGCTCGCGCAGCGCCATCCTGCTGAACATTCCCGGCGCACCGTCTTCCGTGGCGACGGCCTTCGACGGTTATCCGCTGGCCCAGCAAGGCGAAGCGGGACGCGCCATCGGCCTGAGCACGGTGATGTCGGTGATCGGCGGGCTGGTCGGCACGCTGGTCCTGGCCAGCGCCGCGCCAGTGATCGGCGACCTGGCCTTGCGTTTCGCCCCGCGTGATTACTTCCTGGTCGCTGCCATCGGCCTGCTGCTGGTCGGCAGCCTCGCTGAAGGCTCGCTGGCCAAGGGCATCTTCGCCGCCGCGCTGGGCGCCATCATCGGCCTGGTCGGCATGGACCCGGTGACCGCCCAGGGGCGTTTCACCCTGGGGCAGGTCGAGCTGATGGGCGGTATTCACTATGTGGTACTGATGATCGGTCTGTTCGGCGTGGCCGAGGCCTTCTATCAGTTGCACAACCTCGACACGCCGCCAGTGCGGCAGAAGGTGGACAAGATCATCCCCTCCCTCGCCATGGTGCTGAAGTTCCTGCCGCTGTCGGTGCGCACCTCGTTCATCGGCGTGGTGGTCGGCGTGCTGCCGGGCGTCGGCGGCGACATCGCCGCGCTGATGGCCTACGACCATGCCAAGCGCACCGTGAAGAACCCCACCAAGCCGTTCGGCAAGGGTGCCTACGAGGGCCTGGTGGCGCCGGAAACCGCCAACAGCGCGGCGGTTGGCGGAGCCTACGTACCCATGCTGACCCTGGGCATGCCAGGCGACGCGGTGACTGCGGTGATCATCGGCGCGCTGGTGATCCACGGCCTCAACCCCGGCCCGATGCTGATGGTGGAGAACCCGCACATCTTCTGGTTCACCGTCGGCAACCTGGCCCTGGCCAACATCTTCCTGCTGGTCTTCGGCCTGATGGGCATCAAGCTGTTCGCCAAGTTCGTCGAAATGCCCAAGGCCGTGCTGATCCCGCTGATCCTGGTGCTCTGCGTGGTCGGCACCTACTCGATCAACAGCAGCATGACCGAAGTGTACTGGATGCTCGGTTTCGGCCTGCTCGGCTATCTGCTGAAGATCTTCGGCTTCCAGATGGGCCCGATCATCCTCGGCGCCATCCTCGGCCCGCTGATGGACACCTCGTACCGCCAGGCCATGTCCTCGGTGGGCGACAACCCTGTGGAGCTGCTGCGCGAGCTGGTCACCAGTCCGCTGTCGCTGATCCTCACCAGCGCCGTGGTGCTGATCCTGCTGGGCAACACCTCGCTGCTGAAGAAACTCAAGTGCAAATGCAAGGCCGCCATGGCTCGCGGCTGA	MTETLSYLLMAWSDPQLLLLTALGTFAGIYIGAIPGLSVTMAVSILVSFTFSWEVNDALALIVGIFIGGVYGGSRSAILLNIPGAPSSVATAFDGYPLAQQGEAGRAIGLSTVMSVIGGLVGTLVLASAAPVIGDLALRFAPRDYFLVAAIGLLLVGSLAEGSLAKGIFAAALGAIIGLVGMDPVTAQGRFTLGQVELMGGIHYVVLMIGLFGVAEAFYQLHNLDTPPVRQKVDKIIPSLAMVLKFLPLSVRTSFIGVVVGVLPGVGGDIAALMAYDHAKRTVKNPTKPFGKGAYEGLVAPETANSAAVGGAYVPMLTLGMPGDAVTAVIIGALVIHGLNPGPMLMVENPHIFWFTVGNLALANIFLLVFGLMGIKLFAKFVEMPKAVLIPLILVLCVVGTYSINSSMTEVYWMLGFGLLGYLLKIFGFQMGPIILGAILGPLMDTSYRQAMSSVGDNPVELLRELVTSPLSLILTSAVVLILLGNTSLLKKLKCKCKAAMARG	PGPT0017350_1736	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017350-tctA-K07793	NA	NA
BMS010_07208	471			hypothetical protein	ATGAACAAGACAGACAAGATGCTGGTCGGCGAACGCACCTTCTGCGTCCTGCTGCTGGCCTTCAGCCTGGTCATCCTTTATCTGGCGTACCAGATCGCCGGCTTCTCCTCGATCAACTCACCGGGCGCCTTCCCGCTCGGCGTCGCGCTGGTAATGATCATCTCGGCGGCGAAGATTTGCATCGACCTGATCGGCAAGGCCAGACCCGACTGCAACGGCTGGCTCGACGCCATGCAGCAGTTCCGCCGCCAGCATTTCCCCAAGCGCACGCTGATCTTCGCCGCCCTGGCCGTGACGTATCTGGTGGCCATCCAGTGGATCAGCTTCTACGCCAGCACCTTCTGCTTCCTGGTGCTGTCGATCGTCTACCTGCGCGGTGGCCGGATAGCCGGTGCCCTGCTGGTCGCCGCCCTGTTGTTGTTATTGATCTACCTGCTGTTCACCCTGGCGTTCAGCGTTTACCTGCCATAA	MNKTDKMLVGERTFCVLLLAFSLVILYLAYQIAGFSSINSPGAFPLGVALVMIISAAKICIDLIGKARPDCNGWLDAMQQFRRQHFPKRTLIFAALAVTYLVAIQWISFYASTFCFLVLSIVYLRGGRIAGALLVAALLLLLIYLLFTLAFSVYLP	PGPT0017355_1640	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017355-tctB-K07794	NA	NA
BMS010_07209	777	iclR	COG1414	Transcriptional repressor IclR	ATGGCCGGAAGTCAGATCGAACGCGCCCTCAGTCTTCTCGAAAGCCTCACCCGCGACGCCCGTGGCCTGCCCATGCAGAGCCTGGCCGACGAACTGGGAATTCCCAAGAGCGCCACCCACCGCATGCTCGCCGATCTTGTGCGCCTGGGCTATGTGCGCCAGGACCCGCAGACCAGCCGCTATCGCCTTTCCACCAAGCTGGTGGCGTTGGGCTTCCGCTATCTGGCCAGCAGCGGCGCCGATGTGGTGCAACCGATCCTCGATCGCCTTGCCGAAGCCAGCGGCGAGCTGGTGCGCCTGGGAGTGATCGATGGAGATCGGCAGACCTGGATCGCCAAGAGCCAGGGGGCCCGCTCTGGCTTGCGCTACGACCCGGACATGGGGCGCGACGCGCCGCTGTTCTATACCGCGTCCGGCCACGCCTGGCTGGCCAGCATGAGCGACGCCGAGGCTCTGGCGCTGGTGGAGCGGCAGGGCATCGCCGATCCGGCCGAGTTCGGCCCCAATGCGCCGCGCAGCAGGGATGAGTTGCTCGAACGCCTGGCCCTGGCCCGCCGGCAGGGCTATGCCTGGGTGATGGAAAGCGCCGCCCTGGGCACCGCCGCGCTGGCCGCGGTGGTCCGCCATCCTTTGGAAGGACGGGTCATCGGCGTGCTCAGCATCGCCGGACCCAGCGCCCGCTTGCCGCTGACGCGTCTGCACGAGCTGGCGCCGCAGCTGCTGGCCGCCGCCGAGGAACTCTCCGCCGCCAGCCCAGCCTCCGAACTGTTCGCCTGA	MAGSQIERALSLLESLTRDARGLPMQSLADELGIPKSATHRMLADLVRLGYVRQDPQTSRYRLSTKLVALGFRYLASSGADVVQPILDRLAEASGELVRLGVIDGDRQTWIAKSQGARSGLRYDPDMGRDAPLFYTASGHAWLASMSDAEALALVERQGIADPAEFGPNAPRSRDELLERLALARRQGYAWVMESAALGTAALAAVVRHPLEGRVIGVLSIAGPSARLPLTRLHELAPQLLAAAEELSAASPASELFA	PGPT0000860_5	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ALLANTOIN_USAGE	N-AQUISITION-ALLANTOIN_METABOLISM,PGPT0000860-allR-K10973	NA	NA
BMS010_07210	1050	iolG_8	COG0673	Myo-inositol 2-dehydrogenase	GTGACTTCCCCCCTGCGTATCGCCCTGATCGGCGCCGGTGTCATGGGTCAGCAACACCAGCAGCACATGCAGAGTCTGGCCGAGGCCGAACTGTGCGCGGTTGCCGACCCTGGTCCCCAGGCCGCCGCGTTCGCCACCGCCTGCGGCGTGCCGTACTTCGCCGACCACCGCCAGATGCTCGCTGAGATGCGCCCCGAAGCGGCCATCGTGGCTAACCCCAATGCCCTGCATGTCGCCACTGCATTGGATTGCCTCGCCGCTGATGTGCCGGTGCTGCTGGAGAAGCCGGTGGGCGTGCGCCTGGATGAAGTGCGCGGGCTGGTGGCCTGCAGCCAGGCGAGCGGCGTGCCGGTACTCGTCGGCCATCATCGGCGGCACAACCCGCTGATCGCCCGCGCCCGCGAGCTGATCGAGCAGGGCGCGCTCGGCCGGCTGACCACCGTCACGGCGCTGTGGCAGTTGCAGAAGCCCGACAGCTATTTCGACATCCCTTGGCGCCGCGAGGCCGGGGCCGGGATGTTGCTGACCAACCTGATCCACGACCTCGACTTGCTGCGTCACCTGTGCGGCGAGGTGCGCCAGGTCCAGGCCATCACCCATAACGGCGTGCGCGGCTTCGCCAACGAGGACAGCGCCGCCATCCTGCTGCAATTCGAGGGCGGCGCCCTGGGTAGTCTGACCGGTTCCGACGCGGTCGCCGCGCCCTGGAGCTGGGAACTGGATTCCGGCGAGAACCCCGTCTACCCGCTCCAGGCGGACCAGCCCTGCTACCTGTTGGCCGGGACCCGCGGCGCGCTGAGCCTTCCGCAGCTCAAACGCTGGCACTACGCCGAGGACGGCGCCGGCTGGCACCAGCCCTTGCAGCAGGTACAGGAAACCGTGGACGGCGAAGCGGCGCTGCGCCGCCAGTTGCGGCATTTCGTCCAGGTCGCCCGTGGCCGGGCACAGCCGCTAGTCAGCGCCCGGGACGCCGGGCGTACCCTGGCCTTGGTCGAGGCCATCCGCCAGGCCGCCGAAACCGGGCGCGCCTGTGCCCCGCAGATCATCTGA	MTSPLRIALIGAGVMGQQHQQHMQSLAEAELCAVADPGPQAAAFATACGVPYFADHRQMLAEMRPEAAIVANPNALHVATALDCLAADVPVLLEKPVGVRLDEVRGLVACSQASGVPVLVGHHRRHNPLIARARELIEQGALGRLTTVTALWQLQKPDSYFDIPWRREAGAGMLLTNLIHDLDLLRHLCGEVRQVQAITHNGVRGFANEDSAAILLQFEGGALGSLTGSDAVAAPWSWELDSGENPVYPLQADQPCYLLAGTRGALSLPQLKRWHYAEDGAGWHQPLQQVQETVDGEAALRRQLRHFVQVARGRAQPLVSARDAGRTLALVEAIRQAAETGRACAPQII				NA	NA	NA	NA	NA
BMS010_07211	816			hypothetical protein	ATGAACGACCCGATCCTCTCCCTCGCCGCCCTGACCGTGCTCGAACTGTCGCCACCGCAGATGGTCGAGGTGGCTGCCCGTGCCGGCTACAGCCATGTCGGCCTGCGTCTGGTCCCGGCGACGCCGGAAGAGCAGCACTTTCCGCTGGTCACCGATGCCGGCTTGCGTCGGCAGACCCTGCAACGCCTGCGCGATACCGGCCTGCGCGTGCTCGATGTGGAAATCCTGCGCCTGAAGCCGGAAACCCGCGTGGCCGAGTTCGACGCCGTGCTTGCGGCCGGCGCCGAACTGGGAGCCAGCGAACTGCTGGTGGCCGGCAACGACCCGGACGAAGCGCGTCTGATCGCCAACTTCGCCGCCCTCTGCGATCTGGCCGCGGGCTATGGCCTGCATCCGCACTTGGAGTTCATGCCCTGGACCGACGTGCGCGACCTGCCCCAGGCGACGCGTATCGTCGCTGCCGCCGGGCGCGACAACGGTTGCGTGTTGGTCGACGCCTTCCATTTCGACCGCTCCGCGTCGCGCCTGCGGGACCTGGCCGCCTTGCCGCCCGAACGCCTTCGCTACGCCCAACTATGCGATGTGGCCGGCCCGCGCCCGGACGACATGGACGAGATCCTGCGCCAGGCGCGCAACGAGCGGCGCTTTCCTGGCGATGGCGACTGCGACCTGCTCGGCCTGCTGCGCACGTTGCCGACGGGTATCCCGCTGAGCTTGGAAATTCCCACCCGACAGTTGCTGGAGCAGGGCGTCAGTGCGTTGGAACGGGCGCAGAGGGCGCTGGACAAGGCACGCACGCTGCTGGCGCGTCTCTGA	MNDPILSLAALTVLELSPPQMVEVAARAGYSHVGLRLVPATPEEQHFPLVTDAGLRRQTLQRLRDTGLRVLDVEILRLKPETRVAEFDAVLAAGAELGASELLVAGNDPDEARLIANFAALCDLAAGYGLHPHLEFMPWTDVRDLPQATRIVAAAGRDNGCVLVDAFHFDRSASRLRDLAALPPERLRYAQLCDVAGPRPDDMDEILRQARNERRFPGDGDCDLLGLLRTLPTGIPLSLEIPTRQLLEQGVSALERAQRALDKARTLLARL				NA	NA	NA	NA	NA
BMS010_07212	1908			hypothetical protein	ATGCAGCGTTCTATCGCCACCGTCTCTCTGAGCGGCACCCTGCCGGAAAAACTCGAAGCCATCGCTGCCGCCGGTTTCGACGGCGTGGAAATCTTCGAGAACGACCTGCTCTATTACGACGGCAGCCCCACCGAGATTCGCAAGCGCTGCGCTGATCTCGGCCTGGCCATTACCCTGTTCCAGCCGTTCCGCGACTTCGAGGGTTGCCGCCGTGACCGCCTGCCGCGCAACCTCGACCGCGCCGAGCGCAAGTTCGATCTGATGCAGGAGCTGGGCACCGACCTGGTGCTGGTGTGCAGCAATGTTGCCGCCGACGCGCTGGGCGACGAGGAAATCCTGGTCGACGACCTCCGCCTGCTGGCCGAGCGTGCCGGTGCCCGTAGTCTGCGCATCGGCTATGAGGCTCTGGCCTGGGGTCGCCACGTCAACACTTGGCAGCAGGTATGGAAGCTGGTGAGCCAGGCCGACCATCCGGCCCTGGGGATGATCCTCGACAGTTTCCACACCCTGTCGATCAAGGGCGATCCGAGCGCCATCGCCGAGATTCCCGGCGACAGGATCTTCTTCGTGCAGATGGCCGACGCGCCGATCCTGGCCATGGACGTGCTGGAGTGGAGCCGGCATTTCCGTTGTTTCCCGGGGCAGGGCGAGTTCGACCTGGCCGGCTTTCTCGCGCCGATCCTGCGCACCGGCTACCGTGGGCCGCTGTCACTGGAAATCTTCAATGACGGCTTCCGTGCCGCGCCACCCCGGCAGAACGCCGCCGATGGCCTGCGTTCGCTGCTCTACCTGGAGGAGAAGACGGCCAAGCACCTGGAGAAAGAAGGCGCGGCGATCGAACCCGGCGTGCTGTTCACCCCGCCGGCGGCCAGCCGCTACGACGGCATCGAATTCCTCGAGTTTGCCGTCGACGAGGCAGTCGGCGCGCGCCTGGCCGGCTGGCTGGAACGCCTGGGCTTCGCCCGCGCCGGCCAGCATCGCTCCAAGGACGTCAGCTTGCTGCGCCAAGGCGATATCAACATCGTGCTCAACGCCGAACCCTATTCCTTCGCCCACAACTTCTTCGAAGCCCATGGCCCGTCGCTGTGCGCCACCGCGCTGCGGGTGAAGAACGAGACCGCCGCATTGCAGCGCGCCTGCGACTACCGCGGCCAGCCCTATCGCGGCCTGGTCGGCCCCAACGAACGGGAAATCCCCGCCGTGCGTGCCCCGGATGGCAGCCTGATCTACTTGGTGGAGCGGGCTGGCGAAGGCCAGACCATCTACGACATCGACTTCAGCCTGGACAAGGACGCCGAGGCCAAGGGCGGCCTGCAGCGCATCGACCATATGGCCCTGGCCCTGCCGGCCGAGTCGCTGGACAGCTGGGTGCTGTTCTACAAGAGCCTGCTGGACTTCGAGGCCGACGACGAGGTGGTGCTGCCCGACCCCTACGGGCTGGTCAAGAGCCGCGCGCTGCGCAGCCGCTGCAGCTCGGTGCGCCTGCCGCTGAACATCTCGGAAAACCGCAACACTGCCATTGCCCATGCTCTGTCCAGCTACCGCGGCTCCGGCGTGCACCATATTGCCTTCTCCTGCGACGACATCTTCGCCGAGGTGGCGCGGGCCAAGGAGGCGGGCGTGCCGCTGCTGGAAATCCCGCTGAACTATTATGACGACTTGGCCGCGCGCTTCGATTTCGACGATGAATTCCTCAGCGAACTGGCCTACTACAACGTGCTTTACGACCGCGACGCCCAGGGCGGAGAGTTGTTCCACGTGTACACCGAGCCGTTCGAGGAACGCTTCTTCTTCGAGATTATCCAGCGCAAGAACGGTTATGTCGGTTACGGCGCGGCCAACGTCGCGGTACGCCTGGCGGCCATGGCCAAAGCGCGCAGCGGTGCGACCCGGCGTCCATGGCTGTGA	MQRSIATVSLSGTLPEKLEAIAAAGFDGVEIFENDLLYYDGSPTEIRKRCADLGLAITLFQPFRDFEGCRRDRLPRNLDRAERKFDLMQELGTDLVLVCSNVAADALGDEEILVDDLRLLAERAGARSLRIGYEALAWGRHVNTWQQVWKLVSQADHPALGMILDSFHTLSIKGDPSAIAEIPGDRIFFVQMADAPILAMDVLEWSRHFRCFPGQGEFDLAGFLAPILRTGYRGPLSLEIFNDGFRAAPPRQNAADGLRSLLYLEEKTAKHLEKEGAAIEPGVLFTPPAASRYDGIEFLEFAVDEAVGARLAGWLERLGFARAGQHRSKDVSLLRQGDINIVLNAEPYSFAHNFFEAHGPSLCATALRVKNETAALQRACDYRGQPYRGLVGPNEREIPAVRAPDGSLIYLVERAGEGQTIYDIDFSLDKDAEAKGGLQRIDHMALALPAESLDSWVLFYKSLLDFEADDEVVLPDPYGLVKSRALRSRCSSVRLPLNISENRNTAIAHALSSYRGSGVHHIAFSCDDIFAEVARAKEAGVPLLEIPLNYYDDLAARFDFDDEFLSELAYYNVLYDRDAQGGELFHVYTEPFEERFFFEIIQRKNGYVGYGAANVAVRLAAMAKARSGATRRPWL	PGPT0009480_69	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0009480-hppD-K00457	NA	NA
BMS010_07213	669	nicS_4		HTH-type transcriptional repressor NicS	ATGAGCGATACCGCAGAGAGCCTCGCACCTGCCAGTGAAGTGGCGCGCAAGGGACGCAAGAACAACCCGGAAAGGACCCGCGAGAGCATCCTGCGCGCGGCCATCGACGAGTTCGTCCGACATGGCCTGTCCGGCGCGCGGGTGGACGCCATCGCCGAGCGTACCCACACCTCCAAGCGGATGATCTACTACTACTTCTCCAGCAAGGAGCAGCTTTACCTGGCGGTGCTGGAGAAGCTCTACGGCGACATCCGCAGCACCGAATCCAAGCTGCACTTGGGCGAACTGACACCGCCCGAGGCGATTCGCCGGCTGATCGAATTCACTTTCGATCACCACGACCGCAACGTCGATTTCGTGCGCATCGTCAGCATCGAGAACATCCATCACGGCGAGCACATCACCCGTTCCGAAGTGATCCCGACCCTGAACAACTCTGTGCTCGAAGCCATCGCCGACATCCTCCGCCGCGGCGAGGCCGAGGGCCTCTTCCGCAGCGGCTTGAACCCGCTGGACATCCACATGCTGATCAGCTCGTTCTGCTTCTACCGGGTGTCCAACCGCCACACCTTCGGCACTATCTTCCAGATCGACTTGTCCGCTGAGAGCATCAAGCAGCGGCACAAAGAGGTGATCTGTGAGTCGGTGTTGCGGTATATGCAGGCTTGA	MSDTAESLAPASEVARKGRKNNPERTRESILRAAIDEFVRHGLSGARVDAIAERTHTSKRMIYYYFSSKEQLYLAVLEKLYGDIRSTESKLHLGELTPPEAIRRLIEFTFDHHDRNVDFVRIVSIENIHHGEHITRSEVIPTLNNSVLEAIADILRRGEAEGLFRSGLNPLDIHMLISSFCFYRVSNRHTFGTIFQIDLSAESIKQRHKEVICESVLRYMQA				NA	NA	NA	NA	NA
BMS010_07214	852	aroE_3		Quinate/shikimate dehydrogenase (NAD(+))	ATGTCCGCTGCCCAACCCAGCATCCTAGCCGGCCTGATCGGTGCCGGCATCCAGGCTTCGCGCACGCCGGCCCTGCACGAACGCGAGGGTGATGCCCAGGAGCTGCGCTACCTCTACCGGCTGATCGACCTGGACGCGCTCGGCCTCGACGCCAGCGCCCTGCCCCACCTGCTCGACGCCGCGCAGCACATGGGTTTCACCGGGCTGAACATCACCTTCCCATGCAAACAGGCAGTCATTCCGCTGCTCGACGAACTGTCGGACGAGGCGCGCAGTATTGGCGCGGTGAACACCGTGGTCTTCAAGGATGGAAAGCGCATCGGTCACAACACCGACTGCCTTGGTTTCGCCGAGGGCTTCCGACGCGGCCTGCCGGACGTGCCGCGGCGGCGGGTGGTGCAGATGGGCGCCGGCGGCGCCGGGGCCGCGGTGGGCCATGCCTTACTCAGCGAGGGCGTCGAACAGCTGAGCCTGTTCGATGTCGAGCCGGCGCGCGCCCAGGCCCTGGCGGACAACCTCAACCAGCACTTCGGCGCGGGCCGCGCGCGGGTCGGCAGTGATCTGCCGTCGGCCATGGCCGTGGCCGACGGCCTGGTCAACACCACCCCCATGGGCATGGCCAAGCTGCCCGGCACGCCGGTGCCGAAGGCATTGCTGCGCCCGGCGTTGTGGGTCGCCGAGATCGTCTATTTCCCGCTGGAGACCGAGCTGCTGCGCGATGCCCGCGCCCTTGGCTGCCGGACGCTGGACGGCGGCAACATGGCGGTGTTCCAGGCGGTCAAGGCGTTCGAGATGTTCAGCGGCCGGGAGGCCGATGCCCAGCGGATGCTGGCGCATTTCGCCAGTTTTTGA	MSAAQPSILAGLIGAGIQASRTPALHEREGDAQELRYLYRLIDLDALGLDASALPHLLDAAQHMGFTGLNITFPCKQAVIPLLDELSDEARSIGAVNTVVFKDGKRIGHNTDCLGFAEGFRRGLPDVPRRRVVQMGAGGAGAAVGHALLSEGVEQLSLFDVEPARAQALADNLNQHFGAGRARVGSDLPSAMAVADGLVNTTPMGMAKLPGTPVPKALLRPALWVAEIVYFPLETELLRDARALGCRTLDGGNMAVFQAVKAFEMFSGREADAQRMLAHFASF	PGPT0012890_2006	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-PHENAZINE_DERIVATES	BIOTIC_STRESS_RESISTANCE-PHENAZINE-1-CARBOXYLIC_ACID_BIOSYNTHESIS,PGPT0012890-aroE-K00014	NA	NA
BMS010_07215	441	aroQ_2	COG0757	3-dehydroquinate dehydratase	ATGACGCCCTGCATCCTGGTGCTCAACGGCCCCAATCTGAACCTACTCGGAGCCCGCGAACCGGCCACCTATGGTCATGAGACGCTCGCCGATATCTCCCGCCTGTGCGCCGACACCGCGGCCGAGTGCGGACTGAGCATCGAGTTCCGCCAGACCAATCACGAAGGCGAGCTGCTCGACTGGATTCACGGCGCACGCGGGCGCTGCGCCGGCATCCTGATCAATCCGGCAGCCTGGACCCATACCTCGGTGGCCATCCGCGACGCGCTGGTGGCCAGCGAACTGCCGGTGCTCGAAGTGCACCTGTCCAACGTGCACAAGCGCGAGCCCTTCCGCCATCACTCCTTCGTCTCGCCGATCGCCGTCGGGGTGATCTGCGGTCTCGGCAGCCAGGGATACCGCCTGGGGCTGCAGTACTTCAGTCAATTGTTCAAGGGATGA	MTPCILVLNGPNLNLLGAREPATYGHETLADISRLCADTAAECGLSIEFRQTNHEGELLDWIHGARGRCAGILINPAAWTHTSVAIRDALVASELPVLEVHLSNVHKREPFRHHSFVSPIAVGVICGLGSQGYRLGLQYFSQLFKG	PGPT0012905_2719	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_QUINATE_CATABOLISM,PGPT0012905-aroQ|qutE-K03786	NA	NA
BMS010_07216	285			hypothetical protein	ATGAACGATCCCCTCGCACTATGGCTCAACGAATGGGGCGAGTGGCTAGACAAGCTTCTGACCACCGGCCTCGCCAATCCGACACGGGAGACCCGCGCCCGAATCGAGCGCTGGTGCGCAGATGCAGAAGCCCTTGGCTTCCGAGATCAACAGGCAGCGGCTCGCACAATGCTCGCCGACGACACGCCGGCCACCCAGCGCGCCAAGGCCTTCCTAGGTCTTTTGCTGGAGCAGGATATGCTCACCCGCCTGCTAGAGGCCGGCCATCTAGTCGAAGAGCGTTGA	MNDPLALWLNEWGEWLDKLLTTGLANPTRETRARIERWCADAEALGFRDQQAAARTMLADDTPATQRAKAFLGLLLEQDMLTRLLEAGHLVEER				NA	NA	NA	NA	NA
BMS010_07217	1734			hypothetical protein	ATGAGCCTGCGCGACTGGCTGCGCACCGTGGACGACGACACCCTGGTGGCCTGGGCGAACCGGGGCCTGCTGCGACGCGGACAAAAGCTGCTCGAAACCCAGGCGCCCGGCGGCTGGAAGCTGGAGGCGGAGCGTGCCAGCGCCGAGATCGACGGTCATCGGCAGACGGTGGACGGCGTCGGCTTCGCGCATCTGGCCTGCACCTGCCCCGCCATGGGGCCGTGCCATCACCTGCTGTGCTTCCTGCTGGGCCTGCGCCAACGCCTAGCAGCAGAGGCGAGCGACGCTCGGCCCGATAACGCGGCCGTACCGGCTACCACGGCGACTCCGGTTCCCGGGCCCCAGGCCTCCGCGACCTCGACCGCTGGGGCTGCAGCCCCCCCGACGCCCGCCGCCGATTCGCCCGCTGCTGAACCCTGGCTGATCCTCGACCCCGACGCGCGCCTCGCCGCACTTGGGCGTCCCGCCCTGACCCGTGCCCAGCGCTGGCTGGCCCAGGGCCTGAGCGCGGAGGTGGCGATAGCCGCCGACAAGCTCGTCGCCACTCTCAACGCGCCCGAGGATGCTCGCCTCACGATTCCCCGCACTGGCGGCCTTGCCGCGTCGGTCTGCTCCTGCAGGGAAAGCCGCTGTGCCCACCGGGCGCTGGTCGTCCTTCAGCTCGCCCGCGACGCCAGCCCGGACGATGCCGCCACCCTCGGAACCGTCGAGGCCCTGGGCGAGTACCGGCTCGCCACCCTCGAGGCCCTGGATGGCTGGCTGGCGGAACTCGCCACCCTCGGCATGAACGGCGCCTCGGCCCTGCTCGTGGCCCGGGGCGAGGCGCTCGCCACCGAGCTGGTGCAGGCTGACCTCCCACATCCGGGCCGCATGCTGAGCCGCCTGGCCCGGGCCCTGGACGACGAGCGCCGCGCCATGGCAGGCAACAGCGTGGCCAGGGTGCGTCGCCAATTGGCGGAGCTGGTGGCCCACCGCCGGGCGCTGGCCCGCAGCCCCTTGCCCCAGCCACTGCCGCGCCTGGCGGGCGTCCATCGCCGCAGCTTCTCGCCGCGTTCGAATCTCGCCCTGATCTGCGTGGCGGCGGAGTGCTGGGAGACGACCAGCGGTTTTCATGGCTTCAGCCTGCATTTCCTCTCGTCCTCGGACGGCCGCGCCTACAGCTTGTCCGAGGCCCGCGCCCTGGCCCTGGATCCCACATGGCATCCTGCAAAGGCATTGGCTGCCGCAACATTTGCCGGCCATCGGGTCACTGCCCTGCCCGGTATGGCCTGCCTGCTGGAGAAAGGTTGGGTAAGTGAAGACGGACGGCTCGCCAGTCGAGAGGGTACCCGACTGCGGATAGAAGGGCCGGTTGGTGCGGATACATTGCGCATGCTCGCCGAATCCCCCACCGACCGCCTGTACCGTGTCGCCGAGCATCGTATCACTTGGCTGTATCGCCCCGATCCTCATCCCTGGGGTGTGACCGCCGCCCAGATTACCGCCTTGCCTGCTTTCGACCGTTTCGCCCAACGCTGGATGGGCAAGGCCACAAGCGACGAAGGAGAGCCCTTCTCCATCGTCCTCCCTGGATCGGCGGCCGGCACCCGGGCTGCGGAACTCCTGCAGCGGACGGGCACTGCCTGCGTCTGGTTATTCGGTCGATGGAGCGTGGAGCAGAACCAGGCCGTTCTGGCCCCCATCGCCATTGGCAGCCCCAAAGGCAACCTCGTGCAACTCTTTACGGAGATATGA	MSLRDWLRTVDDDTLVAWANRGLLRRGQKLLETQAPGGWKLEAERASAEIDGHRQTVDGVGFAHLACTCPAMGPCHHLLCFLLGLRQRLAAEASDARPDNAAVPATTATPVPGPQASATSTAGAAAPPTPAADSPAAEPWLILDPDARLAALGRPALTRAQRWLAQGLSAEVAIAADKLVATLNAPEDARLTIPRTGGLAASVCSCRESRCAHRALVVLQLARDASPDDAATLGTVEALGEYRLATLEALDGWLAELATLGMNGASALLVARGEALATELVQADLPHPGRMLSRLARALDDERRAMAGNSVARVRRQLAELVAHRRALARSPLPQPLPRLAGVHRRSFSPRSNLALICVAAECWETTSGFHGFSLHFLSSSDGRAYSLSEARALALDPTWHPAKALAAATFAGHRVTALPGMACLLEKGWVSEDGRLASREGTRLRIEGPVGADTLRMLAESPTDRLYRVAEHRITWLYRPDPHPWGVTAAQITALPAFDRFAQRWMGKATSDEGEPFSIVLPGSAAGTRAAELLQRTGTACVWLFGRWSVEQNQAVLAPIAIGSPKGNLVQLFTEI				NA	NA	NA	NA	NA
BMS010_07218	1152			hypothetical protein	ATGAACGGACGTGAGCTACGGCGACGCTGGCGCCTGGTGCTCGGTCGGGACGGCGAAAGCGCCGCCCCCGATGCGCTGAATGAAACCGACCGAGGCCGGGACCAGTCCCTCGACTACCTCTATCAGCGGGAATACGCGGGACGCAGTCATGCCCCAGCGACGCACGGAGAGAAAGGCGGACGTGCCGGCGATCAGGGCGCCTCCCAACTGACTGCCGTGCGCTGGCTGGAGCGCACCCGCAACCTCTTCCCCCGCAGCACCGTGGAAATTCTCCAGCGTCAGGCGATCGAGCGCTACCGCCTGACCGCGCTCCTCAGCGACCCGGAGGTGCTGCGCAAGGCCACGCCCAACGTTGCCCTCGTCCAGACCCTGTTGAGCTTCCGCGCCTGGCTGCCGGCGAGCCTCATGGACGAGGTCCGCCGCATCATTCGCCAGGTCTGCGACGAGCTGGACCGCAAGCTTGCCCGCAACCTAACCACCCGGGTGGAAGGTCGTCGCATCCGCCACGCCCAGGGCGGGCGCCCATCCCACGTCGCCTTGGACTGGTCCCTGACTTTGCGGCGCAACCTGCGCCACTACGATCCGGAAGGGGGGGTGATGCTGCTCGAGCGCCTCTACTACAACCCGTTGCGCCAGCGCCGGGTACCGTGGGAGATCGTGCTGCTGGTGGATCAGAGCGGCTCCATGTCCGAGTCGGTGATCCACGCGGCGGTGGTAGCGGGCGTGTTCGGCCGGCTGCGCAGCCTCGCCACGCGCCTACTGCTGTTCGATACCCAGGTGGTGGACGTGAGCGACCGTCTCGCCGATCCGGTGGAGACGCTCCTCGCCGTGCAGCTCGGCGGCGGCACCGACATCGGCTTGGCCCTCGCCCACGCCGAGACGCTGATCGGCCAGCCCCGTCGCACGATGCTGGTGCTCGTCAGCGATTTCGCCGAGGGAGGCGATCCGGCCCGGATGCTCGCGACCGTGGAGCGCCTCGCCGACGCGGGCGTCGCCCTGCTGGGCCTGGCTGCCCTCGACGAGCAGGCGCAACCGGCCTACGACAAGACGATCGCCCGAGAGCTGGCGGCAAGAGGCATGGAGATCGGTGCGATGACACCCGAGCACCTGGCCGACTGGATCGGCGCCTGCATGGCGGGGAGGCGTCCATGA	MNGRELRRRWRLVLGRDGESAAPDALNETDRGRDQSLDYLYQREYAGRSHAPATHGEKGGRAGDQGASQLTAVRWLERTRNLFPRSTVEILQRQAIERYRLTALLSDPEVLRKATPNVALVQTLLSFRAWLPASLMDEVRRIIRQVCDELDRKLARNLTTRVEGRRIRHAQGGRPSHVALDWSLTLRRNLRHYDPEGGVMLLERLYYNPLRQRRVPWEIVLLVDQSGSMSESVIHAAVVAGVFGRLRSLATRLLLFDTQVVDVSDRLADPVETLLAVQLGGGTDIGLALAHAETLIGQPRRTMLVLVSDFAEGGDPARMLATVERLADAGVALLGLAALDEQAQPAYDKTIARELAARGMEIGAMTPEHLADWIGACMAGRRP				NA	NA	NA	NA	NA
BMS010_07219	2433			hypothetical protein	ATGCAGGCGCGCACCTTCCCCGACGCCGAGGCCTTCACCCGCCTGCCGGCCGCCTATGCTGCCCACCCCGGACTGACCTGGGCTCCCATCCGCCATCACAGCCCGCACTGCGCCTGGCAGTTGCGCCGCCTCATGGAGCAGATCCAGCCGGACGTGGTGCTGGTGGAAGGACCGAGCGAGGCGAACGCTCTGCTGCCCTACTTGCTGGATGCACGGACCCGCCCGCCGGTGGCCTTCTTCATCCACATGCAGCCCGAGCAGAAGCGCGGGGTGGAAGAAAGCCGGGCCGCGCTCGCCCGCTGCTTCGTGCCGCTGGCCGCCATGTCGCCGGAGTGGGTCGCGCTGCGGGAGGCCCAGCGGCTGGGCATTCCCGCACGCTTCATCGACTTGCCCTACCTCGAACGCCCGTCCGCGCAACGGTCCGATGACGAAGCGGAGCATGTCCTCGAACCACCTCACAGCGACGACCGCCTGCTCGCGCGCGCCGATGCCATGGCGACGCTGCTCGCGGTGAGCGGTTGCGAGGACTTCGAGACTTGGTGGGAGCGGCATTTCGAGAGTGGCACGGTCTACGACGACCCGGCGCCCTTCTTCACCCGCCTGCTGCATCTCGGGCAGTACCTGCGGGAAGACGCATACATCGATGAGGTAACCCGTGCCCGGGAGACCCATATGGCGGCGGCGATCGCCGAAGCCCAGGTCACCGGTACCCGCTGCCTGGTGGTCTGCGGCGCCTTCCATTGCACTGGGATCCTTGAACATCTGTCCACGCTCCATGGGGTGCCGACGTCCACGCCCGACGCGACTCCCGCCGGAGCCGCAGCCGGCGTCCACCTGGTGCCATACTCCCTCGCGCGCCTCAACGCCACCTGCGATTACGCCGCGGGGATCCCCGATTGCGGCTACCAGGCCCGCGTCTGGTCGCTCCTGTCGCGCCGCCGGGCCGAGGCGGGGGCCGTGCACGGCGAGGTCCATGCCGCTCTCGCCCCCGAGCTGGTGAACCACCTGCGCGAGCGCGGCCACGCGGCGACCCTGCCGGACGCGATCGAGGCCGTCGCGCTGGCCCGGCGCCTCGCCGCGCTACGCGGCCACGGGGTCGGCAGGCGGGAGTTGAGAGAGACGCTGATCTCCTGCGTGGTCAAGGAAACCCGCGACGGCGGTGAGCAGCGCTTCGTCGCCGACCTGGACCGCTTCCTCGCCGGCGAGGAAACGGGCCGCGTGCCGCCGGGCCTGCCCCTCGCGCCCCTGGTGGCCGATTTCCGCGAGCACTGCCGGCGCATGCGCCTGCCCCGCGCGGCCAGCGAGCCCCTGGAGCGTGCCTTGGACCTCTACCGCAGCCCCGCCCATCGGGAGCAGTCCCGCTTCCTGCACCGCCTCGCGAGCCTGGACGTGCCCTTCGCCACCCGCCTCGCAGGGCCGGACTTTTCGACGAGCGAGGATCTGCAGCGGGTACGGGAGGTCTGGTCGATCCGCTGGGTGCCGGAGACCGAGGCCTGCCTCACCGAGCGCAGCCATTACGGGGCACGGCTCCTCGACGCCGCCGTGGCGCGCTGCCTGGAGCACCTCGACACGCCGCGCCGGCCGGGAGCCGAGTGCGTGAGCCTGCTGATCGACGCGCTAGCCATGGGCTTGCACGAGCTGCTCGGCGCCATCCAGGCTCGCGTCCGGCACTGGGTGGCCGCCGAGACCGAAGTGCCGGCCCTGTGTCGCGGCCTGCTGCGCCTGGACGCCGCGCGCCACGCCCGCACCGCCCTGGGCACGGATGGCGGCGGCGACGGCCTGCAGGAACTGGACGCGCTGCTCGCCGCGTGTTTCCAGCGCATCTGCCTGCGCCTGCCCTGGCTCGGCTTCGTCGCGGACGAGAACGAAACGGAGATCGCTGACGCCCTGGGCGACATGCTGAACCTGGTGACCCTCGAAACGCCCGGTTGCGAGCCGGAAGTCTTCTTCGACGCCCTGCAGCTCCTGCTCGCCACCGCCCCGCCGCCGGTGCTTGCCGGGCTCGTCCACGGCGCGCTTCTGGAGGGCGGCCATCTGGAGGTGGCAGCGGTGGCTGGCGCCCTGGGGGAGGCCTGCGGCCTGGGCAGCCTCGACCCGGAAGCGCCGGGACGATTCCTCGCCGGCTTCCTGCGCGCCGCCCGTCATCGCCTGCTCCAAGAGCCCGTGCTCCAACAGCGCCTCGGGGAAGCCTTGCAAGCCTGGGACGAGGACGACTTCCTCGCCGTGCTCCCCGGCCTGCGCCTCGCCTTCACGCGCCTGTCGCCGAGACAGTTGGGGGAACTGGCGGCGCGGGTGATGCCCGGCGGGGAGGCGGTACCCGAGCCAATGGCGCGGGCCTGGTCAAGCGCCGAACTGCAGCGGGCCGCCGACTTGCGCCGGGCGCTCGCCGTCGCTCGCCAGGCCTGGGATGGGAGCAGCGATGAACGGACGTGA	MQARTFPDAEAFTRLPAAYAAHPGLTWAPIRHHSPHCAWQLRRLMEQIQPDVVLVEGPSEANALLPYLLDARTRPPVAFFIHMQPEQKRGVEESRAALARCFVPLAAMSPEWVALREAQRLGIPARFIDLPYLERPSAQRSDDEAEHVLEPPHSDDRLLARADAMATLLAVSGCEDFETWWERHFESGTVYDDPAPFFTRLLHLGQYLREDAYIDEVTRARETHMAAAIAEAQVTGTRCLVVCGAFHCTGILEHLSTLHGVPTSTPDATPAGAAAGVHLVPYSLARLNATCDYAAGIPDCGYQARVWSLLSRRRAEAGAVHGEVHAALAPELVNHLRERGHAATLPDAIEAVALARRLAALRGHGVGRRELRETLISCVVKETRDGGEQRFVADLDRFLAGEETGRVPPGLPLAPLVADFREHCRRMRLPRAASEPLERALDLYRSPAHREQSRFLHRLASLDVPFATRLAGPDFSTSEDLQRVREVWSIRWVPETEACLTERSHYGARLLDAAVARCLEHLDTPRRPGAECVSLLIDALAMGLHELLGAIQARVRHWVAAETEVPALCRGLLRLDAARHARTALGTDGGGDGLQELDALLAACFQRICLRLPWLGFVADENETEIADALGDMLNLVTLETPGCEPEVFFDALQLLLATAPPPVLAGLVHGALLEGGHLEVAAVAGALGEACGLGSLDPEAPGRFLAGFLRAARHRLLQEPVLQQRLGEALQAWDEDDFLAVLPGLRLAFTRLSPRQLGELAARVMPGGEAVPEPMARAWSSAELQRAADLRRALAVARQAWDGSSDERT				NA	NA	NA	NA	NA
BMS010_07220	369			hypothetical protein	ATGTCCGGATATTACTTTGACTGCGTCGTGACGGAAGAGGTCGCCGCGGCCGGGGCGTTCTTCGAGCTGCTCAACGACGCGAGCTGGAGTCGGACCCGGGAAAGCCAAGCGAGAGCGAAGCAGATGCTGGGGCTGTCAGACGACTATGTCTTGCCGCTGATCAAGTTCGACTTGGCGAAGAATGACAAAAGCCTGCGATTCGGTCTGTCGGCGGCGCCATCACGTCTTGGGTACGATTTCTTCGAATCCATCATTCGGGTGCTGGACGGAATCCCGGGCATTCATTACCAGGCCGAGTTTTTCGATTCATCCAGCGGGGGCGGAACGGAATGGCGGCAGCCGCCGGATGAACAGGCGGTGAGCGAGTGA	MSGYYFDCVVTEEVAAAGAFFELLNDASWSRTRESQARAKQMLGLSDDYVLPLIKFDLAKNDKSLRFGLSAAPSRLGYDFFESIIRVLDGIPGIHYQAEFFDSSSGGGTEWRQPPDEQAVSE				NA	NA	NA	NA	NA
BMS010_07221	258			hypothetical protein	ATGTGGTTTCCCGCGAAGCAGTTGATTCCATTTGCCATCGGCGCGCTTGAGTTTTCCAGGCCTGAAGAGATTCAGAACGACAATTACGACATAATGAGCCTAGCAAAAAGAATGGCGCGTCTGGATGAGAAGAGTAAGCAAAATTTCCCAGGGTTGGCGGAGTTTGTGGCGGAGTTCAAGCAGGCCATGGAGACCAGCTCCGTAATCGATGAGGTGAAGCAATTGTTCAGGGGTGGAAATGTCCGGATATTACTTTGA	MWFPAKQLIPFAIGALEFSRPEEIQNDNYDIMSLAKRMARLDEKSKQNFPGLAEFVAEFKQAMETSSVIDEVKQLFRGGNVRILL				NA	NA	NA	NA	NA
BMS010_07222	750			hypothetical protein	ATGGATACATCGGCGTGGAAAGTAGATGACCCGGCCTGGGTCGAGCAGCGGCGCATCGTTTGGCCGGAATTTTTGGAGTTCGCAAAGATTCACACCAGTGAGGCAGCCCACCCCGACGAGCATCTGAGGCGTGCAGAGGACTACTACTTCAAAGGAACCTTGGAGGGAGACTACAAGGATTGGGTCTCTTGTCTATCGCTGTCTAGCTACTTCGCCCTGCATCCCGCCCTCGATCTGAAATCGGCTCGCGACCTTATCGAGTTTGACGAGCGGGAGGGGAGCGGTTATCGCGGTTCGTTTTCCGTCCACTATCTCTTCTCAAAGCTATTTTATGAATTGATTGAAAAGGGATTGCTGAGCCCCTCCATAGGAGAAGTAATTGTCGAGGCATACTATGGAAGCGGGTACTTGGAAGCTGCCGGCCTGAGAGGCTTCGAGCCCGAGGAGGATGCTTATCGGACGGCTTCGAATCTTTTCCATGAGTTGTCGCAATGGTTGTCGCCGTCCGAAGAGTATCTGGGGTTTCCGGCGAAACGGCTGATTCCATTTGCCATCGGCGCGCTTGAGTTTTCCAGGCCGGAAGAGATTCAGAACGACAATTACGACATAATGAGCCTGGCAAAAAGAATGGCGCGTCTGGATGAGAAGAGTAAGCAAAATTCCCCGGGGCTGGCGGAGTTTGTGGCGGATTTCAAGCAGGCCATGGAGGCCAGCCGTGTGCTTGACGAGGTAAAGATTCTGTTCAGGTAG	MDTSAWKVDDPAWVEQRRIVWPEFLEFAKIHTSEAAHPDEHLRRAEDYYFKGTLEGDYKDWVSCLSLSSYFALHPALDLKSARDLIEFDEREGSGYRGSFSVHYLFSKLFYELIEKGLLSPSIGEVIVEAYYGSGYLEAAGLRGFEPEEDAYRTASNLFHELSQWLSPSEEYLGFPAKRLIPFAIGALEFSRPEEIQNDNYDIMSLAKRMARLDEKSKQNSPGLAEFVADFKQAMEASRVLDEVKILFR				NA	NA	NA	NA	NA
BMS010_07223	1107	yehL	COG0714	putative protein YehL	ATGACGAGACCGGATACCACAGCCACCACGGCCGCACAACGCCTGCCAGCTGAACTGGCCCACGCCACTGAGCTGGAACGCCTCGCCGCCGCCGACCGGGGCCCTCGTCCGGAAGGCTGGCGGCTCTCGCCCGCCATGGTCCGCACCTTCATCCTCGGCGGCGAGGTGAGTGGCGAGCCCGTCGCCCGCAAGATCTTCGGCAACGACGACGTGGTGGAGCGGGCCATCGTCACCCTGGTAGGGCAGCGGGGCCTGATGCTGGTAGGGGAGCCCGGCACGGCGAAGTCGCTGCTCTCCGAGCTCCTCGCCGCAGCCATCTGCGGCGACAGCACACTCACCGTCCAGGGCAGCGCTGGCGTGGTGGAAGAGCACATCCGCTACGGCTGGAACTACGCCCTGCTGCTGCGTTCCGGCCCCGGCCCCGACGCCCTGGTCCCCGGCCCGCTGCACCGGGCCATGAGCCGCGGGGCGCTCCTGCGCTTCGAGGAGATTACCCGCTGCCCCACCGAGGTCCAGGACAATCTCATCCCCATCCTCTCCGAGCGCCTGCTCCACGTACCCGAGATGAAGGAAAGCGAGGGCGCCTGCCTCCTCGCCCGGCCCGGTTTCAACGTCATCGCCACCGCTAACCTCAAGGATCGGGGCGTGAATGACATGTCCTCAGCCCTCAAGCGCCGCTTCAACTTCGAAACCATGCGCCCGCTGGCCCGGCTGCAGGACCAGAAGGAGCTGTTGCTGCGGGAAGTGAATCGGCAGCTCGACGAACAGGGCGTCGCCACCCGCCTGCCGGCCGATGTGGCCCAGTTGCTGACGGCCGCCTTCCACGAGCTGCGTGCCGGCAGCGTGGAAGGCACGGCCATCGAGCCGCCCTCCACCGTGCTCTCCACCGCCGAAGCCATTTCCGTCGCCTTCAGCGCCGCCGTCCAGTGCCACTACTTCGGCGAGCCCGAGCTGCGCCCGCGCCATCTCTCACGCTTCATGCTCGGCACCGTCATCAAGGACGACGAGCAGGACGCCCGGCGCCTTCGGGACTACCTGCGGGTGGTGCGGCGGGTTCGGGCGGGCAGCGCGGAATGGCTGGATTTTGCAGATTCCCAGGGCGATTGA	MTRPDTTATTAAQRLPAELAHATELERLAAADRGPRPEGWRLSPAMVRTFILGGEVSGEPVARKIFGNDDVVERAIVTLVGQRGLMLVGEPGTAKSLLSELLAAAICGDSTLTVQGSAGVVEEHIRYGWNYALLLRSGPGPDALVPGPLHRAMSRGALLRFEEITRCPTEVQDNLIPILSERLLHVPEMKESEGACLLARPGFNVIATANLKDRGVNDMSSALKRRFNFETMRPLARLQDQKELLLREVNRQLDEQGVATRLPADVAQLLTAAFHELRAGSVEGTAIEPPSTVLSTAEAISVAFSAAVQCHYFGEPELRPRHLSRFMLGTVIKDDEQDARRLRDYLRVVRRVRAGSAEWLDFADSQGD				NA	NA	NA	NA	NA
BMS010_07224	2832			hypothetical protein	ATGAGTGATATGGATGTTCGGCGCGAGACTCTGGCTGCGCTGACCCAGCCGATGGACGAAGCCGAGTTTCGCCGCCGGCTGGACGATTTGCCCGATCCCCTGCTGCGCGAGCTGCGCCTGCCGGCGGAGTTCATCCAGCGCGCGCCGGACGCCGCCCTGCTGTTCGAGCAGACACGCTTCCAGCGCTGCGGCACTTTCCTGCCCTGGGTTGAGTCGCCCCAGGCGCTCGCGTGGTATCGCGAGGTGATGGCCGCCCATCCCCTGGAGCCCGCGCTCTTCTCCTACACCGTCGCTCAGATTGCCCGCCACAGCAGCGAAGCGGAGCTGGACGAGCTGATCAGGGCCTGGTACTTCACCACGCTCGACCGTCCCATGCCCGACGGCCTGCTCGACGGCATGCGCGACCTCGACCGGCTGGCGGCCTACCTGGCATCCCCGTACGAGCGCCTGCAGGTGCAGGCCGCCCGGCGCCTCTTCGAGCTGGCGAGCACGCTGCGGCCGGGCATGGAGAAGCACGAATCCGGCGCCTACATCCGCGAGCCCGGGGCGTGGGCCGCTCTGCTCGCCGCTTCCGCCGCCCATCCCCGGATTTTCATCCGCAACACCCTGGATGCCGAAGCGCTGCCCCGCGGGCGGGATGCCCTGGAGCGCTGGGACGTCCTGTGGCGCTCCACCCAGGACGCCCGGGACCGCCAAGGCCTCGCCGTCGCCTGCCTGGGCGCGCTTCGCCCGGGGCTGTTCCACGGCGAGTTGCGGGCCTTCACCGAGGCCAGGTACGCCGAGGCGCCGGATGCCGTCCGCGCGGGCGCGGCGGCCCTGTTCTGCTACGACATCGAGCCCGCCATGGCGGCCCTCAAGGCCCTCGATTCCCCCTTGCGGGCGCTGCTGCCCGTCATGGCCGAGGCCCACGTTGCCTGGCAGAACAACGCCCCCAGCAGCATCGAGACGATGCGCCCGCTCGGCGTGGCCGAGGCGCTCTCCCGGTACCCGGAAACCTATGCCGCGCTCGACGACAAGGCGCGCCAGCGCCTGTTGCCCCTGTTCGACAGCGAGGCCCTCGCCGCCTGCGGCCCGACCCTCGCCAAGGTCTTCGCCGGCAGCGCCAAGCCCCTGCACACTCAGGCCGTGGCCCTCATCGCCCGCTGCACGCCCGAGGCCATCGAGCGCAGCGGCCTTCTGACCGCCCCGGCCAAGGCCCGCAACCACGTGCTTACTGGAATGGGCCGCTCCTGCCATCCCGAAATGACCACGCTCATCGCCCGCCACATCCACGACGAGGCCCACGACGAATACAGCTTCAGCCTCGCCCTGGACTCCCTGGAGCGCGCCGGCCACTCCCTCGAAGGCCTCGACCCTTGGGCCGGCATGGACCTCGCCGCCCTGCAGGCCATGGCCGATGGGCAAGCGATCCCGGCGGCCGTGGAATCCCTATGGAACGACGGGCTCCAGGCGCTGCTCGCCCCCCTCGGCGACGCCCTGGCCCGCTGGCTCCTGGCCATCCTGCACGCCGGCGAGGCGGTGCTGCCCCGCAAGGCCCGCCAAATCCTGGCCTTCCTGCCTGCGGCGCAGCGCAGCGACCTGGCCCTGTTCGGCCTCACCCAGTGGATCGCCGGTAACGGCCTCAACGCTTTCGACTGGCTGGTGCTGCCGCTTCCCGAGCACGGCGACGAGCGGGCCGCCGACACCCTGGCGAAGGCGGTGAAGGACTGGAAGAAGACCCGCACCCAGAAATCCGCCGTCGCGATGAGGCTGCTCTGCCGGCTGCCGGGCGACTACGGCGCCGCCCAGGCCCTGGACCTGTGGGAAAACGGCAAGCTCACCGAATCCATCAACGAGGCCGCCCGCGAGGGCCTCGCCGATGCGGCGGAGCGCCGCGGCATGAGCCCGGAGGCCTTCCTCGAGCAGCTCGTGCCCGACTTCGGCTTCGGCCCGAACGGCCTCGTGCTCGACGTGGGCCCCTACGCCTACACCGTGCGCATCCGCCCGGACCTGGGCCTCACCGTGATCGACCCGAAGGGCAAGGCGGGCAAGAGCCTGCCCAAGGCCAAGGCCGGCGAGGATCCTGAGAAGCGCGGCCTCGCCGAGAGCCGCTTCAAAGCTCTCTCCAAAGGCCTCAAGCCGGTCCTGGCCCAGCAGGCCGGGCGGCTCGCCCGCGCCCTGCGCATCGGTCGCGAGTGGCAAGCCGAAGCCTGGCAGCGCCTCTACGCCGCGCACCCCCTTCTGGGCCCCCTCGCCCAGGGCGTCGTGTGGTCGGCGCTGGATGCGGACGGCGCGCCACTGAAGCGCTTCCGCCCCACCGAAAGCGGCGACCTCATCGACCTGGCCGACGAAACCTGGACCTTGCCGCCCCAGGCCCGGGTGCGCGTCACCCATCCCCTGGAGCTGGACGAACGCGAGCGGGACGACTGGGCCGCACATTTCGCGGACTACGCGCTCACCTCACCCATCGGCCAGTGGAACCTGCCCTTGCACGCCCCCGCTGCCGACGAGTTGGCCACCGAGACCCTCGCCCGCGCCAACGGCCGGCTGCTGAACCGGGCGCGCTTCGGCCGGCTCGCAGAGAAGTGGGGCTATCTGCGCAGTGCGGCGGGCGACGGGGGCATCGTGTACGAGCACACTTGGCTGATGGACCGGCACTGGCGCGTGACGCTCAGGCACAGCGGGATCAACGTGGTCTTCATGCCGGACGAGGCCGTCACCGTCGACGGCTTCGTCGTCGAGCGCTGGATCGACGGTGCCTTCCACCGGCAGCGGCTGGGCGAACTACCCCCGGCCTTCCTCAACACCCTGCTCACCCAGGCGGAAGAACTGAAGGCAGTGGCCGAAGCATGA	MSDMDVRRETLAALTQPMDEAEFRRRLDDLPDPLLRELRLPAEFIQRAPDAALLFEQTRFQRCGTFLPWVESPQALAWYREVMAAHPLEPALFSYTVAQIARHSSEAELDELIRAWYFTTLDRPMPDGLLDGMRDLDRLAAYLASPYERLQVQAARRLFELASTLRPGMEKHESGAYIREPGAWAALLAASAAHPRIFIRNTLDAEALPRGRDALERWDVLWRSTQDARDRQGLAVACLGALRPGLFHGELRAFTEARYAEAPDAVRAGAAALFCYDIEPAMAALKALDSPLRALLPVMAEAHVAWQNNAPSSIETMRPLGVAEALSRYPETYAALDDKARQRLLPLFDSEALAACGPTLAKVFAGSAKPLHTQAVALIARCTPEAIERSGLLTAPAKARNHVLTGMGRSCHPEMTTLIARHIHDEAHDEYSFSLALDSLERAGHSLEGLDPWAGMDLAALQAMADGQAIPAAVESLWNDGLQALLAPLGDALARWLLAILHAGEAVLPRKARQILAFLPAAQRSDLALFGLTQWIAGNGLNAFDWLVLPLPEHGDERAADTLAKAVKDWKKTRTQKSAVAMRLLCRLPGDYGAAQALDLWENGKLTESINEAAREGLADAAERRGMSPEAFLEQLVPDFGFGPNGLVLDVGPYAYTVRIRPDLGLTVIDPKGKAGKSLPKAKAGEDPEKRGLAESRFKALSKGLKPVLAQQAGRLARALRIGREWQAEAWQRLYAAHPLLGPLAQGVVWSALDADGAPLKRFRPTESGDLIDLADETWTLPPQARVRVTHPLELDERERDDWAAHFADYALTSPIGQWNLPLHAPAADELATETLARANGRLLNRARFGRLAEKWGYLRSAAGDGGIVYEHTWLMDRHWRVTLRHSGINVVFMPDEAVTVDGFVVERWIDGAFHRQRLGELPPAFLNTLLTQAEELKAVAEA				NA	NA	NA	NA	NA
BMS010_07225	3663			hypothetical protein	ATGATCGACCGCGACGCCCGCCTTTCCGCCGTTGCCGCAATCGCCAAGCCGCATGACGATGCCAGCTTCCTGGCGCTGCTGGAGCAGACCTACGCGAAGATGAGCATCGGCACCGGCCTGGACTTCGCCCAGGTGGGCCGCTACTGGCGCGGCGAGGCCGAGTTGCCCCGCCCCTGGCGGCAGGCGATCGCCCAGTCCGCCTGCCTAGACTCCAGCAGTGGCCACTTCCCCTACCTCTACCCCTCGCAAACGCTCGCCTGGACGCTCGCCGAGCTGCCGCCGGAGCGTTGGCTGGCGCGCGGAGAGCGGACCGTCGTGCTGCTCGCACCCCTCATCGCGGCAGGAAACATCTCGTCTTGGCTGCTCCCTTCCGACGCTCTGCGCCATGCCCGCAGCGGTTCCCATCCGGAGGTCCAGGTGCTGCGCCTCGCCTTCGAGTCCTGGGCGAAGGTGCTCGCCGAAGGGCGCGACGGCTGGGACGGCGTGCGCGACTGGCTATGCGCCGCTGGCGCCGATCCGGCGAGCCTCGCGGCAGCCTTGGCGGAGCCGGACCGGAACTGGCACGCGGGCCGGATGCAGGGGCTCTCGTACCTGTACACCATGCTGCTCCTGGCGCGGGAGCAACTGCAGCGCGATGCCGTGCCCGACGACACCTGGATCGACCTGCTGAGCTGCGTCCGCAAGGGGATCGCCGACAGCGACGATCCTTATCTCCAAGTCCGCCGGCAGTACGTGCTGCCCCTGCTGCGGGTGCTGATCGCCAGCCCACGGCTGAAAGAGCTGCTCTACGACCCGGGCAACGGCTCGTTCTCGTGGGCGGTCCGCGAGCTCTTCCGCAACCTGGGCCTGGCCTTCCTGCTAGCCGAGCCCCTCGATGCGTTCCGCCGTTTGCTGGACGAGGCGCCCAGCCTGCGAAGCTTCGACGCGCCGGAAGGCTTCGGCGAGCGCTTCCCGGAGGCGGCCCTGCTCCTGGAGCAAGTGAAATTCGAGCGCTGCGGCGAGCTCGATCCCGGGCTGGAGACGCCCGAAGCGCTGGCGTGGTACCGGCACATCCTCGGGCGGCTGCCTCGGGACAGAAGCTTCGAGAGTTGCCTGCGCCTCATCGCCAGGCACGCGGACGAGGCCGAGCTGAATGCACTGGTCTGGGCGCACCTGATGACCGAGGACCACCACCACCTGCCCCATGTCCTTCTCGACCGCATGGACCACGTCGGGCATCTCACCGACTACCTGGAGTCCGCCAACACCTACCTGCGCTGCATGGCCGCCTACCGGCTCTTCAAGCTCGCCAGGGTGCGCCTCGGCACCGGCAAGCAGGATGACGACGACGAAGACGCAGGCGCGTACGAGCCTCATCCCGAGAACTGGCCGATCCTGATGGAGGCCGGCAAGCGGCATCCCGAGCTCTTCATCGAGTACACCCTCTCCGCCGATGAGCTGGTCGGCGGACGGGACAGACTGGAGCGCTGGTCCCTCCTGTGGCAGGAGGCGACATCGTCCGCGAAGTACCGCAAGAAGATCGTCTCCGCCTTCTTCGACGCGCTGTGCATGGACGGGTGCCCCCGCGCCGAGCTGCTCGCCTTCGGCGAGCGGATGCTGGCGGACGACGCCTTCCCCTTCGAACTCTACATCGAGGGCGCCTACACCAGCGATTTCGAGCGGATCGTTCCTATCCTGGGTAAGAGCGACTCCCCGCTGCTCACCCTCGTGCCCGGGATGGCGGCCCGCTACATGATGGAGCCCACCTTCAGCATGACCGGCCGCTACACCGCGCCCCTGCCTGCGGCCCCCGTGTGCCGGGCCCTGACCGCCTTCCCCGAGCGCTACGAGTCCCTGGAGGAGAAGGGCAAGATCAAGCTCCTGCCCCTCTTCGACGAAGCCGCCCTGGCCGCCTGCGGCGCGTCGCTCGCCAAGGTCTTCGCCGGCACCGCCAAGGGCCTGCGCGACCCCGCCGTCGCCCTGGTCGCACGCTGCAGCCCCGAGTCACTCGAGCGCAGCGGCCTCCTGGACGCCCCGCCCAAGGCGAAGAAGCTCGTGCTCACCGGCATGGGCCTTTCTACCGACCCGGCCATGAGCGCGCTCATCGCCAGGCACTTCAAGGACAAGGCCCACGACGACTACACCCGCGACTTGGCGCTGGACGCCCTGGAGCGCGCCGGCCATCCCCTGAAGGGGCTCGACCCCTGGGCCGGCATGGACCTCGCCACCCTGCAGGCCGAAGCGGCGGCCCAGAAGATCCCCGCGGCCATCGACAAGCTGTGGAACGACGAGCTCGCCACGCTCCTCGCGCCCCTGGGTGAGGCCCTCGGCCGCTACCTGCTGGCGATCCTTTCCGAGGCCGGTGACGTGCTGCCCCGCCGTGCCCGCCAGATCCTTTCTTTCCTGCCCGCCGGGCGGCGCAGCGATTTCGCCCTGCTCGGCGTGAATCAGTGGATCGCCGAAAACGGCACCGACAAGCTCGCCTGGCTGCTCCTGGCCCTGCCCGAGTACGGGGACGAGCGCATCGCCAACGCCCTGGTAAAGGCGACCCAGGACTGGAAGAAGACCCGCAAGCCCAAAGCGAGCGAAGCGATCCGCCTGATGTGCCGCCTGCCCGGCAACTTCGGTGTCTCCCAGGCCCGGGAGCTGTGGGAAAGTGGCAAGTTCTCCGAATCCATTACCCACAACGCCAAGATGGCCCTCACCGAGGCCGCCGAGCGCCAGGGCATGAGCCTGGAGGAGTTCCTGGAGCAGCTCGTGCCGGACTTCGGCCTGACGTCCGAAGGCCTGGTGCTCGACGTGGGCCCCTACGCCTACACCGCGCGCATCCGGCCCGATCTCAGCCTCGTGGTGATCGACGGCAAGGGCAAGGCGGGCAAGAGCCTGCCCAAGGCCAAGGCGGACGAGGACCCGGACAAGCGCAGCGTCGCCGAGAACCAGTTCAAGGCCCTCTCGAAGAACCTGAAGCCGGTCCTGAAGCAGCAGGGCAAGCGCCTCACTCGGGCCCTGCAGCTCGGCAACGCCTGGCCGGCGCCCATGTGGCGGCGCCTCTTCGCCGAGCACCCGATCATGGCGGTGATCGCCCAAGGCGTCGTATGGTCGGCGGAGGACGCCGAAGACCGGTCCCTGAAGCGCTTCCGCCCCACTGAGAGCGGCGAGCTGATCGGCCTGGACGACGCCGTCTACGCCCTTCCGGACGACACCCGGGTGCACGTGACCCATCCCCTGGAGCTGGACGAGTCCGAGCGCGCCGACTGGGTGACCCACTTCTCCGATTATGCGCTCAGCTCTCCCATCGGCCAGTGGGAAACCGCGGTGCACGCACCCACCTCCGAGGAGCTAGCCGCCGACGAGCTCAACCGCGCCGCCGGTATCGTGCTTAACCGCGGCAAGTTCGGCAGCCTGGTGGAGAAATGGGGCTACATCAAGGGCGCGGCCGAGGACGGCGCCCAAGTGAACGAGCACACCTGGATGCTGGACAGCGGCAAGTGGCTGGTGACCTTGCATCACGAAGGCATCAACGTGTACTTCGATCCGGATGAGAACGTAACGGTGGACCGCTTCGTCGCCGCCCGGCGTGGCCCTAAGGGTTTCGCCACCCAGCGCCTGGGCGACCTGCCCCCGGCCTTCCTCAACACTTTGCTCGCCCAGGCGGAAAGCCTGAGGGAAACGGCGAAATCGTGA	MIDRDARLSAVAAIAKPHDDASFLALLEQTYAKMSIGTGLDFAQVGRYWRGEAELPRPWRQAIAQSACLDSSSGHFPYLYPSQTLAWTLAELPPERWLARGERTVVLLAPLIAAGNISSWLLPSDALRHARSGSHPEVQVLRLAFESWAKVLAEGRDGWDGVRDWLCAAGADPASLAAALAEPDRNWHAGRMQGLSYLYTMLLLAREQLQRDAVPDDTWIDLLSCVRKGIADSDDPYLQVRRQYVLPLLRVLIASPRLKELLYDPGNGSFSWAVRELFRNLGLAFLLAEPLDAFRRLLDEAPSLRSFDAPEGFGERFPEAALLLEQVKFERCGELDPGLETPEALAWYRHILGRLPRDRSFESCLRLIARHADEAELNALVWAHLMTEDHHHLPHVLLDRMDHVGHLTDYLESANTYLRCMAAYRLFKLARVRLGTGKQDDDDEDAGAYEPHPENWPILMEAGKRHPELFIEYTLSADELVGGRDRLERWSLLWQEATSSAKYRKKIVSAFFDALCMDGCPRAELLAFGERMLADDAFPFELYIEGAYTSDFERIVPILGKSDSPLLTLVPGMAARYMMEPTFSMTGRYTAPLPAAPVCRALTAFPERYESLEEKGKIKLLPLFDEAALAACGASLAKVFAGTAKGLRDPAVALVARCSPESLERSGLLDAPPKAKKLVLTGMGLSTDPAMSALIARHFKDKAHDDYTRDLALDALERAGHPLKGLDPWAGMDLATLQAEAAAQKIPAAIDKLWNDELATLLAPLGEALGRYLLAILSEAGDVLPRRARQILSFLPAGRRSDFALLGVNQWIAENGTDKLAWLLLALPEYGDERIANALVKATQDWKKTRKPKASEAIRLMCRLPGNFGVSQARELWESGKFSESITHNAKMALTEAAERQGMSLEEFLEQLVPDFGLTSEGLVLDVGPYAYTARIRPDLSLVVIDGKGKAGKSLPKAKADEDPDKRSVAENQFKALSKNLKPVLKQQGKRLTRALQLGNAWPAPMWRRLFAEHPIMAVIAQGVVWSAEDAEDRSLKRFRPTESGELIGLDDAVYALPDDTRVHVTHPLELDESERADWVTHFSDYALSSPIGQWETAVHAPTSEELAADELNRAAGIVLNRGKFGSLVEKWGYIKGAAEDGAQVNEHTWMLDSGKWLVTLHHEGINVYFDPDENVTVDRFVAARRGPKGFATQRLGDLPPAFLNTLLAQAESLRETAKS				NA	NA	NA	NA	NA
BMS010_07226	2904			hypothetical protein	ATGAACCCGAACGATCTTTCCGCCACGCCGCTCGCCGAGCTCTACAAGCAGGTCGAGCCCGCCGTCTTCGCCGAGGCGCTCACCGACCGCTACCTGAACGGCGGGCGCGATGAGGCCGAGGCCTTCCTCCGCGATTGCGACGGGCGCGCCCTGTACGCGCTGAGTCACTTCACCCTGGGCTCCGCTCCGTGGCATCGGGATCTGGACCTGTGGCTGGCTTTCGCGCGCCTCACGACCCGGCGGGGAGTGCTTTTCTCCGGAGGGGGCGAGGTCGCCCAGCGCACCCGCGCGTTCTCCGAGGAAATGCAGGCCCTGGCGAAGAGCTGGATCGCCGAGGAATTAGCCAGGGGCGAATCGCGTCGTGAGGCGAACCGCTTCGTGCTCAACTTCCTGTTCCGCCGATTCGCGTACCAGGGAATGTCCTCGGCGGAAGCCATATCCCTGCTCCGCTGGGCATGGACGATGCGCGGGGAAGCGGGCGTCCGGCCCGACCTGGAATACGAGATCGGCTGGCAACCGCTGATCGAAGCCGTCGAGGACACGGACGACCTGATCGCCCTGGCCGAAGCGGGTGGACGCCTGTGCAAGGACATCCTCGCGGACTTCGCGCGACGATCCAGCCGGAAGACGGGCGAGCGCTGGCGGCCGTGGTACGACTTCTTCCGGCGCCACCCGGAGCTGGAAGACTATCCGGTGAGCAACGATGTGGGAGTGATCGCCGCGTGCTGGCCCGAGGCCGACGCCGCGCGCAGGCGGTATTTCGCCGACTGCATGCTGACGCGAGTCGAGAAGCGGCCGTCGCCCCGCTACAGCGTGATGCTGGATCGCTTCATCAGCGACGATCCGCAGGTCTTCGCGGCAGCGCTGAAGGAACTGGACCCGTACTGGCTCGAGCCGGTGGTGGTGGACACGATCTGGGCCAAGCGCTACCCGGAGCTGGTGCCCCTGCTCTTGCCGCTGATCGCTGGGAAGTCGAATCCCAAGTCCTTCGAGAGTCTGGTCCGGCAGGTCGTCGCGGAGTGCCCCGACGCCCTGCTGCATGTGGAGGCGGCGAAGCTCGCCAAGCTGGTGCCCCTGCTCGATGCGGTCATCCTCGAGGGCGCGCTGCCTCAACTGGGCAAGGTTGTGGCCGGCAGCAGCTCCAAGGCCCTCCGGGAGGCACTGGCGAAGGCGATGACCAAGGTCGCGCCCGCGCGTTTGGCCGCCGCCGGCTGGCTTGCCGTGCGCGGCAAGAACATGCAGCTCGCCTGTCGGGACATCCTCCTCGCCCATCCGGACGCGGCGGCCGGCCCGCTGCTCGCGGAGCTGCTGGCGGCGGGCGGCCTGGATGCCGTCTCGGCGAGCACCGTCGAAGCGCGCCTCCAGCAGCTCGGTCTTCCCACGCCTGCGGGCGAAACTGGTGCCGCGTCGGGCGGGGCTTCGGCCGCCGACGGTGCGGACGCGCTCGCCACGGCCGAAGCCCAGGCGGCGAAGGTCAAGCGCATCGCCGCGGCGGTCCAGCCCTTCGACGTGCCAGAAGTGCTCGCCGCCCTGCGCCCCCTGTCGGAGCACGCCGCCCGGGTGCTCTTCCATCTCGCGGCCACCGCCGAGGGCGGGCTACCGCCCATGGCCGATCAGTTGCTCGCCCAGTTGCCCACCGAGGGCCGGGCGCGGCTCGCCCTCGCCGTGGTGGAGGCCTGGGTCGCGCTGGAAGGCGAGCCTAGGCAGCGCTGGATGCTCAAGCTCCTGCCCGGCAACGTGGACGACCGGGCGGTGGACAAGCTCGCCGCCGCGGCCTTCGCCTGGGGCAAGCCCAAGAAACTGCGGGCGGTGCTCGCGGTGGAGCAACTCGGCGCCCTGGACACCCTCTACGCCCTCGCGCGGGTGCAGGAGATCGCCGTCTCCCGCAAGGTGAAGGACGCGGTGATCTGGACCGCGCGCCAGACCCTGGCTGCCGCCGCCGCCAAGCGCAAGCTCAGCGTGCCGGAGCTGCTGGACGAGCTGACGCCGGACTTCGGCCTCGGCGAGGGCGTGACCCTGAACGTGGGCGCCCGGACCTACCGCATCGTCCTGCAGGGCGACCTCAGCCTTCGGGTGGTGGATGAGAAGGGCAAGGCCTCCAAGACGATCCCCGCCACGAAGGACGAGGCGGCGCGGGTGGAGTGGGAAGCGGCGAGCGCCCGGCTGAAGACGCTTTCCGCCAGCCTCAAGGCCATCGTCAAGCAGCAGGAGCCGCGCATGCGGGAAGCCCTCGTCACCGGCAAGCGTTGGCCGGCCGAGCGCTGGCGTCGCCTCTTCCTCGCCCATCCCCTGCTGCGCATCGTCGGCCGCAGCCTCGTGTGGCGGCTGCTGGACGCGCCGGGCCTCGCTCCCGGCAGCTTCCGCATCGCGGAGGATTTCTCCCTGGTGGATGTGGAGGACAACCTGGTGACCCTGCCCGAGGCGGCGAGCGTCGCCCTGTGGCACCCCGCCACCGCCGCAGCGGGCGAGCTCGAAGCCTGGCGGGCCTATCTCGCCGACTACGAGCTGGAGCCCCTGGTGGACCAGCTCGGCGCCCCGGCCGAGCCGCCCGCGCCGGAGCTGCTCAAGGACGACGGCCTGCAAGCGCCCGCCGACCTGGTCATCGCCCAGGAAAAGCTCGCCGGCCTGCTCGCCAAGTGGGGCTACCGCCCCGGCCCGATAGGCGACGGCGCCGCCATCTGGCAGCACCGCTGGAGCCTGCCGAGCGCCCAGCTCTGCGTCGAGCTCGCCCACGACCGGTACATGCCCTACATGGAGCTGGGCCACCCGGTGCCCATCGAGGGCTTCACCGTGTATGACACCGCGGCCAAGAACTGGAAGCGGCTTCCGCCCGGAGAGCTTCCCAAGCCCCTGCTGGCGACCCTGGCGGATCAGCTTCGGGCCATCGCGGCGAAGGCGGCCTGA	MNPNDLSATPLAELYKQVEPAVFAEALTDRYLNGGRDEAEAFLRDCDGRALYALSHFTLGSAPWHRDLDLWLAFARLTTRRGVLFSGGGEVAQRTRAFSEEMQALAKSWIAEELARGESRREANRFVLNFLFRRFAYQGMSSAEAISLLRWAWTMRGEAGVRPDLEYEIGWQPLIEAVEDTDDLIALAEAGGRLCKDILADFARRSSRKTGERWRPWYDFFRRHPELEDYPVSNDVGVIAACWPEADAARRRYFADCMLTRVEKRPSPRYSVMLDRFISDDPQVFAAALKELDPYWLEPVVVDTIWAKRYPELVPLLLPLIAGKSNPKSFESLVRQVVAECPDALLHVEAAKLAKLVPLLDAVILEGALPQLGKVVAGSSSKALREALAKAMTKVAPARLAAAGWLAVRGKNMQLACRDILLAHPDAAAGPLLAELLAAGGLDAVSASTVEARLQQLGLPTPAGETGAASGGASAADGADALATAEAQAAKVKRIAAAVQPFDVPEVLAALRPLSEHAARVLFHLAATAEGGLPPMADQLLAQLPTEGRARLALAVVEAWVALEGEPRQRWMLKLLPGNVDDRAVDKLAAAAFAWGKPKKLRAVLAVEQLGALDTLYALARVQEIAVSRKVKDAVIWTARQTLAAAAAKRKLSVPELLDELTPDFGLGEGVTLNVGARTYRIVLQGDLSLRVVDEKGKASKTIPATKDEAARVEWEAASARLKTLSASLKAIVKQQEPRMREALVTGKRWPAERWRRLFLAHPLLRIVGRSLVWRLLDAPGLAPGSFRIAEDFSLVDVEDNLVTLPEAASVALWHPATAAAGELEAWRAYLADYELEPLVDQLGAPAEPPAPELLKDDGLQAPADLVIAQEKLAGLLAKWGYRPGPIGDGAAIWQHRWSLPSAQLCVELAHDRYMPYMELGHPVPIEGFTVYDTAAKNWKRLPPGELPKPLLATLADQLRAIAAKAA				NA	NA	NA	NA	NA
BMS010_07227	495			hypothetical protein	ATGCTGATCGACGACCTGCTGGTGAAGACCCCGCCCCAATTCACGCCCGGCGAGTCCGGCGAGGATCGCTTCGAACTCGTCCCCCACCCGGAGCTCGGCTTCCGTAAGAGCCTCCTTTTCGACCCCCTCGATCCCCGGGACCGGATCACCGTGTGCAAGTACGGCAGCCTGGAGGCCGGCTACCGGGCCAACCTCGCGGCCTACCGCAAGGAGGTGCTGAACATCGCCGTTCGGGGCCAGGGCGTCGGCATCCAGGAATCGGACGAGGGGCCCGACCGCTACGTGATCGCCCTCTACAAGGCCGACGACGAGGCCGCCGGCAGATCCACCTACTACTACGCCAAGTCTGGCCTCGCCCCGGACTATAGCTACGTGGCGGTGGTGGCGATCCATCGCAAGTTCAATCCGCGGAAGAGTGCGCCCTCCATGGACATGCTGATCTGGTCCAGCTTCCTCAACGAGAACGTGCAGCACCTGGCCTACCGGGATGAGTAA	MLIDDLLVKTPPQFTPGESGEDRFELVPHPELGFRKSLLFDPLDPRDRITVCKYGSLEAGYRANLAAYRKEVLNIAVRGQGVGIQESDEGPDRYVIALYKADDEAAGRSTYYYAKSGLAPDYSYVAVVAIHRKFNPRKSAPSMDMLIWSSFLNENVQHLAYRDE				NA	NA	NA	NA	NA
BMS010_07228	1167			hypothetical protein	ATGAACACGCCCGTTACTGTTATTCCTACCGTCACCACTCGCCTGCGCTCCATCGACGCACTCCGTGGTTTGGTGATTCTCTTCATGCTGCTCGACCATGTGCGCGAGACCTTTTTCCTGCATCGACAGGTGCTGGACCCAATGGATGTCGGCAATACCAGCCCGGATCTGTTCGTCAGTCGGACGTTGGCGCATCTGTGTGCTCCGGTATTTGTTTTCCTCACCGGGTTGTCCGCGTTTCTCTATGGTGAGAAGCACAGCGGCCGCGCTGGCGTTTCGGCATTCCTGTTCAAGCGGGGGCTGTTCCTGGTCGTACTGGAGGTGACGCTCGTCAACTTCGCCTGGACGTTCCAATTTCCACCTCACGTCATTTATCTGCAGGTCATCTGGGCGATAGGGCTCAGCATGCTGGCGCTGTCCGCGCTGGTCTGGCTGCCACGGATAGCATTGATCGTCCTGGGAATGGTGATCGTCGCCGGGCATAATCTGTTGGACCCGCTGCATTTCGAGACGGGCTCCTTGCTTCATGTGCCTTGGGCGATCCTGCACGACCGTGGTTGGTTGGTGTTCTCGGAAGCGCTGCGGTTGCGCACGTCCTACCCTTTGCTGCCATGGATCGGGGTAATCGCGCTCGGGTACGCGGCGGGCCCCTGGTTCGCCGGTGACGTGGCGCCAGCGGTGCGGCAGAGGCGGCTGCTGGCCTGGGGTGTCGCTGCGCTGGTGGGATTCGTGCTGGTTCGTCTGGCCAATGGTTATGGGGAAAAGCCCTGGGTCGAAGGCGAGACGGCCGTTGTCACGCTGATGAGTTTCTTCAACGTCACCAAGTATCCACCGTCGCTGTTGTTCCTGGCCCTGACGCTGGGTGTCGGCCTGTCACTGCTGCGCTGGTTCGAGCGGCGGGAGGGGAGTCGTTGGCTGGTGCCGCTGGTGGTCTTCGGCGGTGCCCCGATGTTTTTCTATCTGTTGCACCTGTACGTGCTGAAGGTGCTGTACCTGTCGGCTGTACAGGTCTGGGGCCTGAACCAGGGCGATTATTTCGGGTTCGATTCGGTGGGAGCGGTCTGGCTGTGTGCGGTTGTGCTGGCGGTAGTACTGTATCCCGCCGTGCGCTGGTTTGCCGCGGTGAAGGCGCGCAGGCGCGATATCGCTTGGCTGAAATATTTCTGA	MNTPVTVIPTVTTRLRSIDALRGLVILFMLLDHVRETFFLHRQVLDPMDVGNTSPDLFVSRTLAHLCAPVFVFLTGLSAFLYGEKHSGRAGVSAFLFKRGLFLVVLEVTLVNFAWTFQFPPHVIYLQVIWAIGLSMLALSALVWLPRIALIVLGMVIVAGHNLLDPLHFETGSLLHVPWAILHDRGWLVFSEALRLRTSYPLLPWIGVIALGYAAGPWFAGDVAPAVRQRRLLAWGVAALVGFVLVRLANGYGEKPWVEGETAVVTLMSFFNVTKYPPSLLFLALTLGVGLSLLRWFERREGSRWLVPLVVFGGAPMFFYLLHLYVLKVLYLSAVQVWGLNQGDYFGFDSVGAVWLCAVVLAVVLYPAVRWFAAVKARRRDIAWLKYF				NA	NA	NA	NA	NA
BMS010_07229	408			hypothetical protein	ATGGCCAATCCGCATCTCGATCATCATCTGGCCCTGCTCGCCCACCTGCGCGGCATCCTGCTCGCCATGGGCGAAGCCGAACAGATCTCCGACGAAAGCCACGCGCTGTTCCTCGAACGCTTCGACGAACTGCTCATGAGCCTGCCGAATATCCCTGAGGACCGGCACCTCGGCCAGGACCTGATCTGCCAGGTCTTCCACCGCTACCCGCAGATCGCCCACCTGGTGCCGCGCGACCTGCTGTGGTTCTTCGGTGGCGATTGCCTGCACTTCATGCCTGACGATGAGATCGCCCTGTTCCAGGAACTCGACGAGCGCCGCTACGAAGCCGAGCAGAATGGCCTGCCCTTCGACTGGAACCAGGAAAAGCAGCTTCTCGCGATGCCGCAGGAAAGCAGCAAGCACTGA	MANPHLDHHLALLAHLRGILLAMGEAEQISDESHALFLERFDELLMSLPNIPEDRHLGQDLICQVFHRYPQIAHLVPRDLLWFFGGDCLHFMPDDEIALFQELDERRYEAEQNGLPFDWNQEKQLLAMPQESSKH				NA	NA	NA	NA	NA
BMS010_07230	2448	fadE	COG1960	Acyl-coenzyme A dehydrogenase	ATGTCGCTCGTCTGGATATTGATTCTGCTACTGGGCATCGCCTGCCTCGCTCACTGGCGTCTGGCGCCTCTGCCGTCCCTGGCGCTGGTCGCGCTCTACCTCGTCGTCATGGGAAGCGCCGACGAGGTTCCCGGCTGGCTGATGCTGATCCTTTGGCTGCTCTGGCTGGCGGTCGCCCTGCCGCTGCTGATCCCGGAACTCCGTCGCACGTTGATCACCGGGCCGATGTTCGACTGGTTCCGCAAGATTCTGCCGCCTATCTCGGACACCGAGCGCGAGGCCATCGATGCCGGCACCGTCTGGTGGGACGGCGAGCTGTTCAGCGGTCGCCCCGATTGGGACAAGCTCCTCGCCTATCCACCGGCCAAGCTCACCGAAGAAGAGCGCGCCTTCCTCGACGGACCGACCGAACGACTTTGCGCCATGGTCGACGATTGGCAGGTCGGGCAGCGCATGGACCTGCCGGAAGAGGTCTGGGCCTATATCAAGGAACAAGGCTTCTTCGCCCTGATCATCCCGAAGGAATACGGCGGCAAGGGTTTCTCCGCCTATGCCCACTCGCAGATCGTGATGAAGCTGGCGACCCGCAGCGGCGACCTGGCATCCACCGTGATGGTGCCCAACTCCCTCGGCCCGGCCGAGCTGCTACTACATTACGGCACCGAGGACCAGCGCAACCGCTACCTGCCGCGACTGGCCAGCGGCGAGGAAATCCCCTGTTTCGCCCTGACCGGCCCCTACGCCGGCTCCGATGCCGGGGCCATGCACGACACCGGCATCATCTGCCGCGGCCAGTGGCAGGGCGAAGAGGTGCTCGGCCTGCGTCTCAACTGGGAAAAGCGCTATATCACCCTCGGCCCGGTGGCCACTCTCCTCGGCCTGGCCTTCAAGACCTACGACCCCGACCACCTGCTCGGCGAGCGTGAAGAACTGGGCATCTCGCTGGCGCTGATCCCCACCGACCTGCCCGGCGTCGAGATCGGCCGGCGTCACATTCCCCTCGGCGCCGCCTTCATGAACGGCCCCAATTCCGGCAAGGATGTGTTCGTGCCGCTGAGCTTCATCATCGGCGGTCAGGACATGATCGGCAAAGGCTGGATGATGCTCATGAACTGCCTCTCGGTCGGCCGCTCCATCTCGCTGCCGGCGGTCGGTACCAGCGCGGCCAAGGCCACCGGCTACGCCAGTGGGCGCTATGCGCAGGTCCGCGAACAGTTCAACGTGCCGCTGGCCGCCTTCGAAGGCATCCAGGAAGCCCTGGCGCGTATCGCCGGCAACGCCTGGCTGATGGATAGCGCCCGGGTACTCACCGCCAACGCCGTCGACCTGGGGGAAAAACCCTCGGTCCTGTCCGCCGTGCTCAAGTACCACCTCACCGAGCGAGGTCGCGAATGCATCGCTCACGCCATGGATATCCACGGCGGCAAAGGCATCATCATGGGACCGAAGAACTACCTCGCGCGCTCCTGGCAGGCGGCGCCGATCTTCATCACCGTGGAGGGGGCGAATATCCTTTCGCGTAACCTGATGATCTTCGGCCAGGGTGCCATCCGCTGCCATCCCTACGTGCTCAAGGAAATGGAACTGGCCAGCGCGCAGGACCAGGACGCGGCACGCCTGGCGTTCGATGGGCTGCTCCTGCGGCACGTCGGATTCGCCGTGGGCAACGCCGCGAGCACCCTAGTGCTGAGCCTGACGTTCGGCCTACTGGGCCAGGCGCCGGGCCGAGGGCTTCTGCCCGGCTACTTCCGCAAGCTGAACCGTCTCGCGGCCGCCTTCGCCCTGCTCGCGGACCTCAGCATGATGCTGCTCGGCGGCGACCTGAAACGCCGCGAACGACTGTCGGCGCGCCTCGGCGACGTGCTCAGCTACCTCTACCTCGGCTCGGCGGCACTCAAGCGCTATCACGACCTCGGCTATCCGGAATCCCAGGAAGCGCTGCTGCGCTGGTCGCTGGAGGAGTCCCTGGCGGAAGCGGAGAAAGCGCTGGAGGGCATTCTCGGTAACTTCCCGAACCGCGTGCTCGGCTGCGCCCTGCGCGTGCTGGTGTTCCCCTTTGGTCGTCGACACAAGGGGCCTTCGGATGCGCTGGACGAGCAGGTCGCGGAGGTCCTCGGTCGCCCCGATGGCGATCCGGCCCTGGAGCAACTCGTCGAGGGCTGCTACCGCCCGCAGGACCCGCAGGATGCGGTAGGCGCCCTGCGACATGCCTATAACCTGCTGCAGGCCAGCCGCGACACCGCCAGAAAGCTCCAGCATGCGCTTAAGGATGGCCGCGTGGTTCCGAAAGCCGGGGAAAACCCCATCGATGCCGCCCTCGCCGCCGGTGCTCTGGAGCCAGGCGAAGCGCAACGTCTGCATGAAGCGGAACAGGCGCGACGGGCGGTGATCGATGTCGACGATTATGCCAAGGAGGACTTGCAACTGGAGGCCGGCAAGGTTCGCTGA	MSLVWILILLLGIACLAHWRLAPLPSLALVALYLVVMGSADEVPGWLMLILWLLWLAVALPLLIPELRRTLITGPMFDWFRKILPPISDTEREAIDAGTVWWDGELFSGRPDWDKLLAYPPAKLTEEERAFLDGPTERLCAMVDDWQVGQRMDLPEEVWAYIKEQGFFALIIPKEYGGKGFSAYAHSQIVMKLATRSGDLASTVMVPNSLGPAELLLHYGTEDQRNRYLPRLASGEEIPCFALTGPYAGSDAGAMHDTGIICRGQWQGEEVLGLRLNWEKRYITLGPVATLLGLAFKTYDPDHLLGEREELGISLALIPTDLPGVEIGRRHIPLGAAFMNGPNSGKDVFVPLSFIIGGQDMIGKGWMMLMNCLSVGRSISLPAVGTSAAKATGYASGRYAQVREQFNVPLAAFEGIQEALARIAGNAWLMDSARVLTANAVDLGEKPSVLSAVLKYHLTERGRECIAHAMDIHGGKGIIMGPKNYLARSWQAAPIFITVEGANILSRNLMIFGQGAIRCHPYVLKEMELASAQDQDAARLAFDGLLLRHVGFAVGNAASTLVLSLTFGLLGQAPGRGLLPGYFRKLNRLAAAFALLADLSMMLLGGDLKRRERLSARLGDVLSYLYLGSAALKRYHDLGYPESQEALLRWSLEESLAEAEKALEGILGNFPNRVLGCALRVLVFPFGRRHKGPSDALDEQVAEVLGRPDGDPALEQLVEGCYRPQDPQDAVGALRHAYNLLQASRDTARKLQHALKDGRVVPKAGENPIDAALAAGALEPGEAQRLHEAEQARRAVIDVDDYAKEDLQLEAGKVR	PGPT0021800_522	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021800-fadE-K06445	NA	NA
BMS010_07231	669			hypothetical protein	ATGCAGCCATTCCTTCGACCCGGCCGCTTCGTGGATAGTGACCACCCCCTGGTAGTGGAGTTCGCCGAACGTGCCTGCGGGACGAGCCGCGACCCGCTGGAGCAGGCAATCGCTCTCTATTACGCGGTGCGCGACGGCATCCGCTACAACCCTTACTCGTTCAGTCGTGATCCGGATACCTTGAAGGCCAGCCATGCCCTGGTCTCCGGCGAAAGCTATTGCGTGCCGAAGGCGATTCTGCTGGCCGCTTGCGCCCGGCATTGCGGCATCCCGGCACGGATCGGCCTGGCCGACGTACGCAACCACTTGTCCACGCCGCGCCTGCTGGAATTGCTGCGGAGCGAGGTATTCGCCATGCATGGCTACACCGAGCTGTATCTGGATGGACGATGGGTCAAGGCGACACCTGCGTTCAACCTGGCCCTGTGCCGTCTGTTCGACGTGGCGCCGTTGGAGTTCGACGGCCGGCAGGACAGCGTTTTTCATCCATTCAACCGCCAGGGGCAGCGTTACATGGAGTATCTGGTCGACCATGGCCAGTTCGACGATCTGCCGGAATCGCTGTTTTTCGGCCATCTGGAGCGATGCTACCCGCACTTGTTCGCCGCCGATGCGCCACCCCTGTTGGGTGACATGCATCGGGAAGCCAGCGGCAGCGAGAGCGGCTAG	MQPFLRPGRFVDSDHPLVVEFAERACGTSRDPLEQAIALYYAVRDGIRYNPYSFSRDPDTLKASHALVSGESYCVPKAILLAACARHCGIPARIGLADVRNHLSTPRLLELLRSEVFAMHGYTELYLDGRWVKATPAFNLALCRLFDVAPLEFDGRQDSVFHPFNRQGQRYMEYLVDHGQFDDLPESLFFGHLERCYPHLFAADAPPLLGDMHREASGSESG				NA	NA	NA	NA	NA
BMS010_07232	585	gstB_2	COG0625	Glutathione S-transferase GstB	GTGCGCAAGGTGCTCTGGTGTGCCGAGGAACTCGGCCTGCCGTACGAGCGAATCGATGCCGGTGGCGCGTTCGGTGTGGTGAACGACCCGGCGTTCCGGGCGAAGAATCCGAACGGTCTGGTGCCTTTGATCGAGGACGGCGATTTCCTGCTCTGGGAATCCAATGCCATCGTCCGCTACCTCTGTGCTCGCCATGGCGAAGGCTCGTTGCTGCCGGACTTGTTGACGCAGCGGGCCAGTGCCGACCGCTGGATGGACTGGATGAGCACGTCCTTTGTCGATCCCTTCCGGACCGTGTTCTGGGGGCTGGTGCGTACATCCGAGGCGGAGCGCGACCTGCCCGCCATCCAGGCGGCCGTCGCCCGCTGCAACGAGCTGCTGGCCATCCCCGCGCGGGCTCTGGAGACACAGCCGTTCCTGTCCGGCGAGCGCCTGGGCATGGGCGATATCCCGCTGGGCAGTTTTATCTACGGCTGGTTCGAAATGCCCATCGAGCGGCAGCCGCGGCCGGCGCTGGAAGCCTGGTACGAGCGCTTGAAGCAACGGCGGGCCTATCGGCATGGGGTGATGACCGAGTTGACCTGA	MRKVLWCAEELGLPYERIDAGGAFGVVNDPAFRAKNPNGLVPLIEDGDFLLWESNAIVRYLCARHGEGSLLPDLLTQRASADRWMDWMSTSFVDPFRTVFWGLVRTSEAERDLPAIQAAVARCNELLAIPARALETQPFLSGERLGMGDIPLGSFIYGWFEMPIERQPRPALEAWYERLKQRRAYRHGVMTELT	PGPT0013170_18558	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS010_07233	933	yadG_1	COG1131	putative ABC transporter ATP-binding protein YadG	ATGAGTTCCGCCCTGTCCATCCGGCAGTTGACCAAGACCTACGGCAACGGATTCCAGGCCCTCAAGGGCATCGATCTGGACGTGGCCGAAGGCGATTTCTTCGCCTTGCTCGGCCCCAACGGTGCTGGCAAGTCCACCACTATCGGCATCCTCTCCACCCTGGTGAACAAGACTAGCGGCACGGTGAACGTGTTCGGTCACGACTTGGACAAGGAGCCCTATGCACTGAAGCGTTGCCTCGGCGTGGTGCCCCAGGAATTCAACTTCAACCAGTTCGAGAAGGTCTTCGACATCGTCGTGACCCAGGCCGGCTACTACGGGATTCCGAGCAAGCTGGCGAAGGAGCGCGCCGAGGAGTACCTGAACCAGCTCGGCCTGTGGGACAAGCGCAATTCCGCGTCCCGCGAGCTGTCCGGTGGCATGAAGCGGCGCCTGATGATCGCCCGGGCGCTGGTCCATCGGCCGCGCCTGCTGATCCTCGACGAGCCGACCGCCGGGGTGGACATCGAGCTGCGTCGCTCGATGTGGAGTTTCCTCACCGAGCTGAACCAGAAAGGCATCACCATCATCCTCACCACGCACTACCTGGAGGAGGCCGAGCAGCTCTGCCGCAACATCGGCATCATCGACCACGGGCGCATCGTCGAGAACACCAGCATGCGCGAGCTGTTGAAGAAGCTGCACGTGGAAACCTTCGTGCTCGACCTCAAGGAGTCGCTGTTGATCGAGCCGCAACTGGAGGGCTACCCGGCTCGCCTGCTGGATTCCCATACCCTGGAAGTGCAGGTGGAGAAGCACCTCGGCATCACCGAGCTGTTCCGCCAATTGGCGGCGCAGCACATCGAGGTCTTCAGCCTGCGCAACAAGACCAACCGCCTCGAGGAGCTGTTCGTCTCCCTGGTGGAACAGAACCTGGCGAAGGTAGCGAAATGA	MSSALSIRQLTKTYGNGFQALKGIDLDVAEGDFFALLGPNGAGKSTTIGILSTLVNKTSGTVNVFGHDLDKEPYALKRCLGVVPQEFNFNQFEKVFDIVVTQAGYYGIPSKLAKERAEEYLNQLGLWDKRNSASRELSGGMKRRLMIARALVHRPRLLILDEPTAGVDIELRRSMWSFLTELNQKGITIILTTHYLEEAEQLCRNIGIIDHGRIVENTSMRELLKKLHVETFVLDLKESLLIEPQLEGYPARLLDSHTLEVQVEKHLGITELFRQLAAQHIEVFSLRNKTNRLEELFVSLVEQNLAKVAK	PGPT0006725_8830	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
BMS010_07234	780	yadH_1	COG0842	Inner membrane transport permease YadH	ATGAGCAGTGAACTACGCCCGAACCTGATTGCCCTGCAGACCATCGTCGTGCGCGAGGTGCGCCGTTTCCTGCGCATCTGGCCGCAGACCCTGCTGCCGCCAGCGATCACCATGGTGCTGTACTTCGTCATCTTCGGCCGGTTGATCGGTTCGCGCATCGGCGAGATGGACGGCTTTACCTACATGGAATTCATCGTGCCGGGCCTGATCATGATGTCGGTGATCACCAACGCCTACGGCAACGTGGTGTCCAGTTTCTTCGGCAGCAAGTTCCAGCGCTCCATCGAAGAGCTGCTGGTCTCGCCGGTTTCGGCCCACATCATCCTCATCGGCTACGTGGTCGGCGGCATCCTGCGCGGTCTTGCGGTGGCGGCCATCGTGACGATGCTGTCGCTGTTCTTCACCGACCTGTCGGTGCACCACCTGGGGGTGACGGTGCTGGTGATCGCCCTGGCGGCGACGATCTTTTCCCTCGGCGGCTTCATCAATGCCGTCTATGCGCGCAACTTCGATGACATTTCGATCATCCCGACTTTCGTGCTGACGCCGTTGACCTACCTGGGCGGGGTGTTCTATTCGATCCACCTGCTGCCGGGCTTCTGGCAGGCGCTGTCGATGGCCAACCCGATCCTGCACATGGTCAATGCGTTCCGCTACGGCATTCTCGGGGTGTCGGACATCAACATCGGCACCGCCATCGCCTTCATGCTGGCGGCCACGGCGGTGCTGTATGTCTATTGCATCCGTCTGCTGGTCAGCGGGCGCGGCATGCGCCAGTGA	MSSELRPNLIALQTIVVREVRRFLRIWPQTLLPPAITMVLYFVIFGRLIGSRIGEMDGFTYMEFIVPGLIMMSVITNAYGNVVSSFFGSKFQRSIEELLVSPVSAHIILIGYVVGGILRGLAVAAIVTMLSLFFTDLSVHHLGVTVLVIALAATIFSLGGFINAVYARNFDDISIIPTFVLTPLTYLGGVFYSIHLLPGFWQALSMANPILHMVNAFRYGILGVSDINIGTAIAFMLAATAVLYVYCIRLLVSGRGMRQ	PGPT0006730_17542	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
BMS010_07235	1029	mdtA_8		Multidrug resistance protein MdtA	ATGTCCACCCGTGCGTATTCCCTGGTCGTGGCCGCGGCCTTGCTGTGGTCGGGTTTCTCCCTTGGAGAGGAGCCGCAAGGGCCCCTGGTCGAAGTGGTACAGCCACAGCGGACGCTGGTGCGCGATGAGCTGATTACCTTCGGCTCGCTGCGATCCGACGAGTCGGTGACGATCCGGCCGGAAATCGAAGGCCGGGTGAGCCGGCTGCATTTTCGCGAAGGGCAGGCGGTGAGTGGCGGCGATCTGCTGGTTAGCCTGGACGATGCCATCGCCCGTGCTGAACTGGCCCAGGCCCGGGCCAATCTCGATCTCGCGGAAAAGAACTACCAGCGCGCGCAGATGCTCTTCAAACGCGGCGCCAGCAACGCCCAGGCGCTGGACGAGGCACAGTCCCAGCAGCAGGCGGCGCGCGCCAGCCTGGCGTTGTCCCAGGCACGACTGGAGAAAACACAGATTCGCGCGCCCTACGATGGCGTGCTCGGTCTGCGCCAGATCAGCGTCGGCGACTATGTCGAGGCGGGCCAGGATATCGTCAACCTGGAAGTGCTCGACCCGCTCAAGGTGGATTTCCGTGTGCCGCAGAAGGCGGTGGGGCAGATCGAACTCGGCCAGGTGGTCGAGCTCAGCCTCGATGCCTATCCGGGCGAGGTGTTCCGTGGCGAGATCGTCGCCCTCAACCCTCGCCTGGACGAAGTGGGCCGTAGCCAGGCGGTGCGTGCCCAGGTCGGCAATGGCGACCACCGCCTCAAGCCGGGGCAGTTCGTGAAGGTTTCGGTGATTCTTGCCGAACGTCCGCAGGCACTGGTGATTCCCGAGGAAGCGGTGATGCCGCTGGGGAACAAGCTGCTGGTCAACCTGGTGGTCGACGGCAAGGTGGAGCTGCGCGAAATCCAGGTCGGCCGCCGCGAGCGCGGACGGGTCGAGGTGAACGCAGGATTAAGCGGCGACGAAACCCTGATCAGCGCCGGCTGGCAGAAGGTCAAGCCGGGCATGGCGGTCCGCAGCAAACCGGCCGGGGAGGGCGCATGA	MSTRAYSLVVAAALLWSGFSLGEEPQGPLVEVVQPQRTLVRDELITFGSLRSDESVTIRPEIEGRVSRLHFREGQAVSGGDLLVSLDDAIARAELAQARANLDLAEKNYQRAQMLFKRGASNAQALDEAQSQQQAARASLALSQARLEKTQIRAPYDGVLGLRQISVGDYVEAGQDIVNLEVLDPLKVDFRVPQKAVGQIELGQVVELSLDAYPGEVFRGEIVALNPRLDEVGRSQAVRAQVGNGDHRLKPGQFVKVSVILAERPQALVIPEEAVMPLGNKLLVNLVVDGKVELREIQVGRRERGRVEVNAGLSGDETLISAGWQKVKPGMAVRSKPAGEGA	PGPT0003275_6382	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003275-acrA|lir|mtcA|mexA|adeI|smeD|mtrC|cmeA-K03585	NA	NA
BMS010_07236	3069	bepE_2		Efflux pump membrane transporter BepE	ATGACGCTCTCCGACGTCTGCATCCGCCGCCCGGTATTCGCCACCGTCCTATCGCTGATCATCGTCCTGCTCGGGCTGATGGCCTACCAGCGGCTGTCGGTGCGCGAGTATCCGAATATCGACGTGCCCATCGTCACGGTCAACGTCACCTATCCAGGCGCCAGCCCGGAGATCATGGAGTCGCAGGTGGCGCAGCCGATCGAGGACGTGCTGTCGGGCATCGAGGGGCTGGATTTCGTCAGTTCCATCAGTCGTTCGGAAAACACCCAGATCACCGCGCAATTCCGCCTCGGCAGCAATTCCGACGAAGCCGCCAACGATGTGCGCGACCGTCTCGGACGCGTGCGCGGCCTATTGCCCGAGGAAATCGACGAACCCATCGTGCAGAAGGTCGAGGCCGACGCCCAGCCGGTCATCTGGATGGCGTTCTTCAGCGAGCGCTATTCGGCGATGGAAATCACCGATGTGCTGGAGCGGGTGATCCAGGATCGCCTGCAGACCATCCCCGGCGTCTCCGAGGTACAGATTCGCGGCGCGCGAACCTTCGCCATGCGCATCTGGCTGGACCCGGAGAAGCTGGCCGCCCACGGGCTCACCGTACAGGACGTGGAAGATGCGCTGCGTCGGCAGAACGTGGAAATTCCCGCCGGCCGCATCGAGTCGCAGCAACGCGAGTTCACCGTGCTGTCGGAGACTGACCTGAGGACACCGGACGAATTCAACGACCTGATTCTCGACGACTCGCGCGGCTACCTGCTGCGCCTCTCGGATGTGGGACGGGCGGAGATCGGCCCGGCGGATGTGCGCAGCGTGGTGCGCTACAAGGGCCGGCCGGCCGTGGTGATCGGCATGGTCAAGCAGGCGACGGCCAACCCGCTGGAGATATCCGACGGCCTTGCCGAGGCGATGCCGGCGATCCGCGACCTGTTGCCCGACGGTATGGAAATGGCCGTGGCCAACGACAACTCGCTGTTCATCCGCGAGTCGATCAACAACGTCTACGCCACTATCTGGGAAGCGGTGGCACTGGTCATCCTGATCATCTTCCTGTTCCTCCGCTCGTTGCGCGCTACGCTGATCCCGCTAGTGACCATCCCGGTCTCGCTGATCGGTGCCTTCGCCCTGATGTCGCTGATGGGCTTCACCATCAACACCCTGACCCTGCTGGCCATGGTCCTGGCCATCGGTCTGGTGGTGGACGATGCCATCGTCATGCTGGAGAACATCCACCGGCACATCGAGGAGGGTATGCAGCCATTGCAGGCGGCGCTCAAGGGTAGTCGCGAGATCGCCTTTGCGGTGATCGCCATGACCCTGACCCTGGCGGCCGTCTATGCGCCCATCGGCTTCATGCAGGGCACCACCGGCAAGTTGTTCACCGAGTTCGCCTGGACTCTCGCCGGTGCGGTGTTGGTGTCCGGCTTCGTCGCACTGACCCTGTCGCCGATGATGTGCGGCCATCTGCTCAAGCCGCACCGGGCCAACGAACGGCACAGCCGGGTGTACAACCTGATCGAAGGCTTCCTCAATGGCGTGATCTATCGCTACAAGCACCTGCTGCAGTGGGTGCTGAGCGCCTGGGTGATGGTCGTGGCGGTGCTGCTGGCGGTGCTGCTGGTCTGCGTCTGGCTGTTCCTCGGGCTGCGTTCGGAGCTGGCGCCGACCGAGGACACCGGCACCATCATCGGTGTGATCAACGGCCCGGACGGCGCCACCATCGGCTACACCAGCCGCTATGCGCGGCAACTGGAGCAGGCCTATGCGAGCGTTCCCGAGACCAACCGCTACCTGGTGGTCGCCGGTTTCCCCACGGTGACCCAGGGCATTTCCTTCATGAAGCTGGAGGATTGGGATAAGCGCGAGCGCAGCCAGTTCGAGATCCGCCAGGAACTGCTGCCCAAGCTGCAGGACATCACCGGCGTGCGCGCCTTCCCGGTGAACCGCCCGCCGCTCGGGCAGAGCGCGCGCAACCAGCCGGTGAACTTCGTCATCCGCTCCTCGCTGGAATACGCCGAACTGGAGACCTACGTGGATCAGTTGCTGGCGAAGATACGCAACTATCCCGGCCTGGAAAGCGTGGACAGCGACCTCAAGCTGAACACGCCGCAATTGAAGGTCCAGGTGAACCGCGAGCAGGCCGTGGCGGTGGGCACCGATGTCGCCACCATTGGCCGCAGCCTGGAAAGCCTGTTCGGCAGCCGCCAAGTGACTCGCTTCAAGCAGAACGGCGAGCAGTACGACGTGCTGGTGCAACTGGCGGACGTCGACCGCAGCAATCCGGCGGACCTCGATCGGGTCTACGTGCGCGCCGGCGACGGTTCCATGGTGCAGCTATCGAACCTGATCGATGTGAAGGAAACCGTCGCACCCCGCGAACTCAATCACTTCAACCAGTTGCGGGCGGTGACCATCACCGCCAACGTCGGCGCCGGCTACACCCTCGGCGAGGCGCTGGAGCACCTGGAAGCCGAGGCCCGGCAGATCTTCCCGGAGGACACCCAGTTCGATTACACCGGTACCTCGCGGGACTTCAAGGAATCCAGTTCGGGTATCGCACTGATCTTCGTACTCGCCCTGGCCTTCATCTATCTAGTGCTGGCGGCGCAGTTCGAGAGTTTCTTCGATCCGCTGATCATCCTGTTCAGCGTGCCCTTGTCCATGGCGGGTGCGCTGTTGGCGCTCAAGTTGTTCGGCGGCACCCTGAACATCTACTCCCAGGTGGGGCTGGTGACGCTGATCGGCCTGATTACCAAGCACGGTATCCTGATCGTCGAGTTCGCCAACCATCTGCTGCGCGAAGGGCACGAGCTGCGCAGCGCGGTGCTGGACGCCTCGGTGCAGCGCCTGCGGCCGATCCTGATGACTACCGGCGCCATGGTGCTCGGTTCGTTGCCGTTGGCCATCGCCTCCGGGGCCGGTGCGGAAAGCCGCCAGCAGATCGGCATGGTGATCGTCGGTGGGTTGCTGGTGGGAACCTTCTTCACCCTGTTCGTGATCCCGACGCTCTATTTGTTGTTACGCCGTTGGCGGCCGTTGCGTCAGGAAATCCCGGAGCCGTCGCTGGCTTGA	MTLSDVCIRRPVFATVLSLIIVLLGLMAYQRLSVREYPNIDVPIVTVNVTYPGASPEIMESQVAQPIEDVLSGIEGLDFVSSISRSENTQITAQFRLGSNSDEAANDVRDRLGRVRGLLPEEIDEPIVQKVEADAQPVIWMAFFSERYSAMEITDVLERVIQDRLQTIPGVSEVQIRGARTFAMRIWLDPEKLAAHGLTVQDVEDALRRQNVEIPAGRIESQQREFTVLSETDLRTPDEFNDLILDDSRGYLLRLSDVGRAEIGPADVRSVVRYKGRPAVVIGMVKQATANPLEISDGLAEAMPAIRDLLPDGMEMAVANDNSLFIRESINNVYATIWEAVALVILIIFLFLRSLRATLIPLVTIPVSLIGAFALMSLMGFTINTLTLLAMVLAIGLVVDDAIVMLENIHRHIEEGMQPLQAALKGSREIAFAVIAMTLTLAAVYAPIGFMQGTTGKLFTEFAWTLAGAVLVSGFVALTLSPMMCGHLLKPHRANERHSRVYNLIEGFLNGVIYRYKHLLQWVLSAWVMVVAVLLAVLLVCVWLFLGLRSELAPTEDTGTIIGVINGPDGATIGYTSRYARQLEQAYASVPETNRYLVVAGFPTVTQGISFMKLEDWDKRERSQFEIRQELLPKLQDITGVRAFPVNRPPLGQSARNQPVNFVIRSSLEYAELETYVDQLLAKIRNYPGLESVDSDLKLNTPQLKVQVNREQAVAVGTDVATIGRSLESLFGSRQVTRFKQNGEQYDVLVQLADVDRSNPADLDRVYVRAGDGSMVQLSNLIDVKETVAPRELNHFNQLRAVTITANVGAGYTLGEALEHLEAEARQIFPEDTQFDYTGTSRDFKESSSGIALIFVLALAFIYLVLAAQFESFFDPLIILFSVPLSMAGALLALKLFGGTLNIYSQVGLVTLIGLITKHGILIVEFANHLLREGHELRSAVLDASVQRLRPILMTTGAMVLGSLPLAIASGAGAESRQQIGMVIVGGLLVGTFFTLFVIPTLYLLLRRWRPLRQEIPEPSLA	PGPT0003280_3669	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003280-acrB|acrE|mexB|adeJ|smeE|mtrD|cmeB-K18138	NA	NA
BMS010_07237	1368	sasA_23		Adaptive-response sensory-kinase SasA	ATGATCGCCCGCCTTTCCCTCGCATCGCGCCTGGCGCTGTTGTTCGCGGTCTGCACCGCCAGCGTCTCGCTGCTTGCCGGCGTGCTGTTCAGCCGTGCCAGCGAGGCGCACTTCGTCGATCTGGACCAGCAACTCATGGACGCTCGTCTGGAGCACTTCCGCACGCTGCTGCAGGGCGTCGATACGCAGGCGGCACTGGAAGCCAGGCGCGAAGAGCTGGAACTGGAGCTGATCCACCAGCCCGACCTCGGGCTGCGCCTGCACGGCCCGGACGGCAAACTGTGGTTCGCCTACCCCGCCCGCCTGTCCCGCGAGGACCTGATGCTGCCTGCGCCCGGGCGATTCCACGACTGGCAGCTCGAAGACAGCCTCTACCGGGTACTGCACGCCCCGCTGCTTCCGCGTTTCACCCTCGGCCCCAAGCTGACGCTGTTGCTGGATATCACTCATCACCAGCACTTCCTCGAGGGGGTACAGCGGGCGATCTGGGCGACCATGGCCCTCGCCGCCCTGGCCACCGCGCTGCTGGGCGGCTGGGCTGCGCGTCGGGGGCTGCGGCCACTGCGTGAGATGTCGGAAATCGCCGCCGGCGTGTCGGCACAATCCTTGACGGTGCGCCTGGACGAACAATCGGTTCCGGTCGAGTTGCGCGGGCTGGTGCAAGCGCTGAATGCCATGCTGGCGCGCCTCGAAGAAGCCTTTAAACGGCTCTCGGCATTTTCCGCAGACATCGCCCACGAACTGCGGACGCCGCTCACCGCTCTGCTGACCCGGACCCAGGTGGTGCTGTCGCAGCCACGCAGCCAGGACGAGTACCGAGAGGCCCTGCACGACAATCTGGATGCGCTCGAACAACTGACCCAGATGGTCAACGACATGCTTCTGCTGGCCAAGGCCGAGCATGGGTTGCTCGCCCCCCATCGCGAACCGCTGTCGCTGAGCGAGGAAATCGGCGGTCTGCTGGAATTCTACGAACCGGTGGCCGAGGAAGCGGAGGTCCGCTTTGCCCTGGAGGGAGACGGCACGCTCTACGCCGACCGCAGCCTGCTACGCCGCATGCTCGGCAATCTGCTGGAAAACGCCTTGCGCCATACTCCACCGGGCGGCCAGATCCTCATCCAGATACTGGCCCACGCTGGCGGCCTGCAACTGGTGGTGGAAAACCCCGGCACGGAAATCCCCGGCGAGCTGTTGCCACGTCTGTTCGACCGCTTCGCCCGCGGTGCTCCGACCGGCGCAACGAACGGCAGCGAGCATGCCGGCCTTGGGTTGGCCATCACCCGTTCGCTGATGGAGGCCCACGGTGGGCGTATCCAGTGCGAATCGAGCGATGGCCTGACCCGATTCATCCTCGAATTCCCCGCCTGA	MIARLSLASRLALLFAVCTASVSLLAGVLFSRASEAHFVDLDQQLMDARLEHFRTLLQGVDTQAALEARREELELELIHQPDLGLRLHGPDGKLWFAYPARLSREDLMLPAPGRFHDWQLEDSLYRVLHAPLLPRFTLGPKLTLLLDITHHQHFLEGVQRAIWATMALAALATALLGGWAARRGLRPLREMSEIAAGVSAQSLTVRLDEQSVPVELRGLVQALNAMLARLEEAFKRLSAFSADIAHELRTPLTALLTRTQVVLSQPRSQDEYREALHDNLDALEQLTQMVNDMLLLAKAEHGLLAPHREPLSLSEEIGGLLEFYEPVAEEAEVRFALEGDGTLYADRSLLRRMLGNLLENALRHTPPGGQILIQILAHAGGLQLVVENPGTEIPGELLPRLFDRFARGAPTGATNGSEHAGLGLAITRSLMEAHGGRIQCESSDGLTRFILEFPA	PGPT0004980_1481	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0004980-cusS|copS|silS-K07644	NA	NA
BMS010_07238	681	copR_2		Transcriptional activator protein CopR	GTGAAGCTATTGATCGTCGAAGACGAACCCAACATCGGCCGCTATCTGCGCCAGGGTCTCGGCGAAGCCGGCTATGCAGTCGACTGGGTGAACGACGGCCTGGAAGGCGAACAGTTGGCTCTGTCCGGCGATTACGATCTGCTGTTGCTGGATGTGATGCTGCCTGGCCGCGATGGCTGGCAGATCGTCCGCAAGCTGCGCGAGAAGGACCGCTCCACACCGGTGCTCTTTCTCACCGCCCGCGATAGCGTCGAGGACCGCGTACATGGCCTGGAAAGCGGTGCCGACGATTACCTGGTCAAACCGTTCGCCTTCGCCGAGCTGTTGGCCCGGGTGCGCAGCCTGCTGCGGCGCGGCACCGGTAACGCGCAAGAAACCCGCCTGGCCGTCGCCGACCTGGAACTCGACCTGCTGCGCCGCCGTGTCCAGCGTGACGGCCAGCGGATCGACCTCACCGCCAAAGAGTTCTCCCTGCTCGAACTGCTGATGCGCCGCCAGGGCGAAGTGCTGCCGAAATCCCTGATCGCCTCCCAGGTATGGGACATGAATTTCGACAGCGACACCAATGTCATCGAAGTCGCCATCCGCCGCCTGCGCGCCAAAGTCGACGACAACTATCCGCGCAAGCTCATCCATACCGTTCGCGGCATGGGCTACGTGCTGGAGGACCAGGACGCATGA	MKLLIVEDEPNIGRYLRQGLGEAGYAVDWVNDGLEGEQLALSGDYDLLLLDVMLPGRDGWQIVRKLREKDRSTPVLFLTARDSVEDRVHGLESGADDYLVKPFAFAELLARVRSLLRRGTGNAQETRLAVADLELDLLRRRVQRDGQRIDLTAKEFSLLELLMRRQGEVLPKSLIASQVWDMNFDSDTNVIEVAIRRLRAKVDDNYPRKLIHTVRGMGYVLEDQDA	PGPT0004105_426	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0004105-cusR|copR|silR-K07665	NA	NA
BMS010_07239	165			hypothetical protein	ATGCGAATCTTTTCCCTTTCCATCCTGTTGCTGGCCCTGTTTCAAACCATGCCGGCCTCTGCCGAAGGTGGCGGTGACCGTGTGATCGCCCGCATCGAGCAGCAAACCAAGACGCCTCAGGTCACTCATCAGGGCAGCGAGACGTCGGGCGGACGGCACTGCTGA	MRIFSLSILLLALFQTMPASAEGGGDRVIARIEQQTKTPQVTHQGSETSGGRHC				NA	NA	NA	NA	NA
BMS010_07240	831	queF_2	COG0780	NADPH-dependent 7-cyano-7-deazaguanine reductase	ATGCATCCCTCCGCCGAGCATTCGCCCCTGGGCAAGTCCAGCGAATACATTGCCATCTATACCCCCGAGCTGCTGTTCCCCATTCCTCGTGCGCCCAAGTGGGCCGAGCTGGGGCTGAGTGCACAGGCGCTTCCTTACCAAGGCGTGGATATCTGGACCTGCTACGAGCTGTCCTGGCTGGCGCCCTCCGGCAAGCCCTGCGTGGCCATCGGCGAATTCGCCATCCCGGCCGACTCGCCGAATATCATCGAGTCCAAGTCGTTCAAGTTGTATCTCAACTCGCTGAACCAGACGGTCTTTGCCGACCGCGTCGAGTTGCAGGCAACGCTGGAAAGGGACCTGTCCTCGGCAGCCGGCAAGTCGGTGGCGGTGCGGGTGCGCAATTTGGACGAGGTTGCAGCGGAGGGTGTGGCACTGCTGCCGGGGCGCTGCATCGACGACCTGGACGTGACGATCTCCCGCTACGACCACCCACAGCCGGAGCTGCTGCGATGCGATCCGGAGCGGCAGGTCGAGGAGTGCCTGTACAGCCATCTGCTGAAGTCCAACTGTCCGGTCACCGGGCAGCCCGACTGGGGCAGTGTGGTGGTGGATTACCGTGGTCCGGCCCTGGATCCGGCCAGCTTGCTGGCCTATCTGGTGAGCTTCCGCCAGCATGCGGATTTCCATGAGCAGTGCGTCGAGCGGATCTACCTGGATCTGCTGCGTCTGCTACGGCCGGAACGGCTGACGGTCTATGCGCGCTATGTGCGCCGTGGCGGCCTGGACATCAATCCGTACCGCAGCACGGATGCCTTGCAGCCGGACAATCGCCGGCTGGTGCGGCAGTAG	MHPSAEHSPLGKSSEYIAIYTPELLFPIPRAPKWAELGLSAQALPYQGVDIWTCYELSWLAPSGKPCVAIGEFAIPADSPNIIESKSFKLYLNSLNQTVFADRVELQATLERDLSSAAGKSVAVRVRNLDEVAAEGVALLPGRCIDDLDVTISRYDHPQPELLRCDPERQVEECLYSHLLKSNCPVTGQPDWGSVVVDYRGPALDPASLLAYLVSFRQHADFHEQCVERIYLDLLRLLRPERLTVYARYVRRGGLDINPYRSTDALQPDNRRLVRQ				NA	NA	NA	NA	NA
BMS010_07241	267			hypothetical protein	ATGGCCACACGCGACCTGCAGCAACAACTGGAGGACCTGCGCGATCAACTGGCTCGGGGCACGCCCCTGAGCGACGAGGAGCGCGCCTCGTTGCTGGCCTTGATGCGGGATATCGAAGTGGAGCTGGAACGGCAGACCTCCGACGAACCGGACCCGACCCTGGTGGACGGAGTCAACCTGGCCGTCGAACGCTTCGAGGTCAGCCATCCCACGCTGGCCGGCACCCTGCGCAACATCCTGCAGAGCCTGGCCAACATGGGCATCTAG	MATRDLQQQLEDLRDQLARGTPLSDEERASLLALMRDIEVELERQTSDEPDPTLVDGVNLAVERFEVSHPTLAGTLRNILQSLANMGI				NA	NA	NA	NA	NA
BMS010_07242	738	phnX	COG0637	Phosphonoacetaldehyde hydrolase	ATGCCCGCCACCGCTATCGAGCCCCCCGCCTTTTCCGCTGTGCTCTTCGGCCTGTCCGGCTGTCTGGTGGATTTTGGCGCTCGCACCCTGCCCGTTGCCCTGCAATACGCCTTTCCTCGTCACCAGGCTCTCGACAGAGCCGAGCGCCACCCCGAAACAGCCCTGCGTGCCTGGCTCGAACGCGTTCCCGACGAGGCGGATCGACATACTCTCACCCGGGCGTTGACACAAGCGGCCGTCGAACACGCCGAACTCACCCCTGGATGCCGGGAGCTGCTGGCTGATCTCTTCCGCCAGGACGTGCGCTGTGCCTGGCTGGACGAGCTGCCGAGCGATGCCAGCCAGACGTTGGCCAGCGTGTTGCCGGACAGACTGGTCGGCGTCGCCGCTTCGCCCTCTCGCCCCTGGCCGGCGCCGGACGCCTGCTGGCAGGCGTTGATGGCGGTCGAGGCCGACGACCCACGCCGCTGCGTATTGGTCAGCGGCGATCCACGCCTGCTCCGCTCGGGACTGAACGCCGGCGTTTGGACCGTGGGCCTGGCCGCCTGCGGCCCCCTTTGCGGCCTGGCTCCCGCCGATTGGCAGGCACTCGCCCCGCTGGAGCGCGATCGTCTTCGCGCCCAGGCCACGCTCGAGCTGTATCGCCTGGGTACCCACTCGGTGATCGATCACCTGGGCGATCTCGCCACCTGCCTGGAAGACTTGGCGGTCCGCCGGCAGAAAGGGGAAAAGCCCTAA	MPATAIEPPAFSAVLFGLSGCLVDFGARTLPVALQYAFPRHQALDRAERHPETALRAWLERVPDEADRHTLTRALTQAAVEHAELTPGCRELLADLFRQDVRCAWLDELPSDASQTLASVLPDRLVGVAASPSRPWPAPDACWQALMAVEADDPRRCVLVSGDPRLLRSGLNAGVWTVGLAACGPLCGLAPADWQALAPLERDRLRAQATLELYRLGTHSVIDHLGDLATCLEDLAVRRQKGEKP				NA	NA	NA	NA	NA
BMS010_07243	420			hypothetical protein	ATGCAGAAAAAACGATTGCTCCATATTGCACATATCCCGGTACGCTGGGGCGACATGGACTCCTATGGCCATGTCAACAACACCCTTTATATGCAGTACCTGGAAGAGGCGCGGGTCGCCTGGTTCGAGCAGCTTGGCATCGCCATGAACAACGTGCCGCAGGGGCCCGTGGTTCTCCAGACCCTCCATACCTACCTCAAGCCGGTGGTACATCCCGCCACGGTGGTGGTCGAACTCTTCGCCGGCGCGCTCGGCCGTACCAGCCTGGTGGTGGAACACCGGCTCTCCACGCTGGAAGACCCCGATCACTGTTACGGCGAAGGCCACTGCAAGCTGGTCTGGATCGACCACGGCAACGACCGACCGGTCCCTGTACCGGACGATCTTCGGGCGGTGTTCGAAGAGGCCTACATCGAATAG	MQKKRLLHIAHIPVRWGDMDSYGHVNNTLYMQYLEEARVAWFEQLGIAMNNVPQGPVVLQTLHTYLKPVVHPATVVVELFAGALGRTSLVVEHRLSTLEDPDHCYGEGHCKLVWIDHGNDRPVPVPDDLRAVFEEAYIE	PGPT0001850_6267	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107	NA	NA
BMS010_07244	702	mlaA	COG2853	Intermembrane phospholipid transport system lipoprotein MlaA	ATGCGTGAGTCCGGTGCGAACTGGGTCGGTCGTCTGGGCCGGCTGCTGGCCTGTGCCAGCCTGGTGCTATTGCCGGTCGCGGTACAGGCCGCCGAGGAAGACCCGTGGGAGGGCTTCAATCGCGCTGTCTTCCGCTTCAACGATACCCTCGATACCTATGCCTTGAAGCCGCTGGCTCAGGGCTATCAGAAGGTCACCCCGCAATTTCTCGAGGACGGTGTCCATAACGTCTTCGGTAACCTGGGCGATGTCGGCAACCTGGCGAACGATCTGCTCCAGGCCAAGTTCCACGACGCGGGCGTCGATACCGGACGATTGATCTTCAACACCACCTTCGGCGTGCTCGGTTTCTTCGACGTGGCGACCCATATGGGGCTGCAGCGCAACGATGAAGACTTCGGCCAGACGCTCGGCGCCTGGGGGCTGGGCAGCGGCCCGTACCTGGTGCTGCCGCTGTTGGGGCCGAGCACCGTGCGCGATGCCGGTGGGCGAATCCCGGACAGTTTCCTGGAGCCATACCCTTACATCGATCATGTCCCGACCCGCAATGTCACCCGTGCGGTCGATGTGATCGATACCCGGGCGAGCCTGTTGTCGGCGGAAAAGATGATCAGCGGCGACAAGTACATCTTCATCCGCAACGCGTACCTGCAGAATCGCGAATTCCGCGTGAAGGACGGCGAAGTCGAAGACGACTTCTGA	MRESGANWVGRLGRLLACASLVLLPVAVQAAEEDPWEGFNRAVFRFNDTLDTYALKPLAQGYQKVTPQFLEDGVHNVFGNLGDVGNLANDLLQAKFHDAGVDTGRLIFNTTFGVLGFFDVATHMGLQRNDEDFGQTLGAWGLGSGPYLVLPLLGPSTVRDAGGRIPDSFLEPYPYIDHVPTRNVTRAVDVIDTRASLLSAEKMISGDKYIFIRNAYLQNREFRVKDGEVEDDF	PGPT0024485_2012	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024485-mlaA|vacJ-K04754	NA	NA
BMS010_07245	300			hypothetical protein	ATGAGTCTGAGCGATCGAGCCTACAGCGAGAAGCGCGACTACATCCGGATGCGCCTGGAAGCGCCGGTGATCCTGCAGTACGCCGGACGGGAGCTACCCGCCCTGTGCATCGACCTGTCGAGCACCGGCATGCAGCTGGAAGCCCAGTGTTCCCTGAACGTCGGCGATAAGGTCAAGGTCCGGATATCGTCGGATCACAGCCAACTCAAGGGTCTGGAAGCAGAAGCCGAAGTGGTGCGCGTCAGCGACCTCGAAGGCGGGCGGCAATCCGTGGGCCTGTCGATCCTGGCGATGCGCTGA	MSLSDRAYSEKRDYIRMRLEAPVILQYAGRELPALCIDLSSTGMQLEAQCSLNVGDKVKVRISSDHSQLKGLEAEAEVVRVSDLEGGRQSVGLSILAMR				NA	NA	NA	NA	NA
BMS010_07246	1188	rssB_5		Regulator of RpoS	ATGCACAATCCCAGTGCCACGCTGCTGATTATCGATGACGATGAGGTTGTACGCGCTAGCCTCGCGGCCTACCTGGAAGACAGTGGTTTCAGCGTTCTTCAAGCGAGCAACGGCCTGCAAGGGCTGGAAGTGTTCGAACGCGCGAAGCCCGATCTGGTCATCTGCGACCTGCGTATGCCGCAGGTAGACGGCCTCGAACTGATCCGCAGGATCAGCGAGCAGGAGGTCGACACCCCGGTGATCGTCGTTTCCGGTGCCGGTGTGATGAGCGATGCGGTGGAAGCGTTGCGCCTCGGTGCCGCCGATTACCTGATCAAACCCCTGGAAGACCTGGCCGTGCTCGAGCACTCGGTACGCCGGGCTCTCGATCGTTCGCGCCTGCGCCTGGAAAATCGCCGCTACCGGGAAAAGCTGGAAGCAGCCAACCGGGAACTGCAGGCCAGTCTCAACCTGCTGCAGGAAGACCAGAACGCTGGGCGCCAGGTGCAGATGAACATGTTGCCGGCTACGCCCTGGGTGGTGGATGGCAACCTGCAGTTCGCCCATCAGATCATCCCGTCGCTCTACCTTTCCGGCGACTTCGTCGATTATTTCCGTGTCGATGAGCGCCGGGTCGCGTTCTACCTGGCCGACGTTTCCGGGCACGGGGCATCGTCCGCTTTCGTCACCGTCCTGCTGAAGTTCATGACCACGCGGTTACTGTTCGAGTCCCGCCGCAATGGCACCTTGCCGGAGTTCAAGCCGTCCGAGGTGTTGGGGCATATCAACCGCGGCCTGATCAACTGCAAGCTGGGCAAACACGTGACCATGCTCGGTGGGGTGATCGATGAGCAGACCGGCCGTCTGACCTACAGCATCGGTGGGCATCTGCCGTTGCCGGTGCTCTATAGTCAGGGTGAAGCGCGCTATCTGGAGGGCCGCGGCTTGCCGGTGGGGTTGTTCGAAGAGGCGGTCTATGCCGACTACGAGCTGGAATTGCCCGAGTCCTTCAGCCTGACCTTGCTATCGGATGGCATCCTGGACCTTTTGCCGGGCGAAACGCTCAAAGAAAAGGAGGCCGTCTTGCCGCAACTGGTGAGCACGGCGGGCGGCAGTCTAGATGGTCTGCGTCAGGTGTTCGGGTTGGCCAAATTGGGCGAGATGCCGGATGATATCGCCTTGCTGGTGTTGAGCAGGAACCTTGCATGA	MHNPSATLLIIDDDEVVRASLAAYLEDSGFSVLQASNGLQGLEVFERAKPDLVICDLRMPQVDGLELIRRISEQEVDTPVIVVSGAGVMSDAVEALRLGAADYLIKPLEDLAVLEHSVRRALDRSRLRLENRRYREKLEAANRELQASLNLLQEDQNAGRQVQMNMLPATPWVVDGNLQFAHQIIPSLYLSGDFVDYFRVDERRVAFYLADVSGHGASSAFVTVLLKFMTTRLLFESRRNGTLPEFKPSEVLGHINRGLINCKLGKHVTMLGGVIDEQTGRLTYSIGGHLPLPVLYSQGEARYLEGRGLPVGLFEEAVYADYELELPESFSLTLLSDGILDLLPGETLKEKEAVLPQLVSTAGGSLDGLRQVFGLAKLGEMPDDIALLVLSRNLA				NA	NA	NA	NA	NA
BMS010_07247	483			hypothetical protein	ATGAGTACTGGTAAAATCCAGTTTGCCGAGCAGGAAGGCACCTTCGTTCTCAAGTTCGTCGGTGAAATCCGCCTGACGCTGTGTTCGGCGCTGGATGCGACCATCGAGAAAATCTTCAGTGCGCTGAACTTCTCGGCGATCATCATCGATCTCACCGAGACGCGCAGCATCGACAGCACGACCCTGGGCTTGCTGGCGAAGCTGTCGATCCTGTCGCGCCAGAAGGTCGGCCTGCTGCCTACCGTGGTGACCACTCACCCGGACATCACTCGTCTATTGCAGTCGATGGGCTTCGATCAGGTGTTCAACATCGTCGATCGGCCATTGCCGCGTCCGGAATGCCTGTCCGACTTGCCGTCGCAAGATCAGTCCGAGGAAGTGGTGAAGGCCAAGGTGTTGGAAGCGCACCGGATTCTCATGGGCCTGAACGAATCCAACCGCGAAGCCTTCCACGATCTAGTCAGCGCGCTCGAACGCCACTGA	MSTGKIQFAEQEGTFVLKFVGEIRLTLCSALDATIEKIFSALNFSAIIIDLTETRSIDSTTLGLLAKLSILSRQKVGLLPTVVTTHPDITRLLQSMGFDQVFNIVDRPLPRPECLSDLPSQDQSEEVVKAKVLEAHRILMGLNESNREAFHDLVSALERH				NA	NA	NA	NA	NA
BMS010_07248	927	tal		Transaldolase	ATGACTTCTAAGCTGGAACAACTCAAGCAGTACACCACGGTAGTCGCCGATACCGGCGACCTGGACGCCATCGCCCGTCTCAAACCGGTCGATGCCACCACCAATCCTTCCCTGCTGTTCAAGGCTGCCGCGCTGCCGCGCTACGCCCAGTTACTGAACGATGCCGTGAACGGTTGCGACGGCGACCTGGGCCTGGCCTGCGACCGTTTCGCTGTCTCCGTCGGCCAGGAAATCCTCAGGGAGATTCCGGGGCGTATTTCCACCGAGGTGGATGCGCGCCTGTCCTTCGACACCCAGGCCACTCTGCGCCGCGCGGAACGTCTGATCGGCCTCTACGAGAAGGCCGGGATCGGTCCGGAACGTGTGCTGATCAAGATCGCCTCCACCTGGGAAGGCATCCGTGCCGCGGAGCAATTGGAAAAGGCCGGCATCCAGACCAACCTCACCCTGCTGTTCTCCTTTGCCCAGGCCGCTGCCTGCGCCGACGCCGGCGTCTTTCTGATTTCCCCATTCGTTGGGCGAATCTACGACTGGTACAAGAAAGCTGAAGGTCGCGATTTCGTCGGTGCCGAAGACCCTGGCGTGCAATCGGTGACCCGCATCTATCACTACTACAAGGCCAACGGCTACGACACTGTGGTGATGGGCGCCAGCTTCCGCAACATCGGCCAGATCGAACAACTGGCCGGCTGCGACCGCCTGACCATCAGCCCCGAGCTGCTCCAGCAATTGGCCGACGACCAGGGCTCGCTGACTCGCATGTTGGCCGGCAAAGGCACGGGCGAACCCCGTCAGAACCTGGATGAAAGCAGCTTCCGCTGGGCCTTGAACGAAGACCCGATGGCCACCGAAAAGCTGGCCGAAGGCATCCGCCTGTTCGCCCGCGACCAAGAAAAGCTCGAAACCCTGCTGAAAAGCAAAGCCTGA	MTSKLEQLKQYTTVVADTGDLDAIARLKPVDATTNPSLLFKAAALPRYAQLLNDAVNGCDGDLGLACDRFAVSVGQEILREIPGRISTEVDARLSFDTQATLRRAERLIGLYEKAGIGPERVLIKIASTWEGIRAAEQLEKAGIQTNLTLLFSFAQAAACADAGVFLISPFVGRIYDWYKKAEGRDFVGAEDPGVQSVTRIYHYYKANGYDTVVMGASFRNIGQIEQLAGCDRLTISPELLQQLADDQGSLTRMLAGKGTGEPRQNLDESSFRWALNEDPMATEKLAEGIRLFARDQEKLETLLKSKA	PGPT0017375_3747	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_PENTOSE_METABOLISM,PGPT0017375-talA|talB-K00616	NA	NA
BMS010_07249	1011	dusA_2	COG0042	tRNA-dihydrouridine(20/20a) synthase	ATGACCACCCTGCCCCTCCTCCCATCGCTCACCCAGTCCTGCGAGCCGTCCCGCCGCTTCTCGGTGGCCCCGATGATGGATTGGACGGATCTTCACTGCCGCTTCTTCCTGCGTCAGTTATCGCGGCACGCGCTGCTCTATACCGAGATGGTCACCACCGGCGCCTTGCTGCACGGCGACCGAGAACGTTTCCTGTGCCATGACGAAGCCGAGCACCCGTTGGCCTTGCAATTGGGCGGCAGCGTGCCGGAGGAGCTGGCGGCCTGTGCCCGACTGGCGGAAACGGCCGGATACGACGAAGTCAACCTGAACGTCGGCTGCCCCAGCGACCGGGTCCAGCACAACATGATTGGTGCCTGTCTGATGGCGCATCCGTCGCTGGTCGCCGATTGCGTGAAAGCCATGCGCGATGCCGTGTCGATCCCGGTCACGGTCAAACACCGCATCGGGATCGATGGCCGCGACAGCTACGCCGAGCTGTGCGACTTCGTTGGGCAAGTACGCGAAGCCGGTTGCCGCAGCTTCACCGTCCACGCCCGCATCGCGATTCTTGCCGGCCTGTCGCCAAAGGAGAACCGCGAGATCCCACCGTTGCGCTACGAGGTCGCGGCGCAGCTCAAGCGGGACTTCCCGGACCTGGAGATCATTCTCAACGGTGGGATCAAGACGCTGGATGAGTGCCAGACGCATCTACAGACCTTCGATGGCGTGATGCTCGGCCGTGAGGCCTATCACAACCCCTACCTACTCGCCCAAGTGGACAACGCGCTGTTCGGCACCGATACACCTGTGATCGGTCGTGCCGAGGCATTGCGCCGCCTGCGCCCATACATCGAAGCGCACCTCGCCGAGGGTGGCGCCATGCATCACGTCACCCGCCATATCCTCGGTCTGGCCCAAGGCTTCCCCGGAGCGCGGCGCTTCCGCCAGTTACTCTCGGTGGACGTCCACAAGGCGACCGACCCGCTCGCCCTGCTCGACCAGGCCAGCGCACTCCTCGAAGGGCGCTGA	MTTLPLLPSLTQSCEPSRRFSVAPMMDWTDLHCRFFLRQLSRHALLYTEMVTTGALLHGDRERFLCHDEAEHPLALQLGGSVPEELAACARLAETAGYDEVNLNVGCPSDRVQHNMIGACLMAHPSLVADCVKAMRDAVSIPVTVKHRIGIDGRDSYAELCDFVGQVREAGCRSFTVHARIAILAGLSPKENREIPPLRYEVAAQLKRDFPDLEIILNGGIKTLDECQTHLQTFDGVMLGREAYHNPYLLAQVDNALFGTDTPVIGRAEALRRLRPYIEAHLAEGGAMHHVTRHILGLAQGFPGARRFRQLLSVDVHKATDPLALLDQASALLEGR				NA	NA	NA	NA	NA
BMS010_07250	1647			hypothetical protein	ATGAACTCATCATCCCCGACACTTCGGCACCGGCTGCTGTGCGGCTCTTTCATACTGGCGTGCTGTATTTCCGCATCGCATATCCAGGCTGCTCCGGCGAAGTTCGTTCATCCTGGACTCCTGCATTCCGGCATGGACTTCGAGCGCATGCGGACCAAGGTCCGTGAAGGCGCGCAGCCTTGGGCTGCCGGCTTCGAGCGCCTGACCAGGAATCCCCATGCGTCCACGGGATGGAAGCCGAGGCCTGTGGAAATCGTCTACCGCGGCAATGATGGCGTGCATGGTCAGAATTATCCGCTGATTTTCCGTGACGCTGCGGCGGCATATGCCAATGCGTTACGTTGGAAGATTACTGGCGATAACCGTCATGCCGATAAGGCAGTGGAAATTCTCAATGCCTGGTCGGGAGCGCTCACAAAAGGCATGGGCTCCATGCAGGGGACGTCGGATCGATTCTTGGTGGCGGGAGTTCAGGGTTATCAGCTCGCCAATGCTGCCGAGATCATGCGCACCTACCCGGGGTGGGCATCGAAAGACTTCGAACGCTTCAAAAAGATGCTGCTTGATGTCTTCTATCCATGGAATCAGCGAATGCTGACAGTCCATAACTGGACCAGGCCGGAACATTATTGGGCTAACTGGGATCTTGCCAGCATGGCGTCGATGATTGCTATCGGTGTATTGACCGATAGACGCGATATCTACGACGAAGCTGTCGAGTATTTCAAGCATGGGGATGGGAATGGAGCAGTCAAGAATGCCGTCTGGTACATCCATCCCAATGGTTTGGGCCAATGGCAGGAGTCTGGCCGGGATCAGGGACACTCGGTGATGGGTATCGGCCTGATGGCGGCCATTTGCGAAATGGCCTGGAACCAGGGCGACGACCTGTATGGCTATGACGATAACCGTTTCCTCAAGGGCGCCGAGTATGTGGCGGCCTACAACCTTTTGAAGAGTGTGCCGTTTAAGCCTTACTACAATCGCAGCCATGGCCTGCAGACGGACGTCTCTGCGGTGGCGCGTGCCCAGGAGCGTCCCGTCTGGGCAGCGGTTTACAACCATTACGTGAAGCGTATGGGGCTCAAGGCGCCCAACGTCACTGAAATGGTGGCCAAGATCGGTATAGAGGGCGGAGGAGGTGACTATGGCAACAGCTCCGGCGGTTACGACCAGTTGGGCTTCGGTACTCTGACATACACCGTTACCGGCCCGGTAGAAAATGGTGTCTACGGTGTCGCTTCTCTAAACAGTGGCTTATTGATGGATGCTGCGCAGGGCGAGATCGATAATGGCACGTCGATCATCCAGTGGAAGTTCAATCGAGGCGAGAATCAGAAGTGGCGTTTTCAGCACTTGGGCGATGATCGCTATCGGATCACCGGGGTACCCAGCGGCCGGGCTCTGGATGTATCCGATGGGGCCGTGAGCGATGGTGCCAAGGTTCATTTGTGGAACTACTTCGGTGGCAAGAACCAGATCTGGCGGGTAATCTCGGTGAACAGTCGATCTGTCCGGCTCTGTCCAGTGCATGCGCCGGGTTCCTGCCTCGCAGTCAAGGACGCCTCGAAGGCGAACGGGGCGCCGGTGCAGCTCTGGAAATATGCTGGCAAGAGCAATCACCAATGGTCTCTCATTCCTCGTTGA	MNSSSPTLRHRLLCGSFILACCISASHIQAAPAKFVHPGLLHSGMDFERMRTKVREGAQPWAAGFERLTRNPHASTGWKPRPVEIVYRGNDGVHGQNYPLIFRDAAAAYANALRWKITGDNRHADKAVEILNAWSGALTKGMGSMQGTSDRFLVAGVQGYQLANAAEIMRTYPGWASKDFERFKKMLLDVFYPWNQRMLTVHNWTRPEHYWANWDLASMASMIAIGVLTDRRDIYDEAVEYFKHGDGNGAVKNAVWYIHPNGLGQWQESGRDQGHSVMGIGLMAAICEMAWNQGDDLYGYDDNRFLKGAEYVAAYNLLKSVPFKPYYNRSHGLQTDVSAVARAQERPVWAAVYNHYVKRMGLKAPNVTEMVAKIGIEGGGGDYGNSSGGYDQLGFGTLTYTVTGPVENGVYGVASLNSGLLMDAAQGEIDNGTSIIQWKFNRGENQKWRFQHLGDDRYRITGVPSGRALDVSDGAVSDGAKVHLWNYFGGKNQIWRVISVNSRSVRLCPVHAPGSCLAVKDASKANGAPVQLWKYAGKSNHQWSLIPR				NA	NA	NA	NA	NA
BMS010_07251	402			hypothetical protein	ATGATTTCCTCCTCGCTCCTACGTCGTTGGGCTGCCGTCCTGGCCGCCCTGCATTTCCTGTTCGTGGTACAGATACCCGTCGCGCAAGCGGCCATGGTCGGCACTCCCGAGGTATTGGCCGAGCAGCAGTTGCAAGTCGATCGCCAGCAGCTTCTGACCATGCTGGACGACCAGGATGTGAAGAAGAAGCTCGAGTCCCTCGGTATCCAGAAGGAGCAGGTTGAGCAGCGCATCAACAGCTTGACGCCTGCCGAACTGGCTCAGTTCAATCAACAGCTTGACCAGGCGCCCGCTGGTGCCGGTGTGGTAGGCATCATCGTGCTGTTCCTGGTGATCTTCATCATCACCGACCTGCTCTGCGCGACCGACATCTTTAGCTTCGTGAAGTGCATCAACCGGTGA	MISSSLLRRWAAVLAALHFLFVVQIPVAQAAMVGTPEVLAEQQLQVDRQQLLTMLDDQDVKKKLESLGIQKEQVEQRINSLTPAELAQFNQQLDQAPAGAGVVGIIVLFLVIFIITDLLCATDIFSFVKCINR				NA	NA	NA	NA	NA
BMS010_07252	891			hypothetical protein	GTGTTACCGCCGGAGGCTTCGCGGCTGCCTGAGCGGGTTGAACTGACCGACGTACCGTTCTTCCCGCAGAGCGCTTACCAATGTGGACCGGCGGCATTGGCCACTATGTTGAATCAGCGCGGCATCGTGACCAGCCCAGGCCTGCTGAAGGACAAGGTCTACATTCCCGGTCGCGAAGGTAGCCTGCAAATCGAGATGGTGGCGGCGGCGCGTGCTCACGACCTGCTCGTCTACCCGGTCGAGCCCCGCCTGGAGAATCTGTTGGCAGAGGTTGCGGCTGGGAATCCTGTGTTGGTGTTCCAGAACCTGGCCTACGACTGGTGGCCACAATGGCATTTCGCGGTGCTGGTGGGGTATGACCGCCGTGAAAAGACTCTGACCTTGCGATCCGGCACCACGCGGCGCTGGATCACCAGTTTCAGGAGTTTCGATAGCACCTGGGCTCGAGGTGGTCGTTGGGCGGTACTGACATTACCGCCGGATCTGTTGCCGGCGACCGCCGAATTGCACCCTTGGTTGAAGGCGGCCAGCGATCTGGAAGAGACTGGCCGTCGCCAGATGGCCTTGAAGGCTTATCGGACGGCTGTCGAGCGCTGGCCGGACGAATCGGTCGGCTGGTTCGCCCTGGCCAATGGGCTGCATGCGGGTGGCGATCGCTACGGCGCAGAGCAGGCGTTGCGCGAGAGCGTCAAGCGGGCGCCCGATTTCGCCGCCGGCTGGTTCAACCTCTCCGAGGTGCTGGCGGAGCGTGGCTGCCAGTCGGATGCCCAGCTCTCGCGGGCCTGTGCACAACGTCTGGCTCCTCAAGACCCGCGCTTTTCGGCGGCCCTTGGTCATTCGCTCGAAACGGGTGCCCAGTGTGCGGTGCCGCCGCCTTGTCCCGGTTCCTGA	MLPPEASRLPERVELTDVPFFPQSAYQCGPAALATMLNQRGIVTSPGLLKDKVYIPGREGSLQIEMVAAARAHDLLVYPVEPRLENLLAEVAAGNPVLVFQNLAYDWWPQWHFAVLVGYDRREKTLTLRSGTTRRWITSFRSFDSTWARGGRWAVLTLPPDLLPATAELHPWLKAASDLEETGRRQMALKAYRTAVERWPDESVGWFALANGLHAGGDRYGAEQALRESVKRAPDFAAGWFNLSEVLAERGCQSDAQLSRACAQRLAPQDPRFSAALGHSLETGAQCAVPPPCPGS				NA	NA	NA	NA	NA
BMS010_07253	1284	puuB_7		Gamma-glutamylputrescine oxidoreductase	ATGGCGCACACACCTTACCCCCTTTCCTATTATGCCGCCTCAGCCAGTCCAGCCCCGGCCCGCCCGGCACTCGAAGGCGAGCGCGATACTGATATCTGCATCATTGGCGCTGGCTACACAGGACTCTCCACGGCCCTCTTCCTTCTCGAAAGCGGCTTCAAGGTTTGCATCGTCGAAGCAGCCAAGGTGGGCTTCGGGGCTTCAGGTCGGAATGGCGGACAGATCGTCAACAGCTATAGCCGGGACATCGATGTCATCGAGCGCAGCGTCGGCGCCCGTCAAGCCCAACTGCTGGGCCAAATGGCCTTCGAAGGCGGCCGGATCATTCGCGAGCGCATCGCCAAGTACAACATTCAATGCGACCTGAAGGACGGTGGTGTATTCGCTGCATTCACCGCCAAACAGATGGGACACCTGGAAGCCCAGAAAAAACTCTGGGAACGCTATGGTCACAACCAGTTGGAGCTGCTGGATGCCAAGGGCATCCGCGATGTCGTCGCAACCGATAATTACGTTGGCGGGATGCTGGACCTGAGCGGCGGGCATATTCACCCGCTCAATCTGGCACTGGGTGAAGCGACCGCCGTGGAATCGCTCGGTGGCATCATCTACGAACAGTCGCCGGCGGTCCGCATTGAGCGCGGCACCAACCCGATCGTCCACACTCCACAAGGAAGGGTCAGGGCCAAGTTCGTCGTGGTAGCGGGCAATGCCTACCTCGGAAACCTGATTCCCGAACTGGCAGCCAAGTCCATGCCTTGCGGAACGCAGGTCATTACCACCGAACCACTTGGTGAAGACCTGGCCCATAGTCTTCTGCCCCAGGACTACTGCGTGGAAGACTGCAATTACCTGTTGGATTACTACCGCCTCTCCGGCGATAAGCGCCTGATCTATGGAGGCGGAGTGGTCTATGGAGCGCGCGATCCGGCCAACATCGAAGCGATCATCCGTCCGAAGATGCTGAAGACGTTCCCGCAATTGAAGGATGTGAAGATCGAATTCGCCTGGACCGGCAATTTCCTGCTCACCCTGTCTCGCCTACCCCAGGTAGGACGGCTGGGCGACAACATCTACTACTCGCAAGGCTGCAGCGGCCATGGCGTGACCTACACCCACCTGGCCGGTAAGGTGCTGGCGGAAAGCCTGAAAGGCCAGGCCGAACGGTTCGATGCCTTCGCCAGCCTGCCCCACTATCCCTTCCCTGGCGGCCAACTGTTCCGAGTGCCCTTCACCGCACTTGGCGCCTGGTACTACAGCCTGCGTGACCGCCTGGGAGTATGA	MAHTPYPLSYYAASASPAPARPALEGERDTDICIIGAGYTGLSTALFLLESGFKVCIVEAAKVGFGASGRNGGQIVNSYSRDIDVIERSVGARQAQLLGQMAFEGGRIIRERIAKYNIQCDLKDGGVFAAFTAKQMGHLEAQKKLWERYGHNQLELLDAKGIRDVVATDNYVGGMLDLSGGHIHPLNLALGEATAVESLGGIIYEQSPAVRIERGTNPIVHTPQGRVRAKFVVVAGNAYLGNLIPELAAKSMPCGTQVITTEPLGEDLAHSLLPQDYCVEDCNYLLDYYRLSGDKRLIYGGGVVYGARDPANIEAIIRPKMLKTFPQLKDVKIEFAWTGNFLLTLSRLPQVGRLGDNIYYSQGCSGHGVTYTHLAGKVLAESLKGQAERFDAFASLPHYPFPGGQLFRVPFTALGAWYYSLRDRLGV	PGPT0007637_1586	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007637-puuB|ordL-K09471	NA	NA
BMS010_07255	1923	thrS_2	COG0441	Threonine--tRNA ligase	ATGCCCATCATTACTCTTCCCGACGGCAGTCAGCGTTCGTTCGATCAACCGGTATCCGTGCTCGAAGTGGCGCAGTCCATTGGGGCTGGTCTGGCCAAGGCCACGTTGGCCGGCAAGGTTAACGGTCGTCTGGTCGATGCCTGCGATTCGATCGATGCCGATGCGACGCTGCAAATCATCACGCCGAGGGACGAGGAAGGGCTGGAGATCATTCGCCACTCCTGTGCTCACCTGATTGGTCATGCGGTCAAGCAGTTGTACCCGACTGCGAAAATGGTGATCGGGCCGGTGATCGAGGAAGGCTTCTACTACGACATCGCCTACGAGCGTCCTTTTACGCCCGAGGACGTCGCTGCCATCGAACAGCGCATGCGTGAGTTGATCGACAAGGATTACGACGTCATCAAGAAGATGACGCCCCGTGCTCAGGTTGTCGATGTGTTCAAGTCGCGTGGTGAGGAATACAAGCTGCGTCTGATCGACGACATGCCCGATGAGCAGGCGATGGGTCTGTATTACCACGAAGAGTACGTCGACATGTGCCGTGGGCCGCACGTGCCGAATACGCGTTTCCTGAAGGCATTCAAGCTGACCAAGATCTCTGGTGCCTACTGGCGTGGGGATTCGAAGAACGAGCAGTTGCAGCGCATCTATGGCACTGCCTGGGCGGACAAGAAGCAACTGGCTGCCTATATCCAGCGTATCGAAGAGGCCGAAAAGCGCGATCATCGCAAGATTGGTAAGCGCCTGGATCTTTTCCATACCCAGGAAGAGGCTCCTGGCATGGTGTTCTGGCATCCCAACGGCTGGACGCTCTACCAAGTGCTTGAGCAATACATGCGCGGCATTCAGCGCGAGAATGGCTATCTGGAGATCAAGACGCCCCAGGTTGTCGATCGCAGTCTCTGGGAAAAGTCGGGCCACTGGGCCAACTACGCCGAGAACATGTTCACCACTGAGTCGGAAAGTCGTGACTACGCGATCAAGCCGATGAACTGCCCATGTCATGTGCAGGTATTCAATCAGGGCTTGAAGAGCTATCGCGAGTTGCCGATGCGTCTGGCCGAGTTCGGTGCCTGTCACCGTAACGAGCCGTCCGGTGCCTTGCACGGCATCATGCGGGTGCGTGCCTTTACCCAGGATGATGCGCATATCTTCTGCACCGAGGAGCAGATGCAGGATGAGGCTGCCGCCTTCATCAGGCTGACCCTGGATGTGTACGCCGATTTCGGCTTCCAGGATATCCAGTTGAAGCTGTCGACGCGCCCGGAAAAGCGTGTCGGTTCCGATGAGCTATGGGATCGGGCGGAGTCGGCCTTGGCGGCTGCCCTGGAAAGTGCCGGTCTGACGTACGATCTGCAACCGGGGGAGGGTGCCTTCTACGGTCCGAAGATCGAGTTCTCGCTGAAGGATTGTCTGGGTCGGGTCTGGCAGTGCGGCACCTTGCAGTTGGACTTCAATCTGCCGGTGCGCCTGGGTGCCGAGTACGTCAGCGAGAGCAACGATCGCAAGCACCCGGTAATGCTGCATCGCGCTATCCTGGGCTCCTTCGAGCGTTTCATAGGCATGTTGATCGAGCACTATGAGGGCGCGTTCCCGGCATGGCTCGCGCCGACTCAGGCGGTGATCATGAATATCACCGACAAGCAGGCCGACTTTGCCCTCGAGGTCGAGAAAGCGCTGAACCAAAGCGGTTTTCGTGCCAAGTCCGACTTGAGAAACGAGAAGATCGGCTTTAAAATCCGCGAGCATACCTTGCTCAAGATTCCTTATCTCTTGGTTATTGGAGATCGGGAAGTCGAGACTAGATCCGTTGCTGTGCGTACCCGCGAAGGCGTCGACCTGGGCTCCATGCCCGTCGACGAATTCGTCAGTCAGCTCGCGCAGGCGGTTTCCCGGCGTGGTCGCCAAGATTTGGAGTAA	MPIITLPDGSQRSFDQPVSVLEVAQSIGAGLAKATLAGKVNGRLVDACDSIDADATLQIITPRDEEGLEIIRHSCAHLIGHAVKQLYPTAKMVIGPVIEEGFYYDIAYERPFTPEDVAAIEQRMRELIDKDYDVIKKMTPRAQVVDVFKSRGEEYKLRLIDDMPDEQAMGLYYHEEYVDMCRGPHVPNTRFLKAFKLTKISGAYWRGDSKNEQLQRIYGTAWADKKQLAAYIQRIEEAEKRDHRKIGKRLDLFHTQEEAPGMVFWHPNGWTLYQVLEQYMRGIQRENGYLEIKTPQVVDRSLWEKSGHWANYAENMFTTESESRDYAIKPMNCPCHVQVFNQGLKSYRELPMRLAEFGACHRNEPSGALHGIMRVRAFTQDDAHIFCTEEQMQDEAAAFIRLTLDVYADFGFQDIQLKLSTRPEKRVGSDELWDRAESALAAALESAGLTYDLQPGEGAFYGPKIEFSLKDCLGRVWQCGTLQLDFNLPVRLGAEYVSESNDRKHPVMLHRAILGSFERFIGMLIEHYEGAFPAWLAPTQAVIMNITDKQADFALEVEKALNQSGFRAKSDLRNEKIGFKIREHTLLKIPYLLVIGDREVETRSVAVRTREGVDLGSMPVDEFVSQLAQAVSRRGRQDLE				NA	NA	NA	NA	NA
BMS010_07256	534	infC_2	COG0290	Translation initiation factor IF-3	ATGAGACAAGATAAACGAGCTCAACCGAAAGCCCCGATCAACGAGAATATCTCGGCACGCGAGGTTCGGTTAATTGGTGCGGACGGCGAGCAGATTGGCATCGTCTCGATTGATGAAGCGCTTCGTGTAGCTGAAGAAGCCAAGCTGGATCTGGTGGAGATTTCCGCCGATGCGGTGCCGCCCGTGTGCCGGATCATGGATTACGGCAAGCACCTGTTCGAAAAGAAGAAGCAGGTCGCTGCGGCGAAGAAGAACCAGAAGCAGGTTCAGATCAAAGAAATCAAGTTTCGTCCAGGGACGGAGGAAGGGGATTATCAGGTAAAACTACGCAACCTGATACGTTTCCTTAATGATGGGGACAAGGCCAAGGTATCCCTGCGATTCCGTGGTCGTGAGATGGCTCACCAGGAGCTGGGCATGGAGCTGTTGAAGCGGGTCGAGAACGACCTCGCAGAATACGGCAGTGTCGAGCAATTTCCTAAGCTGGAAGGACGCCAGCTGATGATGGTCATCGCCCCCAAAAAGCGAAAATAA	MRQDKRAQPKAPINENISAREVRLIGADGEQIGIVSIDEALRVAEEAKLDLVEISADAVPPVCRIMDYGKHLFEKKKQVAAAKKNQKQVQIKEIKFRPGTEEGDYQVKLRNLIRFLNDGDKAKVSLRFRGREMAHQELGMELLKRVENDLAEYGSVEQFPKLEGRQLMMVIAPKKRK				NA	NA	NA	NA	NA
BMS010_07257	195	rpmI_2	COG0291	50S ribosomal protein L35	ATGCCAAAAATGAAAACCAAGAGCGGTGCTGCGAAGCGTTTCAAGAAGACCGCTTCCGGCTTCAAGCACAAACACGCTTTCAAGAGCCACATCCTGACCAAGATGACCACCAAGCGTAAGCGTCAGTTGCGCGGTTGCACTCAGGTGCACCCGTCCGACGTTGCCAAGGTGGAGCGCATGCTGCGCGTTCGTTGA	MPKMKTKSGAAKRFKKTASGFKHKHAFKSHILTKMTTKRKRQLRGCTQVHPSDVAKVERMLRVR				NA	NA	NA	NA	NA
BMS010_07258	357	rplT	COG0292	50S ribosomal protein L20	ATGGCTCGTGTTAAGCGTGGCGTCATCGCTCGTCGCCGTCACAAAAAGATTCTGAAACTCGCCAAGGGCTATTACGGTGCGCGTTCGCGCGTATTCCGCGTCGCCAAGCAGGCTGTGATCAAGGCTGGCCAGTACGCCTACCGTGACCGCCGTCAGCGCAAGCGTCAGTTCCGTGCCCTGTGGATCGCCCGTATCAATGCTGGTGCTCGTGTCAACGGTCTGTCCTACAGCCGTCTGATCGCCGGTCTGAAGAAGGCGGCCATCGAGATCGACCGTAAGGTTCTGGCCGATCTGGCAGTGAACGAAAAAGCGGCGTTTGCTGCGATTGTCGAGAAAGCGAAAGCCGTTCTGGCTTAA	MARVKRGVIARRRHKKILKLAKGYYGARSRVFRVAKQAVIKAGQYAYRDRRQRKRQFRALWIARINAGARVNGLSYSRLIAGLKKAAIEIDRKVLADLAVNEKAAFAAIVEKAKAVLA				NA	NA	NA	NA	NA
BMS010_07259	1017	pheS_2	COG0016	Phenylalanine--tRNA ligase alpha subunit	ATGGAAAACCTGGATGCGCTGGTCACTCAAGCTCTTGAGGCCGTGCAGCACACCGACGATATCAATGCCCTGGAACAGATCCGGGTTCACTACCTTGGCAAGAAGGGCGAGCTGACCCAGGTGATGAAGACCCTGGGCGACCTGCCTGCGGAAGAACGCCCGAAGGTCGGCGCGTTGATCAATACCGCCAAGGAGCGTGTTCAAGACGCGCTCAATCTCCGCAAGGAGTCCCTGGAACGGGCGGCGCTGAGTGCCCGGCTCGCAGCGGAACGAATCGATGTGACTCTGCCTGGGCGGGGTCAGGTTTCCGGTGGCCTGCATCCGGTCACCCGCACGCTCGAACGAGTGGAGCAGTTCTTCACCCACATCGGCTATGGCATCGCTGAAGGCCCTGAGGTCGAAGACGACTATCACAACTTCGAGGCGCTCAACATTCCGGGACACCACCCGGCACGGGCGATGCACGATACCTTCTATTTCAATGCGAACATGTTGCTGCGCACCCATACCTCTCCGGTTCAGGTGCGCACCATGGAGTCCCAGCAGCCCCCGATCCGTATCGTGTGCCCGGGGCGTGTCTATCGCTGCGATTCCGATATCACCCACTCGCCGATGTTCCATCAGGTGGAAGGGCTGCTCGTCGACGAAGGCATCAGCTTCGCCGATCTCAAGGGCACCATCGAAGAATTCCTGCGAGTCTTCTTCGAGAAGGACCTGGGCGTTCGTTTCCGTCCCTCGTTCTTCCCGTTCACTGAGCCGTCCGCCGAAGTCGACATGCAGTGCGTAATGTGCAGCGGTAAGGGGTGCCGCGTCTGCAAGCAAACCGGCTGGTTGGAAGTGATGGGCTGCGGCATGGTGCACCCGAATGTACTGCGCATGTCTGGCATCGATCCTGAGAAGTATCAGGGCTTTGCCTTCGGCATGGGGGTCGAGCGCTTGGCGATGTTGCGTTATGGCGTGAATGACCTGCGCCTGTTCTTCGATAACGACCTGCGATTCCTGGCTCAATTTCGCTAG	MENLDALVTQALEAVQHTDDINALEQIRVHYLGKKGELTQVMKTLGDLPAEERPKVGALINTAKERVQDALNLRKESLERAALSARLAAERIDVTLPGRGQVSGGLHPVTRTLERVEQFFTHIGYGIAEGPEVEDDYHNFEALNIPGHHPARAMHDTFYFNANMLLRTHTSPVQVRTMESQQPPIRIVCPGRVYRCDSDITHSPMFHQVEGLLVDEGISFADLKGTIEEFLRVFFEKDLGVRFRPSFFPFTEPSAEVDMQCVMCSGKGCRVCKQTGWLEVMGCGMVHPNVLRMSGIDPEKYQGFAFGMGVERLAMLRYGVNDLRLFFDNDLRFLAQFR				NA	NA	NA	NA	NA
BMS010_07260	2379	pheT_2	COG0072	Phenylalanine--tRNA ligase beta subunit	ATGAAATTCAGTGAACAGTGGCTGCGGAGCTGGGTAAATCCCCAAGTGTCCCGTGATGAGCTTGTCGCTCGCCTGTCGATGGTCGGGCTTGAAGTCGACAGCGTCAGCCCGGTTGCCGGTGTATTTTCCGGTGTGGTGGTCGGTGAGGTGCTGAGTACCGAGCAGCACCCCGATGCCGACAAGCTGCGAGTCTGCCAGGTCAGCGATGGCCAGACGCAATTTCAGGTCGTCTGTGGTGCTCCGAACGTACGGCCGGGACTCAAGGTCCCGTTCGCCATGATCGGTGCCGAGCTTCCGGGCGATTTCAAGATCAAGAAGGCCAAGCTGCGTGGCGTGGAGTCCAACGGCATGCTGTGCTCGGCTTCCGAGCTGCAGATCAGCGATGATGACAGCGGGCTCTTGGAGCTGCCTGTAGATGCTCCGGTGGGTGAAGACATTCGTGCCTATCTCAACCTGGACGATGCCAGCATCGAGCTGGGGCTGACGCCGAACCGCGGCGATTGCCTCTCTCTGGTCGGCCTGGCCCGGGAAGTGGGTGCGATCTACGGAGCAACCGTCACTCCGATCGCCATCGAGCCGGTTTCCCCGGCCCATGATGAGATTCGCCCTGTCGATGTGCTGGCACCCAAGGCGTGCCCGCGTTACCTCGGCCGTGTCATTCGCAATGTCGACCTGTCCAGGCCGACGCCGACCTGGATGGTGGAGCGACTGCGTCGTTCCGATATCCGCAGCATCGACGCGGCGGTGGATATCACCAACTACGTCATGCTTGAACTCGGCCAGCCGATGCATGCTTTTGATCTCGCAGAGATCAATGGCGGCATTCGCGTGCGGATGGCGGAGGAGGGCGAGAAGCTGGTCCTACTGGATGGACAGGAAGTCGCGTTGCGTGCCGATACTCTAGTAATCGCCGACTATCAGCGCGCCCTGGCAATTGCAGGTGTCATGGGAGGCGAGCACAGTGGTGTCAGCGCCAAGACCCGTGACCTTTTCCTCGAAAGTGCCTTCTTCGACACTATCGCCCTTGCCGGTAAGGCGCGTTCCTATGGTCTGCATACCGACTCGTCGCACCGCTTCGAGCGCGGTGTTGACTCGCAGCTTGCCCGTCGCGCGATGGAGCGGGCGACTGCATTGATTCTGGATATCGTCGGTGGTGAGCCGGGGCCGATCATCGAGGCGGTCAGCGAGGCTGATCTACCACGCGTGCCAGCGATCACCCTGCGTGCCGAGCGCATCAGCCAGATGCTCGGGTTGGAGCTGGATGCAGGCGATGTCGAGCGCCTGCTCAGTGCGCTTGGCCTGGGTATTTCGTCCGCCGGTTCTGGTGTGTGGCAGGTCGAGGCACCGAGCCATCGCTTCGATATCAGTCTGGAAATCGATCTGATCGAAGAGCTCGGCCGGCTATATGGCTACAATCGCCTGCCGGTCCGCTATCCGCAGGCTCGCCTGGCGCCGAAGGCGCGTTCCGAAGCACGGGCGGAGCTGCCTGCGTTGCGTCGTCTCCTGGTCGCTCGCGGCTACCAGGAAGCGATCACCTACAGCTTCATCGATCCTCGCCTGTTCGAGCAGTTCAACCCTGGCGTCGAACCGCTGATGCTCGCCAACCCCATCTCCGCCGACATGGCTGCCATGCGTTCGTCGCTGTGGCCGGGGCTGGTGAAGGCTGTGCTACACAACCTGAACCGTCAGCAATCGCGCGTTCGCCTGTTTGAAAGTGGTCTGCGTTTCGTGGGGCAGCTCGAAGGGCTCAAGCAGGAAGCCATGCTGGCGGGCGTCATCACCGGTGGCCGGTTGCCGGAGGCTTGGGCGCATGGTCGGGAAAACGTGGACTTCTATGACCTCAAGGCTGACGTCGAGGCGCTGCTTGGTTATGCCGGCGACACTGCTGCCTTCAGCTTCCACCCGGGTGAGCATCCGGCTCTGCATCCGGGCCAGACGGCACGCATCGAGCGGGATGGTCGCTTGGCCGGCTTCCTGGGGGCGATCCACCCGCAACTCGCGGCAGAACTGGACCTGAGCCAGCCGCTGTACCTGTTCGAGCTGGTGTTGGCCGAGGTGGTGCAGGGACGCTTGCCGCAGTTCCGTGAGCTGTCGCGTTTCCCCGAGGTGCGTCGCGACTTGGCCATCCTGGTGGATCGGAACGTGGAGGCCAATGCCGTTCTCGCTTCGATTCGAGAAGCGGCGGGGGAATGGCTGACCGACCTCAGGCTGTTTGACGTTTATCACGGTAAAGGCATTGATCCGCATAGAAAAAGCCTGGCCGTTGGCTTGACCTGGCAGCATCCATCGCGCACTCTTAACGACGATGAGGTGAACACCACAACGCAGAACATCCTCACCTCGCTGGAAGAAAGGTTCAACGCCACGTTAAGGAAGTAG	MKFSEQWLRSWVNPQVSRDELVARLSMVGLEVDSVSPVAGVFSGVVVGEVLSTEQHPDADKLRVCQVSDGQTQFQVVCGAPNVRPGLKVPFAMIGAELPGDFKIKKAKLRGVESNGMLCSASELQISDDDSGLLELPVDAPVGEDIRAYLNLDDASIELGLTPNRGDCLSLVGLAREVGAIYGATVTPIAIEPVSPAHDEIRPVDVLAPKACPRYLGRVIRNVDLSRPTPTWMVERLRRSDIRSIDAAVDITNYVMLELGQPMHAFDLAEINGGIRVRMAEEGEKLVLLDGQEVALRADTLVIADYQRALAIAGVMGGEHSGVSAKTRDLFLESAFFDTIALAGKARSYGLHTDSSHRFERGVDSQLARRAMERATALILDIVGGEPGPIIEAVSEADLPRVPAITLRAERISQMLGLELDAGDVERLLSALGLGISSAGSGVWQVEAPSHRFDISLEIDLIEELGRLYGYNRLPVRYPQARLAPKARSEARAELPALRRLLVARGYQEAITYSFIDPRLFEQFNPGVEPLMLANPISADMAAMRSSLWPGLVKAVLHNLNRQQSRVRLFESGLRFVGQLEGLKQEAMLAGVITGGRLPEAWAHGRENVDFYDLKADVEALLGYAGDTAAFSFHPGEHPALHPGQTARIERDGRLAGFLGAIHPQLAAELDLSQPLYLFELVLAEVVQGRLPQFRELSRFPEVRRDLAILVDRNVEANAVLASIREAAGEWLTDLRLFDVYHGKGIDPHRKSLAVGLTWQHPSRTLNDDEVNTTTQNILTSLEERFNATLRK				NA	NA	NA	NA	NA
BMS010_07261	303	ihfA_2	COG0776	Integration host factor subunit alpha	ATGGGGGCTCTGACGAAAGCTGAGATGGCGGAACGTCTGTATGAAGAGCTTGGCCTGAATAAGCGGGAAGCCAAGGAATTGGTGGAGCTGTTCTTTGAGGAAATCCGGCATGCGCTGGAGCTGAACGAGCAGGTCAAGTTGTCGGGTTTTGGCAATTTCGATTTGCGCGATAAGCGCCAGCGCCCTGGTCGCAATCCCAAGACCGGGGAGGAAATCCCTATTACGGCGCGCCGTGTGGTCACCTTTCGTCCAGGGCAGAAATTGAAAGCCAGAGTCGAGGCTTATGCTGGAACCAAGTCATAA	MGALTKAEMAERLYEELGLNKREAKELVELFFEEIRHALELNEQVKLSGFGNFDLRDKRQRPGRNPKTGEEIPITARRVVTFRPGQKLKARVEAYAGTKS				NA	NA	NA	NA	NA
BMS010_07262	357			hypothetical protein	ATGCTGGAACCAAGTCATAACGACGAGTTACCGGCAATCCCCGGTAAGCGCTACTTCACCATTGGTGAGGTCAGTGAACTCTGCGCCGTCAAACCCCACGTGTTGAGATATTGGGAACAGGAGTTCCCACAACTCAATCCGGTGAAGCGCCGGGGTAACCGGCGCTACTACCAGCGCCAAGATGTGCTGATGATCCGGCAAATCCGAGCGCTGCTCTATGATCAAGGTTTTACCATCGGCGGAGCCCGTCAGCGCCTCTCGGGGGACGAAGCCAAGGAAGACACAACCCAATACAAGCAACTCATCCGGCAGATGATTGCCGAGTTAGAAGATGTCTTGCTTGTATTACGCAAATAG	MLEPSHNDELPAIPGKRYFTIGEVSELCAVKPHVLRYWEQEFPQLNPVKRRGNRRYYQRQDVLMIRQIRALLYDQGFTIGGARQRLSGDEAKEDTTQYKQLIRQMIAELEDVLLVLRK				NA	NA	NA	NA	NA
BMS010_07264	741			hypothetical protein	ATGATAAGGAAAACGGTTTCGGAGCTCGCTTTCGTTAACAGTGGTTCGCCATTGCCCACTGTCGAGATCGACTCGGACTCCATCGAGAACGCCGGCTTCAGTATTCACCATACCGTGATGCAGGTGTTGACTCGGTTGGCCGAGCAGGATGCCTCACTTCGCGCCACCCTCTATCTGTACGTTTCTACCAGTATCAATTTCCGTGAGCCGGGCTTTTCCGAGTTTTTATTGGTTGCGGGGCCTAAAAAGGTTCTGCTGGCCTTGGGCGCTGGTTTCGAACGGTTGCCAGCTGTGAAGTCGCGGTTCAGCGACTACGTGTCGGCTGCTTCCGCCTTGCGAACGTTCCATGTCGAAGGTGGACTAGTATGGGAGCAGGAGGACGCCAACACTTGGTATTCCAGCGGCCAGAGCCTGATTGACCCGACCGAAGCTCTCGAAGAGACCGAAGATGGCCTGCAACCTATCGAGGAAGACGAAGAGGTCGATGACTGGGAGGTCGAGGAATTGGAAGCCGAGGATGGGGGGGAGGACGATACAGGCCTAAGCGTGGTGGCTGCCGAACGCAAGGCTGCGCGCTATAGGGCTGCGCGTTCGGATGCGAGGGTCAGCAGCATTCGGGCTGCCATTGAGGAGGTCTTTGGTCTGCCGGCAGGCTCAGTTGCGCTCTGCGGACCGGATCGGCGTGCGCTTCGTGGCGATGCTCGGATTAGGACTTTGCGCAAACGCTGGGAAGAGAGCTGA	MIRKTVSELAFVNSGSPLPTVEIDSDSIENAGFSIHHTVMQVLTRLAEQDASLRATLYLYVSTSINFREPGFSEFLLVAGPKKVLLALGAGFERLPAVKSRFSDYVSAASALRTFHVEGGLVWEQEDANTWYSSGQSLIDPTEALEETEDGLQPIEEDEEVDDWEVEELEAEDGGEDDTGLSVVAAERKAARYRAARSDARVSSIRAAIEEVFGLPAGSVALCGPDRRALRGDARIRTLRKRWEES				NA	NA	NA	NA	NA
BMS010_07265	1497			hypothetical protein	ATGAGGCAGGAATCTCCTGTCCGGGTCAGCACCTTGGCATTCGCCGCTCTGCTGAAGGCAGGTACGCCATTGGCACTGGACAGCTACCAACGTGGCTTTGTCTGGGGGCCGGACAAGCTACTGCAACTGAACAGTGATCTAGCTGAGTTCGCAAGCCAGCCAGACAATCGCTTGCCTTACTACATTGGTGCGGTATTACTTCACCGAGACGTGCATCAGTCGAAAAGGTTCATCATCGATGGTCAGCAGCGTATCACTGCGTTATCCCTGCTGTATCACCGTGCCACCGGTAAGCTGCCTGTAGGCCAAGCGCTCAGCTACTCGGGGCAATCCGCACGATGTATCCGTGAAGGGATGTTGGCATTGCAGCAGCAAGAGGCGATTGCACGAGAGATCATCGAAGAGCTGCGTCTGACGGTGATCGAGGTGGATAGCAGCGATCTTGCCTTCACCTTTTTTGATACCCAGAACAACCGCGGTGTACCCCTGGGGGCCACCGACCTGCTCAAGGCCTATCACCTGCGGGCGATCGATCATGCGGACGGCGAGGGCGAGCTCAAGAACGCCCTGCAGAAACACTGCGCCGAGCGCTGGGAAGCACTGCAGCGTCTGCCCGCGATGCTGTCGCCGGGACAGGATTTCGCCCCGAACCTTTTCAACCGTTTTCTGTGGCGTGCGCGGCGCTGGCGAGGTGCACAAGCGCCAATGTGCAGGCATGAAACTCTGCTGACAGAGTTCCAGAACGACACTTGGCGCCAGGGCGCAGACAGCCGAAATAGTGTCGGCAGCGTTCCGCTCTATGCCACCCGGCCCAACCGGTTGGGGGTTGCGCTGACTCTCGCGGGTGACGGAGAGTACGTCCTACAGGGTAACCAACTGCGTATCAGCCAGAATCCCGCGAACCTACCCATGGCGCTGCGCCAGCCTATCCATGAAGGCGTGGGCTTCTTTCTCTACGCCGACAAGTACGCTGCATTACTGCAAAGGTTGATGAACGCTCCTGCACCCTGCGCGCAAGTGAGTGCGTTCCGCACGATTTATCGACAGCTGCTGTGCAACAACCAAGAGTATCTGCGCGAGATATTCATGCTCTGCAGTCTGGTGTATGTGGATCAGTTCGATGTCGAGCAACTGACTGCTTTTGCTTTGCGCCTGGAGTTTCTGCTGGGTGCGATTCGTCTGAGGCAGCAACTGGTCAAGCAAGAAACCGCCGCCAACTTCTTCAGGCTGGCAGAGCTGAACCTTCTGGATGTGATCGCGCAGAGCTATCACCCGAAACAGGTTCTGGATTTCTTGCAAAAGCGCCAATACGCCGTCGCATCGTTGTATGCCGAGGAAGCGATTGAAGTTGGTAATGGTGTTCAAGGTCGATACAAACGAGCTGTCCTTGGATTCTACCGGGAGCAGGCGGATTCTGGATGCCGAAGCCTCGCGGACAAGTCTCAATGGCTCGAGGCGTATCTGAGAGCCTCTCTAGAGGGTTGCCATGGGCATTGA	MRQESPVRVSTLAFAALLKAGTPLALDSYQRGFVWGPDKLLQLNSDLAEFASQPDNRLPYYIGAVLLHRDVHQSKRFIIDGQQRITALSLLYHRATGKLPVGQALSYSGQSARCIREGMLALQQQEAIAREIIEELRLTVIEVDSSDLAFTFFDTQNNRGVPLGATDLLKAYHLRAIDHADGEGELKNALQKHCAERWEALQRLPAMLSPGQDFAPNLFNRFLWRARRWRGAQAPMCRHETLLTEFQNDTWRQGADSRNSVGSVPLYATRPNRLGVALTLAGDGEYVLQGNQLRISQNPANLPMALRQPIHEGVGFFLYADKYAALLQRLMNAPAPCAQVSAFRTIYRQLLCNNQEYLREIFMLCSLVYVDQFDVEQLTAFALRLEFLLGAIRLRQQLVKQETAANFFRLAELNLLDVIAQSYHPKQVLDFLQKRQYAVASLYAEEAIEVGNGVQGRYKRAVLGFYREQADSGCRSLADKSQWLEAYLRASLEGCHGH				NA	NA	NA	NA	NA
BMS010_07266	2031			hypothetical protein	ATGGGCATTGACTCCAGCCTTTTCACCTTGGAACAGCTGACCAACAGGGAAGACGCTAAGTGGTGTTTCAACGTGCCGATCTACCAGCGTCTGTACGTGTGGGGGGATGACCAGATCAAGACGCTGCTGACTGACATGGCAAATGCCTTCGATCGCAGAGACGCGCAGTTTTTCTTGGGTGGTACGTTGTTGGTTGAAAAAACCACCGATAAAGACCGAGACCAGGGCGTACGTCGCTTCGACTTGATCGACGGTCAGCAACGTTTCACCACGCTGTGGATGCTCAGTACGGTGCCAGTGTGGCGCGAGGTAATGGGAGACTTCAGCAGGGTGCTGCAGAAGGGCGGGACTATTCCGCGTCTACACTTCTCGATCCGCGAGGAGGTTAATGACTTTCTTGCCAGCATGATGCTGGGTGGCAAATCGACGGACAGTGAAGCCATCGACACTCGGAGCATGAGACAGGCCCAGCAATTGATGGCCTCCTTTGCGCAGACCTACAAGCGCGCGGATGGCAGGCCTGTCGATGATGAATATCTGAAAGCGCTGGCCGGCTTCGTATATCGCAATGTCTCGCTAGTGCTCACCCAGGTGCCCGAGGGCATGGACCTGAATAAGCTGTTCGAGGTCATCAACAACCGAGGCATTCAGCTACAGCATCACGAAATCCTCAAAGCAAGGTTGCTGCACGACATCCCAGCGGAAAACAGATCCCGTTACGCGGCATTATGGAACGCCTGTGCCGATATGAGTGGTTTCGTCGAGCGCAATTTGTGTCTGGAAACCCAGCTGGAGGCTCATAAACTCGGAGATCTCTATAACAAGGGACAACTGCTGCATGCCGGCGCAGTGTGCGGCTTGCTCGCGCGCAAGGCCGACGGCGTGCATACGGGTGACGACGATCGTCTGACTTTGGAGGACATTGTTGGTGCCTCCATTAGCGATACCAATACGGTGCTGGCCACCATCGCCGAGGATGACGGCGAAGCTCCCTGGGCGCGTAGCATCATCGGTTTTCCACTGTTCCTGCTTCATGTCCTGCGTATTTGGCTTAAGGAGCAAGGGTCGCAGGACCTGCCGCGTGTGTTGGACCGGCAGTTGCTTGAGCTGTTCGAGACCTACTTGCTTGTGCCTGCGGAGCCAGCGCAGCGTGGGGAGAGGGCGCAAGGCTTCATCGATCTGGTTTGGCGGATGCGTGTGTTGTGGGACGAGTACGTGATCAAGTGGGTCGACCAGGGCGATGAGGAAATCCATCAGATCTGCCATACCTCGATTTCCGCCAGTGAAGACAAGCGCTATATCAATCGCAGCCGCGATAATACCTTGCATCAGGGGCTATCTTTACTGCAGAGCATGCTGTACCACTCGCAGGAGATCACCACCCATTACTGGCTGACGCCCTTCCTATACTTCATTTACAAGCACGCGCATACAGTGCGCGGTGGCGGTGGTGAAGTTGAGCATTACTACGGCTTCCTATGCCATCTGGATAACCAGTTGCTTGGCGAAGTAACGGATGCTTTCTTGGTCGTACGTAGCCGTAAATTTATGGACGACCCTTGGCGTATCGCTTCGGCGCTGCAATTCGAAACAGCGCTGGCAGAAGATGATGGCGTCAGATTTGCGCATTACTGGTTCTACAAGTTGGACTTCGTGCTCTGGGTTGAACAACAACGTGACCGTGAACTCTGGGGCAATTTTCGTTTCACTGCAAAAAACTCGGTAGAGCATGTTTCGCCGCAGAATCCCCAGGCTACCGATACCAATAGGGTCTCGAAGGATTGGTTAGACCGCTTTGGCAATCTCGCGCTGGTCTCGCGTGGTATCAACTCCGAGTACGGCAATCTGCCCTTCAACGAAAAGCGCCAGCGATTCCTCAATAAGCGAGCGTACGAGCAGCGGCCTGACTCCTTGAAAATGGATCTGATCTATTCGAGCGAAAAATGGGGAGAGGATGAAGCCGATGCTCATCAATCAGCTATGCTGGCCGAAATGCGGCGCCACTATCAAAGGGTTTTCAATTCCGGTTAA	MGIDSSLFTLEQLTNREDAKWCFNVPIYQRLYVWGDDQIKTLLTDMANAFDRRDAQFFLGGTLLVEKTTDKDRDQGVRRFDLIDGQQRFTTLWMLSTVPVWREVMGDFSRVLQKGGTIPRLHFSIREEVNDFLASMMLGGKSTDSEAIDTRSMRQAQQLMASFAQTYKRADGRPVDDEYLKALAGFVYRNVSLVLTQVPEGMDLNKLFEVINNRGIQLQHHEILKARLLHDIPAENRSRYAALWNACADMSGFVERNLCLETQLEAHKLGDLYNKGQLLHAGAVCGLLARKADGVHTGDDDRLTLEDIVGASISDTNTVLATIAEDDGEAPWARSIIGFPLFLLHVLRIWLKEQGSQDLPRVLDRQLLELFETYLLVPAEPAQRGERAQGFIDLVWRMRVLWDEYVIKWVDQGDEEIHQICHTSISASEDKRYINRSRDNTLHQGLSLLQSMLYHSQEITTHYWLTPFLYFIYKHAHTVRGGGGEVEHYYGFLCHLDNQLLGEVTDAFLVVRSRKFMDDPWRIASALQFETALAEDDGVRFAHYWFYKLDFVLWVEQQRDRELWGNFRFTAKNSVEHVSPQNPQATDTNRVSKDWLDRFGNLALVSRGINSEYGNLPFNEKRQRFLNKRAYEQRPDSLKMDLIYSSEKWGEDEADAHQSAMLAEMRRHYQRVFNSG				NA	NA	NA	NA	NA
BMS010_07267	633			hypothetical protein	ATGAGAAAAAAGCAATCCCGAAGCGACTGGCTTCACAAGGACCCAAACATCCATGATTGGCTGATAGAAACGGCCCCTCAGTGGGCACGTGATGAACACGGATTACTGATATACCTAGATGCTCTATCGGAGGATCAATTCAAGCAGTTAAAGCAGCGCTGGAGCTCGCGCCTTCATAGAGCAAAAAGAAGAACCCTCAGCTGCGACATTTCACCAGCAACCTTCAGTACACTTAAAAGAATACAAGGAAAACGGGGACTAACCGAAACCATTGAAGAAATAATCAACATCAATTACGAAGCAAAAAAACACTACTCAGATACTTTTGAAGAGAAGCTTAAAAGCATAAAACACAAAAGAGATAGCGGAATTTCGCGAGAACTCAATAGACTCAGCAACACTCTAGAAAAGACAGAAGCCTATCAAACAGCGCTATCCAAACTAAATAATAAAATAGAAACACAAGAAGGTCAGATAACCGCGCTTAGGTCCATAACACTCATTCTTGTAGAAAAATTAGAAAACAAAGACATTTCATTGAACTCGAGCATTGCAGAGCAATTAAAAGAGATCCTACACAAAACAACCCCCAAGGACTCTGAAATTTCCAACCATAAAAAACAGGACAGCTAA	MRKKQSRSDWLHKDPNIHDWLIETAPQWARDEHGLLIYLDALSEDQFKQLKQRWSSRLHRAKRRTLSCDISPATFSTLKRIQGKRGLTETIEEIININYEAKKHYSDTFEEKLKSIKHKRDSGISRELNRLSNTLEKTEAYQTALSKLNNKIETQEGQITALRSITLILVEKLENKDISLNSSIAEQLKEILHKTTPKDSEISNHKKQDS				NA	NA	NA	NA	NA
BMS010_07268	1356			hypothetical protein	GTGATCATCAGGGCAAGCCACAATATTGTCGATCTCTCTTATGAGACCAATGGCAACGAGCCGGAATATCGCAATCACTTCGAGGCGATCCCCGCCCGTGTGCCGCTGACGCCGCACCGGTCAACAAAACGCCCGCGCATCGAAGGCACGCAGGTGGCGATCGTCGCCGGACCTGAAGGCGAAGAAATCCATCCTGACCAATATGGCCGCATCAAGCTGTGGTTCCCGTGGGACCGCAAGGCGAAGAAGGACGGCACGGACACGTGCTGGGTGCGGGTCAGTCAGGCATGGGGCGGCGGCACATGGGGTGCACAGGTCATTCCGCGCATCGGCATGGAGGTGATGGTCGCCTTTGTCGATGGAGACCCGGATAAGCCGCTGGTCATCGGCGTGGTCAACAATCCGGCCAATTCCGTGCCTTACGACCTGCCGGCCAACAAGACGCGTATGGTGCTGCGCTCCAACAGCCACAAGGGCGACGGTTTCAACGAAATCACCTTCGAGGATGAGGCCGGCAAGGAGAACCAGTTCTTCCACGCCCAGAAGGACCAGACGACGCGGGTTCTCAATGACCGGACCAAGCGCATCGACCGGCATGAGGTCGCCTCGGTCGGCGGCAACCGCGCGGTAGAAGTTTCCGGCAACCAGAAACACGAGATCGGCGGCTCGGTAAACACCGTCGTCGGCGGCACGGGACCGATGGCGATGATGGCCATGGCGGGCGTACAGGCGCTCTCCGGGCAGACGGCGGGGCTGCTTTCGCAGGCCGCCCAGATCGCCGGCGGCGGTGGCCCCGGTGTCGCGGCCTTCGCCACCACGCTTGCCTCATCCGCACTCGGCTTCCTCGGAGCCGGCGGTCTTTCATCGCGTGAGGGGGTCGTTTCCGGCCCGAGCCCGCGCGCGGATGCGGGTACGGCGCTAGCCGGCTCCGGCTCGGGCGTCGGTTCCGATGCTTCGGGATTGTTTCCGCTGCCGGGCATCATGAACACGATCGTCAGCACGTTCAAATCCGACAGCGTCGGGGTGGCGCGGGCAGAACAGATCGGGGTGAGCAAGGTTACGAATGTCGGCCAGACGTCGCTGGAAAGCGTCGGAAAGACAAAGAAGACAACCGTTGGAGAGCGTTACGAAATAAACGTTGGCAAAGCCATTTTCACGCAAACTGAAAATCACACGGTGATCGTCAGCGACAAGATAGTGCTTGCGGCACCGGGCGGCGTTATCGAGATCAACAAAAATGGGGTGTTTATCAAGGCAACCAAGTTCGAGGTCAAAGCAAACGCTGTGAACTTCAAGCGTGGCAGTGCCGGCAAAAGCACGAACAAGCCTTTTGCTGAAGACTGCTCGAAGAAGTAG	MIIRASHNIVDLSYETNGNEPEYRNHFEAIPARVPLTPHRSTKRPRIEGTQVAIVAGPEGEEIHPDQYGRIKLWFPWDRKAKKDGTDTCWVRVSQAWGGGTWGAQVIPRIGMEVMVAFVDGDPDKPLVIGVVNNPANSVPYDLPANKTRMVLRSNSHKGDGFNEITFEDEAGKENQFFHAQKDQTTRVLNDRTKRIDRHEVASVGGNRAVEVSGNQKHEIGGSVNTVVGGTGPMAMMAMAGVQALSGQTAGLLSQAAQIAGGGGPGVAAFATTLASSALGFLGAGGLSSREGVVSGPSPRADAGTALAGSGSGVGSDASGLFPLPGIMNTIVSTFKSDSVGVARAEQIGVSKVTNVGQTSLESVGKTKKTTVGERYEINVGKAIFTQTENHTVIVSDKIVLAAPGGVIEINKNGVFIKATKFEVKANAVNFKRGSAGKSTNKPFAEDCSKK	PGPT0030410_1902	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0030410-vgrG-K11904	NA	NA
BMS010_07269	597			hypothetical protein	GTGGAACTCAATAGCGAGAAGAGGCAGGAAGTTCTTTCCAAACTGCGCGAGGAGCAGGGGGCTGGCGGAGCCGCGCGTCTTTATGCCGTGGTCGATGCGTCCCGGGCGCCGATGATTATTCCACCGGCGCTTCAAGCCATGACGGACAAGGTAGCATGTCTTTACAGAGGCAATGCGCTTGAGGAGTTCGGGGACGATACGGCTTGGGTCGCAGAAATGACATCTGACGAAAGCGTGTTGCAATGGCTTATCGACAATGGCTTTGGCAAACGCTGGTCGATTTTTCTGCGAACGTCGCATGCATTGGAAGATGTCGTCCGGCATTTGAGGAAATTTACGATGGTCAAAGATAGTGAGGGGACCATTCACTTCTTTCGTTATTACGACCCACGAACGCTGCGCCAATATCTGCCAGTCCTAACATCGGAGCAGGCCGCTGTTTTTTTCAACGGAATTGAGTGTTTTTATTGTGAAAACGACCTGAAGGCGGGAGAATTCCTCAAGTTCCGCTTTGGAAATGGCATTGTACATCGTGAGATCGTTTTGCCTTCCGGAGGCACAGGTCAGGCAAAGGCAGTTGAGAGGGCATTATCATGA	MELNSEKRQEVLSKLREEQGAGGAARLYAVVDASRAPMIIPPALQAMTDKVACLYRGNALEEFGDDTAWVAEMTSDESVLQWLIDNGFGKRWSIFLRTSHALEDVVRHLRKFTMVKDSEGTIHFFRYYDPRTLRQYLPVLTSEQAAVFFNGIECFYCENDLKAGEFLKFRFGNGIVHREIVLPSGGTGQAKAVERALS				NA	NA	NA	NA	NA
BMS010_07270	480			hypothetical protein	ATGATCATTGAATTCGATCCGCGTCAGATGAATGCGATGCTGCACGATGACGACGATTTTACGAATTATTTCACCAGAGAAGTGATGCCAAAGCATCTACCCAGTTTCGCTGATATGGCGGGGTCGCCCCAGGCTACCGAAATGACACGCTGGGGCAGACGCTATGCTGAGCATTTCGGCTTTTCCGACCCGATTTATCAGATTCACTTCGTTGTTCTGATGTGGCGGATCGGGCCGGATTTCTTTATGTTCGAACCTTATAAATCCATCCTTGCCGATCAAAACCAGACTGAGGAACAGCGCATCGAGCGTTGTAACCTTGAACCGACCATGAGCCAGGAAGGGAACGCGATCGCGCGGAGCGATAATGCCTTCTGGTTCCCGCAATATATGAAGAACAACATTCTCGGCGTCCCTTATGACGACATCGAGGAGGAGTTCGAGCGTGAGCGTGCTGCCAGGGCGAGAGACGTTCAATGA	MIIEFDPRQMNAMLHDDDDFTNYFTREVMPKHLPSFADMAGSPQATEMTRWGRRYAEHFGFSDPIYQIHFVVLMWRIGPDFFMFEPYKSILADQNQTEEQRIERCNLEPTMSQEGNAIARSDNAFWFPQYMKNNILGVPYDDIEEEFERERAARARDVQ				NA	NA	NA	NA	NA
BMS010_07271	927			hypothetical protein	ATGAGCCAGCATCTTGATGATCTCGTCAATGTTCCTGACACGCGCGAGCTTGAACTGGCCCGTCGTGATCTGGACATGCTGAACCAGCGCTATACAGAAATCGCGAAAGAAGCGGGTTGGCTGGCTGCTTCGTCCGTTCCCGTAGTGGGTGGTGTCGTGGATGTTGCGAGCGCCATTGGAAACGCCTGGACTGGCAACTGGGCAGATGCCGGTCTGGATCTCGTCGGTCTCGTTCCCGTCTGGGGTGATGGGGCCAAGGCCGCTGCCAAAGGCACCAAGATTGCGCGGTATGCCGAAAAACTGATGAGCCAGGTTGCCGCCGCGCAGCGCAAGGTCAAGGCGCTCGAGGAGCATGTACGAAAGTCGGCGGCGGCATCGAAATATTGGGCTTCCAAGCGCGGCGAAGCCTACCGCAAGCTTCAGGAAGATTTGAGAAAATGCAATACGAAGGCATGCCGTCAGAAAAAAATCGACGAGTATAAGAATGGCGGCAAATACAAGAACATTCCACGAGAAGGGAAGTGGTCTGGAGAGCCGGGCAACAGCAAGTGGTCCCCCGAGCCCGGATCGAATGCCGATAAAGCGCTGAAAGAATACGGTCAGGATGGGATTTCTTACAAAAACGGAAAACCCGATTTTTCACCATTCATGAAAAAAGGACCGGATGGGCAGCCGATTCAGACCCGCATATCCAATATGAAGGGCGACCTGGCAAGAGGGCCGGACGGCGACGTGGGCCAGGCCGTTGGTCCGCTCAAGGAAAGGTATGGCAGCTGGAGCAAGACTGCCGATGAAAATGGCTTTACGTGGCATCACAATGAAGACACATCCACGATGCAGCTGGTCGACTCGCGTATACATAATACCGGCCAAGGCGGCGGTGCCCACAGCGGCGGCGCTTCTGCAGTCAACGATCCTTCCTATTAG	MSQHLDDLVNVPDTRELELARRDLDMLNQRYTEIAKEAGWLAASSVPVVGGVVDVASAIGNAWTGNWADAGLDLVGLVPVWGDGAKAAAKGTKIARYAEKLMSQVAAAQRKVKALEEHVRKSAAASKYWASKRGEAYRKLQEDLRKCNTKACRQKKIDEYKNGGKYKNIPREGKWSGEPGNSKWSPEPGSNADKALKEYGQDGISYKNGKPDFSPFMKKGPDGQPIQTRISNMKGDLARGPDGDVGQAVGPLKERYGSWSKTADENGFTWHHNEDTSTMQLVDSRIHNTGQGGGAHSGGASAVNDPSY				NA	NA	NA	NA	NA
BMS010_07272	519			hypothetical protein	ATGGTTGTCTTAAAAGATGCGGTTCAATTCCTGGAGGAGAACAGCGATTTTCAACGAGTTCCGGATACGACGTGGACTGACCGCGATTTCGGTCGCTTTACGGAACTTACCGGGCTGATCGTTCCGAAACAGCTGGAAGAGGTTCTGAGGCAATACGGTCACTGTGGAACGGAATACAACGATTCATTTCTGGTGGAATACGATGACGGCAGTCGGTCGGTACATGATGTGCAGGTGCTTGTTTCGAATTTCGATACCATCGTTTCGTGGCACGACACCTTTATTGCCAATTCCAGTTGGGAAAAACAGTTCACGCTCCCAATGATATTTTTTGGATCGGCGGATTCCGGACATGCTTATTTGTTGATGGATGGTAAAAATCCTGAAAATGGGGCTGTTTACTTCTGGGAGAGGGCGACAGACCCCTTTGGTACAGGAAATAACGCAAAAGGGATCGTCAAGCTGGCGGACAGTCTGCCGGAATTCCTGATCAATCTCTCCGCACCAGAAAACCTTTGA	MVVLKDAVQFLEENSDFQRVPDTTWTDRDFGRFTELTGLIVPKQLEEVLRQYGHCGTEYNDSFLVEYDDGSRSVHDVQVLVSNFDTIVSWHDTFIANSSWEKQFTLPMIFFGSADSGHAYLLMDGKNPENGAVYFWERATDPFGTGNNAKGIVKLADSLPEFLINLSAPENL				NA	NA	NA	NA	NA
BMS010_07273	789			hypothetical protein	ATGCTTGGTCTACACGAAAAATGGCGAGCAACCTTTATTGAATCCTGGCCGGACGAAGTGTGCGAGCTAGGGTTACCCTTTGAGCAGTTGCTTATTTCGGAGCAGGATCGTGTCGCCATAGGGAGCAGGACCGCGGCTTTCCGGGACCTGTTCAGTGTAGATGAACTCCCTCAACTGTCAGATGAATTCCGCGTAGCCATTGACGCAAAAACCGCGGTTTTCAAAGAGGGCGCCCATTTTCGCTTCGGTGGATGCAGTTTCAAACAGCCCGGACAATACCAAAAGGGGCCGATCTTCAACAGCGCCCAACTCATGTCTCATATATTGCGGGATAATCCCCGTGTGGCGGGACTTCTTGCCAGTTCACTTCAAGATAAATTTGACGTTTGCATGTTCATACGGCCTTGGAAAGACATTCCGAAATGGTCTGAGTTCAGGCTCTTCATGAAAAACCGGGAATTCCTCGGCGCTTCCCAGTATTTTCATACGGCTTTTTTTCCTGAGATAGAGGCAAATGCCAAATCCATCGCGGCAGCTCTGGTGGATTTTGCGGACCGTTTCAGGGAGGTCGCTCATATTGATGATGCTATCGTCGATATTTACCTGAAACCTGGCGATATCGCCGGATTTGAAGCTGTGCTTCTGGATATTAACCCGCTCATCGTGCGGTCCGACCCGTGCCTTTTTCGATGGAGGAACGGGGGGGATTTTGACAGGGGGCTACGCTTCCGGGGCGGGAATAATCGAGTGCTCGCCATAGCACCGTTGCCTTTTGCTCGTGCGGCTTGA	MLGLHEKWRATFIESWPDEVCELGLPFEQLLISEQDRVAIGSRTAAFRDLFSVDELPQLSDEFRVAIDAKTAVFKEGAHFRFGGCSFKQPGQYQKGPIFNSAQLMSHILRDNPRVAGLLASSLQDKFDVCMFIRPWKDIPKWSEFRLFMKNREFLGASQYFHTAFFPEIEANAKSIAAALVDFADRFREVAHIDDAIVDIYLKPGDIAGFEAVLLDINPLIVRSDPCLFRWRNGGDFDRGLRFRGGNNRVLAIAPLPFARAA				NA	NA	NA	NA	NA
BMS010_07274	303			hypothetical protein	ATGACCGCCAGCCCAGTCTCCCTTAAAGGCCACATGCATGTCTGCCCCAAGGTCGATCCCGGCCCAAGACCGCATGTTGGTGGTCCCGTCATCTCCACCCAACAGAGTTTTGTTACGGTTGAAGGAACGCCGGTCGCAACTGTCGGTGATACCTGTTTGTGCACGGGAGTTCCGACGACCGATACAATTACTGCCGGCTCGTCCTTTGCCGCTATTGATGGAAAGAAGATAGTGCGGCAGGGTGATGCATGCGCGCATGGTGGAAGATTGGTGCAGGGAACCTCCTGGATCACGTTCGAGTAA	MTASPVSLKGHMHVCPKVDPGPRPHVGGPVISTQQSFVTVEGTPVATVGDTCLCTGVPTTDTITAGSSFAAIDGKKIVRQGDACAHGGRLVQGTSWITFE				NA	NA	NA	NA	NA
BMS010_07275	1974			hypothetical protein	ATGAAAATACTGACCGCCACACAAAAACTGCAGGACTTCATGTCCGTCCGGTCCGACAATCCTGATCTGCTGAAAGCACAGTACCGCGCTTTCACCCGACAGATGCCGATGATGTATTTCATCCTGCTTTCAAGCACATGGGCGCTTGCCGTGACGCATATGCAATTGGCGCCGTCTTGGCTCACCGTTGGAGTTCCCGCCCTCTTCACACTCGGCTGCACGCTCAGGGTCGCCTTCTGGTGGAGGACGCGCGGCATGGATCCGGAACCGCGGGTGGCGCATGCAGCCCTTCGGCGCACAAATCGCCTCGCTGCCGGCATCGCCATGGCATTCACGCTCTGGTCTTTTCTGCTGGTGCCCTATGGGGATGCCTATACGCAATCCCACGTCGCCTTCTATATGGCGATTACCGTCATTTCCTGCATTTTCTGTCTGATGTATGTGCGCTCGGCCGCCTTCACGGTGACGCTCATCGTCAATGGCGCCTTCATCGCCTTCTTTCTGGCGTCGCAGCAACCGACATTTGTTGCCATCGCCATCAACGTGCTGCTGGTCTGCACCGGCATGATGTCCATTCTGCTGACCAACTACCGCAATTTCGAGCGCATGGTCATTTCACAACAGCGCACGGAAGCGCTCAGCAACGAAAACCTGCTGCTTGCCAATATCGACAGCCTGACGGAACTGCCCAACCGCCGCGCTTTTTTCGCTCACCTTGAGGCCGAGCTCGAGAAAGCCAGGGCCAACGGAACCCGGCTGGCGCTGGGGGTGATCGATCTGGACGGGTTCAAGCCGGTCAACGATCTTTACGGACACTCCGTGGGAGACAGGCTGCTTGTCAATGTCAGCAAACGCCTCACCGCCAATCTGAAAACCAGCAGGGCCTTTCGACTGGGCGGTGACGAATTCGCCATCGTCGCTCCGATCATACCGGATGACGCGCAACTCGTCACAAATGCCAATGCGATCTCCGAGCAGTTGAGGGCGCCTTACCATATGCCGGAAGGAACCGTGCATGTTTCCGCTTCCATGGGAATTGCCGTGTTTCCAAACCTCGCCTCAACGCTCGAACAGCTTTTCGACAGGGCGGATTATGCCCTTTACCACGCCAAGAAAACCCGGCGTGGCGACGCCGTTCTCTTCGATGCGGAGCACGAAAAGCAGATCAATATCGAAGCCCGCGTCGAGCACCTGCTCAAACAGCGGGATATGGAAAACGAGCTTTCGGTGGTGTTCCAGCCGATCGTTGATATACGCGACGGAAGGACGTCAGGGTTTGAAGCGCTGGCGCGCTGGCACAGCCCGGTTCTCGGGCATGTGCCGCCTTGCCAGTTCTTCCCCATCGCGGAACGGGCCGGCATCGTCGGCTCGCTGACGCGGCCGCTTCTCAAAATGGCGCTCGCCTCCGCCGCCACATGGGAGCCCTCCCTGCGCCTGTCGTTCAACCTTTCGGCCCAGGACCTTAATTCCCATGAGGGCGTGCTTTCCCTGCTCGGCATCATCGAAAACAGCAGCTTCGATGCACGGCGGCTGGACCTTGAAATTACCGAGACGGCTTTTGCCCATGATTTCGAGCAGGTGAGGCAATCGGTCGAAATGCTGCGCCGCCTCGGCTGCGGCATATCGCTGGACGATTTCGGCACCGGCTATTCCAGCCTGACGCGACTGCATGCATTGCCGCTGACCAAGATCAAGATCGACCGCAGCTTCGTCACGGACCTGCACGAAAAACCGGCCAGCTACAAAATCGTAAAATCCCTTCTCACCCTCAGCCGCGACATGGGACTGGAATGCGTGGTGGAAGGGGTGGAAACACCCGCCGAGCTAACCGCACTCGAAGGCCTCGGCGCCACGCTGGTACAGGGCTACATCTATGCACCGCCGCTTCGGGAAGAGGATGTCGGTGCGTTTCTTTCGGGACAGGCGACTAGAAGCGGAACTTCCGCTGGCAAACGCAGAAACAGGCTCCGCTAG	MKILTATQKLQDFMSVRSDNPDLLKAQYRAFTRQMPMMYFILLSSTWALAVTHMQLAPSWLTVGVPALFTLGCTLRVAFWWRTRGMDPEPRVAHAALRRTNRLAAGIAMAFTLWSFLLVPYGDAYTQSHVAFYMAITVISCIFCLMYVRSAAFTVTLIVNGAFIAFFLASQQPTFVAIAINVLLVCTGMMSILLTNYRNFERMVISQQRTEALSNENLLLANIDSLTELPNRRAFFAHLEAELEKARANGTRLALGVIDLDGFKPVNDLYGHSVGDRLLVNVSKRLTANLKTSRAFRLGGDEFAIVAPIIPDDAQLVTNANAISEQLRAPYHMPEGTVHVSASMGIAVFPNLASTLEQLFDRADYALYHAKKTRRGDAVLFDAEHEKQINIEARVEHLLKQRDMENELSVVFQPIVDIRDGRTSGFEALARWHSPVLGHVPPCQFFPIAERAGIVGSLTRPLLKMALASAATWEPSLRLSFNLSAQDLNSHEGVLSLLGIIENSSFDARRLDLEITETAFAHDFEQVRQSVEMLRRLGCGISLDDFGTGYSSLTRLHALPLTKIKIDRSFVTDLHEKPASYKIVKSLLTLSRDMGLECVVEGVETPAELTALEGLGATLVQGYIYAPPLREEDVGAFLSGQATRSGTSAGKRRNRLR				NA	NA	NA	NA	NA
BMS010_07276	846	suhB_3	COG0483	Inositol-1-monophosphatase	TTGCGCATGGATTCGATCCACTATCCCGATACATTGGCGGCGCGTGCCGAATTGTGCCGCAGCGTTATTCTTTCCGCCGGCGAACTGGTGCTGAAGGGTTTTCAGGGCGAGGCGACGCGCAGCTTTTCGATGAAGGGGCCGCAGGATTTTCTGACGGTGACGGATGCTGCCTCCGAAGCGCATATTCGCGGCGCGATCACGGCCGCTTTCCCGGAAGACAGTTTTTTCGGGGAAGAGGGCGGCGGTGAGATCGGTGAGCGCGTCTGGGTCGTGGATCCAATCGATGGCACCGCCAATTTTGCCCGTGGCATTCCGCATTTCTGCATCTCCATCGCCTATGTCGAAAACGGCCAGACCGAAATCGGGGCGATCTATAATCCCGCCCTTGGCGAGCTTTATTTCGCCCGCCGCGGCGAGGGAGCGACGCGCAACGGTCAGCCGATCCGGACTGCGGAAACGGAGCGCTTCGATGCCGCTTCGATCGAGATGGGGTGGTCCACCCGTATCGCGAATACGACCTATCTCGATGTCGTCAGGAACCTGCTCGACATGGGCGCCAATGTCCGCCGCGCCGGCTCCGGCGCGCTGGCGCTTGCCTATGTGGCTGATGGCCGTTCCGATGGCTATCTCGAATTGCATATGAATTCATGGGATTGTCTTGCGGGGCTGCTACTCGTCAGCGAAGCTGGCGGCGATGTGTGCCCTTTTCTGCAGATCGGCAGTCTCCGGGAGGGCGGGCCGGTGCTGGCCGCAGCCGCCGGTGTTGCCAAAGGCGTCAGCCAGGCATCGAATATAGCGCTCGCCGCGCGGCAGCTGTCGGATCGTCCGCGGGCGGCATCGGCGTGA	MRMDSIHYPDTLAARAELCRSVILSAGELVLKGFQGEATRSFSMKGPQDFLTVTDAASEAHIRGAITAAFPEDSFFGEEGGGEIGERVWVVDPIDGTANFARGIPHFCISIAYVENGQTEIGAIYNPALGELYFARRGEGATRNGQPIRTAETERFDAASIEMGWSTRIANTTYLDVVRNLLDMGANVRRAGSGALALAYVADGRSDGYLELHMNSWDCLAGLLLVSEAGGDVCPFLQIGSLREGGPVLAAAAGVAKGVSQASNIALAARQLSDRPRAASA	PGPT0018535_1617	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018535-suhB-K01092	NA	NA
BMS010_07277	609			hypothetical protein	ATGGATGGACCCGTTTATGCCCGGCCTGCAATCAGCCTGATTGCGGAAGGGCTCGGCCCGCACAATGCTGCGCTTTACATTGGCGGCAGCGATGGTGCGAGCGATCTCGGGCTCCTGCGCCGGCATGGCATCACCACTGTCGTCAATTGTGCCGTCAATCTGGATATCAATCTCGTGCAGGCGGTGGCGGAAGAGGGCGACAGGCGCGCCGTGGGTTATGGCGATATCCGTTATTACAAGCTCGGCCTTATCGATGGCGAGGGCAGCCCCGACACCATGATGCTGGGCGCCTATTACATTCTCGACGGCGCGCTTCGCCAGACCATGCCGAAGCGGGAAACCTATCCCTTTGCCGATGGCGGCAATGTGCTCGTCAATTGCCGCAGCGGCCGCAGCCGTTCCGTCTCACTGGTGGCGCTTTTCCTGCACAAGCAGCAGCCGGATCTCTATCCGACCCTCGACGATGCGCTGGCCGTGATCCGCACGAAACGGGAATTGCGGCCTGACGAATGGTTCGAGACGCCGAAACCGATGCTTTACGCCGCCGCCCGCCGTGCTTCCGACTGGATCGACATGGTCGAGGGCAGAAAGACCGCTCAACCATGCTGA	MDGPVYARPAISLIAEGLGPHNAALYIGGSDGASDLGLLRRHGITTVVNCAVNLDINLVQAVAEEGDRRAVGYGDIRYYKLGLIDGEGSPDTMMLGAYYILDGALRQTMPKRETYPFADGGNVLVNCRSGRSRSVSLVALFLHKQQPDLYPTLDDALAVIRTKRELRPDEWFETPKPMLYAAARRASDWIDMVEGRKTAQPC	PGPT0018535_55	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018535-suhB-K01092	NA	NA
BMS010_07278	1686			hypothetical protein	ATGCTGACACGCACGCTTCCCTCCGTTGCCGTCATCGCCGACGCGCATTTTCATGACACGGCAGCCGATTTCGGATTTCCCGGCATCGAAATCGATGGTCAGCGTATCACCATGCGCAGCTGGTCGGATACGCGTGAATCCACCCGGGTTTTCAATGAAAGCGCCGATGCATTGCATGCGGCGCTGGAAGAGGTGCGGCAGCGCGGCATTCGCCATGTGGTGCTGCTTGGCGACTATACCGATGATGGCCAGCGGGTGACGACCGAAACGCTGAAGAACATCCTGCAAAGCCACAGCGACGCCCACGGCACGGCCTTCTACGCATTGCCCGGAAACCACGATATTTTCGGACCGCGCGGCCGGCATCATACCAAGGAGTTCCTGACGGAGAACGGCAAATGCCTTTCCGTTTCAAGCGATGCGCGGCGGGTCGGTGAGCGCGTTGTCGTGAGCGACGGGATGTATTGCGAAGGCTATCCTGCAGGCCTTGGCCCGATGGCGGCTTTCGGTTATTTCCGCCAGCCGGATTATCTGCATTGGGAAACCCCTTTCGGTGTTTCCGATGCGCCGGAGGACCGGCTGTACGCGGTGCGGTCGCCCGATGGGCGCAATGTTTACCGCCTGATGGACGCCTCCTATCTGGTCGAGCCGGAGCCGGGCTTGTGGCTGCTGATGATCGACGCCAATATTTTCGAGCCGCTCGATGGTGAGTTCGAAGCGGGCGAGGAGACGGCTTTTATCGACAGCACCTCCGGTGGCTGGAATGCGCTTTTGCGCTGCAAGCCCTTCCTCATCGACTGGATCGCTGATGTGCGCCGCAGGGCGGAGCTGCATGGCAAGACATTGCTCGGCTTTTCCCACTATCCGGCGCTCGACCCTTTCGATGGCGCAAGTGGTGCGGAGGGCGCCCTGTTCGGTGAAACCAATGTCGTGCGCCGTACGCCGCGCAAGGCGGTGGAGGATGCGCTGTTACAGGCCGGGCTTGCCGTCCATTTCAGCGGGCACCTGCACGTGGAAGGCGTGACCCGGCGCGGGGAGGGCGAAAATTCGCTCACCAATATTGCCGTGCCGTCGCTCGTCGCCTTTCCGCCCGCCTTCAAGGTCGTCCACCCGTCGCGGCAGGCAATCCTTGTCGAGACGGTGGAGATGGCCGCGCTGCCGGTCAATGGCCGCATTTGCGATGGCTATGCACAGGAAACCGCACTGGCGGGCGAGGCAAACGACCGGGCTTTTGCCGCCCGCAATTACGGTGAATTTCTGCTGGGCCACAAGCGGGCGCTGATCAGGCACCGTTATTTCCCCAAGGAATGGCCGGTCGAGGTCGTCACGGCAATCGCCGACAAAAGCGTTCGGGAGGTTCTCGGCCTGCTCGGAGGGGAAGGCCTCTTTTCGTCTGACGCTGCTGTCCTCTCCTTGGACCTGCCGATGTTCGAGCTGATTGCCGACTGGTATTGCCTGCGCCAGGGCGCAGGCTTGGCACTGCCGCATATCGCGCCGCAGCGGCTTTCCCTTTATCGAACGCTGGCGGAGCGCTTCGGCCGCGAGCCGGATCGTCACGATGGTTCGGTCGAAAGCTTTCTTGAAATCTTCTTCGGAGCCCTCGGCCTGTTTCTCGAGCGTGCCGAAAGCAGCCCGCGCGATCTGGAGCTTGGGCTTGTACCGCAGCGTGAACGGGTTGCGGTTTGA	MLTRTLPSVAVIADAHFHDTAADFGFPGIEIDGQRITMRSWSDTRESTRVFNESADALHAALEEVRQRGIRHVVLLGDYTDDGQRVTTETLKNILQSHSDAHGTAFYALPGNHDIFGPRGRHHTKEFLTENGKCLSVSSDARRVGERVVVSDGMYCEGYPAGLGPMAAFGYFRQPDYLHWETPFGVSDAPEDRLYAVRSPDGRNVYRLMDASYLVEPEPGLWLLMIDANIFEPLDGEFEAGEETAFIDSTSGGWNALLRCKPFLIDWIADVRRRAELHGKTLLGFSHYPALDPFDGASGAEGALFGETNVVRRTPRKAVEDALLQAGLAVHFSGHLHVEGVTRRGEGENSLTNIAVPSLVAFPPAFKVVHPSRQAILVETVEMAALPVNGRICDGYAQETALAGEANDRAFAARNYGEFLLGHKRALIRHRYFPKEWPVEVVTAIADKSVREVLGLLGGEGLFSSDAAVLSLDLPMFELIADWYCLRQGAGLALPHIAPQRLSLYRTLAERFGREPDRHDGSVESFLEIFFGALGLFLERAESSPRDLELGLVPQRERVAV				NA	NA	NA	NA	NA
BMS010_07279	987	ascG	COG1609	HTH-type transcriptional regulator AscG	ATGGCGAAAGGGTTCGTAACGGCCGAAGAAGTAGCAAAAAAGGCGGGTGTCTCACGCTCCGCCGTTTCACGCACCTTCACTCCCGGCGGCAGCGTATCCAAGGCCGTCCGACGCAGGGTGTTGAAAGCTGCGCAGGAACTTGGCTATCGCGTCAACCGTTTGGCGCAGGGCCTCAATAACGACCGCTCCAACCTTATTGGTGTCGTCGGGGCCAATCTCAGTTCTCCCTTCATTTCGAAACAGCTCGATTTCCTGAGCATCGGTCTCTTGCGCCGTGGCCTGCAATGCCTGCTGCTGAATGCGGCAGATGCGCGCAAGGACATCGCACCGCTCATCGAGCGTCTCTTCGAATTCCGCGCGCAGGCCATCATCGTTCTTTCCGGTGAACCTCCGGCCTCTATTATCGACGAATGCATCGCCAACGGCGTGCGCCTCATCCTCATCAACCAGCATCTGGACCGCACCGATACGAATATGGTGCTGAGCGACGATTCTCACGGCGCCAACCTGGCCGCCATGCGGCTTGTAGCTGCCAGGTGCAGAAAGGTTGCGGTTGTCTCCAGCGGCAGCCAGACGCCCGCGCAGTTGCGCCGCGTCAACGCTTTCACCGAGTGCATGACCATGGAGGGTATCCAGGTAATTCCATGGTGCGGCGGCCCCACCAGCTATGACAGTGGCTATCAGGCCGGCCGAGAATTGCTCGCGGACAGGACCATCGACGGCGCCTTCTGTGTCACTGATCTGCTGGCACTTGGTTTCATGGACGCCGCCCGGCTGGAAATGGGCCGCCGGGTGCCGGAAGATATCTCGATTGTCGGTTTCGACGATATTCCGCAGGCCAGCTGGAAAAGCTACCAGCTGACGACCGTTGCCCAGTCTTTCGACGCGCTGACCGAGAAGGTTTTGACCGCGCTCGATAGCGATGAGCCGGAAACCCGGCTTCATGTTGTGCCCGTTTCCATGGTCGAGCGCATCACCGCACGCTAG	MAKGFVTAEEVAKKAGVSRSAVSRTFTPGGSVSKAVRRRVLKAAQELGYRVNRLAQGLNNDRSNLIGVVGANLSSPFISKQLDFLSIGLLRRGLQCLLLNAADARKDIAPLIERLFEFRAQAIIVLSGEPPASIIDECIANGVRLILINQHLDRTDTNMVLSDDSHGANLAAMRLVAARCRKVAVVSSGSQTPAQLRRVNAFTECMTMEGIQVIPWCGGPTSYDSGYQAGRELLADRTIDGAFCVTDLLALGFMDAARLEMGRRVPEDISIVGFDDIPQASWKSYQLTTVAQSFDALTEKVLTALDSDEPETRLHVVPVSMVERITAR	PGPT0014791_107	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_FACILITATING_PROTEIN	SESSILE_ROOT_COLONIZATION,PGPT0014791-ccpA-NA	NA	NA
BMS010_07280	222			hypothetical protein	ATGACCATAAACGGGAAAACAGTATTCCTTATCGGCGCAGCCATCCTCGCCGGTCTTGTCGTCATCGAGCCCAAGGATGTCCACATCGCCATCGGGGAACGCGCCATGGGAGGTTATGACGGTTTGAGCAACCCGGAAGCGGCCTCCCGCGCCGAGCGGGAAGCAAAAGAAGCCGCCGCGCGTGCCGAGGCTGCGGCAAGCGCGCTGGAACCGCAAGACTGA	MTINGKTVFLIGAAILAGLVVIEPKDVHIAIGERAMGGYDGLSNPEAASRAEREAKEAAARAEAAASALEPQD				NA	NA	NA	NA	NA
BMS010_07281	1086	sugC_3	COG3839	Trehalose import ATP-binding protein SugC	ATGATCCTTCAGATCGAACTTTCCGGCGTCAACAAATATTACGGCGCCTTCCATGCGCTGAAGAACATCAACCTTTCCATCAAGAAGGGCACTTTCGTCGCACTTGTCGGCCCGTCGGGCTGCGGCAAATCCACCCTTCTGCGCTCGCTCGCCGGGCTGGAGACCATATCGGCCGGCGACATGCGCATTGCCGGCACGCTCATGAACGGTGTGCCGCCGCGCAAGCGCGATGTGGCCATGGTGTTCCAGTCCTATGCGCTCTACCCGCATATGACCGTGGAGGAAAATCTCACCTATTCGCTGCGTATGCGCGGCGTGGCCAAGGCCGAGGCCCGCAAGGCGGCGGAAGAAGTTGCCGCGACTACGGGACTTTCAAAGCTGATGAAGCGTTATCCCCGCGAACTCTCCGGCGGCCAGCGCCAGCGCGTGGCCATGAGCCGTGCGATCATCCGCAATCCGCAGGCGTTTCTGTTCGATGAGCCGCTCTCCAATCTCGATGCGGCGCTGCGCGTCCACATGCGCAAGGAAATCCGCGCACTGCACGATCGCCTGCATGCCACTTCGGTCTATGTCACCCATGACCAGATCGAAGCGATGACCATGGCCGATCATGTCGTCGTCATGCGCGACGGCGTGATCGAGCAGCAGGGCACGCCGCTGGAACTATACGACCGCCCGGTCAATCGTTTCGTGGCCGGCTTCATCGGCTCGCCGGCCATGAATTTCATTGCGGCGACCGTCAGCCCGGATGGCGCATCCCTTCAGCTCAGCTTCGGCGAAGGCGAACCGCAGCAATCGATCAGGAATCCGGCCTCCCTGCCGCCCGGCAAGGATGTGATCGTCGGCATCAGGCCGGAACATATCCGACCGGCCGCAGCAGCCGGGGCGGCATTGACGCTGCCGGTTTCCGCGGTGGAGACAACCGGTTCGGCGACCTTCCTCACAACGGGAACCACCACCGAATTGGTCATCGCGGTGCAGGGACGCAGCGCAGTCAAAGCAGGTGAAACGATCGGCCTCGACATCGACCCGTCCGATATGCATTTGTTCGATGCGGAAACAGGCGTCGGCCTCCTGACCCGCTGA	MILQIELSGVNKYYGAFHALKNINLSIKKGTFVALVGPSGCGKSTLLRSLAGLETISAGDMRIAGTLMNGVPPRKRDVAMVFQSYALYPHMTVEENLTYSLRMRGVAKAEARKAAEEVAATTGLSKLMKRYPRELSGGQRQRVAMSRAIIRNPQAFLFDEPLSNLDAALRVHMRKEIRALHDRLHATSVYVTHDQIEAMTMADHVVVMRDGVIEQQGTPLELYDRPVNRFVAGFIGSPAMNFIAATVSPDGASLQLSFGEGEPQQSIRNPASLPPGKDVIVGIRPEHIRPAAAAGAALTLPVSAVETTGSATFLTTGTTTELVIAVQGRSAVKAGETIGLDIDPSDMHLFDAETGVGLLTR	PGPT0016310_4459	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0016310-msmX|msmK|malK|sugC|ggtA|msiK-K10112	NA	NA
BMS010_07282	828	dasC_5	COG0395	Diacetylchitobiose uptake system permease protein DasC	ATGAGCATCACGACCCGCAACCGTCTGATGCTGGCCATCGCCATCCTGCTCGCCATCATCTACCTCTTCCCGCTTTACTGGATGTATCTGACCTCGCTCAAAAGCGGCTCGGAAATGTTTGCCAATCCGCCCGCCTTCTGGCCCACGGACCCGCAATGGCAGACCTATGCCTATGTCTGGAACAGTCGCAACATGGGCCGATACCTGTGGAATTCGGTGCTGATCGCTTCGAGCGCGGTGCTGCTGATCACCATTCTCGGCGTCGGCTGTGCCTATGTGCTGGCGCGCTATCGCAATGTCTGGGTGGATATCGGCCTGTTCCTCATCCTCATGCTGCAGGTTCTGCCGGCATCGCTGATGATCACGCCAATCTTCGTCGGCTTCTCGCAATTCGGGCTTCTGGATTATCCGCGCCTGTCGGTCATCCTCGCCATTGCGGCGAAAAGCATGCCCTTTTTCGTGGTGCTTGTGCGCGCCACCTTCATGGCCGTGCCGCAGGAACTGGAAGAGGCCGCACTTGTGGATGGCAATTCCCGGGTCGGCGCTTTCTTCAACATCGTTCTGCCGCTTGCCCGAAACGGCATTCTCGTCAGCGCCATCCTCATTTTCATGCAGGCCTTCGGTGAATTCGTCTATTCGAAATCGATGATCCAGGCGGCCGAATTGCAGCCAGCGAGTGTCGGCCTCAATTCCTTCATGGGCCCCAATACCAACGAATGGAACAACATCATGGCCTATGCGACCATGTATGTGACGCCCATTCTTGCCCTCTTCATTCTCTTGCAGCGCCGCATCGTTTCCGGCCTGACCTCAGGAGCGCTCAAATGA	MSITTRNRLMLAIAILLAIIYLFPLYWMYLTSLKSGSEMFANPPAFWPTDPQWQTYAYVWNSRNMGRYLWNSVLIASSAVLLITILGVGCAYVLARYRNVWVDIGLFLILMLQVLPASLMITPIFVGFSQFGLLDYPRLSVILAIAAKSMPFFVVLVRATFMAVPQELEEAALVDGNSRVGAFFNIVLPLARNGILVSAILIFMQAFGEFVYSKSMIQAAELQPASVGLNSFMGPNTNEWNNIMAYATMYVTPILALFILLQRRIVSGLTSGALK	PGPT0016540_8199	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
BMS010_07283	903	melD_7	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	ATGAAAAAACTGTTTTCCAGCGTCAGTGACGGTCGCGGTTTCGATATCGTCCTTGTCGCCTTTCCTTTGGGCTTCCTGTTCGTCATGGCGGGGTTGCCGCTCATCTACAACATCGTCATGAGCTTTCAGGAAGTCGACATGTTCAGCCTGGGCACCTTCGTGCGCCCCTTCGTCGGCTTCAAGAACTACATCGATCTGTTCCGGCAGCCGGAAACATTGCCGATCCTTTTCAACACCGTCACCTTTGTCGTGGCCTCGATTGCCGGGCAATTCGCTATCGGCTTCGGTCTGGCGCTGTTCTTCTGGGTCAATTTTCCCGGCGCCACCTGGCTGCGCGGTCTTTTTCTCGTGTCCTGGGTCATGCCCGGCCTCGTGGTGGGCGCGATCTGGAACTGGATCCTCTCGGGCGATTTCGGCGTGTTGAATTTCTTCCTGCGGGAAAGCGGCCTGATATCGGGCAATATCTTCTGGCGCTCCGATGCGAATTTTTCGCTCTGGGCCGTCGTCATCGCCAATATCTGGCTCGGCACCTCCTTCAACATGATCCTGCTTTCGGTCGGCCTCGCCTCCATTCCCGGCGATCTCTATGAAGCCGCGGAGCTGGACGGCGCCAATGCCTGGCAGCGCTTCTACACCATCACCCTGCCGATGATGCGCTCCACCATCGGTGCGATCGTTTCGCTCGGGCTGATCTTCACGCTGCAGCAATTCGATCTTTTCGCCGCCATTACCGATGGCGGACCGAACAACAGCTCCAACGTGGCGCAATACTGGGCGTGGGATCTGTCCTTCCGGCAATATGATTTCGGCAAGGGCGCCACGATCTCCGTCATCATGATCGTTTTCGTCATGCTGGCCTCCATCGTTTATGTGCGCTCCACACGGCATGAGGTGCGCGGATGA	MKKLFSSVSDGRGFDIVLVAFPLGFLFVMAGLPLIYNIVMSFQEVDMFSLGTFVRPFVGFKNYIDLFRQPETLPILFNTVTFVVASIAGQFAIGFGLALFFWVNFPGATWLRGLFLVSWVMPGLVVGAIWNWILSGDFGVLNFFLRESGLISGNIFWRSDANFSLWAVVIANIWLGTSFNMILLSVGLASIPGDLYEAAELDGANAWQRFYTITLPMMRSTIGAIVSLGLIFTLQQFDLFAAITDGGPNNSSNVAQYWAWDLSFRQYDFGKGATISVIMIVFVMLASIVYVRSTRHEVRG	PGPT0016535_6307	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
BMS010_07284	1233	cycB	COG2182	Cyclodextrin-binding protein	ATGGGTATCGCGAAATGCATGATGGCCGGCGCGTTTATGCTGGCGGGCGTATCCGCCGGCGCTATTGCGGCGCAGGCAGAAGATGTGACGTTGACCCTCTGGTCGCTGGATCGCGATATCCAGCCGGCGCCGAACCTCATCAAGGAGTTCAACGCGCTCAATAACGGCATCAAGATCGAATACCGGCAATTGCAGTTCGATGATGTGGTGAGCGAATCCATGCGCGCCTATTCCACCGGCAATGCGCCCGACATCATCGCCATCGACAACCCCAACCACGCCATGTTCGCCGCACGCGGCGCCTTTCTCGATGTGACCGACATGATCGCCAAGTCGGATGTCATCAAGACGGAGAATTATTTTCCGGGACCGCTGAAATCGGTGATGTGGGACGGCAAATATTTCGGCGTGCCGAAGGCCACGAACACGATTGCGCTTTATTACAACAAGGACCTGTTCAAGGCCGCAGGGCTGGACGCAGCAAAACCACCGCAGACCTGGGATGAGCTGGTGGAAGCGGCGCGCAAGCTGACCGACCCCTCGAAGAATATTTACGGCATCAGCTTCAGCGCCAAGGCGAATGAAGAAGGGACCTTCCAGTTCCTGCCCTGGGCGCAGATGGCAGGCGCGACCTACAAGAACATCAATACCGAGGGTGCGGTCAAAGCGCTCGAAACGTGGAAGCTGATGCTGGATGAAAAGCTGGCATCGCCGGATACGCTGACGCGCAGCCAGTGGGACTCCACCGCCACCTTCAACGCCGGCAACGCCGCCATGGTCATTTCCGGCCCATGGGAAATCGACCGCATGCTGAAGGACGCCAAGTTTGACTGGGGTGTCGCTTTGCTGCCGGTGCCCACACCCGACGCCCCGCGGTCTTCGGCCATGGGCGACTATAACTGGGCGATCTTCTCCAAGACGAAACATCCGGAAGAGGCCTTCAAGGCAATCGAGTTCTTCGCCTCAAAGGACAAGGACATGTTCAAGAACTTCGGTCAGTTGCCGGCGCGCTCGGATATTCCGGTTCCGCCCACGGGCAATGCGTTGAAGGATGAGGCGCTGAAGACCTTCGTGGAACAGCTGAAATATGCGCAGCCGCGCGGCCCCTCGCCCGAATGGCCGAAGATTTCCAAGGCGATTCAGGATGCCATTCAGGGTGCGCTTTCGGGCCAGATGACGCCGAAAGCCGCGCTCGATCAGGCCGCTGAAAAGATAAAGCTGGTCGAAGGCTGA	MGIAKCMMAGAFMLAGVSAGAIAAQAEDVTLTLWSLDRDIQPAPNLIKEFNALNNGIKIEYRQLQFDDVVSESMRAYSTGNAPDIIAIDNPNHAMFAARGAFLDVTDMIAKSDVIKTENYFPGPLKSVMWDGKYFGVPKATNTIALYYNKDLFKAAGLDAAKPPQTWDELVEAARKLTDPSKNIYGISFSAKANEEGTFQFLPWAQMAGATYKNINTEGAVKALETWKLMLDEKLASPDTLTRSQWDSTATFNAGNAAMVISGPWEIDRMLKDAKFDWGVALLPVPTPDAPRSSAMGDYNWAIFSKTKHPEEAFKAIEFFASKDKDMFKNFGQLPARSDIPVPPTGNALKDEALKTFVEQLKYAQPRGPSPEWPKISKAIQDAIQGALSGQMTPKAALDQAAEKIKLVEG	PGPT0016545_10465	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
BMS010_07285	903			hypothetical protein	GTGAGCAATCCGGCAACATCCATCCGCATCGGCACCATGGTCAGCGCCACCAAGGGACAGGCGGCCGAACGCATCGGCCAGATCGCCGATCTCGGCTTTGAAAGCTTCGAGCCGTTCTTCTGGCAAACGACCAACGGCCAGGACCTTGCCGAACTCGGCAAGCGCTGCCGCGAGGCGATCGGCGAGCGCGACATCACCATCAGCACGCTCGGCATGTTCGGCAATCCGCTGGAGGAGACCGACATCGACCTTGAGACATTGCAGGGCTGGAAAGACTGCATCGACAATGCCCACCATTTCGGCGCGACCTGCGTTGCCGGTTTCACGGGCCGGCTTCGTGGCAGGCCGCTGCCGGAAAGCCTTCCCCGATACCGGCAAATCTGGAGCGAGCTTGCAAAACGCGCCGCCGACAAGGGCGTGAAGATCGCCTTTGAAAACTGCGCCATGGATGGCAACTGGCAGACCGGCGACTGGAACATCGCGCACAATCCCGACGCATGGGAACTGATCTTCAACGAAACGCCGGACGAGCATATCGGCATCGAGTGGGAACCCTGCCATCAGATGGTCTATCTGATCGATCCGCTGCCGCAGATCCGCAAATGGGCGGACAAGATTTTTCATGTGCACGGCAAGGACGCGACCATTCGCTGGGACGTCATTCGCGAGCACGGCATTTTCGGCAAGGAAAAATTCGTCTTCATGCGCACGCCGGGCTTCGGCGACAGCAACTGGACGGACATTATTTCCGAACTGCGCCTCGCCGGCTGGTCCGGCTCCATTGATATCGAGGGCTGGCATGACCCCGTCTATCGCGATGCGCTGGAAATGACGGGCCAGGTGCATGGCCTGAACTATCTGAAAAAATGCCGCGGCGGCGATTTCGTCGTCGATCCGACATAA	MSNPATSIRIGTMVSATKGQAAERIGQIADLGFESFEPFFWQTTNGQDLAELGKRCREAIGERDITISTLGMFGNPLEETDIDLETLQGWKDCIDNAHHFGATCVAGFTGRLRGRPLPESLPRYRQIWSELAKRAADKGVKIAFENCAMDGNWQTGDWNIAHNPDAWELIFNETPDEHIGIEWEPCHQMVYLIDPLPQIRKWADKIFHVHGKDATIRWDVIREHGIFGKEKFVFMRTPGFGDSNWTDIISELRLAGWSGSIDIEGWHDPVYRDALEMTGQVHGLNYLKKCRGGDFVVDPT				NA	NA	NA	NA	NA
BMS010_07286	1035	iolG_9		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGACATTCAATGCCGTTTTATGCGGGTGCGGAGCCATGGCCAAAGGCTGGCTGCGCGCCATTCAATCCACGCCGGAAATCGCCGGCGCGATCAGGATCGCCGGGCTGGTCGATCTGAACGAGAACACGGCCCGCGCGCTTGCCGAAGAATTCGCCCTGACCGACGCGGTCATCGGCACGGATCTGCGCGAGGTTCTCGCTGAAACGAAAGCCGACATCCTTTTTGATATCGTCATCCCACAGGCACGCTTCGCCGTGGTTGAGGCCGGTCTTGAGGCCGGGTGCCATGTGCTCAGCGAAAAGCCGCTTGCCGCCTCGATGGAGGAAGCCGCCACGCTGGTCGAACTGGCGAAAAAAGCCGGCAAAGTTCATGCCGTTGTACAAAACCGGCGGTTTGTGGCGGGTATCCGGCGGCTGCGCCGTGCGCTGGAAGACGGCGTCATCGGCGATTTGACGGCCATCCATTGCGATTTTTTCCTTGGGCCGCATTTCGGTGGCTTCCGCGAGGAGATGAAGAACGTCCTGCTTCTCGACATGGCGATCCACACTTTCGACGCGGCCCGTTTCGTCGCCAATGAAAAACCCCTCTCCGTCTTCTGCGTGGAGAAGAACCCGGCCGGCTCATGGTATGCCCATGGCGCAAGCGCCAACGCCATTTTCGAGTTCTCGAATGATGTCGTCTTCACCTATCGCGGCTCCTGGTGCGCCGAAGGCGAGCGGACCAGCTGGGAAGCGCGCTGGCGACTGATCGGCTCCAAGGGCATGATCGTCTGGGACGGCGAAGACAATTTCTCCGCCTCCGTGGCCGGTGACGACCAGGGGCTTCTGCGTGGATTTAAGACCGTAAACGTTTCCGAAGACGTTTCCGAGAAGGATACGCGCGGCCATGCCAGCGTCATTCTCTCGTTTCTTGAGTCCATCCGCACGGGCGAGATGCCGGAAACGGCCTCCTTCGACAACATCAACAGCCTTGCCATGGTGATCGGCGCGATTGAAAGCGCCCGCCTCGGCCAGCGTGTTTCCATTGCAGCATAA	MTFNAVLCGCGAMAKGWLRAIQSTPEIAGAIRIAGLVDLNENTARALAEEFALTDAVIGTDLREVLAETKADILFDIVIPQARFAVVEAGLEAGCHVLSEKPLAASMEEAATLVELAKKAGKVHAVVQNRRFVAGIRRLRRALEDGVIGDLTAIHCDFFLGPHFGGFREEMKNVLLLDMAIHTFDAARFVANEKPLSVFCVEKNPAGSWYAHGASANAIFEFSNDVVFTYRGSWCAEGERTSWEARWRLIGSKGMIVWDGEDNFSASVAGDDQGLLRGFKTVNVSEDVSEKDTRGHASVILSFLESIRTGEMPETASFDNINSLAMVIGAIESARLGQRVSIAA				NA	NA	NA	NA	NA
BMS010_07287	1029	ccpA	COG1609	Catabolite control protein A	ATGAAAGGAATTCGTCAGCTTGCCGATTATCTGGAGATATCGATAGGCACTGTTTCCCGTGCCCTGAACGGCAAGCCGGATGTGAACGAAGAAACGCGGCGGCGTGTTCTGGAAGCGGCGGAAAAGCTGGGTTATGTCGCCAACCAGTCCGGCCGTAGCCTCAGGCAGGGAACCACCAATGTCATCGGCCTGATGACCGGCAGCGACGCGCAGACCGTGGAGAACTCCGACAACTTTTTCCTCGGTGTGACGGACGGTCTGCAAAGCGTGTTTTCCGGACATAATCTCGATCTCATCGTTCTGCCCTGTCCGGGGGAAGAGGATCCGGATGAATATCTGAAGCGCATGGTGGCGCGCCGCATGGTGGATGCGATGATCATTTCCGCGACGCGGCGGATAGACAAACGTGTGGATTTCCTGAAGCAGACCCGGCTGCCTTTCGTGGCGCTCGGACGGACCGCTTCCAGCGACACTCACGCCTGGATAGACCTCGATTTCGAGGGCGTCGCGAAAAACGCGGTCGATCGCCTTGCCGCTGCCGGGCATCGTTCGATTGCGGTGGCGGTGCCAGACAGCGATATCAATCTCGGTTACGTTTTTCTCGAAGGATACAGGCGCGCGCTGGAAGACAATGGCATCGTCTACGATTCCTCGCTGGTCATCCGCGCGAAATCGAGCGAGCAGGGTGGTTATCACGCCGCCAGCGAGTGGCTGCAGATGCGGCCCCGGCCAACGGCGATCGTGCTGATCTACGAATTGATGGCGGTCGGTCTTTATCGCCGGCTTGCGGAAGTGGGGCTGAAACCGGGGCGCGATCTCGCCGTCATCGGCTTCCGCGATGGCCCGCGCGGCCAGTTTCTGGAACCGCGGCTGACCAGTTTCCGCATGTCCCTGCATGATCTCGGCGTGACGGTCGCCCAGACGCTGCTATCGACCATGCCGGCCTACGCACCCTTTTACCCCGATCAGGCTCGCCATTGTGTGTGGCCCATGCTTCTGGTGGCCGGTGAGAGCGATCCCGCCCCATAA	MKGIRQLADYLEISIGTVSRALNGKPDVNEETRRRVLEAAEKLGYVANQSGRSLRQGTTNVIGLMTGSDAQTVENSDNFFLGVTDGLQSVFSGHNLDLIVLPCPGEEDPDEYLKRMVARRMVDAMIISATRRIDKRVDFLKQTRLPFVALGRTASSDTHAWIDLDFEGVAKNAVDRLAAAGHRSIAVAVPDSDINLGYVFLEGYRRALEDNGIVYDSSLVIRAKSSEQGGYHAASEWLQMRPRPTAIVLIYELMAVGLYRRLAEVGLKPGRDLAVIGFRDGPRGQFLEPRLTSFRMSLHDLGVTVAQTLLSTMPAYAPFYPDQARHCVWPMLLVAGESDPAP				NA	NA	NA	NA	NA
BMS010_07288	879			hypothetical protein	ATGAATTCCGGGCGTCGTGGCGTTCTCGCATTTCTGGGCGGCCTTGTGCTGGCAAGGCCGTCTCTCGGCGCAGCATCGGGCAAGCCTGCGGCTTTTGCCGAATCCCGTTCCGAATACAAACCCCGGCATATCCTCTGCTTTCTTGGCACGAAAAATGGGCTGGCGGCGCTGCGGAAGAGCGCCCGCGCCGCCATCGATGATTTTGCGCCCGATTTCAGTCTCGACGAGGATTATTCACAGGATGAGGCGGACGACCGGATGGAACGTTCGTTCAATGTCTGCTGGGATCGCGTCGACCCCGATGCCTACCAGCCGGAGGATGAGGCAGCCGTCGCCGCGCACGGCTCGGTTCTTTATGTGCTCAGCCCATCCATGGATGCCGACACAGCTGTGAAGACATCCGCAAAGGCCCTCAGATTCGTACAGCACATGCTCGATCACGGCGCTGTCGCCGTGAAGGGTGAAAGTGCGGGCGTCGCCCATGGCGCAAGGCGCTGGAAGCAGCTTTACGAGCAGTCGCGTGGCGAGGCGGCGGCCGATGACGGGATGGCGCTTGCCAGAACCTGTCGTCTGGCTTTCGCACGCCGCCCCATAGGAGACGATGCCGAAGGCATGACGAGCGTTGGGTTTCACCTGATCGGCCTGCCCGATGTGCAGATACGCTTCACCAAAAAAGACCAAGACCAGCCATCTACGAACGCCGAACAGCTGAAGATAGCCGCCTTGATAGACGATATCGCCGAGCAAATGGCGCGTGAAGGCGTTGAAGCCACACTGAAGGGCCGTGGCGCCTCCCTCTCAGACGACACACGGTATGAGGAAGACGAATATAAATTCAATCCTTTCGGCGTCGTGAGCGTTGACGGCCTCAAGCTTTAA	MNSGRRGVLAFLGGLVLARPSLGAASGKPAAFAESRSEYKPRHILCFLGTKNGLAALRKSARAAIDDFAPDFSLDEDYSQDEADDRMERSFNVCWDRVDPDAYQPEDEAAVAAHGSVLYVLSPSMDADTAVKTSAKALRFVQHMLDHGAVAVKGESAGVAHGARRWKQLYEQSRGEAAADDGMALARTCRLAFARRPIGDDAEGMTSVGFHLIGLPDVQIRFTKKDQDQPSTNAEQLKIAALIDDIAEQMAREGVEATLKGRGASLSDDTRYEEDEYKFNPFGVVSVDGLKL				NA	NA	NA	NA	NA
BMS010_07289	396			hypothetical protein	ATGGAAATATTGCGCGCAGGAACACGGGCATCGGCGAAAGGCCCCGAGGCATGGTTCACGGGTCAGGTCCGCATCGATCCCCTCTTCAACCCCTTTGATGCCGAGCGGGTTCAGGGCGCTCAGGTCACCTTCGAACCCGGCGCCCGCACCGCCTGGCACACCCATCCCCTCGGCCAGACCCTGATTGTGGTTTCCGGCTTTGGCCGGGCGCAGCGCGAAGGCGGCCCGGTGGAGGAAATCCGTCCCGGTGATACCGTCTGGTTCGCGCCGGGCGAAAGGCACTGGCACGGGGCCGCACCCGATGTCGCCATGACCCATATTGCACTTCAGGAGGTCAAGGATGGCAAGGTGGTGGACTGGATGGAACAGGTGACAGATGACCAATATGGCGGCTGA	MEILRAGTRASAKGPEAWFTGQVRIDPLFNPFDAERVQGAQVTFEPGARTAWHTHPLGQTLIVVSGFGRAQREGGPVEEIRPGDTVWFAPGERHWHGAAPDVAMTHIALQEVKDGKVVDWMEQVTDDQYGG	PGPT0005005_33	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005005-pcaC-K01607	NA	NA
BMS010_07290	1023			hypothetical protein	ATGTTTAGACATTTGATGGCTGCTGCCGCGATGGTGCTGGCGGCGGGCACGTCGGCGCATGCCCAGGAGCAGAGCTTCAAGATCGGTCTTTCCAATTCTTTCGTCGGCAGCGAATGGCGCACGCAGATGATCGAAGAGGCTCAGGCTGCCGCCAAAGCCTGGGGCGAAAAGGGCGTCAAGGTTGAGGTTGTCGTTCAGAGCGGCAATGTCGATGTGCAGGGGCAAATCGGCCATATCCGCAATTTCATGAACCAGGGCGTCGATGCGATCCTGATCAATCCGGGCAGCCCGACGGCCTTCGATCCGATCTTCGCGCAGGCCAAGGCGCGCAATATTCTCGTCATCGCAACCGACGCCGAAGTGTCCTCGAAGGATGCGATCTATGTCGGCATCGACCAAAAGGCATGGGCGGGGCAATCCGCGCAATGGCTTGCGGATGCGCTGAAGGGCAAGGGAAGCGTCGTCGCCATCAACGGCATCGCCGGCAACCCCGCCAACGAAGCCCGCGTTGCCGGTTATCGCGAAGTGTTCAAGAAATACCCTGACATCAAGGTGCTGAACGAAGCCAATGCGAGCTGGGATCAGGCGCAGGGCCAGCAGGCCATGCAGAACCTTCTCGCCACCTATCCCGATATCAGCGGTGTGTGGGTGCAGGACGGCATGGCGGACGGCGCATGGCGCGCCATCGAAGCCGCCGGCAAGACCAAGGACATTGCCGCGACCGGTGAAATCCGCAAGGACTTCATGACCCGCTGGGAAAAGGAAAAGTTCAATTCCGGCGCTTCGGTCAATCCTCCGGGTGTCATGGCCAGCGCGCTCAACGTCGCGGTCCTGAAGCTGCAGGGCAAGGAATTCAAGGACGGCGTTTTCGGCGGCACCTATGGTAACGCCATCTATATTCCGATCCCCTTCGTCAGCAATGACAACCTTGCCGACAACATCAAGGCTGCCGATGGCAAGCCGGGCTACTGGTCCGTCACGGCGACCGTGACGCCGGAGCAGGCTGGCGAGTTCTTCAAGTAA	MFRHLMAAAAMVLAAGTSAHAQEQSFKIGLSNSFVGSEWRTQMIEEAQAAAKAWGEKGVKVEVVVQSGNVDVQGQIGHIRNFMNQGVDAILINPGSPTAFDPIFAQAKARNILVIATDAEVSSKDAIYVGIDQKAWAGQSAQWLADALKGKGSVVAINGIAGNPANEARVAGYREVFKKYPDIKVLNEANASWDQAQGQQAMQNLLATYPDISGVWVQDGMADGAWRAIEAAGKTKDIAATGEIRKDFMTRWEKEKFNSGASVNPPGVMASALNVAVLKLQGKEFKDGVFGGTYGNAIYIPIPFVSNDNLADNIKAADGKPGYWSVTATVTPEQAGEFFK	PGPT0015740_2211	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0015740-rbsB-K10439	NA	NA
BMS010_07291	1494	mglA_6	COG1129	Galactose/methyl galactoside import ATP-binding protein MglA	ATGGCGAACGCTTTGGAAGCGGCCGGCATAACGAAGAATTTTGGCGCGGTACGCGCGCTTTCCGACGGCAGGCTGACGGTTGGTCGCGGTGAAATTCACGCGCTTCTGGGCGCCAATGGCTGCGGCAAGAGCACGCTCTGCAAGATCGTTGCGGGCGCGGTCGCGCCGACCAGCGGCGCAATCAGGTTCAATGGCGAAGACGTGCGCTTTAAAAGCCCGCGGGACGCCGAAAATGCCGGTATTGCGCTGTTTTATCAGGAACTCAGCCTCGTTCCGCAGCTTTCGGTCGCCGACAATATTTTCCTCGGCCGTGAGCCGAAACGCGGCATCTTTGTCGACGGCAAAGCCCTGAAGGCCGAAGCGGCGAGACTGATCGCGCTGTTTGACGGCGTGGCAGGCGAAGGGCTGGAGCCGGATGCGATTGTCGGCAATCTGCCGCCCGATCAGCGCCAGCTTGTCGAAATCCTCAAGGTCTTCGCGCAGAATGCCAGCCTGATGATCATGGACGAGGCGACGGCGGCGCTCGATGGCCGCCAGTCCCAGCGTTTTTTCGAGATACTCCGGGCGAAGAAGGCGGATGGTATCTCCACCATCATGATTTCCCATCGTCTCGACGAGGTTTTCGCCGTCTGCGACCGCATCACCGTGATGCGCAACGGCGCGACGATTTCCGAACTCGATACGGCAGCCACCACCCGTGAGGCCGTCGTCCATGACATGGTCGGCGATGTTCGGGCCGCTCCTGCCCGTCAAAACGGGCGTTCGGCTGCTGCGCCGAGCCTGAAGCTTACGGATGTTGCGGGTGAGGGCGTTCGCGGTGTCACTCTCGAAGCCTATCCGGGCGAAATCGTCGGTCTGGCCGGCCTGCAGGGTCAGGGCCAGTCGGCCTTGCTGAAGGGGCTTTTCGGTGCCAACCCATTTGCTGCCGGCCAAATCCGGTTTGAGGGTCGTGAAATCACCATCGGCAAACCTTCGCAGGCGGTTCATAGTGGTTTTGCCTATGTTTCCGGTGACCGTGGCCGTGACGCTTCCCTTCAGGGCCGGTCGATCTTCGAAAATCTCGTCGCGGCGCTGATGGTGCGCGAGAAGATGCGGCTGGTCCGTCCCGCGACGCTGAAGCCGCGCGTGCAGAAGGTCGCGGACGACATGAAGACGAAGTTCGCCGGCCTCGATATGCCGATCGGCACGCTTTCGGGCGGCAACCAGCAGAAAATTTTCATCTCCCGCTGGCTCGCCACCGCACCGAAACTGCTTTTGCTCGACGATCCGACCAAGGGCATCGATCTTGGCGCGAAGGCCGATCTCTTCGCCCTGATGCGGCAACAGGCCGATGCCGGCGCGACCATCCTTCTTTATTCCTCGGAGGATGCGGAAATCCTCGAATATGCCGACCGCATTCTTGTGTTCAACGGTGGACGCATTTCTGCGGAACTGACCGGAGCCGACATGACATCCGTAAACATGACCCGCGCCGCCTATGGAGATGCCGCATGA	MANALEAAGITKNFGAVRALSDGRLTVGRGEIHALLGANGCGKSTLCKIVAGAVAPTSGAIRFNGEDVRFKSPRDAENAGIALFYQELSLVPQLSVADNIFLGREPKRGIFVDGKALKAEAARLIALFDGVAGEGLEPDAIVGNLPPDQRQLVEILKVFAQNASLMIMDEATAALDGRQSQRFFEILRAKKADGISTIMISHRLDEVFAVCDRITVMRNGATISELDTAATTREAVVHDMVGDVRAAPARQNGRSAAAPSLKLTDVAGEGVRGVTLEAYPGEIVGLAGLQGQGQSALLKGLFGANPFAAGQIRFEGREITIGKPSQAVHSGFAYVSGDRGRDASLQGRSIFENLVAALMVREKMRLVRPATLKPRVQKVADDMKTKFAGLDMPIGTLSGGNQQKIFISRWLATAPKLLLLDDPTKGIDLGAKADLFALMRQQADAGATILLYSSEDAEILEYADRILVFNGGRISAELTGADMTSVNMTRAAYGDAA	PGPT0016600_4176	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0016600-rbsA-K10441	NA	NA
BMS010_07292	945	araH_1	COG1172	L-arabinose transport system permease protein AraH	ATGAGCGCCTCCGGTTTTCTGCGCAGGCAGCCATGGGTCATCACCCTCGTCGTACTGGCGCTTCTCATCGCCGTGAACACGTTTCTGCAACCTTCCTTCGTTCAGCCCTCCGTGCTGCAATCGAACCTGACGACGTTTCTGCCGCTGATCCTGGTCGCCATTGGCCAAACCTATGTCATTCTTGCGGGCGATATCGATCTGTCGGTTGGTAGTATCGTGGCGCTTGCCAATGTCGTCACCGTCAGCGTCATCGCCGCACTCGGCGGCACGACGGGTGCTGTCTTCGCCGGCATGGCGGCGGGTGCGGCTGTCGGGCTGCTGTGTGGACTGGTCAATGGCCTTTTCATATCCGGCCTGCGCTTCCAGCCAATCGTCACCACCTTCGCAACCGGCATCATCTTCGCCGGGCTGGCGATCTGGGTGCTGCCACAGGCGGGCCTTCCGGTGCCGGAAGCCTATTGGCAGACCTATTCCGGCAGCTTCATCGGCTTGCCCTTCGTGCTGTGGGTGCTGATTGGGGGCATTGCCTTCACCCTCATCGTGTCGCGCATTCCGTTTCATACGCACCTGTTGGCCGTCGGCGGCAATCGCACCGGTGCCTTCCAGACGGGTCTGCGCCTCTCGGGTATCCGCATCGGCGCATACATGATCTCCGGCCTGTTCTCGGCGCTGGCAGCGCTGTGCCTGACGGGAGAGACGGCCTCGGGCGATCCGCTGCTCGGTGCAAGTCTGGCGCTCTCCTCCATCTCGGCCGTGGTTCTGGGCGGCACCGCACTTTCGGGCGGTTTCGGCAGCTCGACAGGGTCGATTGCCGGCGCGCTGGTGCTCGGCATGATCGGCAATGTGATTTTCTTTGCGGGCCTGCCCTTCGAGTACCAGACACTGGTGCAGGGTTTAATTGTGCTGACGGCGCTGGCCGGCGGTGTTCTGGTGACGAGGCGTTGA	MSASGFLRRQPWVITLVVLALLIAVNTFLQPSFVQPSVLQSNLTTFLPLILVAIGQTYVILAGDIDLSVGSIVALANVVTVSVIAALGGTTGAVFAGMAAGAAVGLLCGLVNGLFISGLRFQPIVTTFATGIIFAGLAIWVLPQAGLPVPEAYWQTYSGSFIGLPFVLWVLIGGIAFTLIVSRIPFHTHLLAVGGNRTGAFQTGLRLSGIRIGAYMISGLFSALAALCLTGETASGDPLLGASLALSSISAVVLGGTALSGGFGSSTGSIAGALVLGMIGNVIFFAGLPFEYQTLVQGLIVLTALAGGVLVTRR	PGPT0016590_5851	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0016590-rbsC-K10440	NA	NA
BMS010_07293	969	rbsC_9	COG1172	Ribose import permease protein RbsC	ATGACCAATCCCCGCTTGCAAATCAAAACCCTCCTTACCGACCCCCTGACCATCGCGATTGGCGCATCGGTCTTCCTGCTGCTGGTCGGGGAATTGTTGTCTCCCGGCTTCGCGCAGGGCTCGCAGATCGTGCGGCTGCTGACGATTGCCGCCATTCTCGGCATTGTCGCGGCGGGCCAGAACCTTGTCATCCTCGGCGGGCGTGAAGGCATCGACCTTTCCGTCGGCGCGATGATCTCGCTGGGCGCCGTCCTTGCCGGCAATATGATGAACGGCCAGAATGCGGGCATTCCGCTTGCCATTCTCGTTGCCGGCGGCATTCCCTTCCTGATCGGCCTCATCAACGGCCTCGGCATCACTTTCGTGCGCATTCCGCCGTTGGTCATGACTCTTGGCATGACGGCGGTTATTCAGGGTGGGCTGGTCGTCTATTCGCAGGGCGTTCCATCAGGTGCGGCCGCACCCCTGCTGGCGGGCTTCATCAACCGGCCGCTCATCTTCGGCATTCCCGGCGTGCTTTTCGTCTGGCTGGGCATCGCCGCGATCATGCTGTTCGTGCTGCGCCGCACTGCCTTCGGTTTCGCCATTTATGCCATCGGCTCGAACGAGCGGGCGGCGACGCTCACCGGATTGCCGGTTTCCCTGATCCGTACGCTGCTTTATGGGCTTTCCGGCCTGTTTGCCGGGCTGACCGGGGTTTGTGTGATCGGTTACACCGGCACGTCCTTCATCTCCGTCGGTGACCAATATGTGCTTCCGTCGATCATCGCGGTCGTCATCGGCGGCACTTCGCTTGCCGGCGGTGCGGGCGGATATGTCGGAACCATGGCCGGGGCTGTTGCGCTCACCATTCTGCAAAGCGTACTGATAACGCTCAACCTCGATGTATGGGCACGGCAGATCATATTCGGTGTCACGTTGCTAGCGCTGATGCTGCTTTATGGCCGCCAAAAGCAGTTGCGTGTGTGA	MTNPRLQIKTLLTDPLTIAIGASVFLLLVGELLSPGFAQGSQIVRLLTIAAILGIVAAGQNLVILGGREGIDLSVGAMISLGAVLAGNMMNGQNAGIPLAILVAGGIPFLIGLINGLGITFVRIPPLVMTLGMTAVIQGGLVVYSQGVPSGAAAPLLAGFINRPLIFGIPGVLFVWLGIAAIMLFVLRRTAFGFAIYAIGSNERAATLTGLPVSLIRTLLYGLSGLFAGLTGVCVIGYTGTSFISVGDQYVLPSIIAVVIGGTSLAGGAGGYVGTMAGAVALTILQSVLITLNLDVWARQIIFGVTLLALMLLYGRQKQLRV	PGPT0016590_4846	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0016590-rbsC-K10440	NA	NA
BMS010_07294	1023	cytR_1	COG1609	HTH-type transcriptional repressor CytR	ATGAGCAAAGACCAAGGTTCGAATATCAGGGAAGTGGCAGCTCTCGCGGGCGTTTCCATCGCGACCGTATCGCGGGCGCTGCAGCAACCCGACAAGGTTCGCCCGGAAACCCGAAAGAAGGTTTTCGACGCCGTTCGGCAGGCGAACTTCGTTCCCAATGCGCAGGCGGCGAGCTTCCGCCGCCAATCCAACAACACCGTCATCCTTCTCGTTCGCGATATCGGCAACCCGTTTTATCTCGAAATCTACAAGGGCGTTGAGGAAGCGGCGGGCGAAGCGGGCTACAAGGTGCTGATGGGCGACGCCCGCAACGATGAGAACCGCGTGGCGACCCATATCGACATGGTGCGGCAGAAACATGCCGACGGCCTGATCCTGATGACCGGCCAGTTTCCCGCCGAGCTTCTCGAACAGGGTGATGCGCTGCCGCCGATTGTGATCGCGTCGGAAACGGTGCCCGGCCTCGCGCTGCCGACCGTCAAGGTCGATAACCGCGCCGCCTCCAAAAACGCCATGCGCCACCTCATCGAGGCGGGACATCAAAGGATCGTGCATCTGGCCGGTCCGGTCCCGGAAAGTCTGGCGCAGGAGCGTTTCGATGGTTATCGCGCGGCACTTACGGAAGCCGGCATCGCCTATGCCGACGAACTGGTGGTGACGGGCGATTACAGCATCGAGGCCGGCCGTCAGGCGATTGGCAGCCTTCTCGAAGGCGGCGTTGCCTTCACCGCGATTTTCGCATCGAGCGACCAGATGGCGATTGGCGCGATCAGCGAGTTGCGTGCGCGCGGCGTTTCGGTTCCGGCCGATGTCTCCGTCATCGGCTTCGATGACATCATTTTCGCCAATGCGTTTGAGCCGCCGCTGACGACGGTGCGCCAGCCTCGCCAGGAGATGGGCCGCAAGGCCATGGCGCTGATGGTGGACCGGCTGAACGGAAAGCGGACGGCCGAGACCATCGTGCTGGATACGGAACTGGTGGTGCGCGGCTCGGTCGCGCCCTGCCGCCCGCCGCATCGGTAG	MSKDQGSNIREVAALAGVSIATVSRALQQPDKVRPETRKKVFDAVRQANFVPNAQAASFRRQSNNTVILLVRDIGNPFYLEIYKGVEEAAGEAGYKVLMGDARNDENRVATHIDMVRQKHADGLILMTGQFPAELLEQGDALPPIVIASETVPGLALPTVKVDNRAASKNAMRHLIEAGHQRIVHLAGPVPESLAQERFDGYRAALTEAGIAYADELVVTGDYSIEAGRQAIGSLLEGGVAFTAIFASSDQMAIGAISELRARGVSVPADVSVIGFDDIIFANAFEPPLTTVRQPRQEMGRKAMALMVDRLNGKRTAETIVLDTELVVRGSVAPCRPPHR	PGPT0021075_902	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021075-cytR-K05499	NA	NA
BMS010_07295	1050	iolE_4		Inosose dehydratase	ATGAAGACGATCAAAGGCCCGGCGATTTTCCTCGCGCAATTTGCCGGAGACGAGGCCCCTTTCGACACGCTCGACAATCTCGGCCAATGGGCGGCTTCCCTCGGTTACAAGGGCATTCAGGTGCCGACCGATCCCAGACTCTTCGATCTTGAGAAAGCCGCTGCATCCAAGACCTATTGCGACGATATCAAGGGCCGGCTGGCGCAAATGGGTATCGAGATCACCGAGCTTTCGACCCATATTCAGGGCCAGCTCGTGGCCGTTCACCCGGCCTATGACGAAATGTTCGACGGTTTTGCGCCCGCTGAACTGCGCGGCAAACCGCAGGCGCGGCAGGAATGGGCGGTGAACCAGCTGAAATACGCGGCGAAAGCCTCGCAGCATCTCGGCCTCAAAAGCCACGCCAGTTTCTCCGGCGCACTCGCCTGGCCCTTCGTTTACCCCTGGCCGCAGCGTCCGGCTGGTCTTGTCGAAATGGCCTTTGCCGAACTGGGCAAGCGCTGGACACCCATTCTCGATGTCTTCGAGGAGAATGGCATCGATCTCTGCTACGAGCTGCATCCGGGCGAAGATCTGCATGACGGTATCACCTTCGAGCGTTTCCTCGAGGCTACCGGCAATCACCCGCGCGCCAACATCCTCTATGATCCCTCCCACTTCGTCCTTCAGGCGATGGATTATCTCGATTTCATCGACATCTACCACGAGCGCATCCGCGCCTTTCACGTCAAGGACGCCGAGTTCAATCCGACTGGCCGTTCCGGCGTTTATGGCGGTTATCAAGGCTGGGTCGACCGGCCGGGGCGTTTCCGCTCGCTGGGCGACGGGCATGTCGATTTCGGCGCGGTTTTTTCCAAGCTCACCCAATATGACTTCGATGGCTGGGCGGTGCTGGAGTGGGAATGTGCGCTGAAGCATCCGGAAGACGGCGCGCGCGAAGGTGCCGGCTTCATTGAAAACCATATCATCCGCGTGACCGAACGGGCTTTCGACGATTTCGCCAAGAGTGGCATCGATGATGCCGCCAATCGTCGCCTTCTTGGACTTTGA	MKTIKGPAIFLAQFAGDEAPFDTLDNLGQWAASLGYKGIQVPTDPRLFDLEKAAASKTYCDDIKGRLAQMGIEITELSTHIQGQLVAVHPAYDEMFDGFAPAELRGKPQARQEWAVNQLKYAAKASQHLGLKSHASFSGALAWPFVYPWPQRPAGLVEMAFAELGKRWTPILDVFEENGIDLCYELHPGEDLHDGITFERFLEATGNHPRANILYDPSHFVLQAMDYLDFIDIYHERIRAFHVKDAEFNPTGRSGVYGGYQGWVDRPGRFRSLGDGHVDFGAVFSKLTQYDFDGWAVLEWECALKHPEDGAREGAGFIENHIIRVTERAFDDFAKSGIDDAANRRLLGL	PGPT0016785_21	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_CATABOLISM,PGPT0016785-mocC-K03335	NA	NA
BMS010_07296	1170			hypothetical protein	ATGTCCTCCGCTACAAAGAAATTCGATAGCCGCCGTATCCGTCTCGGAATGGTGGGTGGTGGTCAGGGCGCCTTTATCGGTGCGGTGCACCGTATTGCGGCCCGGCTGGATGACCGTTACGAGCTGGTGGCCGGCGCGCTCTCCTCCGATCCTGCGCGTGCAGCCGCTTCGGCGACCCTGCTCGGCATTGCACCGGAGCGGTCCTATGCTTCGTTTGAGGACATGGCGGCGGCCGAGGCTGGACGAGAGGACGGTATCGAGGCGGTCGCCATCGTCACGCCGAACCATCTGCATTTCGCCCCGTCCAAGGCCTTTCTCGACGCCGGTATCCACGTCATCTGCGACAAGCCGGTTACCGCGACGCTGGAGGAAGCGAAGGCACTGGCCGAGATCGTCAGGGCATCCGACAGCCTGTTCATCCTGACGCATAATTACACCGGCTACGCGATGCTGCGGCAGATGCGGGAAATGGTGGCGCGTGGCGACATCGGCAAGCTGCGCCATGTCCAGGCTGAATATGCGCAGGACTGGCTGACCGAAGCCGTTGAAAAGACCGGCGCAAAGGGAGCGGAATGGCGCACGGACCCCAGCCGTTCCGGCGCTGGCGGGGCAATCGGCGATATCGGAACCCATGCCTTCAACGCTGCTGCCTTTGTGACGGGTGAAATCCCGACAAGCCTTTATGCCGATCTGACGTCGTTCGTTCCGGGCCGACAGCTGGATGACAGCGCCAATATTCTGCTTCGTTATTCAAGCGGCGCAAAAGGCATGCTCTGGGCGAGCCAGATCGCGGTTGGCAACGAAAACGCCCTGTCGCTCCGGGTCTATGGCGACAAGGGCGGGCTTGAATGGCACCACCGGGTGCCGGATGAGTTGTGGTTCACGCCTTATGGCGAGCCGAAGCGGCTGATCACCCGCAATGGCGCGGGTGCAGGCGATGCCGCCAACCGCGTCAGCCGTGTGCCATCGGGGCACCCGGAAGGATATCTCGAGGGTTTTGCGACGATCTACCGCGAAGCCGCAGATGCAATCATTGCAAAGAGGGAGGGAAAAACGGCCGCCGGGGATGTGATTTATCCCGGCATAGAGGACGGCCTTGCGGGTCTCGCATTCATCGATGCGGCCGTCCGGTCCAGTCGGATCTCGTCCTGGGTCGGGATCGACATCTAG	MSSATKKFDSRRIRLGMVGGGQGAFIGAVHRIAARLDDRYELVAGALSSDPARAAASATLLGIAPERSYASFEDMAAAEAGREDGIEAVAIVTPNHLHFAPSKAFLDAGIHVICDKPVTATLEEAKALAEIVRASDSLFILTHNYTGYAMLRQMREMVARGDIGKLRHVQAEYAQDWLTEAVEKTGAKGAEWRTDPSRSGAGGAIGDIGTHAFNAAAFVTGEIPTSLYADLTSFVPGRQLDDSANILLRYSSGAKGMLWASQIAVGNENALSLRVYGDKGGLEWHHRVPDELWFTPYGEPKRLITRNGAGAGDAANRVSRVPSGHPEGYLEGFATIYREAADAIIAKREGKTAAGDVIYPGIEDGLAGLAFIDAAVRSSRISSWVGIDI				NA	NA	NA	NA	NA
BMS010_07297	855			hypothetical protein	TTGAAAACGTTCAAGTCAAAATTCGCTGGCATGGCATTCGTGGTTGGACTGGCGGCCGGTTTCGCAAATCCGGTTTTTGCCGATGACAGCAAGGTGCTGCCGATAGCCGCGCAGATGTACACGCTGCGCAATTCCGGAACGCTGGAAGAACAGCTTGCCATTCTCAACCGTGCCGGCGTCTCCGCCGTGGAAACGGTGGATATGCAGAAGGTCAGCGCCGGCGAACTGAACACGCTGCTGGAAAAGCACAAGATCAAGGTCATTTCCTCACATGTGCCGATCGACAAGCTGCGCGGCAATCTCGATGCGGTCATCACCGAGCAGAAGGCTGTCGGCAATCCGGTCGTGACTGTGCCGTTCCTGAAGCCGGAAGACCGCCCGAAGGACGCCGCCGGCTGGACCGCCTTCGGCAAGGAGCTTGGCGGTTACGCGGACAAGCTTTCCGCAGCAGGCCTCTCCATGGCCTATCACAACCACGACTTCGAGATGGTCAAATTCGACGGCAAGACGGCGCTCGAACTGCTGCTCGACGCGGCAGGCCCGAAGCTGCAGGCCGAAGTCGATGTCGCCTGGGTGGCGCGCAGTGGCAATGATCCGGCTGAATTCCTCGGCACGTTGAAGGGCAAGGTTTTCGCCATCCACGCCAAGGACAATGCACCGGCCGGCACGGCGGAAAACGAGCGCGGCTTCGCCACACTCGGCACCGGCGTTCTCGACTGGAAAACGATCCTGCCGGCGGCCAAACATGCCGGCGCAAAATGGTTCATCCTTGAACACGATCTTCCGCTCGATGCTGAAGCGGTGGTGACCAAGGGCAACGCGTTCCTCAATGAACACCTGCCGACCATTCAGTAA	MKTFKSKFAGMAFVVGLAAGFANPVFADDSKVLPIAAQMYTLRNSGTLEEQLAILNRAGVSAVETVDMQKVSAGELNTLLEKHKIKVISSHVPIDKLRGNLDAVITEQKAVGNPVVTVPFLKPEDRPKDAAGWTAFGKELGGYADKLSAAGLSMAYHNHDFEMVKFDGKTALELLLDAAGPKLQAEVDVAWVARSGNDPAEFLGTLKGKVFAIHAKDNAPAGTAENERGFATLGTGVLDWKTILPAAKHAGAKWFILEHDLPLDAEAVVTKGNAFLNEHLPTIQ				NA	NA	NA	NA	NA
BMS010_07298	1686	mpdB		2-methyl-1,2-propanediol dehydrogenase	ATGGCAAACAATCATTATGATGCGATTGTTGTCGGCTCGGGCATCAGTGGAGGCTGGGCCGCAAAGGAACTCACGCAAAAGGGCCTGAAGGTCCTGATGCTGGAGCGCGGCCGGAATATCGAGCACATCACCGACTATCAGAATGCCGACAAGGAGGCCTGGGATTACCCCCATCGCAACCGCGCCACGCAGGAGATGAAGGCGAAATACCCCGTTCTCAGCCGCGATTACCTGCTGGAAGAGGCGACGCTCGGCATGTGGGCCGATGAGCAGGAAACGCCCTATGTCGAGGAAAAGCGCTTCGACTGGTTCCGTGGTTATCACGTCGGCGGCCGCTCGCTGCTCTGGGGCCGCCAGACCTATCGCTGGTCGCAGACCGATTTCGAGGCCAATGCGAAAGAAGGCATCGCCGTCGATTGGCCAATCCGCTATGAAGACGTTTCTCCCTGGTATGACTATGTCGAGCGCTTCGCAGGCATTTCCGGCAGCCGCGAGGGGCTGGATATTCTCCCTGATGGCGATTTCCTGCCGCCCATTCCGCTCAATTTCGTGGAGCAGGATGTGGCCAGCCGGCTGAAGAAGGCGTTCAAGGGCACGCGCCACCTCATCAATTCACGTTGCGCCAACATTACCCAGGAACTTCCCGATCAGGAGCGCACGCGCTGTCAGTTCCGCAACAAGTGTCGGTTGGGCTGTCCCTTCGGCGGCTATTTCAGCACGCAGGCATCCACCCTGCCTGCGGCGGTCGCCACCGGCAATCTGACGCTCAGGCCTTTCTCCATCGTCAAGGAAATCCTTTACGACAAGGACAAGAAGAAGGCGCGCGGCGTCGAGATCATCGATGCCGAAACCAACCTGACCTACGAATACACCGCCGACATCATCTTCCTGAACGCCTCGACGCTGAACTCGACATGGGTGCTGATGAATTCGGCCACCGATGTCTGGGAGGGCGGTCTCGGCAGCAGCTCCGGCGAGCTCGGCCATAACGTGATGGACCACCATTTCCGCATGGGCGCCACCGGCCAGGTGGAAGGCTTCGAGGACTTCTATTTCAAGGGCCGCCGTCCGGCGGGCTTCTACATTCCGCGTTTCCGCAATACCGGTGACGACAAGCGTAAATATCTGCGCGGTTTCGGGTATCAGGGCTCCGCCAGCCGCTCGCGCTGGGAACGGGAGATCGCCGAACTCAATATCGGCGCCGACTACAAGGAGGCCCTGACCGATCCGGGTGGCTGGACCATCGGCATGACCGCCTTCGGCGAAATGCTGCCTTATCACGACAACCGCGTGAAGTTGGATCATGAAAAGAAGGACAAATGGGGCCTGCCGGTCCTCTCCATGAATGTCGAGATGAAGCAGAACGAACTCGACATGCGCGAAGACATGGTCAATGACGCCGTCGAAATGTTCGAGGCGGTCGGCATCAAGAACGTCAAGCCCTCGCGGGGCAGTTACGCCCCCGGCATGGGCATTCACGAAATGGGAACGGCCCGCATGGGGCGCGACCCGAAAACCTCCGTCCTCAACGGCAACAACCAGGTCTGGGATGCGCCCAACGTCTTTGTGACGGACGGCGCCTGCATGACCTCGGCCTCCTGCGTCAACCCGTCTCTGACCTATATGGCGCTGACGGCGCGTGCCGCCGATTTTGCCGTTTCCGAACGCAAGAAGGGGAACCTGTGA	MANNHYDAIVVGSGISGGWAAKELTQKGLKVLMLERGRNIEHITDYQNADKEAWDYPHRNRATQEMKAKYPVLSRDYLLEEATLGMWADEQETPYVEEKRFDWFRGYHVGGRSLLWGRQTYRWSQTDFEANAKEGIAVDWPIRYEDVSPWYDYVERFAGISGSREGLDILPDGDFLPPIPLNFVEQDVASRLKKAFKGTRHLINSRCANITQELPDQERTRCQFRNKCRLGCPFGGYFSTQASTLPAAVATGNLTLRPFSIVKEILYDKDKKKARGVEIIDAETNLTYEYTADIIFLNASTLNSTWVLMNSATDVWEGGLGSSSGELGHNVMDHHFRMGATGQVEGFEDFYFKGRRPAGFYIPRFRNTGDDKRKYLRGFGYQGSASRSRWEREIAELNIGADYKEALTDPGGWTIGMTAFGEMLPYHDNRVKLDHEKKDKWGLPVLSMNVEMKQNELDMREDMVNDAVEMFEAVGIKNVKPSRGSYAPGMGIHEMGTARMGRDPKTSVLNGNNQVWDAPNVFVTDGACMTSASCVNPSLTYMALTARAADFAVSERKKGNL				NA	NA	NA	NA	NA
BMS010_07299	561			hypothetical protein	ATGAACAGACGCGAACTGCTGAAACTCATAGCCATTGCCACCGGCCTTCCGCTGATCGGCGCGGATGTCCTCACGGCTGCCGAAAACGCCGCCAAGCCCGCCGGCGCTACCCACGTCTTCACCGCCGAAGAAATCCGCTTTCTGGATGAGGTGGCGGAAACCATCATTCCCCGCACCTCCACGCCGGGCGCAAAGGATGCTGAAGTGGGAGCATTCATGGCCGTCTATGCGGCCGATTGTTATACCGACGAACAGCGGACACTTTTCCTTTCGGCGATTTCCGACATCGAAAAGCGTGGTCAGGCCGAACACAAGAAGGGCTTTCTGGAGTTGACGCCGGAACAGCGGCAGGCGCTGCTTGCCGCGCTGGACAAGCAGGCCAAGGCGGAACAGACGCCGGCAAAGCCTCACGCCTTCACGCTGGTCAAGCAGTTGACGCTGCTCGGCTTCTTCACCTCGAAGATCGGCGCCACGGAAGTTCTCGTCTACGACGAGATTCCCGGCGGTTTCGAAGACCGCGTTCTCTACAAGAAGGGTACGCCCGCCTGGGGCACGACCTGA	MNRRELLKLIAIATGLPLIGADVLTAAENAAKPAGATHVFTAEEIRFLDEVAETIIPRTSTPGAKDAEVGAFMAVYAADCYTDEQRTLFLSAISDIEKRGQAEHKKGFLELTPEQRQALLAALDKQAKAEQTPAKPHAFTLVKQLTLLGFFTSKIGATEVLVYDEIPGGFEDRVLYKKGTPAWGTT				NA	NA	NA	NA	NA
BMS010_07300	396			Cytochrome c2	ATGCGCAAGACAGTAATCATCGCGGCGGCTATGCTGACCGCAAGCACCGTTCCCGCTCTTTCGGAGGGCGATGTTGCCAAAGGGGAGGCGGTCTTCAAGCGCTGTTCCGCCTGCCACGCCATCGGCGAGGGCGCGAAAAACAGGGTCGGCCCGCAGCTTAACGGTATCATTGGCCGTGCGGCAGGCGGCGTGCCTGACTATACTTATTCGGCTGCGATGAAAAAAGCGGGCGAGGACGGTCTCGTTTGGACACCGGATGAATTGCGGGATTTCCTGAGCGCGCCGAAAAAGAAAATACCCGGCAACAAGATGGCGCTGGCCGGCATCAGCAAGCCGGAAGATCTGGACAATCTCATCGCCTATATCGAAAGCGCCGCTTCGAAGCCCGCTGAGTGA	MRKTVIIAAAMLTASTVPALSEGDVAKGEAVFKRCSACHAIGEGAKNRVGPQLNGIIGRAAGGVPDYTYSAAMKKAGEDGLVWTPDELRDFLSAPKKKIPGNKMALAGISKPEDLDNLIAYIESAASKPAE	PGPT0004005_2205	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-OTHER_CYTOCHROME-RELATED_PROTEINS,PGPT0004005-cycA|cycM-K08738	NA	NA
BMS010_07301	702	ntcA		Global nitrogen regulator	GTGAAGATTGACCGAAGCGTCATCCGGTCGCTGGCCTTGTTTGCCAAGATGGCCGACGATGAGCTGGACGGGCTGCTGACCCACGCCACATCCCGGCTGGTGCCGCCGGGCGAAGCCATTTTCGAGCAGGGCCAGCCAGCCACGCATTTTTTCCTGCTCATTCACGGCCGCCTGAAGGTGACGCAGGTGACCCATGACGGCCAGCAGATCATCGTGCGCGTGGTGCATCCCGGCGATCTCTTCGGTTTTGCCCGGGCGCTGCAAAGGTCGGATTATCCCGGCACCGCCACGACGGCTGCCGAAAGCGTGATACTCTCCTGGCAAACCGATCTATGGCCGCAATTCGTCGAACAGAACCCGCACCTCGCCGTCTCCGCCATGCAGACCATCGGCCAGCGTCTCGAGGAAGCCCATACACGTATCCGCGAAATGTCGACGCAGGAAGTGGAGCGCCGGGTGGCCCACGCCGTGCTGCGCCTTTCCCAGCAGGCGGGGCGCAAGGAGCTGGACGGTATCCGCATCGACTTTCCAATCTCGCGACAGGATATAGCCGAAATGACCGGCACGACACTGCACACCGTTTCCCGCATCCTCAGCAGTTGGGAGAGCAAGGGTCTAGTGCAGGGCGGGCGGCAGAAGCTTCTGGTCTGCAATCTGCCGGGCCTCGCGCAGCTGGCAGAGGGCGAAGTGAGCCAGGTCTAG	MKIDRSVIRSLALFAKMADDELDGLLTHATSRLVPPGEAIFEQGQPATHFFLLIHGRLKVTQVTHDGQQIIVRVVHPGDLFGFARALQRSDYPGTATTAAESVILSWQTDLWPQFVEQNPHLAVSAMQTIGQRLEEAHTRIREMSTQEVERRVAHAVLRLSQQAGRKELDGIRIDFPISRQDIAEMTGTTLHTVSRILSSWESKGLVQGGRQKLLVCNLPGLAQLAEGEVSQV	PGPT0000485_175	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0000485-nnrR-K21564	NA	NA
BMS010_07302	918			hypothetical protein	ATGGGCATTCCCGGCAACGGCCACTTCCCAAATGCCGTCTCGCTTCTTCTCCCGCTCTCGCTTGCCACGCTGCTGGCAACGGCCATCGGTTTTCAGTCCGGGATCATCCGCAGCGGCGCCGATCCACGCGCCGCCATAATCGCTCCGCAGGTCGTTACAGTGCCCGCCGGACATTTCACCTACCGGGCGGAGGGCGAATATTTCCGCAATGGTTATGCTGTCGATGGGCCGATGGTTGACGTAACGATGCGGCAAAATCTGACGATCATGAAATATCAGGTATCGAGCGCGGATTATGCGCGCTGCGTCGCAGACGGCGGTTGTCAGCAGCCGGAACCCGGCTTTGCCGCTCCGGTCGGTGGCGCGATACCGGCAACAGGCATCAGCCAGGACGACGCCCGCGCCTATGCAAAGTGGCTGAGCGAGCGGACAGGCGAGGTCTGGCGTCTGCCGAGCGACGCTGAACTGGCCTTCGCCGCCGGGTCGCTGTTTCCGGATGAGACGCTCGGTGTGGCAGCGGACAGTGAAAACCCCGCTTTGCGCTGGCTGGCGGACTATGAGCGGCAGACCAGCCGCAAGGCCTCGGGCAACCCCGTTCCGCAATCCTATGGCAGCTTCGGCGAAAACGAATATGGCCTTGCCGATTTCGGCGGCAATGTCTGGGAATGGACCTCCAGCTGCAGCCACCGTGTAACGCTCGGCACGGATGGCGAGGTGGTCGATACCGCCGCCGCCTGCGGCATTCCCGTCGCCTCGGGAAAACACCGGGCGGCGATGAGCGCCTTCGTCAAGAACCCGAAGAGCGGCGGCTGCGCCGTCGGCGTGCCGCCGGATAATCTGGGTTTCCGGCTGGTGAGGGATACCCGCTGGTATGCGCCGCTTCTCGAAAAGCTTCGCGCAACCGCTCTGTTTTCTTGA	MGIPGNGHFPNAVSLLLPLSLATLLATAIGFQSGIIRSGADPRAAIIAPQVVTVPAGHFTYRAEGEYFRNGYAVDGPMVDVTMRQNLTIMKYQVSSADYARCVADGGCQQPEPGFAAPVGGAIPATGISQDDARAYAKWLSERTGEVWRLPSDAELAFAAGSLFPDETLGVAADSENPALRWLADYERQTSRKASGNPVPQSYGSFGENEYGLADFGGNVWEWTSSCSHRVTLGTDGEVVDTAAACGIPVASGKHRAAMSAFVKNPKSGGCAVGVPPDNLGFRLVRDTRWYAPLLEKLRATALFS	PGPT0000471_24	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000471-nirV-NA	NA	NA
BMS010_07303	1143	nirK		Copper-containing nitrite reductase	ATGACGGAAACCTTCCACATCACACGGCGTAATATTCTCGCAGGCGCAGCATTTGCAGGGGCTATAGCTCCCGTCATCATGCCATCGGCAGCGAGCGCGGCAGAGGAAAAGAAGGCCGCAGCCAAGCCATTGACGAGCGCGGAGATTGCAGCGCTACCTCGCGTAAAGGTTGATCTCGTCAAACCGCCCTTCGTGCACGCCCACACGCAGAAAGCCGAAGGTGGACCGAAGATCGTCGAGTTCACGCTCACGATCAAAGAGCAGAAGATGATCCTCGACGACAAGGGCACCGAGGTCCACGCCATGACCTTCAACGGTTCGGTTCCCGGGCCTCTGATGGTGGTGCATCAGGACGACTATGTCGAACTGACCCTCATCAATCCCGATAGCAACGAGCTGCAGCACAATATCGATTTCCACTCGGCCACCGGCGCGCTCGGCGGCGGCGGGCTCACCATCGTCAACCCCGGTGAAAAAGCGATCCTGCGCTTCAAGGCCACCAAGGCCGGCGTCTTTGTCTATCACTGCGCACCTCCCGGCATGGTGCCCTGGCACGTCACCTCGGGCATGAATGGCGCGATCATGGTGTTGCCGCGAGAGGGCCTGACGGACGGCCACGGCAAGGAGCTTGTTTATGACAAGGTCTATTATGTCGGCGAGCAGGACTTCTATGTGCCGCGGGATGAGAACGGCAATTTCAAGAAATATGAAAGCGCCGGCGACGCCATGGCCGACACGCTGGAGGTGATGCGCAAGCTGACGCCGAGCCACATCGTCTTCAACGGCGCAGTCGGCGCCCTGACGGGGGAACACGCCCTTCAGGCCGCCGTTGGCGAGAAGGTGCTGATCGTCCATTCGCAGGCAAACCGTGATACCCGTCCGCACCTCATCGGCGGCCATGGCGATTATGTCTGGGCGACGGGCAAGTTCCGCAACCCGCCGGATCTCGACCAGGAAACCTGGTTCATTCCCGGCGGCACGGCGGGCGCGGCCTTCTATACCTTTGAGCAGCCCGGCATCTACGCCTATGTCAACCACAACCTCATCGAAGCCTTCGAACTGGGCGCGGCCGCACACTTCAAGGTGACGGGTGAGTGGAACAACAATCTGATGCAGGCGGTGCTCGCCCCGTCGAGCATCTGA	MTETFHITRRNILAGAAFAGAIAPVIMPSAASAAEEKKAAAKPLTSAEIAALPRVKVDLVKPPFVHAHTQKAEGGPKIVEFTLTIKEQKMILDDKGTEVHAMTFNGSVPGPLMVVHQDDYVELTLINPDSNELQHNIDFHSATGALGGGGLTIVNPGEKAILRFKATKAGVFVYHCAPPGMVPWHVTSGMNGAIMVLPREGLTDGHGKELVYDKVYYVGEQDFYVPRDENGNFKKYESAGDAMADTLEVMRKLTPSHIVFNGAVGALTGEHALQAAVGEKVLIVHSQANRDTRPHLIGGHGDYVWATGKFRNPPDLDQETWFIPGGTAGAAFYTFEQPGIYAYVNHNLIEAFELGAAAHFKVTGEWNNNLMQAVLAPSSI	PGPT0000460_525	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-NITRIC_OXIDE_METABOLISM	PLANT_BRANCHING-NITRIC_OXIDE_FORMATION,PGPT0000460-nirK-K00368	NA	NA
BMS010_07304	1233			hypothetical protein	ATGAGTGGCAGCGAAACCGTTCTCACCCAAGGGCGCAGCCGGCCAAAGGGCGGCATTCCAAGAGGGCTGTCGCGCACCGGCCCGGTTATCTTTTCTTACGGCTTCCGGCCGTTTTTCCTCGGCGGCGCCCTCTGGGCCATCGTGGCGATGGTGTTGTGGATCGCAGCCCTTTCGGGCTTCATCGACCTCGGCGGGGATTATGGCGCACCGAACTGGCATGCCCATGAGATGCTGTTCGGTTTCGCTTCGGCAGTGCTGGCGGGCTTTCTTCTGACCGCTGTGCCGAACTGGACGGGGCGGCTGCCGGTATCGGGCAAACCGCTGGTGTGGCTGTTTGCGCTCTGGTGCGCCGGCCGGCTTTTCCTGCTTGTGCCGGGCACGGTGGGCCTGGTCACCGCCGCAGCCGTGGACGGGCTTTTCCTGCCGGCGCTTCTGGCGATCTGCGCGCGTGAGGTCATTGCCGGGCGCAAATGGAAGGACCTGAAGGTGCTGGGCGGGTTGCTGGCGCTTTCCGTCGCCAACATCGTATTCCACGTTGCAGCGATTGGGGGCGATCATAGCCAGATCGCGACCCGCCTTGCGGTCTCTGCCTATACCGTGCTTGTCATCATCGTCGGCGGCCGCATCGTGCCGAGTTTTACCCGCAACTGGCTGAACCGTTTCGGCCGCACGGATTTTCCAGTCCCCTATAACGGTTTCGACACCGCAGCCATCCTCACCGGTATCGCGGCGCTGGCCGTCTGGACAATAGAGCCAGGGAGCATCGTGGCCGTAGCAACGGCGCTTCTGGCGGCTTTCATGCACGCCGTGCGTCTGATCCGCTGGCGCGGCTGGACGACATGGCCGGAGCAGGTGCTGGTGGTGCTGCATGTCGCCTATGCCTTCATTCCCGCCGGTTTCATCACCATAGCGCTGGCCGCGATTGACGTGATGGATACGCGCTCGGTCCTGCATGTCTTCACCGTAGGCGTTATCGGCTGCATGATGCTTGCGGTGATGACAAGAGCGAGCCTTGGCCATACCGGGCGCAAGCTCGCGGCCAGCAGGGTCACCATCGCCGCTTATGTCGCGCTGATCGCCTGCGCGCTGCTGAGACCGGCAGCCGAGTTCTTCCCCGGCGCGATGATGCATCTCTACGCCTGCTCGGCGCTCTTCTGGATCGTGGGTTTCGGTCTCTTCTGCGTTGAATACGGGCCGATCCTGACGCGTGAGCGCAAACCGCTGAAAGCGTAG	MSGSETVLTQGRSRPKGGIPRGLSRTGPVIFSYGFRPFFLGGALWAIVAMVLWIAALSGFIDLGGDYGAPNWHAHEMLFGFASAVLAGFLLTAVPNWTGRLPVSGKPLVWLFALWCAGRLFLLVPGTVGLVTAAAVDGLFLPALLAICAREVIAGRKWKDLKVLGGLLALSVANIVFHVAAIGGDHSQIATRLAVSAYTVLVIIVGGRIVPSFTRNWLNRFGRTDFPVPYNGFDTAAILTGIAALAVWTIEPGSIVAVATALLAAFMHAVRLIRWRGWTTWPEQVLVVLHVAYAFIPAGFITIALAAIDVMDTRSVLHVFTVGVIGCMMLAVMTRASLGHTGRKLAASRVTIAAYVALIACALLRPAAEFFPGAMMHLYACSALFWIVGFGLFCVEYGPILTRERKPLKA	PGPT0001070_215	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITRIC_OXIDE_REDUCTION,PGPT0001070-nnrS-K07234	NA	NA
BMS010_07305	534			hypothetical protein	ATGACGGAAATGATCAGGGAACTCGATGTCCGGCCGCTTTTGCTGAGCGGCGGCGAGCCCTTTCCGGCCATCATGGAAGCCGTGGCCGGACTTGCGCCGGGTGAGGCGCTGCGATTATACGCCACCTTCCGGCCCGTTCCGCTGTTCATGGTGATGGCAGAGCGCGGTTTCGACCATCAGGTGAGGGAAATCGGCGGCGGCGACTGGGAAGTGCTGTTCACACCGCAATCCACTGAAGTGGAGCAGATTTCCGTGTCACCGGCGCTTGCGGGCAATGCCGAGGAGCCGCAGATATGGCCCGATCCGGTCATCTATCTCGATCTCAGCGACGAGACGGCCGAAGGCCAGGCGAGCCGCACGCTTGCCGCACTCGACCGTCTTCCGCCGGGCGCCGTGATCTTCGTGCTGATGCCGCAGGAGCCGGCCTTTCTTTACCCGGAGCTTCTGGCACGGGGTCATCAATGGGCCGGCAATTTCGACGAGGCGCGCACGGCGTTTCGCATCTTCATCCGCGCCGGTGCCGGCGCGCATTAA	MTEMIRELDVRPLLLSGGEPFPAIMEAVAGLAPGEALRLYATFRPVPLFMVMAERGFDHQVREIGGGDWEVLFTPQSTEVEQISVSPALAGNAEEPQIWPDPVIYLDLSDETAEGQASRTLAALDRLPPGAVIFVLMPQEPAFLYPELLARGHQWAGNFDEARTAFRIFIRAGAGAH				NA	NA	NA	NA	NA
BMS010_07306	306			hypothetical protein	ATGTCCGATGCCCAAACCGCAACCAATATCGATGTGCGCATCATTCCGCATCGCGAACGTCATCCGCGCATTTTCGGTGCGCTCGGCGCGTTGACCGAGGGTCAATCGCTGCAGATCACCAGCGATCACGATCCCCGTCCGCTGCTTTACCAGCTCGCCACAAATTTCCCCGGCCAGTTCGGCTGGGAATATCTCGAACAGGGCCCGGAAGTCTGGCGCCTCGATATCGGCCGGCTTGAAGAACAGGCCGAAGGTTCCGAGGACGATATGTCCGGCTGCGAATGCTGCTGCGGATCCGAACATTGA	MSDAQTATNIDVRIIPHRERHPRIFGALGALTEGQSLQITSDHDPRPLLYQLATNFPGQFGWEYLEQGPEVWRLDIGRLEEQAEGSEDDMSGCECCCGSEH				NA	NA	NA	NA	NA
BMS010_07307	1899			hypothetical protein	ATGCTGGACTTTCTGGAACTGGAAGAAACCGTCGGCCGCGCCTGGCATAGGCTGATCGGCGAAACCGGCACATGGCTGCGCTTCCCGGATCATGCCGTGAAGCTGGAGGATATGCAGGCTGTACTGGCCATCTGTTTCCGCGGTTTTGGCGGTGAACATGCGGTGCAGATCGCCCCGGCCCGCGCCCGCACCTCCACACACCGGCTGAGGCTGCGCCAGCGCATGGGCCTTGGCGAAGAAAAACTTGCCCAGCCCGGCCGCGATCATGCCACGCTGATGCTGCCCCCGGTGCTCGATCTGTTTCCCGACCGCCGCCTCAATCGCGATCTTTATCTCTGGCTCGCCGCCGCCATGGCGTTGATGCCGCTTGAACCAGTCATGGCTGCCGACCCGTTGCGCAACGATCTTGCCCGGCTCAACCGCGCCGCGGAACTGGCCGAGACCGTAACCCGTACTTTTCCCGGCATGAAGACCCGCTATCGCCGGCTTTGCGCCGCCATGCTCGCGGTGCGGCAGAAGCGGCCGCTGCCGCAGGCGGAACAGCAGGTGGAACAGCGGGTGCTTTCCATGCTGGCCGATGCAGCAGGGATTGAAGGCTATCCGCCGCCCGTCGGTCTTCTAGCCAAAGCGCCGCCGCGTTATCTGCCGATGCTGCCTGTTCCGCTCTGGCCGGACACGCTGCTGCGCGAAACATCCGAGGCCAGGCAGAGCGAAGACCAGCCGGCGGCGAGCGCAGCACGACAGGGGGCGGAAGCGGCCCGCCATATCGCCGTGCGTGAAAAGGCGGAGAACCGCCAGACCGAACGCAGCCCCTTCATCCTCAACCGTTTCGAAAAAATCCTAGCCATGGCGGAGATGGTCAATGTCGACCGTCCCGGGGACGACAGCGACGATGCCGACGGCAGCGCAGCCGACGAACTGGACGACATGACGCTGGGTGAAAGAAAGGGACGGCCCTCCGCCCGCTTCCGCTTCGATCTGGACCTGCCGCCCGAAGCACTGAACCATACCGCGCTGACGGCGGAGCTGACCTATCCCGAATGGGATTATCGCAGCAGCAGCTATCTCACCGATCATTGCCGGGTCATCACCTCCCCGGCGAAGGGTGCCGAAACGGCACCGGAACCCGACCCGGACACCAAAAGCCTCATCCGCCGGGTCAGGCGGCAATTCGAGGTGCTGAGACCGCGCCACGAGATGCTGCGCGCCCAGCTTGACGGCAACGATCTCGATCTTGACGCCGTGGTGCGCGCCAGAAGCGATATCGCCGCCGGAGGACAGGGCAGCGACCGCATCCATATGGCTAGTCGCCCGCAGGCGCATGATCTCGCCGTAACGATCCTCGTTGACGTATCGCTTTCGACCGATGCCTGGTTCGACAATCGCCGGGTTCTCGATGTGGAAAAGGAAGCCCTGCTGGTGCTTGGGCACGGGCTTTCCGCCTGTGGTGACAGTCACTCCATCCTGACCTTCACCTCCCGCCGCCGTTCCTGGGTGCGGGTGGAAACGGTGAAGGATTTCGAGGAGCCAATGGGCCACGCTGTCGAGCGGCGCATCGCGGCGCTGAAACCCGGCTTCTACACCCGCATCGGCCCCGCCATCCGCCACGCCAGCGCCAAGCTGCGTGAGAGGCCGGAGCGCCGCAAGCTGCTTCTGCTGCTGACGGATGGCAAGCCGAACGATGTCGATCATTATGAGGGCCGCTTCGCCATCGAGGACAGCCGCCGCGCGGTCTCCGAAGCGCGACGCTCTGGCGTCAGCGTCTTCGGCGTAACCGTCGACAGCAAGGCGCAATCTTATATTCCGGCCATGTTCGGCCAGAACGGTTATGCCATCGTCAACAGGATCGCCAAGCTGCCATCGGCGCTGCCGGCAATCTATCGCAGCCTTGCCGGCTGA	MLDFLELEETVGRAWHRLIGETGTWLRFPDHAVKLEDMQAVLAICFRGFGGEHAVQIAPARARTSTHRLRLRQRMGLGEEKLAQPGRDHATLMLPPVLDLFPDRRLNRDLYLWLAAAMALMPLEPVMAADPLRNDLARLNRAAELAETVTRTFPGMKTRYRRLCAAMLAVRQKRPLPQAEQQVEQRVLSMLADAAGIEGYPPPVGLLAKAPPRYLPMLPVPLWPDTLLRETSEARQSEDQPAASAARQGAEAARHIAVREKAENRQTERSPFILNRFEKILAMAEMVNVDRPGDDSDDADGSAADELDDMTLGERKGRPSARFRFDLDLPPEALNHTALTAELTYPEWDYRSSSYLTDHCRVITSPAKGAETAPEPDPDTKSLIRRVRRQFEVLRPRHEMLRAQLDGNDLDLDAVVRARSDIAAGGQGSDRIHMASRPQAHDLAVTILVDVSLSTDAWFDNRRVLDVEKEALLVLGHGLSACGDSHSILTFTSRRRSWVRVETVKDFEEPMGHAVERRIAALKPGFYTRIGPAIRHASAKLRERPERRKLLLLLTDGKPNDVDHYEGRFAIEDSRRAVSEARRSGVSVFGVTVDSKAQSYIPAMFGQNGYAIVNRIAKLPSALPAIYRSLAG	PGPT0000360_421	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000360-norD-K02448	NA	NA
BMS010_07308	813	nirQ_2	COG0714	Denitrification regulatory protein NirQ	ATGAATACGATTTTCCGCCCCGCGCCGCAGCCTTTGCCGGACACGCCGTTCTACACTCCGCTCGGCAATGAATGCGCGCTGTTCGAAAGCGCTTGGGTGCGGCAATTGCCGCTTCTGCTGAAAGGCCCGACAGGTTGCGGCAAGACCCGTTTCGTCAGCCATATGGCAGCGAAACTCGGCCTGCCGCTTTCCACCGTTTCGTGCCACGACGATCTTGCCGCCGCCGACCTGACCGGCCGTTACCTGCTGAAAGGCGGCGAAACCGTGTGGATGGACGGCCCGCTGACGCGATCCGTGCGGCAGGGCGGCATATGTTACCTCGATGAGATTGTGGAAGCGCGCAAGGATGTGGCTGTCGTGCTGCATCCGCTCACCGATGACCGTCGCATCCTGCCGCTGGAGCGCACCGGGGAGGTGCTGGAAGCACCCTCCGGCTTCATGCTCGTCGTATCCTACAATCCCGGCTATCAGAACCTTTTAAAGAGCCTGAAACCCAGCACCCGCCAGCGTTTCGTCGCCATTGAATTCGATTTTCTGCCGAAGGAGCAGGAGATTGCCGTCGTTTCGCATGAAAGCGGGCTGGATGCGCGCGATGTCGAGCCGCTCGTCGATCTTGCCCACCGCCTGCGCGGCCTGAAGGGCCACGATCTGGAAGAAGGCGTTTCCACCCGCCTGCTCGTTTATTGCGCCAGCCTCATCGATACCGGCCTTCCCGCCCGCCAGGCCGTGCGCGCGGCGATGATCGAACCGCTGACCGACGAGCCGGATGTGAAATCCGCGCTGCATGAAGTGGCGGATGCGATCATCCGATAG	MNTIFRPAPQPLPDTPFYTPLGNECALFESAWVRQLPLLLKGPTGCGKTRFVSHMAAKLGLPLSTVSCHDDLAAADLTGRYLLKGGETVWMDGPLTRSVRQGGICYLDEIVEARKDVAVVLHPLTDDRRILPLERTGEVLEAPSGFMLVVSYNPGYQNLLKSLKPSTRQRFVAIEFDFLPKEQEIAVVSHESGLDARDVEPLVDLAHRLRGLKGHDLEEGVSTRLLVYCASLIDTGLPARQAVRAAMIEPLTDEPDVKSALHEVADAIIR	PGPT0000370_612	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000370-norQ-K04748	NA	NA
BMS010_07309	1347	norB_2		Nitric oxide reductase subunit B	ATGAAATACCAGACGCAAAAAGTCGCCATGCTGTATTTTTACGGCGCAATCGGGCTGTTCGTGGCGCAGATCCTGTTCGGCGTCGTCGCCGCCACGATCTACGTACTGCCCAATACGCTTTCCGAGCTTCTGCCCTTCAACATCGTGCGTATGATCCACACCAATGCACTGGTCGTGTGGCTGTTGATGGGCTTCATGGGCTCGACCTTCTATCTTCTGCCGGAAGAAACGGAAACCGAGCTTTACAGCCCGAAACTCGCCATCGCGCAGTTCTGGATCTTCCTGGTGGCCGCCGCCGTTGCCGTGGTCGGATATATGTTCCGCATCCACGAAGGCCGCGAATTCCTCGAACAGCCCTTTGCGATCAAGGTCGGCATCGTGCTTGTCGTGCTGATGTTCCTGTTCAACATCACCATGACGGCGCTGAAGGGCCGCAAGACCACCGTCATCAATATCCTGCTCTTCGGTCTCTGGGGTCTGGCGATCTTCTTCCTCTTCGCCTTCTACAACCCCATGAACCTGGCGCTCGACAAGATGTACTGGTGGTACGTCATCCATCTGTGGGTGGAAGGCGTGTGGGAACTGATCATGGCCTCGATCCTCGCCTTCCTGATGATCAAGCTCAACGGCATTGACCGCGAAGTGGTGGAAAAATGGCTCTATGTCATCGTCGGCCTTGCCCTCTTCTCGGGCATTCTCGGCACCGGCCACCATTATTACTGGATCGGCGCGCCGGGTTACTGGCAGTGGATCGGCTCGCTGTTCTCGACGCTGGAAGTGGCCCCCTTCTTCACCATGGTCATCTTCACCTTCGTCATGACCTGGAAGGCCGGCCGCAAGCATGAGAACCGCGCGGCATTGCTCTGGTCGATCGGTTGCTCTGTCATGGCCTTCTTCGGCGCCGGCGTCTGGGGTTTCCTGCACACGCTGTCTTCGGTGAACTATTACAGCCACGGCACGCAGCTCACCGCCGCCCACGGCCACCTCGCCTTCTTCGGCGCTTATGTGATGCTGAACCTTGCCATGATGGCCTATGCCGTGCCGGAAATGAAGAAACGCGCGCCCTACAACCAGTGGCTTTCGATGACGAGCTTCTGGGTCATGTGCACGGCCATGTCGGTGATGACCTTCGCGCTGACCTTTGCCGGCGTGGTGCAGATCCAGCTTCAGCGCGTCATGGGCGAAAGCTTCATGGATGTGCAGGACCAGCTGGCGATCTTCTACTGGATCCGCCTCGGCTCCGGTTTCGCAGTTCTCATTTCGGCAATCATGTTCATCTGGGCAGTCCTGGTGCCGGGCAAGCAGAAACAGGGTGACGTCGCCCGCCTCGTGCAGCCCGCCGAATGA	MKYQTQKVAMLYFYGAIGLFVAQILFGVVAATIYVLPNTLSELLPFNIVRMIHTNALVVWLLMGFMGSTFYLLPEETETELYSPKLAIAQFWIFLVAAAVAVVGYMFRIHEGREFLEQPFAIKVGIVLVVLMFLFNITMTALKGRKTTVINILLFGLWGLAIFFLFAFYNPMNLALDKMYWWYVIHLWVEGVWELIMASILAFLMIKLNGIDREVVEKWLYVIVGLALFSGILGTGHHYYWIGAPGYWQWIGSLFSTLEVAPFFTMVIFTFVMTWKAGRKHENRAALLWSIGCSVMAFFGAGVWGFLHTLSSVNYYSHGTQLTAAHGHLAFFGAYVMLNLAMMAYAVPEMKKRAPYNQWLSMTSFWVMCTAMSVMTFALTFAGVVQIQLQRVMGESFMDVQDQLAIFYWIRLGSGFAVLISAIMFIWAVLVPGKQKQGDVARLVQPAE	PGPT0000350_957	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000350-norB-K04561	NA	NA
BMS010_07310	453	norC_2	COG2010	Nitric oxide reductase subunit C	ATGGCAGAACGCCTGACCAAAACAGGAGCGCGAAACGTCTTTTACGGCGGCTCCATCTTCTTCTTCGCCATATTCGTCGGGCTGACGGCCCATAGCCATTATTACATGCGCACCACCTCGACGGATGAAAGCACGCTGACGGAAAGCGTCGCGCGCGGCAAACATGTGTGGGAGAAAAACTCCTGCATCAACTGTCACACGCTGCTCGGCGAAGGCGCCTATTTCGCGCCTGAACTCGGCAATGTCTGGAAGCGCTATGGCGGCGTGGAAGACAAGGAGGCGGCGCGCGATTCCATCAAGGCGTGGATGGCCGCCCAGCCCACCGGCATCGAAGGCCGCCGCCAGATGCCGCAGTTCAATCTCACCGAACAGGAACTCGATGATCTGGTCGACTTCCTCGAATGGACGAGCCGGATCAAGACACAGAACTGGCCGCCGAACGATGCGGGTTGA	MAERLTKTGARNVFYGGSIFFFAIFVGLTAHSHYYMRTTSTDESTLTESVARGKHVWEKNSCINCHTLLGEGAYFAPELGNVWKRYGGVEDKEAARDSIKAWMAAQPTGIEGRRQMPQFNLTEQELDDLVDFLEWTSRIKTQNWPPNDAG	PGPT0000355_238	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000355-norC-K02305	NA	NA
BMS010_07311	291			hypothetical protein	ATGATCCACCGCACCTCCCGCCAGCTTGCAAGAAGCTTCGCCATGCTCGCCATTCTCGTTCTTGCCGGTACGGCCGTCGTGACATCGTGGAAAGCGGCGCTTCTGCCGCCGGTCGCCGCCGCCTGCCTGATGCTGCTTTTCGCGCTCCTGAAATCCAGACGCGTCATCGACGACTTTCTCGGCTTTCGCGAAGAGCGTGGCCTGCTGCGCACAGCACTCCTGGCATGGCCGGCCATCTTTGCCGCCGCAGCCTTGTTGCGAGCGTTCCTGCAGGGGATTTTGTCGCTCTGA	MIHRTSRQLARSFAMLAILVLAGTAVVTSWKAALLPPVAAACLMLLFALLKSRRVIDDFLGFREERGLLRTALLAWPAIFAAAALLRAFLQGILSL	PGPT0000365_8	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000365-norF-K04747	NA	NA
BMS010_07312	534			hypothetical protein	ATGGCGATCAATACGGAAGAGGAAAGCGGAAATCTGCTCCTGTGGATTCTGGTCTGGAGCGAACTTGCCGCTTTCGGCGCGCTGACCGGCGCCTTCATCATCGCCTTCGCCCTCAATCCGGATGCATTCACCGCCGCGCGCCAGCATCTGCAGCCGCAGCTTGCCGGCCTCAACACACTGATTTTGCTGGCAAGCGGCTGGCAGGCGGCCGTCGCGGCCAGTCGCCACACCGCGCTGCCGGGAAGAAGGCGGGCGCTCGTGCTTGCCGGTCTGCTGGGCTTCGCTTTCGTCGGTGTAAAACTCCATGAATATTCCACCGAAATCGCCTTCGCCTCCGATCCCGCCCATGGCGCTTTCTTTGAGCTTTATTTCCTGCTCACCGGCTTCCACCTGCTGCATGTCATCTTCGTGGCGATCCTGCTGTTCATCGTCGCCTGCTGGCCCAAAAACGAGAACATCACGCTGGTGACGAAGCTGTGGCATGTCATCGATCTCGTCTGGATCGTCATTTTTCCTGTTATTTATCTGGTTTGA	MAINTEEESGNLLLWILVWSELAAFGALTGAFIIAFALNPDAFTAARQHLQPQLAGLNTLILLASGWQAAVAASRHTALPGRRRALVLAGLLGFAFVGVKLHEYSTEIAFASDPAHGAFFELYFLLTGFHLLHVIFVAILLFIVACWPKNENITLVTKLWHVIDLVWIVIFPVIYLV				NA	NA	NA	NA	NA
BMS010_07313	156			hypothetical protein	ATGAACGACGCGCAGGTCGGGCTGATTGTCGCAACCCCTATTATCATTGGCTTTGCGGTGCTGTTGTACCGTATGGGTGTGTTGCAGCGCATGGGCGCGGTCTCCGCCGTGCTTGCCTCCGTGGCCATTGCTTCTGTGCTGTTCCTGAACCAGTGA	MNDAQVGLIVATPIIIGFAVLLYRMGVLQRMGAVSAVLASVAIASVLFLNQ				NA	NA	NA	NA	NA
BMS010_07314	678			hypothetical protein	ATGCTTGAACTTGTCGCCGCTCTTTCGCTTTTCGTGGCGCTGCATTCCATTCCCGCCGTCCCTGCCGTGCGCGGCCGGCTGATCGCGGCCATCGGCAGGCCCGCCTATTTCGGGAGTTATTCCGTCGTCTCGCTTCTGACGCTGGGCTGGGTATTTTATGCCGCGCTGTCGGTCGAGTATATTCCGTTCTGGGACGTCGCGCCCTGGCAGGCGCATGTCACCTTTCTGGCAGCGCCGATTGGCCTGTTTTTCGTGCTGGCCGGCCTCCTCAGCGTCAATCCGCTTTCCATTTCCGTGCGGCAGGGAGATAGACCGGGGGCAATCGTGCGCATCACGCGGCACCCGGTACTCGTCGGCTTTCTGTTCTGGTCGTTGGGGCATGTCGTGCCGAATGGCGACCTGCGTTCCGTCATCCTGTTCGGCGGCTTTGCACTGTTTTCGCTCGGCGGAATGGCGATGACCGAGAAACGCGCGCGGAAAAGACTGGGTAATGCATGGAGCGCGGCGGCTGCTAAAAATGCAACGATCCCTTTCGCAGCAATCCTATCAGGCAAAACGCGTCTCGTCGTGGACGGGCCGATGCTGTTAGCCGCAGCGCTGACAGGGTTGACGGTGTGGTGGCTGCTGGCCGGCGGCCATGCCGCGCTCTTTGGTGCTGACCCGATGGCCTATCTTTGA	MLELVAALSLFVALHSIPAVPAVRGRLIAAIGRPAYFGSYSVVSLLTLGWVFYAALSVEYIPFWDVAPWQAHVTFLAAPIGLFFVLAGLLSVNPLSISVRQGDRPGAIVRITRHPVLVGFLFWSLGHVVPNGDLRSVILFGGFALFSLGGMAMTEKRARKRLGNAWSAAAAKNATIPFAAILSGKTRLVVDGPMLLAAALTGLTVWWLLAGGHAALFGADPMAYL				NA	NA	NA	NA	NA
BMS010_07315	591	bsdB	COG0163	putative UbiX-like flavin prenyltransferase	ATGATCCCGTGCCGCGTCGTGGTCGGCGTCACCGGCGCTTCGGGTGCCGGCATTGCGTTGCGCATCGTCGAGCTCCTTGCCGGGATGAAAGGCGTCGAAATCCATCTCGTCCTGTCGCAATCCGCCAGACGCACCGTGTTGCACGAGGAAGGGGCGCAAGCCATGGGGCGGATGTTGTCGCTCGCCGGCTTCAATCACGCCATCGACGATATCGGCGCTGCGATTGCCAGCGGCTCCTTCCCGACGGCCGGCATGATCGTCGCCCCCTGCTCCATGCGCACACTTGCGGCCATTGCAACCGGGCTTTCGGACAATCTCCTTACCCGCGCCGCCGATGTGCATTTGAAAGAACGTCGGAAACTTGTGCTGATGACGCGCGAGACGCCGCTGCATCTCATCCATCTGCGCAACATGTGCACGGTGACGGAGGCAGGTGCGATCGTCATGCCGCCGGTGCCGGCCTTTTATAACAAGCCGCAAAGCGTCGACGATATTGTCGACCAGCTCGCCGCCCGCGCCATCGACCAGCTCGGCATCGCTTCCGCGCCGCAGGCGCCGATATGGCAGCCGCATATGGTGAAGACGTCGTGA	MIPCRVVVGVTGASGAGIALRIVELLAGMKGVEIHLVLSQSARRTVLHEEGAQAMGRMLSLAGFNHAIDDIGAAIASGSFPTAGMIVAPCSMRTLAAIATGLSDNLLTRAADVHLKERRKLVLMTRETPLHLIHLRNMCTVTEAGAIVMPPVPAFYNKPQSVDDIVDQLAARAIDQLGIASAPQAPIWQPHMVKTS	PGPT0009565_1532	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-SALICYLIC_ACID_RESISTANCE,PGPT0009565-ubiX|bsdB-K03186	NA	NA
BMS010_07316	1545	ubiD_1	COG0043	3-octaprenyl-4-hydroxybenzoate carboxy-lyase	ATGCCGCACTGCCGCCTGCAAACAGGCGGCATGAGAGACGAAGAAACAGAAACGAGACCCGTCCGCACCGCCGATCTGCACGGTTTCATCCGGTTGCTGGAAGAACGTGGACAGCTGCGGCGAATCCGCCAGCCGGTATCGCTGGTGCACGAAATCACCGAAATCCACCGCCGCGTGCTCGCCGATGGCGGGCCGACGCTGCTTTTCGAGCAACCTGTCGACCATGAGGGCAAGGTGCGGGACATGCCGCTGCTTGCCAATCTCTTCGGCACGCGGCAGCGCATCGAATGGGGGTTGGGGCTGGAGACCGGCGGCCTGCCCGCACTTGGACGAAAGCTCGCCGAATTGCGCGAGCCGCAGCCGCCGAAATCCATGGCCGAGGCATGGGGTAAGCTGCCTTTGCTGAAAGCCGCACTTTCCATGCGGCCACGAAACGTCTCGCGCGCGCCGGTGCAGGAAAGGGTACTGACGGGTGACTCAATCGACCTTGCCTGCCTGCCGGTGCAATGGTGCTGGCCGGGCGAGCCGGCCCCGCTCATCACCTGGCCGCTGGTCATCACCCGTTCGCCTGACGATCCCGACGATATCAATGTCGGCATCTACCGCATGCAGGTGTTGGGACCGGACAGGGTGATCATGCGCTGGCTGGCGCATCGCGGCGGCGCGCATCACCACCGGCTGTGGCAGGCGCGCGGGCTGGATATGCCCGTTACCGTCGCCATTGGGGCCGACCCTGCCACCATTCTTGCCGCCGTGATGCCGCTTCCCGACCATATCAGCGAGCTTGGCTTCTCCGGCCTGCTGCGCGGCTCGAAAAGCCGCATTGCCAGCGCCTTGACCGTGCCGATGCCGGTGCCGGCCAATGCCGAAATTGTGCTGGAGGGTACCGTTTCGGCAACGGAAACGGCACTCGAAGGGCCCTATGGCGACCATACCGGCTACTATAATTCGGTCGAATCCTTTCCGGTCATGACGCTCTCGGCCATCACCATGCGTCGCGATCCGATCTATCTTTCCACCTATACCGGCCGGCCGCCGGATGAGCCTTCTGTTCTCGGCGAAGCCATGCTCGAGATTTTCCTGCCGCTCGTGAAAAAGCAGTTTACGGAAATCGTCGATCTGTGGATGCCGCCGGAGGCCTGTTCCTACCGCATCATGGTCGCCTCCATCGACAAGCGTTATCCCGGTCAGGCAAAGCGGGTGATGATGGGGCTCTGGTCGATGTTGCCGCAGTTCAGCTATGTGAAGCTCATCATTCTGGTTGATCCCGACATTGATGTGCGCAACTGGGCGGATGTCATCTGGGCGCTCTCCACCCGCTTCGACGCCTCGCGCGATACGATGATCATAAACGATACGCCAATCGATTATCTCGACTTCGCCTCTCCTAAAGCCGGTCTCGGCGGCAAGATGGGGCTGGACGCCACCCGCAAGCTGCCGCCGGAAACGGAGCGCGAATGGGGCCGCGTGCTATCCATGACGCCTGACGTGATCGCAAAGGTGGATCTTATGTGGCGCGATCTCGGCCTTGGAGAACGGCCATGA	MPHCRLQTGGMRDEETETRPVRTADLHGFIRLLEERGQLRRIRQPVSLVHEITEIHRRVLADGGPTLLFEQPVDHEGKVRDMPLLANLFGTRQRIEWGLGLETGGLPALGRKLAELREPQPPKSMAEAWGKLPLLKAALSMRPRNVSRAPVQERVLTGDSIDLACLPVQWCWPGEPAPLITWPLVITRSPDDPDDINVGIYRMQVLGPDRVIMRWLAHRGGAHHHRLWQARGLDMPVTVAIGADPATILAAVMPLPDHISELGFSGLLRGSKSRIASALTVPMPVPANAEIVLEGTVSATETALEGPYGDHTGYYNSVESFPVMTLSAITMRRDPIYLSTYTGRPPDEPSVLGEAMLEIFLPLVKKQFTEIVDLWMPPEACSYRIMVASIDKRYPGQAKRVMMGLWSMLPQFSYVKLIILVDPDIDVRNWADVIWALSTRFDASRDTMIINDTPIDYLDFASPKAGLGGKMGLDATRKLPPETEREWGRVLSMTPDVIAKVDLMWRDLGLGERP	PGPT0009530_656	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009530-ubiD-K03182	NA	NA
BMS010_07317	351			hypothetical protein	GTGTCCGATTTAAGGGTCAAACGGATTTACGAACCCGCCAGCGACGATGACGGCGCGCGCATTCTGGTGGACCGGCTATGGCCGCGCGGCATGAGCAAGGAAAATGCAAAGCTCTCCCTGTGGATGAAGGACATCGCTCCCAGCAACGAATTGCGCAAGAACTTCGCCCATATGCCGTCCCGCTTTGAGGAATTCACCCGGCATTATCATGAGGAGCTTTCCGCCAATCCCGATGCCGTGGCGCACATGAAGGAGCTGATGGCGAAGGGCCGGGTCACGCTGCTTTATGCCGCCCACGATACCGAACATAACCACGCCCTGGTTCTCGCCGACTATCTTCGTTCGCACTGA	MSDLRVKRIYEPASDDDGARILVDRLWPRGMSKENAKLSLWMKDIAPSNELRKNFAHMPSRFEEFTRHYHEELSANPDAVAHMKELMAKGRVTLLYAAHDTEHNHALVLADYLRSH	PGPT0014885_18	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014885-yxlJ|aag-K03652	NA	NA
BMS010_07318	516	ubiJ_3		Ubiquinone biosynthesis accessory factor UbiJ	ATGAGACCTTTTCCCGCCGCCATCGCCCGCCCCATGAATTTCCTGCCCCTTGCCGTGGTGCAGCGAGCGACGGCGGCGATGCTGGCGCAGATCATGAAGCGGCATCCGGATATGTTCGTCCGGCTCGGTGAACATCGTGGCAAGCGCTACGCCTTTCTGCCCGTCGATCTCCCCTTCGCCTTCATGGTCGAGCCGGCAGGTCCCGCCATCATCGTCAGCCGCAAGGCTCGCCTGCCCAAGACGGACGCGGCGGTGGAAGGGCCGCTTTTCATGCTGCTTGCGCTGATGGAGGGGCGGCAGGATGCCGATGCGCTGTTCTTCTCGCGCGATCTCAGCGTCACCGGCGACATGGAGGCGATGCTGGCGCTACGCAATGCGCTTGACGATAGCGGCATCGATCTGCCGCGCGATCTCGGTGCATTTGCCGGGCCTTTCGCGCCAATGGTAACGGGCCTTGCGAACCGCCTGCGCGGCCATGTTCTATCCGAAACGCGGGGAGGTGAGGCATGGAACTGA	MRPFPAAIARPMNFLPLAVVQRATAAMLAQIMKRHPDMFVRLGEHRGKRYAFLPVDLPFAFMVEPAGPAIIVSRKARLPKTDAAVEGPLFMLLALMEGRQDADALFFSRDLSVTGDMEAMLALRNALDDSGIDLPRDLGAFAGPFAPMVTGLANRLRGHVLSETRGGEAWN				NA	NA	NA	NA	NA
BMS010_07319	978	yhbU_2	COG0826	putative protease YhbU	ATGGAACTGATCTGTCCTGCGGGAACGCCTGCCGCCTTCCGCGAGGCCGTGGATGCCGGGGCGGATGCGGTCTATTGCGGGTTTCGGGATGAAACCAATGCCCGCAATTTCCCCGGCCTTAATTTTTCCCGCGAGGAACTTGCCGAGGCCATCGTTTACGCGAAAAAGCGCGGTGTCCAGACCTTCGTGGCGCTCAACACCTTCATGCGCGCCGGCAGTGAGGATATCTGGTATCGCGGCGCGGCCGATGCCGTGAAGGCGGGGGCGGACGCGCTTATCCTTGCCGATTTCGGCCTGATGGCGCATGTGGCGGAACATCATCCGCAGCAGCGTATCCACGTCTCCGTGCAGGCCTCCGCCTCCAATGCGGATGCGGTGAATTTCCTCGTCGATGCCTTCGGCGCGAAACGCGTGGTGCTGCCGCGCACCCTGACTATCCCCGACATCGCCCGGCTGGCGCGGCAAATCCGCTGTGAGATCGAAATCTTCGTGTTCGGCGGTCTCTGCGTCATGGCGGAGGGGCGCTGCTCGCTATCTTCCTACGCCACAGGCAAGTCACCCAACATGAACGGCGTCTGCTCGCCGGCAAGCCACGTCCGCTACCGGCAGGACGGGCAGGCGCTGGTGTCGGAACTTGGCGATTACACCATCAACCGTTTTCCCGCCGGCGAGGCGGCGGGTTACCCCACGCTGTGCAAGGGCCGTTTCGAGATTGCCGATGACAGGTCCTATGCCTTTGAGGATCCGGTGTCGCTTGATGTGATGGACCAGATCGATGCCTTGCGCGAGGCGGGCGTCAGCGCGCTGAAGATCGAGGGCCGCCAGCGCGGCAAGGCCTATGTGGCGGAAGTGGTTTCCACCCTGCACCGGGCGCTTGCCGCCGGTGCTGAGGAGCGCGGCAGGCTGCTTTCCCGCCTGCGGCTCCTGAGCGAAGGCCAGCGCACCACCGTCGGCGCTTATGAGAAACGCTGGAGATGA	MELICPAGTPAAFREAVDAGADAVYCGFRDETNARNFPGLNFSREELAEAIVYAKKRGVQTFVALNTFMRAGSEDIWYRGAADAVKAGADALILADFGLMAHVAEHHPQQRIHVSVQASASNADAVNFLVDAFGAKRVVLPRTLTIPDIARLARQIRCEIEIFVFGGLCVMAEGRCSLSSYATGKSPNMNGVCSPASHVRYRQDGQALVSELGDYTINRFPAGEAAGYPTLCKGRFEIADDRSYAFEDPVSLDVMDQIDALREAGVSALKIEGRQRGKAYVAEVVSTLHRALAAGAEERGRLLSRLRLLSEGQRTTVGAYEKRWR				NA	NA	NA	NA	NA
BMS010_07320	939			hypothetical protein	ATGGCAAAACCCGCAAAAGCCACATTGGCGCTCGGCCCGGTCCTCTATCTCTGGCAGGGGGAGAAATGGCGCGATTTCTATTTCCGCATCGCCGATGAAGCGCCCGTCAGCCATGTCTATCTCGGTGAAACCGTCTGCTCCAAACGGTTTCATTTCACCGAGCCGCATCTGGCAGAGGTCATCGAGCGGCTGGAGAGTGCCGGAAAACAGGTGATCCTCTCGACGCTTTCGCTGGTGACGCTGGAGCGGGAAAGTCGCCACCTGCGCGGCCTGATCGCCGACAGTCCCTATCCGGTCGAGGCGAACGATCTTTCCGCGCTCGGCATGCTGCACGGCACCCCGCATGTCGTCGGGCCGATGGTGAATGTCTATAATGCCGCGACCGCGCGGTTGCTCGCCTCGCGTGGGGCAAGCGCCATATGCCTGCCGCCGGAACTGCCGATGACCTCAGTGGAGCGCATCGTGGCGCAGACGCCCGATGTGGACTTCGAAATCTTCGCCTTCGGCCGCCTGCCGCTCGCCATTTCGGCGCGCTGCGCCCATGCCCGCGCCAAGGGCAATATCAAGGATAATTGCCAGTTCGTCTGCGGCGACGATCCGGATGGATTGCCGGTACGCACGCTCGACCGGCAGTCGTTTCTGGCGCTGAACGGCGTACAGACGGTGTCGCATACCTGCCAGTCGCTGCTTGGCGAATTGCAGGATCTGGCCGCCGCCGGCATTTCCCGCTTCCGGCTGTCGCCGCAGGACTGCGACATGGTCGCGGTGGCGCAAATCCATCACGATGTTCTGGCCGGCAGGCGGGAGGCGGAAGACGGTCTTGCACGTCTCGGGCACATCTATCCGGACGTGCCCTTTTCCAATGGTTTCCACCACGGGCAGGAAGGGGCGGCCTGGATCGCCCGTGCCCGCAACACGGCGCATGGGGTGAATGCATGA	MAKPAKATLALGPVLYLWQGEKWRDFYFRIADEAPVSHVYLGETVCSKRFHFTEPHLAEVIERLESAGKQVILSTLSLVTLERESRHLRGLIADSPYPVEANDLSALGMLHGTPHVVGPMVNVYNAATARLLASRGASAICLPPELPMTSVERIVAQTPDVDFEIFAFGRLPLAISARCAHARAKGNIKDNCQFVCGDDPDGLPVRTLDRQSFLALNGVQTVSHTCQSLLGELQDLAAAGISRFRLSPQDCDMVAVAQIHHDVLAGRREAEDGLARLGHIYPDVPFSNGFHHGQEGAAWIARARNTAHGVNA				NA	NA	NA	NA	NA
BMS010_07321	384			hypothetical protein	ATGACGACGAACGGGCAAAGCGAGCAAAAGCTGCCCGCAGCGGCACCGGGCGGAGCGGATATCGCGGCGGCAATCCATCTGGTGCGCGATATTGTCTTGCAGAGCGCGCTTGATTGCAGCTGCCGCGACAGGGTGCACGAGGCGCTGCGCGAACTCGAGGATTTCGAGCGCCAGCGCAATGTCGTCAAGCTTCTTGCCGCCGCCCGCGAGGAGCGTCGCAAGATCGCGCTCCTGACCGAGATGCTCTGCGATTTCGCCGAAGACGACACGGTGGATCAAGGCGTGGTTGAAACCGCAAGCCTGATGTTTCTCGATATCGCTGCCGCCGCTCAGGAGGGCTCGCGGCTCCTGCGGGACGCGCTCTCACTCAAGAAGGGTGAATAA	MTTNGQSEQKLPAAAPGGADIAAAIHLVRDIVLQSALDCSCRDRVHEALRELEDFERQRNVVKLLAAAREERRKIALLTEMLCDFAEDDTVDQGVVETASLMFLDIAAAAQEGSRLLRDALSLKKGE				NA	NA	NA	NA	NA
BMS010_07322	984			hypothetical protein	ATGGCCCATCTCACCCGTCGTCAGGCTCTTTCGGCCTTTTCCGGGCTCGCGGTCGCGACACTTGCCGCACCGCATGTTGCGAAGGCGGAAGCGCCGCTCACCTTTTATGGCCCTCCGGCCGCGCCGTCGGCCGTGCTGGCCCATGCGGTAAAGGGCGGGTTCCTGAAGGATGTCGCACCCGGCGCCGTCTTCAGAGCCTGGAAAACGCCGGATGAAATGCGCGCCGCCGTCGCCTCCGGCTCCATGGGAGCGGTGGTGATGCCGAGCTACGGCGTCGCCAATCTCCATAATCGCGGTCTCGGCCTCGGGCTGTTGAACGTGCTGACCACGGGCCTGCTCTATATCGTTTCGAAAGACGGGACGCTGAACTCCCTGCAGAGCCTTTCCGGCAAGACGCTCGCTTTGCCGTTCAAGAACGACATGCCCGATTTCGTGCTGCGCCGCCTTGTTGCCGAAAACGGCCTGAAGCCCGGCGACATCACGCTGGAATATGCCGCCTCGCCGCCGGAAGCCGTGCAATTGCTGCTGACGGGACGGGTGGATGCCGCCCTGCTGAGCGAGCCGGCCGCGACCGCCGTGCTCATCAAGGCGAAGTCTTTTTTCATGACCGTCCATCGCACCATCGATATCCAGCGGGAATGGGCGAAGGTGGCCGGCAAGGCTGAAATTCCGCAGGCTGGCCTCGCCTTGACATCGCCGGTCCAGCAAAAACTCGGCAGGGCCGGCATCGAGGCTTTGCAGGACGCCTTAGAGACGGCGCTTGCCAGCGCCATGGCCGATCCGGAGGCGGCGGCCGCTGCGGCCGCCGATGCCTTGGGTTTCCCGCCGGAAATCATCGCGGCCTCCTTCCCGACAAGTCATCTTTGCGCCCTGAAGGCGAGCGCTGCGCGCGCCGATCTCGAGGCGTTCTACGATGAGCTTGCCAGGGCCGACCCGGCAATCATCGGCGGTCGGCGGCCGGACGACGGGTTTTATCTGGTGTAG	MAHLTRRQALSAFSGLAVATLAAPHVAKAEAPLTFYGPPAAPSAVLAHAVKGGFLKDVAPGAVFRAWKTPDEMRAAVASGSMGAVVMPSYGVANLHNRGLGLGLLNVLTTGLLYIVSKDGTLNSLQSLSGKTLALPFKNDMPDFVLRRLVAENGLKPGDITLEYAASPPEAVQLLLTGRVDAALLSEPAATAVLIKAKSFFMTVHRTIDIQREWAKVAGKAEIPQAGLALTSPVQQKLGRAGIEALQDALETALASAMADPEAAAAAAADALGFPPEIIAASFPTSHLCALKASAARADLEAFYDELARADPAIIGGRRPDDGFYLV	PGPT0001135_6900	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051	NA	NA
BMS010_07323	810	ssuC_3	COG0600	Putative aliphatic sulfonates transport permease protein SsuC	ATGAAGCGCATTCTCGAAAGTCTTGGCTGGATGGGCCGCTATCTTTGGGCGGGCTGGGCCGGGCTTTCAGGCATTTTCTGTTTTCTCGCCGCCTGGCAGGCCGGGCATGAGATTTATGGCTCCTTCATCCTGCCTTCACCGGTGGAGACCTTCGCGGCAATGGGGCTTCTGGCGGCGCGGCCGGATTTCTTCGCCATCCTGTCGCAGAGCGCCGTCAGGGCCTTGACCGGCTTTGCCATCGCGGCCGGCATCGGCACGGTGGCGGGCGTGCTGGCGGGCTATTCCTTCGCGGCCATGCGGTTGATGAAGCCTGTTGTCACCGTTCTGCTCGGCGTGCCGCCCATCGGCTGGATCGTGCTGGCGCTCATCTGGTTTGGCTCGTCCGGCGGCACGGCTGTCATGACCGTCATCATCGCCTCGGCCCCCGTGTCCTTTGCCGGCGCGCTGGAAGGTGTCGCCAAGCGGGACCGTCAGCTGGAGGTGATGGCGCAGGCTTTCGGCGCTCCGTGGTTTTACCGGCTGCGCACCGTCACCATGCCGCATGTGCTCTCCTACCTCTTCCCAGCCTGGACGACGACGGCGGGAAGCGCCTGGAAAGTAACCGTCATGGCCGAGCTCCTTTCGAATTCAGGCGGCATTGGCGGCGAATTGGCCACCGCACGCGCGCTGTTCGACATCGCACAGGTCAGCGCCTGGCTCGCCATCACCGTCGCGCTGGCGCTGCTGACCGATTACGGCCTGCTGCATCTGCTGCGGGAGGCGCTGGAACGCTGGCGCGCCGCCGGGTTGCCATGGGGTGTAAAACGATGA	MKRILESLGWMGRYLWAGWAGLSGIFCFLAAWQAGHEIYGSFILPSPVETFAAMGLLAARPDFFAILSQSAVRALTGFAIAAGIGTVAGVLAGYSFAAMRLMKPVVTVLLGVPPIGWIVLALIWFGSSGGTAVMTVIIASAPVSFAGALEGVAKRDRQLEVMAQAFGAPWFYRLRTVTMPHVLSYLFPAWTTTAGSAWKVTVMAELLSNSGGIGGELATARALFDIAQVSAWLAITVALALLTDYGLLHLLREALERWRAAGLPWGVKR	PGPT0001145_5361	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050	NA	NA
BMS010_07324	753	tauB_4	COG4525	Taurine import ATP-binding protein TauB	ATGAGCGACCGTTCCATCCTGCGTTTCGAGCATGTCGGCCACGCCTTTCTCGGCCGCAGCCTGTTCGAGAATTTCGATCTCGGCATAGCGCCGGGGGAAACCGTGGCGCTGCTCGGCCCCTCCGGCAGCGGCAAGACAACGATTTTACAGATCGCAGCTGGTATCATCGATCCTGTTCGTGGCTGCGTGCACCGCCATTATCGCCGGCAGGGTCTGGTGTTTCAGGAGCCGAGGCTGCTGCCGTGGATGACATTGATCGACAATATTGCCTACGGCCTTGCGGCGGCCGGCATGCCAAAACGGGAGCGGCGCGAAAGGGCGGGCCTTTTTGCGCTGGAGGTCGGTCTGGAGGCGGCTGATTTCGGCAAATATCCGGTGGAACTCTCCGGCGGCATGCGCCAGCGCGCCGGCGTGGCGCGGGCGCTCGCCGTGGAGCCGGACATGCTGTTTCTGGATGAGCCCTTCAGCGCCGTCGATGTCGGCCTGCGCCGTCATTTGCAGGAGCTTCTGGTGGGCGCCGCCCGTCGGCGCGGTTTTTCCACGCTTCTCGTCACCCATGATCTTCATGAGGCGTTGCTTGTTGCCGACAGGCTGATCGTGCTCTCCGGCGTCGATGGCCGAGTCGTTGCCGCGCATAAGCCCGCGGGTTCGCCGGGCCGGCGCATGGCGCGTGCGGTTTTCGACGAAGCGGAACGCCTGTCCGAGAGCCCGGCCTTCGCCGAACTGTTTTCAGCAAGGGAGCGGGTGCGATGA	MSDRSILRFEHVGHAFLGRSLFENFDLGIAPGETVALLGPSGSGKTTILQIAAGIIDPVRGCVHRHYRRQGLVFQEPRLLPWMTLIDNIAYGLAAAGMPKRERRERAGLFALEVGLEAADFGKYPVELSGGMRQRAGVARALAVEPDMLFLDEPFSAVDVGLRRHLQELLVGAARRRGFSTLLVTHDLHEALLVADRLIVLSGVDGRVVAAHKPAGSPGRRMARAVFDEAERLSESPAFAELFSARERVR	PGPT0001140_7036	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049	NA	NA
BMS010_07325	1188			hypothetical protein	ATGAGGCAGCCCCCCATCCTTTCCGAAGCCCTGCGGCTGTTTTTCCCTCTGGCCGCCCTGCACGGCGCGGGCTGGCCCTTCCTGTGGATCGTCATCGGTGGTTATGCACTGCCTTTCGCCGATACGGTGCCTGCATCGCAATGGCACGCCCATGAAATGATCTTCGGCACCTATGGCATGGCGCTTGCCGGTTTTCTTGGCTCGGCGGTGCCGGAATGGACGGATACGAAGCCCGCGCAGGGACGAACGCTGCTTCATCTCGCCGGTCTCTGGCTGCCGGGCCGCCTTATCGGCCTTCTCGGGATGGAGGCATGGAGCCTGTTTGCAGGTTTTTTCGATCTCGCCTTTCTGCTCGCGCTCTCTGTTCTCATCGGCAGGGCGATGCTGGCGCGGCGCACGATGAAACACCTGGCATTCCTTATCTGGCTTCTTCTGTTTACGGCGGCTGAAGCGGGTGTGCGTTATGCCTGGTGGAGCGGCGATCTCGAACTTGCATCCCGCTTGCTGGAGGCGGCGCTGTGCATTTTCACCGTGCTGTTTTCGCTTTCCGCCGCGCGTATCAATGTGGTCGTCATCAATCTGGCGCTCGATCCGAGCGGCGAGACCACGCCTTACCGGCCCCATCCCGGCCGCCAGCATATGGCGGGCGCCATGGTGACGCTTTACATGGCGGCGAAACTTTTCTTTCCGCAGAGCGATGTCTGCGCCTGGCTTTCGCTTGCGGCCGGCGCCGCCTTTTTCGACCGGCTGGCCGAATGGTTCATCGGGCGTGCCGTCTTCAAGACCGAGGTGCTGTTGCTTGGCCTCGGCAACGCCTTTGCGGGCGCGGGTTTTCTGGCGCTCGGCGCGACACGGCTCGGTTTTTCCGTCACGCCCGCCGCAGGGCTGCATCTGCTGTCGGTCGGGGCGCTGGGATGCGCCATCATGGCCGTCTTCATCATTGCCGGGCTGCGGCATACGGGCCGCAATCTGACGCATCTGCCATGGCAGGCGCATGTGGCCGCCCTTCTGATGGCGATGGCCGGGCTGGTGCGCATCCTGCCGGAATTCGATTTTGCCGCAACATTATCGCCCTATCACCATGGCCTCAGCGCCGCTTTGTGGGCGGCGAGCTTCTGGGTCTGGTTGCAGGGCTTCCTGCCTTTCATGCGCGCGCCAGGCGTCGATGAGGCGGGCGCATGCGGATGA	MRQPPILSEALRLFFPLAALHGAGWPFLWIVIGGYALPFADTVPASQWHAHEMIFGTYGMALAGFLGSAVPEWTDTKPAQGRTLLHLAGLWLPGRLIGLLGMEAWSLFAGFFDLAFLLALSVLIGRAMLARRTMKHLAFLIWLLLFTAAEAGVRYAWWSGDLELASRLLEAALCIFTVLFSLSAARINVVVINLALDPSGETTPYRPHPGRQHMAGAMVTLYMAAKLFFPQSDVCAWLSLAAGAAFFDRLAEWFIGRAVFKTEVLLLGLGNAFAGAGFLALGATRLGFSVTPAAGLHLLSVGALGCAIMAVFIIAGLRHTGRNLTHLPWQAHVAALLMAMAGLVRILPEFDFAATLSPYHHGLSAALWAASFWVWLQGFLPFMRAPGVDEAGACG	PGPT0001070_867	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITRIC_OXIDE_REDUCTION,PGPT0001070-nnrS-K07234	NA	NA
BMS010_07326	501	napF	COG1145	Ferredoxin-type protein NapF	ATGATGATGGAAGTCTCTCTCAGCCGGCGCGATTTCCTGCGCGGCGGGCAAAAAAATAGACCACGCATCTGTCCCCCCGGGGTCGCGTTGAGCGACCTCGCCGCGTGCAGCGGTTGTGCAAAATGCGTCGAGGCCTGTCCCACCGGCATAATCGCCATGGCGGACGGTTTGCCTTGCGTGGATTTCTCCGCCGGGGAATGCACCTTCTGCGGCAAATGCGCGGAGGCCTGTCCCGAACCGGTCTTTGCCGCCCCCGCGGCGCAGCGCTTCGATCATGTCATGGCGATCGGTGAGGGGTGTCTTGCCTTCGGCAATATCGATTGTCAGGCCTGCCGCGATGCCTGTCAGACCGAGGCTATCCGGTTTCGGCCCCGGCGCGGCGGCCCCTTCGTTCCGGAACTGCTGGAAGACGCCTGCACCGGTTGCGGGGCCTGCGTGTCCGTCTGCCCCGCCAGTGTGATGGAGATCAAAGAGAGAGCCACGGAGATGCAATATGCCTGA	MMMEVSLSRRDFLRGGQKNRPRICPPGVALSDLAACSGCAKCVEACPTGIIAMADGLPCVDFSAGECTFCGKCAEACPEPVFAAPAAQRFDHVMAIGEGCLAFGNIDCQACRDACQTEAIRFRPRRGGPFVPELLEDACTGCGACVSVCPASVMEIKERATEMQYA	PGPT0000335_232	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000335-napF-K02572	NA	NA
BMS010_07327	288	napD_1		Chaperone NapD	ATGCCTGAAAATACAGGCCGGTATCATGTTTCAAGCGCCGTGGTGGCGGTGATGCCGCAGATGCGGGACGCCGTGCTGGCAACGCTTTCAACGCTCGACAATGTGGAGGTTCATGGCGAGGGCAACGGCAAGATCGTCATTGTCATAGACGGCACGAGCACCGGCATGCTGGGCGATACGCTCACTTATATTTCGACACTCGACGGTGTGATTGCCGCCAACATGGTTTTCGAACACGTCGACACAGAGGAGACAAGCGGCGATGAGCAGCGAACTGACGCGGCGTGA	MPENTGRYHVSSAVVAVMPQMRDAVLATLSTLDNVEVHGEGNGKIVIVIDGTSTGMLGDTLTYISTLDGVIAANMVFEHVDTEETSGDEQRTDAA	PGPT0000325_325	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000325-napD-K02570	NA	NA
BMS010_07328	2505	napA_1		Periplasmic nitrate reductase	ATGAGCAGCGAACTGACGCGGCGTGATCTATTGAAGGCCCATGCCGCCGGCATTGCGGCGGCAACGGCGGGCATTGCGCTGCCGGCCGCCGCCCAGCCGGTGCCGGGCGGGGTTTCCGCATTGCAGATCAAGTGGTCCAAGGCGCCCTGTCGTTTCTGCGGCACGGGCTGCGGTGTCATGGTCGGCGTCAAGGAAGGCAAGGTCGTCGCCACCCATGGCGACATGCAGGCGGAGGTCAATCGCGGCCTCAACTGTATCAAGGGCTATTTCCTGTCCAAGATCATGTATGGCAAGGACCGCCTGCAAACCCCGCTTCTGCGCAAAAAAGGCGGCGTCTACGCCAAGGACGGCGAGTTCGAGCCGGTGAGTTGGGATGAGGCCTTTGACGTGATGGCGCAGCAGTGCAAGCGGGTGCTGAAGGAGAAGGGGCCGACGGCCGTTGGCATGTTCGGCTCCGGCCAGTGGACGATCTTCGAAGGCTATGCGGCCACCAAGCTGATGCGCGCCGGCTTCCGCTCCAACAATCTCGATCCCAATGCACGCCACTGCATGGCGTCGGCCGCTTACGCCTTCATGCGCACCTTCGGCATGGACGAGCCGATGGGCTGTTACGATGATTTCGAACATGCCGATGCCTTCGTGCTCTGGGGCTCGAACATGGCGGAGATGCATCCCATTCTGTGGACGCGCATTGCCGACCGGCGTCTGGGCTTCGACCATGTGAAGGTGGCTGTGCTTTCGACCTTCACCCATCGCAGCATGGACCTTGCCGATATTCCGATGGTCTTCAAGCCGGGCACGGATCTCGTCATCCTCAATTACATTGCCAACCACATCATCAAGACCGGGCGCGTCAACGAAGACTTCGTGAAGAACCACACGAAATTCGTGCGCGGTGTCACCGATATCGGTTATGGCCTGCGGCCCGACAATCCGGTGGAAGTGAATGCCGCCAATTCCGCCGATCCGACCAAGACCGAAGCGATCGATTTCGAGACCTTCAAGGAATTCGTCTCCGAATACACACTGGAAAAGACCGCCGCCATGACCGGCGTGGAAGCCGGTTTCCTGGAGGAGCTGGCCGAGCTTTATGCGGACCCGAACCGCAAGGTCATGTCGCTGTGGACCATGGGTTTCAACCAGCATGTGCGCGGCGTCTGGGCCAACCAGATGGTCTACAACATCCATCTTTTGACCGGCAAGATTTCCGAGCCTGGCAACAGCCCGTTCTCGCTCACCGGCCAGCCCTCGGCCTGCGGCACGGCGCGCGAGGTGGGCACCTTCGCCCATCGCCTGCCGGCCGACATGACGGTGACCAACCCGGAACACCGCAAACATGCTGAGGAAATCTGGCGCATCCCGCACGGCATCATCCCGGAAAAGCCGGGTTACCACGCCGTGCAGCAGGACCGCATGCTGCATGACGGCAAGCTGAATTTCTACTGGGTGCAGGTCAACAACAACGTCCAAGCCGGTCCCAACACCAAGAACGAGACCTATCAGGGCTATCGCAACCCGGAAAACTTCATCGTTGTTTCGGATGCCTATCCGACCATCACGGCCATGAGCGCCGACCTTATCCTGCCCGCCGCCATGTGGGTGGAGAAGGAGGGGGCCTATGGCAATGCCGAGCGGCGCACCCATGTCTGGCACCAGCTTGTCGAGGCCTCGGGCGAGGCGCGCTCCGACCTCTGGCAGCTGGTGGAATTTTCCAAACGCTTCACCACGGATGAGGTGTGGCCGGCGGAGATACTGGACGCCAATCCCGCCTATCGCGGCAAGACGCTGTACGAGGTGCTCTTCAAGGACAGCGATGTCGGCAAATTCCCGTTAAGCGAGATCAGCGGCGAATACGAAAACCAGGAAGCAAAACACTTCGGCTTCTATCTGCAAAAGGGTCTCTTCGAGGAATATGCCGCCTTCGGGCGCGGCCACGGCCACGATCTGGCGCCTTACGATGCCTATCACGAGGTGCGCGGCATGCGCTGGCCTGTGGTGGATGGCAAGGAAACGCTGTGGCGTTACCGCGAAGGTTACGACCCCTATGTCAAACCGGGCGAGGGCGTGAAATTCTACGGCAACAAGGACGGCAAGGCGGTCATCATCGCCGTGCCCTACGAGCCGCCGGCGGAATCCCCGGATGCGGAATTCGATACCTGGCTGGTGACGGGCCGCGTGCTGGAGCACTGGCATTCCGGCTCCATGACCATGCGCGTGCCGGAACTCTACAAGGCCTTCCCCGGCGCCCGCTGTTTCATGAATGCCGACGATGCGCGCAAGCGCGGGCTCAATCAGGGCGCGGAAATCCGCATCGTTTCTCGCCGTGGCGAAATACGCTCCCGCGTGGAAACGCGCGGCCGCAACCGCATGCCGCCCGGTGTCATCTTCGTTCCCTGGTTCGATGCCAGCCAGCTCATCAACAAGGTGACGCTCGACGCAACCGATCCCATCTCCAAGCAGACGGATTTCAAGAAATGCGCAGTCAAGATAGAGCCGGTCGCATGA	MSSELTRRDLLKAHAAGIAAATAGIALPAAAQPVPGGVSALQIKWSKAPCRFCGTGCGVMVGVKEGKVVATHGDMQAEVNRGLNCIKGYFLSKIMYGKDRLQTPLLRKKGGVYAKDGEFEPVSWDEAFDVMAQQCKRVLKEKGPTAVGMFGSGQWTIFEGYAATKLMRAGFRSNNLDPNARHCMASAAYAFMRTFGMDEPMGCYDDFEHADAFVLWGSNMAEMHPILWTRIADRRLGFDHVKVAVLSTFTHRSMDLADIPMVFKPGTDLVILNYIANHIIKTGRVNEDFVKNHTKFVRGVTDIGYGLRPDNPVEVNAANSADPTKTEAIDFETFKEFVSEYTLEKTAAMTGVEAGFLEELAELYADPNRKVMSLWTMGFNQHVRGVWANQMVYNIHLLTGKISEPGNSPFSLTGQPSACGTAREVGTFAHRLPADMTVTNPEHRKHAEEIWRIPHGIIPEKPGYHAVQQDRMLHDGKLNFYWVQVNNNVQAGPNTKNETYQGYRNPENFIVVSDAYPTITAMSADLILPAAMWVEKEGAYGNAERRTHVWHQLVEASGEARSDLWQLVEFSKRFTTDEVWPAEILDANPAYRGKTLYEVLFKDSDVGKFPLSEISGEYENQEAKHFGFYLQKGLFEEYAAFGRGHGHDLAPYDAYHEVRGMRWPVVDGKETLWRYREGYDPYVKPGEGVKFYGNKDGKAVIIAVPYEPPAESPDAEFDTWLVTGRVLEHWHSGSMTMRVPELYKAFPGARCFMNADDARKRGLNQGAEIRIVSRRGEIRSRVETRGRNRMPPGVIFVPWFDASQLINKVTLDATDPISKQTDFKKCAVKIEPVA	PGPT0000310_266	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000310-napA-K02567	NA	NA
BMS010_07329	465	napB		Periplasmic nitrate reductase, electron transfer subunit	ATGATCAGGAAACACGGATGGATCGCCGCCACGCTTCTGGTCGTGGCGCTGGCGACGGGGGCCGTTGCGCAGATGGTGCCGGAATTGTCCGGTCCGCGCGGTGACGCCATGCAGACCGAACCTGCCAAACCCCTGCCGAAATGGGTGATCGACGATTTCAGGCGCATGCGCGCCTATCCGGAGCAGCCGCCGGTCATCCCGCATTCGATCGACGGTTACCAGCTTTCGGTCAATGCCAACCGCTGTCTCTCCTGTCACAAGCGCGAATTCACGCAGGATTCCGGCGCGCCGATGATCAGCGTCACCCATTACATGACGCGCGAAGGCCAGATGCTGGCGGATGTTTCGCCGCGCCGTTATTTCTGCACGGCCTGCCATGTGCCGCAGGCCGACACACGGCCGCTCGTGCCCAACACCTTTCAGGACATGAGCGAAATGGGCGTCAAACCGGCGGGTAGCGAATGA	MIRKHGWIAATLLVVALATGAVAQMVPELSGPRGDAMQTEPAKPLPKWVIDDFRRMRAYPEQPPVIPHSIDGYQLSVNANRCLSCHKREFTQDSGAPMISVTHYMTREGQMLADVSPRRYFCTACHVPQADTRPLVPNTFQDMSEMGVKPAGSE	PGPT0000315_231	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000315-napB-K02568	NA	NA
BMS010_07330	702	napC_1		Cytochrome c-type protein NapC	ATGATGATCGCCCGTGTGAAAAAACTTCTCGCCTGGCTCTGGGCGGTTCTGACGACACCGGCCGGCACGCTCAGCCTCGCCTTTCTCACCCTTGGCGGTTTCGTCGGCGGGGTCATGTTCTGGGGCGCCTTCAACACCGCACTCGAAATGACCAACAAGGAAGCCTTCTGCATTTCATGCCACGAGATGAGGGCGAATGTTTATGAGGAACTGACGCGGACGGTGCATTTCTCCAACCGCTCCGGCGTGCGCGCCTCCTGTCCGGATTGCCATGTGCCGCATGAGTGGACGGACAAGATCGCCCGCAAGATGCAGGCCTCGAAGGAGGTCTGGGGCAAGATTTTCGGCACCATCGATACGCGCAAGAAGTTCCTCGACAAGCGGCTGGAGCTTGCCCAGCACGAATGGTCGCGCCTGAAGGCCAATGACAGCCTGGAATGCCGCAACTGCCATTCCTCCGCCGCCATGGACTTTACCAAACAGACGCAGCGCGCCGCCGATATTCATTCCAAATATCTGCTGACGGGCAAGGCTACCTGCATCGATTGCCATAAAGGCATCGCCCATGAATTGCCCAATATGGAAGGCATAGACCCCGGCTGGAAAATGCCGCCGGCGCTCAACGACCAGCCGGGGCCAACGGCCTCTGCCGTCGACGACCTTAGACGTGCGATGACGGATGTGCACCGGAACGTTTTTTGA	MMIARVKKLLAWLWAVLTTPAGTLSLAFLTLGGFVGGVMFWGAFNTALEMTNKEAFCISCHEMRANVYEELTRTVHFSNRSGVRASCPDCHVPHEWTDKIARKMQASKEVWGKIFGTIDTRKKFLDKRLELAQHEWSRLKANDSLECRNCHSSAAMDFTKQTQRAADIHSKYLLTGKATCIDCHKGIAHELPNMEGIDPGWKMPPALNDQPGPTASAVDDLRRAMTDVHRNVF	PGPT0000320_33	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000320-napC-K02569	NA	NA
BMS010_07331	1914			hypothetical protein	ATGACCGACATCGATACGAGCAAATTGTCCTGGGACGAGTGGGACGAACTGCAGAACCCGCCGCCGGCCGAAACCGATTTCGACCGCGTTGTCGAAACCGCGATTTCCCGCCGCGGCTTTCTCGGCGGCGTGCTTGCCTTCGGTTCGGCCGCGGCCGCCATGGGCACGCTCGGCAACCTGATGAGCAGCACCTCGGCCGAAGCGCAGGAAGCCGCCGTCGGCCGTTTCCCCTTCAAGCCGGTTGCCGCCGCCACCGACAACACCATCCATGTCCCGGAAGGCTATAACTGGAAGCCGCTGGCGAAATGGGGCCAGCCGCTGTTCTCCAACGTTCCCGATCTCGACCCCGCCAAGGGCGTCAGCGTTGAAAACTCCGACAAGGTCTTCGGCGAAAACACCGACGGCATGGAACTCTTCGTGGTCGGCAGCCACCAGCTGATCGCCGTCAACCACGAATATGTGAACCCCGAAATCAACCTTCCGCACGCTGAGAAAGGCAACCCGAAGACGGCCGACGACGTGAAAATCCTGCAGAACATGCAGGGCGTCACCGTCATGGAAGTCGCGGAAGACAAGGACGGCTGGAAGATCGTTCTCGACAGCCCCTTCAACCGCCGTATCCACCACAACACGCCAATGAAGCTTTCCGGCCCGGCCGCAGGCTCCGATCTCGTCAAGACCGCCGCCGACCCGAAGGGTGTCGACTGTCTCGGGACCTTCAACAATTGCGGCGCCGGCCGCACGCCCTGGGGCACCTATCTCACCTGCGAAGAAAACTTCAACGGCTATTTCGGCACCACCGACGCCGCCTTCAAGCTGCCCGACGATTACAAGCGCTACGGCATCGTCGCCGAAACCCGCTACGCCTATGAGAAGTTCGACGCGCGTTTCGACGTCGCCAAGAACCCCAACGAACCGCGCCGCGCAGGCTACGTGGTCGAGATCGATCCTTCGGACGCCTCCTCCACCCCGATCAAGCGCACCGCGCTTGGCCGCATCAAGCACGAAAACGCCGCCGTGGTCATCGCCCGTGACGGCCGTGTCGTCGTTTACATGGGTGACGACGAGCGTGGCGAATTCCTCTACAAATTCGTCTCCAACGGCATTTACGTGCCGGGCGGCGACACCTCGAAGCTGCTCGACGAAGGCACGCTTTACGTCGCGAAATTCTCCGATGACGGCGCCGGTGAATGGCTCGCCCTGACGCCTGAAACCACCGGCATGAAGATCGACGAAATCTGCGTCTTCACCCGTCAGGCCGCTTCCAAGGTCGGCGCGACGACGATGGACCGCCCGGAATGGGTCGCCATCAACCCGGTCGCCATCGAAGCTTATTGCGCGCTGACCAACAACAGCCGCCGTGGCGAAATGAAGGACGGCAAGCTGCGCGCCAATGCCGGCGGCGACGCCATGGCGATCAATGCCGCCAACCCGCGCGAAAAGAACGAATACGGCCAGATCGTGCGCTGGTATCCGGAAAATGACGACCATGCGGACGGCAAGTTCAAGTGGGACCTGTTCTGCATGGCCGGCAACCCTTCCGTTCACAAGGACGCCTATGCGGGTTCTTCGAACATCAACGAAGGTAACATGTTCAATTCGCCTGACGGCATGATGTTCGATAGCACCGGTCTGCTCTGGATCCAGACCGATGGCGAGGACACCAATGAAGGTAACTTCGCCGGCCAGGGCAACAACCAGATGCTGGCGGGCGACCCGGCCACCGGCCGTATCGAGCGCTTCCTCACCGCCCCGAAGGGTTCCGAAGTCACCGGCCAGACATGGTCCGGCGACAAGCGCACCCACTTCGTCGGCATCCAGCACCCCGACGCCCCCTTCCCGGATGGCGAAGGCAAACTGCCGCGCTCGACCATCATCGCCATCAAGCGCGATGACAATGTGACGATCGGGTAA	MTDIDTSKLSWDEWDELQNPPPAETDFDRVVETAISRRGFLGGVLAFGSAAAAMGTLGNLMSSTSAEAQEAAVGRFPFKPVAAATDNTIHVPEGYNWKPLAKWGQPLFSNVPDLDPAKGVSVENSDKVFGENTDGMELFVVGSHQLIAVNHEYVNPEINLPHAEKGNPKTADDVKILQNMQGVTVMEVAEDKDGWKIVLDSPFNRRIHHNTPMKLSGPAAGSDLVKTAADPKGVDCLGTFNNCGAGRTPWGTYLTCEENFNGYFGTTDAAFKLPDDYKRYGIVAETRYAYEKFDARFDVAKNPNEPRRAGYVVEIDPSDASSTPIKRTALGRIKHENAAVVIARDGRVVVYMGDDERGEFLYKFVSNGIYVPGGDTSKLLDEGTLYVAKFSDDGAGEWLALTPETTGMKIDEICVFTRQAASKVGATTMDRPEWVAINPVAIEAYCALTNNSRRGEMKDGKLRANAGGDAMAINAANPREKNEYGQIVRWYPENDDHADGKFKWDLFCMAGNPSVHKDAYAGSSNINEGNMFNSPDGMMFDSTGLLWIQTDGEDTNEGNFAGQGNNQMLAGDPATGRIERFLTAPKGSEVTGQTWSGDKRTHFVGIQHPDAPFPDGEGKLPRSTIIAIKRDDNVTIG				NA	NA	NA	NA	NA
BMS010_07332	174			hypothetical protein	GTGAAACGGTTATTCTTTTTCGAGGCGGCGGAATTATCCGGCTTCGACGATAACGGTTCGGCCTCGCTGCGGCTGACCGCCGACATAGGCGAATGGCGCAGGGGAACGGAGATTCCCTTCCGCTTCTGCCGCTTCGACGGCTTCCTTGTCACCCGCATCCTGATCGGGCGCTGA	MKRLFFFEAAELSGFDDNGSASLRLTADIGEWRRGTEIPFRFCRFDGFLVTRILIGR	PGPT0003225_343	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ENTEROBACTIN|ENTEROCHELIN|ACINETOBACTIN|ANGUIBACTIN|CHRYSOBACTIN_METABOLISM,PGPT0003225-entD|basI|angD|cbsD|cbsE|aebD-K02362	NA	NA
BMS010_07333	456			hypothetical protein	ATGATGACGGAACTCAAGGCCCTTATCGCCAGGGTTCTCGACGATGAAGTGCGCGACATCGAACCGGGGGACAACCTGTTCGGTCGCGGGCTTCATTCGCTTGCCCTCATGCGCCTGATGCCGCCGCTTTCCCAGCTTGCCGGGACACGGCTCGATTATGAGGATCTGGGCCGGCAGCCCACGCTTGCCGCCTGGCAGGCGCCTCGACACCGCAAGCTTTGTCGGCGCAGGCGAGGCCACCGGCACCCGCGAATGCTGAAAGCCCGCGTCCTGCAGATGGTGGAGGATGAAAGCGATATCGACCCCGATGAGAACCTCATCTTCTACGGACTGGATTCGCTGCAGGTGATGAAACTCGCCGGCGAATTGAAGGTGCGCGGTGTCACCGTCGGCTTCGATGAGCTGGCCCGTGTGCCGACACTTTCCGCCTGGTCAAGGCGCTTTATCCGACAGTGA	MMTELKALIARVLDDEVRDIEPGDNLFGRGLHSLALMRLMPPLSQLAGTRLDYEDLGRQPTLAAWQAPRHRKLCRRRRGHRHPRMLKARVLQMVEDESDIDPDENLIFYGLDSLQVMKLAGELKVRGVTVGFDELARVPTLSAWSRRFIRQ				NA	NA	NA	NA	NA
BMS010_07334	840	yqjH	COG2375	NADPH-dependent ferric-chelate reductase	ATGAGCATGCCAGAAACCGTAGATTCCCCCATTCCGGACCGCACTCCCAAACGCCATCGCCACCCCGTCGCGCTGCGCGCGCTCAATGTCGCGCGTGTCGAAAAGCTCAGCCGGTCCATGGTCCGCATCGTCCTGACCGGGCCTGAACTGGAGGGCTTTGCGAGCCTCGGTTTTGACGACCACGTCAAGATGTTCTTTGCCCAGCCCGGCGAAACCGAACCGAGCCTGCCGGTGATCGGCCCGAACGGCATTGAATTCCCGGAAGGTGCGCCGCGCCCGCTGGCGCGCGACTACACGCCGCGCAGCTTCAACGCCGAAAAGGGCGAACTCGCCATCGATTTCGCCACCCATCACGACGGCCCCGCCAGCAACTGGGCGAAAGCCGCCAAAGCGGGTGACAAAGCGTGGATCGCCGGTCCGCGCGGCTCCTTCACCGTTCCCTTCACCTACGACTGGCATCTGCTGATTGCCGACGATACCGGCCTTCCCGCGCTGGCGCGGCGGCTGGAGGAAATGCCTGAAGGCACACGCGTCGTGGCGCTGATCGAGGTCGAGACGGATGCCGACCGGCTGGAGCTCACGACGAAGGCGGATGCGTCTATTGTCTGGGTGACGCAGAAGACGGAGAACGGAACGGACCACGACGCGCTGGTGGGCGCACTGCGCAAGCTCGACCTGCCGAAGGGCGATTTCTTCAGCTGGGTCGCCTGCGAATCGAAGGCTGCAAAGGAGGTTCGCGCCCTTCTGGTCGAAGAATTCGGCGCCAACCCCAAATGGACTCGCGCTTCCGGTTACTGGCGGCGCGGCGCCAGCGGCGTTCACGATCATTTCGATGAGTGA	MSMPETVDSPIPDRTPKRHRHPVALRALNVARVEKLSRSMVRIVLTGPELEGFASLGFDDHVKMFFAQPGETEPSLPVIGPNGIEFPEGAPRPLARDYTPRSFNAEKGELAIDFATHHDGPASNWAKAAKAGDKAWIAGPRGSFTVPFTYDWHLLIADDTGLPALARRLEEMPEGTRVVALIEVETDADRLELTTKADASIVWVTQKTENGTDHDALVGALRKLDLPKGDFFSWVACESKAAKEVRALLVEEFGANPKWTRASGYWRRGASGVHDHFDE	PGPT0004045_25	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-RELATED_PROTEINS,PGPT0004045-ygjH-K07229	NA	NA
BMS010_07335	954			hypothetical protein	ATGCGAATTGCCATGCTCATCGCCGCACTTCTGGCCGCCGGAACGAGTCTCGCCGCCGAGCGCAGCGTGACCGATGCCGCCGGCCGCAGCGTCTCCGTTCCGGAAAAGCCGCAGCGCATCGTCGTCATGCACGAGCCGCTGCTCGGCGTGCCGCTGATGGATCTCGACGCCAATGTGGTCGGCGCCTATGGCCGCAACAGCGACGGCAAATTCGCCACCGCCGTCGATTTCGTCGACACCGTTCTCGGTGAAGGCCGCACGAAACCGAAGGGTTTCGGCGCGGTTGGCCAGATCGACCTCGAAAAACTGCGGGCGCTGCAACCAGACCTGATCGTCGCCACGGAAATGGATGGCGGCAAGGCCGAACAGCTCTCCACCGTCGCCCCCGTCTATCTGCAAAAGGTCAGCACCGGCCATGCCTACGGTTTCAGCGTCGAAGAAAACCTTGCCGCCCTGGTCGGGCGAAGCGATGTCTTTGCCGAGCGCCGGAAGACCTATGACACGAAGCTCGCCGCCGTCAAAAAGACGCTGGGCGACGATATCAAGGGCAAGACCTATCTCGCGATCCTGCTGACCGACCAGATCAATGCGGTGGGTGATATGTCCGGCGCGGTGCAGGCATTGGAGGATCTGGGTTATACCCGCCTGAAGATCGACAACGCTGTCTCTTCGGGCGGCATGGGCTCGACCCTGATGATGCCGCTGAGCGCCGATGCCTTCGGCAAGCTCAATCCCGATCTGCTGGTGGTGATGAACAGCTATACCAGCCCCGCCCGCGGCGAGGCCGGAACGCGCGCCGCCCTTGAAAAGATCATTCCCGGCTGGGAGCGTTTCGTAAAACCGGCGCGCGAGAAAAGGATCGTTTTCCTCGATTCCACCAGGGTCACGACGCCTTCCATTCCAAGTGCCCTGCACACATTGAATGAGGTGGAAAGCTGGGCAGGCCGCCGCTGA	MRIAMLIAALLAAGTSLAAERSVTDAAGRSVSVPEKPQRIVVMHEPLLGVPLMDLDANVVGAYGRNSDGKFATAVDFVDTVLGEGRTKPKGFGAVGQIDLEKLRALQPDLIVATEMDGGKAEQLSTVAPVYLQKVSTGHAYGFSVEENLAALVGRSDVFAERRKTYDTKLAAVKKTLGDDIKGKTYLAILLTDQINAVGDMSGAVQALEDLGYTRLKIDNAVSSGGMGSTLMMPLSADAFGKLNPDLLVVMNSYTSPARGEAGTRAALEKIIPGWERFVKPAREKRIVFLDSTRVTTPSIPSALHTLNEVESWAGRR	PGPT0003765_8232	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003765-feuA|yvrC|ABC_FEV_S|fatB-K02016	NA	NA
BMS010_07336	1080	btuC_2		Vitamin B12 import system permease protein BtuC	ATGAAGGGGGCTTTCGTGAAACGGCATTTCGCCACCGACGGCAAAGCCGTCCTCCGGCTGCCGAGCGGCCTGCAGATCGGCATCGGCAATCTGAAGGCCGGCCTTGCGCTGCTTGTGCTGGCGCTGGCGCTCGCCGCCCTGTCCGTCAGCCTCGGCAATACCGAAACAGGCCTCGCCGATCTCCTGCGCGGATTGGTGGGCGGGCATCTCGGCGACGATCAGGCCTATGCACTGTGGACGGTGCGGCTGCCGCGTATCCTCATCGGTTTCATGGCCGGCTGGAGCGTGGCGCTGGCGGGCGCCATGCTGCAATCCGTCGCCCGCAATCCGCTCGCCGATCCCGGCCTGTTCGGTCTAAGCCAGGGGTCGATGACCACCATCATGCTGCTTCTGGTGCTGGTGCCAGCCGCACCCAAGACGCTGGTGGCGCTTGCGGCCGTCGGCGGCGGTCTGGCCGTCGCCTTTCTTCTCATCGCCCTCGTCGGGCGGGAACGCTCGAGCGGCCTAGCCATATTGCTGATGGGCATCGCAATTGAATCGGCGCTTTCCTCCGTCTCCTCCGTGCTTCTGCTCTACACACCGGCCGAAACCTCGCTGTCGCTGGCCGACTGGATGGCGGGTTCGCTGTTTCAGGCCAGCTGGTCGACCATACTCGTTTTCGCCCCCCTCTTCGCCGCAAGCCTTGTGGGCATTTTTCTCATCGGCCGGGCGCTTGCGGTCTTCGATCTCGGCAATGAAATGGCCATGGCGCTCGGCGAAACTGTCAGGCATTCGCGCCCGCTCGTCATTGTTTTTGCTGTCATCCTCAGTGCTTCCTCGGTTACGGCCGTCGGCCCGCTGACCTTTCTCGGCGTTATCGCCCCGCATCTCGCCACCTTCGTTTCGCCCGCCGTCGGGCGCGCCAGGCTTTTCCTGTCGGGGCTTACCGGCGGCATTCTGGTCGTCACGGCCGATGCCCTGTCGCGCGGACTGGTGGCCGATACGCCGATGCCGATCGGCCTTGCGCTGACGCTGATCGGCGTGCCGCTTTTCATCCTCACGCTGCGCCTTCAGGCGCTGCGCAGAACCAACAGCCACTGA	MKGAFVKRHFATDGKAVLRLPSGLQIGIGNLKAGLALLVLALALAALSVSLGNTETGLADLLRGLVGGHLGDDQAYALWTVRLPRILIGFMAGWSVALAGAMLQSVARNPLADPGLFGLSQGSMTTIMLLLVLVPAAPKTLVALAAVGGGLAVAFLLIALVGRERSSGLAILLMGIAIESALSSVSSVLLLYTPAETSLSLADWMAGSLFQASWSTILVFAPLFAASLVGIFLIGRALAVFDLGNEMAMALGETVRHSRPLVIVFAVILSASSVTAVGPLTFLGVIAPHLATFVSPAVGRARLFLSGLTGGILVVTADALSRGLVADTPMPIGLALTLIGVPLFILTLRLQALRRTNSH	PGPT0003770_4913	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_TRANSPORT,PGPT0003770-feuB|feuC|chuU|yfhA|hmuU|ABC_FEV_P|fatC|fatD-K02015	NA	NA
BMS010_07337	1014	yfiZ_3	COG0609	putative siderophore transport system permease protein YfiZ	ATGACCCCGAAAATAACGCTGATTTTCGCCGCCGCGCTGCTGCTGGCCGCCATCCTCGCCGTCAATCTGCTGGTAATGTCCGGCGACATGCCGCCTGCCGAAATCCTGGCGACTCTCTGGCGCGGCGAGGCCGACAGCTATGAGCAGTCGGTGCTTCTCTATCAGCAGATCCCACGCGCGCTGATTGCCATCTATGTGGGGGCGACGACGGCCGTCAGCGGTTGCGTGCTGCAGGGGCTTGCGCGCAATCCCCTCGCCTCGCCCTCCACCCTGGGGCTGAATGCCGGCGCGACGCTTTTTGTGATTGCCGGCGCGCTGGTGTTCGATTTCTCTCCGGAAATACAGGGCCTTGCAGCACTCGCGGGCGCCGGCTTCGGTTTTGCCGCCTGTTTCGTCGTCGCGCGTCTCGCCGGGCGGGCGAACGATCCGCGCGGCCTGTCGCTCATCCTTTCCGGCGCGCTGGTTTCCATGCTGCTGATCGGCGTCACCAACGCCCTGCTTCTCTCCAATCCCACACGCCGGGCCGAGTTCCTCAGCTGGGTGGGCGGCAATATCAACCACGTCTATGCCGAGCGCCTGTTCGATTTCTGGTGGATCGGCGCAATTGCGCTCGTCATGTTGTGGGCGGTCGCCCGGCCGCTGACGCTGGTTCTGCTGGGCGCGGAAAAGGCCGCCTCCGCCGGTGTGAATGTCACACGCATTTCCCGGGTCGCGCTCTTCGGCACCATGCTGGCCTCGGGTTCGGCGGTGGCGATCTGCGGCCCCATCGGCTTCGTCGGCCTCATCGTGCCGCATATGATCCGGCCGCTGGTCGGGGTGAATTTCACGCTTGCCCTGCCGGCCTCCGCGCTTGTCGGCGCGGGTCTCTGCGTGCTGGCCGATCTTGGCGCGCAAACCCTGTTTGCGCCCTATGTGGTCAATACCGGGCTGTTCATGGACCTGCTCGGCGGCCTCGTCTTCATCGTCATCGTCAAGCGCTTCTATCTGTCGCCTTCGGCGAGGGGGCTGTCATGA	MTPKITLIFAAALLLAAILAVNLLVMSGDMPPAEILATLWRGEADSYEQSVLLYQQIPRALIAIYVGATTAVSGCVLQGLARNPLASPSTLGLNAGATLFVIAGALVFDFSPEIQGLAALAGAGFGFAACFVVARLAGRANDPRGLSLILSGALVSMLLIGVTNALLLSNPTRRAEFLSWVGGNINHVYAERLFDFWWIGAIALVMLWAVARPLTLVLLGAEKAASAGVNVTRISRVALFGTMLASGSAVAICGPIGFVGLIVPHMIRPLVGVNFTLALPASALVGAGLCVLADLGAQTLFAPYVVNTGLFMDLLGGLVFIVIVKRFYLSPSARGLS	PGPT0003770_6708	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_TRANSPORT,PGPT0003770-feuB|feuC|chuU|yfhA|hmuU|ABC_FEV_P|fatC|fatD-K02015	NA	NA
BMS010_07338	792	fpuD	COG1120	Petrobactin import ATP-binding protein FpuD	GTGCTTGACGCCACGGACCTTCACGCCAGCTATGGACATGTTCCCGTCCTGCAGGGGCTTGCCGCCCGTTTCAGATCAGGCCGCGTCACCGCGCTGGTCGGCCCCAATGGCTGCGGCAAGTCGACGCTGTTGAAGACCATTATGGGTTTCGTGCCTTTGTCATCGGGCGCGATAAGGCTCGGCGAGCGTTCGATCGGCGAGATCGGACGCCGCGAACTGGCGCGGCGCATCGCCTATCTGCCGCAGGAGTGCCATTGCCCCGACTATATGACGCTCGGTGAGCTGATCGAGCTTGCCGGTTATGCCCGCTACGGTCTTGCGGGCGGCCCAACCGAACGCGACCGCGCGCTTTTTGCCGAGGCGCTGAAGACCGTCGGGCTGGAAGACAAGGCGAAAGCGCAGGTCAACACGCTTTCCGGCGGCCAGCGCCAGCGCGCCTTCATCGCCATGGTGCTGGCGCAGGATACGGACGTGATCCTGATGGACGAGCCGGTCAATCATCTCGATATGAAATATCAATATGCCGTTCTCGGCCTCGTGCGCGAACTGACGGACAGGCATGGCAAGACCGTCATCGTCGTGCTGCACGATCTCAACCTCGCCTCCACCTTCGCCGATGATGTCATCATGCTGAAAGCCGGGCGGGTTCTGGCGTCCGGGCCGGTGGAAACAACGGTCACACCCGAAAATGTCGCCGAGGTCTTCGATCTCGAAGCGGATATCTTCTCCCGGCAGGGGCGGCTCATCTGCGTGCCCCGGCTGGAGCGGCAGGAACAGGCCATTCCGGCATGA	MLDATDLHASYGHVPVLQGLAARFRSGRVTALVGPNGCGKSTLLKTIMGFVPLSSGAIRLGERSIGEIGRRELARRIAYLPQECHCPDYMTLGELIELAGYARYGLAGGPTERDRALFAEALKTVGLEDKAKAQVNTLSGGQRQRAFIAMVLAQDTDVILMDEPVNHLDMKYQYAVLGLVRELTDRHGKTVIVVLHDLNLASTFADDVIMLKAGRVLASGPVETTVTPENVAEVFDLEADIFSRQGRLICVPRLERQEQAIPA	PGPT0003760_3318	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003760-yusV|ABC_FEV_A|feuD-K02013	NA	NA
BMS010_07339	1302	ntaA_2		Nitrilotriacetate monooxygenase component A	ATGTCAGTCGCAGCCAAGCTTCATATCGGCATGTCGCTGGCCCCAACCTGGCTCAGCGGCGAGGCATGGCGGCGCGCGGACAGCGATATAAACGGGGTGTTTTCCAGCGATTATTTCGTCGATCTGGCGCAGCGCGCGGAGGCGGCGCATGTGGATTTCGTGTTTCGGCCGGATACGCTTTTTCTGCGCACCGAGGGGCTGGAGACCGGCGGCGGATTTGCCAGCATGGATCCGACCATGCTTCTTGCGGCCATTGCGCGGGAAACCAGCCATGTCGGGCTATTGTCCACCGTTTCGACCACATTTCTGCCGCCCTATGTGGTCGCCCGCCAGATCCAGTCGCTGAACTGGCTGAGCAACGGCAGGGCGGGGTGGAATATAGTCACGGCGCTTGAGGGGCACGAAAATTTCGGCCTGAAAGAGATGCCTTCGCCGCAGGAGCGTTACGAGCGCGCCGCCGAATTCACGCAGGTAGTGCAGCAGCTCTGGGCGAGCTTTCCGAACGAAGCTCTCAAACTCGACCGGGAAAGCGGGCGGTTCGCCGATTCTTCGCTGGTGTGGCCGGTGGCGCATGAGGGCAGGCATTTCAGCGTCAAAGGCCCGCTCAACCTGCCGTCCCATGCCAGCCGCATTCCGCTGGTGCAGGCGGGCGCCTCTCCCGAGGGCCGTGATTTCGCTTCGTCGGTGGCCGACGCCGTCTTTGCCTCGACGCCGGATATGCAGGCGGCCATCGAACTCAGGGCGGATTTGCGGCGGCGTGCCGAGGGGCATGGCCGCAACCCCGACGGCGTGAAGCTGATGCCGGGCCTCAGCCTCTATCTCGCGGAGACCGGCAGGGAGGCGCTGGAACTCTTCGCGGAGACTCATGCCCGCGCCAACCGCGCCCGCGCTTTTGCCTCCATTCGCGATATGACGGGCCTTGATCTCACGGACTGGCCGCTCACGCGGATCGTTACCGCCTCCGACCTGCCGCCGCCGCCGGAGACACCGAGAAGCCGCACCCATGCCGGCCTGCTACGCCGGCTGATCGAGCGGGAGACGCTGAGTGTTGCGGAATTATTGCGGCGTCCGGAAGTGATGGGGTCGGGTCATTGGCAGATCATCGGCACTGTTGAGGATGCCCTTGAGGCCATCCGCGAATGGGCGGCTGCCGGTGCTATCGACGGTTTCGTCGCAGTGCCCGGCGGTTCGGTGGCGTCCATGCGGCTGGTGCTGGAGCGGCTGTTGCCGAAGCTCGCCGATGCCGGGCTTTTCCGCACGGCCTATTCCGGCCGCACCTTTGCGGAGCATCTGGCCGAATAG	MSVAAKLHIGMSLAPTWLSGEAWRRADSDINGVFSSDYFVDLAQRAEAAHVDFVFRPDTLFLRTEGLETGGGFASMDPTMLLAAIARETSHVGLLSTVSTTFLPPYVVARQIQSLNWLSNGRAGWNIVTALEGHENFGLKEMPSPQERYERAAEFTQVVQQLWASFPNEALKLDRESGRFADSSLVWPVAHEGRHFSVKGPLNLPSHASRIPLVQAGASPEGRDFASSVADAVFASTPDMQAAIELRADLRRRAEGHGRNPDGVKLMPGLSLYLAETGREALELFAETHARANRARAFASIRDMTGLDLTDWPLTRIVTASDLPPPPETPRSRTHAGLLRRLIERETLSVAELLRRPEVMGSGHWQIIGTVEDALEAIREWAAAGAIDGFVAVPGGSVASMRLVLERLLPKLADAGLFRTAYSGRTFAEHLAE				NA	NA	NA	NA	NA
BMS010_07340	777			hypothetical protein	ATGGATGACGATTCGGACAATCTGCCGGAAAACGAGGGCGAAAAGCGCTCTGCCCTCATTCAATCGGTATCGATCGCGGCACGTTTCCTCAATCTTCTCGCCAGATCGGACAGGGCGCTGGCACTTGGCGAACTGGCCAAACGCGCCGGCACCGGCCGCTCCACCGCGCATCGCTACATGCAAAGCCTCGTGCGGGAGGGGCTGGTGATACAGGACCCTGCAAGCGGCAGTTACGATCTCGGACCCGCCGCGCTCGGAATAGGCATCAGCGCGCTCAGGCGAATCAATCCGGTCGAAACCGCCGGCCGCCAGATGAATGCGCTTGCCTCCGAGATCGGCGCCAGCTGCGGCGTGGCGATCTGGACCGAACGCGGCCCGACCGTGGTGCGGTGGGCGAGAAGCGCCAGCTTTTCCATCAGCACCGTCGCGCTCGGCGATGTTCTGCCGCTGGACAACAGCGCTTGCGGGCTAGTTTTTCAGGCCTACCTGCCACCGGACAGGATAGCCGCCGTGCGCAGGCTGCAACCGGCCGCCTTTCGCGGCTCCCGTCCCGATGCCGGCATTCTGGAAACCATCCGCGAAGCGGGTGGCGCGGAACTCAATGAACATCTGTTCTCCGCCCTGACCGGCAAGGCCGCGCCGGTTTTCGACGCCCAGGGCGAACTCTGTTGTGTCGTCACCACCGTATCCTTCGTGGCCACCGCCGAGACCGAACGGCATTTTTCCCGACTGATCGAAGCAGCTAGACAGGCGACGGCCGAATCCGGCGGAGCGTAA	MDDDSDNLPENEGEKRSALIQSVSIAARFLNLLARSDRALALGELAKRAGTGRSTAHRYMQSLVREGLVIQDPASGSYDLGPAALGIGISALRRINPVETAGRQMNALASEIGASCGVAIWTERGPTVVRWARSASFSISTVALGDVLPLDNSACGLVFQAYLPPDRIAAVRRLQPAAFRGSRPDAGILETIREAGGAELNEHLFSALTGKAAPVFDAQGELCCVVTTVSFVATAETERHFSRLIEAARQATAESGGA				NA	NA	NA	NA	NA
BMS010_07341	2097	fyuA_3	COG1629	Pesticin receptor	ATGGGGTTTAGCTCTAACGGTCGTTTGATGAGCGGGGTCAGCGCTCTGACGCTGGCGACATTGTTTGTGACGCCGGTTCTCGGTCAGGATCAGCAGGCAACGACGGCGGGCACCACCGTCCTGAAACCGATCGTCGTGACCGGTGAAAAAGTGGCGCGCGACATGAAGAACACGGCGTCGTCCGTTTCGGTCATATCCGGGGATAAAATCAAGAAGGAAAAGACCGGCGACCCGACCGTATCGGAAGCGATCAAGGATATTCCGAACGTCGTTTACACCGACAATGTCAGCGCCCCGATCATTCGCGGACAGGACACGCAGGGACCGAATACCGGCTCCATCGCCTTCTTCACCGGCACGGTGCCGCGCGCGACGATCAATGTCGACGGCCATTATCTCGGTTATAACGAGTTCATCTATGGCGCGAGCTCCATCTGGGATGTCGAAAGCATCGAGGTGTTCCGCGGCCCGCAGACCACCTCGCAGGGCGCCAACGCCATTGCCGGCGCGATCCTCGTCAACACCAAGGACCCGACCTTTACGCCGGAAGCCAGCTATCAGGCGGAAATAGGCAATTATCACCAGAAACGGGCTTCGTTCGCGCTTTCGGGGCCGCTGATCGAAGACGAGCTGGCGGCGCGCATGGCGATCGATTATTCCGGCCGTGACACCTTCATCGACTATATCAATCCGAGCTTTGCACGCAGCGGCACGGACCAGGACTTCAAGGAGTTCAACGGGCGCTTCAAGCTGTTGTGGGAACCCGCTGAAATTCCCGGCCTCTCGACCAAGCTGACCTATTCCTACAATAACTCCAACCGCCCGACATCGGAGGCGGCTTTCGGTCGTTACGAGGATCTCACGCACACGACCGCCACGAAACCGAGTTTCAAACAGCACACCAACACCGTCATTCTCGACATCAACTATGACTTCGAGAACGGTGTGAAAGTATTCAACCAGACGCAATTTTCCGCTGCCGATACCAAGCGAAGGGTGGGTATTCCCAATACGGGCGACGCCGACGTCGATCAGAAAAATACCTCCAACGAAACGCGCGTAACTTTCGGCGATCAGGAAGACACGCTGAGCGGCGTTGTCGGTCTTTATTATGCTCACACCCAGACTGACGAAAAACTCCTTCTCAACGGAACGTCTCTTTTCGACGATACCAAGGATAATTTCGGTCTCTTCAGCGAGCTGAGCTATCGCCTGACCGATCAGTGGACCCTGACCGGCGGTCTGCGGTATCAGCGGGACCAGATTCAGCGCGTGGGCTTCAGGGCGTTGGGCGCCGGAAGAAGTTCGGTGAACTACGACGAAACCTTCTCGGAAATTCTGCCGAAGGTCTCTCTTGCTTACGCCGTGACTGACGACTGGACGGTCGGCGGCATGATCAGCAGGGGTTACAATCCCGGCGGCGTGGCCTTCGATCTGACAACCAGCAAGTGGCGCAATTTCGACAAGGAAACGATCTGGAACTACGAGCTGTTCACGCGGGCGAACCTTCTGGACGATACGCTGACGGTCAACGGCAACCTGTTCTATATGGACATGCAGGATGCGCAGTTCAGCATTCCGGTTTTCGTAACACCGGGTGTGACCGAGACCTACACGATCAACGCCGAAAAAGCCCATGCCTATGGTCTGGAAATCGGGGCTGACTACCGGGTTCTCGACAATCTGACGCTGAAGGGCAGCGCCGGCGTACTGAAAACCGAAATCGACGAGATTTCCAGCAATGTCGCTTATGCCGGCAAGGAGTTTGCGAAGTCTCCGGGCTACATGTTCACGCTTGGCGCAAGCTGGGATGTGACCGACAAGTTCACCGTCTCGGGTCAGGTTCGCCGTCAGGATGGCTATTTCTCGGATACGGCCAACACCCCGGCCTATGCGATCAAGCCCTATACCATCGCGGATATACGCGCGAGCTACAAGTTCCAGGAGCAGCTTGAGCTCTATGCCTACGTCAAGAATGTCTTCGACGAGCGCGCGCCGACCTACAAGATGCTGACCCGCGGCATCGGGACGTCGGGCATCGAAGCGAGCATGACCGAACCGCGCATGTTTGGCGTCGGTATTCGCGGCACGTTCTGA	MGFSSNGRLMSGVSALTLATLFVTPVLGQDQQATTAGTTVLKPIVVTGEKVARDMKNTASSVSVISGDKIKKEKTGDPTVSEAIKDIPNVVYTDNVSAPIIRGQDTQGPNTGSIAFFTGTVPRATINVDGHYLGYNEFIYGASSIWDVESIEVFRGPQTTSQGANAIAGAILVNTKDPTFTPEASYQAEIGNYHQKRASFALSGPLIEDELAARMAIDYSGRDTFIDYINPSFARSGTDQDFKEFNGRFKLLWEPAEIPGLSTKLTYSYNNSNRPTSEAAFGRYEDLTHTTATKPSFKQHTNTVILDINYDFENGVKVFNQTQFSAADTKRRVGIPNTGDADVDQKNTSNETRVTFGDQEDTLSGVVGLYYAHTQTDEKLLLNGTSLFDDTKDNFGLFSELSYRLTDQWTLTGGLRYQRDQIQRVGFRALGAGRSSVNYDETFSEILPKVSLAYAVTDDWTVGGMISRGYNPGGVAFDLTTSKWRNFDKETIWNYELFTRANLLDDTLTVNGNLFYMDMQDAQFSIPVFVTPGVTETYTINAEKAHAYGLEIGADYRVLDNLTLKGSAGVLKTEIDEISSNVAYAGKEFAKSPGYMFTLGASWDVTDKFTVSGQVRRQDGYFSDTANTPAYAIKPYTIADIRASYKFQEQLELYAYVKNVFDERAPTYKMLTRGIGTSGIEASMTEPRMFGVGIRGTF	PGPT0003790_24310	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS010_07342	1188	mmgC_5	COG1960	Acyl-CoA dehydrogenase	GTGAGCGAACACGCAGCATTCAATTGGCAGGACCCTTTTCTGCTCGAAGACCAACTGACCGACGACGAGCGGATGATCCGCGACGCCGCCGCCGCCTTCGGCAAATCGGAACTCTTGCCGCGTGTCTCCGAGGCCTATCTTTCCGAAACCACCGAACCGGAACTGTTCCGCCTGATGGGCCGCACCGGCCTGCTCGGCGTCACCCTGCCGGAAGAATACGGCGCGGCCAATGCCAGCTATGTGGCTTACGGCCTCGTCGCCCGCGAGGTGGAGCGCATCGACAGCGGTTACCGCTCGATGATGAGCGTGCAGTCCTCGCTCGTCATCCATCCGATCTTCGCCTATGGCTCCGACGAGCAGAAGAAGAAATACCTGCCCGGCCTCGTCTCGGGTGAACTGATCGGCTGTTTCGGCCTGACCGAGCCGGATGCCGGCTCCGATCCCGGCGGCATGAAGACCCGCGCTGAAAAGATCGCCGGCGGCTATCGTCTGCGCGGTTCGAAAATGTGGATTTCCAATGCGCCAATCGCCGATGTCTTCGTCGTCTGGGCGAAATCGGAAGCGCATGACAACCAGATCCGCGGCTTCGTGCTGGAAAAGGGCATGAAGGGCCTCTCCGCTCCCAAAATCGGCGGCAAGCTGTCGCTGCGCGCCTCCATCACCGGCGAGATCGTTCTGGACGGTGTGGAAGTGGGCGAAGACGCGCTGCTGCCCAATGTTTCCGGCCTGAAAGGCCCGTTCGGCTGCCTTAACCGCGCCCGTTATGGCATTTCCTGGGGTGTCATGGGGGCTGCGGAAGATTGCTGGTTCCGCGCCCGGCAATATGGTCTCGACCGCAAGCAGTTCGGCAAGCCGCTCGCCGGCATGCAGCTTTACCAGAAGAAGCTCGCCGACATGCAGACCGAAATCGCGCTCGGACTTCAGGCATCGCTCCGCGTCGGCCAACTGATGGACGAGCACAAGATGGCGCCGGAAATGATCTCCATCATCAAGCGCAACAATTGCGGCAAGGCGCTGGATATCGCCCGCCAGGCCCGCGATATGCATGGTGGCAACGGCATCCAGATCGAATATCACGTCATGCGCCACGCCCAGAACCTTGAGACGGTCAACACCTATGAGGGCACGCACGACGTCCACGCGCTGATCCTCGGCCGGGCGCAGACGGGAATTCAGGCGTTTTTCTGA	MSEHAAFNWQDPFLLEDQLTDDERMIRDAAAAFGKSELLPRVSEAYLSETTEPELFRLMGRTGLLGVTLPEEYGAANASYVAYGLVAREVERIDSGYRSMMSVQSSLVIHPIFAYGSDEQKKKYLPGLVSGELIGCFGLTEPDAGSDPGGMKTRAEKIAGGYRLRGSKMWISNAPIADVFVVWAKSEAHDNQIRGFVLEKGMKGLSAPKIGGKLSLRASITGEIVLDGVEVGEDALLPNVSGLKGPFGCLNRARYGISWGVMGAAEDCWFRARQYGLDRKQFGKPLAGMQLYQKKLADMQTEIALGLQASLRVGQLMDEHKMAPEMISIIKRNNCGKALDIARQARDMHGGNGIQIEYHVMRHAQNLETVNTYEGTHDVHALILGRAQTGIQAFF	PGPT0021815_1647	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021815-GCDH|gcdH-K00252	NA	NA
BMS010_07343	921	gcvA_11		Glycine cleavage system transcriptional activator	ATGACATCTCTCAGCCGCAAACTCCTGCCCTCCACCAGTGCGCTCGCCGCCTTCGATTCCGTGGCCCGGCTCGGCAGCTTTTCCGCCGCCGCCGATGAGCTTGCCCTGACGCAGGGGGCGATCAGCCGGCAGGTTATGTCACTGGAAGAACAGCTTGGCGTGCGCCTGTTCGAACGCGGCGCACGCGGCGTGGCGCTGACGGCGGAAGGCCGTGCCTATGCAAAATCCATCGCCTCCGCCCTTGGCGAGATACGCTCCGCCTCACTGCAGATCATGACCAAAACGCATGGCAATACCTTGAACCTTGCCATGTTGCCCACCTTCGGCACCCGCTGGCTTCTGCCGCGTATCCCGGATTTCGTGGCGAACCACCCCGAAATCACCATCAATTTCGCCACCCGCATCGGCCAATTCGACTTTGAGCGTGAGCAGCTGGATATGGCGATCCATATCGGCCAGGCCGATTGGCCGGGGGCGGAGAGCACCTTTCTCATGCATGAAATGGTCGCGCCGGTGTGCAGCCCGCAATTCCTCAGCGCCCACCCGGTGGAAAGGGGCGAGGATATCGCCGCCCTGCCGTTGCTGCACATGGCCTCGCGGCCCGGAGCATGGGGCCACTGGTTCGAAAGCCTGGGACTGTCGCTCGCCTTGCCGCAGGGCATGCGCTTCGAGCAGTTCTCCAGCGTGGCGCAGGCCTGCATCGCCGGGCTCGGCGTGGCGCTGATGCCGCTGTTTCTGATCGATAACGAGCTGAAATCCAAGCAGCTGGTCAAAGCCTTCGATCATCAGGCGAGAAGCCCCAGTTCCTATTATGCGGTGGCGCCGCTTTCGCGTGCCAATCACGTGCCGGTCGTGCTGTTTCGCGATTGGCTGGTGCGCCAGGTTGAGGCTTATCGCGCCGCCAGCACTCAGGCCCTGTAA	MTSLSRKLLPSTSALAAFDSVARLGSFSAAADELALTQGAISRQVMSLEEQLGVRLFERGARGVALTAEGRAYAKSIASALGEIRSASLQIMTKTHGNTLNLAMLPTFGTRWLLPRIPDFVANHPEITINFATRIGQFDFEREQLDMAIHIGQADWPGAESTFLMHEMVAPVCSPQFLSAHPVERGEDIAALPLLHMASRPGAWGHWFESLGLSLALPQGMRFEQFSSVAQACIAGLGVALMPLFLIDNELKSKQLVKAFDHQARSPSSYYAVAPLSRANHVPVVLFRDWLVRQVEAYRAASTQAL	PGPT0026360_3003	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
BMS010_07344	1062	purR_1		HTH-type transcriptional repressor PurR	ATGGCGTCGTCACGGCCTGCCACCAATCTGAGCGCGATAGCAGCGGCACTCGGCGTGTCGGTTGCAACCGTGTCCAATGCGCTGTCGGGTAAAGGCCGTGTTTCACCTGATCTGGTAGAGCGTATCCGCAAGACGGCAAGTGAACTGGGTTATGTGCCGAGTTCGGCGGGCAGGGCGTTGCGCACCGGCAGAAGCGGTGTTCTGGGGCTGGTTCTGCCTGACATTGGTAACCCGCTCTTCCCGCAGATCGCGCAGGCCATTGAAAAGGCTGCCGTTACTGCCGGTTACGGCGTGCTGATCGCCGACTCCCGTGGCGATATCGCCATGCAGACGGATGCGATCAACCGGCTGATTGAGCGCGGGGTCGATGGTATGGTGGTCGTTCCCCGCCGTGGCACGCGCATTTCCGATGTCGATTGCCCGGTCGCCGTCATCGACAGCCCGTCAACACCGGGCAATACTGTCGCCGCCGACCATTGGGATGGCGGCCGGCAGGTGGGTGACTATCTGGCAAGCCTTGGCCACCGCAAGGTGGTGCTGGTGGGCAAGAACCGCGATTCCAATGTGCAGAACGACCGTCTCGGCGGCATTCGTGATGGTCTTGGCAAGGCCTGTGTGACCCGGACGCTCTGGATCGACAGCATCGAAGAGGCTGACGGTGCGGGTTGCCGGCTGGGGCTTGCCGATCTGGTGGCCGATGGTTTTACCGGCTTTGCCGCCATTTCCGACCTGCATGCGCTGCGGGCGCTGACCGAGTTGCAGCGCGAGGGCATCGAGGTGCCGGAAGAAGCAAGCGTCACCGGTTTCGACGATCTCATCTTTTCCGCCGTGGTCACCCCGCCGCTCACGACCATGCGCATGGATATGGGCCGTATCGCCGATCTCGCCGTTGGGGCGCTGCTGCGCGCGATAGAGGGCGCCACTGAAAATGGCATCGCGGGCGAAGTGACCGCGGATATTTCGAAAGTACCGATGGCGCTGATCATGCGCGGTTCCACCGGCAAGGCAAAGCATGATGCGATTGAAGCCAAAAAAACGACAGCAGGAGAACTCACACCATGA	MASSRPATNLSAIAAALGVSVATVSNALSGKGRVSPDLVERIRKTASELGYVPSSAGRALRTGRSGVLGLVLPDIGNPLFPQIAQAIEKAAVTAGYGVLIADSRGDIAMQTDAINRLIERGVDGMVVVPRRGTRISDVDCPVAVIDSPSTPGNTVAADHWDGGRQVGDYLASLGHRKVVLVGKNRDSNVQNDRLGGIRDGLGKACVTRTLWIDSIEEADGAGCRLGLADLVADGFTGFAAISDLHALRALTELQREGIEVPEEASVTGFDDLIFSAVVTPPLTTMRMDMGRIADLAVGALLRAIEGATENGIAGEVTADISKVPMALIMRGSTGKAKHDAIEAKKTTAGELTP	PGPT0017992_2749	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017992-lacI|galR-K02529	NA	NA
BMS010_07345	1023	potF	COG0687	Putrescine-binding periplasmic protein	ATGAAAAAGATCATTCTCGCATCGGGCAGCGCCCTGATGCTGACGATGGGGGCCGCTGAGGCGCAGGACAAGACGCTGACGATTTCCGTCTACGCCTTCGCGCAGGACGAATTCAAGGAACTGGTCTATACGCCGTTCGAAAAGCAATGCGGCTGCAAGCTGGTTGTCGAGACCGGCAACAGCGTCGAGCGTCTGGCCAAGATGGAGGCCAACAAGGCCAATCCGGTGGTCGATCTCGCCATCGTCTCCATGGCGGATGCGCTTTCGGCCACCCGCAAGGATCTGATCCAGAAGATCGATGCTTCCAAGGTTCCGAATATCGAAAAGCTCTATGACATCGCCAAGGATCCGAATGGCGACGGCATGAGCGTCGGCGTCAATTTCTACGCCACCTCAATCGTTTACCGCACCGACAAGATGAAGATCGATAGCTGGGCCGATCTTTTGAAGGACGGTATCGTCGACCACGTCGCCTTCCCGAATGTTACCACCAATCAGGGCCCGCCGGCGCTTTATATGCTCGGCAAAGCTATCGGCAAGGACACGCCCGATCTTGCCGGTGCCATCGAGGCCGTGGGCGAAAAGAAGGACGACATCGTCACTTTCTACGTCAAATCCTCGCAGTTGGTGCAGTTGATGCAGCAGGAAGAAATCTGGGCAGCCCCGATCGGCCGCTTCTCCTGGGCGCCTTTCACCAAGCTCGACCTGCCGCTTGCCTGGGCGACGCCCAAGGAAGGCCAGACCGGCGGCATGAACGTGCTCGTGGTGCCGAAGGGCACGAAAAACGAAGATCTGGCGTTGCAGTTCATGGATTTCTGGCTATCGACCGACGTTCAGAAGGCGCTGGCCGAAAAGCTGGTGGACAGCCCGACCAACAGGGAAGTCAAGGTTTCCGACGAGGTGGCGAATAACATCACCTATGGCGACGAAACCGCAAAAAGCCTGCAGCTCATTCCGTCCGACGTGACGCTCGATAACCGCGACAAGTGGCTGTCGGAGTGGAACGCGAAGGTGGGCCAGTAA	MKKIILASGSALMLTMGAAEAQDKTLTISVYAFAQDEFKELVYTPFEKQCGCKLVVETGNSVERLAKMEANKANPVVDLAIVSMADALSATRKDLIQKIDASKVPNIEKLYDIAKDPNGDGMSVGVNFYATSIVYRTDKMKIDSWADLLKDGIVDHVAFPNVTTNQGPPALYMLGKAIGKDTPDLAGAIEAVGEKKDDIVTFYVKSSQLVQLMQQEEIWAAPIGRFSWAPFTKLDLPLAWATPKEGQTGGMNVLVVPKGTKNEDLALQFMDFWLSTDVQKALAEKLVDSPTNREVKVSDEVANNITYGDETAKSLQLIPSDVTLDNRDKWLSEWNAKVGQ	PGPT0007855_4629	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007855-ABC_SP_S|ydcS-K02055	NA	NA
BMS010_07346	828	potH_4	COG1176	Putrescine transport system permease protein PotH	ATGTTTCAGAACCGGGCCGAAGCGCTGGCGCTTGCCTTGCCTGCCGCAATTTTCGCGGCGGCGGTCTTTCTTGTGCCGGTCTTCATCCTGCTGTCGGAGGGTTTTCGCACCGCCGATGGCTGGACGTTGTCGGCTTATGCCGATTTCTTCACCGATCCGCTGAACCAGACGGTTTTCCTGCGCACCCTGAAGCTCGGCGCGCTTGTCACAATCGTCTCGGCGGTGGTGGGTTATGCAGCGGCCTTCGCCATCGTCAACCTGTCGCAGGGCGCGAAGGGGCACGTCGTCAATCTGGTCGTGCTGCCGCTGATGATCTCGCCGGTTGCCCGCACCTATGCCTGGATCGTCATTCTCGGCAGAACCGGCATCGTTAATCAGGCGCTGCAGGCGGTGGGCTTAAGCGATGCCCCAATCCGCATCCTGTTTTCCGAAACGGCCGTCTTCATCGGCCTTCTGCAACTCTTCCTGCCATTGATGATCATCTCGCTCATCAGTGCGCTTGAGAACATGCCGAAGGATACGATTGCGGCTGCCCGCGTTCTCGGCGCAAGCTGGCTGCAGGTGTTCTGGAAGGTCATCCTGCCGCTCACCAAGGAAGGGCTGGTCGTCGGCGGCACGCTGGTCTTCACCGGTTCGCTCACGGCCTATATCACGCCCGCCATTCTCGGCGGCTCCAAGGTGCTGATGCTGGAAACCCTGCTTTACCAGCAGGTAACGGTTTCCAACAATTTCGTCTCCGCCAGCGTCATCGCCTTCATCCTGATCGTAATGAGCTTTGCCGCCAATATCCTGCTGAAGCGCATCGCCACCGCAAGGAACAAGAAATGA	MFQNRAEALALALPAAIFAAAVFLVPVFILLSEGFRTADGWTLSAYADFFTDPLNQTVFLRTLKLGALVTIVSAVVGYAAAFAIVNLSQGAKGHVVNLVVLPLMISPVARTYAWIVILGRTGIVNQALQAVGLSDAPIRILFSETAVFIGLLQLFLPLMIISLISALENMPKDTIAAARVLGASWLQVFWKVILPLTKEGLVVGGTLVFTGSLTAYITPAILGGSKVLMLETLLYQQVTVSNNFVSASVIAFILIVMSFAANILLKRIATARNKK	PGPT0007850_3704	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007850-ABC_SP_P1|ydcU-K02054	NA	NA
BMS010_07347	780	ydcV_9		Inner membrane ABC transporter permease protein YdcV	ATGACCCGGCAGCTCTTCATTCCGCTCACGCTTCTGCTTGTCGTCGGTTTCCTGATCGGGCCGTTCCTCATCATCGTCGCGGCCTCGTTTTCGGCCGGCGATACGCTCGCCTTTCCGCCGCAGGGCTTTTCGCTGAAGTGGATCGCCAAGGTCTTTACCGTTGAGAGCTTCCGGGAAAGCTTTGCCATGTCGATGTTCCTCGCCATCGGCGGCACGTTTGCGGCGCTCATCCTCGGCATCCCCGCTTCTTACGCCATGTCGCGCTACAAGCTGCCTTTTGCCGAGACGGTGCGCACTATCGTTTCCGCGCCGATCATCGTGCCCGGCATCATCGTCGGCTTGGCGCTGCTGCGTTATTTCGTCGTGCCTTTCGGCATCGGCATCACGCTTGCTTTGTTCCTCGCCCACACCGCGCTCATACTGCCCTATGCGGTGCGGGTGGTGTCGGCCAGCCTCAACAATCTGCGCTCGGATATCGAGGAGGCGGCGGTGCTGCTCGGCTCGTCGCGGGTGGGTGCGTTTTTCCGGGTGGTGCTGCCGAATATTCGCGGCGGCATTCTCTCAGCCTTCATTCTCGGTTTCGTAACGAGCTTCAATCAGGTGCCGGTGTCGCTGTTCCTGTCAGGCCCCGGCGTTCGCACGCTGCCCATCGACATGCTGGGCTACATGGAAATCGTCTTCGATCCTTCCGTGGCCGCACTCTCCTCGCTGCTCGCCTTCCTTTCCATCGGCATCGTCTTCCTGGCCGAACGTTTCCTGGGGTTCTCCCGTTATGTCTGA	MTRQLFIPLTLLLVVGFLIGPFLIIVAASFSAGDTLAFPPQGFSLKWIAKVFTVESFRESFAMSMFLAIGGTFAALILGIPASYAMSRYKLPFAETVRTIVSAPIIVPGIIVGLALLRYFVVPFGIGITLALFLAHTALILPYAVRVVSASLNNLRSDIEEAAVLLGSSRVGAFFRVVLPNIRGGILSAFILGFVTSFNQVPVSLFLSGPGVRTLPIDMLGYMEIVFDPSVAALSSLLAFLSIGIVFLAERFLGFSRYV	PGPT0007845_4432	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007845-ABC_SP_P|ydcV-K02053	NA	NA
BMS010_07348	1026	btuD_16		Vitamin B12 import ATP-binding protein BtuD	ATGTCTGACGCAAATTACCTTTCGCTCAAAAAAGTCTCGCTCGCCTATGGCGGCAATGTCGCCGTCAAGGACCTCGATCTCGATATCCGCAAGGGCGAGCTGCTCGCGCTTCTGGGGCCTTCCGGCTGCGGCAAGACCACGACGATGCGCGCCATTGCCGGGCTGATGCCGGTGGCGGGCGGGCGCATCGATCTCGATGGGGCAGACATTACCCGGGTGGCCGCGAACAAGCGTGCCGTGGGTCTGGTGTTCCAGTCCTATGCGCTCTTCCCGCATCTGACGGTCTATGAAAACGTCGCCTTCGGCCTGAAGCTCAAGGGCATGAACGGCAAGGCGCTGGAAGACAAGGTCGCCTCCGGCCTGAAATCGGTGGGCTTGTCCAGCTTCGCCTCGCGAAAGCCGGCGGAGCTTTCCGGCGGCCAGCAGCAGCGCGTGGCGCTGGCGCGCTCCATGGTCATGGAGCCGAAGGTGCTCCTGCTCGATGAGCCGCTCTCCAACCTCGATGCGCGTCTCAGGCTCGAAATGCGCACCGAATTGCAGCGCGTGCAGAAGGAAACCGGCGTGACGATGATCTTCGTCACCCATGACCAGATCGAGGCTTTGGCGCTCGCCGACCGCATTGTCGTTATGAAGGGCGGCAAGATTGAGCAGATCGGTACGCCGGAAGAGATCTACAACGCGCCGGTTTCATCCTTTGTGGCGGATTTCGTCGGCTTCGAAAACATCTTCGCGCTGGAAGACGGCGCGCTCAAAACCGCAAACGGCACAACACCGCTTCCCGGACCAGTCCTTTCAGCATCCGGACTGGCCTGGCGGCCGCGCATGGTCACCCTCGGTTCAGGTCCTTTCCAGGGAACCGTGCGCGGCACCTCCTTTGCCGGCAACAGCCGCGAATATCTGCTCGATACGCCGCTCGGCCCCATCAAGGCGGAAACGGACGCCGCCCTGACCTCCCACGCAATCGGCGATACGCTCGCCTTCGACCTGCCGGTCGAAAAGGCGGCAAGCCTCAAGGTGTTCAACTGA	MSDANYLSLKKVSLAYGGNVAVKDLDLDIRKGELLALLGPSGCGKTTTMRAIAGLMPVAGGRIDLDGADITRVAANKRAVGLVFQSYALFPHLTVYENVAFGLKLKGMNGKALEDKVASGLKSVGLSSFASRKPAELSGGQQQRVALARSMVMEPKVLLLDEPLSNLDARLRLEMRTELQRVQKETGVTMIFVTHDQIEALALADRIVVMKGGKIEQIGTPEEIYNAPVSSFVADFVGFENIFALEDGALKTANGTTPLPGPVLSASGLAWRPRMVTLGSGPFQGTVRGTSFAGNSREYLLDTPLGPIKAETDAALTSHAIGDTLAFDLPVEKAASLKVFN	PGPT0007860_3489	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007860-ABC_SP_A|ydcT-K02052	NA	NA
BMS010_07349	921	rihA_2	COG1957	Pyrimidine-specific ribonucleoside hydrolase RihA	ATGGGTGTATGGATCGATACCGATATGGGCTTCGACGATATCGCCGCCATAATGGTGGTGCAATCGTCTGGCCTTGCCATCGACGGCATTTCATTGGTCTTCGGCAATGCGACACTTCAGGCCGTCTGCCGCAATGCCGCAGGCGCCGTCTCAGCCTTCGGCTGGTCGATGCCGATCCATCAGGGCCGCGCCATGCCGGTGCTGGGCGCACTCGAAACCGCACAATGCATTCTGGGCGATAACGGCATTCCGACCGTCGGCCAAAGCCTGCCGGATGCGACGGCATTGCCGAAAAGCGATGCCTTTGCCGCCCTTTGCAACTGGTTTGAGTGTGATGGTGAGAAGCGCATTCTGGCACTCGGCCCCCTCACCAATATCGCCGCACTTTGCCTCGCCCGCCCCGATCTTGCCGCCAGAATTTCCGATCTCACCTGGATGGGTGGCGGCGTGACCAGCGGCAACCACACGGCGTCGGCCGAATTCAACGCCTTTGCCGATCCGGAAGCGCTGGCCATCGTGCTCTCCCACGGCCTGCCGTTGCGCATGGTCGATCTGGACGCCTGCCGCAAAGTTACCGCCTCGCCGGCCGATGTGCTGCCGATCCGCAATGCCGGCGGCAAGAATGCCGGGCTGATCGCCGATCTGCTGGAAGGTTTCATCGGCATCGCCACCAGCCGTGGCAGAGCTGCCATGGCGCTTTACGATCCCGTTGCCGCCGTCGCATTCGTCTCCGGTCACATCGGTTGGCGTCATGCGCGGATCGATGTCGAGCTTCAGGCGACGCTGACGCGCGGGCGAACCGTGGTCGAGACCCGCGCTGAGAAAGCTCACGCCTTCAACGCGCATTTCGCCGAAACGGTGGATGCCGAGGGTGCAAAGACGGCGATTCTCGAGGCGTTGCGCCGGGAGGCCGCCCGATGA	MGVWIDTDMGFDDIAAIMVVQSSGLAIDGISLVFGNATLQAVCRNAAGAVSAFGWSMPIHQGRAMPVLGALETAQCILGDNGIPTVGQSLPDATALPKSDAFAALCNWFECDGEKRILALGPLTNIAALCLARPDLAARISDLTWMGGGVTSGNHTASAEFNAFADPEALAIVLSHGLPLRMVDLDACRKVTASPADVLPIRNAGGKNAGLIADLLEGFIGIATSRGRAAMALYDPVAAVAFVSGHIGWRHARIDVELQATLTRGRTVVETRAEKAHAFNAHFAETVDAEGAKTAILEALRREAAR	PGPT0013465_2393	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013465-iunH-K01239	NA	NA
BMS010_07350	1794	ade2	COG1001	Adenine deaminase 2	ATGAGCGCGAACTTTCCGACACGCGAGCCTGCCGATCTCACCGATGATGCGCTGCGCAGCCGCGCGGTCGCCGCCGCACGCGGCGATGCACCTTTCGATGTTCTCGTCAGCGGCGGAACATTGGTGGATGTGGTGACGGGAGAGCTTCGCGCCGCCGATATCGGCATTGTCGGCGCTTTGATCGCCAGCGTGCACGAGCGGGCAAGCCGCAGCGACGCTGCACGGATCATCGATGCGGCAGGCGCCTATGTCTCGCCCGGCCTCATCGACACACATATGCATATCGAAAGCTCGATGGTCACGCCAGCCGCCTATGCGGCGGCCGTGGTTGCCCGCGGGGTCACCACCATCATCTGGGACCCGCATGAATTCGGCAATGTGCATGGGGTGGAAGGGGTGCGCTGGGCGGCGAAATCCATCCAGAACCTGCCCCTGCGCGCCATTCTGCTCGCGCCCTCCTGCGTGCCTTCCGCACCGGGGCTGGAGCGCGGCGGGGCGGACTTCGACGCTGCCATTCTCGCCGATATCCTGTCGTGGCCGCAGGTCGGCGGTGTCGCGGAAATCATGAATATGCGCGGCGTCATCGAGCGCGATCCGCGCATGAGCGGCATCGTGCAGGCCGGGCTTGCCTCGGAAAAGCTGGTCTGCGGCCATGCACGCGGCCTGAAGGGCGCCGATCTCAACGCCTTCATGGCGGCGGGCGTTTCTTCCGATCACGAGCTGGTCTCGAGCGAAGACCTGATGGCGAAACTGCGGGCAGGACTGACCATTGAGCTGCGCGGCTCGCACGATCACCTGCTGCCGGAATTCGTGGAAGCGCTGAACGCGCTCGGCCACCTGCCGCAGACGGTGACACTCTGTACGGACGACGTCTTCCCGGATGACCTGCTGCGGGGCGGTGGGCTTGACGATGTGGTGCGCCGACTTGTCCGTTATGGCCTGAAGCCCGAATGGGCGCTGCGCGCCGCAACGCTCAACGCCGCGCAAAGGCTCGGCCGTGCCGATCTCGGCCTCATCGCCGCCGGCCGCCGCGCCGATATCGTCGTTTTTGAGGATTTGAGCGGTTTTGCCGCCCGCCACGTTCTGGCCGGGGGCAGGGCGGTTGCGGAAGGCGGGCATATGCTCGTCGACGTTCCGGCCTGCGATGCGACAGCGCTCGAAGGCTCGATGAAGCTGCCGCTGCGCGCAGCCGATGATTTCCGGGTTGCCTGCGAAGGCGCGAAGGTGCGCCTCGCCACCATCGACCGCCCGCGCTTCACGCAATGGGGCGAGGCGGAAGCCGAGGTGAAGGACGGTTTCGTCGTTCCGCCCGAAGGCGCGACGATGATTTCCGTCACCCATCGCCACGGCATGGCCGAGCCGATCACCAGAACCGGCTTTCTCACCGGCTGGGGCAACTGGAACGGCGCCTTCGCCACCACCGTCTCGCATGACAGCCACAACCTCACCGTTTTCGGCGGCAATGCCGAGGAGATGGCGCTCGCCGCCAATGCGGTGATAAAGGCAGGCGGCGGCATGGCTGTCGCTTCCGAAGGCAAGGTGACCGCACTTCTCCCGTTGCGGCTCTCCGGCCTCGTTTCCGATGCCCCGCTTGAAGACGTGGCAAAGGCTTTCGAAGAATTGCGCGAAGCCGTCGGCCGGGTGGTGGAATGGCAGCCGCCCTATCTCGTCTTCAAGGCCTGCTTCGGCGCCACACTCGCCTGCAATATCGGCCCGCACCAGACAGATATGGGCATTGCCGATGTGTTGACGGGCAGGGTGATGGAAAGCCCGGTGATAGCGGTCATGAGCTAG	MSANFPTREPADLTDDALRSRAVAAARGDAPFDVLVSGGTLVDVVTGELRAADIGIVGALIASVHERASRSDAARIIDAAGAYVSPGLIDTHMHIESSMVTPAAYAAAVVARGVTTIIWDPHEFGNVHGVEGVRWAAKSIQNLPLRAILLAPSCVPSAPGLERGGADFDAAILADILSWPQVGGVAEIMNMRGVIERDPRMSGIVQAGLASEKLVCGHARGLKGADLNAFMAAGVSSDHELVSSEDLMAKLRAGLTIELRGSHDHLLPEFVEALNALGHLPQTVTLCTDDVFPDDLLRGGGLDDVVRRLVRYGLKPEWALRAATLNAAQRLGRADLGLIAAGRRADIVVFEDLSGFAARHVLAGGRAVAEGGHMLVDVPACDATALEGSMKLPLRAADDFRVACEGAKVRLATIDRPRFTQWGEAEAEVKDGFVVPPEGATMISVTHRHGMAEPITRTGFLTGWGNWNGAFATTVSHDSHNLTVFGGNAEEMALAANAVIKAGGGMAVASEGKVTALLPLRLSGLVSDAPLEDVAKAFEELREAVGRVVEWQPPYLVFKACFGATLACNIGPHQTDMGIADVLTGRVMESPVIAVMS	PGPT0021510_386	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021510-ade-K01486	NA	NA
BMS010_07351	1176	hipO_4	COG1473	Hippurate hydrolase	ATGAGACTGCTGGACCGCATCGGCGAGGACCTGCCATTCCTGACGGAGCTTCGCCACGACCTGCACGCGCATCCCGAACTGGGCTTCGAAGAGGAAAGAACCAGCGCCATCGTCGCCGATCTTCTCGAGCGTGCCGGGCTGAAGGTGCATCGCGGTCTCGGCGGCACCGGCGTGGTCGCCACGCTGCAGGTGGGCAACGGCACCCGAAGCATCGGCCTGCGCGCCGACATGGATGCGCTTGCCATGCCGGAAGTTCCCGACCGGCCCTATAAATCGAAATTTCCCGGCAAGATGCATGCCTGCGGCCATGACGGCCACACCGCCATGCTGCTGGGTGCGGCGCGTTACCTCGCAAAGACCCGCGATTTTTCCGGCACCGTGCATTTCATTTTCCAGCCGGCCGAAGAAGGCCGCGGCGGCGCGAAAAAAATGGTGGAGGACGGGCTTTTCACCCTGTTTCCCTGCGATGCGGTCTATGGCCTGCACAATATGCCGGGGCTCGGCATCGACGAAATGGCGGTGGTGGAAGGCCCGCAGCTCGCCTCTTCCGACAGCTGGCGCGTCACGTTCAAAGGCATCGGCACCCACGGCGCCAAGCCGCATCTCGGCCGCGACCCGGTGACGGCGGCGGGCACCTTCCTCGCCTCGCTGCAAACCATCGTCGGCCGCGTCGTCGATCCGCTGCAACCCGCCGTAGTCAGCGCCTGTTCGGTGCAGGCGGGCGACCCGAAGGCGCTCAACGTCATTCCCGACCTCGTCGAAATCGGCGGCACGGCGCGTGCTTATGCGGCTGACGTGCGCGACCAGCTGGAAGCGGAAATCGGCAGGCTGGCAAAGGGCACGGCGGCGATGTTCGGCATCGAAGCAAGTTATGAGTTCATCCGCCGGATTCCACCCGTCATCAACGAGGCGGATGCGACGAAACGGGCGCTGCGCGCCGCAAGAACCGTCTTCGGCAACAGGACCCGCAACGCCTTCCCGCCCTCGACCGCCGGCGACGATTTCGCCTTCTTCGCGGGCGAAGCGCCCGGCTGCTATGTCTGGCTCGGCAACGGTCCGGCGGTGGATGGCGCGCTGCACCACAACACCTCCTACGACTTCAACGATGCAGCCATCGTGCCGGGCGTGGCGTTCTGGGCGACGCTGGTGGAGCAGGAACTGGCGGCGGATCAATGA	MRLLDRIGEDLPFLTELRHDLHAHPELGFEEERTSAIVADLLERAGLKVHRGLGGTGVVATLQVGNGTRSIGLRADMDALAMPEVPDRPYKSKFPGKMHACGHDGHTAMLLGAARYLAKTRDFSGTVHFIFQPAEEGRGGAKKMVEDGLFTLFPCDAVYGLHNMPGLGIDEMAVVEGPQLASSDSWRVTFKGIGTHGAKPHLGRDPVTAAGTFLASLQTIVGRVVDPLQPAVVSACSVQAGDPKALNVIPDLVEIGGTARAYAADVRDQLEAEIGRLAKGTAAMFGIEASYEFIRRIPPVINEADATKRALRAARTVFGNRTRNAFPPSTAGDDFAFFAGEAPGCYVWLGNGPAVDGALHHNTSYDFNDAAIVPGVAFWATLVEQELAADQ				NA	NA	NA	NA	NA
BMS010_07352	708	pyrE_3		Orotate phosphoribosyltransferase	ATGCCGTCATCCGCATCGCCTGCCGCCCATTCTCCCGTCGCGCCGCATGAGTTCTGGCAGGAGATCCATCCGCGCCGCAGCTTCGAAACGGCAGGCCCGCATTCCACCTTTTTTCCGGCGGCGCTGGATGACGGAAGGCAGATATGCCTGCCGATAAGGCCGCTGGCGGATGGCGAACATGCGCTCGCCTCGCTTATCGTCAATCAGGCCTCTTTCGAGGTGCTCGAGGCGCTGGCGGCCGACCTTGCCGCACAGCTTCTTCCCTTCGAGCCCGATGTCGTCATCGGCCTGCCGACGCTCGGCCTGACGCTTGCGGCCGCCGTTGCCCGCCATCTTGGCCATTCCCGTTACGTGCCGCTCGGCACTTCACGCAAATTCTGGTATCTGGAGGAACTGTCGGTGCCGATGTCCTCCATCACCACAAGGCAGGAAAAACGGCTTTATATCGATCCGCGCATGCTGCCGCTCATCGAGAACCGGCGGGTGGCGCTGGTGGATGATGTGATCTCCAGCGGCAGCTCCATCATAGCGGGTCTTTCCCTTCTCGCCGCCTCCGGCATTCGGCCCGCCGTCATCGGCGCGGCCATGCTGCAATCAGATCGCTGGCGGGAAAAAATCGCCGCTTTCGGGCCGGAATGGCCGGAGCGGGTGAGGGGTGTTTTTTCAACGCCGCTGCTCACCAAAGCGGAAGGCGGCTGGCGCGCCTGA	MPSSASPAAHSPVAPHEFWQEIHPRRSFETAGPHSTFFPAALDDGRQICLPIRPLADGEHALASLIVNQASFEVLEALAADLAAQLLPFEPDVVIGLPTLGLTLAAAVARHLGHSRYVPLGTSRKFWYLEELSVPMSSITTRQEKRLYIDPRMLPLIENRRVALVDDVISSGSSIIAGLSLLAASGIRPAVIGAAMLQSDRWREKIAAFGPEWPERVRGVFSTPLLTKAEGGWRA				NA	NA	NA	NA	NA
BMS010_07353	1056			hypothetical protein	ATGCATGCAGTATTCGACGGTCATAATGATGTGCTGCTTCGGTTGTGGCGCAACAGCAAGGCCGGTGCCGATCCGGTGGCCGAATTCAGGAATGGCACGCGCGAAGGCCATATAGACGGCCCGCGTGCGAGGGCAGGCGGTCTCGGCGGCGGCATATGCGCGATCTATATTCCCTCCGGCGATCTCATCCTGCAGGAACCGGATGAAAGCGGCCACTACAACACGCCGCTCGCTTCCCCACTGGAGCGCCAGCCTTCGCTCGATATCGCCATGGAAAAGGCGGCGATTGCGCTGAGGCTCGACCGCGCCGGCGCGTGGCGGCTTTGCCGCTCCACGGCCGATATCCGCAAGGCCTTTGCCGAGGATATCTTCGCCGCCGTGCTGCACATGGAAGGCTGCGAGGCGATCGACGCCGATCTCGATGCGCTTGAGGTGTTTTACGCCGCCGGCCTGCGCTCGCTCGGCCCGGTCTGGAGCCGGCACAATATCTTCGGCCATGGCGTTCCTTTCTCTTATCCCATGTCTCCCGATACGGCGCCCGGCCTCACCGATGCCGGTTTTGCGCTGGTGAAGGAATGCAACAGGCTCGGCATTCTCATCGATCTCGCGCATATCACCGAAAAAGGCTTCTGGGATGTGGCGAAGACCACCAACCAGCCGCTGATCGCCAGCCATTCCAATGCGCATGCGCTTACCCCCGTGGCCCGCAATCTCACCGACAGGCAGATGGATGCCATCAAGGAAAGCGGCGGGCTGGTGGGTCTCAACTACGCTGTGACCATGCTGCGGGCGGATGCTCGCGACATTGCCGATACGCCGCTTTCCGACATGGTGCGCCATATCGATTACATGGTGGAGCGCATGGGCATCGATTGCGTGGCGCTGGGATCGGACTTCGACGGCGCGACGATACCCGTCGGCGTTGCCGATGCGAGCGGCAATCACAATCTGGTTGCGGCGCTGAAATCGGCGGGCTACGGTGATGGAGAACTTGCTAAAATATGCCGGGAAAACTGGCTGCGTGTTTTGTCTCAGGCCTGGCACGAGGCGGCCTGA	MHAVFDGHNDVLLRLWRNSKAGADPVAEFRNGTREGHIDGPRARAGGLGGGICAIYIPSGDLILQEPDESGHYNTPLASPLERQPSLDIAMEKAAIALRLDRAGAWRLCRSTADIRKAFAEDIFAAVLHMEGCEAIDADLDALEVFYAAGLRSLGPVWSRHNIFGHGVPFSYPMSPDTAPGLTDAGFALVKECNRLGILIDLAHITEKGFWDVAKTTNQPLIASHSNAHALTPVARNLTDRQMDAIKESGGLVGLNYAVTMLRADARDIADTPLSDMVRHIDYMVERMGIDCVALGSDFDGATIPVGVADASGNHNLVAALKSAGYGDGELAKICRENWLRVLSQAWHEAA	PGPT0020950_2304	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020950-acdP-K01273	NA	NA
BMS010_07354	1641	ddpA_1	COG0747	putative D,D-dipeptide-binding periplasmic protein DdpA	ATGATCAAATCGCTCAACAAATCCATGCGTATTCTGAGCACCAGCGCCGCTTTGTCGCTAATGATGCTGGCCGCGCCCCATGCTTTTGCCGCAACGCCGGCCGATACGCTGGTCGAAGGTTTCGCCATCGATGACATCATCACGCTCGATCCGGGCGAGGCATTCGAGCTGTCCGCAGCTGAAGTCACCGGCAACACCTACAGCAAGCTGGTTTCCATCGATCTTAACGACACGTCCAAGGTTATCGGCGATCTGGCCGAAAGCTGGACGACCTCCGACGATGGTCTCACCTATACGTTCAAGCTGAAATCCGGCCTGAAATTCGCGTCGGGCAATCCGGTCACGGCCGATGATGTGGCTTTCTCCTTCGAACGCGCCGTGAAGCTCGACAAGTCGCCGGCATTCCTGCTGACGCAGTTCGGCCTCAGCGGTGACAACGTCACCGAAAAGGCGAAGGCCGCGGATGCGAACACCTTCGTTCTGACGGTCGACAAGCCCTATGCGCCGAGCTTCGTGCTGAACGTGCTGACCGCAACCGTCGCTTCGGTGGTCGACAAGAAATTCGTGACGGAAAAGGCCAAGTCGGTCACGCCGAGCGCCGACTACAAATACGACACGGATTTCGGCAACGAGTTCCTGAAGACCGGTTATGCCGGTTCCGGCCCTTACAAGATTCTCGGCTGGAAGGCCAACGAAGCCGTCATCCTCGAAGCCAACCCGAATTATTACGGCGAGAAGCCGAAGCTGAAGCGCGTCGTCTATCGCCACATGAAGGAAAGCTCGGGCCAGCGCCTGGCGCTTGAAAACGGCGATATCGATGTGGCCCGCAACCTCGAGCCGGGCGACATGGAAGCCGTTTCCAAGAAGGAAGGCCTTGCCGTCACCTCCGCGCCGAAGGGCACAGTCTATTATTTCAGCCTCAACCAGAAGAACGAGAACCTGAAGAAGCCCGAAGTCATCGAAGCCTTCAAATATCTGGTCGACTACGATGCCATCGGTGCGACGATCATCAAGGGCATCGGCGAAGTTCACCAGACCTTCCTGCCGAAGGGCCAGCTCGGCGCGCTTGACGAGAACCCCTACAAGCTGGACGTCGCCAAGGCGAAGGAGCTTCTCGCCAAGGCCGGCCTGAAGGACGGCTTCACCGTGTCCATGGATGTGCGCAACACCCAGCCGGTAACCGGCATTGCCGAAAGCGTGCAGCAGACGCTGGCGCAGGCCGGTATCAAGCTGGAAATCATCCCCGGCGACGGCAAGCAGACGCTGACCAAATATCGCGCCCGCACGCATGATATCTACATTGGCCAGTGGGGTTCGGACTATTTCGACCCGAACTCGAATGCGGAAACCTTCACCATCAACTACGACAATTCCGACGAGGGCAAGAACAAGACGCTCGCCTGGCGCAATGCCTGGGACGTTCCTGACCTGACCAAGGAAACCCAGTCGGCGCTTCTGGAGAAGGACAGCGCCAAGCGCGCCGCCATCTATGAAAACCTGCAGAAGGAAGTTCTGGCGAAGGGTCCCTTCGTCATCATCTTCCAGCAGACGGAAGTGGCGGGATATTCCGCCAAGCTGAAGGGCCTGAAGCTCGGACCGAGCTTCGACACCAACTTCGTCTACACCATTTCCAAGGAATGA	MIKSLNKSMRILSTSAALSLMMLAAPHAFAATPADTLVEGFAIDDIITLDPGEAFELSAAEVTGNTYSKLVSIDLNDTSKVIGDLAESWTTSDDGLTYTFKLKSGLKFASGNPVTADDVAFSFERAVKLDKSPAFLLTQFGLSGDNVTEKAKAADANTFVLTVDKPYAPSFVLNVLTATVASVVDKKFVTEKAKSVTPSADYKYDTDFGNEFLKTGYAGSGPYKILGWKANEAVILEANPNYYGEKPKLKRVVYRHMKESSGQRLALENGDIDVARNLEPGDMEAVSKKEGLAVTSAPKGTVYYFSLNQKNENLKKPEVIEAFKYLVDYDAIGATIIKGIGEVHQTFLPKGQLGALDENPYKLDVAKAKELLAKAGLKDGFTVSMDVRNTQPVTGIAESVQQTLAQAGIKLEIIPGDGKQTLTKYRARTHDIYIGQWGSDYFDPNSNAETFTINYDNSDEGKNKTLAWRNAWDVPDLTKETQSALLEKDSAKRAAIYENLQKEVLAKGPFVIIFQQTEVAGYSAKLKGLKLGPSFDTNFVYTISKE	PGPT0004430_6731	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004430-ddpA|ABC_PE_S-K02035	NA	NA
BMS010_07355	1068	dppB_4	COG0601	Dipeptide transport system permease protein DppB	TTGAGCATGGTTGAAAGCAACAGCAGGGCGAGGCACGGCAAACGCCGTGTCAATGCCCGCGTGAAAGCCGTTCTCGGCTTCGCCGTCACCGTCATCACCACCTTTCTGGGGCTGATGGCGGTCACATTCTTCATTGGCCGCGTCGTGCCGATCGATCCTGCGCTGGCGATCGTCGGCGACCGTGCGCCTGCGCATGTGGTCGAGCGGGTGCGTGAGCAGCTCGGCCTCAACCTGCCGCTCTGGCAGCAGTTCTTCCTTTATCTGAAACAGGCGCTATCGGGCGATTTCGGCACCTCCGTCCTCACCACCAATCCGGTGATGGAGGATATCAAGCGGGTGTTCCCGGCGACGATAGAACTCGCCACGCTCGGCACCATCATCGGCGCCGTCTTCGGCATTCCGCTTGGCGTGCTTGCCGCCGTCAAGCGCGGCAGCTTTGCCGATCAGGTGGTGCGCGTCATCGGCCTCATCGGTTATTCGGTGCCGATCTTCTGGCTCGGCCTTCTGGCGCTGCTGGTGTTTTACGCCCGGCTGCAATGGGTGGCTTATCCCGGCCGAATGGATATCGTTTATGAATTCACCTTCACGCCGGTCACGGGCTTCTTCCTGCTCGACGCGATCTGGCAGCGGCAATGGGACGTGTTGTGGGATCTCTTCCGCCACATCATCCTGCCCGCCTGTCTGCTCGGTTATTTTTCGCTGGCCTATATCAGCCGCATGACGCGCTCCTTCATGCTGAACGAGCTTAGCCAGGAATATATCGTCGCGGCCCGCGCCAAGGGGCTTTCGGAAACCCGCATCATCTGGTTCCACGCGCTGCGTAATGCCGCCGTGCCGCTGGTGACGGTGATTGCGCTGTCCTATGCCGGTCTGCTGGAAGGTTCGGTGCTGACCGAAACCATCTTCGCCTGGCCGGGGCTCGGCCTCTACATCACCAATTCCCTGCAGAATGCGGATATGAATGCCGTTCTCGGCGGCACGATCGTGATCGGCGCCATCTTCGTCGGCATCAATCTCTTCTCCGATCTGCTTTACCGGACGCTCGATCCAAGGACGCGCAGCCGATGA	MSMVESNSRARHGKRRVNARVKAVLGFAVTVITTFLGLMAVTFFIGRVVPIDPALAIVGDRAPAHVVERVREQLGLNLPLWQQFFLYLKQALSGDFGTSVLTTNPVMEDIKRVFPATIELATLGTIIGAVFGIPLGVLAAVKRGSFADQVVRVIGLIGYSVPIFWLGLLALLVFYARLQWVAYPGRMDIVYEFTFTPVTGFFLLDAIWQRQWDVLWDLFRHIILPACLLGYFSLAYISRMTRSFMLNELSQEYIVAARAKGLSETRIIWFHALRNAAVPLVTVIALSYAGLLEGSVLTETIFAWPGLGLYITNSLQNADMNAVLGGTIVIGAIFVGINLFSDLLYRTLDPRTRSR	PGPT0004445_1160	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004445-ddpB|appB-K02033	NA	NA
BMS010_07356	933	ddpC_4	COG1173	putative D,D-dipeptide transport system permease protein DdpC	ATGACCCTTTCGACCGATACGATCAAACCCTATAGCCGCGAATGGCTGCTCTCTGACCGGCCGGCCTCGCGCAGGCAGGCGCGGCTTGGCCGTGCCTATGTCATCTGGCGGCGCTTTTCGGAAAACCGTCTGGCGCTGCTTGGGCTCGGCATCATCATCGCGCTGCTGTTCGTGGCGCTGTTTGCCGATGTTCTGGCCCCGCATAACCCGGTGCAGGGCGATCTGCGCAATGCCCGGCTTTTGCCGCCCGGCACGGAAGGTTATCTGCTGGGCACCGACGATCAGGGCCGCGATATTCTCTCGCGCCTCATTCACGGTTCGCGGCTGACGCTTTTCGTCGTGCTTCTGGTCGCCATCATCGCAGCCCCCGTCGGCCTCATCGTCGGCACGGTTTCCGGTTATGCCGGCGGCTGGGTGGATGCGGTTTTAATGCGCATCACCGATATCTTCCTTGCCTTTCCGAAGCTCGTTCTGGCGCTGGCGCTGGTCGCGGCGCTTGGGCCGGGCATCGAAAACGCGGTGCTCGCCATCGCGCTTACCTCATGGCCGCCCTATGCGCGCATCGCGCGCGCCGAAACCATGACTTTCCGCAATTCCGATTTCATCGCCGCGGTCAAACTCATGGGCGCGTCGCCTTTCCGTATCGTGCTGAAACACGTCATGCCGCTCTGCCTGTCGTCGCTCATCGTGCGCGTGACGCTGGATATGGCGGGCATCATCCTCACCGCCGCAGGCCTCGGCTTCCTCGGTCTCGGCGCACAGCCGCCGCTGCCGGAATGGGGCGCGATGATCGCTTCCGGCCGCCGCTTCATTCTCGATCAATGGTGGGTCGCGGCCATGCCCGGCGTGGCGATCCTCATCGTCAGCCTCGGTTTCAATCTCCTGGGCGACGGTCTGCGCGATGCGCTGGACCCCAAGGAGGCGGGCCAATGA	MTLSTDTIKPYSREWLLSDRPASRRQARLGRAYVIWRRFSENRLALLGLGIIIALLFVALFADVLAPHNPVQGDLRNARLLPPGTEGYLLGTDDQGRDILSRLIHGSRLTLFVVLLVAIIAAPVGLIVGTVSGYAGGWVDAVLMRITDIFLAFPKLVLALALVAALGPGIENAVLAIALTSWPPYARIARAETMTFRNSDFIAAVKLMGASPFRIVLKHVMPLCLSSLIVRVTLDMAGIILTAAGLGFLGLGAQPPLPEWGAMIASGRRFILDQWWVAAMPGVAILIVSLGFNLLGDGLRDALDPKEAGQ	PGPT0004450_5055	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004450-ddpC|appC-K02034	NA	NA
BMS010_07357	837	ddpD	COG0444	putative D,D-dipeptide transport ATP-binding protein DdpD	ATGAGCGCGCCGCTTCTGACCGTTCAGAATCTCCGCGTGTCCTTCCCCACCCGCACCGGGCTGGTGGAGGCGGTGCGCGGCGTGTCCTTCACGCTCGGCCGCGAGCGTCTCGGCATCGTCGGCGAATCCGGTTCCGGCAAATCGCAGACCGGCCGCGCCATCATGGGGCTGACGCCCAAAAATGCGCGCATCGAGGCCGATGCGCTGCGCTTCGGCGATATTGATCTGCTCAAGGCGTCTGCAAAAGAGCGGCGGATCATGCGCGGCAAGCGCATGGCCATGATCCTGCAGGACCCGAAATATTCGCTGAACCCGGTCATGACCATCGGCCGCCAGATCATGGAAACCCTGCGCACCCATGAAAAGATCGGTGGCGGCGAGGCGCGCCAGCGCACGCTCGCCATGCTCGAAGCCGTGCAGATACGCGACCCGGAACGCGTCTTCGATCTTTACCCGCACGAGGTTTCGGGCGGCATGGGCCAGCGTGTCATGATCGCCATGATGCTGGTCTGCGGCCCCGAACTGCTGATCGCCGACGAACCCACTTCGGCGCTCGACGTGACGGTGCAGCTGGAAGTGCTCGACATTCTCGACAAGCTGGTGCGCGACCGTGGCATGGGGCTGATCTTCGTCAGCCATGATCTCAGGCTCGTCTCCTCTTTCTGCGACCGTGTTCTCGTCATGTACGCCGGCAAGGTGGTGGAAGAGCTGTCTTCCGCCAATCTGAAGGAAGCGAAACATCCCTATACGCAGGGCCTGCTGAACTGCCTGCCGGAAATCGGCGGCCACCGGCATCCGCTGCCGGTTCTGGAACGCAAGCCGGAGTGGCGCGCATGA	MSAPLLTVQNLRVSFPTRTGLVEAVRGVSFTLGRERLGIVGESGSGKSQTGRAIMGLTPKNARIEADALRFGDIDLLKASAKERRIMRGKRMAMILQDPKYSLNPVMTIGRQIMETLRTHEKIGGGEARQRTLAMLEAVQIRDPERVFDLYPHEVSGGMGQRVMIAMMLVCGPELLIADEPTSALDVTVQLEVLDILDKLVRDRGMGLIFVSHDLRLVSSFCDRVLVMYAGKVVEELSSANLKEAKHPYTQGLLNCLPEIGGHRHPLPVLERKPEWRA	PGPT0004435_13544	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004435-ddpD-K02031	NA	NA
BMS010_07358	750	oppF_2	COG4608	Oligopeptide transport ATP-binding protein OppF	ATGAGTTCAGTTCTTTCCGTTCGCGACATGGTGGTCGATTTCGACGGTTATATCGCGCTCGACCGCGTCAGCATCGATGTGGCCGAGGGTGAATCTTTCGGCATCGTCGGCGAGTCCGGCTCCGGCAAATCGACGTTGCTGCGCGCCATTGCCGGCCTTAATCATTTCGATGAAGGCTCCTTGATGGTGGCCGGACGCTCCTATACCGGCAAGCACCGCGACAAGAGCTTCTATAGCGACGTGCAGATGGTGTTTCAGGACCCCTATGGCTCGCTTCACCCGCGCCAGACGGTGGATGCGCTGCTGCTCGAGCCGCTGGTCATCCACGGTCTCGATAATCGCGAGCAGCGCATTGCCCGGGCATTGGACGAGGTGGGCCTCGGTTCCGGCTTCCGCTTCCGTTATTCGCACCAGCTTTCCGGCGGCCAGCGCCAGCGCATCGCCATTGCACGTGCGCTGATCGTCGAGCCGAAAATCCTGCTGCTGGATGAGCCGACTTCGGCGCTCGACGCCTCCATTCAGGCGGAAATCCTCAACCTGCTGGAACAGGCACGCAAGGATCGCAACCTCACCTTCGTCATGGTCAGCCACGATCTCGGTGTCATCAGCCACATGTGCGATCGCCTTGCGGTGATGAAAAGCGGCAAGGTGGTGGAAATGCTGGAAGCCGAGGCGCTGGAAAGCCGGGAATTCAGCGCGGATTATACAAGGCAGCTGCTGGTGGCGAGCGAGGGCTTCAAGCGCGTTTGA	MSSVLSVRDMVVDFDGYIALDRVSIDVAEGESFGIVGESGSGKSTLLRAIAGLNHFDEGSLMVAGRSYTGKHRDKSFYSDVQMVFQDPYGSLHPRQTVDALLLEPLVIHGLDNREQRIARALDEVGLGSGFRFRYSHQLSGGQRQRIAIARALIVEPKILLLDEPTSALDASIQAEILNLLEQARKDRNLTFVMVSHDLGVISHMCDRLAVMKSGKVVEMLEAEALESREFSADYTRQLLVASEGFKRV	PGPT0004440_9472	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004440-ddpF-K02032	NA	NA
BMS010_07359	903	cynR_6		HTH-type transcriptional regulator CynR	ATGCAACTGCGCGCATTGATGTATTTCGACGAACTGGTCCGCACCAATTCCATGCGCGCCGCGGCGGAAAATCTGAATGTGGCGCCGACAGCGGTGAGCCGGCAGATCGAGAACCTCGAATATTATTTCGGCTCGCCGCTGGTGGAGCGTTCCAGCCGGGGCGTGAAACTGACGGCTGCGGGAGAGCTGCTCGCTGCCCGCGCCGGCAAGACGTTGCGGGAACTCGACCATGTGCATCAGCTGATCGACGATCTGAAGGGCCTCCAGCGCGGCCGGGTCACGGTCTATGCCAATGGTGCGACGGTGGCGAACCTTCTGGCGCCGGTGCTGGCGCAGTTCAGCCTGAAATATCCAAAACTGCGCTTCGAGGTGCATATTACTAGCGCCCGCCAGGCAATGGAGGCGCTGGGTGCTGCGGAGGCCGATCTGGTCGTCAGCCTGTTTGCCCCTAAGCTTTCTGGCGTGAAAGTGCGCTCTCGCACCCGCATCAGCTACGACGCGATCTTTCCGGCCGGCCATGCGCTCGCGGCACAGCCGGAAGTCTCGCTGAAGGAACTGGCCAGCCTGCCGCTCGCCCTGCCGGACAAGAGTTTTGCGGCGCGTCAGGCCTTCGACACGCTGTTTGCCGATGCGGGCATCGAGCTTGATCCCGTCTTCATTACCAGCTCTTTGGAAATGCTGAAGGAGCTGGTGCTGGGCCACGCCGCTGCCACGCTTTTGCCGGCGCTTTCGGTGGCGCGGGAAATCCGCAGCGGGCAGATGGTCGCCGTTCCGCTCTCCGGCAAGAAGGGCATCCACACCCAGATCGATCTCTGCGTTGCGCCCGACCGGCAATTGTCCTTCGCCGCCTCCAAGCTCGCCGATTTTATCGAGCGCTTCATGCGCGAGGCGACGGCGGGATAA	MQLRALMYFDELVRTNSMRAAAENLNVAPTAVSRQIENLEYYFGSPLVERSSRGVKLTAAGELLAARAGKTLRELDHVHQLIDDLKGLQRGRVTVYANGATVANLLAPVLAQFSLKYPKLRFEVHITSARQAMEALGAAEADLVVSLFAPKLSGVKVRSRTRISYDAIFPAGHALAAQPEVSLKELASLPLALPDKSFAARQAFDTLFADAGIELDPVFITSSLEMLKELVLGHAAATLLPALSVAREIRSGQMVAVPLSGKKGIHTQIDLCVAPDRQLSFAASKLADFIERFMREATAG				NA	NA	NA	NA	NA
BMS010_07360	1536	gsiB_3	COG0747	Glutathione-binding protein GsiB	ATGCCACGCACTTATCTTTCGCAGGCGGCAACGCTTTCGCGCCGCACCGCGCTGACCCTTGTGTTGGGCACGGCGCTCTGGCTGCCGCTTTCGGCAACGGTTGCCGAAGCCGCGGCGAAAACCGCGCTGACGCTCGGCATGGCGGTGGAGCCGGCCGGTCTCGATCCGACCATCGCCGCCCCCGTCGCCATCGGTCAGGTCACCTGGCAGAATGTCTTCGAAGGTCTGGTGAAGATCGACCGCGAGGGCAAGGTAAAGCCGCAGCTTGCTGAAAGCTGGGAAATTTCCCCTGATGGCAAGACCTATACGTTCAAGCTGCGCAAGGGCGTGACCTTCCATGATGGCGAGGCTTTCGATTCGTCTGTCGCAAAATTTTCGCTGGATCGGGCGCGTGGCGAAAGCTCGGTCAATCCGCAGAAACGCTTCTTCGCCTCCATCGACAGTATGGAGACGCCGGATGCCGCAACGCTGGTGCTGAAGCTGAAGCAGCCGGCCGGCAGCCTTCTCTACTGGCTCGGCTGGCCGGCCTCCGTGATGGTGGCGCCGAAAAGCGCGGAGAATAACCGCACCACGCCAATCGGCACCGGCCCGTTCAAATTCGTGGCCTGGGCCAAGGGCGACAAGGTCGAGTTGCAGAAGAACGACGCCTATTGGGACAAGGCCGTGGCGGTGAAGCTGGAGAAGGCGACCTTCCGTTTCGTCTCCGACCCGCAGGCGCAGGCCGCCGCACTGAAATCCGGCGATATCGATGCCTTCCCGGAATTCGGCGCGCCGGAACTGATGACCTCCTTCGATGGCGACGCGCGCCTCGGCACCTTCGTCGGCAATACCGAGCTGAAGGTCGTGGCCGGCATGAACAATGCCCGCAAGCCCTTCGATGACAAGCGCGTGCGTCAGGCGCTGATGATGGCGGTGGATCGCGGCACTGTCATTGAAGGCGCCTGGTCCGGCTTCGGCACGGCCATCGGCAGCCATTACACGCCGAATGACCGCGGCTATATCGATACGACTGGGGTACATCCTTACGATATCGACAAGGCCAAGGCGCTGCTTGCCGAAGCCGGTTATCCGGATGGTTTCAGCTTCACCATCAAAGCCCCGCAAATGGCCTATGCCCAGCGCACCTCGCAAATCCTGCAGGCGATGTTTGCCGAAATCGGCGTGACCATGACCATCGAGACCACCGAGTTTCCGGCGAAATGGGTGGCGGATGTTCTTAAAGGCGCGGATTACGACATGACCATCGTTGCCCATGCCGAGCCGATGGATATCGATATCTACGCGCGCGACCCCTATTATTTCAATTACAGGAACCCGGCCTTCAACGAGGTCGTGGCGAATGTCGAAAAGACGGCGGATGCCGGCGCGCAGGAAAAGCTCTATGGCGAAGCCCAGAAAATCCTCGCGGAAGATGTACCCGCCCTTTATCTTTTCGTCATGCCGAAACTCGGCGTCTGGGACAGGAAGGTGAAGGGGCTCTGGGAAAACGAGCCCATTCCCTCGAATGTGCTGACGGATGTGCATTGGGAAGAGTGA	MPRTYLSQAATLSRRTALTLVLGTALWLPLSATVAEAAAKTALTLGMAVEPAGLDPTIAAPVAIGQVTWQNVFEGLVKIDREGKVKPQLAESWEISPDGKTYTFKLRKGVTFHDGEAFDSSVAKFSLDRARGESSVNPQKRFFASIDSMETPDAATLVLKLKQPAGSLLYWLGWPASVMVAPKSAENNRTTPIGTGPFKFVAWAKGDKVELQKNDAYWDKAVAVKLEKATFRFVSDPQAQAAALKSGDIDAFPEFGAPELMTSFDGDARLGTFVGNTELKVVAGMNNARKPFDDKRVRQALMMAVDRGTVIEGAWSGFGTAIGSHYTPNDRGYIDTTGVHPYDIDKAKALLAEAGYPDGFSFTIKAPQMAYAQRTSQILQAMFAEIGVTMTIETTEFPAKWVADVLKGADYDMTIVAHAEPMDIDIYARDPYYFNYRNPAFNEVVANVEKTADAGAQEKLYGEAQKILAEDVPALYLFVMPKLGVWDRKVKGLWENEPIPSNVLTDVHWEE	PGPT0004430_16067	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004430-ddpA|ABC_PE_S-K02035	NA	NA
BMS010_07361	951	gsiC_8	COG0601	Glutathione transport system permease protein GsiC	ATGTTAGCCGTCCTCATCCGGCGTCTTTTAAGCCTCGTCATCACCCTGTTTGCCGTTTCCCTCATCATCTATGTCGTCATGGGCCTGCTGCCGGGCGATCCTGCCGCCATCATGCTCGGAACCTCGGCGAGCCCCGATACGCTCGCGGCGCTGCAGAAGCAGATGGGCCTCGATCAGCCGCTGCCGCTGCGTTATCTCCACTGGCTGGCCGGTGTGTTTCATGGCGATCTCGGGCAATCCTATACCTATGGCGTGCCGGTGGCGGGGCTGATCCTGGAGCGGCTGGCCGTTACGCTGCCGCTTGCGCTACTGGCCGTCTGCCTGTCTGTCACCATTGCCATTCCGCTCGGCGTGGCGGCGGCGCGGAGCCGCAACGGGGCGCTGGATTTTGCAGCTGGGCTGTTTTCGCATGTGGGCATTGCCGTGCCCGGTTTCTGGGTCGGGCTGCTGCTCATCATCGTCTTTTCCACCACGCTCGGCTGGATGCCGGCTGGCGGTTTTCCCGGCTGGACGCCGAGCTTTTCAGCGGGTCTCACGGCATTGGTGCTTCCGGCGGTCGCCCTTGCGCTGTCGCAGGCCGGGGTTCTCACCCGTGTCTGCCGCTCCGCCGTGCTTGAAGTGATGAATGAGGATTTCGTGCGCACCGCGCGCGCCAAGGGCCTGAGCGAGCGGGTGGCGTTGTGGCGCCATGCGGTGCCGAATGCGATGATCCCTGTCGTCACCATGATCGGCCTGCAATTCACCTTCCTCATTGCCGGCGCGGTGCTGGTGGAAAATGTCTTCAACCTGCCGGGTCTCGGGCGGCTTGCCTATCAGGCGCTGACCCAGCGCGATATCGTCGTCATGCAATCCGTCGTGCTGTTTTTCTCGGCGCTGGTGATCGTCATGAATTTCGTGGTCGATATCGCCTATCTCTTCATCGATCCGAGACTGCGGGCAGGTGCGCGATGA	MLAVLIRRLLSLVITLFAVSLIIYVVMGLLPGDPAAIMLGTSASPDTLAALQKQMGLDQPLPLRYLHWLAGVFHGDLGQSYTYGVPVAGLILERLAVTLPLALLAVCLSVTIAIPLGVAAARSRNGALDFAAGLFSHVGIAVPGFWVGLLLIIVFSTTLGWMPAGGFPGWTPSFSAGLTALVLPAVALALSQAGVLTRVCRSAVLEVMNEDFVRTARAKGLSERVALWRHAVPNAMIPVVTMIGLQFTFLIAGAVLVENVFNLPGLGRLAYQALTQRDIVVMQSVVLFFSALVIVMNFVVDIAYLFIDPRLRAGAR	PGPT0004445_10423	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004445-ddpB|appB-K02033	NA	NA
BMS010_07362	822	gsiD_4	COG1173	Glutathione transport system permease protein GsiD	ATGATGCGATTGATCCGCCGCCGCCCCGCCTTTGCCGTCGGCATCGCCGTCACGGTCTTTCTGGTCGCAGTCGCTCTGCTGTCTCTGGTCTGGACACCGGTGTCCCCCACCAAGATGCAGATCGTCCAGAAGCTGAAATCGCCCTTCGTTTATGGCGGCCTCGGCACGGATCATTTCGGCCGCGACGTGTTGTCGATGCTGATGGCCGGTGCGTGGAACTCGCTGTCCACCTCCATCGCCGCCGTCGCCATTGGTGCATTTATCGGCACGACCATCGGCGTTGCGGTTGCAGCGCTGCGCGGTTTCACCGAAACCGTGGTCATGCGCATCTGCGACATCATCTTCGCCGTGCCGCCCATCCTGTCGGCCATGATGCTCGGCGCTTTCATCGGCACGGGCCGTTTTACCGCCATCATCGCCATCGCCACCTTCATGGTGCCGGTCTTTGCCCGGCTGACGCTGGGGGCGGCGTTGCAGATATGGTCGCGGGAATATGTCACCGCCGCCACCAGCATCGGCCAGAACCGCGCCAAGATCACGCTGTTCCACATCGTGCCGAATATTTCCAACCAGATCATCGTGCAGGTGACGATCCAGCTCGGTCTTGCGATATTGACGGAAGCAGGCCTTTCTTTCCTCGGTCTCGGCATGCCGCCGCCCGCCGCCACCTGGGGACGAATGCTGGCCGATGCCCAGACCTATCTCGGCACAGCACCCTGGCTCGCCATCATGCCCGGCCTTGCGATTGCGCTCGCCGTCTTCGGCCTCAATCTTCTCGGCGATGGCCTGCGCGACCTGCTGGACCCGCGCGATACCAGCTGA	MMRLIRRRPAFAVGIAVTVFLVAVALLSLVWTPVSPTKMQIVQKLKSPFVYGGLGTDHFGRDVLSMLMAGAWNSLSTSIAAVAIGAFIGTTIGVAVAALRGFTETVVMRICDIIFAVPPILSAMMLGAFIGTGRFTAIIAIATFMVPVFARLTLGAALQIWSREYVTAATSIGQNRAKITLFHIVPNISNQIIVQVTIQLGLAILTEAGLSFLGLGMPPPAATWGRMLADAQTYLGTAPWLAIMPGLAIALAVFGLNLLGDGLRDLLDPRDTS	PGPT0004450_13930	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004450-ddpC|appC-K02034	NA	NA
BMS010_07363	1398	aam_2	COG0154	Acylamidase	ATGACCGATCTCATAGACCTCAACACGCTCGAAATCCTGGCGCTTTACCGGGAGAGGAAGCTTTCGCCATCGGAATATTGGCAGGCGGTGGAGGCTCGTATCGATGCCTTCGAACCGGTGGTGAATGCGCTTTACGCCTATGATCCGGAAGATGCACGCAGGCAGGCGCTGGCCTCGACGCAACGTTGGCAAAAGGGCGAAACGCTCGGGGCCCTCGATGGCATTCCGGTCTCTTTGAAGGAATTGATCGCCACGAAAGGCCATCCGGTGCCGCTCGGCACCAAAGCGGTGGAACTGGTGCCCGCGATTGAGGACGCGCCAGTGGCCGCCCGCTGCCGCGAGGATGGCGCGATTATTTACGCCAAGACGACCTGCCCGGATTACGGCATGCTGTCCTCCGGCCTTTCCAGTTTCCACAAGCTCAGCCGCAACCCGTGGGACCCCACCCAGAACCCCGGCGGCTCCAGCGCCGGTGCGGCCTCGGCCGGGGCTGCGGGTTATGGCACGCTGCATATCGGCACGGATATTGGCGGCTCGGTGCGGCTGCCGGCGGGGTGGACCGGCCTGTTCGGTTTCAAGCCGAGCCAGGGCCGCATCCCGGTCGATCCCTATTATACCGGCCGCTGCGCCGGGCCGATGACCCGCACCGTTGCCGACGCCGCCTATGCCATGGCGACGCTTTCCCGCCCCGACTGGCGCGACGGCACGGCGCTGCCGCCCAACGATATCGACTGGATGGACCTCGATATTAATGTAAAGGGCCTGAAAATCGGCCTGATGCTGGATGCCGGCTGCGGCCTGCCGCTGGACGAAGAGGTGCGCGACGCCGTGCTCTCCGCCGCGAAACTGTTCGAGGCGGCCGGCGCCATCGTCATCCCAGTCGAGCCGGTGTTGACACGGGAAATGCTGGATGGGCTGGACGATTTCTGGCGGGCGAAGTTCTGGGGCGACATGGCGGCGCTGAGCGCGGACCGCCGTGCCGCGATCCTTCCCTATATTCATGAATGGGCGCAGAAGGGGGCGGATGTTTCCGGCGCGCGCGCCGTTTTCGGTTTCAACCAGACCATGGAAATGCGTAAGGCTTGCGGGCGGTTGATGCAGTCCGTTAATGCGGTGATTTCACCCGTCAATCCCATCGTGTCCTATCCGGCTGACTGGGCCTCGCCCACCAATGATCCCGAGCGGCCCTTCGAACATATAGCCTTCACGGTGCCGTGGAACATGTCGGAGCAGCCGGCCTCCTCGATCAATTGTGGCTTCTCCAGATCGGGAATGCCCATCGGCTTGCAGATCGTCGGGCCGCGTTACGAAGATTTGTTCGTGCTGAAGCTTTCAAAGGCCTTCGAGAATTGGGGCGGCGGTGTAAGACGCTGGCCGCCGCCGCCGCAGGCTTGCTGA	MTDLIDLNTLEILALYRERKLSPSEYWQAVEARIDAFEPVVNALYAYDPEDARRQALASTQRWQKGETLGALDGIPVSLKELIATKGHPVPLGTKAVELVPAIEDAPVAARCREDGAIIYAKTTCPDYGMLSSGLSSFHKLSRNPWDPTQNPGGSSAGAASAGAAGYGTLHIGTDIGGSVRLPAGWTGLFGFKPSQGRIPVDPYYTGRCAGPMTRTVADAAYAMATLSRPDWRDGTALPPNDIDWMDLDINVKGLKIGLMLDAGCGLPLDEEVRDAVLSAAKLFEAAGAIVIPVEPVLTREMLDGLDDFWRAKFWGDMAALSADRRAAILPYIHEWAQKGADVSGARAVFGFNQTMEMRKACGRLMQSVNAVISPVNPIVSYPADWASPTNDPERPFEHIAFTVPWNMSEQPASSINCGFSRSGMPIGLQIVGPRYEDLFVLKLSKAFENWGGGVRRWPPPPQAC	PGPT0006115_5732	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRP-DEPENDENT_PATHWAY_2,PGPT0006115-EC_3_5_1_4|amiE-K01426	NA	NA
BMS010_07364	567	yfkM_2	COG0693	General stress protein 18	ATGCCAAAGAAGATTTTGATGATCGCCGGCGATTTCGCCGAGGATTATGAGACCATGGTGCCGTTCCAGACGCTGCTCGCGGTTGGCCACACGGTGCATGCCGTCTGCCCCGGCAAGAAGGCGGGCCAGACCATTGCCACGGCCATCCATGATTTCGAGGGCGACCAGACCTATTCGGAGAAACGCGGCCATAATTTCGCGCTCAACGCCACCTTCGCCGATATCAAGGTTGCGGATTACGATGCGCTGGTCATTCCGGGCGGTCGCGCGCCGGAATATCTGCGGCTCAACGCGGACGTGCTTTCGGCGGTGAAACATTTCTTCGAGGCCGACAAGCCGGTGGCCGCCGTCTGCCATGGCGCACAATTGCTCGCCGCTGCGGGCGTCCTGAAGGGCCGCACCTGCTCGGCCTATCCCGCCTGCCGCCCCGAAGTGGAACTGGCGGGCGGCACCTATGCCGATATCGCCATCGATGCGGCCGTTACCGACGGCAAGCTGGTAACGGCGCCCGCATGGCCGGCGCATCCGGCCTGGCTTTCGCAATTCATGGCCGTGCTCGGCAAATGA	MPKKILMIAGDFAEDYETMVPFQTLLAVGHTVHAVCPGKKAGQTIATAIHDFEGDQTYSEKRGHNFALNATFADIKVADYDALVIPGGRAPEYLRLNADVLSAVKHFFEADKPVAAVCHGAQLLAAAGVLKGRTCSAYPACRPEVELAGGTYADIAIDAAVTDGKLVTAPAWPAHPAWLSQFMAVLGK	PGPT0015010_1400	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-METHYLGLYOXAL_DETOXIFICATION,PGPT0015010-yfkM|pfpI|yraA-K05520	NA	NA
BMS010_07365	351			hypothetical protein	ATGTGCAAGCTTTTCATCAAGGCAGACCCGACGCTTTGGGAGAGCCATACGCGGTCGCTCAGGATCGATGGCATGGTCACCAGCGTGCGGCTTGAAAACTTCTTCTGGTCGACGCTGGACGAGATCGCGCGGCGCGACGGCATGAACAGCGTGCAGCTGATCGCCAAGCTCTATAATGAATCGATCGATGCCGGGCACGATCTCGGCAATTTCACCTCGTTCCTGCGGGTCTGCTGCGGCCGTTATCTGGCGCTTCAGCTTTCCGGCGATATTCCGGCACGCAGCGATATTCCGATTGCGGCGCTGGATGCGGACAGCATTCTCGATGCGGAAAAGGTGAATTATCACTAG	MCKLFIKADPTLWESHTRSLRIDGMVTSVRLENFFWSTLDEIARRDGMNSVQLIAKLYNESIDAGHDLGNFTSFLRVCCGRYLALQLSGDIPARSDIPIAALDADSILDAEKVNYH				NA	NA	NA	NA	NA
BMS010_07366	921	gsiD_5	COG1173	Glutathione transport system permease protein GsiD	ATGACTGACGCCACCATCGCAGCGCCGACGGTTGCGGCCACCCCCACGCAATCCGCCCTTGCCGATATCTGGAAACAGTTCCGCGTTCACAAGGGCGGCGTGGCGGGCCTCTTCGTCTTCGTTTTCATCCTGCTGGCGGTCTATGTCGGCCCCTATATCCACACCGTTGCGCCCAACGCCATCAATGTGAAGGCGCGCAACCAGTGGCCGTCGCTCGCGCATCCCTTCGGCACCGATAATCTCGGCAAGGACATGCTGGCGCAGGTTCTGGCCGGCGGGCGCATCTCGCTTGCCGTCGGCATCACCGCGATGCTGCTGGCGCTGTTTCTCGGAACGCTGGTGGGCGTGCTGTCCGGCTATTTCCGCAGGCTGGACGGCCCGCTGATGCGGCTGACCGACCTGTTCCTGGCGCTGCCGCTCTTGCCGCTGCTGCTCGTCATCCTGATGCTGTTTCGCGATACGCTGCGCGCCGCCTTCGGGCCGGAAACCGGCATCTTCATCCTCATCGTGTTCGTGATCGGGATAACCAGCTGGATGCATACGGCCCGTATCGTGCGCGGCGATGTGCTGACGATCAAAAGCCAGGAATTCATCATGGCGGCGAAATCGAGCGGCATGCGCGAATACCGCATCATCCTCAGGCATATATTGCCGAATGTGTTGAGCTCGATCATGGTCTCGGCCACGCTCGGCATCGCCGCCGCCATCATCACGGAATCGGCGCTGTCCTTCCTCGGCCTCGGCTTCCCCTCCGATTTTCCGACCTGGGGCCGGCTGCTGTTCGACGGCGCGAACTTCCTGCAACTGACGCCTTCTCGCGTGCTGTGGCCGGGGCTGGCGATCTCGCTGACGGTTCTGAGTGTGAATTACATCGGCGATGCCGTGCGCGATGCGCTCGATCCAAGGGCGCTGAAGAGCTAA	MTDATIAAPTVAATPTQSALADIWKQFRVHKGGVAGLFVFVFILLAVYVGPYIHTVAPNAINVKARNQWPSLAHPFGTDNLGKDMLAQVLAGGRISLAVGITAMLLALFLGTLVGVLSGYFRRLDGPLMRLTDLFLALPLLPLLLVILMLFRDTLRAAFGPETGIFILIVFVIGITSWMHTARIVRGDVLTIKSQEFIMAAKSSGMREYRIILRHILPNVLSSIMVSATLGIAAAIITESALSFLGLGFPSDFPTWGRLLFDGANFLQLTPSRVLWPGLAISLTVLSVNYIGDAVRDALDPRALKS	PGPT0004450_5836	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004450-ddpC|appC-K02034	NA	NA
BMS010_07367	1011	dppB_5	COG0601	Dipeptide transport system permease protein DppB	ATGTTTACCTTTACGCTCCGGCGGCTTGCCTTTGCCGTACCGACGCTGCTTGTCATCAGCTTCGTCATCTTCGCGCTGCTCGATCTTGCGCCGAACGACCCGACCGGCGACCTGCCGCTCACCATTCCGCCGGAAGTGCGCGAGCAAATCCGCGCCTCGCTAGGCCTCGACCAGCCCTTCTTCATCCGTTACCTGATGTGGCTGCAGCAATTCTTCATCAACGAACCGCTGAACCTCATTGAAAGGCTGACCGGCTGGCAGATCGGCGATGGCAGCCGCATGCGGGTGCTCTCCTGGGCGACACGCAGCCCGGTGGTCGATCTCGTCATTCAGCGCATGCCGCAGACACTGTGGGTGGTGGGCCTCGCCTATCTCTTCGGTGCGCTGCTGGCGATCCCGATCGGCGTCATTTCCGCCTATAAGCAATATTCGATCTTCGACCAGATCGGCACCTTCGTCTCTATGGTGGGTTATTCGGTGCCGACCTTCTTTACCGGCGTGCTGCTGGTGGTCATCTTCAGCTCCTACCTGCAATGGTTCCCTTCCGTTTATGACACCAACCTTCAGGTGACCGACTGGGGAAGTTTCGTGGCGCAGGTGAAGCAGATGTTCCTGCCCGTGCTGGTGCTGACGCTCTACAATGTCTCGCAGATCAGCCGCTTCGTGCGCGCCTCCATGCTCGACAATCTGCACCAGGATTATGTGCGCACCGCGCGCGCCAAGGGCGTGAAGGAAAAATCCGTCCTGCTCATCCACGTGCTGCGCAACAGCCTGATCCCGGTGGTGACGGTGATTGCGCTCGGCGTGCCGACGATCTTTTCCGGCGCCATCATCACTGAGCAAATCTTCCGCGTGAACGGGCTTGGCCAATTGCTGATCACCGCCGTTCAGGGTGCGGATATTCCGCTGGTGCAGACGCTCACCTTCATTTTCGCGGTGCTTATCGTGCTCTTCAACCTGATTGCCGACGTGCTGTACGGCATTCTCGACCCGAGGATCCGCTATGACTGA	MFTFTLRRLAFAVPTLLVISFVIFALLDLAPNDPTGDLPLTIPPEVREQIRASLGLDQPFFIRYLMWLQQFFINEPLNLIERLTGWQIGDGSRMRVLSWATRSPVVDLVIQRMPQTLWVVGLAYLFGALLAIPIGVISAYKQYSIFDQIGTFVSMVGYSVPTFFTGVLLVVIFSSYLQWFPSVYDTNLQVTDWGSFVAQVKQMFLPVLVLTLYNVSQISRFVRASMLDNLHQDYVRTARAKGVKEKSVLLIHVLRNSLIPVVTVIALGVPTIFSGAIITEQIFRVNGLGQLLITAVQGADIPLVQTLTFIFAVLIVLFNLIADVLYGILDPRIRYD	PGPT0004445_3259	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004445-ddpB|appB-K02033	NA	NA
BMS010_07368	1710	gsiB_4	COG0747	Glutathione-binding protein GsiB	ATGAAGAAGCGCAGCGTTCTCTTTGCCAGCACGGTGGCGGCCATGGCTCTCGCAGGCTCTGCCGCCCATGCCGAGCGTGGCAGTGACGGCGAACTGAAAATCCTGTTCTGGCAAGCAGTATCGACACTTAATCCTTATCTTTCCGGTGGCACGAAGGAAGTCTACAGCTCGTCCATGGTGATTGAGCCGCTGGCGCGCTACGACGAAAAGGGCGAGCTGGTGCCGATGCTGGTCACCGAAATTCCGACGATCGACAATGGCGGCGTCGCGAAGGATTTGCTCAGCATGACCTGGAAGCTGAAAAGCGACGTGAAGTGGTCGGATGGCACGCCGTTCACCGCCGAGGACGTTATTTTCACCTGGAAATATTGCACCGCACCGGATGGCGGCTGCGCGCAGGCGGCGCAATATGAGGGCGTGAAGAATGTCGAGGCCGTCGACGCCCACACCGTCAAGGTCAGCTTCACCGAACCGAAACCCTACCCCTATTCCGCATTCGTCGGCGCACAGTCGCCGGTCATCCAGAAGAAGCAGTTTGAAAAATGCGTCGGCGCTGCCGCACCCGGCTGCACATCCGCCAATTTCGGTCCCATCGGCACCGGCCCCTTCGTGGTCAAGGATTTCAAGCCGAATGACGTCATCAGCTTCGTCGCCAACACCAATTACCGCGACCCCGCCAAGCCCGCCTTCGCCACGGCGACCCTGAAGGGCGGCGGCGATGCCGCTTCCGCCGCGCGCGCCGTTCTTGAAACCGGCGAATTCGACTATGCCTGGAACATGCAGGTGGAGCCGGAAATCCTCGCCACCATGGTGGCCGCCGGTAAGGGCAAGCTGGAAACCGCCTTCGGCACCCAGGTCGAGCGTATCAATCTCAACTGGTACAATGCCGATCCTTCGCTGGGCGACAAGCGCTCCACCAAGCAGGCCGGCCCACACCCGGCCCTTTCCGACCCCGCCGTGCGCCGTGCATTGTCGCTCGCCATCGACCGCGATGTCATCGACGAAGCGGGTTATGGCGAAGCGGGCAAGCCGACCTGCAACATCGTGCCGGCTCCGGAAGCCGTCGCTTCCACCAAGAATGACAGCTGGTGCCTGAAGCAGGATGTGGAAGGCGCAAACAAGCTGTTGGACGATGCCGGCTGGGTGAAGGGCGCCGATGGCATCCGCGCCAAGAATGGCGTGAAGCTCTCCTTCCTCTACCAGACCTCCACCAACTCGGTTCGCCAGGCCACGCAGGAACTGGTGAAGGACATGTGGTCGCAGATCGGCGTTGCCTCCGAACTGCGCAATGTCAGCGCCTCGGTCTTCTTCGGCGGCGACCCGGCAAGCCCGGATACCTTCCAGAAATTTTATGCCGATGTCGAAATGTACACCAACAATTTCGACGGCACGGACCCGGAAAAATATCTGGCGGAATGGCTGTGCGACAAGATCCCGGCCCCGGAAAACGGCTGGCAGGGCCAGAATATTCCGCGTTATTGCAACCCGGAATTCGACAAGCTGGTGGGTGAACTCTCCAAGACCGCCGAGCTTGCCAAGCGCGCGGAGATTTCAAAGCAGCTCAACGACATGCTGACGGAGGAAGGCGCGCATATTCCGCTCATCCACCGCGGCAGCGTTTCCTCGCATTCGCTAACGCTGGAAGGCGTTCGCATGAATGCCTGGGATTCGGAACTCTGGAACGTCGCGGACTGGTCCCGCAAGAAGTAA	MKKRSVLFASTVAAMALAGSAAHAERGSDGELKILFWQAVSTLNPYLSGGTKEVYSSSMVIEPLARYDEKGELVPMLVTEIPTIDNGGVAKDLLSMTWKLKSDVKWSDGTPFTAEDVIFTWKYCTAPDGGCAQAAQYEGVKNVEAVDAHTVKVSFTEPKPYPYSAFVGAQSPVIQKKQFEKCVGAAAPGCTSANFGPIGTGPFVVKDFKPNDVISFVANTNYRDPAKPAFATATLKGGGDAASAARAVLETGEFDYAWNMQVEPEILATMVAAGKGKLETAFGTQVERINLNWYNADPSLGDKRSTKQAGPHPALSDPAVRRALSLAIDRDVIDEAGYGEAGKPTCNIVPAPEAVASTKNDSWCLKQDVEGANKLLDDAGWVKGADGIRAKNGVKLSFLYQTSTNSVRQATQELVKDMWSQIGVASELRNVSASVFFGGDPASPDTFQKFYADVEMYTNNFDGTDPEKYLAEWLCDKIPAPENGWQGQNIPRYCNPEFDKLVGELSKTAELAKRAEISKQLNDMLTEEGAHIPLIHRGSVSSHSLTLEGVRMNAWDSELWNVADWSRKK	PGPT0004430_4126	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004430-ddpA|ABC_PE_S-K02035	NA	NA
BMS010_07369	1164	hipO_5	COG1473	Hippurate hydrolase	ATGCCGATATTGAACCGTGTGGCTGAAATGCAGGAAGAAGTTGCCGGCTGGAGGCGCCATCTGCATGAACACCCGGAACTGCTCTACGATGTCTTCGAAACATCGAAATTCGTGGCCGAAAAACTGAAATCCTTCGGCTGCGACGTCGTCGAGACCGGCATCGGCAAGACCGGCGTGGTCGGCATCATAAAGGGCCGGCACGGGGATGGCCCGACCATCGGTTTCCGCTCCGACATGGACGCGCTGCCGATCCTTGAGACGAGCGGCAAACCCTGGGCTTCGAAGACGCCGGGCAAGGCCCATTCCTGCGGTCATGACGGGCACACCGCCATGCTTTTGGGTGCGGCGCAATATCTGGCCGAGACCCGCAATTTCAAGGGCTCCGTGGCGGTGATTTTCCAGCCGGCGGAAGAGGGCGGCGCTGGCGCGCTCGCCATGCTGAACGACGGCATGATGGAGAAATTCGGCATTTCGCAGGTCTATGGCATGCATAACGAGCCGGGCATTCCGGTCGGCAATTTCGCCATCCGCAAGGGATCGACCATGGCGGCGGCGGATAGTTTCGAAATCGTCATCACCGGCAAGGGCAGCCATGCGGCCGCCCCACATCTTTCCATCGATCCTGTGCTGACCTCGGCGCATATCATCATCGCCCTGCAATCCATCGTCTCGCGGGAAACGGATCCGCTGAAATCGCTGGTCGTCACCGTCGCCACCACCCATGGCGGCACGGCCGTCAATGTCATTCCCGGTGCGGTGACGCTGACGGGAACGGTGCGCACTTTGCTGCCGGAAACCCGCGATTTCGCCGAAAAGCGCCTGAAGGAAGTGGCCACCGCCACCGCCATGGCGCATGGCGCCACCGTGGAGGTGAATTATCATCGCGGTTATCCCGTCACCTTCAACCACAGTGACGAGACCGAATTCGCGACCGGCGTGGCGATGGGCGTGGCCGGTGCGAACGCCGTCAACACCAATCCGAACCCGCATATGGGGGCGGAGGATTTCTCCTACATGCTGGAAGCACGCCCCGGCGCCTTCATCTTCATCGGCAATGGCGATACCGCCGGGCTGCACAATGCGGCCTATGATTTCAACGACGATGCGCTGCCTTACGGCATCAGCTACTGGGTTTCGATGGCCGAAACCGCACTTGCTGCGTAA	MPILNRVAEMQEEVAGWRRHLHEHPELLYDVFETSKFVAEKLKSFGCDVVETGIGKTGVVGIIKGRHGDGPTIGFRSDMDALPILETSGKPWASKTPGKAHSCGHDGHTAMLLGAAQYLAETRNFKGSVAVIFQPAEEGGAGALAMLNDGMMEKFGISQVYGMHNEPGIPVGNFAIRKGSTMAAADSFEIVITGKGSHAAAPHLSIDPVLTSAHIIIALQSIVSRETDPLKSLVVTVATTHGGTAVNVIPGAVTLTGTVRTLLPETRDFAEKRLKEVATATAMAHGATVEVNYHRGYPVTFNHSDETEFATGVAMGVAGANAVNTNPNPHMGAEDFSYMLEARPGAFIFIGNGDTAGLHNAAYDFNDDALPYGISYWVSMAETALAA				NA	NA	NA	NA	NA
BMS010_07370	1851	gsiA_8	COG1123	Glutathione import ATP-binding protein GsiA	ATGCTTTTGGCGGCAACGTCCATGGAACAGACCGGCGGTTCGGTAAGCCCGGTTTTATCGGTTCAAAATCTCACCACATCCTTCCGCGTCGATGGCGGCTGGAAATCCGTGGTCCGCAATATGAGTTTCGAGATCGCGCCGCGCGAAACGGTGGCGATCGTCGGCGAAAGCGGCTCCGGCAAGAGCGTTACCTCGCTCTCCATCATGCGGCTGCTCGATAAAAAGACGAGCCGCATCGAAGGCAAGGTCATGCTCGGCGGGCGCGACCTGCTGGCGCTGCCGGAAGAGGAGATGCGCAAGGTTCGCGGCAAGGACATTTCGATGATCTTCCAGGAGCCGATGACCAGCCTTAACCCGATCTTCCCGATCGGCAAGCAGATCGCCGAGGCGCTGACCGTGCATCAGGATATTTCCTCTTCCGCTGCGCGCGCCGAGGTCATCCGCCTGCTTGAGAAGGTCCGTATTCCCAATGCGAAGAACCGTTTCGACGATTATCCGCACCAGTTTTCCGGCGGCATGCGCCAGCGCGTGATGATCGCCATGGCGCTCGCCTCCAAACCGAAGCTGCTGATCGCCGACGAGCCGACAACGGCGCTCGACGTCACCATTCAGGGCCAGATTCTCGACCTCATCAAGACGCTGCAGGAAGAGGAGGGCATGTCGGTCCTGTTCATCACGCATGATATGGGCGTGGTGGCGGAAGTCTCGGACCGCACCATCGTCATGTTCCGCGGCGATGTGGTGGAAACCGGCACCACCGACGACATCTTCCATCGTGGCCGCCATCCTTATACGCGGGCGCTGCTTTCGGCGGTGCCGAAGCTCGGCTCGATGAAGGAGAGGGTGCTGCCGGCCCGTTTCCCGATCATCGATATCAAGACCGGCGAAAGCCAGCCCGTCGCGGAGGTGAAGGATACGGTCTCCGGCGGCCGCACGCCCATTCTTTCGGTCAAGGACCTCACCACCCGTTTCGATATCCGCACCGGCCTTTTCGGCCGCAAATCCGGCGCCGTGCATGCGGTGGAAAAGGTCTCCTTCGATCTCGCCGAGGGCGAAACCCTCTCGCTGGTGGGTGAATCGGGCTGCGGCAAGTCGACCACGGGCCGCTCCATCACCCGGCTGATCGAGCCGACATCCGGCAATGTCATGCTCGATGGTTACGAGGTGTTGAAGCTCGACAAGACGACGCTACGCACCATGCGCCGCAGCGTGCAGATGATCTTCCAGGACCCGTTCGCCTCGCTCGATCCGCGCATGAGCATCGGCACGGCGATTATGGAGCCCTTTATCGAGCATCGCCTCGGAACCAGGCAGCAGGCCCGCGAAAAGGCGGCTGATCTTCTGGAAAAGGTGGGCCTCAGCCCGGATATGATGCGGCGCTTCCCGCATGAATTTTCCGGCGGCCAGCGCCAGCGCATCGCCATTGCCCGCTCGCTGATGCTCGACCCCAAGGTCATCGTTGCCGACGAGGCGGTGTCAGCGCTCGATGTCTCGATCAAGGCGCAGGTCTGCAACCTGCTGCTCGACCTGCAACAGAGCCTAAACCTCGCTTTCCTGTTCATCAGCCATGACATGGCGGTTGTGGAGCGTGTCAGCCATCGTGTGGCGGTGATGTATCTCGGCGAGATCGTCGAGATCGGGCCGCGTGCGGCGGTTTTCGACAATCCGCAGCATCCCTATACGAAAAAGCTGATGTCCGCCGTTCCGGTGCCGGACCCGGCGCGGCGGCAGATCCGGCGCAACATGGCGACCGACGAGATCAAAAGCCCGATCCGGCCGGTGGATTACGTGCCGCCGCAGCGCCATTACCGCGAGGTTTCCGCCGGGCATCTGGTGCAGGAAGCGGCTTGA	MLLAATSMEQTGGSVSPVLSVQNLTTSFRVDGGWKSVVRNMSFEIAPRETVAIVGESGSGKSVTSLSIMRLLDKKTSRIEGKVMLGGRDLLALPEEEMRKVRGKDISMIFQEPMTSLNPIFPIGKQIAEALTVHQDISSSAARAEVIRLLEKVRIPNAKNRFDDYPHQFSGGMRQRVMIAMALASKPKLLIADEPTTALDVTIQGQILDLIKTLQEEEGMSVLFITHDMGVVAEVSDRTIVMFRGDVVETGTTDDIFHRGRHPYTRALLSAVPKLGSMKERVLPARFPIIDIKTGESQPVAEVKDTVSGGRTPILSVKDLTTRFDIRTGLFGRKSGAVHAVEKVSFDLAEGETLSLVGESGCGKSTTGRSITRLIEPTSGNVMLDGYEVLKLDKTTLRTMRRSVQMIFQDPFASLDPRMSIGTAIMEPFIEHRLGTRQQAREKAADLLEKVGLSPDMMRRFPHEFSGGQRQRIAIARSLMLDPKVIVADEAVSALDVSIKAQVCNLLLDLQQSLNLAFLFISHDMAVVERVSHRVAVMYLGEIVEIGPRAAVFDNPQHPYTKKLMSAVPVPDPARRQIRRNMATDEIKSPIRPVDYVPPQRHYREVSAGHLVQEAA	PGPT0004435_1463	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004435-ddpD-K02031	NA	NA
BMS010_07371	954	eryD_2	COG2390	Erythritol catabolism regulatory protein EryD	ATGGCCAGACGAAACGACGCACATGGACGGCTGGACGATGCGGCCCGTGCCGGCTGGCTTTATTATGTCGCCGGCCGCACGCAGGATGAGATCGCCGCCGCCATGGGCATTTCCCGGCAATCGGCGCAGCGGTTGGTGTCGCTTGCCGTTGCCGAGCGGTTGATCAAGGTTCGGCTCGATCACCCCATCGCCGCCTGTCTCGAAAAAGCCGAGCGGCTGAAAGAGAAATTCGACCTTAGATATATCGAAGTGGTGCCGAGCGATCCGGCCGGGGTCTCCTCAACTGTCGGCATTGCCGAGGCCGGGGCGGCGGAAATCGAGCGCTGGCTGAAGAATGCCGATCCCATCGTGCTCGCCATCGGTACCGGCCGTACCTTGAAGGCCGCCGTCGACCAGCTGCCGCCGATGGAATGCCCCCAGCATCGCATCGTGTCGCTGACGGGCAATATCGGGCCGGATGGCTCGGCCGCCTATTATAACGTCATCTTCAGCATGGCCGATGCCATCAAGGCACGGCATTTCCCAATGCCGCTGCCGGTCCTGTGTTCTTCTGCGGAAGAGCGCGAATTGTTGCACGACCAGTCCATGGTGCGCTCCACGCTGGCGCTGGGTTCTGCGGCCAATGTCACCTTCGTCGGTGTCGGCGAACTTGGCGAAAACGCACCGCTCTGCGTCGATGGTTTCCTCGGCGTGGATGAGATGAAGGCGCTGATGGCAAGCGGTGCCGTCGGCGAGATTTGCGGCTGGATGTATGATGCCAATGGCCGCATTCTCGAACATTCCGTCAACGAGCGCGTCGCCTCCGTTCCCATCCCTTCAAGAGAGACCTGCACCGTCATCGGCATGGCGCAGGGCGCACGCAAGAACGCCTCGATTCTGGCGGCGCTGAGGGGCGGTCTGCTGAACGGCCTCATCACCGATGAAGTCACAAGCGAATATTTGCTCACGCACTGA	MARRNDAHGRLDDAARAGWLYYVAGRTQDEIAAAMGISRQSAQRLVSLAVAERLIKVRLDHPIAACLEKAERLKEKFDLRYIEVVPSDPAGVSSTVGIAEAGAAEIERWLKNADPIVLAIGTGRTLKAAVDQLPPMECPQHRIVSLTGNIGPDGSAAYYNVIFSMADAIKARHFPMPLPVLCSSAEERELLHDQSMVRSTLALGSAANVTFVGVGELGENAPLCVDGFLGVDEMKALMASGAVGEICGWMYDANGRILEHSVNERVASVPIPSRETCTVIGMAQGARKNASILAALRGGLLNGLITDEVTSEYLLTH				NA	NA	NA	NA	NA
BMS010_07372	1314			hypothetical protein	ATGACATTGAAGACCATTTTGCTGGGCGCATGCTCGGCACTCGCCTTTTCGACCCTTGCTTCCGCCGAGACGCTGACCATCGCGACCGTGAACAACGGCGACATGATCCGCATGCAGGGTCTGACCTCAGACTTCACCACCAAGAACCCCGACATCAAGGTCGAGTGGGTGACGCTTGAAGAAAACGTCCTGCGTGAGCGCGTGACGACCGATATCGCCACCAATGGCGGCCAATACGACATCATGACCATCGGCAATTACGAAGTGCCGATCTGGGCCAAGCAGGGCTGGCTGCTGCCGCTCGAGAAGCTCGGCGACAAATATGATGTCGACGATCTGCTGCCGGCGATCCGCGGTGGCCTCTCCAGCGAAGGCAAGCTTTACGCCGCGCCCTTCTATGGCGAATCCGCCATGATCATGTATCGCAAGGACCTGTTCGAAAAAGCCGGCCTGAAGATGCCCGATAACCCGACCTGGGAATTCATCGGCGACGCTGCCCGCAAGATCACCGACCGCAAGGCCGATATCAACGGCATCTGCCTGCGCGGCAAGGCCGGCTGGGGCGAAAACATGGCCTTTATCAGCGCGCTCACCAACTCCTTCGGCGGCCGCTGGTTCGATGAAAACTGGAAACCGCAGTTCGATCAGCCTGAATGGAAGAGCTCCCTGCAGTTCTACGTCGATCTGATGAAAGATGCCGGCCCTTCCGGTGCATCCTCGAACGGCTTCAATGAAAACCTGACGCTGTTCCAGCAGGGCAAATGCGGCATGTGGATCGACGCTACGGTCGCCGCCTCCTTCGTCTCCAACCCGAAGGATTCCACCGTTGCCGACAAGGTCGGTTATGCCATCTTCCCGACGCATGGTGAGCTGAAGAACCACGGCAACTGGCTGTGGTCGTGGAACCTCGCGATCCCGAAGAGCTCGCAGAAGGCGGAAGCGGCCGAGAAGTTCATCTCCTGGGCAACCAGCAAGGAATATACCGAGCTCGTCGCTTCCAAGGAAGGCTGGGCAAATGTGCCTCCGGGCACCCGCACCTCGCTTTACAAGAATGCCGAGTATGAAAAGGCCGCCGCCTTCGCCAAGCCGACGCTTGCCGCGATGGATGCCGCTGACATCACCAAGCCGACCGTAAAGCCCGTGCCTTACACCGGCGGTCAGTTCGTGGCGATCCCTGAATTCCAGGCGCTCGGCACCACGGTCGGTCAGCTGTTCTCGGCGGTCGTTGCCGGTCAGTCCAGCGTTAATGATGCGCTTGCGGGCGCCCAGTCGACCGCGACGCGTGAAATGACCCGCGCCGGCTACATCAAGTAA	MTLKTILLGACSALAFSTLASAETLTIATVNNGDMIRMQGLTSDFTTKNPDIKVEWVTLEENVLRERVTTDIATNGGQYDIMTIGNYEVPIWAKQGWLLPLEKLGDKYDVDDLLPAIRGGLSSEGKLYAAPFYGESAMIMYRKDLFEKAGLKMPDNPTWEFIGDAARKITDRKADINGICLRGKAGWGENMAFISALTNSFGGRWFDENWKPQFDQPEWKSSLQFYVDLMKDAGPSGASSNGFNENLTLFQQGKCGMWIDATVAASFVSNPKDSTVADKVGYAIFPTHGELKNHGNWLWSWNLAIPKSSQKAEAAEKFISWATSKEYTELVASKEGWANVPPGTRTSLYKNAEYEKAAAFAKPTLAAMDAADITKPTVKPVPYTGGQFVAIPEFQALGTTVGQLFSAVVAGQSSVNDALAGAQSTATREMTRAGYIK	PGPT0016380_506	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MANNITOL|SORBITOL_TRANSPORT,PGPT0016380-smoE|mtlE-K10227	NA	NA
BMS010_07373	681			hypothetical protein	ATGCCTCATCAACAGAACTCCCGCCTCGGTCAGATTCTGCTCACTAAAGGGCTCATTACCCGCTCACAACTGGATGAGGCCATCACGCTTCAACTGACTAACAAGCAGCGCCTGGGCGAAATTCTGATCGCGCAAGGCCTGATCAGCGAACGTCAACTGAAGAAGGCCCTGAAGAAGCAGAACAACCTGCGTGTCGCCGCCACGCTGGTGGCCGCCCTGCTCAGCCCCTTCCAGATGGCCAGCGCGGATATCCAGCGATTGCAGGCACCGCACAGCATCAGCCGGCAGGAAGCCCCTCGCGGCCTGAAACCGCTGACCGACAAGGAACTGAGCAGCGTCAGTGCCCGGGGCTTGGACGATGTTCTGCAATCGTTGTTCCTCCAGGCGGAGAACGGCGATGGCCTGAGCACCATCAAGCAGTTATCCAGGCTAGTAATGCCAGTGCTGGATAGCCTCGAAGCGGAAACGTCCATCCAGGACGTGAAATACGACACCCAGCGTATGAGTTCGACGATCAGCCCGGACGGTACCGTCGAGGTTCGCCTACCCAGCTCGATCGGCGAGCTGCGCTTCGACAATATCCGCGTCGCCGGCGCGCCTCGCAATCAGAGTTTCGGCAACCTGCACCTGCAAGATATCGACCTGTCCCAGGCCTCACTCAAGATCAGCCTGCGCCATTAA	MPHQQNSRLGQILLTKGLITRSQLDEAITLQLTNKQRLGEILIAQGLISERQLKKALKKQNNLRVAATLVAALLSPFQMASADIQRLQAPHSISRQEAPRGLKPLTDKELSSVSARGLDDVLQSLFLQAENGDGLSTIKQLSRLVMPVLDSLEAETSIQDVKYDTQRMSSTISPDGTVEVRLPSSIGELRFDNIRVAGAPRNQSFGNLHLQDIDLSQASLKISLRH				NA	NA	NA	NA	NA
BMS010_07374	897	xerD_3	COG4974	Tyrosine recombinase XerD	ATGCCAGCCATCGACCACCCACTGATCGACCGTTTCCTCGAATCCCTCTGGATGGAAAAGGGCTTGTCCGCCCATACCCTGTCCGCCTACCGCAGCGATCTTTCCCTGTTCCATGGTTGGTTGCAGGAGCGCGATATCGAACTGGCGAAGGCGGGGCGCGATGCGATTCTGGATCACTTAGGATGGCGTCTCGACAATGGCTATAAGGCGCGCTCTACGGCGCGTTTCCTTTCTGGTTTGCGCGGGTTCTATCGTTTCCTGCTGCGCGAGAGCGTGATCGAAGTCGACCCTACCTTGCAGGTAGAGCTTCCCCAACTCGGCCGTCCTTTGCCGAAGTCGTTGTCCGAGGCGGATGTGGAGGCGCTGCTGGCGGCGCCGGAGCTGGACGATCCCATCGGCCTGCGCGACCGGGCCATGCTCGAGGTTCTCTATGCCTGCGGTCTGCGGGTCACCGAGCTGGTCAGTCTGACGTTGGAGCAGGTCAATCTGCGCCAGGGAGTATTGCGAGTGTTCGGCAAGGGCAGCAAGGAGCGCCTGGTGCCGATGGGGGAGGAGGCGATCGTCTGGGTCGAGCGTTATCTGCGCGAAGCGCGGTCTTTTCTGCTGGATGGCAAGCCGAGCGATGTGCTGTTCCCCAGCCTGCGGGGCGAGCAGATGACCCGTCAGACCTTTTGGCACCGGATCAAGCACCAGGCGCGCGTTGCCGGGATCATGAAGCCCTTGTCGCCGCACACGTTGCGGCACGCGTTCGCCACTCATCTGCTGAACCATGGCGCTGATCTGCGGGTGGTGCAGATGCTGCTTGGCCACAGCGACCTGTCGACTACCCAGATCTATACTCATATAGCCCGCGCCCGTTTGCAGGAGCTGCATGCTCGGCATCACCCGCGCGGTTAG	MPAIDHPLIDRFLESLWMEKGLSAHTLSAYRSDLSLFHGWLQERDIELAKAGRDAILDHLGWRLDNGYKARSTARFLSGLRGFYRFLLRESVIEVDPTLQVELPQLGRPLPKSLSEADVEALLAAPELDDPIGLRDRAMLEVLYACGLRVTELVSLTLEQVNLRQGVLRVFGKGSKERLVPMGEEAIVWVERYLREARSFLLDGKPSDVLFPSLRGEQMTRQTFWHRIKHQARVAGIMKPLSPHTLRHAFATHLLNHGADLRVVQMLLGHSDLSTTQIYTHIARARLQELHARHHPRG	PGPT0022000_6254	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0022000-xerD-K04763	NA	NA
BMS010_07375	726	dsbC	COG1651	Thiol:disulfide interchange protein DsbC	ATGCGCCTGACCCCCTTATTCGCTGCCATGGCGTTCAGCCTGGCCAGCGGCACGGCCCTTTCCGCCGATCCGGATCAGGCCATTCGCCAGAATCTGACGAAGCTCCAGCCTGACCTGCCGATCGAAGCCATCGCCGAAAGCCCCATGCCGGGGCTGTATCAGATCCAGTTGAAAGGCGGCCGCATGCTGTACGCCAGCGCCGACGGCCAGTTCGTCATGCAGGGCTATCTGTTCCAGCTCAAGGACGACAAGACCATCAACCTCACCGAAGAGGCGGAAAAGGTAGGCGTCGCCAAGGAAATCAACGCCATTCCCGTCAGCGAAATGGTGGTGTTCGCGCCCAAGGAGCCGAAGACTCACATCACCGTCTTCACCGACACCGATTGCGGCTATTGCCAGAAACTGCACAGCGAAGTCCCGGAGCTGAATCGCCGTGGCGTCGAGGTGCGTTATGTCGCTTTCCCGCGCCAGGGTGTCGGCTCCCATGGTTACAACGGGCTGGTCAGCGTCTGGTGTGCCAAGGATCGCCAGGAGGCGATGAACAAGGCCAAGTCCCGCCAGGAGCTGCCCCCGGGCAACTGCGAGAATCCGGTGGCCAAGCAATTCCAGCTCGGGCAGATGATCGGTGTGCAGGGGACGCCTGCCATCGTCCTGGCCAACGGCCAGATGATCCCGGGCTACCAGCCGGCCCCTCAGTTGGCCAAGCTGGCCTTGGAAGCGAAGTGA	MRLTPLFAAMAFSLASGTALSADPDQAIRQNLTKLQPDLPIEAIAESPMPGLYQIQLKGGRMLYASADGQFVMQGYLFQLKDDKTINLTEEAEKVGVAKEINAIPVSEMVVFAPKEPKTHITVFTDTDCGYCQKLHSEVPELNRRGVEVRYVAFPRQGVGSHGYNGLVSVWCAKDRQEAMNKAKSRQELPPGNCENPVAKQFQLGQMIGVQGTPAIVLANGQMIPGYQPAPQLAKLALEAK	PGPT0030050_911	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-CONJUGAL_TRANSFER_PILUS_ASSEMBLY_PROTEIN,PGPT0030050-dsbC-K03981	NA	NA
BMS010_07376	489			hypothetical protein	ATGAAACTGGAAGGCTCCTGCCACTGTGGCGCCGTCCGCTTCTCCCTGGAGTCGGCGCAACCCTATCCCTTCATGCGCTGCTACTGCTCGATCTGCCGCAAGACGGCGGGGGCAGGCGGCTTCGCCATCAACCTCGGCGGCGACTACCGCACACTGCAGGTGGACGGTCGCGAAAATCTCTCGGTCTATCGCGCCCGGATGAGCGACGAGCCGGGTGAGGCGGGGCTCAGCTCCGCCCGTCGGCATTTCTGCAAGCACTGCGGCAGTGCGCTCTGGCTGTGGGACCCGACCTGGCCGGATCTGGTCCACCCTCATGCTTCGGCGATCGATACTCAACTGCCCGTTCCTCCGGAGCATGTGCATCTGATGCTCGGTTCCAAGGCCACCTGGGTAGAAGTTCAGCGAGGCGCGCACGACAAGCTGTTCGACGAGTACCCGGACGAATCGCTCGCCCAGTGGCACGAACGCCTCGGCCTGACCGCCGACTGA	MKLEGSCHCGAVRFSLESAQPYPFMRCYCSICRKTAGAGGFAINLGGDYRTLQVDGRENLSVYRARMSDEPGEAGLSSARRHFCKHCGSALWLWDPTWPDLVHPHASAIDTQLPVPPEHVHLMLGSKATWVEVQRGAHDKLFDEYPDESLAQWHERLGLTAD				NA	NA	NA	NA	NA
BMS010_07377	1305	hom_2	COG0460	Homoserine dehydrogenase	GTGAAACCGGTGAAAGTAGGCATCTGTGGGCTGGGGACCGTCGGTGGCGGCACCTTCAACGTTCTGAAACGCAACGCCGATGAAATCGCGCGCCGCGCCGGCCGTGGCATCGAAGTCGCCCAGATTGCCGCCCGTCGACCCAACCCGAAGTGCGATACCGGTGCCACCCCCATCACCGCCGATATCTTCGAGCTCGCCAACAATCCGGAAATCGACATCGTCATCGAGCTGATCGGTGGCTACACTCTGGCCCGCGATCTGGTCATGAAGGCCATCGAGAACGGTAAGCACGTGGTCACCGCAAACAAGGCGCTGATCGCCGTGCATGGCAACGAGATTTTTGCCAAGGCCCGCGAGAAGGGCGTGATCGTCGCCTTCGAGGCGGCGGTGGCGGGCGGTATCCCGGTGATCAAGGCGATCCGCGAAGGCTTGGCCGGCAACCAGATCAACTGGCTGGCCGGCATCATCAACGGCACCGGCAACTTTATCCTGACCGAGATGCGCGAGAAGGGCCGTGCCTTCGAAGACGTGCTCAAGGAAGCCCAGGCGCTGGGCTATGCCGAGGCCGACCCGACCTTCGACGTCGAAGGCATCGACGCCGCACACAAGCTGACCATCCTCGCGTCCATCGCCTTCGGCATCCCGCTGCAGTTCGATAAGGCCTACACGGAAGGCATCACCAAACTCACCACGGCCGACGTCAACTACGCCGAAGCCCTGGGTTACCGGATCAAGCACCTCGGCGTGGCGCGCCGCACCGAGGGAGGCATCGAATTGCGTGTGCATCCGACGCTGATTCCGGCCGACCGCCTGATCGCCAACGTCAACGGTGTGATGAACGCGGTGATGGTCAATGGCGATGCTGTTGGCTCGACTCTTTACTATGGCGCCGGTGCCGGTATGGAACCGACCGCTTCGGCGGTGGTGGCCGACGTGGTCGATGTGGTTCGCGCCCTGACCACCGACCCGGGCAACCGTGTGCCGCACCTGGCCTTCCAGCCCGATTCGCTGTCCGACCATCCGATCCTGCCGATCGAGTCCTGTGTCAGTGCCTATTACCTGCGCATCCAGGCCAAGGATCATCCGGGCGTGTTGGCCCAGGTGGCGACCATCCTTTCCGAGCGCGGCATCAACATCGAGTCGATCATGCAGAAGGAAGCCGAGGAGCATGACGGTCTGGTGCCGATGATCCTGGTCACCCATCGCGTCGAGGAGCGGCGGATCAACGAGGCCATCGCGGCACTGGAAGCGCTCAGCGACGTGGTGGGCAAGGTCGTCCGCATCCGCGTGGAACAGCTCAATTAA	MKPVKVGICGLGTVGGGTFNVLKRNADEIARRAGRGIEVAQIAARRPNPKCDTGATPITADIFELANNPEIDIVIELIGGYTLARDLVMKAIENGKHVVTANKALIAVHGNEIFAKAREKGVIVAFEAAVAGGIPVIKAIREGLAGNQINWLAGIINGTGNFILTEMREKGRAFEDVLKEAQALGYAEADPTFDVEGIDAAHKLTILASIAFGIPLQFDKAYTEGITKLTTADVNYAEALGYRIKHLGVARRTEGGIELRVHPTLIPADRLIANVNGVMNAVMVNGDAVGSTLYYGAGAGMEPTASAVVADVVDVVRALTTDPGNRVPHLAFQPDSLSDHPILPIESCVSAYYLRIQAKDHPGVLAQVATILSERGINIESIMQKEAEEHDGLVPMILVTHRVEERRINEAIAALEALSDVVGKVVRIRVEQLN	PGPT0020155_1719	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020155-hom-K00003	NA	NA
BMS010_07378	1410	thrC_2	COG0498	Threonine synthase	ATGCGTTACATCAGTACCCGCGGCCAGGCGCCTGCGCTGAATTTCGAAGACGTGCTCCTCGCTGGCCTGGCCAGCGACGGCGGTCTCTACGTTCCGGAAAACCTGCCGCGCTTCACCCAGGAAGAAATCGCCTCCTGGGCTGGTCTGCCGTACCACGAGCTGGCCTTCCGCGTGATGCGTCCGTTCGTGACCGGCAGCATTCCGGATGCGGATTTCAAGAAGATTCTGGAAGAGACCTATGGCGTCTTCGCGCACGCCGCGGTAGCGCCGCTGCGTCAGTTGAACGCGAATGAATGGGTGCTCGAACTGTTCCACGGGCCGACCCTGGCGTTCAAGGATTTCGCCCTGCAACTGCTCGGCCGTCTGCTCGACTACGTACTGGAAAAGCGTGGCGAGCGCGTGGTGATCATGGGTGCCACCTCCGGCGACACCGGCTCCGCCGCCATCGAAGGCTGCCGCCGTTGCGAGAACGTGGATATCTTCATCCTGCACCCGCACAACCGGGTATCCGAAGTGCAGCGCCGGCAGATGACCACCATCCTTGGCGAAAACATCCACAACATTGCCATCGAGGGGAACTTTGACGACTGCCAGGAGATGGTCAAGGCTAGCTTTGCCGATCAGGGTTTCCTCAAGGGCACCCGGCTGGTGGCGGTCAACTCGATCAACTGGGCGCGGATCATGGCCCAGATCGTCTATTACTTCCATGCCGCCATCCAGTTGGGTGGGCCGGCGCGTTCGGTAGCGTTCTCCGTGCCTACCGGCAACTTTGGTGACATCTTCGCCGGCTATCTGGCGCGCAACATGGGCCTGCCGATCAGTCAGTTGATCGTCGCGACCAACCGCAACGACATCCTGCACCGCTTCATGAGCGGCAACCAGTACGTGAAGGATGCCCTGCATCCGACCCTGTCGCCGTCGATGGATATCATGGTGTCCTCGAACTTCGAGCGCCTGCTGTTCGACCTGCACGGGCGTAACGGCGCCGCCATCGCTGCACTGATGGATACCTTCAAGCAGGGTGGCGGTTTCAGTGTCGAGGAAGACCGCTGGACCGAGGCGCGCAAGCTGTTCGATTCCCTCGCTGTGAACGACGAACAGACCTGCGAAACCATCGCCGAGGTTTACAAGGAGTGCGGTGAGTTGCTCGATCCGCACACAGCGATTGGCGTGCGTGCCGCGCGCGAGTGCCGCCGTAGCCTGGCGATTCCGATGATCACCCTGGGCACTGCACACCCGGTGAAATTCCCCGATGCCGTGCTCAAAGCGGGTGTCGGTCAGGCCCCGGCGTTGCCGGCGCACCTCACTGATCTGTTCGAGCGCGAAGAGCGGTGCACGATCCTGGCCAATGATCGCAAGGCTGTCCAAGCCTTCGTCAGCCAGCACGGCAATCGCGGTAAGCCGCTCTGA	MRYISTRGQAPALNFEDVLLAGLASDGGLYVPENLPRFTQEEIASWAGLPYHELAFRVMRPFVTGSIPDADFKKILEETYGVFAHAAVAPLRQLNANEWVLELFHGPTLAFKDFALQLLGRLLDYVLEKRGERVVIMGATSGDTGSAAIEGCRRCENVDIFILHPHNRVSEVQRRQMTTILGENIHNIAIEGNFDDCQEMVKASFADQGFLKGTRLVAVNSINWARIMAQIVYYFHAAIQLGGPARSVAFSVPTGNFGDIFAGYLARNMGLPISQLIVATNRNDILHRFMSGNQYVKDALHPTLSPSMDIMVSSNFERLLFDLHGRNGAAIAALMDTFKQGGGFSVEEDRWTEARKLFDSLAVNDEQTCETIAEVYKECGELLDPHTAIGVRAARECRRSLAIPMITLGTAHPVKFPDAVLKAGVGQAPALPAHLTDLFEREERCTILANDRKAVQAFVSQHGNRGKPL	PGPT0009175_1987	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0009175-thrC-K01733	NA	NA
BMS010_07379	264			hypothetical protein	ATGAATCGACCGGACAGACCGCTGCCGCCCGAGGCCATTGCGACTCTGCGACAAGGCGGCCGACAGGAAGCCATCGAATTGCTCCGCGAGCAGAGCGGCATGGATGAGGACAGTGCTCGCGAAGCGGTCGACGACTATCTGGAGAACAACCCGCCGGTACGCCTGCGCGGCGCCTCGATCGTTGCGCAGAACAGGCGCAACGGGCTGATCTGGTTCATCTTTATCGTGCTGATGGCCGGCGTTTATCTTTTGATCGCCGGCTAG	MNRPDRPLPPEAIATLRQGGRQEAIELLREQSGMDEDSAREAVDDYLENNPPVRLRGASIVAQNRRNGLIWFIFIVLMAGVYLLIAG				NA	NA	NA	NA	NA
BMS010_07380	1200	smtB	COG1804	Succinyl-CoA--L-malate CoA-transferase beta subunit	ATGAGCCTCTCCGCCAAACCCCTCGCCGGCCTGAAAGTCATCGAACTCGGCACCCTGATCGCCGGCCCGTTCGCCTCGCGAATCTGCGCCGAGTTCGGCGCGGATGTGATCAAGATCGAATCACCCGACGGCGGCGACCCGCTGCGCAAGTGGCGCAAGCTCTATGAAGGCACGTCGCTCTGGTGGTTCGTACAGGCGCGCAACAAGAAGTCGCTGACGCTGAACCTCAAGCACCCTGAGGGGCAGGCCGTCCTGAAGCGGCTGCTCGGCGAGGCGGATATCCTGATCGAGAATTTCCGCCCCGGCGTGCTGGAGAAACTCGGGCTGGGCTGGGACGTCCTCCATGCCCTGAACCCGAAGCTGGTCATGGTGCGCCTCTCCGGCTTCGGCCAGACCGGCCCCTACAAAGACCAGCCGGGTTTCGGCGCCGTGGGCGAATCCATGGGCGGACTGCGCTACATCACCGGATTCGAGGATCGCCCACCGGTGCGCACCGGCATTTCCATCGGCGACTCGATCGCCGCGCTCTGGGGGGTGATCGGCGCGCTCATGGCTCTGCGGCATCGCGAGGTGAACGGCGGCCAGGGCCAGGTGGTGGATGTGGCGCTGTACGAGGCGGTGTTCGCCATGATGGAAAGCCTGGTGCCGGAGTTCGACGTCTTCGGCTTCATCCGCGAGCGCAGCGGCAACATCATGCCGGGCATCACGCCCTCCTCCATCCACACCTGTGCCGACGGTCGGCACATTCAGATCGGCGCCAACGGCGATGCCATCTTCAAGCGCTTCATGCTCGCCATCGGCCGCGACGACTTGGCGAACGACCCGACCCTGACCGACAACGCCAGCCGCGATCTGCGTCGGGATGAACTCTACGGGGTGATCGACCGCTGGGCCGCCTCACTGCCATTGGCCGAGGTGGAGGCTATCCTGAACAGGGCGGAGGTTCCGGCAAGCCGAATCTATTCCGCCGCCGACATGTTCGCCGACCCGCAATTCCTGGCGCGGGAAATGTTCCTTTCCGCCCGCCTGCCGGACGGCAAGGCGTTCAAGATGCCGGGAATCGTGCCCAAGCTCTCCGATACCCCGGGCTCGGCGGAATGGGTGGGGCCGCAACTGGGCGAGCACACCGCCGAAGTGCTGGAAGGGCTCGGCTACACGGCGCAGCAGATCGCCGTCTTGCGTGAGCAGGGTGCGGTCTGA	MSLSAKPLAGLKVIELGTLIAGPFASRICAEFGADVIKIESPDGGDPLRKWRKLYEGTSLWWFVQARNKKSLTLNLKHPEGQAVLKRLLGEADILIENFRPGVLEKLGLGWDVLHALNPKLVMVRLSGFGQTGPYKDQPGFGAVGESMGGLRYITGFEDRPPVRTGISIGDSIAALWGVIGALMALRHREVNGGQGQVVDVALYEAVFAMMESLVPEFDVFGFIRERSGNIMPGITPSSIHTCADGRHIQIGANGDAIFKRFMLAIGRDDLANDPTLTDNASRDLRRDELYGVIDRWAASLPLAEVEAILNRAEVPASRIYSAADMFADPQFLAREMFLSARLPDGKAFKMPGIVPKLSDTPGSAEWVGPQLGEHTAEVLEGLGYTAQQIAVLREQGAV	PGPT0002130_581	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0002130-frc|yfdW-K07749	NA	NA
BMS010_07381	543	yaeQ	COG4681	putative protein YaeQ	ATGGCCCTGCAAGCCACGCCCTATAAAGTCGAACTGAACCTCACCGATCTGGATCGCGGGGTGTACGAGAACCTGCGTTTCACTGTGGCCCGCCATCCTTCGGAGACCGAGGAGCGGTTGGCGGTTCGGTTGATCGCTTATGCGCTGTGGTACAGCGAGTCGCTGGCGTTCGGGCGCGGGCTGTCGGATGTCGACGAGCCGGCGTTGTGGGAGAAGAGCCTGGATGATCGTGTCCTGCACTGGATCGAAGTCGGCCAGCCGGACGCCGAGCGCATCACTTGGTGCTCGCGTCGCACCGAGCGCTTCAGTCTGGTGGCCTATGGCAGCCTACGCGTCTGGCAGGGCAAGGTGCTGGATTCGGTTCGCGGGCTGAAGAACCTCAACGTGGTAGCGGTGGGGCAGGAGGCGCTGGAAGCGCTGGCAGCCGACCTGCCGCGCTCGCTGAGCTGGAGTGTGATGATCAGCGAGGGTTCGCTGTTCATTACCGACGAGCGCGGCCAGCATGAAATCCCTCTGGGGTGGCTGGCCGGCGAGCGCGGCTGA	MALQATPYKVELNLTDLDRGVYENLRFTVARHPSETEERLAVRLIAYALWYSESLAFGRGLSDVDEPALWEKSLDDRVLHWIEVGQPDAERITWCSRRTERFSLVAYGSLRVWQGKVLDSVRGLKNLNVVAVGQEALEALAADLPRSLSWSVMISEGSLFITDERGQHEIPLGWLAGERG				NA	NA	NA	NA	NA
BMS010_07382	1227			hypothetical protein	ATGCAACCCATCTCCGCTCCCTACAGCGCTCCCCCGGCATCCCAACGCAGCGTGCTGCGCGGCGCCATTTTCATCATGGCGACCTCATCGATCGGCCCGGCCTTCCTGACCCAGACCTCGCTGTTCACCGAGAAATACCTGGCCAGCTTCGCCTTCGCGATCCTCATCTCGCTGCTGATCGACATCGGCGCGCAGCTGAATATCTGGCGCATCATCAGCGTCTCCAACCTGCGCGGCCAGGATGTCGCCAACCGGGTACTGCCCGGAGTCGGCCACCTGATCTCGGCCTTCATCGTGCTCGGAGGGATCGCCTTCAACATCGGCAATATCGGTGGGGCCGGATTGGCGATGAATGTGATCTTCGGCGTGCCACCCGTGCTCGGCTCGCTGATCGCCGCCGTGGGCGTGATCGCCATCTTCGTGATGCGCAACGCCAAGCGGATCATGGACATGGTGATGCAACTGCTCGGCGTGATCATGTTGTGCATGATCGGCTACGCCATGCTGCAGTCCAACCCGCCGCTCCTGGAGGCGCTGTCGCACAGCATCAACCCGGACGATCCGCTGATTCTCCTGCTCCCCATCGTCACCCTGGTCGGCGGCACGGTGGGCGGCTATATCTCGTTCTCCGGTGGGCATCGCCTGGTCGAAGCCGGGATCGTCGGCATCCACAATGTCGGCCACGTCACCCGCGCGGCGGTCACCGGCATCCTGACCACCGGTGTGGTACGCGTCTGCCTATTCCTCGCCACCCTCGGCGTGGTCAGCAAAGGGCTTGCCCTGGACCCGGGCAATCCGGCGGCCTCGGTGTTCTCCCATGCCATGGGCACCGTCGGCTACAAGATGTTCGGCATCGTCCTGCTGGCCGCATCGGTGTCCTCGGTGATCGGCGCCGCCTACACCAGCGTCAGCTTCATGTACTCGCTGCATGACAGCATCCGTCGCTACAACGAACGGGTGGTGATCGCCTTCATCGTCTGCTCGACGCTGATCTACAGCCTGGTCGGGCAGCCGGTGAAGGTGCTGGTGGTGGCCGGCGCGCTCAATGCGTTGGTCCTGCCGCTGGCCCTGGGCTGCATCCTCTGGGCCTCGCGGAAGGTGGAGATCGTCGGCACCGAATACCGTCACCCGCGCTGGATGCTGGTGTTCGGCATCCTGGCGGTCATCGCCACGGCGGTCGGCGTGGTGCTGTCGTTCAAATCGCTGCTGCAGTTCTGGCTGTCGTGA	MQPISAPYSAPPASQRSVLRGAIFIMATSSIGPAFLTQTSLFTEKYLASFAFAILISLLIDIGAQLNIWRIISVSNLRGQDVANRVLPGVGHLISAFIVLGGIAFNIGNIGGAGLAMNVIFGVPPVLGSLIAAVGVIAIFVMRNAKRIMDMVMQLLGVIMLCMIGYAMLQSNPPLLEALSHSINPDDPLILLLPIVTLVGGTVGGYISFSGGHRLVEAGIVGIHNVGHVTRAAVTGILTTGVVRVCLFLATLGVVSKGLALDPGNPAASVFSHAMGTVGYKMFGIVLLAASVSSVIGAAYTSVSFMYSLHDSIRRYNERVVIAFIVCSTLIYSLVGQPVKVLVVAGALNALVLPLALGCILWASRKVEIVGTEYRHPRWMLVFGILAVIATAVGVVLSFKSLLQFWLS	PGPT0020786_17	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_BRANCHED-CHAIN_AMINO_ACID_TRANSPORT,PGPT0020786-ycsG-NA	NA	NA
BMS010_07383	912	pxpC_3	COG1984	5-oxoprolinase subunit C	ATGAGCCTGCTGATCGAACACGGCGGCACGCTCGCCACGCTCCAGGACGGTGGCCGTCATGGCGTGCGTCATCTGGGCGTGACCCAGGGCGGCGCGGCGGACTGGGTCTCCCACGGATTGGCCAACGCGCTGCTCGGCAATCCTCGCCAGGCGGCAGCCATCGAAATCACCTTCGGTGGACTCACGTTGGTAGCGGAAAGCGATGTCTGCCTCGCCCTGTGCGGTGCCGATCTGGGCGCCACTATCGACGGCGAGCCGCTGCGCCCTTGGCGCAGCTTTCGCCTCCACAAGGGGCAGCGCCTGCGCTTCGCCCAACCGCGTCAGGGTGTGCGCGCCTACCTGGCCGCACCCGGCGGCTTCGAAGCGCCGACTATGCTGGGCAGTTGTTCCAGCGTCCTGCGCGAAGGGCTGGGCGGCCTGCGCGGCGACGGCCGACCGTTGGCCGAAGGCGATCGCCTGAACTGGCCCGGCGTTTCACCCTCGCCCCGCGAGTTACCCGCCGCGCAGATTCCCGACTTCGGTTCGCCAGCGCCGCTGTCCGTGGTGCTGGGCGCGCAGATCGGCGACTTCACCGGGCAGAGCCTGTTCGACGCCTTCAACAGCGACTGGGAAGTGGACGCCCGGGCAGACCGGATGGGCGTCCGCCTGCTCGGGCCGGAGCTGCGCTGCACGCGGCGTTCGATGGTCTCGGAAGGCGTCCCGCTGGGCGCCCTCCAGGTGCCGGCCGACGGCCAGCCCATCGTGCTGCTCAACGACCGGCAGACCATCGGCGGCTACCCACGCCTCGGCGCGCTGACGCCTCTCTCGGTGGCACGCCTGGCCCAGTGCCTGCCCGGCACCCGGCTACGGCTGACGCCGGTCGGGCTGGACATCGCTCAACGCCAGCACCGCCGCTGGCTCGGAGCGACCTGA	MSLLIEHGGTLATLQDGGRHGVRHLGVTQGGAADWVSHGLANALLGNPRQAAAIEITFGGLTLVAESDVCLALCGADLGATIDGEPLRPWRSFRLHKGQRLRFAQPRQGVRAYLAAPGGFEAPTMLGSCSSVLREGLGGLRGDGRPLAEGDRLNWPGVSPSPRELPAAQIPDFGSPAPLSVVLGAQIGDFTGQSLFDAFNSDWEVDARADRMGVRLLGPELRCTRRSMVSEGVPLGALQVPADGQPIVLLNDRQTIGGYPRLGALTPLSVARLAQCLPGTRLRLTPVGLDIAQRQHRRWLGAT				NA	NA	NA	NA	NA
BMS010_07384	699	pxpB_3	COG2049	5-oxoprolinase subunit B	ATGACGCCGCGCATCGAAGTGGTGGGCATCGATAGCCTGATACTGCGGCTGTTCGACAGCATCGACGAGGCGCACATGCCCTGGATGCTGGCAGCGGCGAAGCGTCTGCGCCAGGCCTTCGGCGCGGCACTGACGGATCTGGTGCCGTCCTACACCACGCTGCTGGTGCAATACGACCTCCTGCAACTGGACGATCGCCGTGCCCGTACGCTGATCGACGAAGCCCTGGAAGGACTGACGCCGGAAGCGGGCGACGCAGGCCGCTGCCATGACGTGCCGGTGTGGTACGACCGCCGCGTCGGCCCGGAACTGGAGACGCTCGCCGAACGCAGCGGTCTTGGCGTCGCAGGGGTGATCGAAGCCCACTGCCGGAACAGCTACCAGGTGTTCGCCCTCGGATTCGCCCCCGGCTTCGCCTTCATGGGGCTGGTCGAACCCATCCTCGCCACGCCGCGCCTGAGCACTCCGCGCAAACGCGTGCCGGCCGGCAGCCTGGGCATCGCCGATCGCCAGACAGCGATTTATCCACAAGCGTCCCCCGGCGGCTGGAACCTGATCGGCCGCTCTCCGCTGCGCCTGTTCGACCCTGCCGAGGGTAGCCTGCTCCAACCCGGCGACCGCGTACGCTTCATGCCGGTGGACCGCGCGGAATTCATCCGCCTCGGCGGCGATGACACGCCTTTCGAGGTGACGCGATGA	MTPRIEVVGIDSLILRLFDSIDEAHMPWMLAAAKRLRQAFGAALTDLVPSYTTLLVQYDLLQLDDRRARTLIDEALEGLTPEAGDAGRCHDVPVWYDRRVGPELETLAERSGLGVAGVIEAHCRNSYQVFALGFAPGFAFMGLVEPILATPRLSTPRKRVPAGSLGIADRQTAIYPQASPGGWNLIGRSPLRLFDPAEGSLLQPGDRVRFMPVDRAEFIRLGGDDTPFEVTR				NA	NA	NA	NA	NA
BMS010_07385	750	pxpA3_2	COG1540	5-oxoprolinase subunit A 3	ATGAGCCGCCTGCTCCTGAACTGCGACATCGGCGAAAGCTTCGGCGCCTGGCGCATGGGCCTTGATGCCGAGGTAATGCCCTTCATCGATTGCGCCAACATCGCCTGCGGCTTCCACGCGTCGGACCCGGTCACCATGCACCGCACCGTCGCCCTGGCGGTGGCCCATGGCGTACGCATCGGCGCCCACCCTGCCTACCCCGACCTGGTCGGCTTCGGCCGCCGTTCCATGGCCTGCTCCCCGGAAGAAGTGGAAAACATGCTGCTCTACCAGATCGGTGCGCTGGACGGCATCTGCCGTGCCGAGGGCAGCCGGGTGAGCTACGTGAAGCCCCACGGCGCGCTGTACAACGACATGATGCGCGACCCGGAACTGCTGCGTGCCGTGATGCGCGCCATCGCCGCCTACGACCGGCAGCTCCCGCTGATGCTGATGTCCACCCGCGACAACACCGTCGCCGAGTCGCTGGCCAGGGAGATCGGGATCACCCTCTGGTTCGAGGTGTTCGCCGACCGCGCCTACGACAGCGCGGGCCGACTGGTCTCGCGTAAGCAACCCGGCGCGGTCCATCACGACGCCGAGACCATCGCCGCCCAGGCCCTCGCCCTGGCCCGTGGCGAACCGCTGGTCGCCAGCGACGGCAGCACGCTGCCGTTGCGAGCCGACACCCTGTGCGTACACGGCGACAACGCCGGCTCGGTCGCCGCGGTCCAGCGCATTCGCGAAGCGCTGCAGGGCCTGCCGGCATGA	MSRLLLNCDIGESFGAWRMGLDAEVMPFIDCANIACGFHASDPVTMHRTVALAVAHGVRIGAHPAYPDLVGFGRRSMACSPEEVENMLLYQIGALDGICRAEGSRVSYVKPHGALYNDMMRDPELLRAVMRAIAAYDRQLPLMLMSTRDNTVAESLAREIGITLWFEVFADRAYDSAGRLVSRKQPGAVHHDAETIAAQALALARGEPLVASDGSTLPLRADTLCVHGDNAGSVAAVQRIREALQGLPA				NA	NA	NA	NA	NA
BMS010_07386	528			hypothetical protein	ATGGTTGACGCCAAATCCTCCCGTCCGTTGCGCTCGCCCATCGTGGCGTCGGCGCACCTCGCCGCGCAGTCCCAGGAACTCTCCGAACTCGAATTCGGCATCATCATCGCCAGCCATGCCTTCCTGCGCTGGATGGAGCGCTGCATGAAGGCCGCCGGCGAGGTGGAAATGAACGCACTGGACGTGATGGTGCTGCACAGCCTGACCAGCCGGGACCGCGCCAAGCGTCAGGCGGATATCTGCCTGCTGCTCAATATCGAAGACACCCACACGGTGACCTACGCGCTGAAGAAACTGGCCAAGCTCGGCCTGGTGGAAGGCGAGAAGCAGGGCAAGGAAATGTTCTACCGCACCACCGACAAAGGTCGGCAGCTCTGTCAGGAGTACGCCGACATCCGCCGCGAATGCCTGATCGCATCGTTCGAGAACCTGAATGTCGACCCGGAGGAAATCCACCGTCTGGCCGGCATGCTGCGGGCCATGTCCGGGCTGTACGACCAGGCGGCGCGTGCCGCGACGTCGCTCTGA	MVDAKSSRPLRSPIVASAHLAAQSQELSELEFGIIIASHAFLRWMERCMKAAGEVEMNALDVMVLHSLTSRDRAKRQADICLLLNIEDTHTVTYALKKLAKLGLVEGEKQGKEMFYRTTDKGRQLCQEYADIRRECLIASFENLNVDPEEIHRLAGMLRAMSGLYDQAARAATSL				NA	NA	NA	NA	NA
BMS010_07387	1716	recJ_2	COG0608	Single-stranded-DNA-specific exonuclease RecJ	ATGCGTATCGAACCCCGCCCGCTGCCCGACACCTTGCCTGACCTGGGCGATCTGCCGCCGCTGCTGACCCGCCTGTACGCAGCGCGTGGCGTGCAAACCGCCGCCGAACTGGACAAGAGCCTGGCGCGCCTGATCCCGTACCAGCAGCTCAAGGGCATCGATGCGGCGGTCGCCCTGCTGGCGCGCGCCCTGGAGGACCGTCAGCGCATCCTCTTCGTCGGCGACTTTGATGCCGACGGCGCCACCGCCAGTTGCGTCGGTGTGCTCGGCTTGCGTCAGCTCGGTGCCGCCCACGTCGATTACTTGGTGCCGAACCGTTTCGAATATGGCTACGGCCTGACGCCGGAAATCGTCGCCGTCGCCCTGGAGCGCCAGCCGAACCTGCTGGTGACCGTGGACAATGGCATCTCCAGTGTCGAGGGGGTGGCCGCGGCCAAGGCTGCCGGACTCGCCGTGCTGGTCACCGATCACCATTTGCCGGGGCCGGAGCTGCCGGCCGCGGATGCCATCGTCAACCCGAACCAGCCGGAGTGCCAGTTCCCCAGCAAGTGCATCGCCGGGGTCGGGGTGATCTTCTACGTGCTGCTGGCGCTGCGTGCTCACTTGCGCGAGCGGGGTTGGTTCGAGCGACGAGGGATCAAGGAACCGAACCTGGGTGAACTGCTCGATCTGGTCGCCCTCGGCAGCGTGGCCGACGTGGTGCCGCTGGACGCCAACAACCGTATCCTGGTCCACCAGGGCTTGGCGCGCATCCGCGCCGGGCGGGCGCGGCCGGGGCTGCGGGCAATCCTCGAAGTGGCCGGGCGCGACCACCGGCGGATCACCTCCACCGATCTCGGCTTCATCCTCGGCCCGCGTCTCAACGCCGCGGGGCGCCTGGACGACATGTCCCTCGGCATCGAGTGCCTGCTCTGCGAGGACGAGGCCCAGGCCCGCGACATGGCGGTGCAGCTCGACCAGCTCAACCAGGACCGCAAGGCCATCGAGCAGGGCATGCAGCGCGAGGCCCTGGCCCAGCTCAAGGACCTGCTGCTGGAAGACCTGCCGTTCGGCCTGTGCCTGTTCGACCCGGATTGGCACCAGGGGGTGATCGGCATCCTCGCCTCTCGCCTGAAGGAGCGCTACCACCGGCCAACCATCGCCTTCGCCGATGCCGGAGACGGCCTGCTCAAGGGCTCCGCTCGCTCGGTGCCGGGGCTGCACATCCGCGATGCGCTGGACGCGGTGGCGGCGAAGCATCCCGGCCTGATCAGCAAGTTCGGCGGGCACGCCATGGCCGCCGGCCTGTCGTTGCCGCAGGAAAACTTCGGTGCCTTCGCCGCGGCCTTCGATGCCGAGGTGCGTCGCCAGCTCTGCGAGGACGACCTCACCGGGCGGCTGCTCTCGGATGGGCAACTGAGCGTCGAAGAATTCCACCTGGAGCTGGCCCGCGCACTGCGCAACGCCGGCCCCTGGGGACAGCATTTCCCCGAGCCGCTGTTCCATGGGGTGTTCCAACTGGTCCAGCAGCGGTTGGTCGGTGAGCGCCACTTGAAGATGGTGCTGCGCAGCGAGTGCGGCTCCACCCAGTTGGATGGCATCGCTTTCAACATCGACCGTGAGCAATGGCCCAACCCGACCGTGCGCTGGGTCGAGCTGGCCTACAAGCTGGACGTCAATGAATATCGCGGCCAGGAAAGCGTGCAGTTGCTGATCGCGCACATCGCACCACGCTGA	MRIEPRPLPDTLPDLGDLPPLLTRLYAARGVQTAAELDKSLARLIPYQQLKGIDAAVALLARALEDRQRILFVGDFDADGATASCVGVLGLRQLGAAHVDYLVPNRFEYGYGLTPEIVAVALERQPNLLVTVDNGISSVEGVAAAKAAGLAVLVTDHHLPGPELPAADAIVNPNQPECQFPSKCIAGVGVIFYVLLALRAHLRERGWFERRGIKEPNLGELLDLVALGSVADVVPLDANNRILVHQGLARIRAGRARPGLRAILEVAGRDHRRITSTDLGFILGPRLNAAGRLDDMSLGIECLLCEDEAQARDMAVQLDQLNQDRKAIEQGMQREALAQLKDLLLEDLPFGLCLFDPDWHQGVIGILASRLKERYHRPTIAFADAGDGLLKGSARSVPGLHIRDALDAVAAKHPGLISKFGGHAMAAGLSLPQENFGAFAAAFDAEVRRQLCEDDLTGRLLSDGQLSVEEFHLELARALRNAGPWGQHFPEPLFHGVFQLVQQRLVGERHLKMVLRSECGSTQLDGIAFNIDREQWPNPTVRWVELAYKLDVNEYRGQESVQLLIAHIAPR				NA	NA	NA	NA	NA
BMS010_07388	1110	namA	COG1902	NADPH dehydrogenase	ATGACCAAGCTGTTCGAACCCTACACCCTGCGCGGGCTGACCCTGCCCAACCGCATCGCTGTCTCGCCCATGTGCCAGTACTCGGCCAAGCTCGGCATGGCCAACGACTGGTATCTGGTGCACCTGGGCAGCCGCGCGGTGGGCGGCGCCGGGCTGGTGATCGTTGAGGCCACGGCCGTGACGGCCGAGGGTCGGATCACCGCCGAGGACTTGGGTATCTGGTCCGACGAGCATGTCGAGCCGCTGCGGCGGATCACCCGCTTCATCGAGGCCCAGGGCGCGGTCGCCGGCGTCCAGTTGGCCCATGCCGGGCGCAAGGCCAGCACTTGGCAACCCTGGCTCGGCCGGCACGGCAGCGTCCCCATCGGCGCCGGCGGCTGGACCCCGGTGGGGCCATCGACCATCGCCTTCGACCCGGAGCATGCCGTGCCCACGGCCTTGGACGAGGCGGGCATCGCCCGGGTGATCCAGGCCTTTGTCGAGGCCGCCGAGCGATCCCTGGCCGCCGGCTTCAAGGTGGCCGAGGTGCACGCCGCCCACGGTTATCTGTTGCACCAGTTCCTCTCTCCCCTGTCGAACCAGCGGCGCGATGCCTATGGCGGTTCCTTCGACAACCGCATTCGCCTGTTGCTGCAGGTGACCGAGGCGGTGCGCGGTGTTTGGCCGGACGACCTGCCGTTGTTCGTGCGCCTCTCCGCCACCGACTGGGTGGAGGATGGCTGGAACCCGGACGAAACCGTCGAACTGGCGCGGCGCCTGAAAGCCTTGGGCGTCGATCTGATCGACGTGTCGTCGGGCGGGACCGCGGTCAACGCGGAGATTCCCACCGGCCCCGGTTACCAGACCCAGTTCGCCGAACGGGTACGCCGCGAGGCCGGCATCGCCAGCGGGACGGTGGGCATGATCACCGAGCCGGTGCAGGCCGAGCACATCCTGCGTACGGGCCAGGCCGACCTGATTCTGCTGGCCCGCGAACTGCTGCGCGATCCCTATTGGCCTTTGCATGCCGCCGACGAGCTGGGCGACCGCTCGGTACCCTGGCCGGCGCAGTATGCGCGGGCGGCGCACCGCGACACGCCGATCCGCAAGGTGCTAATCAGCTACGACTGA	MTKLFEPYTLRGLTLPNRIAVSPMCQYSAKLGMANDWYLVHLGSRAVGGAGLVIVEATAVTAEGRITAEDLGIWSDEHVEPLRRITRFIEAQGAVAGVQLAHAGRKASTWQPWLGRHGSVPIGAGGWTPVGPSTIAFDPEHAVPTALDEAGIARVIQAFVEAAERSLAAGFKVAEVHAAHGYLLHQFLSPLSNQRRDAYGGSFDNRIRLLLQVTEAVRGVWPDDLPLFVRLSATDWVEDGWNPDETVELARRLKALGVDLIDVSSGGTAVNAEIPTGPGYQTQFAERVRREAGIASGTVGMITEPVQAEHILRTGQADLILLARELLRDPYWPLHAADELGDRSVPWPAQYARAAHRDTPIRKVLISYD	PGPT0005575_544	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_NITRO-|AMINOBENZOATE_DEGRADATION,PGPT0005575-namA-K09461	NA	NA
BMS010_07389	702			hypothetical protein	ATGAATACCAGCGGTCTGCTCGACCAACTGCTCAAGTCGGGCCAGGAAATGCTTCAGAAGAAAGGAAACGGCGGCGCACTCGGCAAGTCCGGCGGATTCAATACCGATGCCCTCGGCGGGTTGCTGTCCGGTGCTGGCGGCGGTGCCCTGGCGGCCGGTGCGCTGGGCTTGCTGATGGGTAACAAGCGGGCGCGCAAGATGGGCGGCAAGGTCATCACCTACGGCGGTCTGGCGGCGCTCGGTGTGCTGGCCTACAAGGCCTACAGTAACTGGCAGTCGCAGCAGGCGGCGGCACCCCAGGCTACGCCGCAGACTATCGACCGCCTGCCGGCGCCGCAGGTCGAGGCACACAGCGAGGCCATTCTCAAGGCGCTGGTGGCGGCGGCCAAATCCGACGGCCACGTGGATACCCGCGAACGCGAGCTGATCGAAGGCGAACTGGCCAAGCTGACCCAGGACCAGCAACTGCAGCAGTGGCTGGATGTGGAGCTGAACAAGCCGCTCGATCCGGCCGAAGTGGCCCGCGCCGCCCGCACCCCGGAGATGGCGGCGGAGATGTACCTGGCCAGCGTGCTGATCGTGGACGAGGAGCATTTCATGGAACGCGCCTACCTCGACGAGCTGGCCCGCCAACTGAAGCTCGACCCGGCGCTGAAGGCCGAGCTGGAAGCCCAGGTGAAGCAGGCCCAGGCTGGCGTCTGA	MNTSGLLDQLLKSGQEMLQKKGNGGALGKSGGFNTDALGGLLSGAGGGALAAGALGLLMGNKRARKMGGKVITYGGLAALGVLAYKAYSNWQSQQAAAPQATPQTIDRLPAPQVEAHSEAILKALVAAAKSDGHVDTRERELIEGELAKLTQDQQLQQWLDVELNKPLDPAEVARAARTPEMAAEMYLASVLIVDEEHFMERAYLDELARQLKLDPALKAELEAQVKQAQAGV				NA	NA	NA	NA	NA
BMS010_07390	1665	alkJ_3		Alcohol dehydrogenase [acceptor]	ATGCCGGACATAGCCCAGGATTACGACTACGTCATCATCGGCGCCGGGCCGGCGGGCTGCCTGCTGGCCAACCGCCTGTCCGCCGATCCGTCCGTGCGGGTACTGCTGCTGGAGGCCGGCGGGCGTGACAATTATCCCTGGATTCACATTCCCGTCGGTTACCTGTATTGCATCGGCAACCCGCGTACCGACTGGTGTTTCAGCACCGAGGCCGAGCCCGGCCTGAACGGGCGGGCGTTGAAATACCCGCGCGGCAAGGTGCTTGGCGGCTGCTCCTCGATCAACGGGATGATCTACATGCGCGGGCAGGCCCGGGACTACGACGGCTGGGCCGCCGAGGGCAATCCCGGCTGGGCCTGGAAGGACGTGCTGCCGCTGTTCGTGCGGACGGAAAACCACTTTGCCGGCGCCAGCGACCTGCACGGCGGCGACGGTGAATGGCGGGTCGAGCGCCAGCGCCTGTCCTGGCCGATCCTCGATGCCTTCCGCCAAGCGGCCGCGCAGACGGGGATCGCCAGCATCGATGACTTCAACGGCGGTGACAACGAAGGCTGCAGCTACTTCCAGGTCAACCAGCGCAGCGGGGTACGCTGGAATGCCTCCAAGGCGTTCCTCCGTGGTATCCGCCAGCGCGCCAATCTCACCGTGCTGACGGGCGCAGAGGCGGAGCGGCTGCTGTTCGACGAGGGTAGGGTGGCGGGCGTGCTGGTGCGCTGGCAGGGCCAGGAGCGGTCATTCAGGGCCTCTCACGAAACCCTCCTGTGCGCGGGTTCCATCGGCTCCCCCGCCTTGTTGCAGCGTTCGGGCATAGGCCCGCGCCCGTTGCTGGAGCGTCTGGGCATCGGCATTCGTCATGAGTTGCCGGGTGTCGGCGCGAATCTGCAGGATCATCTGCAGCTGCGGCTGATCTACCGGATCAGCGGCGCGACGACCCTCAACCAACTGGCCGGCAGCCTGTGGGGTAAATGCGGGATGGGCCTGCGCTACCTGCTCAGCCGCAGCGGACCGCTGGCCATGGCGCCGAGCCAACTGGGCGCCTTCGCCCGTTCCGATCCGGGGCAGGCGTCCGCCAACCTGCAATACCACGTGCAACCGCTGTCACTGGACAAGTTCGGCGATCCGCTGCACGACTTCCCGGCTTTCACCGCCTCGGTCTGCAACCTGCGTCCGGAAAGCCGGGGACGAGTGGAGATCCGCTCCGCCGATCCGCAGACGGCGCCCCTTATCCAGCCGAACTACCTGAGCGACCCACGCGACCTGGCGGTGGCGGCCGATGCGATCCGCCTGACTCGGCGCATCGTCGCTGCGCCGGCCCTGGCGGGATACCGGCCGGAGGAGTACCTGCCGGGCCCGGCCTACCAGACCGAGGAAGACTTGCGGCAGGCCGCCGGCTTGATCGGCACCACGATCTTCCATCCCTCCGGGACCTGCCGGATGGGCATCGGGCCCGACGCGGTGGTCGACGCGCGCCTGCGCGTGCATGGCATGGCCGGGCTGCGCATCGCCGACGCGTCGATCATGCCGCGCATCGTCTCCGGCAATACCTGCTCGCCGGTGCTGATGATCGCCGAGAAGGCCGCCGAGCTGATCCGCGAGGACCGGCAACGGGCGACCGCGGCGACCGAGGTTCCGGCCCAGGCGCGGGAGCCGGCCGGCGTGGCGTGA	MPDIAQDYDYVIIGAGPAGCLLANRLSADPSVRVLLLEAGGRDNYPWIHIPVGYLYCIGNPRTDWCFSTEAEPGLNGRALKYPRGKVLGGCSSINGMIYMRGQARDYDGWAAEGNPGWAWKDVLPLFVRTENHFAGASDLHGGDGEWRVERQRLSWPILDAFRQAAAQTGIASIDDFNGGDNEGCSYFQVNQRSGVRWNASKAFLRGIRQRANLTVLTGAEAERLLFDEGRVAGVLVRWQGQERSFRASHETLLCAGSIGSPALLQRSGIGPRPLLERLGIGIRHELPGVGANLQDHLQLRLIYRISGATTLNQLAGSLWGKCGMGLRYLLSRSGPLAMAPSQLGAFARSDPGQASANLQYHVQPLSLDKFGDPLHDFPAFTASVCNLRPESRGRVEIRSADPQTAPLIQPNYLSDPRDLAVAADAIRLTRRIVAAPALAGYRPEEYLPGPAYQTEEDLRQAAGLIGTTIFHPSGTCRMGIGPDAVVDARLRVHGMAGLRIADASIMPRIVSGNTCSPVLMIAEKAAELIREDRQRATAATEVPAQAREPAGVA	PGPT0013615_2368	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013615-betA|CHDH-K00108	NA	NA
BMS010_07391	843	prfB_2	COG1186	Peptide chain release factor RF2	ATGGCCGCCGAAGAGAACGACGAAGGCGCGGTGAACGATGTCGCCGTGGAAGTCGAGCGCCTGCGCGGCATCCTCGAGAAGTTGGAATTCCGCCGTATGTTCAGCGGCGAGATGGACGCCAACAACGCCTATCTGGACATCCAGGCCGGTTCCGGCGGCACCGAGGCCCAGGACTGGGCCAACATGCTGCTGCGCATGTACCTGCGCTGGGCCGACAAGCGTGGCTTCGACACCGAGATCGTCGAACTCTCCGAGGGCGAAGTCGCCGGCATCAAGAGCGCCACCGTCCACGTCAAGGGCGAGTACGCCTTCGGCTGGCTGCGTACCGAGATCGGCGTGCACCGCCTGGTGCGCAAGAGCCCGTTCGACTCCGGCAACCGCCGGCATACCTCGTTCTCCGCGGTATTCGCCTCGCCGGAAGTGGACGACAACGTCGAGATCGAGATCAACCCGGCCGATCTGCGCATCGACACCTACCGCTCCTCCGGGGCCGGTGGTCAGCACGTGAACACCACCGACTCCGCGGTGCGTATCACCCACCTGCCGACCAACACCGTGGTGTCCTGCCAGAACGAACGCTCCCAGCACGCCAACAAGGACCGCGCCATGAAGATGCTGCGCGCCAAGTTGTACGAACTGGAAATGATGAAGCGCAACGCCGCTGCCCAGGCCCTGGAAGACACCAAGTCGGACATCGGCTGGGGTCACCAGATCCGCTCCTATGTGCTCGACCAGTCGCGGATCAAGGACCTGCGCACCGGCATCGAGAACAGCAACTGCGACGCGGTGCTGGACGGCGATCTGGACGACTTCATCGAAGCGAGCCTCAAACAGGGGCTGTGA	MAAEENDEGAVNDVAVEVERLRGILEKLEFRRMFSGEMDANNAYLDIQAGSGGTEAQDWANMLLRMYLRWADKRGFDTEIVELSEGEVAGIKSATVHVKGEYAFGWLRTEIGVHRLVRKSPFDSGNRRHTSFSAVFASPEVDDNVEIEINPADLRIDTYRSSGAGGQHVNTTDSAVRITHLPTNTVVSCQNERSQHANKDRAMKMLRAKLYELEMMKRNAAAQALEDTKSDIGWGHQIRSYVLDQSRIKDLRTGIENSNCDAVLDGDLDDFIEASLKQGL				NA	NA	NA	NA	NA
BMS010_07392	1503	lysU	COG1190	Lysine--tRNA ligase, heat inducible	ATGAGCGAACAACCGCTGAACGAGCATGCGATCCACGAGGAAGAGAACAAGCTGATTGCCCAGCGCAAGGAAAAACTTGCCGCGGAACGCGCCAAGGGCAACGCCTTCCCCAACGACTTCCGCCGCGACAGCCTGTGCGGCGACCTGCAGCAGGCGTGTGCCGATAAGAGCAAGGAAGAGCTCGAGGCCGCCGGCATCAAGGTCAAGGTCGCCGGACGCATCATGCTCAACCGCGGCGCCTTCATGGTGATTCAGGACATGAGCGGGCGCATCCAGGTCTACGTCGACCGCAAGACGCTGCCGGCCGAGACCCTCGAAGCGCTCAAGCACTGGGACCTGGGCGACATCATCGCCGCCGAGGGCACCCTGGCCCGCTCCGGCAAGGGCGACCTCTACGTCTACATGGATAACGTGCGCCTGCTGACCAAGTCGCTGCGCCCGCTGCCGGACAAGTTCCATGGCCTGACCGACACCGAGCAGCGCTATCGCCAGCGCTACGTCGACCTGATCATGAACGAGGAGGTGCGCCACACCTTCCGCGTGCGTTCCAAGGTGATCGCCCACATCCGCAAGTTCCTTGCCGACCGCAATTTCCTCGAAGTGGAAACGCCGATGCTGCAGACCATTCCGGGTGGCGCGGCGGCCAAGCCGTTCGAGACGCACCACAATGCGCTGGACATGGCCATGTTCCTGCGCATTGCCCCGGAGCTGTACCTCAAGCGTCTGGTGGTGGGCGGATTCGAGAAGGTCTTCGAGATCAACCGCAACTTCCGTAACGAAGGCGTTTCGACCCGGCACAACCCCGAGTTCACCATGCTCGAGTTCTACCAGGCCTACGCCGACTACGAAGACAACATGGACCTCACCGAGGAACTGTTCCGCGAGCTGGCCCTGTCCGTTCTCGGCACCACCGACGTGCCTTACCAGGGCAAGGTGTTCCATTTCGGCGAGCCGTTCGCCCGCCTGTCCGTGTTCGATTCGATTCTCAAGTTCAACCCGGACATCAGCGAAACCGACCTCAAGGACATCGACAAGGCCCGTGCCATCGCCAAGAAGGCCGGTGCCGATGTGAAGGGCTTCGAGGGCCTGGGCAAGCTGCAAACGATGATTTTCGAGGAGCTGGTCGAGCACAAGTTGGAACAGCCTACCTTCATCACCCGCTACCCGTTCGAAGTCTCGCCGCTGGCCCGTCGCAGCGATGACGACCCGAGCGTTACCGACCGCTTCGAGCTGTTCATCGGCGGTCGCGAGATCGCCAACGCCTATTCCGAGCTGAACGATGCGGAAGACCAGGCCGAGCGCTTCCTCGCCCAGGTTCGCGACAAGGACGCCGGCGACGACGAAGCCATGCACTTCGACGCCGACTTCGTCCGCGCCCTGGAATACGGTATGCCGCCCACCGCCGGCGAAGGCATTGGCATCGACCGTCTGGTGATGCTGCTCACCGACTCGCCGTCGATCCGCGACGTGATCCTCTTCCCGCACATGCGTCCGGAAGTCTGA	MSEQPLNEHAIHEEENKLIAQRKEKLAAERAKGNAFPNDFRRDSLCGDLQQACADKSKEELEAAGIKVKVAGRIMLNRGAFMVIQDMSGRIQVYVDRKTLPAETLEALKHWDLGDIIAAEGTLARSGKGDLYVYMDNVRLLTKSLRPLPDKFHGLTDTEQRYRQRYVDLIMNEEVRHTFRVRSKVIAHIRKFLADRNFLEVETPMLQTIPGGAAAKPFETHHNALDMAMFLRIAPELYLKRLVVGGFEKVFEINRNFRNEGVSTRHNPEFTMLEFYQAYADYEDNMDLTEELFRELALSVLGTTDVPYQGKVFHFGEPFARLSVFDSILKFNPDISETDLKDIDKARAIAKKAGADVKGFEGLGKLQTMIFEELVEHKLEQPTFITRYPFEVSPLARRSDDDPSVTDRFELFIGGREIANAYSELNDAEDQAERFLAQVRDKDAGDDEAMHFDADFVRALEYGMPPTAGEGIGIDRLVMLLTDSPSIRDVILFPHMRPEV	PGPT0012225_4237	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-MOTILITY-MEDIATED_DEFENSE_SIGNALLING,PGPT0012225-lysS-K04567	NA	NA
BMS010_07393	714			hypothetical protein	GTGACCCGCCCCTCCGCTCCCGACAGTGCCTCCCGCATCGCCAACGCCGTCGCCGACAGTGTCCAGTACCAGGGCCGCAAGGCCAGCCGGCAAGGTAGCGAGCAGCGCCGCCAAGCCATTCTCGATGCCGCCATGCGCATCATCGTCCGCGAAGGCGTGCGCGCCGTGCGTCATCGCGCCGTGGCGGCCGAGGCCGAGGTGCCGCTGTCGGCCACCACCTATTACTTCAAGGACATCGACGACCTCATCACCGATACCTTCGCCCAGTTCGTCGAACGCAGCGCCGCTTACATGGCGCATTTCTGGGAAAGCACCCAGGGGCTGCTGCTGGAGGAAGTCGGCAAGCTGGACGGCACCGCCGAATCGCGCCGCAACCTGGCCGACGAGATCGCCCGGCTGGCTGTCGAGTACGTGCGTCACCAATTGCTCACCCGCCGCGATCACCTGATGGCGGAACATGCCTTCCACCAGGAGGCGCTGCTCAACCCACGCCTGCACGAACTGGTGCGCTCGCACCGGCTGATCCTGCTGCAAGGCACCACGCATTTCTTCCAGGTGCTCGGCTCGCAACAGCCGAGACAGGATGCCGAGGTGCTGGCGGGCATCATCGAACGCATGGAGTACCAGGGCCTGCTCGATGGGGTGGAGAACTTGAACGTCGAGGAAATGCTGGCCATCCTCAGGCGGTATATGTATCTGGTGCTCGGGCTCTGA	MTRPSAPDSASRIANAVADSVQYQGRKASRQGSEQRRQAILDAAMRIIVREGVRAVRHRAVAAEAEVPLSATTYYFKDIDDLITDTFAQFVERSAAYMAHFWESTQGLLLEEVGKLDGTAESRRNLADEIARLAVEYVRHQLLTRRDHLMAEHAFHQEALLNPRLHELVRSHRLILLQGTTHFFQVLGSQQPRQDAEVLAGIIERMEYQGLLDGVENLNVEEMLAILRRYMYLVLGL	PGPT0014935_25	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014935-rcdA-K23778	NA	NA
BMS010_07394	552			hypothetical protein	ATGAAAGCCTGGCGTGCCCTGATCGCCGTGTCCTTCCTGCTGTTGAGCGGTTGCCTGGTTACCTTCAAGGACCCCATCCCGGCCAACGAGGCAGCGCCGATTCCGCTGCTCGGCGAGTGGACGCGCAAGAACGAGTGGGGCGAGCAGCAGTACCTGGACATCAGCCGCTCCGGCGCCAACGTCTACAAGGCGAAATCCTACGTCGAGAGTCCCGACAACCAGGAAGGCCAGGAAGAGTACAGCTTCACCGTCGCGCACCATGGCCTGCGCTGGTACGTCTCCGCCGGTCTGCCGAAGAGCCTCGGCGCCAATTTCGCTATCGCCGGCTTCGAGATCACCACCAGCAACGAGCTGGTGATCTATACCTTGGATGTCGAACGCATCCAGCAGCCCCTGGACCAGGGCGAGCTGGAGGGACAGCGGGTGGAAACCGAGCGGGGCGACGGTGTGTTGATCAGCAGCGCCCTGGACAAGGTGTTCGCCTTCCTGAACGATCCGGCCAATTCCGATGTCTTCGTCGAAGTGGCCCGCTACCAGCGTTCCGGTGAATGA	MKAWRALIAVSFLLLSGCLVTFKDPIPANEAAPIPLLGEWTRKNEWGEQQYLDISRSGANVYKAKSYVESPDNQEGQEEYSFTVAHHGLRWYVSAGLPKSLGANFAIAGFEITTSNELVIYTLDVERIQQPLDQGELEGQRVETERGDGVLISSALDKVFAFLNDPANSDVFVEVARYQRSGE				NA	NA	NA	NA	NA
BMS010_07395	1296			hypothetical protein	ATGAACAGCCGAATGGATCTGGACGACTACCAACTGATCATCCGCGCGCTTTCCGACCGTATCGTCGAGGCGCAGACGCCGATCCGCGTGCTGGATGCGGTCAAGTGGGACGACAGTGTCCGCAAGGGCTTCTTCAAGGCCAAGGGCAAGGAGCTGCCGGCCATCGACCGCGCCTACTACGAGAGTCGCCCGCTGACCTTCGATTCGGCGGCGAAGAAGCAGGAGTTCCAGAACATCGAGCGGGACATCACCCGCCAGCTCGGCCAGTTCAACCCGGTCGGGCAGATCATGCGGCGCATGTGCAAGGAATACCGCATGGTCATCCGCATGCTCGAGGCGCGCGGCACGGCGGATTTCGGCCTGATCTCCCAGGACCTCTACGGCGCCGCTTCGGACGCCTTCCATGCCGGCGACCCGACCCTGGCCGATCTCGGCCTGATGCTGTCGGACTACCTGAACAACATCGCCGATCGCGGCGACCTCAAGGACGAGCCCAAGACGCTCTCCGCCAAGGAAGCCGTCGAGCTGCTGCAAGGCCGCTTGAACAAGGTGTTCGGAGAGAAGGACAGTACCATCCGTGTCATCGAGTCCGACGGCATCGTCGCCGACGCGGCGGCCGGCGCCGACTACATCAAGATTCGCACCGATGCGATGTTCAACGAGCGCGACGTGCGGGCGCTGGAAGTCCACGAAGGGCTGGTGCATGTGGGCACCACGCTGAACGGACTCAACCAGCCGGTCTGCACCTTCCTCTCCAAGGGCCCGCCATCCTCCACCGTGACCCAGGAAGGACTGGCGATCCTCATGGAAGTGATCGCCTTCGCCTCCTACCCGACCCGCCTGCGCAAGCTGACCAACCGCACCCGGGCCATCCACATGGCCGAGGAGGGTGCGAATTTCCTCGACATCTTCGAGTTCTTCCGCAGCGAGGGGTATGCCGAGGACGAGTGCTACGGCAACGCCAGCCGGGTATTCCGCGGCTCGACGCCGGATGGCCTGCCGTTCACCAAGGACCTGTCCTACCTCAAGGGTTTCATCCTCATCTACAACTATATCCAGCTCGCGGTGCGCAAAGGCAAGCTGGAGCAGATTCCGCTGCTGTTCTGCGGCAAGACCACCCTGGAAGACATGCGGACCCTGCGCCAACTGGTGGACGAAGGGCTGGTGGTACCGCCGAAGTACCTGCCGCCGCAGTTCAGCGACCTGAACGCGCTGTCGGCCTGGATGTGTTTCTCCAACTTCCTGAACCACCTGAGCCTGGACCGGATCGAAGCCGACTACGCCAATATCCTCTAA	MNSRMDLDDYQLIIRALSDRIVEAQTPIRVLDAVKWDDSVRKGFFKAKGKELPAIDRAYYESRPLTFDSAAKKQEFQNIERDITRQLGQFNPVGQIMRRMCKEYRMVIRMLEARGTADFGLISQDLYGAASDAFHAGDPTLADLGLMLSDYLNNIADRGDLKDEPKTLSAKEAVELLQGRLNKVFGEKDSTIRVIESDGIVADAAAGADYIKIRTDAMFNERDVRALEVHEGLVHVGTTLNGLNQPVCTFLSKGPPSSTVTQEGLAILMEVIAFASYPTRLRKLTNRTRAIHMAEEGANFLDIFEFFRSEGYAEDECYGNASRVFRGSTPDGLPFTKDLSYLKGFILIYNYIQLAVRKGKLEQIPLLFCGKTTLEDMRTLRQLVDEGLVVPPKYLPPQFSDLNALSAWMCFSNFLNHLSLDRIEADYANIL				NA	NA	NA	NA	NA
BMS010_07396	747			putative protein	ATGCCTAGCCATCAGCTTGACTACGAAATCCTCGGCGCTTCGGCGCAAAGCGTCGAAATCATCCTCGACCCCGGCGAGACGGTGATCGCCGAAGCCGGGGCGATGAACTACATGACCGACGGCGTGCGCTTCGAGACGCGCATGGGCGACGGCAGCGCCAGCGGCGTGCTGGGCAAGCTGTGGGGCATGGGCAAGCGCATGCTCACCGGCGAATCGCTGTTCATGACCCACTTCACCAACGCCGGCAAAAGCCAGGCGCGGGTCGCCTTCGCCGCGCCCTATCCGGGCACGGTGGTGCCCATCGACCTGAGCCGGATCGGCGGCAGCCTGATCTGCCAGAAGGATGCCTTCCTCTGCGCCGCTCACGGCACATCCATCGGCATCAGCTTCAACAAGCGGCTGGGTGCGGGGTTCTTCGGCGGTGAAGGCTTCATCCTGCAGAAGCTGGAAGGCGACGGCCTGGCCTTCGTGCATGCCGGCGGTACGGTGATCCGCAAGGAATTGAACAACGAGACGCTGCGCCTGGATACCGGCTGCCTGGTCGGCTTCAGCCGCGGCATCGACTATGACATCCAGCTCGCCGGCGGTCTCAAGAGCATGCTGTTCGGTGGCGAGGGGATTCTCCTGGCCACGCTCAAGGGCACCGGAACCGTGTGGATCCAGAGCCTGCCGTTCTCGCGCCTGGCCGAGCGCATCTACGAAGCGACCTTCAAGGCACGGGAGGAAGTGCGCGCCGGAGGGCAGTGA	MPSHQLDYEILGASAQSVEIILDPGETVIAEAGAMNYMTDGVRFETRMGDGSASGVLGKLWGMGKRMLTGESLFMTHFTNAGKSQARVAFAAPYPGTVVPIDLSRIGGSLICQKDAFLCAAHGTSIGISFNKRLGAGFFGGEGFILQKLEGDGLAFVHAGGTVIRKELNNETLRLDTGCLVGFSRGIDYDIQLAGGLKSMLFGGEGILLATLKGTGTVWIQSLPFSRLAERIYEATFKAREEVRAGGQ				NA	NA	NA	NA	NA
BMS010_07397	882			hypothetical protein	ATGCCACGGCTGTTGCTGATCGGCGTACTGTTGCTCCTGGCGGGCTGCAGCTCGCTGTTGTTCTACCCGCAGAAAGGGTTGCCGATCACCCCGGAGCGGGCCGGGCTGGCCTATCGCGATGTGCTCCTTGACGCTGCCGACGGCACCCGCCTGCACGCCTGGTGGCTACCGGCCAAGGCCGGCGTCGAAGTGAAGGGCACGGTGCTGCACCTGCACGGCAACGGCGGCAACCTGGCCTGGCATCTCGGCGGCAGCTACTGGCTGCCGGAGCAGGGCTACCAGGTCCTTCTGTTGGATTACCGGGGCTACGGCCGCTCCGAAGGCGAGCCCTCGCTCCCGGCGGTCTATCAGGACATCGACGCCGCCTTTGCGTGGCTCGATCAGGCAGAGGAGGTGCAGGGCAAGCCGCTGGTCGTGCTCGGCCAGAGCCTTGGCGGCGCTTTGGCACTGCATTACCTGGCGGAGCATCCCGAGCGCCGCGTACGGCTGCACGCGCTGGTGCTGGATGGCGTGCCGGCGAGCTATCGCGAAGTGGCGCAGTACACCCTGGGCACGGCCTGGCTGACCTGGCCGCTGCAGGTGCCGCTGTCCTGGCTGGTCCCCGACGGCGACAGCGCGGTACGGGCCATCGCCCGGCTCGAAGGCGTGCCGATGCTGATCTACCACAGCCTCGACGATTCGCTGGTGCCCCTTTCCAACGGCGTGCGTCTGTATCAAGCTGCGCCGCCGCCGCGGGTGTTCCAGCCGACCCGCGGCGAGCACGTGCACACTTTTGCCCAGCCGGTCTGGCGCGAGGTGATGGTGCGCTACCTGGACGACCCGCAGGGCTTCGTCGGGTTGCGCCGGCTGGCCGAAATTCCCGATCCCGATACTCCGCAATGA	MPRLLLIGVLLLLAGCSSLLFYPQKGLPITPERAGLAYRDVLLDAADGTRLHAWWLPAKAGVEVKGTVLHLHGNGGNLAWHLGGSYWLPEQGYQVLLLDYRGYGRSEGEPSLPAVYQDIDAAFAWLDQAEEVQGKPLVVLGQSLGGALALHYLAEHPERRVRLHALVLDGVPASYREVAQYTLGTAWLTWPLQVPLSWLVPDGDSAVRAIARLEGVPMLIYHSLDDSLVPLSNGVRLYQAAPPPRVFQPTRGEHVHTFAQPVWREVMVRYLDDPQGFVGLRRLAEIPDPDTPQ				NA	NA	NA	NA	NA
BMS010_07398	327			hypothetical protein	ATGACCGAAGAACGCAGTCCCATTCCCCTGATCCTGACCGCCGTCGCCAGCGTCATCGGCACCGTCCTGGCGCTCTGGTACTACGGCTACCTGCACTTCGCCAAGGAGGAGGACGCCTTGCTGCTGGCCGACTTCACCATGCTCAAGACCGTGCCGGGCGAGGACTACAAGGTATCGCTCAAGCCCGCCCGTCAGGTCGCCCAGTGCATCGACGGTGTGCTGGTACTCTTCGATACCGAACAGAAGGGCCTCACTGGCGTGCTGGTGGACGACCGCAAGCAGGCGGTGCGCTGCATGGGCCAGGAGACGCCGCAGGAAACCCCGTGA	MTEERSPIPLILTAVASVIGTVLALWYYGYLHFAKEEDALLLADFTMLKTVPGEDYKVSLKPARQVAQCIDGVLVLFDTEQKGLTGVLVDDRKQAVRCMGQETPQETP				NA	NA	NA	NA	NA
BMS010_07399	519	ymdB_2	COG2110	O-acetyl-ADP-ribose deacetylase	GTGAACATCGAAATCTGGCAGGGCGACATCACCCGTCTGGCCGTCGACGCCATCGTCAACGCGGCCAATTCGTCGCTGCTCGGCGGCGGTGGGGTGGATGGCGCCATCCACCGGGCGGCCGGTCCCGAGCTGGTGGCGCATTGCCGGACCCTGGGTGGATGCCCGACCGGCGAGGCCCGGTTGACTCCCGGCTTCCGCCTGCCGGCGCGCCATGTCATCCATACCGTCGGCCCCATCTGGCGGGGCGGCGATCATGGCGAACCCGATCTCCTGGCGGCCTGTTACCGCAACAGCCTGGCCCTGGCCGAAGCCCACGGGCTGGCCAGTATTGCCTTTCCGGCGATCAGTTGCGGCATCTACGGTTATCCGTTGGAACAGGCCGCGGCCATCGCCATCGGCGAACTGCGCCGGCCGCGGCAATCCGGCAGCAGCCTGGAAAAGGCCGTGCTGGTGGCGTTCTCCCGGGACATGGCCGTGCTGTACGAACGGCTGTTGAGCGGAGCTAGCCCGGCTTCCTGA	MNIEIWQGDITRLAVDAIVNAANSSLLGGGGVDGAIHRAAGPELVAHCRTLGGCPTGEARLTPGFRLPARHVIHTVGPIWRGGDHGEPDLLAACYRNSLALAEAHGLASIAFPAISCGIYGYPLEQAAAIAIGELRRPRQSGSSLEKAVLVAFSRDMAVLYERLLSGASPAS	PGPT0027680_2570	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-darG-darT_TOXIN-ANTITOXIN_SYSTEM,PGPT0027680-antitoxin_darG-K23518	NA	NA
BMS010_07400	786	pal_7		Peptidoglycan-associated lipoprotein	ATGCCTAGCAACCTGAGATTCCCGACCCTCCTGGCGCTGTGCGTGGGCCTCGCCGCCTGCGCCAGCCAACCCAACCAGACCCTGGAGCAGGCCCGCAGCAACTATGCCACGCTGCAGACCGATCCCCGCGCCAACCAACTGGCCGCGCTGGAGACCAAGAAAGCCAAGGAAATGCTCGACCAGGCCGACAAGGCCTACATGGACGACCAGGACGAGGAATACGTCGACCAGTTGGCCTACCTGGCCAACCGCAGCGTCGACGTGGCCAAGCAGACCGTCGAACTGCGCAGCGCCGAAAGCGAACTGCAGGATGCCTCGGCCAAGCGTGCCGAAGCGCGCCTGCAGGCCCGCGACGAGCAGATCCGCAAGCTGCAGGAGCAGCTCCAGGCCAAGCAGACCGAGCGCGGTACGCTGGTGACCTTCGGCGACGTGCTGTTCGATCTCGACCGCACCGAACTCAAGCCCGGCGGGATGCGCAACGTGCAGACCCTGGCGGAATTCCTCCAGCAGAATCCGGAGCGCAAGGTGATCGTCGAGGGTTATACCGACAGCACCGGCTCGGATACCTACAACCTGGGCCTGTCGGAGCGTCGCGCCAACGCGGTGCGCATGGCGCTGGTCAAGATGGGGGTCACGCCGGAGCGCATCGTCGCGCAAGGTTATGGTGAGGAGTATCCGGTCGCCGGCAACGATACGTCGGCCGGTCGCGCCATGAATCGCCGGGTCGAAGTGACTATTTCCAATGACGATAAGGCGGTTGCCCCGCGTGCGGCGATGGCTCGCTAA	MPSNLRFPTLLALCVGLAACASQPNQTLEQARSNYATLQTDPRANQLAALETKKAKEMLDQADKAYMDDQDEEYVDQLAYLANRSVDVAKQTVELRSAESELQDASAKRAEARLQARDEQIRKLQEQLQAKQTERGTLVTFGDVLFDLDRTELKPGGMRNVQTLAEFLQQNPERKVIVEGYTDSTGSDTYNLGLSERRANAVRMALVKMGVTPERIVAQGYGEEYPVAGNDTSAGRAMNRRVEVTISNDDKAVAPRAAMAR				NA	NA	NA	NA	NA
BMS010_07401	396			hypothetical protein	ATGAAATCCAGCGCTTCTTTTTCGCCCGCCGCGTGCCGGAACCTGAAGCTCGCCAGCCTGTTGCTGGGTGGCAGCCTTCTGCTGGCCGGCTGTGCCGGGAACCCACCGACCGAGCAATTCGCCGTGACCGAATCCGTGGTCCGGGACGCCGAGAGTGCCGGCGGCACCCAATACGCCGCCGTGGAGATGAAGTCCGCCCAGGACAAGCTCAAGCAGGCCGAATTCGCCCTGCACGACAAGGACTACGAGAAGGCCAAAAAGCTCGCCGAGCAGGCCGAATGGGACGCCCGGGTAGCCGAGCGAAAGGCTCTGGCCGCCAAGGCCCGCAAGGCCGTTGAGGATGCGCAGCAAGGTGTACAGGAGCTGCGTGAGGAAAGTCTGCGGAACGCCCAGTGA	MKSSASFSPAACRNLKLASLLLGGSLLLAGCAGNPPTEQFAVTESVVRDAESAGGTQYAAVEMKSAQDKLKQAEFALHDKDYEKAKKLAEQAEWDARVAERKALAAKARKAVEDAQQGVQELREESLRNAQ				NA	NA	NA	NA	NA
BMS010_07402	345			hypothetical protein	ATGAAGATTCGCGAGCTTGTCCGCCATTGGGAGCAGAACGCCAAGGGCCGTCTGACGCGCAGCCGCTATCAGATCCACCTCGACCTCGAGGCGGCCGCCCGCCTGGCGGCCCTGGCCGAGATGTATCCCAAGCGCAACGTCGAAGAACTGCTCGGCGAGCTGGTATGCGCGGCCCTGGAAGAGCTTGAAACCAGCCTTCCCTACGTCAAGGGCACCCAGGTGGTGGCCGTCGATGAACAGGGCGACCCGCTCTACGAAGACATCGGCCCGACGCCCCGCTTCCTGGCGTTATCCCGCAAGTACCTGCACGAGCTGAGCCAGCAGCACGACAGCGCCAATCACTGA	MKIRELVRHWEQNAKGRLTRSRYQIHLDLEAAARLAALAEMYPKRNVEELLGELVCAALEELETSLPYVKGTQVVAVDEQGDPLYEDIGPTPRFLALSRKYLHELSQQHDSANH				NA	NA	NA	NA	NA
BMS010_07403	2637	ppc	COG2352	Phosphoenolpyruvate carboxylase	ATGGCGGAAATCGACGCGCGTCTGCGCGAGGACGTGCACCAGCTCGGCGAATTGCTCGGTAGCTGTATCCGCGACCAGCGTGGCGCGGCATTCCTGGACAAGATCGAACGTATCCGCAAGGGCGCCAAGGCGGCCCGCCGGGGGTCGGCGGAGGGCGCCCGGCAGCTCACCGCGACCCTCGACGGGCTCGGCGAAGACGAACTGCTACCGGTGGCGCGGGCCTTCAACCAGTTCCTCAACCTGGCCAATATCGCCGAGCAGTACCACCGCATCCGCCGGCGGCGGCCGGACGAGCCGGTGCTGTTCGAGGCCCGCGTCCTGCCCGAACTGCTAGCGCGCCTGAAGGCCGATGGGCACGGTGCCGACAGTCTGGCCCGGCAGATCGGCCGCCTGGATATCGAGCTGGTGCTGACGGCTCACCCGACCGAGGTGGCGCGGCGCACCCTGATCCAGAAATACGACGCCATCGCCGACCAACTCGCCGCCCAGGATCACAACGACCTGCTCCCCGGCGAACGCGAACGGGTCCGCGAGCGCCTGCAACGCCTGATCGCCGAGGCCTGGCACACCGAGGAAATCCGCCGGGTGCGGCCAACGCCGGTCGACGAAGCCAAATGGGGCTTCGCCGTGATCGAGCATTCGCTGTGGTGCGCCGTGCCCAACTTCCTGCGGGGCGTCGACAATGCCTTGCATACCGCCACCGGCCTGCATCTCCCGCTCGACGCCGCGCCGGTGCGCTTCGCCTCCTGGATGGGCGGCGACCGCGACGGCAACCCCAACGTCACCGCCGCGGTCACCCGCGAAGTGCTGCTGCTGGCGCGCTGGATGGCGGCCGATCTCTATCTTCGCGACGTCGACCAATTGGCCGCCGAGCTGTCCATGCAGGAAGCCAGCCCGGCGCTGCGTGCCCAGGCGGGAGACAGCCCGGAACCCTACCGGACCGTGCTCAAGCGTCTCCGCGAGCGATTGCGCGCAACCCGCGCCTGGGCCGAAGCGGCCCTGCATGGGGAACTGGCGCCGCCGCCCGCGGTATTGCAGGACAACCGCGAACTGCGCGAACCGCTGGAGCTGTGCTTCCAGTCGCTGCACGACTGCGGCATGGGGGTGATTGCCAACGGTCCGCTGCTCGACTGCCTGCGCCGGGTCGCCACCTTCGGGCTGTTCCTGGTACGCCTGGATATCCGCCAGGACGCCGCTCGCCACGCCGCGGCGCTCAGCGAGATCACCGACTACCTCGGCCTCGGCCATTATGCCGACTGGTCGGAAGACGACCGCATCGCTTTCCTTCTGCGCGAACTGGATAATCGCCGACCGCTGTTGCCGGCGGATTTCCGGGCCTCGGCAGAAACCGCCGAAGTGCTGGCGACCTGCCGCGAAGTGGCCGCCGCCCCGGCCGCTTCCCTGGGGTCCTACGTGATTTCCATGGCCGGGTCGCCCTCCGATGTGCTGGCGGTGCAATTGCTGCTCAAGGAAGCGGGACTGCGCCGGCCGATGCGGGTGGTGCCGCTGTTCGAAACCCTCGCGGACCTGGACAACGCCGGCCCGGCCATCGACCGGCTGCTCGGCCTGCCCGGCTACCGGGCGCGTCTGCATGGCCCGCAGGAGGTAATGATCGGCTATTCCGACTCCGCCAAGGATGCCGGTACCACGGCGGCGGCCTGGGCCCAGTATCGTGCCCAGGAGACGCTGGTGGACATCTGCCGCCGGCACGACGTCGAATTGCTGCTGTTCCACGGTCGCGGCGGCACCGTGGGACGTGGCGGCGGCCCCGCTCATGCGGCGATCCTGTCGCAGCCGCCGGGTTCGGTGGCCGGGCGTTTCCGCACCACCGAGCAGGGCGAGATGATCCGCTTCAAGTTCGGCCTGCCGGACATCGCCGAACAGAACCTCAACCTCTACCTGGCCGCCGTGCTGGAAGCCACCCTGCTGCCGCCGCCGGCTCCCGAGCCGGCCTGGCGCGACCTGATGGACCGGCTCGCCGCCGAAGGCGTGGCGGCGTACCGGGCGGTGGTCCGCGAGCATCCGCAGTTCGTCCCGTATTTCCGCCAGGCCACGCCGGAACAGGAACTCGGCCGCTTGCCGCTGGGCAGTCGGCCGGCCAAGCGCCGCGAAGGGGGCGTGGAGAGCCTGCGGGCGATTCCCTGGATTTTCGCCTGGACCCAGACCCGCCTGATGCTGCCGGCCTGGCTGGGCTGGGAAACCGCGCTGAACAACGCCATCGAGCGCGGGGAGGGCGAGCGCCTGGAGCAGATGCGCGAGCAGTGGCCGTTCTTCCGCACCCGCATCGACATGCTGGAAATGGTCCTGGCCAAGGCCGACGGAGCCATCGCCCGGCTCTACGACGAGCGACTGGTAGATGCCGGACTGCGACCGCTGGGGGATCATCTGCGCGACCTATTGTCGCAGGCGATACGCGCCGTGCTGAAACTGACCTGCCAGTCCCGGCTGCTCAGCCACAGCCCCGAGACGCTCGAGTCGATCACTGTCCGGGATACCTATCTGGACCCGCTGCACCTGCTCCAGGCCGAGCTTCTGGCTCGTTCCAGACAGCGCGAGAACGAGGCTGGCGGCGCGCTGGAACAGGCGCTGCTGGTGAGTGTGGCGGGCATCGCGGCGGGGTTGCGCAATACGGGATAA	MAEIDARLREDVHQLGELLGSCIRDQRGAAFLDKIERIRKGAKAARRGSAEGARQLTATLDGLGEDELLPVARAFNQFLNLANIAEQYHRIRRRRPDEPVLFEARVLPELLARLKADGHGADSLARQIGRLDIELVLTAHPTEVARRTLIQKYDAIADQLAAQDHNDLLPGERERVRERLQRLIAEAWHTEEIRRVRPTPVDEAKWGFAVIEHSLWCAVPNFLRGVDNALHTATGLHLPLDAAPVRFASWMGGDRDGNPNVTAAVTREVLLLARWMAADLYLRDVDQLAAELSMQEASPALRAQAGDSPEPYRTVLKRLRERLRATRAWAEAALHGELAPPPAVLQDNRELREPLELCFQSLHDCGMGVIANGPLLDCLRRVATFGLFLVRLDIRQDAARHAAALSEITDYLGLGHYADWSEDDRIAFLLRELDNRRPLLPADFRASAETAEVLATCREVAAAPAASLGSYVISMAGSPSDVLAVQLLLKEAGLRRPMRVVPLFETLADLDNAGPAIDRLLGLPGYRARLHGPQEVMIGYSDSAKDAGTTAAAWAQYRAQETLVDICRRHDVELLLFHGRGGTVGRGGGPAHAAILSQPPGSVAGRFRTTEQGEMIRFKFGLPDIAEQNLNLYLAAVLEATLLPPPAPEPAWRDLMDRLAAEGVAAYRAVVREHPQFVPYFRQATPEQELGRLPLGSRPAKRREGGVESLRAIPWIFAWTQTRLMLPAWLGWETALNNAIERGEGERLEQMREQWPFFRTRIDMLEMVLAKADGAIARLYDERLVDAGLRPLGDHLRDLLSQAIRAVLKLTCQSRLLSHSPETLESITVRDTYLDPLHLLQAELLARSRQRENEAGGALEQALLVSVAGIAAGLRNTG	PGPT0001165_2997	DIRECT EFFECT	BIO-FERTILIZATION	CARBON_DIOXID_FIXATION	CO2_FIXATION-ALTERNATIVE_PAHTWAYS	CO2_FIXATION-PHOSPHOENOLPYRUVATE_CARBOXYLASE_BIOSYNTHESIS,PGPT0001165-ppc-K01595	NA	NA
BMS010_07404	648	adk_1		Adenylate kinase	ATGCGCGTGATTCTGCTGGGGGCGCCCGGTGCCGGCAAAGGTACCCAGGCTCGCTTCATCACCGAGAAGTTCGGTATTCCGCAAATCTCCACCGGCGACATGCTGCGCGCAGCGGTCAAGGCCGGCACGCCGCTGGGCGTCCAGGTCAAAGGCGTGATGGAGAGCGGCGGCCTGGTGTCCGACGACATCATCATCGCCCTGATCAAGGAGCGCATCACCGAGGCCGACTGTGCCAACGGTTTCCTCTTCGACGGTTTCCCGCGCACCATCCCGCAGGCCGAAGCCCTGCGCCAGGCCGGCGTGACCCTCGATCACGTGATTGAGATCGCCGTGGACGACGAAGAGATCGTCGGCCGCCTGTCCGGTCGCCGCGTGCACCCGGCGTCCGGTCGCGTCTACCACACCGAACACAACCCGCCGAAGGTCGCCGGCAAGGACGACCTGACCGGCGAGGATCTGATCCAGCGCGAAGACGACAAGGAAGAAACCGTGCGTCACCGCCTGTCCGTCTACCATTCCCAGACCAAGCCGCTGGTGGACTTCTACCAGAAGCTCTCCGCCGCCGAAGGCAAGCCGACGTACAGCCGTGTCGAAGGCGTCGGTTCGGTGGAGGACATCACCGCCAAGGTGCTGGCTGCGCTGAGCTGA	MRVILLGAPGAGKGTQARFITEKFGIPQISTGDMLRAAVKAGTPLGVQVKGVMESGGLVSDDIIIALIKERITEADCANGFLFDGFPRTIPQAEALRQAGVTLDHVIEIAVDDEEIVGRLSGRRVHPASGRVYHTEHNPPKVAGKDDLTGEDLIQREDDKEETVRHRLSVYHSQTKPLVDFYQKLSAAEGKPTYSRVEGVGSVEDITAKVLAALS	PGPT0009040_4769	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0009040-adk|AK-K00939	NA	NA
BMS010_07405	714	tsaB_2	COG1214	tRNA threonylcarbamoyladenosine biosynthesis protein TsaB	ATGCCCGCCCTTTTTCACCTGCCCCGGATTGTTTCGATGACCACTCTGCTGGCCCTGGATACCTCCACCGAAGCCTGCTCCGTCGCCCTCCTGCAGGGCGGGCGGGTGCTCAGTCATTACGAGGTGATCCCGCGCCTGCATGCCCAGCGCCTGCTGCCGATGGTGCAGGCGCTGCTGGCGGAGGCGGACGTGGCGCTTTCGGCGGTCGATGCCATCGCCTTCGGTCGCGGCCCCGGCGCCTTCACCGGCGTGCGCATCGCCATCGGCGTGGTCCAGGGGCTGGCGTTCGCCCTCGAACGTCCGGTCCTGCCGGTGTCCGACCTGGCGATCCTGGCCCAGCGCGCCCACCGCGAGCACGGCGTCGTGCAGGTGGCTGCTGCCATCGACGCGCGAATGGACGAGGTCTACTGGGGTTGCTACCGGTTGCAGGACGGCGAGATGCGCCTGGCCGGCGTCGAGGCGGTGCTGCCGCCCGAGCAGGTCGCACTGCCGCGCGATGCCGCCGGTGAATGGTTCGGCGCCGGCACCGGCTGGGGCTACGACCAGCGTCTGCCGGTCGTACCCACGGCGCAGGATGCCGGACTGCTGCCCCATGCCGAAGACCTGCTGACCCTGGCCCGCTTCGCCTGGTCTCGGGGCGAAGGCGTGCCAGCCGAACAGGCACAGCCGGTCTACCTGCGCGATAAGGTCGCCACCCCTAAGGGTGCATCCTGA	MPALFHLPRIVSMTTLLALDTSTEACSVALLQGGRVLSHYEVIPRLHAQRLLPMVQALLAEADVALSAVDAIAFGRGPGAFTGVRIAIGVVQGLAFALERPVLPVSDLAILAQRAHREHGVVQVAAAIDARMDEVYWGCYRLQDGEMRLAGVEAVLPPEQVALPRDAAGEWFGAGTGWGYDQRLPVVPTAQDAGLLPHAEDLLTLARFAWSRGEGVPAEQAQPVYLRDKVATPKGAS				NA	NA	NA	NA	NA
BMS010_07406	342			hypothetical protein	ATGCGTATCGACGGTTTCACTTCCTCCTATCCGCTGGACCGCAGCCCCCGACCGGGCAGCGCGGTAACGCCTTATCGCGAAAGCCAGCGCGAGATCGAGGAGCGTCGCGAGCAACCGACGCCCACCTCCGCCAGCCAGGGTTTCGAACAGACGCCCCAACTGCGCCGCGTGCAGCCCGGCTCCGCCAGCGGGGAGAGCCTGCCGGTCCCGGTCAATGAGCCGACCGACCGCAGTGCGATGACCAGCCGTGCCGCCCAGGCCCTGGCCAGCTACAGCACCACCGCCAGTTTCGCCAGCGACGTGGACGCGCCGGAAGTCCTCGGCCTCGATCTGTACGCCTAG	MRIDGFTSSYPLDRSPRPGSAVTPYRESQREIEERREQPTPTSASQGFEQTPQLRRVQPGSASGESLPVPVNEPTDRSAMTSRAAQALASYSTTASFASDVDAPEVLGLDLYA				NA	NA	NA	NA	NA
BMS010_07407	870			hypothetical protein	GTGAGTTCGGCGCGACTTCCCTATTTCCTCGGTTGTCCTTCCTGGAGCGAGCCGGCCTGGCGCGGTGGTCTCTATCCCGCCGATGCCCGCACCGGCGATTTCCTACCCCTGTATTCCCAGGTCTTCAATGCCGTCGAGGGCAACACCACCTTCTATGCCCAGCCTTCCGTGGAGACCGTGCGCCGCTGGGCCGAGCTGATGCCGGAGGACTTCCGCTTCTGCGCCAAGCTGCCGCGCGACGTCAGCCATGCCGACGACCTGCGTGATCGACTGGGCATGGCCGCCGACTTTCGCGCCTTGCTGCGTCCGCTGGGAGAGCGGGTGACGCCGTTCTGGCTGCAATTGCCGGCCGTCTTCGGTCCGTCCCGTTTGTTCGAACTGCACGCGTTCATCGAGGCCTTCGATGCGCCGCTCGCGGTCGAGGTACGCCATCAAGCATTCTTCGCCAAAGGGGAGGAGGAGCGGGCCCTCAACCGCCTGCTGCGCGACCGGGGCGTCGAGCGGCTCTGTCTCGATTCGCGGGCGCTGTTCAGTTGCACGTCGGAAGAACTGGCGGTGCTCCATGCCAAGGCGAAGAAGCCGCGTGTGCCGCCACGCCCGGCAGCCTTCACCGCCTTCCCTCAGTTGCGTTTCATCGGCCATCCGGAGCTGGAAGCCAACGACCCGTTCATGGCGCCCTGGCTGGACAAGGTGGCCGGTTGGATCGAGGACGGGCTGACGCCCTACGTGTTCCTGCACACGCCGGATAACCATCGCGCGCCGGAGTTGGCTCGTCGTTTCCATGCCCGCCTGAGCGAACGCCTGCCCGGCCTGCCGGCGTTGCCCGAGGCGAAGCGGGAAGACGAAGTGGAGCAGCTCGGGCTGCTGTAA	MSSARLPYFLGCPSWSEPAWRGGLYPADARTGDFLPLYSQVFNAVEGNTTFYAQPSVETVRRWAELMPEDFRFCAKLPRDVSHADDLRDRLGMAADFRALLRPLGERVTPFWLQLPAVFGPSRLFELHAFIEAFDAPLAVEVRHQAFFAKGEEERALNRLLRDRGVERLCLDSRALFSCTSEELAVLHAKAKKPRVPPRPAAFTAFPQLRFIGHPELEANDPFMAPWLDKVAGWIEDGLTPYVFLHTPDNHRAPELARRFHARLSERLPGLPALPEAKREDEVEQLGLL				NA	NA	NA	NA	NA
BMS010_07408	639			hypothetical protein	GTGGCCGTCTGGCGCGGCTGGGTCGACCTGCCGCCGCGCTGGAACCCTTGGGCGCCGCTGGATGTGCGCGAGTCGCCCAATCCGCTGACGCCGTTCAAGCTCTGGCGCTTGCGCGATAACCGTGAACTCTGCGAGCAGGCGCTCGCCACTTCCGGGCTGCGTTATGCGGCGGTGCCGGACAGCCTGCCGGCACCGGACTGCCCGATCGAGAACAGCGTCCGCATCCAGCGTGGCGCCGTCGCGTTCAACGGCAGCTTCATCGCCACCTGCCCGCTGGCGGTCGCCTATGCACTGTTCGAGCGTCATGGCTTGCAGCCGGCCGCCCAGGAGATCTATGGGCAGCCGGTGGTGCGGATCGAGCACTACGGCAGCTTCGCCTGCCGTAACATCGGACAGAGCAACCGGCGTAGCCAGCACGCCCGGGCCAATGCGCTGGATATCGCCGGTTTTCGCCTGCGCGACGGACGGCGCATCACCGTGGCGCGGGACTGGAAGGGGAGCGACCGCGACGCCCGCTTCCTGCGCCTGGTGCGCGACGCCGCCTGCCGCTCGTTCAACACCACGTTGGGGCCGGAGTACAACCGCGCCCACCACGATCATTTCCACCTGGACATGGGCTTGTACCGGATGTGCCGTTAG	MAVWRGWVDLPPRWNPWAPLDVRESPNPLTPFKLWRLRDNRELCEQALATSGLRYAAVPDSLPAPDCPIENSVRIQRGAVAFNGSFIATCPLAVAYALFERHGLQPAAQEIYGQPVVRIEHYGSFACRNIGQSNRRSQHARANALDIAGFRLRDGRRITVARDWKGSDRDARFLRLVRDAACRSFNTTLGPEYNRAHHDHFHLDMGLYRMCR				NA	NA	NA	NA	NA
BMS010_07409	780	rsmJ_2		Ribosomal RNA small subunit methyltransferase J	ATGAGTGAAGCGTCGCAGCCAACCCGCATTCGTATCGAACCGCTGGAGCCTGCCCTGGCCGAGCGAGCGCAGGACTGGGCCCGGCGCCTCGGTTTGCCACTCGAAGGCGAGGCGGATTTCGCGCTCCAGTTGGGAGAGCAGGGATTGCAACTGGTCGACCTGGGGCCGCAGGCGCCAGGGCCGGTGCGGGTGGATTTCGTCGAAGGAGCGGCGGCCCACCGGCGTCTCTATGGCGGCGGTAGCGGGCAGATGATCGCCAAGGCCGTGGGGGTTCAGTCAGGCGTGCGTCCAGTGGTACTCGATGCGACGGCCGGGCTGGGGCGCGATGCCTTCGTGCTGGCGACACTGGGCTGCGAGATGACGCTGATCGAGCGCCAGCCGCTGATCGCCGAGCTGCTGGAGGATGGCCTCGCCCGGGCGCGGAGCGATCTGGAGGTCGGCCCCATCGCGGCGCGGATGCGTCTGCTCGTTGGCGATGCCATCGCGCTGATGAATGCCTGGGACGGCGAGCCACCCCAGGTGATCTACCTGGACCCGATGTTTCCGCACCGCGACAAGAGCGCCCTGGTGAAAAAGGAAATGCGCCTGTTCCGCCCGCTGGTGGGCGACGATCTGGACGCGCCGGCCCTGCTGGAGGCCGCCCTGGCCCTGGCCAGCCACCGGGTGGTGGTGAAGCGGCCGCGCAAGGCGCCGGTCATCGACGGACCGAAGCCCGGTTATGCCCTGGAAGGGAAATCCAGTCGCTACGACATCTACCCGCTGAAGAAGCTGTCCGTCTGA	MSEASQPTRIRIEPLEPALAERAQDWARRLGLPLEGEADFALQLGEQGLQLVDLGPQAPGPVRVDFVEGAAAHRRLYGGGSGQMIAKAVGVQSGVRPVVLDATAGLGRDAFVLATLGCEMTLIERQPLIAELLEDGLARARSDLEVGPIAARMRLLVGDAIALMNAWDGEPPQVIYLDPMFPHRDKSALVKKEMRLFRPLVGDDLDAPALLEAALALASHRVVVKRPRKAPVIDGPKPGYALEGKSSRYDIYPLKKLSV				NA	NA	NA	NA	NA
BMS010_07410	636			hypothetical protein	ATGTCTAACAATCTGTTACCACCCAGCGGCCCGGGCCGCCCCAAGGACCCGGCCAAGCGCAAGGCTATCCTCGAGGCGGCAAAGACTCTTTTCCTTCGTTACGGCTACGACGGCAGCAGCATGGACGCCATCGCCGCCGAGGCGGGTGTGTCGAAGCTGACGGTGTACAGCCACTTCACCGACAAGGAGACGCTGTTCTCCGCAGCGGTGAAGGCCAAGTGCGTGGAGCAATTGCCCGAACTGCTGTTCGAGCTGCCGGACGACATACCGATCGAGACGGTGCTGCTGAACATCGGTCGCGGTTTCCACGCACTGATCAACAGTTGCGAGTCCGTCGAGCTGCACCGGGTGATGGTCAACCAGGCCACGTTGAACCCCAAGCTGTCGCAAATGTTCTTCGCCGCCGGCCCGCAGCAGGTGCTGGATGGAATGGAAAATCTGCTGCGACGCGCCGACGCCGCCGGCAAGTTGCGCGTGGAGGAGCCGCACCGCGCCGCCGACCACTTCTTCAGCCTCATCAAGGGCAGCGCCAACTTCCGGCTACTGATCGGTTGTTGCGGCCCGCAGGAGGGCGAAGAAGCCGAGCGTCACGTTCAGGACGTGGTGGCGATGTTCATGCGCGCCTACAAGCCCTGA	MSNNLLPPSGPGRPKDPAKRKAILEAAKTLFLRYGYDGSSMDAIAAEAGVSKLTVYSHFTDKETLFSAAVKAKCVEQLPELLFELPDDIPIETVLLNIGRGFHALINSCESVELHRVMVNQATLNPKLSQMFFAAGPQQVLDGMENLLRRADAAGKLRVEEPHRAADHFFSLIKGSANFRLLIGCCGPQEGEEAERHVQDVVAMFMRAYKP	PGPT0028895_587	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexJK-OprM,PGPT0028895-mexL-K18301	NA	NA
BMS010_07411	1104	mdtA_9		Multidrug resistance protein MdtA	ATGTTTCGCCACGTCCTGTCTCTCGCTGCATCTCTCAGCCTCGCCAGTCTCCTCGTCGCCTGCGGTAACGGCGAGCCCGTCAAGCAGCCGGTCCGGCCGGCCATGGTCGTCAAGCCAAAGCCGGCGGCCGAAGCGATGGAAGCCTACCCCGGCGAGGTGCGGGCGCGCTACGAACCCGAGCTGGCCTTCCGTATCGGCGGCAAGGTGGCCAAGCGCCTGGTGGATGTCGGGGCGCGAGTGAAGAAGGATCAGCCGCTGGCCGAACTGGACCCCGAGGACGTGCGCCTGCAACTGGAGGCCACCCGTGCCCAGGTGGCGGCGGCGGAAGCCAACCTGCAACTGGCCCGCGCCGAGCGCGGCCGCTACAAGACCCTGCTGGAGCGCCAGTTGGTCAGCCGCTCGCAGTACGACAATGCGGAGAACGTCTACCGCTCGAACGAGGCCCGGCTGAAGCAGATCCGCGCCGAATATAACGTCGCCAGCAACCAGGCCGCCTACACCGTGCTGCGTGCGCCACAGGACGGCGTGATCGCCAGCCGCCAGGTGGAAGTGGGGCAGGTGGTCGCCGCCGGGCAGACGGTTTTCACCCTGGCCGCCGATGGCGAGCGCGAAGTGCTGTTCAGCGTGCCGGAGCAGGTGTTCGAGCGCTTCCGCATCGGCCAGGACGTTTCGGTGGAACTCTGGTCGCAGCCCGACCAGCGCTTCCCCGGCCGCATCCGTGAGCTGGCTCCGGCCGCCGATCCGCAGTCGCGCACCTTCGCCGCGCGGGTGGCGTTCAGCGAGGGCAAGGTGCCGGCCGAGCTGGGCCAGAGTGCGCGGGTATTCGTCAAGGTGAACGGCGACGTGCCGCTGTCGGTGCCGCTGTCGGCGCTGAGCGCGGAAGGCGGCAGGCCGTTCGTCTGGGTGGTCGATCCCAAGGATTCCACGCTGCAGCGGCGTGCGGTGCGAACCGGGGCTTTCGGCGAGAAACGGGTGCCGATCCTGGAAGGGTTGTCGGTGGACGACTGGGTGGTGGCAGCGGGTGTCCAGTTGCTGCGGGAGGGGCAGGCGGTACGGCCGGTGGACCGGGATAACCGGGTGGTCGAACTGGCGGCGAAGGAGTGA	MFRHVLSLAASLSLASLLVACGNGEPVKQPVRPAMVVKPKPAAEAMEAYPGEVRARYEPELAFRIGGKVAKRLVDVGARVKKDQPLAELDPEDVRLQLEATRAQVAAAEANLQLARAERGRYKTLLERQLVSRSQYDNAENVYRSNEARLKQIRAEYNVASNQAAYTVLRAPQDGVIASRQVEVGQVVAAGQTVFTLAADGEREVLFSVPEQVFERFRIGQDVSVELWSQPDQRFPGRIRELAPAADPQSRTFAARVAFSEGKVPAELGQSARVFVKVNGDVPLSVPLSALSAEGGRPFVWVVDPKDSTLQRRAVRTGAFGEKRVPILEGLSVDDWVVAAGVQLLREGQAVRPVDRDNRVVELAAKE	PGPT0028885_457	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexJK-OprM,PGPT0028885-mexJ-K18302	NA	NA
BMS010_07412	3069	mdtB_2		Multidrug resistance protein MdtB	ATGGGCTTCAACCTGTCCGCCTGGGCGCTGCGCAATCGCCAGATCGTTCTTTACATCATGCTGCTGATGGGCGCGGTCGGTGCACTGTCCTACTCCAAGCTGGGTCAAAGCGAGGACCCGCCGTTCACCTTCAAGGCCATGGTCATCCGCACCCTCTGGCCGGGTGCCAGCGCCGAAGAGGTCTCCCGGCAGGTTACCGAGCGCATCGAAAAGAAGCTGATGGAGACCGGCGACTACGAGCGGATCGTTTCGTTCTCTCGCCCTGGTGAATCGCAGGTGACCTTCATGGCCCGCGATTCCATGCATTCCGCTGACATCCCCGAGCTCTGGTACCAGATACGCAAGAAGGTCGGCGATATCCGCTACACCCTGCCGCCGGACATCCAGGGGCCGTTCTTCAACGACGAGTTCGGCACCACCTTCGGCAACATCTACGCGCTGACCGGCGAAGGCTTCGATTACGCCGTGCTCAAGGACTACGCCGACCGCCTGCAGATTCAGTTGCAGCGGGTCAAGGACGTGGGCAAGGTCGAGCTGGTCGGCCTGCAGGACGAAAAAATCTGGATCGAGCTTTCCAACGTCAAGCTGGCCACCCTCGGCGTGCCGCTCCAGGCGGTGCAGCAGGCGCTTGAAGAGCAGAACGCCATGGCGGCCACCGGCTTCTTCGAAACCGCCAGCGACCGGGTACAGCTACGGGTATCCGGTCGTTTCGCGTCGGTGGAGGAGATCCGCAATTTCCCCATCCGCGTCGGCGACCGTACCTTCCGCCTCGGCGACGTGGCCGATGTGCGGCGTGGCTTCAACGACCCGCCGGCGCCACGCATGCGCTTCATGGGCGAGGACGCCATCGGTCTGGCAGTTTCGATGAAGGCGGGCGGCGACATCCTGGCCCTGGGCGAATCCCTCGAACATGAGTTCGCCCGATTGCAGGAAAACCTGCCGGTCGGCATGCAGCTGCGCAAGGTGTCTGACCAGCCGGCGGCGGTGAAGACCGGCGTGGGCGAGTTCGTCCGGGTACTGGCCGAGGCGCTGGTCATCGTCCTGCTGGTGAGCTTCTTCTCCCTCGGGCTGCGCACCGGCCTGGTGGTGGCGCTGTCGATTCCGCTGGTACTGGCGATGACCTTCGCCATCATGAATTACTTCAATATCGGGTTGCACAAGATCTCGCTCGGCGCGCTGGTGCTCGCCCTCGGGCTGCTGGTGGACGACGCGATCATTGCGGTGGAGATGATGGCGATCAAGATGGAGCAGGGCTTCGACCGCCTCAAGGCGGCCAGCTACGCCTGGACCAGCACCGCCTTCCCCATGCTTACCGGGACCCTGATCACCGCTGCCGGCTTCCTGCCGATCGCCACGGCAGAGTCCAGTACCGGCGAATACACCCGCTCGATCTTCCAGGTGGTGACCATCTCGCTGCTGGCCTCATGGGTGGCCGCGGTGGTGTTCGTGCCCTATCTCGGCGAGCGCCTGCTGCCGGACCTGGCCAAACGTCATGCCGAGAAGCATGGTGGCAGCGACAAGGGCCATGACCCTTACTCCACACCGTTCTACCAGCGCTTCCGGCGGGTGGTGGAGTGGTGCGTGCGGCGGCGCAAGACGGTGCTGTTGCTCACCGTAGGTGCCTTCGTCGCGGCGGTGGTGCTGTTTCGTTTCGTGCCGCAGCAGTTCTTCCCGGCCTCCGGGCGGCTGGAGCTGATGGTCGACCTGAAACTGGCCGAGGGCGCGTCTCTGGTGGCCACCGAGGCCGAAGTCAAGCGCCTGGAGAAGCTGATCGCCGGGCATGAGGGCGTCGACAACTACGTGGCTTACGTCGGTACCGGATCGCCGCGTTTCTATCTGCCGCTCGACCAGCAACTGCCGGCGGCCAGCTTCGCCCAGTTCGTCGTGCTGGCGAAGACCGTCGAGGATCGCGAGCGCATCCGTGGCTGGCTGATCAAGACCATGGACGAGGATTTCCCCACCTTGCGCAGTCGCGTTTCGCGCCTCGAGAACGGTCCGCCGGTGGGCTATCCGATCCAGTTCCGCGTGACCGGCGAGCACATCGAGGAGGTCCGTGCCCTGGCCCGCGAAGTGGAGGCCAAGGTGCGCGAGAATCCCTACGTGGTGAACGTGCACTTGGACTGGGAAGAGCCGAGCAAGGTGGTGCGCCTGAATATCGATCAGGAGCGGGCCCGTGCATTGGGTGTCAGCACCGCGGATGTGTCGCGTTTCCTGCAAAGCTCCCTGACCGGATCGAGCGTCAGCCAGTACCGCGAAGACAACGAGCTGATCGAAATCCTTCTGCGCGGCACGCCGCGCGAGCGCAACGACCTCACGCTGCTGCAGAGCCTGGCGGTGCCCACCAGCAATGGCCGCAGTGTCGCGCTGTCGCAGATCGCCACCTTCGACTACAGCTTCGAGGAAGGCATCATCTGGCACCGCAACCGTCTGCCCAACGTCACCGTGCGCGCCGATATCTACGGGCCCGAGCAGCCGGCCACGCTGGTCAGCCAAATCCTGCCAACCCTGGAGCCGATTCGCGCCAAACTACCGTCCGGTTACCTGCTGGAGGTGGGCGGTACCCTGGAGGACTCGGCGCGCGGGCAGAAGTCGGTGAACGCCGGCCTGCCATTGTTCGTGGTGGTGGTGCTGACCCTGTTGATGGCGCAACTGAAGAGCTTCTCGCGCTCGGCGATGGTGTTCCTCACCGCGCCCCTGGGGCTGATCGGCGTGACCCTGTTCCTCCTGGTGTTCCGCCAGCCGTTCGGCTTCGTCGCGATGCTCGGCACCATCGCCCTGGCCGGCATGATCATGCGCAACTCGGTGATCCTGGTGGACCAGATCGAACAGGACATCGAGGCCGGCCTGGACCGTTGGCACGCCATCATCGAGGCGACGGTGCGCCGCTTCCGACCCATCGTGCTGACGGCGCTGGCCTCGGTACTGGCGATGATCCCGCTGTCGCGCAGTATCTTCTTCGGCCCCATGGCCGTGGCGATCATGGGCGGCCTGGTGGTTGCCACCGCGCTGACCCTGCTGTTCCTGCCGGCGCTGTATGCCGCCTGGTTCAGGGTGAAGAAGGAAAGCTGA	MGFNLSAWALRNRQIVLYIMLLMGAVGALSYSKLGQSEDPPFTFKAMVIRTLWPGASAEEVSRQVTERIEKKLMETGDYERIVSFSRPGESQVTFMARDSMHSADIPELWYQIRKKVGDIRYTLPPDIQGPFFNDEFGTTFGNIYALTGEGFDYAVLKDYADRLQIQLQRVKDVGKVELVGLQDEKIWIELSNVKLATLGVPLQAVQQALEEQNAMAATGFFETASDRVQLRVSGRFASVEEIRNFPIRVGDRTFRLGDVADVRRGFNDPPAPRMRFMGEDAIGLAVSMKAGGDILALGESLEHEFARLQENLPVGMQLRKVSDQPAAVKTGVGEFVRVLAEALVIVLLVSFFSLGLRTGLVVALSIPLVLAMTFAIMNYFNIGLHKISLGALVLALGLLVDDAIIAVEMMAIKMEQGFDRLKAASYAWTSTAFPMLTGTLITAAGFLPIATAESSTGEYTRSIFQVVTISLLASWVAAVVFVPYLGERLLPDLAKRHAEKHGGSDKGHDPYSTPFYQRFRRVVEWCVRRRKTVLLLTVGAFVAAVVLFRFVPQQFFPASGRLELMVDLKLAEGASLVATEAEVKRLEKLIAGHEGVDNYVAYVGTGSPRFYLPLDQQLPAASFAQFVVLAKTVEDRERIRGWLIKTMDEDFPTLRSRVSRLENGPPVGYPIQFRVTGEHIEEVRALAREVEAKVRENPYVVNVHLDWEEPSKVVRLNIDQERARALGVSTADVSRFLQSSLTGSSVSQYREDNELIEILLRGTPRERNDLTLLQSLAVPTSNGRSVALSQIATFDYSFEEGIIWHRNRLPNVTVRADIYGPEQPATLVSQILPTLEPIRAKLPSGYLLEVGGTLEDSARGQKSVNAGLPLFVVVVLTLLMAQLKSFSRSAMVFLTAPLGLIGVTLFLLVFRQPFGFVAMLGTIALAGMIMRNSVILVDQIEQDIEAGLDRWHAIIEATVRRFRPIVLTALASVLAMIPLSRSIFFGPMAVAIMGGLVVATALTLLFLPALYAAWFRVKKES	PGPT0028890_599	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexJK-OprM,PGPT0028890-mexK-K18303	NA	NA
BMS010_07413	426	yjbI_2	COG2346	Group 2 truncated hemoglobin YjbI	ATGAGCGAAAAGCCCGTCTACGGTGTCGGCGATGCCTCCTACCGGGCTGCCGGAGGTATCGAGGGGCTTCGCCGGCTGGTCGACGAGTTCTATCGGCAGATGGACGAATGGCCCGAAGCCGCCGCCTTGCGGCGCCTGCATCCCGAAGACCTGGCGCCGAGCCGCGACAAGCTGGCCAGCTTTCTCAGTGGCTGGCTCGGTGGGCCGAAGCTGTTCAGCGAGAAGTACGGCCCCATCGCCATTCCTTCTTTCCATGCGCAATGGCCGGTCGATGAGGCCCTGGGCGAGGCCTGGCTGGGCTGCATGGCGCGCGCCATCGCCAAGCAGGGCTATGCTCCGGACTTCGCCGACTACCTGCTGGCTCAACTGCGGGTGCCGGCGCAACGCATCGTCCAGGCCAGCCGCAATCGGCATGGCCTGACATGA	MSEKPVYGVGDASYRAAGGIEGLRRLVDEFYRQMDEWPEAAALRRLHPEDLAPSRDKLASFLSGWLGGPKLFSEKYGPIAIPSFHAQWPVDEALGEAWLGCMARAIAKQGYAPDFADYLLAQLRVPAQRIVQASRNRHGLT				NA	NA	NA	NA	NA
BMS010_07414	678			hypothetical protein	ATGCTTCGCCTGACCACCCTGCTCGCCACCCTTACCCTCTCCGCCAGCGCATTCGCCCTGTCGCTCGCCGATCTCAGCCAGTCCGAAGCCAGCGGCGGTCTTAAGGATGCTCTCGCCCAGGGCGCCAAGGTGGCCGTGCAGCAACTCGGCAAACCCGGCGGGTTCAGCAACGATCCCGAGGTGCGCATCGAACTGCCGGGCAAGCTCGGCAAGGCGGCCCGCACCATGAAGATGATGGGTATGGGGGCGCAGGTCGAACAGCTCGAAGCCAGCATGAACAAGGCCGCCGAAGCGGCGGTGCCGGAAGCCCAGGCCTTGCTGCTGGACGCAGTGAAAAAGATGACCGTGACCGACGCCAAGGGCATCCTTTCCGGTCCCAACGACGCTGCCACTCAGTACCTGAACCGCACCAGCCGCGAGCAGATCCGCGCGCGCTTCCTGCCAATCGTGAAGAAGGCCACCGATCAGGTCGGCCTGGCCCAGCAGTACAACGCCTTCGCCAGCCAGGCGGCCACCTTCGGTGTCATCGACGCGAAAAGCGCCAGCGTCGAGGGCTACGTCACCGAGCAGGCGCTGAACGGACTCTTCGAGGTGATCGCCAAGCAAGAGGCGAGTATTCGCCAGAACCCGGCTGGTGCCGCCACCAGCCTGGCGAAGAAAGTCTTCGGCCTGCTCTAA	MLRLTTLLATLTLSASAFALSLADLSQSEASGGLKDALAQGAKVAVQQLGKPGGFSNDPEVRIELPGKLGKAARTMKMMGMGAQVEQLEASMNKAAEAAVPEAQALLLDAVKKMTVTDAKGILSGPNDAATQYLNRTSREQIRARFLPIVKKATDQVGLAQQYNAFASQAATFGVIDAKSASVEGYVTEQALNGLFEVIAKQEASIRQNPAGAATSLAKKVFGLL				NA	NA	NA	NA	NA
BMS010_07415	2487	plsB	COG2937	Glycerol-3-phosphate acyltransferase	ATGACCCGCTCCCCGTTTCGCCGCCTCGCCTTCGGTACCCTGCGCCGCCTGCTGTATCTCTGGGTGCGCTCGGAAACCATCAACCAGTCGGCCTTTTCCCTCCAGCTCGACCGCAGCAAACCGGTGTTCTACGTGCTGCAGCAGCCCTCGGTCAGCGACCTCGCGGTGGTCGATACGGAATGCACCAAGGCCGGCCTGCCGCGTCCGGTGCTGCCGGTGGCGGTGGGTGGCCATGTCGAGCCCGCGGCCTTCTTCTATTTGACCCCGGCACCCGGCTGGCTCGGCCGCCAGGGCAAGCGCGGTGCCTCACCGACGCTGGTGCGGCTGGTCAATGCCCTCGGCCAGCACAACGTCGAGGATGTGCAGATCGTCCCGGTCAGCGTGTTCTGGGGCCAGTCGCCGGATCGCGAGACCAGCCCCTGGAAGCTGCTGTTCGCCGACACCTGGGCGGTCACCGGGCGCCTGCGTCGGCTGGTGAGCATCCTCATCCTCGGTCGCAAGACCCGAGTGCAGTTCTCCACACCCATCCACCTGCGCGAGCTGGTCGAGCAGGACAAGGGCGAGGAGCGCACCCTGCGCATGGTCCATCGCATCCTGCGCGTGCATTTCCGCAACCAGAAGACCGCCGTGATCGGCCCGGACCTGTCGCACCGGCGCAATCTGGTGAAAGGGCTGGTACACGCGCCCCTGGTTCGCCAGGCCATCCTCGACGAGACCGAGCGCGAGAAGATTTCCGTGGAAAAGGCCGAAGCCCAGGCCCTGCGCTACGGCAACGAGATCGCTTCGGACTTCGCCTACACCGCGATCCGCTTCCTCGAAGTGGTGCTGTCGTGGTTCTGGAACAAGCTCTACGAGGGCATCCGGATCAACCACATCGAGCAGGTGCAGAGCGTGGTGCACGGCCATGAGGTGATCTACGTGCCCTGCCACCGCAGCCACATCGATTACCTGCTGCTGTCCTACCTGTTGTTCCGCAACGGCCTGACCCCGCCGCACATCGCCGCCGGGATCAACCTGAACATGCCGGTGATCGGCGGCCTGCTGCGCCGGGGCGGCGCCTTCTTCATGCGCCGCACCTTCAAGGGCAACCCGCTCTATACCGCAGTGTTCAACGAATACCTCTATACCTTGTTCAGCCGCGGCTTCCCGGTGGAATACTTCGTCGAAGGCGGCCGTTCGCGCACCGGTCGCATGCTGCAACCGAAGACCGGCATGCTCGCCATCACCCTGCGCAGCTTCCTGCGCTCCTCGCGCCTGCCCATCGTCTTCGTGCCGGTCTATATCGGCTACGAGCGGGTACTGGAGGGGCGCACCTACCTCGGCGAACTGCGCGGTGCGGCGAAGAAGAAGGAGTCGATCTTCGACCTCTTCAAGGTCATCGGCGCCCTCAAGCAGCGCTTCGGCCAGGTCTGGGTCAATTTCGGCGAGCCGATCAAGCTGGCCGACTTCCTCGACCGCGAACAGCCTGGTTGGCGTGATCAGGAACTCGGCCCGCAATACCGCCCGGCCTGGCTCAACGAGACCACCAACCGTCTCGCCGACCGCGTCGCCCAGCACCTGAACGAAGCGGCGGCGGTCAACCCGGTCAACCTGGTCGCCCTGGCGCTGCTGTCCACCAGCAAGCTGGCGCTCGACGAGAAGGCTCTGGCGCGGGTGCTGGACCTCTACCTGGCGCTGCTGCGCCGGGTGCCCTACTCGGTCCACTCCACACTGCCGGACGGCGATGGCCAGGCGCTGATCGAATACGTCCGCAGCATGGACCTGCTCGCCGAACAAAAGGACGCCCTCGGCCGCATTCTCTATCTGGACGAGCAGAACGCCGTCCTGATGACCTACTACCGCAACAACATCCTCCACGTCTTCGCCCTGCCGGCATTGCTCGCCAGCTTTTTCCAGAGCAGCGCGCGGATGAGCCGCGAGCAGATCTTGCGCTACACCCGCGCGCTCTACCCCTACCTGCAGTCGGAACTGTTCATCCGCTACGAAGTGGAAGAGCTGGATGCGGTGATCGACGACTGGCTGGCCGCGTTCGTCGACCAGGGCCTGCTGAAGTTCGAGAACGACGTGTTCGTGCGCCCGGCGCCCAGCTCGCGACAGTTCGTCCTGCTGACCCTGCTGGCTCGCGCCATCGTGCAGACCCTGCAGCGCTTCTACATGGCCATCGCCCTGCTGATCAACGGCGGGCAGAACACGCTGTCTGCCGAGGAGCTGGAGAATCTCTGCACCGTGATGGCCCAGCGCCTGTCGATCCTCCATGGCTTGAACGCCCCGGAATTCTTCGACAAGAGCCTGTTCCGCCACTTCATCCAGAGCCTGCTCGACCAGGGTGTGCTGCGCCAGGACGAAGCCGGCAAGCTCAGCTACCACCCGCAGCTCGGCGAACTGGCCGAAGGCGCGGCCAAGCGCGTGCTGCCGGCGGAAATCCGCCTGTCGATCCGCCAGGTGACCATGGAGCGTAGCGAGGACAGTGCCGAGACCGTAGCCTGA	MTRSPFRRLAFGTLRRLLYLWVRSETINQSAFSLQLDRSKPVFYVLQQPSVSDLAVVDTECTKAGLPRPVLPVAVGGHVEPAAFFYLTPAPGWLGRQGKRGASPTLVRLVNALGQHNVEDVQIVPVSVFWGQSPDRETSPWKLLFADTWAVTGRLRRLVSILILGRKTRVQFSTPIHLRELVEQDKGEERTLRMVHRILRVHFRNQKTAVIGPDLSHRRNLVKGLVHAPLVRQAILDETEREKISVEKAEAQALRYGNEIASDFAYTAIRFLEVVLSWFWNKLYEGIRINHIEQVQSVVHGHEVIYVPCHRSHIDYLLLSYLLFRNGLTPPHIAAGINLNMPVIGGLLRRGGAFFMRRTFKGNPLYTAVFNEYLYTLFSRGFPVEYFVEGGRSRTGRMLQPKTGMLAITLRSFLRSSRLPIVFVPVYIGYERVLEGRTYLGELRGAAKKKESIFDLFKVIGALKQRFGQVWVNFGEPIKLADFLDREQPGWRDQELGPQYRPAWLNETTNRLADRVAQHLNEAAAVNPVNLVALALLSTSKLALDEKALARVLDLYLALLRRVPYSVHSTLPDGDGQALIEYVRSMDLLAEQKDALGRILYLDEQNAVLMTYYRNNILHVFALPALLASFFQSSARMSREQILRYTRALYPYLQSELFIRYEVEELDAVIDDWLAAFVDQGLLKFENDVFVRPAPSSRQFVLLTLLARAIVQTLQRFYMAIALLINGGQNTLSAEELENLCTVMAQRLSILHGLNAPEFFDKSLFRHFIQSLLDQGVLRQDEAGKLSYHPQLGELAEGAAKRVLPAEIRLSIRQVTMERSEDSAETVA	PGPT0024370_333	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024370-plsB-K00631	NA	NA
BMS010_07416	924	btuD_17		Vitamin B12 import ATP-binding protein BtuD	ATGATCGAGATCAGTCATCTAAGTAAGCGTTTCGCGCAGCACACCGCGGTGGACAACCTGTCCTTCCGAGTCCAGCAGGGAGAAGTGCTGGGATTCCTCGGCCCGAACGGCGCCGGTAAATCCACCACCATGAAGATGCTCACCGGCTTCCTGGTGCCGACCTCGGGCACCGCCAGCATCCTCGGTTTCGACATCCAGACCCAGACCCTCCAGGCCCAGCGGCAGATCGGCTACCTGCCGGAAGGCGCGCCCTGCTACGGCGACATGACGGTGCGCGGCTTCCTCGAGTTCATCGCCGAGGTGCGCGGATTCCGGGGTGCCGAGAAGAAAGAACGGGTCAGCAAGGCCGTCGCCCTGGTGGAATTGGAAAACGTCCTCGAACAATCCATCGAGACGCTGTCCAAGGGCTTCAAGCGTCGCGTCGGGCTGGCCCAGGCGATCCTCCACGATCCCAAGGTGCTGATCCTCGACGAACCTACCGATGGCCTCGATCCCAACCAGAAACATCAGGTCCGCCAGCTCATCCAGAGCCTGGCGAAGGACAAGATCGTCATCATCTCCACCCATATCCTCGAGGAAGTGACCGCCGTCTGTACCCGCGCGGTGGTGATCGCCGGCGGCCGGCTGGTGGCCGACAGCACGCCCTTCGAACTGGAGAGCCGTTCGCGCTATCACCAGGCGGTGACCCTGGTGGCCGAGGATGTGCTGGACGTCGCGGCGCTGGCGGAATTGCCGGGCGTGGCGGGTATCGAGGAAAACGGCATCGCCAACAGCCTGACGGTGCTGGCCAAGCCGGGCGAGGTGATCTTCCCGCAGGTCAACGATCTGATCCGCGAGCGCGGCTGGAAAATCAAGGAATTGGACGTGGAGCGTGGGCGCCTCGATGAGGTGTTCCGCACCCTGACCCGGGGAGAAGCAGCATGA	MIEISHLSKRFAQHTAVDNLSFRVQQGEVLGFLGPNGAGKSTTMKMLTGFLVPTSGTASILGFDIQTQTLQAQRQIGYLPEGAPCYGDMTVRGFLEFIAEVRGFRGAEKKERVSKAVALVELENVLEQSIETLSKGFKRRVGLAQAILHDPKVLILDEPTDGLDPNQKHQVRQLIQSLAKDKIVIISTHILEEVTAVCTRAVVIAGGRLVADSTPFELESRSRYHQAVTLVAEDVLDVAALAELPGVAGIEENGIANSLTVLAKPGEVIFPQVNDLIRERGWKIKELDVERGRLDEVFRTLTRGEAA	PGPT0006725_6797	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
BMS010_07417	735			hypothetical protein	ATGAAACAGCTACCCGTCGTCTTCAAGCGCGAGCTGGCGAGCTACTTCGCGACCCCGCTGGCCTATGTGTTCATCGTCATCTTCCTGGTGCTGTCCGGGGTATTCACCTTCTACCTGGGCGGCTTCTACGAGCGCGGCCAGGCCGACCTGTCGCCGTTCTTCAATTTCCACCCGTGGCTCTACCTGTTCCTGGTGCCGGCCATCGCCATGCGCCTCTGGGCGGAGGAGCGCAAGTCCGGCTCCATCGAGTTGCTGATGACGCTGCCGATCACCCGCTTCGAGGCGGTCACCGGCAAGTTCCTTGCCGCCTGGGCGTTCGCCGGCATCGCCCTGCTGCTCACCTTCCCCATGGTGATCACGGTCAACTACCTGGGCGAGCCGGACAACGGCGCCATCCTCACCGCCTACATCGGCAGTTGGCTGCTGGCCGGCTCGTACCTGGCGATCGGCTCCTGCATGTCGGCGCTGGCGAAGAACCAGGTGATCGCCTTCATCCTGGCGGTGAGCGTGTGCTTCCTGTTCATCGTCAGCGGGTTCCCGCTGGTGCTGGACGCGTTCAACGCCTGGGCGCCGCAGTGGCTGCTCGATGCGGTGTCGTCGCTGAGCTTCCTGATTCGCTTCGACGCCATCAGCAAGGGCGTGATCGACCTGCGCGACCTGCTCTATTTCGTCACCCTGATCGCCGCCTGGCTGGCTGCCACGGCGGTGGTGGTCGATCTGAAGAAGGCTGACTGA	MKQLPVVFKRELASYFATPLAYVFIVIFLVLSGVFTFYLGGFYERGQADLSPFFNFHPWLYLFLVPAIAMRLWAEERKSGSIELLMTLPITRFEAVTGKFLAAWAFAGIALLLTFPMVITVNYLGEPDNGAILTAYIGSWLLAGSYLAIGSCMSALAKNQVIAFILAVSVCFLFIVSGFPLVLDAFNAWAPQWLLDAVSSLSFLIRFDAISKGVIDLRDLLYFVTLIAAWLAATAVVVDLKKAD	PGPT0006730_23240	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
BMS010_07418	1836			hypothetical protein	ATGAAGAGACTCCTGTATTCCGGCGCCGGGTTGTTGCTGATCGCCCTGGCCTTCCTCGCCTTCAACATGGTGTCCAGCCTGGCGTTCACCGACGCGCGGCTGGACCTGACCGAGCAGAAGCTCTACACCATTTCCGACGGTACCCGGCGCATCCTCGATGAGCTGGACGAGCCGATCAACCTGTACTTCTTCTACTCCGACAAGACCGCCAAGGACCTAGTGACCCTGCGCAACTACGCCAAGCGCGTGGAAGAGATGCTCAAGGCCTACGAGCGTGCCGCCGACGGCAAGATCAAACTGCATATCGTCGATCCCGAGCCGTTCTCGGAAGACGAAGACAAGGCGGCGGAGTTCGGTCTGCAGGCGGTACCGCTGAACCAGGGCGGCGAGCAGGTCTACTTCGGCCTGGCCGGGACCAACAGCCTGGACGGCGTGCAGATCATTCCGTTCTTCCCGATGGACCAGGAAGAGTTCCTCGAATACGAGATCAGCCGCCTGGTGCAGAGCCTGGCCAAGCCCGACCGGCCGGTGGTGGGCGTGTTGTCCGGCCTGCAGATGAACGGCGGCTTCGACATGATGAGCCGTCAGCCGACACCGCCGTGGATGCTGATGGAAGAAGTGCGCCAGTTGTTCAAGATCGAGAGTCTGAAAAACGACATCGACCAGATCCCGGAAGACGTTTCCGTGCTCTGGCTGGTGCATCCTAAGCAACTGCCGCAGCAGACCCTCTATGCCATCGACCAGTTCGTCCTGCGTGGCGGCAAGTTGCTGGTGTTCGTCGATCCGTACAGCGAAGCGGATAACGGCATGGAGATGCCGGGCGAGATGGCCGGCGACAAATCCTCCGATCTGGAGCCGCTGTTCAAGGCCTGGGGGCTGCGCCTGATGCCCGGCAAGGTGCTCGGCGACGGCTCCTATGCCATGGCCGTGAGCATGGGGCAGGGCCAGCGTCCGGTGCGCCATGCGGCTTGGCTGAGCCTGCCGCAGAAGGCCCTCGACCAGAATGACGTCAGCACCTCGGGCCTGGAAACTGTCACGGTGGCCACGGCCGGCATTCTCGAGCCGGTGGAGGGGGCCCAGACCCATTTCACACCGCTGATCCAGAGTTCCGAATACGCCATGCCGTTCGACGCCCAGCGCTTCGCCATGCTGAGCAATCCCGAGGAGCTGATCCGCGAGCTGGAGCCCACCGGCGAGCGCTATGCCATCGCGGCGCGTATCAGCGGTCCGGCGAAGAGCGCCTTCCCGGACGGCATCGAAGGCCGCAAGGACGGACTCAAGGAGGCGGCCAACATCAACGTGATCGCGGTGGCCGACACCGACCTGCTGACCGATCGCATGTGGGTGCAGGTGCAGGACTTCTTCGGCCAACGTATCCCGCAGCCCTGGGCGGACAACGCCGGTTTCGCCATCAACGCGCTGGATAATCTGGCCGGCTCGGACGCACTGATCAGCGTGCGTTCCCGTGGCCGTTTCACCCGGCCCTTCACCGTGGTGGAAGCCTTGCAGCGCGACGCCGAGGTCAAGTTTCGCGAGAAGGAGCAGGTCCTGCAGCAACGTCTCGCCGACACCGAACAGAAGCTGGCCGCCCTGCAACGCAGCGACGATCCGGCCAAGGTCCTGGAGCTGACGCCGGAACAGCAGGCCACGTTGCAGCAGTTCCTCCAGGAAAAGGTTCGTATCCGGAAGGAATTGCGCGAGGTGCGTTATCAGCTGAACGCGGATATCGAAAAGCTGGGCCGCACCCTGAAGTTCGTCAATATCGCACTGGTGCCCCTCGTGCTGACGCTTGCCGTGTTGGCCCTCTGGGTGTGGCGCCGCCGCCGTCAGGCTTGA	MKRLLYSGAGLLLIALAFLAFNMVSSLAFTDARLDLTEQKLYTISDGTRRILDELDEPINLYFFYSDKTAKDLVTLRNYAKRVEEMLKAYERAADGKIKLHIVDPEPFSEDEDKAAEFGLQAVPLNQGGEQVYFGLAGTNSLDGVQIIPFFPMDQEEFLEYEISRLVQSLAKPDRPVVGVLSGLQMNGGFDMMSRQPTPPWMLMEEVRQLFKIESLKNDIDQIPEDVSVLWLVHPKQLPQQTLYAIDQFVLRGGKLLVFVDPYSEADNGMEMPGEMAGDKSSDLEPLFKAWGLRLMPGKVLGDGSYAMAVSMGQGQRPVRHAAWLSLPQKALDQNDVSTSGLETVTVATAGILEPVEGAQTHFTPLIQSSEYAMPFDAQRFAMLSNPEELIRELEPTGERYAIAARISGPAKSAFPDGIEGRKDGLKEAANINVIAVADTDLLTDRMWVQVQDFFGQRIPQPWADNAGFAINALDNLAGSDALISVRSRGRFTRPFTVVEALQRDAEVKFREKEQVLQQRLADTEQKLAALQRSDDPAKVLELTPEQQATLQQFLQEKVRIRKELREVRYQLNADIEKLGRTLKFVNIALVPLVLTLAVLALWVWRRRRQA				NA	NA	NA	NA	NA
BMS010_07419	990			hypothetical protein	ATGGGTCGTAGAAGTCTGTCGTTCCTGGCCTTGCTGGCCGCCGCGCTGCTGATCGCCTTCTTCTGGCTGCAGCGCGAGCCGCAGCCGGTGGCTACCGCCCAGGAACCGCTGTTGCCGATGCTGCAGGGCAAGTTCAACGAGGTCAGCGCCATCGAGATACAGCGCCCCGGCCAGCCGCTGGTGCGTCTGGCACGCAAGGACGGCGTCTGGGTGGTGCCGGCCAAGTCGGACTACCCGGCCGCCGGGCAACCGCTGGCCGAGCTGCTGCGTGCCTTGAACGAGGCCCGCAAGGTCGAGGCGAAGACCCGCAACCCCGAGTTCCACGGTCGCCTCGGTCTGGCTGAGCAGGGCAAGGAGGATGAGCAGGCCACCCGGGTGACGCTGGAACGCGGCACCGGTGAGCCGGTACGCCTGCTGATCGGCAAGGCTGCTCCCCAGGGCCGTGGCCAGATGGTGCGTCTGGCCGGGGACCCGCAGGTGTGGCTGGTCAACCAGAGCATCGAGATGCCGGCCAACGAGTTGGCCTGGCTCGACCGGCGGGTAACGGTGATTCCCTTCGGCGACATCCGCGAGTTCGACCTGCGCCATGCCGGCGGCGAGCAACTGACGCTGTTCCGCGAGAGCAAGGACGAGCCCAATCTCAAGGTCCGGCAGATGCCACAGGGCCAGCGGTTGGCCTACGAGGCGGTCGCCAACGGCATGGTCATGCCGCTCTCGCGCCTGGACTTCGCCGAGGCGGCGCCCCTGGCCCAGGTGCAGTTCAAGGGCAAGCCGGAACTGGAGTTCACGCTCGCCACCTTTGCCGGCGGACGGCTCAAGGGGGCCGTTTATGCACAGGGCGGAGAGCACTGGCTGACACTGCCGGAACGCGAAGGTCTGTCCGAGGCCGAGGTACCCGCGAAGGCGGATTGGACCTACCGTCTGGAGCCTTATCAGTACCAGGCGATGGCGAAGAAGTTGAAGGATTTGTTACCCGAAAAGACCCCTTGA	MGRRSLSFLALLAAALLIAFFWLQREPQPVATAQEPLLPMLQGKFNEVSAIEIQRPGQPLVRLARKDGVWVVPAKSDYPAAGQPLAELLRALNEARKVEAKTRNPEFHGRLGLAEQGKEDEQATRVTLERGTGEPVRLLIGKAAPQGRGQMVRLAGDPQVWLVNQSIEMPANELAWLDRRVTVIPFGDIREFDLRHAGGEQLTLFRESKDEPNLKVRQMPQGQRLAYEAVANGMVMPLSRLDFAEAAPLAQVQFKGKPELEFTLATFAGGRLKGAVYAQGGEHWLTLPEREGLSEAEVPAKADWTYRLEPYQYQAMAKKLKDLLPEKTP				NA	NA	NA	NA	NA
BMS010_07420	210	cspA_3	COG1278	Major cold shock protein CspA	ATGGCTGATCGTGAGGTCGGAACCGTCAAGTGGTTCAATGATGCCAAAGGCTATGGATTCATTCAGCGCGAAAGCGGCCCGGACGTGTTCGTTCACTACCGCGCCATCCGTGGCGAAGGTCACCGCTCCCTGGTCGAAGGCCAGAAGGTCGAGTTCTCGGTGATCCAAGGTCAGAAAGGCCTGCAGGCGGAAGACGTCGCCAGAATGTGA	MADREVGTVKWFNDAKGYGFIQRESGPDVFVHYRAIRGEGHRSLVEGQKVEFSVIQGQKGLQAEDVARM	PGPT0014675_4130	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
BMS010_07421	369			hypothetical protein	ATGCGTCAACCGGATATCGAGATCTACCTGAAGGATGCCGATCAAGAAGACGTCACTCGCTGGCTGAGCGAAGCGCTCGGCCCCTGCACGCCTTGGCAGCGCAAGGGGCAGACGTTCAAATGCGAGGCCGATGGCATTCCGGTGACTTGGCTTCCCAACGCCGCGGGCAAGTGGCACAGCCTCTACCTGGAAAGCGACGCCACGCCCTGGGCGGATGACCTGGCCTGCGCAAAAGCGGCCTTCGCCACGCTGGGCGTAGAAATCCGCTGCGCACCGGGCGGCTGGAACGAAGAAGAAGGCGAAGAGCAGGCCGACCGCTGGCTAAGCGTCAATGCCGACGGCGAGAAAGAGATCATCTGGCGCACCTGA	MRQPDIEIYLKDADQEDVTRWLSEALGPCTPWQRKGQTFKCEADGIPVTWLPNAAGKWHSLYLESDATPWADDLACAKAAFATLGVEIRCAPGGWNEEEGEEQADRWLSVNADGEKEIIWRT				NA	NA	NA	NA	NA
BMS010_07422	807	rlmA	COG0500	23S rRNA (guanine(745)-N(1))-methyltransferase	ATGCTCATCTGCCCTCTCTGCCAAGCGCCGCTGAGCCCGGTCGAAAGCGGCGTGGCCTGCCCGGCCGGCCACCGTTTCGACCGTGCCCGCCAGGGTTATCTGAATCTGCTGCCGGTGCAGCACAAGAAAAGCCGTGACCCGGGCGACAACAGCACCATGGTCGAAGCCCGGCGCCGTTTCCTCGACGGCGGGCACTACGCGCCGCTGGCGGCGCGCCTCACCAAACTGGCCGCCGAGCGCGCACCGCGGCGCTGGCTGGATATCGGCTGCGGCGAAGGCTACTACACCGCGCAAATCGCCCAGGCGCTGCCGGAGGCCGAAGGCTACGCGCTGGATATCTCCCGCGAGGCGGTGAAACGCGCCTGTCGCCGGGCACCGCAACTTTCCTGGCTGGTGGCGAGCATGGCCCGCGTTCCGCTGGCCGACGCCAGTTGCGACCTGATCGCCAGCGTGTTCAGCCCGCTGGACTGGCAGGAGGCCCGGCGCCTGCTGGCACCGGGCGGCGGCCTGCTGCGCATGGGCCCGACCCGCGAGCATCTGCTCGAGCTGCGCGCCCGCCTGTACGATGAGGTCCGCGACTACGACGATACCAAGCACCTGTCACAGATTCCCGACGGCATGCGGCTGGCCCACAGCGAGACACTCGACTTCGTGCTGGCGCTCGACAACCCGGACGTACGCGCCGATCTGCTGGCCATGACGCCCCACGGTTGGCGCGCCAGCGCCGAGCGTCGCGCCGCGGTGATCGCCGAGCCGTTCGAGGTGCGGGTGTCCATACGCTACGATTGGATCGAACGACTGGCCTGA	MLICPLCQAPLSPVESGVACPAGHRFDRARQGYLNLLPVQHKKSRDPGDNSTMVEARRRFLDGGHYAPLAARLTKLAAERAPRRWLDIGCGEGYYTAQIAQALPEAEGYALDISREAVKRACRRAPQLSWLVASMARVPLADASCDLIASVFSPLDWQEARRLLAPGGGLLRMGPTREHLLELRARLYDEVRDYDDTKHLSQIPDGMRLAHSETLDFVLALDNPDVRADLLAMTPHGWRASAERRAAVIAEPFEVRVSIRYDWIERLA				NA	NA	NA	NA	NA
BMS010_07423	1152	dapE_4	COG0624	Succinyl-diaminopimelate desuccinylase	ATGACCGCCCCCTCCCCCGCCCTGTCGCCTACCCTGGAACTGGCCTGCGAGCTGATTCGTCGCCCATCGGTCACACCGGTGGACGAAGGCTGCCAGGACCTGATGATGCGCCGGCTGGCCGCCGTCGGTTTCACGACCGAGCGGATGCGCATCGAAGAAGTGGAGAACTTCTGGGCCAGGCGCGGAGGCGACGGCCCGGTACTGTGCTTCGCCGGCCACACCGACGTGGTACCGACCGGCCCCCTGCAGGCCTGGCAGCACCAGCCATTCGAAGCCCTGATCGATGAGCAGGGCATGCTCTGCGGACGCGGCGCGGCAGACATGAAGGGCAGCCTGGCGGCAATGATCGTGGCGGTGGAGCGCTTCGTCGCCGATCACCCGCAGCACAACGGCGCCATCGCCTTCCTCATCACCAGCGACGAGGAAGGCCCGGCCCAGCACGGCACCAAGGCCGTGGTCGAGCGCCTCGCCGCACGCGGCGAGCGCCTGGACTGGTGCATCGTCGGCGAACCCTCCAGTACCTCCCTGGTCGGCGATGTGGTGAAGAACGGCCGGCGCGGCTCGCTGGGCGCCAAGCTGACCATTCGCGGCGTCCAGGGTCACGTGGCCTATCCGCACCTGGCGAAGAACCCGATCCATCTCGCTGCGCCGGCGCTGGCCGAACTCGCCGCCGAGCACTGGGACGACGGCAACGCCTTCTTCCCGCCGACCAGCTTCCAGATTTCCAATATCCAGTCCGGAACCGGCGCCAGCAACGTGATCCCCGGCGAACTCCACGCGATGTTCAACTTCCGCTTTTCCACCGAATCCACGGTAGAGGGCCTGCAACATCGCGTTGCCGCCATTCTCGACAAGCACGGCCTGGACTGGCACGTGGAATGGGCGCTGTCCGGCCTGCCCTTCCTCACCGAGCCGGGTGCGCTGCTCGATGCGGTGGCCGCCAGCATCAAGGACGTCACCGGCCGCGATACCACCCCTTCCACCAGTGGCGGCACCTCGGACGGACGTTTCATCGCCACCATGGGCACCCAGGTGGTCGAACTCGGCCCGGTCAATGCGACCATCCACCAGATCAACGAACGCGTCCTGGCCAGCGACCTCGACCTGCTGACCGAAATCTACTACCAGACCCTGGTCAAGCTGCTGGCGTGA	MTAPSPALSPTLELACELIRRPSVTPVDEGCQDLMMRRLAAVGFTTERMRIEEVENFWARRGGDGPVLCFAGHTDVVPTGPLQAWQHQPFEALIDEQGMLCGRGAADMKGSLAAMIVAVERFVADHPQHNGAIAFLITSDEEGPAQHGTKAVVERLAARGERLDWCIVGEPSSTSLVGDVVKNGRRGSLGAKLTIRGVQGHVAYPHLAKNPIHLAAPALAELAAEHWDDGNAFFPPTSFQISNIQSGTGASNVIPGELHAMFNFRFSTESTVEGLQHRVAAILDKHGLDWHVEWALSGLPFLTEPGALLDAVAASIKDVTGRDTTPSTSGGTSDGRFIATMGTQVVELGPVNATIHQINERVLASDLDLLTEIYYQTLVKLLA				NA	NA	NA	NA	NA
BMS010_07424	2589			hypothetical protein	ATGTCATCGCGCAAATTTGGAATCAACCTGGTGATAGTCGTGGCGGTCGCCGCGTTGTTCACCGGCTTCTGGGCCTTGTACAACCGTCCGGTCAACGCCCCGGATTGGCCGGAGCAGATTTCCGGCTACTCCTTCTCGCCGTTCCACCTGGATCAGAATCCCCAGGACAACCGTTACCCCAACGACGAACAGATCCGTGCGGACCTCGAGCTGCTGAGCAAGCAGACCGACAACATCCGCACCTATTCGGTGGAAAACTCCCTCGCCGACATCCCGCGCCTCGCCGAGGAGTTCGGCCTGCGCGTGACCCTCGGCGTGTGGATCAGCCCCGACGAGGAACGCAACGAGCGCGAGATCGCCAAGGCCATCGAACTGGCCAATGCCTCGCGCAGCGTGGTCCGGGTGGTGGTGGGCAACGAAGCGCTGTTCCGTCGCGAGATCAGCCGCAAGAAGCTCATCGAATACCTCGACCGTGTCCGCGCCGCAGTCAAGGTGCCGGTCACCACCTCCGAGCAGTGGCACATCTGGCAGCAGTACCCCGAACTGGCCCAGCACGTCGATCTGATCGCCGCGCACATCCTGCCGTACTGGGAATTCATCCCGATGGAGGACTCCACCCAGTTCGTCCTGGACCGCGCCCGCGACCTCAAGCAGACCTTCCCGAAGAAGCCGCTGCTGCTCTCCGAAGTCGGCTGGCCGAGCAACGGTCGCATGCGCGGCGGCGCCGAGGCCTCCCAGGCGGACCAGGCGATCTACCTGCGTACCCTGCTCAACACGTTGAACAGCAAGGGCTACAACTATTTCGTCGTCGAAGCCTTCGACCAGCCGTGGAAAGTCAGCGACGAAGGCTCGGTGGGCGCCTACTGGGGCGTGTACAACGCCGAACGCCAGCCCAAGTTCAATTTCGAAGGCCCGGTGGTGGAAATCCCGCAGTGGCGAATCCTGGTGATCGCCTCGGTGGTGCTCGCCCTGCTGGCCCTGGCCCTGCTGCTGATCGACGGCAGCTCGCTGCGCCAGCGCGGCCGGACCTTCCTCACCTTCGTGTCCTTCGCGGCGGGCTCGATCCTGGTCTGGATCGGCTATGACTACAGCCAGCAGTACAGCACCTGGTTCAGCCTCACCGTCGGCTGCCTGCTGGCCATGGGCGCGCTGGGCGTGGTCATCGTCCTCCTCACCGAGGCCCACGAACTGGCCGAGGCCGTCTGGACCAGCAAGCGCCGCCGGCCCTTCCCGCCGGTCACCGCCGAGAACGCCTACCGGCCCAAGGTCTCGGTCCACGTGCCGTGCTACAACGAACCGCCGGAAATGGTGAAGGAAACCCTCGACGCCCTGGCCCGTCTCGATTACCCGGACTACGAAGTCCTGGTGATCGACAACAACACCAAGGACCCGGCCGTCTGGGAGCCGGTGCAGGCCTACTGCGAGACCCTCGGCCCGCGCTTCCGCTTCTTCCACGTCGCACCGCTCGCTGGGTTCAAGGGCGGCGCCCTGAACTACGCCCTGGAGCGCACCGCTCCGGATGCCGAAGTGGTCGCGGTGATCGACTCCGACTATTGCGTCAGCCCGAACTGGCTGAAGCACATGGTGCCGCACTTCGCCGACCCGAAGATCGCCGTGGTGCAATCGCCGCAGGACTACCGCGACGACAAGGACTCGCTGTTCAAGAAGCTCTGCTACGCCGAGTACAAGGGCTTCTTCCACATCGGCATGGTGACCCGCAACGACCGCGACGCGATCATCCAGCACGGCACCATGACCATGACCCGCAAATCGGTTCTCGACGAGCTGAAATGGGCCGGCTGGTGCATCACCGAAGACGCCGAACTGGGCCTGCGGGTGTTCCAGAAGGGCCTGTCCGCCGCCTACTTCGAGGACAGCTACGGCAAGGGCCTGATGCCCGACACCTTCATCGACTTCAAGAAGCAGCGCTTCCGCTGGGCCTACGGCGCCATCCAGATCATGAAGCGGCACGCCCGCAGCCTGCTGTTCGGCAAGGACACCGCCCTGACCCGCGGCCAGCGTTACCACTTCGTTGCCGGCTGGTTGCCGTGGATCGCCGACGGCCTGAACATCTTCTTCACCATCGGTGCGCTGCTCTGGTCGGCCGCGATGATCATCGTGCCGCAGCGGGTCGACCCGCCGCTACTGATCTTCGCCATTCCGCCGCTGGCGCTGTTCTTCTTCAAACTGGGCAAGATCCTGTTCCTCTACCAGCGCCAAGTCGGCGTCAACCTGAGGGACGCCTTCTACGCCGCGGTGGCCGGCCTGGCGCTGTCGCATACTATCGCCAAGGCGGTCCTGTACGGTTTCTTCACCAGCAGCATCCCGTTCTTCCGTACGCCGAAGATGAAAACCAACAGCGGCCTGCTGATCGCGCTGGGCGAGGCCCGCGAAGAGGTCTTCGTCATGCTGCTGCTGTGGGGCGCCGCCGCCGGCATCGCCGTCGTCCAGGGCTTCCCCAGCCCGGACGTGATTTTCTGGGTCGCCGTGCTGCTGATGCAGTCCCTGCCTTACCTGGCCGCGCTGATCATGGCCCTGCTGTCTTCGGTGCCGAAGCCGCAGGAAGTCGTCGAGCCCGCCATAGCCTGA	MSSRKFGINLVIVVAVAALFTGFWALYNRPVNAPDWPEQISGYSFSPFHLDQNPQDNRYPNDEQIRADLELLSKQTDNIRTYSVENSLADIPRLAEEFGLRVTLGVWISPDEERNEREIAKAIELANASRSVVRVVVGNEALFRREISRKKLIEYLDRVRAAVKVPVTTSEQWHIWQQYPELAQHVDLIAAHILPYWEFIPMEDSTQFVLDRARDLKQTFPKKPLLLSEVGWPSNGRMRGGAEASQADQAIYLRTLLNTLNSKGYNYFVVEAFDQPWKVSDEGSVGAYWGVYNAERQPKFNFEGPVVEIPQWRILVIASVVLALLALALLLIDGSSLRQRGRTFLTFVSFAAGSILVWIGYDYSQQYSTWFSLTVGCLLAMGALGVVIVLLTEAHELAEAVWTSKRRRPFPPVTAENAYRPKVSVHVPCYNEPPEMVKETLDALARLDYPDYEVLVIDNNTKDPAVWEPVQAYCETLGPRFRFFHVAPLAGFKGGALNYALERTAPDAEVVAVIDSDYCVSPNWLKHMVPHFADPKIAVVQSPQDYRDDKDSLFKKLCYAEYKGFFHIGMVTRNDRDAIIQHGTMTMTRKSVLDELKWAGWCITEDAELGLRVFQKGLSAAYFEDSYGKGLMPDTFIDFKKQRFRWAYGAIQIMKRHARSLLFGKDTALTRGQRYHFVAGWLPWIADGLNIFFTIGALLWSAAMIIVPQRVDPPLLIFAIPPLALFFFKLGKILFLYQRQVGVNLRDAFYAAVAGLALSHTIAKAVLYGFFTSSIPFFRTPKMKTNSGLLIALGEAREEVFVMLLLWGAAAGIAVVQGFPSPDVIFWVAVLLMQSLPYLAALIMALLSSVPKPQEVVEPAIA				NA	NA	NA	NA	NA
BMS010_07425	1152	yqhD	COG1979	Alcohol dehydrogenase YqhD	ATGCGCAACTTCACTTTCTATAACCCGACCCGCATTCATTTCGGCGAAGGCCAGATCGCCAAGCTGGCCAGGGAAATTCCCGCCGGCAGCCGGGTGCTGGTCATCCATGGCGGCGGCAGCATCTTCCACAACGGCGTCTGGGAGCAGGTGGAAGCGGCCCTGCCCGGCTACAGCCTGTCGCGCTTCGGCGGCATCGAGCCCAACCCGCAGTTCGACACGCTGGTGCGTGCCATCGAACAAGGCCGGGAGGAAGGCTGCGACTTCATCCTGGCGGTCGGTGGTGGCTCGGTGATCGACGGCAGCAAGTTCGTCGCCGCCGCGCTCCGCTATGACGGCGACCCGCTCGACCTGCTCACCGGCACCCGGGTCCAGGCAGCCATGCCGCTGGGCTGCGTCCTGACCCTCGCGGCCACCGGCTCGGAAAGCAACCCGCACGGGGTGATCACCCATGTGGCGCGGCAGGAGAAGCTGTCGATCTCCAGTTCGCTGCTCTACCCGCGCTTCGCCATCCTCGACCCACGCACCACCTTCAGCCTGCCGCCCCGGCAGATCGGCAATGGCGTGGTGGATGCCTTCGTCCACACCGTCGAGCAATACCTGACCTATCCGGCCGACGCCCCGCTGCAGGACCGCTATGCCGAAGGGCTGCTGCAGACGCTGATCGAGGAAGGCCCCAAGGCCTTGGCGAACCCGCAGGACTACAAGGTCCGCGCCAATCTCATGTGGTGCGCCACCCAGGCGCTGAATGGCCTGCTCGGTTGCGGCGTACCGCAGGACTGGGCGACCCACATGATCGGCCACGAATTGACCGCGCTCTATCACCTGGACCACGCCCAGACCCTGGCCGTCGTCCTGCCGGCACTGCTCACCGAGCGGCGCGAGGCCAAGCACGCCAAGCTGCTGCAATACGCCGAACGGGTCTGGCATATCCACAGCGGCGACGAAGACACTCGCATCGAGGCGGCAATCGACGCCACCCGCGAATTCTTCCAGCGCATGGGGATACCGACCCGGCTGTCCGAGCACGGTCTCGATGCCGAGGTGATCCCGCAGGTGCTGGCGCAACTGGAGCGACATCGGATGGTCGCCTTGGGCGAACGTCACGATATCGATCTGGCGACCAGCGAGCGGATTCTCCTGCGGGCGCTGTAG	MRNFTFYNPTRIHFGEGQIAKLAREIPAGSRVLVIHGGGSIFHNGVWEQVEAALPGYSLSRFGGIEPNPQFDTLVRAIEQGREEGCDFILAVGGGSVIDGSKFVAAALRYDGDPLDLLTGTRVQAAMPLGCVLTLAATGSESNPHGVITHVARQEKLSISSSLLYPRFAILDPRTTFSLPPRQIGNGVVDAFVHTVEQYLTYPADAPLQDRYAEGLLQTLIEEGPKALANPQDYKVRANLMWCATQALNGLLGCGVPQDWATHMIGHELTALYHLDHAQTLAVVLPALLTERREAKHAKLLQYAERVWHIHSGDEDTRIEAAIDATREFFQRMGIPTRLSEHGLDAEVIPQVLAQLERHRMVALGERHDIDLATSERILLRAL	PGPT0008275_828	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-METHYLGLYOXAL_DETOXIFICATION,PGPT0008275-yqhD-K08325	NA	NA
BMS010_07426	810	tcdA	COG1179	tRNA threonylcarbamoyladenosine dehydratase	ATGACTACAGACGATAGGTTCGGCGGCATCGCCCGTCTTTATGGGCGCGAGGGGTTGGAGCGGCTTGCGGCCGCGCACGTGGCGGTGGTCGGGATTGGCGGGGTCGGGTCCTGGGCCGCCGAGGCGCTGGCCCGTTCCGGTGTCGGGGAAATCTCTCTGTTCGATCTGGACGACGTCTGTGTGACCAACACCAATCGGCAGATCCATGCCCTGGAAGGTGCGGTCGGCAAGCCCAAGGTCGAGGTCATGGCCGAGCGCATCCGCGCCATCAACCCGGCCTGCGTGGTGCATGCGGTGGCCGATTTCGTCACCCGCGAGACCATGGCCGAATACATCACCGAGCAGCTCGATTGCGTGATCGACTGCATCGACAGTGTTCCGGCCAAGGCGGCGCTGATCGCCTGGTGCAAGCGGCGCAAGATCCAGATCATCACCACCGGCGGGGCGGGTGGGCAGATCGACCCGACGCAGATCCAGGTCGCCGACCTGAACAAGACCTTCAATGACCCACTGGCCGCCCGGGTGCGCTCGACGCTGCGGCGCGACTACGGTTTTTCCCGCACGCCGGGGCGCCATTACAGCGTGCCCTGCGTGTTTTCCTCCGAGCAATTGCGTTATCCCAAGCCGGACGGCGGGGTGTGCCAGCAGAAGAGTTTCGTCGGCGAAGGCGTCAAGCTGGACTGCGCCGGTGGCTTCGGCGCGGCGATGATGGTCACCGCCAGTTTCGGCCTGGTCGCCGCCGCACGGGCGGTGGACAAACTGGTGGCGGGCACACGGCGGCCGGCGGAGCGTCGCCTGATCGGTTTGTAG	MTTDDRFGGIARLYGREGLERLAAAHVAVVGIGGVGSWAAEALARSGVGEISLFDLDDVCVTNTNRQIHALEGAVGKPKVEVMAERIRAINPACVVHAVADFVTRETMAEYITEQLDCVIDCIDSVPAKAALIAWCKRRKIQIITTGGAGGQIDPTQIQVADLNKTFNDPLAARVRSTLRRDYGFSRTPGRHYSVPCVFSSEQLRYPKPDGGVCQQKSFVGEGVKLDCAGGFGAAMMVTASFGLVAAARAVDKLVAGTRRPAERRLIGL				NA	NA	NA	NA	NA
BMS010_07427	1227			hypothetical protein	ATGATCGCCCCGTTTGGGCCGGATGGCCCGCTGCCGCACGGATTCAGCATGCCGAAACCCTTCCTTCGTTCGCTTCGTGTTTTTCCTCTCTTCATCATGGCCGGTGCGCTGGTCGCGTGTGCGGGTGCACCGGAGGTCGAACGGGACCCGCAAGCCCGCATCGAACGTTATCTGGAAAACGCTTATCGACCGGATGCACCGTTGGCGGTGACGGCCTGGGACGACGTTTGGACCTTGGGAGAAATGCCGGTCGACGTGAGCTGGATGGGGCCGACTCAACCGCAGGCGGCGCCTTTGATCCTCTACCTGCCGGGACTCGGCGAGGACAGCCGCGCGGCAGCGCGGTGGCGACGTGCCTGGGCGGAGGCCGGTTATGCGGTGCTTTCGTTGCAGCCGGTCAGCGAGGGACGGGCAGTCTATTCCAGCGCCGAGGCACAGGTCGGGTCGTTCCGCAGCCTGGCGCAAAAGCATTTCTCCCGCGAAGCCCTGGCACTGCGGGTGCGTGTCGTCGACGAGGCGCAGGCAGAGCTGCGTCGCCAGGCAGCGACTGGGCGGCCTGAGTTGACGGGTATCGATTGGCAGCGGGTGGCGGTGGCCGGCTTCGACCTGGGGGCACAGACGGCAGCAGCCCTGGCCGGGGAGCGCGATACCGGAGCAACGTCGAGAACGGGCTGGATGCCGGTCGCAGCGCTGTTGTTCAGCCCCTACGTGGAAAACGCCAGTGATCCCGCACGTTTCGCCCATATCGAGGCACCGGTATTCACGGCTACCGGACCTCGGGACGAAGACCCGTTCAGTTGGATCGCTTCACCGGATCAACGCCAGAGGCTCTGGCAGCAGGTACGGGTTCCGGGCAGCTATCAATTGCTGGCCTGGGATGCTTCGCACAGAGCCTTGGGAGGCGCCACTGAGCCAGTGGAGCGGGGTATGGCTGGACGCGCACCCGAAGAGGGGCGTCCGGAGGGGCCGCCGCCTGGCGCCGGCAGTAACGGCCCGCGGGGTGCCGGTGGTCCTGGCGGTCCGGGTAAGCGCGGGCCCGTTGGTGGGCGAATGGGACATGGCCAGGGAATGGACGACAGTTTCAATCCCCACCAGGTAGCCAATCTGCAAGCGGTCAGTCTGGCATTTCTCGATGCCACGGTACGACAATCGGCGGCGGCACGGCATTGGTTGGATAATGAGGCGGTGCACTGGCTGGGTGAGCGCGCGCGGCTGGAGCGCAATTAG	MIAPFGPDGPLPHGFSMPKPFLRSLRVFPLFIMAGALVACAGAPEVERDPQARIERYLENAYRPDAPLAVTAWDDVWTLGEMPVDVSWMGPTQPQAAPLILYLPGLGEDSRAAARWRRAWAEAGYAVLSLQPVSEGRAVYSSAEAQVGSFRSLAQKHFSREALALRVRVVDEAQAELRRQAATGRPELTGIDWQRVAVAGFDLGAQTAAALAGERDTGATSRTGWMPVAALLFSPYVENASDPARFAHIEAPVFTATGPRDEDPFSWIASPDQRQRLWQQVRVPGSYQLLAWDASHRALGGATEPVERGMAGRAPEEGRPEGPPPGAGSNGPRGAGGPGGPGKRGPVGGRMGHGQGMDDSFNPHQVANLQAVSLAFLDATVRQSAAARHWLDNEAVHWLGERARLERN				NA	NA	NA	NA	NA
BMS010_07428	414	sufE_2	COG2166	Cysteine desulfuration protein SufE	ATGACCCTGCCGGACAGCGCCAACGAGGCCCTCGCCGACTTCGGCCAGAGCGGCGGCTGGGAACAGCGGGCACGCCTGCTGATGCAGTGGGGCGATCGGCTGGAGCCATTGAGCGACGAGGAAAAGCAGGAAGCCAACCGCGTGCACGGGTGCGAAAGCCAGGTCTGGCTGGTCGGCGAGCCCGGCGCCGATGGCTGGCGGTTCCGCGCAACCAGCGATGCTCGTCTGATCCGTGGCTTGCTCGCCGTGCTGCTGGTCCGGGTCAACGGCCTCGCGGGCGACGAACTGGTCAACCTGGACCTGGCCGACTGGTTCGCCCAACTGGGCCTCGCCCGCCATTTGTCGCCTTCGCGCAGCAACGGGATGAACACCGTGCTGCAGCGCATGCGCGAGTTGGCGCAGCCAGCCGGCTAA	MTLPDSANEALADFGQSGGWEQRARLLMQWGDRLEPLSDEEKQEANRVHGCESQVWLVGEPGADGWRFRATSDARLIRGLLAVLLVRVNGLAGDELVNLDLADWFAQLGLARHLSPSRSNGMNTVLQRMRELAQPAG	PGPT0020195_264	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0020195-sufS-K11717	NA	NA
BMS010_07429	1206	csdA	COG0520	Cysteine desulfurase CsdA	ATGGCTCTTGATTCCCCCTGGCGCTCCGACTTCCCTGCCCTCGCCGCGTTCGAGGCCGAAGGCCAGGTCTACCTCGACAGCGCCGCCACGGCACAGAAGCCGCAAGCGGTGCTCGACGCGCTGCTCGGTTATTACACCAGCGGCGCGGCCAACGTGCACCGCGCCCAGCATCTGCCGGGCGAGCGCGCCACCCGCGCTTTCGAAGCGACCCGGACCAAGGCAGCGCACTGGCTGAACGCCCATAGCCCGGCCGAAATCGTCTTCACCCGCGGCGCCACCGAGGCGTTCAACCTGCTGGCCTACGGCCTGGAGGCGGAATTCGAGGCGGGCGACGAAATCGTCATCAGCGCCCTCGAACACCACGCCAACCTGCTGCCCTGGCAACAACTCGCCCTGCGGCGCGGCCTGCGCCTGCTGGTCCTGCCGCTGACCGCGGAGGGTGTGGTGGATATGGACGCCGCTCGCGAATTGATCGGTCCGCAGACCCGCCTGCTCGCCATCAGTCAGCTATCCAACGTCCTCGGCTGCTGGCAGCCGCTGACGGAGCTCATCGCCCTGGCCAAGGCGCACGACGCGCTGACGGTGGTCGACGGTGCCCAAGGGGTGGTCCATGGCCGCCACGATGTCCAGGTGCTGGGCTGCGACTTCTATGTGTTCTCCAGCCACAAGCTCTACGGACCGGAGGGCGTCGGCGTGCTCTATGGCCGCAGCGAAGCCTTGCAGCGTCTGCGCCATTGGCAGTTCGGTGGCGAGATGGTGCACCTGGCGGACTATCACTCGGCGGACTTCCATGGTGCGCCCATGGGCTTCGAGGCCGGTACGCCGCCCATCGGTGGTGTCATTGCCCTCGGTGCCGCGCTGGATTACCTCGGCAGCCTGGATACCGGTGCCCTCTTCGCCCACGAAGCCGTGTTGCACGGCAAGCTGCTGGCGGGCCTCAAGGTACGCGACGGTGTGCGCGTGCTCGGCACACCCCAAGCGGCCCTGGCCAGCTTCGTAGTGGACGGCGTACACACGGCGGACCTCGCCCACCTGCTCGGTGAGCAGGGCATCGCCGTGCGTGCCGGGCAGCATTGCGCCATGCCGCTGTATAAACGGCTCGGTCTGACCGGCGCCATTCGTGTCTCCCTCGGCCTGTACAACGACACCACGGACCTGGACCACTTTTTCACCGCCCTCGACCGGGCCCTGGAGTTGCTGCGATGA	MALDSPWRSDFPALAAFEAEGQVYLDSAATAQKPQAVLDALLGYYTSGAANVHRAQHLPGERATRAFEATRTKAAHWLNAHSPAEIVFTRGATEAFNLLAYGLEAEFEAGDEIVISALEHHANLLPWQQLALRRGLRLLVLPLTAEGVVDMDAARELIGPQTRLLAISQLSNVLGCWQPLTELIALAKAHDALTVVDGAQGVVHGRHDVQVLGCDFYVFSSHKLYGPEGVGVLYGRSEALQRLRHWQFGGEMVHLADYHSADFHGAPMGFEAGTPPIGGVIALGAALDYLGSLDTGALFAHEAVLHGKLLAGLKVRDGVRVLGTPQAALASFVVDGVHTADLAHLLGEQGIAVRAGQHCAMPLYKRLGLTGAIRVSLGLYNDTTDLDHFFTALDRALELLR	PGPT0020195_4106	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0020195-sufS-K11717	NA	NA
BMS010_07430	1035	dapD_2	COG2171	2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-succinyltransferase	ATGTCCCAATCCCTCTACAGCCTGGCCTTCGGCGTCGGCACCCAGAATCGCCAGGGCAACTGGCTGGAAGTCTTCTACGCGCAGCCGCTGCTCGCCCCTTCGGCCGAGCTGGTCGCAGCAGTCGCCCCGGTGCTGGGCTACAGCGGCGGCAACCAGGCCATCGCCTTTACCACCACCCAGGCTGCCGAGCTGGCCGAAGCCATCAAAGGCATCGACGCCACCCAGGCGAAACTGCTGACCCGCCTGGCCGAAAGCCAGAAGCCGCTGGTCGCCTGCCTGCTGGCCGAGGATGCCGCCCTGACCTCCACTCCCGAGGCCTACCTCAAGCTGCACCTGCTCTCCCACCGCCTGGTCAAGCCGCACCAGCAGAACCTGACCGGCATTTTCCCGCTGTTGCCGAACGTCGCCTGGACCAGCCAGGGTGCGGTGGACCTTGCCGAGCTGGCCGAGCGTCAACTGGAAGCCCGTCTGAAAGGCGAGCTGCTGGAAGTCTTCTCGGTGGACAAGTTCCCGAAAATGACCGACTACGTGGTGCCGGCCGGCGTGCGTATCGCCGACAGCGCGCGGGTCCGCCTGGGCGCCTACGTAGGTGAAGGCACCACCGTCATGCACGAGGGCTTCATCAACTTCAATGCCGGTACCGAAGGCCCCGGCATGATCGAAGGCCGCGTCTCGGCCGGCGTGTTCGTCGGCAAGGGCTCCGATCTGGGCGGCGGCTGCTCGACCATGGGTACCCTGTCCGGCGGCGGCAACATCGTCATTTCCGTCGGCGAAGGCTGCCTGATCGGCGCCAATGCCGGGATCGGCATCCCGCTGGGCGACCGCAACACCGTGGAATCCGGCCTCTACGTCACCGCCGGCACCAAGGTCGCACTGCTCGACGATAAGAACCAGTTGGTGAAGGTGGTCAAGGCCCGCGAACTGGCCGGCCAGCCGGACCTGCTGTTCCGCCGCAATTCGCAGACCGGCGCGGTGGAGTGCAAGACGCACAAGTCCGCCATCGAGCTGAACGAAGCGCTGCACGCGCACAACTAA	MSQSLYSLAFGVGTQNRQGNWLEVFYAQPLLAPSAELVAAVAPVLGYSGGNQAIAFTTTQAAELAEAIKGIDATQAKLLTRLAESQKPLVACLLAEDAALTSTPEAYLKLHLLSHRLVKPHQQNLTGIFPLLPNVAWTSQGAVDLAELAERQLEARLKGELLEVFSVDKFPKMTDYVVPAGVRIADSARVRLGAYVGEGTTVMHEGFINFNAGTEGPGMIEGRVSAGVFVGKGSDLGGGCSTMGTLSGGGNIVISVGEGCLIGANAGIGIPLGDRNTVESGLYVTAGTKVALLDDKNQLVKVVKARELAGQPDLLFRRNSQTGAVECKTHKSAIELNEALHAHN				NA	NA	NA	NA	NA
BMS010_07431	627	rhtB_8	COG1280	Homoserine/homoserine lactone efflux protein	ATGGGACTCGGCACCTGGCTGCTGTTCATCCCGGCCTGTTTCGCCCTCAACATGGCGCCGGGCCCGAACAACCTGCTGTCGATGCACAACGCCGCCCGCCAGGGCCTGCGCACAGCCTGCCTGGCCGCAACCGGCCGCCTGCTGGCATTCGCCGGCATGATCGCCCTCGCCGCCTCCGGTCTGGCACTGGTCCTACAGGCCTCGGCCACGCTGTTCCTGATCATCAAGCTGGCCGGCGGCGCCTATCTGCTCTGGCTGGCCCTTCAACTCTGGCGCTCCCCTGTCGGAGAGACGGATACCACTGGCAGCGAGCCGCGCCTGTCGCTATGGCGATTGGCGCGCCAGGAGTTCTGGGTCGCGGCGGGCAATCCCAAAGCCATCCTGATCTTCACCGCTTTCCTGCCGCAGTTCATCGATCCGCAGCAGCCGCTGGGTGCCCAGTTCGCCCAACTGGGCGCAGCCTTCCTGGTTCTGGAATGGCTGGCCATCGCCCTCTACGCCCTGGCGGGCGTGCACCTCGGCCGGCTCCTTGCCGGCCCGCGCGCCCGTCGCCTGTTCAACCGTGGTTGCGCCGCCCTATTGGGCAGCGCCGGTCTGGGCCTGCTGCTCAGCCGGCGTCCGGCCTGA	MGLGTWLLFIPACFALNMAPGPNNLLSMHNAARQGLRTACLAATGRLLAFAGMIALAASGLALVLQASATLFLIIKLAGGAYLLWLALQLWRSPVGETDTTGSEPRLSLWRLARQEFWVAAGNPKAILIFTAFLPQFIDPQQPLGAQFAQLGAAFLVLEWLAIALYALAGVHLGRLLAGPRARRLFNRGCAALLGSAGLGLLLSRRPA	PGPT0021036_932	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_SENSING_RELATED_GENES	CE-QSR-PUTATIVE_TRANSPORTER,PGPT0021036-rhtB-K05834	NA	NA
BMS010_07432	351	yffB_2	COG1393	Protein YffB	GTGAGCGCGATCCGCCTCTACGGCATCAAAGCCTGCGACACCATGAAGAAAGCCCGCAGCTGGCTGGACGAGAAAGGCGTCGCCTACGACTTCCACGATTACAAGAGTGTCGGTATCGACCGCGAGAGTCTCGCGAAATGGTGTGTCGAGCATGGCTGGGAAGTGATCTTGAACCGTGCCGGAACCACCTTCCGCAAGCTGGACGACGCGCAGAAGGCCGATCTCGACCAGGCCAAGGCCATCGAACTGATGCTGGCCCAACCCTCGATGATCAAGCGACCGGTCCTGGACCTGGGTGAGCGCACCCTGGTCGGCTTCAAGCCGGACGCCTACGCCGCCGCACTGGAGTAA	MSAIRLYGIKACDTMKKARSWLDEKGVAYDFHDYKSVGIDRESLAKWCVEHGWEVILNRAGTTFRKLDDAQKADLDQAKAIELMLAQPSMIKRPVLDLGERTLVGFKPDAYAAALE	PGPT0004720_3468	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0004720-arsC1-K00537	NA	NA
BMS010_07433	681	alyA_3		Alginate lyase	GTGTCCGTAATCGCCAACATGATCGATCTGAGCACCTGGAATCTGACGATTCCCGAGCAAGTCCCTGCCCAAACCATCGAAACCCGCCTGATGAAAGCCGGCTACCGCAGCCCGTATTTCTATCGTTCCGGCAACAGCCTGTTCTTCTGGGCGCCGGTGACCGGCACCACGACGAAGAACAGTGCCTATCCACGCAGCGAGCTGCGCGAGACCTTTCCCGACGGCAAGCTGCGCAACTGGCTGTACAGCGAAGGCAACCACAGCCTGAAGGCGTCGCTGGCGGTGACCCAGGTGCCGTCCAGCGGCAAGGTGGTGATCGGCCAGGTGCATTCCAAGGACAACCCGACGCCGTACATCAAGCTGCAATACCGCGTCGAGCGCGGCGTCGGCTATGTGAACGTGGAGTTGCGGAATAAACCGGCGGACGCCAAAAGCCCGGTGGTGATGACTTACAAGAGCATGCCGCTGAATACCCGCTTCAACTATTCGATCGACATCTCTCGCAAGGGCGATCTCAAGGTGGCGATCAACGGCCTGACTTATACCGGCAAGGTCGATCCGGCCTGGGCCGGCAAGCGCTTCTATTTCAAGGCGGGCGTCTACACGCTGGATAACGTCGGACCGGCGACCGAAGGGGGCCGCACGGTCTTCCACCAGCTCAGCGCAACCCACACGAAGTGA	MSVIANMIDLSTWNLTIPEQVPAQTIETRLMKAGYRSPYFYRSGNSLFFWAPVTGTTTKNSAYPRSELRETFPDGKLRNWLYSEGNHSLKASLAVTQVPSSGKVVIGQVHSKDNPTPYIKLQYRVERGVGYVNVELRNKPADAKSPVVMTYKSMPLNTRFNYSIDISRKGDLKVAINGLTYTGKVDPAWAGKRFYFKAGVYTLDNVGPATEGGRTVFHQLSATHTK	PGPT0019417_621	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_ALGINATE_DEGRADATION,PGPT0019417-putative_alginate_lyase_2-NA	NA	NA
BMS010_07434	1200	dapL	COG0436	LL-diaminopimelate aminotransferase	ATGATGAACCCCGCACTCGACGCCTTGCAGCCCTACCCCTTCGAAAAACTCCGCGCCCTGCTCGCCGGCGCCCAGCCACCGGCAGAGAAAAAGCCAATCGCGCTGTCCATCGGCGAACCCAAGCATCGCTCGCCGAGCTTCGTCGCCGAGGCCCTGGCCGCCAACCTGGAAATGCTTTCGGTCTATCCGACTACGCTGGGTCTGCCGGCACTGCGCGAAGCCATCGCCGCCTGGTGCGAGCGGCGCTTCGGCGTACCCGCCGGCTGGTTGGATGCGGCGCGCCACGTGCTGCCGGTGAACGGCACCCGCGAGGCCCTGTTCGCCTTCACCCAGGCCGTGGTCGACCGCAGCCGCGACGGCCTGGTCGTCAGCCCCAACCCCTTCTATCAAATCTACGAAGGTGCGGCGCTGCTCGCCGGCGCCCAGCCCCACTACCTGCCCTGCCTGGCGGAAAACGGCTTCAACCCGGACTTCGACGCGGTTCCCGCCGAGATCTGGCAGCGTTGCCAGATTCTCTTCCTCTGCTCGCCGGGCAATCCCACCGGCGCGCTGGTCCCGCTGGACACCTTGAAGAAGCTGATCGCCCTGGCCGACGAACACGACTTCGTGATCGCCGCCGACGAGTGCTACAGCGAACTCTACTTCGACGAACAGAACCCGCCGCCCGGCCTGCTCAGCGCCTGTGCCGTCCTGGGTCGCCAGGACTTCAAGCGCTGCGTGGTCTTCCACAGCCTGTCCAAGCGCTCCAACCTGCCGGGGCTGCGTTCGGGTTTCGTCGCCGGCGATGCCGACATTCTCAAGGCCTTCCTGCTCTATCGTACCTACCACGGCTGTGCGATGCCGGTGCACACCCAACTGGCCAGCATCGCCGCCTGGAACGACGAGGTGCATGTACGTGCCAATCGCGCGCTGTATCGCGAGAAGTTCGATGCCGTACTGGATATCCTCGCGCCGGTGCTGGATGTGCAGCGGCCGGACGGCAGCTTCTACTTATGGCCGAAGACGCCCATGGAAGACGCCACCTTCACCCGCGAGTTGTTCGCCCGCGAGCATGTCACCGTGGTCCCCGGCTCCTACCTGTCGCGCGAGGTGGAGGGGGTCAACCCCGGCGCCGGCCGGGTGCGCATGGCCCTGGTCGCCCCGCTGGCCGAATGCGTCGAGGCAGCGGAGCGTATCCGCGACTTCCTGCGTCACGCCTGA	MMNPALDALQPYPFEKLRALLAGAQPPAEKKPIALSIGEPKHRSPSFVAEALAANLEMLSVYPTTLGLPALREAIAAWCERRFGVPAGWLDAARHVLPVNGTREALFAFTQAVVDRSRDGLVVSPNPFYQIYEGAALLAGAQPHYLPCLAENGFNPDFDAVPAEIWQRCQILFLCSPGNPTGALVPLDTLKKLIALADEHDFVIAADECYSELYFDEQNPPPGLLSACAVLGRQDFKRCVVFHSLSKRSNLPGLRSGFVAGDADILKAFLLYRTYHGCAMPVHTQLASIAAWNDEVHVRANRALYREKFDAVLDILAPVLDVQRPDGSFYLWPKTPMEDATFTRELFAREHVTVVPGSYLSREVEGVNPGAGRVRMALVAPLAECVEAAERIRDFLRHA				NA	NA	NA	NA	NA
BMS010_07435	2700	glnD_2	COG2844	Bifunctional uridylyltransferase/uridylyl-removing enzyme	ATGCCGCAGGTGGATCCCGAGTTGTTCGACCGCGGGCAGTTCCAGGCGGAACTGGCCTTGAAGTCCAGCCCCATCGCCGCGTTCAAGAAGGCGATCCGCCAAGCCCGCGAAGTGCTGGACGCGCGTTTCCAGGCCGGGCGCGACATCCGCCGCCTGGTGGAAGATCGCGCCTGGTTCGTCGATCAGATCCTCAATGCCGCCTGGGATCGCTTCGACTGGAGCGAAGACGCCGATATCTCACTGGTCGCGGTCGGCGGTTATGGGCGTGGCGAGCTGCATCCCTTCTCCGATATCGACCTGCTGATCCTGCTGGAAAGCGACGACCACGAAATCTTTCGCGAGCCGATCGAGGGCTTCCTCACACTGCTCTGGGACATCGGCCTGGAGGTCGGTCAGAGCGTACGCTCGGTGGCGGAGTGCGCCGAAGAGGCCCGCGCCGACCTGACGGTAATCACCAACCTGATGGAAAGCCGCACCATCGCCGGTCCCGAACGCCTGCGCCAGTCAATGCTCGAGACCACCGACAGCGCCCATATGTGGCCGAGCAAGCATTTCTTCCTGGCCAAACGCGAAGAACAGCGGGCCCGACACGCCAAGTACAACGACACCGAATACAACCTCGAGCCGAACGTGAAAGGCTCGCCGGGCGGGCTGCGCGATATCCAGACCATCCTCTGGGTGGCGCGCCGGCAGTACGGCACGCTCAACCTGCACGCCATGGTCGGCCAGGGCTTCCTTACCGAAGGCGAGTACGCCCTGCTCTCCAGCTCCCAGGAATTCCTCTGGAAAGTGCGCTACGCCCTGCACATGCTCGCCGGGCGGGCCGAAGACCGCCTGCTGTTCGACCACCAGCGCAAGGTGGCCGGCCTGCTCGGTTTCGACGACAGCGACCCCAAGCGCGCCATCGAGCGCTTCATGCAGAAGTACTACCGCGTGGTGATGGGCATCGCCGAGCTGAGCGAGCTGATCAACCAGCACTTCGAGGAAGTTATCCTGCGCGCCGGCGAAAGCGGGCCGGCCCAGCCGCTGAACAGCCGCTTCCAGCTGCGCGACGGCTACATCGAAGTGACCCACGAGAAAGTCTTCAAACGCACGCCCTTCGCCATCCTGGAAGTCTTCGTGCTGATGGCCCAGCACCCGGAAATCAAGGGAGTGCGCGCCGACACCATCCGCCTGCTGCGCGACCATCGCCACCTGATCGACGACGATTTCCGCACCGACATCCGCAACACCAGCCTGTTCATCGAGCTGTTCAAGTCATCCCAGGGCATCCACCGCAACCTGCGGCGGATGAACCGCTACGGCATCCTCGGCCGCTACCTGCCGGAGTTCGGCCATATCGTCGGCCAGATGCAGCACGACCTATTCCACATCTATACGGTCGATGCGCACACCCTCAACCTGATCAAGCACCTGCGCAAGTTGAAATGGCCGGAGCTGGCGGAGAAATTCCCCCTGGCCAGCAAGCTGATCGACAAGCTGCCCAAGCCTGAATTGATCTACCTCGCCGGCCTGTACCATGACATCGGCAAGGGCCGCGGCGGCGACCACTCCGAACTGGGCGCCCAGGACGCCGAGGCCTTTTGCGTACGCCACCAGTTGCCGACCTGGGACACCCGCCTGGTCACCTGGCTGGTGCAGAACCACCTGGTGATGTCCACCACCGCGCAGCGCAAGGACCTCTCCGACCCGCAGGTGATCTTCGACTTCGCCCAACGGGTCGGCGACCAGACCCGCCTGGACTATCTCTACGTGCTCACCGTGGCCGATATCAACGCCACCAACCCGAGCCTGTGGAACTCCTGGCGCGCCAGCCTGCTGCGCCAGCTCTACACCGAGACCAAGCGTGCCCTGCGCCGCGGCCTGGAAAACCCGCTGGACCGCGAAGAGCAGATTCGCCAGACGCAGAGCGCCGCCCTGGACATCCTGGTACGCAGCGGCATCGACCCGGACGATGCCGAGCAGCTCTGGTCGCAGCTCGGCGACGACTATTTCCTCCGCCATACCGCCGGCGATGTGGCCTGGCACACCGAGGCGATCATCCAGCACCCGGCCACCGACGGCCCGCTGGTGCTGATCAAGGAGACCGCCCAGCGCGAGTTCGAAGGCGCTACCCAAATCTTCATCTACGCCCCGGACCAGCACGATTTCTTCGCCGTGACCGTGGCAGCCATGGACCAGCTCAACCTGAACATCCATGACGCCCGGATCATCACCTCGACCAGCCAGTTCACACTGGACACCTACATCGTGCTGGACACCGAGGGCGGGCGGATCGGCGACAACCCGGCGCGGATCAAACAGATTCGCGAGGGCCTGATCGACGCGCTGAAGAATCCCGACGACTACCCGGCGATCATCCAGCGCCGGGTGCCGCGCCAGCTCAAGCATTTCGCCTTCGCCCCGCAGGTCACCATCCACAACGACGCCCAGCGCCCGGTGACCGTGCTGGAAATTACCGCGCCGGATCGCCCTGGTCTGTTGGCACGGATCGGCAAGATATTCCTCGATTTCGACCTGTCGTTGCAGAACGCGAAGATTGCCACGCTCGGCGAGCGGGTCGAGGACGTATTCTTCGTCACCGACGCGAACAACCAACCGCTGTCCGACCCGGACCTGTGCATGCGCCTGCAGGAAGCCATCGTGGCCCAGTTGTCCGAGGCCAACGGCCAGTCGGCACCGACCCGGATCCATTTTTGA	MPQVDPELFDRGQFQAELALKSSPIAAFKKAIRQAREVLDARFQAGRDIRRLVEDRAWFVDQILNAAWDRFDWSEDADISLVAVGGYGRGELHPFSDIDLLILLESDDHEIFREPIEGFLTLLWDIGLEVGQSVRSVAECAEEARADLTVITNLMESRTIAGPERLRQSMLETTDSAHMWPSKHFFLAKREEQRARHAKYNDTEYNLEPNVKGSPGGLRDIQTILWVARRQYGTLNLHAMVGQGFLTEGEYALLSSSQEFLWKVRYALHMLAGRAEDRLLFDHQRKVAGLLGFDDSDPKRAIERFMQKYYRVVMGIAELSELINQHFEEVILRAGESGPAQPLNSRFQLRDGYIEVTHEKVFKRTPFAILEVFVLMAQHPEIKGVRADTIRLLRDHRHLIDDDFRTDIRNTSLFIELFKSSQGIHRNLRRMNRYGILGRYLPEFGHIVGQMQHDLFHIYTVDAHTLNLIKHLRKLKWPELAEKFPLASKLIDKLPKPELIYLAGLYHDIGKGRGGDHSELGAQDAEAFCVRHQLPTWDTRLVTWLVQNHLVMSTTAQRKDLSDPQVIFDFAQRVGDQTRLDYLYVLTVADINATNPSLWNSWRASLLRQLYTETKRALRRGLENPLDREEQIRQTQSAALDILVRSGIDPDDAEQLWSQLGDDYFLRHTAGDVAWHTEAIIQHPATDGPLVLIKETAQREFEGATQIFIYAPDQHDFFAVTVAAMDQLNLNIHDARIITSTSQFTLDTYIVLDTEGGRIGDNPARIKQIREGLIDALKNPDDYPAIIQRRVPRQLKHFAFAPQVTIHNDAQRPVTVLEITAPDRPGLLARIGKIFLDFDLSLQNAKIATLGERVEDVFFVTDANNQPLSDPDLCMRLQEAIVAQLSEANGQSAPTRIHF	PGPT0000660_677	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	GLN-NITROGEN_REGULATORY_SYSTEM,PGPT0000660-glnD-K00990	NA	NA
BMS010_07436	783	map_3	COG0024	Methionine aminopeptidase	ATGACCGTCACCATCAAGACGCCCGAAGAAATCGAAAAAATGCGCGTAGCCGGCCGGCTGGCCGCCGACGTGCTGGAGATGATCGGCGAGCACGTGAAGCCCGGCGTCACCACCGAGGAACTGGACCGCATCTGCCACGACTACATCGTCAACGTACAGAAAGCCATTCCCGCCCCGCTCAACTACAAGGGTTTCCCCAAGTCCATCTGCACCTCCGTCAACCACGTGGTCTGCCATGGCATTCCCAACGAGAAGGCATTGAAGGAAGGCGACGTACTGAACATCGACGTGACCGTGATCAAGGACGGCTATCACGGCGACACCAGCAAGATGTTCATGGTCGGCAAGGTGCCGGAGTGGGCCGAGCGCCTGAGCCGCATAACCCAAGAGTGCATGTATAAAGGCATCGAACTGGTCCGTCCGGGCACCCGCCTCGGCGATATCGGCGAGGTGATCCAGAAGCACGCCGAGAAGAACGGCTTCTCCGTGGTCCGCGAATACTGCGGGCATGGCATCGGCAAGGTCTTCCACGAAGAGCCGCAAGTCCTGCATTACGGCCGTGCCGGCACCGGCATGGAATTGAAGGAAGGCATGACCTTCACCATCGAGCCGATGATCAACCAGGGCCGCCCGGAAACCCGCCTGCTGGGTGACGGCTGGACGGCGATCACCAAGGACCGCAAGCTGTCCGCGCAGTGGGAGCACACCATCCTGGTGACCGCCAACGGCTACGAGATCTTCACCCTGCGCAGCGACGACACCATTCCGCGCACCTCGGCCTGA	MTVTIKTPEEIEKMRVAGRLAADVLEMIGEHVKPGVTTEELDRICHDYIVNVQKAIPAPLNYKGFPKSICTSVNHVVCHGIPNEKALKEGDVLNIDVTVIKDGYHGDTSKMFMVGKVPEWAERLSRITQECMYKGIELVRPGTRLGDIGEVIQKHAEKNGFSVVREYCGHGIGKVFHEEPQVLHYGRAGTGMELKEGMTFTIEPMINQGRPETRLLGDGWTAITKDRKLSAQWEHTILVTANGYEIFTLRSDDTIPRTSA	PGPT0020010_6515	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020010-map-K01265	NA	NA
BMS010_07438	741	rpsB_1	COG0052	30S ribosomal protein S2	ATGTCCCAAGTCAATATGCGCGATATGCTGAAGGCCGGTGTGCACTTCGGCCACCAGACCCGTTACTGGAACCCGAAAATGGGCAAGTACATTTTCGGTGCGCGCAACAAGATTCACATCATCAACCTGGAAAAGACCCTGCCGATGTTCAACGAAGCCCTGAGCTTCGTTGAGAAGCTGGCTTCCGGCAAGAACAAGATCCTGTTCGTCGGCACCAAGCGTTCCGCTGGCAAGATCGTCCGCGAAGAAGCCGCTCGTTGCGGTTCGCCGTACGTCGACCACCGCTGGCTCGGCGGCATGCTGACCAACTACAAGACCATCCGTGCTTCCATCAAGCGCCTGCGCGAGCTGGAAACCCAGTCCCAGGACGGCACCTTCGCCAAGCTGACCAAGAAAGAAGCCCTGATGCGCACCCGCGATCTGGAAAAGCTGGAGCGCAGCCTGGGTGGTATCAAGGACATGGGCGGCCTGCCGGACGCTCTGTTCGTGATCGACGTCGACCATGAGCGCATCGCCATCAGCGAAGCCAACAAGCTGGGCATTCCGGTCATCGGCGTTGTCGATACCAACAGCAGCCCGGAAGGCGTCGACTACATCATCCCCGGTAACGACGACGCCATTCGCGCCGTTCAGCTGTACCTGGGCGCCGTGGCCGATGCCGTGCTGCGTGGCCGCCAGAACGCCGTCGGTGGTGCTGACGAGTTCGTCGAGGAAGCCCCGAGCGAGGCCGCTGAAGGCTGA	MSQVNMRDMLKAGVHFGHQTRYWNPKMGKYIFGARNKIHIINLEKTLPMFNEALSFVEKLASGKNKILFVGTKRSAGKIVREEAARCGSPYVDHRWLGGMLTNYKTIRASIKRLRELETQSQDGTFAKLTKKEALMRTRDLEKLERSLGGIKDMGGLPDALFVIDVDHERIAISEANKLGIPVIGVVDTNSSPEGVDYIIPGNDDAIRAVQLYLGAVADAVLRGRQNAVGGADEFVEEAPSEAAEG				NA	NA	NA	NA	NA
BMS010_07439	870	tsf_1	COG0264	Elongation factor Ts	ATGGCAGAGATTACTGCAGCCCTGGTCAAAGAACTGCGCGAGCGCACCGGTCAAGGCATGATGGAATGCAAGAAGGCCCTGGTCGCCGCTGATGGCGACATCGAGAAGGCCATCGACGATATGCGCGCTTCCGGCGCGATCAAGGCTGCCAAGAAGGCCGGCAACATCGCCGCCGAAGGCTCCATCGCCGTCAAAGTGGCTGCCGACAGCAAGTCCGCCGTGATCATCGAAGTCAACTCCCAGACCGACTTCCTGGCCCTGCAGGATGACTTCAAGGCGTTCGTCGCCGACAGCCTGGAAAAGGCCTTCGCTGAAAAACTGACCGATGCCGCTCCGCTGATCGCCTCCCAAGAGTCCGCTCGCGAAGCCCTGGTCGCCAAGTGCGGCGAGAACGTCAACATCCGTCGCCTGACCCGTGTCGAAGGCGATGTCGTGGGTGCCTACCTGCACGGCCACCGCATCGGCGTTCTGGTCGTCCTGAAGGGCGGTAACGCCGAGCTGGCCAAGGAAATCGCCATGCACGTCGCGGCCAGCAACCCGCAATTCCTCAACCCGTCCGAGGTTTCCGCCGAGGCCGTCGAGCGCGAGAAGGGCGTCTTCCTCGCCCTGAACGAGGACAAGATCAAGGGCAAGCCGGCCGACATCGTCGAGAAGATGGTGGCGGGTCGTATCCAGAAGTTCCTGGCCGAGGCCAGCCTGGTCGAGCAGCCGTTCGTGAAGGACCCGGAAATCAAGGTTGGTGAGCTGGCGAAGAAGGCCGGTGCCGAAGTGGTTTCCTTCGTTCGCTACGAAGTGGGTGAAGGCATCGAGAAGGCGGAAGTCGATTTCGCCGCCGAAGTCGCTGCCCAGGTTGCCGCGACCAAGCAGTAA	MAEITAALVKELRERTGQGMMECKKALVAADGDIEKAIDDMRASGAIKAAKKAGNIAAEGSIAVKVAADSKSAVIIEVNSQTDFLALQDDFKAFVADSLEKAFAEKLTDAAPLIASQESAREALVAKCGENVNIRRLTRVEGDVVGAYLHGHRIGVLVVLKGGNAELAKEIAMHVAASNPQFLNPSEVSAEAVEREKGVFLALNEDKIKGKPADIVEKMVAGRIQKFLAEASLVEQPFVKDPEIKVGELAKKAGAEVVSFVRYEVGEGIEKAEVDFAAEVAAQVAATKQ				NA	NA	NA	NA	NA
BMS010_07440	744	pyrH_1	COG0528	Uridylate kinase	ATGGCTCAGCAGGTGAGTGGTCGCCAACCTCGCTATAAACGCATTCTGCTCAAACTAAGCGGCGAAGCCTTGATGGGGTCGGAAGAGTTTGGGATCGATCCCAAGGTACTCGACCGCATGGCGCTTGAAGTTGGCCAACTGGTCGGCATCGGCGTTCAGGTCGGCCTGGTCATTGGTGGCGGCAACCTGTTCCGCGGCGCGGCCCTGTCGGCGGCCGGCATGGACCGGGTCACCGGCGATCACATGGGCATGCTCGCCACCGTGATGAACGCCCTGGCCATGCGCGATGCGCTGGAACGCTCGAATATTCCGGCGATCGTCATGTCGGCGATCTCCATGGTCGGCGTCACCGATCACTATGATCGCCGCAAGGCCATCCGCCACCTGAATGGCGGCGACGTGGTGATCTTCTCCGCAGGTACCGGTAACCCGTTCTTCACCACTGATTCGGCGGCCTGCCTGCGCGCCATCGAGATCGATGCGGATGTCGTACTGAAAGCCACCAAGGTGGATGGCGTGTACACTGCCGATCCGTTCAAGGACCCCAATGCGGAGAAGTTCGACCGTCTGACCTATGATGGCGTGCTGGACCGCAAGCTGGGTGTGATGGACCTGACCGCCATCTGTCTGTGTCGCGACCACAAGATGCCGCTGCGGGTCTTCAATATGAATAAGCCAGGTGCCCTGCTGAACATTGTCGTCGGCGGCGCCGAAGGAACCCTGATCGAGGAGTCGAACGAATGA	MAQQVSGRQPRYKRILLKLSGEALMGSEEFGIDPKVLDRMALEVGQLVGIGVQVGLVIGGGNLFRGAALSAAGMDRVTGDHMGMLATVMNALAMRDALERSNIPAIVMSAISMVGVTDHYDRRKAIRHLNGGDVVIFSAGTGNPFFTTDSAACLRAIEIDADVVLKATKVDGVYTADPFKDPNAEKFDRLTYDGVLDRKLGVMDLTAICLCRDHKMPLRVFNMNKPGALLNIVVGGAEGTLIEESNE	PGPT0021205_825	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021205-pyrH-K09903	NA	NA
BMS010_07441	558	frr_1	COG0233	Ribosome-recycling factor	ATGATCAACGAGATCAAGAAAGACGCGCAGGAGCGTATGGGCAAGTCCATCGAGGCCTTGGGGCGCCACTTGGCGTCCATCCGTACCGGTCGTGCGCACCCGAGCATCCTGGACAGCGTCAAGGTCCCGGCCTGGGGCAGCGAGATGCCGCTGAATCAGGTGGCCGCGATCACCGTCGAGGACGCCCGCACCCTGAAGATCGTCGCTCACGACAAGAACCTCAGTGCCGCCATCGAGAAGGCCATCCTGACTTCCGACCTGGGCCTGAACCCGTCCAGCGCCGGTACCACTATTCGTGTACCGATGCCTGCCCTGACCGAGGAAACACGCAAGGGCTATACCAAGCAGGCCCGTGCTGTCGCCGAGGAGGCCAAGGTGGCTGTGCGCAATGTGCGCCGTGATGCCCTGGCCGAACTGAAGAAGCTGTCCAAGGACAAGGAAATCAGCGAAGACGAAGAGCGTCGTGCCGCCGACGAGCTGCAGAAGCTGACCGACAAGTTCGTCGCCGAGGTGGACAAGGCCCTCGAAGCCAAGGAAAAGGACCTGATGGCCGTCTGA	MINEIKKDAQERMGKSIEALGRHLASIRTGRAHPSILDSVKVPAWGSEMPLNQVAAITVEDARTLKIVAHDKNLSAAIEKAILTSDLGLNPSSAGTTIRVPMPALTEETRKGYTKQARAVAEEAKVAVRNVRRDALAELKKLSKDKEISEDEERRAADELQKLTDKFVAEVDKALEAKEKDLMAV				NA	NA	NA	NA	NA
BMS010_07442	756	ispU	COG0020	Ditrans,polycis-undecaprenyl-diphosphate synthase ((2E,6E)-farnesyl-diphosphate specific)	ATGGAAAAGACCAAGTCAGCGGCATCGCCTGCAATACCCCGCCATGTCGCGATCATCATGGATGGCAACAATCGCTGGGCGAAGAAGCGCCTGCTGCCCGGTGTCGCCGGGCACAAGGCAGGCGTGGATGCGGTGCGAGCGGTCATTGAGGTGTGCGCGGAGGCGGGTGTCGAAGTCCTGACCCTGTTCGCCTTCTCCAGCGAGAACTGGCAGCGTCCGGCCGACGAGGTCGGCGCGCTAATGGAACTCTTCCTCACGGCTCTGCGCCGCGAAGCGAAGAAGCTGGATGAAAACGACATACGCCTGCGCATCATCGGCGATCGCACCCGGTTCCATCCGGAATTGCAGGCCGCCATGCGCGAGGCTGAGGCCCTGACCGCCGGGCACCAGCGCTTCATCCTGCAGATCGCCGCCAACTATGGCGGGCAATGGGACATCGTGCAGGCGTCGCAGCGCCTGGCGCGGGAAGTCCAGGCCGGGCATCTGCAGCCGGAGGACATCACGGCTGAGCTGCTGCAGGGGTGTCTGGTCACCGGCGATCTGCCGTTGCCGGACCTCTGCATTCGCACGGGCGGTGAACATCGCATCAGCAATTTTCTGCTGTGGCAGCTCGCCTATGCCGAGCTGTATTTCTCCGATCTGTTCTGGCCCGATTTCAAACACGACGCCATGCGCAAGGCGCTGGCTGACTTCGCTACCCGCCAACGCCGCTTCGGCAAGACCAGTGAGCAGGTGGAAGCAGAGGCAAGAGCCTGA	MEKTKSAASPAIPRHVAIIMDGNNRWAKKRLLPGVAGHKAGVDAVRAVIEVCAEAGVEVLTLFAFSSENWQRPADEVGALMELFLTALRREAKKLDENDIRLRIIGDRTRFHPELQAAMREAEALTAGHQRFILQIAANYGGQWDIVQASQRLAREVQAGHLQPEDITAELLQGCLVTGDLPLPDLCIRTGGEHRISNFLLWQLAYAELYFSDLFWPDFKHDAMRKALADFATRQRRFGKTSEQVEAEARA	PGPT0024180_1719	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024180-uppS|ispU-K00806	NA	NA
BMS010_07443	816	cdsA	COG0575	Phosphatidate cytidylyltransferase	ATGCTGAAACAACGAATCATCACAGCCCTGGTGTTGCTGCCCATCGCCTTGGGCGGCTTCTTCTTCCTCGAAGGTGGCGCGTTCGCGCTTTTCATCGGGGCGGTGGTCAGCCTGGGGGCCTGGGAATGGGCACGGTTGGCTGGGCTCGTCGAGCAATCCCGGCGGATCGCCTATGCGGTCGCGGTCGCAGTCCTGCTCCTAGTGCTCCACCTGTTGCCCATGATGGCACCGTGGGTACTGCTGTTAGGCGTCGCCTGGTGGCTGGTTGCGGTCTGGCTGGTCATGAATTACCCGGAGAGTAGCCGTTACTGGGATGGTCCTCCGGGGCGGCTGGCAATCGGTCTGCTGATTCTTCTGCCGGCCTGGCAGGGGTTGGTACTGATCAAGCAATGGCCGCTGGCCAATGGCCTGATCCTGGCGGTGATGGTGCTGATCTGGGGCGCTGACATCGGTGCCTACTTTTCCGGCAAAACCTTCGGCAAGCGCAAACTGGCCCCGAGGGTCAGTCCTGGCAAAAGCTGGGAAGGTCTGATCGGTGGTCTGTTGGCCAGCCTGGCGATCACGCTCGGTGTCGGGCTCTACCGGGGATGGTCCGCCGTCGAGCTGTTGCTGGCGCTGGGTGGTGCGGCGCTGGTGGTGCTGATTTCCGTGGTTGGCGACCTGACCGAAAGCATGTTCAAGCGTCAATCCGGCATGAAGGACAGCAGCAACCTGCTGCCGGGCCATGGCGGGGTGCTTGATCGTATCGACAGCCTGACCGCCGCCATTCCCTTGTTCGCCGTACTGCTCTGGGCGTATGGCTGGGGCTCGCTGTGA	MLKQRIITALVLLPIALGGFFFLEGGAFALFIGAVVSLGAWEWARLAGLVEQSRRIAYAVAVAVLLLVLHLLPMMAPWVLLLGVAWWLVAVWLVMNYPESSRYWDGPPGRLAIGLLILLPAWQGLVLIKQWPLANGLILAVMVLIWGADIGAYFSGKTFGKRKLAPRVSPGKSWEGLIGGLLASLAITLGVGLYRGWSAVELLLALGGAALVVLISVVGDLTESMFKRQSGMKDSSNLLPGHGGVLDRIDSLTAAIPLFAVLLWAYGWGSL	PGPT0007685_4544	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_CYTIDYLYLTRANSFERASE_ACTIVITY,PGPT0007685-cdsA|ynbB-K00981	NA	NA
BMS010_07444	1191	dxr_2	COG0743	1-deoxy-D-xylulose 5-phosphate reductoisomerase	GTGAGCGAAGTGCAACGGATAACCGTACTGGGGGCCACGGGCTCCATCGGTCTCAGTACGCTCGATGTAATCTCCCGTCATCCCGGACGCTACCAAGTGTTCGCTCTGAGCGGCTTCAGTCGTCTCGCCGAATTGGAGGCCCTGTGCCTGCGTCATCGTCCTCGTTTCGCTGTCGTGGCGGATGAAGACGGTGCCCGCCATTTGCGTGGTGGTCTGTTGGCAGCGGGCCTGGACACCCGTGTACTGGTAGGGGAAGGGGGATTGTGCGAGGTCGCCGCTCACCCGGATGTGGATGTGGTGATGGCGGCAATTGTCGGTGCAGCGGGCCTCAAGCCGACTCTGGCGGCAGTCGAGGCAGGCAAGAAGGTCCTGCTGGCCAACAAGGAAGCGTTGGTAATGTCCGGCGCGCTGTTCATGCAGGCGGTGCGTCGCAGTGGCGCGGTGCTCCTGCCGATCGACAGCGAGCACAATGCCATCTTCCAGTGCCTGCCGAACGACTACTCACGTGGTCTGGGGACGGTCGGTGTGCGCCGGATCCTGCTCACCGCATCCGGTGGCCCGTTCCGCGAAATGCCGCTGGCCGGTTTGAGCGATGTCACGCCGGAGCAGGCGTGCGCTCATCCGAACTGGTCCATGGGACGCAAAATTTCCGTGGATTCGGCCAGCATGATGAACAAGGGGCTCGAGCTGATCGAAGCCTGCTGGTTGTTCGATGCACGACCGGATCAGGTCGAGGTCGTCATTCATCCGCAAAGCGTCATTCACTCCCTGGTGGACTACCTGGACGGTTCGGTGCTGGCGCAACTGGGCAATCCGGACATGCGCACGCCGATCAGTCATGCCTTGTCCTGGCCCGAACGTATCGATTCGGGGGTCGCGCCGCTGGATTTGTTCAAGGTCGGCCGGCTGGACTTCCAAGAGCCGGATGAGTTGCGTTTCCCCTGTCTGCGCCTGGCCCGTCAGGCCGCTCAGGCGGGCGGCACGGCACCGGCGATGCTCAATGCCGCCAATGAGATAGCGGTGGCAGCCTTTCTCGAACGGCGCATCCGCTTCACAGAAATCGCGAGTATCATCGGAGAAGTGCTGAATCTCGAGCCGGTCGAAACGGTCGAAAGCCTCGACGTCGTCTTGACGGCCGATGCCAGGGCGAGAGCCTTGGCCGAAGAATGGTTGTATCGCCACGGACACTAG	MSEVQRITVLGATGSIGLSTLDVISRHPGRYQVFALSGFSRLAELEALCLRHRPRFAVVADEDGARHLRGGLLAAGLDTRVLVGEGGLCEVAAHPDVDVVMAAIVGAAGLKPTLAAVEAGKKVLLANKEALVMSGALFMQAVRRSGAVLLPIDSEHNAIFQCLPNDYSRGLGTVGVRRILLTASGGPFREMPLAGLSDVTPEQACAHPNWSMGRKISVDSASMMNKGLELIEACWLFDARPDQVEVVIHPQSVIHSLVDYLDGSVLAQLGNPDMRTPISHALSWPERIDSGVAPLDLFKVGRLDFQEPDELRFPCLRLARQAAQAGGTAPAMLNAANEIAVAAFLERRIRFTEIASIIGEVLNLEPVETVESLDVVLTADARARALAEEWLYRHGH	PGPT0007585_1833	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007585-ispC|dxr-K00099	NA	NA
BMS010_07445	1353	rseP	COG0750	Regulator of sigma-E protease RseP	ATGAGTGCGCTTTACATGATTGTCGGTACCCTGGTCGCGCTCGGGGTGCTGGTCACGTTTCATGAATTCGGCCACTTCTGGGTCGCACGCCGCTGTGGCGTAAAGGTGCTGCGTTTTTCCGTTGGCTTCGGTACGCCCCTGTTGCGTTGGCATGATCGCCATGGCACCGAGTTCGTCGTCGCTGCCATTCCGCTGGGCGGCTACGTCAAGATGCTCGACGAGCGCGAGGGCGAAGTGCCGCCCCAATTGCTCGACCAGGCCTTCAATCGCAAATCCGTACGCCAGCGCATTGCCATCGTCTCTGCTGGACCCCTGGCCAACTTTCTCCTGGCTCTGCTGTTCTTCTGGCTCCTGGCCATGCTGGGCAGCCAGCAGGTGAAGCCTGTCATCGGCGTGGTCGAGGAGGGCAGCCTGGCAGCCGAAGCGGGCTTGCAGGTGGGCGAGGAAATCGTCTCGGTGAACGGCGAGCCGACCCCCGGCTGGGCGGCCGTCAATCTGCAGTTGGTGCGCCGCCTGGGCGAAAGCGGCACCCTCGATGTTCGAGTGCGCGAGCCCGGCAGTACGCAGGAAAGCCCTCGTCAGGTGGTGTTGCGCGAATGGCTAAAGGGTGTCGACAGTCCCGATCCCATCGGTTCTCTCGGTATTCGCCCCTGGCGCCCCGCATTGCCTCCGGTCCTGGCTTCGTTCGACGAAAGCGGGCCGGCTAAGGCCGCCGGGCTCAAGGCAGGTGACCGCCTTCTGGCGTTGGATGGCGCGCCGCTGGACGACTGGCAGCAAGTGGTCGATCAGGTCCGGGCCCGTCCCGGCCAGCGCATCGTGCTCAGTGTCGAACGTGCCGGCGAGCGCCTGGAAATACCGCTGACCCTGGCTGCGCGCGGGGAAGAGAAGGCCCGCACCGGCTATCTGGGGGCCGGGGTGCAGGAAGTCGATTGGCCGGAGGACATGTTGCGCGAGGTCAGCTTCGGCCCTGTCGAGGCGGTTGGCGAAGGGCTCAGGCGTACCTGGGTGATGAGTGTCCTGACCCTTGATTCGATGAAGAAAATGCTCTTCGGCGAGCTCTCGGTAAAAAACTTGAGTGGGCCGATAACCATTGCTAAAGTGGCGGGCGCTTCGGCCCAGTCTGGGGTTGGGGATTTTCTCAATTTCCTCGCCTACCTGAGCATAAGTCTGGGGGTTCTCAATCTGTTGCCGATCCCCGTCCTGGATGGGGGGCACCTGTTGTTCTATCTGATCGAGTGGGCGCGGGGTCGTCCCTTGTCGGAGCGGGTGCAGGCATGGGGGGTACAGATCGGTATCAGTCTGGTCATAGGGGTGATGTTGCTCGCCCTGGTCAACGACCTGAGCCGGCTGTAA	MSALYMIVGTLVALGVLVTFHEFGHFWVARRCGVKVLRFSVGFGTPLLRWHDRHGTEFVVAAIPLGGYVKMLDEREGEVPPQLLDQAFNRKSVRQRIAIVSAGPLANFLLALLFFWLLAMLGSQQVKPVIGVVEEGSLAAEAGLQVGEEIVSVNGEPTPGWAAVNLQLVRRLGESGTLDVRVREPGSTQESPRQVVLREWLKGVDSPDPIGSLGIRPWRPALPPVLASFDESGPAKAAGLKAGDRLLALDGAPLDDWQQVVDQVRARPGQRIVLSVERAGERLEIPLTLAARGEEKARTGYLGAGVQEVDWPEDMLREVSFGPVEAVGEGLRRTWVMSVLTLDSMKKMLFGELSVKNLSGPITIAKVAGASAQSGVGDFLNFLAYLSISLGVLNLLPIPVLDGGHLLFYLIEWARGRPLSERVQAWGVQIGISLVIGVMLLALVNDLSRL	PGPT0011685_1121	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-PILUS|FIMBRIAE_SYSTEM	MOTILITY-PILUS_SYSTEM,PGPT0011685-rseP-K11749	NA	NA
BMS010_07446	2364	bamA_2	COG4775	Outer membrane protein assembly factor BamA	ATGAAACGCTTGCTGCTACCTGCGGTGCTTGCCGCACTCATGATTGCCGAGGTTCACGCCGAGTCCTTCACCATCTCCGATATCCGAGTCAATGGTCTGCAGCGGGTCTCCGCCGGCAGCGTATTCGGCGCACTGCCGCTGAACGTGGGCGAGCAGGCGGATGATCGCCGCCTGGTCGAAGCGACGCGGTCGCTGTTCAAGACCGGCTTCTTCCAGGATATCCAGCTCGGTCGCGATGGCGACGTGCTGGTGATCAATGTAGTCGAGCGACCTTCGATTTCCAGCATCGAGATCGAAGGCAACAAGGCGATCAGCACCGAAGACCTGCTCAAGGGCCTCAAGCAATCCGGCTTGGCCGAGGGCGAGATCTTCCAGCGAGCGACCCTCGAAGGGGTGCGCAACGAGCTTCAGCGCCAGTATGTGGCGCAAGGCCGCTACTCGGCGACCATCGAGACCGAAGTCATCCCGCAGCCGCGCAACCGCGTCGCATTGAAGATCGATATCAACGAGGGTTCGGTCGCTGCCATCCAGCACATCAATGTCGTGGGCAACACGGTATTCCCGGACGAAGACCTGATCGACCTGTTCGAGCTGAAGACCACCAACTGGCTGTCGTTCTTCAAGAACGACGACAAGTACGCCCGCGAAAAACTGTCCGGTGACCTGGAGCGTTTGCGTTCCTATTACCTGGACCGCGGCTACATTAACATGGATATCTCTTCCACCCAGGTATCCATTACCCCCGACAAAAAGCACGTGTACATCACCGTCAACGTCGACGAGGGCGAGAAGTACACGGTTCGCGACGTGAAACTGTCCGGTGATCTCAAGGTGCCGGAAGAGGAAGTCAAGGCGCTGCTGCTGGTCAAGGAAGGGCAGGTGTTCTCCCGCAAGGTGATGACCACCACTTCCGAGTTGATCACTCGCCGTCTGGGTAACGAGGGCTACACCTTCGCCAACGTGAACGGCGTTCCCGAAGCCCACGATGAAGACAACACCGTCTCCATCACCTTCGTCGTCGATCCGGGCAAGCGTGCCTACGTCAACCGCATCAACTTCCGTGGCAACACCAAGTCCGAGGACGAAGTGCTGCGCCGCGAAATGCGCCAGATGGAAGGTGGCTGGGCCTCGACCTACCTGATCGACCAGTCCAAGACCCGCCTCGAACGTCTCGGCTTCTTCAAGGAAGTCAACGTCGAGACTCCGCAGGTGCCGGGTACCGACGACCAGATCGACGTCAACTACAGCGTCGAAGAGCAGCCGTCCGGCTCGATCACCGCCAGCGTCGGTTTCGCTCAGAATGCGGGCCTGATCCTGGGCGGTTCGATCAGCCAGAATAACTTCCTGGGTACCGGTAACAAGGTCAGCATCGGTCTGACCCGCAGTGAATACCAGACCCGTTACAACTTCGGCTTCGTCGATCCCTACTGGACGGTCGACGGAGTCAGCCTGGGTTACAACGCCTTCTACCGCACCACCGACTACGACGAGTTGGATGTCGATGTATCCAGCTATGCGGTGGACAGTCTGGGCGGTGGTGTCAGCATCGGCTACCCGATCAGCGAGACCTCGCGCCTGACTTTCGGCCTGACGGCCCAGCAGGATGACATCAATACCGGTCGCTACACGGTTGACGAGATCTTCGATTTCATCGAACAGGAAGGCGACAGCTACCTGAACTTCAAGGCGTCCGCCGGCTGGTCCGAGTCCACCTTGAACCGGGGCGTGCTGGCAACCCGTGGCCATTCGCAGAGCCTGGTACTCGAAACTACGGTACCCGGCAGCGACCTGTCGTTCTACAAACTCGACTATCGTGGCCAGTTGTTCACCCCGCTGAGTGACAGTTACACCCTGCGTTTCCACACTGAACTGGGTTATGGCGACAGCTTCGGCTCGACCTCCGAGCTGCCATTCTATGAGCACTACTATGCGGGTGGCTTCAACTCGGTGCGTGGTTTCAAAGACAGCAGTCTGGGGCCGCGTAGTACGCCCAGCGATGGTTCCAATCCCGGTACCCTGAAGGATCCGGACCAGGACCCGTTGCCCTTTGGCGGTAACGTGCTGGTCCAAGGTGGTGTCGAACTGTTGTTCCCGATGCCGTTCGTCAAGGACCAGCGTTCCCTGCGTACCGCACTGTTCTGGGATGTGGGTAATGTGTTCGACACCAACTGCAGTTCCGCGCAGAAGAGCCGGAACGAGCCGGGGTGCGATATCGATTACAGCAATCTGGCCAGCTCCGTCGGTGTCGGTCTGACCTGGATCACGGCCCTGGGCCCGCTGAGTTTCAGCCTGGCCATGCCGATCAAGAAGCCGGACGAAGCGGATACCCAGGTCTTCCAGTTTTCCCTGGGCCAGACCTTCTAA	MKRLLLPAVLAALMIAEVHAESFTISDIRVNGLQRVSAGSVFGALPLNVGEQADDRRLVEATRSLFKTGFFQDIQLGRDGDVLVINVVERPSISSIEIEGNKAISTEDLLKGLKQSGLAEGEIFQRATLEGVRNELQRQYVAQGRYSATIETEVIPQPRNRVALKIDINEGSVAAIQHINVVGNTVFPDEDLIDLFELKTTNWLSFFKNDDKYAREKLSGDLERLRSYYLDRGYINMDISSTQVSITPDKKHVYITVNVDEGEKYTVRDVKLSGDLKVPEEEVKALLLVKEGQVFSRKVMTTTSELITRRLGNEGYTFANVNGVPEAHDEDNTVSITFVVDPGKRAYVNRINFRGNTKSEDEVLRREMRQMEGGWASTYLIDQSKTRLERLGFFKEVNVETPQVPGTDDQIDVNYSVEEQPSGSITASVGFAQNAGLILGGSISQNNFLGTGNKVSIGLTRSEYQTRYNFGFVDPYWTVDGVSLGYNAFYRTTDYDELDVDVSSYAVDSLGGGVSIGYPISETSRLTFGLTAQQDDINTGRYTVDEIFDFIEQEGDSYLNFKASAGWSESTLNRGVLATRGHSQSLVLETTVPGSDLSFYKLDYRGQLFTPLSDSYTLRFHTELGYGDSFGSTSELPFYEHYYAGGFNSVRGFKDSSLGPRSTPSDGSNPGTLKDPDQDPLPFGGNVLVQGGVELLFPMPFVKDQRSLRTALFWDVGNVFDTNCSSAQKSRNEPGCDIDYSNLASSVGVGLTWITALGPLSFSLAMPIKKPDEADTQVFQFSLGQTF				NA	NA	NA	NA	NA
BMS010_07447	504			hypothetical protein	GTGCGTAAGTTGACTCAATTGGTTCTGTTCAGCGCTGTCCTGCTGGCAACTCCGGCTTTCGCCGAAATGAAGATTGCCGTGCTGAACTATCAGATGGCCTTGCTCGAGTCCGATGCGGCGAAGAAGTACGCCGTGGATGCGGAGAAGAAGTTCGGCCCGCAGTTGACCAAGCTGAAGACGCTGGAAAGCGACGCCAAGCGCATCCAGGATCGCCTCGTCAAAGAGGGCGAGAAGATGCAACAGGCCGAGCGCGAGCGCCTCGAGCTGGAATTCAAGCAGAAAGCCCGTGACTTCCAGTTCCAGTCCAAGGAGCTGAACGAAGCCAAGGCCATCGCCGATCGTGACATGCTCAAGCAGCTCAAGCCGAAGTTGGACCAAGCCGTGGAAGAGGTCATCAAGAAAGGTGGCTTCGATCTGGTTTTCGAGCGCGGTGCGGTGATTGATGTCAAACCCCAGTTCGACATCACCCGCCAGGTCATCGAGCGCATGAATCAGCTGCGCTGA	MRKLTQLVLFSAVLLATPAFAEMKIAVLNYQMALLESDAAKKYAVDAEKKFGPQLTKLKTLESDAKRIQDRLVKEGEKMQQAERERLELEFKQKARDFQFQSKELNEAKAIADRDMLKQLKPKLDQAVEEVIKKGGFDLVFERGAVIDVKPQFDITRQVIERMNQLR	PGPT0024525_1093	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	OTHER_INTEGRAL_MEMBRANE_REMODELLING__PROTEINS,PGPT0024525-hlpA|ompH|skp-K06142	NA	NA
BMS010_07448	1059	lpxD_1	COG1044	UDP-3-O-acylglucosamine N-acyltransferase	ATGACAGCTATCGTGTTTACCCTCGGCGATCTGGCCGAGCGTCTCGGTGCCACCCTGCGTGGCGCTGCGGACAAGCCGATCAGCGGGCTGGCTACCTTGCAAGAGGCTGGCCCCGGAGAGCTGAGTTTCCTCGCCAACCCGCAATACCGGAAGTACCTGGCACAGACCCAGGCCGCAGCTCTGCTGCTCACGCCAGCCGACGCGGATGGCTATGAGGGCGATGCACTTCTGGTGGCCAATCCTTATCTGGCCTATGCCCAGCTTTCCCATCTGTTCGATCGTAAACCGCAGGCAGTACCCGGTGTTCATCCGACGGCGGTGATCGCTGCCGATGCGCAGGTGGATGCCAGCGCCAGCATTGGTGCCTATGCCGTGATCGAAGCGGGTGCTCGGATCGCCGCCGGCGTCACGGTGGGGGCGCACTGCTTCGTCGGCGCGCGTAGCGAGATCGGCGAAGGCGGTTGGCTGGCTCCGCGAGTGACGCTGTACCACGACGTACGCATCGGCAAGCGGGTGGTAATCCAGTCCGGCGCGGTCATCGGTGGCGAAGGCTTCGGTTTTGCCAATGAAAAAGGCATCTGGCAAAAGATCGCCCAGATCGGCGGAGTGACCATTGGCGACGACGTCGAGATTGGCGCCAACACCACCATCGATCGGGGCGCGTTGGCGGATACCCGCATCGGCGATGGCGTGAAGCTGGACAACCAGATCATGATCGCGCACAACGTGCAGGTCGGCGATCACACCGCTATGGCCGCCTGCGTGGGGATTTCCGGCAGCACCAAGATCGGCAGGCATTGCATGATCGCGGGCGGTGTCGGTATGGTCGGCCACATCGAGGTCTGCGATAACGTGTTCGTGACCGGAATGACCATGGTCACCCGCTCGATCAGCGAGCCGGGGGCCTATTCTTCGGGGACTGCCATGCAGCCGGCGGCCGAATGGAAGAAGAGCGTGGCGCGGATTCGTCAGTTGGATGACATGGCCCGCCGCCTGCAGCAACTGGAAAAGCAACTGGCTGCCGTGACCTCGGGCAGGGATACATCATCTGATGCCTGA	MTAIVFTLGDLAERLGATLRGAADKPISGLATLQEAGPGELSFLANPQYRKYLAQTQAAALLLTPADADGYEGDALLVANPYLAYAQLSHLFDRKPQAVPGVHPTAVIAADAQVDASASIGAYAVIEAGARIAAGVTVGAHCFVGARSEIGEGGWLAPRVTLYHDVRIGKRVVIQSGAVIGGEGFGFANEKGIWQKIAQIGGVTIGDDVEIGANTTIDRGALADTRIGDGVKLDNQIMIAHNVQVGDHTAMAACVGISGSTKIGRHCMIAGGVGMVGHIEVCDNVFVTGMTMVTRSISEPGAYSSGTAMQPAAEWKKSVARIRQLDDMARRLQQLEKQLAAVTSGRDTSSDA	PGPT0022340_759	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022340-lpxD-K02536	NA	NA
BMS010_07449	438	fabZ_1	COG0764	3-hydroxyacyl-[acyl-carrier-protein] dehydratase FabZ	ATGGACATCAACGAGATTCGCGAATACCTGCCGCATCGCTACCCCTTCCTGCTGGTTGATCGGGTGGCTGAGCTGGATATCGAAGGCAAGCGCATTCGCGCCTACAAGAATGTCAGCATCAACGAGCCGTTCTTCAACGGGCACTTTCCCCAGCATCCGATCATGCCGGGCGTGCTCATCATCGAAGCCATGGCCCAGGCTGCCGGTATCCTCGGCTTCAAGATGCTCGATGTGAAGCCGGCGGACGGCACCCTCTATTACTTCGTCGGTTCCGACAAGCTGCGCTTCCGCTCGCCGGTGATGCCGGGCGACCAACTGATCCTCGAAGCCCGCTTCCTCAGCGTGAAGCGCGGCATCTGGAAGTTCGATTGCCAGGCGAGCGTGGACGGCAAGGAAGTCTGCTCGGCTGAAATCATCTGTGCGGAACGCAAGCTATGA	MDINEIREYLPHRYPFLLVDRVAELDIEGKRIRAYKNVSINEPFFNGHFPQHPIMPGVLIIEAMAQAAGILGFKMLDVKPADGTLYYFVGSDKLRFRSPVMPGDQLILEARFLSVKRGIWKFDCQASVDGKEVCSAEIICAERKL	PGPT0008365_3124	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008365-fabZ-K02372	NA	NA
BMS010_07450	777	lpxA_1		Acyl-[acyl-carrier-protein]--UDP-N-acetylglucosamine O-acyltransferase	ATGAGTTTGATTGACCCTCGCGCCATCATCGATCCCTCGGCCAGGCTGGCAGACGACGTACAGGTCGGTCCCTGGTCTATCGTCGGGCCCGATGTGGAAATTGGCGAGGGTACGGTGGTCGGTCCCCATGTGGTCATCAAGGGGCCGACCCGGATCGGCAAGCACAATCGCATCTACCAGTTTTCCTCGGTAGGTGAGGACACCCCCGATCTGAAATACAAAGGTGAGCCGACGCGTCTGGTGATCGGCGATCACAATGTGATCCGCGAGGGTGTGACCATCCATCGCGGCACCGTGCAGGACCGTTCGGAAACCACCATTGGCGATCACAACCTGCTGATGGCCTATGTGCATATCGGCCATGACAGTGTGATCGGCAATCACTGCATCCTGGTCAACAACACTGCCCTGGCCGGCCATGTTCACATGGACGATTGGGCGATCCTGTCCGGCTTCACCCTGGTGCATCAGTTCTGCCGGATCGGTGCCCACAGCTTTTCCGGCATGGGTACTGCCATCGGCAAGGATGTGCCGGCTTATGTCACCGTCTTCGGCAACCCGGCGGAAGCGCGCAGCATGAACTTCGAAGGCATGCGCCGGCGCGGTTTCAGTGCGGAAGCGATCCAGGCGCTGCGTCGTGCCTACAAGGTGGTCTACCGCCAGGGGCTGACGGTGGAGCAGGCCCTGGAAGAGCTGGCCGAAACGGCTGCGCAATTCCCGGAAGTCGCCGTCTTCCGCGACTCCATCCAGTCCTCGACCCGCGGCATTACGCGCTGA	MSLIDPRAIIDPSARLADDVQVGPWSIVGPDVEIGEGTVVGPHVVIKGPTRIGKHNRIYQFSSVGEDTPDLKYKGEPTRLVIGDHNVIREGVTIHRGTVQDRSETTIGDHNLLMAYVHIGHDSVIGNHCILVNNTALAGHVHMDDWAILSGFTLVHQFCRIGAHSFSGMGTAIGKDVPAYVTVFGNPAEARSMNFEGMRRRGFSAEAIQALRRAYKVVYRQGLTVEQALEELAETAAQFPEVAVFRDSIQSSTRGITR	PGPT0022320_2516	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0022320-lpxA-K00677	NA	NA
BMS010_07451	1164	lpxB_1	COG0763	Lipid-A-disaccharide synthase	ATGACGCCTCGCTTGCGTATCGCGTTGGTGGCTGGTGAAGCTTCCGGCGACATCCTCGGTTCCGGCCTGATGCAGGCGCTCAAGGCGCGCCACGGCGACATCGAATTCATCGGCGTTGGTGGGCCGCGCATGCAGGCCGAGGGGTTGACGCCCTACTTTCCGATGGAGCGCCTGTCGGTGATGGGGCTGGTCGAAGTACTCGGCCGCCTGCCTGAGCTGCTGTCACGCCGCAAACGTCTGATAGAGACATTGATCGCCGCCAAGCCGGACGTATTCATCGGCATCGACGCGCCGGATTTCAACCTGGGGGTCGAGCTGAAACTACGCCGTGCCGGCATCAAGACCGTGCATTACGTCAGCCCATCCGTCTGGGCCTGGCGGCAGAAGCGCGTACTGAAAATCCGCGAAGCCTGTGACTTGATGCTCACGCTGTTCCCCTTCGAGGCGCAGTTCTACGATGCGCACCAAGTGCCGGTGCGTTTCGTCGGGCATCCTTTGGCGGACAGCATTCCCATGCAGGCCGACCGGATGGCGGTTCGCCGCGAACTGGATTTACCTCTGGACGAGCCGGTGATCGCCTTGCTGCCTGGTAGCCGGGGCGGTGAAGTGGCGCGTCTGGGCGAGCTGTTCCTCGATGCGGCCGAACGGCTGCGCGCGTTGCGGCCCGGCGTACGCTTCGTCCTGCCCTGCGCCAGTCCCGAGCGCCGCGCCCAGTTGGAGCAGATGCTGGCAGGCCGCGACCTGCCACTCAGCCTGCTCGACGGCCGTTCGCATGACGCCTTGGCCGCCTGCGATGCGGTCCTCATCGCGTCTGGTACCGCGACCCTGGAGGCTTTGCTGTACAAGCGGCCCATGGTGGTGGCGTACAAGGTTGCGCCGATGACCTATCGTATTCTCCGGCGCCTGGTGAAAAGCCCCTACGTATCGCTGCCGAACCTGCTCGCCGAGCGCCCCCTGGTGCCCGAGCTGCTGCAGGATGCTGCCACACCGGAGGGATTGGCCCGGGCATTGGTGCCCCTGATCGATGGTGGCCAGGCGCAGACCGAAGGGTTCGACGTGATTCATCGCGCCTTGCGCCGCGATGCCTCGAGCCAGGCGGCGGAGGCGGTGCTCAAGCTGGCACTGCCCGAATCGGCCACGCCTTGGCAGCAAGCCTTGAACTGA	MTPRLRIALVAGEASGDILGSGLMQALKARHGDIEFIGVGGPRMQAEGLTPYFPMERLSVMGLVEVLGRLPELLSRRKRLIETLIAAKPDVFIGIDAPDFNLGVELKLRRAGIKTVHYVSPSVWAWRQKRVLKIREACDLMLTLFPFEAQFYDAHQVPVRFVGHPLADSIPMQADRMAVRRELDLPLDEPVIALLPGSRGGEVARLGELFLDAAERLRALRPGVRFVLPCASPERRAQLEQMLAGRDLPLSLLDGRSHDALAACDAVLIASGTATLEALLYKRPMVVAYKVAPMTYRILRRLVKSPYVSLPNLLAERPLVPELLQDAATPEGLARALVPLIDGGQAQTEGFDVIHRALRRDASSQAAEAVLKLALPESATPWQQALN	PGPT0022325_2382	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022325-lpxB-K00748	NA	NA
BMS010_07452	642	rnhB_2	COG0164	Ribonuclease HII	ATGCAACTGGGTCTGGATTTCAATCTGGTCGAAGCCTTGGTCGCCGGGGTCGACGAAGTTGGCCGCGGGCCGCTCTGCGGGCCTGTGGTGACCGCTGCGGTGATCCTCGACCCGAGCCGTCCCATCCAGGGGCTCAACGATTCGAAGAAACTCACCGAGGCCCGGCGCGAGGCGCTGTACGACGAAATCTGCGAGAAGGCCCTGGCCTGGTGCATCGCCCGGGCCGAGGTGGAAGAAATCGACAGCCTGAACATTCTGCATGCCACTATGCTGGCCATGCAGCGTGCGGTGGAAGGCCTGAGTGTCGTGCCGAAACTGGCACTGATCGATGGCAACCGTTGCCCCAAGCTCTCGGTGCCCTCGGCGCCGGTGGTGCAGGGTGACGCACAGGTGCCGGCGATCGCCGCCGCTTCCATCCTGGCCAAGGTCAGCCGCGATCGCGAGATGGTTGCTTTGGACCTCATCTATCCCGGCTACGGCATGGCTGGCCATAAAGGCTATCCCACGCCGGAGCACTTGGGAGCCTTGCAGCGCCTGGGGCCGACGCCCATTCACCGGCGTTCCTTCGCACCCGTGAAGGCCTTGCTGGAAGTATTGGAAACCCCCACCGCTGTCGCATCGGCGAACGCTTTGGTCGTTTGA	MQLGLDFNLVEALVAGVDEVGRGPLCGPVVTAAVILDPSRPIQGLNDSKKLTEARREALYDEICEKALAWCIARAEVEEIDSLNILHATMLAMQRAVEGLSVVPKLALIDGNRCPKLSVPSAPVVQGDAQVPAIAAASILAKVSRDREMVALDLIYPGYGMAGHKGYPTPEHLGALQRLGPTPIHRRSFAPVKALLEVLETPTAVASANALVV				NA	NA	NA	NA	NA
BMS010_07453	1419	alsT_3	COG1115	Amino-acid carrier protein AlsT	ATGCAAGAAATCGCCAATCAGGTCGTGGACGTTCTCAATGGTCTCATCTGGGGCAAGGTGCTGATCTGGCTGCTGGTGGGCTGCGGCCTGTACTTCACCGCGCGGCTGGGGCTGATCCAGTTCCGCCACTTCGGTCATATTTTCACGGTGCTCAAGGGCAGCCGCGGCAGCGACGACGCGGGTATTTCTTCCTTCCAGGCGCTCTGCACCTCCCTCGCCGCGCGTGTCGGGACCGGTAACGTCGCCGGCGTCGCCGTAGCCATCACGCTCGGTGGGCCGGGCGCCATCTTCTGGATGTGGATGATCGCCCTTGTGGGCATGGCAACCGGTTTCGTCGAGGCAACCCTTGCCCAGTTGTTCAAGACCCGCGATGCCGAAGGCCAGTACCGCGGAGGTCCGGCCTACTACATGGAAAAGGGGCTGAACGCGCGCTGGATGGGTGTGCTGTTCTCGATCTTCCTGATCATTGCCTTTGGCTTCGTGTTCAATTCGGTCCAGGCGAATACCATCAGCGGTGCGATGTCCGGGGCCTTCGGCATCAAGCCGTGGATGAGCGGCGTGGGCGTGGTGGTGCTGACCGCGCTGATCATCTTCGGCGGGCTGCGCTCGATCGCCCGGTTCTCCGAACTGGCGGTTCCGTTCATGGCCGCCGCCTACCTGCTGGTGGCGATTGCCGTCATCGTGATGAACCTGAGCGAGATTCCGGCGGTGCTGGCCCTGATCTTCAAGAGTGCCTTTGGCCTGCACGAGGCGGCGGCCGGCGGCATCGGCGCGGCCATCATGAACGGTTTCAAGCGCGGGCTTTTCTCCAACGAAGCCGGCATGGGCTCCGCGCCGAACGCTGCCGCTTCCGCTACCCCATACCCGCCGCATCCGGCCTCCCAGGGCTATGTCCAGATGGCTGGCGTGGTCATCGATACGCTGCTCATCTGCACGGCGTCCGCCGCGATCATTCTGCTCGCCGGCGTACCGAGCGGCGACTCCCAAGGCATCATGCTGGTACAGCAGGCGCTGAGCAGCGAGGTGGGTAGCTGGGCGAAGTACTTCCTGTCCGTGGTGATCCTGTTCTTCGCCTTCACCTCGATCGTCGCCAACTATTTCTATGCCGAGAACTGCCTGGTCTTCCTCGAGCACAACCATGCGGCGGGGCTGGTGATCTTCCGCCTGATCGTCCTGGCCATGGTGATGTTCGGGGCGCTGGCCTCGCTGCCGTTCGTGTGGAACCTGGCGGACGTTTCCATGGGCCTGATGGCGATCACCAACCTGGTGGCGATCCTGTTGCTATCGGACCTGGCGATCAAGCTGGCGCGCGATTACAACCAGCAGCGCCAGGCCGGCAAGCTGCCGACGTTCGATGCCAGCCAGTTCCCGGAGCTGCAGAGCAAGCTGGAGCCCGGTATCTGGGACGACCGCCGTTGA	MQEIANQVVDVLNGLIWGKVLIWLLVGCGLYFTARLGLIQFRHFGHIFTVLKGSRGSDDAGISSFQALCTSLAARVGTGNVAGVAVAITLGGPGAIFWMWMIALVGMATGFVEATLAQLFKTRDAEGQYRGGPAYYMEKGLNARWMGVLFSIFLIIAFGFVFNSVQANTISGAMSGAFGIKPWMSGVGVVVLTALIIFGGLRSIARFSELAVPFMAAAYLLVAIAVIVMNLSEIPAVLALIFKSAFGLHEAAAGGIGAAIMNGFKRGLFSNEAGMGSAPNAAASATPYPPHPASQGYVQMAGVVIDTLLICTASAAIILLAGVPSGDSQGIMLVQQALSSEVGSWAKYFLSVVILFFAFTSIVANYFYAENCLVFLEHNHAAGLVIFRLIVLAMVMFGALASLPFVWNLADVSMGLMAITNLVAILLLSDLAIKLARDYNQQRQAGKLPTFDASQFPELQSKLEPGIWDDRR	PGPT0014405_2901	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLYCINE_TRANSPORT,PGPT0014405-yflA|TC_AGCS-K03310	NA	NA
BMS010_07454	3522	dnaE	COG0587	DNA polymerase III subunit alpha	ATGGCCGTTTCCTTCGTTCACCTGCGTCTGCATACCGAATACTCCCTGGTCGACGGTCTGGTGCGCGTCAAGCCGCTGATCAAGGCCGTGGCGGGAGCGGGCATGCCGGCCGTGGCGGTGACCGACCAGAGCAACATGTGCTCGCTGGTGAAGTTCTACAAGGCGGCCATGGGCGGCGGCGTGAAGCCGATCTGTGGTGCCGACATCTGGCTGGCCAGCCGCAATGAGGATGGGCCGCTGTCGCGTCTGACGCTGCTGGTGATGAATGCCAAGGGCTACCGCAATCTGACCGAGCTGATCTCCCGTGGTTGGACCGATGGCCAGCGCGATGGGCTGATCATCATCGAACGAGATTGGGTCAAGGAGGCCGCGGAAGGGCTGATCGCGTTATCCGGCGCAAAAGAGGGGGAAGTCGGTCAGGCCCTGCTCAACGGCGACGAGGCGGAAGCGGAGGCACTGCTCGCCGAGTGGATGGATGTCTTCCCCGATCGCTTCTACCTGGAAGTACAGCGCACCAGCCGCCCCAACGACGAAGAACACCTGCATGCGGCCGTCGCCCTGGCCGATCGCTGCGGGGCTCCGCTGGTGGCGACCAACGACGTGCGCTTCCTCAAGCAGGACGACTTCGAGGCCCACGAGACCCGCGTCTGCATCGGTGAAGGCCGGACCCTGGACGACCCGGGCCGTCCGCGCACCTATTCCGACCAGCAGTACCTGAAGACGCCGGAAGAAATGTGGGAGCTGTTCAGCGACCTGCCCGAGGCGCTGGAAAACACGGTGGAAATCGCCAAACGCTGCAACATCGAAGTTCAGCTGGGCAAATACTTCCTGCCGAACTTCCCGATCCCGGAAGGCATGACCATCGATGACTACCTGCGCCAGGTTTCGTTCGAGGGACTGGAAGAGCGCCTGGCCATCCTGCTGCCACCGGACACGCCGGACTACGAGGCGAAGAAGCAGGTCTACGTCGACCGCCTGAATTTCGAGTTGGGGACCATCATCCAGATGGGCTTCCCCGGCTACTTCCTCATCGTGATGGACTTCATCAAGTGGGCGAAGAACAACGGCGTGCCCGTAGGCCCTGGCCGGGGATCGGGTGCCGGCAGCCTGGTGGCCTATGCGCTGAAGATCACCGACCTCGACCCGCTGGCCTACGACCTGCTGTTCGAGCGCTTCCTCAACCCCGAGCGAATCTCCATGCCCGACTTCGATGTCGACTTCTGCATGGACGGCCGCGACCGGGTCATCGACTATGTGGCCGAGGCCTACGGACGCAATGCCGTGAGTCAGATCATCACCTTCGGCACCATGGCGGCGAAGGCGGTGGTGCGCGACGTGGCGCGGGTGCAGGGCAAGTCCTACGGTCTGGCCGACAAGCTGTCGAAGATGATTCCCTTCGAAGTCGGCATGACCCTGGACAAGGCGTATGAACAGGAAGAGATGCTCCGCGATTTCCTCAAGTCCGACGAGGACGCCCGGGAAATCTGGGACATGGCGCTCAAGCTGGAGGGCATCACCCGCGGTACCGGCAAGCACGCCGGGGGCGTGGTGATCGCGCCGACCAAGCTCACCGACTTCTCGCCGATCGCCTGCGATGCCGAAGGTGGCGGTCTGGTGACCCAGTTCGACAAGGACGATGTGGAGCAGGCCGGCTTGGTGAAGTTCGACTTCCTCGGCCTGCGTACCCTGACCATCATCAAGTGGGCGATGGAGACCATCAATCGCGAGCAGGCCAAGAAGGGCCTGGAGCCGGTCAACATCGACTTCATTCCGCTGGACGACAAGAAAACCTACGACCTGTTGCAGAAGGCCGAGACCACCGCGGTATTCCAGTTGGAATCGCGGGGCATGAAGGAGCTGATCAAGAAGCTCAAGCCGGACTGCCTGGAAGACCTCATCGCTCTGGTGGCGCTGTTCCGACCGGGCCCGCTGCAGTCGGGCATGGTGGACGACTTCATCAACCGCAAGCACGGCCGCGCCGAGGTGTCCTATCCGCACCCCGACTACCAGTACGCGGGCCTCGAGCCGGTGCTGAAACCCACCTACGGCATCATCCTCTACCAGGAACAGGTGATGCAGATCGCCCAGGTGATGGCCGGCTACACCCTGGGCGGCGCGGATATGCTGCGTCGTGCCATGGGTAAGAAAAAGCCCGAAGAGATGGCCAAGCAGCGCGGCGGCTTCATCGAGGGCTGTGCCAACAACGGCATCGATGGCGACCTGGCGGGCAACATCTTCGACCTGGTGGAAAAGTTCGCCGGCTACGGCTTCAACAAGTCCCACTCGGCCGCCTACGGCTTGGTCTCGTACCAGACCGCCTGGCTCAAGGCCCACTACCCGTCGCCGTTCATGGCCGCCGTGCTGTCCGCGGATATGCACAACACCGACAAGGTGGTGACCCTGATCGAAGAGTGCCGGAACATGAAGCTGCGCATCGTCGCGCCGGACGTGAACAACTCCGAGTTCATGTTCACCGTCGATGACGACAACCGCATCGTCTATGGTCTGGGCGCGATCAAGGGGGTCGGCGAGGGCCCGGTCGAGGCCATCGTCGAATGCCGTGCCGAAGGCGGGCCGTTCAAGGACCTGTTCGATTTCTGCAATCGCGTCGACCTCAAGCGCATCAACAAGCGCACCCTGGAGGCGCTGATCCGCGGTGGCGCGCTCGACCGTCTCGGCCCGTACTTCTCCGACGAAGCCAAGGCCTACCAGGCCAACATCGACCGTAACCGCGCAGTGCTGCTGGCGGCCATGGAAGAGGCGATCCAGGCGGCGGAGCAGACGGCCCGCAGCCACGACAGCGGTCACATGGACCTGTTCGGCGGCCTGTTCGCCGAGCCGGAGGCCGATGTCTACGCCAACCACCGCAATGCCAAGGAGTTGTCGCTCAAGGAGCGCCTCAAGGGCGAGAAGGACACCCTGGGGCTTTATCTCACTGGCCATCCCATCGACGAATACGAAGGCGAGGTGCGGCGCTTCGCCCGGCAGCGCATCGTCGAACTCAAGCCGGCACGCGATACCCAGACGGTCGCCGGGCTGATCGTCAACCTGCGGGTAATGAAGAACAAGAAGGGCGACAAGATGGGCTTCATCACCCTGGACGACCGCTCCGGGCGCATCGAGGCCTCGCTGTTCGCCGATGCCTTTGCCAGTGCCCAGGCCCTCTTGCAGAACGATGCCCTGGTGGTGGTCGAGGGCGAAGTCAGCAACGACGATTTCTCCGGTGGCTTGCGTCTGCGCGCCAAGCGCGTGATGAGCCTGGAGGAGGCGCGTACCGGCCTGGCCGAGAGCCTGCGCCTGAAGGTCGCCAGCGAAGCACTGAGGGGAGATCGTCTGCGCTGGCTGGCCGATCTGTGCAGCCGCCATCGTGGTGCCTGTCCGATCACGCTGGACTACACCGGCCCCGATGCGCGGGCCTTGTTGCAGTTCGGCGAAGGCTGGCGAATCGACCCGGCCGACAACCTGATTCAGGCGTTGCGTGACCAGTTCGGGCGAGACAACGTCTTTTTGCACTACCGCTAG	MAVSFVHLRLHTEYSLVDGLVRVKPLIKAVAGAGMPAVAVTDQSNMCSLVKFYKAAMGGGVKPICGADIWLASRNEDGPLSRLTLLVMNAKGYRNLTELISRGWTDGQRDGLIIIERDWVKEAAEGLIALSGAKEGEVGQALLNGDEAEAEALLAEWMDVFPDRFYLEVQRTSRPNDEEHLHAAVALADRCGAPLVATNDVRFLKQDDFEAHETRVCIGEGRTLDDPGRPRTYSDQQYLKTPEEMWELFSDLPEALENTVEIAKRCNIEVQLGKYFLPNFPIPEGMTIDDYLRQVSFEGLEERLAILLPPDTPDYEAKKQVYVDRLNFELGTIIQMGFPGYFLIVMDFIKWAKNNGVPVGPGRGSGAGSLVAYALKITDLDPLAYDLLFERFLNPERISMPDFDVDFCMDGRDRVIDYVAEAYGRNAVSQIITFGTMAAKAVVRDVARVQGKSYGLADKLSKMIPFEVGMTLDKAYEQEEMLRDFLKSDEDAREIWDMALKLEGITRGTGKHAGGVVIAPTKLTDFSPIACDAEGGGLVTQFDKDDVEQAGLVKFDFLGLRTLTIIKWAMETINREQAKKGLEPVNIDFIPLDDKKTYDLLQKAETTAVFQLESRGMKELIKKLKPDCLEDLIALVALFRPGPLQSGMVDDFINRKHGRAEVSYPHPDYQYAGLEPVLKPTYGIILYQEQVMQIAQVMAGYTLGGADMLRRAMGKKKPEEMAKQRGGFIEGCANNGIDGDLAGNIFDLVEKFAGYGFNKSHSAAYGLVSYQTAWLKAHYPSPFMAAVLSADMHNTDKVVTLIEECRNMKLRIVAPDVNNSEFMFTVDDDNRIVYGLGAIKGVGEGPVEAIVECRAEGGPFKDLFDFCNRVDLKRINKRTLEALIRGGALDRLGPYFSDEAKAYQANIDRNRAVLLAAMEEAIQAAEQTARSHDSGHMDLFGGLFAEPEADVYANHRNAKELSLKERLKGEKDTLGLYLTGHPIDEYEGEVRRFARQRIVELKPARDTQTVAGLIVNLRVMKNKKGDKMGFITLDDRSGRIEASLFADAFASAQALLQNDALVVVEGEVSNDDFSGGLRLRAKRVMSLEEARTGLAESLRLKVASEALRGDRLRWLADLCSRHRGACPITLDYTGPDARALLQFGEGWRIDPADNLIQALRDQFGRDNVFLHYR				NA	NA	NA	NA	NA
BMS010_07455	951	accA_3	COG0825	Acetyl-coenzyme A carboxylase carboxyl transferase subunit alpha	ATGAACCCGAATTTTCTGGACTTCGAACAGCCGATCGCCGACCTGCAAGCCAAGATCGAAGAGTTGCGCCTGGTCGGCAACGACAATGCGCTGAACATCAGCGACGAGATTGCCCGCTTGCAGGAAAAGAGCAAGTCTCTGACCGAAAGCATCTTCGGCAACCTGACCAGCTGGCAGATCGCCCAGATGGCGCGCCATCCGAAGCGCCCCTACACCCTCGACTACATCGAGCACATCTTCACCGAATTCGAAGAACTGCACGGCGACCGGCATTTCTCCGACGATGCCGCCATCGTCGGCGGGACCGCGCGCCTGAACGGGCAGCCGGTCATGGTCATCGGCCACCAGAAAGGCCGTGATGTCCGCGAGAAGGTCCGCCGCAACTTCGGCATGCCGCGTCCCGAGGGTTACCGCAAGGCCTGCCGCCTGATGGAAATGGCCGAACGCTTCAAGATGCCGATCCTCACCTTCATCGACACCCCCGGCGCCTACCCGGGCATCGATGCGGAAGAGCGCGGCCAGAGCGAGGCCATCGCCTGGAACCTGCGCGTGATGGCGCGCCTGAAGACCCCGATCATCGCCACCGTGATCGGCGAAGGCGGTTCCGGCGGTGCATTGGCCATCGGTGTCTGCGACCAGTTGAACATGCTGCAGTACTCCACCTATTCGGTGATCTCGCCGGAAGGTTGCGCCTCCATCCTGTGGAAAACTGCCGAGAAGGCGCCAGACGCCGCCGAAGCCATGGGTATCACGGCCGAGCGCCTGAAGGGGCTGGGTATCGTCGACAAGGTGATCCCCGAGCCGCTGGGCGGCGCCCATCGCGACCCTGTCAGCGCATCGGAAGGCATCCGCCAGGAGCTGACCGCCCAATTGGACAAACTGCGCAAGCTGGGCACCGATGAGCTGCTGGCCCGTCGTTATGATCGCCTGATGAGCTACGGGGTGGCCTGA	MNPNFLDFEQPIADLQAKIEELRLVGNDNALNISDEIARLQEKSKSLTESIFGNLTSWQIAQMARHPKRPYTLDYIEHIFTEFEELHGDRHFSDDAAIVGGTARLNGQPVMVIGHQKGRDVREKVRRNFGMPRPEGYRKACRLMEMAERFKMPILTFIDTPGAYPGIDAEERGQSEAIAWNLRVMARLKTPIIATVIGEGGSGGALAIGVCDQLNMLQYSTYSVISPEGCASILWKTAEKAPDAAEAMGITAERLKGLGIVDKVIPEPLGGAHRDPVSASEGIRQELTAQLDKLRKLGTDELLARRYDRLMSYGVA	PGPT0001695_2614	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0001695-accA-K01962	NA	NA
BMS010_07456	1317	tilS_2	COG0037	tRNA(Ile)-lysidine synthase	ATGACCCTCGAAGACCGCCTGTTTACCTGCCTTGCGCCCTGGCGCGAGGCGCCCGTCTGGCACATCGCTCTGTCCGGCGGTCTCGACTCCAGCGTTCTGCTGCATCTAGTGGCACGTCTTTCCACCCGAGAGGCGCTGCCACCGCTCTCCGCCATCCATATTCATCATGGCCTGCAGCCTGTCGCCGACGGTTGGCCGGAACACTGCCGGCAGATCTGCGCTGCGTTGGGCATTCCTCTGCAGGTTCATCATGTGCAGGTGGATTCGGGCGCCAGCCTGGAACGGGCGGCACGTGAGGCGCGTTACGCTGCACTGGCCGCCGAGCTGGGGGAGGGGGACGTGCTATTGACCGCCCAGCACCGCGACGATCAGGCAGAAACCTTGCTGTTTCGTCTGTTGCGTGGCGCCGGTGTGCGAGGGTTGGCCGGCATGCCAGCGAGCCGCCGGCTGGGGCGGGGGTGGCTGGTACGTCCGCTGCTGGATGTGTCGCGACGCGAGCTGGAGACTTATGCGCGGGTAGAAGGGCTGAGCTGGGTCGAGGACCCATCCAACCAAGATGACCGCATGGCGCGCAACTACCTGCGTAATCAGGTCATGCCGTTGCTGGCCGCGCGCTGGCCACAGGTGCAGAACAACCTGGCCCGCAGTGCCACCCATTTGCGCGAGGCCCAGGAGCTGCTGGACGATCTTGCCCGACAGGATCTGGCAGCGGCCCGGCAGGACCCGACTCCCTTTCCCTGGTTGCCGTTACCTTCCCTTGCATTGACACCGTTGCTCGGTTTGTCGCCGGCTCGCCAGCGCAATGCCATGCGTCATTGGCTGGCGCCGTTGACTCCATTGCCGGACAGCGATCACTGGGCGGGCTGGGTCGATTTGCTGCGGGCTTCTGCGGACGCCGGACCGATCTGGAGGCTGGCGGGTGGCGAGCTGCGGCGATCCGACGGACGGTTGTGGTGGCTCGCCGGTGACTGGCTTCGGCCGACCCCGCCTGCTCAGGAATGGCATGACCCGTCCGCTCCCCTGCGGCTGCCGGGCAACGGCCGTCTGCTTCTAGAGGGCCAGGTACCGTCCGGATCGCTACGGGTTCGCTACCGCCAGGGCGGAGAAGTCCTCGCATTGCCGGAACGAGGGCATCGCGATCTCAAGCGGCTGCTGAATGAGCGAGGCGTGCCGGTCTTCGTCCGCGGCCGTTTGCCGCTGCTCTACCGAGGCGACGAGTTGCTCGCCGTGGCCAATCTTCCGGGCCTGGACGGGCCCGCCGACACGTCCTGGCGATTGGTCTGGGAACCGTCGGCGGATGATCATGGTTTGAGCTGA	MTLEDRLFTCLAPWREAPVWHIALSGGLDSSVLLHLVARLSTREALPPLSAIHIHHGLQPVADGWPEHCRQICAALGIPLQVHHVQVDSGASLERAAREARYAALAAELGEGDVLLTAQHRDDQAETLLFRLLRGAGVRGLAGMPASRRLGRGWLVRPLLDVSRRELETYARVEGLSWVEDPSNQDDRMARNYLRNQVMPLLAARWPQVQNNLARSATHLREAQELLDDLARQDLAAARQDPTPFPWLPLPSLALTPLLGLSPARQRNAMRHWLAPLTPLPDSDHWAGWVDLLRASADAGPIWRLAGGELRRSDGRLWWLAGDWLRPTPPAQEWHDPSAPLRLPGNGRLLLEGQVPSGSLRVRYRQGGEVLALPERGHRDLKRLLNERGVPVFVRGRLPLLYRGDELLAVANLPGLDGPADTSWRLVWEPSADDHGLS				NA	NA	NA	NA	NA
BMS010_07457	1632	pyrG_1	COG0504	CTP synthase	ATGACGCGCTACATCTTCGTCACGGGTGGTGTTGTTTCTTCATTGGGGAAAGGCATCGCCTCGGCATCATTGGCGGCCATCCTGGAGGCGCGGGGCCTGAAGGTCACCATGCTCAAGCTGGACCCTTACATCAACGTCGATCCGGGCACCATGAGCCCGTTCCAGCACGGTGAAGTGTTCGTCACCCATGACGGCGCCGAGACCGACCTGGACCTGGGGCACTACGAGCGGTTCATCCGCACGACCATGACCCAGAACAACAACTTCACCACCGGTCGCGTCTACGAAGACGTGCTGCGCAAGGAGCGCCGTGGCGACTACCTGGGCGCGACCATCCAGGTGATCCCGCACATCACCGACGAGATCAAGCGCCGCATCATCAAGGGCGCCGGCGATGCCGACGTGGCCCTGGTGGAAATCGGCGGCACCGTGGGTGACATCGAATCCCAGCCGTTCCTCGAGGCGATCCGCCAACTGCGTGTGGAAGTCGGTGCCCGCCGCGCCATGCTGATGCACCTGACACTGGTGCCGTACATCGCCACAGCCGGCGAGACCAAGACCAAGCCGACCCAGCACTCGGTGAAGGAACTGCGCTCCATCGGCCTGCAGCCCGACGTGCTGATCTGCCGTTCCGACCATCCGATCGACAACTCCTCGCGCCGCAAGATCGCGCTCTTCACCAACGTCGAAGAGCGTGCGGTGATTGCCCTGGAAGACGTCGACACCATCTATCGCATTCCGTCGGTACTGCACGCCCAGGGCCTGGATGACTTCGTCGTCGAGCGCTTCGGCTTGGAGTGCAATGGCGCCGACCTCTCCGAGTGGGATCGCGTGGTCGATGCCAAGCTGCATCCGGAGAAGGAAGTCACCATCGCCATGGTCGGCAAGTACATGGAGCTGCTGGATGCCTACAAATCGCTGATCGAGGCGATGAGCCATGCCGGCATCCAGAACCGCACCAAGGTCAACCTGCGCTACATCGATTCGGAAGACATCGAGAACCAGGGCACCGGCTTGCTCGAAGGCGTCGATGCCATCCTGGTTCCGGGCGGGTTCGGCCTGCGCGGTGTGGAAGGCAAGATCACCACGGTGAAATACGCCCGCGAGAACAAGATTCCCTACCTGGGCATCTGCCTCGGCATGCAGGTGGCGGTGATCGAGTTCGCCCGCGACGTATTGGGCTGGACCGACGCCAACTCCACCGAGTTCGACAAGTCCTCGACCCATCCAGTGGTCGGCCTGATCACCGAATGGCAGGATGCGACCGGTGCCGTGGAAACCCGCAGCGAGAACTCCGACCTGGGCGGCACCATGCGCCTCGGCGGCCAGGAGTGCCAGCTCGAGTCCGGCTCGCTGGTGCACGATTGCTACGGTAAGGACGTGATCGTCGAGCGTCACCGCCATCGCTACGAAGTGAACAACAACCTGCTGCCGCAACTGATCCAGGCGGGTTTGAAGATCACCGGCCGCTCCGGCGACGGCGCACTGGTCGAAGTGGTCGAGGCGCCGGATCATCCCTGGTTCGTCGCTTGCCAGTTCCACCCCGAATTCACGTCCACCCCGCGCGACGGCCATCCGCTGTTCAGCGGCTTCGTCAACGCGGCACTGGCACAGAAGGCCCGTAAGGCATGA	MTRYIFVTGGVVSSLGKGIASASLAAILEARGLKVTMLKLDPYINVDPGTMSPFQHGEVFVTHDGAETDLDLGHYERFIRTTMTQNNNFTTGRVYEDVLRKERRGDYLGATIQVIPHITDEIKRRIIKGAGDADVALVEIGGTVGDIESQPFLEAIRQLRVEVGARRAMLMHLTLVPYIATAGETKTKPTQHSVKELRSIGLQPDVLICRSDHPIDNSSRRKIALFTNVEERAVIALEDVDTIYRIPSVLHAQGLDDFVVERFGLECNGADLSEWDRVVDAKLHPEKEVTIAMVGKYMELLDAYKSLIEAMSHAGIQNRTKVNLRYIDSEDIENQGTGLLEGVDAILVPGGFGLRGVEGKITTVKYARENKIPYLGICLGMQVAVIEFARDVLGWTDANSTEFDKSSTHPVVGLITEWQDATGAVETRSENSDLGGTMRLGGQECQLESGSLVHDCYGKDVIVERHRHRYEVNNNLLPQLIQAGLKITGRSGDGALVEVVEAPDHPWFVACQFHPEFTSTPRDGHPLFSGFVNAALAQKARKA	PGPT0021215_3652	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021215-pyrG-K01937	NA	NA
BMS010_07458	846	kdsA_1	COG2877	2-dehydro-3-deoxyphosphooctonate aldolase	ATGACTCAGAAAATCATTCGCGTCGGCGGCATCGAGATCGCCAACGACAAACCCATGGTGCTGTTCGGCGGCATGAACGTCCTCGAATCGCGTGACCTCGCCCTGAAGGTCTGCGAGGAATACGTCCGGGTCACCGAGAAGCTCGGCATCCCCTACGTCTTCAAGGCCAGCTTCGACAAGGCCAACCGCTCTTCGATCAACTCCTTCCGTGGCCCCGGCCTGGAAGAGGGCATGAAGATCTTCGAAGAGGTGAAGAAGACTTTCGGCGTGCCGGTCATCACCGACGTGCACGAGCCCTACCAGGCCGCGCCGGTGGCCGAAGTCTGCGACATCATCCAGTTGCCGGCCTTCCTGTCGCGCCAGACCGACCTGGTGGTGGCCATGGCTAAGACCGGCGCGGTGATCAACATCAAGAAGGCGCAGTTCCTCGCCCCGCAGGAAATGAAGCACATCCTGGCCAAGTGCGAGGAAGCCGGTAATGAGCAACTGATCCTCTGCGAGCGCGGCTCCTCCTTCGGCTACAACAACCTGGTCGTCGACATGCTCGGCTTCGGCATCATGAAGCAGTTCGAATACCCGGTTTTCTTCGATGTCACCCATGCCCTGCAGATGCCGGGTGGCCGTGCCGATTCCGCCGGCGGTCGCCGTGCCCAGGTCACCGACCTGGCCAAGGCCGGCCTCAGCCAAGGCTTGGCCGGTCTGTTCCTCGAGGCCCACCCCGATCCGGACAAGGCCAAGTGCGATGGTCCCTGCGCACTGCGCCTGGACAAGCTGGAGCCCTTCCTCTCCCAGCTCAAGCAACTGGACGATCTGGTGAAGAGTTTTTCGCCGATCGAGACTGCCTGA	MTQKIIRVGGIEIANDKPMVLFGGMNVLESRDLALKVCEEYVRVTEKLGIPYVFKASFDKANRSSINSFRGPGLEEGMKIFEEVKKTFGVPVITDVHEPYQAAPVAEVCDIIQLPAFLSRQTDLVVAMAKTGAVINIKKAQFLAPQEMKHILAKCEEAGNEQLILCERGSSFGYNNLVVDMLGFGIMKQFEYPVFFDVTHALQMPGGRADSAGGRRAQVTDLAKAGLSQGLAGLFLEAHPDPDKAKCDGPCALRLDKLEPFLSQLKQLDDLVKSFSPIETA	PGPT0023060_1435	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-8-AMINO-3|8-DIDEOXY_D_MANNO-OCTULOSONIC_ACID_MODIFICATION,PGPT0023060-kdsA-K01627	NA	NA
BMS010_07459	1290	eno_2		Enolase	ATGGCAAAGATCGTCGACATCAAAGGTCGTGAGGTTCTCGACTCCCGTGGCAACCCCACCGTGGAAGCCGATGTGATCCTCGACAACGGCATCATCGGCAGCGCCTGCGCGCCGTCCGGTGCTTCCACCGGCTCCCGCGAGGCGCTGGAGCTGCGTGATGGCGACAAGAGCCGTTACCTGGGCAAGGGCGTACTCAAGGCCGTGGCCAACATCAATGGCCCGATCCGCGATTTGCTGCTGGGCAAGGACCCGGTCGAGCAGAAGGCACTGGACCAGGCGATGATCGAGCTGGACGGCACCGAGAACAAGGCCAAGCTGGGCGCCAACGCCATCCTCGCCGTGTCCCTGGCCGCCGCCAAGGCTGCCGCGCAGGCCAAGGGCGTGCCGCTGTACGTGCACATCGCCGATCTGAATGGCACTCCGGGCCAGTACTCCATGCCGGTGCCGATGATGAACATCATCAACGGCGGCGAGCACGCCGATAACAACGTCGACATCCAGGAGTTCATGGTCCAGCCGGTCGGCGCCAAGACCTTCGCCGACGCGCTGCGCATGGGCGCCGAGATCTTCCACCACCTGAAAGCCGTGCTGAAGGCCCGTGGCCTTAACACTGCGGTGGGCGACGAAGGCGGCTTCGCGCCGAACTTGGCTTCCAACGAAGACGCTCTGGCTGCCATCGCCGAGGCCGTCGAGAAGGCCGGCTACAAGCTGGGCACCGACGTGACCCTGGCGCTGGACTGCGCTTCCTCCGAGTTCTTCAAGGACGGCCAGTACGACCTGGCCGGCGAAGGCAAGGCGTTCGACGCCGCCGGTTTCGCCGACTACCTGGCCGGCTTGACTCAGCGCTATCCGATCATCTCCATCGAAGACGGCATGGACGAGTCCGACTGGGCCGGTTGGAAAGGCCTGACCGACAAGATCGGTGAGAAGGTGCAACTGGTCGGCGACGATCTGTTCGTGACTAACACCAAGATCCTCAAGGAAGGTATCGAGAAGGGTATCGCCAACTCGATCCTGATCAAGTTCAACCAGATCGGTTCGCTGACCGAGACCCTGGAAGCCATCCAGATGGCCAAGGCCGCCGGCTACACCGCGGTGATCTCGCACCGTTCCGGTGAAACCGAGGACAGCACCATCGCCGACCTGGCCGTAGGCACTGCCGCCGGTCAGATCAAGACCGGTTCCCTGTGCCGCTCCGACCGCGTGTCGAAGTACAACCAGCTGCTGCGTATCGAGGAGCAACTGGCTGGCAAGGCACCGTACCGTGGTCGCGCCGAGTTCCGTGGCTGA	MAKIVDIKGREVLDSRGNPTVEADVILDNGIIGSACAPSGASTGSREALELRDGDKSRYLGKGVLKAVANINGPIRDLLLGKDPVEQKALDQAMIELDGTENKAKLGANAILAVSLAAAKAAAQAKGVPLYVHIADLNGTPGQYSMPVPMMNIINGGEHADNNVDIQEFMVQPVGAKTFADALRMGAEIFHHLKAVLKARGLNTAVGDEGGFAPNLASNEDALAAIAEAVEKAGYKLGTDVTLALDCASSEFFKDGQYDLAGEGKAFDAAGFADYLAGLTQRYPIISIEDGMDESDWAGWKGLTDKIGEKVQLVGDDLFVTNTKILKEGIEKGIANSILIKFNQIGSLTETLEAIQMAKAAGYTAVISHRSGETEDSTIADLAVGTAAGQIKTGSLCRSDRVSKYNQLLRIEEQLAGKAPYRGRAEFRG	PGPT0018050_3714	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0018050-eno-K01689	NA	NA
BMS010_07460	336	ftsB		Cell division protein FtsB	ATGGTAAAAGGGGCAGCATTGGCTGCCCCTTTTCATATGGATAGATTCGTTTCGATGCCCAAAGCCCCTTACTGGTTGTTCGTCGTGCTGGTGCTGGTCCTGGCAGGCCTGCAATATCGCCTCTGGGTCGGCGACGGCAGCCTGGCCCAGGTGACCGAGCTGAAGCGGCAGATCGCCGAGCAAAAGGGCGAGAACGAGCGGTTGATCGAGCGTAACCGTATTCTCGAAGCGGAAGTGCTGGAGCTGAAGAAGGGCATGGAAACCGTGGAAGAACGTGCCCGCCACGAGCTGGGCATGGTCAAGGAAGGCGAAACCCTCTACCAGTTGGCCGAATGA	MVKGAALAAPFHMDRFVSMPKAPYWLFVVLVLVLAGLQYRLWVGDGSLAQVTELKRQIAEQKGENERLIERNRILEAEVLELKKGMETVEERARHELGMVKEGETLYQLAE				NA	NA	NA	NA	NA
BMS010_07461	708	ispD_2	COG1211	2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase	ATGAAGACACTTCCTTTCTGGGCTGTGGTCCCGGCCGCCGGGATCGGTAGCCGGATGCGTGCCGACCGTCCCAAGCAATACCTGCAACTGGCTGGCCGCACGATTCTCGAACACAGCCTGCATTGCCTGCTCGACCACCCCGGGCTCCAGGGGCTGGTGGTCAGCCTGGCGACGGACGATCCATATTGGCCCGACCTGGCCTGTTCGAAGGATTCGCGCATCCAACGCGCCGCCGGCGGCCGCGAGCGCGCCGATTCCGTACTCAATGCCTTGTCGCGCCTCGAAGCGTCGGGAGCTGCGGCGAACGATTGGGTGCTGGTGCATGACGCCGCCCGTCCCAACCTCGCGCGATCCGACCTCGACCGCCTGCTGAATGAACTGGCCGATGATCCGGTGGGCGGCCTGCTCGCTGTGCCCGCACGGGACACCCTCAAGCGGGTGGGGGCGGATGGCAGGGTGGTGGAAACCGTCGACCGCAGCCTGATCTGGCAAGCCTACACGCCGCAGATGTTTCGTCTCGGGCCGCTACGTGCGGCGCTCGCCGGTGCGCTCGCCGCCGGGGCGACGGTCACCGACGAGGCGTCCGCCATGGAATGGGCAGGCCAGTCACCGCGCCTGGTGGAAGGGCGCTCCGACAACCTCAAGGTCACCCGGCCCGAAGACCTGCAGTGGCTGGCTCAGCGCTGGCATGACCAGAGCCGGGACTGA	MKTLPFWAVVPAAGIGSRMRADRPKQYLQLAGRTILEHSLHCLLDHPGLQGLVVSLATDDPYWPDLACSKDSRIQRAAGGRERADSVLNALSRLEASGAAANDWVLVHDAARPNLARSDLDRLLNELADDPVGGLLAVPARDTLKRVGADGRVVETVDRSLIWQAYTPQMFRLGPLRAALAGALAAGATVTDEASAMEWAGQSPRLVEGRSDNLKVTRPEDLQWLAQRWHDQSRD	PGPT0007590_1550	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007590-ispD-K00991	NA	NA
BMS010_07462	1161			hypothetical protein	ATGAACGCTCCCATCAATCGCGATCTGCTTATCCAGCTGCTGGCCGATCACCAGGCTCCGTGCCTGTCGCTTTACCAACCGACCCACCGCGCCTTCCCGGATCGTCAACAGGACCCGATCCGCTTCCGCAATCTGGTCGAGGAACTGCAACGGTCCCTGGAGAAGACGCATTCCGAAGAGTCCATCGCCGCCCTGCTACGGCCGTTCCGTGAGCTGCAGGAGAACGAAGAGTTCTGGACCCACAACCTCGAAGGCCTGGCGGTGTTCGGCGGCCCCGACCTGTTCCGCGTGTTCCGCCTGCAACGCCGGGTGCCGGCGCTGGCCGTGGTCGCGCAGAGCTTCCACCTGAAGCCGCTGGTGCGCATCAACCAATCCGCCGAGCGCTATCAAGTGCTGTGCCTGGACCGCAACAAGGTCCGCCTGTTCGAGGGCAGCCGCGATGCGCTGGACGAAGTGGATCTGGCGGACGCCGTCCCACGCACGCTGGAAGACGCGCTGGGCACCGAGATGACCGACAAGAACCAGAGCGGCTTGACCGAAGGTTTCAGCGGCCCCGGAGAACGCGGTCGTGCCATGCGCCACGGCCCCAGTGGCAAGCAGGACGACATCGATATGGACCGCGACCGTTACTTTCTGGCCGTGGACAAGGCGATCACCGAATGCCACTCGCGACCATCCGGGCTGCCGCTGATATTGGCTGCGCTGCCGGAATACAAAGGCCACTTCCACCGGATCAGCCATAACCCGTACCTGCTGCCCCACGGCATCGACCTCAACCCCGGCGCTTTGAATGTCGACCAGTTGCGCGAGCAGAGCTGGAAGGTCATGCAGCCGCAATTCCAGAAGCGGCTGGAGGGCTTCATCGAGGAATACGGAGAGTCCGTCGGACACGGGCTGGGCTCCGACGACCCGGTGGAAATCGGCCATGCCACCATCGAGAACCGGGTGTCGATGCTGCTGGTGGAAGCCGACCGCCATCTGCCGGGCAGGCTCGACCCGGAAACCGGCGACAGCCAGCCGGCCAAGTCGGAAGACCCGAACGTGGACGATCTGCTCGATGATCTGATGGAGTGCACCCTGAAGCATGGCGGCGAGGTGCTGGTGGTTCCGCCCGAGCGCATGCCGAGCAAGACGGGCGTGGCGGCTATCTATCGCTTCTGA	MNAPINRDLLIQLLADHQAPCLSLYQPTHRAFPDRQQDPIRFRNLVEELQRSLEKTHSEESIAALLRPFRELQENEEFWTHNLEGLAVFGGPDLFRVFRLQRRVPALAVVAQSFHLKPLVRINQSAERYQVLCLDRNKVRLFEGSRDALDEVDLADAVPRTLEDALGTEMTDKNQSGLTEGFSGPGERGRAMRHGPSGKQDDIDMDRDRYFLAVDKAITECHSRPSGLPLILAALPEYKGHFHRISHNPYLLPHGIDLNPGALNVDQLREQSWKVMQPQFQKRLEGFIEEYGESVGHGLGSDDPVEIGHATIENRVSMLLVEADRHLPGRLDPETGDSQPAKSEDPNVDDLLDDLMECTLKHGGEVLVVPPERMPSKTGVAAIYRF				NA	NA	NA	NA	NA
BMS010_07463	315	hpf_3		Ribosome hibernation promoting factor	ATGCAAGTGCTGGTGAACAGCGATAACCATATCGATGGCTCCGCGGAATTCGCCGACAGGGTCCAGGCTCATCTGGCCAACAAGCTGAAGCGTTTCGACGACCACCTGACCCGCATCGAAGTGCACTTCAACGACGAGAACAGCCAGAAAGGCGGCGCGACCGACAAGCGTTGCCAGATCGAGGCACACATCAAGGGACGCGATACGGTTTCCGTCACCCACCATGCCGAATCCCTGAACCTCGCCCTCGACGGTGCCACCGAGAAGCTCGGCTCCGCCCTCGCCCGGGTAGTCGACAAATCCCGCAACCTCTGA	MQVLVNSDNHIDGSAEFADRVQAHLANKLKRFDDHLTRIEVHFNDENSQKGGATDKRCQIEAHIKGRDTVSVTHHAESLNLALDGATEKLGSALARVVDKSRNL				NA	NA	NA	NA	NA
BMS010_07464	894	dmlR_14		HTH-type transcriptional regulator DmlR	ATGAGCGGAAACCGCTGGGAAGGACTGGACGAGTTCGTCGCCGTGGCCGAGTGCGGCAGCTTTCTGCGCGCGGCCGAGCGGCTGCGGGTGTCCTCGTCCCATGTCAGCCGGCAGATCGCCCGCCTGGAAGAACGCCTGCAAGCGCGCCTCCTCTATCGCACCACACGCAAGGTCTCACTGACCGAAGCCGGCCACACCTTCTTCGCCCGTTGCCAGCGTCTGGTGGAGGAGCGCGACGAAGCCTTTCTCGCCATCAGCGATCTGCACAGCGCTCCCACCGGACTGTTGCGGATGACCGCGGCGGTGGCCTATGGCGAGCGCTTCATCGTGCCGCTGGTAAATGAGTTCATGGCCGCGCACCCGCAACTGCGGGTCGAAATCGAGTTGTCCAACCGCACCCTCGATCTCGTCCAGGAAGGCTACGACCTCGCCATTCGCCTGGGCCGGCTCAGCGATTCGCGCCTGGTGGCCACGCGCATCGCACCCCGGGCGATGTACCTGTGCGCGGCGCCCAGCTATCTCGAACGCTATGGCCGGCCGCACACGCTCTCGGAACTGGCCCGGCACAACTGCCTGATCGGCACCGGCGACACCTGGATGTTCCAGCAGGACGGCCGCGAGCATCCTTTCAAGCCCAGCGGCAACTGGCGCTGCAACAGCGGCGAAGCCGTGCTGGATGCGGCGCTGCGGGGGTTCGGCCTATGTCAGTTGCCGGACTATTACGTCCTCGAACCGTTGCGCCGGGGTGAGTTGGTCTCGCTGCTGGAGGCCAACCAACCGCCGAACACGGCGGTCTGGGCGGTCTACCCGCAGAAACGCTACCCGCTGCCCAAGGTCCGCCTGTTGATCGAGGCACTCAGACAGGGGCTGGCGCAGCGCCCGGAATACGCCTGA	MSGNRWEGLDEFVAVAECGSFLRAAERLRVSSSHVSRQIARLEERLQARLLYRTTRKVSLTEAGHTFFARCQRLVEERDEAFLAISDLHSAPTGLLRMTAAVAYGERFIVPLVNEFMAAHPQLRVEIELSNRTLDLVQEGYDLAIRLGRLSDSRLVATRIAPRAMYLCAAPSYLERYGRPHTLSELARHNCLIGTGDTWMFQQDGREHPFKPSGNWRCNSGEAVLDAALRGFGLCQLPDYYVLEPLRRGELVSLLEANQPPNTAVWAVYPQKRYPLPKVRLLIEALRQGLAQRPEYA				NA	NA	NA	NA	NA
BMS010_07465	1113	frmA	COG1062	S-(hydroxymethyl)glutathione dehydrogenase	ATGATCAAGTCGCGCGCCGCCGTCGCCTTCGAAGCCAACAAACCGCTGCAGATCGTCGAAGTGGATGTGGAACCGCCGAAGGCCGGCGAAGTGCTGGTGCGCATCGTCGCCACCGGCGTCTGCCACACCGACGCCTACACCCTGTCCGGCCAGGACAGCGAAGGCGTCTTCCCCTGCATCCTCGGCCATGAGGGCGGCGGTATCGTCGAAGCGGTGGGCGAGGGCGTGACGTCGCTGCAGGTCGGCGACCATGTGATTCCGCTGTATACGGCCGAATGCCGCCAGTGCAAGTTCTGCAAGTCCGGCAAGACCAACCTCTGCCAGGCGGTGCGCGCCACCCAGGGCAAGGGCCTGATGCCGGACGGCACCACCCGTTTCTCCTACCAAGGGCAGCCGATCTACCACTACATGGGCTGCTCGACTTTCTCCGAGTACACCGTGCTGCCGGAAATCTCCCTGGCCAAGATTCCGCAAGAGGCGCCGCTGGACAAGGTCTGCCTGCTGGGCTGCGGCGTGACCACCGGCATCGGCGCCGTGCTGAACACCGCCAAGGTGGAGGAGGGTGCGACCGTCGCCATCTTCGGCCTGGGCGGCATCGGCCTAGCGGCGATCATCGGCGCGAAGATGGCCAAGGCCAGCCGCATCATCGCCGTCGACATCAACCCGGCCAAGTTCGATGTTGCCCGCGAGCTGGGTGCCACCGACTTCGTCAACCCGAAGGATTACGACAAGCCGATCCAGGAAGTCATCGTCGACATGACCGACGGCGGCGTGGACTACAGCTTCGAGTGTGTCGGCAACGTGCAACTGATGCGTGCGGCGCTGGAGTGCTGCCACAAGGGCTGGGGCGAATCGACCATCATCGGCGTGGCTCCGGCCGGCGCCGAGATCAGCACTCGTCCGTTCCAACTGGTCACCGGGCGCGTCTGGCGCGGCTCGGCGTTCGGTGGGGTCAAGGGGCGCACGGAGCTGCCGGGTTATGTGGAAAAGGCCCAGGCAGGCGAAATCCCGCTGGACACCTTCATCACCCACAACCTGCCGCTGGATGAGATCAACGAGGCCTTCGATCTGATGCATGAAGGCAAGAGCATCCGTACCGTCATCCATTTCTAA	MIKSRAAVAFEANKPLQIVEVDVEPPKAGEVLVRIVATGVCHTDAYTLSGQDSEGVFPCILGHEGGGIVEAVGEGVTSLQVGDHVIPLYTAECRQCKFCKSGKTNLCQAVRATQGKGLMPDGTTRFSYQGQPIYHYMGCSTFSEYTVLPEISLAKIPQEAPLDKVCLLGCGVTTGIGAVLNTAKVEEGATVAIFGLGGIGLAAIIGAKMAKASRIIAVDINPAKFDVARELGATDFVNPKDYDKPIQEVIVDMTDGGVDYSFECVGNVQLMRAALECCHKGWGESTIIGVAPAGAEISTRPFQLVTGRVWRGSAFGGVKGRTELPGYVEKAQAGEIPLDTFITHNLPLDEINEAFDLMHEGKSIRTVIHF	PGPT0006355_2373	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006355-frmA|ADH5|adhC-K00121	NA	NA
BMS010_07466	846	yeiG	COG0627	S-formylglutathione hydrolase YeiG	ATGACTCTCGAGATCGTCTCCAGCAATAAAAGCTTCGGCGGATGGCACAAGCGCTACCGACATCGTTCCAGCGTGCTGGGCTGCGACATGGTGTTCGCCGTCTACCTGCCGCCGCAGGCCGAGCAGGGCGCCCGCCTGCCGGTGCTGTACTGGTTGTCGGGGCTGACCTGCACCGACGAGAACTTCATGCAGAAGGCCGGCGCCCAGCGGATGGCCGCCGAGCTGGGCCTGGTCATCGTCGCGCCGGATACCAGCCCGCGTGGGCCGGAAGTGCCGGGCGACCCGGACGGGGCCTGGGACTTCGGCCTGGGTGCGGGGTTCTACCTGAACGCTACCCAGGAGCCCTGGGCCCGGCACTACCGGATGCATGACTACGTGGTGGAAGAGTTGCCGGCACTGATCGAGGCCAACTTCCCGGTGTCCGATCGCCGTGGCATCAGTGGTCACTCCATGGGCGGACACGGCGCTCTGGTCTGTGCCTTGCGCAACCCGGGGCGCTATCGCTCGTTGTCGGCTTTCTCGCCGATCAGCAATCCGATCAACTGCCCCTGGGGCGAGAAGGCGTTCTCCCGTTATCTCGGCGAAGACCGCTCGCGCTGGCGCGAATGGGATGCCTGCGTCCTGCTCGCCGAGGCGAAGGAAAAGCTGCCGATCCTGGTGGACCAGGGGGATCGCGACGATTTCCTGGCCAACCAGCTCAAGCCGGAAGCCTTGCAGGCAGCCGCTGCGGCTGCCGGGCATCCGCTGACACTGCGCCTGCAGCCGGGCTATGACCACAGCTACTACTTCATCGCCAGTTTCATCGAAGACCACTTGCGGCATCATGCGAAAGAGCTGAAGCGATAA	MTLEIVSSNKSFGGWHKRYRHRSSVLGCDMVFAVYLPPQAEQGARLPVLYWLSGLTCTDENFMQKAGAQRMAAELGLVIVAPDTSPRGPEVPGDPDGAWDFGLGAGFYLNATQEPWARHYRMHDYVVEELPALIEANFPVSDRRGISGHSMGGHGALVCALRNPGRYRSLSAFSPISNPINCPWGEKAFSRYLGEDRSRWREWDACVLLAEAKEKLPILVDQGDRDDFLANQLKPEALQAAAAAAGHPLTLRLQPGYDHSYYFIASFIEDHLRHHAKELKR	PGPT0002120_1222	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-FORMIC_ACID_BIOSYNTHESIS,PGPT0002120-frmB|fghA-K01070	NA	NA
BMS010_07467	474	ispF	COG0245	2-C-methyl-D-erythritol 2,4-cyclodiphosphate synthase	ATGCGTATTGGCCATGGCTACGACGTACACCGTTTCGGCGAGGGAGACTTCGTCACCCTCGGCGGTGTGCGCATTCCCCACCGATTCGGGCTGATCGCCCATTCCGACGGCGACGTGCTGCTGCATGCGCTGAGCGATGCGTTGCTCGGTGCCGCGGCGCTGGGCGATATCGGCAAGCACTTCCCGGATACCGATCCCCGTTTCAAGGGGGCGGACAGCCGCGTCTTGCTGCGTCATGTGCTCGGGCTGGTCCAGGCCAAGGGCTGGAGGGTCGGCAACGTCGACGCCACCATCGTGGCCCAGGCACCGAAGATGGCGCCGCACATCGACAACATGCGGGCCCTGATCGCCGAGGACCTGCAGGTCGACCTCGACCAGGTCAATGTCAAGGCCACCACCACCGAGAAGCTGGGCTTCACCGGTCGCGAAGAGGGCATCGCCGTGCATGCGGTGGCGCTGTTGTTGCCGCTATGA	MRIGHGYDVHRFGEGDFVTLGGVRIPHRFGLIAHSDGDVLLHALSDALLGAAALGDIGKHFPDTDPRFKGADSRVLLRHVLGLVQAKGWRVGNVDATIVAQAPKMAPHIDNMRALIAEDLQVDLDQVNVKATTTEKLGFTGREEGIAVHAVALLLPL	PGPT0007595_2721	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007595-ispF-K01770	NA	NA
BMS010_07468	1059	truD	COG0585	tRNA pseudouridine synthase D	ATGAACGAATACGAACTGCTGGGCCCGCGTGCCCATGGCGAGCCCTGCGGGCAGGCGGTACTGAAGGCGGTGGCGGAAGATTTCCAGGTCGATGAAGTCCTGGATATCCCGCTGTCGGGCCAGGGCGAGCACCTTTGGCTGTGGGTGGAAAAGCGCGGCCTGAACACCGAGGACGCGGCGAAACGGCTGGCGCGTGCCGCGGCCGTGCCGCTGCGCACCATCAGCTATGCCGGCCTCAAGGACCGTCAGGCACTGACCCGCCAATGGTTCAGCCTGCACCTGCCAGGCAAGGCCGATCCGGATCTTTCCGCCGCCGAAAGCGATAGCCTGCGGATTCTCCAGGCCACCCGGCATTCGCGAAAACTGCAGCGCGGCGCTCACTCGGCCAACGGATTCACGCTGCGGCTGACCCAACTGGCAGCCGATCGTGAAGCTCTGGATGGTCGGCTGGAAAGCATCCGGCAACACGGCGTACCGAACTATTTCGGCCTTCAGCGCTTCGGCCATGACGGCGGCAACGTCGACGGCGCCCTGCAATTTGCCGAGCGTGGCGAGTTGCCGACTCAGCGTAACCTGCGCTCACGGCTGCTGTCGGCAGCGCGCAGCTACCTGTTCAATCGGGTATTGGCCGAGCGTGTCGCCGATGGCAGTTGGAATCGGGCGCAGGTCGGCGATCTGCTGGCATTCACCGACAGCCGCAGTTTCTTTCCGGCCGGCGAGGCCGAGTGCAGCGATCCACGACTGGCGCAGCTCGATCTGCACCCGACCGGGCCGCTCTGGGGCAAGGGGGAATCGCCCGCCGGGGGCGTCGTCCAGGCCCTCGAACAGCGCGTCGCGGCAGGGCAGGAAAAGTTGGCCGACTGGTTAGCCGGAGCGGACATGGCGCACGAACGGCGCATCCTGCGCCTCCCCATCGGCGCCCTGGCGTGGCATTATCCCCGGCCTGACATTCTGCAACTGGAATTCGTCCTGCCGGCTGGATGCTTCGCCACTGCCGTGGTGCGCGAGCTTGTCGATCTGCTGCCGGCGGGGCAGACGGACAACCCATGCGTATTCTGA	MNEYELLGPRAHGEPCGQAVLKAVAEDFQVDEVLDIPLSGQGEHLWLWVEKRGLNTEDAAKRLARAAAVPLRTISYAGLKDRQALTRQWFSLHLPGKADPDLSAAESDSLRILQATRHSRKLQRGAHSANGFTLRLTQLAADREALDGRLESIRQHGVPNYFGLQRFGHDGGNVDGALQFAERGELPTQRNLRSRLLSAARSYLFNRVLAERVADGSWNRAQVGDLLAFTDSRSFFPAGEAECSDPRLAQLDLHPTGPLWGKGESPAGGVVQALEQRVAAGQEKLADWLAGADMAHERRILRLPIGALAWHYPRPDILQLEFVLPAGCFATAVVRELVDLLPAGQTDNPCVF				NA	NA	NA	NA	NA
BMS010_07469	750	surE_1	COG0496	5'-nucleotidase SurE	ATGCGTATTCTGATCGCCAACGACGACGGGGTGTATGCGCCCGGCCTCGCCGCGCTGTATGACGCATTGGCGGATTACGCCGAATGCGTGGTGGTCGCTCCCATTCAGGACATGAGCGGCGCCAGCAGTTCGCTGACCCTGGATCGGCCGCTGCATCCCCAATACCTGCCGAACGGTTTCATCGGCATCAATGGCACGCCGACCGACTGTGTGCACCTGGGCCTCAACGGCCTGCTCGAACAGACGCCGGATATGGTCGTCTCGGGCATCAACCTCGGCGCCAACCTGGGCGACGACGTGCTCTATTCGGGTACGGTCGCCGCGGCCATCGAAGGCCGTTTCACCGGCCGCGCGGCGTTCGCCTTCTCGTTGCTGTCGCGCCTGCCGGACAACCTGCCCACCGCCTCGCACATCGCCCGGACCCTGGTCGAGAACCACGAAAAGCTCGACCTGCCGCCGCGTACCGTGCTCAGCGTGAACATTCCCAACCTGCCGCTGGACCATGTCCGCGGTATCCAACTGACCCGCCTGGGACACCGGGCGCGTGCCAAGGCACCGAGCAAGGTGGTCAACCCGCGCGGCAAGGAAGGCTATTGGATTTCCGTCGCCGGGGATGCCGAGGACGCCGGGCCGGGCACCGATTTTCACGCGGTCATGCAGGGCTATGTGTCGATCACGCCCCTGCAGCTCGACCGGACATTCCACGAGGCCTTCAACGGCCTCGACAGTTGGCTGGAGGACTTGCTGTGA	MRILIANDDGVYAPGLAALYDALADYAECVVVAPIQDMSGASSSLTLDRPLHPQYLPNGFIGINGTPTDCVHLGLNGLLEQTPDMVVSGINLGANLGDDVLYSGTVAAAIEGRFTGRAAFAFSLLSRLPDNLPTASHIARTLVENHEKLDLPPRTVLSVNIPNLPLDHVRGIQLTRLGHRARAKAPSKVVNPRGKEGYWISVAGDAEDAGPGTDFHAVMQGYVSITPLQLDRTFHEAFNGLDSWLEDLL	PGPT0013405_3411	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013405-surE-K03787	NA	NA
BMS010_07470	678	pcm_1	COG2518	Protein-L-isoaspartate O-methyltransferase	ATGAGCCGCGAGCAAGACGATCTGCTGCGCCGCGGTATCGGCATGACGTCGCAGCGCACCCGTGAACGCTTGATTCAGCGCCTGTACGAAGAAGGACTGTCGAACGCCCGGGTGCTCGAAGTGATCCGGCGTACCCCGCGGCATCTCTTCGTCGACGAAGCCCTGGCCCATCGCGCCTACGAAGACACCGCCCTGCCCATCGGGCATAACCAGACCATTTCCCAGCCCTACATGGTGGCGCGCATGAGTGAGTTGTTGCTCGCTGCGGGCCCGCTGGACAAGGTGCTGGAGATCGGCACCGGCTCCGGCTACCAGACGGCCGTGCTGGCGCAACTGGTCGAGCGGGTCTTCTCGGTCGAGCGCATCCAGGCGTTGCAGGACCGCGCGAAGGAGCGCCTGAGCGAACTCAATCTGCGCAATGTGGTCTTTCGTTGGGGCGATGGATGGGAGGGCTGGTCGGCTCTCGCGCCGTACAACGGCATCATCGTGACCGCCGCCGCCGCCGAGGTTCCGCAGGCGTTGCTCGACCAACTGGCCCCGGGTGGCCGGCTGGTGATTCCGGTGGGGGCCGGCGACGTCCAGCAACTGATGCTGATCGTTCGGGAAGAGAACGGTTTCTCTCGCCACATGCTCGATGCCGTGCGTTTCGTGCCGCTGCTCAACGGCCCTCTGGGCTGA	MSREQDDLLRRGIGMTSQRTRERLIQRLYEEGLSNARVLEVIRRTPRHLFVDEALAHRAYEDTALPIGHNQTISQPYMVARMSELLLAAGPLDKVLEIGTGSGYQTAVLAQLVERVFSVERIQALQDRAKERLSELNLRNVVFRWGDGWEGWSALAPYNGIIVTAAAAEVPQALLDQLAPGGRLVIPVGAGDVQQLMLIVREENGFSRHMLDAVRFVPLLNGPLG				NA	NA	NA	NA	NA
BMS010_07471	939			hypothetical protein	GTGAAGAAGTACTTTCTGCTTTATGCCAAAGGCATCGCCATGGGCGCGGCCGATGTAGTGCCGGGCGTCTCCGGCGGAACCGTGGCCTTCATCACGGGCATCTACGACGAGCTGCTGGGTTCCATCGCCAGAGTGCCGAATGCCCTGGCGCATCTCGTGCGAGGCCGTGTCGCCGCCGCTTGGCAGGAGGCCAACCTGACCTTCCTGCTGGTCCTGTTCAGCGGCATTCTCACCAGCATCTTCAGTCTGGCGCGGGTGATCACTTATCTCCTGGAAACGCATCCGATCCCGGTCTGGGCGTTCTTCTTCGGGCTGATCCTGGTCTCCAGCCATCTGGTGGCGCGGGAAATCCAGCGTTGGAATTGGAGCCGCGTACTCAGCTTCGTGCTCGGCGGTGCCTTCGCCTACTGGATCACCGTTGCGGCACCGATGCAGTGGGGCAACGACCCCCTGAGCCTGTTCTTCGCCGGGGCGGTGGCCATCTGTGCGATGATCCTGCCCGGTATTTCCGGCAGCTTCATTCTGCTGCTGATCGGCCTCTACCAAGTCGTCCTGGGCGCGGTGAAGGCGCTCGATCTGTCCGTGCTGGCCTTGTTCGCAGGCGGTTGTGTGGTCGGCCTGCTGAGTTTCTCGCGCCTGCTCAACTGGCTGCTGGCGCGCTATCGTGATCTGACACTGGCGTTCCTGACGGGATTGATGCTGGGTTCTCTGAACAAGGTGTGGCCTTGGAAAAAGACCCTGGTCTGGCAGACCGACAGCCACGGCCAGCCAGTGCCGGTGGTTCAGGAGAACCTCTTGCCCGGACATTTCGCCCAGATCAGCGGGCAGGACCCGCAACTGCTCTTCGCGATCCTGCTGGCCGTGGCCGGCATCGTATTGGTGCTGGGCCTGGAGTGGTTCGCCGGGCGTCGTCAGCCGCTGGCAGGCTCGACCGAATGA	MKKYFLLYAKGIAMGAADVVPGVSGGTVAFITGIYDELLGSIARVPNALAHLVRGRVAAAWQEANLTFLLVLFSGILTSIFSLARVITYLLETHPIPVWAFFFGLILVSSHLVAREIQRWNWSRVLSFVLGGAFAYWITVAAPMQWGNDPLSLFFAGAVAICAMILPGISGSFILLLIGLYQVVLGAVKALDLSVLALFAGGCVVGLLSFSRLLNWLLARYRDLTLAFLTGLMLGSLNKVWPWKKTLVWQTDSHGQPVPVVQENLLPGHFAQISGQDPQLLFAILLAVAGIVLVLGLEWFAGRRQPLAGSTE				NA	NA	NA	NA	NA
BMS010_07472	858	nlpD		Murein hydrolase activator NlpD	GTGACAGTCACAGGAACCCTGCAGCGCGTACGTAGCCGGCAAGGGCATCTGCTGCTCGGCCTCATCGTGTCCTTGGTGGCCGGCTGCGCCAGTACGCCGCCGAGCGGCGTTCAGGTGGTCGATCGCAACGGGCAGCAGGCGAGCCAGCGCCAACCGGTGACCAGCGGCCACTACGTGGTGCGGCGTGGCGATTCCCTGTACTCCATTGCGTTCCGTTTCGGCTGGGACTGGAAAGCCCTGGCCGCGCATAACGGCATCAACCCTCCCTATGTGATCTACCCCGGTCAGAAGATCAACTTCGGCGGACGGCCTGCGTCTGCACCTCCGGTCGTTGCGACTCAACCGGCGAAAACGCCGCCACCAACCGCGACCAAACCTCCGGCCGGTACGCCACTGGCCACTCCGCCGACAGCCAAGCCACCGCAGGCTTCGCCACCTGTTGCGCAGACCCCGGCGACCACGCCCGTCGAACCCGTGACCCGTTCTGCGACGGGCTGGGCGTGGCCTGCCAACGGTCCCTTGATCGGTCGTTTTTCCTCAAACGGTAGTTTGAATAAAGGAATTGATATCGGGGGTGAATTAGGCCAGCCTGTTTTGGCTGCGTCTGCTGGTTCAGTGGTGTACGCCGGGAGTGGTTTACGGGGCTACGGCGAGTTGGTAATCATCAAGCACAGCGATACCTACGTAAGCGCCTACGGTCACAACCGCAGGCTGTTGGTACGGGAGGGACAGCAGGTCAAGGCCGGTCAGATCATTGCCGAAATGGGTTCCACGGGAACCGACCGGGTGAAGCTCCACTTCGAGATTCGCCGCCAGGGCAAACCTGTAGACCCTCTGCAATATCTGCCTCGTCGCTGA	MTVTGTLQRVRSRQGHLLLGLIVSLVAGCASTPPSGVQVVDRNGQQASQRQPVTSGHYVVRRGDSLYSIAFRFGWDWKALAAHNGINPPYVIYPGQKINFGGRPASAPPVVATQPAKTPPPTATKPPAGTPLATPPTAKPPQASPPVAQTPATTPVEPVTRSATGWAWPANGPLIGRFSSNGSLNKGIDIGGELGQPVLAASAGSVVYAGSGLRGYGELVIIKHSDTYVSAYGHNRRLLVREGQQVKAGQIIAEMGSTGTDRVKLHFEIRRQGKPVDPLQYLPRR	PGPT0023860_1279	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0023860-nlpD-K06194	NA	NA
BMS010_07473	1005	rpoS		RNA polymerase sigma factor RpoS	ATGGCACTCGACAAAGAAGCGCCGGAGTTTGACGTCGATGACGAAGTGCTCCTCATGGAGCCAGGCATCGCTCTGGAGGATGTATTGAGCGAGGAGACCGAGTTTGCCTCCCTCGCCACCAAATCCAAACATTCGACCGCTCTGAAGCAGCATAAATACATCGATTACACGCGGGCGCTCGACGCGACTCAGCTGTATCTCAACGAAATCGGCTTTTCCCCCCTGCTTACTCCCCAGGAAGAAGTGCACTTCGCGCGTCTCGCGCAGAAGGGCGATCCGGCCGGGCGCAAGCGCATGATTGAGAGCAACCTGCGGCTGGTGGTGAAAATCGCCCGGCGCTACGTCAATCGTGGATTGTCGCTGCTCGATCTGATCGAAGAGGGTAATCTCGGCCTCATTCGCGCGGTGGAAAAGTTCGACCCGGAGCGCGGTTTCCGTTTCTCCACCTACGCCACTTGGTGGATTCGCCAGACCATCGAGCGGGCGATCATGAATCAGACCCGGACCATCCGGCTACCGATCCATGTGGTCAAGGAGCTGAACGTCTACCTGCGCGCGGCACGCGAGCTGACTCACAAGCTCGATCACGAGCCGTCCGCCGAAGAAATCGCCAACCTGTTGGAGAAGCCCGTCGACGAGGTCAAGCGGATGCTTGGACTCAACGAGCGGGTGACCTCGGTGGACGTCTCCCTCGGGCCGGACTCGGACAAGACCCTGCTCGATACCCTCACCGACGAGCGCCCCACCGATCCGTGCGAACTGCTGCAGGACGACGACCTGTCGCAGAGCATCGATCAATGGCTGTCGGAACTGACCGACAAGCAGCGCGAGGTGGTGGTGCGACGCTTCGGCCTGCGCGGTCACGAGAGCTGCACGCTGGAGGAAGTCGGCCAGGAAATCGGCCTGACCCGCGAACGGGTTCGGCAGATCCAGGTCGAGGCACTCAAGCGCCTCAGGGAAATTCTCGAGAAGAACGGCTTGTCCAGCGACGCACTGTTCCAGTAG	MALDKEAPEFDVDDEVLLMEPGIALEDVLSEETEFASLATKSKHSTALKQHKYIDYTRALDATQLYLNEIGFSPLLTPQEEVHFARLAQKGDPAGRKRMIESNLRLVVKIARRYVNRGLSLLDLIEEGNLGLIRAVEKFDPERGFRFSTYATWWIRQTIERAIMNQTRTIRLPIHVVKELNVYLRAARELTHKLDHEPSAEEIANLLEKPVDEVKRMLGLNERVTSVDVSLGPDSDKTLLDTLTDERPTDPCELLQDDDLSQSIDQWLSELTDKQREVVVRRFGLRGHESCTLEEVGQEIGLTRERVRQIQVEALKRLREILEKNGLSSDALFQ	PGPT0014685_477	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-OXYGEN_AVAILABILITY_SIGNALLING,PGPT0014685-rpoS-K03087	NA	NA
BMS010_07475	612	pigA	COG3230	Heme oxygenase PigA	ATGACCATTGGGGAGCCGTCAGCGCCTGTAGCAGACATCGAGCAGAGCCGCGTCAAGCGCCTGAAAGCTGCGACGCGCGGCGCGCATGGCGATCTCGATGCCTTCATCATGGCATCGAAGCCGTTCGAGAGCCGGGAGAACTTCGGCAAATTCGTGGAAACGCAATATCTTTTCCATCGTGACCTCGATGTCTTCTTTTCCAATGCGACGCTCGATGGCCTGCTTCCCGATCTCAAGGGCCGCCGCCGTCTCTCCATGATCGAGCAGGACCTTGCCGATCTCGGTCTTGCCATTCCCGAAACCGCCGAGCCGCGCTTCACCGGTGAAACGCCGTTCGATCTGCCGGAGGCCATGGGTTGGCTTTATGTGGTTGAAGGCTCCAATCTGGGCGCTGCTTTCCTGCTGAAGGATGCGGCCAAGCTTGGTCTGAATGAAGACTTCGGCGCGCGCCATCTGGCCGGCGCCCCGGAAGGACGCGGCCTGCACTGGCGCACTTTCACCGCCGCTCTCGATGAGATTTCGCTGACGGTCGAAGAGGAAGAGCGGGTCATCGCCGGTGCGGAAGCCGCTTTCCGGGCCGTGCATGCCTATGCGCGGCAACGCCTCGCCTGA	MTIGEPSAPVADIEQSRVKRLKAATRGAHGDLDAFIMASKPFESRENFGKFVETQYLFHRDLDVFFSNATLDGLLPDLKGRRRLSMIEQDLADLGLAIPETAEPRFTGETPFDLPEAMGWLYVVEGSNLGAAFLLKDAAKLGLNEDFGARHLAGAPEGRGLHWRTFTAALDEISLTVEEEERVIAGAEAAFRAVHAYARQRLA	PGPT0003620_68	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-HEMOPHORES-HEME|HEMIN_UTILISATION,PGPT0003620-hemO|pigA-K07215	NA	NA
BMS010_07476	885	dapA_10		4-hydroxy-tetrahydrodipicolinate synthase	TTGACCCAGAAATTTGGCCTTTCGGCAGCCCTGACCACTCCTTTCAAAAAGGACGGAACGGTCGATATCGACGCCATGATCGCCCATGCCCGACGCTGCCTTGAAAATGGCTGCGACAGCGTGACACTCTTCGGCACCACGGGCGAAGGATGCTCCGTCGGCAGCCGTGAACGGCAGGTCATTCTCTCCCGCTTCATCGAGGCGGGCGTTGCGCCTTCCCGTCTGGTCACCGGCGTTCTGGTGGATTCCATCGAGGACGCCGGCGACCAGTCGGCCGAGGCCCTGAAGGCCGGCGCCCGCAATATTCTTCTCGCCCCGCCCTCCTATTTCAAGAATGTCGGCGATGACGGCCTGTTTGCCTGGTTCTCGGCGGTGTTCGAAAAGATCGGCAAGGGCGCTCGCGACATTCTCGTCTACAACATCCCTTCCGTGACCATGGTGACGTTGTCGGTCGAGCTGGTTGGACGGCTGAAAAAGGCATTCCCCGGCATCGTCACCGGCGTCAAGGATTCCTCCGGCAACTGGAGCCATACCGAGCGTCTGCTGAAAGAACATGGCGATCTCGCCATCCTGATAGGCGATGAGCGCGATCTGGCGAAGGGTGTTCGCCTCGGCGGTCAGGGCGCGATCTCCGGCGTCGCCAATTTCCTGACACAGGAAGTCCGTGCGATGGCCGTTGACGGCAAGGACGACAAGCGCGTCGAAGATCTTGTTGTGGAACTTCTGAAATTCCCGGTTACACCAGCGGTCAAGGTGCTGGTATCACACACGACAGGAGAAAATATCTGGTCGGACGTGCGCGCACCGCTCGTCGCCATTTCACCGGAGGACCGGCGGCAGATCGAAGGCGCGTTCGATTCGCTGTTTCGCAGGCAGGCCGCCTGA	MTQKFGLSAALTTPFKKDGTVDIDAMIAHARRCLENGCDSVTLFGTTGEGCSVGSRERQVILSRFIEAGVAPSRLVTGVLVDSIEDAGDQSAEALKAGARNILLAPPSYFKNVGDDGLFAWFSAVFEKIGKGARDILVYNIPSVTMVTLSVELVGRLKKAFPGIVTGVKDSSGNWSHTERLLKEHGDLAILIGDERDLAKGVRLGGQGAISGVANFLTQEVRAMAVDGKDDKRVEDLVVELLKFPVTPAVKVLVSHTTGENIWSDVRAPLVAISPEDRRQIEGAFDSLFRRQAA	PGPT0002080_6524	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
BMS010_07477	657			hypothetical protein	ATGGAAGATACCGGCGAACAGACATTGCGGGAACGGGCGTATGAAAGCTTTACGCATCACCTTCTCTCGCGCGACGTTCGCCCGGGGCAGTTCATCTCGCAACGCCGCCTCGTGGAGTTGACGGGTCTGCCGCTGGGGGCGATCCGGGAGGCCATTCCGCGGCTGGAGGCGGAAGGCCTTATCAAGACCGTGCCGCAGCGGGGGTTGCAGGTCGCCCATATCGACCTCAATCTCATCCGCGAGGCGTTCCAGTTCCGCATCTTTCTCGAAAAGGAGGCTGTCGCGCTTTTTACCCGCTCGGCCTCCGACGAGGCAATCGCAAAGCTTTTAAAACAGCATCGCGACATTGCCGAAGCGGCCGAAAATGGCGGGGAATCCCCGGAACTGGACGAGCATGCGCAGCAGGTGGACTGGGGCATGCACGATGCCTTCATCGATGCGCTCGGCAATTCGATCATCTCGAACGCCTACCGGGTCAATTCCATCAAGATGCGCCTTATCAATCAGGAGCGCTTCCGCATCGCCGGCCACGTAAAGTCGGTGATGAAGGAACATCTCGCCATTCTCGAGGCCATCGAGAGGCGATCCGTCGAAGACGCCGTGGAGCGGCTGACCGCCCATATCCGCAACGCAAGGGACAGGGCGCTGGCGGTTTAA	MEDTGEQTLRERAYESFTHHLLSRDVRPGQFISQRRLVELTGLPLGAIREAIPRLEAEGLIKTVPQRGLQVAHIDLNLIREAFQFRIFLEKEAVALFTRSASDEAIAKLLKQHRDIAEAAENGGESPELDEHAQQVDWGMHDAFIDALGNSIISNAYRVNSIKMRLINQERFRIAGHVKSVMKEHLAILEAIERRSVEDAVERLTAHIRNARDRALAV				NA	NA	NA	NA	NA
BMS010_07478	1332	eltP		Erythritol/L-threitol-binding protein	ATGACGCATTCATTGCTCAACCCCACGCGTCGCGCCTTTCTGGCAGGCACGGCGGCGCTTGGCGGCGGCGCGATGCTCGGCATTCGCCCGGCATCGGCAGCGGTGAACTGGAAAAAACACGCCGGCACCACGCTTGAGGTCAATCTCGTCAAAAGCCCACGCAGCGAAACGCTGATCAAATATCTCGGCGAATTTGAAGAACTGACCGGCATCAAGGTCAATGCCGAAGCCACCCCGGAACAGCAGCAGCGCCAGAAGGTCGTGATCGAGCTTTCCTCCGGCAAGCCGAGCTTCGATGTGGTGCATCTGAGCTACCACGTTCAGAAGCGCCAATTCGAAAAGGGCAAATGGCTTGCCGATATCAGCGGCTTCCTGAAGGACCCGTCGCTGACCGATCCTTCGCTTGCGGAGAAGGATTTTGCCGAGGCAGGTATGCTGTTTGCCAAGGATAGCGATGGCGTGCTGCGCTCGCTGCCCTTCTCGGTGGATTACTGGATCGTCTACTGGAACAAGGAGCTCTTCGAAGCCAAGGGCCTGAAATACCCTGAGACCTTCGAGGAACTGGTGACGGCGGCGGAAAAGATCACCGATCCCGCAACCAACACCTATGGTTTCGTTGCCCGTGGCCTGAAGAACGCCAATACCCCCGTCTGGACCTCGCTGATGCTGGGTTACGGCGCAAAGCCCATCGGCGCGGATGGAAAGGTCAACACCGAGTCCAAGGAGGCGGTTGAAGCGGCCAAGCTCTATCAGCGCCTGATGACCAAAGCCGCTCCTCCCGGCGTCTCCGGCTTCAACTGGGCGGAAGCGCAGTCGGCCTTCCTGCAGGGCAAAATCGGCATGTGGTTCGATGGCGTCGGCTTCGCACCGCCAATCGAGAACCCGGAAAAATCCCGCGTCGTCGGCAAGGTCGGTTACGGCGTCATGCCGAAGGGCCCGGCAACCCAGGCCGCCGGCACCTTCGGCGATGGTCTTGGTGTTGTCGAAGCCAGCAGCAAGAAGGAAGCCGCCTATCTCTTCTGCCAATGGGCGATCTCGCATGAAATGGGTGCGCGTCTCCTGCAGGCCGGTGCCGGCGTTCCCTTCCGCCAGTCCATCCTCGAAGACCAGAAGGTGCGCGAAGGCGTAAAAATGCCGGCCGCCTGGCTGGATGCCGTTGTCGGTTCCGGCAAGGTCTCGCAGCTTGCGCTGCCCGTCATCATTCCGGTGACGGAATTCCGCGACATCTACGGCGTCGGCCTCACCAATATGATCGGCGGCGCGGACCCGGCAGCCGAACTCAAGAAGGCGACGGAACAGTTCGCACCCGTTCTGGCGCGTAGCGAGGGATAA	MTHSLLNPTRRAFLAGTAALGGGAMLGIRPASAAVNWKKHAGTTLEVNLVKSPRSETLIKYLGEFEELTGIKVNAEATPEQQQRQKVVIELSSGKPSFDVVHLSYHVQKRQFEKGKWLADISGFLKDPSLTDPSLAEKDFAEAGMLFAKDSDGVLRSLPFSVDYWIVYWNKELFEAKGLKYPETFEELVTAAEKITDPATNTYGFVARGLKNANTPVWTSLMLGYGAKPIGADGKVNTESKEAVEAAKLYQRLMTKAAPPGVSGFNWAEAQSAFLQGKIGMWFDGVGFAPPIENPEKSRVVGKVGYGVMPKGPATQAAGTFGDGLGVVEASSKKEAAYLFCQWAISHEMGARLLQAGAGVPFRQSILEDQKVREGVKMPAAWLDAVVGSGKVSQLALPVIIPVTEFRDIYGVGLTNMIGGADPAAELKKATEQFAPVLARSEG	PGPT0016545_4088	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
BMS010_07479	939			hypothetical protein	ATGGCCTCCGTGAGCATCGAAAACACCAAAACAGGCGTCAGTCGTAAAGAAGGGAGCAGGCCGGCAAGGCTTGCTCCCAACTACTGGCCCTTCGTCATACCGGCACTTGTCGTCATTTCGGCGGTAATCGTTTTTCCATGGGTCTTTACCCTCTGGATGAGCGCGCATCGCTGGACGCTCGGACAGGAGCAGAGCTTTATCGGTTTCGAGAACTACATCCGGCTCGCCAGCGACGCCCGGTTCTGGGAATCGCTCTGGCACACGCTCATCTATACCGTGCTGTCGGTCGTCGCCCCACTGTTCCTCGGAACATTGGCGGCGCTGGTTTTCGATGCGCAATTTCCGCTGCGCGGTTTCCTGCGCGGCGTCTTCGTCATGCCGATGATGGCGACCCCGGTCGCCATCGCGCTCGTCTGGACCATGATGTTCCACCCGCAGCTCGGTGTCCTGAACTATCTGCTCTCCTTCATCGGCATCGGCCCGCTGGAATGGATCTACAACCAGTCCACCGTCATCCCCTCTCTGGTGCTGGTGGAAACCTGGCAATGGACCCCGCTCGTCATGCTGATCGTGCTCGGCGGACTGGCCGCCGTGCCGCGCGAACCCTATGAGAGCGCCGAAATCGACGGCGCCAATGCCTGGCAGAAGTTCCGTTATCTCACCATGCCGATGATTGCGCCGTTCCTGATGATCGCCGTCATCATCCGCTCCATCGACGCCGTCAAAAGCTTCGACATCATCTATGCGATGACCCAGGGCGGACCCGGCACCGCGTCCGAAACCATCAACATCTATCTCTATAATACGGCGTTCGCCTATTACGACATCGGTTACGGCTCGGCCATGGCCGTCGTCTTCTTCATCATCATCGTGGCGCTCTCCTTCGTGCTTCTGATGGTGCGCCAGCGCTCGCAATGGAACGAGATGGAGGATCGCTGA	MASVSIENTKTGVSRKEGSRPARLAPNYWPFVIPALVVISAVIVFPWVFTLWMSAHRWTLGQEQSFIGFENYIRLASDARFWESLWHTLIYTVLSVVAPLFLGTLAALVFDAQFPLRGFLRGVFVMPMMATPVAIALVWTMMFHPQLGVLNYLLSFIGIGPLEWIYNQSTVIPSLVLVETWQWTPLVMLIVLGGLAAVPREPYESAEIDGANAWQKFRYLTMPMIAPFLMIAVIIRSIDAVKSFDIIYAMTQGGPGTASETINIYLYNTAFAYYDIGYGSAMAVVFFIIIVALSFVLLMVRQRSQWNEMEDR	PGPT0016535_3698	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
BMS010_07480	837	sugB_4	COG0395	Trehalose transport system permease protein SugB	ATGTCTGCAAAAATCCTGAAACGCAAGACGCTTGATCGCATCGGCCTGTTCTTCGTGGCGCTGGTGATGATCTCACCGGTCATCCTGTTCTTCATCTGGATGATCTCGCTGTCGCTGAAATATGAAATCGACAACGGCGCCTATCCACCGATCCTCATTCCCGAACGTTTCGCCTGGTCGAACTATGTGAAGGTGTTCGAGGAAAACAACTTCTTCCTCTATTTCTGGAACTCGGTCCTCGTCACCGGTGCGGCCACTATTCTCGCGCTCGTCATCGGCGTGCCCGCCGGTTATGGCATCGCCCGGCTGAAGGCGGAAAAGTCGGCGGTCGTCATCATGATCGCCCGCATGACGCCCGGCCTCTCCTTCCTCATTCCGCTGTTCCTGCTGTTCCAATGGCTGAACCTGCTCGGCACGCTCTGGCCGCAGATCATCATCCATCTTGTCGTGACGGTGCCGATCGTCGTCTGGATCATGATCGGTTATTTCGAGACCACGCCTAAAGAGCTGGAAGAAGCGGCAAGCATCGATGGCGCATCCTCCTGGCAGGTGTTTCGCCTCGTGGCGCTGCCGATCGCCAAGCCCGGCATCGTCGTCTCCTTCATTCTGGCGGTCATCTTCTCGTGGAACAACTTCGTCTTCGGCATCGTGCTGGCCAGCCGTGAAACCCGCACCCTGCCGGTCGCGGTCTACAACATGCTGTCCTTCGAACAGGTGAGCTGGGGTCCGCTGGCCGCTGCCGCCTTGATTGTGACGCTGCCGGTGCTGCTGCTGACCATGTTCGCACAGAAACAGATCGTGGCGGGTCTCACCGCCGGCGCCGTTAAGGGCGGCTGA	MSAKILKRKTLDRIGLFFVALVMISPVILFFIWMISLSLKYEIDNGAYPPILIPERFAWSNYVKVFEENNFFLYFWNSVLVTGAATILALVIGVPAGYGIARLKAEKSAVVIMIARMTPGLSFLIPLFLLFQWLNLLGTLWPQIIIHLVVTVPIVVWIMIGYFETTPKELEEAASIDGASSWQVFRLVALPIAKPGIVVSFILAVIFSWNNFVFGIVLASRETRTLPVAVYNMLSFEQVSWGPLAAAALIVTLPVLLLTMFAQKQIVAGLTAGAVKGG	PGPT0016540_6669	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
BMS010_07481	1059	msiK_2	COG3839	Diacetylchitobiose uptake system ATP-binding protein MsiK	ATGGCACCGGTCAATATTCAGAACGTCCAGAAGCGCTTCGGCGCGGTCAACATCATCCACGGCATCGATATCGATATCAAGGATGGCGAATTCGTCGTGCTAGTCGGCCCTTCCGGCTGCGGCAAATCCACCCTGCTGCGCATGATCGCCGGGCTGGAAGAGCTGAGCGACGGCGAAATCCACATCGGCGCACGCGAAGTGAGCCACCTGCCCGCCCGTGACCGCGATATCGCCATGGTCTTCCAGAACTACGCGCTTTATCCGCACATGACGGTCAAGGACAATATGGGCTTCGCGCTGAAGCTGAAGAAGGTGAGCGCCGAGGAAACCAAGGCGAAGGTGGACAGGGCCGCCGCCATTCTGGGGCTGGAAAAGCTGCTGGACCGTTATCCGCGCCAGCTTTCCGGCGGCCAGCGCCAGCGTGTCGCCATGGGCCGCGCCCTGGTGCGCGATCCGCAGGTCTTCCTGTTCGATGAGCCGCTTTCCAACCTCGACGCCAAGCTGCGCGTGCAGATGCGCGGCGAGATCAAGGCCATGCACCAGCGCATCGGCACCACCACCATCTACGTTACCCACGACCAGGTGGAAGCCATGACCATGGCCGACAAGATCGTGGTGCTGCATGATGGCGTCATCGAGCAGATCGGCGCGCCGCTGGAGCTTTACGACAATCCCGCCAACCTCTTCGTCGCCGGCTTCATCGGCTCGCCCGCGATGAATTTCATTCGCGGCCGGGTGGAGGAAGGTGTGTTCCGCACGGCGAAGGGCCTCAGCCTGCCGCTGCCCGCCAATGCCGATATCGGCAAGCTGGGCGGCCGTGACCTCGTCTACGGCGTGCGGCCGGAACATATCCGTGCCGCCGAGAGTGGCATTGAAGGCCGGGTCGAACTGATCGAAGGCACCGGCTCGGAAATCTATGCCAAGCTGAATTGCAAGGGCGACGAGATCGCCTGCCTGTTCCGCGAGCGCCTCAATGTCCGCTTCGGCGATACGATCTACATTGCCATCGATCCGGCAACCGTGCATCTGTTCGACAAGGACAGCGGCAAGCGCATCTGA	MAPVNIQNVQKRFGAVNIIHGIDIDIKDGEFVVLVGPSGCGKSTLLRMIAGLEELSDGEIHIGAREVSHLPARDRDIAMVFQNYALYPHMTVKDNMGFALKLKKVSAEETKAKVDRAAAILGLEKLLDRYPRQLSGGQRQRVAMGRALVRDPQVFLFDEPLSNLDAKLRVQMRGEIKAMHQRIGTTTIYVTHDQVEAMTMADKIVVLHDGVIEQIGAPLELYDNPANLFVAGFIGSPAMNFIRGRVEEGVFRTAKGLSLPLPANADIGKLGGRDLVYGVRPEHIRAAESGIEGRVELIEGTGSEIYAKLNCKGDEIACLFRERLNVRFGDTIYIAIDPATVHLFDKDSGKRI	PGPT0016310_5944	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0016310-msmX|msmK|malK|sugC|ggtA|msiK-K10112	NA	NA
BMS010_07482	960	yihV		Sulfofructose kinase	ATGGCAAACAAACAGGGCGGCAAGCATGTGCTCTGCGTGGGTGCCGCCGTGCTGGACACCCTGTTCCGTGTGCATGACATGCCGAAGGGTGAGGGCAAGGTCCTGCCCTATGAGATGCTGCAGATTGCCGAAGGCATGGCGTCGAGTGCTGCCTACGCCGTCCATCGCATGGGGGGCCGCGCCAGCCTCTGGGGCGCGGTGGGCGATGACGAAACCGGTACCCGCATCCTGGGCGATCTCAGTGAAAGCGGCATCGACACATCAGGCATGACGGTTGCACCCGGCGCACGCTCGGCCCTGTCGACAATCATCATCGATGACCGGGGAGAACGGCTGATCGTGCCTTTTTACGATCACCGGCTGCATGAGAAAAAACGCACCTGCACGCCGGAGGATATTGCTCCTTTCGATGCCATCCTGGTGGATGTGCGCTGGCCGGAACTGGCGCTCGATGTTCTGACTGTGGCACGCGCGCTTGGCAAACCGGCCATTCTGGATGGCGATGTTGCTCCGGTAGAGACGCTTGAAAAGCTCGCTCCCGCCGCAACCCATATCGTCTTTTCCGAACCCGCCGCCGCCCGGCTGACCGGACTTGAAACGGTAAAAGACATGCTTCCGGTGTTGCATTCCCGCTATTCGCAGACCTTCATCGCCGTCACTGCCGGTCCGCAAGGCTGCTGGTGGACGGAAGCCGGTGATCCCACGGTGCATTTCCAGTCAACGATGCAGGTTCAGGCAGTGGATACGCTGGCGGCGGGCGACATCTTCCACGGCACGTTTGCACTGGCGATGGCTGAAGGCATGCAAAGCCGCGCGGCCATCCGCCTCTCCTCCGTTGCCGCCGCGCTGAAATGCACGATCTTCGGCGGCCGCATCGGCGCACCGACGCGCGAAGAGACGGAAGACGCGATGCGCCAATGGCTGGAGCGTGAAGGCGAACCCGCGCTGCGCGCCTGCTGA	MANKQGGKHVLCVGAAVLDTLFRVHDMPKGEGKVLPYEMLQIAEGMASSAAYAVHRMGGRASLWGAVGDDETGTRILGDLSESGIDTSGMTVAPGARSALSTIIIDDRGERLIVPFYDHRLHEKKRTCTPEDIAPFDAILVDVRWPELALDVLTVARALGKPAILDGDVAPVETLEKLAPAATHIVFSEPAAARLTGLETVKDMLPVLHSRYSQTFIAVTAGPQGCWWTEAGDPTVHFQSTMQVQAVDTLAAGDIFHGTFALAMAEGMQSRAAIRLSSVAAALKCTIFGGRIGAPTREETEDAMRQWLEREGEPALRAC	PGPT0017405_720	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_RIBOSE_METABOLISM|DEGRADATION,PGPT0017405-rbsK-K00852	NA	NA
BMS010_07483	1113			Beta-peptidyl aminopeptidase BapA	ATGAAGCCGCGCCTGTTCCACCTTGAGCCCGTATTCCGCAAAAGTGATCGCCCGATGCATCAGACGACCCGCCCGAGACTGCGCGATATCGGTTTCCGGCCCGGCCATTTCGAGACCGGCCCGCTCAACGCCATCACCGATGTCGAAGGCGTGACCATCGGCCATTCGACCGTCATCGAAGGCGACACGATCCGCACCGGTGCAACCGCGATCCTGCCGCATGGCGGCAACCTGTTTCAGAACAAGCTGCCCGCCGCCTTCGCCGTCTATAACGGCTTCGGCAAATTTGCGGGTTCCACCCAGATCGAGGAACTCGGCGAACTCGAAACACCCATCATCCTCACCAACACGCTGGCGACAGGCCGGGCCATAGAGGCGATCAACCGCCATACGCTGGCACAGCCGGGCAATGAGAAAGTCGTCTCGATCAATGCCGTCGTTGGCGAAACCAACGATTCCCGCCTGAACGACATCCGTGCCGGCCGCCCGACCATCGAGGAAATTTCGGTCGCGCTGCAAAACGCGGCCACAGGCCCGGTGGCCGAGGGCGGCGTGGGTGCCGGAACCGGCACGGTGGCCTTCGGCATGAAAGGCGGCATCGGCACCGCATCCCGCATCGTCACCATCGCCGGAACGACCTATACGCTCGGCATTCTCGTCCAGTCCAATTACGGCGGCCATCTGCTGGTCTGCGGCAAGCCCTATGTCAGCCCGGAGCATAAGGACAAGGACGGTTCCATCGTCATCGTGGTCGCAACCGATGCGCCGCTGTCGTCCCGCAATCTAAAGCGTCTGGCCGCCAGAAGCTTCGGCGGGCTGGCACGCACGGGTGCCGCGCTCAGCAATGGTTCTGGCGATTACGCGCTGGCATTTTCCACCGATGAGCGGCTGCGCCGCACGCCCACGCGCCGAAAGGCCGTCGCAGACTATCCAGAACTTTCCAACGATGCGATTTCGCCGCTCTTCGAAGCCGCGATAGAGGCGACGGAGGAGGCGATCCTCAACTCGCTCTGCGCCGCAACCACGACAACCGGCTTTAATGCCGGCACCGGCAAGGCCTCCACGGTCGAGGCCATTTCCATCGACGCCCTTAAAACCCTTCTTTCAGCCTGA	MKPRLFHLEPVFRKSDRPMHQTTRPRLRDIGFRPGHFETGPLNAITDVEGVTIGHSTVIEGDTIRTGATAILPHGGNLFQNKLPAAFAVYNGFGKFAGSTQIEELGELETPIILTNTLATGRAIEAINRHTLAQPGNEKVVSINAVVGETNDSRLNDIRAGRPTIEEISVALQNAATGPVAEGGVGAGTGTVAFGMKGGIGTASRIVTIAGTTYTLGILVQSNYGGHLLVCGKPYVSPEHKDKDGSIVIVVATDAPLSSRNLKRLAARSFGGLARTGAALSNGSGDYALAFSTDERLRRTPTRRKAVADYPELSNDAISPLFEAAIEATEEAILNSLCAATTTTGFNAGTGKASTVEAISIDALKTLLSA				NA	NA	NA	NA	NA
BMS010_07484	867	dat_3		D-alanine aminotransferase	ATGACTAGCCCATCCGGTCGCATCGTTTACGTCAACGGCGAATTCCTGCCCGAAGCGGACGCCCGCCTTTCCATCTTCGACCGCGGTTTCCTGTTCGGCGACGGCATCTATGAAGTCACCTCGGTTCTGGACGGCAAGCTGATCGATAGCGACCTGCACATGGCCCGGCTGGAGCGCAGCGCCCGCGAAATCGACGTGACCCTGCCTGTCACGACCAAGGAAATCGTCGAGGCCGAGCGCCGCCTGATCGCAGACAACAATCTCGTCGAAGGCATGATCTATCTGCAGCTGACGCGAGGTGCTGAAGACCGCAACTTCCTGTTCTCCGCCGATCTGAAGCCAACGCTTGTCATGTTCACCCAGGCCAAGAAGCTGATCGGCACCCCGGTCGAAGAAGCCGGCATCGCCGTCAAATCCGTTCCCGACCAGCGCTGGGAACGCCGCGACATCAAGACCGTCTGCCTTCTGCCGCAGGTCATGGCAAAGCGCATCGCCAAGGCCGAAGGCTGTGACGAGGCGTGGATGATCGAGGATGGTTTCGTGACCGAAGGCGCTTCCTCCACCGCCTATATCATCACCGGCGACAAGAAGATCATCACCCGCGGCAACAGCAACAAGACCCTGCCCGGCTGCACCCGCCTCGCCGCCCTGCAACTGGCCAGGGAAGCCGGCTTCACGCTGGAAGAGCGGCCCTTCACGCTGGAAGAGGCGCTGAATGCCGACGAAGCCTGCCTGACCAGCGCCTCCAACTTCGTTGTCTCTGTAACGAAGATCGACGGCAAGCCGGTTGGCAATGGCAAGCCCGGCCCGCTCGTCAGCCGTCTGCGCGCGCTCTATCTGGAAAACGCCCGCCGCACCGCGATTTAA	MTSPSGRIVYVNGEFLPEADARLSIFDRGFLFGDGIYEVTSVLDGKLIDSDLHMARLERSAREIDVTLPVTTKEIVEAERRLIADNNLVEGMIYLQLTRGAEDRNFLFSADLKPTLVMFTQAKKLIGTPVEEAGIAVKSVPDQRWERRDIKTVCLLPQVMAKRIAKAEGCDEAWMIEDGFVTEGASSTAYIITGDKKIITRGNSNKTLPGCTRLAALQLAREAGFTLEERPFTLEEALNADEACLTSASNFVVSVTKIDGKPVGNGKPGPLVSRLRALYLENARRTAI	PGPT0001915_483	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LYSINE_DEGRADATION,PGPT0001915-dat-K00824	NA	NA
BMS010_07485	897	yjiE_1		HTH-type transcriptional regulator YjiE	TTGGAAGTCAAATGGCTCGAGGATTTCCTGGCGTTGGCCGGAACGCTCAATTTCTCGAAAGCGGCGGATGAGCGGCATGTGACGCAATCCGCCTTCAGCCGGCGTATCAAGCAGCTGGAAGCCTGGGTGGGTGCCACGCTGGTTGACCGCGCCTCCTATCCTTCCCGACTGACTGAGGCGGGCGTGAAATTCGTGCCGGTGGCGCAGGAAACGCTGAAGCAGCTTTATCATGCCCGGCGCACCCTGTTGCAGGAGGATGGCGAGGATGCGAAGACGGTTCGGCTGACGGCCCTGCACACCCTGTCCTTCACTTTCTTCCCGGATTGGCTGAAACGGGTGAACGAGAAGGCCGGGCCGCTGTTTTCGGTTCTGCGGCCGGATTCCGGCAGCATGGAGGAAAATCTCAATTCGCTGGTGGACGGGCAGAGCGATTTTCTTCTGACCTATGCCCATCACGAAGTGCCGATGCTGCTCGATGCGCAGCTGTTCGAATTCCGTGTGCTGGGTGCGGAAAACATCATTCCCGTTTCCGCGCCGGCGAAAGATGGCTCGCCGCTGCATGCGCTCACGGAAAATGCGCGAAAACCCTTTGCTTATCTCGATTATGAAAAGGCTTCTTTCTTCGGGCCTTTGCTGCGCGATCTGCTGAGCGCGCGCCTGCCGCAATTCGAGCGGGTGCATGAGGGCAGCATGTCGGTGGGGCTGAAAGCCATGGCGATGGCCGGCTGGGGTGTCGCCTGGGTGCCGGAAAGCCTGATGCGGCAGGAGCTGGACAGCGGCGCGCTGGTGCGTGCCGCCGATGACAGTTTCGATATTGCCGTCGATATCCGGCTCTATCGTTCCAAGGAGAACCGCCGGCCCGTTGTCGAGCGTATATGGGCGGTTCTCGAAGGCTGA	MEVKWLEDFLALAGTLNFSKAADERHVTQSAFSRRIKQLEAWVGATLVDRASYPSRLTEAGVKFVPVAQETLKQLYHARRTLLQEDGEDAKTVRLTALHTLSFTFFPDWLKRVNEKAGPLFSVLRPDSGSMEENLNSLVDGQSDFLLTYAHHEVPMLLDAQLFEFRVLGAENIIPVSAPAKDGSPLHALTENARKPFAYLDYEKASFFGPLLRDLLSARLPQFERVHEGSMSVGLKAMAMAGWGVAWVPESLMRQELDSGALVRAADDSFDIAVDIRLYRSKENRRPVVERIWAVLEG				NA	NA	NA	NA	NA
BMS010_07486	1512	dap		D-aminopeptidase	ATGCCACAGCAATTCGACTGGAACGCCGCTTCAACCCTTTCAGAGAGCTTCGTCTGGCAATGGGCGGGCAACGAGCCGGGCGGCGCTGTCATTGGTTTCGATCTCAACGGTATCCGTTTCGCCCATGCGGGCGGTGTCGAAAGCCTCTCCACCTTCGCACCTTTCACGCCGCAGAGCGTGGTGCGTTATGCCTCCGTCACCAAACATGCCTTCTGTGCCATGGTGCTTGCTCATTCCGATCTGATCGGCCTTGACGATCCACTCGGCAAACATCTGCCGGAGTTGCAGCCGCCGCTCCGCGACGTCACGGTGGGGCAGGCGCTGGATATGAGCGGTGGCCTGCCGGATACGCGTGAATGCCTCTCGCTGCTTGGCCTTTCCGTTTATACCGAAACGAAGGCCGGACCGCTTCTCGATTATCTGTCGCGGCTCACTCGGCTGAATTTCCCTGCCGGCAGCGAGGTTTCCTATTCCAATACGGGCTACCGTTTGGTGGAAGCGGCGCTGGAGCGTCGCGGTTTCCGTTTCGATGATTTCGTGCAGACGCAGATTGCCGGTCCCTTCGGCGTGTTCCTGAAGGCGCCGGATGTCTGGAACGATCCTGTCGACGGGTTGGTGCCGGGTTACTGGAAGGCTGAAGACAACTGGCAGCTTTCGGCCGCCGGTCTGCATATTTCCGCTTCGGGCAGTCTTGCCGGCAGCGCCGAAGCGCTGACCCGCTGGTTGCAGGGGCTGATGCGGGGCGAGGGCAGCTTTGCGGGTGTTCTCAACAGGCTCTCTGCCGAACGTTCGCTGGCCGATGGGCGAATGAGCGAATATGGTCTCGGCCTGCGCTGGTCGCATCTGGGAGACAGGCGCTTCGTCGGCCACGGCGGTTCGCATCCGGGCTACAAGACCTATTTCCTCCTCGATCCGGAAAACGGCTCGGGTTTCGTCGTGGTGTCGAACCGCGAGGATACCAACGGCTTCAAGATCGTGCTGGAAAGCATGGCCGCCCTCACCGGCCTGCCTTTGCCCAAGCCGGCCGCCAGCCTGCCGGAAGGCCTTTACGTGACCGAAAGCGGGCCGTGGTGGCTGGAAATCAAGGGCAGTATGTCGACCTTCATCGATGGTGACGACACGCTTTATGAGGATGCGGATGGCTGGGTCTCCTCCCGTTCCGCATCGTCTCCGATGCGCCTCAGGCTAGAGGGTGATGCCATTGTCGGCGAGGCCGGCCACGCCGCCCGCCGCTTCCTGCCGGTCGGCGATCATGCGGTGCCGGATGATCTTTCGGGCTCGTGGCGCTCGGATGAGGGCGCGGAATTTATCATCAGCGGTTCCTCTCTGACGATGGGCATCGGCCCCACGCGCCGGAGCATGCCTCTGAAGGCGCTCGGTAATGGCCGTTTCCTCTTCACGCTCATCGATGGGCCGTGGACGAAGCGCGTCTGCCTCAACCGGCTGGGTGACGACCGGATCGAGCTGGTATCAAGCCGGGCGCGGATGATCGAGTATTCCAGAAGCTGCTAA	MPQQFDWNAASTLSESFVWQWAGNEPGGAVIGFDLNGIRFAHAGGVESLSTFAPFTPQSVVRYASVTKHAFCAMVLAHSDLIGLDDPLGKHLPELQPPLRDVTVGQALDMSGGLPDTRECLSLLGLSVYTETKAGPLLDYLSRLTRLNFPAGSEVSYSNTGYRLVEAALERRGFRFDDFVQTQIAGPFGVFLKAPDVWNDPVDGLVPGYWKAEDNWQLSAAGLHISASGSLAGSAEALTRWLQGLMRGEGSFAGVLNRLSAERSLADGRMSEYGLGLRWSHLGDRRFVGHGGSHPGYKTYFLLDPENGSGFVVVSNREDTNGFKIVLESMAALTGLPLPKPAASLPEGLYVTESGPWWLEIKGSMSTFIDGDDTLYEDADGWVSSRSASSPMRLRLEGDAIVGEAGHAARRFLPVGDHAVPDDLSGSWRSDEGAEFIISGSSLTMGIGPTRRSMPLKALGNGRFLFTLIDGPWTKRVCLNRLGDDRIELVSSRARMIEYSRSC				NA	NA	NA	NA	NA
BMS010_07487	741	oppF_3	COG4608	Oligopeptide transport ATP-binding protein OppF	ATGATCGACGTCGATAATCTCCGTATCAAGTTCGGCGACCGCGAAGTGGTAAAGGGCGTGTCCTTTTCGGTGGAAAAGGGCGGCAGCTTCGGCATCGTCGGCGAAAGCGGCTCGGGCAAGTCCACCATCCTGCGCGCCATGGCCGGCCTCAACGAAAGTTGGGAAGGCCGCATCGCCTTTGCCGGCAAGGATGCGCCGCTGAAGCGCACGCCGGAATTCTTCCGGCAGGTGCAGATGGTGTTTCAGGACCCCTATGGTTCGCTGCATCCGCGCCAGACCATCGACCGTATCCTCAGCGAATTGCCGCTGGTGCACGGCATGGACAATATTGAAAAGCGCATCCAGCAGGCACTCTCGGATGTGGCGTTGCCGCAGGCCGTGCGGTTCCGTTTCCCGCACCAGCTTTCCGGCGGCCAGCGCCAGCGCGTGGCGATTGCCCGCGCTTTGATCGCCGATCCGCAGGTGCTGCTGCTCGACGAGCCGACGTCGGCGCTTGATGTTTCGGTGCAGGCGGAAATTCTGAACCTGTTGCAGGACCTGCGCGCGGCGCGCAACCTCACCTATATTCTCGTCAGCCACAATCTGGCGGTCATCGCGCATCTGTGCCCGCAGGTTGGCGTGATGCTGAACGGCGAAATGGTGGAGCAACTGAGCGCTGGCGATCTGCGCGAGGGCCGCACGAAACATCCGCATACGGAAGAGCTGCGCAGCCTGAGCATCCGGCTGGAAGAGCCGGCCTGA	MIDVDNLRIKFGDREVVKGVSFSVEKGGSFGIVGESGSGKSTILRAMAGLNESWEGRIAFAGKDAPLKRTPEFFRQVQMVFQDPYGSLHPRQTIDRILSELPLVHGMDNIEKRIQQALSDVALPQAVRFRFPHQLSGGQRQRVAIARALIADPQVLLLDEPTSALDVSVQAEILNLLQDLRAARNLTYILVSHNLAVIAHLCPQVGVMLNGEMVEQLSAGDLREGRTKHPHTEELRSLSIRLEEPA	PGPT0004440_9550	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004440-ddpF-K02032	NA	NA
BMS010_07488	831	oppD_3	COG0444	Oligopeptide transport ATP-binding protein OppD	ATGCTGGTCGAAATCGAAAATCTGAAGATCGCTTTCCAGACCCGCACCAGCCGTTTCGAGGCGGTGCGTGGTGTCTCCATGAAGCTCGGCACTGAAAAGCTCGGCATTGTCGGCGAGTCCGGTTCCGGCAAGAGCCTCACGGCGCGTGCGCTGATGAAGCTTCTGCCCTCTAATGCGGATATTTGTGCCGACAAGCTCGCCTTTGACGGCATCGACGTGCTGTCGGCCAGCGAAAAGCAGATGCGGCAGATCCGCGGCAAGCGGGCCGGCTTCATTCTGCAGGACCCGAAATATTCGCTGAACCCGGTAAAGACCATCGGCGCGCAGGTGGCCGAAGCCTGGCGCACCCACAAGGGCGGCAGCAAGCGAGCCGCCATGGAAGCGGCCATCGCCCTGCTCGATCAGGTGAAGATCCGCAATCCGCGTCAGGTCGCCTCTTCCTATGCGCATGAGGTTTCCGGCGGCATGGGCCAGCGCGTGATGATCGCCATGATGCTCGCGCCCGATCCGGAACTGCTGATCGCCGACGAGCCGACCAGCGCGCTCGACGCCACGGTGCAGGCGGAAATCCTGCGGCTGATCGAGGAGCTGGTGTCGGAACGCGGCATGGGCCTCATCCTCATCAGCCACGATCTGCCGCTCGTTTCGCATTTCTGCGACCGCGTCGCCGTCATGTATTCCGGCCGGGTGATGGAGGAACTGAAGGCTTCCGAGCTTTTGAAAGCCCAGCATCCTTACACGCAGGGACTGCTGAACTGCATTCCCTCGCTGACGCATCCGCGCGAGCGTCTTCCTGTTCTCAACCGTGATGCAGCGTGGTCCAGCCAATGA	MLVEIENLKIAFQTRTSRFEAVRGVSMKLGTEKLGIVGESGSGKSLTARALMKLLPSNADICADKLAFDGIDVLSASEKQMRQIRGKRAGFILQDPKYSLNPVKTIGAQVAEAWRTHKGGSKRAAMEAAIALLDQVKIRNPRQVASSYAHEVSGGMGQRVMIAMMLAPDPELLIADEPTSALDATVQAEILRLIEELVSERGMGLILISHDLPLVSHFCDRVAVMYSGRVMEELKASELLKAQHPYTQGLLNCIPSLTHPRERLPVLNRDAAWSSQ	PGPT0004435_13650	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004435-ddpD-K02031	NA	NA
BMS010_07489	903	ddpC_5	COG1173	putative D,D-dipeptide transport system permease protein DdpC	ATGATGTTATCTAATTTCAGAAACTGGGCGCTGGATGAGACGCCACATTCGCGAACACAGGCTGCCTGGGGCAACCGGTATCGCATCTGGCTCAATCTCAAGTCCAACCCGCTGGCGGTGATCGGGCTTACGATCATCGTTCTCTTCATCGCGCTGTCGCTGCTGGCGCCGCTGCTTGCCCCTTACGATCCGGCGACGCAGAACCTCGGCAACCGTCTGGCGTTTCCGAGCGCCGAACACTGGTTCGGCACGGATGAGCTCGGTCGCGATATTCTCTCGCGCATTCTCTATGGCGGCCGCGTCACGCTCGGCATGGTCATTGCCGTCGTCGTTCTCGTCGCACCCATTGGCCTCGCCATCGGCTGCATCGCCGGTTATTTCGGCGGCATCGTCGATACGGTGCTGATGCGGGTGACGGACGTATTCCTGGCCTTCCCGCGCCTCATTCTGGCGCTCGCCTTCGTCGCGGCGCTGAAGCCCGGCGTTGAAAGCGCCATTCTCGCCATCGCGCTCACCGCCTGGCCGCCCTATGCGCGTCTGGCGCGCGCCGAAACCATGACGGTGCGCGGCAGCGATTTCGTTGCGGCTTATAGGCTGACCGGTGCTTCCGCCTGGCGCATCATCGCCCGGCATATCGCGCCGCTCTGCGTGCCGAGCCTTATCGTGCGCATCACGCTCGACATGAGCTCGATCATCATCACCGCCGCCAGCCTCGGCTTCCTCGGCATGGGCGCGCAGCCGCCTTCGCCGGAATGGGGTGCGATGATTGCGACGGCCAAGCGCTTCATCTTCGAACAATGGTGGGTCGCCACCATTCCCGGCATCGCTATCTTCCTCGTTTCGCTCGCCTTCAACTTCCTTGGCGATGGCCTGCGCGACGTTCTCGACCCGAAGGGACATTGA	MMLSNFRNWALDETPHSRTQAAWGNRYRIWLNLKSNPLAVIGLTIIVLFIALSLLAPLLAPYDPATQNLGNRLAFPSAEHWFGTDELGRDILSRILYGGRVTLGMVIAVVVLVAPIGLAIGCIAGYFGGIVDTVLMRVTDVFLAFPRLILALAFVAALKPGVESAILAIALTAWPPYARLARAETMTVRGSDFVAAYRLTGASAWRIIARHIAPLCVPSLIVRITLDMSSIIITAASLGFLGMGAQPPSPEWGAMIATAKRFIFEQWWVATIPGIAIFLVSLAFNFLGDGLRDVLDPKGH	PGPT0004450_7388	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004450-ddpC|appC-K02034	NA	NA
BMS010_07490	1020	dppB_6	COG0601	Dipeptide transport system permease protein DppB	GTGACATTGAACAAGCGCGTTAAAAGCATATCGTCGATACTGGGCAGCGTCCTCCTGACGCTGTTCGGTTTGATGGTCATCACCTTCATGATCGGGCGCGTCATGCCCGTCGATCCCGTCATTGCGGCGGTCGGCGACAACGCGCCCGAAGACGTCATCGTGCGGGTCCGGGCCGAAATGGGTCTCGACCAGCCGCTGGTCGTGCAGTTCTTCCATTATGTCTCGCAGGTCCTGCATGGCGATTTCGGCAATTCGATCCTGACCCGCAATCCGGTCTGGATCGATATCAAGCGGGTTTTCCCCGCCACCTTCGAACTTGCCACCGCAGCCCTCATCCTTGCTGCGCTGATCGGCATTCCGCTCGGTGTCTGGGCCGCGGTAAAGCAGGGCAAGCTGACCGACCAGGTCATCCGCGTCGTCTGCCTTGCCGGTCACTCCGTGCCGGTCTTCATGCTGGCGCTGATTTCGCTGCTCGTCTTCTACGCCACGCTTGGCGTCGCACCGGGACCGGGCCGTCAGGACATCATCTATGACGGCATGATCACGCAGGTCACTGGTCTGATGACGGTCGACACGCTGCTTGCGGGCGACTGGGACGCCTTTTACGATGCCATCGCCCATATGGTGCAGCCTGTCTGCATCCTCGCCTATTTCAGCATGGCCTATATCACCCGCATGACGCGCGCCTTCATGATCGACGCGCTGAAGGGCGAATATGTCATCACCGCCCGCGCCAAGGGGCTTTCGGCCATGACCGTGATCTGGGGCCATGCCTTCCCGACGGTCGCCGTGCAGCTCATCACGGTTCTCGCGCTCACCTATGCCGGTCTTCTCGAAGGTGCGGTGGTGACGGAAACCGTGTTCAGCTGGCCGGGTCTCGGCCAATATCTCACCGTCTCGCTCATGAACGCGGACATGAACCCCGTCGTCGGAGCAACCCTGTTGATCGGCTTCATCTATGTCGCCCTCAACCTGCTCGCAGACGTGCTTTACAGAGTTATGGATCCTCGCGTTCGATGA	MTLNKRVKSISSILGSVLLTLFGLMVITFMIGRVMPVDPVIAAVGDNAPEDVIVRVRAEMGLDQPLVVQFFHYVSQVLHGDFGNSILTRNPVWIDIKRVFPATFELATAALILAALIGIPLGVWAAVKQGKLTDQVIRVVCLAGHSVPVFMLALISLLVFYATLGVAPGPGRQDIIYDGMITQVTGLMTVDTLLAGDWDAFYDAIAHMVQPVCILAYFSMAYITRMTRAFMIDALKGEYVITARAKGLSAMTVIWGHAFPTVAVQLITVLALTYAGLLEGAVVTETVFSWPGLGQYLTVSLMNADMNPVVGATLLIGFIYVALNLLADVLYRVMDPRVR	PGPT0004445_2704	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004445-ddpB|appB-K02033	NA	NA
BMS010_07491	1596	ddpA_2	COG0747	putative D,D-dipeptide-binding periplasmic protein DdpA	ATGATTTCAAGACGCAACCTGTTGATTGCCGGCGCTGCCGTTCCGTTCCTTTCTTATGCGCGCATTCCGGCCTTTGCCGCGACGCCGAAGGATATTCTGGTTGTTGCGCAGCAGCTGGACAATATGACGAGCCTTGACCCGCATGAAGGTTTCGAGGCTGTCGGCGGTGAAATCATCTCCAACATGTATCAGAAGCTGGTGCGCGCCAACCGTGAGGATTCGACCAAGGTCGATCCGGTCATCGCGAAATCCTGGGAAGCCGATGCGGACAGCAAGGTCTTCACCTTCACGATCGGTGACGAGGCGACCTTCGCGAGCGGCGCCAAGGTCACGGCGGAAGACGTCGCCTTCTCGCTGCAGCGTGCCATCAAGATGAACAAGAGCCCGGCCTTCATCATCAGCCAGTTCGGCTTCACGCCCGACAATGCCGAGACGACTATCGTTGCCACTGATGACAAGACGGTGAAGCTGACGACGGCAAAGCCGACCGCCATCTCCTTCCTGCTTTATTGCCTCTCCGCCAATATCGGCGCGATCGTCGAAAAGAAGGCGGTTCTCGCCAATGCGTCGGGCGAAGACCTCGGCAATGGCTGGCTGCAGAAGAACAGCGCCGGCTCCGGCGACTTCGTGCTACAGGCCTGGAAGCCGAGCGAAAGCGTTGCGCTGACCGTCAATCCGAACGGTCCTTACAAGGGCAATATCAAGCGCATCATCCTGCGCCACGTCACCGATCCGTCTTCCCAGCTGCTGATGCTGCAGAAGGGCGATATCGACATTGCCCGCGACCTGACGTCGGAACAGCTGCGCACCGTCAAGGACGATGCGAATATCGAACTGGAGCGCAAGTCCATTGCCTCGCTGGTGCTGATCTCGCTCAACCAGGGCAATGAGAACCTCGCCAAGCCGCAGGTCTGGCAGGCCATCAAGTGGGCGCTGGACTACAAGGGCATGCAGGAAAACATCGTGCCGCTGACGCACGAAATCCACCAGAGCTTCGAGCCGAAGGGCTTCCCCGGCGCCGTCAACGACATTCCGTACCAGCGCGACGTCGAAAAGGCCAAGGCGCTGATGGCGGAAGCCGGTCTTGCCGATGGTTTCGAGATCAGCATGGATCACTATTCCGCCCAGCCTTATCCCGATCTGGCGCAGGCCATTCAGGCAAACCTTGCCGATATCGGCATCAAGGTGCGCCTGCAGTCGGCGGAAAACCGTCAGGTTCTGACCAAGATGCGCGCGCGTGAGCACCAGATGGCGCTTTCCGCATGGGGCACGGATTATTTCGATCCGCATTCCAACGCCGATGTCTTCAACATCAACAAGGACAATGGCGACGACGCCAAGTCGAAGCCTTTCCTGTGGCGTTCGCGCTTCAAGAACGACGACTTCGCCGCCAAGGCCGAAGCCGCGCGTGACGAGAAGGATCCTGCAAAGCGCGTGGAGCTTTATGAAGCCCTGCAACGCGAGCACATGGAAAACAGCCCCTTCGTCTTCATGTTCCAGACCACGAAGACGGCAGCCTTCCGTAAGGGTGTTTCCGGCTTCGAACTCGGCGTTCTCTCCGAGGGCAATTCCTACCACGATGCGAAGAAAGCGTGA	MISRRNLLIAGAAVPFLSYARIPAFAATPKDILVVAQQLDNMTSLDPHEGFEAVGGEIISNMYQKLVRANREDSTKVDPVIAKSWEADADSKVFTFTIGDEATFASGAKVTAEDVAFSLQRAIKMNKSPAFIISQFGFTPDNAETTIVATDDKTVKLTTAKPTAISFLLYCLSANIGAIVEKKAVLANASGEDLGNGWLQKNSAGSGDFVLQAWKPSESVALTVNPNGPYKGNIKRIILRHVTDPSSQLLMLQKGDIDIARDLTSEQLRTVKDDANIELERKSIASLVLISLNQGNENLAKPQVWQAIKWALDYKGMQENIVPLTHEIHQSFEPKGFPGAVNDIPYQRDVEKAKALMAEAGLADGFEISMDHYSAQPYPDLAQAIQANLADIGIKVRLQSAENRQVLTKMRAREHQMALSAWGTDYFDPHSNADVFNINKDNGDDAKSKPFLWRSRFKNDDFAAKAEAARDEKDPAKRVELYEALQREHMENSPFVFMFQTTKTAAFRKGVSGFELGVLSEGNSYHDAKKA	PGPT0004430_10905	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004430-ddpA|ABC_PE_S-K02035	NA	NA
BMS010_07492	1041			hypothetical protein	ATGACCGATCAAAAAACCGTACCCGTCTTCGACGGCCACAACGACGTGCTGCTGCGGTTATGGCGATCGGGCAATGTTTCCCCCGAAACGCTTCTCATCGAAGGGGATACCATCGGCCACATCGACCTGCCCCGCGCCAAGAAAGGCGGGCTGGCCGGTGGCCTCTGCGCCGCCTATGTGCCTTCGCCCAGCATGGACAAGGACGCCAACGGCGACTACCCGACGCCGACCGAGGCGGATGCGCTGAAGGCGACACTTGCCATGGCCGGCCTTTTGTTCCGGGCCGAAAAACAATCCGCAGGCGCGCTCAAGGTCTGCCGCACGGCCGCCGATATCCGCAACGCCATGTCAGAGGGCGCTTTCGCCTCCGTCTTCCATATCGAAGGTGCGGAGGCGATCGGCGCCGATCTGGATGCGCTCCACGTTCTCTACGAAGCGGGCCTGCGCACGCTCGGGCCGGTCTGGAGCCGCCCGAACATCTTCGCTTACGGCGTTCCCTTCCGTTTCCCCTCGACGCCGGATATCGGCCCGGGCCTCACGGATGCCGGCAAGCGGCTGATAAAGACCTGCAACGAGCTGAAGATCATGGTCGACCTGTCGCACATGAACGAGCAGGGTTTCTGGGACATTGCCGGGATTTCCGACGCGCCGCTGGTGGCGTCGCATTCCAACGCCTATGCGCTGTGCAATCACAGCCGCAACCTGACGGATCGTCAACTTGACGCCATCCGCGACACGGGCGGCCTTGCCGGCATCAATTTCGGCGTTCTGTTCCTGCGTCAGGACGGCGTGAAAAATCCGGATACCGATCTCAACGAACTCGTCCGCCACGTGGACTATATCGTCAACCGCATCGGCATCGATCACGTCGCTCTCGGTTCGGATTTCGACGGCACCACCATTCCCGCCGCCATGAAGGACGCAGCCGACCTGCAATTGCTGGTCGAAGCCCTGCGCAAGGGTGGTTATGACGACGAGGCGCTCGCCAAAATCTGCCACGGCAACTGGATCCGTGTGCTCGAAAAAACCTGGGGCGCGTGA	MTDQKTVPVFDGHNDVLLRLWRSGNVSPETLLIEGDTIGHIDLPRAKKGGLAGGLCAAYVPSPSMDKDANGDYPTPTEADALKATLAMAGLLFRAEKQSAGALKVCRTAADIRNAMSEGAFASVFHIEGAEAIGADLDALHVLYEAGLRTLGPVWSRPNIFAYGVPFRFPSTPDIGPGLTDAGKRLIKTCNELKIMVDLSHMNEQGFWDIAGISDAPLVASHSNAYALCNHSRNLTDRQLDAIRDTGGLAGINFGVLFLRQDGVKNPDTDLNELVRHVDYIVNRIGIDHVALGSDFDGTTIPAAMKDAADLQLLVEALRKGGYDDEALAKICHGNWIRVLEKTWGA	PGPT0020950_2446	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020950-acdP-K01273	NA	NA
BMS010_07493	294			hypothetical protein	ATGAACAAGCCCACAAGAATAGTCGTTTCGTTCGTCGTCGCCCTTGTGGCGGGCGGCGGATACATGGCGGTGGATAAGATGCGCGGCGCCGAATGGGTCGTTTCGCCGCAACAGATCGCGGAGGCCAAGGCAAAAGGGCAGATGGGTTATGAATCCCGTTCGGGCACCGTGACTGTGTTGCCGATCCGCAGCGAGACGGCGGATGTGCTGCCGATGAAATGGGCGCTGATTGGTGTCGTCGCCGGGCTTCTGGCTTTCCGGGCGACCGGCAAGAAAAAAGCGGCAAAGGCTTAA	MNKPTRIVVSFVVALVAGGGYMAVDKMRGAEWVVSPQQIAEAKAKGQMGYESRSGTVTVLPIRSETADVLPMKWALIGVVAGLLAFRATGKKKAAKA				NA	NA	NA	NA	NA
BMS010_07494	2601	mprF_2		Phosphatidylglycerol lysyltransferase	ATGGCAGACAAGATCGAAATTACACAAACCGATGTTACGGAATCTGCGGTTGAAAGCTTTTTTGCCAGAAACCGACCCTATCTGACCGCGATCGCCATCACGCTGGTCTTTGTGATGATGACTTTCGCCATCTATCACCTGACCTCAGAAGTCCGTTATGACGACGTCATCGATGCGCTGACGCAGACCTCGGCCTCGGCGGTGCTGCTCGCCATCGTTTTCACCGCGCTCAGCTTTCTGGCGCTGATATTCTACGACGCCAATGCCATCGAATATATCGGCCGCAAGCTACCCTTTCCGCCCATGGCGGCAACTGCGTTTGCGGCCTATGCCATTGGCAATACCGCCGGTTTCGGCCCCTTGAGCGGTGGCGCCATCCGCTTTCGCGCCTATTCCCGGCTGGGTCTGTCACCCGGTGAAATCGCCCGCGTCATCGCCTTCGTCACGCTGTCCTTCGGGCTTGGGCTGCTTTCGGTCAGCGCCATCTCCACCTTCATCGTCGCACCGCGCATCGCCGCCATCATCGGCGTCGATGCCGTTATTCTCAGGGGTGCAGCGCTTGCCATAATCGCAATTCTCGTGGCGGCCGCCTATGTCGGGCGCAACGGGCGCGCCATCCGGCTCGGCGCATGGCGGCTTCGTCTCCCGGACAGCCGGACATCGTCGCGCCAGTTCCTGGTCTCCGCCTTCGATATCGCCGCCTCCGCCTCCGTGCTTTATGTCCTGCTGCCCGACACGCATCTCGGCTGGCCGACATTTTTCGCCATCTACGCCACCGCCGTCGGCCTCGGTGTGCTCAGCCATGTGCCCGCCGGCCTCGGCGTCTTTGAAACCGTCATGGTTGCGGGGCTTGGCAACGCCATCAGCGTCGATCAGCTGCTCGGAAGCCTCGTTCTCTACCGCGTGATCTATCACGTGCTGCCGCTGGTGGTGGCCATTCTGGTCATGCTCGTCTCGGAGATGAAGCAGTTCGCGGCAAAGCCTGTTGTCTCCGATATCAGCCAGCTTGCCGTCAGGCTCGCGCCGCCGCTGCTATCGACCTTCGCGATGATCCTCGGCACCATGCTGATCTTCTCGAGTGTGACGCCGACGCCGGACAGCAATCTGGATTTCCTCTCCAATTTCGTACCGCTTCCCATCGTTGAAGCGGCGCATTTTCTCACGAGCATTCTCGGCCTCGTGCTTGTCGTCGCTTCGCGCGGCCTCGGGCAGCGGCTTGACGGCGCCTGGTGGATTGCGCTGGTCGCCGCCTCGCTGGCGCTGGTCCTCTCGCTCCTCAAGGCCATCGCCGTGTTCGAAGCCGCCATCCTCGGCGTCTTCATTGCGGCCCTCTCCGTCAATATGCGCAGCTTCAACCGCCATGCCTCGCTGGTTAAGCAGGCGCTGGGCCCAAGCTGGCTCGCCGCCATGGCCGTCATCATTGCCGGCGCGGCGACAATCCTGCTCTTCGTTTATCGCGATACGGATTACAGCCAGACATTATGGTGGCAGTTCGAATTCTCCGAGGAAGCGCCGCGCGGATTGCGCGCGCTTCTCGGCCTCGTGCTTGCCTCCTCCACCATCGCCATCTTCAGCCTGATGCGGCCGGTGGCCTTCAGGCCGGACGCCATCAAGGCCGACGACGTCACGAGTGCGACCGGCATCGTCATGAAACAGGATGCGGCCGACGCCAATCTGGTGCGCATGGGCGACAAACACGTGATGTTCTCCGAAAGCGGCAACGCCTTCATCATGTATGGCATCCAGGGCCGCTCATGGATCGCGTTTGCCGATCCGGTCGGCGATGAGGATGATTTCCCGGATCTGGTCTGGCAATTCGTGGAGGCCGCGCGTGGCGCCGGCGCGCGCGCCGCCTTCTACCAGATTTCGCCTTTCCTCCTCTCCCATTGCGCCGATGCGGGCCTGCGCGCCTTCAAGCTCGGCGAACTGGCATTGGTCGATCTCACCGCATTCGAACTGAAGGGCGGCAAGCTTGCCAATCTTCGCCAGTCGCTGAGCCGCGGCGCGCGCGACGGATTGACCTTCGAGGTGGTCGAACAGGCGCAGGTGGCGGATATTCTGGATGAGCTGAAACAGGTCTCCGATGGCTGGCTCGCCCACCACAATACCCGGGAAAAGCGTTTCTCTCTTGGCGCTTTCGAGCCGGATTACATCCTGTCGCAACCTGTCGCCGTGCTGCGCAAGGATGGAAAGATCACCGCTTTCGCCAATCTGATGGTGACGGACACGAAAAAGGAAGCCACCGTCGACCTCATGCGTTTTTCGCCGGATGCGCCGCGCGGCTCGATGGATTTTCTCTTCGTCAGCATCATGCAATATCTGCGCGAGGCGGGCTATGAGAGCTTCAATCTCGGCATGGCCCCCATGTCCGGCATGTCGAAACGCGACGCCGCCCCCGTCTGGGACCGCATCGGCAGCACGCTGTTCGAACACGGCGAACGTTTCTACAACTTCAAGGGACTTCGCGCCTTCAAGGCGAAGTTTCACCCGAAATGGGAACCGCGTTACCTTGCCGTGCAGAACGGCGCAGACGCCGCTCTGGCGCTGATGGACGCGACGGTTCTCATCAGCGGCGGCGTCAGAGGAGTGATCGGAAAATGA	MADKIEITQTDVTESAVESFFARNRPYLTAIAITLVFVMMTFAIYHLTSEVRYDDVIDALTQTSASAVLLAIVFTALSFLALIFYDANAIEYIGRKLPFPPMAATAFAAYAIGNTAGFGPLSGGAIRFRAYSRLGLSPGEIARVIAFVTLSFGLGLLSVSAISTFIVAPRIAAIIGVDAVILRGAALAIIAILVAAAYVGRNGRAIRLGAWRLRLPDSRTSSRQFLVSAFDIAASASVLYVLLPDTHLGWPTFFAIYATAVGLGVLSHVPAGLGVFETVMVAGLGNAISVDQLLGSLVLYRVIYHVLPLVVAILVMLVSEMKQFAAKPVVSDISQLAVRLAPPLLSTFAMILGTMLIFSSVTPTPDSNLDFLSNFVPLPIVEAAHFLTSILGLVLVVASRGLGQRLDGAWWIALVAASLALVLSLLKAIAVFEAAILGVFIAALSVNMRSFNRHASLVKQALGPSWLAAMAVIIAGAATILLFVYRDTDYSQTLWWQFEFSEEAPRGLRALLGLVLASSTIAIFSLMRPVAFRPDAIKADDVTSATGIVMKQDAADANLVRMGDKHVMFSESGNAFIMYGIQGRSWIAFADPVGDEDDFPDLVWQFVEAARGAGARAAFYQISPFLLSHCADAGLRAFKLGELALVDLTAFELKGGKLANLRQSLSRGARDGLTFEVVEQAQVADILDELKQVSDGWLAHHNTREKRFSLGAFEPDYILSQPVAVLRKDGKITAFANLMVTDTKKEATVDLMRFSPDAPRGSMDFLFVSIMQYLREAGYESFNLGMAPMSGMSKRDAAPVWDRIGSTLFEHGERFYNFKGLRAFKAKFHPKWEPRYLAVQNGADAALALMDATVLISGGVRGVIGK	PGPT0024390_377	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATIDYLGLYCEROL_LYSYLTRANSFERASE,PGPT0024390-mprF|fmtC-K14205	NA	NA
BMS010_07495	1386			hypothetical protein	ATGAGAAAACCCAGCATGCTGAAAGCGGTTCTTGCCGCCTCCGCCCTGTTCGCCTCCCCCTTGTTTGTTTCTGGCGCCGTTTTTGCGCAGGACAAACCCGCTTACGAGACCGGCATGATCCCTTCCGAGCATATCATGGTGCCGGATGGCGAAATTCTCGCCAGCGTCTTCCTGATTTCTGATGCGGACGGATGGACGGCCGCCGATGAAACTCGCGCCAAGGCGCTGGTGGAAAAGGGCGCAGCCGTGGTCGGTATCGATTTCAAGGAATATCTGAAGGCGCTCGAGGCCGATGATGACGAGTGCATCTATATGATCTCGGACATCGAGTCGCTCTCGCAGCAGATCCAGCGCACCGCCGGCACGAGCAGCTATCGCCAGCCCATCCTCACCGGCATCGGCAAGGGCGGAACGCTGGCGCTGGCGATGATTGCGCAGAGCCCCGTCTCCACCGTCCGGGAAGCCATCGCCGTCGACCCCAAGGCCGGCCTGCCGCTTGAGAAAATCCTCTGCACCCCCGCCACCAAGGACAAGGCGGATGGCGAAACGGTCTATGGCCTGACCGACGGGCCGCTGCCCGCCCCCGTCAGCGTGTTGTTCACGCCTGCCGCGGATCAGAAGGGCCGCGACCACGTCAACGCGCTCGTCAAGCTGCATCCCGATATCGACGTGACGGATGTGGATGACAAGGCGGACGAGGTTTTGACCCAGACCCTGTCCGACCAGATCGACGCCGCAGGCGACACCGACAGCCCGCTCGGCCTGCCGATCAAGGTTCTGGAAACCAGCCCGGTGATGGACACCATGGCGGTGATCTATTCCGGCGACGGCGGCTGGCGCGATCTCGACGAGGAAGTGGGCGGCGCCTTCCAGAAGGAAGGCATACCCGTCATCGGCGTCGATTCGCTCCGCTATTTCTGGAAGGAAAAGAAACCGCAGGAGGTCGCCACAGATCTCGGCCGCATCATCGACACCTATCGCAAGGAATGGAAAGTCCGCAATGTGGTGTTGATCGGCTATTCCTTCGGTGCCGATATTCTTCCCGCCACCTATAATCTGCTGCCAGACCGCGACAAGTCGCATGTCGTGCAACTGACCCTGATGGGACTTTCGACCGAAGTGGATTTCGAGATTTCCGTCGAAGGCTGGCTTGGCGTTGCCGGTGAAGGCAAGGGCGGCAAGACGGTCGATGACATCGCCAAGATCGATCCGAAGCTGGTGCAATGCATCTATGGCACGGAAGAAGAAGATGAAGACCCCTGCCCCGGCCTGAAAGCCAAGGGCGTGGAAGCGGTCGGCATCGAGGGCGGTCACCATTTTGACGAGGACTATGAGGGACTGGCCAAGCGTATCGTGACCTCGCTGAAGACCCGGCTGCCGAAATAG	MRKPSMLKAVLAASALFASPLFVSGAVFAQDKPAYETGMIPSEHIMVPDGEILASVFLISDADGWTAADETRAKALVEKGAAVVGIDFKEYLKALEADDDECIYMISDIESLSQQIQRTAGTSSYRQPILTGIGKGGTLALAMIAQSPVSTVREAIAVDPKAGLPLEKILCTPATKDKADGETVYGLTDGPLPAPVSVLFTPAADQKGRDHVNALVKLHPDIDVTDVDDKADEVLTQTLSDQIDAAGDTDSPLGLPIKVLETSPVMDTMAVIYSGDGGWRDLDEEVGGAFQKEGIPVIGVDSLRYFWKEKKPQEVATDLGRIIDTYRKEWKVRNVVLIGYSFGADILPATYNLLPDRDKSHVVQLTLMGLSTEVDFEISVEGWLGVAGEGKGGKTVDDIAKIDPKLVQCIYGTEEEDEDPCPGLKAKGVEAVGIEGGHHFDEDYEGLAKRIVTSLKTRLPK				NA	NA	NA	NA	NA
BMS010_07496	1329			hypothetical protein	ATGCCCGCTTCAAAGCGAAAGACGAAAACACCAGTCCTCGTGGAACGCATCGATCATTTCGTCGGCCAGGTCAAAGAGGCGATGAAGAGCGATGACACGCTGCGCAACAGAAAAATCCGCGATTTGTGGGATGCCGAGGTCCGCTACCATTTCGACAATGGCCGCACCGAAAAGACGCTCGAACTCTACATCATGAAATATCGCAATGCGCTGAAGGCGGAGTTCGGCGTCAAGAGCACGCCGCTTGCCATCTGCAACATGAAAAAGCTGCGCGAGCGGCTGAACACCTATATTGCGCGCGCCGACTATACGAAAACCGGCGTGGCGACCTCCATCGTCGAAAAAATCGAACGGGCGGAGTTCAACACCGCCGGTCGCAAGCCGACCGTTCTGCTGCGCATCGCGGATTTCATTTCGGCGATGAACGGCCTGGGAACGAAAGAAGAGATGCAGTCCCTGTGGAATGCTGAAATCAGCACCATGAAGGGCAGAGCCCAGACAACGATCATCTCCTACATCACCAAATATCGCAACGCCATCCGCGAGGCCTTCGGCGACGACCACCCGATGCTGAAGATCGCCACCGGCGATGCCGCGATGTATGACGATGCGCGCCGGGTGAAGATGGAGAAGATCGCCAGAAAGCACGGCGCGCTGATCACCTTCGAGAATTACCGGCAGGTTCTGAAGATTTGCGCCGATAAGCTCCTGTCCGCCGATCCCCTGATGATCGGCATCGGCCTGATCGGCATGACCGGGCGCCGCCCTTACGAGGTCTTCACCCAGGCGGAATTTTCACCTGCCCCCTATGGCAAGGGCGTTTCCAAATGGAGCCTCCTGTTCAACGGCCAGGCCAAGACGAAACAGGGCGAAGGAACGAAATTCGGGATTACCTATGAAATCCCGGTTCTTGCCCGCTCCGAAACCATTCTGGCCGCCTATAGGCGCCTGCGCGAAAGCGGACAGGGAAAATTGTGGCATGGCATGTCGATCGACGATTTTTCGTCGGAAACCCGCCTGCTGCTCCGGGACACGGTTTTTAACCTGTTCGAGGATCTCTGGCCGAAGGAAGAGCTGCCCAAGCCCTATGGCCTCCGGCACCTCTATGCCGAGGTGGCCTTTCACAATTTCGCGCCGCCGCATGTGACCAAGAACAGCTACTTCGCCGCCATTCTCGGACATAACAACAACGACCTCGAAACCTCGCTGTCCTATATGACCTATACACTGCCGGAAGATCGCGACGATGCGCTGGCGCGGGCCAAACGCATCAACGAACGGACGTTGCAACAGATGGCGACAATAGCGCCGGTGTCCCGCAAGGCATGA	MPASKRKTKTPVLVERIDHFVGQVKEAMKSDDTLRNRKIRDLWDAEVRYHFDNGRTEKTLELYIMKYRNALKAEFGVKSTPLAICNMKKLRERLNTYIARADYTKTGVATSIVEKIERAEFNTAGRKPTVLLRIADFISAMNGLGTKEEMQSLWNAEISTMKGRAQTTIISYITKYRNAIREAFGDDHPMLKIATGDAAMYDDARRVKMEKIARKHGALITFENYRQVLKICADKLLSADPLMIGIGLIGMTGRRPYEVFTQAEFSPAPYGKGVSKWSLLFNGQAKTKQGEGTKFGITYEIPVLARSETILAAYRRLRESGQGKLWHGMSIDDFSSETRLLLRDTVFNLFEDLWPKEELPKPYGLRHLYAEVAFHNFAPPHVTKNSYFAAILGHNNNDLETSLSYMTYTLPEDRDDALARAKRINERTLQQMATIAPVSRKA				NA	NA	NA	NA	NA
BMS010_07497	1287	genK	COG0477	Gentisate transporter	ATGTCCACGAATTATCTGAGCGCCGCGTCAGCGCGGACGAAGAACCCGGCCGGCGTTATCGCGACATGCGGCCTGATGATCATGTTTGACGGTTACGATCTCGTCGTTTACGGCGCCGTCGCACCGGCACTCTTGAAAGAAGGAGCATGGGCGCTCAATCCGGCCATGGTCGGGCGCGCCGCCGCGCTGACGCTGGTAGGCATGCTGCTGGGCGCGCTTTTTGCCGGCACCATGGCCGACCGCATCGGTCGCCGCAAAGTGGTTCTTCTCAGCCTCGCCGGCTTTTCGGCGATGATGATCGCCTCGGCCATGACGCCGAATTTTCTCGCCTTCGAAATCACGCGCTTCTTCGCCGGTCTCGGGCTTGGCGCGCTGTTGCCGACAGTCACCGCGCTGGTGCTGGAATTTTCGCCGCCGCATCGCAGGGCGCAGGCCAATTCCCTGTCTTTCCTCGGTTATCTTGTCGGCGGCATCATTTCCGGCGTCATGGGCATTCTCCTTCTGGAGACCTATGGCTGGCGGCCCTTGATGCTGATCGGCGGCCTGCCGCTTATTCTTCTGCCGATCTTCATGCGTTTCCTGCCGGAATCGCCCGAATGGCTGGCAAGCAAGGGCCGGCAGGCGGAGGCCGACGGCATTTGCGACAGCTACGGTCTGCAACGCATCGTGCCGCATGCGAAAATTCAAAAGGGTGGTGTCGGCGCGCTGTTCTCGGAAGGCCGGTTGCTCTCGACGCTGAATGCCTGGGGCATCCACTTCTGCTCGCTGCTTCTCACCTTCGGCATGGTCAACTGGCTGCCCACCATCATGAACAAGATGGGTTATGATATCAGCTCGGCGCTCAGCTTTTCCGTCATGCTCAATGTCGGGGCCGCGATCGGCATCCTCATCGGCGGTCGGTTTGCGGATAAGGGCAATGTCAAGGTGGTCGTGGCGATCCTGTTTGCCATCGGCGCCGCCTCGATCTTCGCCCTGACGGTGAACAAGGGTCCGCTTCTTTATGCCTTCGTCGCTCTTGCGGGTGCGGGCACCATCGGCACCCAGATTCTCGCCAATGTTCTGGTGGGACGGCTCTACCCCGTTCATATTCGCGGCACGGGTCTCGGTTTTTCACTGGCGGTTGGGCGGCTCGGCGGCATTGCAGGCCCGATGATCGGCGGCCTCGTGTTGCAGCGGGGTCTGGCGCCCGAGTGGAATTTCTACATTTTCGGCTCGGTCGCACTTGTGGGGCTGATGCTGACGGTATTGACCCTGCTTTACCGCACCTCCGGTGACGCGCGGGTTTGA	MSTNYLSAASARTKNPAGVIATCGLMIMFDGYDLVVYGAVAPALLKEGAWALNPAMVGRAAALTLVGMLLGALFAGTMADRIGRRKVVLLSLAGFSAMMIASAMTPNFLAFEITRFFAGLGLGALLPTVTALVLEFSPPHRRAQANSLSFLGYLVGGIISGVMGILLLETYGWRPLMLIGGLPLILLPIFMRFLPESPEWLASKGRQAEADGICDSYGLQRIVPHAKIQKGGVGALFSEGRLLSTLNAWGIHFCSLLLTFGMVNWLPTIMNKMGYDISSALSFSVMLNVGAAIGILIGGRFADKGNVKVVVAILFAIGAASIFALTVNKGPLLYAFVALAGAGTIGTQILANVLVGRLYPVHIRGTGLGFSLAVGRLGGIAGPMIGGLVLQRGLAPEWNFYIFGSVALVGLMLTVLTLLYRTSGDARV	PGPT0005390_535	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_BENZOATE|DERIVATE_DEGRADATION	XENOBIOTIC_BENZOATE-DEGREDATION-BENZOATE_TRANSPORT,PGPT0005390-benK-K05548	NA	NA
BMS010_07498	339			hypothetical protein	ATGAGCGGCGGCAGCGACCGAACCCGGCTTTACGTGCGTTTCGCCGAAAGCGATCCCGCTGCGGCCGCACAACGGGCGGCGCAGATAGAGGCTCACAAGGCCCATCTGCGCAATGGCGAGGCGATGGCGGAAGGGTTCAAGATTCTTGTCTCCGGCCCGATGAGCGCGGTTGCCGACGGCCCATCCGCCGCCCTCATTATTGCGCAGGCGCGCTCGATCGAAGACGTCATCGCCTTCAGCGATGCCGATCCATTCGTCATTCACGGTGTTTATAACCGCATTCATATTTTGAGCTGGACGCCGACGTTGTCGACGATTTCCGGGCTGGAGCCTGGCTGA	MSGGSDRTRLYVRFAESDPAAAAQRAAQIEAHKAHLRNGEAMAEGFKILVSGPMSAVADGPSAALIIAQARSIEDVIAFSDADPFVIHGVYNRIHILSWTPTLSTISGLEPG				NA	NA	NA	NA	NA
BMS010_07499	882	npcC_2		Hydroxyquinol 1,2-dioxygenase	ATGAAGATGAGCAATGATGACGGCTACTTCGTCGAGGAACGTTCGGCTGAAACCGTGATCGCGCGTATGCGCGACTGTGACGATCCGCGTCTGAAGGAAATCATGGCGGTGGTGACGCGCAAGCTGCATGAGGCGGTGAAGGAAATCGAACCGACCGAGGAGGAGTGGATGAAGGCCATTCATTTCCTCACCGAGGTCGGCCAGATCTGCAATGAATGGCGGCAGGAATGGATCCTGTTTTCCGATATTCTCGGCGTCTCCATGCTGGTCGACGCCATCAACCATCGCAAGCCAAGCGGCGCGTCGGAATCGACCGTTCTCGGCCCCTTCCATGTCGCGGATGCGCCGGAAATGCCGATGGGTGCGAATATCTGTCTCGATGGCAAGGGCGAGGATATGGTGGTCACCGGACGCATCCTCGATACCGAGGGAGCGCCGGTCGCCGGCGCGCGCATCAATGTCTGGCAGGCCAATGACGAAGGTTTTTATGACGTGCAGCAGAAGGGCATCCAGCCCGATTTCAACCTGCGCGGCGTCTTCATCACCGGCGAGGACGGGCGCTACTGGTTCCGGGCCGCCAAGCCGAAATATTATCCGATCCCGGATGACGGTCCGGTCGGGCAGCTGCTGCGCGCCATGGGGCGGCATCCCTACCGGCCAGCGCATCTGCACTATATCGTTTCGGCCGAAGGCTTCGCCACGCTCGTCACCCATATCTTCGATCCCGACGATCCCTATATCCGTTCGGATGCGGTCTTCGGCGTAAAAGAAAGTCTGCTCGCCGATTTCCAGCGGGTGGATGATGCGCAGAAGGCGCGGGACCTGGGTTTCATCGGCGACTGGTTCTGGTCGGTGAACCACGATTTCGTGCTCGCCCGATGA	MKMSNDDGYFVEERSAETVIARMRDCDDPRLKEIMAVVTRKLHEAVKEIEPTEEEWMKAIHFLTEVGQICNEWRQEWILFSDILGVSMLVDAINHRKPSGASESTVLGPFHVADAPEMPMGANICLDGKGEDMVVTGRILDTEGAPVAGARINVWQANDEGFYDVQQKGIQPDFNLRGVFITGEDGRYWFRAAKPKYYPIPDDGPVGQLLRAMGRHPYRPAHLHYIVSAEGFATLVTHIFDPDDPYIRSDAVFGVKESLLADFQRVDDAQKARDLGFIGDWFWSVNHDFVLAR	PGPT0005215_154	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_BENZOATE_UTILIZATION,PGPT0005215-chqB-K04098	NA	NA
BMS010_07500	1056	linF	COG1454	Maleylacetate reductase	ATGCATCCGTTCGTCTATATGGCCGCTCCCGCGCGCATCGTCTTCGGCGCGGGCAGCTCGGAGCGCGTGGCGGAGGAAATCCGCCGCCTTGGCCTGTCGCAGGCGCTGGTGCTTTCCACGCCGCAGCAGAAGGGCGACGCGGAGGCGCTTGCCGCCCGGCTTGGCCGGCTTGCCGTGGGTGTCTTCTCCGATGCGGCCATGCATACGCCGGTCGAGGTGACGAAAAACGCGGTCGAAGCCTATCGTGCCACCGGATCGGATTGCGTTGTCGCGCTCGGCGGCGGCTCCACCACCGGTCTCGGCAAGGCCATTGCGCTGCGCACCGATGCGGCGCAGATCGTCATCCCGACCACCTATGCCGGCTCCGAGGTGACGCCCATTCTCGGCCAGACGGAAAACGGGGTGAAGACCACCATACGCGGGCCGGAAATCCTGCCGGAAGTGGTGATTTACGATGCGGAACTGACGCTTGGATTGCCGGTCGCCATCAGCATGACGAGCGGGCTGAACGCCATGGCGCACGCGGCGGAGGCGCTTTACGCGCAGGACCGCAATCCCATCGCCAGCCTGATGGCGGTTGAGGGATTGCGGGCGATGATCGAGGCGCTTCCCGGCGTGAAGGCTGGGCCGCAGGATGTCAAGGCGCGCGAGACCGCGCTTTATGGTGCGTGGCTGTGCGGCACGGTGCTTGGCGCCGTCGGCATGTCGCTGCATCACAAGCTTTGCCACACGCTGGGCGGCAGTCTCGATCTGCCGCACGCGGAAACCCATGCGGTGCTTCTGCCGCATACCATCGCCTATGTGGAACAGGCGGTACCGGATCTGCTTGCGCCGCTTGCTTCTCTAATGGGCGGCAGGGCAGGGACGGGGCTCTATGATTTTGCCGCCCGGCTTGGCGCGCCCTCGAGCCTTGCCGCTCTCGGGGTCCGGTCGGACGATCTCGACCGCATGGCGGAGCTTGCAACGGCCAATCCTTACTGGTGCCCGCGGCCAATCGAAAAAACTGCGATCCGCGACCTTTTGCAACGCGCCTTCGAGGGCGCGCGGCCGGAGTGA	MHPFVYMAAPARIVFGAGSSERVAEEIRRLGLSQALVLSTPQQKGDAEALAARLGRLAVGVFSDAAMHTPVEVTKNAVEAYRATGSDCVVALGGGSTTGLGKAIALRTDAAQIVIPTTYAGSEVTPILGQTENGVKTTIRGPEILPEVVIYDAELTLGLPVAISMTSGLNAMAHAAEALYAQDRNPIASLMAVEGLRAMIEALPGVKAGPQDVKARETALYGAWLCGTVLGAVGMSLHHKLCHTLGGSLDLPHAETHAVLLPHTIAYVEQAVPDLLAPLASLMGGRAGTGLYDFAARLGAPSSLAALGVRSDDLDRMAELATANPYWCPRPIEKTAIRDLLQRAFEGARPE	PGPT0005915_543	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_CHLOROBENZENE_DEGRADATION,PGPT0005915-EC_1_3_1_32-K00217	NA	NA
BMS010_07501	984	ligJ		2-keto-4-carboxy-3-hexenedioate hydratase	ATGCAAGGCAAGGTCGCTCTCGAGGAGCATTTCGCAATCCCGGAAACGCTTCAGGATTCGGCCGGGTTCGTGCCCGGCGATTACTGGAAGGAACTGCAGCACCGCCTGCTCGACATTCAGGATACGCGCCTGAAGCTGATGGATGCGCATGGCATCGAAACCATGATCCTGTCGCTGAACGCGCCGGCGGTGCAGGCCATTCCCGACAGGAAGAAGGCGATCGAGATCGCGCGGCGAGCGAACGACGTCCTCGCCGAAGAATGCGCCAGGCGGCCGGATCGTTTCCTCGCCTTCGCAGCCCTGCCATTGCAGGACCCTGACGCGGCGACGCAGGAGCTACAGCGCTGCGTCAACGATCTCGGTTTCGTCGGCGCGCTCGTCAATGGTTTCAGCCAGGAGGGCGATGGCCAGACGCCGCTTTATTACGACCTGCCGCAATATCGCCCATTCTGGGGCGAGGTGGAAAAGCTCGATGTGCCCTTCTACCTGCATCCGCGCAACCCGCTGCCGCAGGATTCGCGCATCTATGACGGCCATCCCTGGCTGCTCGGCCCCACCTGGGCTTTCGCGCAGGAAACGGCCGTGCACGCGTTGCGTCTGATGGCGTCCGGCCTGTTCGACGAGCATCCGCGGCTCAACATCATCCTCGGGCATATGGGCGAGGGCCTGCCCTACATGATGTGGCGCATCGACCACCGTAATGCCTGGGTGAAGCTGCCGCCGCGTTATCTGGCCAAGCGCCGTTTCGTGGATTATTTCAACGAGAATTTCCACATCACCACCTCGGGCAATTTCCGCACCCAGACGCTGATCGACGCGATTCTGGAAATCGGTGCGGATCGCATCCTGTTTTCCACGGACTGGCCCTTCGAGAATATCGACCACGCCTCCGACTGGTTCAACGCGACGACCATCGCCGAGGCGGACCGGGTGAAGATCGGTCGCACCAATGCGCGCCGCCTGTTCAAGCTCGACGGGCGTTGA	MQGKVALEEHFAIPETLQDSAGFVPGDYWKELQHRLLDIQDTRLKLMDAHGIETMILSLNAPAVQAIPDRKKAIEIARRANDVLAEECARRPDRFLAFAALPLQDPDAATQELQRCVNDLGFVGALVNGFSQEGDGQTPLYYDLPQYRPFWGEVEKLDVPFYLHPRNPLPQDSRIYDGHPWLLGPTWAFAQETAVHALRLMASGLFDEHPRLNIILGHMGEGLPYMMWRIDHRNAWVKLPPRYLAKRRFVDYFNENFHITTSGNFRTQTLIDAILEIGADRILFSTDWPFENIDHASDWFNATTIAEADRVKIGRTNARRLFKLDGR	PGPT0005110_57	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYBENZOIC_ACID_GALLATE_RESISTANCE,PGPT0005110-graF-K20941	NA	NA
BMS010_07502	1230	hsaA		Flavin-dependent monooxygenase, oxygenase subunit HsaA	ATGAACGATATGAGCCATGCGCCGCTGCCGGCGCAAACGAACCCGCGTGCCCGCCTCGCAAGCCGCGTTACCGGCATAGCCGATCTTTTCCGGGCGAGCGCCAGACAGACGGAGGAGGCCCGGCGCGTTCCGGCCAGCCACATCGAGGCGCTTCGTGGAATCGGTTATTTCGATATCGTCAAACCCCGCGCCTTCGGCGGCAAGGGCGCTGACTTCGCCGAGCTCGTCGAGGCCAATATCGAGCTTTCGGCCGCCTGTGCGTCGACCGGCTGGGTCGCTGGCCTGCTGTCGGCCCATCAATGGCTGCTGGCGATGTTTCCGGAAGAGGCGCAGACCGATGTCTGGGGTGAAAACCCCGATGCACTGCTATGCGGCTCCTATGCGCCGGTGAAGATGGCGGAGCTCGCGGATGGCGGTTACCGCCTCAGCGGCAAATGGGCCTTCGCCTCGGGCTGCGAGAATGCGCAATGGTCTCTCTGCGCCGCCATCCTGCCGCCGCAGGGCGAGGGAAAGCCGGTTCCGGCCTTCCTGCTCGTTCCCGCGAGCGAATATACCATTGAAGATACCTGGCATGTGGTGGGGCTGGCCGGCACGGGTTCCAAGACGCTCGTTCTCGACGATGTCTTCGTTCCCGGACATCGGGTTCTGACCTTTCCGGACGCCACCAGCGGAAAGACGCTCGGTGGAAAATATTATGCGGAGGAAGGCCTGTTCAACATGCCGCTTCTGACCGGCATTCCCTCCTGTCTCGCGGCGGCCGGCGTCGGCGCGGCCAGGGGTGCGCTTGCGGCTTACGTCGATCATGTCGGCGGCCGGGTGACGCGCGGTGCGGTGGCGGGCGGCAATAATCGCATGGCCGAATTTCCGACCATCCAGCTGCGCGTTGCGGAAGCAGCGGCGAGCGTCGATGCGGCTTGCGAAATATTGCTGCGCGATGTTGCCCGCGCACAGGCGCTCTCGCAGGCAAGGATCGATGGCCGGGCGGAATTTACGGTGGATGACCGTCTTCTCAGCCGTCGCGGTCAGTCCTTTGCGGTGTCTCTCGCTCTGCGCGCCGTGCAGGCGCTCAACGATTCCACCGGCGGCGTCGGGCTCGATCTTTCCAACCCGGTGCAGCGGGCTTGGCGGGATGCGAACGCGGTCGGCCGCCATATCAGCATGAACTGGGACGCCGTGGGCACCATGATCGGCCAGAGCATGCTCGGGCTGGAACCCAAGGGCCAATATTGA	MNDMSHAPLPAQTNPRARLASRVTGIADLFRASARQTEEARRVPASHIEALRGIGYFDIVKPRAFGGKGADFAELVEANIELSAACASTGWVAGLLSAHQWLLAMFPEEAQTDVWGENPDALLCGSYAPVKMAELADGGYRLSGKWAFASGCENAQWSLCAAILPPQGEGKPVPAFLLVPASEYTIEDTWHVVGLAGTGSKTLVLDDVFVPGHRVLTFPDATSGKTLGGKYYAEEGLFNMPLLTGIPSCLAAAGVGAARGALAAYVDHVGGRVTRGAVAGGNNRMAEFPTIQLRVAEAAASVDAACEILLRDVARAQALSQARIDGRAEFTVDDRLLSRRGQSFAVSLALRAVQALNDSTGGVGLDLSNPVQRAWRDANAVGRHISMNWDAVGTMIGQSMLGLEPKGQY	PGPT0005115_33	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYBENZOIC_ACID_GALLATE_RESISTANCE,PGPT0005115-graA-K20942	NA	NA
BMS010_07503	540	ctcQ		Flavin reductase (NADH)	ATGACATCAGCATTGTTTGGCCTGAGCAGCCTTGCGCCTGAAGGCGTCGGTCAGAATTTCCGTTCAACAATGCGTCGTTTTCCGGCGACTGTGACGGTTATCACGGCCTGTGCTTCGGGTGATCAGCGCGATCACGGCATGACGGTCACGGCCGTCACTTCGGTCTCGATGGAGCCGCCGTCCCTGCTGGTTTGCCTGAACAATCGCACCCTGCTGCATGAACTGCTGCTGTGCCGACCCGATTTCATCGTCAATGTGCTGACGCAGGATCAGATTGCCCTGTCGGATGCCTTCAGCGGCAAGGTGTCGCCGGAAGAGCGTTTTCGCGACGGTCAATGGCAGCGCCACGACAATGGCGTTCTCTATCTGCCCACGGCCCATGCCGCCATCGCCTGCCGCCGGGTCGCGGCCATGCCTTACGGAACCCATACCGTCTTCATCGGGCAGGTCGTCTCGGCCGATGTCAGCGAGACGACACGGCCGTTGCTTTACGAAAACGCCCAATATTGCTCCGCAAGCCCCGCGAGCCTGCCCGCCTGA	MTSALFGLSSLAPEGVGQNFRSTMRRFPATVTVITACASGDQRDHGMTVTAVTSVSMEPPSLLVCLNNRTLLHELLLCRPDFIVNVLTQDQIALSDAFSGKVSPEERFRDGQWQRHDNGVLYLPTAHAAIACRRVAAMPYGTHTVFIGQVVSADVSETTRPLLYENAQYCSASPASLPA	PGPT0021265_542	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021265-rutF-K09024	NA	NA
BMS010_07504	432			hypothetical protein	GTGTCCTATCAATTCACCGATTCGGTACCCTACCTGCTCAACTGGGTGGGCGTTCGGCTTGGCGAGCGCTTTTCGGTAAGACTGGCCTCCTATGACATCACCCTGCCGATGTATCGCGTGCTGGCGACGCTGCGGCAGCAGGAGAGCAAGACGCTGACCGAGCTTTCGGACATGGTGTCGGTGGAGATTTCCACGCTGTCCCGGCTTGTGGGGCTGATGGTGCGGCGTAACCTCGTCAGCCGCGAACGGCCTCTCGACAATGCACGTATCGTGCGCATCACCCTCACCCCGAAGGGCGAAGAACTGGCCGACGAACTCATGCCCATCGCCGCCATGTTCGAAAAAACCGCAATCGAAGGCCTCGACCCGGCCGAAGTGAAACTCTTCAAAAGCATACTGCGCCATATCGGCCGCAACATTGCCGGCCTCTGA	MSYQFTDSVPYLLNWVGVRLGERFSVRLASYDITLPMYRVLATLRQQESKTLTELSDMVSVEISTLSRLVGLMVRRNLVSRERPLDNARIVRITLTPKGEELADELMPIAAMFEKTAIEGLDPAEVKLFKSILRHIGRNIAGL	PGPT0013155_3908	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
BMS010_07505	732			hypothetical protein	GTGTCAATTTACAAAACACAATTGTCTTTCCTTTTGACATGGGTGTACATCCCGCTTGTCGTGAAGAGACCGATTTGCTACGAACGCGTCATGGACGCGACATTGAACGACACCGGCTGGCGTGGATCGCAGGAGGGGTGGCTTGAGGCCGCCTATCAGGCTTTGCTGGAATCGGGGGTGGATTCCGTCAAAATCCTGCCTTTGGCGAAAAAGCTAAATCTGTCGCGCACGAGCTTCTACTGGTTCTTCAAGGACCGGGAGGAATTGCTGGCCGCGCTTCTCGCCCGCTGGCGGGAAAAAAATACCGGAAGCATCGTCCGGCAATCCGAAGCCTATGCCGAGACGCTGGCCGAAGCCATGCTGAATGTTTTCGATTGCTGGCTGGATCCCGCGCTTTTCGACAGCAGATTTGAATTCGCCGTTCGAAGTTGGGCCCTTCAGTCCGACGAGATTCTTGCGGAGGTTCGCAAGGCCGACGAGATGAGAATGACGGCGCTTGCACGCATGTTCGTGCGGTTCGGCCACAATGAAAACACGGCGGATGTGCGTGCCCGGACCACCTATCTGGTGCAGATCGGCTACATTTCCATGCAGTCCGAGGAAGATGTGGCGGTGCGGATGCAGAGGATTCCGGACTATATCGCCATCTATACCGGTGAGATGCCGCAGCAGCGTGAGCTTGACCGATTTTATGCGAGGCATGGGTACAGGCCTGCAACGGCGCAACCGTGA	MSIYKTQLSFLLTWVYIPLVVKRPICYERVMDATLNDTGWRGSQEGWLEAAYQALLESGVDSVKILPLAKKLNLSRTSFYWFFKDREELLAALLARWREKNTGSIVRQSEAYAETLAEAMLNVFDCWLDPALFDSRFEFAVRSWALQSDEILAEVRKADEMRMTALARMFVRFGHNENTADVRARTTYLVQIGYISMQSEEDVAVRMQRIPDYIAIYTGEMPQQRELDRFYARHGYRPATAQP				NA	NA	NA	NA	NA
BMS010_07506	2037	stcD_1		putative N-methylproline demethylase	ATGTCGAGCGATCCCCTTCTTCAGCCTTACCAGCTAAAACACCTCACACTGCGCAACCGCATCATCGTCACCTCGCACGAACCCGCCTATCCCGAGGACGGCATGCCGAAGGGGCGTTACCGCGCCTACACGGTGGAGCGGGCAAAGGGCGGCGTTGCGCTCACAATGACGGCCGGCTCCGCCGCTGTCTCCAAGGACAGCCCGCCCGTCTTCAACAACCTGCTCGCCTACAAGGATGAAATCGTCCCGTGGATCCGGGAAATGACCGACGCCGTGCATGAAGAGGGTGCGGCTATCATGATCCAGCTCACGCATCTCGGCCGCCGCACCCGCTGGGACAAGGGCGACTGGCTGCCGATCCTTGCGCCATCCCATCACCGCGAAGCGGCGCATCGGGCTTTTCCCAAGAAGATCGAGGACTGGGATATCGAGCGCATCATCAAGGACTTCGCCGACGCCGCCGAACGCATGAAGGCGGGCGGAATGGACGGGGTGGAGCTGGAAGCCTATGGCCATCTGATCGACCAGTTCGTCTCGCCGCTGACCAACGAACTGGACGGCCCCTATGGCGGCCCGCTTGAAAACCGCATGCGTTTCTGTCTCGACGTTTTCAAGGCGATGCGCGAACGCGTGGGCGACGATTTCATCCTCGGTGTCCGCTACACCGCCGACGAATGTCTTGAGGGCGGCACCCGACAGGCAGAAGGCATCGAAATCGCCAGACGCCTGAAGGACAGCGGCCTGATCGATTATCTCAATGTCATCAGGGGTCATATCGACACCGACCCGGGCCTGACCGACGTCATCCCCATTCAGGGCATGGCCAATGCACCGCATCTCGATTTCGCCGGTGAAATCCGCGCCGCGACCAGTTTCCCGACATTCCACGCCGCCAAGATCCCCGATGTCGCCACCGCGCGCCACGCCATCGCCGCCGGCAAGGTGGACATGGTGGGCATGACCCGCGCCCACATGACCGATCCGCATATCGTGCGCAAGATCATGGAAAAACGCGAGGAAGATATTCGCCCCTGCGTGGGCGCCAATTATTGTCTCGACCGCATCTATCAGGGCGGTCTCGCCTTCTGCATTCACAATGCGGCAACGGGCCGTGAGGAAACCATGCCGCACGAGATACCCAAAGCGGCGGAACGCCGGAAGGTGGTGATCGTCGGCGCCGGACCGGCCGGGCTCGAGGCCGCGCGCGTCTGTGCCGAACGCGGCCATGAGGTCGTCGTGTTTGAGGCCGCCAACAATCCCGGCGGCCAGATCCGGCTGACGGCGCAAAGCGAACGCCGCCGGGAGATGATCAGCATCATCGACTGGCGCATGAGCCAGTGCGAGAGACTGGGCGTTACCTTTCACTTCAACAACTGGGCCGAAGCGGACACAGTTCTTTCGGAGAACCCTGACGTGGTCATCATCGCCACGGGCGGCTTGCCGCATACCGATGTACTTTCCAGCGGCAACGATCTCGTCGTCTCGGCATGGGATATCATTTCAGGAGACGTCAAGCCGGGAACGAATGTACTGGTTTTCGACGATGCCGGCGATCATGCCGGTCTGCAAGCCGCCGAATTCCTCGCAAAAGCCGGGGCGAAAGTGGAGATCATGACGCCCGACCGCGCCTTCGCCCCGGAAGTCATGGCCATGAACCTCGTTCCCTATATGCGCTCGCTGCAAAAACGCGATGTGACTTTCACCGTTACCTACCGGCTGGAAGCGGTGGAAAGAAACGGCAACCAGCTCATTGCCCATGTCGGCAGCGATTATGGCGGCGTGACGAAATCGAGAACCGTCGATCAGATCGTCGTCAACCACGGCACCATCCCGCTGGACGACCTCTATTTCGAACTCAAACCCGGTTCGAAAAACCTCGGGGAAATCTCCTACGACGCCCTGCTTGCAGGAGCGGCCCAAGCGGTCGAGCGCAACCCGGAAGGCGCCTACCGGCTCTTCCGGATCGGCGATGCGGTCGCCGCACGCAATACCCATGCGGCGATCTACGATGCGCTCCGTCTGGCGAAGGATATTTGA	MSSDPLLQPYQLKHLTLRNRIIVTSHEPAYPEDGMPKGRYRAYTVERAKGGVALTMTAGSAAVSKDSPPVFNNLLAYKDEIVPWIREMTDAVHEEGAAIMIQLTHLGRRTRWDKGDWLPILAPSHHREAAHRAFPKKIEDWDIERIIKDFADAAERMKAGGMDGVELEAYGHLIDQFVSPLTNELDGPYGGPLENRMRFCLDVFKAMRERVGDDFILGVRYTADECLEGGTRQAEGIEIARRLKDSGLIDYLNVIRGHIDTDPGLTDVIPIQGMANAPHLDFAGEIRAATSFPTFHAAKIPDVATARHAIAAGKVDMVGMTRAHMTDPHIVRKIMEKREEDIRPCVGANYCLDRIYQGGLAFCIHNAATGREETMPHEIPKAAERRKVVIVGAGPAGLEAARVCAERGHEVVVFEAANNPGGQIRLTAQSERRREMISIIDWRMSQCERLGVTFHFNNWAEADTVLSENPDVVIIATGGLPHTDVLSSGNDLVVSAWDIISGDVKPGTNVLVFDDAGDHAGLQAAEFLAKAGAKVEIMTPDRAFAPEVMAMNLVPYMRSLQKRDVTFTVTYRLEAVERNGNQLIAHVGSDYGGVTKSRTVDQIVVNHGTIPLDDLYFELKPGSKNLGEISYDALLAGAAQAVERNPEGAYRLFRIGDAVAARNTHAAIYDALRLAKDI	PGPT0021970_108	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_STACHYDRINE_USAGE	PLANT_DERIVED_STACHYDRINE_DEGRADATION,PGPT0021970-hpbA-K22551	NA	NA
BMS010_07507	1062	potA_10	COG3842	Spermidine/putrescine import ATP-binding protein PotA	ATGATTTCCGTAAAGCCCGGCTCCGTTACCTTTCAGAATGTCCGCAAGACCTTCGGCGCCTTCACCGCCATTCCCGACCTTTCGCTCACCATCGAGCCCGGCACGCTGGTAACCCTGCTCGGTCCCTCCGGCTGCGGCAAGACGACGACGCTGCGCATGCTGGCGGGCCTCGAGCATCCGACCTCGGGCCGTATTCTCATCGGCGACAAGGATGTGACCATGCTGCCCGCCAATGAGCGCGATGTCTCGATGGTCTTCCAGTCCTATGCGCTTTTCCCGCATATGACGGCGCTCGACAATGTCGCCTATGGTCTGCAATCCTCCGGGCTGCGCAAGGCGGAAGCGCGGGAAAGGGCGGAAGAGGGGCTGAAGCTCGTCGGCCTTGCCGACATGGGCCACCGCCTGCCTGCCGAACTTTCCGGCGGCCAACAGCAGCGCGTGGCGGTTGCCCGCGCTCTTGTGCTCGAGCCGCAGGTGCTGCTGCTGGACGAGCCGCTTTCCAACCTTGATGCCCGCCTCCGCCGCCGGGTCCGCACCGAAATCCGCGAATTGCAGCAGCGGCTTGGCTTTACTGCCGTCTATGTCACGCATGATCAGGATGAGGCGCTGGCCGTTTCCGACCGGATCATCGTGATGAAGGATGGCGAAATCGCCCAGTCGGGTGCGCCACGCGATCTTTACGAGGCCCCGGCCTCCGCTTTCATCGCCGATTTCATGGGTGAGGCGAATGTCGTCGGTTGCGAGGTCATTGGCGTTGAGGGCGCCGATGCGCTGATCCGCGTCGGGGGGATCGATCATCGGGTCGCGGCCCGCAACGCCCGGCCGGGTCCCGCAGAGCTTGCGGTCCGCCCCGGCTCGATTTCCATCGGACAACCGGGTGCGCAGGGGCTTGCCGGAAGGGTGCTGCACAGCGCCTATCTCGGCGGTCACGTTGAATATGAGGTGGAAACCGATATCGGTACGCTTTTCATCGTCGACCATGCCGTGGAGACCAGCCTGCCGGCGGCGAGCGATGTGACGTTGGGGTTCAAGAACCGGGGCATTGCCTTGATTCAGGCTTGA	MISVKPGSVTFQNVRKTFGAFTAIPDLSLTIEPGTLVTLLGPSGCGKTTTLRMLAGLEHPTSGRILIGDKDVTMLPANERDVSMVFQSYALFPHMTALDNVAYGLQSSGLRKAEARERAEEGLKLVGLADMGHRLPAELSGGQQQRVAVARALVLEPQVLLLDEPLSNLDARLRRRVRTEIRELQQRLGFTAVYVTHDQDEALAVSDRIIVMKDGEIAQSGAPRDLYEAPASAFIADFMGEANVVGCEVIGVEGADALIRVGGIDHRVAARNARPGPAELAVRPGSISIGQPGAQGLAGRVLHSAYLGGHVEYEVETDIGTLFIVDHAVETSLPAASDVTLGFKNRGIALIQA	PGPT0003735_2460	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003735-afuC|fbpC-K02010	NA	NA
BMS010_07508	2232			hypothetical protein	ATGACACGTGGCAATCGCAGGCTGGACATCGTCCTGGCGCTCGGGGCTTTTGCCCTCATTCTTCTTCCCTGGTATCGCATCGAAGGCGGCTTTTTCAGCTTCCGCTGGCTGTCCGGATTTTTCTCTTCCGCCAGCAATGCGCCCGGTGTGCTGCAAATATTGTCCTATGGAAAACCATGGCTGGTCGGCGTTGCTATCTTTTTCCTCGCCGCATGCCTTGTCCGGTCCATCCGTGATCCGATGCGGCGCGGCGGTCTGCTTGCCGCCGTCGGCGCTGCCGGGCTCGTTTTCCTCGCCTTGCAGGGGCTGGCCATCGGCTTTAGCGGCTGGAGCTGGACGGTGAGCGAAAACCTCTTCGGCATGCTTGCCGATGGCCAGCCCTCCATGGGTGCCGGTGCCGTCGTCATCTCGTTCGTCTTCGTGCTGCTTTTTGCCTTCGGTCTTGCCGAGCGCGGCGTCATGAAAGGCGACGCCTTCGTCGTCGGTGCCATTTCCGTTCTGGTTTTCCTCGTCACGGTTTTTGTCTTTTATCCGATCGGCAGTATGCTGGTCGCATCCGTTCAGGATTTCGATGGCTCCTTCAATGCCGATGGTTTCATCCGCAATATTCAGGATCCCGGCATCTGGAGCCTTGGCTGCGTGGTGGGCGAAGAGCGTTGTGGCGTTGCCTGGCGGACGCTGTTTCTTGCCCTGATGACCGCTTTCGGTTCGACCGTGCTCGGTCTCGGCTTCGCGCTGATCGCCACCCGCACCCGCTTTCCCTTCAAGAAGGGCCTGCGGCTTCTGACGGTTCTGCCGATCATCACACCGCCTTTCGTCATCGGCCTTGCCCTGACGCTGCTTTTCGGCCGTGCCGGTGTCGTCACCGAGTGGCTTTCCTATCTCTTCGGCATTGAGCCGGGCCGCTGGCTTTATGGCATGACCGGCATCTGGATCGCGCAGGTTCTTTCCTTCACGCCCATCTCGTTCCTGGTGCTGATCGGCGTGGTTGAAGGCGTCAGCCCGTCGATGGAAGAAGCCTCGCAGACGCTGCGCGCCGACCGCTGGCGCACCTTCTGGCGGGTGTCGCTGCCGCTGATGAAACCCGGTCTCGCCAATGCGTTCCTCATCGGCTTTATCGAGAGCATGGCGGATTTCGGCAATCCGCTGGTGCTTGGCGGCACCCATGGCGTGCTGTCGACGGAAATCTTCTTTGCCGTCGTCGGCTCGCAGAACGATCCGTCGCGTGCTGCGGTTCTGGCGATCATCCTCCTGTGCTTCACGCTTTCGGCCTTCCTTGCCCAACGCTTCTGGCTGGCAGGCAAGAATTTCGCCACGGTGACGGGCAAGGGTGACAGCGGCGCGCATATCGCGCTACCGCGCGGCCTGTCCATCGGCGTTCACGCCGTCGTGGTGCCGTGGATGGTCTTCACCATCGTTGTTTATGGCATGATCCTTGTGGGCGGTTTCGTGAAGACATGGGGTCTCGACAATTCCCTGACGCTCGACCACTACATCCGCGCCTTTTCCGTCAGCTTCTCCAATGGCTCGATTGCCTGGACGGGCGTTGCCTGGAACTCGTTCTGGACGACCATGAAGATCGCGCTGGTTTCCGCGCCGCTCACCGCCGCCGTCGGTCTTTTGACCGCCTATATCATCGTGCGGCAGAAATTCGCCGGGCGGAACCTGTTCGAATTCGCGCTGATGATGAGTTTTGCCATTCCCGGCACGGTCATCGGCGTCAGCTATATCATGGCGTTCAACCTGCCGCCGGTGGAAATGACCGGCTCGGCGCTGATCCTCATCGCCTGCTTCGTGTTCCGCAACATGCCGGTCGGCGTGCGCGGCGGCATCGCGGCGATGAGCCAGCTCGACAAGAGCCTCGACGAGGCCTCGCTGACGCTGCGGGCCAATAGTTTCCGCACCATCCGCAAGGTCATCCTGCCGCTCTTGAGGCCCGCAATCACGGCCGCACTGGTCTATTCCTTCGTGCGCGCCATCACCTCCATCAGCGCCGTTATCTTCCTCGTCAGCGCCGAATACAACATGGCGACCTCCTACATCGTCGGCCTTGTCGAGAACGGTGAATATGGGGTGGCGATTGCTTATTCCTCCATGCTGATCGTGGTGATGATCACCGTTATTACCGGCTTCCAGCTCATTGTCGGCGAGCGTCGCCTGCGGCGCGAAAACCGCGTCGCCGGCCTGCCTTCCGCTTCCTCCGTTCCTCTCGCTCAGGAGAAAACCGCATGA	MTRGNRRLDIVLALGAFALILLPWYRIEGGFFSFRWLSGFFSSASNAPGVLQILSYGKPWLVGVAIFFLAACLVRSIRDPMRRGGLLAAVGAAGLVFLALQGLAIGFSGWSWTVSENLFGMLADGQPSMGAGAVVISFVFVLLFAFGLAERGVMKGDAFVVGAISVLVFLVTVFVFYPIGSMLVASVQDFDGSFNADGFIRNIQDPGIWSLGCVVGEERCGVAWRTLFLALMTAFGSTVLGLGFALIATRTRFPFKKGLRLLTVLPIITPPFVIGLALTLLFGRAGVVTEWLSYLFGIEPGRWLYGMTGIWIAQVLSFTPISFLVLIGVVEGVSPSMEEASQTLRADRWRTFWRVSLPLMKPGLANAFLIGFIESMADFGNPLVLGGTHGVLSTEIFFAVVGSQNDPSRAAVLAIILLCFTLSAFLAQRFWLAGKNFATVTGKGDSGAHIALPRGLSIGVHAVVVPWMVFTIVVYGMILVGGFVKTWGLDNSLTLDHYIRAFSVSFSNGSIAWTGVAWNSFWTTMKIALVSAPLTAAVGLLTAYIIVRQKFAGRNLFEFALMMSFAIPGTVIGVSYIMAFNLPPVEMTGSALILIACFVFRNMPVGVRGGIAAMSQLDKSLDEASLTLRANSFRTIRKVILPLLRPAITAALVYSFVRAITSISAVIFLVSAEYNMATSYIVGLVENGEYGVAIAYSSMLIVVMITVITGFQLIVGERRLRRENRVAGLPSASSVPLAQEKTA	PGPT0003730_67	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003730-afuB|fbpB-K02011	NA	NA
BMS010_07509	1026		COG1840	putative protein	ATGCGACTGACGATACTCTCCACCCTGCTTTTTGCCGGTACGGCACTCAGTGCCGTTTCCGCGCAGGCGGCGGGCGAACTCAACCTGATCTGCTCGGCCGATGTCGTCATCTGCGAACAGATGAAGGGCGATTTTGAAAAGTCACACGACATCAAGGTCAATATGGTGCGCCTGTCTTCGGGCGAGACCTATGCCAAGGTGCGCGCGGAAGCCCGCAACCCGAAGACCGACATCTGGTGGGCCGGCACCGGCGATCCGCACATGCAGGCGGCGTCCGAGAACCTGACGCTCGAATACAAGTCGCCGATGCTGGACCAGTTGCAGGACTGGGCCGTGAAGCAGGCGGAAAGCACCGGCTACAGGACGGTCGGCGTTTATGCCGGCGCGCTGGGCTGGGGCTACAACACCGAAATCTTCAAGTCCAAGGGTTACAAGGAGCCGAAGTGCTGGGCCGACCTGCTGGCGCCGGAACTGAAGGGCGAAATCCAGATCGCCAATCCGAATTCGTCCGGCACCGCCTATACGGCGCTTGCCTCGCTGGTGCAGATCATGGGCGAAGATCAGGCGATTGATTATCTGAAGAAGCTCAACGCCAATATTTCTCAATATACCAAGTCTGGCTCCGCACCGGTCAAGGCGGCGGCGCGCGGCGAAACGGCGCTCGGCATCGTCTTCATGCATGATGCGGTGGCGCAGACGGCGGAAGGTTTCCCCGTCAAGTCCATCGCGCCCTGCGAAGGGACGGGTTATGAAATCGGCTCCATGTCGATCATCAAGGGCGCCCGCAACCTCGACAATGCGAAGACCTGGTATGACTGGGCGCTGACGCCGGAGGTGCAGTCGCGCATGAAGGATGCCAAGTCCTTCCAGCTTCCCTCCAACAAGACGGCGGAAGTGCCGAAGGAAGCGCCGAAGTTCGAAGACATCAAGCTCATCGATTACGACTTCAAGACCTATGGCGATCCGGCCAAGCGCAAGGCGCTGCTGGAACGCTGGGACCGTGAGGTCGGTGCGGTCGCCAACTGA	MRLTILSTLLFAGTALSAVSAQAAGELNLICSADVVICEQMKGDFEKSHDIKVNMVRLSSGETYAKVRAEARNPKTDIWWAGTGDPHMQAASENLTLEYKSPMLDQLQDWAVKQAESTGYRTVGVYAGALGWGYNTEIFKSKGYKEPKCWADLLAPELKGEIQIANPNSSGTAYTALASLVQIMGEDQAIDYLKKLNANISQYTKSGSAPVKAAARGETALGIVFMHDAVAQTAEGFPVKSIAPCEGTGYEIGSMSIIKGARNLDNAKTWYDWALTPEVQSRMKDAKSFQLPSNKTAEVPKEAPKFEDIKLIDYDFKTYGDPAKRKALLERWDREVGAVAN	PGPT0003725_3048	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003725-afuA|fbpA-K02012	NA	NA
BMS010_07510	966		COG1840	putative protein	ATGGCCGAACCGAAGTTGAACGTCCTTTGCGGCGTCGACGAGGCCTGGTGCTTGACCATGCAGCGGGCTTTCGAAGCCAGGGCCGGTCTTGAGATTTCGATGGTGCGCAAGAGCACCGGCGAAATTCTCGATCAGATTCGTGCTGAACGATCCCATCCCACTGTCGATGTCTGGTGGGGCGGTACTGGCGACACCCATTTGCAGGCGGGTTCTGAAGGGTTGCTGGATGAATACCGGCCCGCCCACCAGCAGGATTTGCTGCCCTGGGCGCAGAATTTCTCGGTGATGTCGGGATCGCGGTCTGCGGGAATTTATGCCGGTGCGCTGGGCTTTGCCTATAATTCGGAACTGCTTGCGAAGAACAATCTGCCGGCGCCGACCTGCTGGAAGGATCTGGCGAAGGATGTCTATCGCGGCCATATCCTGACCGGCAATCCGAACTATTCAGGCACGGCCTTCACCATGCTGGCCACTCTCGTCCAGCTGTTTGGCGAGGAGGAGGCCTTCGGTTTCATGGAAAAGCTCAACCTGAACATCGTGAGCTATACCAAGGTTGGTGCAGCGCCCGTCAAGGCGGCGGCGCGGGGCGAGATCATGATCGGGATTTCCTTCATGCATGATGCCGTGACCCAGAAGATCGAAGGTTTTCCGCTGGTGATCGTCGCGCCGTGCGAGGGCACCGGTTATGAAATCGGGGCTGTCAGCATCGTCAAGGGCAATCGCAACGCGGCGCTTGCGCAGGATTTCGTGGAATTTGCGCTGAGCCCGGAAGGGCAGGCGACCGGGGCTGCTGCCGGCCAGAACCAGGTGCCTTCCAATGCCCGGGCGACATTGCCGCTGACCGCACCTGATATATCGATGATCAAGATGGTGGATTACGACTTCGCCACCTTCGGACAGCCGGAAGAGCGAAGTCGGTTATTGAGCCGCTTCGACAGCGAAATCCACCCGAGCCAGACCCAGTAG	MAEPKLNVLCGVDEAWCLTMQRAFEARAGLEISMVRKSTGEILDQIRAERSHPTVDVWWGGTGDTHLQAGSEGLLDEYRPAHQQDLLPWAQNFSVMSGSRSAGIYAGALGFAYNSELLAKNNLPAPTCWKDLAKDVYRGHILTGNPNYSGTAFTMLATLVQLFGEEEAFGFMEKLNLNIVSYTKVGAAPVKAAARGEIMIGISFMHDAVTQKIEGFPLVIVAPCEGTGYEIGAVSIVKGNRNAALAQDFVEFALSPEGQATGAAAGQNQVPSNARATLPLTAPDISMIKMVDYDFATFGQPEERSRLLSRFDSEIHPSQTQ	PGPT0003725_4626	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003725-afuA|fbpA-K02012	NA	NA
BMS010_07511	735	ompR_6		Transcriptional regulatory protein OmpR	GTGCTTAATCAGAAGGTTCGCATTCTGATCGTCGAGGACGATCCGGATATGGCCGAGCTCATCTCGGACCTCATCGAGGCGGAGGGCTGGCTGCCCACCTGCGCGCGCTCCGCCGAGGAGGCGGACGAGATATTGGCAAGGGACAGGATGCAGCTTGTGCTGGTCGATCACAATCTGCCTGGCACGTCCGGACGCACCTTCGCCCAGCGGCTGCGCAGCCAGATCGACATCGGCATCGTCATGGTCACCGCCGCCGGCAGCGCCGCCGACCGGGTTCTCGGTCTGGAAACAGCCGCCGACGATTATGTGGTCAAACCCTTCGAACCCATCGAACTCACGGCCCGGATCAAGGCCGTACTGCGCCGGACGATCCCTTCGCTGAAACAGGAGAAGGACAGCGATCATGGGCGCGGGGCGCTTCGCCTCGGCGACTGGGCAATCGATCTCGATGCACGCCGCGCCGTTTGCCTGAGCGATCACAGCCGTACACTGACCACCGCCGAATTCGCGCTTCTGGAAATACTGGCGGAAACACCCAACCAGCCCGTCAGCCGCTCCCAGATTCTCGACAGGCTGGGTTCGGAGAGCGACCGTTACATCGACAGAAATGTCGACGTGCTGGTGCTGCGGCTGAGGCGCAAGATAGAGATCAATCCCGACCTGCCGCGCCATATCAAGACGCGCCGCGGCAAGGGTTATGTGCTCCACACCGATGAGGGCGAGCTTTCCCCGTGA	MLNQKVRILIVEDDPDMAELISDLIEAEGWLPTCARSAEEADEILARDRMQLVLVDHNLPGTSGRTFAQRLRSQIDIGIVMVTAAGSAADRVLGLETAADDYVVKPFEPIELTARIKAVLRRTIPSLKQEKDSDHGRGALRLGDWAIDLDARRAVCLSDHSRTLTTAEFALLEILAETPNQPVSRSQILDRLGSESDRYIDRNVDVLVLRLRRKIEINPDLPRHIKTRRGKGYVLHTDEGELSP	PGPT0012985_348	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OSMOLARITY_SIGNALLING,PGPT0012985-ompR-K07659	NA	NA
BMS010_07512	2106	sasA_24		Adaptive-response sensory-kinase SasA	GTGATCAGCCGCTCCTTCCTTTCCTCCATCGCCTTTCGCTTGCCCTTTGCGATTGTCTTTACCTGCCTCCTCGTCTTCAGCCTTTCCGCCATCGCCATTTATGGCCTGCAGCGCGCCCGCGATGAAATGGCGGCCTATGGATTGCAGGCCTTTTCAAGCCTCGCCAAGGCGTCGCTGGTCTCGCGGCAGGTCTCCGATCTCGTCTCCAGCGCACCGTTCCTGATGAACGCCGCCTCGCCCTATCGCGTTTCCAGCGAAAGCCGCTCGGTGGTCCAGCAGGTCGATATTTTGCTCGAAATGACAGGACCGGACAGCGGCGAACGGATCACCCGTGGCTTTGCCAGCGAACGCATCGTCGAACTCCTCCAGATCATCCGGGAACAGACGCTCGATCTTGCGAAGGACGCCGATGCGGCACAGGGTCACAAGGCGGAAGCGGCAGCGGCGCTCGGTGAAATCGCCACCGGTCAGGGCATCCTCGATCCGGAACTGCGCCGGCGAATGAACGGCATCGTACAGGCCGCATCCGCATCCGACAGCCTCTTCCAGCTTGGCGAACTGCGCCGCCGCTACGTGGCGGAAACGACGGCGCGCCAACAGGGCTATCCCGGCGAGCGCCTGCCCGTGGCCGAGTTGCAGCCCTATGAGCGGGTCTTCGAAGCCCAGAGCCGCTACCTTCTGGAAATGTTCGCTATCCGCGCCTCGGTCTCCCGGCTTCACACCGTCTCGCGGGATCTTTCCCACGTGACCGAAACCCAGGGCGATGCGGTTGCGCGCAGCCTGAACGAAGACCTGATTTCGACCTCCGATGCTCTCAACCGGCTGCTGATCATTGTCGCCGTCGCCTCGCTTCTGGTTCTCATCGTGGCGATCTTCTCGATCCGCTCGGTGATGCGTGTCTCGCGCGGGATCGTGACGCTCTCCAACGGCATGAACGCCCTCGCCAAGGGAGATAAGGATGTCGGCCCGCCCTCCTATACCGGTCCGGAGACGGAGTTGATCCGGCTGCTCGATGCGTTTCGCGCCTTTCACGACAGCGTCGACCGCGTCTCGCGCCTCAGGCGTACGGCCGAGGCGGCGGCCCGCACCATCCGCTCGACCTTCCGCACCATGAACGAGGGAATTGCGCTCTTCGATCCGGCCGGCCGGCCCATCACCATGAACCGTCGCATCATCGAACTCGTTGGACGCTCCGGCTCGTCGCGAAAACTGCCGCTTCGCCGGTTTGTCGAACCGATCCCGGAAATCGACCCGGCTCTGCTGCCCTTCGATGCTGAGCCGGGGGAATTGCTCGACCGCGCAGTCCTGCGCCATCGCACCGACGATCAGCGGGTGATCGAAGTATCGATGTCACGCCAGCCGGATGGCGGCATCGTGCTGCTCGCCCGCGATGTGACCGCTCTCGATCGCCAGGAAGCGGAAGCCGTTAAAGCCCAGAGGCTTGATGGCATCATGCGCATGACCCATCAGGTCAGCCACGAGGTGGGCAACATGATCGGCATCATCACCGGCAGTCTAGGACTTCTGGAGCGGGAAGCCGGTTTCAACGATCGCCAGAAGCGACACATCGCCCGCATCCGCAAGGCGGCGGATCGCGGCCGGTCTCTGGCCAGCAGCATGCTCACCATCGGTAGCCAGCAGCCGATTCATCCAAGCGTCATCAATGTCGCCAGCCTGCTGCGCGGCATGGCCGATATTCTGGAAATCGCTGTCGGCCCCAAATGCCGGATCGTGCTCGATATCGAAGACGATCTTCCTTCGATACCGCTGGACCCGGCCCTTTTCGAACAATCCATCCTCAATCTCTGCCTGAATGCCGCAGCCGCCATGCCCGATGGCGGCCTGATTTCAATCGAGGCCGCCTCCGGTAAAGATACGCTGGTGATCGCCGTCACCGACGAGGGCATCGGCATGACGCCGGAGGCCGTGGACAAGGCCTTCGAGCCCTATTTCACCACGCGGGGTGACCATGGCGGTGCAGGTCTCGGCCTCGCCATGGTCTACGGTTTCGTGCGCCAGAGCGGCGGCGAAGCGCATATCAGTTCCAGACCCGGCGAAGGCGCAAGGGTTGAACTGACGTTCCCGGCAAATGCCGGCTACACCTAG	MISRSFLSSIAFRLPFAIVFTCLLVFSLSAIAIYGLQRARDEMAAYGLQAFSSLAKASLVSRQVSDLVSSAPFLMNAASPYRVSSESRSVVQQVDILLEMTGPDSGERITRGFASERIVELLQIIREQTLDLAKDADAAQGHKAEAAAALGEIATGQGILDPELRRRMNGIVQAASASDSLFQLGELRRRYVAETTARQQGYPGERLPVAELQPYERVFEAQSRYLLEMFAIRASVSRLHTVSRDLSHVTETQGDAVARSLNEDLISTSDALNRLLIIVAVASLLVLIVAIFSIRSVMRVSRGIVTLSNGMNALAKGDKDVGPPSYTGPETELIRLLDAFRAFHDSVDRVSRLRRTAEAAARTIRSTFRTMNEGIALFDPAGRPITMNRRIIELVGRSGSSRKLPLRRFVEPIPEIDPALLPFDAEPGELLDRAVLRHRTDDQRVIEVSMSRQPDGGIVLLARDVTALDRQEAEAVKAQRLDGIMRMTHQVSHEVGNMIGIITGSLGLLEREAGFNDRQKRHIARIRKAADRGRSLASSMLTIGSQQPIHPSVINVASLLRGMADILEIAVGPKCRIVLDIEDDLPSIPLDPALFEQSILNLCLNAAAAMPDGGLISIEAASGKDTLVIAVTDEGIGMTPEAVDKAFEPYFTTRGDHGGAGLGLAMVYGFVRQSGGEAHISSRPGEGARVELTFPANAGYT				NA	NA	NA	NA	NA
BMS010_07513	1335	dgdA		2,2-dialkylglycine decarboxylase	ATGGACAATCTCGCGAAGAACTTCGCCTCGCTCAATGACGAACCGGCTTTCTGGGAGGCCGCCAATAAATATCTGACCCGCTACGGACCGGCCTTCGAGGAGATCATCGTCGAACGGGCTGAGGGAAGTTTCGTTTATGATGCGGATGGGCGCGCCATTCTCGATTTCACCTCCGGCCAGATGAGCGCTTTGATCGGGCATACCCATCCTGATATCGTTGCCACCGTCAACCGGCAGATGGCATCGGTCGCCCATCTCTTTTCCGGCATGTTGTCGCGCCCGGTCGTCGACCTGGCGGCGCGGCTGGCGGCGCTCGCGCCGGGTCTCGATCGCGTGCAATTGCTGACCACCGGGGCTGAATCCAACGAGGCGGCGATCCGCATGGCGAAGCTCGTGACCGGCGGGCATGAGATCGTCGCTTTCGCGCAGAGCTGGCACGGCATGACCGGCGCTGCGGCCTCCGCTACCTATAGCGCCGGCCGCAGGGGTTATGGCCCGGCCACGGCCGGTTCACTCGTTATTCCCGCGCCGAATGCCTATCGTCCGCGCTTCAAGAATCCCGATGGGTCGAATGACTGGCAGGCGGAGCTCGACGATGCCTTCGAATTGATCGATCGCCAGTCGACCGGCAATCTCGCCGCCTTCATTGCCGAACCGATCCTGTCGAGCGGCGGTATCCTCGAATTACCGGCCGGTTATCTCGCTGCGCTAAAGAAAAAGTGCGAGGAGCGCGGTATGCTGCTCATCCTCGATGAAGCTCAGACCGGCGTTGGCCGGACCGGGCATATGTTCGCCTTCCAGCGCGATGGCGTGACGCCCGATATCATGACACTGTCGAAGACGCTCGGCGCCGGCCTGCCGCTTGCGGCGGTGATGACGAGCGCGGAGGTCGAACAAAAGGCCTTCGAGAGGGGTTTCCTCTTCTATACGACCCATGTTTCCGATCCCCTGCCGGCGGCTGTCGGCGTGACGGTTCTCGATGTGGTGGCGCGTGATGGGCTGGTGGAACAGGCGATTGCCCGCGGGAACCGTTTGAAGGAGGGGCTGCTCTCGCTGCAGCAGCGGTTCGAATGCGTTGGAGATGTGCGCGGACGCGGGCTTTTGCTCGGACTTGAAGTCGTCGCCGACCGGCATACGAAAGCCCCCGGTTTCGAACTCGGTGCGCGCATCATGCAGGAGGCGATGTTGCGCGGCCTCAGCATGAACATCGTCAAGCTGCCCGGCATGGGCGGCGTCTTCCGCATTGCGCCGGCGCTGACGGTATCGGATTCGGAAATCGACCTTGGGCTGGAGATATTGGCGGATTCGATCGAATCCGCACAGCTTGCCCGCTAG	MDNLAKNFASLNDEPAFWEAANKYLTRYGPAFEEIIVERAEGSFVYDADGRAILDFTSGQMSALIGHTHPDIVATVNRQMASVAHLFSGMLSRPVVDLAARLAALAPGLDRVQLLTTGAESNEAAIRMAKLVTGGHEIVAFAQSWHGMTGAAASATYSAGRRGYGPATAGSLVIPAPNAYRPRFKNPDGSNDWQAELDDAFELIDRQSTGNLAAFIAEPILSSGGILELPAGYLAALKKKCEERGMLLILDEAQTGVGRTGHMFAFQRDGVTPDIMTLSKTLGAGLPLAAVMTSAEVEQKAFERGFLFYTTHVSDPLPAAVGVTVLDVVARDGLVEQAIARGNRLKEGLLSLQQRFECVGDVRGRGLLLGLEVVADRHTKAPGFELGARIMQEAMLRGLSMNIVKLPGMGGVFRIAPALTVSDSEIDLGLEILADSIESAQLAR				NA	NA	NA	NA	NA
BMS010_07514	849	hdfR_6		HTH-type transcriptional regulator HdfR	ATGCTCGACCTTACGCTGCTGAAGAACTTTATCATTGTCGCTCGCGCCGGCTCCATCAGCGTCGCCGCAGCGCAGATCGGACGCACCCAATCCGCGCTCAGCACCCAGATGCAGCGGCTGGAAGAGCTGGTCGGCCATACCCTGCTGCAGCGAACGGGTTCGGGAGTGCGCGTAACTGCGGCGGGCGAGAGACTGCTTGCCCATGCCAGCGCCCTGCTTGCCCGGCATGATGAAATCCTTGCCGATATGGGCGAGGCGACTCTGCAGGGAACCGTGAGCCTTGGCTGCCCTGAAGATTATTCCATCGCCTTCCTGCCGGAACTGCTGAGAGGCTTCTTTGGCACCTACCCGAAAGTCGATCTGCGCATGGTCTGTGCGCCCACGACGGAACTGCGCCCCCTCCTGCAACGCCGCCAGATCGACATGGCGCTGGTTTCGCAATCCGATCCGGATCACCGCGACGTGCTCCGCAGGGAAAGCTTCGTCTGGGTGGCGGACAGGCCGGAGCCGGATCTCATCACCAAGGATGTGCTGCCGCTGGCGCTCTCCGCGCCCGTGACGCTGGATCACCGCGCGGCGTGCGATGCCATGCAAACCGCCAATCGCCGCTACCGCGTCGCCTTCGCCAGCAACAGCCTTTCCGGCCTCATCGCAATCGCGCGCTCCGGCCACGCCATCAGCGTGCTGACAAGGACAGCCGTTCCAGCCGACCTTCATATCGTCAAAAGCGGGCTACCACCCCTGCCGACGATCGGCATTGCAATCGAGTTTGCCGACACGCAGACATCGTCGGCAGCCAGGGCGCTGGGCGATCACATCCGCACCGTTCTTCCCGGTCTCAGCCTGTAG	MLDLTLLKNFIIVARAGSISVAAAQIGRTQSALSTQMQRLEELVGHTLLQRTGSGVRVTAAGERLLAHASALLARHDEILADMGEATLQGTVSLGCPEDYSIAFLPELLRGFFGTYPKVDLRMVCAPTTELRPLLQRRQIDMALVSQSDPDHRDVLRRESFVWVADRPEPDLITKDVLPLALSAPVTLDHRAACDAMQTANRRYRVAFASNSLSGLIAIARSGHAISVLTRTAVPADLHIVKSGLPPLPTIGIAIEFADTQTSSAARALGDHIRTVLPGLSL				NA	NA	NA	NA	NA
BMS010_07515	702			hypothetical protein	ATGATTCGTCTAATTGTTTCTCCTCGCAGGCCGATGGCCGTCGCGTTGACAATCTTCCTCACCGCTTGCGCAAGCAATGCCGACCGTATTCCCGGCGCTGCGCCGCGCCCTTCCAATGAGCGTGTCGAAGATCGGGAGGCAGCCCCGATCGGAACAGACCCGGTGCTTATGTATGGCGAAAAGACGGATGCCGGTTTTCATATTGCCGGCGTTAATACCGGAAAAATGAATCCCGAGTTCGTGCGACAGGTCGTAAGCTATGCCACGGACGAAAAGCCCGGTACGATCATCGTCGATCAACGAGCGCGTTTCCTTTATCTGATTCAACCCGGCGGTAAGGCGATCCGATATGCCGTGGGTGTCGGCCCTGTTGCGCGCGCCTTCGATGGTGGCGACGCGATTATTGCGAGAAAAGCTGCCTGGCCTCGCTGGATCCCAACACCTGAGATGGTCGCAAGGAACCCCGCGCATTACGGCCCGAACAAGGATGGAGTCGATGGCGGCCCATCGAACCCGATGGGTGCCCGAGCGCTGTATATGCATAAGGATGGCAGGGATACATATTATCGTGTTCACGGCACGAATGATCCAGGCTCAATCGGCAAGGCGGTATCGGCCGGCTGCATTCGTCTTCTGAATCAGGATATCATCGACCTCTACAACCGGGTAAAGCCCGGTGCCCGGATCGTTGTACAAGGATAG	MIRLIVSPRRPMAVALTIFLTACASNADRIPGAAPRPSNERVEDREAAPIGTDPVLMYGEKTDAGFHIAGVNTGKMNPEFVRQVVSYATDEKPGTIIVDQRARFLYLIQPGGKAIRYAVGVGPVARAFDGGDAIIARKAAWPRWIPTPEMVARNPAHYGPNKDGVDGGPSNPMGARALYMHKDGRDTYYRVHGTNDPGSIGKAVSAGCIRLLNQDIIDLYNRVKPGARIVVQG				NA	NA	NA	NA	NA
BMS010_07516	1359	qseC_2		Sensor protein QseC	ATGCGTTCGATCCGGTTGCGGCTTTTTGCGATCCTGCTGGCGACGACGGGAGCCCTCTGGCTGCTTGCCGTCATGTGGACCTATTTCAGTGTGCAGCATCAGGTCGAGCGGGTGCTGGACGCGCGACTGATGGAAGCCGCCCGCATGGTCAGCTCGCTCCTTACCGATCACCATATCGATGTGGCTGCCGCCGTGGACGACACGAAAGCCACTGACGTCGCCTCGCCGTTCGATCTCCAGGAGGACTACCAACGGCAGCTCTCCTGCCAGATATGGTCGCTTCAGGGGCACCTCGTCAGCCGGTCGGAAAGCGCGCCGCGAGAATCGCTAACAGACAATCGCGACGGGTTTAGCGAAACCATCGTCGATGGTGTCCGATGGCGTGTCTTTGCGGTTGTGAATCCGAACCTCAATGCCCGTGTTCTTGTGGGCGACAGTCTGGAGATACGCGACAGGCTGGTTGCCGATGTGGTCAAGGGGCAGCTCGTTCCGGCCGTTGCCATTTTGCCGATCCTTGCGGTGCTGATCTGGCTGAGTGTTGGACAGGGGCTGGGACCGCTCAACAGGATCGCCATGTCACTGGGGTTGAGGTCTGCGGATGAACTGCACGCCATCGAAAACAGGGACACGCCCAGTGAAATCAAGCCATTGCTCAGATCGCTGAACTCCCTCTTCCTGCGGGTGGAGGCAGCCCGTGAGCGTGAGAAGACGTTTATCGCCTATGCCGCCCACGAGTTGAAGACCCCGCTTGCCGGATTGAAGACCCAGGCTCAGGTGGCGCTGCGGAGTAAGGAGGATGATGTTCGAGACAAGGCGCTGGCGCATATTTCGACGAGCGTTGACCGGACCGGGCGTCTTGTCCGCCAGCTTATCGACCTGGCGCTCGTCGATTCGGCGGATCGCGGCGACGGGATCGAGACGGTGCTGCTCGCAGGGATAATGGAGGACATTCGGTCCGATCTTGAAGCCCAGAGCAGCAGGCGTGGCATCTCCGTGAAGCTTCGCCTGCAATCGGATGAAATGGTGACCTTGAGAAACGTCAATCTCCTGCGTCTGGCGCTGCGCAACGTGATCGAGAATGCGATTCAGTATTCGCCGGAGGGCTCAAGCGTTGAGATTTGTGCACTGAAGAACGGTCCCAAGGTCGAAATCGACGTGACGGATCAAGGGCAGGGCATAAACCCGGAAGATCAGGAGACTGCCAGGGAGCGGTTCAAGCGAGGACATTCGGCCCATGGCGAAGGCAGCGGCCTTGGCCTGGCGATTGTCGACATGGCGATGCGAAAGCTCGGCGGGGAACTTGATTTTCGTCAGGCTGATTCCGGTTTCGTCGTGACGCTTATTCTGCCGCAGGAGTGA	MRSIRLRLFAILLATTGALWLLAVMWTYFSVQHQVERVLDARLMEAARMVSSLLTDHHIDVAAAVDDTKATDVASPFDLQEDYQRQLSCQIWSLQGHLVSRSESAPRESLTDNRDGFSETIVDGVRWRVFAVVNPNLNARVLVGDSLEIRDRLVADVVKGQLVPAVAILPILAVLIWLSVGQGLGPLNRIAMSLGLRSADELHAIENRDTPSEIKPLLRSLNSLFLRVEAAREREKTFIAYAAHELKTPLAGLKTQAQVALRSKEDDVRDKALAHISTSVDRTGRLVRQLIDLALVDSADRGDGIETVLLAGIMEDIRSDLEAQSSRRGISVKLRLQSDEMVTLRNVNLLRLALRNVIENAIQYSPEGSSVEICALKNGPKVEIDVTDQGQGINPEDQETARERFKRGHSAHGEGSGLGLAIVDMAMRKLGGELDFRQADSGFVVTLILPQE	PGPT0003920_606	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-POLYMYXIN_RESISTANCE,PGPT0003920-pmrB-K07645	NA	NA
BMS010_07517	660	qseB_3		Transcriptional regulatory protein QseB	TTGCGAATTCTCATTGTCGAAGATGATCCGATCCTGCTCGACGGGTTACGGGAAGGTTTGAAGCTGAGCGGCTTCGTCGCGGACGGCGTGACAACGGCCGCCGACGCGTCGGAGGCGCTGGCGACGGATAATTTCGATGCGGTCGTTCTTGATCGAATGCTGCCGGACGGTTCCGGGCTGGATGTCCTGAACGGCTTGCGTCGCAGTGGAAACCGGATTCCCGTCCTGCTCCTGACGGCCAAGGACGAGGTTGGAGACCGCATCGATGGTTTGGATGCGGGCGCCGACGATTATCTTGGCAAACCTTTCGATCTGGATGAGGTTGCCGCCCGTCTGCGGGCGATCATGCGCCGTGCGGCCGGGCGGGCGAGTGCGCAGATCAGCCTGCGAGGGCTGACGCTGGATCCCGCTTCGATGCAGGTTCTTCGGGATGGGTCGACCGTAATCCTGTCGCGCCGCGAGTTCTCGATCCTTCATGCGCTCATGGAAAGTCCGCAGGCAATTCACTCCAAACAGGCACTGGAAGAGCGTCTCTACGGCTGGCAGGAGGATGTGGAGAGCAATACGATCGAGGTGCATGTGCATAAGCTGCGCGCCAAACTTGGAAGTGCCGCCATCGAAACGGTGCGCGGAGTTGGCTACAGACTGGGGATGCCCTGA	MRILIVEDDPILLDGLREGLKLSGFVADGVTTAADASEALATDNFDAVVLDRMLPDGSGLDVLNGLRRSGNRIPVLLLTAKDEVGDRIDGLDAGADDYLGKPFDLDEVAARLRAIMRRAAGRASAQISLRGLTLDPASMQVLRDGSTVILSRREFSILHALMESPQAIHSKQALEERLYGWQEDVESNTIEVHVHKLRAKLGSAAIETVRGVGYRLGMP	PGPT0003915_1397	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-POLYMYXIN_RESISTANCE,PGPT0003915-pmrA-K07666	NA	NA
BMS010_07518	1821	dsbD_2	COG4232	Thiol:disulfide interchange protein DsbD	ATGCGCATATTGGCGTTCACATTTGTGATCCTGGCGCTTTTCAGGGTCGTCTCCCCGGCGTCCGCGATGGAAACACCACTTGCCATGGACCAGGCGTTCAAGGCAACGGTCGAGCGGGGAAACGATGGCCGCGCCATCATTCGCTGGGCGATCAATGACGGCTATTATCTCTACCGTGACTATCTGAGCGCAGAAGGCGAGGACGGCCGCAAACTGGAAATCCAGTCCCTGCCCGGCGAGATGAAAGAGGACCCAAGTTTCGGCTTTACCGAGATTTACTACAAGACCGCAACGGCATCGATCGCCGAAGCGCCGGCAAAATTCCGCCTTACCTATCAGGGTTGCCAGGACAGGGGGCTCTGCTATCCGCCGACCACCAAAACGGTCGATATGACAAGCCTGACCGTGGGCGCTGAAGGTGTGTTTTCCCAAAACAGCTTCGCCAAAGCCGCACAGGCTTCGGCCGGCGTCTCCATGGACGCCACAAAGGAAGAATTTTCGCTGGCGGAGGATAGCGCGCAGATGGCGGTCGATCTGCTGCTGGCGGATGGCGGATTGATCCTGCTTCTTGCCGGATTTCTCGGTTTCGGATTGCTGCTCGCCTTCACGCCATGCGTTTTCCCGATGTATCCGATCGTTGCGGCCATGCTCGCCCGGGAAGGCGAAAAATTGACCGCGCGGCGCGGCTTCCTGTTGTCCGTATCTTATGCGCTTGCGCTTGCATTCGCCTTCGGGCTGATGGGAATGGCCGCCGCATGGTCAGGGCAAAACCTGCAGATCGCATTGCAATCGACCTATGCCGTAGCTGCGATATCCATCCTGTTCGCCGTGCTCGCGCTCGCAAATTTCGGCCTTTTCCAAATTCAGCTTCCAGCCGTGATCTCTGCCCGGTTTGCGAAATCGCCGCAGGGTGCTAGCACGATTCCCGGCGCGATGCTGCTCGGCTTCTCCTCGGCATTGCTCATCGGACCTTGCGTCACGGCTCCCCTGGCGGGTGCACTTCTCTACATTGCCCGCACCGGCGATGTCGTCATCGGCGCCGCCGCACTATTCGCCCTTGGACTGGGCAAGGGAATTCCCCTCGTCATCATGGCGACCGCAAGCGGCAAGGCACTGCCAAAAGCAGGGCTGTGGATGGAAAAAGTTTGCCAGATTTTCGGCTTCATGTTTCTCGCCACCGCGCTTTGGCTGGCAACGCCGCTCATCCCGGAACGGCTGACATTGCTCGGATGGGCAATACTTGCCCTTTCCTTCGGCGTTTTTGCTTTCGGTGCAGGGACCGGCGATCCGAAGTCCGGTGTGAGCGTGCTTTCCCGCACGACGGGTCTCGCATCCATCATCTGGGCAATCTTGATCTTTGTCGGTCTCGGCATCGGTGCAACGGATCCGCTCTCTCCCCTGAAGCCGCTGAGTTCCGCCAGTGGTTCCGGATCTCTCGCAACGATAGAGAAAAGCGACTTCCAGAAGGTTTCCTCCATCGCAAGCCTGGAAGCCCGGCTCGACAGCTCGCCGCCACAGGAACCGACACTCCTTTATGTGACAGCCGACTGGTGCGTGACCTGCCGCACGATCGAGCGCTCACTTTTAACCGCACCCGATGTGGTTGAAGCGTTGAAGGGAGTAAACCTCGTCAGCCTGGACCTGACAAAACTGGACACGAATAAACAGGCGTTGCTTTCGACATTGAAGGTAGTCGGCCCGCCCACGATGGTTTTTCTCGACAGCAACCGAAGGGAGCCGGAAGCAACGCGGCTGATCGGCGAATTCTCGGCCGCAGATCTGGCAGCATCCGCTCGCAGGGCGCAGGGATCGCGTCCGTGA	MRILAFTFVILALFRVVSPASAMETPLAMDQAFKATVERGNDGRAIIRWAINDGYYLYRDYLSAEGEDGRKLEIQSLPGEMKEDPSFGFTEIYYKTATASIAEAPAKFRLTYQGCQDRGLCYPPTTKTVDMTSLTVGAEGVFSQNSFAKAAQASAGVSMDATKEEFSLAEDSAQMAVDLLLADGGLILLLAGFLGFGLLLAFTPCVFPMYPIVAAMLAREGEKLTARRGFLLSVSYALALAFAFGLMGMAAAWSGQNLQIALQSTYAVAAISILFAVLALANFGLFQIQLPAVISARFAKSPQGASTIPGAMLLGFSSALLIGPCVTAPLAGALLYIARTGDVVIGAAALFALGLGKGIPLVIMATASGKALPKAGLWMEKVCQIFGFMFLATALWLATPLIPERLTLLGWAILALSFGVFAFGAGTGDPKSGVSVLSRTTGLASIIWAILIFVGLGIGATDPLSPLKPLSSASGSGSLATIEKSDFQKVSSIASLEARLDSSPPQEPTLLYVTADWCVTCRTIERSLLTAPDVVEALKGVNLVSLDLTKLDTNKQALLSTLKVVGPPTMVFLDSNRREPEATRLIGEFSAADLAASARRAQGSRP				NA	NA	NA	NA	NA
BMS010_07519	609			hypothetical protein	ATGTTTTCACGACGCGATTTGATGGCCGGCGGGCTGGCGGCTTTTAGCGGAGCGCTGGTGTCTGCCGGAGACGGCTTCGCACAGCAGGTCAGCACGGACGAGGTGTTCTTCGACAGGGACGCACCCGTGCTTGGAAATCCCAAAGGTAAGGTCACGATTGTCGAATATTTCGATTATCAATGCCCCTACTGCAAGACTTCACATGCCATGGTGAAAAAGGTTGTCGCAAATGACGGCGACGTCAGGCTTGTTTTGAAGGACTGGCCGATCTTCGGTGGCGCATCTGTCTTCGCGGCGCAAGCGGTGCTGGGGGCCGCCCAGATCGGCAAATATGAAATCGCCATGGAAGCGCTGATGAAAACAAAAGGGCGTATTTCCGAAAACGATGTCGAAAAAGCCCTGACAGGCGCAGGATTGGCGATGAAAGACATCGCCGCGGCGGTGAACAGCAACAACAGGAAAATCTCCGCGCTGCTCGATCGAAATTATCGCCAGGCGCTCGCCTTCAACTTTGTCGGCACGCCATCCTTCGTCATCGGCAAGACGATCTATCCCGGTGTTCTGGACGAGAAAGGCCTCAAGGCCGCCATTAAACAGGCCCGGTCATAG	MFSRRDLMAGGLAAFSGALVSAGDGFAQQVSTDEVFFDRDAPVLGNPKGKVTIVEYFDYQCPYCKTSHAMVKKVVANDGDVRLVLKDWPIFGGASVFAAQAVLGAAQIGKYEIAMEALMKTKGRISENDVEKALTGAGLAMKDIAAAVNSNNRKISALLDRNYRQALAFNFVGTPSFVIGKTIYPGVLDEKGLKAAIKQARS				NA	NA	NA	NA	NA
BMS010_07520	1026	tam_5		Trans-aconitate 2-methyltransferase	ATGAACATGCTCGCACTCGCCATCAACGCCGCCGAGCGCGCGCCGCTCAGCGACAGCGTGACGCTCGCCGGAATAGATATGCTCTGCGCACGGACGAAACGGCGGCTTGCCGTTACGCCAGCGGATGCGGAAGAGGCTTTCGCGGCGGATATGGTGAATTTTCCCGTCGCCAGCCATACCGACGATGCAAACAAACAGCATTATGAAGTGCCAGCGGCATTTTTTGCGCTCGTTCTGGGAGAGCAGCGCAAATATTCCTGCTGCTATTATGACGATGCCACGACGACGCTGGATGAGGCTGAAAATGTTGCTTTGGCCGAGACCTCCAACCATGCCGGCCTTGAAGACGGCATGGATATTCTGGAACTCGGCTGCGGATGGGGTTCGTTATCCCTCTATATGGCCGGCCGTTTCCCCAATGCGCGCATCACCTCAGTCTCGAATTCCGTGTCGCAGCGCGAATATATAATCGGTCGTGCCCGAGAACGGGGGCTTTCAAACCTTTCTGTCGTGACGGCCGATATGAATGATTTTACGACGGGAGATCGATTCGACCGTGTCGTATCGGTGGAAATGTTCGAGCATATGTCGAATTGGCGCGTGTTGTTCGAGCGTGTTCACTCGTGGCTGAAGCCGGACGGCAGGTTTTTCCTGCATGTGTTTAACCACCGCGACCGATCCTATCGTTTTGACCACAACAATCCTGCCGACTGGATCGCCCGGCACTTCTTCACCGGCGGCATCATGCCGGCCTTCGACCTTCCCCATCGCTTCAGTCAGCTTTTCACCGTCGAGCAGGAGTGGCGCTGGTCAGGGTCGCACTATCGTCGGACAGCGCTCGATTGGCTCGAAAATTTCGACAAAAAAATTGACCGTATCCGACCCATTCTGCAGCAAACCTATGGCGCCGACGCCCGGCTGTGGGAAAGGCGATGGCGATTGTTCTTCCTGGCGACCGCGGGGCTCTTCGGGCATGAGGGCGGTGACGTGTGGGGTGTAGGGCACTACTTTTTTAAGAGGGTTTAG	MNMLALAINAAERAPLSDSVTLAGIDMLCARTKRRLAVTPADAEEAFAADMVNFPVASHTDDANKQHYEVPAAFFALVLGEQRKYSCCYYDDATTTLDEAENVALAETSNHAGLEDGMDILELGCGWGSLSLYMAGRFPNARITSVSNSVSQREYIIGRARERGLSNLSVVTADMNDFTTGDRFDRVVSVEMFEHMSNWRVLFERVHSWLKPDGRFFLHVFNHRDRSYRFDHNNPADWIARHFFTGGIMPAFDLPHRFSQLFTVEQEWRWSGSHYRRTALDWLENFDKKIDRIRPILQQTYGADARLWERRWRLFFLATAGLFGHEGGDVWGVGHYFFKRV	PGPT0007680_4764	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-PHOSPHOLIPID_PRODUCTION	PLANT_SIGNAL-PHOSPOLIPID_METABOLISM	PLANT_SIGNAL-CYCLOPROPANE-FATTY-ACYL-PHOSPHOLIPID_BIOSYNTHESIS,PGPT0007680-cfa-K00574	NA	NA
BMS010_07521	789			hypothetical protein	ATGTTTTCTGTAGTCCTGGCGCTTGCCATTCTCATGTCGCTTCTGATGGCGGGCGCTTGGGCGTTGCAGAGAGCAACCGGTTCAAGCGGCTGGATCGACATGGTCTGGGCGGCAACTGTCGGGTTTGGCGGAATTTTCGCCGTTGTTTTCGCTGGTGGAGACGGCTGGCGGCGCGGTGCTGTACTTTTCCTGGTCGTTGTCTGGTCCCTGCGGCTTGCCGGCCATATCGGCATGCGCACGCGAGGAGGCGGGGAAGATCCCCGCTATGCAAAGCTTATGGAGCAATGGGGAAGCGCTGCCGCCCTGCGGCTATTCATCTTCCTGCAGATACAGGCAATCGCCGCTTTCGTGCTCGTTCTTGCGGTCTATCTTGCGGCAAGCAACACCCATGTGTTTCCCCGTATGGTTGACGTTATCGCCATGGTGGTTGCCCTTGGCGCGCTGGCAGGTGAAGCGCTCTCCGACGCCCAGCTCTCGCAATTCAGAAAGACCGCAGCGGCAAAAAACAGTGTCTGCGAAACCGGCCTGTGGCGTTATTCCCGTCACCCCAACTATTTTTTCGAATGGCTTTTCTGGTGCGGTTTTCCGCTGCTGGCCATTCAGGGGCAGCCCTTGTCATGGGTATCGCTCGCCGCACCGGCGATGATGTACTGGCTGCTTGTCCATGTCTCCGGCATTCCGCCGCTTGAAGACCATATGCTGCAATCGCGCGGGGAAAAATTCTGCGCCCTTCAAAAACGCGTCAACGCCTTTTTTCCGGGGCCGCGCAAGAACGAGGACAGGTCATGA	MFSVVLALAILMSLLMAGAWALQRATGSSGWIDMVWAATVGFGGIFAVVFAGGDGWRRGAVLFLVVVWSLRLAGHIGMRTRGGGEDPRYAKLMEQWGSAAALRLFIFLQIQAIAAFVLVLAVYLAASNTHVFPRMVDVIAMVVALGALAGEALSDAQLSQFRKTAAAKNSVCETGLWRYSRHPNYFFEWLFWCGFPLLAIQGQPLSWVSLAAPAMMYWLLVHVSGIPPLEDHMLQSRGEKFCALQKRVNAFFPGPRKNEDRS				NA	NA	NA	NA	NA
BMS010_07522	1371			hypothetical protein	ATGGTCGACACCGAAGCGAAAAAAGAACAAAGCCGCCGCATCGCCGTCGTCGGAACGGGAATTTCCGGTTTGTCGGCGGCCTGGCTTTTGTCGCAACGACACGATGTAACTGTTTTCGAAGCGGCTGACCGCATCGGAGGCCACACCAATACGGTGACGTTCAGCACGGACCATGGAGAAGTCCATGTCGATACCGGATTCATTGTCTATAACGAGCAGACCTACCCCAATCTCACGGCGCTTTTTAAGCAACTGGGCGTGGCGACCGCAGCTTCGAACATGTCTTTCGCCGTTTCTCTGAATGATGGCGGTTTCGAATATTCCGGCGGAACGGGCCCCGGCCTGCTGGCCCAGAAGTCCAACATCCTGAGGCCACGTTTCTGGGCGATGCTTGCGGACCTTTTGCGTTTTTACCGCAATGCCCCACGCGACCTGCATTTGATGGGCGATCTGTCTCTCGACGAATATCTCTCCCGCAACCGGTATGGTTCAGCGTTCCGCGACGATCATCTTTACCCCATGGCTGCGGCCATCTGGTCCACGCCGGCCATGGAGGTCGGCCGTTATCCGGCGGCGCATTTCATCAAATTCTGCCGCAATCACGGCCTGCTGTTGCTGCGCAATCGGCCAGTCTGGCGCACAGTCATCGGTGGCTCGCGCGAATATGTGAAACGCATTACGGCGCCGTTTGCAGATCGAATTCTCCTCTCGACGCCGGTGAAGCGCATCCACCGCCTGCCGGACGGCGTCGAAATCACCACTGCGGACGGCAAAGCCGTGCGCTTCGATGACGTGGTGATAGCAACCCATGCGGATCAGGCGCTCGACATGCTCGCCGATGCAACACTCGCCGAACGGCGCATTCTTGGCGCTTTTGCCTACACCCAAAACCGCGCCGTGCTTCACACCGACAGCCGTTTCATGCCACGCCGCCGCGCTGCCTGGTCAAGCTGGAACTATGTGGCCGACACGCGCATTAAAACGAGCCTGCCGAGCATTACCTACTGGATGAACAGACTTCAGCCGCTGGGTGAAACCCCGGACATTTTCGTAACGCTGAACCCGGAGCGGGAACCGGATCAAGGAAAAATCATCGCCGAGGAAACCTATCACCATCCGGTTTTTGATGCTGGCACCGAACAGGCGCGTCAGGAGCTATGGGCCCTGCAGGGTCTGCGAAACACCTGGTTCTGCGGCGCTTATTTCGGATCCGGTTTTCATGAAGATGGTCTTCAGGCCGGCCTTGCCGTCGCCGAAGATCTTGGCGGCGTATCCCGTCCATGGAAAGTTGCCGACGACAACGGTCGGATAATTCGCCTGGATTTGGCGACGATTGCAACGGACACGGAAATCATGGAGGCGATGGCATGA	MVDTEAKKEQSRRIAVVGTGISGLSAAWLLSQRHDVTVFEAADRIGGHTNTVTFSTDHGEVHVDTGFIVYNEQTYPNLTALFKQLGVATAASNMSFAVSLNDGGFEYSGGTGPGLLAQKSNILRPRFWAMLADLLRFYRNAPRDLHLMGDLSLDEYLSRNRYGSAFRDDHLYPMAAAIWSTPAMEVGRYPAAHFIKFCRNHGLLLLRNRPVWRTVIGGSREYVKRITAPFADRILLSTPVKRIHRLPDGVEITTADGKAVRFDDVVIATHADQALDMLADATLAERRILGAFAYTQNRAVLHTDSRFMPRRRAAWSSWNYVADTRIKTSLPSITYWMNRLQPLGETPDIFVTLNPEREPDQGKIIAEETYHHPVFDAGTEQARQELWALQGLRNTWFCGAYFGSGFHEDGLQAGLAVAEDLGGVSRPWKVADDNGRIIRLDLATIATDTEIMEAMA	PGPT0007680_208	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-PHOSPHOLIPID_PRODUCTION	PLANT_SIGNAL-PHOSPOLIPID_METABOLISM	PLANT_SIGNAL-CYCLOPROPANE-FATTY-ACYL-PHOSPHOLIPID_BIOSYNTHESIS,PGPT0007680-cfa-K00574	NA	NA
BMS010_07523	819			hypothetical protein	ATGACGCCTCCCCTCACCTCGGCGCTTTTTCCCGGCCATGTAACGCATGCGCGCTTGAAGCCGAAAACCCATAAGCTCGCCTACCGGATTTATTCGCTGCTCCTCGACCTCGATGAGTTGAACGTGCTCGACCGGAAATTGCGATTTTTCTCCGTAGACCGGTTCAATCTGTTCTCGTTTCACAGCAGGGACCGCGGCAACCGCAGCGCCATCGGGCTGCGCCAGCAGATCGAGTCAGCCATGACGGCGGCAGGCATGGCAGTGGACGGAGGGCCGATACGTCTGCTCACCATGCCGCGCCTGCTCGGCTGGGCCTTCAACCCACTCAGTGTCTTCTTCTGCTACGGGCGCGACTTGTCGCTCAAAGCTATCCTCTGGGAGGTGGACAACACGTTTGGCGAGAGACACTCATACCTGATCCCGGTGGAAGCCGGCAAATCGACCGAGATCGTCCAGCAATGCGACAAGGCCTTTTATGTCTCTCCATTCATGGACATGGATCTCCACTATGTTTTCCGCGTCGCCCCGCCCGGCGACAGGCTGAAAATCGTCATCGATACTTTCGACAAGGACGGCCTGATCCTGACCGCCCGGCATCTGGCCCGGCGTGTCGAACTGACGGACGGTGCGCTTCTGAAAGCTTTCTTCGCCATTCCCCTCCTGACGCTCAAGGTCATTCTGGGCATTCATTGGGAGGCCCTGAAAATTTGGCTGAAAGGCGTGCAGCTCAGAAAACGGCCGCTGCCGCCTGCCGGTCCAGTCTCCTTCCATCATCCTTCATCGTCGCAAATCGAGGCCAAAATTCATGACCCCGTTTGA	MTPPLTSALFPGHVTHARLKPKTHKLAYRIYSLLLDLDELNVLDRKLRFFSVDRFNLFSFHSRDRGNRSAIGLRQQIESAMTAAGMAVDGGPIRLLTMPRLLGWAFNPLSVFFCYGRDLSLKAILWEVDNTFGERHSYLIPVEAGKSTEIVQQCDKAFYVSPFMDMDLHYVFRVAPPGDRLKIVIDTFDKDGLILTARHLARRVELTDGALLKAFFAIPLLTLKVILGIHWEALKIWLKGVQLRKRPLPPAGPVSFHHPSSSQIEAKIHDPV				NA	NA	NA	NA	NA
BMS010_07524	1233	ufaA1	COG2230	Tuberculostearic acid methyltransferase UfaA1	ATGACCCCGTTTGACAATCTCACGGAATTATCGGCGAAGAATACGCGCCTGAACGACCGCATCAGCCCAGGCATGTGGCTCATCAACCGGCTGTTGAGCAATATCGACAGGGGAAGATTAAATGTCATTCTTCCCGGCGGCGGCATCATTGAAAGATCCGGCGCAACGAATGGCAGCGAGGCGATCCTTGTCCTGCATAGCTGGCGCGCGATCCGGCGAATGCTGCTGAACGGCGACATCGGCTTTGCCGAGGGTTTCATCGAAGGCGACTGGACCACACCAGATCTGACGGCGCTGATCCGCTTTGCGGCCCAAAATCGCGAGGCGTTCGCAAGGTCAATGCGCGGCAGCCTGCCGATGCGCCTTCTCAACCGCACTGCGCACGGGTTGAATGCCAATACCAGACGCGGCAGCCGCCGCAATATCGAAGCGCATTATGATCTCGGCAACGAGTTTTACCGGCAGTGGCTTGATCCCTCCATGCTGTATTCTTCGGCGATTTTCGATGACACGACGTCTACGCTCGAAGCCGCACAACTGAAAAAACTGGAACGTATCGTCGATAAACTGCAATTGAGCGGCGGCGAGAACATATTGGAGATCGGCTGCGGCTGGGGCGCACTCGCCATTCACCTTGCCACGCAGGCCAAAGCCAACGTCACCGGCATCACTCTCTCCCCCTCCCAGTTAAAATGGGCAAAAAATGCGGTGGAAAAAGCCGGCAGCACAGACCGCATCGATCTGAGGCTGCAGGATTACCGCGACCTGAACGGCCGATTCGACAGGATTGTCTCCGTCGAGATGTTCGAAGCAGTCGGCGAGGCCTATTGGCCGAGCTATTTCGAAACGCTGAAAAGATGCCTGAAACCGGGCGGCAGCGCGGTGCTGCAAATCATTTCGATTGAAGAAAGCCGCTTCGATACATATCGGCGTAAGGCGGATTTCATCCAGAAATACGTCTTTCCCGGCGGCTTTCTGCCCTCAGATGCCGCGCTCGAAAAAGCGGTCGACAAAACCGGCCTTAAGCTCACCGATAAGGAACTTTTCGGCCAGTCCTACGCGCTCACGCTCGCCGAATGGCGCCAGCGTTTTCACGCGCGGTGGCAGGCGATTTCCCTGCTTGGCTTCGATGACCGCTTTCGACGGCTTTGGGATTATTACCTTTGCTATTGCGAGGCAGGCTTTGCCGAGGGGAGCATAAATGTGGGCTTCTACACGATCGAACACAGATAA	MTPFDNLTELSAKNTRLNDRISPGMWLINRLLSNIDRGRLNVILPGGGIIERSGATNGSEAILVLHSWRAIRRMLLNGDIGFAEGFIEGDWTTPDLTALIRFAAQNREAFARSMRGSLPMRLLNRTAHGLNANTRRGSRRNIEAHYDLGNEFYRQWLDPSMLYSSAIFDDTTSTLEAAQLKKLERIVDKLQLSGGENILEIGCGWGALAIHLATQAKANVTGITLSPSQLKWAKNAVEKAGSTDRIDLRLQDYRDLNGRFDRIVSVEMFEAVGEAYWPSYFETLKRCLKPGGSAVLQIISIEESRFDTYRRKADFIQKYVFPGGFLPSDAALEKAVDKTGLKLTDKELFGQSYALTLAEWRQRFHARWQAISLLGFDDRFRRLWDYYLCYCEAGFAEGSINVGFYTIEHR	PGPT0007680_2501	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-PHOSPHOLIPID_PRODUCTION	PLANT_SIGNAL-PHOSPOLIPID_METABOLISM	PLANT_SIGNAL-CYCLOPROPANE-FATTY-ACYL-PHOSPHOLIPID_BIOSYNTHESIS,PGPT0007680-cfa-K00574	NA	NA
BMS010_07525	378			hypothetical protein	ATGATGATCAACAGATTGACGGTTGCTTCCGTCCTATGGTCACTGCTGGTCGCGTCCAGCGCGACGGCGGCCGATATCGACGGCAACTGGGCGCGCGGAGACGGCAAGGCGAAAGTACTGATTGCGCCCTGCGGTGAAAATATCTGTGCCACAAACACCTGGATCAAGCCGGGCACCCCGAAGGAAAAGGCCGGGGACCGGCTGATCATGGACATAAAGCAGACAGAGGCAGGCAGTTATTCCGGCACCGCTTTCGACCCCCAGCGGGATAAATCCTACAGGATAACAGTGACAATAAACGGCAACGGCATGACAACGAAAGGCTGTATCGTCGCCGGTCTGCTGTGCAAAGGCATAAATTGGACAAGGATCGACTAG	MMINRLTVASVLWSLLVASSATAADIDGNWARGDGKAKVLIAPCGENICATNTWIKPGTPKEKAGDRLIMDIKQTEAGSYSGTAFDPQRDKSYRITVTINGNGMTTKGCIVAGLLCKGINWTRID				NA	NA	NA	NA	NA
BMS010_07526	429			hypothetical protein	ATGAAAACCTATGTCGCAGCCTACCTTTTTACCCTCGTCGCCTTTCTGGTGATTGATTTCATCTGGTTGAGCACGATGGCGTCGCGCCTTTACCGCCCGGCCATCGGCGATCTTCTGGCAGAAAACTTTCGGCTTGCTCCGGCGGTCGTCTTTTACCTCATCTATGCCGCCGGCCTGACCTTTCTTGCGGTTCGCCCGGCCTTTCAGACAGGAGAATGGACGACCGCGCTGCTCTATGGCGCAGTGGTCGGCTTCATGGCCTATGCCACTTACGACCTGACCAATCAGGCGACGCTCAAAAGCTGGTCCACGACCCTGACCGTCGCCGATCTTCTATGGGGAACCTTCGTCTCCGCGGCAGCGGCTACAATCGGCTATTTCCTCACGGTGCGGCTGCTCGGCCCGCTGGAAAATCCGACGGGCCTGTGA	MKTYVAAYLFTLVAFLVIDFIWLSTMASRLYRPAIGDLLAENFRLAPAVVFYLIYAAGLTFLAVRPAFQTGEWTTALLYGAVVGFMAYATYDLTNQATLKSWSTTLTVADLLWGTFVSAAAATIGYFLTVRLLGPLENPTGL				NA	NA	NA	NA	NA
BMS010_07527	543	sigK	COG1595	ECF RNA polymerase sigma factor SigK	ATGCAGGGCACAGAGATCGCAAGCCTTATTAACCGCGTCGGCATGGGTGATCGTTCAGCATTCGTCTCGCTTTATCAGGCAACCAGTCCGAAGCTTTTCGCGATCTGCCTGAAAATCCTGCGTGACAGAACGGAAGCCGAGGAGGCGCTGCAGGAAATCTATATCAAGGTCTGGCAGCGGGCCCGGACATTTGCCGCCAGCGCCGGCAAACCCGCCACATGGCTTGCCGCCATTGCCCGCAATCATGCAATAGACACGATCCGCGCCCGCAAGCCCATAACCGACGACATCGAAGAAGCCTACGATCTTGCCGACGAGAGCGCCCGCGATCCTGAGCAGCAGATCGTTCTCGCCGATGAAGGCCGCAGGATCGAAGCCTGCATGCGCGAGCTTGAGACCGTACACGCGCAGGCGGTGCGTCGGGCCTATGTCGAGGGCTTGAGCTATCTCGAACTCGCAGAAGAATTGCGCGTGCCGCTCAACACGGTCAGAACCTGGCTGCGACGCAGTCTTCTCAAACTCAGAGAGTGCATGCAGCGATGA	MQGTEIASLINRVGMGDRSAFVSLYQATSPKLFAICLKILRDRTEAEEALQEIYIKVWQRARTFAASAGKPATWLAAIARNHAIDTIRARKPITDDIEEAYDLADESARDPEQQIVLADEGRRIEACMRELETVHAQAVRRAYVEGLSYLELAEELRVPLNTVRTWLRRSLLKLRECMQR	PGPT0014960_9974	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
BMS010_07528	711			hypothetical protein	ATGACAACGGGCGAACAGAGCGGCGGCAAGCATTCGCACGACGACATCCTCGCCGGTGAATATGTCCTGGGCGTGCTGCCGCTCGAAAAGCGCCGTGAACTGGAACGACGCATGCAGGACGACGCGGCCTTCGCACAGCTGGTGCAGCGCTGGGAGGCGGAATTTTCCGACTTCAATGCCGATTACCAGGAGCAGGCACCGAGCGCCGCTGTTCTTGCGCGTATCGAAGAACGCCTGTTCGGCGGCAGGACCGTCAATACCAATGGCAGCCTCTGGAATTCCGCGTCCTTCTGGCGCTGGATCTCGGTTGCCACCAGCGCAACCGCCGTGGCCGCCATCGTTTACGCCGCCTTCCCCGAAAAATGGCAGGGCGCCACTCCGTTGGTGGCCGAACTTGCAACGACCGACAGCCAGGTTAATCTCCTCGCCTCCTACGATGCGGAATCCGGACGGATGCACATTGTGCCTGTCGCAACCGGCAAGACCGACGAAAAATCGCTGGAACTGTGGCTGGTGATGGATGGCGGCAAGACCCGCTCGCTCGGCGTCTTCCAGCCCGGCACGAATGGCGATCTTATAATCCCCGCCGACATGCGCAACAGCATCACCGAAGGCACCACCTTCGCGATCAGCGTCGAACCTTTCGGCGGCTCGCCGACTGGTCAGGCAACCGGCCCTGTTATCGCTGTCGGCACGGCGCGATGGGGATGA	MTTGEQSGGKHSHDDILAGEYVLGVLPLEKRRELERRMQDDAAFAQLVQRWEAEFSDFNADYQEQAPSAAVLARIEERLFGGRTVNTNGSLWNSASFWRWISVATSATAVAAIVYAAFPEKWQGATPLVAELATTDSQVNLLASYDAESGRMHIVPVATGKTDEKSLELWLVMDGGKTRSLGVFQPGTNGDLIIPADMRNSITEGTTFAISVEPFGGSPTGQATGPVIAVGTARWG				NA	NA	NA	NA	NA
BMS010_07529	366			hypothetical protein	ATGGGTCGTAACGGTCAATCTCCGAAGCCGACAATGCCCTTGATTTCTGTGAACTCGTACAGACCGATCCCGCGCGGGCGCAAATCGCGCGCGGCCGTTGCGCAGTTCGCCCCCTCCTCCGTGATCGCAGACAACATCGCCCGCATCACCGCACTGGCCACAGAAGCGAAGGCGACGACAGCGCCGGACATTCTGGTTTTCCCGGAACTGTCGCTGACCGGGCTTGAGGCTGCCCACACCCGGGTGGAACCGCTTTCTACCACCAACCTCGATACACTCTACCCGACGAACATTGTCCGGCGAAAGGATCTTGTCGTCATGCGTCAACCACATCACTATCAGCCTCTCGTCAAATGGCATCAATGA	MGRNGQSPKPTMPLISVNSYRPIPRGRKSRAAVAQFAPSSVIADNIARITALATEAKATTAPDILVFPELSLTGLEAAHTRVEPLSTTNLDTLYPTNIVRRKDLVVMRQPHHYQPLVKWHQ				NA	NA	NA	NA	NA
BMS010_07530	1155	adh1_2	COG1454	Long-chain-alcohol dehydrogenase 1	ATGTCCACGTTCACATTCGCGACTGTCCCTCAGATAATCGCAGGCCCCGGCAGTATCGCAAGGCTTTCGGAGCTGAAGACCGGGCTCGGGTCGCGTGTTCTGGTAATTTCAGACGATGGCGTCGTCAGGGCTGGGCTTGCTCAACCCGCCCTTGCGAGCCTTTCGGAGGGCGGAGCCGAAACATCGATCTTCACCGGCGTTGTCGCTGATCCTCCGGAAACCGTCATCCACGACGCTGTAGCCCGTGCAATCGATTTCGGTGCCACCGGCATACTGGGCATCGGTGGCGGCTCATCGCTCGATGTCGCGAAACTCGTAGCCCTGCTGGCCAGAAGCGGTGAAGCACTCGGTGATATTTACGGCGTCGGCAAGGTGACCGGGGAACGCCTGCCCCTCGTGCTGGTGCCGACGACGGCAGGTACCGGATCGGAAGTCACGCCGATTTCCATCGTTACCACGGATGCACATCAGAAAAAGGGCGTGGTGTCGCCAACCCTGCTGCCGGATGCGGCGATCCTCGACGCAAGCCTGACCGTCGGCCTTCCTCCAGCGGTGACTGCGGCGACGGGAATTGACGCCATGGTCCACGCCATCGAGGCGTTCACCTCCGCCAGTGCGAACAACAATCCTGTTTCCCGCACCCTTGCCAAAGAGGCGCTCCGGCTTCTTGGAGCGAATATCGAGATCGCCGTGAATAACGGGGCCGAGATGGTTGCCAGACAGGCCATGCTGCTGGGTGCGATGCTGGCCGGTCAGGCCTTTGCCAATTCGCCGGTTGCGGCCGTTCATGCTCTCGCCTACCCGATTGGCGGCCTCTATCATGTTCCGCACGGGCTCTCCAACAGCCTGGTCCTGCCACATGTGTTGCGTTTCAACGCAACGGTGTGCGGGGATGCCTATGCGGAATTGGCGCCATGTCTTTTTCCTCAGCTGGAGTCTGCCGACAGGTCCGGCCGACTTGCCGGCTTCCTGGAAGGGCTGGCCTTGCTCCCCGGGCGCCTGAACCTGCCGGTGCGACTGAGAGATGTTGGGATACCAAAAGACGGGCTTGCCTTGCTGGCGGAAAGTGCGATGGAACAGACCCGCCTGCTTGTTAACAATCCACGCACGGTGCTGCTGTCCGATGCCGCCAGAATCTACGAAGATGCTTGGTAG	MSTFTFATVPQIIAGPGSIARLSELKTGLGSRVLVISDDGVVRAGLAQPALASLSEGGAETSIFTGVVADPPETVIHDAVARAIDFGATGILGIGGGSSLDVAKLVALLARSGEALGDIYGVGKVTGERLPLVLVPTTAGTGSEVTPISIVTTDAHQKKGVVSPTLLPDAAILDASLTVGLPPAVTAATGIDAMVHAIEAFTSASANNNPVSRTLAKEALRLLGANIEIAVNNGAEMVARQAMLLGAMLAGQAFANSPVAAVHALAYPIGGLYHVPHGLSNSLVLPHVLRFNATVCGDAYAELAPCLFPQLESADRSGRLAGFLEGLALLPGRLNLPVRLRDVGIPKDGLALLAESAMEQTRLLVNNPRTVLLSDAARIYEDAW	PGPT0006375_372	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006375-EC_1_1_1_1|adh-K00001	NA	NA
BMS010_07531	1026	degA	COG1609	HTH-type transcriptional regulator DegA	ATGGCGCGGAACCATGCGACCAGCCTCAAAGATGTCGCCTTGGCGGCAGGCGTTTCAGTTGCGACCGTATCGCGGCTTCTGAACGGCACGCTGGAGCTGCCGCCAGAAACGAAAGCGCGCATCGAGGCCGCTATCCGTGAACTCAATTACGTGCCCAATCCCCATGCCAGACGCTTGAGCCGAGGGCGCTCGGACACGATCGGCCTTGTCGTTCCTGATATTGGAAACCCGTTTTTCGGCATGCTCGTTGCGGCCGTCGAAGAAGAAGCCGACAGGCGAGGACTTGCCCTCTCGCTTTTCGCCACGCTGAACCGTACGGGTCGGGAATTGTCCTATCTTCGTCTGCTTGCCCGCAATCATGTCGATGGGCTCGTTTTCATCACGAACCACCCCAATACCGACGAACTGGCGGAGCTGATCAATACCACCGGCAAGGTGGTGGTGGTCGATGAAGACGTGCCAGGCGCCACCGTGCCGAAACTCTTCTGCGACAATGAGCAGGGTGGTCGCCTGGCGGGCGCGCATCTGGCTATGCATGGGCATAAACGTGTCCTTTATGTCGGGGGACCAGAGGACATGATCAGTACGGAGCGTCGTTTTCGCGGCCTCAAATCTGCTCTCACCGAGCGTGTGGCGGAGGCAGAGCTTTCGATTTCCAGATATTGCGGCGCATATACCGTGGAATTTGGCCGGGTTGCCGCGCGCCGCTTTCTGGACGAGGGGCGCCCGGCAACAGCGGTTTTCGCCAGTTCGGACGAAATCGCCATCGGATTTGTCGAGGTTCTGCGTTCCGAAGGCGTGCGCATCCCGCAGGACGTGTCGATGATAGGTTTCGACGACGTCGGGCCGCTGCATCTTTTTGCGCCGCCGCTCACCGCCATCCGCCAGCCTGTCAGCGCCATTGGCCAACGCGCCCTGTCGCTTTTGCTCGAAACCAATTGGGACCAGGAACATCCTTTGCTGTCAGAGGAGCTCTTGCCCGTCGAAATCGTCGTGCGTGAATCCGTTGCGCCGCCCGCGATCTAA	MARNHATSLKDVALAAGVSVATVSRLLNGTLELPPETKARIEAAIRELNYVPNPHARRLSRGRSDTIGLVVPDIGNPFFGMLVAAVEEEADRRGLALSLFATLNRTGRELSYLRLLARNHVDGLVFITNHPNTDELAELINTTGKVVVVDEDVPGATVPKLFCDNEQGGRLAGAHLAMHGHKRVLYVGGPEDMISTERRFRGLKSALTERVAEAELSISRYCGAYTVEFGRVAARRFLDEGRPATAVFASSDEIAIGFVEVLRSEGVRIPQDVSMIGFDDVGPLHLFAPPLTAIRQPVSAIGQRALSLLLETNWDQEHPLLSEELLPVEIVVRESVAPPAI	PGPT0017992_6600	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017992-lacI|galR-K02529	NA	NA
BMS010_07532	954	yphF	COG1879	ABC transporter periplasmic-binding protein YphF	ATGCTGAATTTCAAACGTCGATATTTTTCCGCAGCTCTGGCTGCGACCGTCCTTGCCGGCGCGACTTTGTCTGCTGGTCTTGCCAACGCCGCCGAAAAGACGATCGCCCTGGTTCAGATCAACCAGCAGGCGCTGTTTTTTAACCAGATGAATGAAGGCGCGGAAAAAGCCGCCAAGGAAGCCGGCGTCAAGCTGGTGATCTTTAACGCCAACAATGACCCCGCCGCTCAGAACAGCGCGATTGAAACCTATATCCAGCAGAAGGTGGACGGCATTGCCGTGGTCGCCATCGATGTCAATGGCATCATGCCGGCCGTAAAGCAGGCGGCCGCCGCCAATATTCCCGTTGTCGCCATTGACGCCATCTTGCCGGAAGGTCCGCAGAAGGCGCAGATCGGCGTGGATAACGGCAAAGCGGGCGCCGACATGGGAAAATTCTTCCTTGACTACGTGAAGTCCGACATGGGCGGCAAAGCCAAGATCGGTGTCGTCGGTGCGCTGAACTCTTTCATCCAGAACATCCGCCAGAAGGGCTTTGAAGACACCATCAAGGACAAGACCGGCATCACGGCCGCCGGCGTTGTCGATGGGCAGAACGTTCAGGATACCGCACTGTCGGCAGCGGAAAACCTCATCACCGGCAATCCGGACATGACCGCCATCTACGCCACCGGTGAACCGGCTCTTCTTGGCGCAGTCGCTGCGGTTGAAAGCCAGAGCAAGCAAAAAGACATCAAGGTGTTTGGCTGGGACCTGACCAAACAGGCCATCGCTGGCATTGACGCCGGTTATGTCGCAGGCGTCATCCAGCAGGATCCTTCCGCCATGGGTGCAGCAGCGGTCAAGGCCCTCAAGACCGTCTCCGATGGCGGCACCGTGGAAAAGACCATTGCCGTGCCGGTCACCATCGTCACCAAGGCCAATGTCGAACCCTACCGTGCGGTCTTCAAATGA	MLNFKRRYFSAALAATVLAGATLSAGLANAAEKTIALVQINQQALFFNQMNEGAEKAAKEAGVKLVIFNANNDPAAQNSAIETYIQQKVDGIAVVAIDVNGIMPAVKQAAAANIPVVAIDAILPEGPQKAQIGVDNGKAGADMGKFFLDYVKSDMGGKAKIGVVGALNSFIQNIRQKGFEDTIKDKTGITAAGVVDGQNVQDTALSAAENLITGNPDMTAIYATGEPALLGAVAAVESQSKQKDIKVFGWDLTKQAIAGIDAGYVAGVIQQDPSAMGAAAVKALKTVSDGGTVEKTIAVPVTIVTKANVEPYRAVFK	PGPT0015740_4275	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0015740-rbsB-K10439	NA	NA
BMS010_07533	804	frcA_3	COG1129	Fructose import ATP-binding protein FrcA	ATGATTGCGGCCGGACAGCACACAGGCGCTGTCGACGGCGCCGGGGGAGATCTTCTCTCCCGGCAGCCCGATCGTGAAGCGCGTATCTCCCTGCGCAATATCCGCAAGACCTTTGGCTCGCATCAGGCGCTTCGCGGCGTCGATCTGGATATCTTTCCCGGCGAGTGCCTCGGTCTCGTCGGCGACAATGCGGCCGGTAAATCTACCCTCACCAAGGTGATTTCCGGCACCTATATCCCTGATGAAGGCACGATCACAATGGAAGGGGAAGCCATTCGCTTCTCCGGCCCTGCCGATGCCCGCAACCGCAACATTGAGATGGTTTTTCAGGATCTGAGCCTGTGTGACCATATCGATGTCGTGGGCAATCTCTTCCTCGGGCGCGAAATTACCAAAGGTCCGTTTCTCGACCGGCCGACCATGCTTTCAGAAGCTCGCAAGATGCTGGATGCACTGGAAATCCGCATTCCGCGTCTCACCTCCAAGGTGGAGAAACTGTCCGGCGGCCAGCGACAGGCAATCGCCATTGCGCGGGCGGCCTCCTTCAATCCGAAAGTCCTGATCATGGACGAGCCGACATCGGCGCTTGCCGTTGCGGAAGTGGAAGCCGTGCTTTCGCTCATCAATCGCGTCAAGGCCAAGGGCGTGTCGGTTATTCTCATCACCCACCGGCTTCAGGATCTCTTCCGGGTCTGCGACCGCATCGCCGTCATGTATGAAGGCACCAAGGTGGCAGAGCGTCAGATCAACGACACCAGCCTCGAAGACCTCGTGCGTCTGATCGTGGGAGGGCAACGTCATTGA	MIAAGQHTGAVDGAGGDLLSRQPDREARISLRNIRKTFGSHQALRGVDLDIFPGECLGLVGDNAAGKSTLTKVISGTYIPDEGTITMEGEAIRFSGPADARNRNIEMVFQDLSLCDHIDVVGNLFLGREITKGPFLDRPTMLSEARKMLDALEIRIPRLTSKVEKLSGGQRQAIAIARAASFNPKVLIMDEPTSALAVAEVEAVLSLINRVKAKGVSVILITHRLQDLFRVCDRIAVMYEGTKVAERQINDTSLEDLVRLIVGGQRH	PGPT0016600_5245	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0016600-rbsA-K10441	NA	NA
BMS010_07534	1005	xylH_3	COG4214	Xylose transport system permease protein XylH	TTGACCGTCTATACTGAACGCGCCAAAGGCTCGCCGCTTTCGGACTTTTTCGCCGAAAATGCGCAGGTGCTTTCCATCGCCGCCTTTTTTGCCCTCTGCATGCTGTTCTTCTCCGCAACCACGGATACGTTTCTGACGGCCGGCAATCTTCTGAACGTGGTCCGTCAGGCCGCGCCCATCCTGATCGTCTCAGTCGCAATGACATTCGTCATCATCACCGGCGGTATCGATCTGTCCGTCGGCTCCATGGTCGCCCTGATCAATGCCGTCGGGGCGATCCTGCTTGCGGCCGGTTACCCCTGGCCGCTGGTTGTCGTCGCCATGCTCGTGCTCGGCGGCGGGCTTGGCCTCGTGCAGGGCTGGTTCATTGCCTATCAGGGCATTCCGGCCTTCATCGTGACGCTTGCAGGCCTCTCCATCCTGCGCGGCGTTGCCCTCTATATCACGCAGGGCTATTCCGTGCCGATACCGGAAGCGCCCGGTTTCTTTTACCTCGGCAGGGGTGATTTCCTTGGCATGCCCGTTCCTGCCCTGATCGGCGTCGTCGTTACCGTGATAGCCTATATCGTTCTTTCGAGCACCCGATATGGTCGTCGCGTCGTCGCCGTCGGCTCCAATCCCGAAGCGGCGCGCCGCGTCGGGATGCCAGCCAAATGGATTCTCGCCTCGGTCTATCTGGCCGCGGGCGTGGCGTCGGCCATTGCCGGCCTGATGATTGCGGCGCGGCTGGGGTCGGGATCCTCGAATGCGGCGGTCGGTTTCGAGCTTCAGGTGGTTGCGGCGGTGGTTCTGGGCGGCACATCGTTGATGGGCGGTCGCGGCACAATTCTCGGCACGGTTCTGGGCACCATGACCATCGCCGTCATCGGCAATGGCCTTATCCTCATGCATATCTCTCCCTTCTTTACCCAGATCGTGACGGGCGCCATCATTCTCGCAGCAATCTGGCTCAACACGCGCATCTTCACCGCCAACTTCCGCCTCGGCGCGAAGAGAAAGGGGTGA	MTVYTERAKGSPLSDFFAENAQVLSIAAFFALCMLFFSATTDTFLTAGNLLNVVRQAAPILIVSVAMTFVIITGGIDLSVGSMVALINAVGAILLAAGYPWPLVVVAMLVLGGGLGLVQGWFIAYQGIPAFIVTLAGLSILRGVALYITQGYSVPIPEAPGFFYLGRGDFLGMPVPALIGVVVTVIAYIVLSSTRYGRRVVAVGSNPEAARRVGMPAKWILASVYLAAGVASAIAGLMIAARLGSGSSNAAVGFELQVVAAVVLGGTSLMGGRGTILGTVLGTMTIAVIGNGLILMHISPFFTQIVTGAIILAAIWLNTRIFTANFRLGAKRKG	PGPT0016590_2444	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0016590-rbsC-K10440	NA	NA
BMS010_07535	1068			hypothetical protein	ATGACCACGGAACTCTCTGAGGGACATATCCGGTCGGGAAAGATCATGACCGTGCGTGGCGCAATCGCTGCGGACCAGCTTGGCGTGACCCTGATGCACGAGCACATCCTCAACGATTGCCGTTGCTGGTGGCACGCCCCCAGAACACCGGAGCGGCAATATCTCGCCGAAGGCTTCGTCTGCATGGAAATCCTGAGCGAGTTGCGTCAGGATCCCTTCGTCAACAAGCACAATATCACGCTCGATGACGAGCCGCTGGCGATTGCGGAACTGAAGGATTTCGTTACGGCCGGTGGACAGACGGTTGTGGAACCAACCTGTCAGGGCATCGGCAGAAATCCGCTGGCGCTGCGGCGGATTTCACAGGCGACGGGCCTCAACATCGTCATGGGCGCTGGTTATTACCTTGCATCCTCCCACCCCGAAAAAGTGGCGGGGCTGACCGTCGAAGCCATTGCCGACGAAATCGTGCACGAGGCGCTCTACGGTGTCGATGGGACCGATGTCCGCATCGGTCTGATCGGCGAAATCGGTGTTTCCGCGGATTTCACGGCAGCGGAGGAAAAGTCCCTGCGGGGAGCGGCGCAGGCGCAGGTCCGCACCGGCCTTCCCCTGATGGTTCATTTGCCGGGATGGCTTCGGCTGGGACACAGGGTTCTCGACATCGTCGCGGATGAAGGCGCCGATCTAAACCATACGGTTCTTTGTCACATGAACCCGTCCCACGCGGATATCACCTACCAGAGCGAACTCGCAGATCGCCGCGCCTTCATCGAATACGACATGATCGGTATGGATTTTTTCTACGCCGACCAGCAGGTGCAATGCCCCAGCGACGAGGATGCCGCCCGTTCGATTGTCACGCTGGCGGAGGGCGGTTACCTCGACCGCATTCTGCTGTCTCATGACGTCTTCCTGAAAATGATGCTGACCCGATATGGCGGCAATGGCTACGCCTATATTCTCAGACACTTCCTGCCGCGGCTGAAGCGGCACGGGCTCGATGACGCCACTCTTCAAACTCTCATGCGGGACAACCCGCGCTCGGTCTTCCAGGCGAAGACCTGA	MTTELSEGHIRSGKIMTVRGAIAADQLGVTLMHEHILNDCRCWWHAPRTPERQYLAEGFVCMEILSELRQDPFVNKHNITLDDEPLAIAELKDFVTAGGQTVVEPTCQGIGRNPLALRRISQATGLNIVMGAGYYLASSHPEKVAGLTVEAIADEIVHEALYGVDGTDVRIGLIGEIGVSADFTAAEEKSLRGAAQAQVRTGLPLMVHLPGWLRLGHRVLDIVADEGADLNHTVLCHMNPSHADITYQSELADRRAFIEYDMIGMDFFYADQQVQCPSDEDAARSIVTLAEGGYLDRILLSHDVFLKMMLTRYGGNGYAYILRHFLPRLKRHGLDDATLQTLMRDNPRSVFQAKT	PGPT0006755_140	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-ORGANOPHOSPHATE_DEGRADTION,PGPT0006755-php|opd|adpB-K07048	NA	NA
BMS010_07536	771			hypothetical protein	ATGACAAAAAAAGTGCTCCTCGTCGGTGAAAGCTGGGTCAGCTCCGCCACCCACTACAAGGGCTTCGATCAATTTGGCAGCGTCACCTTTCATCTGGGTGCAGAACCGCTGGTGAAGGCTCTGGAAGGCAGCGAATATGAGCTGACTTACATGACCGCCCATGATGCGGTGGAAAAATTTCCCTTCGAGATGGCGGGGTTAGATACCTATGACGTCATCATTCTCTCGGATATCGGTGCAAATTCGCTTCTGCTGCCGCCGGCCGTCTGGCTGCAGTCCAAAACCGTGCCGAACCGGTTGAAGCTCATCAAGGCATGGGTGGAAAAGGGCGGCGGCCTGCTGATGGTCGGCGGCTATTTTTCCTTTCAGGGTATTGATGGTAAGGCCCGCTGGCGCCGCACGCCGGTGGAAGATACGTTGCCCGTCACCTGCCTTCCATGGGACGACCGCGTGGAAATTCCGGAAGGCTCGACGGCCGATATTCTGAAACCCGACCATCCGACCGTGGCGGGCCTTTCCGGCGAATGGCCGCTACTGCTTGGTGTCAACGAGGTGGAGGTGCGTGACCGCGCCGATGTCGAGGTGGTTGCCCGTCTGCCGGAAGATCAGGGTTCCCATCCGCTGCTCGTCACCGGTCGGTTCGGCAAGGGCCGCACGGCCGCATGGACATCCGACATTGGTCCGCACTGGCTTTCTCCAGCCTTCTGCGAATGGGATGGCTATGGGCGGCTGTGGAAGAACATTCTCGGCTGGCTGACGGAAAAGCCGTGA	MTKKVLLVGESWVSSATHYKGFDQFGSVTFHLGAEPLVKALEGSEYELTYMTAHDAVEKFPFEMAGLDTYDVIILSDIGANSLLLPPAVWLQSKTVPNRLKLIKAWVEKGGGLLMVGGYFSFQGIDGKARWRRTPVEDTLPVTCLPWDDRVEIPEGSTADILKPDHPTVAGLSGEWPLLLGVNEVEVRDRADVEVVARLPEDQGSHPLLVTGRFGKGRTAAWTSDIGPHWLSPAFCEWDGYGRLWKNILGWLTEKP				NA	NA	NA	NA	NA
BMS010_07537	897	rbsK/rbiA		Bifunctional ribokinase/ribose-5-phosphate isomerase A	ATGCGTGCCTTTGTTATCGGCAATATCGCACTTGATGAAACCTATTCCATTGCCGCACTGCCGGATGCGGGCGCTTCAATCTTTGGCGAGCAGGCCTCGCGCAGTCTCGGTGGCAAAGGCTGCAACCAGGCCATTGTTCTTTCGAGATGCGGTGTCGAAACCACGCTCGTCGCCGCCGTCGGCAGCGATGAGCGTGCGATTGCGATCGAAAAGGCACTCACCCGCGAGCGCCTGACACCAAAGCTCATTTCCGTCGATAGCCCCACCAGCGATATCTCCATCATCCTGACCACCCCCGACGGTGAAAACTCGATCATCACTACCCGTTCGGCAGCGGCAGCGCTCGATCAGAAAGCTGCCTTGGACGCCCTTGCCGTCGCCGTCTCCGGTGACCTCCTCGTTTTGCAGGGCAATCTTTCGGAAGAAACGACCCTTGCCATTCTCAATGCGGCGAGATCGAAGGGACTAAAGACGGCTTTCAATCCGTCGCCGCTTCAGCCCTGGTTTGCAAGCGTCCTGCCGTTCATCGATATCGCCGTCCTCAACCGCCTCGAGGCCGAGGCGCTGACGGGTGAGAGAGGGTCCGATGCCGGAGCGTGCCTGCTGCGCGCCGGTGTCGGCCTCGTCATCGTCACGCTCGGCGGACAAGGCTGTGCGCTCGTGTCCGCCCAAGGCGCTATCGAGGTGCCCGCTGCGCCCGCCACAATCGTCGACACCACGGGCGCCGGCGATTGCTTCACGGGTGTTGCGCTTGCCTCCGCCATGCTTCGCGGCGTCGCCGTGGACGCGCGTGCCCTTGAGGATGCCTCAAGGGCCGCAGCCATCACGGTTGGCCGTCGGGGCACGCAGGATGCCTTTCCCAGTCGTCAAGAACTGATGACCATTTTGCAGGCGTAG	MRAFVIGNIALDETYSIAALPDAGASIFGEQASRSLGGKGCNQAIVLSRCGVETTLVAAVGSDERAIAIEKALTRERLTPKLISVDSPTSDISIILTTPDGENSIITTRSAAAALDQKAALDALAVAVSGDLLVLQGNLSEETTLAILNAARSKGLKTAFNPSPLQPWFASVLPFIDIAVLNRLEAEALTGERGSDAGACLLRAGVGLVIVTLGGQGCALVSAQGAIEVPAAPATIVDTTGAGDCFTGVALASAMLRGVAVDARALEDASRAAAITVGRRGTQDAFPSRQELMTILQA	PGPT0017405_3951	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_RIBOSE_METABOLISM|DEGRADATION,PGPT0017405-rbsK-K00852	NA	NA
BMS010_07538	843			hypothetical protein	ATGCAGACCATATCCGACAACGCGGCCAATGCTATCAAGGAAATTTTCGGTCGCAACAAGGCGCTGATCGGCATGATACATTGCCCGGCCTTTCCCGGAGCGCCGCGTTATCGGAACGCAAGCATGGATGCGATCTACGATGCGTGCATGCGCGACGCCGAACGCCTTGTTGAAGGCGGCATGCACGGTCTGATCGTCGAAAACCACGGTGACGTTCCCTTCTCCAAACCAGATGATATCGGACCGGAAACCTCAGCCTTCATGAGCGTGGTGACGGACCGCATCGTTCGCGCCGTCGGCGTGCCCGTTGGTATCAATGTGCTGGCCAATGCTCCCATCCCTGCCCTTGCAATCGCCATGGCGGGCGGGGCGAAATTTATCCGCGTCAATCAATGGGCAAACGCCTATGTGGCCAATGAGGGTTTCATGGAGGGACGTGCAGCCGAGGCGATGCGCTACCGTTCATTGCTAAGGGCGGAGCACATCAAGGTTTTTGCCGACAGCCATGTGAAGCACGGCGCCCACGCCATCACCGCGGATCGCAGCATTGATGAACTGACGCGCGATCTCGCCTTCTTCGACGCCGATGCCGTCATAGCGACAGGCCAGCGGACCGGAAACAGCGCGTCTCTTGAAGAGATCGAGGAGATCGGCGCGGCCACGCATCTGCCGCTTCTGGTCGGCTCAGGGGTCAACGAAGGCAATATTATCGAAATCCTCAAACGCACCAATGGCGTAATCGTGGCGTCATCGCTGAAGGAAGGCGGCGTCTGGTGGAACCCGGTCGAACTGTCCCGGGTACGTTCTTTCGTTGCAGCGGCTCAGCCCGGCCTCGACGGCTGA	MQTISDNAANAIKEIFGRNKALIGMIHCPAFPGAPRYRNASMDAIYDACMRDAERLVEGGMHGLIVENHGDVPFSKPDDIGPETSAFMSVVTDRIVRAVGVPVGINVLANAPIPALAIAMAGGAKFIRVNQWANAYVANEGFMEGRAAEAMRYRSLLRAEHIKVFADSHVKHGAHAITADRSIDELTRDLAFFDADAVIATGQRTGNSASLEEIEEIGAATHLPLLVGSGVNEGNIIEILKRTNGVIVASSLKEGGVWWNPVELSRVRSFVAAAQPGLDG				NA	NA	NA	NA	NA
BMS010_07539	1242	hyuC_3	COG0624	N-carbamoyl-L-amino-acid hydrolase	ATGGCAAAACTTTCGATCAACGGCGAAAGACTGCTGGCAAATCTCGATCGATTTGCGGCGATCGGCGCGACTGAAAAGGGCGGCGTCAACCGGCAGGCGCTGACCGCACTGGATCGTGAGGCGAGACGACTGCTGGCGAAACTCGCCATTGATCGGGGGTTTTCCGTGTTTCAGGATCCCCTTGCCAATCTTTTCATTCGTAGGAATGGCCGCGACGAGAGCCTTGCACCGCTTCTGATCGGCAGCCATCTGGATAGCCAGCCGTCAGGCGGCCGGTTTGATGGAGCACTGGGAACGCTTTCGGCATTCGAGGTTCTCGAAACGCTCGAAGATTTCGGAATAGATACGGAGCGCCCCATTGAGGTGGTCGCCTTCACCAATGAGGAAGGCTGCCGCTTCGCTCCCGGCTGCATGGGCTCCATGGCTTTTGCTTCCGGTAATATCCCCGAAAACTGGCTTCATCTTGCGGCAACGGATGACGGCGCCGGTTTTGCAGGTGAGCTTGACGCCACCCTGAAAAGCCTGCCGGAAGCGACCATGCGCGATCTTGGTTTTCCGGTCTTTGCTTTTGTCGAGGTACATATAGAGCAGGGTCCATCCCTTGAAAAACAGGGCGTGCCCATCGGGATTGTGACGGGCATACAGGGTACACGCTGGCTGGAGGTGTCAATCACCGGCCAGACTGCTCATGCCGGCACAACAGCCCTAGCATATAGACGCGATCCTTTTCATGCCGCGGTCAATGCGCTGGGGTCGCTTTTCCCCGCCATGATGCCGCTGGATCCTGCGGCCCGGTTCACCGTTGGCCGAATGGCGTTGCAGCCCGGTGCCGTGAACGCCATTCCACAATCCGTGACTTTCACCGTCGATATCAGACATCCCTCATCAGAAACACTCGACGAAATGGAGAGCAAAATCCGCGCGATCGTGCACGACGCTGCGATGGACCAAAAATGCGAAGCGACGATTGGACAGATATTCGACATGCCGCCGGCGAATTTCCAGGATGGCATCGTGTCGGCATTGGGCCGCGCCGCACGGGAGCGCGGTTTTTCGACCGAACGCATGTTGTCAGGCGCATTCCACGATGCACTTTTCATGAACAGGGTCGCACCATCGGCCATGATTTTTGTGCCGTGCCGCGACGGTCTCAGTCACAACGAGGCAGAGCGTGTTGAACCTGAACATAGCATCGCGGGATGCAACATGCTTTTCGCTTCGGTTCTTCAAATCCTGTCATAG	MAKLSINGERLLANLDRFAAIGATEKGGVNRQALTALDREARRLLAKLAIDRGFSVFQDPLANLFIRRNGRDESLAPLLIGSHLDSQPSGGRFDGALGTLSAFEVLETLEDFGIDTERPIEVVAFTNEEGCRFAPGCMGSMAFASGNIPENWLHLAATDDGAGFAGELDATLKSLPEATMRDLGFPVFAFVEVHIEQGPSLEKQGVPIGIVTGIQGTRWLEVSITGQTAHAGTTALAYRRDPFHAAVNALGSLFPAMMPLDPAARFTVGRMALQPGAVNAIPQSVTFTVDIRHPSSETLDEMESKIRAIVHDAAMDQKCEATIGQIFDMPPANFQDGIVSALGRAARERGFSTERMLSGAFHDALFMNRVAPSAMIFVPCRDGLSHNEAERVEPEHSIAGCNMLFASVLQILS	PGPT0021095_1095	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_DEGRADATION,PGPT0021095-pydC-K06016	NA	NA
BMS010_07540	2514	dddD	COG1804	CoA-transferase/lyase DddD	ATGACATCGACCGCACGGTCCACGCTTCCGCTTTCCGGCGTTCGGGTGGTTGATTTCGGGCAATATATTGCCGGCCCGGCGGTGGCCATGATCCTCGGCGATCTGGGTGCGACCGTCGTGCATATCGATCCCCCTGGCGGTCCGCTTTGGCAAAGCCCAGCCAATGCAACGCTCAATCGCAACAAAGCCATCGTCAACATCGATCTGAAGGTGCCTGAGGGCATCCAGCAGGCGTTTGCGCTTATCGCGGAAGCAGACATTGTCATCGAAAATTTTCGCCCGGGCAAACTGGCGGCGCTCGGAATAGATTTTTCAACGCTCCGGCAGGAACGGCCGGAGTTGATCACGCTTTCCATCCCCGGCTTTGCTTCGAACGACGAGGAAAGGCGTGAGCTGCGCGCCTATGAAAGCGTCATCGCGGCAAGCTCCGGCGTTTTTACGGATATGGGCCTCAATCGGGTGCTCATGGGCGTCAACCCGTCCTTCTCCCCGCTGCCGCTGGCCTCGGCCTATGGCGCCATGCTGGCGTCGTCTGCAACAGTCCTCGCCTTGCAGGCGCGTGAGCGCACGGGGCTTGGCGACCACATCGAGGTGCCGCTCGCCAGCGCCGTCATGGAAGGGCTGTGCTACAATTCCATCAAGATCGAAGGGCTCCCGGATCGGTATATCACGCAGCGCGAGCAGGAAATCGCCCGCCGCCGGGCCGAAGGCCTGCCGATGAACCTGAGTTACGAGGATCTGCAGGAACTTCTGGATCCCTTTTACAGAAGCTACCTCTGCAAGGACGGGCGGATGTTTTACGTCGTCTGCCCCAGCCACAAGAACCACGCGAAGCGCTGCCTGCAAGCGCTCGGCATCTACGATGAACTCGTGGCCGACGGGCTGACGGAGGAGGAAGATACATATCTTCCGACTTCTGAATGGAAATCCGATGTATCGCTCGGCGTCTACCCCTTACCCAAGTTCTGGGCCGACAAGATCGCGGCAAGAATGAAGGAGGTGTTCATTACCCGGACCGCCAAGGAGTGGGAGCGGATATTCGGGCGCGGCGGCTTTCCCGGCGCTCCGCAGCGCTGGCTGCAAGAGTGGATCAACGACGACCACGCTGAGACGGCGGGCCTTATGATCGATGTCAAGGACCCGGAATATGGGACCATGATCCAGCCTGGTCCGGTCGTCTGGCTCGAGGAAAGCGGCGCTGAAGCGCTGTCTCCAATGCCACGGCGGTGGGTAGAGTTTTCGACCGCATTATCCCTTTTGAAGAATGAGAAGACCGAACTTCCACGCATAACCAATCCCGATGATCGCAGCGGTTGGCTACAGGGCGTTCGTGTGCTCGACCTTTGCAATGTGATCGCCGGTCCGCATTGTGTTTATTATCTGGCACGTTTCGGTGCCGAAGTGATCAAGCTTGATCCTGCCTCGCCTCTCTACGATTGCTGGAATACCGTGATTTTCGGTATGTCGCACATGCGCGGAAAACAATCGGCGCTCATCGACATAAAAGCGCCCGAGGGTAAAAAGGCGCTCGAGGCCCTGATAAAGTCGGTCGATGTCATCGTCTGGAATGCGCCCGACAATCAGATCCTCAACATGGGGCTTGATGCCGAGACGCTGAAAACAATCAACCCGGATGCCATTTTCTGTAAACTCGACTGCTTTAGCGGCGTGAGCCGTGGCCCGAGGACCGATTATGTCGGTTATGACGACCTGGTCCAGGCAGCGACCGGCATCATGCTCCGTTTCGGTGGCTCGATGCACGAACCGGAAGAACATGCGCATGTCGGTACGATCGACGTTATGTGCGGATTCGGCGGTGCACTGGGGGTCGCGGCGGCCATTTACCAAAAACTGAAAACCGGTCGGGTTGGTCGCGGACGGACGTCTCTGTCTGCAAACAGCGGGCTCCTCCAGATTCCATTCTCCTATGACTATCGCGGTAGAAGTCTCTTCAACGAACCTGCCGGTCGGTACGTGGCGGGATATGATGCCCTGACCCGCTTTTATTATACCGCTTCCGGCGACTATCTGCTGTTCAGCTCAAATGAGCAGGATGTGCCAAAGCTTGACTGCCTGGACGACTTCAAAGGAATAGCCAGTCTGCCGAAAGACGAACGCGACGCATTTCTTTCCAGTATTTTTGCCGGCGATACCTCTCAATCGTGGTTGGAGAAGCTCCAACGGGAAGGTTTCGGAGCAGTGATTTGCGACAATATCGACGCGTTGCGATCCCGCTATTCACGGCAAGCCGACGGGACGAACGGTGTAGACAGAGGAAGTTATTCTTTCTCCATTTATGCAGACCATCCAAGCGGCCACGTTGTGACGCAGCTCGATCCCTGTGCCATTCGCCCCAGCCGCAGCTCGATCGTCTCTCCGCCGCCGGCGGAAAAATACGGTGCCTCAACCGTCAAGGTCCTCGAAGAGGTCGGCTATACGGAAAAAGAGATCGAGAAGCTGCTTGAGGACGGTGTTGCGAGCCAGAGCTGGAGCACGGAGTATCTGCCGAGCTGA	MTSTARSTLPLSGVRVVDFGQYIAGPAVAMILGDLGATVVHIDPPGGPLWQSPANATLNRNKAIVNIDLKVPEGIQQAFALIAEADIVIENFRPGKLAALGIDFSTLRQERPELITLSIPGFASNDEERRELRAYESVIAASSGVFTDMGLNRVLMGVNPSFSPLPLASAYGAMLASSATVLALQARERTGLGDHIEVPLASAVMEGLCYNSIKIEGLPDRYITQREQEIARRRAEGLPMNLSYEDLQELLDPFYRSYLCKDGRMFYVVCPSHKNHAKRCLQALGIYDELVADGLTEEEDTYLPTSEWKSDVSLGVYPLPKFWADKIAARMKEVFITRTAKEWERIFGRGGFPGAPQRWLQEWINDDHAETAGLMIDVKDPEYGTMIQPGPVVWLEESGAEALSPMPRRWVEFSTALSLLKNEKTELPRITNPDDRSGWLQGVRVLDLCNVIAGPHCVYYLARFGAEVIKLDPASPLYDCWNTVIFGMSHMRGKQSALIDIKAPEGKKALEALIKSVDVIVWNAPDNQILNMGLDAETLKTINPDAIFCKLDCFSGVSRGPRTDYVGYDDLVQAATGIMLRFGGSMHEPEEHAHVGTIDVMCGFGGALGVAAAIYQKLKTGRVGRGRTSLSANSGLLQIPFSYDYRGRSLFNEPAGRYVAGYDALTRFYYTASGDYLLFSSNEQDVPKLDCLDDFKGIASLPKDERDAFLSSIFAGDTSQSWLEKLQREGFGAVICDNIDALRSRYSRQADGTNGVDRGSYSFSIYADHPSGHVVTQLDPCAIRPSRSSIVSPPPAEKYGASTVKVLEEVGYTEKEIEKLLEDGVASQSWSTEYLPS	PGPT0003252_1	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-DMSP_DEGRADATION,PGPT0003252-dddD-NA	NA	NA
BMS010_07541	1689	alkJ_4		Alcohol dehydrogenase [acceptor]	ATGAGGACTGGTGGTTCCGGAACTTTCCGCGACGTTTTTGACTACGTTATTGTTGGCGGTGGCTCCGCAGGCTGCCTCCTCGCCAATCGCCTCAGCCGTGACCCGTCAAAACGTGTTCTTTTGCTGGAAGCCGGCCGAAAGGACGATTATCCATGGATACATATCCCGGTCGGCTACCTCTATTGCATCGGCAATCCGCGCACAGACTGGCTTTATAAAACCGAGCCAGATGCCGGCCTGAACGGCCGTTCGCTGCGCTATCCCCGCGGCAAGACGCTTGGCGGCTGCTCATCGATCAACGGCATGATCTATATGCGTGGTCAGGCGCGCGATTTTGACGGGTGGGCAGCGGCAACCGGCGATGATGCCTGGTCCTGGCAAAATTGCCTGCCCGATTTCAAGGCGCATGAGGATCATTACCGGCTGGACGATGGTGCGGATCCGAAGACCGGCGACAACAGCCGGTTCTCCGACATGCATGGCCATGGCGGCGAATGGCGGATCGAGAAGCAGCGTCTGAAATGGGACATTCTCGAATCCTTCGCGGAGGCCGCCGTGGAAGCGGGCATTCCGCGTTCGGACGATTTCAACAGCGGCGACAATGAAGGTGTGGGCTATTTCGAGGTCAATCAGCGCTCCGGCTGGCGCTGGAACACGTCCAAGGCTTTCCTGCGCCCCGTGAAAAACCGCTCAAACCTGACGATCTGGACGCAATCTCATGTCGAGCGTTTGATCCTTGTAAAAGAGGCGTCCGGTCGCAAGCGCTGTATCGGTGTCATGGTTGAGCGCCACGGGCAGCGCACGGAGGTTGGGGCGCGCGGAGAGGTTATTCTTTCTGCGGGTGCAATCGGATCACCGCACATCCTGCAATTATCGGGCATCGGGCCCGCCGCACTGCTGAAGCGTCACGGCGTTGAGGTCGAACACGACCTGCCAGGTGTCGGTGAAAATCTTCAGGACCATCTGCAAATTCGTGCGGTCTTCAAGGTCGGTAATGCGAAAACGCTTAATACGCTCGCCAACAGCGTTTTTGGCAAAGCAATGATCGGGCTCGAATATGCGATGAAACGCAGTGGTCCGATGAGCATGTCGCCCTCGCAACTCGGTGCCTTCACGCGTTCAGATGAAAGCCAGGCCCATGCCAATCTGGAGTATCACGTCCAGCCCCTCAGTCTCGACGCGTTCGGTGAGCCGCTGCACACTATTCCCGCCTTCACTGCCAGTGTTTGCAATCTGAACCCGACCAGCGTTGGAAGCGTGCGGATTCGCTCCGGCAAAGTGTCGGACGCGCCGGCAATTGCGCCGAACTATCTCAGCACCGAAGAAGACCGCGGGATAGCTGCCCAAAGCCTCCGCCAGGTGCGCAAAATCGTGTCGCAGCCAGCGCTGGCAAAATACCGGCCTGAGGAATGGAAGCCAGGTCCGCAGTTCCAGAGTGATGAGGAACTGGCGCGGCTTGCGGGCGATATCGCCAATACCATCTTCCATCCGGTGGGTACGACGAAAATGGGCCGCGATGACGATCCGACGGCAGTTGTCGACAGTCGCCTCAGGGTACGCGGAGTTGCAGGGCTGCGCGTCGTGGATGCGGGCATCATGCCGAAGATCACAAGCGGCAACACCAACGCACCGACGCTTATGATTGCCGAAAAGGCGGCCGGCTGGATCATTGCAGACGCACACGCATAG	MRTGGSGTFRDVFDYVIVGGGSAGCLLANRLSRDPSKRVLLLEAGRKDDYPWIHIPVGYLYCIGNPRTDWLYKTEPDAGLNGRSLRYPRGKTLGGCSSINGMIYMRGQARDFDGWAAATGDDAWSWQNCLPDFKAHEDHYRLDDGADPKTGDNSRFSDMHGHGGEWRIEKQRLKWDILESFAEAAVEAGIPRSDDFNSGDNEGVGYFEVNQRSGWRWNTSKAFLRPVKNRSNLTIWTQSHVERLILVKEASGRKRCIGVMVERHGQRTEVGARGEVILSAGAIGSPHILQLSGIGPAALLKRHGVEVEHDLPGVGENLQDHLQIRAVFKVGNAKTLNTLANSVFGKAMIGLEYAMKRSGPMSMSPSQLGAFTRSDESQAHANLEYHVQPLSLDAFGEPLHTIPAFTASVCNLNPTSVGSVRIRSGKVSDAPAIAPNYLSTEEDRGIAAQSLRQVRKIVSQPALAKYRPEEWKPGPQFQSDEELARLAGDIANTIFHPVGTTKMGRDDDPTAVVDSRLRVRGVAGLRVVDAGIMPKITSGNTNAPTLMIAEKAAGWIIADAHA	PGPT0013615_1585	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013615-betA|CHDH-K00108	NA	NA
BMS010_07542	930	argP_1		HTH-type transcriptional regulator ArgP	ATGCTGGAAGGTATCGATCTGAGAACATTACGGGCGTTTGTTACCGTGGGGCGGGAAGGAAACGTCACCCGAGCCGCCGAGCAACTGCACGTCACGCAGCCGGCGGTGACGCTTCAGTTGAAACGCTTGGCCACTGACACCGGGCTGACCCTGTTCCGGCGAACCTCGACGGGTTTGGAGTTGACACAGGAAGGTGCGCTGTTGGCTGCAAAAGCCGAGCAAGTGCTGGCGGCGCTGACGGACTTCGGTCAGACGGCCGGTAATTTATCGACGAGGGTCCGGGGCAAATTGCGGATCGGCACGATCATCGATCCTGAATTCACACGGCTGGGCGCCTTTCTGAAAGCGCTTCTTGAAAGCGGACCGGGTATAGAAACAACGTTGCGTCACGGAATGAGCGGTGATGTGCCGGAGAGGCTCAAGCGCAACGAGCTCGACGCCGGTTTCTATCTCGGTGACCCACGGGACTATGACCCGTCGCCCGACGTCACTGGAGAGAATACCGCATCGCTTTTCTACGCTCGCTCACTTGCCCAATTGACCTATTGCGTCGTCGCTCCGCCATCGCTCGCAAGCTTTGTGCGAGGGGCCGATTGGTTACAGCTTGCCTCCCTCCCATGGATCGGCACGCCACCCGCATCGGTCCATAATCGGATGCTGGCCCGGCTGTTCACCAAACTTGGCGTTCGCCAACACGTCGTGGCCCAAGTGGACCAGGAAGCGTCCATGATCGCCATGACGCGCACGGGGGTCGGACTAAGCCTTTGCCGGGAATCGATTGCCCTGCATGAACAGCAGTCTCATGGACTGGTCATCGCGGACAATGTGAAGCTCTCGACGACCTTGAGTTTCCTCTGCCTGGAAGCGCGTATGGGCGATCCTTCTATCATCGCGGCATTCGACGCAATTAGACGCGTTTGGGTCCAGTAG	MLEGIDLRTLRAFVTVGREGNVTRAAEQLHVTQPAVTLQLKRLATDTGLTLFRRTSTGLELTQEGALLAAKAEQVLAALTDFGQTAGNLSTRVRGKLRIGTIIDPEFTRLGAFLKALLESGPGIETTLRHGMSGDVPERLKRNELDAGFYLGDPRDYDPSPDVTGENTASLFYARSLAQLTYCVVAPPSLASFVRGADWLQLASLPWIGTPPASVHNRMLARLFTKLGVRQHVVAQVDQEASMIAMTRTGVGLSLCRESIALHEQQSHGLVIADNVKLSTTLSFLCLEARMGDPSIIAAFDAIRRVWVQ				NA	NA	NA	NA	NA
BMS010_07543	315			hypothetical protein	ATGCCCCGTGGCGACAAGTCTTCCTATACGGACAAACAGAAGCGCAAGGCCGAGCATATCGAAGAAGGATATGAGGATCGCGGCGTCGGCGAGAAAGAGGCCGAGCGGCGTGCCTGGGCCACCGTGAACAAGGAAAGCGGCGGCGGCAAGAAATCCGGCTCCGGTCGCGGTCATGCCGAGAACCACGCCTCTTCCGAAAAGGGTGGCCGCAAAGGCGGCGAGGCCGCTGCTGCAAGACCGAAGGCAGAGCGATCCAGTTCCGCCAAAAAGGCCGCCGCCACCCGCAAGCGCAATGAGCAGCACGCCCAGCACTAA	MPRGDKSSYTDKQKRKAEHIEEGYEDRGVGEKEAERRAWATVNKESGGGKKSGSGRGHAENHASSEKGGRKGGEAAAARPKAERSSSAKKAAATRKRNEQHAQH				NA	NA	NA	NA	NA
BMS010_07544	222	hrp1_2	COG0517	Hypoxic response protein 1	ATGAAAGTCCAGGAGGTCATGACGCATGATGTGCGTGTCGTGAATGCGGAAGAAACCATTCAGGAAGCAGCCCGCATCATGGCGGAAATCGATGCCGGTGTCCTGCCGGTCGGTAAGGAAGGAAAGTTGGTGGGAATGCTCACCGACCGGGATATCGCAATTCGCGCAGTTGCCGAAGGCAAAGGTCCGGACACCAAAGCAAGCGACATCATGTCCAGGTAA	MKVQEVMTHDVRVVNAEETIQEAARIMAEIDAGVLPVGKEGKLVGMLTDRDIAIRAVAEGKGPDTKASDIMSR	PGPT0008220_703	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008220-acuB-K04767	NA	NA
BMS010_07545	225			hypothetical protein	GTGAAATACTGCTTCGATGACGAGGATGTGGAAGATGTCTGCGGCAATCTCGGCGACCAGCAGATCCGCCGTATTCCCGTCCTCGACCGCAACAAGCAGCTGGTGGGGATCCTGTCCCTCGGCGATGTCGCCGTGGAAACCGACGGCAACGGCGTGGGCGAGGCATTGGCAGCGATCTCCCGTCCCGGCGGGACCCATAGCCAGTCGGGCGTGCAACCGCATTAG	MKYCFDDEDVEDVCGNLGDQQIRRIPVLDRNKQLVGILSLGDVAVETDGNGVGEALAAISRPGGTHSQSGVQPH				NA	NA	NA	NA	NA
BMS010_07546	510			hypothetical protein	ATGTACGACAATCACGGCGCCAATCATGAGGGGAAAGCCCGCGCCGCCGGCCATCCCTATGCGGCTTTCGCCGTTAACATGGTCCTCAGCCTGGTGGTTATGTACCTCGTGATGTTCTCCATGATCGACGGCTGGGGCGACTTCCGGAACAATCTCAACATGGTCTACATGGCCCTAACCATGGTTGCGCCGATGGGCATCCTCATGCTCGCGACGATGGGTGGGATGTATCCGAACAAGCGGCTGAACCTTTTTCTCCATGCCGGTCTCGCCCTCCTCTTCGTGGCGGCTTTCACTGGTACGCGCAACCAGACCCTGATCGGCGACCGACAATTCATTGCTTCGATGGTCCCCCATCATTCCGGCGCCATTCTCATGTGCAGAAATGCGAAGATCACCGATCCGGAACTTATGGCGCTCTGTGCGGAGATTTCCCGCGGCCAGCGCGCCGAAATCGAGCAAATGAACGCAATCGACGAGCGCCTCCACACAGAGATCGGCGGCCCTTAG	MYDNHGANHEGKARAAGHPYAAFAVNMVLSLVVMYLVMFSMIDGWGDFRNNLNMVYMALTMVAPMGILMLATMGGMYPNKRLNLFLHAGLALLFVAAFTGTRNQTLIGDRQFIASMVPHHSGAILMCRNAKITDPELMALCAEISRGQRAEIEQMNAIDERLHTEIGGP				NA	NA	NA	NA	NA
BMS010_07547	291			hypothetical protein	ATGAAAAAGGCAAAAAAGAAAAAGAAGTGGTCACAGAAGGTGACCAGGGAAAGCGTTTCGCTCGATCTTGAGAAGGAGGTATTCACCAAAGACGATCCCTCACAGATCGCACGGTCGCTGAAAGCCTCGGCGGAACAATCCTCCAGGCGCAAGACCAGCCCTTTCCGGTCTGCAATGTCGATGCTGGTGTTTTACATCAACCGTGCTGGCCGGACGTTGCCCGGAAAACGCAAGGAAGTGCTGGAAGATGCGAAGGATGAGCTTCGCAAGGAATTCGGGAAATCGCGATAG	MKKAKKKKKWSQKVTRESVSLDLEKEVFTKDDPSQIARSLKASAEQSSRRKTSPFRSAMSMLVFYINRAGRTLPGKRKEVLEDAKDELRKEFGKSR				NA	NA	NA	NA	NA
BMS010_07548	204			hypothetical protein	ATGACCAATAATTCTCCACGAGACGGTGCTCCCGGCACCACCGACCAATCGCCGCGATGGGAAGGGCCGAAGGAAAGCCGACCCAGAGGCTACATGAAACCCACGGACGACCCCGAGCACGATCGGGATGCTGTCGGTGAAAATCTCAAGGACCCACGGAAGAAGCGTGTTTCCGATGCAATGAAAACCCGCGACGACCAATAG	MTNNSPRDGAPGTTDQSPRWEGPKESRPRGYMKPTDDPEHDRDAVGENLKDPRKKRVSDAMKTRDDQ				NA	NA	NA	NA	NA
BMS010_07549	189			hypothetical protein	ATGACGGATAAATCCGGAAAAACCGATCGCATCTCCAGAATGGCGCATGAGCAGCAGCAGGACTTTCTCCGACGCTCATCCCTGCACTTCCTGGAATGCGCCATCCATCTATGCGCGACGAATATGAGCATTTCCGAACTTGCCGCACGGCTTGAAAAACAGGCGCAATATTTGCGGCAGTTTGGCTAG	MTDKSGKTDRISRMAHEQQQDFLRRSSLHFLECAIHLCATNMSISELAARLEKQAQYLRQFG				NA	NA	NA	NA	NA
BMS010_07550	240			hypothetical protein	ATGCCAAGATTTTTCTTCAATGTAATCAGCGGTAAAAACGTCCTTGATGACCCGGAAGGAAGCGAGCTCCCTTCCCTCGACCAAGCGATCGAGGAGGCGCGCAAGGACGCCCGCGCCTTGATGAGCGAGGCGATCCTGCAAGGGCGTGACATCTCCGAAGGATGCATCATTATCCGTAACAAGCAGCATGACTTACTGAAAGTCGTCCGTTTCAGCGATGCGCTGGACCGAAAGGACTGA	MPRFFFNVISGKNVLDDPEGSELPSLDQAIEEARKDARALMSEAILQGRDISEGCIIIRNKQHDLLKVVRFSDALDRKD				NA	NA	NA	NA	NA
BMS010_07551	774			hypothetical protein	ATGCTTGGATCAGATTTTCTTGTTTATAACCGATTGTTGAAGACCCTCGGCACAGAACGCCTGTCGCAGCTTGCGTCGCGGCTGGAGCCCGTGGATCTGCCGGCGGGACATCGGCTCGTTGCCGCTGGCAAGCCCATTTCTCATCTCTGTTTTATCGAAACCGGTCTTGCATCGACGGTCGTTCATGATGACGGCGGCAAAAGCATTGAAGCCGTGCTTGTTGGGCGAGAGGGCATCACCGGCTGGCCCGTTCTGCTAGGCGCGGAAACCACGCCGGACGAAACCGTCATGGGCGTGGGCGGTCGTGGCTTCCTGATTCCGGCCGCTGAAATACGCCGGGAAATGGAGGAAGACGCGCGCCTGCGTGAGCTTTTGCTGGGCTATATCAACATCTGCCTGCTTCAGGCCAGCCAGCTTGTGCTTGCAAATGGGCAATATGGTCTGCGGGAAAGGCTCGCACGCTGGCTGCTGATGTGTCATGACCGCCTCGATACGGATGATCTGCCGATTACCCATGAGTTTCTCTCCACCGTTCTTGGGGTGCGGCGGCCTGGCATTACCAACGAGCTGCATGTTCTCGAAGGCATTCATGCCATTCGCGCCAGCCGCGGAAATGTCCGCATTGTCAATCGCGGTATACTGGAAGACGTCGCCGACATGACCTATGGCGTCCCCGAAAGAGAATATGAAACACTGATGGCCCGTATGCGGACGGATGATGCCCTTTCAGTCCTTTCGGTCCAGCGCATCGCTGAAACGGACGACTTTCAGTAA	MLGSDFLVYNRLLKTLGTERLSQLASRLEPVDLPAGHRLVAAGKPISHLCFIETGLASTVVHDDGGKSIEAVLVGREGITGWPVLLGAETTPDETVMGVGGRGFLIPAAEIRREMEEDARLRELLLGYINICLLQASQLVLANGQYGLRERLARWLLMCHDRLDTDDLPITHEFLSTVLGVRRPGITNELHVLEGIHAIRASRGNVRIVNRGILEDVADMTYGVPEREYETLMARMRTDDALSVLSVQRIAETDDFQ				NA	NA	NA	NA	NA
BMS010_07552	717			hypothetical protein	ATGTGGACCCCCACCGTCACGGCAGGGGAGAAATGGCCGTATCTGCGGGGAGCCACCACCTTGGCAAGAAGTACGCGCAAAAACCGTCTGCCACCCGCCTTCCAGCCCGAAAGCGCCAGCGCGCCCTCACTTGGCGCTTTGCGCAAGGAAGCGGAAAGCTGTGAAAGATGCGATCTCTACAGGAACGCCACCCAGCTTGTTTTCGGCGACGGCGACACCCGGGCGCGCGTAGTCCTCGTCGGCGAACAGCCCGGCAATGAAGAAGACCTGAAAGGACGGCCTTTCGTTGGTCCGGCCGGTCGCCTGCTCGACGAATGCCTCAAAGAAGCGGGTGTGGATCGTTCGCAATGTTATGTGACCAACGCCGTAAAACATTTCAAATTCGAGCAGCGTGGGAAACGACGTCTGCATGCCCGCCCGAACGGCGGGGAGGTGCAGCGCTGCGCGTGGTGGCTGGGTGCAGAACTGCGGCTTGTCGAGCCAGACCTTGTCGTGGCGATGGGCGCCACAGCCTTTTACGCGCTGACGGGACGCGCAAGCGGCGTGACGAAGGAACGCGGGCATGTTCTTTTGACGCCGGCCGGCACACGCCTTCTCGTCACCATCCATCCATCTTATCTGCTGCGCCTTCGCGACCGGCAGGAGGCGGATCGACAGCGCCGCGCCTTCGTCTCCGACCTGCACAAAATAGGCGAAATCCTTGGCGCGACGACTTAG	MWTPTVTAGEKWPYLRGATTLARSTRKNRLPPAFQPESASAPSLGALRKEAESCERCDLYRNATQLVFGDGDTRARVVLVGEQPGNEEDLKGRPFVGPAGRLLDECLKEAGVDRSQCYVTNAVKHFKFEQRGKRRLHARPNGGEVQRCAWWLGAELRLVEPDLVVAMGATAFYALTGRASGVTKERGHVLLTPAGTRLLVTIHPSYLLRLRDRQEADRQRRAFVSDLHKIGEILGATT				NA	NA	NA	NA	NA
BMS010_07553	336			hypothetical protein	ATGGAAAAGAGCATCGAATATCAAATCATCGCGCATGAGAACGGGTGGGCCGTTGTCGTCTCTGAGGTCATGAGGGCAGTTTACCCCAGCCGCCACCTGGCTTTGGCGGCTGCGAAGCTGCTGGAGAGCAATGTGGTCCCGACGCACGAGGCTGAACGCCTTGCTGCGACCGCCCATCTGACCCTGACCGACACGACGGCACCGAACCGGTTGCGCACCTCCCTGCAACTGATGGTGGCTGTGCCCTATCAGGTGGATATTCCCTTGCGGCGAAGAAGCGAAGAAGTCTGCTTTCCATCGATCGGCAGCCTCGATCTGATAGCCGGCAAAGTATAG	MEKSIEYQIIAHENGWAVVVSEVMRAVYPSRHLALAAAKLLESNVVPTHEAERLAATAHLTLTDTTAPNRLRTSLQLMVAVPYQVDIPLRRRSEEVCFPSIGSLDLIAGKV				NA	NA	NA	NA	NA
BMS010_07554	249			hypothetical protein	ATGGCGGGGAAAAACAATGACATGGCTGATGAGCCGCGGGAAAGCATCAGGCCCGAACAGGATATGAACCGACCGTTAAGTGAAAGGCTCGACTCGAAATTCTCGCCCATCGGCGTAGATGATGGCGATTTTCGAGGGCGCAAACGGACGTGGAAAACCATGATGGTCTATACGCTGGTCATATTCGCCCTCGCTGTTGCGATTGCACTCTATTTTCTGACAGGAACGCATCCCGGCCGCGCGGTGTGA	MAGKNNDMADEPRESIRPEQDMNRPLSERLDSKFSPIGVDDGDFRGRKRTWKTMMVYTLVIFALAVAIALYFLTGTHPGRAV				NA	NA	NA	NA	NA
BMS010_07555	273			hypothetical protein	ATGACCACCATTCCGCTGATCGGTGCCGGTGCGCTTGAGATTTCGCTGGTCAGCCGGCAGTTTCTGATCGCCGACATGAAAGAGGCAATCTCTCTGCTGGAAGAACACTGGCCGGTAAAAACCGGTGTCCACTATCGTCTTGCCCTCAGGAGTTGCCGCCTCGCTCTGTTGCGAAATGGCTCCTCAACCGTTGCGCGGGAACACCTGATTGCCGCGTGTCTGGAGGCGGGCGTGAGCCATAAAGCCGTTTCCACCAATCAAATCCGTCTTTAG	MTTIPLIGAGALEISLVSRQFLIADMKEAISLLEEHWPVKTGVHYRLALRSCRLALLRNGSSTVAREHLIAACLEAGVSHKAVSTNQIRL				NA	NA	NA	NA	NA
BMS010_07556	360			hypothetical protein	ATGCAGACCGTTAAACGCCTCACCATCGCAATCATCGGCATGACAGATACTGTCACATCGGAAATCCGAATGGCGTGGTTTCATGCCCAAATCGGCCTGGAAGGACCCTACTCCGCCAGCTTCATTGAAAGTGAAGACGCTCTCAAATTTGCCGCGGCGATTATTGACGTTCGTTACGAGGCGGACGTCATGCTGCGTCTCACCGAACAACTGGACGAAGAGGCAATTCCTTATCTTTTTTTCGTGCCAGAGACGGTTATTGACAGCGAGCCGGGACCTTTTGTCCTCTCCGGACGTTCGGAAGACATCGAAAACATTGTTTCCGCTTTGATGGCTCAAGGAGGGGGCATCAGACATTAA	MQTVKRLTIAIIGMTDTVTSEIRMAWFHAQIGLEGPYSASFIESEDALKFAAAIIDVRYEADVMLRLTEQLDEEAIPYLFFVPETVIDSEPGPFVLSGRSEDIENIVSALMAQGGGIRH				NA	NA	NA	NA	NA
BMS010_07557	783			hypothetical protein	ATGTTGAAACAAGCTGAGGGCGATGGCGAAAAGAATTTTCTGCTTTCTCTTCTGCCAGATGACATCAGGCGTGAAGTAACGGCCGTCTGTAAGCCCATCAAGCTCGCATTGGGCGATGTATTGATTTCCGCCGGCGCGCCCGTCGAGCGTGTTTTCTTCCTGTCATCCGGCATTGCCTCCGTCGTGGTCGTCACCAAATCGGAGCGTAAAACAGAAGCGGGACTTGTCGGGAGAGAGGGATTTGTGCCGACAGGGGCGGTCGCTGGCGCGGAAACAAACCTGACCGAAATCGTGATACAGGCTCCCGGCGAAGCCCTTGTCATGGACATGCGGTCGTTTGAAGCGCTTCTTGAAAAACATCGGGTCTTTTTCGAGATTCTTGTCTGTGCCCTGCACATCTCAAGAACGCAGGTGGAATACACGGCGTCTTCCAATGCCACCCAGTCCGTAACGGAGCGGCTCGCCCGCTGGCTCCTGATGTGCCACGACCGCATAGAAGGCAATCATCTGCCACTGACCCACGACTTTTTGTCCACCATGCTGGCCGTCAGGCGAGCAAGTGTAACGGACGCCCTCCACGTTCTCGAAAGCCATGGGTTCATTCGTTCCGAAAGGGGAAGAATTACGATCAGGAACCGCGAGATGCTCGAGAACTATGCGCGCGATCTCTACGGCATGCCTGAACAGGAAAGCAATCGTGTATTCGCCCGCTTTCTGCGCGAATACCAGTCTGAAATCCCGCTTGACGACCTCGTCATTGTCGAAAGCAGCGGGGTTCGGTAG	MLKQAEGDGEKNFLLSLLPDDIRREVTAVCKPIKLALGDVLISAGAPVERVFFLSSGIASVVVVTKSERKTEAGLVGREGFVPTGAVAGAETNLTEIVIQAPGEALVMDMRSFEALLEKHRVFFEILVCALHISRTQVEYTASSNATQSVTERLARWLLMCHDRIEGNHLPLTHDFLSTMLAVRRASVTDALHVLESHGFIRSERGRITIRNREMLENYARDLYGMPEQESNRVFARFLREYQSEIPLDDLVIVESSGVR				NA	NA	NA	NA	NA
BMS010_07558	228			hypothetical protein	ATGCACGCCAATCACGAGTACCAGAGTTCCGGAATTTTTCTGAACGAAGACATCAACATCGTTAAGGCAGCCTACGAGAATGTTCTGTCCGCAGAACGCGATCCGGCTTTGTGCCGGGCAGACGTCGCCCGCTATGTCCTGAAAATGTATGATCGCGGCGTTGTCGATCCCCTGAAACTTCAGCGGCTCGCAACTCTCTATTTTCGAACCAAATTGCTTGTCGGCTGA	MHANHEYQSSGIFLNEDINIVKAAYENVLSAERDPALCRADVARYVLKMYDRGVVDPLKLQRLATLYFRTKLLVG				NA	NA	NA	NA	NA
BMS010_07559	183			hypothetical protein	ATGACCAGGAAAACACTCCCCATTCCCGAAGAGAACAGAAGCCAGCAAGGGCCCGGCGACAACGACCGTCTGAACACGGAAGAAACCTCCGCCGTCAAGGAACAGAAGGTTTCAACCCAGACCGGGAGGCAGGCAAACATAAAGATAAACACGACACATCAAGGTCACCAGCAGGACAGGTAG	MTRKTLPIPEENRSQQGPGDNDRLNTEETSAVKEQKVSTQTGRQANIKINTTHQGHQQDR				NA	NA	NA	NA	NA
BMS010_07560	525	ecfG_2		ECF RNA polymerase sigma factor EcfG	ATGGCCAAGCACGCTGTGAGTGGAGTTTCCGGAAACACATTGAGTGAAGCGCAGCTGGAGGAGTTGCGCATCGGTATTGCGGAGCTGGCGCCGGCCCTGACGGCTTTTGCGCGCCGCTTCGTCAGAAATGAGGAGGATGTTGACGATCTCGTTCAGGAGACGATGTTGCGGGGGCTTCGGGCCCTGCATGGTTTTACCCCCGGCACGGCGCTGAAATCATGGCTCTTCACCATTTTGCGCAACACGTTCTGCACTCGCTACAAGGTGTCGAGGCGTGAATGCGTCGGCTTGCCGGTCGGTATCGAGCAATCCATGTCTACCCCTGCCAGCCAAGAATGGCGTGTGCAGCATCAGGAGGTCATGAGGGCTATCCGCCATCTCGACAAGGACCAGAAAAAAGCTCTGCTGCTCGTGGCGGCAGGGACGAGTTATTCCGATGCCGCCGCCATCTGCGGCTGCCGGGTGGGCACCATCAAAAGCCGCGTCAACAGGGCGAGGGAGTCGCTACGTCGAAATCTGGACTGA	MAKHAVSGVSGNTLSEAQLEELRIGIAELAPALTAFARRFVRNEEDVDDLVQETMLRGLRALHGFTPGTALKSWLFTILRNTFCTRYKVSRRECVGLPVGIEQSMSTPASQEWRVQHQEVMRAIRHLDKDQKKALLLVAAGTSYSDAAAICGCRVGTIKSRVNRARESLRRNLD	PGPT0014960_10827	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
BMS010_07561	168			hypothetical protein	ATGAGCCCACCCGACAAGGACACCCAGCCGGAGCCCGGTACGGACGATGCCCGCTCCGTCGATACTGAAGAAAGCCGCCGGGACAGGGAACAGGCGAGAAAGAACGCGGAACGCGTGATCGAACAGAGGTGGCGGAGGCAACCGCCGAAGGGTGTAGATGAGGCCTGA	MSPPDKDTQPEPGTDDARSVDTEESRRDREQARKNAERVIEQRWRRQPPKGVDEA				NA	NA	NA	NA	NA
BMS010_07562	231			hypothetical protein	ATGAACAAGAACGACAAGCTGAAGCAAATTCACAAGGACAGCGAACCGCAATTTGCGCGCGGCAAGAAAACCTCGAAAAACAACGGCGTGGCGAGCGCGAAGCCAAGGGTTATCACCGGTTCGGACGACGCAACCGTCAACAAACTGCCGCCCGGCGTCAAGAAACCGGAGAAGGATTGGGATTTGAACTACGACGAACGGGATACCAGCGACGGCAATTTCCAGGGTTAA	MNKNDKLKQIHKDSEPQFARGKKTSKNNGVASAKPRVITGSDDATVNKLPPGVKKPEKDWDLNYDERDTSDGNFQG				NA	NA	NA	NA	NA
BMS010_07563	198			hypothetical protein	GTGGCCCAAACCGTTGATCACGAAACCAGCAATAGCCTCAATATCGAGGCGGCCAGTCCCAAGGTGATTAAGATCATCGTGGGGGAGCGGACGGTGCTTGAGGGCGTGCTGAACACCGGCAGCGTCTTGAGAGTGCAGACAAAGCAGGGCGCCAAGCCACAATCCATCGAACTTGCGATCGAGGACCTGGCTCGGTGA	MAQTVDHETSNSLNIEAASPKVIKIIVGERTVLEGVLNTGSVLRVQTKQGAKPQSIELAIEDLAR				NA	NA	NA	NA	NA
BMS010_07564	624			hypothetical protein	TTGATCGAGTTCTCTGCCGAGGGAGACTGGCGGCACCTGTGCGTCGACATGCAACGCGTTTTCGCCGAGGATACGCCATGGCATGTCGAATGGATGGACCGCATCAGCGAGGAGGTGGAGGCTGTGGTTCAAGGCGATCCCGCCCGATGCATCTTCACCTGTTTTGTGCCGCCGAAATCTGTCGAGCAGGCCGCCGGTGCATGGCGGGCCTATTATGAAAAATGGCCGATGATGACGCAGCAGTCGCTGGCCCCGGAACTGATCGGTGTTATACCAGCGCTGTCGCGCTACATACCGCCCGCCCGTATCTTTCGTAAAAGCGTGTACTCACCCTGGCTGCATGGAGGCCTTGGCGACATCCTGCGGGAGGAACGGGTTTCAACACTGGTGATTACCGGCGGCGAAACAGATGTCTGCGTTCTCGCCACCGTTCTGGGAGCGATAGACCAGGGTTTTTACGTCATTCTGGTCGAAGACGCGCTTTGTAGCGGAAGGGATGCGACACACGATGCGGCGTTGAAGCTGCTGTCTGGCCGTTTTTCGACGCAGTTGCAGGTGTGCGATACAGCGACCCTCCTTGCGGCGCTTCCCAGGCAATCCGCTCCGCGGTTCATGAGACTCTAA	MIEFSAEGDWRHLCVDMQRVFAEDTPWHVEWMDRISEEVEAVVQGDPARCIFTCFVPPKSVEQAAGAWRAYYEKWPMMTQQSLAPELIGVIPALSRYIPPARIFRKSVYSPWLHGGLGDILREERVSTLVITGGETDVCVLATVLGAIDQGFYVILVEDALCSGRDATHDAALKLLSGRFSTQLQVCDTATLLAALPRQSAPRFMRL				NA	NA	NA	NA	NA
BMS010_07565	660			hypothetical protein	ATGAGGCTGTTTCGCGACAATGGATTGACGATTGTCCTTGTCCTGACTTCCCTTTTGACGATCGGTGGCATGCTTGCGACCGGCTGGGTCGTTTACAACGAGGAGCTCGCGCAGCATCAGGCGATGCCCCTGACGCTTCTTTCCTACGCAAAGAGCGGCCATTTTCTTTCTGCCCTGTTCGAAAACTGGGAGAGCGAATTTCTCCAGATGTCGGCGTATGTCATGCTGACCGCGTTTCTTTTTCAGAGAGGCTCGTCGGAATCCAAAGACCCCGATAAAGCTGCATCGCAGGACGAAGATCCCGCACAAAAAGCAGATGATCCCGAGGCGCCCTGGCCGGTGAAAGCAGGGGGATTTATCCGCACCCTCTATTCCTATTCTCTGGGATTGGCGCTGTTCTTCCTTTTCATCGTCAGTTTTGTTCTCCATCTGAAATACAGCGCTGACGCAGGGGCAGTCGAAGCCGCCATGCACAGTGAGCCCGAGACAACGCTATTTGCGCATCTGGGAAGTGTGGAATTCTGGTTTGAATCCTTTCAGAACTGGCAATCGGAGTTTCTTTCGACCGCGGTTCTCGTCATTCTCTCCATCTTCCTGCGCTTCCGCGGGTCGCCGGAATCGAAACCCGTTGCCGCTCCTCACAGCGAGACCGGCGGATAG	MRLFRDNGLTIVLVLTSLLTIGGMLATGWVVYNEELAQHQAMPLTLLSYAKSGHFLSALFENWESEFLQMSAYVMLTAFLFQRGSSESKDPDKAASQDEDPAQKADDPEAPWPVKAGGFIRTLYSYSLGLALFFLFIVSFVLHLKYSADAGAVEAAMHSEPETTLFAHLGSVEFWFESFQNWQSEFLSTAVLVILSIFLRFRGSPESKPVAAPHSETGG				NA	NA	NA	NA	NA
BMS010_07566	501	yciF_2	COG3685	Protein YciF	ATGGCTGAGAAGACATTGGAAGACCTTTTCCTCGATACGGTGAAGGATATTTATTTCGCGGAACGCCAGATTCTCAAGGCGCTTCCGAAAATGGCGCGGGCTGCGCAGTCAGCGGATTTAAAGGCGGCATTCGAAAAGCACAGGGACGAGACCGAGGTCCACGTGGAGCGATTGCAGAATGTCTTCGAGTTGCTCGGCAAGCCGGCACGCGGCAAGACCTGCGAAGCGATCCAGGGCATTATCTCGGAAGGCGAGGAAATCATGGAGGAGTTCAAGGGCTCTCCCGCGCTCGATGCCGGGCTGATTTCTTCGGCGCAGGCCGTGGAGCACTACGAGATCACCCGTTATGGCACCTTGAAGACATGGGCGGTCGAACTCGGCATGAAGGAAGCGGCCAAACTGTTCGAGCAGACGCTGGGCGAGGAAAGCGCAACGGATACGGCTCTCTCTTCGCTTGCCCAGGCACGCGCCAACGTGAAGGCTAAATCCAAGGCAGCATGA	MAEKTLEDLFLDTVKDIYFAERQILKALPKMARAAQSADLKAAFEKHRDETEVHVERLQNVFELLGKPARGKTCEAIQGIISEGEEIMEEFKGSPALDAGLISSAQAVEHYEITRYGTLKTWAVELGMKEAAKLFEQTLGEESATDTALSSLAQARANVKAKSKAA	PGPT0013240_18	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013240-katN|ctjC|ydbD|yjqC-K07217	NA	NA
BMS010_07567	2145	katE		Catalase C	ATGGCCAGAAAACCAGATTCCACCGTATCATCCGCCACCGCCACCATTCACGACCAGGAGCTTGTTCGGGGGGATGGCGGAGAACTGCACCAGACCGCGACCGGCGACGAGCCCGTGCTAACGACCGCGCAGGGCGGGCCGGTTGCAGACGATCAGAATTCGCTTCGGGTCGGTTCTCGCGGGCCGCTTGTCGTGGATGATTTCCATTTTCGCGAGAAGATCTTCCATTTCGATCATGAGAGAATTCCCGAGCGCGTGGTTCACGCCCGCGGTTACGGCGCACACGGCTATTTCGAGACTTACGACTCCCTTGCCGCCCATACCAAGGCCGATCTGTTTCAGCGGGCGGGTGAAAAGACCCCGGCCTTCGTGCGGTTCTCGACCGTCGCCGGCAACAAGGGGTCGGCCGACCTTGCGCGGGATGTGCGCGGTTTTGCCGTGAAGCTCTACACCAGGGAGGGAAACTGGGACCTTGTCGGCAACAACATTCCCGTCTTCTTCATTCAGGATGCGATCAAGTTTCCGGATCTCATCCATGCCGCCAAGCAGGAGCCTGATCGCGCCTTTCCGCAAGCACAAACCGCGCATGACACCTTCTGGGATTTCATCAGTCTCACGCCTGAAAGCATGAACATGGTCATGTGGATCATGTCGGATCGGACCATTCCGCGTTCCTTCCGGTTCATGGAAGGTTTCGGGGTTCACACCTTCCGATTCATCAACGCGAAGGAGCAATCGACCTTCGTGAAGTTTCACTGGAAGCCGAAGCTCGGATTGCAGTCGGTGGCGTGGAACGAGGCGGTCAAGATCAACGGCGCCGATCCCGATTTTCACCGGCGCGATCTTTGGACGGCGATCCAGTCCGGCAATTTTCCGGAATGGGAGTTGCAGGTTCAGCTTTTTGATCAGGATTTCGCCGACAGCTTCGATTTCGACGTTCTCGACCCCACCAAGATCATTCCCGAGGAGATATTGGCGCCCAAACCGGTCGGCCGGCTTGTCCTAGACCGGATGCCGGACAATTTCTTTGCCGAGACCGAACAGGTGGCGTTCATGACGCAGAACGTGCCGCCGGGCATCGATTTCAGCAATGATCCGCTGCTGCAGGGCAGGAATTTTTCCTATCTCGATACGCAGCTCAAGCGTCTCGGCGGGCCGAACTTCACGCATTTGCCCATCAATGCGCCCAAGTGTCCTTTCGCGCATTTCCAGCAGGATGGCCATATGGCGATGCACAATCCGACCGGACGGGCGAATTATCAGCCCAATTCCTTCGGGGAAGGGCCAAGGGAATCGCCGTCGCGTGGATTCCGGCATTTCCCTGCCGAGGAGCAGGGCGCCAAGGCAAGGTTGCGGCCGGAAAGTTTCGCCGACCACTATAGTCAGGCGCGCCAGTTCTACATCAGCCAGACGCCACCTGAACAACGTCATATCGCATCGGCGCTCACCTTCGAACTCAGCAAGGTGGAAACTCCCGTCATTCGTGAGAGGATGGTCGCACATCTTCTCAATATCGACGAAACGCTTGCCGCGACGGTGGCGCAGAAGCTCGGCCTGCAAGCCATGCCGAAACCGGCGGATGCCGCCATGCCAACCCGTCAGGATCTGGAGCCGTCGCCGGCGCTTAGCATCGTTCAACGGGGTCCCAAACGGTTCGAGGGTCGCAAGCTCGGTATTCTCATTACCGACGGCGTAGACGCCAAGCTGCTGAAGGGACTGACCAAAGCGGTCGACGCAGAAAAAGCTGTGTTCGAGCTTATCGCGCCCAAGGTCGGCGGGGTAACGGCGTCGGACGGCACCTTCGTCGAGGCACATCACATGATTGATGGCGGGCCTTCGGTGCTTTTCGATGCGGTGGCGCTGCTGACATCGGCGGCGGCGATCGATGAGCTGATCAAGGAGGCAACTGCGCGGGATTTCGTCGCCGATGCGTTCCAGCACTGCAAATTCATTGGCTACGACCAGTCGGCGCTGCCGTTACTGGAAAAAGCGGGAATTGCCGATGTCATGGATGAAGGCATGCTGCCATTGCCGGGTGAAGGAGGACTGGCTGCCTTCGTATCAGAGCTCGGCAAACTTCGAGTCTGGGCGCGCGAACCGTCGCTCAAACTCGGCAAGGCCTCCGTGCCGGTCGATAAGCAATGA	MARKPDSTVSSATATIHDQELVRGDGGELHQTATGDEPVLTTAQGGPVADDQNSLRVGSRGPLVVDDFHFREKIFHFDHERIPERVVHARGYGAHGYFETYDSLAAHTKADLFQRAGEKTPAFVRFSTVAGNKGSADLARDVRGFAVKLYTREGNWDLVGNNIPVFFIQDAIKFPDLIHAAKQEPDRAFPQAQTAHDTFWDFISLTPESMNMVMWIMSDRTIPRSFRFMEGFGVHTFRFINAKEQSTFVKFHWKPKLGLQSVAWNEAVKINGADPDFHRRDLWTAIQSGNFPEWELQVQLFDQDFADSFDFDVLDPTKIIPEEILAPKPVGRLVLDRMPDNFFAETEQVAFMTQNVPPGIDFSNDPLLQGRNFSYLDTQLKRLGGPNFTHLPINAPKCPFAHFQQDGHMAMHNPTGRANYQPNSFGEGPRESPSRGFRHFPAEEQGAKARLRPESFADHYSQARQFYISQTPPEQRHIASALTFELSKVETPVIRERMVAHLLNIDETLAATVAQKLGLQAMPKPADAAMPTRQDLEPSPALSIVQRGPKRFEGRKLGILITDGVDAKLLKGLTKAVDAEKAVFELIAPKVGGVTASDGTFVEAHHMIDGGPSVLFDAVALLTSAAAIDELIKEATARDFVADAFQHCKFIGYDQSALPLLEKAGIADVMDEGMLPLPGEGGLAAFVSELGKLRVWAREPSLKLGKASVPVDKQ	PGPT0014380_582	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0014380-katE|CAT|catB|srpA-K03781	NA	NA
BMS010_07568	609			hypothetical protein	ATGAGAACCGTAACCGGACTTTTCGACGACTATGACGATGCAAGTGCCGCCGTTTCCGAACTGGAAAGAGCGGGCGTGCCGTCAAGCGATATCAGCATTGTCGGCAGCAACGCCGACAGGCGGCATGGAGAGGATTCCGATTCCAACGCAGCGGAGGGCGCAGGCACAGGTGCCGGCATCGGTGCACTTGTCGGTGGCGCGGGCGGTCTGCTGACGGGGCTTGGATTGATGGCGATCCCGGGCGTGGGGCCGGTGGTTGCAGCGGGATGGCTTGCCGCAACAGCGGTCGGTGCAGCGGGCGGCGCCGTTGCCGGTGGCGCTGCCGGCGGGCTTATCGGAGCCATGACTCGCTCGGGCGTTTCCGAAGAGGATGCCAATCTTTACGCCGAAGGGGTTCGCAGAGGCGGTACGCTGGTCACCGCCCGCGTCGAAGATAATCTGGTGCCGGAGGCCGAGGCCGTGCTCAAGCGGCAGGGCTGGGTCGACCCTGCGGAACGCCGCGCGGCCTATCGCGAACGAGGCTGGACCGGCTTCGACGAGGCGTCGAGACCTTATGCGCCGGAAGATGTTGAGCAGGAGCGTAACCGGTACCGCCGCTCCGCAATTTGA	MRTVTGLFDDYDDASAAVSELERAGVPSSDISIVGSNADRRHGEDSDSNAAEGAGTGAGIGALVGGAGGLLTGLGLMAIPGVGPVVAAGWLAATAVGAAGGAVAGGAAGGLIGAMTRSGVSEEDANLYAEGVRRGGTLVTARVEDNLVPEAEAVLKRQGWVDPAERRAAYRERGWTGFDEASRPYAPEDVEQERNRYRRSAI	PGPT0014649_4	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_INDUCIBLE_PROTEINS,PGPT0014649-yflT-NA	NA	NA
BMS010_07569	318			hypothetical protein	ATGAAGAAAACTGTTTTCGTTGTGTTGCTCTTAGGCGGCGGTGCGCTGTCGGCTTTCGCCCAGCAGACCCCAACCGTCAATCCGGGTGGCGATACGCCGGCTGTCGCGACACCGGGCGCCAATAGTCCGACAGCTCCGGTGGAGGGCGCCAATAGCTTCACTGAAGCGCAGGCCAAACAGAGGATGGAAGAGGCCGGGTACACGCAGGTCAAGGACCTGACGAAGGACGACAAGGGTGTGTGGATGGCATCGGGCATGAAGGGCGGCAAGACCGTGGCCATAGCGCTCGATTATCAGGGCAACGTCGTCGCCAAGTGA	MKKTVFVVLLLGGGALSAFAQQTPTVNPGGDTPAVATPGANSPTAPVEGANSFTEAQAKQRMEEAGYTQVKDLTKDDKGVWMASGMKGGKTVAIALDYQGNVVAK				NA	NA	NA	NA	NA
BMS010_07570	618	rosB		8-demethyl-8-aminoriboflavin-5'-phosphate synthase	ATGTCTCTCAAGGTCTTAGCATTGAATGCGACACTCAAGTCTTCCACCTCGGCAGAGCCGTCGTCCACCGAAAAACTGCTGACATTGATCCTTCGGGAGCTCGGCAATCATGATGTGCAAACCGAGACGATCAGGCTCGCCGATCATGACATCAAGCCTGGCGTTACATCCGATGAAGGCGAGGGGGACGCTTGGCCGGCCATCCGTGAAAAGATCGTTGCAGCCGATATTATTCTATTTGGAACGCCGATATGGCTCGGACAGCCCTCGAGCGTGTGCAAAAGAGCGCTGGAGCGCATGGATGCATTTCTGGACGAGACCGACGCGCAGGGGCGTATGGTTTCCTATGGGAAAGTCGCCGCGGTGGCGGTCGTCGGAAATGAAGACGGTGCTCACCATGTTTCGGCGGAACTTTTCCAGGCCCTGAATGATGTGGGCTTCACTATTCCCGCAAATGCGGTTGCCTACTGGGTGGGAGAAGCAATGGGTTCGAAGAATTTCGTTGATCTCGATGAAACGCCGGACGCCGTTAAAACCATGGTCAGCATGCTTGTGCGCAACTCGGTGCACCTGGCTCTGCTCCTTAAGAACAGTCAATATCCGGGCGACAAGGACTGA	MSLKVLALNATLKSSTSAEPSSTEKLLTLILRELGNHDVQTETIRLADHDIKPGVTSDEGEGDAWPAIREKIVAADIILFGTPIWLGQPSSVCKRALERMDAFLDETDAQGRMVSYGKVAAVAVVGNEDGAHHVSAELFQALNDVGFTIPANAVAYWVGEAMGSKNFVDLDETPDAVKTMVSMLVRNSVHLALLLKNSQYPGDKD				NA	NA	NA	NA	NA
BMS010_07571	408			hypothetical protein	ATGAACAAGTTCTTCACCCTTTTTGCCAGCCGTACCGCGTCCTTTTCAGGCTCGCCCACTGCGTTTGTCGTCGCGCTTGGCACGATCATCGTCTGGGGAGTAAGCGGGCCGCTGTTTGGCTTTTCGGAGGTCTGGCAACTTGTCATCAACACGGGCACCACCATTGTCACCTTCCTCATGATTTTCCTCGTGCAGAATTCGCAGAACCGGGATTCTGCAGCGATGGAAGCAAAGCTGGACGAACTCCTGAGAGCCGTGGAGCAGGCACGCGCAGATTTTATCGGGATCGAGCATCTCACGGAAGAAGAAATCGAGGAGATTCGCGCGCGGCTGGAAAAGGAAAACGGACCTGAAGGCGAAAAGCCACCTCCGCATCACGCCATGGCGCGACTGCTTTCCCGGCGTTAG	MNKFFTLFASRTASFSGSPTAFVVALGTIIVWGVSGPLFGFSEVWQLVINTGTTIVTFLMIFLVQNSQNRDSAAMEAKLDELLRAVEQARADFIGIEHLTEEEIEEIRARLEKENGPEGEKPPPHHAMARLLSRR				NA	NA	NA	NA	NA
BMS010_07572	813	hcaB_9		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGTCGTCAGGCAAGATTGTAGTAGTAACCGGTGCATCCTCCGGGATAGGGCAGGCGACCGTAAGGCTGCTATCGCAGAATGGGTTCAAGGTGTTTGCAGGATCGCGCAATCCGGACAAAAGTGGACCGGTTCCTGGTGTCGAGTACGGACGTCTCGATGTGGACAATGGCGAGTCGGTGAAGCAATTCGTCGATTGGGTTCTGTCCCGTTCAGGTCGGATTGATGTCGTGGTGAACAATGCAGGCGTCTCTCTTGTCGGGCCGGTCGAAGGCACGTCGGACGATGAGGCGAAGGCCCTTTTTGAAACCAATCTCTTTGGCCCACTGCGCATGATACGAGCGGTATTGCCTGCGATGCGTCAGCAGAATTCCGGCCTGATTGTCAATGTCAGCTCGGTCCTCGGCTTCCTCCCCGCACCTTATATGGGCCTTTATGCCAGCAGCAAGCATGCCCTGGAGGGACTATCTGAAACGCTTGACCACGAAGTTCGGCAATTCAACATTCGCTCCGTCTTGGTCGAGCCAACGTTCACGAGGACAAGTCTCGATGTCAATGCGAAGCAGACGGAGACGCGCATTGACGACTACGCTCATCAATTAGCCAAATCCAATGAGGCCGTTCTTTCCGCCATTAGGACAGCAAGCAGTCCTCAGACTGTCGCTGCCGAAATCATGGCAGCGATCAAAGGCCCTCACAAAATGCGCAGGCCGGTTGGAAAACAGGCTACGCTTCTCAGTCGCCTGAAGCGGTTTGTTCCAGCCAAGGCATTGGATAGCGGCATCAGGAAGACGTTTGGGCTCTCCAGGCTGTAA	MSSGKIVVVTGASSGIGQATVRLLSQNGFKVFAGSRNPDKSGPVPGVEYGRLDVDNGESVKQFVDWVLSRSGRIDVVVNNAGVSLVGPVEGTSDDEAKALFETNLFGPLRMIRAVLPAMRQQNSGLIVNVSSVLGFLPAPYMGLYASSKHALEGLSETLDHEVRQFNIRSVLVEPTFTRTSLDVNAKQTETRIDDYAHQLAKSNEAVLSAIRTASSPQTVAAEIMAAIKGPHKMRRPVGKQATLLSRLKRFVPAKALDSGIRKTFGLSRL				NA	NA	NA	NA	NA
BMS010_07573	588			hypothetical protein	ATGAACCCTGTCGTATCCATTTTCAAACATCCTCCGGACGGGGGTAAAGGATATCACCGGGATATGCGCGTCAGGTGGGCTCTCGAGGAAGTCGGCCAGCCTTACACTCTACGGCACCTGACTTTTTCCGAGATGCGCCGCCCCGAATATCTGGAAATGCAGCCATTCGGCCAGATGCCGATCTACCAGGAGGGCGATCTCGTTCTTTTTGAATCCGGCGCGATCGTGCTCCACATTGCACAGCGTTTCGCTGGGCTCCTTCCGGATGAAGCGAATGCGCGCTCGCGCTCCATCATGTGGATGTTTGCAGCGGTTAATACGATCGAACCCTGTATCGCCTCCGGCAGCGTTGGTCATCTCAGTCAGCGGCTCCAGCAACTGGGCGATACGCTTGGAGGGAAAGAGTGGCTTGAGGCGGCTCAGTTCAGCGCCGGTGATCTCATGATGGTGAGCGTACTGCGGCCGCTCAAGCACTCTGATATTCTGCTGGATAGTCCGGGCTTGCAGGACTACGTCGAAAGAGGCGAGCAACGATCCGCGTTCCAGCGTGCGCTGGGCAATCCACCAGCGGACAGGCGAACGGCGTGA	MNPVVSIFKHPPDGGKGYHRDMRVRWALEEVGQPYTLRHLTFSEMRRPEYLEMQPFGQMPIYQEGDLVLFESGAIVLHIAQRFAGLLPDEANARSRSIMWMFAAVNTIEPCIASGSVGHLSQRLQQLGDTLGGKEWLEAAQFSAGDLMMVSVLRPLKHSDILLDSPGLQDYVERGEQRSAFQRALGNPPADRRTA	PGPT0013170_12987	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS010_07574	3114	cnrA_1		Nickel and cobalt resistance protein CnrA	ATGAACCTCAATCTGTCCGCCCTTGCGGTTCGCGAACGCGCCGTGACGCTGTTCTTCATCGTCCTTCTGTCGCTTGCCGGCGTCTATGCCTTCGTCAAGCTGGGACGCGCTGAAGACCCCTCCTTTACCATCAAGACGTTGACGGTCACGACTGTCTGGCCGGGCGCAACCGCACGCGAGATGCAGGATCTCGTTGCCGAGCCGCTGGAGAAGCGCATTCAGGAATTGGCCTGGTACGACCGGGTCGAGACAACGACGCGCCCCGGCTTTGCCTATCTTACCGTCACGCTCAAGGACAATACGCCGCCAAGCGCCGTCGCCGAAGAATTTTATCAGGCGCGCAAGAAGCTCGGCGATGAAGCCAGAAACCTGCCGCAGGGTGTTCTGGGACCGTTCGTGAACGACGAATATTCCGACGTCAGCTTCGGCCTTTACGCTCTCAAGGCGCAGGGCATGCCGATGCGCGATCTCGTCCGGGAGGCCGAAAAGATCAGGCAGGACATGCTTCATGTTCCCGGCGTCAAGAAAATCAATATTCTCGGCGAACAGCCGGAGCAGATTTTCGTAGAGTTCTCCTATGAGAAGCTCGCCACGCTCGGCATATCTTCTCAGGACATTGCCGCAGCCCTTCAACGGCGCAATACCGTTACGCCCGCTGGCTCAATAGATACGCAGGGTCCGCAGGTGTTCATTCGTCTCGATGGTGCCTATGACAGTGTTCAGTCTATTGCTGATACGCCCATCGTCGCTTCCGGCCGCGCGTTGAAGCTTTCCGACATTGCTGAGGTACGCCGGGGTTATCAGGAGCCGGCAAGCTATGTCATCCGTCATGACGGCGAGCCGGCCATCATGCTCGGTGTTGTCATGCAACAGGGCTGGAATGGTCTGGAGCTTGGCAAGGCTCTCGAGGAGCGCTCCAGCCGGATCGCACAGTCGTTACCCCTTGGCATAACGCTGACGAAGGTCAGCGATCAGGCTGTCAACATTGATGCGGCGGTGGGTGAATTCATGGTGAAGTTCGCCATGGCCCTCGGCGTGGTGCTCTTCGTCAGCCTCATTGCGCTCGGCTGGCGGGTGGGCATCGTCGTGGCTCTGGCCGTTCCGCTGACGCTGGCTGTCGTCTTCATCATCATGCTCGAGACGGGGCGCTTCTTCGACCGCATCACGCTCGGTGCATTAATCCTGGCACTTGGCCTGCTTGTCGATGACGCCATCATCGCCATCGAGGTGATGGTCGTGAAAATGGAAGAGGGCATGGACCGCATCAAGGCGGCGGCCTATGCCTGGAGCCACACTGCCGCACCGATGCTGTCGGGCACGCTTGTGACCATTATCGGCCTGATGCCGGTCGGTTTTGCCGCCTCTGCAGCCGGTGAATATGCGGGCAATATCTTCTGGATCGTCGGTTTCGCGCTGATCGTTTCCTGGTTCGTGGCGGTGATCTTTACGCCCTATCTCGGCGTAAAGCTGTTGCCCGATATCAAGCCGGTAGCAGGTGGCCATCATGCGATTTACGATACGCCGAACTACAGACGCCTGCGCGGCGCGATCGAATTCACTGTCAAGCACAAGTTCCTGACCTGCGCCATTGTCGGCGTCGTCATGGCTCTCTCGGTCGTCGGGATGGGTGCGGTGAAACAGCAGTTCTTCCCCACATCGGACCGCCCTGAGGTTCTCGTTGAAGTCCGCATGCCAGAAGGCACGAGCATCGAAACGACGACCGCCACGGTCAAAAAGCTCGAGGCCTGGTTGAAGCAGCAGCCCGAAGCGAAGATCGCGACCAGTTACATCGGCCAGGGTGCGCCCCGCTTCTTCTTCGCTATGGCGCCCGAACTGCCCGATCCTGCCTTCGCGAAGATCGTTGTGCTGACATCCGACGCCCATGAGCGTGAGGTGCTGAAACTTCGTCTGCGGGAAGCCGTTGCGCAAGGGCTGGCGCCCGAGGCATTCGTGCGCGTCACGCAACTCGTCTTTGGCCCCTACACGCCATTTCCCGTCGAGTTTCGGATCAAAGGACCGGACGCGGAAGAGCTGTACAAAATCTCCGAGCAGGCGCTTGCTCTCATGAGCTCTGTACCTGACGTCAGAAATGCCAACCGCGATTGGGGTAACCGCACACCCGTCGTCCGTTTCGTTCCTGATCAGGATCGCCTGAACCTCATCGGCATGTCGTCCGCCGAGGCTGCCCAGCAGATACAGCTCCTGCTGAGTGGTGTTCCCGTCACGCAAGTTCGTGAGAACATCCGAAACGTTCCTGTCGTGGCGAGAAGTGCCGGTGAAATCCGCCTCGATCCTGCAAGGCTAGCCGACTTCTCGCTCGTGACAAGAGACGGCCGTGCGATCCCGCTCTATCAGATCGGCCACACGGAGGTGCGCTTCGAAGAGCCGATCCTCAAGCGTCGTGACAGAACGCCTGTGGTGACGGTCCGATCCGACATTAACGAGGCGACCCAACCGCCGGAGGTTTCGCAACAGGTGATGACCGCTCTTCAGCCGCTCATTGCATCTATGCCTGCTGGCTACACAATCGAGATGGGTGGCAATATCGAGGAATCACTCAAGGCGAATACGGCTCTGGTGAAGGTGTTCCCACTGATGATCGCAGCGACCCTGATCGTCATCATCCTTCAGGTCCGCAGCCTGTCGACGATGACGATGGTGATGCTGACAGCACCGCTCGGTCTTGCAGGCGTCGTGCCGACCCTGATCCTGTTCAACCAGCCTTTCGGGTTTAACGCGATCCTGGGTCTTATCGGCCTGGCGGGCATCCTCATGCGCAACACGTTGATCCTCACCGAGCAGATCAAGGAGAACAAGGCTGCGGGTCTGGACGACTATCATGCCGTGATTGAGGCTACGGTGCAGCGAACGAGGCCCGTCATCCTGACAGCGCTTGCCGCGGTCCTCGCCTTCATTCCCCTGACGCATTCGGTTTTCTGGGGTTCGATGGCCTACACGCTTATCGGCGGAACGGCGGTGGGCACGCTCATCATCCTGCTCTTCCTGCCGGCACTCTATGCTGCATGGTTCCGCATCAAGCCGCCCAAGGCAGACATGGATTCGACGGAGCACGGAAACGCGGAAACAGCTCAGCATTCGCTTGCTGCGGAATAG	MNLNLSALAVRERAVTLFFIVLLSLAGVYAFVKLGRAEDPSFTIKTLTVTTVWPGATAREMQDLVAEPLEKRIQELAWYDRVETTTRPGFAYLTVTLKDNTPPSAVAEEFYQARKKLGDEARNLPQGVLGPFVNDEYSDVSFGLYALKAQGMPMRDLVREAEKIRQDMLHVPGVKKINILGEQPEQIFVEFSYEKLATLGISSQDIAAALQRRNTVTPAGSIDTQGPQVFIRLDGAYDSVQSIADTPIVASGRALKLSDIAEVRRGYQEPASYVIRHDGEPAIMLGVVMQQGWNGLELGKALEERSSRIAQSLPLGITLTKVSDQAVNIDAAVGEFMVKFAMALGVVLFVSLIALGWRVGIVVALAVPLTLAVVFIIMLETGRFFDRITLGALILALGLLVDDAIIAIEVMVVKMEEGMDRIKAAAYAWSHTAAPMLSGTLVTIIGLMPVGFAASAAGEYAGNIFWIVGFALIVSWFVAVIFTPYLGVKLLPDIKPVAGGHHAIYDTPNYRRLRGAIEFTVKHKFLTCAIVGVVMALSVVGMGAVKQQFFPTSDRPEVLVEVRMPEGTSIETTTATVKKLEAWLKQQPEAKIATSYIGQGAPRFFFAMAPELPDPAFAKIVVLTSDAHEREVLKLRLREAVAQGLAPEAFVRVTQLVFGPYTPFPVEFRIKGPDAEELYKISEQALALMSSVPDVRNANRDWGNRTPVVRFVPDQDRLNLIGMSSAEAAQQIQLLLSGVPVTQVRENIRNVPVVARSAGEIRLDPARLADFSLVTRDGRAIPLYQIGHTEVRFEEPILKRRDRTPVVTVRSDINEATQPPEVSQQVMTALQPLIASMPAGYTIEMGGNIEESLKANTALVKVFPLMIAATLIVIILQVRSLSTMTMVMLTAPLGLAGVVPTLILFNQPFGFNAILGLIGLAGILMRNTLILTEQIKENKAAGLDDYHAVIEATVQRTRPVILTALAAVLAFIPLTHSVFWGSMAYTLIGGTAVGTLIILLFLPALYAAWFRIKPPKADMDSTEHGNAETAQHSLAAE	PGPT0028890_426	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexJK-OprM,PGPT0028890-mexK-K18303	NA	NA
BMS010_07575	1110	mdtA_10		Multidrug resistance protein MdtA	ATGAAACGGAAACTTGTTGTCACTGCAGCAGCAGTGCTGGCGCTGGCCGCAGGCGGAGCCGCAGCACTGCTGCTTCCTGCGCAGGCGCCAGAGGCAAAGGCTGCCGATCCCCGGACCTTGGCACCACTGGTCAACCTCGCGACGGCCAGGCTCCCTGGCAATTCGAGCAGCAGCTTTACCGGAACCGTTGGCGCCCGGGTCCAGAGCAATCTCGGCTTTCGCGTTCCCGGAAAGATCGTTGAACGTTTCGTCGACGTCGGGGAGCAGGTGAGCGCTGGCCAGCCATTGATGAGGCTTGACGAGACCGATCTTCGCCTTGCTCTGACCGCCAAGCGAAACGCTGTCATCGCAGCACAGGCGACGTTTGTTCAAGCGAAAGCCGATGAGAAACGCTTTGCCGTGCTGGTGAAGACCTCTGCTGCCTCGACGCAGCAATATGAACGATCGAAGGCCCTGCTGGATACGGCGACGGCACAGTTGGCCGCCGCTCAGGCTGAGGCGAATGTTGCCGAAAACGAGGCCCAATATACGGTTCTTGTTGCCGATGCAGATGGAACCATTGTCGAGACGCTCGGTGAACCGGGCCAGGTGGTAACCGCCGGGCAGCCGGTTGTCCGGCTCGCGAAGTCAGGTCCGCGCGAAGCCATTGTCTGGCTTCCCGAAACCATGCGCCCTGAAATCGGGGTTCAGGCTTCTGCCTCGGTGTACGGCAGAAACAATGCGGAACAGGCCAAGCTGCGCCAGATCTCCGATTCTGCCGATCAGCAGACCCGCACTTATGAAACGCGCTGGGTGCTTGAAGGGGGGGCTGCAAATGCGCCCCTGGGAGCGACCGTCACCATCGAAATCGAGAACAGGGATGTGCAGAATCATGCCGAACTGCCGATAGGCGCTCTATTGGATGACGGGACGCGGACGGGCGTCTGGGTGATCGATCAGCAATTGTCTGTCGTGAAGTTTCGTGATGTGAACGTGGAGCGGGTGAGCGAAGAGAATGTGGTCGTCACTAATGTCAAGCCGGGAGAGGAGGTCGTTGCGCTTGGCGCACATCTTCTGAAGGATGGAGCGCAAGTTCGCACCAGCGTTGGTACAAAAGAGGCGGCAAACTGA	MKRKLVVTAAAVLALAAGGAAALLLPAQAPEAKAADPRTLAPLVNLATARLPGNSSSSFTGTVGARVQSNLGFRVPGKIVERFVDVGEQVSAGQPLMRLDETDLRLALTAKRNAVIAAQATFVQAKADEKRFAVLVKTSAASTQQYERSKALLDTATAQLAAAQAEANVAENEAQYTVLVADADGTIVETLGEPGQVVTAGQPVVRLAKSGPREAIVWLPETMRPEIGVQASASVYGRNNAEQAKLRQISDSADQQTRTYETRWVLEGGAANAPLGATVTIEIENRDVQNHAELPIGALLDDGTRTGVWVIDQQLSVVKFRDVNVERVSEENVVVTNVKPGEEVVALGAHLLKDGAQVRTSVGTKEAAN				NA	NA	NA	NA	NA
BMS010_07576	588			hypothetical protein	ATGAGAGTGAGCCGCGTACAGGCAGAGGAAAACCGCGAGAGGGTGATAAACGTCGCCAGCCGGTTGTTTCGAGAGCATGGTTTCGACGGGATCGGCCTGAAAGACCTGATGAAGGGTGCAGGTCTCACCCAGGGTGGATTCTACAAACAGTTCGCATCGAAAGACGATCTTGCGGCGCTCGCATCACGGCGTGCTCTCGAGAGCGCCACGAGAAGGTGGTCTGATGCCGCAGCAGACACGTCAGATCCCCTGGAATCGATCATCAGCTTCTACCTCTCCAAAGACCATAGCGGCGAGAAGGCAGAAGGATGCCCGCTTGTTGCTCTCGGCTCCGACGCGGCGCGTCAAACCGCCGAAGTTCGGCGCCCGTTTGAAGATGGTATCCGGGCGCATTTCGAGGTGCTCGAAGAACTCATCGGAGAGGGCGACGATAGAGCTCGAAGCGGAAAAGCCATGGCAATATTGTCCATGATGGTCGGTGCGGTGACGCTGTCGCGTATCATCGAGGATGAACCGCTGTCGACGAGCGTACTCGACGCGGCAGCGAGCGAGGTCCGGCGCATTGCTGACCGCGATCACAGCGACTAA	MRVSRVQAEENRERVINVASRLFREHGFDGIGLKDLMKGAGLTQGGFYKQFASKDDLAALASRRALESATRRWSDAAADTSDPLESIISFYLSKDHSGEKAEGCPLVALGSDAARQTAEVRRPFEDGIRAHFEVLEELIGEGDDRARSGKAMAILSMMVGAVTLSRIIEDEPLSTSVLDAAASEVRRIADRDHSD				NA	NA	NA	NA	NA
BMS010_07577	1296	fabF_4	COG0304	3-oxoacyl-[acyl-carrier-protein] synthase 2	ATGCGTCGTGTCGTTGTCACGGGAATGGGAGCCGTCAGCCCCCTTGGTGCGAATGTCGATATCTCCTGGTCCCGGCTCCTTGCTGGCAAAAGCGGGATCCGTCGGCTGGGTGATGACATCGTCGGGGATTTGCCGTCAAAAATCGGAGGCGTGGTCCCTTCTCTGGCAGACGATCCTGAAGGAGGATTTGATCCTGACAGGACCCTGTCCTCGAAGGATCAACGCAAGGTCGACCGTTTCATCATCTTTGCGCTGGCAGCGGCGGAAGAGGCTCTCGCGCAGGCGAACTGGAAGCCAGCTTCCGAGGAAGAAAAACTGAGAACGGCGACCATCATCGCATCGGGCATCGGTGGCTTTCCCGCGATAACGGAGGCGGTGCGTACCGTCGACCAACGCGGCGTCCGCCGCCTCTCGCCCTTCACCATTCCATCCTTTCTCGTGAATCTCGCTGCCGGACAAGTCTCTATCCGGCATGGCTTTAGAGGCCCGCTGGGAGCGCCGGTGACGGCATGTGCTGCCGGCGTTCAGGCGATTGGCGATGCAGCGCGACTGATCAGATCCAATGAAGCCGACATTGCGGTTTGTGGTGGCACTGAGGCCTGTATGAACATTGTCAGCCTTGGTGGTTTCGCAGCAGCAAGATCACTATCGACAGGCTTTAACGAGACCCCGGCCAAGGCGTCACGTCCTTTCGACACCGCGCGCGACGGCTTCGTGATGGGTGAAGGCGCAGGCATCCTCGTCATTGAAGCTTTAAGCCACGCCCTCGCCCGCGGTGCGACGCCGATAGCAGAACTCGTTGGATATGGAACGACCGCCGACGCCCATCATATTACCTCCGGGCCGGAAGATGGAAGCGGCGCCCGCAGGGCAATGCAAATCGCCATCGCTCAGGCTGGTATCGCGCCGCACGAAATCGGCCATCTGAACGCGCATGCGACTTCGACCCCGGTTGGAGATCTCGGAGAGCTCAGAGCAATCAAGAGCCTGTTCGGCCAAAGGAAGTCGATCGCTGTCAGCGGCACGAAGTCGGCGACGGGGCACCTGCTGGGGGCAGCCGGCGGCCTTGAGGCTATTTTTACGATCCTGGCGCTCCAGCACCAGATCGCGCCCCCGACCTTGAATCTCAGTTCACCGGACCTTGAAGCCAATGGCATCGACTTTGTCGCAAACGATGCCCGACCCCTCGATGTTGAATATGCGATATCCAATGGCTTCGGCTTCGGTGGCGTCAATGCCAGCGCAGTGTTTCGACGCTGGCCGAGGAGAGGCAATCGTACGCCATTAGCTGATTAA	MRRVVVTGMGAVSPLGANVDISWSRLLAGKSGIRRLGDDIVGDLPSKIGGVVPSLADDPEGGFDPDRTLSSKDQRKVDRFIIFALAAAEEALAQANWKPASEEEKLRTATIIASGIGGFPAITEAVRTVDQRGVRRLSPFTIPSFLVNLAAGQVSIRHGFRGPLGAPVTACAAGVQAIGDAARLIRSNEADIAVCGGTEACMNIVSLGGFAAARSLSTGFNETPAKASRPFDTARDGFVMGEGAGILVIEALSHALARGATPIAELVGYGTTADAHHITSGPEDGSGARRAMQIAIAQAGIAPHEIGHLNAHATSTPVGDLGELRAIKSLFGQRKSIAVSGTKSATGHLLGAAGGLEAIFTILALQHQIAPPTLNLSSPDLEANGIDFVANDARPLDVEYAISNGFGFGGVNASAVFRRWPRRGNRTPLAD	PGPT0008360_1362	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008360-fabF-K09458	NA	NA
BMS010_07578	1008	ftsZ_3		Cell division protein FtsZ	ATGCAACCACCGACTGACGTTTCACCGCCCGGCATAACGCTCCTCAAGCCAAGGATTGCCGTCATCGGCGTCGGCGGTGGCGGCGGCAATGCTGTCAACAACATGATCATGCACGATCTCAAGGGCGCGGAGTTTATCGTTGCGAACACCGATGCACAGGCTTTGTCCATGTCAAAAGCGCCACGGCTTATCCAGCTTGGCCCGACCGTCACGGAGGGACTTGGCGCCGGATCATTGGCCGATATTGGACAGGCGGCCGCCGAAGAGTCGATTGACGAGATTATGGATCACCTCCACGGAACCCATATGTGTTTCGTGACGGCGGGCATGGGGGGCGGAACGGGAACAGGTGCCGCACCCGTTATCGCCCATGCTGCGCGCAAGGCAGGCATACTGACCGTCGGCGTCGTCACCATGCCCTTCACATTCGAAGGTACGCAGCGAATGCGAACAGCGCGGCAGGGAATCGAGCGTCTCAGTGAATGTGCAGACACGGTGATCGTCATCCCCAATCAGAACCTGTTCCGGATTGCCGATGCGAAGACGACCTTCGCGGATGCATTCGAAATGGCAGATCATGTGCTGCATGCCGGGGTCAGTTCCGTCATCGATCTGATCGTCAAGGAAGGATTGATCAATCTCGACTTCGCCGATGTAAGGTCAGTCATGCGTGACATGGGCCGTGCTGTCATGGGCACGGGCGAGGCAACGGGAGACGCCCGCGCCCGACATGCCGCCGAGGCAGCGATTGCCAATCCGCTGTTCGATGAAGCGTCCGTCAGGGGAGCGAAAGGCCTTCTCGTCTCGATCTCCGGCGGACCGGACATGACCCTTTTTGATGTCGATGAAGCGGCAACACGTGTTCGCGAGGAAGTCGATGACGACGCCAATATCGTGGTCGGCGCGACATTCAATGACGCGCTTGAAGGGCGGCTGAGAGTTTCAGTCGTCGCCACAGGTTTGAGGCAACCGGCAAAGGTGATCCGCCTTTCGGAGCGAATGGCGTGA	MQPPTDVSPPGITLLKPRIAVIGVGGGGGNAVNNMIMHDLKGAEFIVANTDAQALSMSKAPRLIQLGPTVTEGLGAGSLADIGQAAAEESIDEIMDHLHGTHMCFVTAGMGGGTGTGAAPVIAHAARKAGILTVGVVTMPFTFEGTQRMRTARQGIERLSECADTVIVIPNQNLFRIADAKTTFADAFEMADHVLHAGVSSVIDLIVKEGLINLDFADVRSVMRDMGRAVMGTGEATGDARARHAAEAAIANPLFDEASVRGAKGLLVSISGGPDMTLFDVDEAATRVREEVDDDANIVVGATFNDALEGRLRVSVVATGLRQPAKVIRLSERMA	PGPT0027695_5381	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0027695-ftsZ-K03531	NA	NA
BMS010_07579	189			hypothetical protein	ATGTTAAAGCGTTTTCGAGAAAAATGGCGATCGTGGGAAGATACCGTCCTGGGTATCGACGATCCGCAGGGAGACTACCTCATCGCGCTGGAAAAACGGTTGGATCGGCTGGAAACCGAAATGGCTGGATTAAAGGCGCAGCCCCACGAGGAGGTAGTGCGGGAAGACGGCGCGGAAAATAAGGGGTAA	MLKRFREKWRSWEDTVLGIDDPQGDYLIALEKRLDRLETEMAGLKAQPHEEVVREDGAENKG				NA	NA	NA	NA	NA
BMS010_07580	1416	mepA_2	COG0534	Multidrug export protein MepA	ATGGCCGATATGCCTAACAGCAAAAATTCTCATGTCTCAACAATTTCACAGAAGACACCACGTGGAATTCTTCAGGGACCAATCACGCCCACACTGTTTCGGTTGGCATTGCCCACGGTCGTCGTTCTCGTGGTCCAGACCTTTGTTGGGGTCGCGGAAACCTACTTCGTCAGCTTCCTTGGGACCGAGGCTTTAGCGGGCGTGACCCTCGTCTTTCCGGTCCTCATGCTGATGCAAATGATGTCGAATGGCGGGATTGGAGGGGGAGTTTCCTCGGCTGTGGCCCGAGCGCTGGGAGCCAACCGCTACGCTGATGCCGATGGGCTTGTCTGGCATTCGATTGTTCTGGCCATAGTATTCGGAGCTATTTTCTCAGTCGCTGCAATCCTTCTTGGACCTGCGCTCTACCGCTCAATGGGAGGGACTGGAGAAACCCTTAAGGCCGCCCTCCTCTATTCAGGAATTGTGTTCGCAGGCTCCATTCCCATCTGGATCACGGCTTTGCTTTCGGCAGCCCTGCGGGGCGCTGGCAACGTGAACGTGCCTGCCCTCGTCATCATCTCCGGCGCGTTCCTTCTCCTCGTCTTGTCGCCGCCGTTGATTTTCGGCTGGGGCCCCTTCCCGCAGCTCGGCGTGGCAGGCGGAGGCGCTGCGGTCTTCATTTATTATCTCACCGCGGCACTGGTGCTTGCCCTATACCTGCGCTCCTCAAGCAGCCCGCTAAAGTTCAAAATCGTTCCGCTGCAAGGTCGACTGTTCAAGGACATTCTGGGTGTCGGCCTGCCTTCCGCAGTCGGCACGATCCAGGTCAATCTGACGGTTACGTTTGTAACGGCAGCCGTCGGCCACTTCGGCGCAGACGCAATTGCGGGGTTCGGCATCGCATCGCGGCTAGATTATCTGCAAATCCCCATCATCTTCGGTCTTGGAACCGCTATCGTCACCATGGCTGGGATTAATATCGGAGCGGGTCAGATCGAACGCGCCCGCCGGGTCGCCTGGGTTGGCGCAGGTATCGCATTCGGCCTCACGCAGACAATCGGCATTCTGGCCACTCTGTTCCCCATGACCTGGATGAGATTATTCACGGCGGACCCGGATGTGCAGCAGCTAGGCTCCCAGTATCTGCAAATTGTCGCACCGGCTTATGGTGCAGTTGGATTGGGACTGGCGCTTTATTTTGCAAGCCAGGGACTGAAGCGTGTTTTACTCCCGGTTCTTGCCGGAACAGTCAGGATGATCCTGGCAGCTTTCGTCGGGTGGGCTTCGGTGATCTGGTTTCAGGCAAGTCTCAATTCCCTTTTCCAGATCGTGGCGGCCGCGGCGATCGCATACGGGGGACTGACGGCCCTCGCCGTGCTTCCGCGCCGGATGTTCCATCTTGGCAGGCAAGAGAACGCTCAAACTGCCGAGTAG	MADMPNSKNSHVSTISQKTPRGILQGPITPTLFRLALPTVVVLVVQTFVGVAETYFVSFLGTEALAGVTLVFPVLMLMQMMSNGGIGGGVSSAVARALGANRYADADGLVWHSIVLAIVFGAIFSVAAILLGPALYRSMGGTGETLKAALLYSGIVFAGSIPIWITALLSAALRGAGNVNVPALVIISGAFLLLVLSPPLIFGWGPFPQLGVAGGGAAVFIYYLTAALVLALYLRSSSSPLKFKIVPLQGRLFKDILGVGLPSAVGTIQVNLTVTFVTAAVGHFGADAIAGFGIASRLDYLQIPIIFGLGTAIVTMAGINIGAGQIERARRVAWVGAGIAFGLTQTIGILATLFPMTWMRLFTADPDVQQLGSQYLQIVAPAYGAVGLGLALYFASQGLKRVLLPVLAGTVRMILAAFVGWASVIWFQASLNSLFQIVAAAAIAYGGLTALAVLPRRMFHLGRQENAQTAE				NA	NA	NA	NA	NA
BMS010_07581	201			hypothetical protein	GTGCTCGAGCAGGCCAAGTCCCTTGCCGAGGACTGGTATCTCGGTTTGCGCGGCAAGCTGGCGGGTTTGATCAAGACCGAGGCGACCTTTGCCATAGCAGCCAAGAAGTTTGAACGGGAATACGCCATCATCACCGAACGCGAGCGCAGGCCACACATCTTAGGCAGCGTCCCAAACCCGATTGACGATATTGGCAGCTAA	MLEQAKSLAEDWYLGLRGKLAGLIKTEATFAIAAKKFEREYAIITERERRPHILGSVPNPIDDIGS				NA	NA	NA	NA	NA
BMS010_07582	1299	nicP_4		Porin-like protein NicP	ATGAGCAAGACTCCCCTCGCCCGTGCCGTGGCCCTGGCCACGCTGGGCGCCAGCCTCACTCTGCCAAGCCTGGCCTTCGCCGAGTTCATCAAGGACAGCAAGGCCAGCCTGGAGCTGCGTAACTTCTACATGAACCGCGACTTCCGCCAGGACCTGGGCGAGCCTAACCCGCCACGCATTCCCGGCAAGACCCCGGCCGAGTTCCGTAGCAAGGCAGAAGAGTGGGCGCAGGGCTTCATCGTGCGTTACGAGTCGGGCTTCACCGAAGGCACCGTCGGCTTCGGCCTCGATGCCATCGGCACCCTCGGCGTGAAGCTGGATTCCGGCCGCGGCACCGCCGGCACCGGCCTGCTGCAACTGGACCGCGACACCGGCGAAGCGCAGGACACCTATGGCGACCTGGGCGCCACTGCCAAGGTCCGGCTCTCCAAGAGCACCCTGAAGGTCGGCACCTTGATGCCGAAGATGCCGGTGCTGATGTCCAACGATTCGCGCCTGCTGCCGCAGAGCTTCCAGGGCGGCTGGCTGAACTCCGCCGAGATCGACGGCCTGACCTTCGACGCCGGCCAGATCAACCGCGTGAACCAGCGCGACTCGTCCGACCACGAGACCATGCTGGTGACCAGCGGCAAGGGCATCACCGCCGCCACCGGCCAGGACAGCGACGAGTTCAACTTCGCCGGTCTGACCTACAAGTGGAACGACAGCCTGACCACCAGTTACCACTACGGCGCGCTGGACGAGTTCTACAAGCAGCACTATTTGAACCTGGTACACGTCCTGCCGCTGGGCGACAAGCAATCGCTGAAGAGCGACCTGCGCTACGCCCGTTCCACCGATGACGGCAGCAGCAACGTCGACAACAAGGCGCTGGGCGGCCTGTTTACCTACAGCCTGGGCTACCACGCCTTCGGCCTGGGCTACCAGAAGATGAGCGGCGACACCGGCTTCGCCTACATCCAGGGCACCGACGCCTACCTGGTGAACTTCGTGCAGATCGGTGACTTCGCCAACCGCGACGAGCGCTCCTGGCAGGTTCGCTACGACTACAACTTCGCTGGCGTCGGCATCCCCGGCCTGACCCTGATGACCCGCTACATCACCGGCGACAACGTCGAGCGTGCCGATGGCAGCGAAGGTCGCGAGTGGGAGCGCAACACCGACATCGCCTACGTCTTCCAAGACGGCCCGCTGAAGAACCTGGGCGTCAAGTGGCGTAACGCGACGGTGCGCTCCAACTTCGGCAACGACCTGGACGAAAACCGTCTGATCGTCAGCTACACCTTGCCGTTGTTCTAA	MSKTPLARAVALATLGASLTLPSLAFAEFIKDSKASLELRNFYMNRDFRQDLGEPNPPRIPGKTPAEFRSKAEEWAQGFIVRYESGFTEGTVGFGLDAIGTLGVKLDSGRGTAGTGLLQLDRDTGEAQDTYGDLGATAKVRLSKSTLKVGTLMPKMPVLMSNDSRLLPQSFQGGWLNSAEIDGLTFDAGQINRVNQRDSSDHETMLVTSGKGITAATGQDSDEFNFAGLTYKWNDSLTTSYHYGALDEFYKQHYLNLVHVLPLGDKQSLKSDLRYARSTDDGSSNVDNKALGGLFTYSLGYHAFGLGYQKMSGDTGFAYIQGTDAYLVNFVQIGDFANRDERSWQVRYDYNFAGVGIPGLTLMTRYITGDNVERADGSEGREWERNTDIAYVFQDGPLKNLGVKWRNATVRSNFGNDLDENRLIVSYTLPLF	PGPT0005395_50	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_BENZOATE|DERIVATE_DEGRADATION	XENOBIOTIC_BENZOATE-DEGREDATION-BENZOATE_TRANSPORT,PGPT0005395-benP-K21758	NA	NA
BMS010_07583	864			hypothetical protein	ATGCGCGTCTTCAGCCTGATGCTGCTCGCCCTGTTGAGCCTGACCAGCCTGCCCGGCGAAGCCGCCGGTCTGCGCTTCACCCTGGTGAAAACCTCGGAAACCGAAACCCTCGACGCCTTCACTGTGGAAGGCGGCGACTGGACCGAGAAAGCCATCGCCGACCACGTGGCGGTCCTCATCGAGCATCACGCCGCCACCCTGCTCTTCGATACCGGCCTCGGCCGCCAGGTGGACAGCCAGTTCCAGGAAATCCCCTGGTGGGAGCGCAAGCTGCTGCAATACGGCCCGGTCCAGCCGGTGCGCGATCGCCTGGACGCGGACGGCATCCGTGTCGACCGCATCCTCCTGTCCCACACCCATTGGGATCATGCGTCCGGGCTGGCGGACTTTCCCGAAGTACCGGTCTGGGCGCCCTACGAAGAAATCGAGTTCAGCCAGATCGCGGTTCCGCCGGCGATACTGCCCAGCCAGTTCAGCCATGCGGTGAAATGGGTACCCTTCGCCTTCCAGCCGGAACCCTTCATGGGCTTCCCGGAAAGCCTCGACCTGTTCGGCGACCGCAGCCTGGTGCTGGTGCCGCTCAGCGGCCATACGCCTGGCTCCGTCGGGCTGTTCCTGACCCTAGACGACGGCCGCCGCTTCTTCTTCACCGGCGACGCTAGCTGGCGCCTGGAGGGCTTCACCGGCCCGAAGGAAAAGTTCTGGTTCAGCCGGCGGCTGGTGGACCAGGATCGCGACGCCACCCGCCAGGTGCTCGAACAGGTCCATGCCTTGCTCGAGCGGGAGCCGGAATTGGTCGTAGTGCCAGCACACGATGCCAACGTGCATAAGCAGTTAGGCTTTTATCCTCAATGGATACAGTAG	MRVFSLMLLALLSLTSLPGEAAGLRFTLVKTSETETLDAFTVEGGDWTEKAIADHVAVLIEHHAATLLFDTGLGRQVDSQFQEIPWWERKLLQYGPVQPVRDRLDADGIRVDRILLSHTHWDHASGLADFPEVPVWAPYEEIEFSQIAVPPAILPSQFSHAVKWVPFAFQPEPFMGFPESLDLFGDRSLVLVPLSGHTPGSVGLFLTLDDGRRFFFTGDASWRLEGFTGPKEKFWFSRRLVDQDRDATRQVLEQVHALLEREPELVVVPAHDANVHKQLGFYPQWIQ				NA	NA	NA	NA	NA
BMS010_07584	930			hypothetical protein	ATGAACAGTCCTTTCCATCCCGGTGAACAGGCGATGCAGCACCGCGCTGGCGTCCGCGAAAAAATCGAGGACATCGGCAGCCGTGTGATCCGTCCTTACATGCCGGAGCAACACCGCGAGTTCTTCGGCCTGCTGCCCTGGCTGCTGGTCGGCAGCGTGGACGCCGAGGGCCAGCCGTATGCCTCGGTGCTCTGGGGCGCGCCGGGTTTCGTCCGCTCACCGGAACCGACCCTGCTGCGGATCAACGCCCGGCCGCAGGCGGACGACCCGCTCGCCGAACAGTTGCGCAGCGGCGAACGCCTGGGCCTGCTCGGGATAGAAATGCCGACCCGGCGGCGCAACCGTCTCAATGGTCCGCTGCTGGAAGTGGACGCCGCCGGCTTCACCCTGGGCGTCGCGCAGTCGTTCGGCAATTGCCCGAAGTACATCCAGGCCCGCGACTGGCAAGCCCTGTCGCGCGAACCCGGCCCCCTGCTGCAGGGCGAAGGCCCGGACCCGGCCTGGCTGCAACGGGTGAGCACGGCCGATACCTGCTTCGTCGCCAGTCACAACCACGACCCGCACAGCGGTGGCGTCGATGTTTCCCACCGCGGCGGCCCGGCCGGGTTCGTGCGCCTGGGTAGCGACGGCCGGCTGTGGATGCCCGACTACACCGGCAACTTCATGTTCAACACCCTCGGCAACCTGCTGCTCGAACCCCGTTGCGGCCTGTTGTTCATCGATTTCGCCAGCGGAGACCTGCTGCACCTGCAAGCCCGCGCCGAGGTGCTCTGGCCGGAGGATGCGGCTCGCCTCGGCCAACCGCTCCCGCCCGGCGCCGAGCGGATGCTGGCACTGACCCCGGAACGCTGGCTGCTGCGCCGCTCACGCCTGCCCCTGGCGTTCGGCGCGGCCTCCGCCTCCCCTTTTCTACCTGATCAAGGAATCTGA	MNSPFHPGEQAMQHRAGVREKIEDIGSRVIRPYMPEQHREFFGLLPWLLVGSVDAEGQPYASVLWGAPGFVRSPEPTLLRINARPQADDPLAEQLRSGERLGLLGIEMPTRRRNRLNGPLLEVDAAGFTLGVAQSFGNCPKYIQARDWQALSREPGPLLQGEGPDPAWLQRVSTADTCFVASHNHDPHSGGVDVSHRGGPAGFVRLGSDGRLWMPDYTGNFMFNTLGNLLLEPRCGLLFIDFASGDLLHLQARAEVLWPEDAARLGQPLPPGAERMLALTPERWLLRRSRLPLAFGAASASPFLPDQGI				NA	NA	NA	NA	NA
BMS010_07585	594	nagL_2		Maleylpyruvate isomerase	ATGCGTCTCTATGACTTTCACCTGTCCGGCAACTGCTACAAGGTGCGCCTGTTCCTCAGCCTTATCGGACAGGAAGCGGAGCAAGTCGAACTGAACCTGCGGGGCGGCGAACAGAAAACCCCGGAATTCCTCGCCATCAACCCGCGCGGCCAGGTGCCGGCCCTCGAAGACGGTGATTTCCGTATCGGCGACTCCCAGGCGATCCTGGTCTATCTCGCGGCTCGCTACGCTCCGGCCTGGGCGCCCGCCGATCCGCTCACCCAGGCGCGCATCGCCAGTTGGCTGAGCTTCGCCGCCAACGAGATGCAGAACGGCCCGGCGATGGCCCGGGTCGGCAAGCTGTTCGGCTATCCCATCGACGAGGCCAAGGTCCACGCCAAGGCGATCCAGGCGCTGGAACTGCTCGACGCCCAACTGGCCCGTCATCCCTGGCTGGCGCAGACAGACGCCCCGAGCATCGCCGACCTGGCGGTCTATCCCTACGCCGCGCTGGCCGGCGACGGCGGCCTCGACCTGGCGCCCTACACCCACCTGAATGCCTGGTTCACCCGCCTGCAAGCATTGCCGGGCTATATCGGCATGACCGGTCTCTGA	MRLYDFHLSGNCYKVRLFLSLIGQEAEQVELNLRGGEQKTPEFLAINPRGQVPALEDGDFRIGDSQAILVYLAARYAPAWAPADPLTQARIASWLSFAANEMQNGPAMARVGKLFGYPIDEAKVHAKAIQALELLDAQLARHPWLAQTDAPSIADLAVYPYAALAGDGGLDLAPYTHLNAWFTRLQALPGYIGMTGL	PGPT0013170_21728	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS010_07586	558			hypothetical protein	ATGGCATCAAGCAAGCGCGATCAACTGATCAATACGGCGTTGGAGCTTTTCAAGCGCGAGGGCTACCACGCCACCGGCATCGACCGGATCCTGGCCGAATCCGGCGTGGCCAAGATGACGCTGTACAAGCACTTCAAATCCAAGGATGAACTCATCGAGGCGGCACTGGAAAACCGCTCGCAGCAGATGGTCGAGCGGCTGCGCGAGGCGCGTGAGCGCTTCGGGCCGCGCGAGGCGATTTTGCGTACCTTCGACGGGCTGCACGCGATGATTCACGGCGGGGATTTCTGCGGCTGCCTGTTCATCAATGCGTCGGCCGAATTCCACGACCGCAACCACCCGGTGCATCGCCGTGCGGCGGCGCACAAGGCGCTCTTCGGCGATCATCTGCGGGAGCAATTGGAACAGCTGGAAGCCCCCGAGCCGGCGCGGCTGGCGCGCCAACTGCAATACCTCGTCGAGGGCGCGATCACCATGGCCCACATGGAAGGACCGGGCGGCCAGGCGCAGGAAGCCAAGGCCGCCGCCGAGGTGCTGCTGCAGGCGGCCGGCGTCTGA	MASSKRDQLINTALELFKREGYHATGIDRILAESGVAKMTLYKHFKSKDELIEAALENRSQQMVERLREARERFGPREAILRTFDGLHAMIHGGDFCGCLFINASAEFHDRNHPVHRRAAAHKALFGDHLREQLEQLEAPEPARLARQLQYLVEGAITMAHMEGPGGQAQEAKAAAEVLLQAAGV				NA	NA	NA	NA	NA
BMS010_07587	1965	kefC_2	COG0475	Glutathione-regulated potassium-efflux system protein KefC	TTGTTCGTCAATCTCTTGATCATTCTAGCCGCGTCGTTGCTGGTGATTGCGCTGTTCCGCCGCCTGCGCCTGCCGCCGGTGCTCGGCTATCTCTGCGTCGGCCTGCTGCTCGGCCCGTCGGCGCTGGCCTGGGTCGATTACGACCAGGACCTGCCACACCTCGCCGAATTGGGCGTGGTATTCCTGCTGTTCACCCTCGGCCTGGAGTTCTCGCTGCCGCGCATGCTCGCCCTGCGTCGCGTGGTGTTCGGCCTCGGCAGCCTGCAGGTGCTGATCTGCGGCCTGGTGCTCGGCGGCCTGCTGGTGTTCGGCTTCGCGCTGCCGTGGGAAGTGGCGCTGCTGATCGGCGCGGGCCTGGCGCTGTCGTCCACCGCCATCGTCAGCAAGGAATTGGGCAGCCTCGGGGAAATCTTCAGCAACCACGGCCAGAACGCCATCGGCGTGCTGCTGTTCCAGGACCTGGTCGCGGTGCTGTTGCTGACCCTGGTACCGGTGTTCGCCGGCCAGGGCGGCGAGAGCTGGTACTGGGCGCTGCCCATCACCCTGGGCAAGACCGTGCTGCTGTTCATCGGCCTGCTGGTGGCCAGCCGCTGGCTGCTACCCCGGCTGTTCCAGGAGGTAGCGGCGGCCCATTCCGCCGAGCTGTTCGTGATGCTGGCGCTGGTGATCGTACTGCTCACCGCCTGGCTGACCCACCTGCTCGGCCTGTCCATGGCGCTGGGCGCGTTCCTCGCCGGCATGCTGCTGGGGGAAAGCCATTACCGCCACCAGATCGAGGCGGATATCCGGCCGTTCCGCGACATTCTCCTCGGACTGTTCTTCGTCAGCGTCGGCATGCTGATCGACATTCACCTGTTCGCCCGCCACGGCTGGCTGATCCTCGGCCTGACGCTCGCCCTGTTGCTGCTCAAAGGTGCGCTGGTGGCGTTGCTGGTGAAGCTGCGCGGGGATGACAACGAGACTGCCTGGCGCAGCGGCATCGCCCTGGCCCAAGGCGGTGAGTTCTGCTTCGCCCTGGTCGCCCAGGTGCAGCAGAACCGTCTGCTGGATGCCGACATCAGCGGCCTCCTGTTGGCCGCCACGTTCTGCTCGATGGCGGTCACGCCTCTGATGCTGCGCGCGGCGCCACGCCTGGCGGCGCATCTGCGCGCACGGCTGGGCGGCATGGAGAGCCAGGTGGAAGAAATCGCCGCGGCCAGCGCCGAACTGAGCGGCCACGTGGTGATCTGCGGCTATGGCCGGGTCGGCCAGTCGATCGGGCGCTTCCTGCATCGCGAGCGGCAGCCATTCATTGCCCTGGACGACGACCCGGTGCGCGTCCAGGAGGCCGCCGCCGGCGACGAGAGCGTGCACTACGGCGACTCGCGCCGTGGCGAGTTGCTCAGCGCGGTCGGTACCGAGCGCGCCCGTCTGCTGGTGGTGGCGGTGGACAAGGCCGACGTGGCGCTTGCCGTGGTCGAGCAGGCACGGCGCTTGAGTGCGGACCTGCCGATCCTGGTGCGTACCCGCGACGACAGCCGGCTGAGCGACCTGCAGGCCGCCGGGGCGACCGAGGTGGTGCCGGAGCTGCTGGAGTCGAGCTTGATGCTGGCCTCCCACGCGCTGGTCATGCTCGGCCTGCCGGAACGTCACGTCCAGATGCGCGTCGATGAGGTGCGCCGCAGCCGCTACCGCCTGCTGCATGGCTTCTACCACGGTGCCCAGCCCAACCTGCTGGACGCCCAGGGCCGGCCGCGACTGTTGTTGCACGCGGTCAACCTGAGCGAAGACGCCTACGCCTGCGGCCATTCCCTGCCCGATCTGGAGCTGGAGAAACTCGGTGTCGAGATTCAGGCCGTGCGCCGGGACGGCCACGACATGCCGTTGGATGGGCAGGGCTGCCTGAACGAAGGGGATGCGGTGTTGCTGTCCGGCCCGCTGGAAGCCATCGAGGCTTGCGAGGCGCGCCTGCTGGCGGGGCGCTGA	MFVNLLIILAASLLVIALFRRLRLPPVLGYLCVGLLLGPSALAWVDYDQDLPHLAELGVVFLLFTLGLEFSLPRMLALRRVVFGLGSLQVLICGLVLGGLLVFGFALPWEVALLIGAGLALSSTAIVSKELGSLGEIFSNHGQNAIGVLLFQDLVAVLLLTLVPVFAGQGGESWYWALPITLGKTVLLFIGLLVASRWLLPRLFQEVAAAHSAELFVMLALVIVLLTAWLTHLLGLSMALGAFLAGMLLGESHYRHQIEADIRPFRDILLGLFFVSVGMLIDIHLFARHGWLILGLTLALLLLKGALVALLVKLRGDDNETAWRSGIALAQGGEFCFALVAQVQQNRLLDADISGLLLAATFCSMAVTPLMLRAAPRLAAHLRARLGGMESQVEEIAAASAELSGHVVICGYGRVGQSIGRFLHRERQPFIALDDDPVRVQEAAAGDESVHYGDSRRGELLSAVGTERARLLVVAVDKADVALAVVEQARRLSADLPILVRTRDDSRLSDLQAAGATEVVPELLESSLMLASHALVMLGLPERHVQMRVDEVRRSRYRLLHGFYHGAQPNLLDAQGRPRLLLHAVNLSEDAYACGHSLPDLELEKLGVEIQAVRRDGHDMPLDGQGCLNEGDAVLLSGPLEAIEACEARLLAGR	PGPT0014395_902	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0014395-ybaL|TC_KEF-K03455	NA	NA
BMS010_07588	1164			hypothetical protein	ATGAAACCGCTTACCACGCTTACCCCGTCGGCCACCCGTACCCCCCAGGCGCAGCACGCCAAGACCCCGGTGCGCAACGCCGACGACGCCCAGAAACTGCTGGCCAACCGCCTGGCCGAACGGCTCGGCCTGGAGCCCGGCGCCCTCAACGGCAAATCCGACGAATACACGCCGGAGAAAGCCGCCACGCGCATCCTCGGTTTTATCGAGGGGCGCCTGAAGAGCGCCGAAGCCAGCGGCTCCGACACCACCGAACTGCGCAAGCTGCTGGATCAGGCCCGCTCGGGCGTCGAGAAGGGCTTCGATGAAGCGCGCAAGATTCTCGATGGCATGGGTGTGCTGAACGGCAAGATCGCCACCGATATCGACGACACCTATAAACGCATCCAGGACGGCCTCAGCGACCTGACCCAGCGCTATGACCCCGAGCAGGCAGAATCCACCACGCCGGCCACCACCGGCAGCGGTGCGGCCGCCGCCTATAGCTCGCGGTTCTCCGCGCTGGCGGAAACCTTCGATATGGAAGTGACCACCCGCGACGGCGATCGCCTGCGGATTTCTGTCGCCCAGGCTTCGGCCAACTGGTCGCAGACCGGCGTTGCAATCGCCCGCGACGGCGACAGCCAGGCGACGGTTGCCAGCAGCCGCTCCGGCAGCCTGCAGATCGGCGGCTGGCAGGTGCAGGTCGACGGTGAGTTGGACGACGACGAACGGGCTGCCTTGGAAAAACTCTTCGGCCAGGTGCAGGACCTGTCCAATCGCTTCTATTCCGGCGACCTCACTGGCGCCTTCGACCGTGCCATGGCCCTGGAACTGGATGGCGAGCAACTGGCTTCGATGTCGCTGCGCCTGACCCAGACCAGCGTACGCCAGGCCACCGATGCCTATGCCACGGTGGCGCAGCAGGGTGGACGGAGCGCCAGCGCGGTGAACGGCGCGTTGCTGGATTACGCCCAGGGCCTGCTGGATGCCCTGCGTACGGCCGACGACTTCGCCAAGGACGGCAAGCAGATGCTCAAGGACCTGCTCAAGGGTGGCTTCAGCCTCGACGAACGTTTCGACCTGCCGCGCCTGGAAAAGGCCGAGCGGCTCAACGGTCGCCTGCTGGATGGCTTGCAGGGGCTGCTGGACGCCGAGGGCGGGGTCTCGCCGACGGAAGCCTGA	MKPLTTLTPSATRTPQAQHAKTPVRNADDAQKLLANRLAERLGLEPGALNGKSDEYTPEKAATRILGFIEGRLKSAEASGSDTTELRKLLDQARSGVEKGFDEARKILDGMGVLNGKIATDIDDTYKRIQDGLSDLTQRYDPEQAESTTPATTGSGAAAAYSSRFSALAETFDMEVTTRDGDRLRISVAQASANWSQTGVAIARDGDSQATVASSRSGSLQIGGWQVQVDGELDDDERAALEKLFGQVQDLSNRFYSGDLTGAFDRAMALELDGEQLASMSLRLTQTSVRQATDAYATVAQQGGRSASAVNGALLDYAQGLLDALRTADDFAKDGKQMLKDLLKGGFSLDERFDLPRLEKAERLNGRLLDGLQGLLDAEGGVSPTEA				NA	NA	NA	NA	NA
BMS010_07589	237			hypothetical protein	ATGATTCCCGAATGCCAACTGTTCGGTACCCTTGGCTGTCATCTCTGCGAACAGGCCGAGGCCGTCCTGATGCCCTTCGTCGAACATGGCCTGCTGGTCGAGCTGGTGGACATTGCCGATCGCGAATCCTGGGTCGACGATTACGGCCTGCGCATTCCTGTGCTGCGCCGCTGCGACACCGGTGCCGAGTTGGATTGGCCGTTCGAGGCCGAGCAGGTCGTTTCCTTTTTGCGTTGA	MIPECQLFGTLGCHLCEQAEAVLMPFVEHGLLVELVDIADRESWVDDYGLRIPVLRRCDTGAELDWPFEAEQVVSFLR				NA	NA	NA	NA	NA
BMS010_07590	750	nagD	COG0647	Ribonucleotide monophosphatase NagD	ATGCCCAAGGCGATACTGCTCGACATCAGCGGCGTGCTCTATGAGGACGCCCGACCGTTGCCGGGCGCGGTGGAAGCCGTGCGCCAGCTACGTGACAAGGGCTACCCGCTGCGCCTGGTGACCAACACCTCGCGCCTGACCGCGGCGGAAATCCACCGGCAGCTCAGCGGCATGGGGTTCGGGTTGTCGCCCGGGCAGATTTTCAGCGCGCCGCAGGCCGCCCGCCGCTACTTGGCGGCGCACGGGTTGCGGCCCTACTGCCTGATCCACCCGAATCTCGAAGAGGAATTCGCCGACCTGCTCGACCTGCCGCAACCCAACGCGGTGCTGGTCGGCGACGCCGAGTCGCGTTTCGATTACGCCCACCTCGAACGCGCCTTTCACCTGCTGATCGAAGGTGCGCCGCTGATCGCCATGGGCGACAACCGCTATTTCCACAGTCGTGGCGCGCTGCGGCTGGACGCCGGACCTTTCGTCCGGGCGCTGGAATATGCAGCGGATACCCAGGCGCTGGTGCTCGGCAAGCCCTCGGCGGACTTTTTCAACGGCGCCCTGCACACCCTCGGCGTTGCCCCGCAGGACGCCCTGATGATCGGCGACGACGTCGAGGGCGACGTCCTGGGCGCGCAAAAGGCCGGACTCCAGGCCTGCCTGGTGCGCACCGGCAAATACCGCGAGGGCGACGAAGCCCGGGCGCCCGGCGCCGGCCTGGCTGCCGATCTGGCGGACGCGGTGCGACGTTACTGCTGA	MPKAILLDISGVLYEDARPLPGAVEAVRQLRDKGYPLRLVTNTSRLTAAEIHRQLSGMGFGLSPGQIFSAPQAARRYLAAHGLRPYCLIHPNLEEEFADLLDLPQPNAVLVGDAESRFDYAHLERAFHLLIEGAPLIAMGDNRYFHSRGALRLDAGPFVRALEYAADTQALVLGKPSADFFNGALHTLGVAPQDALMIGDDVEGDVLGAQKAGLQACLVRTGKYREGDEARAPGAGLAADLADAVRRYC				NA	NA	NA	NA	NA
BMS010_07592	222			hypothetical protein	ATGATTCAACGGACCCTTCCCGCGTTCCTGGTCGCTCTGGGCCTTGTCGCATTGGCTGGCTGCTCCTCGCCGGCAGTGATCACCCTGAATGATGGCCGCGAGATTCAGACCGTCGATCAGCCGGAGTACGACGAAGAGTCGGGCTTCTATGAGTTCGAGCAACTGGACGGCAAGCGCGCCCGGGTCAACAAGGACCAGGTACGTACCGTCAAGGACCTCTGA	MIQRTLPAFLVALGLVALAGCSSPAVITLNDGREIQTVDQPEYDEESGFYEFEQLDGKRARVNKDQVRTVKDL				NA	NA	NA	NA	NA
BMS010_07593	609	mobA_1	COG0746	Molybdenum cofactor guanylyltransferase	ATGACCGACCCGACCGCCCTGCCCCCCTGCTCCGTGCTGCTGCTCGCCGGCGGTCGCGGGCAACGCATGGGAGGCCGCGACAAGGGCCTGCTGGAATGGCGCGGCGAACCGCTCATCGCCCACCTGCACCGCGTGGTGCGGCCGCTCACCGATGACCTGATCATTTCCTGCAACCGCAACCAGGCCCGTTATGCCGCCTATGCCGACCGCCTGGTGACGGATGCCGAGGAGGGCTTCCCCGGCCCGCTCGCCGGCATCCGTGCCGGCCTGGCGGCGGCGCGGCACGACACGCTGCTGGTGCTGCCCTGCGATGCGCCGAAGGTGGATGCCGACTTGCTGCTCGACCTGCGTCAGGCGGCGGCCGCACACCCTGGGCGCCCCCTGATGCTGCGGCGTGGCGAGCAGTGGGAGCCGCTGTTCTGCGTGGTGCCGAAAATCCTCGTCGACGCCCTCGAACAGGCCTGGCAAAACGGCGAGCGCAGCCCGCGCCACATCTTCTTCGCCTTGGGCGCCCAGGCCCTGGATTGCGTCGTGGACGACCCGCGCCTGGCCAACCTCAACACGCCGGATTTGCTTTCCGATGAGGGTGAAATGGCCGCCGATCACTGA	MTDPTALPPCSVLLLAGGRGQRMGGRDKGLLEWRGEPLIAHLHRVVRPLTDDLIISCNRNQARYAAYADRLVTDAEEGFPGPLAGIRAGLAAARHDTLLVLPCDAPKVDADLLLDLRQAAAAHPGRPLMLRRGEQWEPLFCVVPKILVDALEQAWQNGERSPRHIFFALGAQALDCVVDDPRLANLNTPDLLSDEGEMAADH				NA	NA	NA	NA	NA
BMS010_07594	540	moaB_3	COG0521	Molybdenum cofactor biosynthesis protein B	ATGAACCACAAGGCTGAAGCGGCATTCGTCCCGCTGAACATCGCCGTCCTGACCGTCAGCGACACCCGTACCCTGGAAACCGATACCTCGGGCCAACTTTTCGTCGATCGCCTCACTGCCGCCGGCCATAACCTCGCCGCGCGCGTGCTGCTGAAGGACGACCTCTACAAAATCCGCGCCCAGGTCGCCACCTGGATCGCCGACGAAACCGTGCAGGTGGTGCTGATCACCGGCGGCACCGGCTTCACCGGCCGCGACAGCACGCCGGAAGCCGTGAGCTGCCTGCTGGACAAGACCGTCGATGGCTTCGGCGAGCTGTTCCGGCAGATTTCCGTGGCCGACATCGGCACCTCCACCGTGCAGTCTCGTGCCCTGGCCGGCCTTTCCAACGGCACCCTGGTGTGCTGTCTGCCGGGCTCCACCAACGCCTGCCGCACCGCCTGGGACGGCATTCTCGCCGAGCAACTGGACGCCCGTCACCGCCCGTGCAACTTCGTCCCGCATCTGAAACAGGCGGCGCCCTGCGAGAGCCGCGGATGA	MNHKAEAAFVPLNIAVLTVSDTRTLETDTSGQLFVDRLTAAGHNLAARVLLKDDLYKIRAQVATWIADETVQVVLITGGTGFTGRDSTPEAVSCLLDKTVDGFGELFRQISVADIGTSTVQSRALAGLSNGTLVCCLPGSTNACRTAWDGILAEQLDARHRPCNFVPHLKQAAPCESRG	PGPT0008420_591	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008420-moaB-K03638	NA	NA
BMS010_07595	1215	moeA_2	COG0303	Molybdopterin molybdenumtransferase	ATGAGCGGCTGCTGCGACAAGCCTGGCCTGCTGCCGGTCGAAACGGCCCTGGAACGCCTCCTGGCGCTGGCCGAGTCGGCGCCGATCCGGGAGACCGAGCGCCTGCCGCTGGCGACCGCCGAGGGCCGGGTGCTGGCCGAGCCGCTGGTCGCCGGGCTGGACCTGCCACCCTGGCCAAACAGCGCCATGGACGGCTACGCCCTGCGCCAGGCCGATGCCGGCGAGCCGTTGCCGGTAAGCCAGCGCATCTTCGCCGGGCAGGCCCCCGAGCCGCTGCAAGCGGGCACCTGCGCGCGCATTTTCACCGGTGCCCCGTTGCCGGGCGGCGCGGATTGCGTGGAGATGCAGGAGAACGTCGAGGTCCTGGCCGATGGTCGGGTGCGTTTCCTCGAAGCCATCCGCGCTGGTCAGCACGTGCGTCCGCAAGGCCAGGAGACGCGCCGGGGCGAGACGGTACTGGATGCCGGTACCCGGCTGGGGCCGATCGAATTGGGCCTGGCCGCTTCCCTCGGAGCGGCCGAGCTGACGGTTCGCCGCCGCCCGCGTGTGGCGCTGTTGTCCACCGGCGACGAGCTGGTCGAGCCCGGCCAGTCGCTCGGGCCGGGGCAGATTTACAACAGCAACCGCCGCCTGCTTGCCAGTTGGCTCCAGCGCCTGGGATGCGAGGTGGTGGACGGTGGCATCCTGCCGGACGATCTCGACCGTACCCGCGTCTGTCTCGGTGAGTTGGCCGATGTCGACCTGTTGCTGTCCACCGGTGGCGTATCGGTGGGGGAGGCGGACTTCCTCGGTCAAGTCCTGCGCGAAGCCGGCGAGCTGGCGCTGTGGAAGCTGGCGATCAAGCCGGGCAAACCGCTGACCTGCGGGCATTACCGGGGCGTGCCGGTGATCGGTCTGCCGGGCAACCCGGCCTCGACCCTGGTGACCTTCGCCCTGCTGACCCGCCCATACCTGCTGCGTCGCTTGGGTTGTGCCGAGGTAACACCGTTGCGTTTCAGCGTGCCGGCCGGCTTCACTTGGACGAAACCGGGCAACCGCCGCGAATACTTGCGCGCGCGGCTGGAGAATGGTCGTGCGGTGATCTACGCCAACCAGAGTTCCGGGGTACTGCGCAGCGTCGCCTGGGCCGATGGCTTGGTGGAGGTGCGCGAAGGCACGACCCTGGCCGAGGGCGATGCGGTGACGTTCATTCCGTTGAGCGAGGTGTTGGTGTAG	MSGCCDKPGLLPVETALERLLALAESAPIRETERLPLATAEGRVLAEPLVAGLDLPPWPNSAMDGYALRQADAGEPLPVSQRIFAGQAPEPLQAGTCARIFTGAPLPGGADCVEMQENVEVLADGRVRFLEAIRAGQHVRPQGQETRRGETVLDAGTRLGPIELGLAASLGAAELTVRRRPRVALLSTGDELVEPGQSLGPGQIYNSNRRLLASWLQRLGCEVVDGGILPDDLDRTRVCLGELADVDLLLSTGGVSVGEADFLGQVLREAGELALWKLAIKPGKPLTCGHYRGVPVIGLPGNPASTLVTFALLTRPYLLRRLGCAEVTPLRFSVPAGFTWTKPGNRREYLRARLENGRAVIYANQSSGVLRSVAWADGLVEVREGTTLAEGDAVTFIPLSEVLV	PGPT0008430_4757	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750	NA	NA
BMS010_07596	1026	rhaS_16		HTH-type transcriptional activator RhaS	ATGCACAGCCTCGGCCACACCTCGGTTCCCGCCCTGCTCAAATACCTACGCCTGGCCGAACACCTCTGCCTCGACCAGGACGCCGCGCTCGCCGCCGCCGGCCTCAGCGCCACCGACCTCGCCGACAACAGCCGACGTGTGTCAGGAGAGGCCCATGAAAGGCTTCTCGGCCACCTGCTCGACGCCTCCGGCGACCCGCTGTTCGGCCTGCACGCGGCACGCTTCGTCCAGCCCGGCTCTTGGAGCGTGCTCGGTTACATCACGATGAACTGCGCCACCCTGGGCGAGGCCATGAGCCGCATCGTCCCCTACGAAAAGCTGGTGGGCGACATGGGCGTCAGCCGGGTGGAGGCCGCCGTCGATCATGTGCGGCTGATCTGGACCTGCCGCCACCGGCCTGCGGAAATCCGCCGGCACATGGTAGAGAACGTGCTCGCATCCTGGCTGCTTTACGCCCGCTGGATCGCCGACATGGAGCGCTCGCCACGGGAGGTCTGGTTCGAACACGCGCGACCGGAGGCCGCACCACTCGCGGAGTACGAGGCGATCTTCGGATGCCCGGTGAAATTCGAGCAGAGCTGCAACGCCCTGCTGGTGCCGCTGGAGTACCTGGGGATTCCTCTGCGCCAGGCCGACGCCAACCTGCTGCGCACCCTGGAAGAACATGCCCTGACGCTGATGGCCGGGCTGGACGACGACGAACCGTTGCCGCTACGGGTGAAGAACGCCCTGCGCCTGCTGCTGAAGGACGGCCTGCCGCGCAAGGAACGCGTCGCCGAGCGTTTCGCCATGACCGTGCGGACCCTGCAACGTCACCTGCAACAGGCCGGCACCAGCTACCAGGAAATCCTCGACCGGCTACGCCAGGAACTGGCCGAGCACTACCTGCTGCGCAGCGACCTGCCGATCCAGGACATCGCCCACTACCTGGGCTTCACCGAACCCCGCTCGTTCCACCGCAGCTTCAAGGGCTGGACCGGCATGACACCGGGGGAATTCCGCGAAAGCCGACGACAGACCTCATAA	MHSLGHTSVPALLKYLRLAEHLCLDQDAALAAAGLSATDLADNSRRVSGEAHERLLGHLLDASGDPLFGLHAARFVQPGSWSVLGYITMNCATLGEAMSRIVPYEKLVGDMGVSRVEAAVDHVRLIWTCRHRPAEIRRHMVENVLASWLLYARWIADMERSPREVWFEHARPEAAPLAEYEAIFGCPVKFEQSCNALLVPLEYLGIPLRQADANLLRTLEEHALTLMAGLDDDEPLPLRVKNALRLLLKDGLPRKERVAERFAMTVRTLQRHLQQAGTSYQEILDRLRQELAEHYLLRSDLPIQDIAHYLGFTEPRSFHRSFKGWTGMTPGEFRESRRQTS				NA	NA	NA	NA	NA
BMS010_07597	1605			hypothetical protein	ATGCGACGCTGGAACGGCTGGGGCGACGAGGCAACGGTGGTCGAGCTGCCGGCAGGCGGCGCGGATTTTCTCGCCGCGCGGATCGGCAGTGGGCGGCCCCTGCGGGACGCCAGCCTGGAGAGCGTGCTGGCGCGTGTGCCGGCTTCGCGCCTGGAAGCTCATCCGCTGATTACCACCCGCGCCGAGGACCGGGTGCGCCACGCGCGCGGGCAGAGCCTGCCGGACTGGCTGGCGATGCGCGAAGGCGACTTCGGTGTGTTCCCGGACGGGGTTGCCTACCCGGAGAGCGCCGAGGACATCCGCAAGCTGCTGGCCTGGGCCGAGCGTCAGAATCTGGTCCTGATCCCCTACGGTGGCGGCACCTCGGTGGCCGGGCATATCAACCCCGAAGCCTCGACCCGGCCGGTGGTCAGCCTTTCCTTGGAGCGGATGAACCGCCTGCTGGAGCTGGACGAAGAGAGCCAGATCGCCCGTTTCGGTCCGGGTGCCAATGGCCCCCAGGTTGAGAGTCAGTTGCGTGCCCGTGGTTTCACCCTCGGGCATTTCCCGCAATCCTGGGAACTCTCCACCCTCGGCGGCTGGGTGGCCAGTCGTTCCAGCGGTCAGCAGTCCCTGCGCTACGGGCGGATCGAGCACCTGTTCGCCGGCGGGATTCTGGAAACCTTCGCCGGTCCGCTGGAAATTCCCACCTTTCCGGCCTCGGCGGCCGGTCCCGACCTGCGCGAACTGGTGCTGGGCTCGGAAGGGCGTTTCGGCGTGATTTCGGAGGTCCGTGTGCGGGTTTCGCGGCTGGCCGAGCGGGAGGCGTTCTACGGGGTATTCTTGCCGGACTGGTCGCGGGCGCTGCAGGCCGTGCGCAGCCTGGCCCAGGAGCGGATGCCGCTGTCCATGCTGCGCCTGTCCAACGCGCTGGAGACCGAAACCCAACTGGCCCTGGCCGGGCATCCCGGCCGTATCGCCCTGTTGGAAAAGTACCTGGGCTGGCGCGGCGCGGGCGCCGGCAAATGCCTGCTGACCTTCGGCGTCACCGGTAGCCGCGTGCAGACGGCCAATGCCCTGAAGCAGGCGCGGCAGTTGCTGAAAGCGTTCGGCGGGGTGTTCACCGGTACCCTGCTCGGCGCGAAGTGGGCCGAGGGCCGTTTCCGCTTCCCGTACCTGCGCGAAAGCCTGTGGCAGGCGGGCTACGCGGTGGACACCCTGGAGACGGCTACCGACTGGTCGAACGTCGATGCGCTGTTGCTTAAGGTCGAGCGCAGCCTGAACGATGCCCTGGCGGCGGAAGGCGAGCGGGTTCACGTGTTCACCCACCTTTCCCATGTCTACGGCGAGGGCTCCAGCCTCTACACCACCTATGTGTTCCGCCCGGCAGCCAGCTACGCCGCGACTCACGAGCGCTGGCGCCGGCTCAAGCAGGCGGCCAGCCGGACCATCGTGGAAAACCGCGGCACCATCAGCCACCAGCATGGCGTCGGCCGCGATCACGCGCCCTACCTGCCGACGGAAAAGGGACCGCTGGGAATGGCGGCGTTGCAGGCGCTGGCAGCGCATTTCGACCCGCAGCGCCGGCTCAACCCCGGCGCCTTGCTGCAAGACGGCGACGCATGA	MRRWNGWGDEATVVELPAGGADFLAARIGSGRPLRDASLESVLARVPASRLEAHPLITTRAEDRVRHARGQSLPDWLAMREGDFGVFPDGVAYPESAEDIRKLLAWAERQNLVLIPYGGGTSVAGHINPEASTRPVVSLSLERMNRLLELDEESQIARFGPGANGPQVESQLRARGFTLGHFPQSWELSTLGGWVASRSSGQQSLRYGRIEHLFAGGILETFAGPLEIPTFPASAAGPDLRELVLGSEGRFGVISEVRVRVSRLAEREAFYGVFLPDWSRALQAVRSLAQERMPLSMLRLSNALETETQLALAGHPGRIALLEKYLGWRGAGAGKCLLTFGVTGSRVQTANALKQARQLLKAFGGVFTGTLLGAKWAEGRFRFPYLRESLWQAGYAVDTLETATDWSNVDALLLKVERSLNDALAAEGERVHVFTHLSHVYGEGSSLYTTYVFRPAASYAATHERWRRLKQAASRTIVENRGTISHQHGVGRDHAPYLPTEKGPLGMAALQALAAHFDPQRRLNPGALLQDGDA				NA	NA	NA	NA	NA
BMS010_07598	1596	glpD_2		Aerobic glycerol-3-phosphate dehydrogenase	ATGAACGCCTGGAATGCCGCTTGGCGAGACGCGGCCCTGCCCGGGCTGGCCGCCTGCGAATGGGACCTGCTGGTGATCGGCGGCGGCATCACCGGCGCCGGTATTCTCCGCGAGGCGGCCCGGCGCGGCTGGCGCTGTCTGCTGCTGGAGCAGCGCGATTTCGCCTGGGGCACTTCCAGCCGCTCGTCGAAGATGGTGCACGGCGGGTTGCGTTACATCGCCAAGGGCCAGTTTCGTCTCAGCCGCGATTCGGTGCGCGAGCGCCAGCGCCTGTTGCACGAGGCGCCGGGGTTGGTGGAGCCGTTGAGCTTCCTGATGGCACATTACCGGGGCGGTTTTCCCGGACCCAGGGTGTTCGGTGGGTTGCTGGCGCTGTACGACGCCCTGGCCGGCAAGCGCAACCATCTCTACTACCCGTTGCAACAACTCCGGTATCTGGCGCCGGGATTGAGGGAAGAAGGGCTGCTCGGCGGCACGCGCTTTTTCGATGCGGTGACCGATGACGCCCGGCTGGTTCTGCGTGTGCTCGGCGAGGCTCGGGCCGAGGGCGGCGAGGCGCTGAACGGCGTCCGTGTGGTGACGTTGCATCGCGAGGCGGGGCGGGTCTGCGGGCTGCTCGCCGAGGACCGCGAAAGCGGCCGCTGCTTTACCTTCCGGGCAAAGGCGGTAGCCCAGGCCACCGGCGTCTGGTGCGAACGGCTGCACCCGTCGGCCGACGGCACGCGCATTCGTCCACTGCGTGGCAGTCACCTGTTGTTGCCGGGGTGGCGGTTACCGCTGGCCCATGCCTTCAGCTTCATGCACGCCGCGGATGGCCGCCCGGTGTTCGTCTTTCCCTGGGAAGGGGCTACGGTGATCGGAACCACCGATCTCGATCATGGCGAGGATCTGGATAGCGAAGCGCGCATCACCCCGGCGGAGGTGGATTACCTGCTGGCCGCCTGTGCCCAGGAGTTTCCCTCCGCAAATATCGGGCGGGACGACGTGCTGTCGACCTGGGCCGGTGTGCGTCCCGTGGTCAGTGACGGCGACCTGAACCGCACGCCCTCGGCGGAAAATCGCGAGCATGCGTTGTGGGTGGAGCCCGGCCATGTGACCCTGGCCGGCGGCAAGTTGACCACCTTCCGCCTGCTGGCGCTGGATGTGTTGCGGGCTTGCGCGCCGTTCGTGGGGCGAGCGGTGGCGGAGGATGGCGGGGCGGTGTTCGGCCCGGTGCCGCCGGTGGAGGTGCCCATGCTGTCTCCAGCTCTGCGTGCGCGACTGGTGGGGCGCTACGGGCTGGAGATGCCGGCCTTGGTCCGATTGATCGAGAGCCTTGGCACCGAGCGGGTGGGGACGACCGAGACGCTGTGGGCCGAGCTGGTCTTCGCCTGCGAGCGGGAGCTGGTGCTGCATCTGGATGATCTGCTGCTGCGCCGCACCCGCGTCGGGCTGCTGCTGGCCAATGGTGCCGCTGCTGAGTTGCCGCGCGTGCGCGCCCTGTGCCAGGCACGGTTGGGCTGGGACGATGCGCGCTGGCAGGTCGAGGAAGAGGCGTATCGGGCGCTGTGGCGGAGGAGCTACAGCCTGCCGGACGGCGAGGAGCCGTTGTCTTGA	MNAWNAAWRDAALPGLAACEWDLLVIGGGITGAGILREAARRGWRCLLLEQRDFAWGTSSRSSKMVHGGLRYIAKGQFRLSRDSVRERQRLLHEAPGLVEPLSFLMAHYRGGFPGPRVFGGLLALYDALAGKRNHLYYPLQQLRYLAPGLREEGLLGGTRFFDAVTDDARLVLRVLGEARAEGGEALNGVRVVTLHREAGRVCGLLAEDRESGRCFTFRAKAVAQATGVWCERLHPSADGTRIRPLRGSHLLLPGWRLPLAHAFSFMHAADGRPVFVFPWEGATVIGTTDLDHGEDLDSEARITPAEVDYLLAACAQEFPSANIGRDDVLSTWAGVRPVVSDGDLNRTPSAENREHALWVEPGHVTLAGGKLTTFRLLALDVLRACAPFVGRAVAEDGGAVFGPVPPVEVPMLSPALRARLVGRYGLEMPALVRLIESLGTERVGTTETLWAELVFACERELVLHLDDLLLRRTRVGLLLANGAAAELPRVRALCQARLGWDDARWQVEEEAYRALWRRSYSLPDGEEPLS	PGPT0006775_3416	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0006775-glpA|glpD-K00111	NA	NA
BMS010_07599	1560	xylB_3	COG1070	Xylulose kinase	TTGAGCGAAACGAGCTACCTGCTGGCCATCGACAATGGCACCCAGAGCGTGCGAGCGCTGTTGTTCGACCTCGCCGGCAACCTGATCGGCAAGGGCCGGGTGGAGCTGGAGGCGTATTACTCCACCCAGCCGGGCTGGGCCGAACAGGACCCGGAATATTACTGGCAATGCCTGGGCGAGGCCTGTCGGCGGCTGTGGCAGCAGGTGGATATCGACCGGCGCCTGATCAAGGGCGTCTCGCTGACCACCCAGCGTGGCACGGTGATCCATGTGGACGAGCAAGGGCGGCCGCTGCGTCCCGCGATTCTCTGGCTGGACCAGCGCCGGGCCGAGGTGCGCGAGCGGATCAAAGGCCCTTGGGGCTGGCTGTTCACGCTGATCGGCGCCGAGGCGACGGTGAATCACTTCCGTGGCCAGGCGGAGATCAACTGGGTGGCTCAGCATCAGCCGGAGGTGGCGGCGCGGACGCATAAGGTGTTGCTGCTGTCCGGCTTTCTTACCCATCGGCTGGTCGGTGCCTTCGTCGATTCGGTGGGTTGTGCGGTGGGCTACCTGCCGTTCGACTACAAGCGGCTGAAATGGGCCGGACCGGGCGACTGGAAGTGGCAGGCGCTGGCGGTGCGGCCCGAGCAACTGCCCACCTTGCACAAACCAGGAGAACGGCTCGGGGCGATCACGGCCGAGGCCGGCCGGCACCTGGGCGTTCCGGAAGGGCTGCCGCTGATCGCCGCCGGTTCCGACAAGGCTTGCGAAGTGCTCGGTGCCGGTGGCGAGCAGCCGGACATCGCCTGCCTGTCCTATGGCACCACGGCGACCATCAACACCACCCGTACCCGCTACCTGGAGACCATTCCGCTGATTCCGCCCTATCCGGCGGCGATGCCGGATCGCTACAACACCGAGGTGATGATCTACCGCGGCTTCTGGATGGTCAGCTGGTTCAAGCAGGAGTTCGGTCTGCGCGAGATGCAGCAGGCGCTGGAGCTGGGCATCGAGCCGGAGACGCTGTTCGACGAGTTGGTCGACAGCGTGCCGCCGGGCTCCATGGGCCTGCTGCTGCAACCCTACTGGACCCCCGGTATCCGCGAGCCGGGTCTGGAGGCGAAGGGCTCGATCATCGGTTTCGGCGACGTGCATGGCCGCGCGCACCTGTACCGCGCCATTCTCGAGGGGTTGGCCTACGCCCTGCGCCAGGGCAAGGAGCGCATCGAGCAGCGCTCGGGGACGCGGATCAGCCGTTTGCGCGTCTCCGGCGGCGGTTCGCAGAGCGATGCGGCGATGCAGTTGACCGCCGACATCTTCGGCCTGCCGGCGGAGCGGCCGCATACCTACGAAACGTCCGGGCTGGGCGCGGCCATCGCCTGTGCCGTGGGCCTTGGCCTGCACCGGGATTTCCCCACCGCTATCGCCGCCATGACCCGCGTGGGCCAGGTGTTTCAGCCGAATGCCGAAGCGCAGCGCACCTACCAGCGGCTCTATCGTGAGGTCTACCTGCGCATGTACCGCCAATTGCGCCCGCTGTACCGGAGCATCCGTGAGATCACCGGCTATCCGGCCTGA	MSETSYLLAIDNGTQSVRALLFDLAGNLIGKGRVELEAYYSTQPGWAEQDPEYYWQCLGEACRRLWQQVDIDRRLIKGVSLTTQRGTVIHVDEQGRPLRPAILWLDQRRAEVRERIKGPWGWLFTLIGAEATVNHFRGQAEINWVAQHQPEVAARTHKVLLLSGFLTHRLVGAFVDSVGCAVGYLPFDYKRLKWAGPGDWKWQALAVRPEQLPTLHKPGERLGAITAEAGRHLGVPEGLPLIAAGSDKACEVLGAGGEQPDIACLSYGTTATINTTRTRYLETIPLIPPYPAAMPDRYNTEVMIYRGFWMVSWFKQEFGLREMQQALELGIEPETLFDELVDSVPPGSMGLLLQPYWTPGIREPGLEAKGSIIGFGDVHGRAHLYRAILEGLAYALRQGKERIEQRSGTRISRLRVSGGGSQSDAAMQLTADIFGLPAERPHTYETSGLGAAIACAVGLGLHRDFPTAIAAMTRVGQVFQPNAEAQRTYQRLYREVYLRMYRQLRPLYRSIREITGYPA				NA	NA	NA	NA	NA
BMS010_07600	927	yegS	COG1597	Lipid kinase YegS	ATGAGCGAACGCAGGGCATGGCTGATTCTGCATGGCAAGCAGGCCACCAACGACGAGGTGCGCGCGGCGGTGCAGACCCGTCGGGAACAGGGCTGGGATCTGGCGGTGCGTTTGACTTGGGAGCCGGGGGACGCCCAGCGGCTGGTGGCCGAGGGGTTGCAGGCGGGGTATCCGATCATCGTCGCCGGGGGCGGCGACGGCACCTTGCGCGAGGTCGCCGAAGCCCTGGCGAATGCCGGCGGCCAGGCCAGCCTGGCGCTGTTGCCGCTGGGCACCGGCAACGATTTCGCCCGTGCCGCCGGCATGGTGCTGCCGCCGGATGAGGCGCTGGCCGTGCTCGATCGGCCCGCCGTGCCGGTGGACCTGGGGCAGGTGGATGGCCAACTGTTCCTCAACATGGCGACCGGCGGTTTCGGCTCGAAGATCACCGCCAACACGCCGGAGGAGCTGAAAAAGTTGCTGGGCAGTGCCGCGTATTTCCTCACCGGCCTCAGTCGTTTCCCCGAGGTCCATGCGTCGTTCGGCCGTTTTCGCGGGCCGGATTTCGAGTGGGAAGGGGAGTTCTTAGCCCTGGGAATCGGCAATGGCCGGCAGGCCGGCGGCGGCCATGTGCTCTGCCCACAGGCGGTGGTCGACGATGGTTTATTGGACATCTGCATCGTGCCGGCGCCGCAGGACATCCCGGCGACACTGGGAACCCTGCTTTCAGGGGGCATCCTCGGGTTGGAAACGGTGTCGGTCTGCGCACGCCTGCCTTGGATCGAATTGGACGCGCCGGAAGGGTTGGCGCTGAATCTCGATGGCGAGCCGATGCAGAGCACGCACCTGCGCTTCGATGCCAGGCCGGCGGCGCTGCGCATGCACCTGCCGGAGGGCTGCCCGGTGCTGAGTCGGGTGTTGCAGGTGGTGGAGCCTGCGCCGCAGTAG	MSERRAWLILHGKQATNDEVRAAVQTRREQGWDLAVRLTWEPGDAQRLVAEGLQAGYPIIVAGGGDGTLREVAEALANAGGQASLALLPLGTGNDFARAAGMVLPPDEALAVLDRPAVPVDLGQVDGQLFLNMATGGFGSKITANTPEELKKLLGSAAYFLTGLSRFPEVHASFGRFRGPDFEWEGEFLALGIGNGRQAGGGHVLCPQAVVDDGLLDICIVPAPQDIPATLGTLLSGGILGLETVSVCARLPWIELDAPEGLALNLDGEPMQSTHLRFDARPAALRMHLPEGCPVLSRVLQVVEPAPQ				NA	NA	NA	NA	NA
BMS010_07601	645	nreC	COG2197	Oxygen regulatory protein NreC	ATGACCTGCCGCGTGTTGCTGGCTGACGATCACGCGGTCATCCGCGCCGGCGTGCGCGCGATGATCCAGGACATCGACGACTTCACCATCGTCGGCGAAGCCGAGGACGGCAAGGAAACCGTCGAAATGGCTCGCGAACTGGAGCCCGACATCATCCTGCTGGATATCTCGATGAAGAAAGTCAGCGGCCTGGAAGCCCTGCAAGCGCTCAACCGCCATTCGCCGGAGTGCAAGGTGCTGATCCTGTCCATGCACACCGGCCCGGAAGTGGTGCTCGAAGCCTTGCAGAAAGGCGCCCACGGCTACCTGCTCAAGGATGCCGCCGCCTACGAGCTGCGCCTGGCCCTGGAGGCGGTCCGGCGCGGCGACCGCTACCTCAGCTCGGCTATCGTGCAGCCGGTGATCGAGCAGGCGGTGTCGAAGGTCAACTCGAACGCCGAACACACCCTCACCCAGCGCCAGCTGGAAATCCTCCGCCTGATTACCCGTGGCGAATCGACCCGCTCCATCGCCAACGGCCTGGGGTTGAGCGTCAAGACAGTAGAGGCGCACCGGGCGCAGATCATGAAGCGCCTGCAGATCCACGACGTGCCCGGGCTGGTGCTGTATGCCGTGCGAGAAGGGATCATCAGCCCGGACGATTGA	MTCRVLLADDHAVIRAGVRAMIQDIDDFTIVGEAEDGKETVEMARELEPDIILLDISMKKVSGLEALQALNRHSPECKVLILSMHTGPEVVLEALQKGAHGYLLKDAAAYELRLALEAVRRGDRYLSSAIVQPVIEQAVSKVNSNAEHTLTQRQLEILRLITRGESTRSIANGLGLSVKTVEAHRAQIMKRLQIHDVPGLVLYAVREGIISPDD	PGPT0014870_5	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG-CELL_WALL-ACTIVE_ANTIBIOTIC_RESISTANCE,PGPT0014870-liaR-K11618	NA	NA
BMS010_07602	1101	cheB_14	COG2201	Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGCCTACCGCTCCGTTGATCAAGGTCTTTATCGTCGATGACTCGGCGCTGGTACGCCAGGTGCTGACCGCCTGCCTGGACAACCACCCGGGCATCCAGGTGATCGGCCAGGCCGCCGACCCCCTGTTCGCCCTGGAAAAGATGCGCAAGCAGTGGCCCGACGTGCTGGTGCTGGATGTCGAGATGCCACGCATGGACGGCATCACCTTCCTGCGCAAGCTCATGGCCGAGCGGCCGACGCCAGCGATCATCTGCTCGACCCTCACCGAAGCCGGCGCGGCGGTGACCCTGGATGCGCTGGCGGCCGGTGCCGTGGGCATCTTCACCAAATCCAGGCTGGGACTGCGCGAAAGCCTGCAACAGATGTCCGGCGACCTGATCCGCCAGATCGAGGTCGCCGCCCGTAGCCAGCCCCGTGCGATGCCGCGAAAAGTGGCCGAGCAGCCGGTCCCGGCGAACACGGAGAAGCCCTCGCCCGTCAACCTGACCACCACCGACCGGGTGGTGGCGCTGGGCACCTCGACCGGCGGCACCCAGGCATTGGAAGTGGTGCTGCGCCAGTTGCCGGTGGGCTGCCCCGGCATCGTCATCGTCCAGCACATGCCGGAGAAGTTCACCGCCGCCTTCGCCCAACGGCTGAACAGCGTCTGCGCCATCGAGGTGCGCGAGGCCAAACACATGGATCGCGTGCGTCCGGGGCTGGCGCTGGTGGCGCCGGGCGGCAAGCACATGCAGCTCCAACGCAGCGGGGCGCAGTATTTCGTCGAAGTGCTCGACGGCCCGCCGGTGAACCGCCACAAGCCCTCGGTGGACGTGCTGTTCCGCTCCGTCGCACGGCACGCCGGGCACAACGCCCTGGGCATCATCATGACCGGCATGGGCGACGACGGTGCTCGCGGCCTGTTGAGCATGCGCGAGGCCGGCGCACGCACCGTGGCCCAGGACGAAGCCAGTTGCGTGGTGTTCGGCATGCCTAAGGAAGCCCTGCGCATGGGTGCGGCGGACAGCACCGAGTCGCTGCAAGGCATCCCGCGCCTGATCGAGCAGTACGGACGCGCCGATCTCCACGCCGTCGCCCAGGCCAACAAGCGCTCGGGCTGA	MPTAPLIKVFIVDDSALVRQVLTACLDNHPGIQVIGQAADPLFALEKMRKQWPDVLVLDVEMPRMDGITFLRKLMAERPTPAIICSTLTEAGAAVTLDALAAGAVGIFTKSRLGLRESLQQMSGDLIRQIEVAARSQPRAMPRKVAEQPVPANTEKPSPVNLTTTDRVVALGTSTGGTQALEVVLRQLPVGCPGIVIVQHMPEKFTAAFAQRLNSVCAIEVREAKHMDRVRPGLALVAPGGKHMQLQRSGAQYFVEVLDGPPVNRHKPSVDVLFRSVARHAGHNALGIIMTGMGDDGARGLLSMREAGARTVAQDEASCVVFGMPKEALRMGAADSTESLQGIPRLIEQYGRADLHAVAQANKRSG	PGPT0015650_2098	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015650-cheB|chpB|wspF-K03412	NA	NA
BMS010_07603	813	cheR_2		Chemotaxis protein methyltransferase	ATGATGTCCAGCAGCCATCTGCCCAAGCTCAGCGACCAGGACTTCCGTTTCCTCCAGCAATTGATGCTGGAGGAATCCGGCATCCGCATGGCCGAGCAGAAGCGCACCCTGATGGCCGGGCGCCTGATGGGTCGCCTGCGGGCCCTGGAGCTGCGCGACTACAGCCAGTACCTGCGCCTGCTGACGCGGCCCGAATCGCGCGAAGAACGGCGCACGGTGATCGACCTGCTGACCACCAACGAGACCTACTTTTTCCGCGAACCCCAGCACTTCACCGTGCTCGGCGACTGGGTGGCCGCGCAACGGCGCCCGCTGCACATGTGGAGCGCCGCCAGCTCGTCCGGTGAGGAAGCCTTCAGCATGGCCATGACGGTCGCGGAGAACGCCCGCACCCAGGACTGGTCGATCTTCGCCAGCGACATCAGCCGCCGCGTGCTGGAACGCGCGCGCAGCGCCACCTACTCCATCGACCAGGCTGGCCAGTTTCCCCCGGGCTGGCTCAAGCGCTACTGCCTGCGCGGCGTGGAGGAAAGCGAGGGGCTGCTGCGCATCAACCAGCCACTCCGCCACCGGGTGACCTTCGCCGAGGTCAACCTGATGCGCCCCCTGCCCCAGGAAATCGGCCCATTCGACGTGATCTTCCTGCGCAACGTGCTGATCTACTTCGCCTCCGAACAAAAACGCGCGATTGCCGTCCGCCTGCTGGAGCGTTTGCGCCCCGGCGGCCTGTTCTTCATCGGTCACGCCGAAAGCCTGCATGGCTTCGACCTGCCGCTACGTACCGTGCGCCCGTCGGTGTTCGAGCGCCTATGA	MMSSSHLPKLSDQDFRFLQQLMLEESGIRMAEQKRTLMAGRLMGRLRALELRDYSQYLRLLTRPESREERRTVIDLLTTNETYFFREPQHFTVLGDWVAAQRRPLHMWSAASSSGEEAFSMAMTVAENARTQDWSIFASDISRRVLERARSATYSIDQAGQFPPGWLKRYCLRGVEESEGLLRINQPLRHRVTFAEVNLMRPLPQEIGPFDVIFLRNVLIYFASEQKRAIAVRLLERLRPGGLFFIGHAESLHGFDLPLRTVRPSVFERL	PGPT0015670_3795	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015670-cheR|pilK-K00575	NA	NA
BMS010_07604	510	cheW_4	COG0835	Chemotaxis protein CheW	ATGAATCTGCCTCAGATCGTCAAAGCGGAGATGCCGCTGGCGAGCATCCAACATCTGTCGTTCCGCGTGCGCCAGGCGCGCTATGCGCTGCCCATCGAACTGGTTCGGGAAATCATCGAGTACGGGCAGATCACCACCGTGCCGATGATGCCGGCCTTCATCCACGGCGTGATCAACCTGCGCGGTAACGTGGTGCCGGTGCTCGACCTGGCGGCACGCTTCGGCTTCGAACTGACCGAACCGGGCAAGCGCACCTGCATCGTCATCATCGAACTGGAACTGGACGACCAGCAGCAACGCATCGGCCTTGTGGTCGATGCGGTGGACGCCGTGCTCGACATCGACAGCAGCGAAGTAGAGCCGGCGCCGCCGTTCGGCGCCGGCATCCGCACCGACTTCATCGCCGGCATGGCCCGCGACGAACGCGGCTTCACCATCATCCTCGATGTAAGGCGGGTGCTCTCGCTCGACGATATCCGCCAGTTGAGCCTTACCCAACAGGCCAGCTGA	MNLPQIVKAEMPLASIQHLSFRVRQARYALPIELVREIIEYGQITTVPMMPAFIHGVINLRGNVVPVLDLAARFGFELTEPGKRTCIVIIELELDDQQQRIGLVVDAVDAVLDIDSSEVEPAPPFGAGIRTDFIAGMARDERGFTIILDVRRVLSLDDIRQLSLTQQAS	PGPT0015680_2045	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015680-cheW-K03408	NA	NA
BMS010_07605	1647			hypothetical protein	ATGCAATTCATCCGCAACCTCAAGATCGGCGTCCGCCTGATCGCTGGCTTTACCCTGGTGGTGATTCTCACGCTCACCGTCGGGCTGATGGGCATCGCCAGCCTGGCGCAGGTCAACGATCTTTCCGACAGCATGTACAACCGCGAGATGCTCGCGCTGAACGACATGCAGAACGCCAACATGCAACTGATCTACGCCGGTCGCTCGATCCGCAGCGCGTTGCTGGCCACCAGCATCGAGGAACGCGACCGCTCCATGGAGCAGGCCCGCCAGGCGTTCAAGAACATGCATGCGTTCATCGACAAGGCCGCCTTCAGCTTCTCTTCGCCGGAAGCCAAGGCTCTGTTCGAAGCCATGAAGGAACCGATGGCCAACTACGAACGCACCGCCAACGAGGTCCTCAATACCCACGCCGCCACCGGCTCGCTCGCCGAAGCCAGTTCGGTCACCACCCTCCTGCCGCGGATGCGCGAAGAAGGCCAGCGCGTGGACGACACCATGACCACCCTGGTGGAGCGCAAGCTGCAACGCGCCAAGGAAGCCAACGACGAAATCACCCGTATCTACCTCTCCTCGCGCACTGAACTGATCGGCCTGGTGGTCATCGCTTCGCTGCTCGGCTTCGCCATCGGCGTCCTCGTCACCCGCAGCATCACTCGTCCGCTCAACCGGGCGGTCAGTGTGGCCGATAGTCTGGCCGCCGGCGATCTCGGGGTACAGGTCGAAGTGGACAGCAAGGACGAGACCGGCAAGCTGCTCGCCGCCATGAAACACATGACCGAGCGCCTGCGTAACATCATCGGCGACGTGCGCAGCGCGGCCGACTCGCTCTCCTCCGCCTCGGAAGAAGTCAGCGCCACCTCGCAGTCCCTCAGCCAGGCTGCCACCGAACAGGCCGCCAGCGTCGAGCAGACCAGCGCCTCGGTGGAGCAGATGTCGGCGTCCATCGCGCAGAACACCGAAAGCGCCAAGATCACCGACGGCATCGCCGGCAAGGCGGCCAACGACGCCGTCGAAGGCGGCCGTGCAGTACGCGACATGGTGGTTGCCATGAAACAGATCGCCGACAAGATCGGCATCATCGACGACATCGCCTACCAGACCAATCTGTTGGCCCTGAACGCCGCCATCGAGGCCGCCCGCGCCGGCGACCACGGCAAGGGCTTCGCCGTGGTCGCCGCAGAAGTGCGCAAGCTGGCCGAGCGCAGCCAGGTCGCCGCGCAGGAAATCGGCGGCGTGGCGAGCAACAGCGTGCACCTGGCCGAACAGGCCGGCTCGCTGCTCGACCAGATCGTGCCGAATATCCAGAAGACCTCCGACCTGGTACAGGAAATCACCGCCGCCTCGCAGGAGCAGAGCAACGGTGCCGGGCAGATCAACATCGCCATGAGCCAGATGAACCAGATCACCCAGCAGAACGCCTCGGCTTCCGAGGAGCTGGCAGCCACCGCCGAAGAGATGAACGCCCAGGCCGGTCAATTGCAGGAGTTGATCAGCTACTTCCGCCTCGACGCCAGCAGCGCCCGCGAATCGCACCACACGCCACGCCGCGAGCCGGCACGCAGCGAGGTGGTCCGCCGTAGCGAACGCAAGCCGTCGGCCGCCCACCTGATGGCCGACGAAGGCCAGTTCGTCAGCTTCAACTGA	MQFIRNLKIGVRLIAGFTLVVILTLTVGLMGIASLAQVNDLSDSMYNREMLALNDMQNANMQLIYAGRSIRSALLATSIEERDRSMEQARQAFKNMHAFIDKAAFSFSSPEAKALFEAMKEPMANYERTANEVLNTHAATGSLAEASSVTTLLPRMREEGQRVDDTMTTLVERKLQRAKEANDEITRIYLSSRTELIGLVVIASLLGFAIGVLVTRSITRPLNRAVSVADSLAAGDLGVQVEVDSKDETGKLLAAMKHMTERLRNIIGDVRSAADSLSSASEEVSATSQSLSQAATEQAASVEQTSASVEQMSASIAQNTESAKITDGIAGKAANDAVEGGRAVRDMVVAMKQIADKIGIIDDIAYQTNLLALNAAIEAARAGDHGKGFAVVAAEVRKLAERSQVAAQEIGGVASNSVHLAEQAGSLLDQIVPNIQKTSDLVQEITAASQEQSNGAGQINIAMSQMNQITQQNASASEELAATAEEMNAQAGQLQELISYFRLDASSARESHHTPRREPARSEVVRRSERKPSAAHLMADEGQFVSFN	PGPT0015710_19224	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_07606	2217	cheA_2	COG0643	Chemotaxis protein CheA	ATGCTCAATGGAGATCAATGGAGCCAACTGCTCCAGGGCTTCATCGAAGAAGCCAGCGACCTGATCAAACAGGCCGAGGAATACCTGCTGCAGCTCGACCAGACGCCTGACGACGAAGACGCCATCAATGGCCTGTTCCGCGCCATGCACACCCTCAAGGGCTCGGCCGGGCTGTTTTCCCTGACGCCCCTGGTCAGCTTCACCCATCACCTGGAAAGCCTGCTGATGGCGGTGCGCGACGGTCAACGCACGCTGACGCCGCCGCTGGTCTCGCTGATGCTGCGCTGCCTGGACGAAGTCGCCTCGATGGTCTCCCTGATCGACATCGACAGCGGCGAACTGCCAGTGGACGAAGCCCACCAGAACGAACTGCTCGCCGCCCTCGCCGAGCACAGCGGGCAGGCCGTGGAACAGATTCCCGCCACCCAGGTCGCCGCTCCTTCCCCCTGCCCGAACCGCGGGCGCCTGGAAAAGTGCGCCAACTGCGATGCCGACGGCGCCTGGCACATTTCCCTGCGCTTCCACCCCGACCTGTTCCGCAACGGCTTCGATCCGGCGGCGTTCATCCGCTACCTGAACCGCCTGGGCGACATCCTGCACCTCGACGTGATCGACGCGAGCCTGCCGTCGTTCAGCGAGATGGACCCGGAAAGCTGCTACCTGGGCCTCGAGATCGACCTTTGCACCGACGCCAGCAAGGCGGAGATCGAAGAAGTCTTCGAGTTCATCCACGACTTCTCCACCCTGCGCATCCTGCCGCCGAACAGCGCGCTGGAGGACTACCTGCAACTGATCCACGAGCTGCCGGAAACCGACCAGCGCGTCGGCCGCATCCTGGTCGCCAGCGGCCTGCTCACCGAACACGAACTGGAGCAAGGGCTGGCATTGCAGGCCCAGGCCAGCGAGCAGAAACCGCAGCTCGGCAGCGTCCTGGTCGAGGAAGGCATGGTCGCCCCGCAGGCGGTCAACGCCGCCCTGGCCAAACAGCAATCGGCGCGCGAGAAGCGCAGCCTGGAAAGCAGCCAGATCCGCGTCGCCGCGCACAAGCTGGACGAACTCATCAACCTGGTCGGCGAGCTGGTGATCAGTGCCGCCGGCGCCCAATTGCGCGCCCAGTCCCATGGCGATGCCGGCTGCGTCGAGACCACCCAGACCGTCAACCAGCATGTCGAACTGATCCGCGAGGCCGCGCTGAAGCTGCGCATGATCGAGATCGGCGACACGTTCAACCGCTTCCACCGGGTGGTGCGCGACGTCAGCCAGCAGCTCGGCAAGAACATCCGCCTGGAAATCCGTGGCGCCGACACCGAGCTGGACAAGTCGGTGATCGACAAGCTCGCCGACCCGCTCACCCACCTGGTGCGCAACGCCATCGATCACGGCATCGAATCGGCCGAGGATCGCCTCGCCGCCGGCAAGCCGGCCGAGGGCCAGCTCCAGTTGAACGCCTACCACGAGTCGGGCCAGATCGTCATCGAAGTGGCCGACGACGGACGCGGGCTGAACACCGAGCGCATCCGCCAGAAGGCCATCGACCGGGGTCTGATCGATCCGCAGGCGAATCTCGCCGAGCACGACATCCACGCGCTGATCTTCGCCGCCGGCTTCTCCACCGCCGACAACGTCTCCGACCTGTCCGGTCGCGGCGTCGGCATGGACGTGGTGCGCAGCGTGATCGACGGTCTGCGCGGCAGCATCGAGATCGACTCGGTGCTCGGCGCCGGCTGCACCTTCCGCATCCGCCTGCCGCTGACCCTGGCGATCATCGACGGCTTCCTGATCAGCCTCGGCGAGGAATACTTCGTCGTGCCCCTGGACATGGTCACCGAATGCCTGGAGATGGACGCCGGCCAGCTCGGCGACAGCGCCTATGGCTACCTCAACCTGCGCGGCAAACCCCTGCCGTGCATTTCCCTGGCCGCGCACTTCGACCTGCCGGCCAGCCGCAGCAAGCGCCGCAATATCGTCGTGGTCAACCAGGGCCGGCAACAGGCCGGGCTGGTCGTCGACAACCTGCACGGCGAGCTGCAAACCGTAATCAAGCCGCTCGGCCTGCTGTTCCAGCACCTGCAAGGCATCGGCGGCTCGACCATCCTGGGCAACGGGCAAGTCGCCCTGATCCTGGATATCCCCAGTCTGTTCCGTCATCTGCAAAACCACGTCGAGGCCAGTGCTGGCGATCTTCGTCAACCTCGTATGGACATCAGTGGCTTCTGA	MLNGDQWSQLLQGFIEEASDLIKQAEEYLLQLDQTPDDEDAINGLFRAMHTLKGSAGLFSLTPLVSFTHHLESLLMAVRDGQRTLTPPLVSLMLRCLDEVASMVSLIDIDSGELPVDEAHQNELLAALAEHSGQAVEQIPATQVAAPSPCPNRGRLEKCANCDADGAWHISLRFHPDLFRNGFDPAAFIRYLNRLGDILHLDVIDASLPSFSEMDPESCYLGLEIDLCTDASKAEIEEVFEFIHDFSTLRILPPNSALEDYLQLIHELPETDQRVGRILVASGLLTEHELEQGLALQAQASEQKPQLGSVLVEEGMVAPQAVNAALAKQQSAREKRSLESSQIRVAAHKLDELINLVGELVISAAGAQLRAQSHGDAGCVETTQTVNQHVELIREAALKLRMIEIGDTFNRFHRVVRDVSQQLGKNIRLEIRGADTELDKSVIDKLADPLTHLVRNAIDHGIESAEDRLAAGKPAEGQLQLNAYHESGQIVIEVADDGRGLNTERIRQKAIDRGLIDPQANLAEHDIHALIFAAGFSTADNVSDLSGRGVGMDVVRSVIDGLRGSIEIDSVLGAGCTFRIRLPLTLAIIDGFLISLGEEYFVVPLDMVTECLEMDAGQLGDSAYGYLNLRGKPLPCISLAAHFDLPASRSKRRNIVVVNQGRQQAGLVVDNLHGELQTVIKPLGLLFQHLQGIGGSTILGNGQVALILDIPSLFRHLQNHVEASAGDLRQPRMDISGF	PGPT0015645_1745	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015645-cheA|wspE-K03407	NA	NA
BMS010_07607	327			hypothetical protein	ATGTTCGACGTCCGCCACGACAGCCAGCACCAGCCCGAGCGCCTGGCCCTCGTCGGCAGCCTGACCATCTACGAGGTCAGGCAGGCCCACGAGGCGCTGCTCGGCGCCCTGGTTTCTTCCGCCGAAACACGCCACTGGCTGCTGGACCTCAGCGAGCTGGAGGAGCTGGACAGCGCCGGCGCCCAGTTGCTGCTCGCCCTGCAGCGCCACCTGGCACAGCAACAGGCGCGCCTGGAAGTGACCGGCCCGGCCGGCGAGGTCCTCGGCATGCTCGAACTGCTCCGCTTGCAGCCGCTCTACCCCGACGTGCTGCCGGCGAAGGCCTGA	MFDVRHDSQHQPERLALVGSLTIYEVRQAHEALLGALVSSAETRHWLLDLSELEELDSAGAQLLLALQRHLAQQQARLEVTGPAGEVLGMLELLRLQPLYPDVLPAKA	PGPT0014350_2897	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014350-rsbV-K04749	NA	NA
BMS010_07608	366	cheY_5	COG0784	Chemotaxis protein CheY	ATGGCCAAGACCATCCTGATCGTCGACGACTCCCTCTCCATGCGCCAACTGGTGAAGATGACCCTCTCCGGGGCCGGCCACACCGTGATCGAAGCGGTTGACGGGCGCGACGCCCTGACCAAGCTCAACGGGCAGAAGATCAACCTGATCATCAGCGACGTGAACATGCCCAACCTCGACGGCATCGGCCTGGTAAAGGAAGTGAAGGCGCGCAACGAATACCGCTTCACGCCGATCGTCATGCTCACCACCGAGAGCGAGCAGGGCAAGAAGGCCGAGGGCCAGGCCGCCGGGGCCAAGGCCTGGATCGTCAAGCCCTTCCAGCCGCAGCAGTTGCTGGCGGCCGTGGACAAGCTGGCCGGCTGA	MAKTILIVDDSLSMRQLVKMTLSGAGHTVIEAVDGRDALTKLNGQKINLIISDVNMPNLDGIGLVKEVKARNEYRFTPIVMLTTESEQGKKAEGQAAGAKAWIVKPFQPQQLLAAVDKLAG	PGPT0015690_3985	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015690-cheY|yneI-K03413	NA	NA
BMS010_07609	1086			hypothetical protein	GTGCTCGCCTACTCCGCCCTCTGGCTAGGAATAGCGACCAGCCTCGCCGGGCTGGCCGCCGGCATGCCGTGGCTGACCGGCGCGGGCTGCGCGCTGAGTGCGCTGGCCGCCCTGTTCAATCGTCCATTGAAACCGGCCCATGCAGACCTTCCCCCGGCCACCGACACGCCGCTCGACGCGCCGGCACCCGCCAGCGTCGAGCCGCTGCTGCTGGAAGTGCTGCCGGCCTGGAGCCAGAACCTCGGCCAGATCCGCCAACTGGTGCAGGACAACATCCAGCGCCTGTTCGAGCGTTTCGCCGGGCTCAGCCAGCGCCTGGACCATACTCTCAGCCGCTCGGAGAACGTCATCGGCGGCGGCGGCGTGGCCGACAGCCTGCGCCAGGCCCACCAGCGCCTCGACGAAGTGATCGCCTCCTTCCACGGCGCCAGCGCCCGCAAGAACGAACTGCTCGGCACCATCGCCCACCTGGACAGCTACGCCAGCGAACTGCAGAAGATGTCCAAGCTGGTCCAGGACATCGCCAGCCAGACCAACCTGCTCGCCCTCAACGCCGCCATCGAGGCCGCCCGCGCCGGCGAACACGGCCGCGGCTTCTCGGTGGTCGCCGACGAAGTGCGCAAGCTGTCCAGCCTGTCCGCCGAAACCGGCCAGCGCATGAGCGAGAAGGTCGGCGAGATCAACCAGGCGATCCGCTCCACCGTGACCGCCGCCGAAGAGCTGTCCGGCAGCGAAAAGAGCAACCTCGATTACCTCGACGAGGTCGCCGGCCAGGTGATGCAGCGCCTCAGCGCCAACCTCGACGAACTGTCCGACACCTCCCTGCAACTGCAGCAGGACACCCGCACCACCCAGGCGGACATCCAGGAAATCATCGTCAACCTGCAATTCCAGGACCGTACCGACCAGATGCTCGACCACCTGCAGATCGACCTTGGCCGCCTGCAGCAGGCCGTGCGCGAGCAGGACGACAGCCTCGCCAACCCCGGCCGCTGGCTGAAGGACCTGCGCGACCGTTTCACCACTGACGAAGAACGCCACGGCAGCCGCCGCAGCGCCTCGCAGAACGACGTGACCTTTTTCTGA	MLAYSALWLGIATSLAGLAAGMPWLTGAGCALSALAALFNRPLKPAHADLPPATDTPLDAPAPASVEPLLLEVLPAWSQNLGQIRQLVQDNIQRLFERFAGLSQRLDHTLSRSENVIGGGGVADSLRQAHQRLDEVIASFHGASARKNELLGTIAHLDSYASELQKMSKLVQDIASQTNLLALNAAIEAARAGEHGRGFSVVADEVRKLSSLSAETGQRMSEKVGEINQAIRSTVTAAEELSGSEKSNLDYLDEVAGQVMQRLSANLDELSDTSLQLQQDTRTTQADIQEIIVNLQFQDRTDQMLDHLQIDLGRLQQAVREQDDSLANPGRWLKDLRDRFTTDEERHGSRRSASQNDVTFF	PGPT0015710_28577	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_07610	936	cheV_2	COG0784	Chemotaxis protein CheV	ATGGCCGGCATTCTCGACTCCGTGGATCAACGTACCCAGCTGGTGGGTGAGAACCGCCTGGAGATTCTCATGTTCCGCCTCAGCGGGCGTCAGTTGTTCGCGATCAACGTGTTCAAGGTGCAGGAAGTCCTGCAGATGCCCAAGCTGACCCTGATGCCGCAGCGGCACCCCTACGTCTGCGGCGTCGTCAACCTGCGTGGGCAGACCCTGCCGGTGATCGACCTGTCCCAGGCCATCGGCATGCGCCCGCTGGTGCCGGATGAGCGCAGTACCATCATCGTCACCGAATACAACCGTTCCGTGCAGGCCTTCCTGGTGGGCGGTGTCGATCGCATCCTCAACCTCAACTGGGAGTCCATCCTGCCGCCTCCGGGAGGCGCCGGGCGCCAGCATTACCTGACCGCGATCACCAAGGTGGACGACAAGCTGGTGGAAATCATCGACGTGGAGAAGGTGCTGGCGGAGATCGTGCCGTACAACGCGAAGGTTTCCGCCGAGCGCCTGGCCGATCCGCTGCTGGAGCAGGCCCGTGGCCGCGAGGTGCTGCTGGTGGACGACTCCAGCGTCGCCCTGGCACAACTGCGCGAAACCCTGACCCAATTGGGCCTGAAGATCCATACCGCCAGCGACGGCCTGAAAGGGCTGAATCAACTGAAGAAGTGGGCCGACACCGGCGAGGTGATGACCGACAAGCTGCTGATGGTCTTCACCGACGCGGAAATGCCGGAAATGGACGGTTATCGTCTGACCACGGAGATCCGCCAGGACCCGCGCCTGCGTGACCTCTACGTGGTACTGCACACGTCGTTGTCTGGCAGCTTCAATGACGCCATGGTGAAGAAGGTCGGCTGCGACGGTTTCCTTTCCAAGTTCCAGCCGGACAAACTGGTGGATGTGATCCGTGACCGGCTGCTGCGCGGTGCGGCCGGGACCTGA	MAGILDSVDQRTQLVGENRLEILMFRLSGRQLFAINVFKVQEVLQMPKLTLMPQRHPYVCGVVNLRGQTLPVIDLSQAIGMRPLVPDERSTIIVTEYNRSVQAFLVGGVDRILNLNWESILPPPGGAGRQHYLTAITKVDDKLVEIIDVEKVLAEIVPYNAKVSAERLADPLLEQARGREVLLVDDSSVALAQLRETLTQLGLKIHTASDGLKGLNQLKKWADTGEVMTDKLLMVFTDAEMPEMDGYRLTTEIRQDPRLRDLYVVLHTSLSGSFNDAMVKKVGCDGFLSKFQPDKLVDVIRDRLLRGAAGT	PGPT0015675_1287	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015675-cheV-K03415	NA	NA
BMS010_07611	804	ycbX_2	COG0633	putative protein YcbX	ATGCGTCTCTCCGCGCTCTATCGTTATCCCCTCAAATCCTCCCTCGGCGAGCCCCTGCAACGGGCGGAGCTGGATGCCCTGGGGCTGCTCGGTGACCGACGCTGGATGGCGGTCGACGCGGAGAGCGGACGCTTCCTGACCCAGCGCCTGCTGCCGCAGATGACGCAATTGTGCGCGCGCTGGCAGGGGGACGAGCGCCTGCTGTTGAGTGCGCCGGGGCTGGAATCGCTGAGCGTCGTCGTGCCAGACGAAACGGCGCCGCTGCGGGGCGTGGTCATCTGGCGCGATACGCTGCAGGTACCGGATGCCGGCGATGCCGCGGCGGCCTGGCTGAGCGATCTGCTGGGGCGGCCGTGCCGGCTGGTCTACGTACCGGAGGCCCGGGCCCGACAGGTCAATACGCACTATGCCGAACCGGGCGAGAAAGTGGCGTTTCCCGATGGCTACCCGCTGATGGTGATCGGCCAGGCGTCCCTCGACGACCTGTCGCGGCGGGTCGGCCGTCCGCTGGAAATGCTGCGCTTCCGGCCGAATCTGGTGGTGGAGGGCAGCGAGCCTTATGCCGAGGACAGTTGGAAGCGCATTCGCATCGGCGGCCAGACCTTCCGCGTCGCCAAGGGCTGCTCGCGCTGCATCATCACCACCATGGACCCGCGCACCGGCGAACGCAGCGCCGACCGCGAACCGCTCACTACGCTCAAGACCTACCGCGAACGCGACGGCGAGGTGTACTTCGGCCAGAACCTGATCCACGGCGGCAGCGGCGTGCTCGAGGTTGGCATGGACGTCGAAGTGTTGGAGTGA	MRLSALYRYPLKSSLGEPLQRAELDALGLLGDRRWMAVDAESGRFLTQRLLPQMTQLCARWQGDERLLLSAPGLESLSVVVPDETAPLRGVVIWRDTLQVPDAGDAAAAWLSDLLGRPCRLVYVPEARARQVNTHYAEPGEKVAFPDGYPLMVIGQASLDDLSRRVGRPLEMLRFRPNLVVEGSEPYAEDSWKRIRIGGQTFRVAKGCSRCIITTMDPRTGERSADREPLTTLKTYRERDGEVYFGQNLIHGGSGVLEVGMDVEVLE				NA	NA	NA	NA	NA
BMS010_07612	1929	slt	COG0741	Soluble lytic murein transglycosylase	ATGCGCGGTCGTCTGTTTTGCCTGTTTTCCTGTTTCCTGCTCTCCGCTGCAACCCTCGACACCGCGCAAGCCGTCAGTCTTGCCCAGCAACGCCAGTACTACGACGAAGCCAAGCGCGCCCTGGCCAAGGGCGATAGCGGCCCGTACAAGCGCTACGCCAGCGCCCTGCGCGACTATCCCCTTGAGCCGTACCTCGCGTACGACGAGCTGACCGCCCGTCTGAAATGGGCCAGCAACGACGAAATCGAGAAGTTTCTCGCCGAGCACGGCGACCTGCCCCAGGCCAACTGGATGAAGCTGCGCTGGCTGCGCTGGCTGGCCGAACGGGGCGAATGGCAGACCTTCATCAAGTACTACGATCCCTCGATGAATTTCACCGAGCTGGACTGTCTCTACGGCCAGTACCAGTTGGGCCATGGCATGCGCGCCGAAGGTTTCGCCACCGCCGAGAAACTCTGGCTGGTCGGCAAGTCGCAACCGGAAGCCTGCGACCGCCTGTTCGACCGCTGGGCCGCCGAAGGCCAGTTGACCGAGGAAAAGCGCTGGAAACGCGCCAAGCTGGCGGCCGAAGCCCGTAACTATGGGCTGGCCAGCTTCCTGGTGAAGAAGCTGCCGACCCTCTCCAAACAGGGACAGCTACTGGTGGATGTGGCGCAGAAGCCCGAGCTGCTCGGCCAGACCGCCCGCTTCGCACCCGCTGATCGCGCCATGGCCGATGTGGTCGGCCTCGGCCTGCGCCGGCTGGCCCGCCAGGACCCGGAGAAGGCCCTGCCCCTGCTGGATATCTATGCCAAGCGACTGCCCTTCTCCGCCGAAGAAAAGGTGGCGATCGCCCGCGAGATCGGCCTGACCCTGGCCAAGCGCTTCGACGCCCGGGCATTGCAGGTGATGGCCGAGTACGACCCGGAGTTGCGCGACAACACCGTCTCCGAATGGCGTGCCCGCCTGCTGTTGCGCCTCGGCCGCTGGGACGAGGCCCATCAGTTGACCCGGCAGTTGCCCCAGGAGCTTGCGACCAGCAACCGCTGGCGCTACTGGCAGGCGCGCAGTCTGCAATTGGCCCAGCCGCAGAACCAGCAGGCGGTCACGCTTTACCAGCCAGTGGCTGCCGAGCGCGACTTCTACGGTTTCCTCGCCGCCGATCGCATCCAGGTGCCCTACCAGTTGAACAACCGGCCGCTGCCGCTCGACCCGAAGATCGTGCAGAAGGTGCGCAACACCGCCGGCATCCGCCGCGCCCTGGAATTCCATGCCCGCGGCCAGATCGTCGACGGGCGCCGCGAGTGGTATCACGTCAGCCGCCTGTTCAGCCGCGAGGAGCTGGTGGCCCAGGCCCGCCTGGCCTACGACCTCGAATGGTACTTCCCGGCCATCCGCACCATCAGCCAGGCGCAGTATTGGGACGATCTGGAAGTACGCTTTCCGATGGCCTACCAGAGCAGCCTGGTGCGCGAAGCCAGGGCGCGCGGACTGCATTCGAGCTGGGTCTTCGCCATCACCCGCCAGGAAAGCGCCTTCATGGCCGACGCCCGCTCGCCGGTGGGCGCCATGGGACTGATGCAACTGATGCCGGCTACCGCCAAGCAGACCGCACGCAAGTTCGGCATCCCCCTGGGTTCGCCGCAGCAGGCGCTCAACCCCAACGTCAACATCCAGCTCGGCGCGGCCTACCTCAGCCAGGTGCATGCGCAGTTCGGCGGCAACCGCGTCCTCGCCTCCGCCGCCTACAACGCCGGCCCCGGCCGGGTCCGCCAGTGGCTGCGGGGGGCCAACCACCTGGCCTTCGACGTCTGGGTGGAAACCATTCCATTCGATGAAACCCGCCAGTACGTGCAGAACGTGCTGTCCTATTCGGTGATCTACGGGCAGAAGCTCAACGCACCGCAGCCGCTGGTCGATTGGCATGAGCGGTTCTTCGACGACCAGTGA	MRGRLFCLFSCFLLSAATLDTAQAVSLAQQRQYYDEAKRALAKGDSGPYKRYASALRDYPLEPYLAYDELTARLKWASNDEIEKFLAEHGDLPQANWMKLRWLRWLAERGEWQTFIKYYDPSMNFTELDCLYGQYQLGHGMRAEGFATAEKLWLVGKSQPEACDRLFDRWAAEGQLTEEKRWKRAKLAAEARNYGLASFLVKKLPTLSKQGQLLVDVAQKPELLGQTARFAPADRAMADVVGLGLRRLARQDPEKALPLLDIYAKRLPFSAEEKVAIAREIGLTLAKRFDARALQVMAEYDPELRDNTVSEWRARLLLRLGRWDEAHQLTRQLPQELATSNRWRYWQARSLQLAQPQNQQAVTLYQPVAAERDFYGFLAADRIQVPYQLNNRPLPLDPKIVQKVRNTAGIRRALEFHARGQIVDGRREWYHVSRLFSREELVAQARLAYDLEWYFPAIRTISQAQYWDDLEVRFPMAYQSSLVREARARGLHSSWVFAITRQESAFMADARSPVGAMGLMQLMPATAKQTARKFGIPLGSPQQALNPNVNIQLGAAYLSQVHAQFGGNRVLASAAYNAGPGRVRQWLRGANHLAFDVWVETIPFDETRQYVQNVLSYSVIYGQKLNAPQPLVDWHERFFDDQ	PGPT0024070_2007	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-SOLUBLE_LYTIC_MUREIN_TRANSGLYCOSYLASE_ACTIVITY,PGPT0024070-slt-K08309	NA	NA
BMS010_07613	1911	uup_1	COG0488	ABC transporter ATP-binding protein uup	ATGACTCTGCTCAAGTTCGCCGATGTATCCCTCGCCTATGGTGCCATGCCCCTGCTGGACCATGTGTCCTGGCAGATCGCCCGGGGCGAGCGGGTCTGCATCATCGGGCGCAACGGTACCGGCAAGTCGAGCTTGCTGCGCTTGGTCAAGGGTGACCAGGCCGCCGACGATGGCGAAATCTGGCGGGCGCCGGGGCTGAAGATCGGCGAGCTGCCGCAGGAACTGCCGCGGGCCGACGAGCGTACCGTGTTCGACGTGGTGGCCGAGGGGCTTGCGGGCGTCGGCGAGTTGCTTGCGCAATATCACCACCTCAGCCAGAACATCCGCGACGACGCCGATCTGCAGAAGCTCACCCAGGTCCAGCACGAACTGGAGGCGAAGGATGGCTGGCGTCTTCAGCAACTGGTGGACAGTACCCTGAGCCGCCTGCAACTGCCGGCGGACAAGACCCTGGCGGAGCTGTCCGGCGGCTGGCGCCGGCGTGTCCTGCTGGCCCAGGCGCTGGTCGCCGAACCGGACCTGCTGCTGCTCGACGAACCGACCAACCACCTCGACATCGGCGCCATCGCCTGGCTGGAAGAGGCGCTGCTCGGTTTCCAGGGAGCCGTGCTGTTCATCACCCACGACCGCGCCTTCCTGCAGAACCTGGCTACCCGCATCCTCGAACTGGATCGCGGCCATTTGATCGACTGGAACGGCGACTACGCCAGCTTCCTGGTGCACAAGGAACAGCAACTGGCGGCGGAAGAAACCGCCAATGCACTGTTCGACAAGCGTCTGGCCCAGGAGGAAGTGTGGATACGCCAAGGCATCAAGGCCCGCCGGACCCGTAACGAAGGCCGCGTCCGCGCGCTGAAGGCGATGCGCGCCGAGCGCAGCGAGCGGCGCGAGCGCCAGGGCAAGGCCAACATCCAGTTGGAAGCGGCGGACAAGTCCGGCAAGCAGGTGATCGTCGCCGAACATGTGAGCTTCGCCCATCCGGGCGGCGAGCCGCTGGTCCGTGATTTCTCCATCGTCATCCAGCGTGGCGACCGGATCGGCTTGCTGGGCGCCAACGGTACCGGCAAGACCACGCTGCTCAAGTTGCTGCTCGGCGAACTGCAACCGACCAGTGGCACCATCCAGGCCGGTACCCGCCTGGAAGTGGCTTATTTCGACCAGTTGCGTCACCAGTTGGAGCCGGAGAAGACGGTCATCGATAACCTCGCCGAAGGGCGCGAGTTCATTACCATCGATGGCCAGAACCGCCATGTGCTGAGCTATCTCGGCGATTTCCTGTTCAGCCCGCAGCGCGCCCGTACACCGGTGAAGGCACTGTCCGGTGGCGAGCGGGCACGCCTGTTGCTGGCCAAGCTGTTCAGCAAGCCGGCCAACCTGCTGGTGCTGGACGAACCGACCAACGATCTCGACGTGGAAACCCTGGAACTGCTCGAGGAAGTGTTGCTCGGTTTCCAGGGCACTGTGCTGATGGTCAGCCACGACCGGGCGTTCCTCGATAACGTGGTGACCAGCACCCTGGTGTTCGAAGGCGAGGGACGTGTCCGCGAGTATGTCGGTGGTTACCAGGACTGGCTGCGCCAGGGCGGTTCGCCGCGTCTGCTGGGTGTGGGCGAAGCCAAGCCGGAGAAAGTCGCTGCGCCGGCGAAGACAGAGGCACCGGCCGCCGCGTCGAGCGAGACGGCGGCGCCGGCCCGGAAGAAGCTGAGTTATAAGTTGCAGCGCGAGCTGGAAGCGATTCCCGGACAGATCGATGCCCTGGAGGCCGAGCTTGCCGTGTTGCAGGGCCAGATCGCCGACCCGGCGTTCTACCAGAAGCCGTCGGCGGAAACCGGGGCGGTCCTGGGTCGGATGGAGAGCCTGCAGCGCGATTTGGATGCCCTGCTGGAACGCTGGGCTGAACTGGAGGAGTGA	MTLLKFADVSLAYGAMPLLDHVSWQIARGERVCIIGRNGTGKSSLLRLVKGDQAADDGEIWRAPGLKIGELPQELPRADERTVFDVVAEGLAGVGELLAQYHHLSQNIRDDADLQKLTQVQHELEAKDGWRLQQLVDSTLSRLQLPADKTLAELSGGWRRRVLLAQALVAEPDLLLLDEPTNHLDIGAIAWLEEALLGFQGAVLFITHDRAFLQNLATRILELDRGHLIDWNGDYASFLVHKEQQLAAEETANALFDKRLAQEEVWIRQGIKARRTRNEGRVRALKAMRAERSERRERQGKANIQLEAADKSGKQVIVAEHVSFAHPGGEPLVRDFSIVIQRGDRIGLLGANGTGKTTLLKLLLGELQPTSGTIQAGTRLEVAYFDQLRHQLEPEKTVIDNLAEGREFITIDGQNRHVLSYLGDFLFSPQRARTPVKALSGGERARLLLAKLFSKPANLLVLDEPTNDLDVETLELLEEVLLGFQGTVLMVSHDRAFLDNVVTSTLVFEGEGRVREYVGGYQDWLRQGGSPRLLGVGEAKPEKVAAPAKTEAPAAASSETAAPARKKLSYKLQRELEAIPGQIDALEAELAVLQGQIADPAFYQKPSAETGAVLGRMESLQRDLDALLERWAELEE				NA	NA	NA	NA	NA
BMS010_07614	687			hypothetical protein	ATGGCCATCGAATATCGCATCACGCTCGATGACGAACACGAGTTCAGTTATCGGATCGAGCTGGATCGCCAGTACGACCAGGAGCGTGCCGCCATCGCGCCGAAGTGGACGCGCCTGGATTACCAGCAGTGCAGCAACTGCCCGCTGAATAAGGAGCAGTTCAGCCATTGCCCCGCGGCGGTGGACCTGTACCGGGTTATCGAGGACTTCCACGGTCTGCCGGCCATTACCAAGGCGCAGGTCTGGGTGCGCACGCCGGAGCGCGAGTACAGCAAGCTGGTCGGCCTGGAAGAGGGGTTGCGGGCACTGCTCGGGGTGATCATGGCCACCAGCTCCTGCCCGGTGCTCGGCCGGTTGAAGCCGATGGCGCAGCATCACTTGCCATTCGCCAGCAACCAGGAATTCATCCTGCGCACGGTTTCCCTGTACCTGGCGCGGCAGTACTTCAACTACCGCGAAGGCCGCCATGCGGACTGGGAACTGAAAGGCCTCGTACGCCTGTTCCAGCAGTTGCAACTGGTCAACCAGGCGTTCTGGCAGCGCATCCACGACACCTGCGAAGGCGACTCGAACCTCAAGGCGTTCCTGACCTTCTTCTCGATGTCGTCGAGCATGACCTATTCGCTGGAAACCCAGCTGCAGAAGATCCGGCCGTTGCTGATGAGCCCAGGGGACCTTCTCGAATAA	MAIEYRITLDDEHEFSYRIELDRQYDQERAAIAPKWTRLDYQQCSNCPLNKEQFSHCPAAVDLYRVIEDFHGLPAITKAQVWVRTPEREYSKLVGLEEGLRALLGVIMATSSCPVLGRLKPMAQHHLPFASNQEFILRTVSLYLARQYFNYREGRHADWELKGLVRLFQQLQLVNQAFWQRIHDTCEGDSNLKAFLTFFSMSSSMTYSLETQLQKIRPLLMSPGDLLE				NA	NA	NA	NA	NA
BMS010_07615	441	uspA2	COG0589	Universal stress protein A	ATGACCTACCAGCACATTCTGGTCGCCGTCGACCTGACCGAGGAATGCCACCCGGTGGTGATACGCGCCCAGGCCCTGGCCAACAGTTGCCAGGCCCGCCTGTCCCTGGTGCACATCGTGGAACCCATGGCCATGGCGTTCGGCGGCGATGTCCCCATGGACCTGTCGATGTTGCAGCAGCAGCAGTTCGAACAGGCCCGCGAACGCCTCAATACCTTTGCCGGTCGCTATCCCGAGCTGACCGCCGATCAGCGCCACCTCGCCTACGGCCAACCACGCCAGGAAATCCATCGCCTGGCCACCGAACAGGGCTGCGACCTGATCGTGGTAGGCAGCCACGGCCGGCACGGCCTCGCCCTGCTGCTGGGCTCCACCGCCAATGACGTCCTGCATGGCGCACCCTGCGACGTGCTTGCCGTGCGTCTGAAGAAACCCGAGTGA	MTYQHILVAVDLTEECHPVVIRAQALANSCQARLSLVHIVEPMAMAFGGDVPMDLSMLQQQQFEQARERLNTFAGRYPELTADQRHLAYGQPRQEIHRLATEQGCDLIVVGSHGRHGLALLLGSTANDVLHGAPCDVLAVRLKKPE	PGPT0014970_266	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014970-uspA-K06149	NA	NA
BMS010_07616	438			hypothetical protein	GTGACGCTCTGGTTGACTCTCGTACTCCTGGCTCTCCTGCTCAGTCCGCTTGCCTGGCTGCTGCCTTCGCACCGCCAGCGGGGGCAGATGGAAATGCGCTTGGCTGCGCGCCGGATGGGCCTGGCGATGCAGTTGTCGCGCCAGGAATGGCCGCACTGGCTGGGCCGGCAGCCGCCGAATCCGTGCCCGCAGTATCACCGTCCGCGCCGCGCCGGTCGTGGGGACAGTTGGTGTTTCTGGCGATCCGAATCCGGCGAATGGCTGAATCAGTGGCGCGAACCCTGCGTGGACGGGGCGTTGGCGGGGCGGCTGGCTGAGCTTCCGATGGATGTCTACAAGATCGAAGCGAATTCGCAGATGATAGCCCTCTGTTGGGGCGAGCGGGGCGATGCGGAGGCGTTGCAACGGGTTGCGGATGTGCTGGCTGCGCTCGCCTGA	MTLWLTLVLLALLLSPLAWLLPSHRQRGQMEMRLAARRMGLAMQLSRQEWPHWLGRQPPNPCPQYHRPRRAGRGDSWCFWRSESGEWLNQWREPCVDGALAGRLAELPMDVYKIEANSQMIALCWGERGDAEALQRVADVLAALA				NA	NA	NA	NA	NA
BMS010_07617	810			hypothetical protein	ATGCCGAACCGTCTGCGCACTTTTTCATTGAGCGCCCTCCTTGCCCTCTACCTGGCTCTGCCCGCCTGGGCGGCCGACCCGAGCGCCACGTTGCTCGACCTGCATCAGCAACGCCTCGCCACCCAACGAAGCCTGGCGGCGTTCTTCATGTTCAATGGCATGGAAGGCGACCAGCGCTACGCGCGCATGATCGATGAATCGCTGCAACTGGCCCGCAGCCGCCTCGACAAGCTGGGCGAACTGCCCGGCGAAAGCTCGAAAGCGCTCGCCACTCGCCTCGTCCAGGAATGGCAAGGCTATGAGAACGACCTCAAGACGCTGGTCAGTACGCTGAAAACCCAGGGGTTCACCGACCTCCAGCCGGTCGCCGACCTGGCCGAACGCAATCGGCAACTGATGGAACTGAGCGGGGAGCTGTATGCCAGAATCCAGCGGGAGAGCGCCTTCCGCGTTCCGCCATTGACCCAGCAAAGCCGCGAGCAGAGCCTGCTGATGCAGGACATCGCGCTGGACTACGCTTCACGCAGCGCGTCGGTCGGGGCAACATTCTTCGGCGGTAACGAGGGCAAGGCGATCGATGAACTGGCCGAACAGTTCTCGGCCGGGCTCGCGCGCCTGGAGGAAGCGCCGGCTAACACCGCGGAAACCCGACAGGGCTTACAGGTCGTCGGCACGAAATGGCGTTACATCGAGAAATCGCTGAAAAACTACAATGAGAACAGCGTTCCTTTCGTCATCAGCAAATATTCGGATCGAATTATCGAAGCGCTTGAAGTACTCTCTGCCCAATATGCCGCGCAAAGCCTGTGA	MPNRLRTFSLSALLALYLALPAWAADPSATLLDLHQQRLATQRSLAAFFMFNGMEGDQRYARMIDESLQLARSRLDKLGELPGESSKALATRLVQEWQGYENDLKTLVSTLKTQGFTDLQPVADLAERNRQLMELSGELYARIQRESAFRVPPLTQQSREQSLLMQDIALDYASRSASVGATFFGGNEGKAIDELAEQFSAGLARLEEAPANTAETRQGLQVVGTKWRYIEKSLKNYNENSVPFVISKYSDRIIEALEVLSAQYAAQSL				NA	NA	NA	NA	NA
BMS010_07618	2148	fadB_3		Fatty acid oxidation complex subunit alpha	ATGATTTACGAAGGTAAAGCCATCACGGTTAAGGCTCTTGAGGGCGGCATCGTCGAATTGAACTTCGACCTCAAGGGTGAGTCCGTCAACAAATTCAACCGTCTCACCCTGAACGAGCTGCGCGAATCCGTGGATGCCATCAAGGCGGACGGTTCGATCAAAGGCGTGGTCGTCACCAGCGGCAAGGACGTGTTCATCGTCGGCGCCGACATCACCGAGTTCGTCGACAACTTCAAGCTGCCCGACGAAGAGCTGGTTGCCGGCAACCTCGAAGCCAACAAGATCTTCAGCGATTTCGAAGACCTCGGCGTGCCCACGGTCGTCGCCATCAATGGCATCGCCCTCGGCGGCGGTTTCGAGATGTGCCTGGCCTGCGACTACCGCGTCATGGCGGACAGCGCCAAGGTCGGCCTGCCGGAAGTCAAGCTGGGTATCTACCCGGGCTTCGGTGGCACCGTTCGCCTGCCGCGCGTGATCGGCACCGACAACGCCATTGAGTGGATCGCTTCCGGTAAGGAAAACAAGGCCGAAGACGCGCTGAAAGTGGGTGCCGTCGATGCCGTGGTCGCCGCCGACAAGCTACAAGCCGCTGCCGTTGACCTGATCAAGCGCGCCATCTCCGGCGAGCTGGACTACAAGGCCAAGCGCCAGCCGAAACTGGAAAAGATCAAGCTGAATGCCATCGAACAAATGATGGCCTTCGAAACCGCCAAGGGCTTCGTCGCCGGCCAGGCCGGTCCGAACTACCCGGCGCCGGTCGAAGCGATCAAGACCATCCAGAAGGCCGCCAACTTCACCCGTGACAAGGCGCTGGAAGTCGAGGCCGCCGGCTTCGTCAAGCTGGCCAAGACCTCTGTTGCGGAAAGCCTGATCGGCCTGTTCCTGAACGACCAGGAACTGAAGAAGAAATCCAAGAAATACGACGAGCTGGCCAAGGACGTGAAGATGGCCGCCGTGCTCGGCGCCGGCATCATGGGCGGTGGCATTGCCTACCAGTCCGCCGTCAAGGGCACGCCGATCTTGATGAAGGACATCCGCGAAGAAGCCATCCAGCTCGGCCTCGGCGAAGCCTCCAAGCTGCTCGGCAAGCGCGTCGAGAAAGGCCGCCTGTCTCCCGAGAAGATGGCTCAGGCGCTCAACGCCATCCGTCCGACCCTGTCCTACGGCGATTTCGGCACCGTCGACATCGTGGTCGAGGCCGTGGTTGAGAACCCGAAGGTCAAGCAGGCCGTGCTGTCGGAAGTGGAAGGGCTGGTGAAGGAGGACGCGATCCTCACTTCCAACACCTCGACCATTTCCATCAGCTTGCTGGCCCAGGCGCTCAAGCGTCCGGAAAACTTCTGCGGCATGCACTTCTTCAACCCGGTGCACATGATGCCGCTGGTGGAAGTGATCCGTGGCGAGAAGACCGGCGAAACCGCTATCGCCACCACCGTTGCCTACGCCAAGAAGATGGGCAAGACCCCGGTCGTGGTCAACGATTGCCCCGGCTTCCTGGTCAACCGCGTGCTGTTCCCGTACTTCGGCGGTTTCGCCAAGTTGCTGGAGCTGGGCGTCGATTTCGTTCGCATCGACAAGGTGATGGAGAAATTCGGTTGGCCCATGGGCCCGGCCTACCTGTCCGACGTGGTCGGCATCGACACCGGCCACCATGGCCGCGACGTGATGGCTGAAGGCTTCCCGGATCGCATGGCTGTCGAGGGCAAGACTGCCGTTGACGTGATGTACGAAGCCAATCGCCTGGGTCAGAAGAATGGCAAGGGCTTCTACGCCTACGAAACCGACAAGCGCGGCAAGCCGAAGAAGGTCTCCGATCCGCAGGCCTACGAAGTGCTCAAGCCGATCGTCCGCGAGCAGCGCGAGCTGACCGACGAGGACATCATCAACTTCATGATGATCCCGCTGTGCCTGGAAACCGTCCGCTGCCTGGAAGACGGCATCGTCGAAACGGCTGCCGAAGCTGACATGGGCCTGATCTACGGCATCGGCTTCCCGCCCTTCCGTGGGGGTGCGCTGCGCTACGTCGATTCCATCGGTGTAGCCGAATTCGTGGCCCTGGCCGACAAGTACGCCGACCTGGGTCCGCTGTACCACCCGACCGCGAAGCTGCGTGAAATGGCCGCCAAGGGCCAGAGCTTCTTCGGTTAA	MIYEGKAITVKALEGGIVELNFDLKGESVNKFNRLTLNELRESVDAIKADGSIKGVVVTSGKDVFIVGADITEFVDNFKLPDEELVAGNLEANKIFSDFEDLGVPTVVAINGIALGGGFEMCLACDYRVMADSAKVGLPEVKLGIYPGFGGTVRLPRVIGTDNAIEWIASGKENKAEDALKVGAVDAVVAADKLQAAAVDLIKRAISGELDYKAKRQPKLEKIKLNAIEQMMAFETAKGFVAGQAGPNYPAPVEAIKTIQKAANFTRDKALEVEAAGFVKLAKTSVAESLIGLFLNDQELKKKSKKYDELAKDVKMAAVLGAGIMGGGIAYQSAVKGTPILMKDIREEAIQLGLGEASKLLGKRVEKGRLSPEKMAQALNAIRPTLSYGDFGTVDIVVEAVVENPKVKQAVLSEVEGLVKEDAILTSNTSTISISLLAQALKRPENFCGMHFFNPVHMMPLVEVIRGEKTGETAIATTVAYAKKMGKTPVVVNDCPGFLVNRVLFPYFGGFAKLLELGVDFVRIDKVMEKFGWPMGPAYLSDVVGIDTGHHGRDVMAEGFPDRMAVEGKTAVDVMYEANRLGQKNGKGFYAYETDKRGKPKKVSDPQAYEVLKPIVREQRELTDEDIINFMMIPLCLETVRCLEDGIVETAAEADMGLIYGIGFPPFRGGALRYVDSIGVAEFVALADKYADLGPLYHPTAKLREMAAKGQSFFG	PGPT0001865_619	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0001865-fadB-K01825	NA	NA
BMS010_07619	1176	fadA_3		3-ketoacyl-CoA thiolase	ATGAGCCTGAATCCGAGAGATGCCGTCATCGTCGACTTCGGTCGTACCCCGATGGGTCGTTCCAAGGGCGGCATGCACCGCAACACCCGTGCCGAGAACATGTCGGCGCACCTGATCAGCAAGCTGCTGGAGCGCAACCCGCTGGTCAACCCGGCGGAAGTGGAAGACGTGATCTGGGGCTGCGTGAACCAGACCCTGGAGCAGGGTTGGAACATCGCCCGCATGGCGTCGCTGATGACCCAGATTCCGCATACCAGCGCTGGCCAGACCGTGAGCCGCCTGTGCGGTTCGTCCATGAGCGCCCTGCACACTGCCGTGCAGGCGATCCAGACCGGCAACGGCGATGTGTTTGTCATCGGTGGCGTGGAGCACATGGGCCACGTCGGCATGATGCACGGCGTCGATCCGAACCCGCACCTGTCGCTGTACGCCGCCAAAGCGTCCGGCATGATGGGCCTGACCGCCGAGATGCTCGGCAAGATGCATGGCATCAGCCGCGAGCAGCAGGACGCCTTCGGTGAGCGTTCGCACCGCCTGGCGCATAAGGCCACCGTCGAGGGCAAGTTCAAGGATGAAATCATCCCGATGCAGGGCTACGACGAGAACGGCTTCCTGAAGGTGTTCGACTACGACGAGACCATTCGTCCCGACACCACCCTGGAAAGCCTGGCGCAACTGAAGCCGGCCTTCAATCCGAAGGGCGGTACCGTGACTGCGGGCACCTCTTCGCAGATCACCGACGGTGCATCCTGCATGATCGTCATGTCCGCCCAGCGCGCCAAGGACCTCGGCATCCAGCCGATGGCCGTGGTTCGTGCCATGGCGGTGGCGGGTGTCGATCCGGCCATCATGGGTTACGGTCCGGTGCCGTCGACCCAGAAGGCACTCAAGCGTGCCGGCCTGACCATCGACGACATCGACTTCGTCGAGCTGAACGAAGCCTTCGCCGCCCAGGCCCTGCCGGTGCTGAAGGACCTCAAGCTGCTCGGCAAGATGGAAGAGAAGGTCAACCTGCATGGCGGCGCCATCGCCCTGGGTCACCCGTTCGGTTGTTCCGGTGCGCGTATCTCCGGTACCCTGCTGAACGTGATGAAGCAGAACGGCGGTACTCTGGGTGTGTCTACCATGTGCGTAGGCCTCGGCCAGGGCATCACCACCGTCTTCGAGCGCATCTGA	MSLNPRDAVIVDFGRTPMGRSKGGMHRNTRAENMSAHLISKLLERNPLVNPAEVEDVIWGCVNQTLEQGWNIARMASLMTQIPHTSAGQTVSRLCGSSMSALHTAVQAIQTGNGDVFVIGGVEHMGHVGMMHGVDPNPHLSLYAAKASGMMGLTAEMLGKMHGISREQQDAFGERSHRLAHKATVEGKFKDEIIPMQGYDENGFLKVFDYDETIRPDTTLESLAQLKPAFNPKGGTVTAGTSSQITDGASCMIVMSAQRAKDLGIQPMAVVRAMAVAGVDPAIMGYGPVPSTQKALKRAGLTIDDIDFVELNEAFAAQALPVLKDLKLLGKMEEKVNLHGGAIALGHPFGCSGARISGTLLNVMKQNGGTLGVSTMCVGLGQGITTVFERI	PGPT0001565_3529	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0001565-fadA|fadI-K00632	NA	NA
BMS010_07620	237			hypothetical protein	ATGCGAGTTCAACCCGGCCTCTATCGCCATTACAAAGGGCCCGAGTATCGGGTATTCGGTGTGGCCCGGCATTCCGAGACGGAAGAAGAGCTGGTGGTATACCAGGCGCTGTACGGCGAGTACGGGCTCTGGGTGCGCCCGCTGCGCATGTTCACCGAGACCGTCGAGGTAGATGGTGAAAGCGTTCCGCGTTTTGCATTGATCAAGGCGGAAAAGGCGCTGTTCGAGCAGCCTTGA	MRVQPGLYRHYKGPEYRVFGVARHSETEEELVVYQALYGEYGLWVRPLRMFTETVEVDGESVPRFALIKAEKALFEQP	PGPT0012200_854	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-HYDROLASE,PGPT0012200-cd|ma|nplT-K01208	NA	NA
BMS010_07621	2607	topA_2	COG0550	DNA topoisomerase 1	ATGGGCAAATCGCTGGTCATCGTGGAATCCCCGGCCAAGGCCAAGACCATCAACAAGTACCTGGGCAGCCAGTACGTGGTGAAGTCGAGCATCGGCCATATCCGTGACCTGCCCACCAGCGGTTCGTCCAGCAATGGCAAGGAGCCGGCGAAGCGCGGCAAGACTGCGGCCGAGGCTCCGGCGTTGTCGGCGAAAGAAAAGGCCAAGCGCCAGCTATTCTCGCGCATGGGTGTCGATCCCGAACACGGCTGGAAAGCCAAATACGAAATTCTGCCGGGCAAGGAAAAGGTGATCGACGAGCTTCGCCGCCTTGCCAAGGATGCCGACACCATCTATCTCGCAACCGACTTGGACCGCGAAGGGGAGGCCATCGCCTGGCACCTGCGCGAGTCCATCGGTGGTGACGAGAGCCGCTACAAGCGCGTGGTTTTCAACGAAATCACCAAGAAGGCGATCCAGGAAGCGTTCTCCGCACCCGGCGATCTGGACATCAATCGGGTCAACGCCCAGCAGGCGCGGCGATTCCTTGACCGCGTGGTCGGCTACATGGTGTCGCCGTTGCTCTGGCAGAAGATCGCCCGCGGTCTTTCCGCCGGCCGCGTCCAGTCGGTCGCGGTGAAGTTGGTGGTGGAGCGTGAGCGCGAAATCCGCGCCTTCGTCCCGGAAGAGTACTGGGAAGTGCATGCCGACCTGTCCACTGCGAAGAATGCCCAGGTCCGCTTCGAAGTGGTTCGCGAAAGGGGCGAGGCCTTCAAGCCGCTCAACGAAGCCCAGGCCATGGCGGCGCTGGAGAAGCTCAAGGCTTCCAGCTACCGCGTGGTCAAGCGCGAGGACAAGCCGACCAGCAGCCGTCCGTCGGCTCCGTTCATCACCTCCACACTGCAGCAGGCGGCGAGCAACCGTCTCGGCTTCGGTGTGAAGAAGACCATGATGATGGCCCAGCGTCTCTACGAGGCGGGCTATATCACCTATATGCGTACCGACTCGACCAATCTTTCGGCGGACGCCATCGGCATGGTCCGGGGCTTCATCGAGGGCGAGTTCGGTCAGAAATACCTGCCGGCGAAGCCGAATGTCTATTCCAGCAAGGAAGGCGCTCAGGAGGCTCACGAGGCGATCCGTCCGTCCGATGTCAATCTGCGGCCGAATCAACTGTCCGGCATGGAGCGTGACGCCGAGCGCCTCTACGAATTGATCTGGCGCCAGTTCGTCGCCTGCCAGATGCCGCCGGCCGAATACCTGTCGACTACCGTCAGCGTAGCGGCGGGCGACTTCGAGCTGCGTGCCAAGGGTCGCATCCTCAAGTTCGACGGCTATACCCGGGTACTGCCCCAGCAGAGCAAGCCGGGCGAAGACGACGTGCTGCCGGAAATGAACGAAAGCGAGATGCTCAAGCTGATCAAGCTCGATCCCAGCCAGCATTTCACCAAGCCGCCGGCGCGCTACTCCGAAGCCAGCCTGGTCAAGGAGCTGGAAAAGCGGGGCATTGGCCGGCCGTCGACCTACGCGGCGATTATTTCCACCATCCAGGAACGCGGTTACGTCACCGTGCATAACCGTCGTTTCTACGCGGAGAAGATGGGCGATATCGTGACCGACCGTCTTTCCGAAAGCTTTTCCAACCTCATGGACTACGGCTTTACCGCCGGGATGGAAGAGCATCTGGACGACGTTGCCCAGGGTGAGCGTGACTGGAAGCACCTTCTCGACGAGTTCTATGCCGATTTCAGGAAAAAGCTGGAAACCGCCGAGGCCAGCGAGAAGGGCATGCGGGCCAATCAGCCGACACTGACCGACATTCCCTGCCGCGAATGCGGGCGGCCGATGATGATTCGTACCGCCTCCACCGGGGTCTTCCTCGGTTGTTCGGGCTACAGCCTGCCGCCGAAAGAGCGTTGCAAGGCGACCATCAACCTGATTCCGGGGGACGAAATCGCGGCGGATGACGAGGGCGAGTCGGAATCCCGCGTTCTGTTGGGCAAGCATCGTTGCCCGATCTGCTCGACGGCGATGGATGCCTATCTGCTGGACGAGAAGCGCAAGCTGCACATCTGCGGCAATAACCCGGACTGCAGCGGCTACGAGATCGAACAGGGCCAGTACCGTATCAAGGGTTACGAAGGGCCGAGCCTCGAATGCGACAAGTGTGGAAGCGAGATGCAGTTGAAGACCGGCCGCTTCGGCAAGTTCTTCGGGTGCACCAACCCCACCTGCAAGAACACCCGCAAGTTGCTGAAGAACGGCGAGCCGGCGCCGCCGAAGATGGACGCGATCAAGATGCCGGAGCTCAAGTGCGAGAAGGTCGACGACGTCTATGTGCTGCGCGACGGTGCGTCCGGTTTGTTCCTGGCGGCCAGCCAGTTCCCGAAGAACCGCGAAACCCGTGCACCGCTGGTCAGCGAGCTGATCCCGCACAAGGACGAACTGGATCCGAAATATCACTTCCTCCTGGATGCACCACAGAAGGACTCGGAGGGCCGTCCTGCGGTAATCCGTTTCAGCCGCAAGAGCAAAGAGCAGTACGTACAGTCCGAGGTCGACGGTAAGCCCACCGGCTGGCGTGCGTTCTATGACGGTAGCCGTTGGAAGGTCGAAGACAAGCGCTGA	MGKSLVIVESPAKAKTINKYLGSQYVVKSSIGHIRDLPTSGSSSNGKEPAKRGKTAAEAPALSAKEKAKRQLFSRMGVDPEHGWKAKYEILPGKEKVIDELRRLAKDADTIYLATDLDREGEAIAWHLRESIGGDESRYKRVVFNEITKKAIQEAFSAPGDLDINRVNAQQARRFLDRVVGYMVSPLLWQKIARGLSAGRVQSVAVKLVVEREREIRAFVPEEYWEVHADLSTAKNAQVRFEVVRERGEAFKPLNEAQAMAALEKLKASSYRVVKREDKPTSSRPSAPFITSTLQQAASNRLGFGVKKTMMMAQRLYEAGYITYMRTDSTNLSADAIGMVRGFIEGEFGQKYLPAKPNVYSSKEGAQEAHEAIRPSDVNLRPNQLSGMERDAERLYELIWRQFVACQMPPAEYLSTTVSVAAGDFELRAKGRILKFDGYTRVLPQQSKPGEDDVLPEMNESEMLKLIKLDPSQHFTKPPARYSEASLVKELEKRGIGRPSTYAAIISTIQERGYVTVHNRRFYAEKMGDIVTDRLSESFSNLMDYGFTAGMEEHLDDVAQGERDWKHLLDEFYADFRKKLETAEASEKGMRANQPTLTDIPCRECGRPMMIRTASTGVFLGCSGYSLPPKERCKATINLIPGDEIAADDEGESESRVLLGKHRCPICSTAMDAYLLDEKRKLHICGNNPDCSGYEIEQGQYRIKGYEGPSLECDKCGSEMQLKTGRFGKFFGCTNPTCKNTRKLLKNGEPAPPKMDAIKMPELKCEKVDDVYVLRDGASGLFLAASQFPKNRETRAPLVSELIPHKDELDPKYHFLLDAPQKDSEGRPAVIRFSRKSKEQYVQSEVDGKPTGWRAFYDGSRWKVEDKR				NA	NA	NA	NA	NA
BMS010_07622	519			hypothetical protein	ATGGCCCATGAGCTTTATACCCGTACGAACCAGAAGCTCTACTTCGCTGGTCTGGCGCTTGAGGCGTGGAAACGTGCCGAAACCGGGCAGGCGATGAACGCCCAGGCACTGATCCAGGCTGAACGCGAGTCCGCCTTGTTTCATCTGTATGGCGCGGTTCTGGGCCTTTGCCATGAAATTGCCGGTTTCTATCGTTTGCCCGAGGCGCGCGCGCCCAGGGTCGATATGCTGTTGAATCAGGTGGTCCTGAATGCCGCGCCCAGCCCTGAGCTGGCCGAGTTGGTGGAGTTGGCGCAGCAACCCGAAACATGGCTTGGGCGTCTCCTTGCGGCCTATGCTGCGCTATTTCAGCCGCCACAGGCGCCGAAGAAGGCCAAGGTCGACCCGACCGTTCCATTGATCGAATCGGTCGATCTGGAAGCGGAAGAGCCATCGCTCGGTCGCGATGAGCTGGAGGAGTGGCGCAAACAACTGAAAGGTCTGGCGCTGCGTTTCCGTGAAACGCTGACAGAATGCTGA	MAHELYTRTNQKLYFAGLALEAWKRAETGQAMNAQALIQAERESALFHLYGAVLGLCHEIAGFYRLPEARAPRVDMLLNQVVLNAAPSPELAELVELAQQPETWLGRLLAAYAALFQPPQAPKKAKVDPTVPLIESVDLEAEEPSLGRDELEEWRKQLKGLALRFRETLTEC				NA	NA	NA	NA	NA
BMS010_07623	237			hypothetical protein	ATGCCTACTTCCTTCCTCGAAATCGTTGAGCTGCCCGATGGGCGCATCGCCTTGCGCCGAGCGGAGGATGAGGAAGCGCTGGTAATCCTCGACTTCTCGGCAGATGCCAAGGCCTTCCTGCAGGGGCACCATGTGGAAGTCGCCAAGGCCATGCTGAGCGTTGGCGTGCAGATGGCTGGCCGATTGGCCGAAGGTGATTTCGAGCGGGATGAAGAAGGGCCTCGCGTCCTGCACTGA	MPTSFLEIVELPDGRIALRRAEDEEALVILDFSADAKAFLQGHHVEVAKAMLSVGVQMAGRLAEGDFERDEEGPRVLH				NA	NA	NA	NA	NA
BMS010_07624	471	sulA	COG5404	Cell division inhibitor SulA	ATGCAGTTCTCGCAGCCGCTTGACCTTCCCCAGCTCCCCCTATTCGAGGCCTTTCTCGGCCAACCCGCCGCGCCATTACTGGCCGATGGAGCCGAGCCCCATTGGCCCGAACCCGAGGCCTTCAGCGAACTGTCGCTGAGCGGAGCGGCCGGGCACTGCCTCCATCTGTTGGCGCCCATCCTTCGGGAGCTGAGCGAAGAAACCGATCCACGCTGGCTTACGCTCATCGCTCCGCCTTCCAGCCTGACCCATAGCTGGCTGCGCGAAGCCGGTCTGAACCGTGAGCGGATTCTCCTGCTGCATCCACGCGGCCAGCAAACCAGCCTTGAACTGGCCTGCGAAGCCCTTCGCCTGGGCCGCAGCCACACCGTTGTCAGTTGGTTGAACCCACTCGATCACAAGGCACGCCAGAACCTTGCCTCCGCCGCCCGCCTGGGTAGCGCACAAAGCCTGAATATTCGTCTGGGTTGA	MQFSQPLDLPQLPLFEAFLGQPAAPLLADGAEPHWPEPEAFSELSLSGAAGHCLHLLAPILRELSEETDPRWLTLIAPPSSLTHSWLREAGLNRERILLLHPRGQQTSLELACEALRLGRSHTVVSWLNPLDHKARQNLASAARLGSAQSLNIRLG				NA	NA	NA	NA	NA
BMS010_07625	612	lexA_1	COG1974	LexA repressor	ATGCTGAAACTGACGCCCCGCCAAGCCGAGATTCTCGCCTTCATCAAGCGTTGCCTGGAAGACAATGGCTATCCGCCCACCCGGGCCGAGATCGCCCAGGAGCTCGGTTTCAAGTCTCCCAACGCCGCCGAGGAACATCTCAAGGCCCTTGCCCGCAAAGGTGCCATCGAAATGACTCCCGGTGCTTCCAGGGGCATTCGCATCCCCGGCTTCGAGCCGAACAACAACGAGGAAGACGGCTTGCCGGTCATTGGCCGGGTCGCTGCCGGTGCGCCGATTCTAGCGCAACAGAATGTCGAAGAATCCTGCCGGATCAATCCGGATTTCTTCCATCCCCGCGCCGACTATCTGCTACGTGTCCGCGGCATGAGCATGAAGGACATCGGTATCTACGATGGCGACCTGCTGGCTGTGCATGCCACCCGTGAGGCCCGCAACGGCCAAGTCGTGGTCGCCCGCCTGGATGACGACGTCACGGTCAAGCGTTTCAAGCGCGAGGGCAATAAGGTCTGGCTCATCGCGGAAAACCCGGAATTCGCCCCTATCGAAGTCGATCTGGAACAGCAGAACCTGACAATCGAAGGTTTGAGTGTCGGCGTAATCCGCCGCTAA	MLKLTPRQAEILAFIKRCLEDNGYPPTRAEIAQELGFKSPNAAEEHLKALARKGAIEMTPGASRGIRIPGFEPNNNEEDGLPVIGRVAAGAPILAQQNVEESCRINPDFFHPRADYLLRVRGMSMKDIGIYDGDLLAVHATREARNGQVVVARLDDDVTVKRFKREGNKVWLIAENPEFAPIEVDLEQQNLTIEGLSVGVIRR	PGPT0014895_3321	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014895-lexA-K01356	NA	NA
BMS010_07626	708			hypothetical protein	ATGGCACAGTCAGAAACCGTCGAACGCATCCTGGATGCTGCGGAACAGCTGTTCGCGGAGAAGGGCTTCGCCGAAACCTCCTTGCGCCTGATCACCAGCAAGGCCGGGGTCAACCTGGCTGCGGTGAACTATCACTTCGGTTCCAAGAAGGCCCTGATTCAGGCTGTCTTCTCGCGGTTCCTCGGGCCGTTCTGCCTCAGCCTCGAGCGTGAGCTGGATCGCCGCCAGACCAAGCCGGAAAGCCATGCCAGCCTGGAAGAGCTGCTGGAAATACTGGTCGAGCAGGCTTTGGCGGTGAAGCCGCGCAGCGGTAACGACCTGTCTATCTTCATGCGCCTTCTGGGCCTGGCTTTCAGCCAGAGCCAGGGGCACTTGCGTCGCTATCTGGAAGACATGTACGGCAAGGTATTTCGGCGCTACATGCAGCTGGTTCACGAAGCCGCGCCGAAGATGCCGCCCATCGAACTGTTCTGGCGCGTTCACTTCATGTTGGGTGCCGCTGCGTTCAGTATGTCCGGGATCAAGGCTCTGCGCGCCATCGCCGAGAATGATTTTGGCGTGAACACCTCGATTGAGCAGGTGATGCGCTTGATGGTGCCGTTCCTGGCCGCTGGCATGCGGGCTGACAGTGCGGTGACCGATGAAAAGCTGGCCAGCGCTCAACTCAAGCCGCGCAGCAAGACCGCCCCGGCGCCTGCCAAGGTTTGA	MAQSETVERILDAAEQLFAEKGFAETSLRLITSKAGVNLAAVNYHFGSKKALIQAVFSRFLGPFCLSLERELDRRQTKPESHASLEELLEILVEQALAVKPRSGNDLSIFMRLLGLAFSQSQGHLRRYLEDMYGKVFRRYMQLVHEAAPKMPPIELFWRVHFMLGAAAFSMSGIKALRAIAENDFGVNTSIEQVMRLMVPFLAAGMRADSAVTDEKLASAQLKPRSKTAPAPAKV				NA	NA	NA	NA	NA
BMS010_07627	525			hypothetical protein	ATGCGAACCCTCGATTTCCTGCACATTTCCATCGCCGATCAGTGCCTTTATGGCTTCGCTGAGGGGCGGCTGGTGTTGCGTCTTCTTGTTTCCACGGCCTTGAACGGTGCTGGCGAGTTGAATGGCTCCGGTTGTACGCCGCGGGGCTTGCACCAGGTTCGCGCGAAAATCGGGGACGGGCTGCCATGCGGCGCCGTGCTGAGAGCGCGGCGCTGGACCGGCGAGGTCTGGTCGCCAGCGCTGCACGAACAGTTTCCCGGCCGCGATTGGATACTGACCCGGATTCTCTGGCTCAGTGGCTGCGAGCGCGGCCGGAATCGCCTGGGACACGTAGACAGTTTTCGCCGTTATATCTATCTCCACGGTACGCCTGACAGCGAGCCGATGGGCGTGCCGCGCTCCCATGGCTGCATTCGCCTGCGTAACACCGATCTCCTGGATCTATTCCCTCGCGTGCCGCTGCACTGTCCGGTACGTATCGATGAAGCGGCTTGCCCGGACTGGGCCCAGGCCGAACTTGACTAA	MRTLDFLHISIADQCLYGFAEGRLVLRLLVSTALNGAGELNGSGCTPRGLHQVRAKIGDGLPCGAVLRARRWTGEVWSPALHEQFPGRDWILTRILWLSGCERGRNRLGHVDSFRRYIYLHGTPDSEPMGVPRSHGCIRLRNTDLLDLFPRVPLHCPVRIDEAACPDWAQAELD	PGPT0023750_264	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-L|D_TRANSPEPTIDASE_ACTIVITY,PGPT0023750-ybiS-K19235	NA	NA
BMS010_07628	999	nagZ_1	COG1472	Beta-hexosaminidase	ATGCAAGGTTCCCTGATGCTGGATATCGCCGGCACTTGGTTGACTGCCGAGGATCGTTGCCTGTTGCGGCAACCCGAGGTCGGCGGCCTGATTCTCTTCGCCCGCAATATCGAGCACCAGCGCCAGGTACGCGAACTCTGTGCTTCGATACGCGCCGTGCGACCGGATCTTCTTCTCGCGGTGGACCAGGAGGGCGGACGTGTTCAACGCCTGCGCCAGGGTTTCGTGAGGCTGCCGGCGATGCGGGCGATTGCCGATAACGCCGACGCCGAGATTCTGGCCGAGCACTGTGGCTGGCTGATGGCGACAGAAGTGCTGGCGGTGGGCCTGGATATCAGCTTTGCGCCAGTTCTCGATCTGGACCACCAGCGCAGTGCGGTGGTCGGTAGCCGTGCTTTCGAGGGGGATGCCGAGCGGACAGCACTACTTGCCGGGGCCTTCATTCGGGGTATGAGCGCGGCAGGCATGGCGGCGACCGGCAAGCATTTCCCCGGCCACGGATGGGCCGAAGCCGACTCCCATGTGGCGATACCGGTCGACGAGCGCGACCTGGATGAGATTCGTGCGTGCGATCTGGTTCCGTTCGCGCGTTTGCGTGATCAATTGGCCGCCGTGATGCCGGCCCACGTGATCTACCCGGCGGTGGATGCGCAGCCGGCGGGTTTCTCGCGGCGCTGGCTGCAGGACATTCTGCGTGGCGAGCTGGGTTTCGATGGCGTGATCTTCAGCGACGATCTTTCGATGGCTGGCGCACATGTGGCCGGCGATGCCGCCGATCGAATCGAGGCTGCGCTAGGTGCGGGATGCGATATGGGGCTGGTGTGTAATGACCGGGACTCTGCCGAGTTGGCTCTGCAGGCGTTGCAACGGCTCAAGGTCGAGCGCCCGGTACGTCTCGCACGCATGCGTGGAAGGGGCTTCGCAACCACCGAGTACCGTCAGGACCCGCGCTGGCTGGCAGCCGTGGCGGCTCTGCGGAATGCTCAATTGATCGACTGA	MQGSLMLDIAGTWLTAEDRCLLRQPEVGGLILFARNIEHQRQVRELCASIRAVRPDLLLAVDQEGGRVQRLRQGFVRLPAMRAIADNADAEILAEHCGWLMATEVLAVGLDISFAPVLDLDHQRSAVVGSRAFEGDAERTALLAGAFIRGMSAAGMAATGKHFPGHGWAEADSHVAIPVDERDLDEIRACDLVPFARLRDQLAAVMPAHVIYPAVDAQPAGFSRRWLQDILRGELGFDGVIFSDDLSMAGAHVAGDAADRIEAALGAGCDMGLVCNDRDSAELALQALQRLKVERPVRLARMRGRGFATTEYRQDPRWLAAVAALRNAQLID	PGPT0012175_4353	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSAMINIDASE,PGPT0012175-nagZ-K01207	NA	NA
BMS010_07629	738		COG0005	S-methyl-5'-thioinosine phosphorylase	ATGACTGTCTACGCCATTATCGGCGGCACTGGCCTGACCCAACTGGAAGGTCTGACCATTCGCCAGGCCCAATCCATGGATACGCCTTATGGCGCCCCGTCTGCGGACATCATGCGTGGCGAGTATGCCGGCCGCGAAGTGCTGTTCCTGGCACGGCATGGCCAGCCGCACCGTATCCCGCCCCATCAGGTCAATTACCGGGCCAACCTCTGGGCGCTGAAACAGGCGGGAGCCAACGCGATTCTCGCGGTGAACGCCGTGGGCGGTATCCATGCGGCGATGGGCACCGGGCATTTCTGCGTCCCGCATCAGATCATTGATTACACCTCCGGACGTGCGCATACCTTTTACGAGGGCGAGCTGGAACACGTTACCCACGTGGATTTCAGTCATCCGTACGACGAGACGCTACGCGGCCGGCTCGTCGCGGCGTTGGCGGCAGAAGGTTGTGCTTATAGTGGCCACGGCGTCTACGGCTGCACCCAGGGACCTCGGCTGGAAACGGTCGCCGAGATCGCCCGCCTGGAGCGTGATGGCTGCGATATCGTCGGAATGACCGGCATGCCGGAGGCAGCGCTGGCGCGGGAGTTGGCCCTGCCTTACGCCTGCTTGGCGCTGGTGGTGAACCCCGCGGCGGGCAAATCCGCAGCGTTGATCACCATGGCGGAGATCGAGCGCGCGTTGAACGAGGGGATGGGGAAGGTCAAGGCCGTGTTGGCGCGGGTGCTGGCGGACTGA	MTVYAIIGGTGLTQLEGLTIRQAQSMDTPYGAPSADIMRGEYAGREVLFLARHGQPHRIPPHQVNYRANLWALKQAGANAILAVNAVGGIHAAMGTGHFCVPHQIIDYTSGRAHTFYEGELEHVTHVDFSHPYDETLRGRLVAALAAEGCAYSGHGVYGCTQGPRLETVAEIARLERDGCDIVGMTGMPEAALARELALPYACLALVVNPAAGKSAALITMAEIERALNEGMGKVKAVLARVLAD				NA	NA	NA	NA	NA
BMS010_07630	525			hypothetical protein	ATGCCTGCGCTTCGCTACATCGCACTGTTGTTCATTTTCCTCGCGCCAACGGCCTTCGCCGACGGGCTCTACCAGGTCGAGCTGATCCTGTTCCGCCAGGCCGGCGAGACGATTCCCTCCAGCCAGCCCGCTCCCGAGGATTGGGCCGCCGGGGCACAACGTCTGGGAGCCGGCAGCGAACGGGCTACGGCTTTGAACAACGAAGCGGCCAAGCTCACCCCCGCCAACGGCTATCAGGTGCTGCTACACCAAGCCTGGCAACAGATGCTCGGCACTACGCCCAGCAAGATCATCGTCAGCACGGGGCAAGAGCAATTCGGGCACTTTCCGGTGGAAGGCACACTGTCGATGAACCAAAACCGCCTGGTGGATCTGGAAGCCGAGTTCTGGGTCAACCAATTCGATGCGGATGGCGTGCTGGTCGGCAGTGAATACATGAAGCAGGGCAGCCGGCTCAAGAACGGCGAACTGACCTATTTGGACCACGGCAGCCTGGGGCTGCTGATCCGCGTGTCCCCTCTCTGA	MPALRYIALLFIFLAPTAFADGLYQVELILFRQAGETIPSSQPAPEDWAAGAQRLGAGSERATALNNEAAKLTPANGYQVLLHQAWQQMLGTTPSKIIVSTGQEQFGHFPVEGTLSMNQNRLVDLEAEFWVNQFDADGVLVGSEYMKQGSRLKNGELTYLDHGSLGLLIRVSPL				NA	NA	NA	NA	NA
BMS010_07631	3453	mfd_2	COG1197	Transcription-repair-coupling factor	GTGTCCGTATCCGTACTGCGCCTCCCTACCCTGCCGGCTGCGACCGGTAAACAGCACTGGGGCAACCTGCCCGGTGCCGCCCTGTCCCTGGCCATTGCCGAAGCCGCCAGCGCGGCCAGACGCTTCACCCTGCTGCTCACCGCCGACAGTCAGAGCGCCGAGCGCCTGGAGCAGGAACTGGCCTTCTTCGCACCAAACCTGCCGGTACTGCATTTCCCCGACTGGGAAACGCTGCCCTACGATCTGTTTTCTCCGCACCAGGACATCATCTCGCAGCGTGTCGCCAGCCTGTATCGCCTTCCCGAGCTGAGGCACGGCGTCCTGGTAGTGCCGATCAGTACCGCCCTACATCGCCTGGCGCCGACCCGCTTCCTGCTCGGCTCAAGTCTGGTGCTGGACGTAGGGCAGAGGCTCGACGTCGAACAGATGCGCCTGCGCCTCGAGGCGGCCGGCTACCGATGCGTGGACACCGTCTACGAGCATGGCGAGTTCGCCGTGCGCGGCGCACTGATCGATCTGTTCCCCATGGGCAGCCCCCTGCCCTACCGCATCGACCTGTTCGACGATGAAATCGAAACGCTACGCACCTTCGATCCGGAAACCCAGCGCTCGATCGACAAGGTGGAATCCATCCGCCTGCTGCCCGCCCGCGAATTCCCGCTGGACAAGAAAGCCGTCACCGATTTCCGCGGGCGCTTTCGCGAGCGCTTCGACGTCGATTTCCGTCGCTGCCCGATCTACCAGGATCTTGCCAGCGGCATCACCCCGGCGGGCATCGAGTATTACCTGCCGTTGTTCTTCGAAGAGACAGCCACGCTCTTCGATTACCTGCCCCAGGACACCCAGGTCTTTTCCCTGCCTGGCATCGAACAGGCGGCGGAACAATTCTGGGTCGACGTTCGTAACCGCTACGAAGATCGCCGTGTCGACCCGGAGCGACCGATTCTGCCGCCAGCCGAGCTTTTCCTGCCGGTGGAAGATTGCTTCGCTCGCCTGAAAAACTGGCCACGCATTGTCGCCGACCAGAAGGACATCGAGCCCGGCGTTGGCCGCGAACGCTTCCCTGCCCAACCGCTGCCCGAGCTGGCCATCGAGGCCAAGGCCAGCGAACCGCTCGGCGCCCTGCGCCGCTTCCTCGATCAATTCCCCGGACGCGTGCTGTTCACCGCCGAGTCCGCTGGCCGCCGCGAAGTCCTGCTGGAACTGCTGGCACGCCTGAAACTCAAGCCTCAGGAAGTCGACGGCTGGCCACAATTCCTGGAAAGCCAAGAACGCCTGGCCATCAGCATCGCGCCGCTGGATGAGGGGCTTCTGCTCGACGAGCCGGCCGTCGCATTGGTCGCCGAAAGTCCATTGTTCGGCCAACGCGTCATGCAGCGTCGGCGCCGCGAAAAGAGCCGCGATGGCGGCGAGAACGTCATCAAGAACCTGACCGAGCTGCGCGAAGGCGCGCCGGTGGTACACATCGACCATGGCGTCGGCCGCTACCTGGGCCTGATCACCCTGGAAATCGACGGACAGAGCGCCGAATTCCTCGCCCTGCAGTATGCCGACGAAGCCAAGCTCTATGTGCCGGTGGCCAGCCTGCACCTGATCGCCCGCTATACCGGCAGCGACGACGCTCTCGCTCCGCTGCACCGACTGGGCTCGGAGCAATGGCAAAAAGCCAAACGCAAAGCGGCCGAACAGGTGCGCGATGTCGCCGCCGAACTGCTCGATATCTACGCCCGTCGCGCCGCCCGCAAGGGCTATGCCTTCAAGGACCCGGCCGCCGACTACGCCACCTTCGCCGCCGGTTTCCCGTTCGAGGAAACCCCCGACCAGCAGGTCGCCATCGACTCGGTGCTCGCCGATATGCTGGCCGAGAAGCCGATGGATCGCCTGGTCTGCGGTGACGTGGGCTTCGGTAAGACCGAAGTCGCCATGCGTGCCGCGTTCGTCGCGGTACACAGCGGTAAGCAGGTGGCCGTGCTGGTACCGACCACCCTGCTCGCCCAACAGCACTACAACAGTTTCCGCGACCGGTTCGCCGACTGGCCGGTAACGGTGGAAGTGATGAGCCGCTTCAAGTCGGCCAAGGAAGTCGAAGGCGCAATACAGCAGCTCGCCGAAGGCAAGGTGGATATCGTCATCGGCACCCACAAGCTGCTGCAGGACGACGTCAAGTTCAAGAACCTCGGGCTCGTCATCATCGATGAAGAGCACCGTTTCGGTGTTCGCCAGAAGGAACAGCTCAAGGCCCTACGCAGCGAAGTCGACATTCTCACCCTCACCGCCACACCGATCCCCCGTACCCTGAACATGGCCGTGGCCGGCATGCGCGACCTGTCGATCATCGCCACCCCCCCCGCCCGGCGCCTGTCGGTGCGGACGTTCGTCATGGAGCAGCAGAACGCGGTGATCAAGGAAGCCCTGCTGCGCGAGCTGCTGCGCGGCGGCCAGGTCTATTACCTGCACAACGAGGTCAAGACCATCGAGAAATGTGCCCGCGACCTCGCCGAACTGGTGCCGGAGGCGCGTATCGCCGTCGGCCATGGGCAGATGCGCGAGCGCGAACTGGAACAGGTGATGAGCGACTTCTACCACAAGCGCTTCAACGTGCTGGTGGCGTCGACCATCATCGAGACCGGCATCGACGTGCCCAGCGCCAACACCATCATCATCGAACGTGCCGACAAGTTCGGCCTGGCCCAGCTGCACCAGCTCCGCGGCCGTGTCGGGCGCAGTCACCACCAGGCCTACGCCTATCTGCTGACACCACCCCGCAAGGCCATGACGCCGGATGCCGAGAAGCGCCTGGAAGCCATTGCCAATGCCCAGGATCTCGGCGCCGGCTTCGTTCTCGCCACCCATGACCTGGAAATCCGCGGCGCCGGCGAACTGCTCGGAGAAGGCCAGAGCGGGCAGATCCAGGCAGTCGGCTTCACGCTCTATATGGAAATGCTGGAGCGGGCGGTCAAGGCCATCCGCAAGGGCGAGCAGCCCAATCTGGAACAGCCGCTGGGTGCTGGTCCGGAGATCAATCTGCGCGTTCCGGCCTTGATCCCGGAGAATTACCTACCCGACGTGCATGCCCGCCTGATCCTCTACAAGCGCATCGCCTCGGCCACGGACGAAGACGGCCTGAAGGAGCTGCAAGTGGAGATGATCGACCGCTTCGGCCTGCTGCCGGAGGCGACCAAGAACCTGATGCGTCTGACCCTGCTCAAACTGCAGGCGGAGAAGCTCGGCATCCTCAAGGTCGACGCCGGCCCGCAAGGCGGACGCATCGAATTCGCCGCCGACACCGTGGTCGATCCGCTGGTGCTGATCAAGTTGATCCAAAGCCAACCCAATCGCTACAAGTTCGAAGGGGCCACCCTCTTCAAGTTCCAGGTGCCAATGGAGCGCCCGGAAGAGCGCTTCAATACCCTGGAGGCGCTGATCGAGCGCCTGACTCCACAATCCGCTTAA	MSVSVLRLPTLPAATGKQHWGNLPGAALSLAIAEAASAARRFTLLLTADSQSAERLEQELAFFAPNLPVLHFPDWETLPYDLFSPHQDIISQRVASLYRLPELRHGVLVVPISTALHRLAPTRFLLGSSLVLDVGQRLDVEQMRLRLEAAGYRCVDTVYEHGEFAVRGALIDLFPMGSPLPYRIDLFDDEIETLRTFDPETQRSIDKVESIRLLPAREFPLDKKAVTDFRGRFRERFDVDFRRCPIYQDLASGITPAGIEYYLPLFFEETATLFDYLPQDTQVFSLPGIEQAAEQFWVDVRNRYEDRRVDPERPILPPAELFLPVEDCFARLKNWPRIVADQKDIEPGVGRERFPAQPLPELAIEAKASEPLGALRRFLDQFPGRVLFTAESAGRREVLLELLARLKLKPQEVDGWPQFLESQERLAISIAPLDEGLLLDEPAVALVAESPLFGQRVMQRRRREKSRDGGENVIKNLTELREGAPVVHIDHGVGRYLGLITLEIDGQSAEFLALQYADEAKLYVPVASLHLIARYTGSDDALAPLHRLGSEQWQKAKRKAAEQVRDVAAELLDIYARRAARKGYAFKDPAADYATFAAGFPFEETPDQQVAIDSVLADMLAEKPMDRLVCGDVGFGKTEVAMRAAFVAVHSGKQVAVLVPTTLLAQQHYNSFRDRFADWPVTVEVMSRFKSAKEVEGAIQQLAEGKVDIVIGTHKLLQDDVKFKNLGLVIIDEEHRFGVRQKEQLKALRSEVDILTLTATPIPRTLNMAVAGMRDLSIIATPPARRLSVRTFVMEQQNAVIKEALLRELLRGGQVYYLHNEVKTIEKCARDLAELVPEARIAVGHGQMRERELEQVMSDFYHKRFNVLVASTIIETGIDVPSANTIIIERADKFGLAQLHQLRGRVGRSHHQAYAYLLTPPRKAMTPDAEKRLEAIANAQDLGAGFVLATHDLEIRGAGELLGEGQSGQIQAVGFTLYMEMLERAVKAIRKGEQPNLEQPLGAGPEINLRVPALIPENYLPDVHARLILYKRIASATDEDGLKELQVEMIDRFGLLPEATKNLMRLTLLKLQAEKLGILKVDAGPQGGRIEFAADTVVDPLVLIKLIQSQPNRYKFEGATLFKFQVPMERPEERFNTLEALIERLTPQSA				NA	NA	NA	NA	NA
BMS010_07632	1470	gap2		Glyceraldehyde-3-phosphate dehydrogenase-like protein	ATGTGGAAGGTATTGCCCGTGACTCAGAAGCCCGACCAGTGTCTCGGTGAATGGATTGATCGTGAAGCCCTTGCGGAAGCGATGATTCCGCTGATCGGTCAGCTCTACCGTAACAACAACGTGGTGACGTCGATTTACGGCCGCGGCCTGATCAATCGCTCGGTAATCGCGATTCTCAAGGCCCACCGCTTCGCACGTCACCGCCTGGTGGACGAGACCGAGCTGTCGGTGCACGAGACGTTCCCGATCCTGAAGATCATGAGCGAGCTCAAGCTGGGGGCCGCATCGGTCGACCTGGGCAAGATGGTCGCCAAGTTCAAGGCGGAAGGTAACGGTCGCAATATCGAGCAGTTCGTGCGTGATGAGCTGGCCGATGTAGTCGGCAAGCAGAACAGCGTTCCTCGCGAGGGCACCGATGTCGTTCTGTACGGCTTCGGCCGTATCGGTCGCCTGCTGGCGCGCATCCTCATCGAGAAGACTGGTGGCGGCGACGGGCTCCGTCTGCGGGCCATCGTCGTGCGCAAGGGGGCCGAGAACGATCTGGTCAAGCGCGCCAGCCTGCTGCGTCGTGATTCCGTGCATGGTCCGTTCGACGGCACCATTACCATCGACGAAGCGAACAACACCCTGACCGCCAACGGCAACCTGATCCAGATAATCTACTCCAACGACCCGTCCTCGGTGGATTACACCCAGTACGGTATCAAGGACGCCCTGCTGGTGGACAACACCGGCAAATGGCGTGATGCCGAAGGTCTCGGTCAGCACCTCAAGTGTCCGGGCATTGCTCGTGTCGTATTGACCGCTCCGGGCAAGGGTGCCCTGAAGAATATCGTGCATGGCATCAACCATGCCGAAATCACCGACGACGATAAGATCGTTTCCGCGGCGTCCTGCACCACCAACGCCATCGTTCCGGTGCTGAAGGCGGTGAATGACAAGTTCGGTATCGTCAATGGTCATGTCGAAACCGTTCACTCCTACACCAACGACCAGAACCTGATCGACAACTTCCACAAAGGAAGCCGTCGTGGCCGCAGCGCCCCGCTGAATATGGTGATCACCGAGACCGGTGCCGCCACTGCCGCCGCCAAGGCGCTGCCGGTACTGAAAGGCAAGCTGACCGGCAATGCCATCCGTGTTCCGACGCCGAACGTCTCCATGGCCATTCTCAACCTGAACCTGGAGAAGGCCACCAACCGCGAGGAGATCAACGAGTACCTGCGCCAGATGGCCATGCACTCGGATCTGCAGAAGCAAATCGACTTCGTCAGCTCGCAGGAAGTGGTATCCAGTGACTTCGTGGGCTCGCGTCACGCCGGCGTGGTGGATGCCGAAGCGACCATCTGCAACGACAACCGTGTCGTTCTCTATGTCTGGTACGACAATGAGTTCGGCTACAGCTGCCAGGTGGTGCGCGTGATGGAAGAGATGGCTGGCGTCAACCCGCCCGCTTTCCCGCGTGCCTGA	MWKVLPVTQKPDQCLGEWIDREALAEAMIPLIGQLYRNNNVVTSIYGRGLINRSVIAILKAHRFARHRLVDETELSVHETFPILKIMSELKLGAASVDLGKMVAKFKAEGNGRNIEQFVRDELADVVGKQNSVPREGTDVVLYGFGRIGRLLARILIEKTGGGDGLRLRAIVVRKGAENDLVKRASLLRRDSVHGPFDGTITIDEANNTLTANGNLIQIIYSNDPSSVDYTQYGIKDALLVDNTGKWRDAEGLGQHLKCPGIARVVLTAPGKGALKNIVHGINHAEITDDDKIVSAASCTTNAIVPVLKAVNDKFGIVNGHVETVHSYTNDQNLIDNFHKGSRRGRSAPLNMVITETGAATAAAKALPVLKGKLTGNAIRVPTPNVSMAILNLNLEKATNREEINEYLRQMAMHSDLQKQIDFVSSQEVVSSDFVGSRHAGVVDAEATICNDNRVVLYVWYDNEFGYSCQVVRVMEEMAGVNPPAFPRA	PGPT0018000_95	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0018000-gapA-K00134	NA	NA
BMS010_07633	1338	nqrA	COG1726	Na(+)-translocating NADH-quinone reductase subunit A	ATGATCAAAATAAAACGTGGGCTCGACTTGCCCATAACAGGTGCGCCGGCGCAGCGTATCGAGGCCGGAAGGCCGGTTCGCAGCGTCGCCGTCATAGGCTTCGATTATCACGGGATGAAGCCGACCATGCAGGTACAGGTCGGTGACCGGGTCAAGCTCGGTCAGGTTCTCTTCTCCGACAAGAAGACGCCGGGTGTGCATTACACGGCGCCGGCTGCCGGGGTGGTGAGTGCCATTCATCGTGGTGAGAAGCGTGTCCTGCAGTCGGTGGTGATCGACATCGACGGCGATGAACAGGAGACCTTCGCTCAGTATCCGGCTTCGCAGTTGGACAGCCTGAGCAGCGAGCAGGTCCGCGAAAACCTGCAACAGTCCGGTCTATGGACTGCATTGCGCGCCCGTCCGTTCAGCAAGGTGCCGGCGATCGATGCCACACCGAACTCCATCTTCGTGACGGCTATCGACACCCATCCGCTGGCTGCCGATCCGGCGGTAATCATTGCCGAGCATGCTGCCGACTTCGAGAACGGCCTGAAGGTGCTGGGCAACCTCGCCAAGGTCTTCCTCTGCAAGGCAGAAGGGGCCAGCGTGGCGGGCGAGAAACTGTCGAAGGTCCAGACTGAGTCCTTCTCCGGGCCACATCCCGCCGGCCTGCCGGGCACCCACATTCATTTCCTCGATCCGGTCAGCGCATCCAAGAGCGTCTGGACCATCAACTATCAGGACGTGATCGCCGTCGGCAAGCTGTTCACCACAGGGCAGTTGTGGATGGAGCGTGTGGTGTCGCTGGCCGGTCCGGTGGTCGAGAAGCCTCGCCTGGTCCGTACCCGCGTCGGTGCCAACCTGGATGAGCTGACCGCCGGTGAGCTGCAGCCCGGCTACAACCGCGTCGTATCCGGCTCGTTGCTGGGCGGCCGTACCGCCCACGGTGCGTTCGCCTACCTGGGCCGCTACCACCTGCAGGTGTCCTGCCTGCGCGAAGGTAACGACCGTGAAATGCTGCATTACCTGCGCGCCGGGGTCGACAAGCACTCCGTGTTGAATATCTTCGTTTCCAAGCTGATGGGGGCGAAGAAGTTCGCCTTCTCCACCACCACCAACGGCAGCCCCCGCGCCATGGTGCCGGTCGGCAACTACGAAGAAGTGATGCCGCTGGACATCCTGCCGACCCAACTGCTGCGTTCGCTGATCGTCGGCGACACCGAAGTGGCACAGAAACTCGGCTGCCTGGAGCTGGACGAAGAAGACCTGGCGCTCTGCACCTATGTCTGTGCCGGCAAGTACGAATACGGCCCGATCCTGCGGGATAACCTGACCCGTATCGAGAAGGAGGGTTGA	MIKIKRGLDLPITGAPAQRIEAGRPVRSVAVIGFDYHGMKPTMQVQVGDRVKLGQVLFSDKKTPGVHYTAPAAGVVSAIHRGEKRVLQSVVIDIDGDEQETFAQYPASQLDSLSSEQVRENLQQSGLWTALRARPFSKVPAIDATPNSIFVTAIDTHPLAADPAVIIAEHAADFENGLKVLGNLAKVFLCKAEGASVAGEKLSKVQTESFSGPHPAGLPGTHIHFLDPVSASKSVWTINYQDVIAVGKLFTTGQLWMERVVSLAGPVVEKPRLVRTRVGANLDELTAGELQPGYNRVVSGSLLGGRTAHGAFAYLGRYHLQVSCLREGNDREMLHYLRAGVDKHSVLNIFVSKLMGAKKFAFSTTTNGSPRAMVPVGNYEEVMPLDILPTQLLRSLIVGDTEVAQKLGCLELDEEDLALCTYVCAGKYEYGPILRDNLTRIEKEG	PGPT0013975_752	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CATION_TRANSPORT,PGPT0013975-nqrA-K00346	NA	NA
BMS010_07634	1212	nqrB	COG1805	Na(+)-translocating NADH-quinone reductase subunit B	ATGGGTATTCGAGCATTCCTCGACAAGATCCAGCACAACTTCGAAAAAGGTGGCAAGTACGAGAAGTGGTATGCGCTTTACGAAGCCATCGACACCTTCTTCTATCGCCCCGGCAGCGTGACCAAGACGACTGCTCACGTGCGCGACGGCATTGACCTCAAGCGCATGATGATCACCGTCTGGATGTGCACCTTCCCGGCGATGTTCTTCGGCATGTGGAACGTCGGCTATCAGGCCAACCTGATCTTCGCAGCCAACCCTGGGCTGCTCGCGGCTCAGGACGGCTGGCGCTTTGCGCTGACCGGCGCTCTGGCCGGTTTCGACCCGAATAGCCTGTGGGACAACTTCGTCCAGGGCGCGGCCTACTTCCTGCCGATCTATGCGGTGACCTTTATCGTCGGTGGCTTCTGGGAAGTGCTGTTCGCATCGATCCGCAAGCATGAGGTCAACGAGGGCTTCTTCGTTACTTCCGTGCTGTTCGCTCTGATCCTGCCGCCGACCATCCCGCTCTGGCAGGTCGCCCTCGGCATCAGCTTCGGCGTGGTGATCGGCAAGGAAGTCTTCGGCGGTACCGGCAAGAACTTCCTCAACCCGGCACTGACCGGCCGTGCCTTCCTGTTTTTCGCCTATCCGGCGCAGATGTCCGGCGACGCGGTGTGGACTGCCGTTGACGGCTTCGCCGGCGCCACGGCGCTGAGCTTGAGCGCTGCGGGTGGCATCGAGAACGTGATTGGCCACGGCATTACCTGGATGGATGCCTTTATTGGCACCATGCACGGCTCGGTAGGTGAAACCAGCACGCTGGCCATCTTCATCGGCGGCGCCGTGCTGCTGATGACTAAGATCGCGTCCTGGCGCATCGTTGCCGGTGTGATGATCGGCATGATCGGGCTCAGCCTGCTGTTCAACGCAATCGGCTCGCAGACCAATCAGATGTTCGCCATGCCCTGGTACTGGCACATGGTGGTGGGCGGCTTCGCCTTCGGCATGGTCTTCATGGCCACCGACCCGGTGTCGGCTTCCATGACCAATGTCGGCAAATGGATCTTCGGTGCCTTGATCGGTGTGATGGTCGTATTGATCCGTGTGGTCAACCCGGCCTTCCCGGAAGGCATGATGCTGGCGATTCTGTTCGCCAACCTGTTCGCACCGCTGATCGACCACTTCGTCGTTCAGGCCAATATCAAGCGGAGGCTGGCACGCAATGTCTAG	MGIRAFLDKIQHNFEKGGKYEKWYALYEAIDTFFYRPGSVTKTTAHVRDGIDLKRMMITVWMCTFPAMFFGMWNVGYQANLIFAANPGLLAAQDGWRFALTGALAGFDPNSLWDNFVQGAAYFLPIYAVTFIVGGFWEVLFASIRKHEVNEGFFVTSVLFALILPPTIPLWQVALGISFGVVIGKEVFGGTGKNFLNPALTGRAFLFFAYPAQMSGDAVWTAVDGFAGATALSLSAAGGIENVIGHGITWMDAFIGTMHGSVGETSTLAIFIGGAVLLMTKIASWRIVAGVMIGMIGLSLLFNAIGSQTNQMFAMPWYWHMVVGGFAFGMVFMATDPVSASMTNVGKWIFGALIGVMVVLIRVVNPAFPEGMMLAILFANLFAPLIDHFVVQANIKRRLARNV				NA	NA	NA	NA	NA
BMS010_07635	789	nqrC	COG2869	Na(+)-translocating NADH-quinone reductase subunit C	ATGTCTAGTCAAAAAGAATCCACCGTCCGTACGCTGACGGTGGCGGTTCTGGTCTGCCTGGTGTGCTCGGTATTCGTTGCCGGCGCAGCCGTGGCGTTGAAACCGACCCAGCTCGACAACCGCCTGCTGGACAAGCAGCGCAGCATTCTCTCCATCGCTGGCCTGGGTCAGCCGGGAATGCCGGCTCGTGAAGTGAAGGAACTGTTCAACAGCCGCATCACCACCAAGGTGGTCGACCTCGAGACCGGCAAATTCACCGATGCACAGGACCCGAAGACGTTCGACCCGTTGAAGGCAGCCAAGGACCCGAAGCTGTCCAAGGTACTGTCGGGTGAGGAAGATATCGCCTCGATCAAGCGCCAGGAGCGTTACACCACGGTCTATCTGGTGGAGAAGGACGGGCAGCTCGATACCCTGATCCTGCCTGTTCGCGGTTACGGCCTGTGGTCCACCCTGTATGGCTTCCTGGCCATCAAGGGCGATCTCAACACAGTGGTCGGCATGGGCTTCTACCAGCATGGCGAGACGCCCGGTCTGGGTGGTGAAGTCGACAACCCGAAATGGCGCGGCCAGTGGCCGGGCAAGACCCTTTTCGCCGAAGACGGCACGCTTGCCGTGGATATCGTCAAAGGCGGTGTAGACCCGCAAAGCCCGAAAGCCGTGCACCAGGTCGATGCCTTGGCCGGTGCAACCCTGACCAGCAAAGGGGTGAACAACCTGTTGCATTTCTGGTTGGGCGAGAACGGCTTCGGTCCTTTTATCGCTAACCTGCGCGCCGGGGAGGCCTGA	MSSQKESTVRTLTVAVLVCLVCSVFVAGAAVALKPTQLDNRLLDKQRSILSIAGLGQPGMPAREVKELFNSRITTKVVDLETGKFTDAQDPKTFDPLKAAKDPKLSKVLSGEEDIASIKRQERYTTVYLVEKDGQLDTLILPVRGYGLWSTLYGFLAIKGDLNTVVGMGFYQHGETPGLGGEVDNPKWRGQWPGKTLFAEDGTLAVDIVKGGVDPQSPKAVHQVDALAGATLTSKGVNNLLHFWLGENGFGPFIANLRAGEA				NA	NA	NA	NA	NA
BMS010_07636	669	nqrD	COG1347	Na(+)-translocating NADH-quinone reductase subunit D	ATGTCGCAACCGACTATCAAAGAAGTACTGTTCAATCCGGTTCTGAACAACAACCCCATCGGCCTGCAAATCCTCGGGATCTGCTCGGCGCTGGCGGTGACGTCGAACCTCAAGACCGCTCTGGTGATGTCCATCGCCCTGTCACTGGTAACCGGCTTCTCGAACCTGTTCATCTCGATGATCCGCAGCCAGATCCCCAGCTCGATCCGCATGATCGTGCAGATGGTGATCATCGCGTCGCTGGTGATCGTGGTGGACCAGATCCTCAAGGCCTACGCCTTCAGTCTGTCCAAGCAATTGTCGGTATTCGTCGGCCTGATCATCACCAACTGCATCGTGATGGGGCGTGCCGAAGCCTTCGCCATGCAGAACCCGCCGATCCTGTCGTTCTTCGACGGTATCGGTAACGGGCTCGGCTACAGCGCCATGCTGATCGTGCTCGGCACGTTCCGCGAGCTGTTCGGCGCCGGGAAGCTGATGGGTTACGAGATCATTCCGGTAGTCAACGACGGTGGCTGGTACCAGCCGAACGGGCTGCTGCTGCTGCCGCCTTCGGCATTCTTCCTGATCGGCCTGATCATCTGGGGCCTGCGCTCCTGGAAGAAGGAGCAGGTCGAGCCCGCTGCCTTCAAGATGGCCCCGCAGGTATCCAATAAGGAGGCCTACTAA	MSQPTIKEVLFNPVLNNNPIGLQILGICSALAVTSNLKTALVMSIALSLVTGFSNLFISMIRSQIPSSIRMIVQMVIIASLVIVVDQILKAYAFSLSKQLSVFVGLIITNCIVMGRAEAFAMQNPPILSFFDGIGNGLGYSAMLIVLGTFRELFGAGKLMGYEIIPVVNDGGWYQPNGLLLLPPSAFFLIGLIIWGLRSWKKEQVEPAAFKMAPQVSNKEAY				NA	NA	NA	NA	NA
BMS010_07637	609	nqrE	COG2209	Na(+)-translocating NADH-quinone reductase subunit E	ATGGAGCATTACATCAGCCTGTTCGTGCGGGCCGTGTTCGTCGAGAACATGGCGCTGGCCTTCTTCCTCGGCATGTGTACCTTCATCGCCATTTCCAAGAAGGTCGAAACCGCCATCGGTCTGGGCATCGCGGTCATCGTGGTGCAGGCCATCACCGTGCCGGCCAACAACCTGATCTACACCTATCTGCTCAAGGACGGTGCGCTGGCCTGGGCCGGTCTGCCGGAAGTCGATCTCAGCTTCCTCGGCCTGCTCAGCTACATCGGCGTGATCGCGGCGATCGTGCAAATCCTCGAGATGCTGCTCGATAAGTACGTGCCCAGCCTGTACAACGCGTTGGGGGTCTTCCTGCCCTTGATCACCGTGAACTGCGCCATCATGGCGGGTTCGCTGTTCATGGTGGAGCGGGACTACAACCTGGCGGAGAGTGCCACTTATGGCGTGGGTTCCGGTCTGTCCTGGGCGCTGGCAATCGCCACCCTGGCGGGCATCCGCGAGAAGCTCAAGTACAGCGACGTGCCGGAAGGCCTGCGCGGTCTGGGCATCACCTTCATCACCATCGGCTTGATGTCCCTGGGCTTCATGTCCTTCTCCGGTGTCCAGCTGTAA	MEHYISLFVRAVFVENMALAFFLGMCTFIAISKKVETAIGLGIAVIVVQAITVPANNLIYTYLLKDGALAWAGLPEVDLSFLGLLSYIGVIAAIVQILEMLLDKYVPSLYNALGVFLPLITVNCAIMAGSLFMVERDYNLAESATYGVGSGLSWALAIATLAGIREKLKYSDVPEGLRGLGITFITIGLMSLGFMSFSGVQL	PGPT0013260_757	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013260-rnfA|rsxA-K03617	NA	NA
BMS010_07638	1224	nqrF_2	COG2871	Na(+)-translocating NADH-quinone reductase subunit F	ATGAATTACGAAATTTTCCTGGCCATCGGAATGTTCACCGCCATCGTACTGGCATTGGTGGTGATCATCCTGCTGGCGCGCGCCAAGCTGGTATCCAGCGGCGACGTGACCATCGAAATCAACGGCGAGAAAACCATCACGGTGCCGGCCGGCGGTAAGCTCCTGCAAACCCTGGCGGCAAACAACATCTTCCTCTCGTCTGCTTGTGGTGGCGGTGGTACCTGCGCTCAGTGCAAGTGCGTCGTCGAGAGCGGCGGCGGCGAAATGCTGCCGACCGAAGAGTCGCACTTCACCCGCCGCGAAGCGGGCGAGGGCTGGCGCTTGTCCTGCCAGACTCCGGTCAAACAGGACATGAAGATCGAGGTGCCGGAAGAAGTTTTCGGCGTGAAGAAGTGGGAGTGCACGGTGGCGTCCAACCCCAACGTCGCCACCTTCATCAAAGAGCTGACTCTGAAGTTGCCTGAAGGCGAGAACGTGGATTTCCGTGCGGGCGGCTACGTCCAGTTGGAATGCCCGCCGCACGTGGTGAACTACAAGGACTTCGATATCCAGCCCGAATACCGCGGCGACTGGGACAAGTTCAACATGTGGCGCTACGTGTCCAAGGTCGACGAGACCGTGATCCGTGCCTACTCGATGGCGAACTACCCGGAAGAACGCGGTCTGGTGAAGTTCAATATCCGTATCGCATCGCCGCCGCCAGGCAAGGACCATATTCCGGCGGGCAAGATGTCCTCTTGGGTATTCAATCTGAAGCCGGGCGACAAGGTCACCGTATACGGCCCCTTCGGTGAGTTCTTTGCCAAGGATACCGACGCCGAGATGGTGTTCATCGGTGGTGGTGCCGGCATGGCACCGATGCGTTCGCACATCTTCGACCAACTGAAGCGCCTGAAATCCAAGCGTAAGATCAGCTTCTGGTACGGTGCGCGTTCGTTGCGCGAAGCCTTCTATGTCGAAGAGTACGATCAGCTCCAGGCGGAGAACGAGAACTTCCAGTGGCATCTGGCGCTCTCAGATCCCCAGCCCGAGGACAACTGGACCGGCCTGACTGGCTTCATCCACAACGTGCTGTACGAGAACTACCTGAAGGACCACCCGGCGCCGGAAGATTGCGAGTTCTACATGTGCGGCCCGCCGATGATGAACGCGGCGGTGATCAAGATGCTGACCGATCTGGGTGTAGAGCGGGAGAACATCCTTCTCGACGACTTCGGCGGCTAA	MNYEIFLAIGMFTAIVLALVVIILLARAKLVSSGDVTIEINGEKTITVPAGGKLLQTLAANNIFLSSACGGGGTCAQCKCVVESGGGEMLPTEESHFTRREAGEGWRLSCQTPVKQDMKIEVPEEVFGVKKWECTVASNPNVATFIKELTLKLPEGENVDFRAGGYVQLECPPHVVNYKDFDIQPEYRGDWDKFNMWRYVSKVDETVIRAYSMANYPEERGLVKFNIRIASPPPGKDHIPAGKMSSWVFNLKPGDKVTVYGPFGEFFAKDTDAEMVFIGGGAGMAPMRSHIFDQLKRLKSKRKISFWYGARSLREAFYVEEYDQLQAENENFQWHLALSDPQPEDNWTGLTGFIHNVLYENYLKDHPAPEDCEFYMCGPPMMNAAVIKMLTDLGVERENILLDDFGG				NA	NA	NA	NA	NA
BMS010_07639	1029	apbE	COG1477	FAD:protein FMN transferase	ATGATTGCTGCAGTACTCAAGCCCGTCAGCGTCGCCGCACTTGCGGCGGCCCTGACGGGCTGCTTGTTTTCCGACACGGTAGAAACCTTCGGTGGCCCCACGATGGGCAGCACCTACTCGGTCAAGTACGTACGCGGCTCGGGTATGCCGGGTGTCGAGCAGGTACAACCTGAAGTGGAGCGCATCCTGGCCGATATCGACCGCCAGATGTCCACCTACCGCAGCGATTCCGATATCGAGCGTTTCAACGAAGCGCCTGGCGGCACCTGCATGGCGATGCCGGAACCCGTCCTGACCTTGGTGAGGGCCGGTGACCGATTGTCGCGACTCAGCGAGGGCTCGTTCGATCTGACGCTGGAGCCGCTGCTCAACCTCTGGGGCTTCGGACCCAAGGCCAGGGCGGAAAAAGTCCCCAGTGCCGAAGAACTTGCCGCGGTACGCGAGCAATTCGGCTATCAGCATCTTTCCATTCAGGGCGATCAGCTTTGCAAGGACGCCCCGGTCCAGGTCGATTTCAACAGTATCGCTGCGGGTTATGCGGTGGATCGGATTACCGAACGGCTTCAATCCCTCGGATTGACCAGTTATCTGGTTGAGGCGACGGGCGAGCTGAAAGCGGTGGGCAAGAAGCCGGACGGCTCACCCTGGCGAATCGCCATCGAGGCGCCGCAGAGCGGCGAGCGCGTGGCGCAGAAGATTCTTGCCTTGGATGGCTATGGGGTTTCCTCTTCGGGGGATTACCGTAACTACTTCGAGGAAAACGGGCGCCGTTATTCCCATACGCTCGATCCACAGACGGGGGCTCCGATCAGCCACAAGCTGGCGGCGGTCACCGTGGTGCATGCAGAAACCCTGCAGGCGGACGGGCTGTCTACTCTTTTAATGGTGCTCGGTCCCGAGCGCGGCTATGCCTTCGCCGAGCGCGAGGGGATAGCGGCATTCTTCGTGACCCGCGAGGGAGACGGCTTCGTCACCCGGAGCACTTCCGCATTCGATGCGCTGTTCGCGGCGCAAGGAGAAACACCATGA	MIAAVLKPVSVAALAAALTGCLFSDTVETFGGPTMGSTYSVKYVRGSGMPGVEQVQPEVERILADIDRQMSTYRSDSDIERFNEAPGGTCMAMPEPVLTLVRAGDRLSRLSEGSFDLTLEPLLNLWGFGPKARAEKVPSAEELAAVREQFGYQHLSIQGDQLCKDAPVQVDFNSIAAGYAVDRITERLQSLGLTSYLVEATGELKAVGKKPDGSPWRIAIEAPQSGERVAQKILALDGYGVSSSGDYRNYFEENGRRYSHTLDPQTGAPISHKLAAVTVVHAETLQADGLSTLLMVLGPERGYAFAEREGIAAFFVTREGDGFVTRSTSAFDALFAAQGETP	PGPT0000430_1700	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-Fmn|Dmk|Ppl|Ndh|Eet_SYSTEM,PGPT0000430-nosX|apbE|yojL|fmnB-K03734	NA	NA
BMS010_07640	237			hypothetical protein	ATGACGTGGTTGATCGTATTCGCGGTCATGCTTCTGGTCGTCCTGGGCATGGCCATCGGCGTGATCATGGGGCGCAAGCCGATCGCCGGCTCCTGTGGCGGCATCGCTAACCTGGGTATCGAGAAAGAGTGCTCGATCTGCGGTGGCGATTTCAGCAAATGCGAAGAGGCGAATGCCGACAAGGCTCCGGGCAAAACCGGTGCCAGCGATCTCGCCTACGACGCCAGCAAGCGTTGA	MTWLIVFAVMLLVVLGMAIGVIMGRKPIAGSCGGIANLGIEKECSICGGDFSKCEEANADKAPGKTGASDLAYDASKR				NA	NA	NA	NA	NA
BMS010_07641	1395	sthA_2	COG1249	Soluble pyridine nucleotide transhydrogenase	ATGGCGGTCTACAACTACGATGTCGTGGTGCTGGGTTCGGGCCCGGCGGGTGAAGGCGCGGCGATGAATGCCGTGAAAGCGGGGCGCAAGGTTGCGGTGGTTGACAACCGTCCGCTGGTCGGGGGCAACTGTACGCACCTCGGCACCATCCCCTCCAAGGCGCTGCGACACTCCGTGCGGCAGATCATGCAGTTCAACACCAACCCGATGTTCCGCCAGATCGGTGAGCCTCGCTGGTTCTCCTTTCCCGACGTGCTCAAGAGCGCGGAAAAGGTCATCGCCAAGCAGGTCACGTCGCGCACCGGCTACTACGCCCGAAACCGCATCGATACGTTCTTCGGCACCGCGAGCTTCTCCGACGAGCAGACGATCGAGGTGGTGTGCCTCAACGGCATGGTGGAAAAGCTGGTCGCCCAGCAGATCGTGATCGCCACGGGGTCGCGGCCCTATCGTCCGGCGGATGTCGATTTCACTCACGCACGGGTCTACGACAGCGACACCATCCTGACCCTCAGCCATACGCCGCGTCGCCTGATCATCTATGGAGCCGGCGTGATCGGCTGCGAGTATGCGTCGATCTTCAGTGGCCTGGGGGTGTTGGTCGATCTCATCGATAACCGCGACCAGTTGCTCAGCTTCCTCGACGACGAGATTTCCGATGCGCTCAGCTACCATCTGCGCAATAACAATGTGCTCATCCGCCATAACGAGGAATACGAGCGCATCGAGGGCGTGGATAACGGCGTTGTCCTGCACCTGAAGTCCGGCAAGAAGATCAAGGCCGATGCCTTGCTCTGGTGTAACGGCCGCACCGGCAACACCGACAAGCTGGGGTTGGAGAACATCGGTATCAAGGTCAACAGCCGCGGCCAGATCAAGGTCGATGAGCATTACCGGACCGAGGTCAGCAACATTTATGCGGCGGGCGACGTGATCGGTTGGCCCAGCCTGGCCAGTGCGGCCTATGACCAGGGGCGTTCGGCAGCGGGCAGCATCGTCGAGAACGATAGCTGGCGCTTCGTCGACGACGTTCCGACGGGTATCTACACCATCCCCGAAATCAGCTCCATCGGTAAGAACGAACGTGAGCTGACCCAGGCCAAGGTGCCTTATGAAGTGGGTAAGGCTTTCTTCAAGAGCATGGCTCGCGCCCAGATCGCCGTCGAACCGGTGGGCATGCTGAAAATCCTCTTCCACCGGGAGACCCTGGAAATCCTCGGCGTGCACTGCTTCGGCTACCAGGCCTCGGAGATTGTCCATATTGGCCAGGCGATCATGAACCAGAAGGGCGAGGCGAATTCCATTAAGTATTTCGTCAACACCACCTTCAACTACCCGACCATGGCCGAGGCTTATCGGGTTGCTGCGTTCGACGGTCTCAACAGGCTTTTTTAA	MAVYNYDVVVLGSGPAGEGAAMNAVKAGRKVAVVDNRPLVGGNCTHLGTIPSKALRHSVRQIMQFNTNPMFRQIGEPRWFSFPDVLKSAEKVIAKQVTSRTGYYARNRIDTFFGTASFSDEQTIEVVCLNGMVEKLVAQQIVIATGSRPYRPADVDFTHARVYDSDTILTLSHTPRRLIIYGAGVIGCEYASIFSGLGVLVDLIDNRDQLLSFLDDEISDALSYHLRNNNVLIRHNEEYERIEGVDNGVVLHLKSGKKIKADALLWCNGRTGNTDKLGLENIGIKVNSRGQIKVDEHYRTEVSNIYAAGDVIGWPSLASAAYDQGRSAAGSIVENDSWRFVDDVPTGIYTIPEISSIGKNERELTQAKVPYEVGKAFFKSMARAQIAVEPVGMLKILFHRETLEILGVHCFGYQASEIVHIGQAIMNQKGEANSIKYFVNTTFNYPTMAEAYRVAAFDGLNRLF	PGPT0013495_777	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013495-sthA-K00322	NA	NA
BMS010_07642	720	ugpQ	COG0584	Glycerophosphodiester phosphodiesterase, cytoplasmic	TTGACTCTGATCTACGGCCATCGCGGCGCCAAAGGCGAAGCACCGGAAAACACCCTCGCCAGTTTCCAGAAGTGCCTGGAGCATGGTGTCCGCCGTTGCGAACTGGATCTCCATCTTTCTCGCGACGGCGAGCTGATGGTCATCCACGACCCGACGCTGAAGCGCACCACCGGGCGTCACGGTAAGGTCGTGCAGCACAGCGCCGAGGAACTGGTGGGCTATGATGCACGCCAAGGTGGTCCGGGCTGGGTCCATCCCTGCCCCATCCCCCGACTCAGCGAACTGTTCGAAAAATGCGATTTCGAGCATTGGCAGCTCGAGGTGAAAAGCGCTTCGCGCGTGCGCGCCGCCCGTACGGTATTGGCCATCCAGGCGCTGGCGGAGCGATACGGTCTGCTCGACAAAGTCACCGTAACGTCCAGTTCGCGGGAAGTATTGAGAGCCCTGAACCGCCTGACACCCCAACTATCCCGCGGCCTGGTGGCCGAGTACGCCTGGCTCGATCCGCTGAAAGTCGCCAAGCACAATGGCTGCGAACTCCTGGCCCTGAACTGGACGCTGTGCACACCGGAACGTCTCGAGAAAGCACAGAAACAGGGACTGCACGTATCGGTATGGACAGTGAACGAACCGGCCCTTATGCGCCGGCTCGCCGACTTCGGTGTCGACAGCCTGATCACCGACTTCCCCGGCCTGGCAGTCTCCACTCTGACGCGCTGA	MTLIYGHRGAKGEAPENTLASFQKCLEHGVRRCELDLHLSRDGELMVIHDPTLKRTTGRHGKVVQHSAEELVGYDARQGGPGWVHPCPIPRLSELFEKCDFEHWQLEVKSASRVRAARTVLAIQALAERYGLLDKVTVTSSSREVLRALNRLTPQLSRGLVAEYAWLDPLKVAKHNGCELLALNWTLCTPERLEKAQKQGLHVSVWTVNEPALMRRLADFGVDSLITDFPGLAVSTLTR	PGPT0018470_8084	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
BMS010_07643	294			hypothetical protein	ATGCCACGCCGCTTACTGCTCACCCTATTGCTCACCACTACCCTGCCCTGCTTCGCCGACACTCTGGAAATCCCGGTCGGGCAACAAGGCGCCACGGACATTGCGATGCCCAGCCGCGGCGAGTCGCAGCGCGCCGTTCTCGAGCGCTTCGGTCTGGCCGATGAAGAGCATCCCCCGGTCGGCCGACCACCGATCACCCGCTGGGATTACCGGGACTTTTCCGTCTATTTCGAAAGCGGTCGCGTCATCGACAGCGTCCGCCATCACCAGCCCCGTCATCCGAAGGAAGAATGA	MPRRLLLTLLLTTTLPCFADTLEIPVGQQGATDIAMPSRGESQRAVLERFGLADEEHPPVGRPPITRWDYRDFSVYFESGRVIDSVRHHQPRHPKEE				NA	NA	NA	NA	NA
BMS010_07644	582			hypothetical protein	ATGTCGACCAAAGATGTAGACGATCGCCGCGAATACTATCGCATCACGGATACGATCGCATTGGAAATTCGCCCTGCCGAAAACTCCGGTAACGGACCGGCCGGCGATCTTCCCGATACCCCGCCGCTGTTCAATCTGCTCAGCGAACTACACCTGATGGACTTCGAATCGCAACATCTGTTGCGACACATCAGCGAGCGCGACCGAACCCTCGCCAACTACCTGAAGGTCATCAACAAACGCATCGATCTGCTGGGCCAGGCGCTGGCACAAGGGCTCCTTCGCGAGATCGGCACACGCAAGACCGTAGTGCTGTCCGAGGGCGGCATCAATTTCACCCACTCCGAGGCTTTTCCTGCGGGAACGCTGCTCGCCCTGCGCATGGTGTTGATGCCCCAGGCCCTGGGCATGCTGCTGCAAGGACGGGTCGTCCACTGCCAATCCCGTGCGGACGGATCATTCGAAATCGGCGCCGAGTTCGAAGCGTTGACCGATGCACAGCGGCAACTGCTAGCTCGTCATATCCTGCAGAAGCAGGCCCTGGAACGCCGCCAGGCCCGCGAACGCCCCGACCCGCAATGA	MSTKDVDDRREYYRITDTIALEIRPAENSGNGPAGDLPDTPPLFNLLSELHLMDFESQHLLRHISERDRTLANYLKVINKRIDLLGQALAQGLLREIGTRKTVVLSEGGINFTHSEAFPAGTLLALRMVLMPQALGMLLQGRVVHCQSRADGSFEIGAEFEALTDAQRQLLARHILQKQALERRQARERPDPQ				NA	NA	NA	NA	NA
BMS010_07645	1251	lolE_2	COG4591	Lipoprotein-releasing system transmembrane protein LolE	ATGTTCAGACCGCTGTCCGTCTACATCGGCGCGCGATATACGCGCGCCAAGCGCCGTAACCACTTTGTATCCTTCATTTCCCTCACTTCCATGATTGGTCTGGCGCTGGGCGTGCTGGTGATGATTGTGGTGCTGTCGGTGATGAACGGGTTCGACCATGAGATGCGGACCCGCGTGCTGGGTATGGTGCCTCATGCCACCATCGAGGGCGACCAGCCGATCGGCGACTGGCGTGATATTGCCCAGCGGGTGATGAAGAACCCACAGGTGCTGGCGGTGGCACCCTTCACGCAGATGCAGGGCTTGCTCACCCGTGACGGTAAGGTGCAGAAGGTACTGATCAATGCCATCGATCCGGAGGAAGAGCGCAAGGTATCGATCATCGGCGACTTCTTCCGCGAAGGCAGCCTGGACGCGCTGAAAGCCGGCGAATTCGGCATCGTCATCGGCGACAAGGCGGCGAGCAAGCTGGGCGTTGGTCTGGGCGACAAGATTACCTTTGTCGCGCCCGAGGTCACGGTGACGCCGGCGGGCATGTTTCCCCGGATGAAGCGTTTCACCGTGGTGGGCATTTTCCATGTCGGTGCCGGCGAGCTGGATGGCTATGTGGCCATGACTCATCTGCAGGACCTGGCGCGGCTGCATCGCTGGCAGGGTTCGCAGGTCCAGGGTATTCGCTTGAAGTTCGACGATCTCTTCCAGGCGCCGCGAACGGCCTGGGAGTTGGCGCTTTCCCTGGGGCGCGACGAGTACTACGCCCGCGATTGGACCCGCACCCACGGCAACCTATATCAGGCGATCCGCATGGAAAAGGCCATGATTGGCTTGCTGCTGCTGCTGATCATTGCGGTGGCCGCGTTCAACATCATTTCCACGCTGGTCATGGTGGTCACCGACAAGAAGGGTGACATCGCCATCCTGCGGACCCTCGGCGCGACGCCACGGCAGATCATGGGCGTCTTCATGGTGCAAGGTACTGTCATCGGCGTGGTCGGCACACTGATCGGGGCGGTGCTGGGCATCTTCGCAGCCCTCAATATCAGCGCCTGGATCGCTGCGCTGGAGCGCTTGCTGGGCCACAAATTCCTCAACGCCGACGTGTACTTCATCGACTACCTGCCTTCCCAGCTGATGGGCGAGGACGTGCTGTTGATCTGTGCCGCCGCGTTGGTCCTGAGTTTCCTCGCTACCCTTTATCCGGCTTGGCGTGCCGCGCGCACCCAGCCTGCGGAGGCCTTGCGCTATGAGTGA	MFRPLSVYIGARYTRAKRRNHFVSFISLTSMIGLALGVLVMIVVLSVMNGFDHEMRTRVLGMVPHATIEGDQPIGDWRDIAQRVMKNPQVLAVAPFTQMQGLLTRDGKVQKVLINAIDPEEERKVSIIGDFFREGSLDALKAGEFGIVIGDKAASKLGVGLGDKITFVAPEVTVTPAGMFPRMKRFTVVGIFHVGAGELDGYVAMTHLQDLARLHRWQGSQVQGIRLKFDDLFQAPRTAWELALSLGRDEYYARDWTRTHGNLYQAIRMEKAMIGLLLLLIIAVAAFNIISTLVMVVTDKKGDIAILRTLGATPRQIMGVFMVQGTVIGVVGTLIGAVLGIFAALNISAWIAALERLLGHKFLNADVYFIDYLPSQLMGEDVLLICAAALVLSFLATLYPAWRAARTQPAEALRYE	PGPT0024510_1443	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_TRANSPORT,PGPT0024510-lolC_E-K09808	NA	NA
BMS010_07646	699	lolD_4	COG1136	Lipoprotein-releasing system ATP-binding protein LolD	ATGAGTGATATTTCCGTGCAGGACAAGGCTGTCCTGAGTTGCCGCGATCTGGGCAAGAGCTATGAGCAAGGCCCGCAATCGGTCGAGGTGTTAAGTGACGTGCAACTGGAACTGCATCCCGGTGAGCGGATTGCCATTGTCGGCAGCTCCGGGTCCGGCAAGAGTACCTTGCTCAATCTGCTGGGTGGTCTGGATACGCCGAGCCACGGCAGCGTGTGGCTGGCGGGCCAGGAGTTGTCCGCGCTGAGCGAGAAGGCCCGTGGTCTGTTGCGCAATCGTCAGTTGGGGTTCGTCTACCAGTTCCATCACCTGTTGCCGGAGTTCACGGCACTGGAGAACGTCTGCATGCCACTGCTGATCGGCCAGGCGCCGATCGCCGAAGCCCGCCAGCGGGCCCAGGCGTTGCTGGAGCGGGTCGGCCTCGGTCATCGTACGGCGCACAAGCCGGCGGAGCTGTCCGGCGGCGAGCGTCAGCGGGTAGCCATCGCCCGGGCATTGGTCAACCAGCCGGCCCTGGTCTTGCTCGACGAGCCGACCGGCAACCTCGATCAGCATACGGCCCACGGCATCCAGGAATTGATGCTGGAGCTGAGCAAATCGTCGCGGACCGCCTTCCTGGTAGTGACCCACGACATGCAACTGGCACGGCAGATGGACCGTGTGCTGCGCCTGGAAGAAGGCCGGTTGGTGGCAGCCTGA	MSDISVQDKAVLSCRDLGKSYEQGPQSVEVLSDVQLELHPGERIAIVGSSGSGKSTLLNLLGGLDTPSHGSVWLAGQELSALSEKARGLLRNRQLGFVYQFHHLLPEFTALENVCMPLLIGQAPIAEARQRAQALLERVGLGHRTAHKPAELSGGERQRVAIARALVNQPALVLLDEPTGNLDQHTAHGIQELMLELSKSSRTAFLVVTHDMQLARQMDRVLRLEEGRLVAA	PGPT0024515_2039	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_TRANSPORT,PGPT0024515-lolD-K09810	NA	NA
BMS010_07647	1245	lolE_3	COG4591	Lipoprotein-releasing system transmembrane protein LolE	ATGTTCAAGCCTCTCGCGATATTCATCGGTACCCGTTACACCCGGGCCAAGCGACGCAACCACTTCATCTCGTTCATCTCGCTGACCTCGATGATCGGTCTGGCGCTGGGTATCCTGGCGATGATCGTCGTACTGTCGGTGATGAACGGGTTCCAGAAGGAGATGAGTTCGCGCATTCTCGGCATGGTGCCCCATGCGACACTCTCGGGCGTCCAGCCGTTGGATGACTGGCAGCCAGTGGCCGCCGCTGCGTTGAAGAACTCCCAAGTGATAGCTGCTGCGCCGATCAGCGAACTGGAAGGTATGCTTTCTTATCGTGGTGGGATGCAGCCGATTCAGGTGAACGGTATCGATCCGCGGATGGAATCGAAGGTTTCCATCATCGGTTCGCATATGCAGCAGGGGAGCCTGGAAGCGCTCGCGCCCGGTGAGTTCGGGATGGTCATTGGTGACATCACGGCACGGCGTTTTCGCCTTAACGTGGGGGACAAGCTGACGCTCATCGTTCCCGAAATCAGTTCCGCTCCGGGCGGCATCACACCACGCATGCAGCGGTTCACCGTGGTCGGCGTGTTCAAAGTCGGTGCCGAGCTGGATGGTTCGTTGGCTTTGATCGATCTGGAGGACGCGGCCCAGATACAGCGCTGGCAGCCCCATCAGGTGCAGGGTGTGCGTCTTGCGCTGAAGGATTTGTACCAGGCGCCTCAGGTATCCAGCGCGATTGCCGCCCAGTTGGGTGAGGGCTATCGGGCGGATGACTGGACCCATACCCAAGGCAGCCTGTTCAGTGCGATGAAGATGGAAAAGACCATGATCGCGCTGCTGCTGCTGCTGATCATTGCCGTGGCAGCCTTCAATATCATCGCGACTCTGGTCATGGTGGTCGCCGACAAGCGTGCGGACATCGCCATCCTGCGCACCCTGGGTGCCACGCCGGGCCTGATCATGGCTGTCTTCATGGTTCAGGGGACGGTCATCGGCCTTGTCGGTACCCTGATTGGCGGGGTGCTGGGCGTGTTGGCCGCGTTGAATGTGAGCAGCCTGATCGGATGGCTGGAGCATGTCACTGGCCAGCAGATCCTCAGTTCAGACGTCTACTTCATCAACTATCTGCCGTCCGACCTTCAGGCGTTCGACGTGCTGCTCATCTGTAGCGCCGCGCTGATCCTGAGCTTCCTGGCGACCCTCTATCCCGCCTGGCGCGCATCGCGTACCCAGCCGGCGGAAGCGCTGCGCTACGAATGA	MFKPLAIFIGTRYTRAKRRNHFISFISLTSMIGLALGILAMIVVLSVMNGFQKEMSSRILGMVPHATLSGVQPLDDWQPVAAAALKNSQVIAAAPISELEGMLSYRGGMQPIQVNGIDPRMESKVSIIGSHMQQGSLEALAPGEFGMVIGDITARRFRLNVGDKLTLIVPEISSAPGGITPRMQRFTVVGVFKVGAELDGSLALIDLEDAAQIQRWQPHQVQGVRLALKDLYQAPQVSSAIAAQLGEGYRADDWTHTQGSLFSAMKMEKTMIALLLLLIIAVAAFNIIATLVMVVADKRADIAILRTLGATPGLIMAVFMVQGTVIGLVGTLIGGVLGVLAALNVSSLIGWLEHVTGQQILSSDVYFINYLPSDLQAFDVLLICSAALILSFLATLYPAWRASRTQPAEALRYE	PGPT0024510_2210	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_TRANSPORT,PGPT0024510-lolC_E-K09808	NA	NA
BMS010_07648	528			hypothetical protein	ATGCCGCGTCGTTTCTTCAAGCGCTACATGCCCAATCCAGAGAGCATCAAAGGGAACAAGTCCCTGCGCTTTCTCGGCAAGCTGATCCACGACCCCAACCTCTGGCATCTCAATCGTCATTCGGTCGCCCGCGCCATGGCGGTCGGCCTGTTCTCCGCCTTCGTCCCGATCCCCATGCAGATGCTGTTGGCCGCCTCGCTCGCCGTACCGATGCGAGCCAATCTGCCGATTTCCGTGGGCCTGGTGTGGCTGACCAACCCCATCACCATGCCGCCGGTATTTTTCTGCACCTACAAGCTGGGTACCTGGATTCTGCAGACACCTTCGGAAAACATGCCCGCCGAACTGACGATGGCCTGGATCAGCGCCAAGCTCGCCTCGCTCTGGGAACCATTGCTGGTCGGCTCGCTGGTAGCAGGGCTTGTGTTTGCGATCCTGGGCTACTTCCTCACCATGACCTACTGGCGCTGGTGGGTTCGGCACAACTGGCGCAAACGCCAGGAAGCTCGCCGGCAGCGCAACGCCTGA	MPRRFFKRYMPNPESIKGNKSLRFLGKLIHDPNLWHLNRHSVARAMAVGLFSAFVPIPMQMLLAASLAVPMRANLPISVGLVWLTNPITMPPVFFCTYKLGTWILQTPSENMPAELTMAWISAKLASLWEPLLVGSLVAGLVFAILGYFLTMTYWRWWVRHNWRKRQEARRQRNA				NA	NA	NA	NA	NA
BMS010_07649	2226	comEC	COG0658	ComE operon protein 3	ATGCGCACAGGGATTGTCGCGTTCGTTGCCGGGCTGCTCGCCCTGCGCTTTCTTCCGGCGTTACCGCCGACGTGGCTGCTGTCCGTCCTCGTCTTGTTCGGCTTGATGCTGTTGCCATTCCGCAGCTATCCCCTGGCTTTCTTTCTGTTGGGTTTCAGTTGGGCATGCACCTCGGCGCAATGGGCGCTGGATGATCGGCTACCGCCTTCGCTGGACGGCCAGACTCTCTGGTTGGAAGGGCAGGTGAGTGGTTTGCCGGAGCATCGGGACGGCGTGGTGCGCTTCCAGTTGGACGAAGCCGCCTCGCGACGTACCCGACTGCCGCGGAGTATGCGTCTGGCCTGGTATGGCGGGCCTCCAGTACATGCCGGTGAGCGTTGGCGCCTGGCGGTACGCTTGAAGCGGCCCCATGGCTTGGTCAATCCGCAATCGTTCGATTACGAGTCCTGGCTGCTTGCCCAGCGGATCGGTGCGACCGGTACGGTGAAAAGTGGTGAGCGGCTACGAGCGGCACAAGGGCCCGCGGCATGGCGCGATTCGCTGCGTCTTCGTATGCTGCAGGTCGATGCGCATGGCCGCCAGGGCGGCGTCGCGGCGTTGGTGCTGGGAGACGACTCCGGCCTGACGCCGGCGGACTGGCGTCTGCTGCAGGATACCGGCACCGTTCATTTGCTGGTCATCTCCGGTCAGCATGTCGCGCTCCTGGCGGGCTTGGTCTATGCCTTGGTTGCTGGCCTGGCGCGCTGGGGCTTGTGGCCGAGGTCCCTGCCTTGGCTGCCATGGGCTTGCAGCCTCGCTTTCGCCAGCGCCCTGGGGTATGGGCTGCTGGCCGGCTTCGAGGTTCCGGTGCGGCGTGCCTGTCTGATGGTGGCCGTGATGCTGGTCTGGCGTCTGCGGTTCCGTCACCTTGGCGTCTGGCTGCCGCTGTTCCTGGCCCTGGGCGGGGTCTTGGCACTGGAGCCTCTGGCCAGTCTCCAGCCGGGTTTCTGGTTGTCTTTCGGTGCTGTAGCGATTCTCTCGCTGGTGTTCAGTGGGCGTCTTGGCGCCTGGTCCTGGTGGCGCACGCTCGGGCGGGCGCAGTGGACGATGGCGGTGGGCCTGTTGCCTCTGTTGCTGGCGCTGGGATTACCGATCAGTGCCAGCGGTCCTCTGGCCAATCTGCTGGCGGTACCCTGGGTCAGCGTGATCAGCGTGCCTCTGGCCTTGCTGGGGACCTTGCTACTGCCGGTTCCCTGGCTTGGCGAGAGCCTGCTCTGGCTGGCGGGTTGGTCGTTGGAATGGCTGTTCCTGATCCTCGGGGTTATTGCCGATTGGCTGCCCGCCTGGCTTCCGCCAAAGCTGCCGTTGTGGTGCTGGACGCTGGCCGCGACGGGGACACTGCTGGTGCTGCTGCCAGCGGGCGTCCCTGTGCGTGGTCTTGGTCTGGCGCTACTCGTGCCCTTGTTCTTTCCGTCCTTGGAAAGACCTGAGCCCGGCAGAGCGGAGGTCTGGATGCTGGATGTTGGCCAGGGGCTCGCAGTGCTGGTAAGGACGAATGGGCATGCGCTTCTCTATGACACGGGACCGCGTTTCGGCGAATTCGATATCGGTGAGCGCGTCGTCCTGCCGTCCGTGCGTAGCCTGGGGGTGCAACGGCTCGATGTCATGCTGCTGAGCCATGCGGACAACGATCATGCCGGCGGTGCCTTGGCAGTCCAGAGGGGAATGCCGGTGGCCAGGGTGCTGAGTGGCGAGCCATCGCGTTTGTCCGCCCGGCTGGAGGCGGATGCTTGCGTAGCGGGCGAGAGCTGGGAGTGGGATGGTGTGCGTTTCGCCACTTGGCGCTGGGCCAATGCGGACAAGGGGAACGCGACATCCTGCGTGTTGCTCATCGAAGCCAATGGCGAGCGCCTGCTGCTGACAGGCGATATAGATGAGGCCGCCGAACGTGCCTTGGTCGGCAGCGGCATGACCGTACGGGCCGACTGGTTGGTAGCGCCTCATCACGGTAGCAGGAGTTCTTCGTCTCCGGCCTTCCTGCAGGCGGTTGCTCCCCGCGCCGTGCTGATTTCACGGGGGCGGCACAACGCCTTCGGTCATCCACATCCTTCCGTACTTGCCCGCTATCGCCGGCTTTCGCTCGAGATCCATGACAGTGCGCTGACCGGGGCCGTACGGGTACATCTGGGCGAATGGCTGCCCGCGCAAGCGTTACGTGCACAGGGGCGATTCTGGCGGGAAAAATGA	MRTGIVAFVAGLLALRFLPALPPTWLLSVLVLFGLMLLPFRSYPLAFFLLGFSWACTSAQWALDDRLPPSLDGQTLWLEGQVSGLPEHRDGVVRFQLDEAASRRTRLPRSMRLAWYGGPPVHAGERWRLAVRLKRPHGLVNPQSFDYESWLLAQRIGATGTVKSGERLRAAQGPAAWRDSLRLRMLQVDAHGRQGGVAALVLGDDSGLTPADWRLLQDTGTVHLLVISGQHVALLAGLVYALVAGLARWGLWPRSLPWLPWACSLAFASALGYGLLAGFEVPVRRACLMVAVMLVWRLRFRHLGVWLPLFLALGGVLALEPLASLQPGFWLSFGAVAILSLVFSGRLGAWSWWRTLGRAQWTMAVGLLPLLLALGLPISASGPLANLLAVPWVSVISVPLALLGTLLLPVPWLGESLLWLAGWSLEWLFLILGVIADWLPAWLPPKLPLWCWTLAATGTLLVLLPAGVPVRGLGLALLVPLFFPSLERPEPGRAEVWMLDVGQGLAVLVRTNGHALLYDTGPRFGEFDIGERVVLPSVRSLGVQRLDVMLLSHADNDHAGGALAVQRGMPVARVLSGEPSRLSARLEADACVAGESWEWDGVRFATWRWANADKGNATSCVLLIEANGERLLLTGDIDEAAERALVGSGMTVRADWLVAPHHGSRSSSSPAFLQAVAPRAVLISRGRHNAFGHPHPSVLARYRRLSLEIHDSALTGAVRVHLGEWLPAQALRAQGRFWREK	PGPT0029415_2653	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029415-comEC-K02238	NA	NA
BMS010_07650	600	tolQ_6	COG0811	Tol-Pal system protein TolQ	ATGCTGCCGATCATTCTCTGTTCCATCGCAGCCGCCGGTATCGTCGCGGAACGTCTATGGACACTGCGGCCCAGCCGCGTCACGCCGCCGCATCTGCTCGGACAGGTCTGGCGCTGGATCAAGGACAAGCAACTCAGCAACGACAAACTCAAGGAATTGCGTACCAATTCGCCGTTGGGGCAGATTCTTGCGGCGGGCCTGGCCAACTCCAAGCATGGTCGCGAGATCATGAAGGAATGCATCGAAGAGGCCGCCGCCCGGGTCATCCATGAGCTGGAACGTTATCTCACCGCGCTCGGTACCATCGCGGCTGTGGCCCCGCTTCTTGGCCTGCTCGGCACCGTGCTGGGCATGATCGAAATCTTCAGTGCCTTCATGGGTGCCGGTATGGCCAATGCCCCGATGCTGGCGGGCGGGATCGCCAAGGCGCTGATCACCACGGCGGCTGGTCTGATCGTGGCGATCCCGGCATTGTTCTTCCATCGTTACCTGCAACGTCGGGTGGATGAGCTGGTGGTCGGCATGGAGCAGGAAGCCATCAAGCTGGTGGAAGTGGTACAGGGTGATCGCGACGTCGACCTGGGTGAGGGCAAGGCGTGA	MLPIILCSIAAAGIVAERLWTLRPSRVTPPHLLGQVWRWIKDKQLSNDKLKELRTNSPLGQILAAGLANSKHGREIMKECIEEAAARVIHELERYLTALGTIAAVAPLLGLLGTVLGMIEIFSAFMGAGMANAPMLAGGIAKALITTAAGLIVAIPALFFHRYLQRRVDELVVGMEQEAIKLVEVVQGDRDVDLGEGKA	PGPT0003750_4677	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003750-exbB-K03561	NA	NA
BMS010_07651	429	tolR_2		Tol-Pal system protein TolR	GTGAAATTCCGGCGCAAACCGCGGGAAAACATCGAGATCAACCTGGCTCCGTTGATCGATGTGGTGTTCATCCTGTTGCTGTTCTTCGTGGTGACCACCACGTTCACTCGTGAGACCCAGCTCAAGGTCGACCTGCCCGAAGCAGCCAGTGGTACGCCGCCGGAAGAAGCCGAGGTGAAGCGGCTGGAAGTCCTGATCGACGCCGAGGGCAACTATTCGCTGAATGGGCAGGCCCTGCTGAAGAGCGACCTGGCCAGTCTGATGGCGGCGTTGAGCAAGGAATCGGGCGGCGACAACAGCGTACCGATGGTCATCAGTGCCGATGCCAAGACGCCTCACCAGGCGGTGATCACGGCAATGGACGCGGCCGGCAAGCTCGGCTTCGCCCATTTGCGGATCACTACGATCGAGGCGCAGCCGGCTCCGTGA	MKFRRKPRENIEINLAPLIDVVFILLLFFVVTTTFTRETQLKVDLPEAASGTPPEEAEVKRLEVLIDAEGNYSLNGQALLKSDLASLMAALSKESGGDNSVPMVISADAKTPHQAVITAMDAAGKLGFAHLRITTIEAQPAP	PGPT0003755_1398	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003755-exbD-K03559	NA	NA
BMS010_07652	1005	lpxK_2	COG1663	Tetraacyldisaccharide 4'-kinase	GTGAGTCTCGCCGATCGCCTGCAGGAGGCTTGGTACCGGGGGCACCCCGCACTTGGCCTCCTGCGCCCGCTGGAGGCTCTCTACCGTCGCGTAGTGACACGGCGTCGGGAGCGTTTCCTGGCCGGCGAGGGGAATATCTACCGTCCGCCTGTTCCGGTGGTGGTAGTTGGCAATATCACCGTTGGCGGCACCGGCAAGACGCCGCTGATCCTCTGGCTGATCGAACATTGCCGGGCGCGTGGGTTGAAGGTCGGCGTGGTCAGCCGCGGCTATGGTGCCCATCCTCCGCAACTGCCTTGGCGTGTCAAACTGACGGACGCCGCAGAGCAGGCTGGCGACGAGCCCTTGTTGATCGTCCAGCGCACAGGCGTACCCCTGGTGATCGATCCCGACCGGCCCCGGGCGGTGAGCGCCTTGCTGGAAACCGAGTCGCTGGATCTGATCCTATGCGACGACGGGTTGCAGCACTATCGCCTGGCGCGCGACCTGGAGTTGGTCCTGATCGATGCCGCCCGTGGCCTGGGTAATCGCCGCTGCCTTCCGGCCGGTCCTCTGCGCGAACCTGAAACTCGCCTGCTCAGTGTGGACGCCTTGCTCTATAACGGTGCCGCTGAGGACCGGCAGGATGGTTTCGCTTTCCAGCTGCGGCCCTCCGCACTGATCAATCTGGCCAGTGACGAACGGCGGGCGCTGGACAGTTTTCCTCCAGGGCAAGCAATGCACGCGGTTGCTGGCATCGGTAATCCACGGCGTTTCTTCGCTACCCTCGAAGCGCTACACTGGCGCCCGATTCCGCACGCCTTCGCCGACCACGCCCGATACAGCGCCGCTGAGCTGCATTTCAGCCCGCCGCTACCCCTGGTGATGACCGAAAAGGATGCGGTGAAATGCCGAGGTTTCGCGGCTGAAGACTGGTGGTATCTGGCAGTGGATGCCATGCCATCGGCCAGCTTCGTTGCCTGGTTCGATGCGCAACTGGTCCGTCTGTTGCCCGACCGTCTCTGA	MSLADRLQEAWYRGHPALGLLRPLEALYRRVVTRRRERFLAGEGNIYRPPVPVVVVGNITVGGTGKTPLILWLIEHCRARGLKVGVVSRGYGAHPPQLPWRVKLTDAAEQAGDEPLLIVQRTGVPLVIDPDRPRAVSALLETESLDLILCDDGLQHYRLARDLELVLIDAARGLGNRRCLPAGPLREPETRLLSVDALLYNGAAEDRQDGFAFQLRPSALINLASDERRALDSFPPGQAMHAVAGIGNPRRFFATLEALHWRPIPHAFADHARYSAAELHFSPPLPLVMTEKDAVKCRGFAAEDWWYLAVDAMPSASFVAWFDAQLVRLLPDRL	PGPT0022380_1552	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022380-lpxK-K00912	NA	NA
BMS010_07653	186			hypothetical protein	ATGGATCCGAAACTGCTCGATATTCTGGCCTGCCCTTTGTGCAAAGGGCCGCTCAAGCTCGCCGACGATAAATCCGAACTGATCTGCAAGGCGGATGCCTTGGCATTCCCTGTGCGCGACGGCATCCCGGTCATGCTGGAAAGCGAAGCCCGTACCCTCAGTGTCGATGAGCGTCTGGACAAATGA	MDPKLLDILACPLCKGPLKLADDKSELICKADALAFPVRDGIPVMLESEARTLSVDERLDK	PGPT0022380_102	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022380-lpxK-K00912	NA	NA
BMS010_07654	765	kdsB_2	COG1212	3-deoxy-manno-octulosonate cytidylyltransferase	ATGAGTATCGACTTTACCGTTGTCATCCCCGCTCGTTTTGCCTCCAGCCGCCTGCCCGGTAAACCGCTGCAGGATATCGCCGGCAAACCGATGATTCGCCACGTCTGGGAGCAGGCCGGGCGTAGCGGCGCCAGTCGTGTGGTTGTGGCCACCGACGATGCGCGTATTGTCGAGGCGTGTCGTGCGTTCGGTGCGGAGGTGTTGCTGACCCGTGTCGAGCATAACTCCGGGACTGACCGGCTGGCCGAAGTGGCGGCTCAATTGGGCCTGGCCAGCGACGCCATCGTCGTCAACGTACAAGGCGATGAGCCATTGATCCCCCCTTCGATCATCGATCAGGTGGCTGGCAATCTGGCTGCTCATCCCGAAGCGGGGATTGCGACACTGGCTGAGCCGATCGAAGACGTGGCCTCGTTGTTCAATCCCAATGTCGTGAAGGTCGTTGCGGATCTTGATGGTCTCGCTCTGACATTCAGTCGTGCCCCGTTGCCTTGGGCGCGTGATGCCTTTGCGCAGAGCAAGGAAAGCCTGCCTGTCGGCGTTCCGTATCGCAGGCATATCGGAATCTATGCCTACCGTGCCGGTTTTCTCCATGACTTCGTTTCCTGGGGCCCCTGCTGGCTGGAAAACACCGAAAGCCTGGAACAGTTGCGTGCGCTCTGGCATGGCGTGCGCATCCATGTCGCCGATGCGTTGGAAGCGCCGCCGGCCGGCGTGGATACGCCGGAAGACCTGGAGCGGGTGCGCCGCCTGCTGGGGGCTTGA	MSIDFTVVIPARFASSRLPGKPLQDIAGKPMIRHVWEQAGRSGASRVVVATDDARIVEACRAFGAEVLLTRVEHNSGTDRLAEVAAQLGLASDAIVVNVQGDEPLIPPSIIDQVAGNLAAHPEAGIATLAEPIEDVASLFNPNVVKVVADLDGLALTFSRAPLPWARDAFAQSKESLPVGVPYRRHIGIYAYRAGFLHDFVSWGPCWLENTESLEQLRALWHGVRIHVADALEAPPAGVDTPEDLERVRRLLGA	PGPT0023065_1054	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-8-AMINO-3|8-DIDEOXY_D_MANNO-OCTULOSONIC_ACID_MODIFICATION,PGPT0023065-kdsB-K00979	NA	NA
BMS010_07655	465			Putative low molecular weight protein-tyrosine-phosphatase	ATGCGCGTTCTGTTCGTATGTCTCGGCAATATTTGCCGTTCGCCGACTGCGGAAGGCGTCTTTCGCCATCGCGTGCGTGAAGCAGGCCTGGAAGAGCGAATTCATATCGATTCGGCGGGGACGAGCGACTGGCACGTGGGAAAGGCTCCGGATAGCCGTACCTGCCGGGCTGCGCGTCTGCGTGGGTATGACCTGTCCGGGTTGCGCGCCCGTCAGTTCCAGCGCGAAGATTTCGAGCGCTTCGATCTGGTCCTGGCAATGGATCGCAGCAACCTTCGGCATATCCAGGCGGTGCGGCCTGCGACTGCCCGGGCCGAGTTGGATCTTTTCTTGCGCCGCTATGACATGGCGTTGGACGAAGTGCCTGATCCTTACTATGGCGGTGAAGACGGCTTCGAGCAGGTTCTGGACCTGATCGAGAGGGCCAGCGATGCGCTTCTGGCAGAGATCAAGGGGCGGCTGTGA	MRVLFVCLGNICRSPTAEGVFRHRVREAGLEERIHIDSAGTSDWHVGKAPDSRTCRAARLRGYDLSGLRARQFQREDFERFDLVLAMDRSNLRHIQAVRPATARAELDLFLRRYDMALDEVPDPYYGGEDGFEQVLDLIERASDALLAEIKGRL	PGPT0014530_6226	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-WZA-WZC-WZB-WEC_METABOLISM	CE-EPS-EPS-WZA-WZC-WZB-WEC_SYSTEM,PGPT0014530-yfkJ|wzb-K01104	NA	NA
BMS010_07656	1020	murB_2	COG0812	UDP-N-acetylenolpyruvoylglucosamine reductase	GTGAGTTTGCATTTTCAGGAAAACCAGTCGCTGAAGCCGTTCAATACGTTCGGCGTGGACGTATCCGCCCGCCTGTTCGTAGAAGTGCGGGGGGAGCAAGAACTGCGCAAGGCTTTGAGTGATGCCGAGCAGAAAGGGCTGCCTTTGCTGTTGATCGGCGGAGGGAGCAATCTGCTGCTGACGGCTGATGTCGAGGCCTTGGTAGTGCGGATGGCCAGCCGAGGCATTCGCATTCTTAGCGACGATGGTGAACAGGTAGTCGTCGAGGCGGAGGCGGGAGAGCCGTGGCATCCATTCGTGCTGTGGAGTCTGTCCCAGGGCTTGATCGGCCTGGAAAACCTCAGCCTGATTCCCGGCACCGTGGGGGCTGCACCGATGCAGAACATCGGTGCCTATGGTGTGGAAATCAAGGATGTCTTCGCCGGGCTGACCGCGCTCGATCGTCATAGTGGCGAGCTGCGGGACTTCACGTTGGAGGACTGCGCGTTCGGTTACCGGGATAGTCTGTTCAAGCGACAGACAGGACGGTGGCTCATTCTGCGGGTGCGCTTTGCCTTGAGTCGCCAAAAGCGCCTGCATCTGGACTATGGGCCGGTGCGGCAGCGATTGGCTGATCAAGGTATTTCCGATCCCACGGCTATCGATGTGAGCAATGCGATCTGTTCCATTCGCAGGGAAAAATTGCCAGACCCTGCCGAGCTTGGAAATGCCGGTAGTTTCTTCAAGAATCCGCTGGTCAGTGCGGAAGTCGCGGTGCATTTACAAGCTGAGCACCCGGATCTGGTGGCCTATCCCCAGGCCAATGGGCAAGTAAAGTTGGCAGCGGGCTGGTTGATCGAACGGGCTGGCTGGAAAGGCTTTCGAGACGGTGATGCGGGCGTGCATCGCTTGCAGGCGTTGGTCCTGGTGAATTATGGCAATGCCAGCGGGGCACAATTGTTGGGCTTGGCGCAACGGATACAGGCGGATGTCGCTGCACGCTTCGGCGTGGCGCTGGAGATAGAGCCGAACGTGATTTGA	MSLHFQENQSLKPFNTFGVDVSARLFVEVRGEQELRKALSDAEQKGLPLLLIGGGSNLLLTADVEALVVRMASRGIRILSDDGEQVVVEAEAGEPWHPFVLWSLSQGLIGLENLSLIPGTVGAAPMQNIGAYGVEIKDVFAGLTALDRHSGELRDFTLEDCAFGYRDSLFKRQTGRWLILRVRFALSRQKRLHLDYGPVRQRLADQGISDPTAIDVSNAICSIRREKLPDPAELGNAGSFFKNPLVSAEVAVHLQAEHPDLVAYPQANGQVKLAAGWLIERAGWKGFRDGDAGVHRLQALVLVNYGNASGAQLLGLAQRIQADVAARFGVALEIEPNVI	PGPT0024115_2006	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024115-murB-K00075	NA	NA
BMS010_07657	3042	rne_2		Ribonuclease E	ATGAAAAGAATGCTGATTAACGCGACTCAGCCCGAAGAGTTGCGTGTTGCACTGGTCGACGGCCAACGCCTGTACGACCTGGACATCGAATCGGGCGCCCGCGAGCAGAAGAAGGCCAATATCTATAAAGGCCGCATCACCCGCGTCGAACCCAGCCTCGAAGCCGCTTTCGTCGATTTCGGCGCCGAGCGCCACGGCTTCCTCCCCCTCAAAGAAATCTCCCGCGAATACTTCAAGAAGAACCCCGAAGGCCGCATCAACATCAAGGAAGTGTTGAGCGAAGGCCAGGAAGTCATCGTCCAGGTCGAAAAGGAAGAACGCGGCAACAAGGGCGCCGCCCTCACTACCTTCATCAGCCTGGCTGGCCGCTACCTGGTGCTGATGCCCAATAATCCGCGCGCCGGCGGCATTTCCCGCCGCATCGAAGGCGAAGAACGCAACGAGCTGCGCGAAGCCCTCAACGGTCTCAACGCCCCCGCCGATATGGGCCTCATCGTTCGCACCGCCGGCCTGGGCCGCAGCAGCGAAGAACTGCAATGGGACCTGGACTACCTGCTGCAGCTCTGGACTGCCATCAAGGAAGCGTCCCAGGACCGCGCCGCCCCGTTCCTGATCTACCAGGAATCCAACGTCATCATCCGCGCGATTCGCGATTACCTGCGCCAGGACATCGGCGAAGTGCTGGTCGATAGCGTCGAGGCCCAGGAAGAAGCGCTCAGCTTCATCCGCCAAGTGATGCCCCAGTACGCCAGCAAGATCAAGCTGTATGAGGACAGCGTCCCGCTGTTCAATCGCTTCCAGATCGAAAGCCAGATCGAAACGGCATTCCAGCGCGAAGTCAAACTGCCGTCCGGTGGTTCCATCGTCATCGACCCGACCGAAGCCCTGGTATCCATCGACATCAACTCCGCTCGTGCGACCAAGGGCGGCGATATCGAAGAAACCGCGCTGCAAACCAACCTGGAAGCCGCTGAAGAGATCGCCCGCCAGCTGCGCCTGCGCGATATCGGTGGTCTGATCGTCATCGACTTCATCGACATGACGCCGGCCAAGAACCAGCGCGCCGTCGAAGAGAAGGTGCGCGAAGCCTTGGAAGCCGACCGTGCACGCGTCCAGATCGGTCGCATCTCGCGCTTCGGCCTGCTGGAGATGTCCCGCCAGCGCCTGCGCCCCTCCCTGGGCGAAACCAGCGGTATCGTCTGCCCGCGCTGCAACGGTCAAGGCATCATCCGTGACGTCGAATCCCTGTCGCTGGCGATCCTGCGCTTGATCGAAGAAGAAGCGCTGAAAGACCGCACTGCCGAAGTGCGCGCGCGCGTGCCCTTCCAGGTTGCAGCCTTCCTGCTGAACGAAAAACGCAACGCCATCACCAAGATCGAGTTGCGCTCCCGTGCTCGCATTTTCATCCTGCCGGATGACCACTTGGAAACCCCGCACTTCGAAGTGCAGCGCCTGCGCGACGACAGCCCGGAAGTCCTGGCCGGTCAATCGAGCTACGAAATGGCGCCGAGCGAGGCCGAAGAAGCCCACCCCATCAGCGCCACCCGCACCCTGGTTCGTCAGGAAGCCGCGGTGAAGACCGCGCCGCAGCGCACCGTTCCCGCACCGGTACCGGCCAGCGAACCCACAGCCGCCGCCAAACCCTCCGCGGAACCGAACCTGTTCAAGGGCCTGGTCAAGTCGCTGGTCAGCCTGTTCGCCGGCAAGCCGGAAGAGAAACCCGCCGAAACCACCGGCAAGCCGAGCAGCGAACGTCCGGCGCGTAGCGAGGAGCGGCGCTCCAGCCGCCAGCAGAACCGCCGCCGCGATGGCCGCGAAGGTGGTCGCCGCGATGACGAGCGCAAGCCGCGCGAAGAACGCCAGGCTCGCGAAGAACGTCAACCCCGCGAGCAACGCGAAGAGCGCCAGCCGCGCCCGCCCCGCGAGGAACGCCCGCGTGACCGCGAAGTAGCCGAAGGCCAGGAGAGCCGTCGCGAACGCCAGCCGCGCGAAGAGCGTCAACCGCGCGAGGAACGCAAGCGTGAGCTGCGCGAACCGCTGGATGCCCAGCAGGAAACCACGCGCGAAGAGCGCCCTGCCCGTCCGCCGCGCCCACCGCGCGAAGAGCGTCAGCCCCGCGCCGCCGAGCAGGCCGCGAACGAAGAAGAACTGCTGCAGGGTGAAGAGCAGCACGAAGAGTCCCAGGAAGGCAGCGATGGCGAACGCCCCCGCCGCCGCTCTCGTGGTCAACGCCGCCGCAGCAACCGTCGTGAACGCCAGCGCGACGCCCAAGGCAACGAAATCGAAACCACCGAGGAAGACGGTGCCGAGCGCAACGAACCGCAGGTCTCCGGTCTTGCAGTGGTTGCGGCAGCAGAGGCCTCCGGCGTGATCGCCAGCGAAATCCAGGCGGAAACCGCAGCAGCCGAGCAAGGCGTTCAGCCAGAAGCAGAAACCAGCGCCCCTGCCGAAGCCGAGGTCGTTACTTTCGTCGCCGAGCAGGCTGCTACCGAGCAGCCCCAGGCAGAGGCCGAGGTAGCTACCGCCACACCGGAAGAGCCTGCAGCCCAAGCGCCCGAGGAAACCGCCGCTACACCTGCGACCGAGACTGCTCCCGAAGCTCCGCAAGCCGCTTTGGAGCAACCAGCCGCACCGGTCGCTCCGAGCACGGGCCGCGCACCGAACGATCCCCGTGAGGTCCGTCGCCGTCAACGCGAGGCCGAACGCCTGGCACGGGAAGCTGCGGAAGCCGCCAAGGCAGCCGAAGCCACACAACAGGTCGAGGCACCAGTAGCCGAAGCGAATGTAGAAGTGGAAGCAGAAGCCACTGCAGAGCCGAGCACCGAAGCCGTTCAACCGGTGGAAGAAGCCCAGGTGATCGAGCCGATCGCTCCGACCGTAGAACCGGAATCGGTCGAGCCTGAAGCCGAAAAGACCATAGCCGAGGCAACCAACGAGCCGGAAAGCGCGGCCACGCCTGAAACCGAAACCGAAACCGAAACCGAAACCGAAACCGAAAAAACGGAAGACCAGCAGAAGGATGAAATCAAGCCACACGCTTGA	MKRMLINATQPEELRVALVDGQRLYDLDIESGAREQKKANIYKGRITRVEPSLEAAFVDFGAERHGFLPLKEISREYFKKNPEGRINIKEVLSEGQEVIVQVEKEERGNKGAALTTFISLAGRYLVLMPNNPRAGGISRRIEGEERNELREALNGLNAPADMGLIVRTAGLGRSSEELQWDLDYLLQLWTAIKEASQDRAAPFLIYQESNVIIRAIRDYLRQDIGEVLVDSVEAQEEALSFIRQVMPQYASKIKLYEDSVPLFNRFQIESQIETAFQREVKLPSGGSIVIDPTEALVSIDINSARATKGGDIEETALQTNLEAAEEIARQLRLRDIGGLIVIDFIDMTPAKNQRAVEEKVREALEADRARVQIGRISRFGLLEMSRQRLRPSLGETSGIVCPRCNGQGIIRDVESLSLAILRLIEEEALKDRTAEVRARVPFQVAAFLLNEKRNAITKIELRSRARIFILPDDHLETPHFEVQRLRDDSPEVLAGQSSYEMAPSEAEEAHPISATRTLVRQEAAVKTAPQRTVPAPVPASEPTAAAKPSAEPNLFKGLVKSLVSLFAGKPEEKPAETTGKPSSERPARSEERRSSRQQNRRRDGREGGRRDDERKPREERQAREERQPREQREERQPRPPREERPRDREVAEGQESRRERQPREERQPREERKRELREPLDAQQETTREERPARPPRPPREERQPRAAEQAANEEELLQGEEQHEESQEGSDGERPRRRSRGQRRRSNRRERQRDAQGNEIETTEEDGAERNEPQVSGLAVVAAAEASGVIASEIQAETAAAEQGVQPEAETSAPAEAEVVTFVAEQAATEQPQAEAEVATATPEEPAAQAPEETAATPATETAPEAPQAALEQPAAPVAPSTGRAPNDPREVRRRQREAERLAREAAEAAKAAEATQQVEAPVAEANVEVEAEATAEPSTEAVQPVEEAQVIEPIAPTVEPESVEPEAEKTIAEATNEPESAATPETETETETETETEKTEDQQKDEIKPHA				NA	NA	NA	NA	NA
BMS010_07659	954	rluC_2	COG0564	Ribosomal large subunit pseudouridine synthase C	ATGACGACTCCCTCCCTTCCGACCTCCGGCGTTCAGCTGCTCGAGGTCGCGCCGGAATTTGCCGGCCAGCGCATCGACAATTTCCTTCGTACCCAGCTCAAGGGCGTGCCCAAGACGCTGGTTTACCGCATTTTGCGCAAGGGCGAAGTGCGGGTGAACAAAGGTCGAATCAAGCCTGAATACAAGCTTCAGGCGGGCGACATCGTGCGCGTGCCGCCGCTGCGTCTGGCCGAGCGCGACGAGCCGGCACCGCTTGCTCAGGGGCTCCTGGAGCGCCTTGAGCAGGCGATCCTCTATGAGGATAAGGCTCTCATTGTTATCAACAAGCCGGCGGGTATCGCCGTGCACGGCGGGAGTGGGCTCAGCTATGGGGTGATCGAGGCTTTTCGCCAATTGCGCCCGGAGGCCAAGGATATCGAGCTGGTACACCGCCTGGATCGGGATACGTCCGGTTTGTTGATGATCGCGAAGAAACGCAGCATGTTGCGCCATCTGCATGAGGCGCTGCGTGGCGATGGCGTGGATAAGCGCTACATGGCGCTGGTGCGAGGCAGTTGGCCGGCGTCGAAGAAGCAGGTTCGCGCGCCGTTGATGAAAAACAACCTGCGCTCCGGCGAGCGTATGGTCGAGGTCAATACCGAGGGCAAGGATGCGTTGACCGAGTTCCGTGTCCTGCGTCGCTTCGGTGATTTTGCCACTTTGGTCGAGGCCAGTCCCATTACCGGGCGTACCCACCAGATTCGCGTACATGCCAAGCATGCTGGGCATGCGATCGCGGGGGATGCCAAGTATGGTGATGAGGCATTTACCCAGGAAATCCGTGCCTTGGGAGGCAAGCGCCTGTTCCTTCATGCCTATTCGTTGACCGTGCCGCTGCCTGAGGGTGGCGAGTTGCGTCTGGAGGCGCCTGTCGACGATATGTGGGTACAGACTCTGGAGCGTCTTGGTGCGTGA	MTTPSLPTSGVQLLEVAPEFAGQRIDNFLRTQLKGVPKTLVYRILRKGEVRVNKGRIKPEYKLQAGDIVRVPPLRLAERDEPAPLAQGLLERLEQAILYEDKALIVINKPAGIAVHGGSGLSYGVIEAFRQLRPEAKDIELVHRLDRDTSGLLMIAKKRSMLRHLHEALRGDGVDKRYMALVRGSWPASKKQVRAPLMKNNLRSGERMVEVNTEGKDALTEFRVLRRFGDFATLVEASPITGRTHQIRVHAKHAGHAIAGDAKYGDEAFTQEIRALGGKRLFLHAYSLTVPLPEGGELRLEAPVDDMWVQTLERLGA				NA	NA	NA	NA	NA
BMS010_07660	669	ppaX	COG0546	Pyrophosphatase PpaX	GTGCGTGACTATCGGCTGTTGATTTTCGATTGGGATGGCACTCTGGTCGACTCCATCGGACGGATCGTTGAATCCATGCGCCGGGCGGCCGAGTCTTGCTCGTTGCCGCAGCGTGCGGAGGCGGCAATCAAAGGGATTATCGGTCTTTCGCTGCCGGAGGCGATCCGGACTCTGTATCCCGAGCTTGAGCGGGACGCGGGGCGTGTGGAGCACTTTCGCCAGCAATATAGCGAACATTACCTGGCTCTCGAAAACGAGCCTTCGGCGCTGTTCCCGGGGGTGGTCGAGTCGCTGGGGGCGTTCAGGCAGGCGGGGTACTGTCTGGCTGTGGCGACGGGCAAGAGTCGCCGCGGTCTGAATCATGTTCTGGCGGGTCATGGCTGGCTGGATTATTTCGACGTGACTCGCTGTGCCGATGAGACTGCTGGTAAGCCCGATCCGCTCATGCTGCATGAAATTCTCGCGCATTGCGGCATGGTGGCGGAGCAGGCCCTTATGGTGGGGGACTCTTCCTTCGATCTGCTGATGGCTCGGCGGGCGGGGCTGGATGCGGTGGCGGTCGGCTATGGTGCTCAGCCGCTGGAGGTTCTGCTCGAGCATGAACCATTGCTGGCGATTGAAGAGTTTTCAGAATTGCGCGCCTGGCTTGGGGCTGGGGTGGCGAAATAA	MRDYRLLIFDWDGTLVDSIGRIVESMRRAAESCSLPQRAEAAIKGIIGLSLPEAIRTLYPELERDAGRVEHFRQQYSEHYLALENEPSALFPGVVESLGAFRQAGYCLAVATGKSRRGLNHVLAGHGWLDYFDVTRCADETAGKPDPLMLHEILAHCGMVAEQALMVGDSSFDLLMARRAGLDAVAVGYGAQPLEVLLEHEPLLAIEEFSELRAWLGAGVAK	PGPT0001730_2340	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0001730-gph-K01091	NA	NA
BMS010_07661	975			hypothetical protein	ATGTCGGATGAATGGAAGGCGCCGGCTTCTGGGGCGGATGACGAGAGAAGCTGGAAACTGCTCGAAAAAGCCCTGCTGGCAAACGTGCAGGAGCAGCGGCGTTCCCGTCGTTGGGGGATATTCTTCAAGCTGCTGGTATTCATTTACCTGTTCGGAGCGCTGATTGTCTTCTCCCCGGCCTTGAATCTTGGTTCGTCCGCTGGGCGAGCTGAGAGCCATACGGCGTTGATCGAGATTCGGGGCTTGATTGCGGACAAGGAGGCGGCCAGTGCCGACAACGTCGTTGGTGCCTTGCGAAAGGCATTCGAAGATCCGAAGACCAAGGGGGTGATCCTGCGGATCAACAGCCCCGGGGGTAGCCCTGTCCAGTCCGGTTATATCTATGACGAGATTCGTCGCCTGCGTGGTCTGCACAAAGACATCAAGCTCTACGCGGTGATCGCCGATACCGGTGCATCCGGTGCTTACTACATCGCCAGTGCGGCGGACGAGATCTACGCCGACAAGGCCAGTCTTGTCGGCTCCATCGGTGTGACGGCGGCCAGCTTCGGGTTTGTCGATCTGATGGAAAAGCTCGGTGTCGAGAGGCGCGTCTACACGGCGGGTGAGCATAAGGCTTTCCTTGATCCGTTCCAGCCGCAGAAAGAGAACGAGGTTCGTTTTTGGCAGGGTGTGTTGGAGACGACCCATCGGCAGTTCATCGATAGTGTCAGGCGCGGGCGGGGCGATCGTCTGAAGGAAAGCCCGGAGTTATTCTCCGGTCTGGTCTGGTCCGGCGAACAGGCGCTGCAGTTGGGGCTGGTCGATAGCCTGGGAAGCAGCAGCTATGTGGCGCGGGAGATCATCGGGGCCGAGGAGATGGTGGATTACACCGTTCAGGAGAGTCCTATCGACCGCTTCGCCAAAAAGCTGGGTACGGGCGTGGCGGAGCAACTGTCCTTGTGGATGGGGTTGCAAGGAGCGCAGCTGCGTTGA	MSDEWKAPASGADDERSWKLLEKALLANVQEQRRSRRWGIFFKLLVFIYLFGALIVFSPALNLGSSAGRAESHTALIEIRGLIADKEAASADNVVGALRKAFEDPKTKGVILRINSPGGSPVQSGYIYDEIRRLRGLHKDIKLYAVIADTGASGAYYIASAADEIYADKASLVGSIGVTAASFGFVDLMEKLGVERRVYTAGEHKAFLDPFQPQKENEVRFWQGVLETTHRQFIDSVRRGRGDRLKESPELFSGLVWSGEQALQLGLVDSLGSSSYVAREIIGAEEMVDYTVQESPIDRFAKKLGTGVAEQLSLWMGLQGAQLR	PGPT0030320_2890	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_V_SECRETION_SYSTEMS	CE-T5a_AUTOTRANSPORTER_SECRETION,PGPT0030320-pspA-K04773	NA	NA
BMS010_07662	579	yceF	COG0424	7-methyl-GTP pyrophosphatase	ATGCAACCCCTTGTACTCGCTTCCAGCTCTCCCTACCGGCGAGAGCTCCTCGCCCGCTTGCGCCTGCCTTTTACCTGGCAATCACCCGACATCGATGAAACCAGACACCCCGAAGAGCCGGCCGAAGCCCTGGTCCGTCGGCTCGCAGAAGAAAAGGCCAGAGCCCTCGCAGACAGCCACCCGCACCACCTGATCATCGGCTCCGATCAGGTAGCCACACTCGGAGAGCAGATTCTCGGCAAACCCCACGAACACGCCAAAGCCAGGGAGCAATTGCAGGCCGCCAGTGGTAACAGCGTGACCTTCCTCACCGGACTGACCCTGCTCAACACCGCGACAGGCCGCTGCCAGACGGATTGCATTCCTTTCACCGTGCACTTCCGTCCCCTGAAGCCTGCCAGCATCGAGCGCTATCTGGAAGCGGAGCACCCGTACGATTGCGCTGGCAGCTTCAAGTCGGAGGGATTGGGCATCAGCCTGTTTCGCGCAACCGACGGGGTAGACGCTACCAGCCTGATCGGGCTTCCGTTGATCCGATTGATCGACATGCTGCTTGCCGAAGGCATCGAAATACCCTGA	MQPLVLASSSPYRRELLARLRLPFTWQSPDIDETRHPEEPAEALVRRLAEEKARALADSHPHHLIIGSDQVATLGEQILGKPHEHAKAREQLQAASGNSVTFLTGLTLLNTATGRCQTDCIPFTVHFRPLKPASIERYLEAEHPYDCAGSFKSEGLGISLFRATDGVDATSLIGLPLIRLIDMLLAEGIEIP				NA	NA	NA	NA	NA
BMS010_07663	318	yceD	COG1399	Large ribosomal RNA subunit accumulation protein YceD	ATGGTTTGCCAGCGCTGTCTTGAGCTGGTCGCTCTGCCGATCCATAGCGAGTGTGATTACGCTGTGGTGAAGGCCGGGGCGAACACCCAGTCTCTACCCAAAGGTTACGACGTGCTGGAAGTGGATGAGGATCCTTTGGATCTGCTGACGTTGGTCGAGGATGAGCTGTTGCTCGCCCTGCCCATTGTTCCGCTCCATGACCCTGAAGTTTGCCAGCAGCCGGTCGGTCTCGAAGAGCCTGAGCCGAGCGAGGACGAGGTATCGCGGTCCAACCCGTTCAGCGTACTGGCGCAGTTAAAGCGTGACCCAAACGTTTAG	MVCQRCLELVALPIHSECDYAVVKAGANTQSLPKGYDVLEVDEDPLDLLTLVEDELLLALPIVPLHDPEVCQQPVGLEEPEPSEDEVSRSNPFSVLAQLKRDPNV				NA	NA	NA	NA	NA
BMS010_07664	183	rpmF_2	COG0333	50S ribosomal protein L32	ATGGCTGTTCAGCAGAACAAAAAATCCCGTTCCGCGCGCGACATGCGTCGCTCCCACGACGCGCTGGAGTCCAACGCTCTGTCCGTCGAGAAGAGCACCGGTGAAGTGCATCTGCGCCACCACGTGTCCCCGGACGGCTTCTATCGTGGTCGCAAAGTGATCGACAAGGGCGCTGACGAGTAA	MAVQQNKKSRSARDMRRSHDALESNALSVEKSTGEVHLRHHVSPDGFYRGRKVIDKGADE				NA	NA	NA	NA	NA
BMS010_07665	981	plsX_2	COG0416	Phosphate acyltransferase	ATGGGTGGGGACTTCGGTCCCCACTGCATTGTTCCGGCCAGCCTTGCCTGTTTGGCCTCTTTCCCCTCGCTGCACCTGACCCTTGTCGGTCAAGCCCCCCTCCTTGAAGAATTGATTGCCCGTGGCCGGGGTGTGGATCGCGCTCGTCTGCGCATTCAGCATGCCGGTGAAGTCATCGGGATGGATGAGCGGCCCGCACAGGCCTTGCGCGGCAAGCCGGACTCTTCCATGCGCGTGGCTCTGGAACTGGTGCGTAACGGCCAGGCTCGTGCCTGTGTCAGCGCCGGTAATACGGGGGCGTTGATGGCGCTGTCCCGTTATGTCCTGAAAACATTGCCAGGTATCGATCGACCGGCGATGGTGACGGCGGTGCCTACCGAAAAAGGGCATTGCCATCTTCTTGATCTCGGCGCGAATGTGGATTGCAGTGCGGAGCATCTCTATCAGTTCGCTGTCATGGGAGCTGTCGCGGCGGAGGCGCTCGGCATTGATCGCCCTCGAGTGGCTTTGCTCAACGTAGGCACCGAAGACGTCAAGGGCAACCAGCAGGTCAAGCTGGCTGCGAGTCTGTTGCAGCAGGCCTCTGGGATTAACTACATCGGCTACGTCGAAGGGGATGGGCTGTTTCGTGGGGCGGCCGATGTGGTCGTTTGCGATGGCTTCGTCGGCAACATCCTGCTGAAGTCCAGCGAGGGGTTGGCTGCCATGATCTCCGCTCGGATGGGCGAGCTGTTCCGGCAAGGGGTCGTTGCTCGCATGGTGGGGGCGCTGGCGCTGCCGTTCCTGCGTCGTCTGCAGGCTGATCTTGCGCCGGCGCGCTACAACGGCGCCAGTTTTCTCGGCTTGCAGGGAATCGTGATCAAAAGCCACGGCTCCGCAGGGGCGGAGAGCTTCCAGAGTGCCATTCGGCGGGCTCTCAAGGAGATTGAGGAAGATCTCCCGGAGCGTCTTCACGGCCGTCTGGAGCATCTCTTGCTGTAG	MGGDFGPHCIVPASLACLASFPSLHLTLVGQAPLLEELIARGRGVDRARLRIQHAGEVIGMDERPAQALRGKPDSSMRVALELVRNGQARACVSAGNTGALMALSRYVLKTLPGIDRPAMVTAVPTEKGHCHLLDLGANVDCSAEHLYQFAVMGAVAAEALGIDRPRVALLNVGTEDVKGNQQVKLAASLLQQASGINYIGYVEGDGLFRGAADVVVCDGFVGNILLKSSEGLAAMISARMGELFRQGVVARMVGALALPFLRRLQADLAPARYNGASFLGLQGIVIKSHGSAGAESFQSAIRRALKEIEEDLPERLHGRLEHLLL	PGPT0024410_3285	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024410-plsX-K03621	NA	NA
BMS010_07666	939	fabD_3	COG0331	Malonyl CoA-acyl carrier protein transacylase	ATGTCCGCATCCCTCGCATTCGTCTTCCCTGGCCAGGGCTCCCAGTCGCTCGGCATGCTGGCCGAGCAGGGCGCTCAACAGCCGCTGGTGCTGGATGCCTTCGCTGAGGCTTCCGAGGCGCTTGGCTACGATCTCTGGGCATTGACCCAGCAGGGGCCGGAAGAGCAACTCAACCAGACCGATAAAACCCAGCCAGCCATTCTCACCGCTTCGGTGGCGTTGTGGCGCCTGTGGCTGGCCCAGGGCGGCGTGCGTCCCGCTTTCGTGGCCGGTCACAGCCTTGGCGAATATTCGGCGCTGGTCGCTGCCGGCAGCCTGGGGCTGGCCGATGCAGTGAGGCTGGTCGAGCGTCGCGGCCAGCTGATGCAGCAGGCGGTTCCGGCCGGGCAGGGCGGTATGGCCGCGATCCTTGGCCTGGAAGATGCCGATGTGCTGGCTGCTTGTGCCGAGGCGGCCCAGGGCGAAGTGGTCAGCGCAGTGAATTTCAATGCGCCGGGCCAGGTTGTGGTGGCCGGAGCCGCGGCGGCGGTCGAGCGGGCGATCGAGGCATGCAAGGCACGCGGTGCCAAACGTGCCATGGCGCTGCCGGTCAGCGTGCCGTCGCATTGCGAATTGATGCGTCCGGCCGCAGAGCGCTTTGCCGAAACGGTGAATGCGATCGACTGGCAGAAGCCTGAGATTCCTCTGGTCCAGAATGTCAGCGCCGCCGTGGTATCCGATCTCGACACTCTGAAACGCGACCTGTTGGCCCAGCTTTACAGTCCGGTGCGTTGGGTGGAATCCATGGTCCGTCTGGCTGAGAGCGGTGTGACCGATCTGGTCGAATGCGGCCCTGGCAAGGTGCTTTCCGGCTTGAACAAGCGCTGTGTCAAGGGCGTGAATACGCATAATCTCGATACCCCCGAAGCTTTCGCGGCTGCTCGTGCCGCTTTGGCTTGA	MSASLAFVFPGQGSQSLGMLAEQGAQQPLVLDAFAEASEALGYDLWALTQQGPEEQLNQTDKTQPAILTASVALWRLWLAQGGVRPAFVAGHSLGEYSALVAAGSLGLADAVRLVERRGQLMQQAVPAGQGGMAAILGLEDADVLAACAEAAQGEVVSAVNFNAPGQVVVAGAAAAVERAIEACKARGAKRAMALPVSVPSHCELMRPAAERFAETVNAIDWQKPEIPLVQNVSAAVVSDLDTLKRDLLAQLYSPVRWVESMVRLAESGVTDLVECGPGKVLSGLNKRCVKGVNTHNLDTPEAFAAARAALA	PGPT0008350_2453	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-VOLATILE_RELATED_FATTY_ACID_METABOLISM,PGPT0008350-fabD|bmyD-K00645	NA	NA
BMS010_07667	744	fabG_7		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAGTCTGCAAGGTAAAGTTGCGCTGGTTACCGGAGCGAGCCGAGGCATCGGTCAGGCCATTGCGTTGGAGCTGGGGCGCCAGGGAGCTGTCGTGATCGGCACCGCCACCAGCCCGAGCGGTGCCGAGCGTATCGCCGAAACCCTCAAGGCCAATGGTATCGAAGGTGCCGGCCTGGTGTTGGATGTCGCCAATGACGAATCGGTTGCCAGTACCTTGGAGCACATTCAGCAGCATCTCGGTCAGCCGCTGATCCTGGTCAATAACGCCGGCATCACGCGCGATAATCTGATAATGCGCATGAAAGACGACGAATGGCATGATGTCATCAATACCAACCTCAACAGCCTGTTCCGTCTGTCCAAGGGCGTGCTGCGCGGCATGACAAAAGCCCGTTGGGGGCGGATCATCAATATTGGTTCGGTCGTGGGTGCCATGGGTAATGCCGGCCAAGTCAACTACGCGGCCGCCAAGGCTGGGCTCGAGGGTTTCACCCGGGCGATGGCGCGGGAAGTCGGATCGCGTGCAATCACCGTCAATGCGGTGGCTCCTGGCTTCATTGATACCGATATGACCCGCGAATTGCCCGACTCCCAGCGGGAAGCGCTGTTGACCCAGATTCCGCTGGGGCGCCTGGGGCAGGCCGAGGAAATCGCCAGTGTCGTGGCCTTCTTGGCTTCCGACGGTGCGGCTTACGTAACAGGAGCTACCATTCCAGTGAATGGCGGTATGTACATGGCTTGA	MSLQGKVALVTGASRGIGQAIALELGRQGAVVIGTATSPSGAERIAETLKANGIEGAGLVLDVANDESVASTLEHIQQHLGQPLILVNNAGITRDNLIMRMKDDEWHDVINTNLNSLFRLSKGVLRGMTKARWGRIINIGSVVGAMGNAGQVNYAAAKAGLEGFTRAMAREVGSRAITVNAVAPGFIDTDMTRELPDSQREALLTQIPLGRLGQAEEIASVVAFLASDGAAYVTGATIPVNGGMYMA	PGPT0003180_14246	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0003180-ymfI|fabG|efpI-K00059	NA	NA
BMS010_07668	237	acpP_5	COG0236	Acyl carrier protein	ATGAGCACCATCGAAGAACGCGTCAAGAAAATCGTCGCCGAGCAACTGGGCGTCAAAGAAGAGGAAGTCACCAACAGCGCTTCCTTCGTTGAAGACCTGGGCGCCGACTCCCTTGACACCGTCGAGCTGGTGATGGCTCTGGAAGAGGAATTCGAGACCGAAATTCCGGACGAGCAGGCTGAGAAGATCACCACCGTTCAGGAAGCCATCGATTACATCAACGCTCACGCGCAGTAA	MSTIEERVKKIVAEQLGVKEEEVTNSASFVEDLGADSLDTVELVMALEEEFETEIPDEQAEKITTVQEAIDYINAHAQ	PGPT0011375_5936	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0011375-acpP-K02078	NA	NA
BMS010_07669	1245	fabF_5	COG0304	3-oxoacyl-[acyl-carrier-protein] synthase 2	GTGTCGCGTAGACGCGTCGTGGTAACCGGCATGGGCATGTTGTCGCCCCTGGGGACCGATGTGCCGAGCAGCTGGCAGGGCATTCTGGCCGGCCGTAGTGGCATTGGCCCCATCGAGCATATGGACCTTTCCGCCTATTCCACCCGCTTCGGTGGATCGGTGAAGGGCTTCAACGTCGAGGAATATCTTTCGGCGAAAGAAGCACGCAAGCTCGACCTGTTCATTCAATACGGCCTGGCGGCCAGTTTCCAGGCGGTCCGTGATTCGGGTCTGGAAGTGACCGATGCCAACCGTGAGCGCATCGGTGTGGCGATGGGCTCCGGTATCGGTGGCCTGACCAATATCGAAAACAACTGCAAATCTTTAATCGAGCAGGGGCCTAGGCGCATATCGCCGTTCTTCGTGCCCGGTTCGATCATCAACATGGTGTCCGGTTTCCTGTCGATCCACCTGGGGCTTCAGGGGCCGAACTATGCAATCGCCACCGCCTGTACGACGGGTACCCATTGCATCGGCATGGCGGCCCGTAATATCGCCTATGGCGAGGCTGACGTCATGGTTGCCGGTGGCTCCGAGATGGCGGCCTGCGGTTTGGGCCTGGGTGGCTTCGGCGCTGCGCGTGCCTTGTCCACCCGCAATGACGAGCCGACCCGTGCCAGCCGTCCCTGGGACAAGGGGCGTGACGGCTTTGTTCTATCCGACGGGGCCGGTGCGCTGGTGCTCGAAGAGCTGGAACATGCCAAGGCGCGTGGAGCCCACATTTATGCCGAGCTGGTCGGTTTCGGCATGAGTGGCGATGCCTTCCACATGACGTCGCCGCCGGAAGATGGAGCCGGTGCCGCGCGTTGCATGAAGAATGCGCTTCGCGATGCCGGGCTGAATGTTGAGCAGGTCCAGTACATCAATGCCCATGGCACATCGACGCCTGCTGGCGACCTTGCCGAGGCGGCCGCGGTCAAGTCGGTATTCGGCGATCACGCTTATCGCCTGTCCGTCAGCTCGACCAAGTCGATGACCGGGCATCTGCTCGGTGCTGCAGGCGCTGTCGAGGCGATCTTCAGTGTGCTGGCGATTCGTGATCAGGTGGCTCCGCCGACCATCAACCTGGATGATCCGGATGAGGGCTGCGATCTCGATTTCGTGCCGCATGAAGCCAAGAGCATGCCGATCGATGTGGTGCTTTCCAACTCCTTCGGTTTCGGTGGTACCAACGGTTCGCTGCTGTTCCGCCGGTTTGCCGGCTGA	MSRRRVVVTGMGMLSPLGTDVPSSWQGILAGRSGIGPIEHMDLSAYSTRFGGSVKGFNVEEYLSAKEARKLDLFIQYGLAASFQAVRDSGLEVTDANRERIGVAMGSGIGGLTNIENNCKSLIEQGPRRISPFFVPGSIINMVSGFLSIHLGLQGPNYAIATACTTGTHCIGMAARNIAYGEADVMVAGGSEMAACGLGLGGFGAARALSTRNDEPTRASRPWDKGRDGFVLSDGAGALVLEELEHAKARGAHIYAELVGFGMSGDAFHMTSPPEDGAGAARCMKNALRDAGLNVEQVQYINAHGTSTPAGDLAEAAAVKSVFGDHAYRLSVSSTKSMTGHLLGAAGAVEAIFSVLAIRDQVAPPTINLDDPDEGCDLDFVPHEAKSMPIDVVLSNSFGFGGTNGSLLFRRFAG	PGPT0008360_4479	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008360-fabF-K09458	NA	NA
BMS010_07670	813	pabC	COG0115	Aminodeoxychorismate lyase	ATGCTGACCTGGGTCGACGGCCTGCCAGCGGGTGATGTGCCCGTTACGGACCGTGGGCTCGCCTACGGCGATGGCCTGTTCGAGACCATCGCCGTCAGGGCGGGGCGGCCGCGCTTGCTGGAGCGGCATTTGCGGCGTTTGAGCGAAGGTCGTACCCGGTTGGGAATGGCCTGCGATGAAGCGCTGATCGAGTCTGAGTTATTGGCATTCTGTTCCGTGTTGGGTGACGGAGTAGTCAAGCTGATTCTGACTAGGGGCGATGGTCTGCGTGGCTACGCGCCTCCGGTGGGGCAAGCGCGGCGTATTCTTCAGGGCGGCGCCTTGCCGGCCTATCCTCTTGCCAATGCCGAACGGGGCGTCAGCCTGTATTCCTGTCGGACCCGACTCGCCGAGCAACCGGCACTCGCCGGTCTGAAGCACTTGAATCGACTCGAGCAGGTCCTGGCCCGTTCCGAGTGGCAGGACCCCGCCTTCGCCGAAGGGTTGATGCGCGATGTATCGGGGCGTGTGATCGAAGGGGTCTTCAGCAACCTGTTCATGGCCCGGCTCGGGCGGCTCGTTACCGCCGATCTGTCCCGCTGCGGTGTGGCTGGAGTCATGCGGGCAGAAGTGCTGGCGATTGCGCAGGCTGCTGGCATATCCGTCGAGGTAAGGGACATTGCCTACGAGGAGTTGCTGCAGGCTGATGAAATCTTCCTCTGTAACAGCCTCTATGGCGTCTGGCCTGTGATCAGGTTGGAAGAGCGCGACTGGCCCGTTGGTCCTCTGACCCGTAAACTGCAAGCCCTTGTCTGCGACGTCCTGGGTTCCTGA	MLTWVDGLPAGDVPVTDRGLAYGDGLFETIAVRAGRPRLLERHLRRLSEGRTRLGMACDEALIESELLAFCSVLGDGVVKLILTRGDGLRGYAPPVGQARRILQGGALPAYPLANAERGVSLYSCRTRLAEQPALAGLKHLNRLEQVLARSEWQDPAFAEGLMRDVSGRVIEGVFSNLFMARLGRLVTADLSRCGVAGVMRAEVLAIAQAAGISVEVRDIAYEELLQADEIFLCNSLYGVWPVIRLEERDWPVGPLTRKLQALVCDVLGS	PGPT0008020_1233	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008020-pabC-K02619	NA	NA
BMS010_07671	1065	mltG_2	COG1559	Endolytic murein transglycosylase	GTGATACGCAAATTACTGTTGCTGCTGGAGAGTGGCCTGCTGTTGGCTGGCTTGCTGCTGGCTTTCGCTGTCTGGCAGCAGCACGAGAGTCTCGAGCAGCCTTTGCAGCTGGCGGAGGAGCAGTTGCTCGACGTGCCTGCCGGCGCGACGCCCAGCGGATTGCTCAACCGTCTCGAAAGCGAAGGCATTCTTCGTAATGCCTTCTGGTTGCGTCTCTACTGGCGGTTCAATCTGGCCTCTCATGCGCTGCACAGCGGCGAATACCGAATGGCGCCCGGCATGCGTGCGATCGACCTGCTAGGGCTCTGGCAGCGTGGCGAAGTAGTGCAATACAGCCTGACGCTGGTGGAAGGCTGGAATTTCCGGCAGGTGCGTGCAGCATTGGCGCGCCAGGCCAAGCTGGAACAGACCCTGGACGGATTGTCCGATGCTGAGTTGATGGCGCGTCTGGGGCAGGCCGGGCTGCATCCCGAGGGGCGTTTCTTTCCCGATACCTACCGTTATGTTCGCGGGATGAGCGACATGGACCTGCTCAAGCAGGCCCATGCACGACTGGAAAGCGTGCTCGCCGAAGAGTGGGGGAAACGGGCGGAAGGCTTACCCTACCGTGATCCCTACGAGGCGTTGATCATGGCCTCTCTGGTGGAAAAGGAAACCGGGGTACCGGAGGAGCGTAGCCAGATCGCCGGGGTCTTCATTCGGAGACTGAAACTGGGAATGCTGCTGCAGACGGACCCGACCGTGATTTATGGCCTGGGCGAGCGCTATAACGGCAAGTTGACGCGGGCTCATCTGCTCGAACCGACTCCGTACAACACCTATGTCAAGGCGGGCCTACCACCAACGCCGATTTCCTTGGTGGGACGCGAAGCGATTCATGCGGCGCTGCATCCGGCGGAAGGCAAGAGCCTGTATTTCGTCGCCCGGGGCGACGGTAGCCATGTGTTCTCCAGCAGCCTGGAGGAGCACAACCGGGCGGTGCGCGAATTTCAGCTCAATCGCCGCTCCGATTACCGTTCCAGCCCGTTACCCATTCCGCCGGCCGTGAAGCCGGATGCGCAATGA	MIRKLLLLLESGLLLAGLLLAFAVWQQHESLEQPLQLAEEQLLDVPAGATPSGLLNRLESEGILRNAFWLRLYWRFNLASHALHSGEYRMAPGMRAIDLLGLWQRGEVVQYSLTLVEGWNFRQVRAALARQAKLEQTLDGLSDAELMARLGQAGLHPEGRFFPDTYRYVRGMSDMDLLKQAHARLESVLAEEWGKRAEGLPYRDPYEALIMASLVEKETGVPEERSQIAGVFIRRLKLGMLLQTDPTVIYGLGERYNGKLTRAHLLEPTPYNTYVKAGLPPTPISLVGREAIHAALHPAEGKSLYFVARGDGSHVFSSSLEEHNRAVREFQLNRRSDYRSSPLPIPPAVKPDAQ				NA	NA	NA	NA	NA
BMS010_07672	633	tmk_2	COG0125	Thymidylate kinase	GTGACTGGCCTGTTTATCACCCTCGAAGGTCCCGAAGGGGCCGGCAAGAGTACCAATCGCGATTATCTGGCCGAGCGCCTTCGTGCCCACGGTATCGATGTCCTCATGACACGTGAGCCGGGGGGAACGCCTCTGGCCGAGCGTATCCGCGAATTGCTCCTGGCTCCGTCCGACGAGCCGATGGCCGTGGATACCGAACTGTTGCTGATGTTCGCCGCCCGTGCCCAGCATCTTGCCCAAGTGATCCGTCCGGCTCTGGCCGAAGGGCGAGTGGTGTTGTGTGATCGTTTCACCGATGCCACCTATGCATATCAGGGCGGCGGGCGCGGTGTGCCCGAGGATCGCATCGCCATACTGGAGCGTTTCGTACAGGGGGACGTTCGTCCCGATCTCTGTCTGATTTTCGATCTACCCGTGGAGATTGGGTTGGCGCGTGCCAGTGCACGTGGTCGTCTCGATCGCTTCGAGCGTGAAGGGCGTGCGTTCTTCGATGCTGTCCGCCAAGCCTACCTGCGTCGTGCCGCCGAGCGTCCGGAGGGGTATTGCGTCGTGGATGCCTCGCTGCCCCTTATCGAGGTACAGGCTTCGCTCGATGCATTGTTGCCACGGATTCTGGAGCGTGTTCGTGGATAA	MTGLFITLEGPEGAGKSTNRDYLAERLRAHGIDVLMTREPGGTPLAERIRELLLAPSDEPMAVDTELLLMFAARAQHLAQVIRPALAEGRVVLCDRFTDATYAYQGGGRGVPEDRIAILERFVQGDVRPDLCLIFDLPVEIGLARASARGRLDRFEREGRAFFDAVRQAYLRRAAERPEGYCVVDASLPLIEVQASLDALLPRILERVRG	PGPT0021395_3487	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021395-tmk-K00943	NA	NA
BMS010_07673	1020	holB	COG0470	DNA polymerase III subunit delta'	ATGCATTGTTGCCACGGATTCTGGAGCGTGTTCGTGGATAAGGTATTTCCCTGGCAGACCGGGCTCTGGCAACAACTGGCCGGCCGTTCCCGGCATGCACATGCCTATTTGCTACATGGCCCCGCCGGGATCGGCAAGCGGCGATTGGCCGAGAGCCTGATGGCCCGTCTGCTTTGCCAGCAGCCGGCCGGGTTGGATGCTTGCGGTCAGTGCAAGGCGTGCCACTTGCTGGCGGCCGGTACTCATCCCGATAACTTTGTCTTGGAGCCTGAAGAGGCCGACAAGGCGATCCGGGTCGACCAGGTCCGCGAGTTGGTCGAGTTCGTCGTGCAAACGGCCCAGCTCGGTGGGCGAAAGGTCGTACTGCTGGAGCCGGCCGAGGCGATGAACCTGAACTCGGCCAACGCTTTGCTGAAAAGCCTGGAGGAGCCATCGGGGGATACCGTCCTGCTGCTCATCAGCCATCAGCCCAGCCGGTTGCTTCCGACCATCAAGAGCCGGTGTGTGCAGCAGGCTTGCCCTTTGCCGGACCGTTCCCAGAGCCTGGCGTGGTTGGCTCAGGCCCTGCCGGAGAGCGGCTCGGATGATCGAGAGGAACTGCTGGTACTTGCCGGTGGGTCGCCTTTGACCGCGTTGCGGCTGCATGAGCAGGGGGCACGGGAGCAGCGGGCTCTGGTGGTCGAGGGCGTAAAGAAACTATTGAAGCAACAGGTGGCGCCCAGCCAATTGGCAGAGGGCTGGAATGCGGTCCCGCTGTTGCTGCTGTTCGACTGGTTCTGCGACTGGGTGCATTTGATGTTGCGTTATCAGTTGACTCGTGACGAAGAAGGATTGGGTCTGAACGATATGCGCAAGGTTGTCCAATACCTGGCGGACAAGGCGCCGCAGCCGAAAGTGCTGGCGATCCAGGACTGGTTACTGGCTCAGCGGCAAAAAATATTGGGCAAGGCGAATCTCAACCGTGTGTTGCTTCTCGAAGCCTTGCTCGTGCAGTGGGCAAGCCTGCCCGGACCGGGCTAG	MHCCHGFWSVFVDKVFPWQTGLWQQLAGRSRHAHAYLLHGPAGIGKRRLAESLMARLLCQQPAGLDACGQCKACHLLAAGTHPDNFVLEPEEADKAIRVDQVRELVEFVVQTAQLGGRKVVLLEPAEAMNLNSANALLKSLEEPSGDTVLLLISHQPSRLLPTIKSRCVQQACPLPDRSQSLAWLAQALPESGSDDREELLVLAGGSPLTALRLHEQGAREQRALVVEGVKKLLKQQVAPSQLAEGWNAVPLLLLFDWFCDWVHLMLRYQLTRDEEGLGLNDMRKVVQYLADKAPQPKVLAIQDWLLAQRQKILGKANLNRVLLLEALLVQWASLPGPG				NA	NA	NA	NA	NA
BMS010_07674	357			hypothetical protein	ATGAGTCTGCCACCGAATCTGGGGCCACGTAACGGAATCCTGTCCTTGACCATCAAGGACAAATCCGTTCTGTACGCTGCTTATATGCCTTTCATCAAGAACGGTGGCCTGTTCATTCCAACCAACAAGAGCTACAAGCTCGGCGATGAAGTTTTCATGCTGCTCAATCTGATGGATGAGCCTGAAAAGATTCCGGTGGCCGGAAAGGTGGTCTGGATCACCCCGAAAGGCGCCCAAGGCAATCGTGCTGCAGGTGTTGGCGTGCAGTTCAACGACGGCGACAATACTGCCCGCAACAAAATCGAAACCTATCTGGCCGGCGCCTTGAAGTCCGATCGGCCGACCCACACGATGTAA	MSLPPNLGPRNGILSLTIKDKSVLYAAYMPFIKNGGLFIPTNKSYKLGDEVFMLLNLMDEPEKIPVAGKVVWITPKGAQGNRAAGVGVQFNDGDNTARNKIETYLAGALKSDRPTHTM	PGPT0015970_255	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015970-pilZ-K02676	NA	NA
BMS010_07675	786	ycfH_2	COG0084	putative metal-dependent hydrolase YcfH	ATGCTCGTCGATTCCCATTGCCATCTCGATCGCCTCGATCTGGGTGCCCATGATGGCTCCCTCGATAAGGCGCTGGACGCTGCGCGAGCGCGTGGTGTCGGCCATTTCCTCTGCATTGGCGTGAGCGCCGACAACGCTGCAGCGGTCAAGCACTTGGCTGAGCGATATGCCGATGTGGACTGTTCGATCGGCGTGCACCCTCTGGACCTCGAACCGGGTGCGGAGCCGGCGCTGGATTGGCTGCTGCGCGAGTTGAACCACCCTCGGGTGGTGGCGATTGGCGAAACCGGGTTGGATTACCACTACGAACCGGAGGCCGCGGAACGCCAGCAGCAATCCTTCCGACTGCATCTGGAGGCCGCGAAAGTTACCGGTAAGCCGGTCATCGTGCATACCCGGGAAGCTCGAGCCGATACGCTTGCCCTGCTTCGCGAGGCGGCGTTGCCGCAAGCGGGCGTTCTCCATTGCTTCACCGAAGACTGGGAAATGGCCAGGGCTGCGCTGGATATCGGTTTCTATATTTCTCTGTCCGGAATCGTCACGTTCCGCAATGCCGAGGCTCTGCGCGATGTCGCGCGCAAGGTGCCGGCTGATCGTCTGTTGGTGGAAACCGATTCCCCTTATCTGGCGCCCGTGCCTCACCGTGGCAAGCCGAATTTGCCACAGTACGTTCGAGAGGTCGCCGAGTTCATGGCGGAGCTGCGAGGGGTTTCTTTCGAGGAGTTTGCCGTGCAAACCACCGCGAATTTCAGGCGACTGTTTCCGCTGGCTCATCTGACTGAGTAA	MLVDSHCHLDRLDLGAHDGSLDKALDAARARGVGHFLCIGVSADNAAAVKHLAERYADVDCSIGVHPLDLEPGAEPALDWLLRELNHPRVVAIGETGLDYHYEPEAAERQQQSFRLHLEAAKVTGKPVIVHTREARADTLALLREAALPQAGVLHCFTEDWEMARAALDIGFYISLSGIVTFRNAEALRDVARKVPADRLLVETDSPYLAPVPHRGKPNLPQYVREVAEFMAELRGVSFEEFAVQTTANFRRLFPLAHLTE				NA	NA	NA	NA	NA
BMS010_07676	1134	sufS	COG0520	Cysteine desulfurase SufS	ATGTACGGCTTTCAAGACGAATTTCCGCAAGCTCATGGGCTGCGCTATCTGAACCATGCCGCTGTCGCACCCTGGCCGAAACGCGCGACTCTGGCGGTTACAGCCTTCGCCGAAGAGAACGCACGCCTGGGCGCACGTGACTATCCAGACTGGCTGCAGACCGAGCGACGACTACGCGAACGCCTCAAGCACCTGCTCAATGCACCCAGCACCGCAGACATCGCGCTGGTCAAGAATACATCAGAAGCGCTGTCTTTCGTTGCCTTCGGTCTCGACTGGCGACCCGGTGACGAAATCGTCATCAGCGACGAAGAATTCCCCTCCAACCGGGTGGTATGGGAGGCGCTGAAGCCACGCGGGGTCGTGGTGAAGCAGATCGGCCTCCAGGGATCGGACCCGGAGGGAGATCTGCTTGCGGCCTGCGGTCCACGAACCCGGCTGCTATCGATCAGCTCCGTGCAGTACGCCAGCGGCCTGCGCCTGGATATCGAACGACTCGGCCATGCATGCCAGACCCGGGGCGTGCTGTTTTGCGTCGATGCTATCCAGCATCTCGGCGCCCTGCCCTTCGACGCCCAGGCATGCGACTGTGCTTTCGCCATGGCCGACGGCCACAAATGGATGCTCGGGCCGGAAGGACTTGGCGTTTTCTATTGCCGCAGCGACATGCGGGAACAACTGACGCTGCACGAGTACGGCTGGCACATGCTGGAACACGCCGGCGATTACGATCGCAGCGATTGGCAGCCCGCACGAACGGCAAGACGCTTCGAATGCGGCAGCCCCAACATGCTCGGAGCCATGGCGCTGGAGGCGAGCCTCTCGCTGCTCGAAGAGGTTGGAATGGATGCCGTGGGCCTTGCGCTGGCGGACCGGGTCCAACGGCTGTATGACGGGTTGACGAACATTGTCGGCGTGAGCCTGCACAGTCCGAGCGATCCAGCCCGACGCGCCGGCATCCTGACGTTCAGCCTGGACGGCTGGGATAACCAGGCGCTGTTCGAACGCCTCAAGGCTGAACAGGTCATCTGCGCCCAGCGCGGAGGAGGTATTCGCCTTTCCCCACACTTCTATACCGAAGCCCAGGTGATCGAAGAAACGCTGGCACTCCTGCATAGACTGGCCAACGCCTGA	MYGFQDEFPQAHGLRYLNHAAVAPWPKRATLAVTAFAEENARLGARDYPDWLQTERRLRERLKHLLNAPSTADIALVKNTSEALSFVAFGLDWRPGDEIVISDEEFPSNRVVWEALKPRGVVVKQIGLQGSDPEGDLLAACGPRTRLLSISSVQYASGLRLDIERLGHACQTRGVLFCVDAIQHLGALPFDAQACDCAFAMADGHKWMLGPEGLGVFYCRSDMREQLTLHEYGWHMLEHAGDYDRSDWQPARTARRFECGSPNMLGAMALEASLSLLEEVGMDAVGLALADRVQRLYDGLTNIVGVSLHSPSDPARRAGILTFSLDGWDNQALFERLKAEQVICAQRGGGIRLSPHFYTEAQVIEETLALLHRLANA	PGPT0020195_4993	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0020195-sufS-K11717	NA	NA
BMS010_07677	642			hypothetical protein	ATGCAGAAAGAACCCCGTAAGGTCCGTGAGTTTCGTCGTCGCGAACAGGAAATTCTCGACACCGCGTTGAAACTGTTCCTCGAGCAAGGAGAGGACAGTGTGACCGTGGAAATGATCGCCGACGCCGTCGGTATCGGCAAAGGCACCATCTACAAGCACTTCAAGTCCAAGGCGGAGATCTACCTGCGCCTGATGCTCGACTACGAGCGGGATTTGAACGAGCTTTTCCACTCGGAGAACGTCGCCAAGGACAAGGAGGCTCTGTCACGCGCCTACTTCGAGTTCCGCATGCGTGACCCGCAGCGCTATCGGCTGTTCGATCGCCTGGAAGAGAAGGTGGTCAAGGGTAACCAGGTTCCGGAGATGGTGGAGCAATTGCACCGGATCCGCGCCTCGAACTTCGAGCGACTGACCCAGCTGATCGAAGGCCGCATCGCCGAAGGCAAGCTGGAGGACGTGCCGCCGTACTTCCACTACTGTGCCGCCTGGGCCTTGGTCCATGGTGCCGTGGCGCTGTACCACTCGCCGTTCTGGCGCGAAGTTCTGGAGGATCAGGAAGGTTTCTTCCAGTTCCTCATGGACATTGGTGTGCGCATGGGCAACAAGCGTCGGCGCGATGGAGAACATCCAGCGGCTGGCTGA	MQKEPRKVREFRRREQEILDTALKLFLEQGEDSVTVEMIADAVGIGKGTIYKHFKSKAEIYLRLMLDYERDLNELFHSENVAKDKEALSRAYFEFRMRDPQRYRLFDRLEEKVVKGNQVPEMVEQLHRIRASNFERLTQLIEGRIAEGKLEDVPPYFHYCAAWALVHGAVALYHSPFWREVLEDQEGFFQFLMDIGVRMGNKRRRDGEHPAAG				NA	NA	NA	NA	NA
BMS010_07678	969	moaA_2	COG2896	GTP 3',8-cyclase	ATGATCGTCGATCGCCAGGGCAGGCGTTTCCGCAACCTGCGGATCAGCCTGACCGCCGCTTGCAACTATGCATGTACCTATTGCGTGCCGGACGGCAAGCGTCTGGTTGCCGCGCAGGACGAACTTTCTGCCGAAGCCTTGATTCGCGGGGTCGCCTATCTGATCGAGGCAGCGGGGATCGAGCGCCTGCGTATCACGGGTGGTGAGCCGCTGGTAAGCCCCAAGCTTGAACCTTTCATGCGTGCGGTCGGCACGCTGGGGCTGTCGGACATCAGCCTGACCACCAACGGCCAACTGCTGACGCGCAAGCTTCCCTTATTGCTGGAGGCCGGCATCCGTCGCCTGAACGTATCCCTGGATACACTGGATGCCGAGGCGTTCCGCCATATCGCACGTGGCGGCGATCTGGCGACGGTTCTCGATGGCCTCGAGCAGGCGCGTGCCGCCGGACTGAAAATCAAACTGAACATGGTGCCGCTGCGCGGCAAGAACCTCGATCAGGTACTGCCGTTGCTGGACTACTGCCTGGAGCGAGGGTTCGAGCTGCGTTTCATCGAGCTGATGCGCATGGGGCACCTGGCCCGCGATCCCAACGCGTTCAACCAGCAGTTCGTCGGTATGGGCGAGTTGCTTGAGCTGATCGGCGAGCGTTACGTCTATCAGCAGGCTGAGGCGCCGCTGGATGCCACGGCCTTGCGCTATGAAATTCCCGAAGGCGGCTTTTTCGGCGTGATTGCCAACGAGAGCGTGCCTTTCTGCCGTACCTGTTCGCGTCTGCGCCTGTCCTCCACCGGCTGGCTGCATGGGTGCCTGTCTTCCAGCAATCGTCACTACATCGGCGATCTGCTCGACAAGCCGCGCCACCAGGCGCTTCCGGCATTGCAGCGGCTTCTGGTCAGGGCGCTGGCGGATAAGCAGGACCTGGCATTCTCCGGTGGCGTCACGGTGATGAAGATCATCGGTGGCTGA	MIVDRQGRRFRNLRISLTAACNYACTYCVPDGKRLVAAQDELSAEALIRGVAYLIEAAGIERLRITGGEPLVSPKLEPFMRAVGTLGLSDISLTTNGQLLTRKLPLLLEAGIRRLNVSLDTLDAEAFRHIARGGDLATVLDGLEQARAAGLKIKLNMVPLRGKNLDQVLPLLDYCLERGFELRFIELMRMGHLARDPNAFNQQFVGMGELLELIGERYVYQQAEAPLDATALRYEIPEGGFFGVIANESVPFCRTCSRLRLSSTGWLHGCLSSSNRHYIGDLLDKPRHQALPALQRLLVRALADKQDLAFSGGVTVMKIIGG	PGPT0008410_3912	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008410-moaA-K03639	NA	NA
BMS010_07679	603			hypothetical protein	ATGCGAAGTCTGATTCTATTGCTGGTCTTTTCTGCCTTGGCGGGCTGCATGAGTGTCAGCGATCTTGCCGAGGGCACCCGTTATCACTTGGGTGATGCGGGGCTCCTCGATCATAGCGAGACTCGCCGGATCAACAATCTGCGCTTGCAGCCCGACTCTTTCATCTACATCGCGCAGGGTCATTTCGTGCCGCCCGGCAAGGCCTATCCGCGACCCAACGTCGTGGCCGAAGAGGCCTTCAACGGTTTCGTGGAGTATTTCCCCATGATTCGCCGCGCGAAGGCGCCGGTCGGGCTGGAGGAGGCGATGGGGCAGGCGCGGTCCGCAGGTGCCCATTATCTTCTCTACTGCCGGTTCGCCAGTGCCGACGACCGCATCGGAACCTGGGAGGAGTGGGAAGACCAAGAGGCCCTGGATCGTCTCGGCACCGACCGTGGGGTTATCCAATTGATGCTGGTGGAAACCAACACCCGCTATCTGGTGGATACTGCGCGCATTCGCAGTCGCGGCGGTTTACTGACGCTCTATGACGCCAAGCCGGAAGACCTGCTGGGCCCGCCGCTGCGTGACTATGCTCGGAGTTTGCTCGGCTTGAGCCGTTAA	MRSLILLLVFSALAGCMSVSDLAEGTRYHLGDAGLLDHSETRRINNLRLQPDSFIYIAQGHFVPPGKAYPRPNVVAEEAFNGFVEYFPMIRRAKAPVGLEEAMGQARSAGAHYLLYCRFASADDRIGTWEEWEDQEALDRLGTDRGVIQLMLVETNTRYLVDTARIRSRGGLLTLYDAKPEDLLGPPLRDYARSLLGLSR				NA	NA	NA	NA	NA
BMS010_07680	570			hypothetical protein	ATGTCCGATTCCGGCAAGGCGAGCGACCTGCTTGCTCAGATTCCCAAGACCGAAAAGAAGGGCTTGCCACCGGTACATCTGTGGAATCCCGATTTCTGTGGCGATATCGATATGCGTATCGCTCGTGACGGCACTTGGTATTACATGGGAACGCCGATCCGGCGAAAGCCGATGGTGCGCCTGTTCTCCACCATCATTCGGCGCGATGGCGACGATTACTTTTTGGTGACGCCTGTAGAGAAGGTGGGCATCAAGGTGGACGATGCGCCATTCGTGGCCGTGAGCGCCGACGTCGAGGGGCAGGGGGAGCGTCAGGTGTTGCGCTTCGTCACCAATGTCGAGGACGAAGTGGAGGCGGGAGGCGAGCACCCGATCCGGGTCGCCCTGGATGCCGAGACTCAGGAGCCTGCGCCGTATGTGCATATCCGCGCCAATCTGGAGGCGCTGATTCACCGGAATGTGTTCTACCAGTTGGTGGAATTGGCTGTGCCACGGGAAATGGATGGCCGCACTTGGCTGGGTGTCTGGAGCGGGGGGCAGTTTTTCCCCATCGGGCCGCAGGATGAGTGA	MSDSGKASDLLAQIPKTEKKGLPPVHLWNPDFCGDIDMRIARDGTWYYMGTPIRRKPMVRLFSTIIRRDGDDYFLVTPVEKVGIKVDDAPFVAVSADVEGQGERQVLRFVTNVEDEVEAGGEHPIRVALDAETQEPAPYVHIRANLEALIHRNVFYQLVELAVPREMDGRTWLGVWSGGQFFPIGPQDE				NA	NA	NA	NA	NA
BMS010_07681	1656		COG0644	Electron transfer flavoprotein-ubiquinone oxidoreductase	GTGGAACGCGAATACATGGAATTCGACGTCGTCATCGTCGGCGCCGGCCCTGCCGGTCTGTCCGCCGCCTGCCGACTGAAGCAGAAGGCCGCCGAAGCTGGTCAGGAGATCAGCGTCTGTGTGGTCGAGAAGGGTTCCGAAGTCGGCGCCCACATTCTCTCCGGTGCCGTTTTCGAGCCACGAGCCCTGAATGAACTCTTCCCCGACTGGAAAGACCTCGGCGCCCCGCTGAACACACCGGTCAAGCGTGACGACATCTATCTGTTCAAGAGCGCCGAAACCGCCAGCAAGATTCCGAACTTCTTTGTGCCCAAGACCATGCACAACGAAGGCAACTACATCATCTCCCTGGGCAACCTGTGCCGCTGGCTGGCCCAGCAGGCCGAAGGCCTGGGTGTCGAGATCTACCCGGGCTTCGCCGCCCAGGAAGCCCTGATCGACGAAAACGGCGTGGTTCGCGGCATCATCACCGGTGATCTCGGCGTCGATCGCGAAGGCAATCCGAAGGAAGGCTACTACACCCCCGGCATGGAGCTGCGCGGCAAATATACCCTGTTCGCCGAAGGTTGCCGCGGCCATATCGGCAAGCAACTGATCAAGCGCTACAACCTGGCGTCGGAAGCCGATGCCCAGCACTACGGCATCGGCATCAAGGAACTGTGGGAAGTCGACCCGGCCAAGCACGAGCAGGGCCTGGTGGTGCACACCGCCGGCTGGCCGCTGGACGATGAGAACATGGGCGGCTCCTTCCTATATCACCTGGAAAACAACCAGGTGGTCGTGGGCCTGATCGTCGACCTGTCCTACAGCAACCCGCATCTGTCGCCGTTCGACGAGTTCCAGCGCTACAAACACCATCCGGTGATCAAGCAGTATCTCGAAGGCGGCAAGCGCATCAGCTATGGCGCCCGCGCGATCTGCAAGGGCGGCCTGAACTCGCTGCCGAAGATGGTTTTCCCCGGTGGCGCGCTGATCGGTTGTGACCTGGGCACGCTGAACTTCGCCAAGATCAAAGGCAGCCATACGGCGATGAAATCCGGCATGCTCGCTGCCGAAGCCATCGCCGAAGCCCTGGCAGCCGGCCGTGAAGGCGGTGACGAGCTGACCAACTATGTCGACGCCTTCAAGGGCAGTTGGCTGTACGACGAACTGTTCCGCAGCCGCAACTTCGGCCCGGCACTGCACAAGTACGGCGCACTGATGGGCGGAGCGTTCAACTTCATCGACCAGAACATCTTCGGCGGCAAGATCCCGGTCACGCTGCATGACACCAAGCCGGATCACGCCTGCCTGAAACCGGCAGCGGAATCGACCAAGATCGAATACCCGAAGCCGGACGGCAAGATCAGCTTCGACAAACTGTCCTCGGTGTTCCTCTCCAACACCAACCACGAAGAAGAACAGCCCTGCCACCTGAAGCTGACCGACCCGAGCATTCCGCTGACCAAGAACCTGCCGCTGTATGACGAGCCGGCTCAGCGCTACTGCCCAGCCGGCGTCTACGAAGTGGTCACCCAGGAAAACGGCGAGAAGAAGTTCCAGATCAACGCGCAGAACTGCGTGCACTGCAAGACCTGCGACATCAAGGACCCGGCCCAGAACATTACCTGGGTTGCGCCGGAAGGCACCGGCGGTCCGAACTACCCCAACATGTAA	MEREYMEFDVVIVGAGPAGLSAACRLKQKAAEAGQEISVCVVEKGSEVGAHILSGAVFEPRALNELFPDWKDLGAPLNTPVKRDDIYLFKSAETASKIPNFFVPKTMHNEGNYIISLGNLCRWLAQQAEGLGVEIYPGFAAQEALIDENGVVRGIITGDLGVDREGNPKEGYYTPGMELRGKYTLFAEGCRGHIGKQLIKRYNLASEADAQHYGIGIKELWEVDPAKHEQGLVVHTAGWPLDDENMGGSFLYHLENNQVVVGLIVDLSYSNPHLSPFDEFQRYKHHPVIKQYLEGGKRISYGARAICKGGLNSLPKMVFPGGALIGCDLGTLNFAKIKGSHTAMKSGMLAAEAIAEALAAGREGGDELTNYVDAFKGSWLYDELFRSRNFGPALHKYGALMGGAFNFIDQNIFGGKIPVTLHDTKPDHACLKPAAESTKIEYPKPDGKISFDKLSSVFLSNTNHEEEQPCHLKLTDPSIPLTKNLPLYDEPAQRYCPAGVYEVVTQENGEKKFQINAQNCVHCKTCDIKDPAQNITWVAPEGTGGPNYPNM				NA	NA	NA	NA	NA
BMS010_07682	750	etfB_2		Electron transfer flavoprotein subunit beta	ATGAAGGTTCTTGTAGCTGTCAAACGAGTGGTTGACTACAACGTCAAGGTTCGCGTCAAGGCGGACAACTCCGGCGTTGATCTCGCCAACGTCAAGATGTCGATGAACCCCTTCTGCGAAATCGCCGTGGAAGAGGCGGTGCGCCTGAAAGAGAAAGGCGTTGCCAGCGAAATCGTCGTCGTCTCCATCGGCCCCAATGCCGCTCAAGAGCAGCTGCGTACCGCTCTGGCCCTAGGGGCCGACCGTGCGATCCTGGTCGAGTGCAACGATGAGCTGAACTCCCTCGCCGTGGCCAAGCTGCTCAAGGCGGTGGTCGAGAAGGAACAGCCGCAACTGGTGATCATGGGCAAGCAGGCCATCGACAGCGACAACAACCAGACCGGCCAGATGCTCGGTGCGCTGACCGGCATGCCGCAGGGCACTTTCGCCTCCAAGGTGGAAGTGGCTGGTGACAAGGTCAACGTCACCCGTGAAATCGACGGCGGCCTGCAGACCGTGGCCCTCAACCTGCCGGCGATCGTCACCACCGACCTGCGTCTGAACGAGCCGCGCTATGCGTCTCTGCCGAACATCATGAAGGCCAAGAAGAAGCCGCTGGACGTGCTCACCCCGGATGCCCTGGGTGTTTCCACCGCTTCCACCGTCAAGACCCTGAAAGTCGAAGCGCCGGCTGCCCGTAGCGCCGGTATCAAGGTCAAGTCCGTGGCTGAACTGGTCGAGAAACTGAAGAACGAGGCGAAGGTAATCTAA	MKVLVAVKRVVDYNVKVRVKADNSGVDLANVKMSMNPFCEIAVEEAVRLKEKGVASEIVVVSIGPNAAQEQLRTALALGADRAILVECNDELNSLAVAKLLKAVVEKEQPQLVIMGKQAIDSDNNQTGQMLGALTGMPQGTFASKVEVAGDKVNVTREIDGGLQTVALNLPAIVTTDLRLNEPRYASLPNIMKAKKKPLDVLTPDALGVSTASTVKTLKVEAPAARSAGIKVKSVAELVEKLKNEAKVI	PGPT0001035_4618	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001035-fixA|etfB-K03521	NA	NA
BMS010_07683	930	etfA_2	COG2025	Electron transfer flavoprotein subunit alpha	ATGACTATCTTGGTTGTTGCTGAACACACTAACGCCGCTCTGGCGCCTGCCACCCTGAACGTCGTGACCGCTGCGCAGAAGATCGGTGGTGACATCCACGTCCTGGTCGCCGGCAGTGGTTGCTCCGCCGCCGCCGAAGCCGCCGCCAAGGTTGCCGGCGTTTCCAAGGTTCTGGTTGCCGACAACGCCGCCTATGCCCACCAGCTGCCGGAAAACGTCGCTCCGCTGATCGCCGAGCTGGCCAAGGGTTACAGCCATGTGCTGGCCGCTGCCACCACCAACGGCAAGAACTTCCTGCCGCGCGTTGCCGCGCAACTGGACGTCGACCAGATCTCCGAGATCATCGCCGTCGAGAGCGCCGATACCTTCAAGCGCCCGATCTATGCCGGTAACGCCATCGCCACCGTGCAGTCTTCCGCTGCCGTCAAGGTGATCACCGTGCGTACCACCGGTTTCGATGCCGCTGCCGCCGAAGGCGGTTCCGCTGCCGTCGAAGCGGTGAGCGGTCCGGCCGATGCCGGCAAGTCCGCTTTCGTCGGCGAAGAGCTGGCCAAGTCCGACCGTCCCGAGCTGACTGCCGCCAAGATCGTCGTTTCCGGCGGCCGCGGCATGCAGAACGGCGAGAACTTCAAGCACCTGTACGCACTAGCCGACAAGCTGGGCGCTGCCGTGGGCGCTTCCCGCGCCGCGGTCGACGCCGGTTTCGTTCCGAACGACATGCAGGTCGGCCAGACCGGCAAGATCGTCGCGCCGCAGCTGTACATCGCCGTCGGTATCTCCGGCGCGATCCAGCACCTGGCCGGTATGAAGGACTCCAAGGTCATCGTCGCCATCAACAAGGACGAAGAAGCCCCGATCTTCCAGGTCGCGGACTACGGCCTGGTGGCTGACCTGTTCGAAGCCGTCCCGGAACTGGAAAAGCTGGTCTGA	MTILVVAEHTNAALAPATLNVVTAAQKIGGDIHVLVAGSGCSAAAEAAAKVAGVSKVLVADNAAYAHQLPENVAPLIAELAKGYSHVLAAATTNGKNFLPRVAAQLDVDQISEIIAVESADTFKRPIYAGNAIATVQSSAAVKVITVRTTGFDAAAAEGGSAAVEAVSGPADAGKSAFVGEELAKSDRPELTAAKIVVSGGRGMQNGENFKHLYALADKLGAAVGASRAAVDAGFVPNDMQVGQTGKIVAPQLYIAVGISGAIQHLAGMKDSKVIVAINKDEEAPIFQVADYGLVADLFEAVPELEKLV	PGPT0001040_4639	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001040-fixB|etfA-K03522	NA	NA
BMS010_07684	735	nadE_1		Glutamine-dependent NAD(+) synthetase	ATGAAACTCTGCGCCGCCCAGCTCGCCTCGGTCTCCGGCGACCTCCGGCAGAACCTCGATAAGCACTGCCGCTTCGTGGAACACGCCGCCCGGCTCGGCGCGGAGTTGATCGTTTTCCCGGAACTCTCGCTGACCCGCTACGAGACCGCCCGGGCCAGGGAGCTGGCGCTGCCCTGGAACAGCCCGCTACTGGACGAACTCCAGCATCTCAGCGATGCCCATCGAATCATCATCAGCACCGGGCTTCCCACACCGGCGCCGGAGGGCACCCGCATCAGCATGCTGATCGTCCAGCCGAACACGCCTCGGGCGATTTACTCCAAGCAGCAGCTTCACGACGACGAGCTGCCCTTCTTCGTACCCGGTGATCACCAAGTCGTGATCCGCACCGGTGATTCCATGCTGGCACCGGCTATCTGCTACGAGTCCCTGCAACCCGACCACGCCGAACAGGCCGCCCGCCTGGGCGCGAACGTCTACTTGGCCAGCGTGGCCAAGTCCGCCAATGGCGTCGCCAAGGCCCGGGCGCACTACCCCGAGGTGGCAAAACGGCACGGCATGACGGTGCTGCTGGCGAACAGCGTCGGCCCGGTGGATGGCTTCGTCACGGCCGGGCAGTCGGCCGTCTGGAACAACCGGGGCGAACGGCTGGGGCAACTGGGCGAAGAGGAAGAAGGCCTGCTCCTGTTCGATACGCTCAGCGAAGCGCTGAGCATCCACTCACCCTTACGGTGA	MKLCAAQLASVSGDLRQNLDKHCRFVEHAARLGAELIVFPELSLTRYETARARELALPWNSPLLDELQHLSDAHRIIISTGLPTPAPEGTRISMLIVQPNTPRAIYSKQQLHDDELPFFVPGDHQVVIRTGDSMLAPAICYESLQPDHAEQAARLGANVYLASVAKSANGVAKARAHYPEVAKRHGMTVLLANSVGPVDGFVTAGQSAVWNNRGERLGQLGEEEEGLLLFDTLSEALSIHSPLR				NA	NA	NA	NA	NA
BMS010_07685	1506	mymA	COG2072	Putative FAD-containing monooxygenase MymA	ATGCAGGATCATTTCGATGTGCTGGTGATCGGTGCCGGGTTGTCGGGCATTGGGATGGCGTGTCAGTTGGCGATGCAGGTGCCGGAGGCGCGGGTTGGGGTCATCGAGCGGCGGCAGGCGATTGGCGGGACGTGGGATCTGTTTCGCTATCCTGGCGTGCGGTCGGATTCGGATATGTTCAGCTTCGGTTATTCGTTCCGCCCCTGGAATGAGCTGAAGGTGCTGGCGGATGGGCCGTCGATCCGGCGTTATATGGTGGAGACGGCGCGGGCGTTCGGGGTCGAAGAGAAGATTCGTTTCGGCCTGAAGGCGACGCGGTTTTTCTGGTCCAGCGAGCGGCGCGAGTGGACGGTGACGGCGCTGGAGGAGGCGAGCGGGCAGACGCGCTCCTTCACGTGCAGGCTGCTGATCGCTTGCACCGGTTATTACGACTACGACGCCGGCTATCTGCCGGATTTTCCTGGTGTCGAGCGCTTCCAGGGGCTGCGTATCCACCCGCAGCAGTGGCCGGAGGACTTGGATTACAGCGGCAAGCGGGTGGTGGTGATCGGCAGCGGCGCGACGGCGGTGACGCTGGTGCCGGCGATGGCGGAGCGGGCTGCCCATGTGACCATGCTGCAGCGGTCGCCGAGCTATGTGTTCTCGGTGCCGGCCTACGACAAGCTGTCGGAGGTGCTTCGGCGGTTCCTGCCGGATCGATTGGTCTATGCCTGGGCGCGCCGGCGCAACATCTTCTTGCAACGGACGATGTTCAAGGCGGCGAAGCGCTGGCCGGGGCTGGTGCGGCGGCTGTTGCTGGCCGGGGTGCGCAAGCGGTTGGACGGGGCGGTGGACATGCGTCATTTCACGCCGCCGTACAACCCGTGGGACGAGCGGCTGTGTGCCGTGCCGAATGCCGATCTGTTCGAGGTGCTGCGTGAGGGAAAAGCCTCGGTCGTCACCGACCGCATCGAGACCTTCACCGAGCGGGGCATCCGCCTGGCGTCCGAGCGGGAGCTGGAGGCGGATATCGTGATCACCGCCACCGGGTTGCGCTTGCAGGCGTGCGGCGGGGTAACGGTGGACGTGGATGGCGTGGTGCAGCCGATCCACGAGCGGCTGACCTACAAGGGCGTGCTGGTGCAGGACGTGCCCAACTTCGGTTACATCTTCGGCTATACCAATGCCTCTTGGACGTTGAAGGCGGATATCGCCGCGGCCTACCTGTGCCGGCTGTACCGCCACATGCGCGAGTCGGGGCGGGCGGTGTTCACCCCGAAGGCGCCGGAGGGCGAGGCGCTGGAGGAGAGTGTGATGAGTTCGCTGCGCTCCGGCTATGTCCAGCGCGGGCAGGCGGTATTGCCTCGGCAGGGGCGGCATCTGCCCTGGCGGGTGCTGCACAGTTACGAGCGGGACCGGGTGATGCTGCTGGAGCAGCCGATCCAGGACGAAGCGCTGGTATTTTCCGAGGCGTCGCCGGGGCCGGATGCAATCGAGGCAACGCCCACGCCTTCGATTTCACCGTAA	MQDHFDVLVIGAGLSGIGMACQLAMQVPEARVGVIERRQAIGGTWDLFRYPGVRSDSDMFSFGYSFRPWNELKVLADGPSIRRYMVETARAFGVEEKIRFGLKATRFFWSSERREWTVTALEEASGQTRSFTCRLLIACTGYYDYDAGYLPDFPGVERFQGLRIHPQQWPEDLDYSGKRVVVIGSGATAVTLVPAMAERAAHVTMLQRSPSYVFSVPAYDKLSEVLRRFLPDRLVYAWARRRNIFLQRTMFKAAKRWPGLVRRLLLAGVRKRLDGAVDMRHFTPPYNPWDERLCAVPNADLFEVLREGKASVVTDRIETFTERGIRLASERELEADIVITATGLRLQACGGVTVDVDGVVQPIHERLTYKGVLVQDVPNFGYIFGYTNASWTLKADIAAAYLCRLYRHMRESGRAVFTPKAPEGEALEESVMSSLRSGYVQRGQAVLPRQGRHLPWRVLHSYERDRVMLLEQPIQDEALVFSEASPGPDAIEATPTPSISP	PGPT0005600_238	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_THIOBENZAMIDE_DEGRADATION,PGPT0005600-ethA-K10215	NA	NA
BMS010_07686	1590			hypothetical protein	ATGCTCACAGACGAGTCTCTAGAATTTGCAAAAAATCACATTCAGGCTTTCTACGATACAGACTTTTATCCAAAGCCCTTTGAGTTCCAAGCACTCTGGTACTCGTGGGACTCTGTTAAAAATTATCTACTTACTACGCCACTAGAACAGATCCATACGGCTAACCCACGAACTATCCCATGGGCCAAATCCAAAGGGGGCTATCGTGTCGTTCATCAACTTGAACCAATCGACTCAATTGTATATACCGCCCTCGTATTCTTAGCAGCTAAAAATATTGAGCAGGCCAGAATGGATTCATCAGTAGCATGCTCCTACAGAATAGAACCAGACAATCAAAGCTATTTCGCTAAAGGCTCCGGCTTTCCGTCATACAGACAAGCATGCGAGAAATTATCGGATGAATATAAATATGTTTTGGCCACAGATATAAGTGATTTCTACAACCAAATATATCTCCACAGAGTTGGAAATATCCTTGAGTCCGTCAGCAATCAACAGCTAGGAAAAAATATCGAACTTTTTCTCTCTCGACTAAACAATAAAGCCTCACAGGGAATACCAATTGGACCGGCAGCATCCATTGTTTTAGCCGAAGCAATAATGATTGATGTCGACCAGTTCATCTCGAACCATCATGTCCCACATGCGCGCTATGTCGATGATATAAGAATTTTTTCAGACAACAAAGATGAACTTACAATCATACTTGAAGATCTTGTTATCTACTTACATGAACATCATAGACTTGGATTATCTGCCGAAAAGACAAAAATAATAGAAACAGGCATCTTCTTAAAAGAAGAACTGCAAAATCAATATCAATTTGAAAAACTCAACATTCTAAGCGAGATTGAGGCAGGGAATCAGTACGGGGCATACCAAGAAGATGACCCTGAAGATTTTGATGATGAATCCTTCGAAGTAAACGAGGAGGAGGAGGAAGAGGATCTACGCAATCTAGATGAGAAACTTCTTGATGCGTTAAACCGAGCAAAAAATTTTGGATATGTTGATCTAGCCGTACTACGTGCAATCATACGACGCGCAAAAAGTGCTCGACTCCCAATACTTGCAGAGCCCCTCACTAGCGATCTCGTTTTCTTTGCACCAATCATAAACGATGTGACTTTATACCTTGCCTCGCTCTCTGATGACGAGATTGAAAAACACATACCGAATCTAGTCAATGCATACGAGCAGGGGAATTTCTCACTTCGCAGCATTAAAATGTGGATGGAATGGCTTCTTACAAGGAGAGAAATAACCCTCAAAGACAAGAAACTTCTTAAATTTGCCTTCAACGGATCGCCACAATTTGCTGCCGATGCCGCTATGCGCATGAAAAATATGGCATGGGCAAAAGAATCCAAGACCAAAATCCTAACCTCTGCAATTTGGGACCGCCGGGCCTATATACACTCACTATCATTACTCTCAAAAGATGAAAGGGATAAATTCATGTCATTAATCAGAAAAAACACCACCCTAACCAAAACCGATCACTGGGTGTGCCAATGGGTTAAACAGGGCTGCCCTGATCCTGCCCTTATATATGATGAGGATTCACCTTTTCTTGAAGACTTTTAG	MLTDESLEFAKNHIQAFYDTDFYPKPFEFQALWYSWDSVKNYLLTTPLEQIHTANPRTIPWAKSKGGYRVVHQLEPIDSIVYTALVFLAAKNIEQARMDSSVACSYRIEPDNQSYFAKGSGFPSYRQACEKLSDEYKYVLATDISDFYNQIYLHRVGNILESVSNQQLGKNIELFLSRLNNKASQGIPIGPAASIVLAEAIMIDVDQFISNHHVPHARYVDDIRIFSDNKDELTIILEDLVIYLHEHHRLGLSAEKTKIIETGIFLKEELQNQYQFEKLNILSEIEAGNQYGAYQEDDPEDFDDESFEVNEEEEEEDLRNLDEKLLDALNRAKNFGYVDLAVLRAIIRRAKSARLPILAEPLTSDLVFFAPIINDVTLYLASLSDDEIEKHIPNLVNAYEQGNFSLRSIKMWMEWLLTRREITLKDKKLLKFAFNGSPQFAADAAMRMKNMAWAKESKTKILTSAIWDRRAYIHSLSLLSKDERDKFMSLIRKNTTLTKTDHWVCQWVKQGCPDPALIYDEDSPFLEDF				NA	NA	NA	NA	NA
BMS010_07687	288			hypothetical protein	ATGTTCGTCGTACTGCTCACATTCTCAACCCACAAAGATAAGGCCAGCCAATTCATGGAAGGCCACAACGCCTGGATCAAGCGCGGCTTCGACGACGGCGTGTTCCTGCTCGTCGGCAGCCTCCAACCCAAGCGCGGCGGCTGTGTCATCGTCCACAACACCTCACTGTCCGACCTGCAAACCCGCGTCAACGACGACCCCTTCGTGGCCGAACAGGTAGTCGAGGCACAAATCCTCGAAATCAGCGCGGCGAAGGCGGATGAACGCTTGAAGTTCCTGCTGGATTAA	MFVVLLTFSTHKDKASQFMEGHNAWIKRGFDDGVFLLVGSLQPKRGGCVIVHNTSLSDLQTRVNDDPFVAEQVVEAQILEISAAKADERLKFLLD				NA	NA	NA	NA	NA
BMS010_07688	570	rutB_3		Peroxyureidoacrylate/ureidoacrylate amidohydrolase RutB	ATGTCCATTCGTTCCGGTTCCAATGCGGCCCTGGTCGTCGTCGATGTCCAGGTCGACGTCGTGGCCAATGCCTGGGAACGCGACCGCATCGTCGCGAACGTAGCGCTCGCCGTTCGGCGTGCTCGCGATGCGGGTGTGGTTGTCGTCTGGGTCCAGCATGACGATGCCGAACTCAAGTACGACACCTCGGGCTGGGCGTGGGTGCCAGAGCTTTCGCCACTGCCAACGGAGCCGCTCGTTCGCAAGCACTTCAATTCCGCCTTTGAAGGCACCGAGCTTGACTCGCTGCTGGACGGGTTCGGTGTCGCACACGTTTTCCTGGCCGGGGCGGCGACGAACTGGTGCATTCGTACGACGGCCTATGCCGCACTGGAGCGAGGGTTCGACGTTACCTTGCTTAGCGACGCGCATACGACCGAAGACATGACGCTTTCGTCTGGACGGGTGATCGAGGCGCAGAGCGTGATCGACGACCTCAACATCGCCCTGCGTTGGCTTGCCTACCCTGGGCGCGCCAATGCGGCCGCGCCGACTGCGGAGGTCGAGTTCGGGAGTCGCACAGAAGGGTGA	MSIRSGSNAALVVVDVQVDVVANAWERDRIVANVALAVRRARDAGVVVVWVQHDDAELKYDTSGWAWVPELSPLPTEPLVRKHFNSAFEGTELDSLLDGFGVAHVFLAGAATNWCIRTTAYAALERGFDVTLLSDAHTTEDMTLSSGRVIEAQSVIDDLNIALRWLAYPGRANAAAPTAEVEFGSRTEG				NA	NA	NA	NA	NA
BMS010_07689	768	bdhA_4		D-beta-hydroxybutyrate dehydrogenase	ATGCTCAGTGGAAAAACCGCCCTGGTCACCGGCTCGACCAGCGGCATCGGCCTGGGAATTGCCGAGGTGCTTGCCCGCAGCGGCGCCAACGTCATCCTCAATGGCTTCGGCGATTGGCAGGCGGCGGCCGATCAGCTTTCCCGCTTCGGCGGGCGGGTTGGCTACAACGGCGCCGACCTTGGCGACCGCGCGCAGATCGAGGATCTGTTCGACTACGCCCGCCGCGATTTCGGCCGTGTCGACATCCTGGTCAACAACGCCGGGATACAACACGTCTCGCCCGTGGAGAGCTTCCCCATGGAGCGCTGGGACGCGGTGATCGCACTCAACCTCACGGCGGTCTTTCACTGCACGCAACTGGCCTTGCCCGACATGCGCGAGCAGAACTGGGGGCGCATCATCAACGTCGCCTCGGTGCATGGCAGCGTCGGCTCCATCGGTAAGGCGGCCTACGTCGCGGCCAAGCACGGTGTGCTCGGGCTGACCAAGGTGGTGGCGTTGGAAACCGCCTTGAGCGGCGTGACCTGCAATGCCATCTGCCCCGGCTGGGTGCTCACCCCGCTCGTGCAGCAGCAGATCGACGCGCGTGTTGCCGCGGGCGAGTCGCTCGACAGCGCACGCACGGCACTGCTCGCGGAAAAACAGCCGTCCCAGGCCTTCGTGACCCCGCAGCAACTGGGCGAGCTGGCGCTGTTTCTCTGCAGCCCGGCAGCCGAACAGGTACGTGGGGCAGCCTGGAACATGGATGGCGGTTGGCTGGCGCAGTGA	MLSGKTALVTGSTSGIGLGIAEVLARSGANVILNGFGDWQAAADQLSRFGGRVGYNGADLGDRAQIEDLFDYARRDFGRVDILVNNAGIQHVSPVESFPMERWDAVIALNLTAVFHCTQLALPDMREQNWGRIINVASVHGSVGSIGKAAYVAAKHGVLGLTKVVALETALSGVTCNAICPGWVLTPLVQQQIDARVAAGESLDSARTALLAEKQPSQAFVTPQQLGELALFLCSPAAEQVRGAAWNMDGGWLAQ	PGPT0008310_2324	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008310-bdh-K00019	NA	NA
BMS010_07690	1266	nicP_5		Porin-like protein NicP	ATGCGACACACGCCGACATTCACCTGCCCGCTGCTGGCTGCGAGCCTTTCCCTGGGGCTGTCCGCCCCGGTTTCTGCCGCTTTCGTCGAGGACAGCAAGGCGGTGCTGGATGCCCGCAACTTCTACATGAATCGCGACTTCCGCCAGCGCGGCGCCGCCCAGTCCAAGGCGGAGGAGTGGGCCCAGGGCTTCATGTTGCGCTTCGAGTCCGGCTACACCGAAGGCCCCGTCGGCGTCGGCTTCGACGCCATCGGCCTGCTCGGGATCAAGCTCGACTCCAGCCCGGACCGGATCGGCACTGGCCTCCTCAAGAGCGACCGGGAGGCTCCCAGGCGCGCCCAGGACGAGTACGGCGAGGCCGGGCTGACCGCCAAGCTGCGCGCCTCCAACAGCACCCTCAAACTCGGTACCCTCCAGCCTTCGCTGCCGCCGCTGATGCGCAACGACAGCCGCCTGCTGCCGCAAACGTTCCGCGGCGCCTGGCTTACCAGCAACGAGGTGGAGGGCTTGAGCCTGGATCTCGGTCGCATCGACCGGGTCAACCAACGCGACTCCTCGGACAACGAGGAAATGACTGTCTTCAACGGCGGCAAGCGCAACATCGTGCTGGGCAGCGCCAAGACCAGCGACGAGTTCCTGTTCGCCGGCGGCCGCTACCAGTGGACCCCGGCGCTGTCCACCAGCTACTACTACGGCGGCCTCGACGGCATCTACAAGCAGCATCTGGTCAACCTGGTCTACCAACTGCCGCTGGGCGAGACGCAGAGCCTGAAATCGGATATCCGCTTCGCCCGCTCCCGCGACGACGGCGGCAGCAACGTCGACAACGACGCCTTCGGTGCGCTGTTCACCTACCGCCTGGGAGCCCAGAGCTTCACCGCCAGTTACCAATACCTGAGCGGCGACACCGGTTTCGCCTACATCGCCGGCTCCGACAATGCGCTGGCCCACCTGGTGCAGATCAACGACTTCGGCAACCAGGACGAGCGCTCCTGGCAACTGCGCTATGACTTCGACTTCGCCACCCTCGGGGTGCCAGGGCTGACCTTCATGACCCGCTACCTGTCCGGCGACAACGTCGAGCGTGGTGCCGGCCTGAGCGAGGGCAAGACCTGGGAGCGCAACACCGACATCGCCTATGTCTTCCAGGACGGCCCGTTGAAGAACCTGGGCCTGCGCCTGCGTAACGCCACCACCCGCAGCAACTTCGGCAGCGATCTGGACGAGAACCGCCTCATCGTCAGCTACAGCATTCCGCTCTGGTGA	MRHTPTFTCPLLAASLSLGLSAPVSAAFVEDSKAVLDARNFYMNRDFRQRGAAQSKAEEWAQGFMLRFESGYTEGPVGVGFDAIGLLGIKLDSSPDRIGTGLLKSDREAPRRAQDEYGEAGLTAKLRASNSTLKLGTLQPSLPPLMRNDSRLLPQTFRGAWLTSNEVEGLSLDLGRIDRVNQRDSSDNEEMTVFNGGKRNIVLGSAKTSDEFLFAGGRYQWTPALSTSYYYGGLDGIYKQHLVNLVYQLPLGETQSLKSDIRFARSRDDGGSNVDNDAFGALFTYRLGAQSFTASYQYLSGDTGFAYIAGSDNALAHLVQINDFGNQDERSWQLRYDFDFATLGVPGLTFMTRYLSGDNVERGAGLSEGKTWERNTDIAYVFQDGPLKNLGLRLRNATTRSNFGSDLDENRLIVSYSIPLW	PGPT0005395_68	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_BENZOATE|DERIVATE_DEGRADATION	XENOBIOTIC_BENZOATE-DEGREDATION-BENZOATE_TRANSPORT,PGPT0005395-benP-K21758	NA	NA
BMS010_07691	1482	norR_5		Anaerobic nitric oxide reductase transcription regulator NorR	ATGGCCATTTCCCGCGACGATCTCGACCAACACGGCCTGATCATCGGCGTGTCGCCCGAGCGTTTTCGCGCCATGGCCATGCCGCTGCTGTTCGATCATCTCGATGCCCAGTGCGAGGGCACCATCGCGGTCAATCGCGAGGCGCGCATCGTCTGGATCAACGACAAGTACGCCGAGAAGGTGGGTATCCGCGACCCGCGTAGCGCTCTCGGCAAGGCCGTCGAGGACGTGTTGCCGGCCAGCCGCTTGCGCGAGGTGGTGGAGAGCGGCCAGCCGAGCATGCTCGACCTGATGGCTTTCGGCGACGAGCACTTCGTGGTCACTCGCATTCCCCTGCGTGACGAGGACGGCACGCCGGTCGGGGCGCTGGGCTTCGTCCTGTTCGACCGTGCCCGCCATCTCAAGCCGCTGATGGGCAAGTACAACGCCTTGCAGAGCCAACTGCTGGCGACCCAGAACGAGCTGGCCAAGGCGCGCCGCGCCCGCTACACCATCGCCGGCTTCATCGGCGCCAGCGCCGCCGCCAGCGAGGTCAAGCGCCTGGCCCGCCGCGCCGCCCAGCTCGACGCCACCGTGCTGCTGCGCGGTGAAACCGGCACCGGCAAGGAGCTGCTGGCCCAGGGTATTCACAACCTGTCGCCACGGGCCAACGGCCCCTTCGTCGCGGTCAACGTCGCTGCTATCCCGGAAACCCTGGTCGAGGCCGAGCTGTTCGGCACCAGCCCCGGTGCCTTCACCGGCGCCGACCGCAAGGCGCGCATCGGCAAGTTCGAGGTGGCTAACGGCGGCACTCTGTTCCTCGACGAGATTGGCGACCTGCCGCTGCAACTGCAGGCCAAGCTGCTGCGCGTGTTGCAGGAGCAGGAGGTCGAGCCGCTCGGCTCCAATCAGGTCAAGTCGCTCAACGTGCGGGTGATCGCCGCCACCCACATCGATCTGGAGGCCAAAGTGGCCGCCGGTCAGTTCCGCGACGACCTCTACTACCGCCTCAACGTGCTGGTCCTGAACGTGCCGCCTCTGCGCGAGCGCCGCGAGGACATTCCCACCTTGGTTGAGCACCTGCTCGACGACATCGCCAACCGCTCGGGCCAGGCGCCCATGGAGCTGAGCCAGAAGGCTTTGGTCTTGCTCGGCCGGCAAGCCTGGAAAGGCAATGTGCGTGAGTTGCGCAACCTGCTAGAGCGGGCGCTGCTGGACGCCGAGGGCCCGTTGCTGGACGTCGCACAGTTGCAGCCGCTGCTGGCTGCGCCCGACGTGCCCGCGCCGCCAGCCGCCACGGCCAGCGTGCCCGAGCGTATCCCGCCGCTTGCCGACGAGCCCCTGCAACCCCTGGCGCAAAGCGTCGCTGCCGCCGAGCGCCGTGCTCTTCAGTTGGCCTTGGCCGCCTGCGGCGGCAATCGCCGGCGTGCCGCCAATGAGCTGGGTATTTCTCGTGCCAGTCTGTACAGCAAGCTGCAGCAGCATGGCTTGAACCTGCGCTGA	MAISRDDLDQHGLIIGVSPERFRAMAMPLLFDHLDAQCEGTIAVNREARIVWINDKYAEKVGIRDPRSALGKAVEDVLPASRLREVVESGQPSMLDLMAFGDEHFVVTRIPLRDEDGTPVGALGFVLFDRARHLKPLMGKYNALQSQLLATQNELAKARRARYTIAGFIGASAAASEVKRLARRAAQLDATVLLRGETGTGKELLAQGIHNLSPRANGPFVAVNVAAIPETLVEAELFGTSPGAFTGADRKARIGKFEVANGGTLFLDEIGDLPLQLQAKLLRVLQEQEVEPLGSNQVKSLNVRVIAATHIDLEAKVAAGQFRDDLYYRLNVLVLNVPPLRERREDIPTLVEHLLDDIANRSGQAPMELSQKALVLLGRQAWKGNVRELRNLLERALLDAEGPLLDVAQLQPLLAAPDVPAPPAATASVPERIPPLADEPLQPLAQSVAAAERRALQLALAACGGNRRRAANELGISRASLYSKLQQHGLNLR	PGPT0019455_175	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPIONATE|PROPANOATE_UTILIZATION,PGPT0019455-prpR-K02688	NA	NA
BMS010_07692	1671			hypothetical protein	ATGCGAAACCGATCCTTGCCACAAGGCGGGGCGGATCACCGCTCTTGCCGGTCCCTCACTGCCTCCCTGTTCGCGTTGCTGATAACCCTGCTATTGCCCACTCATGCCCTGTCGGGACAAACCCACGCCTATACCTCCCCGCAGCAGGCGTATAGCGGCTCCCGGGAGCGCAATTACAAAGTCTACGTTCCCACTGGCATCACCACCCCGGCGCCCATGGTCATGGCGCTTCATGGCTGCAAGCAGACCCACGACGACGTGCTCAACGATTGGGGGATGAAGGCGGCGGCAGATCGCTATGGCTTCATTCTGGTTGCCCCCTTCATCACCACTTACGACGGCTTGCGTAACCAGAACTGCTGGGGTTTCTGGTTCGAGCAGCACATTCACGAAGGAGGAGGGGAGGTCGAGGACTTGCACCAGATCGCCTTGCAGGTAGAGTCCAACTTCCCGATCGATCCCAACCGGCGCTTCATTACCGGCCTCTCGTCCGGCGGGGCGATGGCCGTGGCCGCCGCCGTGGCGCACAACGAGTACTGGGCCGCGGCAGCACCGGCGGCCGGGCTTCCCTACAGTGAGGATGCCGCGTCGGTCTCGCTGTCCGGCCAGTGCCCTGGCTCGGCGACCTTCCACAGCGTCAGCCAGGTGGCGGCCGATATGGCGGGCGAAGAGGACGACGCTTACCCGATTCCCTTGATGGTTCTGCAGAACCGGAAGGACTGCACCGTGCTGCTCACGGCGGCCAACAACATCCGCGATGCCCATTTGCAGGTATTCGGCCCCGTCAACTTCAAGACCGCCGCGGCGACAAAGGCGTCCGACACCGTCTGCTCGCCGTACTACCAGAACAACTACGGCTGCCAGCGCATTACCTACACGCAGGACGGCACCACCGCCACCCGTTCGTTGGTGGAGACCGTCTTTTACGATGGCCCCTTGGCCACACCCAATACCCAGGACACCGACCACGGCCATTACTGGGCCGGCGGGGCCGAGGGCAACAACGGTAAGTGGTCGGTTCAGGTCGGCCCCAGCTATCCGGATATCGTCTGGGACTTCTTCAGCCGTCACAGCCGCGATGGCAGCCAGCCGCAGGGGCATCCAGTCATCACGCTGCTTGGCGACAATCCCCTCACCCTGGCTCTCAACAGCGCTTTTACCGACCCCGGTGCTACGGCCAGCGACCGGGAAGACGGCACCCTGGCGGTGTCCGCTGACTGCAGTGCGGTGAATACCTCGGCGGTTGGAAGCTACAGCTGCCGTTATTCGGCCACCGACAGCGACAACAACACCGGCACCGCAACGCGTACCGTGGTGGTCAATGATCCCAGCGCCCCGGTGGAAACTGCCAGCAGATCACCGCCTCGCCCAGCGCGCATATCGGCGCCGGCCGGGCCTATGCCGGTGGTGTCTCCAACTTGCGTGCCTATGCCAATGGAGACAAGGTGGATATCGGTGGCTCGTTCGATACCTGGAGCAGCGTCGTCCTGTACGAGGGCAAGGCGGGAATCTGGTACTCCCAGCGTCCCGCGGCTTGCAGCGGTGGCCCCGTTAGCGGCACCTGCCAGGATTGGAACGCCACCAACCTCAGCCACGTCATGGCCGGGCGCGCCTATTACGGCTACTACACCGTCGGCGGCAACGATTACCTGGGCAGCCTCTCCGGGGTGA	MRNRSLPQGGADHRSCRSLTASLFALLITLLLPTHALSGQTHAYTSPQQAYSGSRERNYKVYVPTGITTPAPMVMALHGCKQTHDDVLNDWGMKAAADRYGFILVAPFITTYDGLRNQNCWGFWFEQHIHEGGGEVEDLHQIALQVESNFPIDPNRRFITGLSSGGAMAVAAAVAHNEYWAAAAPAAGLPYSEDAASVSLSGQCPGSATFHSVSQVAADMAGEEDDAYPIPLMVLQNRKDCTVLLTAANNIRDAHLQVFGPVNFKTAAATKASDTVCSPYYQNNYGCQRITYTQDGTTATRSLVETVFYDGPLATPNTQDTDHGHYWAGGAEGNNGKWSVQVGPSYPDIVWDFFSRHSRDGSQPQGHPVITLLGDNPLTLALNSAFTDPGATASDREDGTLAVSADCSAVNTSAVGSYSCRYSATDSDNNTGTATRTVVVNDPSAPVETASRSPPRPARISAPAGPMPVVSPTCVPMPMETRWISVARSIPGAASSCTRARRESGTPSVPRLAAVAPLAAPARIGTPPTSATSWPGAPITATTPSAATITWAASPG				NA	NA	NA	NA	NA
BMS010_07693	564	patZ	COG0454	Peptidyl-lysine N-acetyltransferase PatZ	ATGTCCAACACCGCCAGAGTCCTCGACTTCCCCCAACCTGTACCGCAAGCCCCCAGCGCCTACTGGGTCGAGTCCCTTGCCGACGGCACCCACGTGCTGATCCGCCCGCTGCGCCCCGAAGACCGCGAGCGCGAACGCGAATTCATCCAGCGCCTGTCTCCGGAAGCCCGGCGTTTCCGCTTCCTCGGCACGGTCAAGGACGTCAGCCCGCAACTGCTCGACCAGCTCATGGACGTGGACTACCAGGACCGCATGGCCTTCGTCGCCCTGACCCATGAAGACGGCAAATTGGTGGAAGTCGGCATCAGCCGCTACGCCGCCACCGAAGCCGACAAGCAGTGCGAATGCGCCGTCGCCGTGGCTGACGATTGGCACGGCCGGGGCCTCTCCGCCGCGCTGATGAACCACCTTATCGAAGAAGCCCGGCAGAACGGCTTCGAGAAAATGGTCTCCGTCGACCTGATGGACGACCGCCGCATCCGCGATCTCAGCGCCCAGCTCGGCTTCCGTGCTGAACGCGACTCGAACGACTCGAGCCTGGTGATTCACAACCTGCAGTTGTAA	MSNTARVLDFPQPVPQAPSAYWVESLADGTHVLIRPLRPEDREREREFIQRLSPEARRFRFLGTVKDVSPQLLDQLMDVDYQDRMAFVALTHEDGKLVEVGISRYAATEADKQCECAVAVADDWHGRGLSAALMNHLIEEARQNGFEKMVSVDLMDDRRIRDLSAQLGFRAERDSNDSSLVIHNLQL				NA	NA	NA	NA	NA
BMS010_07694	1305			hypothetical protein	ATGACCGCACACAACGAACGGCGTAGCTGGGTGGACTCGGCCAACGGCCACCCCGACTTTTCCCTCGCCAACCTGCCCCTGGGCATATTCAGCCGCCCCGGCCTGACCCCGCGCGGCGGTGTCGCCATCGGCGACCGCATCCTCGACCTCAAGGCCGCACTGGATGCCGGTCTGTTCGACGGCACCGCCCGCCAAGCCGCCGAAGCCGCCAGCGGCGACAGCCTCAACGCCTTCTTCGCCCTCGGCGCCCCGGCGAGGCGCGCCCTGCGCGAGGCTCTGCAAAGCCTGCTGGATGCGGACAGCCCGCAGCGCGAGCGCCTCCAGACCCTCGGCGAAATCCTGCTGCAGCCCATGGATGCCTGCCGCCTGCACCTGCCGGCGCGGATCGGCGACTACACCGACTTCTACGTTGGCATCCACCACGCCACCAACGTCGGCAAGCTGTTCCGCCCGGACAACCCACTGCTGCCCAACTACAAATATGTGCCCATCGGCTACCACGGCCGCGCCTCCACCATCGACGTCTCCGACGCGGCGGTGAAGCGCCCCAACGGCCAGACCCTGGCGCCGGGTGCCAGCGAACCGAGCTTCGGCCCGAGCAAGCGCCTCGACTACGAACTGGAACTGGGCATCTGGATCGGCGAAGGCAACGTCCGTGGCGAAGCCATCCCGATTGCCGAGGCTGGCAGCCACGTCGCCGGCTTCTGCCTGCTCAACGACTGGTCCGCGCGCGACGTCCAGGCCTGGGAATACCAGCCCCTCGGCCCGTTCCTCTCCAAGAGCTTCGCCACCAGCGTGTCGCCCTGGGTCGTTACCGCCGAGGCCCTGGAACCCTTCCGCTGCGCCCAACCGCCGCGCCCCGAAGGCGATCCGCGCCCGCTGCCCTACCTATGGGACGAGCGCGACCAGCGGGCCGGCGCCCTGGACATCGAACTGGAAGTGCTGCTGCTCACCGACGCCATGCGCGAGCAGGGCCTGGCGCCGCAGCGCATCGCCCTCAGCAACACGCTGAACATGTACTGGACCGTCGCCCAGATGGTCGCCCACCACAGCGTCAACGGCTGCAGCCTGCAACCCGGCGACCTGTTCGGCTCCGGTACCCTCTCCGGCGAGCGCCCGGAAAGCTTCGGCAGCCTCCTGGAACTCACCCAAGGCGGCAAACAGCCGCTGCACCTGCCGAGCGGAGAAACCCGCACCTTCCTCGAAGACGGCGACGAGATCATCCTCAAGGCCCGCTGCCGCCGAGACGGCTACCCGTCCATTGGTTTCGGCGAGTGCCGGGGCAGGGTTCTGCCGGCTGCTTGA	MTAHNERRSWVDSANGHPDFSLANLPLGIFSRPGLTPRGGVAIGDRILDLKAALDAGLFDGTARQAAEAASGDSLNAFFALGAPARRALREALQSLLDADSPQRERLQTLGEILLQPMDACRLHLPARIGDYTDFYVGIHHATNVGKLFRPDNPLLPNYKYVPIGYHGRASTIDVSDAAVKRPNGQTLAPGASEPSFGPSKRLDYELELGIWIGEGNVRGEAIPIAEAGSHVAGFCLLNDWSARDVQAWEYQPLGPFLSKSFATSVSPWVVTAEALEPFRCAQPPRPEGDPRPLPYLWDERDQRAGALDIELEVLLLTDAMREQGLAPQRIALSNTLNMYWTVAQMVAHHSVNGCSLQPGDLFGSGTLSGERPESFGSLLELTQGGKQPLHLPSGETRTFLEDGDEIILKARCRRDGYPSIGFGECRGRVLPAA	PGPT0001610_332	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_STYRENE_OXIDE_DEGRADATION,PGPT0001610-fahA-K01555	NA	NA
BMS010_07695	1308	hmgA	COG3508	Homogentisate 1,2-dioxygenase	ATGCACACACAAGAACAATCCGCTGCAGCCCTTTCCTACCAGTCGGGCTTCGGCAACGAATTCGCCAGCGAAGCGCTGCCCGGTGCCCTGCCGGAAGGGCAGAACTCCCCGCAGAAGGTGCCCTACGGGCTGTATGCCGAACTGCTCTCCGGAACCGCCTTCACCGTGCCGCGCAGCGAGGCGCGGCGCACCTGGATGTACCGCATCCGTCCCTCCGCCAGGCACGGCCAGTATCAGCGCCTCGAACGCCAGATCACCGGCCGCGAACTCGGCCCGGTCACCCCCAACCGCCTGCGTTGGGACCCGCTGGAGATGCCGCCGGCGGGCACCGACTTCATCGACGGCCTGGTGCGCATCGCCGCCAACGGCGAGGGCGAGCAGCCCAACGGCGCGAGCATCTACCGCTACGCCGCCAGCGCCTCCATGGAACGGGTGTTCTTCGATGCCGACGGCGAACTGCTACTGGTGCCGGAGAGCGGCCGGCTGCGCCTCGTCACCGAACTCGGTGTGCTCGAGGTAGAACCGCTGGAAATCGCGATCATCCCGCGTGGCATGAAATTCCGTGTCGAACTGCCGGAGGGTAGCGCCCGCGGCTATGTCTGCGAGAACCACGGCTGCGCCTTGCGCCTGCCCGACCTCGGCCCCATCGGCAGCAACGGCCTGGCCAACCCGCGCGACTTCCTCGCCCCGGTAGCGCACTACGAAGAGCGCGACGAGCCGGTGCGGCTGGTGCAGAAATTCCTCGGCGAACTCTGGGCCACCGACCTCGGCCACTCGCCGCTGGACGTGGTCGCCTGGCACGGCAACAACGTGCCCTACAAGTACGACCTGCGCCGCTTCAACACCATCGGCACGGTCAGCTGCGACCACCCGGACCCGTCCATCTTCACCGTGCTCACCTCGCCCAGCGCGATCCACGGCATGGCCAACATCGACTTCGTGATCTTCCCGCCGCGCTGGATGGTGGCGGAGAACACCTTCCGTCCGCCGTGGTTCCACCGCAACCTGATGAACGAATTCATGGGCCTGATCCAGGGCGCCTACGATGCCAAGGCCGGCGGCTTCGTGCCGGGCGGCGCCTCGCTGCACAATTGCATGAGCGCCCATGGCCCGGACCACGTTTCAACCGAACAGGCCATCAACGCCGAGTTGAAGCCGCACAAGATCGAGAACACCATGGCCTTCATGTTCGAGACCGGCCAGGTCCTGCGGCCGACCCGCCACGCCCTGGAATGCCCGCAACTGCAACAGGACTACGACGCCTGCTGGGCCGGCTTGACCAAGACATTCGACCAGAACGGGAAATGA	MHTQEQSAAALSYQSGFGNEFASEALPGALPEGQNSPQKVPYGLYAELLSGTAFTVPRSEARRTWMYRIRPSARHGQYQRLERQITGRELGPVTPNRLRWDPLEMPPAGTDFIDGLVRIAANGEGEQPNGASIYRYAASASMERVFFDADGELLLVPESGRLRLVTELGVLEVEPLEIAIIPRGMKFRVELPEGSARGYVCENHGCALRLPDLGPIGSNGLANPRDFLAPVAHYEERDEPVRLVQKFLGELWATDLGHSPLDVVAWHGNNVPYKYDLRRFNTIGTVSCDHPDPSIFTVLTSPSAIHGMANIDFVIFPPRWMVAENTFRPPWFHRNLMNEFMGLIQGAYDAKAGGFVPGGASLHNCMSAHGPDHVSTEQAINAELKPHKIENTMAFMFETGQVLRPTRHALECPQLQQDYDACWAGLTKTFDQNGK	PGPT0006025_1099	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_STYRENE_OXIDE_DEGRADATION,PGPT0006025-HGD|hmgA-K00451	NA	NA
BMS010_07696	783	kipR_2	COG1414	HTH-type transcriptional regulator KipR	ATGACAAGCGATATTGCAGAGACAGCGCCCAGGCGGCAGAAGGTCCAGGCTGCGGAAGTCGGCACGGACATCCTCAAGGGGCTGGCGGAACTGGCGCCGGCCACTTCGCTGTCGCGGTTGGCGGAGCACGTCGGCATGCCGGCGAGCAAGGTGCACCGCTACTTGCAGGCGCTGATCGCCAGCGGCTTCGCCGAGCAGGACCCGGCCACCAATCACTATGGCCTGGGCCAGGCGGCGCTGTTCGTCGGCCTGGCCGCGCTGGGCCGGCTGGATGTGGTGAAGGTGGCCACGCCCTGCCTGGCGGAGCTGCGCGACGAACTGAACGAGACCTGCTTCCTCGCCGTGTGGGGCAATCGCGGACCGACGGTGGTGCATGTGGAGCAGGCCGTGCGGGCGATCACCCTGGTCACCCAGGTGGGCTCGGTGCTGCCGCTCCTGGGGTCGTCCACCGGGCTGGTGTTCAACGCCTTTCTGCCCGATCTGGAAACCGCTCCCTTGCGCGAAGAGGAATTGAAGGCAGCGGGTGCGCCCTCGCCCACGACGCTGCAAGAGACCGTCGAGGCGATCCGCACGACGCATCTGCAATCGGTGCACGGTTTGCTGATGGCCGGGGTGAATGCGCTCTCGGCGCCGCTGTTCGCGGCAGGTGGTCGGTTGGTGGGGGTGATCACGGTGGTCGGTGCCGAGCCAGGGTTCAAGGCGGAACCGGATGGTGTGGCGGCGCGGCGGTTGTTGGAGGGGGCGCGGTTGATCAGTGCGCGGATGGGGGGAGAGGTTTTGTAG	MTSDIAETAPRRQKVQAAEVGTDILKGLAELAPATSLSRLAEHVGMPASKVHRYLQALIASGFAEQDPATNHYGLGQAALFVGLAALGRLDVVKVATPCLAELRDELNETCFLAVWGNRGPTVVHVEQAVRAITLVTQVGSVLPLLGSSTGLVFNAFLPDLETAPLREEELKAAGAPSPTTLQETVEAIRTTHLQSVHGLLMAGVNALSAPLFAAGGRLVGVITVVGAEPGFKAEPDGVAARRLLEGARLISARMGGEVL				NA	NA	NA	NA	NA
BMS010_07697	852			hypothetical protein	ATGTTCTGCACTCAACAGGGATGTGGCAAAAGCTGGAACGCGGGCGAGCGATTTCCTCTCTGCATCACCAACCCATGCCCCTTGCGGCAGTACCGCGACTCCCAGGTCCAGGCGCCGCGCTTCAATGCCAAGACGCAGATCGACGTGAAGTTCGGCGAGAAGAGCGCCGGCGTGGTCGCCTCCATCGACAAAATCCGCAGCGACATCACGCAACCCTTGCAGCCCTACGCCATGCAGGGCGAGGAAAAGGCGACCACCACCGTCACCCTGCCTAACGGCCAGACGGAGCGCTACAGCACCGACACCAACATGCATTCGGAAATGCGCGCGCTGCAGGCCATGCTGCAGCGCGGCTATTGGGTGCTGTGGTACGGCCGGGTCTTCCTCCCCAACGGCCAGGCGGTGCCCGCCACGCACTTCGTCACCGACCAGCCGCACTGCGGGTTCTGCACCATCGTCCTGGCGGCGCTGGGCCTGCCGTTGACCAGCCCGACCTCGGGCAACCACAAGTACGGCTGCAATGCGATCTACCCGCTCCCGACACAACTGCGCCGCGACGTGATGTTCATCATCCGCCTGATCAACCGCGGCAGCATGGAGTACACAGCACTGAAGCGGCTGCTCAACGTCTTCGTCAACGCGCCCGCCGCCAGTTGGCTGTTGCAGATCAACGATTTCCTGCTGGTGTCGGATACCGTCAGTTGCACCTTCGATAACCTGCCCAAGGGCTTCGATCCACGCGAGCACCGCATCCTGCACCTGAACGATTTCCTGGATAACGAGGAGAAGCTGAATCTGCTCTGGAAGTTCATCCTGATGAAGTTCTACGAGTCGAATAAGTCGACGAAGTGA	MFCTQQGCGKSWNAGERFPLCITNPCPLRQYRDSQVQAPRFNAKTQIDVKFGEKSAGVVASIDKIRSDITQPLQPYAMQGEEKATTTVTLPNGQTERYSTDTNMHSEMRALQAMLQRGYWVLWYGRVFLPNGQAVPATHFVTDQPHCGFCTIVLAALGLPLTSPTSGNHKYGCNAIYPLPTQLRRDVMFIIRLINRGSMEYTALKRLLNVFVNAPAASWLLQINDFLLVSDTVSCTFDNLPKGFDPREHRILHLNDFLDNEEKLNLLWKFILMKFYESNKSTK				NA	NA	NA	NA	NA
BMS010_07698	825			hypothetical protein	ATGCTCGCCCACCAATCCACCGCCGTCGCCACCCGCGCCTTGCTCACCGCCCAGGGAGGCAGCCCGGACGACTTCGGCACCACCTCGCCCCCGGTCAATTTCATCGCTCCCACTTTCACGATCAATTGTGTGCCAGTGAACGTGAATACCTGGTCGGCCTCCGTCCAGCTCACCCAGCCCGCCCATGAGGGCGACAACCAGGCCTTCCACCTCGGGCCGGGGCTGCACTCGACGAATCTCATGTTCTGGAATGGCTCACTGACGAATTTCGTCGCCGGACCGGGAAACCGTCGCATCTACGTCGAAGTGTCCCAGGCGATTGCCACCGACTCGCAGCATGCGGAGGAAGAGCATTGCCGGGACATTCTTCGCGCCTATGACATCACCTTGCGGGCGGTGCAGGACGCCGTGCAGGCTGCCGTCACCGGCGGCCCCTACGTGGCCGCCAGCCAGGCCGGTGCGATCCAGGCGGCCAAGCAGGCGATCGTCAACGGGCTGCATCCGCGCCTCCAGGCAGTGTTCCAACAGGCCAGTCTGCCCAACGGCTACAACATGGCGCTGCTGGGTCAGGGACTGGGTAGGCTCTATCTCGACATCTGCGACCTGAGCCAGGGGCGAGACGCACAGGGCTGGCATTACTTCGAACCGGATCGGACAGGCGAGTCCTGGAGCGTCTGGTCCTGGACCGAATACGCGGGGGCAAAGGTGTTGCCGGGCTGGGCCCACCAGGGTGTCTTCGGCGAAGTGAAGGACATCCGCAAGCTGGTGCGCGGCCCTCACTTTTCGGTGAATACCACGCCCAGCAACGCCATCATCGTGCTGTGA	MLAHQSTAVATRALLTAQGGSPDDFGTTSPPVNFIAPTFTINCVPVNVNTWSASVQLTQPAHEGDNQAFHLGPGLHSTNLMFWNGSLTNFVAGPGNRRIYVEVSQAIATDSQHAEEEHCRDILRAYDITLRAVQDAVQAAVTGGPYVAASQAGAIQAAKQAIVNGLHPRLQAVFQQASLPNGYNMALLGQGLGRLYLDICDLSQGRDAQGWHYFEPDRTGESWSVWSWTEYAGAKVLPGWAHQGVFGEVKDIRKLVRGPHFSVNTTPSNAIIVL				NA	NA	NA	NA	NA
BMS010_07699	885	blaP		Beta-lactamase	ATGCTCGATAGACGCACGTTCACAGGGGTTTTGCTGGCCGGCTCCCTGGCTGGCCTCATGGGTATCAGGCCCGCCATGGCGGGAGACCGTGCAGGCGCCGAAGCCTTCGAGCGGCGGTTGGCCCGGATCGAAGGCGACATTGGCGGCCGCCTCGGGGTGGCGCTGCTGGACCTCGGCACCGGCCTGCGGGCCGGCTGGCGCCAGGACGAACGCTTCCCGATGTGCAGCACTTTCAAGTTCCTTGCCGCCGCGGCGATTCTCGCCCGCCAGGACCAGGGGCTGGACAGCCTGGAGCGCCGGGTGAAGTTCGCGGCAACCGATCTCGTCGAGTATTCGCCGGCCACCGGCCCGCGCGCCGACGGCGAAGGCATGACCCTGGCCGAGCTGTGCGAAGCGGCCGTCACCCTGAGCGACAACACCGCCGGTAACCTGATGCTGAACAGCCTGGGGGGGCCGGAAGGGCTCACCGCCTTCGCCCGTAGCCTGGGCGACGAGGTCACCCGGCTCGACCGCTACGAGACCGCGCTGAACGAAGCCCTTCCCGGCGACCCACGCGACACCACCACGCCCGCCGCGATGCTCGCCGACATGCGCGAACTGCTGCTGGGCACAGCGTTGTCGCCGGCCTCCCGCGAGCGCCTGCTGGGTTGGCTGGTCGCCAACAAGACCGGCGACGCCCGGCTCCGCGCCGGCCTGCCGAAGGACTGGCGCGTCGGCGACAAGACCGGCTCCGGCGATCGCGGCACCGCCAACGACATCGCCATTCTCTGGCCGCCCCGGCGCGAGCCGATGCTGGTGACGGTCTACCTCACCGGCAGCGACGCGGACATGAACCGGCGCAACGCAGCCATCGCCGAGGTTGGCAGGCTAGTGGCAGGGCTCTGA	MLDRRTFTGVLLAGSLAGLMGIRPAMAGDRAGAEAFERRLARIEGDIGGRLGVALLDLGTGLRAGWRQDERFPMCSTFKFLAAAAILARQDQGLDSLERRVKFAATDLVEYSPATGPRADGEGMTLAELCEAAVTLSDNTAGNLMLNSLGGPEGLTAFARSLGDEVTRLDRYETALNEALPGDPRDTTTPAAMLADMRELLLGTALSPASRERLLGWLVANKTGDARLRAGLPKDWRVGDKTGSGDRGTANDIAILWPPRREPMLVTVYLTGSDADMNRRNAAIAEVGRLVAGL	PGPT0028070_1425	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028070-penP-K17836	NA	NA
BMS010_07700	2595			hypothetical protein	ATGCTCGATAGGATCAGCTCTGCTGCCGTACTGCTCTTGTTGAGCTCAGCCGTACTCGTGGGTTGTCTGGAAAAAGGAGGGGGGAATACCAGGACGGTAGCCAACTCCGAGGTTCCGATTGTCACGGAACCAGAAGTCCCACCGGCCCCCGATGTTCCAGACCCAGTCGACCCTGAGGTCCCTGCGGTCCCGGATCCAAGCGAGCCTGAGCCACCCGTTGTCGTGGAACCAGAACGTCCCGAGGTCCGCGTTCTCACGCATCCAGGCGCTCCACTTACCCTCTCGGACCTCGAGACCCTCAAGGCGTACATCGAAGAAGGCCGGGAGCCGTGGAAGTCCGCCTATGAGCTGTTGGCGAATGACGGCCTGGCCAAGACCACCTATGGCATGGCAGGACCGTACGCGAAGGTGAGCCGCGCCCCGGACGAGAACCTCTGGCCCTGGCGCAAGGACATGGTCGCGATCTGGAACCTCTCGCGGATGTGGTATTTCACCCAGGAAGACAAGTACGCGATAAAGGCCCGCGAGATACTGCTGGCCTGGGCCACTACCCATACCGAGTTCTCGGGCCGCGAGTCGATGCTCGATCTGGGCGATTACGCTTATCTGTTCGTGGGTGGTGCCGATATCCTGCGCGGTACATGGTCGGGCTGGAGCGAAGCCGACACGGCGGTCGTCAAGAAGTATTTCAAAGACGTGCTGATGCCCGCGTCGAACCCCTATGGCGAGAGCCAGTTCGGGGCCGCCAACAAGGGCGCACTGGCCCTCGTCGCCCTCGGTTTGATGGCGATCTACAACGACGATATCGAGACGCTGAACAGGGTCGTGTATCAGACCCGTACGCTCGCCCACATCGGTCTGCGCAGCTCCAACGACATCGGCATGCTCGGCGACTACCTTCGCGACCAGGGGCACGCCCATGGGCAACTCAAGTCCTTGGTCATGCTCGCCGAGGCGCTCTGGAAACAGGGCATCGACGTCTATTCCGATTTCGACAATCGCCTGCTGGCGGCGGGTGAATACTTCGCCCGGGTGAACGAGCTCGTACCGACGACGGCCCTTCCTTTCGGCACCACCGACGCGTACTACACCGTTGACAACACCAACCGCGGCTGGGGCGGGGCCTTCGGCGGCAACATCGCGCTCAACCAGATCTACGGCGCCTACGTCCTCCGCAAGGGCCTGCAGGCACCTTTTATCGCTCAGCGGCGCCTGTGGATGCCAACGGACGGCTCCAGTTTCATGTTCCTCAAGGACTCCGACACCTCGAGGGCGGCGCCCGGACCTGCGCTCCCCATCCCCGCGACCGCCTCGATCACCGAAGGATTCAACAGTATCGATATCGGCGGTGCCACCCCGGCCGGCAAGGCCACTTACTACGATGGCCTGGGCAAATGGACCGTGGAGGGAGGGGGCTTCGATATCTGGAAAGCAGGCGACAGTGGTCACTTCGCTTACAAGGCCATCACCGGCAACAGTGCCATCATTGCGAAGGTCGAGTCGGTGCAAACCTCCAGCCTATCCGCCAAGGCGGGTGTGATGATGCGCACGAGTCTCGATGTGGGCGCTCCCCGTGCCTGGATGGCCATCACCGGTGGGGGCAATCTCGAGCAGAACATGCCGAACCTCACCGTGTATGGCGGCACCAACTACGGAAACAAAGTTCTCGCCCGATCCTTGCCATCGTACTGGGTGAAGCTGGAGCGCATCGGCAACATCATTACCGGCTACGTTTCCCCGGATGGCACCAACTGGGCGGCCACCAATGTCGGGCGTATCAATGCCCCCGTTCCCGGCACGATCTATGTCGGCCTGGTGGTTTCCTCGGCCAGTAACGGGGTACTGAACAGCTCCACCTTCAGCAATGTCCACATCACCGGCGGCGACGGTGACGCGCCGATCTTCACCCCCGCCGCGCCCGCCGCCCTTTTGGCCTCGCCAGGAGATGGCGCCGTTCCGCTGCGCTGGCAGTCGTCCTTCGGGGCTACCAGCTATACGGTCAAGCGCTCCACCTCCCGGGGCGGCTCGTACTCGACCATCGCGTCGGGCATCAAGGGCAGCAGCTACACGGACACGTCGGTGAACAATGGCACGACCTACTACTACCGCGTCACGGCGACCAACTCCGCCGGCACCAGCGATGACTCTCCCGAGGACACTGCCACACCGGTTCGCCCGCTGGCGTACGTCGCCATCGGTGGCACTGCCAACGACAGTGCGAACAATTTGGCCAACGCCCGGACTGCTTTCGACCAGAACTCGCTGACGGAGTGGTTCTACGGGGGCGTGACTGGCTGGCTGCAGTACGACCTCGGCCGCACGGAGGCCGTCCGGCGCTATACGGTCGCCAGCTCCTTCGATCGAGACTCGCGCGATCCGAAGGATTGGCAGTTCCAGGGCTCCAACGACGGTGTCAGCTGGACCACGCTGGACGCGCAAAGCAACCAGACGTTCGCCGGGCGCTTCGTGACGAAGAATTATGAGGTCGCGAGTCCGGCCGCTTATCGCTACTACCGGCTCAATATCACGGCCAACAACGGCGACGGCACCTTCCTGGCGCTCGGCGAATTCGGGCTATTCGCCTCCAAGCCGTAG	MLDRISSAAVLLLLSSAVLVGCLEKGGGNTRTVANSEVPIVTEPEVPPAPDVPDPVDPEVPAVPDPSEPEPPVVVEPERPEVRVLTHPGAPLTLSDLETLKAYIEEGREPWKSAYELLANDGLAKTTYGMAGPYAKVSRAPDENLWPWRKDMVAIWNLSRMWYFTQEDKYAIKAREILLAWATTHTEFSGRESMLDLGDYAYLFVGGADILRGTWSGWSEADTAVVKKYFKDVLMPASNPYGESQFGAANKGALALVALGLMAIYNDDIETLNRVVYQTRTLAHIGLRSSNDIGMLGDYLRDQGHAHGQLKSLVMLAEALWKQGIDVYSDFDNRLLAAGEYFARVNELVPTTALPFGTTDAYYTVDNTNRGWGGAFGGNIALNQIYGAYVLRKGLQAPFIAQRRLWMPTDGSSFMFLKDSDTSRAAPGPALPIPATASITEGFNSIDIGGATPAGKATYYDGLGKWTVEGGGFDIWKAGDSGHFAYKAITGNSAIIAKVESVQTSSLSAKAGVMMRTSLDVGAPRAWMAITGGGNLEQNMPNLTVYGGTNYGNKVLARSLPSYWVKLERIGNIITGYVSPDGTNWAATNVGRINAPVPGTIYVGLVVSSASNGVLNSSTFSNVHITGGDGDAPIFTPAAPAALLASPGDGAVPLRWQSSFGATSYTVKRSTSRGGSYSTIASGIKGSSYTDTSVNNGTTYYYRVTATNSAGTSDDSPEDTATPVRPLAYVAIGGTANDSANNLANARTAFDQNSLTEWFYGGVTGWLQYDLGRTEAVRRYTVASSFDRDSRDPKDWQFQGSNDGVSWTTLDAQSNQTFAGRFVTKNYEVASPAAYRYYRLNITANNGDGTFLALGEFGLFASKP				NA	NA	NA	NA	NA
BMS010_07701	1482	norG_4	COG1167	HTH-type transcriptional regulator NorG	ATGGCTCTAGCTGGCGAGATCGTAAACAGGTTCTTAGACTCGGACCCATCGCCCCCGCTGAGCCAGGACAGGATGAAGCGCTACGAGAAATTCGCCGAAGAAATCGCCGAGCTGATCCGCACCGGCGTGCTCGCGCCGGGGGAGCGGGTGCCCTCGGTGCGTCATGCCAGCCGCACCTATGGGGTCAGCCCGTCCACGGTGTTCCAGGCCTATTACTTGCTGGAAGACCGTGGCCTGATCCAGGCGCGGGCGCGCTCCGGCTACTTCGTTCGCGAGCACGCCAAGCGGCCGTTGCACGAGCCGGATATCGGCACGCGGGCGGCGGAGACCACCGATGTCGGCGTCAGCGAGCTGGTGTTCTCCGTGCTCGCCTCGCTGCGCGACCCGGAGACCGTGCCTTTCGGCTCGGCCTTCCCCAGCCCGGAACTGTTTCCCATGGCCCGTCTGGCGCGTTCCATGGCACAGAGTGTGCGCGACATGCCGGCGCGCGAGGTGATTGCCGAGATGACCGCCGGCAATCCCGACCTGCGCCGGCAGATCGCCCTGCGCTATATGGTCAGCGGCGTGATGCTGCCGATGGAGGAGCTGGTGATCACCAGCGGGGCGATGGAGGCGCTCAACCTTTGCCTGCAGGTCGTCACCGCGCCGGGCGATCTGGTGGCCATTGAGTCGCCGGCGTTCTACGCGACGCTGCAGGTGCTGGAGCGGTTGAAGCTGAAGGCGGTGGAAATCCCCGTCCACCCGCGCGAGGGTATCGACCTGGATGTGTTGGCCGACAGCCTGGCGCGCCTGCCGATCAAGGCCTGCTGGTTCATGAGCAACCTGCAGAACCCATTGGGAGCGAGCATGGGGACGGAGAAGAAACAGGCGCTGTACGCCTTGCTCCAGCAGCACCAGGTGCCGCTGATCGAGGATGACGTCTACGCCGAGCTGTACTTCACCAAGGAGCCACCGAAGCCGGTGAAGAGCTTCGACCGCGACGGGCTGGTGATGCACTGCGGCTCCTTCTCCAAGAGCCTGGCGCCCGGCTACCGCATTGGCTGGGTGGCTGGCGGGCGCTTCGCCGAGCAGATCAGCCGGCTCAAGTTGATGACCACCATTTCCCCGTCGGTGCCGGCCCAGGCGGCCATCGCCGACTACCTGCAACACGGCGGCTACGACCGCCACCTGCGCAAGCTGCGCCACGCGCTGGAGATGCAGCAGGGCGCCATGCTCGCCTCGGCGGCCCGGCACTTCCCGGCCAGTACGCGGGTGACCCGGCCCAGCGGCGGCTATTTCCTCTGGTTTGAATTCCCCGAGCAGGTGGATTCGCTGCAACTGCTGCAACTGGCCCTGGCCCAGGGCATCAGCCTGGCACCGGGACCGATCTTTTCGGCGACCCAGCGCTTTCGCAATTGTGCCCGGCTCAACCACGGGCATCCGTGGGATGCCCGCAGCGAGCGGGCGATGGAGTTATTGGGGCGGATGATCCGTTCGTTCTGA	MALAGEIVNRFLDSDPSPPLSQDRMKRYEKFAEEIAELIRTGVLAPGERVPSVRHASRTYGVSPSTVFQAYYLLEDRGLIQARARSGYFVREHAKRPLHEPDIGTRAAETTDVGVSELVFSVLASLRDPETVPFGSAFPSPELFPMARLARSMAQSVRDMPAREVIAEMTAGNPDLRRQIALRYMVSGVMLPMEELVITSGAMEALNLCLQVVTAPGDLVAIESPAFYATLQVLERLKLKAVEIPVHPREGIDLDVLADSLARLPIKACWFMSNLQNPLGASMGTEKKQALYALLQQHQVPLIEDDVYAELYFTKEPPKPVKSFDRDGLVMHCGSFSKSLAPGYRIGWVAGGRFAEQISRLKLMTTISPSVPAQAAIADYLQHGGYDRHLRKLRHALEMQQGAMLASAARHFPASTRVTRPSGGYFLWFEFPEQVDSLQLLQLALAQGISLAPGPIFSATQRFRNCARLNHGHPWDARSERAMELLGRMIRSF	PGPT0026010_15	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0026010-mucR-K21023	NA	NA
BMS010_07702	1410			hypothetical protein	ATGACCCAACGTATTCCCGCCCGGATCATCGAGACCGTCGATGCCGGCAAGCCGATTCGCCTTACGCCCGCACAAAGCGGTGGGCCCATTCATACCCGCAGTTTCAGCGGGCGTTTTCGCAACTGGCGCCTGGTGGGCGGTGGGTTGCTGTTCCTGTTGTTCTTCGGTACCGCCTGGCTGGGCTGGGACGGTCGCCAGGCGGTGCTCTGGGACCTGGGCAAGCAGCAGTTCCACATCTTCGGTGCGACCTTCTGGCCGCAGGACTTCATTCTGCTCTCGGCATTGTTGATCATTGCCGCGTTCGGTCTGTTCTTCATCACGGTGCTGGCCGGGCGGGTCTGGTGCGGGTATGCCTGCCCGCAGAGCACCTGGACTTGGATCTTTATGTGGGCGGAGAAGATCACCGAGGGCGACCGGCACCAGCGCATCAAGCTCGACACCGCCCCCTGGTCGGCCGGCAAGCTGTTGCGCCGCACCGCCAAGCATGCCCTCTGGCTGGCGGTCAGCCTGGTCACGGCGCTGGCCTTCGTCGGCTATTTCACCCCGGTGCGCGAGTTGGTCCGCGATCTGTTCACGCTCCAGCTCGATGCGGCCACCGGCTTCTGGGTGTTCTTTTTCACTGCCGCCACCTACGTGAACGCCGGCTGGCTGCGGGAGAAGGTGTGCCTGCATATGTGCCCGTATTCGCGCTTCCAGAGTGTGATGTTCGATCGCGACACCCTGATCGTTTCCTATGACGCGGCGCGAGGCGAAAGCCGGGGCGCCCGTAAGATCGGCAGCGACCCGCGCGCCCAGGGCCTGGGCGATTGCATCGACTGCACCGTCTGCGTCCAGGTCTGTCCGACCGGCATCGACATCCGCGACGGCCTGCAACTGGATTGCATCAGCTGCGGCGCCTGTGTCGATGCCTGCGACAGCGTGATGGACAAGATGGGCTATGCCCGCGGGCTGATCCGCTACACCTCCGAGCGCGCCTTGCAAGGGGGCCGGACCCGCTACTTGCGCCCGCGCCTGGTGGGGTACGCCGTGGCGATGGTGGTGATGATCGGCGCGTTCGCCTGGGCCTTGCAGGTGCGTCCGCTGATTTCCCTGGACGTGACCAAGGACCGTACGCTGTTCCGCGAGAACGCCGCCGGGCAGATCGAGAACGCGTACAGGCTCAAGGTGATCAACAAGACCCAGCAGACCCGCCAGTACGCCGTGTCGCTCGCCGACGGACCGTTCGAACTCCACGGCCAGCGCCGGCTGAGCCTGGAGCCGGGGGAAATCCTCGACCTGCCGGTGAGCGTGGCGCTGGTCGATGAAACGGCCCGCGTCACGGCGCGGACCCTGCGCTTTGAAGTCGTCGACCTGGCGGACCCGACGAGTCGGGTGGGCACCGAGAGCACCTTCGTCGCGCCCGTTCGTTGA	MTQRIPARIIETVDAGKPIRLTPAQSGGPIHTRSFSGRFRNWRLVGGGLLFLLFFGTAWLGWDGRQAVLWDLGKQQFHIFGATFWPQDFILLSALLIIAAFGLFFITVLAGRVWCGYACPQSTWTWIFMWAEKITEGDRHQRIKLDTAPWSAGKLLRRTAKHALWLAVSLVTALAFVGYFTPVRELVRDLFTLQLDAATGFWVFFFTAATYVNAGWLREKVCLHMCPYSRFQSVMFDRDTLIVSYDAARGESRGARKIGSDPRAQGLGDCIDCTVCVQVCPTGIDIRDGLQLDCISCGACVDACDSVMDKMGYARGLIRYTSERALQGGRTRYLRPRLVGYAVAMVVMIGAFAWALQVRPLISLDVTKDRTLFRENAAGQIENAYRLKVINKTQQTRQYAVSLADGPFELHGQRRLSLEPGEILDLPVSVALVDETARVTARTLRFEVVDLADPTSRVGTESTFVAPVR				NA	NA	NA	NA	NA
BMS010_07703	237			hypothetical protein	ATGAGTATCGAAGCTGAAAAGCTAATTCTTGAACTCGTATTGAAAAATGACGCCAACTGGACGTGGTATCAGTTGGAAAGGGCAGTTGGGCGTCTGGGAAAGGGGGGCGAGTTTGATGCAGTAAGCGTGGCAGAGACTTTGGTAAACAAAGGCCCGTTGCAATCTCTCCCCAACCCAAAATTTCCGCATCCGGTTTACAAAATTACCGAAGCTGGCAAGGCTGCGCTGCTCCGTTAA	MSIEAEKLILELVLKNDANWTWYQLERAVGRLGKGGEFDAVSVAETLVNKGPLQSLPNPKFPHPVYKITEAGKAALLR				NA	NA	NA	NA	NA
BMS010_07704	609			hypothetical protein	ATGTTTCTCAACAACCGAAATACCACGGTCCGTGACCCTGATGTTATCCGTTGTCAGATTCCTAAATGGGCCGCCAGCTTCACTCGGTTCAAATGGACGTCCACTGAATGGCCCTCGCGCGCCAAATATCCCCGTGTTTGTGGTGTTTGGAACTACACTACAACGAGCACATCTCCTGAACTCAATTTAGGAGCATTATGCGAAGGTCGAAGCGTAATCCCCCTTCGACCTTGCGCGTACAGTTCGGGAGAAACTTTAGAAGTATTGATTAGTTCCCAACTTCCCCTCGATCCAGTCATAGTCAAACGCAGTCCCAAAGCTAAATCACCCTCTAGCAGATCACACGAAACTAGTTCCAAATCCCGAACGGAAACAGCCTCAACGATTTTCACTTCAACTTTAGCCATTATTGACCACCTCCATTTTTCATCTGCTGCCATTGAAGCTTCGCTCGCTCTATTTGCTCCAGTTCTGCTTGCGTCCAGTTTTTTCTGGGGCCGAGTTTTAACAACTTGTCTTGGGCCTGAATTTCGAGATCTACAATTTGGTCTCCGATTTCCGCAAACCCAGTCTTCCTATGCTGACCATAATGAAGTACCTCCTCAATAA	MFLNNRNTTVRDPDVIRCQIPKWAASFTRFKWTSTEWPSRAKYPRVCGVWNYTTTSTSPELNLGALCEGRSVIPLRPCAYSSGETLEVLISSQLPLDPVIVKRSPKAKSPSSRSHETSSKSRTETASTIFTSTLAIIDHLHFSSAAIEASLALFAPVLLASSFFWGRVLTTCLGPEFRDLQFGLRFPQTQSSYADHNEVPPQ				NA	NA	NA	NA	NA
BMS010_07705	1266			hypothetical protein	ATGGCCAGTGGACAGATCAGCGCCCATGTCTCGGCCGCCATCAATGACAAGTGGTTCGGTGGTGGTAGGCCCAACTATACCCAGGTAGCGACGGATGCCTTTGGCAATACGCTGGGCAACTTCGTTGTGGGGGAGATGGGGAAGGCTGCTGAGCAAGAGAAACAAGCCAGGCTGGCTCGTTGGACCGACGGGGAAATCGAGCGTGCAAGGGCTAGGACTGCTGAGAGATTACCGGCAGCCATGGCCTTTGCCGCACCTGCGGATAGGCCGCTGGACTGGACTCGGGATGACACCATCTATGATGTCTATCCAGAGCTAACCAGCAGAGTCGGGCAAGGCGCGGCTGGCTTTGCTCGTGACTTCGCTGCTTTCCCCAGGATGGATTGGAGTCCGGAGCTGAGTCTGGCGTCGTTGGGCGGTTACGTGGCACCTGTCCATGGGCCGCTCAATGAAGATGTTCCGCTTATGGATTTCGCCACTGGCGAGGTGTTGGACAGGCCTTACCCGCGCAGATCACAGGCTAGATCGGCTCTCGACTTCTATGACGATTACTCCATTGTCCCGCGAGTGTCTCCCAGTGGTGACTTGATCCATGATCTTTTGGCAGGGGCGAGCAATGTCGGTAACATTCCCCTGAACCTGGGTGGTGCATTGATTGGGTCGTTTGCTGAGGTGATGCATTCGACTGGGGCGGATAAGCTGCTTGATCCTTTAATGGCGTTGCCTGGCTTTGGTGTAGGCGCAGGTGCGACTAGAGGGATGTTGTCGGGCACAACTGCACTGGCTACTGCGAGGGCTGAGGCTAGGTTTGCAGGGGCTTTGGTTCCAAACAAAACCAATTCAACTACAGACTTTATTGGCGATGTTGAAATTTTTAATGTGGGGCGTCTAGGCGGTGAGCTTTATAGCCCTAGAAAGTTATCCCAGCTTGAGGGGTATCTATCACGCCGAGGCATTGAACTTCGAGTTGGCGATAAGCATGTGCCGTTCGGTAAAGCCGGTGGGTTTAATGCGGAGAAGGGTTTCTTAATTTTGCGTGATAATCCAACGAATTATGAGGTGTGGCATGAATTGTCTCACTTCAGACAGTATCAGAGACTGGGTAGAGAAGCTTATTTGGAATTGCCGAGAACAAAGAACTTCAATGCTCCAGAGCAATTTGTCTTTGATATGCTAGAAAATTCTCCCAAGCGTTGGAATTCGCTTAATTTCGATGAGCAGCAGCATGCAATCCGTTATATCGAAAATATTGGAGGTTTCCGATGA	MASGQISAHVSAAINDKWFGGGRPNYTQVATDAFGNTLGNFVVGEMGKAAEQEKQARLARWTDGEIERARARTAERLPAAMAFAAPADRPLDWTRDDTIYDVYPELTSRVGQGAAGFARDFAAFPRMDWSPELSLASLGGYVAPVHGPLNEDVPLMDFATGEVLDRPYPRRSQARSALDFYDDYSIVPRVSPSGDLIHDLLAGASNVGNIPLNLGGALIGSFAEVMHSTGADKLLDPLMALPGFGVGAGATRGMLSGTTALATARAEARFAGALVPNKTNSTTDFIGDVEIFNVGRLGGELYSPRKLSQLEGYLSRRGIELRVGDKHVPFGKAGGFNAEKGFLILRDNPTNYEVWHELSHFRQYQRLGREAYLELPRTKNFNAPEQFVFDMLENSPKRWNSLNFDEQQHAIRYIENIGGFR				NA	NA	NA	NA	NA
BMS010_07706	222			hypothetical protein	ATGAGTCTTAGTGACGATGAAATAAAATGGTTGGTCGAGGATTTCTTGGCAAAGCAGGATCTAAAGGGCCATCGATACGAGTTTCTTAAGGTCAATTATGACGATAGATATCCAAATGAATACGGTGCGGTATTTAATGTATATGCGCCAGATAATTCTTTGATTGATGGACCAGTTGTTTTTGTTGTAGATAAAAACAACAAAGAGGTGCGAGCCCTGTAG	MSLSDDEIKWLVEDFLAKQDLKGHRYEFLKVNYDDRYPNEYGAVFNVYAPDNSLIDGPVVFVVDKNNKEVRAL				NA	NA	NA	NA	NA
BMS010_07707	117			hypothetical protein	ATGGCTGAAAAAATACCAAAAAAACTCCTCAGCTTGAACAAATATTCGCTGCAATTGAGGAGTTTCGAGAAACCGGAAAATCTACTGTTTTGTGCCCAAAGTGTGATGGTGCGGTGA	MAEKIPKKLLSLNKYSLQLRSFEKPENLLFCAQSVMVR				NA	NA	NA	NA	NA
BMS010_07708	174			hypothetical protein	ATGGCACACTTGCCCACGAAATTGTGGGGCATCGAGAAGCTGCTCTTGCAGGAAGAACGCAAGATAATATTTTCTTTGAAGAGGCTCAGGCAAGTATTCGTGCAGCTCGCTTCGCCCCTGGACTTAGTTCGACAGAGCGTTTTAATTTACTTAGAGATGCTATTACACGTTTGA	MAHLPTKLWGIEKLLLQEERKIIFSLKRLRQVFVQLASPLDLVRQSVLIYLEMLLHV				NA	NA	NA	NA	NA
BMS010_07709	180			hypothetical protein	ATGATTGACATCATGGAACTAAGAGAACGCTATGAGCGCCTAAATGGCTCTCGCCCTCCTAATATGGCATATGTCCAAGAATTGCAGGCGGAGCTTAGCGTTCGTTTGCCGGAAGACTTTGCTAATCGCTTGAATTTTTCGACGGTAGCGGGCTCGCAGTACTTTATTTGCATGCAATAG	MIDIMELRERYERLNGSRPPNMAYVQELQAELSVRLPEDFANRLNFSTVAGSQYFICMQ				NA	NA	NA	NA	NA
BMS010_07710	882	btr	COG0614	HTH-type transcriptional activator Btr	ATGAGCCGCAGCGTCGAAACCTCCAACTGGCCCTTGCCGGCCAATGGCGTCCGCTTCATCACGCCACCCCGCTTGCGTCGCCTGCTGGCGCGCCATCCGCTGGCGGCGGGCTGCTATCCGCTGGCTCTGGGGTTCTACCCGGGTGCCACTGGACATCGCATGGAACGCACCCAGCCGGACGACCACCTGTTGATCTACTGCCGTGCTGGACAGGGCTGGCTGGAAAGCGGAGATGGACGATTCGAGGTGGGTGGTGGCGATCTGCTGCTGCTGCCCAAGGGTGTGGCGCATGCCTACGGCGCCGATGCCGCGCGGCCCTGGACGCTCTATTGGGTGCACTTCGAAGGCGAACTGGCGGAAGCCTTCCTGCGTCCGCTGGGCAAGGGGCCGGTGCTGCGCATCGGCGTACAGCCGCGCCTGCTGGCTGAGTTCGACGCCCTGCTCGGTGTGCGCCGCCAGGGCCTGTCGCTGCCGCACTTCATCCACGCCGCCCACCAGCTCCAATCCCTGCTGGCATCGCTCGCGGTCCTGCCGGCGCGGGCCCAGCTCAAGTCAGGCCGCGTCCTCGACGTGGACGCGGTCCACGCGGTAATGCGTGCCCACTTGCACGGCGCCCTCAACCTCGACCAACTCGCCGCGCAGTTCAAACTGTCACGCTTCCACTTCGCCAAGACCTACCGCGCCCTGACCGGCCACGCACCGATCCAGGACTTCATCCAACTCAAAATGGCCCACGCCTGCCGCCTCCTCGACGAAGGCGCCCAAAGCATCCGCCAGGTGGCCGAGCAACTGGGATACGAGGACGTCTACTACTTTTCCCGGCTGTTCAGAAAAGTCGTGGGCATGGCGCCAGCGCATTATCGGGCGTTGCATAGGGGGTGA	MSRSVETSNWPLPANGVRFITPPRLRRLLARHPLAAGCYPLALGFYPGATGHRMERTQPDDHLLIYCRAGQGWLESGDGRFEVGGGDLLLLPKGVAHAYGADAARPWTLYWVHFEGELAEAFLRPLGKGPVLRIGVQPRLLAEFDALLGVRRQGLSLPHFIHAAHQLQSLLASLAVLPARAQLKSGRVLDVDAVHAVMRAHLHGALNLDQLAAQFKLSRFHFAKTYRALTGHAPIQDFIQLKMAHACRLLDEGAQSIRQVAEQLGYEDVYYFSRLFRKVVGMAPAHYRALHRG	PGPT0017485_338	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017485-araC-K02099	NA	NA
BMS010_07711	1497	mmsA	COG1012	Methylmalonate-semialdehyde dehydrogenase [acylating]	ATGGCCAAGACGATTCCCCAGTTGATCGATGGCGAGTGGCGCGAAAGCCGTTCGCGTGAGCTGATCGAAGTGACCGACCCGGCGACCCAGCGCGTGCTGGCCCTCGCCCCGAAGGCCACCCATGAAGAGATCGAGGCGGCCATCGCCAGTGCCAAGGCGGCCTTCCTCACCTGGCGCGAAGTGCCGGTGCCGGAGCGGGCGCGGCTGATGCTGCGCTACCAGCACCTGCTCAAGGAGCATCACGACGAACTGGCGGAAATCCTCGCCGAGGAGACCGGCAAGACCTTCGCCGATGCCAAGGGCGATGTCTGGCGCGGCATCGAAGTGGCCGAGCACGCAGCCAACATCGCCAGCCTGATGATGGGCGAGACGGTGGAGAACGTCGCCCGCGAGATCGACACCGCCAGTTGGATGCAGCCGCTGGGCGTGTGCGCCGGCATCACCCCGTTCAACTTCCCGGCGATGATTCCGCTGTGGATGTTTCCGCTGGCCATCGCCTGCGGCAACACCTTCGTCCTCAAGCCCTCCGAGCAGGACCCGCTGACACCCAACCGCCTCGCCGAGCTGTTTCTCGAAGCCGGCGCACCCAAGGGTGTGCTGCAGGTGATCCACGGCGGTCGCGAGCAGGTCGACGCCCTCCTCACCCATCCGGATATCCGCGCCATTTCCTTCGTCGGCTCGGTGCCGGTCGGCCAGCACGTCTACCGCACCGGCACTGCGCATCTGAAGCGCGTGCAAGCGTTCGCCGGGGCGAAGAACCACATGGTGATCCTCCCGGACGCGCACAAGGACCAAGTAATCAGCAACCTGATCGGCGCCAGTTGCGGTGCCGCCGGCCAGCGCTGCATGGCGATCAGCACGGCGGTGTTCGTCGGTGCGGCGCGCGAGTGGATTCCGGAACTGGCCGCGCAGATGGCCGAGCTGCGTCCCGGCCACTGGAAAGACGCCCACGCCGCCTATGGCCCGCTGATCAGCCAGCAGGCCAAGCAGCGCGTGCAGCGGCTGATCGCCGAAGGCAAGGCGGAAGGCGCCGAGTGCCTGGTGGACGGCTCGCAATGTACGGTGGAAGGCTTCCCCGACGGCAACTGGCTCGGCCCGACGCTGTTCCGCGGCGTGACGCCGAAGATGAGTATCTATCGCGAGGAAATCTTCGGCCCGGTGCTGATCTGCCTGGAAGTGGACACGCTCGAAGACGCCATCGAGCTGATCAATGCCAATCCCTATGGCAACGGCACCTCGATCTTCACCCGCTCAGGCGGTGCGGCGCGGCACTTCCAGCATGCCGTGGAGGTCGGGCAGGTGGGCATCAATGTACCGATCCCGGTGCCCCTGCCGTTCTTCTCCTTCACCGGTTGGCGCGGCTCGTTCTATGGCGACCTGCACGCCTACGGCAAGCAGGCGGTGCGCTTCTTCACCGAGACCAAGACCGTGACCAGCCGCTGGTTCGACGACGAGCCGGTGGTGGCCGGGCCGAACATGACCATTCATTTGAAGTGA	MAKTIPQLIDGEWRESRSRELIEVTDPATQRVLALAPKATHEEIEAAIASAKAAFLTWREVPVPERARLMLRYQHLLKEHHDELAEILAEETGKTFADAKGDVWRGIEVAEHAANIASLMMGETVENVAREIDTASWMQPLGVCAGITPFNFPAMIPLWMFPLAIACGNTFVLKPSEQDPLTPNRLAELFLEAGAPKGVLQVIHGGREQVDALLTHPDIRAISFVGSVPVGQHVYRTGTAHLKRVQAFAGAKNHMVILPDAHKDQVISNLIGASCGAAGQRCMAISTAVFVGAAREWIPELAAQMAELRPGHWKDAHAAYGPLISQQAKQRVQRLIAEGKAEGAECLVDGSQCTVEGFPDGNWLGPTLFRGVTPKMSIYREEIFGPVLICLEVDTLEDAIELINANPYGNGTSIFTRSGGAARHFQHAVEVGQVGINVPIPVPLPFFSFTGWRGSFYGDLHAYGKQAVRFFTETKTVTSRWFDDEPVVAGPNMTIHLK	PGPT0002295_3323	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0002295-mmsA|iolA-K00140	NA	NA
BMS010_07712	1251	braC_4	COG0683	Leucine-, isoleucine-, valine-, threonine-, and alanine-binding protein	ATGAAGTCGAAAACCCTTGCCGCATTGATCTGTTGGGCAGGGCTGAGCGCCAGCGCGCAGGCCGCCGAACCCATCACTCTTGGGCTCAGCTACCCCCGCACGGGAACCTACAAGGAAGAAGGATTGGCACAGATGCGTGGCGCCTTGCTTGCCATCGATGAGCTGAACGCCGAAGGTGGCGTGCTCGGCCGGCCGCTGCGGATCTCCAGCCGGGACGACGCATCGCGCCCGGCCAAGGCCGTACGCAATGTCGACAAGCTCGCCGACGAAGGCGCGGCGATGCTGTTCGGCGGTTCCTCCAGCGCCGTGGCCATCGCCGCCAGCAAGCGCGCCAAGGAACGCGGGCTGATCTATTTCGGTACCCTCACCTATTCCAACGACACCACCGGCAAGGATGGTCATCGCTACATGTTCCGCGAGTGCAACAGCGCCTGGATGAGCGCCCGCGTTCTTGGCGATTACCTGCACAAGACCATCCCGAACAAACGCTATTTCTACATCACCTCGAACTACACCTGGGGCCTGACCACCGAGGACTCCCTGCGCAAGACCACCGACAGCACCGACGAAGCCCGCCATCCCAGCGTCAAGGTGCCCTTCCCCGGCGCACGCCTGTCCGACTACCAGGACGCGCTGACCCAGGCGGCCGAAAGCGATGCCGAGGTGCTCGCCTTGGTGCTGTTCGGCGACGAGATGGTCCGCGCCATGCGCATCGCCCATGAACTGGGCCTGACCAAGCGCATGCAGATCGTGGTGCCCAACCTCACCCAGAGCATGGTGGAGGACGCCGGCCCCGGCCTGATGGAAGGCGTGGTCGGTACCGAACCCTGGACCTGGCGCGTACCCGAGCTGGAAAAATCCGAAGCCGGCATGGCCTTCGTGAAGAACTTCAGCGAACGCTACCAGATGTACCCATCCAGCTCGGCAGCCTCCGCCTACAGCATCGTCCGCCAGTGGGCCGACGCGGCAGAGCGCGCCCGCAGCCTCAACAGCGAGGCCATCATCCAGGCGTTGGAAGGCTATCGCTACAGCCTCCTGAAGGATCAGCAGGAATGGCGTGCCTTCGATCACCAGAACGTGCAGACCGTCTACGCCGTGAAGGTCAAGCCGCGGGAAGAGGTGATGCAGGATCAGTTCAAGCAGGACTACTTCGAGATCGTCGACCGCATGAGCGGCGACCGAGCCGCCCCCACCCTCACCGAGTGGCAGGCCGAGCGGAAAGCCGCCGGACAGCCCATCACCTTGCAATGA	MKSKTLAALICWAGLSASAQAAEPITLGLSYPRTGTYKEEGLAQMRGALLAIDELNAEGGVLGRPLRISSRDDASRPAKAVRNVDKLADEGAAMLFGGSSSAVAIAASKRAKERGLIYFGTLTYSNDTTGKDGHRYMFRECNSAWMSARVLGDYLHKTIPNKRYFYITSNYTWGLTTEDSLRKTTDSTDEARHPSVKVPFPGARLSDYQDALTQAAESDAEVLALVLFGDEMVRAMRIAHELGLTKRMQIVVPNLTQSMVEDAGPGLMEGVVGTEPWTWRVPELEKSEAGMAFVKNFSERYQMYPSSSAASAYSIVRQWADAAERARSLNSEAIIQALEGYRYSLLKDQQEWRAFDHQNVQTVYAVKVKPREEVMQDQFKQDYFEIVDRMSGDRAAPTLTEWQAERKAAGQPITLQ	PGPT0020765_2928	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020765-livK-K01999	NA	NA
BMS010_07713	1164	acrC_2		Acryloyl-CoA reductase (NADH)	ATGGAATTCGAACTCAGCGATGAACAACGTCTCCTGGTCGACAGTGCTCGCGCCTTCGCTACCCGCGAACTGGCGCCGCATGCCGCCGACTGGGACCGCGAGCACCACTTTCCGACGGAAGTGATCCGCCGCGCCGCCGAACAGGGCTACCTGGCCCTGTACATCGGCGAAGACGACGGCGGACTGGGCCTGTCCCGACTGTCCGCCTCGCTGATCTTCGAACAACTCGCCGCCGGCTGCGTGGCCACCACGGCGTACATGACCATCCACACCATGGCGACCTGGATGCTCGCCAGCTTCGCCGACCAGGCGTTGAAAGACGCCTGGCTGCCGGGGCTGGTCAGCGGCGAGCTGCTCGCTTCCTATTGCCTGACCGAGCCGGATGCCGGCTCCGATGCCGCCCACCTGCGCACCCGTGCCCGCCGCGACGGCGAGCACTATGTGCTGGACGGCAGCAAGTGCTTCATCTCCGGCGCTGGCGCCACCGACGTGCTGATCGTCATGGCGCGCACCGGCGAAGACGGCGCCAAGGGTATCTCCTGCTTCCTGGTCCCGGCGGATGCCGAAGGTGTCCGCTATGGCCGCAACGAATTGAAGATGGGCTGGTGCGCCCAGCCCACCCGCACCATCACCTTCGAAAACGTCCGCATTCCCGCCGGCAACCGCATCGGTCCGGAAGGCCAGGGCTTCGTCTATGCCATGAAAGGGCTCGACGGCGGACGCATCAACATCGCCAGTTGCTCGCTGGGCGCGGCCCAGGGCGCACTGGAGCAGTCGCTGCGCTATGTCGAGGAGCGCCGCCAGTTCGGCAAGCCGTTGGCGGAATTCCAGTCGCTGCAATTCAAGCTGGCGGACATGCTCACTGACCTCACCGCCAGCCGGCAGATGGTCCGACTGGCCGCGCACAAGCTGGACAACCGCCACCCGGAAGCCAGCCTCTACTGCGCCATGGCCAAGCGCTTCGCCACCGATCACTGTTTCGAACTCTGCAACCAGGCCCTGCAACTTCACGGCGGCTATGGTTATCTCAACGATTACCCGCTCGAGCGTTGGGTCCGCGATGCCCGCGTGCACCAGATTCTCGAGGGGACCAACGAGATCATGCGGGTCATCATCGCGCGCCGCCTGCTCGACCAAGGCGGCATGCTCGATCGCCTGCTGTAG	MEFELSDEQRLLVDSARAFATRELAPHAADWDREHHFPTEVIRRAAEQGYLALYIGEDDGGLGLSRLSASLIFEQLAAGCVATTAYMTIHTMATWMLASFADQALKDAWLPGLVSGELLASYCLTEPDAGSDAAHLRTRARRDGEHYVLDGSKCFISGAGATDVLIVMARTGEDGAKGISCFLVPADAEGVRYGRNELKMGWCAQPTRTITFENVRIPAGNRIGPEGQGFVYAMKGLDGGRINIASCSLGAAQGALEQSLRYVEERRQFGKPLAEFQSLQFKLADMLTDLTASRQMVRLAAHKLDNRHPEASLYCAMAKRFATDHCFELCNQALQLHGGYGYLNDYPLERWVRDARVHQILEGTNEIMRVIIARRLLDQGGMLDRLL	PGPT0002285_345	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0002285-bcd-K00248	NA	NA
BMS010_07714	819	crt_3	COG1024	Short-chain-enoyl-CoA hydratase	ATGAGCACCGCAGTAGAACCCTACAACCCCGGTCTGTTCGACCTGACCCACAAGCTGACGGTGGAGAAACACGGCCACACCGCGCTGATCACCATCAACCACCCGCCGGCCAACACCTGGGACCGCGACTCGCTGATCGGGCTCCGACAGCTCGTCCAGCATCTCAACCGCGACGACGACATCTACGCCCTGGTGATCACTGGCCAGGGCCAGAAATTCTTCAGCGCCGGCGCCGACCTCAATCTGTTCGCCGACGGCGACAAGGCCCGCGCCCGGGAAATGGCCCGGCGCTTCGGCGAGGCCTTCGAGGCACTGCGCGATTTCCGTGGCGTGTCCATCGCCGCGATCAACGGCTACGCCATGGGCGGCGGCCTGGAGTGCGCCCTGGCCTGCGATATCCGCATCGCCGAGCGCCAGGCTCAGTTGGCCCTGCCGGAAGCGGCGGTGGGCCTGTTGCCCTGCGCGGGCGGGACCCAGGTGCTGCCCTGGCTGGTCGGCGAGGGCTGGGCCAAGCGCATGATCCTCTGCGGCGAGCGCATCGACGCGGAGACCGCGCTGCGCATCGGCCTGGTCGAGCAGGTGGTGGACAGCGGCGAGGCCCGCGGTCATGCGCTGCTGCTGGCAGCCAAGGTGGCACGGCAGAGCCCGGTGGCGGTACGCACCATCAAGCCACTGATCCAGGGCGCCCGCGAGCGCGGCCCGAACACCTGGCTGCCGGAAGAGCGCGAGCGCTTCGTCGACCTGTTCGATGCCGACGACACCCGCGAAGGCGTCAACGCCTTCCTGGAGAAACGCGACCCGCAATGGCGCAATCGCTAG	MSTAVEPYNPGLFDLTHKLTVEKHGHTALITINHPPANTWDRDSLIGLRQLVQHLNRDDDIYALVITGQGQKFFSAGADLNLFADGDKARAREMARRFGEAFEALRDFRGVSIAAINGYAMGGGLECALACDIRIAERQAQLALPEAAVGLLPCAGGTQVLPWLVGEGWAKRMILCGERIDAETALRIGLVEQVVDSGEARGHALLLAAKVARQSPVAVRTIKPLIQGARERGPNTWLPEERERFVDLFDADDTREGVNAFLEKRDPQWRNR	PGPT0008390_165	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008390-fadB-K13767	NA	NA
BMS010_07715	1104	fadJ_2		Fatty acid oxidation complex subunit alpha	ATGAACGTTTCATTCGAAGAAAAGCTCGGCCTGCACGGCGCCCGCATCGGCATCGCCAGCCTGGATGCGGAAGCCAGCCTGAATGCCCTCACCCTGCCGATGATCGAAGCGCTGGAGGCCAAGCTGCACGAATGGGCGGACGAGCCGGAGATCGTCTGTGTGCTGCTGCGCGGCAACGGTCCCCGCGCCTTCTGCGCAGGCGGCGACGTGCGCAAGCTGGTGGACGCCTGCCGCCAGCACCCCGGCGAGGTGCCCCCTTTGGCGGCACGCTTCTTCGCCGACGAATACCGCCTCGACCACCGCATCCACCGCTACCCCAAGCCGCTGATCTGCTGGGGCCACGGCCACGTGCTGGGCGGCGGCATGGGGCTGCTGCAAGGCGCCTCGATCCGCGTGGTCACCCCCACCAGCCGGCTGGCGATGCCGGAAATCAGCATCGGTCTCTACCCGGACGTCGGTGGCAGTTGGTTCCTCGCCCGCCTGCCCGGCAAGCTCGGTCTGTTCCTCGGGCTCACCGGCAGCCCGATCAATGCGCGCGACGCCCTCGACCTGGACCTGGCCGACCGCTTCCTGCTCGACGAGCAACAGAACGAACTGATCGAGCGCCTGATCCAGCTCAACTGGCAGGATCAGGTCCCGCTGCAACTGAACAGCCTGTTCCAGGCCCTGGAACACGAGGCCCGGGAAAAGATGCCCGCCGCCCAATGGCTGCCGCGCCGTGCGCACATCGACGCGTTGCTCGACGTCCCCGACCTGCCCAGCGCCTGGCACGCCGTGACCGGCCTGAAGGACGATGGCGATACCTTGCTGGCACGCGCCGCCAAGACCCTGGCCGAGGGCTGCCCGCTCACCGCCCACCTGGTCTGGGAGCAGATCGCCCGGGCGCGCTATCTGTCGCTGGCCGAAGTGTTCCGCATGGAATACACCATGAGCCTGAACTGCTGCCGCCACCCGGAATTCCCCGAAGGCGTGCGTGCCCGGCTGATCGACAAGGACAACGCGCCGCGCTGGCATTGGCCGGATGTCGCCGCGATTCCCGCCACGGTGATCGACGCGCATTTCGAACCGACCTGGGAAGGGCCGCATCCGCTGGCCGATCTCTGA	MNVSFEEKLGLHGARIGIASLDAEASLNALTLPMIEALEAKLHEWADEPEIVCVLLRGNGPRAFCAGGDVRKLVDACRQHPGEVPPLAARFFADEYRLDHRIHRYPKPLICWGHGHVLGGGMGLLQGASIRVVTPTSRLAMPEISIGLYPDVGGSWFLARLPGKLGLFLGLTGSPINARDALDLDLADRFLLDEQQNELIERLIQLNWQDQVPLQLNSLFQALEHEAREKMPAAQWLPRRAHIDALLDVPDLPSAWHAVTGLKDDGDTLLARAAKTLAEGCPLTAHLVWEQIARARYLSLAEVFRMEYTMSLNCCRHPEFPEGVRARLIDKDNAPRWHWPDVAAIPATVIDAHFEPTWEGPHPLADL				NA	NA	NA	NA	NA
BMS010_07716	840		COG2513	putative protein	ATGACCGACCGCCAGCACGAGCGCGCCCTCGCCTTCCAGGCACTGCACCAACGCGACGGGTTGTTCGTCATTCCCAATCCCTGGGACGCCGGCTCGGCGAAAATCCTCGCCGCCCTCGGCTTCGAAGCGTTGGCGACCACCAGCGCCGGCCTGGCGTTCTCCCTCGGCCGGCCCGACGGCGAGGGGCTGATCAGCCGCGAGGAAACCCTGGTCAACGCCCGTGCCATCGTCGAGGCGACCCCGCTGCCGGTGGCGGCCGATCTGGAAAACGGCTTCTCCGACGATCCGCAGGGCTGCGCGGAGACCCTGCTCCAGGCCGCCTCGGCCGGGCTGGTGGGCGGCTCCATCGAAGATGCCAGTGGGCAAACGGACGCGCCCATCTACCCGATCGAACTGGCCGTCGAACGCATCCGCGCCTCCGTCGCCGCGGTGCGCAGCCTGCCCTTCCCCTTTACCCTCTGCGCCCGCGCGGAGAACTTCTTGCATGGACGCGAAGACCTGGCCGGCACCCTGCGCCGCCTGGAAGCCTACGCCGACGCCGGTGCGGACGTGCTCTACGCACCGGGCCTGACCTCCCGCGAGCAGATCGACGCCGTGGTGCGTGCAGTCGCGCCGAAGCCGGTGAACGTGCTGATGGGCCTCTCCGCCTGCCCGCTGACGCTGGATGAACTGGCCGACCTCGGCGTTCGCCGGGTCAGCGTCGGCTCCTGCCTGGCGCGCGCCGCGTTCGGTGGCTTCCTGCGTGCCGCCCGCGAACTGCGCGAGCGCGGTAGTTTCGCTTTCGTCGCCGAGGCGGCGCCCTTCGCCGAACTCAATGCACTGTTCAAGCCAGGCACCTGA	MTDRQHERALAFQALHQRDGLFVIPNPWDAGSAKILAALGFEALATTSAGLAFSLGRPDGEGLISREETLVNARAIVEATPLPVAADLENGFSDDPQGCAETLLQAASAGLVGGSIEDASGQTDAPIYPIELAVERIRASVAAVRSLPFPFTLCARAENFLHGREDLAGTLRRLEAYADAGADVLYAPGLTSREQIDAVVRAVAPKPVNVLMGLSACPLTLDELADLGVRRVSVGSCLARAAFGGFLRAARELRERGSFAFVAEAAPFAELNALFKPGT				NA	NA	NA	NA	NA
BMS010_07717	891		COG2084	NAD-dependent L-serine dehydrogenase	ATGAAACAGATCGCTTTTATCGGCCTCGGCCACATGGGCCTGCCGATGGCCCGCAACCTGCTCAAGGCCGGTTTCCAGTTGAGCGTCTTCGACTTGGTGCAGAGCGCGGTCGACCAGCTCGCCGGCGAAGGTGCGCGCGCCGCTGCGAGTGCCACCGAGGCGTCGGAGAACGCTGAGGTGATCGTCAGCATGCTGCCGGCCAGCCGCCATGTGGAAGGCCTCTACCTGGGCGACGACGGCCTGCTGAGCCGGATTCCCGCCGGCCGGCTGGTGCTGGAGTGCTCCACCATCGCCCCCGAGTCGGCGAAGAAGGTCCACCAGGCCGCCCGCGAGCGCGGCATCGATCTGCTCGACGCACCGGTATCCGGCGGCACCGCCGGCGCCGCGGCGGGCACCCTGACTTTCATGGTCGGCGGCGACGCGGCGGCACTGGAGAAAGCCCAGCCGGTGTTCGCCGCCATGGGCAAGAACATCTTCCACGCCGGCCCGGACGGTGCCGGGCAGATCGCCAAGGTCTGCAACAACCAATTACTCGCGGTGCAGATGATCGGCACCGCCGAATCCATGGCCATGGGCGTGGCCAACGGCCTCGATCCCAAGGTACTGGCCGAGATCATGCGCCAGAGCTCAGGCGGAAACTGGGTGCTGGAGCGCTACAACCCCTGGCCCGGCGTGATGGAAAATGCCCCGGCATCCAAGGGCTACGGCGGCGGCTTCATGGCCGAGCTGATGACCAAGGACCTCAGCCTGGCCCAGGAAACCGCCCAGGTCAGCGCCAGCAGCACACCGATGGGCGCCCTGGCGCTGCAGCTCTATCGCCTGCTGCTGAAGCAGGGCAAGGGCAAGCAGGATTTCTCGGTGGTGCAGCAGTTGTTTCGCGACGAGCGTTGA	MKQIAFIGLGHMGLPMARNLLKAGFQLSVFDLVQSAVDQLAGEGARAAASATEASENAEVIVSMLPASRHVEGLYLGDDGLLSRIPAGRLVLECSTIAPESAKKVHQAARERGIDLLDAPVSGGTAGAAAGTLTFMVGGDAAALEKAQPVFAAMGKNIFHAGPDGAGQIAKVCNNQLLAVQMIGTAESMAMGVANGLDPKVLAEIMRQSSGGNWVLERYNPWPGVMENAPASKGYGGGFMAELMTKDLSLAQETAQVSASSTPMGALALQLYRLLLKQGKGKQDFSVVQQLFRDER				NA	NA	NA	NA	NA
BMS010_07718	1188			hypothetical protein	ATGCCTCCCTCAGTCTCCGGTCAATCGTCGCAGCCGGCCATGGAGAGCGAAACACCGGTGGCCATGACGCTTCGGCAGCGGCCAGTACAACAACGAACGGAAACTCCGCAGACATCTGCCTCCTCCAGCACTGTGGATCACCGACAGACCGTCACGCAGCAACAACCTGACGCAGCCGTGCACGCTAACGAGTCGCCGGGTTTCTTCAGTGTTTTCGGCAAGATATTTACTGGGCTCATTGCCGCCTCCGCCGCTTACCGTGGCATGCGAAATCCAATGGACTTCGTTGAACATCCTGGTCAAGCCATCCTGGGGGCTCTTACCCTGAGCCAGAGAGCGGATGCCAATACGCTTTCTCATGCCAACAGCACGGTATTGAATCACTTCGGCCAATATATTCCTGACAACAGTGCCTGTTATAAAGCCAAGGCTGAGGTGACTTTTGACCTGCCATCAGATATTGCTGGTCGATTTTCCTCGGATCGCAACGAGGTCAAAGTTGCTGCCTATCATTCTTTCGGTTCCCACCCCAATCATCATGCGCGTCATGAGTTCGTGCATTGCTACACCCACCCCGACTTTATGGATAAAACCAAGCGTACGGACAATAAAGCTCTTCTAGAGGGTGTGACTGAACATATCACCGATAAAATGCCTCACGATATATGGCCGTTGGATATGGATGCATCGGCATATCACAAATTTAAACTGGACAATGGTAAAACCTGGACCCAGGCTGCCAACGAAATTGAACGGAAAGTTGGTGAGGAAACATTACTGAAAGCAGTGTTCAGTGGCGATAGGAAAGCGATAAGCGATGTGTCATCCGCTGCCGCAAGCATTTACCCCAAGGCCTATTCGAGTCAGGTCTGGAATAGCATTGGTATTGTGACTGAGCTACGGGGTACCCAAGAGTTGGCCGAGTGTTATGTGGGAGCCTTGGAGGCGAACAAGGTGGAAATTCCCAGTACTTATAGTAAGTCTTATCTACCGGCCGCGTTCCTCGGTGATATTTCCGCAGAAGATCGCCAGCGAATGGCGGAACAGGCAAGAGCTTGCCAGGAGCGTATGGGTGACGTATTCAACGCCGCCTTTTTCGGTTTCGATAAGGATGGCCAGAAGGATGCGCTCAAGGCCGTTCGCGAGGAAGTAAAGATGTACTGGCAGCCTGTATTGAAGGAGCAGTAG	MPPSVSGQSSQPAMESETPVAMTLRQRPVQQRTETPQTSASSSTVDHRQTVTQQQPDAAVHANESPGFFSVFGKIFTGLIAASAAYRGMRNPMDFVEHPGQAILGALTLSQRADANTLSHANSTVLNHFGQYIPDNSACYKAKAEVTFDLPSDIAGRFSSDRNEVKVAAYHSFGSHPNHHARHEFVHCYTHPDFMDKTKRTDNKALLEGVTEHITDKMPHDIWPLDMDASAYHKFKLDNGKTWTQAANEIERKVGEETLLKAVFSGDRKAISDVSSAAASIYPKAYSSQVWNSIGIVTELRGTQELAECYVGALEANKVEIPSTYSKSYLPAAFLGDISAEDRQRMAEQARACQERMGDVFNAAFFGFDKDGQKDALKAVREEVKMYWQPVLKEQ				NA	NA	NA	NA	NA
BMS010_07719	417			hypothetical protein	ATGAGAGCCCACGAACTGACCCGCCAATTGCTGCGGGAATACAGCCGCCAGACCAGCAAACCCAATATCGAGTTCAACGAGCAGGGAGCGGCTGTGGTGACGGTCGATCCTGACGTCACGATCACACTCTATCTGGGGGAACAGGCCGACAGCCTGCTGTTTCTGGCGGATATCGTTTCCCTGACACCTTCGCCTCGCGACGACATGATGATTCGCGCTCTGCTGATGCACAGTTTTCCTGGCTATCGCACTCGCGGCGGCGCTCTGCTAATCAATGAAGCCAGTAATAGTCTGGTGTTCAGTTATGAAAGAAAACTGAATGACCTCACCCCGATAACGATGGAAAACGTGATCGGCAACCTGTCCCAAACTGTATTGTATTTCCGTCGCAAGGCCGCTGAACTGCGTCTGCACTGA	MRAHELTRQLLREYSRQTSKPNIEFNEQGAAVVTVDPDVTITLYLGEQADSLLFLADIVSLTPSPRDDMMIRALLMHSFPGYRTRGGALLINEASNSLVFSYERKLNDLTPITMENVIGNLSQTVLYFRRKAAELRLH				NA	NA	NA	NA	NA
BMS010_07720	1788	yjcS	COG2015	Putative alkyl/aryl-sulfatase YjcS	ATGAGACTACCTGTCCGCTGGAGTGGCCTGTTGCTGGCCGCTGTCCTGCCGCTCGGCGCCTTCGCCGAATTGCCCGAGGAACGGATCGAACCGAGCATCGATCCCGAACTGGCCGCCCATACCAAGGTGTTCGAGCAGAAGCTCTATCGCATCGCAGGCAACGTCTACTCGGCAGTCGGCTGGCAGTTGGGCAACGTGGCGATGATCGAAGCGCCGGAGGGGCTGATCATCGTCGACACCGGCGAGTCGGTCAGCGAATCGCGCAAGATCATGGCCGAGTTCCGCAAGGTCAGCGACAAGCCGGTCAAGGCCGTTGTCTATACCCACTTCCACCCGGACCACATCAACGGCGTACAGGCGTTCGTCAGTCGCGAGCAGGTGGAGCGCGGCGAAGTGCAGATCTATGCGCACGAATCGCTGCTGCAGAACGTGGTGACCCAGGGCGCCCTGGTCGGGCCGATCCTGGGCGTGCGTTCGGCCTACAGCTTCGGTTCCTTCCTGCCGGCGGCGGACCAGAAGGGCATGAACGGCGGCATCGGACCGCTGGCCAAGCCCGAGCCGTCCACCTTCATCGCGCCGACCGTCACCTTCGGCGAACGCCTCGATACCCGCATCGCGGGGCTGGATGTGCAGTTGCTGCACGCACCCAGCGAGGCGCCGGACGAGATCGTTCTCTACCTGCCGGACAACCGCGTGCTGATCAGCGCGGAAGTCGACCAGGGACCGACCTTGCCGAACATCCATACGTTGCGTGGCACCAAGTTCCGTGACCCGGTGCAGTGGGTGGCCAGCCTCGACCTGTTGCGCTCGTTGCGCGCCGACCACATGGTGCCGTTGCACGGTCGGCCGGTGAGCGGTCGCGACCAGGTGGAAGAGGTGCTGCGCATGACCCGCGACGGCATCGCCTACATCCACGACCAGACCGTGCGCTGGATGAACAAGGGCCTGACGCCGGACGAGCTGGTGGAGAAGGTCAAGCTGCCACCGCACCTGGCCGGATACACCCCCTACCTGCGCGAGTACTACGGGACGGTCAAGCACAGCGTGCGACAGATCTACAACGGCTACCTGGGCTGGTTCCAGGGCGACCCGGTGGACCTCGGCCCGACCCCGCCGAAGGAAAAGGCGCAGCGCCTGATGGCCCTGATTGGCGGGCGGGACAAGGTGCTGCTCGAGGCGGGCAACGCCTACCTCAAAGGCGACTACCAATGGGCGGCCGAGTTGGCCGGCTACGCCATCCGCGTGGATCGGGAGGATCGGTTGGCGCGTGAGATCAAGGCGCGCAGCTTCCGTCGGCTGGGCTACGCCAGCATGAACATCAACTGGCGCAACTGGTACCTGATGAGCGCCATGGAACTGGAGGGCAAGCTGGACGGCGAGGCCATCCGCGAGCGCTCCGTGGAAATGCGCAAGGTGTTTCTCTCGCAGGACATGGCGCGCAGCTTCACCCCGCAAATCTTCTTGCAGAACTGGATCACCCGCATCGATCCGGACAAGGCCGGCGACGTCGAGCTTACCCTCGGTTTCAGTTTCCCGGACGTGGGCGAGGAATGGGCCTTGGAGGTGCGCAAAGGTGTGGCCCAGCTGCACAAGGGCATTCCCGAAGGCACCGTACTCAGGTTGAGCATGGACAAGCGCTTCATGGAAACCCTGCTGACCGGCGAGAACGGCTTGCTCAAGGGGGCGTTGCTGGGGAATGTGAGGGTCGACGGCAACCTGCTGGAAATCCGCCGGTTCCTCGCCTGCTTCGATTTCAGCGATGAAGCGTTCGGCCTGGCTTTGCGTTGA	MRLPVRWSGLLLAAVLPLGAFAELPEERIEPSIDPELAAHTKVFEQKLYRIAGNVYSAVGWQLGNVAMIEAPEGLIIVDTGESVSESRKIMAEFRKVSDKPVKAVVYTHFHPDHINGVQAFVSREQVERGEVQIYAHESLLQNVVTQGALVGPILGVRSAYSFGSFLPAADQKGMNGGIGPLAKPEPSTFIAPTVTFGERLDTRIAGLDVQLLHAPSEAPDEIVLYLPDNRVLISAEVDQGPTLPNIHTLRGTKFRDPVQWVASLDLLRSLRADHMVPLHGRPVSGRDQVEEVLRMTRDGIAYIHDQTVRWMNKGLTPDELVEKVKLPPHLAGYTPYLREYYGTVKHSVRQIYNGYLGWFQGDPVDLGPTPPKEKAQRLMALIGGRDKVLLEAGNAYLKGDYQWAAELAGYAIRVDREDRLAREIKARSFRRLGYASMNINWRNWYLMSAMELEGKLDGEAIRERSVEMRKVFLSQDMARSFTPQIFLQNWITRIDPDKAGDVELTLGFSFPDVGEEWALEVRKGVAQLHKGIPEGTVLRLSMDKRFMETLLTGENGLLKGALLGNVRVDGNLLEIRRFLACFDFSDEAFGLALR				NA	NA	NA	NA	NA
BMS010_07721	912	oxyR_2		Hydrogen peroxide-inducible genes activator	ATGAACGATCTACGTCAGCTCCGTCACTTCGTCGCCCTGGCCGAGCATGGCCACTTCGCCCGTGCCGCGGAGGCGGTGCACCTCAGCCAGCCGGCGCTGACACGCAGCATCCAGGCCCTGGAAAATCATCTGGATTGCATCTTGGTGAATCGCCACAGCCGTGGCATCAGCCTCACCGCCCACGGCCAACTGGTGCTGGAACACGCCCGGCGACTGCTGGCCGGCAGCCGCGCGCTGGACAACGCCGTCAGCCAATTGAGCAACCTGGAGGCCGGCGAACTGCGCCTGGGTGCCGGCCCCTACCCTGCCGCGCGCTTGGTGCCGCAGGCGGTCGGCCGCCTGCTGCAGCGTTACCCGAAGGTTCGGGTCAGGCTGGACATCGCCAACTGGCTGGAACTGCGCGACGCCCTGCTGGATACGACCATCGAGCTGTTCGTCGCCGACATACGCGAGTTGCAGGGCGAGCCGCAGTTGCACATCGAACCGCTGCATAGCCATGCCGGCATCCTGTTCTGCCGCCCCGGCCACCCGCTGCTGGAACGCCGCGATCTGCAACTGGCCGATCTGCTCGAATTCCCCCTTGCCGGGACCCAGTTGCCGCAGGAGGTGGCACGCAGCCTGAGCGCCGCCAGTGGCCGCGAGCAGCCACTGAGCGTGCAATGCGACAACTTCCTGGTTCTCAAACGCCTGGTGGCCGACAGCGACGTACTGAGCATGGCCCCCTGGGACGTGATCGCCGACGAGGTGGCCGCCGGCCAACTGAGCCTGTTGCCGTTGGCCCCGGCGAGCCTGCAACAGCGGTCGGCCTACGGCCTGGTCAGCCGCGCCGGGCACAGCCTGTCGCCGGCGGCGCAGGCGGTGGTGGAAGAGATTCGGCAGGTGGATCGCCAGTTGCCGCCATCGTCCCGCTGA	MNDLRQLRHFVALAEHGHFARAAEAVHLSQPALTRSIQALENHLDCILVNRHSRGISLTAHGQLVLEHARRLLAGSRALDNAVSQLSNLEAGELRLGAGPYPAARLVPQAVGRLLQRYPKVRVRLDIANWLELRDALLDTTIELFVADIRELQGEPQLHIEPLHSHAGILFCRPGHPLLERRDLQLADLLEFPLAGTQLPQEVARSLSAASGREQPLSVQCDNFLVLKRLVADSDVLSMAPWDVIADEVAAGQLSLLPLAPASLQQRSAYGLVSRAGHSLSPAAQAVVEEIRQVDRQLPPSSR				NA	NA	NA	NA	NA
BMS010_07722	354			hypothetical protein	ATGTCCTGTCAACGTTTCCTGCTTGCGCTGCTCTGTCTGGGTCTGGGTGGTTGCGTGGTCTACGACGACCGACCCTATTACGCCTATCCGCGTCAGTCGATCTATGTGGCCGGGTGGGATTCCCCCCGCTACCGCTACGACGATGGCTACCGGCTCCACTACCGGAGCTACTCCGCACCTCGCTACTACAACCCTCCGCGCTACTACGCCGCCCCGCGCTTCATCGCACCGCCACCCCGCTATCTGCCGTATCGGCATGAGCATCACCGTCGCGAGTGGCGGGATGATCGCCGCTGGCGTGACGCCTACGAACGGCCTCGGCGCGAGTGGCGCCATGAGGGCTATCGGCGGTAA	MSCQRFLLALLCLGLGGCVVYDDRPYYAYPRQSIYVAGWDSPRYRYDDGYRLHYRSYSAPRYYNPPRYYAAPRFIAPPPRYLPYRHEHHRREWRDDRRWRDAYERPRREWRHEGYRR				NA	NA	NA	NA	NA
BMS010_07723	156			hypothetical protein	ATGAAGACATTGATGGGTTTGCTGCTCGTTGGCGTGATGGCCGTGACCTTGCCAGCCTGTAGTCTTCGCCTGCCGGGTATCGGGATCGATATCGGCGATGGCGGCGGCGGACCGGGACACTGCCCGCCGGGACAGGCGAAGAAGGGCAACTGCTGA	MKTLMGLLLVGVMAVTLPACSLRLPGIGIDIGDGGGGPGHCPPGQAKKGNC				NA	NA	NA	NA	NA
BMS010_07724	177			hypothetical protein	ATGCGTAGTTTGTCTGTGGTGCTGATGGGGATGTTGCTGGCGCTGGGTGGTTGCAGCTTCAGCGCTCCGGGCGTTCGCGCCGAGCTGGGTGGCGGGGATGCCGTCCGTGTCGATGTGGGTGGCGGCGGCGGTGGCCATTTCTGTCCGCCGGGCCATCGGATGAAAGGTAGCTGCTGA	MRSLSVVLMGMLLALGGCSFSAPGVRAELGGGDAVRVDVGGGGGGHFCPPGHRMKGSC				NA	NA	NA	NA	NA
BMS010_07726	1059			hypothetical protein	ATGTTCATCCGCCTGCTGTCCTGTCTTCTGCTCGCGCTGCTGCTCAGCCAATCCGCTTCCGCCGCTCCGCAAAACCGCCCCTTCAAGATCTGCTGGTCGATCTATGCCGGCTGGATGCTGTGGGGCTACATGGCCGAAGAAGGCATCATCGACAAGTGGGCGAAGAAATACGGTATCGAAATCCAGGTTCAGCAGGTGCCGGACTACATCGCTTCCATCGAGCAGTACACCGCCGGCCAGTACGACGCCTGCGCCATGACCAACATGGACGCGCTGACCATCCCCGCCGCCGGTGGGGTCGACTCCACCGCGCTGATCGTCGGCGACTTTTCCTCCGGCGCCGACGGTATCCTCATCCGCGGCAGCAACAAAAATCTGTCGGCGCTCAAGGGCAAGACCATTCTGCTGGTGGAGAACTCGGTCTCTCATTACCTGCTCGCCCGCGCCCTGGAATCGGTGGGCATGAAACTGAGCGACGTGAAGATCGAGAACGTCTCGGACGCGGACCTGGCCGAGGTCTGGCGCAGCGGGCGCGGCGACGCGGTGGTGACCTGGAACCCGATCCTCTCGGAACTGCGCCGGAGCGGCGGTAGCGTCCAGGCTTTCAGCTCCCATCGAATCCCCGGCGAGATCCTCGACCTGCTGGTGATCAATAGCCAGACCCTGGCCGCCCACCCGGAACTGGGCCGTGCGCTGACCGGCGCCTGGTACGAGGGCATGCGCCTGATCGCCATGCCGAACGAGGCGGGCAAAGCGGCACGAGCCAAACTGGCCGCTGCGGCGGACACCACGCCGGAGGATTTCGACGCGCAGTTGCGGACCATCCGCTCCTTCTTCGTGCCACGCTCGGCGGCGTCTTTCACCCGCGGCGAAAGAATGCCGATCCTGATGCAACGAGTGGCCCGCTTCGCCAATGACCAGAAGCTGCTCGGCGAAGGCAACGGCCTGCAACGGCTGGGCATCGGCTTCAGCGACAACCGGGTGCTGGGCAATCCGTCGCAGGTCCTGTTGCGCTTCAACCCGGCGTACATGCAGTTGGCCGCCGACGGCAAGCTGTAA	MFIRLLSCLLLALLLSQSASAAPQNRPFKICWSIYAGWMLWGYMAEEGIIDKWAKKYGIEIQVQQVPDYIASIEQYTAGQYDACAMTNMDALTIPAAGGVDSTALIVGDFSSGADGILIRGSNKNLSALKGKTILLVENSVSHYLLARALESVGMKLSDVKIENVSDADLAEVWRSGRGDAVVTWNPILSELRRSGGSVQAFSSHRIPGEILDLLVINSQTLAAHPELGRALTGAWYEGMRLIAMPNEAGKAARAKLAAAADTTPEDFDAQLRTIRSFFVPRSAASFTRGERMPILMQRVARFANDQKLLGEGNGLQRLGIGFSDNRVLGNPSQVLLRFNPAYMQLAADGKL	PGPT0001135_2031	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051	NA	NA
BMS010_07728	1068			hypothetical protein	ATGCGCACGTCCTTGCTGTCCTCGCTGATCGCCGCCGGCCTCTCCGCCGCCCTGAGCCTCTCCGCCCACGCAACCCCCAAGACCGACTTCAGCGTCTGCTGGACCATCTACGCCGGCTGGATGCCGTGGGAATACGGCGCCGCCCAGGGCATCGTCGACAAATGGGCGAAGAAGTACGACATCAATATCGACGTGGTGCAGATCAATGATTACGTCGAGTCCATCAACCAGTACACCGCCGGCCAGTTCGACGGCTGCACCATGACCAACATGGACGCCCTGACCATTCCCGCCGCCGGTGGCGTGGACTCCACCGCGCTGATCGTCGGCGACTTCTCCAACGGCAACGACGGCGTGGTGGTCAAGGGCAGCGGCAAGACCCTGGCCGATCTCAAGGGCCAGCCGATCAACCTGGTCGAACTGTCGGTCTCCCACTATCTGCTCGCCCGAGCCCTGGAAAGCGCCGGGCTGAGCGAGAAGGACGTGCAGGTGGTGAACACCTCGGACGCCGACCTGGTGGCGGCCTTCCATTCCGCCGAAGTGAAGGCGGTGACCACCTGGAACCCGCTGCTGGCGGAAGTCGTCGCGGTACCGGACACCAGCAAGCTGTTCGACTCCAGCCAGATTCCCGGCGAAATCATCGACCTGATGGTGGTCAACAGCGACACCCTCAAGGACAACCCCGCCTTCGGCAAGGCACTGGTCGGCGCCTGGTACGAAATCATGGCCACCATGAACGCCGACAGCACCGCCGGCAAGGCCGCCCGCGAGCACATGGCCAAGGCCTCCGGCACCGATCTGCCCGGCTACGAGGCGCAACTGGCGGCGACCAAGATGTTCTATTCGGCGAAGGACGCGCTGGCCTTCTACAACAGCCCGAAGCTGCCTGAAACCATGGACAAGGTGGCCGGCTTCAGCTTCGACCACGGCATCCTCGGCGAAGGCGCGAAGAGCGCGGACGCCATCGGCATGGCCTTCGCCAACGATCTGGTCACCGGCGACAAGGGCAACGTCAAGCTGCGCTTCGACCCGACTTATACCCGCATGGCGGCCGACGGCACGCTGTAA	MRTSLLSSLIAAGLSAALSLSAHATPKTDFSVCWTIYAGWMPWEYGAAQGIVDKWAKKYDINIDVVQINDYVESINQYTAGQFDGCTMTNMDALTIPAAGGVDSTALIVGDFSNGNDGVVVKGSGKTLADLKGQPINLVELSVSHYLLARALESAGLSEKDVQVVNTSDADLVAAFHSAEVKAVTTWNPLLAEVVAVPDTSKLFDSSQIPGEIIDLMVVNSDTLKDNPAFGKALVGAWYEIMATMNADSTAGKAAREHMAKASGTDLPGYEAQLAATKMFYSAKDALAFYNSPKLPETMDKVAGFSFDHGILGEGAKSADAIGMAFANDLVTGDKGNVKLRFDPTYTRMAADGTL	PGPT0001135_1748	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051	NA	NA
BMS010_07729	816			hypothetical protein	ATGCGCCTGATCAACCGCCATCCGGACCGGACGGGTCGTCTGGCCCTGGCGATCCTGCCGTTCGCTCTGCTGCTGTTCGCCTATTTCTCGGGCTCGATGGCACGCCTGGCGGACAACCCCAACGACAAGCTGCTGCCGAGTGCCGCGCAGATGGCCGATGCGGTCGATCGCCTGGCCCTCCAGCCCGACAAGCGCAGCGGCGACTACCTGTTCTGGCGCGACACCGCTTCCAGCCTGCAACGCCTCGGTCTCGGCCTGGGCATCGCCGCCCTCGCCGGCCTCTGCCTCGGCATCGCCGCCGGCACCCTGCCGCTGTTCGGCGCGCCGCTGTCGCCGCTGCTCACGGTGCTGTCGATGGTGCCGCCCCTGGCGATCCTGCCGATCCTGTTCATCGTCTTCGGCCTCGGCGAGCTGGCCAAGGTCATGCTGATCGTCATCGGCATCACTCCGGTGCTGGCCCGCGACCTCGAACAGCGCGCCCGGGAAATCCCCCGGGAACTGCTGATCAAGGCACAGACCCTGGGGGCGAACACCTGGACGCTGATCCTCCGCGTGGTGCTGCCGCAACTGCTGCCGCGCCTGCTGATCGCCCTGCGCCTGGTACTCGGCTCGGCCTGGCTGTTCCTCATCGCCGCCGAAGCCATCGCCTCCACCGACGGCCTCGGCTACCGCATCTTCCTGGTCCGCCGCTACATGGCGATGGATGTGATCCTGCCTTACGTGGCCTGGATCACCCTGCTCGCCTGGGCCATGGACCATGGCCTGCGCCGCCTCGCGCTGGGCTGTTTCCCCTGGTACGAGGGGGCCAAGGCATGA	MRLINRHPDRTGRLALAILPFALLLFAYFSGSMARLADNPNDKLLPSAAQMADAVDRLALQPDKRSGDYLFWRDTASSLQRLGLGLGIAALAGLCLGIAAGTLPLFGAPLSPLLTVLSMVPPLAILPILFIVFGLGELAKVMLIVIGITPVLARDLEQRAREIPRELLIKAQTLGANTWTLILRVVLPQLLPRLLIALRLVLGSAWLFLIAAEAIASTDGLGYRIFLVRRYMAMDVILPYVAWITLLAWAMDHGLRRLALGCFPWYEGAKA	PGPT0001145_4962	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050	NA	NA
BMS010_07730	801	nrtD_2	COG1116	Nitrate import ATP-binding protein NrtD	ATGAGCTTCATCCAGGTTGAAAACGTCTGGCAGGAATACGGCGACCAGGTCGTACTGGAACGCCTGAACCTGTCGGTGGCCGAAGGCGAGTTCTGCACCCTGGTCGGCGCCTCCGGTTGCGGCAAATCGACCTTCCTGCGCCTGCTGCTCGGCCAGGAGCGCCCCAGCCGCGGCCGCATCCTGCTGGACGGCGCGCCCCTGGCGGACGAACCGGACGCCAGCCGGGGCGTGGTGTTCCAGCGCTATTCGGTGTTCCCGCATCTGTCGGTGCTGGACAACGTGACCCTCGGCCTGGAATTGCCGCGTGCACCACTGCTCGGCCGGCTGTTCGGCCAGGCCAGGCGCGAGGCGCGCGACCAGGCGGCGGCGATCCTCGAACGGGTCGGTCTCGGCCACGCCCTGGACAAGTACCCCAGCGCGCTCTCGGGCGGCATGCAGCAGCGCCTGGCCATCGCCCAGGCGCTGGTGATGAAACCGCGCGTGCTGCTGCTCGACGAGCCCTTCGGCGCCCTCGACCCCGGTATCCGCAAGGACATGCATGCGCTGCTGCTGGAACTCTGGCAGGAAACCCGTTTGACGGTGTTCATGGTCACCCACGACCTGTCGGAAGGCTTCACCCTCGGCACCCGCATCCTGGTCTTCGACAAGACCCGCCTCGACCTGCAGGCACCCAACGCCTATGGCGCGCGGGTCACCTACGACATTCCGCTGAACCGCGACCGCCGCGCCGCACGCATTGCCGTCGACACCCCGCCGGCCGCCGTCGCCGACACCCTGCAACCCCATTACCAAGGAGCCTGA	MSFIQVENVWQEYGDQVVLERLNLSVAEGEFCTLVGASGCGKSTFLRLLLGQERPSRGRILLDGAPLADEPDASRGVVFQRYSVFPHLSVLDNVTLGLELPRAPLLGRLFGQARREARDQAAAILERVGLGHALDKYPSALSGGMQQRLAIAQALVMKPRVLLLDEPFGALDPGIRKDMHALLLELWQETRLTVFMVTHDLSEGFTLGTRILVFDKTRLDLQAPNAYGARVTYDIPLNRDRRAARIAVDTPPAAVADTLQPHYQGA	PGPT0001140_5213	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049	NA	NA
BMS010_07731	729			hypothetical protein	ATGAGCGCATCCCTCGCCCTGCGCCCGACCCTGTACGAAGAAGTCGTACCCGGCGGCGGCCATACCTCGTTCGTTCTCAAGCGCGGCCAACTGCTGCGTCTCACCGACATCGAAGGCGGCGCCAACGTCAGCCTGCTGCTGCTCAACGCCCATGAAAAAAGCGAACGCCTGAACCTGCCGGACACCCTCAAGTGCCAGCACACCGCCAAGCTCACCGCCGGGCACTGCCTGTACTCGGACATGGGCCGCGTGCTCGCCGCCATTACCACCGACACCTGCGGCTGGCACGACAGCTTCGGCGGCGTGCTGAACGCCGAGGAAGTCCGCGAGAAATACGGCCAGGGCCGCTACCAGGAATTGCGCAACGGCTTCTTCCGCAACGGCATGGACAACCTGCTGGTGGAACTGGGCAAGTGGAACCTCAACCTGCAGGACCTGCTGATGTGCCTGAACCTGTTCAGCAAGGTCAGCGTGGACGCCGACGGCTGCTTCCGGTTCGAGCCGGGCAACGCCAAGACCGGCGACTACGTCGAGCTGTACGCGCCGATGGATACCCTGGTGGTGCTCACCGCATTGCAGCACCCCATGGACCCGAATCCGCAGTACGCCCCCAAGCCCATCCGCCTGACCTGGAGCAAGGTGGAGAGCGACGGCATCAGCGTGCTCTGCCGCACCTCGCGCCCGGAGAACGGCCGCGGCTTCCACAACACCGAACGTCTCTACCTCTGA	MSASLALRPTLYEEVVPGGGHTSFVLKRGQLLRLTDIEGGANVSLLLLNAHEKSERLNLPDTLKCQHTAKLTAGHCLYSDMGRVLAAITTDTCGWHDSFGGVLNAEEVREKYGQGRYQELRNGFFRNGMDNLLVELGKWNLNLQDLLMCLNLFSKVSVDADGCFRFEPGNAKTGDYVELYAPMDTLVVLTALQHPMDPNPQYAPKPIRLTWSKVESDGISVLCRTSRPENGRGFHNTERLYL	PGPT0001000_712	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0001000-ycgI-K09967	NA	NA
BMS010_07732	636			hypothetical protein	ATGACCCTGACCCACAGCGACAAGCACCCCGAAGCCGCCCTGCGCCGCGACGTGATCGCCGCCGGCGAGCCGTACCTGACCGAAGTGAAGGCCGGCCAGACCGTGCGCATCCTCGACCTCGAAGGCAACCAGGCGGTGGACACGCTGTTCTACAGCGCCCGCAACCCGCGCGAGCGCTACGACGTGCAGCGCACGCTGCGCAAGCAGAGCCGCGTCTACCTCACCACCGGCACGGTGCTCTGGTCGAACCTCGGCAACCCCATGCTGACCCTCGTCGCCGACACCTGCGGCCGCCACGACACCCTCGGCGGCGCCTGCGCCCAGGAAAGCAACACCGTGCGCTACGCCCTGGAAAAGCGCTACATGCACAGTTGCCGCGACAACTTCCTGCGCGCCAGCCTGCACGACGGGCGCCTGGAGAAACGCGACATCAGCGCCAACATCAATTTCTTCATGAACGTGCCGGTGACACCGGAAGGCGGCCTGACCTTCGAAGACGGCATCTCCGCCGCCGGCAAGTACGTCGAGCTGATCGCGCACATGGACGTCATTCTCCTGATCTCCAACTGCCCGCAACTCAACAATCCGTGCAATGCCTACAACCCGACGCCGGCGGAAGTCCTGATTTGGGAATAA	MTLTHSDKHPEAALRRDVIAAGEPYLTEVKAGQTVRILDLEGNQAVDTLFYSARNPRERYDVQRTLRKQSRVYLTTGTVLWSNLGNPMLTLVADTCGRHDTLGGACAQESNTVRYALEKRYMHSCRDNFLRASLHDGRLEKRDISANINFFMNVPVTPEGGLTFEDGISAAGKYVELIAHMDVILLISNCPQLNNPCNAYNPTPAEVLIWE	PGPT0001000_1350	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0001000-ycgI-K09967	NA	NA
BMS010_07734	3624	carB_3		Carbamoyl-phosphate synthase large chain	ATGTTCGACACACTGTTGATCGCCAACCGCGGCGCCATCGCCTGCCGCATCCTGCGGACCCTGCGCGCCCTGGACGTAAAAGGCGTCGCCGTCTACTCCGAAGCGGACGCTGCCAGCCTGCATATCCAGCAGGCCGATGAAGCCCACAGCCTGGGCGAAGGCCCGGCCGCCGCCACCTACCTGGTGGTGGACAAGATTCTCGACGCCGCACGCCACAGCGGCACCCAAGCCATCCACCCCGGCTACGGCTTCCTTTCCGAGAACGCCGCCTTCGCCGAAGCCTGCGAAGCGGCCGGCATTGCCTTCGTTGGCCCGACGCCCGAGCAATTGCGCGTGTTCGGTCTCAAGCACACCGCCCGCGCGCTGGCCAGGGAACGCGGCGTCCCGCTGCTGGAAGGCACCGACCTGCTGGACAGCCTGGACGCCGCCCTCGCCGCCGCCGAACGGGTCGGCTACCCGGTGATGCTCAAAAGCACCGCCGGCGGTGGCGGTATCGGCATGCGCGTCTGCCGCAGCGCAGAGGAGCTACGCGACGCCTTCGACGCGGTGAAGCGCCTCGGCCAGAACAACTTCAGCGACGCCGGCGTGTTCATCGAAAAGTACATCGAGCGCGCCCGTCACCTGGAAGTGCAGGTATTCGGCGATGGCCAGGGCGAAGTGATCGCCCTCGGCGTGCGCGACTGCTCGGTGCAACGACGCAACCAGAAGGTGCTGGAAGAAACCCCCGCGCCCAACCTGCCAGCCGGCATGGCCGAGGCGCTCTGTGCCGCTGCGGTCGAGCTGGCCAGGGCGGTGAACTACCGCAGCGCCGGCACCGTCGAGTTCGTCTATGACAGCGAGGCCGAGCGCTTCTACTTCCTCGAAGTGAACACCCGCCTGCAGGTCGAGCACGGCGTCACCGAGCAGGTCTGGGGCGTCGATCTGGTGCGCTGGATGATCGAACTGGCGGCCGGCGACCTGCCGCCGCTGGCCGAACTGGCGGCCACGCTGAAGCCCAGCGGCCATGCCATCCAGGCGCGCCTTTACGCGGAAGACCCGGGCCGCGACTTCCAGCCCAGCCCCGGCCTGCTCACCGCCGTGCAGTTCCCGGCAGCCGACGGCAACGCCCTGCGCATCGATACCTGGGTCGAAGCCGGTTGCGAGATTCCGCCCTACTTCGACCCGATGATCGCCAAGCTGATCGCCTGGGCTCCCGACCGCGACCAGGCCCGCGCCGCGCTGGACCAGGCGCTGGACGGCACCCTGCTCTACGGGGTGGAAAGCAACCGCGACTACCTGCGGCAGATCCTTGCCGACGTCCCCTTCGCCAGCGGCTCGCCCTGGACCCGCTGCCTGGAGGGCCTGGTCTACCGCGCCAACACCTTCGAGGTCCTCTCCGCCGGCACCCAGACCACCGTGCAGGACTACCCCGGCCGGCTCGGCTACTGGGCCGTCGGCGTACCGCCGTCGGGGCCGATGGACGACCGTGCCCTGCGCCTGGGCAACCGCCTGCTGGACAACCCGGAAGGCGCCGCCGCCCTGGAAATCACCATGAGCGGGCCGCTCCTGCGCTTCAACACCGATGCCGTGGTGGCGGTGACCGGCGCCGAGATTACCCTGACCCTGGATGGCGAGCCGCAACCCATGCACACCGCGCTGTTCGTGCCGGCCGGCGCCACCCTCGCCCTCGGCACCCTGGCCGGCGCCGGGGCCCGCAGCTACCTGTGCCTGCGCGGCGGCCTGCAGGTGCCGGACTACCTCGGCTCGAAAAGCACCTTCACCCTCGGCCAGTTCGGCGGCCATGCCGGCCGTGCCCTGCGCGCCGGCGACGTGCTGCATCTGCCGCCGCTGACGGACCGCAGCGTGGGCGACAGTCTGCCCCCGGCGCTGCGCCCCACGCTGCCGGCCGTCCGTGATATCCGGGTGATCTACGGGCCGCACGGGGCGCCGGAATATTTCACCGACGCCTACATCCGTACCTTCTTCGCCACCGCCTGGGAGGTGCACTTCAACTCCAGCCGCACCGGCGTGCGCCTGATCGGCCCCAAGCCGGAATGGGTGCGCGAGAGCGGTGGCGAAGCCGGCCTGCATCCGTCGAACATCCATGACAATCCCTACGCCATCGGCGCGGTGGACTTCACTGGCGACATGCCGGTGATCCTCGGCCCGGACGGGCCGAGCCTGGGCGGCTTCGTCTGCCCGGTCACGGTGATCGAGGCCGACCTCTGGCAACTCGGTCAACTCAAGGCCGGCGACAAGGTGCGCTTCGTCCCGGTGGACATCGCCATGGCGCGGGAACTGGCCAAGGCGCGCAATGCGGAATGCGCCAGCCTCTGTGGGAGCGAATTCATTCGCGATCCCGGCAGCGCTGCTATCGCGGATAAATCCGCTCTTACAAGCCCCGTCGTTCTCGACCTCGGCGAAGACGACACCCGCCTGGTCGCCCGCCTCTCCGGCGATACCCATCTGCTGCTGGAAATCGGCCAGCCCGAGCTGGACCTGGTGCTGCGCTTCCGTGGCCACGCGCTGATGCAGGCACTGGAGGCCGAACGACTCGACGGCGTGGTGGACCTGACGCCTGGCATCCGCTCGCTGCAAGTGCACTACCAGCCGGAAACCCTGCCCCTCGAACGCCTGCTGGCGGTAGTCGCCGGGCTCTGGGATGGCGTCTGCGCCGCCCGTGACCTCAAGGTACCCTCGCGCATCGTTCACTTGCCGCTGTCCTGGGACGATCCGGCCTGCCGCCTGGCCATCGAGAAGTACATGACCACGGTGCGCAAGGACGCCCCCTGGTGCCCGAGCAACCTCGAGTTCATCCGTCGCATCAACGACCTGCCCGGTCTCGACGACGTGCATCGCACCGTCTTCGACGCCAGCTACCTGGTGATGGGCCTCGGTGACGTTTACCTCGGCGCGCCGGTGGCCACGCCGCTGGACCCGCGCCACCGGCTGGTCACCACCAAGTACAACCCGGCACGCACCTGGACCGCCGAGAACTCGGTGGGCATCGGCGGGGCTTACCTCTGCGTGTACGGCATGGAAGGGCCCGGTGGCTACCAGTTCGTCGGCCGCACCCTGCAGATGTGGAACCGCTACCGCGACGTCGCCGCGTTCGACGGCAAGCCCTGGCTGCTGCGCTTCTTCGACCAGATCCGCTTCTACCCGGTCTCGGCCGAGGAACTGTTGCGTATCCGCCGCGACTTCCCCCTCGGGCGCTACCCGTTGCGCATCGAGCACAGCGAACTGCGCCTCGCCGACTACCAGGCCTTCCTCGCTCGGGAAGCCGAAAGCATCGCTGCGTTCCGCAGCCAGCAGCGCGCAGCCTTCGACGCCGAACGCCAGCGCTGGATCGACAGCGGCCAGGCCCATTTCGAGAGCGAGGAAGTCGCCGCCGACCTCGGCGAAGACAGCCCGCTCGGCGCCGGGCAGCACGCCATCGAAAGCCATATCGCCGGCAATCTCTGGCAGGTGCAGGTGGACGTCGGCAGCGAGGTCAAGGCCGGTGACATTCTGGTCATCCTCGAGTCGATGAAAATGGAAATCCCCCTCACCGCCCCGCGCGACGGCGTAATCAAGGAAGTCCGCGTACAGCCCGGCTCACCGGTACGCGCCGGACAAAGGGTGGTAGTGATGGAAGAGGCATAG	MFDTLLIANRGAIACRILRTLRALDVKGVAVYSEADAASLHIQQADEAHSLGEGPAAATYLVVDKILDAARHSGTQAIHPGYGFLSENAAFAEACEAAGIAFVGPTPEQLRVFGLKHTARALARERGVPLLEGTDLLDSLDAALAAAERVGYPVMLKSTAGGGGIGMRVCRSAEELRDAFDAVKRLGQNNFSDAGVFIEKYIERARHLEVQVFGDGQGEVIALGVRDCSVQRRNQKVLEETPAPNLPAGMAEALCAAAVELARAVNYRSAGTVEFVYDSEAERFYFLEVNTRLQVEHGVTEQVWGVDLVRWMIELAAGDLPPLAELAATLKPSGHAIQARLYAEDPGRDFQPSPGLLTAVQFPAADGNALRIDTWVEAGCEIPPYFDPMIAKLIAWAPDRDQARAALDQALDGTLLYGVESNRDYLRQILADVPFASGSPWTRCLEGLVYRANTFEVLSAGTQTTVQDYPGRLGYWAVGVPPSGPMDDRALRLGNRLLDNPEGAAALEITMSGPLLRFNTDAVVAVTGAEITLTLDGEPQPMHTALFVPAGATLALGTLAGAGARSYLCLRGGLQVPDYLGSKSTFTLGQFGGHAGRALRAGDVLHLPPLTDRSVGDSLPPALRPTLPAVRDIRVIYGPHGAPEYFTDAYIRTFFATAWEVHFNSSRTGVRLIGPKPEWVRESGGEAGLHPSNIHDNPYAIGAVDFTGDMPVILGPDGPSLGGFVCPVTVIEADLWQLGQLKAGDKVRFVPVDIAMARELAKARNAECASLCGSEFIRDPGSAAIADKSALTSPVVLDLGEDDTRLVARLSGDTHLLLEIGQPELDLVLRFRGHALMQALEAERLDGVVDLTPGIRSLQVHYQPETLPLERLLAVVAGLWDGVCAARDLKVPSRIVHLPLSWDDPACRLAIEKYMTTVRKDAPWCPSNLEFIRRINDLPGLDDVHRTVFDASYLVMGLGDVYLGAPVATPLDPRHRLVTTKYNPARTWTAENSVGIGGAYLCVYGMEGPGGYQFVGRTLQMWNRYRDVAAFDGKPWLLRFFDQIRFYPVSAEELLRIRRDFPLGRYPLRIEHSELRLADYQAFLAREAESIAAFRSQQRAAFDAERQRWIDSGQAHFESEEVAADLGEDSPLGAGQHAIESHIAGNLWQVQVDVGSEVKAGDILVILESMKMEIPLTAPRDGVIKEVRVQPGSPVRAGQRVVVMEEA	PGPT0001005_161	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0001005-uca|dur|urd-K01941	NA	NA
BMS010_07735	1803	atzF		Allophanate hydrolase	ATGACCCACGAATTCGACCTGCGCCTCGACACCCTGCGAGCCGCCTACCGCGCCGGCACCACCTCCCCGCGCCAACTGATCGCCGCCCTGCGCGAAAAAGCCGCCGCCCTGAACCCGGAGTTCAACCTGTTCATCCACCTGCTGAGCCCGGACGAACTGGAGCCCTACCTCGCCGCCCTCGACGGCAAGTCGCTCGACGACCTGCCGCTGTACGGCGTGCCCTTCGCCATCAAGGACAACATCGACCTGGCCGGCGTCCCTACCACCGCCGCCTGCCCGGCGTTCGCCTACACCCCAGAACGCTCGGCCACGCTGGTGGACCAGTTGATCGCCCTCGGCGCGATTCCCCTGGGCAAGACCAACCTCGACCAGTTCGCCACCGGCCTCAACGGCACGCGTTCGCCCTACGGCGAATGCCGCAACAGTGTGCACCCTGGCTACCCCGCCGGCGGCTCCAGTGCCGGCTCCGCCCTGGCGGTGGCCCTGGGCGTGGCCAGCTTCGCCCTGGGCACCGATACCGCCGGCTCCGGCCGGGTGCCGGCGGCGCTGAACAACCTGCTCGGTCTGAAACCCAGCAAGGGGCTGCTCTCCACCGCCGGCGTGGTGCCGGCCTGCCGTACCCTGGACTGCGTTTCCTACTTCACCGCCAGCGCCCCCGAAGCCAGCCGACTGCTGGCCCTGACCGCCCGCGTCGATCCACGCGACGGCTACAGCCGCGCCAATCCGCTGTGGAACGACGCCAGCGCCTTCGGTGTACCGCGCCCCTTCCGTTTCGGCGTGCCGAAGCAGTTGGAATTCCTCGGCTGCACGGAGAGCCCGGCGCTGTTCGCCGCCACCGTCGAACACTTGAAAGCCCTGGGTGGCACACCGGTGGAGATCGACTTCGCTCCCTTCCTCGAGGCCGCCAAGCTGCTCTACGAAGGTCCCTGGGTGGCCGAGCGCTACAGCGTGGCCGGCGAGCTGATCGAACGTCAGCCCGACGCCGTGCTGCCGGTGATCCACGCGGTACTGGCCAAGGCACCCGGCACCACCGCGGTGGGTGCCTTCCGCGCCCAATACCGCCTGCAAGCCCTCAAGACCGAATGCGATCGCCTCATGGCCGAGGTGGATTGTGTGCTCACTCCGGCCTACCCACGCCCGGTCACCCTGGCCGAGCTGCACGCCGAACCGGTGGCACGCAACTCGGACCTGGGCTGGTACACCAATTTCATGAACATGCTCGACTATGCCGCCGTGGCGGTGCCGGCCGGCTTCATGCAGAACGGCCTGCCCTGGGGCGTGACCCTGTTCGGCCGCGTCTTCACCGACCAGTACCTGCTGAGCCTCGCCGACGCCCTGCAACGCCATACCGGCCTGCCGCTGGCCGGCGGACGGGCGCCGCAACTCGCCGCGCCGAGCGGCACCGCCCGCCACGACCGCGCCCGGGTGGTGGTCTGCGGCGCGCACCTCGATGGCCTGCCGCTCAACTGGCAACTCCGCCAGCGTGGCGGTCAGTTGCAGGAAGCGACGCGCAGCTCGCCGGACTACAAGCTCTATGCGCTGGCCGGCGGTCCACCCTTCCGGCCGGGCATGGTGCGGGTCGCCGAAGGCGGTGTGGCCATCGAAGTGGAAGTCTGGGACCTGCCCAGCGCGGAGCTGGGCTCGTTCCTCACCGGCATCCCGGCGCCCCTCGGGCTCGGCAAGGTGCAACTGGCCGACGGCCGCTGGGAAACCGGCTTCATCTGCGAACCCTATGGCCTGGAAGGCGCCGAGGACATCACCCACTTCGGCGGCTGGCGTGCCTATCTGCGCAGCAAAGGCTGA	MTHEFDLRLDTLRAAYRAGTTSPRQLIAALREKAAALNPEFNLFIHLLSPDELEPYLAALDGKSLDDLPLYGVPFAIKDNIDLAGVPTTAACPAFAYTPERSATLVDQLIALGAIPLGKTNLDQFATGLNGTRSPYGECRNSVHPGYPAGGSSAGSALAVALGVASFALGTDTAGSGRVPAALNNLLGLKPSKGLLSTAGVVPACRTLDCVSYFTASAPEASRLLALTARVDPRDGYSRANPLWNDASAFGVPRPFRFGVPKQLEFLGCTESPALFAATVEHLKALGGTPVEIDFAPFLEAAKLLYEGPWVAERYSVAGELIERQPDAVLPVIHAVLAKAPGTTAVGAFRAQYRLQALKTECDRLMAEVDCVLTPAYPRPVTLAELHAEPVARNSDLGWYTNFMNMLDYAAVAVPAGFMQNGLPWGVTLFGRVFTDQYLLSLADALQRHTGLPLAGGRAPQLAAPSGTARHDRARVVVCGAHLDGLPLNWQLRQRGGQLQEATRSSPDYKLYALAGGPPFRPGMVRVAEGGVAIEVEVWDLPSAELGSFLTGIPAPLGLGKVQLADGRWETGFICEPYGLEGAEDITHFGGWRAYLRSKG	PGPT0001010_419	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_ATRAZINE|DERIVATE_DEGRADATION	XENOBIOTIC_CYANURIC_ACID_DEGRADATION,PGPT0001010-atzF-K01457	NA	NA
BMS010_07736	1074			hypothetical protein	ATGACGCTCACCCGCGACCAGGCCCAGCACCGGGCCGACGACATCCAGGCATTCTACCGCGAGATCGAACGCTTGCATCGCGAACGCGCCCTGCTGCTGGAACCCGAGCAGTTGGACCGCCTCGCCGAGCACCACCAGGGCCTGCTCAGCGAATACCGCAAGGCCTACGACATCGACCAGGACAACCAGGCCAAGCGCCTGTCCCTGGGCATGCGCATCACCTCGCTGCTCGGCGCCCTGGCGTTGGCGGCCAGCCTGCTGTTCCTGTTCTACCAGTTCTGGGGGCTGTTCAGCGAAACCGCCCAGGTGGCCATTCTCGTCGGTGCGTCCCTGGGCAGCCTGCTGGCCACCTTCTGGGTCCGCAGCCGCGACGACTCCGGCTATTTCACCAAGTTGGCCGCCATGCTGGCCTTCGCCTGCTTCGTGCTGAACCTGGTCATGCTCGGGCAGATCTTCAACATCACGCCGTCGGACAAGGCCCTGCTGGCCTGGGCCGCACTGGGCCTGCTGCTGGCCTACAGTTGCGATGCGCGCCTGCTGCTGGCCGCCGGGCTGATCGCCCTGCTCGCCTTCATCGCCGCACGGGTCGGCACCTGGGGCGGTCTCTACTGGCTGGACATGGGCGAGCGCCCCGAACACTTCCTGCCCGCCGGCCTGCTGATCTTCAGCGTGCCTCTGCTGGTCTCGCAGCAGCGCTACAGTGGCTTCGCCACGATCTATCGGGTATTCGGCCTGCTCGCCCTGTTCCTGCCGATCCTGGTCCTGGCCAACTGGGGACGCGCCAGCTACCTGCGGCTCGACAGCAGCGTCATCGAAGGCGGCTATCAGGTGCTCGGCTTCCTGCTCGCCGCCATCGCCATCTGGCTCGGCAACCGCCGCGACTGGCCGGACGTGGTGAACACCGGGCTGACCTTCTTCGTCATCTTCCTCTACACCAAGCTGTTCGACTGGTGGTGGGAGAGCATGCCGAAGTACTTGTTCTTCCTCGTCCTCGGGCTGACCGCCGTGCTGCTTCTGCTGATCCTGCGGCGCCTGCGCCTGAACCATGGCCGCAACGGAGGGCAGCCGGCATGA	MTLTRDQAQHRADDIQAFYREIERLHRERALLLEPEQLDRLAEHHQGLLSEYRKAYDIDQDNQAKRLSLGMRITSLLGALALAASLLFLFYQFWGLFSETAQVAILVGASLGSLLATFWVRSRDDSGYFTKLAAMLAFACFVLNLVMLGQIFNITPSDKALLAWAALGLLLAYSCDARLLLAAGLIALLAFIAARVGTWGGLYWLDMGERPEHFLPAGLLIFSVPLLVSQQRYSGFATIYRVFGLLALFLPILVLANWGRASYLRLDSSVIEGGYQVLGFLLAAIAIWLGNRRDWPDVVNTGLTFFVIFLYTKLFDWWWESMPKYLFFLVLGLTAVLLLLILRRLRLNHGRNGGQPA				NA	NA	NA	NA	NA
BMS010_07737	801			hypothetical protein	ATGAAGGGACCTAATCGCACCTGGGGCCTCCTGGCTTGTCTCGGACTGGTTCTGGCGGCTAACGCCGTCGCGCTCGGCGGAGTCTGGTACAACCGCTCGGTCGAACCGGACAGCCGCCTGAGCCTGAGCGAACGCGAGTTGCGCCCAGCCTATTCGTTCGCCCGGGAGAACAGCGGCATCGCCCTGAATCTCAACTGGCGCCGGCCGAGCACGCCGGACAGCCCGCACGGTTACGATCGGGCGTCGTTGAACGAAGAGCAGATGCTCGCCCTGGGCTTCAGCGCGGATGACTACGCCAGGGATTCGCGACAGCTATCGCGGGAGGTGCTGGTGGTGCTGGAGCTGGACGGCCCGGCCTATCAGGAGGAACTGCGCCGCCAGCAACAGCGGCTGGAGCGGGCGCAAGCCCTTCTCAAGACCCGCCCGATGGATGCCGAACTGGAAAGACAACTGGAGTTCGCCCGCACCTCCGTGGAACAGGAGCGGACCAGCGCGAGCCGCCTGTTCGCCATCGACGTCGGCCTGGACCCGGACGCACTTCGCCAGCGCTACCCGGACCGGCGCCGCTACGCCATCGTGCGTGCCCTGGTCCATCCCTGGTTCGAAGGCAATCCCCTACGCCTGACCGGTCAGGTCAGCCGCCTCAGTGTCGAGGAAATCCACGTGCCCTACGCCTGGCGCGAGCGCTTCCGCCAGCAGTTGGCGAAGGACGGCCGTCATGCCTATCAGGTCGAGGTCGCCATCGGTCGCCGCATGGAGCCCTGGATCACCACGGTGCGCCATCGGAACGATGCGGATTGA	MKGPNRTWGLLACLGLVLAANAVALGGVWYNRSVEPDSRLSLSERELRPAYSFARENSGIALNLNWRRPSTPDSPHGYDRASLNEEQMLALGFSADDYARDSRQLSREVLVVLELDGPAYQEELRRQQQRLERAQALLKTRPMDAELERQLEFARTSVEQERTSASRLFAIDVGLDPDALRQRYPDRRRYAIVRALVHPWFEGNPLRLTGQVSRLSVEEIHVPYAWRERFRQQLAKDGRHAYQVEVAIGRRMEPWITTVRHRNDAD				NA	NA	NA	NA	NA
BMS010_07738	252			hypothetical protein	ATGGCGATCTCTTCCCGGCTCGCCTTGCACATGAACGACACCACCCGGCATTGCCCGCTCTGCGGCCAACCCAACGACTGCGCCCTGGCCGACGATGCATCCGGCCAGACGAGATGCTGGTGCTTCGATACCCGTGTCGATCCCGCCGCCCTGGAGCGGCTCCCCGCCGAAAGCCGTGGCAAGGTGTGCCTCTGCCCACGCTGCGCCCAAGGCAAGGCCAGCACCTCACCGGACGACGAGCAGGACAGCTGA	MAISSRLALHMNDTTRHCPLCGQPNDCALADDASGQTRCWCFDTRVDPAALERLPAESRGKVCLCPRCAQGKASTSPDDEQDS				NA	NA	NA	NA	NA
BMS010_07739	693	rsuA	COG1187	Ribosomal small subunit pseudouridine synthase A	ATGCGCCTGGATCGCTTCCTCGGCAACCTTCCCGACGTCAGCCGCCAGGATGCCCGCCGTCTGTTGGTCGAGCGCCGGGTACGGGTGGATGGCGAAGCCATCGTCGATGGCCGGCATGAGGTGCGAGTGTTCAACCGCATCGAGGTCGACGGCGCAGTACTGCAAGCCGGCAAGCCCGCGCGCTACTTCATGTTGCACAAGCCGGCCGGCTGGGTCAGCGCGACCCGGCATCCCGAGCATCCGACCGTGCTTGATCTGCTGGACGAAGCGGACAAGGACGACCTGCACCTCGGCGGCCGGCTCGACCTGACCACCACCGGGCTGCTGCTGATCACCAACGACGGGCTCTGGTCGCGCCGCCTGACCCAGCCGAAGACGCGTCTGCCGAAGGTTTACTACGTGGAGACCGAAGACCCGATCGCGCCGGAGTATGCCGAAACCTTCGCCAGGGGCCTGTACTTCGCCTACGAAGACCTCACCACCCTGCCCGCCGAGCTGATCGTGCTCGACCGCCGCGCGGCGCGCCTGACGCTCTATGAGGGGCGTTACCACCAGGTGAAGCGGATGTTCGGCCACTTCCGCAACAAGGTGACGCGCCTGCACCGCGAACGCATGGGGCCGCTGGTGCTCGACCCTGGCCTGGCTCCGGGCCAGTACAGGGCCTTGAGCCCCGACGAAATCATGGCCATTTGA	MRLDRFLGNLPDVSRQDARRLLVERRVRVDGEAIVDGRHEVRVFNRIEVDGAVLQAGKPARYFMLHKPAGWVSATRHPEHPTVLDLLDEADKDDLHLGGRLDLTTTGLLLITNDGLWSRRLTQPKTRLPKVYYVETEDPIAPEYAETFARGLYFAYEDLTTLPAELIVLDRRAARLTLYEGRYHQVKRMFGHFRNKVTRLHRERMGPLVLDPGLAPGQYRALSPDEIMAI				NA	NA	NA	NA	NA
BMS010_07740	885	rhlA		3-(3-hydroxydecanoyloxy)decanoate synthase	ATGAGGCCAGAAATCGCCGTGCTGGATATCCAGGGGCAACATCGGGTTTACACGGAGTTCTATCGCAGCGAAACCGCGGAGAAGACCATCGTTCTGGTCAACGGTTCGCTGGCTACGACAGCCTCTTTCGCACAGACGGTGCGTTATCTCCATCCGCATTTCAACGTGGTGCTGTATGACCAGCCCTATGCGGGGCAATCGAAACCGCACAACCTCAACCACCACCCGATCCGCAAGGAAGACGAGGCCGCGATCCTGCTGGAATTGATCGAGCATTTCGCCGCCGAACACGTGCTGTCGTTCTCCTGGGGCGGCGCGGCGACCCTGCTGGCGCTGGCCCAGCGTCCGCGGCGCATCGAGAAGGCGATCCTCAGCTCGTTCTCCCCGTTGGTCAACGCAGCGATGCGCGACTACCTGGAGCGCGGCGTCCAGGTCCTGGGAGCCTGCGACCGCCCTGGCGTGGGCCACCTGATCAACAGCACCATCGGCAAGTACCTGCCGTCGCTGTTCAAGCGCTACAACTTCCGCCACGTGAGCAGCCTGGCCGAGCACGAATACGCGCAGATGCACTTCCACATCAGCGAGGTGCTGGAACTGATCAACGCCCAGTACTACACCCGCTGCGCCGACGCGATCGACATTCCGATGCTGTTCGTCAACGGCGAATGGGACGAGTACACCACGCCCGAAGATGCCCGGCTGTTCGGTACGCATCTGTGCAAGGCGCAGTTCCGCACCATCGACAACGCCGGCCACTTCCTCGACATGGAACACAAGAGCGCCTTGCAGCAGACCCGCGATGCCTTGCTCGGCTTCCTCCAATCCACCCCGAGCCTGGCCAGGCCCCGGACCCTGGCCGTGGAAAGCCACGCGCTGGCCAGTTGA	MRPEIAVLDIQGQHRVYTEFYRSETAEKTIVLVNGSLATTASFAQTVRYLHPHFNVVLYDQPYAGQSKPHNLNHHPIRKEDEAAILLELIEHFAAEHVLSFSWGGAATLLALAQRPRRIEKAILSSFSPLVNAAMRDYLERGVQVLGACDRPGVGHLINSTIGKYLPSLFKRYNFRHVSSLAEHEYAQMHFHISEVLELINAQYYTRCADAIDIPMLFVNGEWDEYTTPEDARLFGTHLCKAQFRTIDNAGHFLDMEHKSALQQTRDALLGFLQSTPSLARPRTLAVESHALAS	PGPT0006830_116	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI-1_RhlI|CepI|SolI_PERCIPITATION|SIGNALLING|AHL|NAHL,PGPT0006830-rhlA-K18100	NA	NA
BMS010_07741	1497			hypothetical protein	ATGAGACAGATTGGGAACACATTGAAGGTCAGCCTGCTGGCCCTCGCCATCAGCGGCTGCGCGGTTACCAGCCAGCCGATCGAGCGCAGCGAAAGCGAGCAGCGGGCCAAGGCGGACCTAGCGGCGATGTTCAAGGATCAGGAACCCCTGAGCGGGCCGCTGACCTTGCACGAGGCCATGGCTCGCGCGGTGAAGTACAATCTGGAGGCTCGCCTCAAGGTGATGGAGGAGGCAGTGGCCCAGCGCCAACTGGACCTCGCCCGCTTCGACATGTTGCCGCGCATCGCCGCCGAGGCTGGCTATGCCGGTCGCAACAACGTCAGTGCTTCCAGCAGCCGCAGCGTGAGGACCGGCACCCAGTCCCTGGAGCCGTCGACCTCGCAGGATCGCGACCGTGAGGTGGCGGACCTGACCATGGTCTGGAACGTGCTGGACTTCGGGGTCGCCTATGTCAGCGCCAAGCAGCAGGCCGACCAGCGCCTGATCGTCCAGGAGCGGCGGCGCAAGGTGCTACACACCATCATCCAGGACGTACGTTCGGCCTACTGGCGCGCACTGGCTGCCGAGCGCCTGCTGACCCAGATCGACACGCTGATGGCGCGGGTGGACGAGGCGCGGGCCAACAGCGAGCGGATGAGCGAGCAGCGCATCGGCGATCCGGTGCAGGCGCTCAGCTACCAGCGCGCCCTGATCGAGGCGACCCGTCAGTTGGAGGAGCAGCGCCGTGCGCTGTCCCTGGCGAAAACCGAACTGGCGACCCTGATCAATCTGCCACTGGGCACCGAGGTCCAACTGGCCGAGGCGCAGGGCGACTATCCGGTGCCGGAGCTGAAGATCGACCTCCCCACCCTGGAACAGGAAGCGCTGGCCAGCCGGCCGGAGCTGCGCGAGCAGGATTACCAGGCGCGCATCAGCGCGGCGGAGACCCGCAAGGCCATGCTGCGGCTGCTGCCGGGGCTGGAGTTCTCCGCCGGCGGGCATTACGACAGCAACTCGTTCCTGGTGAACCAGAGCTGGGCCGATTACGGTGTGAAGATCACCTGGAACCTGTTCAACGTGATGTCCGCGCCGGCTGCCATCGATGTCGCCAAGGCGGGCGAGCAAGTGGCCAGCGCGCGCCGCCAGGCGATGTCCATGGCGGTGCTGGCACAGCTCTACGTGGCCAACGCGAATTACCAGGAAGCGCTGCGCCAGTTCCAGACCAGCCAGCAACTGGCCGGGCTCGACGAGCGCATCGGCGAGCAACTGCGCAATCGCTACCAGGCCAATGGTATCGGCGAGCTGGAGTTGATCCAGGGCGAATTGAACACGCTGCAGGCCCGCTTGCGGCGCGACCTGGCCTACGCCGAGCTGCGCAATGCCTATGGTCAGGTGTTCGCCAGTGTCGGTCTGGACCCGTTGCCGAGCCAGGTTCAGTCGGATCGACTGGAAGACATCGCCTCGGCCCTGGCCGCTCGGGAGGCGCGCTGGGAGCAAGGAGACATCCGACCGCAGTGA	MRQIGNTLKVSLLALAISGCAVTSQPIERSESEQRAKADLAAMFKDQEPLSGPLTLHEAMARAVKYNLEARLKVMEEAVAQRQLDLARFDMLPRIAAEAGYAGRNNVSASSSRSVRTGTQSLEPSTSQDRDREVADLTMVWNVLDFGVAYVSAKQQADQRLIVQERRRKVLHTIIQDVRSAYWRALAAERLLTQIDTLMARVDEARANSERMSEQRIGDPVQALSYQRALIEATRQLEEQRRALSLAKTELATLINLPLGTEVQLAEAQGDYPVPELKIDLPTLEQEALASRPELREQDYQARISAAETRKAMLRLLPGLEFSAGGHYDSNSFLVNQSWADYGVKITWNLFNVMSAPAAIDVAKAGEQVASARRQAMSMAVLAQLYVANANYQEALRQFQTSQQLAGLDERIGEQLRNRYQANGIGELELIQGELNTLQARLRRDLAYAELRNAYGQVFASVGLDPLPSQVQSDRLEDIASALAAREARWEQGDIRPQ	PGPT0003600_880	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-AlgE-TYPE_MANNURONAN_C-5-EPIMERASE_TRANSPORT,PGPT0003600-tolC-K12340	NA	NA
BMS010_07742	2880			hypothetical protein	GTGAATTTCAGCGAGACGATCATCGTCGACACCAGCGGCGGTACGCCGCGCATCGCGGTGACCCTGGACACCGGCGGCACGGTGTTCGCCGAGTACGTCGCCGGTTCCGGCAGCTCGGCGCTGGTGTTCCGCTTGACGGTGGCCAGTGGGCAACTGGATAGCAACGGCATCACCCTGGGCGGGAGCATCCAGGCTAACGGCGGCACGCTGCGCGACGCCGTGGGCAACGATGCGACGATCACGCTGAATAGCGTGGGCTCGACCAGCGGGGTGCTGGTGGATGCGGTGGTTCCGGTGGTGGCTTCGGTGAGCGTGCCGGCCAACGGCGCGTACAGCGCGGGGGACGTGCTGTCCTTCACGATCAATGCCAGCGAGACGGTGGTGGTGAACACCGCTGGCGGCACGCCACGATTGGCGCTGGATATCGGCGGGGTGACCCGCTACGCGACCTACGTGTCCGGTTCGGGCACGGGGGCGCTGGTGTTCCAGTACAACGTGCAGGCCGGCGACACCGACGCCGACGGCATCGCCGTCACCGGCCTGGAGACCAACGGCGGCACGCTGCGCGACGCGGCAGGCAACGGTGCCGACCTGACCCTGAACAACGTGGCGCCGACCAGCGGCGTGACCATCGACACCACCGCCCCGACAGCGACCGGCCTGGTGCGGGTGGACGCGACGCCGACCACGGCGGACAGCGTGCGCTTCACCCTGACCTTCAGCGAAGGCGTGAGCGGGGTGGACCTCGGCGACTTCAGCCTGATCACCACCGGCACGGCCAGCGGGGTGATTCAGTCCATCGTGCAGGTGGACGCGCAGACCTACCAGATCACCGTCGGCAACCTGAGTGGCGACGGCAGCCTGGGGCTGAACCTGAACGGTTCCGGCACCGGCATCGTCGACCAGGCGGGCAACGACGTGGCGGCGGGGCTGACTGGTGAAGCCTATGTGCTGGACAACAGCGCACCGGCCGTGACCTCGGTGACTGTCCCGGCCAACGGCACCTACGTGGCGGGACAGAACCTCGACTTCACGGTGAATTTCAGCGAGACGATCATCGTCGACACCAGCGGCGGTACGCCGCGCATCGCGGTGACCCTGGATACCGGCGGCACGGTGTTCGCCGAGTACGTCGCCGGTTCCGGCAGCTCGGCGCTGGTGTTCCGCCTGACGGTGGCCAGTGGGCAACTGGATAGCAACGGCATCACCCTGGGCGGGAGCATCCAGGCCAACGGCGGCATGCTGCGCGACGCTGTGGGCAACGATGCGACGATCACGCTGAACAGCGTGGGCTCGACCAGCGGGGTGCTGGTGGATGCGGTGGTTCCGGTGGTGGCTTCGGTGAGCGTCCCGGCCAACGGTGCGTACAACGCGGGCGACGTGCTGACCTTCACGGTCAATGCCAGCGAGACGGTGGTGGTGAACACCGCTGGCGGCACGCCACGATTGGCGCTGGATATCGGCGGGGTGACCCGCTATGCGACCTACGTGTCCGGTTCGGGCACGGGGGCGCTGGTGTTCCAGTACAGCGTGCAGGCCGGCGACACCGACGCCGACGGCATCGCCGTCACCGGCCTGGAGACCAACGGCGGCACGCTGCGCGACGCGGCAGGCAACGGTGCCGACCTGACCCTGAACAACGTGGCGCCGACCAGCGGCGTGACCATCGACACCACCGCCCCGACAGCGACCGGCCTGGTGCGGGTGGACGCGACGCCGACCACGGCGGACAGCGTGCGCTTCACCCTGACCTTCAGCGAAGGCGTGAGCGGGGTGGACCTCGGCGACTTCAGCCTGATCACCACCGGCACGGCCAGCGGGGTGATCCAGTCCATCGTGCAGGTGGACGCGCAGACCTACCAGATCACCGTCGGCAACCTGAGCGGCGACGGCAGCCTGGGGCTGAACCTGAACGGTTCCGGCACCGGCATCGTCGACCAGGCGGGCAACGACGTGGCGGCGGGGCTGACCGGTGAAGCCTATGTGCTGGATAACACCGGGCCGGCCGTTTCGTCGGTGGGCTTGCCGGCCAATGCGGTCTACGCACAGGGGCAGGTGCTGGAGTTCACCGTCGCCTTCGATGACGCCGTGACGGTGGATACGTCGGGCGGCGTGCCGCGTATCGTCATCCACCTGGATACCGGTGGAACCGTCTATGCGAACTACGTTTCGGGCTCCGGCGGTAATGTGCTGACCTTCCGTTACCAAGTGGACTTCGGCCAGGTGGACCAGACGGGTATCACCCTGGGCAATGCCATCGATGCGAACGGCGGGGGGCTCAGCGACAGCATCGGTAATGCGGCGAACCTGGCGTTGGGCAGCCTGCCCTCGACTGCGGGAATCCAGGTGAACGCGCCGGTATTGCCGGATGGCGGCGATCCGGAATTCCGTATCCAGCCATCGCCGCCGCCGATCGAGGTACCTCTGGTACCGAAACCGGTGGTGCCGGGTGTCACCATGCCGCCGCCGCTGTTCGAGATTCCTACGTTGGGCAGCGATGTGCCCACCCTGGGCAATGTCTTCACCGGTGGCAGTGCGGTCGCGCCGAGCTTCTTCGCCCAGCTGTTCAACAACGACAGTTTCGGCGATGGCGGCGGCAAGGGCTTCCTGGGCTTCGGTGGTGGGGACGCCGGCATTTTCACCAGCAGCACCCTGTCGATGGTGTTCGACCGCGACGTGCCGCAGGAAGGCAGCCTGCTGCGTGTGTTCGACGGCAAGCAGTGGCGTGGGGGAAGCGACATCAATGACGGTGTGCGAGGCGTTTTCGGAGCACCCAGCCTCGGACAGCAATTGCAGGAACTGAATGACCAGGAGCAGCGCCGGATCACCGATCTGGCCTGGGCGTTGGGGCAGGTTGGTGAAGCCGAGCAGCAGGCCTGA	MNFSETIIVDTSGGTPRIAVTLDTGGTVFAEYVAGSGSSALVFRLTVASGQLDSNGITLGGSIQANGGTLRDAVGNDATITLNSVGSTSGVLVDAVVPVVASVSVPANGAYSAGDVLSFTINASETVVVNTAGGTPRLALDIGGVTRYATYVSGSGTGALVFQYNVQAGDTDADGIAVTGLETNGGTLRDAAGNGADLTLNNVAPTSGVTIDTTAPTATGLVRVDATPTTADSVRFTLTFSEGVSGVDLGDFSLITTGTASGVIQSIVQVDAQTYQITVGNLSGDGSLGLNLNGSGTGIVDQAGNDVAAGLTGEAYVLDNSAPAVTSVTVPANGTYVAGQNLDFTVNFSETIIVDTSGGTPRIAVTLDTGGTVFAEYVAGSGSSALVFRLTVASGQLDSNGITLGGSIQANGGMLRDAVGNDATITLNSVGSTSGVLVDAVVPVVASVSVPANGAYNAGDVLTFTVNASETVVVNTAGGTPRLALDIGGVTRYATYVSGSGTGALVFQYSVQAGDTDADGIAVTGLETNGGTLRDAAGNGADLTLNNVAPTSGVTIDTTAPTATGLVRVDATPTTADSVRFTLTFSEGVSGVDLGDFSLITTGTASGVIQSIVQVDAQTYQITVGNLSGDGSLGLNLNGSGTGIVDQAGNDVAAGLTGEAYVLDNTGPAVSSVGLPANAVYAQGQVLEFTVAFDDAVTVDTSGGVPRIVIHLDTGGTVYANYVSGSGGNVLTFRYQVDFGQVDQTGITLGNAIDANGGGLSDSIGNAANLALGSLPSTAGIQVNAPVLPDGGDPEFRIQPSPPPIEVPLVPKPVVPGVTMPPPLFEIPTLGSDVPTLGNVFTGGSAVAPSFFAQLFNNDSFGDGGGKGFLGFGGGDAGIFTSSTLSMVFDRDVPQEGSLLRVFDGKQWRGGSDINDGVRGVFGAPSLGQQLQELNDQEQRRITDLAWALGQVGEAEQQA	PGPT0022155_537	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_V_SECRETION_SYSTEMS	CE-T5c_TRIMERIC_AUTOTRANSPORTER_ADHESINS-SECRETION,PGPT0022155-ata|sadA|emaA-K21449	NA	NA
BMS010_07743	4212			hypothetical protein	ATGAAGTGGTTGGATCTCTGGCGGGGCCTGTCCCGGTCGAGACAGGCGGAACGTCCCCAACCGGCTGCGGCCCGTTCGCCGCTGGCACTTTCCCTGGAGCCGCGCATGCTGTTCGACGGCGCCGTGGCGGCCACCGCCGTTGAGGTGGCGGACAGCGCCTCGGCTGCCAGCGACCCGGCTTCCGATGACACCTCCCAGCAGGATACCCAGGACACCCTCGCCACCGCCGGCGGAACCGCCGATACCCGGCGTGAGGTGGTGTTCGTCGATGGCAATATTCAGGATTACCAGCAACTGCTCGCGGGCCTGCCGGCGGGCACCGAGGTGGTGGTGCTGGACGCCTCGCGCAACGGTCTGGAACAGATGGCCGACTACCTGGAAGGCCGCGAGGGTATCGATGCGATCCACCTGCTCTCCCATGGCGAGAGCGGGGCGTTCAAGGCCGGCAATGCTTGGATCGATGCCGGCGATCTGGCCGGCCAGAGCGAAACCCTGGCGCGTATCGGCGAAGCGCTGAGCGCAGACGGCGACATCCTTCTCTATGGCTGCAAGACCGGTGACGGTGCGTCCGGTGCAGCATTGGTCACGGAGCTGGCGCGGCTGACCCAAGCCGACGTGGCGGCTTCCTCCGACAACACCGGCGCGGTACGTCTCGGCGGCGACTGGGTGCTGGAGACCCGGGCGGGGGATATCGAGACTGCGGCCATTGCTGTGTCCGGCTTCGATGCGTTGCTGGCGGCGCCGACCACCTTGGATTTCGACAGTGTGGTGGTCGATGGTGGGGGTTATAGCCTGGGCAGCAGCCCGCGTGTCTTCGATGGCTGGACCGTCAGGTTGCTGGACTCGACGGGATCGAACGTCACCGGCACTTCATTCCTCGATATTTCCGCCAATTCGGGCGACTCCCCGATCATCGCGGGTGGAGGCGACAAGGCGCTTTTCGCCAACGGCGAATTCGGTATCGTAAAGTTCCTGCAATTCGCCGCCACCGACGGCAGCGAATTCAAATTGGATTCGTTCACCGTATCCAACCCTGGCTTGATGGCGCCGAACCTGCAGGTGATCGGGTACCGCGACGGCGTCCAGGTCGCCACGCAGAATTTCACGTTAGCGCAAGATGGCAGTTTGCTTACCGTAAACCTCAGCGGAGCGGCATGGCAATACATAGACGCGTTCCGGATCGTTCAGCAGGACAATACTTCCGATATCCAGTTGTGGATCGATGACATCAATGTCTCTCCCGCCATCGTGCCCAACGTAGCCCCGGTAGTCGGCAATCTCAACGGCGATAGCGCCTCCTTCATCGAAGAAGGTGGTGCCGTTCTGCTGGACTCCGGCAGCGGTGCGACCGTGGTCGACAGCGATTCGGCCGATTTCAACGGCGGCAACATCACCGTCGCCATCACTGCCAACCGGGTAGCCGGCGAAGACGTACTGTCCGTCCGCAACCAGAGTTCCGGAGCGGGGCAGGTCGGGCTGAGCGGCAGCGCCGTGCTGTACGGCGGTGTACAGGTCGGCACCCTCGTTGGCGGTACGGGTATCACGAACATGGTGATCAGCCTGAACGCCCAGGCGACGCCGGAGGCGGTGCAGGCGATCCTGCGCAACCTGACCTACAACAACACCAACACGACCGACCCATCGACCTCCAGCCGGAGCATCCAAGTCAGCGTCAACGATGGCGACGGCGGCACCAGCAACCTGTCCGTCGTCACCGTGAGCGTCACTGGCGTCAACGATGCCCCCACCGCGAGCGCCACCGGCGGTACGCCGACCTTTACCGAAAACGGCAGTGCAGTGGATCTGTTCAGCGGCGTCAGCATCAGCGCCGTCGAATCCGGCCAGAGCATCACCGGCATGACCCTGACGGTGACCAACCTGGCCGATGGCGCCAGCGAAATCCTGCGCATCGATGGCACCGACATCACCCTGACGAACGGTTTTTCCACCACCACCTCCACCAACGCCATGATCGTGACGGTCAGCATGGTGGGCGGTACCGCGACCGTCACGCTGAGCAAGGCGGGCGGCATCAGTGGCGCCAACGCGCAAACCCTGGTGGACGGCATCACCTACCGCAACGCCAGCGATACGCCCTCGACCGCGGCCAATCGCGTCGTCACCCTGGCCAGCATCAGCGATAGCGGCGGTACGGCCAACGGTGGTGCCGATACCACCAGCCTGTCCATTGCAGCCACCGTGACCGTGGTGGCGACGGACGACCCTTCGACCGTATCCACCAGCGGCGGTACCACCGCCTTCACCGAGGGCGCCGGCGCGGTGGCCATCGATTCGGGCCTGACCCTGTCCGACCCCGACAGTGCGAGCCTGACCAGTGCCACCGTGAGCATCACCGGTAACTTCATGTCCGGCCAGGACGTGCTGGCCTTCGTCAACAACGGTTCGACGATGGGCAATATCACCGGCAGCTACAACGCGGCCACCGGCGTGCTGACCCTGACCTCGGCGGGCGGTAGCGCGACCCTGGCCCAGTGGCAGGCGGCGCTGCGCAGCGTGACCTACAGCAACACGTCGGACCTGCCGAACACCAGCGCCCGCACCGTCAGCATCGTGGTCAACGACGGTACCTCCGACAGCAACACCGCGACCAAGGCGATCAGCGTCACCGCCACCAACGATGCGCCGGTGATCACGGCTCCGGCCAGCCGCACTGTGACCGAGGATGTGGCCAGTGCGCTGACCGGTATCAGCTTCAGCGATGTGGATGCCGGCTCCAGCTCGGTCACGGTGACGTTCTCGGTGCCCAGTGGCAGCTTGTCCGCGACCAGCGGAGGTGGCGTGATCGTGGGGGGCACCAGCAGCGCGCTGACCCTGACCGGCAGTATCGCCAATATCAACGCCTTCATCGCCGCGAGCAGCCTGACCTTCACCACGGCGGCGAACGCCACGTCCAACGTGACCTTGACCGTGGGCATCAACGACGGCGGCAACACCGGTAGCGGCGGTGCGCAGACCGACAGCAGGACCGTGACCCTGCAGGTGGCGGCGGTCAACGATGCGCCGGTCATCAACGCGCCGGCGTCCATCAATGTGAACGAAGACGTGACTACGGTGCTGACCGGCATCACCGTCAGCGATGTGGATGCGGGCGCCGGCGAGATCGAGGCCACGATATCGGTCTCCTCGGGTACGCTGGTTCTTGCCGGTGACGACGTCGGCTCGAGCCTGGTCTTGGTAGGCGGTAACCTGCAGGACCTGAATGATTTCCTGGCGAGCGGCTTCCTCGCGTTCCGCACCGATGCCAATGCCACCGGTAATGCCGTGTTGACCATTGAAGTGGAGGATTTCGGCAATACCGGCAGCGGTGGCAGCAAGACCGATACCGCCACCGTGACCCTCGTGGTGACAGCGGTGAACGACGCGCCGGTGAACAGCCTGCCTCCCGCTCAGTCGGTAGATCAGGACGACGTGCTGATTTTCAGTTCCGGTAACGGCAACCCAATCAGCATCTCCGACGTGGATGCAGGCAGCGGCAACGTACGGGTCACGCTCACCGCCACCAATGGCCTGATTTCGCTGGGGGGCACTGCCGGCCTCAGCTTCACCGCGGGCGACGGCACGAGCGATGCCACCATGACTTTCGAGGGCACGCTGGCCGATATCAATGTGGCGCTGAACGGCATGTTCTTCCGGCCAACCCCAGGCTACAACGGGCCTGCGAGCCTGCAGATCGTTACCAACGACCTGGGGCTTTCCGGTTCCGGCGGCAACCAGATCGACAGCGATACCCTCGCGATCACCGTCAACACCCTCAACCCGGAGGTCACCTCGGTCAATACCACCAACCCGAATGGCGGCTACAAGGTGGGCGACACCATCCAGGTGACCGTGACCTTCGACCAGGCGGTGAATGTAGACACCTCAGGCGGCGTGCCGACCCTGCTGCTGGAAACCGGCAGCGTGGATCGCCTGGCGACCTACGTCTCGGGCTCGGGCAGCAATACCTTGACCTTCACCTATACGGTGCAGGCGGGCGATCTCAGTGCCGACCTGGATTACCAATCCACCAGCGCGCTGACCCTCAACGGCGCCACCATCCGCAGTGCGGACAACGACGATGCGGTGCTGACGCTGCCCACGGTCGGCGGCGCCGACTCCATCGCCGGGCAGCATGCGGTGATCATCGACGGCGTGGCGCCGACGGTCGCGTCGGTCAGCGTCCCGGCCAACGGCACTTACATCGCCGGGTAG	MKWLDLWRGLSRSRQAERPQPAAARSPLALSLEPRMLFDGAVAATAVEVADSASAASDPASDDTSQQDTQDTLATAGGTADTRREVVFVDGNIQDYQQLLAGLPAGTEVVVLDASRNGLEQMADYLEGREGIDAIHLLSHGESGAFKAGNAWIDAGDLAGQSETLARIGEALSADGDILLYGCKTGDGASGAALVTELARLTQADVAASSDNTGAVRLGGDWVLETRAGDIETAAIAVSGFDALLAAPTTLDFDSVVVDGGGYSLGSSPRVFDGWTVRLLDSTGSNVTGTSFLDISANSGDSPIIAGGGDKALFANGEFGIVKFLQFAATDGSEFKLDSFTVSNPGLMAPNLQVIGYRDGVQVATQNFTLAQDGSLLTVNLSGAAWQYIDAFRIVQQDNTSDIQLWIDDINVSPAIVPNVAPVVGNLNGDSASFIEEGGAVLLDSGSGATVVDSDSADFNGGNITVAITANRVAGEDVLSVRNQSSGAGQVGLSGSAVLYGGVQVGTLVGGTGITNMVISLNAQATPEAVQAILRNLTYNNTNTTDPSTSSRSIQVSVNDGDGGTSNLSVVTVSVTGVNDAPTASATGGTPTFTENGSAVDLFSGVSISAVESGQSITGMTLTVTNLADGASEILRIDGTDITLTNGFSTTTSTNAMIVTVSMVGGTATVTLSKAGGISGANAQTLVDGITYRNASDTPSTAANRVVTLASISDSGGTANGGADTTSLSIAATVTVVATDDPSTVSTSGGTTAFTEGAGAVAIDSGLTLSDPDSASLTSATVSITGNFMSGQDVLAFVNNGSTMGNITGSYNAATGVLTLTSAGGSATLAQWQAALRSVTYSNTSDLPNTSARTVSIVVNDGTSDSNTATKAISVTATNDAPVITAPASRTVTEDVASALTGISFSDVDAGSSSVTVTFSVPSGSLSATSGGGVIVGGTSSALTLTGSIANINAFIAASSLTFTTAANATSNVTLTVGINDGGNTGSGGAQTDSRTVTLQVAAVNDAPVINAPASINVNEDVTTVLTGITVSDVDAGAGEIEATISVSSGTLVLAGDDVGSSLVLVGGNLQDLNDFLASGFLAFRTDANATGNAVLTIEVEDFGNTGSGGSKTDTATVTLVVTAVNDAPVNSLPPAQSVDQDDVLIFSSGNGNPISISDVDAGSGNVRVTLTATNGLISLGGTAGLSFTAGDGTSDATMTFEGTLADINVALNGMFFRPTPGYNGPASLQIVTNDLGLSGSGGNQIDSDTLAITVNTLNPEVTSVNTTNPNGGYKVGDTIQVTVTFDQAVNVDTSGGVPTLLLETGSVDRLATYVSGSGSNTLTFTYTVQAGDLSADLDYQSTSALTLNGATIRSADNDDAVLTLPTVGGADSIAGQHAVIIDGVAPTVASVSVPANGTYIAG				NA	NA	NA	NA	NA
BMS010_07744	618			hypothetical protein	ATGAGCGAACCGTTCTTGGGTGAAATCCGCATGGTGGGATTCAACTTCGCGCCGCGCGGCTGGGCCTTCTGCCAGGGGCAGATCATGTCCATTGCGCAGAACACCGCGCTGTTTTCGCTGCTCGGCACCGTCTATGGCGGCAATGGCCAGACCACCTTCGGCCTGCCGGACCTGCGCGGACGTTCCCCGGTGGGGACGGGGCAGGGCGGAGGGTTGAGCGACATCGTGGTGGGCGAGATGTCCGGTCAAGAAAACGTGACCTTGCTGAGCAACCAGATGCCCGCGCACGGCCACACCCTGCCGGCCGAGAACGTGCCGGTGAGCGTGACCGGTCCGGTTGCGGTACCGGTATCCACCACTACCGCTTCCGTCGGCTCGCCCGCCAATGCGGTACCGGCGGCGCCCAGCAGTGGCGGTCGTCCATTCGCCATTTACAACAGCGCCCAGAGCGGCAGCGATACCTTGGCGCCTTTCGACGTGACCCTGACCGGCACGGCGGCGGTACCGGCCGGTGTAACCGGCGTTTCGGGCAACAACTTCCCGGTCCCGTTGCGTAACCCTTACATCGGCATCAACTTCGTGATCGCCCTGCAAGGGGTTTTCCCGTCGCGTAACTGA	MSEPFLGEIRMVGFNFAPRGWAFCQGQIMSIAQNTALFSLLGTVYGGNGQTTFGLPDLRGRSPVGTGQGGGLSDIVVGEMSGQENVTLLSNQMPAHGHTLPAENVPVSVTGPVAVPVSTTTASVGSPANAVPAAPSSGGRPFAIYNSAQSGSDTLAPFDVTLTGTAAVPAGVTGVSGNNFPVPLRNPYIGINFVIALQGVFPSRN				NA	NA	NA	NA	NA
BMS010_07745	342			hypothetical protein	ATGAAGGAGAACGACGAGACCATGGCAGCCATCACCCTCCGCGAACGCTTCGTCCGTGCCGAAGGCGAATCCTTCCAGTTGCTCCTGGCGCCCGGCCAGACGCTGGACGTGACCTTGCAAACGGTCGAAGAGCGCAAGGCGATGAACGTCCGCTACGAATGTTTTTCCCTGCTGTTCCTGTTGCCGGCTGAAGTGCAGCTGCCCCAGGCGGTGTACCGGCTGGGGCATGAAGGGGATTGCTGGGATCTGCTCATGACGCCCACCCGCCCCGACGAAACGGGACGCCAGGGCCTGGAAGCGATTTTCCATCGGGAGAAAGAGTCCGCGTTGCAGACCGTGTAA	MKENDETMAAITLRERFVRAEGESFQLLLAPGQTLDVTLQTVEERKAMNVRYECFSLLFLLPAEVQLPQAVYRLGHEGDCWDLLMTPTRPDETGRQGLEAIFHREKESALQTV				NA	NA	NA	NA	NA
BMS010_07746	501			hypothetical protein	ATGACCGCAGTTACTCTCCGTTTCCGCCCCATCGAGGTAGCCGACGAGGCTTTCCTGACCCATCTTTATGCGACCACGCGGGAGCAGGAACTGGCTCATAGCGGCTGGTCCGCCGAAGCCATCGCCGAATTCCTCGCCCAGCAGTTCAGACTCCAGCACCACTACTACCAAGAGCATTTCCCCGACGGCGAATTCTGGGTGATCGAAGCCGATACCCAGGCAATCGGCCGGCTCTACCTGTTCTGGGGCGAGACTACGCTACAACTCATCGATATCAGCCTGTTGCCGGACTACCGGGGACGTGGCGTGGGCGGCGCGTTGCTGCAGAACCTGCTGACCCTTGCCGATGCCCGCGGGCTGGCCGTCGGTCTGCACGTCGAGGAAGCCAACCCTGCGTTTCGCCTCTACCAACGGCTGGGTTTCGAGGTGGTGGGCGAGAGCGGTATCTATCTGGAAATGCGCCGCCCCGCCAGCGCCTCTCGAAAGACGGCCTGCGGATGA	MTAVTLRFRPIEVADEAFLTHLYATTREQELAHSGWSAEAIAEFLAQQFRLQHHYYQEHFPDGEFWVIEADTQAIGRLYLFWGETTLQLIDISLLPDYRGRGVGGALLQNLLTLADARGLAVGLHVEEANPAFRLYQRLGFEVVGESGIYLEMRRPASASRKTACG				NA	NA	NA	NA	NA
BMS010_07747	2100			hypothetical protein	ATGAACCTGCCGGCGTTGCGTCCCGATCTGCAGCTTTCCCCCGCCGAACCGGCGCTGGACGGTTCGCCGCAGTGGACCCTGGCCGACCCGGTGCGGGGGCGTTACTTCAAGTTGGGCAGTGCGGCCATGCGCCTGCTTCGGCACTGGGCGCAGGGCGAGGCGCGCCGGGTGCTGGCGGCGGCCAACCGCGAGCCCGGCGTTCCGCTGCAAGAGAGCGACCTGGAGGAACTGCTGCGCTTTCTGCGTGGGCACGATCTGATTTCGGCGGCGGACCCGGAGCAGCGCGCCAGCTACGAGACCAAGGCTGCGGCGCAGCGCCATGGACTATGGAAAACGCTGCTGCACCAGTACCTGTTCTTCCGCATCCCGCTGTGGCGCCCGAATGCCTTTCTCAATCGCGCCTGGCCGTGGCTGGAACGCCATGGCGGAGCATTGCTGCGCATTGGCCTGCCGTTGGTGCTGGTGTTGGGTGTGTTCCTGGTGGCGCGGGACTGGGAGCGCTTCCTGGCCACCTTCCCGCACCTGTTCAGCCTGGGCGGTGCGCTGGCGTTCGGCGTGGCGCTCGGTTTCGCCAAGCTGTGCCATGAGTTCGGCCATGCGTTCATGGCCAAGCGTGCCGGTTGCCGGGTGCAGAGCATGGGCGTGGCGTTCATGGTGCTGTTGCCGCTTTTCTATACCGATGTCAGCGATGCCTGGCGGGTCAACGACCGCCGTTCGCGGCTGCTGATCGGTGCCGGCGGCATCCTTGCGGAACTGGTCCTGGCCTGCGTCGCGCTGCTGGCCTGGTCGCTGCTGCCGGATGGCGCCTTGCGCACGGCAGCATTCATGCTGGCCAGCGCCACCTGGCTGACCACCCTGGCGGTGAACCTGAATCCGTTCATGCGCTTCGATGGCTATTTCCTGCTCAGCGACTTCTGGGGCGTGGATAACCTCCAAGGCCGCGCCTTCGCCCTGTGCCGCTGGCGCCTGCGCGAGTGGCTGTTCGGTTACGGCGAGCCGGCGCCGGAGCCGTTGCCGGCACCGCTGCGGCGCCGCCTGCTGTGGTGGGGCTACGGTTCGTGGCTGTGGCGTGCGGCGTTGTTCCTCGGTATCGCGCTGGCGGTGTATCACCTGTTCTTCAAGCTGCTCGGCATTTTCCTGATGCTGGTGGAGTTGGTCTGGTTCATCGGCCTGCCGATCGGGCGGGAGCTGGCCGAGTGGTGGACGCGCCGCCAACAGGCGCAGCGTTCCCGGGTGTTCGGCGCAGGTATCGGGATGCTTCTACTGCTGGCGGTGCTGGCGTTGCCTTGGCGCAGCGGGGTGGAGGTGCCGGCGCTGCTCGAGTCGGCGCGCAACAGCGCCCTGCACGCGCCGCTGCCGGCGCGCTTGAAGGCGCTGCATGTCCGCGACGGACAGCGGGTCGAGGCGGGCGACGTGCTGATCGAGCTGGAATCGCCGGACCTGGATGCCCGCCAGCGCATCATTCGCAGCGAGATCCAGATTCTCCAGTTGCAGTTGCGCCGCCAGGCGGGACGCAGCGAGACGGTGGCGGATGTGGGCATCCTCGATCAGCAACTGGCCGAGGCCCTGGCGGAATACCGCGGGTTGGCCGCGCAGCGCGCCCGTCTGGTGCTGCATGCGCCGCATGCCGGGGTGGTGCGCGACCTGTCGCGCGATCTGCGCCCTGGCCTCTGGCTGCCGCCGCAGATGCCGCTGGCGCGGGTGGTGGACGAGCGTCGGGTGCGCCTGCGCGGCTATCTCCAGGAGGAGTCGCTCTGGCGCGTCGAAGTCGGTGCCGAGGGCCGCTTCGTCGCCGACGACCCGTTGCGCCCGGCATTGCCGGTCCGGCTGGCCGAGGTGGCGGCGACCGGCGCGTCTTATCTGGACATCGAAGCGCTGGCGTCGGACCACCACGGGCCGATTGCGGTGCGTCGCGACGAACGGCAACAGGGCAAGCCGGTGCAGGCGCAGTACGCCGTACGCCTGGAGCCAATCGCCACCTATGAGCTGCCGGCCCAGCCGTTGCGAGGGTTGGTGGTGCTGGAGGGGCGGCGGGAATCCTTGCTGGGTGCGGCCTGGCGGCGTGCCGCTGCGCTGGGTGTGAGGGAAAGCGGCTTTTGA	MNLPALRPDLQLSPAEPALDGSPQWTLADPVRGRYFKLGSAAMRLLRHWAQGEARRVLAAANREPGVPLQESDLEELLRFLRGHDLISAADPEQRASYETKAAAQRHGLWKTLLHQYLFFRIPLWRPNAFLNRAWPWLERHGGALLRIGLPLVLVLGVFLVARDWERFLATFPHLFSLGGALAFGVALGFAKLCHEFGHAFMAKRAGCRVQSMGVAFMVLLPLFYTDVSDAWRVNDRRSRLLIGAGGILAELVLACVALLAWSLLPDGALRTAAFMLASATWLTTLAVNLNPFMRFDGYFLLSDFWGVDNLQGRAFALCRWRLREWLFGYGEPAPEPLPAPLRRRLLWWGYGSWLWRAALFLGIALAVYHLFFKLLGIFLMLVELVWFIGLPIGRELAEWWTRRQQAQRSRVFGAGIGMLLLLAVLALPWRSGVEVPALLESARNSALHAPLPARLKALHVRDGQRVEAGDVLIELESPDLDARQRIIRSEIQILQLQLRRQAGRSETVADVGILDQQLAEALAEYRGLAAQRARLVLHAPHAGVVRDLSRDLRPGLWLPPQMPLARVVDERRVRLRGYLQEESLWRVEVGAEGRFVADDPLRPALPVRLAEVAATGASYLDIEALASDHHGPIAVRRDERQQGKPVQAQYAVRLEPIATYELPAQPLRGLVVLEGRRESLLGAAWRRAAALGVRESGF				NA	NA	NA	NA	NA
BMS010_07748	1320			hypothetical protein	ATGAATGCGCCGATACCCGGCCTCGCCGAACGGGTGTTCGCCCAGTTCCTCGCGCTGGAACAGCAGGCGCGCGCCGCCGACACCCTGGATCGGCTCGCCTACAGCCTGGTCAATGATGCCCAGCCGTTGTTCGGCTACCGCCATGCGGCCCTGCTGATCGCCGGCAAGGTGCGGGCGCTGACCGGGGTCAGCGTGGTGGAGCCGAATGCGCCCTTCGTCGCCTTCGTCGAGCATACTTGTGCCCAGGTGGCGGCACAGGACGGGTTGGCCGAGGCGCGGGTCGTTTCGCCGGACGGGCTGGCCGCACAGGAGCGTGAGGATTGGCGCACGCTGTCCGCCCCGCAGGTGTTCTGGTTGCCCTTGAAGGATCGCCGCAAGGCCGTGTTCGGTGGGCTGTGGATGGCCCGCGAGCAGCCGTGGAGCGAGGCCGAGCAGGCGCTGCTGCGTCAACTCGGCGAGGCGTATGCCCACGCCTGGCTCGCCTTGCAGCCGCGCAAGCCCTGGCGGCTGCGCTGGCCGCGCAAGCGCCTGGCGTTGCTCGGGCTGGGGGCGTTGCTGGTGCTGTTGCTGCCGGTGCGGCAGTCGGTGTTGGCGCCGGCGGAGGTGGTGCCGCTGGGCGGACGGCTGGTTGCCGCGCCTTTGGATGGGGTGGTGGCCGAGTTTCTGGTGAAGCCCAATCAGCCGGTCAAGGCCGGCGATCTGCTGGTGCGCTTCGATGCCACGGCGCTGAAGGCCCAGGCGGACGTGGCCGAGCGTGCCCTCGGGGTCGCCGAGGCCGAGCTGAAGGCCAGTTCGCAGCGGGCGTTCAGCGATGCGGAGTCGAGTGCGCGGATCGATCTTTTGGCGGCGCGTGTCGAGCAGAAGCGCGCCGAACGCGACTACGCCCTCGACCTGTTGGCGCGTACCGATGTGCGGGCCGAGCGCGACGGCATCGCGGTGTTCGCCGACGCCGAGCGCTGGACCGGCAAACCGGTGCGCACGGGCGAGCAACTGCTGAAACTGGCCGATCCGACCCAGGCGGAGTTGCGCGTCGAGCTGCCGGTGGGGGACGCCATTGCGCTGGAGCCGGGCGCCGAGGTGGCGTTGTTCCTCGACAGCGATCCGCTGCACCGTTATCGCGCGACCTTGCAGCGCGCCGCCTACGAGGCCCAGCCGACGCCGGCCGGGCAACTGGCCTATCGCCTGGATGCCGGCTTCGAGGAAACGCCGCCGCGCATCGGACTGCGCGGCACAGCCAAGTTGTTCGGCCAGCGCGCTCCGCTGGCGGTCTACCTGCTGCGCCGTCCCCTGGCAGCACTGCGCCAGAGCGTGGGCTTCTGA	MNAPIPGLAERVFAQFLALEQQARAADTLDRLAYSLVNDAQPLFGYRHAALLIAGKVRALTGVSVVEPNAPFVAFVEHTCAQVAAQDGLAEARVVSPDGLAAQEREDWRTLSAPQVFWLPLKDRRKAVFGGLWMAREQPWSEAEQALLRQLGEAYAHAWLALQPRKPWRLRWPRKRLALLGLGALLVLLLPVRQSVLAPAEVVPLGGRLVAAPLDGVVAEFLVKPNQPVKAGDLLVRFDATALKAQADVAERALGVAEAELKASSQRAFSDAESSARIDLLAARVEQKRAERDYALDLLARTDVRAERDGIAVFADAERWTGKPVRTGEQLLKLADPTQAELRVELPVGDAIALEPGAEVALFLDSDPLHRYRATLQRAAYEAQPTPAGQLAYRLDAGFEETPPRIGLRGTAKLFGQRAPLAVYLLRRPLAALRQSVGF				NA	NA	NA	NA	NA
BMS010_07749	786	aaeA_2		p-hydroxybenzoic acid efflux pump subunit AaeA	ATGTACCGCATTGCTGTTTGGACCTGTGGTGTATGGCTGGCTGGTATGCCTCTGGTTCAGGCTGCACCGGTCGGGGAGGGCGATCCGCTGCTGGATGCTCCGCTGGCGACGCAGGCGGCCGCTGCCCAGGAGGCGCGGGGGGTGTTGCGGGCGCGGGATCAGGCGATGCTGGCCAGCGAGTTGGCCGGGCGTATCGTCGAGATGCCGTTCGCCGAGGGGCAGGCGTTTCGCAAGGGGGACGTGCTGGTCCGTTTCGATTGCAGCGCGTACCAGGCCCAGTTGAATGCCGCCCAGGCGGCGGTGCGGGCCGCGCGGGAAGAGCTGGCGCACAAGAAGCAGCTTGCCGCGCTCAATTCCGTGGGCCGTTTCGAGGTGGCGCTCGCCGAGGCGCGGCAGGCCCAGGCGCAGGCCGAGTCGCAGGTCTATCAGGTCCAGGTCAACCGCTGCACGGTGAAGGCGCCGTTCGACGGCCAGGTGGTGCAGCGCAAGGTCAAGCCCCACGAGAGCGTCGCCGGTGGCGCGCCGCTGCTGGAGATCGTCGACAACCGCACCCTGGAAATCCATCTGCTGGTGCCGTCCCGCTGGCTGGGCCAGCTCTTGGCCGGTCAATCCTTTACCTTCACGCCCGATGAAACCGGCCAGCCGCTGAGCGCCAAGGTGAAGCGCGTCGGTGCGCGGATCGACGAAGGCAGCCAGACGTTGCTGCTGATCGGCGAGCTGCCCGAGGAGCCGGCCGGGCTGCTGGCCGGCATGAGCGGCACGGCGCGCTTCGAGGCGACGCCATGA	MYRIAVWTCGVWLAGMPLVQAAPVGEGDPLLDAPLATQAAAAQEARGVLRARDQAMLASELAGRIVEMPFAEGQAFRKGDVLVRFDCSAYQAQLNAAQAAVRAAREELAHKKQLAALNSVGRFEVALAEARQAQAQAESQVYQVQVNRCTVKAPFDGQVVQRKVKPHESVAGGAPLLEIVDNRTLEIHLLVPSRWLGQLLAGQSFTFTPDETGQPLSAKVKRVGARIDEGSQTLLLIGELPEEPAGLLAGMSGTARFEATP	PGPT0003275_6640	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003275-acrA|lir|mtcA|mexA|adeI|smeD|mtrC|cmeA-K03585	NA	NA
BMS010_07751	744			hypothetical protein	ATGAAGGACTTCCCTGGCTTCTTAGCAAAGCTGACAGAGATAATTGAGGAAGAAATTCCAGAGAGTGAACAAATCATAGGTGATGATAGCGACAGCTATATCCCACATATGCATCGCACGATGAACATACCGGGTTTTTCCAAAGCCCCAGTCTCCATTACTGAGAAACTAACTGGAACATTCCCGAGTCTTAGAAACCTTAATCTGGAATATGACGAGCAGGACGACTATATCGTCAAACGCCTTGACCGCGACTGGCAATTTGGCCCTTACGCTGACCTCTATAGACGCATGTCTGCTGTCGATCCGGAAACCGCAGCCACATATAAGCACGGAGGCGTTTCAATTGCGGACACGGCTATTCTTGCGAATCAGGAGAATGATCGCTTGGTTGAATGCTTATCCCCATACCTACCGGCCTATCTCTTTAAACAATTCGAGGATGACCTGCACTGTTTTGAGATTAAGGCCCCAGATGTACTACTCGCATTCTTTAACAACTTCGTGTTCGATACTTTCCGAGACTTTGGATATCGGGACCCAGCGATCAACATTGAAGAGGAATTTGTCAATATGATACAAGTTGAAGGGAACCAAGTGAGCATCGTATTCCCAACTTTGAATGCCATTTTGCAATCCGCAAACTGCGGGCAATTGCTCATTGCAGGCCACAATGAGGCAGATTTGGCAAAGCTACTAACGATCCTCGAGCCTGCCGGCAAATTCGTTGATTTTGCCGCTTAG	MKDFPGFLAKLTEIIEEEIPESEQIIGDDSDSYIPHMHRTMNIPGFSKAPVSITEKLTGTFPSLRNLNLEYDEQDDYIVKRLDRDWQFGPYADLYRRMSAVDPETAATYKHGGVSIADTAILANQENDRLVECLSPYLPAYLFKQFEDDLHCFEIKAPDVLLAFFNNFVFDTFRDFGYRDPAINIEEEFVNMIQVEGNQVSIVFPTLNAILQSANCGQLLIAGHNEADLAKLLTILEPAGKFVDFAA				NA	NA	NA	NA	NA
BMS010_07752	168			hypothetical protein	ATGGTGATCTTCGTGGTCGGGCTGGTCTGCTTATTCGGCGCCGGCGGCCTGCTCGAAATTCTGGGTTGGCAGACGATGAACCTGGTGTTCATGCCCTGGCTCGGCCTGGCCGCAGCATCATTGGTGTGGCTGGGTTTAACGACAGATTCGGAGCCTCACCTGGGGTGA	MVIFVVGLVCLFGAGGLLEILGWQTMNLVFMPWLGLAAASLVWLGLTTDSEPHLG				NA	NA	NA	NA	NA
BMS010_07753	900			hypothetical protein	ATGCCTTGCATCGTCGCCGGCCAGAAGGTACGCCGCCTGCGCAGTACGGACCAGCATCTGGAATTGGATAACGAAGACGCCACCGGCCGTGCCACGATCTTGTGTGTCGAGCATGTGCTGCTGGCTATGCCGCCCCGTCTGGTCAAGGAGAGCATACAATTCTCGCCGGCCTTGCCTCCCGTATTGGCGCGGCAATGGCGGGCAACGTCCACCTGGATGGCGCCCCACGCGAAGTATTTCACCCCGTTCTGGCGCGAGCAGGGTCTGTCCGGCGTAGCCCGTAGCGTGTGCAGCCCGTTGGGTGAGATTCACGACGCCTCCGTGCCGGGTGGCAGCGCGGCATTGTTTGGCTTCTTTGGCGTGCCGGTGCGCGTGCGCAAGAACCTGTCCGAGGACGAGTTGCGTGCGCTTTGCCGCGGGCAGCTCGCGCGGATGTTCGGACCCTTGGCCGCGACGCCGAAGGCGGAGTTCATCAAGGGTTGGGCGTTGGACCCGTACACCGCCACCGTCGCCGATATGGACGGTGCCGGCTATCACGCCGAAGCCCCGGCCACCAGGGCTACGTCCGGTCCGTGGTGCGGGCGCCTGATAGGTATCGGCAGCGAGTGGTCGCCGCAGTTTCCCGGCTATGTCGCCGGCGCCATGATCCATCACCACCACGCCCTGGGCACCGCTGCCACGGTGCTCGGCATGTTCCTGCCGTCGTTCTTCACCGGCGTGCTGCTGTTCGTCGACCACATTCTCATGACCCTGACCGGAATGGGCTTCGGCTCGTTCGCCAGTGCACTGGTCCTGCTCGGTGTGGGCTGGAATTTCCTGTACATCGGCGGCACGGCCTTGCTGACCGGTACCTACAGCCCGGCCGAGAGGCGAGGGCACAAGCCATCAATGACATGGTGA	MPCIVAGQKVRRLRSTDQHLELDNEDATGRATILCVEHVLLAMPPRLVKESIQFSPALPPVLARQWRATSTWMAPHAKYFTPFWREQGLSGVARSVCSPLGEIHDASVPGGSAALFGFFGVPVRVRKNLSEDELRALCRGQLARMFGPLAATPKAEFIKGWALDPYTATVADMDGAGYHAEAPATRATSGPWCGRLIGIGSEWSPQFPGYVAGAMIHHHHALGTAATVLGMFLPSFFTGVLLFVDHILMTLTGMGFGSFASALVLLGVGWNFLYIGGTALLTGTYSPAERRGHKPSMTW				NA	NA	NA	NA	NA
BMS010_07754	165			hypothetical protein	ATGAAGCGAGTGTTCCACCAGCATGTCGCCGGCTTCGAACTGTTCGAAACGCGCCAGCCCCAGCTCACGGACCAGACGGTCCAACTGGTGCTGGTAGCCGGGCCAGAACCAAGACGGGCCCAGGTCGAAGCGATCAATGGCACCCGCCGCAACCTGACGCGCTGA	MKRVFHQHVAGFELFETRQPQLTDQTVQLVLVAGPEPRRAQVEAINGTRRNLTR				NA	NA	NA	NA	NA
BMS010_07755	105			hypothetical protein	ATGCGCCTGCCCGAAGGGGAATACCTGGCGATCGCCGCTGGCCAACAGGACGCCACCGTTTATCTCAAGACTGGCCATCTGGCCGGCATGGCCGTGGAGGCATAG	MRLPEGEYLAIAAGQQDATVYLKTGHLAGMAVEA				NA	NA	NA	NA	NA
BMS010_07756	867	ydhF_2	COG4989	Oxidoreductase YdhF	ATGCCTGATTCCCCTGTGATCGACGCACCGTTGCTGCTCGGCATGATGCGCCTGACCGATTACCCCGAGCTGGCGGCGGCGCAAGACCTGCTCGGCTTCATCGAGCGTTGCGTGGAGCAGGGGCTGAATGCCTTCGACCATGCCGATATCTATGGCCTGGGCCAATGCGAGGCGCGCTTCGGCGAGGCCCTGCGGCTGAACCCGGCGCTGCGCCAGCGGCTGCAACTGATCGGCAAGGCGGATATCGTGCTGCGTCCGCAGGATGGTTCGCGCTGGCAGGTGAAGCATTACAACAGCGCGGCGGATTATCTGGCCCGGGCGGTGGAGGCCTCGCTCGCGCGCCTGGGCGTCGAGCGGCTGGATGGCTTCCTGCTGCACCGACCCGATCCGCTGATGCAAACGGAGGAGGTGGTGCGAGCGCTCGCCGGTTTGGTGGAGAGCGGAAAGGTGGGTTGGCTCGGGGTCTCCAATTTCGACCCTCTGCACTGGCAGGCGCTGGCCCGCGAACTGCCGCTGCGTTGCAACCAGATCGAACTGTCCCTGACCGCGCAGGAGGCGGCCTGGGACGGACGTCTGCAGGCGATGCGGGCGGATGGGTTGCAGGTCCTGGCCTGGTCGCCGCTGGCGGGTGGGGCTTTTCCGGTGGCCTTGCAGGAGGCGTTGGCGCAAGTCGGTGAAGCGCTTGGCGCCTCCCCCAGCCAAGTGGCCCTGGCCTGGCTGCGTCGCTTGCCCGGCCGTCCGCTGCCGATCCTCGGGAGCCTGCGCTGGCCGCGTATCGAAGAGGCCCTGGCGGGCAAGGATCTGGAATTGGACGCGCCGACCTGGTTTTACTTAGCGGAGATGGCGCGGGGGTATGAGGCGCCGTGA	MPDSPVIDAPLLLGMMRLTDYPELAAAQDLLGFIERCVEQGLNAFDHADIYGLGQCEARFGEALRLNPALRQRLQLIGKADIVLRPQDGSRWQVKHYNSAADYLARAVEASLARLGVERLDGFLLHRPDPLMQTEEVVRALAGLVESGKVGWLGVSNFDPLHWQALARELPLRCNQIELSLTAQEAAWDGRLQAMRADGLQVLAWSPLAGGAFPVALQEALAQVGEALGASPSQVALAWLRRLPGRPLPILGSLRWPRIEEALAGKDLELDAPTWFYLAEMARGYEAP				NA	NA	NA	NA	NA
BMS010_07757	543			hypothetical protein	ATGGGCGACAAGGTGTTGATCCTTCCGGGTTATGGCAACTCCGGTCCCGAGCACTGGCAAAGCCTCTGGCAAGCTGCGGGCCCGGCTTTCCAACGGGTCGAGCAGCGTGACTGGGAGCATCCGGTATGTGCGGAGTGGGTCGCGGCGCTGGAAGAGGCGATCGCCGAGGCCGGTGACGGTTGCGTGTTGGTGGCCCACAGCCTGGCATGCCTGCTGGTCGCTCACTGGGCGGCGCAGACCCGCCAGTCGGTGCGTGCGGCGCTGCTGGTGGCGGTGCCGGACCCCAGCGGCCCGGCGTTTCCCTCGGATGCCAGCGGCTTCGCACCCGTCCCTTTGATGCCACTACCGTTCCCCAGCCTGGTGGTGGCGAGCCGTGACGACCCCTACGGCTCACTCGATTTCTCCCGCAGCTGTGCCGGCGCCTGGGGTAGCCGCTGGGTCGATATCGGCCCGGCGGGGCACATCAATGGCGACAGCGGACTGGGCGACTGGCCGGAAGGCAAGCGCCTGCTGGAGTCCCTGACGGAGGCGGCTCATGCCTGA	MGDKVLILPGYGNSGPEHWQSLWQAAGPAFQRVEQRDWEHPVCAEWVAALEEAIAEAGDGCVLVAHSLACLLVAHWAAQTRQSVRAALLVAVPDPSGPAFPSDASGFAPVPLMPLPFPSLVVASRDDPYGSLDFSRSCAGAWGSRWVDIGPAGHINGDSGLGDWPEGKRLLESLTEAAHA				NA	NA	NA	NA	NA
BMS010_07758	306	gdx_2		Guanidinium exporter	ATGGCCTGGGTATTCCTGCTGGTCGCCGCCTTGTTCGAGATCGTCTTCGCCTTGAGCATGAAGTCCGCCCAGGGCTTCACCCGGCCCTGGCCCAGCCTGCTGGTGGTCGTGGCGGCGATTGCCGGGATTTACTTCCTCACCCTGTCCTTGCGCGAACTGCCGGTGAGCGTGGCCTACCCGATCTGGACGGCGCTGGGCTCGCTCGGCACGGTGACCCTGGCTGTGCTGCTGATGGGCGAGGCGTTAACGCTGGCCAAGGCGGTGTCGGTGGTATTGATCGTCGCCGGGGTGGCGGGGTTGAAGTGA	MAWVFLLVAALFEIVFALSMKSAQGFTRPWPSLLVVVAAIAGIYFLTLSLRELPVSVAYPIWTALGSLGTVTLAVLLMGEALTLAKAVSVVLIVAGVAGLK	PGPT0028785_2856	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-QUATERNARY_AMMONIUM_COMPOUND_RESISTANCE_,PGPT0028785-sugE-K11741	NA	NA
BMS010_07759	639	azoR1_2	COG1182	FMN-dependent NADH-azoreductase 1	ATGAAAAGAATTCTGGCGTTACAAGCAAGTCCGCGCAATGAGCGTTCCCATTCCCGGCGACTGGTGGAGGCGTTTCTCCAGGCCAGTGTGGCGGAGCAGGGGGAGATCGAAGTGGTCCGCCGCGAAGTGGGCCAGGGCAACCTGCCGGCTGTCAGCGAGGACTGGATCGCCGCGGCCTTCCACCCGGAACCGACCAACCGCCCTGCGCCTCTGCAGGCGGCCCTGGCGCTGAGCGACGAGCTGGTGGACGAGCTGTTCGCGGCCGACCGTCTGGTGATCGCCACGCCCATGTACAACTTCGGTATTCCCAGCGGGCTCAAGGCCTGGGTCGACCAGGTGGTGCGCATCGGCCGGACTTTCGACTTTCTCCCGGACGACCCGGCCAGCCCGTACAGGCCGAAAGTGCTGGGCAAGCGGGCCCTGATCGTCACCACCCGCGGCGACCGCGGTTACGGGCCGGGCGGGCCGAACGCGCACCTGAACCATGCCGACGTCTACCTGCGCGACGTGCTGGGCTTCATCGGTATTCGTGATATCACCGTGGTGGCGGTGGAAAACGACGAGTTCGGTGGCCTGGCATTCGCCGATTCCTACCGGGCCGCCGAGCAGGCTTTGGCGCAGCTGGCCCAGGATTTCTAA	MKRILALQASPRNERSHSRRLVEAFLQASVAEQGEIEVVRREVGQGNLPAVSEDWIAAAFHPEPTNRPAPLQAALALSDELVDELFAADRLVIATPMYNFGIPSGLKAWVDQVVRIGRTFDFLPDDPASPYRPKVLGKRALIVTTRGDRGYGPGGPNAHLNHADVYLRDVLGFIGIRDITVVAVENDEFGGLAFADSYRAAEQALAQLAQDF	PGPT0006790_1004	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS	XENOBIOTIC_AZO_DYE_DEGRADATION,PGPT0006790-acpD|azoR-K01118	NA	NA
BMS010_07760	897	gcvA_12		Glycine cleavage system transcriptional activator	ATGTTCGCCAACCTGCCCCTGACCGCCCTGCGCACGTTCGAATCCGCCGCCCGCCAGTCGAGCTTCAAGGCCGCCGCCGAGGAACTGGCCGTCACGCCCACGGCGGTCTCCCACCAGATCAAGGCGCTGGAGAGCTGGCTGGGCATTCCGCTGTTCGAACGCCTGCCGCGTTGTGTGCGCCTGACCAGTTGCGGCGAGCGGCTTTTCCACAGCCTGCATGGAGCGCTGCTGGAGGTGTCGCAGACCGTCGATGCGCTGCGCCCGCAACCCAGCACCGGCAGCCTGACGGTGTCGACCACGCCGACCTTCGCCGCGCTCTGGCTGATCCCCCGCCTCGGCCGCTTCTATGCCGCCCACCCGGGCATCAACCTGCGCCTGGACACCAGCACCGCCCTGCTCGATCTGCACCAGGACGCCAGCGTCGATCTGGTGGTGCGCTACGGCCTTACCGAATACCCCTCGCTGCACAGCCAATGCCTGCTGGATGAATGTTTCGCCGTCTACGGCGCCCCTCGCGTAGTGGCCGGGCTGGCCGAGCGCACGCCCACCCTGATCACCGTGCGCTGGCGCAACTCGCAGCTCTACGACCTGAGCTGGAAAGCCTGGTGCGCCGCCGCCGGCGAACCCTGGCTGGAACAGCGGGCCGTCGAACGCGAATACGACGAGGAGTACTACGCGCTGCAGGCAGCCATCGGCGGCCAGGGCGTGGTGCTGGCGAGTTCGATCCTGGTCTCGGAGAGCCTGGCCAGCGGCCTGCTGGTGCCCTATCGCCCGGACATCACCGTGCCCGGCGCGCGCTACACCGCCCTCTGCGTCCCCGGCCGCGAACGCCATCCACCGGTGAAGGCGTTCCTCGATTGGTTGAGGCAGGAGGTGGGGGCGAAGGGGGCACCATAG	MFANLPLTALRTFESAARQSSFKAAAEELAVTPTAVSHQIKALESWLGIPLFERLPRCVRLTSCGERLFHSLHGALLEVSQTVDALRPQPSTGSLTVSTTPTFAALWLIPRLGRFYAAHPGINLRLDTSTALLDLHQDASVDLVVRYGLTEYPSLHSQCLLDECFAVYGAPRVVAGLAERTPTLITVRWRNSQLYDLSWKAWCAAAGEPWLEQRAVEREYDEEYYALQAAIGGQGVVLASSILVSESLASGLLVPYRPDITVPGARYTALCVPGRERHPPVKAFLDWLRQEVGAKGAP	PGPT0026360_6491	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
BMS010_07761	930			hypothetical protein	ATGAAAGGGCAGAACCACCTGCGCCTGGTGGCGCAGTACCAACAACACCGCCAGGTCATCCACGGGTTGATCGAGTCGATGATGACCAGCATCAGCAGCCCCCGGTTGCTCGACGACTACCCGGCGCAACTCGAAGCGGTGCAGCGGCTCAGCGAGGCCTACCCGTTCGTCGAACTGATCTACAGCCTGGACGGCAACGCCGTACAGCGCATGGATTCGGCCTACGGGCCCAACGTCAGCGAACGCAAGCGGCGCTCCTTCGGTCGCGGCGCGGACCGCAGCCACCGGCCCTACGTGCAGGTTTCGCGGGACTGCCCGAACCGAATCGTGGTCACCGACCCCTACCTCTCCTGTGCCACCCAGCAACTGGCGATTTCGGCGGTGCATCACTTCGTCGACGAGCAGGGCGTGGACCTCGGCTACCTGGTCATCAACATCAACCTGCAACGCCTGATCGCGTACCTGAACGGCGACGAGATGCGCTCGAAGGTGCACCCGTTCTTCCAGCTGGTCTACGGCGTGATCGGCGCGTTGCTGGTGGTGGTGTCGGTGCTACTGCTGTATGCCTCCATCGAGGCGCTGGTCAAGGCGGTGAGCCAGTCCGGCAGCATCGCCACCCATGCCTTCGGCACGGTGATCCTGATCACCCTGGGCATGGCCATCTTCGACCTGGGCAAGACCATCATCGAAGAGGAAGTGCTGCTCAACAAGGACATCCACCACCACGACTCGACCCGGCGGACCATCACCCGCTTCATGTCGGCCATCGTCATCGCCGTGTCCATCGAAGCGCTGCTGCTGATGTTCAAGACCCTGCTGGGCGAGGGCTCGCAACAGATCGTCAGCGCCGTGTGGATGCTCCTCGCCGCCGTCGGCCTGCTCGGTGGGCTGGGGCTGTACCTCAAGCTGAGTCGGGAGCAGGAGGCGTAG	MKGQNHLRLVAQYQQHRQVIHGLIESMMTSISSPRLLDDYPAQLEAVQRLSEAYPFVELIYSLDGNAVQRMDSAYGPNVSERKRRSFGRGADRSHRPYVQVSRDCPNRIVVTDPYLSCATQQLAISAVHHFVDEQGVDLGYLVININLQRLIAYLNGDEMRSKVHPFFQLVYGVIGALLVVVSVLLLYASIEALVKAVSQSGSIATHAFGTVILITLGMAIFDLGKTIIEEEVLLNKDIHHHDSTRRTITRFMSAIVIAVSIEALLLMFKTLLGEGSQQIVSAVWMLLAAVGLLGGLGLYLKLSREQEA				NA	NA	NA	NA	NA
BMS010_07762	441			hypothetical protein	ATGCAAACCCTGACCCTGGAAACCGCCCTGACCATCGCCCATCGCGCCCTGGCGATAGGCCGGGAACGGCGTACCGCGCCGCTGACCGTCGCCGTGCTGGATGCCGGCGGGCATCTGATCGCCCTGCAGCGCGAGGACGGCTCCAGCCTGCTGCGCCCGCAGATCGCCATCGGCAAGGCCTGGGGCGCCGTCGCCCTGGGCAAGGGCTCGCGGCTGATCGCCAATGACGCCCAGCAGCGCCCGGCTTTCATCGGCGCGGTGAACAACCTGGCGGATGGCAACCTCGTTCCGGCACCCGGCGGCGTGCTGGTGCGCGCCAGCGGCGGCGAGGTGATCGGCGCCGTGGGCATCAGCGGCGACACCTCGGACATCGACGAACAATGCGCGGTGGGCGCGGTGGAGTCTGTGGGGCTGACGGCCGATGCCGGCACCGCTGCCTGA	MQTLTLETALTIAHRALAIGRERRTAPLTVAVLDAGGHLIALQREDGSSLLRPQIAIGKAWGAVALGKGSRLIANDAQQRPAFIGAVNNLADGNLVPAPGGVLVRASGGEVIGAVGISGDTSDIDEQCAVGAVESVGLTADAGTAA				NA	NA	NA	NA	NA
BMS010_07763	1776	gcl	COG3960	Glyoxylate carboligase	ATGGCCAGAATGAGAGCAATCGAGGCAGCCGTCCTGGTGATGCGTCGCGAAGGCATCGATACCGCGTTCGGTATTCCCGGCGCCGCCATCAACCCGCTGTATGCCGCGCTGAAGAAAGTCGGCGGCATCGACCATGTCCTGGCCCGCCACGTCGAAGGCGCCTCGCACATGGCCGAGGGCTACACCCGCACCAAGGCCGGCAACATCGGCGTGTGCATCGGCACCTCCGGCCCGGCCGGCACCGACATGGTCACCGGCCTGTACTCGGCCTCCGCCGATTCCATCCCGATCCTCTGCATCACCGGCCAGGCGCCGCGCGCCCGTCTGCACAAGGAAGATTTCCAGGCCGTGGACATCACCAGCATCGTCAAGCCGGTGACCAAGTGGGCCACCACCGTGCTGGAGCCGGGCCAAGTGCCCTATGCCTTCCAGAAAGCTTTCTACGAGATGCGCAGCGGCCGCCCCGGCCCGGTGCTGATCGACTTGCCGTTCGACGTGCAGATGGCCGAGATCGAGTTCGACATCGACGCCTACGAGCCGCTGCCGCTGGCCAAGCCTGCTGCCACCCGCGCCCAGGCCGAGAAAGCCCTGGCCATGTTGAATGCGTCCGAGCGCCCGCTGATCGTCGCCGGCGGCGGCATCATCAACGCCGACGCCTCGGACAAGCTGGTGGAGTTCGCCGAAATCACCGGCGTGCCGGTCATCCCGACCCTGATGGGCTGGGGCAGCATCCCCGACGACCACCGCCTGATGGCCGGCATGGTCGGCCTGCAGACCTCGCACCGCTACGGCAATGCCACACTGCTGGAGTCCGACCTGGTGTTCGGCATCGGCAACCGCTGGGCGAACCGCCACACCGGTACTGTCGAGGTCTACACCCAGGGCCGCACGTTCATCCACGTGGACATCGAGCCGACCCAGATCGGCCGCGTGTTCAACCCCGACCTGGGCATCGTTTCCGACGCCGGCGCCGCGCTCGACGCCTTCATCGCCGTGGCCCGCGAATGGCAGGCCGCCGGCAAGCTGAAGGACCGCAGCGCCTGGGTCGAATCCTGCCGCGAGCGCAAGCGCACCCTGCAGCGCAAGACCCACTTCGACAACGTGCCGGTGAAGCCGCAGCGCGTGTACGAGGAGATGAACGAGGCGTTCGGCAAGGACACCTGCTACGTCAGCACCATCGGCCTGTCGCAGATCGCCGGCGCACAGTTCCTGCACGTCTACAAGCCGCGTCACTGGATCAACTGCGGCCAGGCCGGCCCGCTCGGCTGGACCGTCCCGGCGGCCCTCGGCGTGGTCAAGGCCGATCCGCAGCGCCAAGTGGTGGCGCTCTCCGGCGACTACGATTTCCAGTTCATGATCGAAGAACTGGCGGTGGGCGCGCAGTTCCACCTGCCGTACATCCACGTGCTGGTGAACAACTCCTACCTCGGCCTGATCCGCCAGGCCCAGCGCGGCTTCGAGATGGACTACTGCGTGCAACTGTCCTTCGAAAACATCAACGCGCCGGAGATCAACGGCTACGGCGTCGACCACGTCGCCGTGGTGGAAGGCCTCGGCTGCAAGGCGATCCGCGTGCTCGACCCGAACGAACTGCAGAACGCCTTCGCCCAGGCCAAGCGCCTGATGGAAGAGCACCGCGTGCCGGTGGTGGTCGAGGTCATCCTGGAGCGGGTCACCAACATCTCCATGGGTACCGAGATCAACGCCATCAACGAATTCGAGGAACTGGCCCAGCGCGGCGCGGATGCGCCGACGGCGATCTCGCTGCTGGATTGA	MARMRAIEAAVLVMRREGIDTAFGIPGAAINPLYAALKKVGGIDHVLARHVEGASHMAEGYTRTKAGNIGVCIGTSGPAGTDMVTGLYSASADSIPILCITGQAPRARLHKEDFQAVDITSIVKPVTKWATTVLEPGQVPYAFQKAFYEMRSGRPGPVLIDLPFDVQMAEIEFDIDAYEPLPLAKPAATRAQAEKALAMLNASERPLIVAGGGIINADASDKLVEFAEITGVPVIPTLMGWGSIPDDHRLMAGMVGLQTSHRYGNATLLESDLVFGIGNRWANRHTGTVEVYTQGRTFIHVDIEPTQIGRVFNPDLGIVSDAGAALDAFIAVAREWQAAGKLKDRSAWVESCRERKRTLQRKTHFDNVPVKPQRVYEEMNEAFGKDTCYVSTIGLSQIAGAQFLHVYKPRHWINCGQAGPLGWTVPAALGVVKADPQRQVVALSGDYDFQFMIEELAVGAQFHLPYIHVLVNNSYLGLIRQAQRGFEMDYCVQLSFENINAPEINGYGVDHVAVVEGLGCKAIRVLDPNELQNAFAQAKRLMEEHRVPVVVEVILERVTNISMGTEINAINEFEELAQRGADAPTAISLLD				NA	NA	NA	NA	NA
BMS010_07764	783	hyi	COG3622	Hydroxypyruvate isomerase	ATGCCCCGTTTTGCCGCCAACCTGTCCATGCTGTTCACCGAGGTGGACTTCCTGGACCGTTTCGCCGCCGCTGCCGACGCCGGTTTCGGCGGTGTGGAATACCTGTTCCCCTACGACTACCCGGTCGAGGAAATCAAGGCCCGCCTGGACGCCAACCGCCTGGAGCAGGTGCTGTTCAACCTGCCGGCCGGCGACTGGGCCAAGGGCGAGCGCGGCATCGCCTGCCACCCGGACCGCGTGGACGAGTTCCGCGCCGGCGTGGACCAGGCCATCGCCTACGCCAAGGTACTGGGCAACAGGCAGATCAACTGCCTGGCCGGCATCCGCCCGCAGGGCCATGACTGCGCGACCATCGAGAAGACCTTCGTCGACAACCTGAAATACGCCGCCGAAAAACTCGAGGCCGCCGGCATCCGCCTGGTCATGGAAGCCATCAACACCCGAGATATCCCCGGCTTCTACCTGAACAACACCCGGCAGGCGCTGGACATCCGCGAGAAGGTCGGCAGCGTCAACCTGTACCTGCAATACGACATCTACCACATGCAGATCATGGAGGGTGACCTGGCCCGGACCCTGGCCGATCAGTTCGCCGCGATCAACCACGTGCAGCTCGCCGACAACCCCGGCCGCCACGAACCGGGCACCGGCGAGATCAACTACCGCTTCCTCTTCGAGCACCTGGACCGCATCGGCTACCAGGGCTGGATCGGCTGTGAATACAAGCCGGCAACCACCACCGCTGCCGGCCTCGGCTGGATGAAAGCGCATAACGCAATCTGA	MPRFAANLSMLFTEVDFLDRFAAAADAGFGGVEYLFPYDYPVEEIKARLDANRLEQVLFNLPAGDWAKGERGIACHPDRVDEFRAGVDQAIAYAKVLGNRQINCLAGIRPQGHDCATIEKTFVDNLKYAAEKLEAAGIRLVMEAINTRDIPGFYLNNTRQALDIREKVGSVNLYLQYDIYHMQIMEGDLARTLADQFAAINHVQLADNPGRHEPGTGEINYRFLFEHLDRIGYQGWIGCEYKPATTTAAGLGWMKAHNAI	PGPT0018150_391	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ERYTHRONATE_UTILIZATION,PGPT0018150-otnI|ygbM-K22131	NA	NA
BMS010_07765	891	glxR_3	COG2084	2-hydroxy-3-oxopropionate reductase	ATGGCAAAAATCGGATTCATCGGCACCGGCATCATGGGCAAGCCCATGGCGCAGAACCTGCAGAAAGCCGGGCACACCCTGTTCTTCTCCGAGCACTTCGACAAGGCGCCGGCCGAGCTGGTCGGCGACAACGGCATCGCCCTGGCCAATCCGAAGGAAGTGGCCCAGGAAGCCGAGTTCATCATCGTCATGGTGCCGGACACCCCGCAGGTCGAAGACGTGCTGTTCCGCGCCGACGGCGTGGCCGCGGGTGTCGGCGCCGGCAAGGTGGTGATCGACATGAGCTCCATCTCCCCCAGCGCGACCAAGCAGTTCGCCGAGAAGATCAAGGCCACCGGCGCCGCCTACCTGGACGCACCGGTATCCGGTGGTGAAGTGGGCGCCAAGGCGGCGACCCTGAGCATCATGGTCGGCGGCTGCCCGAACGCCTTCGAACGCGCCCTGCCGCTGTTCCAGGCGATGGGCAAGAACATCACCCGCGTCGGCGGCAACGGCGACGGCCAGACCGCCAAGGTGGCCAACCAGATCATCGTCGCCCTGAACATCCAGGCGGTGGCCGAAGCCCTGCTGTTCGCCGCACGCAACGGCGCCGACCCGGCCAAGGTCCGCGAAGCGCTGATGGGCGGCTTCGCCGGCTCGAAGATTCTCGAAGTGCACGGCGAGCGCATGATCAAGGGCACCTTCGACCCGGGCTTCCGCATCAGCCTGCACCAGAAGGACCTCAACCTGGCCCTCTCCGGCGCCCGCGAACTCGGCCTGAACCTGCCCAACACCGCCATCGCCCAGCAAGTGTTCAGCACCTGCGCGGCCCTCGGCGGCAGCAACTGGGACCACTCGGCGCTGATCAAGGGGTTGGAGCACATGGCCAACTTCTCGATTCGGGAGGAGTGA	MAKIGFIGTGIMGKPMAQNLQKAGHTLFFSEHFDKAPAELVGDNGIALANPKEVAQEAEFIIVMVPDTPQVEDVLFRADGVAAGVGAGKVVIDMSSISPSATKQFAEKIKATGAAYLDAPVSGGEVGAKAATLSIMVGGCPNAFERALPLFQAMGKNITRVGGNGDGQTAKVANQIIVALNIQAVAEALLFAARNGADPAKVREALMGGFAGSKILEVHGERMIKGTFDPGFRISLHQKDLNLALSGARELGLNLPNTAIAQQVFSTCAALGGSNWDHSALIKGLEHMANFSIREE	PGPT0018170_396	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTARATE|GLUCARATE_DEGRADATION,PGPT0018170-garR|glxR-K00042	NA	NA
BMS010_07766	1272	ttuD_2		Putative hydroxypyruvate reductase	ATGACCACTACCCCGCAAGCCATCCTGCGCGACCTCTTCGCCAGCGCCATCGATGCCGCCCACCCGCGCCAGGTCCTGGCCGATCACCTGCCGGCGGACCGTAGCGGCCGGGCCATCGTCATCGGCGCCGGCAAGGCCGCGGCGGCCATGGCCGAGGCCATCGAGAAGGCTTGGCAAGGCGAGATCTCCGGGCTGGTGGTGACCCGCTACGAACACGGCGCCGACTGCCAGAAGATCGAAGTGGTGGAAGCCGCCCACCCGGTGCCGGACGACGCCGGCGAGCGCGTCGCCCGTCGCGTGCTGGAGATGGTCAGCGGCCTCTCGGAAAGCGACCGGGTGATCTTCCTGCTCTCTGGCGGCGGCTCGTCCCTGCTCGCCCTGCCGGCCGAAGGCATCAGCCTCCAGGACAAGCAGGCGATCAACAAGGCCCTGCTGCGCTCCGGCGCCACCATCGGCGAGATGAACTGCGTGCGCAAACACCTCTCGGCGATCAAGGGCGGGCGCCTGGCCAAAGCCTGCTGGCCGGCCAGCGTCTACACCTACGCCATCTCCGACGTGCCCGGCGACGAGGCCACGGTGATCGCTTCCGGACCCACCGTGGCCGACCCCACCACCTCCGCCGAGGCGCTGGCGATCCTCGCCCGCTACGGCATCGACATCCCCGCCCACGTGCGCGCCTGGCTGCAGGACCCGCGCTCGGAGACGGTCAAACCCGGCGACCCGGTGCTGTCGCGCAGCCACTTCCAGCTTATCGCCCGCCCGCAGCAATCCCTCGACGCCGCCGCCGAACGCGCCCGCGCCGCCGGCTACACGCCGCTGATCCTCGGCGACCTGGAAGGTGAATCCCGCGAGGTGGCCAAGGTGCATGCCGGCATCGCCCGGCAGATCGTCCAGCACGGCCAGCCGATCCAGCCGCCCTGCGTGATCCTTTCCGGCGGCGAGACCACCGTCACCGTGCGCGGCAACGGCCGTGGCGGGCGCAACGCGGAATTCCTCCTCAGCCTCACCGAGAGCCTCAAGGGCCTGCCCGGCGTCTACGCCCTGGCCGGCGATACCGACGGCATCGACGGCTCGGAAGACAACGCCGGCGCGCTGATGACCCCGGACAGCTACGCCCGCGCCGCACAGCTCGGCCTCAACGCCCGCGACGAACTGGAAAACAACAACGGCTACGGCTACTTCGCCGCCCTGGACAACCTGATCGTCACCGGCCCGACCCGCACCAACGTCAACGATTTCCGCGCGATCCTGATCGAGAAACCTGCCAAATGA	MTTTPQAILRDLFASAIDAAHPRQVLADHLPADRSGRAIVIGAGKAAAAMAEAIEKAWQGEISGLVVTRYEHGADCQKIEVVEAAHPVPDDAGERVARRVLEMVSGLSESDRVIFLLSGGGSSLLALPAEGISLQDKQAINKALLRSGATIGEMNCVRKHLSAIKGGRLAKACWPASVYTYAISDVPGDEATVIASGPTVADPTTSAEALAILARYGIDIPAHVRAWLQDPRSETVKPGDPVLSRSHFQLIARPQQSLDAAAERARAAGYTPLILGDLEGESREVAKVHAGIARQIVQHGQPIQPPCVILSGGETTVTVRGNGRGGRNAEFLLSLTESLKGLPGVYALAGDTDGIDGSEDNAGALMTPDSYARAAQLGLNARDELENNNGYGYFAALDNLIVTGPTRTNVNDFRAILIEKPAK	PGPT0024440_1121	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024440-gck|gckA-K11529	NA	NA
BMS010_07767	1416	ttuE_2		Pyruvate kinase	ATGACACCCGATAAGAAAGTAAAGATCCTCGCCACGCTGGGGCCCGCCATCCACGGCATCGACGACATCCGCCAACTGGTGGAGGCCGGGGTCAACCTGTTCCGCCTCAACTTCAGCCACGGCGAACACGCCGACCACGCCCAGCGCTACCAGTGGGTACGCGAAGTGGAACGCCAGCTCGGCCACCCCATCGGCATCCTCATGGACCTGCAGGGCCCGAAACTGCGCGTCGGCCGTTTCGCCGAAGGCAAGGTGCACCTGGCCCGCGGCCAGGCCTTCCGCCTCGACCTCGACGGCACGCCGGGCGACGCTCGGCGGGCCAACCTGCCGCACCCGGAAATCATCGCCGCCCTGCAGCCGGGCATGAGCCTGCTGCTGGACGACGGCCGCCTGCGCCTGCGGGTCGTCGCCAAACACGCCGACGCCATCGACACCGAAGTGGTGGTGGGTGGCGAGCTGTCCGACCGCAAGGGCGTCAACGTGCCGGAAGCGGTGCTCGACCTCAGCCCGCTCACCGAGAAGGACCGCCGCGACCTCGCCTTCGGCCTGGAGCTGGGCGTGGACTGGGTGGCACTGTCGTTCGTCCAGCGTGCGCAGGACATCCTCGAAGCCCGCGAACTGATCGGCGAGCGCGCCTTCATCATGGCCAAGATCGAGAAACCCTCGGCGGTGCAGCAGATCGAGGACATCGCCCGCCTGGCCGATGCCATCATGGTGGCGCGCGGCGACCTGGGCGTGGAAGTGCCGGCTGAGAATGTGCCGCGCATCCAGAAGCAGATCGTGCGTACCTGCCGCCAGCTCGGCCGCCCGGTGGTGGTCGCGACCCAGATGCTGGAATCCATGCGCTTCTCCCCCGCGCCGACCCGCGCCGAAGTCACCGACGTGGCCAATGCCGTGGCGGAAGGTGCCGACGCGGTGATGCTCTCCGCCGAGACCGCCTCCGGCGACTACCCGCTGGAAGCCGTGAGCATGATGAGCAAGATCATCCGCCAGGTGGAAAGCGGCCCGGACTTCCAGGCCCAGCTCGACGCTAACCGCCCGCAGGCCGAAGCCACGGTATCGGACGCCATCAGCTGCGCCATCCGCCGGATCAGCGGCATCCTGCCGGTGGCGGTGCTGGTCAACTACACCGAGTCCGGCAGCTCCAGCCTGCGCGCCTCGCGCGAACGCCCGAGCGCACCGATCCTCAGCCTGACCCCCTACCTGCGCACCGCCCGCCGCCTGACCGTGGCCTGGGGTGTGTATTCGGTGGTCAACCCGCGCCTGAACGAAATGGACGAGGTCTGCCGCAACGCCCTGGAACTGGCCAAGTCCGAACACATGGCGCAGCCGGGCGACACCGTGGTCATCACCGCTGGCGTCCCCTTCGGCCAGCCGGGGACCACCAACAACCTGCGGATCGAGCGGGTGGGCTAG	MTPDKKVKILATLGPAIHGIDDIRQLVEAGVNLFRLNFSHGEHADHAQRYQWVREVERQLGHPIGILMDLQGPKLRVGRFAEGKVHLARGQAFRLDLDGTPGDARRANLPHPEIIAALQPGMSLLLDDGRLRLRVVAKHADAIDTEVVVGGELSDRKGVNVPEAVLDLSPLTEKDRRDLAFGLELGVDWVALSFVQRAQDILEARELIGERAFIMAKIEKPSAVQQIEDIARLADAIMVARGDLGVEVPAENVPRIQKQIVRTCRQLGRPVVVATQMLESMRFSPAPTRAEVTDVANAVAEGADAVMLSAETASGDYPLEAVSMMSKIIRQVESGPDFQAQLDANRPQAEATVSDAISCAIRRISGILPVAVLVNYTESGSSSLRASRERPSAPILSLTPYLRTARRLTVAWGVYSVVNPRLNEMDEVCRNALELAKSEHMAQPGDTVVITAGVPFGQPGTTNNLRIERVG	PGPT0002020_6995	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002020-pyk-K00873	NA	NA
BMS010_07768	549			hypothetical protein	ATGAATTCGCTCCCACTGATTCGGCATCCGGAACTGAACCGAAGGGAAATACCACGCGGCCCCGTAGGGGCGAATTCATTCGCCCAACGCAGCCCCGCCGGGCGGATAAATCCGTCCCTACAAGTGCCCGATGAACACCCGCCATGGCTCTTCCGTGTGGGAGCGAATTCATTCGCGATAGCGGCCATTCCGGTATTCGCGAATGAATTCGCTCCCACTGATTCGGCATCCGAACTGAACCGAAGGGAAATACCACACGGCCCCGTAGGGGTGAATTCATTCGCCCAATGCAGCCCCGCCGGGCGGATAAATCCGTCCCTACAAGTGCCCGATGAACCCCGGACATGGCTTTTCCGTGTGGGAGCGAATTCATTCGCGATAGCGGCCATTCCGGTATTCGCGAATGAATTCGCTCCCACTGATTCGGCATCCGGAACTGAACCGAAGGGAAATACCACACGGCCCCGTAAGGGCGAATTCATTCGCCCAATGCCCAACCGGACGAATACACCCCCTCCATTCCACGCACCTCGCTCACACCACCGATGA	MNSLPLIRHPELNRREIPRGPVGANSFAQRSPAGRINPSLQVPDEHPPWLFRVGANSFAIAAIPVFANEFAPTDSASELNRREIPHGPVGVNSFAQCSPAGRINPSLQVPDEPRTWLFRVGANSFAIAAIPVFANEFAPTDSASGTEPKGNTTRPRKGEFIRPMPNRTNTPPPFHAPRSHHR				NA	NA	NA	NA	NA
BMS010_07769	918		COG4413	Urea transporter	ATGACGCCACATACCTCTCCTTTCACCCGCCTCCCCTCACTCTCCAAGCCCCTGCTCAACGGCTTCGCCCAGATCTTCCTCCAAGCCCATCCTGGCTGCGGCCTGCTCTGCCTGCTGGCCATCGCGCTGTGGGCGCCGGACCTGCTCGGCGGCGCCTTGCTCGGGGGATTGGCGGGGACCCTGGTGGCCTGGCGGCGCGGTTATGACCGGGACGACATCGACGCCGGCCTGTACGGCTACAACGGCATCCTGCTTGGCCTGCTGGCCAGCCTGAGCTTCGCCTGGAGCCCATTGCTGCCGCTGCTGATCGTCTGCGCCGCCGGGCTGTCGAGCCTCGCGGTGCATCACCTGCTGCGCGCCATGCGGGAACGGCAGTGGCTGCCGGCCTTCACCTCGCCCTTCGTGCTGCTCGGCTGGCTACTGCTCGCACTGGCCGGGCCCCTGGAACTGGAAGCGCGCGAAACGCTTCCGGCCGCCCCGCTCTCCCTTGACTGGCCAAATGGCCTCGGCGCCTTCGCGCGGGGCCTGGGCCAAGTGGTATTCCTCGATCACCCGCTGGCCGGTCTCTGCCTGTTCGCCGGCCTGCTCCTCGCCGACCGCCGCGCCGCCCTCTGGGCCGCACTGGGTTCGGCGCTCGGCTTGGCGCTAGCCCTGCTCCAGGGCTGGCCGGCGCAGAACGCCCTGCTCGGCCTGCACGGCTACAACGCCGCCCTGGCCGCCATCGCACTCGGCCAGACCCACCGCGCGCCCTGGGCGCCGGCCATCGGCCTGCTGCTCGCCCTGCTCCTGCAACCCGGCTTCGCCGCCCTCGGCCTGCCGGCGCTGACCATGCCGTTCATCCTCGCCTGCTGGCTGGTATACGCCGGCCAGCGCGTCTTCAGGCAAGGCGCCGCCACCTGGCATCCCGGCCGGCACTGA	MTPHTSPFTRLPSLSKPLLNGFAQIFLQAHPGCGLLCLLAIALWAPDLLGGALLGGLAGTLVAWRRGYDRDDIDAGLYGYNGILLGLLASLSFAWSPLLPLLIVCAAGLSSLAVHHLLRAMRERQWLPAFTSPFVLLGWLLLALAGPLELEARETLPAAPLSLDWPNGLGAFARGLGQVVFLDHPLAGLCLFAGLLLADRRAALWAALGSALGLALALLQGWPAQNALLGLHGYNAALAAIALGQTHRAPWAPAIGLLLALLLQPGFAALGLPALTMPFILACWLVYAGQRVFRQGAATWHPGRH	PGPT0000950_259	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_TRANSPORT,PGPT0000950-utp-K08717	NA	NA
BMS010_07770	834			hypothetical protein	ATGCAGCCGCAGACACTTCGCGAACGCCTCTACGTCATCATCTTCCAGACCGATACCTCCGCCGGCCGCCGCTTCGACACCTGGCTGCTGGGCATCATCTTCGCCAGCCTGGTGGTAGTGATGTTCGACAGCGTGGAGCGCCACCACCGGAACTACGGCGACCTGTTCATGGCGCTGGAATGGTGCTTCACCGCGCTGTTCGCCGTCGAATACGCCTTGCGCGTCTATGCCAGCCCGCGCCCCTGGCGCTACATCTTCAGCTTCTACGGGCTGATCGACCTGCTCGCGGTGCTGCCGGCATTCATCGCCTTGCTGTTCCCCGAGGCGCAGTACCTGATGATCGTGCGGGTGATCCGCATGCTGCGGATCTTCCGGGTACTCAAGCTCACGCCCTACCTGAGCCAGGCCAACTTCCTGATCACCGCCCTGCGCGGCAGCCGGCAGAAGATCACCGTGTTCCTGCTGAGCGTGACCACCCTGGTGATCGTCTTCGGCACCGTCATGTACGTGGTGGAGGGACCGGCGAACGGCTTCACCAGCATTCCGAAGAGCATCTACTGGGCGGTGGTGACCCTGACCACCGTCGGCTTCGGCGACATCACCCCGAAAACCGCCTTCGGCCAGGCCATGGCGACCCTGGTGATGATCACCGGCTACTCCATCATCGCGGTGCCCACCGGTATCTTCACCGCCGAGCTGGCCAATGCCATGCGCAGCGAGTCCCTGCACCACCCCTGCCCCCGCTGCCACAAGGCGCACCACGAGCTTCACGCCGCGTTCTGCAACCGTTGCGGCAACCCGCTGTACCCGGAGAAGCGCGATGAGCAAGCTTGA	MQPQTLRERLYVIIFQTDTSAGRRFDTWLLGIIFASLVVVMFDSVERHHRNYGDLFMALEWCFTALFAVEYALRVYASPRPWRYIFSFYGLIDLLAVLPAFIALLFPEAQYLMIVRVIRMLRIFRVLKLTPYLSQANFLITALRGSRQKITVFLLSVTTLVIVFGTVMYVVEGPANGFTSIPKSIYWAVVTLTTVGFGDITPKTAFGQAMATLVMITGYSIIAVPTGIFTAELANAMRSESLHHPCPRCHKAHHELHAAFCNRCGNPLYPEKRDEQA	PGPT0002715_3086	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002715-kch|trkA|mthK|pch-K10716	NA	NA
BMS010_07771	621			hypothetical protein	ATGAGCAAGCTTGATCCGGCACGCTGGAACGCCCTCTGGAAACGCCTGGGCGGCACTGCTCCGGCCGGCAGCTTCGCCGAGCTGGAGGCCGCCTATGGCGAACCGCAGCGCCACTACCACAGCGACGAACACATCGCCGCCTGCCTGGCGCATTTCGATGCCTGGCAACACCTGGCCGAACGGCCCGAACAGGTGGAACTGGCGCTGTGGACCCACGACCTGGTCTACGACACCCGCCGCCAAGACAACGAAGCCGCCAGCGCCGAACGTACCGCCGCCTGGCTCCGCGGCACCGGTCTCGACCGGCACGCCGAGCCGCTGCGCCAACTGATCCTTGCCACCCGCCACCAGGACATCCCCGAGGACAACGACGCCGCCCTGGTGGTGGACATCGACCTCAGCATCCTCGCCACCCCGCCCGACACCTACGCCGACTACGAACGCGCCATCCGCGCCGAATACGCCTGGGTCCCGGAACCGCTGTTCAAGGCCGGGCGCGGCAAGATACTCCGCCACCTGCTGGACCTCCCCCGCCTCTACCAGCACGCCCCGTTGGCGGAGCGCTGGGAGCAGCGGGCACGGGAGAATCTGGAGCGGGCGCTGGGGCGGTTGGGAGGATGA	MSKLDPARWNALWKRLGGTAPAGSFAELEAAYGEPQRHYHSDEHIAACLAHFDAWQHLAERPEQVELALWTHDLVYDTRRQDNEAASAERTAAWLRGTGLDRHAEPLRQLILATRHQDIPEDNDAALVVDIDLSILATPPDTYADYERAIRAEYAWVPEPLFKAGRGKILRHLLDLPRLYQHAPLAERWEQRARENLERALGRLGG	PGPT0014525_51	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014525-yfkH-K07058	NA	NA
BMS010_07772	405			hypothetical protein	ATGAAGGAATCCAGCCAAGCCTTAGAGATGGAACAGAAAGTTCGTGCTTGCACCTGCAAAACCTGCAAGGCGCTCATAAAGCTTATCGACGACTACCATGCGGATCTTCGCTTTTCGGTAACACGGGCGGGAAGGCTCTGCGAACTGGCTGTGGTTGCTTCGACAGGAGCACTGGGCCTTCCCGAATACAAGGTAGTGAAGGCCCGAAGAAAATACGCCGAGCATCACCTGGGAATCAAACTTACTGGTCCGACAAGCAATTCGGACAAGCCCGTGCATATCAGGCATGCCCTGAACAATTCAAATCACAACCCCGAGGCCAAAAACCGAATCAACCTTGGAACGGCCGAAGCAACCTTCTCGAACAACCGTTTTTTCCTGTTGCCAACGAAACAGCCTGCGTAG	MKESSQALEMEQKVRACTCKTCKALIKLIDDYHADLRFSVTRAGRLCELAVVASTGALGLPEYKVVKARRKYAEHHLGIKLTGPTSNSDKPVHIRHALNNSNHNPEAKNRINLGTAEATFSNNRFFLLPTKQPA				NA	NA	NA	NA	NA
BMS010_07773	492			hypothetical protein	ATGGACGAAGCCTTAACCCCTCTTACCTTCCTCCGCTACAACCTCCCTTTGCGCGGCGTAATGATCGATAACCAGCCCTGGTTCGATGCGCACGACTTCTGCCGCCTCATTGGCCATCGCCATCCCGAACGCATCAACCGGCTGATGGAGGACGACCAGACCCGCACCGTGCGCTTCCGCCATGCCAGCGGTGGCGAGGAAGAAGCACGGGTCATCAACGAATCCGGCGTCTACCGGGCGCTTGGTCGTTATCCCCACCCGGAAAACCGCAGCCTGCGCCGCTGGCTCAACGTGGAGGTGATTCCCGCCCTGCGCGATGTCTTCACGAGCGATGCACTGCAACCCCGCCGTACCCGGATGACCTGGGATTCACGGCAGGTCACGCTGCTGGAGTGGCAGGGCGAACTGTGGATACCGCTAAGTAGCATGCCGAGGTTCAGAGCGGACGATGGTGTGGTCGGACAGGGACGGTGGCGGCGCTGGTTGAGGTAA	MDEALTPLTFLRYNLPLRGVMIDNQPWFDAHDFCRLIGHRHPERINRLMEDDQTRTVRFRHASGGEEEARVINESGVYRALGRYPHPENRSLRRWLNVEVIPALRDVFTSDALQPRRTRMTWDSRQVTLLEWQGELWIPLSSMPRFRADDGVVGQGRWRRWLR				NA	NA	NA	NA	NA
BMS010_07775	498			hypothetical protein	ATGACCAAGTTCTTTATAGCAATTGTGGGTGTGGTTTTTTCTTCGTTGGTGGCGGCATCCACAGTTGTCGAAACCTTCGCGGACTGGTCCGTGATACATGCCAAGGACAGCGTGGACTTGATAGCGATAACGCAGAACAAGGCGGGCGGCTACCTGGCGTTCCGCTGCTTCGTCGATACGCAAAAGTGCGTGCATGTGTTTTCGGCAGGGTTCGAGTGCAAGGTGGGGGCGGCGGTTCCGGTATTGGTCAATACACCTGCATCCGCGTTGTCCGTCCAGACGTCTTGTGCCAGTAATTCGGTTGAATATGAATTGATGGTGGATGATCAAAGCCAGATTCACGAGGTTTTGCAGCGGGGTGGTGTTATTGGCTTTGCTTTTCCAATCAATTCCGGTTTGTTCAAGGTTGTCCGGTACAGCCTGGAGGGCGCAAGCGAGGCCATGGGATATGTGAAGAAATATACGGTCGAACAGGCGGCGAGCGAGATTTTGCTTTGA	MTKFFIAIVGVVFSSLVAASTVVETFADWSVIHAKDSVDLIAITQNKAGGYLAFRCFVDTQKCVHVFSAGFECKVGAAVPVLVNTPASALSVQTSCASNSVEYELMVDDQSQIHEVLQRGGVIGFAFPINSGLFKVVRYSLEGASEAMGYVKKYTVEQAASEILL				NA	NA	NA	NA	NA
BMS010_07776	7782			hypothetical protein	ATGACGGCGCCGTTTATTCTGGCGACAGCTATTTATAAGCTGTCAAACGGAACGGCTGGGCTGGATAGTTATGTAGATATCGCAGCCTTGATTGCGCTGAAGACCAGTAATGTCGCTTTAGGTAGGGTGGCGCTGTCATTCTCGGTAGGGTACAAGCTTGGAAGTTATATCGATTCGAAATGGGGCGATAAACTGGATGCTCGTGTGGGTGAATACTCCACTCAAGTGGGGGACTATTATGCTGAACTAACCGGGTCTTCTCAGTTTGGTGCGGTCATGAGTGGTGTGGCTCATGCCTTCTATTCGGTCGCATTGCTACCCCAGGAGGTAGGGCCGATTAAAGAGCTGAATTCGTGGATAAGCGAGCAGCAGCTATTGGACCCCGTATTCAAGTTGTTCGATAATACTGCTGGATTTGCAAGTGAGAAGGTGTTTGGCTCAATTCCTGAGATTTCTTCCAGTGTCAAAAATGACTTCTCTCTGGCTGTCAATAATGTATCGGTTCTAGAGGAGAAATCTCCTGTCGATCATGAGGCTGCCGCTGCGCAAGTGAGCAATGGCTTAGTTTCGAGTGGTGGAGGTTGGAAGCTCGGCTACGATGCAAACAAACTCAATTCAAACCAGTACCAAGGTGATTGGATAAACAACACCTTCACTGCCGCCGCAACCCAAATCCTCGCTGACGGCTATCGACCGGGCAATGGCAACACCGTCAAGGACGTATTCGATTTCAGCCTGCGCAGTGCGACGCAGGGCTTTTCATACGATCCCCGTAAATCCGGCGCCCTGCTCAATTCGGGCAATGCCCAGGCGCGATTGACGCTGCCGACCGATCCGCTGGTGCTCGATCTGGATGGCGATGGGGTCCGTCTGACCGACTATGTCAGTGCGCCGGTGCTGTTCGATATCGATAACGACGGCGGCAGCCTGGAGGAAACCGGCTGGGTGAGTTCGGGCGATGGGATCGTCGTGGTCGACCGCGATGGTAACGGCAAGATTGACCATATCGGAGAGACCCTCTCCGAATATTTCGGCGGCGCGGCGGGCAGCGGCGGTAATGCGGGCGAGAAGCGCTTCAAGAATGGCTTCGATGCGCTGAAGAGCCTGGACAGCAACGGCGACGCTGTTTTCGACGACAAGGACGCCGCCTGGTCCAGCGTCAAGGTGTGGGTGGATGGCAACCATGACGGCAAGAGCTGGGACGACGCCAACGGTAACGGCGCCGTGGACGCGGGCGAAGCGAGCGAGTTGAAATCGTTGTCGGCGCTCGGTATCTCCCGGATCGACTTGGCCTATGCGGAGCAGAGTGGCGAGGTGCGGGATGGCAACGAGGTGCTGGCCAGCGGCACCTTCGTACAGAACGGTTCGACCAAGGAAGCCGTTGCCGCCAATTTCCTGGCCAACCCCAATGGCCATACCTTCACGGCGAGCGGCTCGGGCGTGGTCATCTCGACCCAGGGCAGTGGGCAAGCCGCTCCGGTCAGTGCCTATGCCTCTTCGTCGAAGACCGGCGAAACCATCGACGTCGCGCAGAAAGGCGTGAATAACGCCACGGGCGGCTCGGGTGACGATGTGCTTATCGGCGATGCCGGGACCAACTGGCTGGCGGGTGGCCAGGGCAGCGATACGTTCAACGCCGGCGCGGGCGACGATGTGCTGCTGATCGATGCCGACGATTCACAGCTCAATATCCATGGTGGCGACGGGACCGACATCGTTCAGGTCATTGGCGATCAGGGCGTCGTCCTCAATCTGGCGCAGGCTGAAGTGGAGATTGCCCAAGGTGGGCGCGGGAACGATGTATTCATCGGCGGCGGGGCGAGCACGGTCTATATGCGCGGCGGCGATGGCGACGACGTGTTGATCGGTGGGGCTGCCAATGATGCCTTGTCCGGGGAAAACGGCGATGACTGGATCAACGGCGGGGCCGGCAACGATGTGCTGCGCGGGCACCGAGGGCGCGACCAGATCCAGGGCGGGCTGGGCGATGACCTTATCGACGGCGGCCTGGACGACGATCATCTGAGTGGCGGTGCCGGCGATGATGTGCTGATGGGCGGCGCGGGCGACGACACGCTCGACGGCGGGGAGGGGACTGATGTCATCGAGCTGTCGGGCGAGTTCTCCGAATACCGCTTCACCCAAACCCAGGAAGGGGTCTGGATCAGCGATACGGTGGCGGGTCGGGATGGCACGGACTTCGTCACGAACGTGGAAAAGGCTAACTTCAAAAACCTGAAGCTGGTGGATATCCCCGGCACTGCCAGTTCGGGTATGGAAAATCCGCTGGTAACCAAGGATGTGTTGGATAAGGACAAGACAGGCGCGGCTTTCGGACGCACCCGTGCGCATCTGATCGGCAAGGAGCAATTGCTGGCCAACGATATCGATTGGCAGAACGATGCCTTGCGTATCGTCGGACTTTACGAGGTCACTGGTGGCAAGGCTGTGCTGACCAAGACGGGGGATGTGCAGTTTACACCGGACCCCGGTTTCACTGGCGTCATGAGCTTCAAGTACAGCGTGGCCGACACCAAGGGTAACAAGGCCGCCACCATTGTGGACCGTTCCAGCGGTGAAAGTGCCGTGATGCGCGCGGCGGTATTCCTGCGAACGCCGGATTTGCCCATCGATCCGCTGGTAACCGATCAGTGGTATCTGTCTCAGGCCAACATATTGCCGGTCTGGAAAGACTATACGGGCAAAGGCGTGCGGATCGGCCAGTTCGAGACCAATGGCCCATTCGGCACGACCAAGGAAATCCTCGATTACCGGCACGCCGATCTGAAGGAGAACATCGACCCGGACTGGCTGGCGAGTGCCGTCCCAGGCCAAATGGCGGGCGAGGGCAGCGGTGGCAAGTTCAGCGACCATGCCACGCTGGTGGCTGGCGTCATGGTGGCCGCTCGGAATGGTGAGGGCGGTGTCGGGGTGGCCTACGACGCAACGCTCGGCGGGCATTGGCTCGACAAGGATGACTTCACCAGCCTGGATTACATGCGCGATTACGACGTAGTGAACCATAGTTGGGGGAGTAGCTCCCGGTTCGACCTGCGCTTTACGCCTGCCGAGCTGGGCAATATGCCAGATGCCTACCGTCGTGCTCTGCGCGAGGGGCGGGATGGCTTGGGAACGGTGATTGTCACGGCGGCGGGTAACGACCGGGCGGCAGGGGGCAACGCCAATTATTCGAACGTGACGAATACTCGCAGCAGCATAGTAGTCGGCGCGATCAATGCGTCTACCGACCTGGGCGCCTTGCAACTGGGAGGCAAACCGTTTTCCAGTCCAGGGGCCAGTATCCTGGTCAGCGCGCCAGGGTCCAACGTGACGTCTACTTCACGCTTGGTACAGAACGACAACGGTTCTACGTTCGGTGCCGATGCTTCGGTTTCGCAAGGAACCAGTTTTGCTACTCCCATTGTCTCCGGCATCGTGGCATTGATGCTGGAAGCCAATCCTGCTTTGGGGTACCGGGATGTGCAGCAGATACTGGCACTTTCCGCAAAAAAGGTTATCGATCCGGCGACCGTTTGGAAGGACAACGGCAGTAAGAATTGGAACGGCGGCGGCATGCATGTGAGCCATGACTATGGCTACGGCGAAGTCGATGCCCGCGCTGCCGTGCGCTTGGCAGAAACATGGAATACCCAGCAAACCTATGACAATGAATATCGCTTGGTTGCCCCTCTGCGATCCGGTCCCCTCGATAGTGCTATCCCTGATGGAGTGACGTCCGGCCTCAGTCATACCCTGACGATAGAGGGTGTCGATTTGCTGGTGGAGCATGCCGAGGTTCGGGTGAGTCTGACTCATGCTCGACCCGGCGATCTGATCATCAAACTGATTTCGCCTTCCGGGACCGAGTCGATTCTGATGGCTCGTCCGGGTAGAGCGCCCTCTGGTTCGCTAGCCGAGCGCGGAGATGAGACCTTCGCTGGGGTGCATGCGCTGGATTATGTCTTCGACACTGCGTTGCTGAGGGGGGAGCAAGCTGCGGGCAAGTGGACATTGCAAGTCATCGATACCGTAACAGGCGATATCGGAACGCTTAACGATTGGAGCCTCAATGTTTATGGCCAGGGAGAGACCCTGGACGACCAGTACGTATATACGAATGAGTACGCCCTATTGGCCGCGACGGGAAAGCGCAACGTTTTGAACGACACGGATGGTGGAGTCGACACCATAAACTCTGCGGCGATCAGCGGTATCAGCCGAATAGATCTTTCGACCGGAGTGGCGACCCTGGCTGGAACTCGGTTGACCATACAGAACCCTGGCCAGATAGAAAACGCGATTGGCGGCGAGTTTGGCGATGTCCTGATTGGTAATGGAGCGGCAAACACGTTGGTTGGAGGGCGCGGTAATGACGTTCTCTCGGGCGGCGCTGGAAATGATCTGCTGATCGGTGGCCAAGGTAACGATACGCTGACGGGCGGAGTGGGGACGGACTATTTCGTCGTCGACAGGAACCCGGGCGAAACCGACGTAATCAATGATTTTCAGGTCGGTATCGATCGGTTGGTGCTGTCTGGCTTCAGCTCACTTGTGCATCCGGCCTTGAAGGTGACGAAGCAAGGCCTCGATACCCGTATCGATCTGCCCGGCGGACAGTCCGTACGGTTGCTCAAGGTCGATGCGACCAAGTTTTCTCTCGATGGCCTCGTCTATGTGGAAGATGGATTGAAGCTGAGCCAATTGGCTCAACATTCTGGACACGGCTTCGGCAATGGTGGGGTTTCCGGTGAGCGGGTTCTTCCTGACGCCGTGAAAGGCATCGTTTATTGGGCTGGCTCTGCTGGTGAACGGGTTTTTGGCGGGACAGGGGATGATGCCGTTTATGGTGGGCATGGGAATGACGTGCTGGTCGGCGAGAACTCAACGAGCGGCGTGATCGGTGGTAACGATACGTTGAAAGGTGGTGCGGGCAGCGATGTCGTTCGAGGCGGTGCCGGGAATGATGTGCTGTATGGCGGCGATGGATTGGATTACCTGGGAGGTGATGCGGGAGATGACACCCTTTACCTGGAAGGAGATCAGGGGGCTTCTGATTATGCCTCCACCACGCTGCTGGCCCCGCGTATCACCGTCAATGGCGTTACCTTGACCGGGGCGGCTGTAGCCGGTGGTACGGGAAGTGATCGTTTCATTGTGGTTCTGGATAACCGGGAAACCGCCTCTCAGGGTTTGATGGCGAATCTGATCGAAGACTTCGAAGTTGGTAACTTGGAAGAGAAAATCGATCTGTCCCAATTCCATAAGATCCGGGCTTTCTCGGATTTGGCCTTCTCGGACCTGAGCATCAATGGGCAGCATTATTTGCGCGTATGGCTAGGACCGCAGGCGAGCGGCACGCACTACCTCACTTTGAAAGGTGTGAAGGCCGAACAACTTTCTACTGCCAATTTCATCTTCTCCGACGCAGCAGAAATTCCGAGGGCACTCATCGCTGGCTCTTCCATCGACGATCTCCTTGTCGGCGATGCGGGCGGCAATGTCCTCGATGGTGGCAAGGGCGCCGACATCATGGAAGGACGTAGCGGGGATGATACCTATGTCGTCGATGACGCCGGCGATCTTGTCAAGGAAGCGGCCGGCGGGGGGCATGACGTCATCAAGTCCAGCGTCAGCTATGTGTTGCCGGATGAGGTGGAGGTGCTGGAACTGACGGGTATGGCAGCGGTCGACGGAGCCGGCAATGGCTTGACGAATCGCTTGGTCGGTAACTCTGCCGACAATGTCCTGGATGGTAAAGGTGGCTCCGATGTGCTGGTCGGAGGGAAGGGTAACGATACCTACATCGTCGATGATGGTGCGGATCGCGTGGTGGAGATAGCAGGCGAAGGGATCGATACGGTCAAATCGTCCGTTTCCTTTACGTTAGCGAATAATCTGGAGAACCTGGTCCTTACAGGAGCCGCACAGATCAATGCAACGGGTAATAGCGCGAACAATTCGCTGATCGGCAACGCTGCGGATAACCGCATCGATGGCGCACAGGGCGCAGACTCGATGGCAGGCGGTGCGGGTAACGACACCTATTTCGTCGACAATATTGCCGATGTGGTGAAAGAGGCCGTTGACGAGGGATTCGACCAGGTCGTTTCCACTGTTAATTTCACTCTGGCTGAGCACGTCGAGAGGCTTGTATTGTCGGGGCCGGCTTTGAATGGCACAGGTAACGGTCAGGACAACGAACTGATAGGCAACGACCTGGGGAATCGGCTGAGTGGTGGTTCAGGCAACGATTTCCTTGATGGAGGCGCAGGCAACGATGTTTTGATCGGGGGTCTTGGTAATGACCACATGAAGGGTGGCGCTGGCAATGATCGATATCTCTTTGCCCCAGGCGAGGGGCAAGATCGGATTGTCGAGGATTTGTCCAAGGCATCGGGCGGCATAGATTCGATTGTGCTGGGCGCTGGCATCGGCGAGAAAGACGTTGCCGTCGACCATGGGGAACAAGGCATGATTCTCCGTTTGCGCGACGGGCAGCAGATCATCTCGCCGTGGACGGTTGCCGGTGGTCATGCCATTGAGCGGATCGAGTTTGCCAACGGTAAGGTTTGGGATACTGCGAAGCTCAGTACTGTGCCGAACCGGCAGCCCATAGTAAAAACGCCTATCGCCGATCAGGTGGCGTTGGAAGATCGGCGCTTCGTTTATGCACTTCCCGTAACTGCTTTCTACGATCCTGATGCTGGGGATGCCCTGACGTTTACGGCTACCCTTTCGGATGGTAAGTCCCTTCCCACGTGGTTGGAATTCAATACGGTCAGCCGCACGTTCAGCGGTACGCCGGCCAATGGAGACGTTGGTGTGCTGTCCGTGCGGGTCACCGCTATGGATAAAGCAGGATTGGCAGCTTCGGACATCTTCGATATCAAGGTGGCGAACGTTAATGATGCGCCAGTGGTCTCTCGACCAATTCCCGATCAGAGCGTAGTGCAAGGCCGGGGATTCAATCTCCAGGTTCCAACAGAATCTTTCTCGGATATCGATGCAAATGACCAGCTTACGTATCGCGCTACTCTGGCTAGCGGTGCCGCTCTACCTGGTTGGCTGACGTTCGATGGAGCGACGCGAACCTTCAGCGGCTTGCCTTCCAGTTCCGGAACCACGGTAGTCAAAGTCAGTGCGACGGATAAGTCAGGAGCGTCTACAAGCGATCTGTTCAATATCGTCGTGGAGCCGCCTCGTGACGTGGTAGGTACTGCGGGCTCGGATACGCTTGCCGTGGCTGCTCTGGGCGGAACTGTCGATGCTCTTGGTGGCGATGACACGTTGTTGGGTGGTGCCGGTGCCGACAGTTTGTTCGGTGGCTCAGGTTCCGATTGGCTCGAGGGCCAAGCTGGCAACGACTATCTGAATGGGGACTACGGTGGCGATACCTACGTTTTCAAACGAGGTGATGGGCAGGACACTGTCCATGACTTCGACCCTGATTCAAGTCACATCGATACGCTGTCGTTCGGTTCCGATATCAATGCCGAGCAACTATGGTTCCGCCGAAGTGGTCACGATCTGGAAATCGAGGTAGTTGGCACTTCAGACAAGGTGACCATAGAGAAGTGGGATTTCTGGGGTGGCGGTAGTTGGGAAAAAGCTCAGCACATCGAGCAGTTCCGCACCGCCGATGGCCGGGTCTTGTTGGATAGCCAGGTGGATCAGCTTGTCGAGGCGATGGCTGCCTTCGCTCCGCCTTCGGCTGGCCAGACGTCCTTGCCGCCGAACTATAAGGAGGCCTTGAATGCGGTTATTGCGGCTAACTGGCAATAG	MTAPFILATAIYKLSNGTAGLDSYVDIAALIALKTSNVALGRVALSFSVGYKLGSYIDSKWGDKLDARVGEYSTQVGDYYAELTGSSQFGAVMSGVAHAFYSVALLPQEVGPIKELNSWISEQQLLDPVFKLFDNTAGFASEKVFGSIPEISSSVKNDFSLAVNNVSVLEEKSPVDHEAAAAQVSNGLVSSGGGWKLGYDANKLNSNQYQGDWINNTFTAAATQILADGYRPGNGNTVKDVFDFSLRSATQGFSYDPRKSGALLNSGNAQARLTLPTDPLVLDLDGDGVRLTDYVSAPVLFDIDNDGGSLEETGWVSSGDGIVVVDRDGNGKIDHIGETLSEYFGGAAGSGGNAGEKRFKNGFDALKSLDSNGDAVFDDKDAAWSSVKVWVDGNHDGKSWDDANGNGAVDAGEASELKSLSALGISRIDLAYAEQSGEVRDGNEVLASGTFVQNGSTKEAVAANFLANPNGHTFTASGSGVVISTQGSGQAAPVSAYASSSKTGETIDVAQKGVNNATGGSGDDVLIGDAGTNWLAGGQGSDTFNAGAGDDVLLIDADDSQLNIHGGDGTDIVQVIGDQGVVLNLAQAEVEIAQGGRGNDVFIGGGASTVYMRGGDGDDVLIGGAANDALSGENGDDWINGGAGNDVLRGHRGRDQIQGGLGDDLIDGGLDDDHLSGGAGDDVLMGGAGDDTLDGGEGTDVIELSGEFSEYRFTQTQEGVWISDTVAGRDGTDFVTNVEKANFKNLKLVDIPGTASSGMENPLVTKDVLDKDKTGAAFGRTRAHLIGKEQLLANDIDWQNDALRIVGLYEVTGGKAVLTKTGDVQFTPDPGFTGVMSFKYSVADTKGNKAATIVDRSSGESAVMRAAVFLRTPDLPIDPLVTDQWYLSQANILPVWKDYTGKGVRIGQFETNGPFGTTKEILDYRHADLKENIDPDWLASAVPGQMAGEGSGGKFSDHATLVAGVMVAARNGEGGVGVAYDATLGGHWLDKDDFTSLDYMRDYDVVNHSWGSSSRFDLRFTPAELGNMPDAYRRALREGRDGLGTVIVTAAGNDRAAGGNANYSNVTNTRSSIVVGAINASTDLGALQLGGKPFSSPGASILVSAPGSNVTSTSRLVQNDNGSTFGADASVSQGTSFATPIVSGIVALMLEANPALGYRDVQQILALSAKKVIDPATVWKDNGSKNWNGGGMHVSHDYGYGEVDARAAVRLAETWNTQQTYDNEYRLVAPLRSGPLDSAIPDGVTSGLSHTLTIEGVDLLVEHAEVRVSLTHARPGDLIIKLISPSGTESILMARPGRAPSGSLAERGDETFAGVHALDYVFDTALLRGEQAAGKWTLQVIDTVTGDIGTLNDWSLNVYGQGETLDDQYVYTNEYALLAATGKRNVLNDTDGGVDTINSAAISGISRIDLSTGVATLAGTRLTIQNPGQIENAIGGEFGDVLIGNGAANTLVGGRGNDVLSGGAGNDLLIGGQGNDTLTGGVGTDYFVVDRNPGETDVINDFQVGIDRLVLSGFSSLVHPALKVTKQGLDTRIDLPGGQSVRLLKVDATKFSLDGLVYVEDGLKLSQLAQHSGHGFGNGGVSGERVLPDAVKGIVYWAGSAGERVFGGTGDDAVYGGHGNDVLVGENSTSGVIGGNDTLKGGAGSDVVRGGAGNDVLYGGDGLDYLGGDAGDDTLYLEGDQGASDYASTTLLAPRITVNGVTLTGAAVAGGTGSDRFIVVLDNRETASQGLMANLIEDFEVGNLEEKIDLSQFHKIRAFSDLAFSDLSINGQHYLRVWLGPQASGTHYLTLKGVKAEQLSTANFIFSDAAEIPRALIAGSSIDDLLVGDAGGNVLDGGKGADIMEGRSGDDTYVVDDAGDLVKEAAGGGHDVIKSSVSYVLPDEVEVLELTGMAAVDGAGNGLTNRLVGNSADNVLDGKGGSDVLVGGKGNDTYIVDDGADRVVEIAGEGIDTVKSSVSFTLANNLENLVLTGAAQINATGNSANNSLIGNAADNRIDGAQGADSMAGGAGNDTYFVDNIADVVKEAVDEGFDQVVSTVNFTLAEHVERLVLSGPALNGTGNGQDNELIGNDLGNRLSGGSGNDFLDGGAGNDVLIGGLGNDHMKGGAGNDRYLFAPGEGQDRIVEDLSKASGGIDSIVLGAGIGEKDVAVDHGEQGMILRLRDGQQIISPWTVAGGHAIERIEFANGKVWDTAKLSTVPNRQPIVKTPIADQVALEDRRFVYALPVTAFYDPDAGDALTFTATLSDGKSLPTWLEFNTVSRTFSGTPANGDVGVLSVRVTAMDKAGLAASDIFDIKVANVNDAPVVSRPIPDQSVVQGRGFNLQVPTESFSDIDANDQLTYRATLASGAALPGWLTFDGATRTFSGLPSSSGTTVVKVSATDKSGASTSDLFNIVVEPPRDVVGTAGSDTLAVAALGGTVDALGGDDTLLGGAGADSLFGGSGSDWLEGQAGNDYLNGDYGGDTYVFKRGDGQDTVHDFDPDSSHIDTLSFGSDINAEQLWFRRSGHDLEIEVVGTSDKVTIEKWDFWGGGSWEKAQHIEQFRTADGRVLLDSQVDQLVEAMAAFAPPSAGQTSLPPNYKEALNAVIAANWQ				NA	NA	NA	NA	NA
BMS010_07777	588	rsmD_2	COG0742	Ribosomal RNA small subunit methyltransferase D	ATGCGACAGCCAGCAGCGAAACGGCACGGCGGCCAGGGCCAGCTCCGCATCATCGGCGGCGAATGGCGCAGCCGGCGCTTCGCCTTCCCCGATGCCCCCGGCCTGCGGCCGACGCCGGACCGCGTGCGGGAAACCCTGTTCAACTGGCTCGCGCCCTATATCCAGGGCGCCCGCGTGCTGGACCCCTTCGCCGGTAGCGGCGCACTCTATTTGGAAGCCCTGTCGCGCGGTGCCAGCCAGGCCCTGGCGCTGGACCTCAACGCCGAGGCCATCGTCAGCCTGCGCCAGCACCTGGACACCCTGAACTGCGGCGCCGGGCAACTCCTGCAAAGCGACGCCCTGCGCTACCTGGAAAACCAGAGCCCGACACCTTTCGACCTGGTGTTCCTCGACCCACCGTTCAACCAGAACCTCCTCGCCCCCACCTGCACCCTGCTCGAAGCGCGCGGCTGGCTGGCCAAGGACGCCTGGGTCTACACCGAAAGCGAAACCCAACCCTCCTCCCTCGGCCTGCCGGCCAACTGGCGCCTGCACCGGGAGAAGAAGGCCGGGCAGGTGTATTACGCACTATGGCAACGGGACAGTTGA	MRQPAAKRHGGQGQLRIIGGEWRSRRFAFPDAPGLRPTPDRVRETLFNWLAPYIQGARVLDPFAGSGALYLEALSRGASQALALDLNAEAIVSLRQHLDTLNCGAGQLLQSDALRYLENQSPTPFDLVFLDPPFNQNLLAPTCTLLEARGWLAKDAWVYTESETQPSSLGLPANWRLHREKKAGQVYYALWQRDS				NA	NA	NA	NA	NA
BMS010_07778	1464			hypothetical protein	ATGACTGAGCGTACCGGCCAGCGTCACGGCCTGTTCGGCCCCGTCCTGCCCCTGCTGATCGCGGCCCTGGCGATGCCCGCCATCCCGGCCGTCGCGGACACTGCCGCCCCCCGTATCGAATCCCTTGCCAGCATTTCCAAGGAGGCTCCGGGCTACCGCAGCCTGGATATCCAGAGCTGGCGTACCGCCGAAGGCGCCAAGGTGCTGTTCGTCGAGGCCCGCGAGCTGCCGATGTTCGACCTGCGCCTGACCTTCGCCGCCGGCAGCAGCCAGGACGGCGACACCCCCGGCCTGGCCACCCTGACCAACGGCATGCTCAACGAGGGCGTGGCGGGCAAGGATGTCACGGCCATTGCCGAAGGCTTCGAAAACCTCGGCGCCGAATTCGGCAACGGCGCCTACCGCGACATGGCGGTGGCCTCGCTGCGCAGCCTGAGCGCGAAGGACAAGCGCGAGCCGGCCCTGGCGCTGTTCGCCCAGGTGGTGGGCAAGCCGACCTTCCCGGAAGACTCGCTGGCACGCATCAAGAACCAGTTGCTGGCCGGTTTCGAATACCAGAAGCAGAACCCTGGCAAGTTGGCCAGCCTGGCGCTGTTCGAGCGTCTCTACGGCCAGCACCCCTACGCCCATCCCAGCGAAGGCACCGAACAGTCGATCCCCGCCATCGGCATCGACCAGTTGCGCGCCTTCCATGCCAAGGCCTATGCCGCCGGCAACGTGGTGATCGCCCTGGTCGGCGACCTCTCGCGCAGCGAAGCCGAGGCCATCGCCGCCCAGGTCTCCAAGGCGCTGCCGGTCGGTCCCGCGCTGCCGAAGGTGGCGGAACCGCAGGCGCCCAAGGCCGGGCTCAGCCACATCGACTTCCCGTCCAACCAGACCCACCTGATGCTGGCCCAGCTTGGCATCGACCGGCGCGACCCGGACTACGTCGCGCTCTACTTGGGCAACCAGATCCTCGGCGGCGGCGGTTTCGGCACCCGCCTGATGGAAGAAGTGCGGGAGAAGCGTGGGCTGACCTACGGCGTCTATTCCGGTTTCAGCCCCATGCAGGTAGCCGGTCCGTTCATGATCAACCTGCAAACCCGTGCCGAACTGAGCGAAGGCACCCTGAAGCTGGTACAGGACATCGTCCGCCGCTACCTCGCCGGAGGCCCGACGCAGAAGGAACTGGACGACGCCAAGCGCGAACTGGCCGGCAGCTACCCGCTGTCCACCGCGAGCAACGCCGACATCGTCGGCCAGCTCGGTGCGATCGGCTTCTATGACCTGCCGCTGACCCACCTGGAAGATTTCATGGAGAAGGCCCAGACGATGGATGTCGAACAGGTGAAGGCGGCCATGGCCCGTCACCTGGACCCGGACGCCTTCGTCATCGTCACCGCCGGGCCGACCGTGGCACAGAAAGAACTGCCGCCGCCCACCGACAAACCCAGACAAGAACCTATCGGGGTTCCGGAGCACTGA	MTERTGQRHGLFGPVLPLLIAALAMPAIPAVADTAAPRIESLASISKEAPGYRSLDIQSWRTAEGAKVLFVEARELPMFDLRLTFAAGSSQDGDTPGLATLTNGMLNEGVAGKDVTAIAEGFENLGAEFGNGAYRDMAVASLRSLSAKDKREPALALFAQVVGKPTFPEDSLARIKNQLLAGFEYQKQNPGKLASLALFERLYGQHPYAHPSEGTEQSIPAIGIDQLRAFHAKAYAAGNVVIALVGDLSRSEAEAIAAQVSKALPVGPALPKVAEPQAPKAGLSHIDFPSNQTHLMLAQLGIDRRDPDYVALYLGNQILGGGGFGTRLMEEVREKRGLTYGVYSGFSPMQVAGPFMINLQTRAELSEGTLKLVQDIVRRYLAGGPTQKELDDAKRELAGSYPLSTASNADIVGQLGAIGFYDLPLTHLEDFMEKAQTMDVEQVKAAMARHLDPDAFVIVTAGPTVAQKELPPPTDKPRQEPIGVPEH	PGPT0001280_2770	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLUCONIC_ACID-PQQ_PATHWAY,PGPT0001280-pqqL|yddC-K07263	NA	NA
BMS010_07779	1356		COG0612	putative zinc protease	ATGAATGCGATTGCCCGCCATGCCGCCGGCCTGCTGTTCGGCGCTCTCTCACTGCCGATGCTGGCAGTGGCCGCCGATCCCCAACCCACCCACGAATTCACCCTGGACAACGGCCTCAAGGTCATCCTCCGCGAGGACCACCGCGCACCGGTGGTGGTGTCCCAGCTCTGGTACAAGGTCGGCTCCAGCTACGAGACGCCCGGGCAGACCGGCCTGTCCCATGCCCTCGAACACATGATGTTCAAGGGCAGCCGCAAGCTCGGCCCCGGCGAGGCCTCGCGCATCCTGCGCGAACTCGGCGCCGAGGAGAACGCCTTCACCAGCGACGACTACACCGCTTATTACCAGGTCCTGGCCCGCGACCGCCTGCCGGTGGCCTTCGAACTGGAAGCCGACCGCCTCGCCAGCCTGCGCCTGCCGGCCGACGAGTTCGCCCGCGAGATCGAGGTCATCAAGGAAGAACGTCGCCTGCGCACCGACGACAAGCCCAACTCGCTGGCCTACGAGCGCTTCAAGGCCATGGCCTTCCCCGCCAGCGGCTACCACACGCCCACCATCGGCTGGATGGCCGACCTCGAGCGCATGACGGTCGAGGAGCTGCGCGCCTGGTACGAAAGCTGGTACGCGCCGAACAACGCCACCCTGGTGGTGGTCGGCGACGTCACCGAGAAGGACGTCAAAGCCCTCGCCCAGCGCTATTTCGGCGATATCCCGCGCCGCCAGGTGCCACCAGCGAAAATCCCGCGCGAGCTGAGCGAGCCCGGCGAACGCCTCATCACGCTGCACCTCAAGACTCAGTTGCCGAGCCTGCTGTTCGGTTTCAATGTGCCCAGCCTCACCACCGCCGGGAACCCGCGGGAGGCCCATGCCCTGCGCCTGATCGCCTCCCTCCTCGATGGCGGCTACAGCGCCCGCCTGCCGTCGCGCCTGGAGCGCAGCGAAGAGCTGGTGAGCGGCACCTCCGCCTGGTACGACGCCTCGACCCGGGGCGACAGCCTGTTCGTGCTGTCCGCCACCCCCAACGTGCAGAAGGGCAAGACCCTGGCGGACGTGGAGGCCGGCCTCTGGCGCGAACTCGAAGACCTCAAGAAGAATCCGCCCTCCGCCGCCGAGCTGGAGCGCGTGCGCGCCCAGGTCATCGCCGGCCTGGTCTACGAACGCGACTCCATCACCAGCCAGGCCACCGCCATCGGCGAGCTGGAAAGCGTCGGCCTGTCGTGGCGGCTGATCGATGAAGAACTGGACGCCCTGAAGGCCGTCACCCCGGCCGATATCCAGGCCGCCGCCCGCACCTATTTCACCCGCTCGCGCCTGAGCGTCGCCCACATCCTGCCCGAGGAAGCCCGCCATGACTGA	MNAIARHAAGLLFGALSLPMLAVAADPQPTHEFTLDNGLKVILREDHRAPVVVSQLWYKVGSSYETPGQTGLSHALEHMMFKGSRKLGPGEASRILRELGAEENAFTSDDYTAYYQVLARDRLPVAFELEADRLASLRLPADEFAREIEVIKEERRLRTDDKPNSLAYERFKAMAFPASGYHTPTIGWMADLERMTVEELRAWYESWYAPNNATLVVVGDVTEKDVKALAQRYFGDIPRRQVPPAKIPRELSEPGERLITLHLKTQLPSLLFGFNVPSLTTAGNPREAHALRLIASLLDGGYSARLPSRLERSEELVSGTSAWYDASTRGDSLFVLSATPNVQKGKTLADVEAGLWRELEDLKKNPPSAAELERVRAQVIAGLVYERDSITSQATAIGELESVGLSWRLIDEELDALKAVTPADIQAAARTYFTRSRLSVAHILPEEARHD	PGPT0001280_4100	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLUCONIC_ACID-PQQ_PATHWAY,PGPT0001280-pqqL|yddC-K07263	NA	NA
BMS010_07780	1371	ftsY_1		Signal recognition particle receptor FtsY	ATGTTTGGTTCCAACGACGACAAGAAGACCCCGGCTGAGGCCGGCGAAAAGAAAAGCCTGTTCGGCTGGCTGCGCAAGAAGCCCCAGGAGCAGACCGGCGAACCGGCCCGCCCCGAGCCGACGCCCGAGGCATCGGCGCAGGGCAGCGGCGAACCCGCCGCCCCGCTGACGCCGAGCGCACCCCAGGCGGCGCAGACCCCGACGCCGGCCGAAACTACTCCCACCGCCCCGGTGTCTCCGCCTGCCGAGCCCGCGTCGCAGGAGCAATCGCCGGCCGCTTCCCCCGAAGCGAGCGGCGACACTCCCCGGCCGGCCACCTCGCGCTTCCGCATCAACGCCGGCAGCGAATTGCTGCATGAGCACATCGAGCCACCTGCCGCACCGACCGAACCCAGTCCGGTGGTGCCTCCGGCCGTCGAACCGCCCAAGGCCGAGGACAAGGTCGGCTTCTTCGCCCGTCTCAAGCAGGGCTTGTCGAAGACCAGCGCCAGCCTCGGCGAAGGCATGGCCAGCCTGTTCCTCGGCAAGAAGGCCATCGACGACGACCTGCTCGACGAGATCGAAACCCGCCTGCTGACCGCCGACGTCGGCGTCGAGGCCACCACCGCCATCGTGCAGAACCTGACCAAACGCGTGGCGCGCAAGGAGCTGGCCGACAGCGGCGCGCTGTACAAGGCACTCCAGGAAGAGCTGACCGCGCTGCTGCGCCCGGTGGAGCAGCCCTTGAAGATCGACACGGCCAAGGCGCCCTACGTGATCCTGGTGGTGGGCGTGAACGGCGTCGGCAAGACCACCACCATCGGCAAGCTGGCCAAGAAGCTGCAACTGGAAGGCAAGAAGGTGATGCTGGCGGCCGGCGACACCTTCCGCGCCGCGGCGGTGGAGCAACTGCAGGTCTGGGGCGGGCGCAACAACATCGCGGTGATCGCCCAGCACACCGGCGCCGATTCGGCCTCGGTGATCTTCGATGCGGTGCAGGCCGCCAAGGCACGCGGGATCGACGTGCTGATCGCGGATACCGCCGGCCGCCTGCACACCAAGGACAACCTCATGGAGGAGCTGAAGAAGGTTCGCCGGGTGATCGGCAAGCTCGACGAGACGGCACCCCACGAGGTGCTGCTGGTGCTCGACGCCGGCACCGGGCAGAACGCCATCAACCAGGCCAAGCAGTTCCACCAGGCGGTGTCGCTCAGCGGCCTGGCCCTGACCAAGCTGGATGGCACCGCCAAGGGCGGGGTGATCTTCGCCCTGGCCAAGCAGTTCGGCCTGCCGATCCGCTACATCGGCGTCGGCGAGGGCATCGACGACCTGCGCGCCTTCGAGGCGGAGGCCTTCGTCCAGGCCCTGTTCGCGGAAAGAGAGCACGCATGA	MFGSNDDKKTPAEAGEKKSLFGWLRKKPQEQTGEPARPEPTPEASAQGSGEPAAPLTPSAPQAAQTPTPAETTPTAPVSPPAEPASQEQSPAASPEASGDTPRPATSRFRINAGSELLHEHIEPPAAPTEPSPVVPPAVEPPKAEDKVGFFARLKQGLSKTSASLGEGMASLFLGKKAIDDDLLDEIETRLLTADVGVEATTAIVQNLTKRVARKELADSGALYKALQEELTALLRPVEQPLKIDTAKAPYVILVVGVNGVGKTTTIGKLAKKLQLEGKKVMLAAGDTFRAAAVEQLQVWGGRNNIAVIAQHTGADSASVIFDAVQAAKARGIDVLIADTAGRLHTKDNLMEELKKVRRVIGKLDETAPHEVLLVLDAGTGQNAINQAKQFHQAVSLSGLALTKLDGTAKGGVIFALAKQFGLPIRYIGVGEGIDDLRAFEAEAFVQALFAEREHA	PGPT0025740_1524	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025740-ftsY-K03110	NA	NA
BMS010_07781	669	ftsE_2	COG2884	Cell division ATP-binding protein FtsE	ATGATCCGTTTCGAACAGGTCGGCAAGCGCTACCCCAACGGCCACGTCGGGCTGCACGAGCTGTCCTTCCGGGTGCGCCGGGGCGAGTTCCTCTTCGTCACCGGCCACTCGGGCGCGGGCAAGAGCACGCTGCTGCGCCTGATCCTGGCGATGGAGCGTCCGACCACCGGCAAGCTGCTGCTCGCCGGACAGGACCTGGCGCAGATCACCAATGCGCAGATTCCCTTCCTGCGCCGGCAGATCGGCGTGGTGTTCCAGAACCACCAGCTGCTGTTCGATCGCACGGTGTTCGACAACATCGCGCTGCCGTTGCAGATCCTCGGCCTGCCCAAGGCGGAGATCGCCCAGCGGGTCGGTGCGGCGCTGGAGCGGGTCGCCCTGCACGAGAAGGCCGAGTTGTACCCGGCCGACCTGTCCACCGGTCAACAGCAGCGCGTGGGCATCGCCCGGGCGGTGGTGCATCGCCCGGCCCTGCTGCTGGCCGACGAACCCACCGGTAACCTTGACCCGCGTCTGGCGGCGGAAATCATGGGCGTATTCGAAGACATCAACCGGCTAGGCACCACGGTGCTGATCGCCAGCCACGACCTGGCGCTGATTGCGCGCATGCGTCACCGCATGCTCACCCTGCAGCGTGGCCGCCTGATCGGCGATGGGGAGGCCGGCTGA	MIRFEQVGKRYPNGHVGLHELSFRVRRGEFLFVTGHSGAGKSTLLRLILAMERPTTGKLLLAGQDLAQITNAQIPFLRRQIGVVFQNHQLLFDRTVFDNIALPLQILGLPKAEIAQRVGAALERVALHEKAELYPADLSTGQQQRVGIARAVVHRPALLLADEPTGNLDPRLAAEIMGVFEDINRLGTTVLIASHDLALIARMRHRMLTLQRGRLIGDGEAG	PGPT0020520_4234	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020520-metN-K02071	NA	NA
BMS010_07782	1026	ftsX	COG2177	Cell division protein FtsX	ATGAGCGCGACCCGCGTACCGCCACCGAAGCCGGCCGAGCGCGTCGGCGCGACGCCGAAGCCCAAGGCGGAGAAACCGGCGAAGAAGGACGACGACGGCCCGGATTTCCAGGCCCTGCTGCACGCCTGGCTGGAAAGCCATCGCGCCAGCCTGGTCGATAGCCTGCGGCGTCTGGCGCGGCAGCCGGTCGGCAGCTTCTTCACCTGCCTGGTCATGGCCATCGCCCTGAGCCTGCCGATGGGCCTGGCCCTGCTGCTCGACAACGTCGAACGGCTGGGCGGTTCCTGGCAGCGTGCCGCACAGATCTCCCTGTTCATGCAGCTCGACACCAGCGACAGCGAAGGCGAGCGGCTCAGCGCGGAAATCGCCGACATGCCGGACGTGGCGGAGGCCGAGTGGGTCAGTCGCGAACAGGCGCTGACCGAGCTGCAGCAGCATTCGGGCATCGGCGAGGCGCTCAAGGAGCTGCCGGAAAACCCGCTGCCCGGCGTTATCGTGGTGACCCCCGAAGAAATCGACAAGGCTGGCCTGGAGGCCCTGCGCCAGCGCCTGTCGGAGTTGCCACGGGTGCAGCAGGCACAGCTCGACATGCAGTGGGTCGAGCGGCTGACGGCGATCCTCAAGCTCGGCGAGCGGTTCGTCTTCGGCCTGACGTTGATCCTGGTCATGGCGCTGCTGCTGGTGATCGGCAATACCATTCGCCTGCACATCGAGAACCGCCGCACCGAAATCGAGGTGATCAAGCTGGTGGGTGGAACCGATGGCTACGTGCGGCGTCCTTTCCTGTACATGGGTGCACTTTACGGACTGGGCGCCGGGTTGCTGGCCTGGGCGATCCTGGCCTTCGGCCTGGATTGGCTGAACGAGGCGGTGGTGCGCCTGGCTGGCCTCTACGGCAGCGACTTCGCCCTGGCCGGCGTTCCTCTCGGAGATGCGGTCTCCCTGGTGCTGGGCGCGGTGCTGCTGGGTTACATCGGTGCCTGGCTGGCCGTGGCGCGGCATCTGAGCGAGCTGGCGCCTCGTTGA	MSATRVPPPKPAERVGATPKPKAEKPAKKDDDGPDFQALLHAWLESHRASLVDSLRRLARQPVGSFFTCLVMAIALSLPMGLALLLDNVERLGGSWQRAAQISLFMQLDTSDSEGERLSAEIADMPDVAEAEWVSREQALTELQQHSGIGEALKELPENPLPGVIVVTPEEIDKAGLEALRQRLSELPRVQQAQLDMQWVERLTAILKLGERFVFGLTLILVMALLLVIGNTIRLHIENRRTEIEVIKLVGGTDGYVRRPFLYMGALYGLGAGLLAWAILAFGLDWLNEAVVRLAGLYGSDFALAGVPLGDAVSLVLGAVLLGYIGAWLAVARHLSELAPR				NA	NA	NA	NA	NA
BMS010_07783	855	rpoH_2	COG0568	RNA polymerase sigma factor RpoH	ATGACCACGTCCTTGCAACCTGTCTATGCCCTGGCTCCCGGTGCGAACCTGGAGGCCTACGTGCATGCGGTGAACGGCATCCCGCTGCTCACCCAGGAACAGGAGCGCGAACTGGCCGAGCGCCTCTATTACCACCAGGACCTCGAGGCGGCACGGCAGATGGTGCTCGCGCACCTGCGCTTCGTCGTACACATCGCCCGCAGCTATTCGGGTTACGGCCTGTCCCAGGCCGACCTGATCCAGGAAGGCAACGTCGGCCTGATGAAGGCCGTCAAGCGTTTCAACCCCGAGATGGGGGTACGGCTGGTGTCCTTCGCCGTGCACTGGATCAAGGCGGAAATCCACGAGTTCATCCTGCGCAACTGGCGTATCGTCAAGGTCGCGACCACCAAGGCGCAGCGCAAGCTGTTCTTCAACCTGCGCGGGCAGAAGAAGCGCCTGGCCTGGCTGAACAACGACGAAGTGCACGCGGTGGCCGAGAGCCTCGGTGTCGAGCCGCATGAAGTGCGCGAGATGGAGAGCCGGCTGACCGGCCAGGACATGGCGTTCGACCCGGCGGCCGATGCCGACGACGACAGCGCCCACCAGTCCCCGGCCTATTACCTGGAGGACCATCGCTACGACCCGGCGCGCCAACTGGAAGACGCCGACTGGAGCGACAGCTCCACCAGCAACCTGCACGAAGCGCTGGAAGGCCTGGACGAGCGCAGCCGGGACATCCTCTACCAGCGCTGGCTGGCCGAGGAGAAGGCGACCCTGCACGACCTGGCCGCCAAGTACAACGTCTCCGCCGAGCGCATCCGCCAGTTGGAGAAGAACGCCATGAACAAGCTCAAGGGTTCGATACAGGCGTAA	MTTSLQPVYALAPGANLEAYVHAVNGIPLLTQEQERELAERLYYHQDLEAARQMVLAHLRFVVHIARSYSGYGLSQADLIQEGNVGLMKAVKRFNPEMGVRLVSFAVHWIKAEIHEFILRNWRIVKVATTKAQRKLFFNLRGQKKRLAWLNNDEVHAVAESLGVEPHEVREMESRLTGQDMAFDPAADADDDSAHQSPAYYLEDHRYDPARQLEDADWSDSSTSNLHEALEGLDERSRDILYQRWLAEEKATLHDLAAKYNVSAERIRQLEKNAMNKLKGSIQA				NA	NA	NA	NA	NA
BMS010_07784	600			hypothetical protein	ATGCCCATGCCGCCGCTACGCCCCCAGCACTGGCTGGTCTTCGCCCTGGTGGCGGTGCTGTTCTTCGGCTGGGGCGTCTGGCTGATGCTGGCCCGCCAGGGCGAGCCGCTGCCTTGGATGGCGGAATGGCAGGAGCGCTTGCTGGCGCCGCTGGCCGAGGATCGTCTGACGCTTGCTGCCTTGGGCGAAGAGGTGGAGGGTGAACTCTGGCTTCAGCCGCGCCTGGACGAGCCACGGTTGCTCTACCGGGGGCAGGTCGGCGACGCGGACGAACTCTGGCTGCTCGAGGCCGAGCTGGCGCTGAGCGACCGCGAGCGCGCCAGCCTGACGAAAGCCACCGGGTTGCGACCCACCGATGCCGAACAGCCGCTCAGCCGCCAGGTTAGCGATGAACTCGGCAGCCACGCCATCGCCATCCTTCGCCTGAAACCCGAGGCCCCGATGGCAGCCGAGCGCCTGGTCGCCAGCCTCGGCCAGCCGCGTCTGCGCCTGCAACTGGCCGAAGGCGAGGCCTGGGTCTACCCGGACCTCGGCCTGACCGCCCACCTGCGGGACGATGAGGTGGTGTTGCTGCACAGCGTTCCGCGCCGGGCCTTGTAG	MPMPPLRPQHWLVFALVAVLFFGWGVWLMLARQGEPLPWMAEWQERLLAPLAEDRLTLAALGEEVEGELWLQPRLDEPRLLYRGQVGDADELWLLEAELALSDRERASLTKATGLRPTDAEQPLSRQVSDELGSHAIAILRLKPEAPMAAERLVASLGQPRLRLQLAEGEAWVYPDLGLTAHLRDDEVVLLHSVPRRAL				NA	NA	NA	NA	NA
BMS010_07785	762	mtgA_3	COG0744	Biosynthetic peptidoglycan transglycosylase	ATGGCCCGCTCTCCCGTTCCGGCCAAGCCACGCATGCTCAGAAACCTGCTCCGCCGCCTGATCAAACTAGTGCTCTGGTTCGCCGCCGGTTCGGTGCTGCTGGTGCTGGTACTGCGCTGGGTGCCGCCGCCTGGCACCGCGCTGATGGTGGAACGCAAGCTGGAAGCCTGGAGCGACGGCCGCGCGCTGGACCTGGAGCGGCAGTGGCGTGGCAGGAATACCCTGCCGGACGACCTGAAGATCGCGGTGATCGCCGCCGAAGACCAGAAGTTCGCCGCCCACTGGGGCTTCGACCTCGATGCGATCCAACAGGCCCTGGCGCACAACGCCGACGGCGGCAGCCTGCGCGGCGCCAGCACCATCAGCCAGCAGGTGGCCAAGAACCTGTTCCTCTGGTCCGGCCGCAGTTGGCCGCGCAAGGCGCTGGAAGCCTGGTTCACCGCGCTGATCGAATTGCTCTGGACGAAGGAGCGGATTCTCGAGGTCTACCTGAACAGCGTGGAATGGGGCGACGGCATCTTCGGTGCCGAAGCCGCGGCACGTCACCATTTCGGTGTCGGCGCGGCTTATTTGTCCGCCCAGCAGTCGGCCCAGCTCGCCGCGGTACTGCCCAATCCCCGCGAGTGGAGCGCCGGGCGTCCCGGTGCCTACGTGCAACGCCGGGCCCGCTGGATTCGCCAGCAGATGCGCCAGCTCGGCGGCAGTCATTACATCGATCAGTTGCGGCCGGAGTACCCTCACTGGTGGCCGCGCTGGCTTTGA	MARSPVPAKPRMLRNLLRRLIKLVLWFAAGSVLLVLVLRWVPPPGTALMVERKLEAWSDGRALDLERQWRGRNTLPDDLKIAVIAAEDQKFAAHWGFDLDAIQQALAHNADGGSLRGASTISQQVAKNLFLWSGRSWPRKALEAWFTALIELLWTKERILEVYLNSVEWGDGIFGAEAAARHHFGVGAAYLSAQQSAQLAAVLPNPREWSAGRPGAYVQRRARWIRQQMRQLGGSHYIDQLRPEYPHWWPRWL	PGPT0024110_826	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024110-mtgA-K03814	NA	NA
BMS010_07786	378			hypothetical protein	ATGTTTCGAGCCTGTCTCCTGTTGGCCGCGTTCTTCGGTTTCACCGGTGTCGCCCTCGGCGCCTTCGCCGCGCACGGCCTGAAGGCCAAACTCTCGGCGGAATACCTGGCGGTCTTCCAGACCGGCGTCTACTACCAGTTGATCCATGCCCTGGCGCTGTTCGGTGTCGCGCTGGTATCGCTGCATGCGCCGAGCCGCGTGCTGGGTGCGGCCGGCATCCTGTTCGCCCTGGGCATCCTGCTGTTCTCCGGCAGCCTCTACGTACTGACCCTGACCGGCCTCGGCAAGCTCGGCATCATCACGCCCCTGGGCGGCACCGCGTTTCTCGCCGGATGGGGCTGCCTGGGGCTGGTGGCCTGGCGTGCGCAAGGAATCTGA	MFRACLLLAAFFGFTGVALGAFAAHGLKAKLSAEYLAVFQTGVYYQLIHALALFGVALVSLHAPSRVLGAAGILFALGILLFSGSLYVLTLTGLGKLGIITPLGGTAFLAGWGCLGLVAWRAQGI				NA	NA	NA	NA	NA
BMS010_07787	201			hypothetical protein	ATGCGCATTCAGTTGAACGGCGAACCTTTCGAGCTGCCCGAAGGCCAGACGGTCGCGGAGCTGCTCGACCGTCTGGAACTGGCCGGGCGTCGCGTCGCGGTCGAACTCAACCTGGATATCGTGCCGCGCAGCCAGCATGCCGCCACCGCGCTTCGCGAGGGCGACCGGGTGGAAGTGGTGCACGCCATTGGCGGCGGCTAG	MRIQLNGEPFELPEGQTVAELLDRLELAGRRVAVELNLDIVPRSQHAATALREGDRVEVVHAIGGG	PGPT0008970_1849	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0008970-thiS-K03154	NA	NA
BMS010_07788	795	thiG_2	COG2022	Thiazole synthase	ATGAGCCAAGTTCGCAGCGACAAGCCCTTCACCCTGGCCGGCCGTACCTATCAGTCGCGCCTGCTGGTCGGTACCGGCAAATACAAGGATCTCGAAGAAACCCGCCTCGCCATCGAAGCGAGCGGCGCGGAGATCGTCACCGTTGCCGTGCGCCGTACCAACATCGGCCAGAACCCGGGCGAGCCGAACCTGCTCGACGTGATCCCGCCGGACCGCTACACCATCCTGCCCAACACCGCCGGCTGCTATGACGCCGCGGAAGCGGTGCGCACCTGCCGCCTGGCGCGCGAGCTGCTGGACGGCCACAAGCTGGTCAAGCTGGAAGTGCTGGCCGACCAGAAGACCTTGTTCCCGAACGTCATCGAGACCCTCAAGGCCGCCGAAGTGCTGGTCAAGGACGGCTTCGACGTCATGGTGTACACCAGCGACGACCCCATCATCGCGCGCCAGCTCGCCGAGCTGGGCTGCATCGCGGTGATGCCGCTGGCCGGCCTGATCGGCACCGGACTGGGCATCTGCAACCCGTACAACCTGCAGATCATCCTCGAAGAGGCCAGCGTGCCGGTGCTGGTGGATGCCGGCGTGGGCACCGCCTCCGATGCCACCATCGCCATGGAGCTGGGCTGCGAGGCGGTGCTGATGAACAGCGCCATCGCCCATGCGCAGAATCCGGTGCTGATGGCCGAGGCGATGAAGCATGCGATCGTCGCCGGGCGCATGGCCTACCTCGCCGGCCGTATGCCGAAGAAACTCTACGCCAGCGCCTCTTCGCCGCTGGAAGGCATGATCCGCTAA	MSQVRSDKPFTLAGRTYQSRLLVGTGKYKDLEETRLAIEASGAEIVTVAVRRTNIGQNPGEPNLLDVIPPDRYTILPNTAGCYDAAEAVRTCRLARELLDGHKLVKLEVLADQKTLFPNVIETLKAAEVLVKDGFDVMVYTSDDPIIARQLAELGCIAVMPLAGLIGTGLGICNPYNLQIILEEASVPVLVDAGVGTASDATIAMELGCEAVLMNSAIAHAQNPVLMAEAMKHAIVAGRMAYLAGRMPKKLYASASSPLEGMIR	PGPT0008965_1157	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008965-thiG-K03149	NA	NA
BMS010_07789	720	trmB_2	COG0220	tRNA (guanine-N(7)-)-methyltransferase	ATGAGCGATACCCAAGAGCACCAGGCTGGGCAGGACGCAGCGCGCCCGCAACGCACCATCAAGAGCTTCGTGATGCGCGCCGGACGCATGACCGAAGGGCAGCAGCGCGGCCTCGAGCAGGGCTGGCCGAAGTACGGCCTGGCGCTGGAAGACGGCCTGCGCGATTTCGACCAGGTGTTCGGCCGCCAGGCGCCGAGGACCTTCGAGATCGGCTTCGGCATGGGCCACTCCACCTTGGAGATGGCCGCCGCCGCGCCGGAGCAGGACTTCATCGGCGTCGAGGTGCACAAGCCCGGTGTCGGCGCGCTGCTCAGCGGTATGCAGGCCCAGGGGCTGACCAACATCCGCGTCTACAGTTGCGATGCGCTGGAGGTGCTGCGGCACTGTGTCGCTGATGCCAGCCTGGATCGGGTCTTGCTGTTCTTTCCCGATCCCTGGCACAAGAAGCGTCATCACAAGCGGCGTATCGTTCAGCCGGCTTTCGCCGAACTGGTACGGCAGAAGCTGAAGATCGGCGGCGTGCTGCACATGGCCACCGACTGGGAGCCGTATGCCGAGCACATGCTGGAAGTGATGCAGGCAGCGCCGGGCTATCGCAACCTGGCACAGGACGGGCGCTTCGTGCCGCGTCCGGACGATCGACCGATGACCAAGTTCGAGCGACGCGGCGAGCGCCTCGGGCATGGTGTGTGGGACCTGCTGTTCCAGCGCATCGACTGA	MSDTQEHQAGQDAARPQRTIKSFVMRAGRMTEGQQRGLEQGWPKYGLALEDGLRDFDQVFGRQAPRTFEIGFGMGHSTLEMAAAAPEQDFIGVEVHKPGVGALLSGMQAQGLTNIRVYSCDALEVLRHCVADASLDRVLLFFPDPWHKKRHHKRRIVQPAFAELVRQKLKIGGVLHMATDWEPYAEHMLEVMQAAPGYRNLAQDGRFVPRPDDRPMTKFERRGERLGHGVWDLLFQRID				NA	NA	NA	NA	NA
BMS010_07790	1344			putative protein	ATGTTGAGAAAACTGAGCATTCTGCTGTTAGCGGCAAGTGCCTGGCAGGCACAGGCCAAAGTCGATTCCGTCCAGGCGTCCCGCCTCGGGCAGGACCTGACGCCGCTGGGCGGCGAGCGGGCGGGTAACGCTTCCGGGAGCATTCCGGCCTGGGACGGCGGGCTTGCCACCCCGCCGGCGAATTACCAGCCCGGCATGCACCACCCCGATCCCTATGCGGCGGACCCGGTCCGCTATGTGGTCAACGCCGGCAATATCGAGCAGTACCAGGATGTGCTGCCCGAAGGCATCAAGACCCTGCTGCGCACCTATCCGGATTACCGGCTCCGTGTGTTTCCCAGCCACCGCAGTGCCGCGGCGCCGCAGCGTATCTATGACGCCACCCGCTTCAATGCGCTGAACGCCGAGCTGATCGCCAACGGCAACGGCGTGAGCGGCGTCGCCGCGGGCGTTCCGTTCCCGCTGCCGCAGAACGGCCAGGAAGCGATCTGGAACCACATCATGCGCTACCGGGGCGACCAAATTCACATGGTCACCAACCAGGCCGCGGTACTGGCCAACGGCAGCTACACCCTGCTGAAGCAAGAGCGTGACGTCTACTTCGTCTACGGCCGCGAAGGCGTTGGCCCGCAGGATCTGGACAACACCCTGTTCCACTACAAGTACCGGGTGGTCGCGCCGTCCAAGCTGGCGGGTACCGCGCTGCTGGTGCAGGAAACCCTCGACCAGGTCCTGGCGATCCGCAAGGCATGGCGCTTCAACCGTGGCGAGCGTCGCGTACGGCGCATGCCGCTGCTGGCCTACGATGCGTTGCAGCCCGACACCAACGGCATGGCCACCGCCGACATGGTGGACTCCTACAACGGCGCACCCGACCGCTACGAGTGGAACCTGATCGGCAAGCGGGAAATGCTGGTGCCGTACAACAGCTATGCCGTGCACCAGAAGGGCATTCCCTACGAGCAGATTCTCCGCACCAAGACGGTCAACCCCGATCTGCTGCGCTACGAGCCGCACCGTGTCTGGGTGGTGGAAGCGACCCTGCGCAAGGGCTTCAGCCATCCCTATGCCAAGCGCCGCTTCTACCTGGACGAGGATAGCTGGCAAATCCTGGTGGTGGACCTCTACGACAAGAAAGGCGACCTGATCGGCCTGCAGGAAAGCCATCCGATCAGCTACTTCGACGCGCCCATGTTCAACAGCACCCTGGAAGCGCTCTACGACTTCAAGGGTGGGCGCTACATGGCCGATGGCCTGGACAACAACGAGCCGATGTACGACTTCAACGCCAACCTCGGCCCGCGCGACTTCACCCCCCAGGCGTTGCGCCGCGAGGGGAATTGA	MLRKLSILLLAASAWQAQAKVDSVQASRLGQDLTPLGGERAGNASGSIPAWDGGLATPPANYQPGMHHPDPYAADPVRYVVNAGNIEQYQDVLPEGIKTLLRTYPDYRLRVFPSHRSAAAPQRIYDATRFNALNAELIANGNGVSGVAAGVPFPLPQNGQEAIWNHIMRYRGDQIHMVTNQAAVLANGSYTLLKQERDVYFVYGREGVGPQDLDNTLFHYKYRVVAPSKLAGTALLVQETLDQVLAIRKAWRFNRGERRVRRMPLLAYDALQPDTNGMATADMVDSYNGAPDRYEWNLIGKREMLVPYNSYAVHQKGIPYEQILRTKTVNPDLLRYEPHRVWVVEATLRKGFSHPYAKRRFYLDEDSWQILVVDLYDKKGDLIGLQESHPISYFDAPMFNSTLEALYDFKGGRYMADGLDNNEPMYDFNANLGPRDFTPQALRREGN				NA	NA	NA	NA	NA
BMS010_07791	762	yadH_2	COG0842	Inner membrane transport permease YadH	ATGAATGTCTATGCGATCCGCGCGATCTACCTGTTCGAGCTGGCACGCACCTGGCGCACGCTGTTGCAGAGCATCGCCACGCCGGTGATCACCACCTCGCTGTACTTCGTGGTGTTCGGCTCGGCCATCGGCGCCAACATGAGCCAAGTGCAGGGGGTGAGCTACGGCGCCTTCATCGTGCCGGGGCTGATCATGCTGGCGCTGCTCACCGAGAGCATTTCCAACGCGTCCTTCGGCATCTACATGCCCAAGTATTCCGGGACCATCTACGAGGTGCTGTCGGCGCCGGTGTCGTACCTGGAGATCGTCATCGGCTACGTGGGGGCGGCGGCGACCAAGTCGGTGATCCTCGGCCTGATCATCCTGATCACCGCCCGCCTGTTCGTCGACTTCGAGATCGTCCACCCGTTCTGGATGGTGGCCTTCCTGTTGCTGACGGCGCTCACCTTCAGCCTGTTCGGCTTCATCATCGGTATCTGGGCGGACGGCTGGGAGAAGCTGCAGATCGTCCCGGCGCTGATCGTCACGCCGCTGACCTTCCTCGGCGGCAGCTTCTATTCGATCAGCATGCTGCCGCCGCTGTGGCAGACCCTCACCCTGTTCAATCCGGTGGTGTACCTGGTCAGCGGTTTCCGCTGGAGCTTCTACGGGGTGTCGGACGTGAACGTGACCGTCAGCCTGGGCATGACCCTGGGCTTCCTGCTGCTGTGCCTGATCGCGGTGTGGTGGATCTTCCGCACCGGGTATCGGTTGAAGAACTAG	MNVYAIRAIYLFELARTWRTLLQSIATPVITTSLYFVVFGSAIGANMSQVQGVSYGAFIVPGLIMLALLTESISNASFGIYMPKYSGTIYEVLSAPVSYLEIVIGYVGAAATKSVILGLIILITARLFVDFEIVHPFWMVAFLLLTALTFSLFGFIIGIWADGWEKLQIVPALIVTPLTFLGGSFYSISMLPPLWQTLTLFNPVVYLVSGFRWSFYGVSDVNVTVSLGMTLGFLLLCLIAVWWIFRTGYRLKN	PGPT0006730_19900	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
BMS010_07792	927	yadG_2	COG1131	putative ABC transporter ATP-binding protein YadG	GTGTCACCGGCCATCTCGATTCAACAGGTAGCCAAGGTCTATGCTTCGGGGCACCAGGCCCTGAAGACCGTCGACCTGGATATCCGCAAGGGCGAGATTTTCGCCCTGCTCGGCCCCAACGGGGCGGGCAAGACCACCCTGATCAGCATCGTCTGCGGCATTGTCAACCCAAGCGGCGGGCGGGTGCTGGTGGACGGTCACGACATCATCACCGACTACCGCGCCGCCCGCGCCCGCATCGGCCTGGTGCCCCAGGAGCTGACCAACGACGCCTTCGAGAGCGTCTGGTCGACGGTGAAGTTCAGCCGCGGCCTGTTCGGCAAGCCGGCGAACCCGGCCTATCTGGAACAGGTGTTGCGCGACCTGTCGCTGTGGGAAAAGCGCGACGCGCGCATCTACCAGCTTTCCGGCGGCATGAAGCGCCGGGTGATGATCGCCAAGGCGCTGTCCCACGAGCCGGAAATCCTCTTTCTCGACGAACCCACCGCCGGGGTGGACGTGGAGTTGCGCCGCGACATGTGGGAAATGGTCCGGGGCCTGCGCGAGCGCGGCGTGACCATCATCCTCACCACCCACTACATCGAGGAGGCCGAGGAGATGGCCGACCGCATCGGGGTGATCAGCAAGGGCGAGATCATCCTGGTGGAAGACAAGGACGTGTTGATGCGCAAGCTCGGCAAGAAGGAGCTGGTGCTGCAACTGCAGCAGCCGCTGGAGAGCCTGCCCGGGGCCCTGGCCAACGGCGACCTGCAACTGCGCGCCGGCGGCCACGAGTTGGTCTACAGCTTCGACGCGCAACGCGAGCACACCGGCATCGCCGAACTGCTGCGCACGCTGGACCAGCACGGCATCGGCTTCAAGGACCTGCAATCGAGCCAGAGTTCGCTGGAAGAAATCTTCGTCAGCCTGGTGAGGGGGCGCTCATGA	MSPAISIQQVAKVYASGHQALKTVDLDIRKGEIFALLGPNGAGKTTLISIVCGIVNPSGGRVLVDGHDIITDYRAARARIGLVPQELTNDAFESVWSTVKFSRGLFGKPANPAYLEQVLRDLSLWEKRDARIYQLSGGMKRRVMIAKALSHEPEILFLDEPTAGVDVELRRDMWEMVRGLRERGVTIILTTHYIEEAEEMADRIGVISKGEIILVEDKDVLMRKLGKKELVLQLQQPLESLPGALANGDLQLRAGGHELVYSFDAQREHTGIAELLRTLDQHGIGFKDLQSSQSSLEEIFVSLVRGRS	PGPT0006725_9939	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
BMS010_07793	681		COG1926	putative protein	ATGACTCAGGAAAGCCTCGAAATACCCATCCGCGACCGGGTCGCCGCCGGCCAGGCGCTGGCGCGGTTGCTCGACGATTACCGGCGCAACCCGAACGCCATCGTCCTGGCCCTGCCGCGCGGCGGGGTGCCGGTGGCCTATGAAATCGCCACCGCCCTGGAACTGCCGTTGGACCTGATGCTGGTGCGCAAGCTCGGCGTGCCGGGGCACGAGGAGCTGGCCATGGGCGCCATCGCCAGCGGCGACGTGCGGGTGCTGAACCGGGACGTGGTGGATTATTTGCACATCGGCGATTCGACCATCGAGGCGGTGGCCGAGGCGGAGGGTCGTGAGTTGCGCCGCCGCGACCTTGCCTACCGGGGCGAGCGGCCGTTTCCGGCGCTCGGCGGCAACCAGGTGATCCTGGTGGACGATGGCCTGGCCACCGGCTCCACTATGCAGGCGGCCGTGGAGGCGGTGCGGCGCCAGTCGCCGGCGCGCATCGTGGTGGCGGTGCCGGTGGGTGCGCCGGAGACCGTCGTGCGCCTGGAAACCCTCGCCGACGAGGTGGTCTGCCCGTTCCAGCCGGAGTACCTGGGCGCCATCGGGCGTTGGTACGTGGATTTCTCCCAGACCACGGACGAGGAGGTGCTGGACCTGCTGCGCCGCGCCTGGCAGCGGGAAACGGAGCGGTCATCCTGA	MTQESLEIPIRDRVAAGQALARLLDDYRRNPNAIVLALPRGGVPVAYEIATALELPLDLMLVRKLGVPGHEELAMGAIASGDVRVLNRDVVDYLHIGDSTIEAVAEAEGRELRRRDLAYRGERPFPALGGNQVILVDDGLATGSTMQAAVEAVRRQSPARIVVAVPVGAPETVVRLETLADEVVCPFQPEYLGAIGRWYVDFSQTTDEEVLDLLRRAWQRETERSS				NA	NA	NA	NA	NA
BMS010_07794	699		COG1926	Putative phosphoribosyl transferase	ATGCGAACCCTATCCTCACCGCTGACCCTGCCGCTGCGAGATGCGCAACTGGCGGCGGACCTGCTGTTCCCCGAAGAAGCCGCCGGGCTGGTGGTGTTCGTCCACGGCAGCGGCAGCAGCCGGTCGAGCCCGCGTAACCGGCAGGTGGCGCGCTATTTCAGCGACCGTGGCCTGGCGACCCTGCTGTTCGACCTGTTGACCGAAGACGAATACGAGGTCGACCGGATTACCCGCGAGCTGCGCTTCGACATTCCCTTGCTGACCCGCCGCCTGCTCGGCGTGATCGACTGGCTCGGTACGCGGGCCGAATTGCAGCGGCTGCGCCTCGGCCTGTTCGGCGCCAGCACCGGTGCGGCGGCGGCCCTGCTGGCGGCGGCGGAGCGGCCGGAGCGGGTGAGCGCGGTGGTGTCCCGTGGCGGGCGTACCGACCTGGCCGGTCCGGCGTTGGAGCAGGTAAAGGCACCGACCCTGCAGATCGTCGGCGGCGACGATCCGGTGGTGCTGGACCTGAACCGCGAGGTCGGCCGCCAGCTGCGCTGCGAGCAGCGGCTGGCGGTGGTGCCGGGCGCTACCCACCTGTTCGAGGAGCCCGGCACCCTGGAAGAGGTCTGCCGCCTGGCCGGGGACTGGTTCCTGCGCTACCTCGGCGCCGGGGAGATCGCCCCTCGGTTTGATGCAAATCAACGCCTGATCGACTAA	MRTLSSPLTLPLRDAQLAADLLFPEEAAGLVVFVHGSGSSRSSPRNRQVARYFSDRGLATLLFDLLTEDEYEVDRITRELRFDIPLLTRRLLGVIDWLGTRAELQRLRLGLFGASTGAAAALLAAAERPERVSAVVSRGGRTDLAGPALEQVKAPTLQIVGGDDPVVLDLNREVGRQLRCEQRLAVVPGATHLFEEPGTLEEVCRLAGDWFLRYLGAGEIAPRFDANQRLID				NA	NA	NA	NA	NA
BMS010_07795	900	uspE_3	COG0589	Universal stress protein E	ATGAGCCAGTACCAACGCCTGCTCCTCATCGCCGACCCGGGCATGCGCCATTCCGCCGCGTTGCAACGGGCCGCCGCCCTGGCCGAAGCCAGCGGTGCCGCACTGCACATCGCCTCGTTCGCCGGGCCGATCATGCCCCTGCCGCTGCTGGACAAGGCGATCCAGGAGCGGACCCGCGACAGCTACCTGGACGCACAGCGCGCCTGGCTGAAGGACGAGGCCGGGCTGCTGCGCAGCCGTGGCATCGACGTCACCACCGAGGCCTGCTGGACCCACGAACCGCTGCGGGAAATTCTTCGCCATGTGGCGGAAATGCAACCGGACCTGGTGATTAAGGATGTGCAGCACGAACCGGCGCTTAAGCGCGCCTTCATCACCCCGCTGGACTGGCACCTGTTGCGCGAATGTCCCGTGCCGTTGCATTTGCTGAGCGGGGCGGGCCATCCGTTGCCGCGCAAGGTGGTGGCAGCGGTCGATCCGTCCCGCCCGGAAAACCAGATCGAAGGACTCAACGACCGCATCATCCAGGCGGCCAACGGGCTGGCGCTGCAATGCAACGCCGAGCTGCATCTGCTGCATGCCTATGATCTGTCGCCCGCCTATCTCTCGGATGCGTCCGCCGGTACGGTCGCCTGGGCGGCGGATTTCGCCGAAGAGCTGCGCCAGTCGTTGAAGGAGTCCTTCACCCGCCTGGCGGACCGCTACGGCGTGCCGCTGGACCGGCAGCATTTCGTCATGGGCCCGCCGATCCAGGCTCTGCCCGAGTTCGCCAGCGAGAACCAGACCGATGTGCTGGTGATGGGCCGCGTACACCGCAAGGGGCTGGAGAAACTGGTCGGCAGCACCACCGAACAGGTCCTGTACCGGGTGCCGTGCAGCATCCTGGCGGTCAAGACGTAA	MSQYQRLLLIADPGMRHSAALQRAAALAEASGAALHIASFAGPIMPLPLLDKAIQERTRDSYLDAQRAWLKDEAGLLRSRGIDVTTEACWTHEPLREILRHVAEMQPDLVIKDVQHEPALKRAFITPLDWHLLRECPVPLHLLSGAGHPLPRKVVAAVDPSRPENQIEGLNDRIIQAANGLALQCNAELHLLHAYDLSPAYLSDASAGTVAWAADFAEELRQSLKESFTRLADRYGVPLDRQHFVMGPPIQALPEFASENQTDVLVMGRVHRKGLEKLVGSTTEQVLYRVPCSILAVKT	PGPT0014995_768	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014995-uspE-K14055	NA	NA
BMS010_07796	825	asrB	COG0543	Anaerobic sulfite reductase subunit B	ATGAGCGACCCGAGCCCACGCAAGCTCTATCTGTTGGATAGCTATGCGGATGGCGACGGGGCACGGCATTTCACCTTTCGTATCGACCAGCCGCTAGCCCGCGACCTGGCGGCGGTTCCCGGCCAGTTCTTCATGCTGTCCTTGCCCGAGGGCGGCGAGGCGCCGTTCAGCTACGTCAGCCTGCCGGACCGGAACGGGCACTTCGATGCGTTGATCCGTCGGGTCGGCCACCTGACCGGCGCGCTGTTCGATCTGCCGGCCGGCGCCGTGCTGGGCTACCGTGGCCCTTTCGGCAAGGGCTGGCCATTGTTCTTCAGCAGCCAGCGGATACTGGCGGCCGCCGGCGGCTGCGGGTTGGCCTCTCTGGCCGCGTTGATCGAAGATGCCGCCAGCCAGCACATGCCATTCCAGTTGAGCGTCGTCTACGGCGCACGCCGTACAGACGCCCAGGTGCTGGGGCGGCAGCGGCGCCGCTGGAAACTGGTCATGCCCTTCATCGAGACCCTGGAAGAGACGACGAACCGTGGCCGTCGGGGCATTCCCCTGGATTACCTCGACGAGCTGTGTGCCGGCGAAATGCCCGACGCGGTGCTCTGCAGCGGGCCGGAGCCGATGCTGCTGGCAACGGCGGAGGAGTGGTTGCAGCGCGGCGTGCCGGCCAACCGGATATGGATCGCGGCGGGCTGTTGCCTGCCCTGCCGGAGTGGTGTCTGCGACGACTGCACGCAGGGAGCGGACGGGCCGATCTACCGCTATGACCGTTACCGCCTGCTCCAGGCCGCCGGCGACGATCCGCCGTTCGGGCGGGAGGGCTGGTTCGGCTGA	MSDPSPRKLYLLDSYADGDGARHFTFRIDQPLARDLAAVPGQFFMLSLPEGGEAPFSYVSLPDRNGHFDALIRRVGHLTGALFDLPAGAVLGYRGPFGKGWPLFFSSQRILAAAGGCGLASLAALIEDAASQHMPFQLSVVYGARRTDAQVLGRQRRRWKLVMPFIETLEETTNRGRRGIPLDYLDELCAGEMPDAVLCSGPEPMLLATAEEWLQRGVPANRIWIAAGCCLPCRSGVCDDCTQGADGPIYRYDRYRLLQAAGDDPPFGREGWFG				NA	NA	NA	NA	NA
BMS010_07797	1017			putative HTH-type transcriptional regulator	ATGGGACTGACATTACCGGCAGAAGAACGCGCACTCACCACTTTGCATACCATCGCCCTGGCGGCGGACCGCCTCGGCGCCGGCGGCATGCGGCTCAAGCCCCTGCTGGACGGCAGCGGCCTGACCCCGGCCGACCTGGAAACCCCGGATAAGCTCATCAGCCATGCCCAGGAACTCCGCGTCTTCGCCAACGCGGTGAAGGCCAGCGGCGATCCCGCCCTCGGCTTGAGCCTCGGCCTGCGCATGCACGTCTCGGCCTACGGCATCCTCGGCTACACCATGCTTGCCAGCCGCACCCTGCGCGATGCGCTGAACCTGGCCCTGGCCTACCCGACGCTGCTCGGCACCTACTTCAAGCTGAGCCTGGAAGAGGACGGCGACGAAGCCCGGCTGGTCGCCACCGGCTATCGCTACGCGCCGGAGCTGACGGTGTTCAACACCGAACTGTGCATGACCTCGCTGCTCACGGTGGTCCAGGACCTGCTCGGCCATGCCATCGCCCCGCGTTACCTGCAGCTGCCGTTCCGCCCGCCGCTGCACGCGCAGGCCTACGCCGACAAACTCGACTGTCCAGTGGAGTTCTGCGCACCGGCCGGAGTGCTCGGCTTCGACGCAGCGCTGCTCGATCGGCCCCTGCCGCTGGCCGACCCAGTGAGCTGTCACTACGGCCTGCAACAGTGCCTGCAACTCAACGCGCAGCTCGCCAGCGGCCCGGACGTGCTGGAGCAGATCCGCCAGCACCTGAACAACCACCTGCGCGACAGCAGCAGCCTGGAGCGGGTGGCCCGCCAGTTGCACCGCAGCGCCCGCACCCTGCGCCGCCACCTGCAACGGATGAACACCAGCTACCAGCGCCTGCTCGACGAAGTCCGCTACGACAAGGCACGCCACCTACTCACCCAGACCGACCTGCCGATCTACCTGATCGCCGAGCAGCTCGGCTACAGCGAAACGGCCAGTTTCCGTCACGCCTTCCAACGCTGGAGCGGCCAGCCGCCAAGCCTGTACCGGCGCTGA	MGLTLPAEERALTTLHTIALAADRLGAGGMRLKPLLDGSGLTPADLETPDKLISHAQELRVFANAVKASGDPALGLSLGLRMHVSAYGILGYTMLASRTLRDALNLALAYPTLLGTYFKLSLEEDGDEARLVATGYRYAPELTVFNTELCMTSLLTVVQDLLGHAIAPRYLQLPFRPPLHAQAYADKLDCPVEFCAPAGVLGFDAALLDRPLPLADPVSCHYGLQQCLQLNAQLASGPDVLEQIRQHLNNHLRDSSSLERVARQLHRSARTLRRHLQRMNTSYQRLLDEVRYDKARHLLTQTDLPIYLIAEQLGYSETASFRHAFQRWSGQPPSLYRR				NA	NA	NA	NA	NA
BMS010_07798	921	yjiK_2	COG3204	putative protein YjiK	ATGCGCCGATTCCTCACGCTCAAGACCCTGCTCGCCGCGCTGCTGCTGGGGCTGCTGTTTTGCCTGGCACTGGCCGCCCAGGAGTTCCGCCTGTTCGAGCGGGGCTGGTTCATCGTGCAAGAATGGCGCCACGCCGAGGAGTGGCGGGAGCGGTCGATCTGGCTGCCGGATTACGAGGTGGCCATCGAGGCGCAGACCATCGAGGGACTGGCCGATGACGTTTCCGCCCTGACGTTCGACCCCGACCGGCGCAGCCTGCTGACCGTCACCAACCAGAAGTCGGAGATCATCGAGCTGTCGCTGGACGGCCGCATCCTGCGGCGTATTCCGCTGGTGGGTTTCGGCGATCCCGAGGCCATCGAGTACATCAGCCCGGGCCTCTACGTGATCACCGACGAGCGCGCCCAGCGGCTGATCAAGGTACGCCTGGACGACACCACCCGTTTCGTCGATGCCGCCGAGGCGCAGCAGCTCTCCCTCGGCATCGGCCGGTCCGGCAACAAGGGCTTCGAGGGACTGGCCTACGACTTGGACGGGAGGCGCCTGTTCGTCGCCAAGGAGCGCGATCCGGTAACGATCTACGAGGTGCACGGCTTCCCGCACACCGATCCGGACAAGCCGTTCGCCGTCCACGTGGTGGACAATCCACGACGGGACGAGGGGCTGTTCGTGCGCGACCTGTCCAGCCTGGACTTCGACCAGCGCAGCGGCCACCTGCTTGCCCTGTCCGATGAGTCGCGCCTGGTGCTGGAGTTGAACAGCGACGGCCGGCCGATCAGCAGCCTGTCGCTGTTGCGCGGGATGCACGGCCTGCAACGCTCGGTGCCGCAGGCCGAAGGCGTGGCGATGGACGACGCCGGCAATCTCTATCTGGTGTCCGAGCCGAACCTCTTCTATCTATTCCGCAAGGTGCCGCGCTGA	MRRFLTLKTLLAALLLGLLFCLALAAQEFRLFERGWFIVQEWRHAEEWRERSIWLPDYEVAIEAQTIEGLADDVSALTFDPDRRSLLTVTNQKSEIIELSLDGRILRRIPLVGFGDPEAIEYISPGLYVITDERAQRLIKVRLDDTTRFVDAAEAQQLSLGIGRSGNKGFEGLAYDLDGRRLFVAKERDPVTIYEVHGFPHTDPDKPFAVHVVDNPRRDEGLFVRDLSSLDFDQRSGHLLALSDESRLVLELNSDGRPISSLSLLRGMHGLQRSVPQAEGVAMDDAGNLYLVSEPNLFYLFRKVPR				NA	NA	NA	NA	NA
BMS010_07799	672	rpiA_2	COG0120	Ribose-5-phosphate isomerase A	ATGACCCAGGATCAGCTCAAGCAGGCGGTGGCCCAGGCCGCTGTCGACCACATCCTCCCTCACCTCGACAGCAAGAGCATCGTCGGCGTCGGCACCGGCTCCACCGCGAACTTCTTCATCGACGCCCTGGCCCGGCACAAGGCCGACTTCGACGGCGCCGTGGCCAGTTCCGAAGCCACCGCCCAGCGCCTCAAGCAGCACGGCATTCCGGTCTATGACCTGAACACGGTGAGCGAGCTGGAGTTCTACGTGGACGGTGCCGACGAAACCAACGAGCACCTGCAACTGATCAAGGGCGGCGGCGCCGCGCTGACCCGCGAGAAGATCGTCGCCGCGGTGGCCAAGACCTTCATCTGCATCGCCGACGGCAGCAAGCTGGTGCCGGTGCTCGGCGCCTTCCCGCTGCCGGTGGAGGTCATCCCCATGGCCCGCAGCCATGTCGCCCGCCAACTGGTGAAGCTGGGTGGCGACCCGGTGTACCGCGAGGGCGTGCTCACCGACAACGGCAACATCATCCTCGACGTGCATAACCTGCAGATCGTCGATCCGGTGGGCCTGGAAGCACAGATCAACGCCATCGTCGGCGTGGTCACCAACGGCCTGTTCGCCGCGCGCCCCGCCGACCTGCTGCTGCTCGGCACCGGCGAAGGCGTGAAGACCCTGCGTCGCTGA	MTQDQLKQAVAQAAVDHILPHLDSKSIVGVGTGSTANFFIDALARHKADFDGAVASSEATAQRLKQHGIPVYDLNTVSELEFYVDGADETNEHLQLIKGGGAALTREKIVAAVAKTFICIADGSKLVPVLGAFPLPVEVIPMARSHVARQLVKLGGDPVYREGVLTDNGNIILDVHNLQIVDPVGLEAQINAIVGVVTNGLFAARPADLLLLGTGEGVKTLRR	PGPT0017390_1172	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_RIBOSE_METABOLISM|DEGRADATION,PGPT0017390-rpiA-K01807	NA	NA
BMS010_07800	1131			hypothetical protein	ATGCCTACCGGCATCTCCCGCCTGCTCGTCCAAGGCAGTTCGAACGACGACCTGCTGGTCGCCCATCCCGAGCCCAGCCGTCTGGTCGGCGGCGAAGGCAACGACGTGCTGATCGACGGCCCCGGCAGCGACTCGTTGCTCGGCGGTGGCGGCAACAACCGCCTGTTCGGCGGGCTCGGCGATGACTACTACACCTACGACGTCTACTCGGGCAGTCGCGACGTCATCCTCGACTTCGATCCCACACCCGGCAATATCGACACGCTGATCGTCGGCGAAAGCCTGGAAGAGTTCGGCCCGTTCGAGCGCTATCAGGACGACCTGCTGATCGGCCTGCACGGCGAAGCCGGCGTCATCACCGTGCGCGATTTCTTTCTCGACGCCGCCTTTCGCATCGAGCGTTTCCGCTTCGGCGCCACCCATGTGACCGACAAGGACATCCTGCGCAACTTCCACCTGGACTCGGACGCCCCGACCGGCCGCACCGCCGACGACCCGCCCAGCTACACCGGCGAGCGCATCCGCCTGACCGGTAAGGAGTGGGCCGACAGGCTGGTGGCCGGCGACCAGGCGACCTACCTGCTCGGCCGCGGCGGCAACGACCTGCTGGTCGGCAGCCGCTACAGCGACGTACTCAACGGCGGCACGGTCAAGCCGATGTTCTTCGGCGACAACCACTGGAATCTGCTCTACGGCGGGCCGGGCGACGACTATTACCAGGTCGACTATTCCTGGGAGTTCAGCGATCACACGCTCTACGACTACGACACGACGCCGGGCAACGCCGACACCCTGCACATTCGCGGCCCCCTGGAACCGCAGTACGTGCGTTTCCGGGGCAGCGAAGGCGGCTCGCTGTACATCGAGCTGGACAGCGAGCAGCGTATCGTCATCACCAACTACTTCCTCGACAAGGCGTTCGTGATCGAGAAGATCCGCTTCGATGACGGCTCCGTACTGGACGAGGCCGCCATCCGCCAGCGTGTGGGCCTGCCTGCACCCACGCCGCCACAGGCAACGATGAGCACACCCCTTCCCTATTGGGCCGGCGAGATGCCCGAGCCGGCAGCCGATGGCGTATTGAGCCTGCTGTTCAGCGTCGGCGCCGCTCTGGGTCACAGCGGCGGATGA	MPTGISRLLVQGSSNDDLLVAHPEPSRLVGGEGNDVLIDGPGSDSLLGGGGNNRLFGGLGDDYYTYDVYSGSRDVILDFDPTPGNIDTLIVGESLEEFGPFERYQDDLLIGLHGEAGVITVRDFFLDAAFRIERFRFGATHVTDKDILRNFHLDSDAPTGRTADDPPSYTGERIRLTGKEWADRLVAGDQATYLLGRGGNDLLVGSRYSDVLNGGTVKPMFFGDNHWNLLYGGPGDDYYQVDYSWEFSDHTLYDYDTTPGNADTLHIRGPLEPQYVRFRGSEGGSLYIELDSEQRIVITNYFLDKAFVIEKIRFDDGSVLDEAAIRQRVGLPAPTPPQATMSTPLPYWAGEMPEPAADGVLSLLFSVGAALGHSGG				NA	NA	NA	NA	NA
BMS010_07801	1515	ilvA_2	COG1171	L-threonine dehydratase biosynthetic IlvA	ATGCTCGAACAGTACGTCAAGAAGATCCTCACCTCGCGCGTCTACGACGTCGCCGTGGAAACACCCCTGCAACCGGCCCGCCAGCTCTCCGAGCGGCTGGGCAACCAGGTTCTGCTCAAGCGCGAAGACCTGCAGCCGGTGTTCTCCTTCAAGATTCGCGGCGCCTACAACAAGGTGGCGCAGCTCTCGCCCGAGGAGCAGGCGCGCGGCGTGGTCACCGCCTCGGCCGGCAACCATGCCCAGGGCCTGGCGCTGGCGGCGAAGGAGCTGGGGATCAAGGCGACCATCGTGATGCCGCGCACCACCCCCGAGCTGAAGGTCCAGGGCGTGCGCGCCCGTGGCGGCAAGGTGGTGCTGCATGGCGACGCCTTCCCCGAGGCGCTGGCGCATTCGCTGAAGCTGGTGGAGGAAAAGGGCCTCGTCTATATCCACCCCTACGATGACCCGGACGTGATCGCCGGCCAGGGCACCGTGGCCATGGAAATCCTCCGTCAGCATCCCGGCCAGTTGGACGCCGTCTTCGTGCCGGTGGGCGGCGGCGGCTTGATCGCCGGCATCGCGGCCTACGTGAAATACCTGCGCCCGGACGTGAAGGTGATCGGCGTCGAGCCGGACGATTCCAACTGCCTGCAACAGGCCATGGCCGCCGGCGAGCGGGTGGTGCTGCCGCAGGTCGGGCTGTTCGCCGACGGCGTGGCGGTGGCGCAGATCGGCCAGCACACCTTCGACATCTGCAAGCAGTACGTGGACGAGGTAATCACCGTCAGCACCGACGAAATCTGTGCGGCGATCAAGGATATCTACGACGACACCCGCTCGATCACCGAGCCGGCCGGCGCCCTGGCGGTGGCGGGCATCAAGAAATACGTGGAATGCACGGGTGTGACGGGCCAGGTGCTGGTGGGCATCGACTCCGGCGCCAACGTCAACTTCGACCGCCTGCGCCACGTGGCCGAGCGCGCCGAACTGGGCGAGAAGCGCGAGGCGATCATCGCCGTGACCATCCCGGAACAGCCGGGCAGCTTCAAGGCGTTCTGCGAAGCCATCGGCAAGCGGCAGATCACCGAATTCAACTACCGCTACCACACCGACCGCGAAGCGCACATCTTCGTCGGCGTACAGACCCACCCGGAGAGCGATCCGCGTGCGGCGCTGGTCGCCAGCCTGCGCGAGCAGGGCTTCCCGGTGCTCGACCTGACCGACAACGAACTGGCCAAGCTGCACATCCGCCACATGGTCGGCGGCCATGCGGCGGGCGTCAGCGACGAACTGGTGTTCCGCTTCGAATTTCCCGAGCGGCCCGGCGCTCTGTTCAATTTCCTCAACAAGCTCGGTGGGCGCTGGAACATCTCCATGTTCCACTACCGCAACCACGGCGCCGCCGACGGTCGCGTGGTGGCCGGTTTGCAGGTGCCGGCGGAGGAGCGCCACCTGATCCCCGCTGCGCTGGGGGAGATCGGCTATCCCTTCTGGGACGAAAGCGACAACCCGGCCTACCGGCTGTTCCTCGGCTGA	MLEQYVKKILTSRVYDVAVETPLQPARQLSERLGNQVLLKREDLQPVFSFKIRGAYNKVAQLSPEEQARGVVTASAGNHAQGLALAAKELGIKATIVMPRTTPELKVQGVRARGGKVVLHGDAFPEALAHSLKLVEEKGLVYIHPYDDPDVIAGQGTVAMEILRQHPGQLDAVFVPVGGGGLIAGIAAYVKYLRPDVKVIGVEPDDSNCLQQAMAAGERVVLPQVGLFADGVAVAQIGQHTFDICKQYVDEVITVSTDEICAAIKDIYDDTRSITEPAGALAVAGIKKYVECTGVTGQVLVGIDSGANVNFDRLRHVAERAELGEKREAIIAVTIPEQPGSFKAFCEAIGKRQITEFNYRYHTDREAHIFVGVQTHPESDPRAALVASLREQGFPVLDLTDNELAKLHIRHMVGGHAAGVSDELVFRFEFPERPGALFNFLNKLGGRWNISMFHYRNHGAADGRVVAGLQVPAEERHLIPAALGEIGYPFWDESDNPAYRLFLG	PGPT0001960_1720	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_THREONINE_DEGRADATION,PGPT0001960-ilvA|tdcB-K01754	NA	NA
BMS010_07802	1269			hypothetical protein	ATGCGCATCCTGCTGGTAGGGGCCCGTGGCTTCATCGGCAGGCGGCTGCTGGGGGCCCTGCGTAGCGCGGGGCATGAGGTGGTAGGTACGGCACGCCGGCCACCGGCAGACGCTTTTCCCGGCGTCGAATGGCAGGCGCTCGACTTGGCCCGCCTGGCCGAGGACCCGACGCATTTTCCCTGGCCGGCGGGCGTCGAACTGGTGATCAACGCGGCGGGCGTCCTCGGCAGCGACGCCGCCGAACTGGCGCGGGTGCAGGACAGCGGCGCGCGGCGCCTGTTCGACCTGGCCGCCGCCCACGGCGCGCGGGTGCTGCAATTCTCGGCCCTCGGCGCGGGCGAGCAGCCCGACATTCCCTTCCTGGCCAGCAAGGTGGCTGCTGATGCCTACCTGCTCGGCCTCGGCATTCCCGCCGTGGTGCTGCGCCCTTCGCTGGTACTGGGCGAAGGCGGTGCCAGCAGCGGCTGGTTTTCCCGTTTGTCGCCCTGGCCGCTGATTCCGCTGCTGGACACCCGAGCCCGAATCCAGCCGCTGCATGTGGATGATCTGGTGGGTGCGGTCCTGGCATTGCTGCGCCGGTGGCCGGAACAGCCCATGGTGCTGCCGCTGGTTGGTCCCGAGCCCATGACCCAGCCGCAACTGATCGATCGCCTGCGCACCGCCCAGGGCTGGGGACCGGCGCGCTACCTACGTGTCCCGACAGCGCTGGCAGCCATCGGTGCGCGAGTGGGCGCGCTGCTCGGCTGGCGCGCGCTGAACCCGCAGACCGTCCGGCTGGCCCGGTGCGACAATCTGTCGTCGGCGGAGTCCCTTGAACGGGCCTGCGGTTTCCGTGCCGCATCGCTGGCGGAGCGCCTGCACGGCTGGCCGAACCCGCTCGTCAGCGTCACGGCGGCGCTGCGGCCGCTGTTGCTGGCGAGTCTGGTGCTGGTCTGGCTGGGCACGGCACTGGTCTGCCTCGGTCCCGGTTATGGCTGGGGATTGCGACTGATGGGCGAGGCCGGGGTCAGCGGCTGGCCGGCGAGCCTGGCGGTGATCGGCGGAGCCCTGCTGGATAGCCTGTTGGGTTTCGGCCTGTTGCTGCCACGTTGGCGACGCTGGGCCCTGCGCGGGCAACTGATGCTGATGCTCGGCTACATGCTGCTGATCAGCCTGCTGCTGCCGCACTACTGGTTCGACCCCTACGGGGCGGTACTGAAGAACCTCGTGCTCATGGTGGCCACGCTTTGGCTGCTGTGGACCGAGCCTGCTGGCGAGAGAAGGCGATGA	MRILLVGARGFIGRRLLGALRSAGHEVVGTARRPPADAFPGVEWQALDLARLAEDPTHFPWPAGVELVINAAGVLGSDAAELARVQDSGARRLFDLAAAHGARVLQFSALGAGEQPDIPFLASKVAADAYLLGLGIPAVVLRPSLVLGEGGASSGWFSRLSPWPLIPLLDTRARIQPLHVDDLVGAVLALLRRWPEQPMVLPLVGPEPMTQPQLIDRLRTAQGWGPARYLRVPTALAAIGARVGALLGWRALNPQTVRLARCDNLSSAESLERACGFRAASLAERLHGWPNPLVSVTAALRPLLLASLVLVWLGTALVCLGPGYGWGLRLMGEAGVSGWPASLAVIGGALLDSLLGFGLLLPRWRRWALRGQLMLMLGYMLLISLLLPHYWFDPYGAVLKNLVLMVATLWLLWTEPAGERRR				NA	NA	NA	NA	NA
BMS010_07803	468			hypothetical protein	ATGAGTGCCTACCTGATCCTGAAGACGCTGCACATCCTGTCCTCCACCCTGCTGTTCGGTACCGGGCTCGGTTCGGCCTACTACGCGCTACGCGCCTGGCTGAGCGGGCGCGTCGAGGTGATCGCGGTGACCTTCCGCCATCTGGTCACCGCCGACTGGCTGTTTATCGCCACCACCGCGGTGTTCCAACCCCTCAGCGGCCTCGGCCTGGTGCACCTGGCCGGCTGGCCGCTGACCCAGCCCTGGCTGCTGTGGAGCTTGGGGCTCTACGTACTGGCCGGGCTCTGCTGGCTACCGGTGGTCTGGCTGCAAATCCGCGTGCGCGACATGGCCTGCGAAGCCCTGGAGACCGGTACACCGCTGCCGCCGCTGGCGCACCGCTACATGCGCCTCTGGTTCATCCTCGGCTGGCCGGCGTTCATCGCCTTCGTCGTGATCTTCTTCCTGATGGTGGGGAAGGGCGCGTAG	MSAYLILKTLHILSSTLLFGTGLGSAYYALRAWLSGRVEVIAVTFRHLVTADWLFIATTAVFQPLSGLGLVHLAGWPLTQPWLLWSLGLYVLAGLCWLPVVWLQIRVRDMACEALETGTPLPPLAHRYMRLWFILGWPAFIAFVVIFFLMVGKGA				NA	NA	NA	NA	NA
BMS010_07804	321			hypothetical protein	GTGACCCCTTACGAACAGGAAGACATTCGCTCCATTTTGAACCGCGTCTATCCACCGGAAATCGTCGCCCGTTGGGATATCAATGACCGGGTGGCCGAAACCCTGCTCGAGATGAGCGCGCAGATCAGCAACTGCTCCAAAGTCATGGACTTGGTTCCTAGACCGATGCCACCAGGAGCTAGACCGCTTCAATACATCACCAAGGAAGCCCGACGCGCACTGATGCGGCAGCTAAAGGATGACGAGTCCTACATCACTTGCATCAAAGCCGGCTCAGTGGCCTACCGCTCTCGTTTCGAGGCTGCCAGTGCCGGGATGTGA	MTPYEQEDIRSILNRVYPPEIVARWDINDRVAETLLEMSAQISNCSKVMDLVPRPMPPGARPLQYITKEARRALMRQLKDDESYITCIKAGSVAYRSRFEAASAGM				NA	NA	NA	NA	NA
BMS010_07805	582			hypothetical protein	ATGAAGAAATGGATTTTTGCAGCAGCCCTGCTGGCGGGGTTCAACGCCGGTGCATTGGCTGAAACCTGCCGCTATACCCCTCCCCCCGTCACCCCCTTACCCTCCACAGCTATCGACTCGCCACGACTGGTGTTGACCGGCCCTACAGTGCTGGAACTTGGTTTGGCTCAAACACCGGCCACCCTAGCCCATGGACCTGACCTCCTGATTGCCAAGTACGCAAACGGAGCCCTGCTGTCACATCGCGAGCTGAGTGGGGAAGAGTTGCGCCCCGATACCTCCAGCTCGCTGTCTCTCCCTGACTATGTACGCCTGCTGTTCCTGCAAACCATGGAAGGCGCAACGGAACAGGATCGGCAGGAAGCAACCCTGCAGCGGGAAGCCTTGCGCCTTGGCTGCAGCGTGGTGACGCATCACCTGCTCGATGGCGTGGAAATCTTCAGCTATTCGCAAACCCGCATCGGCGGAGAGCGCTACCACGCTTACTTCATCCTGACCGGGAATATCGTCCACTACCTCGACGTGGTAGCCACGGATGCCTTTGCCAAACGAATCATTTCGACACTGAAGAAAAGGACTTAA	MKKWIFAAALLAGFNAGALAETCRYTPPPVTPLPSTAIDSPRLVLTGPTVLELGLAQTPATLAHGPDLLIAKYANGALLSHRELSGEELRPDTSSSLSLPDYVRLLFLQTMEGATEQDRQEATLQREALRLGCSVVTHHLLDGVEIFSYSQTRIGGERYHAYFILTGNIVHYLDVVATDAFAKRIISTLKKRT				NA	NA	NA	NA	NA
BMS010_07806	309			hypothetical protein	ATGTCAGGTAATCAGGTGTGGAGCCGCCGATTGAAGGAAGCACGGGAGGCCATTGGGCTTTCGCAGAAACAATTGGGTATAGAGGCGGGACTGGACCCTTCGGTGGCGAGCACCCGAATCAACCGTTACGAACTGGGCGTGCATAAGGCGGACTACCAGATTTCACAGAAACTGGCCGAAGTCCTGAAGGTACCGGTGGCGTATTTGTATGCCGACGATGATGCATTGGCAGAGATCATCCGGTGGTACGGCCAGGCGGATGCGGGGCAGCGGGAACGATTGATGAAGGTAATGGCTGGGCCTGCCTGA	MSGNQVWSRRLKEAREAIGLSQKQLGIEAGLDPSVASTRINRYELGVHKADYQISQKLAEVLKVPVAYLYADDDALAEIIRWYGQADAGQRERLMKVMAGPA				NA	NA	NA	NA	NA
BMS010_07807	276			hypothetical protein	ATGGACTGTTCCTCTAAATACAAAAGTCATTTCACCAACATCCCTCCGGCCGATGGTCATCCGGGCCTGGAGCTGGTCTGGGAAGAGAATTGTCAGCCAGCCATCGACGATGGCATCGCGTGCGCCGAGCGCTGGCTTGCCAGCAGTCGTCGCGGCTACCTCTGGACAGCCCTGATCCTCGGTCGTGAGCAGCAACAAACGGCCATCCAGTACACCGCTTTCGAGGTGGGTTTTTTAACCCGCTTGCAGCAATGGGTAGTGAGGGAAGCGGAGTGA	MDCSSKYKSHFTNIPPADGHPGLELVWEENCQPAIDDGIACAERWLASSRRGYLWTALILGREQQQTAIQYTAFEVGFLTRLQQWVVREAE				NA	NA	NA	NA	NA
BMS010_07808	1101			hypothetical protein	ATGGATAGCCGCAGCTGGCTCCTGTTGGAGCATGAAGACCCGGCCTACCGCCTGCCCGACGACCTGCGCCAACACGACCCCTTCGGCGCCCGCGACTGCGGCTGGGTCGAGCAGATGCGGCCGTTCATCCGCCAGTTCTCGCGACCGGGCGAGCAGGTGCTCGACCCCTTCTGCGGCTTCGCCAGCACCCTGGTGGCAGCGCATCTGGAAGGTCGTCGCGGGCTCGGCTACGAGATCGACCCGGCCCGTGTCGAGCTGTCCCGCGAGCGCCTGCGCCGGCTGAACGCGGAAGGAGCCGAAGTCATCGCCTCGGATTTGCTTGAGGCCCCGCCCGCCGATCCGGTGGACCTCTGCCTGACCAACATTCCCTACTTCGGCTGCGACTGGCCGGCCGACGCCGGGCCGGCGCAACTCTATGCCGCCGCCCATTACGAGCAGTACCTGGACGGATTGGTGGAACGCTTTCACCGCATTCGCGATCTCCTGGCACCCGGTCGCCATTGCATCCTGATGGCGGAAAACCTTCGGCTCGGAGACCGCTGCGTGCCACTCGCCTGGGACGTGGCCCAGCGCGTCGGCGGGCTGTTCGAACTCTGCGAAGAGCGCATCCTGCTCTACCCGAAACCGGTCGAACCACTGCCTGCCTTCAGCAGCCGCAGCGACCGCAGCCACGAATACGCGCTGATCTTCCGCAAACAGGGCAGCACGCTGGATACGGACGATGCGCTGACACTGCTGCGCGCCTTGCGGGACGCCGGGTTCGCCTTTGCAATCTACGGCAGCTTCGCCACCTGGCTGACCAGCACGAGCGCCCAACCACCAGCAGACGTGGACCTGCTGGTGGCGCCCGACGAAGACCGCCTCAACGCCCTGCTCGGCTGGCTGCAAGCCCACCATTTCCGCCTGAGCTGCTGGCAGCAATCGCTGACGCTGCCCATCGCCCTGGCGGACTACCGGGGCCGCTACTACTTCCGCGCCGAACGCCTGGACCGCAGTGGAGGCTTGCTGCGCCTGGACCTGACCTTCGAGCAGGACAGCGAACCGGTGGCGGCACGCCTCGACCAGGCGCGGCTGTGCCAGGGGTTGCCAGTCGCGTCCTGA	MDSRSWLLLEHEDPAYRLPDDLRQHDPFGARDCGWVEQMRPFIRQFSRPGEQVLDPFCGFASTLVAAHLEGRRGLGYEIDPARVELSRERLRRLNAEGAEVIASDLLEAPPADPVDLCLTNIPYFGCDWPADAGPAQLYAAAHYEQYLDGLVERFHRIRDLLAPGRHCILMAENLRLGDRCVPLAWDVAQRVGGLFELCEERILLYPKPVEPLPAFSSRSDRSHEYALIFRKQGSTLDTDDALTLLRALRDAGFAFAIYGSFATWLTSTSAQPPADVDLLVAPDEDRLNALLGWLQAHHFRLSCWQQSLTLPIALADYRGRYYFRAERLDRSGGLLRLDLTFEQDSEPVAARLDQARLCQGLPVAS				NA	NA	NA	NA	NA
BMS010_07809	1104			hypothetical protein	ATGGACGGTTCGACGGCAACGCTGCTGGCCAGCGACCACACTCCACTGCTCGGCTCCGCCCTGGCGCAACGGCTGCGCGACCAGGGCCTGCCGGTCCGCCAGCGGGCACCGGGGGAACGGGCGGAGCGCTGGCACACCCATCGCCTGGGCGGGCATCTCTACCGGTTCGCCCAGCCCATCACCCTGACTCCCTATGCCTCCGCCCGTCCCTGCTCGGCGCGCTGCCTGTTCTGTTCGGAAAACCTGCGGACGCACGAACCCCTGGCCGCCGCGGCGACCTTGCGCCCGATGGATGACTATTTCAGCGGACTGACCAAGGCATTGCACGCCCTGCGCGGGCTGCCGCTGTCCTATTCGCTGTCCGGCCTGGAAGCCAGCGACGATGCCGACTGGCTGCTGCGCCTGCTGGAAACCCTGGGCGACGCCGGCATGGCCCCGTTCGTCGAACAGCGCGTGCTCTATTCCAACGGTGCCGGCCTGGCCGGCCCGCGCGGCACGGAACTGCTCGCCGCCTTGCGCGACTTCGGCCTGAGCTGGCTGGAGCTGTCGCGCCATCACCCGGACCCCACGGCGAACCAGCGAATCATGCGCTTCCGGCCCGGCGAGGCGATTGCCGAGGCGGAGACGTTCGAGTATACCGCCCGGCAGATCGCCGCCCAGGTACCGCTGCGGCTGGTCTGCCTGCTGCAGCGCGGCGGGGTGGATTCGCCGCAGACCGTGGCGCAGTACCTCGACTGGGCCAACCGTCTCGGCGCCCGGACGGTGATCTTCCGCGAGCTGTCGCGGCTGGACGGCAGCTACCGGACCAACGCCACCCATCGCTACGTGCAGGATGCCCGCGTGGCGCTGGAACCGTTGCTGCTGGCCTGTCTGGCCGACCCGGCGCTGACGCCGCTGGAGCTGACCGACGGCTACTACTTCTGGAACCTGCGCCTGCGCCACCGCAGCGGCCTGGACGTGATCTTCGAATGCTCGGACTACCGCACCATGCACGACCGCCACGCCGAGGGCCGCGTCTACAAGCTCGTGTACTTCGCCAACGGCCAGCTCTGCGCCGGCTGGCAGCCGGGGCATGACGTGCTGCTGGACACCCGCCATGGATAG	MDGSTATLLASDHTPLLGSALAQRLRDQGLPVRQRAPGERAERWHTHRLGGHLYRFAQPITLTPYASARPCSARCLFCSENLRTHEPLAAAATLRPMDDYFSGLTKALHALRGLPLSYSLSGLEASDDADWLLRLLETLGDAGMAPFVEQRVLYSNGAGLAGPRGTELLAALRDFGLSWLELSRHHPDPTANQRIMRFRPGEAIAEAETFEYTARQIAAQVPLRLVCLLQRGGVDSPQTVAQYLDWANRLGARTVIFRELSRLDGSYRTNATHRYVQDARVALEPLLLACLADPALTPLELTDGYYFWNLRLRHRSGLDVIFECSDYRTMHDRHAEGRVYKLVYFANGQLCAGWQPGHDVLLDTRHG				NA	NA	NA	NA	NA
BMS010_07810	654		COG0560	putative phosphatase	GTGCGTTTGGCTCTGTTCGATCTCGACAACACCCTGCTGGCCGGCGACAGCGACCATGCCTGGGGCGACTACCTGTGCGAGCGCGGCATTCTTGACGGCGTGGCCTACAAGGCGCGCAACGATGCCTTCTACCAGGACTACCTCGCTGGCCGCCTGAACATCCGCGACTACCTGAATTTCTGCCTGGAAATTCTCGGCCGCACCGAGATGGCCCAGCTCGAACAGTGGCACCGCGAGTTCATGCGCGACTGCATCGAGCCGATCATCCTCGCCAAGGGCGAAGCCCTGCTGGAAAAACACCGCGCCGCCGGCGACAGGCTGGTGATCATCACCGCCACCAACCGCTTCGTCACCGGGCCGATCGCCGCGCGCCTGGGCGTCGAGACCCTGCTCGCCACCGAATGCGAGATGCAGGACGGCCGCTACACCGGCCGCACCACCGACGTGCCCTGCTACCAGGAAGGCAAGGTCACCCGCCTGGAGCGCTGGCTCGGCGAAACCGGCCTGAGCCTGGAAGGCAGCTACTTCTATAGCGACTCGCGCAACGATCTGCCGTTGTTGGAGCGGGTCAGCCATCCGGTGGCGGTCGATCCGGACCCGATCCTGCGCGCCGAGGCGGAAAAACGCGGCTGGCCGGTAATTTCCCTGCGCTGA	MRLALFDLDNTLLAGDSDHAWGDYLCERGILDGVAYKARNDAFYQDYLAGRLNIRDYLNFCLEILGRTEMAQLEQWHREFMRDCIEPIILAKGEALLEKHRAAGDRLVIITATNRFVTGPIAARLGVETLLATECEMQDGRYTGRTTDVPCYQEGKVTRLERWLGETGLSLEGSYFYSDSRNDLPLLERVSHPVAVDPDPILRAEAEKRGWPVISLR	PGPT0015285_14	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-INHIBITION_OF_SALICYLIC_ACID|JASMONIC_ACID	ADAPTION_TO_PIS_REGULATION_BY_Nod_FACTORS,PGPT0015285-nodU-K00612	NA	NA
BMS010_07811	480	rppH_4	COG0494	RNA pyrophosphohydrolase	GTGATCGATCCCGATGGTTTCCGCCCGAATGTCGGCATCATCCTGACCAATGATCTGGGACAGGTGCTCTGGGCGCGGCGTATCAACCAGGATGCCTGGCAATTTCCGCAGGGAGGCATCAACGCCGCCGAGACGCCCGAAGAAGCGCTGTATCGCGAATTGAACGAAGAAATCGGTCTCGAGCAGCAAGATGTGCAAATTCTTGCCTGCACCCGGGGCTGGTTGCGTTATCGTCTGCCTCAGCGCTTGGTGCGCACCCACAGCCAGCCGCTGTGCATCGGTCAGAAGCAGAAGTGGTTCCTGTTGCGTCTGCTGTCCGACGAGCAGCGGGTGCGGATGGACGTGACCGGCAAACCGGAATTCGACGGTTGGCGCTGGGTCAGTTACTGGTACCCGCTGGGCCAGGTGGTGACCTTCAAGCGTGAAGTCTACCGAAGAGCCCTGAAAGAACTTGCCCCGCGCCTGCCGGCGCGCGATTGA	MIDPDGFRPNVGIILTNDLGQVLWARRINQDAWQFPQGGINAAETPEEALYRELNEEIGLEQQDVQILACTRGWLRYRLPQRLVRTHSQPLCIGQKQKWFLLRLLSDEQRVRMDVTGKPEFDGWRWVSYWYPLGQVVTFKREVYRRALKELAPRLPARD				NA	NA	NA	NA	NA
BMS010_07812	2280	ptsP_2	COG3605	Phosphoenolpyruvate-dependent phosphotransferase system	ATGCTCAACACGCTGCGTAAGATCGTCCAGGAAGTAAACGCCGCCAAGGATCTCAAGACGGCGCTGGCGATCATCGTGCAGCGGGTCAAGGAGGCCATGGGCAGCCAGGTGTGCTCGGTCTACCTGCTCGATCCCGAATCCAACCGCTTCGTGCTGATGGCCACCGAGGGCCTGAACAAGCGCTCCATCGGCCGCGTCAGCATGGCGCCCAACGAGGGCCTGGTGGGCCTGGTGGGCACCCGCGAGGAGCCGCTCAACCTCGAGAACGCCGCCGACCACCCCCGTTATCGCTACTTCGCAGAGACCGGCGAGGAACGTTACGCCTCCTTTCTCGGCGCGCCGATCATCCACCACCGCCGGGTGATGGGCGTACTGGTGGTGCAGCAAAAGGAGCGCCGCCAGTTCGACGAAGGCGAGGAAGCCTTCCTGGTCACCATGAGCGCCCAGCTTGCCGGGGTCATCGCCCATGCCGAGGCCACCGGTTCCATCCGTGGCCTGGGCCGGCAGGGCAAGGGCATCCAGGAGGCCCGTTTCGTCGGCGTGCCCGGTGCACCCGGCGCCGCCGTCGGGACCGCGCTGGTGGTGCTGCCGCCGGCCGACCTGGAAGTGGTGCCGGACAAGGCCATCGATGACATCGAGGCCGAGGTCGAGCGCTTCAAGCAGGCGCTGGAAGGGGTTCGCGAAGATATGCGGACGTTGTCCGCCAAGCTCGCCACCCAGTTGCGCCCGGAAGAGCGGGCGCTGTTCGACGTCTACCTGATGATGCTCGACGACGCCTCCATCGGCCTGGAGGTCAAGCGCATCATCCGCACCGGGCAGTGGGCCCAGGGTGCGTTGCGGCATGTGGTCATGGAGCACGTCAAGCGCTTCGAACTGATGGACGACGCCTACCTGCGCGAGCGCGCGGCGGACGTCAAGGACCTCGGCCGACGCCTGCTCGCCTACCTGCAGCAGGAACGCAAGCAGAACCTGGTCTACCCGGACAACACCATCCTGGTCAGCGAAGAGCTGTCACCGTCGATGCTCGGCGAGGTGCCGGAAGGCAAGTTGGTCGGCCTGGTCTCGGTGCTCGGTTCGGGCAACTCCCACGTGGCGATCCTCGCCCGCGCCATGGGCATTCCCACGGTCATGGGCGTGGTCGACCTGCCGTATTCCAAGCTCGACGGCATCGAGCTGATCGTCGATGGCTACCACGGCGAGGTCTACACCAACCCCAGCGAGCTGCTGCGCAAGCAGTACGCCGAGGTGGTCGAGGAAGAACGCCAACTGGCCCAGGGCCTTGCTGCCCTGCGCGCGCTGCCGTGCGAGACGCTGGACGGCCACCGCATGCCGCTCTGGGTCAACACCGGGTTGCTCGCCGACGTGGCGCGCGCCCAGGAGCGCGGCGCCGAGGGCGTCGGCCTGTACCGTACCGAAGTGCCGTTCATGATCAACGAGCGCTTTCCCAGCGAAAAGGAGCAGCTGGCGATCTACCGCGAGCAGCTCGCCGCCTTCCACCCGCTGCCGGTGACCATGCGTACCCTGGACGTCGGCGGTGACAAGGCGCTGTCCTATTTCCCGATCAAGGAAGAAAACCCCTTCCTCGGCTGGCGCGGCATCCGCGTCACCCTCGATCACCCGGAAATCTTCCTGGTCCAGGTGCGCGCCATGCTCAAGGCCAGCGAGGGCCTGGATAACCTGCGCATTCTGCTACCGATGATTTCCGGCACCCAGGAGCTGGAAGAAGCGTTGCACCTGATCCACCGTGCCTGGGGCGAAGTGCGCGACGAGGGCGTGGACATCCCCATGCCGCCGGTGGGCGTGATGATCGAGATTCCCGCCGCCGTCTACCAGACCCGCGAACTGGCGCGCCAGGTGGACTTCCTGTCGGTCGGCTCCAACGACCTGACCCAGTACCTGCTGGCGGTGGACCGCAACAATCCGCGTGTCGCCGATCTCTACGACTACCTGCACCCGGCGGTGCTGCAGGCGCTGAGGAAAGTGGTGGAGGATTGCCACCTCGAAGGCAAGCCGGTGAGCATCTGCGGCGAGATGGCCGGGGACCCGTCGGCGGCGGTGCTGCTGATGGCCATGGGCTTCGACAGCCTGTCGATGAACGCCACCAACCTGCCCAAGGTGAAGTGGCTGCTGCGCCAGATCACCCTGGGCAAGGCGCGCGAACTGCTCGCCCAGTTGATGAACATCGACAACCCGCAGGTGATCCACAGCTCCCTGCACCTGGCCCTGCGCAACCTGGGCCTCGGCCGGGTGATCAATCCCGCCGCCACTATCCAGGGCTGA	MLNTLRKIVQEVNAAKDLKTALAIIVQRVKEAMGSQVCSVYLLDPESNRFVLMATEGLNKRSIGRVSMAPNEGLVGLVGTREEPLNLENAADHPRYRYFAETGEERYASFLGAPIIHHRRVMGVLVVQQKERRQFDEGEEAFLVTMSAQLAGVIAHAEATGSIRGLGRQGKGIQEARFVGVPGAPGAAVGTALVVLPPADLEVVPDKAIDDIEAEVERFKQALEGVREDMRTLSAKLATQLRPEERALFDVYLMMLDDASIGLEVKRIIRTGQWAQGALRHVVMEHVKRFELMDDAYLRERAADVKDLGRRLLAYLQQERKQNLVYPDNTILVSEELSPSMLGEVPEGKLVGLVSVLGSGNSHVAILARAMGIPTVMGVVDLPYSKLDGIELIVDGYHGEVYTNPSELLRKQYAEVVEEERQLAQGLAALRALPCETLDGHRMPLWVNTGLLADVARAQERGAEGVGLYRTEVPFMINERFPSEKEQLAIYREQLAAFHPLPVTMRTLDVGGDKALSYFPIKEENPFLGWRGIRVTLDHPEIFLVQVRAMLKASEGLDNLRILLPMISGTQELEEALHLIHRAWGEVRDEGVDIPMPPVGVMIEIPAAVYQTRELARQVDFLSVGSNDLTQYLLAVDRNNPRVADLYDYLHPAVLQALRKVVEDCHLEGKPVSICGEMAGDPSAAVLLMAMGFDSLSMNATNLPKVKWLLRQITLGKARELLAQLMNIDNPQVIHSSLHLALRNLGLGRVINPAATIQG	PGPT0002030_228	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0002030-ptsP-K08484	NA	NA
BMS010_07813	771			hypothetical protein	ATGTGTCTGATCGCCTTCGCTTGGCGCCCCGGTCACGCCGTACCCCTGGTACTGGCCGCCAACCGCGACGAGTTCTACGCCCGCCCGGCCCTGCCGCTGGCGGCCTGGGAAGAGTCCCCCTCGCTCTATGCGGGCCGCGACCTGGAAGCCGGCGGTACCTGGCTGGGTATCGCGCCTGGCGGCCGCTTCGCCGCCCTGACCAACATCCGCGATCCGCGCCAGCCACCACGCGGCCGCTCGCGCGGCGAACTGCCCGTGCAGTACCTGCGCGGCGACCTGTCTCCGGAAGCCTTCGTCGCCGACGTGGCGGAACGGGCCAACGACTATTCGGTGTTCAACCTGATTCTCGGCGACGATCGCGAGCTCTGGCATTTCAACTCCCGCACCGGCAGTGCCCGCTGCCTGCCGGCGGGCCTGTACGGGTTGTCCAACGCCGACCTGGACACACCCTGGCCCAAGGTGCAGCGGGCCAAGGCGATGCTGCATCACTGCCTGGAGGCCCCGCATCCGGAGGCACTGCTGAACCTGTTGCACGACGCCGAGCAGGCCGACGACGCCATCCTGCCCGATACCGGCATCGGCCTGAACACCGAGCGCCTGCTGTCGAGCATCTTCATCGCCACCGCCAACTACGGCACCCGCGCCAGCACGGCGCTGATCATGCAGGCCGATGGCGTGCGGCATATCGTCGAGCGCAGCTACGGGCCCCATGGCGGGCATCTGGGCGAAGTGAGCTTGAGGGTGGATGCGGCGGGCAGGACACTCGCCTGA	MCLIAFAWRPGHAVPLVLAANRDEFYARPALPLAAWEESPSLYAGRDLEAGGTWLGIAPGGRFAALTNIRDPRQPPRGRSRGELPVQYLRGDLSPEAFVADVAERANDYSVFNLILGDDRELWHFNSRTGSARCLPAGLYGLSNADLDTPWPKVQRAKAMLHHCLEAPHPEALLNLLHDAEQADDAILPDTGIGLNTERLLSSIFIATANYGTRASTALIMQADGVRHIVERSYGPHGGHLGEVSLRVDAAGRTLA				NA	NA	NA	NA	NA
BMS010_07814	783			hypothetical protein	ATGGAATTCCTGCTCTACCTGGTGCTGGGGGCGGCGGCTGGCGTACTGGCGGGCCTGTTCGGCGTCGGTGGCGGCATCATCATCGTGCCGGTGCTGGTATTCAGCTTCACCGCTCAGGGCTTCGATCCGTCGGTGCTGACTCACCTGGCGGTCGGTACGTCCCTGGCGACCATCGTCTTCACGTCGATCAACTCGGTGCTGGAGCATCAGCGCAAGGGCGCGGTGCGCTGGCCGATCTTCGCCTGGATGACCCTCGGTATCCTGCTCGGTGCGGCGCTCGGCTCGCTGACTGCGGCGGCCATCCAGGGCCCGATGCTGCAGAAGATCATTGGCGTGTTCGCCATCGTCATCTCGATTCAGATGGGCCTAGACCTGCGCCCCAAGGCCAGCCGCGATGTGCCCGGCAAGGTCGGCCTGACCGCCGCCGGCGGGGTGATCGGCTGGGCGTCGGCGATCTTCGGGATCGGCGGCGGCTCGCTGACCGTGCCGTTCCTGACTTGGCGCAGCGTGCCCATGCAGCAGGCGGTGGCCACCTCGTCGGCCACCGGGCTACCCATCGCCGTGGCCAGCGCGCTGAGCTTCATGGTGCTCGGCTGGCACGACGAGCACCTGCCGGAATGGAGCCTGGGTTTCGTCTACCTGCCGGCGATGGTCGGCATCGCGCTTACCAGTATGTTCTTCGCCCGTTTCGGCGCGCGCCTGGCGCACAAGCTGTCGCCGCGTGTGCTCAAGCGCCTGTTCGCACTGTTGCTGCTGTGCGTGGGCGTGAGCTTTCTTGTTTAA	MEFLLYLVLGAAAGVLAGLFGVGGGIIIVPVLVFSFTAQGFDPSVLTHLAVGTSLATIVFTSINSVLEHQRKGAVRWPIFAWMTLGILLGAALGSLTAAAIQGPMLQKIIGVFAIVISIQMGLDLRPKASRDVPGKVGLTAAGGVIGWASAIFGIGGGSLTVPFLTWRSVPMQQAVATSSATGLPIAVASALSFMVLGWHDEHLPEWSLGFVYLPAMVGIALTSMFFARFGARLAHKLSPRVLKRLFALLLLCVGVSFLV				NA	NA	NA	NA	NA
BMS010_07815	789	lgt_2	COG0682	Phosphatidylglycerol--prolipoprotein diacylglyceryl transferase	ATGCTGCCCTATCCCCAGATTGATCCGGTGGCCATTGCCCTCGGACCGGTAAAAATCCACTGGTACGGCCTGATGTACCTGATCGGCATCGGCGGCGCCTGGTGGCTGGCCTCCCGACGCCTGGAGCGCTTCGACCCGACCTGGAGCCGGGAGAAACTCTCCGATCTGGTGTTCTGGGTGGCGCTCGGGGTGATCCTCGGCGGACGTCTGGGCTATGTGTTGTTCTACGACCTGCCGGCGTACATCGCCCAGCCGAGCCTGATCCTGCAGGTGTGGAAGGGCGGCATGTCGTTCCACGGCGGCTTGATCGGCGTAATGCTATCCACCTGGTGGTTCGGCCGGCGCAACGGCAAGAGCTTCTTCGAACTGATGGACTTCATCGCGCCGTTGGTGCCGATCGGCCTGGGCGCCGGGCGGATCGGCAATTTCATCAATGCCGAGCTGTGGGGCAAGGCCACCGACCTGCCCTGGGCGATGATCTTCCCCACCGACCCGCAGCAACTGCCGCGCCATCCTTCCCAGCTCTACCAATTCGCCCTGGAGGGCGTGGCGCTGTTCTGCATCCTCTGGTTCTACTCGCGCAAGCCTCGGCCGACCATGGCTGTTTCCGGCATGTTCGCCCTCTGCTACGGCATCTTCCGCTTCATCGTCGAGTTCGTCCGGGTGCCGGACGCGCAGCTCGGCTACCTCGCCTTCGGCTGGCTGACCATGGGACAGGTGCTTTGCCTGCCGATGATCCTTGGCGGGCTCGGCCTGATCGCCTGGGCCTACAAGCGCCAGGCACGCTGA	MLPYPQIDPVAIALGPVKIHWYGLMYLIGIGGAWWLASRRLERFDPTWSREKLSDLVFWVALGVILGGRLGYVLFYDLPAYIAQPSLILQVWKGGMSFHGGLIGVMLSTWWFGRRNGKSFFELMDFIAPLVPIGLGAGRIGNFINAELWGKATDLPWAMIFPTDPQQLPRHPSQLYQFALEGVALFCILWFYSRKPRPTMAVSGMFALCYGIFRFIVEFVRVPDAQLGYLAFGWLTMGQVLCLPMILGGLGLIAWAYKRQAR				NA	NA	NA	NA	NA
BMS010_07816	1329			Gluconate 2-dehydrogenase cytochrome c subunit	ATGTGCCGCCCCGTTTTTTGCTTCCTGTTGTGGGTATTGGCCTTTCCCATCGGGGCCGCCCCACGGCTCTCCGCCGAGGATGAGCTGGCGTCCCAGGCCGATTCGCGGCTGTTCAGCCGCGGCGAATACCTGGCCCGCGCCGCAGACTGCGCCGCCTGCCACACGGCCAGCCCGAACGCCCCCTTCGCCGGTGGCGTGGGTCTGGCGACGCCGCTGGGCGCGGTCTACTCCACCAACATCACCCCGGACCCGAAGACCGGCATCGGCAACTACAGCTTCGAGGATTTCGACCGTGCCGTGCGCCAGGGCATCGCCAAGGGTGGCCGGCGCCTCTATCCGGCAATGCCCTATCCGTCCTACGCGAAGCTGAGCGAAGACGACGTGCGCGCGCTCTACACCTATTTCCTCCAAGGCGGCGTGGATGCCATTGCCCGGGAAAGCCGCGAAAGCGATATCCCCTGGCCACTGGACATGCGCTGGCCGCTGGCGGTCTGGAACGGGCTGTTTCTCGACGAGAAACGCTTCGAGCCGCGCGTGGACAAGAGCGAGCGCTGGAACCGCGGCGCCTATCTGGTCCAGGCCCTGGCTCATTGCGGCACCTGCCACACACCACGCGGGATCGCCTTCCAGGAAATCGCCCTGGACGAGCGCCAGGAAGGCTTCCTCGCCGGGGGCAGCCTGGGCGGCTGGGATGCCTACAACATCACCTCGCACCCGAAGGCCGGCATTGGCGGCTGGAGCGAGGAGGAACTGCTCCGCTACCTCAGGACCGGCTCGACGCCCGGCAAGGCCCAGGCCGCCGGCCCCATGGGCGAGGCGGTGCAACACAGCTTCCGCTACTTGAAGGACGAGGATCTGCAGGCCATCGTCGACTACCTGCGCAGCGTTCCGCCAGTCGACGACGGCCGCCCCAAGGCCCGCTACGAATATGGGGCACCGGCGAACGACGTGGTGAAGCTGCGGGGCACGCCCGTGCGCCAACCCGGCCAGGCAGGGCCCGACCCGCAACACGAGGGTGCCCGGTTGTTTCTCGGCAACTGCGCCAGTTGTCACCAATGGAGCGGCGAAGGCGCGGCGGACGGCTTCTACCCGGCGCTGATGGGCAACACCGCGCTCGGCGCGCAGAGCCCCACCAACCTGCTCCAGGTGATCCTCAATGGCGTATCCCGTGGCGATGAAGCCAGCCGTAACGCCGCCTTCATGCCAGCCTTTCATGACAGCCTGGACGATGCCCAGATCGCCTTGCTGGCCAATTACCTGTTCGAGCGCTTCGGCAATCCGCAGGTGAAGGTAAATGCGGAGGATGTTGCCCGGCTGCGCCCCAGGTGA	MCRPVFCFLLWVLAFPIGAAPRLSAEDELASQADSRLFSRGEYLARAADCAACHTASPNAPFAGGVGLATPLGAVYSTNITPDPKTGIGNYSFEDFDRAVRQGIAKGGRRLYPAMPYPSYAKLSEDDVRALYTYFLQGGVDAIARESRESDIPWPLDMRWPLAVWNGLFLDEKRFEPRVDKSERWNRGAYLVQALAHCGTCHTPRGIAFQEIALDERQEGFLAGGSLGGWDAYNITSHPKAGIGGWSEEELLRYLRTGSTPGKAQAAGPMGEAVQHSFRYLKDEDLQAIVDYLRSVPPVDDGRPKARYEYGAPANDVVKLRGTPVRQPGQAGPDPQHEGARLFLGNCASCHQWSGEGAADGFYPALMGNTALGAQSPTNLLQVILNGVSRGDEASRNAAFMPAFHDSLDDAQIALLANYLFERFGNPQVKVNAEDVARLRPR	PGPT0017695_24	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017695-fdhC-K23275	NA	NA
BMS010_07817	1584	fdhL		Fructose dehydrogenase large subunit	ATGGCCGACAGCGATTACGCCGACTATGTGGTGATCGGCGCCGGGCTGGCCGGCGGCATGATCGCCCATCGCCTGGCCGAGTCCGGCAAGGACGTGTTGTTGCTGGAAGCAGGCCCCCGGCTGAGCCGCTGGGAAATCCTCGAGCGCTTCCGCAACCAGCCGGACAAGACCGACTTCCAGGCGCCCTATCCCGCGACGGAACATGCGCCGCACCCCATGATTCATGTGAATAACGGCTACCTGATCCAGAAAGGCGACCATCCCTACAACGTCCAGTACCTGCGCCTGGTCGGCGGTACCACCTGGCACTGGGCGGCGGCGACCTGGCGCTTCCTGCCCAGCGATTTCAAGCTGAAAAGCCTGTATGGCGTGGGGCTGGACTGGCCAATCGGCTACGAAGACCTCGAACCCTGGTATGCCCAGGCCGAAGCGGAGATGGGCGTCTGGGGGCCGAACGACGAGGACCTCGGCTCGCCGCGCTCCGGCCCTTATCCCATGGAGCCGCTGCCGCTGTCGTACAACGACCGGCGCATCAAGGAGGTGCTCAACGCCCACGGTTTTCGTGTCGTCACCGAGCCGGTGGCGCGCAACAGCCGGCCCTACGACGAGCGCCCGACCTGCTGCGGCAATAACAATTGCATGCCGCTGTGTCCGATCGGGGCCATGTACAACGGCATCATGCATGTGGAAAAGGCGGAAAAGGCCGGCGCCCGGCTGATCGCCAATGCCGTCGTCCACGGCCTGGAGCGCGATGACCGGCAGCGCATCCGCGCCGCGCTCTACAAGGACCCTACCGGCACCGAGCACCGGGTCGAAGGCAAGGTCTTCGTGCTCGCGGCCAACGGCGTGGAGACCGCCAAGCTGATGCTGATGGCAGGGGTCGGCAACCGTTCGGGGCTGGTCGGCCGCAACCTGATGGATCACCCCGGCACCGGAGTCAGCTTCTTCGCCGACGAACCGCTCTGGGCAGGACGCGGCCCCCAGGAAATGACCTCCCTGGTGGATTTCCGCGACGGCCCCTTCCGCAGTGAGTTCGCCGCCAAGAAGATCCACCCCTCCAACCTCAGCCGCCTCGACGAAGTGACCCTCGGCGAACTGCGCAACGGCCCGCTGCGTTTCGGAAAGGCATTGGAGGATCGCATCCGCGACCGCACCGCACGCTTCGTGCGCCTGGACAGCTTCCACGAGATCCTGCCACGCCCGGAAAACCACATCGTGCCCAGCGCCACGGAGAAGGACGCCCTGGGCATTCCCAAGCCGGAGTTCACCTACGCCCTGGACGATTATGTGCGCCGCAGCGCCGCCCATACCCGGGAGGTCTATGCCAGCGCCGCGCAGGCGCTCGGCGGCAGCGAGGTACGCTTCCACGACGATTACGCGAACAACAATCACATCGCCGGCACCACGCTGATGGGTGACGATCCGGCCACCTCGGTAGTGGACGCCGGTTGCCGCAGCCACGACCACCCCAACCTGTTCATCGCCGGTGGTTCGGTGATGCCCACCGTCGGTACCGTGAACATCAGCCTGACCATCGCCGCCCTCGCCCTGCGGCTCGCGGAATCGCTCAAGGGGGAGGTCTGA	MADSDYADYVVIGAGLAGGMIAHRLAESGKDVLLLEAGPRLSRWEILERFRNQPDKTDFQAPYPATEHAPHPMIHVNNGYLIQKGDHPYNVQYLRLVGGTTWHWAAATWRFLPSDFKLKSLYGVGLDWPIGYEDLEPWYAQAEAEMGVWGPNDEDLGSPRSGPYPMEPLPLSYNDRRIKEVLNAHGFRVVTEPVARNSRPYDERPTCCGNNNCMPLCPIGAMYNGIMHVEKAEKAGARLIANAVVHGLERDDRQRIRAALYKDPTGTEHRVEGKVFVLAANGVETAKLMLMAGVGNRSGLVGRNLMDHPGTGVSFFADEPLWAGRGPQEMTSLVDFRDGPFRSEFAAKKIHPSNLSRLDEVTLGELRNGPLRFGKALEDRIRDRTARFVRLDSFHEILPRPENHIVPSATEKDALGIPKPEFTYALDDYVRRSAAHTREVYASAAQALGGSEVRFHDDYANNNHIAGTTLMGDDPATSVVDAGCRSHDHPNLFIAGGSVMPTVGTVNISLTIAALALRLAESLKGEV	PGPT0017690_89	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017690-fdhL-K23273	NA	NA
BMS010_07818	489			hypothetical protein	ATGTCGCCCAACCCGCTGTCCGCTGCGTTCCTGACCCGGCGCCGACTACTCGGCGCGTTCTGTGCCGGTACCGCCGGCTGTGCCTTGTCGGCCTCCTGGCCGCTCGGCGCGGCGCCACGGGACGAGACGCTGGAGACGCTGATGCAGGTGTCGCGACGGCTTACCGGGCGCGAGGCGCTGGAAGAAGCCATCGGTAAACGCATCCGTGACATCCTCGCCCAACGCCACCCGGAGTTCCCCGACCTGCTTGCACAATTGGCCGACAGCCTGGAGCAGGACCCGGCGCAGTGGAGCGATCCGTTGCAGCGCATGACCCGCGACCTGCTCAGCGGCTGGTACTTGGGCTATGTCGGCGACCCCGGCCAGACGGTGCTGGTCAGCTACGAACTGGCACTGATGCACGGGCTGGTGGCCGACGTGCTGAAACCCCGCACCTACTGCGCGACTCGCCCCGGCGACTGGGCGACGCTGCCCGGCCAGGAGACCTGA	MSPNPLSAAFLTRRRLLGAFCAGTAGCALSASWPLGAAPRDETLETLMQVSRRLTGREALEEAIGKRIRDILAQRHPEFPDLLAQLADSLEQDPAQWSDPLQRMTRDLLSGWYLGYVGDPGQTVLVSYELALMHGLVADVLKPRTYCATRPGDWATLPGQET				NA	NA	NA	NA	NA
BMS010_07819	153			hypothetical protein	GTGGGCCGGAACGGCAGCGACCTCACCCGCGTCGTCGGCAGGGTCGATCCGCGCGGCCCCTACCTGGGGCGCTCCGGTGGGCGCTATCGCCCACTCAGCGATATCTCCAAGGCCTACGTCGAGAAATTCGGCGTGCCCTACGGCTCGTGGTAA	MGRNGSDLTRVVGRVDPRGPYLGRSGGRYRPLSDISKAYVEKFGVPYGSW				NA	NA	NA	NA	NA
BMS010_07820	1416			hypothetical protein	ATGCACTTGATCAATGCCCGAGACCTGGGCCGACAAAAAACCATCGATCCCTACCTCGCAGAGGGTTTGGTGCGCAACGCCCTGATGCAGGGGCGACATACTCTCGGCGGACTGGACGAACTCCAGCGCACCACCGGCTTCTTTTCGGACACTGATATCCTCGACGCGGTACGCCGAGGCGACTGGCTCCTGGTCCCGAATGACACAATGCCGGCTTCCGGCAGCCTGTTGATCCCGGCCCAGCCGACAACCGAACAGGCCTATATCTTCGAAGACGTCTGGCCCGAGCCCAAACCCCGCACGGACAAGGTTTTCGCCAAGTCCTGTACCCCTGGCAACTGGGGCAAGACACGTCCCGGCACCGCCATCGAGCCCGCCTCCCACTTCGGCAAGGTCATGATCGCCGGGACGGTGGCGCTGCCCGCGTCCGCCATCACCGCAGCCAATGCCGGCGCCGATACCGCCCTGGCGCGGATCGCCGGCGGCGGCATCATGCAACAGGGCTACACCTGGGCTCTACGGGGCGCACCTTTCACGGTGAATCCCATTTCCCTGTTCATCCTCGGCATGCTGCCCACCACCCTGGGCGACGGCACGCTGCACCAGAGCGACGAGCTGCGTGGCATGGACTATGCGCCAACGCGGGTGCGCTTCCAGTTCCGCCGCGATACCAGCGGAGCCCTGCAGGTCTACGGTATCCACACCGGCCCCGACGGCGATGACGCGGTGCGCACGGTAAAGGCCGAATGGAACGCCGACCACAGCGCCCTGGAAGCCCACCTGAGCGGCCTGACCATCCTGTGGATTCCCAACAAAGGGCCGCACAACATCCCGCCGCTGATCTACCCCGACCACCCCGGCGAGCAACTCGACACCATCCGCGTACACCCCATCGCGGAAAACACCGATACCGAGATCGAGGGCTACCCCGCCGGGGAAGACCTCACCGCCGACGACTTCATCCTCACCTTCCCGGCGGAAACAGGGTTGAGGTCGTTGTATATCGTCTATGCGAAGCCGGCGGTGAGGCCGTTGGAGGTGGGGCCTGCTGACGATCTGATGGGACGGAGTACCAAGGACAGCTTGGACATCGACCATATTCCTGCGCAGAAGGCGCTGGAATTAGCACTGACTAGTGCATTCCCTGGAATTACCAGTAAGGAAGTCCGCATATATCTCCGTAAAGCAGCGGCAATTGCCATTCCGGCTCGTGTGCATCAGAAGTACAGTGAGACCTATGGCGGACGTAATTCCAAGGCCAAGCAGACTCAGGATGCCGAAGATCTACGGGCAGCGGTGGATAGTAATTTAAATGCTATCAAACCTGGATTGCTGGAAGAAGGTTACGCCGAGAGCGATATCGAAGCGGCCCGCGAGCTGCTGCATAAACTCAACCAAGAACAGGGCTGGTACTGA	MHLINARDLGRQKTIDPYLAEGLVRNALMQGRHTLGGLDELQRTTGFFSDTDILDAVRRGDWLLVPNDTMPASGSLLIPAQPTTEQAYIFEDVWPEPKPRTDKVFAKSCTPGNWGKTRPGTAIEPASHFGKVMIAGTVALPASAITAANAGADTALARIAGGGIMQQGYTWALRGAPFTVNPISLFILGMLPTTLGDGTLHQSDELRGMDYAPTRVRFQFRRDTSGALQVYGIHTGPDGDDAVRTVKAEWNADHSALEAHLSGLTILWIPNKGPHNIPPLIYPDHPGEQLDTIRVHPIAENTDTEIEGYPAGEDLTADDFILTFPAETGLRSLYIVYAKPAVRPLEVGPADDLMGRSTKDSLDIDHIPAQKALELALTSAFPGITSKEVRIYLRKAAAIAIPARVHQKYSETYGGRNSKAKQTQDAEDLRAAVDSNLNAIKPGLLEEGYAESDIEAARELLHKLNQEQGWY				NA	NA	NA	NA	NA
BMS010_07821	474			hypothetical protein	ATGGACGCCATAACCATTGAGCGATGGATCAAGAACCTGGGGCGTCCCTACGATACGTTGGTCGCTGAAGGGATCATCTCCAACCTGCCACTTCAGGAGCTTTACAAGGGTAGGGATTGGTTGGACATCGAGCCGGTGGATGGGCTGGAACTGAGCTTCGAAGCGAAGGCCAAGCGGCTTGAGACCATCCATATCGTTTTGTTGAGCACGATGGAAGGCATAACGGAATACAAAGGTGAGCTACCAAGGCCTTTTGCGCAGCTCATGAAACAGTCGGAGGTTCGGGCCCATTTCGGCGAACCTATGGAATCGAAAGGGCCGACAAAACTGCCAATGAATACGGCCATTGGGGGGTGGGATGCCTATCAGCTCAACCGAAGCATTCACCCTAATGCCAAGGTGATCTTCACATATGCTGAGTCGCTGCAGGTCAAAACGCTCAGCTTCACCTTGATCGACAAGGGTCATGACTGA	MDAITIERWIKNLGRPYDTLVAEGIISNLPLQELYKGRDWLDIEPVDGLELSFEAKAKRLETIHIVLLSTMEGITEYKGELPRPFAQLMKQSEVRAHFGEPMESKGPTKLPMNTAIGGWDAYQLNRSIHPNAKVIFTYAESLQVKTLSFTLIDKGHD				NA	NA	NA	NA	NA
BMS010_07822	234			hypothetical protein	ATGGCTGACGTAATCCCCTTCCCGCCCCGCCCACCGGCTATCGACATTCCCGACTGCCCCTTCCAGGCCGACGCCGAGATGCGTCTGCGGATAGCGCAACAAGCCATCCAGGCCGTCCTGCGCCAGGAAGGCAGGGTCCTGGCCTCCCCCTGGATCGACGTCGGCCTCGGCGCCGTCCGCCTGCTCGACGAAGTCCAGATGTTGTACCGGCGTTCATTGCAAAACGGACGCTGA	MADVIPFPPRPPAIDIPDCPFQADAEMRLRIAQQAIQAVLRQEGRVLASPWIDVGLGAVRLLDEVQMLYRRSLQNGR				NA	NA	NA	NA	NA
BMS010_07823	2385	quiP_1	COG2366	Acyl-homoserine lactone acylase QuiP	ATGAAACGCAGCCTCACCGCCCTCGCCCTCACCGTCGCCGCCGTGACTGCCGGCGGTCTCTGGTATGTCCAGGGCAAGCGCCCGGTTCGCGACGGCGAGCTGGCCCTCGCCCACCTGCAGGCGCCGGTGACGGTGCGCTACGACGAGCGCGGCGTACCGCACATCGCCGCGCAGAACGAGGCCGACCTGTACCGCGCCCTCGGCTACGTACACGCCCAGGACCGGCTGTTCCAGATGGAGCTGATGCGCCGCCTGGCGCGCGGCGAGCTGGCCGAAATCCTCGGCGCCAAGCTGGTGGACACCGATCGCCTGTTCCGCACCCTGCGCATCCGCGAGCACGCCGACGCCTACGCTGCCGGCATCGACCGCAACCACCCGGCCTGGCAGGCGGTACAGGCCTATCTCGATGGCATCAACCAATACCAGGCCAGCCGCCCGCTACCGGTGGAATACGACCTGCTCGGCATCCAGCCGCGTCCGTTCACCATCGAGGATTGCCTCAGCGTCGCCGGCTACAACGCCTACAGCTTCGCCACCGCCCTGCGCAGTAACCCGCTGCTGACCTACGTGCGCGACCAGCTCGGCCCCGACTACCTGGATACCTTCGACGTCGCCTGGCATCCGGACGGGGTGATCGACCGGCCAACCCTGGCCCGCGAGGACTGGCGCACCCTCGGTGCCCTCGCCCAGCTCAGCCTCGGCGCCTTCGAAGGCAATGGCCTGCCGCAGTTCGAGGGCAGCAACGCCTGGGTGGTGTCCGGCACCCGCAGCGCCAGCGGCAAGCCGTTGCTGGCCGGCGACCCGCACATCCGTTTCGCCGTGCCGGCGGTGTGGTACGAAGCCCACCTGAGCGCACCCAGCCACGAACTCTACGGCCACTTCCAGGCACTCACGCCGTTCGCCATGCTCGGCCACAACCGCGATTTCGCCTGGAGCCTGACCATGTTCCAGAACGACGACCTCGACCTGATCGCCGAGAAGACCAATCCGGACAACCCCAACCAGGTCTGGTACCAGGGCCAGTGGGTCGACCTGGAAAGTCGCGACGACACCATCCGGGTGAAGGATGCCGACCCGGTGACCGTCACCCTGCGCCGCTCGCCCCACGGCCCGCTGGTCAACGATGCCCTCGATTCCAGCCTGCGCGGGCAGACGCCCATCGCCATGTGGTGGGCCTTCCTGGAAACCGAGAACCCCATCGTCGAAGCCTTTTATTCGCTCAACCGCGCCGATACCCTCGACAAGGCACGCACCGCCGCCAGCCAGATCCACGCACCGGGCCTGAATGTCGTCTATGCCAACGCCAAGGGCGATATCGGCTGGTGGGCCGCGGCCAAGCTGCCGAGGCGTCCCGCCGGGGTCAACCCGGCCTTCATTCTCGACGCCAGCCGGGGCGAGGCGGAAAAGGACGGCTTCTATCCGTTCGAGGACAACCCGCAGGAAGAGAATCCAGCGCGCGGCTACATCGTCTCGGCCAACTACCAGCCGGTCTCGCCGGCCGGCATCGACATTCCCGGCTACTACAACCTGCCGGACCGCGGCCGCTACCTGAACCAGCGCCTGGGCGAAGCTACCGGCTGGGACCTGCAGAACACCCAGGCCCTGCAACTGGCCACCGGCACCGACTACCCGCAACGCGTACTCCAGCCTCTGCTGGCCGACCTGCGCGCCGCCGCCGCGGATGAGGCCGAAAAGGCCCTGGTGGAACGGCTCGCCGCCTGGGACGGCCGCCATGAGCTGGACTCGGTGCCGGCCAGCCTGTTCAACCAGTTCCTCTATGAACTGGCCCATGCCGCCATGGCCGACGAACTGGGCGAGGCCTACTTCGCCACCCTGCTCAACGCCCGCCCGCTGGACTTCGCCCTGCCGCGCCTCGCCGCCGACGCCGACTCGCCCTGGTGGGACGACCGCGCCACGCCCACACGGGAAAACCGCGCCGCCACGGTGAAAGCGGCGTGGCAAGCGACCCTGGCGCACCTGCGCGGCCAGTTCGGGGACGATCCCGACGGCTGGGCCTGGGGCAAACTGCACAGCCTCGCCCAGGGCCATCCCCTCGGCCTGCAAAAGCCGCTGGACAAGCTGTTCAACCTCGCGCCGCTGGCCGCTCCGGGCGGTCATGAGACTCCGAACAACCTCTCGCACAAGATCGGCCCAGCCCCCTGGTCGGTGGTCTACGGCCCCTCTACCCGCCGCCTGATCGACTTCGCCGACCCCGCCCACAGCCTCGGCATCAACCCGGTCGGCCAGAGCGGCGTGCTCTTCGACGCCCACTACAGCGACCAGGCCGAGCGCTATATCCAGGGTGACTACCAGCCCCAGCACTTGGCCGAGGATGACGTGCAGGCGCATACCGAAGGCATGCTGAAGCTGGTTCCGGCGGGTTGA	MKRSLTALALTVAAVTAGGLWYVQGKRPVRDGELALAHLQAPVTVRYDERGVPHIAAQNEADLYRALGYVHAQDRLFQMELMRRLARGELAEILGAKLVDTDRLFRTLRIREHADAYAAGIDRNHPAWQAVQAYLDGINQYQASRPLPVEYDLLGIQPRPFTIEDCLSVAGYNAYSFATALRSNPLLTYVRDQLGPDYLDTFDVAWHPDGVIDRPTLAREDWRTLGALAQLSLGAFEGNGLPQFEGSNAWVVSGTRSASGKPLLAGDPHIRFAVPAVWYEAHLSAPSHELYGHFQALTPFAMLGHNRDFAWSLTMFQNDDLDLIAEKTNPDNPNQVWYQGQWVDLESRDDTIRVKDADPVTVTLRRSPHGPLVNDALDSSLRGQTPIAMWWAFLETENPIVEAFYSLNRADTLDKARTAASQIHAPGLNVVYANAKGDIGWWAAAKLPRRPAGVNPAFILDASRGEAEKDGFYPFEDNPQEENPARGYIVSANYQPVSPAGIDIPGYYNLPDRGRYLNQRLGEATGWDLQNTQALQLATGTDYPQRVLQPLLADLRAAAADEAEKALVERLAAWDGRHELDSVPASLFNQFLYELAHAAMADELGEAYFATLLNARPLDFALPRLAADADSPWWDDRATPTRENRAATVKAAWQATLAHLRGQFGDDPDGWAWGKLHSLAQGHPLGLQKPLDKLFNLAPLAAPGGHETPNNLSHKIGPAPWSVVYGPSTRRLIDFADPAHSLGINPVGQSGVLFDAHYSDQAERYIQGDYQPQHLAEDDVQAHTEGMLKLVPAG	PGPT0028075_1243	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028075-pac-K01434	NA	NA
BMS010_07824	1047	virS_6		HTH-type transcriptional regulator VirS	ATGGACCCCACCCCGACCGCCCTGACCCATTCGCCGAGCCTGCGCCGCCTGCTCTACGAGGCGCTGAGCACGCTGGGCCTCGATCCCACCGACATCTATCGCCGCGCCTACCAGGGCAAGCCGCTGCCACCGCCCACCCGCGACGGTCGCGAACCGCACGACGATGCGCCGCTGTTCTGGCAGGCCCTGGAGGGGCTGACCGGCGACGCACATATCGGCCTGCACTTGGCGGAGGTGATGAAGCCGCGCCCGCTGGATGTGGTCAGCTACCTGCAACTGGCCAGCCAGGACCTGCGCCAGGCGCTGGAGGATTTCGTGCGTTTCCAGCATGTGCTGTCCGGTGGCTTCGCTGCCCGGCTGGAGGAGCGGGATGGGGTGGCGCGGCTGATCATCGACCTGAACTACCGGGGCTTCGCCTCGCTGCGCCAACAGATGGAGTGCGTGATGCTGCTGTTCTGCAAGCAGTTGGCGGTACTCACCGACGACGAGTTCCGGCCGCAGAGCGTAGCCTTCCGTCATCCGGCGCCGGCACGCCTGGACGAGCACCGGCGCTTGTTCGGCCTCACTCCGCGCTTCGCTCAGCCGCACGATGCCCTGGAATTTCCCGCCGCCTTGCTGGCGCGGCCGTCACGCACCGCGCAGCCGACGCTGCATGCCTTGCTGTACGCCCAGGCGGAGTGGGAGCTGGCCGCGCTGGAGGAAAACCAGTTGCTCAACCGGCTGCGCTATTGGCTGGACAGCCGTCTCGGTCTGCACGCGTGCAGCTTGCGGGCGTGCGCTCAGGCGCTGGACATGGACAGCGGCGCCTTGCAACGCGCCCTGGCGGCCCAGGGCAGCAGTTTTCGCCAGGTGCACGACGAAGTGCGCCGGGTGCGGGCGGCGACGTTGCTGGAGCAGGGCATGGCGATTCGCGAGGTGGCGCGGGCCTGCGGGTTCGCCGAGCTGTCGCCCTTCTACCGGGCATTCCGGCGTTGGCATGGGCAGACGCCGGAGCGTTATCGGCAGCAGCGAATGCGTCAGTCCGCCGCGTCGGACCAGGGACAGTAG	MDPTPTALTHSPSLRRLLYEALSTLGLDPTDIYRRAYQGKPLPPPTRDGREPHDDAPLFWQALEGLTGDAHIGLHLAEVMKPRPLDVVSYLQLASQDLRQALEDFVRFQHVLSGGFAARLEERDGVARLIIDLNYRGFASLRQQMECVMLLFCKQLAVLTDDEFRPQSVAFRHPAPARLDEHRRLFGLTPRFAQPHDALEFPAALLARPSRTAQPTLHALLYAQAEWELAALEENQLLNRLRYWLDSRLGLHACSLRACAQALDMDSGALQRALAAQGSSFRQVHDEVRRVRAATLLEQGMAIREVARACGFAELSPFYRAFRRWHGQTPERYRQQRMRQSAASDQGQ				NA	NA	NA	NA	NA
BMS010_07825	669			hypothetical protein	ATGCGCTCCGGGGCGTCGCGGCGGGCTGCCGATATTCTGCTGCCCGGCGCGGCATGGCAAGCTATCGGTCCTTTCAGTCGATCGACCGCCATGCCGTTGCCCCGCCGCAAGACCATCCTCGCCAGCCTGCTTGCCGTCGTCTGGCTGGGCGCTATGCTCGCCGCCTTCTGGTGGTACGAGGCGCGCTTCATCCGCCCATTCAGCGAGCGCACTACCCTGTTCGCCGGCGATGAACTGCGCCTGCCGGACGAACTGGCCGGGCCGGGGCCGATCCGCCTGGTGCATTTCTGGGACCCGGCCTGCCCCTGCAACGTCGGCAATCAGCAGCACCTGGCCGAGCTGATCGAGCGTTATGCACCGCGCGGCGTGGCCTTCTATGCCGTGCAGAAGCCCGGTACGCGGGGCCGCCTGCCGGATGTCCTCGCGGGCCTGCGGCCGATTGCGCAGCTCCCCGGCGCCGACCGCCTGCCGGCCAGCCCGGCGGTGGGCATCTGGGATGCGCAAGGCCGCCTCGCCTACTTCGGCCCTTACAGCGAAGGCGCCACCTGCACCTCCAGCAACAGCTTCATCGAGCCCATTCTCGAAGCCCTGGCCCAAGGCCGCAGCGTCGATGCCACCCACACCCTGGCCGTGGGCTGCTACTGTCCCTGGTCCGACGCGGCGGACTGA	MRSGASRRAADILLPGAAWQAIGPFSRSTAMPLPRRKTILASLLAVVWLGAMLAAFWWYEARFIRPFSERTTLFAGDELRLPDELAGPGPIRLVHFWDPACPCNVGNQQHLAELIERYAPRGVAFYAVQKPGTRGRLPDVLAGLRPIAQLPGADRLPASPAVGIWDAQGRLAYFGPYSEGATCTSSNSFIEPILEALAQGRSVDATHTLAVGCYCPWSDAAD				NA	NA	NA	NA	NA
BMS010_07826	945	menH_5		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGCCTGAGCCGTTCCAGCCCGAAGACCTGCGATCGCTGCTGCGACCCTTGGCCGCAGGGGAAGACGAGTCGCCGGCCGTACGGGCCTACCGGACCTATTACGGCCTCGATCCGTCCGAGCGCCATCCCGAAGCCCGGACCCGCCTCGGCAGCTTCGAGGCGGCGGGCTACCGGATCGCCACCCAGGTCTGGCTGCCGACCCGGCCGGTAGCGACCCTGCTGATGCTGCATGGCTATTACGATCACATGGGGCTGTACCGCCACGTGGTGGATTGGGCGCTGGGCATGGGCTTCGCGGTGCTGGCTTGCGACCTGCCGGGACACGGCCTGTCCAGCGGCGCCCCGGCCAGCATCGGCGATTTCGCCGAGTACCAGCAGGTCCTGCGCGGCCTGTTCGACCAGGCCCTGGCGCTCGGCCTGCCGCAGCCCTGGCACCTGCTCGGGCAGAGCACCGGCGGTGCCATCCTGCTGGACTACCTGCTCACTGGCGAGCCTCGCCCGGAGCTGGGCGAAACCATTCTCCTGGCGCCCTTGGTGCGCCCCCGCGCCTGGGGTTGGTCGAGGTTCAGCTACCAGATGCTGCGCCCCTTCGTGGAGTCCATTCCGCGGCGTTTCAGCATCAATTCCGGCGATGAGGCGTTCATCGATTTCGTCCACCGCCAGGACCCGCTGCAACCGCGCATCCTGCCGACTGCCTGGGTGGGCGCATTGTCGCGCTGGATTCCGCGCATCGAAGGCGCGCCGCGCAGCGACCGGCGCCCGCTGATCGTGCAGGGTGAGGCCGACCTGACGGTGGACTGGCGGCATAACCTGGAGGTGATCGAGAGCAAGTTCCGCGAGCCGGAACTGCTGCTGTTGCCGGAGGCGCGGCATCACCTGGCGAACGAGACGGAAGACCTGCGCCGGCGCTATTTCGCCTTCCTCAGCGAGCGCCTGAAGCCTTGA	MPEPFQPEDLRSLLRPLAAGEDESPAVRAYRTYYGLDPSERHPEARTRLGSFEAAGYRIATQVWLPTRPVATLLMLHGYYDHMGLYRHVVDWALGMGFAVLACDLPGHGLSSGAPASIGDFAEYQQVLRGLFDQALALGLPQPWHLLGQSTGGAILLDYLLTGEPRPELGETILLAPLVRPRAWGWSRFSYQMLRPFVESIPRRFSINSGDEAFIDFVHRQDPLQPRILPTAWVGALSRWIPRIEGAPRSDRRPLIVQGEADLTVDWRHNLEVIESKFREPELLLLPEARHHLANETEDLRRRYFAFLSERLKP				NA	NA	NA	NA	NA
BMS010_07827	768			hypothetical protein	ATGCGCGTTTTTCTCAGCCTGGCCTTCGCCCTTTTCAGCCTGCCCGCTTTCGCCGACGACTACCTGCAGCTCTACCAGGCCGCCGGCTGGCCGGATCAGCGCGCGCATTTCCGCGACGCCCTGAGCGCCGCCCAGCAGCGCTACCGCAGCAGCCTGCCGCCGGCGGTGTTCCAGGCCCTGGTGGACAACAGCAACCGGCGCTTCGCCGCGCAAGCCATCGACCAGCGCGCCCAGGCCAGCCTGCGGCAGAACCTGCGCGACCCACGCCCGGCCCTGGCGTTCTTCCAGTCCGAACTGGGCCGTCGGATCACCGAAGCCGAGACCACGGCCACCCGCCCCGACCAGTTGGCCAAGTACGCCAACGGCCTGCCGCGTACCGACGCCAGCGCCACCCGCCGCCTGCTGATCCGCCACCTGGCCCAGGCCCTGCCCGCCGCCGAGGCCGGCGCGGAAGTCAGCCTCGCCCTGGCCGGCGTCGCCGCCGACAGCCTCAGCCAGATGATTCCCGGTCTGCTCGGCGGCGATCAGGCCATGGCCCTGCTGGAAGGCCAGCGCCAGCGCCTGATCGGGCAGATCGAAGGCGACCTCGACAACACCTTGCTGCACGTCTACCGCGACCTGTCCGACCCGGAGCTGGAAGAGTTCGTCACCTTCGCCGAATCCGCCGAGGGCAAGGCCTATTACCAAGCCGCCCTCACCGCCCTGCGCGCCGGCCTCGCGGTGGGCCAGAGCGGCGCGAACCTGGCGGAGCCGCAGCAGGGTATTTGA	MRVFLSLAFALFSLPAFADDYLQLYQAAGWPDQRAHFRDALSAAQQRYRSSLPPAVFQALVDNSNRRFAAQAIDQRAQASLRQNLRDPRPALAFFQSELGRRITEAETTATRPDQLAKYANGLPRTDASATRRLLIRHLAQALPAAEAGAEVSLALAGVAADSLSQMIPGLLGGDQAMALLEGQRQRLIGQIEGDLDNTLLHVYRDLSDPELEEFVTFAESAEGKAYYQAALTALRAGLAVGQSGANLAEPQQGI				NA	NA	NA	NA	NA
BMS010_07828	624			hypothetical protein	ATGAACCTGACCCCCGAGCACCCGCCGCTGCTGCAATTGATCGATGACCTCGCCGAGCGAGGCTGGTCGCAGCAGACGGACTTCCTGCCGCAGTCTCTGACCGCCCGACTGGCCGAAGAGTGCCGCACCCGTGCGGCTGCCGGCCAGCTCAACCCGGCCGGGGTCGGCCGCGCCGCCGGGCAGGTGGTGAACGAAGGCATCCGGGGTGACCATATCCTCTGGCTGGAGCCCGGCCAGTCCGAGGCCGGCGATCAGTACCTGGCGGCCATGGACGTGCTGCGCCAGACCCTCAACCGACAGTTTTTCCTCGGCCTCGAAGACCTCGAGTGCCATTTCGCGTTCTATACGCCCGGTGCCTATTACCTGCGCCATCTGGACCGTTTCCGCGACGACGACCTGCGCACCGTGACCGTGGTGCTGTACCTGAACGACGACTGGCAGGTCGGGGAAGGCGGTGCGTTGCGCCTCTATCTCGGCGACGGTAGTACACGCGACGTCCTGCCGGAGGCGGGCACCCTGGCCTGCTTCCTGTCCGGGGACTTCCCCCACGAGGTGCTGCCGGCTACCCGCGACCGGTTGTCGCTCACCGGTTGGTTCCGGCGGCGTCCGGCGGCACCGCTCTGA	MNLTPEHPPLLQLIDDLAERGWSQQTDFLPQSLTARLAEECRTRAAAGQLNPAGVGRAAGQVVNEGIRGDHILWLEPGQSEAGDQYLAAMDVLRQTLNRQFFLGLEDLECHFAFYTPGAYYLRHLDRFRDDDLRTVTVVLYLNDDWQVGEGGALRLYLGDGSTRDVLPEAGTLACFLSGDFPHEVLPATRDRLSLTGWFRRRPAAPL				NA	NA	NA	NA	NA
BMS010_07829	489			hypothetical protein	ATGCAGAAGATCCTGGTCAGCCGCTGCCTGCTGGGCCACCGGGTGCGCTACGACGGTGGCGCCCACGGGCCGTTCGGCCTGCTGGAGCGCTGGCAGCGGGAGGGGCGCGTGGTGGCGCTCTGTCCGGAGGTGGCCGGTGGTCTGCCGACTCCGCGTCCTCCGGCGGAAATTCCCGGCGGCCAGGGCGGCCAGGTGCTGGACGGCGAACGGCCGGTGCTGACCGTGGACGGCGAGGATGTCAGCGCGGCCTTCCTCGACGGCGCCCGCCAGGCGCTGGAGCTGGTTCGTGCGCAAGGCATCCGGATTGCCGTGCTGAAGGCGCGTAGCCCGTCCTGTGGCAACCGCGAGAATTACGACGGCAGCTTCTCCGGGGTGAAGGTGCCCGGTGAAGGTGTCACTGCGGCGTTGCTCCGCCGTGAGGGTGTACAGATATTCAGCGAAGAGGAACTGGATGCCGCGGAGGCAGCCTTGGCCGCTCTCGAAGGCTGA	MQKILVSRCLLGHRVRYDGGAHGPFGLLERWQREGRVVALCPEVAGGLPTPRPPAEIPGGQGGQVLDGERPVLTVDGEDVSAAFLDGARQALELVRAQGIRIAVLKARSPSCGNRENYDGSFSGVKVPGEGVTAALLRREGVQIFSEEELDAAEAALAALEG	PGPT0020050_151	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0020050-ddl-K01921	NA	NA
BMS010_07830	2865			hypothetical protein	ATGACGCGCAGCCAGGAAATCCGTCCGGACATCGACGAAGGCATCGACCGCAAGGTCCTCAGCCAGTTGCGCGCACGCTTCCTGAAAGTCAACGACGGCCGCCTGGAGCGCGCCATGCAGGCCCTGTCGACGCGCCAGCAGCTGGTGCTGCGCCTGCTGCCGCTGCTCTTCCACGTGAACCATCCGCTGCTGCCCGGCTATGTCTCCGGGCGTACGCCGGCGGGTGTCTCCAACTTCGAGCCGGACGACGCCCTGCTGTCCGAAGCGCAGCGCCTGACCCGTTCGTTCGCCTACAAGGCCCAGCGCGGCAGCCCCCTGGGCGGCAAGCCGACGCCACCGATCCACGGCCTGTTCCTGATGGGCAGCCTGGGCACGGTGGCGCAGGCCGAGCAGAGCGACATGGACTTCTGGGTCTGCCATACTCCCGTGCTGTCCGCCGACGAAACGGCCGAGCTGCGCCGCAAGTGCGACCTGCTGGAAGCCTGGGCCGCGACCCAGGGCGCCGAGGCGCACTTCTTCCTCATCGACCCGTCGCGCTTCACCCTCGGCGAGCGCGAGGCGAAGCTGACCTCCGACGACTGCGGCACCACCCAGCACTACCTGCTGCTGGACGAGTTCTACCGCACCGCGATCTGGCTGGCCGGCCGCACGCCGCTCTGGTGGCTGGTGCCGGTCTATGAAGAGGCCCGCTACGTCGAATTCACCAACACCCTGCTGAGCAAGCGCTTCATCCGTGCCGACGAGGTGCTCGATCTCGGCCACCTGGCGCACATCCCGCCGGGCGAATTCGTCGGCGCCGGCATGTGGCAGCTCTACAAGGGCATCGAGTCGCCGTACAAGTCGGTGCTCAAGCTGCTGCTCACCGAGGTCTACGCCAGCGAGCATCCCCAGGTGGAATGCCTGAGCCTGCGCTTCAAGCAGGCGGTCTACGCCAACCGACTCGACCTTGACGAGTTGGACCCGTACATCGTGGTCTACCGCCGCCTGGAGGAATACCTCTCGGCGCGCGGCGAGTGGGAGCGCCTGGAGCTGATCCGCCGCTGCCTGTACCTCAAGGTGAACAAGAAGATCAGCCGCCCGCCGCGCAACCGCACCAAGAGCTGGCAGCGCCTGCTGCTCGAACGCCTGACCGGCGAATGGCGCTGGGACCCGCGCCAACTGGCGACCCTGGACAGCCGCAGCCAGTGGAAGGTCCGCCAGGTGAGCCGCGAGCGCCGCGCCCTGGTCAACGAACTGACCTACAGCTACCGCTTCCTCACCCAGTTCGCCCGCACCCAGCAGGCCGCCAGCTCGCTGAACAGCCGCGACCTGGGCATCCTCGGCCGGCGCCTGTACGCCGCCTTCGAGCGCAAGGCCGGCAAGGTGGAGTTCATCAACCCCGGGATCGCCCCCGACCTGGCCGAAGACACCCTGACCCTGGTCCAGTGCCCGAGCCCGGACGCCCCCGGCGAAACCCAGTGGGCGCTGTTCTCCGGCAGCCTGAATGCCCAGGAGTGGGAGGACTTCGCCCCGCTCAAGCGCGCCCGCGAACTGATCGAACTGCTCGCCTGGTGCCACCGCAACGTCGTGATCGACGCCAGCACCCGGCTGTCGCTGCACCCCGGCAGCAGCGACCTGACCGAATTCGAGCTGTCCAACCTGCTCGCCTGCCTGCGCCAGACCGTGCCGCTGCCTCTGCCGCCCGTGGCGGAAACCGCCCTGCTCCAGGCCAGCATGCCCAGCGAGGTGCTGCTGCTGATCAACGTCGGCGTCGACCCGTTGAAACAGCACAGCCAGTTGAACGTGCACATGACCACCGAGCGCACCGACTCGCTGGGCTATTCGGGAGTACGGGAAAACCTGGTGCAGACCATCGACCAGGTCAGCCTGAACAGCTGGAACGAGCTGCTGGTGCACCGCTACGACGGCCCCAACGCCCTGCTCGACTGCCTGCGCGACTTCCTCAACGCGCTGCCGGCCAGGGGGCCGCGTCCGCAATTGCAGGTACGCTGCTTCTGCCGCAACCGCGCCCCGGCCATCGCCGAGCGGGTGGACGAGTTGTTCCGCGAAATCCTCACCAGCCTCGGCGGCGAGCACAACGCCCGCTACCTGGTCCAGGTCCAGCAGCAGTACCACGTACTCGACCTGACACCCGGCCACGTCAACCACACCGCGCTGCCCGATCTGCCGGCCCTGATCGAGCACCTGGGCCAGGAACTGCCGGGCTACAGTCCGCTGCATCTGGACCGCCATGCCTTGGAAGAACAGGACCTGGCGCTGATCCTGCCGATGGGGCGGGCGGACTGCATCCAGGTCTTCTACCGGCTCGCCGAGGGACGCGCCGAGCTGAACATCCTCGACGAACACAACGCACTGTGGCGCCAGACCCTGCCGTTCCGCGACGAGCAGAGCCTGCTCACGCCCTTGCAGCGTTTCCTGCAATCGGTGCTCTACCGGCGCAACGCCCTGCTGCCGCTGAACGCTCCGGTGCCGCCGGCGACACTGGAAATCCTCTACTACGAAGTGCTCCCGCCGCCGCCCTTGCGTCCACGCAGCCTGGAGCGCCGGCCGGCTCCACAGGCGCCGGTCAGCCATCCGTTCTATGACGTGCAGGCGATCGTCGAGCCGGGCGAGTCCGGCCGGGTCCATGTGACCCTGTACTGCAACCACCGGGAGTTCTCGGAGCTGGAATACGGCGCCGACCTGTTCGCTGCGGTGGCCCGGCACATCCTCAGCCAGCGCCGCGAGGCCGAGCGCTATCCGTGCTACATCACCGATCTCGACCTGTCCGGCGTGCTCGACGAAGGCCAGACCCAGACCATCCATTACCTGCGTTACAAGAGTCGTCTGGAAGATGCCTTGAACGCCGCGCTGCGCAATGCCTGA	MTRSQEIRPDIDEGIDRKVLSQLRARFLKVNDGRLERAMQALSTRQQLVLRLLPLLFHVNHPLLPGYVSGRTPAGVSNFEPDDALLSEAQRLTRSFAYKAQRGSPLGGKPTPPIHGLFLMGSLGTVAQAEQSDMDFWVCHTPVLSADETAELRRKCDLLEAWAATQGAEAHFFLIDPSRFTLGEREAKLTSDDCGTTQHYLLLDEFYRTAIWLAGRTPLWWLVPVYEEARYVEFTNTLLSKRFIRADEVLDLGHLAHIPPGEFVGAGMWQLYKGIESPYKSVLKLLLTEVYASEHPQVECLSLRFKQAVYANRLDLDELDPYIVVYRRLEEYLSARGEWERLELIRRCLYLKVNKKISRPPRNRTKSWQRLLLERLTGEWRWDPRQLATLDSRSQWKVRQVSRERRALVNELTYSYRFLTQFARTQQAASSLNSRDLGILGRRLYAAFERKAGKVEFINPGIAPDLAEDTLTLVQCPSPDAPGETQWALFSGSLNAQEWEDFAPLKRARELIELLAWCHRNVVIDASTRLSLHPGSSDLTEFELSNLLACLRQTVPLPLPPVAETALLQASMPSEVLLLINVGVDPLKQHSQLNVHMTTERTDSLGYSGVRENLVQTIDQVSLNSWNELLVHRYDGPNALLDCLRDFLNALPARGPRPQLQVRCFCRNRAPAIAERVDELFREILTSLGGEHNARYLVQVQQQYHVLDLTPGHVNHTALPDLPALIEHLGQELPGYSPLHLDRHALEEQDLALILPMGRADCIQVFYRLAEGRAELNILDEHNALWRQTLPFRDEQSLLTPLQRFLQSVLYRRNALLPLNAPVPPATLEILYYEVLPPPPLRPRSLERRPAPQAPVSHPFYDVQAIVEPGESGRVHVTLYCNHREFSELEYGADLFAAVARHILSQRREAERYPCYITDLDLSGVLDEGQTQTIHYLRYKSRLEDALNAALRNA	PGPT0015070_38	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-OTHER_BACTERIAL_DEFENSE_SYSTEMS	CE-BACTERIAL_FITNESS-BACTERIAL_TOXINS,PGPT0015070-cyaA-K05851	NA	NA
BMS010_07831	249			hypothetical protein	ATGGCCTTTAACCCAGAGCTTGTCGCCGAAATGGAAATCCTCGCCCTGTTCAACCTGGCGAATCTCCAGGAAGGGCTGAAAATCCACCACACCGCCACCCCCCAGGCAATCGCCGCCGCCCGGCGGCTGCATGAAAAAGGCCTGATCAGCCTGCCCGATGGCGGCTACCTGACCAGCCTCGGCCTGGATGCCGCCGAACACGCCCAATCGCTGCTGACCATCCTGGCCGAAGAAGAAACGGTGCAGTAA	MAFNPELVAEMEILALFNLANLQEGLKIHHTATPQAIAAARRLHEKGLISLPDGGYLTSLGLDAAEHAQSLLTILAEEETVQ				NA	NA	NA	NA	NA
BMS010_07832	297			hypothetical protein	ATGAGCGAAACCCACGACTACGAAAACGACGAAGCCTTCGCCGAAGCGACGCTGATCCAGGCGATCGAGAACCAGTTGGAAGCCAACGACCCGCCGGCAGCCCAGGCCACGCTGAACAAGCTGACCCTGGTCGGCTACCCGCACGACGAAAGCGTGCGCCTGATGGCACTGGTACTGGCCCACGAAATCCGCGCCATGCTCAGCGAGAACCGCCCGTTCGATGGCGAATGGTACGACCAGGCCCTGCGCGCGCTGCCGGAATTGCCGGGCGGCGCCGAGGAAGAGCCGGACGCGTGA	MSETHDYENDEAFAEATLIQAIENQLEANDPPAAQATLNKLTLVGYPHDESVRLMALVLAHEIRAMLSENRPFDGEWYDQALRALPELPGGAEEEPDA				NA	NA	NA	NA	NA
BMS010_07833	972	corA_2	COG0598	Magnesium transport protein CorA	ATGATCAGCTATTACACCTTGCAGGATGACAGGCTGCAGCGCCGGGTGCCGACGCAGCTCGACGCCATTCCCCAGGGCACGTTATGGATCGACCTGCTGCATCCCAGCGCCGAGGAGGAACACTTCATCGAAAGCGCCCTTGGCCTGGATATCCCGACCCGCGAGGAAATGGCCGCCATCGAGGATTCCTCGCGGCTGTTCGAGAAGGACGGCGCGCTCTACCTGACCACCAGCGTGGTCAGCGGCGTCAGCGAGCGGCATCCGGTGATGGCGGACGTTTCCTTCGTGCTCACGCCAAAATGGCTGGTCACGGTGCGTTATGCCGAGCTGACATCGTTCCGCAGCTTCGAGACCAAGAGTACCCGCCAGCCGGAATTGCACCGTTCCAGCGACATGATCTTCGTCTCGCTGAACGAGGGCATCGTCGGCCGCATCGCCGATATCCTGGAAGACGCCCAGGCGGAGCTGAACAGCCTGGCGCAGCGGATTTTCAGCGAATCCGACAGCCGCCGCGAAAAGTCCGACCTGCAGAAAATCCTCAAGCACCTGGGGCGGAACAACTCGCTGATGGCCAAGCTGAGCGGCAGCCTGCTCAGCATCAGCCGGCAGAACACCTACGTGCGCCAGGGCGCCAACGGCTGGCTGGGTGAGCCGGCGAAGGGCTGGCTCAAGTCGGTGGAACGCGACGTGCGCTCGCTCAGCGAGTTCCAGGCGAAGATGTCCGGCGAGATCACCTTCCTGCTCGATGCGACCCTGGGGCTGATCAACATCGAGCAGAACAGCATCATCAAGGTGTTTTCCATCGCCGCCGTGCTGTTCCTGCCGCCGACCCTGGTGGGCACCGTCTACGGCATGAACTTCAAGGCCATGCCGGAGCTGGAGTGGGCATTCGGCTACCCGATGGCGCTGGGGATGATGGTCGGCTCGGCGGCGCTGTCCTATGCCTGGTTCAAGTTCAAGGACTGGCTCTAA	MISYYTLQDDRLQRRVPTQLDAIPQGTLWIDLLHPSAEEEHFIESALGLDIPTREEMAAIEDSSRLFEKDGALYLTTSVVSGVSERHPVMADVSFVLTPKWLVTVRYAELTSFRSFETKSTRQPELHRSSDMIFVSLNEGIVGRIADILEDAQAELNSLAQRIFSESDSRREKSDLQKILKHLGRNNSLMAKLSGSLLSISRQNTYVRQGANGWLGEPAKGWLKSVERDVRSLSEFQAKMSGEITFLLDATLGLINIEQNSIIKVFSIAAVLFLPPTLVGTVYGMNFKAMPELEWAFGYPMALGMMVGSAALSYAWFKFKDWL	PGPT0014010_2823	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014010-corA|yfjQ-K03284	NA	NA
BMS010_07834	1395	argH_2	COG0165	Argininosuccinate lyase	ATGAGCGTAGAGAAGACCAATCAGTCCTGGGGCGGCCGCTTCAGCGAGCCCGTCGACGCCTTCGTCGCCCGCTTCACCGCTTCCGTCGATTTCGACAAGCGCCTCTACCGCCACGACATCATGGGCTCCATCGCCCACGCCAGCATGCTCGCCGAAGTCGGCGTGCTGACCCGCGAAGAACGCGACGCCATCGAAGCCGGCCTGAAGGAAATCCAGGCCGAGATCGAGGCCGGCACCTTCGACTGGCGCGTCGACCTGGAAGACGTGCACATGAACATCGAGGCACGCCTGACCGACCGCATCGGCATCACCGGCAAGAAGCTGCACACCGGCCGCAGCCGCAACGACCAGGTGGCCACCGACATCCGCCTGTGGCTGCGCGACGAGATCGACATCATCCTCGGCGAGATCACCCGCCTGCAGCAGGGCCTGCTCGGCCTCGCCGAAGCGGAAGCCGATACCATCATGCCCGGCTTCACCCACCTGCAGACCGCCCAGCCGGTCACCTTCGGCCACCACCTGCTGGCCTGGTTCGAAATGCTCAGCCGCGATCACGAACGCCTGGTCGACTGCCGCAAGCGGGTCAACCGCATGCCGCTCGGCAGCGCCGCCCTGGCCGGCACCACCTACCCGATCCAGCGCGAGATCACCTGCCGCCTGCTCGGTTTCGAAGCGGTGTCCGGCAACTCCCTGGACGGCGTGTCCGACCGTGACTTCGCCATCGAATTCTGTGCCGCCGCCAGCCTGGCGATGATGCACCTGTCGCGCTTCTCCGAAGAGCTGGTGCTCTGGACCAGCGCGCAATTCCAGTTCATCGACCTGCCGGATCGCTTCTGCACCGGTTCCTCGATCATGCCGCAGAAGAAGAACCCCGACGTGCCCGAGCTGGTGCGCGGCAAGTCCGGCCGGGTGTTCGGCGCGCTGGCCGGCCTGCTGACCCTGATGAAAGGCCAGCCGCTGGCCTACAACAAGGACAACCAAGAAGACAAGGAGCCGCTGTTCGACGCCGCCGACACCCTGCGCGACTCGCTGCGTGCCTTCGCCGACATGGTCCCGGCGATCAAGCCGAAGCGCGACGTCATGCGCGAAGCGGCCCGCCGTGGCTTTTCCACCGCCACCGACCTCGCCGACTACCTGGTGCGCAAGGGCCTGCCGTTCCGCGACTGCCACGAAATCGTCGGCCACGCGGTGAAATACGGCGTCGACAGCGGCAAGGACCTGGCCGAGATGAGCCTGGACGAACTGCGCCGGTTCAGCGACCAGATCGAAGACGACGTGTTCGCCGTGCTGACCCTGGAAGGCTCGGTCAACGCCCGTAACCACATCGGCGGCACGGCACCGGCCCAGGTGCGCGCCGCGGTCGAACGTGGCAAGGCGCTGCTGGCGGCACGTTGA	MSVEKTNQSWGGRFSEPVDAFVARFTASVDFDKRLYRHDIMGSIAHASMLAEVGVLTREERDAIEAGLKEIQAEIEAGTFDWRVDLEDVHMNIEARLTDRIGITGKKLHTGRSRNDQVATDIRLWLRDEIDIILGEITRLQQGLLGLAEAEADTIMPGFTHLQTAQPVTFGHHLLAWFEMLSRDHERLVDCRKRVNRMPLGSAALAGTTYPIQREITCRLLGFEAVSGNSLDGVSDRDFAIEFCAAASLAMMHLSRFSEELVLWTSAQFQFIDLPDRFCTGSSIMPQKKNPDVPELVRGKSGRVFGALAGLLTLMKGQPLAYNKDNQEDKEPLFDAADTLRDSLRAFADMVPAIKPKRDVMREAARRGFSTATDLADYLVRKGLPFRDCHEIVGHAVKYGVDSGKDLAEMSLDELRRFSDQIEDDVFAVLTLEGSVNARNHIGGTAPAQVRAAVERGKALLAAR	PGPT0014242_86	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014242-argHA-K14681	NA	NA
BMS010_07835	1083			hypothetical protein	ATGCGTATCGACTGGTTCAAGAACAAACAAGTCCCGTTGCTGGACGACGACTTCTTCCTGCCCGAGCTGTGCCTGCCCGAGGCCCTGCTGAGCATGGTCCTGCTCGCCGAGTTGCTGGTGCTGGTGCTGGTGCTCTCCGAGCCGATGCAGCCGGACTTCAACTGGGTGCGGCTGGCCCTGACCTCGCTGTTCGTGCAGTGGATCGTGCTGCTCTCGGCGGCGTTGCTCTGCCGCCTGCGGCCGCAACTGGCGCGCCTGCGCCCCTGGCTGGCGGGAGCCTGTTGCAGTGCCATCGTGGTCGGGCTGACGCTGGCCTGCACGGCGGTGGCCGACTACTTCCAACTCGCGGGCCCGTTGCAACGCAGCGGCGAGGTGAACCTCTATCTCCGCCACGCGCTGATCGGCCTGATCATGTCGGCGCTGCTGCTGCGCTACTTCTACCTGCAGAGCCAATGGCGCCGCCAGCAGCAGGCCGAGTTGCGCGCGCGGATCGAGTCGCTGCAGGCGCGTATCCGTCCGCATTTCCTGTTCAACAGCCTCAACAGCATCGCCAGCCTGATCGCCTTCGCGCCGGAAAAAGCCGAGCAGGCGGTGCTGGATCTTTCCGATCTTTTCCGTGCCAGTCTGGCCAAGCCCGGCACCCTGGTGAGCTGGCGGGATGAACTGGAACTGGCTAAACGGTATCTATCCATAGAACAGTACCGACTAGGCGACCGTTTGCAGCTAGAGTGGCAAATAGACGACGTGCCCGATGACCTGCCGATTCCGCAGCTCACCTTGCAGCCGCTGCTGGAAAACGCGCTGATCTACGGCATACAACCGCGCATCGAGGGGGGCCTGGTACGGGTCGAAGCGAGTTACATGGACGGGGTGTTTCAGCTGCGTGTCAGCAACCCCTATGACGAGGGCGCCACGGCGGCGACGTCGCGTGGCACCCGGCAGGCATTGGTGAATATCGATGCACGACTTGCGGCACTTTTCGGTCCTCGTGCGAGTCTCAGCGTGGATCGCCGTGACGGGCGTCACTTCACCTGTCTACGCTATCCTTGTGCGAGACTCACGCAGGAAGCCAGAGCAATATGA	MRIDWFKNKQVPLLDDDFFLPELCLPEALLSMVLLAELLVLVLVLSEPMQPDFNWVRLALTSLFVQWIVLLSAALLCRLRPQLARLRPWLAGACCSAIVVGLTLACTAVADYFQLAGPLQRSGEVNLYLRHALIGLIMSALLLRYFYLQSQWRRQQQAELRARIESLQARIRPHFLFNSLNSIASLIAFAPEKAEQAVLDLSDLFRASLAKPGTLVSWRDELELAKRYLSIEQYRLGDRLQLEWQIDDVPDDLPIPQLTLQPLLENALIYGIQPRIEGGLVRVEASYMDGVFQLRVSNPYDEGATAATSRGTRQALVNIDARLAALFGPRASLSVDRRDGRHFTCLRYPCARLTQEARAI	PGPT0025360_203	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_EXTERNAL_SIGNAL_SENSING,PGPT0025360-algR-K08082	NA	NA
BMS010_07836	747	lytR	COG3279	Sensory transduction protein LytR	ATGAATGTCCTGATTGTCGATGACGAACCTCTTGCCCGTGAGCGCCTGAGCCGGCTGGTAGGCGAGCTGGATGGCTATCGGGTCCTGGAGCCTTCCGCCAGCAATGGCGAAGAGGCCCTGGCCCTGATCGACAGCCTGAAGCCCGATATCGTGCTGCTCGACATCCGCATGCCCGGTCTCGACGGCCTCCAGGTGGCCGCCAGGCTCTGTGAGCGGGAGGCCCCTCCGGCTGTGATCTTCTGCACCGCCCATGACGAATTCGCCCTGGAAGCCTTCCAGGTCAGCGCCGTGGGCTATCTGGTCAAACCGGTGCGCAAGGAGGACCTGCTCGAAGCCCTGAAGAAGGCCGAGCGTCCCAATCGCGTCCAGCTCGCCGCGCTGACCCGCGCCCCGGCGGACACCGGCGCCGGTCCGCGCAGCCATATCAGTGCGCGGACCCGCAAGGGTATCGAGTTGATCCCGCTGGACCAGGTGATCTTCTTCATTGCCGACCACAAGTACGTGACGCTTCGCCATGAAGCCGGCGAGGTGCTGCTGGACGAGCCGCTGAAGGCATTGGAAGACGAGTTCGGCGAGCGCTTCGTGCGTATCCACCGCAACGCGCTGGTGGCCCGCGAACGCATCGAACGCTTGCAGCGGACCCCGCTGGGGCACTTCCAGTTGTTCCTCAAAGGGCTCAACGGCGATGCCCTGACCGTCAGCCGGCGGCACGTCGCGGGCGTGCGCAAGCTGATGCATAACCTTTGA	MNVLIVDDEPLARERLSRLVGELDGYRVLEPSASNGEEALALIDSLKPDIVLLDIRMPGLDGLQVAARLCEREAPPAVIFCTAHDEFALEAFQVSAVGYLVKPVRKEDLLEALKKAERPNRVQLAALTRAPADTGAGPRSHISARTRKGIELIPLDQVIFFIADHKYVTLRHEAGEVLLDEPLKALEDEFGERFVRIHRNALVARERIERLQRTPLGHFQLFLKGLNGDALTVSRRHVAGVRKLMHNL	PGPT0026145_232	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_EXTERNAL_SIGNAL_SENSING,PGPT0026145-algR-K08083	NA	NA
BMS010_07837	939	hemC_2	COG0181	Porphobilinogen deaminase	ATGCGCTCCGAAATTCGCATCGCCACCCGCAAGAGTGCCCTGGCCCTGTGGCAGGCCGAATACGTCAAAGCCCGTCTGGAAGCGGCGCATCCGGGACTTAGGGTCAGCCTGGTGCCGATGGTCAGCCGCGGCGACAAGCTGCTCGACGCGCCGCTGGCGAAGATCGGCGGCAAGGGCTTGTTCGTCAAGGAGCTGGAAACCGCCCTGCTGGAGAATGAGGCGGACATCGCCGTTCACTCCATGAAAGACGTGCCGATGGACTTCCCGGAGGGGCTCGGCCTCTACTGCATCTGCGAGCGCGAGGACCCGCGCGACGCCTTCGTTTCCAACACTTTCGCCAGCCTCGACGAGCTGCCCGCCGGCAGCGTGGTCGGCACCTCCAGCCTGCGCCGCCAGGCGCAACTGCTGGCGCGCCGGCCCGACCTGAAAATCCAGTTCCTGCGCGGTAACGTCAACACCCGTCTGGCCAAGCTGGACGCCGGCGAATACGACGCCATCATCCTCGCGGCGGCGGGCTTGATTCGCCTGGGTTTCGAGGCGCGTATCCGCTCCTTCATCAGCGTCACCGACAGCCTGCCGGCCGGCGGGCAGGGCGCGGTCGGTATCGAGTGCCGCAGCGCCGATGCGGACGTCCACGCCTTGCTGGCCCCGCTGCATGACCAGTCCACCGCGCTGCGGGTCCATGCCGAGCGGGCCTTGAACAAGCGCCTCAACGGGGGCTGCCAGGTGCCCATCGCCTGCTATGCCGAGCTGGAAAACGACCAGCTCTGGCTGCGTGGGTTGGTCGGCAACCCCGACGGTAGCCAATTGCTGCGCGCCGAAAGCCGAGCGCCGGCCGCCGAGGCCGAGCGGCTCGGGGTCGAGGTGGCCGAGGCGCTGCTGGCGCAGGGCGCCGCCGATATTCTCAAGGCGGTTTATGGCGAGGCCGGCCATCCATGA	MRSEIRIATRKSALALWQAEYVKARLEAAHPGLRVSLVPMVSRGDKLLDAPLAKIGGKGLFVKELETALLENEADIAVHSMKDVPMDFPEGLGLYCICEREDPRDAFVSNTFASLDELPAGSVVGTSSLRRQAQLLARRPDLKIQFLRGNVNTRLAKLDAGEYDAIILAAAGLIRLGFEARIRSFISVTDSLPAGGQGAVGIECRSADADVHALLAPLHDQSTALRVHAERALNKRLNGGCQVPIACYAELENDQLWLRGLVGNPDGSQLLRAESRAPAAEAERLGVEVAEALLAQGAADILKAVYGEAGHP	PGPT0003660_2910	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003660-hemC-K01749	NA	NA
BMS010_07838	765	hemD	COG1587	Uroporphyrinogen-III synthase	ATGAGTGGCTGGCGGCTACTGCTGACCCGCCCCCGCGAAGAGTGCGAAGCGCTGGCCGCGACGCTGGCGGAGCAGGGCATCCACAGTAGCAGCCTGCCCCTGTTGGACATCGAGCCGCTGGCCGAAACGCCCGAACAACGTACCCTCATGCTCGACCTGGATCGCTACTGCGCGGTCATCGTGGTCAGCAAGCCGGCGGCCCGTATCGGCCTGGAGCGACTCGACCGCTACTGGCCGCAGCCGCCCGCGCGGCAGCGCTGGTTCAGTGTCGGCGCGGCCACGGGTGAAATCCTGGCCGCCTATGGCCTCGACGTGACCTGGCCGGAATCCGGCGACGACAGCGAAGCCCTGCTCGACCTCCCGGCACTGGCCGAAGCCCTGGAAGTACCTGAACCGCGCGTGCTGATCATGCGCGGCGAGGGTGGCCGGGAGCTCCTCGCCGAGCGTCTGCGCGGCCAAGGCGTGGCGGTCGACTATCTGCCACTGTACCGCCGCCGCTTGCCGGCGTATCCGGCCGGTGCGCTCGTCGAGCGGGTTCGTTCGGAACGCCTGAATGGCTTGGTGGTCAGCAGTGGGCAAGGATTCGAGCATCTGCGCGAACTGGCAGGACCGGCATGGCCGGAGCTGGCTCGGCTACCCTTGTTCGTGCCGAGTACGAGAGTCGCTGGCCTGGCGCGTGATGCCGGTGCCGAGCATGTGATCGATTGTCACGGCGCCAGCGCCTCCGCGTTGCTGGCGACGTTGCGGGAGGCTCCCGCACCTTAG	MSGWRLLLTRPREECEALAATLAEQGIHSSSLPLLDIEPLAETPEQRTLMLDLDRYCAVIVVSKPAARIGLERLDRYWPQPPARQRWFSVGAATGEILAAYGLDVTWPESGDDSEALLDLPALAEALEVPEPRVLIMRGEGGRELLAERLRGQGVAVDYLPLYRRRLPAYPAGALVERVRSERLNGLVVSSGQGFEHLRELAGPAWPELARLPLFVPSTRVAGLARDAGAEHVIDCHGASASALLATLREAPAP	PGPT0003665_2222	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003665-hemD-K01719	NA	NA
BMS010_07839	1131	hemX	COG2959	Protein HemX	GTGAGCGAAGCAGCTTCCCTGAAAGACGATGCCCAACCCGCGCCCGAGGCGCCCACTCCACCCGCTCCTCCGACGGCTCCCAGACGAGGCAACGGACTGGCAGCGCTGGCGCTGCTGCTCGGTGCTGCGGGCGTCGCTGTCGGCGGCTTGAGCCTCTGGCAACTGCGAGGGCTCGATGCCCGCGACCGCCAGCAACTGGGCCAACTGGAAGACGTCCGGGCCCAGGCGCAGGCTCAGGTACAGCGCGAACAGCGCCTCACGGAGCGCCTCGACCGACTGCCGAGCATCGATGAGCTCGAGCAGCGTCGCCGCCTGTTGGCCGACCTGCAGGGCGAACAGCAGCGCCTGAGCCAACGGGTGGAAACCGTCCTCGGCGCCAGCCGCCAGGATTGGCGTCTGGCCGAAGCCGAACACCTGCTGCGCCTGGCCAGCCTGCGTCTCTCCGCGTTGCAGGATGTGAACAGCGCCAGGGCCCTGGTGCAGGGGACCGATGAGATTCTGCGCGAGCAGGACGATCCCGCCGCCTTCGCCGCCCGCGAGCAACTGGCGAAAAGCCTGGAAACGCTGCGCAGCCTGCCGCAACCGGATCGCACCGGCCTGTTCCTGCAACTGGCCGCTCTGCGCGAGCAGGCGGAGCGCCTGACGCCGATGGCGCCGGAGTTCGTCTCGGCGGAAGGCCAGGGCTTCGCACCGGCCGTGGCCGAAGGCGATGGCAGCAGTCGCTGGGACCAGTGGTGGGAAAAACTGTCCCGCTATGTTCGCGTCGATTTCGATGCCGACGATGAAGTCCGCCCGCTATTGACCGGGCAAAGCCTGCAGCAGGTGCGCCTGGCCTTGAGCCTGGCGCTGGAGCAGGCCCAATGGGCCGCGCTGCATGGCGAGAGCGAGATTTTCCGCAAGGCGCTGGAGCAGGCGGGTACGGTGCTGAAGGGGCAATTCAATCAGGAGAACCCGGAAAGCCGCGCAGTGCTGGCGCGTATCGACGAGCTGGCAGCTCAGCCGGTAGAGGTCGAGGTACCGGATCTCTCCGCTTCCCTGGGCGCATTGCAGGCTTACGTACAACGTCGCCAAGTGGCGGCCGAAGCCGTTCCCGAGCCATCCACCGGAGCCGCTGAGGAGGCCAGCCCATGA	MSEAASLKDDAQPAPEAPTPPAPPTAPRRGNGLAALALLLGAAGVAVGGLSLWQLRGLDARDRQQLGQLEDVRAQAQAQVQREQRLTERLDRLPSIDELEQRRRLLADLQGEQQRLSQRVETVLGASRQDWRLAEAEHLLRLASLRLSALQDVNSARALVQGTDEILREQDDPAAFAAREQLAKSLETLRSLPQPDRTGLFLQLAALREQAERLTPMAPEFVSAEGQGFAPAVAEGDGSSRWDQWWEKLSRYVRVDFDADDEVRPLLTGQSLQQVRLALSLALEQAQWAALHGESEIFRKALEQAGTVLKGQFNQENPESRAVLARIDELAAQPVEVEVPDLSASLGALQAYVQRRQVAAEAVPEPSTGAAEEASP	PGPT0008495_637	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008495-hemX-K02496	NA	NA
BMS010_07840	1266	hemY	COG3071	Protein HemY	ATGAGCCGCCTCTACCTGCTGTGTGTTCTGGTGATCGCCGGTGCCTCGCTGCTCGGCCTGGCCATTGCCGCGGACGCCGGCTACGTGCTGATCCGCTACGACCGGTTCCGCTATCAATCCAGCTTCTGGGTGTTCGTGGCGGTCATCGTCGCGCTCTGGCTGGCGATCCTGGGCTTGCGCATGCTGCTCCGCCTGTTGGGGGCGTCCGGTGGGCTGATCAATCCCTGGTCGCGTCGTCACCGCAGCCGCCGGGTACGTCTGGCCGCGCGCCGTGGCCTGCTCGACCTGGCCGAGGGGCGCTGGGCCCGAGCCTTGCGCCATCTTCGTCGGGCCGCCAGTCAGGATCCGCAACCCCTGGTGCATTACCTCGGGGCCGCCCGGGCCGCCAACGAGCTGGGCGAATACGAGGAGAGCGACAGTTTGCTGCGACAGGCCCAGGAACAGGAACCCCAGGCCGAGGTGGCGATCGATCTCACCCGCGCCCAGTTGCAACTGGCCCGGGGCGACGCGCAGCAGGCCCAGGAAACCCTGCAGCGCATCCGTGACCAGCATCCGCGCCAGCGCGAAGCCTTGAAGCTGCAACAGCAGATCTACGTCGAGCAGCAGAACTGGAGCGCGTTGTGCGCGCTGCTGCCGGAGCTGCGCAAGCAGCGGGTCATGGCCGAGGAGCCGTTGCTGGCGCTGGAGCGGCATGCCTGGCTGGCCGCCCTGGCCGAGGCCGGGAATCAGGGATTGAACGAAGGCGAGACAGCGCTGCAGCCGCTGACCGGCCTCTGGCAGCGGATGCCGTCGGAATTGCGCAGCGACTCTGTGCTCATCGATGGCTATGCCGAGCAGCTGTCCCGCCTGGGGGCACCGGAAGAGGCCGAGGAAATCCTGCGGGGCGCCCTCAAGCGGGACTACGTGGAGCGCCTGGTGTATCGCTATGGCCTGGTCCGTGGCCGTGACCCGGCGCGTCAGTTGCAGACGGGCGAGTCCTGGCTGAAAGCGCATCCCAACGACCCGGTGCTGCTGCTGACGCTGGGGCGCCTGTGTCTGCTCAATCAGTTGTGGGGTAAGGCGCGGGAGTACCTGGAGGCCAGCCTGAGCTTCCGGCGCAGCGTCGAGGCCTGTACCGAACTGGCGCGTCTGCTGGCGCAACTGGGGGCGGTGGAGCGTAGTAACGAGCTGTTTCAGGAAGCGCTCGAACTGTTCAGCCAGAGCCTGCCGGGGCCGGCCGCAACGGCGGACCGAGTGCCGGGGAGCCAGCCGCTCGTGCCGGTCTGA	MSRLYLLCVLVIAGASLLGLAIAADAGYVLIRYDRFRYQSSFWVFVAVIVALWLAILGLRMLLRLLGASGGLINPWSRRHRSRRVRLAARRGLLDLAEGRWARALRHLRRAASQDPQPLVHYLGAARAANELGEYEESDSLLRQAQEQEPQAEVAIDLTRAQLQLARGDAQQAQETLQRIRDQHPRQREALKLQQQIYVEQQNWSALCALLPELRKQRVMAEEPLLALERHAWLAALAEAGNQGLNEGETALQPLTGLWQRMPSELRSDSVLIDGYAEQLSRLGAPEEAEEILRGALKRDYVERLVYRYGLVRGRDPARQLQTGESWLKAHPNDPVLLLTLGRLCLLNQLWGKAREYLEASLSFRRSVEACTELARLLAQLGAVERSNELFQEALELFSQSLPGPAATADRVPGSQPLVPV				NA	NA	NA	NA	NA
BMS010_07841	492	dsbB_2	COG1495	Disulfide bond formation protein B	ATGCCGCTGGCCAGCCCGCGTTCCCTGTTCTTCCTGGCATTCGTCGCCTGTGTCCTGCTGATGGGCGGGGCACTCTATCTGGAGCATGCCGTAGGGCTCGAACCCTGTCCGCTCTGCATCGTGCAGCGGATTTTCGTCATCGCGTTCGGCTTGGTGTGCCTGATCGCCGCCATCCATGCGCCCGCCACCCGTGGCCGGCGCATCTATGCGGTGCTGGCAGTGCTGTTCGCCGCAGGTGGGGCTGCGACGGCGGGCCGCCAGGTGTGGCTGCAGAACATCCCGGCGGACCAGTTGCCGGCGTGCCTGCCGAGCCTGGACTACATGATGGAAGCCCTGCCGTTCCAGGACATCGTCCGGCTGGTGTTGCACGGCACCGCCGATTGCGCCGAGGTCACCTGGACCCTGTTCGGCATGAGCATTCCGGAATGGAGTCTGCTGGCCTTCGTCGGCATGATCCTGTTCTCCCTGTTCCAGTTGTTCCGCCGCGACTGA	MPLASPRSLFFLAFVACVLLMGGALYLEHAVGLEPCPLCIVQRIFVIAFGLVCLIAAIHAPATRGRRIYAVLAVLFAAGGAATAGRQVWLQNIPADQLPACLPSLDYMMEALPFQDIVRLVLHGTADCAEVTWTLFGMSIPEWSLLAFVGMILFSLFQLFRRD				NA	NA	NA	NA	NA
BMS010_07842	471	rsd	COG3160	Regulator of sigma D	ATGCTCGAGAGCTGTCAAAACGCCCAGGAACGCTGGGGTGGGGTACACCAGCTGATCGACCGCTGGTTGCAGGAGCGCCACGAACTGGTCCGTGCCTTCGACGCCCTCAACACCAAACCGCAGGCGCCCGCCGCCAACGCGGAGGATGTTCAGAAATTCTGTCAGATCCTGGTCGACTACGTGTCGGCAGGCCATTTCGAGGTCTACGAACAGCTCACCGGCGAGGCCAAGGCGTTCGGCGACCAGCGTGGCCTGGAGCTGGCCAAGCAGATCTACCCGCGCATCGAAGCCATCACCGAGGCGGCACTGTCGTTCAACGACCGCTGCGACAATGGCGATTGTTCCGATAGCTGCGGCCTGACCCTGGAACTCAAACGCCTCGGCCAGTTGCTGCACGAACGCTTCGAGCTGGAAGACTGCCTGATCGAAGTACTGCACAACGCCCACCGGCAATCGGCTGCCGCCGTCTGA	MLESCQNAQERWGGVHQLIDRWLQERHELVRAFDALNTKPQAPAANAEDVQKFCQILVDYVSAGHFEVYEQLTGEAKAFGDQRGLELAKQIYPRIEAITEAALSFNDRCDNGDCSDSCGLTLELKRLGQLLHERFELEDCLIEVLHNAHRQSAAAV				NA	NA	NA	NA	NA
BMS010_07843	657	mip	COG0545	Outer membrane protein MIP	ATGTCGCGATACCCTGCCCTGCTGCTCTGCCTGTTCGCCGCCACGCTCCAGGCAGAGGAAAGTCCTCCCACCGAAGACCGGGATCTCGCCTACAGCCTCGGCGTTCGTCTTGGCGAGCGACTACGCGAAGAGGTCCCGGACCTGCAGCTCGATGCGCTGCTCGAAGGCGTCCGCCAGGCCTACCGTGGCGAACCGCTGAGACTCGATCCGGCGCGCATCGACGCACTGCTGGCGGATCACGAAGCACGGCTGCTGTCCGAGGCGCCGCTCGATGTCGAACGAGCCCGCGCTGCCGAAGGACGGTTCCTCGCGCGAGAAAAAGCCAAGGCCGGTATCCGTGAATTGCCGGGAGGCGTGCTGGTGGAAACACTGCGTCCCGGACGCGGCACGGGATCGTCTTCATGGAACCGGGTGCAGGTGCGCTATGTCGGCCGCCTCGCCGATGGCAGCGTCTTCGACGAGAACAAGGAAGCGCAATGGTTCAGGCTGGACAGCGTGATCGCCGGCTGGCGCACGGCACTGCGGGAAATGCCCCTGGGGGCGACGTGGAGGCTGGTGATTCCGTCGAGCCAGGCATATGGCGCGGAAGGTGCCGGGGACTTGATCCCGCCCTATGCGCCGCTGGTATTCGACGTGGAACTGCTGAACGCCGAGTGA	MSRYPALLLCLFAATLQAEESPPTEDRDLAYSLGVRLGERLREEVPDLQLDALLEGVRQAYRGEPLRLDPARIDALLADHEARLLSEAPLDVERARAAEGRFLAREKAKAGIRELPGGVLVETLRPGRGTGSSSWNRVQVRYVGRLADGSVFDENKEAQWFRLDSVIAGWRTALREMPLGATWRLVIPSSQAYGAEGAGDLIPPYAPLVFDVELLNAE				NA	NA	NA	NA	NA
BMS010_07844	1032			hypothetical protein	ATGCCGGCTAATAAGAAGACAGTCAACACTCCGCTTCACCTGTTGCAGCAACTTTCCCAGAGCCTGCTCGAACATTTGGAAAAAGCCTGCTCGCAGGCACTGGTGGACGCAGAGAAACTGCTTGCCAAGCTGGAAAAGCAGCGAGGCAAGGCGCAGGAAAAACTGCACGATGCCCGCGCCAAGCTGCAGGCCTCCGCCGCGGCGGGCAAGGCCAAGGCCCAGGCGAAGGCCAAGGAAGCCATCGCTGAACTCGAAGAGTTGCTCGACAGCCTCAAGACCCGTCAGACCGAAACCCGCGACTACATCGTCCAACTCAAGCGTGACTCCCAGGAAAGCCTGAAAATCGCCCAGGGCGTCGGCAAGGTGAAGGAAGCGGCCAGCAAGGCCCTGACGACTCGTGAAACCAAGGCCAAGCCGGCTGCGAAAGCTGCTGCCAAACCGGTCGCCAAGAAGGCCCCGGCCAAAGCCTCCCCTGCCAAGACGACTCCGACCAAGTCCGCTGCCGCGAAGCCGGCTGCCAAGGCTGCTACCCCGGCTGCCAAGGCTCCGGCCAAGCCTGCCGCCAAACCGGCAGTCGTCAAGGCCGCCGCGAGCAAGCCTGCGGCGAAGAAAACGACCCCTCCGGCTGCCAAGCCAGCATCGGCAAAAACTGCGGCGAAACCCGCCAGCAAACCGGCTGCCAAGACCGCCAGTAAGCCTGCCGCTGCCGCGAAACCGGCCGCCAAGCCAGCTACAACGGCCGCCGCCCAGCCGGCGAAGAAACCGGCTGCGAAGAAGGCCACAGCACCTAAGGCTGCCGCAGCCAAGTCCAAACCGGAAGCCAAGCCGGCCACGACGACTGCCGCGGCGAAACCGGCTCCGGCTAAGAAGCCCGCTGTGAAGAAGGCGACCGCGCCCAAGGCGAAGCCGGCAGCTGCCAAACCGGCCAGCGCCGCGCCAGCGGCTCAGCCCACGCCGGCCACGCCTTCCGCATCGGCAACACCGGCAACTGCCACCGGCAACAGTGGGACCGCGCCGACCAGCGCCTCTTAA	MPANKKTVNTPLHLLQQLSQSLLEHLEKACSQALVDAEKLLAKLEKQRGKAQEKLHDARAKLQASAAAGKAKAQAKAKEAIAELEELLDSLKTRQTETRDYIVQLKRDSQESLKIAQGVGKVKEAASKALTTRETKAKPAAKAAAKPVAKKAPAKASPAKTTPTKSAAAKPAAKAATPAAKAPAKPAAKPAVVKAAASKPAAKKTTPPAAKPASAKTAAKPASKPAAKTASKPAAAAKPAAKPATTAAAQPAKKPAAKKATAPKAAAAKSKPEAKPATTTAAAKPAPAKKPAVKKATAPKAKPAAAKPASAAPAAQPTPATPSASATPATATGNSGTAPTSAS				NA	NA	NA	NA	NA
BMS010_07845	609			hypothetical protein	GTGGACCTTTACGCCCGCCCGGGCGTGGAGCCGGCCTGCCTGTCGTTGCAGGACGCCGGCGGGGATATCTGCCTGTTGCTGTGCGGCGCCTGGCTGGAAGCCCGCGGCGCTCTCTGCACTGCCGAACGTGCGGAACAGTTGAAAGACTGCGCGGCGCCCTGGCAACGCGAGGTGATCGAGCCACTGCGCAGCATTCGCCGGGCCTGGCGCGACAAGTCGGCTCAGGACAACGTCCTGGCCACCCTGCGTACGCGCATCAAGCAATTGGAGTTGGATGCCGAACGGCAGTTGCTGCAACGTCTGGAAAGCCTCTGCGTTGCCTGGGAGGAAGGACAGGGGAACTCGTCCTGGCTGGAGATATTGGCAGGCGATGCGGCAGAGAAGTGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGCGGGCCCCCGCGCCCACCGAATGGACGCGGGCGGGGGGGGGGGGGGCCCGCGGGGGGGGGGGGGGGGGGGGGGGGGGGNNNNNNNNNNTATGTACTGGGTAACTCTTCGTGGGTGGATTTTTTGGCAGGCGATGCGGCAGAGAAGTGCCGCGACGCGCTGCTGGAGCTGCGCGTCGCGGCCACTCGACCTTAG	MDLYARPGVEPACLSLQDAGGDICLLLCGAWLEARGALCTAERAEQLKDCAAPWQREVIEPLRSIRRAWRDKSAQDNVLATLRTRIKQLELDAERQLLQRLESLCVAWEEGQGNSSWLEILAGDAAEKWGGGGGGGGGGGPPRPPNGRGRGGGGPAGGGGGGGGGXXXYVLGNSSWVDFLAGDAAEKCRDALLELRVAATRP				NA	NA	NA	NA	NA
BMS010_07846	1914	yheS_5	COG0488	putative ABC transporter ATP-binding protein YheS	ATGATCAGACTGCAAAACCTTACCCTACAGCGCGGTCCGCTGCGTCTTCTCGAAGGCGCCGAACTGACCCTGCACCCCGGCCAGAAAGCCGGTCTGGTCGGCGCCAACGGCGCCGGTAAATCCAGCCTGTTCGCCCTGCTGCGCGGCGAAATCGGCCCCGATGCCGGGGACTGCCAGCTTCCGGCCGACTGGCGCATCGCCCACATGCGCCAGGAGGTGGATACCCTGGAACGCCAGGCGGTGGATTACGTACTCGACGGCGATGTCGAGTTGCGTCGCGTGCAGGGCGAGTTGGCCATCGCCGAAGCGGCCCATGATGGTGCCGCCGTGGCCCGCCTGCATACCGAGCTGGACAACCTCGACGGCTACACCGCCGATGCCCGTGCCCGCAAACTGCTGGCCGGGCTGGGGTTCTCCAACGAGCAGATGGAAAAGCGCGTCGGCGATTTTTCCGGCGGCTGGCGGATGCGCCTCAACCTGGCCCAGGCCCTGATGTGTCCCTCGGACCTGCTGCTCCTCGACGAACCGACCAACCACCTGGATCTGGACGCGATCCTCTGGCTGGAAAGCTGGCTGAAAGGTTATCCCGGCACCCTGTTGCTCATTTCACATGACCGGGATTTCCTCGATGCGGTGGTCGATCACGTGGTGCATCTGGAACAGCGCAAACTGACGCTCTACCGCGGCGGCTACTCGGCCTTCGAGCGTACCCGTGCCGAGCGCCTGGCGCAGCAGCAGCAGGCGTACGAGCGACAGCAGGCGCAGCGTGCACACATGGAAAGCTTCATCCGCCGCTTCAAGGCCAAGGCGAGCAAGGCCCGTCAGGCGCAGAGCCGGATCAAGGCGTTGGAGAAGCTGGAAGAGCTGGCGCCGGCCCACGTGGATTCGCCGTTCGATTTCCGCTTCCGCGAGGCGGACAAGGTGTCCAGTCCGTTGCTGGATCTTGCCGAAGGCCGACTCGGCTATGGCGACAAGGCCGTGCTGGAGAAGGTCAAGCTGCAGCTCGCGCCGGGTGCGCGGATCGGCCTGCTTGGCCCCAACGGGGCGGGCAAGTCGACCCTGATCAAGACCCTGGCCGGCGATCTCCCGCCGCTCGGCGGCCGCCTCACGCGTGGCGAGAACCTGGTTGTCGGCTACTTCGCCCAGCACCAGCTGGATGCACTGGATGCCAAGGCCAGTCCGTTGCTGCACCTGCAACGCATCGCACCCGGCGAACGCGAGCAGACCCTGCGCGACTTCCTCGGCGGTTTCGATTTCCGTGGCGATCGCTGCGACGAGCCGGTGCTGAATTTCTCCGGCGGTGAAAAAGCGCGCTTGGCCTTGGCTTTGATCGCCTGGGGCAAACCGAACCTGTTGCTGCTCGATGAACCGACCAACCACCTCGATCTGGAAATGCGCCTGGCCCTGACCATGGCTTTGCAGGACTTCGAGGGGGCGGTGCTGGTCGTTTCCCACGACCGTCATCTGCTCAAGAGCACCACCGACGAGTTCCTGCTGGTCGCCGATGGCCGGGTCCAGGATTTCGACGGCGACCTCGACGATTACGCCCGCTGGCTGGTGGATTACCGCGCCCGTCAGGCGCCGGTAGCCAGCAACGAAAGCGCCGTGGACAAGACCGACAAGCGCGCCCAGCGCCAGGCCGCCGCGGCGTTGCGTCAGCAATTGGCGCCGCACAAGCGCGAGGCGGAAAAGCTGGAGAAGGAGCTGGGCGCGCTGCACGAGAAACTCGCCGGCGTTGAAACCCGGCTGGCCGACAGCGCTCTATATGAGTCAGCGCGCAAAGACGAACTGCGTGACCTGCTCGCCGAGCAGGCGCGCCTGAAGGGTCGCGAAGCCGAGCTGGAAGAAGCCTGGCTGAACGCCCTGGAAATCCTCGAAAGCCTGCAGCGCGAACTGGAGGCCGCACAACAATGA	MIRLQNLTLQRGPLRLLEGAELTLHPGQKAGLVGANGAGKSSLFALLRGEIGPDAGDCQLPADWRIAHMRQEVDTLERQAVDYVLDGDVELRRVQGELAIAEAAHDGAAVARLHTELDNLDGYTADARARKLLAGLGFSNEQMEKRVGDFSGGWRMRLNLAQALMCPSDLLLLDEPTNHLDLDAILWLESWLKGYPGTLLLISHDRDFLDAVVDHVVHLEQRKLTLYRGGYSAFERTRAERLAQQQQAYERQQAQRAHMESFIRRFKAKASKARQAQSRIKALEKLEELAPAHVDSPFDFRFREADKVSSPLLDLAEGRLGYGDKAVLEKVKLQLAPGARIGLLGPNGAGKSTLIKTLAGDLPPLGGRLTRGENLVVGYFAQHQLDALDAKASPLLHLQRIAPGEREQTLRDFLGGFDFRGDRCDEPVLNFSGGEKARLALALIAWGKPNLLLLDEPTNHLDLEMRLALTMALQDFEGAVLVVSHDRHLLKSTTDEFLLVADGRVQDFDGDLDDYARWLVDYRARQAPVASNESAVDKTDKRAQRQAAAALRQQLAPHKREAEKLEKELGALHEKLAGVETRLADSALYESARKDELRDLLAEQARLKGREAELEEAWLNALEILESLQRELEAAQQ				NA	NA	NA	NA	NA
BMS010_07847	582			hypothetical protein	ATGAACGCCTGGCTGGAGCGATGGGCCGGCGACTGGGGTAGCACGGTCCTGCTATTCGGGCAGGTGCTGTTGATCCTGGTGGTCGCGTTCACCTTGCAGCGCCTGGTGACCCGAGGCCTCACCCGCCTGGGTTTCCGCTACCAGCTGCCCCTGGAGTTGCTGCTGCCCCTGCGTGGCGGCCTGCGCTGGTTGATCATGGGCAGCGCCGTCCTGTTGGTGCTGGAGCGCTTCGGCGTATCCGCGGCAGTGCTATGGACCGCGCTATCCGGTTTCGTCGCGGTCGCGGCGGTGGCGTTCTTCGCCATTTGGAGCGTGCTGTCCAACCTGTTCTGTGCCGTGCTGATCTTCACCGTCGGGCCTTTCCGCCTCGGCGACCAACTGGAAATCATCGATAGCCCCGACAAGCCCGGGATTAAAGGCCGGGTCACGGCGATCAACCTGTTGTACACGACCCTGGAAGAAAGCAGCGAATCCGGTGTTTCGGCGACGGTGCAAATCCCCAACAGCTTGTTCTTCCAGAAGCCGATACGGCGCTGGCGGGGAGCCGAGCTGCAGTTCTTCACCCACCAGAAAGAGCATTGA	MNAWLERWAGDWGSTVLLFGQVLLILVVAFTLQRLVTRGLTRLGFRYQLPLELLLPLRGGLRWLIMGSAVLLVLERFGVSAAVLWTALSGFVAVAAVAFFAIWSVLSNLFCAVLIFTVGPFRLGDQLEIIDSPDKPGIKGRVTAINLLYTTLEESSESGVSATVQIPNSLFFQKPIRRWRGAELQFFTHQKEH				NA	NA	NA	NA	NA
BMS010_07848	756			hypothetical protein	ATGGAATGGCTGGCTAACCCGGAAATCTGGGTTGCGTTTCTGACCCTGACTGCCCTGGAAATCGTCCTCGGCATCGACAACATCATCTTCATCTCGATCCTGGTCGGCCGCCTGCCGGCCTCACAGCAACCGCGGGCACGGATCTTCGGCCTGGGGTTGGCCATGGGGACGCGAATCCTCCTGCTGCTTTCGATCACCTGGGTGATGCGCCTGACCAACGACCTCTTCACCGTGTTCGGCGAAGGTGTATCCGGGCGCGACCTGATCCTGTTCTTCGGCGGTCTGTTCCTGCTGTTCAAGAGCACCATGGAGATCTACCACGGCCTGGAAGGCGAGGAAGAAGAGCAAGGGGCCGGCGGCAAGACCCGTGGCTTCCTGGCCATCATCATCCAGATCGCGATCATCGATATCGTGTTCTCTCTCGACTCGGTGATCACCGCGGTGGGCCTGGTACAGAACGTGCCGGTGATGATCGCTGCAATCGTCATTTCGGTCGGCGTGATGATGCTCGCCTCCGGCACCATCAGCGCCTACATCGATCGCCACCCGAGCCTGAAGATGCTGGCGCTGAGCTTCCTCACCGTGGTGGGAACGGTGCTGGTGGCCGAGGCCTTCGATGTGCACGTGCCGAAGGGCTATATCTACTTCGCCATGGCCTTCTCGCTGGCGGTGGAGGCGGTCAACATCCGCATGCGGACCAAAATGGCCAAGGGCAGCGAGCCGGTTCACCTGCGCAAGAACGCGCCGGACGCATGA	MEWLANPEIWVAFLTLTALEIVLGIDNIIFISILVGRLPASQQPRARIFGLGLAMGTRILLLLSITWVMRLTNDLFTVFGEGVSGRDLILFFGGLFLLFKSTMEIYHGLEGEEEEQGAGGKTRGFLAIIIQIAIIDIVFSLDSVITAVGLVQNVPVMIAAIVISVGVMMLASGTISAYIDRHPSLKMLALSFLTVVGTVLVAEAFDVHVPKGYIYFAMAFSLAVEAVNIRMRTKMAKGSEPVHLRKNAPDA				NA	NA	NA	NA	NA
BMS010_07849	630	rhtB_9	COG1280	Homoserine/homoserine lactone efflux protein	ATGGCGCTCGAAACCTGGCTCGCTTTCTTCGTCGCCTGCTGGGTGATCAGCCTGTCACCCGGTGCGGGCGCCATCGCTTCCATGTCTTGCGGCCTGCAATACGGCTTCTGGCGCGGCTATTGGAACGCCATCGGCCTGCAACTCGGCCTGGCCTTGCAGATCGCCATCGTCGCCGCCGGGGTCGGGGCCATCCTCGCTGCATCGGCGCTGGCGTTCAGCCTGATCAAGTGGTTCGGCGTCGCCTATCTGATCTACCTGGCGATCAAGCAATGGCAGGCGCTGCCCGGCGACATGGCCGCTGCGCAGGAGCGTCCCATCGGCCGGCCGCTGAGCCTGGTTCTACGGGGTTTCCTGGTGAACGCCAGCAACCCCAAGGCGGTGGTGTTCATGCTCGCCGTGCTGCCGCAGTTCATCGATCCGCACCAGCCGCTGATGCCGCAGTACCTGATCATGGGCGCGAGCATGATCGCGGTGGACCTGATCGTCATGGCCGGTTACACCGGATTGGCCTCCAAGGTCCTCAGTCTGCTGCACACCCCGCGCCAGCAGCGCATGGTCAATCGCACGTTCGCCGGCCTGTTCGTCGGCGCCGCCGCGTTGCTCGCCAGCGTCCGCCGCGCGCCGGTATAA	MALETWLAFFVACWVISLSPGAGAIASMSCGLQYGFWRGYWNAIGLQLGLALQIAIVAAGVGAILAASALAFSLIKWFGVAYLIYLAIKQWQALPGDMAAAQERPIGRPLSLVLRGFLVNASNPKAVVFMLAVLPQFIDPHQPLMPQYLIMGASMIAVDLIVMAGYTGLASKVLSLLHTPRQQRMVNRTFAGLFVGAAALLASVRRAPV	PGPT0021036_291	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_SENSING_RELATED_GENES	CE-QSR-PUTATIVE_TRANSPORTER,PGPT0021036-rhtB-K05834	NA	NA
BMS010_07850	336			hypothetical protein	ATGTCCACTCCGATCCAGACCACCTCTTATGCCGACAGCGGCGAAATGGCCATTGCGCCTCTGCGCCACCCGCCGTTGGAACAAGCCATCGCCGGAGCCTGCGCCGAACTGGCGGTGCGCGAAGCCTACTTGGCCGCGGTGCGCGATACCGCACTCGGGCCCCAGCCGCGCCTGCTGCTGGCCGTGTCCGGCGCCGACCAGCGCATGCAGCGCCGATTGGCCGCGCGGGTCGCCGAACTGCTGCCGGACGAACTCGAGCTCGACCTCATCGAACTGGCGGACGACAGCCTGTCGCACGCCGTGCGGGAACGCTGCCAGGCGTTCTACCAGGCCTGA	MSTPIQTTSYADSGEMAIAPLRHPPLEQAIAGACAELAVREAYLAAVRDTALGPQPRLLLAVSGADQRMQRRLAARVAELLPDELELDLIELADDSLSHAVRERCQAFYQA				NA	NA	NA	NA	NA
BMS010_07851	1893			hypothetical protein	ATGTTTTCTCCCTTCCGTCTTCTTGCCGCGCTGCTGCTTTCGCTGCTGGCGCTGGGCAGCCTTTCGGCCTTTGCCGAACCCCTCGACGGTGCCGCCCAGGCCCTGCACTTGCTGGGTTATATCGGTGCGGACTACCCGGCCACGGTCGCCGCCGGGCAGATCGTCGATGAAGCCGAATACCGCGAACAACTGGAATTTCTCGCCGTGCTCCAGGGCTTGGTCGGTGCGTTGCCGGCTCGTGCCGAGCGCCACGAACTGGAGCAGGGCGTGGCCGATCTGCGCGAAGCCATCACCCAGCGCCAGGACGGTGACCGGGTCGCCCAGCAAGCCCGTCGGCTCGGCGCACGTCTGGCGGAGGTCTATCAGGTCACCCGGACGCCGCTGATCACGCCCGATCCTTCCCGGGGAGCACCGCTTTATGCGCAGAATTGCGCCGTCTGCCATGGCGATGTCGGCCACGGCGACGGGCCGGCCGGCCTGGGCATGGAGCCGCCACCGACGGACCTGACGGACCGGACGCGGCTCGATCGGCTGAGTCTGTACGACCTGTTCAATACCCTGACCCTTGGTATCGAAGGTACCGACATGCCGGCCTTCGCCGACCAACTGGACGAGCGGCAGCGCTGGGACCTGGCGAGCTACATCGCCGGCCTGTCCGCTGCGCCGGCCCAGGCAGGGGCGGCGACCTTCACCCTCGCCGAACTGGCCGGGCGGACGCCGGAAGAAATCGCCCAGGCCAAGGGCGAGGCCGCCGCAGCCGCGTTCCGGGCCCAGCGCGCCCAGCCGCCGCAGGTCCAGCGCGGTCCGCAGCAGTTGATCGACTACACTCGCGAAACGCTGGACGGCAGTCTGGCGGCTTATCGCGCCGGCGATCGCGACCAGGCCTACGACCTGTCGGTGGCAGCCTACCTGGAAGGCTTCGAGTTGGTGGAAAGCGCCCTGGACAACCTCGACGCGGCGCAGCGCAAGACCACCGAGAAAGCGCTGATGGCTTACCGGCAGGCGATCCAGGACGGCCAGTCCGTGGCCCGTGCGGCGCAAAGCCTGGAGCAGGCCAAGGCGGAGCTGGAGCGCTCGGCCCGGTTGCTCGATGGGGATGGCCTGAGCGGCTCCCTGAGCTTCTTCTCCAGCCTGCTGATCCTGTTGCGCGAAGGGCTGGAGGCGATCCTCGTGCTGGCGGCGATCCTCGCCTACCTGCGCAATACCGGGCAGCAGCAGGCCGCGCGCAGCGTGCACGCGGGCTGGGGGCTGGCGCTGCTGGCCGGGGTCGCCACCTGGGCGCTGGCGGCCTACGTGATCGACGTGAGCGGTGCCCAGCGCGAGTTCCTTGAAGGCGCTACCGCGCTGTTCGCCAGCGTGGTGCTGCTGTGGGTCGGGGTGTGGATGCATGACCGTCGCCATGCGGCGGCCTGGCAGCAGTACATCAAGAGCAGTCTGGTCGGTGGTGGCGGACGGCTGGGCTTCGCGGTGCTGGCGTTCTTCTCGGTCTACCGCGAGCTGTTCGAAGTCATCCTGTTCTACGAGACCCTCTGGCTGCAGGCCGGCCCGGCCGGACACGGCCTGGTGCTGGCCGGCGCGGCGGCGGCGCTGGTGCTGTTGGTCGGTCTGGCCTGGGTGATCCTCAAGGGTTCGGCGAAGCTGCCGCTGTCCACCTTCTTCAGCGCCAACGCCATCCTGCTCTGCGTGCTCTCGGTGGTCTTCGCTGGGCATGGCGTGGCGGCGTTGCAGGAAGCCGGGGTGCTGGGCACGCGGCCGGTGCCGTTCTTCGAGTTCGATTGGCTGGGTATCCACGCCGACGCCTGGTCGTTGTCCGCGCAAGGCTTGGCACTGACCGCCATCGTGGTGCTTTACGGACGCAGTTGGCTGGCCCAGCGCCGTACGGCGGAGGCTTAG	MFSPFRLLAALLLSLLALGSLSAFAEPLDGAAQALHLLGYIGADYPATVAAGQIVDEAEYREQLEFLAVLQGLVGALPARAERHELEQGVADLREAITQRQDGDRVAQQARRLGARLAEVYQVTRTPLITPDPSRGAPLYAQNCAVCHGDVGHGDGPAGLGMEPPPTDLTDRTRLDRLSLYDLFNTLTLGIEGTDMPAFADQLDERQRWDLASYIAGLSAAPAQAGAATFTLAELAGRTPEEIAQAKGEAAAAAFRAQRAQPPQVQRGPQQLIDYTRETLDGSLAAYRAGDRDQAYDLSVAAYLEGFELVESALDNLDAAQRKTTEKALMAYRQAIQDGQSVARAAQSLEQAKAELERSARLLDGDGLSGSLSFFSSLLILLREGLEAILVLAAILAYLRNTGQQQAARSVHAGWGLALLAGVATWALAAYVIDVSGAQREFLEGATALFASVVLLWVGVWMHDRRHAAAWQQYIKSSLVGGGGRLGFAVLAFFSVYRELFEVILFYETLWLQAGPAGHGLVLAGAAAALVLLVGLAWVILKGSAKLPLSTFFSANAILLCVLSVVFAGHGVAALQEAGVLGTRPVPFFEFDWLGIHADAWSLSAQGLALTAIVVLYGRSWLAQRRTAEA	PGPT0003710_480	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_II_TRANSPORT_SYSTEM,PGPT0003710-efeU|FTR|FTH1-K07243	NA	NA
BMS010_07852	450			hypothetical protein	ATGCGTGTGTGGATCGATGCCGACGCCTGTCCCCGGGCGGCCAAGGATCAGGTGGTCAAGTTCGCCCTCAAGCGGCGCTTCGAGGTCTGGCTGGTGGCCGGGCAGAGCCAGGTCAAACCGGCCTTTGCCTGCGTCCATCTGATCGTGGTGCCGAGCGGCATGGATGCGGCGGACGACTATCTGGTGGAGCACGCGCAGCCCGGCGATCTGGTGATCTGCAGCGACGTGCCTTTGGCCGATCGTCTGGTGAAGAAGGGCGTCGCGGCGCTTGACCCGCGCGGCAAGGAATTCGACGAGCGCAACATGGGCGAGCGTCTGGCGGTGCGCAATCTGTTCACCGACCTACGCGACCAGGGCCAGGTGGGCGGTGGGCAGGCGGCCTATGGCGAGCGCGACCGGCAGGCGTTCGCCAATGCGCTGGACCGGATACTGACCCGGCTCAGCCGTTGA	MRVWIDADACPRAAKDQVVKFALKRRFEVWLVAGQSQVKPAFACVHLIVVPSGMDAADDYLVEHAQPGDLVICSDVPLADRLVKKGVAALDPRGKEFDERNMGERLAVRNLFTDLRDQGQVGGGQAAYGERDRQAFANALDRILTRLSR				NA	NA	NA	NA	NA
BMS010_07853	660	elbB	COG3155	Glyoxalase ElbB	ATGCACAAAAAAGTCGCCGTCATCCTTTCCGGCTGTGGTGTCTACGACGGCTCGGAGATTTACGAGAGCGTGATCACCCTGCTGCGCCTCGACCAGCGGGGCGCCGAAGTCCAATGCTTCGCGCCGAACGTCATGCAACTGCATGTCGTCGATCACTACAGCGGCGACGAAATGCCGGAGTCGCGCAACGTGCTGGTGGAATCGGCGCGTATCGCCCGCGGCAACATCAAGGATGTCCGTGAAGCCAAGGTCGAGGACTTCGATGCCCTGATCCTGCCCGGCGGCTTCGGTGCGGCGAAGAACCTCTCCGACTTCGCCATCAGCGGCGCCCAATGCACCGTCCAGCCCGACGTACTGGCCTTCGCCCAGGCTTTCGCCCAGGCCGGCAAGCCGATCGGCCTGATCTGCATCGCGCCGGCGCTGGCCGCGAAAATCTATGGACCGGGGGTGGTCTGCACCATCGGCACCGACCACGAGACCGCCGCCACCCTCGCGCAGATGGGCGCGCAGCATGAGGAATGCGAGGTCAGCGACATCATCGAGGACAAGCAGCGCAAGCTGGTGACCACGCCGGCGTACATGCTGGCCAAATCCATCAGCGAGGCCGCATCCGGCATCAACAAACTGGTCGACCGCGTTCTGGAACTGACCGTGAACTGA	MHKKVAVILSGCGVYDGSEIYESVITLLRLDQRGAEVQCFAPNVMQLHVVDHYSGDEMPESRNVLVESARIARGNIKDVREAKVEDFDALILPGGFGAAKNLSDFAISGAQCTVQPDVLAFAQAFAQAGKPIGLICIAPALAAKIYGPGVVCTIGTDHETAATLAQMGAQHEECEVSDIIEDKQRKLVTTPAYMLAKSISEAASGINKLVDRVLELTVN				NA	NA	NA	NA	NA
BMS010_07854	1251			hypothetical protein	ATGGATTACGTTCTCTACGCAGTGCCTTTCTTTCTTCTGCTGATCGCCCTGGAACTGCTCGCCGACCGCTGGCGCGGGCGCAGCAGCTACCGGCTGGCCGATGCGATCAACAGCCTCAGTGCGGGTGTGCTGTCCACCACCAGCGGCCTGCTGACCAAGGGGGTGGGCGTGCTCACCTATGCTTTCGCCTGGCAGCACCTGGCGGTGTTCGAGTTGTCCGGGCGGAGCCTGTGGGTCTGGCTCTTCGCCTTCGTGTTCTACGACCTCTGCTACTACTGGAACCATCGCTTCGGCCATGAGCGGAACATCTTCTGGGCGGCGCATTCGGTGCATCACCAGAGCGAGGAGTACAACCTCAGCACGGCGTTGCGCCAGACCAGCAGCGGCTTTCTCCTGGGCTGGCTGTTCTACCTGCCGATGGCCGTGGCCGGGGTGCCGCCCCAGGTAATCCTGACCGTCGCCGCGCTGAACCTGCTCTATCAGTTCTGGGTGCATACCCGCCATATCCCCAAGCTGGGCTGGCTGGAGTGGCTGTTGATCACGCCCTCCAACCACCGGGTGCACCATGCGCAAAATCCTATCTATATGGATCGCAACTACGGCGGAGTGTTCATCCTCTGGGACCGTCTGTTTGGCACGTTTCAGGAGGAACTGGACGAGCACCCGGTGGTCTTCGGCGTGACCACGCCGCTGGCCAGCTGGAACCCGCTGTGGGCCAACCTGCAGTTCTACGTGCAGCTTTGGCGCGATGCGGTGCGGACGGCCTCCTGGTGGGACCGTCTGCGCATCTGGTTCATGCCCACCGGCTGGCGGCCGGCGGATGTGGCGGCCCGCTATCCATTGGCCAAGCCGGATCTGGTCGGGTTCGTGAAGTTCGAGGTGCCACTGGCGCCGGGGCGCAAGGTCTACGCAGCGGCGCAGTTCGCGCTGTATGTCGCGGTGGGGAGCGGGTTGCTGGCGGTCGGAGAGACGCTGGCGTTGCCGTACCTGCTGGTGGCCTGGGCCTGGATGGCTTTCGGGCTGTATGCGATCGGTGCCTGGCTGGAGAACCGGCCGTGGGTGCCGGCTATCGAATGGCTGCGCCTGCTGTCGATCCCGCCTGTGCTCTGGCTGGCGGAGCATGCCGGACTGTTCGCGGCTAAGCCGATGACCTGGTCGGTCTTGCTGGGTTACATGCTGCTCAGTGTGATCGCCCTGTGGTGGATGACGGGCATCGCGGCAAGGTTCGGCAGAACTACCGCACGTGGCTGA	MDYVLYAVPFFLLLIALELLADRWRGRSSYRLADAINSLSAGVLSTTSGLLTKGVGVLTYAFAWQHLAVFELSGRSLWVWLFAFVFYDLCYYWNHRFGHERNIFWAAHSVHHQSEEYNLSTALRQTSSGFLLGWLFYLPMAVAGVPPQVILTVAALNLLYQFWVHTRHIPKLGWLEWLLITPSNHRVHHAQNPIYMDRNYGGVFILWDRLFGTFQEELDEHPVVFGVTTPLASWNPLWANLQFYVQLWRDAVRTASWWDRLRIWFMPTGWRPADVAARYPLAKPDLVGFVKFEVPLAPGRKVYAAAQFALYVAVGSGLLAVGETLALPYLLVAWAWMAFGLYAIGAWLENRPWVPAIEWLRLLSIPPVLWLAEHAGLFAAKPMTWSVLLGYMLLSVIALWWMTGIAARFGRTTARG				NA	NA	NA	NA	NA
BMS010_07855	561	yohD	COG0586	Inner membrane protein YohD	ATGCTCGAAACTTTTTTACATCAGTTCGGTTACCCGGCGCTGTTCATCGGCACTTTCTTCGAAGGCGAGACGATCCTGGTACTCGCCGCCTTCCTCGCCCATCGCGGCCTCCTGCAACTCGACCTGGTGCTGGTCTGTGCCTTTCTCGGCAGTTACAGCGGCGACCAGCTCTGGTACTACCTCGGCCGCAGCCGCGGGCGGCGGCTGTTGCAGCGCAAGGCGGAATGGGCGGCGCTGGGCGACAAGGCGCTGGCCCATATCCGTCGGCATCCCGACCTGTGGGTGCTGGGTTTCCGCTTCGTCTACGGAATGCGCACAGTCATGCCGGTGGCCATCGGCCTCTCCGGCTATCCGCCCCTGCGCTACCTGCTGCTGAACGGCGTGGGAGCGGTGATCTGGGCCCTGGGCCTGGGGCTCGCCTCGTACCACTTCGGCACGCTGATGGAACAGGTGCTTGGCGACCTGAAGCGCTATGAGTTCTGGGTATTCGGCGGACTGGCGCTGTTCGGTGCGGCGCTCTGGCTGCGGCGGCGCCTGCAGGCCAGACGCAAGCTGTCGTGA	MLETFLHQFGYPALFIGTFFEGETILVLAAFLAHRGLLQLDLVLVCAFLGSYSGDQLWYYLGRSRGRRLLQRKAEWAALGDKALAHIRRHPDLWVLGFRFVYGMRTVMPVAIGLSGYPPLRYLLLNGVGAVIWALGLGLASYHFGTLMEQVLGDLKRYEFWVFGGLALFGAALWLRRRLQARRKLS				NA	NA	NA	NA	NA
BMS010_07856	1011	hemB_2	COG0113	Delta-aminolevulinic acid dehydratase	GTGAGCTTTACTCCCGCCGACCGCCTGTTCCCCGCCACCCGCCTGCGCCGCAATCGCCGCGACGAATTTTCCCGGCGCTTGGTGCGCGAGAACGTGCTGACCACCAACGACCTGATCCTGCCGGTGTTCGTCCTCGACGGCGAGAACCGCCGCGAAGCCGTGCCGTCGATGCCCGGCGTCGAACGCCTGTCCATCGATCTGCTGCTGGAAGAGGCGGCGCAGTGGGTGGCCCTGGGCATTCCGGCCCTGGCACTGTTCCCGGTGACTCCGCTGGAGAAGAAATCCCTCGACGCCGCCGAAGCCTGGAACCCGGAAGGCATTGCCCAGCGCGCCACCCGTGCCCTGCGGGCACAGTTCCCTGAGCTTGGCGTGATCACCGACGTCGCCCTCGACCCGTTCACCACCCACGGCCAGGACGGCATCCTCGACGACGACGGCTACGTAATGAACGACGTGACCATCGATGCGCTGGTCAAGCAGGCGCTGTCCCATGCCGAGGCCGGTGCCCAGGTGGTGGCGCCGTCGGACATGATGGACGGCCGCATCCAGGCGATCCGCGAAGCGCTCGAACTGGCCGAGTACCCCAACGTGCGCATCATGGCTTACTCGGCCAAGTACGCCAGCGCCTACTACGGGCCGTTCCGCGACGCGGTGGGCTCGGCGGCGAACCTCGGTAAGGGCAGCAAGAACACCTACCAGATGGACCCGGCCAATGGCGACGAGGCGCTGCATGAAGTGGCGACGGACCTGGCCGAAGGTGCGGACATGGTCATGGTCAAGCCGGGCATGCCGTACCTGGATGTGGTGCGCCGGGTGAAGGACACCTTCCGCGTGCCCACCTTCGCCTATCAGGTCAGCGGCGAGTACGCCATGCACATGGCGGCGATCCAGAACGGCTGGTTGAGCGAAGCGGTCATTCTCGAGTCGCTGACCGCCTTCAAGCGCGCTGGCGCTGATGGCATTCTCACCTATTTCGCCAAACGTGCCGCAGAACTGTTAAAACAGGGGTAA	MSFTPADRLFPATRLRRNRRDEFSRRLVRENVLTTNDLILPVFVLDGENRREAVPSMPGVERLSIDLLLEEAAQWVALGIPALALFPVTPLEKKSLDAAEAWNPEGIAQRATRALRAQFPELGVITDVALDPFTTHGQDGILDDDGYVMNDVTIDALVKQALSHAEAGAQVVAPSDMMDGRIQAIREALELAEYPNVRIMAYSAKYASAYYGPFRDAVGSAANLGKGSKNTYQMDPANGDEALHEVATDLAEGADMVMVKPGMPYLDVVRRVKDTFRVPTFAYQVSGEYAMHMAAIQNGWLSEAVILESLTAFKRAGADGILTYFAKRAAELLKQG	PGPT0003655_1286	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003655-hemB-K01698	NA	NA
BMS010_07857	2190	ppk_2		Polyphosphate kinase	ATGAACACCGAAGGATTCACCAACAGCGAAGTGCTCGACGCGCAACCGATCGAAGAGCCGATCGTGGAAACGCCCCCACCGGTGGAAGTGCCGCCACCCCCGCCGCCGGTGCCGAGCCTGGATGACAGCAGCCTGTACATCCATCGCGAGCTGTCCCAGCTCCAGTTCAACATCCGTGTACTGGAGCAGGCGCTGGATGAATCCTATCCGTTGCTGGAGCGGTTGAAGTTCCTGCTGATCTTCTCCAGCAACCTGGACGAGTTCTTCGAGATCCGCGTCGCCGGTCTCAAGAAACAGATCAACTTCGCCCGCGAGCAGGCCGGCGCCGACGGCCTGCAACCGCACCAGGCGCTGGCGCGGATCAGCGAGCTGGTGCACGAGCAGGTCAGCCGTCAGTACGCCATTCTCAATGACGTGCTGCTGCCCGAGCTGGCCAAGCACCAGATCAACTTCATCCGCCGTCGCTACTGGACGCCCAAGCTGAAAACCTGGGTGCGCCGCTACTTCCGCGACGAGATCGTGCCGATCATCACCCCCATCGGTCTCGACCCGACGCACCCGTTCCCGTTGCTGGTGAACAAGAGCCTCAACTTCATCGTCGAGCTGGAAGGCGTCGATGCGTTTGGCCGCGACTCGGGCCTCGCCATCATTCCGGCGCCGCGCCTGTTGCCGCGGATCATCCGGGTGCCGGAAGACATCGCCGGGCCGGGCGACAACTACGTATTCCTCTCGTCGATGATCCATGCCCATGCGGACGACCTGTTCCAGGGCATGAAGGTGAAGGGCTGTTACCAGTTCCGCCTGACCCGCAACGCCGACCTGTCGGTTGACACCGAGGACGTCGAGGACCTGGCCCGTGCTCTGCGCGGCGAACTGTTCTCGCGCCGCTACGGCGATGCGGTGCGCCTGGAAGTGGCCGATACCTGTCCGAAGCACCTCTCGGATTACCTGCTCAAGCAGTTCAACCTGAGCGAGGGTGAGCTGTATCAGGTCAACGGGCCGGTCAACCTGACCCGCCTGTTCAGCATCACTGGCCTGGACAGCCACCCGGAGCTGCAGAACGCACCCTTCACGCCGGTCATCCCCAAGCTGCTGCAGAACAGCGACAACCTGTTCAACGTAGTGGGCAAACAGGACATCCTGCTGTTGCACCCGTTCGAGTCGTTCACCCCGGTGGTGGACCTCCTGCGCCAGGCCGCCAAGGACCCGCACGTGCTGGCGATCAAGCAGACGCTGTACCGCTCCGGCGCCAATTCGGAGATCGTCGACGCGCTGGTGGAAGCGGCGCGCAATGGCAAGGAAGTCACCGCGGTGATCGAGCTGCGCGCGCGTTTCGACGAGGAGTCCAACCTGCAACTGGCCAGCCGCCTGCAACAGGCCGGCGCGGTGGTGATCTACGGCGTGGTGGGTTTCAAGACCCACGCCAAGATGATGCTCATCCTGCGCCGCGAGAACGGCGAGCTGGTGCGTTACGCCCACCTCGGCACCGGCAACTACCACGCCGCCAATGCCCGCCTGTATACCGACTACAGCATGCTGACTTCGGACGATGCGCTCTGCGAGGACGTGTCCAAGCTGTTCAGCCAGTTGATTGGCATGGGCAAGACGCTGCGCATGAAGAAGCTCCTGCACGCGCCCTTCACTCTGAAGAAAGGCATCCTCGACATGATCGCCCGCGAGACCCAGCATGCCAGCGAAGGCAAGCCGGCGCAGATCATGGCCAAGGTCAACGCGCTGACCGATCCGAAGATCATCCGCGCGCTATACAAGGCCAGCCAGGCGGGGGTGAAGATTGATCTGGTGGTGCGCGGCATGTGCTGCCTGCGCCCGGGCATTCCCGGCGTTTCGCACAACATCCAGGTCCGCTCGATCATCGGCCGGTTCCTCGAGCACAGCCGCATCTACTACTTCCTCAACGGCGGCGACGAGAAGCTCTACCTCTCCAGCGCCGACTGGATGGAGCGCAACCTCGACAAGCGCGTCGAGACCTGCTTCCCGGTGGAAGGCAAGAAGCTGGTGTCACGGGTGAAGAAAGAGCTGGAGTCGTACCTCACCGACAACACCCAGAGCTGGATTCTGCAGCCGGACGGCCGCTATGTGCGGGTCAGCCCGACCGGCAACCAGAACCCGCGCAACGCGCAGGCCGGCCTGCTGGAGAAGCTGACCAACCCGGTGATCAGCGTACGCTGA	MNTEGFTNSEVLDAQPIEEPIVETPPPVEVPPPPPPVPSLDDSSLYIHRELSQLQFNIRVLEQALDESYPLLERLKFLLIFSSNLDEFFEIRVAGLKKQINFAREQAGADGLQPHQALARISELVHEQVSRQYAILNDVLLPELAKHQINFIRRRYWTPKLKTWVRRYFRDEIVPIITPIGLDPTHPFPLLVNKSLNFIVELEGVDAFGRDSGLAIIPAPRLLPRIIRVPEDIAGPGDNYVFLSSMIHAHADDLFQGMKVKGCYQFRLTRNADLSVDTEDVEDLARALRGELFSRRYGDAVRLEVADTCPKHLSDYLLKQFNLSEGELYQVNGPVNLTRLFSITGLDSHPELQNAPFTPVIPKLLQNSDNLFNVVGKQDILLLHPFESFTPVVDLLRQAAKDPHVLAIKQTLYRSGANSEIVDALVEAARNGKEVTAVIELRARFDEESNLQLASRLQQAGAVVIYGVVGFKTHAKMMLILRRENGELVRYAHLGTGNYHAANARLYTDYSMLTSDDALCEDVSKLFSQLIGMGKTLRMKKLLHAPFTLKKGILDMIARETQHASEGKPAQIMAKVNALTDPKIIRALYKASQAGVKIDLVVRGMCCLRPGIPGVSHNIQVRSIIGRFLEHSRIYYFLNGGDEKLYLSSADWMERNLDKRVETCFPVEGKKLVSRVKKELESYLTDNTQSWILQPDGRYVRVSPTGNQNPRNAQAGLLEKLTNPVISVR	PGPT0002685_699	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002685-ppk-K00937	NA	NA
BMS010_07858	624			hypothetical protein	ATGACGACTGCGTGGAATTTCGAGGCCGACTACTTCACGGCCTGTAACTGCGACTGGGGTTGCCCCTGCAATTTCAACGGCCGCCCGACCGAAGGGCGCTGCATGGGCTGGGGGGCCTGGTCCATCGTCAGCGGGCGCTATGCCGACACGGTGCTGGATAGCCTGCGCTTCGCGCTCTATTACAAGTTCCCGGGACTGATCGAGGAAGGTGGCGGCGTTGCTTGCGCCTACATCGACAGCCAGGCCGGCGAGGAGCAACGCAAGGCGCTGGAAAGCATCGCCTGCGGTCGCGAGGGTGGCGGCATCTTCGAGCTCTTCGGGGCCGAGCTGGTCAGCGCCTGGTTGCCGACCAAGTTCATCCCGATCCACTTCGACATTGAGGATGGCGTGGGCCGGGTGGTCATCGAGGGGTTTGCCGAGGCCGACAGCGAGCTGCTCGGTTACCCGGATGGCAGCGTCATCCGGCCGACCCTGGAGCTGCCGCATGGGATCGAATACAAGCGCGGCCTGATGACCAACGCCAAACGCTGGTGGTGGCGCGACGGCGAATTGCTGGCCAGCTATGCCAACCGTTATGGCGCGGTTGCCAGGGTCCGCTTCAGTGAGCAGGGCTGCCTGGCGTGA	MTTAWNFEADYFTACNCDWGCPCNFNGRPTEGRCMGWGAWSIVSGRYADTVLDSLRFALYYKFPGLIEEGGGVACAYIDSQAGEEQRKALESIACGREGGGIFELFGAELVSAWLPTKFIPIHFDIEDGVGRVVIEGFAEADSELLGYPDGSVIRPTLELPHGIEYKRGLMTNAKRWWWRDGELLASYANRYGAVARVRFSEQGCLA				NA	NA	NA	NA	NA
BMS010_07859	1500	ppx	COG0248	Exopolyphosphatase	ATGCCCAAAGCAGCCGAGAATTTTCCCCTGATTGCCGCCATTGACCTTGGCTCGAACAGCTTCCACATGGTGTTGGCCAAACCCGATCAGAGCGAAATCCGCATCCTCGAGCGGCTCGGCGATAAGGTTCAGTTGGCGGCAGGCATCGACGAAGCGCGCATGCTCAGCGAAGAGGCCATGCAACGCGGGCTCGACTGCCTGCGCCGCTTCGCCCAACTGATCAACGGCATGCCCCAGGGTTCGGTGCGCATCGTCGGCACCAATGCCCTGCGCGAAGCACGCAACCGCAGCGAATTCATCCGCCGGGCAGAAGAACTCCTCGGCCATCCCGTCGAAGTCATCTCCGGTCGAGAAGAGGCCCGCCTGATCTACCTGGGCGTGTCCCATACTTACCCCAACACGCCCGGCAAGCGCCTGGTGGTGGACATCGGCGGCGGCAGCACCGAGTTCATCATCGGCCAGCGCTTCGAATCGCTGCTGCGCGAGAGCCTGCAGATGGGCTGCGTCAGCTACACCCAGCGCTACTTCCGCGACGGTAAGATCACCGCCGCGCGCTATGCCCAAGCCTATACCGCCGCCCGTCTCGAGCTGATGGGCATCGAGCAGAGCCTGCGCCGCCTCGGCTGGCAGGAATCGGTGGGGGCGTCCGGCACCATCCGTGCCGTCGGGCTGGCCATCAAGAGCGGCGGCCATGGCAACGGCGAAGTCAACGCCGAAGGCCTGGCCTGGCTGAAGCGCAAGCTGCTCAAGCTGGGCGAAGTCGAGAAGCTGGACATGGAGGGCATCAAGCCCGACCGTCGCGCCATCTTCCCGGCCGGCCTAGCCATCCTCGAGGCGATCTTCGATGCGCTGGAGCTGCAACAGATGGCGCATTCCGAGGGTGCCCTGCGCGAAGGCGTGCTCTATGACCTGCTCGGCCGCCATCACCACGAAGATGTCCGCGAACGCACCCTGAGTTCGTTCATGGAGCGCTACCACGTGGACGTCGAGCAGGCGGCACGGGTCGAGGCCAAGGCGCTGTCCGCCCTGGACAAGGTCGCCGATGCCTGGGAACTGAACGAAGACTGGCATCGCGAGCTGCTGAGCTGGGCGGCACGGGTGCACGAGGTGGGCCTGGATATCGCCCACTACCACTACCACAAGCACGGCGCCTACCTGATCGAGCACTCCGATCTGGCTGGCTTCTCGCGCGAGGACCAGCAGATGCTGTCACTGCTGGTACGCGGCCACCGACGCAACATCCCCCAGGACAAACTCGCCGAGTTCGGCGCCGACGGCATCAAGCTGGTACGCCTCTGCGTCCTGCTGCGCTTCGCCATCCTGTTCCATCACATCCGCGGCACCCAGGAAATGCCCCAGGTGCAACTGAAGGCCGGGCCGCAGAGCCTGGACATCCAGTTCCCCGAAGGCTGGCTGGCCGCCAACCCGCTGACCCAGGCCGACTTCGAGCAGGAAGCCGAGTGGCTCAAGCGGATCGACTTCACCCTGAGCGTGCGCTAA	MPKAAENFPLIAAIDLGSNSFHMVLAKPDQSEIRILERLGDKVQLAAGIDEARMLSEEAMQRGLDCLRRFAQLINGMPQGSVRIVGTNALREARNRSEFIRRAEELLGHPVEVISGREEARLIYLGVSHTYPNTPGKRLVVDIGGGSTEFIIGQRFESLLRESLQMGCVSYTQRYFRDGKITAARYAQAYTAARLELMGIEQSLRRLGWQESVGASGTIRAVGLAIKSGGHGNGEVNAEGLAWLKRKLLKLGEVEKLDMEGIKPDRRAIFPAGLAILEAIFDALELQQMAHSEGALREGVLYDLLGRHHHEDVRERTLSSFMERYHVDVEQAARVEAKALSALDKVADAWELNEDWHRELLSWAARVHEVGLDIAHYHYHKHGAYLIEHSDLAGFSREDQQMLSLLVRGHRRNIPQDKLAEFGADGIKLVRLCVLLRFAILFHHIRGTQEMPQVQLKAGPQSLDIQFPEGWLAANPLTQADFEQEAEWLKRIDFTLSVR	PGPT0002595_2114	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002595-ppx|ppx_gppA-K01524	NA	NA
BMS010_07860	1563	betS		Glycine betaine/proline betaine transporter BetS	TTGTCCGTTCAATCCATGCAGGCCCTCGGGTCTCGTTCTTTTAAGACTGTGAATCAGCCGGTTTTCTTCGGTTCACTGCTGGTCGTCACGCTTTTCGTGGTGGCCACGCTCACCAATCTGCACGCCAGCGAAGCGGCGTTCGCCGCCATCAAGGAAGGAATCACACATAACTTCGGCTGGTTCTTCATTCTCAGTGTGCAGGCGTTCCTGCTGTTTTCGCTCTACCTCGCCCTGAGCCGCTTCGCCCACATCCGCCTGGGCGGCAGCCAGGCCAGGCCGGACTACGGGTTTGCCGCCTGGTTCGCCATGTTGTTTTCGGCAGGCATGGGGATCGGCCTGGTGTTCTGGAGCGTGGCCGAGCCGGTCTATCACTTCGCCTCGCCGCCGCGCATCGAGGGGCACAGCATCGAGGCGGCCAAGAGAGCGATGGAGCTGAGTTTCCTTCACTGGGGGCTGCATGCCTGGGGTGTCTATGCCCTGGTAGGGCTGACGCTGGCCTATTTCAGCTACAACCGTGGCTTGCCGCTGACCATCCGCTCCGCTTTCCAGCCGCTGCTCGGCGATCGTATCCAGGGCCCGCTGGGGCATCTGATCGATATCGTCGCGGTGGTCGCCACGCTGTTCGGCGTCGCCACCTCGCTGGGACTCGGCGTCAGCCAGGTCGCGGCCGGCCTGGGCGGGCTGCTGGGCTTCGTCCCGGATACCGCCGCACATCTCTGGCTGGTGGCCGGCATCACGGCGCTGGCTACCCTGTCGGTAGCCCTCGGCCTGGACAAAGGCATCAAGTGGCTGTCGCAGATCAACCTCTGGGCGGCTCTCGGCCTGCTGCTGTTCGTCATCGCCCTCGGCCCGACGCTGTTCATTCTGTCCGGCGTCGTGCAAAACACCGGCAATTACCTGCAGAACCTGCTGAGCCTCGGTTCCTGGACTGAGGCCTACCGTCCCGATTCCACCTGGCAGTCCGGCTGGACGGTGTTCTACTGGGCCTGGTGGATTTCCTGGTCGCCCTTCGTCGGCTTGTTCATCGCACGGATTTCCCGTGGCCGGACGGTGCGCGAGTTCGTGCTCGGCGTCCTGCTGGTCCCGACGCTGCTGACCTTCCTGTGGATCACCGCCTTCGGTGGCGCGGCGCTGTACGAGGAGCTGTTCGGGGCCGGCGGCATCGAGGCGGCGGTGCAGGCCGATGTCTCCATGGCGTTCTTCGCGCTGCTGGCGCATTACCCCTTGGCCAGCATCAGCAGTGTGCTGGCCATGCTGCTGGTGGTGGTGTTCTTCGTGACCAGCGCCGACTCCGGGGCGCTGGTGATCGACACCATCACGGCGGGCGGCCGGCTGGATTCGCCGGTCGGGCAGCGCGTGTTCTGGTCGTCTTGTGCGGGGGGCGTGGCGGCCGTCCTGCTGTTGGGCGGCGGGTTGAGCGCCTTGCAGACGGCGGCGATCAGCACCGGCCTGCCGTTCGCCGCGATCCTCTGGTTGATGCTGTTCAGCCTGAACAAGGCCCTGCGCGAAGACCTGCCGTTGCCGAGCGCGCCGCTGGCAGGCGGGTCCTCGAAGTCGGTCTGA	MSVQSMQALGSRSFKTVNQPVFFGSLLVVTLFVVATLTNLHASEAAFAAIKEGITHNFGWFFILSVQAFLLFSLYLALSRFAHIRLGGSQARPDYGFAAWFAMLFSAGMGIGLVFWSVAEPVYHFASPPRIEGHSIEAAKRAMELSFLHWGLHAWGVYALVGLTLAYFSYNRGLPLTIRSAFQPLLGDRIQGPLGHLIDIVAVVATLFGVATSLGLGVSQVAAGLGGLLGFVPDTAAHLWLVAGITALATLSVALGLDKGIKWLSQINLWAALGLLLFVIALGPTLFILSGVVQNTGNYLQNLLSLGSWTEAYRPDSTWQSGWTVFYWAWWISWSPFVGLFIARISRGRTVREFVLGVLLVPTLLTFLWITAFGGAALYEELFGAGGIEAAVQADVSMAFFALLAHYPLASISSVLAMLLVVVFFVTSADSGALVIDTITAGGRLDSPVGQRVFWSSCAGGVAAVLLLGGGLSALQTAAISTGLPFAAILWLMLFSLNKALREDLPLPSAPLAGGSSKSV	PGPT0021960_495	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARNITHINE_USAGE	PLANT_DERIVED_CARNITHINE_DEGRADATION,PGPT0021960-TC_BCT-K03451	NA	NA
BMS010_07861	729	glnQ_10		Glutamine transport ATP-binding protein GlnQ	ATGTCACTGCTTAGGATTTCCGCCCTGCACAAGTACTACGGCGAGCATCATGTGCTCAAAGGCATCGACCTCGACATCGAGGAGGGCGAAGTGGTCGCCATCATCGGCCGCAGCGGTTCGGGCAAGAGCACCCTGCTGCGCACCCTCAACGGCCTGGAGGGGATCGACGACGGCGTGATCGAAGTCGACGGCGAATACCTCGACGCCCAGCGCGCCGACCTGCGCAGCCTGCGGCAGAAGGTCGGCATGGTGTTCCAGCAGTTCAACCTGTTCCCGCACCTGTCGGTGGGCGAGAACGTCATGCTCGCGCCGCAGGTGGTGAAGAAGGTGCCCCGCGCCGAAGCCCAGCGCCTCGCCAGGCGCATGCTGGAGCGGGTCGGCCTGGCGGAGAAGTTCGACGCCTTTCCCGACCGCCTCTCCGGCGGCCAGCAACAGCGCGTGGCGATTGCCCGCGCCCTGGCCATGTCGCCGAGGATGCTGCTCTGCGACGAGATCACTTCGGCGCTCGATCCCGAGCTGGTCAACGAGGTGCTGGCGGTGGTGCGCCAGCTCGCCGACGAAGGCATGACCTTGGTGATGGTCACCCACGAAATGCGTTTCGCCCGCGAAGTCGGCGACAAGCTGGTGTTCATGCACCAGGGCAAGGTGCACGAATCCGGACCGCCCGCGGAACTGTTCGCCAATCCGCGGACACCCGAACTGGCGCAGTTCATCGGCTCAGTGAACTGA	MSLLRISALHKYYGEHHVLKGIDLDIEEGEVVAIIGRSGSGKSTLLRTLNGLEGIDDGVIEVDGEYLDAQRADLRSLRQKVGMVFQQFNLFPHLSVGENVMLAPQVVKKVPRAEAQRLARRMLERVGLAEKFDAFPDRLSGGQQQRVAIARALAMSPRMLLCDEITSALDPELVNEVLAVVRQLADEGMTLVMVTHEMRFAREVGDKLVFMHQGKVHESGPPAELFANPRTPELAQFIGSVN	PGPT0020790_4367	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020790-ABC_PA_A-K02028	NA	NA
BMS010_07862	648	yecS_9	COG0765	L-cystine transport system permease protein YecS	ATGGATTTCACTTTCTGGGACATCGCCCGCAACCTGCTGGTCGGCCTGCAATGGACCCTGCTGCTCTCGTTGCTGGCCTTCGTCTGCGGCGGCCTCATCGGCCTTCTGCTGCTCACCGCCCGGATCGCTCCGCAACCCGCCCTGCGGGGCTTCGCCCGGATCTACATCGAGGTATTCCAGGGCACGCCGCTACTGATGCAGTTGTTCCTGGTCTTCTTCGGCGTCGCCCTGCTCGGCATCGACGTCTCGCCCTGGCTGGCCGCCGCTCTGTCGTTGACGCTGTTCACCAGCGCCTTCCTCGCCGAAATCTGGCGCGGCTGCGTGGAAGCGATTCCGCGCGGGCAATGGGAAGCCTCGGCCAGCCTGGCGCTGAACCGCTTCGAACAGTTGCGCTATGTGATCCTACCGCAGGCGCTGCGTATCGCCGTGCCGCCCACCGTCGGGTTCTCCGTACAGGTGGTCAAGGGTACGGCCGTCACCTCGATCATCGGCTTCGCCGAGCTGACCAAGACCGGCGGCATGCTGGCCAACGCCACCTTCAAGCCGTTCCTGGTCTACGGCCTGGTGGCCGTCGGCTATTTCCTCCTCTGCTATCCCCTCTCGCTCAGTGCGCGTTATCTGGAAAGGAGGCTGCATGTCACTGCTTAG	MDFTFWDIARNLLVGLQWTLLLSLLAFVCGGLIGLLLLTARIAPQPALRGFARIYIEVFQGTPLLMQLFLVFFGVALLGIDVSPWLAAALSLTLFTSAFLAEIWRGCVEAIPRGQWEASASLALNRFEQLRYVILPQALRIAVPPTVGFSVQVVKGTAVTSIIGFAELTKTGGMLANATFKPFLVYGLVAVGYFLLCYPLSLSARYLERRLHVTA	PGPT0020795_11092	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
BMS010_07863	666	yecS_10	COG0765	L-cystine transport system permease protein YecS	ATGGCTTACCAGTTCGATTTCGCCCCGGTGCTGCAACAGGCCGACCTGTTGTTGCGCGGGGCCTGGTTCACCCTGGAACTGACGGTGCTCGGCACCCTGTTCGGCGTCGGTCTCGGCGTGGTCGGCGCTGTGCTGCGTGCCTGGCGCATCCGGCCCTTCGACCGACTGTTCGGCGTGTATGTCGAGCTGATCCGCAACACGCCGTTCCTGGTCCAACTGTTCTTCATTTTCTTCGGCCTGCCGTCCCTGGGCATTCGCCTGAGCGAATGGCAGGCAGCGGTGCTGGCGATGGTGGTGAATCTCGGCGCCTACTCCACCGAGATCATCCGTGCCGGCATCCAGGCGATTCCCCGTGGCCAGTTGGAGGCGGCCGCCGCCCTGGCGATGAACCGCCTCGAGGCGTTCCGCTACGTGGTCCTGCGCCCGGCCCTGGCCACCGTATGGCCGGCGCTGTCGAGCCAGATCGTGATCGTCATGCTGGGTTCGGCGGTGTGCTCGCAGATTGCCGCGGAAGAACTCAGCTTCGCCGCCAACTTCATCCAATCGCGTAATTTTCGCGCCTTCGAGACCTACCTGCTGACCACCCTGCTCTACCTGTCGATGGCCTTGCTGCTGCGCCAGGTGCTGGCCTGGGCCGGACGGCGCTTCGTCGTGAGGAGAGGCTGA	MAYQFDFAPVLQQADLLLRGAWFTLELTVLGTLFGVGLGVVGAVLRAWRIRPFDRLFGVYVELIRNTPFLVQLFFIFFGLPSLGIRLSEWQAAVLAMVVNLGAYSTEIIRAGIQAIPRGQLEAAAALAMNRLEAFRYVVLRPALATVWPALSSQIVIVMLGSAVCSQIAAEELSFAANFIQSRNFRAFETYLLTTLLYLSMALLLRQVLAWAGRRFVVRRG	PGPT0020795_8620	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
BMS010_07864	786	glnH_2	COG0834	ABC transporter glutamine-binding protein GlnH	ATGCTGAAAATCCGCAAAACCCTGTTCGCCGCCCTGCTGGTCACTCTGGGCCTCGGCCAGGCGCCGGCTCACGCCGATGCGCTGTCCGACGTGATCGAGCGCGGTGTGCTGAAAGTCGCCGTCCCGCAGGACTTCCCGCCGTTCGGCTCGGTCGGCCCGGACCTCAAGCCGCGCGGCCTGGACATCGACACCGCGCAACTGATCGCCGACAGGCTCAAGGTCAAGCTCGAACTGACCCCGGTGAACAGCACCAACCGCATCCCCTTCCTCACCACCGGCAAGGTGGACCTGGTGATCTCCAGCCTCGGCAAGAACCCGGAGCGTGAGCAGGTGATCGATTTCAGCGCTGCCTATGCGCCCTTCTATCTCGGTGTGTTCGGCCCGGAAGACGCCGAGCTGAAGGACATCGCCGATCTCGCCGGCAAGACCGTCAGCGTCACCCGCGGATCGGTGGAAGACATCGAGCTGTCCAAGGTCGCCCCGCAAGACGCCACCATCAAACGCTTCGAGGACAACAACTCGACCATCGCCGCCTACCTTTCCGGCCAGGTCGACCTGATCGCCAGCGGCAACGTGGTGATGGCCGCCATCGCCGAGCGCAACCCGGCGCGAGTGCCAGTGATGAAGCTGAACCTGAAGAACTCGCCCGCTTACATCGGCCTGAACAAGGGCCAGCCGGGACTGCAGGCCAGGCTCAACGAAATCCTCGCCACCGCCAAGACCGACGGCAGCCTCAACGACATCGCCGAGAAATGGCTGAAGCAGCCGCTGCCGACCGACCTCTGA	MLKIRKTLFAALLVTLGLGQAPAHADALSDVIERGVLKVAVPQDFPPFGSVGPDLKPRGLDIDTAQLIADRLKVKLELTPVNSTNRIPFLTTGKVDLVISSLGKNPEREQVIDFSAAYAPFYLGVFGPEDAELKDIADLAGKTVSVTRGSVEDIELSKVAPQDATIKRFEDNNSTIAAYLSGQVDLIASGNVVMAAIAERNPARVPVMKLNLKNSPAYIGLNKGQPGLQARLNEILATAKTDGSLNDIAEKWLKQPLPTDL	PGPT0020800_11755	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_07865	708	glcC_2	COG2186	Glc operon transcriptional activator	ATGCTGCCGACCGCCCCCCGTGCCGTACCCGCCTACGCGCTGCATGCGATCCGCAAGCTGATCGACGAAGGCGGCTACCGTGCCGGGGATGCACTGCCTTCCCAGCGCGAACTGGCGGAGCGACTGGGCGTCAGCCGGGCTTCGTTGCGTGAGGCGTTGTCTTCCCTCAGTGCCCTGGGGGTGATCAGCGTCCAGCCTGGAAAGGGCGTATTCGTTCAAGGGCAGGAGGCGCGCCGCGACGTCTCCGGTGGTTTCACCTGGCCGTTCGCCGAGCGGATATCCGCAGCCGATACCTTCCAGTTGCGCTTCGCCCTGGAGGGCTTCGCCGCCGGGCTTGCCGCGTTCGCCCTGACCGCCGATGACCTGGATACCCTGGAAGACAATGTCGAGGCGATGCGCCTGGAGTTGCGCGGAGGGGATTTCGAAAAGGCGGCGCAACTGGATTTCGCCTTTCACCGGCAGATTCTCCAGGCCGGCGGCAATCAGGCGATCCTCGGGATCGTCACCGCCAGTGAAGAGATTTTCCTGGAAAGCCAGAAACTGCCGTTCATTCGCCCGGAGCGGGCAATGGAGACCTGGCAGGAGCACCGCAAAATCCTGCGTGGACTGGCACGGCACGCCGCGGGCACGGCACGCAAGGCCATGGAAGAGCACATCCGTGCCGCGGCGCTGCGTACCGGGATCGCGTTTGGCACCCTGGGAAACTGA	MLPTAPRAVPAYALHAIRKLIDEGGYRAGDALPSQRELAERLGVSRASLREALSSLSALGVISVQPGKGVFVQGQEARRDVSGGFTWPFAERISAADTFQLRFALEGFAAGLAAFALTADDLDTLEDNVEAMRLELRGGDFEKAAQLDFAFHRQILQAGGNQAILGIVTASEEIFLESQKLPFIRPERAMETWQEHRKILRGLARHAAGTARKAMEEHIRAAALRTGIAFGTLGN				NA	NA	NA	NA	NA
BMS010_07866	327	trxA	COG0526	Thioredoxin 1	ATGAGCGAATTCATCACCAACGTCAGCGACGCCAGCTTCGAGCAGGACGTGCTCAAGGCCGATGGTCCGGTGCTGGTCGACTACTGGGCTGAGTGGTGTGGCCCGTGCAAGATGATCGCCCCGGTCCTGGACGAAATCGCCAAGGACTACCAGGGCAAACTGAAGGTCTGCAAGCTGAACATCGACGAGAACCAGGAAACCCCGCCGAAGTACGGCGTGCGCGGTATCCCGACGCTGATGCTGTTCAAGAGCGGCAACGTCGAAGCCACCAAGGTGGGCGCCCTGTCCAAGTCCCAGTTGGCCGCCTTCCTCGACAGCAACATCTGA	MSEFITNVSDASFEQDVLKADGPVLVDYWAEWCGPCKMIAPVLDEIAKDYQGKLKVCKLNIDENQETPPKYGVRGIPTLMLFKSGNVEATKVGALSKSQLAAFLDSNI	PGPT0013055_7101	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671	NA	NA
BMS010_07867	1230	intA_3	COG0582	Prophage integrase IntA	ATGCTGACCGATACCAAGCTGCGCAATCTCAAACCGAAGGACAAGCTCTACAAAGTGAATGACCGCGACGGCCTGTATGTGGCCGTCACGCCCGCTGGGTCGATCTCCTTCCGCTACAACTACTCGATCCACGGCAGGCAAGAGACCATCACATTCGGCCGCTACGGCGTCGGCGGCATCACCCTGGCGGAAGCCCGCGAGCGGCTGGGCGAAGCCAAGAAGATGATTGCGGCCGGGAAGTCGCCAGCCAAAGAGAAGGCGCGGGACAAGGCTCGCATCAAGGACGCGGAGACGTTCGGTGCTTGGGCCGAAAAGTGGCTGCGCGGCTATCAGATGGCCGATTCCACCCGCGACATGCGCCGTTCAGTCTTCGAGCGCGAGCTGAAGCCGAAATTCGGCAATCAGAAACTCGTGGAGATTACCCATGAGGACTTGCGAGCGCTGACCGATGCCATCGTGGAGCGGGGAGCGCCGGCGACGGCGGTACATGCTCGCGAGGTGGTGTTGCAGGTCTATCGTTGGGCTATCGAACGCGGCCAGAAGGTCGAGAACCCGGCCGATCTGGTGCGCCCGACGACTATCGCCAAGTTCGAGCCGCGTGACCGTGCGCTGACGCCCGATGAAATCGGCTTGATGTACCAGTACATGGACCGCATCGGCACAGCGCCATCCATCCGGGCAGCGGCCAAGCTGCTGTTGCTCACAATGGTGCGCAAGAGCGAACTGACCAACGCGACGTGGGGTGAGATCAATTTCAGTGAGGCGCTTTGGACGATCCCCAAGGAACGGATGAAGCGACGCAATCCGCACTTGGTGTTCCTGTCCAGGCAGGCTCTCGACATATTCATTGCCTTGAAAACCTTCGCCGGCGGATCAGACTATGTGCTGCCGTCGCGTTATGACTCGGACTTGCCAATGAGCAGCGCCACGCTCAACCAGGTGCTGACGCTGACGTACAGATTGGCACAGAAGGAAGGGAAGCCGCTCGCCAAGTTCGGACCACACGACTTGCGGCGCACGGCCAGCACGCTGCTCCATGAGGCGGGCTACAACACCGATTGGATCGAAAAGTGTCTCGCGCATGAGCAGAAGGGCGTACGAGCCATCTACAACAAAGCTGAATACCGCGAACAACGCACAGCTATGCTCCAGGATTGGGCGGACATGATTGACGAGTGGACGCTTAAGAAACCACGCGACGGAGTGATTTTGAGTTTCGTGGCGCGCTAA	MLTDTKLRNLKPKDKLYKVNDRDGLYVAVTPAGSISFRYNYSIHGRQETITFGRYGVGGITLAEARERLGEAKKMIAAGKSPAKEKARDKARIKDAETFGAWAEKWLRGYQMADSTRDMRRSVFERELKPKFGNQKLVEITHEDLRALTDAIVERGAPATAVHAREVVLQVYRWAIERGQKVENPADLVRPTTIAKFEPRDRALTPDEIGLMYQYMDRIGTAPSIRAAAKLLLLTMVRKSELTNATWGEINFSEALWTIPKERMKRRNPHLVFLSRQALDIFIALKTFAGGSDYVLPSRYDSDLPMSSATLNQVLTLTYRLAQKEGKPLAKFGPHDLRRTASTLLHEAGYNTDWIEKCLAHEQKGVRAIYNKAEYREQRTAMLQDWADMIDEWTLKKPRDGVILSFVAR				NA	NA	NA	NA	NA
BMS010_07868	1581	guaA_2	COG0518	GMP synthase [glutamine-hydrolyzing]	ATGGCCCATCCTGACATTCACGCTCATCGCATCCTGATTCTCGATTTCGGCTCCCAGTACACCCAGCTGATCGCCCGCCGTGTGCGTGAGATCGGCGTGTATTGCGAGCTGCATCCGTTCGATATGAGCAACGAGGACATCCGCGCCTTCGCGCCGAAAGGGATCATCCTGGCCGGCGGGCCCGAGTCGGTCCACCAGGCGGACAGTCCGCGTGCACCCGAGGCGGTCTTCGAGCTTGGCGTGCCGCTGTTCGGCATCTGCTATGGCATGCAGACCATGGCCGAACAGCTCGGTGGCAAGGTCGAAGGCTCCGATCTCCGTGAGTTCGGCTACGCCTGTGTCGATGTGGTCGGCAAGTCGCGCCTGCTCGATGGCATCGAAGATCACGTGGACGATGACGGCGTCTTCGGCCTGGACGTGTGGATGAGCCACGGCGACAAGGTCACCGAGATTCCCGCCGGTTTCCATATCCTGGCCAGCACGCCGAGCTGCGCCATCGCTGCAATGGCCGACGACAAGCGCGGCTACTACGGCGTGCAGTTCCACCCCGAAGTGACCCACACCAAGCAGGGTGGCCGTATCCTGTCGCGCTTCCTGCTGGATATCTGCGGCTGCGAAGCCCTGTGGACGCCGTCCAATATCGTCGAAGACGCCGTTGCCCAGGTGCGTGCCCAGGTCGGCAGCGCCAACGTGCTGCTCGGTCTGTCCGGCGGTGTCGATTCCTCCGTGGTTGCCGCGCTGTTGCACAAGGCGATCGGCGACCAGCTGACCTGCGTGTTCGTCGACAACGGCCTGTTGCGCCTGCACGAGGGTGACCAGGTCATGGCCATGTTCGCCGAGAACATGGGCGTGAAGGTGATCCGTGCGGACGCCGAAGCCCAGTTCCTCGCGAACCTCGAAGGCGAGGCCGATCCGGAGAAGAAGCGCAAGATCATCGGCCGCACCTTCATCGACGTGTTCGATGCCGAGGCGGCGAAGCTGCACAACATCAAGTTCCTCGCCCAGGGCACCATCTACCCGGACGTGATCGAGTCTGCCGGTGCCAAGACCGGCAAGGCCCACGTGATCAAGTCGCACCACAACGTCGGCGGCCTGCCCGAGGAGATGAACCTCAAACTGGTCGAGCCGCTTCGCGAGCTGTTCAAGGATGAGGTGCGCAAGATCGGCCTGGAGCTGGGGCTGCCCTACGACATGGTCTACCGTCATCCGTTCCCGGGCCCGGGCCTCGGGGTGCGCATCCTCGGCGAGGTGAAGAAGGAATACGCCGACCTGCTGCGTCGTGCCGACCACATCTTCATCGAAGAGCTGCGCAAGGCCGACTGGTACCACAAGGTCAGCCAGGCCTTCGTGGTGTTCCAGCCGGTGAAGTCGGTCGGGGTGGTCGGCGACGGTCGCCGTTATGCCTGGGTCGTGGCCCTGCGTGCCGTGGAAACCATCGACTTCATGACCGCGCGCTGGGCACACCTGCCCTACGAGCTGCTGGAGACCGTTTCCAACCGCATCATCAATGAAATCGAAGGCATTTCCCGCGTCACTTACGACGTGTCGAGCAAACCGCCGGCTACCATCGAGTGGGAATGA	MAHPDIHAHRILILDFGSQYTQLIARRVREIGVYCELHPFDMSNEDIRAFAPKGIILAGGPESVHQADSPRAPEAVFELGVPLFGICYGMQTMAEQLGGKVEGSDLREFGYACVDVVGKSRLLDGIEDHVDDDGVFGLDVWMSHGDKVTEIPAGFHILASTPSCAIAAMADDKRGYYGVQFHPEVTHTKQGGRILSRFLLDICGCEALWTPSNIVEDAVAQVRAQVGSANVLLGLSGGVDSSVVAALLHKAIGDQLTCVFVDNGLLRLHEGDQVMAMFAENMGVKVIRADAEAQFLANLEGEADPEKKRKIIGRTFIDVFDAEAAKLHNIKFLAQGTIYPDVIESAGAKTGKAHVIKSHHNVGGLPEEMNLKLVEPLRELFKDEVRKIGLELGLPYDMVYRHPFPGPGLGVRILGEVKKEYADLLRRADHIFIEELRKADWYHKVSQAFVVFQPVKSVGVVGDGRRYAWVVALRAVETIDFMTARWAHLPYELLETVSNRIINEIEGISRVTYDVSSKPPATIEWE	PGPT0021580_1495	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021580-guaA-K01951	NA	NA
BMS010_07869	1470	guaB_2	COG0516	Inosine-5'-monophosphate dehydrogenase	ATGCTGCGTATCAGTCAAGAAGCCCTGACCTTCGACGACGTTCTTCTGATTCCTGGATATTCCGAGGTCCTGCCCAAGGATGTCAGCCTCAAGACTCGCCTGACCCGTGGCATCGAGCTGAACATTCCCCTGGTGTCCGCCGCGATGGACACCGTGACCGAAGCCCGCCTCGCCATCGCGATGGCCCAGGAAGGCGGCATCGGCATCATCCACAAGAACATGACCATCGAGCAGCAGGCTGCCGAGGTGCGCAAGGTGAAGAAGTTCGAGGCAGGTGTGGTCAAGGACCCGATCACCATCGACGCCGACGCCACGGTGCGCGACCTGTTCGATCTGACCCGCCAGCACAACATCTCCGGCGTTCCGGTGCTGTCCAACGGTGACCTGGTCGGTATCGTGACTTCCCGCGACGTGCGTTTCGAGAATCGCCTGGACGCCAAGGTGAGCGAAGTGATGACGCCGAAAGAGCGTCTGGTCACCGTCCGCGAAGGCGCCGATAAAGAAGAAGTGCGCGCCCTGCTGCACAAGCATCGCATCGAGAAAGTCTTGATCGTCGACGAGGCTTTCAACCTGAAAGGCATGATGACCGTGAAGGACATCGAGAAGGCCAAGGCCTATCCGCTGGCGAGCAAGGACGACCAGGGCCGCCTGCGCGTCGGCGCCGCCGTCGGCACCGGTGCCGATACCGGCGACCGCGTCGCCGCGCTGGTCAACGCCGGTGTCGACGTGATCATCGTCGACACCGCCCATGGCCACTCCAAGGGCGTGATCGACCGCGTGCGCTGGGTCAAGCAGACCTTCCCCGAAGTACAGGTGATCGGCGGCAACATCGCCACCGGCGAGGCGGCGAAGGCGCTGGCCGAGGCCGGCGCGGATGCGGTCAAGGTCGGTATCGGTCCGGGCTCCATCTGCACCACCCGCATCGTCGCCGGTGTCGGCGTGCCGCAGATTTCCGCCATCGCCAACGTGGCCGCCGCTCTCCAGGGCACTGGCGTGCCGTTGATTGCCGACGGCGGCATCCGCTTCTCCGGCGACCTGTCCAAGGCCATCGTGGCGGGTGCCTCCTGCGTGATGATGGGCTCCATGTTCGCCGGCACCGAAGAGGCGCCGGGCGAGGTCGAGCTGTTCCAGGGTCGTTCCTACAAGGCCTATCGCGGCATGGGCTCGCTGGGTGCCATGGCGCAAAGCCAGGGCTCCTCCGACCGTTACTTCCAGGACTCCTCCGCCGGTGCCGAGAAGCTGGTGCCGGAAGGCATCGAAGGCCGCGTGCCTTACAAGGGCCCGCTGGCGGCGATCGTCCATCAGTTGATGGGTGGCCTGCGTGCCTCCATGGGCTACACCGGCAGCGCGACCGTCGAAGAGATGCGCACCAAGCCGCAGTTCGTGCGCATCACCGGCGCTGGCATGGCCGAGTCCCATGTCCACGACGTGCAGATCACCAAAGAGGCACCGAACTACCGGGTGGGCTAA	MLRISQEALTFDDVLLIPGYSEVLPKDVSLKTRLTRGIELNIPLVSAAMDTVTEARLAIAMAQEGGIGIIHKNMTIEQQAAEVRKVKKFEAGVVKDPITIDADATVRDLFDLTRQHNISGVPVLSNGDLVGIVTSRDVRFENRLDAKVSEVMTPKERLVTVREGADKEEVRALLHKHRIEKVLIVDEAFNLKGMMTVKDIEKAKAYPLASKDDQGRLRVGAAVGTGADTGDRVAALVNAGVDVIIVDTAHGHSKGVIDRVRWVKQTFPEVQVIGGNIATGEAAKALAEAGADAVKVGIGPGSICTTRIVAGVGVPQISAIANVAAALQGTGVPLIADGGIRFSGDLSKAIVAGASCVMMGSMFAGTEEAPGEVELFQGRSYKAYRGMGSLGAMAQSQGSSDRYFQDSSAGAEKLVPEGIEGRVPYKGPLAAIVHQLMGGLRASMGYTGSATVEEMRTKPQFVRITGAGMAESHVHDVQITKEAPNYRVG	PGPT0021445_2815	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021445-guaB-K00088	NA	NA
BMS010_07870	2103	cntO_1		Metal-pseudopaline receptor CntO	ATGCTTTCCTCCCCGCCCCGTCGCCACGGCCTCCGCTGGCGCAAGACCTTGTTCGCCCTCGCGCTGCTCAACCAGGCCGCACTGGCCGCCACGACAGAGGAACTCGAACTGCCCAGCCAGGACGTCACCGCCAGCCTCAAGAACGATGGATACCGCGCCAGCACGGCCAGCACCGCGAGCAAGAGCGAGATTCCGCTGCTGGAAGAAGCCCAGGCCGTGCAGGTGGTCACCGAGCAGACGCTCGAGGATTACCAGGCCCGCTCGCTGGACGATGCCATGAAGTTCGTCAGCGGCATCACCCAGAGCAACACACTGGCGAACACCCAGGACGGCTTCATCAAACGCGGCTTCGGCACCAATGCCGACGGCTCGATCCTGCGCGACGGTATCCGTTCCAGCCTGTCGCGCAACTTCAGCGCCACCACCGAGCGGGTGGAAGTGCTCAAGGGTCCGGCCTCGCTGCTCTACGGTGCGTTGGAGCCCGGCGGACTGATCAACGTCATCAGCAAGCGCCCCGAATACCAGTGGCGCAGCGAGATTTCCGGCGAGGCCAGCAACTTCGGCGGCGGCGGCGCCAGTATCGACGTCACTGGCCCACTGGCGGACAGCGGCCTGGCCTTCCGCATGATCGCCGAGCGCCAGCATGAAGATTACTGGCGTAATTTCGGTACCGACGAACACACCCTGGTCGCCCCCTCGCTGAGCTGGACCGGCGAGGACGTCCGCGTATTGTTGGCCTACGAGCGCAAGGAATATTCGACGCCGGTGGATCGCGGCACAGTGATCGTCAACGGCAAGCCGGCCAAGGTCTCTTACAACGACCGCTTCGGCGAAGCCTGGGCCAAAGCGGAAGGCACCGACGAACTCTTCACCGCGCGCGTCGAATACCAGTTGAACCCCGACTGGCTGAGCCGCCTGACCTACGGCTGGAACCGCGAGCGCTACGACTATGCCGAAGCCCGACCGGACAGCCTGCTGGCCGACGGCACGCTGCGCCGCCGCGCCGATGGCAGCGAGCACGACAACCAGACCCAGTCCCTGGCCTGGGACTGGATCGGCCAGGCCGAGCTGCTGGGCCAGCGCCACGATCTGTTGATCGGCGTCGATCAGGAGCGGGTCGACAACTTCCGCGGCGATACCTGGCGCGGTGCCCGCACCGCGGGCTTCAACATCTACGACCCGGTCTACGGCAACCTACCGGAACCCTCGGTGCTCAACCTGGCGCAGAGCGACCGACGCGACGAACTGCACTCCCAATCGCTGTACGCCAAGGACAACTGGCACCTGGACGACCGCTGGATTCTGGTGCTCGGCGGTCGCTACCAGCACTACGACCAGTACGTCAGCCAGGGCCGGGTGACGGAAATCCCGTCCACCGACAGCAACGGCGAAACCTTCCTGCCCTTCGCCGGACTGGTCTACCAAATGACGCCGAACCTGTCCCTGTACGGCAACTACAGCCGCTCGTTCGTCCCCAACAATGCCGACAGCTATACCAACCAGGCCTTCGATCCCGAAGAGGGTCGCAGCTACGAAGCCGGCCTCAAGTTTGACCTGCCGCAAGGGCTGGGCGCGACCCTGGCCGTGTTCGACATCCTGAAGAAGAACGTGGTGTCGGATTTCGGCGACCATGCCGAACTCTCCGGCGAAGTGGGCTCGCGTGGCGTGGAGCTGGATGTGACCGGCCGCCTCGGCGAACGCTGGGAACTGATCGGCACCTACGCCTACACAGATACGGAAATCCGCAAGCATCCGGAAAACGAAGGCAATCGGCTCGTCAACGCGGCCCGGAACATCGGCAGCCTCTACCTCACCCACCACCTGGCGCTACCGTCGGACCTGGGCCAATGGCGCATCGGCGGCGGCGCCCGCTACGTCGGCGAGCGCCCCGGCGACAACGCCAACAGCTTCTGGCTGGACAGCTATACCGTAGCCGACGCCTTCGTCGCCTGGGACAGCCGGTTGGTCGGCCACAAGACGCGTCTGCAGCTGAATCTGAACAACTTGTTCAACAAAGAGTACTACCCCTCCAGCGGCGGCAACCTGCGGGTGAACGTCGGCGAACCGCGCGAAGCCCGGCTTTCCGCCAGCATCGAGTTCTAA	MLSSPPRRHGLRWRKTLFALALLNQAALAATTEELELPSQDVTASLKNDGYRASTASTASKSEIPLLEEAQAVQVVTEQTLEDYQARSLDDAMKFVSGITQSNTLANTQDGFIKRGFGTNADGSILRDGIRSSLSRNFSATTERVEVLKGPASLLYGALEPGGLINVISKRPEYQWRSEISGEASNFGGGGASIDVTGPLADSGLAFRMIAERQHEDYWRNFGTDEHTLVAPSLSWTGEDVRVLLAYERKEYSTPVDRGTVIVNGKPAKVSYNDRFGEAWAKAEGTDELFTARVEYQLNPDWLSRLTYGWNRERYDYAEARPDSLLADGTLRRRADGSEHDNQTQSLAWDWIGQAELLGQRHDLLIGVDQERVDNFRGDTWRGARTAGFNIYDPVYGNLPEPSVLNLAQSDRRDELHSQSLYAKDNWHLDDRWILVLGGRYQHYDQYVSQGRVTEIPSTDSNGETFLPFAGLVYQMTPNLSLYGNYSRSFVPNNADSYTNQAFDPEEGRSYEAGLKFDLPQGLGATLAVFDILKKNVVSDFGDHAELSGEVGSRGVELDVTGRLGERWELIGTYAYTDTEIRKHPENEGNRLVNAARNIGSLYLTHHLALPSDLGQWRIGGGARYVGERPGDNANSFWLDSYTVADAFVAWDSRLVGHKTRLQLNLNNLFNKEYYPSSGGNLRVNVGEPREARLSASIEF	PGPT0003790_23864	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS010_07871	810	dhaA_2		Haloalkane dehalogenase	ATGGGCGAGTCCATCTTCGAGTTCGAGGGCCGAAAGGTCTACACCGAGACACATGGCGAGGGGCCGCCGCTGGTGGCAATCCACGGCACACCGTTCTCGTCGCGGGTTTGGCGGCGTGTGGTTCCGTACTTTCAGAAGCGGAGGCGCATTTATCTCTTCGATCTGCTGGGCTATGGGCGTTCTGCCATGCATCCCGGCGCCGACGTATCCCTGGGGGTGCAGAATCGTCTGCTGACGGCGTTGTTCGAGCATTGGCAATTGAGGGAGCCAGACGTCCTGGCGCATGACTTCGGCGGTGCGACTGCACTGCGTGGGCATCTGCTGGATGGACTGGACTATCGCAGCCTGACGCTGGTGGATCCGGTGGCGTTGTCGCCGTGGGGTTCGCCGTTCGTCCAGCATGTCAGGCGACATGAGGCTGCTTTCGCGGAGCTTCCGTCGTATATCCACGAAGCGATTATCGAGGCCTACCTGCAAGGCGCGGCGTGGCGTGAGTTGACGGAAGAGGCGCGGCGCTGCTACCGCGAACCGTGGCTGGGAGACGGGCAAGCCGCCTTCTACCGACAGATCGCCCAGATGGATCAATGCTATACGGACGAGATACGGCCTCTCTTGGGCAGTGTTCGCTGTCCGGTGACGATTCTCTGGGGGGAACGGGACCACTGGATTCCCATCGCGCGTGGACATGAGCTGCATGGCCTGATCCCAGGATCGGTCTTCATCCCGGTTGCCGAGGCCGGTCATCTGGTTCAAGAGGATGCGCCCGAAGCCATCGTCGCCGCCTTGGCACAGGTGCTGACGGATGTTTGA	MGESIFEFEGRKVYTETHGEGPPLVAIHGTPFSSRVWRRVVPYFQKRRRIYLFDLLGYGRSAMHPGADVSLGVQNRLLTALFEHWQLREPDVLAHDFGGATALRGHLLDGLDYRSLTLVDPVALSPWGSPFVQHVRRHEAAFAELPSYIHEAIIEAYLQGAAWRELTEEARRCYREPWLGDGQAAFYRQIAQMDQCYTDEIRPLLGSVRCPVTILWGERDHWIPIARGHELHGLIPGSVFIPVAEAGHLVQEDAPEAIVAALAQVLTDV				NA	NA	NA	NA	NA
BMS010_07872	570			hypothetical protein	ATGGCATCACATCCGTGGAGCGAACAGGATTTCATTGCGGGCAACCCTTGCCTCGACTTCATCAACACAGTGGGCGATACCGATAAGAACCGCATCCGGGAACGTCTGGTGGATGACCAGTCGTTGCTGACCTGGGCGCGATACAGTGGGATGGCCGGGCAGGAAGACAGAGTGCAACTCAGCGCGGATGCACTCCCCCGGGCCATCTCGCTACGTGAGCAGCTTTACTCGCTCTTCAGCGGGCTGGCTCGGCATACCCCCGCCGCTGGTGCATGGATCCAGCTCCGCAAAGAGCTGGCCGAGGCCGTCGCACATAGCGAGCTGAACACCAGCGATCCGGCGTCGATGCGCCTGGAAGGCGCGGATCTGTGCTCACGCATCGCGCTCGACGCATTGGCCTTGCTGCATAGCGGCCAACTGCATCGATTGAAGGAATGCGCACGCTGCACCTGGCTGTTCCTCGATCAATCCAAGGCCCAGCGCCGCCGCTGGTGCCGCACGGAGGCGTGCGGCAACCGCGCCCGGGTCGAGCGCCACTACCGCAAGCGGAGCGCAAGGGAACAGGACTGA	MASHPWSEQDFIAGNPCLDFINTVGDTDKNRIRERLVDDQSLLTWARYSGMAGQEDRVQLSADALPRAISLREQLYSLFSGLARHTPAAGAWIQLRKELAEAVAHSELNTSDPASMRLEGADLCSRIALDALALLHSGQLHRLKECARCTWLFLDQSKAQRRRWCRTEACGNRARVERHYRKRSAREQD				NA	NA	NA	NA	NA
BMS010_07873	1380	xseA_2	COG1570	Exodeoxyribonuclease 7 large subunit	ATGCTCAAGGACCCTTTCGAACGCCTCGGTCTCGACCGCGAGGTACTCACCGTCAGCCAGCTCAACGGCCGCGCCCGTGTTCTGCTGGAGGACGTATTCGCCCAGGTCTGGGTCGAAGGCGAGATATCCAACCTCGCCCGCCCGGCCTCCGGCCACATGTATTTCACCCTCAAGGACAGCCAGGCCCAGGTGCGTTGCGCGTTGTTCCGGCAGAACGCGTTGCGGGTGCGACAGGCCCTGCGCGACGGTCTGGCGGTGCGGGTTCGCGGCAAGGTCTCGCTGTTCGAGGGGCGCGGCGACTACCAACTGATCCTCGATAATGTCGAACCGGCCGGTGACGGCGCCTTGCGCCTGGCCTTCGAGGCGCTGAAGGAGAAGCTCGGCCAGGAAGGGCTGTTTGCAGCGGAGCGCAAGGTCCCGCTGCCAGCGCATCCACGCCGCATCGGCATCGTCAGCTCGCCTACCGGCGCGGTGATCCGCGACATCATCAGCGTGTTCCGGCGCCGCGCGCCGCAGGTGGAACTGACCCTGGTCCCCACCGCCGTGCAAGGCCGCGAGGCCACCGTGCAGATCGTCCGCGCCTTGCGCCTGGCCGATGCCCAGGGCTTCGATGCGCTGATCCTGGCCCGAGGTGGCGGCTCGTTGGAAGACCTCTGGTGCTTCAACGAAGAGGCCGTGGCCCGCGCCATCGATGCCTGCGTGACGCCCATCGTCAGCGCCGTGGGGCACGAGACGGACGTATCCATCGCCGATTTCGTCGCCGATGTGCGCGCGCCTACTCCCTCGGCCGCCGCCGAACTGCTCGCCCCGCATGCCGGCGACCTGCAACAGCGTCTGGAAGCCCTGCGCCGCCGCTTGCTGCACTGTACTCGCCAACGCTTGCAACACGAAGCCTTGCGCCTGGAGGGCCTGACCCGGCGCCTGCGTCACCCGGGCGAACGCCTGCTGCAGCAGTCGCAGCGCGTGGACGATCTCGAACAGCGCCTGGCGCGGGCCATCGACCGCAAACTGTGCGCCGCCCACGAACACTTGGCGCGCCTGGATACCCGCCTCGCTGCCCAGCACCCCGGGCGTCAGTTGAAGCTGCTGCGCCAGCGCCTCGATCATCTGTCCAGTTGCCTGCCCAAGGCGATGCGCGAGATTCTCCGCGAACGCCGCCAGCGCCTACAGGGCATGGCGCAAACCCTGAATATCGTCAGCCCGCTGGCAACTCTCGGCCGTGGCTACGCGATCCTCCTCGACGAGCAGGGCCGCGCCGTTCGCAGCGCCGGCCAGACCCATATCGGCCAACGCCTCAGCGCCCGCCTGGCCGAAGGCGAGCTGGAGGTACGGGTCGAGGACAACCACCTGGCACCCGTCACCCTGTCGCTGCTGGACTGA	MLKDPFERLGLDREVLTVSQLNGRARVLLEDVFAQVWVEGEISNLARPASGHMYFTLKDSQAQVRCALFRQNALRVRQALRDGLAVRVRGKVSLFEGRGDYQLILDNVEPAGDGALRLAFEALKEKLGQEGLFAAERKVPLPAHPRRIGIVSSPTGAVIRDIISVFRRRAPQVELTLVPTAVQGREATVQIVRALRLADAQGFDALILARGGGSLEDLWCFNEEAVARAIDACVTPIVSAVGHETDVSIADFVADVRAPTPSAAAELLAPHAGDLQQRLEALRRRLLHCTRQRLQHEALRLEGLTRRLRHPGERLLQQSQRVDDLEQRLARAIDRKLCAAHEHLARLDTRLAAQHPGRQLKLLRQRLDHLSSCLPKAMREILRERRQRLQGMAQTLNIVSPLATLGRGYAILLDEQGRAVRSAGQTHIGQRLSARLAEGELEVRVEDNHLAPVTLSLLD				NA	NA	NA	NA	NA
BMS010_07874	765	ddpX		D-alanyl-D-alanine dipeptidase	ATGCTCAACCTCGAACGCCCCATCCCACCCCAGACCGACCCCGACTGGGATGCCATCGCCGCCATTCCCATCGCCGAATGTGGCGAACCCATGATGGCCTTCGGTCTGGCGCAGAATTTCCTGGTCTATCCGGCCTACTACAAACAGGACATCCGCAACGCCCTGCCGGAATGCCACGGACGCACCGGCGTGTTCGAACGCCTGCTCACCGCAGCAAGCCTGCTGCCGGAAGGCGTGCGTCTGGTCGTACTGGATGCCTGGCGGCCTTTCGCAGTGCAGCAATACCTTTACGAAAGCCTCCTGGATGCCGTTACCGCACGCTATCCGCAGCTCGACGACAGGCGCCGGCAGCAGTTGACCCGCCAGTTCGTCTCGCCGCCCGACAACAGCCGCAACGCCCCCAGCCCCCATCTCACCGGCGGTGCCGTGGACGTCACTCTCTGCGACCGCCACGGCCGCTGGCTGGACATGGGTACCGGCTTCGACGAAGCCAGCCCGCGCTCGTCCACCACCGCCTTCGAGCAACTGGAACAGCCCACCCCCGAGCAGGAGCAGGTGCGCCGCCATCGGCGCTGGCTCTACAACGCCATGATCGAGGCCGGCTTCAGCAACCTGTCCAGCGAGTGGTGGCACTACGATTTCGGCGATCAGCTGTGGGCGTGGCACAGCGGAGCGCAGGCGGCGCTTTACGGCCCCACCCAGGTCCACAGCCTGGAGAGCCTCTGGCACCGGCAACTGGCCGAGCAGACCATCGATCCCACGTGA	MLNLERPIPPQTDPDWDAIAAIPIAECGEPMMAFGLAQNFLVYPAYYKQDIRNALPECHGRTGVFERLLTAASLLPEGVRLVVLDAWRPFAVQQYLYESLLDAVTARYPQLDDRRRQQLTRQFVSPPDNSRNAPSPHLTGGAVDVTLCDRHGRWLDMGTGFDEASPRSSTTAFEQLEQPTPEQEQVRRHRRWLYNAMIEAGFSNLSSEWWHYDFGDQLWAWHSGAQAALYGPTQVHSLESLWHRQLAEQTIDPT	PGPT0024190_269	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-GLYCOPEPTIDE_RESISTANCE,PGPT0024190-vanX-K08641	NA	NA
BMS010_07875	825			hypothetical protein	ATGCCGCGCCTGCTGTTCAGCTTCCTTGCCCTGCTCCTTGCTTTTCCTGTCCATGCCGAGGGCTTCATCACCCGGCTACTGAACAAGCCGGTGCCCGGTGGCGTGGCGGTGGTCGAGCTCGGCCAGGGCGAACAGACACCCCAGGCCCGCTACCAGGGCAAGCCGGTACTGGTGGTGAAGGAAGACGGCGCTCGGTGGATAGCTATCGTCGGCATTCCGCTCACGGTCAAACCCGGCGACCAGTATGTCGAGAGCGGCGGCCAACGCGTGCCCTTCGTCGTCGCTGGCAAGCACTACCGCGAACAGCGCATCACCCTAAAGAACCAGGAACAGGTCAGCCCCAGCCCGACCAATCTGAAACGCATCGAGCGCGAACTGGCGGAGCAGACCCGCGCCTACCAGCAATTCAGTCCGCGCCAGCCGAGCAACCTGCTGTTCGACAAACCCGTCGGTGGGCCGCTATCCAGCCCCTTCGGCCTGCGCCGCTTCTTCAACGATCAGGAGCGCAACCCGCATTCCGGACTGGACTTCGCCGTCCCGGCCGGTACGCCGGTCAAGGCACCGGCGGCGGGCCGGGTGATTCTGGTGGGCGACTATTTCTTCAATGGCAAGACCGTGTTCGTCGACCATGGCCAGGGCTTGATCAGCATGTTCTGCCACCTGTCCCGGATCGACGTCACCGTTGGCCAGGAACTGCCCCGCGGCGGCGTGCTGGGCCGGGTCGGCGCCACTGGCCGGGCCACGGGGCCGCACCTGCATTGGAATGTCAGCCTCAACGACGCCCGCGTGGACCCGGCGATATTCATCGGTGCGTTCAAGCCCTGA	MPRLLFSFLALLLAFPVHAEGFITRLLNKPVPGGVAVVELGQGEQTPQARYQGKPVLVVKEDGARWIAIVGIPLTVKPGDQYVESGGQRVPFVVAGKHYREQRITLKNQEQVSPSPTNLKRIERELAEQTRAYQQFSPRQPSNLLFDKPVGGPLSSPFGLRRFFNDQERNPHSGLDFAVPAGTPVKAPAAGRVILVGDYFFNGKTVFVDHGQGLISMFCHLSRIDVTVGQELPRGGVLGRVGATGRATGPHLHWNVSLNDARVDPAIFIGAFKP				NA	NA	NA	NA	NA
BMS010_07876	1671	leuA_2	COG0119	2-isopropylmalate synthase	ATGCCCATGCTCAAAGACCCGTCGAAGAAATACCGCGCTTTCGTCCCCATCGACCTGCCGGACCGCACCTGGCCGTCGAAGACCATCACCGAAGTGCCGATCTGGTGCAGCTCCGACCTGCGCGATGGCAACCAGTCGCTGATCGAGCCGATGGATGCGGAGAAGAAGATGCGCTTCTTCAAGACTCTGGTTCAGGTCGGCATCAAGCAGATCGAGGTGGGTTTCCCCTCGGCCTCGCAGACCGATTTCGACTTCGTTCGCACCCTGATCGAAGACGGCCATATTCCCGACGACACCACCATCCAAGTCCTGACCCAGGCCCGCGAAGACCTGATCACCCGGACCTTCGAGTCGCTCGTCGGGGCGAAGAAAGCCATCGTCCACGTCTACAACGCAACGGCCCCCTCGTTTCGCCGCATCGTCTTCAACCAGGACAAGGCCGGCGTGGTGAACATCGCGGTGAACGCCGCGCGCATCATCAAGGAACTGGCCGCCCGCCAGCCGGAGACCCAGTGGACCTTCCAGTATTCACCGGAAATCTTCACCTCCACCGAGCTGGAATTCGCCGTGGAGGTCTGCGACGCGGTGCTGGACGTGTGGCAACCGACGCCGGACAACAAGGCCATCCTCAACCTGCCGGCCACGGTCGAAGTGGCCACGCCGAACGTCTATGCCGACCAGATCGAGTGGTTCTGCCGCCATATCAGCCGTCGCAATTCGGTGATCATCAGCCTGCATACCCATAACGATCGTGGCACCGGCGTGGCCGCCAGCGAACTGGGCCTGATGGCCGGCGCCGACCGCGTCGAAGGCTGCCTGTTCGGCAATGGCGAGCGCACCGGCAACGTCGACCTGGTGAACCTGGCGCTGAACCTCTACACCCAGGGCATCCATCCAGGGCTCGACTTCTCCGACATCGATGCAGTGCGCAAAGTGGTCGAGGAATGCAACCAGATTCCGGTGCATCCGCGTCATCCCTACGTGGGCGATCTGGTACATACCGCGTTTTCCGGCTCGCACCAGGACGCTATCCGCAAAGGCTTCGCCCAGCAGCAGGAAGATGCGCTCTGGGAGGTCCCCTACCTGCCCATCGACCCGGCCGATATCGGTCGTAGCTACGAGGCCGTGATCCGGGTGAACAGCCAGTCCGGCAAGGGCGGCATCACCTACCTGCTGGAGCAGGAGTACGGCATCAGCCTGCCGCGCCGCCTGCAAATCGAGTTCAGCCAAGTGGTGCAGAAGGAAACCGACCGCCTGGGCCTGGAAATGACTGCCCAACAGATCCACACCCTGCTGGACACCGAATACCTGCAAGCTAACTCGCCCTATGCGCTGAAGGGTCATCGTCTGCAGGAAGAAAACGGCACCAGCGCCGTGGACGTGGAGGTTCAGGTCAACGGCGAAACCCAGCACTGGCGCGGCATCGGCAAGGGCCCACTGGAAGCCTTGGTGGCCGGCCTGCCGGTTTCCGTGGAAATCATGGACTACTCCGAACACGCCATCGGCGCCGGCACCAACGCCAAGGCAGCGGCCTACATTGAACTGCGCGTCAACGGCGGCCGGGCTCTGCACGGTATCGGCATCGACGAAAACCTGACCACCGCCAGCTTCCGCGCACTGTTCAGCGCCCTGAACCGGGCGCTGCGCCAGGAACAGGTGCAAGCAGCCTGA	MPMLKDPSKKYRAFVPIDLPDRTWPSKTITEVPIWCSSDLRDGNQSLIEPMDAEKKMRFFKTLVQVGIKQIEVGFPSASQTDFDFVRTLIEDGHIPDDTTIQVLTQAREDLITRTFESLVGAKKAIVHVYNATAPSFRRIVFNQDKAGVVNIAVNAARIIKELAARQPETQWTFQYSPEIFTSTELEFAVEVCDAVLDVWQPTPDNKAILNLPATVEVATPNVYADQIEWFCRHISRRNSVIISLHTHNDRGTGVAASELGLMAGADRVEGCLFGNGERTGNVDLVNLALNLYTQGIHPGLDFSDIDAVRKVVEECNQIPVHPRHPYVGDLVHTAFSGSHQDAIRKGFAQQQEDALWEVPYLPIDPADIGRSYEAVIRVNSQSGKGGITYLLEQEYGISLPRRLQIEFSQVVQKETDRLGLEMTAQQIHTLLDTEYLQANSPYALKGHRLQEENGTSAVDVEVQVNGETQHWRGIGKGPLEALVAGLPVSVEIMDYSEHAIGAGTNAKAAAYIELRVNGGRALHGIGIDENLTTASFRALFSALNRALRQEQVQAA				NA	NA	NA	NA	NA
BMS010_07877	453			hypothetical protein	ATGGACGCAGAGAATCCCTTCCGTACCCCTTCGGCCGACCTGACCGGCACGGTGACAACCGATGGCAAGCTCTACAGTCTGGGCGCCGTGGCATTGGGGACGTTCTTCGGCACCCCCATCGCAGGGGCTTACTTCATCGTCCAGAACCTCAAGCAACTGGGGCGTTCCGCCGAGACCACCCAGGCTTGGGCGATGGGCGTGGGTGTCTTTGTCGCGTTGTTGGCGCTCAGCTTTTTCCTGCCGGAATCGATGCCGGCCACACCGATCACGGCCATCCAGGTGGCTGGCATGTACTTCTATGCCAAACAGTTGATGGAGAAAGACGTGAATACCCACCGGGCGGTGGGTGGCTTGTTCTTCTCCAATTGGCGAGCGGTGGGAATTGGCTTGCTTTTCCTGATGGCGTTGCTGGTGGCCGCCGTGCCGCTGGTCATGCTGCTGATGGAAGGCTGA	MDAENPFRTPSADLTGTVTTDGKLYSLGAVALGTFFGTPIAGAYFIVQNLKQLGRSAETTQAWAMGVGVFVALLALSFFLPESMPATPITAIQVAGMYFYAKQLMEKDVNTHRAVGGLFFSNWRAVGIGLLFLMALLVAAVPLVMLLMEG				NA	NA	NA	NA	NA
BMS010_07878	792	yafV		Omega-amidase YafV	ATGCGCAATCTGAACGAGTTGCCCGATCTGAATCTGGCCCTGGTGCAGACTGATCTGGTCTGGCAGGACCCGGCAGCGAACCGTGCGAAGCTCGAGCTTCTCTTGGAGCAGGCGCGTGGTGCCGATCTCATTGTGCTGCCGGAGATGTTCAGCACCGGTTTTTCCATGGAGTCCGAGCGGCTCGCCGAGCCGGAGCAGGGGCCGACCAGCGCCTGGCTCCTGCAACAGGCGGCACGGCTGAATGCGACGATCACCGGCAGCCTGATCGTCCAGGCCAGCGACGGCAGCCATCGCAATCGTCTGCTCTGGGCGCGTCCGGATGGCGAGATGCTGCATTACGATAAGCGTCACCTGTTCCGTATGGCCGGGGAGCACAAGCACTACACCGCCGGCGAGCGGCAGGTGGAGATGGAATGTAACGGCTGGCGGGTGCGTCCGCTGGTCTGCTACGACCTGCGCTTCCCGGTCTGGAGCTATGACCCGCACGACACCGACCTGCTGCTCTACACTGCCAACTGGCCGGCCGCGCGCTGCCATCACTGGAATCGACTGCTGCCGGCGCGGGCCATCGAGAACCTGTGCTTCGTTGCAGCGGTGAACCGAATAGGCATCGACGGCAAAGGCCATCCCTACAGCGGCGACAGCCAAGTGCTGGATTACCAAGGCGAAACCCTGCTGGATGCCGGTGACCGTGACGGGGTATTCGCGGTCCGCCTGGAGGCTGCTGGACTGGCTGCCTACCGGGAACGTTTTCCGGCGTACTTGGATGCCGACATTTTCGAGTTAATCTGA	MRNLNELPDLNLALVQTDLVWQDPAANRAKLELLLEQARGADLIVLPEMFSTGFSMESERLAEPEQGPTSAWLLQQAARLNATITGSLIVQASDGSHRNRLLWARPDGEMLHYDKRHLFRMAGEHKHYTAGERQVEMECNGWRVRPLVCYDLRFPVWSYDPHDTDLLLYTANWPAARCHHWNRLLPARAIENLCFVAAVNRIGIDGKGHPYSGDSQVLDYQGETLLDAGDRDGVFAVRLEAAGLAAYRERFPAYLDADIFELI				NA	NA	NA	NA	NA
BMS010_07879	1149	ybdL	COG0436	Methionine aminotransferase	ATGATCGAAAGCAAACTGCCGAACGTCGGCACCACCATCTTTACCCGGATGTCCCAGCTCGCTGCGGAAACTGGCGCGCTGAACCTGTCCCAGGGTTTTCCCGATTTCGATGGCCCCGCCGCCTTGCGCGAGGCGGTCGGCCGGCATATTGCCGCAGGCCATAATCAATACGCGCCGATGACCGGACTACCGGCCTTGCGCGAGCAGGTCGCGGCGAAGATCGCGCTCTGCTATGGCCAGACGGTCAGCGCCGACAGCGAAATCACCATCACACCCGGCGCGACCCAGGCGATTTTCTGCGCGATCCAAGCGGTGATCCGCCCTGGCGACGAAGTCATCGTCTTCGATCCCTGCTACGACAGTTACGAGCCCTCGGTGGAGCTGGCCGGCGGTCGCTGCGTGCATGTTCCGCTGGCATTGCCGATGTTCGACATCGACTGGCAGCGTTTCAGCGATGCGCTCAACCCGCGCACGCGCATGGTGATCCTGAACAGCCCGCACAACCCCAGCGGCGCGTTGATTTCCCGCGAGGCGCTGGACCGGCTGGCCGAGTTCATCCGTGACCGCGATATCTATCTGGTCAGCGACGAGGTCTACGAGCACTTGGTGTTCGATGGCCAGCGGCATGCCAGCGTCCTGGCTCATGCCGAGCTCTATCAACGTGCTTTCGTGGTCAGCTCTTTCGGCAAGACCTACCATGTCACTGGCTGGAAGACCGGTTACGTGGTGGCGCCCCCGGCCCTGACGGCCGAGTTGCGCAAGGTGCACCAGTACGTCAGTTTTTGCGGCGTGACGCCGCTGCAGTGGGCGCTGGCCGACTTCATGCTGGAGCACCCCGAGCATATCGCCGAGCTGCCGGCGTTCTACCAAAGCAAACGTGACCTGTTCTGCGACCTGCTGGCCGGCTCGCGCTTTCGCTTCACCCGAGCTGCCGGTACCTATTTCCAACTGGTCGATTATTCCGAAATACGGCCGGACCTCGACGATCTGGCGATGGCTGAATGGCTGACTCGTGAGCATGGGGTCGCCGCCATCCCGGTGTCGGTGTTCTACCAGACCCCGCCGAAGGACCTGCGCCTGGTGCGTTTCTGCTTTGCCAAGCGTGAGGAAACCCTCGGACAGGCAGCGGAGAAACTATGCGCAATCTGA	MIESKLPNVGTTIFTRMSQLAAETGALNLSQGFPDFDGPAALREAVGRHIAAGHNQYAPMTGLPALREQVAAKIALCYGQTVSADSEITITPGATQAIFCAIQAVIRPGDEVIVFDPCYDSYEPSVELAGGRCVHVPLALPMFDIDWQRFSDALNPRTRMVILNSPHNPSGALISREALDRLAEFIRDRDIYLVSDEVYEHLVFDGQRHASVLAHAELYQRAFVVSSFGKTYHVTGWKTGYVVAPPALTAELRKVHQYVSFCGVTPLQWALADFMLEHPEHIAELPAFYQSKRDLFCDLLAGSRFRFTRAAGTYFQLVDYSEIRPDLDDLAMAEWLTREHGVAAIPVSVFYQTPPKDLRLVRFCFAKREETLGQAAEKLCAI	PGPT0020025_90	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020025-ybdL-K14287	NA	NA
BMS010_07880	1479	der_2	COG1160	GTPase Der	ATGGTTCCCGTAATCGCCCTGGTGGGCCGCCCGAACGTCGGCAAGTCGACACTGTTCAACCGCCTTACCAAGTCCCGCGATGCCATCGTTGGCGATCTTTCCGGCCTGACCCGCGATCGCCAGTACGGCGAGGCGCGCTGGCAGGGGCGTACCTTCATCGTCATCGACACCGGTGGTATTTCCGGCGACGAAGAGGGCATCGACGCGAAGATGGCCGAGCAGTCCCTGCAGGCCATCGAGGAAGCCGATGCGGTACTGTTCCTGGTGGACGCCCGCGCCGGCCTTTCCGCCGCCGACCAGATGATCGGCGAGCATCTACGCCGCAAGAACAAGCGCACCTTCCTGGTGGCGAACAAGGTCGACAACGTCGATCCGGACCTCGCCCGGGCCGAGTTCAGTCCCCTGGCACTCGGCGACGCCTTGCCTATCGCCGCGGCCCATGGGCGAGGCATCAGCGCTCTGCTGCAGGCGGCCCTTGGCGAATTTCCCAAGGACGCCGATGCGGAAGAGATCGAAGAGGCTGCGGCTGAGGATGTCGCGGAAGGCGAGGAAGCCAAGCGCATTCCGGGCCCGAGCGAGAAGGACGGCATCAAGATCGCCATCATCGGGCGGCCCAACGTCGGCAAGTCCACGTTGGTCAACCGCATGCTCGGCGAGGAGCGGGTGATCGTCTACGACCAAGCCGGCACGACCCGCGACAGCATCTACATTCCCTTCGAGCGCGACGAGGAAAAGTACACGCTGATCGACACCGCCGGCGTGCGCCGTCGCGGCAAGATTTTTGAGGCCGTGGAAAAGTTCTCGGTGGTGAAGACGCTCCAGGCCATCCAGGACGCCAACGTGGTGGTCTTCGTCATGGATGCCCGCGAAGGTGTGGTCGAGCACGACCTCAACCTGCTCGGCTTCGTTCTGGAGACCGGCCGGGCACTGGTCATTGCGCTGAACAAATGGGATGGCATGGAGCCCGGTCAGCGCGACTACGTGAAGACCGAGCTGGAGCGCCGGCTGTTCTTCGTCGATTTCGCCGACATCCACTTCATCTCGGCCTTGCACGGCACGGGCGTCGGCCATCTGTACAAGTCGGTGCAGGCCGCGTTCAAGTCGGCAATCACCCGCTGGCCCACCAGCCGCCTTACCCAGATCCTCGAAGATGCGGTGCAGGAACACCAGCCGCCGTTGGTCAACGGTCGGCGCATCAAGCTGCGCTATGCCCATCTGGGTGGCGCCAACCCGCCGCTGATCGTGATTCACGGCAATCAGGTCGAGGCCGTACCGAAGTCCTATACGCGCTACCTGGAAAATACCTATCGACGGGTTCTCCGGTTGGTCGGTACGCCGATCCGCATCGAGTACAAGGGCGGTGAAAACCCCTACGAGGGCAAGAAGAACACCCTCACCGACCGTCAGGTGAACAAGAAGCGCCGGCTGATGAGCCACCACAAGAAGCAAGAGAAGAAGCGCAAGGACAAGAGGAAATAG	MVPVIALVGRPNVGKSTLFNRLTKSRDAIVGDLSGLTRDRQYGEARWQGRTFIVIDTGGISGDEEGIDAKMAEQSLQAIEEADAVLFLVDARAGLSAADQMIGEHLRRKNKRTFLVANKVDNVDPDLARAEFSPLALGDALPIAAAHGRGISALLQAALGEFPKDADAEEIEEAAAEDVAEGEEAKRIPGPSEKDGIKIAIIGRPNVGKSTLVNRMLGEERVIVYDQAGTTRDSIYIPFERDEEKYTLIDTAGVRRRGKIFEAVEKFSVVKTLQAIQDANVVVFVMDAREGVVEHDLNLLGFVLETGRALVIALNKWDGMEPGQRDYVKTELERRLFFVDFADIHFISALHGTGVGHLYKSVQAAFKSAITRWPTSRLTQILEDAVQEHQPPLVNGRRIKLRYAHLGGANPPLIVIHGNQVEAVPKSYTRYLENTYRRVLRLVGTPIRIEYKGGENPYEGKKNTLTDRQVNKKRRLMSHHKKQEKKRKDKRK				NA	NA	NA	NA	NA
BMS010_07881	1152	bamB	COG1520	Outer membrane protein assembly factor BamB	ATGCCTGACGTGAAGCGCTGGAAATATGCCGTAGTGCTGACCCTGGCCGCCGTGGTGGTGGGTTGCAGCAGCAACAGCAAGAAGGAACTGCCGCCGGCCGAGCTGCCCAAGTTCGAAGAAGAAGTGCAATTGAAGAAGGAATGGAGCCGCTCGATCGGTGACGGCCAGGGCGAAACCTTCAACATGCTGGTGCCGGCGGTCGATGGCGATGTGATCTATGCGGCCGATGTCGAAGGCGTGGTCATGGCGCTGGACCGTTTCAGCGGCAAGGTGATTTGGAAGGAAGACCTGGAGTTGCCGGTATCCGGTGCCGTGGGTGCCGGCTACGGGATGGTCCTGCTGGGTACGCTGAAGGGTGAGGTGATCGCCCTGGATACCAGCAACGGCGAAGAGAAATGGCGTGCCCGTGTGACCAGCGAGGTGCTGGCCCCGCCGGCGACCAACGGCGACGTGGTCATCGTGCAGACTCAGGACGACCGTCTGATCGCTCTCGATGCCGATACCGGCAACCAGCGCTGGATCTACGAAAGCACTCCGGCGGTACTGACGCTTCGCGGTACCGGTGCCCCCATCGTGACCAACCGCCTGGCCATCGCCGGTCTTTCCACCGGCAAGGTGATCGCGTTGGATACCCAACGTGGCCTGCCGGTCTGGGAGCAACGCGTAGCCGTGCCTTCCGGCCGTTCCGAGCTGGATCGCGTGGTGGATATCGACGGCGGCTTGCTGCTGTCCGGCGGCACCCTGTATGTCGTGACCTACCAGGGCCGCGTCGCAGGTCTGGATGTGGAAAGCGGCCGGGTGCTCTGGCAGCGCGAGGCCTCCAGCTATGTCGGCGTGGCGCAGGGCTTCGGCAGCGTCTACGTCAGCCAGGCCAGCGGTACCGTCGAGGGCATCGACGAGCGTTCCTCGTCGGCGCTCTGGAGCAACGATCAACTGGCTCGCCGCCAACTGTCGGCACCGGAAGTGTTCTCCAGCTACGTAGCCGTCGGTGATCTGGAAGGTTACCTGCACCTGCTGAGTCAGGTGGATGGCCGCTTCGTCGGGCGTACTCGTATCGACAGCGACGGCCTGCGTGCACGCCCGCTGGTGGTTGGCGAATGGCTGTATGCCTATGGCAACGGGGGCGAGCTGGTCGGCCTGACCATTCGCTGA	MPDVKRWKYAVVLTLAAVVVGCSSNSKKELPPAELPKFEEEVQLKKEWSRSIGDGQGETFNMLVPAVDGDVIYAADVEGVVMALDRFSGKVIWKEDLELPVSGAVGAGYGMVLLGTLKGEVIALDTSNGEEKWRARVTSEVLAPPATNGDVVIVQTQDDRLIALDADTGNQRWIYESTPAVLTLRGTGAPIVTNRLAIAGLSTGKVIALDTQRGLPVWEQRVAVPSGRSELDRVVDIDGGLLLSGGTLYVVTYQGRVAGLDVESGRVLWQREASSYVGVAQGFGSVYVSQASGTVEGIDERSSSALWSNDQLARRQLSAPEVFSSYVAVGDLEGYLHLLSQVDGRFVGRTRIDSDGLRARPLVVGEWLYAYGNGGELVGLTIR				NA	NA	NA	NA	NA
BMS010_07882	645			hypothetical protein	GTGACCTCGCGTACCGAAGAAGAACAACTGGCGCTGATCAAGGAATGGTGGCAGCGCAACGGCATGCCCCTGTTGACCGGTGGCGCGCTGGCGCTGGTGATTGTGTTCGGCTGGCAGGGTTGGCAGAAATACCAGACCAACCAGGCGCAGGGCGCTTCCATGTTGTATCAGCAATTGCTGGAAACGGCCCTGACACCTAGCGGCCAGCCGGATGCGGGCAAGGTCAGCGAACTGGCCGGCAAGCTCAAGAGCGATTATGCCGGCACTCAGTACGCCCAGTACGGCAGCCTCTTCGTCGCCAAGGTGGCGGTCGAAGCGGGCAAGCTGGACGATGCCGCCGCTGAGCTGCGTGCCATTGTCGACAAGCCGGCCGATGCCACCCTCGGCGAACTGGCGCGTCAGCGCCTGGCCCGTGTGCTGGCGGCCCAGGGCAAGGCCGAAGAGGCGCTCAAGCTGCTCGAAGGCGATGCCGACAAGGCCTACCTGGCGAGCCGTGAAGAAGTTCGTGGCGACCTGCTGGTCCAGCTCGGCCGTGCCGATGAAGCCCATGCCGCCTACGAGAAGGCCAAGGCTGCGCTCTCCGACGACGCGGCGGTGGGCAGCCTGCAGATGAAGCTCGACGACCTGGCCAAAGGGGATGCCTGA	MTSRTEEEQLALIKEWWQRNGMPLLTGGALALVIVFGWQGWQKYQTNQAQGASMLYQQLLETALTPSGQPDAGKVSELAGKLKSDYAGTQYAQYGSLFVAKVAVEAGKLDDAAAELRAIVDKPADATLGELARQRLARVLAAQGKAEEALKLLEGDADKAYLASREEVRGDLLVQLGRADEAHAAYEKAKAALSDDAAVGSLQMKLDDLAKGDA				NA	NA	NA	NA	NA
BMS010_07883	1287	hisS_2	COG0124	Histidine--tRNA ligase	GTGAGCAAAACGCTGCAAGCCATCCGTGGCATGAACGACATCCTGCCGGAGCAAACTCCGGTTTGGCGCTACCTCGAGAACACCTTCGCACAGTTGCTGAATGGCTACGGCTACAAGGAAATCCGCCTGCCGATCCTCGAATTCACCGAGCTGTTCGCCCGTGGGATCGGCGAGGGCACCGATGTGGTCGACAAGGAGATGTATACCTTCCTCGACCGCAACGAAGAGTCCCTGACCCTGCGTCCCGAAGGCACGGCCGGTTGTGTGCGTGCGGTACTCGAACACGGCCTGACTGGTGGTGGCCAGGTCCAGAAGCTCTGGTATGCCGGCCCGATGTTCCGTTACGAAAAACCGCAGAAAGGCCGCTATCGCCAGTTCCACCAGATCGGCGTGGAGGTCTTCAACCAGCCGGGGCCTGATATCGATGCCGAACTGATCGTGCTGACCTGGCGTCTGTGGAAGAAGCTCGGCCTGGCCGATTCCGTCACTCTGCAGCTCAACAGCCTGGGCTCCAGCGAAGCCCGTGCGGCCTATCGGGACGCACTGGTGGCTTATCTGCGCGAGCGTTTCGACCAGCTCGACGAAGACAGCCAGCGCCGCCTGACCACCAATCCGCTGCGTATTCTCGACAGCAAGAATGTCCAGACCCAGGCGCTCCTCGCCGACGCGCCGACGCTGCATGACTACCTGGACGAGGAGTCGCGCGCGCATTTCGAAGGGCTCAAGGCCCGCCTCGATGCGGTCGGCATTCGCTACGAGATCAACCAGAAGCTGGTCCGCGGCCTGGATTACTACGGCCGTACCGTGTTCGAGTGGGTGACCGACAAGCTCGGTGCCCAGGGCACCGTCTGTGCCGGCGGCCGCTACGACGGCCTGGTCTCCCAGTTCGGCGGGAAGCCGACCCCTGGCGTCGGTTTCGCCATGGGCGTCGAGCGCCTGGTTCTGCTGCTGGAGACTCTGGAGCTGGTACCGGCGGAGCTGAACAGCCCGGCCCACGCCTACCTCTGCGCCTTCGGTGAGCCCGCCGAACTGGCTGCCCTGGCGCTGGCGGAGCGCCTGCGCGATGCCCTTCCAGGGCTGCGTCTGCTGGTCAATGCCGGCGGCGGCAGCTTCAAGAGCCAATTCAAGAAGGCCGACAAGAGCGGTGCGTCATATGCGCTGATTCTGGGCGACGACGAACTGGCCAATCGCGTGGTAGGGTGCAAACCGCTGCGTACCGACGGCGAACAACAGAACATTGCCTGGGATGCTCTTGCCGAGCACCTGGCTGCCTGCATGCAGGCTTGA	MSKTLQAIRGMNDILPEQTPVWRYLENTFAQLLNGYGYKEIRLPILEFTELFARGIGEGTDVVDKEMYTFLDRNEESLTLRPEGTAGCVRAVLEHGLTGGGQVQKLWYAGPMFRYEKPQKGRYRQFHQIGVEVFNQPGPDIDAELIVLTWRLWKKLGLADSVTLQLNSLGSSEARAAYRDALVAYLRERFDQLDEDSQRRLTTNPLRILDSKNVQTQALLADAPTLHDYLDEESRAHFEGLKARLDAVGIRYEINQKLVRGLDYYGRTVFEWVTDKLGAQGTVCAGGRYDGLVSQFGGKPTPGVGFAMGVERLVLLLETLELVPAELNSPAHAYLCAFGEPAELAALALAERLRDALPGLRLLVNAGGGSFKSQFKKADKSGASYALILGDDELANRVVGCKPLRTDGEQQNIAWDALAEHLAACMQA				NA	NA	NA	NA	NA
BMS010_07884	1113	ispG_1	COG0821	4-hydroxy-3-methylbut-2-en-1-yl diphosphate synthase (flavodoxin)	GTGCATTGCGAATCTCCCATCAAACGACGCCAGTCGCGCAAGATCTGGGTCGGTTCCGTGCCCGTGGGTGGCGATGCGCCCATCTCCGTACAGAGCATGACCAATACCGACACCTGCGATGTCGCCGCCACGGTAGCCCAGATTCGTCGTCTGGAAGATGCCGGCGCGGATATCGTTCGCGTTTCGGTGCCGGACATGGATGCTGCCGAGGCCTTCGGCAAGATCAAACAGCAGGTGCAGGTTCCGCTGGTGGCGGACATTCACTTCGATTACACCATCGCCTTGCGGGTCGCCGAGCTGGGCGTCGATTGCCTACGTATCAACCCGGGCAATATCGGTCGCGAAGACCGCGTCCGGGCCGTGGTCGATGCCGCCCGCGACAAGGGCATTCCGATCCGCATCGGCGTCAACGCCGGTTCGCTGGAGAAGGACCTGCAGAAGAAGTACGGCGAACCCACGCCGGCAGCGCTGGTGGAGTCCGCACTTCGCCATGTCGAGCACCTGGACCGCCTGGACTTCCAGGACTTCAAGGTCAGCGTGAAAGCCTCGGACGTGTTCATGGCGGTGGAAGCCTACCGTCTGCTCGCCAAGCAGATCGAGCAGCCCCTGCACCTGGGCATCACGGAAGCCGGTGGCTTGCGCTCCGGTACCGTCAAGTCGGCAGTGGGCCTGGGTATGCTGCTGGCCGAGGGGATCGGCGATACCATCCGTATATCCCTTGCCGCCGATCCGGTCGAAGAGATCAAGGTCGGCTTCGACATTCTCAAATCGCTGCACTTGCGTTCCCGTGGCATTAATTTCATCGCCTGTCCGAGCTGTTCGCGGCAGAACTTCGACGTGGTGAAAACCATGAACGAGCTGGAAGGGCGTCTCGACGACCTCCTGGTTCCGCTGGATGTGGCGGTGATCGGCTGCGTGGTGAACGGCCCCGGCGAAGCGAAGGAAGCGCATATCGGCCTGACCGGCGGTACGCCCAACAATCTGATCTACATCGACGGCAAGCCCGCACAGAAACTGACCAACGACAATCTGGTGGACGAGCTGGAAAAGCTGATCCGCCGGAAGGCGGCCGAAAAGGCCGAGGCCGACGCGACCCTGATCGCGCGCGGTTAA	MHCESPIKRRQSRKIWVGSVPVGGDAPISVQSMTNTDTCDVAATVAQIRRLEDAGADIVRVSVPDMDAAEAFGKIKQQVQVPLVADIHFDYTIALRVAELGVDCLRINPGNIGREDRVRAVVDAARDKGIPIRIGVNAGSLEKDLQKKYGEPTPAALVESALRHVEHLDRLDFQDFKVSVKASDVFMAVEAYRLLAKQIEQPLHLGITEAGGLRSGTVKSAVGLGMLLAEGIGDTIRISLAADPVEEIKVGFDILKSLHLRSRGINFIACPSCSRQNFDVVKTMNELEGRLDDLLVPLDVAVIGCVVNGPGEAKEAHIGLTGGTPNNLIYIDGKPAQKLTNDNLVDELEKLIRRKAAEKAEADATLIARG	PGPT0007580_3174	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007580-gcpE|ispG-K03526	NA	NA
BMS010_07885	996	rodZ	COG1426	Cytoskeleton protein RodZ	ATGAACGCGTCGCATCATGAAGCTGTAGCGGCGACTCGCGTCAATCCGGGCGAGACGCTGCGAAGAGCCCGCGAAAGCAAGAATTGGGAGCTGACCGACGTTGCCGCTCAGCTCAACCTGACTGCGCAGGCGCTGCGCCAGTTGGAAGACGGGGCTTTCGACCAGTTGCCGGGGCACACCTTCGCCCGCGGCTACATTCGCGCTTACGCCAAGCTGCTCGGCATGGACCAGACCCGGCTGGTGCAGGAGTTCGACCAGTACACGGGAACGGACGCCACGGGTAGTAGCGTGCACAGTCTCGGTCGTATCGAAGAGCCGGTTCGGCTATCCCAGAACCTGCTGCGCTTCGTCAGTTTCGCGCTGTTGGCGGTGTTAGCCGCCGTTGGCTTCTTCTGGTGGCAGGAGCAGTCTTCCAATCGGGGCGAGGAGCGCACCGGGCTTGGCATCGAGCATGTCGAGGTGGAAAGCGCCGACGGTACGACGCAGATTCATCCCCTGGATGAGCCTGAGGACCAGGCCGTAGCTGAGGCGAGCGGCAATCAGGCCGAATTGCCGTTGCCTTCCGTTTCGCCGGAAGTCGCCGGTCAGCCAGAAAGCGATGCCGAATCGTCCGCTCCGGGCGATGCCGCATCGGCTGGTGAGGCACCGTCGGTCCCGGCCGAGCCCGAGACCCCGGTCCAGCCTGAGAGCGTCACACCGCCTGCGGCACAGCCAGCGACGCCACCCACGGCTCCGGTAGTGGCTCAGCCGGGCGAGGGGGTGGTGCACATGCAGTTCACCGCCAATTGCTGGACCCAGGTCACCGACGCCAACGGCAAGGTGCTCTACAGCGGCCTGAAACATGCGGGTGAGAGCATGGAGGTCAGCGGCAAGGCACCCTTGAAACTGCATCTCGGCTATGCCCGCGGTGTACAGGTCAGCTTCAATGGCCAAACGGTCGATCTGGCACCGTATGTCCGCGGTGAAACTGCGCGCTTCACCTTGGGAGGGCAATAA	MNASHHEAVAATRVNPGETLRRARESKNWELTDVAAQLNLTAQALRQLEDGAFDQLPGHTFARGYIRAYAKLLGMDQTRLVQEFDQYTGTDATGSSVHSLGRIEEPVRLSQNLLRFVSFALLAVLAAVGFFWWQEQSSNRGEERTGLGIEHVEVESADGTTQIHPLDEPEDQAVAEASGNQAELPLPSVSPEVAGQPESDAESSAPGDAASAGEAPSVPAEPETPVQPESVTPPAAQPATPPTAPVVAQPGEGVVHMQFTANCWTQVTDANGKVLYSGLKHAGESMEVSGKAPLKLHLGYARGVQVSFNGQTVDLAPYVRGETARFTLGGQ				NA	NA	NA	NA	NA
BMS010_07886	762			hypothetical protein	ATGATCGTGCGCGCCGCGCTGCTTTCGTTTTTCACCGGCCTGTTCCTGACGGGCTGCGTTTCCTCCGGTAATGTCGACCGGATGAAGACCTCGGAGGGGCGTGAGCAAGCGCGCGATGCTTACATCCAATTGGGGCTCGGTTATCTCCAGCAAGGCCAAACCGAGCGAGCCAAGGTTCCATTGAAGAAAGCGCTCGAACTCGATTCCTCGAATGCCGATGCCTATGCGGCACTGGCCCTGGTGTTCCAGACCGAGATGGAGCCCAAGCTGGCCGACGAGAACTACCGCAAGGCGTTGTCCCTGCGCAGCGATGCACGGATTCTCAACAATTACGGCAGCTTCCTGTTCGAACAGCAGCGTTACAAGGAAGCCTACGAGCGCTTCCAGCAGGCCGCAGCGGACAATCTCTATCCCGAACGCTCGCGCGTCTACGAGAACCTCGGCCTTACCGCGTTGAAGCTGAACCAGCGTGCCTTGGCCAAGCAGCATCTGGAGAAATCCCTGCGCCTGAATCGCGAGCAGCCGCGTGCGCTGCTGGAGCTGGCCGTGTTGTCCTTCGAGGACAAAGAGTACGTACCGGCCCGTGGGTACTATGAGAGTTTCAGTCGTCTGTCCGAACAGAATGCCCGCAGCCTTCTGCTGGGTACCCGCCTGGCGACCATCTTCGACGATCGTGACAGGGCTGCCAGTCTCGGTCTGCAGTTGAAGCGCCTTTATCCCGGTACGCCGGAATATCAGCAATATCTGTCGGAGCAACAATGA	MIVRAALLSFFTGLFLTGCVSSGNVDRMKTSEGREQARDAYIQLGLGYLQQGQTERAKVPLKKALELDSSNADAYAALALVFQTEMEPKLADENYRKALSLRSDARILNNYGSFLFEQQRYKEAYERFQQAAADNLYPERSRVYENLGLTALKLNQRALAKQHLEKSLRLNREQPRALLELAVLSFEDKEYVPARGYYESFSRLSEQNARSLLLGTRLATIFDDRDRAASLGLQLKRLYPGTPEYQQYLSEQQ	PGPT0015935_769	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015935-pilF-K02656	NA	NA
BMS010_07887	1149	rlmN_3	COG0820	Dual-specificity RNA methyltransferase RlmN	ATGACTGAATCGACCGGAAAAGTGAATCTGCTGGGCCTGACCCAGCCTCAACTGGAGAGCTTCTTCGAATCCATCGGAGAGAAGCGCTTCCGTGCCGGTCAGGTGATGAAGTGGATTCACCACTTCGGCGTCGATGATTTCGACGCCATGAGCAATATTGGCAAGGCCCTGCGCGACAAGCTCAAGGCCTCTGCCGAGATTCGCGGTCCGGAGGTGGTCAGCCAGGACATTTCCAGCGATGGCACCCGCAAATGGGTGGTTCGCGTGGCGTCTGGTAGCTGCGTCGAGACCGTCTACATTCCCCAGGGAGGGCGCGGCACCCTGTGCGTGTCCTCCCAGGCTGGCTGTGCCTTGGACTGCAGCTTCTGCTCCACGGGCAAGCAGGGTTTCAACAGCGACCTCACTGCGGCGGAAGTGATCGGCCAGGTGTGGATCGCCAACAAGTCGTTCGGCACCGTGCCGGCGAAAATCGACCGTGCCATCACCAACGTGGTGATGATGGGCATGGGTGAGCCGCTGCTGAACTTCGACAACGTGGTCGCCGCCATGAACATCATGATGGACGACCTCGGATACGGGATTTCCAAACGGAAGGTGACCTTGTCCACCTCCGGCGTGGCGCCGATGATCGACAAGCTGGGGGAAGTGATCGATGTCTCCCTGGCGCTGTCGCTGCATGCGCCCAACGATGAATTGCGCAACAAGCTGGTACCGATCAACAAGAAGTATCCGCTGGCGGTCGTCCTGGATGCCTGCAAGCGCTACATCTCCCGGCTCGGCGAGAAGCGCGTGCTGACCATCGAGTACACGCTGCTCAAGGATGTCAACGATCAGCCGGAGCATGCTGCGCAGATCGTCGCGCTTCTCAAGGATTTTCCTTGCAAGATCAACCTGATTCCGTTTAATCCCTTCCCTTTTTCCGGATACGAGCGGCCGAGCAACAATGCGATCCGTCGTTTCCAGGACCTGCTGCACAAGGCGGGGCACAATGTCACCGTGCGCACCACGCGCGGCGATGACATCGATGCGGCTTGCGGCCAGCTGGTCGGTCAGGTGATGGATCGTACCCGGCGCAGCGAACGTTATATCGCCGTGCGTCAGCTCGGCACCGATGCCGGCACGCCGGGCGGCACTGCCAATCGAACCTGA	MTESTGKVNLLGLTQPQLESFFESIGEKRFRAGQVMKWIHHFGVDDFDAMSNIGKALRDKLKASAEIRGPEVVSQDISSDGTRKWVVRVASGSCVETVYIPQGGRGTLCVSSQAGCALDCSFCSTGKQGFNSDLTAAEVIGQVWIANKSFGTVPAKIDRAITNVVMMGMGEPLLNFDNVVAAMNIMMDDLGYGISKRKVTLSTSGVAPMIDKLGEVIDVSLALSLHAPNDELRNKLVPINKKYPLAVVLDACKRYISRLGEKRVLTIEYTLLKDVNDQPEHAAQIVALLKDFPCKINLIPFNPFPFSGYERPSNNAIRRFQDLLHKAGHNVTVRTTRGDDIDAACGQLVGQVMDRTRRSERYIAVRQLGTDAGTPGGTANRT				NA	NA	NA	NA	NA
BMS010_07888	432	ndk_2	COG0105	Nucleoside diphosphate kinase	ATGGCCGTTGAGCGCACTCTTTCCATCGTCAAGCCGGATGCTGTTTCCAAGAACGTCATCGGCGAGATCCTGACCCGTTTCGAAAAGGCCGGCCTGCGCGTCGTTGCCGCCAAGATGGTTCAACTCTCCGAGCGCGAAGCCGGTGGCTTCTACGCCGAGCACAAAGAGCGTCCTTTCTTCAAGGATCTGGTTTCCTTCATGACATCCGGTCCGGTCCTGGTCCAGGTTCTGGAAGGCGAGAATGCCATTGCCAAGAACCGTGAGCTGATGGGCGCCACCGATCCGAAGAAAGCCGAAGCCGGCACCATCCGCGCCGATTTCGCCGTTTCCATCGACGAGAACGCTGTGCACGGTTCCGACTCCGAGGCTTCCGCTGCTCGCGAGATCGCCTACTTCTTCGCCGCCACCGAGGTGTGCGCTCGCATTCGCTAA	MAVERTLSIVKPDAVSKNVIGEILTRFEKAGLRVVAAKMVQLSEREAGGFYAEHKERPFFKDLVSFMTSGPVLVQVLEGENAIAKNRELMGATDPKKAEAGTIRADFAVSIDENAVHGSDSEASAAREIAYFFAATEVCARIR	PGPT0021210_3002	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021210-ndk-K00940	NA	NA
BMS010_07889	201	iscX	COG2975	Protein IscX	ATGAGTCTTAAATGGACGGATGTCCTGGATATCGCCATCGAGCTGGCAGAGAGCAAGCCGGACGTGGACCCGCGCTACGTCAATTTCGTCGATCTGCACCGCTGGGTACTGGCCTTGCCGGACTTCGACGACGATCCCCAGCGTGGCGGGGAGAAGGTTCTCGAAGCCATCCAGGCGGCGTGGATCGAAGAGCACGACTGA	MSLKWTDVLDIAIELAESKPDVDPRYVNFVDLHRWVLALPDFDDDPQRGGEKVLEAIQAAWIEEHD				NA	NA	NA	NA	NA
BMS010_07890	339	fdx_2	COG0633	2Fe-2S ferredoxin	ATGCCGCAGATTGTTTTTCTGCCCCATGCCGAGCACTGTCCCGAGGGGGCCGTGATCGAAGCGCAACCCGGCGAAACCGTTCTTGACGCCGCCTTGCGCAATGGCATCGACATCGAGCATGCCTGCGAAAAGTCCTGTGCCTGCACCACCTGCCATGTCGTCATCCGTGAAGGTTTCGGCTCGCTGGAACCATCCGACGAGTTGGAAGACGATATGCTCGACAAGGCGTGGGGGCTGGAGCCTTCCTCTCGGCTTTCCTGCCAGGCCGTGGTGGCGGACGAAGATCTGGTAGTGGAAATTCCGAAGTACACTATCAATCAGGTTTCCGAAGGACACTGA	MPQIVFLPHAEHCPEGAVIEAQPGETVLDAALRNGIDIEHACEKSCACTTCHVVIREGFGSLEPSDELEDDMLDKAWGLEPSSRLSCQAVVADEDLVVEIPKYTINQVSEGH	PGPT0006786_488	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-FE-S_CLUSTER_BIOGENESIS,PGPT0006786-fdx|cndB-K04755
BMS010_07891	1863	hscA	COG0443	Chaperone protein HscA	ATGGCTCTACTTCAGATCGCTGAACCCGGACAGAGCCCCCAGCCACACCAGCGTCGTCTGGCGGTGGGGATCGATCTGGGCACCACCAATTCTCTGGTCGCTGCCGTCCGCAGTGGCCTGTCCGAGCCCCTGGCCGACGAGAGCGGAGACGTCATCCTGCCGTCTGCCGTGCGCTATCACGTCGATCGGGTCGAAGTAGGGCGGACTGCCAAGGCTGCAGCAGCCGAGGATCCGCTGAACACTGTGCTGTCGGTCAAGCGCCTGATGGGGCGCGGTCTGGCGGATGTGAAACAATTGGGCGAACAGTTGCCCTACCGCTTCAGCGGCGGCGAGTCGCACATGCCGTTCATCGAGACCGTACAGGGGCCGAAAAGCCCGGTGGAGGTCTCTGCCGATATTCTCAAGGTGCTGCGTCAGCGCGCCGAAGCCGCGTTGGGTGGCGAGCTGGTCGGTGCGGTCATCACCGTGCCTGCCTATTTCGATGAGGCCCAGCGCCAAGCCACCAAGGACGCTGCGCGTCTCGCCGGTCTGAGCGTCCTGCGTCTGCTCAACGAGCCAACGGCGGCTGCCGTTGCCTATGGCCTCGACCAGCAGGCCGAGGGGATCGTGGCGATCTACGACCTGGGCGGCGGTACCTTCGATATTTCCATCCTGAGGCTGAGCCGTGGGGTGTTCGAAGTCCTGGCCACGGGCGGCGACAGCGCGCTGGGCGGTGATGATTTCGATCATGCGATTGCAGGCTGGATCGTCGAGCAGGCCGGATTGTCCGCCGATCTCGATCCGGCGACCCAGCGCAGCCTGCTGCGAGCCGCATGTGCGGCAAAAGAGGCACTGACCAGCGAAACCTCCGTGACGGTCGAATACGGCGCCTGGCAGGGGCTGTTGACGCGTGAGCATTTTGACGCGCTGATCGAGCCGATGGTGGCGCGCAGCCTTAAAGCGTGTCGCCGGGCCGTGCGTGACGCGGGTATCGAGCTGGAAGAGGTCGAGGCGGTAGTCATGGTGGGTGGGTCCACCCGTGTGCCGCGCGTTCGTCAGGCGGTCGCCGAACTCTTCGCTCGCGAGCCATTGACCGATATCGACCCCGATCAGGTCGTGGCCATCGGTGCGGCCATCCAGGCCGATACGCTGGCCGGTAACAAACGCGGCGGCGATGAGTTGCTTCTGCTCGATGTGATTCCTCTGTCGCTCGGCCTGGAAACCATGGGTGGGCTGATGGAGAAGGTGATTCCTCGCAATACCACCATACCGGTGGCGCGTGCCCAGGATTTCACCACTTACAAGGATGGCCAGACGGCCATGATGATCCATGTGCTGCAGGGCGAGCGCGAGCTGATCAGCGATTGTCGCTCCCTGGCACGTTTCGAATTGCGCGGCATTCCACCCATGGTGGCTGGTGCGGCGAAAATCCGGGTGACCTTCCAGGTAGACGCGGATGGTTTGCTGAATGTCTCGGCTCGCGAGCTGGGCTCGGGTGTCGAGGCGAGCATCCAGGTGAAGCCGTCCTATGGCCTGACCGACAGCGAAATCGCTCGCATGTTGCAAGACTCTTTCCAGCATGCGGGCGACGACAAGGCCGCGCGTGCGCTGCGCGAGCAGCAGGTCGATGCTCAGCGTCTGGTGGAGGCAGTTGCCGCTGCCCTGGAGGCCGATGGCGAGCGTCTGCTCAGTGCTGACGAGCGCGCGGCCATCGAATCGCAGATGGAGCAGTTGCGTGAACTCATGGCGGGTACCGATGGCCTTGCCATCGAGCGGCAGGCCAAGCGCCTCACCCAAATTACCGACGCCTTTGCTGCGCGTCGTCTGGATGCCACGGTGAAAGCCGCCCTGGCCGGACGTCGCCTGAACGAAATCGAGGAATGA	MALLQIAEPGQSPQPHQRRLAVGIDLGTTNSLVAAVRSGLSEPLADESGDVILPSAVRYHVDRVEVGRTAKAAAAEDPLNTVLSVKRLMGRGLADVKQLGEQLPYRFSGGESHMPFIETVQGPKSPVEVSADILKVLRQRAEAALGGELVGAVITVPAYFDEAQRQATKDAARLAGLSVLRLLNEPTAAAVAYGLDQQAEGIVAIYDLGGGTFDISILRLSRGVFEVLATGGDSALGGDDFDHAIAGWIVEQAGLSADLDPATQRSLLRAACAAKEALTSETSVTVEYGAWQGLLTREHFDALIEPMVARSLKACRRAVRDAGIELEEVEAVVMVGGSTRVPRVRQAVAELFAREPLTDIDPDQVVAIGAAIQADTLAGNKRGGDELLLLDVIPLSLGLETMGGLMEKVIPRNTTIPVARAQDFTTYKDGQTAMMIHVLQGERELISDCRSLARFELRGIPPMVAGAAKIRVTFQVDADGLLNVSARELGSGVEASIQVKPSYGLTDSEIARMLQDSFQHAGDDKAARALREQQVDAQRLVEAVAAALEADGERLLSADERAAIESQMEQLRELMAGTDGLAIERQAKRLTQITDAFAARRLDATVKAALAGRRLNEIEE	PGPT0014555_5374	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014555-dnaK-K04043	NA	NA
BMS010_07892	522	hscB	COG1076	Co-chaperone protein HscB	GTGGGTAGTCCTTGTCACTTTGCGCTGTTCGACCTTCAGCCGGACTTTCGCGTCGATCTCGAACAACTGGCGGCGCGCTATCGCGAGTTGGCGCGCACTGTTCATCCGGATCGCTTCGCCGATGCGTCGGAGCGCGAGCAGCGCTTGGCTCTGGAGCGTTCGGCCAGCCTCAACGAGGCCTACCAGACGCTGAAGAGCGCGCCGCGGCGGGCGTTGTACCTGCTGGCGCTGAATGGTCATGAGCTGCCGCTGGAGGCCACTGTCCAAGACCCCGATTTCCTCATGCAGCAGATGCACTGGCGCGAGGAGTTGGAGGACCTGCAGGACAGCGCGGACTTGTCGGGCGTGGCGGCATTCAAGCGCCGTCTCAAGGGGGCTCAGGAAGAGCTGAACGAGGCGTTCGCTGCCTGCTGGAACGATGCGGCCCGTCGTGAAGAGGCCGAGCGCCTCGTACGGCGGATGCAGTTCCTCGACAAACTCTCCTACGAAGTGCGCCAGTTGGAAGAGCGCCTCGACGATTAA	MGSPCHFALFDLQPDFRVDLEQLAARYRELARTVHPDRFADASEREQRLALERSASLNEAYQTLKSAPRRALYLLALNGHELPLEATVQDPDFLMQQMHWREELEDLQDSADLSGVAAFKRRLKGAQEELNEAFAACWNDAARREEAERLVRRMQFLDKLSYEVRQLEERLDD				NA	NA	NA	NA	NA
BMS010_07893	324	iscA	COG0316	Iron-binding protein IscA	ATGGCCATCACCATGACCCCAGCCGCCGCCCAGCACGTTCGTCGTTCCCTCGAGGGGCGTGGCAAGGGCGAGGGTATCCGCCTGGGTGTGCGCACCACGGGCTGCTCCGGCCTGGCTTATGTACTGGAGTTCGTGGACGAGACCGGTGCTGACGACCAGGTTTTCGAAAGCCATGGCGTGAAGGTGATCATTGACCCGAAAAGTCTGGTCTACCTCGATGGCACGGAACTCGATTTCGTTCGCGAAGGCCTCAACGAAGGCTTTAAGTTCAACAATCCCAACGTCCGCGGCGAATGCGGTTGTGGCGAGAGTTTCAATGTCTGA	MAITMTPAAAQHVRRSLEGRGKGEGIRLGVRTTGCSGLAYVLEFVDETGADDQVFESHGVKVIIDPKSLVYLDGTELDFVREGLNEGFKFNNPNVRGECGCGESFNV	PGPT0006740_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_QUENCHING	CE-QUORUM_QUENCHING-AHL-DEGRADATION,PGPT0006740-cpxB-K14338	NA	NA
BMS010_07894	387	iscU	COG0822	Iron-sulfur cluster assembly scaffold protein IscU	ATGGCATACAGCGACAAGGTCATTGACCACTACGAAAACCCGCGCAACGTCGGCAAGCTCGACGCCGAAGATCCGAATGTCGGGACCGGCATGGTCGGTGCGCCGGCTTGCGGTGATGTGATGCGTCTGCAGATCAAGGTCAACGAGCAGGGCGTCATCGAGGACGCCAAGTTCAAGACCTACGGCTGTGGTTCGGCGATCGCGTCCAGCTCACTCGCAACCGAGTGGATGAAGGGCAAGACTCTGGATGAAGCCGAGACCATCAAGAACACCCAGCTCGCCGAAGAACTGGCTCTGCCTCCGGTCAAGATTCACTGCTCGGTGCTCGCCGAGGACGCCATCAAGGCGGCCGTGCGCGATTACAAGCAGAAGAAAGGCTTGCTCTGA	MAYSDKVIDHYENPRNVGKLDAEDPNVGTGMVGAPACGDVMRLQIKVNEQGVIEDAKFKTYGCGSAIASSSLATEWMKGKTLDEAETIKNTQLAEELALPPVKIHCSVLAEDAIKAAVRDYKQKKGLL	PGPT0000075_2850	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000075-nifU|iscU-K04488	NA	NA
BMS010_07895	1215	iscS_3	COG1104	Cysteine desulfurase IscS	ATGAGATTGCCGATTTACCTCGACTACTCGGCCACGACACCGGTGGACCCTCGCGTTGCCCAGAAGATGAGCGAATGTCTGCTGGTCGATGGCAACTTCGGTAACCCGGCATCGCGCTCCCACGTGTTCGGTTGGAAAGCCGAAGAAGCGGTGGAGAATGCCCGCCGGCAGGTGGCCGAATTGGTCAATGCCGACCCGCGCGAGATCGTCTGGACGTCCGGTGCCACCGAGTCCGACAACCTGGCCATCAAGGGTGTCGCGCATTTCTATATGGGCAAGGGCAAGCACATCGTGACGTCCAAGATCGAGCACAAGGCGGTCCTGGATACCACTCGCCAGCTCGAGCGCGAAGGCTTCGAGGTGACTTATCTCGAGCCGGGCGAAGACGGGCTGATCACCCCGGCGATGGTCGAGGCCGCTCTGCGCGACGACACCATTCTGGTCTCGGTGATGCACGTCAATAACGAGATCGGCACGATCAACGATATTGCCGCCATCGGCGAGTTGACCCGTTCCCGGGGCGTGCTGTTCCACGTGGATGCCGCGCAATCCACCGGCAAGGTCGAGATCGATCTGGAAAAGATGAAAGTCGACCTGATGTCCTTCTCCGCCCACAAGACCTACGGGCCGAAGGGGATCGGCGCGCTCTACGTGCGCCGCAAGCCACGTGTTCGCCTGGAGGCGATCATTCATGGCGGTGGTCATGAGCGTGGCATGCGCTCCGGCACGTTGGCGACCCACCAGATCGTCGGCATGGGCGAAGCCTTCCGTATCGCGAAGGAAGAAATGGCCCAGGAGAACGAACGTATCCGCGGCCTGCGCGACCGTTTCTATCGCCAGGTCGAAGGTATCGAAGAGCTTTACGTGAACGGCAGCCTGACTGCGCGTGTGCCGCACAACCTCAACCTCAGCTTCAACTATGTCGAGGGCGAGTCGTTGATCATGGCGCTCAAGGACCTGGCGGTGTCTTCCGGGTCGGCCTGTACTTCGGCCTCCCTGGAGCCGTCCTATGTGCTGCGTGCGCTGGGGCGTAACGATGAATTGGCACACAGTTCGATCCGCTTCACCTTCGGTCGTTTCACCACCGAAGAGGAGATCGACTATGCGGCGCAGAAGGTCTCCGAGGCGGTTTCCAAGCTGCGCGAGCTTTCGCCGCTGTGGGATATGTTCAAAGAGGGTGTCGACCTGTCGAAGGTCGAGTGGCAGGCGCATTGA	MRLPIYLDYSATTPVDPRVAQKMSECLLVDGNFGNPASRSHVFGWKAEEAVENARRQVAELVNADPREIVWTSGATESDNLAIKGVAHFYMGKGKHIVTSKIEHKAVLDTTRQLEREGFEVTYLEPGEDGLITPAMVEAALRDDTILVSVMHVNNEIGTINDIAAIGELTRSRGVLFHVDAAQSTGKVEIDLEKMKVDLMSFSAHKTYGPKGIGALYVRRKPRVRLEAIIHGGGHERGMRSGTLATHQIVGMGEAFRIAKEEMAQENERIRGLRDRFYRQVEGIEELYVNGSLTARVPHNLNLSFNYVEGESLIMALKDLAVSSGSACTSASLEPSYVLRALGRNDELAHSSIRFTFGRFTTEEEIDYAAQKVSEAVSKLRELSPLWDMFKEGVDLSKVEWQAH	PGPT0000065_1884	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-SULFUR_MODIFICATION_PROTEINS,PGPT0000065-nifS|iscS-K04487	NA	NA
BMS010_07896	498	iscR	COG1959	HTH-type transcriptional regulator IscR	ATGCGTCTGACCACCAAAGGCCGTTACGCCGTCACCGCCATGCTCGATCTGGCTCTGCATGCCCAGCATGGTCCGGTGTCCCTGGCGGATATTTCCGAGCGCCAAGGAATTTCCCTGTCTTATCTGGAGCAGCTGTTTGCCAAGCTTCGTCGCGGCAATCTGGTGACCAGTGTGCGTGGTCCCGGAGGAGGATATCAGCTTTCCCGGGATATGCAGGGTATCCAGGTGGCCCAGGTGATCGACGCGGTCAATGAGTCGGTCGATGCCACCCGTTGCCAAGGGCTCGGGGACTGCCATTCCGGCGATACCTGCCTCACTCACCACCTCTGGTGCGATCTCAGTCAGCAGATTCATGAATTCCTCAGTGGTATCAGCCTGGCCGACCTCGTTACCCGTCGCGAGGTGCAGGAGGTCGCCCAGCGTCAGGATCAGCGTCGCTGCAGTACCAATGCGAGGGCGCCGCGCCTGGATAAGATTGAAGCGTCCGCCGTTGAATGA	MRLTTKGRYAVTAMLDLALHAQHGPVSLADISERQGISLSYLEQLFAKLRRGNLVTSVRGPGGGYQLSRDMQGIQVAQVIDAVNESVDATRCQGLGDCHSGDTCLTHHLWCDLSQQIHEFLSGISLADLVTRREVQEVAQRQDQRRCSTNARAPRLDKIEASAVE	PGPT0004960_566	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE-ANTIMONY_HOMEOSTASIS,PGPT0004960-iscR-K13643	NA	NA
BMS010_07897	777	cysE_2	COG1045	Serine acetyltransferase	ATGTTCGAGCGCGTTCGAGAAGATATCCAGAGCGTTTTCCATCGCGATCCGGCTGCGCGCAACGCGTTCGAGGTGCTGACCTGCTATCCGGGCCTTCATGCGATCTGGCTGCATCGTCTGGCGCATGCGCTGTGGGGGGCTGGCTGGAAATGGTTGGCGCGCCTGGTATCGAATTTCGGCCGTTGGTTGACCGGGATCGAGATCCATCCGGGAGCGAAGGTCGGCCGGCGCTTCTTCATCGATCATGGCATGGGCATCGTGATTGGCGAGACGGCGGAAATCGGCGATGACGTGACGCTGTATCAGGGGGTGACCCTGGGTGGTACCAGTTGGAACAAGGGTAAGCGCCATCCGACGCTGGAAGATGGCGTAGTGGTCGGTGCAGGTGCCAAGGTACTGGGGCCGTTTACCGTGGGGGCGGGGGCGAAGATCGGTTCCAATGCGGTAGTGACCAAGGCCGTGCCGGCCGGTGCTACGGCGGTCGGTATTCCCGGGCGAATCATCGTCAAGGCCGATGGTGAGCAGGAGGCCAAGCGCCAGGCTATTGCCGAGAAGTTCGGCTTCGACGCTTATGGCGTTGGCCAGGATATGCCTGACCCGGTGGCGCGGGCGATCGGTCAGTTGCTGGACCACCTGCAGGCGGTGGATGCGCGTCTGGAGGGTATGTGCGCGGCGCTCAAGGCGTTGGGTAGCGATTATTGCGCCAAGGAACTGCCCGAGTTGCGCGAAGAGGACTTCGCCGGGGTCAAGGATGACGATAGCAAGCCTGCGGCCTGA	MFERVREDIQSVFHRDPAARNAFEVLTCYPGLHAIWLHRLAHALWGAGWKWLARLVSNFGRWLTGIEIHPGAKVGRRFFIDHGMGIVIGETAEIGDDVTLYQGVTLGGTSWNKGKRHPTLEDGVVVGAGAKVLGPFTVGAGAKIGSNAVVTKAVPAGATAVGIPGRIIVKADGEQEAKRQAIAEKFGFDAYGVGQDMPDPVARAIGQLLDHLQAVDARLEGMCAALKALGSDYCAKELPELREEDFAGVKDDDSKPAA	PGPT0020265_3000	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION-1,PGPT0020265-cysE-K00640	NA	NA
BMS010_07898	774	trmJ_2		tRNA (cytidine/uridine/adenosine-2'-O-)-methyltransferase TrmJ	GTGCTGCAGAACATACGAGTGGTCCTGGTGAATACCAGTCATCCCGGCAATATCGGCGGCGCGGCGCGCGCCATGAAGAACATGGGGCTCTCCCGTCTGGTGCTGGTCGATCCCGAGGATTTTCCCAGCGGGGAGGCCGTCGCACGCGCTTCCGGCGCGACGGATATTCTCGACAATGCGCAGGTCGTCGGCACGTTGGAAGAGGCGCTGGTAGGGTGCAGTGTGGCGCTCGGCACCAGTGCACGAGACCGGCGTATCCCCTGGCCGCTCCTGGATCCGCGTGAGTGTGCGGCAACCTGTCTCGATCAAGCGGAGGCCGGGGCGGAGGTCGCGTTGGTTTTCGGGCGTGAATATGCCGGCCTGACCAACGAAGAGTTGCAGCGCTGCCAGTTCCATGTCCATATCCCGTCGGACCCGGAATTCGGTTCGCTCAACCTGGCCGCTGCGGTGCAGGTGCTGGTGTACGAGGTTCGCATGGCCTGGCTGGCGGCCCAGGGGCAGCCGACCAAGATGGAAAAGCTGGAGACCACGGCGATTCTCAATTCCCAGCCGGTGACGGTGGAGGAGCTGGAGCTTTTCTATGGGCATCTGGAAAAGACGCTGGTGGAAATCGGCTTTCTCGACCCCGAGAAGCCGAGGCATCTGATGTCGAGATTGCGCCGGCTTTACGGGCGTTGCGGTATCAGCAAGCTGGAAATGAATATCCTGCGTGGCATTCTGACGGAGACTCAGAAGGTTGCCCGGGGAGAGCCTCACAAGCGGAGAGAAGACTGA	MLQNIRVVLVNTSHPGNIGGAARAMKNMGLSRLVLVDPEDFPSGEAVARASGATDILDNAQVVGTLEEALVGCSVALGTSARDRRIPWPLLDPRECAATCLDQAEAGAEVALVFGREYAGLTNEELQRCQFHVHIPSDPEFGSLNLAAAVQVLVYEVRMAWLAAQGQPTKMEKLETTAILNSQPVTVEELELFYGHLEKTLVEIGFLDPEKPRHLMSRLRRLYGRCGISKLEMNILRGILTETQKVARGEPHKRRED				NA	NA	NA	NA	NA
BMS010_07899	816	suhB_4	COG0483	Inositol-1-monophosphatase	ATGCAGCCCATGCTGAATATCGCGCTGCGCGCAGCCCGCAGCGCCGGAGAATTGATCTTCCGTTCCATCGAGCGGCTGGATGTCATCTCGGTCAACGAGAAGGAAGCCAAGGATTATGTGACCGAGGTCGATCGCGCTGCCGAGCAGACCATCGTCAACGCCCTGCGCAAGGCCTACCCGAATCACGGTTTCAAAGGCGAAGAAGGCGGACTGATCGAAGGCAGCGGCGAAGGTGCCGACTACCAATGGATCATCGACCCGCTGGATGGAACCACCAACTTCGTTCGCGGCGTACCGCACTTCGCCGTGAGCATCGCCTGCAAATATCGCGGCCGTCTCGAACACGCCGTGGTGCTCGACCCGGTCCGCCAGGAAGAATTCACCGCCAGCCGCGGTCGTGGCGCAGCCCTGAACGGTCGCCGCCTGCGCGTCAGCCCGCGCAAGGGCCTGGAAGGCGCACTGCTCGGCACAGGGTTCCCCTTCCGCGACAGCCAGATGGACCATCTGGACAATTACCTGAACATGTTCCGCAGCCTGGTCGGACAGACCGCCGGTATTCGCCGCGCAGGGGCCGCCAGCCTGGATCTCGCCTACGTAGCCGCAGGCCGCTACGACGCCTACTGGGAATTCGGCCTATCCGAATGGGATATGGCCGCAGGTGCCCTGCTGGTACAGGAAGCTGGTGGCCTGGTGAGCGATTTCACCGGCAACCACGAATTCCTGGAAAAGGGCCACATCGTCGCCGGCAATACCAAGTGCTTCAAGGCGGTACTAACTGCGATTCAGCCACACCTTCCGCCGTCGCTGAAACGCTGA	MQPMLNIALRAARSAGELIFRSIERLDVISVNEKEAKDYVTEVDRAAEQTIVNALRKAYPNHGFKGEEGGLIEGSGEGADYQWIIDPLDGTTNFVRGVPHFAVSIACKYRGRLEHAVVLDPVRQEEFTASRGRGAALNGRRLRVSPRKGLEGALLGTGFPFRDSQMDHLDNYLNMFRSLVGQTAGIRRAGAASLDLAYVAAGRYDAYWEFGLSEWDMAAGALLVQEAGGLVSDFTGNHEFLEKGHIVAGNTKCFKAVLTAIQPHLPPSLKR	PGPT0018535_3232	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018535-suhB-K01092	NA	NA
BMS010_07900	549			hypothetical protein	ATGAACAAGTCGATGCTCGTAGGTGCGGTGCTGGGTGCGGTCGGTGTGACCGCCGGTGGTGCCCTGGCTACTTACAGTCTTGTGGGTGGCGGCCCCGAGTATGCCGAAGTGCTCGCCGTGGAACCGGTCAAGGAAACGATCAAGACCCCGCGCGAGGTATGCAAGGACGTCACCGTGACCCGGCAGCGTCCGGTGCAGGATCAGCATCAGATCGCAGGCACCGTGATCGGTGCAGTGGCAGGCGGATTGCTGGGTAACCAGGTCGGTGGTGGCAATGGCAAGAAGATCGCGACCGTGGCTGGTGCTGCTGCCGGTGGTTATGCCGGCAACAAGATCCAGGAAGGCATGCAGGCGCGTGACACCTACACGACGACCGAGACCCGCTGCAATACGGTGACCGACACCAGCGAAAAGGTGGTCGGCTATGACGTGAAGTACAAGCTGGGTGAAAAGGTCGGGAAGGTGCGGATGGATCGCGATCCGGGTGCCGCCATTCCGGTGAAGGATGGTCAGTTGGTTCTGGTGCAGCAGTCCCAGGCTGCTCAGTAA	MNKSMLVGAVLGAVGVTAGGALATYSLVGGGPEYAEVLAVEPVKETIKTPREVCKDVTVTRQRPVQDQHQIAGTVIGAVAGGLLGNQVGGGNGKKIATVAGAAAGGYAGNKIQEGMQARDTYTTTETRCNTVTDTSEKVVGYDVKYKLGEKVGKVRMDRDPGAAIPVKDGQLVLVQQSQAAQ				NA	NA	NA	NA	NA
BMS010_07901	912	secF	COG0341	Protein translocase subunit SecF	ATGAAACGCGTTATCAACTTCATGGGCATTCGCCACCTGGCGTTTGCCGCGACCGTGTTGCTGACCCTGGTATCCCTGGGCAGCCTCGCGTTCCAGGGGCTGAATTTCGGCCTGGATTTCACTGGCGGCACCCTGATCGAGCTGGGCTACGAAAAGCCGGCCGAGCTCGACAAGGTGCGCAGTCAACTGAGTGCGGCCGGCTATCCGGATGCCGTCGTGCAGAGCTTTGGAGCTACCACCGATGTGCTGGTGCGCTTGCAGGGCGACGACCCGCAGCTCGGCAACAAGGTCTCCGCAGCTTTGGAGCAGGCGGATAGCGGCAACCCGGTATCGGTCAAGCGGGTCGAGTTCGTCGGTCCGGCGGTCGGAGAGGAGCTGCGTGACCAGGGCGGCCTGGGTATGTTGCTGGCGCTGGGCGGCATCCTGGTTTACGTGGCTTTCCGCTTCCAGTGGAAATTCGGCCTGGGCGCGATCCTTTCGCTGATCCACGACGTGATCGTGACGCTCGGGGTGTTTTCGTTGTTCCAGATTCCCTTCGACCTCACGGTCCTGGCGGCGGTCCTGGCGATCATCGGCTATTCGCTGAACGATACCATCGTGGTGTTCGACCGTATCCGCGAGAACTTCCGTGTCCTGCGCAAGGCCGAGCTGATCGAGAACATCAACATCTCCACGACCCAGACGCTGTTGCGTACCCTTGCAACGTCGATCTCCACCCTCCTGGCGGTCGTCGCGCTGATGTTCTTCGGTGGGGAGAACCTGTGGGGCTTCTCGTTGGCGCTGTTCATCGGTGTTCTGGCGGGTACTTACTCGTCCGTCTATATCGCCAGCATTCTGCTGATCTGGCTGAAGCTCACCCGCGACGACCTGATTCCGCCGGCCGTCGAAGAGGCGGTGGACGATCGCCCCTGA	MKRVINFMGIRHLAFAATVLLTLVSLGSLAFQGLNFGLDFTGGTLIELGYEKPAELDKVRSQLSAAGYPDAVVQSFGATTDVLVRLQGDDPQLGNKVSAALEQADSGNPVSVKRVEFVGPAVGEELRDQGGLGMLLALGGILVYVAFRFQWKFGLGAILSLIHDVIVTLGVFSLFQIPFDLTVLAAVLAIIGYSLNDTIVVFDRIRENFRVLRKAELIENINISTTQTLLRTLATSISTLLAVVALMFFGGENLWGFSLALFIGVLAGTYSSVYIASILLIWLKLTRDDLIPPAVEEAVDDRP	PGPT0029265_3148	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0029265-secF-K03074	NA	NA
BMS010_07902	1866	secD_2	COG0342	Protein translocase subunit SecD	ATGCTCAATAAATACCCCTTGTGGAAATACCTGCTGATCCTCGTGGTTCTGGCGGTAGGCATTATCTATTCCGCTCCCAATCTCTACCCTGACGATCCGGCTATCCAGATCCGAGGCCAAAGCGCCGCGCTGCAAATTGGTCAGGCCGATCTGGATCGTGCCGAGCGCGCCCTCAAGGACGCCGGTATCGCAGTCAAGTCGAGCAGTCTCGGCGAGCAGGGTGGCGGCTTGTTGCGCCTGACCCGCCAGGAAGACCAATTGCCGGCCAGGGATGTGGTTCACCGTGCACTGGGCGACGAGTATGTGGTCGCTCTGAACCTTGCGCCGACCACGCCCGACTGGTTGCGCAATCTGGGGGCCGGCCCGATGAAGCTGGGCCTGGATCTGTCCGGTGGCGTGCACTTCCTGATGGAAGTGGATATGGACAAGGCGGTGGATGCGCGCCTGAAAGTCTATGAAGGCGAAGTGAAGAGCCTGCTGCGCAAGGAGCGGGTGCGTTATCGCAGCCTGCCGCAGCAGGATGGCGCCATCCAGTTGGGGTTCACCGACGCGGATACTCTGGAAAAAGCCCAGGCCCTGGTGCGCCGAAATTTCTCCGACTTCGACGCGACCAGCAGCGAGCGTAACGGCATGCAGGTGCTCCGCCTGGCGCTGACCCCGGCCAAGCTCGCTGAAATCCGGGAGTACTCCCTCAAACAGAACCTGACCACCGTGCGCAACCGGGTCAACGAGCTGGGTGTCGCCGAACCGCTGGTTCAGCGCCAAGGCGCCAACCGCATCGTCGTGGAGCTGCCGGGTGTGCAGGACACCGCAACGGCCAAGGGCATCCTCGGCAAGACCGCGAACCTGGAGTTCCGCCTGCAGGCCGAAGCGGACGCGGCCCGGGCGACCACCGAAACCTTCGAATTCCGTCAGGAAGGGCGTCCGCCGGTCCAGTTGGAGCGCACCCTGATCATCACCGGTGACCAGGTGACCGATGCGCAGGCGAGTTTCGACGAGAATGGTCGTCCGCAGGTGAATATCCGCCTGGACGGTCATGGCGGCGACTTGATGAACCGTGCCACCCGCAACAACGTCGGGCGCAGCATGGCAGTAATTTTCATCGAACAGAAGCCGGTGACCCGCTACGTCAAGCAGGTGGTCGACGGCGTCGAGAAGGAAGTCCCGATGCAGGCCTTCCGCGAGGAGAAGAAAATCATCAGCCTGGCGACCATTCAGTCGCCGCTGGGCAACAGCTTCCGCATCACCGGTCTCGACGGTCCGGGCGAGTCCTCCGAGCTGGCGCTGCTGCTGCGTGCCGGTGGTCTGGCCGCGCCGATGTACTTCGCCGAAGAACGCACCATCGGGCCGAGCCTGGGTGCCGAGAACATCGAGTTAGGTGCCAACGCCGCGCTGTGGGGCTTCCTCTTCGTCGCCCTGTTCATCGTTGCGATCTACAAGTTCTTCGGTCTGCTGGCGACCGTCGCGCTGGGCTTCAACATGGTCGTCCTGGTCGCGTTGATGTCCTTGCTGGGGGCGACGCTGACCCTGCCCGGCATCGCCGGTATCGTGCTGACCATGGGTATGGCGGTGGACGCCAACGTGTTGATCTTCTCCCGTATCCGGGAAGAAATTGCCAACGGAATGTCCATTCAGCGAGCCATCCATGAGGGCTTCGATCGCGCCTTCTCGGCCATTCTCGATGGCAACCTCACCACCTTGCTGGTGGGGGGGATTCTCTTCGCCATGGGGACCGGTCCGGTGAAAGGTTTCGCCGTGACGCTGTCGCTCGGGATCATTACCTCCATGTTCACCGCCATCGTCGTGACCCGTGGCATGGTCAACCTGATCTTCGGTGGTCGCGATCTGAAGAAGCTGTGGATTTAA	MLNKYPLWKYLLILVVLAVGIIYSAPNLYPDDPAIQIRGQSAALQIGQADLDRAERALKDAGIAVKSSSLGEQGGGLLRLTRQEDQLPARDVVHRALGDEYVVALNLAPTTPDWLRNLGAGPMKLGLDLSGGVHFLMEVDMDKAVDARLKVYEGEVKSLLRKERVRYRSLPQQDGAIQLGFTDADTLEKAQALVRRNFSDFDATSSERNGMQVLRLALTPAKLAEIREYSLKQNLTTVRNRVNELGVAEPLVQRQGANRIVVELPGVQDTATAKGILGKTANLEFRLQAEADAARATTETFEFRQEGRPPVQLERTLIITGDQVTDAQASFDENGRPQVNIRLDGHGGDLMNRATRNNVGRSMAVIFIEQKPVTRYVKQVVDGVEKEVPMQAFREEKKIISLATIQSPLGNSFRITGLDGPGESSELALLLRAGGLAAPMYFAEERTIGPSLGAENIELGANAALWGFLFVALFIVAIYKFFGLLATVALGFNMVVLVALMSLLGATLTLPGIAGIVLTMGMAVDANVLIFSRIREEIANGMSIQRAIHEGFDRAFSAILDGNLTTLLVGGILFAMGTGPVKGFAVTLSLGIITSMFTAIVVTRGMVNLIFGGRDLKKLWI	PGPT0029260_668	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0029260-secD-K03072	NA	NA
BMS010_07903	336	yajC_2	COG1862	Sec translocon accessory complex subunit YajC	ATGAGCTTTCTGATCCCCGCTGCCTACGCTGATGCGGCTGCCCCGGCGGCCGGCCCTGCCGGCACCGGTTTCGAGTGGGTGTTTCTGGTCGGCTTCCTGGTCATCTTCTATCTGATGATCTGGCGCCCGCAGGCGAAGCGCGCCAAGGAGCACAAGAACCTGCTCGGCGGTCTGCAGAAGGGCGATGAAGTGGTGACCTCCGGTGGCATCGCTGGAAAAGTGGTCAAGGTCGCCGACGACTTCGTCGTGCTCGAAGTGTCCGACACCGTCGAGCTGAAGATTCAGAAAGTGGCCATTGCCGCAACGCTGCCCAAGGGCACGCTGAAGGCCATCTAA	MSFLIPAAYADAAAPAAGPAGTGFEWVFLVGFLVIFYLMIWRPQAKRAKEHKNLLGGLQKGDEVVTSGGIAGKVVKVADDFVVLEVSDTVELKIQKVAIAATLPKGTLKAI	PGPT0025730_1549	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025730-yajC-K03210	NA	NA
BMS010_07904	1134	tgt_1	COG0343	Queuine tRNA-ribosyltransferase	ATGTCCCGCACCTGCCATATGTCCTTCGAGCTCCTGGCGACCGACGGCAAGGCCCGTCGCGGTCGTCTCACCTTTCCGCGCGGCGTGGTCGAAACCCCGGCGTTCATGCCCGTCGGCACCTACGGGACGGTGAAGGGTATGCTGCCGCGCGATATCGAGGCTATCGGCGCCCAGATCATCCTCGGCAATACCTTCCATCTCTGGTTGCGCCCCGGAACCGAGGTGATCAAGCGGCACGGGGATTTGCACGATTTCATGCAATGGAAGGGGCCGATCCTCACCGACTCCGGCGGTTTCCAGGTGTTCAGCCTTGGCGCGCTGCGCAAGATCAAGGAGGAGGGGGTCACCTTCGCCTCGCCGGTCGATGGCAGCAAGGTGTTCATGGGGCCTGAGGAGTCGATGCAGGTCCAGCGCGACCTCGGCTCGGACATCGTGATGATCTTCGACGAGTGCACCCCCTATCCGGCCGACGAAGACGTGGCGCGCCGCTCCATGGAGCTGTCGCTGCGCTGGGCTCAGCGTTCCAAGGTGGCCCATGGCGATAATCCGGCCGCGTTGTTCGGTATTGTCCAGGGCGGTATGCACGAGAGCCTGCGCATGCGCTCGCTGGAAGGATTGGAGTCGATCGGCTTCGATGGGCTGGCGATCGGCGGCCTGTCGGTCGGCGAGCCGAAGGAAGAGATGATCCGTGTGCTGGATTTCCTGCCGCCACGGATGCCGGCCGACAAGCCGCGCTACCTGATGGGGGTCGGCAAGCCGGAGGACCTGGTGGAGGGCGTGCGCCGCGGGGTCGATATGTTCGATTGCGTGATGCCGACCCGCAATGCCCGCAACGGCCACCTGTTCATCGAGACCGGTGTGCTGAAAATCCGCAATTCCGCACATAAGCACGACGAGTCGCCATTGGACCCGACCTGCGACTGTTACACTTGCCAACACTTTTCTCGCGCCTATCTCCATCATCTGGACAAATGCGGCGAAATGTTGGGAAGCATGTTGAATACAATCCATAACTTGCGGCATTACCAGCGCCTGATGGCTGGTTTGCGCGAGGCTATCCAACAGGGTACATTGGCCGCCTTCGTCGATGCCTTCTATGCTCGGCGCGGCCTGCCAACGCCGCCGCTGGACTGA	MSRTCHMSFELLATDGKARRGRLTFPRGVVETPAFMPVGTYGTVKGMLPRDIEAIGAQIILGNTFHLWLRPGTEVIKRHGDLHDFMQWKGPILTDSGGFQVFSLGALRKIKEEGVTFASPVDGSKVFMGPEESMQVQRDLGSDIVMIFDECTPYPADEDVARRSMELSLRWAQRSKVAHGDNPAALFGIVQGGMHESLRMRSLEGLESIGFDGLAIGGLSVGEPKEEMIRVLDFLPPRMPADKPRYLMGVGKPEDLVEGVRRGVDMFDCVMPTRNARNGHLFIETGVLKIRNSAHKHDESPLDPTCDCYTCQHFSRAYLHHLDKCGEMLGSMLNTIHNLRHYQRLMAGLREAIQQGTLAAFVDAFYARRGLPTPPLD				NA	NA	NA	NA	NA
BMS010_07905	1122	queA_1	COG0809	S-adenosylmethionine:tRNA ribosyltransferase-isomerase	TTGTCCGGGTCAATTGGGTTTCATGGTCACCGCGAACTAATTCCGTTAAACTTCGCGGCCCTGCAAGACGACCCCATCATGCGCGTTTCCGACTTTCATTTCGATCTGCCCGAGTCCCTGATCGCCCGTCATCCGCTGGCCGAGCGGCGGGCCAGTCGCCTGCTGGTCCTGGATGGCCCTACCGGTTCGCTGGCGCATCGCCGCTTTCCGGATCTCCTCGAGTATCTGCGCCCCGGCGACCTGATGGTGTTCAACAACACCCGGGTGATCCCGGCGCGTCTGTTCGGCCAGAAGGCATCCGGTGGCAAGCTGGAAATCCTTATCGAGCGGGTGCTGGACAGCCATCGGGTATTGGCCCATGTGCGTTCCAGCAAGTCGCCCAAGCCTGGCTCGAAGATTCTCCTCGAGGGTGGGGGCGAGGCCGAGATGCTGGCTCGCCACGATGCGCTGTTCGAACTGGCGTTCGCCGATGAGGTGCTGCCGCTGCTCGAGCGCGTTGGCCACATGCCGTTGCCGCCCTATATCGATCGACCGGACGACGCCGCCGACCGCGAGCGCTACCAGACCGTCTACGCCGAGCGCGCCGGCGCTGTCGCCGCGCCTACGGCTGGTCTGCATTTCGATACGGCGCTGCTTGAGGCTATCCGGGAAAAGGGCGTGGAGACCGCGTTCGTCACTCTGCATGTCGGAGCCGGTACGTTCCAGCCCGTTCGCGTGGACCGCATAGAAGATCACCATATGCACCGCGAATGGCTCGAGGTGAGCCAGGACGTGGTGGATGCGGTGGCAGCCTGCCGGGCCCGGGGTGGTCGGGTGGTCGCGGTAGGGACCACCAGTGTGCGTTCGCTGGAAAGCGCCGCGCGGAATGGAGCGCTCGAGCCGTTCAGCGGCGACACCGATATCTTCATCTTCCCGGGCTACCGCTTTCGCGTGGTCGATGCGCTGGTGACCAACTTCCACCTGCCCGAATCCACGCTGCTCATGCTGGTTTCCGCCTTCGCCGGCTATCCCGAAGCCATGGCTGCATACCGGGCGGCCGTTGAGCAGGAATATCGTTTCTTCAGCTACGGTGATGCCATGTTCATCACCCGCAACCCCGCGCCCCGCGGCCCCGAGGATTGA	MSGSIGFHGHRELIPLNFAALQDDPIMRVSDFHFDLPESLIARHPLAERRASRLLVLDGPTGSLAHRRFPDLLEYLRPGDLMVFNNTRVIPARLFGQKASGGKLEILIERVLDSHRVLAHVRSSKSPKPGSKILLEGGGEAEMLARHDALFELAFADEVLPLLERVGHMPLPPYIDRPDDAADRERYQTVYAERAGAVAAPTAGLHFDTALLEAIREKGVETAFVTLHVGAGTFQPVRVDRIEDHHMHREWLEVSQDVVDAVAACRARGGRVVAVGTTSVRSLESAARNGALEPFSGDTDIFIFPGYRFRVVDALVTNFHLPESTLLMLVSAFAGYPEAMAAYRAAVEQEYRFFSYGDAMFITRNPAPRGPED	PGPT0023660_2542	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-SAM|QUEUOSINE|LIPID_METABOLISM,PGPT0023660-queA-K07568	NA	NA
BMS010_07907	213	capB_2		Cold shock protein CapB	ATGTCGAATCGTCAAACCGGCACCGTCAAGTGGTTCAACGACGAGAAGGGCTTTGGCTTCATTACCCCCGAGAGCGGTCCGGATCTGTTCGTGCACTTCCGCGCTATCGAAGGCAATGGCTTCAAGAGCCTGAAAGAAGGCCAGAAAGTCAGCTTCGAAGCCGTACAAGGCCAGAAAGGCATGCAGGCTGACAAGGTCCAGATCCTGGGCTAA	MSNRQTGTVKWFNDEKGFGFITPESGPDLFVHFRAIEGNGFKSLKEGQKVSFEAVQGQKGMQADKVQILG	PGPT0014675_3722	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
BMS010_07908	495			hypothetical protein	ATGCCGAAACACACGCTTCACCCACAGGGAGACTTCCCGACCGCAGGCCTCATCCGCCGACTGGCGGCGATGTTCTATGACTTCCTGCTCTGCGTGGCCCTGCTACTGGTGATCACCTTCGCCTACAAGCTGGTGCAGATGGGCATCTACGGCGAAGCTAAACTCCGTGCACTTTCCGAATCCGGCGCCCTGGATGGCGACCCACTTCTTTCCAGCCTGTTACTACTCGGCCTGTTCGGCTTCTTCGCCAAATTCTGGACGCACAATGGCCAGACCCTGGGCATGCAGGTGTGGGGGTTACGCGTGCAAAATGCCGACGGCACAGCGATCGATCTCTGGCAGGCACTGCTGCGCTTCCTGATCGCCATCATTTCCTGGCTTTGTGTAGGCCTGGGATTCCTCTGGATTCTCGGGGACAAGCAGAAGCGCAGCTGGCACGACATCTACTCCGAGAGCAAAGTCGTGCAGCTACCCAAGAACATCCACAAGAAATAA	MPKHTLHPQGDFPTAGLIRRLAAMFYDFLLCVALLLVITFAYKLVQMGIYGEAKLRALSESGALDGDPLLSSLLLLGLFGFFAKFWTHNGQTLGMQVWGLRVQNADGTAIDLWQALLRFLIAIISWLCVGLGFLWILGDKQKRSWHDIYSESKVVQLPKNIHKK				NA	NA	NA	NA	NA
BMS010_07909	1062	lptG	COG0795	Lipopolysaccharide export system permease protein LptG	ATGGCTAAGTTGGATCGTTACATCGGCACCAGCGTGTTCTTTGCGATCCTCAGTGTGCTGGGGATCATCGTTGGCCTGGCCTTGCTGTTCTCGTTCATCGATGAACTGGGCGATGTCGAGGGTGGCTATGGATTGGCCGAAGCTTTCTATTACGTCCTGCTGACCACCCCGCGGCGTATCTACGAGATGTTGCCCATGGCCGCGCTGATCGGCTGTCTGATCGGCCTCGGCAGCCTCGCCAGCAGCAGCGAGCTGACCATCATGCGCGCGGCGGGCGTGTCGATCGGGCGGATCGTCTGGGCGGTAATGAAGCCGATGTTGGTGCTGATGCTGGTGGGCATCCTGATCGGCGAGTACGTGGCGCCCTGGAGCGAAAACCTGGCGCAGGCCAATCGAGCCATGGCGCAGGGCGGTGGCGATGCGCAGAGTGCCAAGCGCGGTCTCTGGCATCGTCAGGGTGATGAATTCGTGCACATCAACGCCGTGCAGCCGAATGGTGTGCTTTACGGCGTGACCCGTTATCGCTTCGATGACCAGCGTCATCTGGTGGAGTCCAGCTTTGCCCGGCGAGCGCTGTACCAGGGCGATCACTGGATGCTGGAGGATGTGGCGACGACCCGCTTCCATGAGCGCAGCACCGAAGTCAGCCAGGCATCGACCCTGCGCTGGGATGTCGAGCTGAGCCCGCAATTCCTCGGCACCGTGGTGCTGGCGCCGGATGCGCTGTCGATGACCGGATTGTGGCGCTATATCCAATACCTGGCGGACCAGGGCCTCAACAACGGCAACTACTGGCTGGCGTTCTGGAACAAGGTGTTGCAGCCGCTGGTAACGGCGGCGCTGGTGCTGATGGCAATCTCGTTCATCTTTGGCCCGCTGCGCTCCGTGACGCTGGGGCAGCGGGTATTCACCGGCGTGCTGGTGGGCTTCGTGTTCCGCATTGCTCAAGACCTGTTGGGGCCGTCCAGCCTGGTGTTCGGCTTTTCGCCGCTGCTGGCGGTGGTGCTGCCGGCCGGTATCTGTGGCCTGGCCGGTTTCTGGCTGCTGAGACGAGCCGGCTGA	MAKLDRYIGTSVFFAILSVLGIIVGLALLFSFIDELGDVEGGYGLAEAFYYVLLTTPRRIYEMLPMAALIGCLIGLGSLASSSELTIMRAAGVSIGRIVWAVMKPMLVLMLVGILIGEYVAPWSENLAQANRAMAQGGGDAQSAKRGLWHRQGDEFVHINAVQPNGVLYGVTRYRFDDQRHLVESSFARRALYQGDHWMLEDVATTRFHERSTEVSQASTLRWDVELSPQFLGTVVLAPDALSMTGLWRYIQYLADQGLNNGNYWLAFWNKVLQPLVTAALVLMAISFIFGPLRSVTLGQRVFTGVLVGFVFRIAQDLLGPSSLVFGFSPLLAVVLPAGICGLAGFWLLRRAG	PGPT0023295_2916	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023295-lptG-K11720	NA	NA
BMS010_07910	1122	lptF	COG0795	Lipopolysaccharide export system permease protein LptF	TTGATTGTCTTCCGTTATCTGTCCCGTGAGCTGCTGATCACCTTGAGCGCGGTGAGTGCCGTGCTGCTGGTGATCATCATGAGTGGCCGTTTCATCAAATACCTGGCTCAGGCCGCTCAGGGCCTGCTCGACCCGGGCGTGTTGTTCCTGATCATGGGCTTTCGCCTGCCGGGCTTTCTGCAATTGATCCTGCCGCTGGGGCTGTTCCTCGGCATCCTGCTGGCCTACGGCCGGCTGTATCTGGATAGCGAGATGACCGTGCTATCGGCGACCGGCATGAGTCAGAGCCGGCTGATGGCCTATACCCTGGCCCCGACCGCGCTGGTCGCGCTGCTGGTGGCCTGGCTGAGCATGGGCCTGGCGCCACAAGGGGTGGCCGAGGTGGCGCGCATCCTCAATGAGCAGGATGCGCTGACCGAGTTCGATACCCTGGTGCCCGGTCGTTTCCAGACCATGAAGAACGGCACCCGCGTGACTTACACCCGCGAGTTGTCGGAAGACCGTGGCGAGCTTGCCGGCATCTTCATTTCGGAGAAGCGCCTGTCCCGGCAAGGCGATAAGGAGCGCGGCATCACCGTGCTGGTGGCCGAATCCGGGCGCCAGGAAATCCAGCCGGACGGCAGCCGCTACCTGATCCTGGAAAACGGTTACCGCTACGATGGCAACCCGGGCCAAGCGGACTATCGGGCGATCCAGTACGACACCTACGGTGTGCTGCTGCCGAAGCCGGAAGTCAGTGCCGAAATCAGCGAGCGCGAGGCGATCCCGACCCGCGAGTTGTTCGGTAGCGATAAGCCGCGTTACCAGGCCGAGCTGCAATGGCGCCTGTCGATCCCGTTGCTGGCCTTCGTGGTGGCGCTGATGGCGGTGCCGCTGTCCAAGGTCAATCCGCGTCAGGGGCGTTTCCTCAAGCTGCTGCCGGCGATCCTCCTGTATATGGCTTACCTGTCGCTGCTGATCGCCGCCCGGGGCGCGCTGGATAAAGGAAAGATTCCTATGCAGCTCGGGCTCTGGTGGGTGCATGGGTTGTTCCTGGCCATCGGCCTGTTGCTGCTCTACTGGGAACCCTTGCGGCTGAAGTTGGCCGCCCGTCGTACCGTGCGGGAGGTGGCCCATGGCTAA	MIVFRYLSRELLITLSAVSAVLLVIIMSGRFIKYLAQAAQGLLDPGVLFLIMGFRLPGFLQLILPLGLFLGILLAYGRLYLDSEMTVLSATGMSQSRLMAYTLAPTALVALLVAWLSMGLAPQGVAEVARILNEQDALTEFDTLVPGRFQTMKNGTRVTYTRELSEDRGELAGIFISEKRLSRQGDKERGITVLVAESGRQEIQPDGSRYLILENGYRYDGNPGQADYRAIQYDTYGVLLPKPEVSAEISEREAIPTRELFGSDKPRYQAELQWRLSIPLLAFVVALMAVPLSKVNPRQGRFLKLLPAILLYMAYLSLLIAARGALDKGKIPMQLGLWWVHGLFLAIGLLLLYWEPLRLKLAARRTVREVAHG	PGPT0023290_1363	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023290-lptF-K07091	NA	NA
BMS010_07911	1491	pepA_3	COG0260	Cytosol aminopeptidase	ATGGAATTCCTTGTCAAAAGCGCTCGTCCGGAAACCCTGAAAACCGCCACCCTGGTGCTGGCCGTCGGCGAAGGCCGCAAGCTGGGCGAAACCGCCAAGGCGGTGGATGCCGCCAGCGGTGGTGCCATCAGCACCTTGCTCAAGCGCGGCGACATCGCCGGCAAGCTCGGCCAGACCCTGCTGTTGCACAGCGTGCCCGCGCTCAAGGCGGAGCGTGTCCTGCTGGTGGGCTGTGGCAAGGAGCGTGAACTGTCCGACCGGCAGTACCGCAAGGTCATCGGCGCGACCCAGGGCGCACTGAAAGGCCTGGGCGGAAAGGATGCCGTGATCACCCTGCACGAGCTGCCGGTGAAGAGCCGCGACCTCTATGGCAAGACCCGCCTGCTGGTGGAAGGCCTGATCGACGGCGGCTACGTCTTCGACCGCTTCAAGAGCCAGAAAGCCGATCCGCGCGCACTGAAGACCGTTACCCTGACCGCCGACAAAACCAGCCAGGCCGATGTCGAGCGCGCCGCCACCCACGCCCGGGCGATCGCCGCCGGCATGGCCCTGACCCGCGACCTGGGCAACCTGCCGCCGAACCTCTGCCACCCGAGCTTCATGGCCGAGGAAGCCAAGAACCTGGCCAAGGCCTACAAGGGCCTCAAGGTCGAGGTACTGGACGAGAAGAAACTCAAGGAACTGGGCATGGGCGCCTTTCTCGCCGTGGGCCAGGGCAGCGCCCAGCCGCCGCGCCTCGTCGTGCTGCAGTACAACGGCGGCAAAAAGGACGATAAGCCCTACGCGCTGGTCGGCAAGGGCATTACCTTCGACACCGGCGGCATCAGCATCAAGCCTTCGGCCAACATGGACGAGATGAAATACGACATGTGCGGCGCCGCCAGCGTGCTCGGCACCTTCCGCGCCGTGCTCGAACTGCAACTGCCGATCAACCTGGTCGGCCTCCTCGCCTGCGCCGAGAACATGCCCAGCGGCCATGCCACCCGCCCGGGCGACATCGTCACCACCCTGAGCGGCCAGACCGTCGAGATCCTCAATACCGACGCCGAAGGCCGCCTGGTGCTGTGCGACACCCTGACCTACGCCGAGCGCTTCAAGCCGCAGGCAGTCGTGGACATCGCCACCCTGACCGGCGCCTGCATCGTCGCCCTGGGCAGCAATGTCTGCGGCCTGATGGGCAATAACGACGGGCTGGTCAAGCAACTGCTCAAGGCCAGCGAGACCGCCGACGACCGTGCCTGGCAACTGCCGCTGTTCGAGGATTACCACGAGCTGCTGGAAAGCCCATTCGCCGACGTCGCCAACATCGGCGGACCGAAGGCCGGCACCATCACCGCAGGCTGCTTCCTGTCCCGCTTCGCCAAGAACTACCACTGGGCGCACCTCGACATCGCCGGCACCGCCTGGATCAGCGGCGGCAAGGACAAGAACGCCACCGGCCGTCCCGTCCCGCTGCTGACCCAGTACCTCCTGGACCGCTGCAAGGCCTGA	MEFLVKSARPETLKTATLVLAVGEGRKLGETAKAVDAASGGAISTLLKRGDIAGKLGQTLLLHSVPALKAERVLLVGCGKERELSDRQYRKVIGATQGALKGLGGKDAVITLHELPVKSRDLYGKTRLLVEGLIDGGYVFDRFKSQKADPRALKTVTLTADKTSQADVERAATHARAIAAGMALTRDLGNLPPNLCHPSFMAEEAKNLAKAYKGLKVEVLDEKKLKELGMGAFLAVGQGSAQPPRLVVLQYNGGKKDDKPYALVGKGITFDTGGISIKPSANMDEMKYDMCGAASVLGTFRAVLELQLPINLVGLLACAENMPSGHATRPGDIVTTLSGQTVEILNTDAEGRLVLCDTLTYAERFKPQAVVDIATLTGACIVALGSNVCGLMGNNDGLVKQLLKASETADDRAWQLPLFEDYHELLESPFADVANIGGPKAGTITAGCFLSRFAKNYHWAHLDIAGTAWISGGKDKNATGRPVPLLTQYLLDRCKA				NA	NA	NA	NA	NA
BMS010_07912	429	holC	COG2927	DNA polymerase III subunit chi	ATGACCAAAGTCGACTTCTACATCCTGCCCAGCGCCGATCCCGAGGCACGTCTGGCCTTCGCCTGCAAACTGGCGGAAAAAGCCTGGCGTCTGGGGCATCGCATCTACGTTCACTGCCAGGACGACGCCCAGCGCAACCGTCTTGACGCGGAAATGTGGCGCTTCAAGGGCGAAGCCTTCCTGCCGCACAGCCTGGCCGAGGAGGATGAAGAGGCGCCGGTGGTCCTGGGGCTCGGCGAAGCGCCAGGCACTCACCAGGACCTGCTGATCAACCTGGGAGCCGGTGTGCCCGCCTTTTTCAGCCGCTTCGCCCGGGTCGTCGAACTGGTGGTCGAAGAGCCATCCATCCGTCAGGCGGCAAGAGAGAGTTTCCGTTTCTACCGGGAGCACGGCTATCCTTTGCAGGACCACCGCCTGCCCCGCCTGTGA	MTKVDFYILPSADPEARLAFACKLAEKAWRLGHRIYVHCQDDAQRNRLDAEMWRFKGEAFLPHSLAEEDEEAPVVLGLGEAPGTHQDLLINLGAGVPAFFSRFARVVELVVEEPSIRQAARESFRFYREHGYPLQDHRLPRL				NA	NA	NA	NA	NA
BMS010_07913	420			hypothetical protein	ATGGACAGCCATACCCCACCGCAAAAACCCAAGCAGTTGCTGGACGATCTCGAATCGATCCGCGATCTGCTGGGCGACGACACACTGGAACCGCCGTTGTTGACCGAATCCGTCGATCCGGCGCAGATTCCCCTGCTCTCCGACGTGGTCGCCCCGGCCCCGCCCCATACCGCCCCACGCGCGGCAGCACCGGCGCCTGTACCGCCCCCCGCCGCCACGCCTCGCCCCACGGCGCCTGTCGCGGCAACCGTCCAGCACAGCGTCGCCGCCGAACTGGCGCGCCTGGACACGGAACTGCGCGCCTCCGCGCAATTGATCCTGCAGGACGTGATCGACGATTTCGTGCCGCAGATCGAGGCCGAACTCAAGCGCCGCCTGGACGCCCGCCTGGATCGTTTGCTGGCCCAACGCAAACGGTAA	MDSHTPPQKPKQLLDDLESIRDLLGDDTLEPPLLTESVDPAQIPLLSDVVAPAPPHTAPRAAAPAPVPPPAATPRPTAPVAATVQHSVAAELARLDTELRASAQLILQDVIDDFVPQIEAELKRRLDARLDRLLAQRKR				NA	NA	NA	NA	NA
BMS010_07914	2835	valS_1	COG0525	Valine--tRNA ligase	ATGGACAAGACCTACCAGCCGCATGCCATCGAGACTTCCTGGTACCAGACCTGGGAGTCCAAGAACTACTTCGCCCCGCAAGGTTCCGGCGAGCCCTACACCATCATGATCCCGCCGCCGAACGTCACCGGCAGCCTGCACATGGGCCATGGCTTCAACAACGCCATCATGGACGCTCTGATCCGCTGGCGCCGCATGCAAGGCCGCAACACCCTGTGGCAGCCGGGCACCGACCACGCCGGCATCGCCACGCAGATGGTGGTGGAGCGCCAGCTCGCCGCCCAGGGCGTCAGTCGCCACGACCTCGGCCGGGAAAAATTCCTGGAGAAAGTCTGGCAATGGAAAGAAGAATCCGGCGGCACCATCACCCGCCAGATTCGTCGCCTGGGCTCCTCGGTGGACTGGTCGCGCGAGCGCTTCACCATGGATGCGGGCCTGTCCGAGGCGGTCAAGGAAGCCTTCGTCCGCCTGTTCGAAGACGGCCTGATCTACCGCGGCAAACGCCTGGTCAACTGGGACACCAAATTCCACACCGCCATTTCCGACCTGGAAGTGGAAAATCATGACGAGAAGGGCAACCTCTGGCACCTGCGCTACCCGCTGGCGGACGGCGCCAGGACGGCCGAAGGCCTGGGCTACCTGGTGGTCGCCACCACCCGCCCGGAGACCATGCTCGGCGACGCCGCCGTCGCGGTGCACCCGGAGGACGAGCGCTACAAGGGCCTGATCGGCCGCCACGTCATGCTGCCGCTGGTCAACCGCCTGATCCCCATCGTCGCCGACGAATACGTCGACCGCGAGTTCGGCACCGGCTGCGTGAAGATCACCCCGGCCCACGACTTCAACGACTACGAAGTCGGCAAGCGCCACAACCTGCCGCTGATCAACATCTTCGACAAGAATGCCGCAGTGCTGGAAACCGCCCAGGTGTTCAACCTCGACGGCAGCGTCAACGACCGGGTCGATCCGACCCTGCCGGACAGCTACGCCCACATGGACCGCTTCGAGGCACGCAAGGCCATCGTCGCGGACTTCGACGGCATGGGCCTGCTGGAGAAGGTCGACGACCATGCCCTGAAAGTGCCGCGCGGCGACCGTTCGGGCACCGTCATCGAGCCCTGGCTGACCGACCAGTGGTACGTCGCTACCAAACCGCTGGCCGAGAAGGCCATCGCCGTGGTGGAAAGCGGCGAAATCCAGTTCGTGCCGAAGCAATACGAGAACATGTATTTCAGCTGGATGCGCGACATCCAGGACTGGTGCATCAGCCGCCAGCTCTGGTGGGGTCACCGCATCCCGGCCTGGTACGACGAAGCCGGCAACGTCTATGTCGGCCGCGACGAAGCGGAAGTCCGCACCAAGTACAACCTGACCAACGACATCGACCTGCGCCAGGACGAAGACGTGCTGGACACCTGGTTCAGCTCGGGCCTATGGACCTTCTCCACCCTCGGCTGGCCGGAGCAGACCGACTTCCTCAAGACCTTCCACCCCACCGACGTGCTGGTCACCGGCTTCGACATCATCTTCTTCTGGGTCGCCCGGATGATCATGCTGTCCACTCACCTGACCGGGCAGATTCCGTTCAAGACCGTCTATGTCCATGGCCTGGTGCGCGACGGCCAGGGCCAGAAGATGTCCAAGTCCAAGGGCAACGTGCTCGACCCGCTGGACATCGTCGACGGCGTCGATCTCGATACCCTGCTGGCCAAGCGCACCAGCGGCATGATGCAGCCGAAGCTGGCGGAAAAAATCGCCAAGCAGACCCGCGCCGAATTCCCCGAGGGGATCGCCAGCTACGGCACCGACGCCCTGCGCTTCACCTTCTGCTCGCTGGCTTCCACCGGTCGCGACATCAAGTTCGACATGGGCCGCGTCGAGGGCTACCGCAACTTCTGCAACAAGCTGTGGAACGCCACCAACTTCGTACTGGAAAACACCGACGGCAAGGACTGCGGCGTCAACGACGAACCCGTGGAACTGTCCTCGGTGGACCGCTGGATCATCTCCGCGCTGCAACGCACCGAAGCCGACGTCACCCGCCATCTCGAAGCCTTCCGCTTCGACCTGGCCGCCCAGGCCCTCTACGAGTTCATTTGGGACGAGTACTGCGCCTGGTATCTGGAGCTGGTCAAGCCGGTGCTGTGGGACGAGCAGGCCTCTGTCGAGCGCCAGCGCGGTACCCGCCGCACCCTGATCCGCGTGCTGGAAGTGGCGTTGCGCCTGGCGCATCCGTTCATGCCCTTCATCACCGAAGAGATCTGGCAGCGGATCAAGGCCCAGGCCGGCAAGCAGGACGAAACCATCATGCTGCAGCCTTGGCCGGTGGCCAACGAGGCGCGCATCGATGCGGCCGCCGAAGACGACATCGCCTGGGTCAAGGCCTTCATGCTCGGTGTGCGACAGATTCGCGGCGAGATGAACATCTCCATGGCCAAGCGCATCGACGTGGTGCTGAACAATGCCGGCGCCGAAGACCGTCGCCGGCTGGCCGAGAACGAGCCGCTGCTGAAAAAGCTGGCCAAGCTGGAAAGCGTGCGCATCCTGGAGGGCGGCGAAGAAGCCCCGCTGGCCGCCACCGCGCTGGTCGGCGAGATGGAAGTGCTGGTGCCGATGGCCGGCTTGATCGACAAGGACGCCGAACTGGCGCGCCTGGACAAGGAAATCCAGCGCCTCGGCGGCGAAGTGCAGCGGGTCGGCGGCAAGCTGTCCAATGCCAGCTTCGTCGACAAGGCTCCGGCCGAAGTGATCGCCAAGGAGCGCGCCAAGCTGGCCGAGGCCGAACTGGCCCTGGGCAAGCTCAACGAACAGCGCGAGCGTATCGCCAGCCTGTAA	MDKTYQPHAIETSWYQTWESKNYFAPQGSGEPYTIMIPPPNVTGSLHMGHGFNNAIMDALIRWRRMQGRNTLWQPGTDHAGIATQMVVERQLAAQGVSRHDLGREKFLEKVWQWKEESGGTITRQIRRLGSSVDWSRERFTMDAGLSEAVKEAFVRLFEDGLIYRGKRLVNWDTKFHTAISDLEVENHDEKGNLWHLRYPLADGARTAEGLGYLVVATTRPETMLGDAAVAVHPEDERYKGLIGRHVMLPLVNRLIPIVADEYVDREFGTGCVKITPAHDFNDYEVGKRHNLPLINIFDKNAAVLETAQVFNLDGSVNDRVDPTLPDSYAHMDRFEARKAIVADFDGMGLLEKVDDHALKVPRGDRSGTVIEPWLTDQWYVATKPLAEKAIAVVESGEIQFVPKQYENMYFSWMRDIQDWCISRQLWWGHRIPAWYDEAGNVYVGRDEAEVRTKYNLTNDIDLRQDEDVLDTWFSSGLWTFSTLGWPEQTDFLKTFHPTDVLVTGFDIIFFWVARMIMLSTHLTGQIPFKTVYVHGLVRDGQGQKMSKSKGNVLDPLDIVDGVDLDTLLAKRTSGMMQPKLAEKIAKQTRAEFPEGIASYGTDALRFTFCSLASTGRDIKFDMGRVEGYRNFCNKLWNATNFVLENTDGKDCGVNDEPVELSSVDRWIISALQRTEADVTRHLEAFRFDLAAQALYEFIWDEYCAWYLELVKPVLWDEQASVERQRGTRRTLIRVLEVALRLAHPFMPFITEEIWQRIKAQAGKQDETIMLQPWPVANEARIDAAAEDDIAWVKAFMLGVRQIRGEMNISMAKRIDVVLNNAGAEDRRRLAENEPLLKKLAKLESVRILEGGEEAPLAATALVGEMEVLVPMAGLIDKDAELARLDKEIQRLGGEVQRVGGKLSNASFVDKAPAEVIAKERAKLAEAELALGKLNEQRERIASL				NA	NA	NA	NA	NA
BMS010_07915	1449	mleN	COG1757	Malate-2H(+)/Na(+)-lactate antiporter	ATGACCGCTCCCCGCTCCCCTTCCCTGCTCGACGCCCTGTTGCCGATCGCCGTCCTGGTGACATTGCTCGGCCTGTCCGTCTACCTGTTCGGCGACAGCTCCTCGTCCGGCCCCAACCAGATCGCCCTGATGGCCGCAGCCTTCGTCGCCGGCTTGGTGGGTCTGAAGAACGGCCAGCGCTGGGGACAGATCGAGGAAGGCATCCTCGCCGGCATCCACATGGCGATGAAAGCCAACCTGATCCTGCTCTCGGTGGGAGCGCTCATCGGCGCCTGGATTCTCGCCGGCACCGTGCCAACCATGATCTGGTACGGCCTCAAGCTGATCTCGGCGGAATACTTCTATGTCACCAGTTGCCTGATCTGCGCCTTGGTCGCGCTGTCCATCGGCAGCTCCTGGACGGTCGCCGGCACCCTCGGCATCGGCCTGATGGGCGTGGCCTCGGGCCTCGGCCTGGACCCGGCGATCACCGCCGGGGCGATCATTTCCGGCGCCTACTTCGGCGACAAGCTGTCGCCGCTGTCGGACACCACCAACCTCGCCCCGGCGGCGGCCGGCGCCGACCTGTTCCAGCACATCCGCTACATGTCGCACACCACGGTACCGGCCCTGCTGATCAGCCTGGCGATCTTCTTCGTGCTCGGCCAGCAGGCCAGCGACAGCCACGACACCACTCGCATCCAGGCCGTGCTGAGCGCCTTGGAGGGTCAGTTCAGTCTTGGCTGGCACCTGCTGCTGCCGGTGGCCTTCCTGCTGTTCCTCGCCATGCGACAATGGGCGGCCTTCCCCGCCGTGTTCCTCGGTGCCCTGGTCGGCGCGGTGTTCGCCGTGCTCTTCCAGCCCGAGGTGATGAGCCGCCTGGCCGACCCGCAAGCCGGCGCGCTCGCCCCGCTGAAAACCGTGTGGAGTGCTCTGTTCGCCGGCTACCAGTCGGACAGCGGCAACGCCGAACTGGATGGTCTGCTATCCAAGGGCGGCATGGGCAGCATGCTCAACACCGTCTGGCTGATCATCTGCGCCATGAGCTTCGGCGGTGTGCTGGAGAAACTCGGCCTGCTGCAGCGACTGCTCAACAGCACCATCCACCTGGCCAAGCGCACCAGCAGCCTGATCGCCAGCACCATCGTCACCACCATCGGCACCAACGTGATCACCGCCGACCAGTACATCGCCCTGGTCCTGCCCGGCCGCATGTACCGCGCCGAGTACGAGAGCCGCGGCCTGAAACCCACCGTCCTGTCCCGCGCCCTGGAAGACGGCGGCACCCTGACGTCGGTGCTGGTGCCCTGGAACACCTGTGGCGCCTATATGGCCGCCACCCTCGGCGTGGCCACGCTGACCTACCTGCCGTACTGCTTCTTCAACCTGATCATGCCGCTGATGGCCATCAGCCTGGCCTTCGCGCGGCCGCCGCAGCCAATGGTTGCCGCGGAACCGGCCCAAGCCTGA	MTAPRSPSLLDALLPIAVLVTLLGLSVYLFGDSSSSGPNQIALMAAAFVAGLVGLKNGQRWGQIEEGILAGIHMAMKANLILLSVGALIGAWILAGTVPTMIWYGLKLISAEYFYVTSCLICALVALSIGSSWTVAGTLGIGLMGVASGLGLDPAITAGAIISGAYFGDKLSPLSDTTNLAPAAAGADLFQHIRYMSHTTVPALLISLAIFFVLGQQASDSHDTTRIQAVLSALEGQFSLGWHLLLPVAFLLFLAMRQWAAFPAVFLGALVGAVFAVLFQPEVMSRLADPQAGALAPLKTVWSALFAGYQSDSGNAELDGLLSKGGMGSMLNTVWLIICAMSFGGVLEKLGLLQRLLNSTIHLAKRTSSLIASTIVTTIGTNVITADQYIALVLPGRMYRAEYESRGLKPTVLSRALEDGGTLTSVLVPWNTCGAYMAATLGVATLTYLPYCFFNLIMPLMAISLAFARPPQPMVAAEPAQA	PGPT0013945_731	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013945-nhaC-K03315	NA	NA
BMS010_07916	4971	bepA_6		Beta-barrel assembly-enhancing protease	ATGGATATCCACGCTTCGCTCCGCTCCCCGGTCCTGGACATTCCCGACAGCACGCTCGATGCCATCGAACGCCTGGTCGACGAGGGCTACCTGTTGCAGGCCCACGAGAAGGCCACTGGCCTGGGCGACTATCGCGACTGGCGCGGGCCACGTGCCATGGCGCTGGCTGCCCGCCTGGCAGGCAACCTGGGCGCGCCGCGCTTGGCCGATGCGCTGATCCGCCTCGGCTATCGCCGCTATCCCCAGGCTGCCGAGACGCGCTTGCGTTACGCTCGTTTCCTCCTTTCCAATCGCGGCCCTCACCGAGCCTGGGCGTTCTTCCATTCGCTGGATGGCTGGCTGCCCACGCAGGCGACGCTTCGAGCCGAATGGCTATCGCTGAAAAGCTATCTGCTGGCGCTGTTGCGCGACTTCGCGGAGGCCGAGGCGCTGCATCGCGAAGCGCTGGATTGCGGAGTGGATGATCCCTGGCTGTGGGTCGAACGCTCCTACGGGTTGGAGCAGGAGGACCGCTACGACGAAGCGCTGGAGGTCTGCGAACGTGCGCTCGGCTATCCGCTGCGGCTGCGTTCGGCGCTGCAGCAGGTGACCCAGCTTCAGGTTCAACGGGGCGATGTCGGGACGGCCCTGGAGAGGCTGCGCGAAGCCGCCGGCAACCTGGAAAGCGGTTCCCTTTGCGCTCAACTGGCCGATCTCCTGATCGAGCGTGGCGAACTGGACGAGGCCGAGACCTGGCTGCGTCGGGCTGAAGGCTGCATGCCATTGTTGCGCAAGGAGCAGGCACACTGGCTGGCGGCGCGGCGCTGCGACATCGCGTGCCTCCGGCAGCACTGGGAAGAGGCCGAGGTCGAGGCCGAACGGGCCGGCGGGGGCTTCTACCGGGGCGTGCTGGAGAGCCTGCGGCGCGGTGAGCGGGGTATCCGCCGCTTGTTGCCGGTAGGTTTCGTGCGCCAGCACCACATGACCTGCGTCCCCGCCACCCTGACCGCCCTGGCGGGCTACTGGAGCCGTCCGGTGGAGCACTTGGAGGTGGCCGAGGAGATTTGTTACGACGGTACGTCACATTTCGCGGAGCGCGCCTGGGCCGAGCGGCACGGTTGGCTGGCACGCGAGTTCACTGTGGATTGGGATATCGCCCGAGCCTTGATCGACCGCGGCGTGCCTTTCACCCTCACCATCCAGTACACCGGGAGCGGTCACCTGCAGGCCGTCGTCGGCTACGACGAGCCGCGTGGCACTTTGCTGATCCGCGACCCCGGCCTGGCCCAGCATACGGAGTTCCGGGCCGTGGAGCTGTTGCAGGCGCAGCGCTCTTCCGGGCCGCGCGGCATGCTGTTGCTGCCGCCGGAAGAGTCGGAGCGGCTGGAGGGGCTCGTCCTGCCCGAGGCTGACTACTGGGATGGTTACTACCGACTGATGGCGGCTCTGGAGGCACACGAGCGGGACTCTGCGCTGGCAGGGCTGGCCTCGTTGCAGGCGCAGGCGCCTGACCACTTGCTGACGCTGCAGGCCATGCGCGCGGTAGCTGCCTACGATGGCGACCAGGTTCGTCTGTTGCAGGCGACCGAAGCCCTGCTGGAGCAATTCCCCCAGGATGCCAACCTGGTGTTGTCCAAGGCGGCGTCGATGAGCCAGCTTCGCCCCTGGGCGGAGCAACTGGCCTGGCTGGCAGAGCACGGCGAGCGGCGCGACAGCGATCCGGGCATCGCCGTGCGCTATGCCCAGTCGCTGACCGAGGACGGTCGGGCCAGCGGCAGAGCAGCGGTGCTGCTGCGGCGGGTGTTGCGTCAGACACCGACGGAGGCGCAGGCCTGGAACGGCCTGGCCGGGTTGCGCTGGGCCGACGGTGCGCGCGAAGAGGCGACCGAACTGTTCCGCGTCGCTGCGTGCCTGCAATTCATGCGCGAGCCCTACAGCCTTCATTACTTCCGTGCCGAGCGCAGTCTCGGTCGTACCGAGCGCGGCCTGGCCCTCCTGCAGGACCGCCAGCGGCGGCTCGGCCGGCTTGCCGCAGGCCCCACCTTGACTCTGTGCGAACAATTGGAAGAGCTGGAGCGCAGCGAAGAGGCCCTCGTATTGCTGGAGCAAGCGCTGGAGGTTCGCCCGCTGGATCCCGACCTGCTGCTGTATGGCGTCGATCTGCTGGGTCGCCATGGCGAAGTGCATCGCGCGGAGACTCTGCTGGCACGGGCCGAACCGGTCAGCCGGCGTAGCGCCTGGTTACGCGCGCGGGTCCTGCATAGCCAGCGCCGCGCCGGGGATGCCCGGGAGGCGCTGGGCTGGTGTCGCGAAGCGGCAGAGCTGGACCCCTTCAATCTGAGCCTGCACCGCCTGTGCATCGGCCTGCTGGTGCAGTGCGAAGGGGGCGATGCGGCACAGGCTTATCTGCAGGCGTTGGCGACCCGTTTCGAACATCACTGCGGCATTGCCGAGCTGTTGGTGGAGCGTGCTCAGCAGCGTTCCCTGGCCGAGGCTGAGGAGGCCCTGCGCCGTCTCTTGCGGAGCCACCCTCATCATTCTTGGGCGCTGCGCGAACTGTCGATCGTTCTGAGCCGCCAGGGGCGTGGCGAGGAGGCCATGGAAATGGTTGAAACGGCCTGCCAGATCGATCCGACCAACAGCGCGTCCTGGTCCACGCGAGGTTTCGTCCTGTTGCAGAGCGGCCGGATCGAAGCTGCACACGAAGCGTTTCGCGACTCGCTGCGGCGTTCCGTGGATAACGACTACGCCGGCAACCAGTTGATCGACACCAGCACCAGCCAGGAAGAGGCGCGGCAGAACCTGGCCTTTCTTCACGCCGAGCTGATTCGCCAGGTGACCTTCGGTGACGGCTGGATGACCTACCAGATCCAGGGACAGAACCTGCTGGACGGCGACGTCGTGCTGGAGGCGCTGCGCGAGGCGCTCGCCCGGCGCCCCGATCTCTGGCAGGTCTGGGTTGCTCTTGGCTGGCAATTGGTCGCCATGGAGCGTTTGGATGAAGCGGCGGCATTGCTGGACGAGGCCGTCGAACGCTTCCCCCTGTTGCCGCGCATCGCGCTCGAACGCGCCGAGTTGCACAAGCGATTGGGGCATCTGGCGGAGTGCCAGGCGGTATTGGAGCGCAGTTTCCGTATCAATCCGCTATGGACCCGGAGCGTCCGCCTGTACGTTGAGTGCCTGCTGGAGGATGGGCGCCAGCTGGAGCGTGCCGACCAGTTGCTCGCCAGCGTGCTGGCCCGGACACCGGAGAACCATGAGCTGCGTGCCTTCCGCGCCTATGTGCTGGGCGAGCAGGAGCACTACGAGCAGGCCATGCAGCAAGCCGAGTACGTGCTGCGGCACGAGCCGGGCCATCGTTGGGCGTGGGACCAGTTCAAGCGATATGCCGGGCTTCTGGAGCAGCCGGACCGGCCCTTGGCGTTGGCCCGCGAGTTGGTCCGGCTGCGGCCGGGGGAAGCCGAAGCCTGGCTGCTGCTAGCCGGTCAGGAAGCTGACGAGGCTGCGCGCGAAGAGGCGCTGCGGCAGGCATTGCAGCGTGAGCCGCGTCATGAGGCGGGCAATGGGGCATTGCTTGACCTGCTGCTCTGTTCGGAGCGGCACGAGGAGTTGCGTGCCTGGCTGCAGGCGTCTCATTGGGGCGACCGCCCACCGGTCGGTTTGGCGCTCTATGGTCCGCGCTCGCTGCGTGCCCAAGGGCGCGGCGAGGAGGCGATCGCTGAACTGCATGCCCTGCTCGAACATCTGCCGGATAGCTATCCGACCTGGCGCGAACTGGCTGATCAATTCGAACTGTCGGAGGACTTTCCCGGTTATGTGAAGGCCGCGCGGCAGATGGTGCGCCTGGACCCGAAATCGGCCATATCCCATGGCTACCTGGGGCACGCGCTGATGCTGAACCAGGAGCGGGACGCGGCACGGGAGGCCTTTCTCCAGGCGTTCCTCCTGGACAGTGACTATGTGTTCGCCGGGGTGAATGCCTACGACCTGCTGCTGGAGCAGGGCGACCGCAGCGCTGCCCGGCCGATCCTCGACCAACTGCTTGCCAGCTCCCGGGCACCCGTGCTCGCCCTGCGGGCGCTGCGCCTATCGCTGGCGGTGGGTGATGCCGCACTCAAGCGCGAGGCGCTGGAGCGGTTGTGCCGCGACCTGGATGCGGAGGAGCACTGGGGTGAGGTGCTCACTATCATCACCGAGCCTCACAAAGATGCGGACCTGCGTACCGTGCTGGAACACTCGCTTCGTGACGGCTGTTCGCATGTGGCGGCGGCTCGCTATTGGCTGCAGCTCGAAGATGCCCGGTGGGCGCCTGGCAGCTTGCCGCGCGCTTTCCGGCGGATGCTGCCGCACGACCGCGACAACCGGCTCGCGCGGGCCATGTTCGATCTACTGGCCACCCGGGAGAACAGCCGGGGCCTGCTTCAGGAGACGCTCACCCAGTGCCGCGCGGCAATCCGCGAGGACGATCAGGTCTGGGCCATGGCCAGCTACGCGTTGCTCGGGCACGACCTGTTCGACACCCTGTTCCACTGGATGGGCGACTGGCAAACACGTCCGCAGGCACCGTCCTGGGGTCTGAGCAATCTGGCCACCGGTTGCTACCTGCGTGGCCGGGACAACGAGGGCCTTGCAGTGGCCCGGGCCGCTCTGGAGCGCGAACCCCGCGATCCCATCGCGCGCTGCTGGCTGGCGTTCGATGCGGCGTGGCATGAGCGGCACGACGAGATGCGAGAGCATCTGGCTCTGCTCGAGGATGAGCGGCTCGGTGTATTCCACCGGTGTACGCTCGGCCTCATCCGTGGGTATGCACAGGCCCTGGAAGCAGGAGACGGGATGGCCGCCCAGTGGCCCTTCCGGGAGACGGCGGCGCTGGCACGCAATATCAATAATCCCGCCTACCGACGGCTGCGTAACCGGCTCGCTGTCCGTCTGGCCCGTATTGGCGCGGTGCCTGGCTGGCTTTGGCCGTTACGCTGGCTGCGGCTGCGCTGA	MDIHASLRSPVLDIPDSTLDAIERLVDEGYLLQAHEKATGLGDYRDWRGPRAMALAARLAGNLGAPRLADALIRLGYRRYPQAAETRLRYARFLLSNRGPHRAWAFFHSLDGWLPTQATLRAEWLSLKSYLLALLRDFAEAEALHREALDCGVDDPWLWVERSYGLEQEDRYDEALEVCERALGYPLRLRSALQQVTQLQVQRGDVGTALERLREAAGNLESGSLCAQLADLLIERGELDEAETWLRRAEGCMPLLRKEQAHWLAARRCDIACLRQHWEEAEVEAERAGGGFYRGVLESLRRGERGIRRLLPVGFVRQHHMTCVPATLTALAGYWSRPVEHLEVAEEICYDGTSHFAERAWAERHGWLAREFTVDWDIARALIDRGVPFTLTIQYTGSGHLQAVVGYDEPRGTLLIRDPGLAQHTEFRAVELLQAQRSSGPRGMLLLPPEESERLEGLVLPEADYWDGYYRLMAALEAHERDSALAGLASLQAQAPDHLLTLQAMRAVAAYDGDQVRLLQATEALLEQFPQDANLVLSKAASMSQLRPWAEQLAWLAEHGERRDSDPGIAVRYAQSLTEDGRASGRAAVLLRRVLRQTPTEAQAWNGLAGLRWADGAREEATELFRVAACLQFMREPYSLHYFRAERSLGRTERGLALLQDRQRRLGRLAAGPTLTLCEQLEELERSEEALVLLEQALEVRPLDPDLLLYGVDLLGRHGEVHRAETLLARAEPVSRRSAWLRARVLHSQRRAGDAREALGWCREAAELDPFNLSLHRLCIGLLVQCEGGDAAQAYLQALATRFEHHCGIAELLVERAQQRSLAEAEEALRRLLRSHPHHSWALRELSIVLSRQGRGEEAMEMVETACQIDPTNSASWSTRGFVLLQSGRIEAAHEAFRDSLRRSVDNDYAGNQLIDTSTSQEEARQNLAFLHAELIRQVTFGDGWMTYQIQGQNLLDGDVVLEALREALARRPDLWQVWVALGWQLVAMERLDEAAALLDEAVERFPLLPRIALERAELHKRLGHLAECQAVLERSFRINPLWTRSVRLYVECLLEDGRQLERADQLLASVLARTPENHELRAFRAYVLGEQEHYEQAMQQAEYVLRHEPGHRWAWDQFKRYAGLLEQPDRPLALARELVRLRPGEAEAWLLLAGQEADEAAREEALRQALQREPRHEAGNGALLDLLLCSERHEELRAWLQASHWGDRPPVGLALYGPRSLRAQGRGEEAIAELHALLEHLPDSYPTWRELADQFELSEDFPGYVKAARQMVRLDPKSAISHGYLGHALMLNQERDAAREAFLQAFLLDSDYVFAGVNAYDLLLEQGDRSAARPILDQLLASSRAPVLALRALRLSLAVGDAALKREALERLCRDLDAEEHWGEVLTIITEPHKDADLRTVLEHSLRDGCSHVAAARYWLQLEDARWAPGSLPRAFRRMLPHDRDNRLARAMFDLLATRENSRGLLQETLTQCRAAIREDDQVWAMASYALLGHDLFDTLFHWMGDWQTRPQAPSWGLSNLATGCYLRGRDNEGLAVARAALEREPRDPIARCWLAFDAAWHERHDEMREHLALLEDERLGVFHRCTLGLIRGYAQALEAGDGMAAQWPFRETAALARNINNPAYRRLRNRLAVRLARIGAVPGWLWPLRWLRLR				NA	NA	NA	NA	NA
BMS010_07917	297			hypothetical protein	ATGGACGTGAGCAAGACCCGAACCAGTTTCTACCGCCGTCTCTACGTGGCCTGGCTGATCGACAGCGGCGCCGCCACCAGCGTACCGGCACTGATGGAGGCCACCGGCATGCCCCGGCGCACCGCCCAGGACACCCTGTCGGCGCTGGGCGAACTGGACATCGACTGCGTCTTCGAGCAACAGGAAGGCGAGCGCAACCACATCGGCCGTTACGTGATCCGTGACTGGGGGCCCATCGACCGGCGCTGGGTCGAGGCCAACCTGGCGAAGCTCAAGGCCATCCTGAACTACCCCTGA	MDVSKTRTSFYRRLYVAWLIDSGAATSVPALMEATGMPRRTAQDTLSALGELDIDCVFEQQEGERNHIGRYVIRDWGPIDRRWVEANLAKLKAILNYP				NA	NA	NA	NA	NA
BMS010_07918	1377	nhaD_2		Na(+)/H(+) antiporter NhaD	ATGTATGCATTGATGGCGCTGGTTTTCGTACTCGGATACCTCTGCATCGCGTTCGAGCACCCGTTGAGGATCGACAAGGCGGCTTCGGCAATTCTCACTGCCGTGTTCGCCTGGACCTTGCTGGTGATAGGGGCCGACAGCATTTTCCCCGCGCTGGAAAGCGCTGCGAACGGCAACAGCAACACCCACCATGTCGTCGAATCGCTCCGCCACCACCTCGGCGAGATTTCCGAAATCCTCTTCTTCCTCATGGGCGCCATGACCATCGTCGAACTGATCGACGCCCACGATGGTTTCAAGGCGATCACCGACCGCATTCACACCACCAAGCGCGTGCACCTGCTATGGCTGGTCGGCCTGATCACCTTCTTCCTTTCGGCCGCCCTGGATAACCTGGCCACCACCATTGTCATGGTCTCGCTGCTGCGCAAGCTGATCAGCGACCAGCAGGAGCGCTGGTTCTACGCCGGCATCGTGGTGATCGCGGCGAACGCCGGTGGCGCCTGGTCGCCGATCGGCGACGTCACCACCACCATGCTCTGGATCGGCAACCAGATCACTGCCAGCGGCATCGTGGTCAAGCTGCTGCTGCCGAGCCTGGTCTGCCTGCTGGTACCGCTGATCCTGCTCAGCTTCCGCCTGCGCGGGAACACCGAACCGCCGCTGGTGGTGGAACCGGAAGAAAACCGCCGCGACCCGACCACACCCTTCGAGCGCAACCTGGTGTTCTTCCTCGGTATTGCCGCCCTGGTCTTCGTGCCGCTGTTCAAGACCCTCACCCACCTGCCGCCGTACATGGGCATCCTCTTCGGCCTCGGCGTGCTCTGGGTGGTCACCGAAGTGATCCACCGCGGCAAGAACGACGAAGACAAGCACCCGCTGTCGGTAGTCGGCGTCTTGCGCCGGATCGACACCACCAGCGTGCTGTTCTTCCTCGGCATCCTGCTCGCCGTGTCCAGCCTGGCCACCGCCGGCCACCTGACCCAGGCCGCCATCGCCCTCAAGGATGGCCTGAGCAACGTCTACGCCATCAACATTGCCATCGGCCTGCTCTCGGCCGTGGTGGACAACGTTCCGCTGGTGGCCGGTGCGATGAAGATGTACCCGCTGGTCAGCCACGCGGACGTTGCCGCCGCCGGCAATGAAGCGGGCTGGCTGGGCAACTTCGTGATCAATGGCAACTTCTGGGAAATGCTCGCCTATTGCGCCGGCACCGGCGGCAGCTGCCTGATCATCGGCTCGGCGGCAGGCGTCGCGGCCATGGGCATGGAGAAGATCAACTTCATCTGGTACCTGAAGCGGATCAGTGGGCTGGCTTTCATCGGCTATATCTCCGGTGCTGCGACCTATATAGCGCTGTTCGCCACAACCACCTGA	MYALMALVFVLGYLCIAFEHPLRIDKAASAILTAVFAWTLLVIGADSIFPALESAANGNSNTHHVVESLRHHLGEISEILFFLMGAMTIVELIDAHDGFKAITDRIHTTKRVHLLWLVGLITFFLSAALDNLATTIVMVSLLRKLISDQQERWFYAGIVVIAANAGGAWSPIGDVTTTMLWIGNQITASGIVVKLLLPSLVCLLVPLILLSFRLRGNTEPPLVVEPEENRRDPTTPFERNLVFFLGIAALVFVPLFKTLTHLPPYMGILFGLGVLWVVTEVIHRGKNDEDKHPLSVVGVLRRIDTTSVLFFLGILLAVSSLATAGHLTQAAIALKDGLSNVYAINIAIGLLSAVVDNVPLVAGAMKMYPLVSHADVAAAGNEAGWLGNFVINGNFWEMLAYCAGTGGSCLIIGSAAGVAAMGMEKINFIWYLKRISGLAFIGYISGAATYIALFATTT				NA	NA	NA	NA	NA
BMS010_07919	1020	rlmF	COG3129	Ribosomal RNA large subunit methyltransferase F	ATGCCCCGCATCCCCTCCCCTCCGGGCCGCCTGCCCAAGACACACAAGCCCGCCAAGGGTCCGGCGCCGGCCGACAAGGCGCTGTTCCACCCGCGCAACCGCCACCAGGGCCGGTACGACTTCCCCGCACTGATCAAACGTCATCCGTCATTGGCCGAATTCGTCATCCTCAATCCCTATGGCAAGCAGAGCATCGACTTCGCCAACCCGCAGGCGGTGAAAGCGCTCAACCGCGCCCTGCTCAAGGATCACTACGGTATCGAGCACTGGGACATCCCCCCCGCCTACCTCTGCCCGCCGATTCCCGGCCGCGCCGACTACCTGCACGGACTCGCCGACTTGCTGGCGGAAGACAACGGCGGCGAAATCCCACGAGGTGGACGGGTACGAGCACTGGACATCGGCGTCGGTGCCAACTGCATCTACCCGCTCATCGGCCACCGCGAATACGGCTGGCGCTTCCTCGGCGCCGACATCGACCCCGTGGCCCTGGCCTCGGCGGAAACCATCGTCCGCGCCAACGGCTTGGACAGCGCCATTCAGTTGCGTCGCCAGGGCGATCCGAAGCGGATCTTCCGTGGCCTGCTGCAGCCCGACGAGCGCTTCGACCTGACCCTCTGCAACCCGCCCTTCCATGCCTCCCTCGAAGAAGCCACCCGCGGCAGCCAGCGCAAATGGCGCAACCTCGGCAAACTCGACCCGAAACGTAAGCTGCCGGTGCTCAACTTCGGCGGCCAGGGTGCGGAACTGTATTGCGAGGGCGGCGAAGCGGCCTTCGTACGGCGGATGGTGGAAGAAAGCCGGGACGTCGCCGGCCAAGTGCTCTGGTTCAGCACCCTGGTCTCCAAAGCCGGTAACCTGCCGGCGATCCAGACGGCACTGGCGCGGGTCGAGGCGCAGGAGGTACGCATCATCGATATGGCCCAGGGGCAGAAGCAGAGTCGCTTCGTGGCCTGGACCTTCCGCCCACGCAAGACGCGCCAAGGCTGGCTGGCCGGCTCAGCGGGCGAGCAAGCGTGA	MPRIPSPPGRLPKTHKPAKGPAPADKALFHPRNRHQGRYDFPALIKRHPSLAEFVILNPYGKQSIDFANPQAVKALNRALLKDHYGIEHWDIPPAYLCPPIPGRADYLHGLADLLAEDNGGEIPRGGRVRALDIGVGANCIYPLIGHREYGWRFLGADIDPVALASAETIVRANGLDSAIQLRRQGDPKRIFRGLLQPDERFDLTLCNPPFHASLEEATRGSQRKWRNLGKLDPKRKLPVLNFGGQGAELYCEGGEAAFVRRMVEESRDVAGQVLWFSTLVSKAGNLPAIQTALARVEAQEVRIIDMAQGQKQSRFVAWTFRPRKTRQGWLAGSAGEQA				NA	NA	NA	NA	NA
BMS010_07920	717			hypothetical protein	ATGTCTGACGAACGCGCCTATCGACAGCACCTGTTCATTCTGCTCGGCCTCTTCGCCGTGCTCTGGCTGATCCTGGCTATCGACCCGCACAACCGACGCGATTGGGCCATGGAAAACATCCTGGTCCTGGTGGTCGGTGCCGGCATGGTGATGAGTCATCGCTGGTTCCGCTTTTCGCGGGTATCCATCACGCTGATCTTCCTGTTTGTCTGTCTGCACGAACTCGGCGCTCACTACAGCTATGCGAAGGTGCCCTACGATGACTGGCTGCGCGCGCTGTTCGGCCAGGGGCTGGACGAAACCCTGGGCTGGGAGCGCAACCAGTTCGATCGCCTCGTGCACTTCTGCTACGGGCTGCTGATCGCCTATCCGGCGCGCGAGGCCCTGCTGCGCGGCACCGGGGCGCGAGGGTGGTGGAGTTACTTCATTGCCGTGGATTTCATCCTTTCCACCTCGGCGATGTACGAGCTGATCGAATGGATCGGCGGCGACTATTTCGGCGGCGAAGAGGCCGAGGCCTATATCGCCGCCCAGGGCGACAAGTGGGATGCACAGAAGGACATGGCCTTGGCGGGGATCGGCGCGCTGCTCGCTCTCGGCATCTGTGCCGCCGTCAACCTCCGGCAGGGCCGCGATCTGGCTTTGAACTGGGTCAGAGCCCAGGCCGGAGCGGACGGGCGAGACCGTTCGGACGGCTCACGCTTGCTCGCCCGCTGA	MSDERAYRQHLFILLGLFAVLWLILAIDPHNRRDWAMENILVLVVGAGMVMSHRWFRFSRVSITLIFLFVCLHELGAHYSYAKVPYDDWLRALFGQGLDETLGWERNQFDRLVHFCYGLLIAYPAREALLRGTGARGWWSYFIAVDFILSTSAMYELIEWIGGDYFGGEEAEAYIAAQGDKWDAQKDMALAGIGALLALGICAAVNLRQGRDLALNWVRAQAGADGRDRSDGSRLLAR				NA	NA	NA	NA	NA
BMS010_07921	3423	sbcC	COG0419	Nuclease SbcCD subunit C	ATGAAAATCCTCAGCCTGCGCCTGAAGAACCTCAATTCGCTGAAGGGCGAATGGAAAATCGATTTCACCGCCGAGCCGTTCAGGGATAACGGTCTGTTCGCCATTACCGGCCCCACCGGCGCCGGCAAGACCACTCTGCTGGATGCCATCTGCCTCGCGCTTTATCACCGTACGCCGCGCATGACCACGCTGTCGGCCAGTGCCAACGAGCTGATGACCCGGCACACCGCCGATTGCCTGGCGGAAGTGGAGTTCGAAGTGAAGGGCGCACGCTACCGGGCGTTCTGGAGCCAGCGCCGGGCGCGCGACAAGGTGGATGGGGCCTTGCAGGCGCCCAAGGTGGAACTGGCCGACGGCGAAGGCACCATTCTCACCGACAAGATCAACGACAAGCTGCGCCAGACCGAGCAGCTCACTGGGCTCGATTTCGAGCGCTTCACCAAGTCCATGTTGCTGGCCCAGGGCGGATTCGCGGCCTTTCTCGAAGCCAGCGCCAACCAGCGCGCGGAGCTGTTGGAGGAGCTGACCGGCACCGATATCTACGGGCAGATTTCCCAGCGTGTCTATGAGCGGACCAAGGCGGTGGAGATTGAGCTGGGCCGGCTCAAGGCGCGTGCCGAAGGTGTCGAGCTGCTGGGGGAAGAGCAGCGCGCGGCCTTGCAGCAGGAGCAAGTAGCCCTATCGGAACAGGAACAGCCGCTGCTGGCCGAACAGCAGCGCCTGCAGGCGCAGCGCCAGTGGCTGGACGCCGTGGCCCAGGCGGAGCGGCAGCATCAGGAAGCGCAGCTCGCCCTGCAACAGGCCCAGACTGAGCAGCAGGAGGCCCAGCCGCGTCTGGCGCGATTGGCGGCCAGCGAGCCGGCGGTGCGTTTGCAGCCTTGTCATCAGGCGTGGCGGCAGGCGTTGGACGCCGTTGCGCAAGGCGAGCAGGCATTGGTGGAAACCCGCACCGAGCGGCGACAGGCCGGGGAGGCGTTGTCCGCACAGATGTGGCGCGCCGTGCAGCTCAGCCGGCAGGTGGCCGAGGGGGCGAAAGATCGTCTCGACGGGCTCCAGCAACAACGGCAGGCGCTTCAGGAGCGACTGGATCGGCAGCCACAGCATGCTCAATTGGGTGAACGGCTCGCCGCCTGGCGTGGGCAGTTCGACAGTCGCCGGCAGATCCAGGCGGATATCGCCGCCCTGGTGGAGCGCCAGCGGCAGGCGCAGAACGCCCTGCATGATTTGCAGGCTCAGCAGCAGGTGCAGGAGGCGCAACGCCACACGGAACAGGGTCGCCTGGATGAGGCCCGTGACGTCGAGCAGCAAGCCCAGGGGCGACTGGCGACCCTGCTGGAGGGCCAGAGCGAAGCCGGGCTGCGCGAGCAGTGGCAGCGCCTGCATGGCGAGCAGGGCTTGCTGGTGCAGTTGCAGCAGGCCGGCGAACAACGCCGGCGCCTGGAGGTTGCCCTGGCCGATACGGCCGGCAGGTTGGCCGAGCTGGCGCGTCAGCGGGACGAGAAGAGCGCTCAACGCGATGCCCTGCGCCAGCGCTACAGCGATCTGAAGTCGCAGGTCACGGATAAACAGAAGCTGCTCGAACAGGAGCAACGCATCCGCACGCTGGAAAGCTATCGCGAGCAGTTGCAACCCGGCGAAGCCTGCCCGCTGTGCGGGTCCCACGACCACCCGGCGATCAGTGCCTACCGTGCGTTGGACGTGTCGGCCACCGAGCGTGCCTTGCAGGCCGCGCAGGCCGAACTTGAGACCGTCCGTGAGCAGGGAACCGGGGTGGGTGCCGAAGTGGCGGCGCTCGACGCGCAGCTCGATCAACTGCGCAACCGGCAACGGCAGGACGAGATCGATGCGCAGACGTTGCGGGTCCGCTGGCAGCAACTCTGCCGCGAACTGCGCTGCGACCTGGCGGACGACGCGGCCCTGGCCGCCCGTCAGCAGGCGCAGACCGAACAACTGGGCGCCTTGGAGCAGCGCCTGCAACGGCTCGATGAGTTGAAGCGGGCGTGCGAATCGGCTCGCGATGCGCGGCAGGCGCTTGAGCAGCGTTGCCAGGAGCAAGGCCAGAAACTGGCCCTGCTGCGTCAGCGGCAGCAGGGCGAAGAGGCGCAGCTTGGCGCGCTCGCCGATCAATTGGCGGCTCAGCAGGAAAAGTTGGCTCGTTGCGAGGCGGCGCTCGAAACGGAGTTGCGGAGCCTGGGTTATGCCTTGGCGGATGCCGACGAAGGTTGGTTGGCCCAGCGCAAGGCCGAGTGGTTGGCCTGGCAACGGGATCAGCTCCAATTGCAAACCCTGGAGCGCGAGCATCTGGCGCAGCAGGGCCGGGTCGAGACGGCGGGTAAGGACGCTGCGCTATGGCGGCAGCGCTGGAGCGCGCTTGGCGAGCCTGAGCGGGAGGTCGTGACGGTTGAGGCCGATCCACAGGCGGCGCTGTCCGACAGTGAAGGGCAGGTCGCTGCGGCGCAGCGGCTGGTCAACGAACTGGAGGGCCGTCTGGTGACGCTCGACGAAGCGTTGCGCCGCCAACAGGAGGCGCTGCATGCCTGCGCGGAGCGTTGGCAGAGCCAACTGGCCCAAAGCCCGTTCGCCGACGAGCAGGCGTTTCTCGCGGCGCTGCTCGATGACGTCGAACGGGAAGCCCTGCGGGCGTTGCAGACGCGTCTGCAACAGACGCTGACGGAAGCCGGTGCGCTGGCCACGGCGGCCGAGCAGACCCTGGCGGGCCTGCGGGCGACGCCCCTGACGACTGCGGACCGGGACGAGCTGGACGAACGCCTGCAATCGGTGGCCGAGGAACTGAACGGACTGGTCCACCGGCGTGGCGAGATTCGCGCCGAGTTGCAGGGCGACGATGCCCGCCGGCAGAGCCAGCAGGCGCTGTTCGCCGAGATCGCCGCACGGCAGGCCGACTACGACCTCTGGCAGCGCCTCAACGGCCTGATCGGTTCCGCCGACGGCGCCAAGTACCGCAAGTTCGCCCAGGGCCTGACGCTGGATCATCTGATCTACCTGGCCAACCGTCAGTTGGAGCGGCTGCACGGTCGCTACCAGTTACAGCGCAAGACCAGCGGCGAGCTGGAGCTGGAAGTGCTCGACACCTGGCAGGCGGATGTCGCGCGCGACACCCGTACCCTGTCCGGTGGCGAGAGCTTCCTGGTCAGCCTGGCCCTGGCGTTGGCGCTGTCCGATCTGGTCAGCCACAAGACCAGTATCGACTCGCTGTTCCTCGACGAAGGTTTCGGCACGCTGGACGGCGAAACCCTGGAGGTGGCGCTGGATGCCCTCGACAGCCTCAATGCCAGCGGCAAGACGATCGGCGTCATCAGCCACGTCGAAGCGCTGAAGGAGCGAATTCCCGTGCAGGTGAAGGTGTCGAAGGGAATAGGGATGGGCTACAGCGCGCTGGAGCGGCGGTTCGCGGTGAGTTGA	MKILSLRLKNLNSLKGEWKIDFTAEPFRDNGLFAITGPTGAGKTTLLDAICLALYHRTPRMTTLSASANELMTRHTADCLAEVEFEVKGARYRAFWSQRRARDKVDGALQAPKVELADGEGTILTDKINDKLRQTEQLTGLDFERFTKSMLLAQGGFAAFLEASANQRAELLEELTGTDIYGQISQRVYERTKAVEIELGRLKARAEGVELLGEEQRAALQQEQVALSEQEQPLLAEQQRLQAQRQWLDAVAQAERQHQEAQLALQQAQTEQQEAQPRLARLAASEPAVRLQPCHQAWRQALDAVAQGEQALVETRTERRQAGEALSAQMWRAVQLSRQVAEGAKDRLDGLQQQRQALQERLDRQPQHAQLGERLAAWRGQFDSRRQIQADIAALVERQRQAQNALHDLQAQQQVQEAQRHTEQGRLDEARDVEQQAQGRLATLLEGQSEAGLREQWQRLHGEQGLLVQLQQAGEQRRRLEVALADTAGRLAELARQRDEKSAQRDALRQRYSDLKSQVTDKQKLLEQEQRIRTLESYREQLQPGEACPLCGSHDHPAISAYRALDVSATERALQAAQAELETVREQGTGVGAEVAALDAQLDQLRNRQRQDEIDAQTLRVRWQQLCRELRCDLADDAALAARQQAQTEQLGALEQRLQRLDELKRACESARDARQALEQRCQEQGQKLALLRQRQQGEEAQLGALADQLAAQQEKLARCEAALETELRSLGYALADADEGWLAQRKAEWLAWQRDQLQLQTLEREHLAQQGRVETAGKDAALWRQRWSALGEPEREVVTVEADPQAALSDSEGQVAAAQRLVNELEGRLVTLDEALRRQQEALHACAERWQSQLAQSPFADEQAFLAALLDDVEREALRALQTRLQQTLTEAGALATAAEQTLAGLRATPLTTADRDELDERLQSVAEELNGLVHRRGEIRAELQGDDARRQSQQALFAEIAARQADYDLWQRLNGLIGSADGAKYRKFAQGLTLDHLIYLANRQLERLHGRYQLQRKTSGELELEVLDTWQADVARDTRTLSGGESFLVSLALALALSDLVSHKTSIDSLFLDEGFGTLDGETLEVALDALDSLNASGKTIGVISHVEALKERIPVQVKVSKGIGMGYSALERRFAVS				NA	NA	NA	NA	NA
BMS010_07922	117			hypothetical protein	ATGCAGGTGAGAAAAATTATAAAGAAAATGGCTGATATGGTAATTCACATGCTGGATTTAAATTTTGAGGAGGGCCGTGTTGAAGGTTTAGATGCATCTGTACTCTTCAAGATATAA	MQVRKIIKKMADMVIHMLDLNFEEGRVEGLDASVLFKI				NA	NA	NA	NA	NA
BMS010_07923	642			hypothetical protein	ATGAGCGAAGCAGTACTGGAGGATGCAAAGCCAAGGAAGTTGGTGCATGTATACGCTGACGAAATAGGTAAGACACAACAGTATGTGGTGGTTTCTTCTGTCTGGGTGTTAACCGGTAGGGCAGTGTTTACCGTGAGCCAGGCTATTATTTCGTGGCAAGAGAATTCCCCTTGGTCAAGAAGAGAGGTTCACTTTGCTAATTTTGGGAAGAAAGACTTTGAAGTATTGAGAGAATATCTTGGTGTTCTGGTTAAGAATAGGGGCTTTTTGAGTTTTAAGTCTATTGCGGTAGAAAGATCTAAAACAAAAAGAAGCATAGGTCAAGTTGTTGAAAAGCTACATGAGCATATGTTGCTGCGCGGAGTTGAACATGAAGTAGAGAGTCGCCGCATAGGACTGCCTCAGAAAATAGAGGTAACGCTTGATCATGAACAGTCATTAGATGCGATAGCACTAGATGAATTGAAAAGGCGTGTAAATGATGGCTATTTCGCTAAATATGGGGAGGGTATAGAGGTCTTGCAAATAGAAGCTATATCTTCTAGAAAAAGCCCTCTGGTACAGCTATCTGATCTGGTGGCGGGAGCAATCAATAGGAAATTGAACAATGCAGGTGAGAAAAATTATAAAGAAAATGGCTGA	MSEAVLEDAKPRKLVHVYADEIGKTQQYVVVSSVWVLTGRAVFTVSQAIISWQENSPWSRREVHFANFGKKDFEVLREYLGVLVKNRGFLSFKSIAVERSKTKRSIGQVVEKLHEHMLLRGVEHEVESRRIGLPQKIEVTLDHEQSLDAIALDELKRRVNDGYFAKYGEGIEVLQIEAISSRKSPLVQLSDLVAGAINRKLNNAGEKNYKENG				NA	NA	NA	NA	NA
BMS010_07924	198			hypothetical protein	ATGAGCGATGAAGAAAAGGTGGAAGAAGAAAAAGAGATAGATCCGAAGAAGTTGAAGAAGCTAGAACGAGAGAAAAAGGATCTTTTAGCTTCATTGAAGGGTGGGGACTTCTCACAGCAAAAGACGAAAGTTGCGCATATTCTAAATTTATATCCTCATTCAAGAAATAGTGACATAACGTTAGCTCTAAGGTATTGA	MSDEEKVEEEKEIDPKKLKKLEREKKDLLASLKGGDFSQQKTKVAHILNLYPHSRNSDITLALRY				NA	NA	NA	NA	NA
BMS010_07925	312			hypothetical protein	ATGGAAAAGCAGTTCATTGACGCCATCCACTCGCTTAACAAAGTCTGCATTATCTTTCACTCCAAAGAAGATGGGTCCCTCTTGTCTCGGGTTTGCGCTCCAATGGATTTCGGTCCAAGCCGGCACGCTCACAACAAAGATGATCGTTTCCATTCTTGGGATTACGAAAGCGACCAGAGGAACCACGTACTCAGTCTTCTGCCAAATCAGGTCATTTCGATTGAGGTTTTGGATGAGAAGTTTGACCCCTCCGAGTTCGTTACGTGGAAAACGAACTGGCTCGTCGTAAGAGACTGGGGTGCCCACTCGTAG	MEKQFIDAIHSLNKVCIIFHSKEDGSLLSRVCAPMDFGPSRHAHNKDDRFHSWDYESDQRNHVLSLLPNQVISIEVLDEKFDPSEFVTWKTNWLVVRDWGAHS				NA	NA	NA	NA	NA
BMS010_07926	378			hypothetical protein	ATGACTGATCTAATTAGTACAACTTCAAATGCGATCCAATTGATCGGCAGACTTCGTAAGATCAATAAACAAATTGCAGATGCAGAGTTCGCCAATGCCTTGGCCGAGCTCAGCATGGAAATGGCGAACCTGAAGATACAGGCCGCGAATCTCCTCGAAGAGAACGACAAGCTTCGACGGCAACTTGCTCAACAGAATTCCACGGAACTCACGTTCAAGGACTTTGCGTACTACTCAGCGACTGGCGATGGCCCGTTCTGTCCCGGTTGCTATGACGGCAAAAGAAAGGTCGTGCGTCTAGCAAAGGAAGCTAACGCATTTCGAGTCTTCGGAAGTCACAATTGCCCAGTCTGCAAACAACACTATGGTGAAGCATAA	MTDLISTTSNAIQLIGRLRKINKQIADAEFANALAELSMEMANLKIQAANLLEENDKLRRQLAQQNSTELTFKDFAYYSATGDGPFCPGCYDGKRKVVRLAKEANAFRVFGSHNCPVCKQHYGEA				NA	NA	NA	NA	NA
BMS010_07927	528		COG3039	IS5 family transposase ISAzo41	GTGAAGCAGCGAGCAGCCTCCGTCGAGTGGAAACCTGCCAAGCGCCGGCAAAAGGATGTCGAGGCGCGCTGGACGAAGAAGCACGGCAAATCGTACTTCGGCTACAAGTTGTCGGTCAGCGTGGATCGCCGGCACAAACTGATCCGCAACGTGCGGGTGAGCGATGCCAGCGAGGCAGACACACTTCATTTGGTCGATGTGCTGGATCGGGGTAACAGCAGCCGGGACTTCTGGGCTGACCGTGGCTATCACGACAAGCCACGCGAACGCTGGCTCAAGCTCAATGGATGGCGCCCGCATATTCAGCGCAAAGGGCAAGCCGGCAAGCCTATCGCAGAGCGGGACAAGGCTCGCAACAAGCGCATCGCCAGCCCACGCGCTCGGGTTGAACACATATTTGCCAGTCTGGCGCAGATGGGCGGCAAGACGATCCGCAGCATCGGGTTGGCACGCGCGCAGTTTGGTTTGACGATCAAATCAGCGGTGTACAACCTGAAAAGGATGTCGAGCCTGCTGGAGATGGCGTGA	MKQRAASVEWKPAKRRQKDVEARWTKKHGKSYFGYKLSVSVDRRHKLIRNVRVSDASEADTLHLVDVLDRGNSSRDFWADRGYHDKPRERWLKLNGWRPHIQRKGQAGKPIAERDKARNKRIASPRARVEHIFASLAQMGGKTIRSIGLARAQFGLTIKSAVYNLKRMSSLLEMA	PGPT0030605_1188	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030605-IS5_family-K07481	NA	NA
BMS010_07928	126			hypothetical protein	ATGTGGGCCGCGATAATAGATGCCATCGTCGTCATGGCCAATAGCTATGTATTCGCCTTTGGTAAGGCCTGCAAGAAATCGGTCGCCGAATGGTCCTTCATAAAATTCGAAAATGTCCTCTTCTAA	MWAAIIDAIVVMANSYVFAFGKACKKSVAEWSFIKFENVLF				NA	NA	NA	NA	NA
BMS010_07929	126	xerD_4		Tyrosine recombinase XerD	ATGCGCCGCGGCAGCGATATCCGCACGGTGCAGACCTTGCTGGGCCATGCCGACGTGCGCACCACGCAGATTTATACCCATGTACTGGGCCAGGCCTTTGCCGGAGTGCAGAGTCCGCTGGGTTAG	MRRGSDIRTVQTLLGHADVRTTQIYTHVLGQAFAGVQSPLG	PGPT0022000_5095	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0022000-xerD-K04763	NA	NA
BMS010_07930	1233	sbcD	COG0420	Nuclease SbcCD subunit D	GTGAGCCGGCCGATGCGCATCCTGCATACCTCCGACTGGCACTTGGGCCAGCACTTCATGGGCAAGACCCGCCAGGCCGAGCACCAGGCGTTCTGTGCCTGGCTGGTGGCGCAGGTCCGCGAGCAGGGTGTGGATGCGGTGATCGTCGCCGGCGATGTGTTCGACACCGGCGCGCCGCCCAGCTACGCCCGCGAGCAGTACAACCGCTTCATCGTCGAACTGCGTAACACCGGCGCGCAGTTGGTCGTGCTCGGCGGCAACCACGACTCGGTAGCAACCCTGGGCGAATCGCGGACGCTGCTGGCTTGCCTGGACACCTGCGTGATCCCGGCGGTGAGCGAGGACCTGGAGGAGCAGCTGCAAGTGCTCTGCCGCCGCGACGGCTCGCCAGGCGCGATCCTCTGCGGAGTACCCTTCGTCCGTCCGCGCGATGTGTTGCGCAGCGAAGCCGGGCAGAGCGCCGAGGACAAGCAGCAGTCGCTGCAGAGCGCCATCCACGCGCATTACCAGGCGCTGTACGCGCTGGCCGAGGCGAAACGCGATGCGCTGGGCGGCGGCCTGCCGATCATCGCCACCGGCCACTTGACCACGGTGGGCGCGAGCGCCAGCGAATCGGTGCGGGAAATCTACGTCGGCGCGCTGGAAGCCTTCCCCACCAACGCCTTCCCGCCCGCGGCCTACATCGCCCTCGGCCACATCCACCGGCCGCAGAAGGTCGGCGGCCTGGAACACATCCGCTACTGCGGCTCGCCGATTCCACTGGCCTTCGACGAAGCGCGGCAGGAAAAACAGGTGCTGCTGGTCGACCTGGACGCCGCCGGCCTGCGCGCGGTGACACCGCTGCCGGTGCCGTGCTTCCAGCCGCTGCTGTCGCTACGCGGCAGCCTCGCCGAACTGCCGGCTACCCTGGCCGACGCTGCGCAACAAGGCAGCGCCGAGCGGCCGGTGTGGTTGGAAGTGGTGGTCCGCGCCGACGATTACCTGCCAGACCTGCAAACGCGCATCGCCGCGTTCTGCGAGGGCCTGCCGGTGGAAGTGCTGCGCATCCGCCGCGAACGCGGCAACGCCATGGCTAGCCTCCAGTCCCAGACCCGGGAAACCCTGGACGAGTTGAGCGTGGAAGAAGTCTTCGCCCGCCGCTTGCAACAAGAGCAACTGGACGAGGGCGACGCTCAGCGGCTGCAGGGGCTTTATCGTGAGGTGTTGGAAGGTTTGCAGACCGAGCAGGACTGA	MSRPMRILHTSDWHLGQHFMGKTRQAEHQAFCAWLVAQVREQGVDAVIVAGDVFDTGAPPSYAREQYNRFIVELRNTGAQLVVLGGNHDSVATLGESRTLLACLDTCVIPAVSEDLEEQLQVLCRRDGSPGAILCGVPFVRPRDVLRSEAGQSAEDKQQSLQSAIHAHYQALYALAEAKRDALGGGLPIIATGHLTTVGASASESVREIYVGALEAFPTNAFPPAAYIALGHIHRPQKVGGLEHIRYCGSPIPLAFDEARQEKQVLLVDLDAAGLRAVTPLPVPCFQPLLSLRGSLAELPATLADAAQQGSAERPVWLEVVVRADDYLPDLQTRIAAFCEGLPVEVLRIRRERGNAMASLQSQTRETLDELSVEEVFARRLQQEQLDEGDAQRLQGLYREVLEGLQTEQD				NA	NA	NA	NA	NA
BMS010_07931	453	lrpC_2	COG1522	HTH-type transcriptional regulator LrpC	ATGCTCAACCTGCCCGTTGCCGAGAGTGCCCGAGTGGACAAGTTCGACCGCCAGATCCTCGCCCTGCTGCGCGCCGACGCGCGCCTGCCCGTCAGCCAGATCGCCCGAGAAGTGAACCTGTCGCGCTCGGCGGTGGGCGAGCGCATCCGCAACCTGGAGGAGAACGGTACTATCCGCGGCTACCACGCCAGCGTCGCCGAGCCGGGCAACGGCACGGTGAAGGCCTTTCTCGAACTCTTCTACAAGGAAAGCCGCTGCCAGGAGTACGTCGAGCGCATGCGCGCCTTCCAGGAAATCCGTCGCTGCTGCGGGATCAGCGGCGAGACCGACATGCTGGTCTACGTCGAGGCCGAATCCATCGCGCGGCTCAGTGCGATTCGCGACGAGATCGAGCGCTTCCCGGGCATGCAGCGGGTGAAGACTCACATGGTGGTGCAGGAGTGGGGCATGTGA	MLNLPVAESARVDKFDRQILALLRADARLPVSQIAREVNLSRSAVGERIRNLEENGTIRGYHASVAEPGNGTVKAFLELFYKESRCQEYVERMRAFQEIRRCCGISGETDMLVYVEAESIARLSAIRDEIERFPGMQRVKTHMVVQEWGM				NA	NA	NA	NA	NA
BMS010_07932	1278	yjeH	COG0531	L-methionine/branched-chain amino acid exporter YjeH	ATGAGCCGACTCGATCAGGAACTCGGGCTGCTGCAAGGCGTCGGCCTGCTCAGCACGTCATTGCTGGGCACCGGCATCTTCGTGGTGCCGGCGCTGGCCGCTACCGCCGCGGGCGACGCCTCGCTCTGGGCCTGGCTGCTGTTGATCGCCCTGGTGCTGCCGGTGGCCTTCACCTTCGCCCAGCTCGGCCGCCGCTTTCCCCATGCCGGCGGCGCGCCGCACCTGATCGGCCGGGCCTTCGGCGCGCGCCTGGAACGGCTCAGCGCGCTGTTGTTTCTCGCTGTGCTGCCGGTGGGCCTGCCGGCCGCGCTGTACATCGCCAGCGGCTTCTGGGAAGCGCTGTTCGACCTCGGTCGCGGCCAGGTCCTGGCCATCCATCTCGCCACCCTGGGCGCCATGCTGTGGCTCGGCCAGCGGCCGGCCAAGGCCTCGGGGCTGGTGCAGAGCCTGATCGCCCTGGCGATCATCGCCACCGTCGCCCTCGCCTGGTGGCTGGGCGACCTGCCCCGCGCCAGCCAGCCCCTGCTGCCACCGTTGGAAGGCCAGTGGCATCTGCTGCCAGCGGCGCTAGGGGTGATGTTCTGGTGCTTCGTCGGTATCGAGGCGTTCACCCACATGGGCGAAGAGTTCAAGCACCCGCGGCGCGACTTTCCGCTGGCCCTGCTGCTCGGCGTGCTCTTGGCCGGCCTGGTCTACTGGGCCTGCTCGGTGGCCGTGCTGAGCTTCGGCACCTACGGCGACGTGCGCAGCGACGCCGGCGCCCTGCCGCGCCTCTATGAACTGCTACTGGGCGAACGCGCGCGCTGGCTGGTGGCGGTGGTCGGCTACCTGGCCTGCTTCGCCTCGATCAACGTCTACGTGCAGGGCTTCGCCCGGTTGATCTGGAGCCTTGCCGACGAAGGCAAGCTGCCCGCCGCGCTGGCCCACCGCAACCGCCATGGCGTACCGGGCCGCGCCCTGCTGCTGGTGGTCCTGTGTTGCGTGCTCTGCGTCCTGCTCGCCGGAGCGTTCGATCTCTCCGTGGACGATCTGATTCGCTACGCCAACGGCAACTTCGTGGTCATCTACCTGCTCAGCATGGCCGCCGGCTGGGTCTTGCTGCGCGGCTTCTGGCGCTGGCTCGCCGGCTTCGCCACCCTCCTCTGCGCCCTGGTGCTGGCCATGCTCGGCGCCGATGCGGGCTATGTCCTGGGGTTATTCGCGGTGCTGGCGTTGCTCGATGCGGCGCGAGGGCTTCGGGCACGCCAGGCATTGAGCGGTTCGCCTCCCGTCGGATGA	MSRLDQELGLLQGVGLLSTSLLGTGIFVVPALAATAAGDASLWAWLLLIALVLPVAFTFAQLGRRFPHAGGAPHLIGRAFGARLERLSALLFLAVLPVGLPAALYIASGFWEALFDLGRGQVLAIHLATLGAMLWLGQRPAKASGLVQSLIALAIIATVALAWWLGDLPRASQPLLPPLEGQWHLLPAALGVMFWCFVGIEAFTHMGEEFKHPRRDFPLALLLGVLLAGLVYWACSVAVLSFGTYGDVRSDAGALPRLYELLLGERARWLVAVVGYLACFASINVYVQGFARLIWSLADEGKLPAALAHRNRHGVPGRALLLVVLCCVLCVLLAGAFDLSVDDLIRYANGNFVVIYLLSMAAGWVLLRGFWRWLAGFATLLCALVLAMLGADAGYVLGLFAVLALLDAARGLRARQALSGSPPVG				NA	NA	NA	NA	NA
BMS010_07933	504			hypothetical protein	ATGAGCAAACTCCGCGTCAGATTCGCCCTGATCCCCGCAGCACTGTCCGTCCTGATCAGCGGCTGCGCCAGTATCGTCAGCGACTCGCAATACCCCGTCAGCGTCTCCAGCACCCCGGCGGGCGCCACCTTCGAAATCCGCAACCGCGCCGGCCAAGTCATTCACTCCGGCACCACCCCCGGCAGCGTCACCCTGAAATCCGGGGCGGGTTATTTCAAGGGCGAGCAATACACCCTCACCTTCCACAAGGAAGGCTTTGCCGACCAACAGACCACGCTGAACACCAGCCTGGATGGTTGGTACTGGGGCAATATCATCTTCGGCGGCCTGATCGGCATGCTGGCCGTGGACCCGGCGACCGGCGCCATGTACAAACTGCCGGAAAACGCGGCGGCGACACTCGCCCCGGTAACGGCCGAGGCCAAATCCAGCGACAGCCTCACGCTGATGACCTTGGACCAAGTACCCGAACACCTGCGCGGTCAACTGATTCCGCTCAACTGA	MSKLRVRFALIPAALSVLISGCASIVSDSQYPVSVSSTPAGATFEIRNRAGQVIHSGTTPGSVTLKSGAGYFKGEQYTLTFHKEGFADQQTTLNTSLDGWYWGNIIFGGLIGMLAVDPATGAMYKLPENAAATLAPVTAEAKSSDSLTLMTLDQVPEHLRGQLIPLN				NA	NA	NA	NA	NA
BMS010_07934	255			hypothetical protein	ATGTCTGACTTTCGTCCTCTTCCCTCCCTCAGCACCACTGCCAGCCCCGTTCTTTACGCCAACGCCAGCCTCGGCGCTCACGAACTGTTCGAAGCCGGCCAGGCGCGCCTGAACGCGGCGCGGCAGTTAGCGCTGGTGTTGTTCTGCAACGAGCCGCAGTTGGATAACGGCGAGGTGTTCGCGGCATTTCATCTGTTGCTGAACGATGCGGCGGGTTTGTACGACGCGGCGTTCGAGCAGGTGCGGCGCGGTTGA	MSDFRPLPSLSTTASPVLYANASLGAHELFEAGQARLNAARQLALVLFCNEPQLDNGEVFAAFHLLLNDAAGLYDAAFEQVRRG				NA	NA	NA	NA	NA
BMS010_07936	705	yieH_3	COG0637	6-phosphogluconate phosphatase	ATGACCCGAACGCCCCATGTCGACCTGCTGATCTGCGATTGCGATGGCGTACTGATCGATAGCGAAATCGTTTCCGGCCGCGTGCTGCGCGAGGCCTTGTTGCAACTGGCGCCGTCGGAGCAGGAGCTGGATGTGCTGCTCAACGGCACTTTCGGCCTGCAGAGCCGGGACATCATTGCCCGGGTCGCCGCGCATTTCGGCCTCGATATCCCCGTGGATTTCCACGCGCGCCACCTCGAACTGAGCGAGGCGACCATCCATGCCGAAGCCCAGGCGATTCCCGGTGTGCGCGAGGCGCTGTATGCCATCGACCTGCCATTGGCGGTGGCATCCAACAGCCGCTACGACTCGGTCCGCCATGCCTTGCGCCGCAGCGGACTGACCGAGCGGGTGGACGTGGGCATCTTCAGCGCCGACCGGGTGGAGCGGCCGAAGCCGGCGCCGGACGTTTATCTGCTGGCCGCCCGCACCGCTGGCGTTGCGCCGCAGCGTTGCCTGGTAGTGGAGGACAGCGCCACCGGCGTCACCGCCGCGCTGACCGCCGGCATGCGGGTGATCGGTTTCCTCGGTGCCGGCCACATCCCGCCGGAGCATGGCGAAGTGCTGCGTGAACTGGGCGTAGAGCATCTGTTGCACGACATGCGCGAGTTGCCGGCGCTGGTGGAGCGGCTGCGCTATGCCGCTCCGGCCGATGCCTTACCTTGA	MTRTPHVDLLICDCDGVLIDSEIVSGRVLREALLQLAPSEQELDVLLNGTFGLQSRDIIARVAAHFGLDIPVDFHARHLELSEATIHAEAQAIPGVREALYAIDLPLAVASNSRYDSVRHALRRSGLTERVDVGIFSADRVERPKPAPDVYLLAARTAGVAPQRCLVVEDSATGVTAALTAGMRVIGFLGAGHIPPEHGEVLRELGVEHLLHDMRELPALVERLRYAAPADALP				NA	NA	NA	NA	NA
BMS010_07937	1008	yejK	COG3081	Nucleoid-associated protein YejK	ATGCCGATACGCCATTGCATCGTCCACCTGATCGAGAAGAAGCCCGATGGCAGCCCCGCCGTGCTGCATGCCCGCGATTCGGAGCTGGGCGAATCCCAGGCCATCGAGAACCTGCTCGCCGACCTCAACGAGAGCTACAACGCCAAGCAGGGCAAGGCCTGGGGTTTCTTTCACGAGGAATCCGGCGCCTATCCGTTCAGCGGCTGGCTGAACCAGTACCTGGAAGGCGCGCAGGATTTCACCGCGTTCAGCCGCCAGGCCGTGGAACACCTGCAGAAGCTGATGGAAGAGTCCAACCTGTCCACCGGTGGCCATGTGCTGTTCGCCCACTACCAGCAGGGTATGACCGATTACCTGGCGATTGCCCTGCTGCACCATAGTGAAGGCGTGGCGGTGACCGACTCGCTGGATGTCGCCCCGGCCAAGCACCTCGATCTCGGCCAGTTGCATCTGGCGGCGCGCATCAACATTTCCGAGTGGCGCAACAACAAGCAGTCCAAGCAGTACATCTCCTTCATCAAGGGCAAGAACGGCAAGAAGGTGTCGGACTACTTCCGCGACTTCATCGGTTGCCAGGAAGGCGTGGACGCGCCGAGCGAAACCCGCACCCTGCTCAAGGCGTTCAGCGATTTCGTCGAGAGCGAGGACCTGCCCGAAGAACAGGCCCGGGAAAAGACCGATACCCTGGTGGACTACGCCACCACCCAGGCCAAGCTGGGTGAGCCGATGACCCTGGAAGAGCTGTCCGGGCTGATCGACGAGGAGCGTCCACGGGCCTTCTACGAGCACATCCGCAACAAGGATTACGGCCTGTCGCCGGAGATTCCGCCGGACAAGCGCACGCTGAGCCAGTTCCGCCGCTTCACCGGGCGCGCCGAAGGGCTGTCGATCAGCTTCGAGGCGCATCTGCTCGGCTCGAAGATCGAGTATGACGAGACGCAGGACACGCTGATCATCCGCAACCTGCCGACCCAGCTGCGCGACCAGCTCAAGCGGCGCAAGGACTGA	MPIRHCIVHLIEKKPDGSPAVLHARDSELGESQAIENLLADLNESYNAKQGKAWGFFHEESGAYPFSGWLNQYLEGAQDFTAFSRQAVEHLQKLMEESNLSTGGHVLFAHYQQGMTDYLAIALLHHSEGVAVTDSLDVAPAKHLDLGQLHLAARINISEWRNNKQSKQYISFIKGKNGKKVSDYFRDFIGCQEGVDAPSETRTLLKAFSDFVESEDLPEEQAREKTDTLVDYATTQAKLGEPMTLEELSGLIDEERPRAFYEHIRNKDYGLSPEIPPDKRTLSQFRRFTGRAEGLSISFEAHLLGSKIEYDETQDTLIIRNLPTQLRDQLKRRKD				NA	NA	NA	NA	NA
BMS010_07938	828			hypothetical protein	ATGCGCGCCCTCATTGCCTTGATCGTCCTAATGCCGGCGCTGGTATTCGCCAGCCCGGCGCAGACGCTGACACCGCAAGAGCTCCGCTTCGTCACCGCCAATGCCGAGTTCACGCTGTTTCACGAAATGGGGCACCTGCTGATCAACGAGCTGCGCCTGCCGGTGCTCGGCCGCGAGGAGGACGCCGCCGACCAGTTGGGTTTCATGGGGCTGTTCCTGATCGACGAACGCCAGCGCGAGGCCGACTTCCCCGAACGGATGCTGGACATCGCCGACTACTGGCGGGTGGAGTGGCAGCGGCCGAAACGGCCGGACGAGGAAATCCGGGAGTGGGACAGCCACGCCCTGGACGCCCAGCGCTTCTACAACATCGCCTGCCTGGCCTACGGCAGCGATCCGGTGCGCCTGGAATGGATGATCGAAGCCACCGGCCTGCCGGACGAGCGTGCCTTTTTCTGCCCCGACGAATACCAGCAGGCCCGCCATGCGGTGAACTGGTTCCAGGAGCATTTCCGCCGCCCGCCGGAAGAGCCGGTGCGTCATCGCATCCAGGTGGTCTACGACCCGCCGCCGCCCAGCCTGGACGATGGCGAAGAACTGCTGGCCAGGGTGCGGGCCAGCGGTGAGCTGGAGAAGGTCGCCGAAAAGGCCAGCACCAGCTTCCCACTGCCCCGCGACCTGACCCTGCGACTGACCAGTTGCGGCGCGCCGGATGCCTGGTACAACCGCATCAGCGGCGAGCTGACGCTCTGTTACGAGCGCATTGCCTACTTCCGCGAACTGGCGGCACGGGTGCCGAGGCTGCACCCGGCCGCCAGCTCCCGTTAA	MRALIALIVLMPALVFASPAQTLTPQELRFVTANAEFTLFHEMGHLLINELRLPVLGREEDAADQLGFMGLFLIDERQREADFPERMLDIADYWRVEWQRPKRPDEEIREWDSHALDAQRFYNIACLAYGSDPVRLEWMIEATGLPDERAFFCPDEYQQARHAVNWFQEHFRRPPEEPVRHRIQVVYDPPPPSLDDGEELLARVRASGELEKVAEKASTSFPLPRDLTLRLTSCGAPDAWYNRISGELTLCYERIAYFRELAARVPRLHPAASSR				NA	NA	NA	NA	NA
BMS010_07939	936			hypothetical protein	ATGCACGAGCTGATCCTGCACCACTACCCGACCTCGCCGTTCGCCGAAAAGGCCCGCCTGATGCTGGGCTTCAAGCAGTTGTCCTGGCGTTCGGTGCTGATCCCGCCAGTGATGCCCAAGCCCGATCTCACCGCGCTGACCGGCGGCTACCGCAAGACTCCCGTGTTGCAGGTGGGCGCCGATATCTACTGCGACACCGCGCTGATCGCCCGTCGCCTGGAGGCGGAGAAGGCGACCCCGGCACTGTTCCCGGAAGGGCAGGAATTCAATGTCGCCACCGTCGCCCAATGGGCCGACTCGCTGGTGTTCCAGCATGCGGTGAGTTTGGTGTTCCAGCCGGAATCCATCGCCCTGCGCTTCGGCAAGCTGCCGCCGGAGGCGATCAAGGGCTTTCTCGCCGACCGCGCCGGGCTGTTCAGCGGTGGTAGCACCAGCCGCCTGCCGTTGGAGCAGGCCAAGCACCAGTGGCCTACGATCATGGCCCGGGTCGAGCAACAACTGTCGCGGGAGACCGGCGACTTCCTGTTCGGCGAACCGTCTTTGGCCGACATTTCCCTGGCGCATTCGCTGTGGTTCCTCAAAGGCACGCCGATCACCGCCCCGCTGGTGGATGCCTATCCCGCCGTAGCCGCCTGGCTCGGCCGGGTGCTCGGGTTCGGTCATGGCTCGCACAGTGAAATGGCCTCGGCGGACGCCATCGAAATCGCTCGTGCGGCGACCCCGGCCGCGCTGCCGCAGGAACAACTGGACGAGCCTAATGGCTTCGAGATCGGCCAGCGCGTGGCCATCGCCGCGATCGACTACGGCGTCGACCCGGTGGAGGGCGAGCTTCTGTTCGCCGGCAGCGAGGAGCTGGTCCTGCGCCGCGAAGACGAGCGCGCGGGCATGGTGCACGTGCATTTCCCGCGTATGGGCTTCCGGATCGAGGCCCGTTAA	MHELILHHYPTSPFAEKARLMLGFKQLSWRSVLIPPVMPKPDLTALTGGYRKTPVLQVGADIYCDTALIARRLEAEKATPALFPEGQEFNVATVAQWADSLVFQHAVSLVFQPESIALRFGKLPPEAIKGFLADRAGLFSGGSTSRLPLEQAKHQWPTIMARVEQQLSRETGDFLFGEPSLADISLAHSLWFLKGTPITAPLVDAYPAVAAWLGRVLGFGHGSHSEMASADAIEIARAATPAALPQEQLDEPNGFEIGQRVAIAAIDYGVDPVEGELLFAGSEELVLRREDERAGMVHVHFPRMGFRIEAR	PGPT0013170_472	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS010_07940	384			hypothetical protein	GTGCAAGAGCAGCTTGGCGTTCCGATTGAAGACGATGTCCGACACGAAGAAGGCACCGCGGGTTCCAACGATGGGGGCGCCCCGTTGACCGCCGCGCCGCCCAAGCCCTGGTTCGCCTATCTGGTGCGGGCCGAGAACGGTGCGCTGTATTGCGGCATCAGCGACGACCCGCTGCGGCGCTTCGAGCAGCACCGCAGCGGCAAGGGCGCGCGTTTCTTCCATTCCAGCCCGGCCCAGGCGCTGGTCTATGTCGAGGCGTGCGCCGACAAGGGCGATGCGTTGCGCCGCGAGCGGGCAATCAAGCAACTGTCGAAGAAGGCCAAGGAAGCCCTGGTGCTGGCCGCTGGCGTCATGGCCCTGGCTGATAGTCCTGTATCAGGCTGA	MQEQLGVPIEDDVRHEEGTAGSNDGGAPLTAAPPKPWFAYLVRAENGALYCGISDDPLRRFEQHRSGKGARFFHSSPAQALVYVEACADKGDALRRERAIKQLSKKAKEALVLAAGVMALADSPVSG				NA	NA	NA	NA	NA
BMS010_07941	489			hypothetical protein	ATGAATATTCAGATCTTCACCACCGGCGGCACCTTCGACAAGGTGTATTACGACGCCCTCTCCGACTTCAAGATCGGCGATCCCATGGCACCGCAGATTCTCCAGGAAGCCGGCGTGACGTTCGACTTCCAGGTGGAGAGCCTGCTGAAAAAGGACAGCCTGGAGCTGACCGACGAAGACCGCGCCCTGATCCGCGAGAAAGTCGCCGCCTGCCCGGCCAAGCACATCCTGATCACCCACGGCACCGACACCATGACCAACACGGCCGAAGTGCTCAAGGACATTCCCGGCAAGGTGATCCTCTTCACCGGCGCCATGCAGCCGGCCCGCATGCGCCTCACCGACGCCCCGTTCAACCTCGGCGTGGCCATCGGCGCCCTGCAGTGCCTGCCCGACGGTATCTACGTGGCCATGAGCGGCCGCATCTTCGAAGCCGGCAAGGTGAAGAAGAACCGCGCCGCCGGCCGTTTCGAAGCCAGCGCCGACTGA	MNIQIFTTGGTFDKVYYDALSDFKIGDPMAPQILQEAGVTFDFQVESLLKKDSLELTDEDRALIREKVAACPAKHILITHGTDTMTNTAEVLKDIPGKVILFTGAMQPARMRLTDAPFNLGVAIGALQCLPDGIYVAMSGRIFEAGKVKKNRAAGRFEASAD	PGPT0020180_4394	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARAGINE_DEGRADATION,PGPT0020180-EC_3_5_1_1|ansA|ansB-K01424	NA	NA
BMS010_07942	471			hypothetical protein	ATGTCCCATCCCAACGCTGAACTGATCACCCGTTTCTACCAGGCTTTCCAGCGTCTGGACGCCGACGCCATGGCGGCCTGCTATGACCAGGACGTGCATTTCAGCGATCCGGTGTTCCAGGACTTGCGCGGCCGGGATGCCGGCGACATGTGGCGGATGTTGACGCGCCGGGCGAAGGGGTTCTCGCTGAGCTTCGAAGATGTGCAGGCGGACGACCGCCAGGGCAGTGCCCGCTGGGTGGCGCGCTACACCTTCGCGGCGACGGGGCGGCCGGTGGTGAATCGCATCCAGGCGCGCTTCGTGTTTCGCGACGGCAAGATCGTCGAACACCGCGACAGTTTCGATCTGTGGGGATGGGCGCGGCAGGCGCTGGGGCTGAAAGGCTGGTTGCTGGGCTGGTTGCCGCCGGTACAGGCGGCGATCCGCCGCCAGGCCCAGCAGGGGCTGGCGGCGTTCAAGGCGGGGCGCTGA	MSHPNAELITRFYQAFQRLDADAMAACYDQDVHFSDPVFQDLRGRDAGDMWRMLTRRAKGFSLSFEDVQADDRQGSARWVARYTFAATGRPVVNRIQARFVFRDGKIVEHRDSFDLWGWARQALGLKGWLLGWLPPVQAAIRRQAQQGLAAFKAGR				NA	NA	NA	NA	NA
BMS010_07943	957	cdhR_7	COG4977	HTH-type transcriptional regulator CdhR	ATGCTCGACGTCGCACTGTATGTCTGCCCACAAACCGTCTGCTCCAGCCTGAGCATGGCCGGCGATGCCTTCCTGCTGGCCAACCAACTGGCGGGCCAGGCGCTCTTCCGGGTTCGGCGGCTCAGCCTGGACGGCCAGCCGGTGGAGCTGGGCTTCGCCACCATCCGGGTGGACGGCGGCCTGGAGATCGCCGAGCAGGCCGGTTTGGTGTTGATCCCTGCGACCGGCAGTGCCATCGAGCGCACCCTGGCGACCAACGCGGCGCTGCTGACCTGGCTGGACGGGCGCCCCGCCACCCAGCAGTTGGCCAGCCTGTGCAGCAGCGCGTTCATCCTGGCGGCGGCCGGCCTGCTCGATGGCCGGCGCGCCACCACCCACTGGTCGCTCGCCGATACCTTTCGGCGGCGCTTTCCCCGGGTCCGGCTGGATATCGATGAACTGCTGACCCACGACGGCCACCTGCTCTGCTCCGGAGGCGCCCAGGCCGGGCTCGATCTGTGCCTGTACCTAATCGGCCTGCACGGCGGCGACTGGCTGGCCCAGCAAGTGGCCAGCGCCCTCGTATTTGATACGCGGCGAGGCCGGCAGTCGCGCTTCGCGCCGCTGTTGCCGGAGCTGGCCGTGCAGGAAGGTCCACTGGCGTCGTTGCTGCACTGGTTGCAGAAGCACCACGCCGAGCCGCTGGAGCTGCACCGCCTGGCCGAACAGGCGCACTGTTCGCCGCGCACACTGCTGCGCCGCTTCAAGGCCGGCACCGGCCTGACGCCCAACGAATACCTCCAGCGCCTGCGCATCGAATCGGCGCGGATCGCCCTGCGCAACCCGATCACATCATTGGAACAGGTCGCCGCCCAAGTCGGTTACGCCGACCGCGCCACCTTCGCCAAGCTGTTCAAGCAACTCTGCGGCGAAACGCCGGGATCATTCAGGCGGCGGTTGCGCGAAGCACAGGCGTAG	MLDVALYVCPQTVCSSLSMAGDAFLLANQLAGQALFRVRRLSLDGQPVELGFATIRVDGGLEIAEQAGLVLIPATGSAIERTLATNAALLTWLDGRPATQQLASLCSSAFILAAAGLLDGRRATTHWSLADTFRRRFPRVRLDIDELLTHDGHLLCSGGAQAGLDLCLYLIGLHGGDWLAQQVASALVFDTRRGRQSRFAPLLPELAVQEGPLASLLHWLQKHHAEPLELHRLAEQAHCSPRTLLRRFKAGTGLTPNEYLQRLRIESARIALRNPITSLEQVAAQVGYADRATFAKLFKQLCGETPGSFRRRLREAQA				NA	NA	NA	NA	NA
BMS010_07944	765	glnQ_11		Glutamine transport ATP-binding protein GlnQ	ATGACTGAAGCAAACAAACAGCCTGTCGCCGGCGATGGCATCATCCAGATGCAGGGCGTGCACAAGTGGTACGGCCAGTTCCACGTGCTCAAGGACATCAACCTGAACGTCAAGCAGGGCGAGCGCATCGTGCTCTGCGGGCCGTCCGGTTCCGGCAAATCCACGACCATCCGCTGCCTCAACCGCCTGGAAGAGCACCAGCAGGGTCGCATCGTCGTCGATGGCGTCGAGCTGACCAGCGACCTCAAGCACATCGAGGCGATCCGCAGCGAAGTGGGCATGGTGTTCCAGCACTTCAACCTGTTCCCGCACCTGACCGTGTTGCAGAACTGCACACTGGCGCCGATGTGGGTGCGCAAGATGCCCAAGCGCAAGGCGGAAGAGATCGCCATGCACTTCCTCGAGCGCGTACGCATTCCCGAGCAGGCTAACAAGTACCCGGGCCAGCTTTCCGGCGGCCAGCAGCAGCGTGTGGCGATTGCCCGCGCCCTGTGCATGAAGCCGAAGATCATGCTGTTCGACGAACCGACTTCCGCACTCGACCCGGAAATGGTCAAGGAAGTGCTGGACACCATGATCGGTCTGGCCCAGGACGGCATGACCATGCTCTGCGTGACCCATGAAATGGGCTTCGCCCGCACCGTGGCGAACCGGGTGATCTTCATGGACAAGGGGGAGATCGTCGAGCAGGCCGCGCCAGACGAGTTCTTCACCAACCCGCAAAACGACCGCACCAAGCTGTTCCTCAGCCAGATCCTGCACTGA	MTEANKQPVAGDGIIQMQGVHKWYGQFHVLKDINLNVKQGERIVLCGPSGSGKSTTIRCLNRLEEHQQGRIVVDGVELTSDLKHIEAIRSEVGMVFQHFNLFPHLTVLQNCTLAPMWVRKMPKRKAEEIAMHFLERVRIPEQANKYPGQLSGGQQQRVAIARALCMKPKIMLFDEPTSALDPEMVKEVLDTMIGLAQDGMTMLCVTHEMGFARTVANRVIFMDKGEIVEQAAPDEFFTNPQNDRTKLFLSQILH	PGPT0020830_514	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_L-AMINO_ACID_TRANSPORT,PGPT0020830-aapP|bztD-K09972	NA	NA
BMS010_07945	1098	yhdY_3	COG0765	Inner membrane amino-acid ABC transporter permease protein YhdY	ATGACGACCCATACTTTCAAACCCGACCTGCCGCCGCCGACCATGAGCGTCGGAGTGCTCGGCTGGCTGCGCGCCAACCTGTTTTCCAACTGGTTCAACACCCTGCTGACGCTGCTGGCGATCTACCTGATCTGGCTGATCCTCCCGCCGCTGCTCAAGTGGGCCTTCATCGAAGCCGACTGGACCGGCACCACCCGTGCCGACTGCACCAGCGATGGCGCCTGCTGGGTCTTCATCAAGCAGCGTTTCAGCCAGTTCATGTACGGCTTCTATCCCGCCGAACTGCGCTGGCGCGTCGACATGGCCGCCTGGCTGGCGGTGATTGGCGCCGCGCCGCTGTTCATCCGGCAGATGCCGCGCAAGGCGGTCTACGGGCTGGGCTTCCTGGTGGTCTATCCGCTGGTTGCCTTCTGGCTGCTGCATGGCGGCTTCCTGGGCCTGGAGGACGTGCCCACCAGCCGCTGGGGCGGCCTGATGCTGACCTTGGTGATCGCCTCCGTGGGTATCGCCGGTGCGCTGCCGCTGGGCATCCTGCTGGCGCTCGGCCGACGTTCGAACATGCCGGCGATCCGTGTGATCAGCGTGACTTTCATCGAGTTCTGGCGCGGCGTTCCGCTGATCACCGTGCTGTTCATGTCCTCGGTGATGCTGCCGCTGTTCCTGCCCGAGGGGCTCAGCTTCGACAAGCTGATGCGGGCCCTGATCGGTGTGATTCTGTTCCAGTCCGCCTACATCGCCGAAGTGGTGCGTGGCGGTCTGCAGGCCATCCCGAAAGGCCAGTACGAAGCGGCCGCGGCCATGGGCCTGGGCTACTGGCGGATGATGGGCCTGGTGATCCTGCCGCAGGCGCTCAAGCTGGTCATCCCCGGCATCGTCAACACCTTCATCGCGCTGTTCAAGGACACCAGCCTGGTGATCATCATCGGCCTGTTCGACCTGCTCAACAGCATCAAGCAAGCCACCACCGACCCGGCCTGGCTGGGCATGGCCACCGAAGGCTATGTCTTCGCCGCCCTGGTGTTCTGGATCTTCTGTTTCGGCATGTCCCGCTACTCCCAGCATCTGGAGCGCAAGCTGGACACCGGCCACAAGCGTTAG	MTTHTFKPDLPPPTMSVGVLGWLRANLFSNWFNTLLTLLAIYLIWLILPPLLKWAFIEADWTGTTRADCTSDGACWVFIKQRFSQFMYGFYPAELRWRVDMAAWLAVIGAAPLFIRQMPRKAVYGLGFLVVYPLVAFWLLHGGFLGLEDVPTSRWGGLMLTLVIASVGIAGALPLGILLALGRRSNMPAIRVISVTFIEFWRGVPLITVLFMSSVMLPLFLPEGLSFDKLMRALIGVILFQSAYIAEVVRGGLQAIPKGQYEAAAAMGLGYWRMMGLVILPQALKLVIPGIVNTFIALFKDTSLVIIIGLFDLLNSIKQATTDPAWLGMATEGYVFAALVFWIFCFGMSRYSQHLERKLDTGHKR	PGPT0020825_869	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_L-AMINO_ACID_TRANSPORT,PGPT0020825-aapM|bztC-K09971	NA	NA
BMS010_07946	1185			hypothetical protein	ATGCAAACTAGTGTCAATGCCCCGCGCCCACGCGGTTCGGTCTGGACCGATCCGCAGATACGCGCGTGGCTCTTCCAGATCATCGCGGTGATCGCCGTGGTGTCGCTCGGTTGGTTCCTGTTCCAGAACACCCAGTACAACCTGGAGAAGCGCGGGATCATCTCCGGCTTCGGCTTTCTGCAGAACAGTGCCGGCTTCGGTATTTCCCAACATCTGATCGACTATAACGAGAGCAATTCCTACGGCCGGGTATTCGTCATCGGCCTGCTCAACACCTTGCTGGTCTCGGTCATCGGCATCGTGATGGCAACCATCCTCGGCTTCCTGGTCGGTATCGCCCGGTTGTCGCCGAACTGGCTGCTGAGCAAGCTGGCCACCATCTACATCGAGATTTTCCGTAACATCCCGCCGTTGCTGCAGATATTCTTCTGGTACTTCGCCATCATGCTGCCCCTGCCGGGCCCACGGCAGAGCGTGAGCCTGGGGGACCTCTTCTTCATCAGCAACCGCGGCCTGAACATGCCGTCGCCCGATCCCACCGGGGCGTTCTGGCCGTTCGCGATCGCGCTGGTGCTGACCATCGCCGGCATCGTCCTGATGCGCCGCTGGGCAATGGCCCGCTTCGAAGCGACCGGCAAGACCTTCCCGATCCTGATCACCGCCCTGGCGATGCTGGTGGTGATTCCGGGCCTGACGGTGCTGATCGCGGGCAACCCCTTCGCCTGGAGCGTGCCGGAGCTGAAAGGCTTCAACTTCCGCGGCGGCTGGGTGGTGATCCCTGAGCTGATGGCGCTGGTCCTGGCGTTGACCATCTACACCGCGGCGTTCATCGCCGAGAACGTGCGTTCGGGCATCCAGGCAGTGAGCCATGGCCAGACCGAAGCGGCACGTTCCCTGGGCCTGCGCCCGGGCAAGGCGCTGCGTCTGGTGATCATTCCCCAGGCCATGCGGGTGATCATTCCGCCGCTCACCAGCCAGTACCTGAACCTGGCGAAGAACTCCTCGCTGGCCGCCGGCATCGGCTATCCGGACATGGTGTCGCTGTTCGCCGGTACCGTGCTCAACCAGACCGGCCAGGCCATCGAAACCATCGCCATCACCATGAGTGTGTATCTGGCCATCAGCATCAGCATTTCGATCCTGATGAACTGGTACAACAAGCGCATCGCGCTTATCGAGCGGTGA	MQTSVNAPRPRGSVWTDPQIRAWLFQIIAVIAVVSLGWFLFQNTQYNLEKRGIISGFGFLQNSAGFGISQHLIDYNESNSYGRVFVIGLLNTLLVSVIGIVMATILGFLVGIARLSPNWLLSKLATIYIEIFRNIPPLLQIFFWYFAIMLPLPGPRQSVSLGDLFFISNRGLNMPSPDPTGAFWPFAIALVLTIAGIVLMRRWAMARFEATGKTFPILITALAMLVVIPGLTVLIAGNPFAWSVPELKGFNFRGGWVVIPELMALVLALTIYTAAFIAENVRSGIQAVSHGQTEAARSLGLRPGKALRLVIIPQAMRVIIPPLTSQYLNLAKNSSLAAGIGYPDMVSLFAGTVLNQTGQAIETIAITMSVYLAISISISILMNWYNKRIALIER	PGPT0020820_597	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_L-AMINO_ACID_TRANSPORT,PGPT0020820-aapQ|bztB-K09970	NA	NA
BMS010_07947	1029	yhdW_2		Putative amino-acid ABC transporter-binding protein YhdW	ATGAAAATGGTGAAAACCACCCTGGCTGTGCTGACCACTGCTGCAGTGCTCGGTGTCAGCAGCTTCGCGCAGGCGGGCGCGACCCTGGACGCAGTGAAGAAGAAGGGCTTCGTGCAGTGCGGTATCAGCGATGGTCTGCCGGGCTTCTCCTACGCCGACGCCAAGGGCAACTACAAAGGGATCGACGTCGATGTTTGCCGTGCGGTAGCCGCTGCGGTTTTCGGCGATGCCAGCAAGGTCAAGTTCAGCCCGCTGACCGCCAAGGAGCGTTTCACTGCGCTGCAATCCGGTGAAGTCGATGTGCTGTCGCGCAACACCACCTGGACCAGCTCGCGCGATTCGGCCATGGGCCTGAACTTCGCCGGCGTGACCTACTACGACGGCCAGGGCTTCCTGGTGAACAAGAAGCTCGGCGTATCCAGCGCCAAGGAACTCGATGGCGCCACCGTCTGCATCCAGGCCGGTACCACCACTGAGCTGAACCTCGCCGACTACTTCCGCGCCAACGGCCTGAAGTACACCCCCATCACCTACGACACCTCCGATGAAAGCGCCAAGTCGCTGGAGTCCAGCCGTTGCGACGTGCTGACCTCCGACCAGTCGCAGCTCTACGCACAGCGCATCAAGCTGGCCGCGCCGGACGACTACGTCGTTCTGCCGGAAGTCATTTCCAAGGAACCGCTGGGCCCAGCCGTTCGCCAGGGTGACGAAGAGTGGTTCGACATCGTGCGCTGGAGCCTCTTCGCCATGCTCAACGCCGAAGAACTCGGCATCGACTCGAAGAACGTCGAAGAGCAGGCCAAAACCACCAAGAACCCGGACGTCGCCCGTCTGCTCGGCGCGGAAGGCGAGTACGGCAAGGACCTGAAACTGCCGAAAGACTGGGCCGTTCAGATCGTCAAGCAGGTCGGCAACTACGGCGAGATTTTCGAGCGTAACGTCGGCGGCGGCAGCGAGCTGAAGATCGAGCGCGGCCTCAACGCCCTCTGGAACAAGGGTGGTCTGCAGTACGCACCGCCGGTGCGCTGA	MKMVKTTLAVLTTAAVLGVSSFAQAGATLDAVKKKGFVQCGISDGLPGFSYADAKGNYKGIDVDVCRAVAAAVFGDASKVKFSPLTAKERFTALQSGEVDVLSRNTTWTSSRDSAMGLNFAGVTYYDGQGFLVNKKLGVSSAKELDGATVCIQAGTTTELNLADYFRANGLKYTPITYDTSDESAKSLESSRCDVLTSDQSQLYAQRIKLAAPDDYVVLPEVISKEPLGPAVRQGDEEWFDIVRWSLFAMLNAEELGIDSKNVEEQAKTTKNPDVARLLGAEGEYGKDLKLPKDWAVQIVKQVGNYGEIFERNVGGGSELKIERGLNALWNKGGLQYAPPVR	PGPT0020815_536	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_L-AMINO_ACID_TRANSPORT,PGPT0020815-aapJ|bztA-K09969	NA	NA
BMS010_07948	660	estB	COG0400	Carboxylesterase 2	ATGACCGAACCCTTGATTCTTCACCCCACACAGAAGGCCGATGCGTGCGTCATCTGGTTGCACGGACTGGGGGCGGACCGTTACGACTTCCTGCCGGTGGCCGAGGCCTTGCAGGAGCGTTTGGACACCACACGCTTCGTTCTCCCGCAGGCGCCAACCCGCCCGGTGACCATCAATGGCGGCTGGGAAATGCCCAGTTGGTACGACATCCTGGCCATGAGCCCGGTGGCACGCGCGGTGGACCTCGATCAACTTGAGCAATCGTCCCGCCAGGTGACCGACCTGATCGAGAGCCAGGTCGCCGCCGGCATCGCACCGGAGCGGATCGTGCTCGCCGGTTTCTCCCAGGGCGGCGCGGTGGTCCTGCACACCGCCTACCTGCGCTGGCCGGGAGCGCTCGGCGGGGTGTTGGCGCTGTCCACCTACGCGCCGACGTTCTCCGACGAAGCGACACTCGCGGATACAAAACAACAACTGTCGGCGCTCTGTTTGCATGGCACCTTCGACGACGTGGTGCCCATGGCTCTCGGCCGTGCGGCGCACGACTATCTGGCCGCCCGCGGAGTGCCGGTGGGCTGGAAGGACTATCCGATGGGCCACGAGGTGTTGCCGGAAGAAGTACGCGATATCGCTGACTGGCTGAGCGAACGTCTCGGCTGA	MTEPLILHPTQKADACVIWLHGLGADRYDFLPVAEALQERLDTTRFVLPQAPTRPVTINGGWEMPSWYDILAMSPVARAVDLDQLEQSSRQVTDLIESQVAAGIAPERIVLAGFSQGGAVVLHTAYLRWPGALGGVLALSTYAPTFSDEATLADTKQQLSALCLHGTFDDVVPMALGRAAHDYLAARGVPVGWKDYPMGHEVLPEEVRDIADWLSERLG	PGPT0028515_2133	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROQUINONE-DERIVATE_RESISTANCE,PGPT0028515-mhqD-K06999	NA	NA
BMS010_07949	1905	lcfB_2	COG0318	Long-chain-fatty-acid--CoA ligase	ATGAACGCGAACCGCATTCCCCCAATAGCCTCGCTGCGTGATGTCGAACGAATCGAAGAAACCCCACTGGAAGCGCGCGACATGCCTTCCAGCACCTATGACCTGCTGCGCCGCAGCGCACAGCGCAACCCGGATGCACCGGCGCTGACCTTCCTGCTCCAGGGTACGGCGGACGAGACGCCCTACCGCTTGACCTACGCCGAACTGTTCGCCCGGATCACCCAGACCGCCAACGCCTTCCACCGCCTGGGCATCCGACCCGGCAAGGCGGTGTCCTTTCTCCTGCCGAACCTGCCGCACACGCATCTCACCCTCTGGGGCGGCGAAGCGGCCGGTATCGTCAATGCGATCAACCCCCTGCTCGACCCCGAGCACATCGCCGAGCTGATCCGCGCCTCCGACTCCGAGGTGCTGGTGACCCTGGCCCCCTTCCCCGGCACCGACCTGTGGGACAAGGTGGCCGGCCTGCGCGACCACCTGCCCGGTCTGAACGCCATCGTCACCGTGGATTTGGCGAACCTGCTGCCCGAACCGCAGCGCAATGCAATCAAGGCCCAGCGCGGCCCGTTGCCGGAAGGGGTGCTGGACTTCGACGAACTGATCGCCGCCTGCCCGGCTGATCGGCTGGAAAGCGGCCGGGATATCCAGCCGGACGACATCGCCTCCTATTTCCATACCGGCGGCACCACCGGCACGCCCAAGCTGGCGCCGCACAGCCACCGCAACGAAGTGGCGATGGCGATGATCCTGGCCTTCCTGCTGGATTTCGGCGAAAGCGACACCACCCTCTGCGGCCTGCCGTTGTTCCACGTCAACGGGGTAATGGTTACCGGGCTGGCGCCCTTCTTCCGCAATGCCCAAGTGCTCCTGGCTACGCCCCAGGGCTACCGCAACCCGAGCCTGATCCAGAACTTCTGGAAGATCATCGAGCGCCACCGGGTCAGTTTCTTCAGCGGGGTTCCGACTATTTATGCCGGGCTCCTGCAAATCCCCAGCGAAGGTCACGACCTGTCTAGCCTGCGCTACGCCCTGTGCGGCGCCGCGCCGATGCCGGTGGAACTGATCCGCCAGTTCGAAAGCAAGACCGGCCTCAAGCTGATAGAAGGCTACGGCCTCACCGAAGGTACCTGTGGCAGTTGCGGCAACCCGCCGGCGGGCGAGCGGCGGCCGGGCTCCATCGGCCTGCGCATGCCCTACTGCGAAGTCGCCATCAAGGTCCTCGACGAACAGGGCAACTTTCTACGCGATGCGGCGACCAACGAGATCGGCAACGTCTGCCTGCGCGGTATCACGGTGTTCAAGGGGTACCTGCAAGCGAGCAAGAACAAGGACATCTGGGTCGACGGCGACTGGTTCAACACCGGCGACCTCGGCCGGATGGACGCCGATGGCTACATCTGGCTCACCGGCCGAAGCAAGGACCTGATCATCCGCGGCGGCCATAACATCGACCCGCAACTGATCGAGGAAGCCCTGCACAAGCACCCTGCCGTCGCCATGGCCGCGGCGGTCGGCAAGCCGGACGAGAAGGCCGGCGAACTGCCGGTGGTCTATGTGCAACTGAAGCCCGGCGCCCAGGCCAGCGAGGCGGAACTGCTCGAGCACGCCGCCGCGCACATACCGGAACGCGCGGCGATCCCCAAGGATGTGTGGATCATCGATGCCATTCCGGTCACCGCGGTGGGCAAGACCTTCAAGCCGGCGCTGCGCTTCGACGCCATTCGTCGCGTCTTCGAATCCGTGCTGCAACCGCTGGATGCGGGGATAAGCATCGAGGTCCGCAACGACGACCGGCACGGCCAACGGGCGGACATCCGGGTGCCGGCGCTGGATGCGCAGCGTCGGGCGGAAATCGAGCGGCGGCTGGCGCCCTTCCCGGTGAAATTTGAACTGATCGCCAGTTAG	MNANRIPPIASLRDVERIEETPLEARDMPSSTYDLLRRSAQRNPDAPALTFLLQGTADETPYRLTYAELFARITQTANAFHRLGIRPGKAVSFLLPNLPHTHLTLWGGEAAGIVNAINPLLDPEHIAELIRASDSEVLVTLAPFPGTDLWDKVAGLRDHLPGLNAIVTVDLANLLPEPQRNAIKAQRGPLPEGVLDFDELIAACPADRLESGRDIQPDDIASYFHTGGTTGTPKLAPHSHRNEVAMAMILAFLLDFGESDTTLCGLPLFHVNGVMVTGLAPFFRNAQVLLATPQGYRNPSLIQNFWKIIERHRVSFFSGVPTIYAGLLQIPSEGHDLSSLRYALCGAAPMPVELIRQFESKTGLKLIEGYGLTEGTCGSCGNPPAGERRPGSIGLRMPYCEVAIKVLDEQGNFLRDAATNEIGNVCLRGITVFKGYLQASKNKDIWVDGDWFNTGDLGRMDADGYIWLTGRSKDLIIRGGHNIDPQLIEEALHKHPAVAMAAAVGKPDEKAGELPVVYVQLKPGAQASEAELLEHAAAHIPERAAIPKDVWIIDAIPVTAVGKTFKPALRFDAIRRVFESVLQPLDAGISIEVRNDDRHGQRADIRVPALDAQRRAEIERRLAPFPVKFELIAS	PGPT0008380_2398	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
BMS010_07950	1068			hypothetical protein	ATGGTCGGCCCAACTTTCGGCAAGCGTTGCCAGAACTTTGGCGCTGGAATAATGTCAAAGCCGGTATTCGCCACCCAGGGACGATATCGCGATGCCTATTCCCACCAGCCTCTGCACGTCCTCGCTGCGATGAAAACCGCCCACTGGCAGGAAAACCTGCAGCAGATCCGCCATCTGCGCCTTTTTCAGAACGTGGCGGCCAGCAGCTTGAAGCACCTGCTCAAGGAATTCCGCGCTTGTGAACTCGAGGCTGGGGAAATCCTGCTCTCCCCGTTCAACCGCAACCAGTTCCTCTACCTGCTCCTCGAAGGGCAGCTCAAGGTCTATCTCGGCTCCCTCGATAACCAGCCGGTCAGCACGCTGGAACCGGGTGAGTGTGCGGGGGAAATCAGCTTCATCGACAATGACCGGCCCTCGGCCTATGTCGTGGCCAACGAACGGTCGTTGGTCCTGCGCCTGCACCGACAATCGCTGATGACGCTGTTCAACGAGTCCCCCCAGTTGATGCAAAACCTGCTGGAACTGCTCTGCGAGCGGGTCCGCCAGGGCAACCGGATCATTCTCGACACCGAACAGAACGCCAACGTCGATACCCTGACCGGCCTGTTCAACCGGCGCTGGCTGGAGCATGTCTTCCAGCGCGAAAGCACCCGCTGCGCCTTCAACAACCAGCCGATGAGCATGCTGATGCTCGACGTGGATCACTTCAAGGCCTACAACGACCAGCACGGCCACCTGGCCGGCGACTATGCCCTCTGCCTGGTCGCCCACACGCTGCGCAACCAGCTCCGCCCCAAGGACAACATGACCCGCTACGGCGGCGAGGAGTTCGTCATCCTCCTGCCGGAACTGGGCGCGGCCGAAGCGCGCAACATTGGCGAGCGGCTGCGCCAGAGCCTGGAGCAGGTCGGCACCTTCTATTCGCCGGTGGGCATGCTGCCGGGCGTCACCGTATCCATCGGGCTGGCCCAGATGGAAGCGTCGGACAGCCTGGAAGACCTGATCGCCCGCGCCGATGCGGCGCTGTACCAAGCCAAGCAGGAAGGTCGCAACCGACTCTGCGGTTGA	MVGPTFGKRCQNFGAGIMSKPVFATQGRYRDAYSHQPLHVLAAMKTAHWQENLQQIRHLRLFQNVAASSLKHLLKEFRACELEAGEILLSPFNRNQFLYLLLEGQLKVYLGSLDNQPVSTLEPGECAGEISFIDNDRPSAYVVANERSLVLRLHRQSLMTLFNESPQLMQNLLELLCERVRQGNRIILDTEQNANVDTLTGLFNRRWLEHVFQRESTRCAFNNQPMSMLMLDVDHFKAYNDQHGHLAGDYALCLVAHTLRNQLRPKDNMTRYGGEEFVILLPELGAAEARNIGERLRQSLEQVGTFYSPVGMLPGVTVSIGLAQMEASDSLEDLIARADAALYQAKQEGRNRLCG	PGPT0026005_174	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-c-di-GMP_SIGNALLING_PATHWAY,PGPT0026005-roeA-K21022	NA	NA
BMS010_07951	1164			hypothetical protein	ATGCGCAAAGCTCTCGTCGTCCTGCTGATCCTGGCCGTGTCGGGATTGGCGATTTTCTTCAGCCTGCCGCCCTTGCTCGACCGCTTCCTGAACAGCGTCGAGAACACTCCGCCCTACCCGGCCAGCGCTGCAGCCCGGCAAGTCCACCAGCGCCTGTTCATCGCCGACCTGCACAACGATGCCCTGCTCTGGGAACGCGACCTGCTGCAACGCCGGAACTACGGCCACTCCGACCTGCCGCGTTTGCTGGAGGGGCACGTCGCGCTGCAGGTGTTCTCCACCGTTACCAAGACCCCACGCTGGCTGAACTACCAACGCAACGACAGCGATACCGACAACATCACTCTGCTGGCAATGGCCCAGCGCTGGCCACGGGAAACCTGGAACAGCCTGTTGCAGCGCGCCCTTTACCAGAGCCGCAAATTGCATGAGGCTGCCGCGGCCAGCGACGGGCGCCTGGTAGTGGTGACGAATCGCCGCGAGTTGGACACCTTCCTGGAGCGTTGGAGCAGAGACCCACAGCGCGTCGCCGCCCTGCTAGCCACCGAAGGGCTGCAACCGCTGGAAGGCAGGCTGGAAAACCTCGACCGCCTTTACGATGCCGGCTTCCGCATCGCCGGGCTGACCCACTTCTTCGATAACGAGGTCGGCGGCTCGGCCCATGGCCTGAACAAAGGCGGACTGACGCCCTTCGGCCGCGAAGTGATCGCCCGCCTGGAGCAGAAACACATGCTGGTGGACCTGGCCCACGCGTCGCCGGCTCTGATCGACGATGTCCTGGCCATCGCCCGCCAGCCGGTACTGGTCTCCCACGGCGGCGTCGCCGGCACCTGTCCGGGCCCGCGTAATCTCAGCGATGCGCATCTGAAAGGGATCGCCGCCACCGGCGGGGTGATCGGCATCGGCTACTGGGACGCGGCGGTCTGCGCCACTTCGGTGGCGGCCATCGTCAAGGCGATCCGCTACACCGCCGACCAGGTAGGCGTGGCCCACGTGGCCCTCGGGTCGGACTTCAATGGCACCGTACGTACACCGTTCGACGCCAGTGGCCTGGCCCAACTCACCGACGGCCTGCTGGAAGCCGGTTTCAGCCGCGACGAAATCGCCGCGATCATGGGCGACAACGTGCGTCGCCTGCTGCGGGATAACTTACCGGAGGACTGA	MRKALVVLLILAVSGLAIFFSLPPLLDRFLNSVENTPPYPASAAARQVHQRLFIADLHNDALLWERDLLQRRNYGHSDLPRLLEGHVALQVFSTVTKTPRWLNYQRNDSDTDNITLLAMAQRWPRETWNSLLQRALYQSRKLHEAAAASDGRLVVVTNRRELDTFLERWSRDPQRVAALLATEGLQPLEGRLENLDRLYDAGFRIAGLTHFFDNEVGGSAHGLNKGGLTPFGREVIARLEQKHMLVDLAHASPALIDDVLAIARQPVLVSHGGVAGTCPGPRNLSDAHLKGIAATGGVIGIGYWDAAVCATSVAAIVKAIRYTADQVGVAHVALGSDFNGTVRTPFDASGLAQLTDGLLEAGFSRDEIAAIMGDNVRRLLRDNLPED	PGPT0020950_1698	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020950-acdP-K01273	NA	NA
BMS010_07952	1464	rhlB_1		ATP-dependent RNA helicase RhlB	GTGCTCAAAGCACTCAAACGAATTTTTGGCAAGGGCGAAGCGCCCGTATCCGGCCCGGCACCTTCCCCCGCCTCCCCCCGCACTGTCGACGACGAAAAGCGCAGCACTCCCAAGTCGAAACCGCCACGCCCGGCTTCCGAAAAGCGCACTGGCGACGAAGCCCGCAAAGGCGAGAACAAAGCGGAACGCAAGGCGGACAAGCCGAAATCGGATAAGCCACGCCGTGAGCGCCCGGCCAAGCCGGTGGATAACTGGAAGCTGGAGGACTTCGTGGTCGAGCCAGCCGAAGGCAAGACCCGCTTCCACGACTTCGATCTCGACCCGCGGCTGATGCATGCCATCCATGACCTCGGCTTTCCCTACTGCACACCGATCCAGGCCCAGGTCCTCGGCCACACCCTGAAGGGGCGCGACGCCATCGGCCGGGCCCAGACCGGTACCGGCAAGACCGCAGCCTTCCTCATCTCCACCATCACCCAGTTGATTACCACCCCGCCGCCGAAAGAGCGCTACATGGGCGAGCCGCGTGCGCTGATCATCGCGCCGACCCGGGAACTGGTGGTGCAGATCGCCAAGGACGCCCTGGACCTGACCAAGTACAGCGGCCTCAACGTCATGAGCTTCGTCGGCGGCATGGACTTCGACAAGCAGCTCAAGCAGCTCGAGTCGCGTTACTGTGACATCCTGGTCGCCACGCCGGGCCGCCTGCTGGATTTCAACCAGCGCGGCGAAGTGCACCTGGACATGGTCGAGGTGCTGGTCCTCGACGAAGCCGACCGCATGCTCGACATGGGCTTCATTCCGCAGGTGCGCCAGATCATCCGCCAGACCCCGTACAAGGGCGAGCGCCAGACCTTGCTGTTCTCCGCCACCTTCACCGAAGACGTGATGAACTTGGCCAAGCAGTGGACGGTGGACCCGGCGATCGTCGAGATCGAGCCGGAGAACGTCGCCAGCGATACCGTCGAACAGCACGTCTACGCCGTGGCCAGCAACGACAAGTACAAGCTGCTGTACAACCTGATCGTGCAGAACGACTGGACCCGGGTGATGGTTTTCGCCAACCGCCGCGACGAAGTGCGCCGCATCGAGGAGCGCCTGACCAAGGACGGCGTCAGCGCCGCCCAGATGTCCGGCGACGTCCCGCAGCAGAAGCGGATCAAGACCCTGGAAGGCTTCCGCGAAGGCAAGATTCGCGTGCTGGTCGCCACCGACGTGGCCGGCCGCGGCATCCACGTCGAAGGCATCAGCCACGTGATCAACTTCACCCTGCCGGAAGACCCGGACGACTACGTCCACCGCATCGGCCGGACCGGCCGTGCCGGCACCAGCGGCACCTCCATCAGCTTCGCCGGCGAGGACGATGCCTTCGCCCTGCCGCCCATCGAAGAGCTGCTGGGGCGCAAGATTCATTGCGAAATGCCGCCCGCCGAGCTGCTCAAGCCGGTGCCGCGCAAGCACTGA	MLKALKRIFGKGEAPVSGPAPSPASPRTVDDEKRSTPKSKPPRPASEKRTGDEARKGENKAERKADKPKSDKPRRERPAKPVDNWKLEDFVVEPAEGKTRFHDFDLDPRLMHAIHDLGFPYCTPIQAQVLGHTLKGRDAIGRAQTGTGKTAAFLISTITQLITTPPPKERYMGEPRALIIAPTRELVVQIAKDALDLTKYSGLNVMSFVGGMDFDKQLKQLESRYCDILVATPGRLLDFNQRGEVHLDMVEVLVLDEADRMLDMGFIPQVRQIIRQTPYKGERQTLLFSATFTEDVMNLAKQWTVDPAIVEIEPENVASDTVEQHVYAVASNDKYKLLYNLIVQNDWTRVMVFANRRDEVRRIEERLTKDGVSAAQMSGDVPQQKRIKTLEGFREGKIRVLVATDVAGRGIHVEGISHVINFTLPEDPDDYVHRIGRTGRAGTSGTSISFAGEDDAFALPPIEELLGRKIHCEMPPAELLKPVPRKH	PGPT0013740_3370	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
BMS010_07953	945	dauB	COG2423	NAD(P)H-dependent anabolic L-arginine dehydrogenase DauB	ATGCGCCCTATCCCCTACGTGATCGAACAGGCCGAAGCGGAACGCCTGCTCGCCCGGATCGACGTCCACCAAGCCATGGTCGGCATGTTCCGCGACCTCGCCGCCGGCCACGCCGTGCAACCGGCCCAGCAACTGGTCGAATTCCCCGATGCGGGCGGTGACTTCATCAATTACCTCGGCGTGCTGTCGCGCGAGGGCGTCTACGGGGTCAAGACATCGCCCTACATCAAGCGCGAACAGGATGCATTGGTCAGCGCCTGGACCTTGCTGATGTCCATGGAAACCGGCCAACCGTTGCTGCTCTGCGACGCCGGCAGCCTGACCACCGCGCGCACCGCGGCGACCACGGCGGTGGCGGTGGAGGTCCTGGCTCCCGCCGACGCACGCCGCCTGGCGGTGATCGGCAGCGGCCCGGTGGCCCGTGCGCACCTGCGCTACGTCAAGGGCCTGCGCGATTGGCAGGACATCCGCCTGCATTCGCCCCGGCTCGCGCAGGCCTCTGCGGAGGCCCGCCAGGAACTCCGCGCCCTCGACCCGCGCCTGGAGATCGTCGTCGATCTGGCGAACGCGGTGGACGGTGCCGATGTCATCTTGCTCTGCACCTCGTCCGCCACCCCGGTGCTCGACCCGCTCGCCCTGGCCAAGCCGGCCCTGGTCACCTCGATCAGCACCAACGCGCCCAGGGCGCACGAAGTGCCGCCGCAAAGCCTGGCGGGTATGGACGTCTATTGCGACTACCGGCCCACGACACCCGGCGCCGCCGGCGAAATGCTGCTGGCCGGCGAACGGCATGGCTGGAACAGCGCGGACATCCGCGGCGACCTGCCGGAGCTGCTGAGCGGCACGGCGCAGCGTCCCGATTACCGCCGCCCGGTATTCTTCCGCTCCATCGGCCTCGGCCTGGAAGACATCGCCCTGGCCAACGCCCTCCACCGCCTCCTGTGA	MRPIPYVIEQAEAERLLARIDVHQAMVGMFRDLAAGHAVQPAQQLVEFPDAGGDFINYLGVLSREGVYGVKTSPYIKREQDALVSAWTLLMSMETGQPLLLCDAGSLTTARTAATTAVAVEVLAPADARRLAVIGSGPVARAHLRYVKGLRDWQDIRLHSPRLAQASAEARQELRALDPRLEIVVDLANAVDGADVILLCTSSATPVLDPLALAKPALVTSISTNAPRAHEVPPQSLAGMDVYCDYRPTTPGAAGEMLLAGERHGWNSADIRGDLPELLSGTAQRPDYRRPVFFRSIGLGLEDIALANALHRLL				NA	NA	NA	NA	NA
BMS010_07954	1125	dauA_3		FAD-dependent catabolic D-arginine dehydrogenase DauA	ATGATCGAAGCGGACTTCCTCATCATCGGCGCCGGTATCGCCGGCGCATCCACCGGCTACTTTTTGGCGCCCCATGGCCGCGTGCAGGTCATCGAACGCGAGCCCCAACCCGGCTACCACTCGACCGGACGCTCCGCCGCGCTCTACACCGTCGCCTACGGCACGCCGCAAGTACGGGCACTGACGGCGGCCAGCCGGGCCTTCTTCGACAACCCGCCGGAGGGCTTCGCCGAACACCCGCTGCTGTCCCCGCGCGGCGAGCTGACCGTGGACTTCAGCGGCGACCGCGAGGAACTCGAACGCCAATACCACAGCGCCTTGGCCAGCGTGACCGAGGTGCGCCTGCTCGATGCCGACCAGGCTTGCGCCCTGATTCCCGTACTGCGCCGGGAGAAGGTCCACGGCGCGCTGTACGACCCCACCGCTGCCGACATCGACACCGATGCCTTGCACCAGGGCTACCTGCGTGGAATCCGCCGGCACGGCGGCCGGATCGACTGCGCGACCGAAGCACTCGCTATCCAGCGCAGCGGCGACGCCTGGGAAGTGCGCAGTGCCGAGCGGACCTACCGTGCGCCGGTCCTGATCAACGCCGCCGGCGGCTGGTGCGACCGCATCGCCGACCTCGCCGGGGTCCGGCCGATCGGCCTCCAGCCGAAACGCCGCGCCGCCTTCATCTTCGCTGCGCCGGAGGGCATGGAGACCCACCGCTGGCCGATGCTGGTCAGCCTCGATGAATCCTTCTATATGAAGCCGGACGCCGGCATGTTGCTCGGCTCGCCGGCCAACGCCGACCCGGTCGAACCCCACGACGTGCAGCCGGAAGAGCTGGACATCGCCATGGGCATCTACCAGATCGAAGAGGCCACCAGCCTGAACATCCGTCGCCCCGCCCATACCTGGGCCGGGCTGCGCTCGTTCGTTGCCGATGGCGACCTGGTGGGCGGCTACGACCCGCAGGCGCCGGGCTTCTTCTGGGTCGCGGCCCAGGGCGGCTACGGCATCCAGACCTCGCCGGCGATGGGCCAAGCCTGCGCCGCGCTGGTCCGTGGCGAGCCGCTGCCGGCCACGCTGGCTGACTTCGGCCTGAGCGCCGACGGCCTCTCGCCGACGCGCCTGTGGTGA	MIEADFLIIGAGIAGASTGYFLAPHGRVQVIEREPQPGYHSTGRSAALYTVAYGTPQVRALTAASRAFFDNPPEGFAEHPLLSPRGELTVDFSGDREELERQYHSALASVTEVRLLDADQACALIPVLRREKVHGALYDPTAADIDTDALHQGYLRGIRRHGGRIDCATEALAIQRSGDAWEVRSAERTYRAPVLINAAGGWCDRIADLAGVRPIGLQPKRRAAFIFAAPEGMETHRWPMLVSLDESFYMKPDAGMLLGSPANADPVEPHDVQPEELDIAMGIYQIEEATSLNIRRPAHTWAGLRSFVADGDLVGGYDPQAPGFFWVAAQGGYGIQTSPAMGQACAALVRGEPLPATLADFGLSADGLSPTRLW	PGPT0020092_123	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020092-dauA-K19746	NA	NA
BMS010_07955	633	dauR	COG2964	Transcriptional regulator DauR	ATGACGCCGCCCCGCCAAGATCCCGCCCTGGAGAACTACCGGGCCATCGCCGATGCCATCGCCACCCTGTTCTTCCCCCATGCCGAAGTGGTGCTGCACGACCTGCGCACCCAATCGGTGGACTACATCGCCAACAACCTCTCCAAGCGGCGCATCGGCGACGACGCCGCGCTACTGGACCTGCTCAGCGACGACAACGGCGAACGCAACATCGGCCCTTACGAGAAGCTCAACTGGGACGGCCAGAAAATCCGCTCGGTCAGCACTGTCCTGCGCGACGCCGCAGGCACGCCAATCGCCATGTTGTGCATCAACCTGAACATTTCCCTGTTCGAAAGCGCGAAGGCGGCGCTCGACCTGTTCCTCTCGCCGACCCAACTGATCCCGCAGCCGGACGCCCTGTTCCGTGATGACTGGCAGGAGCGCATCAACACCTTCCTGCACAATTGGCTGCGCCAGCGCCAACTGGGCCTGAACAGGCTCACCCGCGAGCACAAGCGCGAACTGGTGGAAGCCCTGCATGCGGAAGGTGCTTTCAAGGGCCGGAGCGCCGCGAACTATGTGGCCAACGTACTGAACATGGGGCGTGCGACCGTGTACAAGCACTTGAAGGAGATCAAGGGCGAAGCCTGA	MTPPRQDPALENYRAIADAIATLFFPHAEVVLHDLRTQSVDYIANNLSKRRIGDDAALLDLLSDDNGERNIGPYEKLNWDGQKIRSVSTVLRDAAGTPIAMLCINLNISLFESAKAALDLFLSPTQLIPQPDALFRDDWQERINTFLHNWLRQRQLGLNRLTREHKRELVEALHAEGAFKGRSAANYVANVLNMGRATVYKHLKEIKGEA				NA	NA	NA	NA	NA
BMS010_07956	990	oleD	COG0451	2-alkyl-3-oxoalkanoate reductase	ATGAAGATTCTGGTGACCGGAGCGAGTGGTTTCATCGGTGGGCGTTTCGCCCGCTTCGCCCTGGAGCAGGGGCTGAGCGTGCGGGTCAACGGTCGGCGGCCGGAAGCGGTGGAGCACCTGGTGCGGCGCGGTGCCGAGTTCGTCCAGGGTGACCTGTCCGATCCCGAACTGGCCCAGCGCCTTTGCCAGGATGTCGAAGCAGTGGTGCATTGCGCCGGTGCGGTGGGTGTCTGGGGGCGGTACGCGCATTTCTACCAGGCCAACGTGCAGGTCACCGAGAACGTCGTCGAGGCCTGCCTCAAACAGCACGTGCGGCGGTTGCTGCACCTGTCGTCACCGTCCATCTATTTCGACGGGCATTCCCATGTGGGACTGCGTGAGGAGCAGGTGCCCAAGCGCTTTTCCGACCATTACGGCGCGACCAAGTACCTGGCTGAACAGAAGGTTTTCGGGGCCGAGGAATTCGGCCTGGAGGTGATCGCCTTCAGGCCGCGCTTCGTCACCGGCGCCGGAGACACCAGCATCTTCCCGCGACTGATCCAGATGCAGCGCAAGGGGCGGCTGTCGATCATCGGCAACGGCCTGAACAAGGTCGACGTCACCAGTGTGCAGAACCTCAATGATGCACTGTTCAGCGGCCTGCTGGCGGGCGGCGAGGCGCTGGGCAAGGTGTACAACATCAGTAATGGCGCACCAGTGCCCTTGTGGGACGTGGTCAACTACGTACTGCGCCAGCTTGGCCTGCCGCCGGTCACCCGGCATATGCCGTATCCGCTGGCCTATGCCGTCGCTGCGCTCAACGAAGCGGTGTGCAAGGTGCTGCCCGGACAGCCGGAGCCCACACTGTTCCGCCTCGGGGTGGCGGTGATGGCCAAGGATTTCTCCCTCGATATCACCCGGGCCCGGCAGTACCTGGACTACGACCCGCAGGTCAGCGTCTGGACCGCGCTGGACGAATTCTGTGCCTGGTGGCAGGCGCAGGGACTGTGA	MKILVTGASGFIGGRFARFALEQGLSVRVNGRRPEAVEHLVRRGAEFVQGDLSDPELAQRLCQDVEAVVHCAGAVGVWGRYAHFYQANVQVTENVVEACLKQHVRRLLHLSSPSIYFDGHSHVGLREEQVPKRFSDHYGATKYLAEQKVFGAEEFGLEVIAFRPRFVTGAGDTSIFPRLIQMQRKGRLSIIGNGLNKVDVTSVQNLNDALFSGLLAGGEALGKVYNISNGAPVPLWDVVNYVLRQLGLPPVTRHMPYPLAYAVAALNEAVCKVLPGQPEPTLFRLGVAVMAKDFSLDITRARQYLDYDPQVSVWTALDEFCAWWQAQGL				NA	NA	NA	NA	NA
BMS010_07957	888	argP_2	COG0583	HTH-type transcriptional regulator ArgP	ATGTTCGATTACAAGCTGCTCGCCGCGCTCGCTGCTGTGGTGGAGCAGGCCGGCTTCGAGCGGGCCGCTCTGGTGCTGGGCCTGTCGCAGTCGGCGGTGTCGCAGCGGATCAAACTGCTCGAGGCGCGGGTCGGCCAGCCGGTGCTGGTTCGGGCGACGCCGCCTCAGCCCACCGAATTGGGCCGGCGCCTGCTCAACCATGTCCAGCAGGTGCGTCTGCTGGAGCGCGACCTGCAGGGCCAGGTCCCGGCTCTCGACGAGGGCGGCCAGCCGGAGCGCCTGCGCATCGCGATCAACGCCGATAGCCTGGCGACTTGGTGGGCGCCGGCGGTGGCCGATTTCTGCGCCGAGTACCGGGTGTTGCTGGATCAGGTGGTGGAGGACCAGGAGGTCGGGCTCAAGCGCATGCGCGCCGGCGAGGTGGCTGCCTGCGTCTGTGCCGCCGAACGCCCGGTAGCCGGGGCGCGCAGTCTCTTGTTGGGCGCCATGCGCTATCGGGCGCTGGCCAGTCCGGCGTTCATCGCGCGGCATTTCCCCACCGGGGTGAGTCCCGACGCGCTGGCGCGCAGCCCGGCCATCGTGTTCGGGCCGGACGATTTCCTCCAGCATCGCTATCTGGAGTCGCTGGGCGTGGCGGGGGGATTCGTCTATCACCTCTGTCCGTCCTCCGAAGGCTTTGTCCGCCTGACATCGGGCGGACTCGGCTGGGGGCTGGTGCCGGAGTTGCAGGTGGCCGGCGAACTGGCCCGTGGCGAGCTGGTCGAGCTGCTGCCGGAGCGGCCGGTGGATGTGCCGCTCTACTGGCACCACTGGCGCAACGGCGGCGAATTGCTCGGCGAACTCACCCGTCGACTCGTTCGTGCGGCTGAGCGATTGCTGGTGCGCTGA	MFDYKLLAALAAVVEQAGFERAALVLGLSQSAVSQRIKLLEARVGQPVLVRATPPQPTELGRRLLNHVQQVRLLERDLQGQVPALDEGGQPERLRIAINADSLATWWAPAVADFCAEYRVLLDQVVEDQEVGLKRMRAGEVAACVCAAERPVAGARSLLLGAMRYRALASPAFIARHFPTGVSPDALARSPAIVFGPDDFLQHRYLESLGVAGGFVYHLCPSSEGFVRLTSGGLGWGLVPELQVAGELARGELVELLPERPVDVPLYWHHWRNGGELLGELTRRLVRAAERLLVR				NA	NA	NA	NA	NA
BMS010_07958	405			hypothetical protein	ATGACTGGCGAAACCTCCCTGTCCCTGCTGCTCCGAAACCTCAGCGCCCGACTCAATCCCGGCGACTACGTGTTCTGCTCGCTGCCCGACCACAGCCTTCCGACGGGCCTCGTACCGCTCGGCAGCTTCCGCGAACAGGAAGGGCTGACCGTGATCCTCGAACGTCAGGACGCGCAGCGGCTCGGGCTCGCCTTCGACTATGTCGCCGCCTGGATCACCCTGGACGTGCACTCCTCGCTGGCGGCCGTCGGCCTCACCGCCACCTTTTCCAAGGCGCTGGCCGAGGCCGGGATCAGTTGCAACGTGATCGCTGGCTATTACCACGATCACCTGTTCGTCGCCCGCGACGACGCCGAACGCGCCCTCGCCGCCCTGCGCCAACTGGCCCACCCGGAGGGACACTGA	MTGETSLSLLLRNLSARLNPGDYVFCSLPDHSLPTGLVPLGSFREQEGLTVILERQDAQRLGLAFDYVAAWITLDVHSSLAAVGLTATFSKALAEAGISCNVIAGYYHDHLFVARDDAERALAALRQLAHPEGH	PGPT0004575_442	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004575-rhnA_cobC-K22316	NA	NA
BMS010_07959	603	argO_2	COG1279	Arginine exporter protein ArgO	ATGTGGCAGAGCTATCTCAACGGATTGCTGGTGGCCGCCGGCCTCATCGTCGCCATCGGTGCGCAGAACGCCTTCGTCCTGGCCCAGAGCCTGCGCCGTGAACACCACCTGCCGGTGGCCGCGCTCTGCGTGCTGTGCGATGCGGTACTGGTCTCCGCCGGGGTGTTCGGCCTGGCCGCGGTGCTGCTGCAGAGCCCAACATTACTGGCCGTGGCGCGCTGGGGCGGCGCGGTGTTCCTGCTCTGGTACGGGACCAAGGCGTTGCTTCGCGCCGCTCACCCGCAAGGGCTGGAGCAGGCGGCGGATGCTGGGCCCCGCTCGCGTCGCGCCGTGCTGCTCACTGCCCTGGCGGTGACGCTGCTCAACCCGCACGTCTACCTGGACACCGTGCTGCTGATCGGCTCCCTAGGTGCCCAGCAGGCCGAGCCGGGCGCTTACGCACTGGGTGCCGCCAGCGCCTCGCTGGTCTGGTTCTTCGGCCTCGCCCTCGGTGCCGCCTGGCTCTCACCCTGGCTGGCGCGTCCGGCGACCTGGCGCCTGCTCGATCTCGGCGTGGCGCTCATGATGTTCGCCGTGGCCATGCAATTGCTGCTCGGCGACTGA	MWQSYLNGLLVAAGLIVAIGAQNAFVLAQSLRREHHLPVAALCVLCDAVLVSAGVFGLAAVLLQSPTLLAVARWGGAVFLLWYGTKALLRAAHPQGLEQAADAGPRSRRAVLLTALAVTLLNPHVYLDTVLLIGSLGAQQAEPGAYALGAASASLVWFFGLALGAAWLSPWLARPATWRLLDLGVALMMFAVAMQLLLGD	PGPT0020651_2351	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ARGININE_TRANSPORT,PGPT0020651-lysE|argO-K06895	NA	NA
BMS010_07960	582	sodB_3	COG0605	Superoxide dismutase [Fe]	ATGGCTTTCGAATTGCCGCCGCTGCCGTACGAAAAGAACGCCCTTGAGCCGCACATTTCCGCCGAAACCCTGGAATACCACCACGACAAGCACCACAACACCTATGTGGTGAACCTGAACAACCTGATTCCGGGCACCGAATTCGAAGGCAAGAGCCTGGAAGACATCGTCAAGACCTCTTCCGGCGGCATCTTCAACAACGCCGCCCAGGTGTGGAACCACACCTTCTACTGGAACTGCATGAGCCCGAACGGCGGTGGCCAGCCCACCGGCGCCCTGGCCGACGCCATCAACGCGGCCTTCGGCTCTTTCGACAAGTTCAAGGAAGAGTTCAGCAAGGTCTCCATCGGCACCTTCGGCTCCGGCTGGGGCTGGCTGGTGAAGAAGGCCGACGGCTCCCTGGCCCTGGCCAGCACCATCGGCGCCGGCAACCCGATGACCAGCGGCGACACCCCGCTGCTGACCTGCGACGTCTGGGAACACGCCTACTACATCGACTACCGCAACCTGCGTCCGAAGTACGTCGAAGCGTTCTGGAACCTGGTCAACTGGGACTTCGTGGCGAAGAACTTCGCCGCCTGA	MAFELPPLPYEKNALEPHISAETLEYHHDKHHNTYVVNLNNLIPGTEFEGKSLEDIVKTSSGGIFNNAAQVWNHTFYWNCMSPNGGGQPTGALADAINAAFGSFDKFKEEFSKVSIGTFGSGWGWLVKKADGSLALASTIGAGNPMTSGDTPLLTCDVWEHAYYIDYRNLRPKYVEAFWNLVNWDFVAKNFAA	PGPT0004190_6117	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0004190-chrC|sodB|sodA-K04564	NA	NA
BMS010_07961	741			hypothetical protein	TTGAGCACACCGCGGATACGGATATTTGCAGGCCCCAACGGCTCAGGCAAAAGCACTTTCAATCGGCTGATTCCCGCCCACCTCGTAGGCAAATACATCAACCCTGACGATATCGAGCGCTCCATCAGGGAAACGGGCTATTTCGATTTCCCGGCCTATGCCATAGAAGCGCACAAACACGATGCCATCGAGTTTCTTCGCCAACATCCCGTCCTGACGAAATCCCCCGAGTCACTTGCAAAGATCGACGGCCTGACCCTCGAAGGCGACAGGCTTCATTTCCCGAACGCTGCCGTGGATTCCTATGTCGCCTCGGCGCTGTCGGACTTCGTTCGCCAATCCTTGATCAAGGAAGGCGTGAGCTTCACCTTCGAGACAGTCATGTCGTCACGGGACAAGATCGATCTTTTGAAGAAGGCGAAAGAGGCCGGCTATCGGGTTTATGTCTACTACGTCGCCACAGTCGATCCGGAAATCAACGTCGCACGGGTTGCTTACCGAGTCAGCCAGGGTGGCCACGACGTTGCCCCCGATAAAATCAGAGCCCGCTACAAGCGTTCGCTGGAACTGTTATCCGAGGCAATTTTGATTTCCAACCGAGCCTACATCTTCGACAACTCCGACGAAGGTAAAGGGGAACTCACGCATATCGCCGAAATTACCGAGGGTGACATGCTCGAAATCAAATCCGACATACAACCCCCTTGGTTCAAAACCTACGTCATCGATAAGTTGACCTGA	MSTPRIRIFAGPNGSGKSTFNRLIPAHLVGKYINPDDIERSIRETGYFDFPAYAIEAHKHDAIEFLRQHPVLTKSPESLAKIDGLTLEGDRLHFPNAAVDSYVASALSDFVRQSLIKEGVSFTFETVMSSRDKIDLLKKAKEAGYRVYVYYVATVDPEINVARVAYRVSQGGHDVAPDKIRARYKRSLELLSEAILISNRAYIFDNSDEGKGELTHIAEITEGDMLEIKSDIQPPWFKTYVIDKLT				NA	NA	NA	NA	NA
BMS010_07962	258			hypothetical protein	ATGTCGAGAAAAACGGAAAAGCGCCAGATGACTGAGCATCAGATAAGTGTTCAGGAATCCCGTATTCCCGATATCGCGCTCAAGGCATTCAGCAACGCCTACCAGACGGCAATCGCCAATGGTGCTTCCGTTCTGGTCGCCCAGGACGGGCAGCTCCTGGAGGTCACCCGAGACAGCCGACAAGTCCTTCGCTCGATCGAGGGATATGGCCACCTGAAAAGCGGTACTCGATTGACGATCAAAAAAAGAAACAGCTAA	MSRKTEKRQMTEHQISVQESRIPDIALKAFSNAYQTAIANGASVLVAQDGQLLEVTRDSRQVLRSIEGYGHLKSGTRLTIKKRNS				NA	NA	NA	NA	NA
BMS010_07963	705	yghU_2	COG0625	Disulfide-bond oxidoreductase YghU	ATGACCGACCTGTCCGCCTTCCCCATCACCCGCAAATGGCCCGCCAGCCAGCCGGACCGCCTGCAGCTCTACTCCCTGCCCACGCCCAACGGGGTCAAGGTCTCCATCATGCTGGAAGAGACCGGCCTGCCCTACGAGCCGCACTTGGTCAGCTTCGACACCAACGACCAGATGTCCCCGGAGTTCCTCTCCCTCAACCCGAACAACAAGATCCCCGCCATCATCGACCCCAACGGCCCGGACGGCCGCCCGCTGCCGCTGTTCGAGTCCGGCGCGATCCTGATCTACCTCGCCGACAAGACCGGCCAGCTCATCCCGCAAGACGCTGCCGGCCGCTACCAGACCATCCAGTGGCTGATGTTCCAGATGGGTGGCATCGGCCCGATGTTCGGCCAAGTCGGCTTCTTCCACAAATTCGCCGGCCGCGAATACGAAGACAAACGGCCGCTGCAGCGCTATGTCGACGAAGCCAAGCGCCTGCTCAACGTGCTCGACCGGCACTTGGAAGGCCGCGCCTGGATCATGGGCGATACCTACACCATCGCCGACATCGCCACCTTCCCCTGGGTGCGCAACCTGATCGGCTTCTACGAAGCTGGTGATCTGGTGGAAATCGAGCGCTTCGGCAACGTCACCCGTGTGTTGGACGCCTTCCTCGCCCGCCCGGCAGTGGTGCGGGGGTTGGGGATTCCGAAGCGGGGGTGA	MTDLSAFPITRKWPASQPDRLQLYSLPTPNGVKVSIMLEETGLPYEPHLVSFDTNDQMSPEFLSLNPNNKIPAIIDPNGPDGRPLPLFESGAILIYLADKTGQLIPQDAAGRYQTIQWLMFQMGGIGPMFGQVGFFHKFAGREYEDKRPLQRYVDEAKRLLNVLDRHLEGRAWIMGDTYTIADIATFPWVRNLIGFYEAGDLVEIERFGNVTRVLDAFLARPAVVRGLGIPKRG	PGPT0013045_1643	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013045-yghU|yfcG-K11209	NA	NA
BMS010_07965	453			hypothetical protein	ATGCGTTCACCACAACAGGAAGCCCCACAGCCGCTGACCCACCTCGTCCAGCAGATCGCCGAGTACGGCACGATCCGCGAGCATTTCCACCAGCTCTGCGCGATCTTCAGCGAGTACTGCGCCCACGTCGACATTCCCGGCCTCGCCGGGGAACGCGACGCCAACCGCGACGAGTACCGCATCCGCGTGCTTGACCGCGTAGTGAAGCTGGTGCTCTCCCCCCGTGCCCTGGACAGTGCGCTCTGCGGCCACGTCCAGGCCATCGAATGCGTACCCGGCGCCGAGCGCCTGGTGGGCTCGTTCATCCTCGGCACCACCGGCGATCTGACCGACGAGCACGGTGCCGTCCAGTTCACTGTCGGAACGCACTCCAGAGCCGCCCAGCTCACCTTTTTCGGCAACTTCATCTACTCATTCCTGGGCCGTTCCAAACCGATCGCCAAGGGCGAGTGA	MRSPQQEAPQPLTHLVQQIAEYGTIREHFHQLCAIFSEYCAHVDIPGLAGERDANRDEYRIRVLDRVVKLVLSPRALDSALCGHVQAIECVPGAERLVGSFILGTTGDLTDEHGAVQFTVGTHSRAAQLTFFGNFIYSFLGRSKPIAKGE				NA	NA	NA	NA	NA
BMS010_07966	369			hypothetical protein	ATGACCGATTACCGCCCCATCAACCTCGCCGCGAAACTCGGCCTCATCCACGACCACTGGTCACCCCGGGTCGTTGCGGAAATGAACGACTACCAGTTCAAGCTGGTGAAGATCCAGGGCGACTTCATCTGGCACAGCCACGCCGACACCGACGAAACCTTCATCGTGCTGGACGGCCAACTGCGCATCGACTTCCGCGACGGCGCGGTGCACCTGTCGGCGGGCGAACTCTTCATCGTGCCCAAAGGCCTGGAGCACAAACCCTACGCCGAGAGCGAAGTGCAATTGATGCTGATCGAGCCGCGCGGCGTACTCAACACCGGCGAGGAAGGCGGCGAGCGCACGGCGCAGAACGACGTGTGGATTTGA	MTDYRPINLAAKLGLIHDHWSPRVVAEMNDYQFKLVKIQGDFIWHSHADTDETFIVLDGQLRIDFRDGAVHLSAGELFIVPKGLEHKPYAESEVQLMLIEPRGVLNTGEEGGERTAQNDVWI				NA	NA	NA	NA	NA
BMS010_07967	708			hypothetical protein	ATGACGTTCATCCAGCGCCATCCCGTGGAAGCCGGGCTCGATGCCGAGCGTGCCCTGTTGGACCGTATCCACAGTGGCGAGCAGGACTGCGGGCTGTTGTTCTGGCGGCCGCAGGAACAGGCCCTGGTGATGCCAGGACGGCTCAGCCGGTTGGCCGGCTTCGAGGCGGCGCAGGCGCATTGCCAGGCACTCGGCTGGCCGGTGGCGTTGCGCGATACCGGCGGTGAGCCGGTGCCGCAGTCGCCGGCGGTGCTGAACGTGGCGCTGGCCTATGCGGTGCCGCGCGAGGAGAGCGAGCTGACCCGCCTGGAGACCGCCTACCTGCGCCTGTGCGATCCGCTCTGCGACTGGCTGCGTGCGGCCGGCCTGGAGCCGGGGCTGGGCGAGGTGGAGGGGGCGTTCTGCGACGGCCGCTACAACGTCAATCTGCGCGGGCGCAAGCTGGTCGGCACGGCGCAGCGCTGGCGGCGCCGGCCGGGCGACGGTCGCAACGTGGTGCTGGCCCATGGCGCGGTGCTGATGGAGAACCAGCGGCAGGCGATGGTGGAGCTGGTCAATGCGTTCTATGAGCGCTGCGGGCTGGACGATCGCTGCCGGGTGGACGCCCACATCGCCCTGGATGAATGCCTGGATGAGGTCTGGCCGCGCAGCGCCGATCTCTGGCAACTCTACCGCACCACCCTGGCCGGCCTCGGCCTGCGCGACTGA	MTFIQRHPVEAGLDAERALLDRIHSGEQDCGLLFWRPQEQALVMPGRLSRLAGFEAAQAHCQALGWPVALRDTGGEPVPQSPAVLNVALAYAVPREESELTRLETAYLRLCDPLCDWLRAAGLEPGLGEVEGAFCDGRYNVNLRGRKLVGTAQRWRRRPGDGRNVVLAHGAVLMENQRQAMVELVNAFYERCGLDDRCRVDAHIALDECLDEVWPRSADLWQLYRTTLAGLGLRD				NA	NA	NA	NA	NA
BMS010_07968	417			hypothetical protein	ATGGAAATGATCTACCCGATGTTCGCCCTAGTGCTGTTGAAGTTCGGGGTGGGCTTGAGCCTGGGGATTTCGCGGGTGCTGAGCGTCAAGCGGAGGCAGGTCGACCCCCGCTATTACCGGCTGTTCTGCGGTTCGCCGCCGCCGGAGCATGTGCAGAAACTGGGGCGGAATTTCTCCAATCTCTTTGAAGTGCCGCTGTTGTTCTACATCGCCGGGGTGATGGCGATCGCCCTGGGTATCGACAGCCTCTTGCTCCTGGCGCTGGGCTGGGCGTTCGTGGTGTCGCGGATCGTTCACTCGGCGATCCACATTACCTATAACAACTCCTTCCATCGATTCCTGGCTTACTTGGTTTCGAGCGTGATCGTGCTGGTCATGTGGATCGATCTGGTGGTTGTGGTGGGTGGGCGGGGGTGA	MEMIYPMFALVLLKFGVGLSLGISRVLSVKRRQVDPRYYRLFCGSPPPEHVQKLGRNFSNLFEVPLLFYIAGVMAIALGIDSLLLLALGWAFVVSRIVHSAIHITYNNSFHRFLAYLVSSVIVLVMWIDLVVVVGGRG				NA	NA	NA	NA	NA
BMS010_07969	1920	rep_3		ATP-dependent DNA helicase Rep	ATGCCATCTGCTGTCGAGCGCTACAAGGCGCTCCTGTCTGGGATGCTGGCCCGTTACTTCCCGCGCACCACGGCCTATCTGCGGGCCGAGCGCGAGGCGACGGCTGCGCAGGCGAAGCCGCGTTCGCGCAGCAAGAAAGCCGGAGCCAGGAGCGCCAAGCCCCGCGCAAGGAAAACAACCGACGCCAAGCCCAAGCCGGCGAGTACCGGCATCTACCCGGCGACGCTGATGCCGGTGGAAGCGGCGCAGGTGCAGGCGATGCGCGAGCGGGTCGCCGAGGCGGTGCGGGCGGGGATCGTGAGTGCGCCATCGGACGAGCAGTGGGCGATGATCCTGGGCCGCGCGCCGCTCACGCGGATTTTCGCCGGGGCGGGGTCGGGGAAGTCGACCACCCTGGTGCTGCGGGTGGTGTTCATGCTCTGCCACCTGGGCATCGACCCGGGGCGGCTGACGGTGATTTCCTTCACCAATGCCTCCTGCGCTCAACTGCGCGAGCAGTTGCTGAAGGTGCTCGGCTTCTGGGGCTTCTCGTTCGACGCCGCGCAGGCGCGCAAATGCGTGCGTACCTTCCATTCGGCCATGGGCACGTTGGCCAAGGAGGTGCTGGGCAATCCAGCCTGGTTCGAGCAACTGGACGAGCCCGCCGCGGAAGGCGAGCTGGACAACCCGTTACTATCCGGCCGCCTGCGTCCGGCCCAGCAGCGCCTGTTGAAGCAGGTCTACCAGGACACCTATGCCAAGGAACCGGCCTTCCGCGAGCGGGTGCACCGTCTGCTGGACCTGCCGCCTCCCCCGGAGGAGACCAAGGGCAAGCCCAGGGCGCCGCTGGATGGCTTCACCCTGGCCGGCGAGTTCGCCGCACTGCCGTTGTTCGAGGCCTTCTACGTGCAGGCGGGGTTCATGGAAAGCATCGGTCTGCGTCCCGGGCGGGTCGATGCCCGAACGCTGTCCTGTTCGCCGCGGGAGCGGTGTTTCGTCGAGGCACTGGCGCTGTTCTGGCAGCGCTTCGAAACGCGACTGACGGAGCAGGGCCTGACGACCTTCAACGGCGCTTTCCAACGGCTCACCGATTCCTTGGCCGACGACGGCGGCCGTGTTTCGGCCGAGGCTCTGCGGCCGCTCAGCCATCTGCTGATCGACGAGTTCCAGGACATTTCCCCGCAGATCGTCCTCTGGTTGCAGGCGGTCCATCGGCGGCTCGTCCGCGAGAAGGAGAAGGTCAGTCTGATGGCCATCGGCGACGACTGGCAGTCGATCTATGGCTGGCGCGGCAGCTCGCCGGAGCTGTTCATGGACTTCGATCGCCACTTCCCATCGAAGGGCAAGCGCAAGAGCGCGGTGCTGCTGCTGGAAACCAACTACCGCTCCATCGAACCGGTAATCCGCGATGCCGAGGCGGTGCTGGACGGCGTGACGTTCAAGCAGGCCAAGACGAGCAAGGCGTTCAAGGCGATGCAGCCGGGCGATCACGGTGTGAAGCTGGTGCCGCGCTTCGATCTCAAGGCGCGGCTGCCGGAGCTGCTGGCGGAGATCAAGACACAGTGCGGGCACGTCGCCGCCAAGGGTTCGACCGAGCGCACGGCGGTGCTGGTGCTGAGCCGGCGCAACGAGCCGTTGCAGCAGATCCAGGCGCAACTGGACAAGACGCTGTCCGTGAAGGGTTACACCATTCACCGCGCCAAGGGCCTGCAGGCCGAGGTGGCGATCATCGTCGATGAGTGCATGCCACCGGAAAAACACCCGCTGCGCAACGCGCTCTACGCGCACTCCGGGTTCTTCCGCAACAGCTACGACCAGGCCATGGCCGACGAGGCGCTGCGCCTGGCCTATGTGGCGATCACCCGTGGCGTGAGCCGGGTGCTCTGGTTCTATTCCAAGCCACAAGGGGCGACGCAGGTATTGGCGCAGCGCAGTCGCTGA	MPSAVERYKALLSGMLARYFPRTTAYLRAEREATAAQAKPRSRSKKAGARSAKPRARKTTDAKPKPASTGIYPATLMPVEAAQVQAMRERVAEAVRAGIVSAPSDEQWAMILGRAPLTRIFAGAGSGKSTTLVLRVVFMLCHLGIDPGRLTVISFTNASCAQLREQLLKVLGFWGFSFDAAQARKCVRTFHSAMGTLAKEVLGNPAWFEQLDEPAAEGELDNPLLSGRLRPAQQRLLKQVYQDTYAKEPAFRERVHRLLDLPPPPEETKGKPRAPLDGFTLAGEFAALPLFEAFYVQAGFMESIGLRPGRVDARTLSCSPRERCFVEALALFWQRFETRLTEQGLTTFNGAFQRLTDSLADDGGRVSAEALRPLSHLLIDEFQDISPQIVLWLQAVHRRLVREKEKVSLMAIGDDWQSIYGWRGSSPELFMDFDRHFPSKGKRKSAVLLLETNYRSIEPVIRDAEAVLDGVTFKQAKTSKAFKAMQPGDHGVKLVPRFDLKARLPELLAEIKTQCGHVAAKGSTERTAVLVLSRRNEPLQQIQAQLDKTLSVKGYTIHRAKGLQAEVAIIVDECMPPEKHPLRNALYAHSGFFRNSYDQAMADEALRLAYVAITRGVSRVLWFYSKPQGATQVLAQRSR				NA	NA	NA	NA	NA
BMS010_07970	1629	nhaK	COG0025	Sodium, potassium, lithium and rubidium/H(+) antiporter	ATGGATATTCTCAACCTCATCTTCCTGCTCCTGCTCGCCGTCGCCATCAGCCGCATCGTGGCGAACGTCTTCCCCGTACCGCTGCCGATCCTGCAGATTCTCATGGGCTGCGCCATCGCCCTGCCGCCGTTCGGCATGCAGGTGGAATTGCACCCGGAACTCTTCATGCTGCTGTTCATTCCGCCGCTGCTGTTCTACGACGGCTGGCGGATACCCAAGCGCGAGTTCCGCGACCACGGCGGGCAGATCGCCGCCATGTCGCTGCTGCTGGTACTGATCACGGTGGTGGTGGCCGGCTACGTCATCCATTGGCTGCTGCCGTCGATTCCGCTGGCCGCCAGCTTCGCCCTTGCCGCCATCCTCTCGCCCACCGACGCGCTGGCGGTGATCGCCATCGCCCAGGGCCGGCTGCCGCGCCACATGAGCCACCAGCTCGAAGGCGAAGCGATGATGAATGACGCCACCGGCCTGGTGTCGTTCAAGTTCGCCGTCGCCGCCGCGGTGACCGGCAGCTTCTCGCTTTCTTCGGTGGCCGGCGGCTTCCTCCTGGTCGCCGTCGGCGGCCTGGCCATCGGCGCCGGGCTGAGCTGGGCGGTCGGCAAGCTCAAGCAGTGGATGACGTCGCACAAGCTCTACGACCCGTCGAGCTACGTGGTCACCATGCTGCTATTACCCTTCGCCGCCTTCTTCCTCGCCGAGCACGCCGGTATGTCCGGCATCCTCTCGGCAGTGGCCGCCGGCATGGTGCAGAGCCGGGTGGACATGCTGCCGGTGAAGACCAGCACACGCATCATCAACCGCAGCATCTGGGAAATGCTCGACTTCAGCTTCAACGGCCTGGTGTTCCTGCTCCTCGGCCTGCAATTCCCGCGCATCATCGAGCGCGTCTGGGAGAACGCCAGCGGCGAGAATTACAACCTGCCCCTCCTGATGCTCTATGCCGTGCTGATCATGGCGCTGCTGCTGGTGATCCGCTATGCCTTCGTCTACGCCTACCACCACTGGGAGGCATTGGTCGCCCGCCTGCGCGGCAAGCCCCACGAACCGCAGCCGGTGGCCCTGCTCTCCGCGCTCAGCTCGGTGGCCGGCGTGCGCGGCGCCATCACCCTGGCGGGCGTGCTCTCGGTGCCGCTGATGATCGGCGATGCCCCCTTCCCCGGCCGCGACCCGATGATTTTCATCGCCGCCGCAGTGATCATCCTCTCCCTGGCCATCGGCAGCTTCGGCGTGCCCTACTTCCTCCGGTTCCTGCCGATGAACGACCTGGAAGAGCACGAACAGGAACTGCGCAAGGCCCGGCGCGCCGCGGCGCAGGCGGCGATCCGCTGGCTGGAAGGCTGGAAACAGTCGCACCCCAGCGGCGACGCCGACGCGGCGCTGCGGGTCAACGAGGTCACCACCGGCGTGATCGAGGCCTACCGCCACAACCTCGAAGTACTGATGGATCGCCACGACATGGCCAACCAGGCCCGCCGCACCAAGGCCCTGGAGACGGAAATCCGCATCAAGGCGATCCAGGCCGAACGCAAGGAGCTGTACCGCCTGCGCAAGCGCCACGTCATCGACGACCAGATGCTGCAGGAGCTGATCCGCGAGCTGGACTATGCCGAGGCGGCGCTGATGGGGTGA	MDILNLIFLLLLAVAISRIVANVFPVPLPILQILMGCAIALPPFGMQVELHPELFMLLFIPPLLFYDGWRIPKREFRDHGGQIAAMSLLLVLITVVVAGYVIHWLLPSIPLAASFALAAILSPTDALAVIAIAQGRLPRHMSHQLEGEAMMNDATGLVSFKFAVAAAVTGSFSLSSVAGGFLLVAVGGLAIGAGLSWAVGKLKQWMTSHKLYDPSSYVVTMLLLPFAAFFLAEHAGMSGILSAVAAGMVQSRVDMLPVKTSTRIINRSIWEMLDFSFNGLVFLLLGLQFPRIIERVWENASGENYNLPLLMLYAVLIMALLLVIRYAFVYAYHHWEALVARLRGKPHEPQPVALLSALSSVAGVRGAITLAGVLSVPLMIGDAPFPGRDPMIFIAAAVIILSLAIGSFGVPYFLRFLPMNDLEEHEQELRKARRAAAQAAIRWLEGWKQSHPSGDADAALRVNEVTTGVIEAYRHNLEVLMDRHDMANQARRTKALETEIRIKAIQAERKELYRLRKRHVIDDQMLQELIRELDYAEAALMG	PGPT0013930_220	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013930-nhaK|TC_CPA1-K03316	NA	NA
BMS010_07971	177			hypothetical protein	ATGCATTCGACCCCCCAAGGCCGTCCTGCACCCGACAGCAAGCAAGCGGAAACCCGTCTCTTCATTTTCCTCATCGTGTTCCTGTTCCCGATCCTCAGCGTCGTGCTGGTGGCGGCCTACGGGTTCGTCGTGTGGATTTTCCAGATGCTGATCTTCGGCCCGCCCGGGCCGGGTTGA	MHSTPQGRPAPDSKQAETRLFIFLIVFLFPILSVVLVAAYGFVVWIFQMLIFGPPGPG	PGPT0000330_101	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000330-napE-K02571	NA	NA
BMS010_07972	261	napD_2	COG3062	Chaperone NapD	ATGGATGACGTCCTGCATATCGCCAGCCTGCTGGTTCACTGCCGTCCCGAGGCGCTCGCCGCGCTGAAGGACAATCTGTGCCTGTTGCCCGATCTGGAACTGCACCAGGAGAGCCCGGCCGGCAAGCTGGTGGTGGTGCTGGAGGCGGAACACGAGAGCCGCATTCTCGAACGGCTCGACCAGATCCAGAACCTGCCCGGCGTACTCAATGCCGTGCTGGTCTATCACGAACTCCTCGACCCAGAAGGAGAAGCCCGATGA	MDDVLHIASLLVHCRPEALAALKDNLCLLPDLELHQESPAGKLVVVLEAEHESRILERLDQIQNLPGVLNAVLVYHELLDPEGEAR	PGPT0000325_584	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000325-napD-K02570	NA	NA
BMS010_07973	2505	napA_2		Periplasmic nitrate reductase	ATGAGCCTGACCCGACGCCAGTTCGCCAAGGCCAATGCCGCCGCCATCGCGGCGAGCGTGGCCGGCATTCCCCTGGTCACCAGCGCCAGCAACCTGGTCACCGAGGCGGACGCCACCAACCTCAAGTGGGACAAGGCGCCCTGCCGGTTCTGCGGCACCGGCTGCGGAGTGATGGTGGCGACGCGGGACAACCGAGTGGTGGCGACCCATGGCGACATGAAGGCGGAGGTCAACCGCGGCATCAACTGCGTCAAGGGCTACTTCCTGTCGAAGATCATGTACGGCGTGGACCGCCTGACCCAGCCGCTGCTGCGGATGAAGGACGGCCGCTACGACAAGCAGGGCGAGTTCCAGCCGGTGAGCTGGGACCAGGCCTTCGACATCATGGCGGAGAAGTACAAGGCCGCCCTGGCCCAGGGCGGGCCCCAGGCCATCGGCATGTTCGGCTCGGGGCAATGGACCATCTGGGAAGGCTATGCGGCGAACAAGCTGATGAAGGCCGGTTTCCGCTCCAACAATATCGATCCCAACGCCCGGCATTGCATGGCCTCGGCGGCGTTCGGCTTCATGCGTACCTTTGGCATGGACGAGCCCATGGGCTGCTACGACGACATCGAGGCGGCGGATGCCTTCGTGCTCTGGGGCTCGAACATGGCGGAGATGCACCCGGTGCTGTGGACGCGGGTCACCGACCGGCGCCTGGGCGCGCCCCACGTCAAGGTGGCGGTGATGTCCACCTTCGAGCACCGCAGCTTCGACCTCGCCGACATCCCCATGGTGTTCAAGCCGCAGACGGACCTGGTGATCCTCAACTACATCGCCAACCACATCGTGCAGAGCGGCGCGGTGAACCGCGATTTCGTGCAGAAATACACCCGTTTCGCCAAGGGTGCGCAGAACATCGGCTACGGCCTGCGTCCCACCGATCCGCTCGAGCTGAAGGCGGAAAACGCTGCGGTGGCCAACACCTGGAGCGACATCGATTTCGACCAGTACGTGGAATTCCTCAAGCCCTACACGCTGGAGCACGCGGCCAGGGAAACCGGCGTGCCGGCCGAGCGGCTGAAAGCGCTGGCCGAACTGTATGCGGACCCGAAGGTGAAGGTCATGTCGTTCTGGACCATGGGCTTCAACCAGCACACCCGGGGCGTGTGGGCCAACAACCTGATCTACAACCTGCACCTGCTCACCGGCAAAATCAGCGAGCCGGGCAACAGCCCCTTCTCGCTCACCGGCCAGCCCTCGGCCTGCGGCACGGCGCGGGAGGTGGGTACCTTCTCCCACCGCCTGCCGGCCGACATGCTGGTGGCCAACGCCAAGCACCGCGCGACCGCCGAGAAAATCTGGAAGCTGCCGGCCGGGACCATCCAGGAGAAACCCGGCTTCCATGCGGTGGAGCAGAGCCGGCAGCTCAAGGATGGCGCCCTGCGGGTGTATTGGACGCAGGTCTGCAACAACATGCAGGCCGGGCCGAACATCATGCAGGAGATCCTGCCCGGCTGGCGCAACCCGGAGAACTTCATCATCGTCTCCGACGTGTACCCGACGGTCTCGGCCCAGGCCGCCGACCTGATCCTGCCCAGCGCCATGTGGGTGGAGAAGGAGGGCGCCTATGGTAACGCCGAGCGGCGCACGCAGTTCTGGCACCAGTTGGTGGACGCTCCCGGCGAGGCGCGCTCGGACCTCTGGCAACTGGTGGAATTCTCCAAGCGCTTCACCACCGACGAGGTCTGGCCGGCGGAGTTGCTGGCCAAGGCGCCGGAGTACAAGGGCCAGACGCTGTACCAGGTGCTGTTCGCCAACGGCCAGGTGGACCGTTTTCCGAAGACCGAGATCGCCAAGGACTACCGCAACCACGAGGCTGAGGCGTTCGGCTTCTACATCCAGAAGGGCCTGTTCGAGGAATACGCCGCCTTTGGCCGGGGCCACGGGCACGACCTGGCGGACTTCGACGTCTACCACCAGGAGCGCGGGCTGCGCTGGCCGGTGGTGGAAGGCAAGGAAACGCGCTGGCGCTACCGCGAGGGCTACGACCCCTACGTGGCCAAGGGCAGCGGCGTGCAGTTCTACGGCCAGCCGGACAAGAAGGCGATCATCTTCGCCTTGCCCTACGAAGTGCCCGCCGAGGTGCCGGACGAGGAATATCCGTTTTGGCTCAGCACCGGCCGCGTGCTGGAGCACTGGCATACCGGCAGCATGACCCAGCGGGTCGACGAACTCTTCCGTGCGGTGCCCGATGCGCTGGTCTACATGCACCCGGAGGACGCGCGCAAGCTCAACGCCCGACGCGGCAGCGTGGTGAAGGTGATCAGCAGGCGCGGCGAGATGCAGGCACGGATAGAGACCCGCGGCCGTAACAAGCCGCCGCAAGGGCTGGTGTTCGTGCCGTTCTTCGACGCCAACAAGCTGATCAACAAGGTCACCCTCGACGCCACCGACCCGATCTCCAAGCAGACCGATTACAAGAAGTGCGCGGTGAAGATCGAAGTGGTCAGCCTTGCCTGA	MSLTRRQFAKANAAAIAASVAGIPLVTSASNLVTEADATNLKWDKAPCRFCGTGCGVMVATRDNRVVATHGDMKAEVNRGINCVKGYFLSKIMYGVDRLTQPLLRMKDGRYDKQGEFQPVSWDQAFDIMAEKYKAALAQGGPQAIGMFGSGQWTIWEGYAANKLMKAGFRSNNIDPNARHCMASAAFGFMRTFGMDEPMGCYDDIEAADAFVLWGSNMAEMHPVLWTRVTDRRLGAPHVKVAVMSTFEHRSFDLADIPMVFKPQTDLVILNYIANHIVQSGAVNRDFVQKYTRFAKGAQNIGYGLRPTDPLELKAENAAVANTWSDIDFDQYVEFLKPYTLEHAARETGVPAERLKALAELYADPKVKVMSFWTMGFNQHTRGVWANNLIYNLHLLTGKISEPGNSPFSLTGQPSACGTAREVGTFSHRLPADMLVANAKHRATAEKIWKLPAGTIQEKPGFHAVEQSRQLKDGALRVYWTQVCNNMQAGPNIMQEILPGWRNPENFIIVSDVYPTVSAQAADLILPSAMWVEKEGAYGNAERRTQFWHQLVDAPGEARSDLWQLVEFSKRFTTDEVWPAELLAKAPEYKGQTLYQVLFANGQVDRFPKTEIAKDYRNHEAEAFGFYIQKGLFEEYAAFGRGHGHDLADFDVYHQERGLRWPVVEGKETRWRYREGYDPYVAKGSGVQFYGQPDKKAIIFALPYEVPAEVPDEEYPFWLSTGRVLEHWHTGSMTQRVDELFRAVPDALVYMHPEDARKLNARRGSVVKVISRRGEMQARIETRGRNKPPQGLVFVPFFDANKLINKVTLDATDPISKQTDYKKCAVKIEVVSLA	PGPT0000310_286	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000310-napA-K02567	NA	NA
BMS010_07974	525			hypothetical protein	GTGAAGCTCCATTACCTGCCTGTCCTGCTGTTCGCCACCTTGGGCCTGGCCATCGCCGCCGATCCGCAACCGGTCGGCAAACCGGTGGCTGCCGCCCCCGACTATCCCCTCGATGCGCCGGCGCCGTCTGGCCGTCGTCCCGGCGGGACCCTCACCCAGGAATTCACTCCACCGCCGCTGCATGACGAGGAGAACAAGGACATCCGCCGCGAGCGCAATTACCCGGAGCAGCCGCCGACCATCCCCCACGCCATCCGCGGCTACCAGGTGGATATCAACGGCAACAAATGCCTGGCCTGCCACAGCCGCGCCGCCAGCGTGCAGGCCCAGGCGCCGATGATCAGCATCACCCACTACACCGACCGCGAGGGCCAGACCCTGGCGGCGGTGGCGCCGCGCCGCTACTTCTGCACCCAGTGCCACGTGCCGCAGCAGGACGTGAAGCCGCTGGTGGAGAACGGCTTCAAGAACATCGACGTGCTGTTGCAGCACGAGCTGCCGCCGAGCAGCAACCGGCAGCGCTGA	MKLHYLPVLLFATLGLAIAADPQPVGKPVAAAPDYPLDAPAPSGRRPGGTLTQEFTPPPLHDEENKDIRRERNYPEQPPTIPHAIRGYQVDINGNKCLACHSRAASVQAQAPMISITHYTDREGQTLAAVAPRRYFCTQCHVPQQDVKPLVENGFKNIDVLLQHELPPSSNRQR	PGPT0000315_235	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000315-napB-K02568	NA	NA
BMS010_07975	597	napC_2		Cytochrome c-type protein NapC	ATGAAAGCCCTCATCGCCTTCCTCAAGCGTTACTGGGTGGTGTTGCGCCGGCCCAGCGTGCACTACAGCCTGGGCACCCTGACCCTGGGCGGGTTCATCGCCGGGATCTTCTTCTGGGGCGGCTTCAACACCGCGCTGGAGGCCACCAACACCGAGGCGTTCTGCATCTCCTGCCATGAGATGAGTTCCAACGTGTACGTGGAGATCAAGGACACCATCCACTACAGCAACCGCTCCGGGGTGCGCGCCACCTGCCCCGATTGCCACGTGCCGCACAAGTGGACCGACAAGATCGCGCGCAAGATGCAGGCCTCCAAGGAGGTGTGGGGCAAGATCTTCGGCACCATCAGCACCCGCGATAAATTCCTCGCCATGCGCCGCGAGCTGGCCGAGCACGAATGGGCACGGCTGAAGGCCAACGACTCTCTCGAGTGCCGCAACTGCCACGCCTTCGACTACATGGACTTCACCCGCCAGAGCCCACGCGCCGCGCAGTTCCACTCCACCGCCCTAGCCAACGGCGAGGCCACCTGCATCGACTGCCACAAGGGCATTGCCCACCGCCTCCCTGACATGCGCGGCGTGCCGGGCTGGTGA	MKALIAFLKRYWVVLRRPSVHYSLGTLTLGGFIAGIFFWGGFNTALEATNTEAFCISCHEMSSNVYVEIKDTIHYSNRSGVRATCPDCHVPHKWTDKIARKMQASKEVWGKIFGTISTRDKFLAMRRELAEHEWARLKANDSLECRNCHAFDYMDFTRQSPRAAQFHSTALANGEATCIDCHKGIAHRLPDMRGVPGW	PGPT0000320_393	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000320-napC-K02569	NA	NA
BMS010_07976	342	fbp_1	COG0545	FK506-binding protein	ATGGGCGATGAATTGCAGATCGAAGATATCCGGGTGGGCGACGGCAAGGCCGTGGTGAAGGGCGCCCTGATCACTACCCAGTACCGGGGTACCTTGGAGGATGGCACCGTGTTCGATTCCTCCTACGACCGCGGCAAGCCGTTCCAGTGCGTGATCGGCACCGGCCGCGTGATCAAGGGCTGGGACCAGGGGCTGATGGGCATGAAGGTCGGCGGCAAGCGCAAACTCTTCGTCCCCGCTCACCTGGCCTATGGCGAACGCCAGATCGGCGCGCATATCAAGCCGCATTCCAACCTGGTTTTCGAGATCGAGTTGTTGGAAGTGCTGACGCGGGATGATTGA	MGDELQIEDIRVGDGKAVVKGALITTQYRGTLEDGTVFDSSYDRGKPFQCVIGTGRVIKGWDQGLMGMKVGGKRKLFVPAHLAYGERQIGAHIKPHSNLVFEIELLEVLTRDD	PGPT0015110_188	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0015110-ppiA-K03767	NA	NA
BMS010_07977	924			hypothetical protein	ATGGAGATGCGCAAGGCGCTCGATGGTCGGGCGGCGGGGTTGATGGTCGTGTTGTGCCTGGTCTGGGGCCTCCAGCAGGTGGCGATCAAGGCGGCTGCCCCGGATATCGCGCCGTTGTTGCAGATCGCGTTGCGCTCGGGTGTCGCGGCGGTGCTGGTGGGATTGCTGGTGCTGGTCCGGCGCGAGCGGCTGTCGCTGGCCGGTACCTGGCGCCCCGGCTTGCTGGTGGGCTTCCTGTTCGCCCTGGAATATCTGCTGGTGGGCGAAGGGCTGCGCTACACCAGCGCTTCGCACATGGTGGTGTTTCTCTATACCGCGCCGATCTTCGCGGCGCTCGGCCTGCAATGGCGGCTGCCATCCGAGCGGCTGGTGCCGTTGCAGTGGATGGGCATCCTGTTGGCATTCGCCGGGATCGCCTTGGCGTTCTTCGGCGGCGATCATGGTGGTGGCTTTTCCGGCGACGTCTTTTTCGGTGATCTGCTCGGCCTGCTAGGCGGGGTCGCCTGGGGCGCGACCACGGTAGTGATCCGCTGCTCACGCCTGGCAGGCACGCCGGCGGCCCTGACGTTGTTCTATCAACTGGCGGCGGCCTTCCTGTTGCTGACCCCCGCCGCCGTCGCGCTCGGGCAATGGGGCTTCGATCCCACGCCGCTGGCCTGGAGCAGCCTGGCGTTCCAGGCGGTGGTGGTGTCCTTCGTCAGTTTCCTCGCCTGGTTCTGGTTGCTACGACACTACCTGGCGTCCCGGCTGGGCGTGTTTTCCTTCCTGACCCCTCTGTTCGGCGTGGTGCTGGGCGCCTGGCTGCTCGACGAGGCCATCGAGCGAGGCTTCCTGATGGGCGCCGTGTTCGTCCTGCTCGGCATCTTGCTGGTGAGCGGGCACGGTTGGCTCAAGGCCCTGCTGCGTGGCCGTCGAGCGGCGTAG	MEMRKALDGRAAGLMVVLCLVWGLQQVAIKAAAPDIAPLLQIALRSGVAAVLVGLLVLVRRERLSLAGTWRPGLLVGFLFALEYLLVGEGLRYTSASHMVVFLYTAPIFAALGLQWRLPSERLVPLQWMGILLAFAGIALAFFGGDHGGGFSGDVFFGDLLGLLGGVAWGATTVVIRCSRLAGTPAALTLFYQLAAAFLLLTPAAVALGQWGFDPTPLAWSSLAFQAVVVSFVSFLAWFWLLRHYLASRLGVFSFLTPLFGVVLGAWLLDEAIERGFLMGAVFVLLGILLVSGHGWLKALLRGRRAA				NA	NA	NA	NA	NA
BMS010_07978	414			hypothetical protein	ATGAACGCCCCCGCCGCCCTCACCCGCGAACGCCTCGAAGAAGCCCTGGAACACTCCCCCTTCGCCCAACTGGTCGGTTTCCAGCTCACCGACTTCGGCCCCGGACGGGTCGCAATGGAAGTCCTGCCGCGCCGCGAACTCACCCAGCACCACGGCTTCGTGCACGGCGCGGTGGTCGGCTTCATGATCGACAGCGCCTGCGCCTGGGCCGCCGCCTCGCTGGTGGGCGATGTGGTCACGTCGGAATACAAGGTCAACCTGCTGGCCCCCGCCATCGGCGACAAGCTCATCTGCCGCAGCGAAGTGATCAAGGCCGGGCAGCGTCAGGCGGTCAGCCGCGCCGACGTGTTCGCCGTGCGCGACGGCCAGGAGAAAATCATTGCCACCGGCCTGGCCACCATCGCCAGGGTCTGA	MNAPAALTRERLEEALEHSPFAQLVGFQLTDFGPGRVAMEVLPRRELTQHHGFVHGAVVGFMIDSACAWAAASLVGDVVTSEYKVNLLAPAIGDKLICRSEVIKAGQRQAVSRADVFAVRDGQEKIIATGLATIARV				NA	NA	NA	NA	NA
BMS010_07979	1101	lodB	COG0644	Putative FAD-dependent oxidoreductase LodB	ATGCCGGACAGCACCTGCCGGGTCGCCATCGTCGGCGGCGGCCCGGCGGGGTGCGCCGCCGCCCTGGCCCTGTTGCAACGGGGCCTGGACGGCGTGGTGCTGATCGAGGCCGGCGACTATGGCCGGCCGCGTGTCGGCGAAAGCCTGCCGCCGGACACCCGCGAGCTGCTGATGCGTCTCGGGCTATGGGAAGCCTTCCGGCAACAAGGCCATGATCCGTGCCTGGGCAGTTGCTCCGCCTGGGGCGACGACCAGATCGGCTACAACGACTTCATCAGCAACCCGCACGGCAGTGGCTGGCATCTGGATCGCCAGCGCTTCGAGCGTTGGCTCGCCGACGAAGCCGTCGCCCGCGGTGCCCGCCTGCTCGGCGGAACCCGCCTGAATGCCTTGGAACCTACCGCCCAGGGCTATCGCCTGCACTTGCGCGGCCAGGCTCCGCACACCTTGCACGCCGACTACCTGATCGATGCCAGCGGCGGCCACGCACGCGCCGCACGCCTGCTCGGCGCACGCTTCCAGGAGCTGGACCAATTGATCTGCCTCTACGGCTTCTTCACCCGCCCGGCCACCGCCGCCGCCAACCACCTGACCTTGCTCGAAGCGACCGAGTACGGCTGGTGGTACCGCGCCAGCCTGCCCGACGGCCAGCTCTGCATCGCCCTCGCCTGCGACCAGCCGGGCCTGCGTGAACTGGGTGCGAACGACTGGCGCCGCTGGCTCAACCTGCTGGCCGATACCCGGCATGCCGCGGCGAACCTGGAAGGCCATGGCTTCGACCCTTCCCGCATGCTCGCCAGCCCCGCGCCTTCCTGCCGGCTGGACCGGATCACCGGCCACCGCTGGCTCGCCGTGGGCGATGCCGCCAGCCGCTTCGACCCACTGCTGGCCCGGGGCATCCACAAAGCGCTGGAAGACGGCCTCGCCGCCGCCGACGTCATCGCCGGCTGGCTGGCCAACGACGATGAACCGGCGCAGCACTACGAAGAGCAGATCCAGCAGCGCTACCAGGAATTCCGCGACATGCGCCGCTACCTCTACGCCCAGGAACGCCGCTGGCCCGAATCGCCCTTCTGGCAGGCCCGGCATGGCCTGGCCTGA	MPDSTCRVAIVGGGPAGCAAALALLQRGLDGVVLIEAGDYGRPRVGESLPPDTRELLMRLGLWEAFRQQGHDPCLGSCSAWGDDQIGYNDFISNPHGSGWHLDRQRFERWLADEAVARGARLLGGTRLNALEPTAQGYRLHLRGQAPHTLHADYLIDASGGHARAARLLGARFQELDQLICLYGFFTRPATAAANHLTLLEATEYGWWYRASLPDGQLCIALACDQPGLRELGANDWRRWLNLLADTRHAAANLEGHGFDPSRMLASPAPSCRLDRITGHRWLAVGDAASRFDPLLARGIHKALEDGLAAADVIAGWLANDDEPAQHYEEQIQQRYQEFRDMRRYLYAQERRWPESPFWQARHGLA				NA	NA	NA	NA	NA
BMS010_07980	2103	lodA		L-lysine 6-oxidase	ATGAGCACCAGCAACTTCCGCATCCACCCGACCATCGGCTTCGCCCGCGTCGGCAACAGCAGCGAGTACTACCTGGAACCGAACACCCAGGCGGCCCTGCCCATCCCCGGCGACACCACGGGCAACGCCACCGGCGGCCTGCCGGTCAAGGCCGGTACCGAGAACGACACCATCACCTCCAGCGATCTGCGCGACGCCAGCGGCGCACTCAAGCGCCAGGCCGCCCGCTTCAAGATCTACGCCTACCCGGCCCAGGCCAGCGAGACCTACCCCATGGGCGTGGAAGGCACGGAAATCCGCATCGGTACCCAGATCGACGGCAAGACCGTGAGCAACATCGTCTGGACCGTGCACCTGGCCAACAAGAAATCCAACTGGTACATCATTCCGGAAGACCTGGGCATCGATAACTACAAGGACGGCGAGACCCCGGCCCTGCGCAACGACGTCGCCCCCTTCTCGTCGGACATCAACGACCCGACCCGCCTGCGCCAACTGATCATCGACCCCGGCCCGCGCACCGTGCAGGGCGCCAGCGCCGCGCCGGTGGCCTTCGACCAGACCACCCCCTCCAGCAGTTGGGTGGACGGCAAGGGCGTGGTGCAGTGGCCGAACTATCCGAAGTCCTTCCCCGGCGACTTCTTCCCGAACATGGATTGCCCGAACGGGCCCATCGACACCCTCGGTGAACTGCAAACCGACCAGTACGGCCGCCTGATCGTCACCGGCGGCTATGGCCGCGCCTGCGGTATGATCGACCCGAACACCAACAAACCCTATGAGCTGAACAGCGACATCGACAACGACGGCTGGTTCGACGACGGCAGCGACGGCCCGGTCTACGCCGTGCTGCAATTCAGCGATGGCAGCACCCAGGAGGTGCAGGGTCATGCCTGGGTCACCGCCACCGACCCGGCCTATGCACCGCAAACCCTCAACACCGTGTCCCTGTGGGATGACATCTACGACATCTGGGTGCGTCACCTGGCCCTGCAACCGTCGCTGTTCGCCAATGGCAAGTTCCAAACCAGCTACCAGCCCTCGTTCAGCGACGAGCTGTTCCCCATCTTCCGCGCCGCCGCGATGCAGATGTGGAATACCAACCTGAGCATCACCGGCACGACCGCCCATGGCGCCGTGGACGAGATCCAGCCGGATACCGACCCTGCCACCACCCTGCTCGGCGGCCTCGGCTTCATCCGCGATCCGAACGATGCCTCACAACTGCAGAACAGCCGGATGATGCCGCTGTCCCTGGGCGACGCCGGTCAATCCTTCCTCACCCTGCGCAAGACCCAGTACTTCTTCCTGCAGCAGTGGGACCAAAAGCAATACAGCCAGACCGGCACCGTCACCCTCAACGCCGGCGAGTACCTGGACAAGACCATGCTGGTGAACTGCCTGGGCGGGCGCTTCAGCCCCGGCATCGACCTCACCTTCATCGTCCGTGATCCGGCGCTCTACGTGCAGAACTGGCAGACCTCCGGTACCGGCCCGTTCCGCATCCAGCCCAAGCCGCTGGACTACAGCCAGGCGGTCGCCGGCCAGGCGTTCCTCACCGCCGGCTACACGCCGAACATCCAGAACAACCCGCTGGGCGACCAGCAGCCCATCGACACCAACCCTGGCAGCCCCGGCCTGGAGCCCGGCGACGCCTCCAAGTTCATGGCGCTGCCCTGGCACACCGACTACAACTCCTGCGCCACTCACCAGCCGGACCCGCTGCCTCAGTTCAACAACACCCTCTACTGGTCCTGGCCGGCGCAGCGCCCGGTGGCGGTGTACGTCGCGAAGGACCTGAGCGGCAGCACCAGTCAATTGCCTGCACAGCGCTTCTCGGTGCGAGGCGAGGGGACCGCCACCAACCCGTTCGACCCCGCCCAGGTCGGCCGCTACCAGCAGCGCATCGACATGGTGGACAACTGGCACAAGATCGGCGTGGTGATCCAGGGCAATGCCATCGACGCCAGCGACGGCGGGCCGTTCAGCGCCAAGTACTACCTCGAGGTGCAGAGCCAGTTGGATAACGGCGGCGACCCGGTGGTGCCCTGGCCGAACACGGTATCGCCCTCCACCAACGAAAAGACCGATGGCAAGTCCTGA	MSTSNFRIHPTIGFARVGNSSEYYLEPNTQAALPIPGDTTGNATGGLPVKAGTENDTITSSDLRDASGALKRQAARFKIYAYPAQASETYPMGVEGTEIRIGTQIDGKTVSNIVWTVHLANKKSNWYIIPEDLGIDNYKDGETPALRNDVAPFSSDINDPTRLRQLIIDPGPRTVQGASAAPVAFDQTTPSSSWVDGKGVVQWPNYPKSFPGDFFPNMDCPNGPIDTLGELQTDQYGRLIVTGGYGRACGMIDPNTNKPYELNSDIDNDGWFDDGSDGPVYAVLQFSDGSTQEVQGHAWVTATDPAYAPQTLNTVSLWDDIYDIWVRHLALQPSLFANGKFQTSYQPSFSDELFPIFRAAAMQMWNTNLSITGTTAHGAVDEIQPDTDPATTLLGGLGFIRDPNDASQLQNSRMMPLSLGDAGQSFLTLRKTQYFFLQQWDQKQYSQTGTVTLNAGEYLDKTMLVNCLGGRFSPGIDLTFIVRDPALYVQNWQTSGTGPFRIQPKPLDYSQAVAGQAFLTAGYTPNIQNNPLGDQQPIDTNPGSPGLEPGDASKFMALPWHTDYNSCATHQPDPLPQFNNTLYWSWPAQRPVAVYVAKDLSGSTSQLPAQRFSVRGEGTATNPFDPAQVGRYQQRIDMVDNWHKIGVVIQGNAIDASDGGPFSAKYYLEVQSQLDNGGDPVVPWPNTVSPSTNEKTDGKS				NA	NA	NA	NA	NA
BMS010_07981	1476			hypothetical protein	ATGCTCGGCACAGCTCCGGTCACCCCCGAAATCCCCCTCCTCTCGCCTCGACTCCGGCTGCAGGACAAGCCGGCGATACCCACCCCGCCAACAAGGAAGCACCTTATGCGCATTCGCCACACCCTATACCGGGGCCTCCGGCTGTTGCCCCTGCCCTTGCTGCTGAGCGTCGCAGCCCCGGGCTTCGCCGCCGAAAAATCGCCGGTATCCAGCGGTTGCCAGGCATTGAGCGACTGGTTCCCGACCACGCCCTTCCCGGACGGCAACGCCTTTCCGCAGAGCGGAACGCTGAACAACTGCGCGTTCCATCAGTGGGCGTACCAGATGTTCCTCTGGCTCGGCGAACCGTCCTCCAGCGACGCGGACGCCCCGCTGAACTTCGAGACCCTCGCCGCCCCGGACAAGGTGCTGCGCCCCGGCGGCCCGGACAAGCCCTACCCCGGCCGCGCCGCTGGCGAGCAGCCGCGCATCATGGTACGCCTGGCCAAGTCGAAGCAGACCGTCGACGCCAACGACATCTTCCAGGCCGGGCCCGGCGCCCAGGTGCTGGTGGACCAGGCCGGCAACGTCGTCTACTACACCGGGCTGCTGAACCAGGACTTCTGGAATTTCGTCACCGCCAACAAGCTCTACGACCTGAGCGCCCTGACCAGCATCTCGCCGACCCAGAATTTTCCGGTCAACACCCTGGAGCTGAAGCTGTCCTGGCGCGTCGCGGCGATCCTCGACGACCAGGACCAGCCGCAGAAGGTATTCATCCCCAACGCCAGCACGCTGTTCCATACCGAGAAGCAGACGGTACCGGTGGTGGAGGTGATCAACGGCAAAGTCACCGACAACACCGGCAAGACGATGCGCGCCGAACTGGCGCTGATCGGCATGCACGTGGTGGGCGTGGTCAAGAACCACCCGGAGTTCATCTGGGCCACCTTCGAGCACAAGGCCAACGCACCGGATTGCAGCGCCGTCCCCACCGGTAGCACCTCGCCGGTCGCCGGGCTGCCCTGGTCGCTGTACACCCCCAACAGCCCGGTGACGGTGCAGAACCAGTTCGACGTGAACAACCCGCTGGCGGTGATCAGCAGCTGTCGCCTGGCGCCCTATGGCGGCGGCAACCAGCAGAACACCGACAACATCCAGAGCCTCAACGCCAGCGTCGCGCCTCACCTCAGCGGCAGCGTCTGGGCCAACTACGAGCTGGTGGGCGCCCAATGGACCGGCGGCAACGACGCGATCCCCGGCCCCAACGGTGCGCCACTGAGCATCCAAATCGGCTCCCTCGACCTGGCCAACACCACCATGGAGACCTTCACCCAGGACACCAACTGCTTCGGCTGCCACAACGGCGGCGTGCACACGGTGACCGTGGGCAACTCCGGCCAGATCGTCCCGGCCAAGCACCTCAACCTGTCGCACTTCATCGTCAACTACCAGGCCTGGCTGCAAGCCATGCAGGCCAAGCAGAACAAACAGTGA	MLGTAPVTPEIPLLSPRLRLQDKPAIPTPPTRKHLMRIRHTLYRGLRLLPLPLLLSVAAPGFAAEKSPVSSGCQALSDWFPTTPFPDGNAFPQSGTLNNCAFHQWAYQMFLWLGEPSSSDADAPLNFETLAAPDKVLRPGGPDKPYPGRAAGEQPRIMVRLAKSKQTVDANDIFQAGPGAQVLVDQAGNVVYYTGLLNQDFWNFVTANKLYDLSALTSISPTQNFPVNTLELKLSWRVAAILDDQDQPQKVFIPNASTLFHTEKQTVPVVEVINGKVTDNTGKTMRAELALIGMHVVGVVKNHPEFIWATFEHKANAPDCSAVPTGSTSPVAGLPWSLYTPNSPVTVQNQFDVNNPLAVISSCRLAPYGGGNQQNTDNIQSLNASVAPHLSGSVWANYELVGAQWTGGNDAIPGPNGAPLSIQIGSLDLANTTMETFTQDTNCFGCHNGGVHTVTVGNSGQIVPAKHLNLSHFIVNYQAWLQAMQAKQNKQ				NA	NA	NA	NA	NA
BMS010_07982	699	ung_2	COG0692	Uracil-DNA glycosylase	ATGACTGCCCAAGAAGACCGCATCAAGCTCGAGCCCAGCTGGAAGGCTGTGCTGCTCGATGAATTCGAGAAGCCCTACATGAAGGAACTCGGCGAGTTCCTGCGCCGCGAGAAGGCGGCGGGCAAGGAGATCTATCCACCGGGGCCGCTGATCTTCAACGCACTCAATTCGACGCCGCTGGACCGGGTGAAGGTGGTGATCATCGGCCAGGACCCCTATCACGGACCCGGCCAGGCGCATGGCCTGTGTTTCTCGGTGCAACCGGGCGTGCCGGCGCCGCCGTCGCTGCAGAACATCTACAAGGAACTCAAGCGCGACCTGAACATCGACCCGCCGCGCCACGGCTATCTGCAGCATTGGGCGGAGCAGGGTGTGTTGTTGCTCAACACCTCGCTGACGGTGGAGCGGGGCAATGCCGGCTCGCATGCCGACAAGGGGTGGCAGCACTTCACCGACCGGGTGATCCAGGTGGTCAGCGAACAGCGGCCGAAGCTGGTGTTTCTGCTCTGGGGCTCCCATGCGCAGAGCAAGCAGCGGCTGATCGATCCCACCAAGCATCTGGTCCTGCGCTCGGCGCATCCGTCGCCGCTGTCCGCTCATCGCGGCTTCCTCGGTAATGGGCATTTCAGCCGGACCAATGCCTTCCTCGCGCAAAACGGGCTGGAGCCGATCGACTGGCGTTTGCCTGAGGTTGCCTGA	MTAQEDRIKLEPSWKAVLLDEFEKPYMKELGEFLRREKAAGKEIYPPGPLIFNALNSTPLDRVKVVIIGQDPYHGPGQAHGLCFSVQPGVPAPPSLQNIYKELKRDLNIDPPRHGYLQHWAEQGVLLLNTSLTVERGNAGSHADKGWQHFTDRVIQVVSEQRPKLVFLLWGSHAQSKQRLIDPTKHLVLRSAHPSPLSAHRGFLGNGHFSRTNAFLAQNGLEPIDWRLPEVA	PGPT0007090_2	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007090-trpD-K00766	NA	NA
BMS010_07983	528			hypothetical protein	ATGAGCCGAACCATCAACGCTTTCTTCGCGGGCTTTTTCGCCCTACTGCTCAGCGCTGCCGCCTCTCTCGCTTACGCCAACGAAGCGACGGATTTCGTCGATGAGGCTTCCGCCAAGGGGGTCGCCGAAATCGAAACGGCCAAGATGGCGCTGGAAAAAGGCACCGCGGCGGATGTGAAGGAATTCGCCCAGATGATGATCGACGACCACACCGCCGCGAACCAGAAACTCCAGGCCCTGGCCCAGGGCAAGAAATGGGAGGTGGCCAGCGAGGCCGACCTGATGAGCAAGGCCAAGGCCATGATCCTCAAGCTGCGCGATGGCGAATCCTTCGACCAGGCCTACGCCAACAACCAGGTCGTCGCCCACGAACAGACCATCGAGCTGTTCCGCAAGCAGGCTCAGGAAGGCCAGGATTCCGACCTCAAGGCGTTCGCCAACGAGACCCTGCCCAAGCTCGAGCAGCACCTGCAACATGCCAAGGAGCTGGCCGCCGCGCACGGCGGCGATGCGGCCAAAAAGGAGTGA	MSRTINAFFAGFFALLLSAAASLAYANEATDFVDEASAKGVAEIETAKMALEKGTAADVKEFAQMMIDDHTAANQKLQALAQGKKWEVASEADLMSKAKAMILKLRDGESFDQAYANNQVVAHEQTIELFRKQAQEGQDSDLKAFANETLPKLEQHLQHAKELAAAHGGDAAKKE				NA	NA	NA	NA	NA
BMS010_07984	1029			hypothetical protein	ATGCCTGATCCACGTCGCCTGCCACACTGGCTGGCCACACCGCTGGTCGGTGCGGCCGGCGGTTACCTGGCCAGCCTCGCCGGCTGGCCGCTGCCCTGGATGGTCGGCTCGCTGCTGGCGGTGATCCTGGTCCGCTGCGGCGGCTGGCTGATCACCGAGGTTCCCCATGGTCGCCAGGCCGGCCAGTGGCTGGTGGCCAGCGGCATCGGCCTGCACTTCACCGCCGAGGTGATGGAGCAGGTGGTCGCCCATTTCGGCGCCATCCTCGCCGGCGCCATCGGCACCCTCCTCCTCAGCCTGATTGGTATCGCGGTGCTGCGTCGCGCCGGCGTGGACCGCGCCACCGCGTTCTTCGCCAGCATGCCGGGCGGCGCCAGCGAGATGGTCAACCTGGCCCTGCGCCACGATGCCCAGCCGGCACGCGTCGCCGCCGCCCATAGCCTGCGCCTGCTGCTGGTGGTGCTGATCGTCCCGGCCGTGTTCACCTGGACCCTGCCCCCCGTGGAAGCGCCAGCCCCGGCGTCGACGGACTGGGCCTGGCTCGCCGTGCTGCTACCCGCCGGCGGACTGCTCGCCCTGCTGTGGAAGAAACTGGGCCAGCCCAACCCCTGGATGCTCGGCCCCTTGGTGGCCTGCGCCTTCGCCAGCGCGACCTTCGACCTGCATGTGGGCCTTCCCCACGGAGCCGGTCCGCTCGGCCAGTGGTTGATCGGCTGCTCGCTGGGCTGCCATTTCGACCGCCCGTTCTTCCGCAGCGCGCCCGGCTTCCTGCTGCGCATCCTGCTGTTCACCCTGCTCGCCATGCTCACCGCCGCCCTGCTGGCGGAAGGGCTCGGCTGGCTGACCACGCTGAACCAGACGTCGCTGATGCTCGGCATGATGCCCGGCGGCATCACCGAACTCTGCCTGACCGCCGAAGCCCTGCAGCTTTCGGTGGCGCTGGTCACCGCCTTGCAGGTGCTCCGATTGTTCTTGGTCATGTTCCTTGCCGAGCCGGTCTTCCAGCTCTGGCGGAAAGCCCACGCTTGA	MPDPRRLPHWLATPLVGAAGGYLASLAGWPLPWMVGSLLAVILVRCGGWLITEVPHGRQAGQWLVASGIGLHFTAEVMEQVVAHFGAILAGAIGTLLLSLIGIAVLRRAGVDRATAFFASMPGGASEMVNLALRHDAQPARVAAAHSLRLLLVVLIVPAVFTWTLPPVEAPAPASTDWAWLAVLLPAGGLLALLWKKLGQPNPWMLGPLVACAFASATFDLHVGLPHGAGPLGQWLIGCSLGCHFDRPFFRSAPGFLLRILLFTLLAMLTAALLAEGLGWLTTLNQTSLMLGMMPGGITELCLTAEALQLSVALVTALQVLRLFLVMFLAEPVFQLWRKAHA	PGPT0027725_1457	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-AbrB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027725-antitoxin_abrB-K07120	NA	NA
BMS010_07985	1512			hypothetical protein	ATGGAAACCTTGAACTTCCTCGCCCAGGGCTTCGATGTCGCCCTGCGCCCCGTCAACCTGCTGGTCGCCCTGTTCGGCGCCTTCGTCGGCACCGTGGTCGGCCTGCTGCCCGGGCTCGGCCCGATCAACGGCGTGGCGATCCTGCTGCCGCTGGCCTTCGCCCTCGGCCTGCCGCCGGAAACCGCACTGATCCTGCTCGCTGCCGTCTACCTCGGCTGCGAATACGGCGGACGCATCTCCGCCATCCTGCTCAACGTGCCGGGCGACGCCGCGGCCATCATGACCACCCTCGACGGCTACCCGCTGGCCCGCCAGGGCAAGGGCGGTATCGCCCTGTCGCTGTCGGCGGTCAGCTCCTTCATCGGCAGCACCGTCGCCACCTGCGGCGTGGTGCTGTTCGCCCCCCTGCTGGCGCAATGGGCGGTAGCCTTCGGCCCGGCGGAGTATTTCGTGCTGATGGTCTTCGCCATTGCCTGCCTGGGCGGCATGGTCGGCGACAAACCGGTCAAGACGCTGATGTCCGCGCTGATCGGCCTGGGCCTCGCCACCGTGGGGGTGGACGCCACCACCGGGGTCTACCGTTTCACCTTCGATAGCGTCAGCCTGTCCGACGGCATCCAGTTCGTCATCGTGGTGATCGGCCTGTTCAGCGTCAGCGAAATCCTCCTGATGCTGGAAAACACCCACCATGGCCAGCAGGCGGTGAAGGCCAGCGGGCGCATGCTGTTCAACTTCAAGGAGTTCTGCCTGACCATCTGGACCACCCTGCGCAGCGCCGTGGCCGGCTTTGTCATCGGCACCCTGCCGGGCGCCGGCGCGACCATCGCCAGCGCCGTGACCTACATGAGCGAGAAGCGCATGGCCGGCAGCTCGGGTCGTTTCGGCGAAGGCGACCTGCGCGGCGTGGCAGCCCCGGAAGCAGCCAACAACGCCTCGGCCTGCGGCTCGCTGATCCCCATGCTGACCCTCGGCGTGCCGGGCTCGGGCACCACCGCGGTGATGATCGGCGCCCTCACGCTGTACAACATCACCCCTGGCCCGTTGCTCTTCGAACAGCAGCCTGATGTGGTCTGGGGTCTGATCGCCTCGCTGTTCATCGGCAACGTCATCCTGCTGGTGATGAACATCCCGCTGGTCGGCCTGTTCGCCCGCATGCTGTCCGTGCCGAACTGGATCCTGGTGCCGGCCATTACCGTGGTCAGCCTGGTCGGCGTCTACGCCGTGCACAGCACCACCTTCGACCTGGTGCTGATGATCGGCCTCGGCGTGTTCGGCTACCTGCTGCGCAAGCTGGACTTCCCGCTCTCCTCGCTGATCCTCGGTTTCGTCCTCGGCGAAATGATGGAAGACAACCTGCGCCGCGCTCTGTCGATCTCCAACGGCGAGCTGTCGATCCTCTGGACCAGCCCGATCACCCTCGCCCTCTGGGCGCTGGTGGTACTCATGTTGGCCCTGCCGGGCATCCGCTGGCTGCGCGCACGCCAGAAGAAGGCCAAGCTGGCCCATGCCTGA	METLNFLAQGFDVALRPVNLLVALFGAFVGTVVGLLPGLGPINGVAILLPLAFALGLPPETALILLAAVYLGCEYGGRISAILLNVPGDAAAIMTTLDGYPLARQGKGGIALSLSAVSSFIGSTVATCGVVLFAPLLAQWAVAFGPAEYFVLMVFAIACLGGMVGDKPVKTLMSALIGLGLATVGVDATTGVYRFTFDSVSLSDGIQFVIVVIGLFSVSEILLMLENTHHGQQAVKASGRMLFNFKEFCLTIWTTLRSAVAGFVIGTLPGAGATIASAVTYMSEKRMAGSSGRFGEGDLRGVAAPEAANNASACGSLIPMLTLGVPGSGTTAVMIGALTLYNITPGPLLFEQQPDVVWGLIASLFIGNVILLVMNIPLVGLFARMLSVPNWILVPAITVVSLVGVYAVHSTTFDLVLMIGLGVFGYLLRKLDFPLSSLILGFVLGEMMEDNLRRALSISNGELSILWTSPITLALWALVVLMLALPGIRWLRARQKKAKLAHA	PGPT0017350_1895	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017350-tctA-K07793	NA	NA
BMS010_07986	444			hypothetical protein	ATGTACGTACGCCTGTTCGCCGGGATCTGGCTGCTTCTCTGCGCCGCTCTCGCCGTGGTCGCCTGGGGTTTCCAGGCGCCCTTCGCCTATGACCCGGTCGGCCCTCGCGCCTACCCGCTCCTGCTGCTCTCCCTGATGGGCGCCGGAGCCCTGTGGCTGCTGGTCAAGCCCCATGGCGAGCCGACCCCGCCGATCAACTGGACACTGGTGCGCAAGATCGCTCTGTGTATCGCCACGCTGCTGGCCTATGCCCTGCTCTTCGAGCCGCTGGGGTTCATCGTCAGCACCGCGCTGGCCGGCTTCGTGCTCGGCGTGCTGTTCACCGGACGGCCGCTGGCCTGCGCCATCAGCGGTGTGCTGATGGGCGTCCTGCTCTATGGCCTGTTCGATTACCTGCTGGACATTCCGCTGCCGCGCGGTGTGTTGCTGTTCCTGGAGGGCTGA	MYVRLFAGIWLLLCAALAVVAWGFQAPFAYDPVGPRAYPLLLLSLMGAGALWLLVKPHGEPTPPINWTLVRKIALCIATLLAYALLFEPLGFIVSTALAGFVLGVLFTGRPLACAISGVLMGVLLYGLFDYLLDIPLPRGVLLFLEG	PGPT0017355_2346	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017355-tctB-K07794	NA	NA
BMS010_07987	978			hypothetical protein	ATGAAAACCGCCTTTACCCGTGTCGCCCTCGCGGCGTCCTGCCTGATGTTCGCCGGCCAACTGCTCGCGGCCGAACCCAAGCGCCCCGAATGCATCGCCCCGGCCAAGCCGGGCGGCGGCTTCGACCTCACCTGCAAGCTGGCCCAGAGCGGCCTGAAGGACAGCGGCCTGCTCAAGGCGCCGATGCGCGTCACCTACATGCCCGGCGGTGTCGGTGCCGTGGCCTATAACGCCGTGGTCGCCCAGCGCGCCAAGGAGCCGGGCACCATCACCGCCTTCTCCAGCGGTTCCCTGCTGAACCTGGCGCAAGGCAAGTTCGGCCGTTACGACGAAAATGCCGTGCGCTGGCTGGCCGGTATCGGTACCGACTACGGCGCCATCTCCGTCCGCGCCGATTCGCCCTACAAGACCCTCAAGGACCTGGTCGAAGCGGTGAAGAAAGACCCGGGCAGCGTCGTCTTCGGCGCCGGTGCCACCATCGGCGGCCAGGACTGGATGCAGACCGCGCTGATCGCCCGCGCCGCCGGCATCGACGTACAGAAGTTGCGCTATGTCGCCTTCGAAGGCGGCGGCGAAACCCTCACCGCCATGCTCGGCGGCCACGTGCAGGTCACCAGCAGCGGCCTCGGCGAAGTCACCCCGCAACTGGCCGCCGGCAAGATCCGCATCCTCGCCGTACTCTCCGAAGAGCGCCTGCCGGGCAAGCTGTCCGACCTGCCGACCGCCAAGGAGCAGGGCTACGACATCACCTGGCCGGTGATCCGCGGCTTCTACATGGGCCCGGAAGTCAGCGACGAAGACTTCAACTGGTGGAAGCAGCAGTTCGACACCCTGCTGGCCAGCGAGGACTTCGCCAAGTTGCGCGAACAGCGCGACCTGTTCCCGCTGTCCATGACCGGCGACGAGCTGACCGCCTTCGTCAAGAAGCAGGTGCAGGACTACAAGGCTCTCGCCAGCGAGTTCGGTCTGGTCCAGTAA	MKTAFTRVALAASCLMFAGQLLAAEPKRPECIAPAKPGGGFDLTCKLAQSGLKDSGLLKAPMRVTYMPGGVGAVAYNAVVAQRAKEPGTITAFSSGSLLNLAQGKFGRYDENAVRWLAGIGTDYGAISVRADSPYKTLKDLVEAVKKDPGSVVFGAGATIGGQDWMQTALIARAAGIDVQKLRYVAFEGGGETLTAMLGGHVQVTSSGLGEVTPQLAAGKIRILAVLSEERLPGKLSDLPTAKEQGYDITWPVIRGFYMGPEVSDEDFNWWKQQFDTLLASEDFAKLREQRDLFPLSMTGDELTAFVKKQVQDYKALASEFGLVQ	PGPT0017360_2133	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017360-tctC-K07795	NA	NA
BMS010_07988	1266	nicP_6		Porin-like protein NicP	ATGTACGAAGCCTCACGCCAGGCCCTGCCGCCTGTCCGCCTGCTCTGCCTGGCCATCGCCGCCACCGGCGCCGCCCCCTTCGCCAACGCCGCCTTCATCGAAGACAGCAAGGCTACCCTGACCACGACCAACATCTACCTCAACCGCGATTTTCGTGAAGGCACCGGCCAGAACAAGCGCGAAGAATGGGGCCAGGGCTTCCTGCTCGACATCCACTCCGGCTACACCGAAGGCACCGTCGGCTTCGGTCTCGATGCCCTGGGAATGCTCGGCGTGAAACTGGATTCGGGCAAAGGCCGCACCGGCACCGACCTGCTGCCGGTGCAGGATGACGGCGGCACCCCGGACGAGTTCAGCCGCCTGGGCCTGACCGCCAAGGTGAAACTCTCCGAAACCGAGCTGCGCTACGGCTCCCATGTCCCCGAACTGCCGGTGGTCAAGGCCAGCGACAGCCGCCTGCTGCCGCAGGTGTTCGAAGGCGGCCTGCTGACCTCCTCAGAACTGGAAGGCTTCACCTTCACCGGCGGACGCCTGGACAAGGTGATCGACCGCGCCTCAACCAACTCCGAAGACCTGGTGCTGAACAGCAAGAACCGCCGTTTCGCCGGCGGCGTGACAGCCGATCACCTGGACCTGGCCGGTTTCGACTACCAGTTCGCCCCGGGCCTGACCGGCCGTTACTTCTTCGCCGATCTCGACGATGTCTACCGCCAGCACTTCTTCAATCTGCTGACCAGTCACAAGGTCGGCGCGGGCACCCTGAGCAGTGACCTGCGCCTGATGCTCAGTGACGACAGCGGCGCCGCCAACGCCGGCAAGGTCGATAACCGCGCACTGAACGCCATGGTCACCTACGGCCTCGGCGCCCACAAATTCGGCCTCGGTTTCCAGGACATGAGCGGCGATACCGGCTATGCCTATATCGACGGCAGCGATCCGTACCTGGTCAACTTCGTGCAGATCAACGACTTCGCCAATGCCGACGAACGCTCCTGGCAGGCCCGCTACGACTACAACTTCGCCAGCGTCGGCGTACCCGGGCTGACGTTCATGACCCGCTATGTCCGCGGCAGCGACGCCGAGATCGCCGGCTCAGACGATCGCGGCGGCGAATGGGAGCGCGACATCGAGCTGAAGTACGTGGTGCAGGACGGCCCGCTCAAGGACCTCTACGTGCGCCTGCGCAATGCCAGCTTCCGTTCCGACTTCGCCCGCGACGCGGACGAGAACCGCATCATCGTCGGCTACAGCCTGCCGATCTGGTAA	MYEASRQALPPVRLLCLAIAATGAAPFANAAFIEDSKATLTTTNIYLNRDFREGTGQNKREEWGQGFLLDIHSGYTEGTVGFGLDALGMLGVKLDSGKGRTGTDLLPVQDDGGTPDEFSRLGLTAKVKLSETELRYGSHVPELPVVKASDSRLLPQVFEGGLLTSSELEGFTFTGGRLDKVIDRASTNSEDLVLNSKNRRFAGGVTADHLDLAGFDYQFAPGLTGRYFFADLDDVYRQHFFNLLTSHKVGAGTLSSDLRLMLSDDSGAANAGKVDNRALNAMVTYGLGAHKFGLGFQDMSGDTGYAYIDGSDPYLVNFVQINDFANADERSWQARYDYNFASVGVPGLTFMTRYVRGSDAEIAGSDDRGGEWERDIELKYVVQDGPLKDLYVRLRNASFRSDFARDADENRIIVGYSLPIW	PGPT0028135_239	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028135-oprD-K18093	NA	NA
BMS010_07989	672	tctD_3	COG0745	Transcriptional regulatory protein tctD	GTGCGAATTCTGCTGGTCGAAGACCATCCGCAATTGGCGGAAAGCGTGGCCCAGGCCCTCAAGGGCGCCGGCTGGACAGTGGACGTGCTGCATGACGGGGTAGCCGCCGACCTGGCGCTGGCCAGCGAGGACTACGCCCTGGCGATCCTCGATATCGGGTTGCCGCGGCTGGACGGTTTCCAGGTGCTGGCGCGCCTGCGCGAGCGCGGCAAGACGCTGCCGGTGCTGATGCTGACCGCGCGCGGCGAGGTGAAGGATCGGGTGCATGGCCTCAACCTCGGTGCGGACGATTACCTGGCCAAGCCTTTCGAACTCTCCGAACTGGAGGCGCGGGTCAAGGCGCTGCTGCGCCGCAGCCTGCTCGGCGGCGAGCGGCAGCAGCGGTGCGGCGATCTGGTGTACGACCTGGATACCCGGCGCTTCCTGCTCAAGGACGAGATTCTTTCGCTGACTTCGCGCGAGCAGGCGGTGCTCGCCGCGCTGATCGCCCGGCCCGGCCGGGTGATGAGCAAGGAGCAGCTCGCCTCGCAGGTCTTCGGTCTGGACGAAGAAGCCAGCCCGGACGCCATCGAAATCTACGTCCACCGGTTGCGCCGCAAGCTGGAAGGCAGCCGGGTGCGCATCGTTACCTTCCGGGGCCTGGGCTACCTGCTGGAGGCCCAGGGTGAGTGA	MRILLVEDHPQLAESVAQALKGAGWTVDVLHDGVAADLALASEDYALAILDIGLPRLDGFQVLARLRERGKTLPVLMLTARGEVKDRVHGLNLGADDYLAKPFELSELEARVKALLRRSLLGGERQQRCGDLVYDLDTRRFLLKDEILSLTSREQAVLAALIARPGRVMSKEQLASQVFGLDEEASPDAIEIYVHRLRRKLEGSRVRIVTFRGLGYLLEAQGE	PGPT0017365_851	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-GENTAMICIN|TOBRAMYCIN|KANAMYCIN_RESISTENCE,PGPT0017365-tctD-K07774	NA	NA
BMS010_07990	1392	sasA_25		Adaptive-response sensory-kinase SasA	GTGAGTGAAGCGTCCAGTCTGCGCGGACGGCTGTTGCGGCGGCTTGCCGCGTTGCTCGCGGTACTGCTGGCGGTCAGTGGCTGGAGCGCCTACCTCAACGGTCGCGCCGCCGCCGACACGGCTTACGACCGCACCTTGCTGGCGTCGGCACGAGCCATCGCCGAACGCCTGACGACGCGGGGCGGGCGCCTGGGTGTCAGCGTGCCTTATGTGGCCCTGGATGCTTTCGCCTACGACAGCGGCGGGCGCGTCTATTACCAGGTGAACGGCTTCAAGGGCGAGTTGGTGGCCGGCTACGAGGACCTGCCGGCGCCTTCGCCGAAGGTGCGGCGGACCGATGACTATCCGGCGCTGGCACGTTTCTACGACGGCGAGTACCTGGGCCAGGGCGTGCGGGTGGTCAGCCTGCTGCAGCCGATCAGCGAGCCTGAGTTGAACGGCATGGCGGAAATCCGCGTGGCCGAGACCCAGGGCGCGCGCGAGCGCATGGCCCGAGGGTTATTGACCGACACCCTGTGGCGGCTCGGCTTGCTGGCGATCGGCGCGCTGCTGCTGGTCTGGCTGGCGGTGAGCGCCGCGTTGCGTCCCCTGGGGCGGCTCAGCGAGGCGGTGGAAGAGCGTCAGCCGGACGACCTGCGCCCCTTGCCGTTGGTCAGTGTGCAGCGCGAGCTGAAGCCCCTGGTCCTGGCCCTGAACCATTTCACCGAACGGCTGCGGGCCCAGTTCGAGCGGCAGACGCAATTCATCGCCGATGCCTCCCATGAGCTGCGTACGCCCTTGGCCGCGCTCAAGGCACGCATCGAGCTGGGGTTGCGCGAAAAGGAGCCGGCGGTCTGGTACAGCACTCTGGAGAGCGCGGCGGAAAACACCGACAAACTGACCCACCTGGCCAACCAGTTGCTCTCCCTGGCCCGTATCGAGAGCGGCGCGCGAGCCATCGCCGAGGGCGGTGCCGAGCGCCTCGATCTCAGCCAGTTGGCCCGCGAGCTGGGACTGGCCATGGCGCCGCTGGCCTACAAGCGGGGTGTCGCCCTGGCCCTGGAGGCCGAGCAGCCGGTCTGGCTGAAGGGCGAGCCGACGCTGCTCAACGAGCTGCTGTGCAATCTCCTGGACAACGCGCTGGCGCATACGCCCGAGGGCGGCAATGTGATTCTTCGGGTGCTGCCGCCCGGTGTGCTGGAGGTGGAAGACGACGGGCCGGGCATTCCGCCGGAGGATCGGGAGAGGGTCTTTGCCCGCTTCTATCGGCGCAAGCAACAGGGTAGTGGTGCGGGGCTGGGGCTGGCCATCGTCGGGGAAATCTGCCGGGCCCACCTGGCGGCGATCAGCCTGCATGAGGGGGCGTCCGGCGGCTTGCGGGTGCGGGTGGAGTTTCCCGGGGACTCGAGCTGA	MSEASSLRGRLLRRLAALLAVLLAVSGWSAYLNGRAAADTAYDRTLLASARAIAERLTTRGGRLGVSVPYVALDAFAYDSGGRVYYQVNGFKGELVAGYEDLPAPSPKVRRTDDYPALARFYDGEYLGQGVRVVSLLQPISEPELNGMAEIRVAETQGARERMARGLLTDTLWRLGLLAIGALLLVWLAVSAALRPLGRLSEAVEERQPDDLRPLPLVSVQRELKPLVLALNHFTERLRAQFERQTQFIADASHELRTPLAALKARIELGLREKEPAVWYSTLESAAENTDKLTHLANQLLSLARIESGARAIAEGGAERLDLSQLARELGLAMAPLAYKRGVALALEAEQPVWLKGEPTLLNELLCNLLDNALAHTPEGGNVILRVLPPGVLEVEDDGPGIPPEDRERVFARFYRRKQQGSGAGLGLAIVGEICRAHLAAISLHEGASGGLRVRVEFPGDSS	PGPT0017370_710	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-GENTAMICIN|TOBRAMYCIN|KANAMYCIN_RESISTENCE,PGPT0017370-tctE-K07649	NA	NA
BMS010_07991	753			hypothetical protein	ATGCGCCTGCTCGTCCTGCTGTTCAGCCTGTTGCTCGGCAGCCTCGCCGCCGCCGAGGAAATCTACCTGACCAACGGTGAGTGGCCGCCGTATACGGGTGAAAAGCTACCCCATTACGGCGTGGCCTCGCGCATCGTCACCGAAGCGTTCGCGATTGAAGGCGTCAAGGTGCACTGGGAATTCTATCCCTGGGCGCGGGCCATGCGCCTGGCCAAATCCGGCCAGCGCCCCGGCACGGCAGCCTGGCTGAACAGCCCGGAACGCGAGCAGGCGTTCTTCATCAGCGATCCGCTGATCATGAGCGGCTATGTCCTTTTCCATCGCAAGGACGATCCCTTCAACTGGCAGACGATAGACGACCTGCGCGACCTACGTATCGGTGCGGTCATTGGCTACGACTATGGCGTGCCCTTCGAGCAAGCTGAACGGGATAAGCGCCTGCAGGTAAAACGGGTCAACACCGATGAACAGGCCTTTCGCCTGCTGCTGGCCGGACGCATCGATATCCTGCCGGTGGATCGGCTCGTCGGCCTCGCACTGCTCCAACACTTCGACCGCGCGGACCGGGAGCGGCTCACCTACCATCGGCTCCCCCTGCGCAAAGACAACCTTCACCTGCTCCTGTCGCGCCAGATCGAGGGTAACGAAGAGTTGATGGAACGCTTCAACCGGGGCCTGGCCGAACTGGAACGCAGCGGCAAGCTCGAGCGCTACCGCCTCGAAGCCCAGCAACTACCCGGCTCGGTCCCCTGA	MRLLVLLFSLLLGSLAAAEEIYLTNGEWPPYTGEKLPHYGVASRIVTEAFAIEGVKVHWEFYPWARAMRLAKSGQRPGTAAWLNSPEREQAFFISDPLIMSGYVLFHRKDDPFNWQTIDDLRDLRIGAVIGYDYGVPFEQAERDKRLQVKRVNTDEQAFRLLLAGRIDILPVDRLVGLALLQHFDRADRERLTYHRLPLRKDNLHLLLSRQIEGNEELMERFNRGLAELERSGKLERYRLEAQQLPGSVP	PGPT0020800_14370	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_07992	837			hypothetical protein	ATGAATACGCTTGTCGAGAAAGTCCAGAGGGAATTGATCCGGGCCATCGAGAACGATGACCTGGTCCTGCCGACGCTGCCGGAAGTCGCGCTGAAGGTCCGCGAAGCCGCGGAAGACCCGGACATCAGTATTTCCGCCTTGAGCAAGGTCATCGGCAACGACGCCGCGCTCACCGCGCGCATCATCAAGGTGGTGAACAGCCCGCTGCTGCGTACCGCCAAGGAAATCACCGACCTGCAAATGGCGATCAGCCGGCTCGGCATCAACTACACCTGCAACCTCGCCACCGGCCTGGCGATGGAGCAGATGTTCCAGGCCACGTCCGATGTCGTCGATCGCAAGATGCGCGAAGTCTGGAACAAGAGCACCGAGATCGCCGGTATCTGCCATGTACTCTGCCGCCACTACACCCGCCTGATGCCGGACCAGGCGACCCTTGCCGGCCTGGTTCACCAGATCGGTATCCTGCCAATCCTCACCTACGCCGAGGAGCACAACGAGCTGCTCTCCGACTCGATCAGCCTCAACCACGTAATCGAAAAGATTCACCCAATCATCGGCGACAAGATTCTGCGCGCCTGGGAATTCCCCGAGCCGATCGCCATCGTTCCCAGCCAGTACCTGGATTTCGAACGCGACTCCGCGAAGGTCGACTACGTGGACATCGTCCAGGTCGCGACGCTGCAAAGCTACCTGGGTACCACCCACCCCTACACCCAACTGGATTGGGGCCGGATTCCGGCATTCGGCAAACTCGGCCTGGACCCGAACGTGGACATGCAGGCCGACGAAGACCTGTCCGCGGCGATGGAAGCGGCCATGAGTATGTTGCAGTAA	MNTLVEKVQRELIRAIENDDLVLPTLPEVALKVREAAEDPDISISALSKVIGNDAALTARIIKVVNSPLLRTAKEITDLQMAISRLGINYTCNLATGLAMEQMFQATSDVVDRKMREVWNKSTEIAGICHVLCRHYTRLMPDQATLAGLVHQIGILPILTYAEEHNELLSDSISLNHVIEKIHPIIGDKILRAWEFPEPIAIVPSQYLDFERDSAKVDYVDIVQVATLQSYLGTTHPYTQLDWGRIPAFGKLGLDPNVDMQADEDLSAAMEAAMSMLQ				NA	NA	NA	NA	NA
BMS010_07993	942	ygfZ_2	COG0354	tRNA-modifying protein YgfZ	ATGGCCGACTCCGCTTTTTTCTGCCCGTTGACCCACGAGGGCGTACTTGCCGTCCGCGGCCCCGACGCCAGCAAATTCCTCCAGGGTCAGCTGACCTGCAACCTCAACTACCTGAACGACGAACACGCCGGCCTCGGTGCCCGCTGCACGCCCAAGGGGCGGATGCAGTCGAGCTTCCGCATCCTTGGCGAAGGCGACGGTTTCCTGCTCGCCATGGCGATGGAGCTGATCGAACCGCAGATGGCGGACCTGAAGAAGTACGCCGCGTTCTCCAAATCCACCCTGAGCGACGAAAGCGCGACCTGGGTCCGCTTCGGCCTTGCCGGTGGCGACGGCGCCCTGGTCAGCCTCGGCCTCGACCTGCCCCATGACAGCGATCGCGTCGTGCGGGCCAACGGTCTGATCGCCATTCGGCTGAGCGATGGTCGCGCCGAACTCTGGGTCCCGGCTGCCCAGGCCGACACCGTCCAGGCGCGCCTGAGCGCGCAGTTGCCGAACGCCGGGCTGGATGGCTGGCTGCTGGCCCAGGTACGAGCCGGCATCGGTCAGGTGTTCGGACCGACCCGCGAGCTGTTCATCCCGCAAATGATCAATTTGCAGGCACTGGGCGGCGTGAGCTTCAAGAAAGGCTGCTATACCGGTCAGGAGATCGTCGCCCGCATGCAGTACCTCGGCAAGCTCAAGCGCCGGCTCTACCGCCTGGAGTTGGAAAGCGGGACGCCTCCGGCCGCCGCGACCGAGCTGTTCTCCCCCGTCCACGGCAGTTCGGTGGGCGAGGTAGTGCTGGCCGCCCCGGCGGAAAGCGGTGTCGAGCTACTCGCCGTACTGCAGGAAGACGCGGCGAACGACGGTCGCGTGCATCTGGGCTCGCTGGAAGGCCCGGCCCTGCGCCTGCTGGAGCTTCCCTATGCGCTGGACCCGGACCGCGAGATCCAGCGCTGA	MADSAFFCPLTHEGVLAVRGPDASKFLQGQLTCNLNYLNDEHAGLGARCTPKGRMQSSFRILGEGDGFLLAMAMELIEPQMADLKKYAAFSKSTLSDESATWVRFGLAGGDGALVSLGLDLPHDSDRVVRANGLIAIRLSDGRAELWVPAAQADTVQARLSAQLPNAGLDGWLLAQVRAGIGQVFGPTRELFIPQMINLQALGGVSFKKGCYTGQEIVARMQYLGKLKRRLYRLELESGTPPAAATELFSPVHGSSVGEVVLAAPAESGVELLAVLQEDAANDGRVHLGSLEGPALRLLELPYALDPDREIQR				NA	NA	NA	NA	NA
BMS010_07994	255	sdhE		FAD assembly factor SdhE	ATGGCCGACGATATCGAACTGAACCGACTGTTCTGGCACAGCCGCCGTGGCATGCTGGAGCTCGATGTATTGCTGGTGCCCTTCGTCAAGGAGGTCTACCCGAACCTCGATGCCGATGACCAGGCGCGCTACCGCAAGCTGCTCGCCTGCGAGGATCAGGATATGTTCGGCTGGTTCATGCAGCGCGGCGAGCCGGAAGACCCCGATCTGCGCCGGATGGTCCGCATGATTCTGGATCGTGTCCAACCCAAGTGA	MADDIELNRLFWHSRRGMLELDVLLVPFVKEVYPNLDADDQARYRKLLACEDQDMFGWFMQRGEPEDPDLRRMVRMILDRVQPK	PGPT0027750_1325	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-CptA-CptB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027750-antitoxin_cptB|ygfY|sdhE-K09159	NA	NA
BMS010_07995	453			hypothetical protein	GTGTCCAACCCAAGTGATTTCTTCGAGTGCCACTGGCAGGCCTCGCGGCGCCTGCTGGTGCTGTATCTGATCGTCCTGACGCTGGCATTGGGCGCATTCCTGCTTGCCGATATTCCGCTCTGGGCCGCCCTGCTTGGCGTGGCGGCCTGCCTGGGGCATGCCGGCTGGGTGCTGCCGCGGCATGTATTGCTGCGCGATCCGCGCGCTTTTCGCGGGCTGCGGCACGATGCCGAGGGCTGGCAGCTATGGAATGCGCGGGATGGCTGGCAGCGTGTCCAGCTTCGGCCGGACAGCCTGGCGCTACCTCTAACGGTGATATTGCGTTTTCGCCTGAGCGGCGAGCGCCGCGTGCGCGGCCTGTGCATTCCCGGCGACGCGCTGGCGGCGGACGCGCATCGCCGGTTGCGGGTGCGGCTGAAGTTCAGCCGGCGTAGGTGGGCGGCTCCAGGATAG	MSNPSDFFECHWQASRRLLVLYLIVLTLALGAFLLADIPLWAALLGVAACLGHAGWVLPRHVLLRDPRAFRGLRHDAEGWQLWNARDGWQRVQLRPDSLALPLTVILRFRLSGERRVRGLCIPGDALAADAHRRLRVRLKFSRRRWAAPG	PGPT0027745_161	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-CptA-CptB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027745-toxin_cptA|ygfX-K19168	NA	NA
BMS010_07996	1617	nadB_2	COG0029	L-aspartate oxidase	ATGAGCCAACACTTTCAGCACGACGTACTGGTGATCGGCAGCGGCGCTGCCGGCCTGACCCTCGCCCTTACCCTGCCCTCGCACCTGCGCATCGCCGTGCTGAGCAAAGGCGACCTGGCCAATGGCTCCACCTATTGGGCACAAGGCGGGGTGGCCGCCGTGCTGGACGACACGGACACCGTCGAATCCCACGTCGAAGACACCCTGGTCGCCGGCGGCGGACTGTGCAAAGAAGAGGCGGTTCGCTTCACGGTAGAACACAGTCGAGAAGCCATCCAATGGCTCATCGAACAGGGCGTTCCCTTTACCCGGGATGAGAAGCACGGCGGCGAAGACAGCGGCTTCGAGTTTCACCTGACCCGCGAAGGCGGGCACAGCCACCGACGTATCATCCATGCCGCCGATGCCACCGGCGCGGCCATTTTCAATACGCTGCTGGCGCAGGCCCGGCAACGCTCGAACATCGAGCTGCTGGAACAGCACGTGGCAGTGGACCTGATCACCGAGCGCAAGCTCGGCCTGCCCGGGCAGCGCTGCCTCGGCGCGTATGTATTGAATCGCGGCACCGGCCAGGTCGATACCTACGCCGCCCGCTTCACCGCTCTCGCCTCCGGGGGCGCAGCCAAGGTCTACCTCTATACCAGCAACCCGGATGGGGCCTGCGGCGACGGTATCGCCATGGCCTGGCGGGCCGGCTGCCGGGTCGGCAACCTGGAGTTCAACCAGTTCCATCCCACCTGCCTGTATCACCCCCAGGCCAAGAGTTTCCTGGTCACCGAGGCACTACGCGGCGAAGGTGCCTTGCTCAAGCTGCCCAACGGCGAGCGCTTCATGCCGCGCTTCGATCCACGCGCCGAGCTGGCGCCCCGAGACATCGTCGCACGCGCCATCGACCATGAAATGAAGCGCCTCGGCATCGACTGCGTTTATCTCGACATCAGCCACAAACCGGCGGACTTCATCACCGCGCATTTCCCCACCGTCTACGAGCGCTGCCTGGATTTCGGCATTGACATCACCCGCCAGCCGATTCCGGTGGTGCCGGCGGCCCACTACACCTGTGGCGGTGTGCTGGTCGACCAGCATGGACGCACCGACGTGCCCGGCCTCTACGCCATCGGCGAGACCAGTTTCACCGGCCTGCACGGCGCCAACCGCATGGCCAGCAACTCACTGCTCGAATGCTTCGTGTACGCTCGCTCGGCAGCGGCGGACATCGTCGGTCAGTTGGAGCAGGTGGCGATTCCCACTCACCTGCCGAGCTGGGATGCCAGCCAGGTGACCGACTCCGACGAGGACGTGATCATCGCCCACAACTGGGACGAGCTGCGGCGTTTCATGTGGGACTACGTCGGCATCGTCAGGACCAACAAGCGCCTGCAACGCGCGCAGCACCGCGTGCGCCTGCTGCTCAGCGAGATCGACGAGTTCTACAGCAACTACAAGGTGAGCCGGGACCTGATCGAACTACGCAACCTGGCGCTGGTCGCCGAACTGATGATTCGCTCGGCCATGCTCCGTCATGAAAGCCGGGGCCTGCATTACACCCTTGACTACCCGGAACAGTTGCCCGAAGCGCGCGACACTATCCTGGAGCCGCCCACCTACGCCGGCTGA	MSQHFQHDVLVIGSGAAGLTLALTLPSHLRIAVLSKGDLANGSTYWAQGGVAAVLDDTDTVESHVEDTLVAGGGLCKEEAVRFTVEHSREAIQWLIEQGVPFTRDEKHGGEDSGFEFHLTREGGHSHRRIIHAADATGAAIFNTLLAQARQRSNIELLEQHVAVDLITERKLGLPGQRCLGAYVLNRGTGQVDTYAARFTALASGGAAKVYLYTSNPDGACGDGIAMAWRAGCRVGNLEFNQFHPTCLYHPQAKSFLVTEALRGEGALLKLPNGERFMPRFDPRAELAPRDIVARAIDHEMKRLGIDCVYLDISHKPADFITAHFPTVYERCLDFGIDITRQPIPVVPAAHYTCGGVLVDQHGRTDVPGLYAIGETSFTGLHGANRMASNSLLECFVYARSAAADIVGQLEQVAIPTHLPSWDASQVTDSDEDVIIAHNWDELRRFMWDYVGIVRTNKRLQRAQHRVRLLLSEIDEFYSNYKVSRDLIELRNLALVAELMIRSAMLRHESRGLHYTLDYPEQLPEARDTILEPPTYAG	PGPT0013355_1277	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013355-nadB-K00278	NA	NA
BMS010_07997	582	algU	COG1595	RNA polymerase sigma-H factor	ATGCTAACTCAAGAGCAGGATCAGCAGTTGGTTGAGCGGGTTCAGCGCGGGGACACGCGAGCTTTCGATCTTCTGGTGCTCAAGTATCAGCACAAGATCCTCGGATTGATCGTACGTTTCGTGCATGACACCCATGAAGCTCAGGATGTCGCGCAAGAAGCCTTCATCAAGGCCTACCGAGCCCTGGGTAATTTTCGCGGTGACAGTGCCTTCTATACCTGGCTGTACCGCATCGCCATCAATACGGCGAAGAATCATCTGGTGGCACGTGGCCGACGTCCTCCGGATAACGATGTAAAGGCCGAGGATGCCGAGTTCTACGAGGGCGATCATGCTCTCAAGGATATCGAGTCACCGGAAGGGGCGTTGTTGCGGGATGAGATCGAGGTCACTGTGCATCGAACCATCCAGCAACTGCCTGAGGACTTGCGCACGGCGTTGACGCTGCGCGAATTCGATGGATTGAGCTACGAAGACATTGCGAGCGTCATGCAATGTCCGGTTGGCACTGTGCGCTCGCGCATATTCCGTGCGCGGGAAGTCATCGATAAAGCCCTGCAACCCTTGTTGCGGGACGCCTGA	MLTQEQDQQLVERVQRGDTRAFDLLVLKYQHKILGLIVRFVHDTHEAQDVAQEAFIKAYRALGNFRGDSAFYTWLYRIAINTAKNHLVARGRRPPDNDVKAEDAEFYEGDHALKDIESPEGALLRDEIEVTVHRTIQQLPEDLRTALTLREFDGLSYEDIASVMQCPVGTVRSRIFRAREVIDKALQPLLRDA	PGPT0014960_6660	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
BMS010_07998	585	mucA	COG3073	Sigma factor AlgU negative regulatory protein	ATGAATCGTGAACCCCTGCAGGAATCGCTGTCCGCGGTGATGGATAACGAAGCGGATGAACTGGAACTGCACCGTGTGCTGGCTGCCAGTAGCGATCCCGAACTGAGAGCAACCTGGTCTCGCTACCAGATCGCCCGCGCGGTGATGCATCAGGAACTGATCGAACCGCGTCTTGACATCGCTGCGGCGGTTTCGGCGGCCTTGGCCGATGAGAAGATTCCTGCGCCGATGGCGCCTCGCTGGCGTGGTCTGGCTCGGGTGGCCGTAGCGGCGTCGGTGACGCTGGCGGTGCTTGCCGGGGTGCGTTTCTACAATCAGGACGAGGCCGCCGGCGGGGTGCAGATGGCCCAGCAGGGCGCCCAGCCTGTCATCTCGGCTCCGCAAGTCCAGGGGCCTGCGGTTCTGGCTGGTTACAGCCAGGGTATCGAACAGGCCTCGGGTAGCGCATCGGATGCCAAGGCGGCGCCGAGCTGGCATGATCAGCGTCTGCCGATTTATCTGCGCCAGCACGCGCAGCAGGCTGCGATGGGTGGAGCCGAAAGTGCGTTACCCTATGCTCGAGCAGCCAGTCTGGAAAATCGCTGA	MNREPLQESLSAVMDNEADELELHRVLAASSDPELRATWSRYQIARAVMHQELIEPRLDIAAAVSAALADEKIPAPMAPRWRGLARVAVAASVTLAVLAGVRFYNQDEAAGGVQMAQQGAQPVISAPQVQGPAVLAGYSQGIEQASGSASDAKAAPSWHDQRLPIYLRQHAQQAAMGGAESALPYARAASLENR	PGPT0014976_842	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014976-rseA-K03597	NA	NA
BMS010_07999	945	mucB	COG3026	Sigma factor AlgU regulatory protein MucB	ATGCGCACCTTTTCTATTTCTCTTCTTCTGGGGGGCTGGCTGGCTTTGCCGGCCCACGCTGCGGATGCCAAGGACTGGCTGCTTCGCCTGGCCGAGGCCGAACAGCAACAGAGTTTTCAAGGCACATTCGTCTACGAGCGTAATGGCAGCTTTTCCACCCATGGCATCTGGCATCGGTCGGAAGAGGGCGACGTTCGCGAGCGCTTGCAACAGTTGGACGGTCCCGCGCAGGAAGTGGTGCGGGTCAACGGCAAGATTCAATGCGTGAGCGGAACCCTGGTCGACGAAGTTGCCGACGGCCAGGCCTGGTCCGTGCGCAAGCTCGACCCCAAGCAGCTTTCCGCCTGGTATGACCTGCGCCTCGTCGGCGAATCGCGTGTGGCCGGTCGACCGGCCGTCGTCCTTGCGATCCTGCCCCGTGACCAGCATCGCTACGGATTCGAATTGCATCTGGATCGGGAAACCGCGCTGCCCTTGAAGTCCCTGTTACTGAACGAGAAGGGGCAGTTGCTGGAGCGCTTCCAGTTCACCCGCCTGGATACGTCCGGGAAGCCGGCAGACGAGTTGCTGCAACCCGGCGCTGAGTGCAAATCGGTACAGCTCGCCGACGCGAAGGATATTCCCAATGCCTGGCGCTCCGAGTGGTTGCCGCCCGGTTTCAATCTGACCAGCGCGCTGGAGACGCCGAGCCCCGTATCCAAGGAGTCGGTGGCCTACTTGATGTATGGCGATGGCCTGGCGCGCTTCTCGGTATTCCTCGAACCCTTGCATGGTGCGGCAGTCGAGGATGCACGGAGCCAGTTGGGGCCGACCGTCGCGGTTTCACGGCGCATGAGCACGGCGGACGGTGACATCATGGTCACGGTGGTTGGCGAGATTCCGCTCGGTACGGCTGAGCGAATAGCCTTGTCCATGCGCTCCGGCGAGACACAGGCGACACCATGA	MRTFSISLLLGGWLALPAHAADAKDWLLRLAEAEQQQSFQGTFVYERNGSFSTHGIWHRSEEGDVRERLQQLDGPAQEVVRVNGKIQCVSGTLVDEVADGQAWSVRKLDPKQLSAWYDLRLVGESRVAGRPAVVLAILPRDQHRYGFELHLDRETALPLKSLLLNEKGQLLERFQFTRLDTSGKPADELLQPGAECKSVQLADAKDIPNAWRSEWLPPGFNLTSALETPSPVSKESVAYLMYGDGLARFSVFLEPLHGAAVEDARSQLGPTVAVSRRMSTADGDIMVTVVGEIPLGTAERIALSMRSGETQATP				NA	NA	NA	NA	NA
BMS010_08000	456	rseC	COG3086	Protein RseC	ATGATCGAAGAGCAGGGGCGGGTCATTGCAGTAGAGCCCGGCGCCGTCTGGGTCGAGACCTTGCGAAAGAGTACCTGTACCGCCTGTTCGGCAAGTGCCGGGTGCGGTCAAGGCATCATGGAAAAGTTAGGAGTTGGGGCCCGGCGTGGATACGTCCGGGCCCTTTCCGATTTACAGCTCGATGTGGGTGACCCGGTAGTCATCGGCATTCGTGAAGAGCTGCTGCTGCGTGGTTCCATTCTGGTTTACCTTCTCCCTCTGCTTGGGCTGTTCCTGGCCGCGATACTTGCCGAGCGTCTGGCGTTGGGCGAACCTCTAGTCATTTTTTCGGGGCTGGGCGGTTTCGCCCTGACCTGGTTCGGTGTTCGCTGGCATAGCCGGCGGGCGGCGGACGATCCCGCGTTGCAGCCGGTCGTGCTGCGCGCCATGCTCGCCGGGGCTACCGGTCAGCGGTGA	MIEEQGRVIAVEPGAVWVETLRKSTCTACSASAGCGQGIMEKLGVGARRGYVRALSDLQLDVGDPVVIGIREELLLRGSILVYLLPLLGLFLAAILAERLALGEPLVIFSGLGGFALTWFGVRWHSRRAADDPALQPVVLRAMLAGATGQR				NA	NA	NA	NA	NA
BMS010_08001	1425			hypothetical protein	ATGTCGATGCCTAGTTGGAAATCCTGTCTGTCCGTCCTGGCTGCGTTACTGATGCTGAGCCAGGCGCTGGTGGCGCGTGCCGATCTGCCGGATTTCACCGAGCTGGTCCAGGAAGCGTCGCCCGCGGTCGTGAACATCAGTACCCGGCAGAAGCTGCCGGCCAGCACCGCCAGTGCGCAGATTCCCGATCTCGAAGGGCTGCCGCCGATCTTCCGTGAGTTCTTCGAGCGCAGCATTCCGCAGGTTCCGCGCAATCCGGGCGGCCGCCAGCGTGAAGCGCAGTCGCTCGGCTCCGGCTTCATCATTTCCGACGATGGCTATGTGCTGACCAATAACCACGTGGTGGCCGATGCCGACGAGATCATCGTGCGTCTGTCCGACCGTAGCGAGCTGGAGGCCAAGCTGGTCGGTGCCGATCCGCGTACCGACGTGGCCTTACTGAAAGTCGAAGGCAAGGGGCTGCCCACGGTCAAGTTGGGCAACTCCGAAGCCCTGAAGGTCGGTGAGTGGGTGCTGGCCATCGGTTCGCCGTTCGGCTTCGATCACTCCGTGACCGCCGGTATCGTCAGCGCCAAGGGGCGTAGCCTGCCGAACGAGAGCTATGTGCCGTTCATCCAGACCGACGTGGCGATCAACCCGGGCAACTCGGGCGGTCCGCTGTTCAATCTGGACGGCGAAGTGGTCGGCATCAACTCGCAGATTTTCACTCGCTCGGGCGGCTTCATGGGCTTGTCTTTCGCCATTCCGATCGACGTCGCCATGGACGTGGCCAACCAGTTGAAGTCCGAAGGCAAGGTCAGCCGTGGCTGGCTGGGTGTTGTGATCCAGGAGGTCAGCAAGGACCTGGCTGAATCCTTCGGTCTGGAAAAACCGGCTGGTGCGCTGGTTGCTCAGGTGCTGGAAGGTGGTCCGGCCGACAAGGGCGGGCTCCAGGTGGGCGATGTCATCCTGAGCCTGAATGGTCGTCCGATCGTCATGTCCGCCGATCTGCCGCATCTGGTGGGTGGCCTCAAGCCGGGCAGCAAGGCCGATTTGGAAGTGGTGCGTGACGGCGAGCGCCGCAAGCTGCAACTGACCATCGGCGCGTTGCCGGAAGAGGGTGATGAGGTCGCCGTCGGCAAGGTGCCGGGTGCTGAGCGGAGCAGCAACCGTCTGGGTGTCAAGGTGGCCGAGCTGTCCGCCGAGCAGAAGAAGGCCCTCGACCTGAAAGGCGGTGTGGTGATCAGCGAGGTACTGGAAAGCGGGCCTGCAGCCTTGATCGGCTTGCGTCCGGGGGATGTCATCACTCACCTGAACAACCAGGCCATCGATTCGGCCAAGACGTTCACCAAGGTCGCCCAGGACCTGCCGAAGAACCGCTCCGTGTCCATGCGCGTGCTGCGGCAGGGGCGTGCCAGCTTCATCACGTTCAAGCTGTCCGAGTAA	MSMPSWKSCLSVLAALLMLSQALVARADLPDFTELVQEASPAVVNISTRQKLPASTASAQIPDLEGLPPIFREFFERSIPQVPRNPGGRQREAQSLGSGFIISDDGYVLTNNHVVADADEIIVRLSDRSELEAKLVGADPRTDVALLKVEGKGLPTVKLGNSEALKVGEWVLAIGSPFGFDHSVTAGIVSAKGRSLPNESYVPFIQTDVAINPGNSGGPLFNLDGEVVGINSQIFTRSGGFMGLSFAIPIDVAMDVANQLKSEGKVSRGWLGVVIQEVSKDLAESFGLEKPAGALVAQVLEGGPADKGGLQVGDVILSLNGRPIVMSADLPHLVGGLKPGSKADLEVVRDGERRKLQLTIGALPEEGDEVAVGKVPGAERSSNRLGVKVAELSAEQKKALDLKGGVVISEVLESGPAALIGLRPGDVITHLNNQAIDSAKTFTKVAQDLPKNRSVSMRVLRQGRASFITFKLSE	PGPT0015105_3509	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0015105-degP|htrA-K04771	NA	NA
BMS010_08002	1908	lepA_2	COG0481	Elongation factor 4	ATGGGCTCCGGCTGGCGCCTGGGCGTGACGCCCTGGCGCTCGATCGGGTACACTCGCGGGCTATTTTCGGTGGGCAGCCTGCCCGCGGCCTTTTTGAGTGTTGATCACGTGAGTGACCTGAGTCATATCCGCAATTTCTCCATCATCGCCCATATCGACCACGGCAAGTCGACGTTGGCGGACCGTTTCATCCAGATCTGTGGTGGCCTCGCCGATCGCGAGATGGAGGCCCAGGTGCTCGATTCCATGGATCTGGAGCGCGAGCGCGGCATCACCATCAAGGCCCATAGCGTCACCCTGCACTACAAGGCGCAGGACGGTAAGACCTACCAGTTGAACTTCATCGATACCCCCGGCCATGTCGACTTCACCTATGAAGTCAGCCGCTCCTTGGCCGCCTGCGAAGGCGCGCTGCTGGTCGTGGATGCGGGCCAGGGAGTCGAGGCCCAGTCGGTCGCCAACTGCTACACCGCCATCGAGCAGGGCCTGGAAGTCATGCCCGTGCTGAACAAGATGGACCTGCCCCAGGCCGAGCCGGAGCGGGTGAAGGACGAAATCGAACACATCATTGGCATCGATGCGACCGACGCGGTCCCCTGTAGCGCCAAGAGCGGCATGGGCGTGACCGATGTGCTGGAGCGCCTGATCGAGGTGATTCCAGCGCCGGAAGGTGAAATCGAAGCGCCGCTGCAGGCACTGATCATCGACTCCTGGTTCGACAACTACCTCGGCGTGGTCTCCCTGGTACGAGTCAAACATGGCCGGGTGAAAAAAGGCGACAAGATTCTGGTGAAATCCACCGGCAAATTGCATCAGGTGGACAGCGTCGGCGTCTTCACGCCCAAGCATACCGAGACGGCGGACCTGAAGGCCGGTGAAGTAGGGTTCATCATCGCGGGCATCAAGGACATTCATGGCGCCCCGGTGGGCGATACCTTGACCCTGTCCACCACGCCTGACGTGGACATGCTGCCGGGCTTCCAGCGGATCAAGCCGCAGGTATATGCCGGCCTGTTCCCGGTCAGTTCCGACGATTTCGAGGATTTCCGCGAGGCCCTGCAGAAGCTGACGCTGAATGATGCGGCCCTGCAATACGAGCCGGAAAGCTCCGATGCCCTGGGTTTCGGCTTCCGCATCGGCTTCCTCGGCATGCTGCACATGGAGATCATCCAGGAGCGCCTGGAGCGCGAATACGACCTGGACCTGATTACTACCGCGCCGACCGTGGTCTACGAGGTCGTGCTGAAGAACGGCGATACCGTCTACGTCGACAACCCCTCGAAGCTGCCTGACCTGGCGGCCATCGCCGAGATGCGTGAGCCGATCGTGCGGGCGAATATCCTGGTGCCTCAGGAGCATCTGGGCAACGTCATTACCCTGTGCATCGAAAAACGTGGCGTGCAGCGCGACATGCAGTTCCTCAGCAGCCAGGTCCAGGTCAGCTACGACCTGCCGATGAACGAGGTGGTGCTGGACTTCTTCGATCGCCTGAAATCCGTGAGCCGGGGCTATGCGTCCCTGGACTACAGCTTCGATCGCTTCCAGGCGGCCAACCTGGTCAAGCTCGACGTGCTGATCAACGGCGACAAGGTCGATGCCCTGGCCCTGATCGTGCATCGTGACAGGTCCCACCAGAAGGGCCGTTCGTTGACCGAGAAGATGAAGGAGCTGATCCCTCGGCAGATGTTCGATGTGGCGATCCAGGCGGCCATCGGCGGCCAGGTCGTCGCCCGGACCACGGTCAAGGCGCTCAGGAAGAACGTATTGGCCAAGTGCTACGGCGGCGACGTCAGCCGTAAGCGCAAGCTGCTGGAAAAGCAGAAGGCCGGTAAGAAGCGGATGAAGCAGGTCGGTAGCGTGGAGATTCCTCAGGAAGCCTTCCTCGCCGTGCTCAAAGTGGATAGCTAG	MGSGWRLGVTPWRSIGYTRGLFSVGSLPAAFLSVDHVSDLSHIRNFSIIAHIDHGKSTLADRFIQICGGLADREMEAQVLDSMDLERERGITIKAHSVTLHYKAQDGKTYQLNFIDTPGHVDFTYEVSRSLAACEGALLVVDAGQGVEAQSVANCYTAIEQGLEVMPVLNKMDLPQAEPERVKDEIEHIIGIDATDAVPCSAKSGMGVTDVLERLIEVIPAPEGEIEAPLQALIIDSWFDNYLGVVSLVRVKHGRVKKGDKILVKSTGKLHQVDSVGVFTPKHTETADLKAGEVGFIIAGIKDIHGAPVGDTLTLSTTPDVDMLPGFQRIKPQVYAGLFPVSSDDFEDFREALQKLTLNDAALQYEPESSDALGFGFRIGFLGMLHMEIIQERLEREYDLDLITTAPTVVYEVVLKNGDTVYVDNPSKLPDLAAIAEMREPIVRANILVPQEHLGNVITLCIEKRGVQRDMQFLSSQVQVSYDLPMNEVVLDFFDRLKSVSRGYASLDYSFDRFQAANLVKLDVLINGDKVDALALIVHRDRSHQKGRSLTEKMKELIPRQMFDVAIQAAIGGQVVARTTVKALRKNVLAKCYGGDVSRKRKLLEKQKAGKKRMKQVGSVEIPQEAFLAVLKVDS	PGPT0015105_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0015105-degP|htrA-K04771	NA	NA
BMS010_08003	855	lepB_2	COG0681	Signal peptidase I	ATGTCAATCAATTTCCCTCTGTTGTTGGTCATCGCCGTAGCGGTATGCGGCGCCTTGGCACTGCTGGATCTGGTTCTGCTGGCTCCACGTCGGCGCGCTGCGATTGCCGCTTATCAGGGGCGCGTCGGCGAACCCGACGAAGAGGTGCTGGAAAAGCTCGGCCGGGAACCGGTGCTGGTGGAGTATGGCAAGTCCTTCTTCCCGGTGCTGGCCATCGTCCTGGTGCTGCGCTCCTTCCTGGTCGAGCCGTTCCAGATTCCCTCCGGCTCGATGAAACCGACCCTGGAAGTGGGCGATTTCATCCTGGTGAACAAGTTTGCCTACGGCATCCGCCTGCCGGTGCTGGACACCAAGGTAATCGAGGTGGACAACCCCCAGCGCGGCGATGTGATGGTGTTCCGCTATCCCAGCGACCCGAACATCAATTACATCAAGCGCGTCGTCGGCCTGCCGGGTGACGTGGTGCGCTACAGCAGCGACAAGCACCTGTTCATCAATGAACAGCCGATCACCGAAAGCCTTGTCGGCGAAGAGCCGGGCACGCTCGGTAGTGCCGTGCTGTACAAGGAAAAGCTCGGAGCGGTGGAGCACCTGGTGCGCAAGGAAATGAGCCGCTATCGCATCGAACCGGGTCGTGAGTGGGTGGTGCCGGAAGGCCACTATTTCATGATGGGCGACAACCGCGACAACTCCAACGACAGCCGTTACTGGAACGATCCCAAGATTCCAAAGGAATTGCGTGGGATGGTGCCGGACCGCAACATCGTCGGCAAAGCCTTTGCGGTGTGGATGAGCTGGCCCGATCCCAAACTGCGTAATCTGCCCAACTTTTCGCGAGTCGGGTTGATTCACTGA	MSINFPLLLVIAVAVCGALALLDLVLLAPRRRAAIAAYQGRVGEPDEEVLEKLGREPVLVEYGKSFFPVLAIVLVLRSFLVEPFQIPSGSMKPTLEVGDFILVNKFAYGIRLPVLDTKVIEVDNPQRGDVMVFRYPSDPNINYIKRVVGLPGDVVRYSSDKHLFINEQPITESLVGEEPGTLGSAVLYKEKLGAVEHLVRKEMSRYRIEPGREWVVPEGHYFMMGDNRDNSNDSRYWNDPKIPKELRGMVPDRNIVGKAFAVWMSWPDPKLRNLPNFSRVGLIH				NA	NA	NA	NA	NA
BMS010_08004	378			hypothetical protein	ATGACATTTGCGCGTTCGCAGAAAGGTCTGTCGATACTGGGGTGGCTGGTCGTTCTGGCCGTTGTTGCATTCCTTGCCAGTACTGCGTTCAAGATCATTCCGCATTATCTCGACTATATGTCGATGGAAAAGATCATTTCCTCGGTCGAAACCGACAAGGCCTTGAATATCCAGACCGTGGGTGATTTCTACGAGCATGTCAGCAAGGGCATGCAGGTCAACGGCATCCGGGACCTGGACATGAAGAAAGTGTTGAAGGTGAATGTGGAAAACAACGAATTCCGTGCTCATCTGAAATATGAAAAACGCGAACCGCTGATCGAGAATCTCGATCTCGTGGTGCGCTTCGACAAAGAATTTCGGTTACGCATGCCGTGA	MTFARSQKGLSILGWLVVLAVVAFLASTAFKIIPHYLDYMSMEKIISSVETDKALNIQTVGDFYEHVSKGMQVNGIRDLDMKKVLKVNVENNEFRAHLKYEKREPLIENLDLVVRFDKEFRLRMP				NA	NA	NA	NA	NA
BMS010_08005	690	rnc_2	COG0571	Ribonuclease 3	GTGAGCTCAACGTTAGGCCGCCTCGAGCGCAAGCTCGGTCATAGTTTCAAGAACCAGGACCTGATGGTCCTGGCTCTCACCCATCGCAGCTTCGCCGGGCGCAATAACGAGCGCCTGGAATTCCTCGGTGACGCCATCCTCAACTTCGTTGCCGGCGAGGCCCTGTTCGCCCGCTTTCCCCAGGCCCGCGAGGGTCAGCTGTCGCGTCTGCGCGCGCGCCTGGTCAAGGGCGAGACGCTGGCGCAACTGGCCCGTGGGTTCGAGCTGGGGGAATACCTGCGGCTCGGCTCCGGCGAGTTGAAGAGCGGTGGTTTCCGCCGCGAATCCATCCTTGCCGATGCGCTGGAGGCACTGATCGGTGCCATCTACCTGGATGCGGGCATGGAAGCGGCACGCGAACGGGTGCTGGACTGGCTCGCCAACGAGCTGGACGGCCTGACGCTGGTGGATACCAACAAAGACCCGAAGACACGCCTGCAGGAATACCTGCAGTCGCGTGCCTGCGAACTGCCTCGCTACGAGGTGGTGGATATCCAGGGAGAACCGCACTGCCGGACGTTCTTCGTCGAGTGCCAGGTAACCCTTTTGAATGACAAGACCCAGGGGCAGGGCGCCAGCCGCCGTATCGCCGAACAGGTCGCGGCGGCCGCCGCCCTGATCGCCCTGGGCGTGGAGAACGGTAATGAGTGA	MSSTLGRLERKLGHSFKNQDLMVLALTHRSFAGRNNERLEFLGDAILNFVAGEALFARFPQAREGQLSRLRARLVKGETLAQLARGFELGEYLRLGSGELKSGGFRRESILADALEALIGAIYLDAGMEAARERVLDWLANELDGLTLVDTNKDPKTRLQEYLQSRACELPRYEVVDIQGEPHCRTFFVECQVTLLNDKTQGQGASRRIAEQVAAAAALIALGVENGNE				NA	NA	NA	NA	NA
BMS010_08006	909	era_2	COG1159	GTPase Era	ATGAGTGAGATCGACGAAGACGTGTCCCGCTGTGGCTATGTAGCCATTGTCGGCCGCCCCAACGTGGGCAAGTCGACCTTGCTCAACCACATTCTCGGGCAGAAGCTGGCGATCACCTCGCGCAAGCCGCAGACCACCCGGCACAACATGCTGGGCATCAAGACCGAAGGGGCGGTCCAGGCGATCTACGTGGATACTCCCGGCCTGCACAAGAACAGCGAGAAAGCGCTGAACCGCTACATGAACAAGAGCGCTTCGGCGGCGTTGAAGGACGTCGACGTGGTGGTCTTCGTGGTCGACCGTACCCGCTGGACCGACGAGGACCAGATGGTGCTCGAGCGGGTGCAGTACGTGCAGTGCCCGGTGTTGCTCGCGGTGAACAAGACCGACCGCATCGAGGATAAGGCCGAGCTGCTGCCGCATCTGGAATGGCTGGCCCAGCAGTTGCCCAACGCGGAAATCGTGCCGATCTCCGCCCAGCAGGGGATTAACCTCGACACCCTGGAGCGCCTGGTGGCCGAGCGTTTGCCCGAGGGCGATCACTTCTTCCCGGAAGACCAGATCACCGATCGCTCCAGCCGTTTCCTCGCGGCTGAGCTGGTACGCGAGAAGATCATGCGCCAGCTCGGGGCGGAATTGCCCTACCAGATCACCGTGGAAATCGAAGAGTTCAAGCAGGAAGGACGCATCCTGCACATCCACGCGCTGATCCTCGTCGAGCGCGAGGGGCAGAAGAAGATCATCATCGGCGACAAGGGTGAGCGCATCAAACGGATTGGCCAGGATGCGCGCAAGGACATGGAAACCATGTTCGATTCCAAGGTCATGCTCAATCTCTGGGTGAAGGTGAAAGGCGGCTGGTCGGACGACGAACGCGCCCTGCGGTCGCTCGGCTACCTGGACGTTTGA	MSEIDEDVSRCGYVAIVGRPNVGKSTLLNHILGQKLAITSRKPQTTRHNMLGIKTEGAVQAIYVDTPGLHKNSEKALNRYMNKSASAALKDVDVVVFVVDRTRWTDEDQMVLERVQYVQCPVLLAVNKTDRIEDKAELLPHLEWLAQQLPNAEIVPISAQQGINLDTLERLVAERLPEGDHFFPEDQITDRSSRFLAAELVREKIMRQLGAELPYQITVEIEEFKQEGRILHIHALILVEREGQKKIIIGDKGERIKRIGQDARKDMETMFDSKVMLNLWVKVKGGWSDDERALRSLGYLDV				NA	NA	NA	NA	NA
BMS010_08007	690	recO_2	COG1381	DNA repair protein RecO	ATGTCTCAATCCGCCTTCGTCCTGCACAGCCGTCCGTACCGGGAGAGCAGTGCGCTGGTGGATTTCTTCACACCGCAGGGCCGGTTCCGGGCGGTCCTGCGTTCGGCGCGGGGCAAGGCGGGTAGCTTGGCGCGACCGTTCGTTCCGCTGGAGGTCGAATTCAGCGGACGTGGCGAACTGAAGAACGCCAGCCGCCTGGAAGCCAGCGGTATCGCCCATTGGTTGAACGGCGATGCGTTGTTCAGCGGTCTCTATCTCAACGAACTATTGATCCGCCTGTTGCCGGCCGAAGTCCCGCATCCCGCGTTCTTCGAGCACTATGCCGCAACCTTGCTGGCCCTGGCCGAAGGGCGCCCCCTGGAACCCTTGCTGCGCGCGTTCGAATGGCGTCTGCTGGACGAGCTGGGCTATGGTTTCGCCCTGGACCTGGATATCGCCGGCCAACCTATCGTTACCGAGGGCCTCTATCGCCTGCAGCCGGATGCCGGCCTGGAACCCGTTGGCCAGTTGCAGCCCGGCTTGTTCCACGGCGCGGAGCTGCTGGCCATGGCCGAGGCCGACTGGTCGGTACCCGGCGCCCTGGCAGCTGCCAAACGGCTGATGCGCCAGGCACTCGCCCCCCACTTGGGCGGCCGACCGCTGGTCAGCCGCGAGTTGTTCATGAATCTCAAGGAGCCTCCCCGTGACTGA	MSQSAFVLHSRPYRESSALVDFFTPQGRFRAVLRSARGKAGSLARPFVPLEVEFSGRGELKNASRLEASGIAHWLNGDALFSGLYLNELLIRLLPAEVPHPAFFEHYAATLLALAEGRPLEPLLRAFEWRLLDELGYGFALDLDIAGQPIVTEGLYRLQPDAGLEPVGQLQPGLFHGAELLAMAEADWSVPGALAAAKRLMRQALAPHLGGRPLVSRELFMNLKEPPRD				NA	NA	NA	NA	NA
BMS010_08008	747	pdxJ_2		Pyridoxine 5'-phosphate synthase	GTGACTGAAGCCAACCGCATCCTGCTCGGTGTCAACATCGATCACGTCGCCACCCTGCGCCAAGCGCGCGGCACGCGCTACCCGGACCCGGTCAAGGCCGCCCTGGATGCCGAGGAAGCCGGTGCCGATGGCATTACTCTGCATCTGCGTGAGGACCGCCGGCATATCCAGGAGCGCGACGTCCGAGTCATGAAGGACATGCTGCAGACGCGCATGAATTTCGAGATGGGCGTCACCGAGCCGATGCTGGCCTTCGCTGAAAGCATCCGCCCCGAACACATCTGCCTGGTGCCGGAAACCCGCCAGGAACTGACCACCGAAGGCGGCCTGGATGTTGCCGGCCAGGAAGAGCGTATCCGTGCGGCGGTGGAGCGGCTGAGCAAGCTGGGCTGCGAGGTGTCGTTGTTCATCGATGCCGAAGAACGGCAGATCGAGGCCGCGCGACGCATCGGCGCCCCGGCTATCGAGCTGCACACGGGTCGTTATGCCGATGCCCAGACACCCGCCGAGGCCGCCCGCGAGCTGGCGCGGATTCGCGACGGCGTGGCGTTCGGCCTGGGGCATGGGTTGATCGTCAATGCCGGCCATGGCCTGCACTACCACAACGTCGAACCGGTGGCGGCCATTGCCGGTATCCATGAGCTGAACATCGGCCACGCCATCGTCGCCCATGCGTTGTTCGTGGGGTTCAAGCAGGCGGTGGTAGAGATGAAGCAATTGATCGTCGCGGCAGCGGCGCGGGGTTAG	MTEANRILLGVNIDHVATLRQARGTRYPDPVKAALDAEEAGADGITLHLREDRRHIQERDVRVMKDMLQTRMNFEMGVTEPMLAFAESIRPEHICLVPETRQELTTEGGLDVAGQEERIRAAVERLSKLGCEVSLFIDAEERQIEAARRIGAPAIELHTGRYADAQTPAEAARELARIRDGVAFGLGHGLIVNAGHGLHYHNVEPVAAIAGIHELNIGHAIVAHALFVGFKQAVVEMKQLIVAAAARG	PGPT0009170_1024	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009170-pdxJ-K03474	NA	NA
BMS010_08009	960	cmoB	COG0500	tRNA U34 carboxymethyltransferase	ATGATCGATCTCACGCCTCTCGTCCGCCGTCTCGCCGGCACTCCCCTGGCATCCTGGGCCAATAGCCTGCAGGCGCAACTGGACGCCCGGATGGACATCGGGCACGGCGACCTGGAGCGCTGGCAGGGCGCCCTCGATGCTCTGCCGGATCTGAAACCCACCGAAGTCGAACTGGGTGAACGCTTTCGCCTCGATGCACCCTGCACAGATGCCACGCGTGCTCAGCTGAGACAGGCCCTGCTCGGTCTGTCGCCCTGGCGCAAGGGGCCGTTCGATCTGTTCGGTGTGCACATCGACACCGAATGGCGGTCGGACTGGAAGTGGGCGCGGGTCGCCCCCCATCTAGACCTGCACGGCAAGCGCGTGCTCGATGTGGGCTGCGGCAATGGCTATTACCAGTGGCGCATGCTCGGTGCCGGCGCCGACAGCGTGATCGGGATCGACCCCAACTGGTTGTTCTTCTGCCAGTTCCAGGCCATCCAGCGCTACCTGCCGGACCTGCCGGCGTGGCACCTGCCCTTCGCCCTGGAAGACCTGCCGGAGCGCCTGGAAGGCTTCGATACCGTGTTTTCCATGGGCGTGCTCTACCACCGTCGCTCGCCCATCGAGCATCTGCTTGCACTCAAGGATTGCCTGGTCAGAGGCGGCGAACTGGTGCTCGAAACCCTGGTGATCGCCGGCGACGAGCAGAACGTGCTGGTCCCGGAAGACCGCTATGCCCAAATGCGCAACGTCTGGTTCCTACCCTCGGTACCGGCGCTGGAACGCTGGCTGCGCCGCGCTGGTTTCACCGATGTGCGCTGCGTCGATGTGAGCATCACCCGCGTCGAAGAGCAGCGCAGCACCGAATGGATGCGCTTCCAGTCGCTACCTGACTTCCTCGATCCGCACGACCATTCCCGCACCATCGAGGGCCTGCCGGCACCGATGCGCGCCGTGGTGCTGGCGCGCAAGCCGTAA	MIDLTPLVRRLAGTPLASWANSLQAQLDARMDIGHGDLERWQGALDALPDLKPTEVELGERFRLDAPCTDATRAQLRQALLGLSPWRKGPFDLFGVHIDTEWRSDWKWARVAPHLDLHGKRVLDVGCGNGYYQWRMLGAGADSVIGIDPNWLFFCQFQAIQRYLPDLPAWHLPFALEDLPERLEGFDTVFSMGVLYHRRSPIEHLLALKDCLVRGGELVLETLVIAGDEQNVLVPEDRYAQMRNVWFLPSVPALERWLRRAGFTDVRCVDVSITRVEEQRSTEWMRFQSLPDFLDPHDHSRTIEGLPAPMRAVVLARKP				NA	NA	NA	NA	NA
BMS010_08010	744	cmoA	COG0500	Carboxy-S-adenosyl-L-methionine synthase	GTGACCCAGGACCCCGATCGTCTTTTCGCGCAGCCCCTCGCCCAAGTGCGGGACTTCGTCTTCAACGAAGATGTGGTGCGCGTGTTCCCCGACATGATCAAGCGCTCGGTGCCGGGCTACCCGACCATCGTCGAGAACATCGGCGTGCTCGCCGGCCGTTTCGCCCAGCCGCACAGCGTGCTCTACGACCTGGGCAGTTCGCTCGGCGCCGTTACCCAGGCGCTGCGCCGGCACGTGAAAGCCGAGGGCTGCCGGGTCGTCGCGGTGGACAACTCGACGGCCATGGTGGAGCGCTGTCGGGAGTACCTGCATGCCCAGGACTCGATGTTCCAGGAACTGCTGCCGGTCGACGTGATCGAGGCGGACATTCTCGCCCTCGATTTCCAGCCCACGTCGCTGGTGGCGTTGAACTTCACCCTGCAATTCATCGATCCCGAGCGCCGGCTCGAATTGCTCGGCCGCATTCGCCAGGCCCTGCTCCCCGGTGGCGCGCTGATCCTGTCGGAAAAGCTGCGCTTCGCCGACGATGAGGAGCAGGCGCTGCTCACCGACCTGCATATCGACTTCAAGCGGGCCAACGGCTACAGCGAGCTGGAAATCGCCCAGAAGCGCAGCGCGCTGGAAAACGTCATGCGACCCGATAGCCTCGAAGACCATCGCGACCGCCTGCTGGCGGCCGGTTTCCGCAAGGTGGTGCCCTGGTTCCAGTGCCTCAACTTCGCTTCGCTGATCGCCCTGCCATGA	MTQDPDRLFAQPLAQVRDFVFNEDVVRVFPDMIKRSVPGYPTIVENIGVLAGRFAQPHSVLYDLGSSLGAVTQALRRHVKAEGCRVVAVDNSTAMVERCREYLHAQDSMFQELLPVDVIEADILALDFQPTSLVALNFTLQFIDPERRLELLGRIRQALLPGGALILSEKLRFADDEEQALLTDLHIDFKRANGYSELEIAQKRSALENVMRPDSLEDHRDRLLAAGFRKVVPWFQCLNFASLIALP				NA	NA	NA	NA	NA
BMS010_08011	573			hypothetical protein	ATGGGCGGCTGTGTTGGTCGAGCAAGTGTGATCCTTGCCGTGATCTTGCTGACAGGATGCAGCAGTCTTCTACCCAGCGAGCGTGCGGAAACCCAATCGCCCTTCGCCGATTATCTGGATGCGGAAGGCCGCTTCGCCCAGGCGATTCCGGGCCGCACCACCCGACCCGAGCTGTTCTCCCTGGGGTTCGATCCACTGATCCAGGGCAACGGCCGCATGCTGTCGTTCATCGACATCCGATTGATGTTCGTCCAGCCGAACATTCCCCTTGCCTACCTCCCGGACGGCCTGGTGCAGTGCCTTGAAGCCAAGGATCGCTGCATCGGCTATGCCTTCGAATTTTCCAAGAGCGACAGTCAGCGGGTGGGTAACTTCTGGGCGGACATTTTCAACTTCCGCAAGAAACGCGAGATCCAGGGCTGGGCGTTCCGCGCCGTGTTCGTCCTGGTGGACGACCGCCTGGTGCACAAGGTCAGCAGCGGCGAGCCGAACATCCGCCGCTACGAAGTGAAACGCAACCCGCTGGGGCCGGTGCAGGGCGCCGGGGAGTTCTTTTCCGATCAGTTGAAGTGA	MGGCVGRASVILAVILLTGCSSLLPSERAETQSPFADYLDAEGRFAQAIPGRTTRPELFSLGFDPLIQGNGRMLSFIDIRLMFVQPNIPLAYLPDGLVQCLEAKDRCIGYAFEFSKSDSQRVGNFWADIFNFRKKREIQGWAFRAVFVLVDDRLVHKVSSGEPNIRRYEVKRNPLGPVQGAGEFFSDQLK				NA	NA	NA	NA	NA
BMS010_08012	633			hypothetical protein	ATGCGCTGGCTGATAATCGCGTTGCTCGCGGTATTGCTGTACCTGTACGGGGTAGCGACGGACGAACTGCCGGTCCGTCTGGCGAGCAAGCCGATACCGGTGATCGCCCTGCTGTTCTGGCTGCGCGGATTTCCAGCCAGTGCCTATCGCAACCGGATCGCCCTGGGCCTGGTCTTTTCCCTCGTCGGCGACGTCCTGCTGGCATGGCCGGCCGATCTGTTCGTCTTCGGTCTGGGTGCCTTTCTACTCGCTCACCTGGCCTATCTATCAGCCTACCTGAGCGACAGCCGCCGCCTCGCGCCGCTGGCACTGGCGTTCGCGGCATCGACGGCTGCCGGCATGTTCGGCGTGCTCACCTCGGCCGGCCTGGGGCCCCTGCTGGTTCCAGTAGCGCTCTACGCGCTGACCATCGGTGCCATGCTCTGGCGCGCCCTGGCCCGTATCGGCACAGCCGGCGTGCCGGTCCACTCCGCCCGGCTCGCGGCAGGCGGCGCCGCACTGTTCGTACTCTCCGACAGCCTCATCGGCATCGACCGCTTCGTCATGCCGTTCGAAGCCGCACCCTACGCCATCATCCTCAGTTATTGGGCCGGCCAATGGGCCATCGCCGCCTCGGCCGCCCGTCCCCGATGA	MRWLIIALLAVLLYLYGVATDELPVRLASKPIPVIALLFWLRGFPASAYRNRIALGLVFSLVGDVLLAWPADLFVFGLGAFLLAHLAYLSAYLSDSRRLAPLALAFAASTAAGMFGVLTSAGLGPLLVPVALYALTIGAMLWRALARIGTAGVPVHSARLAAGGAALFVLSDSLIGIDRFVMPFEAAPYAIILSYWAGQWAIAASAARPR				NA	NA	NA	NA	NA
BMS010_08013	402			hypothetical protein	ATGATCGCCCGCCAGCCGCGCCGGTTATTGCCTTTCGCGCTCGCCCTGCTCGCCGCCTGCGCCCAGCAGCCCACCAGCATTACCCTGCAGCAGAACCAGCAGAGCAAATGCCCATTGCGGATGCACCCGGGCCAGACCCTGGTACTGACTCTGCCGAGCAATCCGACCACCGGGTATCGCTGGGAAGTGAAAGACGCCGCGGCAAGCGTGTTGCGCAGCCTCGGCCCGGAGGTCTACAGCAATCCCGAGGATGCCGGCCTGGTCGGCAGCGCCGGCCTTTCCACCTGGCGCTTCCAGGCGACCCAGCCGGGCGACGGCCATCTGCTACTAGTCTACAAACGGCCCTGGGAAGTGGGCGTGGCGCCGGCCGAGACCTTCGATTGCAAGGTGGCGGTCAAGTGA	MIARQPRRLLPFALALLAACAQQPTSITLQQNQQSKCPLRMHPGQTLVLTLPSNPTTGYRWEVKDAAASVLRSLGPEVYSNPEDAGLVGSAGLSTWRFQATQPGDGHLLLVYKRPWEVGVAPAETFDCKVAVK				NA	NA	NA	NA	NA
BMS010_08014	2406	lon_3	COG0466	Lon protease	ATGAACGACCACAACCCGAACATCGATCCAGACATCATCGAAGAACAGGCGGAGAAGCCCGGCAGCACTGGCCTCGCCCTGCCGGTCCAGTCGCTGCCCGACAAGCTCTACATCATGCCGATCCACAACCGGCCGTTCTTTCCAGCCCAGGTGCTGCCGGTGATCGTCAACCAGAACCTCTGGGACGAGACCCTGCAACGGGTCGCCAACACCGCCCATCATTGCCTGGCGCTGTTCTATGTCGAAAATCCCGCGCCGGATGCCGAAAACTTCGATCCGGACAGCTTGCCCGAGCACGGCACCGTGGTGCGCATCCACCACGCCAGCAAGGATGGCGAAAAACTCCAGTTCGTCGCCCAGGGCATTACCCGGGTGCGTATCCGCGGCTGGCTGAGCCGCAAGCCGCCTTATCTGGTTGAAGTGGATTACCCGCAGGCCGCCGCCGATCCACGCGACGAAGTGAAGGCCTACGGCATGGCCCTGATCAACGCGATCAAGGAACTGCTGCCGCTCAACCCGCTGTACAGCGAAGAGCTGAAAAACTACCTGAACCGCTTCAGCCCCAACGACCCGGCACCGCTGACCGATTTCGCCGCAGCCCTCACCACGGCACCGGGCCATGAATTGCAGGAAGTGCTGGACACCGTGCCGATCCTCAAGCGCATGGAGAAGGTCCTGCCGCTGCTGCGCAAGGAAGTCGAAGTCGGCCGCCTGCAGAAAGAGCTGTCCGCCGAGGTCAACCGCAAGATCGGCGAGCGCCAGCGCGAGTTCTTCCTCAAGGAGCAGTTGAAGATCATCCAGCAGGAGCTGGGCATCACCAAGGACGATCGCAGCGCCGACATCGATGAGTTCCGCGCCCGCCTGGAGGGCAAGACGGTGCCGCCGGCCGCGCAGAAACGCATCGACGAGGAACTGAACAAGCTGTCGATCCTCGAGACCGGCTCGCCGGAATACGCCGTTACCCGTAACTACCTGGACTGGGCCACCGCCCTGCCCTGGGGCATCTACGGCAAGGACAAGCTCGACCTCAGGCACGCCCGCAAGGTGCTCGACAAGCACCATGCCGGTCTGGACGACATCAAGAACCGTATCCTCGAATTCCTCGCCGTCGGCGCCTTCAAGGGCGAGATCGCCGGCTCCATCGTCCTGTTGGTCGGCCCGCCCGGCGTGGGCAAGACCAGCATCGGCAAGTCCATCGCCGAATCGCTGGGGCGGCCTTTCTACCGTTTCAGCGTCGGCGGCATGCGCGACGAGGCGGAGATCAAGGGCCATCGCCGCACCTATATTGGCGCCCTGCCGGGCAAGCTGGTGCAGGCCCTGAAGGAAGTCGAGGTGATGAACCCGGTGATCATGCTCGACGAAATCGACAAGCTCGGTGCCAGCTACCAGGGCGATCCGGCGTCCGCCTTGCTGGAGACCCTCGACCCCGAGCAGAACGTGGAATTCCTCGACCACTATCTCGACCTGCGCCTGGACCTGTCCAAAGTGTTGTTCGTCTGCACCGCCAACACCCTGGACTCGATCCCCGGGCCGCTGCTCGACCGCATGGAGGTGATCCGCCTCTCCGGCTATATCGCCGAAGAGAAGCTGGCCATCGCCAAACGCCACCTGTGGCCCAAGCAACTGGAAAAGGCCGGCGTGCCGAAACAGCGCCTGTCCATCAGCGACAGCGCCCTGAAACTGCTGATCGAAGGCTACGCCCGCGAGGCGGGCGTGCGGCAACTGGAGAAGCAACTCGGCAAAGTGGTCCGCAAGTCGGTGGTCAAGCTGCTGGACGACCCGGACAGCACGGTGAAGGTCGGTCCGAAGGACCTCGAGGACTACCTGGGCATGCCGGTGTTCCGCACCGAGCAAGTGATGTCCGGCGTGGGCGTCATCACCGGGCTGGCCTGGACCAGCATGGGCGGCGCCACCCTGCCGATCGAGGCCACGCGCATCCACACGCTGAACCGCGGCTTCAAGCTCACCGGCAAGCTCGGCGAGGTGATGAAGGAGTCGGCGGAAATCGCCTACAGCTACATCAGCTCGCACCTGAAGAAGTACAAGGGCGACCCGGCGTTCTTCGACCAGGCCTTCGTCCACCTGCACGTGCCGGAAGGCGCCACGCCCAAGGATGGCCCCAGCGCCGGCATCACCATGGCCAGCGCCCTGCTCTCCCTGGCGCGCAACCAGGCGCCGAAGAAGGGCGTGGCCATGACCGGCGAACTGACCCTGACCGGCCAGGTACTGCCGATCGGCGGAGTGCGTGAGAAGGTCATCGCCGCGCGCCGGCAGAAGATCTTCGAGCTGATCCTGCCGGAAGCCAACCGGGGCGACTTCGCCGAACTGCCGGACTACCTCAAGGAAGGCCTGACCGTGCACTTCGCCAAGCGCTATGCCGATGTGGCCAAGGTGTTGTTCCCGTAA	MNDHNPNIDPDIIEEQAEKPGSTGLALPVQSLPDKLYIMPIHNRPFFPAQVLPVIVNQNLWDETLQRVANTAHHCLALFYVENPAPDAENFDPDSLPEHGTVVRIHHASKDGEKLQFVAQGITRVRIRGWLSRKPPYLVEVDYPQAAADPRDEVKAYGMALINAIKELLPLNPLYSEELKNYLNRFSPNDPAPLTDFAAALTTAPGHELQEVLDTVPILKRMEKVLPLLRKEVEVGRLQKELSAEVNRKIGERQREFFLKEQLKIIQQELGITKDDRSADIDEFRARLEGKTVPPAAQKRIDEELNKLSILETGSPEYAVTRNYLDWATALPWGIYGKDKLDLRHARKVLDKHHAGLDDIKNRILEFLAVGAFKGEIAGSIVLLVGPPGVGKTSIGKSIAESLGRPFYRFSVGGMRDEAEIKGHRRTYIGALPGKLVQALKEVEVMNPVIMLDEIDKLGASYQGDPASALLETLDPEQNVEFLDHYLDLRLDLSKVLFVCTANTLDSIPGPLLDRMEVIRLSGYIAEEKLAIAKRHLWPKQLEKAGVPKQRLSISDSALKLLIEGYAREAGVRQLEKQLGKVVRKSVVKLLDDPDSTVKVGPKDLEDYLGMPVFRTEQVMSGVGVITGLAWTSMGGATLPIEATRIHTLNRGFKLTGKLGEVMKESAEIAYSYISSHLKKYKGDPAFFDQAFVHLHVPEGATPKDGPSAGITMASALLSLARNQAPKKGVAMTGELTLTGQVLPIGGVREKVIAARRQKIFELILPEANRGDFAELPDYLKEGLTVHFAKRYADVAKVLFP	PGPT0014315_3572	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014315-lon-K01338	NA	NA
BMS010_08015	699			hypothetical protein	ATGGAAATCTGGCTCGCCGCCGGACTCGGCGGCTTACTGCTGGTGCTCGGCCAATGGCTCTGCCGATTGGCTACGCAACGCCATCACAGCACGCTCGACCAGCTCGACAACCAGGCCCTGCAACTGGCGCTGGAGCTGTTGCAGAACCTGCAGAAACACCGTGGCCTGGGCAGCCAGAACGACGACATCGGCCGCCGTCAGCGCGAAGCCATCGCCGCCCAGCTCGACGAGCTGTGGCAGCGTTGGCCGGCCGAGGCCCTGGACCTGCCGGAGATCGCCGACGCCTGGCCGCGCCTGCGCGTCAAACCGCAGGATTTCAACGCCCATAATCAGCTGATCGAGTGCCTGCTGGGCGCCATCCATCTGCTCGAACTGCGCCTGGGCGAACGCAACGGACAGATCACCGCCGGCCTCGGCGAGGCCTGCCGCTCGCTGGAAGACCTGGCCCGGCTGCGCGGCCTCGCCGTGCGCGCCGCCAACCACTCGCGCTGCCCGCTGGAGCTGCAGATCCAGATGCGCTACCTGTGCCAGCGCCTGGCCGGCCCGTCCTGCGAAAGCCGCATCCGCGACATCGTTGCCCGCCTCGACAGCGAATTGATCGCCGCGCCGCAGGTACGCCTGGCGCCGGCGGATTGCTTCGCCCTGCTCACCCCGATCATCGACGAACGCCTGCAAGGGCTGCGCCTGAGCCTGGCCTGA	MEIWLAAGLGGLLLVLGQWLCRLATQRHHSTLDQLDNQALQLALELLQNLQKHRGLGSQNDDIGRRQREAIAAQLDELWQRWPAEALDLPEIADAWPRLRVKPQDFNAHNQLIECLLGAIHLLELRLGERNGQITAGLGEACRSLEDLARLRGLAVRAANHSRCPLELQIQMRYLCQRLAGPSCESRIRDIVARLDSELIAAPQVRLAPADCFALLTPIIDERLQGLRLSLA				NA	NA	NA	NA	NA
BMS010_08016	1089	mcpH_2		Methyl-accepting chemotaxis protein McpH	TTGCTCTCCTCGCCCCGCTTCGCCGCCTCTGATCGCAGCCACACCGACACAGGTTTTTGGTTGATCGCCGTCCTCTGGCTCTGCGGCATTCCCCTTGCGACGGCCGGCCATGTCTGGGCCGCGCTGGCCACCCTGGCCATCGGCCTTCTGCTTTATCAACGGCAGCATCGGCGCCAGCAAGCCCTGTGGGACCGGCTGCAAAGCGCGCTGGCGCAATTGGGTCGTGCCGGCCCGTCCGAACTGCACGCGCTGATCGTCGCCAGCGGCCAGGCGCGCCATGCCGCCGAGCGGCTGCGCAGCGAAGTACAGTTCGCCGGCCAGGCGCTCGATGAGATGGCCGCCCTGGCCGAGCGACGCAGCGCCGACCAGGGCCGGCAGGTCGAGTGCATCGCCCAGGCCAGCGGCGAGATCGGTCACACCCTGGCGCAGATTCATCGGCTCGGCCAACAGGCGATGAGTGCTCTCCGCTCCGCGCACCAAAAAAGTGAAGCCGGCCGCCACGACGCCCAATCGGTGGGCAACGCCATGAGCGGCATCCGCGCGAGCCTGGGCCGTACCGCCAGCGCAGTCAGTCAGCTCCTGGACCACGCCAGTGCCGTCGAAAAAGCCCTGCACAGCATCCAGAGCCTTGCCAGGCAAACCCAGTTGCTGGCCCTCAACGCGTCCATCGAGGCAGCCCGTGCCGGCGAGCACGGCCGCGGCTTCGCGGTGGTCGCCGACCAGGTGCGCCAGTTGTCCCAGGCCAGCGACCAGGCGGTCCAACAGATCGCCGGCGTGGTCACCGACATCGGCCAGGCGGTGCGCAGCGTGCACCATGAAGTCGAGGAACACCGCCAGTTGCTCGACCACGGAGCCGGGCAGAGCGAAGCCCTGGCGGAAGATTTGCATCAGCTCGCCGACCAGAGCCAGCGCAGCCTGACCGAACTGCTCAGCCTGCAACAGGCGTTGGACGAACATGAAGCGGCCAGCCAGGCCCTTCACGAACAACTGGAGCGGATCGGCGAAGCGGTGAACTTGCAGCGCGAGCAGAGCCACGCACTGCATGGGTTGACCCAGTACCTGACCCGCCTGACCACCGATGCGAGGTGA	MLSSPRFAASDRSHTDTGFWLIAVLWLCGIPLATAGHVWAALATLAIGLLLYQRQHRRQQALWDRLQSALAQLGRAGPSELHALIVASGQARHAAERLRSEVQFAGQALDEMAALAERRSADQGRQVECIAQASGEIGHTLAQIHRLGQQAMSALRSAHQKSEAGRHDAQSVGNAMSGIRASLGRTASAVSQLLDHASAVEKALHSIQSLARQTQLLALNASIEAARAGEHGRGFAVVADQVRQLSQASDQAVQQIAGVVTDIGQAVRSVHHEVEEHRQLLDHGAGQSEALAEDLHQLADQSQRSLTELLSLQQALDEHEAASQALHEQLERIGEAVNLQREQSHALHGLTQYLTRLTTDAR	PGPT0015710_28445	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_08017	753	rhaS_17		HTH-type transcriptional activator RhaS	ATGTTCTGTACCCGCCTGATCCGCCTGGATGAACAGGCTCACGATCATGCCCACGGCCATCACCAACTGGTGCTGTCACTGGCCGGCCGCGCCGAGTTCGACGTCAGCGGGCGCGGCGGCGAAGTCTGCCGCATGCGCGCCTGCCTGGTGCCGGGCGATGCCGACCACTCTTTCGCCGGCATGGGCGACAACCGCATGCTGATCATCGACCTGGACGAGCAGGGCGTGTCCCCCGAGGACCGCGACCTGCTCCTGCGGCTGTTCGACATTCCGCGCTATCCGGCGCTGGATGCGGATTTCCAGAACCTGCTGAGCTACGCCGGCGCGGAGCTGGAGCGTTACGGCAACGACCCGCTGCTGGCCCGCTCGCTGGGTGGCGTGCTGCTGCGTGCCTTGCACCTGCGCCTGTTCGGTGAGCAGCCGACCCGGGTGGTCGGCCCGCTCGACCTCGAACGCCTCGACACCTACATCGGCGAGCACCTGGCGCGGCGCATCAGCGTCGCCGAACTGGCGCAGGTCGCCTGCCTTAGCCCCAGCCACTTCCACGCCCAGTTCAAGGACAGCGTCGGGCTGACCCCGCACCAGTACCTGCTCAAGACCCGTCTCGACCGCGCGGCGCGGATGCTGCGGGAAAGCCCCTTGCCGCTGGTGCGGATCGCCGAAGAGTGCGGTTTTTCCAGCCAGAGTGCGTTGACCTCGGCGATGCGGCGCTACCTGGGATTGACGCCGAAGCGCATGCGCGGGACGGACTGA	MFCTRLIRLDEQAHDHAHGHHQLVLSLAGRAEFDVSGRGGEVCRMRACLVPGDADHSFAGMGDNRMLIIDLDEQGVSPEDRDLLLRLFDIPRYPALDADFQNLLSYAGAELERYGNDPLLARSLGGVLLRALHLRLFGEQPTRVVGPLDLERLDTYIGEHLARRISVAELAQVACLSPSHFHAQFKDSVGLTPHQYLLKTRLDRAARMLRESPLPLVRIAEECGFSSQSALTSAMRRYLGLTPKRMRGTD				NA	NA	NA	NA	NA
BMS010_08018	1485	putP	COG0591	Sodium/proline symporter	ATGAGCATCACCACACCCACGCTAGTCACCTTCGTGATCTACATCGCGTTGATGGTACTGATCGGCCTGGCGGCCTATCGCGCCACCAACAACTTCTCCGACTACATCCTCGGCGGCCGCAGCATCGGCAGCTTCGTCACCGCGTTGTCCGCGGGCGCTTCGGACATGAGCGGCTGGCTGCTGATGGGCCTGCCGGGTGCCGTTTACCTCTCTGGCCTGTCGGAAAGCTGGATCGCCATCGGCCTGATCGTCGGTGCCTACCTGAACTGGCTGTTCGTCGCCGGTCGCCTGCGCGTGCAGACCGAGCACAACGGCAATGCCCTGACACTCCCGGATTACTTCACCAACCGCTTCGAAGACTCCAGCCGCGTGCTGCGTATCTTCTCCGCCGTGGTGATCCTGGTGTTCTTCACCATCTACTGCGCCTCCGGCATCGTCGCCGGTGCCCGCCTGTTCGAGAGCACCTTCGGCCTGTCCTACGAGACCGCCCTCTGGGCCGGCGCCGCGGCCACCATCGCCTACACCTTCGTGGGTGGCTTCCTCGCGGTGAGCTGGACCGACACCGTGCAGGCCAGCCTGATGATCTTCGCGCTGATCCTGACCCCGGTCGTGGTGATGCTGGCTACCGGCGGTATCGATCCGACCTTCGCCGCCATCGAGATGCAGAACGCCACCAACTTCGACATGCTCAAGGGCGCCACCTTCGTCGGCGTCATCTCGCTGATGGCCTGGGGCCTGGGCTACTTCGGCCAGCCGCACATCCTGGCGCGCTTCATGGCCGCCGATTCGGTGAAGTCCATCGCCAAGGCTCGTCGTATCTCCATGACCTGGATGATCCTCTGCCTCGGCGGCGCCGTCGCCGTGGGCTTCTTCGGCATCGCCTATTTCTCGGCCCATCCGGACGTTGCCGGTGCGGTGTCCGAGAACCCCGAGCGAGTGTTCATCGAGCTGGCCAAGGTCCTGTTCAACCCCTGGGTCGCCGGTGTCCTGCTGTCCGCCATCCTGGCCGCGGTCATGAGTACCCTGAGCTGCCAGTTGCTGGTGTGTTCCAGCGCCCTGACCGAAGACTTCTACAAGTCCTTCCTGCGTAAAGGCGCCAGCCAGCGCGAGCTGGTCTGGGTCGGCCGTGGCATGGTGCTGCTGGTGGCGCTGGTCGCCATCTTCCTCGCCTCCAACCCGGAAAACCGCGTACTGGGCCTGGTGTCCTACGCCTGGGCCGGCTTCGGCGCCGCCTTCGGCCCGGTGGTACTGATCTCCGTGATGTGGAACCGCATGACCCGCAACGGCGCCCTGGCCGGCATGCTGATCGGTGCGATCACCGTGATCGTCTGGAAGCAGTTCGGCTGGCTGGGCTTGTACGAAATCATTCCGGGCTTCCTCTTCGCCAGCATCGGCATCGTCGTGTTCAGCCTGCTGGACAAGGCGCCTTCGGCTTCCATGCTCAAGCGCTTCGAAGAAGCCGAGCGGGAATACCAGGCGGGCTGA	MSITTPTLVTFVIYIALMVLIGLAAYRATNNFSDYILGGRSIGSFVTALSAGASDMSGWLLMGLPGAVYLSGLSESWIAIGLIVGAYLNWLFVAGRLRVQTEHNGNALTLPDYFTNRFEDSSRVLRIFSAVVILVFFTIYCASGIVAGARLFESTFGLSYETALWAGAAATIAYTFVGGFLAVSWTDTVQASLMIFALILTPVVVMLATGGIDPTFAAIEMQNATNFDMLKGATFVGVISLMAWGLGYFGQPHILARFMAADSVKSIAKARRISMTWMILCLGGAVAVGFFGIAYFSAHPDVAGAVSENPERVFIELAKVLFNPWVAGVLLSAILAAVMSTLSCQLLVCSSALTEDFYKSFLRKGASQRELVWVGRGMVLLVALVAIFLASNPENRVLGLVSYAWAGFGAAFGPVVLISVMWNRMTRNGALAGMLIGAITVIVWKQFGWLGLYEIIPGFLFASIGIVVFSLLDKAPSASMLKRFEEAEREYQAG	PGPT0013970_404	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013970-putP|ycgO-K11928	NA	NA
BMS010_08019	318			hypothetical protein	ATGCCATCGACTGCCGTTCACGACGCCATCGTCGACACCTTGTACAACCTCCAGCAAAGCTACGACCTGGTGATCACCTCCAGCCAGCCGGAGCGCGTCCACGAGGCGCTTTACCAGGCGGTCCAGGCCGTTTCCCCGAACCTTCTCAGCCGCCGCGAATATGCCGCCTTGCGCGCGGCGGCGCGGCTGCTCTGTTCGGGGCATCAGGTCGACGATCACGACTTCGAACTGCACGTCGGCCTGTCGCGGGCGGAGCTGCACCAGGCGTTGGTCAAGCTGGAACAGCAGGAAATGCCATTCGAGCCGGAGCCGGTGTGA	MPSTAVHDAIVDTLYNLQQSYDLVITSSQPERVHEALYQAVQAVSPNLLSRREYAALRAAARLLCSGHQVDDHDFELHVGLSRAELHQALVKLEQQEMPFEPEPV				NA	NA	NA	NA	NA
BMS010_08020	642	rutR_3	COG1309	HTH-type transcriptional regulator RutR	ATGACCAGTATTCGCGAGCGCAACAAAGAGCTCATTCTGCGCGCAGCCAGCGAAGAGTTCGCCGACAAGGGGTTCGCCGCCACCAAGACCAGCGACATCGCCGCCAAGGCCGGCCTGCCCAAGCCCAACATCTATTACTACTTCAAGTCGAAGGAAAACCTCTACCGCGAGGTGCTGGAAAGCATCATCGAGCCGTTGCTGCAGGCGTCGGCGCCGTTCAACCAGCCGGGCCATCCCGCCGACGTGCTGCGTGCCTACATCCGCTCGAAGATCCGCATCTCCCGCGAACTGTCCTACGCCTCCAAGGTGTTCGCCAGCGAGATCATGCACGGCGCGCCGCATCTGTCCGCCGAGCAGACCGAACAGCTCAACCGCCAGGCCAAGCACAACATCGCCTGTATCCAGAGCTGGATCGACCAGGGCCTGATGGCCAAGGTGGACCCGCACCATCTGCTGTTCAGCATCTGGGCAGCGACCCAGACCTACGCTGATTTCGACTGGCAGATTTCCACCGTCACCGGCAAGGCCAGCCTCGACGACGCCGACTACGAAGCCGCGGCCGACACCATCATCCGGTTGGTGTTGAAAGGCTGCGAAGTCGAGCAGGCGCCGGCCGGCGGCAGCCAGGCCAGGAGTGCTTGA	MTSIRERNKELILRAASEEFADKGFAATKTSDIAAKAGLPKPNIYYYFKSKENLYREVLESIIEPLLQASAPFNQPGHPADVLRAYIRSKIRISRELSYASKVFASEIMHGAPHLSAEQTEQLNRQAKHNIACIQSWIDQGLMAKVDPHHLLFSIWAATQTYADFDWQISTVTGKASLDDADYEAAADTIIRLVLKGCEVEQAPAGGSQARSA				NA	NA	NA	NA	NA
BMS010_08021	996	moaA_3		GTP 3',8-cyclase	ATGAGCGACATCCACCTGATCGACCCCTTCGGTCGGCGCATCAGTTACCTGCGTCTGTCGGTCACCGACCGCTGCGACTTCCGTTGCACCTATTGCATGAGCGAAGACATGGTCTTCGCCCCGCGCGCGCAGATTCTCAGCCTGGAAGAGCTTTACGCGGTGGCCGACGCCTTCATCGGCCTCGGCGTGCGACGCATCCGCGTGACCGGCGGGGAGCCGCTGGTGCGCAAGGGGCTGCTCGGCCTGCTCGGACAGTTGGGGGCGCGCGCCGAACTGGACGACCTGGCGATCACCACCAACGGCTCGCAGCTCGGCCACATGGCCGCCGATCTGCGCCGTGCGGGTGTCCGCCGCTTGAACATCAGCCTCGACTCCCTGCGCCGCGACCGTTTTGCCGCGTTCACCCGCCGGGACCGTCTCGACCAGGTACTGGCGGGCATCGAGGCGGCGCGAGCCGCCGGCTTCAGCCGGATCAAGCTCAACAGCGTGGTGCAGAAGGGGCGCAACGACGACGAAGTGCAGGATCTCGTCGCCTTCGCCGTGGAAAAGGGCCTGGACATCAGTTTCATCGAAGAAATGCCGCTGGGCTCGGTATCCAGCCACGAACGCAAGACCACCCTGTGCACCAGCGACGAGGTTCGCGCGCTGGTGGAGCAACGCTTCCAACTGCTCCCCAGCAGTCATCGTACCGGTGGCCCGTCGCGCTACTGGCAGGTTCTGGGCAGCGACACCCAGGTCGGCTTCATCTCGCCCCACAGCCGCAATTTCTGCGGCGATTGCAACCGCGTGCGGGTCACCGCCGAAGGCAAACTAGTGCTTTGCCTCGGGCATGAGGGCGCTCTCGATCTCAAGCGCCTGCTGCGCCGCCATCCGGGCGACAGCGAACGGTTGCGTGCCGCGCTGATCGACGCGCTGCGGCTGAAGCCGGAGCGCCATCACTTCTCCGCCGACGAGCAGGTGCAGGTGGTGAGGTTCATGAGCATGACCGGCGGCTGA	MSDIHLIDPFGRRISYLRLSVTDRCDFRCTYCMSEDMVFAPRAQILSLEELYAVADAFIGLGVRRIRVTGGEPLVRKGLLGLLGQLGARAELDDLAITTNGSQLGHMAADLRRAGVRRLNISLDSLRRDRFAAFTRRDRLDQVLAGIEAARAAGFSRIKLNSVVQKGRNDDEVQDLVAFAVEKGLDISFIEEMPLGSVSSHERKTTLCTSDEVRALVEQRFQLLPSSHRTGGPSRYWQVLGSDTQVGFISPHSRNFCGDCNRVRVTAEGKLVLCLGHEGALDLKRLLRRHPGDSERLRAALIDALRLKPERHHFSADEQVQVVRFMSMTGG	PGPT0008410_2717	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008410-moaA-K03639	NA	NA
BMS010_08022	828			hypothetical protein	GTGACGCCCAAGGCACTCTGCAGTCTGTTCATTCTTTCCCTGGCGGCCGGCCATGCGGCGGCGCAGACCTACGTGGTCGGCGTCGAGCAGGCGGCGTTCGCGCCGCATTACCAGGTCGATGCGCACGGGGAATACCAGGGGTTCGCCCGCGAGCTGCTCGACCTGTTCGCCCGCGACAGCGGCGTGCAGGTGATCTATCGGCCGCTGCCGGTGGCCGACCTGCAACAGGCCTTGCTGGACGGAAGCATCGACCTCAAGTACCCGGACAGCCCTGAGTGGGCCGGCCCCGCCAAGGCCGGTCGCGCCCTGTACTACAGCCAACCGGTGGTGCACTACGTGGACGGCGTGCTGGTGGCGCCCCGGCGGGTGGGGCAGGGTGTCGATACGCTCGAGCGCCTGGCCCTGGTGGAGGGCTGGACGCCCGCCGCCTATCGCGAGCGCATCGCCAGCGGGCAGACCGTCCTGGTGCACAGCGCCGACCTGCGCCAGATGATCCGCCAGGCTCTGCGCAAGGACAGCGACGGCGCCTACTACAACGTGGTGGTGGCCACGCACTACCTCGACCATATCCGGGCCCGGCCTGGCGCGTTGGTCTTCGACCCCGCGCTGCCGCATACCCGGGGCAGCTTTCATCTCGTCAGCACGCGCCATCCAGCGCTGATCGAGCGTTTCGACCGCTTCCTGGCCGAGCGCCACGACGCCATCGCCACCCTCAAGCAGGCGCACGGTGTGGAGGCCAACCTGGACTCGGAATTCCTTGGTATGGAGCAGTGGAAAATCGACTTCCTCAAACGGCAGCAGGCCAGGCAGGCGACCGGCACGCCGTGA	MTPKALCSLFILSLAAGHAAAQTYVVGVEQAAFAPHYQVDAHGEYQGFARELLDLFARDSGVQVIYRPLPVADLQQALLDGSIDLKYPDSPEWAGPAKAGRALYYSQPVVHYVDGVLVAPRRVGQGVDTLERLALVEGWTPAAYRERIASGQTVLVHSADLRQMIRQALRKDSDGAYYNVVVATHYLDHIRARPGALVFDPALPHTRGSFHLVSTRHPALIERFDRFLAERHDAIATLKQAHGVEANLDSEFLGMEQWKIDFLKRQQARQATGTP	PGPT0000665_1088	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMINE_TRANSPORT,PGPT0000665-glnH-K10036	NA	NA
BMS010_08023	597			hypothetical protein	ATGAGCCATGTGATGAAGTGCGCGGCCGCGTTCGTGGTGGTGTGCCTGCTTGCAGCCTGCAGCATGGGCAGCGACCTCGGCGAGGATGAACGCGGTTTGCTGCTGACGGAGCAGGACTTCCGGGATTTCGGCGTAACGCTGACGCTTGCCCGCCCCGGGCGTTTCCATAAGACGATGACCTACGCCGGCCAGGGAGTGGAACTGTCCTACGAGCAATCGGGGGCCGGCGACTTCTACCTGATCAACAGCTTCAACCGGCATTTCACCGCCCAGTCGTCGCTGGGCGATGCCACGGGCTGGGAGCTGGGTTTCGCGCTCGGGCGACAGCTCAGCGAGCTGGAGAGGACGCCGATCGAACTGACCCATCGCTATGGCGAGGGGGCGCGGCTTTACCTGCTGACCATCCACGGTCGCCCTGTCGGCAACATGTTTTCCTTCTGGGATGGCCGCAAGACCTACATGGCGCTCTTCACCGGCGTCTATTTCCAGGACCCGGACCTGTTCGACGCTTTCATCCGCGACAAGGTTGCACGCATGCAGGCTTACGAGCCACCTTCGGTGCTCGCCTACTTCCATGATCTGACCGGGAGCGAGTGA	MSHVMKCAAAFVVVCLLAACSMGSDLGEDERGLLLTEQDFRDFGVTLTLARPGRFHKTMTYAGQGVELSYEQSGAGDFYLINSFNRHFTAQSSLGDATGWELGFALGRQLSELERTPIELTHRYGEGARLYLLTIHGRPVGNMFSFWDGRKTYMALFTGVYFQDPDLFDAFIRDKVARMQAYEPPSVLAYFHDLTGSE				NA	NA	NA	NA	NA
BMS010_08024	450			hypothetical protein	ATGGACAACAAAGACGTGATTTCGGTACTCAACGACCTGATCGAAACCTGCAAGGACGGCGAGAAAGGCTTCCGTGAGTGCGCCGAAGGGATCAAGAGCACCCAGCTGAAAAGCACTTTCAGCCAGCGTGCCCTGGGTTGCGCCGAGGCGGCGCGCGAACTGCAGGAGATGGTTCGTTCGCTGGGCGGCGAACCCGAAACCAGTTCGAGCATCGCCGGCAACCTGCACCGGCGCTGGGTCGACCTGAAATCCATGATCACCGGCAAGAGCGACGAAGCCATTCTCAACGAATGCGAACGTGGCGAGGACGTGGCGCTGAAGGCCTACCGCGAAGCGCTGGAGAAAGACCTGCCGGCCAACGTGCGCCTGCTGGTGGAAAAACAGTGCCAGGGCGTTCAGCGCAACCATGACGAGGTCAAGGCCCTGCGCAACCTGGCCCGCGCCAGCTGA	MDNKDVISVLNDLIETCKDGEKGFRECAEGIKSTQLKSTFSQRALGCAEAARELQEMVRSLGGEPETSSSIAGNLHRRWVDLKSMITGKSDEAILNECERGEDVALKAYREALEKDLPANVRLLVEKQCQGVQRNHDEVKALRNLARAS				NA	NA	NA	NA	NA
BMS010_08025	1347			hypothetical protein	ATGCCCGCATTCCCTTTCTTCCGCGCCTTGGGCGCACTCTGCCTGACCGCTCCGTTCGCGGCCACCGCCGCGGATTTCGTCGTCGACAAGACCAGCGACAGTTTCGACCCCGGCTGTACCACGGCCTGTTCGCTGCGTGAAACGCTCTACCGGGCCAACGCCATGCCCGGTTCGCACCGCGTCATCCTGCGCGAGGCCACCTACAGCCTGACCTTGCCCGACCCCGTCTGGAATCCCGACGAAGACCCCGACCCCGACGAGGACGACGGTGTGCGGGGCGATCTGGATATCCGGGGCGATATCACCCTGGTCGGCGCGTCGCAGGATGGTTCGGTCATCCAGGGCAGCACCGAGCGACTGATCGAAGTGCTGCCGGACGCGCGGCTGCAGCTGCGCCGGTTGACCCTGCGTGACGGCCTGGCCGATACCTACGGTGGGGCCGTCCGCAACGACGGGGAAACCGTGGTGCACCGGGTCAGCTTCCTGAACAACCGTGCCGATGCCGGCATCCAGGGGCAGGGCGGGGCTATCGCCAACTTCGCCAGCCTGAGCGTCAGCCACGCCCTGTTCGAGGGCAACAACTCCAACGGCGACGAGGGCTTCTTCGGTCGCGGCGGCGCGATTTTCAACCGGGGCGACCTGCTGCTGCGCGACAGCACCCTGCGCCGCAACAGCGTGACCGACAGCGATGGGGACTACGGCCAGGGTGGCGCGCTGTACAACGAAGGCGTCGCCGACGTGGCCCGCACCACCTTCGTCGACAACGCGGCGGGCGTGCCCCTGTTCGGAGGGGGCGGCAGCGCCATCGCCAACCGCGCCGGCGGCCGACTGTTGCTGACCAACAGCACCCTCAGCGGCAACCAAGGCATCGAAACCAACGGGGTGCTGACCAATGGCTTCGCCCGTTTCGCCGAGGATGCCAATGTCCAGGCGCGCCTGGTCAACGTGACCATCGCCGGCAACGACGGGCTGGGCGTGAGCAACAGCGGCAACCTGCTGATCCGCAACAGCCTGGTCGCCGGCAACCGGCTCGGCGGATCGCCGGCCAACTGCGCGACCCTCGGCACCTACCGGGCCATCGGGCTGCTGCTGGGCGCCGATACCGGCAACTGTACCGCCGACGTGCTGGTGGACGATGCACTGACGTTCCGCAAGGTGCTGCACGTGCTGTCGAACAACAAAGGCACGACGCAGACCCATGCGCTGCGCAAGGGCAGCCCGGCACTGGATGCCGGCATCGGCAGTTGCACCCGCCACGACCAGCGCGGCGTACCCCGCCCGCAGGATGGCGATGGAGATGGGGTGGCAGTGTGCGACCTGGGCGCCTACGAGCGTATCCGCCCCTGA	MPAFPFFRALGALCLTAPFAATAADFVVDKTSDSFDPGCTTACSLRETLYRANAMPGSHRVILREATYSLTLPDPVWNPDEDPDPDEDDGVRGDLDIRGDITLVGASQDGSVIQGSTERLIEVLPDARLQLRRLTLRDGLADTYGGAVRNDGETVVHRVSFLNNRADAGIQGQGGAIANFASLSVSHALFEGNNSNGDEGFFGRGGAIFNRGDLLLRDSTLRRNSVTDSDGDYGQGGALYNEGVADVARTTFVDNAAGVPLFGGGGSAIANRAGGRLLLTNSTLSGNQGIETNGVLTNGFARFAEDANVQARLVNVTIAGNDGLGVSNSGNLLIRNSLVAGNRLGGSPANCATLGTYRAIGLLLGADTGNCTADVLVDDALTFRKVLHVLSNNKGTTQTHALRKGSPALDAGIGSCTRHDQRGVPRPQDGDGDGVAVCDLGAYERIRP				NA	NA	NA	NA	NA
BMS010_08026	1944	pknD_5		Serine/threonine-protein kinase PknD	ATGGACGTGAGATTACCCGAGATACCCGGCTATATCGTGCATAGCCGGTTGGGCACTGGGGGGATGGCCGAAGTCTTCCTGGCGACCCAGGAGTCGCTGCATCGCAAAGTGGCGGTCAAGGTGCTGCTCAGCGCCAACGACGAAGCGTTCAACAAGCGTTTCATCCGCGAGGGCCACATCGTCGCCTCGCTGCATCACCCCTCGATCATCACCATCCACGACATCGACAAACTGGCCGATGGCCGCTATTACCTGGCCATGGAATACGTGGGCGGCGGCGACCTGTCCCAGCGCAAGGGGGAAATCTTCCATCCGAAGCGGGCGCTGGACATCGTCCGCCAGATCGCCACCGGGCTCGCCGTGGTGCATGAGCACGGCATGATCCACCGCGACGTCAAGCCGGCGAACATCCTCTTCCGCGACGACGGCTCGGTGGTGATCACCGATTTCGGCATCGCCAAGGCGCTGGAAATGGACAGCGAGCTGACTGGTATCGGCATCGCCATCGGCAGCCCGGCCTACAGCAGTCCCGAGCAGACCCAGTGCCTGCCCCTGGATGCGCGCACCGACATCTACAGCCTGGGCGTGGTGCTCCAGGAAATGCTCACCGGGGTCAATCCGTTCCGCGGCCCCAGCTACACCCAGACGGTCATGAACCACGTGCAGATGGAGCCGCCGCCCTTGCCGATCCATCTGGTCGCCTACCAGCCGCTGCTCGACCGCATGCTGGCGAAGCGCCCCGATGAACGCTTCACCAGTTGCCGCGCGTTGTTGCAGGCGTTGGATGAGCTGGCGAATGTCGATGTGGACGCGACCCGTTTCGTTCCGCTGCCCAATACACCACCCATGCCGGCTGTCGTGACGCCTGTCGTGGAGCCGGTACCAGAGCCGGAGCCGGAACGTATCGCCGGGCCTGAGCCCGAACCGGAAGCCGTAGCGGAGCCCGCGCCGGAGTTCGAGCCAGAGGCCATTGCCGAACCGGAGCGAGAGCCGGAACCTGAAATCGAGCCCGAGCCCGAGCCCGAGCCCGAGCCCGAGCCCGAGCCGGTGGTTGCATTCGAGCCGATAGTCGAATCGGCCGAGCCGGAAGCGGAGCCCGAAGCCATCGTTCCTTCGGCGGAGCCGGAAGAGGCACCGTGGCGGATGCCGGAGGTCGAGGCGGCGGAATCGGCACCTCCGCCCGATCTGGAGCCGACCTGGGGACTCGAGCCTGAGCCAGGGCCAGCGTCCGAACCCGAACCTTTGCCCGTCGCCCGGAGCGAACGCCACCGCCGTCCGGTCATGTTCTGGCTGGCCTGGGCGCTTGGCGGATTATTGCTGGTCGCCGGAGCGAGCAGTGCCGGACTCTACGTGCATCAACGGATGAAGATCGCCGACCTGCTGGAGCAGGGCGAGCAGCGACTGGCCGTCGGCCGCCTGGTAGAGCCCTCGGAAGACAACGCCGAACACTTCTTCCGCCAGGTCCTGCTGATCGACGAAGGCAATCAGGAGGCCGAGCAAGGGTTGCAGCGGGTGCGGCAGGCCCGCATCGACGGCTACCTGCGCCTGGCCGAGCAGCGCTTCGTCGAAGAACACTGGTTGGCTCCCGACGACGACAGTGCGGTCTTCTATTTCCGCCAGGCCTTGGCGCTCGACCCGGCCCAGCCCCAGGCGCTGGATGGCCTGAACCGGGTAGCGCTGGTCTATGGCAGGCTCAGCGAGGAAGCCTATCGACGGCGCGACTACGACCTGGCGCGGGCTTACATCAAGCACGGCCTGGAGGCGCGGCCGGACAGCCCCGATCTGCTCAAACTGTGGGATAGCCACGAGCAACGCATGCGCCGGGGGCAGGCGGCGGCGCGGCCGGAGGTCGAGCCCGCTTCTCCAGCCGAGCCGGAGGTGTCGAGCGAGCCGGAGGCGCCGAAACCGAACGCCTTCAAACGCTTCTGGAACAGCATTTTCTAG	MDVRLPEIPGYIVHSRLGTGGMAEVFLATQESLHRKVAVKVLLSANDEAFNKRFIREGHIVASLHHPSIITIHDIDKLADGRYYLAMEYVGGGDLSQRKGEIFHPKRALDIVRQIATGLAVVHEHGMIHRDVKPANILFRDDGSVVITDFGIAKALEMDSELTGIGIAIGSPAYSSPEQTQCLPLDARTDIYSLGVVLQEMLTGVNPFRGPSYTQTVMNHVQMEPPPLPIHLVAYQPLLDRMLAKRPDERFTSCRALLQALDELANVDVDATRFVPLPNTPPMPAVVTPVVEPVPEPEPERIAGPEPEPEAVAEPAPEFEPEAIAEPEREPEPEIEPEPEPEPEPEPEPVVAFEPIVESAEPEAEPEAIVPSAEPEEAPWRMPEVEAAESAPPPDLEPTWGLEPEPGPASEPEPLPVARSERHRRPVMFWLAWALGGLLLVAGASSAGLYVHQRMKIADLLEQGEQRLAVGRLVEPSEDNAEHFFRQVLLIDEGNQEAEQGLQRVRQARIDGYLRLAEQRFVEEHWLAPDDDSAVFYFRQALALDPAQPQALDGLNRVALVYGRLSEEAYRRRDYDLARAYIKHGLEARPDSPDLLKLWDSHEQRMRRGQAAARPEVEPASPAEPEVSSEPEAPKPNAFKRFWNSIF	PGPT0025905_238	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_REGULATION,PGPT0025905-ppkA-K11912	NA	NA
BMS010_08027	522			hypothetical protein	ATGACTGCCAGAGCGCACGAACCCTCCCACCTCGACGACGAAACCCTGGACTTCGCCACCCGCGTGTTCGATTACGCCCGCAGCGGGGACAGCGAGGCGCTGGTCACGTTGCTGGAACAGGGCCTGCCGCCGGACCTGCGCAACCACCGCGGCGACAGCCTGCTCATGCTGGCCAGCTATCACGGCCATCTGCAGGCCAGCCGGATATTGCTGGCCCACGGTGCCGACCCGGACCTGCGCAACCAGAGCGGACAGACGCCCCTGGCCGGCGCGGCGTTCAAGGGCGACCTGCCGATGATCCAGTTGCTGCTAGAGCACGGCGCCGAAGTGGACGGCACGACGCCGGATGGCAAGACGGCGCTGGCGATCGCCGCCCTCTTCGACCGGGTCGAGGCGATCGACCTGCTGCTGGCGCATGGCGCCGATCCGCAGCATCGCGATGCCAACGGCCTCACGCCGCTGGACGCCGCCCAGCGCATGGGCGCCCTCAAGGCTGCAGAGCGCCTGCTATATGCCAGTTAA	MTARAHEPSHLDDETLDFATRVFDYARSGDSEALVTLLEQGLPPDLRNHRGDSLLMLASYHGHLQASRILLAHGADPDLRNQSGQTPLAGAAFKGDLPMIQLLLEHGAEVDGTTPDGKTALAIAALFDRVEAIDLLLAHGADPQHRDANGLTPLDAAQRMGALKAAERLLYAS				NA	NA	NA	NA	NA
BMS010_08028	198			hypothetical protein	ATGAGCCGTAGCGACTTTCACCATGAACACGCCGAGCGGGCCCATGCCGAGGCCGTGCGTCTGCTGGCGCAGCGCGAAGCCCTCGGTGGGCGCTGGCTGGCCTGGGTCGCCACGGAGCTGTACCGGCTGAGTCCAGCGGAGTATGTCGCCATGGTACGCCGCGAGCTAGAGCGGCTGGCCGTACAATCGAGTGACTAA	MSRSDFHHEHAERAHAEAVRLLAQREALGGRWLAWVATELYRLSPAEYVAMVRRELERLAVQSSD				NA	NA	NA	NA	NA
BMS010_08029	618			hypothetical protein	ATGTATCACGGGGAACGTTTCAACGCCTGGACCCATCTGGTCGGCGCCGTGCTGGCGACGATCGGCGCGGTATGGCTGCTGGTGCTGGCCGGTCTCGGCGGCGACCCGCGCAAGATCGTCGGCGTCGCCATCTACGGTTTTTCGCTGGTGGTGCTGTACAGCATCTCGACGCTGTACCACAGCCTTCGCGGAAGGGCCAAGGTGGTCCTGCGCAAGCTCGACCACCTGTCCATCTACCTGATGATCGCCGGCAGCTACACACCGTTCTGCCTGGTGACCTTGCAGGGTGCCTGGGGCTGGACGCTGTTCGGCATCGTCTGGGGCCTGGCGGTGATCGGGATGCTGCAGGAAATCAAGCCGCGCTCGGAGGCGCGCATCCTCTCCATCGTGATCTACGCGGTGATGGGCTGGATCGTACTGATCGCCGTCGAGCCGCTGATCGACGCCCTGGGCACCCCCGGCTTCCTCTGGTTGGCCAGTGGCGGCGTGGCCTACACCGTGGGCATCCTGTTCTTCGCCTACGACAGCCGTTTCCGCCACTGGCACGGTATCTGGCACCTGTTCGTCATCGCCGGCAGCCTGCTGCACTTCGTGGCGGTGTGGCGCTATGTCCTCTAG	MYHGERFNAWTHLVGAVLATIGAVWLLVLAGLGGDPRKIVGVAIYGFSLVVLYSISTLYHSLRGRAKVVLRKLDHLSIYLMIAGSYTPFCLVTLQGAWGWTLFGIVWGLAVIGMLQEIKPRSEARILSIVIYAVMGWIVLIAVEPLIDALGTPGFLWLASGGVAYTVGILFFAYDSRFRHWHGIWHLFVIAGSLLHFVAVWRYVL				NA	NA	NA	NA	NA
BMS010_08030	336			hypothetical protein	ATGGCCATCACATCCGCCGATATCTGCGCCGCCGCCGACCGCCTCAAGGGATTCGTCGGTTTCAACCGCAAGACCGGCAAGTACATCATCCGCTTCAGCGAGGACTCGTTCGGCATGGACGTCGACGAAGACAGCATCGCCCTGGCCTGCGAGTTCGTCTGGTGCCCGGCGGAGGGCGACGTGGCGCGTCTCAGCCGCGAGCGGATTCGCCTGTTGCTGGAGCAGAACATCAACGACCGCCTGGACCTCGGCGAACCGCTGCTCACTTACCTGCGCCGCGAAGACCTGCCGGAGATTCTCGCCCGCCGCCAGGTGCTCCAGGCGGATGCCGGTTGA	MAITSADICAAADRLKGFVGFNRKTGKYIIRFSEDSFGMDVDEDSIALACEFVWCPAEGDVARLSRERIRLLLEQNINDRLDLGEPLLTYLRREDLPEILARRQVLQADAG				NA	NA	NA	NA	NA
BMS010_08031	402			hypothetical protein	ATGGTGACCGATATTTTCGTCAACCTGCCCGTCAGGGACCTGCAGCAGTCCATCGCGTTCTTCACCCGCCTGGGCTTTACCTTCAATCCCGAATACACCGACGAGACCGCCACCTGCATGATCGTGGCCGAGCACATCTACGTGATGTTGCTGGTGGAAGAGAAATTCCAGGGCTTCACGCCGAAGCCGTTGTGTGATGCGCGGAAAGCTACCGAAGTGCTGGTGTGCCTGTCGCTGCCGGACCGTGCCGAGGTCGATGGCATGGTGGAAAAAGCCGTGGCGGCCGGAGGACGTACCTACCACGAGCCGCAGGACCACGGATTCATGTACCAGCATGGTTTCGAGGACCTGGACGGCCACATCTGGGAACTGGTTGCGATGGCGCAGGCAGCGGAACAGTGA	MVTDIFVNLPVRDLQQSIAFFTRLGFTFNPEYTDETATCMIVAEHIYVMLLVEEKFQGFTPKPLCDARKATEVLVCLSLPDRAEVDGMVEKAVAAGGRTYHEPQDHGFMYQHGFEDLDGHIWELVAMAQAAEQ	PGPT0028555_1515	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-FOSFOMYCIN_RESISTANCE,PGPT0028555-putative_fosB-K07032	NA	NA
BMS010_08032	261			hypothetical protein	ATGAGCACGATGCACTGCACCTACCGCGACTACATCATCACTGCCGAGGTCCTGCAGTATGCGGGCGGCCCGACGCCCTGGGCCGGCGGATGCCGCATCACCGATACCGAGGGGCGGACCACGCGACGCTTCCCGTTGCCCCTGGACCACGCCTTCCTGGCCGACCTGGAAAAAGCCCAGCACGCCTCCATCGCTCACGGAAAATGGCTGGTCGACCAGTGCCTCGACCATGGCAGGGCGCTATACGCCCAGGCGGCATGA	MSTMHCTYRDYIITAEVLQYAGGPTPWAGGCRITDTEGRTTRRFPLPLDHAFLADLEKAQHASIAHGKWLVDQCLDHGRALYAQAA				NA	NA	NA	NA	NA
BMS010_08033	1122			hypothetical protein	ATGAAGTCGGAAAGTCAGATCCTCTATTTTTGCCACGGCGATCAACGCAACCATCGCCTCGAAACCAAGTTTTCCATTCTCACCGCATTGGCGCGCCTGGGACGGGAGCGCAGCTCCATTCCCATCCGGGTGATGACGGACGTGCCCCGGCATTTCTCCGGCTGGCCGGTCGAAATCGTTTCGCTGTCCCGTGAGGTCCTGGACAGGTGGCTGGGGGAGGGGCGATGCATCTATCGGCGCAAGGCCTGTGTCATGGAAATGGGCTTGGAATACGCCGAGAAGACGCTGTTCATGGACACGGACACGTTTTTCCTCGCCGACCCATCGACCTTGCTGGCCAATATCGACCATGACACCTGCGTGGTGGATGAAATCCGGCATACCTGGGGCGAAGCCATGCACCTGCCCGAATATGCCGGCCTGGTCGCGGGACTCGTTACCCAGGGGGGCATGCCGGCGCATGATCTCAGGTTGTGCGCGTCCGGCGTCTACGGCCTGGCCGCCAGCAACCGCCCCTTGGTACGGGATGCCATCCGCCGCCTGGATCGCTGGCAGAGCTTCGGCATCGCCGACAGCGTGGTCGGGCAGATCGCCCTGTCCTTTTCGCTCTACTGCAAGACCCTGATCGAGGCGAAGAAAAGCATTCGCCACTATTCCGCGTCGAAGCGCTTCTTCCACGAAATGATCTCGGTGTTCTTCGAGATGTACGGCGAGCGGTACACGCCGGAACTCATCGACCTCTGCCTGGACGTCCCCACCGAAAAACCCCGCCCATCGCCCCTCGACAAGCTCCAGGCCAAGTGGAAGCTGCGTACCCTGCAAGAGCCCTTGCGCGAGGTCGGGCGCAGCCTGGCCTTCGGCTGCGCCATGCCGGACAACCCCTATGCCCTGGCCTGCAAACGCACCTGGTGGAGCGATGCCCTGGAACTCCTGCGCTCCCGGAACGCCCCGGAGCTGGCGGCATTCCAGCAGGGACGCTGGCCGAACAGCCTTGCACTGTCGCTGACACCGGAGGAGAAGGAGGAAATCACCGAATTCTTCCAGGCGAAGCTCGCGCCTGCGCGGTTTATTTCTCTTACTATCGATGGGCCTCATTCGGAACAGCGATGTGTTCCCCAATGA	MKSESQILYFCHGDQRNHRLETKFSILTALARLGRERSSIPIRVMTDVPRHFSGWPVEIVSLSREVLDRWLGEGRCIYRRKACVMEMGLEYAEKTLFMDTDTFFLADPSTLLANIDHDTCVVDEIRHTWGEAMHLPEYAGLVAGLVTQGGMPAHDLRLCASGVYGLAASNRPLVRDAIRRLDRWQSFGIADSVVGQIALSFSLYCKTLIEAKKSIRHYSASKRFFHEMISVFFEMYGERYTPELIDLCLDVPTEKPRPSPLDKLQAKWKLRTLQEPLREVGRSLAFGCAMPDNPYALACKRTWWSDALELLRSRNAPELAAFQQGRWPNSLALSLTPEEKEEITEFFQAKLAPARFISLTIDGPHSEQRCVPQ				NA	NA	NA	NA	NA
BMS010_08034	1662			hypothetical protein	ATGAAGGACAAGAGAACGCTGCTGTTGATGAGTGTCTTGCTGGCCTTGCTGGGTGTTTATCTACTCAAGTCGCCAATCGAAAACTACCTTGCGGACCAGCCGCCCCAGCCAGAGTCCCCTGCATCTCAAGAGCAATTGCTGCCAGGGGAAAATGAAATCCGAAAAATCGACGTCGCTCAGGGAGACGATGGCTACTTCTATGCCACGGTCCATTATTTTTTCCGTGGCGATCTTTCCAATCCCAAGATCAGGGTCATGGCTGATAGCCCGGATGTCGATGCGAGCAGGTTCTGGAACAGTGAACAGCTTGTTGATATTCAAAAAGGGGAAAACAGCGTACGGCTGGAGGTCTTGAGACCCGCGACGCCATACAAGGAATTCACCAGCAAGAAGATCGTCGTGTCGATGAACAGCGGTTTCGCTGCTGCGCAAACGACCAAAGAAATCGATTTCCCAATTGAATGGACGGACTCGTCCACCTACATGCGAAATCGCGAATTCGCGAAAAAGACCATCGATGAGTTATATGCCGAAGCAGTCGAACTGATCGATCTTGCGGACGCCAGGACATTCCAGACCGCCAAGAAAAACTTGGAGAGAGTCCTGATCAAGGACCCACAATACATCGATGCCTACCCGGAGCTCGCCCGGTTCTCGATGAAAAACAACTGGGGACCGGAGGGTTTGAAGCAAGCCGAAACCTACTTGATCAGCGGACTGAAGCTGAATGGCAACCATGCGAACTCGCATGTCCTTCTCGGATATGTCTATGTCCACCAGCGCCGCTTCGACGAAGCGAAAGCAGAGTTCGAAACCGCTGAGAAAATAGGTACGAAGAATCTCTGGCTCTGGGCAAACTGGGGCGAACTCCACGCTATGCAGGGTGAGTCCCAGAAGGCGATTGACATGTATCTGCGGGCCACAGACACACCGCGCCCATACGACACCTATGATAGGGCTAGGCTGGATGCCTACTTGAAACTATTCAGACTACTGACCTCTCCGGAGCAACTTGCAAAGGCAGATGAACTGTATCGAAAACGTGCAGATGAGTATCCGAGCATTCCTTGCTTCCGCACCGATTACGCTGCGTTCAGGCTAGAGAGGTTTGATGATTACCAGGGTGCGATAGCTGAAAGCCGCAAGGCTATCGACAATGGTTGCGAGTCACCACGCTCCCGTCAGGTGATGGGTCTTGCCAATTATGTCGCCTGGTCCAATACCCTGGACGAGCAACGGGAAGCGTATCTCTCGCAGGCACAGTTGTTCTTTCCTGAATCGCCACGACTCATTTATCAGTTGGCTAGAAGCCAAACTACCAACAAGGCCATCGGCGAATTGAAAAAACGCGCCGTCAGTATCGACTCGAAAGACAACGAAAACTTTACTGCGCTCGCCTACGCCCTGATCGAAAACGATGTGGCCTCGGCCCGCCGACTGATCGAGCTTGGCGCAGATCCAATGAGCCATGTTGGAGATGAGGACTATCCCGTAGCGATGGCTCCCATCTTTTATCAGCACAAGGAAGGCGTGCAGTTGATGCTGGAGTCAGGCGTCGATTTAAGTGCCGTGAAGTACAGGGGCATTTCTGCTTTGGGTTATGCAGAACAACTGCAGAACCCTGAGATCATTCATTTGATCAAGAGCAAGCTGAAAATCTGA	MKDKRTLLLMSVLLALLGVYLLKSPIENYLADQPPQPESPASQEQLLPGENEIRKIDVAQGDDGYFYATVHYFFRGDLSNPKIRVMADSPDVDASRFWNSEQLVDIQKGENSVRLEVLRPATPYKEFTSKKIVVSMNSGFAAAQTTKEIDFPIEWTDSSTYMRNREFAKKTIDELYAEAVELIDLADARTFQTAKKNLERVLIKDPQYIDAYPELARFSMKNNWGPEGLKQAETYLISGLKLNGNHANSHVLLGYVYVHQRRFDEAKAEFETAEKIGTKNLWLWANWGELHAMQGESQKAIDMYLRATDTPRPYDTYDRARLDAYLKLFRLLTSPEQLAKADELYRKRADEYPSIPCFRTDYAAFRLERFDDYQGAIAESRKAIDNGCESPRSRQVMGLANYVAWSNTLDEQREAYLSQAQLFFPESPRLIYQLARSQTTNKAIGELKKRAVSIDSKDNENFTALAYALIENDVASARRLIELGADPMSHVGDEDYPVAMAPIFYQHKEGVQLMLESGVDLSAVKYRGISALGYAEQLQNPEIIHLIKSKLKI				NA	NA	NA	NA	NA
BMS010_08035	282	ppiC_2	COG0760	Peptidyl-prolyl cis-trans isomerase C	ATGGCCCGCGCCACTGCCCGTCACATCCTGGTTTCCAGCGAAGCCAAGTGCAACGAACTGAAAGCCGCCATCGAAGCCGGCGCCGACTTCGCCCAGGTCGCCCGCGAACACTCCACCTGCCCCTCCAGCCGCAACGGCGGCGACCTCGGCTCGTTCGGCCCGGGCCAAATGGTCAAGGAATTCGACACCGTGGTATTCAGCGCCCCGCTGAACGTCGTCCAGGGCCCGGTCAAGACCCAGTTCGGCTACCACCTGCTGGAAGTGACCAGCCGGCAGGATTGA	MARATARHILVSSEAKCNELKAAIEAGADFAQVAREHSTCPSSRNGGDLGSFGPGQMVKEFDTVVFSAPLNVVQGPVKTQFGYHLLEVTSRQD	PGPT0000050_2195	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000050-nifM-K03769	NA	NA
BMS010_08036	1137			hypothetical protein	GTGGGCACACTATCCGTCGACGTTTTCAACTATGTGCAGCGTTTTGCCTGTCTGGTGGATCGCTGCGAAGACACCTGCTGCAAGGATTGGCGCATTTCCGTCAGCGAGCGCGACCGGGGCCTGTTCGGCCAGGCGCTGCCGCTCTACGAGAACCTGATCGTCAAGGATTCGGATGGCTACCAGATCGCCAAGGGGCCCGACGGCCACTGTGTCGCCCTGACAGGTGGAGCCTGCAAGGTACATGCGCAGCACGGCGAGAAGGCTCTTTCCAACATCTGCGCCAACTTCCCGCGCATGTTCCGCCTGATCAACGGTTCGCTGGTGAAGGCCGCGAGCATGGGCTGTCCCGAAGTCGCGCGCCTGTGCCTCTACGGTGAGGACCCATTCCGCCTGGAAGAGGCCCAGCAGGACGATTTTCATCTCGGCGATGTGCGCGACCAGTCGTTCGAAGACTTGCAGGCCACCGATCGACGCGCAGTGGTGAAAGCGCTTCTGGACCTGGTGCTGGAGTCCGGGACGACCACCAGCCAGGCGCTGGTACGTGTATTCACCCTGGCCGAGCGTCTGGAGCCTTTGCCTCATTCCCAGTGGGCCGGGGCGATTCCCCGTCTGGTGGCCGAAGCCGGTTCGCTGGCGATCCCGGTCGAGCCGCTCGCCGCCGATCCGCTGCTTGAAGTGCTGGCAGAGGCCATTCAGCAGCCCAAGGTGGCGGAAACCTTGCGCCGTCGAGCCGCTACGCTGTCGTCCGGCGACGCGTACCGCGGCCTTTATCAGGGCGAGGTGCGCAGCGCACTCGATGCGATCCTGAAGCGCTTCATCGCGGCGGAAATGACCCGCATCGGCTTTCCATTCGTGTCCATCACCAGCGCCGGCCAGGACTATGGCCTGAATCTGGTCGAATGGGCCGCGAATCTGGCCGTCCGGACCCTGACTCTGCGCCACCTGCTGTTGGCCCATGTCGACCCGGAAGCGGGAAGGGCGCCGGAGCCCGCCGTCATCGTCGAAGTGGTGTACCGCTTCTGCCGGGCGGTCAGCCACAGCCCGGCCGTCCCGGCGGAAAAGGCGCTGCGTCAGGCCATCGGCGAACGCGGTGCGGGTTATCTGGCTGCTTTGATTGCGCTATTACCGGAGGACTGA	MGTLSVDVFNYVQRFACLVDRCEDTCCKDWRISVSERDRGLFGQALPLYENLIVKDSDGYQIAKGPDGHCVALTGGACKVHAQHGEKALSNICANFPRMFRLINGSLVKAASMGCPEVARLCLYGEDPFRLEEAQQDDFHLGDVRDQSFEDLQATDRRAVVKALLDLVLESGTTTSQALVRVFTLAERLEPLPHSQWAGAIPRLVAEAGSLAIPVEPLAADPLLEVLAEAIQQPKVAETLRRRAATLSSGDAYRGLYQGEVRSALDAILKRFIAAEMTRIGFPFVSITSAGQDYGLNLVEWAANLAVRTLTLRHLLLAHVDPEAGRAPEPAVIVEVVYRFCRAVSHSPAVPAEKALRQAIGERGAGYLAALIALLPED	PGPT0015510_227	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015510-fliB-K18475	NA	NA
BMS010_08037	2436			hypothetical protein	ATGTCGAAGGGCGAATACCAGCAGCGCAAGGCCATTCGCCTCGAACGGCTCCAGCGCTTCCTCGCCTGGGCCTCGGCGACCTACCCGGACTTCGTGGCGAAGAAGAACCACCAAGAACAGTGGTTCACCCCCTATATCGGCTACCCCTATCCGCAGTTCGGCCGTGCCGCCAAGGCCTTCTGGCTGGGGCTGGAGACACCTGCGGTAGACGCGGCCCTGCAGGCGCCGGAGCCGCATAGCCTGCTCTGGCGGGTACTGGCCAACGACCGCAACGACTTCCACTGCACCGTGGACCTGTTTGAGGTGGAGAAGACCTTCGACTGCGGTCCGGTCCAAAGCCTGCTGGACCCGGACTGGGCCCTGGCGCTGGCCGACAGCGACTCTGTCGACGCCTTCGCCGAGCATGTGCGCCAGCAGGTCGAGACGAAAGTGCGGGGCCGGCTGAAGCGCCTCGAACCGGCTCTCCTGGCGCTGCCGGTAGCGGACCGTGCTCGCGTACTGGAGCGGATGCGCCCCGCCCTGGCACGGCTGGACGATTTTCTCGCAGTGGCCGTAGACACCATCAACGAGGTCCGCCATGAGCTGCGCTACGTGGTCGAGCTAAGGCATGGCGATCTTGTCCTGGAGTTGCAGCGGCGCATTCCGTCGGGCCAGGGCCATGTGCTTGGCGAGGAAGAAGTCCGCGAACTGAAGGCCGCCGACCATCGCGCGCTGGAGGATAAGTTCGCCCTGCTGCACGAAGAGGCCGGCGACTTCGACCTGCGCCTGCTCGGGCACCGGCGGCTGATGGAAATCTTCCAGTTGGAGCCGGGCAAGCTGCGTCGGGCGCTGCGCACGGCGATCCGCGATCACCGCGAGAAGATGGCCTTCGCCGAGTTGCTGGCAAGCGATCCGCGCTTCGTGCACTACCACAAGCTCTATCCGGCCCGGCGCCTGACCCGCCAGTGGACCGCCCTGCTCGGCCCGACCAACAGCGGCAAGACGCACCGGGCCATCGAGGCGATGACCAAGGTCACCCATGGCATCTACCTGTCGCCGCTGCGCCTGATGGCGCTGGAGAACCAGGAACGCATCGAAGCCATGGGGGTGCCCTGCTCGCTGGTGACCGGCGAGGAGGAAATCATCCGCGAGGGCGCGACCCACTTCTGCTGCACCGTGGAAGAGTTCGCCCGCTTCCGCCAGCAACATTGGGATGTGGTGGTGATCGACGAAGTGCAGATGCTCGCCGACGACCAGCGCGGCTGGGCCTGGGTCGACGCGCTGGTCAGCGCCTATGCGCCGATGCTGTTGATGACCGGGCCGGCGCTGATCGAGCCCTCGCTGCGCACCCTCTGTGCGCTCTGCGAGGATCGCCTGGAGGTGAAACGCACCAAGCGCCTCTCGCCGGTGGACGTGGCAAGGCACGCCACCACCCTCAAGCACCTGGAGCCCGGTTCCCTGCTGGTGGCCTTCAGCCGGCGCACGGTGCTGGAGCTGAAGGCGCTGCTGGAGATGTCCGGCAAGACGGTCTCGGTGGTCTACGGCGCGCTCTCGCCGGAAGTGCGCCGCGAGCAGGCCCGGCGCTTTCGCGAAGGCGAGGCGGACATCATGGTGGCCACCGACGCGGTGGGCATGGGCCTGAACCTGCCGGCGCATACGCTGTGCTTCTACACCGACGAGAAGTTCGATGGTCTCCAGACCCGCCAGCTCGGCGTGCAGGAGGTCAAGCAGATCGGCGGGCGCGCCGGGCGCTTCGGCCATCACGACCAGGGCTGCATCACCGCGCTGGACCCACAGGTGCTGAAATCGATCCGCCGGCTGTTCAACAGCCCGGACCAGCCCATCGACCTCGCCCAGTTCCAGGTCCGCCCGTCCATCGACCACTTGGCGGCGATCTCCGACCTGATGAACGAGCCCAGCCTGCTGCGCGCCTGGCTGACCTTCAACCGCAACATCAACTATGGCGAATCCTTTATCTCGGTACTGCCGGACGAACTGGCCGAGTGGATCAAGCTGATCGACCTGCCCGACGTCCCGCTGTGGCTGCGCTGGGTCTTCGCCTGCACGCCGACCCGCGGCGGCCTGGACAGCCCGGCCAGCAGCCTGGCCCAGCGCTGGCTGAAACAGGTGGCCCAGGGCGAGGCGATCGAACTGCCGCGGCTGTTCCTCGAAGCCGACCTCGCCAGCCTGGAAAGCACGCTGCACATCATCGAGACCTACCTGCACCTGGCGCGGACGCTGCCGGACCAGTTCCCCGCCCTGGAGCGGGCCGAAGAGCATCGCCACCTGCTCAACGAGGCGATCACCCGTGAGCTGTCACGCCGGCGCAAGCCCCGTCGCGGCGACCACCGGCGCATCGGCGGCGACACGCGCAACTGCGGGAAGTGCGGCCGGCCGATGCCGGTGCTGAGCCGCCAGTTCCGCCTCTGCGAGGGTTGCTGGCGGGAACGTCACTGA	MSKGEYQQRKAIRLERLQRFLAWASATYPDFVAKKNHQEQWFTPYIGYPYPQFGRAAKAFWLGLETPAVDAALQAPEPHSLLWRVLANDRNDFHCTVDLFEVEKTFDCGPVQSLLDPDWALALADSDSVDAFAEHVRQQVETKVRGRLKRLEPALLALPVADRARVLERMRPALARLDDFLAVAVDTINEVRHELRYVVELRHGDLVLELQRRIPSGQGHVLGEEEVRELKAADHRALEDKFALLHEEAGDFDLRLLGHRRLMEIFQLEPGKLRRALRTAIRDHREKMAFAELLASDPRFVHYHKLYPARRLTRQWTALLGPTNSGKTHRAIEAMTKVTHGIYLSPLRLMALENQERIEAMGVPCSLVTGEEEIIREGATHFCCTVEEFARFRQQHWDVVVIDEVQMLADDQRGWAWVDALVSAYAPMLLMTGPALIEPSLRTLCALCEDRLEVKRTKRLSPVDVARHATTLKHLEPGSLLVAFSRRTVLELKALLEMSGKTVSVVYGALSPEVRREQARRFREGEADIMVATDAVGMGLNLPAHTLCFYTDEKFDGLQTRQLGVQEVKQIGGRAGRFGHHDQGCITALDPQVLKSIRRLFNSPDQPIDLAQFQVRPSIDHLAAISDLMNEPSLLRAWLTFNRNINYGESFISVLPDELAEWIKLIDLPDVPLWLRWVFACTPTRGGLDSPASSLAQRWLKQVAQGEAIELPRLFLEADLASLESTLHIIETYLHLARTLPDQFPALERAEEHRHLLNEAITRELSRRRKPRRGDHRRIGGDTRNCGKCGRPMPVLSRQFRLCEGCWRERH				NA	NA	NA	NA	NA
BMS010_08038	1488	cysC_3		Adenylyl-sulfate kinase	ATGCGTCATACCTCCTCCACTCCGGGCCCCTGCCTGCAACCGGCACCCGCGCTGTCGGGCCATCTGCCGGTACTGGTGAGCGGTGCGCCGGACATCGGCACCCAGGTGTTGGCCGAACGCCTGCGCGACGCCGTCGGATCGGGCAGTCCGTCGTTCCACGTCAGCGAGCACCCGCCGCACTGGCTGGCACGCATGAGCGACAGCGGCCCGCAACCGCGGGTGCTGCTGGTGGTGGATGCCCAGCGGGGCATCGATACCGAGGCGTATCGTTTCGGCCTGCTCGCCTCGCAGTTGGGCATCCGTCGGTTGCTGCTGGCGGTGACCGGCATGGAGCGGATGGACTGGCGCGAAGATGTCTTCGCGCGCCTTCGCCACCAGTACCGCGCCTACGCCGAGCGACTGGGGATCGAACAGCTCACCGCCATTCCGCTCAGCCTCGAAGGGGGTGACAACATCGTCGAGCCGTCCGGCAGGCTGCCCTGGTACCAGGGTCCAACGTTGCTGGCTCAGGTGCAGGCCGAGGCGAAGCTGCCGTCCGCCGAGCGGCCGAAGGCCGCCGATGCGCAGCCGCAGGTCGCCGACCAGTTCGCCGCCCACCTGCTCTGGCTGGATGACCAGCCGCTGTATCCGGGGCGTGTCTATCGCCTGCGCCTGAACGACCGCGAGGTGGATGCGCGGGTCAGCGAGATCAAGCACCTGCTCCAGGTCGACACGCTGGAGCGGATGGCGGCCAAACGCTTGCGGCGCGACGACCTGGCCTTCTGCAACCTGGCGCTGGACCAGGCGCTGCCGTTCAATGCCGCGGGCGAGTGCCCGGCCACCGGCACCTTCCGGCTCTACGAGCGCACCCAAGATACCCTGGTGGCGTGCGGCCTGATTGCCTTTGGCCTGCGCCGCGCCACCAACCTCCACCGTCACGCCATGAAGGTGGACAAGGCCAGCCGTGCCGCGGCCAATGCGCAAAAGCCTTGCGTGCTCTGGTTCACCGGCTTGTCCGGCGCGGGGAAATCGACGGTCGCGGATCGGGTGGAACAGCGCCTGCAGGCGGCCGGCAAGCGCACCATGCTGCTGGACGGCGATAACGTGCGCCATGGCCTCAACCGCGACCTCGGCTTCACCGACGAGGACCGGGTGGAGAACATCCGCCGGGTCGGTGAGGTGAGCAAACTGATGGTCGAGGCCGGCCTGATCACCCTGGTCAGCTTCATCTCGCCGTTCCGCAGCGAGCGGCGCATGGTTCGCGAGCTTCTGGAGGACGGCGAGTTCATCGAAATTTTCGTCGACGCCCCGCTGGAAGTCTGCGAAGCCCGCGACCCGAAGGGCCTGTACAAAAAGGCCCGGGCCGGCGCCCTGCCGAACTTCACCGGCATCGACAGCCCCTACGAGCCCCCGCAGGCGCCCGATTTGCGCCTGACCGCCGGCGAGCTGGACGCCGACACCCTGGCCGGGCAGGTGATCGATCTGCTGCGCCGACGCGGGATGCTCTAG	MRHTSSTPGPCLQPAPALSGHLPVLVSGAPDIGTQVLAERLRDAVGSGSPSFHVSEHPPHWLARMSDSGPQPRVLLVVDAQRGIDTEAYRFGLLASQLGIRRLLLAVTGMERMDWREDVFARLRHQYRAYAERLGIEQLTAIPLSLEGGDNIVEPSGRLPWYQGPTLLAQVQAEAKLPSAERPKAADAQPQVADQFAAHLLWLDDQPLYPGRVYRLRLNDREVDARVSEIKHLLQVDTLERMAAKRLRRDDLAFCNLALDQALPFNAAGECPATGTFRLYERTQDTLVACGLIAFGLRRATNLHRHAMKVDKASRAAANAQKPCVLWFTGLSGAGKSTVADRVEQRLQAAGKRTMLLDGDNVRHGLNRDLGFTDEDRVENIRRVGEVSKLMVEAGLITLVSFISPFRSERRMVRELLEDGEFIEIFVDAPLEVCEARDPKGLYKKARAGALPNFTGIDSPYEPPQAPDLRLTAGELDADTLAGQVIDLLRRRGML	PGPT0002395_78	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-INHIBITION_OF_SALICYLIC_ACID|JASMONIC_ACID	ADAPTION_TO_PIS_REGULATION_BY_Nod_FACTORS,PGPT0002395-cysNC-K00955	NA	NA
BMS010_08039	1137			hypothetical protein	ATGAGCGCGGCGAGCAAAGCCGCGACGGCAGACAACCCCGGCTTCAGCGTACCGACCTGGATGCACCTGCTGGGCGGCTGGGTCCACCGCAAGCCGCAGACCTGGATCACCCTCGGTAACCTGGAAACCCGTCTGGTGCAGGACGCCATCGACGATCTGCGGGTCGATCGCCCGGTCTACGTGGCCGGCCTGGCGCGCTCCGGCACCACCATCCTGCTGGAGAAGCTGGCCGCACACCCGTCGGTGGCCAGCCACCGCTACATCGACTTTCCGCCGGTGCTGACGCCCTATTGGTGGAACCGCTGGCTGGCGCTGGTACCCAAGAGCGAGGAAACCGCCCGGGAACGCGCCCACAAGGACGGTATCGAAGTCACCTCGCAAAGCCCCGAGGCGTTCGAGGAAATACTCTGGATGGCGTTCTTCCCCGATACCCACGACCCGACGCACAGCTCGGTGCTCGGCCGCGACGCAACCAATCCAGCCTTCGAACGCTTCTACGACGAGCACCTGCGCAAGCTGCTGGCGGTGCGCGATCGCCAGCGCTACGTGGCCAAAGGTAACTACAACCTGGTGCGCCTGGGTTACCTGCACCGGCTCTATCCCGAGGCGCGCTTCATCCTGGCGATCCGCGAACCGGTCTGGCACATCGCCTCGCTGATGAAGCAACAGAAGCTCTTCGTCGTCGGCGAGACGGCCGAGCCCCGCGCGCTGGAGCATATGCGCCGGGTCGGGCACTACGAGTTCGGCCTGGACCGCCGTCCCATCAACGTCGGCGACGATGCCGCCAGCGCCCGGATCATGGCGCTGTGGGAGGCGGGCCAGGAGGTCGAGGGCTGGGCCCGTTATTGGGCGACGGTGTACCGCCACGTGGCCGACACCCTGGACGCCGACCCGGCGCTGCGCGAGGCCTGCCTGGTGGTGCGCTACGAAGACCTGTGCGCCGCGCCGCAGGAAACCCTGGGCAGGGTGTTCGCGCACAGCCAGTTGGACATCCAGCCGGCGGACCTCGAACGAGCGGCCACGGAACTGCACGCACCGGGCTATTACCGACCGGATTTCAACGAAGAAGAGCGGGCACTGATCGAGGCGATCACTCAGCCGGTCGCCGCCCGTTTCGGCTACGCTCCACGCGGTTGA	MSAASKAATADNPGFSVPTWMHLLGGWVHRKPQTWITLGNLETRLVQDAIDDLRVDRPVYVAGLARSGTTILLEKLAAHPSVASHRYIDFPPVLTPYWWNRWLALVPKSEETARERAHKDGIEVTSQSPEAFEEILWMAFFPDTHDPTHSSVLGRDATNPAFERFYDEHLRKLLAVRDRQRYVAKGNYNLVRLGYLHRLYPEARFILAIREPVWHIASLMKQQKLFVVGETAEPRALEHMRRVGHYEFGLDRRPINVGDDAASARIMALWEAGQEVEGWARYWATVYRHVADTLDADPALREACLVVRYEDLCAAPQETLGRVFAHSQLDIQPADLERAATELHAPGYYRPDFNEEERALIEAITQPVAARFGYAPRG				NA	NA	NA	NA	NA
BMS010_08040	717			hypothetical protein	ATGGGACTACTGGACCTGCCCGCACCACTGTTCGCCGCCCTCGATGACGGCATGGCGCTGGTCTTTCCACCGGCGGCCCGCCTGCTGCTCTGGGCCGCACTGGCCGGCGCCGGAACGCTGCTCCTGTACCGCTGGCTGTCGCCCCAGGCCGCCATCGGCCGGGCCAAGCGCGAGGCCCGCGAGGCGCGCCAGCGGCTGCAAGAATTCGATGGCGAAATTGGCGAGGCCGGCCCGCTGATCCGCGGCCAGTTCCGCGCCGCGTTCAGGCATCTCGGCCTGGTCATCCTGCCGACGCTGATTTCCATGTTGCCCCTGCTCGCCCTGCTGAACTGGATCGACAAGGCCTACAGCTACGACTACCCGGAGGCGAACCAGGCACCCAGCGTCAACGTGGTGCCCGCCCCCTTCTTCGCCGAATGGCTGGGCGATGGCGACACCCCGGTGCTGCGCGTGCGCGCCAGCGGTGCCGACGCCCTGGATATCCCCGTGACGGCGCCGGTGCCGGTGATCGAGCGGCGTCATTGGTGGAACTGGCTGGTGGCCAACCCGCTGGGTTATCTGCCGGACGATTTCGCCGTGCAGCGTGTCGAGATCGGTCTGCCAGAGCGCTCCTACCTGCCCTTCGGGCCACCCTGGATGCGCTCCTGGCTGGCGCTGCTGCTGCCCGGAATGCTGTTCGTCTCGCTGCTCACCTACCGCTGGGCGCGCATCGAATGA	MGLLDLPAPLFAALDDGMALVFPPAARLLLWAALAGAGTLLLYRWLSPQAAIGRAKREAREARQRLQEFDGEIGEAGPLIRGQFRAAFRHLGLVILPTLISMLPLLALLNWIDKAYSYDYPEANQAPSVNVVPAPFFAEWLGDGDTPVLRVRASGADALDIPVTAPVPVIERRHWWNWLVANPLGYLPDDFAVQRVEIGLPERSYLPFGPPWMRSWLALLLPGMLFVSLLTYRWARIE				NA	NA	NA	NA	NA
BMS010_08041	327			hypothetical protein	ATGACCCCTGATACCCAGCGACACGCCAAGCCTTTCGCCCTCGCCGCCGTCGCGCTCTGCGCCACCCTGCCGCTGGCCGCCCACGCCTATGTCGGGCCCGGCGCCGGGCTGGGCCTGCTGGCTGCGCTCTGGGGGTTGCTCGCCGCCGTCGGGGTGGCGGTGCTGTACGTGGTGATGTGGCCGATCCGCCGCATGCGGCGCCGGCGCAAGGCAGAACAGGCCGCCGCGGCGAACGCGTCCCGGGAACCCGCACCCGCGCAGCAAACGGCCAGCGACACCCACCCGGCCCCCGCACGGCGCAGCGAGACCGAATCGATGCGCCCCTGA	MTPDTQRHAKPFALAAVALCATLPLAAHAYVGPGAGLGLLAALWGLLAAVGVAVLYVVMWPIRRMRRRRKAEQAAAANASREPAPAQQTASDTHPAPARRSETESMRP				NA	NA	NA	NA	NA
BMS010_08042	1356			hypothetical protein	ATGAACAAGGCGGATCGCGCCGGCTTTGCCGTTTTCTGCGTGGCTATCGTGTTTCTCGCGTTCGTGGTCGGGGCGTTCCTGATGCTGTCCAGGACGTTCCCCTTCCGCTATTTCGACGACGCCTACAAGGCGGCCCAGGCGACCATCCGCCAGTTGTCGGCCACCGACCTGTACACCGAGACGCACCTGTGGCGCGAAGCACGCCGTAGCGAACGCGGCGTTACCCTGCACGATCCGCAGCGGGCCTACCCCGGTGTGACGCTCTACACCTCCGGCGACGGCAGCTATGCGCAACTGATCGACATGGACGGCAAGGTGCTGCACCGCTGGGAGCTGCCCTACCGCGAGATCTGGCAGGAGAACCCCGAGGGCCGTGCCCCGCGGCCGGAGGACCGGATCTACTGGGACAAGGCGCGGCTGCTGCCCAACGGCGACCTGCTGGTGGTGATCACCGCCGACAACGACACGCCCTGGGGCTACGGGCTGATCCGCATCGACCGCGACTCGAAGCTGATCTGGGCCTACCACGGCGCGACCCACCACGACCTGGTGCTTACCGACGACGGCCGCATCGTCACCCTGAGCCACGCCTTCAGCGAGGAGGACATTCCCGGCCTGCACGGCCTGGAGCAGCCCTGGCTGGACGACTTCCTGGTGACGCTGGACGCCGCGACCGGCCGCGAGCTGAGCAAGGTCTCGTTGGTGCGCGCCTTTCTCGATTCGCGCTACGCCGAGCCGCTGTACCAGACGCCCAGCTACGCCGTGACCGACCCGCTGCACGCCAACAGCGTCGATTATCTGGACGCCGCGCGCAGCGCCGTTTTCGCCCCGGCCGCCGGTCGGCCCGGCCAGGTGCTGATCTCGTTCCGCAACATCAGCGCCGTTGCCCTGGTCGACCCGGTAACCGGCACGCTCAGTTGGGCGACGCGCGGTCCGTGGATCGTCCAACACGACGCGCGGGCCTTGCCCAACGGCAATCTCAGCCTCTTCGACAATGCCGGCAACTACCGCGAACGCAACATCTCGCGCCTCATCGAGGTGAACCCCAGCAGCCATGAAATTGTCTGGAGTTACGAGGGAGACGATGCGCACCCCTTCGAGAGCTATGTGCGCAGCTCTGCCGAGAGGCTGCCCAACGGCAACCGGCTCGTGACCGAATCCGACGGTGGCCGGCTCTTCGAAGTGACGCCCGACGGCACGATTGCCTGGGAGTTCGTCAACCCGGTGCGCGGAGGCGAGAACGACCGCTACATCCCCATCGTCTCCTCAGGACAGCGCCTCGCTTACGGAGAGCTCGACGCGGATTTTCGCCGCCTCCTCGATAGCCCTGAACAAGGTGAACGCCATGACCCCTGA	MNKADRAGFAVFCVAIVFLAFVVGAFLMLSRTFPFRYFDDAYKAAQATIRQLSATDLYTETHLWREARRSERGVTLHDPQRAYPGVTLYTSGDGSYAQLIDMDGKVLHRWELPYREIWQENPEGRAPRPEDRIYWDKARLLPNGDLLVVITADNDTPWGYGLIRIDRDSKLIWAYHGATHHDLVLTDDGRIVTLSHAFSEEDIPGLHGLEQPWLDDFLVTLDAATGRELSKVSLVRAFLDSRYAEPLYQTPSYAVTDPLHANSVDYLDAARSAVFAPAAGRPGQVLISFRNISAVALVDPVTGTLSWATRGPWIVQHDARALPNGNLSLFDNAGNYRERNISRLIEVNPSSHEIVWSYEGDDAHPFESYVRSSAERLPNGNRLVTESDGGRLFEVTPDGTIAWEFVNPVRGGENDRYIPIVSSGQRLAYGELDADFRRLLDSPEQGERHDP				NA	NA	NA	NA	NA
BMS010_08043	1359			hypothetical protein	ATGCTCCGCCTCCATTCGTTGACAACCCTGCCGGCAGCCTGCCTGGCGCTGACCAGCACGACGCTCCTGGCCGCCGATTTCATCCCCACCACCGACCGCGACGAATTCGATGGCCTCTGCAACACCCATTGCTCCCTGCGCGATGCCGTGCACGCGGCGAACGGCCTGCCGGGGGCGGATCGTATTCTGCTCGACGGCACCTATGTCCTCAGCCGAGCGGCCCCGGAAGGCGTTCCGCCCGACGAGGACGACAACCTCACCGGCGATCTGGATATCCGCGATGAGCTGGTCATTCACGGCCGAAGCGAGGCGCTCAGCGGGGTTCGTGGGGAGGGCCTGAACGACCGGCTTTTCGAGGTGCTGCCCGGCGCCCGGCTCACCCTCGAACGGTTGACGCTCGGCGGCGGCGCGACCAGCCAGTACGGCGGTGCGCTGGAGAACCATGGGGAGGCCCTCCTCAACCGGGTCACCGTCGCCGGCAACGAGGCGGATGCCGGGCTCGCCAGTGAGGGGCAGGTCGGCAGCGGTCACGGCGGCGCCGTGGCCAACTTCGGCACGCTGGGCATCTACGCCTCGACCTTCAGCGATAACCGCGCCGATGGCGGCAATGAGGAAGAAGGCCGGGGCGGCGCATTGTTCAACCAGGGAACGCTGCTGGTCCGCGACTCGCTGTTCCGCGGCAACCGTGCCGAAGGCGGCTGGGAGGAAGGCGGTCGCGGTGGCGCGCTGTTCAACCTGGGGCAGGCGGATCTGGCGCGCAGCACCTTCATGCAGAACAGGATCGGCGAATATGGCCGGGCCAGCGCCTTGCTCAACGCCGGAGCGGGGCAACTGAAAGTGACCAATTCCACCCTCAGCCAGAATGCGCCGGTGCACGGGGCCGGCGTGATCACCAACGAGGCACAGGACGCCGCAGGAACGCCCCGGCTGCAACTGATCAACGTCACCCTGGCCGATAACCTCGGGCTCGGCCTGTTCAACGGCGGTGACCTGCTGATCCGCAACAGCCTGATCGCCGGCAACACCGACGGCTGGGGCGGCTACGCAACCCAGTGCCAGAACTTCGGTACCACCTACACCTACCGGGCCGTGGGCCTGTTGCTCGGCACCACGGCGGGCAACTGCACCGGCGAGCGCTCTATCGAGAACCGCTACACGCTCACTCGCCTGCTCCACCCGCTCTCGGCCTTCGACGAACGCACCTACGTGCATGCGCTGCGGCAGGGCAGCCTGGCGCTGGATGCGGGGATCGGCTCCTGCACCTCGCACGACCAGCGCCGCCGTCCGCGCCCCCGCGATGGCGATGGAGACGGCGTAGCGGTGTGCGACCTGGGCGCCTATGAACGGGCCAGGCCGTAG	MLRLHSLTTLPAACLALTSTTLLAADFIPTTDRDEFDGLCNTHCSLRDAVHAANGLPGADRILLDGTYVLSRAAPEGVPPDEDDNLTGDLDIRDELVIHGRSEALSGVRGEGLNDRLFEVLPGARLTLERLTLGGGATSQYGGALENHGEALLNRVTVAGNEADAGLASEGQVGSGHGGAVANFGTLGIYASTFSDNRADGGNEEEGRGGALFNQGTLLVRDSLFRGNRAEGGWEEGGRGGALFNLGQADLARSTFMQNRIGEYGRASALLNAGAGQLKVTNSTLSQNAPVHGAGVITNEAQDAAGTPRLQLINVTLADNLGLGLFNGGDLLIRNSLIAGNTDGWGGYATQCQNFGTTYTYRAVGLLLGTTAGNCTGERSIENRYTLTRLLHPLSAFDERTYVHALRQGSLALDAGIGSCTSHDQRRRPRPRDGDGDGVAVCDLGAYERARP				NA	NA	NA	NA	NA
BMS010_08044	1353			hypothetical protein	ATGTCCCGTTTCATTTCTTCGGCGTTCAAAGCAATTCCCTTCACGCTCCTCAGTGCTGCCGGCACGACGGCCGGAGCTGTCGATTTCCTGGTGACCACCGAGAAGGATCAGTTCGATGGGCAGTGCAATGCCCATTGCTCGCTACGCGATGCGGTGCAGGCGGCGAACGAGTTCCCCGGTGCGGACCGCATTCTGCTGGGGGCTGCGACGTACGTTCTCGATCGAGCGGCACCGGACGAGAACGGCATTCCTCTCGAGGAGGACGACAACCTGAATGGCGACCTGGATATCCGTGACGAACTGGTCATCCAGGGGCTCGGCGAAGCGCGTACGGAAATCCGCGGCGAAGCGTTGAACGACCGGATCGTCGAGGTACGACCCGACGCCAAACTCACCCTCGCTCGACTGAAGATCAGCGGCGGAGCCGGCCACATCAACGGAGGCGCGCTGGAAAACCACGGCGAAGTCATCCTGAACAGGGTGACGCTCAGCGATAACCAGGCCCTTGCCCGCAGGGCCGACGATCCGGGCAACGGTGGCGCCATCGCCAACTTCGGAACATTGGGGATTTTCTCGTCGATGCTCGTCAACAATGAAGCCAAGGCTGGAGAGGATACCGGCTATGGCGGCGCGCTGTTCAACCAGGGCGATGTGTTCGTGCGAGACACCCTGTTCAGGGATGGCCGTGCGAACAACGTCTGGGGAGAGAGTGGTTCAGGCGGGGCCATCTATAACGTCGGTCGGGTCGATATCGCCCGCAGTACCTTCATCGGCAACTGGGTGGGCGAATTCGGTAGAGGGGGCACGCTCGTCAATGATCGGGCAGGCGTTGTGAAATTGACCAACACCACCTTCAGCGACAACGTCGCCATATCGCCGGTGATCGTCAACGAACAGCCGAACCAGGCCGGCACTCCCAGCCTGGAGCTCGTTAACGTCACGGTCGTCGATAACATCGGTATCGGCGTTTACAACGGCGGCAGGCTGCGTATCCGCAACAGCCTTATCGCCGGTAACTGGGATGAGATGGGGGAATATACGTACCCCTGCTGGAACAGCGGCAATCGCTATCGGTACGAGGCTATCGGCCTGGTGCTGGGCAATGGCGGAGGCAACTGCTCTGCCGATCGCTACGTTGAAGAGCGCTACACCCTCACCCGCCTGGTCCATCCGTTGACCGCGTTCGACGAACGCACCTACGTCCATGCGCTGCGCTACAACAGCATGGCCCTGGACGCCGGGATCGGCTCCTGCACCAGCCACGACCAGCGCCGCCGTCCGCGCCCCCGCGACGGCGATGGAGACGGCGTAGCGGTGTGCGACCTGGGGGCCTACGAACGGGCCAGGCCCTGA	MSRFISSAFKAIPFTLLSAAGTTAGAVDFLVTTEKDQFDGQCNAHCSLRDAVQAANEFPGADRILLGAATYVLDRAAPDENGIPLEEDDNLNGDLDIRDELVIQGLGEARTEIRGEALNDRIVEVRPDAKLTLARLKISGGAGHINGGALENHGEVILNRVTLSDNQALARRADDPGNGGAIANFGTLGIFSSMLVNNEAKAGEDTGYGGALFNQGDVFVRDTLFRDGRANNVWGESGSGGAIYNVGRVDIARSTFIGNWVGEFGRGGTLVNDRAGVVKLTNTTFSDNVAISPVIVNEQPNQAGTPSLELVNVTVVDNIGIGVYNGGRLRIRNSLIAGNWDEMGEYTYPCWNSGNRYRYEAIGLVLGNGGGNCSADRYVEERYTLTRLVHPLTAFDERTYVHALRYNSMALDAGIGSCTSHDQRRRPRPRDGDGDGVAVCDLGAYERARP				NA	NA	NA	NA	NA
BMS010_08045	630			hypothetical protein	ATGAAGCTGAAGATGTTGGGCATGGCACTGGTCCTTGCTCTGACTGGCTGTGCCAGCTTTCCCGGCGACAAGGTTCCGGAAACCCAGCTGCCGTCTATGGCCAGCTACCAGCAACGCCCCAGCGTGTTCGTGGACTTCACGTTCTACCAAGGCAAAGCCGGCGACCCCAAGGCCATAGCGCTTCCCCAGGCACGAGACATGCTCAAGCCTCAACTGGAGGCTACGCTTCGCGACTCCGGTCTGTTCAGCCGCTACACCCTGGACGAATTCCAGAAACAACCGGGCGACTACACCCTCAAGCTGGACGTGTATAACAGCGGCTCGACTGGAGCGGCCATGATCGGTGGCTTCATCTCCGGTTTCACCTTCCTGGTGATTCCGGCCACGGTGAAAGACGAATACGCCATGACGTTGCAAGTGCTCGATCCGGAAGGGCAGCCGGTATCCAATGAGCGGAACGACGAGTCGATCCGTACCTGGATTGGCCTCGTGTTCATTCCGATGATGGGTTACACGCCGGCCGAAGCGGTCAACGACAGCTTCCGTCGCCAGCTCACGGCCCTGCTGAAGCAGATGGTCGATCGGCAGACCCTGAAATACGCGCAGATTCCTTTTCCGCTTCGCGGTTGA	MKLKMLGMALVLALTGCASFPGDKVPETQLPSMASYQQRPSVFVDFTFYQGKAGDPKAIALPQARDMLKPQLEATLRDSGLFSRYTLDEFQKQPGDYTLKLDVYNSGSTGAAMIGGFISGFTFLVIPATVKDEYAMTLQVLDPEGQPVSNERNDESIRTWIGLVFIPMMGYTPAEAVNDSFRRQLTALLKQMVDRQTLKYAQIPFPLRG				NA	NA	NA	NA	NA
BMS010_08046	549			hypothetical protein	ATGCTCAATCGCTTCATTCCCTTTGCCGCTGCCACCCTGATTCTCCAGGGATGCGGTGTTTCCATGCCTCGCTACGAGCCGAACTTCGACAACGTGCAGACACTGAAAAGCCAGGCTCCGCTGGTCAAGCTCGGCTCATCCGAAGTCGTGGCCGATTCGGGCCAGGACTCGCTGTCTGCCCGTGCCAACCCGATCCGTAGCCCGGAAGGCTCGGTAAGCAAGCATGTGCAGAATGCGCTGGAAAGCGAGCTGCGCCTGGCTGGCCTGCTCGACCCGGCGTCAGCGCGCCGCTTGGATGTGCGCCTGCGCCGTAGCGAGTTGAACGCGCCAATCGGAACCGGTAACGCCGTAATCAGCGCGGATTTCGATCTGCGTGACGGCGACCGCTCGCTGTACCGCAGCAACAAGACGGTCAGCGATACCTGGGACAGCGATTTCGTGGGCGCCATCGCCATCCCGGCTGCGGCGAACGCCTTCAATCCGCTGGTCCGCAAGCTGCTGGCCGAACTCTATCGGGACCCAGCGTTCATCCAGGCGATGAAGGAATAG	MLNRFIPFAAATLILQGCGVSMPRYEPNFDNVQTLKSQAPLVKLGSSEVVADSGQDSLSARANPIRSPEGSVSKHVQNALESELRLAGLLDPASARRLDVRLRRSELNAPIGTGNAVISADFDLRDGDRSLYRSNKTVSDTWDSDFVGAIAIPAAANAFNPLVRKLLAELYRDPAFIQAMKE				NA	NA	NA	NA	NA
BMS010_08047	402			hypothetical protein	ATGACCCAGTCACCGCCCCTCCGCTCCCCCTGCCCGCCCGGCACCTGCAACTGCGGGCGCGAGCAGTTGCTGGAAACGCCCGGCAGCGACGTACGCATCCTGTTGCTGACCCGCAACGAGGAAAAGCGTCTGCTCGAGCGGCTGGAAAACCTGCGCAGCCTGGACGATTTGCACTACCTGCAACGGCGGATGTACGAACAACTCGGCATCCGCCTGACCATCGAGCCCGGCTACAACGAGGTGCGCACCATGCGCGGCTTCGACATCCGCCTCGACGAACACCCCGGTCTGTGCCGCAAGACCCGCCAGTCGATCCCCGCCGCCGTCCGCCGTGGATTGGAGAAACACCCCGAAATCGCCTACCGCCTGCTCGACGCCCACGACCTGCTGCGCGATGCCTGA	MTQSPPLRSPCPPGTCNCGREQLLETPGSDVRILLLTRNEEKRLLERLENLRSLDDLHYLQRRMYEQLGIRLTIEPGYNEVRTMRGFDIRLDEHPGLCRKTRQSIPAAVRRGLEKHPEIAYRLLDAHDLLRDA				NA	NA	NA	NA	NA
BMS010_08048	852			hypothetical protein	ATGCGCGCCATGTCGTTCCTTTCACGCTTCGCTGCACTGTGGCTGGGGCTGGTCGCCAGCGCTGCCGCCGTGGCGGCCGAGGAAGCGCAGCTCGTCGAAGCGATCAATGTCTACCGCAGCGAAATCCAGCGTTGTGCCGGCCGCGCCTCGGAGCCGCTGCCGCCGCTGGCGCCCGATTCGCGCCTGGTGCTGTCGGCCGGTGGCGTGGGGGATTTGCAGCAGGCGCTGGCCGGTACCGGCTACCCGATGGTCAACGTCCAGGCGATCAGCCTGTCCGGCCCGCGCGATGCGCAGTCGGCCATGAAGGCGTTGCGGGAGACCTTCTGCCAAGTGGTGCTCGATCCACAGTTCGTCGATATCGGCGTGAGCCGACAAGACCGTGACTGGCGCATCGTGCTGGCGCGCCCCCTGCTGACCGGGCGCCTGGGCGATTGGCAAGCGGAAGGGCAGCAACTGCTCGAACAGCTCAACACGGCGCGCGCCCAGGCACGCCAGTGTGGCGGCCAGTCGTTCAGCGCGGCAGCCCCCCTGACCTGGAACGCCGCCCTCGGCTCGGCTGCCGAATCGCACAGCCGGGCCATGGCCAACGGCAACTTCTTCGACCATCGCGACCGCGACGGCCGCACCCCTGGCGACCGGGCGGAGCTGGCCGGCTATAACGGCCGGCAGATCGGCGAAAACATCGCCGCCGGCCTCGACACCGCCCGTAAGGTGGTCGACGGCTGGCTAGCCAGCCCCGGCCATTGCGCCGTGCTGATGAGCCCGCAGTTCAGCGAAGTAGGCGCGGCCTACGCAGTGGACCCGAAGAGCGACGCGGGCATCTATTGGACGGCGGTGTTCGGCACGCCTTGA	MRAMSFLSRFAALWLGLVASAAAVAAEEAQLVEAINVYRSEIQRCAGRASEPLPPLAPDSRLVLSAGGVGDLQQALAGTGYPMVNVQAISLSGPRDAQSAMKALRETFCQVVLDPQFVDIGVSRQDRDWRIVLARPLLTGRLGDWQAEGQQLLEQLNTARAQARQCGGQSFSAAAPLTWNAALGSAAESHSRAMANGNFFDHRDRDGRTPGDRAELAGYNGRQIGENIAAGLDTARKVVDGWLASPGHCAVLMSPQFSEVGAAYAVDPKSDAGIYWTAVFGTP				NA	NA	NA	NA	NA
BMS010_08049	2007	rlhA	COG0826	23S rRNA 5-hydroxycytidine synthase	ATGTCCTTGCCCAAACACCATCTGGAACTGCTCAGCCCTGCCCGCGATGTGCAGATCGCCCGTGAGGCGATCCTGCATGGGGCCGATGCCGTGTATATCGGCGGGCCGAGCTTCGGGGCGCGGCACAATGCCTGCAACGAGGTGAGCGATATCGCCCAGTTGGTGGAGTTCGCCCGCCGCTACCACGCCCGGGTGTTCACCACGCTCAACACCATCTTCCATGACGATGAGCTGGAGCAGGTGCGCACCCTGGTGCACCAGCTCTATGACGCCGGCGTGGATGCGCTGATCGTGCAGGACATGGGAATCCTCGAGTTGGATATCCCGCCCATCGAGCTGCACGCCAGCACCCAGACGGACATCCGCACCCTGGAGCGGGCGAAATTCCTCGACCAGGCCGGTTTCTCCCAACTGGTGCTGGCCCGCGAGCTGAATCTGCAGGAAATCCGCGCCATCGCCGACGAGACGGACGCGGCCATCGAGTTCTTCATTCATGGCGCGCTGTGCGTGGCCTTTTCCGGGCAGTGCTACATCTCCCACGCGCAGACCGGCCGCAGCGCCAACCGGGGCGACTGCTCCCAAGCCTGCCGCCTGCCCTACACCCTGAAGGACGATCAGGGCCGCGTGGTGGCCTATGAAAAGCACCTGCTGTCGATGAAGGACAACAACCAGAGCGCCAACCTGCGCGCCCTGGTGGACGCCGGCGTGCGCTCGTTTAAGATCGAGGGGCGCTACAAGGACATGGGCTACGTGAAGAACATCACCGCCTATTACCGCCAGCGCCTGGACGAGATTCTCGAAGACCGCCCGGACCTGGCTCGTGCCTCCAGCGGCCGTACCGATCACTTCTTCGTGCCCGATCCGGAAAAGACCTTTCACCGCGGCAGCACCGATTACTTCGTCAACGAGCGCAAGGTCGATATCGGCGCCTTCGATTCCCCCACCTTCACCGGGCTGCCGGTGGGCCATGTGGAGAAGGTGAACAAGCGCGATCTGATCGCAACCACCCAGGCGCCTCTGTCCAACGGCGACGGCCTGAATGTGCTGGTGAAGCGCGAGGTGGTGGGTTTCCGCGCCAACATCGCGGAGCTGAAAGGCGAGTTCGAGGAAGACGGCGAGAAGCGCTGGCGCTACCGGGTGGAGCCGAACGAAATGCCTGAGGCGCTGGCCCGGCTGCGGCCGAACCATCCGCTCAATCGTAATCTGGATCACGACTGGCAGCAGGCGCTGCTGAAGACCTCCGCCGAACGCCGCATCGGTGTGCGCTGGCAGGCGACGCTGCGCGAGGAGCGTCTGGAGCTGACCGCCACCAGCGAGGAAGGCGTGAGCGCCAAGGTGCGGCTGGATGGCCCCTTCGGCGCGGCGAACAAGCCGGAGCAGGCCCTGGAGCAGTTGCGCGACCTGCTGACCCAGTTGGGCACCACCATTTATCACGCCGAGGGTGTCGAGCTGGATGCGCCGCAAGCGTTCTTCATCCCTGCTTCTCAGCTCAAGGCGCTGCGCCGGGAAGCCATCGAGGCGCTCACCGAAGCCCGCGTGGCCGCCCACCCGCGTGGCGGGCGCAAGGCGGAGAGCGATCCGCCGCCGGTGTACCCGGAGGCACATCTGTCGTTCCTCGCCAACGTGTACAACCAGAAGGCCCGCGACTTCTACCACCGCCACGGTGTGCAACTGATCGACGCGGCCTACGAGGCGCACGAGGAAACCGGCGAGGTGCCGGTGATGATCACCAAGCACTGCCTGCGCTTCTCCTTCAACCTGTGTCCGAAGCAGGCCAAGGGCGTCACCGGCGTGCGCACCAGGGTCGCGCCGATGCAACTGGTGCACGGCGATGAGGTGCTGACGCTGAAATTCGACTGCAAGCCGTGCGAGATGCACGTGGTCGGCAAGATCAAAGGCCACATCCTCGACCTGCCCCAACCCGGCAGCGGGGCCGGCCAGGTTGTTGCCAGTATTACGCCTGAAGATCTGTTGAAGACCATCCGCAACCGTCCTGGGCGGGCGTGA	MSLPKHHLELLSPARDVQIAREAILHGADAVYIGGPSFGARHNACNEVSDIAQLVEFARRYHARVFTTLNTIFHDDELEQVRTLVHQLYDAGVDALIVQDMGILELDIPPIELHASTQTDIRTLERAKFLDQAGFSQLVLARELNLQEIRAIADETDAAIEFFIHGALCVAFSGQCYISHAQTGRSANRGDCSQACRLPYTLKDDQGRVVAYEKHLLSMKDNNQSANLRALVDAGVRSFKIEGRYKDMGYVKNITAYYRQRLDEILEDRPDLARASSGRTDHFFVPDPEKTFHRGSTDYFVNERKVDIGAFDSPTFTGLPVGHVEKVNKRDLIATTQAPLSNGDGLNVLVKREVVGFRANIAELKGEFEEDGEKRWRYRVEPNEMPEALARLRPNHPLNRNLDHDWQQALLKTSAERRIGVRWQATLREERLELTATSEEGVSAKVRLDGPFGAANKPEQALEQLRDLLTQLGTTIYHAEGVELDAPQAFFIPASQLKALRREAIEALTEARVAAHPRGGRKAESDPPPVYPEAHLSFLANVYNQKARDFYHRHGVQLIDAAYEAHEETGEVPVMITKHCLRFSFNLCPKQAKGVTGVRTRVAPMQLVHGDEVLTLKFDCKPCEMHVVGKIKGHILDLPQPGSGAGQVVASITPEDLLKTIRNRPGRA				NA	NA	NA	NA	NA
BMS010_08050	1206			hypothetical protein	ATGCATATCGGATCGACGAGTACCAGTGCGAGTGCTCACTACGCGGCCTCCAGCTCTCGCCCGGAAAGCTCTGGACGCAGTGGTGTCCTCGGAAAGCTGTTGAACCTGCTGCCTTGCTCAGGTCGGCATATGGGGGTTGAGCCGCTACGTGATGCGGTGCTGCACAACCTCGCGGAGATTCGGGACCACCTTGCAACCTTGCGGCAGCAGAATTGGTCACCGGGAGGCACGGAGTCATCCTATGACATATTGCTCATGCCTGTATTTACCAAGGCTGAGCGAGCCCGCAACCCTAACAACACGGTCACCTATCTGAGTGGTGGATTCCAGGCGCTTGCGACCCATGATTCGCAGTTGCATCGGCAAGTGCTGCTGCACATCCCGAACGACCCGCATATGGTGGCGGCTGATGTGAAGTGCATCGATGGCAAGCTATCCGTAATCGTGGCCGACTCGCTCAAGCACGATGCGAAATTTGCCCCTTACGACGACAAGCGAAAGATGAGGGATATGGCCAAGCACCTCCCTCCCGGAAGCCGGGTCGCGGTGCTTTGCCTGGATGTGCAGAAAGCCAGTAGTGGCTGTCGCATCATGTCGCTGTCGGCGGCGTCGAAGATGGCCAAAGAGGCCGGGTACTTCGACAGGCTTCATGACGCGAACATGGGGGAAGGGGCCAATGGAATCGCCGAGCTTATTGGCGCTCGCAGGGTAACAGGCGCTGACAGGTTGGATGTGTTCGACGTGCCACGGCAAGTTCCTTCGAGCTTGCTCAGGCACATGCAGGCGCGTTCATCTTTCAAGCAATGGGCAATGAACAGGTCGCCCGCAGAGATTGCGGCACCTGTCAACAAGCGAGGCGAGACACTGCAGCAGCGCATGGAGCAGCGGTTGGTCCATCGTGCCCAGATACGCCAGACGAAAGATTTCGAATCTTTCTTGCACCCTCTGGATTTCAGTGCATCCATAGAAGATAAACGAATCACTTATCTTGAAAGGGCCATGGCGTTCATACAGCAGGCCGATGCGGACGATATCCGTGAAGCGGCCAAGATATTCGAGGACATGCAGCAGCATCAGATGCTTCCTTCTGAAAGAGGCTTGGAACTTCATCATCGGGAAGTAGGCCCTGAACCCGAAATCGCCAAGCGAATCGCATATTCCGATAGCGACGATGAGTACTCCGTGACGAGCGAAGGTAGCCGATAG	MHIGSTSTSASAHYAASSSRPESSGRSGVLGKLLNLLPCSGRHMGVEPLRDAVLHNLAEIRDHLATLRQQNWSPGGTESSYDILLMPVFTKAERARNPNNTVTYLSGGFQALATHDSQLHRQVLLHIPNDPHMVAADVKCIDGKLSVIVADSLKHDAKFAPYDDKRKMRDMAKHLPPGSRVAVLCLDVQKASSGCRIMSLSAASKMAKEAGYFDRLHDANMGEGANGIAELIGARRVTGADRLDVFDVPRQVPSSLLRHMQARSSFKQWAMNRSPAEIAAPVNKRGETLQQRMEQRLVHRAQIRQTKDFESFLHPLDFSASIEDKRITYLERAMAFIQQADADDIREAAKIFEDMQQHQMLPSERGLELHHREVGPEPEIAKRIAYSDSDDEYSVTSEGSR				NA	NA	NA	NA	NA
BMS010_08051	1029			hypothetical protein	ATGGGCGTTTTCGAGACCCTGCATCACTACCTGAGCGCGTGGGCGATCGCACCGATCGCAGCCCAGTTCTCCGGCATCTTCGATCTGAACGGCCGCTTCGGCGTGCTGTTTCTCTGCATTTCATACGCCGTGGCCTATGGCCTGTTCCGTTACCGCAAACAGCGCGGCCTGACCGATGCGGGCTCGTTCTGGCAGTTCATCGGTGGCGGCAAGGTGTACTGGCATCGCTCGGCGCTGCTGGATTACCGCTACTACTTCGTACGAGCCGTCCTGAAAGTGGCGCTGGTGGTTCCCATCGTCGCCCTGGTGGACCCTTACATCCTGCGCTCCGGCGACTACATCACCTTCTTCACCAACCTGTGGGGCGCTCGCCCGCAGCTGGGGCAGAACCTCACGTTGTCGCTGCTGTACGGACTGGGCCTGTTCCTGGTCAACGACTTCGTCCACTACTGGGTCCACCGGGTTTTTCATGGCAGTTGGCTGTGGGAATTCCACAAGGTCCACCACTCGGCACCCGTACTGGTCCCGGCAACGGCGAGCCGGGTGCACTTCCTGGAAAAGGTGGTGAGCAAACTGGTCGGTGCCGTCTGCATCGGCGCCTATGTCGGCGCCTTCTGGTACGCCTGCGGCGGCGAGATCAGCCGTTATACCCTGTTCGGCGTGACCTACCTGATGTTCATCTGCAACGCCCTGGCCGCCAACCTGCGGCACAGCCATGTCTGGCTCTCGTTCGGGCCGGTGGTCGAGCACGTGCTGAACAGCCCCGCCCAGCACCAGATCCACCACAGCGACGCGCCCAAGCACTTCCACAAGAACTTCGGCACCAACCTGTCCCTCTGGGATTGGATGTTCGGCACCCTCTATGTCACCACCTCCAAGCCGGAGGAGATCAAGTTCGGCACGGCGGAACAGGACGCCCACCGCTACCTGACGCTGTATAGCTTGATCGTCATGCCGTTCGTCGATACGGCGCGCAAGGTGGTGCCGGGGAAGCGTTCGGCGGTGGTGGCCGAGTCGCCGGGGCCCTGA	MGVFETLHHYLSAWAIAPIAAQFSGIFDLNGRFGVLFLCISYAVAYGLFRYRKQRGLTDAGSFWQFIGGGKVYWHRSALLDYRYYFVRAVLKVALVVPIVALVDPYILRSGDYITFFTNLWGARPQLGQNLTLSLLYGLGLFLVNDFVHYWVHRVFHGSWLWEFHKVHHSAPVLVPATASRVHFLEKVVSKLVGAVCIGAYVGAFWYACGGEISRYTLFGVTYLMFICNALAANLRHSHVWLSFGPVVEHVLNSPAQHQIHHSDAPKHFHKNFGTNLSLWDWMFGTLYVTTSKPEEIKFGTAEQDAHRYLTLYSLIVMPFVDTARKVVPGKRSAVVAESPGP				NA	NA	NA	NA	NA
BMS010_08052	819			hypothetical protein	ATGCAATCCCAAGATTTCTTTTCGCTATCTTCAGCAATTATTGAGCTTATCCAGAAAGCAGCCCCTCTTATTGGGCTTGCGCTTATTTTTTCCCTTTATCTTTGGAGTTGGAGAAGAACCGGGTCGGCATTCTTCATACTCCAGCGATTCTGGGGCTTACTGGGAGGGAATAAGGAACTGTCGGACCCTAATCTTTCCGAGGCATGGAAGAACGTAAAAGACTTCTACTCAATGCGACTGAGGACCGGAATAAAATTCAAAAGCAAGGAGCATTTGGAGCATGCCTTGGTCTGGTTCAAAGAAAACAAAATCGGCCTCGAGGAAATCATGCCGATCCGTTCGTACTTTGACGTGAATAACCTTGAAATCAGGGACCCGAAGCTGAAAACCAAAAAGAAAGAAAATTGGTTCCTCAGTATTGTTCTTTTACTAGCTATCGGCCCGCTCATTATTCTCGGAATACCAGACCGTGCTTTCTTGATCGTAAAATCCACGGACACTTGGTTTATAGCCAACAAGGGGATCGCCCATTCTTGGAATCCCTTCGCATGGTCCATTACGAGCGATGATTGCAATAAGGATACTCCGGAGCTTTCGGAGCACGATAAAAAGGTAATTTGCGAATTAATTACAAGTGAAGATTCCGTTTACATCGAGAAGACGATCTTTCAGCAGAGAGCATTCGGTGTGCTCATGGGGACTTTCGCAGGATTTCTTATAATCAGCCTTATCATCGCATGGTCTAAAGCCCAGACTGCACACGATCTCAGACTTCGCATCATGACGAAGAAGCCGGAGCAGCTTTTATTATTCCCGTAA	MQSQDFFSLSSAIIELIQKAAPLIGLALIFSLYLWSWRRTGSAFFILQRFWGLLGGNKELSDPNLSEAWKNVKDFYSMRLRTGIKFKSKEHLEHALVWFKENKIGLEEIMPIRSYFDVNNLEIRDPKLKTKKKENWFLSIVLLLAIGPLIILGIPDRAFLIVKSTDTWFIANKGIAHSWNPFAWSITSDDCNKDTPELSEHDKKVICELITSEDSVYIEKTIFQQRAFGVLMGTFAGFLIISLIIAWSKAQTAHDLRLRIMTKKPEQLLLFP				NA	NA	NA	NA	NA
BMS010_08053	306			hypothetical protein	ATGAACAAGATCAAGCAGGCTCTATGCCTCAGCCTCTCCCTGACCGCCCTCGGTGTGGCGACGCTTCCTGCCCAGGCCAGCGTGGTCCGTTCGCCCGCCTTGGTCGAGGCGCCGGCAGTGGTCGTCGGTGAATCGCAGCAAACGACCCCCTCGGTGTTCGCCCAAGTGGACAGCACTTCCGTAAACGCCCAGAGCATGACAGTCGCCTCGATGGCGACCAGCTGCGCCGACCCGCGGCCTTGGTACAGGTTCAGCGGGATCGAAGCGCTGACCTGCCTGTTCTCGGGGCAGTGGTCGATTCCGTAA	MNKIKQALCLSLSLTALGVATLPAQASVVRSPALVEAPAVVVGESQQTTPSVFAQVDSTSVNAQSMTVASMATSCADPRPWYRFSGIEALTCLFSGQWSIP				NA	NA	NA	NA	NA
BMS010_08054	345			hypothetical protein	ATGTCCGATTTCATCACCGTGCTGCGCGAAACCTGCCCCACGCCCGTGCTCAACGCCACCAAGTGGAAGCGCATCGGCGGCGACCCGCATACCGTGAACCTCAACGCCTACGTTTCCCAGGACGGCAGCAAGATCATGGGTACCTGGATCTGCACCCCCGGCAAGTTCGAGGTGAATTACGAGAAGTGGGAGTACTGCCATTTCCTCGACGGCTATTGCGTGATCACGCCGGAGGGCGAGGCGCCGGTGCACCTGAAGGCAGGCGACGTGTTCGTAATCGAACCCGGCATGAAGGGCACCTGGGAAGTGGTGGAAACCGTACGGAAATATTTCGTTTTCGCCTGA	MSDFITVLRETCPTPVLNATKWKRIGGDPHTVNLNAYVSQDGSKIMGTWICTPGKFEVNYEKWEYCHFLDGYCVITPEGEAPVHLKAGDVFVIEPGMKGTWEVVETVRKYFVFA				NA	NA	NA	NA	NA
BMS010_08055	537			hypothetical protein	ATGGGTCGCAGCCGCTACCTCATCACCGCACCGGACCAGCCGCACTTCCTGACCTGCACGGTGATGGAGTGGCTGCCGCTGTTCACCCGCCCTGCCCTGGTCGACATCCTGCTCGATTGCTGGCGCTACCAGCGGGCTCACCAGGGCCTGCGCCTGTACGGTTATGTGGTGCTGGAAAACCACCTGCACTTCGTGGCCCAGGCGCCAGAGCTGGGTAAGCGGGTCAGCGCGTTCAAGTCCTACACGGCGCGGCGGATCATCGACTATCTGGAAAGCAACGGCGCCGAGCGGGCGTTGCAGCAGCTGCGCTTCGCCAAGCGCGCTCATAAGGTCGACCGGGTCCATCAGCTCTGGCAGGAGGGCTCGCATGCGGAGCTGGTATGCAGCGAGGCGGTGATGCGGGAAAAGCTCGACTACATCCACCTCAACCCGGTGAAACGCGGCTATGTGGACCGGGCGGAGCACTGGCGTTATTCCAGTGCCCGGAATTATGCCGGCGCGGAGGGGTTGATCGAGGTGGACAGGTGGGACTCGTGA	MGRSRYLITAPDQPHFLTCTVMEWLPLFTRPALVDILLDCWRYQRAHQGLRLYGYVVLENHLHFVAQAPELGKRVSAFKSYTARRIIDYLESNGAERALQQLRFAKRAHKVDRVHQLWQEGSHAELVCSEAVMREKLDYIHLNPVKRGYVDRAEHWRYSSARNYAGAEGLIEVDRWDS	PGPT0030655_1957	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030655-yafM|rayT|tnpA-K07491	NA	NA
BMS010_08056	474			hypothetical protein	ATGGAGCGGTTACGGTGCACCATGTCTGAAGAGGTGCTGGCCCCCACCGTTTTCACCCGCCATAAACGCCACCTGCGCGCCGTGCTGCTGGAGGACCAATGCTGGTTCTGCGCCCGTGACCTTGGCCGGCTGATGGGCATTCCGCTGCTGGAAGAGCGCGTGCACCGCAGCCTGGACGACGACCAGCACTGCCGCGCCTGGCTGCGCGACGGCCAGGGCGAGTACGGGGATGAGTTGTTGATCAGCGAATCCGCCCTCTATGCCGCGCTCATCCACTACTACCACCCGGAAAACCGCTGCATCCGCCAATGGATCACCCAGGAGGTGGTCCCGGCCCTGCGCGACCAGCACCGGCAAGACCACCACCAACCCCGCCGCGAAACCCTCCACGGCCCGAGCCAGACGCTGACGGTGCTGCACTGGCAAGGCATGGTCTGGGTGCCGTACCGGCAGTGGCCCTCGCTGGAGCAGTAG	MERLRCTMSEEVLAPTVFTRHKRHLRAVLLEDQCWFCARDLGRLMGIPLLEERVHRSLDDDQHCRAWLRDGQGEYGDELLISESALYAALIHYYHPENRCIRQWITQEVVPALRDQHRQDHHQPRRETLHGPSQTLTVLHWQGMVWVPYRQWPSLEQ				NA	NA	NA	NA	NA
BMS010_08057	1764	msbA_4	COG1132	Lipid A export ATP-binding/permease protein MsbA	GTGATCGGATCTTTTTTGTCTGAAAACGACAAGACGTTGCTGGTGCGACTTTTCAAAGAAAATTTCAGAAAGCATGTTGGCTGGTATTCTGCGGCAATTGCCGCGATGCTCGTCGTCGCCGGCACCACATCTCTCAGCGCATGGATCATGCGCGATATCGTCAACAGCGTTTATCTGAAGCAGGGCTTTGACGTCGTTCTCGAGATTGCCTTTGCAGTCGCGGCTATCTTCATCGTCAAAGGCCTCGCAACCTTCGTGCAGAGCTATTATCTCAGCAAAGCTGGTAATAGCATCGTAGCGGAGCAACAGCGCAAAATCTACGATCGGCTCCTGAAACAGGGCGTTTCCTTCTTTCAGAATCTGCCTTCCTCGGAACTGCTGGTTCGCGTTACTTACAATGCACAGGCGGCGCGCAGCGTCATCGATACGATTGTCACATCGTTCGTACGTGACCTGTTTTCGCTTATCGGCCTGATTATCGTGATGTTCGCCCAGAATTTCCTTCTGAGTGCGATCTCCATGATTATCGGTCCTCTTGCCATCTTCAGCGTTCGGCTTGTTTTGCGCCGCGTACGCAAGATCATGGAGGCGGAGCTTGCTTCGCTCGGTGAGATTGTCAATGTCGTACAGGAAACCAGCATAGGTGTACGTGTTATCAAGGCATTCTCCCTTGAGAAACTTATGCGTCAACGTATGAACAAGGCGGTTTCCGACGTAGAGCAACGTGCCAATGGCATTGCTAAACTGGAGGCCGCAACCAGTCCCATCATGGAGACGCTATCAGGCCTCGCAATTGCTGTCGTTATTGCCGTGTCCGGCTATACCGTTCTCGAAAAAGGCGGCTCGCCGGGCGATTTGATGGCTTTTATTACCGCCCTGTTGCTCGCTTATGAACCGGCTAAACGCCTCGCCCGCATGCGGGTACAGATCGAAGGCGGCATGATTGGCGTGCGGATGATGTTTGAGGTGCTGGACGCGCCGCTGACGCTTGCCGAGAAAAAAGACGCCGAGCCTCTGCCCAAAGCGACAGGCGATGTCGAACTAAAAAATGTGAGCTTTGAATATGTTGCGGGCCAGCCCGTTCTGAAAAATGTCAGCCTGCTCTTCGAAGGTGGCAAGATGACCGCGCTGGTCGGCCCATCCGGCAGCGGCAAATCCACTATCATCAATCTCATGATGCGCCTTTACGATCCGCAAACCGGCTCAGTAGAAATCAACGGTATGGATTTGCGCGACGTTTCTTTTTCGAGCTTGCGCGAGCACGTTTCTTACGTCGGGCAGGAAACATTCCTGTTTTCGGGATCCATAAGGCACAATATCTCCGTTGGCCGCGACAATGCCACCGAAGAAGAGATAATAGCAGCCGCCAAGGCAGCCAATGCGCACGATTTCATCATGAGCATGCCGGAAGGCTATGACAGCAGGCTCGGTGAAAATGGCTCCGGATTGTCCGGCGGGCAGCGGCAGCGTGTTGCGATTGCTCGCGCCATGCTCAGAGACGCAGATATTCTGATCCTCGATGAAGCAACCAGCGCATTGGATTCGGAATCCGAAGCTCTCGTCCGCGATGCACTCGAAAGACTGACACTCAACAAGACATCGATCGTCATCGCTCACCGTCTCTCCACTATCAATCGTGCCGACAAGATTGTCGTTATGGACAATGGTGAAGTCGCCGAGCAAGGCAGCAGACGTGAGCTTCTAGCGAATGATGGCCTTTATAAACGGCTTCACAGCATCCAATTTGATGCCGATGTAGCTTAG	MIGSFLSENDKTLLVRLFKENFRKHVGWYSAAIAAMLVVAGTTSLSAWIMRDIVNSVYLKQGFDVVLEIAFAVAAIFIVKGLATFVQSYYLSKAGNSIVAEQQRKIYDRLLKQGVSFFQNLPSSELLVRVTYNAQAARSVIDTIVTSFVRDLFSLIGLIIVMFAQNFLLSAISMIIGPLAIFSVRLVLRRVRKIMEAELASLGEIVNVVQETSIGVRVIKAFSLEKLMRQRMNKAVSDVEQRANGIAKLEAATSPIMETLSGLAIAVVIAVSGYTVLEKGGSPGDLMAFITALLLAYEPAKRLARMRVQIEGGMIGVRMMFEVLDAPLTLAEKKDAEPLPKATGDVELKNVSFEYVAGQPVLKNVSLLFEGGKMTALVGPSGSGKSTIINLMMRLYDPQTGSVEINGMDLRDVSFSSLREHVSYVGQETFLFSGSIRHNISVGRDNATEEEIIAAAKAANAHDFIMSMPEGYDSRLGENGSGLSGGQRQRVAIARAMLRDADILILDEATSALDSESEALVRDALERLTLNKTSIVIAHRLSTINRADKIVVMDNGEVAEQGSRRELLANDGLYKRLHSIQFDADVA				NA	NA	NA	NA	NA
BMS010_08058	1185			Cellobiose 2-epimerase	ATGACATTGCAATTTCCGAGCATCGCGCAGACGCTTGCCGAAGATATCGGAAGATTACGCAAATGGCTGGATGAGGACGCCCTGCCCCTGTGGTGGGAGGCGGGTTCGGCCCGGCCGGATGGCGGCTTTTACGAACGTCTCGACCAGGATGCGAAACCGGTTTTTTCCGATGACCGACGCGCCCGCGTGCAGCCGCGTCAGGCCTATTGTTTCGCCGCCGCCGGCCAGCATGGCTGGCAGGGACCGTGGAAAGACGCGCTCCTGCACGGGCTTTTCTGGTTCGAGAAGGTCTATCGCCTTGAAAGCGGCCTTTACGGCAACCTTGCCGACCAGACGGGCCGGCTGATCGATCCCTCCTTCGATCTCTACAATCAGGCCTTTGCGCTGTTTGCCGCCGCACAGGCGGCTGCAAGCCTTCCAGAGCGCCGGGACGAGATGCGCGGCCGGGCGCTCGATATCCTTGCCATCCTCGAACGCGACTACAGACATCCGGTCGCCGGCTTCGAGGAAGCGAACCCGCCGCGCACCCCGCTCTGCTCCAATCCGCACATGCATCTCTTCGAGGCGATGCTGGCCTGGGAAGTGCAGGATCCGGACGGCCCGTGGTCGGCACTTGCGGACGAGATTGCCGGCCTTGCACTTTCCCGCTTCATCGATGGCGGCAATGGCGGTTTGCGCGAATTCTTCGCCCATGACTGGACACCGCATGACAGCGACAAAGGCCGGATCATGGAACCCGGCCACCAGTTCGAATGGGCCTGGCTTCTGGTGCGCTGGGGCAGCCTGCGTGGAAACCACGAAGCGATCGGCAAGGCAAAACGCCTCTTCGAGATCGGTGAGGAATATGGCATCTGCCCGCGCCGCAAGGTGGCGGTGATGAGCCTCTACGACGATTTTTCGGTGCATGACGGGCTGGCGCGGTTATGGCCGCAGACGGAATGGCTGAAGGCTTCGGTGCGGCTTGCGAGCGTCACGGGCGGTGAGGAGCGTCAGCGTTACCTCGCCTCCGGTCTCAGCGCCATCGGCGCGCTGCAGCCTTTCCTCGACACGCCGGTCAAGGGCCTGTGGTTCGACAAATGGCCGGCCGACAGGCCGATGCTCGACGAACCGGCGCCGGCAAGCACGTTTTATCACATCGTCTGCGCCATATATGAGGCAGAGGCCGTGCTGGCGGTCAGTGGGTGA	MTLQFPSIAQTLAEDIGRLRKWLDEDALPLWWEAGSARPDGGFYERLDQDAKPVFSDDRRARVQPRQAYCFAAAGQHGWQGPWKDALLHGLFWFEKVYRLESGLYGNLADQTGRLIDPSFDLYNQAFALFAAAQAAASLPERRDEMRGRALDILAILERDYRHPVAGFEEANPPRTPLCSNPHMHLFEAMLAWEVQDPDGPWSALADEIAGLALSRFIDGGNGGLREFFAHDWTPHDSDKGRIMEPGHQFEWAWLLVRWGSLRGNHEAIGKAKRLFEIGEEYGICPRRKVAVMSLYDDFSVHDGLARLWPQTEWLKASVRLASVTGGEERQRYLASGLSAIGALQPFLDTPVKGLWFDKWPADRPMLDEPAPASTFYHIVCAIYEAEAVLAVSG	PGPT0017860_1733	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-GLUCOSE-MANNOSE-FRUCOSE_CONVERSION_MODIFICATION,PGPT0017860-manA-K01809	NA	NA
BMS010_08059	786			hypothetical protein	ATGGTGGCAATCGAAAAACTGGCGAAAAGCTTCATCACAGCGAGCCGCGAGGGGGCGAAGATTTTTCTGGCGGCGGTGCAGGCGGAGGGTCTCATTCCCGGTACGCTTGGAGAAGCTATGGCGGTCCAGCGGGCTTTTGCTGAAAGCTGGGCAGAACCGGTTGCCGGCTGGAAACTTGCTATCCGCGCGGATGGCGAGGCCATTGGGGCGCCCATGTTCGATTGTGTGCGGGTCGATGAAGCCAATGCCGCTTCTTTTCCCCGTAACGGCACCGAAGGCATCGAGGTCGAGATCTGCTTTACGCTTTCGGCGGATACTCCCGCTGCGGCGGCGGGGCCGCTGACAAGAGCCGACCTGATAGGATTTATCGACAAGGTCCATCTTGGTGCTGAACTTCTCCGCTACAGGCTGGTGGAAAAAAATCAGGTGCCGTTTCCGCTTTTTCTCGCGGATCGCCTCGCCAACCACGGCTTCGTCATCGGCCCGGAAGTCGATAAGGACATCGTGGATGTCTTTGCCGGAAATGGCGAGAACCTGCCGCAGCTCACCGTTACCGAGGGGTCGGTATCGTTGTTCGATGCTACGGTAAAACATCCGAATGGTGATCCGCTTGCGCCGCTTGTCGCCTTTGCCAATGCGGCATTCAACACAGGCGAAATGCTCAAGGCGGGCAATGTCGTAACGACGGGCAGCCTTTGCGGCGCGATACCAAGCACACTTGCCGGCGAGACGCACATTGCGCTGAAATCGGCTGGCGCCTTCACGCTGTCCGGTCCGAAACCATAA	MVAIEKLAKSFITASREGAKIFLAAVQAEGLIPGTLGEAMAVQRAFAESWAEPVAGWKLAIRADGEAIGAPMFDCVRVDEANAASFPRNGTEGIEVEICFTLSADTPAAAAGPLTRADLIGFIDKVHLGAELLRYRLVEKNQVPFPLFLADRLANHGFVIGPEVDKDIVDVFAGNGENLPQLTVTEGSVSLFDATVKHPNGDPLAPLVAFANAAFNTGEMLKAGNVVTTGSLCGAIPSTLAGETHIALKSAGAFTLSGPKP	PGPT0006005_833	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-3-PHENYLPROPIONIC_ACID|CINNAMIC_ACID_RESISTANCE,PGPT0006005-mhpD-K02554	NA	NA
BMS010_08060	906	dmlR_15		HTH-type transcriptional regulator DmlR	ATGGCGCGACTGGAGATCAACCGGGCAGGGGAGATGGAAATCTTCGTGCGGGTCGTCGAACTCGGCGGTTTTTCCCGCGCGGCCGCGGCGGCGAACATGACGCCTTCGGCGGTGAGCAAGCTGATCGCACGGCTGGAAGGCCGCCTCGGCGCGCGCCTGCTCAACCGTTCCACCCGGCAGCTTCAGATCACGCCCGAGGGCTGCGCCTTCTATGAAAGGGCCACCCGTATCCTCGCCGATCTCGAAGAGGCCGAACGCGCCGCCGGTGAGGGGGAGCAGCCTGTCGGCCGCGTGCGGATCAACACCAGCGCTTCTTATGCAACGCATATTCTTGCGCCCATCCTGCCGCGGTTTCTGGCGCTTCATCCGGGCATCACACTCGATATCGTCCAGACGGATATGGTGGTTGACCTTCTTGCGGAACGCATGGATGTCGCGGTGCGCGCCGGGCCGCTCAAAAGCTCAACTCTCGTCGCCCGGAAACTCGGTGAGACAGGGATGATCATTGCTGCCGCCCCGGATTATCTGGAGCGCTGCGGCGTGCCGCAAACCATCGCCGATCTGGAAGATCACAATCGGCTCGGATTTGGTTATGCCCGGTCAGTCGACGGGTGGCCGTTGCGGGATGCCGGAAAGACCGTCGTCATTCCGGCGACGGGGCGCGTGCAGGTCAGCGACGGCGAGGGCCTTCGCCGTCTTGCCCTTGCCGGTGTCGGGCTGGTCCGCCTTGCCGCCTTCACCGTGAGGGAGGATATCGCCGCCGGCCGGATTGTCTCCGTGCTCGATCACCTCGATACGGGTGAGACGGAGATGTTTCATGCCGTTTATGTCGGCCAGCGCGGGCCGCTTCCCGCACGCATCCGGGCCTTGCTCGATTTTCTCGGCGAGCACGGGCGCGTGAGATAA	MARLEINRAGEMEIFVRVVELGGFSRAAAAANMTPSAVSKLIARLEGRLGARLLNRSTRQLQITPEGCAFYERATRILADLEEAERAAGEGEQPVGRVRINTSASYATHILAPILPRFLALHPGITLDIVQTDMVVDLLAERMDVAVRAGPLKSSTLVARKLGETGMIIAAAPDYLERCGVPQTIADLEDHNRLGFGYARSVDGWPLRDAGKTVVIPATGRVQVSDGEGLRRLALAGVGLVRLAAFTVREDIAAGRIVSVLDHLDTGETEMFHAVYVGQRGPLPARIRALLDFLGEHGRVR				NA	NA	NA	NA	NA
BMS010_08061	1056	yajO_3	COG0667	1-deoxyxylulose-5-phosphate synthase YajO	ATGGAATATCGTCATCTCGGCCAATCCGGCCTGAAAGTACCGGTCTTGAGTTTCGGCACCGGAACCTTCGGCGGCTCCGGCCCGCTCTTCAGCAACTGGGGCAATTCAGACGCCACGGAAGCCCGGCGCCTGATCGATATTTGTCTGGAAGCCGGCGTCAACCTGTTCGATACCGCCGATGTCTATTCCAATGGCGCATCGGAGGAAGTGCTCGGCGAAGCCCTCAAGGGAAGGCGCGACAGCGTTCTGATCTCAACCAAGACCAGCCTGCCGATGGGCGATGGGCCGAACGAGGCGGGCTCGTCCCGCTTCCGGCTGCTGCGCGCGGTGGATGACGCCCTGCGCCGCCTAAAGACCGACTATATCGACATCCTGCAACTCCATGCCTTCGATGCCTTCACACCGGTCGAGGAGGTGCTGTCGACGCTCGATACGCTCGTCCGCTCCGGCAAGGTGCGATATACCGGCGTCTCGAATTTTTCAGGCTGGCAGATCATGAAATCGCTTGCCGTCGCGGACCGATATGGCTGGCCGCGTTATGTGGTCAATCAGGTCTACTATTCCCTGATCGGCCGGGATTACGAGTGGGATCTGATGCCGCTCGGCGCGGATCAGGGCCTTGGCGCAATGGTCTGGAGCCCGCTTGGCTGGGGGCGGTTGACCGGAAAATTCCGCCGCGGCACACCGCTGCCTGAAGGTAGCCGCCTGCATGAGACCGCCAGCTTCGGCCCGCCGGTTAATGATGAGCATCTCTACCGCGTCATCGATGCGCTCGACGCTGTCGCGCAAGAAACCGGCAGGACGGTGCCGCAGGTCGCCCTCAACTGGCTGCTCAGACGCCCCACTGTTTCCACGGTCATCATCGGCGCACGCAATGAGGAACAGCTTCGCCAAAACCTCGATGCCGTGGGATGGGAATTGACGTCCGCACAGGTAGCGACGTTGGACGAGGCAAGCGCGACGACTGCTCCCTATCCGCATTTCCCGTATCAGCGCCAGGAGGGGTTTGCCCGGCTTAATCCACCGGCCGTAACACGCCAGACCATGCCGTTCTAA	MEYRHLGQSGLKVPVLSFGTGTFGGSGPLFSNWGNSDATEARRLIDICLEAGVNLFDTADVYSNGASEEVLGEALKGRRDSVLISTKTSLPMGDGPNEAGSSRFRLLRAVDDALRRLKTDYIDILQLHAFDAFTPVEEVLSTLDTLVRSGKVRYTGVSNFSGWQIMKSLAVADRYGWPRYVVNQVYYSLIGRDYEWDLMPLGADQGLGAMVWSPLGWGRLTGKFRRGTPLPEGSRLHETASFGPPVNDEHLYRVIDALDAVAQETGRTVPQVALNWLLRRPTVSTVIIGARNEEQLRQNLDAVGWELTSAQVATLDEASATTAPYPHFPYQRQEGFARLNPPAVTRQTMPF	PGPT0017540_1333	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017540-yajO|iolS-K23107	NA	NA
BMS010_08062	951	panS_2	COG0385	Pantothenate precursors transporter PanS	ATGAAAACACTGGCAGCCGTTTCGGCTTTTGTAGGCAAGACCTTTGCCGCCTGGGTCATCCTGTTCGCCGTGCTCGGCTTCTTTTTTCCGGATACGTTCAAGCAGATTGCGCCGTGGATCGTCACGCTTCTGTCGATCATCATGTTCGGGATGGGCCTCACACTTTCGGTCGATGACTTCAGGGAGGTTGTAAAAAGGCCGTTCGATGTGACGATCGGCGTGCTCGGCCAGTTTCTCATCATGCCGCTTCTGGCGGTGCTGCTCACCCGGATCATTCCCATGCCGCCGGAAGTCGCGGCGGGTGTCATTCTGGTCGGCTGCTGCCCTGGCGGCACATCGTCCAATGTCATGACCTATCTCTCCAAGGGCGATGTCGCCTTGTCCGTTGCCTGCACCTCGGTCACCACGCTTGCCGCGCCGCTGGTGACGCCGTTCCTCGTCTGGCTGTTTGCGAGCCAGTTCCTGCCGGTCGATGGCTGGGCCATGTTCCTCAGCATCGTCAAGGTCGTTCTGGTTCCGCTCGCTCTCGGCGCCGCCCTGCAGAAGCTGCTGCCCGGTCTCGTCAAGACCGCCGTTCCGGCATTGCCGCTGGTGAGCGTCATCGGCATCGTCCTCATCGTTTCGGCGGTGGTGGGAGGATCCAAGGCGTCCATCGCCCAGTCCGGACTGATGATTTTTGCCGTCGTCGTCCTGCATAACGGGCTTGGCTATCTCCTCGGTTACCTCGCGGCAAAGGCAACGGGCCTGTCGCTTGCCAAGCGCAAGGCCATTGCGATCGAGGTCGGCATGCAGAATTCGGGCCTTGGCGCGGCGCTTGCAACGGCTTATTTCTCGCCTCTCGCTGCGGTTCCGAGCGCCATTTTCAGCGTCTGGCACAATATTTCCGGTGCAATCCTGGCGAACTGGTTTTCCGGCCGGGTGGACGCAGGTTCCGCCAACAAAGCCGCCTGA	MKTLAAVSAFVGKTFAAWVILFAVLGFFFPDTFKQIAPWIVTLLSIIMFGMGLTLSVDDFREVVKRPFDVTIGVLGQFLIMPLLAVLLTRIIPMPPEVAAGVILVGCCPGGTSSNVMTYLSKGDVALSVACTSVTTLAAPLVTPFLVWLFASQFLPVDGWAMFLSIVKVVLVPLALGAALQKLLPGLVKTAVPALPLVSVIGIVLIVSAVVGGSKASIAQSGLMIFAVVVLHNGLGYLLGYLAAKATGLSLAKRKAIAIEVGMQNSGLGAALATAYFSPLAAVPSAIFSVWHNISGAILANWFSGRVDAGSANKAA	PGPT0013890_1541	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013890-panS|yocS|ybaS-K03453	NA	NA
BMS010_08063	801			hypothetical protein	ATGGCTTTTTCTGCAAGCGCGGCCTCAGCCGCGGATCAACTCGGCTCCCTACCCGCGAGGGTTGACGGCGCCGATTGGGCGTTTCAGGCAACGGGTTATCTGTGGGCGACGGGTTTGAACGGCAACATTTCGCCCTTCCGTCGCGCACCAACGCTGCATGTGGAAAAATCCTTCTCCGACGTCATGGACGACCTCAACTTCGGCGGGTTCTTGAACATCTGGGGCCGTTATGACCGCTTCGTCCTGTCCGGCGATCTAATGTATGTCGACACCACGGACAGCAAGGCGGCCGGGCCGCTGCCGGCGCTGCAAATCCCGGGTTTGCCCACCCTTCCGGCTGGCGCCGCAATCGATGCGAACGTCGATACGCAGGAATTCATGGCGACATTACAGGCCGGTTACCGGATCGTGGATGCAGACGGATTTTCGCTCGACGCCTTGGCGGGAGCCCGCTTCTGGCATATCTCCAACGCGGTGGCTGTCACTGCCAGCCATCCCCTGATCGGCAGCGTATCCGCCACGTATAAGGAAAGCTTCGGGTGGGTTGATCCCGTGATCGGCGCGCGGGCCTTTTTCAACCTCACGGATAAACTCTCCTTGCAGGGACAGGTCGATATCGGCGGCTTTGGAGCGGGATCGGATCTCACCTGGTCTGCGCTCGCGACGGTGAACTACATCTTCACGGACACACTGTCCGTCTCGGCAGGTTACAAGGTGCTCGACGTGGATTATTCAGACGACGGTTACGTTTTTGATTCGAGGCTGAGCGGGCCGGTGGTCGGTCTGACCTATCGGTTCTGA	MAFSASAASAADQLGSLPARVDGADWAFQATGYLWATGLNGNISPFRRAPTLHVEKSFSDVMDDLNFGGFLNIWGRYDRFVLSGDLMYVDTTDSKAAGPLPALQIPGLPTLPAGAAIDANVDTQEFMATLQAGYRIVDADGFSLDALAGARFWHISNAVAVTASHPLIGSVSATYKESFGWVDPVIGARAFFNLTDKLSLQGQVDIGGFGAGSDLTWSALATVNYIFTDTLSVSAGYKVLDVDYSDDGYVFDSRLSGPVVGLTYRF				NA	NA	NA	NA	NA
BMS010_08064	1068	cbh		Choloylglycine hydrolase	ATGCGCCAGAGCACCCTTCCGTTTTTTTCCGCCTGCACCGCCGCGATCTTTTCCATCGCGACGCTCACAACCTCTGTCGCGCAGGCCTGCACGCGGTTCGTCTATCTGGGCGAAAATAATCAGGTGATGACGGCCCGGTCGATGGATTGGAAAACGGATGTAGGAACCAATATCTGGGTCTTCCCGCGCGGCATGGAGCGCTCTGGCGAGGCTGGGCCGAATTCGGTCAAATGGACTTCGAAATACGGCAGCGTCATTGCATCGGGCTATGATATTTCCACGACGGACGGCATGAATGAGGCGGGGCTTGCTGCAAACGTCCTCTGGCTGGTTGAGTCGAGCTATCCCGCCTATGACGGCAAATCGCCGGGTCTGTCTATCGCGGCCTGGGCGCAATATGCACTCGACAATTTCGCGACGGTGGAAGAGGCAGTCGCTGCGCTCGAGAAAAACCCCTTCACAATCGTGACCGACAATGTGCCCGGCGAAGAGCGTCTGGCAACTTTGCACCTTTCCCTTTCGGATGCGAGCGGCGACAGCGCTATCATTGAATATATCGATGGCAAGCAGGTCATCCATCACGGGCGTCAGTTTCAGGTGATGACCAATTCGCCGACCTTCGACCACCAGCTGGCGCTCAACGAATATTGGCAGCAGATCGGCGGCACTGTCATGCTGCCGGGCACCAACCGCGCATCGGACCGGTTTGCCCGCGCCTCTTTCTACGCCAACGCCATTCCAAAGAGCGAGAACCCTGTCGAAGCCATCGCGAGCGTCTTCAGCGTGATCCGCAACGTCTCCGTTCCCTACGGCATTACCACACCAGACCAGCCAAATATTTCCTCAACCCGCTGGCGCACGGTGATAGATCACAAACGCAAACTCTATTTCTTCGAATCGGCTCTGACGCCGAATATCTTCTGGATCGACATGACGAAACTCGATCTCTCGAAAGAAACCGGTGCGGTCAAGAAACTCGATCTCGGCCCCAATCAGATCCATATCTATTCGGGTATGGCGAATGAGAGCCTGAAGGACACCAAACCCTTCAAGTTCCTCGGGCTTTGA	MRQSTLPFFSACTAAIFSIATLTTSVAQACTRFVYLGENNQVMTARSMDWKTDVGTNIWVFPRGMERSGEAGPNSVKWTSKYGSVIASGYDISTTDGMNEAGLAANVLWLVESSYPAYDGKSPGLSIAAWAQYALDNFATVEEAVAALEKNPFTIVTDNVPGEERLATLHLSLSDASGDSAIIEYIDGKQVIHHGRQFQVMTNSPTFDHQLALNEYWQQIGGTVMLPGTNRASDRFARASFYANAIPKSENPVEAIASVFSVIRNVSVPYGITTPDQPNISSTRWRTVIDHKRKLYFFESALTPNIFWIDMTKLDLSKETGAVKKLDLGPNQIHIYSGMANESLKDTKPFKFLGL				NA	NA	NA	NA	NA
BMS010_08065	231			hypothetical protein	ATGACGATTTTTGGGCCTTTCGATAGAAATAGCGAATACTTCGGTCGTGCTGAACAGCAATGGATGATCAATTTCCGGGTGGATGATCTCGATGCTCTTATCGCGAAGCTGACGGCAGACGGCATCGAGGTTGAAACCCGCGCCGAATGGGATTCGGAGGTGGGACGCTTCGCAAGGATACATGATCCGGAAGGTAATCCGGTGGAATTGTGGGAGCCCGCTCGGAGCTGA	MTIFGPFDRNSEYFGRAEQQWMINFRVDDLDALIAKLTADGIEVETRAEWDSEVGRFARIHDPEGNPVELWEPARS	PGPT0009155_2957	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058	NA	NA
BMS010_08066	600	sodB_4	COG0605	Superoxide dismutase [Fe]	ATGGCTTTCCAGCTTCCCGACCTCCCCTATGCCTATGATGCGCTCGCCCCCTCGGGCATGTCCGAGGAGACGCTGCAGTTCCATCACGATCTTCACCACAAGGCCTATGTTGATAATCTCAACAAGGCGATCGTCGGCACCGAATGGGAAAACAGGAGCCTCGAAGAGATCGTCCGGGGCACCTATGAGACGGGTGCGGTGGCGCAATCCGGCATCTTCAACAATGCCTCCCAGCACTGGAACCACAATCTCTTCTGGGAAATCATGGGGCCGGAAAATCATGCGATCCCCAAGGTGCTGGAAGATGCGCTGACGCAGTCCTTCGGCTCGGTCGCGCTGTTCAAGCAGAATTTCGCCCTCTCCGGCGCCTCCCAGTTCGGTTCGGGCTGGGCGTGGCTGGTGGTGGATACCGATGGTTCGCTGAAGATCACCCGCACCGAAAACGGGGGCAATCCGCTCTGCTTCGGGCAGAAGGCGCTTCTTGGCTGCGATGTGTGGGAACACAGCTATTACATCGATTTCCGCAACAAGCGCCCCGCTTACCTCGAAAACTTCCTCGACAATCTGGTGAACTGGCAGGCGGTCGCCGCCCGCCTTTGA	MAFQLPDLPYAYDALAPSGMSEETLQFHHDLHHKAYVDNLNKAIVGTEWENRSLEEIVRGTYETGAVAQSGIFNNASQHWNHNLFWEIMGPENHAIPKVLEDALTQSFGSVALFKQNFALSGASQFGSGWAWLVVDTDGSLKITRTENGGNPLCFGQKALLGCDVWEHSYYIDFRNKRPAYLENFLDNLVNWQAVAARL	PGPT0004190_5018	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0004190-chrC|sodB|sodA-K04564	NA	NA
BMS010_08067	336	fdxA_2	COG1146	Ferredoxin-2	ATGCCCTATGTCGTCACCGAAAACTGCATCGCCTGCAAATATATGGACTGCGTGGAAGTCTGTCCGGTCGAATGTTTTTATGAAGGCGAGAACATGCTCGTCATTCACCCCGATCAATGTATCGACTGCGGGATTTGCGAGGGCGAATGTCCCGCCGCCGCGATCCGGCCGGATACCGAAGCGGGGCTGCATGTCTGGCTCGACCTCAACCGCCACTATTCCGGCATCTGGCCGCGCGTGCACGAGAAAAAGTCACCGCCTGACAATGCCGACATCATGAATGGCGCTGCGGCGAAGATGTCCATTTTTTCGAAAAATCCGGGAGCGGGCGGTTAG	MPYVVTENCIACKYMDCVEVCPVECFYEGENMLVIHPDQCIDCGICEGECPAAAIRPDTEAGLHVWLDLNRHYSGIWPRVHEKKSPPDNADIMNGAAAKMSIFSKNPGAGG	PGPT0030810_611	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-FE-S_CLUSTER_BIOGENESIS,PGPT0030810-fdxA-K05524
BMS010_08068	552	hsaB_2	COG1853	Flavin-dependent monooxygenase, reductase subunit HsaB	ATGTCTCATAATCTCAGGCTGATCGATGGCGGTGTGGTCAATCACGCGCATGTTCCGCTGAAAGCTTGCGCCTCTCCGATGATCTCCCCGCGTGAATTCAAGGATTCAATGGCCGGCCTAACCTTCACCGTGGCGGTGGCCACGACCTGCCATGCCGGAGAGCGGGTTGGGCGGACAATCACCTCCTTCATGCCGCTCAGCGCAGAACCGCCGCTTCTGATGATCTCCATCGACGCCAGCAGCCGCATGGTCGATCTCATCGCAGCGAGCCGACGCTTCTCCGTTGCGGCACTGGCCAGAGGACAGGAGGAGATTGCCGATGTCTTTGCGGGCAAGGGAAATCACCCGGACCGGTTCAGCATCGGAGACTGGGATGCCTGGCCGTCAGGAAGCCCCAGACTTGCCGATGCGCTTCTGTCCATGGACTGCGAACTTGTCGGTTCCATCGATGCCGCAGACCATATCCTGTTCGTGGGCGCCATAACCGAAGCGATGTCGGACCGGCTGCACAGAGCCCTGCTCTGGAGCGAGCGCGCCTATACCGGCACGTAG	MSHNLRLIDGGVVNHAHVPLKACASPMISPREFKDSMAGLTFTVAVATTCHAGERVGRTITSFMPLSAEPPLLMISIDASSRMVDLIAASRRFSVAALARGQEEIADVFAGKGNHPDRFSIGDWDAWPSGSPRLADALLSMDCELVGSIDAADHILFVGAITEAMSDRLHRALLWSERAYTGT				NA	NA	NA	NA	NA
BMS010_08069	786	suhB_5	COG0483	Fructose-1,6-bisphosphatase/inositol-1-monophosphatase	ATGAGCGAACGTCTCGAAGGCGCAGTTGCCATCATCGAGGAAGCGATGGGCCTTGCCCTTCGCTTTTTCGAGGCGCGCGACGCCATCGCCACCCGGACGAAGGGTTTTCAGGACTTTGTCTCGGAAGCCGACACTACGGTCGAAAGACTCATCCGCGAGCGGCTGGCCGCGGCGTTTCCGGGCGAAACCGTGCTGGGCGAAGAAATGGGCGGTGTGGCCGATGACGCCTACTGGATCATCGATCCCATCGACGGCACCGCCAATTTCCTGCGCGGCTCGCCGCTCTGGGGCATTTCGCTCGGTTTCGTGCGCAGTGGCCGGCCGGAACTCGGCGTTGTCGCGATCCCGGTCTTCGGGGATATCTACGCGGCGGCTGATGGGACCGGGCTGATGCTCAACGGCAAACCGCTTGCCCGCCACGTGCCTTTCGAGGATGTGCAGGTCATGTCGCTCGGAGACAGCGCCGCTGCCGATGCCGCGGAGGTGGCGGCCCTCAACGTCGGGCTAAGGCATGCCGGCTGGGTGGTGGAATCCATCCGCTCGACATCGATCGGCCTCGTCTTTGCCGCACGCGGCATCTTCGACGGTCATCTGCAGAAGCTGACGACCATGTGGGATATCGCCGGTGGCGTCGTTCTTGCAAGGGAGGCGGGTCTCGATGTCCGTATTGGAACGCGCCTCGGTAGCGGCATTCCGTGGGTTGCTGCTGGGACGCCGGCGCTGATGGCGGTGACGGAGGGGCTCTGGCCGGACGTCGTTGAAAAAGCGCCGGCGGAACCTGCATGA	MSERLEGAVAIIEEAMGLALRFFEARDAIATRTKGFQDFVSEADTTVERLIRERLAAAFPGETVLGEEMGGVADDAYWIIDPIDGTANFLRGSPLWGISLGFVRSGRPELGVVAIPVFGDIYAAADGTGLMLNGKPLARHVPFEDVQVMSLGDSAAADAAEVAALNVGLRHAGWVVESIRSTSIGLVFAARGIFDGHLQKLTTMWDIAGGVVLAREAGLDVRIGTRLGSGIPWVAAGTPALMAVTEGLWPDVVEKAPAEPA	PGPT0018535_6217	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018535-suhB-K01092	NA	NA
BMS010_08070	897			hypothetical protein	ATGCATCAAACCCTTGCCGCCTCCCAAAATACCTCCAGCCCCTGCAATGTCCTTGCGCTCTGCTCGCGCGATAATCCGGCCATTCTGACCATTGCCCATCGCGGTTTCTGGACCGCCACCGCCGAAAATTCGCTTGCTTCCGTCCGTGCCGCGGTTGCAGCGGGGGTAGAGATGATCGAGATCGACACGCAGGCGACGGCCGATGGCCGGCTCGTTGTCATTCATGACGAAACGCTCGACCGCACCACGACGGGCAAGGGAACCGTGAGCGCGCTATCTTTCGAGGTGGTTCGCGCAGCGAAGCTGAAGGCCGGCGCAGGCGGTGATGCAGCTGACGTGACCGATGAATGCGTGCCGACACTGGAAGAATTGCTGGAAGAGGCGCGCGGCAAGATCACCGTCAATATCGACACGAAATTCACCCGCGATCTGCCGCAGGTCATGGAAACCGTGCTGCGGCTTGGCGTCCAGGATCAGGTGCTGGTCAAGACAGATATCGATCCCGAAGCGGGCCGTTTCGAGGTGCTGGACACCGACTGGTTCGGCAAGATCCCGCATATGCCGATGTTTCCGGTCAGAAAGGGCGGGTTCGCTGAGGATCTGCGCCGTATCGAGGCGTTGCGTGCGCCGATGATCGAGGTGAAATTCACCGATATAGCCGATCTGGCCGAAGGCCGGGCCGAGATGGAGCGCCAGAATATCCGTCTCTGGATCAACACGCTCGACGTCTCCCATTGCCTCGATTTCAACGACACGCGCGCACTGGCAGACCCTGAAGCCGTGTGGGGCGCTCTCGCCGAGGCCGGCGTCGGTGCGATCCAGACGGATGAGGTGGAAGCCTTCACCGGCTGGTTGAACACGGGTGCGGGTGTGACAGGTAGAGCGTGGGCACGATGA	MHQTLAASQNTSSPCNVLALCSRDNPAILTIAHRGFWTATAENSLASVRAAVAAGVEMIEIDTQATADGRLVVIHDETLDRTTTGKGTVSALSFEVVRAAKLKAGAGGDAADVTDECVPTLEELLEEARGKITVNIDTKFTRDLPQVMETVLRLGVQDQVLVKTDIDPEAGRFEVLDTDWFGKIPHMPMFPVRKGGFAEDLRRIEALRAPMIEVKFTDIADLAEGRAEMERQNIRLWINTLDVSHCLDFNDTRALADPEAVWGALAEAGVGAIQTDEVEAFTGWLNTGAGVTGRAWAR	PGPT0018470_3822	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
BMS010_08071	1143	nagC_3	COG1940	N-acetylglucosamine repressor	ATGGATCAGACCCAGCCCCAGAGTTTCGACCGCCAGCCGCTTGCCAGCGAGAATGAGCGCCTCGTTCTCGATATCATCCGCCGCCACGGCCCCATCGCCCGCGCATCGATCACCGGTCACACCAACCTGACCCAGCAATCCGTGCACCGGCTGATCGAAGGCCTGCTGGAGCGCGGGCTTCTGCGAACCGGCCCGCCGCTCAAGGGCACCCGCGGCCAGCCGAGCCCCACCATCGAACTGGTGCCGGAAGCGGCCTATTCGCTTGGCATTTCCATCAACACTGACTCGGTGGTGATCTGCGTCGCCGATTTCCGCTGCGACGTGATTTTCGAGGAAAAGCTGAAGATGCTTCCGGAGGATAGGGAGGAGACGCTTGCGGCCTTGTCGCAGGCCCTCGAACGGCTGCTCTCGGAACACGGCATCCCGCGCGAGCGTCTGCTTGGCCTCGGTTTTTCCATGTCCGGCTTCTTCGTGTCGGAAGATCGCGCCTTCAATGCGCCGGAGCCCCTGCGCGACTGGTCGCTGATGGACCTGAAGCCGATCCTTGAGAAACGGTTCCGGCTGCCGGTCTGGCTGGAGAACAATGCCACCACAGGCGCGATCGGCGAAAGTCTTCGCGGCGTGGGCTCCTGGTGCCAGACCTTTGCGTACTTGTCGTTCAACTACGGTTTCGGCGGCGGGTTGATCCTCGGTGGCCAGCCGTTTCACGGCTTTCATGGCAATGCCGGCGAATTCAGCGGCATATACAGCCCGGATGAATCGCCCAAGCGGCCGGCGCTGCAATATCTGATCGCTACCTTGCAGAAAAACGGGGTCGATATCCATTCCATCGAAGCGCTCTACCAGCAATTCGACCCCGCATGGCCGGGCGTCGAGGAGTGGCTCACCGAGACGATGCCGCAGGTGGATCGTCTGGTCGCGAGCCTGATATCTGTTCTCGATCCGCAAGCCATCGTCTTCGGCGGGCAATTGCCGCGCACATTGGGCCAGATGATGATTGAACGTACGCGCATGCCCTCAGAGCGCCAACATCGTTACGGTGTCGGCCCAAAGGAGGCGAAGCTGGTTCTCAGCGAAACAAAGGGCGATCCATCCGCCATCGGTGCGGCGCTGCTGCCGCTCAGGGTGCGCTATTTCCTGTAA	MDQTQPQSFDRQPLASENERLVLDIIRRHGPIARASITGHTNLTQQSVHRLIEGLLERGLLRTGPPLKGTRGQPSPTIELVPEAAYSLGISINTDSVVICVADFRCDVIFEEKLKMLPEDREETLAALSQALERLLSEHGIPRERLLGLGFSMSGFFVSEDRAFNAPEPLRDWSLMDLKPILEKRFRLPVWLENNATTGAIGESLRGVGSWCQTFAYLSFNYGFGGGLILGGQPFHGFHGNAGEFSGIYSPDESPKRPALQYLIATLQKNGVDIHSIEALYQQFDPAWPGVEEWLTETMPQVDRLVASLISVLDPQAIVFGGQLPRTLGQMMIERTRMPSERQHRYGVGPKEAKLVLSETKGDPSAIGAALLPLRVRYFL				NA	NA	NA	NA	NA
BMS010_08072	540	fecI_2	COG1595	putative RNA polymerase sigma factor FecI	ATGCGCCCAGCCAGTACGTCACCGGGTCGATTGATGAGCAAAGCCCTGTTACAGGTTCTCGATGCCGAGGAGGAAAGCCGCCTGATGCGGTTTTTCCGCCGGCGTTTGCAGAACCGGGAAGACGCTGCCGACGCCATGCAGGAAACCCTGCTTCGGGCGCTGGAGGTTTCTCATGCCACGCTGATCGACAATCCACAGGCCTATCTCTTCCAGATCGCCCGGTCCGTCGCCCGCCTGACCGCCATTCGCCAGTCGCGCGAGCGGCCGTTATTCGCACCTTACGATGCGGGTTTTGCCGTTGCCTGCGAAGAGCCGGGGCAGGAGCGGATCGTCGCCGGGCGGCAGCACCTTATTTTAATGGCGCGGGCCATCGAGGCACTGCCCAAGCGTTGCCAGCAGGTCTTCGTGCTCAGCCGCCTGCATGGCCATTCCAACGGCGAAATCGCCGCCCTTCTCGGCATTTCCCGCAACATGGTGGAAAAACACATCATCAAGGCGCTGCTGCACTGCCGTCAGGTCCGCGCGCAAATAAAAATGTAG	MRPASTSPGRLMSKALLQVLDAEEESRLMRFFRRRLQNREDAADAMQETLLRALEVSHATLIDNPQAYLFQIARSVARLTAIRQSRERPLFAPYDAGFAVACEEPGQERIVAGRQHLILMARAIEALPKRCQQVFVLSRLHGHSNGEIAALLGISRNMVEKHIIKALLHCRQVRAQIKM				NA	NA	NA	NA	NA
BMS010_08073	969	fecR_2	COG3712	Protein FecR	ATGAACAAGCGCCCGGACGGTCTGAAGGATAACGGCTTGACCGATGACGGTCTGGCCGAAGAGGCCGCGCTGTGGGTGGCGCGCATGCAATCGGCAGACGCGACGGAAGCGGAGCGCGAGGCGTTTCATGTCTGGCTGCGGGCCGATGCCGCCCATGCCAGCGCCTATGAGGACATGCAGAGCCTCTGGGGTGAGCTTGGCGATATCGAGCTTGCGCCGGTTGAACAGCGAAAACGGCGCGGACCTCGCCGGGCAATGCTTGCGGGTGTTGCCGGTCTCTGCCTCATCGGGCTTGCAGCGCTGTTTGCGGAGAAAAGCGGATTGAAGGACCGCTGGCAGGCGGATTATTACACCGAAATCGGCGAAACACGCCTGCTTTCGCTGGAAGACGGCAGCCGCGTCAGCCTGAACACCGACACGGCGATTGCGGTTCATTATTCGCAAAAGGAACGGCGCATCACCCTTCTTCGCGGCGAAGCCTATTTCGATGTCGCCAAAAACCCGGAGCGGCCTTTCATTGTCGAGGATGGAGCGCTGACGGCAAAGGCGCTCGGCACCCATTATTCGGTGCGCACCAGCAATGGCGCGCTGCCGCAGGAGGTGCAGGTGGAGGAAGGCCGGGTGGAAGTGACCACAGGCGTCGAGATCGCCGTGCTGACACCCGGAGAGGCCGTGACCCTTGGCGGTGATGGCCGGCTGGTGCGCGCCCGTAAGGATGTCGCCAACAGCATGGCCTGGCGCGAAGGCAAGCTCGTCTTTTCCGGCCAGCCGCTGCGCGAGGTTCTCGATATTCTCTCGCAATATCGCCGGGGCCGCATCGTCATCCTCGATGACGCGGCGGCGAGGCAGCACGTCTCCGGCATCTTCGACCTCAAGGACACGGATCAGGCGCTGACGATTCTCGAAGAAAGCCTTCCCGTTTCCGTATCGCAGCTTTCCGGAATGCTGGTTTTCGTCCGCTCCCGATAA	MNKRPDGLKDNGLTDDGLAEEAALWVARMQSADATEAEREAFHVWLRADAAHASAYEDMQSLWGELGDIELAPVEQRKRRGPRRAMLAGVAGLCLIGLAALFAEKSGLKDRWQADYYTEIGETRLLSLEDGSRVSLNTDTAIAVHYSQKERRITLLRGEAYFDVAKNPERPFIVEDGALTAKALGTHYSVRTSNGALPQEVQVEEGRVEVTTGVEIAVLTPGEAVTLGGDGRLVRARKDVANSMAWREGKLVFSGQPLREVLDILSQYRRGRIVILDDAAARQHVSGIFDLKDTDQALTILEESLPVSVSQLSGMLVFVRSR	PGPT0003910_4718	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0003910-prhR|fecR-K07165	NA	NA
BMS010_08074	2430	btuB_4		Vitamin B12 transporter BtuB	ATGAATTTGGGCAAGCAGGCACGCGGCTGGTTCTGGCTGACGACGACGGCGATCATCGGGGGTATCGTCGCCGCAGGTCCGGGCGCCACGACCGTCAGCGCGCAGACACCGCCCGCCGCAAGCGACGCACCCGCCACCGTCACCGTCTCCATTCCCGCAGGGCCGCTGGAAAACGCCATTCTCAGCTTCGGCCGTCAGGCCAATCTGCGCATGGTCTACCCCTCCGCGATCACCAGGGGTCGCAGCACGGCCGGCGTCCAGGGCACGCTCAGCGTATCGGCGGCGGTCAGCGGGCTTCTGGCCGGCTCGGGACTGAACTACGCATTGGCCGGCAGCAACACCGTCCGCATTTTCGATCCCGCCAGCCAGACCGGCGAAAGCGGCGGTTCGGCTGCCGCCGGCAGCACCCTGCTTGCGCCGATCACCGTGCAGGGCACCGGCCTTGAAGGCGCCAGGGGCATCATAGAGAGCAATGGCTATGTCGGCAAATCCGGCCGCACCGCCACCAAGACCGATACGCCGGTTGCCGAAACCGCCCAGTCGATCACCACCGTCAGCCGCAAGCAGCTCGATGACCTGAAGCCGCAGAACCTCTCGGAAGCACTGAATTACACGCCCGGCGCACGCATCGGCCAATATGGCGCGGAGCCGCGTTTCGACGCCTTCAAGGTGCGCGGCACCGATCTCAGCACCACCGGCATCTTCCGCGACGGCCTGCGGCAGGTCAGCAGCCAGAACGGCAGCGCCCGGCTTGAGCCCTATGGCGTGGAAGCGGTTTCCATCCTGCGCGGTCCCGCCGCCTCCATCTATGGCGCAAGCAGCTCCGGCGGCATCGTCGATATCATTTCGAAACGCCCGACCGAAGAAACGCTGCGCGAGGTGGAGCTGCAATATGGCTCCTTCGGCCGCGTGCAGGGCGCTTTCGATCTTTCCGGCGCCGTCGATGACGAGAAGACCATGCTTTACCGCCTGACCGGGGTGGCCCGCGACGGCCGCAACGAAATCAGCGCCATCAAGGACGACCGGCTGTTCATCGCGCCGGCCTTCACCTTCCAGCCGGATGCCGGCACCAAGCTGACGCTGCTCGGCGAATATATGGACAGCACCACCGGCGGCACCTGGGGATACATCAACAATTACGGCAGCGACGGCAAGTCGATCGGCGCGACGCCGGTTTATGGCGGCGATTCCCGTTTTAATGATTTCGAGCAGAAACAATGGCGTATCGGCTATGAGTTCGAGCATGAAATCAACGACAACGTCACCTTCTACAGCAAGGCGCGTTATTCGGCCCTTTCGGCCGACCAGCAATGGGTCTTCGCCAACTATCCAGGCATCACCATCGAAGACAATGAAGGCGTCTCCGCCGACAATTACCTGAAGACAGAATTCGACACAGGCCCGGCGAAACATACGCTGCTGACCGGTATCGACGTCAGCCACATGTCCTACACCTCGAAACAGGGCAATGGCACCAGCCCCTTCACTGACACCTTCACCTATGTGCCTGATGTGTCGCTGATACTGAAGCAGCGGATGAACACGCTCGGCATCTACGCGCAGGATCAGGTCGAAATCGACCGCTGGCGCCTGACGGCCGGCATCCGCCACGACTGGCTGGATACCGAATATCAGGCCCAGACCGTCGGAGGCGCAACGGCTCCCACCTATGACGGCGATGAAACCAAGACGACCGGCCGCGCCAGCCTCGGTTATGTCTTTGACAGCGGTGTGATGCCCTATGCCAGCTACGGCACCTCCTTCGTCGCCAATCCGGGCGTCATCATCACCACCGGCACGGTAACGGGACAGGCGCAGCCGACTGTCGGCAAGCAATATGAACTCGGCGTGAAATATGCCCTGCCGCAATATAACGCCCTGCTGAGCGCCGCCTTCTTCAATCTCGATCAGGACAATGCGACGGTCTACGAGACCTCGTCCGGCATCAACCTGCTGCGCCAGCTCGACCTGCGCTCGCGCGGCGTGGAACTCGAAGCCACGGCCTCGCTCGACAATGGCTGGAGCCTCATCGGCTCCTATTCTTATAATGACGTTGAAATCACCAAACTGACGTCGGAAACGGTGGGCAAGCAGCTCAATTCATCGCCCTATCACACCTTCTCGCTGTGGGCCGATTACGAGTTCCAGAGCGGCGCGCTCGAAGGCCTCGGCATCGGCGCGGGGCTGCGTTATGTCGGGTCGAGCTTCGGCGACAACCAGCACACGCCCATTCTCGACAACGAGGCCCGCACCTTCGTCGACGCATCGCTCCGCTACGATCTCGGCAAGGCCCTGCCCTCGCTGGAAGGTGTGAAACTGCAGATCAACGCCACCAACCTTCTCGACGAGGTGAAACAGGTCTGCACCACGGGCTTCTGCTATTATGACGAAGGCCGCAAGGTCGTCGGCAGCATCCGGTATCGCTTCTGA	MNLGKQARGWFWLTTTAIIGGIVAAGPGATTVSAQTPPAASDAPATVTVSIPAGPLENAILSFGRQANLRMVYPSAITRGRSTAGVQGTLSVSAAVSGLLAGSGLNYALAGSNTVRIFDPASQTGESGGSAAAGSTLLAPITVQGTGLEGARGIIESNGYVGKSGRTATKTDTPVAETAQSITTVSRKQLDDLKPQNLSEALNYTPGARIGQYGAEPRFDAFKVRGTDLSTTGIFRDGLRQVSSQNGSARLEPYGVEAVSILRGPAASIYGASSSGGIVDIISKRPTEETLREVELQYGSFGRVQGAFDLSGAVDDEKTMLYRLTGVARDGRNEISAIKDDRLFIAPAFTFQPDAGTKLTLLGEYMDSTTGGTWGYINNYGSDGKSIGATPVYGGDSRFNDFEQKQWRIGYEFEHEINDNVTFYSKARYSALSADQQWVFANYPGITIEDNEGVSADNYLKTEFDTGPAKHTLLTGIDVSHMSYTSKQGNGTSPFTDTFTYVPDVSLILKQRMNTLGIYAQDQVEIDRWRLTAGIRHDWLDTEYQAQTVGGATAPTYDGDETKTTGRASLGYVFDSGVMPYASYGTSFVANPGVIITTGTVTGQAQPTVGKQYELGVKYALPQYNALLSAAFFNLDQDNATVYETSSGINLLRQLDLRSRGVELEATASLDNGWSLIGSYSYNDVEITKLTSETVGKQLNSSPYHTFSLWADYEFQSGALEGLGIGAGLRYVGSSFGDNQHTPILDNEARTFVDASLRYDLGKALPSLEGVKLQINATNLLDEVKQVCTTGFCYYDEGRKVVGSIRYRF	PGPT0003790_9588	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS010_08075	1224	ampG_2	COG0477	Anhydromuropeptide permease	ATGCTGCAGCAGAACCCTGCCACAACCAAGCCGTCGCCGGCCGCCGTCTTCGTGGCGGTCGGCGGGCTTTATGTCGGCCAGAGCGTGATTGGCGGGCTGACCTTTCTCGGCCTGCCGGCGGTGCTCAGAACCGCCGGACTGCCGCTGGACCAGATCGGCCTGCTTTATCTCGTCGTTCTGCCCTGGGCGCTGAAATTCCTCTGGTCGCCGCATGTGGAGCGTTACCGGCTGCCGCCCGTCGGCAGGAACCGGTCTCGGGTGATCGTCGGCACGGGCATCGCCGCCTGCGCCTGCGGCCTCGCTGTTCTTGCTTTCACCGGCCCGTCCCCGGTTTCCGTCGCAATCGCCATCCTGTCGGTGATAGCGCTGGTGACGGCGACAGTCGACATCGCCTGCGACGGCTATGCGGTCGAAACGCTGGCGGAAGAGCATCATGGCTGGGGCAATGCCGCACAGGTCGGCGGCTCCTATCTCGGCTCCGCCATCGGCGCCGGCCTGTTTCTGGTGCTGGTGGAGCGCGCCGGCTGGACGAGCGCCACGCTGGTCATGGCCGGGCTGGTCATCCTGCTCGCGCTCCCCTTCCTGCTCGGCCCGGCGGCAAGAACGGTCACGCAAACACGGGACCACCTGCCATCGATCAAAAACGCGCTCAGGCGACGGGAAGTCCGCACCGGGCTTCTGGTCGCGGCGGTTTATGTCGCTGCGCAGAAATGGGGTCTGGCAATGCTCGGCCCGTTCCTGGTCGACTACGGTTTCGATCTCGCCACCATCGGCGCGCTGAATGGCGTGGGCAGCATGATCGTCGGTTTCGCCGGCGCGCTGCTCGGCGGCACGCTGGTACGCCTCTACGGGGCGTCACGAATCCTGCTCATCGCCATCTTCGTGCAGACGGCGCTGTTGTGCCTTTTCGCCTATTTCAGCGTTCATCGCGATATTTCGCAATGGGTCGTCATGGCGGTTGCGGTGGCAAGCTCGTCGGGCATCATGTCCATCGGCTTCGTCGCGCTTTACGCCTGCTTCATGGGCTGGTCCGACCCCCGGCAGGCCGGGGTCGATTTCACCCTGTTCCAGTGCATGGATGGCGTTGTCGGCATGATCGGCGGGTTGGGCGCAGGCGCGATCGCCGAAAAATTCGGCTATCAGGCCTCCTTCATCATTGCCGCCATCGTTTCAGTGCTCGCCGCACCGGTCATCTTCCTGCTGATGCGGCGGCAGGACTCTTGA	MLQQNPATTKPSPAAVFVAVGGLYVGQSVIGGLTFLGLPAVLRTAGLPLDQIGLLYLVVLPWALKFLWSPHVERYRLPPVGRNRSRVIVGTGIAACACGLAVLAFTGPSPVSVAIAILSVIALVTATVDIACDGYAVETLAEEHHGWGNAAQVGGSYLGSAIGAGLFLVLVERAGWTSATLVMAGLVILLALPFLLGPAARTVTQTRDHLPSIKNALRRREVRTGLLVAAVYVAAQKWGLAMLGPFLVDYGFDLATIGALNGVGSMIVGFAGALLGGTLVRLYGASRILLIAIFVQTALLCLFAYFSVHRDISQWVVMAVAVASSSGIMSIGFVALYACFMGWSDPRQAGVDFTLFQCMDGVVGMIGGLGAGAIAEKFGYQASFIIAAIVSVLAAPVIFLLMRRQDS	PGPT0003530_104	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-YERSINIABACTIN_TRANSPORT,PGPT0003530-irp8|ybtX-K05373	NA	NA
BMS010_08076	1983			hypothetical protein	ATGGCCAGACTGAAGATGTCGTCTTTCTTTTCCGCACGTTCGAGCCTGCTCGCCTCCGTCGCATTGCTGGTTCTGGTTCCGGGCGCGCAGGCGTTCGATCGCACCGGGCCGGCAGGTGAGGGTTATGCCATAACGGTGCCGGAACCGGCGGCAACATATCCGCTGCCGCTTGCCGACAATTATCGCAACCAGACCGGCAAGAATGAGAAGGGCGAGGCGGTTCGCGCCTATGATGACCGGGACAACCCGATCATTGAAATCCTCACCGGTTTCAACCGCATCTGGACGCTTGGCGATGAAAAATGGGCGGATGGCGGCGCCAATGGCGATGGTCCGGCGGATTTCAGCCATGTGAAGATCGTCGATCCCGCCGTCTGGCAGGAGAACATGCGTTACGTGCTGTCCGTCACCGGCGAGAACCGCACGCGCGCTGCCGCTTTCGAAGCCTATATGAATGATCGCCGTTCGCAGGGTTACAGCGTCATCGACGGCATGGGGCCGCTTGCCGCCTGGTATCGCGAAGGGGCGGGCGCGACGACGACGATCAATCATACGCTTACGGATTTCGACCCGAACGAGGTTATCACCCGCAAGGAAGACGACAAGGGCACCGAGGCGGGTGCAGCCGATAGCGAACTGAAGGATTTCGTCGCCTTCATGAAGGTGATCCGCGGCCCGGAGGGCACGACGTCGCCGGCGAAATATTTCTATTCCTCACCACGGCCCTGGCGCATGAACGACAAAGGCGAGGTGATCGAGACCGGTAAGGAAACGATTGGCGACCGCAGCTTCGAAAGCCATGACAGCGATCCGGGCGTCATCGTGCCGGCGCTGAAATATGCGCGGGAAAATCGCGGGCGCGGCAAGGATGGCGGTTTTCCGAGCGGGCACACCAATGCCGCCTATCTGGCCGCCATCGCCTATGCCTATGCGGTGCCGGAGCGCTTTTCCGAATTGCTGACGGCTGCCTCCGAACTCGGCGAGAGCCGCATCGTCGCCGGCATGCATTCGCCGCTCGACGTGATCGGCGGCCGCATCACCGCAACCGCCATGGCCGCGGCCATGTTGCAGGACCCGAAAAATGCCGAGGTGAAGAAGGCCGCGCATGCGGCCTTGCAGGCCTATTTCGCAAAACGCCTGCCGCAGGGCCAGTCGCTCATCGATTTCGCCCATGGCGTAAAGCCGGATGTCGACCAATTTGCCGATGCGACGAAGAACGGGGCGGATTATCGCAGGCGCATGACCTATTCCTTCAGCCGCGACAGGGCCGCAGGCGATGCGCCGATGGTGGTGCCGAAGGGGGCGGAGGTCCTGCTGGAGACACGTTTGCCCTATCTCGATGCCGCCCAGCGCCGCGCCGTGCTGTTTTCCACCGGCATCGAGGCCGGTTATCCGCTGCTGGATGACAGCAATGGCTGGGGCCGCATCAATCTGGTCGCTGCCGCCGGCGGTTACGGCGCGTTTGACGGCGATGTCGAGGTGACGATGGACGCTGCCGCCGGCGGGTTCAATGCGGCGGACAGATGGACGAACGATATTGCCGGGGCAGGGCGTCTCGTCAAATCCGGCAGCGGAGCGCTGACGCTTGGCGGCCATAACAGTTATGGCGGCGGCACCATTCTCAGGGAGGGAACGCTGGTGGCGTCGTCCGCCGATGCGCTTGGAACCGGCGGCGTGCTGGTCAGCGGCGGCACGCTTTCGCTCGGCGGAGAGACGGATATTGTCATCGGCGGCGACTATGCGCAGTCGGGCGGCACGCTGGCGGTCGACCCGCAGAAGGCTGCGCTTCGGATCAAGGGCAATGCGGTGCTGGACGGCGCGACGCTGAAGCTCGCTTTCGATGGCGGCGCGCCACCCGCCGGCACGCGGCTCGATGTGATCTCCGCCAACGGTCTGACCGGAACCTTTACCTCGATAGATGCGGGCAATGTGAAGCTGCGGCCGGTCTATACCGGTTCGGCACTGTCGGTGGTGGTCGAATAG	MARLKMSSFFSARSSLLASVALLVLVPGAQAFDRTGPAGEGYAITVPEPAATYPLPLADNYRNQTGKNEKGEAVRAYDDRDNPIIEILTGFNRIWTLGDEKWADGGANGDGPADFSHVKIVDPAVWQENMRYVLSVTGENRTRAAAFEAYMNDRRSQGYSVIDGMGPLAAWYREGAGATTTINHTLTDFDPNEVITRKEDDKGTEAGAADSELKDFVAFMKVIRGPEGTTSPAKYFYSSPRPWRMNDKGEVIETGKETIGDRSFESHDSDPGVIVPALKYARENRGRGKDGGFPSGHTNAAYLAAIAYAYAVPERFSELLTAASELGESRIVAGMHSPLDVIGGRITATAMAAAMLQDPKNAEVKKAAHAALQAYFAKRLPQGQSLIDFAHGVKPDVDQFADATKNGADYRRRMTYSFSRDRAAGDAPMVVPKGAEVLLETRLPYLDAAQRRAVLFSTGIEAGYPLLDDSNGWGRINLVAAAGGYGAFDGDVEVTMDAAAGGFNAADRWTNDIAGAGRLVKSGSGALTLGGHNSYGGGTILREGTLVASSADALGTGGVLVSGGTLSLGGETDIVIGGDYAQSGGTLAVDPQKAALRIKGNAVLDGATLKLAFDGGAPPAGTRLDVISANGLTGTFTSIDAGNVKLRPVYTGSALSVVVE				NA	NA	NA	NA	NA
BMS010_08077	1281			hypothetical protein	ATGATGAAATTGTTTTCGGGCGTCAGCGCCCTTGTGGTGGCCTCTGTCGCCGGTCTTGCGACGGCCCAGGCCGAGACCCGCACGATTACTTTCCTTTTTACGGATGACGACCAGGGTTATGTGCAGCGCATGTCGGAACTCAGCAAGGAGTTCGAGACGGCCAATCCGGGTGTGAAGATCAATTTCGTGTCTTCGGGTTATGACGCGGTTTCCAAGCAGCTGCCGGTGCAGCTGGCGGTGGGCGAAGGTCCTGACATCGCCAAGATCACCGACTGGCAGCTAGCGCCCTATTATCTCGACATGCGCCCCTATATGAAAGACGCGGAAGCCTTCGCGAAGCTGCATGGTTCCAGCCTCAACCAGCTTCGCCTGCCCAATGTCAACGATCCGCAGTCGATCAACGGTTACATGGCGTCGCAGACGCTGAACCTGCCCTTCGTCAACAAGACGCTGTTCGAGCAGGCGGGCGAACCCTTGCCCGGCCCGACCGCGAAATTCAGCGAGATCGTTGAGGCTTCCGCCCGCGTCGCCAAGGCGACCGGCGTGCAGATTCCCTTCACCATGGACCGTTCCGGCCACCGCTTCTCCGGCGGCGCCTTCGCTTATGGCGCGACCTATGTGAAGGACGGCAAGTTCAGCTTCCCGGACGATGCGGCGAAAAAATACATCGCCGATATCTATTCATGGACGCAGAACGGCAGCTTCCCCAAGGAAATGTGGGGTGCGGCCGGCGGTTCGCAGTACAAGAACATGGGTGACGAGTTCGTCAACGGCAATGTCGTGACCTATCTGGCCGGCAACTGGATGGTCAATCCGTTCCAGAACAAGATCGGCGACAGTTTCGAATGGACGGCGATCAATGCGCCCTGCGGCGAGGCCGGATGCTACGCCATGCCCGGCGGCACCGCCATTGTCGGCTTCAAGCGCACCAAATATCCGGAAGATGTGGCTCACTTCATCGAATTCCTCGGCTCTGAAAAGGTGCAGCGGGAAATCGCCGAGAACTACGTCATCCTGACCGGCGCGGAGATCGTCGATCCGCAATACAAGCTGAAGAGCGAAGACGCCAAGGCGGCGATGAAGGTCTTCCTCGACAACAAGAAGAACGTGCCGCAGGCCGCCCGTGAGTTCGAGCGCGCCAAGGGCGGCAGCGCCATGTATCAGCAGATTGTGCAGCGCATGAGCCAGCTCATCGTCGGCGAGTTGACGCTCGACCAGACCTACAAGGTTCTGGAAGATGACGTCGCCAAGATCAACGAGGCTGTCGCGGTCAAGAAATAA	MMKLFSGVSALVVASVAGLATAQAETRTITFLFTDDDQGYVQRMSELSKEFETANPGVKINFVSSGYDAVSKQLPVQLAVGEGPDIAKITDWQLAPYYLDMRPYMKDAEAFAKLHGSSLNQLRLPNVNDPQSINGYMASQTLNLPFVNKTLFEQAGEPLPGPTAKFSEIVEASARVAKATGVQIPFTMDRSGHRFSGGAFAYGATYVKDGKFSFPDDAAKKYIADIYSWTQNGSFPKEMWGAAGGSQYKNMGDEFVNGNVVTYLAGNWMVNPFQNKIGDSFEWTAINAPCGEAGCYAMPGGTAIVGFKRTKYPEDVAHFIEFLGSEKVQREIAENYVILTGAEIVDPQYKLKSEDAKAAMKVFLDNKKNVPQAAREFERAKGGSAMYQQIVQRMSQLIVGELTLDQTYKVLEDDVAKINEAVAVKK	PGPT0017260_85	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALPHA-1|4-DIGALACTURONATE_TRANSPORT,PGPT0017260-aguE-K17241	NA	NA
BMS010_08078	2523			hypothetical protein	ATGACGGATGGACCATTTGCGGCCAACGCGTCGCAGCCGACATATACCGTCGCAAACGGCGAAACGGTGACCGCCTGGATCGTCTCCGATCTGGTGGAGACGTCGTTTCCCGGCACCGCAGCCCCCGCCGAAGACCGCGTGAACTATCGCTTCATCAACGGTTTCGTGGATGTGGGCGACCTGCCCTGCCGCAAGGCTTTCCAGCAGACCATGATCGGCCGCGATATCGCACCCGAGACTGGCTTTACGGTTTCGCACCTCAACCTGCCGGGTTCCAATCGCCGTGTCGAATTCACCGGTTTCTGGCACGTTCCCACCCATGTGCAGCGCTGGCTGAAGGGCACCTTCCGCAGCGATGCGGCAAGACAGGCGCATTTTCGGCTGCGCACCTGCGGCGGCGTCCGCATCTGGGTGGGCGGCGTCGAACAGGTCCGTTTCGAACCTTTCATCCGCAATGTCGAAAGCAGCCGTGACATCACGCTCGATCTCGCAGCCGGCGATAACGAAGTGCTGCTGCTCTGCGAGGATCTGGCGGAACGCGACATCATCTGGTTCTTCGAACTTGAGGTCGTCGACACCGTGCCGCTGACCGTCGTGCTGCCCGTGCCGCTCGACCGGGAGGAGACGAAGCGTCTCGCCGCACTGGTGCGCGATGTTCGCCCGGCGCGAGACGTGTTTTCCGTCACGGCCCTCGAACTGGTCTTCGGGGCGGCACCCGCAAACGACCTGCCGGTGCACATTGCCGTCAAAAGCCATGGGCATGAGCGCGCTTCGCTTGCGGAAGTGGATACGGTGCTGAAGGCCGGGCAATCCGCGCTGACGATCCCCGAAACGACAGGCATTTCGGACGGATATCACGGCGTCAAAATCACCATGGGTTCGGGAGCGGGAACGGTAACCCGCGTCATCGACGCCGCTTTCATGCATGACATCGCGCCGCAAGCATCCAGCGGCGATATCAACGGGCGAAAAAAGGCCGCCCTGTCCTTCAGCGCCCGTTTCGGTGCCTGGCGCATCGGCCGCGCGCTGGCGATGGTCGCCACCGGCAGCGATGACATCGAGACGATCGGCGGCATCGTCGATGCGACGCTGCATTCCATCGATCGGCGGGAAGACTGCTCCGATTTCGTGATGATCCCGCTTCTGTGGCTGGTGCGCGCCTATGGCGACCGCCTGCCGGCCGAGATGCGGGCGCGGATCGACGCCTCGATTCTCGGCTATCGTTACTGGGTGGATGAACCGGGCAATGACGTCATGTGGTTCTGGAGCGAGAACCATGTTCTCTGCTTCCACACCAGCCAGCTATTGGCTGGCGAGTATCTGCCGGATGCCGTCTTTACCGCCTCCGGCCGCACCGGCAGAGAACAGGCGGCGCTGGCGGCAGACCGGCTGGAGCGCTGGTTCGACAGCGTCGAGGCGCATGGGCTGGCCGAGTGGAACTCCGCTGCCTATTATCCGGTGGATTTCATCGGCCTTCTCGCCATCGAACATTGGGCGGGACCGGAGCTTGCCGCCCGCGCGCGCCGCCAGATCGATCTCATCTTCGAAATGATCGCATTGCACACGCTCGGCGGCGTTCCCTCCGGTTCGCAAGGGCGGGCTTATGACAAGGAGCTGCGCGCCGGACCGCTGACGGAACTGGCGCCCTTTGCGCAGGTCGCCTTCGGTCAGGGCTGGCTGAACAATGGCGTTGCCTCGCTGCCGATGTTCTGCTGCGGCGATTACCTGCCACCGGCGCATCTCGCTGCCCTTTCACAGCTGGAGGCCGGCCGCATGGTCGAGGCGCGTTATGCGCAGGGGCTGGAGCCCGGCAAGCTCGTGCTCTTCAAGAACGAGGCCGCCCAGCTTTCCACCGTTGTCGATCACAAGACCGGCCGCAAGGGCCATCAGCAGCACGTCATGGACATCAAACTTGCCGGCCACCCGATGGCACGGCTGTGGGTCAATCATCCGGGCGAAGACGATCCGTGGGGCACCCAGCGCCCCTCCTATTGGGCGGGAAGCGGCATCCTGCCGCGCGTGGCGCAACATCGCGATCTGGCGATGCTGATCTTCGATACGCACGATCACCGCAACGACTGGACCCATGCCTATCTCGGCCGCGACGGGCTGGAGGAGGTGCTGGTGGAGGGCAACTGGCTCATCACCCGCTCGGGCCGCGGCTTTGCCGCGCTTTATGCGACCAACGGGCTTCAGCCCATCGCCACCGGCGCCACCGCCAGTCGCGAGATCAGATCGCCCGGCCGCCGTGCCGGCTGGGTCGGCATCATCGGCTGCGGGAATGTCGAGGAGTTTGCCCGTTTTCGGGAAAAAATCCTCGCCACGCAGATCAGCTTCGATGCCGAAAGCCGGCTGCTCTCGGTCACGCCGCCAGGCGGAGCTGAGCTTGTCCTGACCTGGGACGGCGCCTTCACCATCGGCGGACAGGCCATGGCCTTCGACCACGGCCAGCCCCAGCCGGAAATCACCTTCGACAGCGCCGACCCAGCTTCGGGCAGCGCTGCAAAACCCTTCTACTCCTAA	MTDGPFAANASQPTYTVANGETVTAWIVSDLVETSFPGTAAPAEDRVNYRFINGFVDVGDLPCRKAFQQTMIGRDIAPETGFTVSHLNLPGSNRRVEFTGFWHVPTHVQRWLKGTFRSDAARQAHFRLRTCGGVRIWVGGVEQVRFEPFIRNVESSRDITLDLAAGDNEVLLLCEDLAERDIIWFFELEVVDTVPLTVVLPVPLDREETKRLAALVRDVRPARDVFSVTALELVFGAAPANDLPVHIAVKSHGHERASLAEVDTVLKAGQSALTIPETTGISDGYHGVKITMGSGAGTVTRVIDAAFMHDIAPQASSGDINGRKKAALSFSARFGAWRIGRALAMVATGSDDIETIGGIVDATLHSIDRREDCSDFVMIPLLWLVRAYGDRLPAEMRARIDASILGYRYWVDEPGNDVMWFWSENHVLCFHTSQLLAGEYLPDAVFTASGRTGREQAALAADRLERWFDSVEAHGLAEWNSAAYYPVDFIGLLAIEHWAGPELAARARRQIDLIFEMIALHTLGGVPSGSQGRAYDKELRAGPLTELAPFAQVAFGQGWLNNGVASLPMFCCGDYLPPAHLAALSQLEAGRMVEARYAQGLEPGKLVLFKNEAAQLSTVVDHKTGRKGHQQHVMDIKLAGHPMARLWVNHPGEDDPWGTQRPSYWAGSGILPRVAQHRDLAMLIFDTHDHRNDWTHAYLGRDGLEEVLVEGNWLITRSGRGFAALYATNGLQPIATGATASREIRSPGRRAGWVGIIGCGNVEEFARFREKILATQISFDAESRLLSVTPPGGAELVLTWDGAFTIGGQAMAFDHGQPQPEITFDSADPASGSAAKPFYS				NA	NA	NA	NA	NA
BMS010_08079	1095	yesR	COG4225	Unsaturated rhamnogalacturonyl hydrolase YesR	ATGAACCAGCCAAGCATGGAAAAAGACACTCTCAGGACGACAATCGACAATGTCGCCGCCGCCTTCAGCCGCCTTAAGGGCATTCAGGAAGGTCTGGTCAGCGGCAGTTCCGATGGCAAGATCCAGTTCGATGAATGGGACTGGGAAGTGGGTGTCGGCCTTTACGGTTTCCTGCGCCGGGCGCTCGCCGCCAACGACCAGAAGGCATTGGATGACCTCGTGACGTGGTATGGCTGGCAGATCGAACGTGGCCTGCCGCCGCGCCAGATCAACAGTTCCGCGCCGATGCTGCCGCTTGTCATCCTCACCGAGCATGTCGACCGGCCGGATTTCCGGGCGCTGGTGGAAGACTGGGCCGACTGGCTGGTGCATCAATTGCCGAAAACCGAAGATGGCGGCTTCCAGCATGTCGTCAAGGAGCGGCTGAATGAGGGCGAACTCTGGGACGACACGCTGTTCATGGCATGTCTGTTCCTCGCCCGCGCCGGCGTCGTCTGCAAACGTCAGGACTGGATCGACGAGGCGGTCTACCAGTTCATGATCCATACGCGTTATCTCTCGGACCCCGTCACCGGGCTCTGGTATCACGGCTGGACCTTCAACGGACGCCATAATTTCGCTGACGCCTTCTGGGCGCGCGGCAATTCCTGGATCACCGTCGCCATTCCCGAGCTTTTCGAACTGGTGCCGACGCTTGGCGAAAAGGACAGGCGTTTCCTCGCCAATGTGCTGGCAAGCCAGGTGCGGTCGCTCAGGCAGTATCAGCGCGAGGACGGCATGTTCCACACGCTGCTCGATGACCCGACCTCGCCGGTGGAAACATCGGCGACGGCCGGCATCGCCTATGGCATCCTGCGCGGCATCGAAGCCGGCATTCTCGGCGAGGAAAATCGCCCGCATGCGGAACGTGCGCTGAAGGCCGTGCTTGGCAATATCGACGATGAAGGCGTCGTCCACGGCGTTTCCGACGGCACGCCGATGGGCCACGATCTCGATTTCTACCGCCGCATTCCCAATCTGCCCACACCCTACGGGCAGGCGCTGACCATGCTGCTCCTGATCGACGTTTTTCTGAAAAGGCCAAAGGCATCGTGA	MNQPSMEKDTLRTTIDNVAAAFSRLKGIQEGLVSGSSDGKIQFDEWDWEVGVGLYGFLRRALAANDQKALDDLVTWYGWQIERGLPPRQINSSAPMLPLVILTEHVDRPDFRALVEDWADWLVHQLPKTEDGGFQHVVKERLNEGELWDDTLFMACLFLARAGVVCKRQDWIDEAVYQFMIHTRYLSDPVTGLWYHGWTFNGRHNFADAFWARGNSWITVAIPELFELVPTLGEKDRRFLANVLASQVRSLRQYQREDGMFHTLLDDPTSPVETSATAGIAYGILRGIEAGILGEENRPHAERALKAVLGNIDDEGVVHGVSDGTPMGHDLDFYRRIPNLPTPYGQALTMLLLIDVFLKRPKAS	PGPT0018255_1205	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-HYDROLASE,PGPT0018255-yteR|yesR-K15532	NA	NA
BMS010_08080	1353			hypothetical protein	ATGAACATCAGTCAGGACATCACAGTCGCGGCGGGTGGCCTTGATGCCACGGCGGCCATCCAGCAGGCTATCGACACCGTTTCAGCCGCAGGCGGCGGGCGCGTGTCTCTCTCGGCCGGGCGTTATGTCAGCGCCGGCCTCCATCTCAAAAGCGGCGTGGAACTGCACCTTGCGGAAGATGCGGTGCTTGCCCCCGTTTCCGATTACGACGCCTATGCCTTGACCCGGGTTTCGGTGATTGCCGAAGACTCCGATCGCGGCATGATCATCGCCAGCGGCGCAAGCAATATCGCCGTCACCGGTCCCGGCCGCATCGAGGCCGGCGGTGAAAACTTCATCGTCGGCGACGACAAGGCCATGGGCACCTATGTCCCGGCGAAAAAACGCCCACGCGTGATGGTGCTGGAAAGCTGCCGCAACGTGCACCTTGAAAACCTCTCCGTCAGTGGTTCGCCCATGTGGACGCTGCATATGGTCGATTGCGAAGACCTTCATTTCCGCAATCTGCGCATCGAAAACGACCGCCGCCTGCCCAATACCGATGGCATTGTGCTCGATGCCTGCCGGCGCGCCCTGATCGAGGATTGCTTCATCTCGACCGCCGATGACGGCATTTGCCTGAAGACCAGCGCCGGGCCGGACGGCAAGGCCGTTGGAGCCTGCGCCGATATCATCGTTCGCCGCTGCACCGTTTCCAGCATGAGCTGCGCGCTGAAGCTCGGCACGGAATCCTTCGGCGATTTCACCGATGTCGTGTTCGAGGATTGCAAAATCGTCCAGTCCAATCGCGGCGTCGGCCTGTTTTCCCGCGATGGCGGCGCGATGCGCAACATCCGCTTTTCAAGGATCGAGACCGAATGCCACGAAACGCCGGGCGGCTTCTGGGGTTCGGGTGAGGCTGTCACCGTCACCGTCGTCGACCGACGCCCCGAGCGTCAGGCCGGCAGCGTCGACAATCTGGTCGTGGAAGACTTGAGCGGCTCCATGGAAGGCGCGATCAACCTCGTCGCCACATCGAAGGCCGGCATTCACAATGTCCGGCTGGAGCGCATCACGCTGTCGCAGCAGCCCGGCAAGCTCGGCACCGGCCTGCAATACGATCTGCGCCCCACAAATGCGGATATTGCGCCAAGCCCCCATGCCGCCGGCCGCGCCAATGCCTGGACGCAGGATGCGCACGGCAGGATCGTCGGAATGGAGGATTATCCCGGCGGAATGCCGGCGGTCTATCTTGCCGGCGTGGAAGGATTTGCGGCGCATGATGTCGCCATTAAAAGAACGACGCCCTTGCCCGAGGGCTGGAACAGCCAAGAGATCGTCGCGACGACGAACTTGTCCGAAGGGAGCAGGTGA	MNISQDITVAAGGLDATAAIQQAIDTVSAAGGGRVSLSAGRYVSAGLHLKSGVELHLAEDAVLAPVSDYDAYALTRVSVIAEDSDRGMIIASGASNIAVTGPGRIEAGGENFIVGDDKAMGTYVPAKKRPRVMVLESCRNVHLENLSVSGSPMWTLHMVDCEDLHFRNLRIENDRRLPNTDGIVLDACRRALIEDCFISTADDGICLKTSAGPDGKAVGACADIIVRRCTVSSMSCALKLGTESFGDFTDVVFEDCKIVQSNRGVGLFSRDGGAMRNIRFSRIETECHETPGGFWGSGEAVTVTVVDRRPERQAGSVDNLVVEDLSGSMEGAINLVATSKAGIHNVRLERITLSQQPGKLGTGLQYDLRPTNADIAPSPHAAGRANAWTQDAHGRIVGMEDYPGGMPAVYLAGVEGFAAHDVAIKRTTPLPEGWNSQEIVATTNLSEGSR				NA	NA	NA	NA	NA
BMS010_08081	1104	malK_8		Maltose/maltodextrin import ATP-binding protein MalK	ATGGGAAGTCTGAAACTCGAAAACCTCAATAAAGCGTTCGGCGCCGTTCATGTGCTGCATGACATCGATCTTCAGATCGAGAACGGCGAATTCGTCGTTTTCGTTGGCCCTTCGGGCTGCGGAAAATCGACGCTGCTGCGCATCATCGCCGGTCTCGAGGACGTCACCTCCGGCACAATCGGCATTGGCGGGCGCGATGTCAGCGCGCTGTCGCCGGCCGAGCGCAAGATCGCCATGGTCTTCCAGTCCTATGCGCTTTATCCGCATATGAGCGTGCGCAAGAACCTTGCCTTCGGTCTCGAAAACCTGCGTTTCAAGCGGGCGGAAATCGAAAGCCGCATCAACGAGGCGGCGCGTATGCTCGCCATCGAGCCCTATCTCGACCGCAAGCCGAAACAGCTTTCCGGCGGCCAGCGCCAGCGCGTCGCCATCGGTCGCGCCATCGTGCGCGAGCCGGATATTTTCCTGTTCGATGAGCCGCTATCGAACCTCGACGCGGCGCTGCGCGTGCAGACGCGCGCCGAAATTACCCGCCTGCACCGCGATATCAAGACGACGATGATCTATGTCACCCACGATCAGGTGGAGGCCATGACCATGGCGGACAAGATCGTCGTACTGCGCGCCGGGCGCATCGAGCAGGTGGGCAGCCCTCTCGAGCTTTTCGACAATCCGCGCAATCTCTTCGTCGCCGGTTTCCTCGGCTCGCCGCGCATGAACATGCTGAAGGGCACCATCGCCAAGGGCAGCGACGGTAGCATCGCCATCGACGCCGGCTACGGTGTGTCCCTGCCCTGCCTTGTCGATCCGGCAGCCGTCAGCTCCGGGCAGGCGGTTCTCGCGGGCATCCGCCCCTCGCATTTCACAATCGCGGATACCGGCCTGCCCTTCGAGGTGCAGTATCACGAAAGCCTCGGCACCGAGACCTATCTCTACGGCAATCTCCAGGGCGAGAAAGAGCAGATCATCGTGCATCAGGCGGGCCATTTCGCCCCCGCTTCCGGCTCGGTGCTGAAGATCATGCCGGCGCGGGAAAAGGTGCATGTCTTCGATCCCGCCACCGAACTGGCGTTGCCGCGCCTCGACAGCGAAGGGAGAGGTTAG	MGSLKLENLNKAFGAVHVLHDIDLQIENGEFVVFVGPSGCGKSTLLRIIAGLEDVTSGTIGIGGRDVSALSPAERKIAMVFQSYALYPHMSVRKNLAFGLENLRFKRAEIESRINEAARMLAIEPYLDRKPKQLSGGQRQRVAIGRAIVREPDIFLFDEPLSNLDAALRVQTRAEITRLHRDIKTTMIYVTHDQVEAMTMADKIVVLRAGRIEQVGSPLELFDNPRNLFVAGFLGSPRMNMLKGTIAKGSDGSIAIDAGYGVSLPCLVDPAAVSSGQAVLAGIRPSHFTIADTGLPFEVQYHESLGTETYLYGNLQGEKEQIIVHQAGHFAPASGSVLKIMPAREKVHVFDPATELALPRLDSEGRG	PGPT0014160_1025	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0014160-malK|mtlK|thuK-K10111	NA	NA
BMS010_08082	996	araP	COG1175	L-arabinose transport system permease protein AraP	ATGGCCAATCCGAAGCTTGCGAGACTGTCCGACCGTGCGCTCGATGCCGTGATGGCAATTGCCGAAGTGCCGCTCAACTTCATCGAGCGGCTGATCGGCAAAAGGCGCATGCCCTATATTTTCCTGATGCCGAACCTCGTTCTCTTCGGCATCTTCACCTTCCTGCCGATTGCCATTGCCGTCGGTTACGCTTTCACCGGCGGCACCGAACTTCTCATTACCGACCGCCCCTTCGTCGGTCTGGAAAATTTCGGCAAGCTGCTGGATTGCCAGAGCTACATGGACCCCGGAAGCTGCCGGGAATCGCTGTTCTGGACGGCGATCTGGAACACGCTGTGGTTCGTGGGCTTCAACGTCATCGCCACGCTGCTGGTCGCGCTCATCACCGCCCTCATCCTCAACCGGGCGATTGCCGCGCGCGGTTTCTTCCGCGCCATGTTCTTTTATCCGGTGCTGCTGTCGCCCGTCGTCATCGGCCTCATCTGGAAATGGTTCCTCGACCGCAACGGCCTGCTCAACGCCTTTTTCCAGATGCTCGGCGTGCCGCCGGAAATCTTCCTGCTGGATGTCGGCTGGTCGCGTTTCTTCGTCGTGGTGGTCTCGGTCTGGTTCCACATGGGCTTTTATACGCTGATCCTGCTCGCCGGCCTTCAGGCCATCCCGAAGGACCTTTATGAAGCCGCCGCCATCGATGCCGCCTCGCCCCGGCGCACGCTTTTCCGCATCACCCTGCCGCTTCTCGGCCCCAACCTGCTCGTCGTGCTCATCCTGTTGATGATCCGCTCGGTGCAAATCTTTGATGAGGCATGGGTTCTGACCAATGGCGGCGGGCCGGGCACGGCCAATACATTCGTCGTGCAATATATCTACCAGATGGCCTTCGGCAGCGATCTGAGGCTGTTCGGCCTTGCGTCCGCCGCATCGGTTCTGATGGGCCTTGTGCTTCTCGCGCTGACGCTCGTGCAACTGCGCCTCGGCAAAAAGATGGAGTCCTGA	MANPKLARLSDRALDAVMAIAEVPLNFIERLIGKRRMPYIFLMPNLVLFGIFTFLPIAIAVGYAFTGGTELLITDRPFVGLENFGKLLDCQSYMDPGSCRESLFWTAIWNTLWFVGFNVIATLLVALITALILNRAIAARGFFRAMFFYPVLLSPVVIGLIWKWFLDRNGLLNAFFQMLGVPPEIFLLDVGWSRFFVVVVSVWFHMGFYTLILLAGLQAIPKDLYEAAAIDAASPRRTLFRITLPLLGPNLLVVLILLMIRSVQIFDEAWVLTNGGGPGTANTFVVQYIYQMAFGSDLRLFGLASAASVLMGLVLLALTLVQLRLGKKMES	PGPT0017265_76	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALPHA-1|4-DIGALACTURONATE_TRANSPORT,PGPT0017265-aguF-K17242	NA	NA
BMS010_08083	1050			hypothetical protein	ATGTCCAACGCCGTCTCCTTCCTCACGCGCACCCGCCGCCCCGGCCGGATCGGTCTTACCGATATCCTGTCCTGGGTCTGGCTCATCGGCGGCACGCTCGCCGTCCTCATCCCGGTCGTCTGGGCCGCCATGTCATCGCTGAAACCGGAAGCCGAGATCACCCGGTTTCCGCCGAGCCTTCTGCCGCGCGCCGCGGTGCAGGTGGACGTGCAGGGTTACGACAAGCCGCTCAGCCTGTGGAAAGCCCCCATCGACGGCGTGGAGCGCGAAATGGCCATGGTCCGCCGCATCGGCCTGAAAGCCCAGATGGTGGACCCCGCCAATCCCGGCCCGCCCGTCAGCGTCGACACGCGGGAAATAACGCCGGTTCAGAAACTGACCGTCGCGACGGAAAACTTCACCGATCCGCTGACCCGCTTCAGCTTTCTGACCTTCCTCAAGAACTCGGTCTTCGTCACTTTCGTGGCGACTATCCTGACGCTGATCGTCAATGCCATGGCAGCCTTCGCTCTCTCCAAATACCGCTTCCGCGGCGAGAAGGCGATCTTCGTGCTGATCATCTCCACCCTGATGATCCCGCTCACCGTCGTCATGGTGCCTGCCTATCTCGTCATCGTCGGCGTCGGCCTCGTCGACAATCTCTGGGGCGTCATCATCCCGACGGTCGCCACACCGACCGGCGTGTTCCTGCTGCGGCAATATATGCTGACCATACCCGACGAGCTGATCGAGGCGGCCCGCGTCGATGCGGCAAGCGAATTCCGTATCTTCTGGCGCATCATCCTGCCGCTGACGGCCCCGGCGCTCGCGGTTCTCGCCATCTTCTCGGTGCTCTGGCGCTGGAACGACTTCCTCTGGCCGCTGATCGTTCTCAGCAGCCGTGAAAACTTCACGCTGCAGGTGGGGCTGAACGCCTTCCAGGGCGAGTTCTCGGTGCAATGGCACTATATCCTCGCCATGACCTTCCTCAGCCTGGCGCCAGTCACCGTCGTGTTCCTGTTCCTGCAGCGTTACATCACGACAGGGATTGCCGGCACGGGGATGAAGTGA	MSNAVSFLTRTRRPGRIGLTDILSWVWLIGGTLAVLIPVVWAAMSSLKPEAEITRFPPSLLPRAAVQVDVQGYDKPLSLWKAPIDGVEREMAMVRRIGLKAQMVDPANPGPPVSVDTREITPVQKLTVATENFTDPLTRFSFLTFLKNSVFVTFVATILTLIVNAMAAFALSKYRFRGEKAIFVLIISTLMIPLTVVMVPAYLVIVGVGLVDNLWGVIIPTVATPTGVFLLRQYMLTIPDELIEAARVDAASEFRIFWRIILPLTAPALAVLAIFSVLWRWNDFLWPLIVLSSRENFTLQVGLNAFQGEFSVQWHYILAMTFLSLAPVTVVFLFLQRYITTGIAGTGMK	PGPT0017270_94	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALPHA-1|4-DIGALACTURONATE_TRANSPORT,PGPT0017270-aguG-K17243	NA	NA
BMS010_08084	1047	purR_2	COG1609	HTH-type transcriptional repressor PurR	ATGAAAATAGACAGGAAAACGACGCTTAAGGACGTGGCGCGGGAGGCGAATGTTTCACTGAGCACGGCTTCGCACGCCATCAACGGCACCGCACCCTTGACCACGCAGGTGCGCGAGCGGGTGCTGGAGGCGGCACGCGCACTTGGTTATCTCGAAAACCGGCGACAGAAGGCGACCATCGCCACTTTGCGTGTTGTGCTTCTGGCCATGACCAATGATGCCGCCCCCCAGAGCGACCTTAACATGGTCAGCTGGACCATGCTGAACGGCTTCAGGCGCGAATGCGAGCGGCGCGGCATTCGCATCGTTCCCTATGTCAGCACAACGAGCCGGCTCGACCCGGTTGCGGTGGCGGCGGCGGCGGATGCCGACAATGTCGACGGTATCGTGATCCTGAACGATGACAGGCCGCAACTGGTCGAGGCGCTGTCTGCGCTTGCGCGGCCGGTGGTGCTGATCAATGGCGAGGACCCGGCCATGATCGTCGATACGGTGACAGCCGAGAACCGTTTTGGCGCGCGGCTCGGTATCGAACATCTGCTGTCGCTCGGGCATCGCAATATTCTGCACATCACCTGGAAAGGGCGCACGACGATCCGCCGCCGATATGACGGTTATAGCGACGCGTATCTCGCGGCGGGTCTCACTGTTCCCGCCGATATGGTCATCGAGGTGGAGAGCTATGAGCCGGAATGGGGCGAGGCCGCCACCCGCCGCCTGCTGGCCGAGGAAAAACCGCTCAGAAACGCCACGGCGATCTTCTGCGCCGCCGACAATCTGGCGCTCGGGTGCCTGAAGGCCCTGACAGAAGCCGGAATCCGGGTGCCCGACGATGTTTCGGTATTGGGGTTTGACGATATCATGCCGGCGGCCTTCAGTGCGCCGCCGCTCAGCACCATCCAGTTGCCCGCCGACAGGCTGGGCGGCGCGGCGCTCGCGCTGCTGGAGCAGCGGCTTGTGGCGGCCGATCCCACCCGCCCGGCGCACCGGCTGGAACTCGGTTGTCGCCTTGTGCTGAGGGGCAGCATAGCGTCGCCGCCGAAGTAG	MKIDRKTTLKDVAREANVSLSTASHAINGTAPLTTQVRERVLEAARALGYLENRRQKATIATLRVVLLAMTNDAAPQSDLNMVSWTMLNGFRRECERRGIRIVPYVSTTSRLDPVAVAAAADADNVDGIVILNDDRPQLVEALSALARPVVLINGEDPAMIVDTVTAENRFGARLGIEHLLSLGHRNILHITWKGRTTIRRRYDGYSDAYLAAGLTVPADMVIEVESYEPEWGEAATRRLLAEEKPLRNATAIFCAADNLALGCLKALTEAGIRVPDDVSVLGFDDIMPAAFSAPPLSTIQLPADRLGGAALALLEQRLVAADPTRPAHRLELGCRLVLRGSIASPPK				NA	NA	NA	NA	NA
BMS010_08085	786			hypothetical protein	ATGCGTTTTGCCATCAACCACATTACCGCGCCGAAGCTTTCCCTCGAGGCGTTCTTTGCGACGGCCCGCGAACTCGGCCTGACAGAAGTCGAAATCCGCAACGACCTGCCTGATATCGTCGGCAAGGTGGATCCGGCCGAGGTAAAGGCGGCGGCCGAAAAGGCGGGCGTGACGATCATCTCGATCAATGCGCTTTATCCCTTCAACGTCTGGTCGGGCGACCTGCCTGCGCGGGCCGTCGCGATGGCCGATTATGCGGCGGCGAGCGGCGCGAAAGCGCTGGTCATGTGCCCGCTCAACGACGCTACGCCGGTGTCCTTTGACGATCTCGTCACGGCGCTGAAGGCCATGAAGCCGATCCTTAAGGAACGCGGCCTGATCGGTTTCGTCGAGCCGCTCGGTTTCCCGGTCTCGTCGCTGCGCACCAAGGCCGAAGCGATCAAGGCCATCGATGCGGCCGGTGGCGGCGATGTCTACAGGCTGGTGCACGACACCTTCCACCACCATCTCGCTGGCGAGACGGAGTTCTTCCCGGAGCGAACAGGGCTGGTCCACATTTCCGGCGTGATCGATCCTGCCGTCTCCGTAGCCGACATGCTCGACGCCCACCGCGTTCTGGTGGATGGCGGCGACCGGCTGGAGAATATCGCCCAGATCAGGACGCTTGAGGCGGCCGGTTACAAGGGACCTTACAGCTTCGAACCCTTCGCGACGGAAGTGCACGAGCTGAAGGATCCGGCCGCTGCCGTAAAGAGCAGCATCGACCATATCTCCCAGGCGCTCTGA	MRFAINHITAPKLSLEAFFATARELGLTEVEIRNDLPDIVGKVDPAEVKAAAEKAGVTIISINALYPFNVWSGDLPARAVAMADYAAASGAKALVMCPLNDATPVSFDDLVTALKAMKPILKERGLIGFVEPLGFPVSSLRTKAEAIKAIDAAGGGDVYRLVHDTFHHHLAGETEFFPERTGLVHISGVIDPAVSVADMLDAHRVLVDGGDRLENIAQIRTLEAAGYKGPYSFEPFATEVHELKDPAAAVKSSIDHISQAL	PGPT0018495_485	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0018495-iolI-K06606	NA	NA
BMS010_08086	1011	iolG_10	COG0673	Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGACTGTCAGAATTGGTGTCGTCGGCACCGGCGCAATTGGGCGTGATCATGCCCGCCGTATCAACAAGGTTCTGGGCGGCGCGAAGATCGTTGCGCTGAGCGACGTCAACCGCGCCTCGGCCGAGGCGGTTAAAAACGACATCGCCCCGGATGCCGTCGTTTTCGCCACCGGTGAAGAGCTGATCGCATCGCCGGATGTGGATGCCGTGCTCGTCACGTCATGGGGTGCCACGCATGAGCAATATGTGCTGGCGGCAATCGCCGCCGGCAAGCCGTGTTTCTGCGAAAAACCGCTGGCGACAACGGCGGAAGGCGCAAGACGCATCGTCGACGCCGAGGTGGCGCATGGCAGGCGGCTGGTTCAGGTGGGCTTCATGCGCCGATATGACGCCGGTTACGTGGCGCTGAAACAGGCCGTCGATAGCAGGATCGGCGCGCCGATCATGGTGCACGCCGCCCACCGCAACCCGGCGGTTCCGGAGCAATATGTCACCCCGATGGCGATCCATGACACGATGATCCATGAGATCGACGTGTTGCGCTGGCTGCTTGACGATGACTATGTTTCGGCGCGGGTTCTCTTTCCCCGTTCGGCGGCCAGAAGCCATGCGCGGCTGAAGGACCCGCAGATCGTCATTCTGGAGACGGCGAAGGGCACGATCATCGACGTCGAAATCTTCGTCAATTGCCATTATGGCTACGATATCCAGTGCCAGGTGGTGGGCGAGGACGGCATTGCCAGCCTGCCGGAGCCGATGTCGGTGCAGACCCGCCTTGGCGCCAAGCTGCAGAACGATATCCTGACCGACTGGAAAGACCGCTTCATCGCCAGCTACGATGTGGAATTGCAGGACTTCATCCATGCGGCGGCGAAGGGCACGGCATCGGGACCCAACTCCTGGGACGGCTACGTGGCCGCCATCACCTCCGACGCCTGCGTGGCCGCACAGGAAACGGACGGGGCAGCAGTTGAAATCAAGCTTCCCACCCGTCCCGCCCTTTATCAGTGA	MTVRIGVVGTGAIGRDHARRINKVLGGAKIVALSDVNRASAEAVKNDIAPDAVVFATGEELIASPDVDAVLVTSWGATHEQYVLAAIAAGKPCFCEKPLATTAEGARRIVDAEVAHGRRLVQVGFMRRYDAGYVALKQAVDSRIGAPIMVHAAHRNPAVPEQYVTPMAIHDTMIHEIDVLRWLLDDDYVSARVLFPRSAARSHARLKDPQIVILETAKGTIIDVEIFVNCHYGYDIQCQVVGEDGIASLPEPMSVQTRLGAKLQNDILTDWKDRFIASYDVELQDFIHAAAKGTASGPNSWDGYVAAITSDACVAAQETDGAAVEIKLPTRPALYQ				NA	NA	NA	NA	NA
BMS010_08087	897			hypothetical protein	ATGAAACACACGCTCGACCCCCACATGTTCCGACACCTTTCGCTGGCCGAGACCTGCCGCAAGGTTGCCGAACTCGGCTATGATTACGTCGAACTTTCACCCCGTCCGGATTTCCTCTCCTGGTGGACCCGGCCGAAGGTCTATCCCGAACGCGTCGCCGAATTCAAAAAGGCGCTGAAGGACCATGGTGTCGGCCTTGCGACGCTGCAGCCCATGTATCGCTGGGCAAGTCCCTATCCGGACGAATGGGAAGTGGCGATCGACAACTGGAAACGCGCCATCGAGATTGCCGTCGAGATGGAATGCCCGATGTTCGTTTCGGAATTCGGCCGTGGCGGCTCGCCGGATCGCAGCCTTAACGACCGTTCCGGCCTGCATCGCCCGGAAACCTGCGAAGCGCAGTTCTTCCGCGCCATGGATATTCTGGTGCCGATCCTTGAACGGGAAGGTCTGGTGCTGTCGCTGGAGGCCCATCCTGAAGACTGGATCGAGGAGATCGCGCCGGCCATCGACATCATCAAGACCATCAATTCCAAGGCGGTGAAGGCCTCCTTCATCGCGCCGCACACGTTCTTTTACGGGCCGGACATGGTGGCTAACCTGCGTGCGACCGAGGGCCATCTGGTGCATGTGCGCCTTGCCGATACCTATGACCACAACAAGTCGTCGCAGCTGCGTTACATCGTCAATCCCCCCGGTTCCAAGGTCAGGGTGCACCAGCACACCGATTTCGGCCAGGGCGAGATCGACTGGGAGACCTTCTTTGCGACGCTCGCCGACATGAAATTCGACGGCGTGCTCTCGAACTGCGTGTTTGCCTGGGAAGATCGTGTCGATGAAAGCGCGCGGTTCATGCTCAGCGAAACCCGGCGATACGTCGCCAAATACTGGAAATGA	MKHTLDPHMFRHLSLAETCRKVAELGYDYVELSPRPDFLSWWTRPKVYPERVAEFKKALKDHGVGLATLQPMYRWASPYPDEWEVAIDNWKRAIEIAVEMECPMFVSEFGRGGSPDRSLNDRSGLHRPETCEAQFFRAMDILVPILEREGLVLSLEAHPEDWIEEIAPAIDIIKTINSKAVKASFIAPHTFFYGPDMVANLRATEGHLVHVRLADTYDHNKSSQLRYIVNPPGSKVRVHQHTDFGQGEIDWETFFATLADMKFDGVLSNCVFAWEDRVDESARFMLSETRRYVAKYWK	PGPT0020845_130	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020845-iolH-K06605	NA	NA
BMS010_08088	924	thpA_2	COG1879	D-threitol-binding protein	TTGAAAAACCTGTTGATGGCGACTGCGCTCTGCATTTTCGCAACGCCTGCCCTTGCCGAGACCCGTGTTGCGGTCTCCATGACATCGTTCGACAATCCGTTCCTGACGATTTTGCTGAACGGCATCAGGGCTGAGGCCGGGCGTGACAAGAACATCGAGCTTCTGGTGGAGGACGCCCAGCTTGATCCTTCGAAACAGCTCAATCAGGTGCAGAATTTCATCGCCAACGGTGTCGATGCGATCATCGTCAATGCCGTGGATGGCGATGCCACCTCGGCGATCACCAAGGCCGCATCCGCCGCAAAAATCCCGCTCGTCTATGTCAATCACCCGCCGGCAGAACTGGAAACCGGCCTGCCTGATGGCACGGCCTTCGTCGGCTCCAACGAACTCGATTCCGGCACGATGGAGGCGGAAGCCGCCTGCAAGCTGATGGGCGGCAAGGGCAAGGCCGTGATCCTGATGGGACCTTTGGAAAACCATGCGGCGCTGGTGCGCACCAAGGATGTGGAAACGGTGTTTGCCCGGCCGGACTGCAAGATCGAAATCCTCGAAAAGCAGACGGCGAATTGGAGCCGCACGCAGGCGCAGGATCTCGTTTCCTCCTGGCTGACGGCGGGCATCCAGTTCGATGCCGTCATTGCCAATAACGATGAAATGGCGATTGGCGCCGCGCAGGCGCTGAAGGCGGCGGGCGTTTCCATGAAGGATGTCGTCATTGCCGGCATCGACGCCACGCCGGACGGCCTTGCCGCCATGCAGGCCGGCGATCTCGACATTACCGTCTACCAGAATGCGACGAAGCAGGGCGAGGTCTCCGTCCAGACGGCGGTGAAGGCCGCTGCCGGGCAAAGCACTGAGAAGACGCTTTGGGTGCCCTTCGAACTCGTCACCCCGGACAACATGTCCGCCTACGCCAAATAA	MKNLLMATALCIFATPALAETRVAVSMTSFDNPFLTILLNGIRAEAGRDKNIELLVEDAQLDPSKQLNQVQNFIANGVDAIIVNAVDGDATSAITKAASAAKIPLVYVNHPPAELETGLPDGTAFVGSNELDSGTMEAEAACKLMGGKGKAVILMGPLENHAALVRTKDVETVFARPDCKIEILEKQTANWSRTQAQDLVSSWLTAGIQFDAVIANNDEMAIGAAQALKAAGVSMKDVVIAGIDATPDGLAAMQAGDLDITVYQNATKQGEVSVQTAVKAAAGQSTEKTLWVPFELVTPDNMSAYAK	PGPT0016780_533	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_TRANSPORT,PGPT0016780-rbsB|mocB|mglB-K17213	NA	NA
BMS010_08089	942	mglB_1	COG1879	D-galactose-binding periplasmic protein	ATGAAAAGACATTTCGCGATTGCAGCGCTCGCCACCATGCTGGCGACGACCGCCTCGGCGGAAACCATCGGCGTTTCGATGGCCCTGTTCGACGATAATTTCCTGACCGTGCTGCGCAACGGCATGATCGATTATTCCAAGGGCATGAGCGGCGTTTCGCTGCAGATCGAGGATGCGCAGAACGATGTCGGCAAGCAGTTGAGCCAGGTGCAGAACTTCGTTGCCGCCGGTGTCGACGCCATCATCGTCAACCCGGTGGATACGGATGCGACCGTGGCGCTTTCGCAGGCTGCCGCTGCCGCCGGCATTCCGCTCGTTTATGTCAACCGCCAGCCGGTCAACCTCGACAGCCTGCCGGAAAAACAGGCCTTCGTTGCCTCCGATGAAAAACAGTCCGGCACCCTGCAGACGCAGGAAGTCTGCCGCCTGCTGAAGGCCGCCGGCAAGGCGGAAGCGAAGGCGGTGGTGATGATGGGCGAGCTTTCCAACCAGGCGGCCCGCATGCGCACGCAGGATATCAAGGACGTGGTGGCGACGCCCGATTGCAGCTTCATCAAGCTTGTCGAGGAACAATCCGCCAACTGGTCGCGCACGCAAGGCTCGGACCTGATGACCAACTGGCTTTCGGCCGGGGTCCAGTTCGATGCGGTGATTTCCAACAATGACGAAATGGCCATCGGCGCCATCCAGTCGCTGAAGGCGGCAGGCCGGTCGATGGACAGCGTCATCATCGCCGGCATCGACGCCACGCAGGACGCGCTTGCCGCCATGGCGGCGGGTGAGCTGGATGTGAGCGTTTTCCAGAATGCCGCCGGCCAGGGCAAGGGCGCGGTTGATACGGCGCTGAAACTGGCAAAGGGGGATGCGGTGGACAAGAAGGTTTTCGTACCCTTCGAATTGGTCACACCCGCAAACCTAAAGGACTATCAGGCCAAGAACTGA	MKRHFAIAALATMLATTASAETIGVSMALFDDNFLTVLRNGMIDYSKGMSGVSLQIEDAQNDVGKQLSQVQNFVAAGVDAIIVNPVDTDATVALSQAAAAAGIPLVYVNRQPVNLDSLPEKQAFVASDEKQSGTLQTQEVCRLLKAAGKAEAKAVVMMGELSNQAARMRTQDIKDVVATPDCSFIKLVEEQSANWSRTQGSDLMTNWLSAGVQFDAVISNNDEMAIGAIQSLKAAGRSMDSVIIAGIDATQDALAAMAAGELDVSVFQNAAGQGKGAVDTALKLAKGDAVDKKVFVPFELVTPANLKDYQAKN	PGPT0016780_188	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_TRANSPORT,PGPT0016780-rbsB|mocB|mglB-K17213	NA	NA
BMS010_08090	1029			hypothetical protein	ATGAAACGTCCGACCATCACAGATGTTGCGACAGCCGCCGGCGTCAGCGTCGCCACCGTCGACCGGGTGCTGAACGGTCGCCTGCCGGTGCGGGAGGAAACCTCCCGGCGGGTGTTCGAGGCGGCGGAGAAGATCGGTTTTCACGCCACGAACATCATTCGCCAGCGCATGCTGGCCGATCTGCCGTCCTATAGTCTCGGCATCATCCTGCGCAAGGAACGGCACGCCTTCTACCAGACCTTTGCCGACGAGCTGGAGCTTGCGGCGCGCAACGTCCGGGATCGCCATCTCAATCTGCGCATCGAATTTGCCCAGTCGGGCGAGCCGAGCGAGCTTGCGGCCCTTCTGACGGGCATGAAGGGCCGCGTGCAGGCCGTGGCGGCCACGGGGCCTGACCATCACGATGTCACCGCCGCCGTCGAGGCCCTGAAGGCGAAGGGCATTCCGACATTTTCGCTGCTTTCGGATTTCGCGCAGGGGGTGCGGGAAGCTTATCTCGGCGCCAACAACATGAAAGTCGGGCGCACGGCGGCCTGGATGATCTCTCGGTTGGCGCGCAGCAGGGGCAAGGTGCTTTTGCTGCTCGGCGGCCACCGTTTTCACGGTCACTCGCTGCGCGAAACCGGCTTTCGCAGCTATATGCGGGAATATGCGCCGGAATTCGAGGTGATGGATGCGCTGATCACGCTGGAAACCCGGCGGCTGACCTATGAGCTGGTGATGGACACCATCGCCAAGCACAAGGATCTGGTCGGCATCTATTGCATCGGCGGCGGCATGGAAGGCGTCATCGAGGCCCTGCAGCAGGAAAACCGGCAGGAGGCCATCGTCTGTCTTGTGAATGAACTGACGCCCGAATCCCGTCAGGCGCTGCTGGAAAAGCGTATCAGCGGCATATTCCAGACGCCGCTCCGTGAATTATGCACGGACCTCATCGCCACCATGGTTCACAGCATCGAACATGGCATGGCGGAAACGCCGGGACAGCGGTTTGTACCCGCCCATCTGTGGGTTCCTGAAAGCCTTTGA	MKRPTITDVATAAGVSVATVDRVLNGRLPVREETSRRVFEAAEKIGFHATNIIRQRMLADLPSYSLGIILRKERHAFYQTFADELELAARNVRDRHLNLRIEFAQSGEPSELAALLTGMKGRVQAVAATGPDHHDVTAAVEALKAKGIPTFSLLSDFAQGVREAYLGANNMKVGRTAAWMISRLARSRGKVLLLLGGHRFHGHSLRETGFRSYMREYAPEFEVMDALITLETRRLTYELVMDTIAKHKDLVGIYCIGGGMEGVIEALQQENRQEAIVCLVNELTPESRQALLEKRISGIFQTPLRELCTDLIATMVHSIEHGMAETPGQRFVPAHLWVPESL	PGPT0017992_6759	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017992-lacI|galR-K02529	NA	NA
BMS010_08091	1206	pcaF_2		Beta-ketoadipyl-CoA thiolase	ATGACCGACGCATTCATCTGCGACTATATCCGCACGCCCATCGGCCGCTTCGGCGGCGCGCTTTCTTCGGTGCGGGCCGACGATCTCGGCGCGGTGCCGCTGAAGGCGCTTGTTGAGCGCAACCCTTCCGTCGACTGGGAAGCGGTCGAAGATGTGATCTTCGGTTGCGCCAATCAGGCGGGTGAGGATAACCGCAACGTCGCACGCATGTCGCTGCTGCTCGCCGGCCTGCCGGTTTCGGTGACCGGAACGACGATCAACCGGCTGTGCGGTTCGGGCATGGATGCCCTTATCGCAGCCGCCCGCGCCGTGAAATCGGGCGAGGCGGAATTGATGATCGCCGGCGGCGTGGAAAGCATGAGCCGCGCGCCCTTCGTTCTGCCGAAGGCGGAGAGCGCCTTTTCGCGCAATGCCGAAATCTACGACACCACCATCGGCTGGCGTTTCGTCAACCCGCTGATGAAGGCGCAATATGGCGTCGATTCCATGCCGGAAACCGGCGATAACGTCGCCATTGACTATCAGGTCTCCCGTGAGGATCAGGACGCCTTCGCCGTTCGCAGCCAGCAGAAGGCGGCCGACGCGCAGGCCAATGGCCGTCTCGACAGGGAAATCGTGTCCGTGACCATCCCGCAGCGCAAGGGCGATCCGCTGGTGGTCTCGAAGGATGAGCATCCGCGTGCCACGAGCCTTGAAGCGCTGGCGAAGCTGAAGCCTGTCAACAGGCGCGATGGTGCGACGGTGACGGCGGGCAATGCGTCCGGCGTCAATGACGGCGCGGCCGCACTCATCGTCGCATCGGCGGAGGCCGCGAAGAAATACGGGCTGACGCCGATTGCCCGCATTCTCGGCGGTGCCGCCGCCGGCGTGCCGCCGCGCGTCATGGGCATCGGCCCGGCCCCGGCCTCCGCAAAGCTGCTGGCCCGGCTCGGGCTGAAGCAGGAGCAGCTCGACGTAATCGAGCTGAATGAGGCTTTCGCCAGCCAGGGCCTTGCGACGCTGAGGCAGCTCGGCATTGCGGATGACGATGCGCGGGTGAATGCCAATGGCGGCGCCATCGCGCTCGGCCATCCGCTCGGCATGTCCGGCGCGCGCATTGCCGGCACGGCGGCGCTCGAACTTTCGCTGACCGGCAAGCGTCTTGCCCTCGCCACCATGTGCATCGGCGTCGGGCAGGGTATAGCCGTGGCGCTGGAAAGGGTCTGA	MTDAFICDYIRTPIGRFGGALSSVRADDLGAVPLKALVERNPSVDWEAVEDVIFGCANQAGEDNRNVARMSLLLAGLPVSVTGTTINRLCGSGMDALIAAARAVKSGEAELMIAGGVESMSRAPFVLPKAESAFSRNAEIYDTTIGWRFVNPLMKAQYGVDSMPETGDNVAIDYQVSREDQDAFAVRSQQKAADAQANGRLDREIVSVTIPQRKGDPLVVSKDEHPRATSLEALAKLKPVNRRDGATVTAGNASGVNDGAAALIVASAEAAKKYGLTPIARILGGAAAGVPPRVMGIGPAPASAKLLARLGLKQEQLDVIELNEAFASQGLATLRQLGIADDDARVNANGGAIALGHPLGMSGARIAGTAALELSLTGKRLALATMCIGVGQGIAVALERV	PGPT0001565_1579	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0001565-fadA|fadI-K00632	NA	NA
BMS010_08092	696	pcaJ	COG2057	3-oxoadipate CoA-transferase subunit B	ATGACCACGACCATCGACACCCGCGAAGACATCAAGCTTTCCAACGCCCAGATCGCATGGCGCGCGGCGCAGGACATCGAGGATGGCGCTTACGTCAACCTCGGCATAGGCTTTCCGGAAATGGTGGCGCGTTACCAGCCGCCCGGCCGTCAGGCGATCTTCCATACCGAAAACGGTATCCTGAATTTTGGCGAAGCGCCGCCGGAAGGCGAAGAGGACTGGAACCTCATCAATGCCGGCAAGAAGGCTGTGACGCTGAAGCCGGGTGCGGCCTTCTTCCACCATGCCGACAGCTTTGCCATGGTGCGCGGCGGGCATCTGGATGTGGCGATCCTCGGAGCCTATCAGGTGGCGCAGAATGGCGATCTCGCCAATTGGCGTGTCGGCTCCAAGGGCGTGCCGGCCGTCGGCGGCGCCATGGATCTGGTGCATGGCGCAAAGCAGGTCTTCGTCATCACCGAACATGTGACCAAGAACGGCGAACCGAAGCTCGTTGAAAAATGCGCTTTTCCGCTGACCGGTGTTGGCTGCATCACCCGCATTTATACCAGCCATGCTGTCATTGACGTGGTGGATGGCCGTTTCGTGCTGCGTGAAAAACTGCCGGCGATGACCTTCGATGAATTGCAGGCCATGACTGGCGCGCCTTTGGCGGTCGATGGCGAGGTTGCCGATCTCGTCGCCCCGGAACTTTGA	MTTTIDTREDIKLSNAQIAWRAAQDIEDGAYVNLGIGFPEMVARYQPPGRQAIFHTENGILNFGEAPPEGEEDWNLINAGKKAVTLKPGAAFFHHADSFAMVRGGHLDVAILGAYQVAQNGDLANWRVGSKGVPAVGGAMDLVHGAKQVFVITEHVTKNGEPKLVEKCAFPLTGVGCITRIYTSHAVIDVVDGRFVLREKLPAMTFDELQAMTGAPLAVDGEVADLVAPEL	PGPT0005030_53	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005030-pcaJ-K01032	NA	NA
BMS010_08093	708	pcaI	COG1788	3-oxoadipate CoA-transferase subunit A	ATGGACAAGACAATCAAGAGCGCGGAAGCGGCGCTTTCCGGCATCGGTGACGGTGCGACGATCATGATCGGCGGTTTCGGCGGCTCCGGCGCGCCTATCGAGCTGATCCACGCGCTGATCGACAAGGGCCCGAAGAACCTGACGGTTATCAACAACAATGCCGGCAACGGCCGCATCGGCATCGCCGCGATGATCGATGCTGGTATGGTCAGGAAGATGATCTGCTCCTTCCCGCGCTCTTCCGATCCGCGCGCTTTCACCGACCGGTATCTGGCCGGCGAAATCGAGCTGGAACTGGTGCCGCAGGGCACGCTTGCCGAGCGCATCCGCGCCGGCGGTGCCGGCATTCCGGCCTTCTACACCCCCACTGGCTTCGGCACGGAACTGGCCGAAGGCAAGGTGATTGCCGAATTCGACGGGCGGTCTTACGTGCAGGAACGCTGGCTGAAGGCGGATTTCGCCATCGTCAAGGCCGAGCTTGGCGATACCTATGGCAACCTCACCTACAACAAGGCCGGCCGCAATTTTAACCCGCTGATGTGCATGGCCGCAAAGACCACCATCGCGCAGGTCTCGAAGATCGTCGAAGCCGGCGAGATCGATCCGGAGCATGTCGTCACGCCCGGTATTTTCGTGAACGGCGTCGTGGAAATCCCCGATCCGCAACAGGAAGAAGTCCTCATTCGCGCGGGAGTAGCCTACGCATGA	MDKTIKSAEAALSGIGDGATIMIGGFGGSGAPIELIHALIDKGPKNLTVINNNAGNGRIGIAAMIDAGMVRKMICSFPRSSDPRAFTDRYLAGEIELELVPQGTLAERIRAGGAGIPAFYTPTGFGTELAEGKVIAEFDGRSYVQERWLKADFAIVKAELGDTYGNLTYNKAGRNFNPLMCMAAKTTIAQVSKIVEAGEIDPEHVVTPGIFVNGVVEIPDPQQEEVLIRAGVAYA	PGPT0005025_138	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005025-pcaI-K01031	NA	NA
BMS010_08094	762	pcaR_2	COG1414	Pca regulon regulatory protein	ATGGCCGTCAGCGAAAGAGACATGATGGGCGGTCTCGCCAAGGGATTGCGGGTGATCGAGGCCTTCAGCGCCGAGCGGCCGCGACTGTCGATTTCCGATGCCGCCGAGATTGCCGGGCTGGACCGCGCCACGACGCGGCGCTGCCTGCTGACGCTTTCGGAACTCGGTTATGCGGCTTATGACGGCAAGTTCTTTACCGTGACACCAAAGGTGCTGCGCCTCGGCACCGGCTGTCTGGCCACCATGCCGCTGCCGCGCATCGTGCAGCCGCTGCTCGACCGCCTTTCCGAAGAGATCGGCCAGAGCACCTCCGTTTCCATTCTGGATGAGACCGAGATCGTTTATGTCGCCCGCGCCGCGCAGCAGCGGGTCATGTCGATTGCGCTGATGCCGGGTTCGCGCCTGCCCGCCTATTGCACCTCCATGGGCCGGGTTCTTCTTTCGGCGCAGACGGTCGAGCGGCAGCGCGACATTCTCGAAGCCTCCCGGCTGGTGGCGCGCACGGAAAAGACGATCACCAGAATGGACGCCCTGCTCGCCGAAATCGAGGCCACCGGCCATCGCGGTTATGCGCTGATCGATCAGGAGGTCGAGATCGGCCTTCGCTCCATCGCGGTGCCGCTGAAAACCATGCGCGGCCAGACGGTGGCCGCTCTCAATGTCGGGCTCGCCGCCTCGGTCGCCTCAATGGAGGACCTCGTGGCGCGATACCTGCCCGCGCTTCTTGCCGTTCAGCGGGAACTGGCAAGAATGCTGGTCTGA	MAVSERDMMGGLAKGLRVIEAFSAERPRLSISDAAEIAGLDRATTRRCLLTLSELGYAAYDGKFFTVTPKVLRLGTGCLATMPLPRIVQPLLDRLSEEIGQSTSVSILDETEIVYVARAAQQRVMSIALMPGSRLPAYCTSMGRVLLSAQTVERQRDILEASRLVARTEKTITRMDALLAEIEATGHRGYALIDQEVEIGLRSIAVPLKTMRGQTVAALNVGLAASVASMEDLVARYLPALLAVQRELARMLV				NA	NA	NA	NA	NA
BMS010_08095	924	rhaR_7		HTH-type transcriptional activator RhaR	ATGCGGCTTGCTGCGAGTGAGGGTTTGTATGGCGAAGAAGCGGTGCAAGGCACTGATTTCCGCTTTCATTGCGAGACGCTTTTTTCCAGAAGCAGCCTGCACCGCTTTGAAATCGGCCTGCACCGTCACGCTGCGTTTCAGCAAATCTTGTACATTTGGGGCGGCGAGGGCGATGCGCTGCTGGATGGCCGCATCGAGGCGATCCGCCCGCCGGTCGCCATTGTCGTGCCGCCGGGGTTCGAGCACGGCTTCCGGTTTTCACGCGATATTGGCGGGGTAATCGTCACCGTGTTGCCGGGCGCCCTGCCGGCTTCAGTGCAGGCGCTGCTGCTGCGGAATTTCCAGCGGCCTGTCCTGTTGCCGTTGCGGGATTTTGCCGATGGCGAACGTCTGCGCAGCGGGTTCGAACAGATTTCGGCTGAATATGAAACACGCGAGACGGGCCGGGATGCCATCATCGAAGGTCAGTTGGCCATCGTGACGGCGCTTCTGGCGCGGGCGGCGCGGCCGCTCCTGGAAGGAACCGGCGAAGGTTTAGCGGAGCAGCGTTTCGAATTTTTGCTGTCACTGATTGCACGCCATATTCGCGAGCCGCAAAAGGCGGAGTTTTACGCGAAGAAGCTCGGTCTTTCCGAGACGCATCTCAACCGTCTGGTCCGCTCCGTTTCCGGCCTCAGCCTGCAGCGGCTGATCGCCAAACGCCAGATCGAGATCGCTCAGCAGGAGCTGATCTTTACCGTTTCCAGCGTGCAGATGATTGCGGAGGGGTTGGGTTTTGCCGATCCGGCCTATTTCAACCGGTTCTTCAAGCGCGAGACCGGCATGACCCCGCGCGCCTGGCGGCTGGCGGAGCAGCGGAAAATGGGGGATTCCTGCGCGCGGCAGGTGCCGCTTCAGACCAGCATTCTTGCCAGTTCCCGCTGA	MRLAASEGLYGEEAVQGTDFRFHCETLFSRSSLHRFEIGLHRHAAFQQILYIWGGEGDALLDGRIEAIRPPVAIVVPPGFEHGFRFSRDIGGVIVTVLPGALPASVQALLLRNFQRPVLLPLRDFADGERLRSGFEQISAEYETRETGRDAIIEGQLAIVTALLARAARPLLEGTGEGLAEQRFEFLLSLIARHIREPQKAEFYAKKLGLSETHLNRLVRSVSGLSLQRLIAKRQIEIAQQELIFTVSSVQMIAEGLGFADPAYFNRFFKRETGMTPRAWRLAEQRKMGDSCARQVPLQTSILASSR				NA	NA	NA	NA	NA
BMS010_08096	1173	pobA_2	COG0654	p-hydroxybenzoate hydroxylase	ATGCGCACCCAGGTCGTCATCATCGGCTCCGGCCCCTCGGGGCTTCTGCTTGGCCAGCTTCTGGCCAGAGAAGGCGTCGAGACTGTCATTCTCGACCGGGTCAGCAAGAATTACATTCTCGGCCGTGTCCGCGCCGGCGTGCTGGAAGAAGGCACGGTGCAGCTCCTGGAAAAGGTCGGCGCGGATAAACGCCTGCGCCGGGAAGGCCTGCCGCATGACGGATTTTCGCTGACCTTCGACGGCCGCGACCACCGTATCGATCTCTTCGACCTGACCGGCGGCAGCCATGTGATGGTTTATGGCCAGACCGAGGTGACCCATGACCTGATGGATGTCCGCGAAGCGGCAAACCTTGTGACCATCTACGACGCCGGCAATGTCGAACCGCATGATTTCGATGGCGCAAGCCCCTATGTCACCTATCAGAAAGATGGCGTAAGCCACCGGATCGATTGCGATTTCATCGCCGGCTGCGACGGCTTCCACGGGGTGAGCCGCAAATCGGTGCCTCAGGGCGCGATCAAGGAGTTCGAGAAGGTCTATCCTTTCGGCTGGCTCGGCATTCTGGCCGATGTGCCGCCCGTCAACCATGAACTCATCTATGCCAACCACCCGCGCGGTTTTGCGCTCTGTTCCATGCGCTCGCACACGCGCAGCCGTTATTACATTCAATGTTCGCTGGAGGACCGGCCGGAAGACTGGAGCGACGAGCGCTTCTGGGATGAAATCCGCCGTCGCCTGCCGGAAAACCATGCGGATGTGATGGTAACCGGCCCGTCCTTTGAAAAATCCATCGCGCCGCTCCGGTCCTTCGTCTGTGAACCGATGCGGTTCGGAAGGCTGTTTCTGGCCGGAGACGCCGCCCACATCGTGCCGCCGACGGGCGCGAAGGGTCTCAACCTCGCCGCCAGCGATGTGCATTATCTGAGCGAGGCGCTGATCGAATTTTATCGCGACCGTTCCGAGGCCGGCATCGACGGCTATTCGCAGAAGGCGCTTTCCCGGGTCTGGAAGGCCGTGCGTTTCTCCTGGTGGATGACGACGATGATGCATCGCTTCCCTGACACAGGAGATTTCGGCCAGCGCATTCAGGAAGCGGAACTGGACTACCTCGTGCAATCGCGCGCCGCTTCCACCGCGCTTGCAGAGAATTATGTGGGGCTTCCCTATTAG	MRTQVVIIGSGPSGLLLGQLLAREGVETVILDRVSKNYILGRVRAGVLEEGTVQLLEKVGADKRLRREGLPHDGFSLTFDGRDHRIDLFDLTGGSHVMVYGQTEVTHDLMDVREAANLVTIYDAGNVEPHDFDGASPYVTYQKDGVSHRIDCDFIAGCDGFHGVSRKSVPQGAIKEFEKVYPFGWLGILADVPPVNHELIYANHPRGFALCSMRSHTRSRYYIQCSLEDRPEDWSDERFWDEIRRRLPENHADVMVTGPSFEKSIAPLRSFVCEPMRFGRLFLAGDAAHIVPPTGAKGLNLAASDVHYLSEALIEFYRDRSEAGIDGYSQKALSRVWKAVRFSWWMTTMMHRFPDTGDFGQRIQEAELDYLVQSRAASTALAENYVGLPY	PGPT0005065_878	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYBENZOIC_ACID_GALLATE_RESISTANCE,PGPT0005065-pobA-K00481	NA	NA
BMS010_08097	942	gbpR_3		HTH-type transcriptional regulator GbpR	ATGGTCGATCAACGTATCAAGTTCCGCCACCTGCAGACTTTCGTGGAGGTGGCGCGGCAGAAAAGCGTCATCCGGGCTGCGGAAATCCTGCATGTCAGCCAGCCGGCCGTGACGAAGACGATCCGTGAACTGGAAGATATTCTCGGCGTCTCGCTGTTCGACCGGGAGGGGCGCGGCATCCGCATCAGCCGTTATGGCGAGGTGTTCCTGCGCCACGCCGGCGCGACGATGACGGCGCTCAGGCAGGCGGTCGATTCGGTATCGCAGGAGGCGGCGCGCGCCGGTCCGCCGGTGCGGGTCGGCGCTCTGCCCACGGTGTCTGTTCGCATCATGCCGAAGGCGATGGCCGGTTTTCTGGCGGAAAAGACCGGCAGCCCGGTAAAGATCGTGACGGGCGAAAACGCCGTGCTGCTGGAACAACTGCGCGTCGGCGATCTCGATCTTGTTGTCGGCCGTCTGGCCGCGCCGCAGAAAATGGCGGGCTTTTCCTTTGAGCATCTCTATTCGGAAAAGGTCCGCTTCGTGGTGCGCGCCGGCCACCCGCTGTTGTCACCCGGCCTTTCGGTGTTCGATCACCTGCATGAATATCCGGTGCTGATGCCGACACGCCAATCGGTCATCGGCCCCGTCGTCGAGCAATTTTTGATCGCCAACGGCGTTCCGGCCCTGCCGATCCGCATCGAAACCGTGTCCGACGCCTTCGGTCGCGCCTTCCTGCGCACCAGCGATGCGATCTGGATCATCTCGGAAGGCGTGGTGGCGGCGGATGTGGCGGATGGTGTTCTGGCTATCCTGCCCGTCGAGACCGGCGATACCAGCGGCCCGGTGGGGCTGACGGTGAGGGCCGATACGCAGCCCTCGCTGCCGCTGTCGCTGCTGATGCAGGCTATTCGCGAGGCGGCGGGCGAGTTGCTGGATGGGAGGCCGGAGGCCGGTTATTGA	MVDQRIKFRHLQTFVEVARQKSVIRAAEILHVSQPAVTKTIRELEDILGVSLFDREGRGIRISRYGEVFLRHAGATMTALRQAVDSVSQEAARAGPPVRVGALPTVSVRIMPKAMAGFLAEKTGSPVKIVTGENAVLLEQLRVGDLDLVVGRLAAPQKMAGFSFEHLYSEKVRFVVRAGHPLLSPGLSVFDHLHEYPVLMPTRQSVIGPVVEQFLIANGVPALPIRIETVSDAFGRAFLRTSDAIWIISEGVVAADVADGVLAILPVETGDTSGPVGLTVRADTQPSLPLSLLMQAIREAAGELLDGRPEAGY				NA	NA	NA	NA	NA
BMS010_08098	798	catD_3	COG0596	3-oxoadipate enol-lactonase 2	ATGCATTTTCTGCGCTGCGGCGAGACCGTGATTCATTACCGCGTCAGGGGATTGGACACAGGCAAGCCGGTCATCGCCTTCATCAATTCGCTCGGCACCGATTTCCGCATCTGGGATGCGGTGATCGAAGCGCTCGGAGATGATTATGCCTATGTGCTGCACGACAAGCGCGGCCACGGGCTTTCCGATATCGGACACACCCCCTATTCCATCGACGATCATGCCGGCGATCTGATCGCACTCCTCGATCATCTTGGCGTGAAGAGCGCGATCATCTGGGGCCTGTCGGTGGGCGGCCTGATTGCGCAGGGGCTTTATGCCCGCCGTCCCGATCTGGTGCGCGCGCTCATACTCAGCAACACCGCCCACAGGATCGGCACGGCCGAGATGTGGAACGCCCGCATCGACAAGATCGCCGCAGACGGCCTCGTCTCGCTGGTCGATCCCGTCATGGAGCGCTGGTTCACACCCGCCTTTCGCAAGCCCGACAATGCCGCCTATGCCGGCGCGCGCAACATGCTTTCGCAACAGCCGGAAGCCGGTTACAGCGGCACCTGCGCCGCCATCCGCGATGCGGATTTTACCGAAGAGGCCGGGCGCATCGCCGTGCCGACGCTTTGTGTCGCGGGCGATCAGGATGGCTCAACACCGCCGGAGCTGGTGCAATCGCTGGCCGGTCTCATTCCCGCGAGCCGCTTTGTCACCATTGCCGGCTGTGGCCATATTCCCTGCCTTGAACAGCCGCTCACCTACGCGCAGGCAGCCTCCATTTTTCTCAAGACCTTGCCGGAGCACTGA	MHFLRCGETVIHYRVRGLDTGKPVIAFINSLGTDFRIWDAVIEALGDDYAYVLHDKRGHGLSDIGHTPYSIDDHAGDLIALLDHLGVKSAIIWGLSVGGLIAQGLYARRPDLVRALILSNTAHRIGTAEMWNARIDKIAADGLVSLVDPVMERWFTPAFRKPDNAAYAGARNMLSQQPEAGYSGTCAAIRDADFTEEAGRIAVPTLCVAGDQDGSTPPELVQSLAGLIPASRFVTIAGCGHIPCLEQPLTYAQAASIFLKTLPEH	PGPT0004995_1131	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0004995-pcaD|catD-K01055	NA	NA
BMS010_08099	420			hypothetical protein	ATGGCGGACCATATCGACAAGAACGAACGTTTCGAACAGGGCATGAAAACCCGCCGCTCCGTGCTCGGCGACGCCCATGTGGACCGGGCGCAAACCATGACGTCCGGTTTCGACCAGCCTTTCCAGCAGCTCATCACCGAAGCCGCCTGGGGAACGGTGTGGTCCGGCAACCACTGGACGAAGCGCGAGCGCTCGATGGTGACCATCGCCCTGCTCGCCGCACTCGGGCAGGACGAAGAGCTGGCCATGCATGTGCGCGCCACCGCCAATACCGGCGCCACCGAGGCAGATATTCGCGAGGCCCTGCTGCATGTGGCGATCTATGCGGGCGTGCCCGCCGCCAACCACGCTTTCAAAATCGCCAAGCTTGCCCTGGCCAGCATGAAAGCCGATAGTTCCAGCGAGGAGGAGACGAAATGA	MADHIDKNERFEQGMKTRRSVLGDAHVDRAQTMTSGFDQPFQQLITEAAWGTVWSGNHWTKRERSMVTIALLAALGQDEELAMHVRATANTGATEADIREALLHVAIYAGVPAANHAFKIAKLALASMKADSSSEEETK	PGPT0005005_1779	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005005-pcaC-K01607	NA	NA
BMS010_08100	741	pcaH_2	COG3485	Protocatechuate 3,4-dioxygenase beta chain	ATGAGCAACCAGCCGCCGGAAACCGGACCGTTCTTCGCACGCAACCGCGACATTCATCCGCTCGCCTATGCGCCCGGATACAAAACCTCGATCCTGCGTTCGCCGCAGCGCGCACTGATTTCGCTGGAAGGCACCAGGAGCGAGATCACCGGCCCGGTCTTCGGCCATGGCATGCTGAACCCGCTGGATAATGACCTCATCCTCAACTATGCCCGCCCCGGCGAAATGCCGGTCGGGCCGCGCATTCTGGTGCACGGCCGGGTGCTGGACGAGCGTGGCCGCGGCGTGGATGGCGCGCTGGTGGAATTCTGGCAGGCCAATGCCGGCGGACGCTACCGCCACAAGAAGGAAAGCTACCTCGCCGCCATCGATCCGAATTTCGGCGGCGTCGGCCGTACCATCACGGATGAGAACGGCTATTATTGGTTCAAGACCATCCAGCCCGGCGCATATCCCTGGCCCAACGGCGTCAATGACTGGCGGCCGGCCCATATTCACTTCTCGGTCTTCGGCCACGGGTTCGCCCAGCGGCTCATCACCCAGATGTATTTCGAAGGCGACCCGCTCATCTGGAAATGTCCGATCGTCAAGACCATTCCGGATGAGGATGCGATCAGAAGACTGATCGCGCCGCTGGACATGAATGCGACCCTGCCGATGGACATGCTGGCCTATAAGTTCGATATCGTTCTGCGCGGCCGCCGCTCGACCCTTTTTGAAAACCGCATGGAGGGCAACTGA	MSNQPPETGPFFARNRDIHPLAYAPGYKTSILRSPQRALISLEGTRSEITGPVFGHGMLNPLDNDLILNYARPGEMPVGPRILVHGRVLDERGRGVDGALVEFWQANAGGRYRHKKESYLAAIDPNFGGVGRTITDENGYYWFKTIQPGAYPWPNGVNDWRPAHIHFSVFGHGFAQRLITQMYFEGDPLIWKCPIVKTIPDEDAIRRLIAPLDMNATLPMDMLAYKFDIVLRGRRSTLFENRMEGN	PGPT0005015_346	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005015-pcaH-K00449	NA	NA
BMS010_08101	621	pcaG_2	COG3485	Protocatechuate 3,4-dioxygenase alpha chain	ATGGTTCAGCCGCTCAACTATCTCAAGGAAACCGCCTCGCAGACGGCGGGGCCCTACGTGCATATCGGCTGCACGCCGAATTTCGTCGGCATCGAGGGCGTGTTCGAGAAGGATCTCGGCTCCGGTCCGCTTTATAACGACAAGGCCCGCGGCGAACGCATCAGCGTGCGCGGCACGGTCTATGACGGTGCGGGCATGGCGCTGAAGGATGCGCTGATCGAAATCTGGCAGGCCGATACCGACGGTTATTACAACAGCCCCAGCGAAACGCGGGGCAAGGCCGATCCGAATTTCATCGGCTGGGGCCGCTCGCCCGGCGACATGGATACGGGTGAGTTCGTCTTCGAAACCATCAAGCCCGGCAAGGTGCCGTTCCGCGATGGCCGGCCGATGGCGCCGCACATCACCTTCTGGATCGTCGCACGCGGCATCAATATCGGCCTGCAAACCCGCATGTATTTTCCCGAAGAACAGGAGGCCAATGCCGCCGATCCGGTTCTTGCCCGCATCGAGCAGAAAAGCCGCATCGCCACGCTTGTCGCCAAAAAAGAGGAAGGCAACGTCTATCGTTTCGATATCCGCCTTCAGGGCGAAGGCGAAACCGTGTTTTTCGATATCTGA	MVQPLNYLKETASQTAGPYVHIGCTPNFVGIEGVFEKDLGSGPLYNDKARGERISVRGTVYDGAGMALKDALIEIWQADTDGYYNSPSETRGKADPNFIGWGRSPGDMDTGEFVFETIKPGKVPFRDGRPMAPHITFWIVARGINIGLQTRMYFPEEQEANAADPVLARIEQKSRIATLVAKKEEGNVYRFDIRLQGEGETVFFDI	PGPT0005010_162	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005010-pcaG-K00448	NA	NA
BMS010_08102	1062	pcaB_2	COG0015	3-carboxy-cis,cis-muconate cycloisomerase	ATGAGCCTTTCCCCCTTCGAGCATCCGTTTTTGTCAGGCCTCTTCGGCGACAGCGAGATCGTCGAGCTGTTTTCGGCAAGAGCGGATATCGACGCCATGGTCCGTTTCGAGACGGGGCTGGCGCAGGCGGAAGCGCAGGCCGGCATCATCCCCGAGGATGCGGCGGAAACGATCGTTTCGCGGCTTTCGGACTTTGCCGCCGATATGACCGCCCTTCGCCATGGCGTCGCGAAGGACGGCGTCGTGGTTCCCGAACTCATCCGGCAGATGCGCGCGGCGGTCGCCGGCCAGGCGGCGGAAAGGGTGCATTTCGGCGCCACCAGCCAGGATGTCATCGATACCAGCCTGATGCTGCGGCTGAAGGCTGCGGCGGAAATCATCTCCGCCCGGCTCGGCCGCCTGATCGATACGCTGGGAGACCTTGCCTCCCGCGACGGCCACAACCCGCTGACGGGCTATACCCGCATGCAGGCCGCCATCGGCATCACCGTCGCCGACCGGGCGGCGAGCTGGACTGCGCCGCTGGAACGCCACCTGCTGCGGCTCGAAAGTTTTACGCAGAGCGGCTTCGCCCTGCAATTCGGCGGGGCGGCCGGTACCCTGGAAAAGCTTGGTGACAATGCCGCAGCGGTGCGTGCCGATCTCGCAAAACGGCTCGGCCTTGCCGACAGGCCGCAATGGCAAAGCCAGCGCGACGGCATCGCCGAATTCGCCAATCTGCTCTCGCTGATCACCGGCGCGCTCGGCAAGTTCGGGCAGGATATTGCGCTGATGGCCGAACTCGGTGCGGAAATCCGCCTTTCCGGTGGCGGCGGCTCTTCGGCCATGCCGCACAAACAGAACCCGGTCAATGCCGAAACGCTGGTGACGCTCGCACGCTTCAATGCCGTGCAGATATCCGCCCTGCACCAGTCGCTCGTGCACGAACAGGAACGATCTGGCGCGGGCTGGATGCTGGAATGGCTGTCGCTGCCGCAAATGGTGACGGCAACGGGCGCCTCGCTGCTGATCGCCGGGCGATTGGCCGAGCAGATAGACAGGCTGGGCACAGGCGAAAACTAG	MSLSPFEHPFLSGLFGDSEIVELFSARADIDAMVRFETGLAQAEAQAGIIPEDAAETIVSRLSDFAADMTALRHGVAKDGVVVPELIRQMRAAVAGQAAERVHFGATSQDVIDTSLMLRLKAAAEIISARLGRLIDTLGDLASRDGHNPLTGYTRMQAAIGITVADRAASWTAPLERHLLRLESFTQSGFALQFGGAAGTLEKLGDNAAAVRADLAKRLGLADRPQWQSQRDGIAEFANLLSLITGALGKFGQDIALMAELGAEIRLSGGGGSSAMPHKQNPVNAETLVTLARFNAVQISALHQSLVHEQERSGAGWMLEWLSLPQMVTATGASLLIAGRLAEQIDRLGTGEN	PGPT0005000_1106	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005000-pcaB-K01857	NA	NA
BMS010_08103	669	glnP_4	COG0765	Glutamine transport system permease protein GlnP	ATGTCTTACAGTCTCGATTTTTCGGCGGTCATAGACCGCCTTCCCGAGCTGCTTTTAGCCTGTCTGGCGACGATCGGCCTTGCGATTGCCGGCATGTCGCTCGCCACCGTCATCGGCGTTTTGGGCGTCGTCGCCCGCCGCTCGCGGTTCAAGCTGCTGCGCGGCCTCGTCATCGGTTTTGTGGAAACAATCCGCAACACGCCGTTTCTGGTGCAGATATTCTTCATCTTCTTCGCCCTGCCGCAGATCGGCATCAAGCTCAACCCGACAGTAACGGCCATCATTGCATTGGCTCTGAACGGCGGCGCCTATGCGATTGAAATTATTCGCGGCGGGGTCGATTCCATTCCCAAGGGCCAGGTGGAGGCGGGACTTGCGCTCGGCCTTCACCGCGCGCAAATCTTCCGGCACATCATCCTGAAGCCGGCGCTGCGGGCGGTCTATCCCTCGCTCACCAGCCAGTTCATCATGCTGACGCTGACCACCTCGGTCTGCACCTCGATCGCCGCTTACGAGCTGACCTCGGTGGCGCAGAAGATCGAGGCGGATACCTTCCGGTCCTTCGAGGTCTATTTCTCGATCACGCTGCTTTATCTGGTCATTTCCTCGCTGATGATGGGCATTTTCTCGCTCATCTCCCGCGCGTCCTTCAGCTATCCGGTCAAGTGA	MSYSLDFSAVIDRLPELLLACLATIGLAIAGMSLATVIGVLGVVARRSRFKLLRGLVIGFVETIRNTPFLVQIFFIFFALPQIGIKLNPTVTAIIALALNGGAYAIEIIRGGVDSIPKGQVEAGLALGLHRAQIFRHIILKPALRAVYPSLTSQFIMLTLTTSVCTSIAAYELTSVAQKIEADTFRSFEVYFSITLLYLVISSLMMGIFSLISRASFSYPVK	PGPT0020795_8077	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
BMS010_08104	651	artQ_3	COG0765	Arginine transport system permease protein ArtQ	ATGGCATCCATCGGTCCCAACGAACTCTTCTTCCTGCTGCAAGGCCTGAAATGGACGCTTGCGCTGACCATCATCGGCTTTATCGGCGGCGGCGTCTTCGGCCTTTGCGTGGCGCTTGCCCGCGTCGCGGATAGCCCGGCGATCCAGCGCGCCAGCACCGGTTACATCGCCGTCTTTCAGGGCACGCCGCTCCTGATGCAGCTTTTCGTGGTCTATTACGGCGTGGCGCTTGCGGGCCTCAATGTCGATGCCTGGATTGCGGTCGCCATCGCTTTTACGCTGCACGCCAGCGCCTTCCTCGGCGAAATCTGGCGCGGCGGCATCCAGGCGGTGCCGAAGGGCCAGACGGAAGCCGCCAATGCGCTCGGCCTGCATTACATCTCGCGCATGAAGGACGTGGTTCTGCCGCAGGCCTTCAAGATTTCGCTGCCGGCCACCATCGGTTTCCTCGTGCAGCTCATCAAGGGCACCTCGCTTGCGGCCATTGTCGGCTTCGTCGAGCTGTCGCGCGCCGGCCAGATCGTCTCCAACCAGACGTTCCGCCCGCTCACCGTCTTCGCCCTCGTCGGCGTCATTTATTTCCTGATCTGCTGGCCGCTTTCCCTGTGGGGCGCCAGCGTTGAAAAGCGGCTGCAGACCGCAACCCGCTAA	MASIGPNELFFLLQGLKWTLALTIIGFIGGGVFGLCVALARVADSPAIQRASTGYIAVFQGTPLLMQLFVVYYGVALAGLNVDAWIAVAIAFTLHASAFLGEIWRGGIQAVPKGQTEAANALGLHYISRMKDVVLPQAFKISLPATIGFLVQLIKGTSLAAIVGFVELSRAGQIVSNQTFRPLTVFALVGVIYFLICWPLSLWGASVEKRLQTATR	PGPT0020795_10868	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
BMS010_08105	840	glnH_3	COG0834	ABC transporter glutamine-binding protein GlnH	ATGAAAACCACCACTATGAAATTCTCACGTCGTGCGATGCTCGCACTCGCTGCGGCGACGGTCGCTCTGCCCTTCGTGGCGCCGGTCGATGCTTTTGCCGGCACCGTGGAAGAAGCCAAGGCCAAGGGCAAGGTCGTCATCGGTATTCAGGGCGATAATTCGCCGTGGGGCTTCGTCAATTCCAGCGGCGTTCAGGACGGTCTCGATGCCGATATCGGCAAGGCTTTCGCCGACTATCTTGGCGTGAAGGTTGAGTTCGTGCCGCTCGCTGTCGCCAACCGTATTCCGGCACTGCTGACCGGCAAGGTCGATGTCCTCTTCGCAACCATGGGCATGACCGCAGAGCGCGCCAAGACCATCCAGTATTCCAAGCCCTATGCCGGTAACGTGCTCTCCGTTTATGGTCCCAAGGACAAGAAGATTGCTGGTTACGACGATCTGACCGGCGTTGCCGTCGGCGTTCCGAAGTCGAGCGCCATGGACACTGCTATCACCGCCGGCGCCGGCTCCAAGGCCAACATTCTGCGTTTTGACGACGACGCCGCCAACATCCAGGCGCTCGTTTCCGGCCAGGTTGAAGTCGTCGGCGGCAACCAGTTCTACGGTGACCGCCTGAACAAGGCTGCTGATGGAAAATACGAATCGAAGTTCGACCTGACGACGCTTTACAATGGCGCCGGCACCCGCCCGGGTGAAAAGGACTGGAATGAAACCATCAACGCCTTCCTCGACAAGATCAAGTCGGATGGCCAGCTCGCCAAGATCTACGACAAGTGGATGAAGCGCGAAGTGCCTGCATTCCCGGAAAGCCTGCCTGATATCCCGTTCACCGTGAAGTGA	MKTTTMKFSRRAMLALAAATVALPFVAPVDAFAGTVEEAKAKGKVVIGIQGDNSPWGFVNSSGVQDGLDADIGKAFADYLGVKVEFVPLAVANRIPALLTGKVDVLFATMGMTAERAKTIQYSKPYAGNVLSVYGPKDKKIAGYDDLTGVAVGVPKSSAMDTAITAGAGSKANILRFDDDAANIQALVSGQVEVVGGNQFYGDRLNKAADGKYESKFDLTTLYNGAGTRPGEKDWNETINAFLDKIKSDGQLAKIYDKWMKREVPAFPESLPDIPFTVK	PGPT0020800_6212	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_08106	759	glnQ_12		Glutamine transport ATP-binding protein GlnQ	ATGCCGCAATCCACCGCTCAGGCTCCGCTGATCGCCCTTGAAGGGGTGGGAAAGTGGTATGGAGCCTTCCACGCGCTTAAAAACGTCAACATGACGGTTCGCAAAGGCGAAAAAATCGTTCTTTGCGGGCCGTCCGGTTCGGGCAAATCCACGCTCATCCGCTGTATCAACCATCTGGAGGAAATCCAGGAGGGCAAGATCACGGTCGAGGGAACGACGCTGTCGGATTCCAGCCGCGCCATCGATGCGGTTCGCCGCGAAGTGGGCATGGTGTTCCAGAGCTTCAATCTCTTCCCGCACAAGACCATCATGGAAAACTGTACGCTCGCGCCCATGCGGGTGAAAGGCCTGTCGAAAGCCGATGCGGAAGCGACGGCGCGCAAATATCTGGAGCGCGTGCGTATTCTCAACCAGGCAGACAAGTACCCGGCCCAGCTTTCCGGCGGCCAGCAGCAGCGTGCGGCCATCGCCCGGGCGCTGTGCATGGAGCCGAAGGCAATGCTGTTCGATGAGCCGACCTCGGCGCTCGACCCGGAAATGGTCAAGGAAGTGCTCGACACCATGATCGGCCTTGCCCGCGACGGCATGACGATGATCTGCGTGACCCATGAAATGGGCTTTGCACGGCAGGTGGCCGACCGGGTGATCTTCATGTCGGACGGCGAGATCATCGAGGAAGGCCCGCCGGAAGAATTCTTCCGCGATCCCAAGCACCAGCGCACGCGCACGTTCCTCGGCGAAATTCTCGCCCACCACTGA	MPQSTAQAPLIALEGVGKWYGAFHALKNVNMTVRKGEKIVLCGPSGSGKSTLIRCINHLEEIQEGKITVEGTTLSDSSRAIDAVRREVGMVFQSFNLFPHKTIMENCTLAPMRVKGLSKADAEATARKYLERVRILNQADKYPAQLSGGQQQRAAIARALCMEPKAMLFDEPTSALDPEMVKEVLDTMIGLARDGMTMICVTHEMGFARQVADRVIFMSDGEIIEEGPPEEFFRDPKHQRTRTFLGEILAHH	PGPT0020790_3022	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020790-ABC_PA_A-K02028	NA	NA
BMS010_08107	870	aroE_4		Quinate/shikimate dehydrogenase (NAD(+))	ATGACAGAAAAAACATCCTTCAAGGTCGGCCTGATAGGCGCCGACATCCAGCTATCGAAATCGCCTGCTCTGCATATGCGCGAGGGCGCGGCCCATGGTCTCGATTATTCCTATGAGCTTGTGGATGTCACCGCCCGCAAACTGCCGGAAACGGCGCTTCCGGAGCTTCTTTCCGAGCTCGAAGCACGCGGGTTTGCCGGCACCAACATTACCCATCCGTTCAAGCAGGCGGTCATCCCGCATCTGCATGAACTGTCGGACGACGCCCGGATGCTGGGCGCGGTCAATACGGTGGTTTTTCGCGATGGGCGACGGATCGGCCATAATACGGACTGGTACGGCTTTCACGAAAGCTTTGTCCGTGGCCTGCCGGATGCAAAACGCGATCGGGCACTGCTGGTCGGCGCGGGTGGCGCCGGGGTTGCCGTCGCACACGCGGCGTTGAAGCTCGACATTGCCCGCCTTGATATTTTTGATCGGGATTTGGCAAGGGCCGAACGCCTGGCGCAGGACCTCAACGGCCGCTTTGGTGAGGGCCGCGCCTTTGCGGTGAAGGACCCGGCTGCGTCCCTGCCCTATGCAGATGGCCTGATCCACGCCACCCCAATGGGCATGCCAGCGCATCCGGGCATGCCTGTTGCCGCCGATCTCATCGAAAAGCGACATTGGGTGGCCGACATTGTCTACATGCCGCTTGTGACAGAGCTTTTGGCGACCGCGGCACAGAAGGGTTGCCGCACCTTGCCAGGCGGCGGCATGACCGTGTTCCAGGCCGTTGGCGCCTTCCGGCTGCTCTGCGGACGCGAGCCGGACGCCGGGCGCATGACGGCGCATTTCACCGAACTATGCATGGCGGAGGGCGTAGCATGA	MTEKTSFKVGLIGADIQLSKSPALHMREGAAHGLDYSYELVDVTARKLPETALPELLSELEARGFAGTNITHPFKQAVIPHLHELSDDARMLGAVNTVVFRDGRRIGHNTDWYGFHESFVRGLPDAKRDRALLVGAGGAGVAVAHAALKLDIARLDIFDRDLARAERLAQDLNGRFGEGRAFAVKDPAASLPYADGLIHATPMGMPAHPGMPVAADLIEKRHWVADIVYMPLVTELLATAAQKGCRTLPGGGMTVFQAVGAFRLLCGREPDAGRMTAHFTELCMAEGVA	PGPT0012890_1126	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-PHENAZINE_DERIVATES	BIOTIC_STRESS_RESISTANCE-PHENAZINE-1-CARBOXYLIC_ACID_BIOSYNTHESIS,PGPT0012890-aroE-K00014	NA	NA
BMS010_08108	444	aroQ_3	COG0757	3-dehydroquinate dehydratase	ATGAGCCTCTTCACGGTCCTCAACGGTCCCAATCTCAACCTGCTTGGCCAGCGCCAGCCGGAAATCTATGGTTATGAAACGCTTGCCGACGTCGAAGCAAACTGCCGCGCCATTGCCGACGCTGCCGGGCACACACTGTTTTTTGCCCAGAGCAACCGGGAATATGAGATCATCGACTGGATCCATGAAGCCCGCGGCAAGTCCGCGGGCATCGTCATCAATCCCGGCGCGTTCACACACACGTCTGTGGCGATCCTCGATGCCTTGAATACCTTCGAGGCTCCCGTCATCGAGGTGCACATCTCGAACATTCACAAGCGCGAGGCCTTCCGGCACCACTCCTACATTTCGCCCCGTGCAGAGGGCGTGATCGCTGGGTTGGGTATCGAAGGATACGAGGTGGCTCTCAGCCACCTTATCAAGCGTCTTTCACGATCTTCGTGA	MSLFTVLNGPNLNLLGQRQPEIYGYETLADVEANCRAIADAAGHTLFFAQSNREYEIIDWIHEARGKSAGIVINPGAFTHTSVAILDALNTFEAPVIEVHISNIHKREAFRHHSYISPRAEGVIAGLGIEGYEVALSHLIKRLSRSS	PGPT0012905_2355	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_QUINATE_CATABOLISM,PGPT0012905-aroQ|qutE-K03786	NA	NA
BMS010_08109	693	nicS_5		HTH-type transcriptional repressor NicS	ATGACGAAAACCGCGACTTCCAAAGGCACAGCAGAAACTCGCCCGGCGAAAAGAGACCCGGAGGGTGTGCGGCGCGATATTCTGTCCGTGGCGATGGAGGAATTTTCGCAAAACGGACTGTCTGGAGCGCGGATCGACGAGATCGCCGCGCGCACGCGCACGTCCAAGCGCATGATCTATTATTACTTCACCGACAAGGAGAGCCTTTATCAGCATGTGCTCGAAGAGGCATATGCCAAGGTACGCGGTGGGGAAAGCGATCTGGGCCTGGATGATCTGGAGCCTGTGGCGGCACTCGAGAAGCTCTGTCGGTTCACGTTCGATCACCACCGGCGTAACCCGGCCTTCATCCGAATGGTGATGATCGAGAATATTCACCACGGGCGGCACATGCAGTCTTCCGGGACGATACGCGAGTTGAACCGTACCGCCATCGAGGCGCTGGAGAGCGTGCTGGTGCGCGGCCAGCAGAGCGGCATCTTTCGGCAGGGCATCGACGCCTTGGAATTGCACTGGCAGATCAGCGCCCTGTCGTTTTTCAACGTCTCTAATGTCGCGACGTTCTCGTTTATCTTTGGCGACAGCCTGTTTACCGATGAAGGCCAGGAGACCTTGTCGCAGCACGCCAGCGACATGGTGCTGCGTTATGTGCTGGCGCCCGCCCATCTCACGAAGATCGTGAAAGACGCTTGA	MTKTATSKGTAETRPAKRDPEGVRRDILSVAMEEFSQNGLSGARIDEIAARTRTSKRMIYYYFTDKESLYQHVLEEAYAKVRGGESDLGLDDLEPVAALEKLCRFTFDHHRRNPAFIRMVMIENIHHGRHMQSSGTIRELNRTAIEALESVLVRGQQSGIFRQGIDALELHWQISALSFFNVSNVATFSFIFGDSLFTDEGQETLSQHASDMVLRYVLAPAHLTKIVKDA				NA	NA	NA	NA	NA
BMS010_08110	1908			hypothetical protein	ATGCCAATGCGCACATCCATTGCAACCGTATCGATCAGCGGCGAATTCCCCGAAAAGCTGGCGGCCATCGCCAAAGCGGGGTTTTCCGGCGTTGAGATTTTCGAAAATGATTTCCTGACCTACGATGCCTCGCCGCGCGAGGTGAAAGCGCTGGCGGCCGATCACGGGCTGGATATCACCCTTTTCCAGCCGTTCCGCGATTTCGAGGGCATGCCGGAGCCGCACAGGAGCCGCGCTTTTGAAAGGGCCGAGCGCAAATTCGACATTATGGGCGAACTCGGCACCGACCTGATGCTGATCTGCTCGAATGTCTCGCCGGTCTCGCTCGGCGGCATTGACCGCGCCGCCGCCGATTTCCATCAGCTAGGCGAGCTTGCGGCAAAACATGGCGTGCGCGTCGGTTACGAGGCGCTGGCCTGGGGCCGCCATATCAGCGATCACCGCGATGCCTGGGAAGTGGTGCGCCGCGCCGATCACGCCAATGTCGGCATCATCCTCGATAGTTTCCACACGCTGTCGCGCAAGATCGACCCGAATTCGATCCGCTCCATTCCCGGCGACAAGATTTTCATCGTGCAGCTTGCCGATGCGCCGCTGATCGACATGGATCTGCTCTACTGGAGCCGCCACTTCCGCAACATGCCGGGCGAAGGCGATCTGCCGGTGGTGGATTTCATGCGCGCCGTCGCCGCCACCGGCTATAGCGGCCCGCTATCGCTCGAAATCTTCAACGACCAGTTCCGCGGCGGCTCGGCCCGGCTGCTCGCCGAGGACGGCCACCGCTCGCTCATCAACCTGATGGATCAGGTGCGCCGTCTCGAACCCGACATCCGCATCGATGTGCCCGCCATGCCGGAACGGGTGGAGACGCAAGGAGTGGAGTTCGTCGAATTCACCACGGCACCGGAAGAAAAGCCTAATCTGGAAGCCCTTCTCGCCACGCTCGGCTTTGAAAACACCGCCCGGCACCGCAACCGCGATGTCGATCTTTATACGCAGGGCGATATTCGCATCGTCATCAATACCAGCGATGGTGGCGACAGTTTCGCGGGAGCCTCCTATTCCATCCATGGCACCAATGCTTATGCCTTCGGGCTGAAGGTGGATGATGCCGCAGCAGCGCTGGCACGGGCCGAAGCGCTCGGCGCGCCCACCTTCGCCGAGCCGCGTAAGTCAGGCGAGGTCGCCGTTCCCGCCATTCAGGGCGTGGGCAACGGCGTCATCTATTTCCTTGACGGTTCACCAGAGCTTTCTTCCATCTGGGACAATGAATTCGTGCCGACGGAAGGCCGAACGCCGGAAGGCGACGCCGGCCTCAGGCGGATCGATCATCTTGCGCAAACAACGCATTACGATGAAATGCTGACCTGGCTTTTATTCTACACCTCGCTGTTTGCGACGCGGCGCACGCCGATGGTCGATGTGGTCGATCCGGGCGGGCTGGTGCGCAGCCAGGCGATTGAAAGCGTGCCCTCGCCGCATTTCCGTCTGACCATGAACGGTGCGGACAATCGCAAGACTTTCGCCGGCAAATTTCTGGCCGAGGGCTTCGGCACCAGCATCCAGCACATCGCGTTTGCCACCGACGATATCTTCGCCACAGCCAAAGCCCTGCAGGCGCGGGGTTTCCACGCCCTGCCGATCTCGCGCAATTATTACGACGATCTGGAAGCCCGTTTCGGGCTGGAGCCGGAGTTTTCCGATGCGCTCCGAGCCGCGAGCATTCTTTATGACCGCGACGACAATGGCGAATATTTCCAGATCTACAGCCGAACCTTCGGGGAAGGTTTCTTCTTCGAAATCATCGAAAGGCGCGGAGCATATGGCGGTTATGGCGCGATGAACGCCCCCTTCCGCATCGCCGCACAAAGACGGCTTGCGCCGCCGGTCGGCATGCCGAAGGAATAA	MPMRTSIATVSISGEFPEKLAAIAKAGFSGVEIFENDFLTYDASPREVKALAADHGLDITLFQPFRDFEGMPEPHRSRAFERAERKFDIMGELGTDLMLICSNVSPVSLGGIDRAAADFHQLGELAAKHGVRVGYEALAWGRHISDHRDAWEVVRRADHANVGIILDSFHTLSRKIDPNSIRSIPGDKIFIVQLADAPLIDMDLLYWSRHFRNMPGEGDLPVVDFMRAVAATGYSGPLSLEIFNDQFRGGSARLLAEDGHRSLINLMDQVRRLEPDIRIDVPAMPERVETQGVEFVEFTTAPEEKPNLEALLATLGFENTARHRNRDVDLYTQGDIRIVINTSDGGDSFAGASYSIHGTNAYAFGLKVDDAAAALARAEALGAPTFAEPRKSGEVAVPAIQGVGNGVIYFLDGSPELSSIWDNEFVPTEGRTPEGDAGLRRIDHLAQTTHYDEMLTWLLFYTSLFATRRTPMVDVVDPGGLVRSQAIESVPSPHFRLTMNGADNRKTFAGKFLAEGFGTSIQHIAFATDDIFATAKALQARGFHALPISRNYYDDLEARFGLEPEFSDALRAASILYDRDDNGEYFQIYSRTFGEGFFFEIIERRGAYGGYGAMNAPFRIAAQRRLAPPVGMPKE	PGPT0009480_63	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0009480-hppD-K00457	NA	NA
BMS010_08111	303			hypothetical protein	ATGCCGGGCATGAACAACAAGGCAGGCGCAGTCAGGCTGAGGGGCTTTTTACGGTGCTTGTCCAAGGATGATGTCGAACTGGTGCGGCGCCACCTTCCCGAACATCTGCGTCTGACCAGAGCGGAACCCGGCTGTCTTTCCTTCGAGGTGTCCGAGACAGACGATCCCCTGATCTGGCAGGTGGAGGAGCTTTTCGCCGACCGTGCCGCCTTCGATTTCCATCAGCAGCGGACGCGGGCGTCCGAGTGGTTCACGGCGACCTCCGCCATTCCACGCGACTATGAGATAGCGACATTGGCGTGA	MPGMNNKAGAVRLRGFLRCLSKDDVELVRRHLPEHLRLTRAEPGCLSFEVSETDDPLIWQVEELFADRAAFDFHQQRTRASEWFTATSAIPRDYEIATLA	PGPT0025515_364	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI-2_PERCIPITATION|SIGNALLING,PGPT0025515-lsrG-K11530	NA	NA
BMS010_08112	1821	gsiA_9	COG1123	Glutathione import ATP-binding protein GsiA	ATGACTGCCGCACCCGCAAACGCCCTCCTCTCGGTCGAAGGCCTGAGCGTCGAGTTCGGCAATAGCCGCGTCGTGGACGATATCTCCTTCAGCGTCGAGCCTGGCCGCACGGTCGCGGTCGTCGGCGAATCCGGATCGGGAAAATCGGTCACCTCGCTTTCCACCATGCGCCTTGCCGACATGATGGGCGCGACCTACCCCACCGGCAAAATCGTTTTTGAAGGCAAGGACTTGCTGAAGGCGTCTCAGAAAGAGATGCGCGCGATCCGCGGCAAGGAGATCGCCATGATCTTCCAGGAGCCGATGACCTCGCTCAACCCGGTCTTCACCATCGGCGACCAGATCTGCGAAGTGCTTGTCCTGCATGAGAAGATGGGTAAACAGGCAGCGATGTCGGAAGCACAGACGCTGCTCGAAATGGTGCGCCTGCCCGATGCCGCCGAGCTTCTGAAGCGGTATCCGCACCAGCTTTCCGGCGGCATGCGCCAGCGCGTGATGATCGCCATGGCGCTCGCCTGCCGGCCGAAGCTTTTGATCGCCGACGAGCCGACGACGGCGCTGGATGTGACCATTCAGGCGCAAATCCTCAACATCATGCGCGACCTGCAAAAGAAGCTCGGCATGGGCATGGTCTTCATTACCCACGATATGGGCGTGGTGGCGGAAATGGCCGATGACGTCGTCGTCATGTGGAAGGGCAAGAAAGTCGAGGAAGGTCCGGTGAAGGATATCTTCGCCAACCCGCAGCACCCTTACACGCGCGCCCTGCTGTCCGCCGTTCCGCGCCTCGGCAGCATGGAAGGTGAAGAGTTTCCCAAGCGCCTGCCGCTCACCGTGTTGCAGGATGGCCAGCCGGTCGTGGTCGGTGAGGAACGCGTGCAAAATACCGCGAAATACGACCAGAAGCCGCTTCTGTCGGTCAAGGACCTGTTCGTGCGCTTCGATATCCGCAAGAACCTGTTCGGCAAGGCGACGCACCGCCTCAGCGCCGTGCAGAAGGTGAGTTTCGATATTCACGCCGGCGAAACGCTGGCGCTGGTGGGCGAATCCGGTTCCGGCAAATCCACCATCGGCCGCACCATCCAGCAATTGCAGACGGCCATCTCGGGCGAAATTGCCTTCAACGGCCGCAGCTTTGCGCAGATGTCCGCGGCGGAACGCTTTCGCATGCGCCAGGAAGTGCAATATATCTTCCAGGACCCCTTCGCCTCACTCGATCCGCGCAAGACAGTCGGTTTTTCGATTGCCGAGCCGATCAACACCCACGGTTTGATCAATGATCAGAAGGCCGTAAAGCGGCGGGTGGATGAATTGCTGGAGCGTGTGGGCCTCTCCTCCGAGCACGCCGCGCGGTATCCGCACGAGTTCTCCGGCGGCCAGCGCCAGCGTGTCTGCATTGCCCGTGCGCTCGCTTCCGATCCGAAGCTTATCATTGCAGACGAGGCGCTGTCGGCGCTCGATGTTTCCATTCAGGCGCAGATCATCAATCTGTTCATGGATTTGCAGGCCGAACGCGGTCTCGCTTATCTCTTCATCAGCCATGACATGGCTGTCGTGGAAAAGATGAGCCACCGCGTCGCCGTGCTTTATCTCGGCCAGATCATGGAAATGGGCAGCCGCCGCCAGGTCTTCGAAACGCCGACGCATGATTACACCCGCCGCCTGCTATCAGCCGTGCCGGTCGCCGATCCGACCATCGAGCGCCGCATCGCCATGATCGAGGGCGAAATACCCAATCCCGTGCGCCGTGTCGGCGATGAGCCGGCCATTCTCGCCCATGAGGAAATCAATCCGGGCCACTTCATCGCGAAGAGCGCCTGA	MTAAPANALLSVEGLSVEFGNSRVVDDISFSVEPGRTVAVVGESGSGKSVTSLSTMRLADMMGATYPTGKIVFEGKDLLKASQKEMRAIRGKEIAMIFQEPMTSLNPVFTIGDQICEVLVLHEKMGKQAAMSEAQTLLEMVRLPDAAELLKRYPHQLSGGMRQRVMIAMALACRPKLLIADEPTTALDVTIQAQILNIMRDLQKKLGMGMVFITHDMGVVAEMADDVVVMWKGKKVEEGPVKDIFANPQHPYTRALLSAVPRLGSMEGEEFPKRLPLTVLQDGQPVVVGEERVQNTAKYDQKPLLSVKDLFVRFDIRKNLFGKATHRLSAVQKVSFDIHAGETLALVGESGSGKSTIGRTIQQLQTAISGEIAFNGRSFAQMSAAERFRMRQEVQYIFQDPFASLDPRKTVGFSIAEPINTHGLINDQKAVKRRVDELLERVGLSSEHAARYPHEFSGGQRQRVCIARALASDPKLIIADEALSALDVSIQAQIINLFMDLQAERGLAYLFISHDMAVVEKMSHRVAVLYLGQIMEMGSRRQVFETPTHDYTRRLLSAVPVADPTIERRIAMIEGEIPNPVRRVGDEPAILAHEEINPGHFIAKSA	PGPT0004435_1845	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004435-ddpD-K02031	NA	NA
BMS010_08113	1536	gsiB_5	COG0747	Glutathione-binding protein GsiB	ATGACAATAATCAAGAAGGGGATGACGACAACGTTCGTCGCGCTTGCCATGGCCGCAACGGCCTTGACCGCCGCACCGGCTCTTGCCGCCGGCAAGATGACCATTTCCAGCCCACAGGATCCGGGCAGCTGGGATCCGATCGACACCTTCCTCGTGCAATGGGCGGCCGTCGCCACCAACATCTTCGATGGCCTCACCTATCGCGGCCCGGACCTGAAGGTCGTGCCCGGCCTCGCCGAATCCTGGGAAGAGCTGGATGAGGGCAAGCGCATCCGTTTCAAGCTGCGCCAGAACGTCAAGTTCCACAATGGCGAGCCCTTCAACGCCGCCGCCGTCAAGTTCACCTTCGAGCGCCTTCTCGGCGAACAGGGTGCCAAGGGCCCGCAGCGTTCCAACTACGTCGCCATCGAAAGCGTCGATGTCATCGACGATTACACCGTCGACATGAAGCTGAAGGCGCCCGATCCGGTGCTTCTGACCAAGCTTGCCGGTTATGGCGGCATGATCGTTCCGCCGAAATATATTCAGGAAAAGGGCGAGGACAATTTCAACCTCAACCCCGTCGGCACCGGCGCATTCAAATTCGTTTCCTACGCGCCGAAGACCAATATCAAGCTCGAAGCCAACCCGGATTATTGGGGCGGCGCGCCAAAACTTTCCGAGCTTGAATATCGCTTCATCGCCGAGCCGGCGACCGCCGTTGCCGAATTGCAGGCAGGCCGCGTCGATCTCGTCATTCCGCCCACCATCCCGATTGGCATGATCCCGGTTATCCAAGGCGATTCCAAGCTTGAGATCGTCAGCGTTCCCGGCCCGACGGTCGATGCGCTGCGTTTCAACACTCGTGATGGCATCACCGCCGATCCGAAGGTGCGCAAGGCCATCATCATGGCGGTCGACCGCGGCACCATCGTCAAGTCGATCCTTGCCGGTCAGGCATCGGAAATCGCGAGCTTCCAGAGCGCGCTGTCCTTCGGTTACGACCCGGAACTGAAACCGCTGCCCTACGATCCGGAAGGCGCCAAGAAGCTTCTCGCGGAAGCCGGCGTCAAGCCGGGTGCGGCGCTCCAGATCGATATCCGCGGCAATGACGCAACGATGAACGAGGTGGCGCAGGTTATTTCCAGCTACCTCTCCATGGTCGGCATCACCGCCACCATCAAGCCTTACGAAACCAACGTGCTGCTGAACGACATCATACCGCAGGGCAAGACCGGCGCGATGTTCCAGCAGAAATGGGGCGGCTGGACCTTCGATTACGACAACACGGCCTATTCCATGTACCACTCGGGTGAAAAGTGGAACCCTTACGACAAGGACGAAAAGCTGGACAAGCTCCTGGAATCCCAGCGTCCGCTGACCGACCGTGCCGAGCGTGAAAAGATCCTCAAGGAAATCGGCAGCTATACCGCCGAACGCGCGCTGGAAATCCCGCTTTACAACACCAATGCCATTTACGGCATCAACAAGCGGGTCAAAGGTTTCGTCGCACCGCCGGATAACCGCCTGAAGCTGACCGACGTGACCGTCGAATAA	MTIIKKGMTTTFVALAMAATALTAAPALAAGKMTISSPQDPGSWDPIDTFLVQWAAVATNIFDGLTYRGPDLKVVPGLAESWEELDEGKRIRFKLRQNVKFHNGEPFNAAAVKFTFERLLGEQGAKGPQRSNYVAIESVDVIDDYTVDMKLKAPDPVLLTKLAGYGGMIVPPKYIQEKGEDNFNLNPVGTGAFKFVSYAPKTNIKLEANPDYWGGAPKLSELEYRFIAEPATAVAELQAGRVDLVIPPTIPIGMIPVIQGDSKLEIVSVPGPTVDALRFNTRDGITADPKVRKAIIMAVDRGTIVKSILAGQASEIASFQSALSFGYDPELKPLPYDPEGAKKLLAEAGVKPGAALQIDIRGNDATMNEVAQVISSYLSMVGITATIKPYETNVLLNDIIPQGKTGAMFQQKWGGWTFDYDNTAYSMYHSGEKWNPYDKDEKLDKLLESQRPLTDRAEREKILKEIGSYTAERALEIPLYNTNAIYGINKRVKGFVAPPDNRLKLTDVTVE	PGPT0004430_16052	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004430-ddpA|ABC_PE_S-K02035	NA	NA
BMS010_08114	924	nikB_2	COG0601	Nickel transport system permease protein NikB	GTGGCCGGTTTCCTCATCAAGCGATTGCTGCAGGCGATTTTTGTCGTCATCGCCATCACCCTTCTCGTTTCTTTCGCCATTCGCCTCACCGGCGATCCGGCTGTCACCATGTTCCAGGGTGGCGGCAGCATGACGGAAGACGATCTGGCGCGCATTCGCGCAGCACTCGGCACCGACCGGCCGTTCTTCGTGCAATATTTCAGCTTCCTGAAGGGCCTCGTGACGCTCGATTTCGGCCGCAGTTTCACCGGCAGCACGCCGGTCTCGCGCCTCATTGCCGATGCCCTGCCCGCAACGCTGCTTCTCGCCTTCATCTCCATGGCGGTGTCGATTGCGCTTTCCATTCCGCTCGGCATCAAGGCGGCGACCTCGCGCGGCAAGACGGCCGATCAGGTGATCCGCATTTTTTCGCTCATCGGCCTGTCCTTCCCGAATTTCTGGCTGGCCACCATGCTGGTGCTCCTGTTCTCCATCACGCTCGGCTGGCTGCCGCCCAGCGGCATGGGTGGTTTTGCCAGCTACATCATGCCCGCCGTGACGATGGGCGTCATCCTCACCGCCACCAATGTCCGCCTTGTGCGAACCGCCATGCTCGATACGCTGCGCTCGCAATATGTCATGGTGGCGCGCGCCAAGGGTCTCAGCGAAAACAAGGTTCTCTACAAACACGCGCTGCGTAACTGTGCCATTCCGCTCATCACCTATTTCGGCCTGCAATTCGGCGGGCTGCTCGGCGGCATCGTCGTCATCGAGCGCGTCTTCAACTGGCCGGGCCTCGGCACGCTGGCCTTCGATGCGGTCGGCGCGCGCGATTATCCCGTGCTTCAGGCCGTCATCACCGTGCTGTCGCTGATGATCGTCGGCATCAACCTTCTGGTCGATATCGCCTATGGGCTTGTCGATCCGCGCATCCGCACGGAGTAA	MAGFLIKRLLQAIFVVIAITLLVSFAIRLTGDPAVTMFQGGGSMTEDDLARIRAALGTDRPFFVQYFSFLKGLVTLDFGRSFTGSTPVSRLIADALPATLLLAFISMAVSIALSIPLGIKAATSRGKTADQVIRIFSLIGLSFPNFWLATMLVLLFSITLGWLPPSGMGGFASYIMPAVTMGVILTATNVRLVRTAMLDTLRSQYVMVARAKGLSENKVLYKHALRNCAIPLITYFGLQFGGLLGGIVVIERVFNWPGLGTLAFDAVGARDYPVLQAVITVLSLMIVGINLLVDIAYGLVDPRIRTE	PGPT0004445_14022	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004445-ddpB|appB-K02033	NA	NA
BMS010_08115	849			hypothetical protein	ATGGCTGCCAAAACCTCGCGTCTCGCGCGCTTCACCAATCTCGAATTCGTCCTCGGCGCGTTCCTCACCGTGGTCATCTGCCTTGCCGTCGTCTTTTCCGACGTGCTGTTTCCGGGCGGTGCGGACAAGATCGACCTGATGGCGCGCCTTGCCAAACCCTTCGCCAATGCCGCCCATCCGCTCGGCACCGATCCGCTGGGTCGTGACGTGCTCGCCCGTGTCGTTGCCGGCGGCAAGATTTCGCTGCTGGTCGGTTTCACCTCGGTCATCGGCGCCGTCATCTTCGGTGTCGCGGTCGGTCTGGTCGCCGGTTATTATCGCGGTTTCTGGGATATGCTGGTCATGCGCTTTGCCGATATCCAGCTCGCCATGCCCTTCATTCTGCTCGCCATCACCTTCATCGCCATTGTCGGCGGCAGCCTCACCAACACCATCATCCTCCTGATCGTCTCGCAATGGGTGCAATATGCCCGCCTCGTGCGCGGCTCGGTGCTGACGCTCAGGGAGCGGGAATTCATCCTTTCCGCCCGCGCCATCGGCGTTAAGGACTGGCGCATCATTCTCCAGCACCTGCTGCCGAATCTTATCGGCCCGGTCATCGTGCTGATGACTCTCAATGTCGCCAACAATATCCTGCTGGAAAGCAGCCTTACCTTCCTCGGTCTCGGCGTCGATCCGACCATTCCGAGCTGGGGCGGCATGCTGGCGGATGGACGGACCTATCTGCAGACCGCATGGTGGGTCAGCGTCTTCCCGGGTCTTGCCATCCTTCTGACGGTGCTTGGCCTCAACCTTCTCGGCGACTGGCTGCGCGATAGCCTCGACCCCACCGGCAGAACCTCGAGGTAA	MAAKTSRLARFTNLEFVLGAFLTVVICLAVVFSDVLFPGGADKIDLMARLAKPFANAAHPLGTDPLGRDVLARVVAGGKISLLVGFTSVIGAVIFGVAVGLVAGYYRGFWDMLVMRFADIQLAMPFILLAITFIAIVGGSLTNTIILLIVSQWVQYARLVRGSVLTLREREFILSARAIGVKDWRIILQHLLPNLIGPVIVLMTLNVANNILLESSLTFLGLGVDPTIPSWGGMLADGRTYLQTAWWVSVFPGLAILLTVLGLNLLGDWLRDSLDPTGRTSR	PGPT0004450_12134	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004450-ddpC|appC-K02034	NA	NA
BMS010_08116	1734			hypothetical protein	ATGAGCCAGATTTTCGACCAGACTTTCGAACGCACGCTGGATGCGCTTCTCGCCAATGCCGAACCCGGCCAGTCCTTCGAGGCATGGAGCTTCGATGATGCCAAAAGCCGCCGCGAAGCCGAAAACCGGCTGAAGAAAAAAGGCGTCAGCGCCCGCATCCGCAGCGCCTACAAACCGCTTCTCTTCACCTTTATGGAAGAGATCAATCTGGATGGCGTCGACACCATCGAGGTGCGTTACCCCGTACACGCAAACGCCCCCGCCAATCGTTTCCGGCTGGAAGCCTATCCGCTGGCCGCGCTGGTGGGCGATGCGAAGATCGACTTCGTCGCCCGAAAAGACGACGCCTTCCATTATGATGTTACCCTGAGCCGCAACGGCAAGAAGGAAACCCTGAAGATTCCGGCGCCAAACCGGGTGCACACGGATATCGTCGGCGAAACCAATGTTTCACCCACGGGCTGGTTCCGGCTTGCCGGCGATGCTGTGGGTGAGCGGCTGGAGACGGATTACGAACGGCTTTTCGAAGCGGCGATCCATGCCGTCGCCAACCATGGCTGGGGCGATGAAGAGCCCTATTTCGAGGAACTGAACATCCGCGTCGCGCATCCGGCCGAAGATCTGCCACTTGCCCTCGGCGATGAGGTCGTCAGCCTGCGCGAAGCCCTGCATGAGGATTTCTATTTCTCGCTCCTGGAATTCTTCCAGAAGAAGTCCGGCCGGCCGCTGGGTGACCGGGGCCTGAAGCCCGGCCAGATCGTGCCGGAAATTGTCAAAAGCGAAGGCGAAGTCTCCGTCCGCATCGAGGCGCGCACGCTCACCACCGCCTTTCTCGATGGCCGTGAACAGCAGATCGATACGGCCAGCGAACCGGTTGCTGCAGGCCAGCTCGCAAAACTGCTTGAAGAGATCGGCGGCGAAGCCTTCGAGGCCCATTCCCGTTCCGGCCGTATTCTTGCCGCCCGTTATGTCGCCGGCAGCGATGCCGCGGTGATGATCAGCGGCGGTCAGCACCCCAATGAGACCACAGGCATTGTCGGCGCCATCCGCGCCGCCCGTAAACTTGCCGAGCGCAGGGGCGCACATTTCACCATTTCGCCGCTGGAAAATCCGGATGGTTACGCCCTGCATCAGCGGTTGAGAGCCGACAATCCGCGCCACATGCATCACGCTGCGCGTTACACGGCGCTCGGCGACGATCTCGAATATCGCACGCGGGAAAATTCGGGTGTCCATCTCAACGAGAAGGCAATCCGTTTCAGGGCGCAGGAGATGAGCGGCGCCAGCCTGCATGTGAACCTGCATGGTTATCCATCCCACGAATGGACCCGGCCGCTTTCCGGTTATGTCCCGCGCAATTTCGCCATGTGGACGCTGCCGAAAGGGTTCTTCCTCATCATCCGCCACCATGCGGACTGGGAAAGGCAGGCCGAAGCCCTGCTCGACCGGGTAACCCGCCATCTCGGCGCCATTCCCGGCCTGCTCGATTACAACAATCGACAGATCGCTCTTTATGAAATCCACGCTGGCGAAACCGGTTTCCGCATCATCAACGGCTTCCCGTGCCTGTCCTCCGTCGACGACCGCCACACCGTGCCGATGACGCTGATCACCGAATATCCTGATGAAACGATCTACGGCAACGACTTCATCACCGGCCACACCGCACAGATGGAAACGGTTCTCTCCGCCTATGATGCCTGGCAGGAGATTCTCGTCGGGGAAGTGGCCTGA	MSQIFDQTFERTLDALLANAEPGQSFEAWSFDDAKSRREAENRLKKKGVSARIRSAYKPLLFTFMEEINLDGVDTIEVRYPVHANAPANRFRLEAYPLAALVGDAKIDFVARKDDAFHYDVTLSRNGKKETLKIPAPNRVHTDIVGETNVSPTGWFRLAGDAVGERLETDYERLFEAAIHAVANHGWGDEEPYFEELNIRVAHPAEDLPLALGDEVVSLREALHEDFYFSLLEFFQKKSGRPLGDRGLKPGQIVPEIVKSEGEVSVRIEARTLTTAFLDGREQQIDTASEPVAAGQLAKLLEEIGGEAFEAHSRSGRILAARYVAGSDAAVMISGGQHPNETTGIVGAIRAARKLAERRGAHFTISPLENPDGYALHQRLRADNPRHMHHAARYTALGDDLEYRTRENSGVHLNEKAIRFRAQEMSGASLHVNLHGYPSHEWTRPLSGYVPRNFAMWTLPKGFFLIIRHHADWERQAEALLDRVTRHLGAIPGLLDYNNRQIALYEIHAGETGFRIINGFPCLSSVDDRHTVPMTLITEYPDETIYGNDFITGHTAQMETVLSAYDAWQEILVGEVA				NA	NA	NA	NA	NA
BMS010_08117	339			hypothetical protein	ATGCGAGATCGCGTTGGCGAAAGTATACTCAACAATAAGATCGAGCGCCGCGAAGCATTTCTTCGCAAGGCGCTGGCGCTGTATCACGTCATGGGCGGAGACGCGCAAGGCATGCACGCTGCGGTGGAGGATGTGATCAACCTGCAAAAGCCGAGTGTCGATGTCGCTATTGGCGACGTGATGCATGAACTGGCAGCAATCGGTCACGTCGCCGATCTCGATATTATTCAGGCCGGGTACAACAAGCTTGATGCCGCTAATCTGCATATTCTAAGCAAGGGCAAGAGGCTGTTGCAGAAGCAGCGGGACCAAAAACTCGCCGGCACGGCAGGAAAATAG	MRDRVGESILNNKIERREAFLRKALALYHVMGGDAQGMHAAVEDVINLQKPSVDVAIGDVMHELAAIGHVADLDIIQAGYNKLDAANLHILSKGKRLLQKQRDQKLAGTAGK				NA	NA	NA	NA	NA
BMS010_08118	1173	braC_5	COG0683	Leucine-, isoleucine-, valine-, threonine-, and alanine-binding protein	ATGAAATTACGGATCACCGCCGCCATCGCGGCCATCTGCTTCAGTACTGCCGCTTATGCCGATACAATCAAGGTGGGCGTGGTCGGTCCGTTCTCCGGCCCCTTCGCGCTGCAGGGCAAGAACTTCAAGGCCGGCATCGATGCCTGGTTCGCGCTGCACGGCAACAAGGTCGGCGACGATACGGTAGAGGTCGTCTATCGCGATGTGCCGCAGGCCGATCCGGCGCAGTCCAAGGCGCTGGCGCAGGAACTGGTGGTGAAGGAAGGCGTACAATATCTCGCCGGCTTCTATTTCACCCCGGATGCGATGGCCGTCACGCCTTTGCTGAAGCAGGGCAATGTGCCGATGGTCATCATGAATGCCGCCACTTCGGCCATCGTGACGAAAAGCCCCTATGTGGTGCGCACCTCGTTCACCACCTGGCAGACCTCCACCCCCATCGCCAAGGTGGCTTTTGATGGCGGCGTGAAGAAGGTCATCTCACTGGTCAGCGATTACGGCCCGGGCGTCGATGCCGAAAATGCCTTCAAGGCGGCCTTCACCGCCGCCGGCGGCGAAGTGGTGGAAACCATCCGCATGCCGCTTTCCACCAATGATTTCAGCCCGATCATGCAGCGCGTGAAGGATTCGGGAGCGCAGGGCGTTTTCGCCTTCCTGCCGTCGGGCCCGACCACGCTCGGCTTCGTCAAGGCCTTCAACGATAACGGCCTGAAATCCGCAGGCGTCAAGCTCTTCGCACCGGGCGACCTGACGCAGGAATCCGACCTGCCGGCGCTTGGCGAAGCCGCGCTCGGCATGCAGACGACCTTCCATTACGCCGTCTCGCATGATTCCCCTGAGAACAAGACCTTCGTGGAAGCGGCCGCCAAGGCGATCGGCAATCCGAAGGAGCTCTCCTTCCCTTCCGTCGGCGCCTTTGACGGCATGTATGTCATCAGCAAGATGATCGAGGCTACTGGCGGCAAGCAGGATGCGGAAAAGGCCGTGGACGCGGTGAAGGGTCTTTCCTGGACAAGCCCGCGCGGCCCTGTCAGCATCGATCCGGAAAGCCGCCACATCACGCAGAATATCTACCTGCGCGAAGTGGCCAAGGGCGATGACGGCAATTATTACAACAAGGAAGTCCAGACCTTCGAAAAACAGGGCGATCCGGGCCTCGCCGCCGCGAAGTAA	MKLRITAAIAAICFSTAAYADTIKVGVVGPFSGPFALQGKNFKAGIDAWFALHGNKVGDDTVEVVYRDVPQADPAQSKALAQELVVKEGVQYLAGFYFTPDAMAVTPLLKQGNVPMVIMNAATSAIVTKSPYVVRTSFTTWQTSTPIAKVAFDGGVKKVISLVSDYGPGVDAENAFKAAFTAAGGEVVETIRMPLSTNDFSPIMQRVKDSGAQGVFAFLPSGPTTLGFVKAFNDNGLKSAGVKLFAPGDLTQESDLPALGEAALGMQTTFHYAVSHDSPENKTFVEAAAKAIGNPKELSFPSVGAFDGMYVISKMIEATGGKQDAEKAVDAVKGLSWTSPRGPVSIDPESRHITQNIYLREVAKGDDGNYYNKEVQTFEKQGDPGLAAAK	PGPT0020765_8803	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020765-livK-K01999	NA	NA
BMS010_08119	864	livH_8	COG0559	High-affinity branched-chain amino acid transport system permease protein LivH	ATGCAGACGGTCTTCAGCATCCTTGTCGATGCGCTCGCCTATGGCATGGTCCTGTTCATCATCTCCATCGGCCTTTCGGTGACGATGGGGCTGATGCGGGTGGTCAATCTGGCGCATGGCGCCTTCGCCATGATCGGCGGTTATCTCGCCTCCTATGCCGCCCATGGCCTCGGCCTCGGTTATGCCCTGGCGATCCTCGTCGCCATTGTCGGCACCATCGTCATCGCCATTCCGCTTGAGCGTTTTCTCTATCGCCGCATCTATGGCGCGCCGGAGCTGACACAGGTGCTGATGACCATCGGCATCACGTTTTGCATCATCGGCATCGCCAATTTCGTCTTCGGCCCGACGCTGAAGACCATTCCGCTGCCGCAGCAGCTGGCCGGCCCCACCGATCTCGGCTTCCGCACCATCGCCACGCATCGCATCTTCGCCATTGCCTGCGGTCTCGCCGTTGCCGGTGCATTGTGGTTCACCTTCGAAAAGACCGCCTTCGGCATCAAGCTGCGCGCTGCTGTCGATAACGCCGCCATGGCGGCCGCGCTCGGCGTTCGCACCGAGGTCATCTATGCCGTCAGCTTCGCCATCGCCGTCGGCCTTGCCGCCATGGGCGGCGTCATCGGCGCGGAATTGCTGCCGGTCGAACCCTATTATGCGCTGCGTTATATGGTGACCTTCCTCGTGGTGGTCTCGGTCGGCGGCGCGGGCTCCATTCCCGGCGCGCTGATCGCCTGCCTGCTGCTCGGCGCCATCGATACGACCGGGCGGTATCTCGCGCCCGAATATGGCGAATTCTTCTTTTACCTGGCGGTCATCGTGATCATCACGCTGTTCCCGCGCGGCCTTCTCGGAAGGGCGAAATGA	MQTVFSILVDALAYGMVLFIISIGLSVTMGLMRVVNLAHGAFAMIGGYLASYAAHGLGLGYALAILVAIVGTIVIAIPLERFLYRRIYGAPELTQVLMTIGITFCIIGIANFVFGPTLKTIPLPQQLAGPTDLGFRTIATHRIFAIACGLAVAGALWFTFEKTAFGIKLRAAVDNAAMAAALGVRTEVIYAVSFAIAVGLAAMGGVIGAELLPVEPYYALRYMVTFLVVVSVGGAGSIPGALIACLLLGAIDTTGRYLAPEYGEFFFYLAVIVIITLFPRGLLGRAK	PGPT0020770_8975	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020770-livH-K01997	NA	NA
BMS010_08120	1008			hypothetical protein	ATGGCGGTGCTCATGAACGACGTGACTGAAACGGCAGAGATCCCGAAGGCGCGCTCGCCGCTGCGCACGCTTGCAGGGCCGCTCCTCATCATTATCGCCGCCATTGCCGGTTATTACCTGTTTCCGGATAATCTGGCGCTTCTGACCCGCATCATCGCCATTGCGCTTCTCGTGCTATCGATCGATCTCGTTACCGGCTATTGCGGTGTCGCCACGCTCGGCCACGCCGCGCTGTTCGGCGCAGGCGCCTATGCCGCCGGCATCGCCGCCGCCCATTTCGAGATTACCGATCCGCTGCTGATGACCGTGATCGGCGCAGGCGCGGGCGGCGTTGCCGGGCTGGTCTCCGGCACGGTTCTCTTGCGCGCCCACGGCCTGCCGCAGCTCGTTCTTTCCATCGCCGTCATCCACCTGTTTCATGAGGCGGCCAACAAGGCATCGGGCTGGACGGGCGGCAGCGACGGTCTTGCCGGCGTTTCCCCGGACGCGCTGTTCGGCACCTTCGAATTCGACCTTTTCGGCCGCACCGCCTATATTTACGGCGTCTGTCTGCTGCTCGTCGTCTTCCTCGCCCTCAGGGTCGTGGTCAATTCGCCCTTCGGCATGTTGTGCCGCGGCGTCAAGCAGGACAGCATCCGCATTCAGGCCATGGGCGGCGCCGTCAACGGCACGATTTTGAAGATGTTCGTCATATCCGGCATCGTCGCCGGCATTGGCGGTGCGCTCAACGCCATCTCCACCCAGGTCGTCGGTCTCGATAGCCTCAGCTTCACGCTTTCAGCCGAAGCGCTGGTCATGCTGGTGCTCGGCGGCGCGGGTTCGCTTTACGGCGCGCTGATCGGCACCGTCACCTTCATGTGGTTCGAGGATGTCGTTTCCGCCGCCAATCCGTTCCACTGGCTCACCATTGTCGGCCTGCTGCTGATTGCCGTCGTGCTTTTTGCGCCGCGCGGGCTTTATGGCGCGGGTGAGCAGATCATTGCGCGCATCCGTGGAGGTCGCAAATGA	MAVLMNDVTETAEIPKARSPLRTLAGPLLIIIAAIAGYYLFPDNLALLTRIIAIALLVLSIDLVTGYCGVATLGHAALFGAGAYAAGIAAAHFEITDPLLMTVIGAGAGGVAGLVSGTVLLRAHGLPQLVLSIAVIHLFHEAANKASGWTGGSDGLAGVSPDALFGTFEFDLFGRTAYIYGVCLLLVVFLALRVVVNSPFGMLCRGVKQDSIRIQAMGGAVNGTILKMFVISGIVAGIGGALNAISTQVVGLDSLSFTLSAEALVMLVLGGAGSLYGALIGTVTFMWFEDVVSAANPFHWLTIVGLLLIAVVLFAPRGLYGAGEQIIARIRGGRK	PGPT0020775_6445	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020775-livM-K01998	NA	NA
BMS010_08121	765	lptB_7	COG1137	Lipopolysaccharide export system ATP-binding protein LptB	ATGAGCGCCATTTTCGAAGTCTCCGGCCTCAAGAAAAATTTCGGCGGCCTCGTCGTCACCAATAATGTCTCGCTGTCGCTGTCGCCGGGAGACCGCACGGTGCTGATCGGCCCCAATGGCGCCGGCAAGACCACCTTCGTCAATCTCGTCACCGGCAATATCAAGCCCTCGGCCGGCACGGTGCGCATCGCCGGCGAAGACGTGACCGGCCTCAGCGCCAGTCAGCGGGTGAAGCGCGGCCTCGTCCGCTCCTTCCAGGTCACGCGGCTGTTTCAGGACATGACGCCCGAGGAACATGTGGCGCTCGCCATTCTCCAGCGCGAAGGCAGGACGGGCCGGATTTTCGGCCGTTACCGCGCCATGCCTGCGGTGATGAGCGAAGCCCGCGACATTCTCGGCACGCTTGGCCTCACGGCCCTGGCCGAAACAAAGGTGCGCGAAATCGCCTATGGCCAGCAGCGGCTGATCGAGATCGCGCTTGCCATGGCGCTTCGCCCGAAAATCCTGCTGCTCGACGAACCGGCCGCCGGCGTGCCTTCCACGGAAACCGCGCGCATCGAACAGGCGCTCGACCGGCTGCCGGCCGATCTCGCGATATTGATGATCGAGCACGACATGGATCTCGTCTTCCGTTTCGCCAAACGCGTCGTCGTTCTGGCAGCCGGCGCCGTCATCTTCGACGGTTCGCCGGAAGACGTCACCAGCAATGCGGAAGTCCGCCAAGCCTATCTGGGAAGTTACGCCGATGCCCGCAGCGCCGCTTGA	MSAIFEVSGLKKNFGGLVVTNNVSLSLSPGDRTVLIGPNGAGKTTFVNLVTGNIKPSAGTVRIAGEDVTGLSASQRVKRGLVRSFQVTRLFQDMTPEEHVALAILQREGRTGRIFGRYRAMPAVMSEARDILGTLGLTALAETKVREIAYGQQRLIEIALAMALRPKILLLDEPAAGVPSTETARIEQALDRLPADLAILMIEHDMDLVFRFAKRVVVLAAGAVIFDGSPEDVTSNAEVRQAYLGSYADARSAA	PGPT0020780_6924	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020780-livG-K01995	NA	NA
BMS010_08122	717	livF_9	COG0410	High-affinity branched-chain amino acid transport ATP-binding protein LivF	ATGCCCGCAGCGCCGCTTGAAATCGTCAACCTCACCGCCGGTTATGGCCCTACCCGCGTCATCGAGGGCCTGTCGCTTTCCGTGCCGTCGGGCTCGCGTTTCGCGGTTCTCGGCCGCAACGGCGTCGGCAAGACCAGCCTCTTCGCCACGCTGGCTGGACAGACGAAACGCTTTGCCGGCGATATCCGCATCGGCGGGCAGGACATCGCGGCCCTGCCGAGTGCCGCCCGCGCCAAGGCCGGCCTCGGCTATGTGCCGCAGACCCGCGATGTTTTTCCCACCCTCACCGTTGAGGAAAACCTGTTCGTCGGCCTCAAGGCCCGGCCGAAATCGGCCATTGAGGAAGCCTACACGCTGTTTCCGCGCCTGAAAGAGCGCCGCCGCAATCTCGGCTCGCAACTTTCGGGCGGCGAACAGCAGATGCTCTCCACCGCCCGCACGATTCTCGGCCAGCCGCGCGTGCTGCTTCTCGACGAACCGCTCGAAGGCCTCGCCCCGGTGATCTGCGAGGAGTTGATGGCGGCCTTCTCCAAACTGGCGCAATCCGGTGAAATGACCATTCTCCTCGTCGAACAGCGCATCCAGATGGCCATCGACTTCGCCGACCACGCCATCATCATGGAACGCGGCCGCATCGTCTGGGAAGGGCCGTCGAGCGACCTTGCGGAGAACCCGGATATTATCGATACGCATCTTGGGGTTGGCGGGCTGCATTGA	MPAAPLEIVNLTAGYGPTRVIEGLSLSVPSGSRFAVLGRNGVGKTSLFATLAGQTKRFAGDIRIGGQDIAALPSAARAKAGLGYVPQTRDVFPTLTVEENLFVGLKARPKSAIEEAYTLFPRLKERRRNLGSQLSGGEQQMLSTARTILGQPRVLLLDEPLEGLAPVICEELMAAFSKLAQSGEMTILLVEQRIQMAIDFADHAIIMERGRIVWEGPSSDLAENPDIIDTHLGVGGLH	PGPT0020785_5183	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020785-livF-K01996	NA	NA
BMS010_08123	816	murR_2		HTH-type transcriptional regulator MurR	ATGACGGCAATCGAGGCGCCAGAATCCGTAAAGGCTTTTGAGGAGCGGCTGCTCCAGGTCGCGGAGGGTTTGCCGAAACGATTGCGGCAATGCGCCGATTATGTCGCTTCCAATCAGGATCGCATCGCCGTTTCCACCGTCGCTGAAATGGCGGAAGGGGCGGGCGTGCAGCCCTCGGCCTTCATGCGTTTTTGCCAGATCATGGGCTTTTCCGGCTTTTCGGAAATGCAGCGGCTGTTCCGCGATTCCTATGTCGGCGGCTGGCCGGATTATGCCACGCGACTCGACCATCTGCGGGAGAAGGGCGATGAAAGCGCATCGGGCCTGCTTGCCGAATTCGTGGAGGCCGGCCGTTCCTCGCTGGAAATGCTGCTGAAATCGGTCGATACCCGCCAGCTTGACGAGGCGGTTTCGGCGCTGGCGAAGGCGCGCACCGTGCATATCATCGGTCTGCGGCGCTCCTTCCCCATTGCCAGCTATCTCGCTTACGCCTTCGAGAAGATGAAGGTGCCGGCGGTTCTGCACAGTGCGGTCGGCGGGCTCGGCAATATCAGCGCCATTTCCCGCGACGACGCGCTGATCGCGATCACCTTTTCTCCCTATTCCGCAGAAACGCTGGAGCTGGCGGAAAACGCCCGCGCCAACGGTATTCCGGTCGTGGCGCTCTCCGATTCCGCCGTCAATCCGCTGCGGAAATCCGGCGCGACGCTGCTGACCGTCACCGAGATCGATTTCGGCGCATTCCGCTCGCTTTCCGCCACGCTCTGTCTGGCCATTACGCTGGCCGTGGCTGTGGGAACTCGCAAAACAGCCTGA	MTAIEAPESVKAFEERLLQVAEGLPKRLRQCADYVASNQDRIAVSTVAEMAEGAGVQPSAFMRFCQIMGFSGFSEMQRLFRDSYVGGWPDYATRLDHLREKGDESASGLLAEFVEAGRSSLEMLLKSVDTRQLDEAVSALAKARTVHIIGLRRSFPIASYLAYAFEKMKVPAVLHSAVGGLGNISAISRDDALIAITFSPYSAETLELAENARANGIPVVALSDSAVNPLRKSGATLLTVTEIDFGAFRSLSATLCLAITLAVAVGTRKTA				NA	NA	NA	NA	NA
BMS010_08124	1917	iolC_2		5-dehydro-2-deoxygluconokinase	TTGAAAAAACTTGATCTCATCACGATCGGGCGCTCGTCTGTCGATCTATACGGTTCGCAGGTCGGCGGCCGTCTGGAGGACATGGCCTCCTTTGCCAAATATATCGGCGGCTCTCCCACCAATATCGCAGCCGGCGCTGCGCGCCTCGGGCTCAACAGCGCCGTCATCACCCGTGTCGGCGATGAGCATATGGGCCGCTTCATCCGTGAACAGCTGGTGCGCGAAGGCGTCGATGTGCGCGGTGTGAAGACCGATCCGGAGCGGCTGACCGCGCTGGTGCTGCTCGGCATTCGTGACCAGAACCAGTTCCCGCTGATATTCTATCGCGAAAACTGCGCCGACATGGCGCTCAGCGAAGACGACATCGATCCAGCCTTCATTGCCGAGGCCGGCTGCATCTGCGCCACCGGCACGCATCTGTCGCATCCGAAGACGGAAGCGGCCGTGCTGAAGGCGCTGAAACTCGCCCGCGAAAATGGCGCGAAGACCGCGCTCGATATCGATTACCGCCCCAATCTCTGGGGTGTGGCCGGTCACGGCGATGGCGAGAGCCGTTTCGTCGAATCGCAGAAGGTGACCGCCAAGCTGCAATCCACCCTGCATCTCTTCGATCTGATCGTCGGCACGGAGGAGGAGTTCCACATCGCCGGCGGCTCCACCGATACGCTGACCGCGCTGAACGCCGTGCGCAAGGTTTCGAACGCGACGCTGGTGTGCAAGCGCGGGCCGATGGGCGCTTCGGTTTTCGCCGGTGAAATTCCTTGCAGCCTCGACGATGGCGAGACTGGCGAGGGTTTCCCGATCGAGGTCTTCAACGTTCTCGGTGCCGGCGATGGCTTCATGGCTGGGCTGTTCCGCGGCTGGCTGCGCGGCGAAGACTGGCCGACGACGCTGAAATATGCCAATGCCTGCGGCGCCTTCGCCGTCTCCCGCCATGGCTGCACGCCCGCCTATCCAAGCTGGGAAGAGCTGCAATATTTCTTCAAGGCCGGCATTCGCAACAAGGCGCTGCGCAAGGACGAGGCGCTGGAGCAGGTGCACTGGTCGACCAACCGCAAGGGCGACTGGGACACGATGCGCGTCTTCGCCTTCGACCATCGCATGCAGCTGGAAGCCATCGCCGACGAGCTTGGCGTCAAGCACGAGCAGATCGGCGCTTTCAAGAAACTCTGCCTTCAGGCCGCACAGCATGTTGCCGGCGACAGGCCGGGTTACGGCATTCTCTGCGATGGCCGTCTCGGACGTGACGCCCTGTTTGCCGCCAGCGGCTCGGGCCTGTGGATCGGCCGCCCGGTGGAATGGCCAGGTTCGCGCCCACTGACGCTGGAACCCGATCTCGGCAAGGATTTCGGCGGTCTTTCTGAATGGCCGCTTGAAAATGTCGTCAAGGTTCTGTGTTTCTATCATCCCGACGATACGGATGAGATGCGCGCCACGCAGGAAGAGACGGTCATGCGTCTGTTCCAGGCGACACGCCGCAACCGCCTGGAAATGCTGCTGGAGGTCATTCCCTCCAAGGTCGGCCCGACCGACGATTTGACCGCCGCCCGCATCATCGAGCGCTTTTACGAGATCGGGGTCTATCCCGACTGGTGGAAGCTGGAGCCGATGAAGACCCGCGCGGCCTGGAAGAATGCCTGCGACGCCGTGCATCGCAATGATCCTTACGTGCGGGGCATCGTCGTTCTCGGTCTCGACGCGCCGCAAAGCGAGCTGGAAGAGAGCTTCCGCCTTGCCGCCGGTTTCGATCTGGTCAAAGGTTTCGCCGTTGGCCGCACGATTTTCGCGGATGCCGCCCGCAGCTGGCTCGGTGGCAAGATGACCGATGAGGAAGCGGTCAGGGATATGGCGCAGCGCTATACCAGCCTGTGCCGCATTTGGGATGAGGCGCGCGCCAAAAAGGGAGAGGCAGCGTGA	MKKLDLITIGRSSVDLYGSQVGGRLEDMASFAKYIGGSPTNIAAGAARLGLNSAVITRVGDEHMGRFIREQLVREGVDVRGVKTDPERLTALVLLGIRDQNQFPLIFYRENCADMALSEDDIDPAFIAEAGCICATGTHLSHPKTEAAVLKALKLARENGAKTALDIDYRPNLWGVAGHGDGESRFVESQKVTAKLQSTLHLFDLIVGTEEEFHIAGGSTDTLTALNAVRKVSNATLVCKRGPMGASVFAGEIPCSLDDGETGEGFPIEVFNVLGAGDGFMAGLFRGWLRGEDWPTTLKYANACGAFAVSRHGCTPAYPSWEELQYFFKAGIRNKALRKDEALEQVHWSTNRKGDWDTMRVFAFDHRMQLEAIADELGVKHEQIGAFKKLCLQAAQHVAGDRPGYGILCDGRLGRDALFAASGSGLWIGRPVEWPGSRPLTLEPDLGKDFGGLSEWPLENVVKVLCFYHPDDTDEMRATQEETVMRLFQATRRNRLEMLLEVIPSKVGPTDDLTAARIIERFYEIGVYPDWWKLEPMKTRAAWKNACDAVHRNDPYVRGIVVLGLDAPQSELEESFRLAAGFDLVKGFAVGRTIFADAARSWLGGKMTDEEAVRDMAQRYTSLCRIWDEARAKKGEAA	PGPT0018480_416	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018480-iolC-K03338	NA	NA
BMS010_08125	1827	iolD_2	COG3962	3D-(3,5/4)-trihydroxycyclohexane-1,2-dione hydrolase	GTGAAGACAATCAGATTGACGGCTGCGCAGGCCATGGTTCGTTACCTGGCAGCGCAGATGAATGAACATGGCGAAACCTACATCGCCGGCATGTGGGCCATTTTCGGCCATGGCAATGTCGCCGGCATCGGCGAGGCGCTTTATGGTATCCGCGACGAACTGCCGACCTATCGCGGCCAGAACGAGCAATCCATGGCCCATGCGGCCATCGCCTATTCGAAGCAGCTGCGCCGCCGCCGCGCCATGGCGGTCACCTCCTCCATCGGCCCGGGTGCGGCAAACATGGTGACGGCCGCCGCCCTTGCCCATGTCAACCGCCTTCCCGTGCTGTTGATCCCCGGCGACGTCTTCGCCAATCGTGGGCCCGATCCGGTCTTGCAGCAGCTCGAAGATTTCGGCGATGGCACGATGACGGTGAATGACTGCTTCCGCCCCGTCAGCCGTTATTTCGACCGCATCATGCGGCCGGAACAATTGCTGACAGCCCTTCCCCGCGCCATGCGCACCATGACGGACCCTGCCGATTGCGGCCCCGTCACGCTCGCCTTCTGCCAGGATGTGCAGGCGGAGGCCTATGATTACCCTGTCAGCTTCTTCGAAAAGCGTGTCTGGCGCCAGCGCCGCCCCGAGCCGGATGTGGTGGAATTCGAAGAAGCCGTCGCTGCGCTCAAGGCGGCGAAGAACCCCATCATCGTTGCCGGTGGCGGCGTGCATTTTGCGGGCGCAACCGAAACCCTGAAGCGCTTTGCCGAAACCCATTCCATTCCCGTCGTCGAAACGCAGGCCGGTAAATCGGCCGTCGCTTGGGACCATGATCTGAATTTCGGCCCCGTCGGCGTCACCGGCGCGGAAAGCGCCAATATCATCAGCGAAAAGGCCGATCTGGTCTTCGGTGTCGGCACCCGTTTTCAGGATTTCACCACCGGCTCCTGGGCGCTATTCAAGAACCCGAACCGCAAAATCCTGGCGCTTAACGTTCAGCCCTATGACAGCGCCAAGCACGATGCGATCAGCCTGACGGCGGATGCGAAGATCGGGCTTGAGAAATTGTCCGCAGCACTCGGCAGCCACCGTTTTGCGGCGCCGGATGCCGGCCTCAAGGCTGCATGGTTTAAAAAGGCCGATGCCGATACGGCAGCGCCGGGCGAGGACAATGCCAACAGCCTGCCCACCGACATGCAGGTCATCGGCGCGGTGCAGCGCCAGTCGCGTGACAATACCGTCGTCATGTGCGCGGCCGGCACCATGCCGGGCGAGCTTCACCAGCTGTGGAAATCCAAGCTGCCGCTCTCTTATCACATGGAATACGGCTTCTCCTGCATGGGTTATGAAGTGGCCGGCGGCCTCGGCATCAAGATGGCGGAACCGGACCGCGACGTGATCGTCATGGTCGGCGACGGTTCCTACATGATGATGAATTCCGAGCTTGCGACATCGGTTGCCATGGGCGTGAAGATCACGCTCGTCATCACTGACAATCGCGGTTACGGCTGCATCAACCGGCTGCAGATGGAAACCGGCGGCGCGGAGTTCAACAATCTCTACGCCCATACCAACGTCAACCCGATCGCCATCGATTTCGTGGCCCATGCCGGCTCGATGGGGGCGGATGCGCGCAAGGTTTCCACCATTACCGAGCTGGAAGAGGCGCTTGCGGCAGCCCGTGCCTCCAGCCGCACCACCGTCATCGTTATCGATACCGACCCTTACCCGACGCCGCAGGCCGGCGGTCACTGGTGGGATGTCGCGGTGCCTGAAGTTTCCGACCGCGCCGAAATCGGCCCGGCCCGCGTCCGTTATGAAAACCATGTCAAGGAAAGACAGTAA	MKTIRLTAAQAMVRYLAAQMNEHGETYIAGMWAIFGHGNVAGIGEALYGIRDELPTYRGQNEQSMAHAAIAYSKQLRRRRAMAVTSSIGPGAANMVTAAALAHVNRLPVLLIPGDVFANRGPDPVLQQLEDFGDGTMTVNDCFRPVSRYFDRIMRPEQLLTALPRAMRTMTDPADCGPVTLAFCQDVQAEAYDYPVSFFEKRVWRQRRPEPDVVEFEEAVAALKAAKNPIIVAGGGVHFAGATETLKRFAETHSIPVVETQAGKSAVAWDHDLNFGPVGVTGAESANIISEKADLVFGVGTRFQDFTTGSWALFKNPNRKILALNVQPYDSAKHDAISLTADAKIGLEKLSAALGSHRFAAPDAGLKAAWFKKADADTAAPGEDNANSLPTDMQVIGAVQRQSRDNTVVMCAAGTMPGELHQLWKSKLPLSYHMEYGFSCMGYEVAGGLGIKMAEPDRDVIVMVGDGSYMMMNSELATSVAMGVKITLVITDNRGYGCINRLQMETGGAEFNNLYAHTNVNPIAIDFVAHAGSMGADARKVSTITELEEALAAARASSRTTVIVIDTDPYPTPQAGGHWWDVAVPEVSDRAEIGPARVRYENHVKERQ	PGPT0018485_1268	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0018485-iolD-K03336	NA	NA
BMS010_08126	909	iolE_5	COG1082	Inosose dehydratase	ATGATCCGTTACGGAACCAACCCGATTGCCTGGTCCAACGACGACGACCGCACGCTGGGCGCGCATATCAGCCTCGAACAATGCCTCGATGAAACCGCCAAGATCGGTTTTGACGGCATCGAGAAGGGCCACAAGTTCCCGACTGAGGCGGAAGGCCTGAAGGGCGTGCTTTCGCCGCGCGGCCTCTCCTTCGTCTCCGGCTGGCATTCGCTGAACCTTCTGACCGACGACATCGAATCCGAAAAGAAGGCGATGCAGCCGGCGCTTGACCTGCTGAAAGCCATGGGCTCGAAGGTCATCATCGTCTGCGAGACCTCCAACGCCATCCATGGCGATGACAACAAGGCGCTGGTCGACCGTCCGCGCCTTGCGGCCGGGGACTGGGCGAAATTCGGCGCGGGCGTCGAGGCGCTGGCCGCCTTTGCCGCAGAACAGGGTATCACCCTCGTTTATCACCACCACATGGGAACGGTGGTCGAGAGCGAAGAGGAAATCGATCTCCTGATGAAACACACCGGCCCGAAGACGCATCTGCTGCTCGATACCGGCCATTGCCTGTTCGGCGGCGGCGATCCTGTGCGCGTTGCGCAGAAATACATGGGTCGTGTCGGCCATATCCATGCCAAGAACGTGCGCCCTGCCATTGCCGATAAGGTTCGGGGTGAGCGGCTCTCCTTCCTCGAAGGCGTGCGCCGCGGCGTGTTCACCGTTCCCGGCGACAGCGAAGGCGGCGTGAACTTCCCGCCAGTGCTGAAGGTTGCGGCCGAGCATGGTTACAGCGGCTGGCTGGTGATCGAGGCGGAACAGGACCCTGACGTGCGCAACCCGTTCGAATATCAGAGCCTCGGGCTGAAATCGCTGAAGGCTTTTGCGCGCGAAGCAGGGCTGGACAAGGCTCAGGCTGCTTGA	MIRYGTNPIAWSNDDDRTLGAHISLEQCLDETAKIGFDGIEKGHKFPTEAEGLKGVLSPRGLSFVSGWHSLNLLTDDIESEKKAMQPALDLLKAMGSKVIIVCETSNAIHGDDNKALVDRPRLAAGDWAKFGAGVEALAAFAAEQGITLVYHHHMGTVVESEEEIDLLMKHTGPKTHLLLDTGHCLFGGGDPVRVAQKYMGRVGHIHAKNVRPAIADKVRGERLSFLEGVRRGVFTVPGDSEGGVNFPPVLKVAAEHGYSGWLVIEAEQDPDVRNPFEYQSLGLKSLKAFAREAGLDKAQAA	PGPT0016785_800	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_CATABOLISM,PGPT0016785-mocC-K03335	NA	NA
BMS010_08127	813	iolB_2	COG3718	5-deoxy-glucuronate isomerase	ATGACCTCACTTCTGCGCAAGCCGGTCGCGACCAGCGGCAAGGTGCACGATATCACGCCCCAAAGCGCGGATTGGGGTTATGTCGGTTTCGGCCTCTACCGCCTGAAGCCGGGCGAGACGGCGGCGGAAAACACCGGCGATACGGAAGTCATCCTCGTGCTGGTGGAAGGCAAGGCGACGATTTCCGCAGGCGGTAGGGACTTCGGTGAACTCGGCGACCGCATGAATGTGTTCGAGCGCAAGCCGCCGCATTGCGTTTATGTTCCGGCCGGCTCCGAATGGTCGCTGACCGCCACGACCGATTGCACCGTCGGTGTCTGCACCGCACCCGGCGAAAAAGGCAGCCGCGAGGCGCAGCAGATCGGCCCGAATGGCGTGCAGCTCACCGAGCGTGGCAAGGGCGCCAATACGCGTTACATCTTCCCCATCGCCATGGAAGAGCGCGATGTGGCCGACAGCCTGCTGGTAACGGAAGTCTTCACGCCGTCGGGCAACTGGTCCTCCTATCCGCCGCACCGGCATGATGAGGATAACTATCCCAATATGACCTATCTGGAGGAGACCTATTATCATCGCCTCAACCCGGCGCAGGGTTTCGGCTTCCAGCGCGTCTTCACCGAAGACGGTTCGCTGGATGAGACCATGGCGGTGTCGGACGGCGATGTCGTGCTGGTGCCCAAGGGTCACCACCCCTGCGGCGCGCCCTATGGTTATGAGATGTATTATCTGAACGTGATGGCGGGGCCGATGCGCAAATGGCGGTTCAAGAACCACCCGGATCACGACTGGATTTTCAAGCGGGATAATCCGTAA	MTSLLRKPVATSGKVHDITPQSADWGYVGFGLYRLKPGETAAENTGDTEVILVLVEGKATISAGGRDFGELGDRMNVFERKPPHCVYVPAGSEWSLTATTDCTVGVCTAPGEKGSREAQQIGPNGVQLTERGKGANTRYIFPIAMEERDVADSLLVTEVFTPSGNWSSYPPHRHDEDNYPNMTYLEETYYHRLNPAQGFGFQRVFTEDGSLDETMAVSDGDVVLVPKGHHPCGAPYGYEMYYLNVMAGPMRKWRFKNHPDHDWIFKRDNP	PGPT0018475_776	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018475-iolB-K03337	NA	NA
BMS010_08128	1128	iolG_11		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGGCCGCTCTTGGCGTGGGCCTTATCGGCACCGGTTACATGGGCAAATGCCACGCGCTGGCGTGGAATAATGTCACCAGCGTCTTCGGTGATGTGGAACGCCCCCGCCTCGTGACGCTCGCGGAAGTCAATCCCGAGCTTGCCGCGAAGAAAGCCGCCGAGTTCGGCTTTGCCCGCTCGACGGGCAACTGGCGCGACCTGCTTTCCGATCCCGAGATCGACGTGATCTCGGTCACCACGCCCAACGCCTTCCACCCGGAAATGGCCATTGCCGCCCTTGAGGCCGGCAAACATGTCTGGTGTGAAAAGCCGATGGCGCCCGCTTTTGCTGACGCGGTGAAGATGCGCGATGCGGCCCGCCGGTCCGGTAAGGCGGCAGCGATGGGTTACAATTACATCCAGAACCCCGTCATCCGCCATATCCGCCGCCTGATCGACGAAGGCGCCATCGGCAGGGTCTATCACGTCCGCGCCGAAATGGACGAGGACTTCATGGCCGACGCCACCCAGCCCTTCTACTGGAAGAGCGAAGCTTCCTCCGGTTATGGCGCGCTGGACGATTTTGCCGTGCACCCGCTGTCACTGCTCTTCGCTCTCTTCGGCCATGCCGAAAGCGCCATCACCGACATGGTGAAGCCTTATGAAACCCGGCCGCTTGCCGGCGGTGGCGAACGCGCCGTCGAAACACATGACCTCGCCAGCGTGCTGCTGAAGCTCGAAGGCGGCATTTCCGCCGTGCTCATTGCCAACCGTTCCGCCTGGGGCCGCAAGGGCCGCATCGCCATCCAGATTTATGGTTCCACCGGCTCGATCCTGTTCGATCAGGAGCGGATGAACGAGTTCCAGCTCTACACCACGGATGGACGCCCGGAAGAACAGGGTTTCAGAACAATCCTCACCGCGCCGCACCACAAGCCCTATGACCGCTTCATCCCCGCCCCCGGCCACGGCCTCGGCTTCAACGATCTGAAGGTGATCGAGTGCCGGGAACTGATCGCGGCTATCGAGGGGAAAAAGGCCCATATCATCGATTTCGAGGAAGGGCTGAAGATCGAGCGCAGCATTCACGCCATGGCGCGATCATTTGCCGAAGGGCGATGGGTGGGAAGCGCGGAGATTGCGGAATAG	MAALGVGLIGTGYMGKCHALAWNNVTSVFGDVERPRLVTLAEVNPELAAKKAAEFGFARSTGNWRDLLSDPEIDVISVTTPNAFHPEMAIAALEAGKHVWCEKPMAPAFADAVKMRDAARRSGKAAAMGYNYIQNPVIRHIRRLIDEGAIGRVYHVRAEMDEDFMADATQPFYWKSEASSGYGALDDFAVHPLSLLFALFGHAESAITDMVKPYETRPLAGGGERAVETHDLASVLLKLEGGISAVLIANRSAWGRKGRIAIQIYGSTGSILFDQERMNEFQLYTTDGRPEEQGFRTILTAPHHKPYDRFIPAPGHGLGFNDLKVIECRELIAAIEGKKAHIIDFEEGLKIERSIHAMARSFAEGRWVGSAEIAE				NA	NA	NA	NA	NA
BMS010_08129	963		COG1052	2-ketogluconate reductase	ATGTCTGACAAAAAGGCCGTCGTTCTCGTTCCCGGCAAGATAAACCCGCGCGTTCTCGAACGCCTCGAAGGCAAGGTCGAGATCGTGACTGTGCCTGCCGGCGCCGAGCCGGTTCTGCCTGATGGTGCGGCCGAGCGTGTTAACGCCATTGCCGTTTCCGGCGTCGTCAACGCCAAATGGATCGATGCGTTGCCGAAGCTCGAGATCATCGCCAATTTCGGCGTGGGTTATGATGGCGTCGATGCCAAACATGCCGCCACACGCGGCATCGTGGTGACGAATACGCCTGATGTGCTGAACGACGAGGTGGCGGATACAACGATTGCGCTTTTGATCAACACCGTGCGCCGTCTTTATCAGGCCGAGACCTGGCTTCGCGACGGCAAATGGGTTGGCGAAGGCCCCTTTGCTCTGTCGCCGTTTTCGCTGCGCGGCCGCAAGGTGGGTCTCTTTGGCATGGGTCGCATCGGCCAGGAAATCGCCAAGCGCCTGGAGCCTTTCAAGGTGGAGATCGGTTACCACACCCGCAGCAAACGGGATGGCCTTTCCTACACCTATTACGGCTCGCTGAAGGAGATGGCGGAAGCCGTCGATATCCTGATCTGCATCGTGCCCGGCACGCCTGAAACGCACAAGGCGATCAACGCCGAAATCCTGACGGCGCTGGGGCCTGAGGGCGTGTTCATCAATGTCGGGCGCGGTTCCAGCGTCGATGAGGATGCGCTTTTGCAGGCGCTTAAGAGCGGTGCTGTGGGCGCTGCCGGTCTCGATGTGTTCTATGCCGAGCCGAAGGTGCCGGAAGCCTTCCTGTCGCTGCCGAACGTCTCCCTGCTGCCGCATGTCGCCTCCGCCTCGGTTCCGACGCGCAACGCCATGGCCGATCTGGTGGCCGATAATATTCTCGGCTGGTTCAAGGACGGCAAGGTGCTGACGCCGGTGCCGGAAACGCCGGTCAAGGGGTGA	MSDKKAVVLVPGKINPRVLERLEGKVEIVTVPAGAEPVLPDGAAERVNAIAVSGVVNAKWIDALPKLEIIANFGVGYDGVDAKHAATRGIVVTNTPDVLNDEVADTTIALLINTVRRLYQAETWLRDGKWVGEGPFALSPFSLRGRKVGLFGMGRIGQEIAKRLEPFKVEIGYHTRSKRDGLSYTYYGSLKEMAEAVDILICIVPGTPETHKAINAEILTALGPEGVFINVGRGSSVDEDALLQALKSGAVGAAGLDVFYAEPKVPEAFLSLPNVSLLPHVASASVPTRNAMADLVADNILGWFKDGKVLTPVPETPVKG	PGPT0001315_8	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-VITAMIN_C|ASCORBIC_ACID_BIOSYNTHESIS,PGPT0001315-2_ketogluconate_reductase-K22229	NA	NA
BMS010_08130	1023	cytR_2	COG1609	HTH-type transcriptional repressor CytR	GTGGCCCAAAAGGTCAAACTGTCCACGATTGCCGAAAGCCTCGGTCTTTCGACCGCCACCATTTCTCTTGCATTGCGCGACAGCCCGCTGGTCGCTGCCGATACGCGGGACAAGATCAAGGAACAGGCGCGGGCGCTGGGATACATCTACAACCGCCGCGCCGCCAGCCTGCGCACCTCGCGTTCCGGCATTGTCGGTGTGGTGTTCCACGATGTGATGAACCCCTTCTACGGGGAAATTCTGAAAGCTATCGAAAGTGAGCTGGACCGCAGCCGCCAGACCTTCATTCTTTCCAACCACTACGATTCGGTGGAAAAACAGCGCACCTTCATCGAAACGCTGCTGCAGCTCGGCTCGGACGGCATCATCATGTCGCCGGCCATCGGCACGCCGATCGAGGATATGACGCTGGCCGAAGAAAACGGCATGCCCGCCATTCTGGTGGCGCGCTCGATGGATGGCGTCGACATGCCGACCTATCGCGGCGACGACAGCTATGGCATTTCGCTTGCCACCAACCACCTGATCAGCCTCGGCCACCGCACCATCGCCATGGTTGGCGGCACCGACCAGACATCGACGGGCCGTGACCGTTATCAGGGTTACGTCAATGCGCTGCGCAAGGCCGGCATCGAGGTCGATCCGAACCTGCGCATTCCCGGCCCGCGCTCCAAGCAGGGCGGTTTCGAGGCTGCCGTGCATTTCCTCTCGCTGCCGCAGAAGCCGACGGCGGCCGTCTGCTGGAACGATCTCGTCGCCATCGGTCTCATGAACGGCATTTCCCGTGCCGGCCTGGTGCCAGGCGTCGATATTTCCGTCACCGGCTACGACGATCTGGAAGAGGCGGCGATTGCCACACCGGCGCTGACCACCGTGTCCAACGGCCAGGCCGAGGTGGGGCGCTTGGCGGCCCGCGCGCTGCTGGACCGGCTGGCGGGCAGCCACGAGCCTGATGGCATTCACCTCATCAAGCCGGAAATGCGCATCCGGCAATCGACCGGGCCGGTGCGACCGCGGGTGTGA	MAQKVKLSTIAESLGLSTATISLALRDSPLVAADTRDKIKEQARALGYIYNRRAASLRTSRSGIVGVVFHDVMNPFYGEILKAIESELDRSRQTFILSNHYDSVEKQRTFIETLLQLGSDGIIMSPAIGTPIEDMTLAEENGMPAILVARSMDGVDMPTYRGDDSYGISLATNHLISLGHRTIAMVGGTDQTSTGRDRYQGYVNALRKAGIEVDPNLRIPGPRSKQGGFEAAVHFLSLPQKPTAAVCWNDLVAIGLMNGISRAGLVPGVDISVTGYDDLEEAAIATPALTTVSNGQAEVGRLAARALLDRLAGSHEPDGIHLIKPEMRIRQSTGPVRPRV	PGPT0017992_1989	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017992-lacI|galR-K02529	NA	NA
BMS010_08131	510			hypothetical protein	ATGAGCAAGGACAAAACCGGGCATAAGGACAAAAGCGCCAAGAAGGAAAAGGGCGGCAAGAAGGTAAAGGACGCCAAAAAAAGGGATGAGAATTTCAACCCCGAGGAACTGGCGCAATCCATCACCCAGGCGGCCCGTTCCATGCGCACGGCGCTGAGCCACAGCCTTGCCGAAAGCGGGCTTTATGCGGGCCAGGACGGCGTTATCCTCGCGCTGGCGCAGGAAGGCAGTCTCACGCCGGGGCAGATCGCCCAGAAACTCGGCGTCAAGGCGCCGACCATGACGCGCACCATCGGCCGCATGGAAGCCCAGGGCTTCGTGGAACGCAGCGGCGACGACGAGGATGGCCGCGTGACGCTGGTGAAGCTGACGGAAGCGGGTTTGAAAAGCGTCGAACACATCAATGTTTCCATCGCCAATTGCGGCGCGAGAGCCGTCGAGGGGCTTTCGGCCAAGGATGTGCGCAACATCGTTAAACTCTTGAAGGCCATAGACGCCAATCTTCAATAA	MSKDKTGHKDKSAKKEKGGKKVKDAKKRDENFNPEELAQSITQAARSMRTALSHSLAESGLYAGQDGVILALAQEGSLTPGQIAQKLGVKAPTMTRTIGRMEAQGFVERSGDDEDGRVTLVKLTEAGLKSVEHINVSIANCGARAVEGLSAKDVRNIVKLLKAIDANLQ				NA	NA	NA	NA	NA
BMS010_08132	801	mftE	COG1402	Putative mycofactocin system creatinine amidohydrolase family protein MftE	ATGCCAAACTCATACACGCATTATCACGACGAAAACGTAACAGACCCGCATCTTCGCGCAACAGCTGCAATTTCCGTGCTGCCGCTCGGCGCGCATGAACAGCATGGGCCGCACCTGCCGTTCGAGACCGATACGCTGATTGCCGAAGGCATCGCCGCCCGTCTCGCCGCCACCCTGCCCGCCCACCTGCCCGTCTCTTTCCTGCCGGCGGAACCGGTCGGCTATTCCATCGAACACATGAATGTGCCGGGCACGAAAACGCTGCGTTACGATGAGGCCATCGAGCGCTGGCTCGGCATCGCTGAAGCGGAATATAAAAAGGGCGTGCGCAAATTCGTGATGCTGAACGCCCATGGCGGCAATTCACCGCTGATGACCATCGTCGCCACCGAGGCCCGCGCCCGTTTCGGCATGCTGGCGGTCGCCACAAGCTGGACCCGTTTCGGCGTACCGGCCGATATCGTGAAGCCGGAGGACAAGGCGGTCGACATCCATGGCGGCGATATCGAAACATCGGTCATGCTGGCGCTTCATACCGAACGCGTGGCGATGCAGAAGGCCGAAGACTTTCCCTCCCGCCAGAGCGATTTCGCCAGCCGCTTCAAACACCTGCGCGCCTATGGCCCGCATGCATTCGGCTGGCTGATGAGCGATCTGAACCCCGACGGCGTTGCCGGAAACGCCGCCGCCGCCACTGCGGAAAAGGGCGAAAGGCTGATTTCCCATGCCGTAAAAGGCCTTGTCGAACTGCTTGAAGATATCCACGCTTTTGACATAACGTTATTTCATAACAAAATTTGA	MPNSYTHYHDENVTDPHLRATAAISVLPLGAHEQHGPHLPFETDTLIAEGIAARLAATLPAHLPVSFLPAEPVGYSIEHMNVPGTKTLRYDEAIERWLGIAEAEYKKGVRKFVMLNAHGGNSPLMTIVATEARARFGMLAVATSWTRFGVPADIVKPEDKAVDIHGGDIETSVMLALHTERVAMQKAEDFPSRQSDFASRFKHLRAYGPHAFGWLMSDLNPDGVAGNAAAATAEKGERLISHAVKGLVELLEDIHAFDITLFHNKI				NA	NA	NA	NA	NA
BMS010_08133	1110	yciC_2	COG0523	Putative metal chaperone YciC	ATGACCGAAACAGCTATAGCCAAGCCCATTCCAGTCACCGTCCTGACGGGATATCTCGGCGCCGGCAAGACGACGCTTCTCAACCGCATTCTCTCCGAGAACCACGGCAAGAAATACGCTGTCATCGTCAATGAATTCGGCGAGATCGGCATCGATAACGATCTGATCGTCGAGTCCGATGAAGAAATCTATGAGATGAACAATGGCTGCGTGTGCTGCACGGTGCGCGGCGACCTCATCCGCGTCGTGGAAGGCCTGATGCGCCGCCCCGGCCGTTTCGACGGTATCATCGTTGAAACGACAGGTCTTGCCGATCCCGTTCCAGTCGCCCAGACCTTCTTCATGGATGACGATGTGCGCGCCAAGACCGAGCTTGATGCCGTCGTTGCCCTCGTTGACGCCAAGCACCTGCCGCTGCGCCTGAAGGACAGCCGCGAGGCCGAAGACCAGATCGCCTTTGCCGATGTCGTCGTCGTCAACAAGACCGATCTCGTTTCGCCGGAGGAAGTCGCCCGCATTGAGGATATCGTGCGCGCCATCAATCCTTCCGCCCGCATCTACAAGACCACCCGGTCCGGTGTCGATCTCGCCCGGGTTCTCGATCAGGGCGCCTTCAATCTGGAGCGCGCGCTGGAAAACGATCCGCATTTCCTCGAGCACGGCCATGACGACCACGTTTGCGGCCCTGATTGCGATCATCATCACGACCACGGCCATCATCATCATGACCATGACCACGGGCATCATCACCACGATCACGACCATGGCCACGATCATCACCACCATGGCGCGGTATCCCCGATCCATGACGTGACGGTACAGTCGGTTTCGCTACGCGGCGGCGAGATGAATCCCGAGCGGTTCTTCCCGTGGATCCAGAAGGTCACCCAGACCGATGGCCCGAACATTCTGCGCCTCAAGGGCATCATCGCCTTCAAGGGCGATGCGGAACGTTACGTGGTGCAGGGCGTGCACATGATCATCGAGGGCGACCACCAGCGCCCGTGGAAGGAAGACGAAAAACGCGAAAGCCGCCTCGTCTTCATCGGCCGCGAACTGGACCGCGAGAAGCTGGAAAAGAGCTTCAACGCCTGCCTCGCGACGGCCTGA	MTETAIAKPIPVTVLTGYLGAGKTTLLNRILSENHGKKYAVIVNEFGEIGIDNDLIVESDEEIYEMNNGCVCCTVRGDLIRVVEGLMRRPGRFDGIIVETTGLADPVPVAQTFFMDDDVRAKTELDAVVALVDAKHLPLRLKDSREAEDQIAFADVVVVNKTDLVSPEEVARIEDIVRAINPSARIYKTTRSGVDLARVLDQGAFNLERALENDPHFLEHGHDDHVCGPDCDHHHDHGHHHHDHDHGHHHHDHDHGHDHHHHGAVSPIHDVTVQSVSLRGGEMNPERFFPWIQKVTQTDGPNILRLKGIIAFKGDAERYVVQGVHMIIEGDHQRPWKEDEKRESRLVFIGRELDREKLEKSFNACLATA				NA	NA	NA	NA	NA
BMS010_08134	993			hypothetical protein	ATGCCGACTGTTGCCCCGCTTGATATCGAAGGCCACGTGGTCTCGACCCATTTTCTCGGCGACATTCCCCTGTTTGCCACCGCCGCCGGCACCATTCACCGGCTGGATGGCGGCGAGAAGGTGACTGAGGCGCATGACGGACTTCTGACCTGCGTGCGCGATCCCTATAGCGCCACCCTGCTTTCCGGCGGTGAAGACGGCCGCGTGCTGCGCATCGGCCATGACGGCAGCATCGGCGAAATCGCCAATGTGCCGCGCAAATGGGTGGGCGTCGTTGCCGGGGGGCCGCAGAAGGCGGTGGCTTACGGCGTCGGCAAATCCAGTTTCGTCCGGCTGTCGGACGGCACGGTCAAGGAATTCAAGGAAGAGCGCACGGTGGAGGCCATCGCGTTTGCGCCCAAGGGCCTGCGCATTGCCGTTGCCCGTTATAACGGTGTGACATTGCACTGGGTGGCGACCGCCGGCGATCCCGTCGATCTCGAATGGAAGGGCGCCCATACCGGCGTCACCTTCTCGCCCGATGGCAAGTTCCTCGTCACCACCATGCAGGAAAATGCCCTGCACGGCTGGAAGATGGAAGCCACCAAGGGCGGCATGGAAGCGCGCCACATGCGCATGACGGGTTATCCCGCCAAGGTCAAATCCGTCTCCTGGTCGGCAAAGGGCAAATGGCTCGCCTCTTCCGGCGCGCCGGCCGCCATTGTCTGGCCGTTTGCCGGCAAGGACGGCCCGATGGGCAAGGCCCCGGAAGAACTCGGCAGCCGCGCCAACATCATGGTCACCAATGTCGCCTTCCACCCCGTGGAAGATGTGCTCGCCATCGGCTTCATCGACGGCATGATCCTCGGCGTTCGCCTTGCCGATGGCAAGGAAGCGCTGCTGCGCCGCCCCGGCAAGGGCGCCATCACCGGCATGGACTGGAGCGCCACGGGCAAGCTGCTTGCCTTCGCCTCCGAAGCGGGGGATTGCGGGATCATCGATATTTCGGCTTGA	MPTVAPLDIEGHVVSTHFLGDIPLFATAAGTIHRLDGGEKVTEAHDGLLTCVRDPYSATLLSGGEDGRVLRIGHDGSIGEIANVPRKWVGVVAGGPQKAVAYGVGKSSFVRLSDGTVKEFKEERTVEAIAFAPKGLRIAVARYNGVTLHWVATAGDPVDLEWKGAHTGVTFSPDGKFLVTTMQENALHGWKMEATKGGMEARHMRMTGYPAKVKSVSWSAKGKWLASSGAPAAIVWPFAGKDGPMGKAPEELGSRANIMVTNVAFHPVEDVLAIGFIDGMILGVRLADGKEALLRRPGKGAITGMDWSATGKLLAFASEAGDCGIIDISA				NA	NA	NA	NA	NA
BMS010_08135	1182	setC		Sugar efflux transporter C	ATGCTCCAGAAAAGCACTTTGCCGGGCGCTTTCGATCGTCAGGCCTATTTGATCGCCCTGCTGGTTTTTATTGCAGGCAGCACCAATGCGGCTGTCGTGCCATTTATCGGTTTTTACATCATCCAGGTGCTCGGCCATCCGCCGGCCACCGTCGGTTTTTACAGCGTCACGGCGGCGCTGGCCTCGATTGTCGCCAGCCGTTTTTATGGCGAGCGTGTCGATGCCGGGGTGCGGGTGAGGCCGTTGTTGATGCTTTCCGTGTGCGGCGCTTTTGTCGCGGCGGCTGCGGCGAGTTTCGGGCATCTGGCGCTGCTGGTGGCGATAACGGCGACCGGCATGGGGCTTTCCAATGCCGCCAGCACGCTCATTTTCAGTTACGGCCGATATCATGGCCGGGTGAAGGCGCTGGATACGGCCGCCTATAATGCCTTCCTGCGAACGATGGTGTCGCTGGCATGGATGCTGGTTCCCGCTGCCGCCTATCTGATCTTCGATCTTGCTGGCGCGAAGGCCGTGTTCGTGAATGCCATGCTGATGGCGGTCATCTGGGGCGGGCTTGCCCTTGCGGTCGTGCCGCGCGATCAGACCAGCCCGATGGAGCGGCGACCGGCGGGTGACGACGATACACGGCGCAACCTGCCGCTGCTTCTGGCGGCGGCCGCCAGCTTCTGCATGTCTTTTGCCCATGCTCTCTGCGCCTCGGCCCTGCCGGTGTTTCTGGTGCGGGAGGTCGGCCTGCCGGATTACGTGCCGGGCCTGTCGCTCAGCGTCAAATGCGCCATGGAGGTTCTGTTCATCCTGCTTGCGCCGCGAATGATGCGCCGCTTCAGCGCCCGCCTGCTTCTGGGCGTTTCGGCGGTGATGGCCATCGTCGCCTTCAACGTCATCGCCTCGGTCACCACATTGCCGGCCATGATCGCGGGTGCGGCGCTGGAAGGCGCCTATTACGGCCTTTGTGCCGGCACTTGCCTTACTTTCGTGCAGGGCTTTGCGCGCGGCCGCACGGCCCGGGCGACGGCGCTCTACATGAACTCCATTTTCCTCGCCGCGCTTTTTGCGGTGCCGCTGATGGGCTTCGTATCGCAATATGCGAGTTTCGGCGTCTCGATCCGGCTCGCTTCGGTTGGTGCGGGCGCGGCCTTGCTGCTGTTGTTTTTGACGCGGCGGCAGGTGGGGGAGTAG	MLQKSTLPGAFDRQAYLIALLVFIAGSTNAAVVPFIGFYIIQVLGHPPATVGFYSVTAALASIVASRFYGERVDAGVRVRPLLMLSVCGAFVAAAAASFGHLALLVAITATGMGLSNAASTLIFSYGRYHGRVKALDTAAYNAFLRTMVSLAWMLVPAAAYLIFDLAGAKAVFVNAMLMAVIWGGLALAVVPRDQTSPMERRPAGDDDTRRNLPLLLAAAASFCMSFAHALCASALPVFLVREVGLPDYVPGLSLSVKCAMEVLFILLAPRMMRRFSARLLLGVSAVMAIVAFNVIASVTTLPAMIAGAALEGAYYGLCAGTCLTFVQGFARGRTARATALYMNSIFLAALFAVPLMGFVSQYASFGVSIRLASVGAGAALLLLFLTRRQVGE	PGPT0017195_482	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_OTHER_SUGAR_TRANSPORT_RELATED_PROTEINS,PGPT0017195-MFS_SET-K03291	NA	NA
BMS010_08136	651			hypothetical protein	ATGTTGAAACAATCATTTCTCGCGCTCGCCGCGCTCGGCGTTCTTTCCGGCGCAGCCATTGCTGCCGATGCCGTCAGCGACGTTCCGGCAGCACCTGTCGTCAACGATGCCGCGCCTGCCTTCTCCTGGGACGGTTTTTACGCCGGTGTTTCGGGCGGCTATGGCTGGGAGCGAGTAACGGTGAGCGCCGAGGGCGAAACCGGCAAGACTAATTTCAACGGTGCCCGTTTCGCTGGCTTCACCGGTTACAATTTCGAAGTCGCACCTTCCGTCGTTCTTGGTGCGGAGCTCGATCTTGGTTATGCTTGGGGCAAGAAAACCTTTGACGGCGATAAGATTTCCGCTGGTTTGAACGGTTCGACTCGTCTTCGCGCTGGCTATGCCTTCGACCGCGCCCTGATTTACACGGCTGGCGGTTATGCGGCGACGGACACCGAAGTAAAGGTTGAATCGGTCGGCAAATCCAGCAAGGTGCTTCATGGCTGGACGATTGGTGCCGGTGTTGACTACGCCTTCACCGACAATGTCTTTGGTCGCGTGGAATATCGCTACAACGACTTCGGTAAGGCGACCTACACGATTGCGGGCGATTCCTTCCGTGGCGGTCTCAGCGACCATGTCGTCAATGTCGGTGTGGGTGTGAAGTTCTGA	MLKQSFLALAALGVLSGAAIAADAVSDVPAAPVVNDAAPAFSWDGFYAGVSGGYGWERVTVSAEGETGKTNFNGARFAGFTGYNFEVAPSVVLGAELDLGYAWGKKTFDGDKISAGLNGSTRLRAGYAFDRALIYTAGGYAATDTEVKVESVGKSSKVLHGWTIGAGVDYAFTDNVFGRVEYRYNDFGKATYTIAGDSFRGGLSDHVVNVGVGVKF				NA	NA	NA	NA	NA
BMS010_08137	288			hypothetical protein	ATGATTGCAAAGTTCGCTTGTGTAGCCGCTATTCTTACTGTCGCTTCCGTTGGTCAGGCCAATGCGGGCGGTCTTCTGGGAGGCATCCTGTCCGGCAACAGCAACAAGGGCGGCGCCCTTGTCGTCGTCTCGCCCAGCATCGATCTGGGTGTCAACGGCATCCTGTCCAATAACGGGATCCTGAATGGCAACAAGACCGGCATCCTGAACGGTGTGCTGAACGGCAACAAGACGTCCGTCGATGTCATCGACAACAAGAATGACGGCGGCAAAAAGCGCCGCCACTAA	MIAKFACVAAILTVASVGQANAGGLLGGILSGNSNKGGALVVVSPSIDLGVNGILSNNGILNGNKTGILNGVLNGNKTSVDVIDNKNDGGKKRRH				NA	NA	NA	NA	NA
BMS010_08138	1179			hypothetical protein	ATGAGGGTGGGGGGATATATCGCGCTTGTTCTCGGGCTTGCCTGCGCCTGGGGCGCGCGGGCGGGGGAAAAGGCCGATGAGCACAATGTCACCTATAAATCCGGCATTGCTTATGACAGCAATTACTTCGCCGACACCAACCGGCTGAGCGCGATTTCGCTGCGCGCCGGCTTCGGGCTCAACGGCAAGATCGCGCTGGAAGGGGCAGAGCTGCGTTATTCGCTCGAGCAGGAAGAGGTTCGCCTGCCCCGTTATCGTTTCGCCAATGAACATAACACCATCGCGGCGCTGGGGCTGACGAAACGATTTTCCGAGAAGCTGGAATGGGCCCTTGAGCTGCGCGGCACCCGCAGCGATGCCGGCGATATTTTCCTGCACCTGCCGGAAGAAGACATTGGCTACCGGCAGCTGGATCACAAGGTGGAGGCGTCTTCCCAGCTCGGCATCCTCGCCCTTGGCGGCAAGAACACGCTGACGGCAAGTCTCGCCAGCCTGATGAAAGGCAAGGCGCGGTTCCGTCCGGCCTATTTCCTGCCCACCCGACTGGAAGCGAACGAGGCGCTTTTATCGCTGAAAGCGGAACATGCACGATCGCTCGGCGGCGGCGAGGCCGGGCTGACCCTTGCTTACGACCGTATCGCCGTGCCTGAGGGGCAGCAGGAAAAATATGAACGTTTCCCGGCCAATACGCTGCGAGGTTCTCTGGCCTATGGTTACAGGTTTTCCGACCGTTTCGCGGTTCTGGCCGAAGCGGGCTTCACCTCCATTTCCGGCGATGAGATCAGCGACAAGGTAAAGCGCACCCGCCCCTATTTGCGGGCCGAGGCCGAGGTGAAGGCCACCGAGCGCATCGCCTTCGGCGCGGGCTTTTCGCAGGACTATGCGCTTTTCGACCCGGATGACCCGATTGCCGAATTCCATCGCCGCTTTCAATTCGTCATGAAAAGCAGGCTCACCGAAAAGGTGGGGCTCGATCTTGCGCTGCACCGGGTCCACAAGGACTGGATCTATTATAATTACGATACCAGCGAGCGCCGGCTGGTCGCGACACTCTCCTTCGATACCGGCAAGAACAGCAAGCTGGAGGTGGAGTTCAACCGCCTGCTGCATGGCGAGCGCGATACCGATCTTGCCTACAGCGGCTCCACCATCACCTCGCGTTTCAGCGGCACCTTCTGA	MRVGGYIALVLGLACAWGARAGEKADEHNVTYKSGIAYDSNYFADTNRLSAISLRAGFGLNGKIALEGAELRYSLEQEEVRLPRYRFANEHNTIAALGLTKRFSEKLEWALELRGTRSDAGDIFLHLPEEDIGYRQLDHKVEASSQLGILALGGKNTLTASLASLMKGKARFRPAYFLPTRLEANEALLSLKAEHARSLGGGEAGLTLAYDRIAVPEGQQEKYERFPANTLRGSLAYGYRFSDRFAVLAEAGFTSISGDEISDKVKRTRPYLRAEAEVKATERIAFGAGFSQDYALFDPDDPIAEFHRRFQFVMKSRLTEKVGLDLALHRVHKDWIYYNYDTSERRLVATLSFDTGKNSKLEVEFNRLLHGERDTDLAYSGSTITSRFSGTF				NA	NA	NA	NA	NA
BMS010_08139	642			hypothetical protein	ATGAACAGACGCTTTTTGCTCCTCGCGGCCGGCCTTGCCTGCGTTCCCGTCGCCGCGGCGGCCCATCCGCATATCTTTGCCGAAGCCCGCATGGAAATCGTCGAGGGGCCGAACGGCACCGTTCAGGAAGTGCGCAATATCTGGCGTTTCGACGAGATGTTCTCGGCAAGCGTGGTGATGGATTACGACAAGAACAGCGATCTGAAGCTCGACAAGGACGAGCTGGCCGAAATCGGCAATACCGTCCTAGAATCGCTCGCCGAATATTCCTACTACACCTTCATCACCGCCAATGGAAAACCGGTGGAATTTGGGAAGCCCGAGGCCATTCACGTGGACTATAAGGATCAGCAGATCCTGATGTTCTTCTCCGTGAAGCCGACCAAGCCTTTGGCCGTCAAGGGCAAGCTCAGCTTCGGCGCCTGGGATCCGACCATGTATACGGCAATCGATTTCGCCAAGGACGGCGATATCGCCACGCAGGGTAAGGACCTGAATGCCTGCAAGCATCATGTCGTCCGTCCCGATCCCGACGAGGTGATCTCGCAGAACCAGGGCACGCTCACCGACGCCTTCTTCAACGATCCGACCGGCACCGACATGACCAAGCTCTTCGCCACCCGGCTGGAGGTCTCATGCTGA	MNRRFLLLAAGLACVPVAAAAHPHIFAEARMEIVEGPNGTVQEVRNIWRFDEMFSASVVMDYDKNSDLKLDKDELAEIGNTVLESLAEYSYYTFITANGKPVEFGKPEAIHVDYKDQQILMFFSVKPTKPLAVKGKLSFGAWDPTMYTAIDFAKDGDIATQGKDLNACKHHVVRPDPDEVISQNQGTLTDAFFNDPTGTDMTKLFATRLEVSC				NA	NA	NA	NA	NA
BMS010_08140	1050			hypothetical protein	ATGCTGAGCCGCAGGGCCGGCCTCTTCGCAGTCGCCATTGGCCTCATTGTCGTGGCCGGTGCGGCCCATGCGCAATCGCCGCTCGGCATCGGCTCGGCCGAGCCTTCCTTTTCCGTCGGCGGCCCCTTCGCCCCGCTGATGCAATGGATCAACGTGCACCAGCAGATGTTTTATCGGGCACTGACCGGCGCGTTGAAGGCCATGCGTGAGGATGGCTGGGCGCTCAGCTCGCTGATCGGCCTCTCCTTTGCTTATGGCGTTTTCCATGCCGCCGGTCCCGGCCACGGCAAAGCGGTCATTTCGTCCTATATGATCGCCAATGAGACGCAGCTGAAACGCGGCATTCTCATTTCTTTCGTCTCGGCGCTCATTCAGGGTTTGATGGCCATTGGCCTCGTCGGCGCGGCCTGGCTGGTGCTGCGCGGCACCTCCATCACCATGACGAAGGCGACGCAGGCGATGGAGATCGCCAGCTTCGCCATGGTGGCGCTGTTCGGCGCCTGGCTGCTGGTGCGAAAGCTCTGGTCACTGCGCATCCGGCGGGAACCCGTTCCCGTCTTCGCCACGGCGGGCGAGGCATCAGTGGCCCGAACCAGCGGCATGGGCACGGGGCTGCGGTTCCAGGGCAAGCCGGTTTTTGCCGATCACGACCATGACGGCACGGGCGATCTCTGCGCCGCCTGCGGTAAATCCCATGCGCCCGATCCGACGCTGCTCAAGGGCAAGAACTTCAGCCTGCACGAGGCATGGTCCGCCATCATCGCCGTGGGGCTCAGGCCCTGCTCTGGCGCGATCATCGTCATGAGCTTCGCGCTTCTGAACGGGCTTTATCTCGGCGGCGTGCTTTCCGTCCTCGCCATGTCGCTCGGCACGGCCATAACGGTATCGCTGCTCGCCATCATGGCCGTCTCGGCAAAAGGCCTCGCCGTGCGTTTCGCCGGCCCCGGCAGCCGCAGGGCAGCCGGCATCAGCCATGCGATAGAGATCGCCGGTGCGCTGTTCGTGCTCATCATGGGGCTGTTGCTGCTCGGCGCGTCGCTTAAGCTCTAA	MLSRRAGLFAVAIGLIVVAGAAHAQSPLGIGSAEPSFSVGGPFAPLMQWINVHQQMFYRALTGALKAMREDGWALSSLIGLSFAYGVFHAAGPGHGKAVISSYMIANETQLKRGILISFVSALIQGLMAIGLVGAAWLVLRGTSITMTKATQAMEIASFAMVALFGAWLLVRKLWSLRIRREPVPVFATAGEASVARTSGMGTGLRFQGKPVFADHDHDGTGDLCAACGKSHAPDPTLLKGKNFSLHEAWSAIIAVGLRPCSGAIIVMSFALLNGLYLGGVLSVLAMSLGTAITVSLLAIMAVSAKGLAVRFAGPGSRRAAGISHAIEIAGALFVLIMGLLLLGASLKL	PGPT0004550_505	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-COBALT_TRANSPORT,PGPT0004550-rcnA-K08970	NA	NA
BMS010_08141	261			hypothetical protein	ATGCCGTTGCCTGAACACTCGGCGCCTGAAAACCCGGCACCTGAAAAGGCGCGCCCCGGCAAGAAGGATTGGTCTCCGGCCTTCGCCGCCGCCCTTATCATCGTCGGTTTCGGGCTGGTCTTCTTCGTCATGCCGAAGATCATGCTGTGGCTCGGCGATTATTCGCCCTGGCTCGCCGCTGCCTTCGGCACGGTGGCGGTGCTGTGTTTCTTCCTGCTGTTCTGGCTGCGCGCCCGTTACCAGCGTCGCCGTGACGGTTAG	MPLPEHSAPENPAPEKARPGKKDWSPAFAAALIIVGFGLVFFVMPKIMLWLGDYSPWLAAAFGTVAVLCFFLLFWLRARYQRRRDG				NA	NA	NA	NA	NA
BMS010_08142	693			hypothetical protein	ATGCGCGATCTGAGTGATTTCAAGGGATGTCCGCCGCCGCAGCCGGTGGTGTTGAAGGGCCGTTACGTGACGGCGGAGCCGTTCGATCGCGAAAAACACCTTGCAAGGCTCTGGGCCGCACTTGGCGGCGAGGGCGTGAATGCGCTGCTCAAATATTTCCCGCAAAGCGCCTTTCCCGATGCCGACGCTTTCGGCGACTGGCTCGTCGGCGCGGGGCAGAAGCTTAACTGGGTCACGCTGGTCTTCGTTGAAAACGCCACCGGCGATATCGTCGGCATGGCGAGCTATATGCGGCCCGATCCCGCCAATGGCGTGGTCGAGGTTGGCTCCGTCGCCCATGGTGCGAAGATGAAGCGCTCGCCTCTTTCCACCGAGGCGCATTACCTGATGGCGAAACATGTTTTCGAGGATCTGGGGTATCGCCGTTACGAGTGGAAATGCCACAATGAAAATGAGCCCTCCAAGATAACAGCGAAGCGTTATGGCTTCACCTTCGAGGGCGTTTTCCGCCAGCATATGATCTCGAAGGGCCAGAACCGCGATACGGCGTGGTTTTCCATGATCGACGGCGAATGGCCGCTGATCGGCAAGGCCTTCGAAGCCTGGCTTTCGCCGGAGAATTTTGCGGCCGATGGCGCGCAGAAGCGCAAGCTTGAGGATATCCGTGCGGAGTTTGCCGATGCCGTTGCCTGA	MRDLSDFKGCPPPQPVVLKGRYVTAEPFDREKHLARLWAALGGEGVNALLKYFPQSAFPDADAFGDWLVGAGQKLNWVTLVFVENATGDIVGMASYMRPDPANGVVEVGSVAHGAKMKRSPLSTEAHYLMAKHVFEDLGYRRYEWKCHNENEPSKITAKRYGFTFEGVFRQHMISKGQNRDTAWFSMIDGEWPLIGKAFEAWLSPENFAADGAQKRKLEDIRAEFADAVA				NA	NA	NA	NA	NA
BMS010_08143	465			hypothetical protein	ATGATCGGCGGCAAGCGCCAGCACCAGGCATCCGGGCTCGCGGCGCTCGGCCAGCACGGCGGCGGCGGCCATGGCGGCGGCGCTGTCGCGGCGGGCGGGCTCCAGCACCACGGTTGCCGGCAGATCGATCTCTTCGGCCTGGCGGCGTGCGAAGAACCGGAAATCCTCATTGGTGATCACCAGCGGCTCGGCATAAAGGCCCTTGTCGCCCACCCGCTGCAGCGTCTGCTGATAGGTCGAAAGATTGCCGACCAGCGGCTGGAACTGCTTGGGCAACTGATCGCGCGATACCGGCCAAAGCCTGGAACCAGCACCGCCGGCCAGAAGAACCGGCGTGATCTTTCGAGAGTGTTCCTTCACAACAAAACCTTTCCAACTCTAAAAATTTCCCGGCGCGCCGGACAATATACATATTTCGAAATACCGCCATCATCGGTTCGCGGGCGGATAAGCGCAAGCTCATAA	MIGGKRQHQASGLAALGQHGGGGHGGGAVAAGGLQHHGCRQIDLFGLAACEEPEILIGDHQRLGIKALVAHPLQRLLIGRKIADQRLELLGQLIARYRPKPGTSTAGQKNRRDLSRVFLHNKTFPTLKISRRAGQYTYFEIPPSSVRGRISASS				NA	NA	NA	NA	NA
BMS010_08144	2289	tme	COG0280	NADP-dependent malic enzyme	ATGTCCGACACGACCAAACCCGCCAGCACCAGAACATCGGTTACGGATCAGGAAGCCCTGGATTTCCACGCGGAAGGCCGGCCGGGGAAACTGGAAATCACCCCGACCAAACCGATGGCGACGCAGCGGGACCTGTCGCTCGCCTATTCGCCGGGCGTGGCCGTGCCGGTGAAAGCCATCGCCGAAAATCCGGCGACCGCTTACGACTATACCACGCGCGGCAACATGGTTGCGGTCATCTCCAACGGCACCGCCATCCTCGGCCTCGGCAATCTCGGCGCGCTCGCCTCCAAGCCGGTCATGGAAGGCAAGTCGGTCCTTTTCAAGCGCTTCGCCGATGTCGATTCCATCGATCTCGAGGTCGATACCGAAGACGCCGATGAGTTCATCAATTGCGTGCGTTATCTCGGCCCCTCCTTTGGCGGCATCAATCTGGAAGACATCAAGGCGCCGGAATGTTTCATCATCGAAAGCCGCCTGCGCGAGCTGATGGACATTCCCGTCTTCCATGACGATCAGCATGGCACCGCCATCATCGCCGCCGCCGGCCTCATCAACGCCATCGAACTGACGGGCCGCGACTTCAAGACAACCAAGCTCGTCTGCAACGGCGCGGGTGCGGCGGCAATCGCCTGTATGGACCTTATCAAGGCCATGGGGTTCAACCCTGAAAACATCACGCTCTGCGATACCAAGGGCGTGATCTATCAGGGCCGTACCGAAGGCATGAACCAGTGGAAATCCGCCCACGCGGTGAAAACCAACAACCGCACGCTGGCGGAAGCCATGAAGGGCGCTGATGTGGTATTCGGCCTCTCCCAGAAGGGCGCGTTCAGCGAAGAGATGATCCGTTCCATGGCGCCGAAGCCGATCATCTTCGCCATGGCCAATCCCGACCCGGAAATCACCCCCGAGGAAGTATCGCGCATTCGCGACGACGCCATCATGGCGACCGGGCGTTCGGATTACCCGAACCAGGTCAACAATGTCCTCGGCTTCCCCTATATCTTCCGCGGCGCGCTCGATGTCCGCGCCAGCCAAATCAATGACGCGATGAAGATCGCGGCGGCACAGGCGCTGGCCGATCTTGCCCGCGAGGATGTTCCTGATGATGTGGCCGCCGCCTATCAGGGCAACCGCCCGCGCTTCGGATCGCAATATATCATTCCGGTTCCCTTCGATCCGCGCCTGATCTCGGCCATTCCGGTGGCCGTGGCCAAAGCCGCCATCGAAACCGGCGTCGCCCGCCGCGAATTGCCCGATCTCGACGCCTATGCCCGCGAGCTTTCCGCCCGCCGCGACCCGATGGCCTCCACCACGCAGCGCCTTTACGAGCGCGTGCGCCGCTCGCCGAAGCGGGTCGTTTTTGCGGAAGCCGAAGAAGAACAGGTCATGCGCGCGGCGATTTCGTTCACCGCGCAGGGCCTCGGCACCGCCATCCTGCTCGGCCGTGACGATATCATCAAGGCCAATGCGGAGCGCGCCGGCATCGATCTCGACCGCGCCAATATCGAGATCACCAACGCGCGCCTTTCCAGCCGCGTCGATGCCTATGTCGATTATCTCTATGCGCGTTTGCAGCGCGGCGGTTTCCTGCTGCGCGACGTGCAGCGTCTGGTCCACAACGACCGCAACCATTTCGCCGCCTGCATGGTGGCGATGGGCGATGCGGACGCCGTGGTGACCGGCGTTACCCGTAACTATTCAACGGCGCTGGAGGATATCCGCCGCTGCATCAACACCAAGCCTGGCCATCGCGTCATCGGCGTTTCGCTGGTCGTCTCGCGCAACCGCACCGTCTTCGTTGCCGATACCGCCGTGCATGATATGCCGAATGCGGAAGACCTTGCCGATATCGCCGAAGAAGCAGCCGGCCTCGCCCGCCGTTTCGGTTACGAGCCGCGCGTTGCCATGCTCGCCTATTCCACCTTCGGCCAGCCGACCGGCGAACGCTCCGACAAGGTGCGCGAGGCGGTGAAAATTCTCGACAGGCGCAACGTCAATTTCGAGGTCGACGGCGAAATGTCGGCCGATGTGGCGCTGAACCATCACCGCATGCAGAGCCAGTATCCCTTCGCCCGGCTTTCCGGCCCGGCCAATGTGTTGGTCATGCCCGCCATCCATTCCGCCTCCATCTCCACCAAGATGCTGCAGGAACTGGGCGGCGCAACCGTCATCGGCCCGCTTCTTGTCGGTCTCGACAAATCGGTACAGATCACCTCGATGGGCGCGAAGGACAGCGACATCGTCAACATGGCGGCAATCGCGGCCTATAATGCCGGACGATAA	MSDTTKPASTRTSVTDQEALDFHAEGRPGKLEITPTKPMATQRDLSLAYSPGVAVPVKAIAENPATAYDYTTRGNMVAVISNGTAILGLGNLGALASKPVMEGKSVLFKRFADVDSIDLEVDTEDADEFINCVRYLGPSFGGINLEDIKAPECFIIESRLRELMDIPVFHDDQHGTAIIAAAGLINAIELTGRDFKTTKLVCNGAGAAAIACMDLIKAMGFNPENITLCDTKGVIYQGRTEGMNQWKSAHAVKTNNRTLAEAMKGADVVFGLSQKGAFSEEMIRSMAPKPIIFAMANPDPEITPEEVSRIRDDAIMATGRSDYPNQVNNVLGFPYIFRGALDVRASQINDAMKIAAAQALADLAREDVPDDVAAAYQGNRPRFGSQYIIPVPFDPRLISAIPVAVAKAAIETGVARRELPDLDAYARELSARRDPMASTTQRLYERVRRSPKRVVFAEAEEEQVMRAAISFTAQGLGTAILLGRDDIIKANAERAGIDLDRANIEITNARLSSRVDAYVDYLYARLQRGGFLLRDVQRLVHNDRNHFAACMVAMGDADAVVTGVTRNYSTALEDIRRCINTKPGHRVIGVSLVVSRNRTVFVADTAVHDMPNAEDLADIAEEAAGLARRFGYEPRVAMLAYSTFGQPTGERSDKVREAVKILDRRNVNFEVDGEMSADVALNHHRMQSQYPFARLSGPANVLVMPAIHSASISTKMLQELGGATVIGPLLVGLDKSVQITSMGAKDSDIVNMAAIAAYNAGR	PGPT0001685_1098	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001685-maeB-K00029	NA	NA
BMS010_08145	840	glnH_4	COG0834	ABC transporter glutamine-binding protein GlnH	ATGGCCCTCTCTTTCTCCAGATTTGCCGCAAAACTCATTGCCGGAACCGTTGTCATCGCTTCGATGGCCACTGCCGCTCACGCGGATGCAACGCTCGACCGGATTAAGGGTCGCGGCAAGCTCACTGTCGGCGTTATCCTTTCCGGCGCGCCTTTCGGCTTTATCGATCCGAAGACGCAGGAGCAGAAGGGTCTCAACATCGACGTCGCCAAGGCGCTGGCCGCCGGCCTCGGTGTCGAGCTGGTCACCGAAACCGTGACCCCGCCCAACCGCGTGCAGTTCCTGCAGCAGGGCAAGGTCGATATTCTGATCGCCAACATGCAGTACACGGAAGAGCGCGCCAAAACGCTCGATTACGTACCGACCCCCTATGACCGCCAGGGCGGCGCCGCCATCGGCCGCAAGGACAGTGGCATCAAGGACTGGTCGGACCTGAAGGGCAAGATCGCCTGCGTTTCGCAAGGCTCCAACTACACCCAGCCGCTGATCGAGCAATATGGCGCGCAGGTAAAGGCGCTGCCAAGCCAGCCGGAATCGCTGCTGGCGCTCAAGGGCGGCAATTGCGACGTCTCCGTTCACGTCAACGGCACGCTGAGCCTGATGCTTCAGGACCGCGCCGATGAGTGGAAGGATTACGGCATCCTCATCCCCACCGACCTGATCCCGTCGGATTCCGTGATCTGGCTGCGCAAGGGCGAAAGCGACACGCAGGCCGCTCTCGACAAGATCGTCAAGGAACTGCACGCCTCCGGCAAGATGCTCGAATTCGCCAAGGCCAACCGTCTGCCGAGCATCGGCTATATGGAAGAGCAGCAGAAGAAGCTTTCTGCCGCCCAATAA	MALSFSRFAAKLIAGTVVIASMATAAHADATLDRIKGRGKLTVGVILSGAPFGFIDPKTQEQKGLNIDVAKALAAGLGVELVTETVTPPNRVQFLQQGKVDILIANMQYTEERAKTLDYVPTPYDRQGGAAIGRKDSGIKDWSDLKGKIACVSQGSNYTQPLIEQYGAQVKALPSQPESLLALKGGNCDVSVHVNGTLSLMLQDRADEWKDYGILIPTDLIPSDSVIWLRKGESDTQAALDKIVKELHASGKMLEFAKANRLPSIGYMEEQQKKLSAAQ	PGPT0020800_6329	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_08146	744	occM_4		Octopine transport system permease protein OccM	ATGCAGGATTCATTTACAGCGCGCTTCATAGAACTGGCCGCGCATCTGGGCCTCAACTATGACTTTCTGAACAGCGGTTACGAGGTTCAGATCTGGCTCGACGGCATGAAGATGACGTTGATCCTCGTCGCCGTCACTTTGCCGCTCAGCCTCGTCTTCGGCTTCATTTTCGCGGCCATGCTGACTTCGGGCAAGGTCTGGCTTGCCGGCCCCGTCCGCGCCTATGTGGAACTGACGCGCAACACACCGACGCTGGTGCAGCTGATGTGCGGTTTCCTCGTGCTCAACATGCTGATTTCTAACGCTCTCGGCGGCGCGCAGAACAATCCGCTGACACCCTTTTTCTGGGTCGTCGCCATCACCGGCCTGCACATTGCCGCTTTCCATGCGGAAGCGTTGCGCGGCGGTATCGAGGCGGTGCCGGCGACCACCATCGAGGCGGCGCGTGCGATCGGTTTCAGTTCCTTCGAGATTCTGCGTTATGTGGAGTTTCCGCTGGCCATCCGCACGGCGCTGCCCTCCATCATCAACAACCTCGTCAATCTGGTGAAGCTCACCACGGTCGGCTCGGCAATTGCGGTGGGTGAAATCACCTATGCCTCGATCCTGATCTGGACGCAGCGCGACAATGTGGTCGAGCTGATGATCGTCATCCTGATCTTCTTCAGCGTCATCAATTTTATAGTGGCAAGGGCCGGTCTCTGGCTTGAGCGGCGTCTTGCGGTTCCGGGGTTCGGTCAATGA	MQDSFTARFIELAAHLGLNYDFLNSGYEVQIWLDGMKMTLILVAVTLPLSLVFGFIFAAMLTSGKVWLAGPVRAYVELTRNTPTLVQLMCGFLVLNMLISNALGGAQNNPLTPFFWVVAITGLHIAAFHAEALRGGIEAVPATTIEAARAIGFSSFEILRYVEFPLAIRTALPSIINNLVNLVKLTTVGSAIAVGEITYASILIWTQRDNVVELMIVILIFFSVINFIVARAGLWLERRLAVPGFGQ	PGPT0020795_4466	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
BMS010_08147	783	tcyB	COG0765	L-cystine transport system permease protein TcyB	ATGAGTGCGGTGGTCTCTCCAACACAGGTGGTGAAGAAGCCACCTTTCGGCACCATTCTGCTGCTCGGCGTGCTGATTGCCGTCATGTTGTGGCTGATCCTCGATCCGTCCCTCGGTCAGGTGCTGCTGCAATGGCTGCCCTATCTGGCCAAGGGTTTTGCTATGAATGTGCTGATCAGCATCCTTGCGATCGCCATCGGCACCTTCATCGGCGTCCTCCTCGGCATCATGGAGCTTGCGCCCTATCGCCTCGTGCGCGCGCCAGCGCTCACCTATGTCCAGATATTCCGCAATGCCCCGCATCTGGTGCTGATCTTTGCCGCGACCTACATCTTCCCCTTCGAGATCGTCGCTTTCGGCAACTACATTCCATTCCCGGACTGGATCAAGGCCGTCGTCGGGCTTGCCATTCCGGCCAGCGCCCATATCGCCGAAATCACCCGCGGCGCCATCCAGTCCATTCCGACGGCGCAATGGGAAGCGGCGCAGGGCCTCGGTTTTTCGCGTAACCAGACACTGCGCTGGATCATCCTGCCGCAATGCGTGAAGCGCTCGCTGCCACCATGGATGAACCTCTATGCGTCGATCACCATGGGTACGGCGCTCGCCTCACTGGTCGGCGTGCATGAACTTCTGCACGCCGCGACGGACGCCAGCACCGCCGTTCAGCGCAACGATTTCACCGTTGTGGTTTACCTCACCGTTCTGATGGCGTTCTTCCTGTTCTGCTATCCCGTCTCCCGTTTCACGCAGCGCCTCGAGCGGCGCTTCGCTTCCCGCTGA	MSAVVSPTQVVKKPPFGTILLLGVLIAVMLWLILDPSLGQVLLQWLPYLAKGFAMNVLISILAIAIGTFIGVLLGIMELAPYRLVRAPALTYVQIFRNAPHLVLIFAATYIFPFEIVAFGNYIPFPDWIKAVVGLAIPASAHIAEITRGAIQSIPTAQWEAAQGLGFSRNQTLRWIILPQCVKRSLPPWMNLYASITMGTALASLVGVHELLHAATDASTAVQRNDFTVVVYLTVLMAFFLFCYPVSRFTQRLERRFASR	PGPT0020795_3596	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
BMS010_08148	801	tcyC_2	COG1126	L-cystine import ATP-binding protein TcyC	ATGTCCGCACCCGCACCACAAACCGCCGCAAAAGCTCTGGTTGAACTGGAAGGCATACACCTGTCCTTCGGCGACAATCAGGTCCTGAAGGGCATCGACCTTACCGTGAACAAGGGCGACGCCGTCTCCATCATCGGCCCTTCCGGCTCCGGCAAGTCCACCATCCTGCGCTGCATCAACGGCCTGCTCATTCCGCAATCGGGCAAAATCACCGTCGGCGGCACGCGAGTGGACCTGCTCAAGACCGAGGCTGAGCGCATCGCGCTGCGCAAGCGCATCGGCATTGTCTTCCAGCAGTTCAACCTCTTTCCGCATCTGACGGTGATGGAAAACATCACCATCGCACCAATCAAGATTCTGGGCACGCCGAAAGCGGAAGCCGAACGCCATGCCCGCGAATTGTTGGAAAAAGTGCGTCTTTCCCAGAAGGTCGATGCCTATCCCGGCCAGCTTTCCGGCGGCCAGCAGCAGCGCGTGGCGATTGCCCGCGCACTTGCCATGCGGCCGGAACTGGTGTTGTTCGATGAGGTCACCTCCGCACTCGACCCGGAAACCGTGGGCGAAGTGCTCGCCGTCATCCGCGATCTCGTCAATGACGGCATGACCAGCATTCTCGTCACACACGAAATGCGTTTTGCCGAAGAAATCAGCGACAATATCGTCTTCACGGAAAATGGCCTGATCGTCGATCAGGGTACGCCGGAACACATCTTCTACAAGTCGACCAATCCGCGCATCAACGCCTTCGTCAAGGGTCTCGGCGGACAGGTGGCACGGGTCAATGACGGCGAAGGGATCTGA	MSAPAPQTAAKALVELEGIHLSFGDNQVLKGIDLTVNKGDAVSIIGPSGSGKSTILRCINGLLIPQSGKITVGGTRVDLLKTEAERIALRKRIGIVFQQFNLFPHLTVMENITIAPIKILGTPKAEAERHARELLEKVRLSQKVDAYPGQLSGGQQQRVAIARALAMRPELVLFDEVTSALDPETVGEVLAVIRDLVNDGMTSILVTHEMRFAEEISDNIVFTENGLIVDQGTPEHIFYKSTNPRINAFVKGLGGQVARVNDGEGI	PGPT0020790_1083	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020790-ABC_PA_A-K02028	NA	NA
BMS010_08149	1347			hypothetical protein	ATGACCGCAGACGAAAAGCTCACCTTTCATCTTGCAGAAGCGATTGCCGCCTCCGATCCCCTGCGTGATGAGGATGCGGTGGCCATCGCCCGCACGGCGCTGATCGATTTTTTCGCCTGCGTGCTGGGTGGCGCTGCCGACAGAAGCACGAAAATCCTGATCGACAGCTTTACGCCCGGCACGTCAGGCACAGCGGGCATTATCGGCCACGGTCTGCGCACGGATGCCTTCACGGCCGCCCTCATCAACGGCCACGCCGGGCATGTGCTTGACTATGACGATGTGCACGGCAGCGTGCGCGGCCACCCGACCGTTGCCATCATTCCCGCTTTGCTGACTGTCGCGGTCGAAGAGGGCTCCACGGCGGATGCCTTCATCGCCGCCTATATTGTCGGGCTGGAAACCATGGCGCGTCTCGGCCTCTCGCTCGGAACGAAGCATTACGAAAACGGCTTCCACGCCACCGCTACGCTCGGCCCCATCGGGGCTGCGGCGGCGATTGCCCATCTCCTGAAATTCGATCCGCAGACAACGGCCGTTGCGCTCGGCCTCGCTGCCACCCAATCGGCCGGGCTTCGCCTGCAATTCGGGTTTGATGCCAAACCGCTGCATGCCGGGCTCGCCACGCGTGCCGGCCTTACCGCCGCGCGGCTGGCGCGAACCGGCTTTCAGGGCGCGCCGGATTTTCTGGAAAACCCCATCGGTTTTTACTCCGCCTACGCCTTTGGCGCCGAGCAGCCGAAACGTGTTCTCTCCGGCTGGGGCGCACCGTGGCAGATCGTCTCGCCCGGCCTCACCCTAAAGGCCTTTCCCTGCTGCACCGCCAGCCATCCCGTTGCCGTCGGCGCGCTGGCGCTGCGCAACAGCAATAATCTGACGCCGGACGAGATAGAGACGGTCACCATCACCTTCCCGCCGGGCGGCGATGCCGCTCTCGTCGGACCGGCCACGCCCACGACCGGCATCGACGCCCGCTTCAGCGCCGAATATGTCTTTGCCGCAGCGCTGACGGATGGAGCGCTCGGCATCGGCCATTTCGACGAACGCCCGACGCGCGACGACCTGCTTGCCCTTTCCGCCAAAGTCTCACGCCGGCATGACGAGACCGCCCGCCGCCTCTCGCCCGATCCGACCACCCGGTTCGTGGTTATCGACGTGACGAAGAAGGACGGCACGGTGCTGTCGCGCCGTGTCGACGGCCTTCCTGGCATCGATGACCCGACCGAAAAATTTGCCGACGCGACCGGCGGCAATGAGAAATTCGCCGGCATTCCGGCACTGGTGCGGTCCATGAAAACCGCAGCTGACCTCAGAAAGCTCGAAACGCTTCTGGTATCGCAAATATAA	MTADEKLTFHLAEAIAASDPLRDEDAVAIARTALIDFFACVLGGAADRSTKILIDSFTPGTSGTAGIIGHGLRTDAFTAALINGHAGHVLDYDDVHGSVRGHPTVAIIPALLTVAVEEGSTADAFIAAYIVGLETMARLGLSLGTKHYENGFHATATLGPIGAAAAIAHLLKFDPQTTAVALGLAATQSAGLRLQFGFDAKPLHAGLATRAGLTAARLARTGFQGAPDFLENPIGFYSAYAFGAEQPKRVLSGWGAPWQIVSPGLTLKAFPCCTASHPVAVGALALRNSNNLTPDEIETVTITFPPGGDAALVGPATPTTGIDARFSAEYVFAAALTDGALGIGHFDERPTRDDLLALSAKVSRRHDETARRLSPDPTTRFVVIDVTKKDGTVLSRRVDGLPGIDDPTEKFADATGGNEKFAGIPALVRSMKTAADLRKLETLLVSQI				NA	NA	NA	NA	NA
BMS010_08150	1308	ntaA_3		Nitrilotriacetate monooxygenase component A	ATGACCACCACGACACGCAAAAGACAGATGCATCTCGGCCTTTTCCTGCAGGGCGCGGGGCACCACGTTTCCGGCTGGCGTCACCCCGATGCCGAAGCCGGCAGTGAAAATTTCGATCTGCTCACCCGTGTTACGAAAATGGCCGAAGCGGCGAAGTTCGACATGGTATTCTTGGCCGACGGCTTGACCAGCGGCGTCGACGCCCATCCCTCGATGATCGCGCGTTTCGAGCCGCTGACCCTGCTTGCCGCGCTGGCCATGGTCACCGACAAGATCGGGCTGGCGGCCACCGCCTCCACCACCTATGGCGAGCCCTACCACACCGCCCGCGCCTTCGCTTCCATCGATCATCTGAGCCATGGCCGTGCGGCGTGGAACATCGTCACCACCTCTTATGCCCGCACGGCGGCGAATTTTTCCAAGGACCATCCCGAGCATGACGAGCGTTATGCGGTGGCGGAAGAATATGTGAATGTCGTTCGCGGCCTGTGGGACAGCTGGGATGACGACGCCTTCGTCAAGGACAAGCAGGCGGGCCGCTACGTCGATCCGGAAAAGGTCCATATCCTCAACCACGAGGGCAAATATTTCACGGTCAAGGGACCGCTCAATATTCCGCGTTCGCCGCAGGGCCACCCGGTTCTCATCCAGGCCGGATCTTCCGGTCCGGGACAGGATCTCGCCGCCCGCACCGCCGATATTGTCTTCACCGCCCAGCAGGCGATTTCCGAAGCGCAGGCTTTCTATACCAGCCTCAAGGCGCGCGTGGAGAAGTTCGGCCGCGATCCGGCCAGCGTCGCCGTGATGCCCGGCTTCATGCCGATCATCGGCAGCAGCTTTGAAGAGGCTGGCGAAAAACTGAAGGAACTGAACCGCTGGACCGATATCAAGAGCGCAATGCCGCTGCTTGAAGAACGCATCGGCCACAGCCTCACTGATTACGATCTCGACGGTCCGCTGCCGGACCTGCCGATTTCCGACCAGCTGCGCAGCCGCGCCGAACTTCTGACCGAACTGGCGCGCCGCGAAAAGTTGACGATCCGGGAGCTGGCGCTGCGCGTCGCCGCCGGCCGCGGCCACCATATCGTCATGGGCACGGCCAAGGATGTGGCGGACCGAATGCAGGAATGGTTCGAAAACGGTGCGGCCGACGGTTTCAACGTCATGCCGCCCTTCTTCCCCGGCGGGCTGGAGGAATTCAACCGCGAGGTCGTTCCCCTGCTGCAGGAGCGCGGCCTGTTCCGCAAGGACTACGAAGGCTCGACGCTGCGCGACCACCTCGGTATCGAACGACCGGCGCTGCGGTGA	MTTTTRKRQMHLGLFLQGAGHHVSGWRHPDAEAGSENFDLLTRVTKMAEAAKFDMVFLADGLTSGVDAHPSMIARFEPLTLLAALAMVTDKIGLAATASTTYGEPYHTARAFASIDHLSHGRAAWNIVTTSYARTAANFSKDHPEHDERYAVAEEYVNVVRGLWDSWDDDAFVKDKQAGRYVDPEKVHILNHEGKYFTVKGPLNIPRSPQGHPVLIQAGSSGPGQDLAARTADIVFTAQQAISEAQAFYTSLKARVEKFGRDPASVAVMPGFMPIIGSSFEEAGEKLKELNRWTDIKSAMPLLEERIGHSLTDYDLDGPLPDLPISDQLRSRAELLTELARREKLTIRELALRVAAGRGHHIVMGTAKDVADRMQEWFENGAADGFNVMPPFFPGGLEEFNREVVPLLQERGLFRKDYEGSTLRDHLGIERPALR	PGPT0003040_15	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_DEGRADATION,PGPT0003040-ssuD-K04091	NA	NA
BMS010_08151	1737			hypothetical protein	ATGTCTTACTTTTCTAAACTTGGTCTTGACGCTTCTGCGGTGCTTGATGCGCTTAGCCGCTCACAGGCCATCATCGAGTTCGATCTGACCGGCAAGATTTTGAAAGCGAACGATAATTTCTGCAAGGCCGTCGGCTATCAGCAGTCTGAAATCGTTGGGCGTACCCACAGCATGTTCCTGTCTCCCGAAGATGCGGCCTCGCCTGAATACAAGAGCTTCTGGGCGAGGCTGTCGCGTGGCGAATACGATCAGGGTCAGTATCGACGTCGGGCCCGGAATGGCGACGAAATCTGGATCGAAGCTTCCTACAATCCCGTGTTCCGTTTCGGCAAGCCCTACAAGGTGGTCAAGATTGCAACCGACATCACCTCGATCAAGCGCAAGAGCGCTGAGGATGACGGGAAACTGGCGGCGCTCTCCCACGCGCAGGCCATAATCGAATTTACGCCCGAAGGGAAAATCCTCAGCGCCAACGAAAATTTCCTCGCGACGCTCGGTTACACGGCGGAAGACATCATCGGGAAACATCATTCGATGTTCTGCGAGCCTGCCTATGCCCAGTCGCAGGACTATCGGGATTTCTGGAAGGAACTCGGAAAGGGCCACTTCTCGACGGGGCAGTTCATGCGCCTTCGCAAGGATGGCAAACGCGTCTTCATTCAGGCCTCCTATAATCCGATCATCGATGATCGAGGCCGCGTCTTCAAGGTAGTGAAATTCGCTTTCGATGTGACGGACCGGATGCATGCGGTCGAGGAACTTGGTGCTGCGCTCGAGCGGCTTTCTCAATGCAATATCCGTATTACGCTGGACAAACCCTTCGTCGGCGAGTTCGAACGGCTGCGCCACGATTTCAATAAATCCATCGCCGAATTCCAGAAGACGCTGGAAAACGTTCTCGGCCAGACCGGAGACCTGACCCGCAGCAGCCAGGAAGTCAGCGAAGCCTCCGTCAATCTCGCCGAACGTTCGCGTGAGCAGGCCGTGGCGCTCGAGGAGACTTCGGCAGCACTCGAAGAAATCACCGCGACGGTCCGTTCCTCGACAGAAAATATGCAAGAGACGCGCAAGCTCGTTCAGAGCGCGCGGACATCTACCGTGGCTTCCACCGAGGTCGTGGAGCGGACGGTCGATGCCATGCAGCGTATCGAGACGGCTTCGCGGGAAATCAGCCAGATCATCGGTGTGATTGACGAAATCGCCTTCCAGACGAACCTGCTGGCGCTGAATGCCGGCGTGGAAGCTGCGCGTGCGGGTGACGCGGGCAAGGGTTTTGCTGTCGTGGCGCAGGAAGTGCGCGAGCTGGCGCAGCGTTCCGCCAATGCCGCGAAGGAAATCAAGGCGCTGATCAACAATTCCGGCACCGAGGTTCTGGAAGGCGTCAGGCTGGTGGGCGAAACCGGCGAAGCGCTGAAGCAGATCGACGCGCTGGTCAGGCACATTGACGGCAATGTCGACATGATCGCCAAGGCGGCGGACGAGCAGGCCGTCGGCATCAGCGAGATCAACAAGGCGGTCAGCCGGCTGGACCGGATGACGCAGGAGAATGCGGCGATGAGCGCCCGTACCACGGTGATCAGCACGACGCTGGCGCAGGGCGCGGATGCGCTGGCGCAGCTTGTCAGCCTGTTCAAGCTGAACCGCCGTACGGTGCAGCGGGAAGACGGATCGTCCACCCGCCCGGATGCTCCGAATACGGCCCGGCGCGACCAGACGTCGGCAAGAGCGGCCGCGTAA	MSYFSKLGLDASAVLDALSRSQAIIEFDLTGKILKANDNFCKAVGYQQSEIVGRTHSMFLSPEDAASPEYKSFWARLSRGEYDQGQYRRRARNGDEIWIEASYNPVFRFGKPYKVVKIATDITSIKRKSAEDDGKLAALSHAQAIIEFTPEGKILSANENFLATLGYTAEDIIGKHHSMFCEPAYAQSQDYRDFWKELGKGHFSTGQFMRLRKDGKRVFIQASYNPIIDDRGRVFKVVKFAFDVTDRMHAVEELGAALERLSQCNIRITLDKPFVGEFERLRHDFNKSIAEFQKTLENVLGQTGDLTRSSQEVSEASVNLAERSREQAVALEETSAALEEITATVRSSTENMQETRKLVQSARTSTVASTEVVERTVDAMQRIETASREISQIIGVIDEIAFQTNLLALNAGVEAARAGDAGKGFAVVAQEVRELAQRSANAAKEIKALINNSGTEVLEGVRLVGETGEALKQIDALVRHIDGNVDMIAKAADEQAVGISEINKAVSRLDRMTQENAAMSARTTVISTTLAQGADALAQLVSLFKLNRRTVQREDGSSTRPDAPNTARRDQTSARAAA	PGPT0015710_14761	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_08152	1254	dadA1_7	COG0665	D-amino acid dehydrogenase 1	ATGACCAAAACCCTGAAATGCGATGTGCTGGTGATCGGCACCGGCATTATCGGTTCCATGGCGGCGCTTTATCTGCAGAATGCCGGACGCGAGGTGGTGCTGCTGGAACGCGGCGAGGTTGCCCGGGGCGCGAGTTCCGGCAATGCCGGCATTCTGGCCTTCCCCGAAATCATCCCCATTCCCGCTCCCGGCATCATGAAAAAAGCGCCGCGGTGGCTGTTCGATCCGCTCGGCCCGCTCAGTGTGCCGCCCGCCTATGCGGCGAAGATCGCACCCTGGCTGTGGCGTTTCTGGCGCGCGAGCGCCGAGCGCAACTTTCGCCATGGGCTGAAGTCACTCACCGACATCAACCGGCTGGCTGCCATGGAAATGGCCCATGTCGCGGCGATGCCGGAACTTTCGCACCTCGTTTCGAAAACCGGCACGCTCGATCTTTATGACAGCGAGGCAAGTCTCAATGCCGCCCGCAGGGACTGGGACGAAAAGGAAAGCGCCGGCTTCACCTTTCAGCGCGTCGGCCGCCCCGAAATCGAGGAACTGCAGCCGGGTCTCGCGCCGCAGTTCCGCCATGCCATGTTTTCGCCGGATGGCCTGCAGGTCTCCGACCCTTACGATTTCACCCGCGCCATTTTCGATCTGGTAATCACCCGCGGCGCCAGCCTGCGCAAAGGCGAGGCCGAACGCATCGATGCCGTCGGCGAAAGTACGATCGTGACGCTGGAAAATGGCGACAAGATCGATGCCGACAAAGTAGTGATCGCCGGTGGCGCCTGGTCGAGAAAACTTGCCGCGACGCTTGGCAACATCGTGCCGCTGGAAACCGAACGTGGTTACAACACCACGCTTTCCCCCGAGGCTTTCAACCTTACACGCCAGCTTTATTTCAACGACCATGGCTTCGTCGTTACCCCGCTATCGACGGGCATCCGCATTGGCGGCGCGGTCGAACTCGGCGGGCTGGAACTGAAGCCGAATTTCCGCCGTGCGGAAGCCATGCTGAAGAAAGCAGGACGTTTCCTGCCCGGCCTCAAACTGGAAGGCGGGAAACAATGGATGGGGTTCCGCCCGTCCATGCCGGACTGTCTTCCCGTCATCGGCACGGCACGCGCCACGCCCTCCGTCATCTATGCCTTCGGCCATGGCCATCTGGGGCTGACACAATCGGCAGCAACCGCCCGTCTGGTGACGCAACTGGCCAGCGGCGAGGAGACGGAAATCTCGGTCGATCCTTTCCGGCCGGGACGTTTTTCCTGA	MTKTLKCDVLVIGTGIIGSMAALYLQNAGREVVLLERGEVARGASSGNAGILAFPEIIPIPAPGIMKKAPRWLFDPLGPLSVPPAYAAKIAPWLWRFWRASAERNFRHGLKSLTDINRLAAMEMAHVAAMPELSHLVSKTGTLDLYDSEASLNAARRDWDEKESAGFTFQRVGRPEIEELQPGLAPQFRHAMFSPDGLQVSDPYDFTRAIFDLVITRGASLRKGEAERIDAVGESTIVTLENGDKIDADKVVIAGGAWSRKLAATLGNIVPLETERGYNTTLSPEAFNLTRQLYFNDHGFVVTPLSTGIRIGGAVELGGLELKPNFRRAEAMLKKAGRFLPGLKLEGGKQWMGFRPSMPDCLPVIGTARATPSVIYAFGHGHLGLTQSAATARLVTQLASGEETEISVDPFRPGRFS	PGPT0020315_2305	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_D-AMINO_ACID_DEGRADATION,PGPT0020315-dadA-K00285	NA	NA
BMS010_08153	534			hypothetical protein	ATGAAGCGTCTGCTATATTGTCTGTTTCTGCTGGTGGCGATTGCGCATCCCGCTTTGTCACGCGATCTCTCACCTGCCGAGCAGGATAGTCTTCGCACACAGATAGAGCGATTTCAGACGGCTTTGAGCGCACAGGATTTCGATGTCGTCGGCAAGACGGTGCCGCCGAAAATCTTTGAATTCATCGCAGGCGAAGCGGGTATTACCGTGGAGCAATTGCGCGGCGCTTTGACCGCGCAGATGCAGATGGCGCTCGCGGCCGTCAAGATAACCGAATTCACCATGGATACGCAGGCGATCAGCCTTGCGCAAACGCCTGACGGAACGCCCTATGCGCTTGTTCCGACGAAAACGGTCATGGAAACTGGCGGCCAGACGATCGAGGCGAAATCCCACACGCTGGCGCTGATGGACGGTGCCGACTGGTATTTGCTGCGGGTGAGCGACCAGCAGCAGGTCACGATCCTGCGCAAGGTCTATCCGTCCTTCGCCGAAGTGGTGTTTCCCGACGATTCCATGCAGCCGGTGAAATAG	MKRLLYCLFLLVAIAHPALSRDLSPAEQDSLRTQIERFQTALSAQDFDVVGKTVPPKIFEFIAGEAGITVEQLRGALTAQMQMALAAVKITEFTMDTQAISLAQTPDGTPYALVPTKTVMETGGQTIEAKSHTLALMDGADWYLLRVSDQQQVTILRKVYPSFAEVVFPDDSMQPVK				NA	NA	NA	NA	NA
BMS010_08154	225			hypothetical protein	ATGAGCGAACACCACACGGGTCCTGTCGAAGTCGGCGCCGAGATGAACTACGCCGAGCACGAAAAGACCTATAACGGTTTTCTGGCCTTGACGAAGTACGGCACCATGATGCTGTGCGTGCTGATGCTGGCCATGGTCGCGGGTTTCTTCACCACCGCCGGCTTCCTTGGCGGTCTGGTCGTCTTCGTCGTGCTGTCGGCTGCGGGTTTCTTTTTGCTGCGCTGA	MSEHHTGPVEVGAEMNYAEHEKTYNGFLALTKYGTMMLCVLMLAMVAGFFTTAGFLGGLVVFVVLSAAGFFLLR				NA	NA	NA	NA	NA
BMS010_08155	540			hypothetical protein	ATGAAATCGCTTTTAAAACTAAGTGCGCTGATAGACCTTGCAAGCGAAGCTCTGGGCAAGGTTGCCGGTTATCTCGTGCTCATCTGCTGCCTCGTCAGCGCCGGCAACGCCATGGTCCGTTACGCCCTGAACTACAGTTCAAACGGCTGGCTGGAAATCCAGTGGTACATGTTCGCTTTCATCGTGCTGATCGGCGCATCCTACACGCTGCGCATGAATGAACATGTGCGAGTGGACATCATTTATGGCGCGATTTCACCGCGCAGCCGCATCTGGGTGGACATTATCGGCATCGTGCTGTTCCTGCTTCCCGGCTGCTTTTACCTCGCCTGGCTTTCCTGGCCCATGTTCACGCTATCCTGGCATCAGAGCGAAATGTCCTCCAATGCCGGCGGCCTCATTCGCTGGCCGGTGAAATTCATCATCTTCGCCGGTTTCGCCCTTCTGGTTCTTCAGGGTTTTTCCGAACTCATCAAGCGCATAGGCGCCCTCAACGGGCTTTATGCGCTCGATACGAAGTACGAAAAACCCCTGCAATGA	MKSLLKLSALIDLASEALGKVAGYLVLICCLVSAGNAMVRYALNYSSNGWLEIQWYMFAFIVLIGASYTLRMNEHVRVDIIYGAISPRSRIWVDIIGIVLFLLPGCFYLAWLSWPMFTLSWHQSEMSSNAGGLIRWPVKFIIFAGFALLVLQGFSELIKRIGALNGLYALDTKYEKPLQ				NA	NA	NA	NA	NA
BMS010_08156	1470	dctM_6	COG1593	C4-dicarboxylate TRAP transporter large permease protein DctM	ATGTTCGAATATGGTATTCTTCCGCCACTGATGTTCCTCGGCATGATCATCTTCATGCTTTACGGATTTCCGGTTGCTTTCTCGCTCGCCACCGTCGGTCTCGTTTTCGGCGTCATCGGCATCTTCACGGAGCATTTTTCGCCGGCCTTTCTTCAGGCCCTGCCGCTGCGCATCTTCGGCATCGTCTCGAACGACCTTCTGCTGGCCATCCCCTTCTTCACCTTCATGGGCGCGATCCTCGAGCGATGCGGGCTTGCGGAGGATCTGCTTGAAGGGACGGGCAAGCTGTTCGGCGCCATTCCCGGCGGTCTCGCTTATGCCGTCATCATCGTCGGCGCGATCCTTGGCGCGATTACCGGCACGGTTGCCGCCTCGGTCATCACCATGGGCGTCATCTCGCTGCCGATCATGCTGAAATATGGTTATAACCCGCGACTTGCCACCGGCGTCATCGCCGCATCGGGAACGATCACGCAGGTCATCCCGCCTTCGCTGGTGCTGATCGTGCTTGCCGACCAGCTCGGCAAATCCGTTGGCGACATGTATCTTGGCGCCATCGGCCCTTCGATCCTGCAGGTCGCCATCTTCATGCTCTTCATCCTGTTCATGTCGGTCGTGCGGCCGAAGGACCTGCCGGCGCTGCCGCCGGAAGCGCGGGGAGAACTCAACCGGGCGCTGGTGTTCCGCGTGCTGGCGGGCATGATCCCCTCTATCGTGCTGATCTTCCTCGTGCTCGGCACCATCTTCCTCGGCCTCGCAACACCCACCGAAGCCGGTGCGCTCGGGGTCGTGGGCGCCATGGCGCTGGCCGCCGCGCACCGCCGCCTCACCTGGGACCTCATCAAGCAGGGCATGCATTCCACCATGCATATCACCTCCATGGTGGTGTTCATTCTGGTCGGCGCCACCTGCTTCTCCCTCGTCTTTCAGGGCATGGACGGTTCGCTCTGGATCGAGCATATGCTGTCGGGCATTCCCGGCGGCCCCATCGGCTTCCTGATCTTCGTCAACATCTTCATCTTCTTCCTCGCCTTCTTCCTCGATTTCTTCGAAATCGCCTTCATCGTCATTCCGATGCTGGCGCCGATCGCCCAGTCGCTCGGCATCGATCTGATCTGGTTCGGCGTTCTGATCTGCATCAACATGCAGACGAGCTTCATGCATCCGCCCTTCGGATTTGCGCTGTTCTACCTGCGCTCCATCGCGCCGCGCACGGTCAAGACATCGGATATCTACATGGGCGCCATCCCATGGCTCGGCATGCAGCTCATCCTCGTCGCCATCGTGATCTTCTGGCCGGAATCCGTCACCTACTGGCTGGACAAGGCGCCCGAAGTCGATCTGAATTCCATCAAGATCGAAGTGCCCGCCTTCGGCAATCAGGGTGGCAACACCATGCCCAATTTCGGCCAGCCGGGTGGATTGCCGGGCATGCCGAATCTTGGCGAGCCCCCGAAGATCGGGCCCTGA	MFEYGILPPLMFLGMIIFMLYGFPVAFSLATVGLVFGVIGIFTEHFSPAFLQALPLRIFGIVSNDLLLAIPFFTFMGAILERCGLAEDLLEGTGKLFGAIPGGLAYAVIIVGAILGAITGTVAASVITMGVISLPIMLKYGYNPRLATGVIAASGTITQVIPPSLVLIVLADQLGKSVGDMYLGAIGPSILQVAIFMLFILFMSVVRPKDLPALPPEARGELNRALVFRVLAGMIPSIVLIFLVLGTIFLGLATPTEAGALGVVGAMALAAAHRRLTWDLIKQGMHSTMHITSMVVFILVGATCFSLVFQGMDGSLWIEHMLSGIPGGPIGFLIFVNIFIFFLAFFLDFFEIAFIVIPMLAPIAQSLGIDLIWFGVLICINMQTSFMHPPFGFALFYLRSIAPRTVKTSDIYMGAIPWLGMQLILVAIVIFWPESVTYWLDKAPEVDLNSIKIEVPAFGNQGGNTMPNFGQPGGLPGMPNLGEPPKIGP				NA	NA	NA	NA	NA
BMS010_08157	1098	takP_3	COG4663	Alpha-keto acid-binding periplasmic protein TakP	ATGGATCGCCGTTCCTTTATGAAAAAAGGTGCGCTTGCGGGAGCTGCCACGGCAGCGCTGGCCGCGCCCGCCATTGCACAGCAGAATACCAAGATCAACTGGCGCCTGACGTCGTCATTTCCGAAATCGCTCGACACGATCTATGGCGGCGCGGAAGATATTGCCAAGCATGTCGCCGCCGCAACCGACGGCAATTTCACCATCCAGCCCTTTGCCGCCGGTGAAATCGTGCCCGGCCTGCAGGCAGCCGATGCCGTATCATCCGGCACGGTGGAAATGTGCCACACCTGCTCCTATTATTACGTCGGCAAGGATCCGACCTTCGCTATCGGCACGGCAATACCTTTCGGCCTCAATGCCCGCCTGACCAATTCATGGTTCTATGAAGGCAACGGCAACAAGCTGCTCAACGAGTTTTATGCCAAGCATAATCTCTACGGCATGATTTCGGGCAATACCGGTGCGCAGATGGGCGGCTGGTTCCGCAAGGAAATCAATACCGTCGACGATTTCAAGGGCGTGAAGATGCGCATCGCCGGTCTGGCCGGCAAGGTGGTGGAAAAGCTCGGCGTGGTGCCGCAGCAGATCGCCGGCGGCGATATCTATCCGGCGCTGGAAAAAGGCACCATCGACGCGGCGGAATGGGTCGGCCCTTACGACGACCACAAGCTCGGTTTCCAGAAGGTGGCGAAATATTACTATTACCCCGCTTTCTGGGAAGGTGGCCCGGTCATCCATTCCTTCGTCAATCTGGAGAAGTGGAACAGCCTGCCGAAAAACTACCAGACGGCGCTGCAGGACGCCTGCGCTTTCGCCAACACCAGCATGATGGCGAAATACGACGCGAAAAACCCGATCGCCATCAAGCAGCTCGTCTCTGAAGGTGCGGTGCTGAGGCCGTTCAGCCAGGAAATCCTCGAGGCCTGCTACAAGGCCGCGCTGGAAGTCTATGCCAATATTTCGGCCTCCAATCCGGACTTCAAGAAGATCTACGAGGATCAGGTCGCCTTCAAGCGCGAAGGTTATCTGTGGATGCAGCTTGCGGAATACACGTTCGATACTTTCATGATGATCCAGCAGCGTAACGGCAAGCTCTGA	MDRRSFMKKGALAGAATAALAAPAIAQQNTKINWRLTSSFPKSLDTIYGGAEDIAKHVAAATDGNFTIQPFAAGEIVPGLQAADAVSSGTVEMCHTCSYYYVGKDPTFAIGTAIPFGLNARLTNSWFYEGNGNKLLNEFYAKHNLYGMISGNTGAQMGGWFRKEINTVDDFKGVKMRIAGLAGKVVEKLGVVPQQIAGGDIYPALEKGTIDAAEWVGPYDDHKLGFQKVAKYYYYPAFWEGGPVIHSFVNLEKWNSLPKNYQTALQDACAFANTSMMAKYDAKNPIAIKQLVSEGAVLRPFSQEILEACYKAALEVYANISASNPDFKKIYEDQVAFKREGYLWMQLAEYTFDTFMMIQQRNGKL				NA	NA	NA	NA	NA
BMS010_08158	756	puuD_3	COG2071	Gamma-glutamyl-gamma-aminobutyrate hydrolase PuuD	ATGCCAAAACCCATTATCGCCGTTCCCGCCGACATCCGGCATTTCACCGGAGCCGACTGGCACGCCGCGCAGAACCAGTATGTTTCCGCCGCGCTGAAAGTGGCTGGTGTCATGTCCTTCATCGTCCCGGCCTTCGAAGACGGGAACGAGGTCGACGCCATTCTCGACCGGGTGGACGGCCTGCTCGTGTCCGGCTCCGCCACCAATGTGCATCCTGCCCTTTACGGAAAAGAGGCGCAGGAAAGCGACGGCCCGTTCGATCAGGCCCGCGACGCCACCAGCCTGCCGCTCATCCGCCGCGCCATCGAACGCGGCATCCCGATGCTGGCCATCTGCCGCGGCATTCAGGAGCTGAACGTCGCGCTGGGCGGTACGCTTGCTTCCGAAATTCAGGAACAGCCCGGCATATGGGACCATCGCAAGCCGGAACATGACGACCGCGACGTGGCCTTCGCCATCCGCCAGCCGGTGCATGTGCGCGAAGGCTCCTGCATCGCGCAGCATCTCGGCATGTCGGGCGAAATCCAGATAAATTCGCTGCACCGGCAGGCAATCGCCGAGACCGCGCCACGCCTGCAGGTGGAGGCAACGGCGGCGGACGGCACCATCGAGGCCGTTTCAGTCATCGACGCCAATGGATTTGCCGTCGGGGTGCAATGGCATCCGGAATATTGGGCTGAGACGGACGCCCCGTCGCGCGCTTTGTTCGAAGCCTTCGGCAAGGCCGTCCACGACTATCGGAACAGCAAGGCATGA	MPKPIIAVPADIRHFTGADWHAAQNQYVSAALKVAGVMSFIVPAFEDGNEVDAILDRVDGLLVSGSATNVHPALYGKEAQESDGPFDQARDATSLPLIRRAIERGIPMLAICRGIQELNVALGGTLASEIQEQPGIWDHRKPEHDDRDVAFAIRQPVHVREGSCIAQHLGMSGEIQINSLHRQAIAETAPRLQVEATAADGTIEAVSVIDANGFAVGVQWHPEYWAETDAPSRALFEAFGKAVHDYRNSKA	PGPT0007640_50	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007640-puuD-K09473	NA	NA
BMS010_08159	1032	rbsC_10	COG1172	Ribose import permease protein RbsC	ATGAATACGAACGCCGCCGCCAACACAGAGTTGGACGCAAAATCCGGACGCAAGCCGCACCGGCGCATCCCGCCGGAGGCCAATATCTTTTTCGTGCTGATCGGCATCGCGCTGGTTTATGAAATTCTCGGCTGGATTTTCATCGGCCAGAGCTTCCTGATGAACCAGCAGCGCCTGACGATCATGATCCTGCAGGTCTCGGTGATCGGCATCATCGCGGTTGGTGTCACGCAGGTCATCATCACCGGCGGTATCGATCTCTCTTCCGGTTCCGTCGTCGGCCTGACAGCGATGCTGTCCGCCAGCGTGGCGCAATCGTCCACATGGCCGCGGGCGCTTTATCCGGGGTTGACCGATCTGCCCTTCTTCATACCGCTGGCCGTCGGCATATTGGCTGGCGCCCTTGCGGGCTTCATCAACGGGCAACTCATCGCCCGCACCAAAATTCCGCCCTTCATCGCAACGCTTGGCATGATGGTGACGGCGCGTGGTCTTTCCAAGTGGTATACGAAGGGTCAGCCGATCTCTGGTCTGACGGACGGTTTCAACTTCATCGGCACGGGCATCTGGCCGGTCGTAGTGTTCCTCGTCGTCGCCGTCATCTTCCACGTGGCGCTGCGTTACACCCGCTACGGCAAGTTTACCTATGCCATCGGCGCCAACCAGCAGGCGGCACGCGTGTCCGGTATCAATATCGAGGCGCATCTGATCAAGGTCTATGCCATCGCTGGCCTGCTCGCCGGTCTCGCCGGTGTCGTCACCGCCGCCCGCGCACAGACGGCGCAGGCCGGCATGGGCGTGATGTATGAACTCGACGCCATCGCCGCAGCCGTCATCGGCGGCACATCGCTCGCCGGCGGTGCCGGCCGCATCACCGGAACGGTGATCGGCACCATCATCCTCGGTGTCATGACGTCGGGCTTCACCTTCCTCCGGGTGGACGCCTATTACCAGGAAATCGTCAAGGGCCTGATCATCGTGGCCGCGGTCGTTGCCGACGTCTACCGACAGAAGAAACGCGCAAAGCGCTAA	MNTNAAANTELDAKSGRKPHRRIPPEANIFFVLIGIALVYEILGWIFIGQSFLMNQQRLTIMILQVSVIGIIAVGVTQVIITGGIDLSSGSVVGLTAMLSASVAQSSTWPRALYPGLTDLPFFIPLAVGILAGALAGFINGQLIARTKIPPFIATLGMMVTARGLSKWYTKGQPISGLTDGFNFIGTGIWPVVVFLVVAVIFHVALRYTRYGKFTYAIGANQQAARVSGINIEAHLIKVYAIAGLLAGLAGVVTAARAQTAQAGMGVMYELDAIAAAVIGGTSLAGGAGRITGTVIGTIILGVMTSGFTFLRVDAYYQEIVKGLIIVAAVVADVYRQKKRAKR	PGPT0016800_90	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_lNOSITOL_TRANSPORT_1,PGPT0016800-rbsC|mglC-K17214	NA	NA
BMS010_08160	1542	mglA_7	COG1129	Galactose/methyl galactoside import ATP-binding protein MglA	ATGGTCGTCAGTCCATCGACAATGGCCGCCGTGCGCGCCAGCGGAGCCGTGCCGAATGCGGAGTATCTTCTCGCGGCGGAAGGCATACGCAAGGAATTTCCCGGCGTCGTGGCGCTTGATGATGTGCAGTTCAAGCTGAAGCGCGGCACCGTGCATGCGCTGATGGGCGAGAATGGCGCCGGAAAATCGACGCTGATGAAAATCCTGGCCGGCATCTACCAGCCGGACAGTGGCGAAATTCGCCTGAAAGGCGCCGACATACGTCTCGATTCCCCGCTCGATGCGCTGGAAAACGGCATTGCCATGATCCATCAGGAACTGAACCTGATGGCGTATATGACGGTGGCGGAAAACATCTGGATACGCCGCGAGCCGAAGAACCGGCTGGGTCTCATCGACCATGGCGAAATGTATCGCCGCACCGAAACGCTGCTGGAAAGGCTGGGCATCGATCTTGATCCGGAAACCCGCGTCGGCGAGCTTTCGGTGGCAAGTCGCCAGATGGTCGAGATCGCCAAGGCGGTTTCCTATGATTCCGACGTTCTCATCATGGACGAGCCGACATCCGCACTGACGGAGCGCGAGGTCGAGCATCTCTTTCGCATCATCCGCGATCTCCGGGAACGCGGTATCGGTATCGTCTACATCACCCACAAGATGAACGAGCTGTTCGAGATCGCCGATGAATTTTCGGTTTTCCGCGACGGCAAATATATCGGCACCCACGCCTCGACCGATGTAACGCGTGACGACATCATCCGCATGATGGTGGGCCGCGAAATAACCCAGATGTTTCCGAAGGAAGAGGTTCCGATCGGCGACGTGGTGCTTTCGGTCAAGAATCTCACGCTCGACGGCGTTTTCCACGACGTTTCCTTCGAGGTGCGCGCCGGCGAAATTCTCGGCGTTGCCGGCCTTGTCGGATCGGGCCGCTCCAATGTGGCGGAAACGGTGTTCGGTGTAACGCCCGCATCCTCGGGCACGATTGCAATCGACGGCAAGCCGGTTTCGATCGACAGCCCGACGAAGGCCATCAGTCACCGTATGGCGTTCCTGACGGAGGATCGCAAGGACACGGGGTGCCTGCTGATCCTGAATATTCTGGAGAACATGCAGATCGCTGTCCTGCAGGACAAATATGTCGCCAATGGCTTCGTGCAGGAAAATGCGCTGTCGGATGCCTGCGAGGAGATGTGCCGCAAGCTCCGGGTCAAGACGCCGCATCTTTACGAGCGCATCGAGAATCTCTCGGGCGGGAACCAGCAAAAGGTGCTGATCGGCCGCTGGATGCTGACGAAGCCGCGTATTCTCATTCTGGATGAGCCGACACGCGGCATCGATGTCGGGGCCAAGGCGGAAATTCACAAGCTGGTTTGCGAAATGGCGCGCCAGGGCGTCGCCGTCATCATGATTTCCTCCGAAATGCCGGAGGTTCTGGGTATGAGCGACCGTGTCATGGTCATGCATGAAGGTCGGGTGACGGGCTTCCTCGATAGAAGTGAAGCCACGCAGGTTAAAGTGATGGATCTCGCATCGCGGTGA	MVVSPSTMAAVRASGAVPNAEYLLAAEGIRKEFPGVVALDDVQFKLKRGTVHALMGENGAGKSTLMKILAGIYQPDSGEIRLKGADIRLDSPLDALENGIAMIHQELNLMAYMTVAENIWIRREPKNRLGLIDHGEMYRRTETLLERLGIDLDPETRVGELSVASRQMVEIAKAVSYDSDVLIMDEPTSALTEREVEHLFRIIRDLRERGIGIVYITHKMNELFEIADEFSVFRDGKYIGTHASTDVTRDDIIRMMVGREITQMFPKEEVPIGDVVLSVKNLTLDGVFHDVSFEVRAGEILGVAGLVGSGRSNVAETVFGVTPASSGTIAIDGKPVSIDSPTKAISHRMAFLTEDRKDTGCLLILNILENMQIAVLQDKYVANGFVQENALSDACEEMCRKLRVKTPHLYERIENLSGGNQQKVLIGRWMLTKPRILILDEPTRGIDVGAKAEIHKLVCEMARQGVAVIMISSEMPEVLGMSDRVMVMHEGRVTGFLDRSEATQVKVMDLASR	PGPT0016795_122	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_lNOSITOL_TRANSPORT_1,PGPT0016795-rbsA|mglA-K17215	NA	NA
BMS010_08161	930	xypA	COG1879	Xylitol-binding protein	ATGAAGAAATTTATCATCGGCGCAGCCATGTCTGTGCTTCTGGGCACGGCGGCGCATGCGGAGACCGTAGGTGTCTCGATGGCGCTGTTCGACGACAACTTCCTGACCGTGCTGCGCAACGGCATGCAGGATTATTCCAAGGAACTGAAGGGCGTGACCCTGCAGGTCGAGGACGCCCAGAACGACGTCGCCAAGCAGCAGAGCCAGATCCAGAATTTCATCGCGTCCAAGGTCGACGCGATCATCGTCAACCCGGTTGATACGGATGCGACGGCGGCCATGTCGAAGCTCGCCGCCGACGCCAAGATTCCGCTGGTTTACGTCAACCGCCAGCCGGTGAACGTCGATAGCCTGCCGGACGGCCAGGCATTCGTCGCCTCCGACGAGACGGTGGCCGGCACGCTTGAAGCGAAAGAAGTTTGCCGCCTTCTCGGTGGCAAGGGCAATGCGGTCATCATGATGGGTGAGCTTTCCAACCAGGCGGCACGCATGCGCACGCAGTCTGCCAAGGACGTTCTGAAGACCGACGAATGCAAGGGCATTTCGGTTGTTGAAGAGCAGACCGCGAACTGGCAGCGCACGCAGGGTTCCGACCTCGTGACCAACTGGCTCTCCAGCGGTATCGAATTCAATGCCGTCATCGCCAACAACGATGAAATGGCGATTGGCGCGATCCAGGCCCTGAAGGCCGCAGGCAAGGACATGAAGAGCTATGTCGTCGCCGGCGTTGACGCCACGCAGGACGCCCTTGCCGCGATGCAGGCGGGCGATCTGGATGTGACGGTCTTCCAGGATGCGGCAGGGCAGGGCAAGGGCGCTCTCGATGCTGCGCTGAAGCTCGTCAAGGGCGACAAGGTGGAGAAGAAGGTCTACATTCCTTTCCAGCTCGTCACGCCTGAAAACGTCAAGGACTACGTGGCCAAGAACTAA	MKKFIIGAAMSVLLGTAAHAETVGVSMALFDDNFLTVLRNGMQDYSKELKGVTLQVEDAQNDVAKQQSQIQNFIASKVDAIIVNPVDTDATAAMSKLAADAKIPLVYVNRQPVNVDSLPDGQAFVASDETVAGTLEAKEVCRLLGGKGNAVIMMGELSNQAARMRTQSAKDVLKTDECKGISVVEEQTANWQRTQGSDLVTNWLSSGIEFNAVIANNDEMAIGAIQALKAAGKDMKSYVVAGVDATQDALAAMQAGDLDVTVFQDAAGQGKGALDAALKLVKGDKVEKKVYIPFQLVTPENVKDYVAKN	PGPT0016780_372	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_TRANSPORT,PGPT0016780-rbsB|mocB|mglB-K17213	NA	NA
BMS010_08162	159			hypothetical protein	ATGAGCGCGCTAAGCGAAAAGATGAGACCCGCCGGTGGCTTTGCCAATGGCGGGGTCCGCGGGTCCGGCATTGAAAACGGACCTTCCGCCATATTCTTCGTGATCCTCTGTTTCGGCCCGCGCATCCATGATTTCAACGGCTTATCGATCCCCGCCTGA	MSALSEKMRPAGGFANGGVRGSGIENGPSAIFFVILCFGPRIHDFNGLSIPA				NA	NA	NA	NA	NA
BMS010_08163	1443	abgB	COG1473	p-aminobenzoyl-glutamate hydrolase subunit B	ATGAACCGTGACGCCGTGATGTCGATTGCCGCCGAAGTCGAGGCCATGAAGCCCGACTTCACCACCCTAAGCGACAGCATTTGGGATTTTGCCGAACTTAAGTTTGAAGAACGGCAATCTGCCGGCGTTCTGGCGGGCGCGCTCGAGGGCAACGGCTTTGCGGTTCGCCGCGGCATGGCAGGCATGGAAACGGCCTTCATCGGCGAATTCGGCAGCGGCAAGCCGGTCATCGCTTTTCTCGGTGAATTCGATGCGCTGGCCGGCATGAGCCAGGTGGCCGATGTGGCTGAGGTGCAGCCGCGTGAGGTGGGCGCCACCGGCCATGGCTGCGGCCACAACCTGCTCGGCGTCGGCTCATTGATGGCCGCTATTGCGCTCGCCCGGCATCTGAAAGCCAATAATCTGCACGGCACCGTACGCTATTACGGTTGCCCCGGCGAGGAGGGCGGTTCCGGCAAGACCTTCATGGTGCGCGCCGGCCTGTTCGACGATGTCGATGCGGCTTTGACGTGGCACCCCGCGCCCTTCAACGGCGTGCGCTCCACCAATAACCTGGCCGTGCTGGAATATTTTTACCGTTTCAAGGGTGTCGCGGCTCATGCCTCCAACGCTGCCCATCTGGGGCGCTCGGCGCTCGATGCCGTCGAACTGATGAATGTCGGCGTCAATTTCCTACGCGAACACATGCCGCAGGATTGTCGGGTGCATTACGCAATCACCGATACCGGCGGCAAGGCGGCGAATGTGGTGCAGGCCAGGGCAGAAGTGCTCTATCTGATCCGAGCCCCGGAAATGCGCCAGGCGCTCGATCTTGCCGCGCGGGTGGACAAGGTGGCGCGAGGCGCGGCGATGATGACCGAAACAGAGGTGGAAATCGTCTTCGATACCGCCTCCACCAATCTCCTGCCCAACATCACGCTGGAAACGGCGATGCATGAAAACATGGTGGCGCTTGGCCCCATCGCCTTCGACGAGGCGGATATCGCGTTTGCCAAACGCATTCAGGACACTTTCACCGACGAGGCGATCAAAAGCAGCATCCGGCTCTACCAGATCAAGGGCGATGTCTTTTCCAACCGGAAGATCGACGGGTCGACACCCCTGCATATCGGTCTGCGCGATTTCGAGGGCCAGTCGCATTTCCGGGCGGGCTCCACCGATGTCGGTGATGTCAGCTGGGTGACGCCAACCGCGCAGTGCTGGACGCCCGCCTGGGCGATCGGCACCAATCCGCATACCTGGCAGGTGGTTGCGCAGGGCAAAAGCCCTGCCGCTCACAAGGCCATGGCCCATGCCGCCAAAACACTCGCATCGACCGGCTTTGCGCTGATGACCTCGCCGGAACTGCTCGCGAATGCTAAAAGGGAATGGCAGGAAAAAACCGAGGGCAGCAAATATGTCTGCCCGATTCCCGCCGATGTCATGCCCGGTTCCCATCGATAG	MNRDAVMSIAAEVEAMKPDFTTLSDSIWDFAELKFEERQSAGVLAGALEGNGFAVRRGMAGMETAFIGEFGSGKPVIAFLGEFDALAGMSQVADVAEVQPREVGATGHGCGHNLLGVGSLMAAIALARHLKANNLHGTVRYYGCPGEEGGSGKTFMVRAGLFDDVDAALTWHPAPFNGVRSTNNLAVLEYFYRFKGVAAHASNAAHLGRSALDAVELMNVGVNFLREHMPQDCRVHYAITDTGGKAANVVQARAEVLYLIRAPEMRQALDLAARVDKVARGAAMMTETEVEIVFDTASTNLLPNITLETAMHENMVALGPIAFDEADIAFAKRIQDTFTDEAIKSSIRLYQIKGDVFSNRKIDGSTPLHIGLRDFEGQSHFRAGSTDVGDVSWVTPTAQCWTPAWAIGTNPHTWQVVAQGKSPAAHKAMAHAAKTLASTGFALMTSPELLANAKREWQEKTEGSKYVCPIPADVMPGSHR				NA	NA	NA	NA	NA
BMS010_08164	1545			hypothetical protein	GTGAAAAAACTTCTTCTCGCAGGCGTTGCCCTGCTGGTAACGGCCAATATCGCGGCGGCCCGCGACATCACCATCGCCCAAAGCTCGGATCTTCGCAGCAACAATCCCGGCGTGAACCGCGACGGCAATACGGATGGGGTTATCCTGCACATCGTCGAAGGTCTTGTCGGCTACAACAACGCCGGTGAGGTGAAGCCGCTTCTGGCCGAGAGCGTCGACGTTTCGCCCGATGGCCTGACCTATACGTTCAAGCTGCGCAAGGACGTGAAATTCCACAATGGCAAGCCGCTTACCGCAGAGGACGTCGTCTGGAACTGGACGCGCTACCTGAAGCCGGAAACGAAGTGGACCTGCCTCAACGATTTCGCGGAAGGCGGGGCAGCGCACGTCACCGGCGTCAAGGCCACGGATGCATCCACGGTCGAGATTACCCTCGAAAAACCCTCCGCCGTTTTCCTTGGCCTGATGTCGCGGCCGGAATGCGGTTATACCGGCATGATCTCGCCGGAATCGGTTGCTGCCGATGGCAGTTTCGCCAAGCCCATCGGCACCGGGCCGTTCCAGTGGGACGAGTGGAAGAAAGGAGAATATATCCGCCTCGCCAAATTTGCCGATTATGTTTCGCCGGCAAATGACGGCAAGCCGGACGGCATGGTCGGCTCCAAGCGCCCGCTCGCCGATGGCATCAAGTTCATGGTCATTCCCGATGCTTCGACGGTGAAGGCGGGCCTTGAATCCGGTGTGCTCGATACGGCCGAGATTTCTCCCGATCTCATTCCGGAGTTCAAGACCAATGACAAGATGCAGCTGATCGTTGCCCGCAACAACGGCAAGAACCTGTTCTATATCCAGACCCGCGACAAGGTTCTGAGCAATCCCGGCGTGCGCCGCGCCATGGCGATGGCGCTCGATCTCGATGAGCTGGTCGCTGCCGCGTCGAACGGCACGGGTGAAGCCAACGGCTCGATGGTCTCGCAGGACTCGGTTTATTATGACGAGGCCCAGAAAAAGCGTCCGGCCTATGATGTCGAGGCCGCGAAGAAGGAGCTCGAGGCCGCCGGTTACAAGGGTGAGCCGATCTCCATCATTGCCAACAAGCGCGGCAATGTGCCGAGCTTCCCGGCAGCCGTCATGGCGCAGGCCATGATGCAGCAGGCGGGTCTCAACGTGCAGATCGAGGTGCTGGACTATGCCACCCAGGTGGATCGCCGCCGTTCCGGCAATTATCAGGTGATCTCTCAGTCGGTCGCCCCGCGTCTCGACCCGGCGCTGATGTATGCCTTCTATGTCGGCAACAAGGACAAAAACGCCTCGCTGATGTGGGACGATCCGAAGGCGATAGAACTGATGAAGGCGGCTTATGTCGAAGCCGACCAGACGAAGCGCCAGAAGATTTTCGACGAGTTCCACGAACTGATGCTGAAGGAAATGCCGGGCATCTTCCTTTACGACATGGTCGATGTCTGGGGCGCGACGAAGAAGCTGAAGGGCCAGCCGGTCTGGCAGTCGAACGCCCGCCTCTGGGAAGTCTCGGTCGACAACTGA	MKKLLLAGVALLVTANIAAARDITIAQSSDLRSNNPGVNRDGNTDGVILHIVEGLVGYNNAGEVKPLLAESVDVSPDGLTYTFKLRKDVKFHNGKPLTAEDVVWNWTRYLKPETKWTCLNDFAEGGAAHVTGVKATDASTVEITLEKPSAVFLGLMSRPECGYTGMISPESVAADGSFAKPIGTGPFQWDEWKKGEYIRLAKFADYVSPANDGKPDGMVGSKRPLADGIKFMVIPDASTVKAGLESGVLDTAEISPDLIPEFKTNDKMQLIVARNNGKNLFYIQTRDKVLSNPGVRRAMAMALDLDELVAAASNGTGEANGSMVSQDSVYYDEAQKKRPAYDVEAAKKELEAAGYKGEPISIIANKRGNVPSFPAAVMAQAMMQQAGLNVQIEVLDYATQVDRRRSGNYQVISQSVAPRLDPALMYAFYVGNKDKNASLMWDDPKAIELMKAAYVEADQTKRQKIFDEFHELMLKEMPGIFLYDMVDVWGATKKLKGQPVWQSNARLWEVSVDN	PGPT0004430_15671	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004430-ddpA|ABC_PE_S-K02035	NA	NA
BMS010_08165	843			hypothetical protein	ATGACCGTGGCTGCTCAACTGAATGCGATCTGCGATGCACAGCCTTTCGTGACGCGCTTCATGGTGCGCAATCTCCTGACCGGTGAAGAGATCGGCCGGGGAGAAAACGAGGAGACGCCGTCGGGCAGCACCCGCAAGACGTCGATCATGATGGCTGTGCTGAAAGCCGCCAGCGAAGGGCGGATCGATCTCGACCAGCCCGTCACCTATGAAAAGCGGCTGGCGGAAGAGGTTGCGAGCGGCATGTTCCGTTATATGACGCCAGGCATCGTCATTTCGCTACGCGATGCCGTCGCTGGCATGATGGTGCTGAGCGACAACGTCTGCACCAAGATGGTGCTGGAGAGGCTGACGCTGGAAGAGGTGGACGGCTATTGCAAATCGCTTGGCATGGCCAACACCCATCACCGTTTCCTCATTCCGCCGCTGGCGCTGGCGGCCGACCATCCGCTGAAAACCGTCACCACTACCTCGGCGGCGGATCAGGTGCTTCTGCTGCAGACCATTCTCGATGCGCAATCGTCGCCGGATGCGCAGGCAAAGCTCGGTTGCATCCCGCAATTGTGCGAATGGGCCATGCAGACGCTGAAGAACCAGATTTTGCGGTATGGAATCCGATCCCGCCTGCCCTTCGAGGCTGTGGTGGCCAGCAAGAGCGGTCGCGGCAAGCGCGGGCGCATGGATGCCGGCATCGTCTACAGAAACGGCGCGCCGTCCTTCATCATCACCACTTATACCGACGAGGTGCCGCAGGTGATGCCTGACGGTACGCCGGGATACACCATCGCGCTCGAAACGATCGGCCGGCTGGCACAGGCCTGCTGGGACGGCTTTCACCAATGA	MTVAAQLNAICDAQPFVTRFMVRNLLTGEEIGRGENEETPSGSTRKTSIMMAVLKAASEGRIDLDQPVTYEKRLAEEVASGMFRYMTPGIVISLRDAVAGMMVLSDNVCTKMVLERLTLEEVDGYCKSLGMANTHHRFLIPPLALAADHPLKTVTTTSAADQVLLLQTILDAQSSPDAQAKLGCIPQLCEWAMQTLKNQILRYGIRSRLPFEAVVASKSGRGKRGRMDAGIVYRNGAPSFIITTYTDEVPQVMPDGTPGYTIALETIGRLAQACWDGFHQ	PGPT0028070_2444	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028070-penP-K17836	NA	NA
BMS010_08166	1635	gsiA_10	COG1123	Glutathione import ATP-binding protein GsiA	ATGACGGATAATACACTTCTCACCGTTCGCGGCCTTTCGCTCGAAGTCGCCAGAACCGGCCACCAGGTGGTCAAGGATGTCTCCTTCGATATTGCCGCGGGCGAAATCTTCGGCATCGTCGGCGAAAGCGGGTCGGGCAAGACGCTCGCCACCCGCGCGCTCATCTCGCTTCTGCCACCGGCCATCGCCGTCACCGGCGGGTCGATCATCTACAAGGGGCAGGATGTCATGTCCCTGCCGGTGAAGGAGCTACGGCGTCTGCGCGGCGCGGAGATCGGCGTCGTGTTTCAGGAGCCGATGACCTCCCTAAACCCATCGATGACGATAGGCCGGCAGCTGGAGGAGGGGCTGATCCTTCATACCAAATTGTCGCCGGAGGAGCGCCGCGAGAAAATTCTCGACATGCTGCGCCGGGTCGGCATCCGCGATCCAGAAGGTGCGCTGACGGCCTATCCGCACGAGTTTTCCGGCGGCATGCGCCAGCGCATCATGCTGGCCTCGGTCATGCTGCTGAAACCCGCTTTGCTGATCGCCGATGAGCCGACGACGGCGCTTGACGCGGTCATCCAGCGCGATGTCATGGAACTGATGGTGGAGCTGACGCGGGCGGAAGGCACCGCCGTTCTCCTCATCAGCCACGATCTGCCGATGGTGGCACGTTATACCAGCCGTATCGTGGTGATGGAAAAAGGCGCGATTGTCGAACAGGGCCGCACCGAGGATTTGCTGGACGCGCCGCAGCACCCCTATACGAAAAAACTGCTTTCCTCCCTGCCGTTCCGCGGCGAGCCACGCAATATCGACACCTCCAAGGCGCCAATGGTTTCGGCCCGCGATATCGTCGTCGATTATGCCGGCCGCAAATCTCTGCTGAAGAAGGCCAAACCGAAGCGGGCGCTGCATGGCGTCAGCATCGATATTCATGAGGGCGAGGTCGTGGCGCTCGTCGGCGGTTCAGGTTCCGGCAAGACGACGCTTGGCCGCACCATCGCCGGGCTCGTGCAGGAAAGCGAAGGGCATATCCGCTTTCAGGGCCGCGAGCGCAAGGAGGATTGGAAGGATTATCGCCTCAACTGCCAGATGGTGTTTCAGGATCCCTATTCCTCGCTCGATCCGCGCATGACCATTCAGGCGCTGGTGGAGGAGGCACTGCGCCTCGTGCCGGGTCTCGACCAGGCCGCCAAGCGCAAGCGGGCGCTGGAAACGCTGGAGGAAGTGGGGCTCGGCGCCGACTTTGCCGCTCGCTACCCGCACGAGCTTTCCGGCGGCCAGCGCCAGCGCGTGGCGATTGCCCGCGCCATTGCCCGCCGTCCGCGGTTCCTGATCGCCGACGAGCCGGTCTCGGCGCTCGACGTGACAGTGCGGGCGCAGGTGCTCGATCTCTTTTCCGATCTGCAGAAACGTTACGGCTTTTCCTGCCTGTTCATCAGCCACGATCTCGGCGTGGTCGAGCAGGTGGCCGACCGTGTCGTCGTCATGCAGGACGGCCGCATCATCGAAGAGGGTGACCGCGACACGATTTTCGACAGTCCGAGAGAAGCCTATACGCGCCGGCTGCTCTCGGCCATTCCCGCCCTCGACCAGAATGAAAAGGGCGGCGTGACACTGAAATGGCGTCTGGAAGATGAAGTTTAA	MTDNTLLTVRGLSLEVARTGHQVVKDVSFDIAAGEIFGIVGESGSGKTLATRALISLLPPAIAVTGGSIIYKGQDVMSLPVKELRRLRGAEIGVVFQEPMTSLNPSMTIGRQLEEGLILHTKLSPEERREKILDMLRRVGIRDPEGALTAYPHEFSGGMRQRIMLASVMLLKPALLIADEPTTALDAVIQRDVMELMVELTRAEGTAVLLISHDLPMVARYTSRIVVMEKGAIVEQGRTEDLLDAPQHPYTKKLLSSLPFRGEPRNIDTSKAPMVSARDIVVDYAGRKSLLKKAKPKRALHGVSIDIHEGEVVALVGGSGSGKTTLGRTIAGLVQESEGHIRFQGRERKEDWKDYRLNCQMVFQDPYSSLDPRMTIQALVEEALRLVPGLDQAAKRKRALETLEEVGLGADFAARYPHELSGGQRQRVAIARAIARRPRFLIADEPVSALDVTVRAQVLDLFSDLQKRYGFSCLFISHDLGVVEQVADRVVVMQDGRIIEEGDRDTIFDSPREAYTRRLLSAIPALDQNEKGGVTLKWRLEDEV	PGPT0004435_5061	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004435-ddpD-K02031	NA	NA
BMS010_08167	819	gsiD_6	COG1173	Glutathione transport system permease protein GsiD	ATGAAAAAGTTCACACTTAACGGGCTTATCGGCGGCTTTCTCATCGCCCTCCTGCTCATCACCGCCGCAACCGGTCTGTTCTGGACGCCCTATGACCCGATGAAGCTCGGCTTTGCCTCGCGTCTGGCCGGCCCAAGCGCCAGCCATCTTCTCGGCACCGACGAATTCGGGCGCGATGTTTTGAGCCGCCTGATGGTCGGTGCCCGCGCCAGCGTCTGGATCGGCTTTCTGACGGTCAGCTTCGCAACGATCTGCGGCACGCTGATCGGCCTTGTCAGCGGTTATGCGCGCGGCTGGGTGGATGGCGTCATCATGGCCATCAACAATGCGCTTCTTGCCTTTCCGGGCATTCTGCTAGCGCTCGGCCTGCTCGCGGTTTTCGGCGCAAACCAGTATGGCATCATCTTCGCACTCGGCATCGCCTATACGCCATCCATGGCCCGCGTGGTGCGCGGTGCGGTCCTCTCATTGCGTGAGCGGGAATTCATCGAGGCGTCGCTGGTGATGGGCAATGGTGAGATCTACACCATGTTCCGCCATATCCTGCCCAATTGCATCGCGCCGATCACGGTTCTTGCCACCTCCATGTTCGGCTGGGCCATCCTGTCGGAAAGCGCGCTCTCCTTCCTCGGCCTCGGCGTGCCGCCGCCGGCCCCCACCTGGGGCAACATGCTGGCCGCCGGCCGGCCCTTCATCCAGCAGGCCGTCTGGCTAGGGCTTTTCCCCGGTCTGTGCATCGCGCTGACGCTGCTTGGCATCAATCTTCTGGGAGATGCCCTTCGCGACAGGCTTGACCCGCGCATGAGAGGTCTCAAATGA	MKKFTLNGLIGGFLIALLLITAATGLFWTPYDPMKLGFASRLAGPSASHLLGTDEFGRDVLSRLMVGARASVWIGFLTVSFATICGTLIGLVSGYARGWVDGVIMAINNALLAFPGILLALGLLAVFGANQYGIIFALGIAYTPSMARVVRGAVLSLREREFIEASLVMGNGEIYTMFRHILPNCIAPITVLATSMFGWAILSESALSFLGLGVPPPAPTWGNMLAAGRPFIQQAVWLGLFPGLCIALTLLGINLLGDALRDRLDPRMRGLK	PGPT0004450_14167	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004450-ddpC|appC-K02034	NA	NA
BMS010_08168	915	gsiC_9	COG0601	Glutathione transport system permease protein GsiC	ATGGCGCTGCCGACGATCGCATTCGTGTCGATCACGGTTTTCGCGCTCATCCGCTTCATTCCGGGCGATCCGGCTGCCCTGATGCTGGGCGACATGGCGCAACCGGAACAGATCGAAGCCATGAGGACCGAACTCGGCCTCGACAAATCCATGCCGCAACAGTTCCTCATCTGGGCCGGCAACGTGGTGCAGGGCGATTTCGGCCGCTCCATCGTCAATGATGAGGCGGTGCTGCCGCTGGTCGTCTCGCGCTTTCTTGTCAGCGCCGAGATCGTCGTGGTCGCCGTGCTGCTCGCCAGCCTGATTGCGGTTCCGGCGGGTGTGATCGCCGCCTGGAAACAGAATAGCCTCACCGATCTGGCACTGGTGGGAACGGCGACCCTGCTTCTGTCTATTCCGACATTCTGGCTGGGTCTTCTGCTTCTTCTGTTTTTCGGCCTCAAGCTCGGCTGGCTGCCGGTGCTGGGATATGTGTCGATCAGCGACAGTATTGTCGGTGGCATGCTCTATCTCGTCCTGCCCGTCATGACGCTGGTGATCCATGAAATGGGCGTTCTGATCCGCATGGCGCGCGCCTCGACGCTGGAAGTGCTGCGGCTGGATTACATCACCCACGCTCGCGCCAAGGGCCTTTCGGAAAGCGCCGTTCTCTGGCGGCATGCGTTCAAGAACGCCTTCGGCCCGACATGGACGATGATCGGCCTGATCCTCGGCAATCTCCTCGGCGGCATCGCCGTTATCGAGACGGTGTTCACCATTCCCGGCCTCGGACGGCTGATGGTCGACAGTATTTTCGCCCGCGATTACCCCGTCATTCAGGGATGCCTGCTGTTCGTCTCGCTGTCCTATGTGCTGGTCAACCTCTTCGTCGACCTTCTTTATCCCCTCTTCGATCCGCGTGTGGTTGCCGAATGA	MALPTIAFVSITVFALIRFIPGDPAALMLGDMAQPEQIEAMRTELGLDKSMPQQFLIWAGNVVQGDFGRSIVNDEAVLPLVVSRFLVSAEIVVVAVLLASLIAVPAGVIAAWKQNSLTDLALVGTATLLLSIPTFWLGLLLLLFFGLKLGWLPVLGYVSISDSIVGGMLYLVLPVMTLVIHEMGVLIRMARASTLEVLRLDYITHARAKGLSESAVLWRHAFKNAFGPTWTMIGLILGNLLGGIAVIETVFTIPGLGRLMVDSIFARDYPVIQGCLLFVSLSYVLVNLFVDLLYPLFDPRVVAE	PGPT0004445_11666	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004445-ddpB|appB-K02033	NA	NA
BMS010_08169	906	gltC_3		HTH-type transcriptional regulator GltC	ATGAACATCAAGCAGCTCGAAGTTCTGCGCACGCTTCTTTCCACCGGCTCCACCATCGCCACCGCGAAGGCCATGGGTCTCAGCCAGTCCGGTATCAGCCGGCTTCTGGCGCAGCTTGAGGCGGATTTGTCGCTGACGCTGTTTGCCCGTGACAAGGGGCGACTGATACCGACACCGGAGGCGGTCCTTCTTGCGCGGGATGCGGAAAACGTGCTGCTTGCCGTGGACCGCATGTCCGGCCACGCCGAGGATTTGCGCAATGGCGCAGCCGGTCCGGAAATCGTCCGCATCGGCCTGCCGAGCAGCATGTGGGAAAATTTCGCGCCCGCCATGCTGATCGATTATGTCAGGGATTTTCCCGGCGTTCGCATCGAGACATTTTTCGAAACGACGACCGCCATCAACAAGCTCGTCGGCGAGCGGGTGATCGATCTCGGTTTCCTGCGGATGGAAGGCGAGATCGGGCCGGGCATCGATGTCGAGCGTGTTGCGAGTGGCAAGAGTGTCTGCGTGGTTCGGGAGGATCATCCCTTGGCCAAGCTTGAGGAAATCACCGTCAAGGACCTGCGCAATGTTCCGCTCATCCTGATCGGCCGGCAGCGGCCGAACCGCATGGCGCTCGATCAGGTCTTCAAGAAGGCCGGCGTCAAGCCGATGGTGAAGATCGAGACCCACACCAACAGTTCCGCCTGCGCCTATGTCGCGCATGGGCTGGGGGTCACGATCATCAGCAGTTTTTATGCGAACCTCTACCGGCATCTTCCCGTTGTCGCCCGGCCATTCGTTCCGCAGGCGACGCAGGAATTCGGCCTAGCCCGCGCTTCCGGCGCGCCGCTGTCCATCGCTGCGCAGGCGCTGAGCGATGCCTTGAAGCGGGAAATCCAGCTTTCGCAAAAAATCGACTGA	MNIKQLEVLRTLLSTGSTIATAKAMGLSQSGISRLLAQLEADLSLTLFARDKGRLIPTPEAVLLARDAENVLLAVDRMSGHAEDLRNGAAGPEIVRIGLPSSMWENFAPAMLIDYVRDFPGVRIETFFETTTAINKLVGERVIDLGFLRMEGEIGPGIDVERVASGKSVCVVREDHPLAKLEEITVKDLRNVPLILIGRQRPNRMALDQVFKKAGVKPMVKIETHTNSSACAYVAHGLGVTIISSFYANLYRHLPVVARPFVPQATQEFGLARASGAPLSIAAQALSDALKREIQLSQKID				NA	NA	NA	NA	NA
BMS010_08170	945	iaaA	COG1446	Isoaspartyl peptidase	ATGACGAAGATCGCACTGGCCATTCACGGTGGTTGCGGCGTGATGCCGGAAGACAGCATGACGGCCGGGGAGTGGGCTGCTGCGCGCGACGATCTGGCAGCGGCCCTGCGCGCCGGTTATGGCGTGCTGAAGGCTGGCGGAACCGCGCTTGAAGCGGTTGAGGCGGCGGTCGTCGTCATGGAGGACAGTCCGCATTTCAATGCCGGCCACGGGGCGGCGCTCAACGAAAACGGCATTCACGAACTCGATGCCTCGATCATGGATGGTGAAACGCTGGCGGCGGGTGCGATCAGCGCCTCCCGCGCCATCCGCAACCCGGTAAAGGCGGCCCGCGCGCTGATGGCGGATGAGCGTGCCGTCTATCTGACGGGAGAGGCGGCCGACCGCTTTGCAAAGGAAAAGGGGCTCGCCACCGAGCCGCAATCCTATTTCACCACCCAAAAGCGCCTTGAGGCGCTGGCGGCGATGAAGCGCCATGCCTCCGCCGGTACGGAAGCAACGGAAAACGAAAAGCACGGAACTGTCGGCGCGGTGGCGCTCGATGCGGCGGGCCATCTCGCGGCGGCCACTTCGACCGGCGGTTACACCAACAAGCCGGATGGCCGGGTGGGTGATAGTCCGGTGATCGGGGCCGGCACCTATGCGCGGGATGGGGCCTGCGCCGTTTCCGGCACCGGCAAGGGCGAGTTTTTCATCCGTTATGTCGTCGGCCACGAGATCGCGTCCCGCGTTGCCTATCTCGGGCAGGATCTGGAGACCGCCGCCGGCGATCTCGTCCACAAGGATCTGGCGCCCTACGATATCGGCGCGGGCCTCGTCGCAATTGATGCCGAAGGCGGCATATCCGCGCCGTATAATACACCCGGCATGTTTCGCGGCTGGGTGACGCCATCGGGAGAGGTGCGTGTGGCCACCCATGACACGATCTATGAGGTGGAATTGTAA	MTKIALAIHGGCGVMPEDSMTAGEWAAARDDLAAALRAGYGVLKAGGTALEAVEAAVVVMEDSPHFNAGHGAALNENGIHELDASIMDGETLAAGAISASRAIRNPVKAARALMADERAVYLTGEAADRFAKEKGLATEPQSYFTTQKRLEALAAMKRHASAGTEATENEKHGTVGAVALDAAGHLAAATSTGGYTNKPDGRVGDSPVIGAGTYARDGACAVSGTGKGEFFIRYVVGHEIASRVAYLGQDLETAAGDLVHKDLAPYDIGAGLVAIDAEGGISAPYNTPGMFRGWVTPSGEVRVATHDTIYEVEL	PGPT0020185_1375	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARAGINE_DEGRADATION,PGPT0020185-iaaA-K13051	NA	NA
BMS010_08171	1539			hypothetical protein	ATGAAACGCATCGGTATTGACGTTGGCGGCACCAATACGGATGCCGTTCTGATCGATGGCGACACCATCGTCGCTTCCATCAAGGTCCCGACCACGCAGGATGTCCTGTCCGGCGTAAAGGCGGCGCTTGCCCATGTGGCGGGCCATGTCGGCGCGGCGGATCGGCCGATTGATGCGGTGATGATCGGCACCACCCATTTCACCAATGCGGTGGTGGAGCGCGCCCGACTGGAACGAGTCGCCGCCATCCGCATCGCTCTGCCGACCGGTTCTTCGCTGCCGCCCATGTGCGACTGGCCTGGGGATCTGCGCGATGCGGTCGATCCGCTGATCTTCATGGTGCATGGCGGCCATGAATATGACGGCAGTCCGCTGGTGCCGATGGTTCCCGATGAAATCCGTGAAGCGGCGATGAAAATTCGCGATGCTGGCATCACCTCCATTGCCATTTCTGCAACTTTCTCGCCGCTGACGACGGAGTGCGAGGTGCGGGCGGCGGAAATCGTCCGTTCGGTGATCCCTGATGCACGCATCACGCTTTCCCATACGCTTGGCCGCATCGGGCTTCTGGAGCGGGAAAATGTCGCTCTCCTGAACGCAGCGCTGCAAACGCTCGGCAAGACCACGGTTCAGGCATTTTCGGATGCGCTGCGCGAAGCGGGCGTGAAGGCGCCGTTTTATCTGACCCAGAATGACGGCACCGTTGCGCTTGCGGATGTGGCCGCCGCCAACCCCGTGCACAGCTTCGCTTCCGGCCCGACGAACTCGATGCGCGGTGCGGCCTTCCTCACCGGTCTTTCCGATGCCATGGTGGTGGATGTCGGCGGCACCACCTCCGATATCGGCTGCCTTGTCGGCGGTTTTCCGCGCGAGGCGAACAATATCGTTCATATCGGTGGGGTGCGCACGCTCTTCCGTATGCCCGACCTCCTGCCGATTGCGCTCGGCGGCGGCACCATCGTTGACCCTGAGACGGGCAAGATCGGTCCGCGCTCGGTTGGTTATCGCATTCTGACGGAAGCCCGCGTTTTCGGCGGTGAGACGCTGACGACATCGGATATCGCCGTTGCCGCAGGCTTGATCGAAATGGGTGATCGCGACCGTGTAAAAGACCTCGATCCGGCTTTCGTGCAGGCCACGCTTCAACGCATCCGTGACATGGTGGCCGACAGCTTCGACCAGATGAAGACATCAGCCGAAGACGTACCGTTGGTTGCTGTAGGCGGCGGGGCGTTCCTGATCCCCGAGACGGTTCCGGGTGCGTCGGAAGTGTTGCGTGTGGAAAATGCCGGCGTTGCCAATGCGCTGGGCGCGGCGATGGCGCAGGTTTCCGGCGAGGTCGATCAGGTGTTTTCCGGCCTGAGCCGGGACGAAGCCCTTGCGAAAGCCGAGACCGAGGCGCAGAACGCTGCGGTCGCATCCGGTGCGGAGCGGACGAGCCTCAAGACGCTTGAGGTCGAGGATATCCCGATTGCCTATCTGCCGGGCGGCGCTCGCAGGGTCCGCGTGCGGGTCATCGGCGATATCGCCTTTCATTGA	MKRIGIDVGGTNTDAVLIDGDTIVASIKVPTTQDVLSGVKAALAHVAGHVGAADRPIDAVMIGTTHFTNAVVERARLERVAAIRIALPTGSSLPPMCDWPGDLRDAVDPLIFMVHGGHEYDGSPLVPMVPDEIREAAMKIRDAGITSIAISATFSPLTTECEVRAAEIVRSVIPDARITLSHTLGRIGLLERENVALLNAALQTLGKTTVQAFSDALREAGVKAPFYLTQNDGTVALADVAAANPVHSFASGPTNSMRGAAFLTGLSDAMVVDVGGTTSDIGCLVGGFPREANNIVHIGGVRTLFRMPDLLPIALGGGTIVDPETGKIGPRSVGYRILTEARVFGGETLTTSDIAVAAGLIEMGDRDRVKDLDPAFVQATLQRIRDMVADSFDQMKTSAEDVPLVAVGGGAFLIPETVPGASEVLRVENAGVANALGAAMAQVSGEVDQVFSGLSRDEALAKAETEAQNAAVASGAERTSLKTLEVEDIPIAYLPGGARRVRVRVIGDIAFH				NA	NA	NA	NA	NA
BMS010_08172	1077			hypothetical protein	ATGATCCAGGAATTTTCCGAAGACGATATCGAACCTCTGGCCACCGGTGCCTGGATTCTGGGAACGGGGGGCGGCGGCAATCCCTATATATCGACGCTCAATCTGCGCCGTCTTTATGCCGAGGGCAGGCGGGTAAAGGTCATGGACCCCATGGCGCTCGCCGATGACGACATGGTTGCCGTCGTCTCCAAGATGGGTGCGCCGCTTGTCGGTCAGGAAAGACTGGGGGATCCCGTGCATCTCGCCCGTGCCGTCGAGGTGATGGAGGATTATCTCGGCAAGCCGTTCCGGGCGATCATGAGCGTGGAAATCGGCGGCTCGAATGCGCTTTCTTCCTTCCTCGCCGCCGCCGTTCTCGACCGGCCGGTCGTGAATGCGGACGCCATGGGACGCGCCTATCCCGAAGCGCAGATGACATCTTTCGCCATCGGCAACCTGCCGATGTTTCCGCTGTCGCTGGTCGATGTACGCGACAATGAGGTGATCGTGACCCGCGCGGCTTCCTGGAAATGGATGGAGCGCATATCGCGCAAGGTCTGCACCGAAGTAGGCTCCACCGCCGCCACATGCAAGGCCCCCCGCACCGGCAAGGAAGTGAAGGAATGGGGTATTCATTACACCGTCACCAAGGCGACCGAACTCGGGCGCGCGGTGATGGCAGCCCGTGCGCGCCATGACGATCCGGTTCAGGCGGTTCTCGACCACGAGGGCGGCAAGCAGCTGTTCCGCGGCAAGGTGGTGGATGTGGCGCGCGAGACCACTGGCGGTTTTCTGCGCGGCAGCACGACCATTGAAGGTATCGATGCCGACCGCGGTTCGCGCATGGAGCTCGCCTTCCAGAATGAGTGGGCCGTTGCCTTCCGTGATGGCCAGCCAGTCGCCATGACGCCGGACCTGCTCTGCCTTCTCGATACGGTTTCCGGTGGCGCCATCGGTACGGAATCGGTGCGTTACGGTCAACGCGTGACGGTCGTCGCGCTGCCCGCGCCGGAACTCTTGACGACGCCTGCCGGCATCGCCGCCGTCGGCCCGCGCGCCTTCGGTTATGACATTGACTTCAGATCGGTATTCCCATGA	MIQEFSEDDIEPLATGAWILGTGGGGNPYISTLNLRRLYAEGRRVKVMDPMALADDDMVAVVSKMGAPLVGQERLGDPVHLARAVEVMEDYLGKPFRAIMSVEIGGSNALSSFLAAAVLDRPVVNADAMGRAYPEAQMTSFAIGNLPMFPLSLVDVRDNEVIVTRAASWKWMERISRKVCTEVGSTAATCKAPRTGKEVKEWGIHYTVTKATELGRAVMAARARHDDPVQAVLDHEGGKQLFRGKVVDVARETTGGFLRGSTTIEGIDADRGSRMELAFQNEWAVAFRDGQPVAMTPDLLCLLDTVSGGAIGTESVRYGQRVTVVALPAPELLTTPAGIAAVGPRAFGYDIDFRSVFP				NA	NA	NA	NA	NA
BMS010_08173	1596	ddpA_3	COG0747	putative D,D-dipeptide-binding periplasmic protein DdpA	ATGAAAATGCCTGTACTTTCTTCCCGTCTCGCCGCGCTGGCGCTCGGCACGGCGCTCGTGCTGCCGTTTGTTTCTTCCGCAGCCATTGCGGAAGACAAGGTGTCAGTTGCGGTCAACACCATGCAGATATTCAGCTCGCTCGACCCGGCGAAGGTGACCGATTACACCGGCTACATGGCTATCGTGAACATGTATGACGGACTTACCACCGTGAACGCCAAGGGCGAAATCGTGCCGCATCTGGCGAAATCCTGGGAGATTTCCGAGGACGGCCTGACCTACACCTTCCACCTGCGCGACGATGCGAAGTTCCAGGACGGTACGGCAGTGAAGGCGGCCGATCTTTCGTGGTCGATCCAGCGCCTGCTCGGCATCAACAAGGGCCCGTCGAACCTGATCGTCGGCGTGCTGAAGCCTGAAAACGTCACCGCGCCTGACGATGCCACGCTGGTCATGAAGATCGAGCGCCAGTTCTCGCCCTTCATGGCGGCGACGCCGCTGATGATGGCGATGAACAAGACGCTGATCGAAGCCAATGCCAAGCCGGAAGACAAATGGGGCGAGGCCTATGTCGGCGAACATTCCGCCGGCTCCGGCCCCTACAAGCTGGTCAGCTACAATCGTTCGGCCGATATGGTCATCGCCCGCAATGCCGATTATTTCCTCGGCTGGACGAAGGGCAAGCCCATCGACGAAGTACGCTTCGTGCAGACCAGCGACGACGCCACCGTCAAGGCGCTGGCGGAAAAGGGCGAACTCGGCCTTTCCTCGCACGGGCTTGGCAACGACACCTATGAGTCCATCGGCCGGATGAAGGGTTACAAGCTGATCCAGACCCGCACCGCCGGCGGTTTCGTCATCAAGCTCAACACCAAGGTCTATCCGACGGACGACGTCCACGTGCGCCGCGCCATCGCCTATGCGACCGACTACAAGACGATCCAGGAAGTGATCTATCCGGGCTTCGATATGAAGGGACCGCTTTCCGACGCGTTCAAGGATGCGCATAACGGCGATATCCAGCCGGGCGTCTACGATCTGGAAAAAGCCAAGGAAGAACTGGCGAAGTCGAAATATGCCGGCCAGAAGATCACGCTGGTCAACAGCTATGTCGCGTCGCTAGCTTTCGAGGCGGAAGTGGCGCTCCTTTTGCAGTCCAGCCTCGAGCAGATCGGCATCACGCTCGATATCAAGCCTGAGCCGTGGAACCGCATCGTCGAGCTGTCCTCCAAGCCGGAAACGACGCCTGCATCGACGCAGGTGAATATTTCGCCGACCTATCCGTCGCCGGATTCGATGTTCTACAACCAGTATCACTCCAAGGCCTCCGGCACCTGGATGTCGATGGAATGGTTGCAGAATGCGGAAATCGACGGCCTGATCGACAAGGTTCGCGCCACCACCGATGTGAACGAGCAGAACGCTACCTACAAGGAGCTGCAGACGAAGATCGCTGATCTTCAGCCTGACGTCTGGGCCGTTGCGCCGAACCGCCGTTATGCGGCGAACAAGTGCCTTCAGGGTTACGAGTTCATTCCCATGCAGAGCTGGGACCTGAACTTCTCCAATTTCCATTGGGACTGCAAGGCGGAGTGA	MKMPVLSSRLAALALGTALVLPFVSSAAIAEDKVSVAVNTMQIFSSLDPAKVTDYTGYMAIVNMYDGLTTVNAKGEIVPHLAKSWEISEDGLTYTFHLRDDAKFQDGTAVKAADLSWSIQRLLGINKGPSNLIVGVLKPENVTAPDDATLVMKIERQFSPFMAATPLMMAMNKTLIEANAKPEDKWGEAYVGEHSAGSGPYKLVSYNRSADMVIARNADYFLGWTKGKPIDEVRFVQTSDDATVKALAEKGELGLSSHGLGNDTYESIGRMKGYKLIQTRTAGGFVIKLNTKVYPTDDVHVRRAIAYATDYKTIQEVIYPGFDMKGPLSDAFKDAHNGDIQPGVYDLEKAKEELAKSKYAGQKITLVNSYVASLAFEAEVALLLQSSLEQIGITLDIKPEPWNRIVELSSKPETTPASTQVNISPTYPSPDSMFYNQYHSKASGTWMSMEWLQNAEIDGLIDKVRATTDVNEQNATYKELQTKIADLQPDVWAVAPNRRYAANKCLQGYEFIPMQSWDLNFSNFHWDCKAE	PGPT0004430_8888	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004430-ddpA|ABC_PE_S-K02035	NA	NA
BMS010_08174	1134			hypothetical protein	ATGGCTGAGACACGCAAGCTGAAATATGACGAAGCGGCATTGCGGACGCTGACCCGTGAAGATCTCGACGCGCTGGAAATCGGCGCAGGCATTCTCGGCACGGGCGGCGGCGGTAATCCCTATCTTGGCAAGCTGCTGGCGCTGGAGGCCATGAAGGCCGGTTACGAGATGAAGATTCTGGCAACCGACGCCATCGAGCCGGACGCGCTCTGCATGTCCATCGGCGGCATCGGCGCGCCTGTCGTCGGCGTCGAGCGCATTCGCGAAGGGCGCGAGGGCCTGCGCTGCCTGCGGGCGATGGAAGAGCTGATCCGCACACCCGTCGACGCCATCGTCTGCGAGGAGATCGGCGGTTCCAATTCCATGAACCCGCTGGTGACGGCGGCGCTGGGCGGCCTGCCGATCCTTGATTGCGACGGCATGGGCCGGGCATTCCCGGAAATGCAGATGACCACCTTCTCCATCTACGGCCATAGTTCCACGCCATCGGTGATGTGCGATCTGCACGGCAATGCCGTCATCTTCAGCCATGCCGTTTCCGAGGTCTGGCACGAGCGAATGGCGCGCGCCTGCGTCGTTTCGCAGGGCGGCGGCGCGATGCTGGCGACGGCTCCGATGCAGGCGCATTACGTGCACCAGTATGGCATACCGAAAACCTACACCAAGGCGATTGCCATCGGTGAGGCCGTTATCCGCGCCCGCAAGCAGCAGGAAGACCCGATTGCCGCAGTCTGCGCGCTCGAAGGCGGGCGGCGCATCTTCAACGGCAAGATCACCGATCTGAAGCGCCATCTTCGCGGCGGTTTCGCGGTTGGCGATCTCACGCTTTCCGGCTTTGATGATTGCGCCGGTCAGACGGCAGGCGTCGCCATCCAGAACGAATTCCTGCTGTTTTCCCGTGACGGCAAAGTGGAAGTGACGGTGCCCGATTTGATCGTCCTGCTCGATGTCGACACCGGTTATCCGATCACCACCGAAGTGCTGCGCTACGGCCAGCGCGTGGCCGTCATCGCCATCCCCTGCCACGACCTGTTGCGCAGCGCCCGCGCGCTTGAGGTCGTCGGGCCGGCGGCCTTCGGTTATCCGGACATTCCTTTCTCACCGCTGCCCGTCCCGGTCAGCAAGGCTGCCTAA	MAETRKLKYDEAALRTLTREDLDALEIGAGILGTGGGGNPYLGKLLALEAMKAGYEMKILATDAIEPDALCMSIGGIGAPVVGVERIREGREGLRCLRAMEELIRTPVDAIVCEEIGGSNSMNPLVTAALGGLPILDCDGMGRAFPEMQMTTFSIYGHSSTPSVMCDLHGNAVIFSHAVSEVWHERMARACVVSQGGGAMLATAPMQAHYVHQYGIPKTYTKAIAIGEAVIRARKQQEDPIAAVCALEGGRRIFNGKITDLKRHLRGGFAVGDLTLSGFDDCAGQTAGVAIQNEFLLFSRDGKVEVTVPDLIVLLDVDTGYPITTEVLRYGQRVAVIAIPCHDLLRSARALEVVGPAAFGYPDIPFSPLPVPVSKAA				NA	NA	NA	NA	NA
BMS010_08175	1557			hypothetical protein	GTGTATCGCGTTGGAATTGACGTCGGCGGCACGAATACCGATGCCGTTGTGTTGCAGGATAAAACCGTTCTGGCGGGGGTGAAGGCCTCCACGACAGAGGATGTGACATCCGGTGTCATCGAAGCCCTTGAAAAGGTCATCGAGGCGTCGGGCATAGACAGGGCGCGCATTGGCGCCGTGATGATCGGCACTACGCATTTCACCAATGCGGTGATCGAGCGCCGGCATATGGACGAGGTGGCCGCCATCCGTCTCGGCCTGCCGTCCGGCGCCGGGCTGCCGCCCATGGTCGACTGGCCGGATGATCTCCGTGAAATCGTCGGCAACCACGGTTATCAGGTGCGCGGCGGTTATGAATTCGACGGACGCGAAATTTCGCCGCTCGATGAGGACGAGATCGTCCGCATCGCTGCCGATATCCGCGCCAAGGGCTTAAAGGCGGCTGCCGTTACCTGCGTTTTTAGCGGCATCAACGAAGCAATGGAGCTGCGGGCGAAGGAAATCCTGCAGGAACGCTGCCCCGGCCTGCCGGTGGTGATGTCCAAGGATATTGGTCGTCACGGCCTGCTTGCGCGTGAAAGTGCGGCGATCATGAATGCCAGCCTGCTGTCGCTTGCCGACCGCACGGTTGCGGCTTTCGGCGAAGCGCTGAAGGCTGCGGGCATCACCTGCCCTTTCTACATCACCCAGAACGACGGTACGCTGATGGCGGCTGACGTGGTACGCGGTTTCCCCGTGCTCACCTTTGCTTCCGGTCCGACGAACTCCATGCGTGGTGCGGCCTTCCTCACCGGTCTCAAGGATGCCGTCGTCGTGGATGTCGGCGGCACCACATCGGACGTCGGCTCGCTTTCACACGGCTTCCCGCGTCAGGCCTCGACCACGGTGGATATTGGCGGCGTGCGCACCAATTTCCGCATGCCTGACGTTTTCTCCATCGGTCTCGGCGGCGGTTCCCTCGTGGTCAATGGCGACCATGGCCTGACTGTCGGGCCGAAATCCGTCGGTTACCGGGTTCGCCGCGAGGCGCTCTGCTTCGGTGGCTCGACCCTGACAGCGACCGATATCGCGGTTGCCTCCGGCAAGGCGGATGTGGGCGAGAAGGCGCTGGTCTCCAGTCTCGACAAAAAACTCGTGAATGCCGCGGTCGACAAGATTAACGACATGCTTGAGGCCTGTGTGGAGCGCAGCCGCATTTCGTCGTCACCGGTGCCGGTGATCGCTGTTGGCGGCGGTTCCATCCTGATGCCGGATCGTATCGGTGAGCTGGAGGTCATCCGGCCTGAGAATTTCGCGGTGGCCAATGCCGTTGGCGCGGCGATTGCGCAGATCAGCGGCGAGACCGACCGGGTCTTCTCACTGGTGGACGGACGCACGCGCGAGAGCGCACTGGCCGAGGCGGAAGCCGAGGCACGCGAAAAGGCAATTTCCGCCGGTGCGATTGCCGCGACGCTGGAAGTCATCGAGCGTGAGGACATGCCGCTTGCCTATCTGCCCGGCAACGCCACCCGCATTCATGTGAAAGTTGTTGGAGAAATGGGAGCCAATCATGGCTGA	MYRVGIDVGGTNTDAVVLQDKTVLAGVKASTTEDVTSGVIEALEKVIEASGIDRARIGAVMIGTTHFTNAVIERRHMDEVAAIRLGLPSGAGLPPMVDWPDDLREIVGNHGYQVRGGYEFDGREISPLDEDEIVRIAADIRAKGLKAAAVTCVFSGINEAMELRAKEILQERCPGLPVVMSKDIGRHGLLARESAAIMNASLLSLADRTVAAFGEALKAAGITCPFYITQNDGTLMAADVVRGFPVLTFASGPTNSMRGAAFLTGLKDAVVVDVGGTTSDVGSLSHGFPRQASTTVDIGGVRTNFRMPDVFSIGLGGGSLVVNGDHGLTVGPKSVGYRVRREALCFGGSTLTATDIAVASGKADVGEKALVSSLDKKLVNAAVDKINDMLEACVERSRISSSPVPVIAVGGGSILMPDRIGELEVIRPENFAVANAVGAAIAQISGETDRVFSLVDGRTRESALAEAEAEAREKAISAGAIAATLEVIEREDMPLAYLPGNATRIHVKVVGEMGANHG				NA	NA	NA	NA	NA
BMS010_08176	1647	gsiA_11	COG1123	Glutathione import ATP-binding protein GsiA	ATGACTGAACCGCTTCTCAAGGTCGAAAACCTCAACGTCACCTTCACCAATTACGGCCGCACCCGGCAGGTGCTGCGCGATGTCGCCTTCACGGTTGCCGCCGGCGAACGCGTAGCATTGATCGGCGAAACCGGGTCGGGCAAATCGGTCTCCGCCAAGGCGATCATCGGCACCCTGCCGAAAAACGCCGCGATCACATCAGGTGCCATCATCATCGATGGCCGGGATGTGCTGTCCATGCCGCGCAGGGAGCGTGAGGCGCTGAAGGGGACCGCGTTTTCACTGATCATGCAGGACCCGCTATCGTCCTTCAATCCGGTCTTCAAGATCGGCACGCATCTCGATGATGTCATGCGTTTTGCCGACAAACGCGACGGCATCAACTCGTCCAAGGCCGAGCGCCGCAACCGTATCGCGGCCGTGCTGCGTCGGGTACAGCTTGCGGATACCGAACGGGTGATGAACGCCTATCCCTCCGAACTTTCGGGCGGCATGCGTCAGCGCGTGCTGATCGGGCTTGCCCTGCTGCACCAGCCGAAGCTCCTGATCGCCGACGAACCGGGCACGGCGCTTGACGTGACGACGCAAGATGAAATCCTCAACCTCATCAACCAGCTGGTTGCCGAAGAAAACATGGCGCTCTTGATGATCACCCACAATCTCGGCGTCGTGCGCAAGGTGGCGGATCGAGTCGTGGTCATGCACCATGGCGATATCGTTGAGACCGGACCCTGCACGCAAATCCTCCATAGCCCCACCAAGGATTATACGCGGTCGCTTCTGGATGCCGTGCCTCCACTTTATGGCCCGCGCGTCACCGATCTGATGCAGAGCACGCGGCAGCCGATCATTACCATCGAAGGGCTGAACAAGATTTATGGCCGGCGCAATGGCTATCATGCCGTGCGGGATGTGAACCTGACGCTGAAGCAGGGCGAGGTTTTCGGCTTGGCGGGTGAATCCGGTTCCGGTAAGACCTCGGTTGCGCGCATGATCATGGGCCTTTCGCGCCCGACCTCCGGCAATCTTGTCATTGACGCCCCCGCGCCTGCGCGCGGCAAGCGACTGACGCAGATCGTCTATCAAAATCCGGGCACCTCGCTTAATCCGAAACGCACGGTGAAACAGACGCTTGCCCTGCCGCTGAAATCCATCGGCATGGACGGGCCTGCGCGTGAAAACCGCATGCAGGAACTGATGGGGCTGGTGCGGCTGCCGCAATCCTATCTCGACAAATATCCGCATGAGCTTTCCGGTGGCCAGAAGCAGCGTGTGGCGATTGCCCGCGCGCTGGCGGCCGAACCGAAAATCCTCATCCTCGATGAGCCGACGGCGGCACTCGATGTCTCCGTGCAGAAGACGGTTATCGACCTTCTGCTGCAGCTGCGCGAGGAGCTTGGCCTGACCTATCTGATGATCTCGCACGACCTGTCGCTGATGCGCAATTTCTGTTCGCGCATCGCCATCATGCTGCGGGGCGAGATTGTCGAAGAGGGCGTGACGTCGGCGGTCTTCGCCGAGCCGGCCCATCCCTACACCCGCGCCCTGATCGCGGCCATCCCCGTCGTCACCGACGAGGAAGAACGTCTCAAACCCACGGTGACCGAGGAAGAGCGCATGCGCTTCCTCGTAAAAACGACCGATTGA	MTEPLLKVENLNVTFTNYGRTRQVLRDVAFTVAAGERVALIGETGSGKSVSAKAIIGTLPKNAAITSGAIIIDGRDVLSMPRREREALKGTAFSLIMQDPLSSFNPVFKIGTHLDDVMRFADKRDGINSSKAERRNRIAAVLRRVQLADTERVMNAYPSELSGGMRQRVLIGLALLHQPKLLIADEPGTALDVTTQDEILNLINQLVAEENMALLMITHNLGVVRKVADRVVVMHHGDIVETGPCTQILHSPTKDYTRSLLDAVPPLYGPRVTDLMQSTRQPIITIEGLNKIYGRRNGYHAVRDVNLTLKQGEVFGLAGESGSGKTSVARMIMGLSRPTSGNLVIDAPAPARGKRLTQIVYQNPGTSLNPKRTVKQTLALPLKSIGMDGPARENRMQELMGLVRLPQSYLDKYPHELSGGQKQRVAIARALAAEPKILILDEPTAALDVSVQKTVIDLLLQLREELGLTYLMISHDLSLMRNFCSRIAIMLRGEIVEEGVTSAVFAEPAHPYTRALIAAIPVVTDEEERLKPTVTEEERMRFLVKTTD	PGPT0004435_4623	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004435-ddpD-K02031	NA	NA
BMS010_08177	882	ddpC_6	COG1173	putative D,D-dipeptide transport system permease protein DdpC	ATGGCTGATATGAAAATGCTCGAACCCACCGATCGGGGCTTAAGCGCCGGTTACATGATGTGGTATCGCTTCAGCCGCAATCCGGCGGCGGTCATCGGCTCGCTGATCCTGCTATCGGTGCTGGTGCTGGCGGTCTTCGCACCCTGGCTTACGCCCTATCCGAAACATATCGGCGCGGTTGTCGATTTCCGCGCCCGCCACATGCCGCCGGATCTCGAACACTGGTTCGGCACCGACAAGGCCGGCCGCGATATCTTTTCCCGCACCATCTTCGGGCTTCGGGTCTCGCTGCTTCTCGTCATCGGCGTGCTCGGAATTTCGGTGCCGGTCGGAACCGTACTTGGCCTCATCGCCGGTTATTTCGGCGGCTGGACTGAAAAACTTATCAGCGGCCTGACGAATGTGATGCTGGCCATGCCGCCACTCGTCATGGCGCTCGCGGTCTCCAACCTGCTGGAACCGACGCTGATGAACGCCATGATCGCGATCACGCTGCTGTGGTGGACCTGGCATGCGCGGCTGATCTATTCGGTGTCGAAGTCCATCGCTTCGGAAGATTACATCGAGGCGGCGCGTCTTGCCGGTGCCGGCCCGTTACACATCCTCTTCCGCGAAATACTGCCCAACTGCGTTTCGGTCATTTCGGTCAAGACGACGCTCGATGCCGCCTTCGTCATCCTGTTCGGGGCGACGCTGAGCTTCCTCGGTTTCGGCGTCAAACCGCCGACGCCTGACCTTGGATCGATGGTCGCCGACGGGCGCCAGTTCATGCCGGATTTCTGGTGGGAAGTGCTCTGCCCCGGTGCGGCCGTGCTTTACGTGACGCTGGGTTTCAACCTGCTGGGCGACGGCCTGCGTGACATGTTCGACGTGGAAAGCTAA	MADMKMLEPTDRGLSAGYMMWYRFSRNPAAVIGSLILLSVLVLAVFAPWLTPYPKHIGAVVDFRARHMPPDLEHWFGTDKAGRDIFSRTIFGLRVSLLLVIGVLGISVPVGTVLGLIAGYFGGWTEKLISGLTNVMLAMPPLVMALAVSNLLEPTLMNAMIAITLLWWTWHARLIYSVSKSIASEDYIEAARLAGAGPLHILFREILPNCVSVISVKTTLDAAFVILFGATLSFLGFGVKPPTPDLGSMVADGRQFMPDFWWEVLCPGAAVLYVTLGFNLLGDGLRDMFDVES	PGPT0004450_9390	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004450-ddpC|appC-K02034	NA	NA
BMS010_08178	1029	ddpB_1	COG0601	putative D,D-dipeptide transport system permease protein DdpB	ATGCAGCAACATCCGCTGGTCGCGATTTTGAACAGGCTCGGCACCTTCGTGCTGGTCATGATCGCCCTGTCCATCATGATTTTCGTGCTCGCCCGCGTGGTGCCGGGCGATCCCGCGCGCATGGCGCTCGGTCCTGCGGCAACGCAGGAGCAGGTGGATGCGCTGCGCGGCGAGATGGGCCTCGATAAGCCGCTCGCCGTCCAATATCTCGACTATATCGGCAATGCCCTGCACGGTGATCTTGGTTTCTCGCTGGTGTCGCAACGCCCGGTGACTACCGATCTGGCGCAGACCGTTCCGGCTACCGTGGAGCTGGTACTTGTCTCGGTCATCTTCATGTTTGCCGTCGCCATCCCGCTCGGCGTCACCACGGCGCATTACCGCGACCGGCCGCTGGACCATATCGGTCGCATCCTCTCGCTCACCGGGGTCACGATCCCGAGCTTTCTTTTCGCCATCACGCTGCAATTGCTGGCCGCCCGGTTTCTCTCCGGCTGGCCGATCATCGGCAGGCTCGATCACGGGCTTGGCTGGCAGGGCGGCCCGACGGGCTTCATCCTCATCGACGGCACGCTGGCCGGACGTTTCGACGTCGTACTCGATGCGCTGAAGCATCTCGCACTGCCGGCCTTCGCACTTTCCATGGCCGGCATCGGCCAGATCACCCGCATCACGCGCTCCTCGATGATCGAGAACCAGCGCAAGGACCATGTGCTCACCCTGCAAAGCTTCGGCGTGCCGGAGCGGGTCATCATCTTCCGTTACCTGCTGAAGCTCTCTTCCATCGCGCCGCTGACGATTATGGGTCTCGAATTCGCGTCGCTGATCGGCAATGCCTTCGTGATCGAGATGGTCTTTGCCTGGGGCGGGTTCGCTTCTTACGGGCTGAACGCCATCCTGCAGAAAGACCTCAATGCCGTGACCGCCGTGGTGCTGGTGGCCGGCCTGTTCTTCATCGTTGCGAACCTGATCGTGGATGTCCTGATCTCGATCATCGACCCGCGCCTGCGCCGCAAGGAGGCTCGCTGA	MQQHPLVAILNRLGTFVLVMIALSIMIFVLARVVPGDPARMALGPAATQEQVDALRGEMGLDKPLAVQYLDYIGNALHGDLGFSLVSQRPVTTDLAQTVPATVELVLVSVIFMFAVAIPLGVTTAHYRDRPLDHIGRILSLTGVTIPSFLFAITLQLLAARFLSGWPIIGRLDHGLGWQGGPTGFILIDGTLAGRFDVVLDALKHLALPAFALSMAGIGQITRITRSSMIENQRKDHVLTLQSFGVPERVIIFRYLLKLSSIAPLTIMGLEFASLIGNAFVIEMVFAWGGFASYGLNAILQKDLNAVTAVVLVAGLFFIVANLIVDVLISIIDPRLRRKEAR	PGPT0004445_2309	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004445-ddpB|appB-K02033	NA	NA
BMS010_08179	2352	malT_4		HTH-type transcriptional regulator MalT	ATGACGCTGCTTCCCCGCACCCGCCTCTGCCGTCGCATCGCCAGCGAAACCGCCGGCGTGGTCTTTCTGCGCGCGCCGGCGGGTGCGGGAAAAAGCGTGCTGCTGGAAATGCTCGCAAAAGAGCTCGGAACCGACGTGTGCCGGACGCACCAGCCGCGAAGCGACGAGATCGAAAATGGCTGTCTCCTGTGGGACGTGCCGGTTTTCGCGCGGGCGGCCCGCATGCCCGCTGCCATTCTGGAGGCGGTGCGTCTGGTGGTCATCGCCTGCCGGCCGGATCAACGGATCAGCGGACTGGCCCGGCAAATCCTGCATCGCGGTTCGCTTACAATCGGATCGAATGAACTGCTTCTTGGTGAGGACGAGGTGGAAGACCTGCCACCTGAACAGAAACGCCTCGCACTTCGCGACTATGCGGGTTGGCCGGCTTTTCTGTCACTGGCGCGTTTTCCGGATGAAACGCTGTGTGTCGACTATCTGCGGGAAAACTACCTGCCGCATCTTTCTCCCGCCCAGACGGTTGAGCTTTCCTTCTGGCTGGAAAACCCCTCTGCGGAGCCAGAGGCGGACTGGACCGAACTGCTGCCACCTTTCCTCACCGGAAATCCCGACAGCCACCCCACCCTGATACGGCTTCTGAGCGTGGCTGCTCGGGAACGTCTCGCCACGCTGCAGGCCGGCAGCGCGGTGGTGGAGGTCGCATCGGCTTTCGAAAAGGAAGGCCGGGCGCTTGCGGCCATGGCGATGCTGCTCGACCGTGGTTACGAGACCCATGCCGCGCAAATCCTTGAACGCGCCCATGGGCGCGAGCTGATCTATCGAAGCAGCGTCGACAGGTTTCGCGAGATCATCATGCGGTTTTCGCAGGATATGATCGCAACGAATGAAACCGTGCTCTTCGCCGTCACCCGCGCCCTGCTGAAACAGGGGGAATTGCAGCGCGTGCGCCATCTGCTCGGCAAAAGTCTCGGGTCGGATTATCTCGATCCGCTGAAAGTGCTTGCCCGTGGCTCGCGGTTTTCCTTCGCCGCACGCACCTTCCGGCTAAACCTGATGATTGCCGAGGACCTGACGCCCAATGACGCGGTGATAACCCGCCTCGCCGAGTTCATGGCCGACTACCCCATGGACGATCACGGCAAATGGGCGGCCTATTACAATGCGTTGCTGGAATTCGAAATCCGCCGCCGCAATTTCCGCGAGGCCGAGGCCGCCGCCGCACGCGCTCTGATCTATCTGCGCAAGATGGGCGGGCAGCCGCTGCTGGAATTCTTCATCCATCTACACCAGATCGTGCTGCGGCTGATGAGCGGCGATACGCTTCTGGCACGCCACGCGGCGCAGGAGGCGCGTGCGCGGCTGGAACAGGTGCCGCATGACGCCGTGCAGGAGTTCCGGATGCTGCGGCTGGCGGAAGCGTGTCTTGCCTATGAGGCGGGAAAACCGCGCGATCTCCTGCATTTCGTCGAACATGAATTCGATCATTTCGCCGCGGCCGAGATATGGCCGAGCCTGATGCAGTTCGCCCTGCATTATGCCTCGCAGGTGCTGATCGATCATTTTCCGATGACCGTTCGCCCCGGTTTTCTAGACGGTCTGTGGATCCACCTTTCGGAAGGGCTGCAATTCCATGCGATGATGGAGATCAGGACGGCCATCGCCTATCAGAACGCCAACCGCTGGGCGGATGCGGCCGCGACGCTTTCGGCGATCCGCATGCCCATGGGCCGCAACTGGGTGGAGAGCGCGCATGAGGATCTTTCCCGCCTGACGCGCCGCGATGAGATCGCCTATGTCATGGCCTGGCTGCGCGATGCGGTGCATCTTTTCACGCCGCGCGCCTATCTCTCCCGCCAGATCGACGCGATGATCGCCAATCCCAAGGTCACCAACCGCGAGAAGGTCGCGCTGCGTATCTGGCAGAGCTATGCCGCGCACCAGCGCCGCGACAACGCCGCCGCCCGCGCCCATATCCTCACCGCCCTTGAATCCGCGACCCGTCTTGGCTGCAGCGGCGTCCTGTCGGAGGAGCGCATCTTCCTCTCACCGCTCCTGAACAATCGCCGCATCCGCAGCTTTATCGAAACCTCGTCCGATGTCCGCACCGCGCTGTCGATTTTCGCCGCCTCGGTGAATTCACCGCAAGCGCGCGCCCTGCATGGCGGGCTTTCGCAGCGGGAAGCGCAGATGCTGCAACTGCTCGCCAGCGGCATGTCGAACAAGAAGATTGCCCAGACGCTCAACATCTCGGAAGTGACGGTGAAGTTTCACCTCGGCAACCTGTTCCGCAAGCTGGATTGCAAACGCCGCGCGGAGGCGATCCGCGCGGCGAAAGCACTGGGCTGGCTATAA	MTLLPRTRLCRRIASETAGVVFLRAPAGAGKSVLLEMLAKELGTDVCRTHQPRSDEIENGCLLWDVPVFARAARMPAAILEAVRLVVIACRPDQRISGLARQILHRGSLTIGSNELLLGEDEVEDLPPEQKRLALRDYAGWPAFLSLARFPDETLCVDYLRENYLPHLSPAQTVELSFWLENPSAEPEADWTELLPPFLTGNPDSHPTLIRLLSVAARERLATLQAGSAVVEVASAFEKEGRALAAMAMLLDRGYETHAAQILERAHGRELIYRSSVDRFREIIMRFSQDMIATNETVLFAVTRALLKQGELQRVRHLLGKSLGSDYLDPLKVLARGSRFSFAARTFRLNLMIAEDLTPNDAVITRLAEFMADYPMDDHGKWAAYYNALLEFEIRRRNFREAEAAAARALIYLRKMGGQPLLEFFIHLHQIVLRLMSGDTLLARHAAQEARARLEQVPHDAVQEFRMLRLAEACLAYEAGKPRDLLHFVEHEFDHFAAAEIWPSLMQFALHYASQVLIDHFPMTVRPGFLDGLWIHLSEGLQFHAMMEIRTAIAYQNANRWADAAATLSAIRMPMGRNWVESAHEDLSRLTRRDEIAYVMAWLRDAVHLFTPRAYLSRQIDAMIANPKVTNREKVALRIWQSYAAHQRRDNAAARAHILTALESATRLGCSGVLSEERIFLSPLLNNRRIRSFIETSSDVRTALSIFAASVNSPQARALHGGLSQREAQMLQLLASGMSNKKIAQTLNISEVTVKFHLGNLFRKLDCKRRAEAIRAAKALGWL	PGPT0015288_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULE_REGULATION,PGPT0015288-nodW-NA	NA	NA
BMS010_08180	711			hypothetical protein	ATGAACAATGAAACGCGCGAAAAACTGATGACGATTTCCGTCGCTACCCTGGCGACGGCGCTTTACAAGCGGGGTCTGCGCAACCAGGTCATTCAGGGTGTGCGCCCGCTGGGCTACAAGGGCAAGAACATGGTGGGCCCGGCCTTTACCCTGCGCTACATGCCGGCCCGCGAAGACCGCAACCAGCTTGTCGAATTCCGCAATCCCGCCCATCCGCAGCGTGTCGCCATCGAAACCTGCCCGCCGGGCCATGTGCTCGTCATGGACAGCCGCAAGGATGCGACCGCCGCCTCAGCCGGCGATATTCTTGTGACACGCCTGATGGTTCGCGGCGGTGCCGGCATCGTTTCCGATGGCGGTTTCCGGGATGCGGCCACCATTGCCGAGCTGGATATTCCAGCATACCACACCCGCCCTTCCAGCCCCACCAACCTCACCAAACACGAGGCAATCGAGATCAACGGCCCGATTGGCTGCGGCGATGCGCCGGTGTTTCCGGGCGATATCATCGTCGGCGACGCCGATTGCGTCATCGTCATCCCGGCTGGCATTGCCGACGACGTGGCAACCGAGGCGGTGGAAATGACGGCTTACGAGGATTTCGTGGTGGAGCAGGTCAAGGCCGGCCAGACGATCATCGGGCTTTACCCCTGCACGAAGGAAGAGCACCAGACGGCTTTTGCCGAATGGCGCAAGAAGAACAACCGCTGA	MNNETREKLMTISVATLATALYKRGLRNQVIQGVRPLGYKGKNMVGPAFTLRYMPAREDRNQLVEFRNPAHPQRVAIETCPPGHVLVMDSRKDATAASAGDILVTRLMVRGGAGIVSDGGFRDAATIAELDIPAYHTRPSSPTNLTKHEAIEINGPIGCGDAPVFPGDIIVGDADCVIVIPAGIADDVATEAVEMTAYEDFVVEQVKAGQTIIGLYPCTKEEHQTAFAEWRKKNNR				NA	NA	NA	NA	NA
BMS010_08181	798	udh_4	COG0451	Uronate dehydrogenase	ATGTTGAAGCGATTGCTCATCACCGGCGCCGGCGGCAAGCTGGGAAGCATGCTGCGCGGGCGGCTTGGCCATGTCGCCGAGACGATCCGTCTTTCCGACGTCGTCGATCTCGGTGAGGCAGCACCCCATGAGGAGCTTGTTCGCTGCCGGCTCGAAGAGGAGGCGGCGGTTCATGAACTGGTGAAGGGCTGCGATGGCATCGTCCATCTCGGTGGTATTTCGGTAGAAAAGGCTTTTGATCCCATCGAGGCCGCCAATCTTCGCGGCGTCTACAATCTTTACGAAGCGGCGAGGCAGAACGGCCTGCCGCGCATTCTCTTCGCTTCCAGCAACCACACGATCGGTTATTATCCGCAGGGACAGCAGCTCGAGCCGGAAACGCCCTTTCTGCCGGACGGCCTTTACGGCGTCTCGAAGATTTTCGGTGAAGCGATGGCAAGCCTCTACCACTCCAAATTCGGCCAGGAGACGGCCATCGTCCGTATAGGGTCTTGCGAAGAAAAGCCCTCCAACTGGCGGATGCTGTCGACCTGGCTCAGCTACGGTGACTTCGTCTCGCTGATCGAGGCCACCTTCCGCGTGCAGAAACTCGGTTGCCCTGTCATCTGGGGTGTTTCCGCCAATGACGACAGCTGGTGGGATAATTCCCATGTCGATTTTCTCGGCTGGCAGCGCCGCGACAATGCCGCGCGCTACCGTGCGGAAATCGAACGCGATGTGCCGCGCCCCGATCCCGAGGCCGCAATCGCAAAATATCAGGGCGGCGTCTTCACAGACGAGCCCATTCACAGGACTTGA	MLKRLLITGAGGKLGSMLRGRLGHVAETIRLSDVVDLGEAAPHEELVRCRLEEEAAVHELVKGCDGIVHLGGISVEKAFDPIEAANLRGVYNLYEAARQNGLPRILFASSNHTIGYYPQGQQLEPETPFLPDGLYGVSKIFGEAMASLYHSKFGQETAIVRIGSCEEKPSNWRMLSTWLSYGDFVSLIEATFRVQKLGCPVIWGVSANDDSWWDNSHVDFLGWQRRDNAARYRAEIERDVPRPDPEAAIAKYQGGVFTDEPIHRT	PGPT0018290_648	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLACTURONATE|GLUCURONATE_DEGRADATION,PGPT0018290-udh-K18981	NA	NA
BMS010_08182	1725			6-deoxy-6-sulfo-D-gluconate dehydratase	ATGACCGATAAAAAACTCCGTTCCGACCGCTGGTTCGCTCCCGACGACCTGCGCAGCTTCGGCCACCGCTCACGCATGATGCAGCTCGGTTATGCGGAGGAGGATTTTGTCGGCAAACCCGTCATCGGTATCCTGAACACCTGGTCGGAGCTGAATACCTGTCACTCGCATTTCCCTGAAAGGGTGAAGGACGTGAAACGCGGCGTGTTGCAGGCCGGTGGTTTCCCCGTCGAAATGCCGTCGCTCTCGGTGGACGAAAGCTTCACCAAGCCGACATCGATGCTCTATCGCAACATGCTGGCGATGGAGACGGAAGAAATGATCCGCTCGCATCCGCTCGACGGGGTGGTGCTGATGGGTGGTTGCGACAAGACGACACCTGGCCTCGTGATGGGCGCGATCTCGGCCGGCGTGCCGATGATCTATCTGCCGGCAGGCCCGATGCTGCGTGGCAATTATGCCGGCAAGGTGCTGGGGTCGGGTTCGGATGCCTGGAAATATTGGGACGAGCGCCGTGCCGGTAACGTCACCGACGAGGAATGGCGCGGCGTGCAGGGCGGCATCGCCCGCTCCGCCGGTGTGTGCATGACCATGGGCACAGCCTCGACCATGACCGCCATCACCGACGCCCTTGGCCTCACCCTGCCGGGAGCTTCCTCCATTCCGGCGGTGGATGCCGAACACCAGCGCATGTCGGCAGGTTGCGGCCGGCGTATCGTGGAAATGGTGACCGAGGAGCTGACGCCGGACCGTATTCTGACCGCGACCGCCTTTCGCAATGCCGCCATCGTCGCCATGGCGACCGGTTGCTCCACCAATGCCGTCGTGCATCTGATCGCCATGGCGCGGCGCGCCGGCGTGCCGATGACGCTGGATGAACTGGACGAACTTGGCCGGGTCACGCCGCTCATCGCCAATGTCCGCCCCTCCGGCAAAGACTATCTGATGGAGGACTTCTATTACGCCGGCGGTCTGCGGGCGCTGATGAAGCAGCTCGAAAGCCGTCTCGACTGTTCGGCGCTCACCGTGACCGGCCGCAGCATGGGCGAAAATCTCGAGGGTGCGAAGGTCTATAATGACGACGTCATCCGCTCGCTCGATAATCCCGTTTATGCGGAAGGCTCGCTTGCGGTGCTGCGCGGCAATCTTTGTCCGGATGGCGCGGTCATCAAGCCCGCCGCCTGCGATCCGAAGTATCATGTTCACGAGGGCCCGGCGCTGGTCTTCGACAGCTATCCGGAGATGAAGAAGGCGATTGACGACGAAAACCTCGATGTCACGCCGGATCATATGCTGGTGCTGCGCAATGCCGGTCCGCTCGGCGGTCCCGGTTTTCCGGAATGGGGCATGCTGCCCATCCCCAAGGCGCTGATCAAGAAGGGTCACCGCGACATGGTGCGCATTTCCGATGCCCGCATGTCCGGCACCTCCTATGGCGCCTGCGTGCTGCATGTCGCACCGGAGAGCTTCGTCGGCGGCCCGCTGGCGCTCCTGAAGACCGGCGATATCGTGCGCCTCGATCTGCCGCAGCGTCGTCTCGACATGCTGGTCAGCGAAGAGGAAATCGCCAGCCGCCGCGCCGCCTGGCAGGCGCCGGCAGCGCGTTATGAACGCGGCTATGGTTATCTCTTCTCTAAACACGTCACCCAGGCCGATGAAGGTTGCGATTTCGACTTCCTGCAGACGGATTTCGGCCGCACCGCCGGCGAGCCCGATATTTTCTGA	MTDKKLRSDRWFAPDDLRSFGHRSRMMQLGYAEEDFVGKPVIGILNTWSELNTCHSHFPERVKDVKRGVLQAGGFPVEMPSLSVDESFTKPTSMLYRNMLAMETEEMIRSHPLDGVVLMGGCDKTTPGLVMGAISAGVPMIYLPAGPMLRGNYAGKVLGSGSDAWKYWDERRAGNVTDEEWRGVQGGIARSAGVCMTMGTASTMTAITDALGLTLPGASSIPAVDAEHQRMSAGCGRRIVEMVTEELTPDRILTATAFRNAAIVAMATGCSTNAVVHLIAMARRAGVPMTLDELDELGRVTPLIANVRPSGKDYLMEDFYYAGGLRALMKQLESRLDCSALTVTGRSMGENLEGAKVYNDDVIRSLDNPVYAEGSLAVLRGNLCPDGAVIKPAACDPKYHVHEGPALVFDSYPEMKKAIDDENLDVTPDHMLVLRNAGPLGGPGFPEWGMLPIPKALIKKGHRDMVRISDARMSGTSYGACVLHVAPESFVGGPLALLKTGDIVRLDLPQRRLDMLVSEEEIASRRAAWQAPAARYERGYGYLFSKHVTQADEGCDFDFLQTDFGRTAGEPDIF	PGPT0017465_376	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017465-araC-K13875	NA	NA
BMS010_08183	1080	malK_9	COG3839	Maltose/maltodextrin import ATP-binding protein MalK	ATGGCAAGTATAGAGCTTCGTCAGGTCAAAAAGACATATGGTGCCCTCGATGTGATCAAGGGTGTCGATCTCGATATCAAACACGGCGAGTTCTGTGTTTTCGTCGGCCCTTCCGGCTGCGGCAAGTCGACCCTGCTGCGCATGATCTCCGGTCTCGAAGAACTGAGCGGCGGCGATATCGTCATCGGCGGTGATGTGGTCAACACGGTGCCGGCCGCAGATCGTGGCCTTGCCATGGTGTTTCAGTCCTATGCCCTTTATCCGCATATGACGGTGCGTGAAAACCTGTCCTTCGGGCTTGAGAACATCGGCACCTCCAAAAAGGATATCGCCGAAAAGATCTCCCAGGTTTCCAAGATGCTGCAAATCGACCAGCTTCTCGAGCGCCGCCCCAAGGATCTGTCGGGCGGCCAGCGCCAGCGCGTCGCCATCGGCCGCGCCGTCGTGCGTGAACCTCGCGTGTTCCTCTTCGACGAGCCCCTTTCCAACCTCGATGCGGAACTGCGCGTCGACATGCGCGGCGAGATTTCAAGCCTGCACCGGCGTCTCGGCAACACCATGATCTATGTGACGCACGATCAGGTGGAAGCCATGACCATGGCCGACAAGATCGCCGTCCTGCGTGCCGGCAAGCTGGAGCAATTCGGCGTTCCGCTCGATCTTTATAACCGCCCGGCCAATCTCTTCGTGGCAGGCTTCATCGGTTCGCCGAAGATGAACTTTTTTGCCGGCGAAGTGACCTCGGATGCAACGCCGTCGCTGAAGATCGCGACCGGCGAATTGATCCCGCTACCGCAGACCGGCTTTTCCTACAAGCCCGGCCAGAAGGTGACGCTCGGCGTCCGCCCGAACCATGTGCAGCCCGGTGAGGGCGGCGCGCTGACCATGTCTGTGCGCACCGCAGAACAGCTGGGCGGGGAATCCTATCTCTATGGTAATCTCGGCGACGGCACTCCGGTAACGCTGCATCTTTCCGGCCAGACCTCGACTTCGGCGGGGGAAGTTATCCGCCTGTCGGCGCCGCTGGAACACATTCATCTTTTCGATACGACGAGCGGGCTGACGCTCCGGCAGGACTGA	MASIELRQVKKTYGALDVIKGVDLDIKHGEFCVFVGPSGCGKSTLLRMISGLEELSGGDIVIGGDVVNTVPAADRGLAMVFQSYALYPHMTVRENLSFGLENIGTSKKDIAEKISQVSKMLQIDQLLERRPKDLSGGQRQRVAIGRAVVREPRVFLFDEPLSNLDAELRVDMRGEISSLHRRLGNTMIYVTHDQVEAMTMADKIAVLRAGKLEQFGVPLDLYNRPANLFVAGFIGSPKMNFFAGEVTSDATPSLKIATGELIPLPQTGFSYKPGQKVTLGVRPNHVQPGEGGALTMSVRTAEQLGGESYLYGNLGDGTPVTLHLSGQTSTSAGEVIRLSAPLEHIHLFDTTSGLTLRQD	PGPT0014160_1371	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0014160-malK|mtlK|thuK-K10111	NA	NA
BMS010_08184	1044			hypothetical protein	ATGGCTAGGATTGGCGCATTTCTGACCCGTACCCGCGGCCGCAACGGCAAGCTGCACTGGACCGATTGGCTGTCCTACGCCTATCTCGGCGTGGCCGTGCTGATGATGTTCGGTCCCGTCGTCTGGCTGGTGCTCTCATCGTTCAAGACTGAGGCCGACCTTCAACGCTTTCCGCCGCGCCTTCTGCCCTATAGCCAGGAAACCGTGGTGGTGGATGGGCAGGCAGCGCCGCTGCCGGCCTATGTCGACAAGGATGGCCGCAAGTTTGGCATGGTCCGCCGCATCGGCCTCGTGGCCCAGGTGGTTGACCCGGCCAAGCCAACCGAAATCCTGAAGATGCCGTTCAACGAACTGAAGCCGGCAGAAAAGGTGGCGCTGGCGACGGAAAACTACACCGAGCTTTTCCAGCGCTTCAATTTTCCGCTCTATTTCTGGAACTCGACCTTCATCACGGTGACCTCCACCATCATCATGCTGATCGTCAATTCCATGGCGGCCTTCGCGCTCTCGAAATACCAGTTCAAGGGCAGGGGTGCGGTGCTGGCGCTGGTTGTCGGCACGCTGATGATCCCGCAAACCGTCGTGCTTGTGCCGCTGTTTCTCATCACCAGCCAGCTGGGCATGATCAACAGTCTCTGGGGCGTCATCATTCCCGGTGCTGCGACACCCACGGGCGTCTTCCTGCTGCGGCAATATATGCTGACGATCCCGGATGAAATCCTCGATGCCGCCCGCATGGACAAGGCGAGCGAGTGGAAGATTTACTGGCGCATCATCCTGCCGCTTTCGGCTCCGGCGCTCGCCGTTCTTGCGATCCTTGCGATCATGTGGCGCTGGAACGATTTCCTCTGGCCGCTGATCGTGTTGACCCGCAACGACAACTTCACCCTCCAGCTGGCGCTCAACTCCTTCCAGGGGGAGATGACGACGGAATGGAGCAATCTTCTGGCCATGACGGTGCTGACACTCGCCCCGATCGCGCTGGTCTTCATGTTCCTGCAAAAATACATCGCCACCGGCATTGCATCGACGGGCGGCAAATAA	MARIGAFLTRTRGRNGKLHWTDWLSYAYLGVAVLMMFGPVVWLVLSSFKTEADLQRFPPRLLPYSQETVVVDGQAAPLPAYVDKDGRKFGMVRRIGLVAQVVDPAKPTEILKMPFNELKPAEKVALATENYTELFQRFNFPLYFWNSTFITVTSTIIMLIVNSMAAFALSKYQFKGRGAVLALVVGTLMIPQTVVLVPLFLITSQLGMINSLWGVIIPGAATPTGVFLLRQYMLTIPDEILDAARMDKASEWKIYWRIILPLSAPALAVLAILAIMWRWNDFLWPLIVLTRNDNFTLQLALNSFQGEMTTEWSNLLAMTVLTLAPIALVFMFLQKYIATGIASTGGK	PGPT0017270_126	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALPHA-1|4-DIGALACTURONATE_TRANSPORT,PGPT0017270-aguG-K17243	NA	NA
BMS010_08185	969	lacF_8		Lactose transport system permease protein LacF	ATGTATAAATTTCTTGCGCCCGTCATGGGCATCGTCGAACTGCCTTTTTCCTTCCTGCAGAAGGTTCTTGGCCACAGGCGGATTGCATGGGTGTTTCTGACGCCCAACCTGATCCTGTTTGCGGTCTTCGCCTTTCTGCCGATCGTGCTGAACATGGCCTATTCCGTGACAGGCAGCGAACACATATTGCTTTCCGAACGCCCTGCCGTGGGCGGCGAAAATTTCTCGGTCCTTCTTTCCTGTCAGAATTACCTCGACCCCAATTCCTGTCAGCGTGACCTGTTCTGGCGCTCCGTCTGGAACACGGTTTTCTTCGTGGTGCTGCAGGTCGGTTTCATGGTCGGCTTCTCGCTGATCACGGCCATCGTGCTTAACCGCGATATCCGGGCGCGCGGGTTCTTCCGTGCCGTCTTCTTCTTCCCCGTGCTGCTGTCGCCCGTCGTTGTGGCCTTGATCTGGAAGTGGATTCTCCAGCGTTTCGGCGTTCTCAATGCGGCGATGGAGGGGCTGGGCCTCGGCTCGGTGGACTGGTTGCTCGAAGCCAATCTTGCCTTCGGCTGGTCGGTCTTCCTGTCGGTCTGGGCGCATATGGGCTTTTACACGCTCATTCTTCTGGCCGGCCTGCAGGCGATCCCGCGCGATGTCTATGAGGCGGCGCAGCTCGACAAGGCAAGCCCCTGGCGCATCTTCCGGCGCATCACGCTGCCGTTGCTTGCGCCCACCATGCTCGTCGTTCTCGTCCTCTCGCTCATCAAGGGCGTGCAGACCTTCGATGAAGTCTTTGCCTTCACGGGTGGCGGCCCCGGTTCGGCGACCACCTTCATCATTCAGTTCATCTATCAGACCGGTTTTGCCGGGACGCCCCGCAATTTCGGCCTTGCGGCTGCCGCTTCGCTGCTGCTCGCCGTGGTGTTGGTGGTGCTGACCGCCCTGCAATTCCGGGCAAACAGGAGCAAGGTCGATGGCTAG	MYKFLAPVMGIVELPFSFLQKVLGHRRIAWVFLTPNLILFAVFAFLPIVLNMAYSVTGSEHILLSERPAVGGENFSVLLSCQNYLDPNSCQRDLFWRSVWNTVFFVVLQVGFMVGFSLITAIVLNRDIRARGFFRAVFFFPVLLSPVVVALIWKWILQRFGVLNAAMEGLGLGSVDWLLEANLAFGWSVFLSVWAHMGFYTLILLAGLQAIPRDVYEAAQLDKASPWRIFRRITLPLLAPTMLVVLVLSLIKGVQTFDEVFAFTGGGPGSATTFIIQFIYQTGFAGTPRNFGLAAAASLLLAVVLVVLTALQFRANRSKVDG	PGPT0017265_125	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALPHA-1|4-DIGALACTURONATE_TRANSPORT,PGPT0017265-aguF-K17242	NA	NA
BMS010_08186	1272	araN	COG1653	putative arabinose-binding protein	ATGATCGGTAAATACAGCATGGCATTGGCGCTCGCCATTGGCGCGGCGTCCTTTGCAGGCGCAGCCCAGGCGGCCCAGGAAGTGCGCTTCACCTGCGCTTATGACGGCAACGGCTGCGAAATTCTGAAAGACATTCTCGCGCGTTACGAAAAGCAGCATCCGGACGTGAAGATCGTCACCGACGTCGTGCCCTACAAGGCGCTGCTGGAAGGCCTGCCCGTGCAGCTTGCCGGCGGCAGCGGCCCGGATTTCGCAACCGTGACCGACCTTGGCGGCCTCAACCGCTATTATCTCGATCTCACGCCCTATGTGGACGCGAAATATTGGGAAGACAATTTCTCCAACGTGCTGAAATGGTATCGCAGCGGCCCTGACGACAAGGGCATCTACGGCATGCATACCCAGCTGACCATCACCGGCGCCTTCATCAACCGCACTTTGTTCGATCAGGCCAATGTCGCCGTTCCCGGCAAGGATGCGACGCTGGACGACTGGGCGAAGGCCGCCAATGCCGTCGCCAAGGCAACCGGCACGCCTTACCCGATGGCCATCGACCGTTCCGGCCACCGCATTGCCGGCCCGGCCATTTCCTATGGCGCGAAGATTTTCGACGCCGATGGTAAGCCCATTCTGGTTGATGAAGGCTTCACGACCTTCGTGAAGAAATTCGTGGAATGGAACAAGGACGGCACCATGGCGCGTGACGTATGGGCCGGGCAGGGCGGCAATACCTACCGTGACGCCGCGCAGGAATTCATCAACGGCCAGTTGGTCTATTATTATTCCGGCAGCTGGCAGACCGCGCGTTTCGACAGCCAGGTCGGCGATGCGTTCGACTGGGAAGTCGTGCCGCAGCCCTGCGGTGGCGTAGCCTGCACCGGCATGCCTGGTGGTACCGGCATCGTCGGCTTCAAGCAGACCAAAAACCCGAAGATCGTTGCCGATATCCTGAACTTCATGGCTCAGGACGAGAATTATCTCGACTTCACCGTTCGCACCCGCAACGTTCCGGCCCATAAGGCCGTTGCCGACAAGGGTGTGACCTATACCGGTGCGACGCCTGCGACGCAGAAGGCCATGAACGCCTGGCTGGACCAGATTCCCGGCCTCAGCCCGATTGCCTATGCCTACCAGGGCTACAAGAACAATCGCGCCATGTTCAACATCTCCGTCCAGCGCATCACGCAGGCCATCGTCGGTGAAAGCACCGTTGATGAGGCCATGGCCCGCGCGAAGACGGACCTCGAGGAAGCGTTGAAACAGGCGAAGTGA	MIGKYSMALALAIGAASFAGAAQAAQEVRFTCAYDGNGCEILKDILARYEKQHPDVKIVTDVVPYKALLEGLPVQLAGGSGPDFATVTDLGGLNRYYLDLTPYVDAKYWEDNFSNVLKWYRSGPDDKGIYGMHTQLTITGAFINRTLFDQANVAVPGKDATLDDWAKAANAVAKATGTPYPMAIDRSGHRIAGPAISYGAKIFDADGKPILVDEGFTTFVKKFVEWNKDGTMARDVWAGQGGNTYRDAAQEFINGQLVYYYSGSWQTARFDSQVGDAFDWEVVPQPCGGVACTGMPGGTGIVGFKQTKNPKIVADILNFMAQDENYLDFTVRTRNVPAHKAVADKGVTYTGATPATQKAMNAWLDQIPGLSPIAYAYQGYKNNRAMFNISVQRITQAIVGESTVDEAMARAKTDLEEALKQAK	PGPT0017260_121	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALPHA-1|4-DIGALACTURONATE_TRANSPORT,PGPT0017260-aguE-K17241	NA	NA
BMS010_08187	1074	gfo		Glucose--fructose oxidoreductase	ATGATTGGCGTCGCAATCGTTGGTGCTGGCATCGGCGCCCTGCATCTGAAGGGTTATCAGGCGTTGCCGGAGCGCTTCTCCGTCAAGGCGATCTGCGACCTCGATCTGGAGCGCGCCCGCTCCGTGGCGGGTGACGATACCTCCATCCGTCTGACGACCGATCTCGATGAGATTCTGGCCGATGAGAGCATTCAGCTCATCGACGTCTGCCTGCCGCCGCACCTGCATTTTCCCGTGACGCTGAAGGCACATGCGGCGGGCAAGGATGTGGTCTGCGAAAAGCCGCTCGTCCGCTCGCTTGAGGAGGCAAATGCGCTGATCGACTCCGTCAGGAAGACCGGCCGTGGCGTGTTTCCGGTCTTCCAGTACCGTTTCGGACATGCGATGCGGCAGCTTCGTGCGCTCATCGATGCCGGCCTTGCGGGCAAGGCCTTTGTCGCGAGTTCGGAAGTTCACTGGAACCGTGGCGCCAGCTATTACGACATTCCGTGGCGCGGTACGTGGAAGGGCGAGTGCGGCGGCGCGATCCTCGGCCACGCCATCCACGCCCATGATCTTCTCTGCCACGTTCTCGGCCCCGTCGACGAAGTGTTCGCCATGGCCGATACGCGCGTCAACACAATCGAAACCGAAGACTGCGCGGCACTCAGCTTCCGCATGAAAAGCGGTGCGCTGGCGACGAGCTCGGTGACGCTCGGTGCCGCCGAAGATACGTCCCGCCTGCGTTTCTGCTTCGAAGGCTTCACCGCCGAAAGCGGCACGCTGCCCTATCGTCCGGCCGAAGACACATGGCGTTTCATCGCCCGTGCACCGACCACGCAGGACCAGATCGACGCCGTTCTGGCGACGGTCGCCAATGGCGAAAACGGCTTTGCCGGTTTTGTCGAAGCCATTGCTGACGCGATGGAAGGACGCGGCGGCAAGGAAGTGACTGTGAACGATGGTTTGCAGTCCATCGAACTCGTCACCGCCATCTATCGCTCGGTGCGGGAAGGAAAGCCGGTCCGCCTGTCCGACGCCGCAGAAGGCGAATGGATCAAGGGCTGGGCTCCGCGCGCATCCGCCAACGCATAA	MIGVAIVGAGIGALHLKGYQALPERFSVKAICDLDLERARSVAGDDTSIRLTTDLDEILADESIQLIDVCLPPHLHFPVTLKAHAAGKDVVCEKPLVRSLEEANALIDSVRKTGRGVFPVFQYRFGHAMRQLRALIDAGLAGKAFVASSEVHWNRGASYYDIPWRGTWKGECGGAILGHAIHAHDLLCHVLGPVDEVFAMADTRVNTIETEDCAALSFRMKSGALATSSVTLGAAEDTSRLRFCFEGFTAESGTLPYRPAEDTWRFIARAPTTQDQIDAVLATVANGENGFAGFVEAIADAMEGRGGKEVTVNDGLQSIELVTAIYRSVREGKPVRLSDAAEGEWIKGWAPRASANA				NA	NA	NA	NA	NA
BMS010_08188	1017	iolG_12		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGACTAAAGCAATCAAGTTCGTCGCTCTCGGGATTGAGCACCGGCACATTTTCGGCATGGCCCAGAACATGCTGGATGCCGGCGCAGAATTCGCCGGCTGGTGGACCGAAGGCGAGCCAGACGTGGTGGAAGGCTTCGTCAAGCGCTTCCCGGATGTGCCGCGTGCGACCTCGAAGGAAGCTCTGCTGGCCGATGGCAGCATCGATCTCGTGCTGATCGCCGACATTCCCTCCAAGCGCGCCGATCTTGCCATCGCCGCCATGGAAGCCGGCAAGGACGTCATGTCCGACAAGCCCGGCTGCACTACCTTCGAACAGCTCGATCGCCTTCGCCAGACCGTGGCGAAGACCAAGCGCATCTGGACTGTCGATTTCTCCGAGCGTTTTGAAGTTCCGAGCGTAACCAAGGCCGCCGAACTCGTTGCGCAGGGTGCGATCGGCCGTGTGATCCAGACCGTCGGTCTCGGCCCGCATCGTCTGAACCGCCAGATCCGCCCGAAGTGGTTCTTCGAGCGTGAAGCTTACGGCGGCATCATCACCGATATCGCCAGCCACCAGATCGACCAGTTCATGTTCTTCACCGGCTCGACCGAAGTGGAGATTGTGGCTGCCACCGTTGCCAACTATGCCAACCCGCGCGATCCGGGCTTGCAGGATTTCGGCGAAGTGGTGCTGCGCGGCGACAAGGGCCACGGCTATATCCGCGTCGACTGGTACACGCCCGATGCGCTGCCGACCTGGGGCGACGGCCGCCTCACCATCCTCGGCACCGAGGGTTACATCGAACTGCGTAAATATGTCGATGTCGGCAACAAGGAAGGCACCGACCGTCTCATTCTCGTGAATGGGGACCGCTGCGAATATATCGATGCCTCCGGTGCCGGCCTGCCCTATTTCGGCCGCCTGTGCGACGACATCCGCAACCGCACCGAAACGGCGATGACGCAGGAGCATGTGTTCAAGGTATGCGACCTGTCGCTTCAGGCGCAGGCCAAGGCCGAAGGAGCAAAGGCATGA	MTKAIKFVALGIEHRHIFGMAQNMLDAGAEFAGWWTEGEPDVVEGFVKRFPDVPRATSKEALLADGSIDLVLIADIPSKRADLAIAAMEAGKDVMSDKPGCTTFEQLDRLRQTVAKTKRIWTVDFSERFEVPSVTKAAELVAQGAIGRVIQTVGLGPHRLNRQIRPKWFFEREAYGGIITDIASHQIDQFMFFTGSTEVEIVAATVANYANPRDPGLQDFGEVVLRGDKGHGYIRVDWYTPDALPTWGDGRLTILGTEGYIELRKYVDVGNKEGTDRLILVNGDRCEYIDASGAGLPYFGRLCDDIRNRTETAMTQEHVFKVCDLSLQAQAKAEGAKA				NA	NA	NA	NA	NA
BMS010_08189	1053	iolG_13		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGCAAAATATCAAGACCTGCGTCATCGTTGGCGCCGGAATGGTGGCGAAGACGCATGTGCTCGCCTGTGCGGCAAGTCCGGAAAAAATTCGCCTGAAGGGCTTAGTCGACGGTGGCTCCGGCCGCGCCAGCGCGCTGGCCGCCGAAGCGTCGAAACATACCGGATATGAGATCGTCGTTTACTCCTCGGTCGAGGAAGCCGCGCGCGATGCGGATGTCGATTTCGCCATCGTCGCAACGCCGCCGAATGCCCGCATCGATATCGTCGGACAGCTCGCAAAGGCGGGCAAACACATTCTGATGGAAAAGCCCGTCGCCCGGAACACGCAGGAAGCCGGCGGCCTTGTCGCCCTCTGTCGTGAGGCCGGCGTCACGCTCGGCATCATCTTCCAGCACCGCATGCGGGCTGCATCGCAAAAAGCCCGTGAGCTTGTGGATGGCGGGACGCTCGGAGCGCTCGGTCTCTGCGAAATTTCCGTGCCGTGGTGGCGCGCGCAATCCTATTATGATGAACCCGGTCGCGGCACCCTGGCGCGTGACGGCGGCGGTGTTCTGATCTCCCAGGCAATCCACACCATCGATCTGGCGCTGAGCCTTACAGGGCCGGTCTCGCGCGTTCAGGCCATGGCGGCGACGACGCGGTTTCATCGCATGGAAACCGAGGATTATGTCGCGGCCGGCCTGCGCTTCAAGAATGGCGCTGTCGGCTCGCTGGTCGCAAGCACCGCAAGTTTCCCCGGCGCTCCGGAATCGATTGTCCTGCATTTCGACAATGCCAGCCTGCGGCTCGCCTCGGGCCTCCTGCATGTCGACTGGCGCGACGGCCGGCAGGAGACCTTTGGCGGCGCGGCATCCGGCACGGGCGGCGGCGCCGACCCCATGGCTTTCACGCATGAATGGCATCAGGGCGTCTTCGAAGATTTCGCAGACGCCATCTCCTCAGGGCGCGCCCCGGTCGTCACCGGTGAAGCGGCTCTTTTGTCTCACAGATTGATCAACGCGATCATCAACTCGGCCGACACCGGCAAGGAAGTGGAACTGCAGGATGACTAA	MQNIKTCVIVGAGMVAKTHVLACAASPEKIRLKGLVDGGSGRASALAAEASKHTGYEIVVYSSVEEAARDADVDFAIVATPPNARIDIVGQLAKAGKHILMEKPVARNTQEAGGLVALCREAGVTLGIIFQHRMRAASQKARELVDGGTLGALGLCEISVPWWRAQSYYDEPGRGTLARDGGGVLISQAIHTIDLALSLTGPVSRVQAMAATTRFHRMETEDYVAAGLRFKNGAVGSLVASTASFPGAPESIVLHFDNASLRLASGLLHVDWRDGRQETFGGAASGTGGGADPMAFTHEWHQGVFEDFADAISSGRAPVVTGEAALLSHRLINAIINSADTGKEVELQDD	PGPT0022715_442	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_D_MANNURONIC_ACID_MODIFICATION,PGPT0022715-wlbA|bplA-K13020	NA	NA
BMS010_08190	714	rspR_5	COG1802	HTH-type transcriptional repressor RspR	ATGCCGAAAATTCCCGTAACAGGTGGCACCGTGCCGACAATGGAACGACTGGACCTTAACCGTCCGGTCGTTGACCAGATCTATTCCGCGCTGAAATCGGCGATCCTGTCCCGGGAGCTTTTTCCGGGCCAAGCGGTTTCGGAAAACGAAATCGGACAGTTGTTCAATTCCAGCCGAACGCCGGTGCGCGAAGCACTGAGCCGCCTGCGGGATGACGGCCTGATCGTCACCCTGCCCAGCCGCGGCACCTATGTCTCCAGATTATCGGAAAAGCACATTCGCAGCGCGCAATTCATCCGCGAGGCGCTGGAGGTCGCTGCGGTTTGCAGGCTATGCCAGATCGGCATAACGGCGGAGGCCGAGCAGGAGATCGAACACGCCCTCACCGGCCAGCGTGCAGCCATGCACCGCGGGGACAGAAAGGCTTTCCGTGTGCATGACGATCAGTTCCACAGCGCGCTTGCCGCCGCGACGGGGCTTGAGAGGCTGGAGACGCTATTGATCCGCGAAAAGGCGGGGCTGGACCGTCTGCGCGCGCTCGCCATCACCGACGAGGCGCATATGGCGCGGCTGCTCTCCGAACATGAGGCGGTTTACGATGCGATCAAGGCCGGGGACGAAGCCCGTGCGACCGATGGTTTGCGCAAACACCTGAGACGCGTCCTCGGCATTCTTTCGCAGGTTTTCGAGAACCACCAGGACTATTTCGAATAA	MPKIPVTGGTVPTMERLDLNRPVVDQIYSALKSAILSRELFPGQAVSENEIGQLFNSSRTPVREALSRLRDDGLIVTLPSRGTYVSRLSEKHIRSAQFIREALEVAAVCRLCQIGITAEAEQEIEHALTGQRAAMHRGDRKAFRVHDDQFHSALAAATGLERLETLLIREKAGLDRLRALAITDEAHMARLLSEHEAVYDAIKAGDEARATDGLRKHLRRVLGILSQVFENHQDYFE				NA	NA	NA	NA	NA
BMS010_08191	921			6-deoxy-6-sulfogluconolactonase	ATGAATACGGCAAATCCTGAAAAAGCGCTCGCCATGTCGCAGGCGAAACTTCTGTGCGACACGATGAGCACGCTTGCGGAATCCCCCGTTTGGGATGAGCGGCGACAGGCGCTTTTCTGGTGCGATATACTCGGCAAGGCGGTGCGGTCCGCAGCGCTCGAGCCCGGCCTTTATCGCGAATGGGCGTTTCCCCATACGGTCTCGAGTCTCGGTCTCTGTCGGAACGGCGACCTCATCGTCGCCTGCGGTATGGATATTGTCATCCTCGATCCGGAGAGCGGCAAAACACGCCTTCTCCATTCCCTGCCGTCACCGGACGGCATTCCCTGCCGGCTGAACGACGGACGGATCGGCCCCGACGGCGCCTTCTGGGTGGGAACCATGCACAATGTGCCACTCGCGGACATGGAGCCCCATGGTGAACTTTGGCGGATCACCGAAAAAAGCGCCGAGCGCATGCAGACCGGCCTGACATGCCCGAACGGCCTCGCCTTTTCCCCGGACGGCTCCATCATGTGGCAGAGCGATTCCGTCCAGAAATGGATACGCCGGCGAAAATTCGACAGCAGAAACGGCACATTCGATGAGGGCGTGCTGGTGGCCCGGATGACGGAAGAGACGGGAAGACCCGATGGCGGCTGCCTCGACAGCAGCGGCACCTATTACAGCGCAGGCGTTTCCGCTGGCTTGTTGAACGTTTTCACATCCGATGGCAAGCATGCGGAGGTGCTCGCAGCGCCCGTCCCGCACCCCACCATGCCGTGCTTCGGAGGCCCTGATTTCAGCATCCTTTTCCTGACGTCACACCGCCACAACATGTCCGAAGACCGGCTGGCGAAAGCACCATTTTCGGGCGGCGTCTGGGCGATCCCGACAAAGACGAAAGGCTTTGCCGCCTTCCGTTTTGGCGAAGGCGGATAA	MNTANPEKALAMSQAKLLCDTMSTLAESPVWDERRQALFWCDILGKAVRSAALEPGLYREWAFPHTVSSLGLCRNGDLIVACGMDIVILDPESGKTRLLHSLPSPDGIPCRLNDGRIGPDGAFWVGTMHNVPLADMEPHGELWRITEKSAERMQTGLTCPNGLAFSPDGSIMWQSDSVQKWIRRRKFDSRNGTFDEGVLVARMTEETGRPDGGCLDSSGTYYSAGVSAGLLNVFTSDGKHAEVLAAPVPHPTMPCFGGPDFSILFLTSHRHNMSEDRLAKAPFSGGVWAIPTKTKGFAAFRFGEGG				NA	NA	NA	NA	NA
BMS010_08192	1314	prsE_3		Type I secretion system membrane fusion protein PrsE	ATGTCAAACATTGACCAGCGCAGCCATGTGTCCCGCTCAATCCGCAAACATCTTGTCGCCGGCCTTGCTGCGGGTGTAGCGCTGCTGGCCGGCGTCGGCGGATGGGCTGCGACGACCAATCTTGCCGGCGCGGTTGTCGCCTCCGGCCATCTGGTTGTGGATTCCTACAGCAAGAAGGTGCAGCACCCGAGTGGCGGTGTCGTCGGCGAAATTCTGGTGAATGAGGGCGACAGGGTAAAGGCCGGCGATGTCGTCATGCGCCTTGATGCGACCCAGACCCGCGCCAATCTCGCCATCGTGACCAAGCGTCTGGATGAGCTGAATGCGCGCATGGCAAGGCTGGAGGCCGAGCGCGACGATCTGCCGGAGCTCGTTTTTCCGCAGGCGTTGATGGCGCGAAAAGACGATGCCGATGTCGCCTCCGCCATGCGCAGCGAGACCAAGCTGTTCGAATTCCGCAAATCCTATCGCGAAGGGCGCAAAGCACAGCTTTCCGAACGCATCACCCAGTTCGAACATGAGATTGAGGGGCTGAAGGCGCAGGAAGTCGCCTATGATAACGGCCTTGCCGTGCTGCAGGCTGAAATCACCTCGCAGAAATCCCTGCGCGAACAGGGTATCGTTTCGGTGCAGAGGCTGAACAGCCTGCAGACGCAGGCCGCGACATTTGGCGGCGAGCGCGGCGAAAAAATCGCCTATCAGGCGCAGACGGCAGGGCGTATCACCGAAACCAGACTGCAAATCCTGCAGATCGACCAGGAATTGCGCACCGAGGTCGGGCGGGAGCTGCGGGAAATACAGGCGCAGATGGGCGAATTCGTCGAGCGCAAGGTTGCCGCCGAAGACGAGCTGAAGCGCATCGATATCGTCGCGCCGCAATCCGGCATGGTGCATGAAATGGCCGTGCACACGGTGGGCGGCGTGGTGACGCCGGCGGATCCGATCATGCTCATCGTGCCTGACGGAGACGAGCTGGCGCTGGAGGTGCAGATCGTGCCGAAGGATATCGATCAGCTTCAGGTGGGGCAAAAGGCCATGCTGCGCATGACCGCTTTCAACCAGCGTGTCACGCCGGAACTGGAAGGCCATGTCAGCCGCATCGCGGCGGATATCACCACCGATCAGCGCAGCGGTCTCTCCTATTATCTGGCGCGGATTTCCGTGCCGGTTTCCGAGCGGCAGAAGCTGAACCATGCGCCGCTGGTGCCGGGCATGCCGGCCGAGGCGTTCATTCAGACCAGCGAAAGGACGGCGCTGTCCTATATCGCCAAGCCGCTGACCGACCAGATCAGCCGCGCCTTTCGTGAGGAGTAG	MSNIDQRSHVSRSIRKHLVAGLAAGVALLAGVGGWAATTNLAGAVVASGHLVVDSYSKKVQHPSGGVVGEILVNEGDRVKAGDVVMRLDATQTRANLAIVTKRLDELNARMARLEAERDDLPELVFPQALMARKDDADVASAMRSETKLFEFRKSYREGRKAQLSERITQFEHEIEGLKAQEVAYDNGLAVLQAEITSQKSLREQGIVSVQRLNSLQTQAATFGGERGEKIAYQAQTAGRITETRLQILQIDQELRTEVGRELREIQAQMGEFVERKVAAEDELKRIDIVAPQSGMVHEMAVHTVGGVVTPADPIMLIVPDGDELALEVQIVPKDIDQLQVGQKAMLRMTAFNQRVTPELEGHVSRIAADITTDQRSGLSYYLARISVPVSERQKLNHAPLVPGMPAEAFIQTSERTALSYIAKPLTDQISRAFREE	PGPT0029390_885	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-HEMOPHORE|METALLOPROTEASE_TRANSPORT,PGPT0029390-hasE|prtE-K12537	NA	NA
BMS010_08193	1848	prsD_1		Type I secretion system ATP-binding protein PrsD	GTGGGCTTTCAAAACCACCAGCAGACGCCGCCGCAGTCCCTCACTGCGGCGGTTGTTTCGCCCCTTAAAAGCACATTTCTCGGCGTTGCGCTCGTCAGCGGCGTGGTCAATATACTCGCGCTCACGTCGCCGCTCTTCATGCTGCAGGTTTATGACCGGGTTCTGGCAAGCGGCAGCCTGCCGACGCTGGTCGGGATCGCCATTCTCGCGCTTGGCCTTTACGGCTTCCAGTGCCTGCTCGATATCATCCGCGCCCGCGTTCTGATCCGCATCGGTGAAGATTTCGACATGCGTTATTCCGGCAGGGTGCATGATGCGGTGGTGCGTCTGCCGCTCGTCAACCGCATGCCGGGCGACGGTCTCCAGCCGCTGCGCGATCTCGATAATGTGCGCGGTTTTCTCTCCGGCACGGGGCCGACCGCCTTTTTCGATCTGCCGTGGATGCCGCTTTATCTTGGCATATGTTTTCTGTTTCACTTCTGGATCGGTGTGACGGCGCTCGCCGGCGCGATATTGCTTGTCTCCCTGACGATCCTCACCAATATCTTCTCGCAGAAGCCGATCCGCGACACCATGGTCGAGAATATGGCCCGCAACCGGCAGCTGGAGGCCTCGCGCCGCAATGCCGAAGTCGTGCAGGCCATGGGGCTTGGCGGCCGGCTCGGAAAACGCTGGCAAAATTCCAACGAGGCCTATCTCGCCGCCAATCGCAAGGCGGGCGATGTGGCAGGCGGTCTCGGCAATATCGCGAAGTCTTTACGGGTCGTGCTGCAATCGGCCATTCTGGCGGTCGGCGCGTGGCTCGTCATCAATCAGGAGGCCTCCGGCGGCGTGATGATCGCCAGTTCGATCATGATGGGCCGGGCGCTCGCGCCCGTCGATCTCGCCATTTCCAACTGGAAGTCCTTCGTGGCCGCCCGGCAGAGCTGGGCACGGCTGAGGGAGCTTTTTGCGCAGATGCCGGCCAATGCCGCCGCTACGGCCCTGCCGAAGCCCGAAAAGGAACTGCGGGTCGAAAACGTCACCATCGTTCCGCCGGGAGAAAGAAAACCGACCGTCACCGGCCTTGGCTTCATCGTAACCTCTGGAAACGCGCTCGGCGTCATCGGCCCCTCCGGCTCGGGTAAATCCACGCTCGCGCGCATTCTCACCGGCGCGTGGATGTCGGCGGCCGGCAAGGTACGGCTGGACGGTGCAAGTTTCGAGCAGTGGGAGCGTGAGGCGCTGGGCCGCCATATCGGCTATCTGCCGCAGGGCGTGGAGCTGTTCGATGGCACGATCGGTGAAAATATCTCCCGTTTCGAGGATAATCCCGATCCTGACGCCATCATCGCGGCGGCCAGGGCTGCGGGTGCGCATGAACTGATTCTTCGTTTCGAAAAGGGTTATGACAGCGGTATCGGCGAGGCGGGTTCGGCGCTTTCCGCCGGACAGCGCCAGCGCATCGGCCTTGCCCGCGCGCTATATGGCGATCCCTTCATCGTGGTGCTGGACGAACCTAACGCCAATCTCGATGCGGAAGGCGAAGCCGCCGTGGTCAAGGCGATTTCCTCGGTCAAGGCGCGGGGCGGTATTGCCGTCGTCGTCGCCCACCGGCCGAGCGCCATCGGTGCTGTCGATTTCATTCTGATGATGGAAGAGGGGCGGATGAAGGCCTTCGGCCCGCGCGACGAGGTTCTGTCGAAGGTACTACGCGTTCCGCAGGCGCAGGCGGCCAAGGGATTTACCGCATCCGCCCAGACGATCTCGCCGCTGCGCGTCGTCGCCAATACCCAGCCTCAGGCGCTGGTGCTGGAAGACGTCCGTGAAGAGAACAGCCAGGAAGGAGATGCGGATGTCAAACATTGA	MGFQNHQQTPPQSLTAAVVSPLKSTFLGVALVSGVVNILALTSPLFMLQVYDRVLASGSLPTLVGIAILALGLYGFQCLLDIIRARVLIRIGEDFDMRYSGRVHDAVVRLPLVNRMPGDGLQPLRDLDNVRGFLSGTGPTAFFDLPWMPLYLGICFLFHFWIGVTALAGAILLVSLTILTNIFSQKPIRDTMVENMARNRQLEASRRNAEVVQAMGLGGRLGKRWQNSNEAYLAANRKAGDVAGGLGNIAKSLRVVLQSAILAVGAWLVINQEASGGVMIASSIMMGRALAPVDLAISNWKSFVAARQSWARLRELFAQMPANAAATALPKPEKELRVENVTIVPPGERKPTVTGLGFIVTSGNALGVIGPSGSGKSTLARILTGAWMSAAGKVRLDGASFEQWEREALGRHIGYLPQGVELFDGTIGENISRFEDNPDPDAIIAAARAAGAHELILRFEKGYDSGIGEAGSALSAGQRQRIGLARALYGDPFIVVLDEPNANLDAEGEAAVVKAISSVKARGGIAVVVAHRPSAIGAVDFILMMEEGRMKAFGPRDEVLSKVLRVPQAQAAKGFTASAQTISPLRVVANTQPQALVLEDVREENSQEGDADVKH	PGPT0029385_143	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-HEMOPHORE|METALLOPROTEASE_TRANSPORT,PGPT0029385-hasD|prtD|-K12536	NA	NA
BMS010_08194	756			hypothetical protein	ATGGCTACCACAATTCAACTGACGCAGTCTTCCTCCGATCTGATCGGCTACCTCAACGGTTGGACGAGCGGTTTCGGTTCGACATATGGTGCGTTCTACGACGCTCAGACCAGCTCTCTCGCCACCACCACCATCGATCCGAACACGACCTATGAGGCGTGGGGCGATGGCAGCACCGGCGGCAAGGGCATCGTCATGAGCGGCGCTCTGCAGTACTCCCAGGGCAACCTGACGGGTTCGGTCGACAGCATCGTTCTGGGCACTGGCTACAGCCAGTCCACCAGCGGCATCGCCGTCAGCCAGCAGGAACTGCTGATCGATCCCGACAGCGCCTACTCGCTTGCCGGTGCCCGCGATCTTCTCGATCTTGCCGTTTATCAGCTCGCCCGCTTCGGTTCGCTTGCCGGTTTTTATGATTACTTCGCGGCCACTGGCACGGTCATCGAGGATACGGCTGCCTCCAACACCCTGACCGGCTTTGCCGGCGCAGACACCTTCGTATTCTCCGGCGGCAACGACGTTGTGGCGGCTGGCCCGACCGGCACCTACGGCTACCAGGATGGCACGGATACGCTTGACGTTTCCGCCTGGGGGGCAACTTCGGTGGACGATTTGTTGTGGTATAACGATAATGGAAATGCCGTTATCCTTTCTGCCACAGACACGTCCGTCTCCGTCACACTGAATGGCGTCGATGCAAATGTGCTCGACGCATCGGACTTCATTTTCGCCAGCGCATCGGCGCTTGCCGCGTAA	MATTIQLTQSSSDLIGYLNGWTSGFGSTYGAFYDAQTSSLATTTIDPNTTYEAWGDGSTGGKGIVMSGALQYSQGNLTGSVDSIVLGTGYSQSTSGIAVSQQELLIDPDSAYSLAGARDLLDLAVYQLARFGSLAGFYDYFAATGTVIEDTAASNTLTGFAGADTFVFSGGNDVVAAGPTGTYGYQDGTDTLDVSAWGATSVDDLLWYNDNGNAVILSATDTSVSVTLNGVDANVLDASDFIFASASALAA				NA	NA	NA	NA	NA
BMS010_08195	2712	btuB_5		Vitamin B12 transporter BtuB	ATGCTGCTGGCGACAACGGCGGTCGCCGTTTCATTCGCGACGCCCCTTCTGGCCCAGACCGGAGCTAACACCGCCAATTCCCAGCGTCCAGGCGGCGAGCAGGGGGCGACGCGGCCGTTCAATATTCCCGCCCAGTCGCTGTCATCGGTCGTGGGTGCTTTCGGGCGGCAATCCGGCCTTCAGGTCACGCTTGCCACGCCGGCGGCCGGAAATGTGCGCACCAATGCCGTCACCGGCAGTTTCACGGCGCGGGAGGCGCTGTCGCGGTTGCTGGCGGGAACGGGCGTCAATTTCCGTATCGCCGGCAATGGCAGAACCGTCGTCATCGGCACGGGGCAATCGACCGTCGATCTTTCGGCGGCGGAGGGTACGACGGTTCTGGAAACCATTACCCTGACCGGCAAGACCGGGCGCAACTCCATTGCCGGTTCCGGTTATCAGGGGACGCCCGACTGGGTTTATGAAACGCCTACCAGTGTCAGCGTGGTCGGCCGTGAGGCGATCCAGTCGGCCGGGGTGCGCAACACGCGCGATGTTTTCAACCGGGTTTCCGGTGTTTATGCCGGCGAGGGCAATGGCAGCTTCCCAACCGTTTCGCCCAATGTGCGCGGTTTGCAGGAAAGCGGCCGCGTGGTCGTCTCCATCGATGGCGCGCGGCAGAATGCGCAGCGTGGTGCGGCCTTCGGCGGCGCCACGAGCTACACCGCAAGTGCCGGGCAGGGTTATGTGGATGTCGCTTTCATCCGTGCCGTCGAGATCGAGAAAATAACCAATGCGCGCTCAGGCAATGCCGGCTCTCTGGGCGGCAAGGTCGAGTTCCGAACCGTCAGCGCCGACGATCTGATTGCCGAGGGTGAAAACAAGGGTGGGGAAGTGAATGTTTCCCGCGGCACCAATGGTTATGATTTTCAGGGCTCGGTTCTTGGCGCCGTTCGCTCGCCGGATGGTCCTCTCTCCTTCGTCGCCGGCTACAGCCGCACGATCATGGATGAATACAAGATCGGAACAAAAGGCGAGGCTCGCAGCACCGCGCTGACGATGAAGGATTTGCTCGGCCGCGACGGCTGGTCGACCTTTTTCAAGGGCGAAGGCGACTTCGGCGACGTGAAGGCTTCGCTTTCCTGGATGCATCAGGAGAATGATTTCGTTCAAGGCGCTTCCACGGTGATCGACCGGGAAAGCGTGCGAAACGACAGCGTCGTCGCAAAGCTGGACTGGGACCCCGAGAGCGAACTCATAGACCTCAAGTCGTCGCTGTGGCTGAACGATAATATGACGCATGAACTGCGGGCGGAACGAGAGAGATACGCGGCCGAAACGAACCTTGACATGGGCCTGCGCAGCTTCGGCGGCAGCCTGGAAAATACCAGTCGCTTTGATACGGCGGCGGGCGCGCTCAGTCTGAACTATGGGGCAGAAGCCTTCCGGGACATTGCCACATCCGTTGCGACAAGCGCCAAAATCGCGGAAAATCCTTCTTTCGCCAGCAGCTACACGTCATTCAGCCCTGCCGGGCGGCGCGATGTCGCCAGCCTATTCCTTAATGGCGAGCTTGAGCCGGCCGAGTGGATCACGCTGAGTGGCGGTGTGCGTTACGACTGGTCGCGCCTGAAAGGATCTGCGACCTATTATAGTGTCAAGGAATCGATAGTAACGACAAGTGTGCCTTGCGACCTTGTTCGCAATCACTATACGGCCCTGGAATACTTCAATCGGGTCTTTCTGCCTGCAAATTCCCCCATATGGGCATCCCGCTATAATGTTTTTCTCGCCAGCATTTGGCCGCGTACATCGGCCAACTGCATGCCGGGCACCGGTATAACCACCAGTACGCCGGTCCCCGAATATCCATCGCACAATGTCGATATCGATCGCACCTACAGCGCCTGGCTGCCCTCCGCCACCATTGAACTGAAACCCGTCGACTGGTTCCGCCCCTATGTGAGCTATTCCCAGAGCTTGCGTCCGCCGACAATTCTCGAGGCATTTTTCGCTGGAGCACGCCCGGGCGATAGCCCCGGATACGAATACGCGCCGAACCAGGCCCTGCGTGCCGAAAAGGCGACGACCTACGAAGTCGGCGCGAATATGAGCTTCGACGGCGTGCTGCTGGACGACGATTCCATTCGCATAAAAATGGCTGCCTTCCGCCGTGAGGTGAAGGACTATATCGCGCTCGGTTATCTCGTTACGGATCAGGCGCTCGACCGCACCTATACCAGCTTCGTCAATCTGGACGGCACGACCTATATGCGCGGGCTTGAATTCGAAGGCAATTACGATGCCCGCAGTTTCTGGATCGGCGGCTCGGCAACCTTTCTGAAAACAGAATGGCCTGAAAAGACGCAGGTTTTTTCCAACGGCACGACCACCACAACGGGCGAAATCGTTGCCTGGCCGGGCGACGTCGCGCCCAAGGTGAAGCTGACGCTCGATGGCGGCATGCGTTTCTTCGATGAAAAATTCTCGCTGGGCGCAAGGCTCAACCATGTCACGCCGACACAGTCGCGCACGCTGGATACGGAAGGCAATCTGCGTGAGGTGACCGATCCCTACACGACGGTGGATCTCTACGGTTCCTATGCCTTCAACGACAAGGCCACGCTTCGCTTCGCCGTCAACAACCTGACGGACCGCAAATACATCCCGGCAGCCAGCGCTTACACGGCGCCGGGCCGCACCTTTATCGCGACGATGAACGTGAAGTTCTGA	MLLATTAVAVSFATPLLAQTGANTANSQRPGGEQGATRPFNIPAQSLSSVVGAFGRQSGLQVTLATPAAGNVRTNAVTGSFTAREALSRLLAGTGVNFRIAGNGRTVVIGTGQSTVDLSAAEGTTVLETITLTGKTGRNSIAGSGYQGTPDWVYETPTSVSVVGREAIQSAGVRNTRDVFNRVSGVYAGEGNGSFPTVSPNVRGLQESGRVVVSIDGARQNAQRGAAFGGATSYTASAGQGYVDVAFIRAVEIEKITNARSGNAGSLGGKVEFRTVSADDLIAEGENKGGEVNVSRGTNGYDFQGSVLGAVRSPDGPLSFVAGYSRTIMDEYKIGTKGEARSTALTMKDLLGRDGWSTFFKGEGDFGDVKASLSWMHQENDFVQGASTVIDRESVRNDSVVAKLDWDPESELIDLKSSLWLNDNMTHELRAERERYAAETNLDMGLRSFGGSLENTSRFDTAAGALSLNYGAEAFRDIATSVATSAKIAENPSFASSYTSFSPAGRRDVASLFLNGELEPAEWITLSGGVRYDWSRLKGSATYYSVKESIVTTSVPCDLVRNHYTALEYFNRVFLPANSPIWASRYNVFLASIWPRTSANCMPGTGITTSTPVPEYPSHNVDIDRTYSAWLPSATIELKPVDWFRPYVSYSQSLRPPTILEAFFAGARPGDSPGYEYAPNQALRAEKATTYEVGANMSFDGVLLDDDSIRIKMAAFRREVKDYIALGYLVTDQALDRTYTSFVNLDGTTYMRGLEFEGNYDARSFWIGGSATFLKTEWPEKTQVFSNGTTTTTGEIVAWPGDVAPKVKLTLDGGMRFFDEKFSLGARLNHVTPTQSRTLDTEGNLREVTDPYTTVDLYGSYAFNDKATLRFAVNNLTDRKYIPAASAYTAPGRTFIATMNVKF	PGPT0003785_248	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_COMPLEX_RECEPTOR,PGPT0003785-TC_FEV_OM3|tbpA|hemR|lbpA|hpuB|bhuR|hugA|hmbR-K16087	NA	NA
BMS010_08196	996	fecR_3	COG3712	Protein FecR	ATGACCATTGATCCAGAGAAAAAAATTGAATTGCCGGCCGGTAAGGCGGAGGAGGCGGCCGACTGGCTGCTGCGCTTGCAGTCTGGCTCGGCGGAGCCGCGGCTGAAGGCGGAATTCGAGCAATGGCTGGCGGCAGCGCCGGCAAACCGTCTCGCCTGGGAACGAACATGCAAGACGTGGCGCAATCTCGGCCTGGTGGAGCCAGAATTCAAGAACCTCTGGGAAGATGCACCGCATCTGCCCGGCAAGGCCGCGACAAAGCCGCAGCGGCGGCGCTGGTCCGTGCGGCATTATGCCGGCGCGGCTGTGGCGGCGGCGTCCCTCTGTCTTGCGGTACTGTTCGTTCCGGCATTTTTCGTTCGTCTGGAGGCGGACTATCAGACCACCACTGCCGAAAGCCGCACGATCATCCTCGAGGACGGCAGCAAAGTACAGCTTGCCGCCGCGAGCGCGCTGTCAACGGATTTCACGAATGGCCGCCGCAATGTGACGGTGCTGAAGGGGGAAGCCTTTTTCGACGTCGTGCCGGATAAAACGCGTCCCTTCGTCGTGGAGGCAAAAAACGTGACCGTTCAGGTGATGGGCACGGCTTTCGACGTCGACCTGACGGATGGCGTAACCCAGGTGGCGCTGGCGCACGGTTCCGTGGAGGCGTCTTTCCGCAATGCGCCGCCAACGCGGCTGGTGCCGGGCGAGATGCTGATTGTCGACGCTTCGGGCGCAATCCGCAAAGAGACTGTTTCCGTCGAGGATATTGGCGGCTGGCGCAACGGCGAACTCTATGTGGTCGATGCGACGATAGGCTCGGTCGTGGAGCAGATCCAGCGCTACCATCCGGCATGGCTGACCATGGCCGACAAGCGGCTTGCCGAGCAGAGGGTGACGGGCTTTTACGATCTGCGCGACCCGGATCGCGCGCTGGAGGCCCTGGTCGAACCCTACAAGGGCAAGGTGCATACGATTGGCGGCGGCGCGCGCATCATCACCCGCTTCTGA	MTIDPEKKIELPAGKAEEAADWLLRLQSGSAEPRLKAEFEQWLAAAPANRLAWERTCKTWRNLGLVEPEFKNLWEDAPHLPGKAATKPQRRRWSVRHYAGAAVAAASLCLAVLFVPAFFVRLEADYQTTTAESRTIILEDGSKVQLAAASALSTDFTNGRRNVTVLKGEAFFDVVPDKTRPFVVEAKNVTVQVMGTAFDVDLTDGVTQVALAHGSVEASFRNAPPTRLVPGEMLIVDASGAIRKETVSVEDIGGWRNGELYVVDATIGSVVEQIQRYHPAWLTMADKRLAEQRVTGFYDLRDPDRALEALVEPYKGKVHTIGGGARIITRF	PGPT0003910_3439	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0003910-prhR|fecR-K07165	NA	NA
BMS010_08197	501			hypothetical protein	ATGGGCATACGGGAAGATGACAAGCGTTATAACGCTTACGTCGCGCATAGGGTCGACCTGATCAAATACGCCACCCTCATTCTGGGGTCGCGGGCGGATGCGGAGGACGTGGTTCAGGAAGCATTCCTGAAATTCGTTCCGGAGGCCTCCGGCAATCCTTCCAATCTCAAATCCTATCTCTTCCGCATCGTTCGCAATCTTGCGCTCGACAATCGCCGGCGCAGCCGCCAGGACCTTCGGGAACGGCCGGACGATACGCCGTTCTGGGGTGTGCCGCAGGACAATGGTACGCCGGAAGAGCATGCCCTTTTCTGCGACGAAGTTCGCCAGATGCGGACTATTTTGGCCGGCCTGCCGGTTCAGGCGCGGGTGGCATTGGAAATGCACAGATTCGGTGGTTACAATATGGAAGAGATTGCGCGTCACCTTGGCGTGTCCGTGGCCAGCGCACATCGTCTGATCAAGGGCAGCATTGCCGCGATTACCAAAGAAATGAAGTAA	MGIREDDKRYNAYVAHRVDLIKYATLILGSRADAEDVVQEAFLKFVPEASGNPSNLKSYLFRIVRNLALDNRRRSRQDLRERPDDTPFWGVPQDNGTPEEHALFCDEVRQMRTILAGLPVQARVALEMHRFGGYNMEEIARHLGVSVASAHRLIKGSIAAITKEMK				NA	NA	NA	NA	NA
BMS010_08198	315			hypothetical protein	ATGACCTATGATGCTCTCAAAATCCCCAAGTTCCTTAGCGTGTTGACTGTGTTGGTCACGGGGCTGCTCTCTGGCTGCGCGAGAATCCCACCGGTGTTTTCGGACGATGGCGCGACAATTTCATTCAAGGGTGAAAAGTTTAAGTACCGTGCTCCCGGTCACGCCGAAGCGTCCTGCAAATTTGACGATCAGAGAAAATTGGCAGTTTGTGACAACGGCCTAACCTCCAGGTTGGTAGTGGCCGGGCTTCCCTTCCATGGCGTCGTATTAGTTGAATTCGACGGGCGGATTTTTAGGCCCACGGAACATCCCTAA	MTYDALKIPKFLSVLTVLVTGLLSGCARIPPVFSDDGATISFKGEKFKYRAPGHAEASCKFDDQRKLAVCDNGLTSRLVVAGLPFHGVVLVEFDGRIFRPTEHP				NA	NA	NA	NA	NA
BMS010_08199	753	fecE_1	COG1120	Fe(3+) dicitrate transport ATP-binding protein FecE	ATGGTAGCGCTCGCACTGAAAGATGTCGGCGCCGCCTATGGGCGCATCACGGTTCTCTCCAAGGTTGGCATCGATACGCTGGAAAGCGGCAGTGTGACGGCGGTGATCGGCCCGAATGCCGCCGGCAAGTCGACGCTTTTCAAGCGCATCGCCAGCCTGATTTCCGGCCCCGGACTGGTCGAGCTCTCCGATACGGCTCGCGGCAACCGCGCCATCTGCTACATGCCGCAGGATACCGGCGCCAATGCCGTGCTGACCGTCTATGAATCCGTGCTTCTTTCCGCCAAGCAGGGCGGCGGCTGGCGGGTCCATGACGATGAGCTGTTCGAGATCGACGCCATTCTCAAGGCGCTGAAAATCCATGACCTTGCTTTCCGCGGGCTTGGCGAATTGTCGGGTGGTCAACGCCAGCTTGTTTCGCTGGCGCAGGCGCTGGCACGCAAGCCGGAAGTGCTGCTGATGGATGAGCCGACGTCTGCGCTCGATCTTCACCGGCAGATCGAGGTTCTGGGTTTCGTTACCGATCTGGCGCAGAAGACCGGCATGATCGTGCTGATCGCTCTGCATGACCTCAACCATGCGCTTCGTTATTGCGCAAATACGATGGTTATCGCGCGCGGTGAAATGGTGGTGAGCGGTAGCACGGAGGCGGTTATAACCCCGGAGATGCTGCGCGATATCTATCGCATCGATGCCCGTATCGAGCCCTGCTCGCAGGGCAGACCCATGGTCATTGTCGACGGGGCCATCTGA	MVALALKDVGAAYGRITVLSKVGIDTLESGSVTAVIGPNAAGKSTLFKRIASLISGPGLVELSDTARGNRAICYMPQDTGANAVLTVYESVLLSAKQGGGWRVHDDELFEIDAILKALKIHDLAFRGLGELSGGQRQLVSLAQALARKPEVLLMDEPTSALDLHRQIEVLGFVTDLAQKTGMIVLIALHDLNHALRYCANTMVIARGEMVVSGSTEAVITPEMLRDIYRIDARIEPCSQGRPMVIVDGAI	PGPT0003760_8607	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003760-yusV|ABC_FEV_A|feuD-K02013	NA	NA
BMS010_08200	1068	btuC_3		Vitamin B12 import system permease protein BtuC	ATGAGTTCGGTGAATGAAAGCGCGGTTGGCATCAGTGGGCGCGATCAATATCGCGCCCTTGCCGCGCGCAGGATAATCATCCTCTTCGGGCTTTTTATCGCGCTGTGTTTCAGCATGGCCGCCGACATGGCGCTCGGTCCGGCGCGCTACACGCTCTCCGAGGTTCTGGCGACGATTGCCGATCCGGCCGCCGTGGGAAACCAGCTTCGGGTGGTGATCTGGGATATTCGCATGCCGATCGCGCTGATGGCGGTGACCGTCGGAGCGTCGCTTTCGGTTGCGGGGGCGCAGATGCAGACCATCCTGTCGAACCCGCTCGCCAGCCCCTTCACGCTCGGCATTTCGGCGGCGGCAAGCTTCGGTGCGGCGCTGGCGCTGGTTGGCGGCGTGGCGATCTTTCCGGGCGCCGTGCATTACATGGTGCCGATCAACGCCTTCATCATGGCCATGGTCGCGGCTCTCTTCATCCATTTCGCCTCGACGCTTCGCGGGGTAACGGTCGAAACCATCGTGCTGCTCGGCATCGCGCTGGTGTTCACCTTCAATGCGGCACTGTCGCTGCTCGAATATCTCGCCTCCGAACAGGCGCTTGCCGCCGTGGTTTTCTGGACAATGGGCAGCCTGACGAAGGCGACCTGGGACAAGGTCTATATCACCGCCGCCATCCTCCTCGTCACCGTGCCGTTGTTCATGCGTAATGCCTGGGCGCTGACGGCGCTGAGGCTCGGCGATGACAAGGCGGCCAGCATGGGCATCAATGTCCGGCGGCTGCGGTTGACGACCATGCTGACGGTCAGCCTGCTGGCGGCCATTCCGGTTTCCTTTGTCGGCACAATCGGTTTCGTCGGGCTGGTCGGTCCGCACATCGCCCGTATGGTGGTGGGTGAGGACCAGCGTTTCTTCCTGCCCGGCTCGGTGATCTGCGGCGCGCTGCTTCTGTCGGCAACCTCGGTCATCAGCAAGATTCTCATTCCCGGCGCTATTCTGCCGATCGGCGTCATCACGGCGCTCGTCGGCGTTCCGTTCTTCTTCGCGCTTATTTTCGGCAACAGGAGGCGCGCATGGTAG	MSSVNESAVGISGRDQYRALAARRIIILFGLFIALCFSMAADMALGPARYTLSEVLATIADPAAVGNQLRVVIWDIRMPIALMAVTVGASLSVAGAQMQTILSNPLASPFTLGISAAASFGAALALVGGVAIFPGAVHYMVPINAFIMAMVAALFIHFASTLRGVTVETIVLLGIALVFTFNAALSLLEYLASEQALAAVVFWTMGSLTKATWDKVYITAAILLVTVPLFMRNAWALTALRLGDDKAASMGINVRRLRLTTMLTVSLLAAIPVSFVGTIGFVGLVGPHIARMVVGEDQRFFLPGSVICGALLLSATSVISKILIPGAILPIGVITALVGVPFFFALIFGNRRRAW	PGPT0003770_2177	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_TRANSPORT,PGPT0003770-feuB|feuC|chuU|yfhA|hmuU|ABC_FEV_P|fatC|fatD-K02015	NA	NA
BMS010_08201	1140			hypothetical protein	ATGCGGCTCAACGCTCTCAGGCATCTTGCGGTGCTGGCTTTCTCCCTTCTCGCCGTGCCGGTTCTGGCGGCTGAGATTACCGATGTCACCGGTCGCAAAGTCGAGCTGGATTTGCCGGCCAGACGCGTCATCGTCGGTGAGGCGCGCCAGGTACATGTCATTGCCGCGCTCAAGGGCGAAAAGACCTTCGACACCATCGTCGGCTGGCGTGACGATCTTCTCAAGAAGGACCCCGACAGCTACACCGCCTATGTCGAGCGTTTTCCGCAGATCGAGAAACTGCCGCGCTTCGGTTACGTGCCGCAGGGCGATTTCAGCCTGGAAACGGCCATCACCCTTTCACCCGATGTGATCACCCTCAATCTGGAAGCGGAGAAATCCGCCAAGGAGAGCGGTTTCGAAGAAAAGGCCGCCGCCGCCGGCATCAAGATCATCTATCTCGATTTCCGCATCGATCCTGAAAAGAACAGCGAAGCCTCGGTCGAAATTCTCGGCAAACTCTTCGGCGCCGAAGAGCGGGCGAAGGAATTCATCGCTTATCGCCGCGCCGAAATCGCCCGCGTGACCGACCGGCTCGCCAGCGTCAAGGACTTGAAGCGCCCGAACGTCTTCATCGAACGCGCGCCCGGCATTTCCGGCGAAAACAATTGCTGCCGCACTTTCGGACCCGTCAATTTCGGCGCGATGGTCGATCTTGCCGGCGGCCACAACATCGCCGACGGCATCATCAAGACGACCTTCGGCGATCTCAATCCCGAACAGCTCGTCGTTGCCGATCCTGACCACGTCATCGTCACCGGCTCCAACTGGGCCGCCGAATCCGACATCAACCAGTTCGTTCCTGTCGGACGCGGGGCGGATATGGCTCTCTCCCGTGAGCGGCTGGCCAATCTGATGAAGCGCACGCCGTTTCCGGAACTGAAGGCCGTGAAGCAAGGCAATGTCCATGCCGTCTGGCACCAGTTCTATGGCGCGCCCTACGAATTCTTCCCGATCCAGCAATTCGCCAAGTGGTTCCATCCCGATCTCTTCGCCGATCTCGATCCGGAAAAGAATTTTGAGGAGTTTCACCGCAAATTCCTCCCCGTCACCTACAAGCCGGGCTATTTCGCCTCGCTCGAAAAAGGTTTGAACCAATGA	MRLNALRHLAVLAFSLLAVPVLAAEITDVTGRKVELDLPARRVIVGEARQVHVIAALKGEKTFDTIVGWRDDLLKKDPDSYTAYVERFPQIEKLPRFGYVPQGDFSLETAITLSPDVITLNLEAEKSAKESGFEEKAAAAGIKIIYLDFRIDPEKNSEASVEILGKLFGAEERAKEFIAYRRAEIARVTDRLASVKDLKRPNVFIERAPGISGENNCCRTFGPVNFGAMVDLAGGHNIADGIIKTTFGDLNPEQLVVADPDHVIVTGSNWAAESDINQFVPVGRGADMALSRERLANLMKRTPFPELKAVKQGNVHAVWHQFYGAPYEFFPIQQFAKWFHPDLFADLDPEKNFEEFHRKFLPVTYKPGYFASLEKGLNQ	PGPT0003765_892	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003765-feuA|yvrC|ABC_FEV_S|fatB-K02016	NA	NA
BMS010_08202	273			hypothetical protein	TTGAAGGAAGCTCATCGCAAGCTTGAAAACCTGACCAAGCGCCCGGCTTTCACCGGCGTGCAGGCGGTGAAGGACGGTAATGTCCACGCCATCTGGCATCAGTTCTACAACAATCCCTATCAGTTCGTGGCCGTTCAGGAAATCGCCAAGTGGCTGCATCCGGACCTCTTCAAGGACCTCGACCCGGAGGCGACCTTCAAGGAACTGCATGCCCGCTTCCTGCCGCTCGACTACAAGCCCGGCTACTTCGTTTCGCTGAAGGACGCCAAGTAA	MKEAHRKLENLTKRPAFTGVQAVKDGNVHAIWHQFYNNPYQFVAVQEIAKWLHPDLFKDLDPEATFKELHARFLPLDYKPGYFVSLKDAK	PGPT0003765_1034	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003765-feuA|yvrC|ABC_FEV_S|fatB-K02016	NA	NA
BMS010_08203	864			hypothetical protein	ATGCGCATCTCAGCCAAATCTGCGGCACTTGCCCTTGGCCTTCTCGTATCCGCCGCATGGCCTGCATTCGCCGAAAAGGTCACCGTCAAGGATGTGACGGGCCGCGATGTCGAGGTGAATGTGCCGGTATCGCACGTCATCCTCGGTGAAGGCCGCCAGATTTATTTCCTGGCTGCACTCGACAAGGAAAACCCTTTCCAGCACGTGGTTGGCTGGCGCGACGATCTGGCGAAAGCCGACCCGGAAACCTATGCGGCCTATCTCGCCAAGTATCCGGAGATCGCCAAGCTGCCGACTTTCGGCGGCATGAAGGACGGCACTTTCGACATAGAACAGGCTGTTGCCCTGAAGCCTGACGTGATCCTGATGAATATCGACGCCAAGACGGCGACCGAAGAAGCGGGCTATATCGAAAAGCTCGCAAAGGTCGGCATTCCGCTGGTTTACGTCGATTTCCGTGAAAAGCCGATGGAAAATACCGAGCCGAGCATGCGCCTCATGGGCCAGCTGACGGGCAAGGAAAAGATCGCCGAGGACTTCATCAAGTTCCGCGCCGACTCCATCGCCAAGGTCACCGATACGCTCGAAAAGGCCAATCCGAAGAAGCCTGTCGTGTTCATGGAGCGCGCCGGCGGTTATTCCGATGATTGCTGCATGTCCTTCGGCAACGAGAACTTCGGCAAAATGGTGGAGCTTGCCGGCGGCATCAACATGGCCAAGGACATCATTCCCGGCACTTTCGGCACCGTCAATCCGGAACAGATCATTGCCTCCAACCCGGGCAGATCATCATCACCGGCGGCAACTGGAACGGTTATGTTCCGGGCGGCAACTGGGTCGGCGTCGGTTATGGTGCGGATTTGA	MRISAKSAALALGLLVSAAWPAFAEKVTVKDVTGRDVEVNVPVSHVILGEGRQIYFLAALDKENPFQHVVGWRDDLAKADPETYAAYLAKYPEIAKLPTFGGMKDGTFDIEQAVALKPDVILMNIDAKTATEEAGYIEKLAKVGIPLVYVDFREKPMENTEPSMRLMGQLTGKEKIAEDFIKFRADSIAKVTDTLEKANPKKPVVFMERAGGYSDDCCMSFGNENFGKMVELAGGINMAKDIIPGTFGTVNPEQIIASNPGRSSSPAATGTVMFRAATGSASVMVRI	PGPT0003765_1088	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003765-feuA|yvrC|ABC_FEV_S|fatB-K02016	NA	NA
BMS010_08204	825	COQ5_4		2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial	ATGATCGACACAATCCAATATGGCAAAAACGACAGTCTAAGAGACGAAATCAAATCCTACTGGTCCGGCCGCGCCGCGACTTTCGACCTTTCCCCCGGACATGAAATTTTTTCCGAAGACGAGCGCGAGGCCTGGCACGCGCTTATCCTGAAACATCTCGGCCGCGGAGAAGGCCGCAGGGCGCTCGATCTTGCCAGCGGCACCGGCGTCATCTCGCACCTGATGGACGATCTCGGTTTTCAGGTCACCGGCATGGACTGGTCGGAAACCATGCTGGCGCTTGCCCGTGAAAAAGCGAAAAGCCGTGGCCGCAGCATCCGCTTTTTCGTCGGCGATGCCGAAAACACGATGGAGCCGGGTGAAAGCGCCGATGTCATCATCACCCGTCATCTGGTCTGGACGCTGGTGGACCCGCAGGCAAGCTTTGCCGAATGGTTCCGCGTTCTGAAACCGGGCGGACGGCTTCTGATCGTTGACGGCGATTTCGTAAATACCGGCTGGCGCGAAAAACTGGTGAAGAAACTGGCGGCCGGTCTCGAAAGCATCGGCCTCGTCAAACCGGACCAGCCGCACAAGCCGGCGGACCCGGAAAACACCTTCAACAGCATTCTTTCCCGCGTTTATTTTTCGAAGGGCGCAAGGGCCGGCGATGTCGCGGCGCTGTTGCGTGCGACCGGCTTCGAACCTGTCGCAATCGATCAGGACCTTCAGGCCATTCACCGCGCCCAGGCGAAAAATTTCAGCCTGCTGAAAGGTATTCTGCGCGGGCTGCAGCATCGTTATGCTGTGTGCGCGGTGAAGCCGGATGTTTCCGGAAAGGCATGA	MIDTIQYGKNDSLRDEIKSYWSGRAATFDLSPGHEIFSEDEREAWHALILKHLGRGEGRRALDLASGTGVISHLMDDLGFQVTGMDWSETMLALAREKAKSRGRSIRFFVGDAENTMEPGESADVIITRHLVWTLVDPQASFAEWFRVLKPGGRLLIVDGDFVNTGWREKLVKKLAAGLESIGLVKPDQPHKPADPENTFNSILSRVYFSKGARAGDVAALLRATGFEPVAIDQDLQAIHRAQAKNFSLLKGILRGLQHRYAVCAVKPDVSGKA				NA	NA	NA	NA	NA
BMS010_08205	444	bcp_3		Pseudoazurin	ATGATGAAGTTGCTGAATTTTGCCGGGATTGCCGTGGCGATTAGCATGGGTTTTCCCTTTCATGCTTCCGCCGAGACCTTCGAGGTGAAAATGCTGAACCGGGGAGAAAAAGGCCCGATGGTGTTCGAACCCGACTTTCTGGAAATCGCCCCCGGCGACCGTGTGCGCTTCGTGCCCACCCACAAGAGCCACAATGCCGCGACCATTGACGGCATGATCCCTGAAGGTGTCGAAGGTTTCAAAAGCCGGATCAACGATGAATTCGAGACCGGTTTCGAAAAACCGGGCTTTTACGGCATCAAATGCTCGCCGCATTACGGCATGGGCATGGTCATGCTGATCAAGGTGGGCGAGGCGACCCTGCCGCAAAGCTACAGGACGGTGGATGTGCCCGGCCGGGCGAAGCCGCGCTTGGAGGAATTATTCGAGCGGGCGGGAAAATGA	MMKLLNFAGIAVAISMGFPFHASAETFEVKMLNRGEKGPMVFEPDFLEIAPGDRVRFVPTHKSHNAATIDGMIPEGVEGFKSRINDEFETGFEKPGFYGIKCSPHYGMGMVMLIKVGEATLPQSYRTVDVPGRAKPRLEELFERAGK				NA	NA	NA	NA	NA
BMS010_08206	801	fecE_2	COG1120	Fe(3+) dicitrate transport ATP-binding protein FecE	ATGAAGTTATCCGCTCACGACCTGCATTTCCACGCCGGCAATATCGATATCGTGCGTGGGGTCTCGCTCGATGTCGGTTCGGGTGAGTTTCTCGGCATCATCGGACCGAACGGTTCCGGCAAAAGCACGCTGCTTTCCATGCTGGCAGGCATTCGCAAGCCGCGCCGGGGGCACGTTACGCTTGGGGATGAGCCGCTTGCCTCATTGGGACGGCGAGACCTTGCCCGCCGGCTTGCCTTCGTGGAGCAGCAGGCCGAAACTACCGAACGGATCACCGCACGGCAGGCGGTGGAGCTTGGGCGCACGCCCTATCTCGGGCCGCTTTCCGCCTGGTCGCAGCAGGATGACGCCATTGTTGATGCAGCACTTGCCAATGTCGACATGGCCGACAAGGCGGAGCGCAACTGGCACCATCTTTCCGGCGGCGAACGCCAGCGCCTGCATATCGCCCGCGCATTGACGCAGGAGCCGCATATCCTGCTTCTGGACGAACCGACCAATCACCTCGACATAGGCCACCAGATCGGCCTGCTCGATCTGGTGCGCCGGCAGGGTTTGACCGTTGTGGCGGCGCTGCACGATCTCAATCACGCCGCCATGTTCTGTGACCGGGTCGCCATCATGCATCGGGGCGAGATGATTGCGGTCGGTCCGCCGCGCGAGGTTCTGACACCAGCGAGAATAGCCGCGGTCTTCGGGGTGGAATGCGTTGTCACCACGGATGAGGGCGGCTTTTCCCATATTCGTTTTCTGCCGGCCCACGGGCGGGCCGAGCATCCAAGGAAAGTACTGGCACGATGA	MKLSAHDLHFHAGNIDIVRGVSLDVGSGEFLGIIGPNGSGKSTLLSMLAGIRKPRRGHVTLGDEPLASLGRRDLARRLAFVEQQAETTERITARQAVELGRTPYLGPLSAWSQQDDAIVDAALANVDMADKAERNWHHLSGGERQRLHIARALTQEPHILLLDEPTNHLDIGHQIGLLDLVRRQGLTVVAALHDLNHAAMFCDRVAIMHRGEMIAVGPPREVLTPARIAAVFGVECVVTTDEGGFSHIRFLPAHGRAEHPRKVLAR	PGPT0003760_3435	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003760-yusV|ABC_FEV_A|feuD-K02013	NA	NA
BMS010_08207	1029	yfhA_3	COG0609	putative siderophore transport system permease protein YfhA	GTGAACGGTCTTTCCATCCATCTCGGCAGAGTAGGGCTGGCTTTTGCTGCGCTCGCACTGCTGCTCGTCGCGCTGATGGCCGGGGCGGCCATCGGCGAGACCGCCATTCCTTTCGACGTCGTGGCGAAAACAATCGCCAACCGCGTCTTCCATGCGGCCTATCCGCTGGAGCCGCTGGATGAGGGCATCGTCTGGAGTTATCGTCTCAGCCGCGCGGTCGTCGCCGCCTGTTGCGGCGCTTCTTTGGCGCTGGCCGGGGCGGTGCTGCAATCGCTTCTGCGCAATCCGCTTGCCGATCCTTATATTCTCGGCATTTCCGCTGGCGCCTCCACCGGTGCCGTCGCTGTCGCGCTGCTTGGCTTCGGAGCGGGGTTCCTGACGATGCCGGCCGGGGCGCTTATTGGTGCCTTCGTTGCGTTTTCGCTGGTCAGTCTTCTGGCGGTGCGGGCGGGACACGGCAACAGCGCCATCATTCTGGCGGGGGTGGCCGGGTCGCAGCTGTTCAACGCCATGACCTCTTTCATCGTCACCAAATCCGCTAATGCCGAACAGGCGCGCGGCATCATGTTCTGGCTGCTGGGCAACCTCTCGGGCGTGCGCTGGCCGGATGTCTGGCTGGCGCTTCCGGTCAGTCTCGCGGGACTTGCGGTGTGTCTCTGGTATGCCCGGGCGCTCGATGCCTTCGCCTTCGGCGGTCAGGCTGCTGCCTCGCTCGGCATTCCGGTGCGCTGGGTCTATGCGGTGCTGATCTCCGTTTCGGCGATCATGACGGCTGCGATGGTGTCGCTGGTGGGCTCCATCGGCTTCGTGGGCCTCGTCATTCCGCATGCCGCGCGCATCTTCGTCGGCGTTCGCCATGGCATATTGCTGCCGGTGACGGCGCTGACCGGCGCGGTTTTCATGATCGTCGCGGATATTCTCTCGCGCATTGTCATTCCGGGGCAGGTGCTGCCCATCGGTGTCATCACCGCGCTCGTCGGCGCGCCCGCCTTTGCCTTCATCCTTGGGCAGAAGAGGGGGCGTTCATGA	MNGLSIHLGRVGLAFAALALLLVALMAGAAIGETAIPFDVVAKTIANRVFHAAYPLEPLDEGIVWSYRLSRAVVAACCGASLALAGAVLQSLLRNPLADPYILGISAGASTGAVAVALLGFGAGFLTMPAGALIGAFVAFSLVSLLAVRAGHGNSAIILAGVAGSQLFNAMTSFIVTKSANAEQARGIMFWLLGNLSGVRWPDVWLALPVSLAGLAVCLWYARALDAFAFGGQAAASLGIPVRWVYAVLISVSAIMTAAMVSLVGSIGFVGLVIPHAARIFVGVRHGILLPVTALTGAVFMIVADILSRIVIPGQVLPIGVITALVGAPAFAFILGQKRGRS	PGPT0003770_5393	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_TRANSPORT,PGPT0003770-feuB|feuC|chuU|yfhA|hmuU|ABC_FEV_P|fatC|fatD-K02015	NA	NA
BMS010_08208	1032			hypothetical protein	ATGTTTCATTCTAGACGCCTGCCTGTCCATGCCGGTTTTCTGGCCGCTGCGCTTGCGGCTTTGCCTGTCGCCGGCGCCAATGCTGCCGAAACGACCTATCCCCTGACGATCAACAGCTGCGGTCAGGAGATCACCTTCAAGCAGGCGCCCGCCCGCACCGTGTCCGTCGGCCAGAGCACGACCGAGGTTCTTTACCTCCTCGGCCTCGCCGACAAGGTGGTCGGCACGGCGCTGTGGATCGGTCCGGTTCTGAAGGGCTACGAAGAGGCCAATGCCAGGGTCGAGCGTCTGGCTGACAATGATCCGAGCTTCGAGGCGGTCATCGGCAAGAAGCCGGACCTCGTGACGACGCAGTTCCAGTGGCAGATCGGCCCGGAAGGCGTTGTCGGAACACCGGCGCAATTCGCCGAGCTTGGCGTTCCCGTTTATACCTCGCCCGCCGATTGCATGGGCAAGGACAATTCCGGCGGCGGCGACGGCGTGCGCAACACCGTCTTCACCATGGATCTGATCTACCAGGAAATCCGCGATCTCGCCAAAATCTTCAACGTGCAGGATCGCGGTGAAGAGGTCGTTGCCGACCTGAAAAAGCGTGAAGAAGCCGCCCGCGCCAAGATCGCCTCGGCAAATGGCAAGCTTTCGGCCGTCTTCTGGTTCTCCAGCGCCGAGCTGGATATCGATCCCTATGTGGCTGGACGCAATGGCGCTCCCGGCTACATCATGTCCGCGCTGGGCTTAAAGAACGTCATCGAAAGCGATGAAGAATGGCCGACCGTCGGCTGGGAAACCATCGCCAAGGCAAATCCGTCCATCATCGTTGCCGGCAAGATGGATCGCCGCCGTTTCCCGGCTGACGATGTCGCCGTCAAGCTGAAGTTCCTCGCCACCGATCCCGTGGCCAGCATCATGCCCGCCGTCAAGGAAGGTCATGTGTTCGAGATGGATGCGCAGGCGATGAACCCGACCATTCGCACCATTGAAGGCATCGAAACGCTGGCCGAGGCGATTTCGGCTGCCGGCCTCGCGAAGTGA	MFHSRRLPVHAGFLAAALAALPVAGANAAETTYPLTINSCGQEITFKQAPARTVSVGQSTTEVLYLLGLADKVVGTALWIGPVLKGYEEANARVERLADNDPSFEAVIGKKPDLVTTQFQWQIGPEGVVGTPAQFAELGVPVYTSPADCMGKDNSGGGDGVRNTVFTMDLIYQEIRDLAKIFNVQDRGEEVVADLKKREEAARAKIASANGKLSAVFWFSSAELDIDPYVAGRNGAPGYIMSALGLKNVIESDEEWPTVGWETIAKANPSIIVAGKMDRRRFPADDVAVKLKFLATDPVASIMPAVKEGHVFEMDAQAMNPTIRTIEGIETLAEAISAAGLAK	PGPT0003765_4124	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003765-feuA|yvrC|ABC_FEV_S|fatB-K02016	NA	NA
BMS010_08210	879			hypothetical protein	ATGGAGCTGCTCAAAGTCGATAGTTTCGAGTTACGGACAGTGGATATCGCCGATGTGGAGGCCGATCATCTGCATGCTTTGTCCATGGCTGTCGGATGGCGATATCACGCGAACGAATGGTGTTTCCTGCGGCAGTGCGGCGTCGGCCTTGCCGCGCTTGACGAGATCGATCGTGTTGTCGCAACGGCAATGCTGTTTCCTTATGATGAGGCTTTCGCGACGGTCGGCATGGTCATCGTTTCCCCGCGTTTGCAGGGGCAGGGCGTCGCACCATGGCTGGTGGGCCAGCTCATTGCGGGCTACCCTGAAGCCGCCCTGCGGTTGAACGCCACGGAAGCCTCGCGACGGCTTTTCGCACGGCTGGGTTTTGCCGGAGATACGGAGAAAGTACATCTCCTGCGCGGCAAGGCGCGTTGCCCTGCCGAGATGCCGATGCTTGGAAGAAAACAGAGAATCGAGCCGCTGTCCGAGGATCATTTGTCCGCCGTGGCGGATCTGGATCGGGCGGCTTTCGGTGTTTCGCGCCGGGGCGTCCTGCAACGCCTTCTCCGGGAAAATAAGGGTTACGGCCTGTTCGAGGCCGATCGTCTTGCCGCCTTTGCATTGCGGCGTGCAGCGGGGCGGGGCCATATTGTCGGTCCGGTCGTCGCCGGTGACGAGGCGGATGCGATTGCGCTGGTGAGGCGACATTTTTCCGATCTCGACGATCAGCTTGTCCGTCTCGATACCGTGCGGGATAGCGGTCTTCTGACCGAGTTTCTGACGCAATCCGGGCTGGTGGGGATCGAAACGCTCACCGCCATGTCGAAAGGCGCGCCGCAACCGGCAGGCTCCGGTTCCGCAAAGATTTTCGCCCTGGCAAGCCCGTCTTTGTGCTGA	MELLKVDSFELRTVDIADVEADHLHALSMAVGWRYHANEWCFLRQCGVGLAALDEIDRVVATAMLFPYDEAFATVGMVIVSPRLQGQGVAPWLVGQLIAGYPEAALRLNATEASRRLFARLGFAGDTEKVHLLRGKARCPAEMPMLGRKQRIEPLSEDHLSAVADLDRAAFGVSRRGVLQRLLRENKGYGLFEADRLAAFALRRAAGRGHIVGPVVAGDEADAIALVRRHFSDLDDQLVRLDTVRDSGLLTEFLTQSGLVGIETLTAMSKGAPQPAGSGSAKIFALASPSLC				NA	NA	NA	NA	NA
BMS010_08211	1125	argE_1		Acetylornithine deacetylase	ATGAACGCAATCGACATTCTGGAGCGTCTTGTCGGCTTCCCGTCGGTGGTCGGAACCGCCAATGGCGACATCGCCGGATGGATCGCCGATTATCTGGAAAGCCACGGCGCAAAAGTATCGCTGCTTGCCGGCCCGGAAGGCGACCGCGCCAATCTCTTTGCCAGCTTCGGCCCGACCGATGCCAGCGGATACATCCTTTCCGGCCATATGGATGTGGTGCCTGCCGGTGAGCCGGAATGGTCCTCCGATCCCTTTACCCTCAGGGCCGAAGGCGAGCGTCTCTACGGACGCGGAACCACCGACATGAAAGGGTTTCTGGCCACGGTTCTCGCCGCAGCACCGGCATTTTCACGCATGGCGCTGAAGCGGCCCGTTCACATCGCCTTTTCCTATGACGAGGAGGCGGGCTGCCGCGGCGTTCCCCATCTCATCGCCCGGTTGCCGGAACTATGCGCAAAACCGGCGGGTGCGATCATCGGCGAACCGAGCAATCTGCGCGCCGTGCGCGCCCACAAGGGCAAGGCCGCCGCACGCATCACGATTCGCGGCCGCTCCGGCCATTCCTCGCGGCCGGATCAGGGCGTGAACGCCATTCATCTGATGACCGGCATCATGGCAAAGGCGGTCGAGACCGCACAGGCTCTCACCCAGGGGCCTTTCGAAGCGACGTTCGAGCCGCCCTATTCCTCCCTGCAGATCGGCACGGCGAAAGGCGGACAGGCGATCAATATCATCCCCGATCTCTGCGCCATCGAACTGGAGGCGCGGGCGATTGCTGGTGTATCGCCGATCGCTCTGCTCCAGCCGGTGCGCGACCGTGTCGAAGCGCTCGCCGCCGAGCGCATCGACATAGAATGGACGCCGATGAGCGATTATCCGGCGCTGTCCCTTGCCGCCGATGCACCCCTTGTGAAGCTTCTGGAAGAATTGACCGGCGCGCCCTGCATCGCCGCCGTCAGCTATGGCACGGAGGCCGGGCTTTTTCAGGCGGCCGGCATCGACGCCATCATCTGCGGCCCGGGCGATATCGGCCGCGCCCACAAGCCGGACGAATTCATAACGGCCGGCGAACTTTCGGCCTGTCAGTCAATGCTGGAAACACTGGCGAACCGCTGCACGGTTTAA	MNAIDILERLVGFPSVVGTANGDIAGWIADYLESHGAKVSLLAGPEGDRANLFASFGPTDASGYILSGHMDVVPAGEPEWSSDPFTLRAEGERLYGRGTTDMKGFLATVLAAAPAFSRMALKRPVHIAFSYDEEAGCRGVPHLIARLPELCAKPAGAIIGEPSNLRAVRAHKGKAAARITIRGRSGHSSRPDQGVNAIHLMTGIMAKAVETAQALTQGPFEATFEPPYSSLQIGTAKGGQAINIIPDLCAIELEARAIAGVSPIALLQPVRDRVEALAAERIDIEWTPMSDYPALSLAADAPLVKLLEELTGAPCIAAVSYGTEAGLFQAAGIDAIICGPGDIGRAHKPDEFITAGELSACQSMLETLANRCTV	PGPT0014254_2754	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014254-argE-K01438	NA	NA
BMS010_08212	924	ghrA_2	COG0111	Glyoxylate/hydroxypyruvate reductase A	ATGACTTTCTTCTTCAATTCCGACGCGAAGCGCGGCGAGATTTTCCGGCAGGCCCTGGCCCGCGAGCTGCCGGAACTACCTTTTTCGATGGATGCCGAAAGCGTCGATCCGGATGCGGTTCGGTACCTCATCACCTGGACCGTGCCTGATGATATCGGCCGCTACCGCAATCTCGAAATCCTGTTTTCCATCGGTGCGGGCGTCGATCAGTTCCACATCGACACCGTCCCTGCGCATGTGAAGGTCGTGCGCATGGTGGATGAAGGCATCATCCGCATGATGCAGGAATATGTGAGCCTCGGCGTGCTTTCGCTGCACCGCAACCTGCCAGTCTATTTGAAGCAGCAGCGCCAGCAACTCTGGAAGGCCCTGCCACAGCGTCAGGCGGAAGACTGCCGGGTGGGCGTTCTCGGCCTCGGCATGTTGGGCGTTGCCGCGCTGGAGCGGCTGAAACCCTTCGGTTTTCCGCTTTCCGGCTGGAGCCGTTCACCGCGCGAGATCGAAGGCGTGACCTGCCATCATGGCGAAGCCGGATTGTCCACGATCCTTTCGACCAGCGATATTCTTGTTTGCCTGCTGCCGCTGACCGACGAAACGACGGGGCTTCTGAATGGCGAACGCCTGGGGATGCTTCCCGAGGGTGCGGGGCTGGTTCACGCCGGGCGTGGCAAACAGCTCGACCACGACGCCCTCATCGATGCGCTGGACAGCGGCAGGCTTTCGGGTGCGGTGATCGACGTCACCGATCCGGAACCCCTGCCGGAAGACCATCCCTTCTGGACGCATCCGAAAATTCTCCTGACGCCGCACATTGCCAGCGTCACCCAGCCGCATTCGGCAGCGCGCACCGTTGTCGAGAACATCAAACGATACCAGTCCGGCCTCGAGCCGCTCGGCCTCGTCGACCGCAATCGCGGATATTGA	MTFFFNSDAKRGEIFRQALARELPELPFSMDAESVDPDAVRYLITWTVPDDIGRYRNLEILFSIGAGVDQFHIDTVPAHVKVVRMVDEGIIRMMQEYVSLGVLSLHRNLPVYLKQQRQQLWKALPQRQAEDCRVGVLGLGMLGVAALERLKPFGFPLSGWSRSPREIEGVTCHHGEAGLSTILSTSDILVCLLPLTDETTGLLNGERLGMLPEGAGLVHAGRGKQLDHDALIDALDSGRLSGAVIDVTDPEPLPEDHPFWTHPKILLTPHIASVTQPHSAARTVVENIKRYQSGLEPLGLVDRNRGY	PGPT0019465_1406	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-METHYLGLYOXAL_DETOXIFICATION,PGPT0019465-ghrA-K12972	NA	NA
BMS010_08213	357			hypothetical protein	ATGCCACTTCTCAAGACCATCGACACGCACCCCGCCTTCGAACCGAAAGCCTCCAAGGCCCTGCCGGAACGCCTCATTTCCGGCGATCCGTCCTTCAAGACCTGGCCGCTGGACGAAGCCCGCAACGGCACCGTCCACACCGGCATCTGGGAAGCAACGCCGGGCGAAAGCCGTTCGATCAAGGGCGAAACCTTCGAATTCTGCCATATTCTCGAAGGCGTCATCGAAATTACGCCGGAAGGCGGCGCACCGCTGCGTTATACGGCTGGCGACAGTTTCGTCATGAAGCCGGGCTTCGTCGGCGTGTGGAAAACCATTGAAACCGTCCGCAAAATCTATGTTACGGTGAACGGATGA	MPLLKTIDTHPAFEPKASKALPERLISGDPSFKTWPLDEARNGTVHTGIWEATPGESRSIKGETFEFCHILEGVIEITPEGGAPLRYTAGDSFVMKPGFVGVWKTIETVRKIYVTVNG				NA	NA	NA	NA	NA
BMS010_08214	456			hypothetical protein	ATGAACTGGGAACCGGCCATTTTCGAAATCACCCGCGACGGCTATGTGCTGAGCACCGATCCGGCACGGGTGGATTTCGATCTGGTCCATGGTTTTCTCGCCCGCGATTCCTACTGGGCGCAGGGAATGACCGCCGACCGGCTGAAGCGGGCGCTTTCGCATTCGTTGCCGGTCGGCGTTTACGCCCCTGACGGCTCCATGGCCGCCTTCGCCCGTCTGGTGACGGATTATGCCGTTTTCGGCTATCTGCGCGATGTCTTCACGGTGGAGGATCATCGCGGTCGCGGCCTTGCGTCCTGGATCGCCACCGAGATACGCAAACACCCAGAGCTTTCGACGGTATCGAGCTGGATGCTGGCGACCCGCGACGCCCACGGCGTTTACGAAAAGGCCGGTTATCGCGCAGCACCGCATCCCGAATATTACATGACGGTGCCGAAACCCGGCGAGGGTTAA	MNWEPAIFEITRDGYVLSTDPARVDFDLVHGFLARDSYWAQGMTADRLKRALSHSLPVGVYAPDGSMAAFARLVTDYAVFGYLRDVFTVEDHRGRGLASWIATEIRKHPELSTVSSWMLATRDAHGVYEKAGYRAAPHPEYYMTVPKPGEG				NA	NA	NA	NA	NA
BMS010_08215	2043	apc3_2	COG0145	Acetophenone carboxylase gamma subunit	ATGGGATATCGCATTGGCGTCGATGTTGGCGGGTCGTTTACGGATTTTGCCGTGTTCAACGATGGGACCGGCGCGCTTTCCACCCTGAAGGTGTTTTCCCGCCCCGATGCGCCCGGAGAAGAAATCCTTCTCGCGCTGGACACGCTGAAAAAGCGCGACGGCATCGAAGCGAAGGACGTTTCCTATTTCACCCATGGCACCACTGTCGGCGTCAACACCGTCATCCAGCGCAACGGCCAGAATGTCGCGCTGTTCACCACCGAAAATTTCGAGGATGTGCTGGGCGTTGCACGCCTCAAAATTCCGCAGATCCACAATCTCTATTCCGTGCGGCCGGAACCGCTCATCCCGCGCGAACGGGTTTTTGGCATAGCCGAGCGCATGCTGGCGACCGGCGAGGTAAAGCTCGCTCCGAGCGAAGAGAATGTGGCGCAGGCTGTCGCCGGCGCCCTTGCAGCCGGTTGCGACGGCATCGTGCTCGCCTTCCTGCATTCCTACCGCAATCCCGAAAACGAACGGGCCGTGAAGGCGATGATCGAACACATCGCGCCGCAATTGCCGGTGGTCTCCTCTGCCGAGACATGGCCGATCATCCGCGAATATGAGCGCACCGTCACCGCCGTCATCAGCGGTTATGTCCAGCCGCGCGTCGCACATTACCTCGACCGTTTCGAAACGGTGCTGCGCGGGCAAGGCATTGCCTGCCCGCTGCTCATCACCAAGACCAATGGCGGTGTCATGGGCATCGATCAGGCGCGGCGGGAATGTGTGCAGATGATCCTCTCGGGCACAGCTTCCGGCGTCATCGGCGCGGGCTATCTGGCGAAGGCCAGCGGCTTTGAGCGGGTGATGAGCCTCGATATCGGCGGCACCAGCGCCGATGTGGCCGTTATCCTGAACGGCGAAGCCCAATATGGGGTCGGCGAACTGATCGGCGATTTCCAGATTCATGTCCCTTCCGTTTCCGTCAGTTCCGTCGGCCAGGGCGGCGGCTCGGTCGCATGGGTCGACAGTCTCGGCCTGTTGCAGGTGGGGCCGGAAAGTGCCGGCTCGACGCCGGGGCCGGCCTGTTACGGACGCGGCGGTAACCGCCCGACGATCACAGACGCCATGGCGGCCGCCAATCTCATCGGCCATATGCCGCTCGGTTATGGCGCGGTGACCGTCGATCACGGCGCATCGCGCGCCGCGCTCTCGCCGCTCGCGGAAAAGCTCGGCCTTTCCGTCGAGGCGCTGGCCGGCAACATCGTCGATATCGCCGTCTCCGGCATGTATGCGGAGGTGAACGCCCTCACCTCCCGTTTCGCCATCGACCCACGCGAATTTCACCTCTTCGCTTTCGGCGGCGCCGGCGCGATGCTCGCCTGCTTCCTCGCCCGCGAGCTGGACATGAAGGGTGTGGTGGTGCCGCCTACCCCCGGCGTCGTTTCCGCGCTCGGCGGCCTGATTGCCGATCTGAAGAACGATTTCATCCGAACCACCTATTGCGATGTGAACGACAGGGAGGCCTCCGATCTCGCCCCCCTTCTCGCCGAAATGCAGGAAACCGGCCGCAATTGGTTGAAAGAACAGGGTTTTAACGGCGATTGCGAGATGCGGCTTTCCGCCGACATGCGCTATCGCGGCCAATCCTACGAAATCGAAACCACGCTCCAGCCGGAATGGCTGGGCAGCGGCGACGCCGGCGCGATAAACAGGGCTTTCCATGAGGAACATGCCCGCCTCTACGGTCATTCCGATGAGCGGGCGGCGGTGCAGATGGTTAATCTCAGGCTCGTCGTCTCCGGGAAAACACCGAAGCCGCCGCTTCGCGAGACAGGCGTGGCCACAGGCCCCGCAAAGCCGCGCTTTCACACGAAAGGCTGGTTTGGCGGCATGGAACACGACATGGCGATCTATCACCGTGACGATCTGGCGGCCGGCCACGATTTCAACGGTCCCGCCATCGTCCTTCAGGACGACACCACCACCGTCGTGCCGCCCGGCTTTACGGTCCATGTGGACCGTTTCGGCAATCTCGTCATTACCAAGCGGGAGTTTTGA	MGYRIGVDVGGSFTDFAVFNDGTGALSTLKVFSRPDAPGEEILLALDTLKKRDGIEAKDVSYFTHGTTVGVNTVIQRNGQNVALFTTENFEDVLGVARLKIPQIHNLYSVRPEPLIPRERVFGIAERMLATGEVKLAPSEENVAQAVAGALAAGCDGIVLAFLHSYRNPENERAVKAMIEHIAPQLPVVSSAETWPIIREYERTVTAVISGYVQPRVAHYLDRFETVLRGQGIACPLLITKTNGGVMGIDQARRECVQMILSGTASGVIGAGYLAKASGFERVMSLDIGGTSADVAVILNGEAQYGVGELIGDFQIHVPSVSVSSVGQGGGSVAWVDSLGLLQVGPESAGSTPGPACYGRGGNRPTITDAMAAANLIGHMPLGYGAVTVDHGASRAALSPLAEKLGLSVEALAGNIVDIAVSGMYAEVNALTSRFAIDPREFHLFAFGGAGAMLACFLARELDMKGVVVPPTPGVVSALGGLIADLKNDFIRTTYCDVNDREASDLAPLLAEMQETGRNWLKEQGFNGDCEMRLSADMRYRGQSYEIETTLQPEWLGSGDAGAINRAFHEEHARLYGHSDERAAVQMVNLRLVVSGKTPKPPLRETGVATGPAKPRFHTKGWFGGMEHDMAIYHRDDLAAGHDFNGPAIVLQDDTTTVVPPGFTVHVDRFGNLVITKREF				NA	NA	NA	NA	NA
BMS010_08216	1968	apc4_2	COG0146	Acetophenone carboxylase delta subunit	ATGACCATCGATCGCCGCAATCTCAAGGTGCTGGCCAATTTCTGCTCGGCCGCCGCCGACGCCATGGCCTTTACGCTGATGCGCACCGCCCATTCCGCCTTCGTCAAGGAAACCGAGGATTTTTCCTGTCAGGTGGTGACGCGCGAAGGGCTGGCCTTCGCCAATCCCCGGCAATTCGGCGCGCCCTGGTATAGCGGCATCGACTACGCGCCGCTGCTTTCCATGTTCGAGGAATATGAAGAGGGCGATATCTGCATCACCAACGACCCCTATAGCGGTTTCGTCGCCACCCACTCGCCGGATATCCACATCTGGAAACCGGTCTTCCATGAGGGCAAAATTGCCTGTTTCGTGGTCGGACACATCCACAATACCGATGTCGGCGGCGCGGTTCCCGCCTCCCTGTCCCGCTCGCTTTCCGAAATCGAGCAGGAAGGCCTGCGCATCCCACCGGTCAAGCTCGTTCGCAAAGGCAGGCTCGATCCCTTCATCATCGACATGATGAAGGCCAATGTCCGCATGCCGGAACAGAATATCGGCGACCTCCACGCCCAGATCGCCTCCGTCAATATCGGCGAACGCAAGATGCAGGAGATCATCGCCCGTTTCGGCTTTGACGATTTTCTGGACGGTGTGCGCCAGATTTTCAACTATGCGGAAGAGCAGACCCGGCAAATCCTCACCCGGGTGCCCGATGGCGACTATTTCTTTGCCGATTATGCCGATGAAGATTCCGTCGGCGGCCGGCCATGCCGCGTGGCGCTGACGCTGAAAATCCGCGGCGGCGAAGCCATCCTCGATTATACCGGCAGCGACCCGCAGCTCGGCTCGTCGCTGAACATGCCGACCGGCGGCCGCGAGCGGCATTCACTCGTCATGGTGGGCCTGACCTATGTGCTTTATACGCTCGACAACAGCCTGCTCCTGAATGCCGGCACCCTGCGCCCGGCGCGGGCCGTGCTGCCGGAAGGCACGATCGTCAATTGCCAGCGCCCGGCCGCCGTCGGCATGCGTTCGCTGACCTGCGCCATGACCCAGATTGTCACCATCGGCGCTTTTGCAAAGGCCCTGCCGGCGCTTATTCCCGCCGCCTCACCCGGCGGAAACGCCATCATGAACATCAAGACCAGCGACAGGAACGGCCGCCCGGTCATGGCCTCCATCGGCCCGGTTGGCGGCGGCGGCGGCGGCACGCCCTTCTGCGACGGCAGCGACGGCGCGGGCGGCGCCACCGGTTTTCTGCGCAACACACCGATTGAAATCAGCGAAGCGGAAGTACCGATCCTTTTCCGCCGGTATGGGCTCCAACGCGACACCGGCGGAGCAGGCCGTTTTCGCGGCGGGCTTTCGGCTGTCATGGAGTTTGAAATATCCTGCCCGGAAACGGTGGTCACGGCCCGCAACCGCAACCGTTCGGTTATGGCGAGCTGGGGTGTCAACGGCGCAGGTCCGGGGCTGATTTCCCGCTTCCTCCGCAATCCCGATACCGAGGGCGAAATCTCGCTCGGCAATACCGATATCGTCCATTGCGGCCCGGGCGATGTCATTCGTGTCATAGGACCGGGAGCCGGCGGTTACGGCGACCCCTTCACCCGCCCGCCGCAGGCCGTGCTGCGCGATGTACGGCGTGGTGCGGTCTCAGCAGAAAATGCTGCAAGGCACTATGGGGTAGCGCTCAACGGTGATGATATCGACGAAGAGGCGACGGCTGCCCTGCGCGCCGCGCCGCGCCGGAAGACGGACGATATCATCAGCTACGGACCGGAGCGGCTCGCCTTCGAGGCGGTCTGGACCCCGGAACGTTATGATCTTCTGACGCAATTCCTGCAAAAATCGCCCGTGGGATGGCGCTTCTTCCTGAAACACCGGGTGTTTGAAGCGGTCGAAAACGAGGGCGATGATCACCGCCCCCTTAGCGAGCGGATGGCCGGGATTTTCGACCGGATAAGCGCCCGCTACGGCGTTTGA	MTIDRRNLKVLANFCSAAADAMAFTLMRTAHSAFVKETEDFSCQVVTREGLAFANPRQFGAPWYSGIDYAPLLSMFEEYEEGDICITNDPYSGFVATHSPDIHIWKPVFHEGKIACFVVGHIHNTDVGGAVPASLSRSLSEIEQEGLRIPPVKLVRKGRLDPFIIDMMKANVRMPEQNIGDLHAQIASVNIGERKMQEIIARFGFDDFLDGVRQIFNYAEEQTRQILTRVPDGDYFFADYADEDSVGGRPCRVALTLKIRGGEAILDYTGSDPQLGSSLNMPTGGRERHSLVMVGLTYVLYTLDNSLLLNAGTLRPARAVLPEGTIVNCQRPAAVGMRSLTCAMTQIVTIGAFAKALPALIPAASPGGNAIMNIKTSDRNGRPVMASIGPVGGGGGGTPFCDGSDGAGGATGFLRNTPIEISEAEVPILFRRYGLQRDTGGAGRFRGGLSAVMEFEISCPETVVTARNRNRSVMASWGVNGAGPGLISRFLRNPDTEGEISLGNTDIVHCGPGDVIRVIGPGAGGYGDPFTRPPQAVLRDVRRGAVSAENAARHYGVALNGDDIDEEATAALRAAPRRKTDDIISYGPERLAFEAVWTPERYDLLTQFLQKSPVGWRFFLKHRVFEAVENEGDDHRPLSERMAGIFDRISARYGV				NA	NA	NA	NA	NA
BMS010_08217	1464	tgnC_2	COG1012	(Z)-2-((N-methylformamido)methylene)-5-hydroxybutyrolactone dehydrogenase	ATGACGCTCAGCTTCGATCCAGACAGCTTATCCCTGCCGATCGGCCACTTCATCGGCGACCGGCTGGTTCCGGCGGCAAACGGCATCGACATGCACCGCCCTTCGGACGGCATCGAATATGCCGGTTGTCCCAAGGCGGATGCGGCGCTGGTCGATGAGGCTGTGCAGACTGCCAAGGCCGCGTTGAAGAGCAGCAACTGGGGCGGCGTGCGCCCGCGCGAGCGCACGAAGGTCTTGCAGCGCTGGGCCGACCTGATCGAACAGGAAGCCGAGACGCTGGCGAAAATCGAGGCGCTCTCCTCGACGCGACCGGTGGGCCAACTGATCGCCGGCGATATCGCCGTCACCGCAGAACAAATCCGTTTCTTTGCCGAATTCGCGGACAAGGAAGGCGGCGATCTGGTGCCGACAGACGATGCAAGCCTCGGCATGATCATGACCGAACCCTATGGCGTCGTCGGCGCCATCACGCCGTGGAATTTCCCCGTCTCCATGGCCGGCTGGAAGCTCGGCCCGGCGCTCGCCGCAGGCAATGCCGTGGTGCTGAAACCGTCTGAAATGACGCCCTTCTCCAGCATCTTCATGGCGCAGCTGGCGATCAAGGCGGGGCTGCCGGCAGGTCTCATCAACATCGTGCTGGGCGACGGGCCCGTGACCGGCAATGCCATCACCGGACACCCTGATATCTCCAAGGTCAGCTTCACCGGCTCCACGGCCGCGGGCGCCGCCATCATGGCCAACATCGCCCGCACCGGCATCAAGCCCATGACGCTGGAACTTGGCGGCAAGAGCCCGCAACTGGTCTTCGCCGATGCCGATATCGAGAAGGCGGCAGCGGCCATCGCCGGAAATATCCTCTCCAATGCCGGGCAGGCCTGTGTGGCGGGCTCGCGCATCATCGTCGAGGAAATTGCTGCGGATGCCCTTTCCACCGCGATCATCGCCCGTATGAAGGCAGTGAAACCCGGCCCGACCTGGGACGAGACGACGCAATATTCGCCGATCATCTCCGAGGTGCAGCGCAAGCGCATCGACGGCATCGTGCAGGCGGCGGTCGCCCATGGCGGCGAATGCCTGACCGGCGGCGCGATCATGGACGGTCCCGGCTATTTCTACCAGCCGACGCTGATCGCCAATGTCGACCAGACCTCCCCTGCCGTCACTGAGGAAATCTTCGGGCCGGTGCTGACGCTGCAGACCTTCCGCACGGAAGAAGAGGCTCTGGCGCTTTCCGACCATCCGACCTACGGTCTGGCGGCGGGTCTTTTCAGCCGTGACGTCTCGCGCGTCATGCGCCTGTCCCGCGCCATCCAGGCGGGCACGATCTGGGTCAACCGTTACGGCCGCTCGCGCGACCACATATTGCCGACCGGCGGTTACAAACGCTCCGGCATCGGCAAGGATCTCGGACGCGAGGCCTATCTCGCCAACCGCAAGAGCAAAAGCGTCCTTATCGGACTGTAA	MTLSFDPDSLSLPIGHFIGDRLVPAANGIDMHRPSDGIEYAGCPKADAALVDEAVQTAKAALKSSNWGGVRPRERTKVLQRWADLIEQEAETLAKIEALSSTRPVGQLIAGDIAVTAEQIRFFAEFADKEGGDLVPTDDASLGMIMTEPYGVVGAITPWNFPVSMAGWKLGPALAAGNAVVLKPSEMTPFSSIFMAQLAIKAGLPAGLINIVLGDGPVTGNAITGHPDISKVSFTGSTAAGAAIMANIARTGIKPMTLELGGKSPQLVFADADIEKAAAAIAGNILSNAGQACVAGSRIIVEEIAADALSTAIIARMKAVKPGPTWDETTQYSPIISEVQRKRIDGIVQAAVAHGGECLTGGAIMDGPGYFYQPTLIANVDQTSPAVTEEIFGPVLTLQTFRTEEEALALSDHPTYGLAAGLFSRDVSRVMRLSRAIQAGTIWVNRYGRSRDHILPTGGYKRSGIGKDLGREAYLANRKSKSVLIGL	PGPT0006875_5730	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128	NA	NA
BMS010_08218	1044	ttuC'		putative tartrate dehydrogenase/decarboxylase TtuC'	TTGAAAACGCATCGCATCGCACTCATTCCCGGAGACGGCATCGGCAAAAGCGTAACGGACGCCGCATGGCAGGTGCTCAACGCCGCCGCCAAAACCTCCGGTTTTGCGCTTGAAGGAACGGAATTCCCCTGGTCCTGCGCCTTCTACAAGGAAACCGGCGCGATGATGCCCAAGGACGGCATCGAAACACTGCGCGGCTTCGACGCCATTCTGCTCGGCGCAGTCGGCTGGCCGGCGGAAGTGCCGGACTCCGTCTCGCTGCACGGCCTGCTGCTGCCGATCCGCAAGGCCTTCGTGCAATATGCCAATATCCGCCCGCACCGGCTTCTGCCTGGCGTGCAGGGGCCTTTGAAGGCCGATGGCTTCGACATTCTCTGCATCCGTGAAAACACGGAGGGCGAATATTCCGGCGCCGGTGGCCGCGTGCATCAGGGCACCGACGACGAAGTTGCCGTCGAAACCTCGATCTTCACCCGCAAGGGTGTGGAGCGCATTCTGCGCTTCGGCTTCGAACAGGCGCAGAAGCGTCGCGGCAAGCTTGCCTCAATCACCAAGTCCAATGCCCAGAAATATTCGATGGTGTTCTGGGACGAGGTGACCCACAAGCTCGCTGCCGAATATCCCGACGTCGAGGTTTCCAGCTATCACATCGACGCCATGGCGGCCCGCATGGTCATGGCCCCGGAAAGCCTCGATGTCGTGGTCGCCTCCAACCTCTTCGGCGATATTCTGACCGACCTCGGCGCAGCCATTCAGGGCGGCCTCGGCTTTGCCGCCTCCGCCAATATCAATCCTGACCGCAGCGCGCCGTCCATGTTCGAGCCGGTGCACGGTTCGGCCCCTGATATCGCCCATCTCGGCATCGCCAACCCCATCGCCGCCATCTGGTCCGGCGCGATGATGCTCGAACATCTCGGTGAAAAAGATGCGGCCGTGCGTATCATGACGGCGCTGGAAACGGCGACCGGCCAGGGTATCGGCACTGTGCCGGGCAAGGACAAGACAGACGCCATCACCGCCGCGGTTCTTGCGGCACTCGACTGA	MKTHRIALIPGDGIGKSVTDAAWQVLNAAAKTSGFALEGTEFPWSCAFYKETGAMMPKDGIETLRGFDAILLGAVGWPAEVPDSVSLHGLLLPIRKAFVQYANIRPHRLLPGVQGPLKADGFDILCIRENTEGEYSGAGGRVHQGTDDEVAVETSIFTRKGVERILRFGFEQAQKRRGKLASITKSNAQKYSMVFWDEVTHKLAAEYPDVEVSSYHIDAMAARMVMAPESLDVVVASNLFGDILTDLGAAIQGGLGFAASANINPDRSAPSMFEPVHGSAPDIAHLGIANPIAAIWSGAMMLEHLGEKDAAVRIMTALETATGQGIGTVPGKDKTDAITAAVLAALD	PGPT0001905_1405	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_TARTRATE_UTILIZATION,PGPT0001905-ttuC|dmlA-K07246	NA	NA
BMS010_08219	1458	davD_6	COG1012	Glutarate-semialdehyde dehydrogenase	ATGCAAGGTTTGAAGGACAAGGAACTCTTTCGCCAGACGGGCTTGATCGGCGGCGCCTGGAAGGCGGCGGCATCGGGCAAGGCGGTCGATGTGATCGATCCGGCGACGCAGGCGGTCATCGGCACCGTGCCGGATATGGACGGCGCAGAAACCCGCGCGGCCATCGAAGCCGCCAACGCCGCCTTCGGCCCGTGGAAGAAAAAGACCCACGCGGAGCGCGCAGCGCTTCTGGAAAAATGGTTCGCGCTGATGATCGAGAATATCGACGATCTCGGCCTGATCCTGACCACCGAACAGGGCAAGCCGCTTGAGGAGGCCAAAGGCGAGATCCGCTACGGCGCATCCTTCGTCAAATGGTTTGCCGAAGAGGCCCGGCGTATCGGCGGCGGTACCATCCCTTCACCGACGCCGGACAGGCGCATCGTGGTGCTGAAGGAACCGGTCGGCGTCTGCGGCATCATAACGCCGTGGAATTTCCCGAATGCGATGATCACCCGCAAGGTCGCGCCGGCACTCGCCACCGGCTGCACCGTCGTCATCAAGCCTTCGGAATTCACACCCTATTCGGCGCTCGCGCTTGGCGTGCTTGCCGAACGGGCCGGCATTCCCGCGGGCGTCATCAACATCGTCACCGGCATGCCGACAGAAATTGGCAACGAAATCATGGCCAACGAGACGGTTCGGAAAATTTCCTTCACCGGCTCCACCCGCGTCGGTTCGCTTTTGATGCGCGGCGCTGCCGACAGCGTCAAACGGCTGTCGCTGGAACTGGGCGGCAATGCGCCCTTCATCGTTTTTGACGATGCCGATCTCGATCTTGCCATTGAAGGCGCGCTGGTTTCGAAATTCCGCAATGGTGGCCAGACCTGCGTGTGCGCTAACCGGATTCTGGTGCAGTCGAGCGTTTACGACGCCTTTGCGAAGAAGCTGGCGGATCGCGTCGACGCCATGCGCGTTGGTCCCGGAACGGAAGCGGGCGTCTCCATTGGCCCGATGATCAACCAACCGGCGATCGCGAAAATCCGCGCCCATATCGATGACGCCGTTTCCAAGGGTGCCACGGTCATCACCAAGCCGCGCAATCTGCCGGAAGGTCCGCAATATACAGCGCCCGTGGTGCTTACGGGCGCAACGACGGCGATGCAGCTGGCAAGCGAGGAGACTTTCGGACCGGTCGCTCCGCTCTTCCGTTTCGAGACGGAGGAAGAGGCGCTCGCCATCGCCAATGGAACACCCTTCGGCCTTGCCGCCTATTTCTACACCGAGAACCTCAAGCGCGCCTGGCGTGTGGGCGAAGCGCTGGAATTCGGCATGGTCGGCCTCAACACCGGGTTGATCTCCACCGAGGTCGCCCCTTTCGGCGGCGTCAAGCAATCCGGCCTCGGCCGCGAGGGTGCACAGATCGGGATCGAAGAATATCTGGAGACCAAGGCCTTTCATATCGGTGGGCTTGCCTGA	MQGLKDKELFRQTGLIGGAWKAAASGKAVDVIDPATQAVIGTVPDMDGAETRAAIEAANAAFGPWKKKTHAERAALLEKWFALMIENIDDLGLILTTEQGKPLEEAKGEIRYGASFVKWFAEEARRIGGGTIPSPTPDRRIVVLKEPVGVCGIITPWNFPNAMITRKVAPALATGCTVVIKPSEFTPYSALALGVLAERAGIPAGVINIVTGMPTEIGNEIMANETVRKISFTGSTRVGSLLMRGAADSVKRLSLELGGNAPFIVFDDADLDLAIEGALVSKFRNGGQTCVCANRILVQSSVYDAFAKKLADRVDAMRVGPGTEAGVSIGPMINQPAIAKIRAHIDDAVSKGATVITKPRNLPEGPQYTAPVVLTGATTAMQLASEETFGPVAPLFRFETEEEALAIANGTPFGLAAYFYTENLKRAWRVGEALEFGMVGLNTGLISTEVAPFGGVKQSGLGREGAQIGIEEYLETKAFHIGGLA	PGPT0001580_2874	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135	NA	NA
BMS010_08220	1275	puuB_8		Gamma-glutamylputrescine oxidoreductase	ATGAAGCTCGTCTCCTACTGGCACGACACGGCGCCCCAGTTTTCCGGGGCGGCGCAAGGTCCTGTCGAAGGCCATTATGATGTGGCCGTCATCGGTGGCGGCTTCACGGGTCTCGGTGCCGCGCGCCAGCTTGCGAAAGCCGGTGCGCGCGTTGTCGTTCTGGAAGGGCAGCGCGTGGGCTGGGGCGCTTCGGGCCGCAACGGTGGCCATCTCAACAATGGCCTTGCCCATTCCTATCTCTCCGCCAAGGCGGAACTCGGCAAGGAGCGGGCTATCGCGCTCTACAAGGCGCTCGATTCCTCCATCGATACGCTGGAGGCGTTGATTACGGAGGAGGGGATCGAGTGCAATTTCCGCCGGGCAGGCAAGCTTAAAATGGCGTCGAAACCGCAGCATTTCGAAGGTCTGGCGAAGAATTTCGAGGAGCTGCATGCCGAGGTCGATCCCGATACGGCGCTTCTTTCCGCGGCCGATCTCAAGGCGGAGATCGGCTCGCCCTTTTATGGCGCCATGCTCTCGAAGAAGAGCGCGATGATGCATATGGGCCGTTATGTGGCCGGCCTGGCCGAAGCCGCCAGCCGTCATGGCGCCGTGATCTTCGAAAATGCGGCGGTGACGAAGCACATCCAGAACGGCAGGACCCATGAACTGGAAACTCCGCGCGGCAAGGTGACGGCCGACAATGTTCTGGTGGCGACCGGCGCCTACACGCCGTCCGGCTTCGGTTATTTCCGTCGCCGCATCATCGCCGTCGGCAGTTTCATCATCGCCACGCGGCAGCTGACGGATGCCGAGGTTCAGGCCTCGGTTCCGGGTAACCGCACCTATGTCAACTCCATGAATATCGGCAATTATTTCCGTCTGGCGCCGGACAATCGCTTGATCTTCGGCGGTCGCGCCCGCTTTTCCGCCACGTCGGACCAGCGTTCGGACGCCAAAAGCGGCGCGATCCTGACGGAAAGCCTGCATCGCATCTTCCCGCAGCTTTCCCATGTGCCGATCGATTATTGCTGGGGCGGTCTGGTGGACATGACCAAGGACCGTTATCCGCGCGCCGGTTTTCATGACGGTGTGTGGTACGCGATGGGTTACTCCGGCCACGGCGCGCAGCTCTCGACGCATCTCGGGATGATTATGGCTGACGCCATTCTGGGACGGCCGGACAAGAATCCGCTGAAGGGGCTTGATTGGCCGGCGGTTCCCGGTCATTTCGGCAAGCCGTGGTTCCTGCCGCTGGTGGGCTTTTATTACAAGATGCTGGACAAGATTCAGTAG	MKLVSYWHDTAPQFSGAAQGPVEGHYDVAVIGGGFTGLGAARQLAKAGARVVVLEGQRVGWGASGRNGGHLNNGLAHSYLSAKAELGKERAIALYKALDSSIDTLEALITEEGIECNFRRAGKLKMASKPQHFEGLAKNFEELHAEVDPDTALLSAADLKAEIGSPFYGAMLSKKSAMMHMGRYVAGLAEAASRHGAVIFENAAVTKHIQNGRTHELETPRGKVTADNVLVATGAYTPSGFGYFRRRIIAVGSFIIATRQLTDAEVQASVPGNRTYVNSMNIGNYFRLAPDNRLIFGGRARFSATSDQRSDAKSGAILTESLHRIFPQLSHVPIDYCWGGLVDMTKDRYPRAGFHDGVWYAMGYSGHGAQLSTHLGMIMADAILGRPDKNPLKGLDWPAVPGHFGKPWFLPLVGFYYKMLDKIQ				NA	NA	NA	NA	NA
BMS010_08221	669			hypothetical protein	ATGACCATCTTCCGCCCTAAATACATCACTTTCGATTGCCACGGCACGCTCATTCATTTCCAAATGGCAGAGGCTGCCCGCGATCTCTACGGTGATCGTCTGGGAGAGGCGGAGATGGAAGAGTTCATCAAGAATTTTTCCGCCTATCGTCTGGACGAGGTCATGCATGACTGGAAGCCTTATGCAGAGGTCGTCCACAATGCCCTGTCGCGCACCTGCAAGCGCAATGGTGTAGCCTTTAAGGATGAAGATGCAGCAATGGTCTATGAGCGGGTTCCGACGTGGGGGCCGCATGCCGACGTTCCGGCGGGTCTTTCCAAGGTCGCCAAGGAGATCCCGCTGGTCATTCTGTCCAACGCCATGAACTCACAGATCATGTCGAATGTCGCCAAACTCGGCGCACCGTTCCATGCCGTCTATACGGCAGAGCAGGCACAGGCCTATAAACCGCATTTCAAGGCTTTCGAATATCTGTTCGACATGCTCGGTTGCGGCCCGGAGGACATCCTGCACGTCTCGTCCTCCTTCCGCTACGATCTGATGTCCGCCCATGACCTCGGCATCAAGAACAAGGTCTGGGTCAACCGTGGCCATGAACCTGCAAATCCCTATTACGGTTACACGGAAATTTCAGACATTTCCGGCCTTGCGGGCGTTGTCGGACTGTAA	MTIFRPKYITFDCHGTLIHFQMAEAARDLYGDRLGEAEMEEFIKNFSAYRLDEVMHDWKPYAEVVHNALSRTCKRNGVAFKDEDAAMVYERVPTWGPHADVPAGLSKVAKEIPLVILSNAMNSQIMSNVAKLGAPFHAVYTAEQAQAYKPHFKAFEYLFDMLGCGPEDILHVSSSFRYDLMSAHDLGIKNKVWVNRGHEPANPYYGYTEISDISGLAGVVGL	PGPT0006885_2349	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROETHANE_DEGRADATION,PGPT0006885-dehI-K01560	NA	NA
BMS010_08222	837			hypothetical protein	ATGCAGGCGAGCCTGATCGATATCCAAACGTTTCAACCGGACCACCTCGACGCGGCCGTTGAACTTTCCCGCCAGGCCGGCTGGCCGCACCGGAAAGAAGACTGGGCGCTGGTCCTTTCCCTGAGCAAGGGTTTCGTCGCCCTGGAAAACGGGCGCGTCGTCGGAACCGCCATGGCGACGATTCTTGGAGACACCTGCGCCACTGTCAATATGGTGATCGTGGACGAGAGCATGCGCGGCCGCGGCCTTGGACGCCAGCTGATGGGCGCGGCATTGGACGCAGCAGAAAATCGCGAGTGCCGTCTTGTAGCCACGGCCGACGGCCTGCCCCTTTATGAAAAGCTGGGCTTCGCCGCCTGCGGCGAGGTGCTCCAGCATCAGGGCATTCCGGCGGTGACCGACAGACCGGAAGGTGTCACCTGGGCGGAAACCATCGATCCGGCCGAACTCGCCGTGCTCGATGCGCAGGCTTTCGGTGCGGACCGTACAGCCCTCTTTGCAGCACTTGCCGACAGGGCGCGTTTCGCCGTCGTGCAGGAACAGGGCGTCATCAAGGGGTTTGCAGCACTTCGCGCCTTCGGGCGCGGCGAAGTCATCGGCCCGGTTGTGGCGGAAAACGCTGAAATCGCGAAAGATCTGATCGCATTCGTGTTTTCTGAACGTCCCGGCGCATTCCTTCGTGTGGACACCAGCGCCGATACGGGCCTTGCCTCCTGGCTTGCCGAACGCGGTCTTGGCCATGTCGGCGGCGGCATCGCCATGCGCCGGTCGAAAACCGAAATCCCCGCCGACAAAAAACTGAAAACATTCGCATTGACCAGCCAGGCGCTGGGCTGA	MQASLIDIQTFQPDHLDAAVELSRQAGWPHRKEDWALVLSLSKGFVALENGRVVGTAMATILGDTCATVNMVIVDESMRGRGLGRQLMGAALDAAENRECRLVATADGLPLYEKLGFAACGEVLQHQGIPAVTDRPEGVTWAETIDPAELAVLDAQAFGADRTALFAALADRARFAVVQEQGVIKGFAALRAFGRGEVIGPVVAENAEIAKDLIAFVFSERPGAFLRVDTSADTGLASWLAERGLGHVGGGIAMRRSKTEIPADKKLKTFALTSQALG				NA	NA	NA	NA	NA
BMS010_08223	1374	spuC_6	COG0161	Putrescine--pyruvate aminotransferase	ATGTTAAGCAATTCACTGATCGAACTGGATCGCGCCCATCTGGTGCACCCTGTCTCCTCCTTCCGCGGCCATGAAAAGCTGGGCGTGCGGGTGCTGCAATCGGCACGCGGCGCCACCGTCACCGATATGACCGGCCATCAGCTCATCGACGGCTTTGCCGGCCTGTGGTGCGTCAATGCCGGTTACGGCCATGACAGCATCGTCGAGGCGGCGGCAAAGCAGATGCGGGAATTGCCTTATGCCACCGCCTATTTCGACATTGGCAGCGAACCGGCCATCCGGCTGGCCTCCGAGCTTGCCGACCGCGCGCCGGGCGATCTCAACCACGTCTATTTCACGCTTGGCGGCTCCGATGCGGTGGACAGCACCATTCGGTTCATCCGCTATTACTGGCATGCCAAGGGCCAGCCGCAGCGCGACCAGTTCATTTCCATCGAACAGGGTTATCACGGCTCCACCACCGCCGGTTCGGGCCTCACCGCCCTGCCCGCTTTCCATGCCGGTTTCGGCGTGCCCTACGACTGGCAGCACAAAATCCCGTCGCACTACGCCTACCGTAACCCGGTGGGAAGCGACCCGGCCGCCATTATCGCATCCTCCCTGCAAATCCTGAAGGACAAGATCGAGGCGATCGGTCCGGACCGCGTCGCCGCCTTCTATGCGGAACCGATCCAGGGTTCCGGCGGGGTTCTCGTGCCGCCTCCCGGCTGGATTAAGGCCATGCGTGACCTCTGCCGGTCCTATGGCATCCTCTTCGTCGCCGACGAGGTCATCACCGGCTTTGGCCGCACGGGGCCGCTGTTTGCCTGTGCCGACGAGGATATCGTGCCGGACTTCATCACCACCGCCAAGGGTCTGACCTCCGGCTACGTGCCGATGGGCGCCGTCTTCATGGCGGACCACGTCTATGATACAATAGCCGACTTCGCAGGCGAGGCCGCAATCGGGCACGGCTACACCTATTCGGCCCATCCCGTCAGCGCCGCCGTTGGCCTCGAAGTGCTGAAACTTTACGAGGGCGGGCTGCTGGAAAACGGCCGCCGCGCCGGTGAAAGGCTGATGGCGGGGCTTGAGAGCCTCAGAAGCCATCCGCTGGTCGGCGATGTCCGCGGGCGCGGCATGCTCGCCGCCATCGAACTCGTGACCGACAAGGACAAGAAAACGCCGCTGCCGGCCGCTGCGGCACCCGCACGCAAGGTTTTCGACCGCGCCTGGGAAAACGGTCTGATCGTGCGCGCCTTTGCGAACGGTATTCTGGGTTACGCGGCGCCGCTCTGCTGCACCGACAGCGAGATCGACGCCATCATCGAGCGGACGCTGAAGACCCTCGACCAGACGCTCGAAGACCCCGCGGTACGGGCCGCCATGGCCTGA	MLSNSLIELDRAHLVHPVSSFRGHEKLGVRVLQSARGATVTDMTGHQLIDGFAGLWCVNAGYGHDSIVEAAAKQMRELPYATAYFDIGSEPAIRLASELADRAPGDLNHVYFTLGGSDAVDSTIRFIRYYWHAKGQPQRDQFISIEQGYHGSTTAGSGLTALPAFHAGFGVPYDWQHKIPSHYAYRNPVGSDPAAIIASSLQILKDKIEAIGPDRVAAFYAEPIQGSGGVLVPPPGWIKAMRDLCRSYGILFVADEVITGFGRTGPLFACADEDIVPDFITTAKGLTSGYVPMGAVFMADHVYDTIADFAGEAAIGHGYTYSAHPVSAAVGLEVLKLYEGGLLENGRRAGERLMAGLESLRSHPLVGDVRGRGMLAAIELVTDKDKKTPLPAAAAPARKVFDRAWENGLIVRAFANGILGYAAPLCCTDSEIDAIIERTLKTLDQTLEDPAVRAAMA	PGPT0007865_539	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007865-spuC-K12256	NA	NA
BMS010_08224	714			hypothetical protein	TTGCCCAAAAAACTGAGCGACTTCAAATATATGAGCTTCGACGTGGTGGGGACCCTCATCGATTTCGAAGGCGGCCTGAAATCGACGCTGGCCGCAATCGGCGCGGAAAACGGCGTGGAGGTGGATGGTGAAAAGGCGCTCGCGCTTTACCGCGCGGCCCGTTATTCCGACGCGACCGACCTGTTTCCGGATGACCTCGTCCGCGTATACCTGATCATCGCTCCCGAACTCGGCCTGCCGGCGGAACGCGCATTCGGTGAACGCCTGCGCGATGCGGCAAAAAGCTGGAAAGGCTTTGAAGACAGCCGCGCCGCCATGGCCGAACTTGCCAAGACGCATCGCCTCATCGCCATGACCAACGCCCAGCGCTGGGCCTTCGAATATTTCTCGAAGGAACTCGGCAATCCCTTTCATGCCGCTTTCACGGCGGATGACACCGGCACCGAAAAACCCGATCCCGCCTTCTTCGAAAAGGTCTTCGCCTTTGTGGAAAGCGAAGGCGCATCGAAGGACGACATTCTGCACGTCGCGCAAAGCCAGTACCACGATATCGGCATTTCCCGGAAACTGGGCATGACCAATTGCTGGATCGAGCGTCGCCACGCCCAGAAAGGATATGGCGGTACGATCGAGCCGGAAAACTTTACCGAGCCGGACTACCACTTCACCTCGATGGCCGGCCTTGCCGAAGCAGTGAAACATACGGGCGGCTGA	MPKKLSDFKYMSFDVVGTLIDFEGGLKSTLAAIGAENGVEVDGEKALALYRAARYSDATDLFPDDLVRVYLIIAPELGLPAERAFGERLRDAAKSWKGFEDSRAAMAELAKTHRLIAMTNAQRWAFEYFSKELGNPFHAAFTADDTGTEKPDPAFFEKVFAFVESEGASKDDILHVAQSQYHDIGISRKLGMTNCWIERRHAQKGYGGTIEPENFTEPDYHFTSMAGLAEAVKHTGG				NA	NA	NA	NA	NA
BMS010_08225	1611	dppA_9	COG0747	Periplasmic dipeptide transport protein	ATGAGTGACAGGATTACAAACTGGACCCGCTCCGACGATGCCGCCGTTGAACAGGCGATCCGGCGCGGCGCAACGCGGCGTGAGCTGCTTCACATGCTGCTGGCGGGCGGCGTCGCCCTTTCCGCCGGTTCGGCCATCCTCGGCCGCGCTTCAAATGCCGTGGCCGCAACGCCGGTCTCCGGCGGCACGCTGAAAGCTGCCGGCTGGTCCTCCTCCACCGCCGATACGCTCGATCCGGCAAAAGCCTCGCTTTCGACGGACTATGTCCGTTGCTGCGCGCTCTATAACCGTTTGAGCTTCCTCGATGTTTCCGGAACACCACAGCTGGAGCTGGCCGAAGCTATCGAAACGAAGGACGCCAAAACCTGGACTGTGAAGCTGCGTTCCGGCGTCACCTTCCACGACGGCAAGGCCCTGACGGCCGACGACGTGGTTTATTCGCTGAAGCGCCATCTCGATCCGGCCGTCGGTTCCAAGGTCGCAAAGATTGCCGCGCAGATGACCGGCTTCAAGGCTCTTGACAAGAGCACAGTCGAAATCACGCTGGCGAACGCGAATGCGGACCTGCCATCCATTCTGGCCCTGCATCATTTCATGATCGTTGCCGACGGCACCACGGATTTCTCCAAGGGCAACGGCACTGGCGCTTTCAAGCTCGAAAAATTCGAGCCGGGCGTGCGTTCGATCATGAGCAAGAACACCAATTACTGGAAGTCTGGCGGCCCGCACATCGACAGCTTCGAATTCATGGCGATTTCGGACGACAATGCTCGCGTCAACGCCCTTCTTTCCGGCGATATCCAGCTCGCGGCTTCCATCAACCCGCGTGCACTTCGCCTGCTCGACAAGCAGGACGGTGTCGTTCTGTCCAAGACGACATCGGGGAACTACACCAACCTCAACATGCGTCTTGACCAGGCGCCCGGTAATAACGCCGATTTCGTCGCAGGCATGAAGTCGATCGTCAATCGCGAGCAGATCGTCAAGGCGGCCCTGCGCGGCCTCGGTGAAGTCGGCAACGACCAGCCGGTTCCGCCGATGAGCCCCTATCACAATCCGGACCTCAAGCCGAAAGCCTTCGATCCTGACAAGGCGAAGTTCCACTTCCAGAAGGCCGGCCTCATTGGCCAATCCATTCCGGTCATCGCATCGGATGCGGCAAGCTCTTCCGTCGACATGGCGATGATCATCCAGGCTTCCGCCGCCGAAATCGGCGTCAAACTGGATGTGCAGCGCGTGCCTTCGGACGGTTACTGGAGCAATTACTGGCTCAAGGCGCCTGTCCATTTCGGCAACATCAACCCGCGCCCGACACCGGATATCCTGTTCTCGCTGCTCTATGCTTCCGACGCACCGTGGAACGAAAGCCAGTACAAGTCGCCGAAATTCGACAAGCTGATGCTCGAAGCACGTGGCATGCTCGATATGGACAAGCGCAAGCAGATCTACTTCGAACTGGAAACGATGATCGCCGACGAAGCCGGCACCATCATTCCCGCCTATATTTCGAATGTCGACGCCATCAGTTCCAAGCTGAAGGGTCTGGAAGCAAATCCGCTCGGCGGCATGATGGGTTACGCCTTTGCGGAATACGTCTGGCTCGAAGCCTGA	MSDRITNWTRSDDAAVEQAIRRGATRRELLHMLLAGGVALSAGSAILGRASNAVAATPVSGGTLKAAGWSSSTADTLDPAKASLSTDYVRCCALYNRLSFLDVSGTPQLELAEAIETKDAKTWTVKLRSGVTFHDGKALTADDVVYSLKRHLDPAVGSKVAKIAAQMTGFKALDKSTVEITLANANADLPSILALHHFMIVADGTTDFSKGNGTGAFKLEKFEPGVRSIMSKNTNYWKSGGPHIDSFEFMAISDDNARVNALLSGDIQLAASINPRALRLLDKQDGVVLSKTTSGNYTNLNMRLDQAPGNNADFVAGMKSIVNREQIVKAALRGLGEVGNDQPVPPMSPYHNPDLKPKAFDPDKAKFHFQKAGLIGQSIPVIASDAASSSVDMAMIIQASAAEIGVKLDVQRVPSDGYWSNYWLKAPVHFGNINPRPTPDILFSLLYASDAPWNESQYKSPKFDKLMLEARGMLDMDKRKQIYFELETMIADEAGTIIPAYISNVDAISSKLKGLEANPLGGMMGYAFAEYVWLEA	PGPT0004430_9056	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004430-ddpA|ABC_PE_S-K02035	NA	NA
BMS010_08226	951	gsiC_10	COG0601	Glutathione transport system permease protein GsiC	ATGAACAGCCGGATATTATCCCTTATCGCCAGGCGGCTGGTCGTCATGCTGACGACGCTGCTTATCGTGTCGTTTATCGTCTTTTCCGCCACCAGCCTGCTGCCCGGCGACACGGCGACGATCCTGCTTGGCCAGGCGGCGACGCCGGAGGCCGTGGCCGGCCTGCGCACCGCCATGCATCTCGACGATCCGGCCCTCCTGCGCTTCGTCCGCTGGCTTCTCGGCCTGCTGCAGGGTGAACTCGGCACGTCCTATGCCAACAACATGGCGATTGCCGACCTTATCGGACCGCGCTTCGTCAACTCCATGAAGCTTGCCGGCATTACCACCATCATCGCCGTGCCGCTGGCTCTGACCCTCGGCATCAGCTCCGCCATGCTGCGCGGAACGCTTTATGACCGGGCCGTAACCGTGCTGACCATCGGCGTCATTTCGGTGCCGGAATTCATGATCGCCACACTCGCCGTGCTGCTTTTCGCCGTCTATCTGAAATGGCTTCCGGCGCTGTCGCTGGTCAGCGAGGTTCACACGCTTTTCGATGTGCTGCGGGTCTATGCCATGCCGGTCATCACGCTGACCTTCGTCGTTTCCGCACAGATGATCCGCATGAGCCGCGCTGCCGTCATCGAGACGCTGGATACGCCCTATGTGGAAATGGCGCTTTTGAAGGGCGCGCCGCGCATGCGCATCGTGCTTCGCCATGCGCTTCCCAATGCGCTCGGCCCCATCGTCAATGCGGTGGCGCTATCACTTTCCTATCTCGTCGGCGGCGTCATCATCGTCGAGACAATCTTCAATTATCCCGGCATTGCCAAGCTGATGGTCGATGGCGTCGCAACCCGCGACCTGCCGCTGATCCAGAGCTGCGCGATGATCTTCTGCCTCGGTTATCTCCTCCTCATCACGACGGCGGATATCATCGCCATCATGTCCAATCCGAGGCTGCGCTGA	MNSRILSLIARRLVVMLTTLLIVSFIVFSATSLLPGDTATILLGQAATPEAVAGLRTAMHLDDPALLRFVRWLLGLLQGELGTSYANNMAIADLIGPRFVNSMKLAGITTIIAVPLALTLGISSAMLRGTLYDRAVTVLTIGVISVPEFMIATLAVLLFAVYLKWLPALSLVSEVHTLFDVLRVYAMPVITLTFVVSAQMIRMSRAAVIETLDTPYVEMALLKGAPRMRIVLRHALPNALGPIVNAVALSLSYLVGGVIIVETIFNYPGIAKLMVDGVATRDLPLIQSCAMIFCLGYLLLITTADIIAIMSNPRLR	PGPT0004445_10399	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004445-ddpB|appB-K02033	NA	NA
BMS010_08227	852	gsiD_7	COG1173	Glutathione transport system permease protein GsiD	ATGGCCGACAATATTAAAACAACTTCGGGGACCTCGCGTTTGGGTTACAAGATCAACGCAGTCGGCGTTTTCGGCTTTCTCGTCATTTTTTTCTGGGCCATGGTCGCAATCTTCGCGCCTTATCTCATTCCGCATCCGGTCGGTGAAATCGTCGATCTCGATTATTTCGGTCCGATGACCTCCGATCTCTGGCTCGGTTCCGATTATCTCGGCCGTGACGTGTTCTCCCGCATTCTCATGGGCGCGCGTTTCACGGTCGGTATATCGCTCGCCGCCGTCACCATCGCCTGCACCTCCGGCGTCGTGCTCGGCATGTGCGCCGCCGTCATCGGCGGCTGGTTCGATGCGGCGCTGAGCCGATTTCTCGATGCGGTGAATTCCATTCCGAGCAAGCTTTTCGGCCTCGTGGTCGTCGCCGCCGTCGGCTCTTCCATTCCGGTGCTGATCATCACGCTGTCGGTCATCTATACGCCGGGCGCCTATCGTTTCGCCCGGGCGCTCGCCGTCAACGTCAACACCATGGATTTCGTCACCGTCGCCCGGGTGCGCGGCGAAAGCCTGTTCTACCTCATCGGCTCTGAAATCCTGCCGAACATCGTCCGGCCCGTCCTGGCCGATCTTGGCGTGCGCTTCGTGTTCATCGTGCTGCTTTTATCGGGCCTCTCCTTCCTCGGCCTCGGCCTGCAGCCGCCGAATGCGGACTGGGGGGCGCTGGTGCGTGAGAACATCGGCGGCCTGCCGTTTGCGGCCCCCGCCGTCATCTTCCCGTCGCTGGCCATTGCCAGCCTGACGATCAGCGTCAACCTGCTGATCGACAATCTGCCGCAGAAAATCCGCGACAGGAGCGAATAA	MADNIKTTSGTSRLGYKINAVGVFGFLVIFFWAMVAIFAPYLIPHPVGEIVDLDYFGPMTSDLWLGSDYLGRDVFSRILMGARFTVGISLAAVTIACTSGVVLGMCAAVIGGWFDAALSRFLDAVNSIPSKLFGLVVVAAVGSSIPVLIITLSVIYTPGAYRFARALAVNVNTMDFVTVARVRGESLFYLIGSEILPNIVRPVLADLGVRFVFIVLLLSGLSFLGLGLQPPNADWGALVRENIGGLPFAAPAVIFPSLAIASLTISVNLLIDNLPQKIRDRSE	PGPT0004450_11594	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004450-ddpC|appC-K02034	NA	NA
BMS010_08228	1656	gsiA_12	COG1123	Glutathione import ATP-binding protein GsiA	ATGAGCAATCTTGTTGAAATCCGTGGACTGAAAGTCGAGGCCACCACCGATTCCGGCCGCCGTATCGACATCATCAAAGGCGTGGACATCGACATCGCCGATGGCGAAATCGTCGCGCTGATCGGCGAGAGCGGTTCCGGCAAGACTACCATCGCGCTGACCCTGATGGGCTATGCCCGGCCGGGCTGCCGCATTTCCGGCGGCAGCGTCAAGGTGGCGGGCCAGGACATGGTGCAGCTTTCCGAAGTCGAACGCGCCAAAGTCCGCGGCACGAAAGTGGCCTATGTGCCGCAGAGCGCCGCCGCCGCCTTCAACCCGGCGCAGAAGATCATCGACCAGGTCATCGAAGTCACCCGCATCCACCATCTGATGCCACCGCAGGAAGCACGCACGCGGGCGGTGGAACTTTTCAAGGCGCTGTCGCTGCCCAACCCCGAGACCATCGGCGAGCGTTACCCGCATCAGGTGTCCGGCGGCCAGCTTCAGCGCCTCTCCGCCGCAATGGCGCTGATCGGCAATCCGAAGCTGGTGATCTTCGACGAGCCGACCACCGCGCTCGACGTCACGACCCAGATCGAGGTTCTGCGCGCCTTCAAATCGGCAATGCGCAAGAACGGCATCGGCGGCGTTTATGTTTCGCACGATCTCGCCGTCGTCGCCCAGATCGCCGACCGGATCGTTGTGCTGAAAGGCGGCGAGGTTCAGGAAACCGGTACGACCACGGATATCCTCGAAAATGCCCAGCATCCATACACGAAGGAACTGCTGACGGCTTTTCATGACAAGGCGCGTGTCATCACACCCGCCAGACAGGAGCAGGCAACGCCGCTGCTGGACATCGAAAAGCTGATCGCCGGTTACGGAACGAAGGGCGAAGACAAGATGCCGCTGGTGCGTGCGGTGGATAACGTCAGCCTCTCGGTCTATCCCGGTCGTAATCTCGGCATCATCGGCGAATCCGGTTGCGGAAAATCGACGCTGGCGCGCGCCATCGCCGGCATTCTGCCCGCGGCCGGCGGCCATGTCATCTTCGAAGGCCGGGAACTGGATGCGGATGCACGGCGTCGAACCGGCGACCAGCTACGCCGGATGCAGATCGTGTTCCAATATGCCGATACCGCACTCAACCCGTCGAAACCCATCGAGGATATTCTCGGCCGGCCGCTGACCTTCTATCACGGCATGAAAGGCAAGGCGCGCGACGCCCGGATCGATGAGCTTCTCGATATGGTGAAGCTGCCGCGCTCGGTGCGTCACCGCCATCCTTCCGGCCTTTCCGGCGGGCAGAAGCAACGCGTCAATTTCGCCCGCGCACTTGCCGCCGAACCCTCGCTCATCATCTGCGACGAAATCACCTCGGCACTCGATACCGTGGTGGCGGCCGCGATCATTGATCTTCTCGGAGAACTGCAGCGGGAGCTAAACCTCTCCTATATCTTCATCAGCCACGATCTCTCTGTGGTGGAAACCATCTGCGACGAGATTGTCGTGATGTATGGCGGGGAGAAGGTGGAGCATCTGGAAACCGAAGCGATCAAATCGCCCTCCCACCCCTATTCGAAACTGCTGTTTTCCTCGGTGCCGAAACTCGACCCGACATGGCTCGACAATCTCCAGCAGGATGCGGAGCTGGTGCGGGCGTTTTCGAAAAGGTGA	MSNLVEIRGLKVEATTDSGRRIDIIKGVDIDIADGEIVALIGESGSGKTTIALTLMGYARPGCRISGGSVKVAGQDMVQLSEVERAKVRGTKVAYVPQSAAAAFNPAQKIIDQVIEVTRIHHLMPPQEARTRAVELFKALSLPNPETIGERYPHQVSGGQLQRLSAAMALIGNPKLVIFDEPTTALDVTTQIEVLRAFKSAMRKNGIGGVYVSHDLAVVAQIADRIVVLKGGEVQETGTTTDILENAQHPYTKELLTAFHDKARVITPARQEQATPLLDIEKLIAGYGTKGEDKMPLVRAVDNVSLSVYPGRNLGIIGESGCGKSTLARAIAGILPAAGGHVIFEGRELDADARRRTGDQLRRMQIVFQYADTALNPSKPIEDILGRPLTFYHGMKGKARDARIDELLDMVKLPRSVRHRHPSGLSGGQKQRVNFARALAAEPSLIICDEITSALDTVVAAAIIDLLGELQRELNLSYIFISHDLSVVETICDEIVVMYGGEKVEHLETEAIKSPSHPYSKLLFSSVPKLDPTWLDNLQQDAELVRAFSKR	PGPT0004435_4341	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004435-ddpD-K02031	NA	NA
BMS010_08229	477	lrp_10	COG1522	Leucine-responsive regulatory protein	ATGAAACTTGACCGGATCGATATCAAGATCCTCTACGAATTGCAGAAAAACGGTCGCATCACCAATGTCGAGCTGGCGGAACTTGTCAATCTGTCGCCAAGCCCCTGCCTGATGCGGGTGAAGAAGCTGCAGGCGGAAGGTTATATCGAGGGTTATTCGGCGCAGATCAACATCAACAAGCTCGGCCAGACGCTGACGGTGTTTACGGAAATCACGCTGAAGAACCATCGCCAGATCGATTTCGCCCGCTTCCTCGGCGTTGTCGAAAAGATCGACCAGGTGGTGGAATGCCACCTTGTTTCGGGCGGTTACGATTACCTGCTGAAATTCGTCACCTCTGGCATCGTCGAATATCAGTCGATCATGGAACGACTGACCGATATGGATGTCGGCATCGACAAATATTTCAGCTTCGTGGTGCTGAAATCGCCGATCATCAAATCGCATATGCCGCTGACCAGCCTGTTTCCGCTGTGA	MKLDRIDIKILYELQKNGRITNVELAELVNLSPSPCLMRVKKLQAEGYIEGYSAQININKLGQTLTVFTEITLKNHRQIDFARFLGVVEKIDQVVECHLVSGGYDYLLKFVTSGIVEYQSIMERLTDMDVGIDKYFSFVVLKSPIIKSHMPLTSLFPL	PGPT0014049_159	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014049-doeX-K15782	NA	NA
BMS010_08230	1326	thiO_1		Glycine oxidase	ATGCCCGCCCCGCTGCAACAGATCACGACATCGCCGGAACTGCCCACATCCGCAGACGCCGTCATTATCGGCGGCGGCATCGTCGGTGTCTTCGCCGCCTATTATCTCGCCCGGCGCGGCCTGAAAGTGGCGCTGGTCGAAAAAGGCCTGATCGGAGCGGAGCAATCCAGCCGCAACTGGGGCTGGTGCCGCCAGCAGAACCGCGACGCCCGCGAATTGCCGATTTCCACCAAGAGCCTGGCGCTCTGGGAAGAGTTTGGCGCAGAGAGCGGCGAGGACACGGGTTTTCGCCGCCGCGGGCTGTTTTACCTGAGCGACAATGAGGCCGAACTTGCCGGCTGGGCGCGCTGGCGCGACTTTGCCATTACCGCAGGCGTGACGACCCATATGCTGAGCGCCGATGAGGCGAGCGAACGCGGCCGATCCACGGGAAAGCGCTGGAAGGGCGGCGTGTTTTCGCCGACGGACGGCACGGCCGATCCTTCCATGGCGGCGCCCGCCGTGGCGCGAGCCATCATCAAGCTAGGCGGCACGGTGCATCAAAATTGCGCCGCACGCGGGCTTGAGACGGAAGGCGGCCGGGTCAGTGCCGTCGTCACCGAAAAAGGCACGATCCGCACCAAAACCGCCATCATGTCCGGCGGGGCCTGGGCGTCGTCCTTTTGCCGGCAGCTCGGCATTCGTTTCCCGCAGGCCTCCGTCCGCTCTTCCATCCTCTCCGTCACACCGGGTGCGGAAGGACTGCCGGATGCGCTGCACACCGCCGCCGTTTCGGCAACGAAGAGAATAGACGGCGGTTACACGCTCGCCATCAGCGGGCTGGGGCGCATTGACCCGACGGCGCAGCAGATGCGGTTTGCCCGTGAATTCATCCCGATGTTCCTCAAGCGCTGGCGAAGCCTGCGGCCGGGCGGGCTGGAAGGGATTCGCGGCGGCCACGAGACGCTGAAACGCTGGCGGCTCGATGCCCCGACACCGATGGAACGGGTTCGTATTCTCGATCCGAAACCCAACGCCGCCGCCATCCGCGAGACCCATAGAAGGGCGCTTGAGCTTCTGCCCGCCCTCGGCAAAACGCAGATTTCCGCCGCCTGGGCCGGTTTCATCGACAGCACGCCCGACGGCGTGCCCGCAATCGGCGAAACCAGCGAATTGCCCGGCTTCATTCTCGCCGCCGGTTTCAGCGGCCATGGTTTCGGCATAGGGCCGGGCGCTGGCCATCTGATCGCCGATATTGTGACGGGCTCGAACCCGATCGTCGATGCCGCCACCTATCACCCCAGCCGTTTCCTGAACTCGTCCTGGGGCAAGGTCGCGGATTTCTGA	MPAPLQQITTSPELPTSADAVIIGGGIVGVFAAYYLARRGLKVALVEKGLIGAEQSSRNWGWCRQQNRDARELPISTKSLALWEEFGAESGEDTGFRRRGLFYLSDNEAELAGWARWRDFAITAGVTTHMLSADEASERGRSTGKRWKGGVFSPTDGTADPSMAAPAVARAIIKLGGTVHQNCAARGLETEGGRVSAVVTEKGTIRTKTAIMSGGAWASSFCRQLGIRFPQASVRSSILSVTPGAEGLPDALHTAAVSATKRIDGGYTLAISGLGRIDPTAQQMRFAREFIPMFLKRWRSLRPGGLEGIRGGHETLKRWRLDAPTPMERVRILDPKPNAAAIRETHRRALELLPALGKTQISAAWAGFIDSTPDGVPAIGETSELPGFILAAGFSGHGFGIGPGAGHLIADIVTGSNPIVDAATYHPSRFLNSSWGKVADF				NA	NA	NA	NA	NA
BMS010_08231	1152	soxA_6		Monomeric sarcosine oxidase	ATGCGTAACGCGCTTGCGGAGGCGGATGTCATTATTGTCGGCGGGGGCATTGTCGGAACCGCCACGGCGTTTTTCCTGCGGCAACGCGGCGTCAGCGTCATTCTGCTGGAGCGTTTCCTTGTCGGCCAGCAGGCGAGCGGCACTAATTTCGGCAATGTGCGCCGTCAGGGCCGTTACCTCGGGCAGCTTCCGCTCGCCAACAGATCGCGGGATATCTGGAGCCGCATCCCGCAACTGACCGGCGCGGATGTGGAATTCATGCCCGTCGGCCATATCCGGTTTCTCTGGACGGAAGAACAGATCGCCACGGTCGAGAAATACCGCGACGATGCCGCGCAATATGGTCTGGAATTGCATATCCTCCCGCGCGAGGTCATCCGGCAGAAATTCCCCTTTATCGGACCGGAAGCGGTTGCCGGATCATGGTCGCCGCATGATGGTCACGCCAATCCGCGCCTCGTCGCGCCCGCCTTCGCCCGTGCGGCGCAGCGGGACGGTGCAACGATCGTGGAAAATTGCGAGGTTCTGGCCATCGAAAAGGCCGGTGAGGATTTCCGGGTAATGACGGTGGAAGGGGATTATCGCGCGCCCGTCGTGCTGGTCGCCAGCGGCGCATGGGGCGGCGGGTTTGCTGGCGCTTTGGGCGAGGCGGTGCCGCTGGAGGTTGCCGGCCCGCAAATGGGCGTGACGGAACCCTTGCCATGGTTCATTCACCCGGTCGTTGGCGTCTCCACCAAAATTCCCGGCGAAGTGATCTATATGCGGCAAATCCCGCGCGGAAACGTCATTTTCGGTGGGGTGAAACGATGCGCCGCCGCGGTGGATGAACGCCGGGCGAAATACGATCCCGCCGGGCTCGATGCCCAGCTGCGTCAGCTTCTGCGGCTGGCGCCCGCCTTGCGCCATGCCCGGCTGATCCGCACCTGGTCCGGCGTGGAGGGCTATATGGCCGATGATCTGCCGGTCATGGGAGACAGTGCCGCAACCTCCGGCCTTTATTATGCCTTTGGCTTCAGCGGCCACGGTTTCCAGATCGGCCCGGGTGTCGGCGACGTGATGGCGGAGCTGATAGCGACCGGGAAGACCACGACGCCGATTGCGGATTTTCACATCGGCCGTTTCCGTCGTGGTCAGCCTGTCGCATCCCACTAA	MRNALAEADVIIVGGGIVGTATAFFLRQRGVSVILLERFLVGQQASGTNFGNVRRQGRYLGQLPLANRSRDIWSRIPQLTGADVEFMPVGHIRFLWTEEQIATVEKYRDDAAQYGLELHILPREVIRQKFPFIGPEAVAGSWSPHDGHANPRLVAPAFARAAQRDGATIVENCEVLAIEKAGEDFRVMTVEGDYRAPVVLVASGAWGGGFAGALGEAVPLEVAGPQMGVTEPLPWFIHPVVGVSTKIPGEVIYMRQIPRGNVIFGGVKRCAAAVDERRAKYDPAGLDAQLRQLLRLAPALRHARLIRTWSGVEGYMADDLPVMGDSAATSGLYYAFGFSGHGFQIGPGVGDVMAELIATGKTTTPIADFHIGRFRRGQPVASH	PGPT0013510_1138	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013510-soxB_-K00303	NA	NA
BMS010_08232	1383	hcnB_1		Hydrogen cyanide synthase subunit HcnB	ATGGCCGATTTGCGCATCGTGATCGTGGGCGCCGGCCCCGCCGGTACGCGTGCCGCGGAGACGCTGGTGCGGGCGGGGCTCCGCCCCGTCGTCATCGATGAAGGAGATCGCAGCGGCGGCCAGATTTATCGCCGCCAGCCGCAAAATTTCCAGCGTTCCTATGCGGCCCTTTACGGCACGGAAGCGGATAAGGCGAAGGCTCTGCACGAGGCATTCGACGGGCTTTCGGACCACATCGATTACCGCCCGCAGACCCTGGCATGGGCAATCCGCGACAATCGCATTCATATTCAGCGCGCCGAGACATCCGAAGCTCTCAATTTCGACGCCCTTATCATCGCATCGGGTGCGACCGACCGCATCATGCCTTTGCCGGGCTGGACGAGGCCGGGATGTTTTTCGCTTGGCGCTGCGCAGATATCCCTGAAAGCGCAAGCCTGTGCGATAGGTCGGCGGGTGGTTTTTATGGGCACGGGACCGCTGCTTTATCTCGTGGCTTATCAATATATGAAGGCAGGCGCGGCCCCCGTGGCGGTGCTGGATACCACGCCGTTTTCCACGCAGATCAAGGGTCTGCCGGGGATGACGGCGCGGCCGTTGCAGCTCCTCAAGGGCATGCGGCTCGTTGGGACGCTGTTGGCCGACGGGGCAAGGATCGAGCGGGGTATCGTCCCGTTAGAGATTATCGGTGACGCCGAGAGCGGTGTGACCGGTATCCGCTACCGGAATGCCTCCGGTGAGGAAACGCGCCTCGCCTGCGATGCGGTCGGTATGGGTTATCATCTGCGGGCGGAAAGCCAGCTTGCCGATCTTGCCGGTTGTCGCTTTTCCTTTCATCCGCCGATCCGGCAATGGTTGCCGGATGTGGACGATATGGGGCGCAGTTCGGTGCCGAATGTCTATCTGGCGGGCGATGGCGTGCGTATTCTCGGTGCAGATGGTGCGGAAGCCTCCGGCCGGCTTGCCGCCTTCGCGCTTCTTGAGGATCAGGGTTTGAAGCCACCCCGCGCGGAGATCGGCCACTGCCGGAAGCAATTGAGAGCTGCGAGGCGCTTTGCGCAGGGAATGGCCCGGGCCTTCCCCTGGCCGCACCAGTTGGCGCAGACACTTGCCGACGACACGATTATCTGCCGCTGCGAGGTGGTAACGGCGGGAGAGCTGCGCGCGAGCGTGACCGGCAAGGGTGCAACGGAAGTCAATCGCTCGAAAGCTTTCTCGCGGGCCGGCATGGGCCGGTGCCAGGGGCGGTTCTGCGGGCAGGCGGGACAGGAGATTGTCGCCGCCGCCTCTGGTCTGCCGGTCGAATCGGCGGGACGGCTGCGCGGGCAGGCGCCCGTAAAACCGCTGCCGCTGGCGATTGTGAGGGGAGACGATAATGCGTAA	MADLRIVIVGAGPAGTRAAETLVRAGLRPVVIDEGDRSGGQIYRRQPQNFQRSYAALYGTEADKAKALHEAFDGLSDHIDYRPQTLAWAIRDNRIHIQRAETSEALNFDALIIASGATDRIMPLPGWTRPGCFSLGAAQISLKAQACAIGRRVVFMGTGPLLYLVAYQYMKAGAAPVAVLDTTPFSTQIKGLPGMTARPLQLLKGMRLVGTLLADGARIERGIVPLEIIGDAESGVTGIRYRNASGEETRLACDAVGMGYHLRAESQLADLAGCRFSFHPPIRQWLPDVDDMGRSSVPNVYLAGDGVRILGADGAEASGRLAAFALLEDQGLKPPRAEIGHCRKQLRAARRFAQGMARAFPWPHQLAQTLADDTIICRCEVVTAGELRASVTGKGATEVNRSKAFSRAGMGRCQGRFCGQAGQEIVAAASGLPVESAGRLRGQAPVKPLPLAIVRGDDNA				NA	NA	NA	NA	NA
BMS010_08233	312			hypothetical protein	ATGCCGGCCAGATTCAGGCGCATCGCCGAAGAGCGACGCGCGGCTTGCCCTGTCCTGATCGACGGCATGCCGGTCAAGGTGCTGGAGGGAGACACAGTGCTCACGGCGCTGATGCTGTCGCGCGGCTTCGCCCGTGTGTCCGAGTTCGCCGATGGTCAGCGGGCGGGGTTCTGTCTGATGGGCGCCTGTCAGGATTGCTGGGTCTGGACGGGTGAAGGCGAGCGGCTGCGCGCCTGTTCCACCGCCGTCCTCCCGGGCATGGATATCAGAACCGAGGTTCCGGAGGGGTTATGGCCGATTTGCGCATCGTGA	MPARFRRIAEERRAACPVLIDGMPVKVLEGDTVLTALMLSRGFARVSEFADGQRAGFCLMGACQDCWVWTGEGERLRACSTAVLPGMDIRTEVPEGLWPICAS	PGPT0020400_82	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020400-lhpD-K22550	NA	NA
BMS010_08234	897	occR		Octopine catabolism/uptake operon regulatory protein OccR	ATGAACGCCCGACAGCTCGAAATTTTCCGCGCCATCATGCGCGACGGCTCCGTGACGGCGGCCGCCAATTCGCTTGCCGTTTCCCAGCCCGGCGTCAGTAAGGTGCTGCACCATCTGGAAAGCCAGCTGGGTTACAAGCTGTTCGAGCGCATTGGCGGGCGGCTGGTGCCGACGATGGAAGCACATCTGATCTATGAGGATGCCGACCGGGTTTTTCGCGAACTTGAAGTTCTGAAAAAACTGACGCGCACCATCGGCGAGCGCAAGCTTGGCCTTCTGCGCATCGGGGCCAGCCTGCCGGTTACCTATTCCGTGCTGCCCGAGGCGCTGCTTGCCTTCCGGCAGGCGCATCCAACCGTCAAAATCCACCTCAACGCCCTGCCCAAAAAAGAGATTGCCGAACAATTGCTGCTGGGCGACATCGATTTTGCGGTAACGCTTTCCACCATTCAGGCGCCAACGGTGCGCAGCGAAATCCTCGCCTCCGTACCGGTCGTGGCAGTGATGCGGCATGATGATGCTCTCGCCGAAATGATGACGGTCACGCCCCGCGACCTCGCCGGCAGGCCGCTGATTTCCTATGGCAACCATGCGGACGAGATCGGCCCGCAGCTGAACGAGGTCTTCGAACGCGACGGGCTTATGCGGGATGTCTCGGTGCAGGTCACCTCATCGGTGGGTGCCGTACCGCTGGTACGCGGCGGTATCGGCATTGCCCTTGTCGATGGCTTGGTGCGCTGGAACAGTTTCGAGGGGGTGACGGTGCGCCCATTCATGCCTGAAGTAACGATGAATGTCGCCGTGTCCACCAACACGGCCCGGCCGCTCTCGCGCTTCTTCAAACCCTTCGTCGGTGAATTGCGAAAGCTCTTTCGCGCCCTTCCCGCGCAGAATTGA	MNARQLEIFRAIMRDGSVTAAANSLAVSQPGVSKVLHHLESQLGYKLFERIGGRLVPTMEAHLIYEDADRVFRELEVLKKLTRTIGERKLGLLRIGASLPVTYSVLPEALLAFRQAHPTVKIHLNALPKKEIAEQLLLGDIDFAVTLSTIQAPTVRSEILASVPVVAVMRHDDALAEMMTVTPRDLAGRPLISYGNHADEIGPQLNEVFERDGLMRDVSVQVTSSVGAVPLVRGGIGIALVDGLVRWNSFEGVTVRPFMPEVTMNVAVSTNTARPLSRFFKPFVGELRKLFRALPAQN				NA	NA	NA	NA	NA
BMS010_08235	936			hypothetical protein	ATGACCTTCACCTCTCGTCTCGCCACGGCCACGCTTGGCGCCTTTCTTTCAATCGCCGGTTTTGCATCGGCGTCGGCAACGGATGTCTTCGACCTGTCGCCAGATCAGCCCGGCCGCATCCGGGTTGAAAAAGACCCCGGTGCGATTGCCGCCGTTCCGAAGGATTTCAAATTCGTCACGCCGGGCAAACTCACCGTCGCAGTCGCACCCGGCGGCCCCCCGCTCGCGACCTATGCGACGGATGCAAAAACGGTGGTCGGCGCAGATCCCGATTACGCCCTTGCGGTGGCCGACAGCCTTGGCTTGGAGCTGGAACTGGTGGCGGTGGCCTGGGCGGACTGGCCGCTGGGGCTTGCCTCCGGCAAATACGATGCGGTGATCTCGAATGTGGGCGTTACCGAGCAGCGCAAGGAGAAGTTCGATTTCTCCACCTATCGTCAGGGCCTGCACGGATTTTTCGTCAAGGCAGACAGCGGCATAACCGCCATCCGCGAGCCGAAGGACGCGGCCGGCCTGAGGATCATCGTCGGCGCCGGCACCAATCAGGAGCGTATTCTGCTGAAATGGAGCGACGAAAACGTCGCCGCGGGATTGAAGCCGATTGAGCTGCAATATTACGATGATGAAGCGACCCGGCTTGTGGCGCTTTCAGCGGGGCGGGCGGATGTGATCGTTCAGCCGCATGCGCAGCTGGTCTTCATCGCCGCGCGCGACAAGACCATCAAGCGTGTCGGCACCCTTTCCGCCGGCTGGCCGGAGCGGTCCGATGTCGCCATCACCACCCGCAAGGGATCGGGACTGGCCGATGCGCTGACGCTTGCCACCAACGACCTGATCAAGAGCGGCGCTTACGCGAAGATTCTGGATCGCTGGCAGCTATCGGAAGAAGCCCTGCCGGAATCGCGGACCAACCCGCCCGGCCTGCCGAAAAGCTGA	MTFTSRLATATLGAFLSIAGFASASATDVFDLSPDQPGRIRVEKDPGAIAAVPKDFKFVTPGKLTVAVAPGGPPLATYATDAKTVVGADPDYALAVADSLGLELELVAVAWADWPLGLASGKYDAVISNVGVTEQRKEKFDFSTYRQGLHGFFVKADSGITAIREPKDAAGLRIIVGAGTNQERILLKWSDENVAAGLKPIELQYYDDEATRLVALSAGRADVIVQPHAQLVFIAARDKTIKRVGTLSAGWPERSDVAITTRKGSGLADALTLATNDLIKSGAYAKILDRWQLSEEALPESRTNPPGLPKS	PGPT0020800_2098	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_08236	939			hypothetical protein	ATGGCATTTTCATCGAAATTATTGTCCCTGCTTGCCGGCGGTCTTTTCACCGCCACTGCTGCGCTCATCCCGGTCGTGCATGCGCAGGAGGTTGACCTGTCGCCTGAACAGAAGGGGCGGGTGCGCGTCGAAAAGGTGGAAGAGGCAATCAAGCTTCTGCCCGCCGGCCACAAGTTCATTACAGACGGAAAGCTGACGGTCGCGACCGTTCCCTTCCGCCTGCCGCTGGTGGATTATGCAAGCGACACAAAAACGCCGATCGGCGTGGAGCCGGATATCGCCCAGCTGGTCGCCGACAGCCTTGGCCTTGAGCTGCAGCTTGTGCCTATCGCCTGGGCGGACTGGCCGCTCGGTCTTGCATCCGGCAAATATGACGCCGTTACTTCCAACATCACGGTGACGGAAGCCCGCAAGGAAAAGTTCGATTTTTCCAGCTACCGCAACGATCTGCTCGGCTTCTATGTCGGCAATAACAGCAAGGTCACATCCATCGGCAAGCCGGAGGATGTCGCAGGGCTGAAGGTCATCGTCGGGGCCGCCACCAATCAGGAGCAGATCCTGCTGAAATGGATCAAGGACAACAAGGCGAAGGGGCTGGCCGATACCGAGGTGCAATATTATGACGATCAGGCCGTGCTTGACGTCGCCCTGCAATCCGGCCGTGCGGATGCCTATCTCGGCCCCAACGCGACCTCTGCCTTCCAGGCGGCAAGCCAGAAGAAGACGAAGCTTGTCGGCACCTTCTCCGGCGGCTGGCCGGAAGCGGCCGAGATCGCCGTCGCTTCGAAAAAGGACGCAGGCATAGCGGACGCCATCACCGCCGCGCTGAACGCCCAGATCAAGAACGGCAATTACGGCAAGGTTCTCGCCCGCTGGAATCTCGGTTCCGAAGCCATCACCGAATCCCGCACCAATCCGCCCGGCCTGCCCAAGAGCTGA	MAFSSKLLSLLAGGLFTATAALIPVVHAQEVDLSPEQKGRVRVEKVEEAIKLLPAGHKFITDGKLTVATVPFRLPLVDYASDTKTPIGVEPDIAQLVADSLGLELQLVPIAWADWPLGLASGKYDAVTSNITVTEARKEKFDFSSYRNDLLGFYVGNNSKVTSIGKPEDVAGLKVIVGAATNQEQILLKWIKDNKAKGLADTEVQYYDDQAVLDVALQSGRADAYLGPNATSAFQAASQKKTKLVGTFSGGWPEAAEIAVASKKDAGIADAITAALNAQIKNGNYGKVLARWNLGSEAITESRTNPPGLPKS	PGPT0020800_2072	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_08237	1797	btuD_18		Vitamin B12 import ATP-binding protein BtuD	ATGACGATAGCCTCTGATTTTCCGCATCTCGCCGTGGGCGACAAGAAGAGTGAACCGATCACGGGCGGTTACTCCCATTTCCGCATCGTTCCGGCCCGCTACCCGCTGCGGACGGTGGGCACGGTTTTCTCCGTCCTCATCATTGCCGCCGTCGTGCATTCCGTTTTCGGCAACCCGCGCTGGGGCTGGGATGTATTTGCCGAATGGTTCTTCGCCGAACCGGTGCTGGTGGGTCTCGGCCGGACGCTGCTCCTGACCGCGCTTGGTGCGTTGTTTGGTTTTGTGTTGGGAACCCTGCTGGCGCTTGCCCGTGTTTCCCGTTCGCCGCTGCTGGTCGCTGTCTCCTGGACGTATATCTGGATTTTTCGCTCCATCCCGCTGATCGTGCTTTTGCTGATCCTCAATAATCTCGGCTATCTCTATGAAACCGTGACAATCGGTGTGCCCTATACCGGCATCAATTTCTTCAGCTGGAATACGACACAGCTGATGACGCCCTTTGCGGCGGCCGTTTTGGGGCTGACGCTCAATCAGGCCGCTTTCGCCTCCGAAATCGTTCGCGGCGGAATCCTTTCAGTCGATCAGGGTCAGCTCGAAGCTGCCGCCGCGCTCGGCCTTCCGCGCAGGCGGCAGGCGTCCCGCATCGTCCTGCCGCAGGCGATGCGCTCTATCCTGCCCACGGCCTTCAACGATATTATCGGCTTGGCCAAGGGCACGTCGCAGGTCTATATCCTCGCGCTGCCGGAGCTGTTCTATACGATCCAGATCATCTATCGCCGCAATCTGGAAGTGATCCCGCTGCTGATGGTCGCCACCGTCTGGTATCTGGTGATCCTGACCGCGCTTTCCATTGTTCAGCACCACATCGAACGCCACTTTTCGCGCGGCGCGCTGCGCAATCCGCCGCCCTCGCTGTTTGCCACGCTCTATCGCACATTCCTGCCGCGCAAGCCTTTGCCGGAAGCGGTGGAGACGCCAGCGCCCCCCATTGAAAGACCGGCTGCCGCCAGGACGGGAAGTTTCCAGCTCGGCAATCGTGGCGGTTCGGTCAATATCCACGGCGTTTCCAAGTCCTTCGGAACACTGAAGGTGCTGGACGATGTCACGCTCTCCATTCCGGCAGGCAGCGTCACCACCATTCTCGGTCAGTCCGGCTCCGGCAAGTCCACATTGCTGCGCTCCATCAATCATCTGGAGCGTGTCGACGACGGCTTCATCGCCATCGACGGCGAGCTGGTCGGATATCGCCAGAAAGGCGACACGCTTTATGAGCTGAAGGAAAGGGACATTCTGAAGCGCCGCGTCGAAGTGGGCATGGTGTTCCAGAGCTTCAATCTGTTCCCGCATCTGACCGCGCTTGAAAACATCATCGAAGCGCCTATTGCCGTTCGAGGCATTTCGAAAGAGCAGGCCGAGGCCGAAGCGCGCGATCTTCTGGCCCGCGTCGGCCTTGCCGAAAAGGCCGGTGCTTACCCCCGCCAGCTTTCCGGCGGGCAGCAGCAGCGTGTGGCGATTGCCCGGGCCTTAGCGCTGCGGCCGAAGGTGCTGCTCTTCGACGAGCCGACATCCGCGCTCGACCCGGAGCTTGTCAATGAGGTGCTGGATGTCATCAAGGAGCTGTCCCGCTCCGGCGTCACTCTCATCATCGTCACCCACGAAATCGGCTTTGCCCGCGAAGTCTCCGACAGGGTCGTCTTCATGGAACAGGGCCGCATTCTCGAAACGGGCACGCCGGAGAAAGTGTTCAACAAGCCGGACCACCCGCGCACGGCCGAATTTCTCGCAAAAGTTCTCTAA	MTIASDFPHLAVGDKKSEPITGGYSHFRIVPARYPLRTVGTVFSVLIIAAVVHSVFGNPRWGWDVFAEWFFAEPVLVGLGRTLLLTALGALFGFVLGTLLALARVSRSPLLVAVSWTYIWIFRSIPLIVLLLILNNLGYLYETVTIGVPYTGINFFSWNTTQLMTPFAAAVLGLTLNQAAFASEIVRGGILSVDQGQLEAAAALGLPRRRQASRIVLPQAMRSILPTAFNDIIGLAKGTSQVYILALPELFYTIQIIYRRNLEVIPLLMVATVWYLVILTALSIVQHHIERHFSRGALRNPPPSLFATLYRTFLPRKPLPEAVETPAPPIERPAAARTGSFQLGNRGGSVNIHGVSKSFGTLKVLDDVTLSIPAGSVTTILGQSGSGKSTLLRSINHLERVDDGFIAIDGELVGYRQKGDTLYELKERDILKRRVEVGMVFQSFNLFPHLTALENIIEAPIAVRGISKEQAEAEARDLLARVGLAEKAGAYPRQLSGGQQQRVAIARALALRPKVLLFDEPTSALDPELVNEVLDVIKELSRSGVTLIIVTHEIGFAREVSDRVVFMEQGRILETGTPEKVFNKPDHPRTAEFLAKVL	PGPT0020790_47	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020790-ABC_PA_A-K02028	NA	NA
BMS010_08238	558			hypothetical protein	ATGAGCGACAGTTTTTTCTACACATCGGTCAAGGATCCGCTCGCAGCGCCGCTTCTGGAGGAGTTGCTGTTCGAATATGACAGCCGCTACGGCACATTCTTCAATGCGGAGGGGGCCAAGGCGGAGCTGAACAAATATCCGCCGGAAGCCTTCAGCCCGCCATCGGGCAATTTCCTGCTGCTCCTGCGCGACGGCAAAGCGATCGCCGGCGGCGCCTTCATGCGTTACGACGACGAAACGGCGGAATTCAAACGGGTCTGGACCCATTCCGCCCATCGCCGGCAAGGGCTTGCGAAAATCGTGCTCCGGGAACTGGAGCAGCAGGCGATCCGGCAGGGTTATGCCCGCGTTTATCTGACCACCGGCTTCCGTCAGCCGGAAGCGGTCGGTCTTTATCTCACCAATGGTTATCGCGCTTTGTTCGATACCGCGGCCGATCCCGAGACGATCCGGTCGTTGCCCTTCGAAAAATGGCTGTCCGAACCCGCACCCGTCTCTGTTCCGGGAGGAGCGCCGATAGCGACTGTGCGGCCGCAACCCTCTTCCGCCCATCCGTGA	MSDSFFYTSVKDPLAAPLLEELLFEYDSRYGTFFNAEGAKAELNKYPPEAFSPPSGNFLLLLRDGKAIAGGAFMRYDDETAEFKRVWTHSAHRRQGLAKIVLRELEQQAIRQGYARVYLTTGFRQPEAVGLYLTNGYRALFDTAADPETIRSLPFEKWLSEPAPVSVPGGAPIATVRPQPSSAHP	PGPT0020795_551	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
BMS010_08239	1188	hipO_6	COG1473	Hippurate hydrolase	ATGAATATCCGCATTGACGGCGCGCGTCCGCAGGACGACGCCGAACGGGGAATCCTTGCCTTCATCGACGAGAGCATCGCCATCCGGCATGATCTCCACCGGCATCCCGAGCTTTCGCTCAAGGAAAAACGCACGGCGGCGCTCATCGCCCGCTATCTCTTGTCGTTCGGATATGAGGTGACGGAAGGTGTCGGCGGCCACGGCGTTGTCGCCACGTTGAAACGCGGTCATGGCGACAAGCGCGTCGGCATTCGCGCCGATATCGACGCCCTGCCGATTGTCGAGGATACCGGCCTTGCCTATGCCAGCCAGACGCAGGGCGTCATGCATGCGTGCGGTCACGATGGCCATACGACGATCCTGCTTGCCGCTGCCCGGTATCTTGCCGAAACATCGAGTTTTTCCGGCACGCTGACGCTGATCTTCCAGCCGGCCGAGGAGATCGGCGCCGGGGCAAGGGCGATGATAAAGGACCGGCTTTTCGAGCGGTTTCCGGTCGATGCTGTCTTCGGCCTTCATAATTGGCCGGGTGTCGACACCGGACAGTTTGGCTTCGTCGAAGGCCCCGCCATGGCCTCCGTCGACAAGGCGAAGGTGCGGATTGTCGGCAAGGGCGGGCATGGCGCCGCGCCGCATGAGACGGTCGATCCGGTTCTCGCCTCGGCAAGCTTCGTCACCGCCCTGCAGAGCATCGTTTCGCGCAATGTCGATCCGCGCGAGATGGCGGTGCTGACGGTCGGCTCCATCCATGGCGGAACCGCCTCCAACGTCATTCCCGAAAGCGTCGAGCTTCAGATCACCGCCCGGGCGTTCTCGCCTGCCGTGCGTGACAGGCTGGAGGAGCGGCTCCCGGCGCTGGCCAAAGCGCAGGCCGAGAGCTTCGGCGCGAAGGCAGAGGTCGCCTATTCCCGCGGTTTCCCGCCGGTCATCAACCACATCCCTCAGACGGTTTTCGCCCGCGATGTCGCCAAACGGCATTTCGCCGCCGGGCAGATCGCCGAAGCGTTCCAGCCGCGCACGGCGAGCGAGGATTTCGCCTTCATGCTGCAGGAGCGGCCCGGTTCTTATCTCTTCGTCGGCAATGGCGACAGCGCACCGCTGCACAGTCCCCACTACGATTTCAACGACGCGATCATCGCGCCGGCAGCACGCTTCTGGGTGCGGCTGGCGGAAGCCTATCTCTCCTGA	MNIRIDGARPQDDAERGILAFIDESIAIRHDLHRHPELSLKEKRTAALIARYLLSFGYEVTEGVGGHGVVATLKRGHGDKRVGIRADIDALPIVEDTGLAYASQTQGVMHACGHDGHTTILLAAARYLAETSSFSGTLTLIFQPAEEIGAGARAMIKDRLFERFPVDAVFGLHNWPGVDTGQFGFVEGPAMASVDKAKVRIVGKGGHGAAPHETVDPVLASASFVTALQSIVSRNVDPREMAVLTVGSIHGGTASNVIPESVELQITARAFSPAVRDRLEERLPALAKAQAESFGAKAEVAYSRGFPPVINHIPQTVFARDVAKRHFAAGQIAEAFQPRTASEDFAFMLQERPGSYLFVGNGDSAPLHSPHYDFNDAIIAPAARFWVRLAEAYLS				NA	NA	NA	NA	NA
BMS010_08240	1341	moxC	COG2141	Putative monooxygenase MoxC	ATGACGAGAAAGAAAATCCGTTTCGGCATCATGCTTCAGGGCCCCGGCGGGCACATGAATGCCTGGCGGCACCCCAAAAGCCCGGTGGATGCCAGCGTCAATTTCGACTTCTTCAGGAAGACCGCGCTGAAGGCGGAAGCGGCGGGCATCGCCTTCGCTTTCGTGGCGGATGGGCTCTATATCAATGACAAGTCGATCCCGCATTTCCTCAACCGGTTCGAGCCGCTGACGATCCTTTCGGCGCTCGCCTCCGTGACCTCGAAGATCGGTCTCGCCGGCACCGTTTCGACCTCCTATAGCGACCCCTTCACCATTGCCCGTCAGTTCGCCTCGCTCGATCTGCTGAGCGGCGGCCGCGCCGGGTGGAATGCCGTGACGACGCCGCTTGAAGGTACGGCGAAGAATTACAGCCGCAACCACCCCGAACATGCGCTGCGTTACGAGATCGCCGACGAATATCTCGAAGTGATCAAGGGCCTGTGGGACAGCTGGGACGACGACGCTTTCCTGCGCAACCGCGAGACGGGACAGTTCTTCGACCGCGCCAAACTCCATACGCTCGGCCATAAGGGCCGCTTCTTCCAGGTGGAAGGCCCGCTCAATATCCAGCGTTCGCCGCAGGGGCAGCCGGTGGTGTTCCAGGCCGGTTCCTCCGATGCCGGCATCGGTCTTGCGGGCAAACATGCGGATGCGGTCTTCACCAATTCCGCTTCGCTGGAGGAAAACCAGACCTTCCTCAAGCGTGTAAAACAGAGCGCCGTTGCGCAGGGCAGGTCCGCTGCCGATGTGAAGATTTTCCCCGGCATCGGCCCGATTGTCGGCGAGACGCAGGAGGAAGCGGAGGCGAAATACGACGTCATTCGCAACCTCATCACCATCGAGGACGCGCTTGCTTATCTCGGCCGCTTCTTCGATCATCATGATTTCAGCGCCTATCCGCTGGATGAGCCTTTCCCCGAACTCGGCGAGATCGGCAAGAACAGTTTCCGCTCCACGACCGACCGCATCAAGCGGCGCGCCAAGGAAAAGAACCAGACGCTGCGCGAGGCGGCGCTGGAGGCAGCGACCCCGCGTGAAGGTTTTATCGGCACCCCGGACAAGGTGGCTGACGAAATCATCCGCTGGGTGGAGCACGATGCGGCCGATGGCTTCATTCTGGGCTTCCCGGTGATTGCCGAGGGACTGGACGATTTCATCCGCCTCGTCATCCCGGTGCTGCAACGGCGCGGTTATTTCGATCCGCATCTGGAAGGGGCGACGCTGCGCGACCATCTCGGCCTGCCTTTCAGGGAAAGCGTCTATTCCCGCCGCGAAAACGGGTCGAACAAGGCCATCGCCTGA	MTRKKIRFGIMLQGPGGHMNAWRHPKSPVDASVNFDFFRKTALKAEAAGIAFAFVADGLYINDKSIPHFLNRFEPLTILSALASVTSKIGLAGTVSTSYSDPFTIARQFASLDLLSGGRAGWNAVTTPLEGTAKNYSRNHPEHALRYEIADEYLEVIKGLWDSWDDDAFLRNRETGQFFDRAKLHTLGHKGRFFQVEGPLNIQRSPQGQPVVFQAGSSDAGIGLAGKHADAVFTNSASLEENQTFLKRVKQSAVAQGRSAADVKIFPGIGPIVGETQEEAEAKYDVIRNLITIEDALAYLGRFFDHHDFSAYPLDEPFPELGEIGKNSFRSTTDRIKRRAKEKNQTLREAALEAATPREGFIGTPDKVADEIIRWVEHDAADGFILGFPVIAEGLDDFIRLVIPVLQRRGYFDPHLEGATLRDHLGLPFRESVYSRRENGSNKAIA	PGPT0003040_14	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_DEGRADATION,PGPT0003040-ssuD-K04091	NA	NA
BMS010_08241	1002			hypothetical protein	ATGTATACGCTCAGTTTGCTTGACAAGAGCCCGGTTCCAACGGGTGAGGACGCGGCGAGTGCATTCCGCGACACGATCAATCTTGCCAGGCGCGCCGAAGAGCTGGGTTACCGCCGTTTCTGGGTGGCCGAACATCACAATTCGCCGGAGCTTGCCGGTTCCGCACCGGAAGCGCTGGTTTCGTGGATATTGGCGAAAACCTCCCACATTCGCGTCGGCTCGGGCGGCGTCATGTTGCAACACTATAGCCCTTACAAGGTTGCCGAGGTTTTCAATGTCCTGTCGTCGCTTGCGCCCGGCCGGGTCGATCTCGGCATCGGCAAGACACCGGGCGGGTTGCCGCTGGCGACGTCGGCCTTGCAGCAGGCCTATGATCCTGCCAGCAAACCGGATTTCGAAACGGCCTTCAGTGAACTCACCACGTTTTTGTCCGGCGCCGCGCCGCAGGACCACGCACGGGCCGGACTGCAGGCGACACCTGCGCCACCGGTCGCCGCGGAACGATTTCTGCTCGGCGCCAGCCCGGAAAGCGCAAGGCTTGCGGCTTCAAGGGGATGGAATTTCGTCTTTGCCGGCCACCTCAATGGCGATGCGGAGGTTCTCCGCCGCAGCCTCTCGGCTTTCCGGGAAGAAAGCGGCGGAAGCGCTCCGATCCTTGCTTTGTCGGCTTTTGCGGCCAGCGACCCCGCCCATGCTGCGAGACAGGTGGAAGGTCAGCGCATCTACCGGGTATTCCTCAGCGACGGCAGGGCGTTCAACCTCGGCCGCCGAGAACAGGCGGAGGAATTCGCCCGCCAGTCCGGCGATGCCGATTACCGCATCGAAGAGCGCAAGCCCAACGTCCTGCATGGCGGGCCGGAGGATATTCACAAGGCGCTTCGTGCGCTTTCCGAAGAGCACGGCATCGAGGAATTCATCATCGAGCCGCCGCATGTCGGGGCCGATCAGCGGCTTGCCTCGATAGAACTGCTTGCCACGCATCGCCTTTCCCGGGCGGCGTAA	MYTLSLLDKSPVPTGEDAASAFRDTINLARRAEELGYRRFWVAEHHNSPELAGSAPEALVSWILAKTSHIRVGSGGVMLQHYSPYKVAEVFNVLSSLAPGRVDLGIGKTPGGLPLATSALQQAYDPASKPDFETAFSELTTFLSGAAPQDHARAGLQATPAPPVAAERFLLGASPESARLAASRGWNFVFAGHLNGDAEVLRRSLSAFREESGGSAPILALSAFAASDPAHAARQVEGQRIYRVFLSDGRAFNLGRREQAEEFARQSGDADYRIEERKPNVLHGGPEDIHKALRALSEEHGIEEFIIEPPHVGADQRLASIELLATHRLSRAA				NA	NA	NA	NA	NA
BMS010_08242	450	cymR		HTH-type transcriptional regulator CymR	ATGTTGACCAAAAAAGGCAAATACGGATTAAAGGCTCTTGTCGATCTGGCGCGGTTGCCCCAGGGCGAGACCGCCTTCGTGACCGAAATTGCAACCCGCAACAATATCCCGAAAAAATTCCTGGATACTATTCTTCTGGAGCTGCGCAATAGCGGCATTCTGCGCTCCAAGAAGGGTCCGAATGGCGGTTATTCGCTGTCGAAAATGCCATCCGAAATCATGATCGGACAAGTCATCCGCACGCTGGACGGACCTCTGGCCCCCATTCGCTGTGCAAGCCGCACGGCCTTTGAAGCCTGTGACGACTGCGACGATCCGGAGACCTGTCAGGTCAGGGTTTCGATGACGGACGTGCGTGACGCCATCGCAACCATTCTGGACAACATGACACTCGCACAATTCGTGGCGAAGGACGGGCAGAACGCCCGCTCCATTCCGGCCGGCGAATAG	MLTKKGKYGLKALVDLARLPQGETAFVTEIATRNNIPKKFLDTILLELRNSGILRSKKGPNGGYSLSKMPSEIMIGQVIRTLDGPLAPIRCASRTAFEACDDCDDPETCQVRVSMTDVRDAIATILDNMTLAQFVAKDGQNARSIPAGE				NA	NA	NA	NA	NA
BMS010_08243	945			hypothetical protein	ATGGGATCCGTCACGCCTCTCGGCGAAAGACTTCGTTTCGTTCCTCCACGCCTCGGCGCGGATATCGATGTGCTGACCGTTGCCCGCACGATCGCCGAAAACTGCGCCGTTGAAAGTCCCGGGCAAATCCATGCGCGGATCGCCCGTTCCGGTCTTCTTGCTCTTTCCGTTCCAACGGAACTGGGCGGGACGGACATCACCAATGATGTTCTCTCGCAAGCGCTCGCCATCATTTCCGCAGCCGATGCGGCGGCGGCGCATGATCTCGTCGAACATTTCACCGCGCTTGAATTCATCAGGAATGCGGGCAGCGAAGACCAGCGCAAGGCGCTCTTCGCCCGTCTCGATCTTGGCGAGACCTTCGCACTGGCAATATCTGCCGCGGATCTGGACCAAGCGGTTACGGTGACGGAAGACGACTATGCCCTGCGGCTTCCCGATGACGTTGCGGGGTCGGTGAGGGGCGACGCAGACTGGATTGTCGTGCCGGCCGTCAACACGGCCGGGCAGCCTTTGCTTGTCGTTCTGCGCAACCGCCCCAATACTTCATGGGAAGGTCTGTTACGCGCCGATCAGGTGGTGTTCCTGGCTCAGGGAGCCGGAAATCTGGCCGTTTCCGTTTCCACCCTTTTGAAAGCCGCCGTGGCTCTGGGGCAAAAGCAGCGTGAACTTTCGGCGCTGCTGATCGACAGACTGGCCGGCGATGGCGCGGCGCGGCCCGTGATAGGCGAAATATTTCTCGCCATTGAGCTCCTGAAGGCGCAGATATCCAGCCTTGCGGCCAATATCGATGCGGCGCAGGTGGGAGCGGAAAACGTCACCTTTCGCTCGGTTCGCAACAATGCCATCACGCTTGAAATCCTGATGGCGCGCCTCGGCCTTGTCGAAGGCGTCAGTGAAGCCGGGCTGATCGCGTCTCTGGACGACGATCTGCGCAGGCAATAA	MGSVTPLGERLRFVPPRLGADIDVLTVARTIAENCAVESPGQIHARIARSGLLALSVPTELGGTDITNDVLSQALAIISAADAAAAHDLVEHFTALEFIRNAGSEDQRKALFARLDLGETFALAISAADLDQAVTVTEDDYALRLPDDVAGSVRGDADWIVVPAVNTAGQPLLVVLRNRPNTSWEGLLRADQVVFLAQGAGNLAVSVSTLLKAAVALGQKQRELSALLIDRLAGDGAARPVIGEIFLAIELLKAQISSLAANIDAAQVGAENVTFRSVRNNAITLEILMARLGLVEGVSEAGLIASLDDDLRRQ				NA	NA	NA	NA	NA
BMS010_08244	546	hsaB_3	COG1853	Flavin-dependent monooxygenase, reductase subunit HsaB	ATGACATTGCAATATGCGGCCAAGGATCAACAATTCATCAACCTCCGCGACCCGGTCGCCGGCAGGGCGGCGGATGCCGACAGCCTCAAGGCGGCGCTGAGAACGCTGGGCGGAGGTGTCAGCGTGATTACGGCGGGTGAGGGCGACGAGCGAACGGGCGCGACCGTGACCTCGGCCACCGCTTTGTCGGTCGATCCGCCGCGCATTCTGGTGGCGCTCAACCGATCCTCATCCACATGGCCGGTGGTGCAGCGTTTCGGTCATCTTGCCGTCAACATCGTCGGGGCGAACCATCAGTTCGTCGCCAATCAGTTTGCCGGCATCGGCGGCCTGAAGGGCCCGGACCGGTATCGCGGTGCGGAATGGACACGGCTGTCGAGCGGTGCGCCCATTCTCGAAGACGCTGTTGCCGCGATCGATTGCACCATTGAAGAGACGATCGAACGGCACAGCCACGTCATCGTCATCGGCAAGGTTGAGGCGATCCGCATCGGCTCCGGCCATTCGCTGCTCTATCAAAACGGGCGTTATCATTCTCTGGACTGA	MTLQYAAKDQQFINLRDPVAGRAADADSLKAALRTLGGGVSVITAGEGDERTGATVTSATALSVDPPRILVALNRSSSTWPVVQRFGHLAVNIVGANHQFVANQFAGIGGLKGPDRYRGAEWTRLSSGAPILEDAVAAIDCTIEETIERHSHVIVIGKVEAIRIGSGHSLLYQNGRYHSLD	PGPT0006700_150	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STEROID|DERIVATE_DEGRADATION	XENOBIOTIC_ADROSTENEDIONE_DEGRADATION,PGPT0006700-hsaB-K16048	NA	NA
BMS010_08245	1170	ssuD_3	COG2141	Alkanesulfonate monooxygenase	ATGAGCACATCCGATAAACCACTCGATTTTCTATGGTTCATACCTACCTCAGGCGATGGCAGCTATCTCGGCTCGGATGATCTTTCGCGTCCTGCCGATCCCGGCTATTTCCGGGAAATAGCCCAGGCTGCCGATCGGCTCGGTTATTCAGGCGTGCTCATCCCCACCGGTGTCGCCTGTGAAGAATCCTTCATCCTTGCGGCCAATCTCGCTGCCTATACCGAGAAGCTGAAATTCCTCGTCGCCATCCGTCCGGGCGTCGCTTCGCCCGCCTATTATGCGCGGCTTGCTTCGACGCTCGATCGCGTTTCCCATGGCCGGCTGCTTCTCAACATCGTGGTTGGCGGCAGCGCGCAGGAATTGGCCGGTGACGGCATTTTCCTGCCGCATGACGAGCGTTACGATCACGCCGATGAGTTCTTCCAGGTGTTCAATTCGCTGATCGAAACCGGCAAGGGAAGCCTCGACGGCAAATATATCAAGGCGGTGGACGCGAAACTCGGGCTGCCGCCGGTGCAGGAACCGCGCCCGCCGCTTTATTTTGGCGGCTCTTCCGATGCCGGCATCGAGTTTTCCGCCGGTATCACCGACAAATATCTCACCTGGGGCGAACCGCCGGCGCAGGTGGCGGAAAAAATCGCCAAGGTGCGCGCCGCCGCCGCCAAAAAGGGGCGCAAGGTTACCTTCGGCATCCGTCTGCATTTCATCGTTCGTGAAACCGACGAGGAAGCATGGGCAGATGCAGAGCGGTTGATCTCGAAGCTCTCCGACGAAACCATCGCATCCGCTCAGGAAGTCTTCTCCAGGGCTTCGGATTCCGTCGGGCAGGCGAGAATGCAGGCGCTGCACAATGGCCGGCGCGACCGGCTGGAAGTCTCTCCGAATTTGTGGGCGGGCATCGGTCTCGTCCGTTCGGGTGCGGGGACGGCACTGGTCGGTTCGCCGAAGACGGTAGCGGCGCGGCTCAGGGAATATCAGGCGCTGGGCATCGATACCGTCATCGCCTCGGGTTATCCGCATCTGGAGGAAGCCTATCGGCTATCCGAACTGCTGTTTCCGGAAATCGGGCTTGGCGGACCGCGCAACCAGATACGATCTTCTTTCGGCGCGAAACAGGTTTTCGGTGGCGGCGGTCATGGCGGCAACGTCAAGCTGGTGTCCGGATCCTGA	MSTSDKPLDFLWFIPTSGDGSYLGSDDLSRPADPGYFREIAQAADRLGYSGVLIPTGVACEESFILAANLAAYTEKLKFLVAIRPGVASPAYYARLASTLDRVSHGRLLLNIVVGGSAQELAGDGIFLPHDERYDHADEFFQVFNSLIETGKGSLDGKYIKAVDAKLGLPPVQEPRPPLYFGGSSDAGIEFSAGITDKYLTWGEPPAQVAEKIAKVRAAAAKKGRKVTFGIRLHFIVRETDEEAWADAERLISKLSDETIASAQEVFSRASDSVGQARMQALHNGRRDRLEVSPNLWAGIGLVRSGAGTALVGSPKTVAARLREYQALGIDTVIASGYPHLEEAYRLSELLFPEIGLGGPRNQIRSSFGAKQVFGGGGHGGNVKLVSGS	PGPT0003040_426	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_DEGRADATION,PGPT0003040-ssuD-K04091	NA	NA
BMS010_08246	198			hypothetical protein	ATGCCGCAGGGACTTCATGCGTTTACTTTCGATCTGTTCGGTTTGACCCGGCGTCAGCCGCGGGAAGAGGAACAGGTCAGCCTTCATCCTCTGGATCATTCCGGACGCATCAGGCAGGAGAAAAGCGATCTCGAACTCGAACGGGAAGAGATCTGCGAAATGAACTTTGCGATGCTCGGCCTTTATCCGGTCTTCTGA	MPQGLHAFTFDLFGLTRRQPREEEQVSLHPLDHSGRIRQEKSDLELEREEICEMNFAMLGLYPVF				NA	NA	NA	NA	NA
BMS010_08247	603			hypothetical protein	ATGTGTACCACCTTGATTGTCCCTGGCCTGAATGGTTCGGATGAAGGACATTGGCAGCGGCACTGGTTGCTGGATGATCCCGACTCGCGGCTGGTCGATCAGGACAATTGGCAATGCCCGGTTCTCGAGGACTGGCTCGAACGTCTCGAGGCAGCGCTGGCGACAGTCGAAAGCGCTTATATCGTCGCCCACAGCCTCGGTTGCCTGCTGGTGGCGAATATGGCATCTCGCCCCTCCGCCGCCAAAATCAAGGGCGCGCTTCTGGTCGCACCCGCCCATCTCGACCGCGTAGAGGCGATGCATCCCTGTATCGTCCGGTTCGGTGCGTTTCCGCAGCAACCGCTTGCTTTTCCCAGCCTCGTCGTGGGCAGCATGAACGATCCCTATATGGATTGCGAAGAGTACGCGCGCAGTGCGAGCCTGTGGGGGAGCGATCTCATCAATCTCGGCGCCGTCGGACATATCAATATTGCCAGCGGCTACGGACGATGGCCTGAGGGTTATGCTCTTCTCGAACGGTTGAAGGCAGATGGCGCACCTGCAAAGGCGGTGGCCGGATCGAGGCTGCGCAGATTGACTGCCCTGGGCGACGCGCATTTTTGA	MCTTLIVPGLNGSDEGHWQRHWLLDDPDSRLVDQDNWQCPVLEDWLERLEAALATVESAYIVAHSLGCLLVANMASRPSAAKIKGALLVAPAHLDRVEAMHPCIVRFGAFPQQPLAFPSLVVGSMNDPYMDCEEYARSASLWGSDLINLGAVGHINIASGYGRWPEGYALLERLKADGAPAKAVAGSRLRRLTALGDAHF				NA	NA	NA	NA	NA
BMS010_08248	1071	msuD	COG2141	Methanesulfonate monooxygenase	GTGATCAGCACAAGCGAATTTCTCTGGTACATCCCCAATGACGTCAAACCCGGCCACCGGGGCGACGCCGTCAGCGAAAATCACAATAGTCTCTATACGTTGACGAGCCATGCCAAAGCGCTTGAAACCCATGGCTGGAAAGGCGCGCTGCTCGGCACCGGCTGGGGACGTCCGGATACATTTACGGTGGCGGCGGCGCTTGCGGCCCGCACCACCACATTCGAGCCGCTGATCGCCATCCGTCCCGGCTACTGGAAGCCGGCCAACCTCGCATCGGCCGCCGCCACGCTCGACCAGTTTTCCGGCGGTCGAGTTCGGATCAACATCGTTTCCGGTAGGGATGAGCTTGCCGCCTATGGCGATGAAGAAGGCGATCAGGCGCAGCGTTATGCCCGCACGAAAGAATTCATGCGGCTGGTGCGGCGGCTCTGGACCGAGGAAAACGTCACTTTTAATGGCGATCATTTCCGGGTCACGAACTCCACCGTTTCGCCGCGCATCGCCCTGCGCGAAGGCCGGCCGCATCCCAAACTCTATTTCGGCGGCGCTTCCGAAGCAGCCGAGCAGGTTGCCGCAACCGAGGCCGATGTGCAGCTTTTCTGGGGAGAACCGCTCGCTGGCGTGCGCGAAAGGATCGAGCGGCTGAGGCACTTCAGCGAAAAGCTCGGCCGCGATCTGCCGCCGCTGCAATTCGGCCTGCGGATCACCACGCTGGTACGCGAAACCACAGCCGAGGCATGGCGCGATGCGGAAGCGAAAGTTGCCGAGATGGCCGCAAACAATGGCGTACGCTGGAACGACCATCTTCAGGCCGTGGCGGTCGGCCAGCGCCGCCTGCTGGATTTGCACCGTCAGAGCGACGTGCTGGACGACAATCTCTATACCGCGCCAGGCAAATTCGGCGGCGGCGGGGCGGGAACCACATGGCTTGTCGGCTCGGCGGAAGATGTCGCCGCGTCACTGCGCAAATACCGCGCGCTGGGCATCAGCCATTTCGTGCTTTCCGACACGCCCTATCTCAAGGAAATCGAGCGGCAGGGCGAGAGCTTGCTGCCGCTGCTGCGGGATTGA	MISTSEFLWYIPNDVKPGHRGDAVSENHNSLYTLTSHAKALETHGWKGALLGTGWGRPDTFTVAAALAARTTTFEPLIAIRPGYWKPANLASAAATLDQFSGGRVRINIVSGRDELAAYGDEEGDQAQRYARTKEFMRLVRRLWTEENVTFNGDHFRVTNSTVSPRIALREGRPHPKLYFGGASEAAEQVAATEADVQLFWGEPLAGVRERIERLRHFSEKLGRDLPPLQFGLRITTLVRETTAEAWRDAEAKVAEMAANNGVRWNDHLQAVAVGQRRLLDLHRQSDVLDDNLYTAPGKFGGGGAGTTWLVGSAEDVAASLRKYRALGISHFVLSDTPYLKEIERQGESLLPLLRD	PGPT0003040_2223	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_DEGRADATION,PGPT0003040-ssuD-K04091	NA	NA
BMS010_08249	1179	ydbM		Putative acyl-CoA dehydrogenase YdbM	ATGAGCGTTGCACTTTCCGCCGTTGCGACCGCACCGGCGCAGCGGCTAGATCCCGTCGCCGTTGCAACCGCGCTGGCCGGGGATTTCAGCCTGACCGCTGCGGACCACGACAAAAGCGGCGAATTCGCCGCCGGTAATTTCGAGGCGCTTTTCAAGTCCGGCCTGCTGGGTCTCGTCACGGCTGAAAAGGATGGCGGCTGGGGCGAGGGCATGGAAACGGCACATGCCGTCATTACGGCCATTGCAAAAGGCGATCCGTCGACCGCCCTCATCCTCGCCATGCATTACAGCGTTCATGCCGCGATCCGGCGCGGCAAGTGGCCGGCAGCACTTGCGGCAAGGGTACTGGCCGCCAATAGCAGGGAACCGGCGCTCCTGAACAATGCGCAGGCGGAGCCGGGTGTCGGTTCGCCGGCCCATGGCGGCCTGCCGGAAACGACGGCGCGGATCGAGGGCGATTTCTGGGTGGTCAATGGCCGCAAGAGCTTCGTCACCGGCCTGCCGGGCCTGAAATGGGCGATCGTGCTTGCCGTGACGACGGAAGAGGCGCCCCGCCTCATCCAGCTTCTTGTTCCTCTCGATGCGGCTGGCATCGCCCAGGAAAAAGCATGGGAGGCGACCGGCATGTACGCCACAGCCAGCCATGATCTGGTGCTGGAAGACGTGAAGGTGCCGCTTGCCGATATCGTCGCCGAACAGCCGGCGGATGAGCCGCTGCGGCGCGATGAGGCGGACGGGTATAATTTCTTCGTTCTGCTGGCTTCCGTCTATCACGGTGTCGCGCTTTCGGCGCGGGACGATCTGTTGCGCCATCTGAATGGCCATGTTCCGGCAAGTCTTGGCGCACCCCTGTCCTCCATCCCCCGCATTCAGGAAGGTCTCGGCCAGATCGAAGTGCTGCTGGCGGCGAACCGACGCCTCCTTCTCTCGGTCGCCCGCGATGTCGATGCGGGGGAGAGGGTGGGAACCGATGCACTGGCCGTTCGTCATGTGGTCATCGACAATGCCGTGGCGGTGACGGATCTGGCGCTGGAGCTTGGCGGCAATCGCGGCCTGCGCCGGGATTACGATCTTGAGCGCCATCACCGCGACGCCATAACGGCAAGGGCGCATGCGCCGCAGAGCCATATGATCCGCACGATTCTCGGTCGTCAGAGCATCAAGGCGGCGGGCGGTTGA	MSVALSAVATAPAQRLDPVAVATALAGDFSLTAADHDKSGEFAAGNFEALFKSGLLGLVTAEKDGGWGEGMETAHAVITAIAKGDPSTALILAMHYSVHAAIRRGKWPAALAARVLAANSREPALLNNAQAEPGVGSPAHGGLPETTARIEGDFWVVNGRKSFVTGLPGLKWAIVLAVTTEEAPRLIQLLVPLDAAGIAQEKAWEATGMYATASHDLVLEDVKVPLADIVAEQPADEPLRRDEADGYNFFVLLASVYHGVALSARDDLLRHLNGHVPASLGAPLSSIPRIQEGLGQIEVLLAANRRLLLSVARDVDAGERVGTDALAVRHVVIDNAVAVTDLALELGGNRGLRRDYDLERHHRDAITARAHAPQSHMIRTILGRQSIKAAGG				NA	NA	NA	NA	NA
BMS010_08250	1032	soxB_4		2'-hydroxybiphenyl-2-sulfinate desulfinase	ATGAGCACGACACTTTCTGAAATCTGGTATACACGCTGCCCCGTGCCCACGCCGGTGGGGCTGGCGGCACAGCTCGGTTATCTCGGCGAGACCTTCGAGGAAGTCGGCATAGCGTTGAAATCCATCATCGATTCGCCTGACCGTTCCGTTCGTCAGAGCCATTTCAACCACACGCTGGAATGGTCCTTCCGCCATGGTGGCAATGTGCCGCCCATCCGCGCTCGTTCGGAGGGGCGCAATACGCGCCTTATCGGAGTGACCTGGACGGATGAGTTTCAGGCAATCATTACCCTGCCGGAGACCGGTATCCGCTCGCTCGCCGATCTCGTCGGCCGCCGTTTCGGCGTGCCGCGCCGGCCGGAAGGCATTGTCGACTTCATGCGCGCGACGGCGCTGAAGGGCATCGTTTCGGCGCTTTCGCTGGAAGGGCTGAAGGTTGAGGATGTCGAACTCAAGGACATCGTCATCAAGGATTCGGTGCTGGCCTCGCAGGAAGGGCCATCGCTATTCGGCCTGAAGCGCCGGCAATCCTTCGGCGAGGAAATCATCGCGCTGCTGCGGGGCGAGGTCGATGCGATTTTCGTCAAGGGAACGGCCGGTATTGCCGCCGCGAACCTGATCGGTGCGGTGCAAGTGGCCGAGTTCGGTTTTCACCCCGACCCGAAGATCCGCATCAATTCCGGTTCTCCGCGCGTGCTGACGGTTGACGGACGGCTTGCCGATGAGCGCCCCGATCTGGTGCAGCGGCTGGTTGGCGCCATCGCCCGGGCCTCGCTCTGGGCGGAACAGCACCCGGAAGAGACGCGCCGTTTCATCGCGCGCGAGGCCGGTGCGACGGAGGAACAGGTTCTGGCCGCCAATGGAGCTGAGGTTCACCGCCATCTCGGTCTCGGCCTCGATGCCGATCTTGTCGGTGCCGTCGGCCATTACAAGGACTTCCTGCATCAATGGGGCTTCCTTGAAAACGACTTCGATCTGGGCGACTGGATCGACGACCGTTTCGTCCCGGCAAATGAAAGGGCGGTGGCATGA	MSTTLSEIWYTRCPVPTPVGLAAQLGYLGETFEEVGIALKSIIDSPDRSVRQSHFNHTLEWSFRHGGNVPPIRARSEGRNTRLIGVTWTDEFQAIITLPETGIRSLADLVGRRFGVPRRPEGIVDFMRATALKGIVSALSLEGLKVEDVELKDIVIKDSVLASQEGPSLFGLKRRQSFGEEIIALLRGEVDAIFVKGTAGIAAANLIGAVQVAEFGFHPDPKIRINSGSPRVLTVDGRLADERPDLVQRLVGAIARASLWAEQHPEETRRFIAREAGATEEQVLAANGAEVHRHLGLGLDADLVGAVGHYKDFLHQWGFLENDFDLGDWIDDRFVPANERAVA				NA	NA	NA	NA	NA
BMS010_08251	1608	dppA_10	COG0747	Periplasmic dipeptide transport protein	ATGACTATTTTCAACCAGACGACGCGGCGTGGATTTCTGCTGGCGTCCGTGGCGCTTGGCGTGGTGTCGCTGCCCGGGCTGAAGCTCAACGCGGCGGAGCCGGCAAGCGGTGGCACAGCCACCCTGCTCATCTCATCGGAGCCGCCGGTGCTGACGACGATCGCACACACAGCCTATAATTCCGTCTATATATCGCCCAAGGTCACCGAAGGTCTGCTGACCTATGATTTCGACCTCAATCCCAAGCCGCTGCTGGCCAAATCATGGAATGTGAGCGCGGATGGTCTGCGTTACACCTTCAATCTGAGGCCCGGCGTGAAATGGCATGACGGCAAGCCATTCACCTCCGCTGACGTGGCGTTCTCCATCAATACCATCAAGGAAGTGCATCCGCGCGGCCGCAATACATTCCTGAACCTCACTGCTGTCGAGACGCCGGACGAGCTGACGGCGGTTCTGGTTCTTTCCAAACCCGCGCCCTATCTGATAACCGCGCTTGCCGCCGCCGAAACGCCCATCGTGCCGAAACATCTTTATGAGGGTACGAAGGTGACCGAAAATCCGGTCAATCTCGCGCCTATCGGCACGGGTCCGTTCAAGTTCAAGGAGTGGGTGCGCGGCAGCCATATCGTTTTCGAGCGCAATGCCGATTATTGGGATGCGCCGCGCCCCTATCTCGACAAGCTGATCGTCCGCTTCATTCCGGACGCCTCGGCCCGGGCGATTGCCATCGAAACCGGTGAAATCGATCTCGCGCCCAGCACGCCGGTCGCCTATAGCGATCTGGACCGGCTGAAAGAGCTGCCGAGCCTCGGCTTCGAGACCAATGGCTATCAATATACCAATTCGATCAGCCGCGTGGAATTCAACCTCGAAAAGGACGTGTTCAAGGATGTCCGCGTCCGCCGCGCCTTCGCGCATGTCATTGACCGTAACGTCATCTTCAACACGGTCAATTTCGGTTATGGCGCGACGATCACCGGGCCGATCAATCCGAAGCTGACGAAATGGTTCGTGGACGATCTGAAGACCTATCCGATCGATCTGAAGGCGGCGGAAGCGCTGCTGGATGAGGCCGGATATAAGCGTGGTACGGATGGCATCCGTTTCAAGCTCAATCTGGACTATGTGCCGAGCACTGAGGCCTATCCGCGCGGTGCGGATTATATTCGCCAGGCGCTGGCGAAGGTCGGCGTGGATGTGACGGTACGGACGCAGGATTTCGCCACCTATACCAAGCGCATCTACACGGATCGCGATTTCGATTTTGCCTATGAGGGCATGAGCAATCTCTTCGACCCGACCGTCGGTGTGCAGCGGCTCTACTGGTCGAAGAACTTCAAGAAGGGCGTGCCTTTCTCCAATGGTGCGGCCTACAGCAATCCGAAGGTGGATGCGCTTCTCGAAGCCGCCGCCATCGAGATCGATCCGGACAAGCGCGTCGCGCAATGGAAGGAAATCCAGCAGATTCTCGTCGATGATGTGCCGGCAATCGATATCGTCGCAGCACCGGAGATCACCATCTTCAACAAGCGCATTGCCGATCACACCATCGGCGCGGAAGGTGTGGCGGGAAGCCTCGCCTTCGCGCATATCGCCGCGTCCTGA	MTIFNQTTRRGFLLASVALGVVSLPGLKLNAAEPASGGTATLLISSEPPVLTTIAHTAYNSVYISPKVTEGLLTYDFDLNPKPLLAKSWNVSADGLRYTFNLRPGVKWHDGKPFTSADVAFSINTIKEVHPRGRNTFLNLTAVETPDELTAVLVLSKPAPYLITALAAAETPIVPKHLYEGTKVTENPVNLAPIGTGPFKFKEWVRGSHIVFERNADYWDAPRPYLDKLIVRFIPDASARAIAIETGEIDLAPSTPVAYSDLDRLKELPSLGFETNGYQYTNSISRVEFNLEKDVFKDVRVRRAFAHVIDRNVIFNTVNFGYGATITGPINPKLTKWFVDDLKTYPIDLKAAEALLDEAGYKRGTDGIRFKLNLDYVPSTEAYPRGADYIRQALAKVGVDVTVRTQDFATYTKRIYTDRDFDFAYEGMSNLFDPTVGVQRLYWSKNFKKGVPFSNGAAYSNPKVDALLEAAAIEIDPDKRVAQWKEIQQILVDDVPAIDIVAAPEITIFNKRIADHTIGAEGVAGSLAFAHIAAS	PGPT0004430_9308	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004430-ddpA|ABC_PE_S-K02035	NA	NA
BMS010_08252	990	gsiC_11	COG0601	Glutathione transport system permease protein GsiC	ATGTCGAATTCGAAACGGATTTTATCGCAGGCAAAAAGGGTGGCCATTCAGGCCGTCCCGACGGTCCTCGGTATCGTCATCCTGAACTTCTTCCTGCTGCAACTGGCGCCAGGCGATGCCGCCGATGTGCTGGCCGCGGAAGCGGGCTCGGCAACCGTCGAGACCATGGCGGAAATCCGCTCCCGCTTCGGGCTCGATCTGCCGGTTCTGCACCAGCTCATGAACTACCTCGGCAATCTGGCGCAATTCAGCCTTGGTTTTTCGCCGCGGTACGGCATGCCGGTGGCAGACCTCATCGGCCAGCGTCTGCCCGGCACACTCGCCCTGATGGGCGCAGCACTCGGCATTGCGATTTTTGTCGGTGTGTTTCTCGGCTCCATCATGGCGCTTTTCTCCGGCAAGCTGCCGGACCGGATCATTTCCATCGGTTCGCTGATCTTTTATTCCGTGCCGGGTTTCTGGATCGGCCTGATGCTTATCCTGACCTTCTCAGTGAAGCTCGGCTGGCTTCCCTCCGGCGGCGACAGCACCATCGGCAGCAGCCTTACCGGGTTTTCAGCCTTTCTCGACAGGCTGCGCTACATCGTGCTCCCTGCCCTGTCGCTGGCGCTCTATTTTCTGGCCATTTATGCCCGCCTGACCCGCGCGGCGATGCTGGAGGTGAAATCCCAGGACTATGTGCGTACGGCGCGTGCCAAGGGCGTTTCGCCGATCAGGCTCACCACGCGCCACATCCTGCGCAACGCGCTCATCCCCATCACCACCATGGCCGGCATGCATATTGGCGGCCTTCTCGGCGGCGCCGTCGTGGTTGAAACCGTCTTCAGCTGGCCGGGCCTTGGCCGCCTCGCTTTCGAAGCCGTGATGGCGCGGGATTTCAGCGTGCTGCTCGGCATTCTGCTTCTCTCCTCCCTCGTCGTCATCATCGTCAATGCGGCCGTGGACCTGTTGCAGGCATGGCTTGACCCCCGCATCGGAGAAAGCCGATGA	MSNSKRILSQAKRVAIQAVPTVLGIVILNFFLLQLAPGDAADVLAAEAGSATVETMAEIRSRFGLDLPVLHQLMNYLGNLAQFSLGFSPRYGMPVADLIGQRLPGTLALMGAALGIAIFVGVFLGSIMALFSGKLPDRIISIGSLIFYSVPGFWIGLMLILTFSVKLGWLPSGGDSTIGSSLTGFSAFLDRLRYIVLPALSLALYFLAIYARLTRAAMLEVKSQDYVRTARAKGVSPIRLTTRHILRNALIPITTMAGMHIGGLLGGAVVVETVFSWPGLGRLAFEAVMARDFSVLLGILLLSSLVVIIVNAAVDLLQAWLDPRIGESR	PGPT0004445_5006	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004445-ddpB|appB-K02033	NA	NA
BMS010_08253	996	dppC_3	COG1173	Dipeptide transport system permease protein DppC	ATGAACTCATCCCACACAACAGCGGTTCTCAACACGGCGGAACTTGGCGCTGAAGAGACCAATCCCAAACCGAAAAAGCCGGAAGAAAAGGCCTGGCCCTATATTCATGCGCCCGATGCGCTCTCGGCCCGCTCCGTCTCCGTGCCGCGACGTGGACTGCGGCGCGAACTGAAAATCTTCCTCACCAATCCCAATGCCATCGTCGGATTGCTGTTTCTCGCCACCGTCATCGTCACCGCACTGATCGCCCCGTTGATCTATCCCGGCGATCCCCTGGAAATGGTGGCCCGCCCGTTCCTGTGGCCGGGCCAGAACGCGGCCTATCCGCTCGGCACCGATTCCATGGGCCGGGACGTTCTGGCCGGCATCGTGCATGGCGCGCGTATCTCGCTCACCGTCGGGGTCGTGGCGACGCTGATCGGGCTCACGATCGGCATCGCGGTCGGCGCTTTCGCCGGTTATTTCGGCGGCGTCATTGACGATATTCTCGTCAAGCTGATCGAAATCTTTCAGACCCTGCCGAATTTCGTGCTGCTGGTGGTGCTCGTCGCCATCGCCCAGCCTTCGGTCACCACGGTCACGTCGGCCATCGGCATCATCACCTGGCCGCTCGTTGCACGTCTTACCCGTGCGGAATTCCGCGCCATCCGCGAGAAGGATTATGTGCTCGCCGCTCGTAGCCTCGGTTATGGCCATGCCCGCATCGTTTTTCAGGAAATCCTGCCCAATGCGCTGCCACCGATCATCGTCACCTCATCCGTCATGGTGGCAGGCGCGATCCTCATGGAAGCAGCGCTTTCCTTCATGGGGCTTGGCGATCCGAACCGGGTTTCCTGGGGATCGATGATCGGTTCCGGCCGCGATGTCATCCGCACAGCGTGGTATCTGACCGCCCTTCCCGGCCTCGCCATCGTCTTCACCGTCATTTCGTTGAACCTCATCAGCGATGGTCTCAACGATGCGCTCAACCCCCGTTTTTCGGAGGAACGCCGATGA	MNSSHTTAVLNTAELGAEETNPKPKKPEEKAWPYIHAPDALSARSVSVPRRGLRRELKIFLTNPNAIVGLLFLATVIVTALIAPLIYPGDPLEMVARPFLWPGQNAAYPLGTDSMGRDVLAGIVHGARISLTVGVVATLIGLTIGIAVGAFAGYFGGVIDDILVKLIEIFQTLPNFVLLVVLVAIAQPSVTTVTSAIGIITWPLVARLTRAEFRAIREKDYVLAARSLGYGHARIVFQEILPNALPPIIVTSSVMVAGAILMEAALSFMGLGDPNRVSWGSMIGSGRDVIRTAWYLTALPGLAIVFTVISLNLISDGLNDALNPRFSEERR	PGPT0004450_3333	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004450-ddpC|appC-K02034	NA	NA
BMS010_08254	999	oppD_4	COG0444	Oligopeptide transport ATP-binding protein OppD	ATGAGCAAACTGATCGAAGTCCATGATCTCTCCGTCAGCTTCGGCTCCGCCCAGCCGGTCAAAGGCGTCAGTTTCGATGTCAGCCCCGGCGAAATGCTGGCCATTGTCGGTGAAAGCGGCTCCGGCAAATCCCTGACGGCGCTTGGCCTAATCGGCCTCCTGCCCTCCCACGCCAAGACCGGCGGCCGGGTTCTGCTCGAGGGTCGCGATCTGCTGCCGCTTTCCGAGCGGCAATGGCGCGGCATTCGCGGCCGGGATATCGGCATGATCTTTCAGGAGCCGATGACCTCTCTGAACCCGGTCCTGACGGTCGGCGAACAGATCATCGAGGTGCTGCGCATCCATGAAAAGATTGACCGGCATCAGGCGCGCAAACGCGCCATCGAGCTTCTGGAGCTGGTCAATATTCCAGACGCCCGCCGCCGGGTGGACGATTATCCGCACCAGCTTTCGGGCGGCATGCGCCAACGTGTGATGATCGCCATCGGCGTTGCCTGCAATCCGAAACTCCTGATCGCCGACGAGGCGACGACAGCGCTCGACGTGACGATACAGGCGCAAATCCTGCAGCTGCTCGACAATCTGCGCCGCGATCTCAACATGGCGGTCATTCTCATCACCCACGATCTCGGCATCGTGGCGCAATGGGCGGACCGGGTGATGGTCATGTATGCCGGCCGCAAGGTAGAAGAGGGTTTGCCGGAACCGGTTTTCTCCAACCCCTATCATCCCTATACGCGCGGCCTGCTCGCGGCCTCGCCGCGCGCTGAAGATGGCCAGCATTATCGCGACGGCCCGCTCATCGAGATTCCGGGCTCCATCGTTTCCGCCACGGGGGAACGCGGTTGCGCCTTCCGTCCGCGCTGTCCGAGCGCCCGCGGCTTCTGCGGGCAATATGTACCACCGCTGAGGGAAATTTCGGACGGCCGCTACGCCGCCTGCCCCTTCGTTGCAACCACATCCCAGAAGGTGTCCAATGACGCTCTTGTCAGTGCATAG	MSKLIEVHDLSVSFGSAQPVKGVSFDVSPGEMLAIVGESGSGKSLTALGLIGLLPSHAKTGGRVLLEGRDLLPLSERQWRGIRGRDIGMIFQEPMTSLNPVLTVGEQIIEVLRIHEKIDRHQARKRAIELLELVNIPDARRRVDDYPHQLSGGMRQRVMIAIGVACNPKLLIADEATTALDVTIQAQILQLLDNLRRDLNMAVILITHDLGIVAQWADRVMVMYAGRKVEEGLPEPVFSNPYHPYTRGLLAASPRAEDGQHYRDGPLIEIPGSIVSATGERGCAFRPRCPSARGFCGQYVPPLREISDGRYAACPFVATTSQKVSNDALVSA	PGPT0004435_9603	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004435-ddpD-K02031	NA	NA
BMS010_08255	936	oppF_4	COG4608	Oligopeptide transport ATP-binding protein OppF	ATGACGCTCTTGTCAGTGCATAGTCTTTCCACCCACTATACGGGCGGACGCGGCACCGTGCGCGCCGTCGATGACGTCTCGCTCGATATCGAGGCGGGTGAAACCGTGGCCCTGGTGGGCGAATCCGGCTGCGGCAAATCTTCACTCGGCAAATCGCTGACGCGATTGGTCGAACCGTCTTCCGGCAGGATTACCTTCAAGGGTGCGGATGTGACGGCAATGACATCATCCGAGCTGCGCGGCATTCGCCGCCGCATCCAGATGATCTTTCAGGATCCCTTTGCCTCGCTCAATCCGCGCCAGACGGTGCGCACCATCCTTACCGGGCCGTTGAAGGTACATGGCATAGGAGACCGGGTGCGCCAGCGGGAGATCGTTGAAGCCATCGTCGCGCAGGTGGGCCTGCCGGCGGATTCGCTCGACCGTTATCCGCATGAATTCTCCGGTGGCCAGCGCCAGCGCATTGGCATTGCCCGCGCACTTGTTCTGGAACCGGAACTGGTCGTCTGCGACGAGCCGGTTTCGGCGCTCGATCTTTCGATACAGGCGCAGATCCTCAATCTTCTGGTGGAGATGAAGAAGCGGCTTTCGCTGTCCTATCTCTTCGTTTCCCACGACCTTTCCGTGGTGCGTTATTTCTCCGACCGCGTGCTGGTCATGTATCTCGGCAAGATCGTCGAAAGCGCACCGACATCGGAACTCTGGGCTTCCCCGAAGCACCCCTATACGCGCGCGCTTCTCGCCGCCGTTCCCGATCCCGCCCGCCGCAAACAGGCCGCGCCGATTTCCGGCGACCTGCCGAGCCCGCATAACCCGCCATCCGGCTGCCGGTTTCATACCCGCTGCCCGCTCGCCACCGATCTCTGTCGCGAAAAAGCGCCGGATTACACCCTTTTTGGCAAGAACCACGCCGTGGCCTGCCACCATGCCCAATAA	MTLLSVHSLSTHYTGGRGTVRAVDDVSLDIEAGETVALVGESGCGKSSLGKSLTRLVEPSSGRITFKGADVTAMTSSELRGIRRRIQMIFQDPFASLNPRQTVRTILTGPLKVHGIGDRVRQREIVEAIVAQVGLPADSLDRYPHEFSGGQRQRIGIARALVLEPELVVCDEPVSALDLSIQAQILNLLVEMKKRLSLSYLFVSHDLSVVRYFSDRVLVMYLGKIVESAPTSELWASPKHPYTRALLAAVPDPARRKQAAPISGDLPSPHNPPSGCRFHTRCPLATDLCREKAPDYTLFGKNHAVACHHAQ	PGPT0004440_8500	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004440-ddpF-K02032	NA	NA
BMS010_08256	1056	yajO_4	COG0667	1-deoxyxylulose-5-phosphate synthase YajO	ATGGTCGACTATCGCTATCTCGGAAGCAGCGCGCTGAAAGTTTCACCGCTGAGCCTCGGCACGATGATGTTCGGAGGCCCGACTCCGGATGACGTGGCCTTCCGCATCATCGACAAGGCGCGCGAACAGGGTATAAACTTCATCGACACGGCCGATGTCTATCACGACGGCAAGTCGGAAGAAGTCGTCGGTCGCGGCATCAAGGCCAGCCGCGATCACTGGGTTCTGGCCACGAAATTCGTCAATTCCCATACCAAGGGCCCGAACCTTGGCGGCCATTCGCGCAAATGGGTGATCGAAACGGTCGAGAATTCGCTGCGCCGCCTCAACACCGATTACATTGACATCCTTTACTTTCACCGCGCCGTCTTCGATGCGCCGCTGGAAGAGCCGGTGCGCGCCATCGCCGATCTCATCCGCGCCGGCAAGCTGCGTTATTTCGGCGTGTCGAATTTCCGTGGCTGGCGCATCGCCGAAATCTCGCATCTGGCCGATCAGCTTGGCATCGACCGGCCGGTTGCCAGTCAGCCGCTCTACAACATCGTCAACCGCACGGCCGAAGCCGAGCAGCTGCCGGCGGCTAATCATTATGGCCTTGGCGTCGTGTCCTATTCACCGCTCGCACGCGGCGTACTGACCGGCAAATATCAGCCGGGCGAACAGCCGGGTGCCGATACCCGCGTCGGCCGTGGCGACAAGCGTGTTCTGGAAACGGAATGGCGTCCGGAATCGGTCGAGATCGCCCAGAAGGTCGCGGCCCATGCCGCTTCGAAGGGTGTTTCGGCGGCGGATTTCGCGCTCGCCTGGGTGCTGAACAACAAGTTCGTCACCGCCGCCATCACCGGCCCGCGCACCGAAGAGCACTGGGATGGATATATCCGCGCGCTCGATGTGAAGATTGATGCCGAAGATGAAGCACTGGTCGACAGCCTTGTGACGACCGGCCATCCCTCGACACCCGGTTTCAACGATCCGAGCCATCCCGTCGAAGGCCGCGTGCCGCGCAATCTCGAACCCGCGCACCGCCCGGCGCTCAAGCCGCGCGCGGTCGCCTGA	MVDYRYLGSSALKVSPLSLGTMMFGGPTPDDVAFRIIDKAREQGINFIDTADVYHDGKSEEVVGRGIKASRDHWVLATKFVNSHTKGPNLGGHSRKWVIETVENSLRRLNTDYIDILYFHRAVFDAPLEEPVRAIADLIRAGKLRYFGVSNFRGWRIAEISHLADQLGIDRPVASQPLYNIVNRTAEAEQLPAANHYGLGVVSYSPLARGVLTGKYQPGEQPGADTRVGRGDKRVLETEWRPESVEIAQKVAAHAASKGVSAADFALAWVLNNKFVTAAITGPRTEEHWDGYIRALDVKIDAEDEALVDSLVTTGHPSTPGFNDPSHPVEGRVPRNLEPAHRPALKPRAVA	PGPT0017540_1333	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017540-yajO|iolS-K23107	NA	NA
BMS010_08257	1239	sfnC		putative FMNH2-dependent monooxygenase SfnC	ATGTCCACTCCGAAACTACAGACAACCACCACCAATAATTCCGGCGTGCCGAACCGGGACGAGATTCTGGCCCGGGCAAAGGACATTGCGGCCATCGCGGCCAGGGATGCCGCCCGTCGCGAACGCCAGCGGGAACTTCCTTTCGATATCTTCGCCCTTATCAAGGAGGCGAAGATCGGCACGCTGCGCGTTCCCGAAGCCAAGGGAGGACCGGGCGGCTCGATTGCTGATTATATCGAAGTGCTGATGATCCTCGGCGAAGCCGACAGCAATATTCCGCATGCGCTTCGCAGCCATTTCAATTTCACCGAAAACCTTGCTCTTGCACCCATCGAGCTGGAGGACCGGCGGCACCTCGAACATGTGCTTGCCGGCAAGCTCTTTGCGGGAGCCAGCACCGAACAGGGCACCAAACGCCCCGGCGAAATCACCACGCGGCTGAGTGCGGATGGTGACCGTTACCGGCTGAACGGCCGCAAATGGTATGCGACCGGCACAGCTTTTGCCGATTTCGGCACCTTCAGCGCCATTGGCGATGACGAGCAGCCGATCGGCGTGCTCATTCCGCTCGATCGCTCTGGCATCACCATCCTCGATGACTGGGACAGCATGGGCCAGCGCATGACGGCGAGCGGCGGTGTTCTGCTGGAGAATGTCGAGGTACTGCCGCATGAGCTGACGACCCGCAAGCTCGGCAGCCAGATCGGCCGCCACAGCTCGGCCATGCGGCAGCTGCATCTCGCCGCCTCGGCCGCCGGCGCCGTTCAGGGCGCGCTGAATGACGGTGTGGAGTATGTTTTACGCCAGGCGCGCACCACGCTCCACAGCAGCGCCGAAACCGCCAATCAGGACCCCTTCGTGCAGAAGATGCTCGGCGAAATCAGCGCCGGCGCTTTCGCCGTGAAGACGCTGATCCGCGAAGCGGCAAGAACGCTCGACCGCACCGCCGCCGCCTTTGCGAGCGGTGACGAAGAGGCGATAGAGGCGGCCCTGCTGGAAGGTTCGCTCGCCACAGCCCGCACCCAGATCATCGCTTCTCAGCTTTCTTTGACGGTCGCCACCAATCTCTATGAACTCGGCGGCGGCTCGGCGACATCGAGCGAGCGGAATTTCGACCGCCACTGGCGTAATATCCGCACGGTCTACAATCACAATCCGCTCGCCCACAAGGCGCGGGTAATCGGTGACTATTACCTGAACGGCACCACGACCCACCTCAGGGAAGGCCGGGTGTTCTGA	MSTPKLQTTTTNNSGVPNRDEILARAKDIAAIAARDAARRERQRELPFDIFALIKEAKIGTLRVPEAKGGPGGSIADYIEVLMILGEADSNIPHALRSHFNFTENLALAPIELEDRRHLEHVLAGKLFAGASTEQGTKRPGEITTRLSADGDRYRLNGRKWYATGTAFADFGTFSAIGDDEQPIGVLIPLDRSGITILDDWDSMGQRMTASGGVLLENVEVLPHELTTRKLGSQIGRHSSAMRQLHLAASAAGAVQGALNDGVEYVLRQARTTLHSSAETANQDPFVQKMLGEISAGAFAVKTLIREAARTLDRTAAAFASGDEEAIEAALLEGSLATARTQIIASQLSLTVATNLYELGGGSATSSERNFDRHWRNIRTVYNHNPLAHKARVIGDYYLNGTTTHLREGRVF				NA	NA	NA	NA	NA
BMS010_08258	972	gcvA_13		Glycine cleavage system transcriptional activator	ATGAGACCGGAGTTTATCGCTCCCGCCGCGAGCCGGGCAGCTCTTCGCCTGCCCACACTTTCCCGCCTGCCACCGCTGACCGCCTTGCGCGCCTTTGTCGTCGCCGCCCGTCATGCAAGCTTTTCGCGGGCGGCGGAGGAACTGCATGTCTCGACCGCTGCCATCGGACAGCAGGTGCGAATTCTCGAGACCCATCTCGGCCAGCCGCTTTTCAGCCGCCAGCGCGGTGAATTGCTGCTGACGGATGCCGGCAGTGCGCTTTATCCCGGCCTTGCCGATGCTTTCGAGACCATGATCGGCAGTCTTTCCGACCTGATGGTTTCAAACGCCCGGCCGCAGCTGAAGGTGCTGGCGGAAGGTTGCTTTGCCGCCCGCTGGCTGGCGCCGCGGCTGGGCAGCATCGTTCCGGCGCTCGGAGACGTGGAGCTTTCCATTGAATCCCTCGAGAGCGAAACAATCGACCTCCCCCATTTCGATGCCGATTGCGCCATCGTCGCCACCGCCGTCCAAATTCCCGGTTTCATTCACGAGCCGCTTTTCGCCGACACCGTTAGCGCTGTCTGCACTCCCGAGTTTGCAGCCCGCCATGAGCTTGCAGGCGAGCCCGCCCAATTGCGGGATCTCGGTTTCGCGATGTTGCGCGGCAATGGCCTAGACCCCGCCTTCGAATGGGCGAACTGGCTGCGCGCCTGCCGCATTCCACTTCGGCTTTCGGCGACCGGTCCGCGTTTTTCGCGCCAGACGGCGCTGATAGAAGCAATTTTATCCGGCCACGGCATCGGCCTCGCGCGCCACTCGCTGATTTCGGAAGAGCTGAAAAACGGCCGTCTTATCGCGCCCTTCGGGTCACCGCAGCCGACCGCCAGCCGTTACCACCTGCTGACCAGTCCTGACAGGCGGCGGCTGCCGGAGGTTGCATCTCTACTCGCTTTATTGCGCGAGGATATGCGCGCTCTAGAGGCCGCCGCCTGA	MRPEFIAPAASRAALRLPTLSRLPPLTALRAFVVAARHASFSRAAEELHVSTAAIGQQVRILETHLGQPLFSRQRGELLLTDAGSALYPGLADAFETMIGSLSDLMVSNARPQLKVLAEGCFAARWLAPRLGSIVPALGDVELSIESLESETIDLPHFDADCAIVATAVQIPGFIHEPLFADTVSAVCTPEFAARHELAGEPAQLRDLGFAMLRGNGLDPAFEWANWLRACRIPLRLSATGPRFSRQTALIEAILSGHGIGLARHSLISEELKNGRLIAPFGSPQPTASRYHLLTSPDRRRLPEVASLLALLREDMRALEAAA	PGPT0026360_486	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
BMS010_08259	1353	ntaA_4		Nitrilotriacetate monooxygenase component A	ATGAGCACAAAATCCGAGAAGCTGGTTCTTAACGCCTTCATCTATCCGGGCGGACATCACGAGGCGGCCTGGCGGCATCCGGATTCGGAGCCGCACCGCGTCACCGATATAAGGCTTTACCAAGATATCGCCCGCAAGGCCGAGGCGGCCAAGCTGGATGCCATCTTCTTTGCCGATGCGCCGGTGCTGGACGCCAATATCCGCTATGCGGCCCGCCACCGGCTGGAGCCGATCACCATGCTAGCGGCGCTCGCCGCCGTCACCGAAAAGATCGGCTTCATCGCCACGGCCTCCACCACCTATTACGAGCCGTATAATCTCGCGCGGCTCTTCGCGTCCGTTGATCATATCAGCGGCGGCCGGGTGGGCTGGAACATTGTGACGACTTCGGCGGATGCTGCGGCCGGCAACTTCAATCTCCAGAAGCATCCGCCGCATGCCGACCGTTACCGCCAGGCAATCGAGTTCGTGGATGTGGTGACGAAGCTCTGGGACAGCTGGGAAGATGACGCCATTGTTGCGGATAAGGAAAGCGGCCTTTTCGCCGATACCGACCGCATCCATCCTGCCAATCACGACGGCGAATTTTATCGGGTGCGGGGTGCGCTGAACGTGCCGCGTTCACCGCAGGGCCGGCCGGTCTATGTGCAGGCCGGCTCCTCGGAGGAAGGGCGCGGTTTCGCCGCCGATTATGCCGAGGCAATCTTTACCGCGCATCAGACTCTGGAGAGTGCGCGGTCTTTTTATTCCGACATCAAGCGGCGCGTCGCGGCCACGGGGCGCAATCCCGCCCATGTGAAAATCCTGCCGGGCATCAGCCCCTTCATCGCGTCAACCGAAGCGGAGGCGCGAAAACTTGAGGCCTCCTTCAACGATCTCATCCAGCCGGCATTTTCGCTTGGGCAATTGCAGCGCATCACCGGCATAGACCTGTCATCTGCCGATCTCGATCAGCCATTGCCGCAGGAGGCCGTGGAAGCGACGCGCGCGCAGGCGAATAGCAGCCGCCATCAACTGGTTCTTGACGTGATCGATCGGGAAAACCCGACGATCCGGCAATTGCTGCACCGGCTCGCCGGCGGGCGTGGCCACAAGGTCATATCAGGCACACCGGAACAGGTGGCGGACTGGATTGAGACCTGGTTCCGCGAGGGTGCTGCCGACGGCTTCAACATCATGCCGCCATGGCTGAATGGCGGGTTTGATCTCTTCGTGGTCGAGGTGGTGCCGATCCTCAAACAACGAGGCCTCTTCCGCGAGGATTATGAGGGCGACACGCTGCGTGATCATTACGGTCTGCCACGGCCTGACAATATTTACGTGGCGAGAGAGCCGCAAAAGGAACGCGCCTGA	MSTKSEKLVLNAFIYPGGHHEAAWRHPDSEPHRVTDIRLYQDIARKAEAAKLDAIFFADAPVLDANIRYAARHRLEPITMLAALAAVTEKIGFIATASTTYYEPYNLARLFASVDHISGGRVGWNIVTTSADAAAGNFNLQKHPPHADRYRQAIEFVDVVTKLWDSWEDDAIVADKESGLFADTDRIHPANHDGEFYRVRGALNVPRSPQGRPVYVQAGSSEEGRGFAADYAEAIFTAHQTLESARSFYSDIKRRVAATGRNPAHVKILPGISPFIASTEAEARKLEASFNDLIQPAFSLGQLQRITGIDLSSADLDQPLPQEAVEATRAQANSSRHQLVLDVIDRENPTIRQLLHRLAGGRGHKVISGTPEQVADWIETWFREGAADGFNIMPPWLNGGFDLFVVEVVPILKQRGLFREDYEGDTLRDHYGLPRPDNIYVAREPQKERA	PGPT0003040_16	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_DEGRADATION,PGPT0003040-ssuD-K04091	NA	NA
BMS010_08260	1596	appA_2		Oligopeptide-binding protein AppA	ATGACCATTTCCAGACGCCAGTTTCACAAAATTGCACTTGCCGCCGGCGCTTTCGTCGCGCTTCCAGGCGGTTCCTTTGCGGCTGCCGAAGAGCCGGTTTCGGGCGGCACGCTCAAGATTGTTTATTTTCCCGAGCCGACCCAGCTCGTGGCGATCAATACCAGTGCGGGCGGTCCGCAGTTTATCGGCTCGAAGATTTACGACGGGCTTTTGACCTATGATTACGAGCTTTCGCCCAAGCCGAGCCTCGCCAGGGAATGGAGCGTGTCGGCCGATGGGCTGGAATATGTCTTCCACCTGCAGCCGAAGGCGAAGTTTCACGATGGCAAACCGGTGACATCGGCAGACGTGGAATTTTCCATTCTGCGGCTGAAGGAAGCGCATCCGCGCGGCCGCGCTACTTTCTCGCATGTTGAAAGTGTCGATGCCTCCGATCCGCTGGTCGCGAAAGTCAAGCTTTCCAAGCCGGCGCCGGGCCTGATCACCGCGCTCGCCTCGTCGGAATCGCCAATTGTGCCGAAGCACATTTTCGAGACCTTCAAGCCGACAGATAATCCGAAACCCGCCCAGATCATCGGCAGCGGCCCCTTTGTGCTCAAGGAATGGGTGCCGGGCAGTCATATTCTTCTGGAGAAGAATGCGGACTACTGGGATGCGCCGCGCCCCCATCTCGACCGCGTCATCATCCGCCTCATCAACGATGCCGGCGCACGGGCTGCGGCGCTGGAAACCGGTGAAGGGGACATCGGCCCCAACCCGGTCGCGCTTGCCGATCTGGAACGGCTGAAATCCATCCCGACGCTGAAGGTTGATGACCGCATCTATGCCTATGCCGGCCAGCAGAACCAGCTGGTGATCAACCTGGAAAACGAATACCTCAAGGAATTGAAGGTCAGGCAGGCCATCGCCCATGCCATCGATGTTCCGGCGCTCATAGATACCGTGCTTTATGGTTACGCCGTGCCATCGCCGACGCCGATCAGCCCCGGCCTTGCGAAGTTCCACAATCCCGATATCGGGTTTGCCAAGTTCGATGTCGCACAGGCTGAAAAGCTGCTGGATGAGGCTGGTTTCCCGCGCAAGGATGGCGGCAAGCGCTTCAAGCTCCGGGTTACCACCAACCCCTTCAATCCACAGACCTATTCGGATTTCATCGCGCAGGCGCTGTCGAAAATCGGCATCGAGGCGGATATCCAGAAATTCGATTTCGGCACCTATGTGAAGGTGGTCTATACCGACCGCGCCTGGGACCTTTCGGTGGAATCCCTCTCCAATACCTTCGATCCGACTGCGGGCGTGCAGCGCGTTTACTGGAGCAAGAACTTCAAGATCGGCCTGCCATTCTCCAATGCCAGCCACTACGCCAATCCCGAAGTGGACCGGCTACTGGAAGCAGCGGCGGTGGAGCCGGATATCGAAAAACGCGCCGCCTTCTTCAAGGAATTTCAGGCTGTTATCGCCAAAGATCTTCCCGTCATTAATCTCGTCTCCCCCATCCAGCCGGTCGTCGGCAGCGTGCGCATCAAGGATTATGCGACAGGCGCAGAGGGGCTCAGCGGCAATCTCGCCAAGGCCTGGGTGACGAAGGAGGCGTGA	MTISRRQFHKIALAAGAFVALPGGSFAAAEEPVSGGTLKIVYFPEPTQLVAINTSAGGPQFIGSKIYDGLLTYDYELSPKPSLAREWSVSADGLEYVFHLQPKAKFHDGKPVTSADVEFSILRLKEAHPRGRATFSHVESVDASDPLVAKVKLSKPAPGLITALASSESPIVPKHIFETFKPTDNPKPAQIIGSGPFVLKEWVPGSHILLEKNADYWDAPRPHLDRVIIRLINDAGARAAALETGEGDIGPNPVALADLERLKSIPTLKVDDRIYAYAGQQNQLVINLENEYLKELKVRQAIAHAIDVPALIDTVLYGYAVPSPTPISPGLAKFHNPDIGFAKFDVAQAEKLLDEAGFPRKDGGKRFKLRVTTNPFNPQTYSDFIAQALSKIGIEADIQKFDFGTYVKVVYTDRAWDLSVESLSNTFDPTAGVQRVYWSKNFKIGLPFSNASHYANPEVDRLLEAAAVEPDIEKRAAFFKEFQAVIAKDLPVINLVSPIQPVVGSVRIKDYATGAEGLSGNLAKAWVTKEA	PGPT0004430_10697	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004430-ddpA|ABC_PE_S-K02035	NA	NA
BMS010_08261	351			hypothetical protein	ATGATGGATGCCATGGCCAAGGATACGCTTTTTTTGATCGCCCCCGGTTTTGAAGACCCAAAACACCTCGGTGTCCGCTTCGTCTGCCCGCATTGCAACCAGATCGAAGGCCTGCTTGCCGCCTTTCCGGACCTTGCCGCCGGGATCGATGTCCATCGCGTCGGTTTCCAGCGCCCGCGTGAGGCTGTCATCGCCGCCGTGGGTGAGGAAAACCAGTCGCTGCCGCTGTTCATCTTCGCCGGCGACGCGCCCAGCGACGCTACGGCCAAGGGCGCGACGCATTTCATTCAGGACACCAAACGCATTTTGCAAATCCTTGCCGAGCGCCATGGGTTCCCGCAGCTGCACTGA	MMDAMAKDTLFLIAPGFEDPKHLGVRFVCPHCNQIEGLLAAFPDLAAGIDVHRVGFQRPREAVIAAVGEENQSLPLFIFAGDAPSDATAKGATHFIQDTKRILQILAERHGFPQLH				NA	NA	NA	NA	NA
BMS010_08262	1590	gsiB_6	COG0747	Glutathione-binding protein GsiB	ATGGATATTACAAGACGTAAGACATTGCTTTTGAGTGCAGCGCTAACCGGGGCCATGCTGTTGCCCTCCCTGCCGGCTCTGGCGGCCGAAACGCCGAAAAAGGGCGGGATCGTCACCCTTGCAGGCCTTGGAGAGCCGACGACGCTGGTGCCGCTTTCCGATTCCAATACGCGCACCCGCGCCATTTCCACGAAAATCCTCGAAGGGCTGGTGCGGTTCGACAGCGAGTTCAAACCGCACCCGGTTCTGGCTGAAAGCTGGGAAACATCGGCCGACGGGCTGCGCCACACTTTCAAGCTGCGCAAGGGCGTCAAATGGCATGACGGCAAGGATTTCACGTCGCAGGACGTCAAATTTTCCCTGCTGGCCTTCAAGAAGGTCGGTCCACGCGGGCGCATTACCTTCGCCAATGTTGCAGATATTGAAACGCCCGATCCGCTGACGGCCGTGGTGGTGCTTTCAAAGCCCGCGCCCTATCTCCTGCGGGCGCTGACAGGTGGCGAAACGCCCATCCTGCCGGCCCATGCCTATGCTTCGGAAAATTATAACGAAAGCCCGAACGGTAACGCGCCGGTCGGCACCGGCCCCTTTGTCTTCGAGGAATGGAAGCGCGGCAGCTATGTGAAGCTGAAGAAGAACCCGAACTACTGGCAGGCCGATCTTCCCTATCTCGACGGTTTCGTGGCCCGTTTCGTTGCCGATTCGGCATCCACCACCATTTCCGTCGAAACCGGCGAGGCGGATTATACCGCCGATGTGTCCTACAGCGATCTGGAGCGTCTGCGGCAAAATCCGAAGCTTGCCGTGGAGGTCTACACCGACTCCTATCTCAACAATGCCGCCGTGTTCGAATTCAATCTCGAAAATCCGATCCTTGCCAAAAAGGAAGTCCGGCACGCCTTGGCGCATGCCATCGACCGCGATTTCATCAATGACGCCATCTTCTTCGGGACGGCGAAACCTGCCGGTTCCAACATCCCGGCAGTCTTCACCGCCTATAACGACGAAAAGCCTTTCAATTATCCCTTCGATCTCGCCAAAGCGAACGAGCTGTTGGACAAAGCGGGCTACCCGAAGGGTGCGGATGGTACCCGTTTTTCGCTGCGGCTGGCCTTCCTGCCGTCCGACGTCTTCCGCAAAACCTCCGAATATCTCCGCTCATCCTTCGGCAAACTCGGCGTGAAGGTTGATATCGTCGAAGGCGATCTCGCCACCTTCATCAAGCGGGTCTATACGGAGCGCGGTTTTGACCTGACGGTGAATGGCATCAGCCGCCTGTTCGATCCGACGGCGGGCGTGCAGCGCCTCTATTGGTCCGACGGCATCAAGAAACCCGCGCCTTATGTCAACGCGGCCCACTACAACAACCCCAAGGTGGATGATCTTTTTCGTGCGGCCGCGATTGAAGTGGACGAAACGAAACGGGCGGGGCAGTTCCACGACATCCAGAAAATCACCGGCGACGATCTGCCGAATTTCTCGATCGTCGCTTTGCCGACTGTCATTCTGCGCAATACCAGCCTGAAATCGCTCGTGACGACCATCGACATTGCCTATGGCGATCTGGCGACGGCCTGGAAAGGCGAGTGA	MDITRRKTLLLSAALTGAMLLPSLPALAAETPKKGGIVTLAGLGEPTTLVPLSDSNTRTRAISTKILEGLVRFDSEFKPHPVLAESWETSADGLRHTFKLRKGVKWHDGKDFTSQDVKFSLLAFKKVGPRGRITFANVADIETPDPLTAVVVLSKPAPYLLRALTGGETPILPAHAYASENYNESPNGNAPVGTGPFVFEEWKRGSYVKLKKNPNYWQADLPYLDGFVARFVADSASTTISVETGEADYTADVSYSDLERLRQNPKLAVEVYTDSYLNNAAVFEFNLENPILAKKEVRHALAHAIDRDFINDAIFFGTAKPAGSNIPAVFTAYNDEKPFNYPFDLAKANELLDKAGYPKGADGTRFSLRLAFLPSDVFRKTSEYLRSSFGKLGVKVDIVEGDLATFIKRVYTERGFDLTVNGISRLFDPTAGVQRLYWSDGIKKPAPYVNAAHYNNPKVDDLFRAAAIEVDETKRAGQFHDIQKITGDDLPNFSIVALPTVILRNTSLKSLVTTIDIAYGDLATAWKGE	PGPT0004430_11606	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004430-ddpA|ABC_PE_S-K02035	NA	NA
BMS010_08263	1200	hipO_7	COG1473	Hippurate hydrolase	GTGAATATCGCTGTCGATCCCGTCAAAACGCCCGCACCTAAAATCATAGACCGGATCGGGACCTATGTTCCCGAACTCGTCTCCATCCGCCACGATCTGCACCGGCATCCGGAAATCGGTTTCGAGGAGGTCCGCACCTCCGGCATCGTCGCTGAAAAGCTCGCCTCCTGGGGTATTGAGGTGCATCGCGGTTATGGCAAGACCGGCGTGGTCGGCGTGCTGCGCGGCCGCCATGCGGGCAATCGCTCCATCGGGCTTAGGGCGGATATGGATGCCCTGCCGATGCCGGAGGAGACCGGTCTGCCCTATGCGTCGGTCTATCCCGGCAAATTCCACGGCTGCGGGCATGATGTGCACACCACCATTCTGCTTGGCACCGCCCGTTATCTGGCCGAAACCCGCGATTTTGCCGGCACGGCGGTGTTCATTTTCCAGCCGGCCGAGGAAGGTCTCGGCGGCGCGCGCGCCATGATCGCCGACGGGCTGTTCAAGGACTTCCCCGTCGACGAGATTTACGGGCTGCACAATTCCACCCATGCCGCGCCCAATCACCTCAAGGTTTCGCCCGGCACCATTCTGGCGGGTGCGGATTTCTTCGATATCCGGCTGAAGGGCAGGGGTGCCCACGCTGCTCACCCCGATGTTTCGCGTGACCCGGTGCCGGCGACGGGTGAACTGATACAGGCGCTGCAAACCATCGTCAGCCGCAACGTGCCGCCGACCGATCCTGCCGTCCTGTCGATCACCCGCATCGAGGCGGGATCGGCCTATAACGTCATTCCCGAAACGGCCGCGATTGCTGGCACGGTGCGGGCCTTCTCCGACAGCGTGCGCGAAACCATAAGGGAGCGCATCCGCACGATTTCCGATCACATTGCCGCGGCGCACGGCCTCACCGCCGAGGTGGATATTCGCGACATATTCTCGGTTCTCACCAATGACGATGCATCTGTGGAGATCGTCGCCGGTGTCGCGCGCGAGGTTCTTGGAGACGAGCGCGTTTCCACCGAGCCCGGCCGCTTCATGGGCAGCGAGGATTTTGCCGATCTCCTGAAACACGCGCCCGGCGCGTTTTTCACCCTCGGCCATTCCGGCACGGTGCCCGCCCATAATCCCGGTTTCATCGTTGACGACGCCATTCTGCCGGTTGGCGCCACCCTGTTTGCCCGGCTGGTGGAAACCCGGCTGAAACCTGCGTGA	MNIAVDPVKTPAPKIIDRIGTYVPELVSIRHDLHRHPEIGFEEVRTSGIVAEKLASWGIEVHRGYGKTGVVGVLRGRHAGNRSIGLRADMDALPMPEETGLPYASVYPGKFHGCGHDVHTTILLGTARYLAETRDFAGTAVFIFQPAEEGLGGARAMIADGLFKDFPVDEIYGLHNSTHAAPNHLKVSPGTILAGADFFDIRLKGRGAHAAHPDVSRDPVPATGELIQALQTIVSRNVPPTDPAVLSITRIEAGSAYNVIPETAAIAGTVRAFSDSVRETIRERIRTISDHIAAAHGLTAEVDIRDIFSVLTNDDASVEIVAGVAREVLGDERVSTEPGRFMGSEDFADLLKHAPGAFFTLGHSGTVPAHNPGFIVDDAILPVGATLFARLVETRLKPA				NA	NA	NA	NA	NA
BMS010_08264	1185	sfnG_2		FMNH(2)-dependent dimethylsulfone monooxygenase	ATGGCGTTGACTGTTCCGCTGCCTGAAGGTTCTGAGCTGAAAGGTCTCGACCTGAAAAGTCCGACCGATTTCGAAGACAGCCCGCTTAGCCGGGCGGTGAAACAGCCACTGATGCTGGGCCTCTTCCTCAATCTGCAGGACATCAATTTCTCCAGCCTGCCGACGAGTAACAGCTGGACCTTCGATTACAATGTCGAACTGGTGAAGCGCGCGGAAGAGCTTGGTTTCGAGATCGCCTTCAGCCGCACGCAATGGCTGCCCAAGGGCGGGTATGACGGTGAATCCTCGCTCGACAGCTTCATCGCACTTGGTGCCATGGCAGCCGTCACGAAGAACATTCTGCTGATTTCCACCATCCACGTGCTTTATGGGCCGCTGCATCCGCTGCATCTCGCCAAATATGGCGCGACGCTGGATCATATCGCCAAGGGACGCTGGGGCATCAACATCGTCACTGGTCACCGCGCCATCGAGCATGAAATGTTCGGCTGGCAGCGTATCGACCACGACAAGCGTTACGACATGGCCGGCGAATTGTTCGATGTGCTCCATCGCCTGTGGGGGGAGACTGAGAACTTTTCCTATGAGGGAAAACTCAATCCCTGGGCGATCAACAATGGCTGGATCACGCCGAAGCCTGCTTTCGGACGCCCGCCGCTGGTGACGGCGACAGGTTCGCCCGCCGGCATCGATTTCGCCGCCCGTCATTCCGATCTGGTTTTCGTCACCTCGCCCGGCGGCGCGCATATAGACAGCGCGCTGGAAACGCTTCCCGATCATGTCGCAAACATTAAAAACCGCGCAAAGGCCTATGGCCGGCAGGTAAAGACGATCATCAACCCGATCATCGTCAGCCGCGATACGGAGAAAGAGGCGATCGCCTATGCGGATGCCATCGAGGCTGGAAAACCGCAGCCCGGCACCCGCGCCTTCGCCACCAATAATTATGACAGCGATGCCCATGCCTGGCGCGGCCGCGGCGATGCGCGCCACAAGCAGGGGCGCAATCTTGGCGGCAATATCGAAATCATCGGTTCGCCAGAGCAGGTAGTCGAGCAGCTTGTCGGTCTGAAAAAGGCAGGGATCGATGGGGTTCAGCTGAATTTCTACGATTTCCGCGAAGACCTCGATTATTTCGCAGAGCGCATTCTGCCGCTGATGAAGGAGGCGGGCCTGAGGCTCTGA	MALTVPLPEGSELKGLDLKSPTDFEDSPLSRAVKQPLMLGLFLNLQDINFSSLPTSNSWTFDYNVELVKRAEELGFEIAFSRTQWLPKGGYDGESSLDSFIALGAMAAVTKNILLISTIHVLYGPLHPLHLAKYGATLDHIAKGRWGINIVTGHRAIEHEMFGWQRIDHDKRYDMAGELFDVLHRLWGETENFSYEGKLNPWAINNGWITPKPAFGRPPLVTATGSPAGIDFAARHSDLVFVTSPGGAHIDSALETLPDHVANIKNRAKAYGRQVKTIINPIIVSRDTEKEAIAYADAIEAGKPQPGTRAFATNNYDSDAHAWRGRGDARHKQGRNLGGNIEIIGSPEQVVEQLVGLKKAGIDGVQLNFYDFREDLDYFAERILPLMKEAGLRL	PGPT0002830_58	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-SULFONE_DEGRADATION,PGPT0002830-sfnG-K17228	NA	NA
BMS010_08265	891	azoB_2		NAD(P)H azoreductase	ATGACAGCCACCATTCTTGTAACGGGCGCAACCGGCAAGCTCGGCAGACGTGTCGTCAGCCGTCTCTTGCAGAAAGCGGTGAAGGTTCGGGTGCTGACCCGCAGGCGCGAGGACGCGCTCAAGCTCTGGGGCGACAGGGTCGAGATTGCGGAGGGTAATTTTTCCGATCCGGCCAGCCTGAAGGAGGCCTTGCGCGGTATCGAGACCGTCTTTCTGCTTTCCCCCATCGGTGAAATGCTGGCGGCGGACCAGAAGGCGGTCATCGATGCCGCCCTCTCCGCCGGTGCGTCCCGGATCGTGAAAATATCCGGCTCCGACTGGACCATTGAGAATGCCGTACATTCCATTTCGGGGGCGGCGCATGCCGAGGTGGAAGCGCATTTGGCTGGAAGCGGTATCGCGTATACGGCGCTGCGGCCGAATGCCTGGATGCAGGTTGCGCTGGAACCCGTTGTCGCCGCGCTGCGCAAGGGAGAGGATGTGCCCGCCCGCTTCGGCGACGCGGCTGTCTCCTTCATCGATGCGGACGATATTGCCGATGTCGCGGTTCATGCGCTCACCACGAGCGCGCCTGTTTCCGGCGTCCTGGTGCTGACCGGTGGCGAAGCCTTGTCGGCGCTGGAAATCGCCCGCATCGCGGCGCGCATCCAGCATCGGCCCGTGGGAATTTCGGACAATGCCGCCCCGGCCTTTCCGCCGCATATCAGCGCGTTTGAACAGAAGGCGGTCGGCGAATTCGGCCAACTCATCCGCAAAGGTCTAGCGGCGTCCGTCAACAATACCGTCCAGCAGATTACCGGCCGGTCGCCCCGCAGCGTGGAGGACTATCTCCGTGTCCGGCTGGCAACCACCCCGCAGGATCATTCCGAGGGAGAAAAGACATGGCGTTGA	MTATILVTGATGKLGRRVVSRLLQKAVKVRVLTRRREDALKLWGDRVEIAEGNFSDPASLKEALRGIETVFLLSPIGEMLAADQKAVIDAALSAGASRIVKISGSDWTIENAVHSISGAAHAEVEAHLAGSGIAYTALRPNAWMQVALEPVVAALRKGEDVPARFGDAAVSFIDADDIADVAVHALTTSAPVSGVLVLTGGEALSALEIARIAARIQHRPVGISDNAAPAFPPHISAFEQKAVGEFGQLIRKGLAASVNNTVQQITGRSPRSVEDYLRVRLATTPQDHSEGEKTWR				NA	NA	NA	NA	NA
BMS010_08266	1068	soxB_5		2'-hydroxybiphenyl-2-sulfinate desulfinase	ATGGCTGATGCCGCCCTTCGCCAGATAACCCAACCCGTAACCGTGTGGTACACACGCTGCCCGGCGCCCACGCCGCTTTCCATCGCGGCGCAACTGGGCTGGATCGAGGACAGTTTCGGCGCCCATGGCATCTCTGTTTCCTCCATTCGCGATGCTGCCGATCCGGCCATTCGCCAGAGCCATTTCGATCACCGTCTGGACTGGTCCTTCCGTCAGGGCGGCAATATTCCGCCGATCTGGGCGAAATCAGGCGGCCGGAAAACACGGCTGGTGGGGCTGACGAGAACTGATGAGTTTCAGGCCGTCATCGCTTTACCAGCCAGCGGAATAAGCAGGGGCAGCGACCTGAAGGGACGGCGCATCGGCCTGCCGAAACGGCCGAATGAAACCATCGATTTCCAGCGCGCGACATCGCTGAAGGGCATTGTGTCGGCGCTGACGGTTTCGGACCTCGCCGTTGCGGATGTCGAGCTTGTCGATCTCACGGCGAAAGAGCCGGTGTTGCTCGATCCTTCTGACAACAGGTTCCATGGTCTGCGCCGGCGGTTTCCTTATGGCGAGGAGATTGCAGCGCTGCACCGTGGCCAGATCGATGCATTTTTCGTCAAGGGGGCGGAAGGCGTCACCGTCGCCAATCTGATCGGTGCGCAGGTTGTGGTGTCGACGGGGTTTCACCCTGATCCGAAAATCCGCATCAACAACGGCACGCCGCGCCCCTTGACGGTGGACGCCACCTTTGCCGATGAGCGGCCCGATCTGGTGGCGGAACTGGTGGCCACCGTACAGCGGGTTGCCCAGTGGGCGAATGACAATCCTGCGGAAGCCGTGCGTTTCATCGCCCGTGAGATCGGCGTCAGCGAGGAGGCGGTTCTGGCTGCGAATGGCCCGGATGTGTACCGCAATCTGAGGCTCGATCTCGATCCGGCCGAGCTGGATGCACTCAGCCATTTCAAGGATTTCCTGCTGGAATGGAAATTCATTCCGGCGGATTTCGATGTGCAGGATTGGGCCGATCCACGCGCCCTTTATTCACAGCAAGATGCTGCGCAACGCAGTGCGGGAAAGTGA	MADAALRQITQPVTVWYTRCPAPTPLSIAAQLGWIEDSFGAHGISVSSIRDAADPAIRQSHFDHRLDWSFRQGGNIPPIWAKSGGRKTRLVGLTRTDEFQAVIALPASGISRGSDLKGRRIGLPKRPNETIDFQRATSLKGIVSALTVSDLAVADVELVDLTAKEPVLLDPSDNRFHGLRRRFPYGEEIAALHRGQIDAFFVKGAEGVTVANLIGAQVVVSTGFHPDPKIRINNGTPRPLTVDATFADERPDLVAELVATVQRVAQWANDNPAEAVRFIAREIGVSEEAVLAANGPDVYRNLRLDLDPAELDALSHFKDFLLEWKFIPADFDVQDWADPRALYSQQDAAQRSAGK				NA	NA	NA	NA	NA
BMS010_08267	1308	ntaA_5		Nitrilotriacetate monooxygenase component A	ATGAGCAAGACCAAACGCCGGCTTAATCTCAATGTCGGCATCAACACCACCGGATACCTCGCCAATGCCTGGAAATACCGGAGCGGAGACCGGCACGACATCAACGACATAGGCTATTATCGCCGGCTGACGGAACTGGCGCATAAGGGCCGGTTCGACGCGGTTTTCCTTTCCGACCACCCGGCACTGCTGACCGACCCCGTAAGCCGCCCATTTCATACCATCGATCCGCTCATTCTCTCGACATCGCTTGCCGCACAGGTGCCGGATATCGGCTTTGTGGCGACGGTGTCCTCCACCTATAATTCGCCCTATAATTTCGCCAGACGAACCCAATCCATCGACCTCGTCACCGGCGGCCGGCTGATCGTCAACATCGTCTCTTCCTTCAATCCCAATGTCGCCGCCAATTTCGGCAACGATCCGCTGCCGCCGCGCAGCGAGAGATATGCCAAGGCCACCGAATTTCTCGATGTGGCGAAAAAACTCTGGTCAAGCTGGGATCCGCGCCGCGAAGGCCAGGTGCCGGAAGAGCGTTTCTGGGATGCGGCGACCGCCGAAACCATCGATCACGAGGGGCAATATTTCCATGTCAAAGGCCCGCTCAACGTTCCGCGTGGGCCGCAGGGGCATCCCGTCATCGCGCAGGCCGGCGCCTCCGAAGGCGGCATCGATCTGGCGGCACGCCATGGCGAGATTATCTATTGCAACATCCTGTCACGCCCGGCGGGCCAGGCCTTTGGCAAGAAGGTCCGCGACCGAGCCATCTCCCTCGGCCGCGATCCCTCCGGCGTCCGCATCGTTCCGGGCCTCGTTGTCATTCTCGGCGAGACCCGCGAGGAAGCATTGCGTAAACACGAACTGTATAGCGGAACAGGCTCCGAAGACGGTCTGCTGGCGCGCTTCGCCAGGGAAAACGGCATCGATCCCCGCGATTTCAATCCCGATGTGAAACTCGATGCGGAACGTTTCGTCCCGGACCAGAACCGGCAATGGGCGGTGGGCATGGGGCTTGGCCTTTCCGACCTGCTGACCCACGAAAAGCTCACCGCCCGCGAGGCCGTGCGCCGCTCGGAAGGACATCACCGGCTGCTGCTCGGCACGCCGGAAGAGGTGGCGGATGGCATTATCGACCTCTGGCAGGATGGCACGGTGGATGGTTACACCCTGCAGCCGCCGCGAGCGCCCGACGACATTGCTGAATTCGTCGAAAAGGTCGTGCCGGTGCTACAGGATCGGAGTGTTTACCCGCGCGAATATGAAGGCACGACGATCCGCGACCGCTATGGCCTGCCTTATCCAGATTGA	MSKTKRRLNLNVGINTTGYLANAWKYRSGDRHDINDIGYYRRLTELAHKGRFDAVFLSDHPALLTDPVSRPFHTIDPLILSTSLAAQVPDIGFVATVSSTYNSPYNFARRTQSIDLVTGGRLIVNIVSSFNPNVAANFGNDPLPPRSERYAKATEFLDVAKKLWSSWDPRREGQVPEERFWDAATAETIDHEGQYFHVKGPLNVPRGPQGHPVIAQAGASEGGIDLAARHGEIIYCNILSRPAGQAFGKKVRDRAISLGRDPSGVRIVPGLVVILGETREEALRKHELYSGTGSEDGLLARFARENGIDPRDFNPDVKLDAERFVPDQNRQWAVGMGLGLSDLLTHEKLTAREAVRRSEGHHRLLLGTPEEVADGIIDLWQDGTVDGYTLQPPRAPDDIAEFVEKVVPVLQDRSVYPREYEGTTIRDRYGLPYPD				NA	NA	NA	NA	NA
BMS010_08268	1029			hypothetical protein	ATGCCTCTTTCCCATATCTCCCACTTTGCCTTTCTGGTTCCCGGCAATTATCAGGACGACGATCCGGCATGGGGGCTGGAAGAAACCCTGCAGCTTTTCGAAGCCGGAGAGGCGCTGGGTTATCAAAGCGCCTGGGTTCGCCAGCGCCATCTTGAACGGGGCGTATCATCGGCGGCCACTTTCCTCGCGGCGGCATCGCAGCGCACGAAACGGATCGGCCTCGGCACCGCCGTCATTCAGCTTGGTTATGAAAATCCCTTCAGGCTGGCGGAAGATCTGGCCACCGTGGATGTCCTGTCGCGCGGGCGGTTGAATGTCGGGGTTTCGGTGGGCGCGCCACCCTTCGCCCATCTTATTTCGGATTATGTCGATACGGTTCCCGATGCCGATTACAGCCATGCCCGCGCCGAAAAGCTGGCAAGGGCCCTGCGGTCGGAACCGCTATCCAGCGAGACGGAAGCGGGTAATGCGGCCGGCGCGCAGGTGCCGCGCCTGCGTCCAGTCGCCGAGGGGCTGACGGACCGGCTATGGTATGGCGGCGGATCGCAGAATTCCGCGCTTTGGGCGGGGAAGGCGGGCTTCAATCTCCTGACGGGCAATATCGTCAACGGCGAAAATACCGATGATTTTCTGACCGCGCAGGCGGCGCTGGTCAGCCGCTTCCGGCAGGAATGGGCGCGTGAGCGCCAGCCGCGTGTCGCTCTTGGCCGCGTGATCCTGCCGACCGATAGCGCAAGCCCCGCGACCCGCCGCCGTTACAAGGAATTCGCCGCCGAGCGTGACAAGCGCACGACCACGCCGCATGGCGCGCGCCGCACGCTTTTCCTGCCCGATATCGTTGGAACGACGGACGAAATTCTGGAGAGATTGTCGCGCGATCCAGTTCTGCCGCACGTCTCGGAATTCCGTCTCGAACTGCCCTATGAATTCCAGCCGGAAGATTATCGCCAGATCGTCACGGATTTCGCCTCCGTCCTGCCGCAGCTCTCAGGCGGGCAGCCGGTTTTGAAAGTGGCGACGGGCCAATAA	MPLSHISHFAFLVPGNYQDDDPAWGLEETLQLFEAGEALGYQSAWVRQRHLERGVSSAATFLAAASQRTKRIGLGTAVIQLGYENPFRLAEDLATVDVLSRGRLNVGVSVGAPPFAHLISDYVDTVPDADYSHARAEKLARALRSEPLSSETEAGNAAGAQVPRLRPVAEGLTDRLWYGGGSQNSALWAGKAGFNLLTGNIVNGENTDDFLTAQAALVSRFRQEWARERQPRVALGRVILPTDSASPATRRRYKEFAAERDKRTTTPHGARRTLFLPDIVGTTDEILERLSRDPVLPHVSEFRLELPYEFQPEDYRQIVTDFASVLPQLSGGQPVLKVATGQ				NA	NA	NA	NA	NA
BMS010_08269	1149		COG4948	L-talarate/galactarate dehydratase	ATGATCATCACCGACGTCGAGGTCCGTGTTTTCCGCACGACGACCCGTCGGCACTCGGACAGTGCCGGTCACGCGCATCCGGGTCCGGCGCATCAGGTGGAACAGGCCATGCTGACCATCCGCACCGAGGACGGTCAGGAAGGCCACTCCTTCACCGCGCCGGAGATCGTTCGCCCGCATGTCATCGAAAAATTCGTCAAGAAAGTCCTGATCGGTGAAGACCATCGCGACCGCGAACGGCTATGGCAGGACCTTGCTCACTGGCAACGCGGTTCGGCCGCGCAGCTGACGGACCGCACATTGGCGGTGGTCGATTGCGCCTTGTGGGACCTTGCCGGCCGCTCGCTCAATCAACCTGTATACAAGTTGATCGGCGGCTATCGCGACAAGGTGCTCGCCTATGGCTCCATCATGTGCGGCGATGAGCTGGAAGGCGGGCTTGCGACACCTGAGGACTACGGCCGCTTTGCCGAAACGCTGGTGAAGCGCGGCTACAAGGGCATCAAGCTGCACACCTGGATGCCGCCCGTCAGCTGGGCGCCGGATGTGAAGATGGATCTCAAGGCCTGCGCGGCCGTGCGCGAGGCGGTCGGCCCCGATATTCGCCTGATGATCGACGCCTTCCACTGGTATTCCCGCACCGATGCGCTGGCGCTTGGGCGTGGTCTCGAAAAACTCGGCTTCGACTGGATCGAAGAGCCGATGGATGAGCAGTCGCTGTCTTCCTACAAATGGCTTTCCGACAATCTCGATATTCCGGTCGTCGGCCCCGAAAGTGCGGCAGGCAAGCATTGGCACCGGGCCGAATGGATCAAATCCGGCGCCTGCGATATTCTGCGCACCGGCGTCAATGATGTCGGCGGCATCACCCCGGCGCTGAAGACCATGCATCTGGCTGAAGCCTTCGGCATGGAATGCGAGGTGCATGGCAACACGGCCATGAACCTTCATGTTGTCGCCGCCACCAAGAATTGCCGCTGGTATGAGCGCGGCCTGTTGCACCCCTTCCTCGAATATGATGACGGCCACGATTATCTGAAGTCGCTGTCCGACCCGATGGACGGCGACGGCTTCGTACATGTCCCTGACCGGCCGGGCCTTGGCGAGGACATCGATTTTACCTTCATCGACAATAACCGGGTGAGGTAA	MIITDVEVRVFRTTTRRHSDSAGHAHPGPAHQVEQAMLTIRTEDGQEGHSFTAPEIVRPHVIEKFVKKVLIGEDHRDRERLWQDLAHWQRGSAAQLTDRTLAVVDCALWDLAGRSLNQPVYKLIGGYRDKVLAYGSIMCGDELEGGLATPEDYGRFAETLVKRGYKGIKLHTWMPPVSWAPDVKMDLKACAAVREAVGPDIRLMIDAFHWYSRTDALALGRGLEKLGFDWIEEPMDEQSLSSYKWLSDNLDIPVVGPESAAGKHWHRAEWIKSGACDILRTGVNDVGGITPALKTMHLAEAFGMECEVHGNTAMNLHVVAATKNCRWYERGLLHPFLEYDDGHDYLKSLSDPMDGDGFVHVPDRPGLGEDIDFTFIDNNRVR				NA	NA	NA	NA	NA
BMS010_08270	630			hypothetical protein	ATGAAAACGGTGCTCGCCTTCGGAGACAGCCTCACCTGGGGCGCGGACCCGGCAACGGGTCTGAGGCACCCCGCCGAATACCGCTGGCCGGAGGTTCTGGAGGCCGCGCTTGCCGGAAAGGCAAAGGTTCACCCCGAGGGGCTTGGCGGGCGCACGACCTGCTACGATGACCATGCCGGCCCGGCCTGCCGCAATGGCGCGCGGGCGCTTGAAGTCGCGCTGTCCTGCCACATGCCACTCGATCTCGTCATCGTCATGCTCGGCACCAACGATATCAAACCGGTGCATGGCGGGCGTGCGGAAGCCGCTGTTTCCGGCATGCGGCGGCTGGCGCAGATTGTCGAGACCTTCATTTACAAACCGCGTGAGGCCGTTCCGAAACTGCTGATCGTCTCCCCGCCGCCCTGCGTCGCGGGCCCCGGCGGAGAGCCCGCGGGTGGGCGGGACATCGGGCAATCGCTCAGGCTTGCGCCGCTTTACCGCAAACTCGCCGCCGAACTTGGACATGCCTTTTTCGATGCCGGGTCGGTTGCCAGCGCCTCACCGGTGGATGGCGTGCATCTGGACGCGCCGGCAACGGCGGCAATCGGCCGGGCGCTAGCAGCTCCGGTCAGAGAGATTCTTGGCTGA	MKTVLAFGDSLTWGADPATGLRHPAEYRWPEVLEAALAGKAKVHPEGLGGRTTCYDDHAGPACRNGARALEVALSCHMPLDLVIVMLGTNDIKPVHGGRAEAAVSGMRRLAQIVETFIYKPREAVPKLLIVSPPPCVAGPGGEPAGGRDIGQSLRLAPLYRKLAAELGHAFFDAGSVASASPVDGVHLDAPATAAIGRALAAPVREILG				NA	NA	NA	NA	NA
BMS010_08271	1599	dppA_11	COG0747	Periplasmic dipeptide transport protein	ATGAAACATTTTCTTGCAACCGCAGCACTTGGCGCCCTGCTGATCGGCGCCATGCCGCTCAGCGCCTTTGCCGAAACGCCGAAGGACCAGCTCATCGTCGCCACGACCATGAGCAATATCCTCACCCTCGATCCCGCCGCCATTACCGGCCGCGAGACCGTGCAGGTGCTGAACAATGTCTATGACACGCTGGTCGTGCTTTCCCCGAAAGATCGCAGCGTTCAGCCTCGCCTTGCCGAACGCTGGGAGATTGCAGAAGACCGGAAATCGATCCGCTTCCATCTGCGTGCCGATGCCAAATTCGCTTCCGGCAACGCCGTGACGGCCAAGGACGTGGCGTGGAGCCTGAAGCGGCTGCTCGCCCGCAACCTGGCGCAATCCTCCTTCCTGAAAACCCGCGGCTTCAAGCTGGAAGAGGCCGACAAGCTGTTCGTTGCCGAAAACGACCAGACCTTCGTGCTGAATATCCCGAAGCCCGACGATCCCAACCTTCTGCTGATGATCCTCGCGCAAAACGGCCCCGGCTCGATCATCGACAGCAAGACGGCGCTTGAGAATGAAAAGGACGGCGATCTGGGCGGCGCATGGCTGACGCTGAATTCCGCCGGCTCCGGCCCCTTCAAGCTGACGCAGTGGAAATCCAACGAATATATCATCCTCACCCGCAACGACGATTATTGGGGTGAGAAGGCCAAGATGAAGCGCATCCTGATGCGCCATCTGCCGGAATCGCAGTCGCAGCGGCTGATGCTGGAAAAAGGCGATATCGACGTTGCCTATTCCCTTCAGGCCCCGGACCTGAAATCGCTCGAGGCCGACAAGGCCGTCACCATCGAATCCACACCCGGTTCCGGTTTTTATTACCTCAGCGTTTCGATGAAGGATGAGCGCTTCGCCAACAAGAAGGTGCGCGAGGCCCTGCGTTACCTGATCGATTACGACGGTCTCGACAAGGCGGTCATGCCCTATTACGGCAAGCTGCATCAGCGCTCCCTCAGCACTGGCGTCATGGGCGCGCTGCCGGATCAGGGCTACAAGCTCGACATCGAAAAAGCCAAGTCGCTTCTGGCAGAAGCCGGTTATCCGAACGGTTTCAAGACCACGCTGCGCGTGCTTTCGGAAGACCCCTTCATGAAGGCGGCAACGGCGATCCAGAACACGCTGGCGCAGGCCGGCATTCAAGCCGAGCTGATCAGCGGCTCCGGCGACCAGATCTATGGCGCCATGCGCGAGCGGAATTTCGAACTGCTGCTCGGCCGCGGCGGCGGCGGCCAGCAGCCGCACCCGGACAACAACCTGCGCTCCATCGCCTATAACCCCAACAATGCCGATGACGCCAAGCTCACCAATTACCAGAGCTGGCGCACCAGCTTCTTCGATGAGAAGCTGAACAAGATGATCGAGGCGGCGCTGGTCGAGCGCGACGTGGCGAAACAGACGAAGCTTTATGAGGAGTTGCAGGGTTATATGGACGAGATCGTCATGTCCATTCAGCCCTTCTCCGAAGTCATCGACACCGCCGCCTTCCGCAGTGACGTCAAGGGCATGATCGTCAGCCCCTGGCTTTCGCGGTTTGAAGAGGTGAGCAAGGAGCGGTAA	MKHFLATAALGALLIGAMPLSAFAETPKDQLIVATTMSNILTLDPAAITGRETVQVLNNVYDTLVVLSPKDRSVQPRLAERWEIAEDRKSIRFHLRADAKFASGNAVTAKDVAWSLKRLLARNLAQSSFLKTRGFKLEEADKLFVAENDQTFVLNIPKPDDPNLLLMILAQNGPGSIIDSKTALENEKDGDLGGAWLTLNSAGSGPFKLTQWKSNEYIILTRNDDYWGEKAKMKRILMRHLPESQSQRLMLEKGDIDVAYSLQAPDLKSLEADKAVTIESTPGSGFYYLSVSMKDERFANKKVREALRYLIDYDGLDKAVMPYYGKLHQRSLSTGVMGALPDQGYKLDIEKAKSLLAEAGYPNGFKTTLRVLSEDPFMKAATAIQNTLAQAGIQAELISGSGDQIYGAMRERNFELLLGRGGGGQQPHPDNNLRSIAYNPNNADDAKLTNYQSWRTSFFDEKLNKMIEAALVERDVAKQTKLYEELQGYMDEIVMSIQPFSEVIDTAAFRSDVKGMIVSPWLSRFEEVSKER	PGPT0004430_10525	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004430-ddpA|ABC_PE_S-K02035	NA	NA
BMS010_08272	759	oppF_5	COG4608	Oligopeptide transport ATP-binding protein OppF	ATGGCCGTTTCCGTTGAAACCCGCGATCTCTCCATAACCTTCGGCAGCGGCCATACGGCGCTGAAAGTGCTGCCTTCCGTATCCTTCCGCGTCGAGCCGGGCGAGTGCTTCGGGCTGGTCGGCGAAAGCGGATCGGGCAAATCCACCGTGCTTCGCTGCGTCTCCATGCTCAACGATTTCTGGACTGGCGATATCCTCATCGACGGCAGGTCGGTGCGCGATATGCCGCTGATCGAGCGGTGCCGCATGCTGCAAATGGTGTTTCAGGACCCCTACGGATCGCTGCATCCGCGCCAGTCCGTGCGCACCGTGCTTTCGGAATCGCTTGCGATCCATAAGCTCGGCGACCGGGAAGAGCGGATGCGCAAGGTCATCACGGATGTCGGACTGCCCATCTCTTTCCTCGACCGCTTCCCGCATCAGCTTTCCGGTGGCCAGCGGCAGCGCGTGGCGATTGCCCGGGCGCTGATCCTCGAACCGTCGCTGCTGCTGCTAGACGAGCCGACGTCTGCGCTCGATGTCTCGGTGCAGGCGGAAATCCTCAACCTCCTCCAGCGCCTGCGGGAAGAGCGCGGCTTCACCTATATCATGGTGACCCACGATCTCGCCGTGGTCGATCACATGTGCGACCGCTTCGCGGTGATGCTGCGCGGCGAAATCACCGAAATCCTGCCGCGCGAGGCTATCGCCGGCAATGGCGCGACGCATCCCTATGCGCGCGAACTGATCGGCGCCTCGCTGGAATATGAAGGCGCGTGA	MAVSVETRDLSITFGSGHTALKVLPSVSFRVEPGECFGLVGESGSGKSTVLRCVSMLNDFWTGDILIDGRSVRDMPLIERCRMLQMVFQDPYGSLHPRQSVRTVLSESLAIHKLGDREERMRKVITDVGLPISFLDRFPHQLSGGQRQRVAIARALILEPSLLLLDEPTSALDVSVQAEILNLLQRLREERGFTYIMVTHDLAVVDHMCDRFAVMLRGEITEILPREAIAGNGATHPYARELIGASLEYEGA	PGPT0004440_9420	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004440-ddpF-K02032	NA	NA
BMS010_08273	837	oppD_5	COG0444	Oligopeptide transport ATP-binding protein OppD	ATGGAAAAACCAATCCTCGACGTCGAAAATCTCCGCATCCGCTATGGCGGCTCGCCGACTGAGGCGGTGCGCGGCATCTCCTTCACCCTTGGCCGGGAACGGCTCGGCATCGTCGGCGAAAGCGGATCTGGCAAATCCACCGTCGGCCGCGCCCTGCTGCGCCTTCTGCCATCGGCGACAATCACCGCCGACAGGCTGGATTTCGATGGGCTCGATCTTCTCTCGCTCGATGAGAGGGAAATGTTGAAGGTTCGCGGCCGGCGCATGTCGATGATCCTTCAGGATCCGAAATTCTCCCTCAACCCCATCCGCCGGGTCGGCGACCAGGTGACGGAGACTTATCTGCGCCACTTCAAGGCTTCGAAAGCCGAGGCCCGGGAAAAGGCGCTGGCCATGCTCGATGCGGTGAAAATCCGCGATGCCGCCCGGGTTTACGAGCAATATCCGCATGAGATTTCCGGCGGCATGGGCCAGCGTGTCATGATCGCCATGATGCTGCTTGCCGATCCCGATCTCGTCATCGCCGATGAGCCGACCTCGGCGCTTGATGTGACGGTGCGGCTGCAGGTGCTGAATATTCTCGACGGTTTGGTGCGCGATCGCGGCATCGGCCTCATCATGATCAGCCACGACCTCAATCTCGTGCGGAATTTCTGCGACCGGGTGCTCATCATGTATTCCGGCCGGGTGGTGGAAACGCTCGCCGCACGCGATCTCGATCAGGCGCAGCACCCCTATACGCGCGGCCTGCTGGCGGCGCAGCCGCGTATCGGCGGCTCGCGTGCGCCGCTTGCGGTGCTGGATCGCCGCCCCGAATGGCTGGAGGAGAACGTATAA	MEKPILDVENLRIRYGGSPTEAVRGISFTLGRERLGIVGESGSGKSTVGRALLRLLPSATITADRLDFDGLDLLSLDEREMLKVRGRRMSMILQDPKFSLNPIRRVGDQVTETYLRHFKASKAEAREKALAMLDAVKIRDAARVYEQYPHEISGGMGQRVMIAMMLLADPDLVIADEPTSALDVTVRLQVLNILDGLVRDRGIGLIMISHDLNLVRNFCDRVLIMYSGRVVETLAARDLDQAQHPYTRGLLAAQPRIGGSRAPLAVLDRRPEWLEENV	PGPT0004435_13467	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004435-ddpD-K02031	NA	NA
BMS010_08274	888	ddpC_7	COG1173	putative D,D-dipeptide transport system permease protein DdpC	ATGACGGCCCGTACAGAAACCTCCTTCCGCCTTCCGGTGCCCTTGAATGCGCTGAAGAACATCGTGGTTTTCCTCCTGAAAAGCCCGACATCGGCCTTCGGTTTGGCTGTGCTGCTGCTTCTGGTCATCGCTGCGATTTTCGCGCCCTGGCTTGCGACGCATGACCCCTACGCACAGGATCTCGCCAATACGCTGAAGGCGCCGGGCAATGGCCACGTCTTCGGCACGGACGAGTTGGGGCGCGATATCTACAGCCGCCTTCTCTGGGGCGCACGCATCACACTCACCATCATCTCGCTGGTCTCGATCATCGTCGGCCCCGTCGGCCTTCTGGTCGGCACGGCTTCCGGCTATCTCGGCGGCAAGTTCGATACGGTGATGATGCGCATCACGGATATTTTCCTGTCCTTCCCGAGCCTCATCCTGTCGCTCGCTTTCGTCGCAGCACTCGGGCCCAGCCTCAACAATGCGATCATCGCGATTGCACTCACCTCCTGGCCGCCGATTGCGCGTCTTGCCCGTGCCGAAGCCATGACCTTCCGCAAGGCGGATTACATTGCCGCCGCGCGGCTTCAGGGCGCATCGCCGCTGCGCATCATCGTCAAGTCGATCATGCCCATGTGCCTGCCTTCGGTGCTCATCCGCCTGACGCTGAACATGGCGACCGTCATTCTCACCGCCGCCGGCCTCGGCTTCCTCGGCCTTGGCGCGCAACCGCCGCTGCCGGAATGGGGGGCGATGATCGCCACCGGCCGGCGTTACATGCTGGATAGCTGGTGGCTCGTCACCTTCCCCGGCATCGCGATCCTCTCCGTCAGCCTCGCCTTCAATCTCCTCGGCGACGGCCTGCGGGATGCGCTCGATCCGAAGCAGATGAACCGGAGATAG	MTARTETSFRLPVPLNALKNIVVFLLKSPTSAFGLAVLLLLVIAAIFAPWLATHDPYAQDLANTLKAPGNGHVFGTDELGRDIYSRLLWGARITLTIISLVSIIVGPVGLLVGTASGYLGGKFDTVMMRITDIFLSFPSLILSLAFVAALGPSLNNAIIAIALTSWPPIARLARAEAMTFRKADYIAAARLQGASPLRIIVKSIMPMCLPSVLIRLTLNMATVILTAAGLGFLGLGAQPPLPEWGAMIATGRRYMLDSWWLVTFPGIAILSVSLAFNLLGDGLRDALDPKQMNRR	PGPT0004450_9005	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004450-ddpC|appC-K02034	NA	NA
BMS010_08275	1023	ddpB_2	COG0601	putative D,D-dipeptide transport system permease protein DdpB	ATGTCAAAAAGACGCCTTTCGCTATATGGCCTGTCCGGCCAGATCGGAAGTATTGCGGTTACGCTGCTTGGATTGCTGCTGCTGACCTTTTTTATCGGCCGCCTGATGCCCGCCGATCCCGTGCGGGCGATCGTGGGCGAGGATGCGACGCGCGAAACCTATGAACAGGTCTATCACGCGCTCGGTTTCGACCGTCCGCTGTGGCAACAGTTCTTCTATTATCTGGGAGACGTGTTCACCGGCGATTTCGGAACCTCGATTCGCACCGGGCGTCCGGTCATCGAAGACATCATCAGGGTCATGCCAGCGACGATGGAGCTGGCGACCTTCGCGATCCTGATCGGCGCCGGCCTCGGCATTCCCATGGGCGTTTATGCCGCCGTCAATAAAGACCGCTGGCAGGATCATCTGGTGCGCGTGCTCAGCCTGTTCGGCCATTCCATGCCGATCTTCTGGACCGGCATGATCGCGCTGATCGTTTTTTACGCCCATCTCGGCCTTGTCGGCGGTGGTGGACGCATGGACCAGTTCTATATCGGTCTGGTCGAGGAGCGGACGGGCTTTCTGCTCATCGACAGCCTGCTTGCGGGCGATATGGAGGTCTTCTGGTCGGCCATCAACCACCTCATCCTTCCCGCCGCTTTGCTCGGTTATTCCTCCTCGGCCTATATCACCCGCATGACGCGCAGCTTCATGCTGGACCAGTTGGGCCAGGAATATGTGACGACCGCCCGCGTCAAGGGCCTGTCGCAGCGGCAGACGGTGTGGCTGCATGCCTTCGGCAATATCCGCGTGCAGCTCGTCACCATCATTGCGCTTGCTTACGGCTCGCTGCTGGAAGGGGCGGTTCTCATTGAAACCGTCTTCGCCTGGCCTGGTTTCGGGCAATATCTCACCAGCAATCTTATCATCGGCGACATGAATGCCGTGATGACCTGCGTGCTTATCGTTGGCGTCATCTTCATCGGGCTCAATCTCCTGTCCGACATTCTCTACCGCTTTTTCGATCCGAGGACCCGCTGA	MSKRRLSLYGLSGQIGSIAVTLLGLLLLTFFIGRLMPADPVRAIVGEDATRETYEQVYHALGFDRPLWQQFFYYLGDVFTGDFGTSIRTGRPVIEDIIRVMPATMELATFAILIGAGLGIPMGVYAAVNKDRWQDHLVRVLSLFGHSMPIFWTGMIALIVFYAHLGLVGGGGRMDQFYIGLVEERTGFLLIDSLLAGDMEVFWSAINHLILPAALLGYSSSAYITRMTRSFMLDQLGQEYVTTARVKGLSQRQTVWLHAFGNIRVQLVTIIALAYGSLLEGAVLIETVFAWPGFGQYLTSNLIIGDMNAVMTCVLIVGVIFIGLNLLSDILYRFFDPRTR	PGPT0004445_2612	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004445-ddpB|appB-K02033	NA	NA
BMS010_08276	276			hypothetical protein	ATGGCTGACATGACGCTTCTGGCATTTGCCGTGGTCGCCATTATCGGAATTGCGACACCCGGCCCCACCGTTTTACTGGCGCTTGCCAATGGCTCGAGATTCGGAATACACCGCGCCATGATCAGCATGGCCGGCGCTGTTCTCTCGGATTTCGTCCTGATCGGCGTGGTTGCACTAGGATTGGGCTGGCCTTCTATCGGCGGGCAACTGCGTAAACCATTGATATATGGTCGGGATCACTCCACCGCTGTGCGGGAGCGCAGAAGCACCTTGTAG	MADMTLLAFAVVAIIGIATPGPTVLLALANGSRFGIHRAMISMAGAVLSDFVLIGVVALGLGWPSIGGQLRKPLIYGRDHSTAVRERRSTL				NA	NA	NA	NA	NA
BMS010_08277	732	lutR_11	COG2186	HTH-type transcriptional regulator LutR	ATGAACGTTGAGAGCAGCACGAAGCAGGGGGTATCGCTCGCGGCGAAAATCAGTTCGGCATTACGGCGGGATCTGTCGGAAGGCGTGTTCCGCCCCGGTGACCGTCTTCCAAGCGAAAGCGAACTAACGCGTGAATATTCCGTCAGCCGAACCGTGGTGCGCGAGGCCATCGCCATTCTGCGCGCCGATGGCCTTGTTGAAGCCCGCAAGGGCGCGGGTGTTTTTGCTGTCGAAGTAAAACCGGCAAAGGAGCTGCCCTTTAACGATCTGGCCGTCGGGCGAATTTCCTCGGTGATCGAATTGCTGGAATTGCGCACTGTCTTTGAGGTCGAATCCGCCGGGCTTGCGGCATCGCGCCGTTCCGCCGTGCAGGTGGAGGCGATTGTGGATGCGCATCGGCGCGTTGGTGATTGTCTCGCCGCCGGCCTGCCGACGCGGGACGCCGATTTCGAGTTCCATCTGGCCATTGCACAGGCGACGCAGAACAGGCGGTTTCCAGAGTTTCTTCAGCTCATTCGCTCCGGCATCATTCCCCGCGGCGAATTGCAGGGTGCGGCGCCCGGGTCGCGTCCGAAGGACTACAACCTGCATCTCCAGGAGGAGCATGCGAAGATCGTCGACGCCATCATCGAAGGCGATGCCGATGCCGCCCGCCAATATATGGCGGCGCATCTGCGCGGCAGCCTTGAGCGCTACAAGGTGCTTCTGCGCTCCCGCACAGCGGTGGAGTGA	MNVESSTKQGVSLAAKISSALRRDLSEGVFRPGDRLPSESELTREYSVSRTVVREAIAILRADGLVEARKGAGVFAVEVKPAKELPFNDLAVGRISSVIELLELRTVFEVESAGLAASRRSAVQVEAIVDAHRRVGDCLAAGLPTRDADFEFHLAIAQATQNRRFPEFLQLIRSGIIPRGELQGAAPGSRPKDYNLHLQEEHAKIVDAIIEGDADAARQYMAAHLRGSLERYKVLLRSRTAVE				NA	NA	NA	NA	NA
BMS010_08278	987	cdhR_8	COG4977	HTH-type transcriptional regulator CdhR	ATGGCAGGTGTAACGGGAAGCGCGCTGGAAGTGGGGCTGGTCCTCTATCGGGACTGTCAGATCGCCATGGTGCATGGCATCACCGATCTTTTCGCCATCGCGTCGGTATTTTCACAGGATCGCGGCGGGCCGAAATTGCGGGTCAGCCACTGGAGCATGGGCGAAAGCGGTGAATTTTCCCGCTGTCACGACACCGAGCCCGGCGGGCCGGGGCATCCCGATATCTTCGTTGTGCCGGGCCGGTTGACCGGGCCGGCTGAAATCGAGGAAGCCGAGCCTTACGCCCGCTGGCTGCTGGATCGGCATGCACAGGGGGCGACGCTCGCCGCCAGTTGCGGCGGTTCCTTCATGCTCGCGGCCACCGGGCTTCTGGCTGGCCGCCCGGCGACGACCCACTGGCTGTTTGCGGAACGTTTTCGGGACCGATTTCCCGATATCCGTCTGGAGATAGACAAGATCGTCATCGAGGATGGCGATATCATCACGGCTGGCGGGTTGATGGCGTGGACCGATCTTGGCCTGCGCATCGTCGACCGACTGCTCGGACCTTCGGTGATGATAGAGACCGGAAAGTTCCTGCTGATCGATCCCTCGGGGCGTGAACAACGTCATTATAGCAGCTTTGCTCCAAGGCTGACGCATGGCGATGAGCCGATCCTGAAGGTGCAGCACTGGCTGCAGGCCCGCGCCGGGCGGGCGACGAGCGTTACCGACATGGCCGGCCATGCCGGGCTGGAGGAGCGGACCTTCCTGCGCCGCTTCAAGGCCGCCACCGGCATGAAGCCCATCGAATATGTTCAGCATCTGCGGGTCGGCAAGGCGCGAGAATTGCTGGAATTCACCCGTCGTTCGGTTGATCAGATCGCATGGTCGGTGGGTTATGAGGATTCAGCCGCTTTTCGCCGGGTGTTTCACCGTATTCTCGGTCTCTCACCGGGTGAATATAGGAGCCGCTTTTCCAGCAGTGCGGCCATGGCTGCGGCGTGA	MAGVTGSALEVGLVLYRDCQIAMVHGITDLFAIASVFSQDRGGPKLRVSHWSMGESGEFSRCHDTEPGGPGHPDIFVVPGRLTGPAEIEEAEPYARWLLDRHAQGATLAASCGGSFMLAATGLLAGRPATTHWLFAERFRDRFPDIRLEIDKIVIEDGDIITAGGLMAWTDLGLRIVDRLLGPSVMIETGKFLLIDPSGREQRHYSSFAPRLTHGDEPILKVQHWLQARAGRATSVTDMAGHAGLEERTFLRRFKAATGMKPIEYVQHLRVGKARELLEFTRRSVDQIAWSVGYEDSAAFRRVFHRILGLSPGEYRSRFSSSAAMAAA				NA	NA	NA	NA	NA
BMS010_08279	828	cpo_3		Non-heme chloroperoxidase	ATGACAACGATCACCACCAGAGACGGAACGCACATCTTCTACAAGGACTGGGGCCGCAAAGACGGCCAGCCCATCATCTTCTCCCATGGCTGGCCGCTCAGCGCCGATACATGGGATGCACAGATGGTGTTCTTCGCTAACAACGGTTTCCGCACCATCGCCCATGACCGCCGCAGCCACGGCCGCTCCGATCAGGTCTGGCATAACAATACCATGGATCAATATGCCGACGATCTGGCCGAGCTGATCGAACAGCTCGATCTTCACGACATCATTCTGGTCGGCCATTCCACCGGCGGCGGCGAGGTGACGCGCTATATCGGCCGTCACGGCACGGCCCGCGTCGCGAAAATCGCCCTCATCGGCGCGGTGCCGCCGCTGATGCTGAAGACGGAAAGCAATGCCATCGGCCTGCCGATCGATGTTTTCGACGGTATCCGCAAGGGCACCTATGACAATCGCAGCCAGTTCTTCAAGGATCTGACCATTCCCTTCTACGGCTACAACCGCGAAGGTGCCGTGATATCCGAAGGCATCCGCGAGGAATTCTGGCGGCAGGGCATGATGGGCGGCCTGAAAGGTCAGCTCGACAGTATCCGCGCCTTTTCGGAAAGCGATTTCCATCAGGATTTGAAGGCCTTCGACAAACCGACGCTGGTTCTGCACGGCGATGACGACCAGATCGTGCCGGTCGGCGCATCCGCGCTTTCCACGGTCAAAATCGTCAAACACGCGGTCCTCAAAATCTATGAAGGCGCCGACCATGGTCTGACGCAGACCCATCAGGACCGGTTCAACGCCGACCTTCTCGCCTTCATCAACGCCTGA	MTTITTRDGTHIFYKDWGRKDGQPIIFSHGWPLSADTWDAQMVFFANNGFRTIAHDRRSHGRSDQVWHNNTMDQYADDLAELIEQLDLHDIILVGHSTGGGEVTRYIGRHGTARVAKIALIGAVPPLMLKTESNAIGLPIDVFDGIRKGTYDNRSQFFKDLTIPFYGYNREGAVISEGIREEFWRQGMMGGLKGQLDSIRAFSESDFHQDLKAFDKPTLVLHGDDDQIVPVGASALSTVKIVKHAVLKIYEGADHGLTQTHQDRFNADLLAFINA	PGPT0013125_1593	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013125-cpo-K00433	NA	NA
BMS010_08280	792			hypothetical protein	ATGACACAGAATACATTTCTCATCACCGGCGCATCGGATGGCATCGGCGCGGTCTATGCCGAACGTCTGGCAAAACGCGGCCATGATCTCATTCTCGTGGCGCGGCGCGCCGAAAAGCTGAAGGCGCTCGCCGCACAGCTGGAAAAGGATCATCATATCGCAGTCGAGGTTCTCTCCGCCGATCTTTCCAGGGCGGAAGACCTCGAAAAGGTGGAGGCGCGGTTGCGTGAGGACCGGCGGATTACCGGCCTCGTCAACAATGCCGGCATTGCCGGCGAGGGCGCAATCACGGCGCTGGACCCGGCCTATGTGACGACGATGATCAACCTCAACATTCTTGCCGTCACCCGGCTCGCGGCAGCCATCGCACCGCGCCTTGCCGCCGATGGCAGGGGCACGATCATCAACATCACCTCGGTCACAGCTTTGATGCCGGCGGCGTTCACCGCCGTCTACCCGGCCACCAAGGCCTTCGTGCTTGCCTTCACCGAGGCGCTGCAGGCGCAGCTTTCACCCTCCGGCGTGCGGGTTCAGGCCGTCCTGCCGGGCATCACCCGCACGGCGATCTGGGAAGAGGAACGGCTCGATGCCATTCCGGCCGCCATGGTGATGGATGTTTACGACATGGTGGATGCGGCCCTTGCCGGTCTAGACCTCGGCGAAGCGCTGACCATTCCTTCCCTGCCGGATACGGCCGATCTTGAAAATTTCCTTGCGGCGCGCGCGGCGTTAAGGCCCAATCTGTCGCATGCACTTGCCGCCATCCGGTATCGTGCAGCCAAAACCGAATAG	MTQNTFLITGASDGIGAVYAERLAKRGHDLILVARRAEKLKALAAQLEKDHHIAVEVLSADLSRAEDLEKVEARLREDRRITGLVNNAGIAGEGAITALDPAYVTTMINLNILAVTRLAAAIAPRLAADGRGTIINITSVTALMPAAFTAVYPATKAFVLAFTEALQAQLSPSGVRVQAVLPGITRTAIWEEERLDAIPAAMVMDVYDMVDAALAGLDLGEALTIPSLPDTADLENFLAARAALRPNLSHALAAIRYRAAKTE	PGPT0030485_2304	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-OXIDOREDUCTASE_ACTIVITY	PUTATIVE-OXIDOREDUCTASE_ACTIVITY-1,PGPT0030485-yqjQ-K07124
BMS010_08281	486			hypothetical protein	ATGATCCTCGGACTGACAATTCCCCAATTCACGGCATTGCATGTGGGCTTAAGCTTCATCGGCATTGCCACCGGACTGATCGCCCTGCCCGCTTATGCGGCGGGGCGGTGGATGCCCCGCATGATGGCGATTTTCCTCGTCACCACGCTCGCCACCACACTTACCGGCTTCCTGTTTCCAATCGGAAATTTCACACCGGCACTCGGCGTCGGCATCATTTCTACCCTCGTTCTGGCTATCGCACTGGTTGCGCTTTATGGATACGGTCTGAATGGCAGGGCGCGCATCATTTATACGATCACCGCCACGATCAGCCTTTATCTCAATATGTTCGTGTTGATCGTTCAGGCTTTTCTCAAGGTCGAAACACTCAACAACCTGGCGCCGAACGGCAATGAACCGCCCTTCGTGGTCGCCCAGACGGTTCTGCTTGTTGCAGCCATCTGTCTTGGCTGGAAGGCGACACGCCGCAGGCTCGCCGTCTGA	MILGLTIPQFTALHVGLSFIGIATGLIALPAYAAGRWMPRMMAIFLVTTLATTLTGFLFPIGNFTPALGVGIISTLVLAIALVALYGYGLNGRARIIYTITATISLYLNMFVLIVQAFLKVETLNNLAPNGNEPPFVVAQTVLLVAAICLGWKATRRRLAV				NA	NA	NA	NA	NA
BMS010_08282	1296	blh_2	COG0491	Beta-lactamase hydrolase-like protein	ATGAATGCCGTGAAGATCAACGAGCGTCTGACAGTTGCGGGCCAGCCGATGATCGCCGATTTCCCATCGCTCTCCGCCCAGGGTTATAAAAGCATCATCAACGCCCGGCCTGATGGTGAAGAGCCCGGCCAGCCGGGCAATGCCCAGGAAAAAAGCGCCGCCAGCGCGGCGGGCATGGATTATGGTTTCATCCCGGTCAGCGGCCCTACCATTACCGAAGCCGATATCCGCGCCTTCCAGCAGAAAATGGCGGAAGCGGAAGGCCCTGTTTTTGCCCATTGCAAGGGCGGCACCCGCGCGCTCACGCTTCATGTTCTCGGGGAAGCGCTGGATGGGCGCATCGAAAGAGACGATATCGAGGCTTTCGGCAAGGCGCATGGCTTTGACCTTTCCGGCGCCACCCGCTGGCTGGACCGGCGCGCTGCGGCGGTTCCGCACGTCAAGGCATTCTTCGATCCGCGCACATGGAGCGTGCAATATGTCGTGTCCGATCCCTCCACCGGGCGCTGCGCCATTATCGACCCGGTCTATGATTTTGATGAGAAATCCGGCGCGACCGGAACGATGAATGCCGACGCCATTCTGGACTATGTGGAGAGCCAGGGCCTGTCGGTGGAATGGATTCTCGATACCCATCCGCATGCCGACCATTTTTCCGCCGCCCATTATCTGAAGCAGAAGACCGGCGCGCAGACGGCGATCGGCGCGAAAGTCACCGGCGTACAGAAGCTCTGGCAGGAGAAATATAACTGGCCGGATTTCAAAACCGACGGCTCGCAATGGGACCGGCTGTTCGAGGCGGGCGACAGGTTCAATATCGGCTCCCTTGAAGCGCGCGTGCTGTTTTCGCCCGGCCACACGCTCGCTTCCGTGACCTATGTGGTGGGTGATGCCGCGTTTGTGCACGATACGCTTTTCATGCCCGATTCCGGCACCGCGCGCGCCGATTTCCCCGGCGGCAGCGCCAGGGAACTCTGGGCGTCGATCCAGGACATTCTCGCCCTTCCCGACGAAACACGGCTTTTCACCGGCCACGATTATCAACCCGGCGGCCGCGCGCCTAAATGGGAAAGCACGGTCGGCGAACAGAAACGCAGCAATCCGCATCTTGCCGGCATGACGGAGGAGGGCTTCATCCGCCTCAGGGAAGCGCGGGATCGCACATTGCCGATGCCGAAGCTCATTCTCCATGCCTTGCAGGTCAACATTCGCGGCGGCCGCCTGCCGGAGCCGGAAGCGAATGGCAAGCGTTACCTGAAACTTCCGCTCGACGTGCTGGAGGGCAGCATATGGTAA	MNAVKINERLTVAGQPMIADFPSLSAQGYKSIINARPDGEEPGQPGNAQEKSAASAAGMDYGFIPVSGPTITEADIRAFQQKMAEAEGPVFAHCKGGTRALTLHVLGEALDGRIERDDIEAFGKAHGFDLSGATRWLDRRAAAVPHVKAFFDPRTWSVQYVVSDPSTGRCAIIDPVYDFDEKSGATGTMNADAILDYVESQGLSVEWILDTHPHADHFSAAHYLKQKTGAQTAIGAKVTGVQKLWQEKYNWPDFKTDGSQWDRLFEAGDRFNIGSLEARVLFSPGHTLASVTYVVGDAAFVHDTLFMPDSGTARADFPGGSARELWASIQDILALPDETRLFTGHDYQPGGRAPKWESTVGEQKRSNPHLAGMTEEGFIRLREARDRTLPMPKLILHALQVNIRGGRLPEPEANGKRYLKLPLDVLEGSIW				NA	NA	NA	NA	NA
BMS010_08283	357	bigR_2	COG0640	Biofilm growth-associated repressor	ATGGTAAAGGAAAACGCGCTGGAAAAGCCCCCGCATATTGCAGAAATCCCTCTCCCCGCCATGGAGGAGCGGGCTGTCGAGGTCGCGCTGCTTCTGAAAACGCTTGCCCATCCCGCGCGGCTGATGCTCGCCTGCACGCTGGCGCAGGGAGAATTTTCCGTCGGTGAGCTGGAGGTCAAGCTGGATATTCGCCAGCCGACGCTTTCCCAGCAGCTGGGCGTCCTGCGGGAAGCCGGTGTGGTCGAAACCCGGCGCGACGCCAAGCAAATCTTCTACCAACTGAGCGAAGCGAAAGCGGCGCAACTGATCGAGGCCCTTTACACCATATTCTGCGCGCCGGAGGAGGAGACCCCGTGA	MVKENALEKPPHIAEIPLPAMEERAVEVALLLKTLAHPARLMLACTLAQGEFSVGELEVKLDIRQPTLSQQLGVLREAGVVETRRDAKQIFYQLSEAKAAQLIEALYTIFCAPEEETP	PGPT0016126_151	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0016126-bigR-K22042	NA	NA
BMS010_08284	408			hypothetical protein	GTGAGCCCCTACTGGCCCTCTCTTTTCGGCGGCATGCTGCTCGGTCTTGCCAGCATTCTGCTGTTTCTTTTCAATGGTCGCATTGCCGGCATCAGCGGGATAATGGGCAAAATGCTCGGCAGGGAGCGGCGTCTTGCCGATCTCGCCTTCGTCGCCGGCTTGCTGGCCGGGCCATATATCCATGCCGCCGCATTCGGCCGGCTGCCTGCCGTCACCATAGTTTCACCATGGCCGCTCATCCTCATTGCCGGCCTGCTGGTGGGTTTCGGCACGCGCATGGGCTCCGGCTGCACGTCAGGCCATGGCATCATGGGGCTGGCGCGATTTTCCCGGCGCTCCATCGCCGCGACCGCCACCTTCCTGATCACCGGCATTTGCGCCGCGACGATAGTAGGAGCCCTGTCATGA	MSPYWPSLFGGMLLGLASILLFLFNGRIAGISGIMGKMLGRERRLADLAFVAGLLAGPYIHAAAFGRLPAVTIVSPWPLILIAGLLVGFGTRMGSGCTSGHGIMGLARFSRRSIAATATFLITGICAATIVGALS				NA	NA	NA	NA	NA
BMS010_08285	438			hypothetical protein	ATGAAAAATCCGGCCGTGGCGCGTGTTGTCCTGGCATTGGCCGCAGGAGCGCTGTTCGGCTTCGGCCTCTCGCTCTCCGGCATGGTCGATCCGGCCCGTGTTTCCGGTTTTCTCGACGTGGCGAGCGGCCATTGGGACCCGAGCCTGATGTTCGTTCTCGGCGGTGCCGTGATGGTCGCCGTGCCGGGTGTGCTGCTCAGCCGACGTCTCGCCAAACCGGTCCTCGCAGAGGATTTCAGCCTTCCGGCAAAAACCCGCATCGACCGGCCGCTCATAACAGGCTCGGCCATTTTCGGCGTCGGCTGGGGGCTTGCCGGTTTCTGCCCCGGCCCGGCACTATTGGCTCTCGCCCTCGGGCTGATGCCGGTCGTTCTTTTCGTCAGCGCCATGATTGCCGGCATGCTGGTCCACGACCGCCTCTACGCAAAGCAGCCATAA	MKNPAVARVVLALAAGALFGFGLSLSGMVDPARVSGFLDVASGHWDPSLMFVLGGAVMVAVPGVLLSRRLAKPVLAEDFSLPAKTRIDRPLITGSAIFGVGWGLAGFCPGPALLALALGLMPVVLFVSAMIAGMLVHDRLYAKQP				NA	NA	NA	NA	NA
BMS010_08286	1518	gpmI_2	COG0696	2,3-bisphosphoglycerate-independent phosphoglycerate mutase	ATGCGCACTCCCAAACCCGTTGTCCTGACTATTCTCGATGGCTGGGGGCTGAACGAGGACACATCCAGCAATGCGCCGGTGCTGGCGAATACGCCCACCATGGACCGGCTTTTCGCCACCTGCCCGAATGCGAGGCTCACAACCTTCGGCCCGAATGTCGGCCTGCCCACCGGGCAGATGGGCAATTCCGAAGTTGGCCACACCAATATCGGCGCTGGCCGCATCGTCGCCATGGATCTCGGCCAGATCGATCTGGCGATTGAGGATGGCAGCTTTTTCCGCAATGCGGCGATGCTTGATTTCGCCGCCACGGTGAAGGCCGCGGGCGGTGTGGCGCATCTGATGTGCGTCGTTTCCGATGGCGGCGTCCATGGTCATATCCTCCACGGCCAGGCGGCGGTGAGGCTGATGATCAGCCACGGCCTGAAGGTGGTGGTACATGCCATCACCGACGGCCGCGATGTCGCGCCGCAATCTGCTGAAGATTTTGTGGCGGCGCTGGTGGCAAGCCTGCCGCAGGGGGCAAGCATTGGCACGGTAATCGGCCGCTATTATGCGATGGATCGCGACAATCGCTGGGAGCGCGTCGAGAAAGCCTATGACGCCATGGTTCTGGCGAAAGGCGAACATGCGCGCGATGCAGTGAGCGCCGTTGCCCAGAGCTACAAAAACAATGTCACCGACGAATTCATCCTGCCGACGGTGATCGACGGCTATGAGGGCTTCAAGGCCGGCGACGGCCTGTTCTGCCTGAATTTCCGCGCCGACCGTGCCCGTGAAATCCTGCTTGCCATCGGGGCGGACGATTTCGACGGTTTTTCGCGCGAAAAGCCAGTCCTTTCGGCGCTGCTCGGCATGGTGGAATATTCCACCCGGCACAATGATTTCATGACCACGGCCTATCCCAAGCGCGATATCGTCAATACGCTGGGCGCATGGGTGGCGAAGCAGGGGCTTACGCAGTTCCGCCTTGCCGAGACGGAAAAATATCCGCATGTCACCTTCTTCCTGAATGGCGGCAAGGAAGAGCCGGAGGTCGGCGAAGACCGCTTCATGCCGAAATCGCCGAAGGTTGCGACCTACGATCTGCAGCCGGAGATGAGCGCGCCGGAAGTAACGGAAAAATTCGTCGAGGCGATCGGCAAGGGTTACGATCTGATCGTCACCAATTACGCCAACCCCGATATGGTCGGTCATACCGGCGACCTTCAGGCCGCAATCAAGGCCTGTGAAGCCGTGGATCGTGGGCTTGGTGCGGTCGTTGCCGCCCTCGAAAAAGTGGGTGGCGCGATGCTTGTCATTGCCGACCACGGCAATTGCGAAACCATGGTCGACCCGGTGACCGGTGGCCCGCATACGGCGCACACCACCAATCCGGTGCCGGTGATCCTTTTCGGTGGCCCGGAAGGTGCGAAGCTGCATGACGGCATTCTCGCCGATGTCGCCCCCACCTTGCTGCAACTGATGAATGTGCCGCTGCCGCCGGAAATGACGGGCAAGAGCCTCATCGACCTCTAA	MRTPKPVVLTILDGWGLNEDTSSNAPVLANTPTMDRLFATCPNARLTTFGPNVGLPTGQMGNSEVGHTNIGAGRIVAMDLGQIDLAIEDGSFFRNAAMLDFAATVKAAGGVAHLMCVVSDGGVHGHILHGQAAVRLMISHGLKVVVHAITDGRDVAPQSAEDFVAALVASLPQGASIGTVIGRYYAMDRDNRWERVEKAYDAMVLAKGEHARDAVSAVAQSYKNNVTDEFILPTVIDGYEGFKAGDGLFCLNFRADRAREILLAIGADDFDGFSREKPVLSALLGMVEYSTRHNDFMTTAYPKRDIVNTLGAWVAKQGLTQFRLAETEKYPHVTFFLNGGKEEPEVGEDRFMPKSPKVATYDLQPEMSAPEVTEKFVEAIGKGYDLIVTNYANPDMVGHTGDLQAAIKACEAVDRGLGAVVAALEKVGGAMLVIADHGNCETMVDPVTGGPHTAHTTNPVPVILFGGPEGAKLHDGILADVAPTLLQLMNVPLPPEMTGKSLIDL	PGPT0018040_2730	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0018040-gpmI-K15633	NA	NA
BMS010_08287	1272	bkdB	COG0508	Lipoamide acyltransferase component of branched-chain alpha-keto acid dehydrogenase complex	ATGGCGGAATTTGTTCTCACGATGCCCGATGTCGGTGAAGGTGTGGCGGAAGCCGAACTGGTGGAATGGAACGTCAAACCGGGCGATCTCGTCCATGAGGACATGGTGCTGGCCGCGGTGATGACCGACAAGGCGACGGTGGAAATCCCATCCCCGGTGGCGGGCGTCGTCACCTGGCTCGCCGTGACGGTTGGAAATACCGTGCCGGTGAAGGCGCCGCTCCTGCGCATCGAAACCGATGTCGCCGCCGTCGCTCCCAATGGCAGCGTTCCGGAAGCGGAAGCGCCGACCCAGATGACGGAAGCGCCTGCCGACATGACGGACACGCCACCACCTGTTGAAGCCCAGCCGACGGCGCGAGAACCCGAGGCGCCGCCGCCGGCGCCCGCCGCCGAACCGCATCATAAACCGTTGGCGTCTCCCGCCGTTCGCCAGCGCGCCGACGATCTCGATATCGATCTCACCAAGGTCAAGGGAACAGGCCCCGACGGGCATATCACCCATGCCGATCTCGACGGGTTTTTAACCGTGCGGGGACGGCCGGAACGCCCCGAGCCGATAGCGCCCCACGATAGCGCTGTCGAGGAGGTGAAGGTGACCGGGCTCAGGCGCAAGATTGCCGAGAAGATGGTGCTCTCCGCCTCCCGTATTCCCCACATCACCTATGTCGAGGAAGTCGACGTGACCGATCTGGAGGATTTGCGCGCGACCATGAACGGCAACCGCCGTTCCGGGCAACCGAAGCTGACGATCCTGCCGTTCCTGATGCGCGCGCTGGTGAAAGCTGTTGCCGATCATCCCGGCATGAATGCCACCTTTGACGACGACAAAGGTGTCGTCAGTCACTATGAAGCGGTTCATATCGGCATCGCCACGCAGACGCCGTCGGGCCTCACCGTTCCGGTCGTGCGCCACACGGAAACGCTCGGTCTTTGGGAATGCGCGGACGAAGTCGCACGCGTCGCCGAAGCCGCCCGCACCGGCACGGCGCATCGGGAAGAGCTGATGGGCTCCACCATCACCATCAGTTCGCTGGGAGCCTTGGGCGGTGTGGTCTCGACACCCATCATCAATCACCCGGAGGTGGCGATCATCGGCGTCAACAAGATCATGACGCGGCCGGTCTGGGACGGGACGCGCTTCGTGCCGCGCAAGATGATGAACCTCTCATCGAGCTTCGATCACCGGGTTGTCGATGGGTGGGATGCGGCGGTCTTCATCCAGGCCGTCAAGGCATTGCTGGAGAAGCCCGCGCTTATTTTCATCGAGTGA	MAEFVLTMPDVGEGVAEAELVEWNVKPGDLVHEDMVLAAVMTDKATVEIPSPVAGVVTWLAVTVGNTVPVKAPLLRIETDVAAVAPNGSVPEAEAPTQMTEAPADMTDTPPPVEAQPTAREPEAPPPAPAAEPHHKPLASPAVRQRADDLDIDLTKVKGTGPDGHITHADLDGFLTVRGRPERPEPIAPHDSAVEEVKVTGLRRKIAEKMVLSASRIPHITYVEEVDVTDLEDLRATMNGNRRSGQPKLTILPFLMRALVKAVADHPGMNATFDDDKGVVSHYEAVHIGIATQTPSGLTVPVVRHTETLGLWECADEVARVAEAARTGTAHREELMGSTITISSLGALGGVVSTPIINHPEVAIIGVNKIMTRPVWDGTRFVPRKMMNLSSSFDHRVVDGWDAAVFIQAVKALLEKPALIFIE	PGPT0001390_5717	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0001390-aceF|pdhC-K00627	NA	NA
BMS010_08288	1014	bkdA2	COG0022	2-oxoisovalerate dehydrogenase subunit beta	ATGGCAAGAATGACGATGATTGAAGCCGTCCGCAGCGCCATGGATGTGTCCATGGAGCGCAGCGACGATGTCGTGGTGTTCGGCGAGGATGTGGGCTATTTCGGCGGCGTGTTCCGCGCCACGCAGGGGCTGCAGGGAAAATACGGCAAGACCCGCTGTTTCGATGCTCCGATCAGCGAATCCGGCATTGTCGGCACCGCCATCGGCATGGCCGCTTATGGCCTGCGCCCCTGTGTCGAAATCCAGTTCGCCGATTACATGTATCCCGCCTATGATCAGATCACCCAGGAGGCGGCGCGTATCCGCTATCGCTCCAATGGCGATTTCACCTGCCCCATCGTTCTCAGAATGCCGACCGGCGGGGGCATTTTTGGCGGGCAGACGCACAGCCAGAGCCCGGAAGCGCTTTTTACCCATGTCTGCGGGTTGAAGGTGGTGGTTCCTTCAAATCCTTATGACGCCAAGGGGCTGCTGATCGCATCCATCGAAGACCCCGACCCGGTGATGTTTCTGGAGCCGAAGCGGCTTTATAACGGTCCCTTCGACGGGCATCACGACCGGCCGGTAACGCCCTGGTCCAAACACGAGATGGGGGAGGTGCCGGAAGGGCACTACACCATTCCCATCGGCAAGGCCGAGATACGCCGTCCCGGAAACGCTGTCACCGTCATCGCTTATGGCACCATGGTGCATGTGGCGCTGGCGGCGGCGGAAGAGACGGGTGTGGATGCCGAGATCATCGACCTTCGCAGCCTGCTGCCGCTCGATCTCGATACCATCGTGAAGTCCGTTTCCAAGACCGGCCGCTGCGTCATGGTGCATGAGGCGACGCTGACCTCCGGCTTCGGGGCCGAAGTCGTGTCGCTGGTGCAGGAACATTGTTTTTATCACCTTGAGGCCCCCGTCGTCCGCGTTGCGGGCTGGGATACGCCTTATCCCCATGCGCAGGAGTGGGACTATTTTCCGGGACCTGCCCGCGTCGGGCGCGCCCTTGTTGAAGTCATGGAGGCCTGA	MARMTMIEAVRSAMDVSMERSDDVVVFGEDVGYFGGVFRATQGLQGKYGKTRCFDAPISESGIVGTAIGMAAYGLRPCVEIQFADYMYPAYDQITQEAARIRYRSNGDFTCPIVLRMPTGGGIFGGQTHSQSPEALFTHVCGLKVVVPSNPYDAKGLLIASIEDPDPVMFLEPKRLYNGPFDGHHDRPVTPWSKHEMGEVPEGHYTIPIGKAEIRRPGNAVTVIAYGTMVHVALAAAEETGVDAEIIDLRSLLPLDLDTIVKSVSKTGRCVMVHEATLTSGFGAEVVSLVQEHCFYHLEAPVVRVAGWDTPYPHAQEWDYFPGPARVGRALVEVMEA	PGPT0008862_1107	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LEUCINE_DEGRADATION,PGPT0008862-bkdA2|bfmBAB-K00167	NA	NA
BMS010_08289	1239	bkdA1	COG1071	2-oxoisovalerate dehydrogenase subunit alpha	ATGGATATAACCGAAACGCCACGTCTCAGCCTGCATGTTCCCGAACCTGCGGTGCGGCCCGGCGGGGAGCCGGATTTCTCCAATGTGAAAATACCCAAGGCCGGTTCCGTGCCGCGCCCGGAGGTTGACGCCGCGCCGGAAAGCATGCGCGATCTCGCCTATTCCATCATTCGCGTCCTCAATCACCAGGGCGAGGCTGTCGGACCCTGGGCAGGGCTGCTTTCGGATGAAGACTTGCTGGTGGGCCTCAAAAACATGATGCGGCTTCGGGCTTTCGATGCGCGCATGCTGATGGCGCAGCGTCAGGGCAAGACCTCCTTCTACATGCAGCATCTGGGTGAAGAGGCGGTGAGCTGCGCCTTCCGCAAGGCGCTTTCCAAGGGCGACATGAATTTCCCGACCTATCGGCAGGCAGGGTTGCTGATCGCCGATGACTATCCACTCGTCGCCATGATGAACCAGATCTATTCCAACGAACTGGATCCACTGCATGGTCGTCAGTTGCCGGTGCTTTATTCCTCGAAGGAGCATGGTTTTTTCACCGTCTCCGGCAATCTCGCCACGCAATATGTGCAGGCGGTCGGCTGGGCGATGGCGTCGGCCATCAAGGGCGATACGAAGATCGCCGCAGCATGGATCGGCGACGGCTCGACGGCGGAGTCGGATTTTCACTCGGCGATGGTCTTTGCCTCCACCTACAAGGCTCCGGTCGTTCTCAACATCGTCAATAACCAATGGGCGATTTCCACCTTTCAGGGCATCGCGCGCGGCGGCTCCGGCACCTTTGCGGCACGCGGGCTGGGCTTCGGCATTCCCGCACTTCGGGTCGACGGCAATGATTATCTCGCCGTTTATGCCGTGGCGCGCTGGGCGGTGGAACGGGCGCGCCGCAATCTCGGCCCGACGCTGATCGAATACGTGACCTATCGTGTCGGAGCCCATTCCACGTCGGACGATCCGAGCGCTTACCGCCCCAAGACGGAATCCGAGGCATGGCCGCTGGGCGACCCGGTTCTGAGGCTCAAAAAACACCTCATCCTGCGCGGCGTCTGGTCGGAGGAAAGGCACCGGCAGACGGAGGCGGAAATTGCCGATGAGGTGCTTGAGGCGCAGCGCGAGGCAGAAAGCCACGGCACACTGCATGAGGGCAAAAAACCGCCGAAAAAGGATATTTTCGAAGGCGTCTACGCCGAGATGCCACCGCATCTCGTCCGCCAGCGCCAGAAGGCAGGATGGTAA	MDITETPRLSLHVPEPAVRPGGEPDFSNVKIPKAGSVPRPEVDAAPESMRDLAYSIIRVLNHQGEAVGPWAGLLSDEDLLVGLKNMMRLRAFDARMLMAQRQGKTSFYMQHLGEEAVSCAFRKALSKGDMNFPTYRQAGLLIADDYPLVAMMNQIYSNELDPLHGRQLPVLYSSKEHGFFTVSGNLATQYVQAVGWAMASAIKGDTKIAAAWIGDGSTAESDFHSAMVFASTYKAPVVLNIVNNQWAISTFQGIARGGSGTFAARGLGFGIPALRVDGNDYLAVYAVARWAVERARRNLGPTLIEYVTYRVGAHSTSDDPSAYRPKTESEAWPLGDPVLRLKKHLILRGVWSEERHRQTEAEIADEVLEAQREAESHGTLHEGKKPPKKDIFEGVYAEMPPHLVRQRQKAGW	PGPT0008861_772	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LEUCINE_DEGRADATION,PGPT0008861-bkdA1-K00166	NA	NA
BMS010_08290	1128	mmgC_6	COG1960	Acyl-CoA dehydrogenase	ATGATCCTGAACGAAGCCCAGCAGCAGATCAGGGACATGGCCCGCGATTTCGCCCGCGAGCGGCTAGCTCCTGGGGCTGCTTCGCGTGACCGGGAAAGCCGGTTCCCGAAAGACGAACTGAAGGAAATGGGAGAGCTAGGCTTCCTTGGTATGCTTGTCTCCGAGGACTATGGCGGCTCGGAAACCGGTGCCGTTGCTTATGCTTTGGCGCTGGAGGAAATCGCTGCCGGTGACGGCGCCTGTTCCACCATCATGAGTGTGCATAATTCGGTCGGTTGCGTGCCGATCCTGAAATTCGGGACCGAAGACCAGAAGCAGCGTTTCCTGCCGAAACTGGCCTCCGGCGAATGGATCGGTGGTTTTGCGCTGACCGAACCGCAGGCCGGTTCAGATGCGTCCAACCTCAAGACCCGCGCCCGGCGCGATGGCGACCGATATATTCTCGACGGGGCGAAGCAGTTCATCACCTCGGGCAAAAATGGCGATGTCGTCATCGTCTTTGCCGTTACCGATGCGGCGGCGGGTAAGAAGGGCATCAGCGCCTTCATCGTGCCGACCGATACGCCGGGTTACGAGGTCATCCGTGTCGAGGAAAAACTCGGCCTGCATTCATCCGATACCTGCCAGATTGCCTTTACCGAGATGGCGGTACCGGCCGAACTGCGGCTGGGCGAAGAGGGGCAGGGGTATCGCATCGCGCTTGCCAATCTGGAAGGTGGGCGCATCGGCATCGCCGCGCAGGCGGTCGGCATGGCGCAGGCCGCCTTCGAGGCGGCGCGGGATTATGCCCGCGAGCGCAAGGCCTTCGGGCAGGCAATCGTGGAGCATCAGGCGGTGGCGTTTCGTCTCGCGGATATGGCGACGCGCATTGAGGCGGCGCGGCAACTGGTGTTGCATGCGGCGGCGCTGAAGGAAGCGGGAGAGCCCTGTCTTTCGGAGGCCTCGATGGCCAAGCTCTTCGCCTCCGAAATGGCTGAGCGCGTCTGCTCGGACGCCATCCAGATTCACGGCGGTTACGGCTACATCGCGGATTATCCGGTGGAGCGGATCTATCGCGATGTGCGCATCTGCCAGATTTACGAGGGAACCAGCGATGTCCAGCGGATGGTAATCGCGCGGAACCTTTGA	MILNEAQQQIRDMARDFARERLAPGAASRDRESRFPKDELKEMGELGFLGMLVSEDYGGSETGAVAYALALEEIAAGDGACSTIMSVHNSVGCVPILKFGTEDQKQRFLPKLASGEWIGGFALTEPQAGSDASNLKTRARRDGDRYILDGAKQFITSGKNGDVVIVFAVTDAAAGKKGISAFIVPTDTPGYEVIRVEEKLGLHSSDTCQIAFTEMAVPAELRLGEEGQGYRIALANLEGGRIGIAAQAVGMAQAAFEAARDYARERKAFGQAIVEHQAVAFRLADMATRIEAARQLVLHAAALKEAGEPCLSEASMAKLFASEMAERVCSDAIQIHGGYGYIADYPVERIYRDVRICQIYEGTSDVQRMVIARNL	PGPT0002285_1075	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0002285-bcd-K00248	NA	NA
BMS010_08291	1164	thlA_2	COG0183	Acetyl-CoA acetyltransferase	TTGGCTGTGCATGACCCTGTCGTGATCGTTGGGGCCGCCCGTACTGCTATGGGTGGGTTCCAGGGCGAATTCAAATCGGTGGCCGCGCCCGATCTCGGTGCGGCGGCGATCCGTGCGGCCGTCGAACGGGCTGCGGTTCCACCCACTGATATTGACGATGTGCTGATGGGCTGTGTGCTTACGGCCGGGCAGGGGCAGGCTCCGGCCAGACAGGCGGCCATTGCCGCCGGAATCCCCAACTCGGTTGGCGCGACGACCATCAACAAGATGTGCGGCTCTGGTATGAAGGCGATCATGCTGGCGCATGACCAGCTTGCGGCGGGAAGCTCTTCCATCGTACTTGCGGGCGGTATGGAAAGCATGAGCAATGCGCCCTATCTCTTGGATCGCGCCCGGAACGGCTATCGTCTCGGCCACGGCAAGCTCACTGACCACATGTTTTTGGATGGCCTCGAAGACGCTCATGACAAGGGTCGGCTGATGGGCACTTTCGCGGAAGATTGTGCTGAAGCCTACCAATTCACCCGTGCCATGCAGGATGACTATGCGCTGACCTCGCTGGAGCGCGCCCGGCGTGCCATCGCTGAGGGGGCTTTCGAAGCGGAGATCGCGCCTCTCGGCGATGTTGCCGTGGACGAGCAGCCGGGCAAGGCGAAGCCGGAAAAGATCCCGCAACTGAAGCCCGCCTTCCGCGATGGCGGAACGGTGACGGCGGCCAATTCCAGTTCGATTTCCGATGGCGCTGCCGCTCTCGTTCTCATGCGTCGCTCCGAAGCGGAAAGGCGGGGCCTTTCACCGCTGGCGACCATTATCGGCCAAACCTCTTATGCGGATGCACCCGCCGGATATCCAACGGCTCCCATCGGCGCGATGAAAAAGCTGTTCGATAAAACCGGCTGGGCGGCGAAGGATGTCGATCTGTTCGAAATCAACGAGGCCTTTGCCGTGGTGGCGATGGCGGCAATGCGCGATCTCGATCTGCCGCATGAGAAGGTGAATGTGCACGGCGGGGCGTGTGCGCTCGGCCATCCCATCGGCGCTTCCGGCGCGAGGATCGTCGTCACATTGCTGGCCGCTTTGCAGCGCCAAGGGCTGAAGCGCGGCGTGGCCGCCGTCTGCATCGGCGGCGGCGAAGCAACCGCGCTTGGCATAGAGCGATATTAA	MAVHDPVVIVGAARTAMGGFQGEFKSVAAPDLGAAAIRAAVERAAVPPTDIDDVLMGCVLTAGQGQAPARQAAIAAGIPNSVGATTINKMCGSGMKAIMLAHDQLAAGSSSIVLAGGMESMSNAPYLLDRARNGYRLGHGKLTDHMFLDGLEDAHDKGRLMGTFAEDCAEAYQFTRAMQDDYALTSLERARRAIAEGAFEAEIAPLGDVAVDEQPGKAKPEKIPQLKPAFRDGGTVTAANSSSISDGAAALVLMRRSEAERRGLSPLATIIGQTSYADAPAGYPTAPIGAMKKLFDKTGWAAKDVDLFEINEAFAVVAMAAMRDLDLPHEKVNVHGGACALGHPIGASGARIVVTLLAALQRQGLKRGVAAVCIGGGEATALGIERY	PGPT0008320_12915	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
BMS010_08292	474	lrp_11	COG1522	Leucine-responsive regulatory protein	ATGATTGAGCTCGACAGTTTCGACCGCAAGATTCTGCATGTGCTCGGCGATGACGGACGGGTGAGCTGGCGTGACCTGGCAGCGCGGATAGGTCTTTCCTTCACGCCGACGCTTCGACGTGTGCGCAAGCTGGAAGAGGAAGGCATCATTCGCGGTTATACTGCCGTGTTCGATGAGAACCGGCTGCTCGGCAATATGGGCGTCTTCATCTCCGTCACGCTGGAACGGCAGATCAAGGAAGCGCTGACGACCTTCGAACACCATGTCGCCTCCATTCCGGAAGTGGTGGGCGGTTATCAGACCAGCGGCAGTTCCGATTATCTGATACACGCCATGGTGCGGGATTTGCCGCATTATCAGGAGCTTCTGGATTTCCTGACCACGGTTCCCGGCGTGTCGCGCATCCAGTCCAATTTCGCCATCAAGACATTCGTGCGCCGTTCCGCCGCCTTCACCGGGGGTGACGCGCCGTAA	MIELDSFDRKILHVLGDDGRVSWRDLAARIGLSFTPTLRRVRKLEEEGIIRGYTAVFDENRLLGNMGVFISVTLERQIKEALTTFEHHVASIPEVVGGYQTSGSSDYLIHAMVRDLPHYQELLDFLTTVPGVSRIQSNFAIKTFVRRSAAFTGGDAP	PGPT0014049_111	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014049-doeX-K15782	NA	NA
BMS010_08293	1173	acdA_2	COG1960	Acyl-CoA dehydrogenase	ATGAGTTTGGACCTCGCCGCCATTTTCGATGCCGATCTCGGCCCGGAAATCGCAGCATTGCGCGACAGCGCAAGCGCATTCGCAGAGGATAAAATTGCCCCCTTGGCGGCAGAGATCGACCGCGACGACCGTTTTCCACGTAAGCTCTGGCCGGAAATGGGCCAGCTCGGTCTGCACGGCATCACGGTTTCAGAAGAATTCGGCGGTGCCGACATGGGCTATCTCGCCCATTGCGTCGCGATGGAAGAGATAAGCCGGGCTTCCGCTTCCATCGGCCTTTCCTATGGCGCCCATTCCAACCTCTGCATCAACCAGATCCACCGCTGGGGAACGCAAGAGCAGAAGCACAGATATCTGCCGAAGTTGGTCTCCGGCGAGCATGTCGGTTCACTCGCCATGAGCGAGACTGGGGCCGGTTCGGATGTCGTCTCAATGCGGCTGAAGGCGGAGCGCAAAGGCGACCGCTATGTGCTGAACGGCGCGAAAATGTGGATCACCAACGGCCACGAGGCCGATACGCTGGTGGTTTACGCCAAGACGGATATGTCCGCCGGCCCTCGCGGTATCACGGCCTTCCTGATCGAAAAGAGCTTCAAGGGGTTTCGCCCCGCCCAGAAACTCGACAAGCTCGGCATGCGCGGCTCACCCACTTCGGAACTGGTGTTCGAAGATTGCGAGGTGCCGGAAGAGAACATCCTCGGCCGCCTCAATGACGGCGTGACGGTGCTGATGAGCGGGCTGGATTATGAGCGCGCCGTGCTGGCCGCCGGCCCGGTCGGCATCATGCAGGCGGCCATCGACCTGGTGCTGCCCTATGCGCGTGAGCGTAAGCAGTTCGGCAAACCCATCGGCGAATTCCAGCTGGTGCAGGGCAAGCTTGCCGATATCTATTCGGCCATGAATGCGTCGCGCGCCTATGTCTATGCCGTTGCCCGCGCTTGCGACAATGGCCGCATCACAAGACAGGATGCGGCGGGCGCGATCCTCTTCGCCGCCGAACGGGCGACGCAGGTGGCCCTGGATGCCATCCAGCTTCTCGGCGGCTCCGGTTATGTCAATGAAAGCCCGGCCGGAAGGCTGCTGCGCGACGCCAAGCTTTATGAGATCGGCGCAGGCACCAGCGAAATTCGCCGGATGCTGATCGGCCGCGAACTGGTCAAGGGCAACGGGTGA	MSLDLAAIFDADLGPEIAALRDSASAFAEDKIAPLAAEIDRDDRFPRKLWPEMGQLGLHGITVSEEFGGADMGYLAHCVAMEEISRASASIGLSYGAHSNLCINQIHRWGTQEQKHRYLPKLVSGEHVGSLAMSETGAGSDVVSMRLKAERKGDRYVLNGAKMWITNGHEADTLVVYAKTDMSAGPRGITAFLIEKSFKGFRPAQKLDKLGMRGSPTSELVFEDCEVPEENILGRLNDGVTVLMSGLDYERAVLAAGPVGIMQAAIDLVLPYARERKQFGKPIGEFQLVQGKLADIYSAMNASRAYVYAVARACDNGRITRQDAAGAILFAAERATQVALDAIQLLGGSGYVNESPAGRLLRDAKLYEIGAGTSEIRRMLIGRELVKGNG	PGPT0002285_473	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0002285-bcd-K00248	NA	NA
BMS010_08294	1602		COG4799	Methylmalonyl-CoA carboxyltransferase 12S subunit	ATGAAGCTTACTTCAAGTCTGAACCGCGACCCGACCTTCGCTGCCAATGTCGATTTCATGTCGGGGCTGGTGGATGACCTGCGCCAACACGTCGAAAAAATCTCCAGAGGCGGCGGCGACAAGGCCCGTGAACGGCATCTTTCCCGCGGCAAATTGCTGGCGCGCGACCGGATCGAAGCCCTTCTCGATCCCGGCAGCCCGTTTCTCGAATTCTCGCAATTCGCGGCATACGAGGTCTATGACGAACCCGTTCCCGCCGCCGGCATCGTCACCGGCATCGGCCGGGTCTCCGGCCGCGAATGTGTGATCGTCGCCAATGATGCGACGGTAAAGGGCGGCACCTATTATCCGCTGACGGTGAAGAAACATCTGCGCGCGCAGGAAATCGCCACGGAGAACCGCCTGCCCTGCATTTACCTCGTGGATTCCGGCGGCGCGAACCTGCCTAATCAGGACGAAGTATTTCCCGACCGCGATCATTTCGGCCGCATCTTCTACAATCAGGCCAATATGTCGGCGCAGGGCATCGCCCAGATTGCCGTGGTGATGGGCAGTTGCACGGCGGGCGGGGCCTATGTGCCCGCCATGAGCGACCAGTCCGTCATCGTCAAAAATCAGGGCACGATCTTTCTCGGCGGCCCGCCACTGGTGAAGGCCGCAACCGGCGAGGTGGTGAGTGCGGAAGAGCTGGGCGGCGCGGATGTGCATTCGCGGCAATCCGGCGTCACCGATCATTATGCCCACGACGACCGCCACGCGCTGGCACTGACCCGACGGATCGTTTCCACCCTCAATCGTCGCAAGCAGATGGAACTCGATATCCGCGAACCGGTGGAGCCGCTTTATCCGGCTGAAGAGCTTTATGGCATCGTTCCCGCCGATACGAGAAAACCCTTCGAGGTGCGCGAGATCATCGCGCGTCTGGTGGACGGTTCCGAATTCGATGAGTTCAAGGCGCTTTACGGCACGACTTTGGTCTGCGGTTTTGCCCATATCCACGGTTATCCTGTCGGCATCATCGCCAATAACGGCATCCTGTTTTCGGAATCGGCGCTGAAGGGCGCGCATTTCATCGAACTCTGCTGCCAGCGCGGCATCCCGCTGGTTTTCCTGCAAAACATCACCGGCTTCATGGTCGGCAAGGCCTATGAGGCTGGTGGTATCGCCAAGGATGGCGCAAAGCTCGTGACTGCGGTCGCTTCAGCCAAAGTGCCGAAATTCACCGTCATCATCGGCGGCTCGTTCGGGGCCGGTAATTACGGCATGTGCGGGCGGGCCTATTCACCGCGCTTTTTGTGGATGTGGCCGAATGCCCGCATTTCCGTGATGGGCGGCGAACAGGCAGCCTCCGTTCTGGCGCAAATCCGCCTCGACGGCATCGAGGCCGATGGCCGCCACTGGTCGAAGGAAGGCGAAGAGGCGTTCAAACAGCCGATCCGGGAAAAATACGAGCGGGAGGGCCATCCCTATTATGCCAGCGCGCGACTTTGGGACGATGGCATCATCGACCCGAAGGATACCCGTCTGGTACTCGGCCTCGGGCTTTCCGCCGCGCTCAACGCGCCGATAGAACCCACCCGTTTTGGCATATTCAGGATGTGA	MKLTSSLNRDPTFAANVDFMSGLVDDLRQHVEKISRGGGDKARERHLSRGKLLARDRIEALLDPGSPFLEFSQFAAYEVYDEPVPAAGIVTGIGRVSGRECVIVANDATVKGGTYYPLTVKKHLRAQEIATENRLPCIYLVDSGGANLPNQDEVFPDRDHFGRIFYNQANMSAQGIAQIAVVMGSCTAGGAYVPAMSDQSVIVKNQGTIFLGGPPLVKAATGEVVSAEELGGADVHSRQSGVTDHYAHDDRHALALTRRIVSTLNRRKQMELDIREPVEPLYPAEELYGIVPADTRKPFEVREIIARLVDGSEFDEFKALYGTTLVCGFAHIHGYPVGIIANNGILFSESALKGAHFIELCCQRGIPLVFLQNITGFMVGKAYEAGGIAKDGAKLVTAVASAKVPKFTVIIGGSFGAGNYGMCGRAYSPRFLWMWPNARISVMGGEQAASVLAQIRLDGIEADGRHWSKEGEEAFKQPIREKYEREGHPYYASARLWDDGIIDPKDTRLVLGLGLSAALNAPIEPTRFGIFRM	PGPT0008345_76	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-VOLATILE_RELATED_FATTY_ACID_METABOLISM,PGPT0008345-accD-K01970	NA	NA
BMS010_08295	1992	accA1_4	COG4770	Acetyl-/propionyl-coenzyme A carboxylase alpha chain	ATGTTCTCGAAAATTCTGATCGCCAATCGCGGCGAAATCGCCTGCCGCATCATCCGCACCGCCGCCAAGTTGGGTATCCGCACCGTCGCAGTCTATTCGGACGCCGACCGTGACGCCATGCATGTGGCGCTTGCCGACGAGGCCATCGCCATTGGCGCAGCACCCGCGCGGGCCTCCTATCTCGACGGCGAAAAAATCATCGCCGCCGCAAAAGCCTGCGGCGCGCAGGCAATTCATCCGGGTTACGGTTTCCTTTCGGAAAATGCCGGCTTCGCCGAAGCATGCGCCGCCGCCGATCTCGTATTCATTGGCCCGCCGGCAGCGGCAATTCGCGCCATGGGTGGGAAAAGCGAGGCGAAGGCGCTGATGGCAAAGGCCGGCGTTCCGGTTGTTCCCGGTTATCACGGTGACGAACAATCGGAGAAACGACTGGCAAGCGAGGCCGACAAGATCGGTTATCCGGTGCTGCTCAAGGCCTCGGCCGGCGGCGGCGGCAAGGGCATGCGCATCGTCCGGCAAAAGCGCGACTTCGCAGCGGAGCTTGCCGGCGCAAAACGCGAAGCGCTGGCCGCTTTCGGCAATGACCGCATGCTGATCGAAAAATACCTTGAACGGCCGCGCCATGTGGAAGTGCAGGTCTTTGCCGACGGCCACGGCAAGTGTGTTTCGCTTTTCGAGCGCGATTGCTCGATCCAGCGCCGGCACCAGAAGGTCATAGAGGAAGCCCCTGCCCCCGGCCTGCCCGACGCACTTCGGCAGCGCATGTATGAAGCGGCGGTCGCCGCCGCCCGCGCCATCGATTATCGCGGCGCGGGAACGGTGGAATTCCTGCTCGACCCTTCCGGCGACTTCTATTTCATGGAAATGAATACGAGGCTCCAGGTCGAACATCCGGTCACGGAATATATTACCGGTCTCGATCTGGTCGAATGGCAGATCCGCGTCGCCAACGGAGAGGCCCTGCCGGAAGACTGGGCGAATCTGAGCATAAACGGCCATGCCATCGAGGCACGGATTTATGCCGAAGACCCGGCGCATGATTTCCTGCCGTCGATCGGCACCATCAGCCATCTGGTTTTTCCCGATCAGGGCCCTCACGTCCGGATCGACAGCGGCATCCGCGCCGGCGACGCCATCACCGTGCATTACGATCCGATGATCGCCAAGCTGATCGTCTGGGACCGAGATCGCCCCTCGGCGGTGCGGCGTCTGCGGTTGGCGCTCGAAAATCTGGCGATCTGCGGCGTCACCAGCAATGCCGCCTTTCTTATGCGGCTTGCGGGACTGGAGGCCTTCGCGAACGCCGATCTCGACACCGGTTTCATCGCCCGTAACGAAGCGGCGCTGTTTGCTCCGGCAGCAACGGACGGGAACGAGATAGCCATGGCCGCGCTTGGCCTGCTGCTTGCGCGGCAGAAAAACGGAAAGCCGGGTTCGCAGGCCGATCCCCATAGCCCTTGGAACATGACGGCTGCCTTCCGCCTCAACGCGCCGGCAAGGGAAACGCTGTATTTCGTGTTTGACAACCAGCCGCTGAGTGTCGGCGTCACGCATGAGGCGGACGGTTTTTCGCTGGAGATCGACGGACGGGCGATCAGCGCCTATGGCGGCCTTTCGGACGACGGTAAATTCCGAGCGACCGTGGAAGGCAGGAAAAGGCAGGGCCATTTCTTTGCAGAGGATGGCCGTTACGCACTTTTTCTGGGTGGCGAACATTATCGCATCAGCCAGCCGGATCCTGCCGATATCGCGGATTCCGCTCCCCATACCGGCGGTCTGGAAGCACCTATGCCCGGCGTCATCCGCGCCTTGCTGAGCAGCAACGGTGCCGCGGTTGAGGCCGGCGAGGCCCTTGTGGTGATGGAGGCGATGAAAATGGAGCACACGATCCGCGCGCCAGCGAAAGGCACCGTCACGGCCATCAATTGCATTGAGGGCGATATGGTCGCCGCCGGTGCGGTGCTGGTGGATTTCGAGCCGGAGGCCAGTTGA	MFSKILIANRGEIACRIIRTAAKLGIRTVAVYSDADRDAMHVALADEAIAIGAAPARASYLDGEKIIAAAKACGAQAIHPGYGFLSENAGFAEACAAADLVFIGPPAAAIRAMGGKSEAKALMAKAGVPVVPGYHGDEQSEKRLASEADKIGYPVLLKASAGGGGKGMRIVRQKRDFAAELAGAKREALAAFGNDRMLIEKYLERPRHVEVQVFADGHGKCVSLFERDCSIQRRHQKVIEEAPAPGLPDALRQRMYEAAVAAARAIDYRGAGTVEFLLDPSGDFYFMEMNTRLQVEHPVTEYITGLDLVEWQIRVANGEALPEDWANLSINGHAIEARIYAEDPAHDFLPSIGTISHLVFPDQGPHVRIDSGIRAGDAITVHYDPMIAKLIVWDRDRPSAVRRLRLALENLAICGVTSNAAFLMRLAGLEAFANADLDTGFIARNEAALFAPAATDGNEIAMAALGLLLARQKNGKPGSQADPHSPWNMTAAFRLNAPARETLYFVFDNQPLSVGVTHEADGFSLEIDGRAISAYGGLSDDGKFRATVEGRKRQGHFFAEDGRYALFLGGEHYRISQPDPADIADSAPHTGGLEAPMPGVIRALLSSNGAAVEAGEALVVMEAMKMEHTIRAPAKGTVTAINCIEGDMVAAGAVLVDFEPEAS	PGPT0019850_209	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TERPENE_UTILIZATION	vCITRONELLOL-CITRONELLAL-CITRONELLATE_DEGRADATION,PGPT0019850-atuC|atuF-K13777	NA	NA
BMS010_08296	927	liuE_2	COG0119	3-hydroxy-3-isohexenylglutaryl-CoA/hydroxy-methylglutaryl-CoA lyase	ATGAGTTGGCCTCAAACCGTCAAAATCGTCGAAGTGGGCGCGCGTGACGGCTTGCAGAACGAAAGCGCCGAGGTTCCAGCCGCCATCAAGATCGAGCTGATCGAACGGCTGGCCGCAGCCGGATTGGCGGCGGTGGAAGCGGGTGCTTTCGTCTCACCCAAAAAAGTGCCGCAAATGGCGGGTTCGAAAGAGGTGTTCCAGGGCCTCGAAAGGCGACCCGGCACCGCCTATCCGGCACTCGTTCCCAATATGAAAGGTTTCGAGGCCGCCCTTGAAGCCGGCGTGACGGAAATCGCCGTTTTCGTCTCCGCATCCGAAGGGTTCAGCCAGCACAATATCGGCTGCTCGCGCGCCGAAAGCCTCGAGCGCCTGCGCGATGTCGCATCAGCCGCGGCCGGCCGGAACATCCTCATGCGCGGTTACGTCTCCTGCATAGCCGGCTGCCCCTATGACGGTACGGTTGCACCCGATGAGGTGGCAGCGATGGCCGAGGCGCTCATCGCACTTGGCTGTTACGAAATTTCGCTCGGCGATACGATCGGCGTCGGCACGGCGGAGCAGATTCGCAATCTCATCAAGCGGGTGTCTGCCCGCATCCCGCGTAAAAAACTCGCCATGCATTTCCACGATACCTATGGGCAGGGCGTCGCCAATGTGCTTGCCTCGCTGGATGAAGGTATCTCCGTCTTCGACAGTTCGGTGGCCGGGCTGGGCGGCTGCCCCTTTGCGCCGGGCGCCAGCGGCAACGTCGCCACCGAAGATGTCGTTTATCTGCTGCAGGGGCTTGGCATTAAAACCGGTATCGACCTGATGGCGGTGGCGAAAACCGGAAACTGGATCAGCCGGCATCTCGGCAGACCGAATGCGGCCCGCGCCGGCAAGGCGCTGCTTGCGGCAAGACAGGAAGGTGACGCGCATGGCGAATGA	MSWPQTVKIVEVGARDGLQNESAEVPAAIKIELIERLAAAGLAAVEAGAFVSPKKVPQMAGSKEVFQGLERRPGTAYPALVPNMKGFEAALEAGVTEIAVFVSASEGFSQHNIGCSRAESLERLRDVASAAAGRNILMRGYVSCIAGCPYDGTVAPDEVAAMAEALIALGCYEISLGDTIGVGTAEQIRNLIKRVSARIPRKKLAMHFHDTYGQGVANVLASLDEGISVFDSSVAGLGGCPFAPGASGNVATEDVVYLLQGLGIKTGIDLMAVAKTGNWISRHLGRPNAARAGKALLAARQEGDAHGE	PGPT0008315_1875	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TERPENE_UTILIZATION	PLANT_DERIVED_CITRONELLOL-CITRONELLAL-CITRONELLATE_DEGRADATION,PGPT0008315-hmgL-K01640	NA	NA
BMS010_08297	771	dpgD		Enoyl-CoA-hydratase	ATGGCGAATGAACTGCTGAGCGAAAGGCGCAAGGACGTTCTCTGGCTGACGCTTAACCGGCCGGAAGTACACAATGCCTTGAATGCCGCGATGACGGACGCCCTGACGACGGCCATCCGCGCGGCATCTGGCAACCACGCCCTGCGCGCCGTGGTGATAACGGCCGCGGGAGACCGCAGCTTCTGCTCCGGGGCCGATCTGAAGGAAAGCGCCGGCGGCATGTTCCTCTCGCGGGATGGAACCAACCCTATTGCCGATGTGATGCGTGCCATCGAGGGCTGCGACAGGCCCGTCATCGCCCGCATCAACGGCCGGGTTCTGGCCGGCGGGCTTGGCCTCGTCGCCGCCTGCGATCTCGCCTATGCCGTCGACCATGCCGAATTCGGCCTGCCGGAAGTCCGCGTCGGGCTTTTCCCGGCCATGGTGGCGGCGAAGCTTCTGGCGAAGATACCCCTGAGCCAGCTTCAGGAAATGGCCTATCTTGGAGCCACGATAAACGCCGCTGATGCGGAGCGCCTTGGCCTCGTCAATCGGGCTGTCCCGTCGGACGAACTCGATGTCGTGGTGGAAGATGTTCTCGCCCGCTTGCGGCAGAATGCACCGAGCGCCATCGCGGCCGGAAAGGCGGCGTTGCTGAAGATGCGCGATATGCCCTCCAGCGAGCGGCTCGCCTTTGCCGAAAACGTCATCGCCACAATCAGCAGCAGCAACGAGGCGCGGGAGGGGCGATTGGCCTTTGCCGAAAAAAGGAAACCGCTCTGGGTGGAGTGA	MANELLSERRKDVLWLTLNRPEVHNALNAAMTDALTTAIRAASGNHALRAVVITAAGDRSFCSGADLKESAGGMFLSRDGTNPIADVMRAIEGCDRPVIARINGRVLAGGLGLVAACDLAYAVDHAEFGLPEVRVGLFPAMVAAKLLAKIPLSQLQEMAYLGATINAADAERLGLVNRAVPSDELDVVVEDVLARLRQNAPSAIAAGKAALLKMRDMPSSERLAFAENVIATISSSNEAREGRLAFAEKRKPLWVE				NA	NA	NA	NA	NA
BMS010_08298	879	panC_2	COG0414	Pantothenate synthetase	ATGCAGCTTGTAAAAACCGTCGCCGAATTGCGGGATGCCACCGCTACTTTTCGCCGTGCGGGCAAAACCATCGGCTTCGTACCGACAATGGGCTTTCTCCATATCGGCCATCTGACGCTCGTTGCCAAATCCAAGGCGGAAAACGACGTGACGGTGGTTTCGATCTTCGTCAACCCGCTGCAATTCGGTGCGAATGAGGATCTGGCCCGTTACCCCCGCGATCTCGCCCGGGACAGCGCATTGCTGGAAGAGGCGGGCATCGACATTCTTTTCGCACCAGACGTCTCCGAGATGTATCCGCGCCCGATGCAGACGGTCGTGGATGTGCCCGAACTGGGAAGCCAGCTGGAAGGCGCGGTGCGGCCGGGGCATTTCGCCGGTGTTGCGACCGTCGTGACCAAGCTTTTTAACCTCGTCCAGCCGGACGCCGCCTATTTCGGCGAGAAGGATTATCAGCAGGTAACGCTGATCCGCCGCATGGTCGAGGACCTTGCCCAGCCGGTCAGGGTCGTGCCAGTCGCTACGGTGCGCGAAGCCGATGGGCTGGCCTGTTCTTCACGCAATGTCTATCTAAACCCCGCGGAACGCGCCGCCGCCGTGATCGTGCCGCGCGCACTCGATGAGGCGGAACGGCTTTATGGTGAAGGCTTCGACGACCCCGCCGCATTCGAAGCCGCGATAGAAAAATTCATCGCCACCGAGCCGCTGGCCTTGCCGGAAGTTGTTGCAGTGCGCGATCCCGATACGCTTGCCCCCGTCGCTTCATTGCAGGCGGGGCCGGTGCTGGTGGCGCTGTTCGTCAGGCTCGGCAGCACGAGGCTCCTCGACAACCGCGTCATCGGGCGCGACAGGATCAATCAACGGGAGGCGGCCGAATGA	MQLVKTVAELRDATATFRRAGKTIGFVPTMGFLHIGHLTLVAKSKAENDVTVVSIFVNPLQFGANEDLARYPRDLARDSALLEEAGIDILFAPDVSEMYPRPMQTVVDVPELGSQLEGAVRPGHFAGVATVVTKLFNLVQPDAAYFGEKDYQQVTLIRRMVEDLAQPVRVVPVATVREADGLACSSRNVYLNPAERAAAVIVPRALDEAERLYGEGFDDPAAFEAAIEKFIATEPLALPEVVAVRDPDTLAPVASLQAGPVLVALFVRLGSTRLLDNRVIGRDRINQREAAE	PGPT0008750_909	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0008750-panC-K01918	NA	NA
BMS010_08299	840	panB_2	COG0413	3-methyl-2-oxobutanoate hydroxymethyltransferase	ATGAGCGCCCATGGAAAACACAAGCGGCTGACGACGGCCTCCATCCGGCAGATGAAGGGCGAGGCGCGCATTGTCTGCCTGACCGCCTATACCACGCCGATTGCCCGCCTTCTCGATCCGCATTGCGATCTGCTTCTGGTCGGCGATTCCCTCGGCATGGTGCTTTACGGCATGGACACGACGGTCGGCGTCACGCTGGACATGATGATCGCCCATGGCCGCGCCGTCATGCGCGGCGTCGAACATGCCTGCGTCATCGTCGATCTTCCCTTCGGCACCTATCAGGAATCCAAGGAACAGGCGTTCCGCAATGCCGTGCGGCTGATGCAGGAAACCGGCTGCGACGGCGTGAAGCTGGAAGGCGGCGAGGAAATGGCGGAGACCATCGCCTTTCTGGTGGCGCGCGGCATTCCGGTGTTCGGCCATGTCGGGCTTATGCCGCAGCTGGTGCACACCGCCGGCGGCTTCCGCTCGCTCGGGCATTCGGATGCGGAAACGCAAAAAATCTGGCGCGATGCGATTGCGGTCGATCAGGCCGGCGCCTTCGCCATCGTCGTGGAAGGCACCGTCGAACCGCTTGCCCGCGAATTGACCGAAAAACTCGCAGCTCCCACGGTTGGCATCGGCGCATCGCCGGCCTGCGACGGGCAGGTGCTCGTTTCCGACGACATGCTTGGCCTTTTCACCGATTTCAAACCGAAATTCGTCAAGCGTTTCGCCGATCTTGGCCCAACGGTCTCCGAAGCAGCGGCGGCCTATGCCGATGAAGTTCGCTCGGGGGCCTTTCCCGGGCCTGAACATACGTTTCAGGTACGCCGGCAATCGCCTTCGGGGAAGTAA	MSAHGKHKRLTTASIRQMKGEARIVCLTAYTTPIARLLDPHCDLLLVGDSLGMVLYGMDTTVGVTLDMMIAHGRAVMRGVEHACVIVDLPFGTYQESKEQAFRNAVRLMQETGCDGVKLEGGEEMAETIAFLVARGIPVFGHVGLMPQLVHTAGGFRSLGHSDAETQKIWRDAIAVDQAGAFAIVVEGTVEPLARELTEKLAAPTVGIGASPACDGQVLVSDDMLGLFTDFKPKFVKRFADLGPTVSEAAAAYADEVRSGAFPGPEHTFQVRRQSPSGK	PGPT0008740_1315	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0008740-panB-K00606	NA	NA
BMS010_08300	2418	gyrB_2	COG0187	DNA gyrase subunit B	ATGAGCGAGAACAACACGTACGATTCCTCCAGCATCAAGGTGCTGAAGGGCCTGGACGCCGTACGCAAGCGCCCCGGTATGTATATCGGGGATACCGACGATGGAACCGGTCTGCACCACATGGTATTCGAGGTGGTCGATAACTCCATCGACGAAGCGTTGGCCGGCTATTGCTCCGAAATCAGCATCACCGTTCATCCAGACGAGTCCATCACAGTTCGGGACAACGGCCGGGGCATTCCAGTGGACATCCATAAGGAAGAAGGTGTTTCGGCGGCCGAAGTCATCATGACTGTGCTGCATGCCGGCGGCAAGTTCGACGACAACACCTACAAGGTATCCGGTGGGCTGCATGGCGTCGGTGTTTCCGTCGTGAATGCGCTGTCAGAAGAACTGCGCCTGACCATTCGCCGCTCCGGCAAGGTCTGGGAACAGATCTATCGCCATGGTGTGCCCCAGGCTCCTCTGGCCCCGGTCGGTGATACCGATGGGACGGGCACCGAGATTCACTTCAAGGCCTCCGCCGAGACCTTCACCAACATCCATTTCAGCTGGGACATCCTGGCCAAGCGTCTGCGAGAACTGTCGTTCCTCAACTCGGGCGTCGGCATCGTCCTCAGGGACGAGCGGAGCGGTAAGGAGGAACTGTTCAAGTACGAAGGAGGCCTCAAGGCTTTCGTCGAGTACCTGAACACCAACAAGACCGCAGTGAACCAGGTGTTCCATTTCAATGTGCAGCGGGACGACGGTATCGGTGTCGAGGTTGCCCTGCAGTGGAACGACAGCTTCAACGAAAACATCCTCTGCTTTACCAACAATATTCCACAGCGTGACGGTGGTACGCACTTGGCAGGCTTCCGCTCTGCCCTCACCCGCCACCTGAACAACTACATCGAGCAGGAAGGTCTGGCGAAGAAGTTCAAGATCGCCACCACCGGTGACGATGCGCGCGAAGGCTTGACAGCGATCATCTCGGTCAAAGTGCCCGATCCCAAGTTCAGCTCTCAGACCAAGGACAAGCTGGTGTCCTCCGAGGTGAAGACTGCGGTGGAACAGGAAATGGGCAAGTACTTCGCCGACTTCCTGCTGGAAAACCCGAACGAAGCCAAGGCCGTGGTCGGCAAGATGATCGACGCGGCGCGAGCCCGCGAGGCGGCACGCAAGGCGCGGGAGATGACCCGTCGTAAAGGTGCGCTGGATATCGCTGGCCTGCCCGGAAAACTGGCCGACTGCCAGGAAAAAGACCCGGCGTTGTCCGAACTCTACATCGTGGAGGGTGACTCCGCGGGCGGTTCTGCCAAGCAGGGTCGCAACCGCAAGACCCAGGCGATCCTGCCGCTCAAGGGCAAGATCCTCAACGTGGAAAAGGCTCGCTTCGACAAGATGCTCTCCTCCCAGGAGGTCGGTACGCTGATCACTGCCCTGGGCTGCGGTATCGGTCGCGAGGAGTACAACATCGAGAAGCTGCGCTACCACAACATCATCATCATGACCGATGCTGACGTCGACGGTTCGCACATCCGTACCCTGCTGCTGACTTTCTTCTTCCGCCAGCTGCCCGAGCTGATCGAGCGTGGCTACATTTACATCGCCCAGCCGCCGCTCTACAAGGTGAAGAAAGGCAAGCAGGAGCAGTACATCAAGGACGACGAGGCCATGGAGGAATACATGACCCAGTCGGCCCTGGAAGAGGCCAGCCTGCATGTGAACGAGAGTGCGCCGGGACTGTCCGGTCCGGCGCTGGAAAAGCTGGTCAACGATTACCGCACGGTGATGAAGACCCTTTCCCGTCTCTCCCGCCTCTACCCGCAGGAGCTGACCGAGCACTTCGTCTACCTGCCGCGTGTGACCGTCGAGCAACTGGCCGACCAAGGTGCCATGCAGGTCTGGCTGGAGCAGTTCCAGGCGCGGCTGAAGCTGGCCGAGAAGTCGGGTCTGACCTACAAGGCCAGCCTGCGCGAAGATCGCGAGCGCCATCTGTGGTTGCCGGAGGTCGAGCTGGTTGCCCACGGCCTCTCCAGCTATATCACCTTCAACCGCGATTTCTTCGCCAGCAATGACTACAAGACGGTCACCGCACTCGGCGATCAGTTGAACAGCTTGCTGGAAGAAGGCGCCTACGTGCAGCGTGGCGAACGCAAGAAGCCGGTCTCCACCTTCAAGGAGGCACTGGCCTGGCTGATGACCGAGAGCACCAAGCGGCACAGCATCCAGCGCTACAAGGGGTTGGGCGAGATGAACCCGGACCAGTTGTGGGAAACCACCATGGATCCGAACGTACGTCGCATGCTCAAGGTGACCATCGAAGATGCCATCGCGGCGGACCAGATATTCAATACCTTGATGGGCGATGCCGTGGAGCCGCGTCGCGACTTCATCGAAAGCAACGCGCTGGCAGTCTCCAACCTGGACGTCTGA	MSENNTYDSSSIKVLKGLDAVRKRPGMYIGDTDDGTGLHHMVFEVVDNSIDEALAGYCSEISITVHPDESITVRDNGRGIPVDIHKEEGVSAAEVIMTVLHAGGKFDDNTYKVSGGLHGVGVSVVNALSEELRLTIRRSGKVWEQIYRHGVPQAPLAPVGDTDGTGTEIHFKASAETFTNIHFSWDILAKRLRELSFLNSGVGIVLRDERSGKEELFKYEGGLKAFVEYLNTNKTAVNQVFHFNVQRDDGIGVEVALQWNDSFNENILCFTNNIPQRDGGTHLAGFRSALTRHLNNYIEQEGLAKKFKIATTGDDAREGLTAIISVKVPDPKFSSQTKDKLVSSEVKTAVEQEMGKYFADFLLENPNEAKAVVGKMIDAARAREAARKAREMTRRKGALDIAGLPGKLADCQEKDPALSELYIVEGDSAGGSAKQGRNRKTQAILPLKGKILNVEKARFDKMLSSQEVGTLITALGCGIGREEYNIEKLRYHNIIIMTDADVDGSHIRTLLLTFFFRQLPELIERGYIYIAQPPLYKVKKGKQEQYIKDDEAMEEYMTQSALEEASLHVNESAPGLSGPALEKLVNDYRTVMKTLSRLSRLYPQELTEHFVYLPRVTVEQLADQGAMQVWLEQFQARLKLAEKSGLTYKASLREDRERHLWLPEVELVAHGLSSYITFNRDFFASNDYKTVTALGDQLNSLLEEGAYVQRGERKKPVSTFKEALAWLMTESTKRHSIQRYKGLGEMNPDQLWETTMDPNVRRMLKVTIEDAIAADQIFNTLMGDAVEPRRDFIESNALAVSNLDV	PGPT0027710_1255	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0027710-parE-K02622	NA	NA
BMS010_08301	1104	recF_1	COG1195	DNA replication and repair protein RecF	ATGTCCCTCAGCCGCGTTACAGTCACCGCGGTGCGCAACCTGCACCCGGTGACTCTCTCCCCCTCCCCGCAAATCAACATCCTATACGGCGACAACGGCAGCGGAAAAACCAGCCTGCTGGAAGCCATTCATCTTCTCGGCCTCGCACGCTCTTTTCGCAGTACACGACTGTCGCCGGTGATTCAGCACGAACAGCTTTCTTGCACGGTTTTTGGCCAGATCGATCTGGCTGAGGGCGGACAGTGCAATCTGGGGGTTTCACGTGACCGCCAAGGGGAATTTCAGATTCGTATCGATGGGCAGAACGCGCGCAGTGCTGCCCAGTTGGCGGAGAATCTACCGCTGCAACTGATCAATCCGGACAGCTTTCGTTTGCTTGAGGGAGCGCCGAAAGTTCGGCGTCAGTTTCTGGATTGGGGAGTGTTCCACGTGGAACCTCGTTTTCTTCCTGCCTGGCAGCGCCTACAGAAGGCCCTGAGGCAGCGGAACTCGTGGCTCCGGCATGGTACACTTGACTCCGCGTCGCAGGCGGCCTGGGACAGAGAATTGTGTCTTGCCAGCGACGAAATAGACAGTTATCGCCGTGTCTATATCCAGACATTGAAGCCCGTTTTCGAAGATGTTCTTAGCCATTTGGTTGAGCTGAGCGGTCTGACGCTTAGCTATTACCGCGGCTGGGACAAGGACCGTTCGCTGAAGGAAGTGCTCGATTCGTCACTTCTCAGAGATCAGCAGCTCGGCCATACGCAGGCGGGGCCGCAACGCGCCGATCTTCGCTTACGTCTCGGCGCACACAGTGCGGCGGATATCTTGTCTCGAGGCCAACAGAAGCTTGTCGTTTGCGCGTTGCGCATCGCTCAGGGCCATTTGGTCAACCAGGCCAAGAGAGGGCAGTGCATCTATTTAGTGGATGACCTGCCCTCGGAGTTGGATGAGCAGCACCGCAAGGCGCTTTGCCGTTTGTTGGAAGACTTACAATGCCAGGTGTTCATCACCTGCGTTGACAAAGAATTGTTGAGAGATGGCTGGCAGACGGATACGCCAGTCGCCATGTTCCACGTGGAACATGGTCGTATCACCCAAGACCATCGGAGTGAAGCATGA	MSLSRVTVTAVRNLHPVTLSPSPQINILYGDNGSGKTSLLEAIHLLGLARSFRSTRLSPVIQHEQLSCTVFGQIDLAEGGQCNLGVSRDRQGEFQIRIDGQNARSAAQLAENLPLQLINPDSFRLLEGAPKVRRQFLDWGVFHVEPRFLPAWQRLQKALRQRNSWLRHGTLDSASQAAWDRELCLASDEIDSYRRVYIQTLKPVFEDVLSHLVELSGLTLSYYRGWDKDRSLKEVLDSSLLRDQQLGHTQAGPQRADLRLRLGAHSAADILSRGQQKLVVCALRIAQGHLVNQAKRGQCIYLVDDLPSELDEQHRKALCRLLEDLQCQVFITCVDKELLRDGWQTDTPVAMFHVEHGRITQDHRSEA				NA	NA	NA	NA	NA
BMS010_08302	1107	dnaN_2	COG0592	Beta sliding clamp	ATGCATTTCACCATTCAACGCGAAGCCTTGTTGAAACCCCTGCAACTGGTCGCCGGCGTCGTGGAACGCCGTCAGACCTTGCCGGTGCTTTCCAACGTTCTGCTGGTGGTCGAAGGCCAGCAGTTGTCGCTGACCGGGACCGACCTGGAGGTCGAGCTGGTTGGCCGGGTGACGCTCGAGGAAAGCGCCAGCGAGCCCGGGGAGATCACCGTACCGGCGCGCAAGCTCATGGATATCTGCAAGAGCCTGCCGAACGACGCGCTGATCGATATCCGCGTCGACGATCAAAAGCTGGTTCTGAAGACCGGACGTAGCCGTTTCACCCTGTCGACATTGCCGGCGAACGATTTCCCCACCGTGGAAGAAGGTCCCGGCTCGCTGACCTTCACCCTGCCCCAGGCCAAGTTGCGTCGCCTGATCGAGCGCACCGGATTCGCCATGGCACAACAGGATGTCCGCTATTACCTGAACGGTATGCTGCTGGAAGTCAGCGCCGGCATGCTGCGTGCGGTCGCCACCGATGGTCACCGTCTAGCGATGTGCTCCATGCAAGCGGGCATCGAGCAGGCTGATCGTCACCAGGTGATCGTTCCCCGCAAGGGTATCCTGGAAATGGCGCGCCTCCTTACGGAGCAAGACGGTGAAGTCAGCATCGTGCTTGGCCAGCATCACATTCGTGCGACGACGGGCGAGTTCACTTTCACCTCCAAACTGGTGGATGGCAAGTTCCCCGATTACGAGCGCGTCCTTCCGCGGGGCGGCGACAAGCTGGTCATCGGTGATCGCCAGTTGCTGCGTGAAGCCTTCAGCCGTACGGCAATTCTTTCCAACGAGAAGTACCGGGGCATTCGTTTGCTGCTGGCGTCCGGCCTGTTGAAAATCCAGGCGAACAACCCGGAACAGGAAGAAGCTGAGGAAGAAGTCGCTGTCGATTACAACGGTGGAAACCTCGAAATCGGTTTCAACGTCAGCTATCTGCTCGACGTGCTGGGTGTGATGACGACCGACCAGGTCCGCCTCATTCTTTCCGACGCTAACAGCAGCGCTCTGCTTCAGGAAGCCGATAACGACGATTCCGCATACGTCGTGATGCCGATGCGTCTGTAA	MHFTIQREALLKPLQLVAGVVERRQTLPVLSNVLLVVEGQQLSLTGTDLEVELVGRVTLEESASEPGEITVPARKLMDICKSLPNDALIDIRVDDQKLVLKTGRSRFTLSTLPANDFPTVEEGPGSLTFTLPQAKLRRLIERTGFAMAQQDVRYYLNGMLLEVSAGMLRAVATDGHRLAMCSMQAGIEQADRHQVIVPRKGILEMARLLTEQDGEVSIVLGQHHIRATTGEFTFTSKLVDGKFPDYERVLPRGGDKLVIGDRQLLREAFSRTAILSNEKYRGIRLLLASGLLKIQANNPEQEEAEEEVAVDYNGGNLEIGFNVSYLLDVLGVMTTDQVRLILSDANSSALLQEADNDDSAYVVMPMRL				NA	NA	NA	NA	NA
BMS010_08303	1509	dnaA_2	COG0593	Chromosomal replication initiator protein DnaA	GTGTCCGTGGAACTTTGGCAGCAGTGCGTGGAGCTTCTGCGCGATGAACTGCCTGCCCAGCAATTCAACACCTGGATCCGCCCGTTACAGGTTGAAGCCGCCGGCGACGAACTGCGTGTCTATGCACCCAACCGCTTCGTACTGGATTGGGTCAACGAAAAGTATCTGGGGCGATTGCTCGAGCTGTTGGGAGAGCGCGGTAACGGTCTGGTGCCTGCACTCTCCTTGTTAATAGGCAGCAAGCGCAGCTCTGCTGCCAGGCCCGCTCCGACCGCGCCCGCTTCAGCCGCTACGGCGGCTGCCAACGCGGCGGCGAAGATGAGTCCGGTTTCCACCCCTGTGACCCCAGCCGCCGAGCCGGTGCAAACGGCAATGGCGTTGGATAATTTGCGTGCCAGCTTCGATTCCATGGCCTCCACTCCTTCGGTGGCGCCGGCTCCAGCAGTGCGTACCGAGCGCTCCGTTCAGGTGGAAGGCGCGTTGAAGCACACGAGCTACCTGAATCGCACCTTTACCTTCGAGAATTTCGTCGAGGGTAAATCGAACCAGCTTGCGCGCGCGGCCGCCTGGCAAGTAGCAGACAATCCCAAGCACGGCTATAACCCGCTCTTCCTTTATGGCGGCGTGGGTTTGGGCAAGACCCACCTGATGCATGCGGTCGGCAATCATCTGCTGAAGAAGAATCCGAATGCCAAGGTGGTGTACCTGCATTCCGAACGCTTCGTGGCCGATATGGTCAAGGCGTTGCAGTTGAATGCCATCAACGAGTTCAAGCGCTTCTACCGATCGGTGGACGCGCTACTGATCGACGACATTCAGTTCTTTGCCAAGAAAGAGCGCTCTCAGGAAGAGTTCTTCCATACCTTCAATGCGCTCCTCGAAGGCGGGCAGCAGGTCATTCTCACCAGCGACCGCTACCCGAAGGAGATCGAGGGGCTGGAAGAACGTCTGAAATCGCGTTTCGGCTGGGGCCTGACGGTGGCAGTGGAGCCGCCGGAGCTGGAAACCCGTGTCGCCATCCTGATGAAAAAGGCTGACCAGGCCAAGGTCGATCTGCCGCACGACGCCGCATTCTTCATTGCCCAGCGCATCCGCTCCAACGTGCGGGAGCTGGAAGGAGCCTTGAAGCGGGTGATCGCCCATGCCCACTTCATGGGGCGCGATATCACCATCGAGTTGATCCGCGAGTCGCTGAAGGACCTGCTGGCGCTACAGGACAAACTGGTCAGCGTCGACAATATCCAGCGCACCGTGGCCGAGTACTACAAGATCAAGATTTCCGATCTGCTCTCCAAGCGCCGCTCTCGTTCGGTGGCGCGGCCGCGTCAGGTGGCGATGGCGTTGTCCAAGGAGTTGACCAACCACAGCCTGCCGGAAATCGGTGATGCCTTCGGCGGGCGCGATCACACCACAGTCTTGCACGCCTGTCGTAAGATTGCGGAACTTAGGGAGTCCGACGCGGATATCCGCGAGGATTACAAGAACCTGCTGCGGACGTTGACCACATGA	MSVELWQQCVELLRDELPAQQFNTWIRPLQVEAAGDELRVYAPNRFVLDWVNEKYLGRLLELLGERGNGLVPALSLLIGSKRSSAARPAPTAPASAATAAANAAAKMSPVSTPVTPAAEPVQTAMALDNLRASFDSMASTPSVAPAPAVRTERSVQVEGALKHTSYLNRTFTFENFVEGKSNQLARAAAWQVADNPKHGYNPLFLYGGVGLGKTHLMHAVGNHLLKKNPNAKVVYLHSERFVADMVKALQLNAINEFKRFYRSVDALLIDDIQFFAKKERSQEEFFHTFNALLEGGQQVILTSDRYPKEIEGLEERLKSRFGWGLTVAVEPPELETRVAILMKKADQAKVDLPHDAAFFIAQRIRSNVRELEGALKRVIAHAHFMGRDITIELIRESLKDLLALQDKLVSVDNIQRTVAEYYKIKISDLLSKRRSRSVARPRQVAMALSKELTNHSLPEIGDAFGGRDHTTVLHACRKIAELRESDADIREDYKNLLRTLTT	PGPT0014800_1283	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-PILUS|FIMBRIAE_SYSTEM	MOTILITY-PILUS_SYSTEM,PGPT0014800-dnaA-K02313	NA	NA
BMS010_08304	135	rpmH	COG0230	50S ribosomal protein L34	ATGAAACGCACCTTCCAACCCAGCACTCTCAAGCGCGCTCGTGTACATGGCTTCCGCGCTCGCATGGCCACCAAGAACGGTCGTCAAGTCCTGTCGCGTCGTCGCGCGAAAGGCCGCAAGCGCCTGACCGTCTGA	MKRTFQPSTLKRARVHGFRARMATKNGRQVLSRRRAKGRKRLTV				NA	NA	NA	NA	NA
BMS010_08305	402	rnpA	COG0594	Ribonuclease P protein component	GTGAGTCGAGGCTTCGGCCGGGAAAAGCGCCTGCTGACATCCCGGCACTTCAAAGCGGTATTCGACTCTCCCACCGGCAAGGTTCCTGGCAAGCACGTTCTGCTTCTCGCGCGCGACAACCTGCTGGATCACCCCCGCCTGGGGTTGGTAATCGGCAAGAAGGCCGTAAAGCTCTCCGTCGAGCGCAATCGCCTGAAACGCCTGATTCGCGAGTCATTCCGGCATCACCAGGAAAGCCTGGTCGGCTGGGATATCGTGGTGATCGCGCGCAAAGGTCTCGGCGATCTGGAAAATCCCGAACTCAGACAGCAGTTCGAGAAACTCTGGAGACGCTTGGCGCGCAGTCGCTCTCGTCCAGAAGCCCGAACCGAATCAGGGGTGTCCGACAGTCCCCATGCGTAA	MSRGFGREKRLLTSRHFKAVFDSPTGKVPGKHVLLLARDNLLDHPRLGLVIGKKAVKLSVERNRLKRLIRESFRHHQESLVGWDIVVIARKGLGDLENPELRQQFEKLWRRLARSRSRPEARTESGVSDSPHA				NA	NA	NA	NA	NA
BMS010_08306	1668	yidC_2		Membrane protein insertase YidC	ATGGATATTCAACGCTCGATCCTGATCGTCGCCCTGGCAGTCGTGTCCTATTTGATGGTTCTTCAATGGAACCAGGATTACGGCCAAGCCGCCTTGCCGACACAGAGTACCGCTGCGAACAGCGCCACCCCAGCGCTGCCGGAAACGCCGAGTTCCGGTAAAGCCAGCGACGATGTGCCGACCGCCAGCGGAGAACATACCGATGCGGCTAACGCTCCCGCCGTGGCTAGCAACGAGCTGATCCGCGTGGAAACCGACGTGCTGAACCTGGCCATCGACCCGCTCGGTGGCGACATCGTGCAGTTGACGCTTCCGCAGTATCCGCGCCGACAGGATCGCCCGGACGTTCCCTTCCAACTGTTCGATAACGGCGGTGAGCGTCTCTACCTCGCCCAGAGCGGACTTACCGGTGCCAACGGACCGGATGCCCGCGCCAACGGTCGTCCGCTCTACTCCAGCGAGAAGCGCGAGTATCGCCTGGCCGAGGGCCAGGACGAGTTGGTCGTGGAACTGAAGTTCAGCGAAGCGGGTGTCGACTACACCAAGCGCTTCATCCTCAAGCGCGGCCAGTATGACCTTGGCGTTTCCTACCGCATCGAGAACCAGAGCGCGCAGGCCTGGACCGGCAATCTGTTCGCACAGCTCAAGCGCGACGCGAGCAGCGATCCGTCCTCCAGCACTGCCACCGGGACCGCTACCTACCTGGGCGCAGCACTCTGGACCCGTGACGAGCCTTACACCAAGGTTTCCATGAAGGACATGGACAAGCAGTCCTACAAGGAGACCGTTCAGGGTGGCTGGGTCGCCTGGCTGCAGCATTACTTCGTCACGGCCTGGGTTCCTTCCAAGGAGGACAGCAACCTGGTTCAGACCCGCAAGGATAGTCAGGGCAACTACATCATTGGTTTCACCGGCCCGGCGCTGAACGTGCCTGCCGGCGCAAGCGCCGAAACCGGCGCAACGCTGTATGCCGGTCCGAAGATCCAGGGCAAGCTGGCTCAGTTGTCTCCCGGCCTCGAACTGACCGTCGACTATGGCTTCCTCTGGTTCATCGCCCAGCCGATTTTCTGGCTGCTGGAACATATCCACAGCCTGCTCGGTAACTGGGGCTGGTCGATCATCGTATTGACCATCCTGATCAAGATGGCGTTCTTCCCCCTGTCCGCAGCCAGCTACAAGTCGATGGCACGCATGCGTGCCGTCTCGCCGAAGTTGCAGGCGCTCAAGGAACAGTACGGCGACGATCGCCAGAAGATGTCCCAGGCGATGATGGAGCTGTACAAGAAGGAGAAGATCAACCCGCTGGGCGGCTGCCTGCCGATCCTCGTGCAGATGCCAGTGTTCCTCGCCCTGTACTGGGTACTGCTGGAAAGCGTGGAAATGCGCCAGGCACCCTGGATGTTCTGGATCACCGACCTGTCGATCAAAGATCCGTTCTTCATCCTGCCGATCATCATGGGTGCCACCATGTTCATCCAGCAGCAGCTCAACCCCACCCCGCCGGACCCGATGCAGGCCAAGGTGATGAAGCTGATGCCGATCATCTTCACCTTCTTCTTCCTCTGGTTCCCGGCCGGTCTGGTGCTGTACTGGGTCGTGAACAACGTCCTGTCGATCGCCCAGCAGTGGTACATTACCCGGCGCATCGAGAGCGCCACGAAGGCCTGA	MDIQRSILIVALAVVSYLMVLQWNQDYGQAALPTQSTAANSATPALPETPSSGKASDDVPTASGEHTDAANAPAVASNELIRVETDVLNLAIDPLGGDIVQLTLPQYPRRQDRPDVPFQLFDNGGERLYLAQSGLTGANGPDARANGRPLYSSEKREYRLAEGQDELVVELKFSEAGVDYTKRFILKRGQYDLGVSYRIENQSAQAWTGNLFAQLKRDASSDPSSSTATGTATYLGAALWTRDEPYTKVSMKDMDKQSYKETVQGGWVAWLQHYFVTAWVPSKEDSNLVQTRKDSQGNYIIGFTGPALNVPAGASAETGATLYAGPKIQGKLAQLSPGLELTVDYGFLWFIAQPIFWLLEHIHSLLGNWGWSIIVLTILIKMAFFPLSAASYKSMARMRAVSPKLQALKEQYGDDRQKMSQAMMELYKKEKINPLGGCLPILVQMPVFLALYWVLLESVEMRQAPWMFWITDLSIKDPFFILPIIMGATMFIQQQLNPTPPDPMQAKVMKLMPIIFTFFFLWFPAGLVLYWVVNNVLSIAQQWYITRRIESATKA	PGPT0024530_1681	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0024530-yidC|spoIIIJ|oxaA|ccfA-K03217	NA	NA
BMS010_08307	1368	mnmE_2	COG0486	tRNA modification GTPase MnmE	ATGACAGCCGTCCGCGAAACCATTGCCGCCATCGCCACTGCCCAAGGTCGTGGCGGTGTCGGGATCGTACGTGTGTCCGGCCCACTGGCCGTGGGCATGGCCAAAGACATCAGCGGCCGGGAACTGAAACCTCGCCATGCCCACTACGGCCCTTTCCTCGACGTGGATGGGCAGGTTCTCGACGAAGGAATCGCATTGCTCTTCCCGGGGCCGAATTCCTTCACCGGAGAAGACGTCTTGGAGCTTCAGGGCCACGGCGGCCCGGTGGTGCTCGACCTGTTGCTGCAGCGCTGTCTGCAACTGGGAGCGCGCCAGGCACGTCCCGGCGAATTCAGCGAACGCGCCTTCCTCAACGACAAACTGGATCTGGCCCAGGCGGAAGCCATCGCCGACCTGATCGAAGCCAGTTCCGAACAAGCTGCCCGTAACGCCCTCCGCTCCCTGCAGGGCGAATTTTCCCGTCGGATCCACGATCTGACGGAGCGGCTGATCGAACTTCGTATCTACGTCGAAGCGGCCATCGACTTCCCGGAGGAAGAGATCGACTTTCTCGCCGATGGCCATGTCCTCGGACTGCTGGATGGCGTTCGAACGAAGTTATCCACAGTTCTGCGCGAAGCGGGGCAAGGTGCCTTGCTGCGTGACGGAATGACGGTGGTCATCGCCGGCCGCCCGAATGCCGGCAAGTCGAGCCTCCTGAATGCACTGGCGGGGCGCGAAGCGGCCATCGTCACGGATATTGCCGGTACGACCCGGGATGTGCTGCGTGAACATATCCACATCGATGGTATGCCTCTGCATGTCGTCGATACCGCCGGCCTTCGCGATACCCAGGACCAAGTGGAGCGAATCGGCGTCGAGCGCGCGCTCAAGGCGATTTCCGAAGCCGACCGCATTCTGTTGGTCGTGGACGCTAGTGCCCCAGAAGCGGCTGATCCGTTCTCGCTTTGGCCGGAATTCCTCGACACGCGGCCGGACCCGGCCAAAGTCACCCTGATCCGTAACAAAGCCGACCTCACTGGCGAAAACATCGCGCTGGAAGTCAGCCAGGATCGCCATGTCACCCTCAGTCTCTCGGCGAAGTCCGGCGAAGGCCTGGAGTTGTTGCGGGACCATCTGAAGGCCTGCATGGGGTACGAACAGACCGCCGAAAGCAGCTTCAGCGCACGGCGGCGCCATCTCGAAGCCTTGCGCCAGGCAGGCACCTATCTGGACCATGGCCGCGATCAACTCACGCTGGCAGGGGCAGGTGAGCTGCTCGCCGAGGACCTGCGCCAGGCCCAGCAGGCACTGGGACAGATCACTGGGGCATTCAGCTCGGACGATCTGCTCGGTCGAATCTTCTCTAGCTTCTGCATCGGCAAGTAA	MTAVRETIAAIATAQGRGGVGIVRVSGPLAVGMAKDISGRELKPRHAHYGPFLDVDGQVLDEGIALLFPGPNSFTGEDVLELQGHGGPVVLDLLLQRCLQLGARQARPGEFSERAFLNDKLDLAQAEAIADLIEASSEQAARNALRSLQGEFSRRIHDLTERLIELRIYVEAAIDFPEEEIDFLADGHVLGLLDGVRTKLSTVLREAGQGALLRDGMTVVIAGRPNAGKSSLLNALAGREAAIVTDIAGTTRDVLREHIHIDGMPLHVVDTAGLRDTQDQVERIGVERALKAISEADRILLVVDASAPEAADPFSLWPEFLDTRPDPAKVTLIRNKADLTGENIALEVSQDRHVTLSLSAKSGEGLELLRDHLKACMGYEQTAESSFSARRRHLEALRQAGTYLDHGRDQLTLAGAGELLAEDLRQAQQALGQITGAFSSDDLLGRIFSSFCIGK				NA	NA	NA	NA	NA
BMS010_08308	1893	mnmG_2	COG0445	tRNA uridine 5-carboxymethylaminomethyl modification enzyme MnmG	GTGGATTTTCCTTCCCGTTTTGACGTGATCGTGATCGGCGGCGGTCATGCCGGTACCGAAGCTGCGCTCGCGGCTGCACGCATGGGCGTGAAAACTCTGCTGCTGACCCACAACGTGGAAACCCTCGGGCAGATGAGCTGTAACCCTGCCATCGGTGGCATCGGCAAGAGCCATCTGGTGAAGGAGATCGATGCGCTCGGCGGCGCCATGGCGACAGCCACGGACAAAGGCGGCATCCAGTTCCGAGTACTCAACAGCCGCAAGGGGCCCGCAGTACGTGCGACTCGTGCCCAGGCTGATCGGGTGCTCTACAAGGCAGCGATCCGGCAGGTTCTGGAAAACCAGCCGAATCTGTGGATATTTCAGCAGGCAGCCGACGATCTGATTGTGGAAAACGATCAGGTCCGCGGTGTCGTAACCCAGATGGGACTGCGCTTCTTCGCTGAATCCGTGGTGCTGACCACTGGCACTTTCCTCGGTGGACTTATCCACATCGGACTGCAGAATTATTCAGGCGGCCGGGCCGGCGACCCGCCGTCCATTGCCCTTGCCCAACGTTTGCGCGAACTGCCATTGCGCGTCGGTCGCTTGAAGACGGGAACCCCGCCGCGTATCGACGGCCGTACCGTGGATTTTTCCGTGATGACCGAGCAGCCGGGCGACACACCGATCCCGGTCATGTCGTTCCTCGGTTCGAAGGAACAGCATCCGCAGCAGATCAGTTGCTGGATCACCCATACCAATGCGCGGACGCACGAAATCATCGCCGCCAACCTGGATCGTTCGCCGATGTATTCCGGCGTGATCGAAGGGGTCGGTCCGCGTTATTGCCCGTCGATCGAGGACAAGATTCATCGCTTTGCCGACAAGGACAGCCACCAGGTCTTCCTCGAGCCGGAGGGTTTGACGACGAACGAGCTGTATCCCAACGGGATCTCCACCTCGCTGCCGTTCGACGTGCAGTTGCAGATCGTGCGCAGCATCCGTGGCATGGAGAACGCCCACATCGTGCGCCCAGGCTATGCCATCGAATACGACTACTTCGATCCGCGCGACCTCAAATACAGCCTGGAAACCAAGGTCATCGACGGCCTGTTCTTCGCCGGCCAGATCAACGGCACCACGGGCTATGAAGAGGCCGGTGCCCAGGGATTGCTCGCGGGCGCCAACGCGGCACTGCGGGCGCTCGGCAAGGACAGCTGGTGTCCGCGCCGCGACGAGGCCTACATCGGCGTGCTGGTGGACGATCTGATCACCCTCGGCACCCAGGAGCCCTATCGCATGTTCACGTCGCGCGCCGAATACCGGCTGATCCTGCGCGAAGACAACGCGGACCTGCGTCTGACTGAAAAGGGCCGCGAGCTGGGGTTGGTGGATGATGCGCGCTGGGCGGCATTCTGCGCCAAGCGGGAAGGCATCGAGCGGGAAGAGCAGCGCCTCAAGAACACCTGGGTCCGTCCCGGCACGCCGGAGGGCGAGGCCATTGCTTCGCGATTCGGCACGCCCCTGACCCATGAATACAACCTGCTCAGCCTGCTCAGCCGGCCGGAGATCGACTATGCCGGGTTGGCCGAGGTGACCGGCGAGGGCGCGGATGATCCGCAAGTCGCCGAGCAGGTCGAGATCAAGACCAAGTACGCCGGCTATATCGATCGCCAGCAGGAAGAGATTCAGCGCCTGCGTGCGAGTGAGAATACCCGTCTGCCGCAGGACCTGGACTACAGCACCATTTCCGGGCTGTCCAAGGAGATCCAGCATAAGCTCGGCCAGGCTCGTCCCGAGACACTTGGCCAAGCCTCGCGCATTCCGGGCGTGACGCCGGCGGCCATTTCCCTGCTGTTGATCCACCTGAAGAAGCGGGGCGCTGGGCGCCAGTTGGAGCAGAGCGCCTGA	MDFPSRFDVIVIGGGHAGTEAALAAARMGVKTLLLTHNVETLGQMSCNPAIGGIGKSHLVKEIDALGGAMATATDKGGIQFRVLNSRKGPAVRATRAQADRVLYKAAIRQVLENQPNLWIFQQAADDLIVENDQVRGVVTQMGLRFFAESVVLTTGTFLGGLIHIGLQNYSGGRAGDPPSIALAQRLRELPLRVGRLKTGTPPRIDGRTVDFSVMTEQPGDTPIPVMSFLGSKEQHPQQISCWITHTNARTHEIIAANLDRSPMYSGVIEGVGPRYCPSIEDKIHRFADKDSHQVFLEPEGLTTNELYPNGISTSLPFDVQLQIVRSIRGMENAHIVRPGYAIEYDYFDPRDLKYSLETKVIDGLFFAGQINGTTGYEEAGAQGLLAGANAALRALGKDSWCPRRDEAYIGVLVDDLITLGTQEPYRMFTSRAEYRLILREDNADLRLTEKGRELGLVDDARWAAFCAKREGIEREEQRLKNTWVRPGTPEGEAIASRFGTPLTHEYNLLSLLSRPEIDYAGLAEVTGEGADDPQVAEQVEIKTKYAGYIDRQQEEIQRLRASENTRLPQDLDYSTISGLSKEIQHKLGQARPETLGQASRIPGVTPAAISLLLIHLKKRGAGRQLEQSA				NA	NA	NA	NA	NA
BMS010_08309	648	rsmG_2	COG0357	Ribosomal RNA small subunit methyltransferase G	ATGAGCCTGGTAACCTCCCGCCACGCCGAGGAACTCGCGCGTGGCGCGCACGAACTTGGAATCGAGCTCAGCGACAGCCAGCAGCAACGTCTGCTGGGCTACCTCGGCCTGCTGATCAAATGGAACAAGGCCTACAACCTCACCGCAGTGCGCGATCCGGACGAGATGGTTTCCCGTCACCTGCTCGACAGCCTGAGTGTGGTGCCTTACGTCGCTGAGAGTGGGGACAACTGGCTGGACGTCGGTAGCGGCGGCGGGATGCCGGGTATTCCGCTGGCAATCCTGTTTCCACAGCGCCATTTCACGTTGCTGGATTCGAATGGGAAGAAAACCCGATTCCTCACCCAGGTGAAACTGGAGCTGAAGCTCGATAACCTCGAAGTTATCCACAGCCGGGTCGAGGCGTTTACGCCGGCCAGACCCTTCGACGGTATCTGCTCGCGTGCTTTCAGCGCCTTGCAGGACTTCGCCAACTGGACGCGTCATCTGGGCAGCGAGGCCACCCGCTGGCTGGCCATGAAGGGCGTACACCCGGACGACGAGCTGCAGGCCCTGCCAGAGGACTTCCGACTGGAACGGACGCACGTCCTCAAGGTTCCCGGTTGCCAAGGCCAGCGCCATCTGCTGATACTGCGCCGCACGGCTTAA	MSLVTSRHAEELARGAHELGIELSDSQQQRLLGYLGLLIKWNKAYNLTAVRDPDEMVSRHLLDSLSVVPYVAESGDNWLDVGSGGGMPGIPLAILFPQRHFTLLDSNGKKTRFLTQVKLELKLDNLEVIHSRVEAFTPARPFDGICSRAFSALQDFANWTRHLGSEATRWLAMKGVHPDDELQALPEDFRLERTHVLKVPGCQGQRHLLILRRTA				NA	NA	NA	NA	NA
BMS010_08310	789	parA_2		Chromosome partitioning protein ParA	ATGGCCAAGGTATTCGCGATCGCCAATCAGAAGGGCGGTGTGGGCAAGACCACCACCTGCATCAACCTGGCCGCTTCCCTGGTCGCGACCAAGCGACGGGTGCTGCTCATCGACCTGGACCCGCAAGGCAATGCCACCATGGGCAGCGGTGTGGATAAACAGGCACTGGAGCATTCGATCTACGACGTGTTGATCGGCGAATGCAGCCTGGTCGATGCCATGCAGTTCTCCGAGCATGGCGGCTACCAGCTCCTGCCGGCGAACCGCGATCTGACCGCGGCGGAAGTCGCCCTGCTGGAAATGAAGATGAAGGAGAGCCGGTTGCGCTATGCGCTGGCTCCCATTCGCGAAAACTACGACTACATCCTGATCGACTGCCCACCGTCGCTGTCGATGCTGACGGTCAACGCACTGGTTGCTGCTGACGGTGTGATCATCCCGATGCAGTGCGAGTACTACGCCTTGGAAGGTTTGTCCGACCTGGTCAATACCATCCAGCGTATCGGCAAGCTGCTCAACCCGACGCTGAAGATAGAAGGTCTGCTGCGCACCATGTACGACCCGCGGATCAGCCTGACCAACGACGTCTCCGCGCAGCTCAAGGAACATTTCGGCGATCAGCTCTATCAGACCGTGATTCCGCGCAACGTACGTCTCGCGGAGGCGCCCAGCTTCGGCATGCCGGCGCTGGTCTACGACAAGCAATCCCGTGGTGCGATCGCCTATCTGGCACTGGCCGGCGAACTGGTCCGCCGGCAGCGTGCGAACGCCGCCACCGTTACCGCATAA	MAKVFAIANQKGGVGKTTTCINLAASLVATKRRVLLIDLDPQGNATMGSGVDKQALEHSIYDVLIGECSLVDAMQFSEHGGYQLLPANRDLTAAEVALLEMKMKESRLRYALAPIRENYDYILIDCPPSLSMLTVNALVAADGVIIPMQCEYYALEGLSDLVNTIQRIGKLLNPTLKIEGLLRTMYDPRISLTNDVSAQLKEHFGDQLYQTVIPRNVRLAEAPSFGMPALVYDKQSRGAIAYLALAGELVRRQRANAATVTA				NA	NA	NA	NA	NA
BMS010_08311	873	parB_2	COG1475	putative chromosome-partitioning protein ParB	ATGGCCGCCAAGAAAAGAGGGCTCGGACGAGGCTTGGACGCCTTGCTGGGGGGAACCAGCGTCACTGCCCTGGAAGAGGAAGCTGCGAAAAGCGGCGACCGCGAACTGCAACACCTGCCACTGGACCTGATCCAGCGGGGCAAGTACCAGCCTCGCCGTGATATGGACCCTGCTGCGTTGGAAGAACTGGCCCAGTCGATCAAGGCCCAGGGCGTAATGCAGCCGATCGTGGTCAGGCCGATCGGCGGGGGCCGCTACGAGATCATCGCCGGCGAGCGTCGCTGGCGGGCGAGCCAGCAGGCCGGCCTGGACAGGATTCCGGCGATGGTTCGCGAAGTGCCGGACGAAGCGGCGATCGCCATGGCCCTGATCGAAAATATCCAGCGCGAGGACCTCAACCCCATCGAGGAAGCCGTCGCGCTGCAACGGCTGCAACAGGAATTCCAACTGACTCAGCAACAAGTCGCCGAGGCCGTTGGTAAATCCCGGGTCACCATCACCAACCTCCTGCGCCTGATCTCTCTGCCGGACGAGATCAAGACCCTGCTCGCCCATGGCGACCTGGAGATGGGACATGCACGGGCCCTGCTCGGATTGCCGCCGGAACAGCAGGTCGAAGGGGCGCGACATGTTGTCGCACGTGGTCTGACTGTCCGACAAACCGAGGCGTTGGTGCGCCAGTGGTTGAATGCCAAGGAAAAGCCTGCCGACAAAGCAAAGGCCGACCCGGACATCGCCCGCCTGGAACAGCGCCTCGCAGAGCGGCTGGGCTCCCCGGTTCAGATCAAGCACGGCCAGAAAGGCAAGGGACAGCTGGTCATTCGCTACAACTCGCTGGACGAGTTGCAAGGCGTTCTCGCTCACATCCGCTAA	MAAKKRGLGRGLDALLGGTSVTALEEEAAKSGDRELQHLPLDLIQRGKYQPRRDMDPAALEELAQSIKAQGVMQPIVVRPIGGGRYEIIAGERRWRASQQAGLDRIPAMVREVPDEAAIAMALIENIQREDLNPIEEAVALQRLQQEFQLTQQQVAEAVGKSRVTITNLLRLISLPDEIKTLLAHGDLEMGHARALLGLPPEQQVEGARHVVARGLTVRQTEALVRQWLNAKEKPADKAKADPDIARLEQRLAERLGSPVQIKHGQKGKGQLVIRYNSLDELQGVLAHIR	PGPT0014815_6859	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014815-parB|spo0J|yyaA-K03497	NA	NA
BMS010_08312	408			hypothetical protein	ATGGAAAACCGCGCGCCAAACCGCCTGCCTTTCCATCGAACGCCGGCACTCCCGGTCCTGCTCGTGCAATTGGTCGTGTTGCTGCTCGCCGCAGTCGTTCTCTGGCAGTGGCGGGGAATGGTGTCAGGTTATTCTGGGCTGTGCGGCGGGTTGATCGCCTGGCTACCCAACGTGTACTTCGCCCATAAGGCGTTCCGATTCAGTGGGGCGCGGGCTGCGCAAAACATCGTCCGGTCCTTTTATGCCGGCGAAGCGGGAAAACTGATTCTGACGGCAGTGCTGTTCGCACTGACGTTCGCAGGCGTGAAGCCACTGGAGGCGCCGGCCGTGTTCGGCGTCTTTCTCCTGACCCTGATGGTCAGTTGGTTCGCTCCCCTGCTGATGAGAACAAGACTTTCGAGACCTTAG	MENRAPNRLPFHRTPALPVLLVQLVVLLLAAVVLWQWRGMVSGYSGLCGGLIAWLPNVYFAHKAFRFSGARAAQNIVRSFYAGEAGKLILTAVLFALTFAGVKPLEAPAVFGVFLLTLMVSWFAPLLMRTRLSRP	PGPT0030480_737	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-ATP_SYNTHASE_ACITIVTY,PGPT0030480-atpI-K02116
BMS010_08313	867	atpB_3	COG0356	ATP synthase subunit a	ATGGCAGCAGAAACCGCTTCGGGCTATATCCAGCACCACTTGTCGAACCTGACCTATGGGCAACACCCGGTCAACGGCTGGAGCTTCGCCCACACCGCACAGGAAGCCAAAGAAATGGGCTTCTGGGCATTCCATGTGGACACCCTGGCGGTTTCCGTGGTGCTCGGCCTGCTTTTCATCTTCCTGTTCCGTGCAGCCGCCAAGCGCGCCACTTCCGGGCAGCCAGGCGCCCTGCAGAACTTCGTCGAAGTGATGGTCGAGTTCGTCGACGGCAGCGTGAAGGATACCTTCCACGGCCGTAACGCCCTCATCGCTCCGCTGGCCCTGACCATCTTCGTCTGGGTCTTCCTGATGAACTTCATGGACCTCATCCCGGTGGACTGGCTGCCGAAAGTGGCTGCCACCCTTGCCGGCGACGAGCACCTGTTCTTCCGCGTGGTACCGACCACCGACCCGAACGCTACGCTCGGCCTGGCCCTGTCGGTCTTCGCCCTGATCCTCTTCTACAGCATCAAGGTCAAGGGTATCGGCGGCTTCCTCGGCGAGCTGACCCTGCACCCGTTCGGCAGCAAGAACGTCGTGGTCCAGGCCCTGCTGGTCCCGGTCAACTTCCTGCTCGAATTCGTGACCCTGATCGCCAAGCCGGTCTCTCTGGCTCTGCGTCTCTTCGGTAACCTGTACGCCGGCGAGCTGATCTTCATCCTGATCGCCATCATGTTCGGCGGCGGCCTGCTGCTTGGCGCACTGGGTATCGCACTGCAGTGGGCGTGGGCAGTGTTCCACATCCTGATCATCGTGCTGCAGGCGTTCATCTTCATGATGCTGACCATCGTCTATCTGTCGATGGCCCATGAAGACAATCACTGA	MAAETASGYIQHHLSNLTYGQHPVNGWSFAHTAQEAKEMGFWAFHVDTLAVSVVLGLLFIFLFRAAAKRATSGQPGALQNFVEVMVEFVDGSVKDTFHGRNALIAPLALTIFVWVFLMNFMDLIPVDWLPKVAATLAGDEHLFFRVVPTTDPNATLGLALSVFALILFYSIKVKGIGGFLGELTLHPFGSKNVVVQALLVPVNFLLEFVTLIAKPVSLALRLFGNLYAGELIFILIAIMFGGGLLLGALGIALQWAWAVFHILIIVLQAFIFMMLTIVYLSMAHEDNH	PGPT0014303_850	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014303-atpB-K02108	NA	NA
BMS010_08314	258	atpH_2		ATP synthase subunit c	ATGGAAACTGTAGTTGGTCTGACCGCTATCGCCGTTGCACTGCTGATTGGCCTGGGTGCCCTGGGTACCGCCATTGGTTTCGGTCTGCTGGGCGGCAAGTTCCTGGAAGGCGCTGCGCGTCAGCCGGAAATGGTCCCGATGCTGCAAGTGAAGATGTTCATCGTCGCCGGTCTGCTCGACGCCGTGACCATGATTGGCGTGGGTATCGCCCTGTTCTTCACCTTCGCGAACCCCTTCGTTGGTCAAATCGCCGGCTGA	METVVGLTAIAVALLIGLGALGTAIGFGLLGGKFLEGAARQPEMVPMLQVKMFIVAGLLDAVTMIGVGIALFFTFANPFVGQIAG	PGPT0014302_988	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014302-atpE-K02110	NA	NA
BMS010_08315	471	atpF_3	COG0711	ATP synthase subunit b	GTGAACATTAATGCAACCCTGATTGGCCAGTCCGTTGCCTTCTTCATCTTCGTGCTGTTCTGCATGAAGTTCGTGTGGCCTCCGGTCATCACGGCTCTGCGCGAACGCCAGAAGAAGATCGCTGACGGCCTGGACGCTGCCAATCGCGCGGCTCGTGACCTGGAGCTGGCTCAAGACAAAGTGAGCCAGCAACTGCGCGAGGCGAAGAGCCAGGCAGCCGAGATCATCGAGCAGGCGAAGAAGCGCGCGAACCAGATCGTCGACGAGGCCCGTGAACAGGCCCGTACCGAGGCGGATCGCGTGAAAGCGCAAGCTCAAGCCGAGATCGAACAGGAACTCAACAGCGTCAAGGACGCCCTGCGTGCCCAACTGGGTGCTCTGGCCGTTGGCGGTGCCGAGAAGATCCTGGGCGCCACTATCGATCAAAACGCGCATGCGGAGCTGGTTAACAAACTGGCCGCCGAAATCTAA	MNINATLIGQSVAFFIFVLFCMKFVWPPVITALRERQKKIADGLDAANRAARDLELAQDKVSQQLREAKSQAAEIIEQAKKRANQIVDEAREQARTEADRVKAQAQAEIEQELNSVKDALRAQLGALAVGGAEKILGATIDQNAHAELVNKLAAEI	PGPT0014301_5285	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014301-atpF-K02109	NA	NA
BMS010_08316	537	atpH_3	COG0712	ATP synthase subunit delta	ATGGCAGAACTGACCACGCTGGCCCGACCTTACGCCAAGGCTGCCTTCGAGTACGCCCAGGCCCATCAGCAGCTGGCCGCCTGGTCGGCCATGCTCGGCCTGGCTGCGGCGGTGTCGCAAGACGACACCATGCAGCGCGTACTCAAGGCCCCGCGTCTGACGAGTGCACAGAAGGCCGCCTCCTTTGTCGAGGTGTGCGGCGACAAGTTCGACGCCCAGGCACAGAACTTCATCCACGTTCTCGCCGAGAACGAGCGTCTCCTGCTTTTGCCGGAGATTGCCGAACTGTTCGAGCTATACAAGGCCGAGCAGGAAAAGTCGGTGGACGTGGAAGTGACCAGTGCCTTCGCATTGAGCGCAGAACAGCAAGACAAACTCGCCAAGGTTCTCAGCGCACGGCTCAGCCGGGAAGTGCGTCTGCACGCCGCGGAGGACGCCAGCCTTATCGGTGGTGTCGTGATCCGCGCCGGCGACCTGGTTATCGATGGCTCGGTTCGCGGCAAGCTCGCGAAACTGGCCGAAGCGTTGAAATCTTGA	MAELTTLARPYAKAAFEYAQAHQQLAAWSAMLGLAAAVSQDDTMQRVLKAPRLTSAQKAASFVEVCGDKFDAQAQNFIHVLAENERLLLLPEIAELFELYKAEQEKSVDVEVTSAFALSAEQQDKLAKVLSARLSREVRLHAAEDASLIGGVVIRAGDLVIDGSVRGKLAKLAEALKS	PGPT0014299_3258	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014299-atpH-K02113	NA	NA
BMS010_08317	1545	atpA_2		ATP synthase subunit alpha	ATGCAGCAACTCAATCCTTCCGAAATTAGTGAAATCATCAAGGGGCGTATCGAGAAACTCGACGTCTCTTCCCAAGCCCGTAACGAAGGCACCATCGTTTCCGTCTCCGACGGTATCGTGCGCATCTACGGCCTGGCCGACGTGATGTACGGCGAGATGATCGAGTTCCCCGGCGGCGTCTACGGTATGGCGCTGAACCTGGAACAAGACTCCGTCGGCGCCGTCGTCCTGGGTAGCTACCTCGGCCTGCAAGAAGGCATGAGCGCCAAGTGCACCGGCCGCATCCTCGAAGTTCCGGTCGGTCCGGAGCTGCTGGGTCGCGTAGTCGATGCCCTGGGTAACCCGATCGATGGCAAAGGCCCGATCAATGCTCAAGCCACCGACGCTGTCGAGAAGGTCGCTCCGGGCGTGATCTGGCGTAAGTCGGTCGACCAGCCGGTACAGACCGGCTACAAGTCGGTCGACGCCATGATCCCGGTCGGCCGTGGCCAGCGCGAGCTGATCATCGGTGACCGTCAGATCGGTAAGACCGCCCTGGCCGTTGACGCCATCATCAACCAGAAGAACAGCGGCATCCGCTGCGTCTACGTGGCTATCGGTCAGAAGCAGTCGACCATCGCCAACGTCGTACGCAAGCTGGAAGAGAACGGCGCACTGGCCAACACCATCGTGGTGGCTGCGTCCGCTTCCGAATCCGCTGCGTTGCAGTTCCTGGCTCCGTATGCCGGCTGCACCATGGGCGAATACTTCCGCGATCGCGGCGAAGACGCGCTGATCGTCTATGACGATCTGTCCAAGCAGGCCGTGGCTTACCGCCAGATCTCCCTGCTGCTGCGCCGTCCGCCGGGACGTGAAGCCTACCCGGGCGACGTGTTCTATCTCCACAGCCGTCTGCTGGAGCGCGCTTCCCGCGTTTCCGAAGAGTATGTCGAGAAGTTCACCAATGGCGCCGTGACTGGCAAGACCGGTTCCCTGACCGCTCTGCCGATCATCGAAACCCAGGCCGGCGACGTTTCCGCGTTCGTTCCGACCAACGTGATTTCCATCACCGACGGTCAGATCTTCCTGGAATCGGCCATGTTCAACTCGGGCATCCGTCCGGCGGTCAACGCTGGTATTTCGGTATCCCGCGTAGGTGGTGCCGCGCAGACCAAGATCATCAAGAAGCTTTCCGGTGGTATCCGTACCGCCCTGGCCCAGTACCGTGAACTGGCGGCTTTCGCCCAGTTCGCATCGGACCTGGACGAGGCCACCCGCAAGCAGCTCGAGCATGGTCAGCGCGTTACCGAGCTAATGAAGCAGAAGCAATACGCGCCGATGTCCATCGCCGAAATGTCGCTGTCGCTGTATGCCGCCGAGCGTGGCTTCCTGACCGACATCGAACTGGCGAAGGTCGGCAGCTTCGAAGCTGCGCTGATTGCTTACTTCAACCGTGATCACGCCGATCTGATGGCGAAGATCAACGAGAAGGGTGACTTCAACGACGAGATCGACGCTGGCATCAAGGCCGGTATCGAGAAGTTCAAGGCCACCCAAACCTGGTAA	MQQLNPSEISEIIKGRIEKLDVSSQARNEGTIVSVSDGIVRIYGLADVMYGEMIEFPGGVYGMALNLEQDSVGAVVLGSYLGLQEGMSAKCTGRILEVPVGPELLGRVVDALGNPIDGKGPINAQATDAVEKVAPGVIWRKSVDQPVQTGYKSVDAMIPVGRGQRELIIGDRQIGKTALAVDAIINQKNSGIRCVYVAIGQKQSTIANVVRKLEENGALANTIVVAASASESAALQFLAPYAGCTMGEYFRDRGEDALIVYDDLSKQAVAYRQISLLLRRPPGREAYPGDVFYLHSRLLERASRVSEEYVEKFTNGAVTGKTGSLTALPIIETQAGDVSAFVPTNVISITDGQIFLESAMFNSGIRPAVNAGISVSRVGGAAQTKIIKKLSGGIRTALAQYRELAAFAQFASDLDEATRKQLEHGQRVTELMKQKQYAPMSIAEMSLSLYAAERGFLTDIELAKVGSFEAALIAYFNRDHADLMAKINEKGDFNDEIDAGIKAGIEKFKATQTW	PGPT0014298_1858	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014298-atpA-K02111	NA	NA
BMS010_08318	861	atpG_2	COG0224	ATP synthase gamma chain	ATGGCAGGCGCAAAAGAGATTCGCAGCAAGATTGCGAGCATCAAAAGCACGCAGAAGATCACCAGCGCCATGGAAAAGGTGGCGGTCAGCAAGATGCGCAAGGCACAAATGCGCATGGCTGCCAGCCGTCCCTATGCCGAGCGCATCCGTCAGGTGATCGGTCATCTGGCCAATGCCAACCCGGAATACCGTCACCCGTTCATGATCGAGCGCGACGTCAAGCGCGCCGGTTACATCGTGGTGAGTTCGGACCGTGGTCTGTGCGGCGGCTTGAATACTAACCTGTTCAAGGCCCTGATCAAGGACATGGCAGGTTTCCGTGAGCAAGGCGTAGAGGTCGACCTCTGCGTGATCGGCAGCAAGGGCGCATCGTTCTTCCGTAATTTCGGTGGGAACGTCGTCGCTGCCATCAGCCACCTGGGCGAAGAGCCGTCGATCAACGATCTGATCGGCAGCGTCAAGGTGATGCTGGATGCTTACCTGGATGGCCGTATCGATCGCCTGTACGTGGTCTCCAACAAGTTCGTCAACACCATGACGCAGAAGCCGACTGTGGAACAACTGGTTCCGCTGGTGGCCGATGAGAGCCAGGAGCTCAAGCACCACTGGGACTACCTCTACGAACCCGATGCCAAGCAGCTGCTCGAAGGCCTGCTGGTACGCTACGTGGAATCGCAGGTCTACCAGGCGGTGGTCGAGAACAACGCTGCCGAACAGGCGGCGCGGATGATCGCGATGAAGAACGCTACCGACAACGCCGGCCAGCTGATCAGTGATTTGCAACTGATCTACAACAAGGCGCGTCAGGCTGCGATCACTCAGGAAATCTCGGAAATCGTCGGCGGCGCTGCCGCGGTGTAA	MAGAKEIRSKIASIKSTQKITSAMEKVAVSKMRKAQMRMAASRPYAERIRQVIGHLANANPEYRHPFMIERDVKRAGYIVVSSDRGLCGGLNTNLFKALIKDMAGFREQGVEVDLCVIGSKGASFFRNFGGNVVAAISHLGEEPSINDLIGSVKVMLDAYLDGRIDRLYVVSNKFVNTMTQKPTVEQLVPLVADESQELKHHWDYLYEPDAKQLLEGLLVRYVESQVYQAVVENNAAEQAARMIAMKNATDNAGQLISDLQLIYNKARQAAITQEISEIVGGAAAV	PGPT0014297_4213	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014297-atpG-K02115	NA	NA
BMS010_08319	1377	atpD_2	COG0055	ATP synthase subunit beta	ATGAGTAGCGGACGTATCGTTCAAATCATCGGCGCCGTTATCGACGTGGAATTCCCGCGTGATCAGGTGCCGAACGTTTATGACGCGCTGAAGGTCGTGGGCGCGGAAACCACCCTGGAAGTCCAGCAGCAGCTGGGTGACGGCATTGTCCGTTCCATCGCCATGGGTTCCACCGAAGGCCTCAAGCGTGGCCTGGACGTGACCAACACTGGCGCTGCCATCTCCGTTCCGGTCGGCAAGGCGACCCTGGGCCGGATCATGGACGTACTGGGTAACCCGATCGACGAAGCCGGTCCCATCGGCGAGGAAGAGCGCTGGGGTATCCACCGCGCTGCACCGTCCTATGCGGACCAGGCTGGCGGCAACGAGCTGCTGGAAACCGGCATCAAAGTGATCGACTTGGTATGCCCGTTCGCCAAGGGCGGTAAGGTCGGCCTGTTCGGCGGCGCCGGCGTGGGCAAGACCGTGAACATGATGGAGCTGATCCGTAACATCGCCATCGAGCACAGCGGTTATTCCGTGTTCGCCGGTGTGGGTGAGCGTACTCGTGAGGGTAACGACTTCTACCACGAGATGAAGGACTCCAACGTTCTCGACAAAGTGGCCCTGGTCTATGGCCAGATGAACGAGCCGCCGGGCAACCGTCTGCGTGTGGCACTGACCGGCCTGACCATGGCCGAGAAGTTCCGTGACGAAGGCCGCGACGTTCTGCTGTTCGTCGACAACATCTACCGTTACACCCTGGCCGGTACCGAAGTGTCCGCGCTGCTGGGCCGTATGCCGTCCGCGGTGGGCTACCAGCCGACTCTGGCCGAGGAAATGGGCGTTCTGCAGGAGCGCATCACCTCCACCAAGACCGGTTCGATCACCTCGATCCAGGCCGTATACGTACCTGCGGACGACCTGACCGACCCGAGCCCGGCGACCACCTTCGCCCACTTGGACGCCACCGTGGTTCTGTCCCGCGACATCGCCTCCCTGGGTATCTACCCGGCGGTCGATCCGCTCGACTCCACTTCGCGTCAGTTGGACCCGAACGTGATCGGTCAGGATCACTACGAGACCGCTCGCGGCGTGCAGTACGTACTGCAGCGCTACAAGGAGCTGAAGGACATCATCGCGATCCTCGGTATGGACGAACTGTCCGAAGCCGACAAGCAGCTGGTATCCCGCGCTCGTAAGATCCAGCGTTTCCTGTCGCAGCCGTTCTTCGTGGCGGAAGTCTTCACCGGCTCCCCGGGCAAGTACGTTTCCCTGAAGGACACCATCGCGGGCTTCAAGGGCATCCTCAACGGCGACTACGATCACCTGCCGGAGCAGGCGTTCTACATGGTCGGCGGCATCGAAGAAGCCATCGAAAAAGCCAAGAAGCTGTAA	MSSGRIVQIIGAVIDVEFPRDQVPNVYDALKVVGAETTLEVQQQLGDGIVRSIAMGSTEGLKRGLDVTNTGAAISVPVGKATLGRIMDVLGNPIDEAGPIGEEERWGIHRAAPSYADQAGGNELLETGIKVIDLVCPFAKGGKVGLFGGAGVGKTVNMMELIRNIAIEHSGYSVFAGVGERTREGNDFYHEMKDSNVLDKVALVYGQMNEPPGNRLRVALTGLTMAEKFRDEGRDVLLFVDNIYRYTLAGTEVSALLGRMPSAVGYQPTLAEEMGVLQERITSTKTGSITSIQAVYVPADDLTDPSPATTFAHLDATVVLSRDIASLGIYPAVDPLDSTSRQLDPNVIGQDHYETARGVQYVLQRYKELKDIIAILGMDELSEADKQLVSRARKIQRFLSQPFFVAEVFTGSPGKYVSLKDTIAGFKGILNGDYDHLPEQAFYMVGGIEEAIEKAKKL	PGPT0014296_4653	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014296-atpD-K02112	NA	NA
BMS010_08320	426	atpC_2	COG0355	ATP synthase epsilon chain	ATGGCTATGACAGTCCATTGCGATATCGTCAGCGCAGAAGGCGAAATCTTCTCCGGTCTGGTCGAGATGGTGGTCGCGCACGGCAACCTGGGTGATCTGGGTATCGCGCCGGGCCACGCACCGCTGATCACCGACCTGAAGCCGGGCCCGATCCGCCTGATCAAGCAGGGCGGCGAGGCGGAGGTGTACTACATCTCCGGCGGCTTCCTGGAAGTGCAGCCGAACATGGTGAAGGTGCTTGCCGACACCGTTCAGCGCGCGGCCGATATCGACGAAGCTGCGGCTCAGGAGGCCCTCAAGGCCGCCGAGAAGGCGCTGCACGAGAAGGGCGCGGAGTTCGACTACGGTTCCGCCGCCGCTCACCTGGCGGAAGTCGCAGCCCAGCTGCGTACCGTCCAGCAGATGCGCAAGAAGTTCGGCGGCTGA	MAMTVHCDIVSAEGEIFSGLVEMVVAHGNLGDLGIAPGHAPLITDLKPGPIRLIKQGGEAEVYYISGGFLEVQPNMVKVLADTVQRAADIDEAAAQEALKAAEKALHEKGAEFDYGSAAAHLAEVAAQLRTVQQMRKKFGG	PGPT0014295_658	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014295-atpC-K02114	NA	NA
BMS010_08321	1362	glmU_2		Bifunctional protein GlmU	ATGTCCCTCGATATCGTCATTCTCGCCGCTGGCCAAGGCACCCGCATGCGCTCCTCCCTGCCCAAGGTGCTGCATCCCGTAGCCGGAAAACCTATGCTGGGCCACGTCATCGACACGGGTCGCCAACTGTCTCCGCAGGGAATCCATGTGGTGATCGGGCATGGTGCCGACGAGGTCCGGGAACGGTTAGCTGCGGACGATCTGAATTTCGTCCTGCAGAGCGAACAACTGGGCACCGGCCATGCCGTTGCCCAGGCGCTGCCGGCGTTGTCGGCCGAACGCGTGCTGATCCTCTATGGCGACGTGCCGTTGATCGAGGTGGAAACCCTGCGCCGCCTGCTGGAGAAAGTCGGGCCCGAGCAGATCGCGCTGCTCACCGTCGATCTCAACGACCCGACCGGTTACGGTCGCATCATTCGTGACGAGAACGGTGTGGTGAAAGCCATCGTCGAGCACAAGGATGCAACGCCCGCCCAACGGCAAATCTGCGAGGGCAATACCGGCATCCTCGCGGTACCGGGCAAGCGCCTGGCCGACTGGCTGGGGCGGCTTTCCAATGACAATGCCCAGGGCGAGTACTACCTGACCGACGTGATTGCGATGGCGGTGCAGGACGGTCTGGTGGTCGCCACCGAGCAGCCCGACGATGCGATGGAAGTGCAGGGTGCCAATGATCGCATCCAGCTTGCCGATCTGGAGCGTCATTACCAGCAACGCGCTGCCCGCCGCCTGATGACTCAGGGCGTGACGTTGCGCGACCCGTCTCGTTTCGATGTGCGCGGCGAGGTGACGGTGGGCCGCGACGTGCTGATCGACATCAACGTGATTCTCGAAGGCCGGGTGGTGATCGAGGAGGGTGTCGAGATCGGCCCGAACTGTGTGATTAAGGACAGCATCTTGCGTAAGGGTGCGGTGGTCAGGGCCAACAGCCACTTGGAAGGTGCCGAGATGGGCGAGGGGAGCGACTGCGGTCCGTTTGCCCGTCTGCGTCCCGGCACGGTGCTGGAGGCCAAGGCGCATGTGGGCAATTTCGTCGAACTGAAGAACGCGCGCATGGGCGCGGGCGCCAAGGCAGGTCACCTGAGCTACCTGGGCGATGCCGAGATCGGCGCGCGGACCAACATCGGCGCCGGGACCATCACCTGCAACTACGATGGCGCCAACAAGCACCGGACGGTTCTCGGCGAAGACGTATTCATCGGCTCCAATTCCGCGCTGGTCGCTCCCGTGACGCTAGGGAACGGCGCCACCACCGGGGCGGGCTCGACCATTACGGCCGATGTGCCCGCGGACAGCCTTGCCGTAGGACGTGCCCGCCAACGCAATATCGAAGGCTGGAAACGCCCTAAAAAGCAGCCATAA	MSLDIVILAAGQGTRMRSSLPKVLHPVAGKPMLGHVIDTGRQLSPQGIHVVIGHGADEVRERLAADDLNFVLQSEQLGTGHAVAQALPALSAERVLILYGDVPLIEVETLRRLLEKVGPEQIALLTVDLNDPTGYGRIIRDENGVVKAIVEHKDATPAQRQICEGNTGILAVPGKRLADWLGRLSNDNAQGEYYLTDVIAMAVQDGLVVATEQPDDAMEVQGANDRIQLADLERHYQQRAARRLMTQGVTLRDPSRFDVRGEVTVGRDVLIDINVILEGRVVIEEGVEIGPNCVIKDSILRKGAVVRANSHLEGAEMGEGSDCGPFARLRPGTVLEAKAHVGNFVELKNARMGAGAKAGHLSYLGDAEIGARTNIGAGTITCNYDGANKHRTVLGEDVFIGSNSALVAPVTLGNGATTGAGSTITADVPADSLAVGRARQRNIEGWKRPKKQP	PGPT0018955_3230	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-GLUCOSAMINE_MODIFICATION,PGPT0018955-glmU-K04042	NA	NA
BMS010_08322	771	srlR_2	COG1349	Glucitol operon repressor	ATGTCGAAACGCAACACTCCGCAACGTCGTCATGCCATTCTCGCCCTGCTCGCCGAGCAGAGCGAGGTGAGCGTGGACGAGCTGGCCAAGCGTTTCGCCACCTCCGAAGTCACCATTCGCAAGGACCTCGCCGCACTCGAGAAGAACGGCTTGCTGCTGCGTCGCTATGGCGGTGCGGTGCCCGTTCCCCACGAGCTGATCGGCGAAGATACCCAGCCGGTTTCCCCTTACAAGAAGGCCATCGCCCGTGCCGCCGCCGGGCGCATCCGCGAGCATGCGCGGATCATCATCGACAGCGGCAGCACCACCGCAGCGATGATCCCGGAGCTTGGCCACAAGCCTGGCCTGGTGGTGATGACCAATTCGCTGAACGTGGCCAATGCGCTGCGCGAGTTGGAACACGAACCGGTGCTGCTGATGACCGGCGGCACCTGGGACCCGCACTCGGAGTCGTTCCAGGGGCAGGTCGCCGAACAGGTCTTGCGCTCCTATGATTTCGACCAACTGTTCATCGGTGCCGATGGCATCGATCTCGAACGCGGCACCACCACCTTCAATGAATTGCTTGGACTCTCCCGCGTCATGGCCGAGGTCGCCCGGGAAGTCATCGTGATGGTCGAGGCCGACAAGGTTGGCCGCAAGATTCCCAATCTCGAGCTGCCTTGGAGCAGCGTCGATACCCTGATCACCGACGAACGCCTCCCGACCGAGGCGCGCGAACAGATAACGGCACGCGGCATCACCCTGCTCTGCGTCGCCGTGGAAGCCTGA	MSKRNTPQRRHAILALLAEQSEVSVDELAKRFATSEVTIRKDLAALEKNGLLLRRYGGAVPVPHELIGEDTQPVSPYKKAIARAAAGRIREHARIIIDSGSTTAAMIPELGHKPGLVVMTNSLNVANALRELEHEPVLLMTGGTWDPHSESFQGQVAEQVLRSYDFDQLFIGADGIDLERGTTTFNELLGLSRVMAEVAREVIVMVEADKVGRKIPNLELPWSSVDTLITDERLPTEAREQITARGITLLCVAVEA	PGPT0017955_158	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TAGATOSE_DEGRADATION,PGPT0017955-agaR-K02081	NA	NA
BMS010_08323	1851	glmS_2	COG0449	Glutamine--fructose-6-phosphate aminotransferase [isomerizing]	ATGTGTGGCATCGTTGGCGCCATTGCCGAACGCAACATCACCGCCATCCTGCTGGAAGGCTTGAAGCGTCTGGAATACCGCGGCTATGACAGTGCCGGTGTGGCCGTTCTGGACGAGGCCGGCCGGCTGCAGCGCCGCCGCCGCTCCGGCAAGGTGGCCGAACTGGAACAAGCGCTGAAGGATGAGCCCCTGGCCGGTCGCCTGGGCATTGCCCACACCCGTTGGGCCACCCACGGCGCACCGTGCGAACGCAATGCCCACCCTCACTTCTCCGGCGACGGCCTGGCGGTGGTGCACAACGGCATCATCGAAAACCACGAAGAACTGCGTATCCGCCTGAAAGGGTTGGGCTACACGTTCGTCTCCGACACCGATACCGAGGTGATCGTCCACCTGCTCCACCACAAGCTGAAGGAAACCGGCGACCTCACCGCCGCGCTCAAGGCAGCGGTGCCCGAGCTTCACGGCGCCTATGGCCTGGCGGTGATCAGCGCGGACCAGTCCGATCGTCTCGTGGCGACCCGCAGTGGCAGCCCGCTGGTGATCGGTCTTGGTATCGGCGAGAACTTCCTGGCTTCCGATCAGCTCGCCCTGCGTCAGGTCACCGACCGTTTCGTCTATCTGGAAGAAGGCGACATCGCCGAGATTCGCCGCGACCGCATCAGCCTGTGGGACAGTGCAGGCCAGCCGGTACAGCGTGAAACCGTGCAGTATCACGAAGGCGCGGAAGCCGCCGACAAGGGTGAATACCGCCACTTCATGCTGAAGGAAATCTACGAGCAGCCGAAGGTGGTCCAGCGCACCCTGGAAGGCCGCATCGGTCAGGAGCAGGTGCTGGTCCAGGCGTTCGGCCCCCAGGCCGCCGAGCTGTTCGCCAAGGTGAAGAACGTCCAGATCGTCGCCTGCGGCACCAGCTATCACGCCGGCATGGTGGCGCGTTATTGGCTGGAAGCACTGGCCGGGATTCCCTGCCAGATCGAAGTCGCCAGCGAATTCCGCTACCGCAAGGTGGTGGTACAGCCGGACAGCCTGTTCGTCACCATCTCCCAGTCGGGCGAGACCGCCGACACCCTGGCCGCGCTGCGCAACGCCAAGGCACGCTCCAGAGAAGAAGGGGGATACCTGGCCAGCTTGGCGATCTGCAACGTCGGCACCAGCTCGCTGGTGCGCGAGTCCGATCTGTGCCTGTTGACCCAGGCCGGCCCGGAAATCGGCGTGGCCTCGACCAAGGCCTTCACCACCCAACTGGTGGCGCTCCTGCTGCTGACCCTCGCTCTGGGCAAGGTGCGCGGCGGCCTGGAGGAGGGCGTCGAAGCCGAACTGGTGGAAGAGCTGCGCCGCCTGCCGACCCGTCTTGGCGAAGCACTGGCCATGGACAAGATCGTGGAGAAAGTCGCCGAACTGTTCGCCGAGAAGCACCACACCCTGTTCCTCGGTCGTGGCGCCCAGTACCCGGTGGCGATGGAAGGGGCCCTCAAGCTCAAGGAAATCTCCTACATCCATGCCGAAGCCTACCCGGCCGGTGAACTCAAGCATGGCCCGCTGGCCTTGGTGGACGCCGACATGCCGGTGGTGACCGTGGCGCCGAACAACGAGCTGGTGGAAAAGCTCAAATCCAACCTCCAGGAAGTCCGCGCACGCGGCGGCGAGCTGATCGTCTTCGCCGACGGCGAGGCCGGTATCGAGAACGGCGCGGGCACCCATCTGGTCAGCATGCCGCACATCCATGACGTGCTGGCGCCGATCCTCTACACCCTGCCGCTGCAATTGCTCTCGTACCACGTTGCCGTGCTGAAAGGCACCGACGTCGACCAGCCGCGGAATCTGGCCAAGTCAGTGACGGTGGAGTAA	MCGIVGAIAERNITAILLEGLKRLEYRGYDSAGVAVLDEAGRLQRRRRSGKVAELEQALKDEPLAGRLGIAHTRWATHGAPCERNAHPHFSGDGLAVVHNGIIENHEELRIRLKGLGYTFVSDTDTEVIVHLLHHKLKETGDLTAALKAAVPELHGAYGLAVISADQSDRLVATRSGSPLVIGLGIGENFLASDQLALRQVTDRFVYLEEGDIAEIRRDRISLWDSAGQPVQRETVQYHEGAEAADKGEYRHFMLKEIYEQPKVVQRTLEGRIGQEQVLVQAFGPQAAELFAKVKNVQIVACGTSYHAGMVARYWLEALAGIPCQIEVASEFRYRKVVVQPDSLFVTISQSGETADTLAALRNAKARSREEGGYLASLAICNVGTSSLVRESDLCLLTQAGPEIGVASTKAFTTQLVALLLLTLALGKVRGGLEEGVEAELVEELRRLPTRLGEALAMDKIVEKVAELFAEKHHTLFLGRGAQYPVAMEGALKLKEISYIHAEAYPAGELKHGPLALVDADMPVVTVAPNNELVEKLKSNLQEVRARGGELIVFADGEAGIENGAGTHLVSMPHIHDVLAPILYTLPLQLLSYHVAVLKGTDVDQPRNLAKSVTVE	PGPT0017630_2668	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_METABOLISM,PGPT0017630-glmS|nodM-K00820	NA	NA
BMS010_08324	2124	slrP	COG4886	E3 ubiquitin-protein ligase SlrP	ATGGACCGGATACCTCACTCGCCTTCCACTTCCTTCCATTCCTGCAGCAGCCATTCATCCGAAGCCTTGGAGGACACCGCGCAATCGGTACCGGGAAACCCCGTTCCGGCGCTTCAGGTGCCGCCCATGACGAGCAATATCCTGGGCGTGATGAGAGGGGCTCTGAACGCTTTCCAGGGTGCTTTCCAGCTACCGAGTGTAGGGCTGGGCTGGCTTCTACCTCGAATTCCGCAACCAGAGGCGGGAGGCTCCACTACGTCTTCCACATCGGCTCATAGCATGGACCCACGTCTGACGAGTTGGCTGGAAGAAGCCGGTACGCTGGAAATGCGCACCGCGCGAACGACGGCCGCACGACACTTTCAGGATGTGTTGCAAGGGAAAGACGAACTGGTTCTGAATGGCCTGGCGCTGGGATGTCTGCCCGATATCTTCGCCCGGCCCGAGATCATGCGAGGGCTGCGGTCTGTGAGGCTGAACGACTGCCGGCTCGATACGCTTCCAGCTTCGCTCTTGCAACTCCCTCGGCTGGAGGTTTTGAGCGTGCGAAACGCCGATTTGAACCGTCTTCCCGAATTCGGCGAAATGCCCGGACTGCTCTCCCTGGACTTCAGTCATAACCGATTGACTGCGTTGCCGGAAAGCGTCGGCAAACTGGACTCTCTGCTGGCGTTCAGACTCGATAGAAACCGACTGGAGTTTCTGCCGGAGTCCATTGGGCAGCTCATGGCGCTGAGAGAACTCAATGCTCCAGGCAACCGCCTGCATGGACTACCTGACAGCCTGGGCGATCTGCGGGATCTGGAGAAGCTCGATGTCGGCTCCAACCGCTTGAGCGATCTCCCAGAGTCTTTAAGCCGGTTGTCGCTGGAGCAGTTGTTCCTCAACGGGATGAACGAGCTTAGGGAAGTACCTTCGGTGGTGTTCTCCATGACATCACTGGAAGAATTACGCCTCAATGGGACGGCCCTGACGACGATCCCTGCGGACATAGCCCGTTTGAGCAATCTGCAGTTCCTGGATCTTTCCGAATGCCGGATAACCTCGGTTGCCGAAGAAATTGGCCAGTTGCCGGAGACATGCCGTGTCGAATTGAGTGGCAATCCGCTACCCCGGGCCCTCATCGGGCGTTTGTCGAACAGAGGTAACGGGCCGCAGATTCATGTCGGAAAACAGGCAATCCAACCCCTGGAGGCGAATATAGCCGGATGGTTGAAGACCCTCTCGCCCGAACAACGGAGTAAATGGCAACAGCTTGTGGATAACGCCGAACTCGCAGCGCAAGTCGGAGAATTCAATTCCTGGCTGGAAGCGATGCGCGAGACCGCGGACTACAAGAACGAAAAGACCCGCCCTCACCTCGAACACCGGATGCAGTCACTGCTCGAAGACCTGACCCGCATGCTGGAAACTTCCGACCCCGTCCGTCTCCCCAAGGAAAGCCCATTGCCAACCTATCTCGAGATCGCCCGGGATGCCGTCTCGAGATGTGAGGATCGTGTCCTGATGGGGTTGGACGGAATGGAATTGCAACAAGTCAGCGAGCGAGCAAGCCGTGGCCAATACAGCGATAGCCAGTTGATCGCCCTGGGGCGTGAAATGTTCATTCGCGATCAGATTTCCCAGATAGCGGAGGAAAAGGCAAAGGAGCTGCCCAAGGGGGACGATGAGGAAGAGGGCGTGGAAGTTCATCTGACCTATCTGGTCGGTCTGCGTGACCGACTAGGGCTGACACTGGGCAGCCAGGATATGTCTTTCTCGTCTCTGTCTGAAGTTGGCGAGGAGGATCTGAAGCGTGCGGCTCAGGACATTCAGCAGCAACTGGATACGCCCGGTGTGTTGCGTACGTTTCTGGCCGATTGGGAGCCGATACGGCAGTTGGTGAACCAGCGGCACCCGGCGGAATGGCGGAATATCGAAAAAGAGTTCGAAGCGTTGGAAGATCAGGCCTATGGCCAGGATGGAAATACCGACTGGGTGGCACTGGCGGGCCTTGGCACCCAGCGGGAACAGGCGTTCCGCGAGCTGTGCGCGAGCAAAGTCGAGGATTTGATGAGAACCGATCTGCCATCTTCGTCGCGAGAACCGGAGGAACCGGCGCCCAAGCGCCCCCGACTGGGCTGA	MDRIPHSPSTSFHSCSSHSSEALEDTAQSVPGNPVPALQVPPMTSNILGVMRGALNAFQGAFQLPSVGLGWLLPRIPQPEAGGSTTSSTSAHSMDPRLTSWLEEAGTLEMRTARTTAARHFQDVLQGKDELVLNGLALGCLPDIFARPEIMRGLRSVRLNDCRLDTLPASLLQLPRLEVLSVRNADLNRLPEFGEMPGLLSLDFSHNRLTALPESVGKLDSLLAFRLDRNRLEFLPESIGQLMALRELNAPGNRLHGLPDSLGDLRDLEKLDVGSNRLSDLPESLSRLSLEQLFLNGMNELREVPSVVFSMTSLEELRLNGTALTTIPADIARLSNLQFLDLSECRITSVAEEIGQLPETCRVELSGNPLPRALIGRLSNRGNGPQIHVGKQAIQPLEANIAGWLKTLSPEQRSKWQQLVDNAELAAQVGEFNSWLEAMRETADYKNEKTRPHLEHRMQSLLEDLTRMLETSDPVRLPKESPLPTYLEIARDAVSRCEDRVLMGLDGMELQQVSERASRGQYSDSQLIALGREMFIRDQISQIAEEKAKELPKGDDEEEGVEVHLTYLVGLRDRLGLTLGSQDMSFSSLSEVGEEDLKRAAQDIQQQLDTPGVLRTFLADWEPIRQLVNQRHPAEWRNIEKEFEALEDQAYGQDGNTDWVALAGLGTQREQAFRELCASKVEDLMRTDLPSSSREPEEPAPKRPRLG				NA	NA	NA	NA	NA
BMS010_08325	489			hypothetical protein	ATGTACCCCCAAGATGCTCGAGCCTGGCTCACGGAAGCATTTTCGCGCGGGCGAACCGGCCTCGGTAATACGCTCGTCTTCGATGCCCAGGGACAGGCTGTCGTACATGCGCCGGAAGGTGTGAGTTGCCTGCTCTGGATTCCCGACCAGGATGCCCGTTGGCACCTCTATGCCTCCCTCAGGGAAGTCGATCCGAGAAGCGATGGCCATTTCCTGGCCATGGCGCTCGCGCTCAATTTGCAGTCGGTCCTGATGCAGGACACCCATATCGGCCTCAATCCCGAGACCCGGCAACTGTTGCTCCACCGTGTCGTGGCGATCGACATGGCAACACTGGATGCCCCCGCGACCCTGCGGCATTTCATCGGCCGATGCGTCTATCTGCGTGAGGAGTTGGGAAAAGCCTTTGTTTCCGCCGGACGTTCAACCAGACCGGAGGCACCGGCGGCTTTCCATCCATCTCTTTCGTTTCGCCAACGTTTTGCCTGA	MYPQDARAWLTEAFSRGRTGLGNTLVFDAQGQAVVHAPEGVSCLLWIPDQDARWHLYASLREVDPRSDGHFLAMALALNLQSVLMQDTHIGLNPETRQLLLHRVVAIDMATLDAPATLRHFIGRCVYLREELGKAFVSAGRSTRPEAPAAFHPSLSFRQRFA				NA	NA	NA	NA	NA
BMS010_08326	2112			hypothetical protein	ATGAATACACCGCCTGTTTCACCGAGCGTTTCCAGCTCATCACACAGCTCCGAATCGTCGTCCGAGAGTCTCCAGTGGGACACGGGCAGTGCGGTTCCCACTCTCCAGTTACCTGCCAGCCTGCATCAATCCATCCCGATGCCGATGAATTCCATCGCGCAACTGTTGACGACCTACCAGGCCAACGTCCCGCTTCCCGTGTCTGGACAGGATTGGATGCTGCCCCATGCCCCTCGGTTTTACCCAGGGGAGTCCAGTGCTCCCTCCTCATCGAACCTGTATGAAGTTCAGCTCAGGAAGTGGGTAGGTGAGGCAAGCAACCCCGAGATGGCTGAGCATCGACGTATCGCTGAACAGCGAGTGCTCGACGTCCTGAAAAGCAATCGGGGTATGTTGACCCTGGAAAACCTGAAGCTCGGAGAGTTGCCGGATTTCTTTGGACTCCCGGAGGCCCGGGAAAACCTGAGAGTCGTGGAAATCAGCTGTTGCGAGCTGAAGCGGATTCCCGCTTCCCTGCTGTGCCTGCCCAATCTTCAGCATCTGAGCCTGACCGGTTGTCCCGTAGGCGAACTCCCCGAGTTCGGCGACATGCCTCAACTGCAGTCGCTTTACCTGGTCGAAAACGAACTGGGCCGCTTGCCCGACAGCATTGGTCGGCTGGAAGGCTTGCAAAGACTGATCGTCGACAGCAATAACCTGGAAACCTTGCCAGACGCTCTGACCCAGCTCACCAAGCTGGAAAAATTGAACGTGTCGTTCAACCAGCTCACCCGGCTGCCAGACGGTATGGGCAAGATGGTCTCGTTACAGAGCCTGAATATCAGCACTAACTTGCTGCAGGAACTACCTGACGAATTGGCCAGCTTGCCTTTGCTCAAATTGAAGGCTAACCAGATCGGATTTACAGAAGTTCCGCCCGTGATTCTTTCCATGGAGTTACTGGAAGAGCTAAAGCTCAATTCGAACCAGATAACGATGCTGCCTGCAGAAATCGCGCAGTTGAGGAATCTCGATTTTCTGGACATATCGTACTGCCGCTTGTCTTCCTTGCCGGAAGAAATCGCCCAGCTTCCCCACAGCTGCGAAGTGGATGTGGGTGGCAATCCGCTTTCCCAGGCGATACGCAATCAATTCGAGCGAATCCACCAGGAAGGTGGGCCGCATATCTCGTACATGGAAGATGAGGGCAATCCGGTTGAGCGCGCCAGCCAGCCGCTGGAAACCAACGTGACGAAGTGGCTGAAGGACCTGACGCCCGAGCAGCTACAAAAGTGGCAAGCGTTCGGCGGCGAAGAGCGCGCCGGGCATCTCAACACCTGGCTGGAGTTCATGGACCAGACCGCGGATTTCACGAACGAGCAGACGCGTCCCCGCCTCGAACAGCGGATGCGTCATTTGCTGGCCGACCTGACCCACATGCTGGAAGACCCGGAAGACACTCAGTTGCCGATCTACCTGGGCATCGCCGAAGAAGCGACCTCGTCCTGCCGGGATCGCATTGCGGTGGGCCTGAACAACATGGAACTGCAACAGATCAATACCCGCGCGGCACGGGGAGAGCTGAGCAGCAGCCAACTGATGTCCTTGGGCCGGGAAATGTTCATCCGCGACCAGATCAACCAGATCGCCGCCGAGAAGGTCAAGAGGTTGCGAATGGTGGATGAAGTGGAGGTGCACCTGGCTTTCCAGGCTGGTCTGCAGAAGCAACTGGGCCTCACGCTGGGCAATCAGGACATGCTGTACCGGGGCTGTTCCCAGGTGCGCGACAAGGATTTGCGGCTGGCAACGCAGAGAATCCAGGCCGCGTTGGATACGCCCGGCATGCTGCGTAATTTCCTGGCTGACTGGGAGCCGATGCGGGCCCTGGTCCGCCTGCGAAATGGTGTGGAGTGGCGAGCCATCGAGCGCAAGTTTCGGGAACTTGAGGAGCAGGCCTACGGGCAGGATGGCGATACCGACTGGCGAGCGCTCGCGGGGCTCGGTACGCAGCGCGACCAAGCCTTCCATGATCTCTGCGCACAAGAGGTGGGCGAGCTGATGCAGACAGACCTGCCATCCTCTTCGCGAGCGCCGGAAGAGCCGTCATCCAGCAAGCGTCCTCGGCTGGGTTGA	MNTPPVSPSVSSSSHSSESSSESLQWDTGSAVPTLQLPASLHQSIPMPMNSIAQLLTTYQANVPLPVSGQDWMLPHAPRFYPGESSAPSSSNLYEVQLRKWVGEASNPEMAEHRRIAEQRVLDVLKSNRGMLTLENLKLGELPDFFGLPEARENLRVVEISCCELKRIPASLLCLPNLQHLSLTGCPVGELPEFGDMPQLQSLYLVENELGRLPDSIGRLEGLQRLIVDSNNLETLPDALTQLTKLEKLNVSFNQLTRLPDGMGKMVSLQSLNISTNLLQELPDELASLPLLKLKANQIGFTEVPPVILSMELLEELKLNSNQITMLPAEIAQLRNLDFLDISYCRLSSLPEEIAQLPHSCEVDVGGNPLSQAIRNQFERIHQEGGPHISYMEDEGNPVERASQPLETNVTKWLKDLTPEQLQKWQAFGGEERAGHLNTWLEFMDQTADFTNEQTRPRLEQRMRHLLADLTHMLEDPEDTQLPIYLGIAEEATSSCRDRIAVGLNNMELQQINTRAARGELSSSQLMSLGREMFIRDQINQIAAEKVKRLRMVDEVEVHLAFQAGLQKQLGLTLGNQDMLYRGCSQVRDKDLRLATQRIQAALDTPGMLRNFLADWEPMRALVRLRNGVEWRAIERKFRELEEQAYGQDGDTDWRALAGLGTQRDQAFHDLCAQEVGELMQTDLPSSSRAPEEPSSSKRPRLG				NA	NA	NA	NA	NA
BMS010_08327	252			hypothetical protein	ATGAGCGCAAAAACCAGCATCACCGGTGCGGCATTGGCCCTGGCGGCCGCAGGGCTGTTCGCCAGCTTGCCAGCCCAGGTCGTGGCGGAGGAAGCCATGGTGCACTGCTATGGCGTGAATGCCTGCAAGGGGCATAACGACTGCAAGACGGCGCAGAACTCGTGCAAAGGGCAGGGCGCATGCAAGGGCCAGGGCTTCAAATCCATGACCTTGGCCGAGTGCCAATCCGCGGGCGGCAAGGTCGGCGACTGA	MSAKTSITGAALALAAAGLFASLPAQVVAEEAMVHCYGVNACKGHNDCKTAQNSCKGQGACKGQGFKSMTLAECQSAGGKVGD				NA	NA	NA	NA	NA
BMS010_08328	846			hypothetical protein	ATGTCGATTGCCGATTCCTGTCTTGGTTATGGCCTGGGGCTGCGTACGGCCTACTACCAAGACATTCTCGAAAACCATCCGCCGGTGGACTGGTTCGAAATCGTTTCGGAAAACTACCTGGTCGATGGTGGCAAGGCGCTGTATTACCTGGAGGCCATTGGCGAGCGTTACCCATTGGTGATGCACGGTGTGTCGTTATCCATCGGAGGCCCGCACCCATTGGATGGGGACTACCTGCAACGACTCAAGCGCCTGGCGCAAACCGTTCGTCCGGCGTGGATCTCCGACCACCTATGCTGGAGCCGTGGCAGCGCCCACCAACTGCACGACCTGCTGCCGCTGCCTTACACCGAGGAAAGCCTGCGACATGTCGCCGAACGGGTTCGCCAAGTGCAGGACATTCTCGAACGTCCGCTGGTGCTGGAAAATGTCTCCAGCTACGTGCGTGTCGCGGAGGCATCGTTCAGCGAATGGGAGTTCCTTGCCGCGCTCAGCGAAGCGAGCGGCTGCGAGTTGCTGCTGGACGTGAACAACGTCTATGTCAGCGCCCGCAACCATGGCTTCGATCCCTGGACATTCATCAGTGGGCTGCCGAAAGCACGCATCCGCCAGCTGCATCTGGCGGGGCACAGCGATTACGGCGCCTACCTCATCGATACCCACGACCAGCCGGTGAGCGACCCGGTCTGGCAGCTCTACCAGCGCACCCTGGCGCACCTGGGACCGGTGGCGACGCTGCTCGAACGCGACGACAACTTCCCTCCGCTGGACGAATTGCTGGCCGAACTGGGCAAGGCCAGGGTGCTGTGGCAAGCGGTGCTCGCCCGGGAGGCCGCATGCGTCTGA	MSIADSCLGYGLGLRTAYYQDILENHPPVDWFEIVSENYLVDGGKALYYLEAIGERYPLVMHGVSLSIGGPHPLDGDYLQRLKRLAQTVRPAWISDHLCWSRGSAHQLHDLLPLPYTEESLRHVAERVRQVQDILERPLVLENVSSYVRVAEASFSEWEFLAALSEASGCELLLDVNNVYVSARNHGFDPWTFISGLPKARIRQLHLAGHSDYGAYLIDTHDQPVSDPVWQLYQRTLAHLGPVATLLERDDNFPPLDELLAELGKARVLWQAVLAREAACV				NA	NA	NA	NA	NA
BMS010_08329	969			hypothetical protein	ATGCGTCTGAGCGAATGGCAGCGGCAGATGGAGGCCTACCTGCTGGACGATCGCACGGAGCCGAATGCAGCGCTGCGCGCCAGTCTGGTCGGCAGTTCCGCCCTCAGCGTCGATGAAGGTCTGGCGATCTACCACAACGCCTACCGTGCCCGGCTGGTCCAGGCCCTGACCGAGGACTATCCGGCCGTGAGCGCCAGGCTCGGCGAAGCGTTCGAGGGCATGGCTCGAGATTACCTGCGCGTCTGTCCCTCCCGTCACTACAGCCTGCGCTGGCTGGGCGAGCGTCTGCCCGCATTCATCGAACAACGCGGGGATCAGACCCTGGCCGAACTGGCGCGCCTGGAGTGGGCGTTCACCCTGGCGTTCGATGCCGCCCAAGGGGAGCCGTTGACGCTCGCGGACATGGCGGCGATGCCCGCCAATGACTGGCCCGGTCTGCGGGTTCACCTGCAACCCAGCGTGCAGTGGCTGGGTTGCCGCTATAACAGCGTGGAAGCCTGGCGTTCGCACAAGGAAGGCAGCGGTCTGCCCGGAAGCCGGACGCTGGATGAGATAAACCATTGCCTGATCTGGCGCCAGGGCCTGATCAGCCGCTACCGCAGCCTGGAAGAGGGCGAAGCCGAGGCGTTGAAAGGCATGGCCGTGGACGGGCTCTGCTTTGCCGAACTTTGCACCGTGCTGAGCGAGCGGAACGAAAACGCCGCGCTGCAGGCGGCCGTGTGGCTGAAGCGCTGGGTCAGTGAGGGTCTGTTGGCGGGGGGGCCGGCACAACGAACGATAGCTGAACTCTATCAGTCTCATAGAATGAAGAAGGATTATAGTGGTCTACGCTTGCTGAAAGTTTATGCGAACCGGGGGGACACCTCATGTTGGCGTTGCTTCCACCAGTATTGCGGGAAATCCAGCTGCCTTTGCGGCTGCGCCTATGGAACGGGTATGAACTCGAACTGGGCCCCATCCCGAGCGTGA	MRLSEWQRQMEAYLLDDRTEPNAALRASLVGSSALSVDEGLAIYHNAYRARLVQALTEDYPAVSARLGEAFEGMARDYLRVCPSRHYSLRWLGERLPAFIEQRGDQTLAELARLEWAFTLAFDAAQGEPLTLADMAAMPANDWPGLRVHLQPSVQWLGCRYNSVEAWRSHKEGSGLPGSRTLDEINHCLIWRQGLISRYRSLEEGEAEALKGMAVDGLCFAELCTVLSERNENAALQAAVWLKRWVSEGLLAGGPAQRTIAELYQSHRMKKDYSGLRLLKVYANRGDTSCWRCFHQYCGKSSCLCGCAYGTGMNSNWAPSRA				NA	NA	NA	NA	NA
BMS010_08330	1077		COG2230	putative fatty acid methyltransferase	GTGGTGAAGGACCCCGGCCTGATCACCCAGTTCGAACAACCTACCCTGGACGCCCTCGGAGAGGCCTTTGTCGAAGGCCGCCTGGAAATGGAGGGTTCCATCAGCGAAGTGATCCGCCTCTGCGATGCGCTCAGCCGGGCGCTGATTCCCGATGAAAACGCCGCCCCACCCGAGCGCCGTGCCCACGACAAGGACACCGATGCGGCGGCCATCTCCTACCACTACGACCTGTCAAACGACTTCTATGCGCTCTGGCTGGACCGCGACATGGTCTATTCCTGCGCCTATTTCGAAACCGGGCAGGAAGACCTCGAACAGGCCCAGCAGGCCAAGCTTCGCCATCTGTGCCGCAAGTTGCGGTTGAAGCCCGACGACTACCTGCTCGACGTCGGTTGCGGCTGGGGTGGCCTGGCTCGCTTCGCCGCCCGTGAGTTCGGCGCGCGGGTGTTCGGTATCACCCTCAGCCGCGAACAGCTTGCGTTGGCGCGGGAACGGGTCAAGGCCGAGGGCCTGGACGACCGGATCGAACTCGAACTGCTGGACTACCGCGACCTGCCGCAGGACGGCCGTTTCGACAAGGTGGTCAGCGTCGGCATGTTCGAGCATGTCGGCCATGCCAACCTGGCGCTCTATTGCGAGCGGCTGTATGGCGCGGTGCGCCCCGGCGGCCTGGTGATGAACCATGGCATCACCGCCAAGCACACCGACGGCCGTCAGGTCGGCCGCGGGGCTGGCGAGTTCATCGACCGCTATGTGTTCCCCCACGGCGAGCTGCCGCATTTGGCCACCATGACCGCGCGGATCAGCGAAGCGGGCCTGGAAGTCGTCGATGTGGAAGGCTTGCGCCTGCATTACGCACGGACCCTGAATTTCTGGAGCGCGAACCTGGAGTCCCGCCTGGAGGAAGCGTCCCGGCTGGTGCCGGAACAGGCGCTGCGCATCTGGCGGCTGTACCTGGCCGGTTGCGCCTACGGTTTCGAGCAGGGCTGGATCAACCTTCACCAGATTCTCGCCGTGAAGCCGTACAGGGACGGCTCCCACGATTTGCCCTGGTCGCGCCGCGACCTGTACGCCTGA	MVKDPGLITQFEQPTLDALGEAFVEGRLEMEGSISEVIRLCDALSRALIPDENAAPPERRAHDKDTDAAAISYHYDLSNDFYALWLDRDMVYSCAYFETGQEDLEQAQQAKLRHLCRKLRLKPDDYLLDVGCGWGGLARFAAREFGARVFGITLSREQLALARERVKAEGLDDRIELELLDYRDLPQDGRFDKVVSVGMFEHVGHANLALYCERLYGAVRPGGLVMNHGITAKHTDGRQVGRGAGEFIDRYVFPHGELPHLATMTARISEAGLEVVDVEGLRLHYARTLNFWSANLESRLEEASRLVPEQALRIWRLYLAGCAYGFEQGWINLHQILAVKPYRDGSHDLPWSRRDLYA	PGPT0007680_3461	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-PHOSPHOLIPID_PRODUCTION	PLANT_SIGNAL-PHOSPOLIPID_METABOLISM	PLANT_SIGNAL-CYCLOPROPANE-FATTY-ACYL-PHOSPHOLIPID_BIOSYNTHESIS,PGPT0007680-cfa-K00574	NA	NA
BMS010_08331	1752	dctB_4		C4-dicarboxylate transport sensor protein DctB	ATGCCAGCCATTCTCGTGCGTTTTCGCGTTGCCCTGATCGTTCTGCTGATCTTTCTCGGGTTGCTGGTAAGCATGCTCCTCGCCGGGCGTTTCGCCGAGCGGCGCGCCTGGGAGGAGCGCAGCGTCGAGGCACGCGGACAGCTCGCCCTTTATGCCCAGACCATGCACACCCTGGTCGAGCGCTTCCGCTCGGTTCCGGCGTTGCTGGCGCTGGACAGCGACATCCGCAGCCTGCTCGACGACCCGGCCAATCCGGCTCTGCGCCAAGCGCTCAATCGCCGCCTGGAGCGGCTGAACACCGAGGCGGGCTCGGCGGTGCTCTATCTGCTGGACAGCCGCGGCGAGGCCATCGCCTCCAGCAACTGGCGCGAGTGGAGCAGCTTCGTCGGCAACAACTACGCGTTCCGCCCGTACTTCCAGGATGCGATCCGTCACGACGCCGGGCGCTACTTCGCGGTGGGCGTGACCACCGGCATTCCGGGCTATTTCCTCTCCCACGTGGTGAAGGACGGCGGCGGCCGGCCGCTCGGGGTGCTGGTGGTGAAGCTGGAGCTGGAAGAACTGCAGCGCGAATGGGCCAGCCAGCCAGGCACCATGCTGGTCGCCGACAGCCACGACATCGTCATCCTGTCCAACCGTCCGGCGTGGCGTTTCCGCTATCTGAACGAGTTGAGCGATACGGTGCGGGCCGAACTCGTGGAGTCGCGCAAATATGCCGAGCAGAACCTGCAACCGCTGCCCAGCGAGCCGTTGCAGACCGTGGCCGAGGATGCTGAGCTGCGTCGCGTGGATGGCCCGGAAGGCCGGCGCGTCTATCTCTGGCAGCGGCTGGCGTTGCCGGAGGAGGGCTGGAGCCTGAACCTGCTGATGGAGCCGACCCTGGTTGCCGACAGCGTGCGCAGCTACCGGTTGGCCGCCGCCGGCATCTGGATGACGTTCGCCTTCCTGCTGCTCTACCTGGCCCAGCGGGAGAAGAACCGGCGTCTCCAGCAGCGCAGCCGCGAGGAACTGGAACGCTTGGTGGAAGAGCGCACCGCCGAGTTGCGTACCGCCCAGGACGAACTGGTTCATGCCGCCAAGATGGCCGCCCTGGGGCAGATGTCCGCGGCGCTGGCGCATGAGATCAACCAGCCGCTGACCGCGATGCAGATGCAGCTCGGCAGCCTGCGCCTGCTGCTCGACAGCGGTCGTCAGGACGACGTGCGCGACGGATTGGCGCGGATCGATGGGCTGCTTCAGCGCATGGCCGCGCTCACCGGCCACCTCAAGACCTTCGCCCGCAAGAGCCCGGGTGGGTTGCGCGAGCGTCTGAGCCTGGATCACGTCCTCGAGCAGGCGCTGCAACTGCTGGCCCCGCGTATCCGCGCCGAACAGGTGGAGGTGGTCAAGCACTTGGAGCCCGCGGCCCAGGTTCTCGGCGACGCCATCCGGCTCGAACAGGTGCTGCTCAATCTGCTGCACAACGCGCTGGACGCCATGGCCGGGCAGGAACGGCGGATGCTGCGGATGACCATCGAGGCCCAGGGCGGGCAGTGGCAGCTCAGTATCGAGGACAGCGGCGGCGGTATCGCCGAGGAACATATCGCTAACGTCTTCGACCCGTTCTTCACCACCAAGCCGGTAGGCGAGGGGTTGGGCCTGGGGCTCGCGGTGTCCTACGGCATCGTCCGCGAACTGGGCGGCAGCCTGGAGGCCTCGAATGGTGAAGAAGGAGCGGTATTCACCTTGCGGCTTCCGGCTGCGCCAGTGTGA	MPAILVRFRVALIVLLIFLGLLVSMLLAGRFAERRAWEERSVEARGQLALYAQTMHTLVERFRSVPALLALDSDIRSLLDDPANPALRQALNRRLERLNTEAGSAVLYLLDSRGEAIASSNWREWSSFVGNNYAFRPYFQDAIRHDAGRYFAVGVTTGIPGYFLSHVVKDGGGRPLGVLVVKLELEELQREWASQPGTMLVADSHDIVILSNRPAWRFRYLNELSDTVRAELVESRKYAEQNLQPLPSEPLQTVAEDAELRRVDGPEGRRVYLWQRLALPEEGWSLNLLMEPTLVADSVRSYRLAAAGIWMTFAFLLLYLAQREKNRRLQQRSREELERLVEERTAELRTAQDELVHAAKMAALGQMSAALAHEINQPLTAMQMQLGSLRLLLDSGRQDDVRDGLARIDGLLQRMAALTGHLKTFARKSPGGLRERLSLDHVLEQALQLLAPRIRAEQVEVVKHLEPAAQVLGDAIRLEQVLLNLLHNALDAMAGQERRMLRMTIEAQGGQWQLSIEDSGGGIAEEHIANVFDPFFTTKPVGEGLGLGLAVSYGIVRELGGSLEASNGEEGAVFTLRLPAAPV	PGPT0017305_1096	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017305-dctB-K10125	NA	NA
BMS010_08332	1347	dctD_4		C4-dicarboxylate transport transcriptional regulatory protein DctD	ATGAACGGTCAGGTCATTTTTGTCGATGACGAAGCGGCTATCCGCGAGGCGGTGCAGCAGTGGCTGGAACTGTCCGGCTTCACGGTGCATGTGTGTGTCGATGCCACCCAGGCGCTGGCGCTGGTCGACCGGGACTTCCCCGGCGTGGTGGTCAGCGACGTGCGCATGCCTGGCAGCGATGGCCTGCAATTGCTCGAGCGCCTGCAAAACCTGGATGCCGACCTGCCGGTATTGATGGTCACTGGCCACGGCGACGTGCCGATGGCCGTGCAGGCGTTGCGCCAGGGTGCCTATGATTTCATCGAAAAACCATTCAATCCCGAGCGCTTGCTGGACAGCGTGCGGCGCGCGCTGGAAAAGCGCCGACTGGTCTGCGAGAACCGCCAGTTGCGCCAGCAGTTCGCCCTCAAGGATCGCATCGAAGCCCAGTTGCTCGGTGTTTCCCGTCCCATGGAAAACCTGCGCCGGCAAATCCTCGAACTGGCCGGTACCTCGGTCAACGTACTGATTCGCGGCGAAACCGGCAGCGGCAAGGAACGGGTTGCCCGCTGCCTGCATGACTTCAGCCCGCGGGTGGCCAAGCCGTTCGTGGCGCTGAACTGCGCGGCGATACCGGAAAGCATTTTCGAGAGCGAGCTGTTCGGCCATGAAAGCGGTGCCTTCACCGGGGCCCAGGGCAAGCGCATCGGGCGGATCGAACATGCCGATGGCGGCACGCTGTTCCTCGACGAAGTGGAGAGCCTGCCGCTGGCGCAGCAGGTCAAGCTGCTGCGGGTATTGCAGGAAAAGACCCTGGAGCGCCTCGGGTCGAATCGCAGCATCCAGGTCGATCTGCGGGTCATCAGCGCGGCCAAGCCGGACCTGCAGGACGAGGTCCGCGCCGGACGTTTCCGCGAGGACTTGCTGTATCGCCTCAACGTCGCGGAGCTGCGCATTCCTCCGTTGCGCGAACGACGCGAAGACATTCCCCTGTTGTTCAACCATTTCGCGGCGGTCGCCGCCGAGCGCCACAACCGCGAACTGCAACCGCTGACGCCGCAGGAGCTGTCGCGGCTGGTCGCGCACAACTGGCCGGGCAACGTCCGCGAGCTGATCAACGCGGCCGAACGGTATGCCCTCGGCCTGACCTCTTCGGAAGAGACCCAGCAAGGGCCACAGTCGCTGGCCGAACAAATGGAAGCGTTCGAGGCGCAGTGCCTGCACACCGCCTTGCAGCGCTGCCAGGGCAATATCAGCGACGTGATGGCGCTGTTGCAGATCCCCCGGCGCACACTCAATGAAAAGATGCAGCGCCACGGCCTCAGCCGCAGCAGCTACCTGCCGGTGGGTAGCAGCGAGGAAGAGTGA	MNGQVIFVDDEAAIREAVQQWLELSGFTVHVCVDATQALALVDRDFPGVVVSDVRMPGSDGLQLLERLQNLDADLPVLMVTGHGDVPMAVQALRQGAYDFIEKPFNPERLLDSVRRALEKRRLVCENRQLRQQFALKDRIEAQLLGVSRPMENLRRQILELAGTSVNVLIRGETGSGKERVARCLHDFSPRVAKPFVALNCAAIPESIFESELFGHESGAFTGAQGKRIGRIEHADGGTLFLDEVESLPLAQQVKLLRVLQEKTLERLGSNRSIQVDLRVISAAKPDLQDEVRAGRFREDLLYRLNVAELRIPPLRERREDIPLLFNHFAAVAAERHNRELQPLTPQELSRLVAHNWPGNVRELINAAERYALGLTSSEETQQGPQSLAEQMEAFEAQCLHTALQRCQGNISDVMALLQIPRRTLNEKMQRHGLSRSSYLPVGSSEEE	PGPT0017310_705	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017310-dctD-K10126	NA	NA
BMS010_08333	957			hypothetical protein	ATGAGACTGATCAAGCGTTTCAGCCTTCTCGCCGCTGCCGCGGCCTTCACTGCCAGCACCGCCGCGGTTGCGGCGCCGACCTTCATCAACATCCTCACCGGCGGCACCAGCGGCGTCTATTACCCGATCGGTGTCGGCCTGTCGCAGATCTACAGCAACGGCATCGAAGGCTCGAAAACCTCCGTGCAGGCCACCAAGGCTTCCGTGGAAAACCTCAACCTGCTGCAAGCCGGTCGTGGGGAACTGGCCCTGGCTCTGGGCGACTCGGTGGCCGATGCCTGGAACGGCGTGGAAGACGCCGGCTTCAAGGCCCCGCTGAAGAAGCTGCGCGCCATCGGTTCGACCTACCCGAACTACATCCAGATCGTGGCCAGCAAGGAATCCGGCATCAAGACCCTGGCTGACCTGAAGGGCAAGCGCATTTCCGTCGGCGCGCCGAAATCCGGCACCGAGCTGAACGCCCGCGCCATCTTCAAGGCTGCCGGCCTGAGCTACGAGGACATGGGCAAGGTGGAATTCCTGCCGTATGCCGAGTCCGTCGAACTGATCAAGAACCGCCAGCTCGACGCCACCCTGCAATCGTCCGGTCTCGGCATGGCCGCGATCCGCGATCTGGCCGCGACCATGCCGATCAGCTTCGTCGCGATCCCGCAGGATGTCGTCGGCAAGATCGACAACGCCGCCTACCAGGCCGCTGTGATCCCGGCCAAGACCTACGACGGCCAGGAAGAGGACGTTCCCACCGTAGCGATCCAGAACATCCTGGTGACCCACGAAGGCGTTTCCGATGATGTGGCCTACAAGATGACCAAGCTGATGTTCGACAACCTCGACCGCCTGGCCACTTCCCACTCCGCAGCCAAGGACATCAAGCTGGAAGCTGCCACCCAGAACCTGCCGATCCCGCTGCACCCGGGCGCCGAGCGCTTCTACAAGGAAGCCGGCGTGCTCAAGTGA	MRLIKRFSLLAAAAAFTASTAAVAAPTFINILTGGTSGVYYPIGVGLSQIYSNGIEGSKTSVQATKASVENLNLLQAGRGELALALGDSVADAWNGVEDAGFKAPLKKLRAIGSTYPNYIQIVASKESGIKTLADLKGKRISVGAPKSGTELNARAIFKAAGLSYEDMGKVEFLPYAESVELIKNRQLDATLQSSGLGMAAIRDLAATMPISFVAIPQDVVGKIDNAAYQAAVIPAKTYDGQEEDVPTVAIQNILVTHEGVSDDVAYKMTKLMFDNLDRLATSHSAAKDIKLEAATQNLPIPLHPGAERFYKEAGVLK				NA	NA	NA	NA	NA
BMS010_08334	2031			hypothetical protein	ATGAGTGAGCATCATCAAGGCCTCGAGGCCGCGACAGGCAGTTGGCCGAAGGCGCTGTTCTTCGTCGCCCTGTCGTTTTCCACCTTCCAGGTTTTAACCGCCGCCTTCCCCCTGGTTTCCACCCAGGTGCTGCGGGCGGTGCACATCGGCTTCCTGCTGATGCTGGTCTTCCTCAGCTTCCCGGCGTTCGGCAAGAAACGCCCCTGGCAGCCGCTGGCCTGGCTGCTCGGCCTCGCCGGCATGGGCACGGCGGCCTACCAGTGGATTTTCGAAGCCGACCTGATCCAGCGCTCCGGTGACCTCACCAGCGGCGACATGATGATCGGCCTGGTCCTGATGGTGTTGGTTTTCGAAGCGGCGCGGCGGGTCATGGGTATCGCGTTGCCGATAATCTGTGGCCTGTTCCTGGCCTATGGGCTGTTCGGTGAGTACCTGCCGGGCGACCTGGCGCACCGGGGCTATGGTTTCGACCAGATCATCAACCAGTTGGCGTTCGGTACCGAGGGTTTCTACGGCACCCCGACCTATGTATCCGCCACCTATATCTTCCTGTTCATCCTGTTTGGCTCGTTCCTCGAGCAGGCCGGGATGATCAAGCTGTTCACCGATTTCGCCATGGGCCTGTTCGGCCACAAGCTCGGCGGTCCGGCCAAGGTGTCCGTGGTGTCTTCCGCGCTGATGGGTACCATCACCGGCTCCGGCGTGGCCAACGTGGTCACCACTGGCCAGTTCACCATTCCGCTGATGAAGCGCTTCGGCTACCGCCCGGCCTTCGCCGGCGCCGTGGAAGCGACCTCCAGCATGGGCAGCCAGCTGATGCCGCCGGTGATGGGTGCCGTGGCCTTCATCATGGCCGAAACCATCAACGTGCCCTTCGTCGAAATCGCCAAGGCGGCCCTGATTCCGGCGCTGCTGTATTTCGGTTCGGTGTTCTGGATGGTGCACCTGGAAGCCAAGCGCGCCAACCTCAAGGGCCTGCCGAAAGACCAGTGCCCGAACCCGTGGAAGGCGGTGAAGGAGCGCTGGTTCCTGCTGATTCCGCTGGGCATCCTGGTCTTTTTGCTGTTCTCCGGCCGCACGCCGTTGTTCTCCGGCATGGTGGGGCTGGCGCTGACGGCCATCGTGATCCTCGGCTCGGCGATCATCCTGCGGGTGTCGTCCAAGGGCCTGCGGGTCGCCTTCTGGGTGGCCCTGGGGCTGCTCTGCGCCGGGTTCTTCCAATTGGGCATCGGTGTCGTGTTCGCAGTGATCGGTGTGCTGGTGGCGACCTGCTGGTTCCTCAAGGGCGGCCGCGACACCCTGGTCATCTGCCTGCATGCGCTGGTGGAAGGTGCGCGCCACGCGGTACCGGTGGGCATCGCCTGTGCCCTGGTCGGCGTGATCATCGGCGTGGTTTCGCTGACCGGCGTGGCCTCCACCTTCGCCGGCTACATCCTCGCCATCGGCCAGGACAACCTGCTGCTCTCGCTGGTTCTGACCATGCTCACCTGCCTGGTCCTCGGAATGGGCATCCCGACGATCCCGAACTACATCATCACCAGCTCGATCGCCGCGCCGGCGCTACTTGAGCTGGGTGTTCCGCTGATCGTCTCGCACATGTTCGTCTTCTACTTCGGCATCCTCGCCGACCTCACCCCGCCCGTGGCGCTGGCCTGCTTCGCTGCCGCGCCGATCGCCAAGGAAACCGGCCTGAAGATCGGTCTGTGGGCGGTGCGTATCGCCATCGCCGGCTTCGTCGTGCCGTTCATGGCGGTGTACGCACCGGCCCTGATGCTGCAAGGCGACAGCCTGATGATGACAGCCTACGTGGCGGTCAAGGCCATGTTCGCCATCGCCCTCTGGGGTGTGGCGTCGGTGGGCTACCTGCACGGCAAGCTGTTCTGGTGGGAGCGCTTGCTCGGTCTGGCCGCCGGTGCCTGCCTGGTCATGGCACTGCCGATCACCGATGAACTGGGCTTCGCCCTTGGCGTCGGCATGCTCGCCGTGCACTTCTGGCGTCTGCGCCGCGATGGCAAGCCGGTGGTCGCGTGA	MSEHHQGLEAATGSWPKALFFVALSFSTFQVLTAAFPLVSTQVLRAVHIGFLLMLVFLSFPAFGKKRPWQPLAWLLGLAGMGTAAYQWIFEADLIQRSGDLTSGDMMIGLVLMVLVFEAARRVMGIALPIICGLFLAYGLFGEYLPGDLAHRGYGFDQIINQLAFGTEGFYGTPTYVSATYIFLFILFGSFLEQAGMIKLFTDFAMGLFGHKLGGPAKVSVVSSALMGTITGSGVANVVTTGQFTIPLMKRFGYRPAFAGAVEATSSMGSQLMPPVMGAVAFIMAETINVPFVEIAKAALIPALLYFGSVFWMVHLEAKRANLKGLPKDQCPNPWKAVKERWFLLIPLGILVFLLFSGRTPLFSGMVGLALTAIVILGSAIILRVSSKGLRVAFWVALGLLCAGFFQLGIGVVFAVIGVLVATCWFLKGGRDTLVICLHALVEGARHAVPVGIACALVGVIIGVVSLTGVASTFAGYILAIGQDNLLLSLVLTMLTCLVLGMGIPTIPNYIITSSIAAPALLELGVPLIVSHMFVFYFGILADLTPPVALACFAAAPIAKETGLKIGLWAVRIAIAGFVVPFMAVYAPALMLQGDSLMMTAYVAVKAMFAIALWGVASVGYLHGKLFWWERLLGLAAGACLVMALPITDELGFALGVGMLAVHFWRLRRDGKPVVA				NA	NA	NA	NA	NA
BMS010_08335	414			hypothetical protein	ATGGGACTGGCTGGGGCAGTCTGGGCGGAACTGCCCGTCCCGGCCTTCACCCTGGCCTGGCGGCACACCATCGAAAAGGTGCGCTGGGAAGAGGATTACCGCGTGATGCCGAGCGGCCTGCTGCTCGGCGAAGCGCGGGTCAAGGGTTCTGGCGCCGGCATGGAAATACCGGACGGCGCCGAACTGCGCGAGGGCACCTGGCACTACCAGCGCCAGCTACCGCCCTTGCAGCCGCTGCGCTTGGGCAGAACGCCCGAGGCGGGGGATTACCAACTGTGTTTCGACCAGCGTTGTCACGACCTGAGTGAATGGCTCGGCCCGCCAAAAGCGAGCCAGCCGGCGCTGGAACTCTGGAGCTGTCCGGTCACCACGCCGGACAGCCCCGCGACCCACGAGGGAAGCGGGCAGGGCTGA	MGLAGAVWAELPVPAFTLAWRHTIEKVRWEEDYRVMPSGLLLGEARVKGSGAGMEIPDGAELREGTWHYQRQLPPLQPLRLGRTPEAGDYQLCFDQRCHDLSEWLGPPKASQPALELWSCPVTTPDSPATHEGSGQG				NA	NA	NA	NA	NA
BMS010_08336	363			hypothetical protein	ATGAGCACCCATACGGTTATCCACAAGGGAAGCTGTCACTGTGGACGAATTGCCTTCGAAGTGGAGGGCGAAATCGAGCAGGTCATCGAGTGCAACTGCTCCCACTGCAGTCGGAAGGGATACCTGCTGTGGTTCGTGGCGAAACAGCAGTTGCGGCTGGTCACGCTGGAGGCGGACATGGCGACCTATCGCTTCAACAAGCACGTCATCGACCATCACTTCTGTCCGGTGTGCGGTTGTGCGCCGTTCGGCTTCGGCAAGGACCCCAGCGGGAAGGAGACGGCGGCGATCAATGTCCGCTGCTTGCCCGAGCTGGATCGTTCCGGGTTGAAGGTGGTCCAGGTCGATGGTCGCAGCTTCTGA	MSTHTVIHKGSCHCGRIAFEVEGEIEQVIECNCSHCSRKGYLLWFVAKQQLRLVTLEADMATYRFNKHVIDHHFCPVCGCAPFGFGKDPSGKETAAINVRCLPELDRSGLKVVQVDGRSF				NA	NA	NA	NA	NA
BMS010_08337	543			hypothetical protein	ATGAAAAAACACCTTGCGACGACGATTGCGACGGCGGTCTGCCTGCTGGCTCCCCTGGCCCATGCCCAGGTGATCCGGCCCGGCTTGTGGGAGGTCAGTTCCAACAAGATGCAGGTCGACGGCCAGGAACTGCCCGGTATGCAGGAGATGCTGGAGCGCATGAAAAGCCTGCCGCCCGAGCAGCGGAAGATGATGGAAGACATGATGGCCAAGCAGGGCGTTCAGGTGGGCGACAAGGGGGTGCGCATCTGCCTGACGGCCGAGCAGGTCAAGGCGGAGAACATTCCGCTGCAGCACCAGCAGGGTGGCTGCAAGAATGAATTCACCGAGCGCAGCGCCGAACGCTGGGCGTTCCGTTTCACCTGTCCGGAGGCCAGTGGCGAAGGGGAAACCCGCTTCATCAGCGATCGCGAATATGTCACGCGGATAACCGGCACCCACCAACGCAGCGGCCAGGCGGCCCAGCAGAGCGAGATGGAATACGTCTCCCGCTGGATCGGCGAGGACTGCGGCAACGTTCCCCCGGTACGCCTGCAACCCTGA	MKKHLATTIATAVCLLAPLAHAQVIRPGLWEVSSNKMQVDGQELPGMQEMLERMKSLPPEQRKMMEDMMAKQGVQVGDKGVRICLTAEQVKAENIPLQHQQGGCKNEFTERSAERWAFRFTCPEASGEGETRFISDREYVTRITGTHQRSGQAAQQSEMEYVSRWIGEDCGNVPPVRLQP				NA	NA	NA	NA	NA
BMS010_08338	2118	fpvA_2	COG4773	Ferripyoverdine receptor	GTGATCAAGAAGACCGGTCTGGCCACCTGCGTGGCGTCCGCGCTTTCGCTCGGCCTTTTGCAAGGGGCCATCGCCCAGGAAAGCTCCGATGCGGCGGTACTCGATACGCTCACCGTGGTCGGTGACTCCAAGGAGGCCGAGCAGGATTCCTACAAGGCCAAGAGCAGCAGCGCCGCCACCAAGCTGGACCTGACGCCGCGCGAAACGCCGCAGTCCATCTCCACCATCACCCGTGCGCAGTTGGACGACTTCAAGCTCACCAGCGTCAACGACGCGTTGAAGAACACCACCGGTATTTCCGTGGAAGAGGTGGAAACCGACCGGACCTACTTCACCGCGCGCGGATTCGACATCACCAACTTCCAGTACGACGGTCTCGGCACGCCCTTCGTCTATGGCAACCTCGACGGCAGCATCGACACCGCACCGTTCGAGCGCATCGAGATCGTGCGCGGCGCCAATGGCCTGATGACCGGCACCGGCAACCCGTCCGCCACCGTCAACTTCGTACGCAAGCGACCGACCCTCGAACCCCAGGCCCGCATCGACCTGACCGCTGGCTCCTGGGATCTGCGTCGCATCGACACCGACGTGTCGGGGGCGCTGACCGAGTCCGGCAACGTTCGCGGCCGTGTGGTCTACGCCAACGAAAACAAGAACTCCTACCTGGATCGCTATTCCCGGGAGAAGAATGTCTTTCACGGCGTACTGGAATTCGATCTGGACGACAGCACCCTGTTCTCCCTCGGCCATACGCTGCAGAAGACCGATTCCAACAGCCCGATGTGGGGTGCGTTGCCGCTGGTCGACAGCGCCGGCCAGCCCACCCACCTGTCCCGCTCCACCAGCACCTCGTCGGACTGGGCTTATTGGGACAACCAGGAAAACCGCACCTTCGCCGAGCTGAGCCACCGCTTCGACAATGGCTGGGAAGCCAAGGGTGTGCTGACACGCGTGGAGAAACGAGGCGACTCCAAGCTGTTCTATGTCTATGGCACTCCGAATGCCCAGACCGGTTTGAACTTGGCCGCCTATCCATCCCAGTACAAGGACGAGAACAAGCAGTGGATCGCCGATCTCTATGTCAGCGGGCCATTCGCCTTGGCTGGTCGAGAGCACGAATTGATGCTCGGCGTGAATTGGTCGAAATCGAATCTCGATGACGACTCGTATTACGGCCGTGGCATAGGTACTGCGCTTCCGCCCATGTCCGAGTGGGATGGGAACTATCCTGAGCCTCCCTTCGATGCATCGACTGCCGGCAGCACCTTCGAAGACAAACAGAAGAGCGTATATTCCGCTGCTCGCTTCAGCCTGACCGACAAGCTGTCGCTGATCGCCGGTGCGCGGGCGACCAAGCTGGACAGCGATGGCGACAGCTACGGCGTCAAGAAGAAACGCTCGGATGACGACATCACGCCTTACGCCGGTCTGGTGTATGACATAAACGACCTCTTCTCGGTCTACGCCAGCTACACCGAAATTTTCGATCCTCAGTCGAGGCTCGATGCCAGTGGCAATCGTCTGGCGCCGGTTGAAGGGACCAGCTACGAAACAGGCGTCAAGGGTGAGCTGTTCGATGGCCGGCTGAATGTCTCCGCAGCGGTATTCAAGACCAAGCAAGACAACATTGCCGAAAGTGCTGGCTTCGTGAATGGCCGCCAAGCCTATTCGGGCGCTAACTACCTGAGCGAAGGCTACGAGTTCGAAGTCTCCGGCGAAGTGCTGCCGGGGCTGCAAGCCGTCGCCGGTTACACCTATGTCGATATCCAGGACGAGAATCACGGGCACGGCAAGACCTATGTACCCAAGCACCTGGTACGTGCTTCCGCGACCTATCGCGTTCCGTCCCTGGAGCAGTTGAAGGTCGGCGCCAGTGTCAATTGGCAGGACGATATCCACCGGGACGTGGATATCGGTGGTCGCCTGGCACGGGTCGAGCAGGACGCCTACGCCGTGGTCAACCTGATGGCCAGCTACGACATCGACCCGCACTGGACCGTCTCGGCCAACCTCAACAACCTGACCGACGAGAAGTACCTGACCAGTTTGTACTGGGATCAGGGCTATTACGCCGCACCGCGCAACGCCAGCATGTCGGTCAGCTGGAAGTACTGA	MIKKTGLATCVASALSLGLLQGAIAQESSDAAVLDTLTVVGDSKEAEQDSYKAKSSSAATKLDLTPRETPQSISTITRAQLDDFKLTSVNDALKNTTGISVEEVETDRTYFTARGFDITNFQYDGLGTPFVYGNLDGSIDTAPFERIEIVRGANGLMTGTGNPSATVNFVRKRPTLEPQARIDLTAGSWDLRRIDTDVSGALTESGNVRGRVVYANENKNSYLDRYSREKNVFHGVLEFDLDDSTLFSLGHTLQKTDSNSPMWGALPLVDSAGQPTHLSRSTSTSSDWAYWDNQENRTFAELSHRFDNGWEAKGVLTRVEKRGDSKLFYVYGTPNAQTGLNLAAYPSQYKDENKQWIADLYVSGPFALAGREHELMLGVNWSKSNLDDDSYYGRGIGTALPPMSEWDGNYPEPPFDASTAGSTFEDKQKSVYSAARFSLTDKLSLIAGARATKLDSDGDSYGVKKKRSDDDITPYAGLVYDINDLFSVYASYTEIFDPQSRLDASGNRLAPVEGTSYETGVKGELFDGRLNVSAAVFKTKQDNIAESAGFVNGRQAYSGANYLSEGYEFEVSGEVLPGLQAVAGYTYVDIQDENHGHGKTYVPKHLVRASATYRVPSLEQLKVGASVNWQDDIHRDVDIGGRLARVEQDAYAVVNLMASYDIDPHWTVSANLNNLTDEKYLTSLYWDQGYYAAPRNASMSVSWKY	PGPT0003775_1430	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_COMPLEX_RECEPTOR,PGPT0003775-fptA|fhuE|fpvA|C_FEV_OM1|fauA-K16088	NA	NA
BMS010_08339	873	mntA	COG0803	Manganese-binding lipoprotein MntA	ATGCGCCTGTTATTCGCCGCTTTGCTCCTGCTTCTGCCGCTTTCCCTGTCCGCCGCGGAAAAGCTGAAGGTGGTCGCCAGCTTCAGCATCCTTGCCGACATCACCCGGCAGATTGCCGGGAATGAGGTGGAGCTGCGGACATTGGTCGGCCCCGACGAAGATGCCCACGTCTACGAACCCACTCCGGACGATGCCAAGGCCTTGCTGGCAGCCGATCTGGTGATCGCCAACGGTCTCGGCTTCGAACCCTGGCTCGACCGGCTGCTGGCCTCCGGCGAGGCGCGCGGCCAACGCATTGACGCGAGCCGGGGCGTGGTGCCGCTGACCATCGATGAGGACGGACATCGCATCCCGGACCCGCATGCCTGGCAGAGCCTCGCCAACGGCGAGATCTACGTACGCAACATCGCCCAGGCGCTGATGGCCGCCGATCCGGCGCATGCCGATACCTACGCCCAACGCCGCGACGCCTACCTGCAGCGCCTGCAAGACCTGCTCGCCAAGGCCAGGGAGAGCCTCGGCCGGCTGCCGGCGAGCAAGCGCCGCGTCATCACCAGCCACGACGCATTCGCCTATCTGGGGCAGGCCTATCAGTTGCAGTTCCTTGCACCGCAAGGGCTGTCCACGACCGACGAGCCGTCGGCCGCCGAGGTCGCCGCCCTGATCCGGCAAATCCGCAATGAGGGCGTGCAGGCGGTGTTCGTCGAAAACATCCGCGATCCGCGCCTCGTCGAGCAGATCGCCGCTGAAGCCGGCGCCAGGGTCGGCGGCACGCTGTACTCCGACGCCCTGGCGGCGGAAGGTCCGGCCAGTACCTACCTGGGCCTGTACGAGCACAATCTGGATGCGCTGATGGACGCCCTCAAACCCTGA	MRLLFAALLLLLPLSLSAAEKLKVVASFSILADITRQIAGNEVELRTLVGPDEDAHVYEPTPDDAKALLAADLVIANGLGFEPWLDRLLASGEARGQRIDASRGVVPLTIDEDGHRIPDPHAWQSLANGEIYVRNIAQALMAADPAHADTYAQRRDAYLQRLQDLLAKARESLGRLPASKRRVITSHDAFAYLGQAYQLQFLAPQGLSTTDEPSAAEVAALIRQIRNEGVQAVFVENIRDPRLVEQIAAEAGARVGGTLYSDALAAEGPASTYLGLYEHNLDALMDALKP	PGPT0004275_1939	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MANGANESE_TRANSPORT,PGPT0004275-ABC_ZM_S-K02077	NA	NA
BMS010_08340	858	mntB_1		Manganese transport system membrane protein MntB	ATGGACGCGCTCTGGCAGCCCTTCGTGGAGTTCGCCTTCATGCGTCGCGCGCTGTTCGGCGGCATTGTGCTGGCCGTCAGTGCGGCGCCTCTGGGTGTCTTTTTGATTCTGCGGCGGATGAGCCTGATCGGCGACGCCATCGCCCATGGCATCCTCCCCGGCGCCGCGCTGGGCTTCTGGTTGGCCGGCCTGAGCCTGCCGGCCATGACCTTCGGCGGTCTCGGCGCCGGTCTGGCCATGGCTGGCCTGGCCGCCTGGATCACCCGCCGCACCGGCCTGCGTGAGGATGCCAGCCTGGCGGCGATCTATCCGATCTCCCTGGCCAGCGGCGTGCTCCTGCTCGGCCTGTCCGGCAAGCGACTCGACCTGCTGCACCTGCTGTTCGGCTCCGCCCTGGCCGTGGACGAAACGACGCTTCATGGCATGTTGCTGGTCGCGTCCGCCAGCCTCGTGCTGCTCGTGGCGATCTATCGCTGGCTCGCCCTGGATAGCTTCGACCCGCTCTTCCTGCGCAGCGTCAGCCGGCTCGGTCCGCTGGCCCATGGGCTGTTCCTGACGCTGGTGGTGCTCAACCTGGTGGTGGGGTTCCAGGCCATCGGCGCGTTGATGGTGGTCGGGCTGATGATGCTGCCGGCCGCCGCGGCGCGTTTCTGGAGCAGGCGTCTGCCCGTCCTGCTGATACTCGCCGCCCTGCTCGCCGCCGCCTGCGTCTGGCTCGGCCTGCTGTTTTCCTACTACGCCGCGCTGCCCAGCGGGCCGTGCATCGTCCTGCTGGCCGGTGCGGCCTACCTGATCTCCGTACTGGCCGGGCCAGTCCACGGCCTGCTGCGCCGTATCCCTTCGCCGATCGCTACCTGA	MDALWQPFVEFAFMRRALFGGIVLAVSAAPLGVFLILRRMSLIGDAIAHGILPGAALGFWLAGLSLPAMTFGGLGAGLAMAGLAAWITRRTGLREDASLAAIYPISLASGVLLLGLSGKRLDLLHLLFGSALAVDETTLHGMLLVASASLVLLVAIYRWLALDSFDPLFLRSVSRLGPLAHGLFLTLVVLNLVVGFQAIGALMVVGLMMLPAAAARFWSRRLPVLLILAALLAAACVWLGLLFSYYAALPSGPCIVLLAGAAYLISVLAGPVHGLLRRIPSPIAT	PGPT0004270_865	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MANGANESE_TRANSPORT,PGPT0004270-ABC_ZM_P-K02075	NA	NA
BMS010_08341	669	scaC_2	COG1121	Manganese import ATP-binding protein ScaC	ATGATCCGCTGCCTGGGCCTGCAATGGGGACCGGCCGGTCGGCCACTCACTCCGCCCCTGGACCTGCCTCTGCCGGCCGGCAGCCTGACAGCCATCACCGGCGCCAACGGCAGCGGCAAAAGCAGCCTGCTGAAGGTACTGGCCGGTCTGCACAAGCCCCTGGCCGGACAACTACGCCTGGCGGTTCCCTCGCTCGGTGGGGTCGGCTACTTGGCCCAGCAACAGAGCTTCGACCGGCAGTTTCCCATCGACCTGCTCGGTCTGGTCGCAGCAGGCAGTTGGCGCAGCCGACTTTCCCGCATCGAACGCCGGCGGCGGCTGGACCAGGCGCTGGCCAACTGGTCACTGGACGGGCTGCAAGACCGCCCCTTGCAGGCGCTCTCTGGTGGGGAACTGCAACGCGCCCTGCTCGCCCGCCTGGAGCTGACCGAGGCGCCACTGCTCTTGCTCGACGAGCCGGCAGCCGCCCTCGACGATGCCGGGCAGGCACTCCTGTGGCAGCAGATTGCCCGCTGGCAGCGCGAAGGCCGTACCCAGCTGGTGGTCTGCCATGATCTGGACGCCGTTCGCCGCTATTTCCCGAATAACCTGAAAATCGCTGCAGATGGCTGCCGCTTCACTTCAAATGCCCGCGATTCGTTCTCCATACGTGGACTGCGGGTTGCCTGA	MIRCLGLQWGPAGRPLTPPLDLPLPAGSLTAITGANGSGKSSLLKVLAGLHKPLAGQLRLAVPSLGGVGYLAQQQSFDRQFPIDLLGLVAAGSWRSRLSRIERRRRLDQALANWSLDGLQDRPLQALSGGELQRALLARLELTEAPLLLLDEPAAALDDAGQALLWQQIARWQREGRTQLVVCHDLDAVRRYFPNNLKIAADGCRFTSNARDSFSIRGLRVA	PGPT0004265_988	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MANGANESE_TRANSPORT,PGPT0004265-ABC_ZM_A-K02074	NA	NA
BMS010_08342	900	folE2		GTP cyclohydrolase FolE2	ATGAACGCCATAACCCTGCCGGATATCGCCATCCAGTCCAGCCAACAGCAGCAGCCCCTCGACTGGGTCGGCATGTGCGGCATCGCCCTACCTCTGCTGCTGGAGGGGCAACGCATCCAGGCCCATGCGGACGCCGGTGTCAGCCTGGACGACGGCAGCGCCCGCGGCATTCATATGTCGCGCCTGTACCTGGCGTTGGCCGATTTGGAGCACGAGCCGCTGACCACGCCGCTCGTGCGGCGCGTACTGGAACGGTTTCTTCACAGCCATGAAGGACTTTCCCAGCGCTCGGAACTGCGCCTGCGTGGCGAGCTGCCGCTCAGTCGCCCGGCGCTGGTCAGCCCGCTCAGCGGCTGGAAGGCCTATCCCTTCGAGGTTCTGGCGAGGCTGGATGCCGCTGGGTTTCACGTGGAACTGCAGGTGGAGGTCGTCTATTCATCCACCTGCCCCTGCTCTGCCGCGCTGGCCCGGCAGCTCATCCAGCAACGCTTTGTCGAGGATTTCGCCCAAGGCCCGCTGGACCGCGCCGAAGTGCTGGCCTGGCTGGGTAGCAGCCAGGGCATCGTCGCCACGCCCCACAGCCAGCGCAGTACCGCCAGCCTGCGCGTGCGGTTGGATGGGCACGCCGCAGACTTTCCCATCGAGCGCTTGGTGGATTGCGCCGAAGCAGCGTTGGCCACGCCCGTGCAAACCGCGGTGAAACGCGCCGACGAGCAAGCCTTCGCCCTGGCCAACGGACAGAACACGATGTTCTGCGAGGATGCGGCGCGCCGCCTCCATCGGGCGCTGCGCGGCCTCGATGAGGCCCGGGGCTTCCGGGTACGCGTCGTCCATGCCGAAAGCCTGCATGCCCACGATGCCGTGGCGGAGAGCCGTTGGAACTGGGAGGAAACCCGATGA	MNAITLPDIAIQSSQQQQPLDWVGMCGIALPLLLEGQRIQAHADAGVSLDDGSARGIHMSRLYLALADLEHEPLTTPLVRRVLERFLHSHEGLSQRSELRLRGELPLSRPALVSPLSGWKAYPFEVLARLDAAGFHVELQVEVVYSSTCPCSAALARQLIQQRFVEDFAQGPLDRAEVLAWLGSSQGIVATPHSQRSTASLRVRLDGHAADFPIERLVDCAEAALATPVQTAVKRADEQAFALANGQNTMFCEDAARRLHRALRGLDEARGFRVRVVHAESLHAHDAVAESRWNWEETR	PGPT0007880_476	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007880-folE2-K09007	NA	NA
BMS010_08343	405	dksA_4	COG1734	RNA polymerase-binding transcription factor DksA	ATGACCGAAGAAGAACTGCTCCAACAGCCCCCCGAGGCCTACATGAACGAGGCCCAGCAAGCCTTTTTCAAGGACCTGCTGCTGCGCCAGCGCGAATCGCTGCGCAGCCGCATAGACGGCGAGTTCGACGAGCTGCGCGAGCAGGATCGCCCCGCGGACGACGTCGACCTGGCCAGCCGCGAGGAGCAGCGCCAGTGGCAACTGCGCCTGCTGGAACGGGAAAAGAAGCTGCTCGACAAGATCGACGAAGCCCTGGAGCGCCTGGCCCGGGGCGAATACGGCTGGTGCGCCGAAACCGGCGAGCCGATTGGTCTGCAACGGTTACTCCTGCGCCCCACCGCGACGCTCTGCATCGAGGCCAAGGAGCGCCAGGAGCAACTGGAAAAACACCTGCGTAACGTCTGA	MTEEELLQQPPEAYMNEAQQAFFKDLLLRQRESLRSRIDGEFDELREQDRPADDVDLASREEQRQWQLRLLEREKKLLDKIDEALERLARGEYGWCAETGEPIGLQRLLLRPTATLCIEAKERQEQLEKHLRNV	PGPT0014560_2046	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|CRP_SIGNALLING_PATHWAY,PGPT0014560-dks-K06204	NA	NA
BMS010_08344	1206	yciC_3	COG0523	Putative metal chaperone YciC	ATGAACCCACGCCTGCCTGTCACCGTGCTGTCCGGTTTTCTCGGCGCCGGCAAGAGCACGCTGCTCAACCACGTACTGAAGAACCGCGAGGGCCGCAAGGTCGCGGTGATCGTCAATGACATGAGCGAAATCAACATCGATGGCGGCGAGGTCCAGCGCGACGTCAGCCTCAATCGCGCCGAGGAAAAGCTCGTCGAGATGAGCAACGGCTGCATCTGCTGCACCCTGCGCGAAGACCTGCTGGAAGAAGTCAGCCGGCTCGCCCGGGAAGGTCGCTTCGACTACCTGTTGATCGAGTCCACCGGAATTTCGGAGCCCTTGCCGGTGGCCGAGACCTTCACCTTCCGCGACGAGCAGGACCGCAGCCTGTCCGACCTGGCGCGGCTGGACACCATGGTCACGGTGGTCGACGGGCTGAATTTCCTGCGCGACTACCAGGCGGCGGACAGCCTGGCCAGCCGGGGCGAGACCCTGGGTGAGGACGACGAGCGTTCGATCACCGATCTGCTGATCGAGCAGGTGGAGTTCGCCGACGTCATCCTGATCAGCAAGATCGACCTGATCGGCCAGGCCGAGCGCGACGAACTGCTGGCCATCCTCGGGCGCCTGAACGCCACGGCGGAGATCATTCCGATGGTCATGGGCCAGGTGCCGCTGGAGAAAATCCTCGATACCGGCCGCTTCGATTTCGAGCGCGCCGCCCAGGCGCCTGGCTGGCTGAAGGAGATGCGCGGCGAACACGTGCCGGAAAGCGAGGAATACGGCATCGCCTCCACGGCATACCGGGCGCGCCGGCCCTTTCACCCGCAGCGCTTCTTCGATTTCCTCAACCGGGAATGGACCAATGGGCGCCTGCTCCGCTCCAAAGGCTATTTCTGGCTGGCCAGCCGGCCCCAGGACGTCGGTAGCTGGTCGCAGGCTGGTGGGTTGATGCGGCATGGCTTCGCCGGTCGCTGGTGGTGTTTCGTATCGCGCGACCACTGGCCCGTGGATGAGGAAAGCCTGGAGGCAATCACGCGCCATTGGACCGACGAGGTCGGCGATTGCCGCCAGGAGCTGGTGTTCATCGGGCAGAACATCGACTTCGCCCGGCTGAACGCGGAACTCGATAGCTGCCTGCTGACCGATGCGGAATGGAGCGAGGGTGTGGACGCCTGGCAACGTCTGCCGGACCCCTTCGCGCGCTGGACCGAGGAGGCCGCCTGA	MNPRLPVTVLSGFLGAGKSTLLNHVLKNREGRKVAVIVNDMSEINIDGGEVQRDVSLNRAEEKLVEMSNGCICCTLREDLLEEVSRLAREGRFDYLLIESTGISEPLPVAETFTFRDEQDRSLSDLARLDTMVTVVDGLNFLRDYQAADSLASRGETLGEDDERSITDLLIEQVEFADVILISKIDLIGQAERDELLAILGRLNATAEIIPMVMGQVPLEKILDTGRFDFERAAQAPGWLKEMRGEHVPESEEYGIASTAYRARRPFHPQRFFDFLNREWTNGRLLRSKGYFWLASRPQDVGSWSQAGGLMRHGFAGRWWCFVSRDHWPVDEESLEAITRHWTDEVGDCRQELVFIGQNIDFARLNAELDSCLLTDAEWSEGVDAWQRLPDPFARWTEEAA				NA	NA	NA	NA	NA
BMS010_08345	636			hypothetical protein	ATGCTGGCCCGGCAGTTGGTTCCAGCGGTGCGGCAGCGGCTGGATGCGCAGCCGGACGTGCTCGCCGATGCGCTGCTCGACGGGGTCAACCTGGCGGTGTGGCAGCGCGGCCTGCCGGAGGTCGTGGCAGGGTTCGCCGTCCGGTTGCTGGCCAGCGGCGAACCGCTGGCGCAATCCCTCACCCTGGAGATCGAGAGCGAAGCCGAGCCCTCCTTGCAGGCGCTGGCCGGCGACTTCTGCGCGCTGCCCGGCCATGCCGAATTCGTCGCCGACGTGGCCTGGCTGGTGCGGGCCTACGCCTGCCTGCTGGAGGCCCGGCGCATCGGGTTGCGCCTGCGCGTGCTGGACAAGGCCATGTGCCCGCGCTTCCACGTCGACCACGTGCCGCTGCGGCTGGTGACCACCTATGCCGGAGTCGGCAGCCAATGGCTGGAAGAGAGAGCGATGGATCGCCGCCGCCTGGGTGATCCGGCCGGCGAGCCGTCGGAGGGTATCCGGCAGATCGAGACCGGCCACGTGGCGCTGCTCAAGGGCGAGAAGTGGATCGGCAACGAAGGCGCCGGCCTCATCCACCGCTCGCCGCAACCGGCGCCGGGCGAACGCCGGTTGTTGCTGACACTGGATTGGCTTGGCTGA	MLARQLVPAVRQRLDAQPDVLADALLDGVNLAVWQRGLPEVVAGFAVRLLASGEPLAQSLTLEIESEAEPSLQALAGDFCALPGHAEFVADVAWLVRAYACLLEARRIGLRLRVLDKAMCPRFHVDHVPLRLVTTYAGVGSQWLEERAMDRRRLGDPAGEPSEGIRQIETGHVALLKGEKWIGNEGAGLIHRSPQPAPGERRLLLTLDWLG				NA	NA	NA	NA	NA
BMS010_08346	354			hypothetical protein	ATGCGCCGTTGGTTCCTTTCCTTGCTGGCCGCCCTGCCCCTGTTCGCCCAGGCCGAGGCCTGCATCGTGCACAGCCGCGCCGAACGGCTGGACGTGAAGGTCTGCCAGCAGAACCGCAGCATCCCCGAAGCGCTGTTCCGCAGCGGCTTCTGCCAGCCGCAATTGCAGGGGCAGGAAGTCGAGGTGGAGTTCGTCGAACAGTGCCCACAGGGCGCCTTCGGCATTTGCAGCGACGCCCAGGCGAGCAACATGCCGTACCGGCAGGATATCCATTACTACGGCGTGGCCAGCGATGCCGCCTTCCTCAAGCCCTATTGTGAGCAACAGAGCAAGGGGAATTGGCTGAAGCCCTGA	MRRWFLSLLAALPLFAQAEACIVHSRAERLDVKVCQQNRSIPEALFRSGFCQPQLQGQEVEVEFVEQCPQGAFGICSDAQASNMPYRQDIHYYGVASDAAFLKPYCEQQSKGNWLKP				NA	NA	NA	NA	NA
BMS010_08347	963	yeiR	COG0523	Zinc-binding GTPase YeiR	ATGCTCGAACACATTCCCACCCACCTGATCGCCGGCCCCCTGGGCGCGGGCAAGACCAGCCTGATCCGCCACCTGCTGGCACAGAAGCTGGACGGTGAGCGCTGGGCGATCCTGATCAACGAGTTCGGCCAGATCGGCCTGGACGCGGCGTTGCTGACCACCGATCAAGACGGCATCGCCCTGGGCGAAGTGGCGGGCGGCTGCCTGTGCTGCGTCAACGGCGCGCCGTTCCAGGTCGGGCTGGGCCGGCTGCTGCGCAAGGCGAAGCCCGACCGCCTGTTCATCGAACCCTCCGGCCTTGGCCACCCGGGCGAACTGCTGCGGCAACTGCGCGAGCCGCCTTGGGAAGGCGTACTGGCCGTGCAACCGTGCGTCATGGTGCTGGATGCCCAGGCCATGGCGGCCGGCCAGCCCCTGCCGGACAGCCAGCGCGACGCACTGCCGGAAGCGGCGCTGCTGGTCTTGAACAAGGCGGAACATCTCGACGAGGCGACCCGTGCCCGGCTGGCCGAGGCGTTGCCCTCCGTCACACTGCATTGGACGTCCCAAGGAGCGCTGCCGCTGGGGCGGTTGCCCGGTATCGACCGGCGCCCGGGGACTGGCGCCGCGTCCTTGCCTCAGCCCGAGGGGCCGGCGGCGCTGCCGGCGCTCTGGCGCGATCCGGCGCAGCCCATCTGCCAGACCCATGCCCAGGCCGAAGGCTGGAGCATCGGCTGGCGCTGGCACCCGAGCCAGCGGTTCGAACTGATGCGTGTCCAGCTCTGGCTGGCCAGCCTGCCCTGGCGCCGGGTCAAGCTGGTGTTGCAGACCAACGCCGGCTGGCTGTCCGGCAATGCCCTGGACGGCCAGCCGATCCACTGGCAGGCCAGCGAATGGCGCAAGGATTCGCGCCTGGAACTGATCTTCGCCGTCCCGCAGGACGAAGCGGCATTGAAGGCCGGGCTGGAGGCATGTCGCCTCTGA	MLEHIPTHLIAGPLGAGKTSLIRHLLAQKLDGERWAILINEFGQIGLDAALLTTDQDGIALGEVAGGCLCCVNGAPFQVGLGRLLRKAKPDRLFIEPSGLGHPGELLRQLREPPWEGVLAVQPCVMVLDAQAMAAGQPLPDSQRDALPEAALLVLNKAEHLDEATRARLAEALPSVTLHWTSQGALPLGRLPGIDRRPGTGAASLPQPEGPAALPALWRDPAQPICQTHAQAEGWSIGWRWHPSQRFELMRVQLWLASLPWRRVKLVLQTNAGWLSGNALDGQPIHWQASEWRKDSRLELIFAVPQDEAALKAGLEACRL				NA	NA	NA	NA	NA
BMS010_08348	1308	kgtP_2		Alpha-ketoglutarate permease	ATGGACAATTCCAGCACCCTGATCACCCCTGCCGTGCCCCGAACCACCTCGCAGCGCCTGAAGTCCATCTTCAGCGGCTCCGTGGGTAACCTGGTCGAGTGGTACGACTGGTACGTGTACGCCGCCTTCTCCCTGTACTTCGCCAAAGCCTTCTTCCCCCAGGGCGACATGACCGCCCAACTGCTCAACACTGCCGCGATTTTCGCCGTGGGCTTCCTGATGCGCCCGATCGGCGGCTGGCTGATGGGCATCTACGCCGACCGCAAGGGACGCAAGGCGGCGCTGCTGCTGTCGGTCCTGATGATGTGCGGCGGCTCGCTGATCATCGCCCTGACGCCGGGCTACGAAACCATCGGCGTCGCCGCGCCGATCCTGCTGGTGCTGGCGCGCCTACTCCAGGGCCTGTCGGTGGGTGGCGAATACGGCACCTCGGCCACCTACCTCAGCGAGATGGCGACCAAGGAGCAGCGTGGCTTCTACTCCAGCTTCCAGTACGTCACGCTGATCTCCGGCCAGCTCATCGCCCTCGGCGTGCTGATCGCACTGCAGCAAACACTCAGCACCGAGCAACTGGAAAGCTGGGGCTGGCGCGTGCCCTTCTTCATCGGCGCCTTCTGTGCGGTCGCCGCGCTGTATCTGCGCCGCGGCATGGAAGAAACCGAGTCCTTCACCCAGAAGAAGGACAAGCCGAAGGAAAGCCTGCTGCGTACCCTGCTGCGCTATCCCAAGGAAGTGCTCACCGTGGTCGGCCTGACCATGGGCGGCACCCTGGCCTTCTACACCTACACCACCTACATGCAGAAGTACCTGGTGAACAGCGTCGGGATGAGCAAGAACGACTCGACCATGATCTCGGCCGCCACCCTGTTCCTGTTCATGCTGCTGCAACCCATCATCGGCGCGCTGTCCGACAAGATCGGCCGGCGTCCGATCCTCATCGCCTTCGGCGTGCTCGGAACCCTCTTCACCTACCCGATCCTCAGCGCCCTGCAAGGCGTGCAGAACTGGTGGGACGCGTTCCTGCTGATCATGCTGGCGCTGATCATCGTCAGCGGCTACACCTCGATCAACGCCGTGGTGAAGGCCGAACTCTTCCCCACCGAGATCCGCGCCCTCGGCGTCGGCCTGCCCTATGCGCTGACCGTGTCGATCTTCGGCGGCACTGCCGAGTATCTCGCCCTGTGGTTCAAGAGCATCGGCATGGAGAGCGGCTTCTACTGGTACGTCACCGGCTGCATCGCCTGCTCGCTGCTGGTGTACGTGTTCATGAAGGACACCCGCCACCACTCGCGGATGGATCGGGATTGA	MDNSSTLITPAVPRTTSQRLKSIFSGSVGNLVEWYDWYVYAAFSLYFAKAFFPQGDMTAQLLNTAAIFAVGFLMRPIGGWLMGIYADRKGRKAALLLSVLMMCGGSLIIALTPGYETIGVAAPILLVLARLLQGLSVGGEYGTSATYLSEMATKEQRGFYSSFQYVTLISGQLIALGVLIALQQTLSTEQLESWGWRVPFFIGAFCAVAALYLRRGMEETESFTQKKDKPKESLLRTLLRYPKEVLTVVGLTMGGTLAFYTYTTYMQKYLVNSVGMSKNDSTMISAATLFLFMLLQPIIGALSDKIGRRPILIAFGVLGTLFTYPILSALQGVQNWWDAFLLIMLALIIVSGYTSINAVVKAELFPTEIRALGVGLPYALTVSIFGGTAEYLALWFKSIGMESGFYWYVTGCIACSLLVYVFMKDTRHHSRMDRD	PGPT0001525_745	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_KETO-|OXOGLUTARATE_TRANSPORT,PGPT0001525-kgtP-K03761	NA	NA
BMS010_08349	852	phaZ		Poly(3-hydroxyoctanoate) depolymerase	ATGCTGCGCTCTTTTGCTACTGCTACCTGCCGTTCGCTTCTCTGTGCGCTTCTCGCCCTGCTCGGCACCGGCATCGCCTGGGCCGACTCCCGTTGCAGCGAACGAAGCGCGACGCTGCTGCTGCCCGCCAAGGTCAGTTGCAGCTACCAGACCACCTGGATTTCGTCCGGGCCGCTGAGCATCCGCCAGGTGATCTACCAGACGCCCCTGGGCACGCCGCCGGCCAAGGGCTGGCCGGTGGTGCTGGTCTACCAGGGCTCGTTCTTCCCGTTGGACGACTTCACCTACTACAGCAACATGCCCTTCGGCGGTTTCTACGAGGGAAAATTGATCCAGAAGCTGCTGGACAACGGTTACGCGGTGATCGCCCCCAGCGCCCCGGCCGACCTGTTCTGGCAGACCAACATACCCGGCCTGGCGCAGGCCTATGAGCTGAGCACCGACTACCCGTTCATCGGCAACGTGCTGCAGGCGATCCGCCAGGGGCATTTCGGCCGGCTCGATCCCAGCCGCCAGTACGCCACCGGCATCTCCAGCGGCGGCTACAACACCAGCCGGATGGCGGTGTCCTTCCCCGGCCAGTTCAAGGCGCTGGCCATCCAGTCGGCATCCTATGCCACCTGCAGCGGCCCGGTGTGCGTGGTGCCGGAGCTGCCGGCGAATCATCCGCCGACCACCTTCCTGCACGGTTTCGTCGATGCCGTAGTGCCCTGGTGGAGCATGGACCTGTATTACGACCGGCTGCTCTACCAGGGCATCGAAACCACCCGCTACACCGAACCCCTGGGCGGCCATGAGTGGTTCTCCGCCTCGCCCCGGCACATCCTCGCCTGGTTCAACGCCCACCCCTGA	MLRSFATATCRSLLCALLALLGTGIAWADSRCSERSATLLLPAKVSCSYQTTWISSGPLSIRQVIYQTPLGTPPAKGWPVVLVYQGSFFPLDDFTYYSNMPFGGFYEGKLIQKLLDNGYAVIAPSAPADLFWQTNIPGLAQAYELSTDYPFIGNVLQAIRQGHFGRLDPSRQYATGISSGGYNTSRMAVSFPGQFKALAIQSASYATCSGPVCVVPELPANHPPTTFLHGFVDAVVPWWSMDLYYDRLLYQGIETTRYTEPLGGHEWFSASPRHILAWFNAHP				NA	NA	NA	NA	NA
BMS010_08350	1734			hypothetical protein	GTGACCAAGCAAGGACGAGGTCTGGGCGTTGCGACGCTGACTATCTGCGGATTGCTGCCTTCGACGCAGGCGACGGCGTTCCAGGTGCGCTCGGGCGACTGGACGACTTCCCTCGACACGACGTTGTCCTACGGCCTCAGCTACCGCATGGAGGACCAGGACCAGAAGCTGATCGCCCGCGCCAACGGCGGCCGGGGCGACAATGCGGCGCTGATCAACAGCGACGACGGCAACCTCAACTTCAAGCAGGGCGAGCTGTTTTCCGAGGTGGTGAAGGTCGTCTCGGAGATGGACCTGCGCTACCGCGACACCTACGGCCTGTTCCTGCGCGGCCGGGCGTTCTACGACTTCGAACTGGAAGACGACGAGCGCCGGCACCGGCAGATCAGCTCGGACGGCCTCGACGAAGCCGGCTCGGACGCGGAAATCCTCGACGCCTTCGTCTACGGTAGCTGGACTCTCGACGACCACGCGCTGAATGCCCGCCTGGGGCGACAGGTGATCAACTGGGGCGAAGGGCTGTTCTATCAGAACGGCATTGGCGTCACCAACCCGGTGGACATCAACGCGCTGCGGGCGCCGGGCTCGGAAGTGAAGGAGGCCTACATGCCCACCTTCATGGCCTACGCCTCCTTCGAGCTGCGCGAGAACCTGACCCTGGAAGGCTACTGGCAGCCGGGCTGGGCCTGGGAATCCTCGAAGATCGACCCCTGCGGCACCTACTACTCGACCCTCGACGTGATCGGCGAGGGCTGCAACTACCTGTCCGTCCCGCCGTTGCAGGAGCCCCTGCCCGGCGGCCTGGCCTTCGACAGCCCGGAGCAGTTGCAGGACTACCTCGACACCCTGCCGCCCGGCCCCCTCAACGACCTGCTTCGCGCCTACCTGCCGACCACTTTCATCCCGCGCAGCCGTGACCTGGAGGCTGACGGTGCTGCCCAGTACGGCCTGGCCCTGCGCTGGTACGTACCGGAGCTGAACGACACCGAGCTGGGCTTCTACTACCTGCGCTACAACATGAACGTGCCCATGCTCGGCCTGACCGTCGGCCAGCCCACCGTCCTGCCGGTGGCGAGCAGTTCGAATTACTACGCCGAATACCTGGAAGACCGCGACCTGTTCGGCATCAGCTTCAACACCACCATCGGCGGCGACAGCTTCCTCAACGGCCTGTCGCTGGCCGGCGAGCTGAGCTATCGCCCGGACGCGCCTATCGCCCTGGGACTCGGGGAATACCTGCCGACCGCACTGCTCGGCAACCTCGCCGGGCTGCCGGTGGGTACGCGGCTGGACGGCTACCGCGAGAAGAAGATGTACCAGGCGTCCCTGGTGGCCATCTACAACTTCAACGGCCTGCTGGACTCGGACTCCGCGACCCTGCTGTCGGAACTGGTGGCCAGCCGGGTCGAGGACCTGGAGGACGACGTCGACTACTACGACGCCACCACCCATGCCGTCGGCGCCCAGGCCAGCCTGTCGTTGAACTACACCAACGTGTTCAACCTGGTGAACCTGGTTCCCAACGTCAGCTACCAGTACGGGATCAACGGCATCGCGCCGCAACTCACCAACGGCATCGTCGAGAACGCCCGCAGCTACTCGCTGGGGCTGGACGCCATCTACCAGGAGTCGCTGACCTTCGGCGTCAAGTACGTCGGCTACGCCGGCGGCGGGCTGGCCAACAAGCGCAGCGACCGCGACTACCTCAGCTTCAACGTCAAATACAGCTTCTGA	MTKQGRGLGVATLTICGLLPSTQATAFQVRSGDWTTSLDTTLSYGLSYRMEDQDQKLIARANGGRGDNAALINSDDGNLNFKQGELFSEVVKVVSEMDLRYRDTYGLFLRGRAFYDFELEDDERRHRQISSDGLDEAGSDAEILDAFVYGSWTLDDHALNARLGRQVINWGEGLFYQNGIGVTNPVDINALRAPGSEVKEAYMPTFMAYASFELRENLTLEGYWQPGWAWESSKIDPCGTYYSTLDVIGEGCNYLSVPPLQEPLPGGLAFDSPEQLQDYLDTLPPGPLNDLLRAYLPTTFIPRSRDLEADGAAQYGLALRWYVPELNDTELGFYYLRYNMNVPMLGLTVGQPTVLPVASSSNYYAEYLEDRDLFGISFNTTIGGDSFLNGLSLAGELSYRPDAPIALGLGEYLPTALLGNLAGLPVGTRLDGYREKKMYQASLVAIYNFNGLLDSDSATLLSELVASRVEDLEDDVDYYDATTHAVGAQASLSLNYTNVFNLVNLVPNVSYQYGINGIAPQLTNGIVENARSYSLGLDAIYQESLTFGVKYVGYAGGGLANKRSDRDYLSFNVKYSF				NA	NA	NA	NA	NA
BMS010_08351	1356			putative protein	ATGACCCTTCGACTGATGAGCGCAACCCTGGCCGCCGTGCTGCTCGGCTGCGCCGCCCATGCCCTGGCCAAGGTCCCGACGGACCAGGCCGCCCGCCTGGACGCCGACCTCACCCCGCTGGGCGCGGAGCGCGCCGGCAACGCGGCGGGAACCATTCCCGCCTGGAATGGCGGCCTGGCGCGCTCGGCGAATGCCTACGATCCGGCCCAGGGCTACAAGGACCCCTTCGCCGCTGACCAGCCGTTGTTCACCATCACCGCGGCCAACGCCGACCAGTACAAGGCGCAGCTGAGCCCCGGCCAACTGGCGATGCTCAAGCGCTTCTCTTCCTGGAAGCTGCCGGTCTATCCGAGCCGCCGCTCGGCGTCCTACCCGGCCAAGGTCTACGAGGCGGCCAAGGCTAACGCGCTCACCGCCAGCCTGATCGAGAACGGCAACGGCATCGCCGATTTCCAGGTCGCCACGCCATTCCCCATCCCGCAGTCGGCGCTGGAAGTCCTGTGGAACCACCTGACCCGCTACCGCGGCGACAGCGTCAAACGCTACTACGCCCAGGCGGTGCCGCAGGCCAATGGCGACTACTTCATGACCAGCATCGAGGATCTGTTCCTGTTCAACGCCGATGCGGGCGACTACAGCAAGGGGAACGGCAACGTGCTGTTCTACTTCCGCCAGTCGGTGCTGGCGCCGGCACGCCTGGCCGGTACCGAACTGCTGGTGCACGAGACCGTCAACCAAGTGAAGGAGCCACGCCTGGCCTGGCTCTACGCCGCCGGTCAGCGCCGTGTCCGGCGTACGCCCAACGTCGCCTACGACTCGCCCGGCACCGCCTCCGACGGCATGCGCACCACCGACAACTTCGACATGTTCTCCGGTGCGCCGGACAAGTACGACTGGCAACTGGTGGGCAAGCAGGAAATGTACGTGCCCTACAACAGCTACAAGTTCGCGGCCAAGACCAATACCTACGCGGACATCGTCAAGCCCGGCCATGTGAACCCGGACCTGCTGCGTTATGAATTGCACCGGGTCTGGCATGTGCGCGCCACCTTGAAGAAAGGCATGCGGCATATCTATAAACAACGCGATCTGTATTTCGATGAAGACAGTTATCAGATCGTCGTGGTCGATCATTACGATAATCGGGATAACTTATGGCGCGTCGGTGAGTCCTATACGATCAATTATTACGACCAGCCGTTGTTATGGACGAAAGGCGATGCCGTATACGACTTGATCAGTGGTCGTTATGTCATCGGCATTCTTTCCAACCAGGAACCGGCCGATGAATTTTCCATCGCCCTTAAACCCAGCGATTTCACGCCGGCACAATTAAGACGGGATAGCCGGCGTTAA	MTLRLMSATLAAVLLGCAAHALAKVPTDQAARLDADLTPLGAERAGNAAGTIPAWNGGLARSANAYDPAQGYKDPFAADQPLFTITAANADQYKAQLSPGQLAMLKRFSSWKLPVYPSRRSASYPAKVYEAAKANALTASLIENGNGIADFQVATPFPIPQSALEVLWNHLTRYRGDSVKRYYAQAVPQANGDYFMTSIEDLFLFNADAGDYSKGNGNVLFYFRQSVLAPARLAGTELLVHETVNQVKEPRLAWLYAAGQRRVRRTPNVAYDSPGTASDGMRTTDNFDMFSGAPDKYDWQLVGKQEMYVPYNSYKFAAKTNTYADIVKPGHVNPDLLRYELHRVWHVRATLKKGMRHIYKQRDLYFDEDSYQIVVVDHYDNRDNLWRVGESYTINYYDQPLLWTKGDAVYDLISGRYVIGILSNQEPADEFSIALKPSDFTPAQLRRDSRR				NA	NA	NA	NA	NA
BMS010_08352	621			hypothetical protein	ATGTACAGTCTTGCCAGCCCCACTCAGGCCCGCAGTAAGAAAGCCCTCGAGCGCTTCCTCAATGTGGCCGCCGAACTGCTCGCCAACAATACGTTCGAAGAAACCGGAATATCCCAGATCGCCCAACTTGCCGAATCATCGGTAGGAACTTTCTATCGTTTGCTCGGTGACAAGGACATACTTCTTTATGCCGTGCACGAACGTTTCGTCAAAGAAAGCCAGAGTGCCATCGACGAAAGTATCGAAGCGTTATTGCGGGACGACTTGAGCGCTTCCGAACGCATCGACCGCTTCATCCGTACCCTCATCACCCTGTTCGCCCAGCGCGAAGGCCTGCTCCGCGCCTTGATCCGCCGCAGCTCCAGCGACCTGCAGTTCCGCCAGCGTTTCCACCAGCTCAACGCCGCCATCGGCCAGGCGTTCTGCCGTATCGTGCTGGCCCAGCCGCAGGCGATCCGCCACCCGCATCCCGACCAGGCGGCCGATCTTGCCGCGCATATGATGCTGGCCAGCATGAATTACTACACCCTCACCGGAAGTCTCGGCATGACGCCTGCGGAATCCATTCCGCAGGAACTTTCCCGTCTCGTCCTTAATTATCTCGAAGTGTCCGACGTTTAA	MYSLASPTQARSKKALERFLNVAAELLANNTFEETGISQIAQLAESSVGTFYRLLGDKDILLYAVHERFVKESQSAIDESIEALLRDDLSASERIDRFIRTLITLFAQREGLLRALIRRSSSDLQFRQRFHQLNAAIGQAFCRIVLAQPQAIRHPHPDQAADLAAHMMLASMNYYTLTGSLGMTPAESIPQELSRLVLNYLEVSDV				NA	NA	NA	NA	NA
BMS010_08353	801	tgnD_3		(E)-2-((N-methylformamido)methylene)succinate hydrolase	ATGGACTTTATCGAACTGAGCGGTGGCCGCTTCGGCTACATCTGCACAGGGCAGGGCACTCCCGTGCTGCTGCTGCATGGCCTGGGTTCGTCGCTGCTGGACTGGCAGCCACAGATCGACCACCTGTCCCGGTCCTTTCGCGTCTATGCGCTGGACCTGCGTGGCCACGGCCGCAGCGAACCGCTGCGTGCCCGGCTGCGCCTGGCCGATCTCGCCGAAGACGTGGCCGAGTTCATCCGCGCGAAAGAAATCGAGCCCTGCTTCGTCGTCGGCATTTCCATGGGAGGCATGATCGGCTTCCAACTGCTGGCATCGCACCCGCACATCGCGCGCGGCTTCGTCGCCATCAACAGCACGCCGAGTTTTCCGCTGGATTCCTTCGCCCTGCGCTGCCGGTTGGCGCTACGCCTGCTGCTGATCCGCCTGCTCGGGCTGCGTGCACTGGGCTGGCTGCTGGCGCGCAAGCTGTTCCCCCATGCCGGCCAGGCCGCGCTGCGGGCCCAGACCGCGGCGCGCATCGCCGGCAACGACCGCACCTCCTACCTGCATGCGCTGCGGGCGATTCCCGGTTGGTCGGCGTGGCCGGCGCTGGAGAACGTCGCCACGCCGATGCTGATCGTCTCCGGCGACCGCGACTACACCCCGCTGGCCTACAAGCGCGACTATGTCCGCAAGTTGCGCAATGCCCGGCTGGTGGTCATCGAGGATTCCGGGCATGCCACACCGCTGGACCAGCCGACACGGCTCAACGCCGTGCTCGAACGCTTTCTGGCCGATCCGGACGCTGCCCTGGCCGGCTGA	MDFIELSGGRFGYICTGQGTPVLLLHGLGSSLLDWQPQIDHLSRSFRVYALDLRGHGRSEPLRARLRLADLAEDVAEFIRAKEIEPCFVVGISMGGMIGFQLLASHPHIARGFVAINSTPSFPLDSFALRCRLALRLLLIRLLGLRALGWLLARKLFPHAGQAALRAQTAARIAGNDRTSYLHALRAIPGWSAWPALENVATPMLIVSGDRDYTPLAYKRDYVRKLRNARLVVIEDSGHATPLDQPTRLNAVLERFLADPDAALAG	PGPT0004995_1053	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0004995-pcaD|catD-K01055	NA	NA
BMS010_08354	879			hypothetical protein	ATGCAACTCTATCCCTGGGCACAGCCCACCTCGGCGGGCTTCACACTGCGCGGCTGGCGCAGCGTGCCGTCCGGCAAACCCCTGCTGCATTTCCTCCACGGCAATGGCTTCTGCGGGCGCACCTATGAGCCCATGCTCCAGCACCTGGCGGAGTCCTTCGATCTCTGGCTGTGCGATGTCCAGGGCCATGGCGACAGCGACCTCGGCGGGCGCTTCCATGGCTGGAACCGTAGTGCCGAGCTGGCGGTGGAGGCGTTCCAGGCCAACCGCGCAATGTTCGGCGAGGTGCCCTGTTTCGCCGCCGGGCACAGCTTCGGCGGGGTGCTGACCAGCCTGATCCTGGCCCGCGAGCCGGCGCTGTTCCAACGCGCCGTGCTGCTTGACCCGGTGCTCTTCACTCCCACCTTGATCGGCGTGATGGCGCTCTCCGACGTGGTCGGCCTGTACCGACGCAATACCCTGGCGCGCAAGGCCCGCGCCCGTCGCCGCCAGTGGCCCGACCGCACCGCCGCCTTCGCTGCGCTGCAAGGACGTGGGATGTTCAAGGGCTGGAGCGATGAATCGCTGCGGTCCTACGTGAACCATGCGCTGAAAGACGTGGAGAATGGCGTCGAGCTGAAATGCCGGCCCAGCCGCGAGGCGGAAATCTTCAGTTCCTTTCCCCGGCGGCTGTGGCCGTCGCTGGCCAAGGTCCGCACCCCGACCCAGGTGATCTACGGGCAGACGAGCTACCCCTTCGTCGCCAAGTCGGTGGCACGCTGGTGTGCGTTGAATCCGGTGGTGAGCGGGCAGGTGGTGCCCGGTGGGCACTGCTTCATGCAGGAAGACCCGCGTGCGTCGGCGGAGCGGGTGGCCGACTTCCTGCTGCAGCGCGGCTGA	MQLYPWAQPTSAGFTLRGWRSVPSGKPLLHFLHGNGFCGRTYEPMLQHLAESFDLWLCDVQGHGDSDLGGRFHGWNRSAELAVEAFQANRAMFGEVPCFAAGHSFGGVLTSLILAREPALFQRAVLLDPVLFTPTLIGVMALSDVVGLYRRNTLARKARARRRQWPDRTAAFAALQGRGMFKGWSDESLRSYVNHALKDVENGVELKCRPSREAEIFSSFPRRLWPSLAKVRTPTQVIYGQTSYPFVAKSVARWCALNPVVSGQVVPGGHCFMQEDPRASAERVADFLLQRG				NA	NA	NA	NA	NA
BMS010_08355	393			hypothetical protein	ATGCTGACCCTCGGTAATCTGTTCATTTTCATGCTGCTGGCCACCGTCGGCGCCTGGCTATGGCATGGCCACGGCGTGCGCGAACGCGCCCTGGCGCGGGTCAAGCAGCATTGCGACAAGCTGGACGTGGAACTGCTCGACGGCAATGTCGCCCTGCGCCGCTTCACCCTGCTGCGCGACGCCCGCAACCGGCTGCGCCTGGCGCGGGTGTACGGCTTCGAGTTCACCGTCACCGGCGAGCAGCGCCACGCTGGCAGCATCGTCATGTTCGGCGTGCATCCCGGCCCCATCGAGATGGCGCCGCATCCGTTCGTCGCCCGGGCCAGCGAGTCGGCCAAGGTGATCCAGATGGACACCTGGCGCCGCGAGCACGAGCGCAAGAGCGGCGAGTAG	MLTLGNLFIFMLLATVGAWLWHGHGVRERALARVKQHCDKLDVELLDGNVALRRFTLLRDARNRLRLARVYGFEFTVTGEQRHAGSIVMFGVHPGPIEMAPHPFVARASESAKVIQMDTWRREHERKSGE				NA	NA	NA	NA	NA
BMS010_08356	399			hypothetical protein	ATGGAACCGCGTCTGAGCCTGATCACCCTGGGTGTCGCCGATCTTCCCCGTGCCGTCGCCTTCTACCGCGACGTACTGAAACTGCCGCAACTGGACAGCCCGCCCGTGGTGGCATTCTTCGAGCTGGGCAAGACCTGGCTCTCGCTGTTCCCGCGCAGCGACCTGGCCGCCGATGCCGGCGTGCCGGCCGAGGGCAGCGGTTTCCCCGGCTTCACCCTGGCGCACAACCTGCGTTCGCCGGAAGAGGTGGACGCGCTGCTGGCGGAGGTGGTGGCCGGCGGCGGTCGGCTGGTGAAGCCGGCGCAGCACGCCGAGTGGGGTGGCTACGCGGGTTATTTCGCCGACCCGGATGGCTTTCTCTGGGAGGTGGCCTGGAACCCGCACTTCCCTCATCTCTGA	MEPRLSLITLGVADLPRAVAFYRDVLKLPQLDSPPVVAFFELGKTWLSLFPRSDLAADAGVPAEGSGFPGFTLAHNLRSPEEVDALLAEVVAGGGRLVKPAQHAEWGGYAGYFADPDGFLWEVAWNPHFPHL	PGPT0028555_1871	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-FOSFOMYCIN_RESISTANCE,PGPT0028555-putative_fosB-K07032	NA	NA
BMS010_08357	408			hypothetical protein	GTGACCGCCCGCAGACGAAACCGACCTGCCGCATGGCTTGGCCTCTTCGCCATGCTCATGCTGTTCGTCGGCCCGTTGCTGTCCCAAGGGCTGGTCGAAACGCCGGCGCCGGCCGCGCACGCAGGCCATGCTGGCCACGGCGATCACCCTGAGGGGCATGCGGCCCATGATCCGCACGCCGGCCATGGCGGCGGGGCGATGCACGAACCCCACGATGCGCTCTGGGCCAAATGCGGCTATTGCACGCTGCTGTTCAGTTGCCCGGCGCTGAGCCAGGCGCCGGTCGATCCTGCTCCACCGTCCTACGGTCTCGCCACGCCCTGTCCGCCGAGCCCGGCCAGCCAGGGCCATCCCCGCGCCGCCTTCTTCCCCGGTGCCCGCAGCCGCGCGCCGCCGCTGTCCGCCTGA	MTARRRNRPAAWLGLFAMLMLFVGPLLSQGLVETPAPAAHAGHAGHGDHPEGHAAHDPHAGHGGGAMHEPHDALWAKCGYCTLLFSCPALSQAPVDPAPPSYGLATPCPPSPASQGHPRAAFFPGARSRAPPLSA				NA	NA	NA	NA	NA
BMS010_08358	2091	btuB_6		Vitamin B12 transporter BtuB	ATGCCATTGGAAAACGCTTCCGCCCGGCCGGCGCATGGTGCCTGCCCGTTCGTCCAGAAACCCTCCCGGCTACGCTGGCGCCGGGCCTTCGCCGTCTTCGGCGGCCTGTTGCTGGCGCCCTTCGCCAGCGCCGAGGAGCATCAGCACGACCAGGTGATCATCCTGGCGCCGAAGGTGGTCACCGCCGTGGCGCAGAGTTCGCCGCTGACCATCGTCGCGGACCCCAAGGATGCCCGCCAACCGGTCCCGGCCAGCGACGGCGCCGACTACCTCAAGACCATTCCCGGCTTCGCCGCGATCCGCAGCGGCGGCAGCAATGGCGACCCGGTGCTGCGCGGCATGTTCGGCTCGCGCATCAACCTGCTGGCCAACGGCGGCCAGATGCTTGGCGCCTGCCCGGGACGGATGGATGCGCCGACCTCCTACATCGCCCCGGAAACCTATGACCGCCTGACCGTGATCAAAGGCCCGCAGACCGTGCTCTGGGGCCCCGGCGCGTCCGCCGGCACCGTGCTCTTCGAGCGCGAACCGGAACATTTCGGCGAACTCGGCAGCCGCATCGACGCCAGCCTGCTGGCCGGCTCCAACGGTCGCTTCGACCGCTTGCTGGACGCCGCCGCGGGCGGCGAACAGGGCTACCTGCGGCTGGTCGGCAACCGCGCCCAGGCCGACGACTACCGCGATGGCGACGGCGACACCGTGCCCTCGCGCTGGAACAAATGGAACGCCGACGCCGCCCTCGGCTGGACGCCAGATGCCGACACCTTGGTCGAACTCACGGCTGGCAGCGGCGATGGTGAGGCCCGCTACGCCGGGCGCGGCATGGACGGCGTGCAGTTCAAGCGCGAGAGCCTCGGCCTGCGCCTGGAGAAGAGCAACCTCGGCGAGCACCTGGAAAAGGTCGAGGCCCGGCTCTACTACAACTACGCCGACCACCTGATGGACAACTACAGCCTGCGCGACGCACCGGCCAGCGGGGCGATGGCTTCCAACGTCGACCGTCGTACGGTCGGCGGGCGACTGGCCGGCACCTGGCGCTGGGACGATTTGCAGCTGATCGCCGGTGTCGACGGCCAGGCCAATACCCACCGCAAGCGCAGCGCCATGGGCATCGACACCTACGACGACAAGCCCTGGACCAAGGATGCCGCCTTCCATGGCTACGGCGCGTTCGGCGAACTGACCTGGTTCGCCGGCGACCGCGACCGCCTGATCGGTGGCGCCCGGCTGGACCGGGCCACGGTGAAGGACTACCGCGATACCCTCGGCAGCGGCATGGCCACCACGCCCAACCCCACCGCCGACGAGCGCCGCGAAGACACCCTGCCCAGCGGCTTCCTGCGCTACGAGCACGACCAGGGCGGCGCCATCTGGTACGCCGGCCTCGGCCACGTCGAGCGCTTCCCGGACTACTGGGAACTGTTCTCGCCGCGCCAGGCGCCTACTGGCGAGGTGAACGCCTTCGACGGCATCGAGCCGGAGAAGACCACCCAGCTGGACGTCGGTGTGCAGTATCGCGACAAGCGCGTGGACGCCTGGGTTTCCGCCTACGCCGGGGTGGTCCGCGACTTCATCCTGTTCGACTACCGCAGCGGTAGCTCGCGGGCGGAAAACATCGACGCCCGCATCATGGGCGGCGAAATGGGCGCGGCCTACCACCTGACCGAGCGCTGGACCACCGACGCCACCCTGGCCTACGCCTGGGGCGAGAACCGCACGGACGATGAGGCACTGCCACAGATGCCGCCGCTGGAGGCGCGCTTCGGCCTGACCTACGCCACCGACGACTGGAGCGCAGGTGCTCTCTGGAGAGTGGTGCGGGCGCAGAACCGGGTCGCCGTGGGCAAGGGCAACGTGGTCGGCAAGGATCTGGAATCCAGCCCCGGTTTCGGCGTGCTGTCGCTCAACGGTGCCTACCGGGTGAGCGAACACCTGCGCCTCAGCGCCGGTGTCGACAACCTGCTCGGCAAGGACTACGCCGAACACCTCAACCTGGCGGGCAACGCCGGCTTCGGCTTCTCGGCGGACGATCCGCGCAGCATTCACGAACCCGGCCGGACCCTCTGGACCAAGGTCGATCTCTCGTTCTGA	MPLENASARPAHGACPFVQKPSRLRWRRAFAVFGGLLLAPFASAEEHQHDQVIILAPKVVTAVAQSSPLTIVADPKDARQPVPASDGADYLKTIPGFAAIRSGGSNGDPVLRGMFGSRINLLANGGQMLGACPGRMDAPTSYIAPETYDRLTVIKGPQTVLWGPGASAGTVLFEREPEHFGELGSRIDASLLAGSNGRFDRLLDAAAGGEQGYLRLVGNRAQADDYRDGDGDTVPSRWNKWNADAALGWTPDADTLVELTAGSGDGEARYAGRGMDGVQFKRESLGLRLEKSNLGEHLEKVEARLYYNYADHLMDNYSLRDAPASGAMASNVDRRTVGGRLAGTWRWDDLQLIAGVDGQANTHRKRSAMGIDTYDDKPWTKDAAFHGYGAFGELTWFAGDRDRLIGGARLDRATVKDYRDTLGSGMATTPNPTADERREDTLPSGFLRYEHDQGGAIWYAGLGHVERFPDYWELFSPRQAPTGEVNAFDGIEPEKTTQLDVGVQYRDKRVDAWVSAYAGVVRDFILFDYRSGSSRAENIDARIMGGEMGAAYHLTERWTTDATLAYAWGENRTDDEALPQMPPLEARFGLTYATDDWSAGALWRVVRAQNRVAVGKGNVVGKDLESSPGFGVLSLNGAYRVSEHLRLSAGVDNLLGKDYAEHLNLAGNAGFGFSADDPRSIHEPGRTLWTKVDLSF	PGPT0003790_23204	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS010_08359	1365			hypothetical protein	ATGACAAGAAAAACCGTGCCTTCGTTCTACAACCTGGCCTGGCGCTGGCATTTCTACGCCGGGCTGTTCGTCGCGCCCTTCATGATCCTGCTGGCGATCACCGGGATCGTCTACCTGTACAAACCGCAGCTCGATACGCTGCTCTACGCCGACCTGATGCAGGTCCCGGCGGGCGAGCACCGGCTCGCCGCCGACGAGCTGCTGGCGCGGGTTCGCGAGGCTTATCCACATGCCCGGGTCAGCCAGTACCTGCCGCCGCCGGATGCCGGGCGCAGCGCCCAGTTCGTCGCCACGCTGGACGGCCGCGAGCTGAACCTGTTCGTCGATCCCTACCGCGGCACCCTGCTCGGCAGCCAGGACGCGCACAACAATCTGCAAGCCATCGCCCGCGCCCTGCACGGCGAACTGATGGTCGGCACCCTGGGCGACCGGTTGATCGAGCTGGCGGCGGGTTGGGGGATTGTCCTCGTGGTGTCCGGGCTCTACCTCTGGTGGCCGCGCGGGCAGGGTGGGGCGGGTGTGCTCTGGCCGCGCCTGGCGAGCCGGGGACGGCTGTTCTGGCGCGACCTGCACGCCGTGCTCGGCTTCTGGGGCGCGTTGCTCACGCTGTTCATGCTGCTCACCGGCATGACCTGGACCGGCTTCTGGGGCAAAACCTTCGCCGACGTCTGGAACCGTTTCCCGGCGGCCATGTGGAACGAGGTGCCGACCTCCGACCTGGAGGCGCGCAGCCTCAACAGCGCGGCCCGGCAGAACGTGCCCTGGGCGGTGGAGAACACCCCGCTGCCGGTCTCCGGCGCTCATGCCGAACACCAGGGTCACGCCGGACATGGCGTCGCCGCCCCGCAGATCAGCCTGCAACAGGTGGTGGACATCGCCGAGGCGCGTGGCGTGGTGCCTGGCTACGGCATCACCTGGCCTAAGGGCGAGAAGGGCGTGTTCTCCATCGCGGTGTTCGCCGACGACCCGCGCAACGACGCCACCCTGCACATCGACCAGTACAGCGGCGCGGTGCTGGCCGACGTGCGCTGGCGCGACTACGGCCTGGTGGCGCGCAGCGTAGAAACCGGCGTGATGCTGCACGAAGGCAAGATGTTCGGCTGGCCCAACCAGTTGCTGATGCTGGGCATCTGCCTGCTGATCCTGCTGAGCGCCGTCAGCGGCCTGGTGATGTGGTGGAAGCGCCGCCCCGCCGGGCGTTTCGGCGTTCCGCCACTGCGCCACGACCTGCCGCTGTGGAAGGGCGGGGTGGCGATCACGCTGGTGCTCGGCGTCGCCTTCCCGCTGGTGGGATTGTCGATGATCGCGGTCTGGCTGCTCGACCGGCTGTGGCTGGCGTGGCAGCCGGAGCGGGCTATCACATAG	MTRKTVPSFYNLAWRWHFYAGLFVAPFMILLAITGIVYLYKPQLDTLLYADLMQVPAGEHRLAADELLARVREAYPHARVSQYLPPPDAGRSAQFVATLDGRELNLFVDPYRGTLLGSQDAHNNLQAIARALHGELMVGTLGDRLIELAAGWGIVLVVSGLYLWWPRGQGGAGVLWPRLASRGRLFWRDLHAVLGFWGALLTLFMLLTGMTWTGFWGKTFADVWNRFPAAMWNEVPTSDLEARSLNSAARQNVPWAVENTPLPVSGAHAEHQGHAGHGVAAPQISLQQVVDIAEARGVVPGYGITWPKGEKGVFSIAVFADDPRNDATLHIDQYSGAVLADVRWRDYGLVARSVETGVMLHEGKMFGWPNQLLMLGICLLILLSAVSGLVMWWKRRPAGRFGVPPLRHDLPLWKGGVAITLVLGVAFPLVGLSMIAVWLLDRLWLAWQPERAIT				NA	NA	NA	NA	NA
BMS010_08360	489			hypothetical protein	ATGGAGCCCGGAAATGCCCAACTGTCGATGACCGTGCTGATGACCCCGGACATGGCCAACTTTTCCGGCAATGTCCATGGCGGCACCCTGCTGAAATACCTCGACGAAGTCGCCTATGCCTGCGCCAGCCGCTACGCCGGGCGCTATGTGGTGACCCTGTCGGTGGACCAAGTGATCTTCCGCGAACCGATCCACGTGGGCGAACTGGTGACCTTCCTCGCCTCGGTGAACTACACGGGGCGCACGTCCATGGAAATCGGCATCAAGGTGGTGACCGAGAACATCCGCGAGCGCTCGGTCCGCCACACCAACAGTTGCTTCTTCACCATGGTGGCGGTGGACGACCAGCGCCAGCCGACGCCGGTCCCCCCGCGCGAACCGGCGACACCCGACGAGAAGCGCCGTTTCGCCCAGGCCCTGCAGCGCCGCCAGATCCGCGAGGAACTGGAGCAGCGCTATCGGGAGTTGAAGGGCAGTTGGAACGAGTGA	MEPGNAQLSMTVLMTPDMANFSGNVHGGTLLKYLDEVAYACASRYAGRYVVTLSVDQVIFREPIHVGELVTFLASVNYTGRTSMEIGIKVVTENIRERSVRHTNSCFFTMVAVDDQRQPTPVPPREPATPDEKRRFAQALQRRQIREELEQRYRELKGSWNE				NA	NA	NA	NA	NA
BMS010_08361	411			hypothetical protein	ATGAGTTCTGCCGCGTTACGCCACGACATCCAGGATTTCGCGTCCGAAGACTCCCGCCGCGATCTCGCACGGGTCATCGGCGCCCTGTTCGAACGCTGGGGACTGGATACCGACCTGCAGATGCAACTGCTCGGCATGAGCCCGAAGAGCCGCAAGCAGTTACCCCGCTACCGCGCCGGCGAAGCCGCACTGCCGGCCAACCGCGACACCCTGGACCGCATCGGCTACCTGCTGGGCATCCACAAGGGGTTGCGCCTGTTGTTCCCCGAGGACGAAGAGTTGCGCTTCAGCTGGGTACGCCGGCGCAACCGTGCCCTGGAAGGCGAGACGCCGCTGGAAGTCATGGCGCGCGACGGCCTGATCGGCATTGCCCGGGTTGCCCGCCTGATCGACTTCCAGCGAGGACGCTGA	MSSAALRHDIQDFASEDSRRDLARVIGALFERWGLDTDLQMQLLGMSPKSRKQLPRYRAGEAALPANRDTLDRIGYLLGIHKGLRLLFPEDEELRFSWVRRRNRALEGETPLEVMARDGLIGIARVARLIDFQRGR				NA	NA	NA	NA	NA
BMS010_08362	696			hypothetical protein	ATGGCCCTGCTCGATACCACCTGCGATTTTTCCGGCACCGTCTACCGCAACATCGTTTCGTTGCGCGTCTCGGCCAACCTGTTCGACGACCTGGTCGCCGACAGCCGGGCCCAGGAGGCGGCCAACGACGCGGAGATGCGCGTGCGCAGCGTCGGCCCCGGCGTGATCGAACGGGGCCTGGCCTACAGCGAAGCCATCGGCTACCCGTTCGAGGCCGACACCAGCGTTGCCAGCCGCTACGGCGACGGCACCGTGCGCGTCTGGTACGGCGCCCTCGACGAAGACACCGCCCTGGCCGAGACCTGTTACCACCAGATCCAGATGCTCCGCGACATCGAAGGCGTCGACCGGGTGGTGACGCGCTACCGCAAGGTCTGGCAGGTCCAGGCGGCGGGCCTGTTCATCGACCTGCGCGGCAAGGAAACGGAATTCCCCGAACTGGTCGCCGACGACTACGCCTACACCCAGGCCATCGGCAAGCGCCTGTCCCACGAAGGCATCCCCGGCCTGCTCTACCCCTCGGCCCGCTGGCCCACCGGCGAATGCCTCGGCGCCTTCCGTGCCGACCCGCTGTCCCAGCCGATCCAGCTCTACGACCTCACCTACCGCATCGACCCCGTGGCCGGCGTGGTGGCGGTCGAACGCGAACCCGGCAAGCTGCTGTGCCGCCTGAGCCTGGAGCAGCTCCGTCGGTGA	MALLDTTCDFSGTVYRNIVSLRVSANLFDDLVADSRAQEAANDAEMRVRSVGPGVIERGLAYSEAIGYPFEADTSVASRYGDGTVRVWYGALDEDTALAETCYHQIQMLRDIEGVDRVVTRYRKVWQVQAAGLFIDLRGKETEFPELVADDYAYTQAIGKRLSHEGIPGLLYPSARWPTGECLGAFRADPLSQPIQLYDLTYRIDPVAGVVAVEREPGKLLCRLSLEQLRR				NA	NA	NA	NA	NA
BMS010_08363	1368	puuA_5	COG0174	Gamma-glutamylputrescine synthetase PuuA	ATGCGATTCGCCGATCTCAACGAAGCCCAGACCTTCCTCGCCGCCCATCCCGAGGTGAAGAGTTTCGAGCTGTTCATCATCGACCCCAACGGCGTACCGCGCGGCAAGCTGCTGCGCCGGGAAGAGCTTTTGGCCATCTACGAAAGCGGCCGTCCGCTGCCGAGCACCATCCTCGGCCTGACCATAAACGGCGACGATGTGGAGGACTCCGGGCTGGTCTGGGAGGTCGGCGACGCGGATTGCTGGGCCTACCCGCTGCCCGGCAGCCTGGTGCTGCAACCCTGGCGCAGCGCGCCCACCGCACAGTTGCAGGTGAGCATGCACCCAACCCAGGGCCTGCCGGCGACGGTGGCCGACCCGCGCCATGTGCTCGCCCGGGTGATCGACGGGCTCAAGGCGGATGGCTACCACCCGGTGATGGCCGCCGAACTGGAGTTCTACCTAATCGACCGCGAGCGCGGCGAAGACGGCCGACCGCTGCCGGCGCGCCAGATGAACGGCGCCAGGCCCCACGCCACGCAGGTCTATGGCGTCTACGAACTGGAGCAGCTACAGCCGTTCCTCGACGATCTCTACGCCGCCTGCGAGGCCCAGGGCCTGCCGGCGCGCACGGCGATTTCCGAATACGCGCCGGGGCAGGTGGAAATCACCCTGGAGCACCGTTTCGATGCCCTCCAGGCGATGGACGAAGGGGTGCGCTACAAGCGTCTGGTGAAGGGCGTCGCCAACCGCCACGGCTTGCAGGCCTGCTTCATGGCCAAGCCGTTCGGCGACCTCTCCGGCAGCGGCCTGCACATGCACGTGAGCCTGGCCGACGCGGACGGCAACAACCTTTATGCCAGTGAGGCGCCGGAAGGCACGCCGCTGCTCAAGCACTCGGTGGGCGGCATGCTCGCCACGCTGCTCGACAGCCTGGCGCTGTTCTGCCCCAACGCCAACTCGTTCCGCCGCTTCCAGGCCAACAGCTACGCGCCGCTGGCGCCGACCTGGGGCATCAACAACCGCACCGTGAGCCTGCGCGTGCCGGGCGGTCCGGCGAAGAGCCGGCACATCGAGCACCGTATCTGCGGCGCCGATGCCAACCCCTATCTGGCGGCAGCGGCGATCCTCGCCGGCATCCACCACGGCATCCGCCAGCAACTCGACCCCGGCGCCCCCATCGAAGGCAACGGCTACGCCCAGGCCCGGGAGTTCCTCCCCACCGACTGGCTCACCGCCCTGCGCGCCCTGGAAGACTCCAGCTGGGCCCGCGACGCCCTCGGCGCCGACTTCCTCAAGGTCTATCTGGCGATCAAACACGCCGAATACCGCACGTTCATGGGCGAAGTGGGCGAGCAGGACTGGCGTTGGTATTTGAACCATGCGTGA	MRFADLNEAQTFLAAHPEVKSFELFIIDPNGVPRGKLLRREELLAIYESGRPLPSTILGLTINGDDVEDSGLVWEVGDADCWAYPLPGSLVLQPWRSAPTAQLQVSMHPTQGLPATVADPRHVLARVIDGLKADGYHPVMAAELEFYLIDRERGEDGRPLPARQMNGARPHATQVYGVYELEQLQPFLDDLYAACEAQGLPARTAISEYAPGQVEITLEHRFDALQAMDEGVRYKRLVKGVANRHGLQACFMAKPFGDLSGSGLHMHVSLADADGNNLYASEAPEGTPLLKHSVGGMLATLLDSLALFCPNANSFRRFQANSYAPLAPTWGINNRTVSLRVPGGPAKSRHIEHRICGADANPYLAAAAILAGIHHGIRQQLDPGAPIEGNGYAQAREFLPTDWLTALRALEDSSWARDALGADFLKVYLAIKHAEYRTFMGEVGEQDWRWYLNHA	PGPT0000645_5668	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMATE_DEGRADATION|CONVERSION,PGPT0000645-glnA-K01915	NA	NA
BMS010_08364	1395	hemL_3	COG0001	Glutamate-1-semialdehyde 2,1-aminomutase	ATGACCGCCAGCGGTATCGCCGATCGCGCCGTGGAAATCCTGGCCGCCCGCGAACGGGCCCGTTTTCTCGAGCAGAATCCCAAGTCCGTCGCCCTCGCCGAGCGCGCCCGCCATTCGCTGTTCGGCGGCGTGCCCATGCACTGGATGAGCGACTGGTCCACGCCCTGCCCGCTGTTCGTCAGCCGCGCCCAGGGCGCGCGTTTTTATGACGTGGACGGCCATGAGTATCTGGACTTCTGCCTCGGCGATACCGGCAGCATGTTCGGCCACTCGCCGGCGCCCATTGCCCGCGCCATTGCCGAGCAGGGCGCCAACGGCCTGACCACCATGCTGCCGGGCGAAGACGCGGTGGTCGCCGGCGAACGGCTGGCGGAACGCTTCGGCCTGCCCTACTGGCAGGTGGCGACCACCGCCACCGACGCCAACCGCTTCGTGCTGCGCTGGGCGCGAGCGATCACCGGGCGCAACACGCTGCTGGTGTTCGACGGCTGCTACCACGGCACCGTCGACGATACCCTGGTGCGCTTCAAGGAAGGCCGCACCGTGCACCGCCCCGGCCTGCTCGGCCAGGCGCGCAACCTGGCCAAGTACAGCCGGGCGATACCCTTCAACGATCTCCAGGTCCTGGAAGCGGCGCTGGCCCAGGGCGACGTCGCCGCCGTGCTGTGCGAGCCGGCGATGACCAACATCGGTATGGTCCTGCCCGACCCGGGCTATCACCAGCGGCTGCGCGAACTCACCCGCCAGTACGGCACCCTGCTGATCATCGACGAAACCCACACCATCTCCACCGGCCCCGGCGGCTGCACCCGCGCCTGGAACCTGCAGCCGGACTTCATCACCCTCGGCAAACCCATCGCCGGCGGCGTGCCCTGCTCGGTGTACGGCTGCACGGCGGAAATGGCGCAGGCCATGCAGATCGTCCGCCAGCATGCCGGCGAGCATGGCGAAGGCCATGGGCACAGCGGCATGGGCACCACGCTGTCGGCCAATGCCCTGGCGATGCACTGCATGCGCGCCAACCTGGAAGAGGTGATGACCGAGCAGGCCTACGCCCACATGCTGCCGCTGGCGGCGCGTCTGGCCGAAGGCTTCCGCCGGCTGATCGACAAGCACGGACTGGCCTGGTCGGTGACCGAGCTGGGCGCGCGCTGCGAGTTCCAGTTCTGCGCCAAGCCGCCCCGCACCGGCGCCGAGGCCGAGGCGGCGTTCCACGATCACCTGCAGCAGACCCTGCACCTGTACCTGATCAACCGCGGCATCCTGATCACGCCGTTCCACAACATGACACTGTGCTGCCCGGACACCCGCACCGAGGACGTCGACCGGCTGATCGACACCCTCGACCAGGCGCTCGGCGAGCTGCTCGCGCTCCCTGGCGCACGCATCGCCTGA	MTASGIADRAVEILAARERARFLEQNPKSVALAERARHSLFGGVPMHWMSDWSTPCPLFVSRAQGARFYDVDGHEYLDFCLGDTGSMFGHSPAPIARAIAEQGANGLTTMLPGEDAVVAGERLAERFGLPYWQVATTATDANRFVLRWARAITGRNTLLVFDGCYHGTVDDTLVRFKEGRTVHRPGLLGQARNLAKYSRAIPFNDLQVLEAALAQGDVAAVLCEPAMTNIGMVLPDPGYHQRLRELTRQYGTLLIIDETHTISTGPGGCTRAWNLQPDFITLGKPIAGGVPCSVYGCTAEMAQAMQIVRQHAGEHGEGHGHSGMGTTLSANALAMHCMRANLEEVMTEQAYAHMLPLAARLAEGFRRLIDKHGLAWSVTELGARCEFQFCAKPPRTGAEAEAAFHDHLQQTLHLYLINRGILITPFHNMTLCCPDTRTEDVDRLIDTLDQALGELLALPGARIA	PGPT0003680_479	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003680-hemL-K01845	NA	NA
BMS010_08365	648			hypothetical protein	ATGGCCGAGAACCTTCAGGAACAGATGTACCAGCGCCTGCGCGAGGGCCTGCTGGCAGGGCGCTTCGAGCCCGGCGAAGCGCTGAAGCTACGCGATCTGGCCGCGCGCTGGGGCACCAGCCCGATGCCGGTGCGCGGCGCCTTGCAACGGCTGGTAGCCGAAGGCGCGTTGGAAGGAGAACCGCAGCGCTCGGTGCGGGTGCCGGTCATCACGGCCGAGCGCCTGATCCAGCTCTACCAAGTGCGCCTGAGCCTGGAAGGAATGGCGGCCGAGGAGGGCGCGCGGCGCCTGGATGCCGCCGGTCGCGCGCAACTGCACGCCTGCACCGGGCGGATGGCTGCCGCCCTGGCGCGCCGCGATGCGCAGGGTTACTTGTACGACAACAGCCAGTTCCACCTGACGCTCTACCGCGCCAGCGGCAACCCGGTGCTACTCCGCCTGATCGAATCGCTCTGGCTACAGGCCGGGCCGCTGTTCAACCGGCTTTTTCGCGAAACCGATCTGTCCCTGTTCAACGATTTCCACCAACACTGCCTCTATGCCCTGGACCAGGGCGATCCCGCAGCGGCGCGGCAGGCCATCGAACAGGACCTGCTGCACTTCCGGTCGATCCTGCTCGGCTTGTTCGAGGAAGCGGGTGAGGGCTGA	MAENLQEQMYQRLREGLLAGRFEPGEALKLRDLAARWGTSPMPVRGALQRLVAEGALEGEPQRSVRVPVITAERLIQLYQVRLSLEGMAAEEGARRLDAAGRAQLHACTGRMAAALARRDAQGYLYDNSQFHLTLYRASGNPVLLRLIESLWLQAGPLFNRLFRETDLSLFNDFHQHCLYALDQGDPAAARQAIEQDLLHFRSILLGLFEEAGEG	PGPT0023370_3	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-COLANIC_ACID_METABOLISM	CE-EPS-COLANIC_ACID_BIOSYNTHESIS,PGPT0023370-mcbR|yncC-K13654	NA	NA
BMS010_08366	408			hypothetical protein	GTGGAAGAAGTCATCGAACAGCTGCGCGAATTGAACGAACCGGTTCCGGTACCGCTGGAACTGCCGGACGACGATCTGCTGGTGGAGATCGAGGAGCAGTTGCTGATCAACCTGCCCTTCGAGCTGCGCGAGTTCCTGCTCAAGGTCAGCGACGTGGTCTACGGCCGCCTGGAGCCGGTGACCGTGACCGACCCGCAATCCCACACTTACCTGCCGGAAGTCGCCGCCACCGCCTGGGACCTGGGCGTGCCGCGCGACCTGGTGCCGATCTGCGAGGATCGCGGCGATTACTACTGCGTCGATCAGGAAGGCGAGGTCGTGCTCTGGTCCGGCGATGAGGCCGAGCTGACCGACGAGCGCTGGGATTCCGTCTGGCACTGGGCCAGGGATGTCTGGCTGGAAAGCTGA	MEEVIEQLRELNEPVPVPLELPDDDLLVEIEEQLLINLPFELREFLLKVSDVVYGRLEPVTVTDPQSHTYLPEVAATAWDLGVPRDLVPICEDRGDYYCVDQEGEVVLWSGDEAELTDERWDSVWHWARDVWLES				NA	NA	NA	NA	NA
BMS010_08367	258			hypothetical protein	ATGCGCAAGGACCACCTCTGCTCCATCCCTCCCGCCGACGGCCAGCCCGGCCTCGAACTGGTCTGGCTCGAAGACTGCCAGCCAGCCCTCGACCAGGGCGTCGCCTGCGCCGAGCGCTGGCTCGTTCGGCGCAACGGCCAGCTATGGACGGCCTTCATCCTGGGCCGTGAAGAGCAGCCTGGCGGCCACCGGCAAACCGCATTCGACGTCGGTTTTCTAACCCGTTTGCAACAACGCCTGATGGCCATTGATCACTGA	MRKDHLCSIPPADGQPGLELVWLEDCQPALDQGVACAERWLVRRNGQLWTAFILGREEQPGGHRQTAFDVGFLTRLQQRLMAIDH				NA	NA	NA	NA	NA
BMS010_08368	453	elaA	COG2153	Protein ElaA	ATGCCGCTCATCTGGACCAGCCAGCATCACAGCGAACTCGACAAGGAATCCCTCTACGCCATCCTTCAGCTGCGCACCCTGGTTTTCGTGGTGGAGCAGAAGTGCCCCTATCAGGAGGTCGATGGTCAGGACTTGCAGGGAGATACCTGCCACCTGATGGCCTGGCAGGACGGTCGGCTGGTGGGTTACCTGCGGCTGCTGGACCCTGAGCGCCACGAGGGCGACGTGGTGATTGGCCGCGTGGTGATCGCCCCCGAGGCCCGTGGGCAGGGGCTGGGTCATGAACTGATGGCCCGCGCCCTCGAAGAATGCCACCAGCGTTGGCCGCAGCGGCCGGTCTACCTGTCCGCCCAGGCCCACCTGCAAGGCTATTACGGGCGCTACGGCTTCACCCCGGTCACCGAGGTCTACCTGGAAGACGATATTCCCCACATCGGCATGCGCCGGGCGTAA	MPLIWTSQHHSELDKESLYAILQLRTLVFVVEQKCPYQEVDGQDLQGDTCHLMAWQDGRLVGYLRLLDPERHEGDVVIGRVVIAPEARGQGLGHELMARALEECHQRWPQRPVYLSAQAHLQGYYGRYGFTPVTEVYLEDDIPHIGMRRA				NA	NA	NA	NA	NA
BMS010_08369	1107			hypothetical protein	ATGCCCAAGAAACTCAGAAGCCCGGGCCAGAAGCGCAAACTCTGGATCCGCACGGCGATGATCCTGCTCGCCGTGATCACCCTCAGCGCCGTCTACTTCATCAGGGGCCCCGAGCAGCTCAAGGCCATCGCACTGGTCAAGCAGCACAGCGAGACCCAGGCCGCCATCCTCGGCCTCGACCACAGCGAAGAAGAGTACCGCACGGCCAAAGGCCGCCGCCGCACGCGGGACGTCTACACCCTGACCTACCGCTTCGCCCTGAACGGCACCGATTACCAGGAAACCTTCTCCATTTCAGGCTCCGAGTACCGGGCCCTGGAAGGTCAGGAAAGCCTGCCGGTCTGGTTCATCGAAGGCCAGCCGGAAAACAGCGAGCCCAGGCTCGTGGTGGAAAACCGCGCCAACGAATCGCCCCTGGAGAACGTCTTCGACGCCGTTCCCTATGTCGTGCCGCTGTTCCTGGTACTCAACTTCATCCTGACCCTGCTGTTCGGCCGGGAGCCGAAAGGCTACATGCCGGAGGGTTTCTTTACCGACGACAGTTGGCTGGACATCGAAGACGACCGGCTGGTGGCCATCGACGGGAAGCAATTGCTGTCGATCCGCTTCGACAAGAAGAACCGCGACGACGTGCAGAGCCTCTACCAGGGCGGCGGATCGATCGACCAGGTGCTCGCCACAAGCAAGTGCAAGCAGCTACGCATCGATATCGACAGCATCGTCGGGATATCCAGCGACCACTTCCGCGACACCATTCATGTGCGCTACATGGCTGATGGCAAGGAGCAATCGGAGAGCCTCGAATTCCTGAATCCGACGGTCAAGGAACACGCCCTGATCCGAATCGCCCGTGCCTTGCCGAGCACACTCGACATGTCCATGACCAGGCTGACCCGCCTGCAGGCGGCCCGCCCCGCGCTGATCTTCGGCCTGATCGTGGCGGTGGGCCTGTATTTCCTCTCCGATCACTTCCTGATCCTGGCGGTTGGCGTGCTGATCCTCCTGACCACGCTCAAGACCCTCCTGCAACGCCTGTTCAACCCCACCGTCACGACCACGTTCGCCGCCGCTCCGCGAGCGGCCTCGCCGGATGTCAGCGGCGCGTAA	MPKKLRSPGQKRKLWIRTAMILLAVITLSAVYFIRGPEQLKAIALVKQHSETQAAILGLDHSEEEYRTAKGRRRTRDVYTLTYRFALNGTDYQETFSISGSEYRALEGQESLPVWFIEGQPENSEPRLVVENRANESPLENVFDAVPYVVPLFLVLNFILTLLFGREPKGYMPEGFFTDDSWLDIEDDRLVAIDGKQLLSIRFDKKNRDDVQSLYQGGGSIDQVLATSKCKQLRIDIDSIVGISSDHFRDTIHVRYMADGKEQSESLEFLNPTVKEHALIRIARALPSTLDMSMTRLTRLQAARPALIFGLIVAVGLYFLSDHFLILAVGVLILLTTLKTLLQRLFNPTVTTTFAAAPRAASPDVSGA				NA	NA	NA	NA	NA
BMS010_08370	840			hypothetical protein	ATGCAGCGTTTCCTCAGCCTCGTCCTGGCCCTGTGTGTCGGCCTGACCCTCAGCCTCGACGCCAACGCCAAGCGTCTCGGCGGCGGCAAGACCTTCGGCTCCACGCCGACCCACCAGACCACCCAGACCCGCCAGGCCACCCAGCCTTCGACCACCGCCACCACCCCGACCGCCGGCCGCCAGCCCGCCGCCGCCAGCGGTGCCTCGCGCTGGCTCGGCCCGCTGGCCGGTATCGCCGCCGGCGGCCTGCTCGCTGCCATGCTGTTCGGCGATGGCTTCCAGGGCCTGCAACTGCTCGACATCCTGATCTTCGGCCTGATCGCCTTCCTGCTGTTCCGCTTCCTCGCCGCCCGCCGCCAGCAACAACCGGCCATGGCCGGCCACGCGCCGCAGCACCGCGACATGCCGCAGCAACCGATCTTCGGCAGCGCCGCCCCGGCCGCGGCCGCCCGTCCGGTGATCAACGCACCGGCCTGGTTCAACGAACAGCGCTTCCTGGACGCTGGCCGTGAACATTTCATGGCCTTGCAGCAGCACTGGGATGCCGCCGAGATGGACAAGATCGGCGAGTTCGTCACCCCGCAGATGCTCGACTTCCTCAAGCAGGAGCGCGCCAGCCTGGGCGACGGCTTCCAGTCCACCTACATCGACAACCTGCAGGTGAGCCTGGATGGGCTCGACGACCTGGAAGACAAGACCATCGCCACCCTTACCTTCACCGGCGTGGCCAAGACCTCCCGCTTCGACCAGGGCGAGTTTTTCAGCGAAAGCTGGCGCATGGAGCGCGAACAGGGCGAGAACAAGCCCTGGCTGGTGGCCGGTATCCGGCAGAACGGCTGA	MQRFLSLVLALCVGLTLSLDANAKRLGGGKTFGSTPTHQTTQTRQATQPSTTATTPTAGRQPAAASGASRWLGPLAGIAAGGLLAAMLFGDGFQGLQLLDILIFGLIAFLLFRFLAARRQQQPAMAGHAPQHRDMPQQPIFGSAAPAAAARPVINAPAWFNEQRFLDAGREHFMALQQHWDAAEMDKIGEFVTPQMLDFLKQERASLGDGFQSTYIDNLQVSLDGLDDLEDKTIATLTFTGVAKTSRFDQGEFFSESWRMEREQGENKPWLVAGIRQNG				NA	NA	NA	NA	NA
BMS010_08371	588			hypothetical protein	ATGAAGAAAGCCCCGACCGCCGACCAGATTCTCGATACCGCCCTCGACCTCGCCGACTTCACTGGCTGGGAACGCCTGCATCTTTACGTGGTGGCCGCCCGCCTGGACGTCGGCCTCGATGCCATCGCCAAGCACTTCCGGCAGAAGGATGACCTGGTCGAAGCCTGGTTCGACCGCGCCGACCAAGCCATGCTGCGCCGCGCCAAGGCCACCGACCTGCTCGTCCTGAGCCCGGCCAAGCGCCTGGAAGAATTGCTCGTCGCCTGGCTCGCCAGCCTTTCCACCCACCGCGCCGTCACCCGCCAGATGCTGCTCTACAAACTCGAACCCGGACACATCCACCTGCAATTGGGTGGCCTGCTGCGGGTCAGCCGCACCGTGCAATGGTGGCGCGAGGCGGCCCAGCGGCACACCACCCACCTCGCCCGCATCGCCGAGGAGACCGCGCTGACCGCCGCCTACCTCTGCACCTTCGTCCACTGGCTGCGCCACCCCGACGAAGACGAAGCGGACCTGCGTGCCCACCTGCGCCGGCAATTGCGCAGCGGCCCGCTGACACTGCTGCTGCGCGAGGAAGCGGCGGCCTGA	MKKAPTADQILDTALDLADFTGWERLHLYVVAARLDVGLDAIAKHFRQKDDLVEAWFDRADQAMLRRAKATDLLVLSPAKRLEELLVAWLASLSTHRAVTRQMLLYKLEPGHIHLQLGGLLRVSRTVQWWREAAQRHTTHLARIAEETALTAAYLCTFVHWLRHPDEDEADLRAHLRRQLRSGPLTLLLREEAAA				NA	NA	NA	NA	NA
BMS010_08372	1095		COG4663	Monocarboxylate 2-oxoacid-binding periplasmic protein	ATGAACCGCCGCCACCTCTTCGGTGCCGCCGCTGCCTTGCTCGCCACCCTCGGCCTCGCCGGCTGCAAGGACGACACCGCCCCCGCCAAACAGGAAGCCGCTGCCGAGGCCAAGACCTACCAGTGGAAGATGGTCACCACCTGGCCGAAGAACTACCCCGGCCTCGGCACCGGCGCCGAGCGCCTGGCCGAGCGGGTCAAGGCCATGAGCAACGGCCGCCTGACCATCAAGGTCTATGCCGCCGGCGAGCTGGTTCCCGCGTTGGAAGTGTTCGACAGCGTCTCCCGCGGCACCGCCGAGATCGGCCACGGCGCCGCCTACTACTGGAAAGGCAAGGTGGCCTCCGCGCAGTTCTTCACTGCCGTGCCCTTCGGCCTTTCCACCCCGGAAATGAACGCCTGGCTCACCCACGGCGGCGGCCAGGCCCTGTGGGACGAAGCCTACGCCCCCTTCGGCGTGAAGCCGCTGGCGGCAGGTAACTCCGGCATGCAGATGGGCGGCTGGTACAACAAGGAAATCAACAGCCTGGACGACCTCAAGGGCTTGAAGATCCGCATGCCCGGCCTGGGCGGCGAAGTGCTCAACCGTCTCGGCGCCACCACCGTCAACCTGCCCGGCGGCGAAGTGTTCACGGCCCTGCAGACCGGCGCCATCGACGCCACCGACTGGGTCAGCCCGTACAATGACCTGGCCTTCGGCCTGCACAAGGCCGCCAAGTACTACTATTACCCCGGCTGGCAAGAGCCTCAGGCGGTGATCGAGCTGCTGATCAACCAGAAGGCCTACGACAGCCTGCCGGCCGATCTCCAGGCGATTCTCACCGAAGCCGCCCGCGCCGCCACCCAGGACATGCTCGACGACTACGTCTACAACAACGCCCTGGCGCTGGACGAGCTGAAGAAGCAAGGCACCCTGCTCAAGCGCTTCCCTGACGAGGTGCTGGCGGCGATGCGCGACGAATCCGAGAAGGTCCTCGGCGAACTGGCCGCCCAATCCGACCTCAACGGCCGCATCTGGGCCTCGATGCAGGCCTTCCAGGCCCAGGTCACGCCGATGCACCAGTTGACCGAGAAAGAGCTGTACAACTGGCGTTGA	MNRRHLFGAAAALLATLGLAGCKDDTAPAKQEAAAEAKTYQWKMVTTWPKNYPGLGTGAERLAERVKAMSNGRLTIKVYAAGELVPALEVFDSVSRGTAEIGHGAAYYWKGKVASAQFFTAVPFGLSTPEMNAWLTHGGGQALWDEAYAPFGVKPLAAGNSGMQMGGWYNKEINSLDDLKGLKIRMPGLGGEVLNRLGATTVNLPGGEVFTALQTGAIDATDWVSPYNDLAFGLHKAAKYYYYPGWQEPQAVIELLINQKAYDSLPADLQAILTEAARAATQDMLDDYVYNNALALDELKKQGTLLKRFPDEVLAAMRDESEKVLGELAAQSDLNGRIWASMQAFQAQVTPMHQLTEKELYNWR				NA	NA	NA	NA	NA
BMS010_08373	2181	uvrD	COG0210	DNA helicase II	ATGCGCGACGATCTCTCCCTCCTGCTGAACTCCCTCAACGACGCCCAGCGCCAGGCGGTAGCCGCCCCGGTCGGACGTCAATTGGTCCTGGCCGGTGCCGGCTCGGGCAAAACCCGTGTGCTGGTGCACCGCATCGCCTGGCTGATCCAGATCGAGAACGCCTCGCCGCACTCGATCCTGTCGGTGACCTTCACCAACAAGGCCGCCGCCGAGATGCGCCAGCGCATCGAGCAACTGCTGGGCATCAACCCCATGGGCATGTGGGTAGGCACCTTCCACGGCCTCGCCCACCGGCTGCTGCGCGCCCACTGGCAGGAAGCCGGGCTGGCGGAGAACTTCCAGATCCTCGACTCCGACGACCAGCAGCGCCTGGTCAAGCGGGTGATCCGCGAACTCGGCCTCGACGAGCAGCGCTGGCCGGCGCGCCAGGCGCAGTGGTGGATCAACGCCCAGAAGGATGAGGGCCTGCGCCCGCAGAACATCCAGGCCGGCGGCGACCTGTTCCTCGCCACCCAGCTGAAAATCTACGAAGCCTACGAAGTGGCCTGCGCCCGCGCCGGGGTGATCGATTTCTCCGAACTGCTGCTGCGCGCCCTCGACCTCTGGCGCGACAAACCCGGCCTGCTGGAGCACTACCAGCGGCGCTTCCGCCACGTGCTGGTGGATGAATTCCAGGACACCAACGCCGTCCAGTATGCCTGGCTGCGTCTGTTGGCCAAGGGTGGCGAAAGCCTGATGGTGGTGGGCGACGACGACCAGTCGATCTACGGCTGGCGCGGCGCGCGGATCGAGAACATCCAGCAGTTCTCCAGCGACTTCCCGGATGCCGAGACCATCCGCCTGGAGCAGAACTACCGCTCCACCGCCTGCATCCTCAAGGCCGCCAACGCGCTGATCGCCAACAACCAGGGCCGCCTCGGCAAGGAACTCTGGACCGAAGGCTGCGAAGGCGAGCCCATCGCCCTCTACGCCGCCTTCAACGAGCACGACGAAGCGCGCTACGTGGTGGAAGGCATCGAGCGGGCCATCAAGGACGGCATGGCGCGCAGCGAAATCGCCATCCTCTACCGCTCCAACGCTCAGTCGCGGGTGCTGGAAGAGGCGCTGCTGCGCGAGAAGATTCCCTACCGCATCTATGGCGGCCAGCGCTTCTTCGAACGCGCCGAAATCAAGAACGCCATGGCCTATATGCGGCTGATCCACACCCGCCACAACGACGCCGCCCTGGAGCGGGTGATCAACGTGCCGGCGCGCGGTATCGGCGAGAAGACCGTCGAGACCCTGCGCGAATTCGCCCGTAGCCAGGGCCTGTCGATGTGGGCCGCGCTGCACCAGGCGGTCGGCACCAAGGTGATCGCCGGCCGCGGCGCCAGCGCGCTGAACGCCTTCGTCGAACTGGTCGATACCCTCGCCCTGAAGGTCGAGGGCCTGCCACTGCACGCCATGACCCAGCGGGTGATCGAGGACTCCGGCCTGCTCGCCTACCACCGCGACGAGAAGGGCGAGAAAGGCCAGGCCCGAGTGGAAAACCTGGAAGAACTGGTCAGCGCCGCCCGCGCCTTCGACAACGAGGAACTCGAGGACGACCAGACGCCGCTGTCCGCCTTCCTCGACCACGCCTCGCTGGAGGCCGGCGAACAGCAGGCCGGCGACTTCGAGGACAGCGTCCAGTTGATGACCCTGCACAGCGCCAAGGGCCTGGAGTTCCCGCTGGTGTTCCTGGTGGGCATGGAAGAAGGCCTGTTCCCGCACAAGATGAGCCTGGAAGAGTCGGGCCGCCTGGAGGAAGAGCGCCGCCTCGCCTACGTCGGCATCACCCGCGCCATGCAGCGCCTGGTGATGACCTACGCGGAGACCCGTCGCCTGTACGGCAGCGAGACCTACAACAAGGTCTCGCGCTTCGTCCGCGAAGTGCCGCCCTCGCTGATCCAGGAAGTACGCCTGTCCAACAGCATCAGCCGGCCCTATTCCGGCGGGCGCAGCAACGGCAGCCTGTTCGCCGGCGCCGCCGTTCCGGAAACCGGCTTCAGCCTGGGCCAGCGCGTCCAGCACCCGCTGTTCGGCGAAGGGGTGATCCTCAACTTCGAAGGCGGCGGCGCCCAGGCGCGGGTCCAGGTGAATTTTGACAGCGAAGGCAGCAAGTGGCTGATGCTTGCCTATGCCAAGCTGGAAGCGCTATAG	MRDDLSLLLNSLNDAQRQAVAAPVGRQLVLAGAGSGKTRVLVHRIAWLIQIENASPHSILSVTFTNKAAAEMRQRIEQLLGINPMGMWVGTFHGLAHRLLRAHWQEAGLAENFQILDSDDQQRLVKRVIRELGLDEQRWPARQAQWWINAQKDEGLRPQNIQAGGDLFLATQLKIYEAYEVACARAGVIDFSELLLRALDLWRDKPGLLEHYQRRFRHVLVDEFQDTNAVQYAWLRLLAKGGESLMVVGDDDQSIYGWRGARIENIQQFSSDFPDAETIRLEQNYRSTACILKAANALIANNQGRLGKELWTEGCEGEPIALYAAFNEHDEARYVVEGIERAIKDGMARSEIAILYRSNAQSRVLEEALLREKIPYRIYGGQRFFERAEIKNAMAYMRLIHTRHNDAALERVINVPARGIGEKTVETLREFARSQGLSMWAALHQAVGTKVIAGRGASALNAFVELVDTLALKVEGLPLHAMTQRVIEDSGLLAYHRDEKGEKGQARVENLEELVSAARAFDNEELEDDQTPLSAFLDHASLEAGEQQAGDFEDSVQLMTLHSAKGLEFPLVFLVGMEEGLFPHKMSLEESGRLEEERRLAYVGITRAMQRLVMTYAETRRLYGSETYNKVSRFVREVPPSLIQEVRLSNSISRPYSGGRSNGSLFAGAAVPETGFSLGQRVQHPLFGEGVILNFEGGGAQARVQVNFDSEGSKWLMLAYAKLEAL				NA	NA	NA	NA	NA
BMS010_08374	2874			hypothetical protein	ATGACCGCCACTTTGAATTGTGCCGTTTCAGAGTCGTTCGAGGACGACGAGCAGGCGATCCGCCGGCAGTTCGCCGAGGATATCGCCATCGAGCGGACGCGCCTGCTCTACCAGGGTTCCTGGGTGCCGACGCTGTTCATGCTGCTCAACGGGCTGGCCTGCGCCTACCTGCTGTGGGGACCGTCGCCCGGGCTCGCGCTCGGCGGTTGGCTGGTCTGGCTCGTGCTGCTGGCCTTGCTGCGGCTGGTGCAGGTGGCCGCCTTCAATGCCGCGCTGCCTTCGCGTCAGTCGCGCCCGCACTGGCGGCGGATGTTCCTCGGCGGCGCTGCGCTGTCCGGCCTGACGCTCGCCTATGCCGTCGTCGTGTTGGTGCCGCAGGATGCCTTCATCCAGCAGGCCCTGCTGTTCGGCCTGATCGCCGCGGCCATTCTTTCCGCCAGCGTCGCCTATGCCGTGAGCCTGCCGGCGTTTCTCAGTTTCGCCTTGCCCTGTCTGGTGCCCAGCATCGGCTACCTGCTGCTCAGCGGGCACACGGTGCTGCGTGGCTGGGGCCTGCTCGGGTTGATCCTGCTGGCCGCGCTGCTGGTGGTGGCCTGGCAGGTCAACCGGCTGGTGCAGAGCAGCCTGATGCGGCGCTATCACAACCAGGCGCTGATCGAGCATCTGGAACATGCCCGCCTGCAGGCCAACGGCCTGAACCAGGAGCTGGCCCGCGAGGTGGAACAGCGCCGCCGCGCCGAGCGCGACCTGCGCCGGGCCCACGACGAACTGGAAATGCGCGTCGCCCAGCGCACCCTGGAACTGGACGAAACCAGCTACGCCCTGAGCAAGAGCGAAGCACGCCTGGCCCTTGCCCTGGAGGCCAGCGAGCTGGGCCTGTGGGACTGGGACCTGGTGAGCGATGAAGTGCACCATTCGCAGCTCAAGGAAATCTTCGGCATCGAACCGGGCGAGACCACCGTGCTGCGCGATCTCAAGCCGCGCCTGCATCCCGAGGACCTGCCGCTGTTGCGCCGGGCCCTGGTGGAACACCTCAAGGGCCGCAGCGACGGCTATGCCATCGAGTACCGCGTACGCCATGCCGATGGCCGCTGGGTCTGGGTCGAGGATCGCGGCCGGGCGGTGGAGCGCGACGCCGAAGGGCGGGTCACGCGCATGCTCGGCACGCGCCGCAACGTCAGCGCGCGCAAGCTGCGCGAGGAAGAACAGCGCCTGGCCGCCACCGTGTTCGAGGCCGCCAGCGAGGGCATCTTCATCCTCGATCCGGATTACCGCCTGCTCGCCGTCAACCAGGCGTTCAGCGAGGTCACCGGCTATCGCCGCGAAGAGGTGCTTGGACGGGGCGTGAACGCACTGGTCGCCAGCCGCGAGGCGCGCCGGCAATACCAGATGATCCGCCTGGAGCTGGAGCAACATGGCACCTGGCAGGGCGAACTGATCGAGACGCGCAAGAACGGCGAACTCTACCCCCAGTGGCTGCAGCTCAACGTGGTACACGACGGCCGCGGACGGGTCAGCCATATCGTCGGTTTCCTTTCCGACCTGTCGGCGCGCCGCGAGGCGGAAGAGCGCCTGCGCTACCTCTCCCACTACGACGAACTGACCGGGCTGGCCAACCGCACCCTGTTCAAGGAGCGCCTACATGAGGCCAGCCAGCGGGCGCGGCAGAGCGGGCGCAGCCTGGCGCTGCTGCACATCGACCTGGACCGCTTCAAGCTGCTCAACGACAGCCTCGGCCATGAAGTCGCCGACCAGTTGCTGCGCCAGATGGCGCGCCGCCTGACCCAGGCGGTACCGGAAGCGGACACCTTGGCGCGGCTCTCCGGCGACGAGTTCGCCGTGCTGCTGGATACCTACGGCAGCCTCTCCAGCCTCGCCCGGCTGGCCAGCCGCCTGCTCGCCAAGCTGCGCGTGCCGATGGACATCGGTGGGCACGAACTGGTGGTGAATGCGTCCGTCGGCATCAGCCTGCTGCCGGAGAACGCCCGGGAAATCTCCGCGCTGATCAGCCAGGCCAACATGGCCATGCAGCACGCCAAGCACTTGGGCGGCAACACCTTCCAGTTCTTCACCGACAACCTGCAGGCCTGCACCCTGGAGCGCCTGCAACTGGAAACCCAGTTGCGCAAAGCCATCGACGAGGGGCAACTGGAGGTCTACTACCAGCCCAAGCTCAACCTGCTGGACGACAGCGTGCATGCCGCCGAGGCGCTGGTGCGCTGGAACCACCCGCAGCTCGGGCTGGTGCCGCCCTCCGACTTCATCGGCCTGGCCGAGGAAACCGGACTGATCGTGCCGCTCGGCGAATTCGTCCTGCGCGAAGCCTGCCGCCAGGCGCGGGAATGGCAGCAAAGCGGGCTGGCGGACATCCGTGTCTCGGTGAACCTCTCGGTGCAACAACTGCGCCCCGGCAACTTCACCAGCCTGGTGCGCCTGGCCCTGGATGAGACCGGCCTGCCGCCACATCTGCTGGAACTGGAGCTGACCGAAAGCCAACTGCTGGACAACGTGGAGAACGTCATCAGCACTTTCCGCCAGTTGCGGAGCCACGGGGTGAAGCTGTCAATTGACGACTTCGGCACCGGTTACTCTTCGCTCAGCTACCTGAAGCGTTTTCCGGCCGACTACGTGAAGATCGACCAGACCTTCATCCGCGACCTGTCCGCCGGCGGGGAGGACGCCGCGATCACCCGCGCCATCATCGCCATGGCCCACAGCATGGAACTCAAGGTGGTGGCCGAAGGCGTGGAGACCCAGGCGCAACTGGACTTCCTCAAGCAGCACCGCTGCGACGAGATCCAGGGCTACCTGGTCAGCCGGCCGGTGCGCGCGGAGGCGTTCGCCGAGCTGCTGAAGGAGCAGGCAATGATCTGA	MTATLNCAVSESFEDDEQAIRRQFAEDIAIERTRLLYQGSWVPTLFMLLNGLACAYLLWGPSPGLALGGWLVWLVLLALLRLVQVAAFNAALPSRQSRPHWRRMFLGGAALSGLTLAYAVVVLVPQDAFIQQALLFGLIAAAILSASVAYAVSLPAFLSFALPCLVPSIGYLLLSGHTVLRGWGLLGLILLAALLVVAWQVNRLVQSSLMRRYHNQALIEHLEHARLQANGLNQELAREVEQRRRAERDLRRAHDELEMRVAQRTLELDETSYALSKSEARLALALEASELGLWDWDLVSDEVHHSQLKEIFGIEPGETTVLRDLKPRLHPEDLPLLRRALVEHLKGRSDGYAIEYRVRHADGRWVWVEDRGRAVERDAEGRVTRMLGTRRNVSARKLREEEQRLAATVFEAASEGIFILDPDYRLLAVNQAFSEVTGYRREEVLGRGVNALVASREARRQYQMIRLELEQHGTWQGELIETRKNGELYPQWLQLNVVHDGRGRVSHIVGFLSDLSARREAEERLRYLSHYDELTGLANRTLFKERLHEASQRARQSGRSLALLHIDLDRFKLLNDSLGHEVADQLLRQMARRLTQAVPEADTLARLSGDEFAVLLDTYGSLSSLARLASRLLAKLRVPMDIGGHELVVNASVGISLLPENAREISALISQANMAMQHAKHLGGNTFQFFTDNLQACTLERLQLETQLRKAIDEGQLEVYYQPKLNLLDDSVHAAEALVRWNHPQLGLVPPSDFIGLAEETGLIVPLGEFVLREACRQAREWQQSGLADIRVSVNLSVQQLRPGNFTSLVRLALDETGLPPHLLELELTESQLLDNVENVISTFRQLRSHGVKLSIDDFGTGYSSLSYLKRFPADYVKIDQTFIRDLSAGGEDAAITRAIIAMAHSMELKVVAEGVETQAQLDFLKQHRCDEIQGYLVSRPVRAEAFAELLKEQAMI	PGPT0023624_597	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-GGDEF|EAL|PAC|PAS-DOMAIN-CONTAINING_PROTEIN,PGPT0023624-GGDEF|EAL|PAC|PAS_domain_containing_protein-NA	NA	NA
BMS010_08375	1362			hypothetical protein	ATGCACGCTCCTGAGCTTCTTTCTCCCGCCGGCACCTTGAAGTCCATGCGCTACGCCTTCGCCTACGGGGCGGATGCGGTGTATGCGGGCCAGCCGCGCTACAGCCTGCGGGTGCGCAACAACGAGTTCGACCACGCCAACCTGGCACTGGGGATCGCCGAAGCCCACGGGCAGGGCAAGCAGTTCTACGTGGTGGTGAACATCGCGCCGCACAACGCCAAGCTGCGGACCTTCCTCGACGACCTGAAGCCGGTGGTGGAGATGGCGCCGGATGCGTTGATCATGTCCGATCCGGGGCTGATCATGCTGGTGCGCGAGCATTTCCCGGACGTGGCGGTGCACCTGTCGGTGCAGGCCAACGCGGTGAACTGGGCGAGTGTGGAGTTCTGGCGGCGCCAAGGGCTGAGCCGGGTGATCCTGTCGCGCGAGCTGTCGCTGGAGGAGATCGGCGAGATTCGCGAGCGGGTGCCGGGCATGGAGCTGGAGGTGTTCGTCCACGGCGCACTGTGCATGGCCTATTCCGGGCGTTGCCTGCTGTCCGGCTATATGAACCGACGCGACCCGAACCAGGGCACCTGCACCAACGCCTGCCGCTGGGAATACAAGGCCGAGGAAGCGCAGGAGAACGAGCTGGGCGACATCGTGCCGGCGGTGCGGCAGTGGCAGCCGATCCCGGCGACACAGATCGAGCCCACCCTTGGCCAGGGCGCGCCCACGGACCGGGTGTTCCTCCTCGAAGAAAGCGGCCGCCCAGGCGAGGCCATGTCCGCCTTCGAAGACGAGCACGGCACCTACATCATGAACTCCAAGGACCTGCGTGCCGTGCAACACGTGGAACGGCTGACGAAAATGGGCGTGCATTCGCTGAAGATCGAGGGCCGCACCAAATCCCATTACTACGTGGCGCGCACCGCTCAGGTCTATCGCCGGGCCATCGACGACGCCGTGGCCGGGCGGCCGTTCGACCGTTCGCTGATGGACACCCTGGAATCTCTCGCCCACCGCGGCTACACCGAGGGCTTCCTGCGCCGGCATGTGCATGACGAGTACCAGAACTACGAGCGCGGCACGTCCGTGTCCGAGCGCCAGCAGTTCGTCGGCGAGCTGACCGGCGAACGCCGGGGCGCCCTGGCCGAGGTCAAGGTGAAGAACCGCTTCGCCGTGGGCGACCGCCTGGAACTGATGACGCCCCAGGGCAACGTGCACTTCACCCTCGACGCCCTGGAGAAAGGCAACGGCGAGCGCACGGCGCTGGCGCCAGGCGACGGGCATACCCTGTACCTGCCGCTGCCGGGCGATCTGGACCTGCGCCACGCATTGCTGATGCGTCATCTGGAGGATGGCGCTACCACGCGCGGCTAA	MHAPELLSPAGTLKSMRYAFAYGADAVYAGQPRYSLRVRNNEFDHANLALGIAEAHGQGKQFYVVVNIAPHNAKLRTFLDDLKPVVEMAPDALIMSDPGLIMLVREHFPDVAVHLSVQANAVNWASVEFWRRQGLSRVILSRELSLEEIGEIRERVPGMELEVFVHGALCMAYSGRCLLSGYMNRRDPNQGTCTNACRWEYKAEEAQENELGDIVPAVRQWQPIPATQIEPTLGQGAPTDRVFLLEESGRPGEAMSAFEDEHGTYIMNSKDLRAVQHVERLTKMGVHSLKIEGRTKSHYYVARTAQVYRRAIDDAVAGRPFDRSLMDTLESLAHRGYTEGFLRRHVHDEYQNYERGTSVSERQQFVGELTGERRGALAEVKVKNRFAVGDRLELMTPQGNVHFTLDALEKGNGERTALAPGDGHTLYLPLPGDLDLRHALLMRHLEDGATTRG	PGPT0021005_1491	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0021005-PUTATIVE_PROTEASE-K08303	NA	NA
BMS010_08376	1632	nadE_2	COG0171	Glutamine-dependent NAD(+) synthetase	ATGAGCCAAACCCTGCGGGTCGTCATGGCCCAACTGAATCTGCGCGTGGGTGATGTGCATGGCAATGTCGAGCGCATCATCGAGGCTGCCTGTATCGCGCGCGATCAGCGGGGGGCTGACGTCATTGTCTTTCCCGAGCTGGCACTGTGCGGTTATCCGCCGGAGGATCTGCTCCTGCGTTCGAGCATGCAGCTGCGTATCGAACAGGGTTTGCAGCGGCTCAAGACGGCGGTGAGCGGCATTTATCTGGTGGTCGGTTACCCCTGGTTGGACGGGGAGCAGCGTTACAACGCCTGCGGAGTGATCGCCGACGGCGAATTGCTGGCCACCTATTACAAACAGCATTTACCCAATTACCGTGTGTTCGACGAAAAGCGTTATTTCGTCGCAGGCGACCAGCCGTGCGTGCTGGATATCAAAGGCGTGCCGGTGGCGTTGTCGATCTGCGAGGACATCTGGTTCCCGGAGCCAATGGCGCAAGCCAGGCAGGTCGGTGCCAAGCTGATGCTGAGTTTGAACGCGTCGCCGTTCCACCTGGACAAGCAACGCGAGCGGGAGGAAATGCTGGCCGAGCGGGCGAAGGAGGGCGGAATGCCGATCCTGTATGTCAATCAGGTCGGCGGTCAGGACGAGTTGGTGTTCGACGGAGGCAGTTGTGTCGTCGATGCCGACGGAGCGATCTGCCAGCGCGCGCCTGCTTTTGCCGAGGAGCTGTATCCGGTCGATTTCCGGTGCGACGGCGATCGGCTGCTCCCGCGCCAGGCCAGCTGTGCACCGCTTCCTGAGTTGGAGGCCAGCGTCTATGGTGCCTTGGTCATGGGGGTGCGGGACTACGTTCGGAAGAATGGTTTCAAGGGCGTGGTGCTGGGCCTTTCCGGTGGTATCGATTCGGCGCTGACCCTGGCGGTCGCGGTGGATGCGCTGGGAGCGGAACACGTCGAGGCGGTGATGATGCCCTACCGTTATACCGCCCAGATGAGCCTGGAGGATGCCGAGGCCGAGGCCAAGGCGCTGGGCGTGACCTACCGTGTGCTGCCGATTGCCCCGATGGTCGAGGCGTTCATGGAGACCCTGGCGCCGGTATTCGAAGGTCTGGGGCGGGACACCACGGAAGAAAACCTTCAGGCGCGCTGTCGCGGCACCTTGTTGATGGCCATCTCCAACAAGAAGGGCTATCTGGTACTGACCACCGGGAACAAGAGCGAAATGGCGGTGGGATACGCGACGCTGTACGGCGACATGGCCGGCGGATTCGATGTGTTGAAGGACGTGCCCAAGACGCTGGTCTTCCGTCTCTGTGAATACCGCAATGGGCTGGGGCAGGTGATTCCGCAGCGGGTCATCGATCGCCCGCCATCAGCGGAGCTGGCGCCGGATCAGAAGGACGAGGATTCGCTTCCGCCGTACCCGGTGCTGGATGAAATTCTCAAGCTGTATATCGAGTACGACCTGTCCGCCAACGCGATCATCGCCGAGGGCTTCGATGCCGACACGGTCAATCGGGTGCTGCGCCTGGTGGACTTGAACGAATACAAGCGGCGTCAGGCAGCGGTAGGGGCACGAATTACCCAACGTGGCTTCGGTCGTGACCGTCGCTACCCGATCACATCGGGATGGCGGTTGGGCGACTGA	MSQTLRVVMAQLNLRVGDVHGNVERIIEAACIARDQRGADVIVFPELALCGYPPEDLLLRSSMQLRIEQGLQRLKTAVSGIYLVVGYPWLDGEQRYNACGVIADGELLATYYKQHLPNYRVFDEKRYFVAGDQPCVLDIKGVPVALSICEDIWFPEPMAQARQVGAKLMLSLNASPFHLDKQREREEMLAERAKEGGMPILYVNQVGGQDELVFDGGSCVVDADGAICQRAPAFAEELYPVDFRCDGDRLLPRQASCAPLPELEASVYGALVMGVRDYVRKNGFKGVVLGLSGGIDSALTLAVAVDALGAEHVEAVMMPYRYTAQMSLEDAEAEAKALGVTYRVLPIAPMVEAFMETLAPVFEGLGRDTTEENLQARCRGTLLMAISNKKGYLVLTTGNKSEMAVGYATLYGDMAGGFDVLKDVPKTLVFRLCEYRNGLGQVIPQRVIDRPPSAELAPDQKDEDSLPPYPVLDEILKLYIEYDLSANAIIAEGFDADTVNRVLRLVDLNEYKRRQAAVGARITQRGFGRDRRYPITSGWRLGD	PGPT0013450_2541	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013450-nadE2-K01950	NA	NA
BMS010_08377	237			hypothetical protein	ATGGGCCTGTTTCGCCTTCTGTTCTGGATTGCCATCATCGCTGCAGCCGTCTGGCTCTGGCGGCGCATTAACCGCCCCCGCCCGGCTCACCGGGACAGCCCCGCCGCCGAAAAGCCCATGGTCCGCTGCGCCCAGTGCGGCGTTCACCTGCCCCGCGAGCACGCCCTGAACCGGGGCGAACGCTGGTATTGCAGCCAAGCTCATCTGGAACAAGGCCCTACCGACGGTGAGCGCTGA	MGLFRLLFWIAIIAAAVWLWRRINRPRPAHRDSPAAEKPMVRCAQCGVHLPREHALNRGERWYCSQAHLEQGPTDGER				NA	NA	NA	NA	NA
BMS010_08378	1548	sasA_26		Adaptive-response sensory-kinase SasA	ATGTTGCGCCTCTATCATCTCTACCGACTCTGCATCGGCTTCGCGCTGGTGCTGTTGATCTCCAGCGACCTGGACGATCAACTGCTCAACCTGTTCCACGAAGAGCTGTTCCGGTACGGCAGCTGGTTCTACCTCGGCATCAACGCGCTTTTCGCGGTGCTGGTCCGGCGCCCGAAACATGTCGCGCAGATTTTCAGCCTGGCACTGGTAGACGTAATCCTCCTGGCCGCACTCTTCTATGCCGCTGGCGGGACATCCAGCGGTATCGGCAACCTGCTCATCGTCGCAGTGGCCATCGCCAACATCCTGCTCCGCGGGCGCATCGGCTTGCTGATCGCCGCCGCTGCAAGTATCGCGTTGGTCTATCTCGTGTTCTACCTGAGCCTCAGCCGCCCCGCCGTCGCCAGCCAATACCTGCAAGCCGGCGCGCTCGGTGCGTTGTGTTTCGCTGCCGCCCTGTTCGTACAGAGCATCACGCGCCGTCTCCAGGCCACCGAGAACCTCGCCGAGCAACGGGCGAGCGATGTCGCCAACCTGGAAGCGCTCAACTCGCTGATTCTCCAGCGCATGCGAACCGGCATTCTGGTGCTCGACAACCAGCACCGTGTGATCCTGGCCAACCAGGGCGCCCTCAACCTGCTCGGCCACGAGAAACTGACCGGACGGATTCTCGACCCCTACTGCCCCGACCTGATTCAAAGCTTGAAACAGTGGTTGAGCAATCCGACACTGCGCCCCTCGAACGTCCAGGCGCCCAAAAGCGGGCCGATGCTGCAACCCAGTTTCGTTACCCTTCAGCGCGGTGCCGAGCAGCACACACTGGTATTTCTCGAGGACATTTCCCAGATCGCCCAACAGGCACAGCAACTGAAACTGGCCTCTCTCGGCCGCCTGACCGCCGGCATCGCCCACGAGATCCGCAACCCACTCGGCGCCATCAGTCACGCCGCCCAGTTGCTACAGGAATCCGACTCGCTGGACGAAGCGGATCGACGGCTCGCGCAGATCATTCAGGACCATTCGCGGCGAATGAATCTGGTCATCGAGAACGTGCTGCAACTGTCCCGCCGACGCCAGTCGGAACCGCAGTTGCTCGACCTGAAATACTGGCTCCACCGCTTCGCCAGCGAATTCCGCACCTCCGCCCGCCCCGATCAGACGCTGCATATACTGACCGAAGGCAGCACCATCCAGACACGCATGGACCCGCATCAATTGACCCAGGTTCTGACCAATCTGGTGCAGAATGGCCTTCGCTACAGCGCTCAACTTCATTCTCAAGGGCAAGTCTGGCTGAGACTGTTCCGCGATACGGACAGCGATCTGCCCGTCCTGGAGATATCGGACGACGGGCCCGGTGTGCCCGAGGAGCAACTGCAGCACCTGTTCGAACCCTTCTACACCACTGAAAGCAAAGGCACCGGTCTTGGGCTCTACATCTCCCGGGAACTCTGCGAGAGCAACCAAGCCCGTCTCGACTATAAACCGCGTGAGGGTGGCGGCAGCTGCTTCCGCATCACCTTCGCCCATCCGCGCAAGCTGAGTTGA	MLRLYHLYRLCIGFALVLLISSDLDDQLLNLFHEELFRYGSWFYLGINALFAVLVRRPKHVAQIFSLALVDVILLAALFYAAGGTSSGIGNLLIVAVAIANILLRGRIGLLIAAAASIALVYLVFYLSLSRPAVASQYLQAGALGALCFAAALFVQSITRRLQATENLAEQRASDVANLEALNSLILQRMRTGILVLDNQHRVILANQGALNLLGHEKLTGRILDPYCPDLIQSLKQWLSNPTLRPSNVQAPKSGPMLQPSFVTLQRGAEQHTLVFLEDISQIAQQAQQLKLASLGRLTAGIAHEIRNPLGAISHAAQLLQESDSLDEADRRLAQIIQDHSRRMNLVIENVLQLSRRRQSEPQLLDLKYWLHRFASEFRTSARPDQTLHILTEGSTIQTRMDPHQLTQVLTNLVQNGLRYSAQLHSQGQVWLRLFRDTDSDLPVLEISDDGPGVPEEQLQHLFEPFYTTESKGTGLGLYISRELCESNQARLDYKPREGGGSCFRITFAHPRKLS	PGPT0015870_441	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0015870-pilS|pehS-K02668	NA	NA
BMS010_08379	1341	zraR_2	COG2204	Transcriptional regulatory protein ZraR	ATGAGCATCCGGCAAAGAGCCCTGATCGTCGACGACGAACCCGATATTCGCGAACTCCTGGAAATCACTCTGGGACGCATGAAGCTGGACACCCGCAGTGCACGCAACGTCAAGGAAGCCCGCGAATGGCTGGCGCGCGAGCCTTTCGACTTATGCCTCACCGATATGCGGTTGCCTGACGGTAGCGGGCTGGATCTCGTCCAGTACATCCAGCAGCGCCACCCGCAGGTCCCGGTCGCCATGATCACCGCCTACGGCAGCCTGGATACCGCCGTCAATGCCTTGAAGGCCGGCGCCTTCGACTTTCTCACCAAGCCGGTGGATCTCAACCGACTGCGCGAACTGGTCGCCACCGCTCTCCGCCTGCGCTCGCCAAGCAGTGAAGAAGCTCCCGTCGACAATCGACTCCTGGGCGAATCTCCGCCCATGCGCACCCTGCGCAAGCAGGTCGCCAAGCTCGCCCGCAGCCAGGCCCCGGTGTACATCAGCGGTGAATCGGGCAGCGGCAAGGAACTGGTTGCCCGACTCATTCATGAGCAAGGCCCGCGCACGGAACAACCCTTCGTGCCGGTGAACTGCGGCGCCATTCCCTCTGAACTGATGGAAAGCGAATTTTTCGGCCACAAAAAAGGTAGCTTCACCGGGGCCATCGAAGACAAACAAGGCCTGTTCCAGGCCGCCAACGGCGGAACCCTGTTCCTCGACGAAGTCGCCGACCTGCCTTTACCCATGCAGGTCAAGCTGCTGCGCGCCATCCAGGAGAAAGCCGTTCGCGCCGTGGGGGGGCAGCAGGAAATCATGGTCGACGTGCGCATCCTCAGCGCCACGCACAAGGACTTGGCAGCGGAAGTCGCCGCCGGACGCTTCCGCCAGGATCTGTATTACCGCCTGAACGTCATCGAGCTGCGTGTACCGCCCTTGCGGGAACGCCGTGAAGACATTCCCCTCCTGGCCGACGTCATGCTCAAGCGCCTCGCCGAAGGCACTGGCCAACCTCCGGCAAAACTCACCAGCGAAGCACTGGAGAAGCTGAAGAACTACCGCTTCCCCGGCAACGTGCGCGAGCTGGAGAACATGCTGGAGCGCGCCTACACCCTCTGCGAGGACGACCTGATCCAGGCACCCGACCTGCGTCTGGCCGACGCATCCGGTGCAGCCGAAGGCGGCGAGGCCAGCTTGGCCCAGATCGACAACCTTGAAGACTACCTGGAAGAGATCGAGCGCAAGCTGATCATGCAAGCGCTGGAAGAAACCCGCTGGAACCGCACCGCAGCGGCCCAACGCCTGGGACTCACCTTCCGCTCGATGCGCTACCGCTTGAAGAAACTGGGGATCGATTGA	MSIRQRALIVDDEPDIRELLEITLGRMKLDTRSARNVKEAREWLAREPFDLCLTDMRLPDGSGLDLVQYIQQRHPQVPVAMITAYGSLDTAVNALKAGAFDFLTKPVDLNRLRELVATALRLRSPSSEEAPVDNRLLGESPPMRTLRKQVAKLARSQAPVYISGESGSGKELVARLIHEQGPRTEQPFVPVNCGAIPSELMESEFFGHKKGSFTGAIEDKQGLFQAANGGTLFLDEVADLPLPMQVKLLRAIQEKAVRAVGGQQEIMVDVRILSATHKDLAAEVAAGRFRQDLYYRLNVIELRVPPLRERREDIPLLADVMLKRLAEGTGQPPAKLTSEALEKLKNYRFPGNVRELENMLERAYTLCEDDLIQAPDLRLADASGAAEGGEASLAQIDNLEDYLEEIERKLIMQALEETRWNRTAAAQRLGLTFRSMRYRLKKLGID	PGPT0015865_541	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0015865-pilR|pehR-K02667	NA	NA
BMS010_08380	1011	thiO_2		Glycine oxidase	GTGTTGGAGCGAGGGGCGAGCGGAAAAGAGTCCACTTGGGCGGGAGGGGGAATCGTTTCGCCGCTTTATCCTTGGCGTTATAGTCCCGCTGTCACCGCCTTGGCACATTGGTCTCAAGATTTCTATCCGGGTTTTGGCGATTGGTTGTATCAGCAGACAGGAATCGATCCAGAGGTTTATAGCACCGGGCTGTATTGGCTGGATTTGGATGACGAAGCGGAGGCGCTTGCATGGGCAAGACAGAATAGGCGCCCTCTGTCGCAGGTAAATATCGAAGCTGTCCGGACGGCGGTGCCCGGATTGGGTAAGTGCTTCAATCATGCCATCCATATGCTTGGCGTTGCGAATGTCAGAAATCCCCGCATGGCTAAGGCGCTACGCGACTCGCTTGGCAAAATGCAAAATGTCGTTTTGCTGGAAGATTGCGAAGTAACTGGATTCGTTCGTGAAAGTGGCAAAATGAATTCTGTCACGACGTCTCATGGAAATATTCCTGCAGATCGCGTTCTCGTCGCCGCAGGCGCCTGGAGCGGCGAATTGCTGGGTAAGCTTGGTGTCGAGTTACCGGTCGAGCCGGTCAAGGGACAAATGATTCTGTACAAGTGTGCGGAGGATTTTCTGCCCAGCATGGTGCTGGCCAAGGGGCGCTATGCCATTCCCCGGCGTGACGGCCATATCCTCGTGGGCAGCACGCTCGAGCATGCCGGGTTCGACAAGACGCCAACGAACGAGGCGCTGGAGAGCTTGAAGGCTTCGGCGGCCGAGTTGTTGCCGGCCCTGGCGGAGGCCGAGGTGGTCGGGCATTGGGCGGGGTTGCGCCCGGGGTCGCCGGAGGGGATTCCGTTCATTGGTCCGGTGCCCGGTTTCGAAGGGCTTTGGTTGAATTGCGGGCACTACCGGAACGGGCTGGTGCTGGCACCTGCTTCCTGCCGGTTGTTGGCGGACTTGATGCTGGAGCGCTCGCCGATTGTCGATCCGGCGCCGTATGCACCAGCCGGAAGGCTTGGTTAA	MLERGASGKESTWAGGGIVSPLYPWRYSPAVTALAHWSQDFYPGFGDWLYQQTGIDPEVYSTGLYWLDLDDEAEALAWARQNRRPLSQVNIEAVRTAVPGLGKCFNHAIHMLGVANVRNPRMAKALRDSLGKMQNVVLLEDCEVTGFVRESGKMNSVTTSHGNIPADRVLVAAGAWSGELLGKLGVELPVEPVKGQMILYKCAEDFLPSMVLAKGRYAIPRRDGHILVGSTLEHAGFDKTPTNEALESLKASAAELLPALAEAEVVGHWAGLRPGSPEGIPFIGPVPGFEGLWLNCGHYRNGLVLAPASCRLLADLMLERSPIVDPAPYAPAGRLG	PGPT0008955_996	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008955-thiO-K03153	NA	NA
BMS010_08381	441			hypothetical protein	ATGGCGGCAAATCCAATGAAACGAAATAGTATGGGCTTTACTCTGATCGAATTGATGATCACTGTGATGATCATCGGTATCCTGGCTGCGATCGCCTATCCGAGTTATACCGAGTATGTGAATCGGGCCAAGCGAGCAGAAGCCACGGCTGCTCTATTGGAAGCCGCTCAAGCGCTGGAAAGGTATTATTCCGTTAACAACACATATCTGGGGGCCAACGGAAGTCTTGCTGCGGTATTTGCGACGAATGTACCTGCAAGTGGAACCACTAACTATGTGATTGCTGCAACTGGCAATCCGACTGCGACAACGTTCACGCTCAAGGCCACTCGTCAAACCCCGATGGGGGCGGATGCCTGCGGTGATTTCACACTGACCCACGCCGGGGTACGTGGATTGGCTACAGACACGAACACCAAGTCAGTAGCCGATTGTTGGTAA	MAANPMKRNSMGFTLIELMITVMIIGILAAIAYPSYTEYVNRAKRAEATAALLEAAQALERYYSVNNTYLGANGSLAAVFATNVPASGTTNYVIAATGNPTATTFTLKATRQTPMGADACGDFTLTHAGVRGLATDTNTKSVADCW	PGPT0015930_869	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015930-pilE-K02655	NA	NA
BMS010_08382	3186			hypothetical protein	ATGCGTAATATCAAGAGTGTCCTCATAGGGGCGGCTTTCGCCTTGTACGTGGCATCCCCTGCTTATGCTATAGGGCCTTTCCCGAATCAGCCTTTATATCTGTCTTCGGCTGTTTCTCCGAATGTTATGTTGTTGATGGATGATTCGGGAAGTATGCGGCATATCATCTGGGAACGGGATTACGATAATGATCTTAATTATTTTCAGGGGGCTTCTGTAGACTTCTGGAATAGCAGTGGTAGATGGCAGGATTTGGCGACAGAAAGCGGTACTTATATAACAAAGAATGACATGAAACAGGGGGGGTGTTCTTCTGGGTTTTCGATGTTTCGTTTGGATAGTGTCTCGACAAAGTGTTTAAAATTTCCTGATCCGGTGGGCGGGGGGAATACTTGGTTTGTCCAGAACTATATAGCGTATCTAGTAAAAAAATACGAAACGGGAACTGATTTTACAGCTCTTGAAGGGTTTCCAAAAGATTTTCGCATGAGTGTGGCTAAGTCCGTTGCTAAAAACGTGATCGCTAATAATTCTTCTATGCGTTTCGGGCTTTTTAGTTTTATTGGGAAGGAGGGTGGGGAGTTAGAGGCTGCTGTTGGCTCTACTCAAGGTACGCTAAACACAAAAATCGATGCATTGACTCCCAATACCTCTACTCCCTTGGCTGAGGCATATTATGAAGTTTCTCGTTACTTTAGAGGGATGTCCAAGGCTAGTGGTCAATCTGGAGATTATATAAGTCCGATTCAATATAGATGCCAAAAGAATTTCGGCATTGTAATAACGGATGGTTTGCCTACTTATGATACTACCTTCCCTTCTAACGACCCGGATGATGTGACGGAGACATCTGCATCCCTGCCTAACTGGGACGGCCTCGCACCTGCGACAACGAGTCTTACACCCTCGCCAAAATATTCGGATGGTTACCAGCCGCAAGGAGCTACGCAGGATGATGAGGGGTATACTCTATATCTAGATGATATAGCTAAGTTTTCTTATGATATCGATATGGTGAAAAACGGAAACGATTTGGCGGGGAAAAGCTTTAATTCCCCCGGCTTCGTTAAGCAAAATCTACAAACCTTTACAGTGGGGTTTGCTGAGTCCAATCAGATGCTGAGTGATGCAGCCGAGTATGGACATGGCTCATATTATACTGCCAATGATGCTAATAGCTTGGCTGCTGCTATGAACTCGGCTTTGCAATCTATTCGAGAGCAGACCAGCTCTGCATCAGCGATCACTGCGAACTCCACCCGCATTCAGGAGGATACCCTGATTTATCAGGCCCGCTTTAATAGCGCGGATTGGACGGGCGAGGTTAGGGCCTTCAACGTAGAAGAAAATGGTGATGTTGGTAGCTTGGCGTGGACAACATCTTCACAAAACAAAATCCCGAGCCCTTCTTCTCGTAATATTTTTACATACAACGGAACAGCTGGCCGCTCATTGGTTTGGGATAACCTGACCACAGAGCAGCGTGAAAGCCTATTTAAAACTACCAGCACTGTCACTGACACGGAGGAAAATGCCCGTCTTCGACTGGGTTGGCTAAGAGGCGGGAATGATGGAGCAGCTCTTGGAGCGCCCTATGAAAATACTAGACTCCGCTCAAGAAACCTGCCACTGGGGGACATCATAAACTCGGATCCGAAGTTTGTTGGTACGCAAAATAATGGATATAACGTCCCTAATACTGATGCTACAGGGGAACCGGCGGATAGCTACTTCGAGTACCTCACAACCAAAGCCAGTAGAACCCCATTGGTCATCGTAGGGGCTAACGATGGCATGGTGCACGCCTTTAATGGAAGTACTGGTGTAGAGGCGTTTGCTTATATGCCTTCCACATTGTTCAAGAAGCGGGCGATCAGCCCTGGGGCGACGCCGGGACTGATAGCACTGATGGAGTCCGATTATGATCACCAATTTTATGCGGATGGCTCTTTTGGCCTAGGTGATGTATACAACGGATCCGTATGGAAAACGTACCTTGCTGGCGGATTGGGTTCTGGAGGTCGAGGCGTGTTTGCTCTCGATGTGACGGACCGTGCCAGCTTCGGTGCAGAAGATGTGCTCTGGGAACATTCGGCACCGGACGTTAATACTACGAGCGGCACGGATGCTGATTGGAATGATCTTGGGTATGTGTTTGGTGAGCCGACGATTGCTAGAACGCAGGACGATACTTGGGTAGTAATCTTCGGTAATGGATATGCCAGCAATAGTGGTAGAGCTGCTTTATATATAGTTAATGCTATTACGGGGGCTTTGGTTAAAAAGATAGTGGTTAATGATCCAATTGATGCAACGCTGAATAACGGGCTGTCAGCCGTAACAGCTTTCTTAGATGCCAATAGGCGTATCACGTATATTTATGGGGGGGATGTTCAGGGTAATTTATGGAAATTTGACTTGACAGCAAATAATGCCAATAACTGGGCGGGTTCACTGCTGTTCCAAGCTAAGAAGGGTACCGTTCGTCAGCCCATAACCGGTAAAGTTCGCGTTATCAGCCATCCTACTCAGGGGCGACTGGTTGTTTTTGGTACGGGTAAGTATCTAGAAACCAGTGATAAAACCGATACCACACTTCAGTCTCTCTATGGAGTCTGGGACCGAGGCCGAAATAATGACGGAACCGTGTTGGCGAGTACGTTGGTTCAGCAAACGATTTCTTCCGAAACCACTAGTAATGGCCGAGAGTTCCGAATCGTATCGCAGAATAGTGTGGACTGGACTACCAAGTTTGGTTGGTACCTAGATTTGCGAGTCGGTAGCACGAATGCAGGTGAAAGAGTGATCAGTATGCCGCTAGTGAACAAGGACCGCATGCTTGTTTCCACTTTTACTCCTCTCTCCGATCCTTGCCTTTCCGGTGGTGAAAGCTGGATTTTGGGACTTAATGTTTTAACAGGTGGAAGGCTCGATACCACAGTTTTCGATATCAATGGTGACGGATACTTCAATACATCCGACATGCTTGGGTGTGGCGGTGGTAATTCGTGTGATGCCAGTGGCTTCAAGCTGGGGGATGGTACCTTGGACTCGCCGGGGGCTATCTTTGGTGATGGGTTCGATTCGCTCTACAGTTCCGGCCTTGGTGATGGCGGAATTGAGCAAAATACTGCTGCTGGTAGTGGCGGTAAACCTGGAAGAATGTCATGGCGGCAAATCCAATGA	MRNIKSVLIGAAFALYVASPAYAIGPFPNQPLYLSSAVSPNVMLLMDDSGSMRHIIWERDYDNDLNYFQGASVDFWNSSGRWQDLATESGTYITKNDMKQGGCSSGFSMFRLDSVSTKCLKFPDPVGGGNTWFVQNYIAYLVKKYETGTDFTALEGFPKDFRMSVAKSVAKNVIANNSSMRFGLFSFIGKEGGELEAAVGSTQGTLNTKIDALTPNTSTPLAEAYYEVSRYFRGMSKASGQSGDYISPIQYRCQKNFGIVITDGLPTYDTTFPSNDPDDVTETSASLPNWDGLAPATTSLTPSPKYSDGYQPQGATQDDEGYTLYLDDIAKFSYDIDMVKNGNDLAGKSFNSPGFVKQNLQTFTVGFAESNQMLSDAAEYGHGSYYTANDANSLAAAMNSALQSIREQTSSASAITANSTRIQEDTLIYQARFNSADWTGEVRAFNVEENGDVGSLAWTTSSQNKIPSPSSRNIFTYNGTAGRSLVWDNLTTEQRESLFKTTSTVTDTEENARLRLGWLRGGNDGAALGAPYENTRLRSRNLPLGDIINSDPKFVGTQNNGYNVPNTDATGEPADSYFEYLTTKASRTPLVIVGANDGMVHAFNGSTGVEAFAYMPSTLFKKRAISPGATPGLIALMESDYDHQFYADGSFGLGDVYNGSVWKTYLAGGLGSGGRGVFALDVTDRASFGAEDVLWEHSAPDVNTTSGTDADWNDLGYVFGEPTIARTQDDTWVVIFGNGYASNSGRAALYIVNAITGALVKKIVVNDPIDATLNNGLSAVTAFLDANRRITYIYGGDVQGNLWKFDLTANNANNWAGSLLFQAKKGTVRQPITGKVRVISHPTQGRLVVFGTGKYLETSDKTDTTLQSLYGVWDRGRNNDGTVLASTLVQQTISSETTSNGREFRIVSQNSVDWTTKFGWYLDLRVGSTNAGERVISMPLVNKDRMLVSTFTPLSDPCLSGGESWILGLNVLTGGRLDTTVFDINGDGYFNTSDMLGCGGGNSCDASGFKLGDGTLDSPGAIFGDGFDSLYSSGLGDGGIEQNTAAGSGGKPGRMSWRQIQ	PGPT0015990_853	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015990-pilY1-K02674	NA	NA
BMS010_08383	510			hypothetical protein	ATGAAGAAAAATAATCTTGAAAAAAACGATCTGATACATCAGCGTGGTTCTGCGCTGATTATCAGTTTGGTCTTTTTGCTGTTGCTAACTATGATCGGTGTTTCCTCCATTCAAGACTCGACATTACAAGAGCGAATGGCAGGCAACGAGCGGGATCGTAATTTGGCTTTCCAAGCGGCAGAAGCTGCTTTGCGTGAGGGAGAGGCTTTTCTGCGAGAGCAGAGCCCGACTTTTACCTCCAGCGGAACCGGAGGGCTGCTCAGTCCGGATTACACCGGCGCGAAACCTACCGCGGCAAACTATCCTTGGGCAAGTCGCTCGCGTGCAGGTACCAGTCTGGCGGGGGTGAACTCGGCTCCACGCTATGCCATTGAGTGGCTTACGACGCAAGCCACTGGCCCCTCCGATCAGATCGAAGTTTCTGTTGTTAATTCATACCGCATTACGGCTCGGGCCGTGGGTGGTTCGACGGATGCTGTGGTTTTGCTGCAAGCGACCTACAGCCGCTGA	MKKNNLEKNDLIHQRGSALIISLVFLLLLTMIGVSSIQDSTLQERMAGNERDRNLAFQAAEAALREGEAFLREQSPTFTSSGTGGLLSPDYTGAKPTAANYPWASRSRAGTSLAGVNSAPRYAIEWLTTQATGPSDQIEVSVVNSYRITARAVGGSTDAVVLLQATYSR	PGPT0015985_617	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015985-pilX-K02673	NA	NA
BMS010_08384	1032			hypothetical protein	ATGAGTCGGTCATTTTCTTTTTATTGCAGTAAAGGCTTGAGTCTGGTCGAGTTAATGGTGGCTATGGCCTTGAGCCTGATTATCGGTGCTGCGGTCATTCAAATGTTTCTGGCCAGCAAATCCAGTTACCGTTTACAAGATTCCATGGCAAGAATTCAGGAAAATGGCCGATTCGCGGTAGGTTTCCTTGCCAAGGATATTCGTATGGCCGGATTTATGGGATGTGGCAATATCGACGAAATTACTGTCAGTGTGATTGCAAATCCGGCGCCAATCGATGCGGCTAACCCTCTAGGGCAAATTATCGGAGGAGTGAATAACATCACCGCCACTAACTCTTGGAGTGCAGTGGCGGGCACTGATGTTCTTTCGATACGCAAGGCATCCAACGCCGGTGTTGGGTTGGTCGGGAATATGGCCACGGATAATGCCAATATTCAGATAGAAACCAATGAGATGGGGTTGGCCGCCGGAGATACATTGTTTCTTTCTGACTGTCTTTCTGCGGATATCTTTAGAGCGACCAATGTGTCGACAGGGTCCTCGCAGCAGACAATCGCTCATGCCAATAACTACAATACGAGTAATAGGCTGAGCAAAGCGTATGGAGATGATGCTGAGTTATTTGCATTTGAAAGTATCGATTATTTTATTCGTGATACTGGGCGAACCACTGCTTCTGGTGATCCTATTCGTGCTTTATGGGTAGTGAGAAAGTTCGCTAATCGAAGCGACACTAGCGCTAATCCGATGGAGTTGGTGGAAGGCGTGCAGGATATGCAAATCGAATACGGTGTTGCGACCGGCTCCAGCATGATTGCTAGTAGTTATCAGACGGCAAATAACGTCACTGATTGGTCGAAAGTTGTAAGCGTTCGGTTCAGTTTGCTGATGCAGAGTACCGAAGGAAATGTGGTAGGCAGCGGTGCTGCCGCACAGCAGTTAACTTTCAACGGTACTGCCGTTCCTTCTGATGGGAGACTTCGCCAGGTTTTCGGCTCGGCTGTAGCGATTAGGAATCGTGTGCGATGA	MSRSFSFYCSKGLSLVELMVAMALSLIIGAAVIQMFLASKSSYRLQDSMARIQENGRFAVGFLAKDIRMAGFMGCGNIDEITVSVIANPAPIDAANPLGQIIGGVNNITATNSWSAVAGTDVLSIRKASNAGVGLVGNMATDNANIQIETNEMGLAAGDTLFLSDCLSADIFRATNVSTGSSQQTIAHANNYNTSNRLSKAYGDDAELFAFESIDYFIRDTGRTTASGDPIRALWVVRKFANRSDTSANPMELVEGVQDMQIEYGVATGSSMIASSYQTANNVTDWSKVVSVRFSLLMQSTEGNVVGSGAAAQQLTFNGTAVPSDGRLRQVFGSAVAIRNRVR	PGPT0015980_396	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015980-pilW-K02672	NA	NA
BMS010_08385	444			hypothetical protein	ATGCCGAGTCGCAATACCATGAAAGGCTTCAGCCTTATTGAAATACTAATTTCCATGTTGGTGCTGGGTATAGGCATCTTGGGGATGGTCGGGCTTCAGCTGAATGCGATGAAAGTCAATCAAACGGCTTCGGTGAGATCGCAGGCAACCTTCCTTGCCTATGACATCGTTGATCGAATGCGTGCCAATACCCCCGCAGCCTTAGCAGGGTCTTATGACATAGCTTTGACCGCAGCGGCATCAACCGGTACGTCCATTGCCGATCAGGATATTCGGACGTGGAAGGCTGCATTAAGCAGCCAATTGCCGGCAGGGACTGGGGCAATCTCTCGAAGTGGGCAGGCACTACGAGTGATCGTGCAATGGGATGAATCAAAAGTAGGGGGGCAAGGTGCGCAGCAATTCACCTTCGAAACCCGACTGTGCGAGAAGAACTGCTTATGA	MPSRNTMKGFSLIEILISMLVLGIGILGMVGLQLNAMKVNQTASVRSQATFLAYDIVDRMRANTPAALAGSYDIALTAAASTGTSIADQDIRTWKAALSSQLPAGTGAISRSGQALRVIVQWDESKVGGQGAQQFTFETRLCEKNCL	PGPT0015975_885	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015975-pilV-K02671	NA	NA
BMS010_08386	531			hypothetical protein	ATGGTTGACCGCACTGAAACAGAGAGTTTTTCCATGCAATCCTCACGAGGTTTTACGCTCATTGAGTTGATGGTGACCATTGCCGTATTGGCGGTCATCCTCTCGTTCGCAGTGCCAAGCTTTCAGGATCTGATCCGATCCAATCGCGCCCAGACACAGACGAATCTTCTCATCAATGCTTTTAATTTGGCGCGAAGTGAAGCAATCAAGCGGGGTGCGGCAGTTCGCGTATCGGCCCTGAATAACGGAAACTGGCATCAGGGATGGCGAGTCTGGGCGGATTCGAATGGTAATAACGCTTTCGATGATAGCGAGTTACTGCGCCTTTTCTCTGCCTGGACTGGCTCCAACACTCTTACATCACAGACCTCTCAAGTGATTTTCTCTTCTGATGGTCGTCTGAGCGGTGTCGCGGCAGGAGCGGATACCAATTTCAGTCTCAACGTAGGGACTAGCTATTGCCGCTATGAACGGATCATCACCATAAATTCGGTGGGGCGCGCCACTGTCAAACGTAAGGAGTGCCAGTGA	MVDRTETESFSMQSSRGFTLIELMVTIAVLAVILSFAVPSFQDLIRSNRAQTQTNLLINAFNLARSEAIKRGAAVRVSALNNGNWHQGWRVWADSNGNNAFDDSELLRLFSAWTGSNTLTSQTSQVIFSSDGRLSGVAAGADTNFSLNVGTSYCRYERIITINSVGRATVKRKECQ	PGPT0016065_1220	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0016065-fimT-K08084	NA	NA
BMS010_08387	948	ispH_2	COG0761	4-hydroxy-3-methylbut-2-enyl diphosphate reductase	ATGCTCATCAAACTCGCCAACCCCCGCGGCTTCTGCGCTGGCGTCGACCGCGCCATCGAAATCGTCAACCGTGCCCTGGAAGTCTTCGGGCCGCCCATCTATGTGCGACATGAGGTGGTGCATAACAAATTCGTCGTCGAAGACCTGCGTTCCCGCGGTGCCATCTTCGTGGAGGAATTGGACCAAGTGCCGGACAACGTCATCGTCATCTTCAGTGCGCATGGGGTTTCGCAGGCTGTGCGTCAGGAAGCCGAGCGACGCGGCTTGAAAGTCTTCGATGCCACCTGTCCGCTGGTAACCAAGGTCCATATGGAAGTGGCACGTTACAGCCGCGACGGCCGTGAATGCATCCTGATTGGCCACGCCGGTCACCCCGAAGTGGAAGGCACCATGGGTCAGTATGACGAGCGCAATGGTGGCGCCATCTATCTGGTCGAAGACGAAGAGGATGTCGAGCGTCTACAGGTACGGGACCCCGACTCGTTGGCGTTCGTCACCCAGACGACCCTGTCGATGGACGACACCAGCCGCGTCATCGACGCGCTACGCAAGCGCTTCCCCAACATCGGCGGACCGCGCAAGGACGATATCTGCTACGCCACGCAAAATCGCCAGGATGCCGTCAAACAGCTCGCCGACGAATGCGATGTGGTGCTGGTGGTCGGCAGCCCCAACAGCTCCAACTCCAACCGCCTGCGCGAACTGGCCGAACGTATGGGAACGCCAGCTTACCTCATCGACGGAGCCGAAGACCTGCAACGTGGCTGGTTCGACGGTGTCCGCAACATCGGCATCACCGCTGGTGCCTCCGCCCCGGAAGTACTGGTACGAGGCGTCATCGAACGCCTGCGCGGATGGGGCGCCCAAGAAGTTTCGGAGTTGAGCGGGCGTGAGGAAAATATTACGTTCTCCATGCCGAAGGAGTTGAGGGTGCGGGCTTTGGGGTAA	MLIKLANPRGFCAGVDRAIEIVNRALEVFGPPIYVRHEVVHNKFVVEDLRSRGAIFVEELDQVPDNVIVIFSAHGVSQAVRQEAERRGLKVFDATCPLVTKVHMEVARYSRDGRECILIGHAGHPEVEGTMGQYDERNGGAIYLVEDEEDVERLQVRDPDSLAFVTQTTLSMDDTSRVIDALRKRFPNIGGPRKDDICYATQNRQDAVKQLADECDVVLVVGSPNSSNSNRLRELAERMGTPAYLIDGAEDLQRGWFDGVRNIGITAGASAPEVLVRGVIERLRGWGAQEVSELSGREENITFSMPKELRVRALG	PGPT0007615_1419	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007615-ispH|lytB-K03527	NA	NA
BMS010_08388	438	fkpB	COG1047	FKBP-type 16 kDa peptidyl-prolyl cis-trans isomerase	ATGACTGAACAGCGTATCGGCCCGGATAAGGAAGTCACTCTTCACTTCGCCCTCAAGCTGGAAAACGGCGAGGTGGTGGACAGCACGTTCGACAAGAAGCCTGCGACGTTCAAGGTGGGCGACGGCAACCTGTTGCCCGGCTTCGAGCAGGCACTCTACGGCCTGAAGGCTGGCGACAAGCGTGTGCTACCGATCGAACCGGAGCAGGGCTTTGGCCAGCCCAATCCGCAGAACGTACAGATCATGCCGCGAAGCCAGTTCGAGGGCATGGATCTGTCGCAAGGACTGCTGGTGATTTTCAACGATGCGGCAAACACCGAGCTTCCCGGCATCGTCAAAGCCTTCGACGAAACGCAGGTCACCATCGATTTCAACCATCCCCTGGCCGGAAAGGCCTTGAACTTCGAAGTGGATATCCTCGAAGTACGTCCACTCTGA	MTEQRIGPDKEVTLHFALKLENGEVVDSTFDKKPATFKVGDGNLLPGFEQALYGLKAGDKRVLPIEPEQGFGQPNPQNVQIMPRSQFEGMDLSQGLLVIFNDAANTELPGIVKAFDETQVTIDFNHPLAGKALNFEVDILEVRPL				NA	NA	NA	NA	NA
BMS010_08389	504	lspA_2	COG0597	Lipoprotein signal peptidase	ATGACGTCTCGCTTCGGCAAGTTGTCCTGGCTCTGGCTCACCGTGCTGGTCGTCGTGCTCGACCAAGCCAGCAAGTTCTATTTCGAGGATACGCTGCGCCTGTATCAGCAGATCGTGGTGATCCCTGACTATTTCAGCTGGACTCTGGCTTATAACACCGGCGCGGCCTTCAGCTTCCTCGCCGGAGAGTCCGGCTGGCAGCGCTGGCTGTTCGCCTTGATCGCTGTTGCCGTCAGTGCCGTGCTACTGGTCTGGCTCAAGCGCCTCAAGACGGACGAGACCTGGCTGGCAATCGCATTGGCACTGGTCTTAGGCGGTGCCTTGGGAAACCTCTATGACCGCATCGCCTATGGTCACGTAGTCGACTTCATTCTGGTGCACTGGCAGAGCCGCTGGTATTTCCCGGCGTTCAACCTGGCCGACAGCGCCATCACCGTTGGTGCCGTCATGCTGGCGCTGGACATGTTAAAGAGCAAGAAATCCGGAGAACCCGCCCATGACTGA	MTSRFGKLSWLWLTVLVVVLDQASKFYFEDTLRLYQQIVVIPDYFSWTLAYNTGAAFSFLAGESGWQRWLFALIAVAVSAVLLVWLKRLKTDETWLAIALALVLGGALGNLYDRIAYGHVVDFILVHWQSRWYFPAFNLADSAITVGAVMLALDMLKSKKSGEPAHD	PGPT0004770_2074	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_LEAD_RESISTANCE	LEAD_RESISTANCE-PBR_TRANSPORT_SYSTEM,PGPT0004770-pbrB|pbrC-K03101	NA	NA
BMS010_08390	2832	ileS_2	COG0060	Isoleucine--tRNA ligase	ATGACCGACTACAAAGCGACCCTCAACCTGCCGGAAACGGCGTTTCCGATGAAGGCCGGCCTGCCCCAGCGCGAGCCGGAGATGCTGCAGCGCTGGAGCAGCATTGACCTGTACCGGAAGCTGCGGCAGATCGGTGAGGGACGCCCGAAGTTCGTTCTGCACGACGGCCCGCCGTATGCCAACGGCAATATTCACATCGGTCACGCGGTCAACAAGATCCTCAAGGACATCATCGTCCGTTCGAAGACCCTGGCCGGTTACGATGCGCCCTACGTACCGGGTTGGGACTGCCATGGCCTGCCCATCGAGCACAAGGTGGAAACCACCCACGGCAAGCACCTGCCCGCCGACAAGACCCGCGAACTCTGCCGTGCCTATGCGGCCGAGCAGATCGAAGGGCAGAAGGCCGACTTCATTCGTCTCGGTGTGCTCGGCGACTGGGATAATCCATACAAGACCATGGATTTCGCCAACGAGGCGGGGGAAATCCGCGCGCTGGCCGAAATGGTCAAGCAGGGATTCGTGTTCAAGGGCTTGAAGCCGGTCAACTGGTGTTTCGATTGCGGCTCCGCACTGGCGGAAGCCGAGGTCGAGTATCAGGACAAGAAGTCCGATGCCATCGACGTAGCGTTCCCGAGTGCCGACGACAAGGCTCTGGCAGAGGCATTCGATCTCGAGTCCCTGGGCAAGCCCGCCTGCATCGTGATCTGGACCACCACGCCCTGGACCATCCCGGCCAACCAGGCGCTGAACGCACATCCCGAATTCGACTATGCCCTGGTGGACGTTGGCGACAAGCTGTTGGTGCTGGCAGCCGAGCTGGTCGAGGCCAGCCTGAAGCGCTATGGCCTCGAGGGGCAGGTCGTCGCCACGACCAAGGGAGAGCGCCTGGAGAATCTGAACTTCCGTCATCCGCTCTACGAGCGTCTGTCGCCGGTTTACTTGGCCGAATACGTGGCGCTGGATGCCGGTACGGGGATCGTTCACTCGGCGCCGGCCTATGGCGAGGACGACTTCGTCACCTGCAAGCGCTACGGGATGCACAACGACGACATCCTCAATCCAGTGCAGAGCAATGGCGTCTATGTCGACTCCCTGCCGTTCTTCGGTGGGCAGTTCATTTGGAAGGCCAACCCGCAGATCGTCGAGAAGCTTGCCGAGGTCGGTTGCCTGCTGAAGCACGAGAGCATCAGCCACAGCTACATGCACTGCTGGCGCCACAAGACTCCGTTGATCTACCGCGCCACGGCGCAGTGGTTCGTCGGCATGGACAAGCAGCCGAACCAGGGCGATACCCTGCGTCAGCGTGCATTGGCCGGCATCGAGCAGACCGAGTTCGTTCCTTCCTGGGGCCAGGCGCGTCTGCAAGGCATGATTGCCGGTCGTCCGGACTGGTGTATCTCGCGTCAGCGCAACTGGGGGGTGCCGATCCCCTTCTTCCTGCACAAGGCCAGCGGCGAACTGCATCCGCGCACGCCGGAATTGATGGAAGCGGTAGCCCAACGTGTCGAGAAGGAGGGTATCGAAGCCTGGTTCAAACTCGACGCTGCCGAGTTGCTCGGTGATGAGGCTGCGCAATACGACAAGATCAGCGACACCCTGGATGTCTGGTTCGATTCGGGCACGACGCATTGGCATGTACTGCGTGGTTCGCACCCGCTCGGCCACGCCCAGGGGCCGCGCGCCGACCTCTATCTTGAGGGCTCCGACCAGCACCGTGGATGGTTCCATTCCTCTCTGCTGACCGGCTGCGCCATCGACGGGCATCCACCATACAAGGCGTTGCTGACCCACGGCTTCACCGTGGACGAGAACGGCCGCAAGATGTCCAAGTCGCTGGGCAATGTGATCGCTCCGCAGCAAGTCACTGACAGCCTGGGGGCGGACATCCTGCGTCTGTGGGTTTCGGCAACCGATTACTCCGGCGAAATGGCGGTCTCCCAGCAGATTCTGCAGCGCAGTGCCGACGCCTACCGGCGTATCCGCAACACCGCCCGCTTCCTGTTGGCCAACCTGAACGGCTTCGATCCGACCAAGGATTTGCTCGCGGCCGGCGACATGCTGGCGCTGGATCGCTGGGCCGTGGATCGCGCGGCATTGCTGCAGAGCGAGATCGAAGAGGCCTACGGCAGCTACCGTTTCTGGAACGTCTACCAGAAGGTCCATAATTTCTGCGTTCAGGAGTTGGGCGGCTTCTATCTCGACATCATCAAGGACCGTCAGTACACCACGGCGGCCGACAGCGTCGCCCGGCGTTCCTGTCAGACGGCCCTGTTCCATATCGCCGAGGCGCTGGTGCGCTGGATCGCGCCGATCCTGGCGTTCACTGCCGAGGAGATCTGGCAGTACCTGCCGGGCGAGCGTAACGAGTCGGTAATGCTGAATATCTGGTACCAGGGGCTTGGCGAGCTGCCGAGCGATGCAGAGCTGGGCCGCGATTTCTGGGCGCGCGTGATGGAAGTCAAGGCCGCCGTGAACAAGGAACTGGAGAATCAGCGCACCGCCAAGGCCATCGGCGGCAACCTGCAGGCTGAGGTCACCCTGTACGCTGAAGAGTCGCTCATCACGGATCTGGCCAAACTGGGCAATGAATTGCGCTTCGTATTGATTACGTCGACGGCGACCCTGGCGCCGCTGGCCGATGCACCGGCCAATGCGGTAGATAGTGGGCTGGCTGGGCTCAAGTTGCTGGTGCGCAAGTCCGAGCAGGCCAAATGCGGCCGCTGCTGGCATCACCGCGAGGACGTAGGGATCAACCCGGCCCATCCGGAAATCTGTGGCCGTTGCGTCGAGAACATCGAAGGGCAGGGCGAGGTACGGCACTATGCCTGA	MTDYKATLNLPETAFPMKAGLPQREPEMLQRWSSIDLYRKLRQIGEGRPKFVLHDGPPYANGNIHIGHAVNKILKDIIVRSKTLAGYDAPYVPGWDCHGLPIEHKVETTHGKHLPADKTRELCRAYAAEQIEGQKADFIRLGVLGDWDNPYKTMDFANEAGEIRALAEMVKQGFVFKGLKPVNWCFDCGSALAEAEVEYQDKKSDAIDVAFPSADDKALAEAFDLESLGKPACIVIWTTTPWTIPANQALNAHPEFDYALVDVGDKLLVLAAELVEASLKRYGLEGQVVATTKGERLENLNFRHPLYERLSPVYLAEYVALDAGTGIVHSAPAYGEDDFVTCKRYGMHNDDILNPVQSNGVYVDSLPFFGGQFIWKANPQIVEKLAEVGCLLKHESISHSYMHCWRHKTPLIYRATAQWFVGMDKQPNQGDTLRQRALAGIEQTEFVPSWGQARLQGMIAGRPDWCISRQRNWGVPIPFFLHKASGELHPRTPELMEAVAQRVEKEGIEAWFKLDAAELLGDEAAQYDKISDTLDVWFDSGTTHWHVLRGSHPLGHAQGPRADLYLEGSDQHRGWFHSSLLTGCAIDGHPPYKALLTHGFTVDENGRKMSKSLGNVIAPQQVTDSLGADILRLWVSATDYSGEMAVSQQILQRSADAYRRIRNTARFLLANLNGFDPTKDLLAAGDMLALDRWAVDRAALLQSEIEEAYGSYRFWNVYQKVHNFCVQELGGFYLDIIKDRQYTTAADSVARRSCQTALFHIAEALVRWIAPILAFTAEEIWQYLPGERNESVMLNIWYQGLGELPSDAELGRDFWARVMEVKAAVNKELENQRTAKAIGGNLQAEVTLYAEESLITDLAKLGNELRFVLITSTATLAPLADAPANAVDSGLAGLKLLVRKSEQAKCGRCWHHREDVGINPAHPEICGRCVENIEGQGEVRHYA				NA	NA	NA	NA	NA
BMS010_08391	942	ribF_2	COG0196	Bifunctional riboflavin kinase/FMN adenylyltransferase	ATGCAGCTGGTTCGAGGTCTTCATAACCTGCTTCCCCGGCATCGGGGCTGTGTTGCCACCATCGGTAATTTCGATGGGGTGCACCGTGGTCACCAGGCGATCCTAAAGCGACTGCGCGAACGTGCGGCGGAGTTGCGCTTGCCCAGTTGCGTGGTGATTTTCGAGCCTCAGCCGCGGGAGTACTTCGCTCCGGATAGCGCTCCGGCCCGTTTGACGCGCCTGCGCGACAAGCTCGAGCTGCTGGCTGCCGAGGGCGTCGATCGGGTGCTATGCCTGGCTTTCAACCGACGTTTGCGCGAACTCAGTGCGGCCGAGTTCGTTCATGCGGTGCTGGTGGAAGGGCTGGGGGTGAAGCATCTGGAGGTCGGTGACGATTTCCGCTTCGGTTGCGATCGTGCCGGCGATTTCGAGTTTCTGCAGCAGGCCGGTGCCGATGAGGGTTTCACGGTCGAAGCGGCGGCAACCGTCGAACTGGATGGCGAGCGTGTCAGCAGTACGCGCGTCCGCCAGGCACTGGCGGCGGGCGATTTCGCCTTGGCCGAGCGCTTGCTGGGGCGGCCGTATTGCATCACCGGCCGAGTGCTGCATGGCCAGAAGCTCGGTCGTCAGTTGGGCGCACCGACCGCGAACGTGCAGCTCAAGCGCTGCCGGGTTCCACTGTCGGGTGTCTATCTGGTCAGTGCCAGGGTGGACGACGGGCGGCGCCTGCAGGGCGTGGCCAATATCGGTGTTCGCCCGAGCGTGAAGGGCGATGGACAGGCCCACCTGGAAGTACATCTGCTGAATTTTGCCGGCGACCTGTATGGCCGGCGCCTGACGGTGGCATTCCACCACAAGCTGCGAGACGAGCAGCGTTTCGCCTCCCTGGAGGCGCTGAAGACGGCGATCGATGCGGACATCGCCGCCGCCCGGGCCTACTGGCTCGGTCAACCGCTTCAATAA	MQLVRGLHNLLPRHRGCVATIGNFDGVHRGHQAILKRLRERAAELRLPSCVVIFEPQPREYFAPDSAPARLTRLRDKLELLAAEGVDRVLCLAFNRRLRELSAAEFVHAVLVEGLGVKHLEVGDDFRFGCDRAGDFEFLQQAGADEGFTVEAAATVELDGERVSSTRVRQALAAGDFALAERLLGRPYCITGRVLHGQKLGRQLGAPTANVQLKRCRVPLSGVYLVSARVDDGRRLQGVANIGVRPSVKGDGQAHLEVHLLNFAGDLYGRRLTVAFHHKLRDEQRFASLEALKTAIDADIAAARAYWLGQPLQ	PGPT0008625_2781	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008625-ribF-K11753	NA	NA
BMS010_08392	1539	murJ_2	COG0728	putative lipid II flippase MurJ	ATGAATCTACTCAAGTCGCTGGCGGCCGTCAGCTCCATCACTATGCTGTCGCGGGTGTTGGGCTTCGTTCGCGACACCATCATCGCCCGTATTTTTGGTGCAGGTATGGCGACGGATGCCTTCTTCGTCGCCTTCAAGTTGCCCAATCTGTTGCGGCGCATCTTTGCCGAGGGGGCATTTTCCCAGGCATTCGTGCCCATCCTGGCGGAATACAAGACCCAGCAGGGCGAAGAGGCGACGCGTACGTTTATCGCCTATATCTCTGGCCTGCTCACGCTCGTGCTGGCGCTGGTTACGTTGTTGGGCGTGCTCGCAGCCCCCTGGATCATCTGGGTCAGTGCTCCGGGTTTCGCTGACGAGCCGGAGAAGTTCGAACTGACGACCTCGCTACTGCGGGTGACCTTTCCCTACATTCTGCTGATTTCGCTGTCATCGCTGGCCGGCGCCATCCTCAATACCTGGAACCGCTTTTCCGTGCCGGCGTTCGTGCCGACATTGCTGAATGTCAGCATGATCGGTTTCGCCCTTTTTCTGACTCCCTATTTCGACCCTCCCGTCATGGTACTGGGATGGGCTGCGCTGGCCGGGGGACTGCTCCAGCTTTTGTATCAGCTGCCGTCATTGAAGAAGATCGGCATGCTCGTCCTGCCTCGGCTGAATCTGCGCGATACGGGAGTCTGGCGTGTTCTGAAGCAGATGCTGCCGGCGATCCTGGGCGTTTCGGTCAGCCAGATTTCGCTGATCATCAATACCATCTTCGCGTCATTCCTGGTGGCGGGGTCGGTATCCTGGATGTACTACGCCGATCGACTGATGGAACTGCCATCCGGCGTGCTGGGGGTGGCACTGGGCACCATTCTGTTGCCGTCATTGGCCAAGACCTATGCCAGCCAGGACCGCAAGGAATATTCGCAGCTTCTCGACTGGGGTCTGCGGCTGTGCTTCCTGTTGGTGTTGCCCTGTGCTGTCGCTCTGGCATTGCTCGCCGAGCCTCTGACGGTTTCGTTGTTCCAGTATGGAAAGTTCTCGGCTCATGATGCCCTGATGACCCAGCGTGCCCTGATTGCCTATTCGGTCGGCCTGCTGGGTATCATTCTGGTCAAGGTGCTGGCGCCGGGCTTCTATGCCCAGCAGAACATCCGGACACCGGTGCGTATCGCTGTATTCACCCTGGTTGTAACGCAACTGCTGAACCTGGCGCTGATCTTCCCTTTGCAGCATGCCGGCTTGGCCTTGGCCATTGGTCTGGGCGCCTGTCTGAATGCCGGCCTGCTTTACTGGAAACTGCGCGCGCAGCGGCTGTTCCAGCCGCAGCCGGGGTGGGTTCTGTTCCTGGCGAAGCTGGTTGTGGCGGTGCTGGTCATGGCTGCGGCACTGTTCGGGTTGATGCAATTCATGCCAGCCTGGGACGAGGGCGTGATGCTGGTGCGCCTGCTGCGCCTCGGCGGGTTGGTGACGGTCGGCGTATTCGCCTACTTCGGTATGTTGCTGTTGCTCGGCTTCCGGATCAGGGATTTTTCCCGGCGAGCGGTTTCCTGA	MNLLKSLAAVSSITMLSRVLGFVRDTIIARIFGAGMATDAFFVAFKLPNLLRRIFAEGAFSQAFVPILAEYKTQQGEEATRTFIAYISGLLTLVLALVTLLGVLAAPWIIWVSAPGFADEPEKFELTTSLLRVTFPYILLISLSSLAGAILNTWNRFSVPAFVPTLLNVSMIGFALFLTPYFDPPVMVLGWAALAGGLLQLLYQLPSLKKIGMLVLPRLNLRDTGVWRVLKQMLPAILGVSVSQISLIINTIFASFLVAGSVSWMYYADRLMELPSGVLGVALGTILLPSLAKTYASQDRKEYSQLLDWGLRLCFLLVLPCAVALALLAEPLTVSLFQYGKFSAHDALMTQRALIAYSVGLLGIILVKVLAPGFYAQQNIRTPVRIAVFTLVVTQLLNLALIFPLQHAGLALAIGLGACLNAGLLYWKLRAQRLFQPQPGWVLFLAKLVVAVLVMAAALFGLMQFMPAWDEGVMLVRLLRLGGLVTVGVFAYFGMLLLLGFRIRDFSRRAVS	PGPT0024200_3592	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_LIPID_II_FLIPPASE_ACTIVITY,PGPT0024200-murJ|mviN-K03980	NA	NA
BMS010_08393	279	rpsT_2	COG0268	30S ribosomal protein S20	GTGGCCAATACACCTTCTGCCAAAAAACGCGCCAAACAGGCTGAGAAGCGTCGTAGCCATAACGCCAGCCTGCGCTCCATGGTTCGTACCTACATCAAGAACGTGGTCAAGGCGATCGACGCCAAGGACCTGGAAAAGGCTCAAGCCGCCTACACCCTGGCTGTGCCGGTGATCGACCGTATGGCCGACAAAGGCATCATCCACAAGAACAAGGCAGCTCGCCACAAAGGCCGTCTGAACGCCCACATCAAGGCACTCAGCGAAGCCGCTGCCGCCTAA	MANTPSAKKRAKQAEKRRSHNASLRSMVRTYIKNVVKAIDAKDLEKAQAAYTLAVPVIDRMADKGIIHKNKAARHKGRLNAHIKALSEAAAA				NA	NA	NA	NA	NA
BMS010_08394	456			hypothetical protein	ATGCGGGCGTTCAAGGGATTGCTGTGCGGCATGCTGCTGTTGCCGCTTGTAGCTGCGGCTGAGCCGATAGGCGAGGTGTCTACCGTTTTCAAGTGGGTGGGGCCGAACGACAAGATCGTCGTCGAGGCGTTCGATGATCCCAAGGTGGAGGGCGTGACCTGCTATCTGTCCCGTGCCAAGACGGGCGGTGTGAAGGGTGGGCTGGGGTTGGCCGAGGATCGTGCGGAGGCTTCCATAGCCTGTCGCCAAGTGGGGCCGATCCGCTTTCGAGCCGAGCTGAAGGAGGGGGAGGAGGTGTTCAAGGAGCGTACTTCGCTGGTTTTCAAGACCATGCAGGTGGTGCGTTTCTTCGACCGGAAGCGCAATACCCTGGTGTATCTGGTCTATAGCGACCGGGTGATAGAGGGTAGTCCGCAGAATGCGGTGACGGCCATTCCGATCCTGCCTTGGAAGTGA	MRAFKGLLCGMLLLPLVAAAEPIGEVSTVFKWVGPNDKIVVEAFDDPKVEGVTCYLSRAKTGGVKGGLGLAEDRAEASIACRQVGPIRFRAELKEGEEVFKERTSLVFKTMQVVRFFDRKRNTLVYLVYSDRVIEGSPQNAVTAIPILPWK				NA	NA	NA	NA	NA
BMS010_08395	1119	proB_2		Glutamate 5-kinase	ATGCGGGACAAGGTGACCGGCGCGCGGCGCTGGGTGGTGAAGATCGGTAGTGCCCTGTTGACCGCCGATGGGCGTGGATTGGATCGAGCGGCCATGGCGGTTTGGGTTCAGCAGATGGTGGCCCTGCGTGAGGCCGGCGTCGAGTTGGTGCTGGTGTCTTCCGGTGCCGTGGCGGCGGGCATGAGTCGGCTGGGTTGGGCGTCTCGCCCGAAGGCGATGCACGAGCTGCAGGCTGCCGCCGCAATCGGTCAGATGGGCCTTATTCGCGCCTGGGAATCCAGTTTCGCCGAGCACGGCAAGCATACTGCCCAGATTCTGCTGACCCATGACGACCTGTCCGATCGCAAGCGCTACCTGAACGCGCGTAGCACTCTGCGCACCCTGGTGGAGCTGGGGGTGGTTCCGGTGATCAACGAGAACGATACCGTCGTCACCGACGAGATCCGCTTCGGTGACAACGATACCCTCGCGGCGCTGGTGGCCAACCTGGTGGAGGCGGACCTGTTGGTCATCCTCACTGATCGTGACGGCATGTTCGATGCCGATCCGCGGACCAATCCCGATGCGAAGCTGATCCACGAGGCGCGTGCCGATGACCCGGCGCTGGATGCGGTGGCAGGGGGTACCGGCGGTGCGCTCGGTCGGGGAGGGATGCAGACCAAATTGCGTGCGGCGCGCCTCGCGGCGCGTTCCGGGGCGCACACCATCATCGTCGGTGGGCAGATCGAGCGGGTGCTGGATCGGCTCAAATCGGGCGAGCGCCTGGGAACCTTGCTGGCGCCCGAGCGGGGCCTGCTGGCGGCACGCAAGCAGTGGCTGGCGGGGCATCTGCAGACCCGTGGCACGTTAACGCTGGATGCTGGGGCTGTGAAGGCTCTGGTGCAGGATCGCAAGAGCCTGCTGCCGGTTGGGGTGAAGGGTGTGCAAGGCAACTTCCGGCGTGGCGAAATGGTGGTGTGCGTGGGGCCGGATGGTCGCGAGGTTGCGCGAGGGCTCGCCAACTACAGTGCCGTCGAGGCTCAGAAGATTATCGGGCAGCCCTCCGATGCCATCGAGAAGTTGCTGGGTTATGTGGATGAGCCGGAGCTTGTTCATCGCGACAATCTGATTCTGGTCTGA	MRDKVTGARRWVVKIGSALLTADGRGLDRAAMAVWVQQMVALREAGVELVLVSSGAVAAGMSRLGWASRPKAMHELQAAAAIGQMGLIRAWESSFAEHGKHTAQILLTHDDLSDRKRYLNARSTLRTLVELGVVPVINENDTVVTDEIRFGDNDTLAALVANLVEADLLVILTDRDGMFDADPRTNPDAKLIHEARADDPALDAVAGGTGGALGRGGMQTKLRAARLAARSGAHTIIVGGQIERVLDRLKSGERLGTLLAPERGLLAARKQWLAGHLQTRGTLTLDAGAVKALVQDRKSLLPVGVKGVQGNFRRGEMVVCVGPDGREVARGLANYSAVEAQKIIGQPSDAIEKLLGYVDEPELVHRDNLILV	PGPT0014220_2105	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014220-proB-K00931	NA	NA
BMS010_08396	1224	obg		GTPase Obg	ATGAAATTCGTCGATGAAGTATCGATTTTTGTAAAGGCCGGCGACGGCGGTAACGGCATGATGAGCTTCCGTCGCGAGAAGTTCATCGAGAAAGGTGGCCCCAACGGGGGCGACGGTGGCGATGGCGGCTCCGTCTACCTGGAGGCCGACGAGAACCTCAATACCCTGGTCGATTACCGCTATACGCGTCGGTTTGCGGCCAAGAACGGGGAAAAGGGTGGCAGCACCGATTGTACCGGTGCGAAAGGGGATGACCTCATTCTGCCCGTTCCGGTCGGCACGACGGTGATCGATGCGGGAACTCAGGAAGTCATCGGTGACCTGACCAAGCCGGGTCAGCGCCTGCTGGTCGCCCAGGGTGGTTGGCATGGGTTGGGTAATACCCGCTTCAAGTCCAGTACCAACCGTGCGCCGCGGCAGACCACTCCTGGCAAGCCGGGCGAGGCGCGCGATCTCAAGCTGGAATTGAAGGTGCTCGCCGATGTCGGCCTGCTTGGCTTGCCGAATGCCGGCAAGAGCACGTTCATCCGCTCCGTTTCCGCAGCCAAGCCCAAGGTGGCGGATTATCCGTTCACCACGCTGGTGCCGAACCTTGGCGTGGTCAGTGTCGGTCGCTACAAGAGTTTCGTCGTCGCCGACATTCCGGGCTTGATCGAAGGCGCTTCCGAGGGGGCTGGGTTAGGGATTCGTTTCCTCAAGCATTTGGCGCGTACCCGCTTGTTGTTGCATCTGGTGGATATGGCGCCGGTGGACGGCAGCGATCCGGCCGAGGCTGCGGAAGTCATCATCCGTGAACTGGAAAAGTTCAGCCCGGCGCTGGCTGAACGGGACCGCTGGCTGGTATTGAACAAGGCTGATCAGTTGCTTGAGGAGGAGCGCGAAGAGCGTGTTCGCTCCGTGGTCGAGCGGCTCGATTGGAAAGGCCCTGTCCATGTGATCTCGGCGCTGGAAAGCGAAGGGACCGAGTCGCTCGCTCAGTCGATCATGCGTTATCTCGATGAGCGCGAGCTGCGTAAGGTGGAAGAGCCGGCTTATGCGGAGGCGTTGGCCGAGCTGGATCGGCGTATCGAAGACGAGGCGCGAGCACGTTTGCAGGCGCTGGATGATCGCCGTGCCCTGCGTCGTGCTGGCCTGAAGAGTGTCGATGATATCGGCGATGACGATTGGGATGACGACTTCGGGGATGACGAAGATGGTCCCGAGATCATCTACGTCCGTGACTGA	MKFVDEVSIFVKAGDGGNGMMSFRREKFIEKGGPNGGDGGDGGSVYLEADENLNTLVDYRYTRRFAAKNGEKGGSTDCTGAKGDDLILPVPVGTTVIDAGTQEVIGDLTKPGQRLLVAQGGWHGLGNTRFKSSTNRAPRQTTPGKPGEARDLKLELKVLADVGLLGLPNAGKSTFIRSVSAAKPKVADYPFTTLVPNLGVVSVGRYKSFVVADIPGLIEGASEGAGLGIRFLKHLARTRLLLHLVDMAPVDGSDPAEAAEVIIRELEKFSPALAERDRWLVLNKADQLLEEEREERVRSVVERLDWKGPVHVISALESEGTESLAQSIMRYLDERELRKVEEPAYAEALAELDRRIEDEARARLQALDDRRALRRAGLKSVDDIGDDDWDDDFGDDEDGPEIIYVRD				NA	NA	NA	NA	NA
BMS010_08397	258	rpmA_2	COG0211	50S ribosomal protein L27	ATGGCACACAAAAAAGCTGGCGGTTCTACCCGCAACGGTCGCGACTCAGAAAGTAAACGCCTTGGCGTGAAAATGTTCGGCGGCCAGGCCATCAAGGCCGGTAACATCATCGTCCGTCAGCGCGGTACTCAGTTCCATGCCGGTTACGGCGTTGGTCTGGGCAAGGATCACACCCTGTTCGCGAAAGTGGATGGCGTGGTCAAGTTCGAGATCAAGGGCGCCTTCGGTCGCAAATACGTGAGCGTCGTGACTGCCTGA	MAHKKAGGSTRNGRDSESKRLGVKMFGGQAIKAGNIIVRQRGTQFHAGYGVGLGKDHTLFAKVDGVVKFEIKGAFGRKYVSVVTA				NA	NA	NA	NA	NA
BMS010_08398	312	rplU_2	COG0261	50S ribosomal protein L21	ATGTACGCAGTAATTGTTACCGGTGGCAAGCAATACAAAGTCGCCGAAGGCGAGTTCCTCAAGATCGAGAAGCTCGAAGTCGCCACCGGCGAAGCCGTCACTTTCGACCGCGTGCTGCTGGTCGGCAATGGCGATGATGTGAAGATCGGTGCTCCGGTCGTCGATGGTGCCAAGGTTGTGGCCGAAGTGGTTTCCCAAGGCCGTCACGACAAAGTGCGCATCATCAAGTTCCGCCGTCGTAAGCACCACATGAAGCGTCAGGGCCACCGTCAGTGGTTCACTGAGATCAAAATCACCGGTATTCAGGCGTAA	MYAVIVTGGKQYKVAEGEFLKIEKLEVATGEAVTFDRVLLVGNGDDVKIGAPVVDGAKVVAEVVSQGRHDKVRIIKFRRRKHHMKRQGHRQWFTEIKITGIQA				NA	NA	NA	NA	NA
BMS010_08399	969	ispB_2	COG0142	Octaprenyl diphosphate synthase	ATGCAACCCCAGGCCTTCTATAGCGTGGTGGCGGACGATTTTACCGCTGTCGATGGCATTATCCGCAAGCAGCTCGTTTCGCGCGTTCCCCTCGTGGAAAAGATCGGGGACTACATCATCTCCGCCGGCGGCAAGCGCCTTCGCCCCTTGCTGGTGCTGCTCTGCGGCAAGGCACTGGGACGTCAGGACGATGACTTGCGCCTGCTCGCCGCCACCATCGAGTTCCTACATACCGCTACGCTGTTGCATGACGACGTGGTCGACATGTCCGGCATGCGCCGTGGCCGCTCCACCGCCAATGCGCTGTGGGGCAATGCCCCCAGCGTCCTGGTCGGCGACTTCCTTTATTCGCGCTCCTTCGAAATGATGGTGGAGCTCGGCTCCATGTCGGTGATGCGCATTCTCTCCAAGGCCACCCGGGTGATCGCCGAGGGCGAGGTCCTGCAGCTCTCCAAGGTGCGCGATGCCAGCACCACCGAAGAGACCTACATGGAAGTCATCCGCGGCAAGACCGCCATGCTTTTCGAGGCCTCCACCCACAGTGCCGCCGCCCTGGCCGGTGCCAGCCATGAGCAGAGCGAAGCGCTGCGCACCTTTGGCGATCATCTGGGCATTGCCTTCCAACTGGTCGACGACCTGCTCGACTACCGGGGCGATGCCGAGACGCTGGGCAAGAACGTTGGCGACGATCTGGCCGAAGGCAAACCCACCCTGCCGTTGATCCATTGCATGCGTGAGGGCACTCCTGAACAAGCCGCCTTGGTTCGCCAAGCGATCCAGAAAGGTGGTATCGAGGATTTGGAAAGCATCCGTGCCGCGGTAGAAGCCGCTGGAGCGCTGGACTACACTGCTCAACTGGCTCGCGATTACGCCGAACGCGCCATTGCCTGCCTCGACGCGCTACCCGCCAGCGAATACCGCGACGCCCTCGTCGAATTGAGCCGTTTCGCCGTCGCTCGCACCCACTGA	MQPQAFYSVVADDFTAVDGIIRKQLVSRVPLVEKIGDYIISAGGKRLRPLLVLLCGKALGRQDDDLRLLAATIEFLHTATLLHDDVVDMSGMRRGRSTANALWGNAPSVLVGDFLYSRSFEMMVELGSMSVMRILSKATRVIAEGEVLQLSKVRDASTTEETYMEVIRGKTAMLFEASTHSAAALAGASHEQSEALRTFGDHLGIAFQLVDDLLDYRGDAETLGKNVGDDLAEGKPTLPLIHCMREGTPEQAALVRQAIQKGGIEDLESIRAAVEAAGALDYTAQLARDYAERAIACLDALPASEYRDALVELSRFAVARTH	PGPT0007525_2362	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007525-ispB-K02523	NA	NA
BMS010_08400	246			hypothetical protein	ATGACCTATCTGATTGACGCCTGGCTGGACCGCCCACACCCTTATCTGCGCATCCTGAACCGGGATACTGGGGAGGTATGCGCCATGCTGGAAGAAGATGCCCTCGACGAACTGCGCGACCTCGGTGAACTCGATTTCGCCGGATTGAGTTCCAGCGAACCCGGTGTGCTCAAGGAGCTGGTACGCAGCCTGTTCCTCTTCTGTTATGCGCGGGCATTGCGCCCGGCCGGCCACGATCCGCACTGA	MTYLIDAWLDRPHPYLRILNRDTGEVCAMLEEDALDELRDLGELDFAGLSSSEPGVLKELVRSLFLFCYARALRPAGHDPH				NA	NA	NA	NA	NA
BMS010_08402	618	fklB_2	COG0545	FKBP-type 22 kDa peptidyl-prolyl cis-trans isomerase	ATGTCCGAACTCAACCTTTCCACCGACGAAACCCGTGTCAGTTACGGTATCGGCCGTCAGCTCGGCGACCAATTGCGCGACAACCCGCCTCCGGGCGTCAGCCTGGACGCCGTACTCGCAGGGTTGGCCGACGCCTTCGCCGGCCAGCCGAGCCGGGTCGACCAAACCGCCCTGGCGGCCAGCTTCCGTGTGATTCGCGAGCGCATGCAAGCCGAGGCTCAGGCCAAGGCTGAGGCGGCAGCCGGAGAAGGGCGGGCGTATCTGGAACAGAACGCCAGGCGTGAAGGCGTCACGGTGCTGCCGTCCGGTTTGCAATATGAGGTGCTGGTGGCCGGCGAAGGCGCCAAGCCGTCCCGCGAGGATCATGTGCGTACCCATTACCATGGCACGCTGATCGATGGCAGTGTGTTCGACAGCTCCTACGAGCGCGGCCAGCCGGCCGAATTCCCGGTTGGCGGTGTGATCGCCGGTTGGGTCGAAGCCCTGCAGCTGATGAATACCGGCAGCAAATGGCGTCTGCATGTGCCCAGCGAGCTGGCCTATGGCGGCCAGGCGGTGGGCAGCATTCCGCCGCACAGTGTGCTGGTGTTCGACGTCGAGCTGCTGGAAATCCTCTGA	MSELNLSTDETRVSYGIGRQLGDQLRDNPPPGVSLDAVLAGLADAFAGQPSRVDQTALAASFRVIRERMQAEAQAKAEAAAGEGRAYLEQNARREGVTVLPSGLQYEVLVAGEGAKPSREDHVRTHYHGTLIDGSVFDSSYERGQPAEFPVGGVIAGWVEALQLMNTGSKWRLHVPSELAYGGQAVGSIPPHSVLVFDVELLEIL	PGPT0015110_204	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0015110-ppiA-K03767	NA	NA
BMS010_08403	306			hypothetical protein	ATGAACCTGCATGATCTGTCCAGCCATGCCCGCGCCGGGCATGTCCAGGAATTGAATTTGATTTCCCTGGAAGGCGGCATCTACATCCTGGAGGCACGGATGGACGATGGAGCCCATCCGCTCAGCGACAACCAGGGGCACACGATGCATCTGCGCTCCGTCGAGCATGCCAGGGAGCTGCTGCACGCGCTGCCGACGCTGCCCTGCAATCTGGTCCACACCATGGTGCACGACGAGATGTGTGGCATCCGCGAGGATAACGGCGAGATCGTTTGCGTCCCCATTTCGCTTTCGCTGCCTGGCTGA	MNLHDLSSHARAGHVQELNLISLEGGIYILEARMDDGAHPLSDNQGHTMHLRSVEHARELLHALPTLPCNLVHTMVHDEMCGIREDNGEIVCVPISLSLPG				NA	NA	NA	NA	NA
BMS010_08404	489			hypothetical protein	ATGGAACGTTTTATCGAAAACGCGATGTATGCCTCCCGTTGGTTGCTGGCACCGATCTATTTCGGTCTGTCTCTCGCTCTGCTGGCACTGGCGATCAAGTTCTTCCAGGAAATCTTCCATGTGCTGCCGGCGATCTTCTCGATGGCCGAAGCCGACCTGATCCTGGTCCTGCTGTCTCTCATCGACATGGCACTGGTGGGTGGCCTGCTGGTGATGGTGATGATTTCCGGCTACGAGAACTTCGTCTCCCAACTGGATATTGACGAAGGCAAGGAGAAGCTCAACTGGCTGGGCAAGATGGACTCCGGCTCCCTGAAGATGAAGGTGGCCGCTTCCATCGTGGCGATTTCCTCGATCCACCTGCTTAAGGTGTTCATGGATGCGCAAAACATCAATGACACCAAGCTGATGTGGTACGTGATCATTCACATGACGTTCGTGGCCTCGGCGTTCGCCATGGGCTATCTGGACAAGCTGACCAAGCATTGA	MERFIENAMYASRWLLAPIYFGLSLALLALAIKFFQEIFHVLPAIFSMAEADLILVLLSLIDMALVGGLLVMVMISGYENFVSQLDIDEGKEKLNWLGKMDSGSLKMKVAASIVAISSIHLLKVFMDAQNINDTKLMWYVIIHMTFVASAFAMGYLDKLTKH				NA	NA	NA	NA	NA
BMS010_08405	342			hypothetical protein	ATGCCGCGCAGCCTCTGTCTTACCCGCCAATGCCTGGGACTGGTGACGCGCATCGAATGTGTGGTGTTGCCTCTGGCCGGCGAGCGAGGGCTCTGGACCCTTCTCTGCGCGGCCGGCATGTCCGGCTCCCAACCTTCCGCAATCAAGTCCCAAGGCCCATTCCACGGGCCTTTCGTAGCCGAAGGCGTACTCGATGCGATTGCCGAAAGCCTGGCCGTTCAAGGCTATGAGGCTTGCTCCGAACCCATGATCTGGCGCCTGCATCTGCAGGCCGAGCTGCGTCGCCTGAACGGCGAGCGCTGCCGGCATCTGGGCGACTACCAGTTCCGGCCCGAGAGCTGA	MPRSLCLTRQCLGLVTRIECVVLPLAGERGLWTLLCAAGMSGSQPSAIKSQGPFHGPFVAEGVLDAIAESLAVQGYEACSEPMIWRLHLQAELRRLNGERCRHLGDYQFRPES				NA	NA	NA	NA	NA
BMS010_08406	2502			hypothetical protein	ATGCCCGATCCTTTCGCTGCCGGCTTGCGCCTGGCACCCGACGCCCTGACCCGCCCCTTCGATCCCTCCCAGTTCGCCTTCACCACCACCGATGATCTGGAGCCCTTCCGTGGCGTGCTCGGCCAGGAACGCGCGGTCGAGGCGCTGCAGTTCGGCGTGGCGATGCCGCGCCCCGGCTACAACGTGTTCGTCATGGGCGAGCCGGGAACCGGCCGCTTTTCGTTCGTCCAGCGCTACCTGAAGGCGGAAGCCAAGCGCCTGGAGACCCCGGTCGACTGGGTCTATGTGAACAATTTCGACGAGCCCCGGGAGCCCAAGGTGCTGGAGCTTCCGGCCGGCACCGCGAGCGATTTCATCGCCGATATCAACCAGTTGATCGACAACCTGCTGTCCACCTTCCCGGCGGTGTTCGAGCACCCTACCTACCAGCAGCGCAAGAATGCCATCGATCGCGCCTTCAACCAGCGCTACGACCGCGCTTTGGACGTGATCGAACGGTTGTCACTGGAGAAGGGCATCGCTCTTTACCGCGACAGCGCGAACATCGCTTTCACCCCGATGAAGGACGGCAAGGCGCTGGACGAGGCCGAGTTCGCCCAGTTGCCGGAGGCCGAACGCGAACGCTTCCACGTCGATATCGCGGCGCTGGAAGAGCGCTTGAACGAAGAGCTGGCCAGCCTGCCGCAGTGGAAGCGCGAGTCGAGCAATCAGTTGCGCCAGCTCAACGAGGAGACCATCACCCTGGCGCTTCAGCCGTTGCTGGCGCCGCTGTCGGAAAAATATGCCGAGTGCGCCGGAGTCTGCGCCTATCTCCAGGCCATGCAGGTGAATTTGCTGAAAACGGTGGTCGACCAGTTGCTGGACGATAAGCCGGATGCCCAGCGCCGCGAGATGCTGGAGGACCAGTACAGCCCGAGCCTGATCGTCGGTCACCACGCCAGCGGTGGAGCTCCGGTAGTGTTCGAATCGCACCCGACCTACGACAATCTGTTCGGCCGTATCGAATACAGCACCGACCAGGGCGCGCTCTACACCAGTTACCGGCAATTACGTCCGGGGGCGTTGCACCGTGCCAACGGCGGCTATCTGGTGTTGGAAGCGGAGAAACTCTTCGGCGAGCCGTTCGTCTGGGATGCCCTCAAGCGTGCCCTGCATTCGCGGCAGTTGAAAATGGAGTCGCCGCTGGCCGAACTGGGGCGCCTGGCGACAGTGACGCTTACGCCGCAGGTGATCCCGTTGCAGATCAAGGTGATCATCATCGGCTCGCGCCAGCTTTATTACACGCTGCAGGACCTCGATCCGGACTTCCAGGAGATGTTCCGCGTCCTGGTGGACTTCGATGAGGAGATTCCGCTGGCCGAAGACAGCCTGGAACAGTTCGCCCAGCTGTTGACGACGCGTACCTCGGAGGAAGGGATGGCACCGTTGACGTCCGCCGCTGTCGCCCGGCTGGCGACCTACAGCGCGCGTCTGGCCGAGCACCAGGGGCGCTTGTCGGCGCGCATCGGCGATCTCTTCCAACTGGTCAGCGAAGCCGATTTCGTCCGTCAACTGGCCAGCGACACGGTAACCGACGTCGGTCATATCGAGCGTGCGCTCAAGGCCAAGGCCACTCGGACGGGGCGTGTGTCGGCGCGGATTCTCGACGACATGCTGGCAGGCATCATCCTGATCGACACCGAAGGCGCTGCCATCGGCAAATGCAACGGTCTGACCGTGCTGGAGGTGGGGGATTCGGCGTTCGGCGTGCCGGCGCGGATTTCCGCCACTGTCTATCCGGGCGGTAGTGGCATCGTCGACATCGAACGCGAGGTCAACCTCGGCCAGCCGATCCACTCGAAAGGGGTGATGATCCTGACCGGCTACCTCGGTAGCCGCTACGCCCAGGAGTTTCCCCTGGAGATTTCCGCCAGCATCGCCCTGGAGCAGTCCTACGGTTACGTCGATGGCGACAGTGCCTCGCTGGGTGAAGTCTGCACGCTGATTTCCGCGCTGTCGCGCACACCGCTCAAGCAGTGCTTCGCCATCACCGGCTCGATCAACCAGTTCGGCGAGGTGCAGGCAGTCGGTGGGGTCAACGAGAAGATCGAGGGCTTCTTCCGCCTTTGTGAGGCACGAGGATTGACGGGCGAACAGGGGGTGATCATTCCCTATGCCAACGTCACCAACCTGATGCTCGATGATCGCGTATTGCAGGCAGTGCGCGAAGGGCGCTTCCACGTCTACGCGGTGCGCCAGGTCGATGAGGCGCTCGGGCTGCTGGTGGGCGAAGCGGCCGGTACGCCGGATGAGAAGGGGCAGTTTCCCGAGGGCAGCGTGAATGCCCGGGTGGTGCAGCGCCTGCGTGAAATCGCCGAGATGGGTATGGAAGAGGAAGACAAGGGACCGGCCAAGGCTCTCGCCGAGGAAATCAACACGGCGGTGGCGGCGAAGAAGCCCACCCGCAAAGGTCCGGCCAAGGAGCCGGGCACGCCCAAGCCGAAGGGTTCCGGGGCTGCATGA	MPDPFAAGLRLAPDALTRPFDPSQFAFTTTDDLEPFRGVLGQERAVEALQFGVAMPRPGYNVFVMGEPGTGRFSFVQRYLKAEAKRLETPVDWVYVNNFDEPREPKVLELPAGTASDFIADINQLIDNLLSTFPAVFEHPTYQQRKNAIDRAFNQRYDRALDVIERLSLEKGIALYRDSANIAFTPMKDGKALDEAEFAQLPEAERERFHVDIAALEERLNEELASLPQWKRESSNQLRQLNEETITLALQPLLAPLSEKYAECAGVCAYLQAMQVNLLKTVVDQLLDDKPDAQRREMLEDQYSPSLIVGHHASGGAPVVFESHPTYDNLFGRIEYSTDQGALYTSYRQLRPGALHRANGGYLVLEAEKLFGEPFVWDALKRALHSRQLKMESPLAELGRLATVTLTPQVIPLQIKVIIIGSRQLYYTLQDLDPDFQEMFRVLVDFDEEIPLAEDSLEQFAQLLTTRTSEEGMAPLTSAAVARLATYSARLAEHQGRLSARIGDLFQLVSEADFVRQLASDTVTDVGHIERALKAKATRTGRVSARILDDMLAGIILIDTEGAAIGKCNGLTVLEVGDSAFGVPARISATVYPGGSGIVDIEREVNLGQPIHSKGVMILTGYLGSRYAQEFPLEISASIALEQSYGYVDGDSASLGEVCTLISALSRTPLKQCFAITGSINQFGEVQAVGGVNEKIEGFFRLCEARGLTGEQGVIIPYANVTNLMLDDRVLQAVREGRFHVYAVRQVDEALGLLVGEAAGTPDEKGQFPEGSVNARVVQRLREIAEMGMEEEDKGPAKALAEEINTAVAAKKPTRKGPAKEPGTPKPKGSGAA				NA	NA	NA	NA	NA
BMS010_08407	324	dksA_5		RNA polymerase-binding transcription factor DksA	ATGACCTCGTTCGACCCCCGATCCGCCCTGGATAGCCTGGCTGCCGAGTATGCGGCCCGCGCCGCGGCGATCCGCCGCGACCTGGCGCGCAGCCACTCGCCCGATTTCGCCGAGCAGGCGACGCAGCGAGAGAACGACGAGGTGCTGGAAGCCCTGTTGGCGGAAGCCGAGGCCGGTTTGCGTCAGGTCGGCCTGGCCAGGCTGCGCCTTGCCGAAGGTCGCTACGGATACTGCCTGCGTTGCGGCGAACCCATCGACGAGCGGCGGCTGGCGGCGCTTCCGGCGGCCGAATTCTGCCTGCAATGCGCGGATCGGGCTGGCTGA	MTSFDPRSALDSLAAEYAARAAAIRRDLARSHSPDFAEQATQRENDEVLEALLAEAEAGLRQVGLARLRLAEGRYGYCLRCGEPIDERRLAALPAAEFCLQCADRAG	PGPT0014560_3735	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|CRP_SIGNALLING_PATHWAY,PGPT0014560-dks-K06204	NA	NA
BMS010_08408	1860			hypothetical protein	GTGACCTTGAAACGGATTTTGCCGTACCTCGCACTGAGTCTCTGCCCTCCGCTGCATGCCGCTTCCCTGCCCTCCGGCGACCGTCTCGACACACTCGCCGAAGCGCCCTACTGGCTTGCCCTCGGCCATTACGAACGTGGCAAGCTGGGCGGCTGGCGCAGTTATGTGGACGACACCGATTTCTTCCTCGCCGCCGAGGGCAACAGCGATCCCGCCGCCGAACTACGTGCCACCGTCAAGGCACTGTATGCCCCCGCCAGCCTCGGCGACAAACACGCGCAGTGCATCTATCCGGCCCGCACCCGCTGGCTGCGCGAACAGCTGCGACTGGCTGACCTGCCCGAAGTGGCATGCCCGGAGTACCGCGCCTGGTACCAGGACGTGAACCCGCACAGTGCCGTGCTGGTGTTCCCCGCTGCCTACCTGAACAGCCCGTCGTCGATGTTCGGCCACACCCTGCTGCGCATCGACCAGGCCGACGTCGACAGCCATGGCACCGCTCTACTCAGCTACGCGCTGAACTTCGGCGCCTATATCGAGGGTATGGACAACAGCCTGCTCTACGCCTGGAAAGGCCTGATGGGTGGCTATCCCGGCCTGTTCGCCCTGGTGCCCTACCGCGACAAGCTAGGCGAATACAGCCGCCTGGAAAACCGCGACCTCTGGGAATATCGCCTGAACCTGACGCCCGAGGAGACCGGACGCATGGTGGAGCACGTCTGGGAACTCAAGCAGGTCCGCTTCGATTATTACTTCTTCGACGAGAACTGCTCCTACCGCCTGCTGGAACTGCTGGAGGTCGCCCGTCCCGGCGTCGAACTGACCGACGACTTTCCCCTGACCGCCATTCCCACCGACACCGTCCGGGCCGTGGTGGACGCCGGGCTGGTCGAGCGGATCGACTACCGCCCCTCGCGCGAACGCGAACTGCTGGCGCGCGCTGAGCCGCTCGAGCGCGACGAGCAGGGCTGGGTCCTGCGCCTCGCCGACGACGAATCGCTGCTGGACGACCCCGCGTTCCTGGCCCTGCCGCAGACGCGTCGCGCCCTGACCCAGGACGCCGCTTTCCGCCTGGTGCGCTACCGGGCGACCGGCGAAGAGCGCAACCGCGCCACTGCCACGCGCAGTTTCCGCCTGTTGCAGGGCATCAACCGCAACCCACCACCAACGCTGGATATCGAGCGCCCCGGCCTGCCCGAACAAGGTCATCGATCGCGGACCTGGCAGCTCGGCCTCGGCAGCCGCGACGAGCGGGCCTTCGCCGAGTACGGCCTGCGCATGGCCTATCACGACCTCAACGACAACCTGCACGGCTTTCCCCTGGGCGCGCAGATCGAGATTCTCCAGCTCAAGCTGCGCCAGTACGAAGGCAATCACTGGCAGCTACAGCGCCTGGACCTCGCCACCATCCGCTCGCTGACGCCACGCAATCACCTGCTCCAGCCCTGGTCCTGGCAGGTCGCCGGCGGGCTCGAACGCGTGCCCGGCGAAGACGGCGACGAGCGACTGGTCGGCCACTTCAATGGAGGCGCGGGTGGCACCTGGAAGTTGCATGAGGACCTGCTCGGCTTTGCCCTCGCCACCGCGCGCATCGAGCACAACCCGGACTTCGCCGCCGCCATCGCCCCGGCCCTCGGCTTCGATACCGGCGTGCTCTGGCGCAACCCCGTCGGCAACCTGACCCTGGAAGCCAAGGGCGACTACTTCCACAACGGCGAAGTCCGTCGCAGCCTCGGTCTGACCCAACAATGGGAGATCTCCCCCCACCTGGGCTTGCGGCTGAGCGCCGAACGCCAGTTCAGCAGCCTGACGTCCCCGGAAAACGAACTGATGCTGCAACTGCGCTGGTATCACTACTAA	MTLKRILPYLALSLCPPLHAASLPSGDRLDTLAEAPYWLALGHYERGKLGGWRSYVDDTDFFLAAEGNSDPAAELRATVKALYAPASLGDKHAQCIYPARTRWLREQLRLADLPEVACPEYRAWYQDVNPHSAVLVFPAAYLNSPSSMFGHTLLRIDQADVDSHGTALLSYALNFGAYIEGMDNSLLYAWKGLMGGYPGLFALVPYRDKLGEYSRLENRDLWEYRLNLTPEETGRMVEHVWELKQVRFDYYFFDENCSYRLLELLEVARPGVELTDDFPLTAIPTDTVRAVVDAGLVERIDYRPSRERELLARAEPLERDEQGWVLRLADDESLLDDPAFLALPQTRRALTQDAAFRLVRYRATGEERNRATATRSFRLLQGINRNPPPTLDIERPGLPEQGHRSRTWQLGLGSRDERAFAEYGLRMAYHDLNDNLHGFPLGAQIEILQLKLRQYEGNHWQLQRLDLATIRSLTPRNHLLQPWSWQVAGGLERVPGEDGDERLVGHFNGGAGGTWKLHEDLLGFALATARIEHNPDFAAAIAPALGFDTGVLWRNPVGNLTLEAKGDYFHNGEVRRSLGLTQQWEISPHLGLRLSAERQFSSLTSPENELMLQLRWYHY				NA	NA	NA	NA	NA
BMS010_08409	1620	norR_6		Anaerobic nitric oxide reductase transcription regulator NorR	ATGGCGGAAAGGAAAACCGTGGCCATCGGCTTTCTCGGAACGACCCTCGACCGGGTGGGCAAGGGCGCGGAGCGCTGGAACAAATGGCGCCCCACGGTCGGCTTGTGTCAGCAGCCCGACCTGCTGGTCCATCGTCTGGAATTGATTCACTGCGAGGATGCCCGCGACCGGAGGCTGGCCGAGCGCATCCGCGACGACATCGCCCAGGTGTCGCCGGAAACCGACGTGCGTCTGCATGCGATGCAACTGCGCGACCCCTGGGATTTCGAGGAGGTCTACGGTGCCCTGCACGACTTCACCTCGGGCTACGCCTTCGATACCGAGCATGAGGATTACCTGGTGCATATCACCACCGGGACCCATGTGGCGCAGATTTGCTGGTTCCTGCTCACCGAGGCGCGTTATCTGCCGGCACGGCTGATCCAGACGTCACCGGCCCGGCGCCTGGATACCGAGCGGAAGGCCAGTGGCATCCATACCCTGATCGATCTCGACCTGTCGCGCTACGACCGCATCGCCTCGCGCTTCCGTCGCGAGCGCCAGGAGACGCTGGCCTTTCTCAAGTCCGGTATCGCCACGCGCAACGCGGCGTTCAACCGTTCCGTCGAGCAGATCGAGCGGGTCGCCATCCGCTCCCGGGCGCCCACGCTGCTGGTAGGACCCACGGGGGCGGGCAAGTCGTTCCTGGCACGGCGAATCTACGAGCTGAAGCGTGCACGGCATCAGATCCAGGGACGCTTCGTCGAAGTGAACTGCGCGACCTTGCGCGGCGACGGTGCCATGTCCGCGTTGTTCGGTCATGTCAAAGGCGCTTTCACCGGAGCGCAGAATGCGCGCGATGGCCTGTTGCGGGCGGCCGACGGCGGCATGCTGTTTCTCGACGAGATCGGCGAACTGGGCCTGGACGAGCAGGCCATGCTGCTCAAGGCCATCGAGGAGCGCCGCTTCTTCCCGCTGGGCAGCGATCGCGAGGTGGAAAGCGACTTCCTCCTGATTGCCGGCACACACCGCGACCTGCGCGGTCGGGTGACGGAGGGGCTGTTCCGCGAGGACCTGTTCGCCCGTATCAATCTATGGACCTTCGAGCTGCCTGGTCTCGCCGGGCGGCGCGAGGACATCGAGCCGAACATCGATTTCGAGCTGGAGCGCCATGCCCGCGAGTTGGGTCGGCAGGTGCGTTTCAACGTCGAGGCGCGGCGGCGCTACCTGGCGTTCGCCATCTCGAGCGAGGCGCGCTGGGCCGGCAATTTCCGCGAGCTGTCGGCCTCCGTTACGCGGATGGCGACGTTGGCCGACAGCGGTCGGATCGACGAAGCGCTGGTGGAGGAGGAGCTGCAGCGGTTGCGGCGCGCCTGGCAAAGCGATGGACCCGACGTGACCCCGCTGCGTGCGTTGCTGGGCGATGAGGCACTGGCAGGGCTGGACCTCTTCGACCGGCTGCAACTGGAGTCCGTGATCGGTGTTTGCCGCGAGGCGCGCAGCCTGTCGGATGCCGGCCGGCGACTGTTCGCCGTGTCGCGCCAAGGCAAGGCCACCCCCAACGACGCCGACCGGTTGCGCAAGTACCTGACGCGGTTCGGGCTGGAGTGGAGCGCCCTAGTCTCGCATCCTGACGGCTGA	MAERKTVAIGFLGTTLDRVGKGAERWNKWRPTVGLCQQPDLLVHRLELIHCEDARDRRLAERIRDDIAQVSPETDVRLHAMQLRDPWDFEEVYGALHDFTSGYAFDTEHEDYLVHITTGTHVAQICWFLLTEARYLPARLIQTSPARRLDTERKASGIHTLIDLDLSRYDRIASRFRRERQETLAFLKSGIATRNAAFNRSVEQIERVAIRSRAPTLLVGPTGAGKSFLARRIYELKRARHQIQGRFVEVNCATLRGDGAMSALFGHVKGAFTGAQNARDGLLRAADGGMLFLDEIGELGLDEQAMLLKAIEERRFFPLGSDREVESDFLLIAGTHRDLRGRVTEGLFREDLFARINLWTFELPGLAGRREDIEPNIDFELERHARELGRQVRFNVEARRRYLAFAISSEARWAGNFRELSASVTRMATLADSGRIDEALVEEELQRLRRAWQSDGPDVTPLRALLGDEALAGLDLFDRLQLESVIGVCREARSLSDAGRRLFAVSRQGKATPNDADRLRKYLTRFGLEWSALVSHPDG				NA	NA	NA	NA	NA
BMS010_08412	1146			hypothetical protein	ATGAAAATGCTGAAGCGCTTTGTAGTGAAGAAGAACGAACGCGGCCTGCTGTTTTCCGAGGACGATTTCCAGTCCGTCCTGGAGCCCGGCCTGTACCTGCGCTTCGACCCGTTCAACCGGTTGACGGTGGAAACCTGCAGCCTCAACGCCCCGCTGTTCGAGCACCGCATCGCCGGCTACCTGCGCAAGAACGAACATACCCTGATCGAGCGCCACTTCGAGCGCATGGACCTGGGCGAGCACGAAGCCGGCCTGCGTTACGAAGACGATGTGCTGGTGGAGATTCTTGCGCCGGGTGCCCGTCGTCTGTACTGGAAAGGCCAGGCCGACCAACGCCTGGAGCGCATCGACCTGCGCCACGGCTACCGGTTGGATGCGGCGCTGGTCGCTGTGCTGACCCAACCCGGTCTGCGCAGCCAGGGCCTGGCAGGCCTCGACGCAGTACTGCTGGTTCAGGTGCCGGCGTTTCAGGTCGGCGTACTCAAGGTCAACGGCGACGTGGCCGAGCTGCTTCCGTCCGGTCAGTACGGCTTCTGGCGCTTCAACCGGCAGATCGGTGTGGAATTGGTGGATACGCGGCTCCAAGCACTGGAAGTCAGCGGCCAGGAAATCCTCACCCGCGACAAGGTCAGCCTGCGCCTGAACCTGGCCGCCAACTGGCGCTACAGCGATGTGCTGCTGGCTCATGCGCGTCTGGCGAAGCCGCAGGAACACCTGTATCGCGAGCTGCAGTTCGGTCTGCGAGCAGCGGTGGGTACCCGGACGCTCGACGAATTGCTGGAGAACAAACAGATCATCGACGAGACCGTGAGCGCTCACCTTGCCCGAAAACTGGCGGATACCGGCCTGGAAGTCAGTAGCCTCGGCGTGCGTGACATCATCCTGCCGGGCGAGATGAAGGCCCTGCTGGCCCAGGTGGTGGAAGCCGAGAAAGCGGCCCAGGCCAACGTGATCCGCCGGCGCGAGGAAACCTCGGCGACCCGCTCGCTGCTGAACACCGCCAGGGTGATGGAAGAAAACCCGACGGCACTGCGCCTGAAGGAGCTGGAAACCCTCGAGCGGGTAGCCGAGCGGATCGACCGGATTTCCGTTTTCGGCGGCCTGGACCAGGTGCTGAACGGTTTGGTGAATATCGCACCGCGCTGA	MKMLKRFVVKKNERGLLFSEDDFQSVLEPGLYLRFDPFNRLTVETCSLNAPLFEHRIAGYLRKNEHTLIERHFERMDLGEHEAGLRYEDDVLVEILAPGARRLYWKGQADQRLERIDLRHGYRLDAALVAVLTQPGLRSQGLAGLDAVLLVQVPAFQVGVLKVNGDVAELLPSGQYGFWRFNRQIGVELVDTRLQALEVSGQEILTRDKVSLRLNLAANWRYSDVLLAHARLAKPQEHLYRELQFGLRAAVGTRTLDELLENKQIIDETVSAHLARKLADTGLEVSSLGVRDIILPGEMKALLAQVVEAEKAAQANVIRRREETSATRSLLNTARVMEENPTALRLKELETLERVAERIDRISVFGGLDQVLNGLVNIAPR				NA	NA	NA	NA	NA
BMS010_08413	1221	rtcB	COG1690	RNA-splicing ligase RtcB	ATGAAAGAACACAGCTACCAACTGCTGGAAGTCGCCAACGGCAAGCCGATCAAGCTTTGGACCCAGGGTGTGCCGGTGGAAGAGGACGCCAAGCAGCAACTGACCAACACCGCGAAGATGCCGTTCATCTTCAAGCATCTGGCGGTCATGCCGGACGTACATCTGGGCAAGGGCTCGACCATTGGCAGCGTGATCCCCACCGTCGGCGCCATCATTCCGGCCGCCGTCGGCGTGGACATCGGTTGCGGCATGATCGCCGCCCGCACCTCGCTGGTGGCCGCCGACCTGCCGGACAACCTGCATGCCCTGCGCAGCGCCATTGAGAAAGCCGTGCCCCACGGCAAGACCTTCGGCAAGCGCGATCAGGGCGCCTGGTCCGACGTGCCGGACCAGGCCGATCATGCCTGGAAGGCCCTGGCCGGCCGTTTCAAGGCAATCACCGACAAGTACCCGAGGCTGGAGAAGACCAACAACCGTAACCACCTGGGAACCCTGGGCACCGGCAACCACTTCATCGAGGTCTGCCTGGACGAGGCACAACGCGTCTGGTTCATGCTGCACAGCGGCTCGCGCGGTGTGGGTAACGCCATCGGCAACACCTTCATCGAACTGGCCCAGGCCGACATGCGCCAGCACATCGCCAACCTACCGGACCGCGACCTCGCCTACTTCGAAGAAGGCAGCAAGCACTTCGACGACTACGTGGAAGCGGTCGGCTGGGCCCAGGACTTCGCCAAGCAGAACCGAGCCCTGATGATGCATGCGGTGATCGACGCGGCGCGCAAGGTCATCGGCAAGCCGTTCGAGGCCAACCTGGAAGCGGTGAACTGCCACCACAACTACGTGCAGAAGGAACACCACTTCGGCCAGGAGATCCTGGTCACCCGCAAGGGCGCAGTGTCGGCGCAGAAGGGCGAGTTGGGCATCATCCCCGGCTCCATGGGTGCCAAGAGCTACATCGTGCGCGGACTCGGCAACGAGGAGGCGTTCTGCTCCTGCAGCCACGGCGCCGGCCGCACCATGAGCCGGACCAAGGCGAAGAAGCAGTTCACCGTGGAAGACCAGATCCGCGCCACCGCCCACGTCGAATGCCGCAAGGACAAGGACGTGATCGACGAAATCCCGATGGCCTACAAGGACATCGACGCGGTGATGGAAGCCCAGCGCGAGCTGGTGGAAGTGGTACACACCCTGCGGCAAGTGGTGTGTGTGAAGGGATAG	MKEHSYQLLEVANGKPIKLWTQGVPVEEDAKQQLTNTAKMPFIFKHLAVMPDVHLGKGSTIGSVIPTVGAIIPAAVGVDIGCGMIAARTSLVAADLPDNLHALRSAIEKAVPHGKTFGKRDQGAWSDVPDQADHAWKALAGRFKAITDKYPRLEKTNNRNHLGTLGTGNHFIEVCLDEAQRVWFMLHSGSRGVGNAIGNTFIELAQADMRQHIANLPDRDLAYFEEGSKHFDDYVEAVGWAQDFAKQNRALMMHAVIDAARKVIGKPFEANLEAVNCHHNYVQKEHHFGQEILVTRKGAVSAQKGELGIIPGSMGAKSYIVRGLGNEEAFCSCSHGAGRTMSRTKAKKQFTVEDQIRATAHVECRKDKDVIDEIPMAYKDIDAVMEAQRELVEVVHTLRQVVCVKG				NA	NA	NA	NA	NA
BMS010_08414	1344			hypothetical protein	ATGAAGAATCCAAAGGACTGGCTGGAGCGACTGAAAAGCCGACCCGCCACGGGCAACTACTGGCAGGACTATCGCCCGCGTGAGGCCGTGGCGGTTCTGGAGGCCAATGAAAACAATGGCGACTGGGCCGCCTTGAGCACCCATGGCAACGGTTTCATACGTGAAGCGGCCGTGCGCAAGCTGCTCGAAAGCCCTTCGCCGCAGGCCCTGGCGGCATTGTTGGAGCGCCTCAATGATTGGGTTCCACAGGTTCGTGAGTTGGCCATTGAAGGCGTACGGCCATATCTGGTGCTGACGCAGGTGGAAGCGCTGCTGTATGCCTTGAAACCCTTGATGACCTTGGCCAAGCGTCAACGTACCGACCACGCCACGACCCTGGCGGCAGCCCGTGCCGCGCTGCTAGCGCCGGAGGTACGCGTCACCCTTGAGAATGCCTGGCGGGACTCACGTGGCTCGGAAGCACGCTTCTTGTTCGAATTGCTAGTGGAAGATCTCGAAAACCGCCCGCAATTGCTTCGACGTGCCGTGTCCCACGCTGACATGAGCGTACGACGGATGGCCGTTCAGGCCTGTGACGAACTGTCGGCCGAGCAAGCCGTGCCACTCCTGCTCCGAGCGCTGGAGACACCTGGCGCCAGTGTACGTGTCATGGCCTTGCGCGCCTTACTGGACCATTCCACCGAGCCGCCCCCCTATCTGCAAAAGGCTCTGCTGGATGCATCCGCGGCCGTGCGCGCTCTGGCGCTCTGGGCGGCGCCGCGCTGGAACCTGGATCCCCGCTCAGTGCTACGTGAGCGTCTGCGACTGGCGCCACCACAGACCAAGCGAGCCTGGCTCGGCGTACTCGGCCTGGCGCATGACCTGAAAGAAACGCTGGATGAAATCTGGCTAACTGCAGCTCGAAACGCCGGTCCGGTAGCCGTACGTCTGGCTTCGCTCGAGTGGCAGGCGGATAACATCCCAATGCTGGTCACGGTACTGAACGACGGCTCGAAAAAAGTCTTTCTGCGAGCAACGGAACTGCTGCGAAAACAATCATGGGAGGAAGTGCAAACATCGCTGGACGAAAGACTGGTCGAAGCCTTGGACAGCGATCGCCGGGACGCCCTGGTCCGCCTGAGACCGGGCTGGCAGCAACTCGCCTACCTGTTGCGCCGTCTGGATGCCGCTTCCCCGCAAGACCATGCAAGCACGCTGGCGCGTTTGGGCGACTGGTGCCTGGGGCAGTATCTGATCGTTGATCCGATGACACCGAAACCCCAGCGCGATGCCCTGCTTGCCCGTGTAAAGGAATTGGAAATGAGCGGCGCCCTGCCCACCGGTTGCACCGAACGACTGAAGTAA	MKNPKDWLERLKSRPATGNYWQDYRPREAVAVLEANENNGDWAALSTHGNGFIREAAVRKLLESPSPQALAALLERLNDWVPQVRELAIEGVRPYLVLTQVEALLYALKPLMTLAKRQRTDHATTLAAARAALLAPEVRVTLENAWRDSRGSEARFLFELLVEDLENRPQLLRRAVSHADMSVRRMAVQACDELSAEQAVPLLLRALETPGASVRVMALRALLDHSTEPPPYLQKALLDASAAVRALALWAAPRWNLDPRSVLRERLRLAPPQTKRAWLGVLGLAHDLKETLDEIWLTAARNAGPVAVRLASLEWQADNIPMLVTVLNDGSKKVFLRATELLRKQSWEEVQTSLDERLVEALDSDRRDALVRLRPGWQQLAYLLRRLDAASPQDHASTLARLGDWCLGQYLIVDPMTPKPQRDALLARVKELEMSGALPTGCTERLK				NA	NA	NA	NA	NA
BMS010_08415	618			hypothetical protein	ATGCTGGTCGTTACGAAACAAGCACACAGCGAAGCGCTGCGCGAACGGATGGATACAGGCGGTTGTGCATTCCAGTTCGTCGTACTCGCCCTCGAGGGCGACGCGACAGTGGACGAGACCCTGCACCGCCAGGCTCTGTGGGCCATGCACGAACAGTTGATGGCCGAATTGCACGCTTGGCACCGACAACTTGTGGCGAACCCTGCCTACGCCAACCAACCGGCCCCGAGCATCGACTGGCACCCGGAGCGCGCCCTTGCACGCCGACTGGCTGATGATGAAGTCGCTGGCCTGAGACGGACCGAGCAGTCGTTCTATCGCGCCTTTCGCAAACCGCCCTACGACACGCGGTTCGCGGGTGGGGAGGCCGAAGCCCAGGCCTTGTTCCATGAATGGCTGGACCTGCTCGGGCTTGTGGATGGCGAGCAACCGGAAGTCATCGACTGGACCTCGAACCTGTCCGCCGATGGGCTAAGCGAGGCCCTCGATGCCGCATCAAGCGAACCCTGGAGCGACTATTTCGATGCAGGCCTGGAGTGGTGGGGCGTTTGGTGCCTGACCATCTGGAATCCACAGCACAGAACCCTGAGCGTCGTGGTCGCCAGTACGACCGACTGA	MLVVTKQAHSEALRERMDTGGCAFQFVVLALEGDATVDETLHRQALWAMHEQLMAELHAWHRQLVANPAYANQPAPSIDWHPERALARRLADDEVAGLRRTEQSFYRAFRKPPYDTRFAGGEAEAQALFHEWLDLLGLVDGEQPEVIDWTSNLSADGLSEALDAASSEPWSDYFDAGLEWWGVWCLTIWNPQHRTLSVVVASTTD				NA	NA	NA	NA	NA
BMS010_08416	378			hypothetical protein	ATGGCGAAGAAGAACTTTCGCGGCTATCTGCAAGGCGAGGAGGTGCGCTACAAGAAGTACCTCTATGTGCTGCGTCCGTTGTTGGCCGTGCGCTGGATCGATCAGGGACGCGGCCGGCCGCCGATGGCTTTCCACGCGCTGCTGGCGACCCTGGACGATCCGGCCCTGCTGGCGGAAATCGACGAGTTGCTCGCACTCAAGCGCCAGGCCGCCGAAACCACCTATGGCCCTCGGCGCCAGGCGCTGCACGCCTTCATCGAGAAACAACTGGCCCGAGCGGGACAGGACTCGACACCGGCGCGTCCGGACCAGGACGTCGCCCTGCTCGACCGCTTCCTGCGGGAAACCGTACTGGCCCATGCGGGAGAACGACCATGA	MAKKNFRGYLQGEEVRYKKYLYVLRPLLAVRWIDQGRGRPPMAFHALLATLDDPALLAEIDELLALKRQAAETTYGPRRQALHAFIEKQLARAGQDSTPARPDQDVALLDRFLRETVLAHAGERP				NA	NA	NA	NA	NA
BMS010_08417	1026	rtcA	COG0430	RNA 3'-terminal phosphate cyclase	ATGACGGGCGACTACCTGGAAATCGACGGCTCCATCGGCGGCGGCCAGATCCTGCGCAGCGCCCTGAGCCTGTCGATGGTCAGCGGGCGGCCGTTCCGCATCCGCAACATCCGCTCCGGTCGCAGCCGGCCCGGCCTGCTGCGCCAGCATCTCACCGCCGTGCTGGCGGCGACGGAGGTGTGTGGAGCGGAGGTGGACGGTGCCCAGCTCGGTTCGCAGACGCTGGACTTCCAGCCCGGCGAAATCCGGGCAGGCGACTATCGCTTCAACATCGGTAGCGCCGGCAGCGCCACCCTGGTGTTGCAGACGCTGTTCCCGGCGCTGCTGCACGGGCCGGCGACCAGCCGGGTGCGGATCGTCGGCGGCACCCATAACCCGGCCGCGCCGCCGGCGGATTTCATCGAGCGCAGTTGGTTGCCGCTGCTGCGCCAGATGAGTGCCCAGGTGGACTTCCGCCTGCTGCGCCATGGCTTCGCACCAGCGGGTGGCGGTGAGATCGAGTGCGAGGTGGCGCCCGCCCGGTTGACGCCGCTGCATCTCGCAGCACGCGGTGAAGTACTGGAGCAACGCGCCCTCGCCCTGATCGGCAACCTGCCCGGCCATATCGCCGAGCGTGAATTGCAACGGGTGGCGCGCCGACTGCGCTGGCCGCAGGAGCATTTGCACCAGCGCGCGGTGGCAAGCGCCGGGCCGGGCAATATCCTGCTGCTGGAGATCGCCTGCACCGATGTCTGCGAGCTGTTCAGCGCCATCGCCCAGACCGGCGTTCGTGCCGAGCGGGTGGCCGACCAAGCCATCGACGAAGCCCGCGCCTGGCTGCTCAGCGAGGCCGCAGTGGGCGAGCATCTGGCCGACCAGTTGCTGCTGCCCATGGCGCTCGCCGGTGGCGGCAGCTTCACCACGCACCGGAGCAGCGCGCATCTGGAGAGCAACATCCAGGTCATCCGCCAGTTTCTGCAAACGGATATCCGCATGGAGCCATTGAGCGATACCCGGTTGCGGGTGACGATCGGTAGCGCCGCTTGA	MTGDYLEIDGSIGGGQILRSALSLSMVSGRPFRIRNIRSGRSRPGLLRQHLTAVLAATEVCGAEVDGAQLGSQTLDFQPGEIRAGDYRFNIGSAGSATLVLQTLFPALLHGPATSRVRIVGGTHNPAAPPADFIERSWLPLLRQMSAQVDFRLLRHGFAPAGGGEIECEVAPARLTPLHLAARGEVLEQRALALIGNLPGHIAERELQRVARRLRWPQEHLHQRAVASAGPGNILLLEIACTDVCELFSAIAQTGVRAERVADQAIDEARAWLLSEAAVGEHLADQLLLPMALAGGGSFTTHRSSAHLESNIQVIRQFLQTDIRMEPLSDTRLRVTIGSAA				NA	NA	NA	NA	NA
BMS010_08418	357			hypothetical protein	ATGCCACGCCCGCTTTTCCCTCTGATCGCCCTTCTCGCCCTGCTTGGTGGATGCCAGTCCTACCATGACTACCTGCTCGCCCAGGGCTATCCGCCCGCCTATGCCGACGGCTTCCAGGACGGTTGCGGCAGCGGCAAGCAGGCCGTGGAGGGCATCGGCCGTTTCCGCAAGGACGTGCCGCGCTACCAACGCGACCCGCTCTACGCGGAAGGCTGGGGCGATGCCTTCCGCCAGTGCCAGACGGAAGCCGAAGCGGCCGAACGGCGCACCTATCTGGAACAGCGGAGCGAACGCGACGAAGATTGGGAGGAGCACGAACGCAACGCCTTCGCCCACGCGCTTACCGGCCGGAGGTAG	MPRPLFPLIALLALLGGCQSYHDYLLAQGYPPAYADGFQDGCGSGKQAVEGIGRFRKDVPRYQRDPLYAEGWGDAFRQCQTEAEAAERRTYLEQRSERDEDWEEHERNAFAHALTGRR				NA	NA	NA	NA	NA
BMS010_08419	927	pbpG	COG1686	D-alanyl-D-alanine endopeptidase	GTGAAAAACTTTCGTTCGGCTTCTCGCCTGCTGGCCTTATGCGCAGGCTTAGCCCTTTCGTTGCACGCCCAGGCAGCGGACCCGGTAAAAAAACCCAAAGCCCTCGAATTGGCTTCCGGCAGCGCCCTGGTGGTCGATCTGCAAAGCGATGAGGTTCGCTTCGCGCAGAACCCCGACCTGGTGATGCCGATCGCTTCGATCACCAAACTGATGACCGCCGTGGTGACGCTGGATGGCAAGCAACCGCTGGACGAACAGCTCAGCGTTTCCAACCACGAAGCGGCGGCGTTGCGCAGTGTGTTCTCGCGGGTACGGGTCAACAGTCAGTTGAGCCGCCGCGAGTTGCTGCAACTGACCCTGATGGCCTCGGAGAACCGCGCCGCCGCGACCCTGTCCCATCACTACCCGGGCGGCACCGCCGCTTTCGTCACGGCGATGAACGCCAAGGCCAAGGCCCTGGGCATGGCCAGCAGCCATTTCGTCGAACCCTCCGGGCTGGACAGCGGGAACGTATCCACCGCACGCGACCTGCTGCTACTGCTGAAGGCGGCCCGCCAGTACCCGCTGATCCTACAAATGAGCACCACGCGCCAGCAGCAGGTCACGTTCAGCCACCCCCGCTACAGCCTCGGTTTCTCCAATACCAATCCGCTGGTCAGGAACGGCACCTGGGATGTCCAGCTGAGCAAGACCGGTTTCCACAACGAGGCGGGACGCTGCCTGGTGATGATCACGACCATGGCCAACCGGCAGGTGGCCATGGTCCTGCTCGATGCCTTCGGCAAGTACACCCACGTGGCCGACGCCAACCGCCTGCGCCGCTGGCTGGAAACCGGCGTGAGCACTCCGGTACCGGCGGCAGCCAGGAACTATCGGCAGCAGCGCGACCTGTTGATCCGGCAGCAGACGGCCCAGGCACCCGAGTAG	MKNFRSASRLLALCAGLALSLHAQAADPVKKPKALELASGSALVVDLQSDEVRFAQNPDLVMPIASITKLMTAVVTLDGKQPLDEQLSVSNHEAAALRSVFSRVRVNSQLSRRELLQLTLMASENRAAATLSHHYPGGTAAFVTAMNAKAKALGMASSHFVEPSGLDSGNVSTARDLLLLLKAARQYPLILQMSTTRQQQVTFSHPRYSLGFSNTNPLVRNGTWDVQLSKTGFHNEAGRCLVMITTMANRQVAMVLLDAFGKYTHVADANRLRRWLETGVSTPVPAAARNYRQQRDLLIRQQTAQAPE	PGPT0024065_695	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024065-pbpG-K07262	NA	NA
BMS010_08420	966			hypothetical protein	ATGGATATCCGACGCGAAAAACCCCTGCCCTTTTCCGCCTGGCTGCCGTTTCTGGTTGGCGGAGCCTATGGCTTGCTGCTGCGACTGCTGTTTTCCGGCCTCGGCCCGATGCCTGAGGCGATGGCCGGCGCCTTCGTCTATGGCATGCCGTTAGCTGTGGGAGCCGTCACCGTCTACTTGGCGGAGCGACAAAGCCGTCGCGGCTGGCCGTATTACTTCTTCGCCCCTTGGCTGTCGGTGACCCTGTGCGTCGCCGGCGCCGGCCTGACACTGATCGAGGGGCTGATCTGCATCGCCATGGCCCTGCCGCTGTTCGTCATGATCGGCTCGGTTGGCGGCCTGGTGACGGGCCTGCTGTGCCGCCAGCTCAATCGCCCACTGCGCTCCGTGCAAGGGCTGACCCTGCTACCGCTGCTGCTGGTGCTGGGCGAAGGACTGATTCCCGGCGGCAATGACCTCGACCGTATCGAGCGCAGCGTGCATATCGACGCATCGCCTGATGCGGTCTGGAAACTGCTGCTCAACCCCAGCGACATCCGCCCGGAAGAAGTACGAAGCGGCCTGGCCTATCGCATCGGTGTTCCCGTCCCGGTGCAGGCCCGAACCCTGGATGAGCGGATAGGTGGCATCCGCCGTTCGACCTGGGCGCGCGGCGTGTATTTCGACGAAGTCATCACCGACTGGCAGCCCGGACGGCAGATCGCCTGGCGCTACGCGTTCCACCCGGATTCCTTCCCGCCCGGAACCATGGACGATCACGTGGTGATCGGCGGCCAGTATTTCGACCTGCTGGACACGACCTACCGGCTCACCCCGGAGAAAGGCGGCACCCGGCTGGATATCGAAGTTGGCTTCCGTACCAGCACCAAATTCAATTGGTACGCGATACCGGTGGCCAAGCTGATGATCGGCGACACCGCGGAAACCCTGCTGGGCTTCTACAAAGGACGCCTGGAAACGAAGTGA	MDIRREKPLPFSAWLPFLVGGAYGLLLRLLFSGLGPMPEAMAGAFVYGMPLAVGAVTVYLAERQSRRGWPYYFFAPWLSVTLCVAGAGLTLIEGLICIAMALPLFVMIGSVGGLVTGLLCRQLNRPLRSVQGLTLLPLLLVLGEGLIPGGNDLDRIERSVHIDASPDAVWKLLLNPSDIRPEEVRSGLAYRIGVPVPVQARTLDERIGGIRRSTWARGVYFDEVITDWQPGRQIAWRYAFHPDSFPPGTMDDHVVIGGQYFDLLDTTYRLTPEKGGTRLDIEVGFRTSTKFNWYAIPVAKLMIGDTAETLLGFYKGRLETK				NA	NA	NA	NA	NA
BMS010_08421	1665	ettA_2	COG0488	Energy-dependent translational throttle protein EttA	ATGGCTCAATACGTCTACACCATGCATCGGGTCAGCAAGGTCGTGCCCCCGAAGCGTGAAATCCTCAAGGACATTTCCCTCTCCTTCTTCCCCGGCGCCAAGATCGGCGTGCTCGGCCTGAACGGCGCGGGCAAGTCCACCCTGCTGCGCATCATGGCCGGCGTCGACACCGAGATCGACGGCGAAGCCCGGGCGATGCCCGGCATCAAGGTCGGCTACCTGCCGCAGGAACCGCAGCTCGACCCGAGCAAGACGGTGCGCGACATCGTCGAAGAGGCGGTGGGCGAGATCAAGCAGGCCCAGGCCCGCCTGGACGAGGTCTACGCGGCCTACGCCGAGCCGGACGCCGACTTCGACGCCCTGGCCGCCGAGCAGGCCAAGCTGGAGGCCATCCTCCAGGCCGCCGACGGCCATAACCTGGAGCGCCAGCTGGAAGTCGCCGCCGACGCCCTGCGCCTGCCGCCGTGGGAGGCGAAGATCAAACACCTTTCCGGTGGCGAGAAGCGCCGCGTGGCGCTGTGCCGCCTGCTGCTGTCGGCTCCGGACATGCTTCTGCTGGACGAACCGACCAACCACCTGGACGCCGACTCGGTCGCCTGGCTGGAACACTTCCTCCACGACTTCCCCGGCACCGTGGTGGCGATCACCCACGACCGCTACTTCCTCGACAACGTCGCCGGCTGGATTCTCGAACTCGACCGTGGCCACGGCATCCCCTACGAGGGCAATTACTCCGGCTGGCTGGAATCCAAGTCCGCCCGCCTGGCCCAGGAAGCCAAGCAGGAAGCCTCCCACACCAAGGCCATGAAGGCCGAACTGGAGTGGGTGCGCCAGGGTGCCAAGGGTCGCCAGGCCAAGTCCAAGGCCCGCCTGCAGCGCTTCGAGGAACTGCAATCGCAGGAATTCCAGAAGCGCAGCGAGACCAACGAAATCTACATTCCGGCTGGTCCGCGCCTGGGCGACAAGGTGATCGAGTTCCATAACGTCACCAAGGGCTACGGCGATCGCGTGCTGATCGACAACCTCAGCTTCAGCGTGCCGAAGGGCGCCATCATCGGCGTGATCGGCGGCAATGGTGCAGGCAAGTCGACCCTGTTCCGCATGATCACCGGCAAGGAGCAACCGGATTCCGGCACCATCGAGATCGGCGAGACCGTGCAGGTCGCCAGCGTCGACCAGAGCCGCGACAGCCTGGACGGTAGCAAGACCGTGTGGGAGCAGATTTCCGACGGTTTCGACATGATCAAGGTGGGCAACTACGAGGTGCCGTCGCGTGGCTACGTCGGCCGCTTCAACTTCAAGGGTGCCGACCAGCAGAAGTTCGTCAAGGACCTCTCCGGCGGTGAACGTGGCCGCCTGCACCTGGCCCTGACCCTGAAGCAGGGCGCCAACGTGCTGCTGCTCGACGAACCGTCCAACGACCTCGACGTGGAAACCCTGCGCGCGCTGGAAGAGGCGCTGCTGGACTTCCCCGGCTCGGCCATCGTGATCTCCCACGACCGCTGGTTCCTCGACCGTATCGCCACCCACATCCTCTCCTACGAGGACGACTCCAAGGTGTACTTCTTCGAAGGCAACTACACCGAGTTCGAGGCGGACCGGAGGAAGCGCCTGGGCGACGCCGCCGCCCAGCCGCACCGGGTGCGCTACAAGAAGCTGGCGTAA	MAQYVYTMHRVSKVVPPKREILKDISLSFFPGAKIGVLGLNGAGKSTLLRIMAGVDTEIDGEARAMPGIKVGYLPQEPQLDPSKTVRDIVEEAVGEIKQAQARLDEVYAAYAEPDADFDALAAEQAKLEAILQAADGHNLERQLEVAADALRLPPWEAKIKHLSGGEKRRVALCRLLLSAPDMLLLDEPTNHLDADSVAWLEHFLHDFPGTVVAITHDRYFLDNVAGWILELDRGHGIPYEGNYSGWLESKSARLAQEAKQEASHTKAMKAELEWVRQGAKGRQAKSKARLQRFEELQSQEFQKRSETNEIYIPAGPRLGDKVIEFHNVTKGYGDRVLIDNLSFSVPKGAIIGVIGGNGAGKSTLFRMITGKEQPDSGTIEIGETVQVASVDQSRDSLDGSKTVWEQISDGFDMIKVGNYEVPSRGYVGRFNFKGADQQKFVKDLSGGERGRLHLALTLKQGANVLLLDEPSNDLDVETLRALEEALLDFPGSAIVISHDRWFLDRIATHILSYEDDSKVYFFEGNYTEFEADRRKRLGDAAAQPHRVRYKKLA				NA	NA	NA	NA	NA
BMS010_08422	4266			hypothetical protein	ATGCCGTTACGCAGGACTCCGTTTTCCGTGCCGAAGTCTCCGTCCACACTACCGCGAACCCCCGACGAGACTCCGTTCCCTGCGCGCGGATCGGTCAAGGGTGTGTTGGTGGTCCTGCTGCTGCTCATGCTGGGCCTGTTGCTTTGGCAACTGCAGCAGGAATTCGGCCAGCAGCGCGAAAGCCGGCGCCAGCGCAGCCTGGAATACAGCAGCCAACTGGCCGGCCACCTGTCCCTCACCCTGGAACTGAAAGCCCATGCCGCCCTCGCCCTGCTGCGCCAGAGCGCCTTGCTGCCGCCTCCCCAGGGCGAAAACCGCGAAGCACTGATCCGCAGCCTCCGCCACCTGTTTCCGGGGCTGCGCAGCCTGGCCTGGCTGGATGCCCAAGGCCGGCCGTTCGTCGATAGCGCCGCCGGGGACGACGACGTCGCGTTCCTCGCCGCACTGGTCGAGCGCAACCGGGATCCCCCCTACCACTTCGCCTTCGATAACCACCGCGACGGGCAGTTCTACCTGCTCCTGCGCCAGTCCTCGAAGAACGGCGCCAGCGACTACTGGGTGCTGCGCCTGCCGGCACGCTCGATGGCCGACTGGCTGCGCGACCTGCACAGCCAGGAACACCGCTGGCTGATCGAAGACCGCCTGAGCCAGCGTGTCATCGCCCGCCTTCCGCAGACGCCGGGCCAACCGACGCTCGCCACGGTCACCGCCGAAGAGCAGGCGCAAAGCATCCTGGTATCGCCACTGGACGGCAGCGACTGGCAACTGCGCGCGCTGTTCGACGAACGCAAGCTCGGTAGCGAGGTCCTGCCGGGCTTGGCCGGCAAGCTGCTGCTGTTCCTGTTCTGCAGCGCCCTCGCCTGCGTCGCGCTGTTCGGCCTGCAGCGCGAACAGCGCATCTTGCATGAACTGAACGCCGCCTCGCGGCGCTCGTTGCGCTATGCCGCCAGTGCCCTGCGCGCTATCGAGGAACGGGTCCTGGTCACCCGTGTCGATGGCCAGCTCATCTACCTCAATCCGCAGGCCGAGCAGTTGTTCGGCCTGAGCGGCGGCGATCTCCAGGGGCACCACCTGCTCGACCTGCTGCCCGATCTCGACCCGCTGCTCCTGCACGGTGCCACCTTCCACAGCAACCTCGACCCAGACTTGGTAGAAGTGACCCAGCACGGCATGCGCCGGCTGTTCGCCGTGACCCGCAGCGATCTCGGCGACGACCATGCCCGCTCGGGCTACGTCTGGGTGCTGCGCGACGTCACGGAAAAACAGCAGGCCATGCGCGTGCTGCACGAAACCCGCCGCCGCTACCAGGACATCTTCGAAGGGACCGGCATCGCCCTCTGCGTGCTCGACCTGGCCGGCTTGCGACGCTTCCTGTTGCAACAGGACCTGCGCGGCAGCGAAGCGCTGGCCAATTGGCTGGCTGCCAATCCGCAGCGCCATCAGGAATTGCTCCAGCACCTGCGTTTCACCGAGGCCAACCAAGTGGCACTGCGCCTGCTCGGCGTCTCCACCACCGAGCAGGTCTGGCATCACCTGGTGGACAGCGGCCCGCTGCACCACGGCGGCATCCGTTTCCAGTTGATCGCCGCCGTGCTCGGCGAACAGAACCATCTGGAAATGGAAACCCGGATCGTCACGCCGCAGGGCGTGGAGCGCCATCTCTGGCTGGTCCTGCGCCTGCCGGAAATGATCCAGGACTACCACGCGGTCACCCTGAGCATCAGCGACATCACCAGCCGCAAGCGCATCGAACTGTCGCTGATCGAGCGCGAGCGCTTCTGGTCGGAAGTCGTCCGTGCCGTTCCGGACACGCTCTACGTACACGACATGAGCAGCAAGCGGGTGATGTTCAGCAACCACCACCTGGGCCTGCGCCTCGGCTACGACAAGGACGAGCTGAAGGAGATGGGCGAGCACTTCTGGGAGCGCATCCTGCACCCGGACGATTTCGAGTACTACCGGCGCATCCGCAATCTGCAGCAGGTGGTCGGCCAGAACGTGCTGCTCGAATCCATCCTGCGCTGGCGCCACAAGGACGGAAGCTGGCATTGGTTCAGCATCCGCGAACAGGCGCTGTCGCGCGACGAGGAAGGCCGGGTCAGCCGCCTGATCGGCGTGGCCAAGGACATCACCGAGCAGATCGAGGCCAGCGACTCGCTGCGCGACAGCGAGCGCCGCTACCGCATGCTGGCGGAGAGCATCAGCGACGTGATCTTCTCCACCGACAGCGAACTGGAGCTGAACTACGTCAGCCCCTCGGTACAACCGATCCTCGGCTACAGTGCCGACTGGGTGCTGGCCAACAGCTTCCAGCGACTGGCCGCCAATCCGCGCCAGTTGGCGGAACTCTACGCCATGCTCAACCGCGTGCGCGGCGCCCTGGGCGACCCGCAACGGATGGCCGAACTGCGCAACCAGTTGCCGACCGAGCCGCACCTGTTCGATTGCCTGCGCGCCGACGGCCGCAAGGTTCCGGTGGAGCTGCGCCTGGTCCCGATGTGGGACGAGCACGGCCGCTTCGAGGGCATGCTCGGCGTCGGTCGCGACGTCAGCCAGCAGCGCCGCGCGGAAAAGGAACTGCGCATGGCGGCCACCGTGTTCGCCCATTCCACGGCGGCGATCCTGATCACCGATCCGGCCGGCTACATCGTGCAGGTCAACGAGGCGTTCTGCCGGATCACCGGCTACGACAGCGCCGAAGTCCTCGACCAGTTGCCGAACCTGCTCACCGCCGACCGCCAGCAGGCCAACCACCTGCGCTACATCGTCAAGCAGCTCGACCAGCGCGGCAGCTGGGAGGGCGAGATCTGGCTCAAGCGGCGCACCGGCGAAAGCTATCCGGCCTGGGTCGGCATCACCGCCGTGCAGGACGGCGAAGGCGACCTGGTCAGCTACGTGTGCTTCTTCAGCGACATCAGCGAGCGCAAGGCCAGCGAGCAGCGCATCCATCGCTTGGCCTACTACGACGCCCTCACCCACCTGCCCAACCGCACGCTGTTCCAGGATCGCCTGCACACCGCCCTGCAACATGCCGAGCGGCATGACGAATGGGTGGTGCTGATGTTCCTCGACCTCGACCGCTTCAAGCCGATCAACGACTCCCTCGGCCACGCCGCCGGCGACCGCATGCTCAAGGACGTGGCGCTGCGTCTGGCCGCCTGCGTCGACGAGGACGACACCGTGGCACGCATGGGTGGCGACGAGTTCACCCTGCTGCTGCAACCGCGCGCCACCCGCGAAGGCGCGCTGAACCGGGCCATCCACGTCGCCGAGCAGATTCTTGCCAGCCTGGCGCGGCCATTCATCCTCGAGGGTCGCGAGTTCTTCGTCACCGCCAGCATCGGCATCGCCCTGGGCCCGCAGGACGGCCAGGAACTGAGCCACCTGATGAAGAACGCCGACACCGCGATGTACCACGCCAAGGAACGCGGCAAGAACAACTTCCAGTTCTATCAGGCGGAAATGAACGCCAGCGCGCTGGAACGCCTGGAGCTGGAAAGCGACCTGCGCCATGCCCTCGACCTGGGCGAATTCCAGCTCTATTACCAGCCGCAGTTCTCCGGCGACGGCAAGCGCCTCACCGGTGTCGAGGCGCTGCTGCGCTGGTACCACCCGCGCCGCGGCCATGTACCGCCGACCGACTTCATCCCGGTGCTGGAAGAGCTCGGCCTGGTGGTCCAGGTGGGCGACTGGGTGCTTTCCGAAGCCTGCCGCCAGCTCAAGCGCTGGCACGCGGCGCGGGTACGGGTGCCGAAGATTTCGGTGAACATCTCCGCGCGCCAGTTCGCCGACGGCCAGTTGGGCACCCGTATCGCCCACATTCTCCAGGAAAGCGGCATCCCGCCGGCCTGCCTGGAGCTGGAACTGACCGAGAGCATCCTGATGCGCGACGTCGGCGAAGCCATGCAGATCCTCGCCGGCCTCAAGCGCCTGGGCCTGTGCATCGCGGTGGACGACTTCGGCACCGGCTACTCGTCGCTGAACTACCTCAAGCAGTTCCCCATCGACGTGCTGAAAATCGACCGCAGCTTCGTCGATGGCCTGCCCTACGGCGAACAGGACGCACAGATCGCCCGGGCCATCATCGCCATGTCCCACAGCCTGAACCTGGCGGTGATCGCCGAAGGCGTGGAAACCCAGGAACAGCTCGACTTCCTCCGCGAACATGGTTGCGACGAGGTGCAGGGCTACCTGTTCGGCCGGCCGATGCTCGCCGAACAATTCCAGAACCACTTCGGCGGCGCCGCCCTGTTCGTCCTCAGCTGA	MPLRRTPFSVPKSPSTLPRTPDETPFPARGSVKGVLVVLLLLMLGLLLWQLQQEFGQQRESRRQRSLEYSSQLAGHLSLTLELKAHAALALLRQSALLPPPQGENREALIRSLRHLFPGLRSLAWLDAQGRPFVDSAAGDDDVAFLAALVERNRDPPYHFAFDNHRDGQFYLLLRQSSKNGASDYWVLRLPARSMADWLRDLHSQEHRWLIEDRLSQRVIARLPQTPGQPTLATVTAEEQAQSILVSPLDGSDWQLRALFDERKLGSEVLPGLAGKLLLFLFCSALACVALFGLQREQRILHELNAASRRSLRYAASALRAIEERVLVTRVDGQLIYLNPQAEQLFGLSGGDLQGHHLLDLLPDLDPLLLHGATFHSNLDPDLVEVTQHGMRRLFAVTRSDLGDDHARSGYVWVLRDVTEKQQAMRVLHETRRRYQDIFEGTGIALCVLDLAGLRRFLLQQDLRGSEALANWLAANPQRHQELLQHLRFTEANQVALRLLGVSTTEQVWHHLVDSGPLHHGGIRFQLIAAVLGEQNHLEMETRIVTPQGVERHLWLVLRLPEMIQDYHAVTLSISDITSRKRIELSLIERERFWSEVVRAVPDTLYVHDMSSKRVMFSNHHLGLRLGYDKDELKEMGEHFWERILHPDDFEYYRRIRNLQQVVGQNVLLESILRWRHKDGSWHWFSIREQALSRDEEGRVSRLIGVAKDITEQIEASDSLRDSERRYRMLAESISDVIFSTDSELELNYVSPSVQPILGYSADWVLANSFQRLAANPRQLAELYAMLNRVRGALGDPQRMAELRNQLPTEPHLFDCLRADGRKVPVELRLVPMWDEHGRFEGMLGVGRDVSQQRRAEKELRMAATVFAHSTAAILITDPAGYIVQVNEAFCRITGYDSAEVLDQLPNLLTADRQQANHLRYIVKQLDQRGSWEGEIWLKRRTGESYPAWVGITAVQDGEGDLVSYVCFFSDISERKASEQRIHRLAYYDALTHLPNRTLFQDRLHTALQHAERHDEWVVLMFLDLDRFKPINDSLGHAAGDRMLKDVALRLAACVDEDDTVARMGGDEFTLLLQPRATREGALNRAIHVAEQILASLARPFILEGREFFVTASIGIALGPQDGQELSHLMKNADTAMYHAKERGKNNFQFYQAEMNASALERLELESDLRHALDLGEFQLYYQPQFSGDGKRLTGVEALLRWYHPRRGHVPPTDFIPVLEELGLVVQVGDWVLSEACRQLKRWHAARVRVPKISVNISARQFADGQLGTRIAHILQESGIPPACLELELTESILMRDVGEAMQILAGLKRLGLCIAVDDFGTGYSSLNYLKQFPIDVLKIDRSFVDGLPYGEQDAQIARAIIAMSHSLNLAVIAEGVETQEQLDFLREHGCDEVQGYLFGRPMLAEQFQNHFGGAALFVLS	PGPT0023624_41	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-GGDEF|EAL|PAC|PAS-DOMAIN-CONTAINING_PROTEIN,PGPT0023624-GGDEF|EAL|PAC|PAS_domain_containing_protein-NA	NA	NA
BMS010_08423	1257	glyA_1	COG0112	Serine hydroxymethyltransferase	ATGTTCAGCCGTGATTTGACCCTCGCCCGCTACGATGCCGACCTGTTCGCCGCGATGGAGCAAGAAGCCCAGCGCCAGGAAGAGCACATCGAGCTGATCGCCTCCGAGAACTACACCAGCCCGGCGGTGATGGAAGCCCAGGGCTCCGTCCTGACCAACAAGTACGCCGAAGGCTACCCGCACAAGCGCTACTACGGCGGTTGCGAGTACGTCGACATCGTCGAGCAACTGGCCATCGACCGCGCCAAGGAGCTGTTCGGCGCCGACTACGCCAACGTCCAGCCGCACTCCGGCTCCCAGGCCAACAGCGCGGTGTTCCAGGCGCTGGTCAAGCCGGGCGAGACCGTCCTCGGCATGAGCCTGGCCCACGGCGGCCACCTGACCCACGGCGCCAGCGTCAACTTCTCCGGCAAGATCTACAACGCCGTGCAGTACGGCCTGAATCCGGAAACCGGCCTGATCGACTACGACGAAGTGGAGCACCTGGCCGTCGAGCACAAGCCGAAGATGATCATCGCCGGCTTCTCCGCCTACTCCCAGGTCCTGGATTTCCCGCGTTTCCGCGAGATCGCCGATAAAGTCGGCGCCTACCTGTTCGTCGACATGGCCCACGTGGCCGGCCTGGTCGCCGCCGGCGTGTACCCAAACCCGGTACCGTTCGCCGACGTGGTCACCACCACCACCCACAAGACCCTGCGCGGCCCGCGCGGCGGCCTGATCCTGGCCAAGGCCAACGAAGAGATCGAGAAGAAGCTGAACTCCGCCGTGTTCCCCGGTGGCCAGGGCGGCCCGCTGATGCACGTGATCGCGGCCAAGGCCGTGTGCTTCAAGGAAGCCCTGTCCCCCGAGTTCAAGGCCTACCAGGAGCAAGTGGTGAAGAATGCCCAGGCCATGGCCCAGGTGTTCGTCGACCGCGGCTTCGACGTGGTCTCCGGTGGCACCCAGAACCACCTGTTCCTGCTCAGCCTGATCAAGCAGGACATCACCGGCAAGGATGCGGACGCCGCCCTCGGCCGCGCCTTCATCACCGTGAACAAGAACGCCGTACCGAACGACCCGCGCTCGCCATTCGTCACCTCGGGCCTGCGCATCGGCACCCCGGCCGTGACCACCCGTGGCTTCAAGGAAGTCGAGTGCCGCGAACTGGCCAACTGGATCTGCGACATCCTCGACCACATGGGCGATGAGTCCGTGGTCGACCGCGTACGCGAGCAGGTTCGCGCCGTTTGCGCCAAGTTCCCGGTGTACGGCAAGTAA	MFSRDLTLARYDADLFAAMEQEAQRQEEHIELIASENYTSPAVMEAQGSVLTNKYAEGYPHKRYYGGCEYVDIVEQLAIDRAKELFGADYANVQPHSGSQANSAVFQALVKPGETVLGMSLAHGGHLTHGASVNFSGKIYNAVQYGLNPETGLIDYDEVEHLAVEHKPKMIIAGFSAYSQVLDFPRFREIADKVGAYLFVDMAHVAGLVAAGVYPNPVPFADVVTTTTHKTLRGPRGGLILAKANEEIEKKLNSAVFPGGQGGPLMHVIAAKAVCFKEALSPEFKAYQEQVVKNAQAMAQVFVDRGFDVVSGGTQNHLFLLSLIKQDITGKDADAALGRAFITVNKNAVPNDPRSPFVTSGLRIGTPAVTTRGFKEVECRELANWICDILDHMGDESVVDRVREQVRAVCAKFPVYGK	PGPT0008090_5038	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008090-glyA-K00600	NA	NA
BMS010_08424	507			hypothetical protein	ATGGACAAGCGACTGTTAGGCAAGGGTCTGATCTTCGGTCTGATGAGCATGGCCAGCGTGACGGCCCACGCGGATGCGGCCGGCGGCAACGGCTGCGGCTGGGGCAACATGCTGTTCGAGGGCCAGCGCGGCCTGATCCCCCACTTACTGGCCACCACCACCAACGGCACCTCGGGCAACGCCACCTTCGGCATGACCTCCGGCACCAATGGCTGCGACACCAACGTCAAGCTGGGCTACGGCGGACGTTCGATCCTGGCCATGAATGGCATGCTCGATAACATCGCCGAAGACATGGCGTTGGGGCAGGGCGAGGCGCTGGATGCCTATGCCACGCTGCTGGGAATCGAGCAGGCCGACCGGGCTCACTTCGCCAAGGTGACCCAAGAGAATTTCGACCGGATTTTCTCGTCCCCCGATGTCACCGGTGAGCAGGTGCTGGCCGCGACGCTGGATGTGATGAGCCGCGACAAGCAGTTGGCGCGTTACGCCAGGCAGCCTGCCTGA	MDKRLLGKGLIFGLMSMASVTAHADAAGGNGCGWGNMLFEGQRGLIPHLLATTTNGTSGNATFGMTSGTNGCDTNVKLGYGGRSILAMNGMLDNIAEDMALGQGEALDAYATLLGIEQADRAHFAKVTQENFDRIFSSPDVTGEQVLAATLDVMSRDKQLARYARQPA				NA	NA	NA	NA	NA
BMS010_08425	462			hypothetical protein	ATGGCTGCCCGCTCCTCCGGAGTCACCCTCGCTCCGCCGCTGATCTACCTGATTTTCGTCCTCTTCGCCTGGGCCCTGAGCCGTCAGTTGCCGATCCCGCTGCCGGACAACGATTGGACCCGTTACGCCGGCTGGGGGTTGATCGATGCGGGGCTGTTGCTGATGATCTGGGCCGCCTTGCTGATGGCCCGCCACAAGACCACCATCAACCCGTTCCGCAAGCCGCAGCAACTGCTGGAAAAAGGCCCTTTCCGCTTCTCGCGCAATCCCATCTACCTGGGCGATACGCTGATCTATTGCGGCATCGGCCTGCTGCTCGCCAACCTCTGGCCCTGGCTGTTGCTGCCTTTGTTGATCGTTTGCATGAACCGCGGGGTCATCCGCTACGAGGAAAGCCTGCTGACCCGGCTGTTCGGCGACGCCTACCGGGCTTATCAAGCCCGCGTTCGCCGCTGGCTGTGA	MAARSSGVTLAPPLIYLIFVLFAWALSRQLPIPLPDNDWTRYAGWGLIDAGLLLMIWAALLMARHKTTINPFRKPQQLLEKGPFRFSRNPIYLGDTLIYCGIGLLLANLWPWLLLPLLIVCMNRGVIRYEESLLTRLFGDAYRAYQARVRRWL				NA	NA	NA	NA	NA
BMS010_08426	369			Cyclic diguanosine monophosphate-binding protein	ATGAACGAGCCTGCCAATGAGCGTCGACGCTTCCACCGCGTCGAGTTCGATGCCGATACCGAACTGAGCCAGGGCGACCGGCGCTGGAAGGTCGTCCTGCACGACCTGTCGCTGAAAGGCCTGCTGGTGGAACGCCCGCAGGGCTGGAACGGCGACCCGAACCAACCCTTCCTGGCGGACATCCGCCTGAGTTCCGATATCCACGTACGGATGGAAATGGTCCTGACCCGGACCCAGAACGAGCAGCTCGGCTTCGTCTGCCGCCACATCGACCTCGACTCCATCAGCCATCTGCGCCGGCTGATCGAACTCAACCTGGGCGACGAAGACCTGTTGGAACGCGACCTCGCCGCCCTTGGGGAGACTTGA	MNEPANERRRFHRVEFDADTELSQGDRRWKVVLHDLSLKGLLVERPQGWNGDPNQPFLADIRLSSDIHVRMEMVLTRTQNEQLGFVCRHIDLDSISHLRRLIELNLGDEDLLERDLAALGET				NA	NA	NA	NA	NA
BMS010_08427	1359	radA_2	COG1066	DNA repair protein RadA	ATGGCCAAGGCCAAGCGCATGTACGGCTGCACCGAGTGTGGCGCCACCTTTCCCAAATGGGCCGGCCAGTGCGGCGAGTGTGGTGCCTGGAACACCCTGGTGGAAACCGTGGTGGAGGGGGCGACCCCCTCCGGGCGCACCGGCTGGGCCGGCGACCAGGCGCAGATCAAGACCCTGGCGGAAGTCAGCGTCGAAGAGGTGCCGCGTTTTTCCACCGCGTCCGGTGAGCTGGACCGCGTACTCGGCGGCGGCCTGGTCGATGGCTCGGTGGTGCTGATCGGCGGCGACCCCGGTATCGGCAAGTCCACCATCCTTCTGCAGACCCTCTGCAATATCGCCCAGCGCTTCCCGGCGCTGTATGTCACCGGCGAGGAATCCCAGCAGCAGGTGGCGATGCGCGCCCGCCGCCTGGACCTGCCGCAGGATCGGTTGAAGGTCATGACCGAGACCTGCATCGAAACCATCATCGCCACCGCCCGGCGCGAGCAGCCCAAGGTGATGGTGATTGACTCGATCCAGACCATTTTCACCGAGCAGCTCCAGTCCGCCCCCGGCGGTGTCGCCCAGGTGCGTGAGAGCGCGGCGTTGCTGGTGCGTTTCGCCAAGCAGAGCGGCACGGCGGTGTTCCTGGTCGGCCACGTGACCAAGGAAGGCGCCCTGGCCGGGCCGCGCGTGCTGGAGCACATGGTGGACACGGTGCTGTATTTCGAAGGCGAGTCCGATGGCCGCCTGCGCCTGCTGCGGGCGGTGAAGAACCGTTTCGGCGCGGTCAACGAACTGGGCGTGTTCGGCATGACCGACAAGGGCCTGAAGGAGGTTTCCAACCCGTCGGCGATCTTCCTCACCCGCGCCCAGGAGTCGGTGCCCGGCAGCGTGGTCATGGCCACTTGGGAAGGTTCGCGGCCGATGCTGGTGGAAGTACAGGCGCTGGTGGACACCAGTCACTTGGCCAACCCGCGCCGGGTGACCCTGGGCCTGGACCAGAACCGCCTGGCCATGCTCCTGGCCGTGCTGCACCGGCATGGCGGCATCCCCACCTACGATCAGGACGTGTTCCTCAATGTCGTCGGCGGGGTGAAGGTGCTGGAAACCGCATCGGACCTGGCGCTGATGGCCGCGGTGATCTCCAGCTTGCGCAACCGGCCGTTGCCGCACGACCTGCTGGTCTTCGGCGAGATCGGCCTGTCCGGCGAAATCCGCCCGGTGCCGAGCGGCCAGGAGCGTCTCAAGGAGGCCGCCAAACATGGCTTCAAGCGCGCCATCGTGCCCAAGGGCAACGCCCCCAAGGAAGCCCCGGCCGGTTTGCAGGTGATTGCGGTGACACGCCTGGAACAGGCGTTGGATGCGCTTTTTGAATAA	MAKAKRMYGCTECGATFPKWAGQCGECGAWNTLVETVVEGATPSGRTGWAGDQAQIKTLAEVSVEEVPRFSTASGELDRVLGGGLVDGSVVLIGGDPGIGKSTILLQTLCNIAQRFPALYVTGEESQQQVAMRARRLDLPQDRLKVMTETCIETIIATARREQPKVMVIDSIQTIFTEQLQSAPGGVAQVRESAALLVRFAKQSGTAVFLVGHVTKEGALAGPRVLEHMVDTVLYFEGESDGRLRLLRAVKNRFGAVNELGVFGMTDKGLKEVSNPSAIFLTRAQESVPGSVVMATWEGSRPMLVEVQALVDTSHLANPRRVTLGLDQNRLAMLLAVLHRHGGIPTYDQDVFLNVVGGVKVLETASDLALMAAVISSLRNRPLPHDLLVFGEIGLSGEIRPVPSGQERLKEAAKHGFKRAIVPKGNAPKEAPAGLQVIAVTRLEQALDALFE	PGPT0014905_3855	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014905-radA-K04485	NA	NA
BMS010_08428	273			hypothetical protein	ATGCACGTCGAACACCATCCGCTGATCAAGGATTTCCCCGAGCTGCGCGAGCAACTGCACAGCCTGCGTGAAACCGACAGCCACTTCGCCCAGCAGGCTGACGAATACGAAGCGCTGGACAAGCGCATCTGCCGCATCGAGGAGGGCACCGAAACGCTCGACGATGCCGGCTTGTCCGCGCTCAAGCAGCAGCGCGTGCTGCTCAAGGACGAACTGGCGCGCAAACTGAAGAAAAAGGCCGGCGGCGCCTGTTGCGGTTGCTGCGGAGGCTGA	MHVEHHPLIKDFPELREQLHSLRETDSHFAQQADEYEALDKRICRIEEGTETLDDAGLSALKQQRVLLKDELARKLKKKAGGACCGCCGG				NA	NA	NA	NA	NA
BMS010_08429	246			hypothetical protein	ATGCCACTCGAGCATCATCCTTTGTCGCGCGAATTCCCGGAATACCACAGCGAAATGCGGCAGTTGCTGCAGACATCGGTCAACTTCTCCCGCCTGGCGGAGGAGTACCAGGCGCTGGACCGGCGCATCTACCTGATCGAGGACGGTCGCGAGACCCTGGACGACCTGTCGTTGCAGGGTCTGAAGCTGCAGCGGGTGATCCTCAAGGACGAGATCGCCGCCTGTCTCAAGCAGGCCGGTGGGTGA	MPLEHHPLSREFPEYHSEMRQLLQTSVNFSRLAEEYQALDRRIYLIEDGRETLDDLSLQGLKLQRVILKDEIAACLKQAGG				NA	NA	NA	NA	NA
BMS010_08430	546			hypothetical protein	ATGCGTATCCGGGGATTGATCTGCCTGCTGTTTTTCTCGGGCTGGACAGTGGCGGCCGAACCGCCATCGGACCCCGCCCACGTACAGGCCGAGCTGCGTCGCTACTACTTCGAGGCGGCCCGCAGTGGCGATGACGAAGTGATCGAGGAGTTCGTCAAGGCCGGCTTCGACCTGAACGTCCAGGACGATAAGGGCTATACCGGGCTGATCCTGGCGGCGTACCACGGCCACGGCGAGCTGGTCGACCGTCTGCTGGCGGCCGGGGCCGATCCCTGTGTCCAGGACAAGCGCGGCAACACGGCGCTGATGGGAGCGATCTTCAAGGGCGAGCTGGCCATCGCCAAGCGTCTATTGGACGCCGGTTGCGCCCCGGACCAGCGCAATGCCAGCGGCCAGACCGCCGCCATGTACGCGGCGCTGTTCCAGCGCGAGGAACTGCTTGCCGCACTCCAGGCGCGAGGCGCCGACCTGCAGGCGCACGACGCCTTCGGCAACAGCACGCGCAGCCTGGCTGAGGGGGAGATACGTACCCAACCGCAACCCTGA	MRIRGLICLLFFSGWTVAAEPPSDPAHVQAELRRYYFEAARSGDDEVIEEFVKAGFDLNVQDDKGYTGLILAAYHGHGELVDRLLAAGADPCVQDKRGNTALMGAIFKGELAIAKRLLDAGCAPDQRNASGQTAAMYAALFQREELLAALQARGADLQAHDAFGNSTRSLAEGEIRTQPQP				NA	NA	NA	NA	NA
BMS010_08431	1536	katB	COG0753	Catalase	ATGACCATTGCCTTGCGTGCTTTCATGCCCGGCCGTCTGCTGACGGGCGTGGCGGCCGGCCTCCTGGCCTGCGCCATCCAGGCCGCCCCGCTGACCCGTGACAACGGCGCCCCGGTAGGGGACAACCAGAACTCGCAGACCGCCGGTGCCGGCGGTCCGACCCTGTTGCAGGACGTGCAACTGATCCAGAAACTGCAACGCTTCGACCGCGAACGCATTCCCGAGCGCGTGGTACACGCCCGTGGCACTGGAGCCCACGGCGAATTCGTCGCCACCGCCGACCTCTCCGATCTCACCGTCGCCAAGGTCTTCGAGAAAGGCAGCAAGACACCAGTCTTCGTGCGCTTCTCCAGCGTGGTGCACGGCAACCATTCGCCGGAAACCCTGCGCGATCCGCGCGGCTTCGCCACCAAGTTCTATACCGACGAAGGCAACTGGGACCTGGTCGGCAATAACTTCCCGACCTTCTTCATCCGCGACGCCATCAAGTTCCCGGACATGGTCCATGCGTTCAAGCCGAACCCGCAGACCAACCTGGACGACAACGCACGGACCTTCGACTTCTTCTCGCACATCCCGGAAGCCACCCGCACCCTGACCCAGCTTTTCTCCAACGAGGGCACCCCGGCCAGCTACCGGCAGATGGACGGCAACGGCGTGCATGCCTACAAACTGGTCAACGCCAAGGGCGAGGTGCATTACGTCAAGTTCCACTGGAAGAGCCTGCAAGGCCAGAAGAACCTCGATCCGCGCGAAGTGGCCCAAGTCCAGTCGCACGATTACAGCCACATGACCCGCGACCTGATCGCCGCCATCGACAAGGGCGACTTCCCGAAATGGGACCTGTACATCCAGGTCCTGAAGCCGGAAGACCTGTCCACCTTCGACTTCGATCCGCTGGACGCCACCAAGATCTGGCCGAACGTGCCCGAGCGGAAGATCGGCCAGATGGTCCTGAACAAGAACCCGGACAACGTGTTCCAGGAAACCGAGCAGGTCGCCATGGCACCGGCCAACCTGGTGCCGGGCATCGAGCCCTCCGAGGATCGCCTGCTCCAGGGGCGGGTGTTCTCCTATGCCGACACGCAGATGTACCGCCTGGGCGCCAACGGCCTGCAACTGCCGGTGAACAGGCCGAAGGTGGAGGTGAACAACGGTAACCAGGATGGCGCGATGAACAGCGGCCACAGCACCAGCGGCGTCAATTACCAGCCGAGCCGCCTGATGCCGCGCGACGAAACTGCCCATGCGCGCTACAGCCGGTTGCCGCTGACCGGCAGCACCCAGCAGGCGAAAATCCAGCGCGAGCAGAACTTCAAGCAGGCCGGCGAGCTGTACCGCTCCTACAGCCAGAAGGACCGCCAGGACTTGATCGCCAGCCTGGGCAGCGCCCTGGCCGATGCCGATGACGAGAGCAAGCACATCATGCTGTCGTTCTTCTACAAGGCGGATGCCGAGTACGGCGACGGGCTGACCAAGGTGGCCAAGGGCGACCTGAAGCGTGTCCAGGCGCTGGCCGCCAAGCTGGCCGACTGA	MTIALRAFMPGRLLTGVAAGLLACAIQAAPLTRDNGAPVGDNQNSQTAGAGGPTLLQDVQLIQKLQRFDRERIPERVVHARGTGAHGEFVATADLSDLTVAKVFEKGSKTPVFVRFSSVVHGNHSPETLRDPRGFATKFYTDEGNWDLVGNNFPTFFIRDAIKFPDMVHAFKPNPQTNLDDNARTFDFFSHIPEATRTLTQLFSNEGTPASYRQMDGNGVHAYKLVNAKGEVHYVKFHWKSLQGQKNLDPREVAQVQSHDYSHMTRDLIAAIDKGDFPKWDLYIQVLKPEDLSTFDFDPLDATKIWPNVPERKIGQMVLNKNPDNVFQETEQVAMAPANLVPGIEPSEDRLLQGRVFSYADTQMYRLGANGLQLPVNRPKVEVNNGNQDGAMNSGHSTSGVNYQPSRLMPRDETAHARYSRLPLTGSTQQAKIQREQNFKQAGELYRSYSQKDRQDLIASLGSALADADDESKHIMLSFFYKADAEYGDGLTKVAKGDLKRVQALAAKLAD	PGPT0014380_2494	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0014380-katE|CAT|catB|srpA-K03781	NA	NA
BMS010_08432	417	mscL_2	COG1970	Large-conductance mechanosensitive channel	ATGAGTCTGCTCAGTGAATTCAAGGCTTTCGCCGTACGCGGCAACGTGGTCGACATGGCGGTCGGTATCATCATCGGCGCGGCCTTCGGCAAGATCGTGTCGTCCTTCGTCGGCGACGTGATCATGCCGCCACTGGGCATCCTCATCGGCGGCGTGGATTTCTCCGACCTGGTCATCGTGCTCAAGGCCGCCGAAGGCGACGTTCCCGCCGTGACCCTCTCCTACGGCAAGTTCATCCAGACAGTGGTGGACTTCATCATCATCGCCTTCGCCATCTTCCTGGGCGTGAAGGCGATTAACCACCTCAAGCGCAAGGAAGCCGAAGCCCCCAGCGCCCCGCCGGCGCCGAGCAAGGAAGAACTCCTACTGACGGAAATCCGCGATCTGCTGAAGGCACAGAACGATCGCCAGGGTTGA	MSLLSEFKAFAVRGNVVDMAVGIIIGAAFGKIVSSFVGDVIMPPLGILIGGVDFSDLVIVLKAAEGDVPAVTLSYGKFIQTVVDFIIIAFAIFLGVKAINHLKRKEAEAPSAPPAPSKEELLLTEIRDLLKAQNDRQG	PGPT0013771_1698	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013771-mscL-K03282	NA	NA
BMS010_08433	834	fpr_3	COG1018	Flavodoxin/ferredoxin--NADP reductase	ATGACCGGCAGCGTTGCCGGTCGTGCCACCGTCGAGTCGAATCCCCTGGGGGCGGACATGACAGCCAGCGAAGACAAGTACACCCGCGAGACGCTACTGGACGTCCATAGCTGGTCGCCGAACCTGTTCAGCCTGCGTTGTACGCGGGCCTCCGGGTTCCGCTTCCGTGCCGGCCAGTTCGCCCGCCTGGGTGTGCGCAAGGCCGACGGCAACGTGGTCTGGCGTGCCTATTCGATGGTCTCGGCACCTCACGACGACTACCTCGAGTTCTTTTCCATCGTGGTCCCGGACGGTGAGTTCACCAGCGAACTGAGCCGCCTGCGCGCCGGCGATCCACTGCTGGTGGACAAGCAGGCCTTCGGCTTCCTCACCCTGGATCGCTTCCCCGACGGACGCGACCTCTGGCTGCTGGCCACCGGCACCGGGCTGGCGCCGTTCCTCTCGATCCTGCAGGACATGGAGGTCTGGCAGCGCTTCGAGCGCATCCTGCTGGTCTACAGCGCTCGCACTGCCAGCGAGCTGGCCTATCAGGCGCTGATCCGGGAGATACCCACGCGCGACTACCTGGAGGGCGCGGGCCGAAAGCTGGCCTACCTGCCGGTGGTCACCCGGGAAGCAGTGCCCGGTGCGCTGCACGGGCGGATCACTACGCTGATCGAGAGCGGCGAGCTGGAGCGCGCCGCTGGCCTGGCGCTGGACCCGCAGCATTCGCGCCTGATGCTGTGCGGCAACCCGCAGATGATCGAGGATTGCCGCGCGTTGCTGAAAACCCGCGGCATGCAACTCAGCCTGACCCGGCGGCCCGGGCAGGTGGCGGTGGAGAACTACTGGTAG	MTGSVAGRATVESNPLGADMTASEDKYTRETLLDVHSWSPNLFSLRCTRASGFRFRAGQFARLGVRKADGNVVWRAYSMVSAPHDDYLEFFSIVVPDGEFTSELSRLRAGDPLLVDKQAFGFLTLDRFPDGRDLWLLATGTGLAPFLSILQDMEVWQRFERILLVYSARTASELAYQALIREIPTRDYLEGAGRKLAYLPVVTREAVPGALHGRITTLIESGELERAAGLALDPQHSRLMLCGNPQMIEDCRALLKTRGMQLSLTRRPGQVAVENYW	PGPT0013215_2929	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013215-fpr-K00528	NA	NA
BMS010_08434	990	dctP_4	COG1638	C4-dicarboxylate-binding periplasmic protein DctP	ATGCTGAAGCTTATCGCCACGGCGGCTATCGCTGCCGTGCTGGCCGCTGGACCGGCGCTGGCCGACGATGGTCCGATCCTGATCAAGTTTTCCCACGTGGTGGCGGACGATACGCCCAAGGGCAAGGGCGCGCTGCTGTTCAAGAAGCTGGTGGACGAGCGCCTGGCCGGCAAGGTCAAGGTGGAGGTCTACCCGAACTCCACGCTCTATGGCGATGCCGACGAAATGAAGGCCCTGCTGGAGAACAAGGTCCAGTTGCTGGCGCCGTCGCTGTCGAAGTTCGAGCCCTACACCAAGCAGTTGCAGGTGTTCGACCTGCCGTTCCTGTTCGATGACCTGGAAGCGGTGAAGCGCTTCATGAAGCGCGACAAGAGTCGCGAGCTGCTGCGCTCCATGGGCAAGCACGGTATCCAGGGGCTGGCGTTCTGGAACAACGGCATGAAGCAGCTTTCGGCCAATCGGCCGCTGCACCTGCCGGCCGATGCCCGTGGCCTGAACTTCCGTATCCAGCCGTCCAGCGTGCTGGAAGCGCAGTTCGCCGCGGTCGGTGCGAAGTCGCAGAAGATGGCCTTCGCCGAAACCTTCAAGGCCTTGCAGACGGGAGTGGTGCAGGGCACCGAGAACCCCTGGTCGAACATCAGCAGCCAGAAGTTCGATACCGTGCAGCCGTTCATCACCGAAAGCGACCACGGCACGCTCAACTACATGCTGATCAGCAACTCCAAGTTCTGGGCCAGCATTCCCTATCAGACCCGCGTGGAGCTGGACGCGATCATCGACGAAGTGACCTTCGCGGTGAACAAGGAAGCCGAGGCGCTGAACCAAAAGAGCCGTGAGCAGGTGATCGCCGCTGGCCACGCCAAGGTCATCCCGCTTACCGCGCAGGAGCGCACCGCCTGGCGCCAGGTCATGGAGCCGATCTGGCAGAAGTACGAGGCGGATATCGGCCCTGACGTGCTGCGCGCGGCCCGGATCGTCAACCGCCGCTGA	MLKLIATAAIAAVLAAGPALADDGPILIKFSHVVADDTPKGKGALLFKKLVDERLAGKVKVEVYPNSTLYGDADEMKALLENKVQLLAPSLSKFEPYTKQLQVFDLPFLFDDLEAVKRFMKRDKSRELLRSMGKHGIQGLAFWNNGMKQLSANRPLHLPADARGLNFRIQPSSVLEAQFAAVGAKSQKMAFAETFKALQTGVVQGTENPWSNISSQKFDTVQPFITESDHGTLNYMLISNSKFWASIPYQTRVELDAIIDEVTFAVNKEAEALNQKSREQVIAAGHAKVIPLTAQERTAWRQVMEPIWQKYEADIGPDVLRAARIVNRR	PGPT0017325_818	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017325-dctP-K11688	NA	NA
BMS010_08435	1131	rlmG	COG2813	Ribosomal RNA large subunit methyltransferase G	ATGCCCCTACTCACCTCGCCGTTCGCCCAGCTCGACCTGATCCGCCAACCCGAGCAACCGAACGATCCGCTGCAAGCCTTCGACGCCGCCGACGAATACCTGCTGAGCCAGCTCCATGCCCAGGCGCTACCCGCCGACACGCGCGTCCTGGTGTTGAACGACAGCTTCGGCGCCCTGGCCGCATCCCTCGCCGCGCAGATGCAGGTGACCAGCAGCGGCGATTCCCACCTGGCGCATCTGGCCTTGGCCAAGAACCTCGCGCGTAACGGCCTGCCCGTCGATGCGGTGCGTTTCGTGCCGGCCAGCAATATCCCCGCCGGTCCCTTCGACCGGGTGCTGATCCGGGTACCGAAGACCCTGGCGCTGCTGGAGGAGCAACTGATCCGCCTGCACGGCCAGTTGGCACCCGATGCGCAGGTGGTAGCCGGTGCCATGATCAAGCACCTGCCGCGCGCGGCGGGCGATCTGCTGGAAAAGTACGTCGGCCCGGTCCAGGCCTCGCTGGCAGTGAAGAAAGCGCGCCTGTTGCAGGTCACGCCAGAGGCAAGGCCGGCACCGGTCTCGCCCTACCCCAGCCGCTACCGCCTGGAACAGCCGCGCCTCGAACTGCTCAACCACGCCAACCTGTTCTGTCGCGAAGGCCTGGACATCGGCACCCGAGCCTTCCTGCCGCATCTGCCGACCGATCTGGGGGACACCCGGGTGGCCGACCTCGGCTGCGGAAACGGGGTGATCGGCATCGTCTGTGCGTTGGCCAATCCGGACGCGCGCCTGACCCTGGTGGACGAGTCCTACATGGCGGTGCAGTCGGCCAGGGAAAACTGGCAGGCCGTACTGGGCGACCGCCCGGCGGATATCCGCGCCGACGACGGGCTGGCCAGCCAACCGGCGGATTCACTGGACCTGGTGCTATGCAATCCGCCGTTCCACCAGCAGCAGGTGGTGGGGGACTTCCTTGCCTGGCGCATGTTCCAGCAGGCCAAGGCGGCGCTGGCGAAAGGCGGCGAGCTGCGCATCGTCGGCAACCGCCACCTGGGCTATCACATCAAGCTCAAGCGCCTGTTCGGCAACGTCGAACAGGTCGCCGCGACACCCAAGTTCGTCATCCTCGGAGCGCGCAAGCGCAATTGA	MPLLTSPFAQLDLIRQPEQPNDPLQAFDAADEYLLSQLHAQALPADTRVLVLNDSFGALAASLAAQMQVTSSGDSHLAHLALAKNLARNGLPVDAVRFVPASNIPAGPFDRVLIRVPKTLALLEEQLIRLHGQLAPDAQVVAGAMIKHLPRAAGDLLEKYVGPVQASLAVKKARLLQVTPEARPAPVSPYPSRYRLEQPRLELLNHANLFCREGLDIGTRAFLPHLPTDLGDTRVADLGCGNGVIGIVCALANPDARLTLVDESYMAVQSARENWQAVLGDRPADIRADDGLASQPADSLDLVLCNPPFHQQQVVGDFLAWRMFQQAKAALAKGGELRIVGNRHLGYHIKLKRLFGNVEQVAATPKFVILGARKRN				NA	NA	NA	NA	NA
BMS010_08436	576	pucB	COG2068	Purine catabolism protein PucB	ATGCATGCCTCGCCGCAGGTCATCGCCCTGGTCCTGGCCGCCGGGAGTTCGCGTCGTTTCGGCAGCGACAAGCGCGCCGCCCGGTTGCCGGACGGCCAGTCGCTGCTGGCCGCGACCCTGGCGCTTGCCCAGCGTAACTTTCCCGAGGTGGCCGTGGTGCTGCGCTCCGGCGACGAGGCCGAGGCGCTGGGCGTGCCGTCCGGCGTGCGGGTGATCCGCTGCGCCGATGCCGATCTCGGCATGGGCCACAGCCTGGCGGCGGGGGTCGCGGCGTTGGCGGAAGAGCGCTTCCGCGCCATTGCGGTGATGCTCGGCGACATGCCCTGGATCGCCGATGCCAGCCTGCGCCATCTGGCCGAGTCGGCCGACATCGACCGTATCGTCTTCCCCCTGCACGACGGCCAGCGCGGCCATCCGGTGCTGTTCGGCCGGCGCTACTGGCAGGAAATGATGACCCTCACCGGCGACCAAGGCGCGCGCCGGGTGCTGGAAGATCATGAGGAAGCCTGGCTCGGCCTCGAGGTGAACGACCCCGGTGTGCTGCGCGATGCGGACACGCCGGCGGCGCTCGTCTGA	MHASPQVIALVLAAGSSRRFGSDKRAARLPDGQSLLAATLALAQRNFPEVAVVLRSGDEAEALGVPSGVRVIRCADADLGMGHSLAAGVAALAEERFRAIAVMLGDMPWIADASLRHLAESADIDRIVFPLHDGQRGHPVLFGRRYWQEMMTLTGDQGARRVLEDHEEAWLGLEVNDPGVLRDADTPAALV				NA	NA	NA	NA	NA
BMS010_08437	1239	mdrP		Na(+), Li(+), K(+)/H(+) antiporter	ATGTCCACCCACGGCAAACTGGTGCTGCGTCATCACCGTCCGTTCCTCGCGTTCTGGCTCGCCCGCGTCTGCACGGCGAGCGGTTTCCAGATGCTCACCGTGGCCATCGGCTGGCACCTGTATGCATTGACCGGCAGCGTGCTCGACCTCGGCCTGGTCGGGCTGGTGGAATTCGTGCCGCGCGTGCTGTTCATGCTGCACACCGGTCACGTGGCGGATCGCTACGACCGGCGCCGGATCGCCGCGCTCTGCCAGAGCGCCCAGGCGCTGATCGCCATTGCGCTGGTGCTGGGCAGCGCCAGCGACGCGGTGACCCGCGAGATGATTTTCATCCTGGCCTTTCTCCTCGGCGCGGCCCGTGCCTTCGAGATGCCGACCACCCAGGCACTGCTGCCGAGCCTGGTGCCGGCGGCCTTGTTTCCCGCCGCCGTAGCCGCATCGGCCTCGGCGATGCAGGCGGCGACCATCGTCGCTCCCGCCCTGGGCGGTCTGCTCTACGCCTTCGGCGCCTTCTGGGTCTATGTGCCGACGGCGCTGCTCTATATCCTCGCCTGCGCCCTGATGCTCGGGTTGCCGAACCATCACGTGCCGCGCAAGGCCGAACCCGCCACGCTGCACAACCTGCTCGGCGGTATCCGCTTCATCCGCAGCCGGCCGGACATCTTCGGCGCGATCTCCCTGGACATGTTCGCCGTGCTGCTCGGCGGCGCCACCGCGCTGCTGCCGGTGTTCGCCAAGGACATCCTGCTCACCGGTCCCTGGGGCCTCGGCCTGCTGCGTTCGGCGCCGGCGGTGGGTGCGTTGCTGATGTCCTTCTGGCTGGCGCGCTTCCCCATCGAGCGCCAGGTCGGGCGGACCATGTTCATTTCGGTGGGCGTCTTCGGCGTCGCGACCATCGCCTTCGGCCTGTCCACCAGTTTCTGGTTCAGCCTGCTGGTGCTGGCCATCCTCGGCGCGGCGGACATGATCAGCATGGTCATCCGCGGCGCCTTCGTGCAGTTGGAAACTCCTGACGAGATGCGCGGACGGGTCAGCGCGGTGAACGGCCTGTTCATCGGCGCATCCAACCAGCTCGGCGAGTTCGAATCGGGGGTTACCGCCGCCTGGTTCGGCACCGTACCGGCGGTAGTGCTGGGAGGGGCCGGTACACTGCTGGTGACCGGCCTGTGGATGAAGTTGTTCCCGACCCTGGCGCAGCGGGATCACATGCAGCGCCCCGAGGCGGAGCGGACGGACTGA	MSTHGKLVLRHHRPFLAFWLARVCTASGFQMLTVAIGWHLYALTGSVLDLGLVGLVEFVPRVLFMLHTGHVADRYDRRRIAALCQSAQALIAIALVLGSASDAVTREMIFILAFLLGAARAFEMPTTQALLPSLVPAALFPAAVAASASAMQAATIVAPALGGLLYAFGAFWVYVPTALLYILACALMLGLPNHHVPRKAEPATLHNLLGGIRFIRSRPDIFGAISLDMFAVLLGGATALLPVFAKDILLTGPWGLGLLRSAPAVGALLMSFWLARFPIERQVGRTMFISVGVFGVATIAFGLSTSFWFSLLVLAILGAADMISMVIRGAFVQLETPDEMRGRVSAVNGLFIGASNQLGEFESGVTAAWFGTVPAVVLGGAGTLLVTGLWMKLFPTLAQRDHMQRPEAERTD	PGPT0003290_47	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ENTEROBACTIN|ENTEROCHELIN_TRANSPORT,PGPT0003290-entS|ybdA|cbsS-K08225	NA	NA
BMS010_08438	2208	paoC	COG1529	Aldehyde oxidoreductase molybdenum-binding subunit PaoC	ATGACTGTCGTCCGTTCGCCCCAGGGGCAGCCCCTCGATCGTGTCGATGGAGTGAGCAAGGTGACCGGCCAGGCGCGCTATGCCGCCGAGTTCACGGAGCCCGGCCTGCTGCACGGCTGTGTGCTGGGCAGTCGCATCGCCCGGGGGCGCATCCTCGCCATCGACGCCGAGGACGCCATGGACGTCGCCGGGGTGCACCTGGTGCTCAGCCACCGCAACCGCCCACGGATGGCCGCTGACGATGAAAGCTACGAGGACGCCGATGCCGCCGAGGGCTCGCCGTTCCGACCGCTGTATGACGAACGCATCCTCTACAGCGGGCAACCGGTCGCCCTGGTGGTGGCGGACACCCCAGAGCTGGCGCGCTACGCCGCTTCCCTGGTGCATGTGGAATACGAAGAAGAGGCCCACGAGACCGACCTGTGCAGCTTGCTCGAGCATGCCCACGCCGCACCGGCCAAGCTGCCGCCGGCACGCGGCGATGCGGATGCCGCGCTGGCCGGCTCGGCGCTGTGCATCGAGGTGGAGTACCTGTCGCCGGTGGAGCACCACAACCCGCTCGAACCCCATGCCTCGACGGTGTTGGTGCAGCCCGACGGCAGCCTGCTGATCCATGACAAGACCCAGGGCACGCAGAACAGCCAGAGCTATATCTGCCAGGTGTTCGGCCTGGACCCGAAGCGGGTCCGGGTCTGTGCCGCTTTCGTCGGCGGCGCGTTCGGCTCCGGGCTGCGGCCGCAGTACCAGTTGACGCTGGCGGTGATGGCCGCGCTCAAGCTCGGCCGCTCGGTGCGGGTAGCGCTCAGCCGGCCGCAGATGTTCACCTTCGGCTACCGGCCGCGCACCGTCCAGCGCCTGTGCCTGGGGGCGGCCGCCAACGGGCGGTTGCAGGGGCTCAGCCATCTGGCGATCGGCCAGACTTCGCGCTTCGAAGACTTCACCGAGCATGTGGTGGAGTGGTCCGGCATGCTCTACCAGTGCGACAACGTCCGCCTCGACTACCGCCTGGTGCCGCTGGACGTTCACACCCCGCTGGACATGCGCGCCCCTGGTGCCGCGCTGGGCCTGTATGCCCTCGAATGCGCGATGGACGAACTGGCCTGCGCGGTGGCCATCGACCCGCTGCAACTGCGCCTGTTGAATTACGCCGACGCCAACCAGAACGAGGGCAAGCCGTTTTCCAGCAAGGCCCTGCGCGACTGCTACCGGCAGGGCGCCGAGCGCTTCGGTTGGAGCCGGCGCCCGCTGGAGCCACGCAGCCTGCGTGATGGCCATGAGTTGATCGGCTGGGGCATGGCCGGTGGCGTCTGGGAGGCGTTGCAGATGCCGGCCAGTGCCAAGGCCAGCCTGGGTGGAGACGGCATCCTGCGGGTGAGCAGCGCGACCACCGATATCGGCACTGGCACCTACACGGCGATGACCCAGGTTGCCGCCGCCGAATTCGGCCTGCCGGTGGAGCGCGTGGCGTTCCGCCTGGGCGATTCCAGCCTGCCCACTGCGCCGCTGCAAGGCGGCTCCGCCACGGTGTCGTCGGTGGGTACGGCGGTGCAGCAGGCGTGCGCGGCGCTGAAGAGCAAGCTGTTCGACATCGCCCGCCAGCGACCCGGTTCGGTCTTCGCCGGGCTGACACTGGAGCAGGTGTGTTTCGCCGAAGGCCGGTTGAGCCGCCGCGACGATCCGGACCAGGCCATCGAACTGAGCGACCTGATCGGTAGCGGCGCCCCGCTGGAGGCGCGCGTGGATGCCAAGCCCGATCCCCGCCGCGAGGCGTATTCCAGTGCCACCCACTCGGCGGTGTTCGTCGAGGTGCGGGTGGACGAGGCGCTGGGCCGGGTGCGGGTCAGCCGAGTGGTCAGCGCGGTCGCCGCCGGCCGCGTGGTGAACCCGAAGACCGCGCGCAGCCAGATCCTCGGTGGCGTGGTCTGGGGCATCGGTATGGCGCTGCAGGAGGAAACCCTGATCGACCACCGGCTCGGCCGCTACATGAACCACGACCTCGCCGAGTATCACGTGCCGGTGCATGCCGACATCGGCGAAATCGAGGTGCTCTTCGTCGAGGAGGAGGACTTGGTGGTCAACGCCCTGGGCTCCAAGGGCGTCGGCGAGATCGGCATCGTCGGCGTTGCCGCGGCGGTGGCCAATGCCGTCTATCACGCCACCGGGCGAAGGGTGCGCGAGCTGCCGATCACCCTGGACAAGTTGTTGTAG	MTVVRSPQGQPLDRVDGVSKVTGQARYAAEFTEPGLLHGCVLGSRIARGRILAIDAEDAMDVAGVHLVLSHRNRPRMAADDESYEDADAAEGSPFRPLYDERILYSGQPVALVVADTPELARYAASLVHVEYEEEAHETDLCSLLEHAHAAPAKLPPARGDADAALAGSALCIEVEYLSPVEHHNPLEPHASTVLVQPDGSLLIHDKTQGTQNSQSYICQVFGLDPKRVRVCAAFVGGAFGSGLRPQYQLTLAVMAALKLGRSVRVALSRPQMFTFGYRPRTVQRLCLGAAANGRLQGLSHLAIGQTSRFEDFTEHVVEWSGMLYQCDNVRLDYRLVPLDVHTPLDMRAPGAALGLYALECAMDELACAVAIDPLQLRLLNYADANQNEGKPFSSKALRDCYRQGAERFGWSRRPLEPRSLRDGHELIGWGMAGGVWEALQMPASAKASLGGDGILRVSSATTDIGTGTYTAMTQVAAAEFGLPVERVAFRLGDSSLPTAPLQGGSATVSSVGTAVQQACAALKSKLFDIARQRPGSVFAGLTLEQVCFAEGRLSRRDDPDQAIELSDLIGSGAPLEARVDAKPDPRREAYSSATHSAVFVEVRVDEALGRVRVSRVVSAVAAGRVVNPKTARSQILGGVVWGIGMALQEETLIDHRLGRYMNHDLAEYHVPVHADIGEIEVLFVEEEDLVVNALGSKGVGEIGIVGVAAAVANAVYHATGRRVRELPITLDKLL	PGPT0007260_827	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0007260-yagR-K11177	NA	NA
BMS010_08439	987	paoB	COG1319	Aldehyde oxidoreductase FAD-binding subunit PaoB	ATGAGCCCGTTCGCCTACCGCAAGCCCGCCGCGCTGGACGAAGCGTTGGCCCTGGCTGGGCCCGGCGCGCGTTTCATCGCCGGCGGCACCAACCTGCTCGACCTGATGAAACAGGACGTGCTGCGTCCGAAGCTGCTGATCGACATCACCGGCCTGCCGTTGCGCGGCATCGCTCCCACCGGTGACGGCGGCCTGCTGATCGGCGCGCTGGTGAGCAACGCCGAACTGGCCCGGCACCCCGAAGTGCTGCGGCGTTATCCGCTGCTGTCCCGGGCGATCCTGGCCGGTGCTTCGCCGCAACTGCGCAACATGGCCAGCACCGGCGGCAACCTGCTGCAACGCACCCGCTGCTACTACTTCTACGACACCGCCACGCCCTGCAACAAACGCGAGCCCGGCAGTGGCTGCGCGGCGCGCGACGGGCTCAACCGTATCCATGCGATCCTCGGCGCCAGCGAGCACTGCGTGGCCACCCATCCCTCGGACATGTGCGTGGCCTTGGCGGCACTGGAAGCGAAGGTGGTAGTGGCGGGGCCGGAGGGTGAGCGGCGCATCCCGTTCGCCGATTTCCACCGCTTGCCCGGCGATACGCCGCACCAGGACAACAACCTGGAGGACGGGGAACTGATCACCGCGGTCGAGCTGTCCCCGACCGGCTTCGCCTCGCATTGCGCCTACCTCAAGGTGCGTGACCGGGCTTCCTATGCCTTCGCCCTGGTCTCGGTGGCGGCGTTGCTGGAGCTGGACGGCGGGCTCATTCGCGAGGCGCGGATCGCCGTCGGCGGGGTGGCCCATAAGCCCTGGCGTGACAGCGAGGCGGAAGTCTCGCTGATCGGCCAGCCGCCGGTGGAGGCGAGTTTCCATGCCGCCGCCGACATCCTGTTGCGTGACGCGCAACCGCTGGCGCACAACGGCTTCAAGATCGAACTGGCGCGGCGCTGCATCGTCCGCGCCCTGAGCGATGCCATTGGAGGTGGCCGCCCATGA	MSPFAYRKPAALDEALALAGPGARFIAGGTNLLDLMKQDVLRPKLLIDITGLPLRGIAPTGDGGLLIGALVSNAELARHPEVLRRYPLLSRAILAGASPQLRNMASTGGNLLQRTRCYYFYDTATPCNKREPGSGCAARDGLNRIHAILGASEHCVATHPSDMCVALAALEAKVVVAGPEGERRIPFADFHRLPGDTPHQDNNLEDGELITAVELSPTGFASHCAYLKVRDRASYAFALVSVAALLELDGGLIREARIAVGGVAHKPWRDSEAEVSLIGQPPVEASFHAAADILLRDAQPLAHNGFKIELARRCIVRALSDAIGGGRP	PGPT0007275_874	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0007275-yagS-K11178	NA	NA
BMS010_08440	519	paoA	COG2080	Aldehyde oxidoreductase iron-sulfur-binding subunit PaoA	ATGAACGCGACCGCCACGGACGAGGACGAAGGCCGCTTCGCCGCTCACGCCGTCACCTTGACCGTCAACGGCCAGCGCCGGCAGGTCGAGATCCAGCCCTGGGTCACGCTGCTCGACCTGTTGCGCGAGCGGCTCGGCCTGACCGGCAGCAAGAAGGGCTGCGACCACGGCCAATGCGGCGCCTGCACGGTGCTGGTGAACGGCCACCGGATCAATGCCTGCCTGACCCTGGCGGTGATGCACGAAGGCGCCGAGGTGATCACCGTCGAAGGGCTGGCCGAGGGCGATGCCCTGCACCCGTTGCAGGCAGCGTTCATCGAGCACGATGCGTTTCAGTGCGGCTACTGCACGCCGGGGCAGATCTGCTCGGCGCTCGGCCTGATCGTCGAGGGTGAGGCGCGTAGCGCGGATGAGATTCGCGAGGCCATGAGCGGCAACCTGTGCCGCTGCGGTGCCTATCCCAACATCCTCGCCGCCATCGAGCAGGTGCTGGCCGACGACGAGCGGAGGCCGGAATGA	MNATATDEDEGRFAAHAVTLTVNGQRRQVEIQPWVTLLDLLRERLGLTGSKKGCDHGQCGACTVLVNGHRINACLTLAVMHEGAEVITVEGLAEGDALHPLQAAFIEHDAFQCGYCTPGQICSALGLIVEGEARSADEIREAMSGNLCRCGAYPNILAAIEQVLADDERRPE	PGPT0007290_939	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0007290-yagT-K13483	NA	NA
BMS010_08441	552	yajL	COG0693	Protein/nucleic acid deglycase 3	ATGACCGCCCGAGCCCTGCTCGCCGTCGCCGACGGCGTGGAAGATATCGAAACCGTGACCATCCTCGATGTGCTGCGCCGGGCCGAGGTCGAGGTGCTGGTGGCCAGCATCGAGGACCGGCGCATGATCACCTGCGCCCGGGGTACGCGGCTGACCGCCGATGCCATGCTGCTCGACGTGCTGGCCCAGGACTTCGACCTGATCGTCCTGCCCGGCGGCGGAACCGGCGCCGAACGCCTCGGCGGCCATCAGCCACTGGCCGAGCGGGTGCGCCAGCAGGCCGCCGCCGGCAAGGATTACGCCGCCCTCTGTGCGGCACCGGTGCTGGCCCTGCAGACCTATGGCGTGCTCAAGGGGCGGCGGATGACCTGCTACCCGTCGTTCAGCGACCGCCTGTCCGGCTGCGTATTCGTCGACGAGCCGGTGGTGGTGGACGGCAACTGCATCACCAGCCAGGGCCCGGCAACCGCCATGGCCTTCGCCCTCGCCTTGGTCGAGCGGCTGGCCGGCAAGGCCAAGCGCAACGAGGTCGCCAAGGGGCTGTTGGCGTAG	MTARALLAVADGVEDIETVTILDVLRRAEVEVLVASIEDRRMITCARGTRLTADAMLLDVLAQDFDLIVLPGGGTGAERLGGHQPLAERVRQQAAAGKDYAALCAAPVLALQTYGVLKGRRMTCYPSFSDRLSGCVFVDEPVVVDGNCITSQGPATAMAFALALVERLAGKAKRNEVAKGLLA	PGPT0008945_1200	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B1|THIAMIN_METABOLISM	PLANT_VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0008945-thiJ-K03152	NA	NA
BMS010_08442	1296	adeP_1	COG2252	Adenine permease AdeP	ATGCTGGAAAAGCTGTTCCAACTCAAGGCGCACCACACCACCGTGCGTACCGAGGTCCTGGCCGGTATCACCACCTTCCTGACCATGGCCTACATCCTCTTCGTCAACCCCAACATGCTCGCCGAAACCGGGATGGACAAGGGCGCGGTATTCGTTGCCACCTGCCTGGCGGCGGCCATTGGTTCGGCGATCATGGGCCTGCTGGCCAACTACCCGATCGCCCTGGCGCCGGGCATGGGCCTCAACGCCTTCTTCACCTACACCGTGGTCATGACCATGGGCTACAGCTGGCAGACCGCCCTGGGCGCGGTGTTCTTCTCCGGCGCGATCTTCTTCCTGCTGTCGATCTTCAAGATCCGCGAATGGATCATCAACAGCATCCCATTGGCCCTGCGCTCCGGCATCGCCGCCGGCATCGGCCTGTTCCTGGCGATCATCGCCCTGAAGAACGCCGACATCGTGGTCGACCACCCCGCCACTCTGGTCAGCCTCGGCAACCTCTCCGCCGGCGGCCCGTTGCTGGCCTGCCTGGGCTTCTTCCTGATCGCCGCGCTGGCCTACCGCCGCGTGACCGGCGCAGTGATGATCGGCATCCTGGTGGTCACCGGACTGTCCATCGTGCTCGGTCTCTCCGGCCTCAACGGCGTGGTGTCGATGCCGCCGTCGCTGATGCCGACCCTGCTCCAGCTGGACCTGAAAGGCGCGCTGGACATCGGCCTGGTCAGCGTGATCTTTGCCTTCCTCTTCGTCGACCTGTTCGACACCTCCGGCACCCTGGTGGGCGTGGCGCAGAAAGCCGACCTGCTGGACAAGGACGGCAAGATGCCCAAGCTCGGCCGCGCCCTGCTCGCCGACAGCACCGCCACCATGGCCGGCGCCGCCCTGGGCACCTCGACCACCACCAGCTACATCGAATCCGCCGCCGGCATCAGCGCCGGGGGCCGCACCGGCCTGACCGCCTGCGTGGTGGCGCTGCTGTTCCTCCTCAGCCTGTTCTTCTCGCCGCTGGCCGGCGCCGTACCGGCCTACGCCACCGCGCCGGCGCTGCTGTTCGTCGCCGTGCTGATGACCAGCAGCCTGGCGCAGATCGACTGGGACGACCTCACCGTGGCCGCGCCCGTGGTGGTCGCCGCCCTGGCCATGCCGCTGACCTTCTCCATCGCCAACGGCATCGCCTTCGGCTTCATCGCCTGGACCGGCATCAAGCTGCTCGCCGGGCGCTGGAAGGACCTGAACCCGGCGCTGGTGATCCTGTCCATCCTGTTCGTGATCAAGCTGGGTTTCTTCAGCGCCTGA	MLEKLFQLKAHHTTVRTEVLAGITTFLTMAYILFVNPNMLAETGMDKGAVFVATCLAAAIGSAIMGLLANYPIALAPGMGLNAFFTYTVVMTMGYSWQTALGAVFFSGAIFFLLSIFKIREWIINSIPLALRSGIAAGIGLFLAIIALKNADIVVDHPATLVSLGNLSAGGPLLACLGFFLIAALAYRRVTGAVMIGILVVTGLSIVLGLSGLNGVVSMPPSLMPTLLQLDLKGALDIGLVSVIFAFLFVDLFDTSGTLVGVAQKADLLDKDGKMPKLGRALLADSTATMAGAALGTSTTTSYIESAAGISAGGRTGLTACVVALLFLLSLFFSPLAGAVPAYATAPALLFVAVLMTSSLAQIDWDDLTVAAPVVVAALAMPLTFSIANGIAFGFIAWTGIKLLAGRWKDLNPALVILSILFVIKLGFFSA	PGPT0007325_5345	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-XANTHINE_METABOLISM	PHYTOHORMONE-XANTHINE_TRANSPORT,PGPT0007325-pbuG|azgA|ghxP|ghxQ|adeQ-K06901	NA	NA
BMS010_08443	1095	trmA	COG2265	tRNA/tmRNA (uracil-C(5))-methyltransferase	ATGAGCCGTCCGCATTTCGACCCCGCCGCCTACCCCGCCCAGCTCGCCGACAAGACCGCCCGCCTGCGCGACCTGCTGGCGCCCTTCGACGCCCCCGAGCCCGAGGTCTTCGACTCGCCGCGCGAGCATTACCGCCTGCGCGCCGAATTCCGCCTGTGGCGCGAGAGCGGCAGCGAGAAGCGCGACTACGCCATGTTCGAGCCGGGCGACAAGTTCACCCCGGTGCTGATAGATGACTTCCCCATCGCCAGCCGCCGCATCAACGAGCTGATGCCACGCCTGAAGGCCGGCTGGCAGGCCAGCGCCGCGCTGTCGTTCAAGCTGTTCCAGGTGGAATTCCTCACCACCCTGGCCGGCGACGCGCTGGTCACCCTCGCCTATCACCGCCCGCTGGACGCCGCCTGGCAGGCCGATGCCGAACGGCTGGCGGCCGAGCTGGGCGTCAGCCTGGTCGGTCGCTCGCGCGGCCAACGCATCGTGATCGGACGGGATTACGTGGAAGAGGAGCTGGAAGTGGCCGGGCGTCGCTTCCGCTATCGCCAGCCGGAGGGCGCCTTCACCCAACCCAACGGCGCGGTGTGCCAGAAGATGCTCGGCTGGGCCTACGAGGTGCTGGGCGAGCGTAGCGACGATCTGCTGGAGCTCTACTGCGGCAACGGCAACTTCACCCTGCCGCTGGCGACCCGGGTACGCAAGGTACTGGCCACCGAGATCAGCAAGACCTCGGTGAACGCGGCCCTGGCCAACCTGGCCGACAACGGGGTGGAGAACGTGACCCTGGTGCGCCTCTCCGCCGAGGAACTCACCGAGGCCCTGAACGAGGTGCGTCCGTTCCGCCGCCTCGCCGGCATCGATCTGAAGAGCTACGCCTTCGGCAGCGTCTTCGTCGACCCGCCCCGCGCCGGCATGGACCCGGACACCTGCGAGCTGACCCGCCACTTCGAGCGCATCCTGTACATCTCCTGCAACCCGGAAACCCTGGCGCAGAACATCGCCCAACTGCACGACACCCACCGCGTCGTGCGCTGCGCGCTGTTCGACCAGTTCCCCTACACCCACCACATGGAAAGCGGCGTCCTGCTGGAGCGCCGCTGA	MSRPHFDPAAYPAQLADKTARLRDLLAPFDAPEPEVFDSPREHYRLRAEFRLWRESGSEKRDYAMFEPGDKFTPVLIDDFPIASRRINELMPRLKAGWQASAALSFKLFQVEFLTTLAGDALVTLAYHRPLDAAWQADAERLAAELGVSLVGRSRGQRIVIGRDYVEEELEVAGRRFRYRQPEGAFTQPNGAVCQKMLGWAYEVLGERSDDLLELYCGNGNFTLPLATRVRKVLATEISKTSVNAALANLADNGVENVTLVRLSAEELTEALNEVRPFRRLAGIDLKSYAFGSVFVDPPRAGMDPDTCELTRHFERILYISCNPETLAQNIAQLHDTHRVVRCALFDQFPYTHHMESGVLLERR				NA	NA	NA	NA	NA
BMS010_08444	585			hypothetical protein	ATGTTCTTTGCCCGCATCGTCCTGGCCATCCAGGCACTGGTCATGGGCGGTTTCGGTTTGGCCTACTGGCTCTGGCCCTACGAAATGGCCAATCTGAACGGCATGTTGCTGATGGAAACCGTCTCGGTGAGCAACATGCGTGTGTATTACGGCGGCCTGCAACTGGGCCTGGCGATCTTCCTGCTGTGGAGCATGCGCCGGCCGGAGCGGGCCAGCCCGGCGCTGGTGCTGCTGGTGCTGATCCAGCTCTCGCTGTCGCTGGCGCGCCTCGGGGCGTTGTGGCTGGATGGCGGCGCCCTGCAGAGCTTCGACCTGACTTCGCTGGTCTACAAGCTTGCCGCGGCCGGCCTGGCGCTGCTGGCGCTCTACCTGCTCGCCCGCCAGCGGCGCGCGGAGGCCGAGCGGGAGGCGGCCGACACGCTGGATGGTTCGGCCTTCGACAGCGATTTCGATGAGCCGCCCGCGCCGCAGTTCAACGTGCGCGAACTGCCCTTGGAACGGGTGACGCGGACGGACCTGGCCGAGACCTCGGAAGTCGAGGTCAGGCCCGGTCTAACGGATAACTGGAGCGAGCCGCGCAGCTAG	MFFARIVLAIQALVMGGFGLAYWLWPYEMANLNGMLLMETVSVSNMRVYYGGLQLGLAIFLLWSMRRPERASPALVLLVLIQLSLSLARLGALWLDGGALQSFDLTSLVYKLAAAGLALLALYLLARQRRAEAEREAADTLDGSAFDSDFDEPPAPQFNVRELPLERVTRTDLAETSEVEVRPGLTDNWSEPRS				NA	NA	NA	NA	NA
BMS010_08445	429			hypothetical protein	ATGCGCCGTCTCGTTCTGCTCGCCGCCCTCTTCGCCGGCACCGCCCAGGCCGCCGAACCCATCGCCATCGAGGTCTACCGTGCCGCTGGCTGCAGTTGCTGCGAGAAGTGGATCGACCACCTGGAGGCCAACGGCTTCAGCGTCACCGACCATCCCGACCAGGACATGAACGCGGTGAAATCCCGCCTCGGCGTGCCGCATCGCCTGGCGTCGTGCCACACCGCGGTTATCGACGGCAAGTTCGTCGAAGGCCACGTACCGGCCGCCGATATCCTCAAGCTGCGCCAGCGTCCCGACCTGCTCGGCGCCGCCGTGCCGGGCATGCCCACCGGCTCTCCAGGCATGGAAATGGACGGAAGCCAGGATGCCTACCAAGTGATCGGCGTCGCCCAGGATGGCAGCGAACCGGTTCTGGCCGAATACCCTTAG	MRRLVLLAALFAGTAQAAEPIAIEVYRAAGCSCCEKWIDHLEANGFSVTDHPDQDMNAVKSRLGVPHRLASCHTAVIDGKFVEGHVPAADILKLRQRPDLLGAAVPGMPTGSPGMEMDGSQDAYQVIGVAQDGSEPVLAEYP				NA	NA	NA	NA	NA
BMS010_08446	867	phzF_2		Trans-2,3-dihydro-3-hydroxyanthranilate isomerase	ATGCACTACTGGCAAATGGATGTTTTCGCCGAACGCCCGCTGACCGGCAACGGCCTCGCCGTATTCGACGATGCCCGTGGCCTCTCCACCGCGGCCATGCAGGCGCTGACCCAGGAGCTGCGCCAGTTCGAATCGCTGTTCCTGCTGCCCGGCGAAGTGGCCGGCGAGTATGCCGCACGCGTCTTCACCGTCGAGGAGGAGCTGCCCTTCGCCGGCCATCCGATCCTCGGCGCCGCTGCCCTGCTGCACCACTTGTACGAGCCCGGCGACAGCGGCCACTGGCGCCTGCGCCTCAGCATGAAGACCGTCGAGTTGCGGACTCGCCGCCAGGGCCAGGGCTTCTACGCCGACATGGACCAGGGCGAAGCCGAGTGGGGCGTGCGCCTGAGTGGGGAAGACGCGCGCATCTATGCCGAAGCCTTTTCCCTTGCGGCCGACGATCTCGACGTCCGCTACCCCGCCTGTGTGGTCAGCACCGGGTTGCCCTACCTGCTGCTGCCGGTAAGCAGCGCCGCGCTGGCCCGCGCCCGGCAGAACCGCGCTGACCTCGACCGTTTGCTCGCCGGCATTGGCGCCGTCTTCGTCTACCTGCTCGATGTCGACGCCCTCGAAGGCCGGACCTGGGACCCGCTCGGCGTGGTCGAGGACGTCGCCACCGGCAGCGCCGCCGGGCCGGTGGCCGCCTACCTGGTGGAACACGGCCGCTGTGTGCGCGACGAGCCTTTCGTGCTCAACCAGGGCCGGTTCGTCGGGCGGCCGAGCCGGATCGATCTGCGTGTCGGTACGGACAATCGCGTCCGCGTCGGTGGCGCCGTGCAACTGCTTTCCCGGGCCGAGCTGCTGGTGAACCCCAGCCTGCTCGCCTGA	MHYWQMDVFAERPLTGNGLAVFDDARGLSTAAMQALTQELRQFESLFLLPGEVAGEYAARVFTVEEELPFAGHPILGAAALLHHLYEPGDSGHWRLRLSMKTVELRTRRQGQGFYADMDQGEAEWGVRLSGEDARIYAEAFSLAADDLDVRYPACVVSTGLPYLLLPVSSAALARARQNRADLDRLLAGIGAVFVYLLDVDALEGRTWDPLGVVEDVATGSAAGPVAAYLVEHGRCVRDEPFVLNQGRFVGRPSRIDLRVGTDNRVRVGGAVQLLSRAELLVNPSLLA	PGPT0012805_664	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-HHQ|PQS_PERCIPITATION|SIGNALLING,PGPT0012805-phzF|yddE-K06998	NA	NA
BMS010_08447	861			hypothetical protein	ATGCGCTGGCAGAGAGCACGTCGCAGCGACAATCTGGTGGATGCCCGCGGCAGCGGCCGCGGCATGCGTGTCGGCGGAGGACTGAGCCTCGGCGGCATCGCCGCGGTGGTGGTGATCAGCCTGCTGTTGGGCGAAAACCCGCTGGAGATTCTTGGCCAATTGGCCGGCCAGCAGGGTGCGACCGTCAGCAGCCAGAGCACCCGACCAGCCGGCGACGACCCACAGGTGGATTTCGTCCGCGCCATCCTCGGCGACACCGAAGACACCTGGGGCCAACTGTTCGCCACCAACGGCGGCCAATACCAGCAGCCCCGCCTGGTGCTGTTCGACGGCGGCGTGCAATCGGCCTGCGGCTTCGCCTCGTCGGCGGTCGGTCCGTTCTATTGTCCCGGCGACCGCCAGGTCTACCTGGACCTGGGGTTCTTCCGCGAACTGGAACAACGCTTCGCCGCCGCCGGCGATTTCGCCCAAGCCTATGTGATCGCCCATGAAGTAGGGCACCACGTGCAGACGCTGCTCGGCGTCTCCGCCAAGGTCAACGCAGCCCGCCAGCGCGGCGAAAACGTCGAGGGCGCCAACGGCCTGCTGGTCCGCCAGGAACTCCAGGCCGACTGCCTGGCCGGCGTCTGGGCCCACCACGCCCAGCGGCGCCTGGACTGGATGGAGCCCGGCGACCTGGAGGAAGCCCTCAACGCCGCCACTGCCATCGGCGACGACCGCCTGCAACAACAGGCGCGCGGCCGCGTGGTACCCGACTCCTTCACCCACGGCACCTCGGAACAGCGCGTGCGCTGGTTCCGGATCGGCTTCGACAGCGGCGCGCCGGGGCGGTGCGATACCTTTAAGGCGGCGCGGCTTTAA	MRWQRARRSDNLVDARGSGRGMRVGGGLSLGGIAAVVVISLLLGENPLEILGQLAGQQGATVSSQSTRPAGDDPQVDFVRAILGDTEDTWGQLFATNGGQYQQPRLVLFDGGVQSACGFASSAVGPFYCPGDRQVYLDLGFFRELEQRFAAAGDFAQAYVIAHEVGHHVQTLLGVSAKVNAARQRGENVEGANGLLVRQELQADCLAGVWAHHAQRRLDWMEPGDLEEALNAATAIGDDRLQQQARGRVVPDSFTHGTSEQRVRWFRIGFDSGAPGRCDTFKAARL				NA	NA	NA	NA	NA
BMS010_08448	342		COG2852	putative protein	ATGACACTCCCCCACGCCAAAGACCTCCGCAGCCGAATGACCGATGCGGAGCAATGCCTCTGGCATCACTTGCGCGCCCACCGTTTTCTCGGGCTCAAATTCAGGCGGCAGAAACCGATGGGCCACTACATCGTCGACTTCGTTTGCCTGGAGCGGTTCCTCATCATCGAACTGGATGGTGGGCAGCACCAACTGCAGGCGAACGCGGATGCGGTTCGGGATCGCTATTTCCAGGAACGCGGCTTTCACGTACTGCGCTTTTGGAATCATGAGGTGTTGGGCGATACCGAGGCGGTGCTGGAGCGGATTCGCCTGAGCGTGGAGGGTGGTTGGCAATCCTGA	MTLPHAKDLRSRMTDAEQCLWHHLRAHRFLGLKFRRQKPMGHYIVDFVCLERFLIIELDGGQHQLQANADAVRDRYFQERGFHVLRFWNHEVLGDTEAVLERIRLSVEGGWQS	PGPT0027230_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_III_R-M_SYSTEM,PGPT0027230-mod-K07316	NA	NA
BMS010_08449	597	gph_4		Phosphoglycolate phosphatase	ATGAGGCTGAGCGAGGCCCGCCACTGGGTCTTCGATATGGATGGCACCCTGACCATCGCCGTGCACGATTTCCCGGCCATCCGCCGGGCACTGGACATCCCGCCGGAGGACGACATCCTCCACCACCTCGCCGGCCTGCCGGCCGAGGAGGCAGCGGCGAAACGCGCCTGGCTGCTGGAGCACGAACGCGAGCTGGCCTACGCCGCCCAACCGGCTCCGGGCGCCGTTGAGCTGGTGCGCGCCCTGTGCGAACGGGGCTGCCGCCTCGGCGTGCTGACCCGCAATGCCCATGAGCTGGCGCTGGTGACGCTGGAGGCCATCGGCCTCGGCGACTGCTTCGCCAGCGCCGACATCCTCGGCCGCGACGAGGCCCCGCCGAAGCCGCATCCGGGCGGCCTGCTGCACCTGGCCGAATGCTGGGGCGTGGTGCCCGGCGAGCTGGTGATGGTCGGCGACTACCGCTTCGACCTCGAATGCGCCCGCGCGGCTGGGGCCTTCAGCATGCTGGTGAATCTGCCGGAGAATCCCTGGCCGGAATTGAGTGATGGGTTTGCGCGGGATTGTGGGGTGTTGAGGGGGATGCTGGGTGGGCTTTGA	MRLSEARHWVFDMDGTLTIAVHDFPAIRRALDIPPEDDILHHLAGLPAEEAAAKRAWLLEHERELAYAAQPAPGAVELVRALCERGCRLGVLTRNAHELALVTLEAIGLGDCFASADILGRDEAPPKPHPGGLLHLAECWGVVPGELVMVGDYRFDLECARAAGAFSMLVNLPENPWPELSDGFARDCGVLRGMLGGL				NA	NA	NA	NA	NA
BMS010_08450	873	tesB_2	COG1946	Acyl-CoA thioesterase 2	ATGAGTCAAGTTCTGGACGATCTGGTCGCCCTGTTGAGCCTGGAACCCATCGAGGAAAACCTGTTCCGCGGGGTCAGCCAGGACCTGGGCTTCCGCCAGCTCTTCGGCGGCCAGGTGCTCGGCCAGTGTGTTTCCGCCGCCAGCCAGACGGTGGAGGAAGCACGCCACGTACACTCCCTGCACGGCTACTTCCTGCGCCCTGGCGACGCGACCCTGCCGGTGGTCTACCAGGTCGACCGGGTGCGCGACGGCGGCAGCTTCAGCACCCGCAGGGTCACGGCCATCCAGAAAGGCAAGCCGATCTTCACTTGCAGCGCCTCCTTCCAGTACGACGAGGAAGGCTTCCATCACCAGCAGGCCGCCATGCCCGATGTTCCGGGGCCGGAGAACCTGAAGTCGGAGACCGAGCTGGCGCGCTTGATCGCCGATCAGTTGCCGGAGCGCATGCGTGAGCGGGCGATCAGCGACAAGCCCATCGAGATCCGCCCGGTGACCGTCGCCAATCCCTTCGCCCCGGAGCCGGGCGAGCCGGTGAAGTACGTCTGGTTCCGTGCCGACGGTACGCTGCCGGACGAGCCGCAGTTGCATAAGTACCTGCTCGCCTATGCCTCCGACTTCAACCTGCTGACCACCTCGATGCTGCCCCACGGCGTGTCCGTGTGGCAGAAGTTCATGCAGGTCGCCAGTCTCGACCACGCGCTGTGGTTCCACGCCAACCTGCGCATGGACGACTGGCTACTCTACGCCATGGACAGTCCCTGGGCCGGCAATGCCCGGGGCTTCTCCCGCGGCAGCATCTACAACCGCGCCGGGCAATTGGTCGCCTCGGTGGCCCAGGAAGGGCTGGTCCGTCTGCGCGAGGACTGGAAATGA	MSQVLDDLVALLSLEPIEENLFRGVSQDLGFRQLFGGQVLGQCVSAASQTVEEARHVHSLHGYFLRPGDATLPVVYQVDRVRDGGSFSTRRVTAIQKGKPIFTCSASFQYDEEGFHHQQAAMPDVPGPENLKSETELARLIADQLPERMRERAISDKPIEIRPVTVANPFAPEPGEPVKYVWFRADGTLPDEPQLHKYLLAYASDFNLLTTSMLPHGVSVWQKFMQVASLDHALWFHANLRMDDWLLYAMDSPWAGNARGFSRGSIYNRAGQLVASVAQEGLVRLREDWK	PGPT0001835_1149	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001835-tesB-K10805	NA	NA
BMS010_08451	1611			hypothetical protein	ATGACCGACCTCGATGCCGTGCGTGCCTACCATGCGCTCAGCAAGCACCACCCCGAGCGTTTCGCACCGGGGCCGGGCCGTCTCGATTGGGCGACCCAGCCGGCGCCGTTTCGCCGTTATGCCGGGGCGCGCCTGATCGAGCTGTGGCACCGTCCGCTGGAGGAGTCACCGGCCTACGACGCGGTGTTCGCCAGCCCTTTGGGCAATCCGGCGCCGTTGAACCGGGCCAGCCTGTCCCAACTGCTCTACGACAGCCTGGCGCTGTCGGCCTGGAAGGAGGCGGGTGGCAGTCGCTGGGCGCTGCGGGTCAATCCTTCGTCCGGCAACCTGCATCCCACCGAGGCCTATCTCCTGCTGCCACCGGGTACGCTGGAGGAGCGGGGCCTGCTGGTGCACTACACCGCCGATGCACATGTCCTGGAAGTGCGTGCCGAACTGCCTTCCGCCCTGGGCAACAGGCTGCACACAGTGCTTTCGGCCGGCGGCTGCCTGTTGGCGCTGGCCAGCATCCCCTGGCGCGAAGCCTGGAAATACGGCGAGCGCGCCTATCGCTACTGCCAGCACGACCTCGGGCATGCCCTGGCGGCCTTGGCCATCGCCGCCAGCGCGCTGGGTTGGCAGGTACGCCTGTTGCGCGGTGTGGCCGAGGTCGGGCTGGATGCGCCGTTCGGCCTCGACCGCGAGGGCTTCGCCGAAGCTGAGCACATCGATTGCCTGCTCTGGGTCGGCCCGGCTCAGACGACCGAGCCCGTCTTGCCCCAGGCATTGCTGGATGGGCTGGCGGCGCTGGAGCTGGACGGCCGTCCGAACCGGCTGTCCCGCCAGTATCGCGAATGGCCCGAATTGGCGCGCGTCCACCCGCTGTGCCGCGCGCCGGCCTTGTCGCCGCTGAGTTGGGAGATGGCGCCCGGTTGCGCTTCGGCGGACAATCCCGGTCTGCCGTTGCGTCCCTTGCTGCATCGGCGCCGCAGCGCGCAAGCCATGGATGGGCGCGGCGGGATCGACGTCTCGCTGCTGCGCGCCTGGCTGGCCCGGCTATTGCCGGACCATTCGCCGGTGCCGTTCGCTGTGACCGGCGAACCCGCTCAGGTCGACCTGTTGCTGTTTGTCCACCGCGTTCAGGGCCTGGCGCCTGGCCTCTATTGGTTGAGCCGCAGCGGCCTGGCCCCGGAGGCACTGGCCGAGGGGCTGCGCGAGGACTTCCTCTGGGAACGGGCAGACGACGTGCTGCCGCTCTACCGCCTGCTGGAAGGCGATGCCCGTGGGCTGGCTGAGTTCCTTTCCTGCGGCCAGGACATCGCCAGCGACGGCTGTCTCGCCGTGGCCATGCTGGCGCGTTTCGACGAGGCGCTGGAAGTTGGCGCCTGGCGTTATCCGCGGCTGTATTGGGAGTGCGGGCAGATTGGTCAGCTTTTATATCTGGAGGCCGAGGCGGCGGGGCTTTCCGGTACCGGCATCGGCTGCTTTTTCGACGAAGCGGTGCACGAACTGCTCGGGCTTGCCGACAGCCGCTGGCAAAGCCTTTACCATTTCACAGTAGGCCGCGCGGTATGGGATGAGCGCTTGAGCACCTCGCCGGCCTATCCCGAACCACGCCTGCCGCCCGTCTGA	MTDLDAVRAYHALSKHHPERFAPGPGRLDWATQPAPFRRYAGARLIELWHRPLEESPAYDAVFASPLGNPAPLNRASLSQLLYDSLALSAWKEAGGSRWALRVNPSSGNLHPTEAYLLLPPGTLEERGLLVHYTADAHVLEVRAELPSALGNRLHTVLSAGGCLLALASIPWREAWKYGERAYRYCQHDLGHALAALAIAASALGWQVRLLRGVAEVGLDAPFGLDREGFAEAEHIDCLLWVGPAQTTEPVLPQALLDGLAALELDGRPNRLSRQYREWPELARVHPLCRAPALSPLSWEMAPGCASADNPGLPLRPLLHRRRSAQAMDGRGGIDVSLLRAWLARLLPDHSPVPFAVTGEPAQVDLLLFVHRVQGLAPGLYWLSRSGLAPEALAEGLREDFLWERADDVLPLYRLLEGDARGLAEFLSCGQDIASDGCLAVAMLARFDEALEVGAWRYPRLYWECGQIGQLLYLEAEAAGLSGTGIGCFFDEAVHELLGLADSRWQSLYHFTVGRAVWDERLSTSPAYPEPRLPPV				NA	NA	NA	NA	NA
BMS010_08452	567		COG1670	Acetyltransferase	ATGGCTGACATCCTGACTTTGGAAACACCGCGCTTGCGGCTTCGTACCTGGTGCGATGAGGACCTCGCCGTGTTGGCGGCGATCAGCGCCGACCCGGAGGTGATGCGCCATTTCCCGGCGCCTCTCGACCGTGACGAGGCGGCGGCCATGCTGCGGCGTATCCGCGATCACTTTGCGGCCCATGGCTTCGGGCTCTGGGCGCTGGAGCGCAAGGACGAGGGCCGGCTGATCGGATTCACCGGCCTCGGCTGGACCGGTTTCGACGCGCATTTCACCCCGGCCGTCGAGATCGGTTGGCGGCTGGCCCGCGACCAGTGGGGCCAGGGTTTCGCCCGTGAGGCGGCGCTCGCCGCGTTGGCGGCGGGGTTCGAGCGGCTCGGGTTCGCCGAAATCGTTTCCTTCACCGCGTTGAACAATCGGCGTTCGCAGCGGGTCATGCAGGCCATCGGCATGCACCGCGATCCGGCCGATGACTTCGATCACCCGAAACTGGCGGAGGGCCATCCGTTGCGCCGCCACCTGCTGTACCGCCTGCGTCTGGACGAATGGCGGGAGCGCTGCCCATGA	MADILTLETPRLRLRTWCDEDLAVLAAISADPEVMRHFPAPLDRDEAAAMLRRIRDHFAAHGFGLWALERKDEGRLIGFTGLGWTGFDAHFTPAVEIGWRLARDQWGQGFAREAALAALAAGFERLGFAEIVSFTALNNRRSQRVMQAIGMHRDPADDFDHPKLAEGHPLRRHLLYRLRLDEWRERCP	PGPT0012895_7	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-PHENAZINE_DERIVATES	BIOTIC_STRESS_RESISTANCE-PHENAZINE-1-CARBOXYLIC_ACID_BIOSYNTHESIS,PGPT0012895-aroDE-K13832	NA	NA
BMS010_08453	918	acuC		Acetoin utilization protein AcuC	ATGCCGCTACCCCTCGTCTATCACGACGACTACAGCCCGCCGTTCCCGGCCGGGCACCGTTTTCCGATGGAGAAGTTTCGCCTGCTGCGCGACCACCTGGTGGATACGGCTTTGACCCGCGACGAGGCGCTGTTGCGTCCGGAACTCTGCCCGGTGGAGATCCTCGCCCTGGCCCACGACCCGGCCTATATCGAGCGCTATTGCAGCGGCGCCCTCGGCCGCGAGGAATTGCGCCGCCTCGGCCTGCCGTGGTCACCGGAACTGGCGCGGCGCACCGTGCGCGCAGTGGGCGGTTCGCTGCTGGCGGCCGAACAGGCCCTGCAACACGGGCTGGCCTGCCATCTGGCCGGCGGCACCCACCATGCCCATTACGATCACCCGGCCGGCTTCTGCATTTTCAACGACTTGGCAGTGATGGCCCGCTACCTGCTGGAAAGCGGTCGGGCCGGGCGCGTGTTGATCTTCGATTGCGACGTGCACCAGGGCGACGGCACCGCCCGCATCCTTGCCGACACACCGGATGCCGTCACCGTATCGTTGCACTGCGAGCAGAACTTCCCGGCGCGCAAGGCCGACAGCGACTGGGATATCGGCCTGCCGCGCGGCATGGGCGATGCGGATTACCTGAAGGTGGTCGACGAGGCGCTGAACTACCTGCTGCCGCTCTACCAGCCGGATATCGTGCTCTATGACGCCGGCGTCGACGTGCACCGGGACGATGCCCTGGGCTACCTCGCCCTCACCGACGCCGGCCTTGCCGCACGCGATCGCGCCGTGCTCGATCACTGCCTCGGACGGGACATCCCGGTGGTGGGAGTGATCGGCGGCGGCTACGACACCGACCGTGCCGCCTTGGCCCGACGCCACGGCATTCTCCATCACTGTGCCGATCAGGTCTGGCGGGCCCGGGGACTCTAG	MPLPLVYHDDYSPPFPAGHRFPMEKFRLLRDHLVDTALTRDEALLRPELCPVEILALAHDPAYIERYCSGALGREELRRLGLPWSPELARRTVRAVGGSLLAAEQALQHGLACHLAGGTHHAHYDHPAGFCIFNDLAVMARYLLESGRAGRVLIFDCDVHQGDGTARILADTPDAVTVSLHCEQNFPARKADSDWDIGLPRGMGDADYLKVVDEALNYLLPLYQPDIVLYDAGVDVHRDDALGYLALTDAGLAARDRAVLDHCLGRDIPVVGVIGGGYDTDRAALARRHGILHHCADQVWRARGL				NA	NA	NA	NA	NA
BMS010_08454	1128	pel		Pectate lyase	ATGAACAGAATGCATGCGATTGCCGCAGGGGTGATGCTGGCCTGCGGAACCATGGGGGTCCAGGCGGCGGATATCGCCCGCGAGGTCGCCAAGACCGGTTGGGCCACACAGAACGGTGGTACCCAGGGTGGCTCCGCTGCCGCGACGGCGGATGTCTACACCGTCAGCACCGCTGCGCAATTGCGCACGGCCTTGAAGGCCTCGGCGGGTAGCGGCGGCCGCATCATCCGGATTTCCGGGATCATCGATGTCAGCGAAGGCAAGCCCTACACGACCACCGCCGAGATGAAGACCCGCGCCCGCCTGGATGTTCCGGCCAAGACGACCATCGTTGGCGTGGGCACCAATGCGGAGATCCGCGACGGTTTCTTCATGATCCGCGCCAACAACGTGATCATGCGCAACCTGACCATCGAGAACCCCTGGGACCCGGTTCCCGTGTGGGACCCGAACGACGGTTCGTCCGGCAAATGGAACTCGGAAATCGATGGCGTCACCATCAGCGGCGCCAGCAACGTCTGGCTCGACCACATGACCTTCACCGACGGTCGCCGCACCGACGATCAGGCGGGCTCCGCCAATGGCCAACTGATCCAGCATCATGATGGTGCGCTGGATATCAACAAGGGGGCGAATTACGTCACGGTTTCCTACTCGGTGTTCAAGCAGCACGAGAAGAACATCCTGATCGGCTCCAGCGACAGCGCCTCGAGTACCGACGCCGGCAAGTTGAAGGTCACCATCCACAACACCTTGTTCCAGGACTACAGCGAGCGCGGTCCGCGCGTGCGTTTCGGCCAGGTTCACACGTACAACAACTACCACACGGCCAGTCGCAGCTATCAGTACTACCGCTTCAGCTATGCGCAGGGCGTGGGTTACGAGTCGAAGATCCTGTCCGAGGCGAATGTCTTCGATATCCAGGGCGTGAAGAGCTGCATCGATATCGCCAAGGATTTCAAGGGTAAGGTCTTCCGCGACAACGGTTCCCTGCTGAACGGCGCGCCGCTGAGCTGCAGCTGGAATACCGCCATCGGCTGGACGCCGCCCTACACGGTCAACAAGCTGCAGGCGTCGGCGGTGATTTCCGATGTGCTGGCGAATGCCGGGGCCGGCAAGATCCAGTGA	MNRMHAIAAGVMLACGTMGVQAADIAREVAKTGWATQNGGTQGGSAAATADVYTVSTAAQLRTALKASAGSGGRIIRISGIIDVSEGKPYTTTAEMKTRARLDVPAKTTIVGVGTNAEIRDGFFMIRANNVIMRNLTIENPWDPVPVWDPNDGSSGKWNSEIDGVTISGASNVWLDHMTFTDGRRTDDQAGSANGQLIQHHDGALDINKGANYVTVSYSVFKQHEKNILIGSSDSASSTDAGKLKVTIHNTLFQDYSERGPRVRFGQVHTYNNYHTASRSYQYYRFSYAQGVGYESKILSEANVFDIQGVKSCIDIAKDFKGKVFRDNGSLLNGAPLSCSWNTAIGWTPPYTVNKLQASAVISDVLANAGAGKIQ	PGPT0018225_2429	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-T1SS_SECRETED_PROTEINS,PGPT0018225-pel|plyB-K01728	NA	NA
BMS010_08455	1092	gnl_3		Gluconolactonase	ATGACTCAATTGGAAACGCTCGATAACAATCAACCGGAAACCAGCCGCAGGCGCTTCCTGCGCCATTCCCTGCTCCTCAGCGCAGGCGCCGCGGTAGGGCTGCCGCGACTGGCCGATGCCGAGCCCCTGACCCAACGCTACCCGGACAGCCTGGTCGAAGTGCTCGACGACAGCTTCGCCCAGTACCGCCTGTTCAACGCCAGCGTGGAGCGCCTCGCCACCGGCATGCGCTGGGCCGAGGGGCCGGTCTGGGTAGGCGACGGGCGCTACCTGCTGGTGAGCGACATCCCGGAGAACCGCATCATGCGCTGGGACGAGATCAGCGGGACATTCGATGTATATCGCGCGCCGGCGAATCATTCGAACGGTCTGGCCCGGGACCGCCAGGGACGGCTGATCGTCTGCGAAGGCTCCACCACCAACGACCAGGGGCGGCGGGTTACGCGCACCGAGTATGACGGCAGCGTCACGGTGCTCGCCGACAACTTCGAGGGCAAACGCTTCAACTCGCCCAACGACCTGGCGGTGAAGCGCGACGGGTCGATCTGGTTCAGCGACCCGCCGTTCCAGACCGCCAACTTCTACGAAGGCCACAAGATCACGCCGGAAATGCCGGACGCGGTGTACCGGATCGACGGTGAGCGCGGCACGGTGACCCGCGTCATCGAGGGCATCTCCGGTCCGAACGGCCTGTGCTTTTCACCCGATGAGAAAGTGCTCTACGTGGTCGAGGGACGAGCCAAGCCGAACCGTCTGGTCTGGGCCTATGAGGTGAGGGACGACGGCACTCTGGGCGACCGGCGCAAGCATATCGAGGCCGACGATCACGGGGCGCTGGACGGAATCAAGTGCGACGAGGACGGCAATCTCTGGTGCGGCTGGGGTACCGGCGACGCGAAGGTGGCCAAGCCGGACGGCCTCGATGGTGTGAAAGTGTTCGACCCGCAAGGCAAGGCGATCGGCCATATCCGTTTGCCCGAGCGTTGCGCCAACCTGTGTTTCGGCGGCCGCCAGGGCAATCGGCTGTTCATGGCGAGCAGTCACTCGCTCTATGCGCTGTACGTCAATACGCGCGGCGCCACGTTCGTCTGA	MTQLETLDNNQPETSRRRFLRHSLLLSAGAAVGLPRLADAEPLTQRYPDSLVEVLDDSFAQYRLFNASVERLATGMRWAEGPVWVGDGRYLLVSDIPENRIMRWDEISGTFDVYRAPANHSNGLARDRQGRLIVCEGSTTNDQGRRVTRTEYDGSVTVLADNFEGKRFNSPNDLAVKRDGSIWFSDPPFQTANFYEGHKITPEMPDAVYRIDGERGTVTRVIEGISGPNGLCFSPDEKVLYVVEGRAKPNRLVWAYEVRDDGTLGDRRKHIEADDHGALDGIKCDEDGNLWCGWGTGDAKVAKPDGLDGVKVFDPQGKAIGHIRLPERCANLCFGGRQGNRLFMASSHSLYALYVNTRGATFV	PGPT0001285_304	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION_D_GLUCONATE_BIOSYNTHESIS,PGPT0001285-gnl-K01053	NA	NA
BMS010_08456	1233	baiN_2	COG2081	3-dehydro-bile acid delta(4,6)-reductase	ATGACCGACACCTCCGCTCTGCAGATCGCCATCATCGGTGGAGGCCCGGCCGGGCTGATGGCGGCGGAAGTGCTCAGCCAGGCGGGCCTGTCGGTGGACCTCTACGACGCCATGCCGTCGGTGGGCCGCAAGTTTCTCCTCGCCGGCGTCGGCGGCATGAACATCACCCACTCGGAAGCCGCCGAGGCGTTCCTCTCCCGCTATGGGGAACGTCGCGACGCCGTCGCCCCGCTGCTCGCCGACTTCGATGCCGGCGCGTTGCGCGAGTGGATTCATGGGCTGGGCATCGAGACCTTCGTCGGCAGTTCCGGGCGCGTTTTCCCTCGCGACATGAAGGCCGCGCCGTTGCTGCGCGCCTGGCTCAAGCGCCTGCGCGAGGCCGGCGTTGCCCTCCACACGCGCCACCGCTGGCTCGGCTGGAATGACAATGGCGACCTGCGCCTGGCTACGCCGAACGGCGAACGGCGCGTGCGGGCCGACGCCGTGCTGCTCGCCCTCGGCGGCGGCAGCTGGGCGCGGCTGGGCTCGGATGGCGCCTGGGTGCCGCTGCTGGAAGAGCGAGGCGTCGTCATCGCCCCGCTGCAACCGTCCAACTGCGGCTTCGAGGTGGCCGGCTGGAGCCCGCTGTTCCGCGACAAGTTCGCCGGAGCACCGCTCAAGCACGTGGCGATCCGTCTGGATGACGAGGAACCCCGGCAAGGCGAGTTCGTAATCACCGCCACGGGCGTCGAGGGTAGCCTGATCTATGCACTGTCGGCGCGGACTCGCCAGCGAATCGCCGAGACGGGCAGCGCCACCCTCTATCTCGACCTGCTGCCCCGGCACAGCCCGAAGAAGATCGCAGCCGCCCTCGCCCGACCACGCGGATCGCGCTCCATGGCCAAGCACCTGCACAGCCAGCTCGGCATCGACGGCGTGAAGGCCGGTCTGTTGCGCGAACTGACGCCCGCCGAGACCTTCGCCGACAACACCCGCCTCGCCGCCGCGATCAAGGCGCTGCCCTTGCGCCTGGAGCACCCGCGCCCGCTGGACGAAGCCATCAGCAGCGCCGGCGGCGTGCCCTTCGAGGCACTCGACTCGAATTTGATGCTGAGAACCCTGCCCGGCGTGTTCTGCGCCGGCGAAATGCTGGACTGGGAAGCCCCCACCGGCGGCTACCTGCTCACCGCCTGCTTCGCCAGCGGCCGCGCAGCCGGCCTAGGCATGCTCGACTGGCTGCGCGAAAGACGCTGA	MTDTSALQIAIIGGGPAGLMAAEVLSQAGLSVDLYDAMPSVGRKFLLAGVGGMNITHSEAAEAFLSRYGERRDAVAPLLADFDAGALREWIHGLGIETFVGSSGRVFPRDMKAAPLLRAWLKRLREAGVALHTRHRWLGWNDNGDLRLATPNGERRVRADAVLLALGGGSWARLGSDGAWVPLLEERGVVIAPLQPSNCGFEVAGWSPLFRDKFAGAPLKHVAIRLDDEEPRQGEFVITATGVEGSLIYALSARTRQRIAETGSATLYLDLLPRHSPKKIAAALARPRGSRSMAKHLHSQLGIDGVKAGLLRELTPAETFADNTRLAAAIKALPLRLEHPRPLDEAISSAGGVPFEALDSNLMLRTLPGVFCAGEMLDWEAPTGGYLLTACFASGRAAGLGMLDWLRERR				NA	NA	NA	NA	NA
BMS010_08457	837	trpC_1		Indole-3-glycerol phosphate synthase	GTGAGTCTGCCGACCGTTCTGGAGAAAATCATCGCCCGCAAGGCGGAGGAAGTGGCCGAACGCCGGGCGCGCCTGGGGTTGGCGGAGCTAGAGCAACTGGCCCGTGACGCCGACGCGCCGCGTGGTTTTGCCCAGGCCCTGCTGGAGCAGGCCAAGCGCAAGCAGCCGGCGGTGATTGCCGAGATCAAGAAGGCATCGCCAAGCAAGGGCGTATTGCGAGAGAACTTCGTGCCGACGGAAATCGCCCGGAGTTACCAAGAGGGCGGGGCGACCTGCCTGTCGGTGCTGACCGATGTGGACTTTTTCCAAGGTGCCGATGCCTATTTGCAGGAAGCCCGTGCGGCCTGCAGCCTGCCGGTGATCCGCAAGGACTTCATGATCGACCCTTACCAGATCGTCGAGTCGCGGGCCTTGGGCGCCGATTGCGTCCTGTTGATCGTCTCCGCCCTGGACGATGTGCGCATGGCCGAGCTGGCGGCCACCGCCGGGGATGTCGGCCTGGATGTGCTGGTCGAAGTGCACGATGGCGATGAGCTGGAGCGGGCGCTGAAGACGCTGGATACCCCCTTGCTGGGCATCAACAACCGCAACCTGCACACTTTCGAGGTCAGCCTGGAAACCACGCTCGACCTGCTGCCGCGGATTCCGCGCGACCGCCTGGTGGTCACCGAGAGCGGCATTCTCAATCGGGCCGATGTGGAGCTTATGGAAATCAGTGAGGTCTATGCCTTCCTGGTCGGAGAGGCTTTCATGCGTGCCGAGAATCCAGGACTGGAATTGCAGCGCCTGTTCTTCCCGGAGAAGACGCGCGCGGTAATGGGTGCCGATCCGGGTTGA	MSLPTVLEKIIARKAEEVAERRARLGLAELEQLARDADAPRGFAQALLEQAKRKQPAVIAEIKKASPSKGVLRENFVPTEIARSYQEGGATCLSVLTDVDFFQGADAYLQEARAACSLPVIRKDFMIDPYQIVESRALGADCVLLIVSALDDVRMAELAATAGDVGLDVLVEVHDGDELERALKTLDTPLLGINNRNLHTFEVSLETTLDLLPRIPRDRLVVTESGILNRADVELMEISEVYAFLVGEAFMRAENPGLELQRLFFPEKTRAVMGADPG	PGPT0007080_622	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007080-trpC-K01609	NA	NA
BMS010_08458	1047	trpD_3	COG0547	Anthranilate phosphoribosyltransferase	ATGGATATCAAGGGCGCGCTGAGCCGTATCGTCGGCCAACTGGACCTGACCACCGAGGAAATGCAATCGGTGATGCGGGAAATCATGACCGGGCAGTGCACTGACGCACAGATCGGCGCCTTCCTGATGGGCATGCGCATGAAGAGCGAGACCATCGACGAAATCGTCGGGGCCGCCCAGGTGATGCGTGAGCTGGCGGCACCGGTGAACATCCAGGCCGAGCGTCTGGTGGACACCTGCGGCACCGGCGGCGATGGCATGAACATCTTCAACGTCTCCACCGCGGCGGCCTTTGTGGTCGCCGCGGCGGGCGGCAAGGTGGCCAAGCATGGCAATCGCGCAGTTTCCGGCAAGAGCGGCAGCGCCGATCTGCTGGAGGCGGCAGGCGTCTACCTGAACCTGACGCCGGAGCAGGTGGCGCGTTGCGTCGAGTCCGTCGGGGTCGGCTTCATGTTCGCGCCGGCCCATCACGGGGCGATGAAGCATGCCATCGGCCCGCGCCGGGAACTGGCGCTGCGTACTCTCTTCAACATGCTCGGCCCGATGACCAATCCGGCGGGCGTCAAGCATCAGGTCATCGGGGTATTCAGCCAGGCGCTGTGCCGGCCGATGGCGGAAGTGTTGCAGCGGCTCGGCAGCGTGCATGTGTTGGTGGTGCATGCCCAGGATGGGTTGGACGAGATCAGCCTCGCCGCGCCGACCCATGTCGCCGAGCTGAAGGATGGCGTCGTTAGCGAATACAGCATTCAGCCGGAGGATTTCGGCATCAAGAGCCAGAGCCTGATCGGCCTGACCGTAGAGACGCCGCTGGCATCGCTGGAGCTGATCCGCGATGCGCTCGGCCGTCGCAAGACGGAAAACGGGCAGAAGGCTGCTGACATGATCGTGCTCAACGCTGGCGCGGCCCTGTATGCCGCGGACCATGCCAGCAGTCTGAAGGAGGGCATACAGTTGGCCCATGATGCGCTGCACACCGGCCTGGCACGCGAGAAGCTGGAAGAGCTGGTGTCCTTTACCGCGGTGTTCCGACAGGAGAATGAAGCGTGA	MDIKGALSRIVGQLDLTTEEMQSVMREIMTGQCTDAQIGAFLMGMRMKSETIDEIVGAAQVMRELAAPVNIQAERLVDTCGTGGDGMNIFNVSTAAAFVVAAAGGKVAKHGNRAVSGKSGSADLLEAAGVYLNLTPEQVARCVESVGVGFMFAPAHHGAMKHAIGPRRELALRTLFNMLGPMTNPAGVKHQVIGVFSQALCRPMAEVLQRLGSVHVLVVHAQDGLDEISLAAPTHVAELKDGVVSEYSIQPEDFGIKSQSLIGLTVETPLASLELIRDALGRRKTENGQKAADMIVLNAGAALYAADHASSLKEGIQLAHDALHTGLAREKLEELVSFTAVFRQENEA	PGPT0007090_1492	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007090-trpD-K00766	NA	NA
BMS010_08459	594	trpG	COG0512	Anthranilate synthase component 2	ATGCTGCTGATGATCGATAACTACGACTCTTTCACCTACAACGTGGTGCAGTACCTGGGCGAACTGGGCCAGGACGTCAAGGTGATCCGCAACGACGAGCTGAGTGTTGCCGAGATCGAGGCGCTGAATCCCGAGCGCATCGTCATTTCTCCCGGCCCCTGCACCCCGACCGAAGCCGGTGTTTCGCTGGCTGTGATCGAGCGCTTCGCCGGCAAATTGCCCATCCTCGGCGTCTGCCTGGGGCACCAGAGCATCGGCCAGGCGTTCGGCGGCGATGTGGTGCGTGCCCGCCAGGTGATGCACGGCAAGACCAGCCCGGTATTTCATGAGAACCAGGGCGTTTTCGCCGGCCTGAACAACCCCTTGACCGTCACCCGCTACCACTCGCTGGTGGTCAAGCGCGAGACGTTGCCGGACTGTCTGGAAATCACCGCCTGGACCCAGTTTGAGAACGGTGAGGTGGACGAAATCATGGGGCTGCGCCATAAGACTCTGAATATCGAGGGTGTGCAATTCCACCCCGAATCGATCCTGACCGAACAAGGGCATGAGCTGTTCGCCAACTTCCTGAAACAGACCGGCGGTCGCCGCTAA	MLLMIDNYDSFTYNVVQYLGELGQDVKVIRNDELSVAEIEALNPERIVISPGPCTPTEAGVSLAVIERFAGKLPILGVCLGHQSIGQAFGGDVVRARQVMHGKTSPVFHENQGVFAGLNNPLTVTRYHSLVVKRETLPDCLEITAWTQFENGEVDEIMGLRHKTLNIEGVQFHPESILTEQGHELFANFLKQTGGRR	PGPT0007105_1470	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-HQQ|PQS_BIOSYNTHESIS,PGPT0007105-trpG|phnB-K01658	NA	NA
BMS010_08460	1482	trpE	COG0147	Anthranilate synthase component 1	ATGAACCGCGAAGCATTCCTGCGCCTGGCCGATGCCGGCTATAACCGCATTCCTTTGGCCTGCGAGACGCTGGCCGATTTCGATACCCCGCTGTCCATCTACCTGAAACTGGCCGACGCGCCGAACTCCTACCTGCTGGAATCTGTGCAGGGCGGCGAGAAGTGGGGCCGTTACTCCATTATTGGCCTGCCCAGCCGCACCGTGCTGCGTGCTTATGGGCATCGCGTCAGCATCGCGACCGATGGCGTCGAGGTGGAGCGGCATGACGATTGCGCCGATCCGCTGGCCTTCGTCGAATCCTTCAAGGCGCGCTATCGCGTGCCGACGCTGCCCGGGCTGCCGCGCTTCAACGGCGGGCTGGTCGGCTACTTCGGCTATGACAGCGTGCGCTACGTCGAGCCCAAGCTGGCCCAGTGTCCGAATCCCGATCCGCTGGGGACACCGGATATCCTGCTGATGGTCTCCGATGCCGTGGTGGTATTCGACAACCTGGCCGGGAAGATTCACGCCATCGTCCTCGCCGATCCGGCCGAGGAAAACGCCTACGAGCAGGGGCAGGCCCGTCTGCAGGACTTGCTGGAGCGGCTGCGCCAGCCGATTACGCCACGGCTCGGGGTCGACCTGAACGCCCCGGCCGGCTGCGAGCCCGAGTTCCGTTCCAGCTTCAGCCGAGGGGACTACGAGCGGGCGGTCGACGCGATCAAGGAATACATCCTGGCCGGCGACTGCATGCAGGTGGTGATCTCCCAGCGCATGTCCATTCCCTTCCAGGCGGCACCTATCGATCTCTACCGCGCCCTGCGCTGCTTCAATCCGACGCCTTACATGTACTTCTTCAATTTCGGCGATTTCCACGTGGTGGGCTCGTCGCCGGAAGTGCTGGTGCGCGTCGAGGACAATCTGGTGACGGTCCGTCCGATCGCCGGTACCCGCCCGCGTGGTGCCAGCGAGGAAGCCGACGTGGCGCTGGAGAAGGACCTGCTCTCGGATGCCAAGGAACTGGCCGAGCACCTGATGCTGATCGACTTGGGCCGCAACGACGTCGGCCGGGTCTCGGAGACGGGTTCGGTCCGCTTGACCGAGAAAATGGTCATCGAGCGCTATTCCAACGTGATGCACATCGTGTCCAACGTCACCGGTCAGTTGAAGGCGGGCATGAGTGCGATGGATGCACTGCGGGCGATCCTGCCGGCCGGTACGCTGTCCGGCGCTCCGAAAATCCGCGCCATGGAAATCATCGACGAGCTCGAGCCGGTCAAACGCGGCGTCTACGGCGGCGCCGTCGGCTATCTGGCCTGGAACGGCAACATGGACACCGCCATCGCCATCCGCACGGCGGTGATCAAGGACGGCGAACTCCATGTCCAGGCCGGCGCGGGTATCGTCGCCGACTCGGTGCCCGCGCTGGAGTGGGAGGAAACCCTGAACAAGCGGCGCGCCATGTTCCGTGCCGTCGCCCTTGCCGAACAGACCGCGAAGTGA	MNREAFLRLADAGYNRIPLACETLADFDTPLSIYLKLADAPNSYLLESVQGGEKWGRYSIIGLPSRTVLRAYGHRVSIATDGVEVERHDDCADPLAFVESFKARYRVPTLPGLPRFNGGLVGYFGYDSVRYVEPKLAQCPNPDPLGTPDILLMVSDAVVVFDNLAGKIHAIVLADPAEENAYEQGQARLQDLLERLRQPITPRLGVDLNAPAGCEPEFRSSFSRGDYERAVDAIKEYILAGDCMQVVISQRMSIPFQAAPIDLYRALRCFNPTPYMYFFNFGDFHVVGSSPEVLVRVEDNLVTVRPIAGTRPRGASEEADVALEKDLLSDAKELAEHLMLIDLGRNDVGRVSETGSVRLTEKMVIERYSNVMHIVSNVTGQLKAGMSAMDALRAILPAGTLSGAPKIRAMEIIDELEPVKRGVYGGAVGYLAWNGNMDTAIAIRTAVIKDGELHVQAGAGIVADSVPALEWEETLNKRRAMFRAVALAEQTAK	PGPT0007095_3070	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-HQQ|PQS_BIOSYNTHESIS,PGPT0007095-trpE|phnA-K01657	NA	NA
BMS010_08461	690	gph_5	COG0546	Phosphoglycolate phosphatase	ATGAACGGGCTCGCGCAACTGTTTCCCGGGCGCCTGCCGCGCCTGGTGATGTTCGATCTGGACGGCACCCTGATGGATTCCGTCCCCGATCTGGCGGCAGCCGTCGACCGTATGCTGGCCGATTTCGGCCGGGCGCCGGCGGGGCTGGAGCGGGTGCGCGAGTGGGTCGGCAACGGTGCCCGGGTGTTGGTGCGCCGCGCGCTGGCCGGTGGGTTGCAGCATGAGCACGTCGACGACGCCGAAGCCGAGCGGGCCTTGCAAATATTCATGCAGGTCTACGCCGACAGCCACGGCTTGACCACCGTCTATCCCGGCGTCCCGCCGACCCTGGACTGGCTCAAGGCACAGGGCATTCCCCTGGCCGTGGTGACCAACAAGCCGGAGCGCTTCGTCGCGCCGCTGCTGGAGGAGAAAGGGCTCGGCGGCTATTTCCGTTGGATCGTCGGCGGCGATACCCTGCCGCAGCAGAAGCCCGATCCGGCGGCCTTGCATTGGGTGCTGGACAAGGCCGGCGTGGCCCCGGCCGATGCGCTCTTCGTCGGCGACTCGCGCAACGACGTGCTGGCGGCCAGGGCGGCAGACGTGCCTTGCGTGGCGATGAGCTATGGCTACAACCATGGCCGTCCCATCGCCGAAGAAAATCCGGCGCTGGTTCTCGACGATCTGCGCCAGCTGCTGCCGGGCGGTTGA	MNGLAQLFPGRLPRLVMFDLDGTLMDSVPDLAAAVDRMLADFGRAPAGLERVREWVGNGARVLVRRALAGGLQHEHVDDAEAERALQIFMQVYADSHGLTTVYPGVPPTLDWLKAQGIPLAVVTNKPERFVAPLLEEKGLGGYFRWIVGGDTLPQQKPDPAALHWVLDKAGVAPADALFVGDSRNDVLAARAADVPCVAMSYGYNHGRPIAEENPALVLDDLRQLLPGG	PGPT0001730_1704	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0001730-gph-K01091	NA	NA
BMS010_08462	675	rpe_2	COG0036	Ribulose-phosphate 3-epimerase	ATGCAGCCCTTTGCCATTGCTCCGTCGATCCTTTCCGCCGACTTCGCCCGCCTCGGCGAGGAAGTGGACAAGGTCCTCGCCGCCGGGGCCGACATCGTCCATTTCGATGTGATGGACAACCACTACGTGCCCAACCTGACCATCGGCCCGATGGTCTGCGCGGCGCTGCGCAAGTACGGCATCACCGCGCCGATCGACGCGCACCTGATGGTCAAGCCGGTGGACCGCATCATCGGCGACTTCATCGAGGCCGGCGCCAGCTACATCACCTTCCACCCGGAAGCCTCCGAGCACATCGACCGCTCCCTGCAATTGATCCGCGACGGCGGCGCCAAGGCGGGCCTGGTATTCAATCCGGCGACCCCGCTGGACGTGCTCAAGTACGTCATGGACAAGGTTGACATGGTCCTGCTGATGAGCGTGAACCCCGGTTTCGGCGGGCAGAAGTTCATCCCGGGCACCCTCGGCAAGCTGCGCGAAGCGCGCGCGCTGATCGACGCCTCGGGGCGCGACATCCGCCTGGAGATCGATGGCGGCGTGAATGTGAAGAACATCCGCGAGATTGCCGAGGCGGGCGCGGATACCTTCGTCGCCGGTTCGGCGATCTTCAACCAACCCGACTACAAGGCGGTGATCGACGCGATGCGCGCCGAGCTGGCCCAGGCCAAGGCATGA	MQPFAIAPSILSADFARLGEEVDKVLAAGADIVHFDVMDNHYVPNLTIGPMVCAALRKYGITAPIDAHLMVKPVDRIIGDFIEAGASYITFHPEASEHIDRSLQLIRDGGAKAGLVFNPATPLDVLKYVMDKVDMVLLMSVNPGFGGQKFIPGTLGKLREARALIDASGRDIRLEIDGGVNVKNIREIAEAGADTFVAGSAIFNQPDYKAVIDAMRAELAQAKA	PGPT0017425_2938	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017425-rpe|cbbE-K01783	NA	NA
BMS010_08463	1041			hypothetical protein	ATGCTCAAGCACAGCCTGCGCTGGACTCTGGCCGCTCTCTGCCTCGGTGCCGCGAGCACCGGTTTCGCCGCGCAACTGATGGTGGTCTCGTTCGGCGGCGCGACGCGCGACGCCCAGCGCGATGCCTTCTACAAGCCGTTCAAGGCGACCACTGGCACGGTGGTGATCAATGGCTCCTACAACGGTGACTTCGACAAGTTGCGGCGCATGCAGGCGGCGCAGCATGTCAGTTGGGACGTGGTCGAGGTGGAAGCGCCGGAGCTGGTGCGCGGTTGCGAGACGGGCCTGTTCCAGCCCCTGGATGCGCAGGAGTTGGGCGACACCCAGGCGTTCATTCCCGGTGCACTACGCCCGTGCGGCGTGGGCACGTTCGTCTGGTCGATGGTGCTGGCCTACGACAGCCAGCGATTGTCGCAGGCGCCGCAGGGCTGGGCCGATTTCTGGGATGTGCAGCGCTTCCCCGGTAATCGTGGACTGCGCAAGGGCGCCAAGTACAACCTGGAGTTCGCCCTGCTGGCCAGCGGCGTGCCGGCGGAGCAGGTCTATGCCCGTCTGGCGACCCGGCAGGGAGTGGACATGGCGTTCGACAAGCTCGATCAGCTCAGGCCGTATATCCGCTGGTGGCAGGCCGGTGAGGAGCCCATCCGGGGCTTGAATGACGGCAGTCTGCTGATGAGTGCTTCCTATAGCGGCCGCATCGGCGCGGCCCAGGACCAGGGTGCCGCCCTGCAGTTGGTATGGCCGGGCAGCATCTACGACTTCGATTACTGGGCTATCCCCAGCGGCAGCTTCAACAGCCGCGAGGCGCTTCAGTTCATCCGCTTCGCCAGTCAACGGGAGACGCAGCAGGTTTTTGCCGAGCGCATTCCCTACGGGCCGGTCAACAGCGGGGCGCTGGCCGGCCTGACTCCCGAGCGGGTGGCGCGCCTGCCCACCGCGCCGGCGAACATGGCGCAGGCATTGCCCATGGGCGTGGAGTTCTGGATCGAACACGGCGACGAACTGGAGCAGCGCTTCGAGCGCTGGCTGGCACGCCCCTGA	MLKHSLRWTLAALCLGAASTGFAAQLMVVSFGGATRDAQRDAFYKPFKATTGTVVINGSYNGDFDKLRRMQAAQHVSWDVVEVEAPELVRGCETGLFQPLDAQELGDTQAFIPGALRPCGVGTFVWSMVLAYDSQRLSQAPQGWADFWDVQRFPGNRGLRKGAKYNLEFALLASGVPAEQVYARLATRQGVDMAFDKLDQLRPYIRWWQAGEEPIRGLNDGSLLMSASYSGRIGAAQDQGAALQLVWPGSIYDFDYWAIPSGSFNSREALQFIRFASQRETQQVFAERIPYGPVNSGALAGLTPERVARLPTAPANMAQALPMGVEFWIEHGDELEQRFERWLARP	PGPT0007855_4609	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007855-ABC_SP_S|ydcS-K02055	NA	NA
BMS010_08464	828	ydcV_10		Inner membrane ABC transporter permease protein YdcV	ATGCTGAGCCCCTATATGTCGCCCGCCGAGCGGGTCTGGTTCTACACCCTGCGCGGCATCTGCGCGCTGGTGCTGCTGTTCCTGGTGCTGCCGGTGCTGGTCATCGTGCCGCTGTCGTTCAACTCCGGCTCCTTCCTGGTCTATCCGCTGCAGGGCTTCTCCCTGCGCTGGTACGAGGCCTTCTTCACCTCGGCGGAATGGATGCGTTCGCTGAAGAACAGCATGATCATCGCGCCGGCCGCGACTCTGCTGGCGATGGTCTTCGGCACCCTGGCCTCCATCGGTCTGACCCGTGGCGAGTTTCGCGGCAAGGCGCTGATCATGAGCCTGGTGATCTCGCCGATGGTGGTGCCGGTGGTGATCATCGGTGTCGCCAGCTACCTGTTCTTCGCTCCGCTCGGCCTCGGCAACAGCTACCTGTCGCTGATCCTGGTGCACGCGGTGCTCGGCGTGCCCTTCGTGATCATCACCGTCTCCGCGACCTTGCAGGGCTTCAACTACAACCTGGTGCGCGCCGCCGCCAGCCTCGGTGCATCGCCGCTGACGGCGTTCTTCCGGGTCACCCTGCCGCTGATCGCGCCCGGCGTGATCTCCGGCGCGTTGTTTGCCTTCGCCACCTCGTTCGATGAGGTGGTGGTGACGCTGTTCCTCGCCGGCCCCGAACAGGCGACCCTGCCGCGGCAGATGTTCAGCGGTATCCGCGAGAACCTGAGCCCGACCATCGCCGCCGCCGCGACGCTGCTGATCGGTTTCTCGGTCCTGCTGTTGCTGACCCTCGAATGGCTGCGTGGCCGCAGCGAGAAGATGCGTACCCAGCAGCCCGCCTGA	MLSPYMSPAERVWFYTLRGICALVLLFLVLPVLVIVPLSFNSGSFLVYPLQGFSLRWYEAFFTSAEWMRSLKNSMIIAPAATLLAMVFGTLASIGLTRGEFRGKALIMSLVISPMVVPVVIIGVASYLFFAPLGLGNSYLSLILVHAVLGVPFVIITVSATLQGFNYNLVRAAASLGASPLTAFFRVTLPLIAPGVISGALFAFATSFDEVVVTLFLAGPEQATLPRQMFSGIRENLSPTIAAAATLLIGFSVLLLLTLEWLRGRSEKMRTQQPA	PGPT0007845_1500	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007845-ABC_SP_P|ydcV-K02053	NA	NA
BMS010_08465	1248			hypothetical protein	ATGGCCATCGCAGTGCCCCTGAACGAGGTCGCCGGCCCCAGCCTGAAGCAGCGTCTGGCGCGTGCCGAGCGCTTCAACCGGTTCAAGGCGCAGGCGCTGATCCTGCCCCTGCTGCTCTTCCTCCTTTTGACTTTCCTGGTGCCGATCGCCGCGTTGCTCTACAAGAGCGTGAAGAACCCGGAAGTGGTAACGGCGCTGCCGCAGACCGTAGAAACCATCCGCGACTGGGATGGCAAATCCCTACCGCCGGAAGCGGTTTACCGTGCCCTGGCCACGGATTTGAGCGCCAAGGGCGCCAAGCAGGCCCTGGGCGACCTGTCCAAACGCCTGAACATGGAGCTGGCCGGCTATCGCAGTCTGCTGAGCAAGACCGCGCGGGCGCTGCCGTTCGACAGTGAGCCGGCCTCGTACAGAGAAGCGCTGGAAGGGCTCGACGAGCGTTGGGGCGATCCGGCCTACTGGCAGGCGATCCGCCGCAACACCCATGCGGTTACCCCGTACTACCTGCTGGCCGCCCTCGATCATCGGATCGACGACCTCGGCGAGCTGGCGCCGGCCACGCCGGACCAGGCGATCTACCTGGACATCTTTGCCCGCACCTTCTGGATGGGCGCGGTGATCACCGTGATTTGCCTGGTGCTGGCCTATCCGCTGGCCTACCTGCTGGCCAACCTGCCGACACGCCAGAGCAACCTGTTGATGATCTTGGTGCTGCTGCCGTTCTGGACCTCGATCCTGGTGCGGGTCGCGGCCTGGATCGTGCTGTTGCAGTCCGGCGGCCTGATCAACGGCGCCTTGATCAAGCTCGGTCTGATCGACCAACCACTGCAACTGGTGTTCAACCGCAGCGGGGTCTACGTCGCCATGGTGCACATCATGCTGCCGTTCATGATCCTGCCGATCTACAGCGTGATGAAGGGCATCTCGCCGACGTACATGCGTGCGGCGATCTCCCTGGGCTGCCACCCGTTCGCCAGCTTCTGGCGGGTGTACTTCCCGCAGACTGTGGCGGGCGTGGGGGCAGGTTGCCTGCTGGTGTTCATCCTGTCCATCGGCTACTACATCACCCCGGCGCTGCTGGGCAGCCCGAACGACCAGATGATCAGTTACTTCGTCGCCTTCTACACCAACACCACCATCAACTGGGGCATGGCCACGGCCCTCGGCGGGCTGCTGCTGTTCGCCACCCTGGTGCTCTACGTGGTGTACAGCTGGCTGGTTGGCGCCAACCGGCTGCGCCTGGGTTGA	MAIAVPLNEVAGPSLKQRLARAERFNRFKAQALILPLLLFLLLTFLVPIAALLYKSVKNPEVVTALPQTVETIRDWDGKSLPPEAVYRALATDLSAKGAKQALGDLSKRLNMELAGYRSLLSKTARALPFDSEPASYREALEGLDERWGDPAYWQAIRRNTHAVTPYYLLAALDHRIDDLGELAPATPDQAIYLDIFARTFWMGAVITVICLVLAYPLAYLLANLPTRQSNLLMILVLLPFWTSILVRVAAWIVLLQSGGLINGALIKLGLIDQPLQLVFNRSGVYVAMVHIMLPFMILPIYSVMKGISPTYMRAAISLGCHPFASFWRVYFPQTVAGVGAGCLLVFILSIGYYITPALLGSPNDQMISYFVAFYTNTTINWGMATALGGLLLFATLVLYVVYSWLVGANRLRLG	PGPT0007850_656	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007850-ABC_SP_P1|ydcU-K02054	NA	NA
BMS010_08466	1032			hypothetical protein	ATGTCGTTTCGCTTGAAAGTCGCCGCCCTGGCCGTCGCCATGGCTTCTTCCACTCCCTTGCTGGCGGCCGACCTGACCGTCATTTCCTTCGGTGGCGCGAACAAGGACGCCCAGGCCAAGGCCTACTACCAGCCTTTCGAAGCTGCCACCGGCAACAAGATCATCGCCGGCGAGTACAACGGCGAGATGGCCAAGGTGAAAGCCATGGTCGACACCAACAGCGTGACCTGGGACCTGGTCGAAGTGGAGTCGCCGGAACTCTCCCGCGGCTGCGACGAAGACATGTTCGAAGAGCTGGACTACAGCGTGCTGGGCGGCAAGGACAACCTGGTCCCCGGCGCCGCGCAGCTCTGTGGCGTAGGCTTCTTCGTCTGGTCCACCGTACTGGCCTACAACGCCGACAAACTGCAATCCGCACCGACCAGCTGGGCCGATTTCTGGGACGTGAAGAAATTCCCCGGCAAGCGTGGCCTGCGCAAGGGCGCCAAGTACACCCTGGAATTCGCCCTGATGGCCGACGGCGTCGCGCCGAAGGACGTCTACAAGGTCCTGGCGAGCAAGGACGGCCAGGAGCGCGCCTTCAAGAAACTCGACGAGTTGAAGCCGCACATCCAGTGGTGGGAAGCCGGCGCCCAGCCGCCGCAGTACCTCGCCTCCGGCGACGTGGTGATGAGTTCGGCCTACAACGGGCGCATCGCTGCGGTGCAGAAGGAAAGCAACCTGAAGGTGGTGTGGGACGGCGGCATCTATGACTTCGACGCCTGGGCCATTCCGAAGGGCGCGAAGAACAAGGATGAAGCACTGAAGTTCATCGCCTTCAGCCTGAAGCCCGAGCAGCAGAAGATCTACTCCGAGAACATCGCCTACGGTCCGGCCAACAAGCAGGCGGTCTCGCTGCTCGACCCGGCGCTGCTCAAGGACATGCCGACCACCCCGGAAAACATCGCCAACCAGGTGGCCATGGATGTGACCTTCTGGGCCGACTTCGGCGAGCAACTGGAACAGCGTTTCAACGCCTGGGCAGCGAAGTAA	MSFRLKVAALAVAMASSTPLLAADLTVISFGGANKDAQAKAYYQPFEAATGNKIIAGEYNGEMAKVKAMVDTNSVTWDLVEVESPELSRGCDEDMFEELDYSVLGGKDNLVPGAAQLCGVGFFVWSTVLAYNADKLQSAPTSWADFWDVKKFPGKRGLRKGAKYTLEFALMADGVAPKDVYKVLASKDGQERAFKKLDELKPHIQWWEAGAQPPQYLASGDVVMSSAYNGRIAAVQKESNLKVVWDGGIYDFDAWAIPKGAKNKDEALKFIAFSLKPEQQKIYSENIAYGPANKQAVSLLDPALLKDMPTTPENIANQVAMDVTFWADFGEQLEQRFNAWAAK	PGPT0007855_3707	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007855-ABC_SP_S|ydcS-K02055	NA	NA
BMS010_08467	1119	potA_11	COG3842	Spermidine/putrescine import ATP-binding protein PotA	ATGGTCGGGACTACAACGACAGGGGCGAGCGACGTGCTGGTCAGCTTCCGTGGCGTGCAGAAGAGCTACGACGGCGAGACGCTCATCGTCAAAGACCTCAACCTGGACATTCGCAAAGGCGAATTCCTCACGCTGCTGGGGCCGTCCGGTTCCGGCAAGACCACCAGCCTGATGATGCTGGCCGGCTTCGAAACCCCCACTTCCGGGGAAATCCTCCTCGCCGGCCGCTCCATCAACAATGTGCCGCCGCACAAGCGCGACATCGGCATGGTGTTCCAGAACTATGCGCTGTTCCCGCACATGACCGTGGCGGAGAACTTGGCGTTTCCCCTGACGGTACGCGGCCTGGCCAAGCCGGACATCGGCGAGCGGGTCAAGCGCGCGCTGTCCATGGTGCAGCTCGACGCTTTCGGCGGCCGTTACCCGGCCCAGCTTTCCGGTGGCCAGCAGCAGCGCGTGGCCCTGGCCCGCGCCCTGGTGTTCGAGCCCCAGTTGGTGCTGATGGACGAACCGCTCGGCGCACTGGACAAGCAACTGCGCGAGCACATGCAGATGGAGATCAAGCACCTCCACGAGCGGCTCGGCGTCACCGTGGTCTACGTCACCCACGACCAGGGTGAGGCGCTGACCATGTCTGACCGCGTGGCGGTGTTCCACCAGGGCGAAATCCAGCAGATCGACGCACCGCGCAACCTGTACGAACACCCGAAGAACAGCTTCGTCGCCAACTTCATCGGCGAGAACAACCGGCTCAGCGGCCAGTTGCTCAGCCGCGAGGGCGAGCGCTGCGTGATCGGCCTGCCGCGCGGCGAAAAGGTCGAGGCGCTGGCGGTGAACGTCGGCCAGCCGGGCGATCCGGTGACCCTGTCGATCCGTCCCGAGCGCGTTCGCCTCAATGGCGGCAGCGATGCCTGTACCAACCGCTTCTCCGGAAGGGTGGCGGAATTCATCTATCTGGGCGACCACGTGCGCATCCGTCTGGAGGTCTGTGGTCAGTCCGACTTCTTCGTCAAACAACCCATCGCCGAGCTCGATCCGGCGTTGGCGGTGGGCGACGTTGTGCCGCTGGGCTGGCAACTCGAACACGTCCGCGCCTTGGACGCACTCCCAGCAAACTGA	MVGTTTTGASDVLVSFRGVQKSYDGETLIVKDLNLDIRKGEFLTLLGPSGSGKTTSLMMLAGFETPTSGEILLAGRSINNVPPHKRDIGMVFQNYALFPHMTVAENLAFPLTVRGLAKPDIGERVKRALSMVQLDAFGGRYPAQLSGGQQQRVALARALVFEPQLVLMDEPLGALDKQLREHMQMEIKHLHERLGVTVVYVTHDQGEALTMSDRVAVFHQGEIQQIDAPRNLYEHPKNSFVANFIGENNRLSGQLLSREGERCVIGLPRGEKVEALAVNVGQPGDPVTLSIRPERVRLNGGSDACTNRFSGRVAEFIYLGDHVRIRLEVCGQSDFFVKQPIAELDPALAVGDVVPLGWQLEHVRALDALPAN	PGPT0007860_792	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007860-ABC_SP_A|ydcT-K02052	NA	NA
BMS010_08468	630	uvrY_2	COG2197	Response regulator UvrY	GTGATCCGGGTTCTGGTAGCGGAAGATCACACCATCGTCCGCGAGGGCATCAAGCAACTCATCGGCATGGCGAAGGACCTCAAGGTGGTGGGCGAGGCCTGCAACGGCGAGCAGTTGATGGAGACCCTGCGGCAGACCCCTTGCGAGGTGGTATTGCTGGATATCTCCATGCCGGGCGTGAATGGCCTGGAAGCGATTCCGCGCATCCGCGCCCTGACCCAGCCGCCGGCGATCCTGGTGCTGTCGATGCACGACGAGGCGCAGATGGCGGCGCGCGCGCTGAAGATTGGCGCGGCGGGCTATGCGACCAAGGACAGCGACCCGGCCCTGCTCCTCACCGCGATCCGCAAGGTGGCGTCGGGTGGCCGCTACATCGATCCGGAGCTGGCCGACCGCATGGTCTTCGAGGTCGGCCTGACCGATTCGCGTCCGCCCCATGCCACCTTGTCCGAGCGGGAGTTCTCGGTCTTCGAGCGGCTGGTGCAGGGTGAGGGCGTCAACGAGATCGCCCAGCACCTGGCGGTGAGCAGCAAGACCGTCAGCACCCACAAGGCCCGCCTGATGCAGAAGCTGGGCGCTCATTCGGTGGCCGAGCTGGTGCGCTATGCGGTGGAGCACAAGCTGATCTGA	MIRVLVAEDHTIVREGIKQLIGMAKDLKVVGEACNGEQLMETLRQTPCEVVLLDISMPGVNGLEAIPRIRALTQPPAILVLSMHDEAQMAARALKIGAAGYATKDSDPALLLTAIRKVASGGRYIDPELADRMVFEVGLTDSRPPHATLSEREFSVFERLVQGEGVNEIAQHLAVSSKTVSTHKARLMQKLGAHSVAELVRYAVEHKLI	PGPT0017180_34	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_HEXOSE_PHOSPHATE_UPTAKE_SENSING,PGPT0017180-uhpA-K07686	NA	NA
BMS010_08469	2397			hypothetical protein	ATGATCCGTCCGTTATCCGTTGTTCTGCTCCTGGCCTGGCTGCTGCCGGCCGGGGTGTTCGCCGCGCCGCCGCCTGCCCCCCTGGCTCTCGAACCGGCCCAGCGCAGTTGGCTGGAGGAGCATCGTCAACTGCGTGTCGGGGTGGTGTTGCAGGCGCCGTATGCGCAGTACGACCGGCGTCTGCAGCAGCTTGCCGGCGCCAATGTCGAACTGATGGAGAGTCTCGCCCGGCTGTTGCAGGTGGAACTGGTCTGGTACCGCTATGACGATCTGGCCGCGCTCGAAGCCGCCGCCCGCGACCGGCGCATCGACCTCGCGCCTGGCCTGAGTCAGACACCGGCCGGCCTGCGCCTCTGGTTGTTTTCCGATCCCTATATGCGAGTACCGCATTTGCTCGTGGGGGAGCGCAATGGAGGCGGGGCCGTCGAGCTGGAGCAGCTCGGCATGACCGATCCGGTGGCGGTGCGCATGCCTGGCCCGGTGGCCGATTACTTGCGCGGTAACTATCCGAACCTGGCCCTGCGGGCAGCCGCGTCGGAGCGGCAGGCCTTGCAGAGCCTGCTCCGCCAGGAAGTGCGCTATGCGGTACTCGACGAAGCGCAGTTCGGCCGCCTGAGCCGAGAGCCGGAATTCGCCGGGCTGGGGATGGTCGGCGATATCGGTTTCCCCCAGTTGCTCCGCGTCGCCTCCCGCCGCGATTGGCCGCAGTTGGCCGCCGTCCTGGATGCGGCGTTGCGGGCGTTGCCGGCGAAAGAGCTGGAAGCCCTGCGCGAGCGCTGGTTGCTGCCCAAGTATCCGAGCCTCGGCGAGTCGAGGGGCTTCTGGCAGAACCTCAGCCTGCTGCTTGCCGTGCTGCTGTTGGCGACCATGGCCATCGTCGCCTGGCTGCGTCGCCAGCAGCATGTGCTGGAGACCCGGTTGGCCGATGCGCGCCATGCCATCGAGCTGCGCGACGCCGCCGAAGAGGCGCTGCGTCTGACTCAGTTCTCCGTCGACGAAAGCACCGTCGGCATCCTCTGGGTCAACTGGGATAGCCGGGTGCGTTATGCCAACCGCGCGGCCGAGGACATGCTCGGTTACGCCCAGGGGGCGTTGCTGGAGCGGCCGCTGTCCGACTTCGAGGCGAGCCTGAGCATGGATCGCTGGCTGGGGCTGTGGAAACGGGCGCGCGCCGCGGAAGGTCCGCTCAGTTTCGAGACGCAGTGCCGCCGCGCCGATGGCAGCGAACTGCCGGCCGACGTCTCCTTGAGCTTCCTGCGCTTTCGCGAAAGCGAGTACCTGCTGGTGTTTCTCACCGACGTCACCGAGCGCCGCCGTGCCCGCGCCGCGCTGGAAGAAAGCGAGGCCCGGCTGACAGGTATCGCGGCCAACGTGCCGGGGTTGGTGTTTCGTTTGGAACGGCCGCACATCGACGCCCCGGTGGTGTTCGCCTTCATCGGCGAGGGCAGCGAAAGCCTAGTCGGTTATTCGGCGAGCACCCTGCTGCAGCCGGATCGCGGCATTCGCAGTCTGGTCCACCCGGACGACCGGGCCTCCTACGAAAGCACCCAGGAACAGGCTTTGCGCGAAGAGCGCGACTGGCACTGGCAGGGTCGTATCCTGACCCAGGCCGGCGAGCCGCGCTGGGCGGATATCAAGGCCACCGCCCGGCGTTTCGACAATGGGCGCGTGGTGTGGGACGGCATCGTCTGGGACATCAGCGCGAACAAGCGGATCGAGCTGGAGCTGGCCGATTCCCGTGCGCAGCTGCGCGAGTTGTCGGCGCACCTGGAGACGGTGCGCGAGGAGGAGAAGGCGCGCATCGCCCGCGAGGTGCACGACGAACTGGGCCAGGTGTTGACCGTGCTCAAGCTGGAGACCTCGATGTGCGAGCTGGCCTACGCCGAACTCGATCCCGGCCTGGGCGAACGCCTGGACAATATGAAGCGGCTGATCGCGCAGTTGTTCCAACTGGTGCGCGACGTGGCCACCGCCCTGCGCCCGCCGATTCTGGATGCCGGTATCGCCTCGGCCATCGAATGGCAGGCCCAGCGCTTCGAGGCGCGGACGCAGATTCCCTGCCTGGTGGAGGTGCCGGAGAGCGTACCGCCCTTATCGGATGCCAAGGCCATCGGCCTGTTCCGCGTGCTGCAGGAGGCGCTGACCAACGTGATCCGGCATGCCGAAGCGCATACTGTGACGGTGCGCCTGAGCCTCGAAGCCGGCGAGTTGTGCCTGTACATCAGCGACGATGGGCGCGGGTTCAGCCCGAGCGAGCGCCGGGGCAGTTCGTTCGGGTTGGTCGGCATGCGCGAGCGGGTGCTGATGCTCGGCGGTAGGCTGAGCATCGACAGCCAGCCGGGCGAGGGCACCACGCTGCGGGTATGCATGTTTCTGGATAAGGAGGAAGCCGCGTGA	MIRPLSVVLLLAWLLPAGVFAAPPPAPLALEPAQRSWLEEHRQLRVGVVLQAPYAQYDRRLQQLAGANVELMESLARLLQVELVWYRYDDLAALEAAARDRRIDLAPGLSQTPAGLRLWLFSDPYMRVPHLLVGERNGGGAVELEQLGMTDPVAVRMPGPVADYLRGNYPNLALRAAASERQALQSLLRQEVRYAVLDEAQFGRLSREPEFAGLGMVGDIGFPQLLRVASRRDWPQLAAVLDAALRALPAKELEALRERWLLPKYPSLGESRGFWQNLSLLLAVLLLATMAIVAWLRRQQHVLETRLADARHAIELRDAAEEALRLTQFSVDESTVGILWVNWDSRVRYANRAAEDMLGYAQGALLERPLSDFEASLSMDRWLGLWKRARAAEGPLSFETQCRRADGSELPADVSLSFLRFRESEYLLVFLTDVTERRRARAALEESEARLTGIAANVPGLVFRLERPHIDAPVVFAFIGEGSESLVGYSASTLLQPDRGIRSLVHPDDRASYESTQEQALREERDWHWQGRILTQAGEPRWADIKATARRFDNGRVVWDGIVWDISANKRIELELADSRAQLRELSAHLETVREEEKARIAREVHDELGQVLTVLKLETSMCELAYAELDPGLGERLDNMKRLIAQLFQLVRDVATALRPPILDAGIASAIEWQAQRFEARTQIPCLVEVPESVPPLSDAKAIGLFRVLQEALTNVIRHAEAHTVTVRLSLEAGELCLYISDDGRGFSPSERRGSSFGLVGMRERVLMLGGRLSIDSQPGEGTTLRVCMFLDKEEAA				NA	NA	NA	NA	NA
BMS010_08470	1047			hypothetical protein	ATGCCTCGCACCGCTCGCCCCCTCTCCATTTTCTGCCTGAGCCTGTTGCTGCCCTACGCGGCCTTGCATGCCGAGGAGCAGTCCCCGCCGGCGGAGCCGCCTGCCGAGGAAGCCCCCGCAGAACCGCAAGCGACGCAGCGCAGTCCGTTGCCGGAACGCAGCCAGGACGAGGCTGCCGGACTGGAACGCCAGCTACCGCACAAGGAACAGCAGCGTCTGAAAGCCGGCGACGACGATTTCCTCGCACTCTGGCAACCGGCCAATACCGGTACGCCGAAGGGGGTGGTGATCCTGCTCCCCGGCGACTCGGAGAGCGCCGATGCCCCTCAGGCCATCGGTCCGCTGCGGCGCAAGTTGCCGGATGCCGGCTGGCACACCCTGAGCCTGACCTTGCCCGACCCGCTGGACGACTTGCCGCCACCCCGCCCCGTCGGGCAACCGGCAGAACCGACGGAAAGCGTCGAGGCAGGCGAGGCGACATCGAAGGAAGAAGCCGAGGCCCCCGTCCCGGAGGCGCCAACGAACCCCGCCGAAGCCGGTGGCATGCAAGCCCCGGAAGCGGCCACTGCCCCGGCCGAGACGACACCCACGGAAACCCCGGAGGCTCGTCGACAGGCTCATATGGAAAAGGTATTGGCGCGCATCCAGAGCGGCGTCGACTTCGCCCTGGAACAGAACGCCAGCGAGATCGTGCTGCTCGGCCACGGCACTGGCGCCTACTGGGCAGCCCAGTACCTCGCCGAGCGCAAGCCGGAGCGCATCCAGAACCTGCTGATGGTGGCAGCACGTGTCCCGAGCGGATTCGCGCCGGAGCTGGAGGACCTGGTGCCGGCACTGAAGCTAGCCACCGGCGACTTCTACTACAAGGACCAACCCGCCGACCGCAACGCCGCGGCGCAGCGCATGCAGGCCGGTAAACGCCAGCAGCACCCGGCCTACATTCAGATCGCCATGAAAGCCCTGCCCGGAAATTCAGCTGCGGAACAGGAACAGCTTTACCGGCGCATCAAGGGCTGGCTGATGCTGCACGTCCGGGCCAAGGGATAA	MPRTARPLSIFCLSLLLPYAALHAEEQSPPAEPPAEEAPAEPQATQRSPLPERSQDEAAGLERQLPHKEQQRLKAGDDDFLALWQPANTGTPKGVVILLPGDSESADAPQAIGPLRRKLPDAGWHTLSLTLPDPLDDLPPPRPVGQPAEPTESVEAGEATSKEEAEAPVPEAPTNPAEAGGMQAPEAATAPAETTPTETPEARRQAHMEKVLARIQSGVDFALEQNASEIVLLGHGTGAYWAAQYLAERKPERIQNLLMVAARVPSGFAPELEDLVPALKLATGDFYYKDQPADRNAAAQRMQAGKRQQHPAYIQIAMKALPGNSAAEQEQLYRRIKGWLMLHVRAKG				NA	NA	NA	NA	NA
BMS010_08471	768	djlA_2	COG1076	Co-chaperone protein DjlA	TTGTTCTGGCCGACCACTCTGCTCGGTGCGCTGGTCGGTTTGGCCCTGGCCAGCATTCCGGGGGCTTTGCTGGGCGGATTGCTCGGGCAGGTCCTGGATCGACGCCTCCAGCTCGATTCCTGGGCTAGCCTGCGGGAGCGCCTCGGCGGCACGCCGGCCCCTCGTTCGGATGAATTGCTGTTTATCCTGCTCGGCCGTCTGGCCAAGAGCGACGGGCGTGTGAGCGAGGCGCATATCCAGCAGGCGCGGGCTGAGATGCGCCGCCTGGGCCTGAACGAGACGGCCACGCGTGCGGCCATCGAAGCCTTTTCCAGGGGCAAGGCCGGTGAGGATGGGCTGCGAGCCCCACTGCGGCGGCTGCGCGGCCAGCGTGCGGAGGCGGAACGGCTCCTGCGCTGTTGCTGGCGCATGGCCGCGGCCGATGGTCGGATCGGATCGCGTGAGCGGGAATTGATCCTGCTCTGGGGAAAATGGCTGGGGTGGACCACACCGGAGGTGGAGGCGCTGGAAGTGCGCTGCGAATCGCCAAAGGCGCCTCCTGCCACAGCCGGCAGCGCCTACCTGGAAGCGCTTCGCCTGCTGGCGGTCAGCCCCGACAGCGAGCCGGAGACCATCAAGCGGGCCTATCGCCGACTGCTCAGCCGTCACCATCCGGACAAGCTGGCCGGCGCTGGGGCGAGCCCGGCGCGGGTTCGCGAAGCCACCGACAAGACGCGCGAGTTGCACAATGCTTATGCATTGATCCGTGAGCGCCACGGGTTCCGCTGA	MFWPTTLLGALVGLALASIPGALLGGLLGQVLDRRLQLDSWASLRERLGGTPAPRSDELLFILLGRLAKSDGRVSEAHIQQARAEMRRLGLNETATRAAIEAFSRGKAGEDGLRAPLRRLRGQRAEAERLLRCCWRMAAADGRIGSRERELILLWGKWLGWTTPEVEALEVRCESPKAPPATAGSAYLEALRLLAVSPDSEPETIKRAYRRLLSRHHPDKLAGAGASPARVREATDKTRELHNAYALIRERHGFR	PGPT0014550_856	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014550-djlA-K05801	NA	NA
BMS010_08472	672	murU_2	COG1208	N-acetylmuramate alpha-1-phosphate uridylyltransferase	ATGAAGGCGATGATCCTGGCCGCTGGCAAGGGCGAACGGCTGCGCCCGCTGACGCTGCATACCCCCAAGCCCCTGGTGCGGGCGGCCGGCGTGCCGCTCATCGAGTATCACCTGCGCAACCTCGCTGCGGCTGGTTTTCGCCAGTTGGTGATCAACCATGCCTGGCTCGGCGAGCAGATCGAAAACCACCTGGGCGACGGCGCGCGCTTCGGCCTGGAGATCGCCTATTCCGCCGAAGGGGAACCGCTGGAGACCGGTGGCGGCATTTTCCGCGCCTTGCCGTTGCTTGGCGATGAGCCGTTCCTGGTGGTCAACGGCGATATCTGGACCGACTATGACTTTTCCTCGTTGCGCCGTCCGCTGACCGACTTGGCCCATCTGGTGCTGGTGGATAATCCGGCTCATCACGCCGGGGGCGATTTCCGCCTGTACGACGGCCAGGTGGAGGACGCCATCGCCGGCCAGCCCAGCCTGACCTACAGTGGCATCGCGGTGTTGCACCCGCGCTTGTTCGCCGGCTGCCGGGACAGCGCCTTCAAGCTGGCGCCCCTGCTGCGCGACGCCATGCGCGAGGGGCTGGTGAGCGGCGAGCACTTCCGCGGGCGCTGGGTCGATGTGGGCACCCACGAGCGGCTGGCCGACGTCGAGCGCCTGTTGGCGTCGGAGGTCTGA	MKAMILAAGKGERLRPLTLHTPKPLVRAAGVPLIEYHLRNLAAAGFRQLVINHAWLGEQIENHLGDGARFGLEIAYSAEGEPLETGGGIFRALPLLGDEPFLVVNGDIWTDYDFSSLRRPLTDLAHLVLVDNPAHHAGGDFRLYDGQVEDAIAGQPSLTYSGIAVLHPRLFAGCRDSAFKLAPLLRDAMREGLVSGEHFRGRWVDVGTHERLADVERLLASEV	PGPT0019055_1350	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_MURAMATE_DEGRADATION,PGPT0019055-murU-K00992	NA	NA
BMS010_08473	1026	amgK	COG3178	N-acetylmuramate/N-acetylglucosamine kinase	ATGCGTGATGAAGATGTACGCCTCCAGCAACTGACCGGCTGGCTGGATCAGCAGTTGCCTGCCTTGTTCGCCGCCGAAGGGTGGGGGGCGGTGACGTCCGGCCGTCTGACGCCTGCCAGCAGCGATGCGAGTTTCCGCCGTTACTTCCGCTGGGAGGACGGCACCCGCAGCTTGATTCTCATGGATGCGCCGCCACCGCAGGAAAACTGCGCGCCCTTCGTCAAGGTCGCCGGCCTGCTGGCGGGCTCCGGTGTGCATGTGCCGCGGATTCTCGCCGCGGACCTGGAGCGAGGCTTCCTGCTGCTCGACGATCTGGGGCGGCAGACTTACCTCGACGTGATCGATGCGGACAATGCCGAAGCGCTGTTCGAGGATGCCATCAAAGCCTTGCTGGCGTTCCAACGCCTGCCGCTGGATGCCGGGTTGCCCTGCTACGACGACGCCCTGTTGCGGCGTGAATTGCAACTGTTCCCCGACTGGTACCTGCAACGTCATCTGGACATCAGCCTGGAAGGAGAAACGCTGGCTGCCTGGCAGCGGGTCTGCGACCTGCTGGTCGAGAGCGCCCTGAGCCAGCCCCGGGTGTTCGTGCACCGCGACTTCATGCCACGCAATCTGATGCTGAGCCGACCCAATCCGGGCATCCTGGATTTCCAGGACGCGGTGTACGGGCCGGTCACCTATGACATCACCTGCCTGTTCAAGGATGCCTTCCTCAGTTGGCCTGAGCCGCGTGTGCAGGACTGGCTGCTGCGTTACTGGCGTCGTGCGACCGAGGCCGGCGTACCGGTACAGGAGAGTTTCGACGCCTTCTACCGCGCCAGCGATCTGATGGGCGTACAGCGGCACCTGAAGGTGATCGGCATCTTTGCCCGCATCTGCCATCGCGACGGCAAGCCGAAGTACCTCGGCGACGTGCCGCGCTTCTTCCGTTATATCGAGGCGGTGATCGCGCGCCGGCCCGAGCTGGCCGAGCTGGGACGGTTGCTTGCTTCCCTGCCGGGTACCGAGGCGGTGATGCCATGA	MRDEDVRLQQLTGWLDQQLPALFAAEGWGAVTSGRLTPASSDASFRRYFRWEDGTRSLILMDAPPPQENCAPFVKVAGLLAGSGVHVPRILAADLERGFLLLDDLGRQTYLDVIDADNAEALFEDAIKALLAFQRLPLDAGLPCYDDALLRRELQLFPDWYLQRHLDISLEGETLAAWQRVCDLLVESALSQPRVFVHRDFMPRNLMLSRPNPGILDFQDAVYGPVTYDITCLFKDAFLSWPEPRVQDWLLRYWRRATEAGVPVQESFDAFYRASDLMGVQRHLKVIGIFARICHRDGKPKYLGDVPRFFRYIEAVIARRPELAELGRLLASLPGTEAVMP	PGPT0019050_853	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_MURAMATE_DEGRADATION,PGPT0019050-amgK-K07102	NA	NA
BMS010_08474	2766	lptD_2	COG1452	LPS-assembly protein LptD	ATGGCAGTACATTCTCCCGCGTTTCGTAAGAAATTCCCTCTGCTGGTTACCGGCAGTCTGCTGGCCATGCAGCCCGTAGCCGCTCCCTTTGTTTTCGCTGCCGAGCAATTCGACTGCAAGGCCTCCGCCACCGGCGGCTGGGCCTGCGCACCGAGCGCACCGGCCGCAGCGCTGCCGCCACGCCCGGTGCACAGTGCCACTGCCGTCAGCTCCGGCGTCGCCTCCGGCACCGTCCAGGGGAGCAGTGCCCAGCAGCAGGCCGCCGCGCCCACGCTGGTCACCGAGAGCAAGGGCAAGGGCCTGGCGTCCCGTAGCGCCGACTATAGCCACCTGGACTGGGTCCCGCGCGAAAACCTCACGCCCGCTCAACTGGCGGAAGCCGGTCCTTACTGCGCCGGCGCCTACGTAGAGCCGGTCCGTCCAGGCATGGACGATACCACCCCGCTGAACGAAGCACCGATGTACCTCTCGGCCAAGGCCTCGCGCTACGAGCAGGAACAACAGGTCGCGACGCTCGCCGGCGACGTGGTGATGCGCCAGGGCAGCATGCAGGTGGAAGCCGACGAGGCCAACCTGCGCCAGGCGGAAAACCGTGGCGAACTGGTGGGCAATGTCCGCCTGCGCGACAAGGGCACGCTGGTGGTCGGCGACCGCGCCGAACTGCAGTTGGACAACGGCGAAGCCAAGATCGACAACGCCGAGTACGTCATCCACCAGGGCCACGTCCGCGGCAGCGCGCTGTATGCCAAGCGCGAGGAAACCGCGATCATCCGGCTCAAGGACGGTACCTACACCCGTTGCGAGCCGGGCAGCAACGCCTGGCACCTGAAGGGCAACAACGTCACCTTGAACCCGGCCACCGGCTTCGGTACCGCGACCAACGTGACCCTGCGGGTGAAGGACATTCCGGTCTTCTACACCCCCTACATCTATTTCCCGATCGACGACCGCCGCCAATCCGGCTTCCTGGCGCCGAGCATCAGCACGTCGAGCGACACTGGCCTCTCGTTGAAGACGCCGTACTACTTCAACCTGGCGCCGAACTACGATGCCACCCTCTACCCGACCTACATGGCCAAGCGCGGCCTGTTGATGGAAGGCGAACTCCGCTACCTGACCAAGAGCAGCGAAGGCCTGGTGGGTGGCGCCTGGCTGGACGACAAGGAGGACGAGCGCAAACTGCAGTCCGAATACGAAGACCAGCGCTGGATGTATACCTGGCAGCACAAGGGTGGCCTGGACTCCCGTCTGCTGACCGAAGTCGACTACACCGACATCAGCGACCCCTATTACTTCCAGGATCTCGACAGCGACCTGGAAATCAGCTCGAACACCTTCGTGAACCAGCGCGGCACGCTGACCTGGCGCGGCGACAACTACACCGCCCGCCTCAATGCGCATGCCTATGAAATGGCCACGGTGACCGACATCACCCCGTACGAGCGCCTGCCGCAAGTCACCTTCAACGGTGCCCTGCCGTTCCAGCCGGGCGGGCTTAACTTCTCCTACGGCACCGAGTTCGTGCGTTTCGACCGCGACCTGCGCAGTGGCAACTTCATCAACGAAGACGGCGTCGCAGAGAGCTGGTACGACAACAATGTCCGCGGCATCGCCCGCGCCAATGGCGATCGTATCCACCTGGAGCCGGGCATCAGCCTGCCGCTGAACTGGACCTGGGGCTTCCTCAAGCCCTCGCTCAAGTACGCCTACACCCAGTACGACCTGACCCTGGACTCCATCGGCAAGAGTCAGATCGCCGGCAACTTCGAAGACTCCCCGGACCGCAGCGTACCGATCTTCGGCCTCGACGGCGGCCTGTACTTCGACCGCGACACCCAGCTGTTCGGCCATTCCTTCCGCCAGACCCTCGAACCGCGTGCGTTCTATCTCTACGTGCCGAAAGAGGATCAGGACGACATCCCGGTGTTCGACACCAGCGAAAGCAGCTTCAGCTATGCCTCGCTGTGGCGTGACAACCGCTTCTCCGGCAAGGACCGCATCGGCGACGAAAACCGTCTGTCCCTGGGCGTGACCAGCCGCTGGATCGAGCCGAACGGCTTCGAACGCCAGCGCGTCAGCCTCGGCCAGGCTTTCTACTTCGCCGACCGCAAGGTGCAGATGCCGGGTATCGACTACCGCACCCGCGACGACGCGCAGAGCGATGTATCGCCCTACGCACTGGAATACCTGTACCGCTTCAACCGCGACTGGCGCCTGTCCTCCACCTACAACTGGGACCCGGACAGCCACAGCACCCGCTCCGGCAGCCTGATGTTCCACTACCAGCCGGAAGACAACCCGAACAAGGTGGTCAACGTCGGCTATCGCTACCGCAACGACACGGTGCGCTACGACCAGGCCACCGGTACCTGGAAGTTCGGCGGCGACTTCGGCACACCCGGCAGCGACAACTACATCAAGGACTACTACAAGATCGACCAGCATGACTTTTCGGTCATCTGGCCACTGGTCCCGCAGTGGAGCGCCATCGCCCGCTGGCAGTTCGACTACAACCGCAGCCGCACCCTGGAAGCCTTCGGTGGTTTCGAATACGACAGCTGCTGCTGGAAACTGCGCCTGATCAACCGCTACTGGGTCGACTACGACGAAAACAGCCTGAACCCGGACCTCAACGAAGAAGCCGACCGCGGCATCTTCCTGCAGATCGTGCTGAAGGGCCTCGGTGGGGTCGTTGGCAACAAGGTAGAGTCTTTCCTCGACCAAGGCATTCAAGGTTACCGTGAACGTGAAGACCAAGCTTTCTGA	MAVHSPAFRKKFPLLVTGSLLAMQPVAAPFVFAAEQFDCKASATGGWACAPSAPAAALPPRPVHSATAVSSGVASGTVQGSSAQQQAAAPTLVTESKGKGLASRSADYSHLDWVPRENLTPAQLAEAGPYCAGAYVEPVRPGMDDTTPLNEAPMYLSAKASRYEQEQQVATLAGDVVMRQGSMQVEADEANLRQAENRGELVGNVRLRDKGTLVVGDRAELQLDNGEAKIDNAEYVIHQGHVRGSALYAKREETAIIRLKDGTYTRCEPGSNAWHLKGNNVTLNPATGFGTATNVTLRVKDIPVFYTPYIYFPIDDRRQSGFLAPSISTSSDTGLSLKTPYYFNLAPNYDATLYPTYMAKRGLLMEGELRYLTKSSEGLVGGAWLDDKEDERKLQSEYEDQRWMYTWQHKGGLDSRLLTEVDYTDISDPYYFQDLDSDLEISSNTFVNQRGTLTWRGDNYTARLNAHAYEMATVTDITPYERLPQVTFNGALPFQPGGLNFSYGTEFVRFDRDLRSGNFINEDGVAESWYDNNVRGIARANGDRIHLEPGISLPLNWTWGFLKPSLKYAYTQYDLTLDSIGKSQIAGNFEDSPDRSVPIFGLDGGLYFDRDTQLFGHSFRQTLEPRAFYLYVPKEDQDDIPVFDTSESSFSYASLWRDNRFSGKDRIGDENRLSLGVTSRWIEPNGFERQRVSLGQAFYFADRKVQMPGIDYRTRDDAQSDVSPYALEYLYRFNRDWRLSSTYNWDPDSHSTRSGSLMFHYQPEDNPNKVVNVGYRYRNDTVRYDQATGTWKFGGDFGTPGSDNYIKDYYKIDQHDFSVIWPLVPQWSAIARWQFDYNRSRTLEAFGGFEYDSCCWKLRLINRYWVDYDENSLNPDLNEEADRGIFLQIVLKGLGGVVGNKVESFLDQGIQGYREREDQAF	PGPT0023298_120	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_TRANSPORT,PGPT0023298-lptD|imp|ostA-K04744	NA	NA
BMS010_08475	1314	surA_3	COG0760	Chaperone SurA	GTGAACGTGAAGACCAAGCTTTCTGATTGTCTGCGCCCGCTGCTGCTGGGCGCCCTCCTCTTGGGGAACGCAACGCTCAGCACCACGGCCACGGCCGAGGTGCGCCCGCTGGACCGGGTCGTGGCCATCGTCGATAACGACGTGATCATGCAGAGCCAACTGGATCAGCGCCTGCACGAAGTGCAGCAGACCATCGCCAAGCGCGGTGCCGCACTGCCGCCCGAACACGTTCTGAGCCAACAGGTGCTGGAGCGGCTGATCATCGAGAACATCCAGCTGCAGATCGGCGAACGCTCCGGCATCCGCATCACCGATGAAGAACTGAACCAGGCCATCGGCACCATCGCCCAGCGCAACGGCATGACGGTCGAGCAGTTCCGCGCCGCCCTCGCCCAGGATGGCCTGTCCTTCGCCGATGCCCGCGACCAGGTGCGTCGCGAGATGATCATCAGCCGCGTGCGCCAGCGTCGGGTCGCCGAGCGCATCCAAGTCACCGACCAGGAAGTCCAGAACTTCCTCGCCTCCGATCTCGGTAAGATGCAGCTCTCCGAAGAGTTCCGCCTGGCCAATATTCTGATCCCGGTACCGGACGGTGCTCCGTCGGACACCATCCAGGCCGCAGAACGCCAGGCCCAGGACCTCTACCAGCAGCTCCGCCAGGGAGCCGACTTCGCCCAGCTGGCGATCGCCCGCTCGGCCAGCGAAACCGCCCTGGAAGGCGGCGACATGGGCTGGCGCAAGGCTGCGCAACTGCCGCCGCCGTTCGACAGCATGATCAGCGCCCTGTCGGTCGGCGAAGTGACCGAACCAATGCGCACCCCGGGCGGCTTCATCATCCTCAAGCTGCTCGACAAGCGCGGCGGCGGCACTCAGGTACGTGACGAAGTGCATGTCCGCCACATCCTGATCAAGCCCAGCGAAATCCGTAGCGAAGAAGAGACCCGTCGCCTGGCCGAGCGCCTGTACGAGCGCATCAAGTCCGGTGAGGACTTCGCCGAACTGGCGAAGAGCTTCTCCGAAGACCCGGGCTCGGCACTCAACGGCGGCGATCTCAACTGGATCGATCCGAACGCGTTGGTGCCGGAATTCCGCGAGGTCATGGCCAATACCGCGAGCGGCGAAATCTCCAAGCCGTTCAAGAGCCCCTATGGCTGGCATGTCCTGCAAGTGCTGGGACGCCGCGCCACCGACAGCAGCGAACAGTTCCGCGAGCAACAGGCGATGAACCTGCTGCGTAACCGCAAGTACGACGAAGAACTGCAAGCCTGGTTGCGCCAGATCCGCGACGAGGCCTACGTGGAAGTCAAACTGTGA	MNVKTKLSDCLRPLLLGALLLGNATLSTTATAEVRPLDRVVAIVDNDVIMQSQLDQRLHEVQQTIAKRGAALPPEHVLSQQVLERLIIENIQLQIGERSGIRITDEELNQAIGTIAQRNGMTVEQFRAALAQDGLSFADARDQVRREMIISRVRQRRVAERIQVTDQEVQNFLASDLGKMQLSEEFRLANILIPVPDGAPSDTIQAAERQAQDLYQQLRQGADFAQLAIARSASETALEGGDMGWRKAAQLPPPFDSMISALSVGEVTEPMRTPGGFIILKLLDKRGGGTQVRDEVHVRHILIKPSEIRSEEETRRLAERLYERIKSGEDFAELAKSFSEDPGSALNGGDLNWIDPNALVPEFREVMANTASGEISKPFKSPYGWHVLQVLGRRATDSSEQFREQQAMNLLRNRKYDEELQAWLRQIRDEAYVEVKL	PGPT0014978_1549	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014978-surA-K03771	NA	NA
BMS010_08476	990	pdxA_2	COG1995	4-hydroxythreonine-4-phosphate dehydrogenase	GTGACGCCACGGCGCTTCGCCCTGACGCCCGGCGAGCCGGCCGGCATAGGCCCCGACCTGTGCCTGCTGCTCGCCGGGCAGCCCCACCCTCACCCCCTCATTGCCGTCGCCAGTCTGGACCTGCTCGTGCAGCGGGCCGCCCAGTTGAACCTCTCGGTCCGGCTCTTGCCCGTGCCCCCGGATAGCTGGCCCGACGAACCCGCACCCGCCGGCAGCCTGTACGTCTGGGATACACCTCTGCGTGCCCCGACCACTCCCGGGCGACTGGACAGAGCCAACGCCGCCTATGTGCTGGAAACCCTGACCCGGGCCGGCCAAGGCTGCCTGGACGGTCATTTCGCCGGCATGATCACCGCCCCGGTACACAAGGGTGTGATCAACGAGGCGGGCATCGCATTTTCCGGGCACACCGAATTCCTCGCCGAACTGACCGGCACCGAACAAGTGGTGATGATGCTAGCCACACGCGGTTTGCGCGTCGCCCTGGTAACTACCCACCTGCCGCTGAAAGACGTCGCCTCGGCCATCACTGCCGAGCGGCTGAGCCGTGTCGCGCGCATTCTGCATGCCGACCTACGCGACAAGTTCGGCATTGCCCGACCGCGCATCCTGGTTTGTGGCCTCAATCCGCACGCCGGAGAAAGCGGTCACCTCGGGCGCGAAGAAATCGAGGTGATCGAGCCCGCTCTGGAAACCCTGCGCCAGGAAGGTCTCGACCTGATCGGCCCGCTGCCGGCGGATACCCTGTTCACCCCGAAATATCTGGAGCATTGCGACGCGGTCCTGGCGATGTACCACGACCAGGGTCTACCGGTGCTCAAGTACAAGGGCTTCGGTGCAGCGGTGAACGTGACCCTCGGTCTGCCCATTGTCCGTACGTCGGTGGACCACGGCACCGCCCTGGATCTCGCCGCGACCGGCAAGGTCGACACCGGCAGCCTCGCCGTGGCACTGGAAACGGCCTACGAAATGACCGGCAGACGCCCCTAG	MTPRRFALTPGEPAGIGPDLCLLLAGQPHPHPLIAVASLDLLVQRAAQLNLSVRLLPVPPDSWPDEPAPAGSLYVWDTPLRAPTTPGRLDRANAAYVLETLTRAGQGCLDGHFAGMITAPVHKGVINEAGIAFSGHTEFLAELTGTEQVVMMLATRGLRVALVTTHLPLKDVASAITAERLSRVARILHADLRDKFGIARPRILVCGLNPHAGESGHLGREEIEVIEPALETLRQEGLDLIGPLPADTLFTPKYLEHCDAVLAMYHDQGLPVLKYKGFGAAVNVTLGLPIVRTSVDHGTALDLAATGKVDTGSLAVALETAYEMTGRRP	PGPT0009165_1616	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009165-pdxA-K00097	NA	NA
BMS010_08477	807	rsmA_2	COG0030	Ribosomal RNA small subunit methyltransferase A	GTGTCCGAGCTATACCAACACCGCGCGCGCAAGCGTTTCGGCCAGAACTTTCTGCACGACGCCGGCGTGATCCACCGGATTCTCCGCTCGATCAATGCTCGTGAGGGAGATCGCCTGGTGGAGATCGGCCCGGGCCAGGGCGCGCTGACCGAAGGGCTGCTGGCCAGCGGCGCCCGTCTCGATGTGATCGAGCTGGACCTCGACCTGATCCCGCTGCTCAAGCTCAAGTTCGGTATTCATCCCGGCTTCACCCTGCACCAGGGCGATGCACTGAAGTTCGACTTCGCCAGCCTCGACGCCGCCCCGCGCAGCCTGCGGGTGGTCGGCAACCTGCCGTACAACATCTCCACGCCACTGATCTTCCATCTGCTGGAACATGCCGGGCTGATCCGTGATATGCATTTCATGCTGCAGAAGGAAGTGGTCGAACGCCTGGCCGCCGAGCCGGGCGGCGGCGACTGGGGCCGTTTATCGATCATGGTGCAGTATCACTGCCGGGTCGAGCACCTGTTCAACGTCGGACCGGGCGCCTTCAACCCGCCGCCGAAAGTCGATTCGGCCATCGTCCGCCTGGCCCCCCATGAGACGCTGCCGCACCCGGCCAAGGACGTCCGCCAACTCGAGCGGGTGGTCCGCGAGGCGTTCAACCAGCGACGCAAAACGCTGCGCAATACCTTGAAAGGCCTGCTCGACAAAGATGCCATCGAAGCCGCCGGGGTGGACGGCAGTCTGCGCCCCGAACAACTGGACCTCGCGGCCTTCGTCCGTCTGGCCGATCAGCTGGCCGGGCAGACAAGCCCCGGCTGA	MSELYQHRARKRFGQNFLHDAGVIHRILRSINAREGDRLVEIGPGQGALTEGLLASGARLDVIELDLDLIPLLKLKFGIHPGFTLHQGDALKFDFASLDAAPRSLRVVGNLPYNISTPLIFHLLEHAGLIRDMHFMLQKEVVERLAAEPGGGDWGRLSIMVQYHCRVEHLFNVGPGAFNPPPKVDSAIVRLAPHETLPHPAKDVRQLERVVREAFNQRRKTLRNTLKGLLDKDAIEAAGVDGSLRPEQLDLAAFVRLADQLAGQTSPG				NA	NA	NA	NA	NA
BMS010_08478	381	apaG_1	COG2967	Protein ApaG	ATGTCCAACCCTCGTTATCAGATCGACATCAGCGTCGTCACCCGCTATCTCCCGGAACAGTCGCAACCGGACCAGAACCGTTTCGCCTTCGCCTACACGGTCACGATCCACAACAGCGGCGAGCTTGCAGCGCAGTTGCTGTCGCGGCATTGGGTCATCACCGATGGCGACGGCCGCATCCAGGAAGTCCGCGGTGCCGGCGTGGTGGGTCAGCAGCCCCGGATCGAGCCGGGCCAGAGCCACACCTACAGCAGCGGGACGGTCATGGCCACCCGCGTCGGCAACATGCACGGCAGCTACCAGATGCTCGCCGACGACGGGAAACGCTTCGAAGCGCCCATCGCCCCGTTCCGCCTCGCCGTACCGGGAGCCCTGCACTGA	MSNPRYQIDISVVTRYLPEQSQPDQNRFAFAYTVTIHNSGELAAQLLSRHWVITDGDGRIQEVRGAGVVGQQPRIEPGQSHTYSSGTVMATRVGNMHGSYQMLADDGKRFEAPIAPFRLAVPGALH	PGPT0004665_1205	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-RELATED_ROTEINS,PGPT0004665-apaG-K06195	NA	NA
BMS010_08479	822	apaH_2	COG0639	Bis(5'-nucleosyl)-tetraphosphatase, symmetrical	ATGGCGCTGTATGCCGTCGGTGACCTGCAGGGTTGCCTGGACCCGCTGAAATGCCTGCTCGACCGGGTGAACTTCGATCCGGCCCGCGACCACCTGTGGCTGGTGGGCGATCTGGTCAACCGTGGCCCGCAATCCCTGGAAGCCCTGCGTTTCCTTTATGCCATGCGCGAGTCGGTGACCTCCGTGCTGGGCAACCATGACCTGCATCTGCTGGCGGTGGCGCACAACATCGAACGCCTGAAGAAAGGCGACACCCTGCGCAAGATTCTCGAAGCCCCGGACCGCGACGACCTGCTCGACTGGCTGCGCCGCCAGAAACTGATGCACTACGATGCCGAACGCGACATCGCCCTGGTGCACGCCGGCATCCCCCCGCAGTGGAGCCTGAAAAAAGCGCTCAGGCGCGCCGCCGAAGTGGAAGAAGTCTTGCTGGATGACGCCCGCCTGCCGCTGTTCCTCGACGGCATGTACGGCAACGAGCCGGCCAAGTGGGACAAGGATTTGCACGGGGTGACGCGTTTGCGGGTCATCACCAACTATTTCACCCGCATGCGCTTCTGCACCGCGGACGGCACCTTGGACCTGAAAAGCAAGGAAGGCGTGGACAGCGCCCCGCCCGGCTATGCCCCCTGGTTCAGCCACCCGAACCGCAAGACTCGCGGCCAAAAGCTGATCTTCGGCCACTGGGCCGCCCTCGAAGGCCGCTGTGACGAACCCGGACTGTTCGCACTGGACACCGGCTGCGTCTGGGGCGGCGCCATGACGCTGCTCGATGTGGACAGCGGCCGGAAGTACCGCTGCGACTGCCCGGCGCAACGATAA	MALYAVGDLQGCLDPLKCLLDRVNFDPARDHLWLVGDLVNRGPQSLEALRFLYAMRESVTSVLGNHDLHLLAVAHNIERLKKGDTLRKILEAPDRDDLLDWLRRQKLMHYDAERDIALVHAGIPPQWSLKKALRRAAEVEEVLLDDARLPLFLDGMYGNEPAKWDKDLHGVTRLRVITNYFTRMRFCTADGTLDLKSKEGVDSAPPGYAPWFSHPNRKTRGQKLIFGHWAALEGRCDEPGLFALDTGCVWGGAMTLLDVDSGRKYRCDCPAQR	PGPT0021535_1229	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021535-apaH-K01525	NA	NA
BMS010_08480	330	glpE_2	COG0607	Thiosulfate sulfurtransferase GlpE	ATGAGCGATTTCAAACGCATCCCACCGCAACAGGCCCAGGCGCTCCGCGAGCAGGGCGCCGTGGTAGTGGATATCCGCGACCCGCAGAGCTTCGCCAATGGCCACATCGCCGGTTCCCGGCATCTGGACAACCACTCCCTGGCCGACTTCATCGCCCACGCCGACTTCGATCGGCCGCTGATCGTCGCCTGCTACCACGGTAACTCCAGCCAGGGGGCGGCCGCTTACCTCGCCCACCAGGGCTTCGCCGAGGTCTACAGCCTCGACGGCGGCTTCGAACTCTGGCGCGCGACCTACCCCAACGAGACGGCCACAGGCCAGGAAGAATAA	MSDFKRIPPQQAQALREQGAVVVDIRDPQSFANGHIAGSRHLDNHSLADFIAHADFDRPLIVACYHGNSSQGAAAYLAHQGFAEVYSLDGGFELWRATYPNETATGQEE	PGPT0003021_198	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-THIOSULFATE_DEGRADATION,PGPT0003021-glpE-K02439	NA	NA
BMS010_08481	1923			hypothetical protein	ATGAGTATTTTCAGCCACTTCCAGCAGCGCTTCGAGACGACACGTCAGGAGGAGTATTCCCTTCAGGAGTACCTCGATCTGTGCAAACAGGATCGCAGTGTCTACGCCACGGCCGCCGAGCGCATCCTCATGGCCATCGGCGAGCCTGAGCTGCTGGATACCTCCACCGACTCGCGGTTGTCGCGAATCTTCTCCAACAAGGTGATCCGCCGCTACCCGGCCTTCGCGGACTTCCATGGCATGGAAGAATGCATCGACCAGATCGTCGCGTTCTTCCGCCATGCCGCCCAGGGCCTGGAAGAGAAGAAACAGATTCTTTACCTGCTGGGTCCGGTCGGTGGCGGCAAGTCGTCGCTGGCTGAAAAGCTCAAGCAACTGATCGAGAAGGTCCCTTTCTATGCGATCAAAGGCTCCCCGGTCTTCGAATCGCCGCTGGGCCTGTTCAACGCGGACGAAGACGGCGCCATCCTCGAAGAGGACTACGGCATCCCGCGCCGCTACCTCAACACCATCATGTCGCCCTGGGCGACCAAGCGCCTGACCGAGTTCGGCGGCGACATCAGCCAGTTCCGGGTGGTGAAGCTCTACCCCTCGATCCTCAACCAGATCGCGGTGGCCAAGACCGAGCCGGGCGACGAGAACAACCAGGACATCTCCGCCCTGGTCGGCAAGGTGGATATCCGCAAGCTGGAGGAATTCCCGCAGAACGACGCCGACGCCTATAGCTACTCGGGCGCACTGTGCCGGGCCAACCAGGGCCTGATGGAGTTCGTCGAGATGTTCAAGGCGCCGATCAAGGTCCTGCACCCCTTGCTCACCGCCACTCAGGAAGGCAACTACAACAGCACCGAAGGCCTCGGGGCCATTCCGTTCAGCGGAATCATCCTGGCCCACTCCAACGAATCCGAGTGGCACAGCTTCCGCAACAACAAGAACAACGAGGCCTTCATCGACCGTATCTACATCGTCAAGGTGCCGTACTGCCTGCGCGTCACCGACGAAATCAAGATCTACGACAAGCTGCTGGCCAACAGCTCGCTGTCGAAGGCCCACTGCGCCCCGGATACCCTGCGCATGCTTGCCCAGTTCTCGGTGCTGTCGCGCCTGAAGGAGCCGGACAACTCCAACATCTATTCGAAGATGCGCGTCTACGACGGGGAGAACCTGAAGGACACCGATCCCAAGGCCAAGTCGATCCAGGAATACCGCGACAACGCCGGCGTGGACGAAGGCATGAACGGCTTGTCGACCCGCTTCGCCTTCAAGATCCTGTCCAAGGTTTTCAACTTCGACCCGCACGAGATCGCCGCCAACCCGGTGCACCTGTTGTACGTGCTGGAACAGCAGATCGAGCAGGAACAGTTTCCGCCGGAAGTACGCGAGCGCTATCTGCGCTACCTCAAGGAATACCTGGCACCGCGCTATATCGAGTTCATCGGCAAGGAAATCCAGACCGCCTACCTCGAGTCCTACAGCGAGTACGGCCAGAACATCTTCGACCGCTACGTGCTCTACGCCGACTTCTGGATTCAAGACCAGGAATACCGCGACCCGGAAACCGGCGAAATCCTCAACCGCGTCGCCCTCAACGAGGAACTGGAAAAGATCGAGAAACCGGCCGGCATCAGCAACCCGAAGGATTTCCGCAACGAGATCGTCAACTTCGTGCTGCGCGCCCGGGCCAACAACAACGGCAAGAACCCGACCTGGCTCAGCTACGAGAAGCTGCGCGTGGTCATCGAGAAGAAGATGTTCTCGAACACCGAGGATCTCTTGCCGGTGATCAGCTTCAATGCCAAGGCAAGCAAGGAGGATCAGCAGAAGCACAACGACTTCGTCAAGCGCATGGTCGAGCGCGGCTATACGGAGAAGCAAGTCAGGCTGTTGTCCGAGTGGTATCTGCGGGTGCGCAAATCGCAGTAA	MSIFSHFQQRFETTRQEEYSLQEYLDLCKQDRSVYATAAERILMAIGEPELLDTSTDSRLSRIFSNKVIRRYPAFADFHGMEECIDQIVAFFRHAAQGLEEKKQILYLLGPVGGGKSSLAEKLKQLIEKVPFYAIKGSPVFESPLGLFNADEDGAILEEDYGIPRRYLNTIMSPWATKRLTEFGGDISQFRVVKLYPSILNQIAVAKTEPGDENNQDISALVGKVDIRKLEEFPQNDADAYSYSGALCRANQGLMEFVEMFKAPIKVLHPLLTATQEGNYNSTEGLGAIPFSGIILAHSNESEWHSFRNNKNNEAFIDRIYIVKVPYCLRVTDEIKIYDKLLANSSLSKAHCAPDTLRMLAQFSVLSRLKEPDNSNIYSKMRVYDGENLKDTDPKAKSIQEYRDNAGVDEGMNGLSTRFAFKILSKVFNFDPHEIAANPVHLLYVLEQQIEQEQFPPEVRERYLRYLKEYLAPRYIEFIGKEIQTAYLESYSEYGQNIFDRYVLYADFWIQDQEYRDPETGEILNRVALNEELEKIEKPAGISNPKDFRNEIVNFVLRARANNNGKNPTWLSYEKLRVVIEKKMFSNTEDLLPVISFNAKASKEDQQKHNDFVKRMVERGYTEKQVRLLSEWYLRVRKSQ	PGPT0014345_921	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014345-prkA|yeaG-K07180	NA	NA
BMS010_08482	1272			hypothetical protein	ATGAGCTATGTGATCGACCGACGCCTGAACGGCAAGAACAAGAGCACGGTGAACCGCCAGCGCTTCCTGCGGCGGTACCGCGAACACATCAAGAAGGCCGTGGAGGAGGCCGTCAGCCGGCGCTCCATTACCGACATGGAGCACGGCGAGCAGATCAGTATTCCCGGGCGCGACATCGACGAGCCCATTCTTCACCATGGCCGGGGCGGCAAGCAGACCATCGTCCATCCCGGCAACAAGGAATTCACCACCGGCGAGCGCATCCCCCGGCCATCGGGAGGCGGCGGTGGACGAGGCGCCGGCAAGGCGAGCAATACCGGCGAAGGCATGGACGACTTCGTCTTCCAGATCACCCAGGAAGAATTCCTCGATTTCATGTTCGAGGACTTGGAGCTGCCCAACTTGGTCAAGCGGCACCTGACCGGGACCGACACCTTCAAGACCGTGCGTGCCGGGATCAGCAACGAGGGCAATCCCTCGCGGATCAACATCGTCCGCACGCTGCGCTCCGCCCATGCCCGGCGGATCGCGCTGTCCGGCAGCAGCCGTGCCAAGCTGCGCGTGGCGCTGGCGGAACTGGATCGTCTGAAGCGCGAAGAACCCGACAATATCGGCGACATTCAGCGCATGGAATCGGAGATATCCCGCCTACGTGCACGTATCGAGCGAATTCCCTTCCTCGACACCTTCGACCTTAAGTACAACCTGCTGACCAAGCAGCCGAATCCCAGCTCCAAGGCGGTGATGTTCTGCCTAATGGACGTTTCCGGCTCCATGACCCAGGCGACCAAGGACATCGCCAAGCGCTTCTTCATCCTGCTCTACCTGTTCCTCAAGCGGAACTACGACAAGATCGAAGTGGTGTTCATCCGCCATCACACCAGCGCCCGCGAGGTGGACGAGGAGGAATTCTTCTATTCCCGGGAAACCGGCGGGACCATCGTCTCCAGCGCGCTCAAGCTGATGCAGGAGATCATGGCCGAGCGCTATCCGATCAACGAATGGAACATCTATGCCGCCCAGGCGTCGGACGGCGACAACTGGAATGACGACTCGCCCATCTGTCGCGATATCCTGGTCAAGCAGATCATGCCGTTCGTGCAGTACTACACCTACGTCGAGATCACCCCGCGCGAGCACCAGGCGCTGTGGTTCGAATACGAGCAGGTCCGCGAGGCCTTTGCCGACACCTTTGCCCAGCAGCAGATCGTCTCGGCGGCGGACATCTACCCGGTGTTCCGCGAACTGTTCCAGCGGAGGATGACCACATGA	MSYVIDRRLNGKNKSTVNRQRFLRRYREHIKKAVEEAVSRRSITDMEHGEQISIPGRDIDEPILHHGRGGKQTIVHPGNKEFTTGERIPRPSGGGGGRGAGKASNTGEGMDDFVFQITQEEFLDFMFEDLELPNLVKRHLTGTDTFKTVRAGISNEGNPSRINIVRTLRSAHARRIALSGSSRAKLRVALAELDRLKREEPDNIGDIQRMESEISRLRARIERIPFLDTFDLKYNLLTKQPNPSSKAVMFCLMDVSGSMTQATKDIAKRFFILLYLFLKRNYDKIEVVFIRHHTSAREVDEEEFFYSRETGGTIVSSALKLMQEIMAERYPINEWNIYAAQASDGDNWNDDSPICRDILVKQIMPFVQYYTYVEITPREHQALWFEYEQVREAFADTFAQQQIVSAADIYPVFRELFQRRMTT	PGPT0025005_800	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0025005-yhbH-K09786	NA	NA
BMS010_08483	1566			hypothetical protein	ATGAGTCCCCGTGAAAAGAGAAGCCAGCCGCTCTCCACCGGTTCGGAATGGACGTTCGAGCTGATCCGCGCCTACGACCGCGAGATCAGCCGCATCGCTGAACGCTATGCGCTGGACACCTATCCGAACCAGATCGAAGTCATCACCGCCGAACAGATGATGGACGCCTACGCATCGGTCGGGATGCCCATCGGCTATCACCACTGGTCCTACGGCAAGCACTTCCTCAGCACGGAAAAGTCCTACAGCCGTGGGCAGATGGGCCTGGCCTACGAGATCGTGATCAACTCCGATCCCTGCATCGCCTACCTGATGGAAGAAAACACCATGTGCATGCAGGCACTGGTGGTCGCCCACGCCTGCTACGGGCACAACAGCTTCTTCAAGGGCAACTACCTGTTCCGCACCTGGACCGATGCCAGCTCGATCATCGATTACCTGGTGTTCGCCAAGCAGTACATCATGCAGTGCGAGGAACGCCACGGCATCGATGCGGTGGAAGACCTGCTGGATTCCTGCCATGCCCTGATGAACTACGGCGTGGACCGCTACAAACGCCCCTACCCCATCTCTGCCGAAGAAGAGAGGCGGCGGCAGAAGGATCGCGAAGAACACCTGCAGAAGCAGATCAACGACCTGTGGCGCACCATCCCGAAAAGCTCCGGCAAGCACCACGAACGCGACGACAAGCGCTTCCCCGCCGAACCGCAGGAAAACATCCTGTATTTCATCGAGAAGCACGCTCCGCTGCTGGAGCCCTGGCAGCGCGAAGTCGTGCGCATCGTGCGCAAGATCGCCCAGTACTTCTATCCGCAGCGCCAGACCCAGGTGATGAACGAGGGCTGGGCCACCTTCTGGCACTACACCCTGCTCAACGATCTGTACGACGAGGGCCTGGTTACCGACGGCTTCATGATGGAGTTCCTGCAGTACCACACCAGCGTCATCTACCAGCCGGCGTTCGACAGCCCCTACTACAGCGGCATCAACCCTTACACCCTGGGCTTCGCCATGTACCGCGACATCCGCCGCATCTGCGAGGCCCCGACCGAGGAAGACAAGCGCTGGTTCCCGGACATCGCCGGCAGCGACTGGCTGTCTACCCTCAAGTTCGCCATGAAGAGCTTCAAGGACGAGAGCTTCATCCTGCAGTTCCTCTCGCCCAAGGTCATCCGTGATCTCAAGCTGTTCAGCATCCTCGACGACGACCAGAAGGACGAGCTGCTGGTATCGGCCATCCACGACGAAAGCGGCTACCGCACAATCCGCGAGTTGCTGGCATCGCAATACAACCTCGGCAACCGCGAACCCAACGTGCAGATCTGGAGCGTCGACCGCCGTGGCGACCGCTCGCTCACCCTGCGTCACCAGCAGCATGATCGCAAACCGCTGGGCGACTCCACCGAAGACGTGCTCAAGCACCTGCACCGACTGTGGGGCTTCGACGTGCATCTGGAAACCCTGCAGGGCGACCAGGTGGTCGGCGTCCAGCACGTCCCACCCAAGGGCGACCGTGACAACGAGAGCGACTATCCCCGGCTCGACCTGGCGATCCCGCCCATTTGA	MSPREKRSQPLSTGSEWTFELIRAYDREISRIAERYALDTYPNQIEVITAEQMMDAYASVGMPIGYHHWSYGKHFLSTEKSYSRGQMGLAYEIVINSDPCIAYLMEENTMCMQALVVAHACYGHNSFFKGNYLFRTWTDASSIIDYLVFAKQYIMQCEERHGIDAVEDLLDSCHALMNYGVDRYKRPYPISAEEERRRQKDREEHLQKQINDLWRTIPKSSGKHHERDDKRFPAEPQENILYFIEKHAPLLEPWQREVVRIVRKIAQYFYPQRQTQVMNEGWATFWHYTLLNDLYDEGLVTDGFMMEFLQYHTSVIYQPAFDSPYYSGINPYTLGFAMYRDIRRICEAPTEEDKRWFPDIAGSDWLSTLKFAMKSFKDESFILQFLSPKVIRDLKLFSILDDDQKDELLVSAIHDESGYRTIRELLASQYNLGNREPNVQIWSVDRRGDRSLTLRHQQHDRKPLGDSTEDVLKHLHRLWGFDVHLETLQGDQVVGVQHVPPKGDRDNESDYPRLDLAIPPI	PGPT0024845_232	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024845-spoVR-K06415	NA	NA
BMS010_08484	510			hypothetical protein	ATGCGCCTGTTTCTCGTGCTGTTGCTGTGCCTGGCACTCGCCACCTGCACCCGCCAGTTGCCACAGGTCCAACTGGTGCAGCCGGCCGCCGAGGACCTGGGCGAGTTGCGGGACTACCGCCTGATTCCACCTGATCTGGCCGTACAAGGCGAACTGCCGTTCGGCGACGACTACATTCAGCTCGCGACCTTGTTACGCCAGGGCCTTGCCACTCGCGGCTACCGGGAAAGCCCGACACCGCAGATGCACGTCTATTACTGGCTGGCCATGAACGACGCGCCGCTGGAATTCCGGGTAGACGTGCCGCCGCCCGATACCCTCGGCCCTTATCTCGCCATCCATCGCCTGCACGACGAAACCGGCACGCTTCGCGTTCGCCTGACCGATCCCGACGGCCGCTCCCTGTGGGAAGGACTCGTCAGCACCGGCCTGAGCCCCTCCCGGACCAGCTCCGAACGCCTCGAAGCCGCCGTCGAGGCGCTGCTGCAGCGGCTGCCGGCCGCACGCTGA	MRLFLVLLLCLALATCTRQLPQVQLVQPAAEDLGELRDYRLIPPDLAVQGELPFGDDYIQLATLLRQGLATRGYRESPTPQMHVYYWLAMNDAPLEFRVDVPPPDTLGPYLAIHRLHDETGTLRVRLTDPDGRSLWEGLVSTGLSPSRTSSERLEAAVEALLQRLPAAR				NA	NA	NA	NA	NA
BMS010_08485	1245	cca_2	COG0617	Multifunctional CCA protein	ATGCAGATCTACAAAGTAGGCGGCGCGGTGCGCGATCGCTTGTTGGGCAGGCCCGTCACCGAAGTCGACTGGGTCGTGGTCGGCGCCAGTGCCGAAGAAATGCAGGCGAAAGGCTTCCGCCCGGTCGGCGCGGACTTCCCGGTCTTCCTGCACCCCGAGACCGGCGATGAATACGCCCTGGCGCGCACCGAGCGAAAAAGCGGACGCGGCTATGGTGGCTTCACGTTCTACGCCAGCCCGGACGTCACCCTGGAAGACGACCTCATCCGCCGCGACCTCACCATCAACGCCATGGCCGAGGACGAGCAGGGCCGGGTCATCGATCCCTATGGCGGGCAGCGCGACCTTCAGGACCGCCTGCTGCGCCATGTCTCCCCCGCCTTCGCCGAAGACCCACTGCGCGTGCTGCGTGTCGCCCGCTTCGCTGCCCGTTATGCGCCACTGGGCTTTCGTGTCGCCGACGAGACCCAGGCACTGATGCGCCAGCTCAGCCAATCCGGCGAACTCAAGGACCTGACGGCGGAGCGTGCCTGGAAGGAAATCTCCCGTGCCCTGATGGAGCCACGCCCCGATGTCTTCGTCAGTGTGCTGCACGGATGCGGCGCCCTGATCGAGTTGCTGCCGGAGGTCGACGCCCTGTTCGGTGTGCCGCAACCGGCCGCCCATCATCCGGAAATCGACACCGGCGACCATATCCTTCGAGTGCTGCGCCTATGCGCCGAGCGCGAACTACCGCTGACCGTGCGCTGGGCCTGCCTGCTGCACGACGTCGGAAAAGGCACTACCCCGGAAAACGAGTGGCCCCGCCATATCGGCCACGAGCACAACGGTCGTCCCTTGATCGAGGCGGTGAACGCACGCTGCAAGGCGCCCCGCGACTGCCAGGAACTGGCCGTGCTGGTCGGCGAATACCACACCCATGCCCACCGGGCCCTGGAGTTGCGTCCGAATACTCTGCTGGAGCTACTGCAGCATTTCGATATCTACCGCCGTCCGCAGCGCTTCGAAGAGTTCATCGCCGCCTGTGAAATGGACGCCCGTGGCCGGCGCGGACTGGAGCAGCGCGACTATCCCCAGGCGCTCTATCTGCGAGGCGCAGCGGATGCGGCGCGGGCGGTCTCGGTGAAACCCTTGCTGGAAAAAGGGCTGCAGGGTGCCGAACTGGGCGAGGCCTTGAGGCGGGAGCGCCTGAAAGCGCTCAAGGCCTACAAGGCCAGCCAGAACGGCCAGACGATAGGGGAATAG	MQIYKVGGAVRDRLLGRPVTEVDWVVVGASAEEMQAKGFRPVGADFPVFLHPETGDEYALARTERKSGRGYGGFTFYASPDVTLEDDLIRRDLTINAMAEDEQGRVIDPYGGQRDLQDRLLRHVSPAFAEDPLRVLRVARFAARYAPLGFRVADETQALMRQLSQSGELKDLTAERAWKEISRALMEPRPDVFVSVLHGCGALIELLPEVDALFGVPQPAAHHPEIDTGDHILRVLRLCAERELPLTVRWACLLHDVGKGTTPENEWPRHIGHEHNGRPLIEAVNARCKAPRDCQELAVLVGEYHTHAHRALELRPNTLLELLQHFDIYRRPQRFEEFIAACEMDARGRRGLEQRDYPQALYLRGAADAARAVSVKPLLEKGLQGAELGEALRRERLKALKAYKASQNGQTIGE				NA	NA	NA	NA	NA
BMS010_08486	543			hypothetical protein	ATGTCTCTGACCCAGGTCGTGCTCGGGCTCGGCAGCAACATCGAGCGCGAGACCCATCTGACCGCCGGCCTGGATGCCCTGGCGGCGTTCCTGACCGATCTGCGCTGCTCGCCGGTGTTCGAAAGCCAGGCCGTGGGCATCAAGAGCGGTCCCTTCATCAATCTCGTGGTGTCGGCCTATACCGACCTGCCTTTGGGTGAGCTCGACCGCCGATTGAAGTTCATCGAGGCGGACAACGGCCGCTACGCCCCGGATCGCAAGGGGTTGCCGCTGGATATCGATGTCCTGCTCTACGACGATCTGGTCGGCAACTTCGATGGGTTGGTGTTGCCGCGGGCCGAGGTGCTGAAGAACGCCTTCGTGCTCTGGCCGCTGGCTTTGCTGATGCCGGAGGCTGTCCATCCGGGTGTCGGCAAGACCTTCGCCGAGCTGTGGCGGGAGGCCTCGATTGACCAGCGTCTATGGCCGGTGTCCTTCGTCTGGCGTGGCCGGGAACTGACGCCCGAGGCGCTGCTCCAGGCCACGTCCTCCCTCGAGGAATAG	MSLTQVVLGLGSNIERETHLTAGLDALAAFLTDLRCSPVFESQAVGIKSGPFINLVVSAYTDLPLGELDRRLKFIEADNGRYAPDRKGLPLDIDVLLYDDLVGNFDGLVLPRAEVLKNAFVLWPLALLMPEAVHPGVGKTFAELWREASIDQRLWPVSFVWRGRELTPEALLQATSSLEE	PGPT0007910_1481	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007910-folK-K00950	NA	NA
BMS010_08487	354	folB_2	COG1539	Dihydroneopterin aldolase	TTGGACAGAGTGTTTATCGAAGGGCTGGAAGTCGACACCGTGATCGGTGTGTATGACTGGGAACGCGGTATCCGCCAGTGTCTGCGCCTGGACCTGTCGATGGCCTGGGACAACCGGCCGGCCGCCGGCGGTGACGACTTGAGCAAGGCCCTCGATTACGCGGCGGTGACGGCGCGCATCCAGACTTTCGCCACCGAAGCGCATTTCCTGCTGGTGGAGACCTTCGCCGAGCGTCTGACCGAGGTACTGATGGCAGAGTTCGGGATTCCCGGCCTGCATCTCAAATTGACCAAGCCGGGGGCTGTCCCGGCCGCCAGCGGTGTGGGCGTGGAGATCGTACGCGGATGTCTCTGA	MDRVFIEGLEVDTVIGVYDWERGIRQCLRLDLSMAWDNRPAAGGDDLSKALDYAAVTARIQTFATEAHFLLVETFAERLTEVLMAEFGIPGLHLKLTKPGAVPAASGVGVEIVRGCL	PGPT0007905_3292	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007905-folB-K01633	NA	NA
BMS010_08488	570	plsY_2	COG0344	Glycerol-3-phosphate acyltransferase	ATGTTCTGGCTGTTGGCGATTCTCGCCTACCTGCTCGGCTCACTGTCCTTCGCCATCCTGCTCAGCCGCCTGATGGGCGGCCCGGACCCGCGCGCCAGTGGCTCGGGCAACCCCGGCGCCACCAACATGCTACGGGTTGCCGGCCGAAAAATGGCCATCCTCACTCTGCTGGGCGACCTGTTCAAGGGGCTGCTCCCCGTGCTGGTCGCACAACAGGCCGGCCTATCCCTGCAACAACAGGCCTGGATCGGCCTGGCCGCAGTGGTCGGCCATCTTTATCCACTGTATTTCCGCTTCCGTGGCGGCAAGGGCGTCGCCACTGCCGCCGGCATGCTGCTCGGTCTCTATCCACCAGCCGCCCTGCTAGCCATCGCCGCCTGGTTGCTAACCTTCGTTCTCACCCGCACCAGCTCCCTCGCCGCGCTCATCGCCACACCGCTGACCCTGCCTTTGCTGGCCTGGCAGCAACCGGCGGCCTTGCTGCCGATGTGTGCGTTGACCGGGCTGATCGTCTGGCGGCACCGGGGCAACCTGCGCGACCTCCTCGCCGGGCGCGAGCGGCACTTCTGA	MFWLLAILAYLLGSLSFAILLSRLMGGPDPRASGSGNPGATNMLRVAGRKMAILTLLGDLFKGLLPVLVAQQAGLSLQQQAWIGLAAVVGHLYPLYFRFRGGKGVATAAGMLLGLYPPAALLAIAAWLLTFVLTRTSSLAALIATPLTLPLLAWQQPAALLPMCALTGLIVWRHRGNLRDLLAGRERHF	PGPT0024375_3735	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024375-plsY-K08591	NA	NA
BMS010_08489	1026	tsaD_2	COG0533	tRNA N6-adenosine threonylcarbamoyltransferase	ATGCTTGTATTGGGGTTGGAAACCTCCTGCGACGAAACCGGCGTCGCCCTCTACGACAGCGAACTAGGCCTGCTGGCGGACGCTCTGTTCAGCCAGATCGATCTGCACCGTATTTATGGCGGCGTGGTACCCGAGCTGGCCTCGCGGGACCATGTGAAGCGCATGCTGCCGTTGATCCGTCAGGTGCTGGAGGAGTCCGGCCGTTCGTCGGGCGACATCGATGCCATCGCCTATACCGCCGGTCCCGGACTGGTCGGCGCACTGCTGGTCGGTGCCTCCTGCGCCCAGGCGCTGGCATTCGCCTGGGGCGTCCCGGCCGTCGGCGTCCACCATATGGAAGGGCATCTGCTGGCACCGATGCTGGAAGAGCAGCCGCCGGCCTTTCCTTTTATCGCTCTGCTGGTCTCTGGTGGTCATACGCAGTTGGTGCGGGTGGACGGCATCGGTCGTTACCAGTTGCTCGGCGAGTCGGTGGACGATGCCGCCGGCGAGGCCTTCGACAAGACCGCCAAGCTGATCGGCCTGGGTTATCCCGGTGGCCCGGAGATCGCGCGCTTGGCCCAGCAGGGGACGCCGGGGCGCTTCGTCTTTCCGCGGCCGATGACCGATCGTCCGGGGCTGGATTTCAGTTTCAGCGGCCTCAAGACCTTCGCCTTGAACACTTGGCAGCAATGCCGCGACGCCGGGGACGACGGCGAGCAAACCCGTTGCGACATCGCCCTGGCCTTCCAGCAGGCGGTGGTGGAGACTCTCACCATCAAGTGCCGTCGTGCCTTGATGCAGACCGGCCTCAAGCGTTTGGTGATCGCCGGCGGCGTCAGCGCCAACCAGGCGTTGCGTCAGTCGCTGGAAAAAATGCTCGGCGAGTTGAAGGGCCAAGTGTTCTATGCGAGGCCACGTTTCTGTACCGATAACGGTGCGATGATCGCCTACGCGGGCTGTCAGCGGCTGCTGGCCGGCCAGCATGAGGGGCCGGAGATCAAGGTGCAGGCCCGCTGGCCGATGGAGAGCCTGCCGGCGATCTGA	MLVLGLETSCDETGVALYDSELGLLADALFSQIDLHRIYGGVVPELASRDHVKRMLPLIRQVLEESGRSSGDIDAIAYTAGPGLVGALLVGASCAQALAFAWGVPAVGVHHMEGHLLAPMLEEQPPAFPFIALLVSGGHTQLVRVDGIGRYQLLGESVDDAAGEAFDKTAKLIGLGYPGGPEIARLAQQGTPGRFVFPRPMTDRPGLDFSFSGLKTFALNTWQQCRDAGDDGEQTRCDIALAFQQAVVETLTIKCRRALMQTGLKRLVIAGGVSANQALRQSLEKMLGELKGQVFYARPRFCTDNGAMIAYAGCQRLLAGQHEGPEIKVQARWPMESLPAI				NA	NA	NA	NA	NA
BMS010_08490	216	rpsU_2	COG0828	30S ribosomal protein S21	ATGCCCGCCGTCAAAGTTAAAGAGAACGAACCCTTCGACGTAGCCCTGCGTCGCTTCAAGCGCTCCTGCGAAAAAGCCGGCGTTCTGGCCGAAGTTCGCAGCCGCGAGTTCTACGAAAAGCCCACTGCAGAGCGCAAGCGCAAAGCGGCCGCCGCCGTCAAGCGTCACGCCAAGAAAGTGCAGCGCGAGCAGCGCCGCCGCGAGCGTCTGTACTAA	MPAVKVKENEPFDVALRRFKRSCEKAGVLAEVRSREFYEKPTAERKRKAAAAVKRHAKKVQREQRRRERLY				NA	NA	NA	NA	NA
BMS010_08491	1950	dnaG_2	COG0358	DNA primase	ATGGCCGGCCTGATCCCGCAATCCTTCATCGATGACCTGCTGAACCGCACCGACATCGTCGAAGTGGTCAGCTCGCGCATCCAACTGAAGAAGGCCGGCAAGAACTTCACCGCGCGCTGCCCGTTCCACAACGAAAAGACCCCTTCGTTCAGCGTCAGCCCGGACAAACAGTTCTACTACTGCTTCGGCTGCGGCGCAGGCGGCAACGCGCTCGGCTTCATCATGGACCACGACCACCTGGATTTCCCCCAGGCGGTCGAAGAACTAGCCAAACGCGCCGGCATGGATGTCCCTCGCGAAGAGGGCCACGGCAACAACAAGCCAAGGCAACCCACCGATTCGCCGCTCTATCCCTTGCTCACGAGCGCCGCCGAGTTCTACCGCCAGGCGCTGAAAAGCCACCCGGCACGCAAGGCCGCCGTGGATTACCTCAAGGGACGCGGCCTGACCGGCGAGATCGCACGCGACTTCGGCCTCGGCTTCGCCCCCCCCGGCTGGGACAACCTGCTCAAGCACCTGGGCGGCGACGCCCTCCAGCAGAAGGCCATGATCGACGCCGGCCTGCTGATCGAGAACGCCGAGACCGGCAAGCGCTACGACCGCTTCCGCGACCGTGTGATCTTCCCGATCCGCGACAGCCGCGGCCGCGTCATCGCCTTCGGCGGCCGGGTGCTCGGCGACGATAAGCCGAAGTACCTGAACTCGCCGGAGACCCCGGTCTTCCACAAGGGCCAGGAACTCTACGGCCTCTACGAAGCCCGCAAGAACAACCGCGACCTCGACGAGGTGATGGTGGTCGAGGGCTACATGGACGTCATCGCGCTCGCCCAGCAAGGCCTGCGCAACGCCGTCGCCACCCTCGGCACCGCTACCAGCGAGGAACACGTCAAGCGCCTGTTCCGCCTCGTCCCGAGCATTCTTTTCTGCTTCGACGGCGACCAGGCCGGACGCAAGGCCGCTTGGCGCGCCCTGGAAGCGACCCTGCCGAGCCTGCAGGATGGGCGACGCGCGCGTTTCCTGTTCCTGCCGGAAGGTGAAGACCCGGACAGCCTGGTCCGCGCAGAGGGAACCGACGCCTTCCGCGCCCGCATTCAGCAGCAGTCGCTGCCCCTGGCCGAGTACTTCTTCCAGCAATTGACCGAAGAAGCCGACCCGCGCTCCCTGGAGGGCAAGGCACACCTGGCCACCCTGGCCACGCCGCTGATCGAGCGGATACCGGGAGCCAACCTGCGCGCCCTGATGCGCCAGCGCTTGAAGGAAATCACCGGCCTGAGCGGCGAGCCGGCGCCCCAGCACGCGTCGGCATCCGCCCACCCAGCCGACGAATACGCCCATTTCGGCGACGATGCCTATTACGAGGCCGCTCCCACCTATGGCGATTACGACGAGCCGCCCTCGCCACAGCCCGCCTTCGAGCGCAAACCGAAAGAAAAGGGAAGCTGGAAAGCAGACGGCAAGAAGTGGAACAAGAAAGGCCAGGGCGATTTCCAGCCCCGCGCTCCGCGAACCGCCGTCAGCGTGGAGCCGCCCAACCTGAGCGCGCTACGCACCCTGCTGCATCACCCTGAGCTGGCGCAGAAGGTCGAAGATGCCAGCCACTTCGCGGCAGAAGACGACACCTATGCCCAGTTGCTGGTCGCCCTGCTGGAAGCCGTGCAGAAGAATCCCCGGATGCGTTCGCTACAGCTCATCGCCCGCTGGCATGGCACCGAGCAAGGCCGCCTGTTGCGCGCCCTGGCGGAAAAGGAATGGCTGATTTCGGCGGACAACCTTGAACAACAGTTTTTCGACACTATAACTAGTCTTGCGGCTCGCCAGCGCGAGCGCAGTCTTGAACACCTGCTTCGCAAGGCACGTCAAAGTGAACTGAGCGCAGAGGAAAAAGACCAGCTGCGCAACCTGCTCAACCGCAACAGTTCTCCCATCTCCCCGACCTCAACTGGCGCGTGA	MAGLIPQSFIDDLLNRTDIVEVVSSRIQLKKAGKNFTARCPFHNEKTPSFSVSPDKQFYYCFGCGAGGNALGFIMDHDHLDFPQAVEELAKRAGMDVPREEGHGNNKPRQPTDSPLYPLLTSAAEFYRQALKSHPARKAAVDYLKGRGLTGEIARDFGLGFAPPGWDNLLKHLGGDALQQKAMIDAGLLIENAETGKRYDRFRDRVIFPIRDSRGRVIAFGGRVLGDDKPKYLNSPETPVFHKGQELYGLYEARKNNRDLDEVMVVEGYMDVIALAQQGLRNAVATLGTATSEEHVKRLFRLVPSILFCFDGDQAGRKAAWRALEATLPSLQDGRRARFLFLPEGEDPDSLVRAEGTDAFRARIQQQSLPLAEYFFQQLTEEADPRSLEGKAHLATLATPLIERIPGANLRALMRQRLKEITGLSGEPAPQHASASAHPADEYAHFGDDAYYEAAPTYGDYDEPPSPQPAFERKPKEKGSWKADGKKWNKKGQGDFQPRAPRTAVSVEPPNLSALRTLLHHPELAQKVEDASHFAAEDDTYAQLLVALLEAVQKNPRMRSLQLIARWHGTEQGRLLRALAEKEWLISADNLEQQFFDTITSLAARQRERSLEHLLRKARQSELSAEEKDQLRNLLNRNSSPISPTSTGA				NA	NA	NA	NA	NA
BMS010_08492	1854	rpoD_2	COG0568	RNA polymerase sigma factor RpoD	ATGTCCGGAAAAGCGCAACAGCAGTCTCGCCTTAAAGAGTTGATCAGCCGTGGCCGTGAGCAGGGTTACCTGACTTACGCCGAAGTCAACGACCACCTGCCGGAGGATATTTCCGATCCGGAACAGGTGGAAGATATCATCCGCATGATCAACGACATGGGGATCAACGTATTCGAGAGCGCCCCGGATGCGGATGCCCTGTTGTTGGCCGAAGCCGACACCGACGAGGCCGCCGCGGAAGAAGCCGCTGCCGCCCTGGCCGCGGTGGAAACCGACATCGGTCGCACCACCGACCCGGTCCGCATGTACATGCGTGAAATGGGTACCGTGGAGCTGCTCACTCGCGAAGGCGAGATCGAGATCGCCAAGCGCATCGAAGAAGGCATCCGCGAGGTCATGAGTGCCATCGCGCACTTCCCGGGCACCGTCGGAAGCATCCTCTCCGAATACGAACGCGTCACCCAGGAAGGCGGTCGCCTGTCCGACGTGCTGAGCGGCTATATCGATCCGGATGACGGCACCCTGCCGGCCGAAGAAGTACCCGTCGAGCTGAAGAGCAGCACCGCTGCGGCAGCCGAAGAGCCGGAAGACGACGAAGAAGAAAGCGGCGAAGAATCCAGCGACGAGGATGAAGGCGATGGCGGCCCGGACCCGGAAGTCGCCCGCCAACGCTTCGGCGCCGTGGCCGAGCAGCTCGAGAAAGCCAACAAGGCCCTGAAGAAGCACGGCCGTGGCAGCAAGCAGGCCAACGAGGAACTGCAAGCCCTGGCCGATCTGTTCATGCCGATCAAGCTGGTGCCCAAGCAGTTCGATGCCCTGGTCGAGCGTGTGCGCAGCGCCCTGGAGCGCGTCCGTGCCCAGGAACGCGCGATCATGCAGCTCTGCGTGCGCGATGCCCGCATGCCGCGTGCCGACTTCCTGCGCCAGTTCCCCGGCAACGAAGTCGACCTCGACTGGGCGGACTCCCTGGCCAAGGGCAAGAGCAAGTACGCCGAAGCAATCGCTGCCCTGCAGGATGACATCAAGCGCAACCAGCAGAAGCTGATCGACCTGCAGAACGAAGTCGAGCTCAACATTGCCGAGATCAAGGACATCAACCGCCGCATGTCCATCGGCGAGGCCAAGGCCCGCCGGGCGAAGAAGGAGATGGTCGAGGCCAACCTGCGCCTGGTGATCTCCATCGCCAAGAAGTACACCAACCGCGGCCTGCAATTCCTCGACCTGATCCAGGAAGGCAACATCGGCCTGATGAAGGCGGTGGACAAGTTCGAATACCGTCGCGGCTACAAGTTCTCGACCTACGCCACCTGGTGGATTCGCCAGGCGATCACCCGCTCGATCGCCGACCAGGCGCGCACCATCCGTATCCCGGTGCACATGATCGAGACGATCAACAAGCTCAACCGCATCTCCCGCCAGATGCTGCAGGAAATGGGTCGCGAACCGACGCCGGAAGAGCTGGGCGAGCGCATGGAAATGCCTGAGGACAAGATCCGCAAGGTGTTGAAGATCGCCAAGGAACCGATCTCCATGGAAACCCCGATCGGTGACGACGAAGATTCGCATCTGGGCGACTTCATCGAGGACTCCACCATGCAGTCGCCGATCGACGTGGCGACCGTGGAAAGCCTCAAGGAAGCCACCCGCGAAGTGCTGGCCGGCCTCACCGCCCGTGAAGCCAAGGTACTGCGCATGCGCTTCGGCATCGACATGAACACCGACCACACCCTCGAGGAAGTCGGCAAGCAGTTCGACGTTACCCGCGAACGTATCCGCCAGATCGAAGCGAAGGCGCTGCGCAAGCTGCGCCACCCGTCGCGCAGCGAGCACCTTCGCTCCTTCCTCGACGAGTGA	MSGKAQQQSRLKELISRGREQGYLTYAEVNDHLPEDISDPEQVEDIIRMINDMGINVFESAPDADALLLAEADTDEAAAEEAAAALAAVETDIGRTTDPVRMYMREMGTVELLTREGEIEIAKRIEEGIREVMSAIAHFPGTVGSILSEYERVTQEGGRLSDVLSGYIDPDDGTLPAEEVPVELKSSTAAAAEEPEDDEEESGEESSDEDEGDGGPDPEVARQRFGAVAEQLEKANKALKKHGRGSKQANEELQALADLFMPIKLVPKQFDALVERVRSALERVRAQERAIMQLCVRDARMPRADFLRQFPGNEVDLDWADSLAKGKSKYAEAIAALQDDIKRNQQKLIDLQNEVELNIAEIKDINRRMSIGEAKARRAKKEMVEANLRLVISIAKKYTNRGLQFLDLIQEGNIGLMKAVDKFEYRRGYKFSTYATWWIRQAITRSIADQARTIRIPVHMIETINKLNRISRQMLQEMGREPTPEELGERMEMPEDKIRKVLKIAKEPISMETPIGDDEDSHLGDFIEDSTMQSPIDVATVESLKEATREVLAGLTAREAKVLRMRFGIDMNTDHTLEEVGKQFDVTRERIRQIEAKALRKLRHPSRSEHLRSFLDE				NA	NA	NA	NA	NA
BMS010_08493	3735			hypothetical protein	ATGCCAAGAATGCCGGCCATTCTCTTGTCGTGTCTGGCGTTCTGGGCGATGGCCGTAAACGCCCTGGAACTCAGCAAAGAAGAGCGCGACTGGCTGGCAGCCCATCCCGAATTGCGTCTCGGTATCGATGCCTCCTGGCCACCTTTCGAGTTCCGCGACGAACAGGGCAACTATCAAGGGCTCGCCGCGGATTACGCCAAGCTGATCGAACAGCGTCTCGACATCCATCTGACGCCTGTGGAGTCGAGCAGTTGGAGCGGCGTACTAGAACAGGCCCGGGCCGGCGAACTGGACCTCCTCCCCGGCGTGATGTCGACGCCGGAGCGTCGCGCGTACCTGACCTTTACCCGTCCCTACCTCGATTTCCCTATTGTCATCCTGACGCATCGCGATGGCCCCCAGCCGCGCTCGATGGACGAGTTGTATGGCCTAAAGATCGCCGTCGTCGCCAACTATGCGCCGCACGAACTGCTGCGCCACTCCCATCCCGACCTGAGTCTCGTACCGCTGCCGAGCGTCAGCGCCGCCCTGGCGGCACTGGCCAGCCACCAGGCCGATGCCATGGTGAGCGATCTGGCCTCCAGTGCCTGGACCATCCGCGAACTCAAGCTGGAGGGCCTGCAAGTCAGCGGCGAGACGCCCTATCGCTACCAGTTGGCCATGGCCGTACCGAAGCACCACGAAATCCTCGCCGGCATCCTCGACAAGCTCTTCGCCGAATTGGATCAAGGCGAAATCTCCGCCCTCGAAGAGCGCTGGGTGGGCGCCGACCTGGCCCTCCCCAGCCGCTGGCACGACATCCTGCTCTACGGCCTGCCCACTTTCTTCGCGCTATTGGGCATTCTCGCCGTCGTCCTGAACATCAACCGGCGCCTCAGCCGGGAGATGGCCCATCGCAACGCCCTGGAACAACAACTCCGCAGCAGCGAGCGACACTACCGCGGCTTGGTGGAGAGCCTGTCCGCGATTGCCTGGGAAGCCCGGCTGAGCGACCTGACCTACACCTACGTCTCGCCGCATGCGGAGAAGCTGCTCGGCTACCCGCCGGAGGCCTGGATGGAGCCCGGTTTCTGGCTGGATCACCTCCACCCGGACGATGCACCAATGGTTCTGGAGCACTGCCGGCAGGAGCGCGAAGCCGGGCGCGATCACAGCCTCGACTACCGCATGTACCACGCCGATGGCCGATTGATCTGGATTCACGACATCGTCACGCTCATCCAGCACGGCGACGCACCCATCCTGCGCGGCCTGATGATCGATATCACCGCCGCCAAGCAGACCGAACAGGCGCTGCGCCTGTCCGAGCAGAAATTCGCCATGATCTTCCACCATTGCCCGGACATCCTGGTCATCGCCCGGCGTGAGGACGGCCGTCTGCTGGCCGTCAACCGGACCTTCGAGCAGCACATCGGCATCAGCGCCAGCGAGGCGATCGGCAAGACGGCCACCGAACTGGACATCTGGGGTATCCCCGACATCGGGCCTCGCCTGCTGCAGAGCCTGCAAAGCGAGCAACTGCACAACCTGGAAATGCCCTTCCGCAGCCGCAACGGCCAACTGTTCACCGGTCTGATCTCCGCGCAACCCGTCCAGCTCGAGGACATACCGGCGCTGGTGGTCATCGTGCGCGACATCAGCCAATTGAAAGAAACCCAGCAGCGCCTGCAGATCTCCGAAGAGAAATTCGCCAAGGCTTTCCACTCCTCTCCCGACGGGCTGCTGATCACCCGCCTGAGTGACGGCATGATCTTGGAGGCCAACGAAGGCTTCAGCCGCATCACCGGCTACAGCCTGAAGGAAGCCGCACAGCGCACGACTCTGGAACTGGGCGTCTGGGCCAGCCCGGAAGATCGCCAGCGGATGGTCCGCCAGATCAACGAGCGTGGTCTGCTCCGCGACTTCAAGGCGCCCATTCGTACCCGCAGCGGCGACATACGCATCTGCGAATTGTCCGCCCAGGCCATGCCCATCGGCGGCGAGCCCTGCATGCTGACCATCGCCCGCGACGTCACCGAGCAGGAAAAAATGCAGGAGCGTCTGCGCCAGGCCGCCATCGTTTTCGAGAGCACCGCCGAAGGCGTGATGATCACCGACACCCAGCAGCGGCTTACCGCGGTCAACCGTGCCTTCAGCGAGATCACCGGCTTCAGCGAGGAAGAGGCCCTGGGCCAATCGCCGCGCATTCTTGCCTCGGGCCAGCACGACATGGCGTTCTACACCGCCATGTGGCAACAACTGGCCGCGCAGGGCCACTGGCAGGGCGAGATCTGGAACCGGAGAAAGAGCGGCGAGCTTTACCCGAGCTGGCTGACCATCAGCGCCGTACAGGCCCCGGATGGCCTGATCACCCACTTCGTCGGAGTCTTCGCCGACATCTCCAGCCTCAAGCACGCCCAGGCCCGGCTCGACTATCAGGCGCACCACGACCCACTCACCGGCCTGCCGAACCGACTGCTGTTCGAAAACCGCCTGCACAGCGCCATCACCGATGCGCAGGACGAAGGCCGGCGCGGCGCCGTGCTGTTCCTCGACCTGGACCGCTTCAAACACATCAACGACAGCCTCGGCCATCCGGTCGGCGACCTGCTGCTGAAAAGCATCGCCCTGCGTCTCAAGGAACAACTGCGGGACATCGACACCGTGGCCCGCCTGGGTGGCGACGAATTCATCATCCTGCTCCCCGGCCTGCAGCAACCGAGCGACGCCGGGCACGTGGCCGACAAACTGCTTGCCTGCTTCGAAGCGCCCTTCCACACCGCCGACCATGATTTCTTCATCAGCGCCAGCATCGGCATCAGCCTGTTCCCGGAGCACGGCGAAGACGTCGCCACCCTGGTGAAAAATGCCGACGCCGCCATGTACCGCTCCAAGGCCAAGGGCCGTAACCGTGCGGAGTTCTATACCCGCGACCTGACCTTCGAAGCCACCGAACGCGTCGCCCTGGAACACGAACTGCGCCGGGCTCTGGAACGGCAGGAACTGAGCCTCTGCTACCAACCGAAGTTCAGCCTCACCGAACGCCGGCTGGCCGGCGCCGAAGCGCTGATCCGCTGGAACCACCCGATCTATGGCGAAATCCCTCCGGACCGCTTCATTCCCCTTGCCGAAGAGAACGGCCTGATCCTGCCGCTGGGCGACTGGGTCCTGCAGGAAGCCTGCCGGCAAATGCGCACCTGGCAGGACCACCACGCCCCTTTCGGCCCGCTCTCGGTGAACCTCGCCGGCGCGCAACTGCGCCAACCGCAACTGCTCGCCCGCATCGAACAACTCTTCGAAGAGTCCGGCCTGGAACCGGCGCGGCTGCAACTGGAAATCACCGAAAGCTTCATCATGAGCCAGACGGAAGAAGCCCTGGCCATCCTCCACCAACTCAAACACCTGGGCGTACAACTGGCCATCGACGACTTCGGCACCGGCTACTCTTCCCTGAGCTACCTCAAGCGCCTGCCCCTCGACACCCTGAAGATCGACCGCTCCTTCGTCCGCGGCCTGCCCGACGACCCGCACGACGTCGCCATCGCCCGCGCCATCATCGCCCTGGGCCGCAGCATGCAACTCACCGTCATCGCCGAAGGCGTGGAAACCAAGGCCCAGGAGCAATTCCTCGCCCTGCAAGGCTGCGAACAGATCCAGGGCTACGTCTTCAGCCGCCCCCTGCCCGCCGACGCATTTGCCAACCGCTTCCTCGAACCGCGCCAGACCGTTGGCGCTGCGGAAACCACCTCGCTATAA	MPRMPAILLSCLAFWAMAVNALELSKEERDWLAAHPELRLGIDASWPPFEFRDEQGNYQGLAADYAKLIEQRLDIHLTPVESSSWSGVLEQARAGELDLLPGVMSTPERRAYLTFTRPYLDFPIVILTHRDGPQPRSMDELYGLKIAVVANYAPHELLRHSHPDLSLVPLPSVSAALAALASHQADAMVSDLASSAWTIRELKLEGLQVSGETPYRYQLAMAVPKHHEILAGILDKLFAELDQGEISALEERWVGADLALPSRWHDILLYGLPTFFALLGILAVVLNINRRLSREMAHRNALEQQLRSSERHYRGLVESLSAIAWEARLSDLTYTYVSPHAEKLLGYPPEAWMEPGFWLDHLHPDDAPMVLEHCRQEREAGRDHSLDYRMYHADGRLIWIHDIVTLIQHGDAPILRGLMIDITAAKQTEQALRLSEQKFAMIFHHCPDILVIARREDGRLLAVNRTFEQHIGISASEAIGKTATELDIWGIPDIGPRLLQSLQSEQLHNLEMPFRSRNGQLFTGLISAQPVQLEDIPALVVIVRDISQLKETQQRLQISEEKFAKAFHSSPDGLLITRLSDGMILEANEGFSRITGYSLKEAAQRTTLELGVWASPEDRQRMVRQINERGLLRDFKAPIRTRSGDIRICELSAQAMPIGGEPCMLTIARDVTEQEKMQERLRQAAIVFESTAEGVMITDTQQRLTAVNRAFSEITGFSEEEALGQSPRILASGQHDMAFYTAMWQQLAAQGHWQGEIWNRRKSGELYPSWLTISAVQAPDGLITHFVGVFADISSLKHAQARLDYQAHHDPLTGLPNRLLFENRLHSAITDAQDEGRRGAVLFLDLDRFKHINDSLGHPVGDLLLKSIALRLKEQLRDIDTVARLGGDEFIILLPGLQQPSDAGHVADKLLACFEAPFHTADHDFFISASIGISLFPEHGEDVATLVKNADAAMYRSKAKGRNRAEFYTRDLTFEATERVALEHELRRALERQELSLCYQPKFSLTERRLAGAEALIRWNHPIYGEIPPDRFIPLAEENGLILPLGDWVLQEACRQMRTWQDHHAPFGPLSVNLAGAQLRQPQLLARIEQLFEESGLEPARLQLEITESFIMSQTEEALAILHQLKHLGVQLAIDDFGTGYSSLSYLKRLPLDTLKIDRSFVRGLPDDPHDVAIARAIIALGRSMQLTVIAEGVETKAQEQFLALQGCEQIQGYVFSRPLPADAFANRFLEPRQTVGAAETTSL				NA	NA	NA	NA	NA
BMS010_08495	1122			hypothetical protein	ATGAACGACCCCATCTGGATCTGGCAGCAGCCCGACTGGCCGCAATTCAGCTGGCAAGCCGAACAGCTTGCCCCGCTGCTGCGCGCCTGCACCCAGGCTCAGGGGCGTTTGCTCGGCATGCTCGGTGCTGTTGGTGGTGATACCGAAGTGCAGAGCAGCCTGGATGCCATGCTGCAGAACATCGTCACCTCATCAGCCATCGAGGGTGAACAGCTGAATGTCGGCTCGGTGCGTTCATCACTGGCACGGCGCCTGGGGCTGAACGAAGAAGGCCGCACCACCTCTCGCTCCGAAGGCCTGGCGGAACTGCTGCTCGATGCCACCCGCGCACACCAACAACCGCTGGACGAACAGCGACTTTTCACCTGGCACCGTTGGCTATTCCCCAGCGACGGCCAATTGCTGGCTCGGCCACTACACATCGGCGCACTGCGCGGCGACGAGCCCATGCAGGTGGTTTCCGGTCGGATCGACTGCCCCACCGTACATTTCGAAGCCCCTCCTCGTGCAGGGCTGGAAGCGCAACTGACGGACTTTCTCGCCTGGTTCGAGAGCAGCCGCAGCGATGCCAGCCTCGATCCCTTTCTGCGCGCCGGCATCGCCCATTTCTGGTTCGTCACCCTGCACCCCTTCGATGATGGCAACGGTCGCCTTACACGCGCCATTACCGACTTGGCACTGGCACAGGGCGAACAGCAGGCCATCCGCTTTTACGCCATGTCGGCGAGCATCCTCGACGACCGCGCCGGCTATTACCGCATCCTGGAAGCCAGCCAGAAAGGCACGCTGGATATCACCAACTGGCTGCAGTGGTTTCTCGCAACCTTACTCAACAGCCTGGAGCAGGCCCTCGCTCGTATCGACCGCGTGCTGGTCAAGGCGCGCTTCTGGCAGGCACATCGCAGCCAAACGCTATCGGCGGAACAGATCAAAGTGCTTAACCGCCTGCTCGATGGCGGCGAAAGGGGGTTCGAAGACGGTATCAGCGCGGCGCAATATCAGGCCGTGGCCAAGGTTTCCAAAGCCACCGCAACCCGTCATCTGAGCGACCTGCTGGAAAAGGGCTGCATCGAGCGACTACCCGGCGGCGGGCGCAGCACGCGTTACCAAATAGCACGCTGA	MNDPIWIWQQPDWPQFSWQAEQLAPLLRACTQAQGRLLGMLGAVGGDTEVQSSLDAMLQNIVTSSAIEGEQLNVGSVRSSLARRLGLNEEGRTTSRSEGLAELLLDATRAHQQPLDEQRLFTWHRWLFPSDGQLLARPLHIGALRGDEPMQVVSGRIDCPTVHFEAPPRAGLEAQLTDFLAWFESSRSDASLDPFLRAGIAHFWFVTLHPFDDGNGRLTRAITDLALAQGEQQAIRFYAMSASILDDRAGYYRILEASQKGTLDITNWLQWFLATLLNSLEQALARIDRVLVKARFWQAHRSQTLSAEQIKVLNRLLDGGERGFEDGISAAQYQAVAKVSKATATRHLSDLLEKGCIERLPGGGRSTRYQIAR				NA	NA	NA	NA	NA
BMS010_08496	771			hypothetical protein	ATGGATTACAGCCCGATAGTCGCCCAGGTCTGGGGCATGCTGACCTGGTTCATCCCAGCGGTCCTGCTGATCGGCCTGCTCAAATCGCCCTGGGCCAAGGGGCAGATCGGTGAACTGCTGGTGCGCCTGTTTGCCCACTGGCAGCTGGACAAGCAAACCTACCGCCGCCTGCACAACGTCACCCTGAACACGCCGGACGGCACCACGCAGATCGACCACGTATTCCTCTCTCCCTACGGCATCTTCGTGCTGGAGACGAAGAACATGAGCGGCTGGATCTTCGGCAGCGAGAAGCAGCCACAGTGGACGCAGAAGTTTCGCAAGCGCAGCTTCAAATTCCAGAACCCGCTGCGGCAGAACTACAAGCACCTCAAAGCCCTGGAAGCCACCCTTGGCGTTGATCCCGCGCACCTGCACTCGGTGATCACCTTTGTCGGCGGCAGCACCTTCAAAACCGAGGTGCCGGCCAACGTGACCCAGGGCATTGGCTTCATCCGCTATATCAAGTCATTCCAGCAGCCGCTATTCAGCGAGGCTGAAGTTGACGCCATGCTGCAAGCCCTGCAAACCGGCCGCCGCGCACCGACCCTCGCTACTCATCGCGAGCATGTACAAAACCTCAAGCGCCGGAGTGATCCGACAGCCGAGAGGCAATGCCCGAAATGCGGCAGCGCGCTGGTGATTCGAACAGTGAAATCAGGGGCGAAAGCGGGGCAGCAGTTTTGGGGATGTTCCGCGTTTCCCAAGTGCCGGGCGATGCAGAGTCTTTGA	MDYSPIVAQVWGMLTWFIPAVLLIGLLKSPWAKGQIGELLVRLFAHWQLDKQTYRRLHNVTLNTPDGTTQIDHVFLSPYGIFVLETKNMSGWIFGSEKQPQWTQKFRKRSFKFQNPLRQNYKHLKALEATLGVDPAHLHSVITFVGGSTFKTEVPANVTQGIGFIRYIKSFQQPLFSEAEVDAMLQALQTGRRAPTLATHREHVQNLKRRSDPTAERQCPKCGSALVIRTVKSGAKAGQQFWGCSAFPKCRAMQSL	PGPT0027250_1468	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_IV_R-M_SYSTEM,PGPT0027250-mrr-K07448	NA	NA
BMS010_08497	1635			Modification methylase Eco57IB	ATGAATTTTATTATTAACGAAAGCGCCCAAAAATTACGCGGTGGCTACTACACGCCCGTTGACATCGCCACCTTCATAACTAGATGGGTTAAAGAAGGTCATGCAAAATTTATTCTTGAGCCAAGCTGCGGCGATGGCGCATTTCTCCAGGCTCTGTCCCTTACTGGAACCGAGCCTGATACAAAAATCACTGGCTTTGAGCTTGACCCCATCGAAGCTAAAAAGGCTGAATTTCTGTCCGAAACAGCCAAGCTGAACGCTAAAATTATAAACGCTGACTTCCTATCATGGGCATTAGAGCAGCTAAATACTGACGGACAGAAGTTTGATGCAGTTATCGGAAATCCTCCATTTATACGTTACCAATATTTACCTGAAAACTTTCAAAATATTGCAGAGCAGATTTTTGTAAAATTTAACTGCAAGTTCACCAAACACACAAATGCATGGGTGCCATTTATCCTGGCATCTATTGGTCTACTTAAGCCGGGCGGTCGCCTGGCCATGGTTATACCATCAGAAATTATTCACGTCCTGCATGCACAATCCTTAAGAACCATGCTAGGAATGACGTGCCGCAAACTCGTCATAATTGACCCAGAAGAGATTTGGTTTGAGGGCACATTACAAGGTGCCGTCATACTTATGGCAGAAAAGAAGAAAAGCCCGGACGAGTACAGCGAAGGCCTTGGCATACTGCAAGTAAAAGGGCGTAGCTTTCTGACAGAAAGCCCATCGGTGACTTTTAATAAAGTAACACCCATAAATGGGAAGACGGTAGAGGGGAAATGGACAAAGGCATTTCTCAGCGTACCGGTGCGCCATATAATTGATGAAATAGAAAACCTTCCAACTGTTCACAGATTTAAGAAAATAGCAAAGGTCGATGTAGGGATTGTCACCGGAGCAAATAACTTCTTCTTAGTCAACGACGAGACGGTAGAGAAGTATAATTTACAACAGTGGGCTCACCCAATGTTCGGACGAAGCGAGCATTGCCCTGGCGTAATCTACGATAAAAAACAGCACAAAAAGAATAGCACTGCCGGCCTTCCGTCTAATTTCATATGGTTCCCGGAAGGCGCAGCAAATCAATACGGTGAAGTTGCAAGATACGTCGCACTTGGAGAAACCCAAGATCTTCATACTAGATATAAATGCCGGATTAGGAAATGCTGGTATACAGTGCCATCTGTTTCTACATCCGAGATCGGCATGCTTAAAAGATCGCACGACGCCCCGCGTTTGATTCTGAACGAGGCTAGCGCATATACAACCGACACCGCCTATCGAATTACCGCTCTAAACGTCGATGCAAGACTTCTAGTCAGTGCTTTCATCAACCCTCTGACAGCCATTTCCGCAGAGCTTGAAGGGCGAACCTATGGAGGCGGAGTTCTTGAGCTCGTCCCATCAGAAATTGAAAAGCTATTGATTCCAATACCAACAAAAAGCAGCATTGACCTACAAGAGTTAAATTGCTCCATCAAAAGCAGGAGCATATCGGAAGCCTTAGCCATCTATGGATCGAAAACCCTTGAGGACTCAGGCATCACAAAGCAACAGTCTGCTGACTTACTCGACACTTGGATAACTCTTAAAAACCGGCGGCAGCGGAAAAACGTGGAGGAATAA	MNFIINESAQKLRGGYYTPVDIATFITRWVKEGHAKFILEPSCGDGAFLQALSLTGTEPDTKITGFELDPIEAKKAEFLSETAKLNAKIINADFLSWALEQLNTDGQKFDAVIGNPPFIRYQYLPENFQNIAEQIFVKFNCKFTKHTNAWVPFILASIGLLKPGGRLAMVIPSEIIHVLHAQSLRTMLGMTCRKLVIIDPEEIWFEGTLQGAVILMAEKKKSPDEYSEGLGILQVKGRSFLTESPSVTFNKVTPINGKTVEGKWTKAFLSVPVRHIIDEIENLPTVHRFKKIAKVDVGIVTGANNFFLVNDETVEKYNLQQWAHPMFGRSEHCPGVIYDKKQHKKNSTAGLPSNFIWFPEGAANQYGEVARYVALGETQDLHTRYKCRIRKCWYTVPSVSTSEIGMLKRSHDAPRLILNEASAYTTDTAYRITALNVDARLLVSAFINPLTAISAELEGRTYGGGVLELVPSEIEKLLIPIPTKSSIDLQELNCSIKSRSISEALAIYGSKTLEDSGITKQQSADLLDTWITLKNRRQRKNVEE	PGPT0027200_503	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_R-M_SYSTEM,PGPT0027200-K07317-K07317	NA	NA
BMS010_08498	1188			hypothetical protein	ATGATAGTTTCAGCAATGGTACAGCCACAACGCCAGCTTGGGAGCGAGATAAGTGCGATTCTTGAGGCTGATCATTTTGAGAGAATAGTTTTTGTATCTGCTTTTGTTGGCTTGAAAGCGATTCTTCGTCTTCGGGAACGCTTGTTAGAGCATATGGAAAATGGTACGGATGTTTGTGTCGTTGTAGGGATTGACCTGGGTGGGACAAGTAGGGAAGTGCTTGAAGAGTTGTCGCGTTGGGGGTGTCGAGTTTATGTTTTTCATAATGCAATCCCGCGTTCGACATTTCATCCGAAGGTCTATTTATTTGAAAGTAACGATAGTTCTACAGTTTTCATTGGTTCAAATAATTTAACTGATGGGGGGCTTTATAGTAATTATGAGGCGGCAGCAGAATATAAGTTTCTCTTTCCGGATGATAGAGGCGATTATGAAGAGTTTCTGCTGCCGCTATCTCCCTTTCTTCAGCCTGAGGGGGAGGAGGTTTGTGAGTTAAGTCCTGAGCTAATAAAGACCTTAGTTGAGCGCGACCAAGTGCCCTCGGAGGAAGAGGTTCGTCGTCGAAATAAACTGCGGCAGCGAGAGGGGAGGCAAGGTGACGATATTCCGGAAAATCCATTTCCCTCGCTACCAACTCCGCGAGCACCTTTATTAAAGAAGAAGCTGCGAGATGAGGATTTGCAACCTGGTGCTGCTCCTTTTGTAGCGCCAGAGCCACAGGCGGTAACTAGTAATCCACGACGTGTCTTGGTGTGGCGTAAGGTTCTTCCAGCAAGCGATGCCCTACAAGTCAGGGAGGGGACTGCTCATGTAGGGGGTGTGCGTTTAACTCAAGCACGCTTTGAAAGTCCACCGGGCACCAGAATAGATCAAACCACTTACTTTCGGCAGCTATTTGATGAGTATGTGTGGGAGCCTGAAACAGGAAGACGGCGCGGTGTGGATCAAGAACATACATTTGTTCCTATGCGGATAATGATCCGTGGTGAGGATCACGGCGTGCATAATTTTGAAATTAGCCATAAGCCCGATGGTGAGGCTGGGCAGGATAACTATACAACGATACTCAGGTGGGGGCGGGAGTTTAATAAGTTCATACAAGAGCAAAATCTGACGGGTGCGACTTTGTTCTTGTATGAGGTCGTCGGTGATGCGGCGGATTTTTTAATTGATATAGTGGAGGAGTAG	MIVSAMVQPQRQLGSEISAILEADHFERIVFVSAFVGLKAILRLRERLLEHMENGTDVCVVVGIDLGGTSREVLEELSRWGCRVYVFHNAIPRSTFHPKVYLFESNDSSTVFIGSNNLTDGGLYSNYEAAAEYKFLFPDDRGDYEEFLLPLSPFLQPEGEEVCELSPELIKTLVERDQVPSEEEVRRRNKLRQREGRQGDDIPENPFPSLPTPRAPLLKKKLRDEDLQPGAAPFVAPEPQAVTSNPRRVLVWRKVLPASDALQVREGTAHVGGVRLTQARFESPPGTRIDQTTYFRQLFDEYVWEPETGRRRGVDQEHTFVPMRIMIRGEDHGVHNFEISHKPDGEAGQDNYTTILRWGREFNKFIQEQNLTGATLFLYEVVGDAADFLIDIVEE				NA	NA	NA	NA	NA
BMS010_08499	1122			hypothetical protein	ATGCAGGCGGGCAACCTGGAGCTACAGACCTCTTCCCGGCCTTTCCGGCTGGCCGTTTCCGGCGATTGGACGCTGGCGCACTATGCCGCGCTGAAGCGGCGGGTCGCGGAGGTGGTGCCGCAGTTGCAGGCGGATAGTTCGGTCAGTCTGGAAGCCCTCGGCGCGTTGGATACGGCGGGGGCCGGGTTGTTGGTGGAGTTGCTCGGGCCGGCGCGTGTGCGCGAGGCGGCGGAGGGGTTGCCGGCGGAGCGGGTGGCGTTGCTGCGTACGGTGGCGGCCGCGCTCGATCAGGAGCCGATCCGCGACATTCCCCATCACTACGGCCTGGACGATGTGCTGGCGCATATCGGCCGGACCGTCGAGGCGGTGTGGCGGCAGCAGCGGACGCTGCTCGGCTTCATCGGTCTGACCCTGGAAAGCCTGGCCCGCACCTTGCCGCGCCCGCGCCGTTGGCGGGTGACGTCGCTGGTGGCGCACATCGAGACCAGCGGGCTGGATGCCATTCCCATCGTCGCGCTGCTGACCTTCCTGGTCGGCGCCGTGGTGGCCTTCCTCGGTGCCACGGTGCTGGCCGATTTCGGCGCCAGCATCTATACGGTCGATCTGGTGGCCTTTTCCTTCCTGCGCGAGTTCGGCGTGCTGCTCGCCGCGATCCTCATGGCCGGGCGAACGGCCAGCGCCTTCGCCGCGCAGATCGGTTCGATGAAGTCGAACGAGGAAATCGACGCCATCCGCACCCTCGGCCTCGATCCCATCGAGCTGCTGGTCCTGCCGCGTCTGCTGGCGATGCTACTGGCGCTGCCGATCCTTACCTTCATCGCCATGCTCAGCGGCATCGTCGGCGGTGCGCTGGTGTGCGTGGTCAGCCTGGACATATCCACCGCCATGTTCCTGTCGATGCTGCACGATCACATCGATGTGCAGCATTTCCTGGTGGGCATGGCCAAGGCGCCGGTGTTCGCCTTCCTCATCGCAGTGATCGGCTGCCTGGAGGGCTTCAAGGTCAGCGGCAGCGCACAGTCGGTGGGCGAACACACCACGTCCAGCGTGGTGCAGTCGATCTTCATGGTCATTCTGCTGGATGCGCTGGCCGCGCTGTTTTTCATGGAGATGGGCTGGTGA	MQAGNLELQTSSRPFRLAVSGDWTLAHYAALKRRVAEVVPQLQADSSVSLEALGALDTAGAGLLVELLGPARVREAAEGLPAERVALLRTVAAALDQEPIRDIPHHYGLDDVLAHIGRTVEAVWRQQRTLLGFIGLTLESLARTLPRPRRWRVTSLVAHIETSGLDAIPIVALLTFLVGAVVAFLGATVLADFGASIYTVDLVAFSFLREFGVLLAAILMAGRTASAFAAQIGSMKSNEEIDAIRTLGLDPIELLVLPRLLAMLLALPILTFIAMLSGIVGGALVCVVSLDISTAMFLSMLHDHIDVQHFLVGMAKAPVFAFLIAVIGCLEGFKVSGSAQSVGEHTTSSVVQSIFMVILLDALAALFFMEMGW	PGPT0007010_369	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_PHOSPHOLIPID|CHOLESTEROL_TRANSPORT,PGPT0007010-mlaE|linK-K02066	NA	NA
BMS010_08500	795	mkl_1	COG1127	putative ribonucleotide transport ATP-binding protein mkl	GTGACGGCCGGCGACGAGGTGCTGATCGAGGTGCGCGGGCTGGTCAACCGTTTCGGCAGCCAGACCGTCCACGACGGGCTCGACCTGGATGTCCGTCGCGGCGAGATTCTCGGCGTGGTCGGCGGCTCGGGGACGGGCAAGTCGGTGCTGTTACGCAGCATCGTCGGCCTGCGCCGGCCGAATGCCGGCAGCGTGCGGGTGTTCGGCGAGAACCTGCTGGCGCTGGGCGAGGAGGCCCGCTCACGGATCGAACGGCGCTTCGGCGTGCTGTTCCAGCGCGGGGCGCTGTTCTCCTCGCTCACCGTGCAGGAAAACATTGCGCTGCCGCTGATCGAGCACGCCGGCCTCGGCCGCGACGACGCCGAACATCTGGCCCTGCTGAAGATCGCCCTGACCGGGCTGCCGGCCAGCGCCGCCGAGAAATACCCGGACGCGCTGTCCGGCGGCATGGTCAAGCGCGCCGCCCTGGCCCGCGCCCTGGCCCTGGACCCGGAGGTGTTGTTCCTCGACGAACCCACCGCCGGCCTCGACCCCATCGGCGCGGCGGCCTTCGACCGGTTGATCCTGACCCTGCGCGACGCCCTCGGGCTCAGCGTGTTCCTGGTCACCCACGACCTCGACACGCTCTATTCCATTTGCGACCGCGTCGCCGTGCTGGCGAAGAAGCGCGTGCTGGTGGCCGACAGCCTGGAGCGGGTGGCCGCCACCGACGACGACTGGATTCGCGACTATTTCCACGGCCCGCGCGGCCGTGCGGCACAGCAGGTTGCCGCCCCCTTGCAGGAGACTCCCTGA	MTAGDEVLIEVRGLVNRFGSQTVHDGLDLDVRRGEILGVVGGSGTGKSVLLRSIVGLRRPNAGSVRVFGENLLALGEEARSRIERRFGVLFQRGALFSSLTVQENIALPLIEHAGLGRDDAEHLALLKIALTGLPASAAEKYPDALSGGMVKRAALARALALDPEVLFLDEPTAGLDPIGAAAFDRLILTLRDALGLSVFLVTHDLDTLYSICDRVAVLAKKRVLVADSLERVAATDDDWIRDYFHGPRGRAAQQVAAPLQETP	PGPT0007015_2812	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_PHOSPHOLIPID|CHOLESTEROL_TRANSPORT,PGPT0007015-mlaF|linL|mkl-K02065	NA	NA
BMS010_08501	939			hypothetical protein	ATGGAAACCCGCGCCCATCACGTGCTGATCGGCCTGTTCACCGTCGTGGCGGTGGGCGGTGCGCTGCTCTTCGCGCTGTGGCTGGCCAAGTCCAGCGTGGACCGCGAATTCGCCTACTACGACGTGATTTTCAACGAGGAGGTCAGCGGCCTGTCACCCGGCAGCCCGGTGGAGTACAGCGGCATCAAGGTAGGCGACGTCACCCAGCTCAAGCTGGACCCGCAGGACCCGCGCAAGGTGCTGGCGCGCATTCGCGTCTACGGCGGCACGCCGATCAAGCAGGACACCCGAGCCCGCCTGGCCCTGGCCAACATCACAGGCAGCTCGCTGATCCGCATGTATGGCGGCTCGCCGGAAAGCCCGTTGCTGGAGGGCGTGGACGGCAATCCGCCGGTGATCGTCGCCGACCCTTCGCCGATCTCCAAGCTGCTGGCCAATGGCGAGGACCTCATCAGCAGCATCAACGAGCTGGTCAACCGCGCGAGCCAACTGTTCTCCCAGGAGAACGCCGACCGCGTCGGGCAGACCCTGGCGAACCTGGAGCAGACCACCGCGGTGTTCGCCGCCCAGCGCGAGGACCTCGGCCAGACCCTGCGTCAGCTCGGCGACCTGGGCCGCGACACCCAGGCCGCGCTGCGCGAGTTCACCCACCTCGCCCACAACGCCAACGGCCTGCTCGACCAGGAAGGGCGCGGCCTGCTGGCACGTGCGGAGAAATCCATGGCGGCCCTGGAGCGCTCCACCGAACGCATCGATCTGCTCCTGCAAGGCAACGAGGAATCGCTCAACGACGGCCTCCAGGGACTCGGCGACATCGGCCCGGCGGTGGACGAATTGCGCGCTACCCTCTCGTCGCTGCGCAGCGTCACTCGCCGCCTCGAGGAGAACCCGTCCGGCTTCCTCTTCGGTCGTGAAAAAGCCCAGGAATTCCAGCCATGA	METRAHHVLIGLFTVVAVGGALLFALWLAKSSVDREFAYYDVIFNEEVSGLSPGSPVEYSGIKVGDVTQLKLDPQDPRKVLARIRVYGGTPIKQDTRARLALANITGSSLIRMYGGSPESPLLEGVDGNPPVIVADPSPISKLLANGEDLISSINELVNRASQLFSQENADRVGQTLANLEQTTAVFAAQREDLGQTLRQLGDLGRDTQAALREFTHLAHNANGLLDQEGRGLLARAEKSMAALERSTERIDLLLQGNEESLNDGLQGLGDIGPAVDELRATLSSLRSVTRRLEENPSGFLFGREKAQEFQP	PGPT0007005_7474	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_PHOSPHOLIPID|CHOLESTEROL_TRANSPORT,PGPT0007005-mlaD|linM-K02067	NA	NA
BMS010_08502	606			hypothetical protein	ATGAAGCGCTACCGCCTCCTGTCCCTCGCTCTCTGCGCCATGCTGTCGGCCTGCTCCGTCCTGCCGCAGTCGGAACCGTTGCGCATCTACCGGTTGCCGAGCCAACTCGCCCCCGCAACGGCGACCACCCCGGTCGACTGGTCCCTGCGGGTCGGTACGCCGCTGACCAGCCGGGTGCTGGACAGCGCCCGCATCGCCGTCATGCCCGAGGGCGACCGCATCAGCAGCTACCAGGGCGCGCGCTGGAGCGATAGCGCACCGGCGCTGGTACGCGACCGGTTGATCGAAGCCTTCCACGACGATGGCCGGGTACAGCGCCTGAGCAGCGACGAGAACCGCCTCCACGCCGACCTCGAACTGGTCAGCGACCTGCGGGCGTTCCAGAGCGAGTACCGAGACGGCACGCCCCACGTCGTGATCCGCCTGGACGCCCGCCTGGTGCGCAGCGCCAACCAACGCATCGTCGCCAGCCGGCGTTTCGAGGTGAGCGAGGCGAGCCGGGATGTGGCAGTGGAAGAGGTAGTCACGGCCTTCGGTCGTGCGGCCGATGCCCTCGCCCGGCAGGTGGTGGACTGGACCCTGGAGGCCGGCGGGCCGGTGCGCTGA	MKRYRLLSLALCAMLSACSVLPQSEPLRIYRLPSQLAPATATTPVDWSLRVGTPLTSRVLDSARIAVMPEGDRISSYQGARWSDSAPALVRDRLIEAFHDDGRVQRLSSDENRLHADLELVSDLRAFQSEYRDGTPHVVIRLDARLVRSANQRIVASRRFEVSEASRDVAVEEVVTAFGRAADALARQVVDWTLEAGGPVR	PGPT0007020_511	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_PHOSPHOLIPID|CHOLESTEROL_TRANSPORT,PGPT0007020-linN-K18480	NA	NA
BMS010_08503	1485	norR_7		Anaerobic nitric oxide reductase transcription regulator NorR	ATGGCCATCACACGCGGCGACCTCGACGAACACGGACTGATCATCGGCGTATCCCCGGAGCGCTTCCGCGCGGTGGCGATGCCGCTGCTGTTCGACCATCTCAACGCTCAGTGCGAGGGCACCATCGCGGTGAACCGGCAGGCGCGGATCGTCTGGATCAACGACAAGTACGCGGCGAAGATCGGCATCCGCGACCCGCGCAGCGTGCTCGGCAAAGAGGTCGAGGAAGTGCTGCCGGCCAGCCAGTTGCGCCGTGTCGTCGAGAGCGGCCAGCCGAGCATGCTCGACCTGATGGCCTTCGGCGACGAGCACTTCGTGGTTACCCGCATTCCGCTGCGCGACGAGGACGGCACCCTGGTCGGCGCCATCGGTTTCGTCCTCTTCGACCGTGCCCAGCACCTCAAGCCGCTGATGCAGCAGTACGCGCAACTGCAGAATCAGTTGGCCGCCACCCAGCGCGAGCTGGTCCGGGCCCGGCGGGCGCGCTACACCATCGCCGGTTTCATCGGCGCCAGCCCGGCCGCCAGCGAAGTGAAGCGCCAGGCCCGCCGCGCCGCCCAGCTCGACGCCACGGTGCTGCTGCGCGGCGAGACCGGCACCGGCAAGGAGCTGTTGGCGCAGGGCATCCACAACCTGTCGCTGCGCGCCAGCGGACCTTTCGTCGCGGTGAACGTGGCGGCGATTCCGGAAACCCTGGTGGAGGCCGAGCTGTTCGGCACCGCGCCAGGCGCCTTCACCGGCGCCGACCGTAAGGCGCGGATCGGCAAGTTCGAGGTGGCCAACGGCGGCACCCTGTTCCTCGACGAGATCGGCGACCTGCCCCTCGGCCTGCAGGCCAAGCTGCTGCGGGTTCTGCAGGAGCAGGAGGTGGAGCCGCTCGGCTCCAACCAAGTGAAACCGCTCAACGTGCGCGTGATCGCCGCCACTCATGTCGACCTGGAAGCGCGGGTGGCCGCCGGCGAATTCCGCGACGATCTCTACTACCGCCTGAACGTCCTTGCCTTGCGCGTGCCGCCCCTACGCGAGCGCCGCGAGGACATCCCGGCCCTGGTGGAACACCTGCTGGACGACATCGCCAGCCGCTCCGGCCAACCCTGCCCGGAACTCGCCGACGATGCCTTGGACTGGCTGGCGACACGCTCCTGGCCGGGCAACGTGCGGCAATTGCGCAACCTGCTGGAGCGGGCGCAACTGGAGGCGGACAGCAGCCCCTTGAGCGCAGCCGTCCTGCAACGCCTGCTGGCCGAACAGGATGCCGGGACGAGCCTCAGTCCATCGATTTCGGAAGCACCGCTCCCTCCGCCCGTGGAGCCACCCACCGAGGTGCAGCCCCTGGCCGAAACCCTCGCCGCCGCCGAGCGCGCCGCCCTCCAGGCCGCCCTCGCCGCCTGCAACGGCAACCGCCGCCGCGCCGCCGAACGCCTCGGCATCGCCCGCGCCAGCCTGTACAACAAGCTGCAACAGCATGGGCTCAGCGAGCGGTGA	MAITRGDLDEHGLIIGVSPERFRAVAMPLLFDHLNAQCEGTIAVNRQARIVWINDKYAAKIGIRDPRSVLGKEVEEVLPASQLRRVVESGQPSMLDLMAFGDEHFVVTRIPLRDEDGTLVGAIGFVLFDRAQHLKPLMQQYAQLQNQLAATQRELVRARRARYTIAGFIGASPAASEVKRQARRAAQLDATVLLRGETGTGKELLAQGIHNLSLRASGPFVAVNVAAIPETLVEAELFGTAPGAFTGADRKARIGKFEVANGGTLFLDEIGDLPLGLQAKLLRVLQEQEVEPLGSNQVKPLNVRVIAATHVDLEARVAAGEFRDDLYYRLNVLALRVPPLRERREDIPALVEHLLDDIASRSGQPCPELADDALDWLATRSWPGNVRQLRNLLERAQLEADSSPLSAAVLQRLLAEQDAGTSLSPSISEAPLPPPVEPPTEVQPLAETLAAAERAALQAALAACNGNRRRAAERLGIARASLYNKLQQHGLSER	PGPT0019455_175	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPIONATE|PROPANOATE_UTILIZATION,PGPT0019455-prpR-K02688	NA	NA
BMS010_08504	1386			hypothetical protein	ATGGGCACCCTTGGAATCCTGATCTCCCTCGCATTGCTGATGTACCTCGCCTACCGGGGCATCAACGTGCTGATCCTGGCCCCGCTGCTGGCCCTGCTGGCGCTGCTGTTCTCTGGCGAGGCGGCCATGCTGCTGCCGACCTACACGCAGGTGTTCATGAAGGCCATGGGCGGCTATGTCATCCAGTTCTTCCCGCTGTTCCTGCTCGGCGCGCTGTTCGGCAAGCTGATGGACGACTCCGGCTCGGCCCGCGCCATCGCCCACGGCATCGTCGCCAAGGTCGGCAGCCAGCGCGCCATCCTGGCCATCGTGCTGGCCTGCGGCATCCTCACCTACGGCGGTGTCTCGCTGTTCGTGGTGGCCTTCGCGGTCTACCCGATCGGCGCCGCGCTGTTCCGCGAGGCGGGCATTCCCAAGCGGCTGATCCCCGGCGCCATCGCCCTCGGCTCCTTCACTTTCACCATGACCGCCCTGCCCGGCACCCCGGCGATCCAGAACGCCATTCCCAATCCCTTCTTCGGAACCGATGCCTTCGCCGCGCCGGGCCTGGGGCTGATCGCCGGGTTGATCATGTTCGGGCTCGGCACCTGGTGGCTGAGCGCCCAGGCGCGCAAGCTGATGGCCGCTGGCGAAGGCTACGGCACCCACCGCGACGAACCGGAATCCCAGGACGGCCTGCCGATCCCCGGCTTCTGGCTGGCGCTGCTGCCGATCGCCCTGGTGATCGTGCTCAACTTCATCATGGCCAAGCTGTTCCTGCCGACACTGGACACCAGCTACCTGGCCAAACCGGAATACGGCGGCCTGCAGGACGCCAAGTCGCTGATCGGCATCTGGGCCATCATCGTCGCCCTCACGGCGGCTTGCCTACTGCTCATCGCGATGCACTGGAAGCGCTGGCTGGACCTGAAGAAGAGCGTCAACGAAGGCGCCTTCGGCTCCATGCTGCCGATCCTCAACACCGCCTCGGAGGTCGGCTACGGCACGGTGATCGCTTCGCTGGCCGGCTTCATCGTGATTCGCGATTTCGTCCTCGGCGTGTCGTCCAATCCGCTGATCTCCGAAGCGGTGGCGGTGAACATCCTGGCCGGCATCACCGGCTCGGCGTCGGGCGGCATGTCCATCGCCCTGAAGACCCTCGGCGAGCAGTACCTGGCCCTGGGCACCGCCGCCGGTATCAGCCCCGAGCTGCTGCACCGGGTCGCCGCCATGGCCTCCGGCTGCATGGATACCCTGCCGCACAACGGCGCGGTGATCTCGCTGCTGGCCATCTGCAAGCTCACCCACCGCGAGTCGTACAAGTTCATCTTCGTCAACACCGTGGCCTTCCCGCTGCTGGCGCTGGTCGTCGTCATCACGCTGGGCACCCTGTTCGGCAGCTTCTGA	MGTLGILISLALLMYLAYRGINVLILAPLLALLALLFSGEAAMLLPTYTQVFMKAMGGYVIQFFPLFLLGALFGKLMDDSGSARAIAHGIVAKVGSQRAILAIVLACGILTYGGVSLFVVAFAVYPIGAALFREAGIPKRLIPGAIALGSFTFTMTALPGTPAIQNAIPNPFFGTDAFAAPGLGLIAGLIMFGLGTWWLSAQARKLMAAGEGYGTHRDEPESQDGLPIPGFWLALLPIALVIVLNFIMAKLFLPTLDTSYLAKPEYGGLQDAKSLIGIWAIIVALTAACLLLIAMHWKRWLDLKKSVNEGAFGSMLPILNTASEVGYGTVIASLAGFIVIRDFVLGVSSNPLISEAVAVNILAGITGSASGGMSIALKTLGEQYLALGTAAGISPELLHRVAAMASGCMDTLPHNGAVISLLAICKLTHRESYKFIFVNTVAFPLLALVVVITLGTLFGSF				NA	NA	NA	NA	NA
BMS010_08505	1569	carA_2	COG4670	Caffeate CoA-transferase	ATGAGCAAAGTCACCAGCGCCGCCGTAGCCGTCGCACAGATTCCCGATGGCGCCAACCTGGCCACCGGCGGCTTCGTCGGCATCGGTTTCGCCGAAGAGCTGGCCATCGCCCTGGAGCAGCGTTTCCTCACCGAAGGCGCGCCGCGCGACCTGACCCTGGTCTATGCCGCCGGCCAGGGCGACGGCAAGGGGCGCGGGCTCAACCACCTGGCGCACGAAGGCCTGGTGCGGCGGGTGATCGGCGGCCACTGGGGGCTGGTGCCCGGCCTGCAGAAGCTCGCCGTGGACAACCGCATCGAGGCCTACAATCTGCCGCAGGGAGTGATCTCCCAGCTGTTCCGCGACATTGCCGCGGGCAAGCCGGGGCAACTGTCGAAGATCGGCCTCGGCACCTTCGTCGATCCCCAGTACGGCGGCGGCAAGCTGAACGCGAAGACCACTGCCGATCTGGTCCGGCGCCTGCCCATCGACGGCGAGGACTACCTGTTCTACAGCGCCTTCCCGATCCACGTGGCGCTGATCCGCGCCACCAGCGCCGACCCGGACGGCAACCTGTCCATGGAACGCGAGGCGCTGACCATCGAGAGCCTGGCCATCGCCATGGCGGCGAAGAACTCCGGCGGCCGGGTGATCGCCCAGGTCGAACGCATCGTCGAACGCGGCTCGCTGAACCCGCGCGAAGTGAAGATTCCCGGCATTCTCGTCGACCACGTGGTGGTGGCCGAGCCGCAGAACCACCAGCAGACCTTCGCCACCGCCTACAACCCGGCGTTCGCCGCCGAGGTCCGCGTGCCGGTGGACAGTCTCCGGCCGATGCCGCTGGACGTGCGCAAGGTGATCGCCCGCCGCGCCGCCCGGGAGCTGAAGCCCGGCGCCGTGGTGAACCTCGGCATCGGCATGCCCGAGGGCGTCGCCTCGGTGGCCGCCGAGGAAGGCGTGATCGACCTGCTCACCCTCACCGCCGAGCCCGGCGTGATTGGCGGCGTACCGGCTTCCGGCCTGGACTTCGGCGCGGCGAGTAACCACAGCGCATTGATCGACCAGCCCTATCAGTTCGACTTCTACGACGGCGGCGGCCTGGACCTGGCCTTCCTCGGCCTGGCCCAGGCGGATGCAGCCGGCAATCTCAACGTCTCCCGCTTCGGCAGCCGCCTGGCCGGCGCCGGCGGCTTCATCAACATCAGCCAGAGCGCCAAGGAAGTAGTGTTCGTCGGCACCTTCAGCGCGGGCGCCCAGGACATCCGGGTGGTCGACGGCCAGTTGCGCATCCATCAGGACGGCGCACTGCGCAAGTTCGTCCACACCGTGGAGCACCGCACCTTCTCCGGCAAGCTCGCCGCCGAACGCGGCCAGCCGGTGCTGTACATCACCGAGCGCTGCGTGTTCCGCCTCACGGGCGAAGGGCTGGAGCTGGTCGAGATTGCCCCCGGCGTGGACCTGGAGCGAGACATCCTGGCGCGCATGGACTTCCGCCCGCTGGTCCGCGAGCCGAAGGAAATGGACCGTGCCCTGTTCCTTCCCGAACCCACCGGCCTGCGTCTCCACCTGACCGGCCGCCCCGTTGCGTGA	MSKVTSAAVAVAQIPDGANLATGGFVGIGFAEELAIALEQRFLTEGAPRDLTLVYAAGQGDGKGRGLNHLAHEGLVRRVIGGHWGLVPGLQKLAVDNRIEAYNLPQGVISQLFRDIAAGKPGQLSKIGLGTFVDPQYGGGKLNAKTTADLVRRLPIDGEDYLFYSAFPIHVALIRATSADPDGNLSMEREALTIESLAIAMAAKNSGGRVIAQVERIVERGSLNPREVKIPGILVDHVVVAEPQNHQQTFATAYNPAFAAEVRVPVDSLRPMPLDVRKVIARRAARELKPGAVVNLGIGMPEGVASVAAEEGVIDLLTLTAEPGVIGGVPASGLDFGAASNHSALIDQPYQFDFYDGGGLDLAFLGLAQADAAGNLNVSRFGSRLAGAGGFINISQSAKEVVFVGTFSAGAQDIRVVDGQLRIHQDGALRKFVHTVEHRTFSGKLAAERGQPVLYITERCVFRLTGEGLELVEIAPGVDLERDILARMDFRPLVREPKEMDRALFLPEPTGLRLHLTGRPVA	PGPT0001790_641	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_ACRYLONITRITE|ACRYLAMIDE_DEGRADATION,PGPT0001790-pct-K01026	NA	NA
BMS010_08506	561	chrR	COG0431	Quinone reductase	ATGAGCAAGGTCTATAAGGTCGCGGTCATCGTCGGCAGCCTGCGCAAGGCGTCCATCAACCGCAAGCTGGCCAATGCGCTGGTCGGGCTGGCGCCGTCTTCGCTGAATATGGAAATCGTCGAGATCGGCGATCTACCGCTGTACAACGAGGACATCGACGTCACCCCGCCACCCGCGCCCTACACTGCCTTCCGCGACAAGCTGAAGGCCGCCGATGCCTTCCTCTTCGTCACCCCGGAGTACAACCGCTCGATGTCGGCACCGATGAAGAACGCCATCGACGTCGGCTCGCGCCCCTATGGCCAGAGCCACTTCACCGGCAAGCCGGGGGCGGTGCTCAGCGCCTCGCCAGGGGCCATCGGCGGCTTCGGTGCCAACCATCACCTGCGCCAGTCCATGGTGTTCCTCGACGTGCGCATGATGCAGCAACCCGAGGCTTACCTCGGCGGTGCGGCCGGCTTCTTCGACGAAGCCGGCAACCTTACCGATGGCATCAAACCGTTCCTGGAGAAGTTCGTCGGTGCCTATGCCGACTGGGTGGCGCTGCACGCCGGCCGCTGA	MSKVYKVAVIVGSLRKASINRKLANALVGLAPSSLNMEIVEIGDLPLYNEDIDVTPPPAPYTAFRDKLKAADAFLFVTPEYNRSMSAPMKNAIDVGSRPYGQSHFTGKPGAVLSASPGAIGGFGANHHLRQSMVFLDVRMMQQPEAYLGGAAGFFDEAGNLTDGIKPFLEKFVGAYADWVALHAGR	PGPT0004195_1740	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0004195-chrR-K19784	NA	NA
BMS010_08507	1095	nmoA	COG2070	Nitronate monooxygenase	ATGGCCACTCGCCTCACTCGTCTGCTCGGTATCGAGCATCCCATCATCCAGGCGCCGATGGTGGGCGTGTCCACGCCGGCGCTGGCCGCGGCGGTCAGCAATGCCGGGGCGCTGGGTTCCATCGGCGTCGGCGCCAGCACGCCGGAGCAGGCGCGCGCAATGATCGCGGCGACCCGCGCACTCACCGGCAAGCCATTCAACGTCAATCTGTTCTGCCATCGCCCGGCTCAGGCCGACCCGGCCCGTGAGGCTGCCTGGCTGGCGCATTTGCGCCCGGTGTTCGCCGAGTTCGGTGCCGAACCGCCGGCGGGGCTGACGGAGATCTACAAGAGCTTCGTCGAGGACGAGGCGATGCTGGAGATGCTGCTGGCCGAGCGTCCGGCGGTGGTGAGCTTCCATTTCGGCCTGCCGCGCCAGGAGTGGATCGATGCGCTGCGCGCGGCCGGGGTTCGCCTGTTGGCCAGCGCCACCACCCTGGCCGAGGCGGAGCAGGTCGAGGCGGCGGGAATCGACGCGGTGGTAGCCCAGGGCTACGAAGCGGGCGGCCACCGCGGGGTGTTCGAGCCCGAACGGGGCGATGCGCGGATCGGCACCTTCGCCCTGGTGCGCCTGCTGTCCAGCCGCTGCCGGCTGCCGGTGATCGCGGCGGGTGGATTGATGGATGGCGCCGGTCTGGCCGCTGTTTTCGCGCTGGGGGCTGAAGCCGGGCAGCTTGGTACGGCCTTCATCGGTTGCCCGGAGTCTGCCGCCAACGCCGCCTTCCGCGCGGCGCTCAAGGGCGAGCGCGGCCGGCGTACCCAGGTGACCGCCGGGATATCCGGGCGTGCCGCGCGCGGGTTGCCGAATCGCCTGTTCGAGGCGGTCGACGATCCGAACGCGCCGCCGCTGCCGGACTATCCCATCGCCTACGACGCGGCCAAGGCATTGATCGCCGCCGCCACGGCCCAGGGCAATGGCGATTTCGCCGTGCAATGGGCCGGGCAGGGTACGCCGTTGGCACGGGAGCTGCCTGCGGCAGAACTGGTACAGACGCTGATGACGGAGCTGCGCGAGGCGACTCAGCGGCCGGCGTGCAGCGCCACCCAGTCGGCATAG	MATRLTRLLGIEHPIIQAPMVGVSTPALAAAVSNAGALGSIGVGASTPEQARAMIAATRALTGKPFNVNLFCHRPAQADPAREAAWLAHLRPVFAEFGAEPPAGLTEIYKSFVEDEAMLEMLLAERPAVVSFHFGLPRQEWIDALRAAGVRLLASATTLAEAEQVEAAGIDAVVAQGYEAGGHRGVFEPERGDARIGTFALVRLLSSRCRLPVIAAGGLMDGAGLAAVFALGAEAGQLGTAFIGCPESAANAAFRAALKGERGRRTQVTAGISGRAARGLPNRLFEAVDDPNAPPLPDYPIAYDAAKALIAAATAQGNGDFAVQWAGQGTPLARELPAAELVQTLMTELREATQRPACSATQSA	PGPT0006800_2212	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-PROPIONATE-3-NITRATE-DERIVATE_RESISTANCE,PGPT0006800-ncd2|npd|pnoA-K00459	NA	NA
BMS010_08508	876	gltR_2	COG0583	HTH-type transcriptional regulator GltR	ATGGACCTCACCACCCTGGAAATCTTCCGCCTGGTTGCCCTGGAGAACAGCATCACCCGTGCCGCCCAACGCCTGCAGCGGGTGCAGTCGAACGTCACCACGCGCATCCAGCAACTGGAAGAGGAGCTGGGCGTTGCGCTGTTCCTGCGTGACGGCAAGCGCATGGCCCTGACCGAGCAGGGCCGCACATTCCTCGACTACGCCGAGCGCCTGCTGTCGCTGGCCGACGAAGCGCGCCAAGCGATGCACCCCGACCACCCCGGCGGACGACTGCGCCTGGGCAGCATGGAAAGCACCGCCGCGACACATCTACCACGGCCGTTGGCGGCGTTTCACGGCGAATGCCCCGAAGTCACGTTGGAAGTGAGCACCGGCACCAGCGCCGCACTGATCGACGGCGTGCTCGCACGACGGCTGGATTGCGCGCTCGTGGCGCTGCCGGAGAACCTGGACGCCGCAGCGCTGCCGGGACACGGCCTGCAAGGCGACGCGGTGTTCCGGGAGGAGTTGCTGCTGGTCCTGCCGCCCGGTCACCCCGTCGTGGAAAGCCCGGCGCAGGTGCGCGTGCAAACCCTCGCCGGCTTCGCCAAGGGCTGCACCTACCGCCAGATAGGCGAGCAATGGCTGACCGCCGAGGGCACCCCGCCCGGTTTCCGCGTCCAGGAAGTCGGCTCCTACCACGCCATCCTCGCCTGCGTCGCGGCCGGCACCTGCAGCGGCGTGCTGCCACGCTCGATACTCGACTTGCAGCGCGACCCGGCGCCGGTCGTCACTCACTCGCTTCGCGAGATCGACACCTGGCTAGTGTGGCGCGACGGCTACGCCACAGCGGCGTTCCAGCGTTTCCGTGGATTGCTTGGCCGAAACGGAGCGTAG	MDLTTLEIFRLVALENSITRAAQRLQRVQSNVTTRIQQLEEELGVALFLRDGKRMALTEQGRTFLDYAERLLSLADEARQAMHPDHPGGRLRLGSMESTAATHLPRPLAAFHGECPEVTLEVSTGTSAALIDGVLARRLDCALVALPENLDAAALPGHGLQGDAVFREELLLVLPPGHPVVESPAQVRVQTLAGFAKGCTYRQIGEQWLTAEGTPPGFRVQEVGSYHAILACVAAGTCSGVLPRSILDLQRDPAPVVTHSLREIDTWLVWRDGYATAAFQRFRGLLGRNGA				NA	NA	NA	NA	NA
BMS010_08509	933	dmlR_16		HTH-type transcriptional regulator DmlR	ATGGAAACCCTGGCCAATCTGGAATCCTTCGTTCGCAGTGCCGAACTCGGCAGTTTTTCCGCCGCCGCTCGCCGGCTCGGCCTCACCCCTGCTGCGGTCAGCCGCAATGTCGCCCAATTGGAGCGTAACCTCGGTGTACGCCTGTTCCAGCGCAGCACCCGGCGTCTCACGCTCACGGAAGCTGGAGAGCGCTTCCTCGGTTCGGTCAGCGGGGGGCTGGAAAGCATTCAGGTGGCCATTGCCGAGCTGGCCGGCACGGTCAGCGAGCCTTCCGGTGTGTTACGGATCAGTGCGGCGCCCGCGTTCGGCCGTGACCATCTGCTGCCGTTGGTGCCGGCGTTCTGTGCGCGTTTCCCGGCGGTGGAGCTGGAATGGCAATTCGATAATCGTCCCGTGGACCTGATCGCCGAAGGTTTCGACGTGGCGATCGGCGGTGGCTTCGAACTGACGCCGGGTGTGGTCGCACGGGAGCTGACCCGTCTGCACATCGTTGCGGTGGCCTCGCCCGCCTATCTGCAGGGCCGCCCGTTACCGCTCGATCCTTCCGATCTGGCGGCATGGGACGGCATTGCCATGCGCTCGATGCGCACTGGCCGCGTACGGCAATGGCAGCTGCGTCATGGTGACGGCCGGGAAATGCCGGTGGAGTTTCGCGCCAGGATGCGGGTGAACGATCCGGCAGCACTGTGCCGCAGCGTGCTGCTCGGTCTTGGTGTAGGGCTGCTGGCGGTCCCTGATGTGCTGCCCCATCTGCGTAGCGGAGCGTTGGTACGGGTGTTACCGGAGTGGTATGCCGACGCCGGGCCGATTTCGCTCTACTTCGCCAGTGGCCGGCTGTTGCCGGCGAAGACGAGGGCTTTCATCGATCATCTCAGTGAGCGCTTTCATGCGCTCGGGCTGGCGCAGGCGTTCCGCGCGGACCAGGCAATCTGA	METLANLESFVRSAELGSFSAAARRLGLTPAAVSRNVAQLERNLGVRLFQRSTRRLTLTEAGERFLGSVSGGLESIQVAIAELAGTVSEPSGVLRISAAPAFGRDHLLPLVPAFCARFPAVELEWQFDNRPVDLIAEGFDVAIGGGFELTPGVVARELTRLHIVAVASPAYLQGRPLPLDPSDLAAWDGIAMRSMRTGRVRQWQLRHGDGREMPVEFRARMRVNDPAALCRSVLLGLGVGLLAVPDVLPHLRSGALVRVLPEWYADAGPISLYFASGRLLPAKTRAFIDHLSERFHALGLAQAFRADQAI				NA	NA	NA	NA	NA
BMS010_08510	600			hypothetical protein	ATGACCCTTTCCATTATCGGCGCCGGTGCCATCGGCACGGCCATTGCCCAACGCCTGGCCGCTGCCGGCCTCGACTTCAGCATTGCCAACAGCCGGGGGCCGGAAAGCCTGACCGCCTTGGTCCGCGACCTGGGACCACATGCCAGCGCAGTCACCACTCGCGAAGCCGCCCAGGCCGATATCGTCTTCCTGGCGGTTAACTGGTCGAGATTGCCGGAAGCCCTGAAAGACCTTGGTCCCTGGGATGGGCGCATCATCATCGATGCCAACAATGCCATCGAGGCGCCCAGTTTCACCGCGGTGGACCTCGGCAACCGCGCCTCCAGCGAAGTGGTGTCGGACCTGGTGCCCGGCGCGCGGGTGGTGAAAGCCTTCAACCATTTGCAGGCAGCGCTGCTCGCCAGCGATCCGCAGACCGAAGGCGGCCGCCGCGTACTGTTCTACTCCGGTGACGATACCCGGGCGAAAGCCGAGGTCGGCAAGCTGATCGAGCGCCTCGGTTTTGCCGGTATCGATCTCGGCACCCTGGCCGGCGGTGGCCGCCTGGCACAATTCCCGGGCGGTCCGTTGCCGGTGCATAACCTGGTGCGCTTCGGCTGA	MTLSIIGAGAIGTAIAQRLAAAGLDFSIANSRGPESLTALVRDLGPHASAVTTREAAQADIVFLAVNWSRLPEALKDLGPWDGRIIIDANNAIEAPSFTAVDLGNRASSEVVSDLVPGARVVKAFNHLQAALLASDPQTEGGRRVLFYSGDDTRAKAEVGKLIERLGFAGIDLGTLAGGGRLAQFPGGPLPVHNLVRFG				NA	NA	NA	NA	NA
BMS010_08511	750	cah	COG3338	Carbonic anhydrase	ATGAGAAGATTTCTGCTGGGGGCGGTGAGCGCCCTGTCCGTTTCCGTCACGCTGGCCGCCGAGCCGACGCCGCCGACGCACTGGAGCTACCAGGGTGAAAACGGCCCGGACCATTGGGCCCAGATGGATCCGGGCTTCAGCACCTGTGCACTTGGCAAGATGCAGTCGCCGATCGACATCCGTAACGCTGTGAAGGCCGACCTTCCGGAAATCCAGTTCGACTACACCGCCGGCCCGGCCGAAGTGGTGAACAACGGCCACACCATCCAGGTCACCCTGCCCAAGTCCGGTAGCATCGATATCGGCGGCTCCCGCTACGAGCTGCTGCAGTTCCACTTCCATACGCCGAGCGAAGAGAAGGTCGCCGGCATGGCCTTCCCGATGGTCGCGCACTTCGTGCACAAGAGTGCCGACGGTCAACTGGCGGTCGTCGCCGTGCTGATCAAGGAAGGCCACGAGAACCCGGGCCTGGCCAAGGTGCTCGCCGCCCTTCCGACGAAGGAAGGCGAATCCCATCCGCTGGAAGTCCAGCTGAACCCGGCCGACATCCTGCCACCGCAGCATGGCTACTACGCCTTCACCGGCTCGCTCACCACCCCGCCGTGCAGCGAGAACGTGCGCTGGCAGGTGCTCAAGCAGCCTATCGAGCTGTCCCACAAGCAGATTGTCTCGTTCCAGCATCTCTACCCGATGAATGCGCGTCCGACCCAGCCGCTGAACGGCCGCAAGATCGAGGAAAGCCATACCTGA	MRRFLLGAVSALSVSVTLAAEPTPPTHWSYQGENGPDHWAQMDPGFSTCALGKMQSPIDIRNAVKADLPEIQFDYTAGPAEVVNNGHTIQVTLPKSGSIDIGGSRYELLQFHFHTPSEEKVAGMAFPMVAHFVHKSADGQLAVVAVLIKEGHENPGLAKVLAALPTKEGESHPLEVQLNPADILPPQHGYYAFTGSLTTPPCSENVRWQVLKQPIELSHKQIVSFQHLYPMNARPTQPLNGRKIEESHT	PGPT0002420_1301	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002420-cah-K01674	NA	NA
BMS010_08512	738	fabG_8		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGCACGTTTCTCACCGAACCGCTCTCGTCACCGGCGCCTCCCGCGGCATTGGGCGCGCCATCGCCCTGCGTCTGGCGGAGGATGGCTTTGCCGTGGCCGTCAATTACGCCGGTAACCGCGAGGCCGCCAACGAGGTGGTTGCCCTTATCGTCGAGCGCGGCGGTCGCGCTATTGCGGTGCAGGGCGACGTCGCCGAGCCAGCCGACATGGAAAGCCTATTCGCCGCCACCCAGGAAGCCTTCGGACATATCGACGTGGTGGTCAACAGCGCCGGTTCCATGCCGTATCTGAAAATCGCCGACCTGGATCTGGAAGGTTTCGACCGGGTCATCCGCACCAATCTGCGCGGCGCCTTCATCGTGCTCGGCCAGGCGGCCCGTCATGTCGAGCGCGGCGGACGGATCATCGCCCTGTCCACCAGCGTGATTGCCAAGGCGTTTCCCTGCTACGGCCCCTACATCGCCTCCAAGGCGGGTGTCGAAGGGCTGGTCCATGTGTTGGCGAACGAACTGCGTGGCCGCGACATCACCGTCAATGCCGTCGCGCCTGGCCCGGTTCCCACCGAGTTGTTTCTACAGGGTAAAAGTGCCGAGCAGGTCGAGCAGATTCGCCTGCTCCCTCCGTTGGAACGACTCGGCACCGTGGAGGAAATCGCGGGAGCGGTGGCCTTCCTCGCCGGCCCGGACGGGGGGTGGATCAACTCCCAGGTGCTCCGTGCCAACGGTGGCTTCGCTTGA	MHVSHRTALVTGASRGIGRAIALRLAEDGFAVAVNYAGNREAANEVVALIVERGGRAIAVQGDVAEPADMESLFAATQEAFGHIDVVVNSAGSMPYLKIADLDLEGFDRVIRTNLRGAFIVLGQAARHVERGGRIIALSTSVIAKAFPCYGPYIASKAGVEGLVHVLANELRGRDITVNAVAPGPVPTELFLQGKSAEQVEQIRLLPPLERLGTVEEIAGAVAFLAGPDGGWINSQVLRANGGFA	PGPT0003180_18399	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0003180-ymfI|fabG|efpI-K00059	NA	NA
BMS010_08513	927	pgrR_13		HTH-type transcriptional regulator PgrR	ATGGATCGGCTGGATACGCTGAAGCTCTTCACCCGCATCATCGAATTGGGCAGTTTCACCCAAGCCGCTGGTGCCCTGGACATTCCCCGCGCCACCGCCACCCATGCCATCAAGCAATTGGAAGCGCGCCTCGGCGCCCGCCTGCTGGAGCGCACCACCCGCCAGGTGCGGCCAACCTTCGATGGCCAGGCATTCTACGAACGCTGCCGGCATGTCCTCCGTGAACTGGAGGACGCCGAGTCGGCGCTCAGCACAGCGGCCAGCGATCCGCGCGGTACGCTGCGCCTGGACCTTCACGGTAGCCACGCGACACTGATCATCCTGCCGCGCATCGCCGAATTTCATGCGCGCTACCCGCATATCGAGCTGGTAATCAGTAGCGGCGACCGGCTGGTGGACCTCGTTCGCGAGGGCATCGACTGCGTGGTGCGCGCCGGTAATCCACGCGACTCGTCGCTGGTGGCCAGGCGCTTGGCGTTGATGCCGGAAGTGGTCTGCGCCAGCCCGAACTACCTGGCTCGCCACGGTACGCCGCGGCATCCGGAGGAGTTGGCCACACACCAGGCGGTGGGCTTTTTCTCCAGCCAGCAGGATATTCGCTATCCGTTCACGTTCCAGATCGATGGACAGACACGGGAGTACGACCTGGGCGGCTGGATGCGCGTCAACGACGCGGAAAGCTACGTCGCCTGCGCCCTGAGCGGTTGCGGGTTGATCCAGTTGCCGCGCTTTCATGTCGAAGGCCATCTGCGCGCCGGACGGCTGGTGGAAGTCCTCGCCGACTGGCCGGCCCCCGGTCTGCCGGTCTCGGTGCTCTATCCCTACCATCGCCAGCTCTCGCCACGGGTGAAGGTATTCGTCGACTGGGCCAGCGGCCTCTATGCGGAACACTTCTCTGGCGAACGCTCGCCGCCGACAGGGGCCTAA	MDRLDTLKLFTRIIELGSFTQAAGALDIPRATATHAIKQLEARLGARLLERTTRQVRPTFDGQAFYERCRHVLRELEDAESALSTAASDPRGTLRLDLHGSHATLIILPRIAEFHARYPHIELVISSGDRLVDLVREGIDCVVRAGNPRDSSLVARRLALMPEVVCASPNYLARHGTPRHPEELATHQAVGFFSSQQDIRYPFTFQIDGQTREYDLGGWMRVNDAESYVACALSGCGLIQLPRFHVEGHLRAGRLVEVLADWPAPGLPVSVLYPYHRQLSPRVKVFVDWASGLYAEHFSGERSPPTGA	PGPT0028940_436	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-CHLORAMPHENICOL|TRIMETHOPRIN_EFFLUX_PUMP_BpeEF-OprC,PGPT0028940-bpeT-K18900	NA	NA
BMS010_08514	207			hypothetical protein	ATGCTTATTCACAACCTGTCCTGCCTGGAGCACCGGGACGACCGGTTCCATCTCGCCTGGCTGGCCGACGAGTCGCCGCTGAACGACCTCGATCAGGCCGAGAGCGAAGACCAGCAGGAAGCCCCCGACCTCGACGAAGAGGCGTTGGAAAACCTGGAAGAACTGCCCCCGCCGCCCGATCCGATCCCCGAGCCGGGGCCGATGTGA	MLIHNLSCLEHRDDRFHLAWLADESPLNDLDQAESEDQQEAPDLDEEALENLEELPPPPDPIPEPGPM				NA	NA	NA	NA	NA
BMS010_08515	912	dmlR_17		HTH-type transcriptional regulator DmlR	ATGAAAACGACGCTGGATGAATTGCAGGCCTTCACCACGGTGGTCGACAGTGGCTCCATCACCGCCGCCTCCGAACAACTGGGGCAGACCGCCTCCGGCATCAGCCGGGCTATCGGCCGCCTGGAGGACAAGCTCGAAGTCACCTTGCTGCGGCGCACCACCCGCCGCCTGGAGTTGACCGAGGAGGGCGAGGCGTTCCTCGCCCAGGCCCGGCGGATTCTCGCCAGCGTCGAGGAGGCGGAAGAGCAGATGGCGGTACGGCGCCAGAGCCCGTCCGGGCGCCTGCGGGTCAACGCCGCCTCGCCGTTCATGCTGCACGTGTTGGTGCCACTGGTGGGCGGCTTCCGCCTGCGTTATCCGGACATCGAGCTGGAGCTGCACACCAGCGACCAGATCATCGACCTGATCGAGCAGCGTACCGACCTGGCGATTCGCATCGGCACGCTGCGCGACTCCAGCCTGCACGCCCGTGCGCTTGGTGCCAGCCGCCTGCGTGTGCTGGCCAGCCCGGCCTACCTGTCGGCGCGAGGGGCGCCGGCCAATGTGGACGAGCTGGCCGGGCACAGCCTGCTCGGCTTCACCCAGCCGGAGAGCCTGAACCAGTGGCCGCTGCGCCACGCCCATGGCGACGGCCTGGCGGTGACGCCGACACTGCAGGCGTCCAGCGGAGAGACCCTGCGCCAACTGGCGCTGGCCGGGGAGGGGCTGGTCTGCCTGTCCGACTTCATGACCGCCCGCGACCGTGCCGACGGGGGGCTGGTCCAGGTGCTGGCAGGCGAAACGCTGGACGTGTGCCAGCCAATCCACGCGGTGTACTACCGCAACACCGCGCTTGCCTCGCGCATCGCCTGTTTCCTCGACTATCTTGGCGAACACCTCGCCGCACAGCCGTGGAATGCGCGCCGGCCCTGA	MKTTLDELQAFTTVVDSGSITAASEQLGQTASGISRAIGRLEDKLEVTLLRRTTRRLELTEEGEAFLAQARRILASVEEAEEQMAVRRQSPSGRLRVNAASPFMLHVLVPLVGGFRLRYPDIELELHTSDQIIDLIEQRTDLAIRIGTLRDSSLHARALGASRLRVLASPAYLSARGAPANVDELAGHSLLGFTQPESLNQWPLRHAHGDGLAVTPTLQASSGETLRQLALAGEGLVCLSDFMTARDRADGGLVQVLAGETLDVCQPIHAVYYRNTALASRIACFLDYLGEHLAAQPWNARRP				NA	NA	NA	NA	NA
BMS010_08516	1206	ydhP_3	COG2814	Inner membrane transport protein YdhP	ATGCCCATTGCCTTGCTCGCGCTCACCCTGAGCGCCTTCGCCATCGGCACGACGGAGTTCGTCATCGTCGGCCTGATCCCCACCATCGCCAGCAACCTCGGCGTCAGCCTGCCGTCGGCCGGCCTGCTGGTCAGTCTCTATGCCCTCGGCGTGGCGGTCGGCGCGCCCTTGCTCACCGCACTCACCGGCCGCGTGCCGCGCAAGCGCCTGCTGTTGGCGCTGATGGCCCTGTTCACCCTCGGTAACCTGCTGGCCTGGCAGGCGCCCGGCTACGAATCGCTGATCCTGGCGCGCATCGTCACCGGCCTCGCCCACGGGGTGTTCTTCTCCATCGGCTCGACCATCGCCACCGGCCTGGTTTCCAAGGAGAAGGCCGCCAGTGCCATCGCCATCATGTTCACCGGCCTCACCGTGGCCCTGGTCACCGGCGTGCCACTGGGTACCTTCATCGGTCAGCAGTTCGGCTGGCGCGAGACCTTCCTGGCGGTGTCGGCACTGGGCGTGATCGCCTTTCTCGGCAGCCTGGTCTTCGTCCCGGCGGATATCCCGCACAGCAAGCCGGCATCGCTGCTGCAACAGCTCCGGGTGTTGAAGACCCCGCGCCTGCTGCTGGTCTACGCGATGACTGCGATCGGCTACGGCGGCTCCTTCATCGCCTTCACCTTCCTCGCCCCGATCCTGCAGGAGATCACCGGGTTCAGCGCCGGCTCCGTGGGCCTGGTGCTGCTGGTGTATGGCGTCTCGGTGGCGGTGGGCAACCTCTGGGGCGGCAAGCTGGCCGACCGCCGCGGTCCCATCGGCGCATTGCTGATCATCTTCGCCCTGCTCGCGGCGGTGCTGTTCGTCTTCACCTTCACCGCCGCCACGCCCTGGCTGGCGCTGGCCACGGTACTGGTGTGGGGCGCGGTGGCGTTCGGCAACGTGCCGGGCCTGCAGGTCTATGTGGTGCGCCAGGCGGAACACCACACACCGGGGGCGGTGGACGTCGCCTCGGGTTTGAACATCGCGGCCTTCAACCTGGGTATCGCCGGCGGCGCCTGGATCGGGGGACATATCGTCGCCTCCCTGGGTCTGATCCATACCGCCTGGATTGGCGCCCTGGTGGTGCTGGTGGCACTGGCGCTGACCGCCTGGAGCGGCCGCCTCGACCGCAACGGCCCGGCGCCCGCCCATTCCGCTGAAACGGCATTCGCCGCCGGCCACTGA	MPIALLALTLSAFAIGTTEFVIVGLIPTIASNLGVSLPSAGLLVSLYALGVAVGAPLLTALTGRVPRKRLLLALMALFTLGNLLAWQAPGYESLILARIVTGLAHGVFFSIGSTIATGLVSKEKAASAIAIMFTGLTVALVTGVPLGTFIGQQFGWRETFLAVSALGVIAFLGSLVFVPADIPHSKPASLLQQLRVLKTPRLLLVYAMTAIGYGGSFIAFTFLAPILQEITGFSAGSVGLVLLVYGVSVAVGNLWGGKLADRRGPIGALLIIFALLAAVLFVFTFTAATPWLALATVLVWGAVAFGNVPGLQVYVVRQAEHHTPGAVDVASGLNIAAFNLGIAGGAWIGGHIVASLGLIHTAWIGALVVLVALALTAWSGRLDRNGPAPAHSAETAFAAGH	PGPT0028991_1387	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0028991-ydhP-K19577	NA	NA
BMS010_08517	801	dkgB_3	COG0656	2,5-diketo-D-gluconic acid reductase B	ATGAGTATTCCTGCATTCGGCCTCGGCACCTTCCGCCTCAAGGGCCTGCAGGTGATCGATTCGGTCCGCATGGGCCTGGAGCTGGGCTACCGCCACATCGATACCGCACAGATCTACGAGAACGAGGCCGACGTTGGCCAGGCCATCGCCGAGAGCGATGTGCCGCGCGACGAGCTGTTCGTCACCACCAAGGTCTGGACCGCCAACCTCGGTCGCGACCGGCTGATTCCCAGCCTCGAGGAAAGCCTCGCCAAGCTGCGCCTGGAGCAGGTCGACCTGACGCTGATCCACTGGCCGTCGCCCGGCGACGAACTGGACGTGGCCGACTACCTTGGCAGCCTGCTGGAAGCCAGGCGCCAGGGCCTGACCCGGTCGATCGGCGTTTCCAACTTCACCATCGCCCATCTGCAACGGGCCATCGACACCGTGGGTGCCGACGAGATCGCCACCAACCAGGTGGAAATCCACCCCTTCCTGCAGAACCATGCCCTGGTGGACTTCGCCCGCCGCCACGGCATCCACCTGACCGCCTATATGCCGCTGGCCTATGGCAAGGTGCTGCACGATCCGCTGCTCCAGGGCATCGCCGCCCGTCACGATGCCACGCCGGCCCAGGTGGCCCTGGCCTGGCTGCTGCAACAGGGCTTCGCGGTGATTCCGTCGTCCACCCGCCGGGAGAATCTCGCCAGCAACCTGGAGGCCCAGCGGCTGCGCTTGTCCGACGAAGACATGGCCGCCATCGCCGGGCTGGACCGCAACGAGCGCATCGCCAATCCCGGCTTCGCGCCGAACTGGGACTGA	MSIPAFGLGTFRLKGLQVIDSVRMGLELGYRHIDTAQIYENEADVGQAIAESDVPRDELFVTTKVWTANLGRDRLIPSLEESLAKLRLEQVDLTLIHWPSPGDELDVADYLGSLLEARRQGLTRSIGVSNFTIAHLQRAIDTVGADEIATNQVEIHPFLQNHALVDFARRHGIHLTAYMPLAYGKVLHDPLLQGIAARHDATPAQVALAWLLQQGFAVIPSSTRRENLASNLEAQRLRLSDEDMAAIAGLDRNERIANPGFAPNWD	PGPT0001325_980	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0001325-dkgB-K06222	NA	NA
BMS010_08518	306	ygiN	COG1359	putative quinol monooxygenase YgiN	ATGATCCATGTGATTGCCGACATCAGAACTGCACCCGGAGCACGGCCGCGTGTCCTCCAGGCGTTCGCCGCCATCACCCCGCTCGTGCGTGCCGAGGCCGGCTGCCTCGGTTACACCGCAACCCTGGACGCCGACACCAACCTGCCACGCCAAACCAGGGACGACACCAGCATCCTGATGGTGGAGCGCTGGGAAAGTCTGGAACACCTGAAGGCCCACCTCGAAGCGCCCCACATGCTGGCCTATCGCGAGCAGGTAGCCGCAGACGTGGTCGACGTCAGTCTGCGGGTGCTGACGGAAGCCTGA	MIHVIADIRTAPGARPRVLQAFAAITPLVRAEAGCLGYTATLDADTNLPRQTRDDTSILMVERWESLEHLKAHLEAPHMLAYREQVAADVVDVSLRVLTEA				NA	NA	NA	NA	NA
BMS010_08519	1479			hypothetical protein	ATGCATATAGGTAACTCTGGTAACCAAAGCCCACTCTCCCTGCTGGGAGATTCCTTCCGCTCCGATCACGACCCCGATGGAGGGAATGTTTCCGGCCGGTCGAATGCTCCGTCGAGCACCGGTGCGACCTATATGGGCTCGACCCGTTGGGTGAATACCGTCATTGGCGTAGAGGCTCCGGAGCATTCACCGAATGCCGTCGCGCTGCGGGGCAAGCTGCACCAGATCTTCGAACCGCACATCACCGGGCAGAACAGGCAGGCGTTCGAACAACTGATCGACCAGCGGGCGATTCGCCTGAACGAGATGGGCGAGACGCCGGAAAGCGTCGAGGCCACGTTGGCCAAGGGGCAGAAGTTGGATCGTCTGTCCCAGGGGGTGGTAGGGGCAGTGCGCTCGGTCCCCTTCGCAATTGCTTCACGCTTGATCGATACGGTGCCCGGTCTCACAGCCTTCGCCAAAACACCTCAAATGATCGGTTTCATCGCCGGCCTGTTCTCGGGGGCTGTCGATACGGTCGGTGGTGGGAGCGGGTTGCTGAAAAAGGCCACCAGCGATACCCAATGGCTGACAGCGAAACCGGAGCAACTGGAAGCGGTGATGGCCGATGCCGCCAAGGCCAGGGAGCCCGGATTGGGGCGGACTGCCACCGAGGTGACCGTGGCCTTCCAGACCTACAGCCTGCGCAACGTGCTGCGTATCGGCACGGCGGCCGTCGGGGCGGACAAACTATCGGAAAAGGGAGCAGCGGAGCTGGATTCCTGGATGAGTGCCGCGGGAGGCGTGGCGGCAGGTGTTGCCTCTTATGCGGGGCTCAACGCCGTGAGCGAGCAGAATCACCGGGTCGGCCCCGAATACCTGCTGGGCCGCCAGGATTGGGAGGCGCAATACACGGCATTGAAGGATGTCAATCCGTGGAAGGACCCTCTGATCAATGGGGGAAAGCGTCTTCTCCAGATTCCGGTGGACGCGACGACCGAAACGCTGTCGTCGATCCGCAACCTGGGCACGGCCACCAACCTGACCCTCAGCGTAGGTATCCTGGGGGGCGGCTTCGCGGGCGCCGTGGCAGCGAAGGCCGCCGCGACCGAAGCGGCGAAAAAGGCCGGGATCGGCGCCGTCGGTACCGCGGCCATCGGTCAGGCGGTGAACACCGCCGTTTCGGCTCCGGTGTTTGGAGTCTGGACGACAGCCGCTGTTCTGGGCGGGCCGGTGTTCGACAAGGCGGCCAGTCTCATCCAGCAGAAAGCGGGCTCGCTGCTCGACCAGGCGGCCAACCGTCTGCACGGTCGCCCATCCGGTTCGCAACCACTGCCCAGCGAGCCGCATGACGACACCGAGCTGGAGACGATGGAAGGGGGAGGCCAACCATCTTCGGGCCCCAACGAAACGGGCGATCACGTCGTGCTGGAGATCAGGGAGGAAGAGGATCAGCACCACCGGCAACCTCCGCTGAATGCCGCCGAACGCAACGTGTGA	MHIGNSGNQSPLSLLGDSFRSDHDPDGGNVSGRSNAPSSTGATYMGSTRWVNTVIGVEAPEHSPNAVALRGKLHQIFEPHITGQNRQAFEQLIDQRAIRLNEMGETPESVEATLAKGQKLDRLSQGVVGAVRSVPFAIASRLIDTVPGLTAFAKTPQMIGFIAGLFSGAVDTVGGGSGLLKKATSDTQWLTAKPEQLEAVMADAAKAREPGLGRTATEVTVAFQTYSLRNVLRIGTAAVGADKLSEKGAAELDSWMSAAGGVAAGVASYAGLNAVSEQNHRVGPEYLLGRQDWEAQYTALKDVNPWKDPLINGGKRLLQIPVDATTETLSSIRNLGTATNLTLSVGILGGGFAGAVAAKAAATEAAKKAGIGAVGTAAIGQAVNTAVSAPVFGVWTTAAVLGGPVFDKAASLIQQKAGSLLDQAANRLHGRPSGSQPLPSEPHDDTELETMEGGGQPSSGPNETGDHVVLEIREEEDQHHRQPPLNAAERNV				NA	NA	NA	NA	NA
BMS010_08520	843	hcaB_10		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGAGCAAGACCTGGTTCATTACCGGCGCCTCGCGCGGCATCGGCGCGGAAATCGCGAAAGCGGCCCTGTCCGCCGGCGACAACGTCGTTGCCACGGGGCGCAACCGCGAGCAGTTGGAGAAGACCTACGCCGCCTACCGCGAGCGCGTGCTGGCCGTCGAACTGGACGTGTCCCTGGAGCCCCAGGCGGAAGCGGCGGTGGCCGCCGCCCTGGCGCGTTTCGGCAGGATCGATGTAGTGGTAAACAATGCCGGCTACGGCCAGATGGGTGGTTTCGAAGAGATCGATGCCCAGGCTATCGAGAACCAATTCGCCACCAACCTGTTCGGTGCCTTCCATGTCACCCGCGCGGTACTACCGATCATGCGCCGCCAGCGCGCCGGGCATATCTTCAACCTGTCGTCGGTAGGCGGCATGCTCGGCTTCGCCGGTGCCTCGGTGTACTGCGCGACCAAATTCGCGCTGGAGGGCTTCTCCGAATCCCTGGCCTTGGAAGTGGCGGACTTCGGTATCCGCGTCACCATCGTCGAGCCCGGTTTCTTCCGGACCGACTTCCTCGACGGTAGCTCGGTGCGCTACGGCAACCGCCCGGTCGATAACGCCGACTACGCCAGCCGCTCGGCGCAGTGGCGCGAGACCTATGAAGCGCACAACCACCGCCAGGCCGGCGACCCGGCGAAACTGGGACTGGCCCTGGTGCGCCTGGCTGGCGAGGCGAATCCGCCGCTGCGTTACGCCGCCGGCTCCGATGCCCTGCACGGCATCCTCGGCAAGCTGGAGCAGGTTCGCGGCGAGATGGAACAGTGGAGCGAGTTGTCGCGCTCGACGGATGGGGCGTTCTGA	MSKTWFITGASRGIGAEIAKAALSAGDNVVATGRNREQLEKTYAAYRERVLAVELDVSLEPQAEAAVAAALARFGRIDVVVNNAGYGQMGGFEEIDAQAIENQFATNLFGAFHVTRAVLPIMRRQRAGHIFNLSSVGGMLGFAGASVYCATKFALEGFSESLALEVADFGIRVTIVEPGFFRTDFLDGSSVRYGNRPVDNADYASRSAQWRETYEAHNHRQAGDPAKLGLALVRLAGEANPPLRYAAGSDALHGILGKLEQVRGEMEQWSELSRSTDGAF				NA	NA	NA	NA	NA
BMS010_08521	423			hypothetical protein	ATGCGTCGACAGAACGGCTTCACCCTCGTCGAAATCATGATCGTCGTGGTCATCCTGGCGATCCTCGCCACCATCGCTTTTCCCAGCTATCAGCGCTACGTCCTCCGCGCCCACCGCGCGGAGGGCATCGCCCTGCTCAACGAGGCGGCGGCGCGGGAAGAGCGCTACTACGCTCAGAACAACGGCTACGTGACCAGCGATGCCAGCCTGTCCAAGCTTGGCCTGCGTAACAGCGGGCTCAGCGATACGGGCTACTACCAGCTCACGCTCGCCGAAGGGGATGACGACGACGGCGGCTACCGGCTCACCGCCGTCGCGCAGGGCACACAGGCGAAGGACAGCGAATGCGCCAATCTCACCCTGACGGCGACGGGCGCGCGCGGTACCAGCGGGACCGGCAGCGCCGCCGATTGCTGGCGCTGA	MRRQNGFTLVEIMIVVVILAILATIAFPSYQRYVLRAHRAEGIALLNEAAAREERYYAQNNGYVTSDASLSKLGLRNSGLSDTGYYQLTLAEGDDDDGGYRLTAVAQGTQAKDSECANLTLTATGARGTSGTGSAADCWR	PGPT0015930_700	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015930-pilE-K02655	NA	NA
BMS010_08522	4008			hypothetical protein	ATGGAACGTCCGGCATTCGGCAAGACCCTGCTCGGCCTGCTCGCGGGCCTGTGTATCTTCGGCTCGGCGCAGAGCCAGGCCGCCAACCTGTCGCTGAGCCAGCTACCGCTGTTCCTCACCGAGGGGGTGGCGCCGAACATCATGGTGACCATCGATAACTCGGGCAGCATGCGCTGGGCATTCGCGCCGGACGGGCTCAACCCTGGCACCGGTTCCACCTACAACGGCTACTCGGCGGACCAGATCCGCACCAGTCGGCGGGCCAAGTCGTCGACCTTCAACCCGCTGTACTACAACCCGAAGGTCACGTACCAGGCGCCGTACCAGGTCACCTACAGTGGCGGCACGATCACCAGCACGCCGATGACCACCAGCTTCACCGCCGCCTACGTGAATGGCTTCAAGACCAGCAAGGGCACCTACGACCTGAGCTCCAACTACATGGTCACCTGGGAGTACGACACCGAGCGCAGTACCTCGACCTCGGGCATGGGTTCCTATTCCAAGTACACGAGCTACGCCAGCCCGGACAAGGTCTACTGGCTGGCGGCGAACCCGTCGGCGGATTTCGCCAGTTCGACCACCACGACCAGCACCGGCACGCCCACCAGTACCACCAGCACGTTCAGCGGAAGCGCAAACCGCAACGAAGGGGGCAGTAACGTCGCCAGCAGCTTCTCGCTCACGATCAGCAATGTGAGCGTGTCCATCACCAGTGCGAGCAATTCCAGTACCTGCACCGCCAGCATCGACAGCAGCAGTTCGTCTGGCACGCCCACCAGTACCACCTCGAACGGTACGACCACCAGCACGACGGTGGTCACCACCATCAGCTATTCGAACGTGACCTGCAGCAAGAGCGGGTCCGGAAACACCAAGACCTATACCGTCTCGGCCACCCAGACCACGACGCAGACTACCACCACGACCGTCACCACGGCGGACCGCACCACCACCGGCGTGCCGGCCTATTACTACGTTTTCGACAGCTCGCTCGCCAACTGCGACGGCACCGTCAACGATGACGACTGCTACAGCCTGGTCACGGTGTCATCCACCTCCGGCACCGGCGGTACGGACGAACGGCAGAACTTCGCCAACTGGTACAGCTTCTACCGCAACCGCGAGCTGGCCACGCAATCCGCGGCCAACCTGGCGTTCTCGTCGCTGTCCGACAGCACCCGCCTGAGCTGGCAGGCCCTGGGTACCGATGCCACCTGCATAACCAGCACTTCCTACCTGAGCAGCTACAACTGCCGCGGCCTGAGCAACAGCAGCACCAGTTACTACGACAACCGCCTGCGCAACTTCTCCGGTGCGCACCGGGCCAAGTTCTTCGAATGGCTGGGGGACATCTACTACAACCAGGGCACGCCCTTGCTGGCGGCGGTCGACCGGGTCGGCAACTTTCTCACCGCCACGGGCGTGAACGGTCCCTATGCCTACTCGCTGGGTAGCACCGAGAGCCCCGTCTATGCCTGCCGTGCGAGCTACAGCATCACCCTCACCGACGGCATCTGGAACACCGCCGGCAGCCATGGCGAATACGACAACGCCAGCCGGACGTTGCCGGATGGCCAGGGCTACAGCCCGAAGGCGCCTTACAAGGACAGCACCAGCAACACCATGGCTGACCTGGCGTTCAAGTATTGGGCCACTGATGCCCAGCCCAACGTGGCCAACGAGGTTCCGATCTACACCAAGGAAACCAGCACCAACGCATCGACCCAATACTGGAACCCGAAGAACAACCCGGCGACCTGGCAGCACATGACCAGCTTCTTCGTCGGTCTCGGCCTGACCAACTCGCTGACCAGCCCGGCCTGGGGTGGCAGCACCTACAGCGGCGACTACGACAATCTGGTTTCGGGCAACATCGTCTGGCCGGCGGCGTCGGCCGGCAGCCAGAACAACGTCTACGACCTCTGGCACGCCGCGTTGAATTCCCGTGGCGAATTCTTCAGCGTGGACTCCCCTGGCGACCTGGTAACGGCGCTGCAGGAAGTGATCAACCGCATCTCCGAGCGCACCGGAGCCGCGGCCAGCCCGGCGGTGACCTCGCCGCTGCTCGACAGCGACGGTAGTAACAGCTACGACACCTATACCTACACTCCCAGCTTCTCCAGCGAGGACTGGAGCGGCGACCTGAAGAAATACCAGCAGGACACCGCCACCGGCACCAAGGAAGAAATCTGGAGCGCCCAGGACATCCTCGACAACGCCTACGGCTCCGGCAATTCGGCCTATGGTTCGCGGAAGATCAAGATCGCCGACAGCAATGGCAACCTGCAGGGCTTCACCTGGAGCAACCTGACCAGCGCGCAGCGGACCGCCCTGAACCGGACCATCGATGGCGTTGCCGACAGCAACGGCGAGAGCCGCGTGGCCTTCCTCCGTGGCGACCGCAGCAATGAGGGCAGCCTGTTCCGGACCCGGGAGCACATCCTCGGCGACATCATCGACTCCACCCCGGTGATCGTGCGCAAGCCCAGCCGCCTGGCCTCGCGGATGAACAAGTCGGAGGGGCAGAGTGCCTCGGAGGCCAGCTCCTACACCGCCTTCAAGAGCGCCTATGCCGAGCGTGAAACGCGCATCTACGTCGGCGCGAACGACGGCATGCTGCATGCCTTCGATGAGGACGGCCACGAGACCTTCGCCTTCATTCCCAGTGCGGTGATCGGCAACCTCTACAAGCTGGCCGACGAAAACTACGCCAGCAGCGCGCACCAGTACTATGTCGACGGCTCGCCCACCGAGGCCGACGTGTTCTTCGACGGCGCCTGGCACAGCGTGGTGATCGGCAGCCTGCGCGGCGGTGGCCGCAGCCTGTTCGCCCTGGACGTCACCGACCCGGACAACATCACCCTGCTCTGGGAGATCAGCGCGAACGACAGCGACTACAGCCAACTGGGTTTCACCTACTCCAAACCCGCCGTCACCCGCCTGAGCAACGGCAAATGGGCGGTGGTCGCCAGCAACGGCTACAACAGCGATGACGACCAGGCGGTGCTCTACCTGATCGACGTCGAGGACGGCAGCCTGATCAAGGCCATCACCGTCGATGACGACTCCTCGGCGGCCAACGGCATGGCCAGCCCCTACGTCGCCGACCTGGATGGCGACCTGATCGCCGATTACATCTACGCCGGCGACCTGCACGGCAACCTGTGGCGCTTCGACGTGCTGGGCTCGACCACCAGCAGCTACGACGTCTCGTTCAGCGGCGAACCGCTCTACAGCGCCAGGGCCTCCAGCGGAACCGTCCAGCCGATCACCTCCCGGCCATACCTGGTCAAGCACCCCAACGGCACGGGCTACATCGTGGTGTTCGGCACCGGCAAATACCTGGAGAACGACGATTCCGATCCCAACACCAGCGTCGCCATGAGCCTCTACGGCATCTGGGACACCGCGGCCACCGTCGACGACACGACCAGCAGTACCCCCAGCCTGAGCCGCGACGATCTGCTGGAGCAGGCCTTCGAACTGCAGACCACCGCCAGTTTCGACAACAACGGCACTGCGGTGACCTCCACCATCCGCACGGTGAGCGACAACGAGATCGACTGGTTGAACGATGGCGGCAGCGTGCACCACTACGGCTGGTTCCTCGACCTCAAGGTCGGCAGTTCGCTGGAAGGGGAAATGGTCGTCACCAACCCCTACATCACCGATGGCGTGCTCATCGCCAGCACCCTGATCCCGAACGAGGACCCCTGCGAGGACGGCGTCACCACCTGGCTGCTGACCCTCGACCCCACTACCGGCGGTGCGCTCGCGTCCGTCGCCCTCGACTTGAACAACGACGGGGTCGTCGACAGCCTGGACAGCTACAACGGTGCTTCCGTCGCGGGCGTGCAGATGGATGGTCTGACGGGCGGCTTCACCGTCAGTCGCGATGCGGACGGTAACGTCGTGGTCTGTGGTTCGGACGGCTGCGAAACCCTTTCCGGCAGCGCCAGCACTTCCGGCCGGCAGAGCTGGCGGCCCATCGAGAGCAAGGAGTGA	MERPAFGKTLLGLLAGLCIFGSAQSQAANLSLSQLPLFLTEGVAPNIMVTIDNSGSMRWAFAPDGLNPGTGSTYNGYSADQIRTSRRAKSSTFNPLYYNPKVTYQAPYQVTYSGGTITSTPMTTSFTAAYVNGFKTSKGTYDLSSNYMVTWEYDTERSTSTSGMGSYSKYTSYASPDKVYWLAANPSADFASSTTTTSTGTPTSTTSTFSGSANRNEGGSNVASSFSLTISNVSVSITSASNSSTCTASIDSSSSSGTPTSTTSNGTTTSTTVVTTISYSNVTCSKSGSGNTKTYTVSATQTTTQTTTTTVTTADRTTTGVPAYYYVFDSSLANCDGTVNDDDCYSLVTVSSTSGTGGTDERQNFANWYSFYRNRELATQSAANLAFSSLSDSTRLSWQALGTDATCITSTSYLSSYNCRGLSNSSTSYYDNRLRNFSGAHRAKFFEWLGDIYYNQGTPLLAAVDRVGNFLTATGVNGPYAYSLGSTESPVYACRASYSITLTDGIWNTAGSHGEYDNASRTLPDGQGYSPKAPYKDSTSNTMADLAFKYWATDAQPNVANEVPIYTKETSTNASTQYWNPKNNPATWQHMTSFFVGLGLTNSLTSPAWGGSTYSGDYDNLVSGNIVWPAASAGSQNNVYDLWHAALNSRGEFFSVDSPGDLVTALQEVINRISERTGAAASPAVTSPLLDSDGSNSYDTYTYTPSFSSEDWSGDLKKYQQDTATGTKEEIWSAQDILDNAYGSGNSAYGSRKIKIADSNGNLQGFTWSNLTSAQRTALNRTIDGVADSNGESRVAFLRGDRSNEGSLFRTREHILGDIIDSTPVIVRKPSRLASRMNKSEGQSASEASSYTAFKSAYAERETRIYVGANDGMLHAFDEDGHETFAFIPSAVIGNLYKLADENYASSAHQYYVDGSPTEADVFFDGAWHSVVIGSLRGGGRSLFALDVTDPDNITLLWEISANDSDYSQLGFTYSKPAVTRLSNGKWAVVASNGYNSDDDQAVLYLIDVEDGSLIKAITVDDDSSAANGMASPYVADLDGDLIADYIYAGDLHGNLWRFDVLGSTTSSYDVSFSGEPLYSARASSGTVQPITSRPYLVKHPNGTGYIVVFGTGKYLENDDSDPNTSVAMSLYGIWDTAATVDDTTSSTPSLSRDDLLEQAFELQTTASFDNNGTAVTSTIRTVSDNEIDWLNDGGSVHHYGWFLDLKVGSSLEGEMVVTNPYITDGVLIASTLIPNEDPCEDGVTTWLLTLDPTTGGALASVALDLNNDGVVDSLDSYNGASVAGVQMDGLTGGFTVSRDADGNVVVCGSDGCETLSGSASTSGRQSWRPIESKE	PGPT0015990_322	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015990-pilY1-K02674	NA	NA
BMS010_08523	567			hypothetical protein	ATGTCCGTTTTCCCTGCCCGCCAACGCGGCGCGGTACTGATCATCGCCCTGGTCATGCTGTTGATCCTCACCCTGCTGGCCACCCACAGCATGAGGGAGGCCACGATCCAGGCCCGCATCAGCGGCAACGTGGCCGAACGCAAGGTGGCCGGCAACGCTGCCGAAGCGGCCTTGCGCGAGGCGGAGCGCCGCCTGGCGGCCTACGCCAGCCTGGACGAAGGCAGCGCCGATTGCGCGACGAGCGTCGCCAGCCACGCCCACCTGTGCATCCTCGACCAAGGCGACAGCTTCTTCGCCTACGCCAGCCACGTCGGCACCTTGGAAAACTGGTGGGAGAAGAACCAATACGCCATCGACTACAGCGGCACCGATGAAAGCTCGAGCTTTTCCCCGGCGCCCCGCTGGAACCTCGCCTACTACGGCTACGACCCCGGAAACGAAGTCACCAACGCCGAAGAAGCGGCCTATGGCGTAGGCCCGCACTACTACGTCGCCACCAGCGCCGGCCAGGCGAAAGGCGAACGCATCACCCAGGTACTGCAAAGCGTCACCGTTCGGCGCTACTGA	MSVFPARQRGAVLIIALVMLLILTLLATHSMREATIQARISGNVAERKVAGNAAEAALREAERRLAAYASLDEGSADCATSVASHAHLCILDQGDSFFAYASHVGTLENWWEKNQYAIDYSGTDESSSFSPAPRWNLAYYGYDPGNEVTNAEEAAYGVGPHYYVATSAGQAKGERITQVLQSVTVRRY	PGPT0015985_285	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015985-pilX-K02673	NA	NA
BMS010_08524	714			hypothetical protein	ATGAACGGCATTTCTCACCGCCAGAGCGGCCTCTCGCTCGTCGAACTGATGATCGCACTTGCCATCAGCAGCTTCCTGATCCTGGGCATCACCCAGTTCTACATCGACAACAAGAGCAACTACCTCTACCAGCAGGGGCAATCGAGCAATCTGAACAAGCGACGCTTCGCTGTGCTCACGCTGGAGCAGGTGCTGGCCCGTACCGGTTATCGCGCGGAGCCTTGGAACAATCTGGCCGTTGCCTTCCCGGCGATCGGTGCCAGCAACGGCTGCCCGGCGTTTTCGGCTGGCGAGACGGTCAAGGCCAACTCGGCGAAGAACGGGCTCTGCATCCGCTACCAGGCTGCCGAAGATGCGGACGACTACGACCTCGACTGCCTCGGCGAGGATGTCGAGGCCAAGGCCTCGGTGCTGCTCAACCTGGCCTACGACAGCGACGAGGGCGTGCTGACCTGCAGCGTTTCCGGGGAGTCCGCAACCCTGGTCGACGATGTCGCCGGCTTCGTCGTGGGCGATCTGCCCGGTAGTGACGCCACCAACCAGTCCATCCGCTTCGCCGTGCTGCTGGGCAGCGGCTCCAGCCTGCGCGGCGGCGTGGAGAGCGATGTCATCGCGCGCTGGAACAGCCTCAGCGGGGAGTCGCTGTCCAGCGACAGCAAGCGGATCTACCAGATCGCCCAAGGCAGCGTCGCGCTGCGCAACCTGATGCCATGA	MNGISHRQSGLSLVELMIALAISSFLILGITQFYIDNKSNYLYQQGQSSNLNKRRFAVLTLEQVLARTGYRAEPWNNLAVAFPAIGASNGCPAFSAGETVKANSAKNGLCIRYQAAEDADDYDLDCLGEDVEAKASVLLNLAYDSDEGVLTCSVSGESATLVDDVAGFVVGDLPGSDATNQSIRFAVLLGSGSSLRGGVESDVIARWNSLSGESLSSDSKRIYQIAQGSVALRNLMP	PGPT0015980_1035	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015980-pilW-K02672	NA	NA
BMS010_08525	555			hypothetical protein	ATGCGAATGACCGCTCTTCAAATCCGCCTACGTGGCTTCAGCATGATCGAAGTGCTGGTGGGCCTGGTGCTGACCTGCATCGGCGTGCTCGGCATGGTCGCGTTGCAGGCGCGCAGCATCCACTACACCCAGAGCGCTGTGAATCACAACCAGGCGATCCTGTTGGCCGACAGCCTGCTCGAAATGATGCGCAGCAACCCGAGCGGTGCGCTGACCGACGATCTGTTCACCACCGCCTCGAAGTACTACAAGGCGCCGGGCTCGGCGTTCGCCAGTACTTCCACGAGCCTCGACGCTTGCCTGAGCCGTGACCGCAGCAGCGGCGGCAGCACGGTGGCGACAGCGGACCTCGACTGCTGGCTGCAGGAAGTGCAGAACCTCCTGCCGGTGACCGACGACGCGCTCGAAGCCAGCTTCGCCATCTGCCCGAGCGCCAGTCCGGATAGCTGTTCGTCCAACGGCAGTTCGGTGGTGATGATCCAGATCGCCTGGAAGGACAACTCCGGCGAATGCGACGACAACCTTTGCCTCTACCGGCTGCGCAGCGAGCTTTGA	MRMTALQIRLRGFSMIEVLVGLVLTCIGVLGMVALQARSIHYTQSAVNHNQAILLADSLLEMMRSNPSGALTDDLFTTASKYYKAPGSAFASTSTSLDACLSRDRSSGGSTVATADLDCWLQEVQNLLPVTDDALEASFAICPSASPDSCSSNGSSVVMIQIAWKDNSGECDDNLCLYRLRSEL	PGPT0015975_475	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015975-pilV-K02671	NA	NA
BMS010_08526	492			hypothetical protein	GTGCTCTTCTCCAGGCGCATCGCCGGTTTCTCGCTGATAGAGCTGATGATCACCATCAGCCTGCTGGCGATCCTCGCGTCTATCGCGGTCCCCAGCTTCGCCAACATGGTGCGGCGCAGCAACGTCGAGGCCGCCAGCAACGAGCTGTACGGGCTGTTGCAGTACGCACGTGGGGAGGCGGTTACCCGTGGGCATCGCGTGACGGTCGCTGCCGATGCGTCCGACGCCTGGGCGGGCGCCCTCGATGTGCAGGCGGTCAGCGGTGGAGAAACGACGACCCTGCGCCACTATGACAGCCTGAGTTTCTCCGGCGTCGTTGCCAGCGCGGCCGATTCGGCGCTCAGCAGCGTCGCGTTCCGTGCCAATGGCAGCAGCACCGGCACCACCACCATCACCCTCTGCTACGACGGCTATCCGGCGATCACCGGCAAAGCCATCGCCATCTCCCGCAGCGGCCAGGTTTCCGCCCCGGAGAATGCCTCATGCGAATGA	MLFSRRIAGFSLIELMITISLLAILASIAVPSFANMVRRSNVEAASNELYGLLQYARGEAVTRGHRVTVAADASDAWAGALDVQAVSGGETTTLRHYDSLSFSGVVASAADSALSSVAFRANGSSTGTTTITLCYDGYPAITGKAIAISRSGQVSAPENASCE				NA	NA	NA	NA	NA
BMS010_08528	657			hypothetical protein	ATGCGAGCAGTTGCGATTGCCCTCTTCTGTCTGACGACCTGCGCCTCCCCCGTCTTTGCCGGCGGCCAGACCCGCAACGCGGATCATAAGGCCGTCATCGACCAGGCGTTCTGGAAAGCACTCTATGGCGCGGGCGGCAACACGCTTTACTGCGGCAAACCCTTCTCCGGGGAAAGCAGCCAGCTCGCCGCCAGCCCGCTGTACAGCACCCGCCAGATCAAGAGTGCCCTGCGTTGCATCACCGACAACCAGTGCAGTGTGGTCAACCCGCAATACCCCTACATGCTCGCCGACCTGCACAACCTCTACCCGGCCCTGAGCCGGGTGGAACTGGCGCGGCGCAATGCCCAGTTCGGCGAACTGGACGACAGCGTGCCGAGCAAATTCGCCGACATCGACTGCGACCTGAAAGCCACCTTCCAACTGGTGGAACCCCGCGATGCCGCCAAGGGCAACATCGCCCGGGCGATCTTCTACATGCACCGGGAATACCACCTGCCCATCCCGGGCCCGGTGCAGATATACAAGGCCTGGCACCGCCTCGATCCGCCCGATGACGACGAACGCCGGCGCAACGACCAGATCGAGGTCCTGCAAGGCACCCGCAATCCCTTCATCGACAATCCGGCGTCGGTGGATGAGCTGATTCCGGATTGA	MRAVAIALFCLTTCASPVFAGGQTRNADHKAVIDQAFWKALYGAGGNTLYCGKPFSGESSQLAASPLYSTRQIKSALRCITDNQCSVVNPQYPYMLADLHNLYPALSRVELARRNAQFGELDDSVPSKFADIDCDLKATFQLVEPRDAAKGNIARAIFYMHREYHLPIPGPVQIYKAWHRLDPPDDDERRRNDQIEVLQGTRNPFIDNPASVDELIPD				NA	NA	NA	NA	NA
BMS010_08529	651			hypothetical protein	ATGTCGCCACGAATGGGTTTTACCCTTCTGTTGTCTCTTTTTACCGCCACTGGTACCGCGGCCCATGCCGATGAGGCCGGGCTGATCTGGAAGCCGGTCAAGAATTCAGACCGTTCCTATACGGCGCGTATCGGCGCGAAACTGCCGGTCGATACGCCCATTCGAGCAGGGCTGGAGATGGGCATGAGCGCTTCCAAAACGGGGCAGGTGGTGGATACGCCGGTGCGGGTATGGGGTAATGTCACGCTGCTGGCCGAACAGTTGCCAGGCGTTTCACTGGCCCGTGATGTCGGTGTCATCTTCAATGCGCTGACGGGATCGAGCAGCGTTTCCGTGACCTCGCAGCAGAAGCGCATCGTTACGCCGGAGCTGGATATCGAGGCGAACCGCAATTTCACCGTGCGTTATGACGGCACGGCGCAGCAATGGAACGGGCTGGATGTGTCGCAGTCGCTGCGCCTTTCCCGCTCCGAGACCGGCACGGCCTTTGTGCTGACGGGGGCGAGCCGTAACAGTTTCAACGAGTTCAGCAGCGGCGTGGCGGTGGAGCAGAAGATCGGCGACAATCTGACTGTGCGGGGGACGCTCGATCAGGGTTATGCGGATCATTTCCGGCCGGGGGTGAGTGCGCGGTATACTATTCGGTGGTGA	MSPRMGFTLLLSLFTATGTAAHADEAGLIWKPVKNSDRSYTARIGAKLPVDTPIRAGLEMGMSASKTGQVVDTPVRVWGNVTLLAEQLPGVSLARDVGVIFNALTGSSSVSVTSQQKRIVTPELDIEANRNFTVRYDGTAQQWNGLDVSQSLRLSRSETGTAFVLTGASRNSFNEFSSGVAVEQKIGDNLTVRGTLDQGYADHFRPGVSARYTIRW				NA	NA	NA	NA	NA
BMS010_08530	1479	tig_2	COG0544	Trigger factor	ATGCAGGTTATCGAAACGCTCGCTGAAGGGCTGAAGCGCGAACTCAAGGTCGTTATTCCGGCTGCCGACATGAAGGCCCGTCTGGACGAGCGCCTGGTTGACGCCAAGGACAAGGTTCGCATCAACGGTTTCCGTCCCGGCAAGGTGCCGGTCGGCCACCTGAAGAAGATGTACGGCAAGTCCATCATGGCCGACCTCGTCAACGAGCTGGTTCGTGAAAAGCCGACCGAAATCCTGTCCAGCCGTGGCGAGAAGTCTGCGACTCAGCCGTCGATCTCCATGACCGAAGACGAGCAGGAAGCGGAAAAGATCCTGTCGGCTGAATCCGATTTCGAGTTCACCGTTGCCTACGAAATCATCCCGGCCATCGAACTGAAGGCCAATGACGGCATCAAGGTTACCCGCGAAGTTGTTGAAGTCTCCGAAGACGAAATCAACGAGCAGATCCTCAAGATCGCCGAAAGCGCCCGCACCTACGAGCCCAAGAAGGGCAAGGCCGCCGATGGCGACCGCGTCACCATGAACTATCTCGGCAAGGTTGACGGGGTTGCCTTCGACGGCGGCGCGGCCGAAGATGCCGAACTGGTTCTCGGTTCGGGCCGCTTCATCCCCGGCTTCGAAGACCAGCTGGTCGGCGTCAAGGCTGGCGATGAAAAGACCATCACCGTGACCTTCCCGGCCGACTACCCGGCTGCGAACCTTGCCGGCAAGGAAGCCAACTTCGACATCACCGTCAAGGAAGTTGCTGCTGCCGCTGCTGTTGAAATCAACGACGAACTGGCCACCAAGCTCGGTCTCGAATCGGCTGAAAAGCTGAAGGAAATCGTCAAGGGTCAGATCGAAAGCCAATACGGCAACGTAACCCGCCAGAAGGTCAAGCGCCAGATCCTCGACCAGCTGGACGAGATGTACAAGTTCGACACGCCGGCTGGTCTGGTTGATGCCGAGTTCGACAACATCTGGCGCCAGATCAACACCGATCTCGCACAGTCGGGCAAGACCTTCGCTGACGAAGACACGACCGAAGAAGAAGCCCGCGAAGAATATCGCAAGCTGGCTGAACGCCGCGTCCGTCTCGGCCTCGTTCTCTCCGAAATCGGCGAAAAGGCCGGCGTTGAAGTGACCGAGGAAGAAATGCAGCGTGCGCTGTTCCAGCAGCTGCAGCAGTTCCCGGGCCAGCAGAAGGAAATCCTCGATTTCTTCCGCAACACCCCCGGCGCTTCCGCTTCGCTGCGCGCACCGATCTTCGAAGAAAAGGTCATCGACAAGCTGCTTTCCGAAATCTCGGTAACGGACAAGACCGTCTCCAAGGAAGAGCTTCTGGCTGACGACGCCGAAGAAGCAACGGAAACCAAGAAGAAGGCCCCGGCCAAGAAAAAGGCCGCTGCCAAGGCTGACGACGCCGCTGAAGGCGAAGAAGCCGCTCCGAAGAAGAAGGCTCCGGCCAAGAAGAAGGCCGCTGAAGGCGACGCCGAATAA	MQVIETLAEGLKRELKVVIPAADMKARLDERLVDAKDKVRINGFRPGKVPVGHLKKMYGKSIMADLVNELVREKPTEILSSRGEKSATQPSISMTEDEQEAEKILSAESDFEFTVAYEIIPAIELKANDGIKVTREVVEVSEDEINEQILKIAESARTYEPKKGKAADGDRVTMNYLGKVDGVAFDGGAAEDAELVLGSGRFIPGFEDQLVGVKAGDEKTITVTFPADYPAANLAGKEANFDITVKEVAAAAAVEINDELATKLGLESAEKLKEIVKGQIESQYGNVTRQKVKRQILDQLDEMYKFDTPAGLVDAEFDNIWRQINTDLAQSGKTFADEDTTEEEAREEYRKLAERRVRLGLVLSEIGEKAGVEVTEEEMQRALFQQLQQFPGQQKEILDFFRNTPGASASLRAPIFEEKVIDKLLSEISVTDKTVSKEELLADDAEEATETKKKAPAKKKAAAKADDAAEGEEAAPKKKAPAKKKAAEGDAE				NA	NA	NA	NA	NA
BMS010_08532	147			hypothetical protein	ATGAACATTGCACGCTCGCTCACCAACTGGCGCAAGTATCGTCAGACCGTAACCGAACTCGGCCGCATGACCGACCGCGAACTAAGTGACCTCGGCATTGGCCGTCAGGACATCCGCCGCGTCGCCAAGACCGCCGTCGGCTTCTGA	MNIARSLTNWRKYRQTVTELGRMTDRELSDLGIGRQDIRRVAKTAVGF				NA	NA	NA	NA	NA
BMS010_08533	144			hypothetical protein	ATGAACCCCATCCGCATCGCAAAGAACTGGATCTCCTACCGCCGCACGATCAACGAACTTGGCAGCCTTTCCAACCAGGCTCTGAGCGACATCGGCCTGACCCGTTACGACATCCGTAACGTAGCAGCCCGTTCGTTCCGCTAA	MNPIRIAKNWISYRRTINELGSLSNQALSDIGLTRYDIRNVAARSFR				NA	NA	NA	NA	NA
BMS010_08534	1431	trmFO	COG1206	Methylenetetrahydrofolate--tRNA-(uracil-5-)-methyltransferase TrmFO	ATGCAAGACAAGACCACTTCTCCCATTCACGTCGTGGGCGGCGGACTGGCCGGTTCGGAAGCCGCATGGCAGATCGCGCAAAGCGGTGTACCCGTCATCCTGCATGAAATGCGCGGCGTGCGCGGCACGGATGCGCATAAGGGCGATACGCTGGCGGAACTGGTCTGTTCCAACTCCTTCCGCTCCGACGATGCGACGGCCAATGCGGTCGGCGTCATCCATGCGGAAATGCGGCTTGCCGGTTCTCTGATCATGGCCTGCGCCGACAGGCACCAGGTGCCGGCCGGCGGCGCGCTTGCCGTCGACCGCGACGGGTTCTCCGAGGCTGTGACGAAAGAGCTGGAAAGTCACCCTTTGGTGACAATCATCCGCGAAGAGGTAAACGGCCTGCCGCCGAAGGAATGGGGCAACTCGATCATCGCCACCGGCCCGCTGACCTCGCCGGATCTCGCAGCCGCCATCCAGGCCGAGACGGGTGAGGATGCGCTCGCCTTCTTCGACGCTATCGCCCCCATCGTCCACCGCGACAGCATCAATATGGATATCTGCTGGTACCAGTCGCGTTACGACAAGGTCGGCCCCGGCGGCACCGGCAAGGATTACATCAACTGCCCGCTGAACGAGGAGCAGTACAACGCCTTCATCGACGCGCTGATTGCCGGCGACACGGTGGGTTTCAAGGAATGGGAAGGCACGCCCTATTTCGACGGCTGCCTGCCTATCGAGATCATGGCCGAGCGCGGCCGCGAAACGCTGCGCCATGGCCCGATGAAGCCGATGGGACTGACCAACGCCCATAACCCCACGGTCAAGGCCTATGCCGTCGTGCAGCTGCGACAGGACAATGCGCTCGGCACGCTCTACAACATGGTCGGTTTCCAGACCAAGCTGAAATACGGCGTTCAGGCGGATGTATTCCGCATGATACCGGGCCTCGAAAATGCGGAGTTCGCCCGCCTCGGCGGCCTGCACCGCAACACCTATATCGATTCCCCGATCCTGCTCGACCGCTCGCTGAAGCTGAAATCGCGGCCGGACCTGCGTTTCGCCGGCCAGATCACCGGCTGCGAAGGTTATGTGGAAAGTGCCTCCGTCGGCCTTCTCGCCGGACGCTTCGCCGCCGCCGAGCAAAAGGGTGAGAGCCCAAGCCTGCCGCCGGCCACCACCGCGCTCGGCTCGCTCCTCAACCACATCACCGGCGGCCACCTCTCTTCCGATGATGAGCCGGGCAAACGCTCCTTCCAGCCGATGAACATCAATTTCGGCCTTTTCCCGGAACTGGAGCCGGGCTCGATCGTCAAGCCGGAGGGCGTGAAGCGTTTTCGCGGCAAGGACAAGACGATCATGAAACGCCAGCTCATTGCAGCGCGGGCATTGCGGGATTGTGCGGCGTGGCTCGGCGAAAGCCAGGCCGAGACAGAGGCTGTCTGA	MQDKTTSPIHVVGGGLAGSEAAWQIAQSGVPVILHEMRGVRGTDAHKGDTLAELVCSNSFRSDDATANAVGVIHAEMRLAGSLIMACADRHQVPAGGALAVDRDGFSEAVTKELESHPLVTIIREEVNGLPPKEWGNSIIATGPLTSPDLAAAIQAETGEDALAFFDAIAPIVHRDSINMDICWYQSRYDKVGPGGTGKDYINCPLNEEQYNAFIDALIAGDTVGFKEWEGTPYFDGCLPIEIMAERGRETLRHGPMKPMGLTNAHNPTVKAYAVVQLRQDNALGTLYNMVGFQTKLKYGVQADVFRMIPGLENAEFARLGGLHRNTYIDSPILLDRSLKLKSRPDLRFAGQITGCEGYVESASVGLLAGRFAAAEQKGESPSLPPATTALGSLLNHITGGHLSSDDEPGKRSFQPMNINFGLFPELEPGSIVKPEGVKRFRGKDKTIMKRQLIAARALRDCAAWLGESQAETEAV				NA	NA	NA	NA	NA
BMS010_08535	603			hypothetical protein	ATGAAAAAAACGACATGGTTTTTGCGTCTTGCTGGTTTCGGCCGTTGCCGTTCTGGCGCCGCGGCGTTGGAAATGGGGCTTTTGGCGCCGCTGCTTGTCCTTATGCTTGCAGTGATCATTGAGGTCGGGCGGGGTTGGCTCAGCTATGACCGGTTCATGACGATAGTCGACGATTCAGCGCGCTGGGCGGCAAGATTCCCCGAATTCGAGGAACGGGTGCGCACGGGGGTTCCGAGTTTTGTCGTCCTTTCCGGCAGCGGCATTCTCCAGACGGGCAAACTCGACCTGACGCTGAGAAGCGTCAAACTGGTGGACAAGATCGCCCGGCTGCAATTTCCCGCCCACAATTTTCTGGGATCTGCCGAAGATGTGCCTTGGGAGAAAACCGTGATCGCCAACGGTTTCGTCGCTCAGGACGCTATCATTGTTGTCTCTGGGCGGTACAGCTATCGGCCTCTGATCGCTGCGGTGGCCGATATCACGCTCAAATTCGAATATGTTGCGGCCGTCAACCCGTTCTTTTCCCAGCGATATCCCTACCAGAGCGGCAAATCGGATTTCGCAAAGTGGAACCTCAAGCGCTCGCCATTCAAACCGAACTGA	MKKTTWFLRLAGFGRCRSGAAALEMGLLAPLLVLMLAVIIEVGRGWLSYDRFMTIVDDSARWAARFPEFEERVRTGVPSFVVLSGSGILQTGKLDLTLRSVKLVDKIARLQFPAHNFLGSAEDVPWEKTVIANGFVAQDAIIVVSGRYSYRPLIAAVADITLKFEYVAAVNPFFSQRYPYQSGKSDFAKWNLKRSPFKPN				NA	NA	NA	NA	NA
BMS010_08536	567			hypothetical protein	ATGAAGTCCTTACTTTCCCCGCGTCGGGATAAAAGCCGTGGTGGCCCGCGCAGATGCCGGGTCGCGCATGCCAAATGTTACCGGCTGCTCGGCGACCGAAAGGCAGCAACGGCGGTTGAGACGGCTCTGCTGTTGCCGCTGTTTTTTGCTCTGATTTTCGGGACGCTCGAAATCGGCCTGCTGATGCTCTATTATCTTTATCTCTCGTTCGCATCGAATGCGGGTATCGAATATCTCCGCAAGGCGGCGTCGGACGGTAAACCGGCGACCGAGATTGCGTTGCGCAAGGCAATCGCCTCCAATTTCATTGGAGGGACTGACGAAACCACTCTCAAGATCGCCCTCTTGCCGATTCCTGACGACGATATTGCCGAAGCCAAAGTGCCCATACCGATCGTGAACGATTTTCGCCCGCCCGCCGATACCGCCGGGCAGTACATTCTGGCCATCGGTTACAACTGGAATTTTTTGATGCCGACGACGCGTTTCCTCGTGCCGGACACGGGCGGCATTCATCAGTTGCGCAACATTTCCCTGGCGATCACTGCCGTGCGGGTGACGGAATGA	MKSLLSPRRDKSRGGPRRCRVAHAKCYRLLGDRKAATAVETALLLPLFFALIFGTLEIGLLMLYYLYLSFASNAGIEYLRKAASDGKPATEIALRKAIASNFIGGTDETTLKIALLPIPDDDIAEAKVPIPIVNDFRPPADTAGQYILAIGYNWNFLMPTTRFLVPDTGGIHQLRNISLAITAVRVTE				NA	NA	NA	NA	NA
BMS010_08537	1128			hypothetical protein	ATGACCGCGCTGCTGCTGCCGGTCTTTATCATTTTGCTGGGGCTGCTTTTTGAGGGTGGCAGGGCGCTGGCCTATTACAACCAGTCAAAGCGGGTCATGGCCATGGCATGCGAAAGAGCCACCAAGCCGACACGTACCTACACGTTGCTTGACACTGTCCGGCGCGACAATGTGACCGCGGCCTTCGATGCGATGATTCAATCCACGAAGCAGAAGGTCCTCTCGCGCGACGTGCAAGTGAAATGGACTGAGACAAAAATCAATGCCGAGTTCAGTTACGGGCTGATTTTCTCGGAGATGTTCAATCTCGAGAAGCTGAAATATCGCCTTGCATACTCTTGCGAGGGCATCCCGCCCTATCCCGAGGATGATGCGGTCATCATTGACAATATGTTCGAGAGCAACGCTCTCGGCGTCGAGCGGGTTCTGAAAAACGGCGTCACCAAGGAAACCCCCGGCGGTTGCTGGGGTGTCTATCCCTATTCGGAGATCGGATGGGATGGCGGGACCGGCCCCGGCGTCGAGTTGCAGGATTGGAGCAGCCCCTGCTGCCGCCGCAATCACAACTGGCAGGGCTATCCGGCGGGAATGCAGAGCAAGAAACTCAACGAGGCCCCTACCGCCAACGACAAAGCCTGTACTTTGAAGGAGGTCGATAAGGCAAAGACCACCGACAAAATCGAAATCGACAAGGATCCGGGCACCGAGCTCTCATTGCCAACCCGTTATGTCATGGAGCTCGATAGTGACTGGGGGCCGCCTGCGCCCGGCAAGAAAAAAAATATCGAAGCCAATAGCTCGATCTACAAGGATGTCGAGCTTCATCCCGGAATATATAAGATCATGGTCTGGTATAATGGGCGCCGGGCCGTCGAGGACGTTGAGAAAACAAACGGAATCAAGATCTCGCTCCAACAGCTCCTTCCTGACCTGAAACCCCAGCAGCGGGTGTGGGAGTTGACCCAGGATAAAAACAGTATTGCCTGGACGCCGAGGGATTACAGTTTCAGGGTCAAGGCCTACTCGATCTATCGGGTGACGATTGAGGCAACCGGCCTGAGCGACAGCTTTGGTGGCATCATCACCGGTTTCCAGCTCATCTACGTGGATCGAATGGAAGAGGGCTGA	MTALLLPVFIILLGLLFEGGRALAYYNQSKRVMAMACERATKPTRTYTLLDTVRRDNVTAAFDAMIQSTKQKVLSRDVQVKWTETKINAEFSYGLIFSEMFNLEKLKYRLAYSCEGIPPYPEDDAVIIDNMFESNALGVERVLKNGVTKETPGGCWGVYPYSEIGWDGGTGPGVELQDWSSPCCRRNHNWQGYPAGMQSKKLNEAPTANDKACTLKEVDKAKTTDKIEIDKDPGTELSLPTRYVMELDSDWGPPAPGKKKNIEANSSIYKDVELHPGIYKIMVWYNGRRAVEDVEKTNGIKISLQQLLPDLKPQQRVWELTQDKNSIAWTPRDYSFRVKAYSIYRVTIEATGLSDSFGGIITGFQLIYVDRMEEG				NA	NA	NA	NA	NA
BMS010_08538	1128	flhA_4	COG1062	S-(hydroxymethyl)glutathione dehydrogenase	ATGGACGTTCGCGCCGCAGTTGCCATTCAGGCCGGAAAGCCGCTTGAGGTCATGACCGTTCAACTCGAAGGCCCGCGCGCCGGCGAAGTACTGGTTGAGGTCAAGGCGACCGGCATCTGCCATACAGACGATTTCACCCTGTCGGGCGCCGATCCGGAGGGCCTGTTCCCGGCCATTCTCGGCCATGAGGGCGCGGGCGTCGTCGTCGATGTCGGACCGGGCGTCACCTCGGTCAAGAAGGGCGACCATGTCATTCCGCTCTACACGCCGGAATGCCGCGAATGCTATTCCTGCACCTCGCGCAAGACCAATCTGTGCACCTCCATCCGCGCCACCCAGGGTCAGGGCGTGATGCCGGACGGCACGTCGCGCTTCTCCATCGGCAAGGACAAGATCCATCATTATATGGGCTGCTCGACCTTCTCAAACTATACGGTTCTGCCGGAGATCGCGCTCGCCAAGATCAATCCCGACGCGCCCTTCGACAAGGTCTGCTACATCGGCTGCGGCGTGACGACCGGTATCGGCGCGGTCATCAACACCGCCAAGGTCGAGATCGGCTCCACGGCGATTGTCTTCGGCCTCGGCGGCATCGGCCTCAACGTGCTGCAGGGCCTGCGCCTTGCCGGCGCGGACATGATCATCGGCGTGGACATCAACCCCGACCGCAAGGCCTGGGGCGAGAAGTTCGGCATGACCCACTTCGTAAACCCGAAGGAAGTCGGCGACGACATCGTGCCGTACCTCGTCAACATGACGAAGCGCAATGGCGACCTGATCGGCGGCGCCGATTACACATTCGATTGCACCGGCAATACCAAGGTCATGCGCCAGGCGCTGGAAGCCTCGCATCGCGGCTGGGGTAAGTCGGTCATCATCGGCGTTGCCGGTGCCGGCCAGGAAATCTCCACGCGCCCGTTCCAGCTCGTCACCGGCCGCAACTGGATGGGCACCGCCTTTGGCGGCGCACGCGGCCGCACGGATGTGCCGAAGATCGTCGACTGGTACATGGAAGGCAAGATCCAGATCGACCCGATGATCACCCACACCATGCCGCTCGAAGACATCAACAAGGGCTTCGACCTGATGCACAAGGGCGAAAGCATTCGCGGCGTCGTGGTTTATTGA	MDVRAAVAIQAGKPLEVMTVQLEGPRAGEVLVEVKATGICHTDDFTLSGADPEGLFPAILGHEGAGVVVDVGPGVTSVKKGDHVIPLYTPECRECYSCTSRKTNLCTSIRATQGQGVMPDGTSRFSIGKDKIHHYMGCSTFSNYTVLPEIALAKINPDAPFDKVCYIGCGVTTGIGAVINTAKVEIGSTAIVFGLGGIGLNVLQGLRLAGADMIIGVDINPDRKAWGEKFGMTHFVNPKEVGDDIVPYLVNMTKRNGDLIGGADYTFDCTGNTKVMRQALEASHRGWGKSVIIGVAGAGQEISTRPFQLVTGRNWMGTAFGGARGRTDVPKIVDWYMEGKIQIDPMITHTMPLEDINKGFDLMHKGESIRGVVVY	PGPT0006355_1577	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006355-frmA|ADH5|adhC-K00121	NA	NA
BMS010_08539	741			hypothetical protein	TTGTCGCTCGTCAGCGAACATCACGAGCGGCGCGAACTCGGTCCGATCGGGCAATTGCTGATGAAGGGCGACGATGCCGCAGGCGTTCTGCTGACGATCAAAAGCCGTCTGCCGCAGACCGGCAGGATCGTCGTCAACCTGTCCAGCTGGTATGTGGAGCCTTCCTGCCGCTGGTTCGCCCCGCGCATGTTGCAGATGGCGTCCTCCAATGAGGACGAAATCTTTACCGATCTCACGCCCTCTCCCGAAGCCTGCAAGCTCAATGAGAGGCTGGGCTTTGCGACGGTAACCGATTGCACGCTTTTTTATCCGCTGCCCTTTGCAGCGCTTCGCCCGGCAAGCGCACGGCTGCGGGCGCCAGGAGAGATAAAACCGGAAATACTCTCCGCCGAAATGCGCGACCTGCTGGAAGATCATGCCCGTCTCGGCTGCATCGTGGCCGTGATGGAGGCGGAGAACCGCCATTACCCTCTGGTCTTCCTGAAAACCACGACCAAAAGATTGCCATCCGCGCGCCTCATCCATTGCGAAGACCGGCAGGTCGCGCAAAGGCACATATCCACAATCGCCCGCCACCTTCTTGGCCATGGCCGGCTTGCGCTGACCATGGCGGCAATGGGCGCAGAGCGAAAGGCCGGCGGGCTTGCCGCACATAAATCTGCACCAATACAAGTAAAAGGCGCATGGAACCCACGATTTATTAACGAAGCATACTCAGAGTTGGTGTTATTGCCACCGTAG	MSLVSEHHERRELGPIGQLLMKGDDAAGVLLTIKSRLPQTGRIVVNLSSWYVEPSCRWFAPRMLQMASSNEDEIFTDLTPSPEACKLNERLGFATVTDCTLFYPLPFAALRPASARLRAPGEIKPEILSAEMRDLLEDHARLGCIVAVMEAENRHYPLVFLKTTTKRLPSARLIHCEDRQVAQRHISTIARHLLGHGRLALTMAAMGAERKAGGLAAHKSAPIQVKGAWNPRFINEAYSELVLLPP				NA	NA	NA	NA	NA
BMS010_08540	264			hypothetical protein	ATGCTTGCAGCGAAAAAGAGTGAAATCGACGTTGCCGATACCATCTATTCCTACCTCTCCAACCGTTTTCCCGCCTATGCCCCCTTTTCCGCCGATACGCTGCTTCTCGAAGGCGGCGTAATCGATTCGCTTGGCTTTCTTGAGCTGATGATCTTCCTCGGCGAAAGTTTCGGCATCATTCTCGATGACGAACATTTCACGCCCGACAATCTCGGCACGCCGGCCGATCTCATCGCCTTCGTCCTCAGGGAACGGAGGATATGA	MLAAKKSEIDVADTIYSYLSNRFPAYAPFSADTLLLEGGVIDSLGFLELMIFLGESFGIILDDEHFTPDNLGTPADLIAFVLRERRI				NA	NA	NA	NA	NA
BMS010_08541	1533	lcfB_3	COG0318	Long-chain-fatty-acid--CoA ligase	ATGACACCCCATTTCCTGCTGCACCACCTGCTTGCCACCCGCGCCGCGACCGACGATCAGGCCCTCGTCCACAAGGACCGATCGCTGAATTATCGCGAATTTGCCGCAGCGGCGGCCCGTTGCGCGGCGGCATTGCAGGAAGCCGGAGCGCAACGCGGAGACCGCGTCGTCATCTATCTGCCGCGCGGCATTGAGGAATGCTGGTCGATCTTTGGCGTGAGCATGGCGTCCGGCGTCTTCGTGCCGGTGAACGCATTGCTGAAGGCGCAGCAGATCCGCCATATCGTTAAGGATTGCGGCGCAAAAATCGTCATCAGCGACGCCGCGATGATGGATGAGCTGAAAGCGGCACTGGAAGACCTTCCCGAGGTCACGGTCCTGCTGGCGGAAGAGATAGAGGCCCGCGCCGAGACACTCGCCCGGCCTTCAGCGGCAATCGGCGAAGACCTGGCCGCCATTCTTTATACCTCCGGCTCCACCGGCTCGCCGAAGGGCGTGATGCTGTCTCACCGCAATCTTCTGGCCGGCGCGCGCATCGTGCGCACCTATCTGGACATCACCGGCAAAGACCGCATTCTGTCCCTTCTGCCCTTCAGCTTCGATTATGGCCTTAACCAGCTGCTGACGGCGGTTGAACAGGGTGCGGCCACGATCATCTCCACCTTTCGGCTGGGCGATGAGATCGTCCGTGATCTGCGCGACCATGCCATCACGGGTCTCGCCGGCGTGCCGACGATCTGGGCGATCCTGACGAAAGCGGCCCCGTCGCTCACAAAGACGCCTCTGCCGCATCTGCGTTACATCACCAATTCCGGCGGACGCGTGCCGCAGGAAACCGTAAAAGCGCTGCGCGAGAAGCTGCCGGATACGAAAATCTACCTGATGTACGGCCTCACGGAAGCCTTCCGCTCCACCTTTCTGCCGCCCGATGAAATCGACCGCCGCCCGACCTCCATCGGCAAGGCCATTCCCGAATGCGAAATCTTCATCGTCACCGCCGAGGGACAAAGGGCAAAGCCGGGTGAACCCGGCATTCTCGTCCATCGCGGCCCGACCGTCTCGCTGGGTTACTGGAACCGGCCGGAGGATACGGCAAAGGTGCTGCGCCCGCACCCCTTCATTCCGGCGGCGCTGGGCGGCGAGACCGTGTGTTATTCCGGCGATCTGGCGGTGGAGGACGAGGATGGTTTCTTCAGCTTCGTCGCCCGCAACGATGCCATGATCAAATCGTCGGGCTATCGCATCAGCCCGACCGAGGTTGAGGAAAGCCTCATGTCGACAGGCCTTTTCCAGCAGGTCGCCGTCATCGGCCTGCCGGACCCCTTTGCGGGCGAAAAGGTCCATGCCGTGGCGACTGCCGCCAACCAGAATATCGATGTGACGGCGGCACTGAAGAAGGCGGCCGAAATGCTCGCCCCCTTCATGATCCCGCGCGCTATCGAACTGGTGGAACGACTGCCGGTCACGGCCAATGGCAAGGTGGATTACCGCGCGCTGGTGCGCGAACGGACGGACAATGGCGCCAACGGATAA	MTPHFLLHHLLATRAATDDQALVHKDRSLNYREFAAAAARCAAALQEAGAQRGDRVVIYLPRGIEECWSIFGVSMASGVFVPVNALLKAQQIRHIVKDCGAKIVISDAAMMDELKAALEDLPEVTVLLAEEIEARAETLARPSAAIGEDLAAILYTSGSTGSPKGVMLSHRNLLAGARIVRTYLDITGKDRILSLLPFSFDYGLNQLLTAVEQGAATIISTFRLGDEIVRDLRDHAITGLAGVPTIWAILTKAAPSLTKTPLPHLRYITNSGGRVPQETVKALREKLPDTKIYLMYGLTEAFRSTFLPPDEIDRRPTSIGKAIPECEIFIVTAEGQRAKPGEPGILVHRGPTVSLGYWNRPEDTAKVLRPHPFIPAALGGETVCYSGDLAVEDEDGFFSFVARNDAMIKSSGYRISPTEVEESLMSTGLFQQVAVIGLPDPFAGEKVHAVATAANQNIDVTAALKKAAEMLAPFMIPRAIELVERLPVTANGKVDYRALVRERTDNGANG				NA	NA	NA	NA	NA
BMS010_08542	1278	btrK		L-glutamyl-[BtrI acyl-carrier protein] decarboxylase	ATGGCGCCAACGGATAAACCCCAGAGCCACGGCCCGGCTTTTGCTGCCGCGTTGTTCGACACAAGCGAGAACGATCTGATGATCGGCGGACTTCCGGTGCGCGATATTGTCGCCGGGACCGGAACACCGTGCTTCCTCTATGACGCCGCCGCCATGCGCCGCGCCTATCGCGATCTCGAAACCGCGCTCGGCGGCTTTGCCGATATCTATTATTCGGTGAAGGCCAATCCCCTGCCCGCCATCGTCTCGCTTTTCCGGCAGGAAGGTGCGGGTGCGGAAATCGCTTCCGTCGGCGAATATCGCGCCGCCATCAAGGCCGGTGTCGCAGCGGAGAACATCATCTTCGCCGGCCCCGGCAAAGGCATGGCCGAGTTGCGCGAAGTAATCGAGGGCGGCATCGGCGAAATCCACATCGAAAGCGCCGAGGAAATCACCCGCATCGAGGCAATCGGCAAGCCGGTCAAAGCCTCGATCCGCATCAATCCGGTGCCGGATGCACAGGCCGGCGCGATGCGCATGGGCGGCAAGGCCACGGCCTTCGGTTTCGATGAGGAAGAGCTGGAAAATGTCCTGCCGCTCTTCAAGGACGCCCGATATATCGATCTCGTCGGCGTTCATATTTACGGCGGCACGCAGATCCTCGATGCCGACATGCTTGTCTCCCAGTGGAGACACGGCATTTCCCTTGCCGCGCGCTTGGCCGGGATGCTGGGCAGGCCGCTCGAAACCATCGATCTCGGCGGCGGTCTCGGCATTCCCTATTTCGCAGGCGAAACCCCGCTCGATCTTGAAAAAGTCAGCGCCGCCATTCCCGACCTAAAGGCGCTCCTGAAGGCGCATCCGCTGATAACCGACGCCCATGTCATCGTCGAACCCGGCCGTTTCCTCGCCGGTCCCGGCGGCATCTATGTGGCGGAGGTGAATTCGGTAAAGACCTCGCGCGGCACCACCTTCGTGGTGATTGATGGCGGCATGCACCATCACCTCGCCGCCTCCGGCAATCTCGGCCAGATCGTCAAGCGCAACTATCCCATCGTCGCACCGGCCATGATGCAGGCGGAGCATGAAAAGACGGCAACCATCGTCGGCCCGCTCTGCACGCCGCTCGATACGCTCGCCCGCAATGCGGCGCTGCCGAAGCTCAAGGCCGGCGATCTCCTCGCCATCCTGCAATCAGGCGCCTATGGCGCCAGCGCCAGCCCAGCGGGTTTTCTGAGCCATGCGGCGGCAAAGGAAGTGCTGGTGGAGAATGGAGTGTTTGAGGTAATCGGGCGCTGA	MAPTDKPQSHGPAFAAALFDTSENDLMIGGLPVRDIVAGTGTPCFLYDAAAMRRAYRDLETALGGFADIYYSVKANPLPAIVSLFRQEGAGAEIASVGEYRAAIKAGVAAENIIFAGPGKGMAELREVIEGGIGEIHIESAEEITRIEAIGKPVKASIRINPVPDAQAGAMRMGGKATAFGFDEEELENVLPLFKDARYIDLVGVHIYGGTQILDADMLVSQWRHGISLAARLAGMLGRPLETIDLGGGLGIPYFAGETPLDLEKVSAAIPDLKALLKAHPLITDAHVIVEPGRFLAGPGGIYVAEVNSVKTSRGTTFVVIDGGMHHHLAASGNLGQIVKRNYPIVAPAMMQAEHEKTATIVGPLCTPLDTLARNAALPKLKAGDLLAILQSGAYGASASPAGFLSHAAAKEVLVENGVFEVIGR				NA	NA	NA	NA	NA
BMS010_08543	1158	menF_2		Isochorismate synthase MenF	TTGGCACACGCGCCTTACGTTCTTTTCCGGGATGACACGACCGGCACGGTGACAGCCTTCACCGAGCCGGAAGACATCATCGTCGCGGATGAACCGGCGTCGTTTTTTGCTGCGCTGAGGCGCATGGAAGAGCTGCGCCGGGCCGGGAAATACCTCGCCGGCTATATGTCCTATGAAGCGGGCTTCCTGTTCGAGCCGAAGCTTGCGCCTTTCGCGGACGAGCCTCGCAACGTGCCGTTTCTCAATTTCGGCGTCTTTTCCGGCCCGCAGCCGGATGAGGGGCGGTTTGCGCGCCCGGCAAATCTGCCGGATGCGGATGCTTTTCTTTCCGATCCCGTGCCGGCATGGAGCCTTGAAGACTATTGCCAGCGTTTCGAGCGTCTGCACGGGCATCTGCGTCGCGGCGACTGTTACCAGGGCAATCTGACCATGTCGGTCCATGCCCGCTGGAGCGGCGATCCGCTGACGGCCTTCTGGTCGCTGATCGAGCGGCAGCCGGTGAAATATGGCGCGCTTGTCGATCTCGGCGGCCCGGTCATCCTGTCGCGCTCACCGGAACTGTTTTTCTCGGTCGACGGAGAAGGTTTCATCGAAACCCATCCGATGAAGGGAACGACGCCGCGCGGAGCCGATGTGGCAGAAGACCGGGCGATTATCGCCGCAATGCTGGCGGATGAAAAGACGCTCGCCGAAAACCGCATGATCGTCGATCTGCTGCGCAACGATATTTCCCGCATTACCGAAGTCGGCAGCCTTGATGTGCCGCGGCTGTTCGATATCGAGACTTATCCGACCGTGCACCAGATGGTGAGCCATGTGCGGGCGAAACTTCTGCCTGACGTGACGGTGGAAGATATTTTCGCCGCCCTGTTTCCCTGCGGCTCCGTTACCGGCGCGCCGAAAATGTGGGCGATGAAAATTCTGCGCGAGCTGGAAGCGACGCCGCGCGACGCCTATTGCGGCGCAATCGGCTTCATGTCTCCAAGTGGTGAGATGCGGTTCTCCGTGGCGATCCGCACGCTCAGCCTGTTTGATGACGGCCGCGCCGTCTTCAATGTCGGCGGCGGTATCGTGTTCGATTCCGTTGCCGAGGCGGAGTATGACGAGTGTCTGCTGAAATCGAAATTCGCGGTGGGGGACAGGCTGCTTCGGAGTTAG	MAHAPYVLFRDDTTGTVTAFTEPEDIIVADEPASFFAALRRMEELRRAGKYLAGYMSYEAGFLFEPKLAPFADEPRNVPFLNFGVFSGPQPDEGRFARPANLPDADAFLSDPVPAWSLEDYCQRFERLHGHLRRGDCYQGNLTMSVHARWSGDPLTAFWSLIERQPVKYGALVDLGGPVILSRSPELFFSVDGEGFIETHPMKGTTPRGADVAEDRAIIAAMLADEKTLAENRMIVDLLRNDISRITEVGSLDVPRLFDIETYPTVHQMVSHVRAKLLPDVTVEDIFAALFPCGSVTGAPKMWAMKILRELEATPRDAYCGAIGFMSPSGEMRFSVAIRTLSLFDDGRAVFNVGGGIVFDSVAEAEYDECLLKSKFAVGDRLLRS	PGPT0008005_2120	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008005-pabB-K01665	NA	NA
BMS010_08544	1131	tgt_2		Queuine tRNA-ribosyltransferase	ATGCACGACAAATTCACCTTCACCCTGAAAGCCACAAGCGGCGGCGCGCGCCTCGGCGAAGTCGCCATGCCGCGCGGTATCATCCGCACGCCCGCCTTCATGCCGGTCGGCACGGTCGGCACCGTCAAGGCCATGTATCTCGATCAGGTGCGGGAGCTTGGGGCCGATATCATTCTCGGCAATACCTATCACCTGATGCTGCGGCCGGGTCCGGAGCGAGTTGCCCGCCTTGGCGGCCTGCATGAGTTGATCCGCTGGCCGCATCCGATCCTCACCGATAGCGGCGGTTTTCAGGTGATGTCGCTTTCCGGCCTGCGCAAGCTCGACGAGAAGGGCGTGACCTTCAAGAGCCATGTGGACGGTTCGCTGCATCATATGTCGCCGGAACGCTCCATCGAAATCCAGGGCATGCTCGATTCGGATATCCAGATGCAGCTCGATGAATGCATCGCGCTGCCGGCCGAGCGCAAGGAAATCGAGCGCGCCATGGAAATGTCGCTGCGCTGGGCCGAGCGCTGCCGCGTCGCCTTTGGCGAGCAGCCCGGCAAGGCCATGTTTGGCATCGTACAGGGCGGCGACCAGCCGGATTTGCGCATCCGTTCCGCAGAGGGACTGAAGCAGCTCGATCTCAAGGGCTATGCGGTCGGCGGCCTTGCCGTTGGCGAGCCGCAGGATGTGATGCTCGGCATGCTCGATATCACCCTGCCGGTGCTGCCCACCGAAAAGCCGCGTTACCTGATGGGCGTCGGCACGCCCGATGACATCCTGAAATCGGTGGCGCGCGGCATCGACATGTTCGACTGCGTGATGCCGACCCGTTCCGGCCGTCACGGGCTTGCCTTTACCCGTCGCGGCAAGGTCAATATCCGCAATGCCCGCCATGCCGAGGATATGCGCCCGCTCGACGAGCAGTCCAACTGCCCGGCCTCGCGCGATTATTCCCGCGCCTATCTGCACCATCTCACCCGCGCCAATGAGGCGCTGGGCGGCATGCTGCTCTCCTGGCACAATCTTGCCTATTATCAGGAGCTGATGCAGGGTATCCGCAAGTCGATCGAGGAAGGCCGTTTCGCCGATTTTTATGCGGAAACCATCGAAATGTGGGCGCGGGGCGATATAGACCCCATCTGA	MHDKFTFTLKATSGGARLGEVAMPRGIIRTPAFMPVGTVGTVKAMYLDQVRELGADIILGNTYHLMLRPGPERVARLGGLHELIRWPHPILTDSGGFQVMSLSGLRKLDEKGVTFKSHVDGSLHHMSPERSIEIQGMLDSDIQMQLDECIALPAERKEIERAMEMSLRWAERCRVAFGEQPGKAMFGIVQGGDQPDLRIRSAEGLKQLDLKGYAVGGLAVGEPQDVMLGMLDITLPVLPTEKPRYLMGVGTPDDILKSVARGIDMFDCVMPTRSGRHGLAFTRRGKVNIRNARHAEDMRPLDEQSNCPASRDYSRAYLHHLTRANEALGGMLLSWHNLAYYQELMQGIRKSIEEGRFADFYAETIEMWARGDIDPI				NA	NA	NA	NA	NA
BMS010_08545	1083	queA_2	COG0809	S-adenosylmethionine:tRNA ribosyltransferase-isomerase	ATGCGTGTAGACCTGTTCGATTTCGATCTGCCCGAGGAAAATATCGCCCTGCGCCCGGCGAACCCGCGCGACAGCGCGCGTCTGCTGGTGGTCGATCCGAATGAAAACCGCATGGAAGACCACCGCGTCTTCGATCTGCCGTCCTTCCTGAAGCCCGGCGATGCGCTTGTCTTTAACGACACCCGCGTCATTCCCGCCCAGCTCGAAGGTGTACGCCTGCGCGAAGGTGCGCCGGAGACGGCGGTTTCGGCCACGCTGCACATGCGCGCCGATCAATCCCGCTGGAAGGCCTTCGCGCGTCCCGGCAAGCGCATCAAGCAGGGCGACCGCATCCGTTTCGGTTACGAGCGCGACAATGCCTGCGGCCTTGCCCATCTGGAAGCCACCGTGGAGGAGAAGGGCGAGGAGGGCGAGATCACGCTGCTGTTCGACGTTTCCGGCCCGGTGCTGGATGAGGCGATTGCTTCCGTCGGCCATATTCCCCTGCCGCCCTATATCGCGGCCAAACGGCCGGAAGATGCGCAGGACCAGACCGATTACCAGACCATCTACGCCCGCGAAAAGGGAGCCGTTGCCGCCCCGACCGCCGGGCTGCATTTCACGCCCGACCTGTTCGAAGCTCTTGATAAGATGGGCATCGAGCGGCATTTCGTGACGCTTCACGTTGGGGCAGGCACTTTCCTTCCGGTGAAGTCCGACGATACCGACGATCACAAGATGCATTTCGAGATCGGCCATGTGTCGCAAGACACCGCTGACCGGCTGAATGCGGTGAAGGCGCGGGGCGGGCGCATCGTCTGCGTCGGCACGACATCTTTGCGGCTGATCGAAAGTGCGGCCACCGAAGATGGCACCATTCACCCATGGTCCGATGCGACCGGCATCTTCATCACGCCCGGTTACCGCTTTCGCGCGGTCGATATGCTGATGACGAATTTCCACCTGCCGAAATCGACGCTGTTCATGCTCGTTTCGGCTTTCTGCGGTCTCGAAACGATGCGTGACGCTTATAAGCACGCCATCGAAACCGGATACCGCTTCTATTCCTATGGCGATTCCAGCCTGTTGTTCCGGAAAAACTGA	MRVDLFDFDLPEENIALRPANPRDSARLLVVDPNENRMEDHRVFDLPSFLKPGDALVFNDTRVIPAQLEGVRLREGAPETAVSATLHMRADQSRWKAFARPGKRIKQGDRIRFGYERDNACGLAHLEATVEEKGEEGEITLLFDVSGPVLDEAIASVGHIPLPPYIAAKRPEDAQDQTDYQTIYAREKGAVAAPTAGLHFTPDLFEALDKMGIERHFVTLHVGAGTFLPVKSDDTDDHKMHFEIGHVSQDTADRLNAVKARGGRIVCVGTTSLRLIESAATEDGTIHPWSDATGIFITPGYRFRAVDMLMTNFHLPKSTLFMLVSAFCGLETMRDAYKHAIETGYRFYSYGDSSLLFRKN	PGPT0023660_825	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-SAM|QUEUOSINE|LIPID_METABOLISM,PGPT0023660-queA-K07568	NA	NA
BMS010_08546	510	ppiB_2	COG0652	Peptidyl-prolyl cis-trans isomerase B	ATGGCCGAGATCAAGGATCCGGAAAACACCATCATCATGGAAACGACGACCGGCAAGGTCGTGATCCAGCTGCTTCCGGAAGTTGCGCCTGGTCACGTTGCCCGCATCAAGGAACTCGTCTCGGAAGGCGCTTACGATGGCGTCGTTTTCCACCGCGTCATCGAAGACTTCATGGCCCAGACGGGCGACGTGAAGTTCGGCAAGAAGGGTTCGGAAAGCTTCAACCCGGCACGCGCCGGCATGGGCGGCTCCGACAAGCCGGACCTGAAGGCCGAGTTCTCCGCCATTCCGCACGTGCGCGGCACCTGCTCCATGGCCCGTTCGCAGAACCCGAACTCCGCCAACTCGCAGTTCTTCATCTGCTTCACGGATTCTCCGTGGCTCAACAAGCAGTACACCGTCTGGGGCCAGGTCATCGAAGGCATGGAGGCCATCGACAAGATCAAGCGCGGCGAGCCGGTGAAGGACCCCGATTCGATCGTTTCCATCAAGCTCGCTTCTGCGGCCTGA	MAEIKDPENTIIMETTTGKVVIQLLPEVAPGHVARIKELVSEGAYDGVVFHRVIEDFMAQTGDVKFGKKGSESFNPARAGMGGSDKPDLKAEFSAIPHVRGTCSMARSQNPNSANSQFFICFTDSPWLNKQYTVWGQVIEGMEAIDKIKRGEPVKDPDSIVSIKLASAA	PGPT0015111_3125	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0015111-ppiB-K03768	NA	NA
BMS010_08547	570			hypothetical protein	ATGAAACTCGTTCGATTTGCCTTTGCCGGCGCCATGTTTGCAGGCGCTCTCGCCGCCAGCACCTTCGCTTCCGCCGCCGAACTCCTGACCGTGCAGTTGAAGGACGGCCCCGTTGTCATCGAACTGATGCCGGATGTCGCGCCCAAGCACGTGGCGCAGATCGAGGCGCTGGCCAAGAAGGGCGCTTATGACAATGTGGCCTTCCATCGCGTCATCGATGGCTTCATGGCGCAGACCGGCGACGTGCAGTATGGCAATATGGAGAAGGGCTTCAGCGCCCAGCGTGCGGGCACCGGCGGTTCCGACCTGCCGGATATTCCGGCCGAATTCTCCAAGGTTCCGTTCACGCGCGGCGTGGTCGGCATGGCCCGCTCGCAGGATCCGAATTCCGCCAATTCGCAGTTCTTCATCATGTTTGCCGACGGTCCGTTCCTGAACGGCCAGTATACCGTGGTCGGCAAGGTCGTGTCCGGCATGGAAGCCGTGGACAAGATCAAGCGCGGGCAGGGCAGCAACGGCGAAGTTTCCAACCCCGACCGGATGATCAAGGTCACCGTCGGCAAGAAGTAA	MKLVRFAFAGAMFAGALAASTFASAAELLTVQLKDGPVVIELMPDVAPKHVAQIEALAKKGAYDNVAFHRVIDGFMAQTGDVQYGNMEKGFSAQRAGTGGSDLPDIPAEFSKVPFTRGVVGMARSQDPNSANSQFFIMFADGPFLNGQYTVVGKVVSGMEAVDKIKRGQGSNGEVSNPDRMIKVTVGKK	PGPT0015111_2619	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0015111-ppiB-K03768	NA	NA
BMS010_08548	459	coaD_2	COG0669	Phosphopantetheine adenylyltransferase	ATGACCAACGGACATCTGGATGTGCTTCTCCAAGCGCTGAACGTGGCGTCGAAAGTCATCGTTGCGGTCGGCATTCATCCCGGAAAAGCGCCGCTGTTCAGCTTCGAGGAGCGGGCAGGGCTGATAAAGCGGGCGCTTGTCGAACATCTGCCGGGCGAAGCGGCGCGCATGGAAGTCGTCTCTTTCGATAATCTGGTCGTCGATGCCGCCCGCCAGCACGGTGCGCGCCTTCTGCTGCGCGGCCTGCGCGACGGCACCGATCTCGATTATGAAATGCAGATGGCCGGGATGAACCGCCAGATGGCGCCCGATATCCAGACCGTATTCCTGCCCGCCGGCACCTCGTCGCGACCCATTACAGCCACATTGGTCCGGCAGATCGCCGCCATGGGCGGCAATGTCGACGCCTTCGTGCCGAAAGCCGTGCTTGAAGCCCTCAACGCCAAGCTGAAGCGCTAA	MTNGHLDVLLQALNVASKVIVAVGIHPGKAPLFSFEERAGLIKRALVEHLPGEAARMEVVSFDNLVVDAARQHGARLLLRGLRDGTDLDYEMQMAGMNRQMAPDIQTVFLPAGTSSRPITATLVRQIAAMGGNVDAFVPKAVLEALNAKLKR	PGPT0008825_1487	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0008825-coaD|kdtB-K00954	NA	NA
BMS010_08549	180			hypothetical protein	ATGTTTGTAAGAGAAAAACAGTCTACTTCGGCGAAAATCAGCGTCATCAGCACCGCCTGGACAGTACTGGTTATCGCAATGGTAGCAACGACGTTTAGCCTTTATGAACAGAAGCCTGAAAAACTGGGCCCGGACTATCCGCAGCTGACCGCCCGTTATCAGTATATGAATTACTACTGA	MFVREKQSTSAKISVISTAWTVLVIAMVATTFSLYEQKPEKLGPDYPQLTARYQYMNYY				NA	NA	NA	NA	NA
BMS010_08550	135			hypothetical protein	ATGTTCACATTTCTGACAATGCTTCTTGCCCTGATCAGCGTTATGTTCGTGACATCGATGATATCCGTGGTCGCCGAAATGCGACGTGAGGACGAGGAATTCAAGGCGATGATCCGGCGCGACCGCGCCTTCTGA	MFTFLTMLLALISVMFVTSMISVVAEMRREDEEFKAMIRRDRAF				NA	NA	NA	NA	NA
BMS010_08551	1893			hypothetical protein	ATGCTCGATTCCCTGAGAAATGCTTCTCGAACCATGGCAGCCAAGCTGCTGCTTCTCCTGCTTGTTGTCTCTTTTGGCATCTGGGGCGTTTCCGCATCGCTTGTCACCGCCAATTCCCACGCCGTCATGACGGTGGGCGACCAGACGGTCAGCCCGGAGGAATTCCGCCTCGCCTATCAGCGCCAGATTTCCGATCTCAGCCGCCAGTTCGGCACAAGGCTGACGACCGAGCAGGCCAAGGCATTCGGCATCGACCGTCAGGTGTTCAGCCAGCTTGCGGCCGGTGCAGCGCTTGACGAGCTGGCCTCGAAGATGAATCTCGGCCTTTCGGAAAACCGCCTCGCCAATCTCATCGCCGAAGACCCGGCCTTCAAGGCGGTCAACGGCCAGTTCGACCGCAATCTCTTCAGCGAGCGCCTTCGCAATTCCGGTTTCCGCGAGGATGACTATATCAAGGAACGCAGTAAGGTCGCCGTCCGCAGCCAGATCGTCGAAGCCGTTTCCGACGGTTTTGCCGCGCCGCAGGTGCTGGTGGATGCGCTGAAGCAATATCGCAACGAGCAGCGCGCCGTCGATTACGTCATTCTTTCGAACGCCGTCATTCCGCCGGTCAAGGCGCCGGGCGACGACGTGCTTGCCCCCTGGTTCGAAACCAACAAGACGAAATATCGCGCGCCCGAGTTCCGCAAGTTCACCTATGTGAAGCTTGAGCCGTCCGATATTGCCGATCAGGCCGCCGTCACCGACGCCCAGATCGCCGATTATTATAACAGCCACAAGGACAGCTTCCGCACCGCCGGCCGCCGCACGGTGGAGCAGCTGACCTTCCCTGAAAAGGAAATGGCGGAGGCCGCCGCCGAGCAGATCCGCCTCGGCAACACCACCTATGACCAGGTGGTGAAGGATCAGGGCAAGACCGCTTCCGACGTGACCCTCGGCGAATTCACCAGGGATACCATCCCCGACCAGTCGATTGCCGATGCGGCTTTCACCATCCAGAAGGACGGTGGCGTATCGCCGGTGGTCCAGGGTTCCTTCGGCCCCGTCCTCCTGCGCGTCACCGGCATCAAGCCGGAAACGACCCGCACGCTGGAAGAGGCGAAGGAAGATATCCGCAAGGACCTCGCCACCGCCGCCGCTGCGGAAGAAATCACCAATGTTCACGACCGTTACGAGGATCTGCGCGCCGGCGGTTCTTCGCTCGCTGATGCGGCAACGCAGCTGAACCTGAAACCCGTCACCATCGCCGCCATCGACGCTTCCGGCCTCGATGAAAAGGGCGATGCGGTTCAGGGCCTGCCCTCCCCGCAGCTCGCGCAGGAGGTCTTCAAGACTGAACCCGGCACGGAAGCGCTGCCGATCAATCTCGGCCGTGAAGGCTACATCTGGTTCGATGTCGACCAGATCATCGCCGCCCGCGACCGCACACTTGCCGAAGTTCGCGACGATGTCGTGGCTGACTGGACGGCGGAGCAGCAGCGCAACGCGCTTGCCGCCAAGGCCGAGGAACTGAAGGCGCGCGTCGAAAAGGGCGACACGCTGGAAGCCGTGGCCGGTGAGCTGAGCCTTGCCGTCGAACAGAAGTCCGGCCTGCGCCGCAACAGCGAAGACGCCATTTTCGGCCAGCAGACGATCGCGGCGGTCTTCTCCGGCGCGGAGGGCAAGGTGGGCACGGCGGCCGATGCCGACGGTTCCAGCCGTATCCTCTTCAAGGTCACCTCGGTCGACACCAATGCGCCTGCCGACGCGCTCGCCAATGACGACCAGCAGTTCGCCGCCATTGCCCGCGCGGCCGGCGACGACATGCTGGACCAGATGGTCAACCGCCTGCAGAATGACTATGGTGTCACCATCAATCAGGCCCTCGCCGATCAGGCGATGGTCGGCTTCTAA	MLDSLRNASRTMAAKLLLLLLVVSFGIWGVSASLVTANSHAVMTVGDQTVSPEEFRLAYQRQISDLSRQFGTRLTTEQAKAFGIDRQVFSQLAAGAALDELASKMNLGLSENRLANLIAEDPAFKAVNGQFDRNLFSERLRNSGFREDDYIKERSKVAVRSQIVEAVSDGFAAPQVLVDALKQYRNEQRAVDYVILSNAVIPPVKAPGDDVLAPWFETNKTKYRAPEFRKFTYVKLEPSDIADQAAVTDAQIADYYNSHKDSFRTAGRRTVEQLTFPEKEMAEAAAEQIRLGNTTYDQVVKDQGKTASDVTLGEFTRDTIPDQSIADAAFTIQKDGGVSPVVQGSFGPVLLRVTGIKPETTRTLEEAKEDIRKDLATAAAAEEITNVHDRYEDLRAGGSSLADAATQLNLKPVTIAAIDASGLDEKGDAVQGLPSPQLAQEVFKTEPGTEALPINLGREGYIWFDVDQIIAARDRTLAEVRDDVVADWTAEQQRNALAAKAEELKARVEKGDTLEAVAGELSLAVEQKSGLRRNSEDAIFGQQTIAAVFSGAEGKVGTAADADGSSRILFKVTSVDTNAPADALANDDQQFAAIARAAGDDMLDQMVNRLQNDYGVTINQALADQAMVGF				NA	NA	NA	NA	NA
BMS010_08552	1020	trpD_4	COG0547	Anthranilate phosphoribosyltransferase	ATGGCCGAACTGAAGCCGCTGATCGCCAAGGTCGCCAATGGAGAAAGCCTGAACCGCGAGGAATCGCGCGCGGCTTTCGACATTCTGATGTCGGGCGAAGCCACGCCGTCGCAGATCGGCGGCTTCCTGATGGCGCTGCGCGTGCGCGGGGAAACGGTGGACGAAATCGTCGGCGCCGTCTCCTCCATGCGTTCCCGCATGCTGCCGGTTTCGGCCCCCGCCAATGCCATCGATATCGTCGGCACCGGCGGTGACGGCATCGGCACCTATAATATCTCGACGCTCGCCTCGATCATCGTCGCTGGCACCGGCCTGCCGGTCGCAAAGCACGGCAACCGGGCGCTGAGCTCCAAATCCGGCACGGCGGATGCGCTCTCGGCGCTCGGCGTGAAGCTCGATATCGGTCCGGAACTCATCGCCCGCTGCATCAGCGAGGCGGGTCTCGGTTTCATGTTCGCGCAGCTTCACCATTCGGCCATGCGCCATGTCGGCCCAAGCCGCGTCGAACTCGGTACGCGCACCATCTTCAACCTGCTCGGCCCCCTCTCCAACCCGGCCGGCGCCAAACGGCAATTGCTCGGCGTCTTTTCGCCGCGCTGGCTGGTGCCGCTTGCCGAAGTGCTGCGCGATCTGGGTTCGGAAAGCATCTGGGTCGTGCATGGCGACGGCATGGACGAGGTGACGACCACGGGCGTTACCCATGTGGCGGCACTGGAAAATGGCAAGATCCGCACCTTCGACCTGACGCCGAAGGATTTCGGTGTCGAGCCCGCTTCCATGGAAGATCTGAAGGGCGGAGACGGCATTGCCAATGCGGCGGCGCTGCGCGAGGTTCTGTCCGGCAAACGCAACGCCTATCGTGACGTGTCGCTGTGCAACGCGGCCGCAGCGCTGGTTATCGCCGGCAAGGCGGAGACACTGTCTCAGGCGATGGCGATCGTCAGCGAAGCGCTGGACAGCGGCAAGGCCGCAGCCGCGCTCGACCGTCTGGTTGCCGTGTCCAACGAGGGTCAGGAATGA	MAELKPLIAKVANGESLNREESRAAFDILMSGEATPSQIGGFLMALRVRGETVDEIVGAVSSMRSRMLPVSAPANAIDIVGTGGDGIGTYNISTLASIIVAGTGLPVAKHGNRALSSKSGTADALSALGVKLDIGPELIARCISEAGLGFMFAQLHHSAMRHVGPSRVELGTRTIFNLLGPLSNPAGAKRQLLGVFSPRWLVPLAEVLRDLGSESIWVVHGDGMDEVTTTGVTHVAALENGKIRTFDLTPKDFGVEPASMEDLKGGDGIANAAALREVLSGKRNAYRDVSLCNAAAALVIAGKAETLSQAMAIVSEALDSGKAAAALDRLVAVSNEGQE	PGPT0007090_2035	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007090-trpD-K00766	NA	NA
BMS010_08553	816	trpC_2		Indole-3-glycerol phosphate synthase	ATGAGCGACATTCTGAAAAAGATCGAAATTTACAAGCGCGAGGAAATCGCCGCCGCCAAGGCGAAGGTTTCGCTGGCCGATCTGAAGGCCATGGCCGCAGGCCAGAGCGCACCGCGCGGTTTCTACAGGGCACTCCGGGCAAAGCAGGCCGAAGGCAAATTCGGTCTGATCGCGGAAATCAAGAAGGCCAGCCCCTCCAAGGGCCTCATCCGCCCGGATTTCGATCCGCCGGCGCTGGCCGCCGCCTATGAAGCCGGTGGCGCCGCCTGTCTTTCGGTGCTGACGGATAGCCCAAGCTTTCAGGGCGCCCCGGAATTCCTGACCGCCGCCCGCAATGCCTGCGCCCTGCCGGCGCTGCGCAAGGATTTCATGTTCGAGACCTATCAGGTGCATGAGGCCCGCGCCTGGGGCGCGGACTGCATTCTCCTCATCATGGCCTCGCTTTCCGACGACGAGGCGAAACGCCTTGAAGACGAGGCTTTCGCGCTCGGCATGGATGTGCTGGTGGAAGTGCATGATGAGGAAGAAACGGAACGGGCGCTGAAGCTCGCCTCGCCGCTTCTCGGCATCAACAACCGCAACCTGCGCACCTTCGAGGTCAGTCTCGAAACCAGCGAGAAGCTCGCAGGCCTCGTGCCCGCGGAAAAGCTGCTGGTCGGCGAAAGCGGCATCTTCACCTTCGAGGATTGTAAGCGCCTCGAAAAAAGCGGCATCAGCACCTTCCTCGTCGGCGAAAGCCTGATGCGCAAGGACGATGTGACAGCGGCCACCAAAGCGCTGCTGACCGGCCAATCCGACATTCTGGCAGCGGAATAA	MSDILKKIEIYKREEIAAAKAKVSLADLKAMAAGQSAPRGFYRALRAKQAEGKFGLIAEIKKASPSKGLIRPDFDPPALAAAYEAGGAACLSVLTDSPSFQGAPEFLTAARNACALPALRKDFMFETYQVHEARAWGADCILLIMASLSDDEAKRLEDEAFALGMDVLVEVHDEEETERALKLASPLLGINNRNLRTFEVSLETSEKLAGLVPAEKLLVGESGIFTFEDCKRLEKSGISTFLVGESLMRKDDVTAATKALLTGQSDILAAE	PGPT0007080_1131	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007080-trpC-K01609	NA	NA
BMS010_08554	492	moaC_2	COG0315	Cyclic pyranopterin monophosphate synthase	ATGAGCGAGGCGGGAAAGCTCACCCATATCGATGCCGGCGGCGAAGCGCATATGGTCGATGTCGGCGACAAGGCCGAGACCGTCCGTGTTGCCGTCGCCGAAGGCTTCGTGAAGATGAAGCCGGAAACGCTGGCGCTCATCCGCGAGGGCAACGCCAAGAAGGGCGATGTCATCGGCACCGCACGCCTCGCCGGCATCATGGCCGCCAAGCAGACGGCAAATCTCATCCCGCTCTGCCATCCGCTGATGCTGACAAAGGTGGCGGTGGATATTACCGAAGACGCCGCCCTGCCCGGCCTGCGGGTCGAAGCGCTGGTGAAACTGTCCGGCAAGACCGGCGTGGAGATGGAAGCGCTGACCGCCGTATCCATCGCCTGCCTGACGATCTATGACATGGCCAAGGCCGCCGACAAGGCGATGGAAATCGTCAATATTCGCCTTCTGGAAAAGAGCGGCGGCAAATCCGGCGATTTCCGGCGACAGGAGACGTGA	MSEAGKLTHIDAGGEAHMVDVGDKAETVRVAVAEGFVKMKPETLALIREGNAKKGDVIGTARLAGIMAAKQTANLIPLCHPLMLTKVAVDITEDAALPGLRVEALVKLSGKTGVEMEALTAVSIACLTIYDMAKAADKAMEIVNIRLLEKSGGKSGDFRRQET	PGPT0008405_1542	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008405-moaC_-K03637	NA	NA
BMS010_08555	1218	moeA_3	COG0303	Molybdopterin molybdenumtransferase	ATGAAACCGCTGCTGCCCGTGGATGAGGCCATAAGACGCCTTCTGGAGGCAGCGGTTCCGGTGACCGAAAGCGAAACCCTGCCGCTTACCGAATGCGATGGCCGGGTTCTTTCGGCCGATCTCAGTGCACGCCTCACCCAGCCCCCCTTCGATGCCTCGGCCATGGACGGTTATGCGCTGCGCAGCGCCGATGCGGCGGAGATCGGCTCGGTCCTCACCGTCATCGGTCAGGCCGCCGCCGGCCATGCTTTTACCGGCACGGTGGGTGAAGGCCAGGCCGTGCGCATCTTCACCGGCGCGCCCGTGCCGCAGGGTGCGGACACCGTTCTCATTCAGGAAGATGCCGAAGTGCTGGAGGGCGGAAAAATCCGCACCGCCTTCGACGTCACCGCCGGGCGACATATCCGCCCGCGCGGACAGGATTTTGCCGAAGGCGAAGCGGCCCTGAAGGCCGGGCGGGAACTCGGTTTCACCGACCTGACGCTCGCCGCGGCGATGAATCATGCCGCGCTCACCGTCTATCGCAGGCCGCGCATCGCCATCCTCGCCACCGGCGATGAGTTGCTGCCGCCGGGAAGCGCGCCGCAGCCCGCCCAGATCATCGCGTCCAACACCTTCGGCGTCGCAGCCCTCGCCCGGCAGGCGGGTGCCGAGGTTCTCGATCTCGGTATCATTGCCGATGATGACAGGCTGATCCGCGCCGCTATCGGCAAGGCGGTCGCGGCGAAGGTCGATGTGCTTGTGACGCTCGGCGGCGCCTCCGTCGGCGACCACGACCTCGTGCAGGCAGCCTTGAAGGCGGAGGGCATGCAGCTCGATTTCTGGCGCATCGCCATGCGTCCGGGGAAACCGCTGATGGTCGGGTCCATCGGCGCCATGCAGGTTCTGGGCCTGCCCGGAAACCCGGTTGCGAGCCTCGTCTGCGGCCTGCTGTTCCTCGAACCGCTGCTCCGCAGCATCGCCCGCCGCGCGCCGCTGCAACGCACGATGACCGCCCGCACCGCCACGCCGTTGAAAGCGAATGATCACCGGCAGGATTATCTGCGCGCCCGTTTCAGCACGGACGAAAACGGCCTGCTGGTGGCGGAAGCCCATGCGAAGCAGGATTCATCGATGATGAAGATATTGGCCCATTCCGACGGCTTGATCGTGCGCCCGCCGAACGCGCCGGCGGCGGCGGCCGGGGCGGAATGCCCGGTTATCAGGCTGAGATCCTGA	MKPLLPVDEAIRRLLEAAVPVTESETLPLTECDGRVLSADLSARLTQPPFDASAMDGYALRSADAAEIGSVLTVIGQAAAGHAFTGTVGEGQAVRIFTGAPVPQGADTVLIQEDAEVLEGGKIRTAFDVTAGRHIRPRGQDFAEGEAALKAGRELGFTDLTLAAAMNHAALTVYRRPRIAILATGDELLPPGSAPQPAQIIASNTFGVAALARQAGAEVLDLGIIADDDRLIRAAIGKAVAAKVDVLVTLGGASVGDHDLVQAALKAEGMQLDFWRIAMRPGKPLMVGSIGAMQVLGLPGNPVASLVCGLLFLEPLLRSIARRAPLQRTMTARTATPLKANDHRQDYLRARFSTDENGLLVAEAHAKQDSSMMKILAHSDGLIVRPPNAPAAAAGAECPVIRLRS	PGPT0008430_4472	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750	NA	NA
BMS010_08556	1071			hypothetical protein	ATGAACACGGCATCCACGCCCAAAACCACGGGGCCCGACATTGCCGGGCAGATTGCCTATGCCATGCGGAGCATGGGTGTTTCGCCGATCCCGCGTAACTACAGCCTCTTTTACGAAGCCTATATCGGTTCGAACCCTGCCCTGACGAAGGATCTGGCAGCGCTTGGAAACCGGGTCACGCAGGAGGATCTGGACGAGCTGTCCTTACGTTACGGGGAAGGCAATCCCGCCCGGTCCATCGACGATGCCCATGAGAAGCTCAGACGCGAACTGGAGGGCCTTCTGGGCACGCTGAGGCGCGAACAATCCTCCATCGAAAACTATAACAGGATTCTCGGCGAAACGCGTCAGCGCATCGATGACAAGAATGCCGCCAGCAGCAATATTCTGAGGAATGCGATTTCGCTGCTGGCCGAGGCCACCGGCTCGAAGATCATCGACGGCGAAAAGACCTTCAACGATGTCAACCGCCATGCCGAGGAAATGCATCAGGTGCGTCTGGAGCTGGATGAGTACAAGCGCATCGCCAATACGGATTCGCTGACGCGCCTGTCCAATCGGCGCGCCTTCGACGACCGGCTGGCATCCATCTATGACAGCTCCATCGGCCTGCAATATACCACGCTCGTCCTGCTCGATATCGATCATTTCAAGCGGATCAACGACACTTTCGGCCATCCGGTCGGCGACAAGATTCTCGCCACCGTCGCCTCGGTCATCCGCGCCAATGTCCGCAAGGATGGTTTTGTCGCCAGAAGCGGCGGCGAGGAATTCGCCATCATTCTGGACGGCAATACGCCGGAAGAGGTGATGGTGATGTGCGAGCGCATCCGCCTGTCGCTGGAAAGCACGCCCTTCCGCAATTCGAGATCGGGCGCCGACTACGGCACGGTGACGATCTCCCTCGGCTTCGCTTCCGCCGCACAGGCCACCAACCCGAGCGAACTTTACGGCCATGCCGACACCGCGCTCTACCATGCCAAGGAAACCGGCCGGAACCGCTCCGTCTATTACGAGGACGGCATGCAGAAGAACTATACCGGCAAGAACTGGCTGATTTATCGGACGTGA	MNTASTPKTTGPDIAGQIAYAMRSMGVSPIPRNYSLFYEAYIGSNPALTKDLAALGNRVTQEDLDELSLRYGEGNPARSIDDAHEKLRRELEGLLGTLRREQSSIENYNRILGETRQRIDDKNAASSNILRNAISLLAEATGSKIIDGEKTFNDVNRHAEEMHQVRLELDEYKRIANTDSLTRLSNRRAFDDRLASIYDSSIGLQYTTLVLLDIDHFKRINDTFGHPVGDKILATVASVIRANVRKDGFVARSGGEEFAIILDGNTPEEVMVMCERIRLSLESTPFRNSRSGADYGTVTISLGFASAAQATNPSELYGHADTALYHAKETGRNRSVYYEDGMQKNYTGKNWLIYRT				NA	NA	NA	NA	NA
BMS010_08557	609			hypothetical protein	ATGACGATCATTCGCACGGTTGAGGAATTGAAGGCCATCTATGACAGCACGAGCGAGGCATCGATCGCCAAGGTGACAGCCACGCTGACGGCCGAATACCGGCTGATGATCGAGACTTCGCCGTTCCTGGCGCTGGCGACGGTCGGGCCGGAAGGCATGGACTGTTCGCCGCGCGGCGATAAGGGCGGCGTGGTCCGGGTGGCCGATGAGAGGACCGTGCTTCTGCCGGACTGGCGCGGCAATAACCGTGTGGATTCGCTTCTGAACATCGTGCGCGATCCGCGCGTGGCGCTGATGTTCCTGGTACCCGGCTCGAATACGACGATGCGCATCAACGGCCGTGCTGTGGTCTCCGTCGATCTCGACCTGCTGGAAAGCTTCGAGATGGACGGCAAACATCCGCGCACCGTCATCGTGGTGACAATCGATGAAGTCTATTTCCAGTGCGCCCGGGCGCTGATGCGCTCGGAACTATGGAACCCCGATAATTTCGTCGACCCGGCCTCGCTTCCGACACCCGGTCTTCTGCTCAAGGCGGCCAAGGCGGAATTCGATCAGGAGACCTATGACCGGGAATGGGCGGCGCGGGCGGCGAAGACCATGTGGTGA	MTIIRTVEELKAIYDSTSEASIAKVTATLTAEYRLMIETSPFLALATVGPEGMDCSPRGDKGGVVRVADERTVLLPDWRGNNRVDSLLNIVRDPRVALMFLVPGSNTTMRINGRAVVSVDLDLLESFEMDGKHPRTVIVVTIDEVYFQCARALMRSELWNPDNFVDPASLPTPGLLLKAAKAEFDQETYDREWAARAAKTMW				NA	NA	NA	NA	NA
BMS010_08558	1770	kefC_3	COG0475	Glutathione-regulated potassium-efflux system protein KefC	GTGCTTTTGGCGGCGGGCGTTGTCGCCGCGCCGATCTTCAAGCGAATCGGCCTCGGCTCGGTGCTCGGCTATCTCGCCGCCGGCCTGGTGATCGGGCCTTACGGTCTCGGTTTTTTCTCCGATTCGCAGGCCATTCTGCATATAGCGGAACTCGGCGTGGTGATGTTCCTGTTCATCATCGGCCTTGAAATGCAGCCGTCGCGGCTGTGGTCGATGCGGCAGGATATTTTCGGGCTGGGGGCGCTGCAGGTGCTGGTCTGCATGGCGGGCCTGACATTGATCGGCGTCGGTCTCGGCTTTCCCGTCATCATGTCCTTCGTCGCCGGCACCGGTTTCGTGCTGACGTCGACGGCGATCGTCATGCAGATGCTGCAGGAGCGCAACAGCATGTCGAGCCTGAAAGGCCAGCGCATCATCGCCATCCTGCTGTTCGAGGATCTGGCCATCGTGCCGCTGCTGGCGCTTGTCGCTTTCCTCGGTTCGGGCGGCGAACATGTCGCGGCGTCGGAGCGCTGGGCCTCCGTCGGCATCGCGCTTGCCGCCGTCGGCGCGCTCATCCTTGCCGGGCGTTATCTTCTCAACCCGTTCTTTCGCCTGCTCGCGGCTTCCGGCGCGCGGGAGGTGATGACGGCCGCGGCGCTGCTGGTGGTGCTGGGTTCGGCGCTTCTGATGCAGGTGAGCGGTCTTTCCATGGCCATGGGCGCTTTTCTCGCCGGCGTGCTGTTGTCGGAATCCTCCTTCCGCCATCAGCTGGAGGCGGATATCGAGCCGTTTCGCGGCATTCTGCTCGGCCTGTTTTTCCTGGGTGTCGGCATGGCGATCGATCTTGCCGTCATCGCCTCCAACTGGCAGCTCGTGGTCATCAGCGTCGCAGGCTACATGCTGCTCAAGGCCTTCCTGATCTATGGCGTGGCGCGGGCGCTCGGCACCACCCGGCGCGAAAGCCTGGAACGGGCGGTGCTGATGGCGCAGGGCGGCGAATTCGCCTTCGTGCTCTATTCGGCCGCCGTCAGCGCCGGCATTCTCGACCGGGAGGCGAACGCCATCCTGACGGCGACCATCATCATCTCCATGGTGCTGACGCCGCTGATGGTCATCCTGCATGACCGGCTGGTGCCGGCGGCGGTTCCCAATACCGACGATCTCGACGTGCCTGAAAATGTCGAGGGCAGCATTCTCCTCATCGGCTTCGGCCGTTTCGGCCAGATCGTCAGCCAGCCGCTTCTGGCGCGGGGCTATACGCTGTCGCTGATCGACAAGGATGCCGACTTCGTGCGCGATGCGGCTGAATTCGGTTTCAAGGTCTATTATGGCGACGGTTCGCGGGCGGAAATCCTGCATGCTGCCGGTGCGAGCACGGCGCGTGCCGTGCTTATCTGCGTCGATGACAAGGAGGCGGCCGTCAGGATCGCGGAGATCGTCAAGCACGAATTCCCGCTGGTTCCGGTTCTCGCCCGCGCCTATGACCGCGGCCACGCGATCGATCTTCTGAAGGCCGGTGTGGATTACCAGATTCGTGAGACGCTGGAATCGGCGCTGAATTTCAGCGAGGAAGTGCTTGGCGCCATGGGCGAGGAGCGGGAAGATGCCGCGCGTCTGGTGGAAGAATTCCGCGACCGCGACGAGGAACGTTTCGCCATGGAAGTCGTCGGCGGCATCTATGCCGGCCGTTCGCTGATCCGCGGCAATGCCCAGCCGGCCGACCTTGTTGCCGCCCGCACCGCGCGCGAGCGGGCCGAGCGGGAAAAGGCGGAAGCGGCAGAGGAATAG	MLLAAGVVAAPIFKRIGLGSVLGYLAAGLVIGPYGLGFFSDSQAILHIAELGVVMFLFIIGLEMQPSRLWSMRQDIFGLGALQVLVCMAGLTLIGVGLGFPVIMSFVAGTGFVLTSTAIVMQMLQERNSMSSLKGQRIIAILLFEDLAIVPLLALVAFLGSGGEHVAASERWASVGIALAAVGALILAGRYLLNPFFRLLAASGAREVMTAAALLVVLGSALLMQVSGLSMAMGAFLAGVLLSESSFRHQLEADIEPFRGILLGLFFLGVGMAIDLAVIASNWQLVVISVAGYMLLKAFLIYGVARALGTTRRESLERAVLMAQGGEFAFVLYSAAVSAGILDREANAILTATIIISMVLTPLMVILHDRLVPAAVPNTDDLDVPENVEGSILLIGFGRFGQIVSQPLLARGYTLSLIDKDADFVRDAAEFGFKVYYGDGSRAEILHAAGASTARAVLICVDDKEAAVRIAEIVKHEFPLVPVLARAYDRGHAIDLLKAGVDYQIRETLESALNFSEEVLGAMGEEREDAARLVEEFRDRDEERFAMEVVGGIYAGRSLIRGNAQPADLVAARTARERAEREKAEAAEE	PGPT0013795_422	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013795-kefB-K11747	NA	NA
BMS010_08559	369			hypothetical protein	ATGAGCGATGCCTGGCCGACCGAGCTGCTTGTGTCGAAAGACCGGCGCGAACTGACCGTTTCCTTCGATGATGGAAGCGTTTACCGCCTTCAGGCCGAGATGCTGCGCGTGCTTTCGCCCTCGGCCGAGGTGCAGGGCCATGGGCCGGGACAAAAGGTCACAGTGCCCGGCAAACGCGACGTTACCATCCGTTCCATGGTCGCCACCGGCAATTATGCGGTTCGCATCGATTTCGACGATGGCCACGATAGCGGCATCTACACCTGGAAATATCTGAAGGAACTGGGTGAGACCGGGGACGCGCTGTTTGCGGATTATGAGCGGCAGCTCGCCGAAAAGGGCTTGAGCAGGGAACCGCGATACCGGTAG	MSDAWPTELLVSKDRRELTVSFDDGSVYRLQAEMLRVLSPSAEVQGHGPGQKVTVPGKRDVTIRSMVATGNYAVRIDFDDGHDSGIYTWKYLKELGETGDALFADYERQLAEKGLSREPRYR				NA	NA	NA	NA	NA
BMS010_08560	1050	moaA_4		GTP 3',8-cyclase	GTGAACGGTTTCTCCGGCTCGCTTGAAAAAGCGAAAACCCTGACGGAAAACAGCACACCGATGGTGGACCCTTTCGGCCGCGCCATCACCTATCTGCGCGTTTCCGTCACCGACCGCTGCGATTTCCGCTGCACCTATTGCATGTCCGAACACATGACCTTCCTGCCGAAGAAGGACCTTCTGACGCTCGAAGAACTCGACCGGCTCTGTTCCGTCTTCATAACGCGCGGCGTGCGCAAGCTGAGGCTGACCGGCGGCGAGCCGCTGGTGCGCAAGAACATCATGTCGCTGGTGAGGAACCTCGGCCGCCACATTGAAACCGGTATGCTGGAAGAGCTAACGCTGACGACAAACGGCTCACAGCTCGCCAAATTCGCCGTCGAGCTTGCCGATTGCGGCGTGCGCCGCATCAACGTGTCGCTCGATACGCTCGACCGCGACAAGTTCCGCCACATTACCCGCTGGGGCGATCTCGACCGTGTCATGGAGGGGCTCGACGCCGCCCAGACCGCGGGCATCAAGGTCAAGCTCAACGCGGTGGCGCTGAAGGACTTCAACGACGCCGAAATGCCCGACCTCATGCGTTTCGCCCATGGTCGCGGCATGGACCTGACGGTGATCGAAACCATGCCGATGGGCGAGATCGAGGAAGACCGGACCGACCGCTACCTGCCGCTTTCGCAGTTGCGCGCCGATCTGGAAAAGAGCTTCACGCTCATCGACAGCGATTACCAGACCGGCGGTCCCGCCCGTTACGTGACGGTGAAGGAAACCGGCGGCCGGCTCGGCTTCATCACGCCGATGACGCATAATTTCTGCGAAAGCTGCAACCGCGTCCGCCTCACCTGCACCGGCACGCTTTATATGTGCCTGGGCCAGGATGACGCCGCCGATCTGCGCACCGCGCTGCGCGCCTCCGGCAGCGACGCCTATCTTTCCAGCGCCATCGATGAAGCCCTTCTGCGCAAGCCGAAGGGGCATGATTTCATCATCGACCGCACCCACAACCGGCCTGCCGTCTCCCGCCATATGAGCGTGACCGGCGGCTGA	MNGFSGSLEKAKTLTENSTPMVDPFGRAITYLRVSVTDRCDFRCTYCMSEHMTFLPKKDLLTLEELDRLCSVFITRGVRKLRLTGGEPLVRKNIMSLVRNLGRHIETGMLEELTLTTNGSQLAKFAVELADCGVRRINVSLDTLDRDKFRHITRWGDLDRVMEGLDAAQTAGIKVKLNAVALKDFNDAEMPDLMRFAHGRGMDLTVIETMPMGEIEEDRTDRYLPLSQLRADLEKSFTLIDSDYQTGGPARYVTVKETGGRLGFITPMTHNFCESCNRVRLTCTGTLYMCLGQDDAADLRTALRASGSDAYLSSAIDEALLRKPKGHDFIIDRTHNRPAVSRHMSVTGG	PGPT0008410_1107	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008410-moaA-K03639	NA	NA
BMS010_08561	969	ribN_5		Riboflavin transporter	ATGGCATTGACGGACAATACGCGCGGCGCCCTATTCATGGCGCTCGCCATGGCAAGCTTCACGGCCAATGACGCCCTGACGAAATCCGTCACCCCCTATATCAACACCGGCCAGATCATGTTCGTCCGCGGCATCATGACGGTGGTGCTGATCTACATCGCCGCCCGCCACTTCGGCGCGCTCCGGCCGCTGAAAACCCTCATGCGCCCCATCATCATCCTGCGCTGTCTCTGCGAGGTAACTGCGGCCGTGCTCTATCTGACGGCGCTCGGCCTTATCGAATTTTCCAATGCTTCGGCCATATTGCAGTCCCTGCCCCTGGTCGTGACGCTGGGTGCGGCGCTGTTCCTGCGCGAACCCGTGGGCTGGCGGCGCTGGGTGGCGATCATCGTCGGTTTTATCGGCGTGCTCGTCATCATCAGGCCCGGCCCGGAAGGCTTCACGCCGGGTGCGCTTCTGGTCGTCGCATCGCTCGCCGTCACCGCTGCGCGCGATCTGCTGACCCGGAAAATGTATGCCGATGTGCCCTCGCTCGCCATCACCGTCATCACCGCCTTCGTCAACATGGCGGTGGGCGGCCTGCTGATCGTGCCCTTTGGCGGCTGGCAACCGATGAACTTCATGATCGTATCGCATCTGGCCGCTTCGGCCATTCTGGTGCTCGTCGGTTATCAGGCGATCATACTGTCGATGCGATCAGGCGAAATCTCCTTCGTCGCGCCGTTCCGTTATACCGGTCTGCTCTGGGGTTTCATGATCGGCGTGTTCTTCTTCAACGAAAAGATCGATAATTACACCATTGTCGGCGCCATGATCGTCATCGGCTCCGGCCTTTATACCTTCTACCGCGAAAGCCTGCGCAAGCGCTCGCAGATGGCCAAGCGCGCAGCCGCCACACCCACCGCCGCAACCACGGTACGGCCGGCTTCCGTGACGAAAGCTGCCGTTACGGAAGAGGCGGGAGAATGA	MALTDNTRGALFMALAMASFTANDALTKSVTPYINTGQIMFVRGIMTVVLIYIAARHFGALRPLKTLMRPIIILRCLCEVTAAVLYLTALGLIEFSNASAILQSLPLVVTLGAALFLREPVGWRRWVAIIVGFIGVLVIIRPGPEGFTPGALLVVASLAVTAARDLLTRKMYADVPSLAITVITAFVNMAVGGLLIVPFGGWQPMNFMIVSHLAASAILVLVGYQAIILSMRSGEISFVAPFRYTGLLWGFMIGVFFFNEKIDNYTIVGAMIVIGSGLYTFYRESLRKRSQMAKRAAATPTAATTVRPASVTKAAVTEEAGE	PGPT0023680_139	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-SAM|QUEUOSINE|LIPID_METABOLISM,PGPT0023680-sam-K15270	NA	NA
BMS010_08562	1200	ydhC_2		Inner membrane transport protein YdhC	ATGAACAGCGGCCGTTTTCTGGACAGGACCACCCCGCCCCACATCATCACGCTGGTCGTCATCGCCGGCGTCGCGGCGCTGTGCATGAATGTGTTCCTGCCCTCGCTTGCGGCCATGGCGGTTTATTTCGAGACCGACTACGCGGTGATGCAATTTGCCGTTTCGGGTTATCTTGCCGCCACCGCCTGCCTGCAACTCATCATCGGCCCGCTTTCCGATCTCTTCGGACGCCGCCCGGTCATGCTGGCCAGCATCGCCATCATGATCGTCGCAACGCTCGTCTGCATGCTCGCGCCCAATATCACCGTCTTCATGATCGGGCGCGTCGCGCAGGCGGCCGTCGTTTCCGGCTTCGTGCTGGCGCGCGCCATCGTGCGCGACATGGTGCCGATGGAACAGGCGGCCTCGATGATCGGCTACGTGACCATGGGCATGTCCGTGGTGCCGATGGTGGGGCCGACGGTTGGCGGGTTGCTTAACGACATTTCCGGCTGGCAGTCGAGCTTCGCCCTCCTCTCCCTGCTCGGCGTCGGCATTCTGGTTCTTGCCTGGTTCGATCTCGGAGAAACCAACCACAATAAATCGGCGAGCTTTTCGCAGCAGTTTCACGCCTGGCCGGAACTGCTGCGTTCGCCGCTGTTCTGGGGTTACGCTCTGACCTCGACCTTCTCATCGGGCATGTTCTTCTCCTTCCTCGGCGGCGCGCCTTTCGTCGGCAGCGTACTTTACGGGCTTGCGCCGGCCATGCTCGGCCTGCAATTCTTCTTCATGGCCAGCGGTTACATGCTCGGCAACTTCATCTCCGGCCGTTATGCCAGCGAAATCGGCATTACCCGCATGATGCTGTCGGGCAATGTCATCGCCATTGCAGGCATCGCCACGACCATGCTGCTGATCTCCGCCGGGGCGGAAAGCGCCTATGCGTTTTTCGTGCCGCTCGCCTTGATCGGTGTCGGCAACGGCGTGACACTGCCAAGCGCCAATGCCGGCATGGTCAGCGTCCAGCCGCATCTGGCCGGTTCCGCCTCCGGCCTCGGCGGCGCGATGACCATCGGCGGCGGCGCAGCGCTCTCGGTGCTCGCCTCCTCGGTCCTGTCCAGAGAAGACGGAACCTGGCCGCTTCTTCTGGTGATGCTGGCGACCGGCCTTGTCGCCCTCCTCACCACCTATGTCGTAAGGCTGCAGGAAAAGCGGGAATGA	MNSGRFLDRTTPPHIITLVVIAGVAALCMNVFLPSLAAMAVYFETDYAVMQFAVSGYLAATACLQLIIGPLSDLFGRRPVMLASIAIMIVATLVCMLAPNITVFMIGRVAQAAVVSGFVLARAIVRDMVPMEQAASMIGYVTMGMSVVPMVGPTVGGLLNDISGWQSSFALLSLLGVGILVLAWFDLGETNHNKSASFSQQFHAWPELLRSPLFWGYALTSTFSSGMFFSFLGGAPFVGSVLYGLAPAMLGLQFFFMASGYMLGNFISGRYASEIGITRMMLSGNVIAIAGIATTMLLISAGAESAYAFFVPLALIGVGNGVTLPSANAGMVSVQPHLAGSASGLGGAMTIGGGAALSVLASSVLSREDGTWPLLLVMLATGLVALLTTYVVRLQEKRE	PGPT0029005_3699	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029005-bcr|tcaB-K07552	NA	NA
BMS010_08563	627	mobA_2	COG0746	Molybdenum cofactor guanylyltransferase	ATGACGGCCCCTTTCGAAATACCCGGTCTCGTGCTCGCCGGCGGGCTTTCGCGGCGCATGGGCAGCAACAAGGCGATGGTGCAATTGGGCGATGCGCCCCTCATCTCCCATGTCATCAGCCGCATCACCCCGCAGGTCTCAGATGTCACCATCAACGCGGCCTATGGCTGGGCGGAGAGTTTCGGCCTGCCGCTGCTGCCCGATACGCTGAACGGCCATGCCGGGCCGCTCGCGGGTATTCTGGCCGGCATGCGCCATTTCCAGCACCGCGGGGATGCGGCGAGCCACTTTTTGACGGCGCCCGCCGACAGCCCGTTTTTCCCGGACGATCTCGTGGCGCGGCTTTGCGAACACCTGTCGGACAATGCAATCGTCATCGCCGCCTCCAGCGGCCAGCTTCACCCGGTTTTTGCGCTGTGGCCGCTGGCGCTGGCCGACGATCTCGAGGCGTGGCTGAAGAACGATGCGAACCGGCGCATCCGCGCCTATCTCGCCCGCCATGTCACCCTCGGCGTGGCCTTCCCGCCGCTGGAAACGGCAAAGGGCAGCCTTGATCCGTTCTTCAACATCAACACGCCGGATGAACTGGCGCTGGCGCGCAGCTATCTGGAGAACCTGCAATCATGA	MTAPFEIPGLVLAGGLSRRMGSNKAMVQLGDAPLISHVISRITPQVSDVTINAAYGWAESFGLPLLPDTLNGHAGPLAGILAGMRHFQHRGDAASHFLTAPADSPFFPDDLVARLCEHLSDNAIVIAASSGQLHPVFALWPLALADDLEAWLKNDANRRIRAYLARHVTLGVAFPPLETAKGSLDPFFNINTPDELALARSYLENLQS				NA	NA	NA	NA	NA
BMS010_08564	516	mobB	COG1763	Molybdopterin-guanine dinucleotide biosynthesis adapter protein	ATGACAGCACAAAAGGTCTTCGGCATCGCCGGCTGGAAGAACTCGGGCAAGACCGGCCTTGCGGTCCGTATCGTCACCGAGCTGACGGCGCGCGGCTACCGCGTCTCCACCATCAAGCACGCCCATCATGATTTCGATATCGACAAGGTCGGCGCGGATAGCTGGCGTCACCGGCAGGCCGGCGCACATGAAGTTACCATCGTTTCCGGCACCCGCTTCGCCATCATGCATGAATTGCGCGGCGAACCGGAACCCTCCTTCGAGGATATTCTCGCCCGCCTCGCCCCCTGCGATCTGGTGCTGATCGAAGGCTACAAATACGAGCCCGTGCCGAAGATCGAAGCACGCCGGCTGGAGGCCGCCAAGACCGAACCGCTTGCGCCGCTCGATCCGCATATCGTCGCCATTGCCGCCGACCATGCGGTGACAGACACGGCGCTGCCGGTTTTCGATCTCGACGATACCGGCGCCATTGCCGATTTCATCGAGAGGACGGTGGGACTGGTGAGGGCATAA	MTAQKVFGIAGWKNSGKTGLAVRIVTELTARGYRVSTIKHAHHDFDIDKVGADSWRHRQAGAHEVTIVSGTRFAIMHELRGEPEPSFEDILARLAPCDLVLIEGYKYEPVPKIEARRLEAAKTEPLAPLDPHIVAIAADHAVTDTALPVFDLDDTGAIADFIERTVGLVRA	PGPT0008430_592	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750	NA	NA
BMS010_08565	1473			hypothetical protein	ATGACCACGGCGTCAATTCCCGCCCGTCAGGGCGGCGGTGCTTACGGGCAGGCCCCGGTTCCGCAGGGCGACATGAATGGCGGTTACGCCTCTGCCGCACCGCAGGGCGGTTATGCCAACCAGAACATGGCGGGCAATTCCTACCCGCAATCGGGTGGTTATGGCGGCGTTCAGCCTTCCACGGCCCGCTCGGCTTCGGCCTCTCCGGTGCAGCGTTCCGAGCTGTCGGCGCCGACGGCGGTGGCAAGCCGCGATCCGTCGACCCGCAACGAAGCCATGGCCCAGCCTTTCCCGTCTGCTCAGCCCAAGGCCGCGCCGTCGCTTGCTGCGCCCGCCCGGCAGGCTGCCGCTCCCGTCACCGACAATCTGACCACCGCAACCGTTCGTTCCGACAAGAACGGCTGGCACACCGATGGCGCTTCCTCCGTGACCCTGCGTCCCGGCGAAAGCATCGCGACCCTCTCCAACCGCTACGGCGTTCCGGAAAAGGAACTGCTGCGCGTCAACGGTCTGAAGACCGCTTCCGCCGCGCAGGCCGGCCAGTCGATCCTCATTCCGAAGTTCGGTCAGGTCCGCAATGCCGCCAAGGACGCGGCCGGCGATATCGCTCTCAACCGCAATGGCGACCAGCCGACACCGCTGCGTAGCCCCGAAGGGAATGTGGCCGTACTGCCGTCGCAGGCCGCCGCCCGTGACAAGGTTTCCTCCGAAACCGGCAAGCTGACGCCTCCCGGCGGCAAGCCGCTGCCGCCCACCGGCGGCTACAAGGTTCAGCCGGGCGATAGCCTGGCGAAGATTGCCCGCGAAAACGGCGTGTCGGTCTCTGCCCTCAAGGCGGCAAACGGTCTCAGCAACGAAAGCATCCGCGTCGGCCAGACGCTCAACATGCCTGGCGCTTCGACGGATGCCATCAAGACGGCTTCCGTTCCCGCCAAGGAAGCGGCCAAGCCGGTCGAAACCGCATCCGCCAAGCCTGAGCCCTACAAGGCACCGGCTGCTGCCGCGGCTCCGACTGCACCTGCCACACCGGCCACCGCCAGTGTCAGCGACATCGAGAAAAAGGCCGACATGGCCTCCGTCGCACCTGAATCCACGGGCATCGGCAAATATCGCTGGCCGGTTCGCGGCGCGGTCATCAACAATTTCGGCGATAATGTCGAAGGCAGCCGCAACGATGGCATCAACATCTCCGTTCCGGAAGGCACGCCGATCAAGGCCGCTGAAAACGGCGTGGTCATCTATGCGGGCAACGGCCTGAAGCAGCTCGGCAACACGGTTCTCGTCCGCCATGACGACGGCAAGGTCACCGTTTACGGCAACGCCGCCAATCTCGACGTGCAGCGCGGACAGAAGGTCCAGCGCGGCCAGACCATCGCCACATCGGGCATGACCGGCAGCGCCAAGCGTCCGCAGGTTCACTTCGAAGTTCGCAAGGATGCGACGCCGGTGAACCCCTCCAGTTTCCTTGAATAG	MTTASIPARQGGGAYGQAPVPQGDMNGGYASAAPQGGYANQNMAGNSYPQSGGYGGVQPSTARSASASPVQRSELSAPTAVASRDPSTRNEAMAQPFPSAQPKAAPSLAAPARQAAAPVTDNLTTATVRSDKNGWHTDGASSVTLRPGESIATLSNRYGVPEKELLRVNGLKTASAAQAGQSILIPKFGQVRNAAKDAAGDIALNRNGDQPTPLRSPEGNVAVLPSQAAARDKVSSETGKLTPPGGKPLPPTGGYKVQPGDSLAKIARENGVSVSALKAANGLSNESIRVGQTLNMPGASTDAIKTASVPAKEAAKPVETASAKPEPYKAPAAAAAPTAPATPATASVSDIEKKADMASVAPESTGIGKYRWPVRGAVINNFGDNVEGSRNDGINISVPEGTPIKAAENGVVIYAGNGLKQLGNTVLVRHDDGKVTVYGNAANLDVQRGQKVQRGQTIATSGMTGSAKRPQVHFEVRKDATPVNPSSFLE				NA	NA	NA	NA	NA
BMS010_08566	654	pcm_2	COG2518	Protein-L-isoaspartate O-methyltransferase	TTGAAATCCGCAATGGTCGAAAAGGAAGGTTTTGCCGCTCTCGTTCTCCGCTTAAGGGGCGAGGGGATTTCCGATCTTGACCTTCTGACGGCGGTCGAGCAGACGCCACGCTCCAAATTCGTGCCGCCGCAATTTGCGGCGGACGCCTATTCCAGCCGCACGATCCCGATCGACTGCGGCGCCTTCATGGAAGGCGCCGACATGGCGGTGAAGATCCTTGCCCGGCTGCAACTGAAACCCGGCCAGCGTGTGCTGGAAATCGGCACGGGCAGCGGTTTCATGACCGCGATCATCGCGCGCCGGGTGGAGCGCGTCTTTTCGCTGGAGCGTTACAAGACGCTGGTGCAGCAGGCGCAGAACTGTCTCGACGATCTCTCCATCCGCAATGTCGTCATTCGTCAGGCGGATGGCAGCAACGGTCTGGTGGGCGAGGGTACCTTCGACCGAATCGTTTCCACCGCCGCCTTCACCACCATGCCACGCTTCTTTGCCGAGCAGATCGTTTCGGGCGGCATGATGATCGCGCCGATCATTCTCGAAGACGAGCGTTGCGTGATGACGCGCTTCTCCAAGACCGGCAGCCGCTTCGAGAAGGAAGAGCTGTTCGAAGCGCCTTACCTGCCGCTCAGCACTCATATTGCGCGTCACTTGTGA	MKSAMVEKEGFAALVLRLRGEGISDLDLLTAVEQTPRSKFVPPQFAADAYSSRTIPIDCGAFMEGADMAVKILARLQLKPGQRVLEIGTGSGFMTAIIARRVERVFSLERYKTLVQQAQNCLDDLSIRNVVIRQADGSNGLVGEGTFDRIVSTAAFTTMPRFFAEQIVSGGMMIAPIILEDERCVMTRFSKTGSRFEKEELFEAPYLPLSTHIARHL				NA	NA	NA	NA	NA
BMS010_08567	771	surE_2	COG0496	5'-nucleotidase SurE	ATGCGGATTTTGCTGACCAATGACGACGGTATCCACGCCGAAGGTCTGGCCGTGCTGGAGCGTATCGCCCGCACGCTGTCCGACGATGTCTGGATCGTCGCACCGGAGACCGACCAGAGCGGTCTCGCGCACTCGCTGACCCTGTCCGAACCGCTGCGTCTGCGAAAAGTTTCCGACAAGCATTTCGCGCTGCGCGGCACGCCGACCGATTGCGTCATCATGGGCATTCGCGAAGTGCTGCCGGAAAAGCCGGATCTCGTGCTCTCCGGCGTCAATGCCGGCGCCAACATGGCCGATGACGTGACCTATTCCGGCACCATTGCCGGCGCCATCGAAGGCACGCTGCAGGGCGTGCGCTCCTTTGCGCTCAGCCAGGCGTTTAGCCATGCCGATGGTCGCGTCGTGCCCTGGGAAGTCGCCGAAACCTTTGCGCCGGATCTTTTGCGCAAGCTGATGAATGTGGAACTGCCCGATGGCACGTTCCTCAATCTGAATTTCCCCAATTGCGCGCCCAAGGATGTGCAGGGCGTTTCCGTGACCGGACAGGGCAAGCTCGATTTCGGCCTGACGGTGGAAGAGCGTCAGGATGGCCGTGGTTTTCCCTATTACTGGCTGCGCTTCGGCGAGCGTCTCGGCACCTTCCGCGAAGGCACCGATATCCACGCTTTGAAACATGGCAAGATTTCCGTCACACCGCTTAAGCTTGACCTGACGGACTACACGGTGAAGGATCGGGTTGCGCAAGCACTTGGATTCGGAGTCGCCGATTGA	MRILLTNDDGIHAEGLAVLERIARTLSDDVWIVAPETDQSGLAHSLTLSEPLRLRKVSDKHFALRGTPTDCVIMGIREVLPEKPDLVLSGVNAGANMADDVTYSGTIAGAIEGTLQGVRSFALSQAFSHADGRVVPWEVAETFAPDLLRKLMNVELPDGTFLNLNFPNCAPKDVQGVSVTGQGKLDFGLTVEERQDGRGFPYYWLRFGERLGTFREGTDIHALKHGKISVTPLKLDLTDYTVKDRVAQALGFGVAD	PGPT0013405_2115	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013405-surE-K03787	NA	NA
BMS010_08568	1284	serS_2	COG0172	Serine--tRNA ligase	ATGCACGACATTAAATGGATACGCGAAAACCCCGAAGCTTTCGATGCGGCGCTTGCGCGCCGAGGTGCTGAGCCCGCCGCCAGCGGCCTGATCGCGCTGGATGAAAAGCGCCGTTCCGTCATCCAGTCCCTGCAGGACATGCAGTCGCGCCGCAATGCCGCCTCCAAGGAAATCGGCGCCGCCATGGCGCAGAAGAACATGGAGCTTGCAGAAAAGCTTAAAGCCGAAGTCGCCGATCTCAAGGACAACATGCCGCGCGCGGAGGAGGAGGACCGTCAGGTCACCGCCGAGCTCAACGATGCCCTGTCGCGCCTGCCCAACATGCCCTTCGACGACGTGCCCGACGGCAATGACGAGCATGACAATGTGGTGACCCGCGTGGTCGGCCAGAAGCCCGGCTGGAACCACGAGGCCAGGGAACACTTCGATATCGGCGAAGCGCTCGGCTATATGGATTTCGAGCGCGCCGCCAAGCTTTCCGGTGCACGTTTTACCGTGCTGACCAGCCAGCTCGCGCGTCTGGAACGGGCGCTCGGCCAGTTCATGATCGACCTGCACACCGGCGAACACGGTTATACCGAAGTGTCCTCGCCGCTGATGGTGCGCGACGAGGCGATGTTCGGCACCGGCCAATTGCCGAAGTTTACCGAGGACCTGTTCAGGACCACGGATGGCCGCTGGCTGATCCCGACGGCGGAAGTGACGCTGACCAATCTCGTCTCCGGCGAAATTCTCGACCAGGAGAAGCTGCCGCTGCGCTTCACCGCGCTGACGCCGTCCTTCCGTTCGGAAGCGGGCTCGGCCGGCCGCGACACGCGCGGCATGCTGCGCCAGCACCAGTTCTGGAAGTGCGAACTCGTCTCCATTACCGATGCGGAAAGCGCCGTTGCCGAACATGAGCGCATGACGGCCTGCGCCGAGGAAGTGCTGAAGCGTCTTGGCCTGCATTTCCGCACCATGACGCTCTGCACCGGCGACATGGGCTTCAGCGCCCGCAAGACCTACGATCTGGAAGTGTGGCTGCCCGGCCAGAACACCTATCGCGAAATTTCGTCCTGCTCGGTCTGCGGCGATTTCCAGGCGCGGCGCATGAATGCGCGTTATCGCGGCAAGGACGACAAGGCGACGAAGTTCGTGCACACGCTGAACGGCTCCGGCACGGCTGTCGGCCGCTGCCTGATCGCGGTTCTCGAGAATTATCTGAACGAGGACGGTTCCGTCACAATTCCAGACGTGCTGCTGCCCTATATGGGCGGTCTGAAGCGCATCGAGAAGGCGGCCTGA	MHDIKWIRENPEAFDAALARRGAEPAASGLIALDEKRRSVIQSLQDMQSRRNAASKEIGAAMAQKNMELAEKLKAEVADLKDNMPRAEEEDRQVTAELNDALSRLPNMPFDDVPDGNDEHDNVVTRVVGQKPGWNHEAREHFDIGEALGYMDFERAAKLSGARFTVLTSQLARLERALGQFMIDLHTGEHGYTEVSSPLMVRDEAMFGTGQLPKFTEDLFRTTDGRWLIPTAEVTLTNLVSGEILDQEKLPLRFTALTPSFRSEAGSAGRDTRGMLRQHQFWKCELVSITDAESAVAEHERMTACAEEVLKRLGLHFRTMTLCTGDMGFSARKTYDLEVWLPGQNTYREISSCSVCGDFQARRMNARYRGKDDKATKFVHTLNGSGTAVGRCLIAVLENYLNEDGSVTIPDVLLPYMGGLKRIEKAA				NA	NA	NA	NA	NA
BMS010_08569	804	tatC_2	COG0805	Sec-independent protein translocase protein TatC	ATGAGCGGGGATATCGAGGACAAGCCGCAGCCGCTTATCGAGCATCTCATGGAGTTGCGCACGCGGCTGATCTGGGCGCTCGGCGCGTTCTTCGTCGCCTTCATCGCCTGTTTCGCCGTCGCCAAGCACCTGTTCAACCTGCTCGTCATTCCTTACAAATGGGCGGTTCTCTGGGCGGGTCTCGATGTCACGAAATCGTCGCTGATCTATACCGCGCCGCAGGAATTCTTCTTCACGCAGATCAAGGTCGCCATGTTCGGCGCGATGGTGATCTCGTTTCCGGTGGTCGCCTCGCAGCTCTATAAATTCGTGGCACCCGGCCTCTACAAGAACGAACGGGCGGCTTTCCTGCCGTTCCTCATCGCGTCGCCGATCCTTTTCCTCATCGGTGCGGCGCTCGTTTATTTCTTCTTCACGCCCATGGTCATGTGGTTCTTCCTCGCCATGCAGCAACTGCCCGAGGACGGCGAGGTGGCGATTTCGCTGATGCCGAAGGTGTCGGAATATCTGAGCCTCATCATGACGCTGGTTCTCTCCTTCGGTCTGGTGTTCCAGCTGCCTGTCGTGACCACGCTTCTGGCGCGCGTTGGGCTTTTGACCAGCGACTGGCTGCGGGAAAAGCGCAAGTTCGCGATCGTCCTCGCCTTCGTGGTCGCCGCCGTGCTGACGCCGCCGGATCCCATGTCCCAGATCGGTCTTGCGCTGCCTGCGATCATTCTCTACGAGATTTCCATCTACATGGCTCGACTCGTGGAGAGGAAACGTGCGGCAGAATCCGCAAGCACGGAGCTGGAGGAGACCTGA	MSGDIEDKPQPLIEHLMELRTRLIWALGAFFVAFIACFAVAKHLFNLLVIPYKWAVLWAGLDVTKSSLIYTAPQEFFFTQIKVAMFGAMVISFPVVASQLYKFVAPGLYKNERAAFLPFLIASPILFLIGAALVYFFFTPMVMWFFLAMQQLPEDGEVAISLMPKVSEYLSLIMTLVLSFGLVFQLPVVTTLLARVGLLTSDWLREKRKFAIVLAFVVAAVLTPPDPMSQIGLALPAIILYEISIYMARLVERKRAAESASTELEET	PGPT0029295_1938	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TAT-TWIN-ARGININE_TRANSLOCATION_PATHWAY	CE-TAT-TWIN-ARGININE_TRANSLOCATION_PROTEINS,PGPT0029295-tatC-K03118	NA	NA
BMS010_08570	732	tatB_2		Sec-independent protein translocase protein TatB	ATGTTAGATATCGGCTGGAGCGAGCTTCTGGTGATTGCGGTCGTGTTGATCGTGGTCGTCGGGCCGAAGGACTTGCCGCCCATGATCCGCGCTTTCGGCAAGACGATGGCCGGCCTTCGCAAGATGGCGGGGGATTTCCGCACCCAGTTCGATGAAGCCCTCAAAGAGGCCGACATGGACGATGTGCGCCAGACAATCTCCGATGTCCGCAATCTCAACCCCACCAACTCGCTGCGCGATGCGATGAACCCGCTTCGCCAGCTTGGCAATGAGATAAAGTCCGATCTGCAGAAGGCGACCACCCCGCCGGACGGCCTGTCTTCCACCCCAGCGCCCGTCACAAGCGAGCCGGTTGCGCCGCTGGTGAGCATGCCCGAGCCGGAGATGAAGCTGCCGGATGTGCCGCCTGCTGTTGCCGCAGCCGTCGCTGCGGAGGAGAAGCCGAAGCGCGCGCGGGCGAAATCGATTGCGACCGTGGAGGCCGAAGCGGTTGCCGCCAAGCCCAAACGCGCCGCCCGCAGCAAGGCCGCGGCGGCAACGCCCGAAACCGCCCCGGTCGTTAAAACTGCCGCGAAAACCGGTGAGCCCGCCGTTTCCAATCCCACCGTGAAGGCCGTCGCCAAAAAGGCTGCCGTCAGGAAGTCGGCCGTAGACAAGGCGGTCGTGGCCGAGACCAAGCCGGCGAAAACGGCAAAAACCAAGGCCGCAAAGCCCAAAAAGGATGAAGCATGA	MLDIGWSELLVIAVVLIVVVGPKDLPPMIRAFGKTMAGLRKMAGDFRTQFDEALKEADMDDVRQTISDVRNLNPTNSLRDAMNPLRQLGNEIKSDLQKATTPPDGLSSTPAPVTSEPVAPLVSMPEPEMKLPDVPPAVAAAVAAEEKPKRARAKSIATVEAEAVAAKPKRAARSKAAAATPETAPVVKTAAKTGEPAVSNPTVKAVAKKAAVRKSAVDKAVVAETKPAKTAKTKAAKPKKDEA	PGPT0014360_66	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TAT-TWIN-ARGININE_TRANSLOCATION_PATHWAY	CE-TAT-TWIN-ARGININE_TRANSLOCATION_PROTEINS,PGPT0014360-tatB-K03117	NA	NA
BMS010_08571	207	tatA_2	COG1826	Sec-independent protein translocase protein TatA	ATGGGTTCTTTTAGTGTGTGGCATTGGCTCATCGTGCTGGTGATCGTTCTCGTCCTCTTCGGACGCGGCAAGATCCCGGAATTGATGGGCGATGTCGCAAAGGGCATCAAGAGCTTCAAGAAGGGCATGGCTGACGAAGACCAGACGCCGCCGCCGGCCGATGCCAACACGAAGACCGTCGACCACAAGGCTGACGAGATCAAGTAA	MGSFSVWHWLIVLVIVLVLFGRGKIPELMGDVAKGIKSFKKGMADEDQTPPPADANTKTVDHKADEIK	PGPT0029290_4024	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TAT-TWIN-ARGININE_TRANSLOCATION_PATHWAY	CE-TAT-TWIN-ARGININE_TRANSLOCATION_PROTEINS,PGPT0029290-tatA-K03116	NA	NA
BMS010_08572	735	scpB_2		Segregation and condensation protein B	ATGATGAATGACGATGAGACCGCCGAGGCCACCATCGCGGCCGACGGGGCCGAGCCCGAACGCACGGTATTTTCCGAGCGCCAGTTGAAGGAAGCCGAGCGGATCGCCGAGGCCCTGGTCTTTGCCTCGTCCGAGCCGGTTTCCGTGGCCTTCATCGCCGAGCGCCTGCCGCGCGGCATGGATGTCGTCGCCATTCTCCAGCATCTCAAGGTTCTTTATGCGGAGCGGGGCGTCAATCTCGTGCAGGTGGGCGGGCAATGGGCCTTCCGCACCGCCGGCGATCTCTCCTTCGTCATCCGCGCCGAGGAAAAGGAGCCGAAGAAGCTGTCGCGCGCGGCGCTGGAAGTTCTGGCGATTATCGCATATCATCAACCGGTGACACGCGCCGAAATCGAGGAAATCCGCGGCGTTCAGACCTCGCGCGGCACGCTTGACGTGCTGATGGAGGCGGGCTGGGTCAGGTTCCGTGGCCGCAGGCGTACCCCCGGCAGGCCGGTGACGATCGGCACCACGGTTGAGTTTCTCGACCATTTCGGCCTTGAAGAATTGCGCGATCTGCCGGGCCTCGAGGAGCTGAAGGGGGCAGGGCTGCTTTCGGGCCGTATTCCCTCCAATTTCGGCGTTCCTCTGCCGATGATGAGCGACGAATTGCGTGAGGACGAAGACCCGATCACGCAGCTCGATCTCGAGGAACTGGGCCTGCTTGCGCCGGGCGGCGGTGATGGCGACGACTGA	MMNDDETAEATIAADGAEPERTVFSERQLKEAERIAEALVFASSEPVSVAFIAERLPRGMDVVAILQHLKVLYAERGVNLVQVGGQWAFRTAGDLSFVIRAEEKEPKKLSRAALEVLAIIAYHQPVTRAEIEEIRGVQTSRGTLDVLMEAGWVRFRGRRRTPGRPVTIGTTVEFLDHFGLEELRDLPGLEELKGAGLLSGRIPSNFGVPLPMMSDELREDEDPITQLDLEELGLLAPGGGDGDD				NA	NA	NA	NA	NA
BMS010_08573	849	scpA_2	COG1354	Segregation and condensation protein A	ATGGCCGCAGACAAGTCTCGCAATTCAACACCGATGGACAAGCTCTGGCAGGATGTAACGCCGGAGCGGCTGACGGGCGAGGCCGGGCTGGTCATCGATGTCGCGGGTTTCGAAGGCCCGCTCGATCTTCTGCTGCATCTTGCCCGCACGCAGAAGGTCGATCTGTCGCGCATTTCGGTGCTGGCGCTCGCCGAACAATATCTGCAATTCGTGGAAAGCGCGCGCCGCGTGCGCATCGAGCTTGCGGCCGATTATCTCGTCATGGCGGCGTGGCTCGCCTTTCTCAAATCCAAGCTGCTCATTCCGCAGCAATCGAAGGATGACGGTCCCTCGGGCGAGGAAATGGCCGCCACGCTGGCCTTTCGTCTGAAACGCCTGGAAGCGATGCGCGAGGCGGCGGAACGCCTTGTCAACCGCGCCCAACTCGGCCGCGATGTTTTTGCCCGTGGCGCGCCGGAGCATATTCCCCATATCAACCGCTCGGCCTATGAGGCCAATCTCTACGATCTCCTGAGCGCCTATGCCAACCTGCGGCAGCGGCAGGCGATTACCCAGGTCACTATTGAAAAACGGCAGGTCTGGTCGCTTGTCGAGGCGCGTGAGCTTCTGACCCATCTCCTCGGCGATGTTGGGGAATGGACCGTGCTCGATCAGTATCTGCTGCAATATGTGCCCGATCCCGCCATGCGGGTGACGGCGATTGCCAGCGCCTTTGCCGCTTCGCTGGAGTTGGTGCGCGAGGGCTCGCTGCAAATCCGGCAGGAGGGCGCTTTCCAGCCCATTTATATGCGTAAGGGTGGACGAGACGACCGTGCGGTGAATGCCGAAAGGACTGACAATGATGAATGA	MAADKSRNSTPMDKLWQDVTPERLTGEAGLVIDVAGFEGPLDLLLHLARTQKVDLSRISVLALAEQYLQFVESARRVRIELAADYLVMAAWLAFLKSKLLIPQQSKDDGPSGEEMAATLAFRLKRLEAMREAAERLVNRAQLGRDVFARGAPEHIPHINRSAYEANLYDLLSAYANLRQRQAITQVTIEKRQVWSLVEARELLTHLLGDVGEWTVLDQYLLQYVPDPAMRVTAIASAFAASLELVREGSLQIRQEGAFQPIYMRKGGRDDRAVNAERTDNDE				NA	NA	NA	NA	NA
BMS010_08574	1017	nagZ_2	COG1472	Beta-hexosaminidase	ATGACCGATTGCAAAGCTATGATCCTCGGATGCAGCGGGCTTTCGCTGACTGCCGACGAGATTGCCCTTTACCGCGATGAGCAGCCCTGGGGCTTCATCCTGTTCGGGCGCAACATTGGCGAGCCGCAGCAGATCACCGATCTCGTCGCCGCCATGCGCGATGCTGTCGGGCGGCCAGATGCGCCGGTTCTGATCGATCAGGAGGGCGGGCGCGTGCAGCGTATCAAGCCGCCGATCCTGCAGGCCTATCCGAATGCCCGCATTCTCGGTGAAATCTATGAGCGCGACAGGGGGGCGGGTCTGCGCGCCGCCTGGCTGATGTCGCGACTGCATGCTTTCGACCTCATGAAATTCGGCATCAATGTCGATTGCCTGCCGGTGCTCGATGTGCCGGTGGAAGGCGCCAGCAATGTCATCGGTAATCGCGCCTATGGCTACACGCCGACAATGGTGGCCGAGATGGGGCAGGCGGCGGCCGACGGGCTGAAGGCGGGCGGCATGCTGCCTGTCATGAAACATATGCCGGGCCATGGCCGCGGCATGGTGGATTCGCACCATGAACTGCCGGTCGTCGATGTGCCGCTGGATGAGCTGGACGCCCACGATTTCGTGCCGTTCCGGGCGCTGAACCGCGAATTGATGGCGATGAGCGCGCATCTGGTATTCAACGCCGTCGACCGCGAACGGCCGGCGACGACCTCGCCGAAGGTGATAGAGGAAATCATTCGCGGCCGCATCGGCTTTGACGGCCTGCTGATGTCCGACGACAGTTCCATGAATGCGCTGAAGGGCACGCTCGGTGAAAGAGCTGCGAATATTGTTGCGGGCGGCTGCGATATAGTCTTGCATTGCAACGGTGTGATGGGTGAAATGCTTCAGGTCGTGAAGGAGGTTCCCGTTCTTTCCGGCCGTTCGCTGGAACGTGTGCAGGCCGTGGAAGCGGGTTTCCCCGTTGCGGACCCGTCCGACGAAGCGGAGCTGAGAGCCGAATTCAACGCCATGTGGGCCGTTTCCTGA	MTDCKAMILGCSGLSLTADEIALYRDEQPWGFILFGRNIGEPQQITDLVAAMRDAVGRPDAPVLIDQEGGRVQRIKPPILQAYPNARILGEIYERDRGAGLRAAWLMSRLHAFDLMKFGINVDCLPVLDVPVEGASNVIGNRAYGYTPTMVAEMGQAAADGLKAGGMLPVMKHMPGHGRGMVDSHHELPVVDVPLDELDAHDFVPFRALNRELMAMSAHLVFNAVDRERPATTSPKVIEEIIRGRIGFDGLLMSDDSSMNALKGTLGERAANIVAGGCDIVLHCNGVMGEMLQVVKEVPVLSGRSLERVQAVEAGFPVADPSDEAELRAEFNAMWAVS	PGPT0012175_4144	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSAMINIDASE,PGPT0012175-nagZ-K01207	NA	NA
BMS010_08575	3024			hypothetical protein	ATGGTCGAAAAAAATGTCGCGTATAACCGGGACGCCCGGTCCGAAGGGTTCGCTGACAACGATCCTCTGGCAGAACTGGCGCGTATCGTCGGCTTCGAAGATCGTCCTTCGCATGCGGGTTCCGAGGCTGCGCCATCGGTGACCCGCCGCGAACCCGAATTCAATCTCGAAGATGAGCTTCTGAGGGAATTCGAGGTTTACGACGCACCGCACGCCGATCCGGTCGTTCTTGATCCGGCAAACGATGTCCGTGCGGGCATCCACCCCAAAGATTTCATGCAGCGTGTCGAATCGGTTTTCGCCCGCCGCGAGCCCGAGCTTGCGCCGGCGGATGAACCTGCGCCCGCGGCCGCATCCACACCGGAGGTGAGGGAAGAGCCGCTTCCGGAAGTCGATCAGGCCTATATTCACAACTACGTCGAAACGACCACGCAGGACATTCGCGCGGATTTCCGCGACGATGCCTCCGCGGTGGCGGAAGTTTTCGATGTGCATTCGCGCCAGTCGCGTCCCGCCGAGCCGATGGTTTACCAGCCCGTCGCCCAGCAGGTGGCATGGGAAGAACCGCAGGCCGCAGAACCGGTAGAGCCGGAATGGCACACGATGCCGGAGCTTCCGGCCGATGTTTCGAGCAACATTCACGCCGATGTTCATTCCTATGCGCCGGAGCCGCAGGCTTTCGATCTCGCCGATGAGGTGGAAATAGCTGTCGCCGAGGAGGCGCCCGCACCGGTTTCCGTGCGTCCGCCATCGCACGGCGGCCGTTCTTCGCTGGAATTTTCCAGCCTGCGGCTGCCGCTCGCCAACTTCGGCGCGCGCCGGGATGTTTCGGCCGCCGATCCGAAGCGGGTCGAGCCGCGTTCCGAGCAGCAGCCTGCCGCAGCCCGTATCGAGCCGCAGGTCGAAGCCGCGCCTGCCGTTGTGCAGGCGGAAGAGACCGCGCCGTCCTTTATGCCTCCGGTCGCCGAGACCTTTGCGCCTGCCGCAGAGCCTCGGGCGTTCGAGGCCGCCGGGAAGCCGGCAGCAAAACATCTCTCGCCGATGGACGAGCTGATTTACGACGTCGCGAAATATTCCATTCCCGGTCGCGGCGAAACACCGCTGGTGCAGGACGTTCCCGCTGCGCAGGCCGCGAAGGTGGAGCCGCCCGTGGTTGCCGCCGCGCCGGTGAAGGCAGCGCAGATTGTCGCTGCCGCGCCCGTAGCACCCGCTGAAGAACTTGATTTCACGGATTTCGCCGGCTTCAACGATGATGATTTCGAGCTTGCGCTCGACGATCTCGATCTTGATCTGGACCTGTCTGAAATCGCCGAGGCGGAAGTTGCGCCTGCGCCCGCACCGCAGCCCGTTCGTCAGCCGCCGGCCGCTCCGGTTGCCGCTGCTGCCGTTGCGCCGCAGCCGGTGAGGGAACATCCGGCACCTCAGTCGCGCCCGGCTCCCGTTGCCGTTGTCGCACCCGTGGCCGCTGCTGCGGTTCAGCCGCGTCCGGCCGCCGCAGCGCCGCAGCCGGCCGCGCCGCAGACGCTGGAAAGCCTGCCTTTCGATCCTTCGCAGATCGGCGAGACGGAAGAACATCCGGAAAACATCATCGAGATGGACGTGCCGGAACTGCCGGTCGGGGTTTTCGAACCCAAACCGACCGCGCGCCGCCACGAGGAAGATCTCGATATCGATACCGAGCTTGCCACGCTGTTTGCGCCTGCGGTTGCCGGCGGTCTCGACCGTCATAAGCACGCGGAAAACCGTGGCGCCGCCCAGGTGCGTCCCGCGCAGGCTCCGGAAGAGGCCGATGAATTCGAACGGGCGCTGGAAGAGGATTTCCGCCGCTCCATGCAGGAGGCTGCGGCTTCCCGTGGCAGCGCCCAGCGCGATGCCGAAAACACCTATGTCGACCATCAGGCGGCCTATCGTGAGGAAGATGAACGCGGCGGTCGCCGCTGGATCATGCCGGTTGCCGCTGCAATCGGTCTGGTGCTGATCGGTGGCGGCGTTTACGCGCTGGTCTCCGGCGGTTCGTCCAGCACCGGTTCCAATGGCGCACCGGTCATCATCTCCGCCGACAATGATCCGATGAAGGTCGTGCCGGAAAATCCGGGCGGTCGCGTTGTGCCGAACCAGGACAAGGCGGTTTATGACCGCGTGGCCGGCGGCAGCGCTGCCGATCCGAAGCAGCCGGCGCTGATTTCCAGCAACGAGCAGCCGGTGGATGTGGTTCAGCGCACGCTGATCCCCGAACAGTTGCCGCTGGAAGGCGAAAACGACGCGGATATGGAAGCCGCCAGCACGCCGGTTGGTGAAACGGAAGATCCGCGCCTGCTTTCGCCGGAAGAAAAGGCCGCGCAGAGCGAAGGTTCGGCTGCAACCGGCGTTTCGCCGCGCAAGGTCCGCACCATGATCGTCAAGCCTGACGGCACGCTGGTTGCCCAGGAAGTCGAGGTACCGGCAGCCCAGCCGCCGAAGGCCGACAAGGTCGAGGAGCTTGCAGCACCGCAGACCGCAAAGCCGGGTGAGGGCGCTCCCGCCGTCATCGCCGCATCGCGGGTTCCGGTTGCGCCGGAACAGGCTCAGGCCCAGGCAAATACGCCTGCCGCCGCCGCCAAGCCGGCAGCGCAGTCGGCAGCACCGCTTCCTGCGGCGCGTCCGTCCTCGCAGCCCGCCAATGTGGTGGCAACGGTGACCAACCAGGGCAATGTCCGCCCTGCGACCGCTCCTGCGCAGCAGCAGGCCGCGCAGCAGCAGACGGCAGCCGCAACGCCTGCGGCCACCAGCACGCCTTCCGCCGGTGGTTACTACATCCAGATCGCCTCGCTGCCGAGCCAGGCGGAAGCCCAGAAGTCCTACCAGAACATGTCGGCCAAGTTCGGCTCGGTCATCGGTGGACGCGGCGTCGACATCAAGGCCGCCGAAATCGCCGGCAAGGGCACGTTCTACCGCGTCCGCATCCCGGCGGGCGACAAGAACGAAGCCGTGGCGCTGTGCGAAAAGTTCCGCTCGGCCGGCGGTAGCTGCCTCGTGGCGCGGTGA	MVEKNVAYNRDARSEGFADNDPLAELARIVGFEDRPSHAGSEAAPSVTRREPEFNLEDELLREFEVYDAPHADPVVLDPANDVRAGIHPKDFMQRVESVFARREPELAPADEPAPAAASTPEVREEPLPEVDQAYIHNYVETTTQDIRADFRDDASAVAEVFDVHSRQSRPAEPMVYQPVAQQVAWEEPQAAEPVEPEWHTMPELPADVSSNIHADVHSYAPEPQAFDLADEVEIAVAEEAPAPVSVRPPSHGGRSSLEFSSLRLPLANFGARRDVSAADPKRVEPRSEQQPAAARIEPQVEAAPAVVQAEETAPSFMPPVAETFAPAAEPRAFEAAGKPAAKHLSPMDELIYDVAKYSIPGRGETPLVQDVPAAQAAKVEPPVVAAAPVKAAQIVAAAPVAPAEELDFTDFAGFNDDDFELALDDLDLDLDLSEIAEAEVAPAPAPQPVRQPPAAPVAAAAVAPQPVREHPAPQSRPAPVAVVAPVAAAAVQPRPAAAAPQPAAPQTLESLPFDPSQIGETEEHPENIIEMDVPELPVGVFEPKPTARRHEEDLDIDTELATLFAPAVAGGLDRHKHAENRGAAQVRPAQAPEEADEFERALEEDFRRSMQEAAASRGSAQRDAENTYVDHQAAYREEDERGGRRWIMPVAAAIGLVLIGGGVYALVSGGSSSTGSNGAPVIISADNDPMKVVPENPGGRVVPNQDKAVYDRVAGGSAADPKQPALISSNEQPVDVVQRTLIPEQLPLEGENDADMEAASTPVGETEDPRLLSPEEKAAQSEGSAATGVSPRKVRTMIVKPDGTLVAQEVEVPAAQPPKADKVEELAAPQTAKPGEGAPAVIAASRVPVAPEQAQAQANTPAAAAKPAAQSAAPLPAARPSSQPANVVATVTNQGNVRPATAPAQQQAAQQQTAAATPAATSTPSAGGYYIQIASLPSQAEAQKSYQNMSAKFGSVIGGRGVDIKAAEIAGKGTFYRVRIPAGDKNEAVALCEKFRSAGGSCLVAR				NA	NA	NA	NA	NA
BMS010_08576	1758	argS_2		Arginine--tRNA ligase	ATGAACATTTTTGCTGATTTCGATACCAGGATCAAAAACGCGCTCGAGACCCTCGATCTCGTGAAAGAGAACCGCGAAAAGGTCGATTTCAGTCGAATTACCGTCGAATCCCCGCGCGATCTGAGCCACGGCGATGTCGCAACCAATGCCGCCATGGTGCTGGCGAAGCCGCTCGGCACCAATCCGCGCGCGCTGGCCGAACTCATCGTGCCGGCTCTTCAGGCCGATGGCGATGTGGACAGCGTCAATGTCGCGGGTCCCGGCTTCATCAATCTCAAGGTTTCGGTCGGTTACTGGCAGCGTCTTCTCGCCGACATGATCGCGCAGGGCGTCGATTTCGGCCGCTCCACCATCGGTGCGGGCCAGAAAATTAACGTCGAATATGTTTCCGCCAATCCGACAGGCCCGATGCATGTCGGCCATTGCCGTGGCGCCGTCGTCGGCGACACGCTGGCGAACCTGCTCGCTTTTGCCGGTTATGGCGTTACCAAGGAATATTACATCAACGATGCCGGCTCGCAGATCGATGTGCTGGCCCGTTCCGTGTTCCTGCGTTACCGCGAGGCGCTCGGCGAAGATATCGGCACCATTCCGTCCGGCCTTTATCCCGGCGACTATCTCGTTCCCGTTGGCCAGGCGCTGGCGGATGAATATGGCATCAAGCTGCGCGCCATGCCCGAGGAAAAGTGGATGCCGATCGTCAAGGACAAGGCGATCGACGCGATGATGGCGATGATCCGCGAGGATCTGGCGCTGCTCAATGTCCGGCACGACGTGTTCTTCTCGGAGCGCACGCTGCATGAGGGCAATGGCGGCCCGATCCTCTCGGCCATCAACGATCTCACCTTCAAGGGCCATGTCTACAAGGGCACCCTGCCGCCGCCGAAGGGCGAATTGCCGGAAGACTGGGAAGACCGCGAACAGACGCTGTTCCGCTCCACCGAGGTGGGCGACGACATGGACCGTGCGCTGATGAAGTCGGACGGTTCCTACACCTATTTCGCCGCCGACGTTGCTTATTTCAAGAACAAGTTCGACCGTGGTTTTTCCGAGATGATCTATGTGCTCGGCGCCGACCATGGCGGTTACGTGAAGCGGCTGGAAGCGGTTGCGCGCGCCGTCTCCGAAGGCAAGTCGAAACTGACGGTGCTTCTGTGCCAGCTCGTCAAGCTGTTCCGTGACGGCGAGCCAGTGAAGATGTCGAAGCGCTCCGGCGACTTCGTCACGCTGCGCGATGTTGTGGACGAAGTGGGTCGCGATCCGGTGCGATTCATGATGCTTTATCGGAAGAATTCTGAGCCGCTGGACTTCGATTTCGCGAAAGTGACCGAACAATCGAAGGATAATCCGGTTTTTTACGTGCAATATGCGCATGCCCGTTCGATGTCGATCTTCCGGCAGGCGCAGGAAGCGTTTCCGGGGCTTTCTCCTTCGGCCGAGGAGATGGCGGCGTCCGTTGCTTTGATTAGCGATATCAATGAGTTGCAACTTGTTGCGAAGCTTGCGGAATATCCGCGCCTGATCGAATCGGCGGCCCTTTCGCACGAGCCGCACCGGCTTGCTTTTTACCTCTACGATCTCGCCAGTTCCTTCCATGGACACTGGAACAAGGGTAAAGACCAACCGGAATTACGTTTTATTAACGATAAAAACCGAGAATTGAGCATTGCCAGACTTGGGCTGGTGAATGCTGTCGCAAATGTTTTGAGGTCCGGCCTTACGCTTTTAGGAGCGGACGCACCTGCTGAAATGCGATAA	MNIFADFDTRIKNALETLDLVKENREKVDFSRITVESPRDLSHGDVATNAAMVLAKPLGTNPRALAELIVPALQADGDVDSVNVAGPGFINLKVSVGYWQRLLADMIAQGVDFGRSTIGAGQKINVEYVSANPTGPMHVGHCRGAVVGDTLANLLAFAGYGVTKEYYINDAGSQIDVLARSVFLRYREALGEDIGTIPSGLYPGDYLVPVGQALADEYGIKLRAMPEEKWMPIVKDKAIDAMMAMIREDLALLNVRHDVFFSERTLHEGNGGPILSAINDLTFKGHVYKGTLPPPKGELPEDWEDREQTLFRSTEVGDDMDRALMKSDGSYTYFAADVAYFKNKFDRGFSEMIYVLGADHGGYVKRLEAVARAVSEGKSKLTVLLCQLVKLFRDGEPVKMSKRSGDFVTLRDVVDEVGRDPVRFMMLYRKNSEPLDFDFAKVTEQSKDNPVFYVQYAHARSMSIFRQAQEAFPGLSPSAEEMAASVALISDINELQLVAKLAEYPRLIESAALSHEPHRLAFYLYDLASSFHGHWNKGKDQPELRFINDKNRELSIARLGLVNAVANVLRSGLTLLGADAPAEMR				NA	NA	NA	NA	NA
BMS010_08577	1218			Deoxyguanosinetriphosphate triphosphohydrolase-like protein	ATGATCATAGACCAGCGCGCATTGGGTTTCGGAAGCGGCGAGAGGGCGGTTTTCGCCTCGGATCCATGGACCACGCGCGGGCGTCTTTTTCCCGAAACCGGAAGTCTGACGCGCTCGGAATTCCAGCGCGATCGTGACCGCATCGTCCACACGACGGCCTTTCGCCGCCTGAAGCACAAGACGCAGGTGTTCATCAGCCCTGACGGCGACCACTATCGTACGCGTCTCACCCACACCATCGAGGTGGCGCAGATCGCCCGGGCGCTCGCCCGCGCGCTGAAGCTCGACGAGGATCTCGCCGAAGGCGTGGCGCTGGTGCATGATTTCGGCCACACGCCTTTCGGGCATACCGGCGAGGATGCGCTGGATGCGGTGCTGCTGCCCTATGGCGGCTTTGATCATAACGCCCAGTCGCTGCGTATCGTCACCAAGCTGGAGCGCCGTTACGCCGAATATGACGGCATCAACCTGACCTGGGAGACGCTTGAAGGTCTCGTCAAGCACAATGGACCGCTGGTGAATGCGAAGGGTGAGGGGATCAAGGGACCGGTTCCGCTGCCCATTCTCGAATATTGCGAGCTGCAGGATCTGGAAATCGGCAGCTATGCCAGTCTCGAGGCGCAGGTGGCGGCGATTGCCGATGACATCGCCTATAATACCCACGACATCGATGACGGGTTGCGCGCCGGTTATCTCACCTTCGAGATGCTGGAGGAGGTGCCTTTCCTCGGCGGCCTGATGGCCGAGGTGCGGGCGAAATATCCGGTCCTCGACAAGGAGCGTTTCGCCAATGAGATCATGCGTCGGCAGATCACCCATATGGTGGAAGACGTGATTGGCGTTGCGCAGCAGAATCTCGCCCGTCTGAAGCCGAAGAGTGCGGCGGATATCCGCGCTGCCGATTTCACCGTTGCGACCTTCTCGCCGGAAATGGCCGAGACCGACCGGCAGATCAAGAAACTGCTGTTCGGCCATATCTACCGGCATCCGGAAATCATGCGCATCCGCGCCGGCGCCACACAGATCGTCACCGATCTTTTCCACCGTTATATGGAAACGCCGGCGGAAATGCAGAGCCACTACTGGGTGGACAGCATTTCCGGCATGAGCGTGGCCGCAAAAGCCCGGCATGTGGGCGACTATCTGGCCGGCATGACCGACAGTTATGCACTGCGCGCCCACCAGCGGCTGTTTGACCACACCCCCGATTTGCGATAG	MIIDQRALGFGSGERAVFASDPWTTRGRLFPETGSLTRSEFQRDRDRIVHTTAFRRLKHKTQVFISPDGDHYRTRLTHTIEVAQIARALARALKLDEDLAEGVALVHDFGHTPFGHTGEDALDAVLLPYGGFDHNAQSLRIVTKLERRYAEYDGINLTWETLEGLVKHNGPLVNAKGEGIKGPVPLPILEYCELQDLEIGSYASLEAQVAAIADDIAYNTHDIDDGLRAGYLTFEMLEEVPFLGGLMAEVRAKYPVLDKERFANEIMRRQITHMVEDVIGVAQQNLARLKPKSAADIRAADFTVATFSPEMAETDRQIKKLLFGHIYRHPEIMRIRAGATQIVTDLFHRYMETPAEMQSHYWVDSISGMSVAAKARHVGDYLAGMTDSYALRAHQRLFDHTPDLR	PGPT0021495_2572	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021495-dgt-K01129	NA	NA
BMS010_08578	333	erpA_1	COG0316	Iron-sulfur cluster insertion protein ErpA	ATGGAAAACAGCGACATTACCCTTTCTGAAGCTGCGGCAAAGCGAATCGCTCAGATCGTCGCCGCCGAAACCGGCAAACAGGCGCTGCGCGTCTCGGTGGAAGGCGGCGGCTGCTCGGGCTTCTCCTACAAGTTCGATCTGGCCGAAGACAAAGCCGATGACGACATCGTGATCGCCCGCGGCGACGCGAAAGTGCTGATCGACAGCCTCTCGGTCGTCTATATGGCCGGCTCCGAAATCGACTTCGTCGACAATCTGCTCGGCCAGTCCTTCCAGATCAAGAACCCGAATGCTGTGGCAAGCTGCGGCTGTGGCACCAGCTTCTCGATCTGA	MENSDITLSEAAAKRIAQIVAAETGKQALRVSVEGGGCSGFSYKFDLAEDKADDDIVIARGDAKVLIDSLSVVYMAGSEIDFVDNLLGQSFQIKNPNAVASCGCGTSFSI				NA	NA	NA	NA	NA
BMS010_08579	798	xthA_5	COG0708	Exodeoxyribonuclease III	ATGAAGATTGCCACCTGGAACATCAACGGCGTCAAGGCGCGTATCGAAAACCTCTGCCAGTGGCTGAAGGATTCGTCGCCCGATATCGTCTGCCTTCAGGAAATCAAATCCGTCGACGAAGGTTTTCCCCGGCTGGAGCTGGAGGCGCTCGGCTATCACGTCGAGACCCATGGCCAGAAGGGCTTCAACGGCGTCGCGCTGCTGTCGAAGGTCAAGCCCGACGAGGTCAATCGCGGCCTGCCCGGTGACGATGCCGATGAACAGGCGCGTTTCATCGAAGGCGTGTTTTCCGTCGATGGCGGCGCGATCCGCGTCTGCTCGCTTTACCTACCGAACGGCAATCCGCCGGACGATCCGGTGAAATATCCCTATAAGCTTGCCTGGATGGAACGGCTGCGGCATTTTGCCGAAGATCGCCTTGCGCTCGAGGAGCCGCTGATCCTTGCGGGCGACTACAACGTCATTCCCGAGCCCTTCGATTGCCACGACCCACGCGTGTGGGAAGGCGACGCATTGTTCCTGCCGAAGACCCGTGCCGCCTTCCGCAAGCTGGAAAATCTGGGCTTCACCGATGCCGCCCGTGCGACGACGGATGAAGCAGGACTTTATTCCTTCTGGGATTATCAGGCCGGGGCATGGCCGAAAAACAATGGCATCCGCATCGATCATCTGATGCTGTCAGCGGAAGCGGCCGACAGGCTGCAATCCGTCAGTATCGAAAAACATGTGCGAGCCTGGGAAAAACCGTCCGACCATGTGCCGGTCTGCGGTTATTTCGATTTCAGTCCGATCGGCTGA	MKIATWNINGVKARIENLCQWLKDSSPDIVCLQEIKSVDEGFPRLELEALGYHVETHGQKGFNGVALLSKVKPDEVNRGLPGDDADEQARFIEGVFSVDGGAIRVCSLYLPNGNPPDDPVKYPYKLAWMERLRHFAEDRLALEEPLILAGDYNVIPEPFDCHDPRVWEGDALFLPKTRAAFRKLENLGFTDAARATTDEAGLYSFWDYQAGAWPKNNGIRIDHLMLSAEAADRLQSVSIEKHVRAWEKPSDHVPVCGYFDFSPIG	PGPT0014910_51	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014910-ligD-K01971	NA	NA
BMS010_08580	795			hypothetical protein	ATGCTGAAATGTGAAGCCAACGTTTTAAAGCCGCTCCTCATGGGCATGTTGCTTGCGTCGCTCGCAATGCCTGCTGCGGCTTTTGACATCAATGCGGGCGTGACCAAGGAATCCGGCCCCTTCGACCTGTTCAAGTTCGGCTTCAAGGCCTACAAGAACGGCAACAAGGGCGAAGCCGTCGAGGCCTATCGCTACGCGGCTGAAAAGGGCCATACCGGCTCGCGCTGGGCGCTTGCCAATATGTATGCCTATGGCGATGGCGTCGCCAAGAACGACTTCGAAGCTTTCAAGATCTACAGCGAAATCGCCAATCAGGGCGTGGAGCCGGGTTCGGAAGATACCGGCTTTTTCGTCAACGCGCTGCTTTCCCTTGCGGATTATTACCGTCACGGCATTCCCGGCAGCCCGGTGAAGATGGACCTGTCGCAGGCCCGCCAGCTTTATTTCCAGGTTGCTTCCACCTTTGGCGTCGCTGAGGCGCAGTTCCGTCTGGCTGAGATGATTCTCGCCGGCGAGGGCGGCCGCGCCGATGTGCAGCAGGCCAAGAAGTGGCTCAACCAGGCCCGCAAGCACGGCCATGCCGGCGCCATGTCGATTTTCGGCAACCTGATCTTCCAGGAAGGCCAGACGACGCAGGGGCTGGCCTTCATGACGGCGGCGCTCGACAAGTGCACGGCAGCGGACTGCACCTGGATACAGAACCTGCAGGAGCAGGCTTTTTCGCTCGCCGGTGAGAACGATCGCCGCGCCGCCATCGCCATGGCGCAGAACATGCAGTTCAACGATCCGGATTGA	MLKCEANVLKPLLMGMLLASLAMPAAAFDINAGVTKESGPFDLFKFGFKAYKNGNKGEAVEAYRYAAEKGHTGSRWALANMYAYGDGVAKNDFEAFKIYSEIANQGVEPGSEDTGFFVNALLSLADYYRHGIPGSPVKMDLSQARQLYFQVASTFGVAEAQFRLAEMILAGEGGRADVQQAKKWLNQARKHGHAGAMSIFGNLIFQEGQTTQGLAFMTAALDKCTAADCTWIQNLQEQAFSLAGENDRRAAIAMAQNMQFNDPD	PGPT0000855_4211	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-ACIDITY|NITROGEN_RELATED_REGULATION,PGPT0000855-exoR-K07126	NA	NA
BMS010_08581	1290			hypothetical protein	ATGGCAAAAACTGCAATTTTTCGCGGCGCGGTATGTTTCGCAGTCAGCATCGCGGCGGTAACGCCCTCACTGGCCGGCGGCCTTGAGCGCGGCGGTTACAATATCGACCTGCTGTTCGATCCGTCCGATTATGTTCTCGACAGTTCTACAACCTTCGTCGCGCCGCAGCGCAAGGTGGAAAATGCCCGGGACAATCCGCTGAAGAGCGGCCCGCTGCCTGCGGCCTGGTCAAGGAGCGCAGATGACTCTGAAAACTTCTGGTCGACCCGGATCGGCGCCAAAGCGGCAATCGGTGATTTCGGCGACTGCATGTTCGACTATTCGCAGCCCTGGGGCGCGCATCTCAATCCCGGCATCTGGCAGGGATCGAGCTACAATATCGAAACCAAGGTCAAGTCGCACAATTACGCTACTACCTGCCGGGTGAAGTTCGATCTTGGCAAGGGCGACTTCTCGATTATAGGCGGTGGTTTCTATCAGGAACTCAGCGGTTATAAATACCGTCAGGTTCTCGGGCCGGCCGTTCTGGGCCTCAATCCGGCCTGGTCCAGCTTCAGCGGCGTTGGCAAACTTGAGATGGAAGGTGACGGCTGGGGCTGGCGCGCCGGCATGGCATATGAGATTCCCGAGATCGCCTTCCGTGCAAGCCTCGTTTACAACAGCGCCGTTGATCACGACCTGACCGGTTTCGCCGACGTCAGGGCGATCCCGCAGACGCCGCCGTCCATTTCTCCGACGCTTGCGAAATACGGTGGCAAGCTCGTGCCGATCTACGGCTCTGTTTCCATGCCTGACAGTATCGAACTCAAGGTGCAATCTGGTATCGCGCCGGACTGGCTTGCTTTCGGTTCCGTGAAGTGGACGGACTGGAGCCAGATTCAGGTCATTCCTTTCTGCGCGGTCGGCACGTCGCCGTGCGTTCCGAGCGGAGCTGACACGCTCAACACGCTTGACCTGTTTTATCGCGACGGCTGGACGATTTCGGGTGGCGTCGGTCACAAGTTCAACGAACAGTGGAGCGGTGCTGTGAGCCTGACCTGGGATCGCGGTACGTCGACTGTCATCGGCACCCAGACCGACACCTGGACACTGGGCACGCAGATCGTCTACTCCCCGAACAAGAACATCGAGTTCAAGATTGCCGGCGCTCTCGGCCTCCTGACCTCCGGTAGCTCTTCCATCAATGGCGGACCGTGCGGTGCAGGCTTCACCTGCGGCAACGAGGCGGGCTACGACTTCGGTAACGATCTCGTCGCAGCCATCTCGACCGGTGTGAAGGTCAAGTTCTGA	MAKTAIFRGAVCFAVSIAAVTPSLAGGLERGGYNIDLLFDPSDYVLDSSTTFVAPQRKVENARDNPLKSGPLPAAWSRSADDSENFWSTRIGAKAAIGDFGDCMFDYSQPWGAHLNPGIWQGSSYNIETKVKSHNYATTCRVKFDLGKGDFSIIGGGFYQELSGYKYRQVLGPAVLGLNPAWSSFSGVGKLEMEGDGWGWRAGMAYEIPEIAFRASLVYNSAVDHDLTGFADVRAIPQTPPSISPTLAKYGGKLVPIYGSVSMPDSIELKVQSGIAPDWLAFGSVKWTDWSQIQVIPFCAVGTSPCVPSGADTLNTLDLFYRDGWTISGGVGHKFNEQWSGAVSLTWDRGTSTVIGTQTDTWTLGTQIVYSPNKNIEFKIAGALGLLTSGSSSINGGPCGAGFTCGNEAGYDFGNDLVAAISTGVKVKF				NA	NA	NA	NA	NA
BMS010_08582	2844	valS_2	COG0525	Valine--tRNA ligase	ATGCTCGAAAAGACCTACGATTCCGCATCCGTCGAACCGAAGATCGCCAAAGCCTGGGACGAGGCTAACGCTTTTCGTGCCGGCGCCAACGCCAAGCCGGGCGCGGAAACCTTCACCATCGTCATCCCGCCGCCGAATGTGACCGGCTCCCTGCATATGGGCCACGCGCTCAACAACACGCTGCAGGATATATTGGTCCGCTTCGAGCGCATGCGCGGCAAGGACGTGCTGTGGCAGCCGGGCATGGACCATGCCGGCATCGCCACGCAGATGGTCGTCGAGCGCAAGCTGATGGAGCAGCAGCTTCCGGGCCGCCGCGATATGGGCCGTGAGGCTTTCGTGGAAAAGGTCTGGGAATGGAAGGCCGAATCCGGCGGTCTCATTTTCAACCAGCTGAAACGCCTTGGCGCCTCCTGTGACTGGTCGCGGGAGCGCTTCACCATGGATGAGGGGCTGTCGCAGGCGGTTCTCGAAGTTTTCGTCACGCTCTACAAGCAGGGCCTGATCTACAAGGACAAGCGCCTCGTCAACTGGGACCCGAAGCTGCAGACGGCGATTTCCGATATGGAGGTCGAGCAGATCGAGGTGAAGGGCAACCTTTGGCACTTCCGTTATCCGCTGGAAAAGGGTGTCACCTATCAATATCCGGTCGCTTTCGACGAGGAGGGGAAGCCCACCGAGTTCGAAACGCGCGACTATATCGTCGTCGCCACGACGCGGCCCGAAACCATGCTCGGCGATACCGGCGTTGCGGTGAACCCGCAGGATGAACGGTACAAGGGCATCATCGGCAAGCATGTCATCCTGCCGATCGTCGGCCGCAAAATCCCGATCGTCGCCGATGACTATGCCGACCCGACAGCCGGCACGGGCGCGGTTAAGATCACGCCTGCGCATGACTTCAACGATTTCGAAGTCGGCAAGCGCTGCGGCCTGCGCGCCATCAACATCATGAATATCGACGGCACGATCTCCATCAAGGAAAACGAGGATTTCCTCGAGGGTCTCAGCCATCCCGCGGCGCTGCATGGCGCATGGGATCGTCTGGAAGGGCAGGACCGCTTTACCGCCCGCAAGATCATCGTCGAAATCTTCGAGGAAGCCGGCCTGCTCGACAAGATCGAGCCGCACAAGCACGTGGTGCCGCATGGCGACCGTGGCGGTGTGCCGATTGAGCCGCGACTGACCGACCAGTGGTGGGTAGACAACAAGACGCTCGCCCAGCCGGCGATTGCTTCCGTTCGCGAAGGCCGCACCAATTTCGTGCCGAAGAACTGGGAAAACACCTACTTCCAGTGGATGGAAAACATCCAGCCCTGGTGCATCTCGCGGCAATTGTGGTGGGGACACCAGATCCCGGCATGGTATGGCCCGGATGGGCAGGTCTTTGTCGAGAAAACCGAAGAAGAGGCGCTTCAGGCGGCCATCCAGCATTACATCGCCCATGAAGGTCCGTGGAAGGCCTGGGTCGAGGAGAAGCTTGAGAACTTCAAGCCGGGTGAAATCCTGACCCGCGACGAAGACGTGCTCGACACCTGGTTCTCGTCGGCGCTCTGGCCTTTCTCGACGCTCGGCTGGCCCGAGCAGACACCGGAACTGGCACGCTATTATCCGACCAACGTGCTGGTGACCGGTTTCGACATTATCCCGTTCTGGGTGGTGCGGATGATGCAGATGGGCCTGCATTTCATGAAGGACGATGCCGGCAACCCGGTCGAGCCTTTCAGCACGGTCTATATCCACGCGCTGGTTCGCGACAAGAACGGCCAGAAGATGTCGAAGTCCAAGGGCAACGTCATCGATCCGCTGGAACTGATCGACGAATATGGTGCGGATGCGCTGCGTTTCACGCTTGCCATCATGGCGGCGCAGGGCCGTGACGTGAAGCTCGATCCGGCGCGTATCGCCGGTTATCGCAACTTCGGCACCAAGCTCTGGAATGCGACGCGTTTTGCAGAGATGAACGGCGTGAAGCGCGATCCGCATTTCCTTGCCGAAACCGCGTCGCTGACCATCAACCGCTGGATCCTTACCGAGCTTGCCAATACGGCGCGCGACGTGACGGCGGCGCTTGAGAACTTCCGCTTCAACGACGCCTCCGGCATTCTCTACCGTTTCGTCTGGAACCAGTTCTGCGACTGGTATCTGGAACTGCTGAAGCCTGTCTTCAGCGGCGAAGACGAAAAGGCCAAGAGGGAATCGCAGGCCTGCGCGGCCTATGTTCTGGACGAGATCTACAAGCTCCTGCATCCCTTTATGCCCTTCATGACGGAAGAGCTGTGGGCGCATACGGCGGGCGAGGGCGAGGAGCGGGATAATCTGCTTTGCCTGACCGACTGGCCGGTGCCGGAATTCCGCGACGATGCCGCGGCGGCCGAAATCAACTGGCTGATCGATCTCGTCTCCGGCATTCGCTCCGCGCGCGCCGAGATGAACGTGCCGCCGGGCGCCACCGCTTCGCTGGTGGTTGTCGGCGCCAATACCTCCACCGAAGCGCGGCTCGACCGCCACGCCGCCGCCATCCGGCGCCTGGCGCGGGCGGATGAAATCCGCGCCGCCGATGTCGCGCCGAAGGGCTCCGCGCAGATCATCGTCGGCGAGGCCACGGTTTGCCTGCCGCTCGGCAAGCTCATCGATCTGGCGGCCGAGGAAGCCCGTCTCGAAAAGGCGATCGGCAAGGTGGATGCGGAAATGGAGCGCATCGACAAGAAGCTGTCGAACGAGAAGTTCGTCGCCAATGCCGATCCGGAAGTGGTCGCCGCCGAGCGCGAGCGCAAGGCGGAGCTGGAAGTGCAGCTTGCAAGCCTGAGAACGGCGCTCACGCGGGTCAGCGAAGCGGGTTAA	MLEKTYDSASVEPKIAKAWDEANAFRAGANAKPGAETFTIVIPPPNVTGSLHMGHALNNTLQDILVRFERMRGKDVLWQPGMDHAGIATQMVVERKLMEQQLPGRRDMGREAFVEKVWEWKAESGGLIFNQLKRLGASCDWSRERFTMDEGLSQAVLEVFVTLYKQGLIYKDKRLVNWDPKLQTAISDMEVEQIEVKGNLWHFRYPLEKGVTYQYPVAFDEEGKPTEFETRDYIVVATTRPETMLGDTGVAVNPQDERYKGIIGKHVILPIVGRKIPIVADDYADPTAGTGAVKITPAHDFNDFEVGKRCGLRAINIMNIDGTISIKENEDFLEGLSHPAALHGAWDRLEGQDRFTARKIIVEIFEEAGLLDKIEPHKHVVPHGDRGGVPIEPRLTDQWWVDNKTLAQPAIASVREGRTNFVPKNWENTYFQWMENIQPWCISRQLWWGHQIPAWYGPDGQVFVEKTEEEALQAAIQHYIAHEGPWKAWVEEKLENFKPGEILTRDEDVLDTWFSSALWPFSTLGWPEQTPELARYYPTNVLVTGFDIIPFWVVRMMQMGLHFMKDDAGNPVEPFSTVYIHALVRDKNGQKMSKSKGNVIDPLELIDEYGADALRFTLAIMAAQGRDVKLDPARIAGYRNFGTKLWNATRFAEMNGVKRDPHFLAETASLTINRWILTELANTARDVTAALENFRFNDASGILYRFVWNQFCDWYLELLKPVFSGEDEKAKRESQACAAYVLDEIYKLLHPFMPFMTEELWAHTAGEGEERDNLLCLTDWPVPEFRDDAAAAEINWLIDLVSGIRSARAEMNVPPGATASLVVVGANTSTEARLDRHAAAIRRLARADEIRAADVAPKGSAQIIVGEATVCLPLGKLIDLAAEEARLEKAIGKVDAEMERIDKKLSNEKFVANADPEVVAAERERKAELEVQLASLRTALTRVSEAG				NA	NA	NA	NA	NA
BMS010_08583	1008			hypothetical protein	ATGGCTCAGCCAAGCGTAGCGCGTGAACCGTCCATGGAAGAGATTCTGGCGTCTATCCGCCGGATCATCGAAAGCAACGAGACCGGACCTGCCGGTGCGTTTTCCGGGCAGTTGCCGCCGGTCTATGACGATGAAGACGAGGCCGCGAGCGAAGCAGCCTTCGTGGCGGAGCCCATCAGCCCGCCGGCGCGCGTTCCCCCCGCCGCAAATCAGGCTTTTGGCGCACGGCCTGCGCAGGATTTTTCGCCGATTTCTGAAGGGCCCATGGCTGAACGGCAGGAAAGCGCCGCCGAGAAGACCATGTCCCTTGCAGATGTCGCTGCCCGTGTGCGTGCCGCCGCAGACCGTAACGCCGCCATGGGGCCGCAGGCTTTCGCCGCGCAGGCCCAGCGCGGCGCGGCCGAGACCGCGCCGTCGGCTGCTGCCCCGACCGTATCGCAGCCTTTGTCCGCGCCGTCTTCCGAACGCGCCGCACCGCAGCGCCCGACGGATGTTCGTCCGCTGATGGCGGCTGCGGCCGCCGCGAGCGTGAGCGAGCAGCCGGCATCCAGCGTGAACGAGCAGCCGGTATCTTTTGCCGCCGAGGATCGCGCCGCCGCTGCCGCCATCGAAAGCGCGTCTTCGGCCGAAAACCGCTTCGATCAGCTTTCGCTGCGCGGCGCCCTCGAAACGCCGCTGACAGCGGAGCGTTTCGATATTGCGGTGCTGGAGCCTGCCGTTGAGAAACCGGCATTCGATCTGGCCGAGCCACAGGCAAAAGACGAGGCGGGTGTTGAGGGCGGTCTGTCGCTCAATCTTCTTTCCGCCGCTGCCGGTGCGCAGATCGCCCGTTCGTTCAGCGAGCTTGCAGAGGTTTTCGACGGCGTCGAGCGGCGCTCGATTGAGGATATGGCCGCCGAAATGTTGCGTCCGATGCTGCAGGACTGGCTGGAAGACAATCTGCCGACACTCGTGGAGCGTCTGGTGCGCGAGGAAATCGAGCGCGTGGCGCGCGGTTCTCGCCGTTAA	MAQPSVAREPSMEEILASIRRIIESNETGPAGAFSGQLPPVYDDEDEAASEAAFVAEPISPPARVPPAANQAFGARPAQDFSPISEGPMAERQESAAEKTMSLADVAARVRAAADRNAAMGPQAFAAQAQRGAAETAPSAAAPTVSQPLSAPSSERAAPQRPTDVRPLMAAAAAASVSEQPASSVNEQPVSFAAEDRAAAAAIESASSAENRFDQLSLRGALETPLTAERFDIAVLEPAVEKPAFDLAEPQAKDEAGVEGGLSLNLLSAAAGAQIARSFSELAEVFDGVERRSIEDMAAEMLRPMLQDWLEDNLPTLVERLVREEIERVARGSRR				NA	NA	NA	NA	NA
BMS010_08584	672	pcm_3	COG2518	Protein-L-isoaspartate O-methyltransferase	ATGATGGATTTCGAAACCGCACGCGCCAATATGGTCGACAGCCAGTTGCGCACGACCGACGTGACGTCGCATTCCGTGCTGAAGGCGTTTTTGAGCGTGCCGCGCGAGGCATTCGTGCCGGCGGGCGTGCGGCAGATTGCCTATGTGGATGAGGACCTGCAGATCTGTCCCGCCCGCGATGGCCGTCCGGCCCGTTATGTCATGAAGACCTCGCCGCTGGCGAAGCTGCTGCAGCTTTCGGCCGTGTCGAAGGAGGACGTGGTGCTGGAAGTGGGCGGCGGCGCAGGTTATGCGGCCGCCATCCTTTCGCAGCTTGCCGGTTCGGTGGTTTCGCTTGAAAGCGATGAGGCGCTGGCCGCACAGGCGACCGATACGCTCGCCTCGCTCGGATATGACAATGTCGCCGTCGTAACCGGCGACCTCGAAAAGGGCTATGCGGGCGAAGCGCCCTATGACCTCATTTTCATCAACGGCTCGGTTGAGGAAGTGCCGGCGGCACTGACCGACCAGCTGCGTGACGGCGGCCGTCTGGTTGTCGTCGTCGGATATGGCGGCGCCGCGAAGGCCACCGTCTATCGCCGCGGTGGCAACAGCACATCGGCTGCCACTTTCTTCAATGCTTCGGTCAAGCCGCTGCCGGGTTTTGCCAAGGCGGCCGAATTCGTTTTCTGA	MMDFETARANMVDSQLRTTDVTSHSVLKAFLSVPREAFVPAGVRQIAYVDEDLQICPARDGRPARYVMKTSPLAKLLQLSAVSKEDVVLEVGGGAGYAAAILSQLAGSVVSLESDEALAAQATDTLASLGYDNVAVVTGDLEKGYAGEAPYDLIFINGSVEEVPAALTDQLRDGGRLVVVVGYGGAAKATVYRRGGNSTSAATFFNASVKPLPGFAKAAEFVF				NA	NA	NA	NA	NA
BMS010_08586	153			hypothetical protein	ATGCTCGGCACCATCCTCGTCATCCTGCTCATTCTTTTCCTGATCGGCGCACTGCCAAGCTGGGGTTACCATAATTATGGTTATGGCCCGTCAGGCGGTCTCGGACTGGTTCTGGTCATCGTCCTGATCCTCGTTCTGCTTGGGCGGATCTGA	MLGTILVILLILFLIGALPSWGYHNYGYGPSGGLGLVLVIVLILVLLGRI				NA	NA	NA	NA	NA
BMS010_08587	105			hypothetical protein	ATGTCCGGTTTTGCGAACCTCATCCCGCTTTTCATCTTCGGCCTCCTCGTCTACTTTTTCTTTCGCTGGGTCGCGCGCGACATTCAGAAGCCGAAGAGCAAATAG	MSGFANLIPLFIFGLLVYFFFRWVARDIQKPKSK				NA	NA	NA	NA	NA
BMS010_08588	306			hypothetical protein	ATGAAAACGCTCGTATCATCGGCCGCTATCGCGCTTACACTGGCGCTTGCCGGATGCACCACGGCCGGCCCGTTCGCCTATGTCGGCCCCGCGCCCTATGTCGAACCCATTCCCGGCAGTATTATCTACAGGGGCCAGCCGCGTACCAAGCTGACGAAATCGCCGATCGGCAGTACCTTCACCCATGAATTCCGCATCGACGCCAGCACGCGGGCGGTGGAAACCTACCGCATCGCGCCGGACCGCTCGCTGGAACTCATCGACCGCCGCATCATCCGCGAATGGTTGTTCGGGCGCGACGACTGA	MKTLVSSAAIALTLALAGCTTAGPFAYVGPAPYVEPIPGSIIYRGQPRTKLTKSPIGSTFTHEFRIDASTRAVETYRIAPDRSLELIDRRIIREWLFGRDD				NA	NA	NA	NA	NA
BMS010_08589	246			hypothetical protein	ATGAATACGCGCTGGCAAAAACCCGTCCTGATCGCGTTCGAAACGCCGGGCGACTATACGAGCATTGACACCACGCAGGCGGCCTCCTGGGCGCTGATCGAGGATTGGCCAATCGAAGACGGCGATGCGCTGGACAAGGCGCTGCTGATCTGCGCCGCCGTCGATGCCGGCAGGAAGAAGCCCGAGGATGCGCGCAAGGCGTTCATCGCAGCCGCAATCGAAGCGGGCCTCGATATCAAGGCCTGA	MNTRWQKPVLIAFETPGDYTSIDTTQAASWALIEDWPIEDGDALDKALLICAAVDAGRKKPEDARKAFIAAAIEAGLDIKA				NA	NA	NA	NA	NA
BMS010_08590	108			hypothetical protein	ATGGAAGCTTCCGGAAACATGAAAAAGGCCCTGTTCATTTTTCTCCTCTCCTGCCTGGCGATCGGCCTTCTCGGCCACCTCGTGGTGGCCTTCGTCGTCACCGGCTGA	MEASGNMKKALFIFLLSCLAIGLLGHLVVAFVVTG				NA	NA	NA	NA	NA
BMS010_08591	90			hypothetical protein	ATGCGTGACGGATTGAACGGTTTTCTCGAAATCTCGATGCTCGGCTTCGTGGTCGCAAGCTGCCTTTTCATGGTCAACCTACCCATCTGA	MRDGLNGFLEISMLGFVVASCLFMVNLPI				NA	NA	NA	NA	NA
BMS010_08592	600			NAD(P)H dehydrogenase (quinone)	ATGACGAAGGTTCTGGTACTTTATTACTCCTCTTACGGCCATATCGAGAAAATGGCCTATGCCGTTGCCGAGGGCGTGAAGTCCACCGGCGCGGAAGCCGTGGTGAAGCGCGTTCCCGAACTCGTTCCGGAAGAAGTTGCAAAGTCTTCCCATTTCAAGCTGGATCAGCCGGCTCCGGTGGCGACGGTGGACGAGCTGGCGGATTACGACGCCATCATCGTCGGCGCCGGCACGCGTTTCGGCACGGTCGCCTCGCAGATGCGCAATTTCTGGGACCAGACCGGCGGCCTGTGGTTCAGCGGCAAGCTGGTCGGCAAGGTCGGTTCAGCCTTCACCTCTTCCGCCACCCAGCATGGCGGTCAGGAATCGACCATCCTCGGTTTCATCCCCACCTTCCTGCACCATGGCATGGCGGTCGTCGGTCTGCCCTATGCTTTCCAGGGCCAGATGGGCGTCGATGAAATCAAGGGCGGCTCGCCCTATGGCGCCTCCACCATCACCGATGGCGACGGCTCGCGCCAGCCTTCCGAAATCGAACTGGAAGCCGCTCGTTTCCAGGGCGCGCATGTGGCGAAACTCGCCGCCAAGCTTTCCGCCTGA	MTKVLVLYYSSYGHIEKMAYAVAEGVKSTGAEAVVKRVPELVPEEVAKSSHFKLDQPAPVATVDELADYDAIIVGAGTRFGTVASQMRNFWDQTGGLWFSGKLVGKVGSAFTSSATQHGGQESTILGFIPTFLHHGMAVVGLPYAFQGQMGVDEIKGGSPYGASTITDGDGSRQPSEIELEAARFQGAHVAKLAAKLSA	PGPT0009460_2155	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009460-wrbA-K03809	NA	NA
BMS010_08593	792	cinA		Putative competence-damage inducible protein	ATGTCCAATCCCTCCTCCGCCCAATCCGTCGTGACCGCCGCCATGCTTGCCATTGGCGACGAACTGCTTTCGGGCCGCACCAAGGACAAGAATATCGGCCACCTCGCGGATGTCCTCACCATGTCCGGCATTGACCTGAAGGAAGTGCGCATCGTCGCCGACGAGGAGGAAGCGATCGTTGAAGCGCTGAACGCGCTGCGCGGCCGCTATGATTATGTCTTCACGTCAGGCGGCATCGGCCCGACCCATGACGACATCACCGCGGATGCGGTCTCTGCGGCGTTCGGCCTGCCCTGCGAGCACGATGCCGAGGCGCTGCGCCTGCTGGGTGACATGTATCGCGTCCGCGAGATGGAATTCACCGAGGCGCGCAAGCGCATGGCGCGCATGCCGAGGGGGGCCGCTCACATCGCCAATCCCGTTTCCGTCGCCCCCGGCTTCGTCATCGGCAATGTTTATGTCATGGCCGGCGTGCCGCAGGTGTTTCAGGCCATGCTGGACAATGTCATGCCGACGCTGCGCACCGGCGCGAAGGTCATGTCGCAGGCGGTGCGGTCGCCCTATGGCGAAGGCGATATCGGTACGCCGCTGACAGCCATCCAGAAAGCCCATCCCGAAACCAGTATCGGCTCCTATCCCAAATATGACGGGCAGCGCTTTTCGACGGAGATCGTGGTGCGCGCCCGCGACGCCGGCGTCCTGAAGGCGGCAGCAGACGCGGTTGCCGCCATGATCGAGACTATCGGCCATGAAAAAACACTGGCAGCCAGCAAGGGCGATGCAACCGCCTAA	MSNPSSAQSVVTAAMLAIGDELLSGRTKDKNIGHLADVLTMSGIDLKEVRIVADEEEAIVEALNALRGRYDYVFTSGGIGPTHDDITADAVSAAFGLPCEHDAEALRLLGDMYRVREMEFTEARKRMARMPRGAAHIANPVSVAPGFVIGNVYVMAGVPQVFQAMLDNVMPTLRTGAKVMSQAVRSPYGEGDIGTPLTAIQKAHPETSIGSYPKYDGQRFSTEIVVRARDAGVLKAAADAVAAMIETIGHEKTLAASKGDATA				NA	NA	NA	NA	NA
BMS010_08594	846			hypothetical protein	ATGGGTTACAAGACGATATTGGCAGTGGTCGACAATGTTTCGAACACGCAGAAGCTCGGCGAATTCGTGGTAAGCCTTGCCGATCAGTTTTCCTCGCATGTGATCGGCCTGCATATGGAAACGCTGGCCGCCGTTCCCCTCGTCGCGCCGATGGAAATTCCCGACCCAGCCACCGTGCAGGCGCTGCAGGATGTGGCGCATAAGGAAACCACCGACGTCGGAACCATCTTCGAGCGTACGCTGGCCGCCAACGGCATCTCGCATGAATGGCGCAGCTTCGTCACATCGGTGGGTTACGCCTCCGCATCGGCCATCGACAGCGCCCGTTGCGCCGATCTCATCGTCGCTCGCCAGAGCAGCTCCTCTGCACTTTCCGACAGCCGATCTGATATTGACGGTTTCCTCTATGAAAGCGGCCGCCCCGTTCTCCTCGTGCCGCATGTGCTGACCGTTGCGAAACCGATCAAGCGCGTCCTGATCGCCTGGAACGGCTCGCGCGAGGCGACCCGCGCCACCTTCGACGCCCTGCCCTTCCTCAAGGCAGCCGATAGCGTCGAGATATTCTCCGTCGATCAGGCCGAGAGCGAAACGCAGTCTTCCGGGCTCGCCGGCGCGGAACTGGCCGCCACGCTTGCCCGCCACGGCGTCAACGTCACCGTAACCTCGCAGGAAAAGATCGCCGGTGTCTCGCCGCAGGCGGCCATCGAAAACCGGCTGTCCGATAACAGCATCGACCTTCTTGTCATGGGCGCTTACGGCCATTCCCGCTGGTGGGAACTGCTGTTTGGCGGTGTCACCCGCACCCTGCTCGATTCCATGACGGCGCTGACGCTGCTGTCGCGTTAA	MGYKTILAVVDNVSNTQKLGEFVVSLADQFSSHVIGLHMETLAAVPLVAPMEIPDPATVQALQDVAHKETTDVGTIFERTLAANGISHEWRSFVTSVGYASASAIDSARCADLIVARQSSSSALSDSRSDIDGFLYESGRPVLLVPHVLTVAKPIKRVLIAWNGSREATRATFDALPFLKAADSVEIFSVDQAESETQSSGLAGAELAATLARHGVNVTVTSQEKIAGVSPQAAIENRLSDNSIDLLVMGAYGHSRWWELLFGGVTRTLLDSMTALTLLSR				NA	NA	NA	NA	NA
BMS010_08595	510	gpt	COG0503	Xanthine phosphoribosyltransferase	ATGGTAGACGACATGTCCCTTCCCGATAAAGCCTTTCCCGTCTCCTGGGACCAGTTCCACCGCGATGCCCGTGCACTTGCCTGGCGTCTTGCCGGTCTCGACAAAGAGTTCCGCGCGATCGTCTGTATCACCCGCGGCGGCCTCGTGCCGGCGGCGATCATTTCCCGCGAACTGAATATCCGCCTGATCGACACGGTCTGCATCGCCACCCGCCATGATTACGTCAATCAGGGCGAAACGGTTCTGCTGAAGGGTGTCGCCCCAGAACTTTCGGCGGATGGCGGCGAAGGCGTGCTGGTGCTGGACGACCTGACCGATACCGGCAAGACGGCGCTCGAAGTGCGCGAAATGCTGCCCAAGGCGCATTTCGCCTGTGTTTACGCCAAGCCGAAGGGCGTGCCGACCATCGACACCTTCGTCACCGAAGTCAGCCAGGACACCTGGATTTATTTCCCCTGGGACATGGGCTTCACCTATCAGGAGCCGATTGCCAAGGGATCGCGCGGCTGA	MVDDMSLPDKAFPVSWDQFHRDARALAWRLAGLDKEFRAIVCITRGGLVPAAIISRELNIRLIDTVCIATRHDYVNQGETVLLKGVAPELSADGGEGVLVLDDLTDTGKTALEVREMLPKAHFACVYAKPKGVPTIDTFVTEVSQDTWIYFPWDMGFTYQEPIAKGSRG	PGPT0007300_264	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0007300-gpt-K00769	NA	NA
BMS010_08596	3819			hypothetical protein	ATGCGCATCGAACGCCGCTTCACGAAGCCCGGCCAATCGCCTTATGCGGAGATCGACTTCCGCAAGGCCGTCAGTGAAATCAAGAACCCGGATGGATCGATCGTGTTCCGTCTGGCGGATATCGACGTTCCCGCGCAGTTCAGCCAGGTTGCCACCGACGTTCTGGCGCAGAAATATTTCCGCAAGGCCGGCGTGCCGAAGTTCCTGAAGAAGGTTGAGGAAAACGACGTTCCTTCCTTCCTGTGGCGCTCCGTGCCCGATGAAAAGGCGCTGAAGGATGTGCCGGAAGCCGAACGTTTCGGTTCCGAGACCGATGCGCGTCAGGTTTTCGACCGTCTGGCCGGGACCTGGGCCTATTGGGGCTGGAAGGGCAAATATTTCTCGTCCGAAGAAGATGCGCTGGCCTTCCGCGATGAGCTTGCCTATATGCTCGCCACCCAGCGCGTTGCGCCGAATTCCCCGCAATGGTTCAACACCGGCCTGCACTGGGCCTATGGCATCGATGGCCCCGGCCAGGGCCACTTCTATGTCGATCCCTTCACGGCTAAGCTGACCAAGTCCAAGTCCGCTTACGAACATCCGCAGCCGCATGCCTGCTTCATCCAGTCCGTTGAGGACGACCTCGTCAATGAAGGCGGCATCATGGACCTGTGGGTGCGTGAAGCGCGCCTGTTCAAATACGGTTCCGGCACCGGCTCCAACTTCTCCTATCTGCGTGGCGAAGGCGAAAAGCTTTCCGGCGGCGGCCGCTCCTCTGGTCTGATGAGCTTCCTCAAGATCGGCGACCGCGCAGCCGGCGCCATCAAGTCCGGTGGCACGACCCGTCGTGCGGCGAAGATGGTCGTTGTCGATGCCGATCACCCCGATATCGAAGCCTATATCGACTGGAAGGTAAACGAGGAGCAGAAGGTTGCCGCGCTCGTCACCGGCTCCAAGATCGTCGCCAAGCACCTGAAGGCAATCATGAAGGCCTGCGTCAATTGCGAGGCTGACAATGGCGATTGCTTCGACCCGGCCAAGAACCCGGCCCTGAAGCGCGAAATCCGCGCTGCCAAGAAGGACATGGTGCCGGAAAACTACGTCAAGCGCGTCATCCAGTTCGCAGAGCAGGGTTACAAGGACATCCAGTTCAAGACCTATGACACGGATTGGGATTCGGAAGCCTACCTCACGGTATCAGGCCAGAACTCCAACAACTCCGTCTCGCTGAAGGACGACTTCCTGCGCGCCGTCGAGAACGATGGCGACTGGAACCTCACCGCCCGCAAGGACGGCAAGGTCATGAAGACGCTGAAGGCCCGCGACCTCTGGGAAAAGATTTCCCACGCCGCCTGGGCGTCCGCCGATCCGGGCCTGCACTTCAACACGACGATGAACGACTGGCACACCTCGCCGGCGGCCGGCCCGATCCGCGCCTCCAATCCGTGCTCGGAATACATGTTTCTCGACGACACGGCCTGCAACCTCGCCTCGCTGAACCTTCTGCAGTTCAAGGATCAGGCGACAAAGCGTATCGATATCGCCGATTACGAACATGCCGTTCGCCTGTGGACCGTCGTGCTCGAAGTGTCCGTCATGATGGCGCAGTTCCCGTCGCGCCAGATCGCCGAACTCTCCTATGAGTACCGCACGCTGGGCCTCGGTTACGCCAATATCGGCGGCCTCCTGATGTCCTCGGGCATTCCCTATGACAGCGCCGAAGGCCGCGCCATTGCCGGCGCGCTCACCGCCATCATGACCGGTGTGTCCTACGCCACCTCGGCCGAAATGGCCGGCGAGCTTGGCCCGTTCCCGGGCTTTGCGCCGAACCGCGACAACATGCTGCGCGTCATCCGCAACCACCGCCGCGCCGCTCACGGCCAGTCGGAAGGTTATGAAGGCCTGTCGGTCAACCCGGTCGCGCTCATCCATGGCGATTGCCCGGATCAGGACCTGATCGCCCATGCCATCGCCGCCTGGGACAAGGCGCTGACGCTCGGCGAACAGCACGGCTACCGCAACGCCCAGACGACGGTTATCGCGCCCACCGGCACGATCGGCCTCGTGATGGATTGCGACACGACCGGCATCGAGCCCGACTTCGCGCTGGTGAAGTTCAAGAAGCTCGCCGGCGGCGGTTACTTCAAGATCATCAACCGCGCCGTTCCGGATGCGCTGCGTTCGCTCGGCTATTCCGAAAGCCAGATCGCCGAGATCGAAGCCTACGCCGTCGGCCATGGCAATCTCAACCAGGCGCCCGGCATCAATCCTTCCACGCTGAAGGCCAAGGGCTTCACCGATGAGAAGATCGAGGCCGTCAATGGCGCGCTGAAGAGCGCCTTCGACATCAAGTTCGTCTTCAACCAGTGGACGCTCGGCGCCGACTTCCTCAAGGAAACGCTGAAGGTTTCCGACGAGCAGCTCTCCGACATGAGCTTCAACCTGCTCGAGCACCTCGGCTTCGGCAAGAAGGACATCGAAGCGGCAAACGTTCACGTCTGCGGCGCGATGACGCTGGAAGGCGCACCGTTCCTGAAGGCCGAGCACCTGCCGGTCTTCGATTGCGCCAACCCCTGCGGCAAGATCGGCAAGCGTTATCTCTCGGTCGAATCGCATATCCGCATGATGGCGGCGGCACAGCCCTTCATCTCCGGTGCGATCTCCAAGACGATCAACATGCCGAACGATGCGACGGTTGAGGATTGCGGCGCGGCCTACATGCTCTCCTGGAAGCTGGCGCTGAAGGCAAACGCCCTTTACCGCGATGGTTCCAAGCTTTCCCAGCCGCTCAATGCGTCGCTGGTGGAAGACGAGGACGAAGAAGACCTGATCGAAGAACTGATCCAGCAGCCGGCTGCACAGCAGGCCGTGACGATCACCGAAAAGATCGTCGAACGCGTCATCGAGCGTGTCTCGCGTGAGCGTGAAAAGCTGCCGAACCGCCGTCAGGGTTACACCCAGAAGGCGACCGTTGGCGGTCACAAGGTCTATCTGCGCACCGGCGAATTCGGCGATGGCCGCATCGGCGAAATCTTCATCGACATGCACAAGGAAGGTGCGGCCTTCCGTGCGATGATGAACAACTTCGCCATCGCCATTTCGCTCGGCCTGCAATATGGCGTGCCGCTGGAAGAATATGTGGAGGCTTTCACCTTCACCAAGTTCGAACCGGCCGGCATGGTGCAGGGCAACGACGCGATCAAGAACGCCACGTCGATCCTCGACTACGTGTTCCGCGAACTCGCCGTCTCCTATCTCGGCCGCCACGATCTGGCCCACGTCGATACGTCGGACTTCTCCAACACGGCGCTCGGCAAGGGTATCCAGGAAGGCAAGACCAACCTCGTTTCCACCGGCTGGACCCGCGGTTACAAGCCGACACTGGTTTCCAGCAATGGCGGCGAACGGTCTTCTTCCGAGCCCAAGGGCTCTGCAACGGCAGCACCTGCCCGCGCTTCGGCCAACGTCACCTCCTTCGCCGGCTCCGCCGCCCGCAAGCTGGAACCGACCGTCTCCATCGCAACCTCCGAAATCGTCTCCTTCAAGCGGGACTATGAAGAGCGCGCCAGGGAACTGGCCGAAGAAATCGCCGAGGAAGTGATCGACGACGTCGTCCAGGAAGCCCAGCAGACGGCAACCGCCCTCTTCTCCGACAAGGCCGCCGCCGACGCTGCATCGGCCAAGACGGAAGCCAAGAAGGTGGAAAACGAACGCCGCATGCGCTCGATTGCACAGGGGTATACCGGCAACATGTGCTCGGAATGCCAGAACTTCACGATGGTGCGGAACGGCACTTGCGAGAAGTGCGATACTTGTGGGGCTACGAGCGGTTGCAGCTGA	MRIERRFTKPGQSPYAEIDFRKAVSEIKNPDGSIVFRLADIDVPAQFSQVATDVLAQKYFRKAGVPKFLKKVEENDVPSFLWRSVPDEKALKDVPEAERFGSETDARQVFDRLAGTWAYWGWKGKYFSSEEDALAFRDELAYMLATQRVAPNSPQWFNTGLHWAYGIDGPGQGHFYVDPFTAKLTKSKSAYEHPQPHACFIQSVEDDLVNEGGIMDLWVREARLFKYGSGTGSNFSYLRGEGEKLSGGGRSSGLMSFLKIGDRAAGAIKSGGTTRRAAKMVVVDADHPDIEAYIDWKVNEEQKVAALVTGSKIVAKHLKAIMKACVNCEADNGDCFDPAKNPALKREIRAAKKDMVPENYVKRVIQFAEQGYKDIQFKTYDTDWDSEAYLTVSGQNSNNSVSLKDDFLRAVENDGDWNLTARKDGKVMKTLKARDLWEKISHAAWASADPGLHFNTTMNDWHTSPAAGPIRASNPCSEYMFLDDTACNLASLNLLQFKDQATKRIDIADYEHAVRLWTVVLEVSVMMAQFPSRQIAELSYEYRTLGLGYANIGGLLMSSGIPYDSAEGRAIAGALTAIMTGVSYATSAEMAGELGPFPGFAPNRDNMLRVIRNHRRAAHGQSEGYEGLSVNPVALIHGDCPDQDLIAHAIAAWDKALTLGEQHGYRNAQTTVIAPTGTIGLVMDCDTTGIEPDFALVKFKKLAGGGYFKIINRAVPDALRSLGYSESQIAEIEAYAVGHGNLNQAPGINPSTLKAKGFTDEKIEAVNGALKSAFDIKFVFNQWTLGADFLKETLKVSDEQLSDMSFNLLEHLGFGKKDIEAANVHVCGAMTLEGAPFLKAEHLPVFDCANPCGKIGKRYLSVESHIRMMAAAQPFISGAISKTINMPNDATVEDCGAAYMLSWKLALKANALYRDGSKLSQPLNASLVEDEDEEDLIEELIQQPAAQQAVTITEKIVERVIERVSREREKLPNRRQGYTQKATVGGHKVYLRTGEFGDGRIGEIFIDMHKEGAAFRAMMNNFAIAISLGLQYGVPLEEYVEAFTFTKFEPAGMVQGNDAIKNATSILDYVFRELAVSYLGRHDLAHVDTSDFSNTALGKGIQEGKTNLVSTGWTRGYKPTLVSSNGGERSSSEPKGSATAAPARASANVTSFAGSAARKLEPTVSIATSEIVSFKRDYEERARELAEEIAEEVIDDVVQEAQQTATALFSDKAAADAASAKTEAKKVENERRMRSIAQGYTGNMCSECQNFTMVRNGTCEKCDTCGATSGCS	PGPT0021340_115	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021340-nrdA|nrdE-K00525	NA	NA
BMS010_08597	1692			hypothetical protein	ATGGTTACTAAGCTGGTTCCGCCAACCCCTGCGACAATCATTGACTTCGGTGTTGTAGAAACAGGCATAAAAGAGCGTGAGACCTTTCAGGTCTCACGCGGATTGGCTTTTGCGAAGCTGGTTACGGAAACCATCTTTGGTGTTCCCGCAAAAGAAGTTGATGAACACATTGTGGATGGCGGAGCAGATCGAGGTATAGACATCATATACATCGATCACAACAACAAGATTATAAATATCGGCTCCTGCAAAACCGTTCTTGATTTTAGAAACTCCCACAAATTCTTCCCCGGAGAAGAAATAGATAAAATAATATCATTCATCGACGATGTTTTACTACACAGAGATGAGATAATATCTAGTTGCAACGGTCGACTGGCAGCCAAAATCCGTGAAATATGGGAAATTTTTTCAACTGAAGCTTACGAAGTAGCTGTTCACCTATTCTCCAATAAATCAACTTTACCGACCGACGCAAGAGAACGCTTATCAACAGCACTGAATCGTCATAATGTTTTACTGTTCGAATACGGCTTGTTTGAGCTTTCTCATGGGCTAGTTAAGGCAACTAAACCAAAATTTAAAAAGACGCTGAAGGGATGTGAATGCTCATCTGCTCCCGTCGAAGATTTAGGACGTCGCGCAATTATGGCGCGTGTAAGCCTAGAAGATGCTGCTAGATTTCTCACAGGAGAAAACGGCGGTTTCGATGAGCGTCTGGTTTGGCAAAATGTCAGGTATTTTCTCGGAATAGAGAACGAAGTTAACCGAGAAATAAAAGCTACTCTTCTGAATAGTCCTGTAGAGGATTTTTGGTATCTAAATTCCGGCCTCACTATTGTCTGTGAACAGATCTTGTCCAATCCAAATGGGTTCCATCCGATTCACATGGTAAACCCTCAGATTGTAAACGGCTGTCAGACAGCAACTGTTATTCAGAGTGTCAGCATCGGAACGATGCGAAACCTGAAAGGTGGCTTCATTCAGGTCAAAATAATTGAAACTAAAAGCCCCGAGTTTGTTGAGCGTATTGCGTTAGCGAGCAACACTCAAAGTCGGATTTTAAGCAGAGACCTGCGAGCTCACGATAATTTTCAACTCCAGATCGCTGAATGCTTGCGTTCACTGGGATATTTTTACTGCAGAAAACGGGGTGAGAGAAGCATAGCGACCGGACTTGAGGTGCTAGATTCGGCTCGAGTAGGACAGTTGATGCTCGCATATGTTTGTGGGGAACCTACAAAAAGCAAGACTAATTCAAACGAAGTTTTCGGAGACCTTTATCACGAGGCTTTCAATCCTCTTGCCGTAACGCCAAACATCATAGTTACTGCACATGAATGCTATAAAGAGATCGAGAAACGGAGGCAGCAAGCGCTTCACTGGCAATCGTCGGTATCTAAAAATTCATATGAAGAATCTTGGATAATCGAAGGCCATTTCCATGTGTTGTTCGTAGTTGGAGAGCTTTTGCGAAGAAAAAGAGGCAACTTAGGCCAAACCGATGATGCGCTGGCATTGTTAGATTCTGCCATATCAACTGTTCAGCAATTCGTGCTTCAACATAAAGGTATAGCGAGCTACAGGCTGTTCCGATTGACCTCGTCCAGAGAGGCAATTCTAAAGCTCTTGGACGGCTCCAATAGCGATCCTAATTTCTCATATCCAAAGCAGTTATCTCTCGACATATAA	MVTKLVPPTPATIIDFGVVETGIKERETFQVSRGLAFAKLVTETIFGVPAKEVDEHIVDGGADRGIDIIYIDHNNKIINIGSCKTVLDFRNSHKFFPGEEIDKIISFIDDVLLHRDEIISSCNGRLAAKIREIWEIFSTEAYEVAVHLFSNKSTLPTDARERLSTALNRHNVLLFEYGLFELSHGLVKATKPKFKKTLKGCECSSAPVEDLGRRAIMARVSLEDAARFLTGENGGFDERLVWQNVRYFLGIENEVNREIKATLLNSPVEDFWYLNSGLTIVCEQILSNPNGFHPIHMVNPQIVNGCQTATVIQSVSIGTMRNLKGGFIQVKIIETKSPEFVERIALASNTQSRILSRDLRAHDNFQLQIAECLRSLGYFYCRKRGERSIATGLEVLDSARVGQLMLAYVCGEPTKSKTNSNEVFGDLYHEAFNPLAVTPNIIVTAHECYKEIEKRRQQALHWQSSVSKNSYEESWIIEGHFHVLFVVGELLRRKRGNLGQTDDALALLDSAISTVQQFVLQHKGIASYRLFRLTSSREAILKLLDGSNSDPNFSYPKQLSLDI				NA	NA	NA	NA	NA
BMS010_08598	1326	mntH		Divalent metal cation transporter MntH	ATGGATAAGCCAGTCTTTGGATGGCGACGGAACGGCGACGATCTCTCGTTGTCCGACGTTCACAGCTCGATCCGCGTCAAACCGAATGCCGGCACGTTTCGCCGGGCGATGGCTTTTTTCGGCCCCGGCTATCTCGTTGCGGTCGGTTACATGGATCCCGGAAACTGGGCGACGTCGCTCGCCGGCGGCTCCAGATTCGGCTACACGCTGCTCACCGTCGCGCTGGTTTCCAACATCATGGCGATCGTGCTGCAATCGCTCTGCGCCCGTCTTGCGATCGCCTCCGGCCGCGATCTCGCCCAGGCTTGTCGTGATGCCTATCCGAAGCCGGTGGCGATGGTGCTGTGGCTGCTGGCCGAAATCGCCATCATTGCCACCGATATCGCCGAGGTGATCGGCACTGCCATCGGCCTCAACCTTATTTTCGGCATTCCGCTCGAACTCGGCGTCCTCATCACCGCGCTCGATGTATTCCTGATCCTTTATCTGCAAAAGCTCGGCTTCCGCTGGGTGGAGGCGCTGGTCATCACGCTGCTTGGCGTCATCGCGGTGTGTTTCGCCATTCAGGTGGCGCTGGCCGATCCTGACTGGGGGCAGGTGATCCTTGGTTTTGCGCCGACGACCGAGATCGTCACCAATCCGGACATGCTCTATCTGGCGCTTGGCATTCTCGGCGCCACCGTCATGCCGCATAATCTCTATCTGCATTCGGGCATCGTGCAGACCCGCGAAATCGGCGAGACAATTGCCGAAAAGCGCGAGGCGCTGAAATTCGCCACGCTCGATTCCACCATCGCGCTGATGTTCGCGCTTCTCATCAACGCCTCGATCCTCATTCTGGCGGCGGCGACCTTCAACAAGGCGGGGCAGACGACCGTTGCCGAACTCGGCGAAGCCCACAATCTGCTGGCACCGCTGCTCGGCCTTGCCATTGCGCCGACACTATTCGGCGTGGCGCTTTTGTGCTGCGGCATCAACTCCACCGTCACGGCAACGCTTGCCGGCCAGATCGTGATGGAAGGTTTCCTCAAGATGCGGCTCGCCCCCTGGCTACGCCGCCTGATCACCCGCGCCATCGCCATCGTTCCCGCCGCCGCCGTCACCATCTTCTATGGCGATAGCGGCACGGCGGAACTGCTGATCCTGACGCAGGTGGTGCTCAGCCTGCAACTCTCCTTCGCGGTCTTCCCACTCGTGATGTTCACCGCCGATAAGGCCAAGATGGGCGAGCTGCGCTCACCGCTCTGGCTCTCGGCCTTTGCGTGGTTAATTGCGGTGGTGATTGCGGCGCTGAATGTGAAGCTGTTGCTGGATTTTATGGGGTGA	MDKPVFGWRRNGDDLSLSDVHSSIRVKPNAGTFRRAMAFFGPGYLVAVGYMDPGNWATSLAGGSRFGYTLLTVALVSNIMAIVLQSLCARLAIASGRDLAQACRDAYPKPVAMVLWLLAEIAIIATDIAEVIGTAIGLNLIFGIPLELGVLITALDVFLILYLQKLGFRWVEALVITLLGVIAVCFAIQVALADPDWGQVILGFAPTTEIVTNPDMLYLALGILGATVMPHNLYLHSGIVQTREIGETIAEKREALKFATLDSTIALMFALLINASILILAAATFNKAGQTTVAELGEAHNLLAPLLGLAIAPTLFGVALLCCGINSTVTATLAGQIVMEGFLKMRLAPWLRRLITRAIAIVPAAAVTIFYGDSGTAELLILTQVVLSLQLSFAVFPLVMFTADKAKMGELRSPLWLSAFAWLIAVVIAALNVKLLLDFMG	PGPT0004370_1030	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MNT_TRANSPORT_SYSTEM,PGPT0004370-mntH-K03322	NA	NA
BMS010_08599	228			hypothetical protein	ATGCGACAGGGCCACAAATTCAGCCTGGTGAACCATCCGAGCCGATGGCCGAAATATATCATGGCGCACAGAAAGCCGCGCGACTGGCTGATGACGATCAGCGGCATCGTGCTGCTGTTCATCGTCGCCGCCGCGGTCGCCATGGGTTATCTCGTCACCAGCCATCCCGGCAAGCCGGAGCCCAACCCCGGTATCGTGGAGGAACAGGCAGCGGAAAACAGCGGATAG	MRQGHKFSLVNHPSRWPKYIMAHRKPRDWLMTISGIVLLFIVAAAVAMGYLVTSHPGKPEPNPGIVEEQAAENSG				NA	NA	NA	NA	NA
BMS010_08600	1734		COG1132	Putative multidrug export ATP-binding/permease protein	ATGCTCCGCCGTTTCTTCGCTTATTATCGCCCCTATCGCGGTCTGTTCATTCTCGATTTTTCCTGCGCTGTCCTGTCGGGCGTACTGGAACTCGGCTTTCCGATGGCGGTGAAGGCCTTTGTCGACGTGCTGCTGCCGGGCGGTGAATGGGCTATCATCCTGGCCGCCTCCGTCGGGCTGCTCCTCATCTATGTACTGAATACCGGATTGATGGCGACTGTCACCTACTGGGGACACATGCTCGGTATCAATATCGAAACCGACATGCGCCGGCTGGCCTTCGATCATCTGCAGAAGCTCTCCTTCCGGTATTTCGACAACCAGAAGACCGGCCATCTGGTCGGACGGCTGACCAAGGATCTGGAAGAAATCGGCGAGGTGGCCCACCATGGGCCCGAAGACCTGTTCATCGCCATCATGACCTTCATCGGCGCGTTCCTGCTGATGCTGTCGGTCAATGTGCCGCTGGCGCTCATCACCGCCGCCGTCGTGCCCGTTACCGCCTGGGTGACCAGCCGTTACGGTGGCCGCATGACGCAGAATTTTCGCGCGCTTTACGGCCGGGTCGGCGACTTCAACGCCCGTATCGAGGAAAATGTCGGCGGCATGCGGGTGGTGCAGGCCTTCGCCAATGAGGATCACGAGCGGGCGCTGTTCGAGAAGGACAATCAGAAATACCGCCGCACCAAGCTCGATGCCTACAAGATCATGGCGGCCAGCACCTCGCTAAGCTACATGAGCATGCGGCTGACGCAGATGATCGTGATGATCTGCGGCGCCTGGTTCGTGCTGACGGGCAGCCTGACCGAAGGCGGCTTTGTCGGCTTCCTGCTGCTGGTGGGCGTGTTTTTCCGGCCGGTGGAAAAGATCAATTCGGTCATCGAGACCTATCCAAAGGGCATTGCCGGTTTCCGCCGCTTCACCGAGCTTTTGGACACCGCGCCCGATATCGTCGATGCGCCGGATGCGGTGGAAGCGCCGCTGCTGCGCGGCAATATTGAATATCGCCATGTCGGTTTCGGTTATGCCGAGGGCAAGACGGTTCTTACCAATATCGACCTGAAGATCAGCGCCGGTGAGACGGTGGCCTTTGTCGGTCCTTCGGGGGCGGGTAAGACGACGCTGTGCTCGCTTTTGCCGCGTTTTTACGACGTCACCAGCGGCGCGATCACCATTGACGGCATTGATATCCGCAAGATGAAGCTTGCTTCGCTACGCAACCAGATCGGCATCGTGCAGCAGGATGTCTTCCTGTTCGGCGGCACGATCCGCGAGAATATCGAATATGGCAGGCTCGGCGCTTCGGATGCGGATATCATGGATGCGGCGCGGCGCGCCCGTCTCGATGGCGTCATCGAGGCCATGCCGCTCGGGCTCGACACCGTCATCGGTGAGCGCGGCGTCAAGCTTTCCGGCGGCCAGAAACAGCGTCTCGCCATTGCCCGCATGTTCCTGAAGAACCCGCCGATCCTCATTCTCGATGAGGCGACCTCGGCGCTCGACACGGAAACCGAACGCGCCATCCAGCAATCGCTGACGGAGCTTGCCAAAGGCCGCACCACGCTCGTCATCGCTCACCGGCTGGCGACGATCCGCGATGCCTCGCGCATCGTGGTGGTGGACCAATCTGGCATTGCCGAAACTGGCGCCCATGCCGAGCTGCTGGCCGCCAAGGGCCATTACAGCCGGCTGCACGAGGCGCAGTTCAGCGGGCACCTTGCGGGCCTGAGCTGA	MLRRFFAYYRPYRGLFILDFSCAVLSGVLELGFPMAVKAFVDVLLPGGEWAIILAASVGLLLIYVLNTGLMATVTYWGHMLGINIETDMRRLAFDHLQKLSFRYFDNQKTGHLVGRLTKDLEEIGEVAHHGPEDLFIAIMTFIGAFLLMLSVNVPLALITAAVVPVTAWVTSRYGGRMTQNFRALYGRVGDFNARIEENVGGMRVVQAFANEDHERALFEKDNQKYRRTKLDAYKIMAASTSLSYMSMRLTQMIVMICGAWFVLTGSLTEGGFVGFLLLVGVFFRPVEKINSVIETYPKGIAGFRRFTELLDTAPDIVDAPDAVEAPLLRGNIEYRHVGFGYAEGKTVLTNIDLKISAGETVAFVGPSGAGKTTLCSLLPRFYDVTSGAITIDGIDIRKMKLASLRNQIGIVQQDVFLFGGTIRENIEYGRLGASDADIMDAARRARLDGVIEAMPLGLDTVIGERGVKLSGGQKQRLAIARMFLKNPPILILDEATSALDTETERAIQQSLTELAKGRTTLVIAHRLATIRDASRIVVVDQSGIAETGAHAELLAAKGHYSRLHEAQFSGHLAGLS				NA	NA	NA	NA	NA
BMS010_08601	1239			hypothetical protein	GTGAGTAACATTGACAGCCGTAAGCCCAGTGGCGAACCGAGATGGCTTGGTCCCGCCAGCCCGACGCGGATCGCCCTGATCCCGCCCATCTCGGCTGCGCGCTGGCTTCTCGTTCTCGTCGCCCTTGCCGGCATTTATTTCTTCCATGGCTTTCTCGTCCCCGTTCTCGCCGCTCTCGTCATCGGTTTCGCCAGCTGGCCAGTTTATACCCGGCTTCTGCGGCAGGTGGGCGGCAACACCACGCTCGGCGCCACCATCGCCATCATCCTCATCCTCGCCTTCCTCGTGGTGCCGATTTTCATCGCCGCCTCCTATACGGCAAGCGAAATCCGCGAATGGTTCGGCTGGGCGGTGCATGTTAACAAGACCGGCGCCCCCGTGCCGGACTGGATCGCCGCCCTTCCCGCCGTCGGCCCCTGGCTCGGCGAACAATGGGTGAAATATATCGGCACGCCGGGCGCCATCGGCGAACTCATCCAGCTCGTCAGCGGCGCCAATATCGGCAATATCTACCGGGCGATCCTCGCCGCCGGCAACGGCGCGTTCCACCTGGTGCTGACCCTGCTGTTCATGCTGATCGCGCTGTTCTTCGTCTACCGCAACGGCGCAGGCTTCACCCGGCAGGTCGATCTGGTGGGCGAACGCATCCTGCCGACGCGATGGGAACGCATTTCCCGCGTCGTGCCCGCCACCATCAGTTCCACCGTGACGGGCATGACGCTGATCGCCATCGGTGAAGGCATCATCCTCGGCATCGCCTACTGGATCGCCGGCGTGCCCTCGCCCGTCACGCTCGGCGTGCTCACAGGCGTCATGGCGCTCATTCCGGGCGGTGCGCCGCTCTCGTTTACGCTGGTGTCGATCTATCTGGTCGCCAGCGGCTCGCCCGCCCACGGGCTGGCGCTGTTCGTCTGGGGTTCGGTGGAACTCTTCATCGTCGACAAGACCATCCGTCCGAAACTCGTCGGCGGGCCGATCAAACTGCCCTTCCTGCCCACCTTTTTCGGCCTCGTCGGCGGCGTCAAGACCATGGGCTTCCTCGGCCTCTTCATCGGCCCGGTGCTGATGGCGCTCCTGGTCGCGATCTGGCGCGAGTGGGTACGTGAGGTGGAAATCTCCGCCGCCGCCAGCGCCGAGGTTCCGCCCCCACCGCCCACGCAGGAAAACGCCGTTGATGAGGTTGCCGCGCTCGAAGACAATAGCGAAGAAACGACGGCGTTTCGGAAAGCGGCGTTTTGA	MSNIDSRKPSGEPRWLGPASPTRIALIPPISAARWLLVLVALAGIYFFHGFLVPVLAALVIGFASWPVYTRLLRQVGGNTTLGATIAIILILAFLVVPIFIAASYTASEIREWFGWAVHVNKTGAPVPDWIAALPAVGPWLGEQWVKYIGTPGAIGELIQLVSGANIGNIYRAILAAGNGAFHLVLTLLFMLIALFFVYRNGAGFTRQVDLVGERILPTRWERISRVVPATISSTVTGMTLIAIGEGIILGIAYWIAGVPSPVTLGVLTGVMALIPGGAPLSFTLVSIYLVASGSPAHGLALFVWGSVELFIVDKTIRPKLVGGPIKLPFLPTFFGLVGGVKTMGFLGLFIGPVLMALLVAIWREWVREVEISAAASAEVPPPPPTQENAVDEVAALEDNSEETTAFRKAAF				NA	NA	NA	NA	NA
BMS010_08602	1314			hypothetical protein	ATGCAATTCCAACTGTGCATTGCCGGACACTGGAACCGCATCCCGACGCCACCCGCCAGCCTGGGCTACTACGTCTGCGGCGACCGCAATTGCCGCGGCCCATTGGCCGGCCCCGTGTACGAAATCGCGCCCGGCCCGACACTGGCCGCGCAGCATCGCACCAGCGGCCCGTTCTATTACCGCTGCACCAACGGCCACTGGTCGGTGACCGACGAACGCCTGCGGGGGCCCGATGCCGAGCGCCTGGCGGTCTGCGGGCATCCCGGATGTGCCGCGGGTCTGGCCAGCCACGCCAGCACCGACCGCCCAACCGCCCCGCTCTATGCCCTCGTCAGTGCTATCGCCGATCTGCGCGATCTGCACGCCCCGGTCACCGACAAGCACAAGACTGGCGGCGAGGTCGACCTCTACGATCAGCAGGTGTTCAAGTACCTCTTCAGCTTCGCCCGACAGAAGTTCACCGCCGACGGCAGCGTCGACTTCCTCGTCGGCGACATCCGCTACGCCGTCTTGCGCTCGCCGTCCCGCGAGTTTCCGCTGCACCCGTACTGCTATCCCTCGCTGCGCGCCGACGGTGGCGATTGCCACGCCGACGCACGCTACGAAGACATCGGCCGCCAACTCATGCAATACACGCCGGACTTCATCGACAGCCTGCTCACCGTGGCCATCCGCGTGATGAAGCAGAAGCACACCCGCGACGACATCGCCTGCATCGCCAACATCTGCAACAACGTCGACCTGATCCTCTCGCCCCGCCGCACCGTCCTCCCGGTGCGCTGGCATCCGCTCTCGCTGTTGTGCGTACTGGTGGGCAGCGCCGCCGCCGAGACCGGCCGGGGCCTGGTGGGGTTCGTCAACGTGCTGGCGGCCTTCCATCACATCAAGCACGACGCGAGGAAAGCCTGGAACAACTGGGCTCACGTGATCGGCCAACCCGGCGCCGACTTCGACAGGAACACCAATCGTTTCCTGGACCAGACGAAACAAGGAATCGAGAACGTCTATCCCAGCAGCTACACCTTCAACGGCAGCGAAGCGAAACGCAACAGCGTCGGCTTCAGCGGTTCGGAACGGATGATCAAGGCCGCCAGCGGCGAAGTCTCCGGCAGCAGCATCCCGCCGGAAAACGAGAGCAAGTGGCGCGCCTACAAGGAATTCGTCAAACGCGACATCAACCACTTCGCCAAATGGCAGGGCCCGGACTATCGCATCCTCGGCCCAGGCAGCCCGCCGTCAGCGGATACAACGGAGAACTTCGAACGCAAGGTGCTGCGGCATTTGCAGCTCCTGTTCGGCGGGCGGGGCCATTAG	MQFQLCIAGHWNRIPTPPASLGYYVCGDRNCRGPLAGPVYEIAPGPTLAAQHRTSGPFYYRCTNGHWSVTDERLRGPDAERLAVCGHPGCAAGLASHASTDRPTAPLYALVSAIADLRDLHAPVTDKHKTGGEVDLYDQQVFKYLFSFARQKFTADGSVDFLVGDIRYAVLRSPSREFPLHPYCYPSLRADGGDCHADARYEDIGRQLMQYTPDFIDSLLTVAIRVMKQKHTRDDIACIANICNNVDLILSPRRTVLPVRWHPLSLLCVLVGSAAAETGRGLVGFVNVLAAFHHIKHDARKAWNNWAHVIGQPGADFDRNTNRFLDQTKQGIENVYPSSYTFNGSEAKRNSVGFSGSERMIKAASGEVSGSSIPPENESKWRAYKEFVKRDINHFAKWQGPDYRILGPGSPPSADTTENFERKVLRHLQLLFGGRGH				NA	NA	NA	NA	NA
BMS010_08603	429			hypothetical protein	ATGTCCGAATTGAACCTGCACCCCCAGGCCGCCGCTTCGTTGCAACACTGGCACGGAATGATCGACCGGCGCGACCTGTCGTCACTGCCCGAGCTGCTGGCGGAGAGCGTGGTGTTCCGTTCGCCCATGGCGCATACGCCATACCAGGGGGCGCCGGTGGTTTCGGCCATCCTCAATACAGTGATCCAGGTCTTCGAGGATTTCCGCTACCACCGCCAGTTGGCCACGGCCGATGGCTTGAGCGTGGTGCTGGAGTTCAGTGCCCGGGTCAACGGGCGCGAATTGAAGGGCATCGACATGATCCGTTTCGACGAGCAGGGAAAGATCGTCGAGTTCGAAGTCATGGTCCGCCCCATGAGCGGCTTGCAGGCGCTCGGCGAGGAAATGGGGCGGCGGTTGGGGGCCTACTTGGCGGCGGCCAAGGGCTAA	MSELNLHPQAAASLQHWHGMIDRRDLSSLPELLAESVVFRSPMAHTPYQGAPVVSAILNTVIQVFEDFRYHRQLATADGLSVVLEFSARVNGRELKGIDMIRFDEQGKIVEFEVMVRPMSGLQALGEEMGRRLGAYLAAAKG	PGPT0006070_15	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006070-paaG-K15866	NA	NA
BMS010_08604	657			hypothetical protein	TTGCTGGAGTCGGCTGCCGTTTCGACGATAGCGACAAAATATGGCGCCACGCACAATGGCAACCCGAACGAACCGCCTCTATCTCACCGAGACCACCATGCCCACGATCCCCGCTGCTTTTTCCCGTCGCCCGTCCCGCTGGGAGCCCAGGCCGTGAGCGGGGCCATGGTCGAGTGGGTGCAGACCGGCCCGGAGCAGGCCGAGCTGATCCGTAACCTGTACCAGTTCTACGCCTACGAGTCCTCGGACTGGGAGCAGGAGGACGTAGAGCTGGATGGCCGTTTCTATATCCATGAGGCGCATCTGGCACGTTATTGGCGGGAGCCGGGCTGGAGCGCCAATCTGATCCTGGTGGATGGTTTCATTGCCGGTTTTTTGCTGATCGAGCGTAGCGAGTTGCCGGGTGTGGAGGCCCTGGAACTGGCGGATCTGTTCGTCTTGAAGAAATATCGGCGGCAGGGGATCGGCCGGGCGCTGGCCGTGCAGGTGCTGTCGAGCGGCGAGAGCGATTGGCTGGTGCGCTTCTACCGCCAGGACGAAACGGCGCTGGCCTTCTGGCGCGCGGTGCTGACCGAGTTGCCCAGGCCGCTGCATATCCTCGAGCCGGATGACGACCCGCAGCTGCTGACGTTCCTGATTCCCCGGACGACCCACTGA	MLESAAVSTIATKYGATHNGNPNEPPLSHRDHHAHDPRCFFPSPVPLGAQAVSGAMVEWVQTGPEQAELIRNLYQFYAYESSDWEQEDVELDGRFYIHEAHLARYWREPGWSANLILVDGFIAGFLLIERSELPGVEALELADLFVLKKYRRQGIGRALAVQVLSSGESDWLVRFYRQDETALAFWRAVLTELPRPLHILEPDDDPQLLTFLIPRTTH				NA	NA	NA	NA	NA
BMS010_08605	474			hypothetical protein	ATGACTACTCCCAAGAAAGCCGCGTTGCTGGCCTTGCTTGGCGCCTCGTTCGTGACGGCCGGCGCCTGGGCGGCGGAGCCCGCCTTCATTGCCGCCAAATCGTCCGAGCTGAACTGGGTTCCCGCGCCGTCGGTGGGGCCCGGGGCGATGCTCGCTGTGATCGAAGGCGATCCCAAGACCGGCGACCCCTTCACCATGCGCCTGAAGCTGCCGGCGAACACCCGGATCGGTGTGCATACCCATCCGGTGACCGAGCGTGTCACGGTGATCTCGGGCACGTTCTACTTCGCCACCGGCGACAAGTTCGACGATACCCAGGCTGCTGCCTATCAGGCGGGTGACATGTTGGTCATTCCGGCCGGCATGCCGATGTTCGCCGGCACCAAAGAGGGGGAGGCCGAGTTGCAGTTGCACGGTGCGGGCCCTTGGGGCATCAGCTATCTCGATCCGGCGGACGATCCCAGGAAGCAATGA	MTTPKKAALLALLGASFVTAGAWAAEPAFIAAKSSELNWVPAPSVGPGAMLAVIEGDPKTGDPFTMRLKLPANTRIGVHTHPVTERVTVISGTFYFATGDKFDDTQAAAYQAGDMLVIPAGMPMFAGTKEGEAELQLHGAGPWGISYLDPADDPRKQ				NA	NA	NA	NA	NA
BMS010_08606	504			hypothetical protein	ATGGATGACGTTTTCACCCCCACCCATTTCCTCCGCCACAACCGCCCCCTGCGTGCCGTTCTGATCGACGATCAGCCCTGGTTCGTTGCCCGCGACCTTGCTCTGTTGATCGGTCACAAGTTGGAGGACCGTATCGTCCACCGGCTGGATGCCGACCAGACGCGCACGGTCGCCCTCGTCTATGCCGCTGGCGAGCCCCAGCCGACGCTGATGATCAGCGAGTCCGGCCTTTATGCGGCGCTGATTTATTACCGCCACCCGGAGAACCGCAGCCTGCGCCGGTGGATCACCGGCGAGGTGGTGCCGGCGTTGCGGGGCGAGCCGATGAAACCGGAGCCACGGCGCAGTCTGCTGCGCTGGGAGCGGCAGGAGGTGGCGTTGTTGCACTGGCAGGATTGTTTGTGGGTGCGGTTCAGCGATATGCCGTTCCTGCTGGAGTCGGGCTACCCGCGAGCGAAGATGCGGCGGCCGCGGTTGCTGGGGTTGTGGGGGCGGCGGTCGTGA	MDDVFTPTHFLRHNRPLRAVLIDDQPWFVARDLALLIGHKLEDRIVHRLDADQTRTVALVYAAGEPQPTLMISESGLYAALIYYRHPENRSLRRWITGEVVPALRGEPMKPEPRRSLLRWERQEVALLHWQDCLWVRFSDMPFLLESGYPRAKMRRPRLLGLWGRRS				NA	NA	NA	NA	NA
BMS010_08608	1077			hypothetical protein	ATGACCATAAATAATATCTATGCGTTCTACAACAACAAAGGCGGCGTTGGAAAAACAACCCTTTGCCAAAATGCTGCCTGTCTATATGCGGAACAGAACCCAAGCAAGCTGGTATTAGTTATTGATTTATGTCCACAAGCAAATATTTCTCAGTTTTTATTAGGCGGCGGGCATGTAGGTTATACGGCAAACCAACGACTTCAGTCCACAGCCTCACGCAGAAATATTGTTGGCTTCATGGACTGGATGTTAGCGGGAAACTCTGGATTTACGAGCACCCCTACGAGTTACATGACACAAATTTCACCACACAACCCCAACGTCACAGATAATCTATATCTAATTGCAGGCGACTCCTTTTTAGAATCCTTAACACTTGCACTCAATTTCGCAACCATGAACCCTGCAAACATATTTGCATGGCAAGAATATGTAACAGCCATACGCAGGCTGTGCGAACTTGAACTACAGAGAACTTCCTTTAGCGAGATGACAGTATTTATTGATTGCAACCCCAGCTTTTCAATATATACACAAATGGCCCTCGTATCATCTGATGCACTAATCATTCCCATGATGGCGGACTTCAGTTCCCTAGAAGGAATCAAAGGAATTCTCATGCTATTGTATGGGAGATACCCATCAGCAGCAGTTAAAAACTACGCCAGCAAGGTTGTAACCTTTAACCGGCAAATACAGCAATTTAAATTGTCATTACCAAAAATATTTGAGCTCCCCTTCAACAACTTCACAACAAATCTTGGTGTCGCCACAGCCTTTGACTCAGTCAGAGAAGAGCTCATTAACTTTGTCTGGGACCAGTATAAAACCGACCCGAGTATTTTCTGGCCAACCACTACCTCTTTAACATCACCCAAAGACTTGGAAGATTTCTTCGTCTCCAATGTGAAAGACTTCCATACAGCAGGAAAAGTATCTGCGAGTCTAGGAATTCCTCTCCATCGGCTCCCCGACCACAATAACTACATCATGCCAAATGGGGAAACGGTCAAAATTCCTGGAAGGAATTATAAAGAATCGCTAAGTCACCTCCAGAGCTTCGTTGAGAAACTTTAA	MTINNIYAFYNNKGGVGKTTLCQNAACLYAEQNPSKLVLVIDLCPQANISQFLLGGGHVGYTANQRLQSTASRRNIVGFMDWMLAGNSGFTSTPTSYMTQISPHNPNVTDNLYLIAGDSFLESLTLALNFATMNPANIFAWQEYVTAIRRLCELELQRTSFSEMTVFIDCNPSFSIYTQMALVSSDALIIPMMADFSSLEGIKGILMLLYGRYPSAAVKNYASKVVTFNRQIQQFKLSLPKIFELPFNNFTTNLGVATAFDSVREELINFVWDQYKTDPSIFWPTTTSLTSPKDLEDFFVSNVKDFHTAGKVSASLGIPLHRLPDHNNYIMPNGETVKIPGRNYKESLSHLQSFVEKL				NA	NA	NA	NA	NA
BMS010_08609	804			hypothetical protein	ATGGACCGTTACCACCGGCTCCCCACCTGGATATCCGTTTTCCTACTCGCCTGCGCCAGCCTGAGTCAGCCAGCCTGGGCCGATGATGCCCAGCCATGTAGCAGCGAGTTGCTTCACTCCCTCGGCGAGCAACTGGGCCAGGAGGGGTGGAACGTACCTGGCGAGTCGGAAGGCCGGGTCATCGCCGCGGCCTGCAAGCGCTGGCCGGACGACCCGGCGCAGACCGTCGTGGCGGTCGCCTATCTCGATTCGACGGACGATGCGCCACCCGGCGAACGCTCTCCTCGCCTGCTTCTGGGCAAGGTGGAGGGGGCGTCCGGCGTGCTTCGGGAGCGCTACGAGACACGTCTGGAAGAAGACGCAGCCACCGAGGTCGCCAGCGACAGCCTGTGGCTGGACACCGCGCGCTATCACCTGGCTCCCGGTGTGCGGGCGTTCGGTGTGGTGTTTCGCAGCGTCGCCCGTGGCGCCAGTTGCCCGGACGGGGGGTTTGACGATTTGCTCACCCTGGTGGTGCCTGACGCTGGCCAATTGCGCCCGGTGTTTTCCACCTACCTCAGCCAGTGGACGACAGTGAAAGGCACATCCTGCGTTTCGGACAGCGGTTTCGAGATGGAGGCCTCGCGTCTCACTCTCGGTATCGGCCCGAACCGCTCCAACGGCTACGCGGACCTGATCGTGACCTCGCGGGTACGCAACGATTTCGAAGGCGGCGATGTGCTGCGCACCGTTAGCGAGACGGTTCGCTATGACGGCACTCGCTATCCGTTCGAGGAGTTTTCCAATTTCTGGCAGCGGCAGTAA	MDRYHRLPTWISVFLLACASLSQPAWADDAQPCSSELLHSLGEQLGQEGWNVPGESEGRVIAAACKRWPDDPAQTVVAVAYLDSTDDAPPGERSPRLLLGKVEGASGVLRERYETRLEEDAATEVASDSLWLDTARYHLAPGVRAFGVVFRSVARGASCPDGGFDDLLTLVVPDAGQLRPVFSTYLSQWTTVKGTSCVSDSGFEMEASRLTLGIGPNRSNGYADLIVTSRVRNDFEGGDVLRTVSETVRYDGTRYPFEEFSNFWQRQ				NA	NA	NA	NA	NA
BMS010_08610	1338	hmp_3		Flavohemoprotein	ATGAAAAACATCAAGATCACCCTGTGGGCGCTGCTGATCGGCATGACGCTGTTCTGGGCGCTCGCCGATACCTTCCTGCCGCAACCGCTGACCTACTTCTCCCTGCGCCATGTGCTGGTGCAGTACACCGGCGTCATGGCCATGGCGGCGATGAGCGTGGCCATGCTGCTGGCCGTCCGTCCCCGCATGCCCGAGCGCTGGCTGGGCGGCCTGGACAAGATGTACCGGCTGCACAAGTGGCTCGGCATCGGCGCACTGGTGTTCGGCACCGTCCATTGGCTGTGGGCCCAGGGCACCAAATGGGCGGTGGGCTGGGGCTGGCTGACCCGTCCGGCGCGCGGGCAGGGCGGTGGGCAAAGCCCGGGTACCCTGGAGCAGCTATTGCGTAGCCAGCGCGGGCTGGCCGAGACGCTCGGCGAATGGGCGTTCTATGTCATGGCGCTGCTGCTCGTACTGGCCCTGGCCAAGCGCTTTCCCTACCACTGGTTCGCCAAGACGCACAGGCTGCTGGCCGCGCTCTACCTCGTGCTGGTGTTCCACTCGGTGGTGCTGATCGAGGTCGACTACTGGGCCCAGCCGGTCGGCCTGCTCATGGCGCTGCTGATGCTCGGCGGCAGCCTCGCGGCATTCCGGTCGCTGGCCAAGGGCATCGGCGCCGGACGCAAGGTGAAGGGCGCGATCCGCTCGCTGATCCACTACCCGGAGCTGGATGTACTGGAAACCTGCATCGACCTGCAACCGGGTTGGGCGGGACACCAGGCCGGGCAGTTCGCTTTCGTGACCTCTTCCCGGCGCGAAGGCGCGCACCCGTACACCATCGCCTCGGCCTGGGATGCCCAGCAGCCGCGGATTACCTTCATCACCAAGGCGCTTGGCGACCATACCCGCCGCCTGCCGCATACCCTCGAGGTGGGAACCGCTGTGACGGTGGAGGGCCCCTATGGCTGCTTCACCTTCGAGGACCGCAAGGCGCGGCAGATATGGATTGGCGCCGGCATTGGCATCACGCCCTTCGTCGCGCGCATGAAGCAACTCGCCCGGACGCCGGACCGCCAGCACCTTATCGACCTGTTCCATCCCACCGGGCAGTACTCGCCCGAAGCGATCGGCAAACTGCGCGCCGATGCGGAGGCAGCCAGGGTCAGGCTGCACCTGCTGATCGCCGACCAGAATGACCGCCTCAGCGGCGAGCGGCTCCGCGAGGAGCTGCCGGACTGGCGCGACGCGAGCTTCTGGTTCTGTGGCCCGCCCGGCTTCGGCACAGCGCTGCGTGACGATCTGGTGGACCATGGCCTGGACCCGGCGGACTTCCACCAGGAGCTGTTTCAGCTTCGCTGA	MKNIKITLWALLIGMTLFWALADTFLPQPLTYFSLRHVLVQYTGVMAMAAMSVAMLLAVRPRMPERWLGGLDKMYRLHKWLGIGALVFGTVHWLWAQGTKWAVGWGWLTRPARGQGGGQSPGTLEQLLRSQRGLAETLGEWAFYVMALLLVLALAKRFPYHWFAKTHRLLAALYLVLVFHSVVLIEVDYWAQPVGLLMALLMLGGSLAAFRSLAKGIGAGRKVKGAIRSLIHYPELDVLETCIDLQPGWAGHQAGQFAFVTSSRREGAHPYTIASAWDAQQPRITFITKALGDHTRRLPHTLEVGTAVTVEGPYGCFTFEDRKARQIWIGAGIGITPFVARMKQLARTPDRQHLIDLFHPTGQYSPEAIGKLRADAEAARVRLHLLIADQNDRLSGERLREELPDWRDASFWFCGPPGFGTALRDDLVDHGLDPADFHQELFQLR				NA	NA	NA	NA	NA
BMS010_08611	210			hypothetical protein	ATGGCGAAGAAATTTCCCCTCAACCCCAGCCACCCCGAGCGAATCTGCTGGGGCTGCGACCGCTACTGCCCGACCAGCGACCTTGCCTGCGGCAACGGCACCACCCGCACCATGCACCCGGCGGAAATGATGGGCGAGGACTGGTACCAGTTCGGCGACTGGGGCATCGAAGTGATCGAGGTGAAGGAAGAAGAACCGAACCAGGCGTGA	MAKKFPLNPSHPERICWGCDRYCPTSDLACGNGTTRTMHPAEMMGEDWYQFGDWGIEVIEVKEEEPNQA				NA	NA	NA	NA	NA
BMS010_08612	1092	gutB	COG1063	Sorbitol dehydrogenase	ATGACAGCTTCTATCGATACCGCCAGCATGCGCGCGGCGGTCTGGCACGGCCGTAACGACATCCGCGTGGAAAACGTCCCGCTGCCGGGCGACCCGCCGCCCGGTTGGGTGCAGATTCGCGTGCACTGGTGCGGCATCTGCGGCTCGGACCTGCACGAATACCTCGCCGGGCCGGTGTTCATTCCAGTGGAGGCGCCGCACCCGCTCACCGGCATCAAGGGTCAGTGCATCCTCGGCCACGAATTCTGTGGCGAGATCGCCCGGCTCGGCGACGGCGTGCAGGGCTTCGCCGTGGGCGAGCGGGTCGCTGCCGATGCCTGCCAGCATTGCGGCACCTGCTACTACTGCACCCATGGCCTGTACAACCTCTGCGAGAACCTGGCCTTCACTGGCCTGATGAACAATGGCGCCTTTGCCGAATGGGTGAACGTGCCGGCCAACCTGCTCTACACGCTGCCGGCGGACTTCCCCAGCGAGGCCGGCGCGTTGATCGAGCCGCTGGCGGTGGGCATGCACGCGGTGAAAAAAGCCGGCAGCCTGCTCGGGCGCAACGTGGTGGTGGTCGGCGCCGGCACCATCGGGCTGTGCACCATCATGTGTGCCAAGGCGGCCGGCGCGGCGCAGGTGATCGCCCTGGAAATGTCCTCGGCACGCAAGGCCAAGGCGAAGGAGGTGGGCGCCAGCCACGTGCTCGACCCCAACGAATGCGACGTCCTCGCCGAAATCCGCGCGCTCACCGGCGGGCTGGGGGCGGACGTCAGCTTCGAGTGCATCGGCAACAAGCGCACCGCCAAGCTGGCCATCGATACCATCCGCAAGGCCGGCATCTGCGTGCTGGTGGGCATCTTCGAAGAGCCCAGCGAGTTCAACTTCTTCGAGCTGGTGGCCACCGAGAAACAGGTGATCGGCGCGCTGGCCTACAACGGCGAATTCGCCGACGTGATCGCCTTCATCGCCGACGGCCGCCTGGACATCACCCCGCTGGTCACCGGGCGCATCGGCCTGGAGCAGATCGTCAGCCAGGGCTTCGAGGAACTGGTGCACAACAAGGAACACAACGTGAAGATCATCGTCTCGCCCACCGGCACCTGA	MTASIDTASMRAAVWHGRNDIRVENVPLPGDPPPGWVQIRVHWCGICGSDLHEYLAGPVFIPVEAPHPLTGIKGQCILGHEFCGEIARLGDGVQGFAVGERVAADACQHCGTCYYCTHGLYNLCENLAFTGLMNNGAFAEWVNVPANLLYTLPADFPSEAGALIEPLAVGMHAVKKAGSLLGRNVVVVGAGTIGLCTIMCAKAAGAAQVIALEMSSARKAKAKEVGASHVLDPNECDVLAEIRALTGGLGADVSFECIGNKRTAKLAIDTIRKAGICVLVGIFEEPSEFNFFELVATEKQVIGALAYNGEFADVIAFIADGRLDITPLVTGRIGLEQIVSQGFEELVHNKEHNVKIIVSPTGT	PGPT0008200_158	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008200-butB-K00004	NA	NA
BMS010_08613	1113	acoC		Dihydrolipoyllysine-residue acetyltransferase component of acetoin cleaving system	ATGAGCCAGATCCATACCCTGACCATGCCCAAGTGGGGCCTGTCCATGACCGAGGGCCGGGTGGACGCCTGGCTGAAGAACGAGGGCGATCTCATCGAGAAGGGCGAGGACGTGCTCGACGTCGAGACCGACAAGATTTCCAGCAGCGTCGAGGCGCCGTTCACCGGCGTGCTGCGGCGCAAGGTAGCCCGTGAGGACGAGACCCTGCCGGTGGGCGCGCTGCTGGCGGTGGTGGTGGAAGGCGAGGTGAGCGATGCCGAGATCGACGCGGTGGTCGAGCGCTTCCAGGCCGAATTCGTGCCTGGTGGCGAGGAGGGCGAAGAGGCCGGCCCGGCGCCGCGCAAAGTGGAGTTGGACGGCCGCAGCATTCGCTTCTTCGACCGCGGCGAGGGCGGTACGCCGCTGGTGCTGGTGCACGGCTTCGGCGGCGACCTGAACAACTGGCTGTTCAACCATGAGGCGCTGGCCTCCGAGCGCCGGGTGATCGCCCTGGACCTGCCGGGGCATGGCGAGTCGACGAAGACACTGGAGCAGGGCGACCTGGACGAACTGAGCCGCACCGTGCTGGCGCTGCTCGACCACCTGGACATCGAGCACGCCCACCTCGCCGGGCATTCCATGGGCGGCGCCGTCTCGCTGAACGCCGCGCGCCTGGCACCGCAGCGGGTGCGCTCGCTGGTGCTGATCGCCAGTGCCGGCCTGGGCCCGGAAATCAATGGCGCCTACCTGCAGGGCTTCGTCGAGGCGGCCAACCGCAACGCGCTGAAACCGCAACTGGCGCAACTCTTCTCCGATCCGGCGCTGGTCACCCGGCAGATGCTGGAAGACATGCTCAAGTACAAGCGCCTCGAAGGTGTCGAGGCCGCCTTGCGCCAACTGGCCGGCACGCTGTTCGCCGAGGGTCGCCAGCGCATCGACCTGCGCCCGGTGGTGGAGCAGGGCGAGCGCCCGGTGCTGGTGGTCTGGGGCGCCGACGACGCCATCATCCCGGCCCGTCACGCGGAGGGGCTGCCGGCGCAGGTGGAGATTCTCCCCGGCCAGGCGCACATGGTGCAGATGGAGGCGGCGGAGCGGGTCAACGGCCTGGTCCAGGCGTTTCTCCAGGCGCAATGA	MSQIHTLTMPKWGLSMTEGRVDAWLKNEGDLIEKGEDVLDVETDKISSSVEAPFTGVLRRKVAREDETLPVGALLAVVVEGEVSDAEIDAVVERFQAEFVPGGEEGEEAGPAPRKVELDGRSIRFFDRGEGGTPLVLVHGFGGDLNNWLFNHEALASERRVIALDLPGHGESTKTLEQGDLDELSRTVLALLDHLDIEHAHLAGHSMGGAVSLNAARLAPQRVRSLVLIASAGLGPEINGAYLQGFVEAANRNALKPQLAQLFSDPALVTRQMLEDMLKYKRLEGVEAALRQLAGTLFAEGRQRIDLRPVVEQGERPVLVVWGADDAIIPARHAEGLPAQVEILPGQAHMVQMEAAERVNGLVQAFLQAQ	PGPT0001390_6358	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0001390-aceF|pdhC-K00627	NA	NA
BMS010_08614	1020	acoB	COG0022	Acetoin:2,6-dichlorophenolindophenol oxidoreductase subunit beta	ATGGCGAGAAAAATCAGCTACCAGCAGGCGATCAACGAGGCCCTGGCCCAGGAAATGCGCCGCGACAGCAGCGTTTTCATCATGGGCGAAGACAACGCCGGCGGCGCCGGTGCGCCGGGCGAGCAGGACGCCTGGGGCGGCGTGCTGGGCGTGACCAAGGGGCTCTATCACCAGTTCCCCGGCCGGGTGCTGGACACCCCGTTGTCCGAGGTGGGCTACGTCGGTGCCGCCGTCGGTGCGGCGACCCAGGGCATGCGCCCGGTGTGCGAACTCATGTTCGTCGACTTCGCCGGCTGCTGCCTGGACCAGATCCTCAACCAGGCGGCCAAGTTCCGCTACATGTTCGGCGGCAAGGCGGTCACCCCGCTGGTGCTGCGCACCATGGTCGGCGCCGGCCTGCGCGCCGCCGCCCAGCACTCGCAGATGCTCACCGCGCTGTGGACGCACATCCCCGGCCTGAAGGTGGTCTGCCCGTCGTCGCCCTACGATGCCAAGGGCCTGCTGATCCAGGCGATCCGCGACAACGACCCGGTGATCTTCTGCGAGCACAAGCTGCTCTACGGCATGCAGGGCGAGGTGCCGGAAGAGCTCTACACGGTGCCCTTCGGCGAGGCGAATTTCCTCCGCGAAGGCGATGACATGACCCTGGTCACCTACGGCCGGATGGTCCACGTGGCCATGGAAGCGGCTGGCCGCCTGGCGCGCGAGGGCATTGACTGCGAAGTGCTGGACCTGCGCACCACCAGCCCGCTGGACGAAGACAGCATCCTGGAAAGCGTGGAGAAGACCGGCCACCTGGTGGTGATCGACGAAGCCAACCCGCGCTGCTCCATGGCCACCGACATCGCCGCCCTGGTGGCGCGCAATGCCTTCGGCGCGCTGCGTGCCCCCATCGGCCTGGTCACCGCGCCGCACACGCCGGTGCCGTTCTCCGATGCGCTGGAAGACCTGTACATCCCCGATGCGACGAAGATCGAAGCCGAAGTGCGCCGGGTGATCGAAGGGAGGAAGGTGGCATGA	MARKISYQQAINEALAQEMRRDSSVFIMGEDNAGGAGAPGEQDAWGGVLGVTKGLYHQFPGRVLDTPLSEVGYVGAAVGAATQGMRPVCELMFVDFAGCCLDQILNQAAKFRYMFGGKAVTPLVLRTMVGAGLRAAAQHSQMLTALWTHIPGLKVVCPSSPYDAKGLLIQAIRDNDPVIFCEHKLLYGMQGEVPEELYTVPFGEANFLREGDDMTLVTYGRMVHVAMEAAGRLAREGIDCEVLDLRTTSPLDEDSILESVEKTGHLVVIDEANPRCSMATDIAALVARNAFGALRAPIGLVTAPHTPVPFSDALEDLYIPDATKIEAEVRRVIEGRKVA	PGPT0008235_418	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008235-acoB-K21417	NA	NA
BMS010_08615	978	acoA_1	COG1071	Acetoin:2,6-dichlorophenolindophenol oxidoreductase subunit alpha	ATGTCCACTCACCTGTCCGCTGACCAGTTGCTGCATGCCTACCGGGTCATGCGCACCATCCGTGCCTTCGAAGAACGGCTCCACGTGGAGTTCGCCACCGGCGAGATTCCCGGATTCGTCCACCTCTACGCCGGCGAGGAGGCATCCGCCGCCGGCGTCATGGCGCACCTCACCGACGAGGATTGCATCGCCTCCACCCACCGCGGCCACGGCCACTGCATCGCCAAGGGCGTGGACGTACACGGGATGATGGCCGAGATCTATGGCAAGAAGACCGGCGTCTGCCAGGGCAAGGGCGGCTCCATGCACATCGCCGACCTGGAGAAGGGCATGCTCGGCGCCAACGGTATCGTCGGTGCCGGCGCGCCGCTCGCAGCCGGTGCCGCGCTGGCTGCCAAGCTCAAGGGCAGCCGGGGCGTGGCGGTGGCCTTCTTCGGCGACGGCGGCTCCAACGAGGGCGCGGTGTTCGAAGCGATGAACCTGGCTTCGGTATGGAACCTGCCGTGCATCTTCGTCGCCGAGAACAACGGCTACGCCGAGGCCACCGCCTCGAACTGGTCGGTCGCCTGCGACCACATCGCCGACCGCGCCGCCGGCTTCGGCATGCCCGGCGTGACGGTGGACGGCTTCGACTTCTTCGCCGTCCACGAGGCGGCCGGCGCCGCCATCGAGCGCGCCCGGGCCGGCGAGGGACCGTCGCTGATCGAAGTGAAGCTGACCCGCTACTACGGCCACTTCGAAGGCGATGCCCAGACCTACCGCGATCCCGACGAGGTGAAGCACTACCGCGAGCAGCGCGACTGCCTGATGCAGTTCCGCGAGCGCACCACCCGTGCCGGCCTGCTCGACACCGCCCAACTGGACCGCATCGACAGCGAGGTGGAGGCGCAGATCGACGACGCGGTGCGCCGCGCCAAGGGCGACCCGAAACCGCAGCCGGCCGATCTGCTGACCGATGTGTACGTGGCCTATCCCTGA	MSTHLSADQLLHAYRVMRTIRAFEERLHVEFATGEIPGFVHLYAGEEASAAGVMAHLTDEDCIASTHRGHGHCIAKGVDVHGMMAEIYGKKTGVCQGKGGSMHIADLEKGMLGANGIVGAGAPLAAGAALAAKLKGSRGVAVAFFGDGGSNEGAVFEAMNLASVWNLPCIFVAENNGYAEATASNWSVACDHIADRAAGFGMPGVTVDGFDFFAVHEAAGAAIERARAGEGPSLIEVKLTRYYGHFEGDAQTYRDPDEVKHYREQRDCLMQFRERTTRAGLLDTAQLDRIDSEVEAQIDDAVRRAKGDPKPQPADLLTDVYVAYP	PGPT0008230_780	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008230-acoA-K21416	NA	NA
BMS010_08616	1122			hypothetical protein	ATGGCCGAGCGTTCGCCCGCCATGAGCCGTATTCCGCTGACCGTCGGGATCATCGCCAACCCGGCTTCCGGGCGCGACCTGCGCCGCCTGACCGCCAAGGCCGGACTGTTTTCCAGCACCGACAAGGCGGCGGTGGTACAGCGCCTGCTCGGCGCCTTCGGTGCCACCGGCATCGAACGGGTGCTGATGCCGCCGGACATGACTGGCATTGCCGCCGCCGTGCTCAAGGCCCGCGACAGCCGCCAGGCGCGAGGGCACTGGCCGGAGGTCGAGTTCCTGGATATCCCGCTACGCCAGAGCGTCGAGGACACCCGTCTGGCGGCGCGCCGGATGGCCGAACGGGGCGTCGCGCTGATCGCCGTGCTCGGCGGCGACGGTACGCACAAGGCGGTGGCCGCCGAGGTCGGCGACATCCCGCTGCTGACCCTTTCCACCGGCACCAACAACGCCTTCCCCGAATTGCGCGAGGCCACCAGCGCCGGACTGGCCGGCGGGCTCTGCGCCAGCGGCCGCATCCCGCCCGAGATCGGCCTGCGCCGCAACAAGCGCCTGCTGGTGCGCGAGCCCCAGCGGGGGCTGTGCGAGTGGGCTTTGGTGGATGTCGCGGTATCGCCGCTGCCATTCATCGGTGCCCGTGCCATCAGCCGCGCGGAGGACCTGGCGGAAGTCTTCGTGACCTTCGCCGAGCCCTGGGCCATCGGCCTGTCGGCACTCTGCGGGCTGTGGTTTCCGGTGTCGCGCCAGGCTCCGGGCGGAGCCTGGATGCACCTGCACCCCGAGGCCAGCGAAGCGCTGCTGGCGCCGCTTGCCCCCGGCATGCTGGAAGGCTGCGGCGTGGTCGCGGCGGGGCCGCTGGAGCCCGGCGTGCCGCGTTCGCTGGCGCTCGGCTGCGGAACCCTGGCGCTGGATGGCGAGCGCGAGATCGAGTTCGGCCCCGCCGACCGCCCCACCGTCACCCTGGATGCCTACGGCCCGCTGAGCATCGACGTCGAGGCGGCCCTGGCCTACGCGGCGCGCCATCGCCTTTTGCGTGTCGGCCGCGATCACCCGCAACACCCCGTCAACCGTTTCCCTGAAGACAACCCCGGAGAAAAACAAGATGTCCACTCACCTGTCCGCTGA	MAERSPAMSRIPLTVGIIANPASGRDLRRLTAKAGLFSSTDKAAVVQRLLGAFGATGIERVLMPPDMTGIAAAVLKARDSRQARGHWPEVEFLDIPLRQSVEDTRLAARRMAERGVALIAVLGGDGTHKAVAAEVGDIPLLTLSTGTNNAFPELREATSAGLAGGLCASGRIPPEIGLRRNKRLLVREPQRGLCEWALVDVAVSPLPFIGARAISRAEDLAEVFVTFAEPWAIGLSALCGLWFPVSRQAPGGAWMHLHPEASEALLAPLAPGMLEGCGVVAAGPLEPGVPRSLALGCGTLALDGEREIEFGPADRPTVTLDAYGPLSIDVEAALAYAARHRLLRVGRDHPQHPVNRFPEDNPGEKQDVHSPVR	PGPT0013490_1102	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013490-ppnK-K00858	NA	NA
BMS010_08617	1875	acoR_3	COG3284	Acetoin catabolism regulatory protein	ATGCTTTCCGCACACTCGAAAGCCCACGTGGATTGCGTCAGCCGCGTGCTGAAGAACGCCGCACGGCTGCCCGAAGCGCCGGTGCCGTCGCTGATCCTCGACTCCTGGCGCCGCTCGATGGAGCAGTACCGCCTGGACCCCGGCTCCCTGCAGGGGCCGCGCATCCTGTCCCAGCCCCAGCTCAACGAATGCCGGGAGCGCTCCGAGCTGTTCCTGCGCATCGCCAGCGAGGAAGTCGCCCGCCTGCACGGTCAGGTCCGCGGCGCCGACTATTGCGTGCTGCTCACCGATGCCCACGGGCAGACCATCGACTACCGCGTCGAATCGGCGATCCGCAACGACTGCCGCAAGGCCGGCCTGTACCTCGGCACCTGTTGGTCGGAGGGCGAGGAAGGTACCTGCGGCGTCGCCGCCGTGCTGGTCGGCGGCGTACCGGTGACGGTGCACAAGCGCGATCACTTCCGCGCCGCCTTCATCGACCTCACCTGCTCCGCCGCGCCGGTGTTCGACCCGCAGGGCGAACTGCTCGGCGTGCTCGATGTCTCCGCCGTGCGCTCCCCCGACGACCGCCGCAGCCAGCACCTGATCCGTCAGATGGTGGCGCAGAGCGCGCGGCAGATCGAAAACGCCTACTTCATGCACAGCGCCCAGGGTCATTGGGTGCTGCGGGCGCACAGTGCGCCGGGCTACGTGGACAGCCAGCCCGACTTTCTCTTCGCCTGGGACGACGATGGCCGCCTGCGGGCGCTCAACCCGGCGGCCCGGCGCTACCTGCAACAGCGGCTCGGCCAGGTACCGGAACATATCGGCGAAGTGTTCGACCTGGACACGCTGCACGCCGCCGCCGACGAAGCACCGCGCATCCTCCGCGGGCGTGGCGCCGACGCCGAACTGCACGTACGCCTGAGCGCACCGCGCCGGACCAGCCGGACGGTGCGGCGGCCGGACACCGAAGCCGCCCAGCTGGACCCGCGCATCGCCGAGAGCCTGCGGCTGGCGGTGCGGGTCAAGGACCGCCACCTGCCGGTGCTGATCCAGGGCGAGACCGGCGTCGGCAAGGAAGTCTTCGCCCGTCAGCTCCACCAGGCCAGCGCCCGCCGCGACCAGCCCTTCGTCGCGCTGAATTGCGCGGCGATCCCGGAGAGCCTGATCGAGAGCGAACTGTTCGGCTACGTCGCCGGTGCCTTCACCGGCGCCTCCAGCAAGGGCATGCGCGGGCTGCTGCAACAGGCCGACGGCGGAACGCTGTTCCTCGACGAGATCGGCGACATGCCCCTCGGCCTGCAAACTCGCCTGCTGCGCGTGCTGGCCGAAGGCGAAGTGGCGCCCCTGGGCGCGTCGCGCCGGGAGAACGTGGACATCCAGGTGATCTGCGCCACCCACCGCGACCTGGCGGCCCTGGTGGCGGCCGGAGAATTCCGCGAAGACCTTTACTTCCGCCTCGGCGGCGCCTGCTTCCAATTGCCGCCGTTGCGCGAACGCAGCGACCGGCTGGCCCTGATCACCCGCCTGCTGGACGAGGAAGCGGCGCGCTGCGGCGTGCGCGTCGGCCTCAGCGCCGCTGCCCTCGAATGCCTGCTCGGCTACCGCTGGCCGGGCAACGTGCGCCAGCTACGCCACGTGCTGCGCTACGCCTGCGCGCTGTGCAGCGGCACCTCGATCCAGTTGGAAGACCTGCCGCTGGAGCTGCGCGGCAACGGTACGCCGCCCACCGCCGCCCTCGGCGACGTCTGCGACGACCCGGAGCGCCAAGCCCTGCTGGATGCCCTCATCCGCCATCGCTGGAAGCCCATTCCCGCGGCGCGGGCGCTGGGCATTTCGCGGGCGACCCTGTATCGCCGGGTGCACCGCTACGGCATCGACATGCGCGGCTGA	MLSAHSKAHVDCVSRVLKNAARLPEAPVPSLILDSWRRSMEQYRLDPGSLQGPRILSQPQLNECRERSELFLRIASEEVARLHGQVRGADYCVLLTDAHGQTIDYRVESAIRNDCRKAGLYLGTCWSEGEEGTCGVAAVLVGGVPVTVHKRDHFRAAFIDLTCSAAPVFDPQGELLGVLDVSAVRSPDDRRSQHLIRQMVAQSARQIENAYFMHSAQGHWVLRAHSAPGYVDSQPDFLFAWDDDGRLRALNPAARRYLQQRLGQVPEHIGEVFDLDTLHAAADEAPRILRGRGADAELHVRLSAPRRTSRTVRRPDTEAAQLDPRIAESLRLAVRVKDRHLPVLIQGETGVGKEVFARQLHQASARRDQPFVALNCAAIPESLIESELFGYVAGAFTGASSKGMRGLLQQADGGTLFLDEIGDMPLGLQTRLLRVLAEGEVAPLGASRRENVDIQVICATHRDLAALVAAGEFREDLYFRLGGACFQLPPLRERSDRLALITRLLDEEAARCGVRVGLSAAALECLLGYRWPGNVRQLRHVLRYACALCSGTSIQLEDLPLELRGNGTPPTAALGDVCDDPERQALLDALIRHRWKPIPAARALGISRATLYRRVHRYGIDMRG	PGPT0001030_1438	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0001030-acoR-K21405	NA	NA
BMS010_08618	324			hypothetical protein	ATGATTCGCGTCACCGTCTCCTATGCCGCCCGCGAAGGCGCGCGTTTCGACCACGCTTACTACCAGAACCGGCATGCCGCGCTGATTCGCGAGCACCTCGGTGCGCACGGCCTGCGCCGGCTGGAGATCGACCAGGCGCTGTCCGACGCCGCCGGTAACCCGGTCCCGGTGGTCGCGGCGGCCCACATGCTCTTCGACGACGTTGCCGCGTTCCAGGCGGCGATGGCGGTTGGCGGGCAACCGTTGATGGCCGATGTCGCCAATTACACGGATATCCCGCCGCAGATCCTGATCAGCCAGGTCCACGTTGCCTACGAGGGCTGA	MIRVTVSYAAREGARFDHAYYQNRHAALIREHLGAHGLRRLEIDQALSDAAGNPVPVVAAAHMLFDDVAAFQAAMAVGGQPLMADVANYTDIPPQILISQVHVAYEG				NA	NA	NA	NA	NA
BMS010_08619	390			hypothetical protein	ATGCCCTGGTTTCGCAACCGCCTGCCGCAGTTGATACGCCTGGCCCTAGTGCTCTGGCTGTTGGCCTTTGCGGTGGCCGCGGGCCAGGGCTGCCTGAGCCAGCCGTCCCATGATCCGGGCGCCAGCCATGCGCTGTTCGAGCACATCGAGCCTGACCATGGCCACGCGGCGCACGCCAGCGGTTGCCTGCAATTCTGCGAAGACACCTCCGTGTCGCTGCTGTCCTCCCTGTCCCTGCTCTCCCTCGGCCACGCCCTTTGGGCGGTACTGTTGCTGCCCGCGCTGCTGATCGTTGCGCGCAGTACCTCGCCATTCGCCTTCCTCGCCCTGCAGCTTCCGGCGCCGTCGGCGCCCCCTGCCCGTCTGCGCTTCGTCCGCTTCAACGATTGA	MPWFRNRLPQLIRLALVLWLLAFAVAAGQGCLSQPSHDPGASHALFEHIEPDHGHAAHASGCLQFCEDTSVSLLSSLSLLSLGHALWAVLLLPALLIVARSTSPFAFLALQLPAPSAPPARLRFVRFND				NA	NA	NA	NA	NA
BMS010_08620	408			hypothetical protein	ATGAACGCACCCGTCAAAGCACTCGTCGCCGCCCTCTTGATCGGCAGCCCGCTGTTTGCCCTGGCCGTCGACGAACACCACCCCGAACAGGCTCCGGCGGCACCGACCGACACCGCCCCCGCGCAGGATCAGGCCATGACCGAACAGATGCAGAAAATGCAGGCCATCCACGACAGGATCGCCGCCGCCAAGACGCCGGCCGAGCGCCAGGCCGCGATGCAGGAGGGCATGCAGGCGATGCGGGAAGGCATGACCATGCTGCAGAACAATTGCCCGGGAATGGGTATGGGAATGGGCATGTCCGGCGGCAAGAGCGGGGGTATGGGCGGCGGCATGGGAATGATGAACATGATGATGAAGATGATGGATCAACAGTCGGACATGATGAAGCAGCCGACCAACCCTTGA	MNAPVKALVAALLIGSPLFALAVDEHHPEQAPAAPTDTAPAQDQAMTEQMQKMQAIHDRIAAAKTPAERQAAMQEGMQAMREGMTMLQNNCPGMGMGMGMSGGKSGGMGGGMGMMNMMMKMMDQQSDMMKQPTNP				NA	NA	NA	NA	NA
BMS010_08621	219			hypothetical protein	ATGAACCCTTCCTCCACCCCGCCCCCACAGTCCTGGCGCAGCCGGCCCGGCATCGTGCTGGGCATGCTGCTGGTCATCGCCCTGTTCTACCTGGCCCGCGAGCATTACGGCCATCTGTCCCAGGCGCTGCCCTATTTGATTCTGCTGCTGTGCCCGCTGCTGCACCTGTTCGGCCACGCCCACGGTGGCCATCACTCCAAGGACGGCGACAGGAACTGA	MNPSSTPPPQSWRSRPGIVLGMLLVIALFYLAREHYGHLSQALPYLILLLCPLLHLFGHAHGGHHSKDGDRN				NA	NA	NA	NA	NA
BMS010_08622	2172	copA_5	COG2217	Copper-exporting P-type ATPase	ATGCACAACCATGAGCATCACCACCACGCGCCAACCGCTCCGATGGCGGTCGTATCCCCGGCAGCCGACGAAGGTGAATACACCTGCCCGATGCACCCGGAGGTCCGCCAGCGCGGCCCCGGCACCTGCCCCAAGTGCGGCATGACCCTGGAACCGGTGCTGCCCGAGCTGGAGCAGGAGGAGAACCCGGAACTCAAGGACTTCAGTCGGCGCTTCTGGTGGACCCTGCCGCTGACCGTGATCGTCACCCTGCTGGCCATGGGCGGACACGCCCTGAACCTGTTCCATGGCACCACGCAGAACTGGGTCGAGCTGGTCATCGCCGCCCCGGTAGCGCTCTGGGCCGGCTGGCCGTTCTACGTCCGTGGTGTGCGATCAGTCATCCAGCGCAGCCCGAACATGTGGACGCTGATCGGTCTCGGTACCTCCGCCGCCTTCCTCTACAGCCTCGCCGCAACCCTGGCGCCCGGCGTGTTCCCGGCCACTTTCGAAGTGGACGGCCGGATCGGCGTGTATTACGAGGCGGCGGCGGTGATCATCTCGCTGACCCTGCTCGGGCAGATGCTCGAACTCAGGGCCCGCTCGCAGACCTCGGCCGCCATCCGCTCGCTGCTCGGCCTCGCGCCCAAGACCGCGCGCCGGATCGCCACCGACGGCAGCGAAGAGGACATTCCACTGAGCCATGTACACAGCGGCGACACCCTGCGCGTACGCCCCGGCGAGAAGGTACCGGTCGATGGCGTGGTACTGCAGGGCGAAAGCGCGGTGGACGAATCCATGCTCACCGGCGAGCCGTTGCCGGTAATGAAGCGGGCCGGCGACGCGCTGATCGGCGCCACCCTCAATACCCACGGCAGCCTGGTGATGCAGGCGCAGAAGGTCGGCTCGGCGACCATGCTCGCGCAGATCGTGCAGATGGTGGTACAGGCGCAGCGCTCCAAGGCGCCGATGCAGCGCCTGGCGGACGTGATCGCCGGCTACTTCGTCCTGGCGGTGATCGCCATCGCTGTCGTCACCTTCTTCGGCTGGGGCCTGTGGGGGCCGCAGCCGAGCTGGGTGTTCGGCCTGATCAACGCCGTGGCGGTGCTGATCATCGCCTGCCCCTGCGCCCTCGGCCTGGCCACGCCGATGTCGGTGATGGTCGCCACCGGCAAGGCCGCCGGCAGCGGTGTGCTGTTCCGCGATGCGGCGGCCATCGAGAACCTGCGCAAGATCGACACCCTGATCGTCGACAAGACCGGCACCCTCACCGACGGCCGCCCGGCCTTCCACAGCGTCGAGGCCGTCGCCGGCTTCAGCGAGGACGAGGTGCTGCGCCTCGCCGCCAGCCTCGACCAGGGCAGCGAACATCCGCTGGCCCACGCCATCGTCGAGCGGGCCCGCAACGCCGGCCTGGCCTTGAGCCCGGCGGAAGACTTCGAGTCCGCCTCCGGCATCGGCGTGCGCGGGCAGGTCGATGGCCATCGCCTGCAGCTGGGTAACACGGCGCTGATGGCCGACGCCGGTGTAGCCACCGACGCCTTGCAGGCCCGGGCCGAGCAATTGCGCGGCGACGGCACCAGCATCATGTACCTGGCGGTGGATGGCCACCTGGCGGGCCTGCTGGCAGTGGCCGACCCGATCAAACCGACCTCCCGGCTGGCGGTGGAGCGCCTGCAGGCCGATGGTGTGCGCGTGATCATGGCCACCGGCGACGGCCTCACCACTGCCCGCTCTGTCGCCCGCCAGCTCGGCATCGAAGAAGTCCACGGCGAGGTCAAGCCGCAGGACAAGGAGCGCCTCGCGGCCAGCCTGCAACAAGCCGGACACCGCGTGGCGATGGCCGGCGACGGCATCAACGACGCCCCCGCCCTGGCCCGCGCCGATGTCGGCATCGCCATGGGCACCGGCACCGACGTGGCGATGAACAGCGCCCAGGTAACCCTGGTCAAGGGCGACCTGCTGGGCATCCTGCGCGCCCGCAGCCTGTCGGTGGCCACCGTACGCAACATGCACCAGAACCTGACCTTCGCCTTTGCCTACAACACCCTGGGCATCCCCTTGGCCGCCGGGCTGCTGTACCCGCTGACCGGGCACCTGCTGTCGCCGCTGATCGCCGCCCTGGCGATGAGCATCAGCTCAGCCTCAGTGGTGTTCAACGCACTGCGCCTGCGCCGGGCGACCATCGAATGA	MHNHEHHHHAPTAPMAVVSPAADEGEYTCPMHPEVRQRGPGTCPKCGMTLEPVLPELEQEENPELKDFSRRFWWTLPLTVIVTLLAMGGHALNLFHGTTQNWVELVIAAPVALWAGWPFYVRGVRSVIQRSPNMWTLIGLGTSAAFLYSLAATLAPGVFPATFEVDGRIGVYYEAAAVIISLTLLGQMLELRARSQTSAAIRSLLGLAPKTARRIATDGSEEDIPLSHVHSGDTLRVRPGEKVPVDGVVLQGESAVDESMLTGEPLPVMKRAGDALIGATLNTHGSLVMQAQKVGSATMLAQIVQMVVQAQRSKAPMQRLADVIAGYFVLAVIAIAVVTFFGWGLWGPQPSWVFGLINAVAVLIIACPCALGLATPMSVMVATGKAAGSGVLFRDAAAIENLRKIDTLIVDKTGTLTDGRPAFHSVEAVAGFSEDEVLRLAASLDQGSEHPLAHAIVERARNAGLALSPAEDFESASGIGVRGQVDGHRLQLGNTALMADAGVATDALQARAEQLRGDGTSIMYLAVDGHLAGLLAVADPIKPTSRLAVERLQADGVRVIMATGDGLTTARSVARQLGIEEVHGEVKPQDKERLAASLQQAGHRVAMAGDGINDAPALARADVGIAMGTGTDVAMNSAQVTLVKGDLLGILRARSLSVATVRNMHQNLTFAFAYNTLGIPLAAGLLYPLTGHLLSPLIAALAMSISSASVVFNALRLRRATIE	PGPT0004090_7197	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004090-copA|ctpA-K17686	NA	NA
BMS010_08623	639		COG0450	Peroxiredoxin	ATGAGCCTCAGACTCGGCGATACCGCCCCCGACTTCGAACAGGATTCCAGCCAGGGCCCGATCCGTTTCCATGAGTGGCTGGGCGATAGCTGGGGCGTGCTGTTTTCCCACCCCGCCGACTTCACCCCGGTGTGCACCACCGAGCTGGGCTTCACCGCCAAGCTGAAAGACGAATTCACCGCCCGCAACGTCAAGGCCATCGCCCTCTCGGTGGACCCGGTGGACTCGCATGTGCGCTGGATCGATGACATCAACGAAACCCAGGGCACTACGGTCAACTTCCCGATCCTCGCCGACGCCGACCGCAAGGTGTCCGACCTTTACGACCTGATCCACCCGAACGCCAGCGATACCCTCACCGTGCGTTCGCTGTTCGTCATCGACCCGAACAAGAAGATTCGCCTGATCATCACCTACCCGGCCAGCACCGGGCGCAACTTCCACGAGATCCTGCGGGTCATCGATTCACTGCAACTCACCGACTCGCACAAGGTGGCGACACCGGCCAACTGGCAGGACGGCGACGATGTGGTGATCGTCCCTTCGCTGAAGGACGAAGACGAAATCCGCCAGCGCTTCCCCAAGGGCTACCGCGCCGTGCGCCCTTACCTGCGGCTGACCCCGCAACCGAACAAGTGA	MSLRLGDTAPDFEQDSSQGPIRFHEWLGDSWGVLFSHPADFTPVCTTELGFTAKLKDEFTARNVKAIALSVDPVDSHVRWIDDINETQGTTVNFPILADADRKVSDLYDLIHPNASDTLTVRSLFVIDPNKKIRLIITYPASTGRNFHEILRVIDSLQLTDSHKVATPANWQDGDDVVIVPSLKDEDEIRQRFPKGYRAVRPYLRLTPQPNK	PGPT0007245_2	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007245-hflX-K03665	NA	NA
BMS010_08624	594	ssuE	COG0431	FMN reductase (NADPH)	ATGCATGTCGTCCTGCTTTCCGGCAGCCCCTCGGCGCGCTCGCGCAGCGAGTTGCTGCTGGGTCGCGTGCGTGAGCGGCTGGAGGCGCGGCAGGTGGAAACCAGCCTGCTGCGGGTCCGCGATTTTTCCGCCGAGGACCTGCTCCACGCCCGCTTCGACAGCCCCGCCGTGCAGCATCTGCAGACGTTGATCGCCAGCGCCGATGGCCTGGTGGTCTCGACGCCGGTGTACAAGGCCTCCTTCGCCGGCGCGCTCAAGGTGTTGCTCGATCTGCTGCCGGAGCGCGCCCTGGCGCACAAGGTGGTCCTGCCACTGGCCAGCGCCGGCAGCCAGGCCCATCTGCTGGCGGTGGACTACGCGCTGAAACCGGTGCTGGCGGCGCTCAAGGCCCAGGAGCTGCTCGCCGGCGTGTTCGCCACCGACGGGCAAATCACCTACCCGGACAGTGGCCTGCCGGCACGTTTCGATGAAGAACTGGGCACGCGCCTGGACGAAGCGACGGAGCAACTGCTCGCCGCCCTCGCCCGCCGACCGCGGCCACTGGAAGCCCACCTGTTGAACGAACGGCTGGCAACGGCCCGTTGGAGTATTTAA	MHVVLLSGSPSARSRSELLLGRVRERLEARQVETSLLRVRDFSAEDLLHARFDSPAVQHLQTLIASADGLVVSTPVYKASFAGALKVLLDLLPERALAHKVVLPLASAGSQAHLLAVDYALKPVLAALKAQELLAGVFATDGQITYPDSGLPARFDEELGTRLDEATEQLLAALARRPRPLEAHLLNERLATARWSI	PGPT0003045_808	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0003045-ssuE-K00299	NA	NA
BMS010_08625	975	ssuA_4		Putative aliphatic sulfonates-binding protein	ATGCGCACCATCACTTTGCGTCGGAGTCTGGTCGCCCTGTTTGCCGCGGCCCTGTCTTTCGGCGCACTCACCCACGCACAGGCCGAACCCCTGCGGATCGGCTACCAGAAATACGGCAGCCTGGTGCTGCTCAAGGCCAGCGGGACGCTGGAGAAGCGTCTCGCCGACAAGGGCATCGAGGTGCAGTGGACCGAGTTCCCGGCCGGCCCGCAGTTGCTCGAAGGATTGAACGTCGGCTCCATCGACTTCGGCACCACTGGCGAGGCACCGCCGATCTTTGCCCAGGCGGCGGGAGCGGACCTGCTCTACGTCGCCTATGAGCCGCCGGCACCCAGCGGCGAAGCCATCCTCGTGTCCAAGGACTCGCCGCTCCGCTCGGTGGCCGAGCTGAAGGGCAAGAAGATCGCTCTCAACAAAGGCTCCAACGTCCACTACCTGCTGGTCCGCGCACTGGAAGACGCCGGCCTGTCGATCCGTGACGTCACCCCCGTGTACCTGCCGCCTGCCGATGCCCGCGCCGCCTTCGAACGCGGCAGCGTGGACGCCTGGGTGATCTGGGACCCGTTCCAGGCCGCCGCCGAGCACCAGTTGCAGGCGCGTACCCTGCGCGACGGCAGCGGACTGGTGAGCAACCACCAGTTCTACCTGGCCGCCCGGCCCTATGCCGAACGCCACCCCGAGGTAATCGCCGTGCTGGTGGAGGAAATCCGCGCCATCGGCGAGTGGACCCGCGCCAACCCCGACGCCGCCACCGAGCTGGTCGCACCGTTGCTCGGACTGTCCACCGAGATCACCCGCCAGGCGGTGCTGCGCAAGGGCCATGGTGCCCGGTTCCTCGATACGCGCGTGATCGCCGAGCAACAGCGCATCGCCGACACCTTCGCCACCCTCAAGCTGATCCCGAAACCCGTGAGCATCGCCGAGCACGTCTGGACGCCCCCGGCCCAGGCCACCGCCGCGCGTACCGCTCTCTAA	MRTITLRRSLVALFAAALSFGALTHAQAEPLRIGYQKYGSLVLLKASGTLEKRLADKGIEVQWTEFPAGPQLLEGLNVGSIDFGTTGEAPPIFAQAAGADLLYVAYEPPAPSGEAILVSKDSPLRSVAELKGKKIALNKGSNVHYLLVRALEDAGLSIRDVTPVYLPPADARAAFERGSVDAWVIWDPFQAAAEHQLQARTLRDGSGLVSNHQFYLAARPYAERHPEVIAVLVEEIRAIGEWTRANPDAATELVAPLLGLSTEITRQAVLRKGHGARFLDTRVIAEQQRIADTFATLKLIPKPVSIAEHVWTPPAQATAARTAL	PGPT0003025_2409	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_TRANSPORT,PGPT0003025-ssuA-K15553	NA	NA
BMS010_08626	1149	ssuD_4	COG2141	Alkanesulfonate monooxygenase	ATGAGCCTCAACGTGTTCTGGTTCCTGCCCACCCATGGCGACGGTCACTACCTCGGCACCGCCGAAGGTGCCCGTGCGGTCGACCACGGCTACCTCTCGCAGATCGCCCAGGCCGCCGACCGGCTCGGCTTCGGCGGCGTGCTGATCCCCACCGGCCGTTCCTGCGAGGACTCCTGGCTGGTGGCCGCCTCGCTGATCCCGGTGACCCAGCGCCTGAAATTCCTGGTCGCGCTGCGCCCCGGCGTCGTCTCGCCCACCGTGGCCGCGCGCCAGGCAGCAACCCTGGACCGGCTGTCCAATGGCCGGGCGCTGTTCAACCTGGTCACCGGGGGCGACCCGGACGAACTGGCCGGCGACGGCCTCGACCTGTCCCACGCCGAGCGCTATGAGGCCTCGGTGGAGTTCACCCGCATCTGGCGCCGCGTGCTGGAGGGCGAGGTGGTGGATTACGCCGGCAAGCACCTCCAGGTGAAGGGTGCCAAGCTACTTTACCCGCCGATCCAGCAACCGCGCCCGCCGCTGTACTTCGGCGGCTCCTCGGATGCGGCGCAGGACCTCGCCGCCGAGCAGGTGGAGCTGTACCTGACCTGGGGTGAACCGCCGGCCGCGGTCGCCGAGAAGATCGCCCAGGTACGCGAGAAAGCTGCCGCCCAGGGCCGCCAGGTGCGCTTCGGCATTCGCCTGCACGTCATCGTCCGGGAAACCGACGAAGAAGCCTGGCGGGCCGCGGATCGCCTGATCAGCCACCTGGACGACGACACCATCGCCCGCGCCCAGGCCTCCCTCGCGCGCTTCGACTCGGTGGGCCAGCGGCGCATGGCCGCGCTGCACAACGGCAAGCGCGACAAACTGGAAGTCGCCCCCAACCTCTGGGCCGGCGTCGGCCTGGTACGCGGCGGCGCCGGCACCGCCCTGGTCGGCTCAGGGGCGACCGTGGCCGAACGCGTCCGCGAATACGCCGACCTGGGCATCGACACCTTCATCTTCTCCGGCTACCCGCACCTGGAAGAAGCCTACCGCGTCGCCGAACTGCTGTTCCCACACCTGGATCTGGCCCAGCCCGGCCAAGCACCGGCACGTGGCTACGTCAGCCCGTTCGGCGAGATGGTCGCCAACGACATCCTGCCCAAGACGGCGGCGGCGAGTTGA	MSLNVFWFLPTHGDGHYLGTAEGARAVDHGYLSQIAQAADRLGFGGVLIPTGRSCEDSWLVAASLIPVTQRLKFLVALRPGVVSPTVAARQAATLDRLSNGRALFNLVTGGDPDELAGDGLDLSHAERYEASVEFTRIWRRVLEGEVVDYAGKHLQVKGAKLLYPPIQQPRPPLYFGGSSDAAQDLAAEQVELYLTWGEPPAAVAEKIAQVREKAAAQGRQVRFGIRLHVIVRETDEEAWRAADRLISHLDDDTIARAQASLARFDSVGQRRMAALHNGKRDKLEVAPNLWAGVGLVRGGAGTALVGSGATVAERVREYADLGIDTFIFSGYPHLEEAYRVAELLFPHLDLAQPGQAPARGYVSPFGEMVANDILPKTAAAS	PGPT0003040_1115	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_DEGRADATION,PGPT0003040-ssuD-K04091	NA	NA
BMS010_08627	786	ssuC_4	COG0600	Putative aliphatic sulfonates transport permease protein SsuC	ATGACCCTCCATTCCCTCAGCCAGCGCCTGGCCCCCTGGGCGCTGCCCATCGCCCTGCTGGCGCTCTGGCAGGCCGCGGTGGCCGGCGGCTGGCTGTCCAGCCGTATCCTCCCGGCCCCCAGCGCGGTGCTGGAAGCCGGCTGGGCACAGATGGCCAGCGGCGAGCTCTGGACCCACCTGGCCGTCAGTGGCCGGCGCGCGGCCATCGGCTTTCTCATCGGCGGCGGGCTCGGCCTGCTGCTCGGCTTCATCACCGGCCTGTCGCGCTGGGGCGAGCGGCTGCTGGACAGCTCGGTGCAGATGATCCGCAACGTCCCGCACCTGGCGTTGATCCCACTAGTCATCCTGTGGTTCGGCATCGACGAGACGGCGAAGATCTTCCTGGTCGCCCTCGGCACGCTGTTCCCGATCTACCTCAATACCTACCACGGCATCCGCAACGTCGACCCGGCCCTGGTGGAAATGGCACGCAGCTACGGCCTCTCCGGCTTCGCCCTGTTCCGCGCAGTCATCCTCCCCGGCGCGTTGCCATCGATCCTGGTCGGCGTGCGCTTCGCCCTCGGCTTCATGTGGCTGACCCTGATCGTTGCCGAAACCATCTCGGCCAACGCCGGCATCGGCTACCTGGCGATGAACGCGCGGGAATTCCTGCAGACCGACATCGTGGTGCTGGCGATCCTGCTCTACGCCGTGCTCGGCAAGCTCGCCGACCTCGCCGCCCGCGCCCTGGAACGCGCCTGGCTGCGCTGGCACCCGGCCTACCAGACCCACGGAGGTAACCCATGA	MTLHSLSQRLAPWALPIALLALWQAAVAGGWLSSRILPAPSAVLEAGWAQMASGELWTHLAVSGRRAAIGFLIGGGLGLLLGFITGLSRWGERLLDSSVQMIRNVPHLALIPLVILWFGIDETAKIFLVALGTLFPIYLNTYHGIRNVDPALVEMARSYGLSGFALFRAVILPGALPSILVGVRFALGFMWLTLIVAETISANAGIGYLAMNAREFLQTDIVVLAILLYAVLGKLADLAARALERAWLRWHPAYQTHGGNP	PGPT0003030_1582	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_TRANSPORT,PGPT0003030-ssuB-K15554	NA	NA
BMS010_08628	795	ssuB_3	COG1116	Aliphatic sulfonates import ATP-binding protein SsuB	ATGAGCGCCCTGCACAACCTGCACCACGGCCTGCCGCTGAGCCTGTCCGGCCTCGTCCGGGACTTCGGCGAGCGCCGGGTGCTGCACGGCATCGACCTGCAGATCCCGGCCGGCCAGTTCGTCGCCGTGGTCGGCCGCAGCGGCTGCGGCAAGAGCACTCTGCTGCGCCTGCTGGCCGGGCTCGACAGCCCCGGCGCGGGCCAGCTCAGCAGCGGCAGGCACGCCCTGGCCGAGGTCCGCGAAGACATCCGCCTGATGTTCCAGGACGCCCGTCTGCTGCCCTGGAAACGGGTGATCGACAACGTTGGCCTGGGCCTCTCCGGCGATTGGCGAGCGCGCGCCCTGGAAGCCCTGGAAGCGGTCGGCCTGGCGGACCGCGCGGGCGACTGGCCGGCGGCCCTGTCCGGAGGACAGAAGCAGCGCGTCGCCCTGGCCCGTGCCCTGATCCACCGGCCGCGCCTGTTGCTCCTCGACGAACCGCTAGGCGCGCTGGACGCCCTGACCCGGATCGAAATGCAGCAACTCATCGAGCGCCTCTGGCAACGCCATGGCTTCACCGTGCTGCTGGTCACCCACGATGTCGGCGAAGCCATCGCCCTGGCCGACCGGGTGATCCTGATCGAGGACGGCCGAATCGGCCTCGACCTGCCGGTACGCCTGCCACGACCGCGCCAGCGGGGCTCGGTGGCCTTCGCCGCGCTGGAAGCAAACGTGCTCGAACGGGTCCTCGCCCACCCGGCGCTTCCGCCGGAAACCGCTTCACCGCTCCCGACGCACCTGCGCTGGGCGCTTTGA	MSALHNLHHGLPLSLSGLVRDFGERRVLHGIDLQIPAGQFVAVVGRSGCGKSTLLRLLAGLDSPGAGQLSSGRHALAEVREDIRLMFQDARLLPWKRVIDNVGLGLSGDWRARALEALEAVGLADRAGDWPAALSGGQKQRVALARALIHRPRLLLLDEPLGALDALTRIEMQQLIERLWQRHGFTVLLVTHDVGEAIALADRVILIEDGRIGLDLPVRLPRPRQRGSVAFAALEANVLERVLAHPALPPETASPLPTHLRWAL	PGPT0003035_764	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_TRANSPORT,PGPT0003035-ssuC-K15555	NA	NA
BMS010_08629	216			hypothetical protein	ATGACCATCAAAGCCATCAACGTACGCAACCAGTTCAGGGGCACCATCAAGGAAATCACCGAAGGCGACGTGCTCTCGGAAATCGACGTGCAGACCGCCGCCGGGATCGTCACCTCGGTGATCACCACCCGCTCGGTGCGCGAACTGGAGCTTGGTGTCGGCAGCGAAGTGATCGCCTTCGTGAAATCAACGGAGGTGTCCATCGCCAAGCTCTGA	MTIKAINVRNQFRGTIKEITEGDVLSEIDVQTAAGIVTSVITTRSVRELELGVGSEVIAFVKSTEVSIAKL				NA	NA	NA	NA	NA
BMS010_08630	975	tauA	COG4521	Taurine-binding periplasmic protein	ATGTCCCGTTCCGCCTCGCGCCGCCTGCTCGCGGCCCTCAGCCTCGCCACCCTCGCCTTCGTCGCCCGCGCCGAAGACCTGGTGATCGGCTACCAGACCGGCATCGACCCCACCAAGGTGCCGCAGGCCGACGGCGCCTACGAACGGGCCATCGGCGAGAAAATCGAGTGGCGCCGTTTCAACAGCGGCCCGGAAGTCATCACCGCCATCGCCTCGGGCGACGTGCAGATCGGCAACATCGGCTCGAGCCCGCTGGCCGCCGCCGCATCCCGTGGCCTGCCCATCGTTGCCTTCATCGTCTCCGCCCAGATCAATGCCGCCGAGGCACTGGTGGTGCGCAACGGCAGCCGGATCGAGAAGCCCGGGGACTTGGTGGGCAAGACCATCGCCACGCCCTTCGTCTCCACTTCCCACTACAGCCTGCTCGGCGCCCTCAAGCACTGGAAGGTCGACCCCGCGTCGGTGCGCATCGTCAATCTCAACCCCGGCGAAATCGCCGCTGCCTGGAAGCGGGGCGACATCGATGGCGCCTTCGTCTGGTCACCCGCGCTCGGCGAGATCAAACGCAGTGGCAAAGTCCTGACCGACGCCGCCGAAGTCGGCCGCTGGGGAGCGCCTACCTTCGAAGTCTGGGTGGCGCGCAAGGACTTCGCCGAACGGCACCCGGAGATCGTCGAGAAGTTCGCCAAGGTCAGCCTGGACGCCTTCGCCGACTACAACACACACAAGGACAACTGGACGGCCGACTCCGAGCAGGTGGCGAAAATCGCCCGCCTCACCGGCGCCGACACCCGCGATGTTCCCGAACTGCTGACCGGCTCGGCCTTTCCGGAATCGGACGAGCAGCGGCGCCTGCTGGACGGCGTCACCGCCCGCGATGTCCAGGCCACCGCACACTTCCTGAAGGAACAGGGCAAGGTCGACAGCGTTCTTGACGACTACTCGCCCTACGTCAGTAAGCGCTTCATTGACTGA	MSRSASRRLLAALSLATLAFVARAEDLVIGYQTGIDPTKVPQADGAYERAIGEKIEWRRFNSGPEVITAIASGDVQIGNIGSSPLAAAASRGLPIVAFIVSAQINAAEALVVRNGSRIEKPGDLVGKTIATPFVSTSHYSLLGALKHWKVDPASVRIVNLNPGEIAAAWKRGDIDGAFVWSPALGEIKRSGKVLTDAAEVGRWGAPTFEVWVARKDFAERHPEIVEKFAKVSLDAFADYNTHKDNWTADSEQVAKIARLTGADTRDVPELLTGSAFPESDEQRRLLDGVTARDVQATAHFLKEQGKVDSVLDDYSPYVSKRFID	PGPT0002945_414	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TAURINE_TRANSPORT,PGPT0002945-tauA-K15551	NA	NA
BMS010_08631	786	tauB_5	COG4525	Taurine import ATP-binding protein TauB	ATGGCCGTGCTGCAACTCGAGCGCGTGAGCGCCCATTACCCCGGAGTCGCCGAGCCGGTGCTCGACGCCCTGTCGTTGACCCTGCGTCCTGGCCAACTGCTGGTGGCGCTGGGCCCGTCCGGCAGCGGCAAGACTACCCTGCTCAACCTGATCGCCGGGTTCGTCCCGCCCAGCGCCGGGCGCATCAGCCTGGATGGCGAGCCGGTGAGCGGACCGGGCGCCGATCGCGGGGTGGTGTTCCAGGACGATGCCCTGCTGCCCTGGCAGGATGTCCTCGGCAATGTCGCCTTCGGCCTGGAGCTGGCCGGCGTCCCCCGCCCGCAGCGCGAGGCCCGCGCCCGCGAGCTGCTAGCCCTGGTCGGCCTGGCAGGCTTCGAGCGGCGCCAGGTCTGGCAGCTCTCCGGTGGACAGAAACAGCGCGTCGGCATCGCCCGCGCGCTGGCCGCCGATCCACGCGTGCTGTTGCTGGACGAACCCTTCGGCGCGCTGGACGCCTTCACCCGCGAACAGATGCAGGAGCAGCTGCTGCAGGTCTGGCAGCGCACCGCCAAGCCGATATTCCTCATCACCCACGACATCGAAGAAGCGGTGTTTCTCGCCACCGAACTAATCCTCCTGGCGCCGCATCCGGGACGCATCGTCGAGCGCCTGGCCCTGGACTTCGCCCACCGTTACGCCGCCGGCGAAGACGCCCGCACAATCAAATCCGCCCCGGCCTTCATCGAGGCCCGCGAACAGGTCCTGGCCCGGGTCTTCACCGGCCGGGCCGAGGAGAAACAGCCATGA	MAVLQLERVSAHYPGVAEPVLDALSLTLRPGQLLVALGPSGSGKTTLLNLIAGFVPPSAGRISLDGEPVSGPGADRGVVFQDDALLPWQDVLGNVAFGLELAGVPRPQREARARELLALVGLAGFERRQVWQLSGGQKQRVGIARALAADPRVLLLDEPFGALDAFTREQMQEQLLQVWQRTAKPIFLITHDIEEAVFLATELILLAPHPGRIVERLALDFAHRYAAGEDARTIKSAPAFIEAREQVLARVFTGRAEEKQP	PGPT0002955_491	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TAURINE_TRANSPORT,PGPT0002955-tauC-K10831	NA	NA
BMS010_08632	831	ssuC_5	COG0600	Putative aliphatic sulfonates transport permease protein SsuC	ATGAACAGCCTCGATCTCGATTTGCCCCACGCCTCCCCGCAATCGCGGCAATGGCCGCGCTGGCGGCCGGGTATCGGCCTGCTCGGCGGGCTGACGCTGGGCGGTCTGTTAGTGATCTGGTGGGCGGTCACCGCCGGCAGACTGATCGAACCGCTCTTCCTGCCTTCGCCTGCCGCCGTCGTTGGTCGTTTCTGGCAACTGGCGACGGTCGGGTATCTGGACGCAACCCTCTGGCAGCACCTCGGGGCGAGTCTCGGCCGCATCGGCCTGGGCTTGCTGGCGGCGCTGCTGACCGCCATCCCGGTGGGCATCGCCATGGGCCGCAACCGCATCGCTCAAGGGCTGCTCGACCCGCTGATCGAGTTCTACCGCCCCATTCCGCCCCTGGCCTACCTGCCGCTGATCGTCATCTGGTGCGGCATCGGTGAGCTATCCAAGGTGCTGCTGATCTACCTGGCGATCTTCGCCCCGGTCGCCATCGCCACCGCCAACGCAGTGCGCAACATCGACCCGGCCCGCCTGCGCGCGGCCCAGTCCCTTGGCGCCACGCCGGCGCAGCTGGTGCGCCATGTGATTCTTCCCAGCGCACTGCCGGACATCCTCACCGGCCTGCGCATCGGCCTGGGCGTCGGCTGGTCGACCCTGGTCGCCGCCGAGCTGGTGGCCGCCACTCGCGGGCTCGGCTTCATGGTGCAGTCGGCCGCCCAGTTCCTGGTCACCGACGTGGTGGTGCTGGGCATTCTGGTCATCGCGCTGGTGGCCTTCGCCCTCGAACTCGGCTTGCGCCGCCTGCAACGCATCCTGGTGCCCTGGCACGGCCAGGGTCACTGA	MNSLDLDLPHASPQSRQWPRWRPGIGLLGGLTLGGLLVIWWAVTAGRLIEPLFLPSPAAVVGRFWQLATVGYLDATLWQHLGASLGRIGLGLLAALLTAIPVGIAMGRNRIAQGLLDPLIEFYRPIPPLAYLPLIVIWCGIGELSKVLLIYLAIFAPVAIATANAVRNIDPARLRAAQSLGATPAQLVRHVILPSALPDILTGLRIGLGVGWSTLVAAELVAATRGLGFMVQSAAQFLVTDVVVLGILVIALVAFALELGLRRLQRILVPWHGQGH	PGPT0002950_537	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TAURINE_TRANSPORT,PGPT0002950-tauB-K15552	NA	NA
BMS010_08633	834	tauD	COG2175	Alpha-ketoglutarate-dependent taurine dioxygenase	ATGTCACTCCGCATCACCCCCTTGAGCCCGGCCCTCGGCGCACGGATCGAAGGCATCGACCTGAGCGCCCCGCTGGATGCCGGACAGCGCCAGGCCATCGAGCAGGCCCTGCTCGACCATCAGGTACTGTTCTTTCGCGACCAACCCCTGACCCCGGCGCAGCAGGCCCGCTTCGCCGCCCAGTTCGGCGACCTGCATGTCCATCCCATCTACCCCAACGTCGAGGGACAACCGGAGGTGCTGGTGCTGGACACTGCACTCAACGATGTCCGCGACAACGCCATCTGGCACACCGACGTCACCTTCCTGGAGACCCCGGCGCTCGGTGCCGTGCTCGCCGCCAAGCAGGTGCCCCCGGTCGGCGGCGATACCCTCTGGGCCAGCAGCAACGCGGCCTACGAGGCGCTGTCCGCACCGTTTAAAGCACTGCTCGACGGCCTGACCGCCACCCACGACCTGACCCGCTCGTTCCCCCGCGAGCGCTTCGGCGCCACGCCCGAAGCCCTGGTCCGCTACGAGGCGGCGCAGCGCGACAATCCGCCCCGCTCGCACCCGGTTGTGCGCACCCATCCGGTCAGCGGACGCAAGGGCCTGTTCGTCAACGATGGCTTCACAACCCGCATCAACGAGCTGGAACCAGCGGAAAGCGATGCGCTGCTGCGCTTTCTCTTCGCCCATGCCACGCGCCCGGAATTCACCCTGCGCTGGCGCTGGCAAGCCAACGACGTTGCCTTCTGGGACAACCGCATCACCCAGCACTATGCGGTGGACGACTATCGACCGCAGCGCCGGGTGATGCATCGCGCGACGATTCTCGGCGACGTGCCTTTCTGA	MSLRITPLSPALGARIEGIDLSAPLDAGQRQAIEQALLDHQVLFFRDQPLTPAQQARFAAQFGDLHVHPIYPNVEGQPEVLVLDTALNDVRDNAIWHTDVTFLETPALGAVLAAKQVPPVGGDTLWASSNAAYEALSAPFKALLDGLTATHDLTRSFPRERFGATPEALVRYEAAQRDNPPRSHPVVRTHPVSGRKGLFVNDGFTTRINELEPAESDALLRFLFAHATRPEFTLRWRWQANDVAFWDNRITQHYAVDDYRPQRRVMHRATILGDVPF	PGPT0002940_1386	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_TAURINE_UTILIZATION,PGPT0002940-tauD-K03119	NA	NA
BMS010_08634	1278	soxC_1		Dibenzothiophene desulfurization enzyme C	ATGGCCCGACCGTCCGTTCCCCTGCGCGACACCGTCCCGGAGATCCGGTCCCAGCCCGCCACCGGCAGCGACCAGGACATCGCCCCTCCGCTGTACCCCGCGCGCATCCTGCGCAATGACGAGGAAGCCCTGCAGGCCGCCCGCGAGCTGGCCCGCGACGCCGCCACGGAAGCGGCGCGCCGCGACCGCGAGCGCAAGCTACCCTGGTGCGAGCTGGAGCGTTTCACCGCCAGCGGCCTGGGCAGCCTGACCATCCCTCGAGAATACGGCGGCCCCGGCCTGTCGTTCGCCACCCTCAGCGAAGTCTTCCGCCTCATTTCCGAGGTGGACCCGGCGCTCGGCCAGATTCCGCAGAACCACTTCGGCCTGCTCCAACTGATCCAGCTCACCGCCAACGAGTCACAGAAACGCCGGCTGTTCCGCAGCGTGCTGGAGGGCTGGCGGATCGGAAATGCCGGGCCGGAGCGCGGCAGCCGCCATACCCTGGACATCCGCGCGCGGCTGGAGCGCGACGGCGATGGCTTTCGTCTCAGCGGCGAAAAGTTCTACTCGACCGGTGCCCTGTTCGCCCACTGGGTGGCAGCCAAGGCCCTCGACGACCACGACCGCGTGGTGCTCGCCCTGATTCCGCGCGGCACCCAGGGCCTGCGCATCGTCGACGACTGGTCCGGCTTCGGCCAACGCACCACCGCCAGCGGCACGGTGCTGTTCAATGCCGTACCGGTGGCCGCCGAAAACGTCATCGACCTGAGCCCGCAACGCGACCTCCCGAACCTCCAGGGTGCCGCCTCGCAACTGATCCAGGCCGCGATCGACGCCGGTATCTCCCGTGGCGCACTGAACGATGCCATCGCCTTCGTCCGCGACAAGGCGCGGCCTTGGATCGAGGCCAAGGTGGAGCGCGCCAGCGACGACCCCTACGTCGTCGCCGACGTCGGCCGGCTGAACGTCGAGCTGCATGCCGCCGAAGCGGTATTGCGCCGCGCCGCCCGCGTACTGGACGACAGCGCGGCGGCGCCGCTGGATGCGGACGGCGCCGCGCGCGCCTCCATCGCCGTGGCCGAGGCCAAGGTACTCACCACCGAGATCGCCCTGCGCGCCAGCGAGAAGCTGTTCGAGCTGGCCGGCAGTCGCGCCACCCTCGCCGAGTTCAACCTCGACCGTCATTGGCGCAACGCCCGCACTCACACCCTGCATGACCCAGTGCGATGGAAGTACCACGCCATCGGCGCCTACCACCTCAACGGCCAGCATCCGGCCCGGCACTCCTGGATCTGA	MARPSVPLRDTVPEIRSQPATGSDQDIAPPLYPARILRNDEEALQAARELARDAATEAARRDRERKLPWCELERFTASGLGSLTIPREYGGPGLSFATLSEVFRLISEVDPALGQIPQNHFGLLQLIQLTANESQKRRLFRSVLEGWRIGNAGPERGSRHTLDIRARLERDGDGFRLSGEKFYSTGALFAHWVAAKALDDHDRVVLALIPRGTQGLRIVDDWSGFGQRTTASGTVLFNAVPVAAENVIDLSPQRDLPNLQGAASQLIQAAIDAGISRGALNDAIAFVRDKARPWIEAKVERASDDPYVVADVGRLNVELHAAEAVLRRAARVLDDSAAAPLDADGAARASIAVAEAKVLTTEIALRASEKLFELAGSRATLAEFNLDRHWRNARTHTLHDPVRWKYHAIGAYHLNGQHPARHSWI				NA	NA	NA	NA	NA
BMS010_08635	1221	soxC_2		Dibenzothiophene desulfurization enzyme C	ATGACCACCGCCATCAAACCCAGCCTCACCCAGGCCGTCCCGCCGACGGCCCTGATCACCAGCGATGCCCAGGCCCTCGACGTGGCCGAAGACCTGGCCGTGCTGTTCACCCGCGACGCCGCCGCGCGCGACCGCGAGCGACGCCTGCCGCACGCCGAACTGGCCCTGTTCTCGCGCTCCGGGCTGGGCGCCATCAGCGTGCCGAAAGCTTTCGGCGGAGCCGGTGTCTCCAGCGTCACCCTGGCCAGGGTCATCGCCCGGCTCGCCCAGGCCGACGGCTCCATCGGACAGATACCGCAGAACCACTACTACGCCCTCGAACTGCTGAGGGTGAACGGCACGCCGGCGCAGCAGCGCCGCCTCTTCGCCGAGGTGCTGGCAGGCCAGCGCTTCGGCAATGCGCTGGCGGAGCTGGGCACGAAGAACGCCCACGAACGCACCACCCGCCTGACCCGCGACGGCGATGGCTACCGCGTCAACGGGCGCAAGTTCTACGCCACCGGCGCCCTGTTCGCCCAACGCATCCCCACTTCGGTGATCGACGACGACGGCATCCAGCAGTTCGCCTTCATCCCCCGCGAGACACCCGGCATCGACGTGATCGACGACTGGTCCGGCTTCGGCCAGCGCACCACCGGCAGCGGCTCGGTGGTGTTCGACAACGTCTTCGTCGCCGCCGAGGACGTGGTGCCCTTCCAGTCCGCCTTCGAGCGGCCGACCACGGTCGGCCCGTTCGCCCAGATTCTTCACGCCGCCATCGACCTGGGCATTGCCCGTGGCGCCTATGAGGAGGCCCTGGTCTTCATCCGCGAACGCTCGCGACCATGGATCGACGCCGGCGTGGAGCAGGCCAGCGACGACCCGTTGACCCTCACCGAACTCGGCCGGCTGGCGGCCCACCTGCGTGGCGCCGAGGCGCTGCTGGAACAGGCCGGCCTCGCCCTCGACGAGGCGCAGGCGGCACCGGACGCCGCCTCGGTGGCCGCTGCCTCCATCGCGGTGGCCGAAGCGCGGGCGATCACCACCGAAGTCTCCCTGGCCAGTGGCAGCAAGCTGCTGGAACTGGCCGGGAGCCGCGGCACCCTCGCCGAATACAACCTCGACCGCCACTGGCGCAACGCCCGCACCCACACCCTGCACGACCCGGTGCGCTGGAAATATCACGCAGTGGGCAACTACTACCTCAACGGCGAACTGCCGCCACGCCGGGGGACCATCTGA	MTTAIKPSLTQAVPPTALITSDAQALDVAEDLAVLFTRDAAARDRERRLPHAELALFSRSGLGAISVPKAFGGAGVSSVTLARVIARLAQADGSIGQIPQNHYYALELLRVNGTPAQQRRLFAEVLAGQRFGNALAELGTKNAHERTTRLTRDGDGYRVNGRKFYATGALFAQRIPTSVIDDDGIQQFAFIPRETPGIDVIDDWSGFGQRTTGSGSVVFDNVFVAAEDVVPFQSAFERPTTVGPFAQILHAAIDLGIARGAYEEALVFIRERSRPWIDAGVEQASDDPLTLTELGRLAAHLRGAEALLEQAGLALDEAQAAPDAASVAAASIAVAEARAITTEVSLASGSKLLELAGSRGTLAEYNLDRHWRNARTHTLHDPVRWKYHAVGNYYLNGELPPRRGTI				NA	NA	NA	NA	NA
BMS010_08636	1395	dmoA		Dimethyl-sulfide monooxygenase	ATGGAGCCGAAACAGCTGCAGCTCAACGCCTTCGACATGAACTGCATCGGCCATATCAACCATGGCCTGTGGACGCACCCACGCGACCGCTCCACGGAGTTCGGCAGCCTCGCCTACTGGACCGAGCTGGCGCGGCTGCTGGAGCGGGGACTGTTCGACGGGCTGTTCATCGCCGACATCCTGGGCGTCTACGACGTCTACCAGGGCAGCATCGACCTGCCCCTCAAGGAAGCCATCCAGCTACCGGTCAACGACCCACTGCTGCTCGCTTCGGCGCTGCTGGGCGCCACCACGCACCTGGGCTTCGGCGTCACTGCCAATCTCAGCCACGAACCACCCTACCTCTTTGCCCGTCGCCTCTCGACCCTGGATCACCTGAGCCAGGGTCGAATCGGCTGGAACATCGTCACCGGCTACCTGGACAGCGCCGCACGCGCGATGGGCCAGAATGGCCTGGTGGAGCACGATCGCCGCTACGACCAGGCCGACGAATACCTGGAGGTGCTCTACAAACTCTGGGAAGGGAGCTGGGAAGACGACGCGGTGCTTGCCGACCGCGCAGCGCGGATCCATACCCAGCCGGACAAGGTGCATCAGGTACGCCACCAGGGCGAGTTCTACCGCGTCGAGGGTTACCACCTCAGCGCCCCTTCGCCCCAGCGCACGCCAGTGCTGTTCCAGGCCGGTTCCTCCGAGCGAGGCCTGCGCTTCGCCGGCCGCCACGCGGAATGCGTGTTCATCGGCGGCTCCAATCCCTCGGCCGTGCGCGACCAGGTCGTGCGGGTCCGCCGCGCCGCCGAAGCGGCCGGACGCGACCCGCAGTCGGTCAAGCTGTTCCTCGGCATCAGCGCGGTGGTGGCGACGAGCGAGGCCGAGGCCCGCGACAAACTCGCCGAGTACCGTCGCCATGCCAACCCGGAGGCGGGCCTGGCGCACTTCTCGGCGTCCACCGGCATCGACTTCTCGCGTTATGGCCTGGACGAGCCCATCCGCTACCAGAAAACCAACGCCATCGAATCGGTGGTCAAGACCTTCACCGCGCCCGGCGCCGGCTGGACCCGCCGTCGCCTGCTGGAACAGCACGCCCTGGGCGGACGCTATCCGCTGCTGGTGGGCTCGCCGGTGCAGGTCGCCGACGAACTGCTGCACTGGCTCGACGATACCGGCCTGGACGGCTTCAACCTGACCCGCACCGTCACCCCGGAAAGCCATGCCGACTTCATCGACCTGGTGATCCCGGAATTGCAGGCGCGCGGCCGCTACAAGACCGCCTACGCCGAAGGCACCCTGCGGGAGAAGCTGTTCGGTGCCGGCCCGCGCCTGCCGGCCGGACACCCCGGTAGCGCCTGGCGGTCCCTCGGCGCGGTACCACAGGCCCGACGCCTCGGCGGTTGA	MEPKQLQLNAFDMNCIGHINHGLWTHPRDRSTEFGSLAYWTELARLLERGLFDGLFIADILGVYDVYQGSIDLPLKEAIQLPVNDPLLLASALLGATTHLGFGVTANLSHEPPYLFARRLSTLDHLSQGRIGWNIVTGYLDSAARAMGQNGLVEHDRRYDQADEYLEVLYKLWEGSWEDDAVLADRAARIHTQPDKVHQVRHQGEFYRVEGYHLSAPSPQRTPVLFQAGSSERGLRFAGRHAECVFIGGSNPSAVRDQVVRVRRAAEAAGRDPQSVKLFLGISAVVATSEAEARDKLAEYRRHANPEAGLAHFSASTGIDFSRYGLDEPIRYQKTNAIESVVKTFTAPGAGWTRRRLLEQHALGGRYPLLVGSPVQVADELLHWLDDTGLDGFNLTRTVTPESHADFIDLVIPELQARGRYKTAYAEGTLREKLFGAGPRLPAGHPGSAWRSLGAVPQARRLGG	PGPT0003040_11	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_DEGRADATION,PGPT0003040-ssuD-K04091	NA	NA
BMS010_08637	816	metQ_3	COG1464	D-methionine-binding lipoprotein MetQ	ATGCTGCACACTTCTCCCCCTCGCCGTGGCTGGCTGAAAACCCTGGCCCTCATCGCCCTGCTGGGCACCACCACCCCCGCACCGGCCGAGGAGCCTCTCCGGCTGGGTACCACCGCCGCCTTCGCACCACCCCTGGAAGCGGCCGTGGAAGAAGCCGAGAAACAGGGCTTGAAGGTCGAACTGGTGGAATTCAGCGACTGGATCGCCCCCAACGTCAGCCTCGCCAACGGCGATATCGACGTGAACTACTTCCAGCACATTCCCTTCCTGGAAAACGCCCGCCAGGAAGGCGGCTACGACTTGGTGCCCTATGCCCCCGGCATCATCAACAACGTCGGTCTCTACTCGAAGCACTACGCCAGCTTCGACGCCCTGCCGGAAGGCGCCAAGGTGGCCATCGCCAACGACCCGGTGAACGGCGGCCGTGGCCTCCTGCTGCTGGAAAAGGCCGGGCTGATCCGCCTCAAGCCCGGCGTCGGCTACCACGCCACGCAGCAGGACATCACCGCCAATCCGAAGCGCCTGCGCATCATCGAACTGGAGGCGGTGCAACTGGTGCGCGCCTACGACGATGTGGACCTGGTCCAAGGTTATCCCGCCTACATCCGCCTGGCGAACAGCTTCGACCCCACCTCCGCCCTGCTCTTCGACGGCCTCGACCATCCCGAGTACGTCATCCAATTCGTCATCCGCCCGGACCGCAAGGACGATCCGCGCTTGAAGCGTTTCGTCGAGATCTACCAACAATCCCCCGCCGTCCGCGCCGCCCTCGACAAGGCCCACGGCACCCTCTACCAACCCGGATGGAAGAGCTGA	MLHTSPPRRGWLKTLALIALLGTTTPAPAEEPLRLGTTAAFAPPLEAAVEEAEKQGLKVELVEFSDWIAPNVSLANGDIDVNYFQHIPFLENARQEGGYDLVPYAPGIINNVGLYSKHYASFDALPEGAKVAIANDPVNGGRGLLLLEKAGLIRLKPGVGYHATQQDITANPKRLRIIELEAVQLVRAYDDVDLVQGYPAYIRLANSFDPTSALLFDGLDHPEYVIQFVIRPDRKDDPRLKRFVEIYQQSPAVRAALDKAHGTLYQPGWKS	PGPT0020510_2741	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020510-metQ-K02073	NA	NA
BMS010_08638	1149	metN_2	COG1135	Methionine import ATP-binding protein MetN	ATGAGCGGACTCCCGATCTCCCTGCACCAGGTCGCCGACCTGCGCCCCGCAACACCGGCCCCGCTATCGCCCGCCCCCCGCTCTCCGGCATCCAGGCCGGAAGCGCTCGACACCCTGCTGCGCTTCGAGTCCGTCGGCAAAACCTACCCCGGCGCCGTAGCACCAGTGCGCGCCCTGCACGGCATCGACCTGGCGATTCGCCGCGGCGAAGTGTTCGGCATCATCGGCCGCAGCGGCGCCGGCAAGTCGTCGTTGATCCGTACCGTCAACCGCCTGGAACAGCCCAGCGAAGGCCGCGTGCTGATCGACGGCCTGGACATCGCCCGCCTCGACGAAGACGGCCTGGTCGCCCTGCGCCGGCGCGTCGGCATGATCTTCCAGCACTTCAACCTGATGTCGGCGAAAACCGTGCGGGAGAACATCGAACTGCCGCTACGGGTCGCCGGCGTGCCGCGCGCCCAGCGCCGGCGCAAAGTCGAGGACCTGCTCGCCCTGGTCGGCCTGGAGGACCGCCGGGACGCCTATCCCACCCAGCTCTCCGGGGGGCAGAAGCAGCGCGTCGGCATCGCCCGCGCGCTGGTTCACGATCCGCAGATTCTGCTCTGCGACGAGGCGACCTCCGCCCTCGATCCGGAAACCACCCAATCGATCCTCGCCCTGCTGCGCGAGATCAACCAACGCCTGGGCCTGACCATCCTCCTCATCACCCACGAGATGGAAGTGATCCGCGACCTGTGCGACCGTGTGGCGGTACTCGAACGCGGCGAAGTGGTCGAACAGGGCCCGGTCTGGCGCGTGTTCGGCGAACCGCATCATGAAGTCACCCGCACCTTGCTTGCGCCCCTGCGCCATCCCCTGCCGGATGACGTAGCAACAAGACTGCGCGCCGAGCCGGCACCCGGCGATGCGTTGGTTCTCGATCTGCGCTTCAGCGGGCGCAACGCGGCACCCGACCTGGCAGCTCTTGCCAACCGTCTGGGCGGGCGCGTGACACTGCTGGACGGCGGCATCGAGCGCATCCAGGGCCGCGCCCTCGGGCATCTGCTGCTGGCGATACACGGCTCGCCACATCCGGCATCCAACCTGCTCGAACGAGCGCATCAACTGGCGGACCACGTGGAGGCGATCGGCCATGTCGCTACTTCTTGA	MSGLPISLHQVADLRPATPAPLSPAPRSPASRPEALDTLLRFESVGKTYPGAVAPVRALHGIDLAIRRGEVFGIIGRSGAGKSSLIRTVNRLEQPSEGRVLIDGLDIARLDEDGLVALRRRVGMIFQHFNLMSAKTVRENIELPLRVAGVPRAQRRRKVEDLLALVGLEDRRDAYPTQLSGGQKQRVGIARALVHDPQILLCDEATSALDPETTQSILALLREINQRLGLTILLITHEMEVIRDLCDRVAVLERGEVVEQGPVWRVFGEPHHEVTRTLLAPLRHPLPDDVATRLRAEPAPGDALVLDLRFSGRNAAPDLAALANRLGGRVTLLDGGIERIQGRALGHLLLAIHGSPHPASNLLERAHQLADHVEAIGHVATS	PGPT0020520_412	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020520-metN-K02071	NA	NA
BMS010_08639	651	metP_2	COG2011	Methionine import system permease protein MetP	ATGTCGCTACTTCTTGATCGACTCTGGCAGGGCCTGGTCGACACCGGTCTGATGGTGGGCGTGTCATCCCTGTTGGCCCTGATCCTCGGCATTCCGCTGGCCGTGGTACTGGTCACCAGCGGGCGCGGCGGCCTCTTCGAGGCTCCGGCTTTGAACCGCCTGCTCGGAGGTCTGGTCAACCTGTTCCGCTCGGTGCCTTTCCTGATCCTCATGGTGGCGCTGATTCCCTTCACCCGGCTGCTGGTGGGCACCACCTACGGCGTCTGGGCCGCCGTCGTCCCCCTCACCATCGCCGCCACGCCCTTCTTCGCGCGCATCGCCGAAGTCAGCCTGCGCGAGGTCGATCACGGCCTGATCGAAGCCGCCCAGGCCATGGGCTGCCGACGCTGGCACATCGTCTGGCACGTGCTTCTCCCCGAAGCCCTGCCTGGCCTCATCGGCGGCTTCACCATCACCGTGGTCACCCTCATCAACTCCTCCGCCATGGCCGGAGCCATCGGCGCGGGCGGCCTCGGCGACCTCGCCTACCGCTACGGCTACCAGCGCTTCGACACCCAGGTGATGGTCACCGTCATCGTCGTGCTGATCGTACTGGTCACCCTGATCCAACTCAGCGGCGACCGCCTGGCACGGCACTTCAACCGGAGATAG	MSLLLDRLWQGLVDTGLMVGVSSLLALILGIPLAVVLVTSGRGGLFEAPALNRLLGGLVNLFRSVPFLILMVALIPFTRLLVGTTYGVWAAVVPLTIAATPFFARIAEVSLREVDHGLIEAAQAMGCRRWHIVWHVLLPEALPGLIGGFTITVVTLINSSAMAGAIGAGGLGDLAYRYGYQRFDTQVMVTVIVVLIVLVTLIQLSGDRLARHFNRR	PGPT0020515_3201	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020515-metI-K02072	NA	NA
BMS010_08641	747	entA	COG1028	2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase	ATGCCTAATCGCGAATCCTCGTCTCCCCTTGCCGTGATCACCGGTGCCGGCTCGGGTATTGGTCTGGCAGTGGCCGAACGGCTCTTGCAGCAAGGAGCCCAGGTGTTGGCCATGGCCCGGCGCAGCGAGCCGCCGGCCGCCTTGCAGGGGCAGCTCGGCAAGCAGGTGTTCTGGTTGTCAGGCGACGTGACCCGCGCCGAAGACCTGGGCAGATTGGCGCAGCACGCGCGGGACCTCGGCCCCATCGACTACCTGGTGCCGAATGCTGGGATCGCCCAACTGGCCGACGGACTGGATGGCGAAGCCTTTCAGCGCCAGTGGGCCGTCAACGGCGCCGGCGCCCTCAATACCCTGGCTGCCCTGCGGGACCAACTGGCCCGCCCGGCCTCGGTGGTATTCATCGGTACCTTCCTGTCGCAGGTGACATTCCCCGGCCTCGCCGCTTATATCGCCTCGAAGTCCGCGCTCAAGGCCCAGGCAAGGACCCTGGCCGTCGAGCTGGCGGCGCAGGAGGTGCGTATCAACATGGTGTCGCCAGGGCCGACCGCAACGCCGATCTGGGGAACGCTGGGCCTGGACGATGCTCAGTTGGCCGACGTTGCCGGGTCGGTCACGCAGCGTTTGCTGGACGGCCGGTTCCTCGAGCCGGGCGCTGTGGCCGATGCGATTGTCTTCCTGTTGTCGGACGGAGCCCGAGGCATCACGGGGCAGGATCTGATCGTGGATAACGGATACACCCTGCGCTAA	MPNRESSSPLAVITGAGSGIGLAVAERLLQQGAQVLAMARRSEPPAALQGQLGKQVFWLSGDVTRAEDLGRLAQHARDLGPIDYLVPNAGIAQLADGLDGEAFQRQWAVNGAGALNTLAALRDQLARPASVVFIGTFLSQVTFPGLAAYIASKSALKAQARTLAVELAAQEVRINMVSPGPTATPIWGTLGLDDAQLADVAGSVTQRLLDGRFLEPGAVADAIVFLLSDGARGITGQDLIVDNGYTLR	PGPT0018065_1460	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_OLIGOGALACTURONIDE_DEGRADATION,PGPT0018065-kduD-K00065	NA	NA
BMS010_08642	924	pgrR_14		HTH-type transcriptional regulator PgrR	ATGGACCGTTTCGATGCGATGCAGGCTTTTGCCCGTGTGGTGGAAACCGGCAGCTTCACCAAGGCGGCCGAGACGCTGCACATGAGCAAGACCAGCGTGACGCAACTGGTGCAGCAGTTGGAGGCGCGGCTGCGGGTCAGGCTGCTCAACCGGACCACGCGCAAGGTCAACGTCACCGCCGACGGCGCCGCCTACTACGAGCGGGTGGTGCGGTTGCTGGCCGACATGGACGATGCCGAGACCAGCCTGTCCAGTGCCGCGACGTCGCCCAGGGGCCGGCTGCGGGTGGACGTGCCCAGCCCGCTGGCCCGCCTGATCCTGGTGCCGGCCTTGCCGGCGTTTCATGCGCGCTACCCTGACATCCAGCTCGACATGGGCGTCAGCGATCGCATCGTCGACCTGATCGATGAGAACGTGGATTGCGTTGTGCGGGGCGGCGAACTCACCGACCAGTCGCTGATGATGCGCCACGTGGCCGACTTGCAACTCGGCGTCTACGCGGCGCCGAGCTATCTGCAACGCGCGGGTATTCCCGGGCATCCGCGTGAGCTGGAGGACACGCATCACCGCATCGTGGGTTTCCTGTGGGCGCGTTCCGGCAAGGCCCTTCCGTATGCCATGCACCGCGGCGGCGAGCGCGTCAACGTGCACGGCCGCCATGTGCTGGCGGTCGATGACGGCAATGCCTGCCTCGCGGCCGGCCTGGCCGGGCTGGGCGTGCTCTGGCTGCCGGACTACATGGCCAAGGCACACCGGGCCAATGGCGAGCTGGTGCCCCTGTTCGAAGACTGGCGCCTCGATCCGATGCCGCTGTACATCGCGTTCCCGCCGAACCGGCATGTCAGCGCCAAGCTGCGCGTGTTCATCGACTGGGTTGCGGAGCTGATGACGCACCATGCGCCTGTCGTCAGTCCCGTTTCGTAG	MDRFDAMQAFARVVETGSFTKAAETLHMSKTSVTQLVQQLEARLRVRLLNRTTRKVNVTADGAAYYERVVRLLADMDDAETSLSSAATSPRGRLRVDVPSPLARLILVPALPAFHARYPDIQLDMGVSDRIVDLIDENVDCVVRGGELTDQSLMMRHVADLQLGVYAAPSYLQRAGIPGHPRELEDTHHRIVGFLWARSGKALPYAMHRGGERVNVHGRHVLAVDDGNACLAAGLAGLGVLWLPDYMAKAHRANGELVPLFEDWRLDPMPLYIAFPPNRHVSAKLRVFIDWVAELMTHHAPVVSPVS	PGPT0028940_432	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-CHLORAMPHENICOL|TRIMETHOPRIN_EFFLUX_PUMP_BpeEF-OprC,PGPT0028940-bpeT-K18900	NA	NA
BMS010_08643	390	yjgH_2	COG0251	RutC family protein YjgH	ATGGCAAAGCGTGATGTTGTTTTCCCCTCTGGCCGCCAGGCGCTCTACGAACGCAATCGCTATTCGCCGGCGATCCGCTCCAATGGCTTCCTGTTCGTGTCGGGGCAGGTCGGCAGCCGCGAAGATGGCTCGCCCGAACCCGAATTGGAGGCCCAGGTCCGCCGCGCATTCGACAACCTGAACGCCATCCTGAAGGCGGCAGGCTGTACCTTCGACGACGTGGTGGACGTGACCGTCTTCATCGTCGATCCCGAGTCGAATTTCGACACCATCTGGAAGGTCTTGCCCGACTACTGGGGCAGCGCGCCGCACCCGACGCTGACCGGCATCGGCGTGACCTGGCTCTACGGCTTCCAGTTCGAGATCAAGGTGATCGCCAAACTGCCGTAG	MAKRDVVFPSGRQALYERNRYSPAIRSNGFLFVSGQVGSREDGSPEPELEAQVRRAFDNLNAILKAAGCTFDDVVDVTVFIVDPESNFDTIWKVLPDYWGSAPHPTLTGIGVTWLYGFQFEIKVIAKLP	PGPT0020030_4112	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020030-ridA|tdcF-K09022	NA	NA
BMS010_08644	102			hypothetical protein	ATGGAGCGCATTTCGGTATTCGAACTGGCGGAGTGGCTGGCTGCCGGCCGCACCTTTACGTTGCTCGACGTTCGCGCCGGTGACTTTACGAGCTGTAAATGA	MERISVFELAEWLAAGRTFTLLDVRAGDFTSCK	PGPT0003021_393	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-THIOSULFATE_DEGRADATION,PGPT0003021-glpE-K02439	NA	NA
BMS010_08645	1362	srpC	COG2059	putative chromate transport protein	ATGAGAGAGACGACCGTGCAACCCGATGAGCAGACACTTCCGCGCGGCGAGTCCGTCAGTTTCCTGCAAGCCCTGTTGTTCTGGCTCAAGCTCGGCTTCATCAGCTTCGGCGGCCCGGCCGGGCAGATCGCGATCATGCACCAGGAGCTGGTGGAGCGCCGTCGCTGGATTTCCGAGCGGCGTTTTCTCCACGCCCTCAACTACTGCATGTTGCTGCCCGGCCCGGAGGCCCAGCAGTTGGCCACCTACATCGGCTGGTTGCTGCACCGCACCTGGGGCGGCGTGATCGCCGGTGCGCTGTTCGTGTTGCCTTCGCTGTTTATCCTGATCGCCCTGTCCTGGCTCTATATCGCCTTCGGCGAAGTGTCGCTGGTCGCCGGCATCTTCTATGGCATCAAGCCGGCGGTGACCGCCATCGTGCTGCAGGCGGCACACCGCATCGGTTCGCGGGCGCTGAAGAACAATTGGCTGTGGGCTATCGCGGGGGCTTCGTTCCTGGCCATCTTCGCCCTCGATGTGCCGTTCCCTCTCATCGTGCTGGGCGCTGCCGCGATCGGTTATGTCGGTGGACGACTGGCCCCGCAGGCGTTCAGCGTGGGTGGTGGTCACGGTGCCGCCAAGCAGTCCTACGGGCCGGCGCTGATCGACGACAACACACCGCCGCCGCCCCATGCGCGCTTCCGCTGGTCGCGCCTGGTTCTGCTTCTGGTGATCGGTGCCGCGCTCTGGGTATTGCCGATGGGAGTACTGACCGCGCTGTTCGGCTGGGAAGGCACGCTGACCCAGATGGGTTGGTTCTTCACCAAGGCCGCCCTGCTGACCTTCGGTGGCGCCTATGCGGTGCTGCCCTACGTCTACCAGGGCGCAGTTGGCCACTATGGCTGGCTGACACCGACGCAGATGATCGACGGCCTGGCCTTGGGTGAAACCACTCCGGGACCGCTGATCATGGTGGTGGCGTTCGTCGGCTTCGTTGGCGCTTATGTGCAGCAAGTGTTCGGTGCCGACCAGGCGTTCCTCGCCGGCGCCCTGGCCGCCTGCCTGGTCACCTGGTTCACCTTCCTGCCGTCCTTCCTGTTCATCCTGGTTGGCGGCCCGTTGGTGGAGTCCACTCACAACGAATTGAAGTTCACCGCGCCGCTGACCGCCATTACCGCCGCGGTGGTGGGGGTGATTCTCAACCTGGCGTTGTTCTTCGGCTACCACGTGCTCTGGCCGCAAGGCTTCGCCGGTAGTTTCGACTGGCCTTCGGCGTTGATCGCCCTAGGGGCCGCGTTGGCGCTGTTCCGATTCAAGCGTGGGGTGATCCAGGTGCTGCTGGGCTGTGCCTTGGTCGGTCTGGCGGTGCATCTGCTGCGCTGA	MRETTVQPDEQTLPRGESVSFLQALLFWLKLGFISFGGPAGQIAIMHQELVERRRWISERRFLHALNYCMLLPGPEAQQLATYIGWLLHRTWGGVIAGALFVLPSLFILIALSWLYIAFGEVSLVAGIFYGIKPAVTAIVLQAAHRIGSRALKNNWLWAIAGASFLAIFALDVPFPLIVLGAAAIGYVGGRLAPQAFSVGGGHGAAKQSYGPALIDDNTPPPPHARFRWSRLVLLLVIGAALWVLPMGVLTALFGWEGTLTQMGWFFTKAALLTFGGAYAVLPYVYQGAVGHYGWLTPTQMIDGLALGETTPGPLIMVVAFVGFVGAYVQQVFGADQAFLAGALAACLVTWFTFLPSFLFILVGGPLVESTHNELKFTAPLTAITAAVVGVILNLALFFGYHVLWPQGFAGSFDWPSALIALGAALALFRFKRGVIQVLLGCALVGLAVHLLR				NA	NA	NA	NA	NA
BMS010_08646	942	chrB1		Protein ChrB	ATGGCGTTGCCCACGGCCAACGCCGCCGAGCGCATGCGTGCCTGGCGAACCTTGAAGGGGGCGGGGGCTGCGGTGCTGCGCGATGGGGTGTATCTGCTGCCGGATCGGCCGGCCTGCCGTGAGACCCTGGCGACGGTGGAGCGCGACATTCTCGACAGCGAGGGTTACGCCTGCCTGTTGCCGGTATGCGATCCGCAGGGGGAGCGCTTCGTGCCTCTGTTCTCGCGGTCGGAGGATTACACCAGGCTGAGTGGGGAGATAGAGGCACAGCTCGCTCAGTTGGCCCCCGATACCGCGCTTGCGGTCATGCGTCAGGCCCGCAAGCTGCGCAAGGCTTTTGCCCAGACTCAGGACATTGACTTTTTCCCGGGGGCGGACCAGCAGCAGACCGACGCGCGGCTGCGCGAACTGGAGGTCGCGATTGGTCGGGCGCTGTCCAAGGATGAGCCCAGTAGCCAGGAGCGCGAGATCGAGCGCCTGTCGCTGTCCGGGTTCAAGGGGCGTGTCTGGGCCACGCGCCGGCGTCCGTGGGTCGACCGCCTAGCCAGCGCCTGGCTGATCCGCCGTTTCATCGATCCGGATGCGCGCATCCTCTGGCTGCCATCCGTGGACGATTGCCCCGCCGACGCCCTGGGCTTCGATTTCGATGGGGCCCGTTTCAGCCATGTTGGCAACCGGGTGACCTTCGAGACGCTGCTGGCCTGCTTCGATCTGGATACATCCGGCCTGCGGCGCATGGCGGCATTGGTGCATTACCTCGACATTGGCGGCGCCCAGCCCGCCGAGGCGGCCGGCGTGGAGCGGGTGCTGGCGGGGCTGCGGGACAGCGTCGAAGACGACGATCAACTATTGGCTGCCGCCTGCGCCATCTTCGATGGGTTGCTGGCGGCGTTCGGCAAGGAAGGACAGAGCGATGAGAGAGACGACCGTGCAACCCGATGA	MALPTANAAERMRAWRTLKGAGAAVLRDGVYLLPDRPACRETLATVERDILDSEGYACLLPVCDPQGERFVPLFSRSEDYTRLSGEIEAQLAQLAPDTALAVMRQARKLRKAFAQTQDIDFFPGADQQQTDARLRELEVAIGRALSKDEPSSQEREIERLSLSGFKGRVWATRRRPWVDRLASAWLIRRFIDPDARILWLPSVDDCPADALGFDFDGARFSHVGNRVTFETLLACFDLDTSGLRRMAALVHYLDIGGAQPAEAAGVERVLAGLRDSVEDDDQLLAAACAIFDGLLAAFGKEGQSDERDDRATR	PGPT0004186_22	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0004186-chrB-NA	NA	NA
BMS010_08647	795	ant1		Streptomycin 3''-adenylyltransferase	GTGCTGAGGCGCCACCTTGGCGAAACGCTGCAAGCCATCCACCTGTTCGGCTCTGCGGTCGATGGCGGGCTCAAGCCGCACAGCGACATCGACATGCTGGTGACGGTGAGCGTACCCCTGACAGCCCCCACCCGGCAGGCGCTGATGACGGATTTGCTCTCGGTATCGGCCTGGCCTGTTACGGAAGGCTCGCTCCGGCCGCTGGAAGTAACGGTCCTCGTCCACGATGCCGTAGTACCCTGGCGCTACCCGCCGCTGCGCGAACTCCAGTTCGGCGAATGGCTACGCGAGGATATCGAACACGGCCGCATAGAACCGGCCGTCCCGGACCACGACCTCGCCATCCTGCTGACGAAAGCGAAGCAGCACAGCCTCTGCCTGATGGGCCCGCCCGCAACCGAACTGTTCGACCCGGTGCCCCAGGCCGACCTCGCCCGCGCGCTGTACGACACCGTCCTCCAGTGGAACGACGAGGCGGACTGGCAAGGCGAGGAACGCAACATCCTCCTCGCCCTCGCCCGCATCTGGCTGACACTCACCACCGGTGAAATCGCCCCCAAGGACACCGCAGCCGCATGGGCTCTGCAACGCCTGCCCGAAGAACACCGCCCCGCCCTGGCGACAGCACGGGCCGCCTACCTGGGCGAAGCTGAAGACGATCTGAGCGACAGGCCATCGGCCGTGTCGGCGTTCGTGCGTTATGCCAGGGGGGAGATCGAGCGGACTTACGGGGGGATTCTTCGGGGGGAAAATCAAAGCCCTGCGGGTGGCCGATCATCGAAATTGGAGCGGTAA	MLRRHLGETLQAIHLFGSAVDGGLKPHSDIDMLVTVSVPLTAPTRQALMTDLLSVSAWPVTEGSLRPLEVTVLVHDAVVPWRYPPLRELQFGEWLREDIEHGRIEPAVPDHDLAILLTKAKQHSLCLMGPPATELFDPVPQADLARALYDTVLQWNDEADWQGEERNILLALARIWLTLTTGEIAPKDTAAAWALQRLPEEHRPALATARAAYLGEAEDDLSDRPSAVSAFVRYARGEIERTYGGILRGENQSPAGGRSSKLER	PGPT0028680_38	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-STREPTOMYCIN|KANAMYCIN|AMIKACIN,PGPT0028680-aadA-K00984	NA	NA
BMS010_08648	111			hypothetical protein	ATGAGAGCACTTGCCTTCACTGCCCGACTCTTCTTCCCCGTCATTTCTCACGGCGCCGAATTCATCAAGGAGTACGGCGGATTTCGTACCGCTGCCCGCCTCTCCGGATGA	MRALAFTARLFFPVISHGAEFIKEYGGFRTAARLSG				NA	NA	NA	NA	NA
BMS010_08650	270			hypothetical protein	ATGCCTGACTACCGTCCCCTTCCCTCTTTCACCCCTGCCGGCAAGCCGGTGCTGTACGTCGATGCCAGCCAGAATGCGCTGGAGTTGTACGAGTCGGCCCAGGAGCGACTGGATGCGGCGCGACAGTTGGCGTTGGTGTTGCTCTGCGGCGATCAGCAGTTGGACGACAGCAGGGTGTTCGCGGCCTTCCACCTGTTGTTGAGCGATGCGGCCGGGTTGTACGAAGTAGCATTCGCGCAGTACGGACGACGAACCCTACCCGCCAGTTGA	MPDYRPLPSFTPAGKPVLYVDASQNALELYESAQERLDAARQLALVLLCGDQQLDDSRVFAAFHLLLSDAAGLYEVAFAQYGRRTLPAS				NA	NA	NA	NA	NA
BMS010_08651	348			hypothetical protein	ATGGCTTATGCACAAGGAACCTTCACTCTCCCCGCAAACATCCGCTTCGGCGCTACCGCCTTCGCCAACTCCTCCGGCATGCAGGTCGTCAATGTGTTGGTCGATGGCAATTCCGTCGCGCAGTTCCAAGGACAGAGCACCGGTAACGAGGTTATCGGCAGTCAAGTGCTCAGTTCGGGGAGTGGAAAGGTCCAGGTCACCGTGTCCGTGAATGGCCAGCAGTCCAGCCTTGTTTCCGCACAGGTAGTTCTGGCCAACAAGCTGAACGTCATCGTCATCGGATCGGAGGATGGAACCGACAACGATTACAACGACTCTCTGGTGATCCTCAACTGGCCACTCGGCTGA	MAYAQGTFTLPANIRFGATAFANSSGMQVVNVLVDGNSVAQFQGQSTGNEVIGSQVLSSGSGKVQVTVSVNGQQSSLVSAQVVLANKLNVIVIGSEDGTDNDYNDSLVILNWPLG	PGPT0022270_81	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-c-di-GMP_SIGNALLING_PATHWAY,PGPT0022270-blc-K20277	NA	NA
BMS010_08652	552	clpP_4		ATP-dependent Clp protease proteolytic subunit	ATGACGACTCATATCGTGCACTTTACCGGTCCGATCAATTCCTCAACTTGCGGTCAATTGATAGATAAATGTACCCAGGCCGTTCAGCAGGATGCTTCGGAACTCATTATCAAGATCGCCACCATGGGTGGTGAATGCAGTTACGGTTTTTCCCTTTATAACTTCCTGCTGTCACTTCCCATACCGGTGAATACCCATAACCTGGGTACCGTCGAATCCATGGGCAACATCATCTTCCTGGCCGGTCGGCGGCGTACCGCCTGCCAGCACAGCAAGTTTCTCTTCCACCCCTTCCATTGGACGCTACATGGTTCGGTGGACCATGCGCGCATGTCCGAATACGCCATGAGCCTGGACTACGACCTGTTCCTCTACGGCCGCATCGTCGACGAGCGAACCCGCGACGCGCGCAAACCGTTGGACGTGAGCCAGGCCCTGATGTGCGCCCCGAAGATTCTCAACCCCGCCGAAGCGCTCGAAGCCGGCGTTATCCACGAAGTGGACGAGCTCGCTCCGCCCGCCAACGCGGTCAATTGGTGCGTGCATATGTGA	MTTHIVHFTGPINSSTCGQLIDKCTQAVQQDASELIIKIATMGGECSYGFSLYNFLLSLPIPVNTHNLGTVESMGNIIFLAGRRRTACQHSKFLFHPFHWTLHGSVDHARMSEYAMSLDYDLFLYGRIVDERTRDARKPLDVSQALMCAPKILNPAEALEAGVIHEVDELAPPANAVNWCVHM	PGPT0014595_8591	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014595-clpP-K01358	NA	NA
BMS010_08653	342	gsiB_7	COG3729	Glucose starvation-inducible protein B	ATGGCTGAAGACAAAGGCAAAATGAGTGTCAACGAAGCAGGCCGTAAAGGTGGCGAAGCGACTTCGGAAAGCCACGGCCGCGAGTTCTATCAGGAAATCGGCAGCAAAGGCGGCCAAGCCAGTGGGGGCAACTTCAAGAACGATCCGGAGCGTGCCGCTGAAGCCGGCAGCAAGGGCGGCCAGGTCAGTGGCGGCAACTTCAAGAACGACCCGGAACGCGCCTCCGAGGCAGGCAGCAAAGGGGGGCAGGCCAGCGGCGGTAACTTCGCCAATGACCGCGAACGCGCCTCCGAAGCCGGCCGCAAGGGTGGCCAGAACAGCCGCGGCGGCGGTCGTAGCTGA	MAEDKGKMSVNEAGRKGGEATSESHGREFYQEIGSKGGQASGGNFKNDPERAAEAGSKGGQVSGGNFKNDPERASEAGSKGGQASGGNFANDRERASEAGRKGGQNSRGGGRS				NA	NA	NA	NA	NA
BMS010_08654	849	rhaS_18		HTH-type transcriptional activator RhaS	ATGACGGCCAACGACTGGATCGATCTTTCGGTGGACGCCGAGACGGGCATCGAGACGATCAGGGCGCACTTCGAAGGCCATGCGTACGATCCGCACTGGCATGACAGCTACCTGATCGGTTTTACCGAGCAAGGCGTGCAGCAGTTCCATTGCCGCAAGGTGCTGCACAACTGCACACCAGGCCATGCGTTTCTGCTGGAGCCGGGCGATATCCACGACGGCCATGCGCCCGCCGAGGGCGGTTTCACCTATTCGATGCTGTACCTCCAGCCCGACTGGATCGAGCGTGGCCTGCGCGAGCTGTTCGAAGACGCGCCAAGCCAGTGCCAACCCAGCTTCGCCAAGACGCTGGCCGCCGATCCCGAATTGATCGGGTTGACCGCCCAGGCGATCAAGGCCCTGCAGCACAAGGAGTTGCGCATCGTCCGTCACGCCGCGCTGGACGCCTTGCTGGCCAAGCTGGCGCAGCATCTGGTCTGGCGGCCCAAGGGGCTGGTCGATCCGCGTTCGCCGCAAATCGCCCTGCGCGTCCGGGATTACCTCCAGGCGCACATGGACGAGGATATCGGGCTGGACGATCTGTCGCGGATTACCGGGGTGGATCGCTTCCGCCTGTCGCGGGCGTTCAAGGCCACCTTCGGGTTGGCGCCGCATGCCTATCTGATCCAGCTCCGTCTGGCCAAGGCCCGGCAATTGCTCGCCCAGGGGCATGCGCCGGCGCTGGTCGCCATGTCCCTCGGTTTCGCCGACCAGAGCCATCTCGGCCGCTGGTTCCGCCGTGCCTATGGCTTGACCCCGGCACGCTATCGCACGCGCTGCTCGAACCTTCCAGACGCCCCACCGAAGTGA	MTANDWIDLSVDAETGIETIRAHFEGHAYDPHWHDSYLIGFTEQGVQQFHCRKVLHNCTPGHAFLLEPGDIHDGHAPAEGGFTYSMLYLQPDWIERGLRELFEDAPSQCQPSFAKTLAADPELIGLTAQAIKALQHKELRIVRHAALDALLAKLAQHLVWRPKGLVDPRSPQIALRVRDYLQAHMDEDIGLDDLSRITGVDRFRLSRAFKATFGLAPHAYLIQLRLAKARQLLAQGHAPALVAMSLGFADQSHLGRWFRRAYGLTPARYRTRCSNLPDAPPK				NA	NA	NA	NA	NA
BMS010_08655	600			hypothetical protein	ATGTCATTGAGCCAATTACTGCCGTTCGTGCTGTTCGCCTTCGTCGCCTCCATCACGCCGGGGCCGACCAATATCCTGATTCTCAGCAACAGCGCCCGCCACGGGCTCGCTGCCGCGCTGCCCATCATCCTCGGCGCCTGTGCCGGGGCGGCGGGTATCGTGTTGCTGGTGGGGCTAGGCGTGGGCGAAATGCTGCTGCGCTATCCCCTGGTGCAGCGCGCCATGGCCTGGGGCGGCATCGCCTGGTTGTCCTGGCTGGCCTGGCAGTTGTTTCGTAGCGCGGGCCAGGGCGTCGACACGGATGCCTCGGCAAAACCCCTCGGCCTCGCTGGCGCAGCCGGGTTGCAGATGGTCAATCCCAAGACCTGGATGATGGCATTGGCGGTGGTGAGCGTGTTCGCCGGCCAGGGTGCCAGCCCGGCGCGCTACCTGTTGTTCGCGGTGGTGTTCTTCCTGATCGCGATGCCTTGCCTGGGCGCCTGGGCCTGGCTGGGCGTCGGGGTGAAACGGGCTTGGCGCTCCGCCGCTGCCCTGACGCGTTTCAATCAGGGCATGGCGGTGCTGTTGCTGGTGTCCGCCTGGGCGAGCCTGCTGGGCTGA	MSLSQLLPFVLFAFVASITPGPTNILILSNSARHGLAAALPIILGACAGAAGIVLLVGLGVGEMLLRYPLVQRAMAWGGIAWLSWLAWQLFRSAGQGVDTDASAKPLGLAGAAGLQMVNPKTWMMALAVVSVFAGQGASPARYLLFAVVFFLIAMPCLGAWAWLGVGVKRAWRSAAALTRFNQGMAVLLLVSAWASLLG				NA	NA	NA	NA	NA
BMS010_08656	699	yhhW	COG1741	Quercetin 2,3-dioxygenase	ATGATCGAACGGCGTCCTTACCAGGAACTCGGCGGTGCCCAGCACGGCTGGCTGGATACCCGTCACCACTTTTCCTTCGCTGACTACCATGATCCGGCGCGCATGCACTGGGGTCATCTGCGGGTGTGGAACGACGACACCATCGCCCCGCAATCCGGCTTCCCGCAGCACCCGCACCGCGACATGGAGATCATCACCTACGTGCGCAGCGGCGCCATTACCCACCGCGACAACCTGGGTAATCACGGTCGCACAGTGGCCGGCGATGTGCAGGTGATGAGCGCCGGTACCGGCATCGCCCACAGCGAATACAACCTGGAGAACGAAGACACGCGAATCTTCCAGATCTGGATCATCCCCGACGAAACCGGCCTGCCGCCGTCCTGGGGCACCCGGCCGTTCCCGAAGGGGGAGCGCAGCGGCGCCTTCGTCACCCTCGCCAGCGGCATGCCCGATGACCAGGACGCCCTGCCGATTCGTGCCAATGCCCGCCTGGCTGCAGCCACCCTGCAGGCCGGCAGTAGCGCCGAGTACGTCGTCGGTGCGGGCCGCAAGGTCTACCTCGTGCCGGCCAGCGGGCTCATCGAGGTGAACGGTGTGGAGGTCGAGGCCGGTGACGGCGTGGCGGTACGCGACGAAACATCGCTGCGCATCACTGCGCTGGAGGAGAGCGAGATCGTGTTGGTGGATGTCGCTTGA	MIERRPYQELGGAQHGWLDTRHHFSFADYHDPARMHWGHLRVWNDDTIAPQSGFPQHPHRDMEIITYVRSGAITHRDNLGNHGRTVAGDVQVMSAGTGIAHSEYNLENEDTRIFQIWIIPDETGLPPSWGTRPFPKGERSGAFVTLASGMPDDQDALPIRANARLAAATLQAGSSAEYVVGAGRKVYLVPASGLIEVNGVEVEAGDGVAVRDETSLRITALEESEIVLVDVA	PGPT0019980_5795	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_FLAVONOID_UTILIZATION	PLANT_DERIVED_QUERCETIN_DEGRADATION,PGPT0019980-yhhW|pirA-K06911	NA	NA
BMS010_08657	1332	oprD_4		Porin D	ATGAACAACACGATGAAGCACAGCCTGCTGGCGCTGGCGGTGGCCGCCGGCATCTCTCCCCTGGCCATGGCGGATACCGTCGGCGACCAGGCGGAGTCCAAGGGCTTCGTGGAGGACAGCAGCCTCGACCTGTTGCTGCGCAACTACTACTTCAACCGTGACGGCAAGAACGGCAGCGGCGACCGCCGCGACTGGACCCAGGGCTTCATCGCCACTTACCAGTCCGGTTTCACCCAGGGCACGGTGGGCTTCGGCGTCGATGCCTTCGGCTACCTGGGCCTGAAACTGGATGGCGGCAAGGGCACCACAGGTACCGGCAACCTGCCGGTGGACAATGACGGCTCCCCGGAAGACGACTACGGCCACGCCGGCGGTGCGCTCAAGGTGCGCGTCTCCAAGACGCTGCTGAAATGGGGCGAGATGCAGCCCACCGCCCCGGTGTTCGCCGCCGGTGGCACCCGCCTGATCCCGCAGACCGCCAGCGGCTTCCACCTGCTGAGCAGCGAGCTGGATGGCCTCGATCTGGAAGCCGGGCATTTCACCGCCGGCAACGGCCCGACCACTACCAGCTCCAAGGGCGAGCTGTACGCCACCTACGCCAACGTCACCGCCGACAGCGTGGACTTCGTCGGCGGCAACTATGCCCTGACCGACAACCTCAGCGTGTCGCTCTACGGCTCCGAGTTCGAGGACATCTGGCGCCAGTACTACGCCAACGCCAACTATGTGCTGCCCCTGGCCGACGACCAGGCGCTGGGCTTCGACTTCAACATCTACCGCACCAACGATGAAGGCCGCGCCGAAGCCGGCGAGATCAGCAACACCACTTGGTCGCTGGCGGCTTCCTATAGCTTTCTCGCCGCGCACAAAGTCACCCTCGCCTACCAGAAGGTCCATGGCGATACGCCGTTCGACTATATCGGCTTCGGCGACAACGGACCCGGCGCGGGCGGCGATTCGATCTTCCTCGCCAACGCGATCCAGTATTCGGACTTCAACGGCCCCAACGAACGCTCCTGGCAGGCCCGCTACGACCTGGACATGCAGCCCTACGGCGTGCCCGGCCTGAGCTTCATGGCACGCTATGCCAACGGCCGCGGCATCGACGGCACCGACATGGCCGCCGACAGCCCCTATCGCGACTACGGCTACGGCGAGGACGGCAAGCACCACGAGACCAACCTCGAAGCCAAGTACGTGGTGCAGACCGGCCCGGCCAAGGACCTGTCGTTCCGCATCCGCCAGGCCTGGCACCGTGGCAACACCGACCAGGCGGAAGGCGATCACGACGAATTCCGCCTGATCGTCGATTACCCGCTGTCGATCCTGTAA	MNNTMKHSLLALAVAAGISPLAMADTVGDQAESKGFVEDSSLDLLLRNYYFNRDGKNGSGDRRDWTQGFIATYQSGFTQGTVGFGVDAFGYLGLKLDGGKGTTGTGNLPVDNDGSPEDDYGHAGGALKVRVSKTLLKWGEMQPTAPVFAAGGTRLIPQTASGFHLLSSELDGLDLEAGHFTAGNGPTTTSSKGELYATYANVTADSVDFVGGNYALTDNLSVSLYGSEFEDIWRQYYANANYVLPLADDQALGFDFNIYRTNDEGRAEAGEISNTTWSLAASYSFLAAHKVTLAYQKVHGDTPFDYIGFGDNGPGAGGDSIFLANAIQYSDFNGPNERSWQARYDLDMQPYGVPGLSFMARYANGRGIDGTDMAADSPYRDYGYGEDGKHHETNLEAKYVVQTGPAKDLSFRIRQAWHRGNTDQAEGDHDEFRLIVDYPLSIL	PGPT0028135_106	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028135-oprD-K18093	NA	NA
BMS010_08658	576			hypothetical protein	ATGAAAAAGCAACTGATCGCCGGCCTGTTCATCGCCACTCTTTCCGCCACCGCATTCGCTCTTCCGCAAGATGCGGACCACACCTTCAAGGCTCCGGTCGTTGCCGAAGGTGGTGCTGACCGCACCGGTACCAACCGCGTTGCCGAAGACGGCTCCGACCGCACTGGCGCCAACCGCATCGCTGAAGGCGGTTCCGACCGCACCGGCATCAACCGCGTCGCCGAAGACGGCTCCGACCGCACCGGCATCAACCGCGTCGCCGAAGGCGGTTCCGACCGCACCGGCATCAACCGCGTCGCCGAAGGCGGTTCCGACCGCACCGGTATCAACCGTGTCGCCGAAGGTGGTTCCGACCGCACCGGCATCAACCGTGTCGCTGAAGGTGGTTCCGACCGCACCGGTATCAACCGTGTCGCTGAAGGTGGTTCCGACCGCACCGGCATCAACCGCGTCGCTGAAGGCGGTTCCGACCGCACCGGCATCAACCGCGTCGCCGAAGGTGGTTCTGATCGCGTTGGCGCCAACCGCGTCGCCGAAGATGGTTCCGACCGCGTAGGTGCCAACCGCATCAGCTGA	MKKQLIAGLFIATLSATAFALPQDADHTFKAPVVAEGGADRTGTNRVAEDGSDRTGANRIAEGGSDRTGINRVAEDGSDRTGINRVAEGGSDRTGINRVAEGGSDRTGINRVAEGGSDRTGINRVAEGGSDRTGINRVAEGGSDRTGINRVAEGGSDRTGINRVAEGGSDRVGANRVAEDGSDRVGANRIS				NA	NA	NA	NA	NA
BMS010_08659	216			hypothetical protein	ATGAAACGTCACCTTCTAGCCGCAGCCGTTCTTTCCGCCTCTTCCCTGCTGGTTTCGCAACTGAGCCTGGCCGAGGAATCCGCTGCCTTCGTCGAGCGCACCCTGGCCTTCCAGCAAGGCAAGCAAGCTGCCGAAGCCGTCGCCAAGCGCAGCCAGGATGCCGACCGCAAGCAGGTGCAGACCAGCGCCCAAACCGACGAAGACCGCGATAGTTGA	MKRHLLAAAVLSASSLLVSQLSLAEESAAFVERTLAFQQGKQAAEAVAKRSQDADRKQVQTSAQTDEDRDS				NA	NA	NA	NA	NA
BMS010_08660	201			hypothetical protein	GTGCCGGGCATCGGTTTCGCCGCCCTCACGACCCAGGCGATCCTCTTCGGCCAGTCGCTGACGCCGACTCACGACATCCTTTACGCGACGTTCTATCGGCTGGCCTCGGTATGCGTAGCCGTGTTGATGACGCTGATCGCCGTGTTCATCGTTCACCGTTTGCTTAACCGCTTCCCGCCCGTCCGCCATCAGAGCCACTGA	MPGIGFAALTTQAILFGQSLTPTHDILYATFYRLASVCVAVLMTLIAVFIVHRLLNRFPPVRHQSH				NA	NA	NA	NA	NA
BMS010_08661	372			hypothetical protein	ATGACGCCCGATCAACGATTTGCCCGCTGGGTCCAAATCGCTATCGCCGCGCTGGTCTGCGCGTTCATCTATTTCCTGTTTGCAGACCTGGCCGCGCCGCTCACGCCGCAGGCGCAGTTGAACCGCCCGGTGGTGAGGATAGCCCCGCGCGTTTCCGGCCAGGTGGTCGAGGTGGCGACGCTGCTCGGCTGCCTGGTCGTCCTCAGCGCCATGCTGGTGCTCTACAACCATCACGACCTGCTGCCGCTGGTCACGCTCCTGTTGTGGGTGCTCTACTGCTCTGTGCCCGCTGGCACATGCACGAGCGGGGTGTGCCGGGCATCGGTTTCGCCGCCCTCACGACCCAGGCGATCCTCTTCGGCCAGTCGCTGA	MTPDQRFARWVQIAIAALVCAFIYFLFADLAAPLTPQAQLNRPVVRIAPRVSGQVVEVATLLGCLVVLSAMLVLYNHHDLLPLVTLLLWVLYCSVPAGTCTSGVCRASVSPPSRPRRSSSASR				NA	NA	NA	NA	NA
BMS010_08662	963	dmlR_18		HTH-type transcriptional regulator DmlR	ATGGATATCGTTCAGGCAATGCGCGTTTTCGTCCGCGTCGCCGATGCCGGGAGTTTCACCGCCGCCGCCCGCGCCCTGGAATTCTCCACGGCGCAGGTGTCGCGGCTGGTCTCCGAGCTGGAAAGCCACCTGCAGGCCCGCCTGCTGCAGCGCTCCACCCGGCGCCTTGCCCTCACCGAAGCAGGCAGCCGCTACCTCGCCCGCGCCCGGCAGATTCTCACCGACATCGACGACGCCAACGCCGAGGCCAGCGGCGCCCACCTGATGCCCAGGGGGCGCCTGCGGGTGCACTCCATCACCGGCCTCGGCATCCAGTTGCTCGCACCGCTGGCGGCCCGCTACGGCGCGCTCTACCCGGACGTGCACCTGGACATGACCCTGTCGCAGCGCTATCCCGACCTGCTGGAAGAAGGCCACGATGTTGTCATCACCCTGGCCCGCGACCTGCCCGACTCGGAGCTGATCGGCCAGTACCTCGGCAACATCCACAGCGTCATCTGCGCCGCCCCGGCCTACCTGGAAAAACACGGCATCCCGCAGACGCCGGACGATCTCACCGAGCACCGCTGCCTGTTGCTGGTCGACCCGGTGTTCGGCGACCACTGGGCCTTCACGGTGGACGGCAAGGAACAGCCGCTGCGCCTCGGCGAAACCTTCCAGGTCAACGTCGCCGAGGCCATGGCCAACGCCGCCGAAGCCGGTATGGGCATCTGTCTGCTGCCCGACTTCGTCGCCGCCCGCGCCATCCAGCGCGGCGGGCTGGTGCGGGTCCTGCCGCATCACAGCCTGCACGAAAAGAGTGTCTACGCCGTGTACCCGTCGCGGCGCTTCCTCGATGCGAAGGTGAGCACCTGGATCGAATTCCTCAAGCAGGAACTGCCCAAGGCGCTGGAGCGCTACCGGGCGATGCTCGACGATCCCGCCTGCTGGGCCACCACGGCTGTGGTGCCCTCCATGGACTAG	MDIVQAMRVFVRVADAGSFTAAARALEFSTAQVSRLVSELESHLQARLLQRSTRRLALTEAGSRYLARARQILTDIDDANAEASGAHLMPRGRLRVHSITGLGIQLLAPLAARYGALYPDVHLDMTLSQRYPDLLEEGHDVVITLARDLPDSELIGQYLGNIHSVICAAPAYLEKHGIPQTPDDLTEHRCLLLVDPVFGDHWAFTVDGKEQPLRLGETFQVNVAEAMANAAEAGMGICLLPDFVAARAIQRGGLVRVLPHHSLHEKSVYAVYPSRRFLDAKVSTWIEFLKQELPKALERYRAMLDDPACWATTAVVPSMD				NA	NA	NA	NA	NA
BMS010_08663	327			hypothetical protein	ATGACGACCTTCTCTCGAGTCGCCGTCCTCTGCGGCGCCCTCGCCTTGCCGGCGCTCGCCGCCACGCCCGAGGCCTGGACAGAACACAAGAAAGCCGTGCTGGCCGCATGCATGAAGGCCAGCGGGCTGGAACAACCCCGCCCGGTCGGCAAGCTCATCGAATACCCGGACCGGCTCGGCCTCACCGCCATCCTCCTGCGCGGCCGCTACCCGCAACCGCACATGGAGGGTCGGATGGGCCAGGAGCTTTGCCTCTACGACCGCCGCAGCCGCACCGCCTTCGTCAGCGAGGCGGATTCCATCCCACTGGCGAGACCGAAACCCTAG	MTTFSRVAVLCGALALPALAATPEAWTEHKKAVLAACMKASGLEQPRPVGKLIEYPDRLGLTAILLRGRYPQPHMEGRMGQELCLYDRRSRTAFVSEADSIPLARPKP				NA	NA	NA	NA	NA
BMS010_08664	483			hypothetical protein	TTGAGCTTGTCGATACGCCCAGCCGTCCCCAGCGATGCGGCGCAGATTCTGGCCTTCATCACCGAACTCGCTACTTATGAGAAGGCTGCACACGAGGTCGTTGCCAGCGTGGCGGACATCGAGCGCACGCTGTTCGCCGAACGGGCGCCGAGCCGCGCGCTGATTTGCGAGCAGGACGGCAAGCCGATTGGTTTCGCCGTGTATTTCTACAGCTATTCCACTTGGCTGGGGCGCAACGGAATCTACCTGGAAGACCTGTACGTCACGCCGGACAGCCGTGGCAGCGGTGCCGGCAAGGCGCTGCTCCGCCAACTCGCCCGCGAGGCCTGTGACAACGATTGCGGACGGTTGGAGTGGAGCGTGCTGGACTGGAACGAGCCGGCGATTGGTTTCTACGACTCCATCGGCGCCCAGCCGCAGAAGGAGTGGATTCGCTATCGCTTGGATGGCGAGGCGCTGCGGAACTTTGCCGAAGGCATTTGA	MSLSIRPAVPSDAAQILAFITELATYEKAAHEVVASVADIERTLFAERAPSRALICEQDGKPIGFAVYFYSYSTWLGRNGIYLEDLYVTPDSRGSGAGKALLRQLAREACDNDCGRLEWSVLDWNEPAIGFYDSIGAQPQKEWIRYRLDGEALRNFAEGI	PGPT0007790_389	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007790-speG-K00657	NA	NA
BMS010_08665	660	sspA_2	COG0625	Stringent starvation protein A	ATGTCTCTCCAACTCTTTGCCCATCCGTTTTCTTCCTACTGTCAGAAGGTACTGATCGCGCTCTACGAGAACGAGCTGCCCTTTGAGTTTCGCCTGTTGGCGCCGGACGAGCCTGGGAACGGGGCGGAGTTTCAGGCGTTGTGGCCGATGCGAAAGATGCCGGTGTTGGTGGATAGCGGCAGGACGGTGGTCGAGTCGAGCATCATCATCGAGTACCTGGGGCTGCATCATCCGGGACCGGTGCGGCTGTTGCCCGAGGGGACGGAGGCGGCGTTGGAGACGAGGATGATGGATCGCTTCTTCGATAACTACGTGATGACGCCGATGCAGAAGTTCGTGTTCGACAGCCTGCGGCCGGCGGATAAACGCGATGCCTATGGTGTCGAGGAGGCGGGGGCGTTGCTGGAGCGGGCGTATGCCTGGCTGGACGAAGTACTGGCCGGGCGTAGCTGGGCGGCGGGGGAGGCGTTCAGTCTGGCGGATTGCGCGGCGGCGCCGGCGTTGTTCTATGCCGACTGGGTGCATCCCATCGCCGAGTCGTTCGAGCGGGTGCGGGCTTATCGGCAGCGTTTGCTGGCGCGGCCGTCGTTCGCCCGGGCAGTGGAGGAGGCGCGGCCGTATCGTGCGCTGTTTCCGTTGGGGGCGCCGGATCGCGATTGA	MSLQLFAHPFSSYCQKVLIALYENELPFEFRLLAPDEPGNGAEFQALWPMRKMPVLVDSGRTVVESSIIIEYLGLHHPGPVRLLPEGTEAALETRMMDRFFDNYVMTPMQKFVFDSLRPADKRDAYGVEEAGALLERAYAWLDEVLAGRSWAAGEAFSLADCAAAPALFYADWVHPIAESFERVRAYRQRLLARPSFARAVEEARPYRALFPLGAPDRD	PGPT0013170_11572	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS010_08666	468			hypothetical protein	ATGACCACCGCAGACCTCAATCGCACAATCCTTCCCGACGAGAGGGAGATCGCTGCTGCCGTGGAGTCGCGTCGGCAGCTTGCCGCCTTTCTATCGACCAAGCTGGAAACGCAACGCATTGAAATTCTGGACGATGAGCAGCGGCCCCACAGCATTCAACTACCGGCCTCGGCCCTACGCCTGCTTGATGAGATTCTGAGCGAGTTGGCGATGGGGAATGCTGTAAAAGTAGTGCCAATTCATGCGGAACTGACCACCCAGGAAGGTGCAGACCTGCTTAATGTCTCTCGCCCGCACTTGGTAAAGCTGTTGGATGAAAACGTCATTCCGCACACCAAGGTCGGCCGCCATCGCCGGGTAAAGTTCGCGGATCTCATGGACTACAAGCAGCGCAGGATTGCTGAGAGCCGCCAAGCCATGGATGAACTCGCAGCACAAGCACAGGAGCTGGGGATGGGGTACGAATGA	MTTADLNRTILPDEREIAAAVESRRQLAAFLSTKLETQRIEILDDEQRPHSIQLPASALRLLDEILSELAMGNAVKVVPIHAELTTQEGADLLNVSRPHLVKLLDENVIPHTKVGRHRRVKFADLMDYKQRRIAESRQAMDELAAQAQELGMGYE				NA	NA	NA	NA	NA
BMS010_08667	576			hypothetical protein	ATGAGGCACTCGCCGTTCACCGCGGTGTATGACGCAAACGTCCTCTACCCAGCGCCATTGCGTGACCTCCTCATGCATCTGGCGCTGACTGGCATCTACCGCGCGCGCTGGACCACCCTGATCCATGAAGAATGGAAACGGAATCTCCTGATCAATCGCCAGGATCTCACCCAGGCGCAATTGGATCGCACATCCGCAGCGATGGATAGGGCCATTCCGGATGCCCGGGTAACTGGATACGAGCCCCTGTGCGCAGCGCTCACCCTCCCTGACCCAGATGACCGACACGTCTTAGCTGCGGCAATCAAATGCAGCGCGTCCGTAATCGTGACCTTCAACCTGAAGGATTTCCCGCCTGATATGCTGGCGCCATTCGAGATCGAGGCTGTGCATCCAGACGACTTCATTGCTGATCTCTTCGACTTGGATCAGGCCGCCGTGCTTGAAGCTGTCCAAGCACAACGGGCCTCTCTGAAAAATCCTCCCCACACCGCCCGGGAGCTTCTAGATCGGCTACTGGTGCAGGGCCTAACACAGAGCGTCAAACTACTCTCAGACTACGAGCGGCTGATTTGA	MRHSPFTAVYDANVLYPAPLRDLLMHLALTGIYRARWTTLIHEEWKRNLLINRQDLTQAQLDRTSAAMDRAIPDARVTGYEPLCAALTLPDPDDRHVLAAAIKCSASVIVTFNLKDFPPDMLAPFEIEAVHPDDFIADLFDLDQAAVLEAVQAQRASLKNPPHTARELLDRLLVQGLTQSVKLLSDYERLI				NA	NA	NA	NA	NA
BMS010_08668	1956			hypothetical protein	ATGAGCCATGACCATCGCCATTTCCACGAACGCCTGGAGAGCCAGGACGACCAGTCGATCAACCCCAGCGCGAACCCGCCGCTGGCCGAGCTGATCGATCCGGCCCGGCGCAACGTCCTCAAGGGCGGCCTGACCCTCGCCGCCCTCGGCTTCTTCGGCGGCGGCCTGAGCGCCTGCGCCAAGGCCAGTGCCAGCCCGTTGCTGGGCTTCAAGGGCGTGCCGGTGCAGCTCGACCCCGGTTTCGACCGCGTGCTGGTCGCCGAGGGCTACCGTGCAGTGCCGTTCTTCTCTTGGGGCGACCCGGTGGAGCCCGGCGCCCCGGTCTGGAAGGCGGACGCCAGCGACGACTGGCAAGCCCAGCTCAAGCAGGCCGGCGACAACCACGACGGCATGAACTTCTTCCCCTTCGAAGGGGAGACCGACCGTGGCTTGCTGGTGATGAACCACGAATACATCAACCCGCCGCTGCATCCTTCCGGCACCATCGACCTGAGCAAGCCGCGTCCGCTGGACGAGGTGCGCAAGGAGCAGGCCGCCCATGGCGTCTCGGTGATCGAAGTGAAGAAGGGCAAGGACGGCCAGTGGCAGCGCGTCATGGAATCGCCCTACAACCGCCGCATCACCATGCTCACGCCGATGCGCATCGCCGGTCCCCTGGCCGGCCACGCGCTGATGAAGACCGCATCCGACCCGGCCGGCCTGGAAGTGCTCGGCACCCTCAACAACTGCGCCACCGGCGTCACCCCCTGGGGCACCTTCCTCACCTGCGAGGAAAACTGGCCGAACTACTTCATCAACCGCGACCCGGCCGACTACGCCCAGCGCGTTTCGCACAAGCGCTATGGCCTGTCCAACAGCGGCACCAGCAAGTACTACGCCTGGGAGACCGCCGACGCACGCTTCGATGCCACGCCCACCGCCGACCAGCCCCACGGCGGCCACGTGAACGAGCCGAACCGCTTCGGCTGGGTGGTGGAAATCGACCCCTTCGACCCCAAGGCGCAACCGATCAAGCGTACCGCCTTCGGCCGCTTCAGCCGCGAATGCGCGGCGCTGTCCCTGGGCGGCGACGGGCGCATGGCGTTCTACTCCGGCGACGACGCCAAGGGCGAATACGTCTACAAATTCGTCCCGGCCGGGCGCTTCGACGCCGCCGACCCCAAGGCCAGCCGCGACCTGCTGGACGAAGGCACCCTCTACGTCGCGCGCTTCGACGCGGACGGCAACGGCCACTGGCTGGCCCTGGTCCACGGTCAGAACGGCCTGACTGAGGAAAACGGCTTCGCCAGCCAGGCCGAGGTGCTGGTCAACGCCCGCGCCGCCGCCGACCGTGCCGGCGCCACCCCCATGGACCGCCCCGAATGGGCCGCCGTCCATCCCACCAGCCGCGAGGTCTATGTCACCCTCACCAACAACGATGGGCGCGGCAGCAAGCAACCCGTGGACAAGGCCAACCCCCGGCCGAACAACCTGCACGGGCAGATTCTGCGCATCGCCGAACAGGGCGCCGACCCCACCGCCACCGCGTTCACCTGGGAGCTCTTCCTCCTCGCCGGCGAAGCCAAGGGGGCCAAGGACAAGGACGGCAAGCCGGTGCCGGCCAACCTCGTCGGCACCATCCAGGGCGACCTGTTCTCCTCCCCGGACGGCCTGGCCTTCGATGCGCAGGGCCGCCTGTGGATCCAGACCGACTTCGACGACGCCGAAGTTGCCATGCACAACATGGGCTGCAACATGCTCCTCTGCGCCGACCCCGCCACCCGCGAAGTCCGCCGCTTCCTCGTCGGCCCGCGTGGTTGCGAAATCACTGGCCTGGCCTGGAGTCCCGATGGCAAGGCCCTCTGGGCCAACATCCAACACCCCGGACTCAGCTACCCCGCCAGCGACGGCAAGACCCGCCCGCGCTCGACCACGGTGCTGATCACCAAGGAGGATGGTGGGGTGATTGGGGGCTGA	MSHDHRHFHERLESQDDQSINPSANPPLAELIDPARRNVLKGGLTLAALGFFGGGLSACAKASASPLLGFKGVPVQLDPGFDRVLVAEGYRAVPFFSWGDPVEPGAPVWKADASDDWQAQLKQAGDNHDGMNFFPFEGETDRGLLVMNHEYINPPLHPSGTIDLSKPRPLDEVRKEQAAHGVSVIEVKKGKDGQWQRVMESPYNRRITMLTPMRIAGPLAGHALMKTASDPAGLEVLGTLNNCATGVTPWGTFLTCEENWPNYFINRDPADYAQRVSHKRYGLSNSGTSKYYAWETADARFDATPTADQPHGGHVNEPNRFGWVVEIDPFDPKAQPIKRTAFGRFSRECAALSLGGDGRMAFYSGDDAKGEYVYKFVPAGRFDAADPKASRDLLDEGTLYVARFDADGNGHWLALVHGQNGLTEENGFASQAEVLVNARAAADRAGATPMDRPEWAAVHPTSREVYVTLTNNDGRGSKQPVDKANPRPNNLHGQILRIAEQGADPTATAFTWELFLLAGEAKGAKDKDGKPVPANLVGTIQGDLFSSPDGLAFDAQGRLWIQTDFDDAEVAMHNMGCNMLLCADPATREVRRFLVGPRGCEITGLAWSPDGKALWANIQHPGLSYPASDGKTRPRSTTVLITKEDGGVIGG				NA	NA	NA	NA	NA
BMS010_08669	780			hypothetical protein	ATGCCGACAGCCGTCGGTTGGCCGGCGCTGGCCTGGCCATCCCGCGCCTGGCGCCGTCAGGCCCTGGCCGTGGTGCTGGCAGTGGCGCTGCATGTCCTGACCCTGGCCGCGCTGCTGGCGCACTGGCAACCCTCGACACCGGCCGAGCCGCAGGTGCGGACCCTATCGACCCGGTTGATCCAGTTGCCGCCGCCCGCACCGCCCGTGCCTGAGGTACAGGCCCCGCCACCGGTGGCGGAACCGCCCAAGCCGGTGGAAGCGTCCAAGCCCGATCCGCAGGTACGCCAACGGGAATTGGAGCAGGCTGCCCTGGCACGCAAACGGCTGGAGGAACAGCGCCAGCGCGAACGCCTCGAACAGGCTCAGCGCGAGCGGCAACGTGAGGAACGCGAACGCCTCGAGCGCGAGGCGCAGGCCCGTGAGCAGGCGCAGGCCCGCCAGCGCGAGGAGCAGCAGCGCCTGCAAGCCGAAGCCGCCGCCCGTGCCGAGGTGCAAGCCCGTGCCGACGCCAGCCGGCCGTACCTGCCCATCGCCAAGGAAGCTCCGGAATACCCGGATCGCGCCTTGGACAAGGGTATCGAGGGCGACTGCACCGTCAGCTACACCGTCACCCCGGACGGTCGCGTGGAAAACCCCAAGGTGATCGGCGAGTGCCATCCATTGTTCGTCCGCCCCTCGCTGGCCGCCGCCAGGACCTTCCGCTACCAGCCGCGTATCGTCGATGGCCGCGCGGTCGCCGTCCCCGACGTGAAGAACACCTTCCACTACCGTATCGAATGA	MPTAVGWPALAWPSRAWRRQALAVVLAVALHVLTLAALLAHWQPSTPAEPQVRTLSTRLIQLPPPAPPVPEVQAPPPVAEPPKPVEASKPDPQVRQRELEQAALARKRLEEQRQRERLEQAQRERQREERERLEREAQAREQAQARQREEQQRLQAEAAARAEVQARADASRPYLPIAKEAPEYPDRALDKGIEGDCTVSYTVTPDGRVENPKVIGECHPLFVRPSLAAARTFRYQPRIVDGRAVAVPDVKNTFHYRIE	PGPT0003745_1981	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003745-tonB-K03832	NA	NA
BMS010_08670	447	exbD_4	COG0848	Biopolymer transport protein ExbD	ATGCGCAAGCCCTACAGCCCGCACGGCCCGAAGGCCGAGATGAACGTGGTGCCCTATATCGACGTGATGCTGGTGCTGCTGGTGATCTTCATGGTTACCGCGCCGATGCTCACCCAGGGCGTGAAGATCGACTTGCCCGAGGTCGCCGCCGAAGCGCTGCCCACCGACACCCGCCAGCAGATCCTCACCCTCTCGGTGACGGCCGATGGCGGCTACTACTGGAACCTCGGCAGCGAGCTGGACACCGAGCGGCGCACGGACAGTGCCGTGAGCCTGGAAGAAATGACCGCCCAGGTGAGCGCCATCGTCGCCGCGCGCAACGACACCCAGGTCTACATCCGCGCCGACGGCGATGCGCGCTACGACACGGTGGTCGCCGGCATGGCCGCTTTGCAGCAGGGCGGGGTGCGCAACGTTGGCCTGGTCACCGAGGCCCCCCAGCCATGA	MRKPYSPHGPKAEMNVVPYIDVMLVLLVIFMVTAPMLTQGVKIDLPEVAAEALPTDTRQQILTLSVTADGGYYWNLGSELDTERRTDSAVSLEEMTAQVSAIVAARNDTQVYIRADGDARYDTVVAGMAALQQGGVRNVGLVTEAPQP	PGPT0003755_130	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003755-exbD-K03559	NA	NA
BMS010_08671	708	tolQ_7	COG0811	Tol-Pal system protein TolQ	ATGCACGCCACCCTCGAACACATGACCGTCTGGAGCCTGGTCAGCGCCGCCTCGCCATTGGTCAAGGGCGTCATGCTCACCCTGCTGCTGGCCTCGCTGGCGAGCTGGTACCTGATCGTCCAGCGCAGCCTGTTGCTGGGCCGCAGCGAGCGGTTGCTGAAGGACTTCCAGCAGCGCTTCCGCCGCGAGTCCGACCTCGCCCGGCTGTACCGCGAGACGCCCGCCGAGCCGGATGCGGACGCCGGCCTGGAGCGGCTGTTCCGCGCCGGTTATGGCGAATACCAGCACCTCGGCAACGAACCGGGCGTGGGCGGCGAGGCGGTGATCGACGGCGTCGAGCGCAGCCTGCTGGTGGCCATCAGCGAGGAGGAGGAACGTCTCGGCAAGGGCCTGCCGTTCCTCGCCACCGTCGGTTCGGTCAGCCCCTACATCGGCCTGTTCGGCACCGTGTGGGGCATCATGAACTCCTTCATCGGTCTGTCGCAGGTGCAACAGGCCACTCTGTCCACCGTCGCCCCCGGTATCGCCGAGGCGTTGATCGCAACGGCCATCGGCCTGTTCGCGGCCATCCCGGCGGTGATCGCCTACAACCGCTTCTCCGCCCGCGTGGCCGCCTTCTCCAGCCGCTACTACGCCTTCGGCAACGAGCTGCAGGGGCGCCTGCATCGCCGGCTGCAAGCCGCGGCGCGCCTCGATCGCGCCGCCTGA	MHATLEHMTVWSLVSAASPLVKGVMLTLLLASLASWYLIVQRSLLLGRSERLLKDFQQRFRRESDLARLYRETPAEPDADAGLERLFRAGYGEYQHLGNEPGVGGEAVIDGVERSLLVAISEEEERLGKGLPFLATVGSVSPYIGLFGTVWGIMNSFIGLSQVQQATLSTVAPGIAEALIATAIGLFAAIPAVIAYNRFSARVAAFSSRYYAFGNELQGRLHRRLQAAARLDRAA	PGPT0003750_1396	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-TonB-ExbB-ExbD_TRANSPORT_SYSTEM,PGPT0003750-exbB-K03561	NA	NA
BMS010_08672	1950			hypothetical protein	ATGAATTCGCTGTTTCTCCGCGCCGCGCTGCTGGCCAGCCTGGCCCTGGCCGGTTGCGACCGCCTGTCCCCCTCGGCGTCGACTCCGCCGCCGTCCGCCGAACCCGTACTGGCCCTGAGCGCCTGGAAAACGCCGGCCGGGCTCGATCTCGAGGCGATCCGTTTCGTCCCCGCCAAGGACGGCGCCCAGCACGACTGGCGCATTGCTGCCAGCGAGCGCCAAGGGTTGCTCCTGCTCAACGGCCAGGGGCGCGAACTGGCGCGCCTGCCGGGTTCGTTCTCCGCACTGGATCTGCGCTGGGCGGGGTCGCAACTGATCGTCGCCGGGCTGGACGGCGTCGGCCAGCGCGCCGTACTCGCCGTCCTCGATCCCGCCAGCCACCGCTGGCAGCGCCCGCAGAGCCTGCCGGCGCGCGACTTCGCCCTGGCCGGTCTGTGCCTGTACCGCGACGAGGCGCGCAATCTCTATCTGTTCCTCGTCGGCGAAGAAGGGCAGGGTGAGCAGTGGCTGGTCGGCACCGATGCCGGCCTCACGCCCGAGCCGCGTCGGGTACGCGGGCTGCCGTTGCCGCCGAACGCCGAGCATTGCCAGGCCGACGACGCGGCGAACCGGCTGTTCGTCAACGAAGAGAACGTCGGCCTCTGGGCCTACCCGGCCCACCCGGAGGCCGAGGCCAGCCGTCAGCCGGTGGACCTGCTGCAACCCTTCGGTACTTTGCGTGGCTCGGCCGGCGCCATGGCCAGCCTGCCCGGCGGACTGCTCGCCCTGGACCCCTCCGACGCCGCGCTGCACCTCTACCAGCAACGGGAGGCCGGCTGGCATGCCGTCGCCCGCCTGCCGCTGGAAGGGCTCGGCGAACCGGAGGGACTCATCCTGCGCGAGACCGCCGACGGGCTCGACCTGCTGCTGAGCGACGACGACAGTGGGCGTCTCTACCAGGGCCGCCTGGCCTGGAAAGCCGAGCCGGTGCGGCCGCCGCCGGTGCTGCCGAACGTCGCGGCGGTGCGCCAGAGCGAGCCAGTGGGCCGCCATGGCGATGCCGCCGACGACCCGGCGATCTGGGTGCATCCGCAGCAGCCGTCGCGCTCGCGGGTGCTCGGCACCAACAAGAAGCAGGGACTGCTGGCCTACGACCTGGACGGCACGCTGGTGCAGGAGCTGCCGGTGGGCCGCCTGAACAACGTGGACGTCCGCAGCGGCATTCGTCTCGGCGACGCGACGGTGGACCTGGCCGTGGCCAGCAACCGCGACCGCAACAGCATCGCCCTGTTCGCCATCGACCGCGCCAGCGGCGCGTTGCGCGAGGCCGGCGAAATCGCCACGCCGCTGGCGGAGATCTACGGCATCTGCCTGTTCCAGCCGGCCTCCGGCGAGCTGTACGCCTTCGCCAACGGCAAGGACGGCACCTTCCTCCAGTACCGCTTGGACGGCACGAGCGGCACGTTGCGTGGCGAGCTGGTGCGGCGCTTCGCGGTGGACAGCCAGCCGGAGGGCTGCGTGGCCGATGACCGCCGCCAGCGCCTGTTCCTCGGCGAGGAAGACAGCGGTGTCTGGGCGGTGGACGCCCGCGCCGAGGCGCCGGCGGAACTGACGAGGGTTATGGCGGTGGGCGAGACACTGAAGGCCGATGTCGAGGGCCTCGGCCTGTACCACGGCCCGCGCCGCAGCTACCTGGTGGTCTCCAGCCAGGGCAACGACAGCTACGTGGTTCTCGACGCCGAGCCGCCCTACGCGCCGAAGGGCGCCTTCCGGGTTGGACTGAACGGCGCACTGGGCATCGACGGGGCCTCCGAGACGGACGGCCTGGACGTCAGCTCGGCCAACCTCGGCGGGCCTTGGAGCGCCGGCCTGCTGGTGGTGCAGGACGGCCGCAAGCGCATGCCCGAGCAGACCCAGAACTTCAAGTTCGTGTCCTGGCGCGCCGTGGCCGACGCCCTCGGCCTGGAATGA	MNSLFLRAALLASLALAGCDRLSPSASTPPPSAEPVLALSAWKTPAGLDLEAIRFVPAKDGAQHDWRIAASERQGLLLLNGQGRELARLPGSFSALDLRWAGSQLIVAGLDGVGQRAVLAVLDPASHRWQRPQSLPARDFALAGLCLYRDEARNLYLFLVGEEGQGEQWLVGTDAGLTPEPRRVRGLPLPPNAEHCQADDAANRLFVNEENVGLWAYPAHPEAEASRQPVDLLQPFGTLRGSAGAMASLPGGLLALDPSDAALHLYQQREAGWHAVARLPLEGLGEPEGLILRETADGLDLLLSDDDSGRLYQGRLAWKAEPVRPPPVLPNVAAVRQSEPVGRHGDAADDPAIWVHPQQPSRSRVLGTNKKQGLLAYDLDGTLVQELPVGRLNNVDVRSGIRLGDATVDLAVASNRDRNSIALFAIDRASGALREAGEIATPLAEIYGICLFQPASGELYAFANGKDGTFLQYRLDGTSGTLRGELVRRFAVDSQPEGCVADDRRQRLFLGEEDSGVWAVDARAEAPAELTRVMAVGETLKADVEGLGLYHGPRRSYLVVSSQGNDSYVVLDAEPPYAPKGAFRVGLNGALGIDGASETDGLDVSSANLGGPWSAGLLVVQDGRKRMPEQTQNFKFVSWRAVADALGLE	PGPT0002580_78	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATASE_ACTIVITY	P-SOLUBILISATION-PHYTASE_PRODUCTION,PGPT0002580-phy|phyA|phyB|phyC-K01083	NA	NA
BMS010_08673	2520	btuB_7		Vitamin B12 transporter BtuB	ATGATGACCTTCAAGCGCAGCAAGGCCGCCCGACGCGCCGGCCATGCCCTCAGTGCCCTGGCGCTGGCCGTGGCCAGCGGTTCGCTGCTGGCCGCCGAAACCGCTGCGGATGTGGTGGAGCACGTGGATGTGGTGGGGCAGGCGGTGAGCCTGGACAAGGCACTCAAAGAGCAGCGCCGCTCGGACAGCGTGAAGAGCGTGGTCAGCGCCGACGGCGTAGCGCAGTTGCCCGACGAGAACGTCGCCGAGGCGGTGCAGCGCCTGCCCGGCGTGAGTGTGGAGCGCGACCAGGGCGAAGGCCGCTTCGTCAGCGTGCGCGGCCTGGGGCCGGACATGAATGCCGTGAACATCAACGGCACGCTGATCCCGTCGCCCAACGCCGACACCCGTGCCGTGGCCCTGGACGTGCTGCCGTCCGAGCTGGTGCAGTCGCTGTCGGTGGTCAAGACCCTGACCCCGGACATGGACGCCAACTCCCTGGGCGGCAGCATCGAAGTGGAAAGCCTGTCCGCCTTCGATCACAAGGGCCTGTTCTACACCGGCAGCGCCGAAGGCAGCTACGACGACAACAGCGGCCAGACCAGCCCGAAGTTCTCCGGGGCGATCAGCGACCGCTTCAGCCTTGGCGATGGCATCGACAACTTCGGCGTGGCCGCCGCGCTGAGCTGGCAGAAGCGCGATTTCGGCTCGGACAACGTGGAAACCGGCGGCGCCTGGGACTTCGAGGACGGCGCCCGGCTGGAAGAGCTGGAGCAGCGCGACTACGACATCACCCGCGAGCGCGCCGGCCTGGGCCTGAACTTCGACTACCGCCCGGACGACTTCAACAGCTACTACCTGCGCACCCTCTACAGCCGCTTCAAGGACACCGAAACGCGCAATGCCGCCGGTGTGGAATTCGACGACGCCCAGGCACCCGGCGAACGTGGCGATGCCGAAGGCTGGCGCGAACTGAAGTCCCGCGAGGAAACCCAGGAAATCCAATCCTACGTGCTGGGCAGCGAGCACCTGCGCGGCGACTGGACCCTCAACGCCCAGGTCGGCTACAGCCGTTCCAGCGAAGATACGCCCGGGCATATCGCCGGCGCGCTGTTCGAGGGTACCGACGACTTCACCGACGCCGGCTTCGGCAGCACGCGCAAGCCGACCCTGAACATCGGCGAAGCGTTCTACGACGCGAACAACTTCATCCTCGACGAAGTGGAGTGGGCCGAGCAGGACACCACCGACACCGAGAAGAACATCAAGCTCGACCTGGCCCGCGACTACGAGCTGTCCGGCTACGCGGCGCGGGTCAAGTTCGGCGGCAAGCTGAGCCGGCGCGACAAGGATAACGACACCAACGTCTGGACCTACGAGGACTTCGACGACGCCGGCATCGCCGACGACGACCTGCTGCTCGGTAACTTCACCAAGGGCCGGGTGGACTACGGTCTCGGCCGCTTCGGGCCGGGCATCAGCGACAAGGCGATCAAGCGCCTGCTCGGCGGGCTCGACCGCGCCGACTACTACAACGAAGAAGAGTCGCGCATCGGCGACTACGAGATGAGCGAAGACATCGACGCCGCCTACCTGATGAATACCGTCGACATCGGCGACCTGCGCGTGATCGCCGGCCTGCGCTACGAGGGCACCGATTTCCGCGCCAAGGGCACCGGCCTGCGCGACGGTACCTTCGAGAGCATCGAGGCGAGCAACGACTATGACCACTGGTTGCCGGGCCTGCACCTGCGCTACCAACTGGACAAGGACACCCAGCTCCGCGCCGCCTGGACCAACAGCGTGGTGCGTCCGAGCTTCGAGCAACTGGCGCCGGGTTTCCTCATCGATGGCGACGAGGCGGAGTTCGGCAACCCGCAGCTCGATCCGCTGGAGTCCAGCAACTTCGACCTCGGCATCGAGCGCTACCTGGGGCGCGCCGGGGTGGTTTCGGCCTTCGTCTTCTACAAGGACATCGAAAATTTCGTCTACAACACCGACCTCGCCGGCACCGGCGCCTGGACGGACTTCGACGAGGCCAACACCTACGCCAACGGCGACCGCGCCAAGCTGTACGGCCTGGAGCTGGCCTGGTCGCAGAAATTCGACTGGCTGCCGGCGCCGTGGAACGGCCTGCTGCTGGGCGCCAATGCTACCTTCAGCCGCTCCGACGCGCGCATCGAAGGACAGGGCCGGCGGCGCGACATCGACCTGCCGTTCCAGTCCGACACCGTGGGCAACCTGATGCTCGGCTGGGAGAACGACAAGCTCAGCCTGCGCCTCTCCGCCAACTACAAGTCCGACTATCTGCAGGAAGTCGCGGCGGTGGACGACAAGGCCCACGACCTCTACGTGGACGACCAGACCTTCGTCGATTTCAGTGCCCGCTACTTCCTCACCAAGGACCTGCAGGTCTCCTTCGAGGCGCAGAACATCACCGACGAGCATTACTACGTCTACACCGGGCGCAACCGCTACAACGCCCAGTACGAGGAATACGGCCCCACCTACAAGCTGGGCCTGACCTTCACCCACTTCTGA	MMTFKRSKAARRAGHALSALALAVASGSLLAAETAADVVEHVDVVGQAVSLDKALKEQRRSDSVKSVVSADGVAQLPDENVAEAVQRLPGVSVERDQGEGRFVSVRGLGPDMNAVNINGTLIPSPNADTRAVALDVLPSELVQSLSVVKTLTPDMDANSLGGSIEVESLSAFDHKGLFYTGSAEGSYDDNSGQTSPKFSGAISDRFSLGDGIDNFGVAAALSWQKRDFGSDNVETGGAWDFEDGARLEELEQRDYDITRERAGLGLNFDYRPDDFNSYYLRTLYSRFKDTETRNAAGVEFDDAQAPGERGDAEGWRELKSREETQEIQSYVLGSEHLRGDWTLNAQVGYSRSSEDTPGHIAGALFEGTDDFTDAGFGSTRKPTLNIGEAFYDANNFILDEVEWAEQDTTDTEKNIKLDLARDYELSGYAARVKFGGKLSRRDKDNDTNVWTYEDFDDAGIADDDLLLGNFTKGRVDYGLGRFGPGISDKAIKRLLGGLDRADYYNEEESRIGDYEMSEDIDAAYLMNTVDIGDLRVIAGLRYEGTDFRAKGTGLRDGTFESIEASNDYDHWLPGLHLRYQLDKDTQLRAAWTNSVVRPSFEQLAPGFLIDGDEAEFGNPQLDPLESSNFDLGIERYLGRAGVVSAFVFYKDIENFVYNTDLAGTGAWTDFDEANTYANGDRAKLYGLELAWSQKFDWLPAPWNGLLLGANATFSRSDARIEGQGRRRDIDLPFQSDTVGNLMLGWENDKLSLRLSANYKSDYLQEVAAVDDKAHDLYVDDQTFVDFSARYFLTKDLQVSFEAQNITDEHYYVYTGRNRYNAQYEEYGPTYKLGLTFTHF				NA	NA	NA	NA	NA
BMS010_08674	915			hypothetical protein	ATGCCCGCCCTGCTCCGTCTGCACCGCCTGAAACTGCTGGCCCTGACCCTGGCCGCCAACCTCGCGCTGCTCCTGCACCTCGCCGCCGGCGACCTCAAGGCACCGGCGGAATGGGTGTGGCTGGACATTCTCGGCGAAGGCGGCTCGGCGCTGCTGGCGCTGGTCTGGCTGTGCCTGATCCTCAAGAGCCGCCCGGCCGGGCGTGTCACCAACCTCCTTACCCTGGGCCTGGGGCTGGTGTTCTTCTCCTGGTGGGTGGACAGCCTCGACGAATTCATCCGCATGCCCGAAGCCATCGGCTGGGACCACTGGCTGGAGTCGGCGCCGATGCCCTTCGGCCTGCTGCTGCTCACCTACGGGCTGTACCACTGGCACCACGAGCAGTTGGCGATCAGCGCGCAGATGGAGAAACGCGAGCGGCTGTTCCGCGAGCACCTGCTGTTCGACAAGCTCACCCCCCTGGCCGGCGCCGACTACCTGCGCCGCCAGTTGCAGCTCAGCCTGCTAGAAAGCCGCCGCGAGCAGGTGCCGTTGTCGCTGGTGGCGGTGGACCTCGACGACTTCGATGCGATCAACCAGCGCTACGGCCATGCCGAAGGCGACGCCGTGCTCCAAGCGGTCACCCAGGTACTGCTGCTCAACCTGCGCCGTCAGGACCTGCTCTGCCGCCTGGCTGGAGACCGCTTCGTCGTGCTCCTGCCGGCCACCGGCGAGGCCCAGGCGCGCCAGCTCGCCAGCGAACTGGCCGAGGCCGTGCGCAGCCTGGCGCACAAGAGCCGCCAGCACGGCGAGCGCCTGCCGCTGAAGGCCAGCGTGGCGACCGCGATGGCCCTGGACGAAGATGCCGAAGCCCTGCTGCAACGCCTCAACCTCGCCCTGGCCCGGGCCAAGCAGCCCCTCGCCCTGAGCGCCTGA	MPALLRLHRLKLLALTLAANLALLLHLAAGDLKAPAEWVWLDILGEGGSALLALVWLCLILKSRPAGRVTNLLTLGLGLVFFSWWVDSLDEFIRMPEAIGWDHWLESAPMPFGLLLLTYGLYHWHHEQLAISAQMEKRERLFREHLLFDKLTPLAGADYLRRQLQLSLLESRREQVPLSLVAVDLDDFDAINQRYGHAEGDAVLQAVTQVLLLNLRRQDLLCRLAGDRFVVLLPATGEAQARQLASELAEAVRSLAHKSRQHGERLPLKASVATAMALDEDAEALLQRLNLALARAKQPLALSA				NA	NA	NA	NA	NA
BMS010_08675	1032			hypothetical protein	ATGTCCGGTTCCTGGTTCGAGCGCGACACCCGCTGCATCGCCGCCCATGGCCAACCGGCGGCGCTGATCGACCTCTGCCTGCAGCGCGGGATCAACAGCCACCGCCTGCTGCGCGGCACCGGCCTGTTCCACGAAGACGTCCTGCGCGGCGATACCCTGGTCAGCCCCGAGCAGTTCTTCCAACTGATCGACAACGCCCGCCAGTTGCTGGATGCCGACGACAGCGCCTTCCTCTTCGGCCAGCGCCTGCTGCCCGGCCCGCTCGGCGCCGCCAGCCAAGCCCTGAGCCTGGCGGCCAACCTGCAACAGGCGCTGGAGCTGCTGGTGGAGCTGCGTACCCTGCTCTTCCCGCTGCTCAGCCCACGCCTGCTGCTGGACGAGCAGCACGCCTACCTGCACTGGCAGGACAACTGCGGCGCCGGCCACCAGTTCCGCTTCCTCGTCGAGGCCGCCATGGCCGCAGTGATCGCCATGAGCCGGCGCCTCGGCGGCGAGCGCCTGCCCTGGCAGATCCACCTGCGCCACGCGCGGCCACGCTACATCGAACAGTACTGGGTACACCTCGGCGAAGACCTGCACTTCGCCAGCCCCTACGACCTGATGCGCCTGCCGCGCGCCTGCCTGACCCGCCCCTGGCCGCAGTCCGCCCCCACCGCCGCCCTGGTGGCCGGGCAACAGGCCCGCGCCGAGCTGCAACACCTGCCCGCCACGCACAGCCTGCTCGACGCCCTGTACCGCTGGCTGCTCGACCACGCCCGCCAGGCGCCGGGCCTGGAGCACGCCGCCGAAGCCTTCGGCATGAGCCCGGCAACTTTCAAGCGCAAGCTGAAGAAACATGGCACCTGCTACCAGGAACAGCACGACCAGGCACGCCTGCACCTGGCCCTGTACCTCTACCAGGTCAAGGGCTACAGCAACGACGAAGTCGCCACCTACCTGCGCTTCCACGACGCCACCAACTTCCGCCGCTCCTTCAAACGCTGGACCGGCCTGGCGCCAAGCGCACTGCTGCTGGCGATGCGTGGCGGGTAA	MSGSWFERDTRCIAAHGQPAALIDLCLQRGINSHRLLRGTGLFHEDVLRGDTLVSPEQFFQLIDNARQLLDADDSAFLFGQRLLPGPLGAASQALSLAANLQQALELLVELRTLLFPLLSPRLLLDEQHAYLHWQDNCGAGHQFRFLVEAAMAAVIAMSRRLGGERLPWQIHLRHARPRYIEQYWVHLGEDLHFASPYDLMRLPRACLTRPWPQSAPTAALVAGQQARAELQHLPATHSLLDALYRWLLDHARQAPGLEHAAEAFGMSPATFKRKLKKHGTCYQEQHDQARLHLALYLYQVKGYSNDEVATYLRFHDATNFRRSFKRWTGLAPSALLLAMRGG				NA	NA	NA	NA	NA
BMS010_08676	588			hypothetical protein	GTGACGAGAATACTGAACGGACAAACAGAGACTCGCCTCTATCACTACGAAGCCCCCCGCAACCCCAAACTCCTCACCGGCATCACCGACGAACGCGGCATCCGCTACGCCACCTGGACCTACGACGACCAGGGCCGCGCCATCTCCAGCGAACACGCCAACAGCGCCGAAAAGGTCACCCTGAGCTACAACGCCGACGGCTCCACCACCGTCACCAACGAACTCGGCAAGCAGACCGTCTACCGCTTCCAGACCATCCAGGGCGTCCGGCGCATCACCGCCATCGAAGGCGAACCCTCGGCCAACTGCCCGGCGAGCAACGCCCAGTACAGCTACGACGAACGCGGCCTGCTCAAGACCAGGACCGACAACAAGGGCCACCTCACCACCTACACCTACAACGAGCGTGGCCTGGAAGTCGCCCGCACCGAAGCCGCCGGCACGGCCCAGGCCCGCACCGTCACCACCGAGTGGCACCCGGATTGGTTCCTGCCGGTGAGTATCACCGAACCGGACCGCATCACCCGCTACACCTACGACGACCAGGGTCGCCAGCTCAGCCAGACCGTGCTTCAAACTGATAGATAA	MTRILNGQTETRLYHYEAPRNPKLLTGITDERGIRYATWTYDDQGRAISSEHANSAEKVTLSYNADGSTTVTNELGKQTVYRFQTIQGVRRITAIEGEPSANCPASNAQYSYDERGLLKTRTDNKGHLTTYTYNERGLEVARTEAAGTAQARTVTTEWHPDWFLPVSITEPDRITRYTYDDQGRQLSQTVLQTDR				NA	NA	NA	NA	NA
BMS010_08677	681			hypothetical protein	TTGATCAAGGAGCGCTATGACCATAGTCCTCTGGAGTTCTCAACGGAGAATATAAAGCTTAGCTTTGAATACAATTCTCTAGACGTGCTAACAAAAATAGAGCGCAAGAATCAGGATATTTTTGAAAGTAGGCTCTTTCACTACGAAGACCCCCGCAACCCCCAACTCCTCACCGGCATCACCGACGAACGCGGCATCCGCTACGCCACCTGGACCTACGACGACCAGGGCCGAGCCATCTCCAGCGAACACGCCAACGGTGCCGAAAAGGTCACCCTGAGCTACAACGCCGACGGCTCCACCACCGTCACCAACGAACTCGGCAAGCAGACCGTCTACCGCTTCCAGACCATCCAGGGCGTCCGGCGCATCACCGCCATCGAAGGCGAACCCTCGGCCAACTGCCCGGCCAGCAACGCCCAGTACAGCTACGACGAGCGCGGCCTGCTCAAGACCAAGACCGACAACAAGGGCCACCTCACCACCTACACCTACAACGACCGTGGCCTGGAAGTTTCCCGCACCGAAGCCGCCGGCACGGCCCAGGCCCGCACCGTCACCACCGAGTGGCACCCCGACTGGTTCCTGCCGGTGACCGTCACCGAGCCGGACCGCATCACCCGCTACACCTACGACGACCAGGGCCGCCAACTCAGCCAGACCGTCATACCCCGTGACTAG	MIKERYDHSPLEFSTENIKLSFEYNSLDVLTKIERKNQDIFESRLFHYEDPRNPQLLTGITDERGIRYATWTYDDQGRAISSEHANGAEKVTLSYNADGSTTVTNELGKQTVYRFQTIQGVRRITAIEGEPSANCPASNAQYSYDERGLLKTKTDNKGHLTTYTYNDRGLEVSRTEAAGTAQARTVTTEWHPDWFLPVTVTEPDRITRYTYDDQGRQLSQTVIPRD				NA	NA	NA	NA	NA
BMS010_08678	783			hypothetical protein	ATGAAAGGGCGCCTTACCAAGCTAACCCAACCAAGCGGTACAGAATACAAGCTAAGTTATGACAAGCAAACCATTGCCATACAAAATAACTTAGGCGAAACCATGAGCTTAACTGAGGATGCTTTCTATCAACCGCTTACTGCACACGTAGGAAATACAAACATTGGTTATATTTATGACGATCATCAAAGGCTAACTAAAGTCACAAAAAAACAAGATGATCTGAGTGAGCAGCGCTTTTACCACTACGAAGCCCCCCTCAACCCCAAACTCCTCACCGGCATCACCGACGAACGCGGCATCCGCTACGCCACCTGGACCTACGACGACCAGGGCCGTGCTATCTCCAGCGAACACGCCAACGGTGCCGAAAAGGTCACCCTGAGCTACAACGCCGACGGCTCCACCACCGTCACCAACGAACTCGGCAAGCAGACCGTCTACCGCTTCCAGACCATCCAGGGCGTCCGGCGCATCACCGCCATCGAAGGCGAACCCTCGGCCAACTGCCCGGCCAGCAACGCCCAGTACAGCTACGACGAACGCGGCCTGCTCAAGACCAAGACTGACAACAAGGGCCACCTCACCACCTACACCTACAACGACCGTGGCCTGGAAGTCGCCCGCACCGAAGCCGCCGGCACGGCCCAGGCCCGCACCGTCACCACCGAGTGGCACCCCGACTGGTTCCTGCCGGTGAGCGTCACCGAGCCGGACCGCATCACCCGCTACACCTACGACGACCAGGGCCGGCAGCTCAGCCAGACCGTCACGCCCCGCTGA	MKGRLTKLTQPSGTEYKLSYDKQTIAIQNNLGETMSLTEDAFYQPLTAHVGNTNIGYIYDDHQRLTKVTKKQDDLSEQRFYHYEAPLNPKLLTGITDERGIRYATWTYDDQGRAISSEHANGAEKVTLSYNADGSTTVTNELGKQTVYRFQTIQGVRRITAIEGEPSANCPASNAQYSYDERGLLKTKTDNKGHLTTYTYNDRGLEVARTEAAGTAQARTVTTEWHPDWFLPVSVTEPDRITRYTYDDQGRQLSQTVTPR				NA	NA	NA	NA	NA
BMS010_08679	786			hypothetical protein	GTGGTGCGTTTCGGCGAGGGCATCGTGGTCAAGGACCTGAGCCTGGAGCGCCAGGGCAACAACCTGATCCTTCACTATGGTGAATCGGACAGAGTGACGTTCGCCAACTGGTACAGCAATTCGCTGAGCCGGATCGAGAAGATCGAGTTCGCCGATGGCAGCAGCCGCACGGTGAACAGCCTGGAAGTGGAACTGGGTGTGTCCGGCACGGAAGGGGACGACAAGTTCAGCCCGTACAGCAATGAGGTTGCACACTTCAAGGGACTGGCGGGTAACGATAGCCTGACCGGTGGCAATGCCAACGACATCCTCGACGGCGGTGAGGGTAACGACACCCTGAACGGAGGCAGTGGTAATGATCTGCTGATTGGAGGGGCAGGGGATGATGACCTGAACGGCGGCACTGGCTCCGACACCTACCTCTTCGGCAACGGCTCCGGCGTTGACTCGATCAACAACTACGACACCGCCGCCGCCAGCGTCGATACGTTGCAGTTCGGTGATGGGGTTTCCGTCGAGCAGTTGTGGTTCCGCCGCAACGGTTCGAACCTGGATGTCAGCATCGTCGGTTCGAGTGACAAGGTGTCGATCAGTAGCTGGTATGCCAGCAGCAATTACCATCTGGACCAGTTCAAGACGGCCGATGGCAAAACCCTGTTGGAAAGCCAGGTGCAGTCGCTGGTGGATGCGATGGCTGCCTTCGGTGTGCCGGCGGGCGGGGAGTCGAATCTCTCTGCCGATCAGCGGGCACAGTTGGAGGTGGTGATCGCCGCGAACTGGCAATAA	MVRFGEGIVVKDLSLERQGNNLILHYGESDRVTFANWYSNSLSRIEKIEFADGSSRTVNSLEVELGVSGTEGDDKFSPYSNEVAHFKGLAGNDSLTGGNANDILDGGEGNDTLNGGSGNDLLIGGAGDDDLNGGTGSDTYLFGNGSGVDSINNYDTAAASVDTLQFGDGVSVEQLWFRRNGSNLDVSIVGSSDKVSISSWYASSNYHLDQFKTADGKTLLESQVQSLVDAMAAFGVPAGGESNLSADQRAQLEVVIAANWQ				NA	NA	NA	NA	NA
BMS010_08680	1191	metK_2	COG0192	S-adenosylmethionine synthase	ATGAGCGAATATTCCCTGTTTACTTCCGAGTCCGTGTCCGAAGGCCATCCGGACAAGATCGCCGACCAGATCTCCGATGCGGTGCTCGACGCCATCATCGCCCAGGACAAGCATGCCCGCGTGGCCTGCGAGACCCTGGTGAAGACCGGTGTGGCCATTGTCGCCGGCGAAGTCACCACCTCCGCCTGGGTCGACCTGGAAGAGCTGGTGCGCAAGGTCATCTGCGACATCGGCTACACCAGCTCCGACGTCGGCTTCGACGGCCACACCTGCGGCATCATCAACATCATTGGCAAGCAGTCCCCGGACATCAACCAAGGCGTCGACCGCGCCAAGCCAGAAGACCAGGGCGCCGGCGACCAGGGGCTGATGTTCGGCTACGCCAGCAACGAGACCGACGTGCTGATGCCGGCGCCGATCTGCTTCTCCCACCGCCTGGTCGAGCGCCAGGCCGAAGCGCGCAAGTCCGGCCTGCTGCCGTGGCTGCGCCCGGACGCGAAGAGCCAGGTCACCTGCCGCTATGAGAACGGCAAAGTGGTCGGCATCGACGCCGTGGTGTTGTCCACCCAGCACAACCCGGAGGTCAAGTACGAAGACCTGCGCGAAGCGGTGATGGAGCTGATCATCAAGCACACCCTGCCGGCCGAGCTGCTGCACAAGGACACCCAGTTCCACATCAACCCGACCGGCCAGTTCATCATCGGCGGCCCGGTGGGCGACTGCGGCCTGACCGGCCGCAAGATCATCGTCGACTCCTACGGCGGCATGGCGCGCCACGGTGGCGGCGCGTTCTCCGGCAAGGACCCGTCCAAGGTGGACCGCTCCGCCGCCTACGCCGGCCGCTACGTGGCGAAGAACGTCGTCGCCGCCGGCCTCGCCGAGCGCTGCGAGATCCAGGTTTCCTACGCTATCGGCGTGGCCCAGCCGACTTCCATTTCGATCAACACCTTCGGCACCGGCAAGGTCAGCGACGAGCGCATCGTCCAGCTGGTCCGCGAGCATTTCGACCTGCGTCCGTACGCGATCACCCGCATGCTCGACCTGCTCCACCCGATGTACCTGCCGACCGCGGCCTACGGCCACTTCGGCCGCGATCCGTTCGAAATGACCGTCGGTGGCGACACCTTCACCGCGTTCACCTGGGAAAAGACCGACAAGGCCGCCGACCTGCGCGCCGCCGCCGGCCTGTAA	MSEYSLFTSESVSEGHPDKIADQISDAVLDAIIAQDKHARVACETLVKTGVAIVAGEVTTSAWVDLEELVRKVICDIGYTSSDVGFDGHTCGIINIIGKQSPDINQGVDRAKPEDQGAGDQGLMFGYASNETDVLMPAPICFSHRLVERQAEARKSGLLPWLRPDAKSQVTCRYENGKVVGIDAVVLSTQHNPEVKYEDLREAVMELIIKHTLPAELLHKDTQFHINPTGQFIIGGPVGDCGLTGRKIIVDSYGGMARHGGGAFSGKDPSKVDRSAAYAGRYVAKNVVAAGLAERCEIQVSYAIGVAQPTSISINTFGTGKVSDERIVQLVREHFDLRPYAITRMLDLLHPMYLPTAAYGHFGRDPFEMTVGGDTFTAFTWEKTDKAADLRAAAGL	PGPT0020000_3405	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI-2_BIOSYNTHESIS,PGPT0020000-metK-K00789	NA	NA
BMS010_08681	1002	COQ5_5		2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial	ATGAACCTGCGCGTGCCCTCACTTCGTCACGAAGCCGGCGACCAGTTGGCCGCCCTGTGCAAGGCCGGCGGCGATCCGCTGCGGCTGAACGTGCTGCGCGCGCTGGCCAACGATTCGTTCGGCGTACTAGAGCTGGCGCAGATTTTCGCCATTGGTCAGTCCGGCATGAGCCATCACCTCAAGGTGCTGGCCCAGGCCGGGCTGGTGGCGACCCGCCGCGAAGGCAATGCGGTGTTCTACCGCCGCGCCCTGCCCCATGCCGAAACGCTGGGCGGCGCGCTGCACGCAGCATTGCTGGAAGAGGTGGACGCCCTGACGCTGCCGGCCGACGTACAGGGCCGGATCGCCGCGGTACATGCGCAGCGGGCGACCGCCAGCCACGACTTCTTCAGCCGCGTGGCGGAGAAGTTTCAGGCCCAGCAGGACCTGATCGCCGGACTGCCGCAGTACCGTGATAGCGTGCTGGCGTTGCTCGATGCCCTGAGCTTCGTGCCCGGCGCCACGGCGCTGGAAGTCGGCCCCGGCGACGGCGGTTTCCTGCCCGAGCTGGCCCGGCGTTTTTCCCGGGTGTGGGCGCTGGACAACAGCCCGGCGATGCTGGAACTGGCGCGCCTGCGCTGTACCGAAGCGGGCCTGGGCAATGTCGAGCTGATACTCGCCGACGCCCTGAACGACGATGTCGCCGCGGCCGATTGCGTGGTGTTGAACATGGTCCTGCACCATTTCGCCGCGCCGGCCGAGGCGCTGAAGCGGCTGGCCCGCCTGGTGAAGACCGGCGGCAGCCTGCTGATCACCGAGTTGTGCAGCCACAACCAGAGTTGGGCCAGGGAGGCCTGCGGCGATCTCTGGTTGGGCTTCGAACAGGACGATCTGGCCCGTTGGGCCGATGCCGCGGGGCTCACGCCCGGCGAGAGCCTCTACATTGGCTTACGTAACGGTTTTCAGATTCAGGTGCGGCATTTCGCCAAGCCAGCCGCTGATGACCGACTCACCCACCGGTAA	MNLRVPSLRHEAGDQLAALCKAGGDPLRLNVLRALANDSFGVLELAQIFAIGQSGMSHHLKVLAQAGLVATRREGNAVFYRRALPHAETLGGALHAALLEEVDALTLPADVQGRIAAVHAQRATASHDFFSRVAEKFQAQQDLIAGLPQYRDSVLALLDALSFVPGATALEVGPGDGGFLPELARRFSRVWALDNSPAMLELARLRCTEAGLGNVELILADALNDDVAAADCVVLNMVLHHFAAPAEALKRLARLVKTGGSLLITELCSHNQSWAREACGDLWLGFEQDDLARWADAAGLTPGESLYIGLRNGFQIQVRHFAKPAADDRLTHR				NA	NA	NA	NA	NA
BMS010_08682	606			hypothetical protein	GTGATCACCTACCTCAGCTTCGCACTCGCCATTACCCTGCTGATCGCATCGCCCGGCCCGGTGGTTGCGCTGGTACTCGCCGACGGCCGGGGCACCTGGCCAACCTGGACCATCCTCGGCGGCATCCTCTCGGCCCAGATTCTCCTGGCCTGTGCCCTGCTGATGCTGTATCTGGCGCTGGACGTGAACACCCTCGTGCTCGAATGGGGCCGCCTCCTCGGCGGGCTCTACCTCGCCTGGCTCGGGCTGTCCACCCTGCGCGCCTCCGGCGACGCCGCCCAATGCAGCGTGACGGGTGGCCGCCAGCGCTTCTGGCGCACCCTCCGGGTGGGGCTGTCGAATCCCAAGGACATCCTGTTCTTCCTCGCCTTCCTGCCGAGCTTCATCCTTCCCGGCCAGTCGTTCGCCCGGCAGGCGTGCATCCTCGCGCTGATCTGGGCGGTGATCGACCTGAGCGTGCTGTCCACCTACGCCACCCTGTCCCAGCGCCTGTTCCGCCTCGACACCGGCAAGGCGCTGCTGACCTGGGTGCCCGGCATGTGCCTCCTGGCCCTCGGCCTGTATTCCGGTCTCCAGGGGCTGCTCGCCCTCTCAGGACAGGCGTGA	MITYLSFALAITLLIASPGPVVALVLADGRGTWPTWTILGGILSAQILLACALLMLYLALDVNTLVLEWGRLLGGLYLAWLGLSTLRASGDAAQCSVTGGRQRFWRTLRVGLSNPKDILFFLAFLPSFILPGQSFARQACILALIWAVIDLSVLSTYATLSQRLFRLDTGKALLTWVPGMCLLALGLYSGLQGLLALSGQA				NA	NA	NA	NA	NA
BMS010_08683	891	asnO		L-asparagine oxygenase	ATGAGCGATATAAAAGGACTGCTGGTCTCCAGCATCGCGAATGGCGGCCTGCATCAGGACCATATCTCGAAGATCATCACCTTCCGACAGTTCGGCAATGAACAGGGATACCTGCTGCTGGAAAACATGCCCATCGGCCGCATCCCACCGACACCCAGGGACCGCCGCCTCATCGGCAAACACGACAACCAGAGCGAACGCCTGATCCTGCAGACCACCGCCCTGCTCGGCGAACCGATCGGTTATGTGCAGGAGTCGGACGGCAACATCGTCAATAACTTCTTCCCGCATAAACAACACAGCCGAAAGAAGACCTCCGACAGTTACGACACGGAACTCGACCTGCACACCGAAAACGCCTTCCATGCCGTCCAGCCGGACTATCTGGTATTACTCTGCCTGCGCCAGGACCCGGGCAGCGAGGCGATCACCTACATCAGCTCGATCGAACAGATCCGGCACCACCTCACGCCGGATTGCCTCGATTTCTTCTTTACCGAGAAATACAACTTCCTTTCCGACTATTGCCCGAACGGGAAGAACTGCCGGCTCGACATCGGCAAGAACCAGACGGTGCTCTATGGCGACCCCGCAGACCCGATGTTCCGCTTCGACCCGCAGTTCATGGTCGCCCGCAACGGCTATGCGCAATACCAGATGACCCGCCTCCGGGACATCGCCTGGCGCGAAGCGCGGCCGCTCAAGCTCAGGGCCGGCGACCTGCTGATCATCGACAACCGCAAGACGGCCCATGCCAGGAGCGCCTTCAGCGCCCGTTTCGACGGCACGGACCGCTGGCTCCAGCGCACCTTCGTGGTCTGTAACCACCGCTACTACACCGAGAAACTCGGGAGGAGCACACGGGTCTTCGACCTGGTGGCCAACCTGTGA	MSDIKGLLVSSIANGGLHQDHISKIITFRQFGNEQGYLLLENMPIGRIPPTPRDRRLIGKHDNQSERLILQTTALLGEPIGYVQESDGNIVNNFFPHKQHSRKKTSDSYDTELDLHTENAFHAVQPDYLVLLCLRQDPGSEAITYISSIEQIRHHLTPDCLDFFFTEKYNFLSDYCPNGKNCRLDIGKNQTVLYGDPADPMFRFDPQFMVARNGYAQYQMTRLRDIAWREARPLKLRAGDLLIIDNRKTAHARSAFSARFDGTDRWLQRTFVVCNHRYYTEKLGRSTRVFDLVANL				NA	NA	NA	NA	NA
BMS010_08684	930	gcvA_14		Glycine cleavage system transcriptional activator	ATGGTGGATAAATCGGGCGCTCGCATTCCGCCGCTTTATGCATTGCGGGCATTCGAGATGGCAGCCCGGTTCGGTTCCTTCACCCTGGCGGCCGAGCAGCTGTGCATTACCCAGAGTGCGGTGAGCCGGCACGTGCGTTCCCTCGAGCAGTCCCTGGGCTGTCGTTTGTTCGAGCGGAAGGGCTCTAAGCTGGTGCTCACCGAGCATGCGCGGATACTCGCCCAGGGCCTGCAGATGGGGTTCGAGACTATCGAGAACGCCTGCATGGCGGTGGCCAGCCGAGAGGTTTCCCTGCGCCTCAAGGCGCCGTCGACACTGACGATGCGCTGGTTGCTGGGCGCGCTGGAGGGGTTTCACGCGCGCCATCCCGGTATTCAGGTGCAATTGACCAGCGTCTGGATGGATGAGGATTTCGTCGATTTCCGCGCCGAGCCGTTCGATTGCGCCATCCTGCTCGGGACTTGCGACAGTATGGTGGACGAGTCCGAAAAGCTGTTCGACGAGTGGCTGGTGCCGGTCTGTGCGCCCGAGCTGCTCGGTAGCGAACCCTGGACGCTGGACCGCCTGGCCAACTGTGAGCTGATTCATCCGACGCGCGATCGTCGGGACTGGCGGCGCTGGCTGGAACGCATGGGCTGCAACGACCGCCTGGCCTGGCGCAAGGGCAAGCTGTTCGACACCCTGGAACTGGCCATCTCCGCGGCGATGAAGGGGCATGGGTTGTCCATGGGCGACCTGTCCCTGGTCAAGGAAGAGTTGGACAGCGGCGCGCTGGTCCTGCCGTTCCGCACGGCGGTGCGCTCCCAGGGCAGCTATTACCTGGTCTGGCCGACACGCAGCCGGCAGAACTGCACGCTGGAGCTGCTCCGCGCGCACTTGCTGGAATGCCTGCCGACGTTCGACGCCGCCGATATGACCTTGCTGGAGTGA	MVDKSGARIPPLYALRAFEMAARFGSFTLAAEQLCITQSAVSRHVRSLEQSLGCRLFERKGSKLVLTEHARILAQGLQMGFETIENACMAVASREVSLRLKAPSTLTMRWLLGALEGFHARHPGIQVQLTSVWMDEDFVDFRAEPFDCAILLGTCDSMVDESEKLFDEWLVPVCAPELLGSEPWTLDRLANCELIHPTRDRRDWRRWLERMGCNDRLAWRKGKLFDTLELAISAAMKGHGLSMGDLSLVKEELDSGALVLPFRTAVRSQGSYYLVWPTRSRQNCTLELLRAHLLECLPTFDAADMTLLE	PGPT0026360_1556	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
BMS010_08685	1998	tktA_2	COG0021	Transketolase 1	ATGCCCAGCCGTCGTGACCGTGCCAACGCCATCCGCGCCCTCAGCATGGATGCCGTGCAGAAAGCCAACAGCGGCCACCCCGGCGCCCCCATGGGCATGGCCGATATCGCGGAGGTGCTCTGGCGCGACTACCTGAAGCACAACCCGGCTAATCCGCAGTGGGCCGACCGCGACCGCTTCGTGCTGTCCAACGGCCACGGCTCGATGCTGATCTACTCCCTGCTGCACCTGACCGGCTACGACCTGTCCATCGACGACCTGAAGAACTTCCGCCAACTGCACAGCCGCACCCCGGGCCACCCGGAATTCGGCTACACCGCCGGCGTCGAGACCACCACCGGGCCGCTCGGCCAGGGCATCGCCAACGCCGTCGGCTTCGCCGTGGCGGAAAAGATCATGGCGGCCCAATTCAACCGCTCCGGCCATAACATTGTCGATCACTACACCTACGTGTTTATGGGCGATGGCTGCATGATGGAAGGCATTTCCCATGAAGTCTGCTCCCTGGCCGGCACCCTGGGCCTGTCCAAGCTGATCGCCTTCTACGACGACAACGGCATTTCCATCGACGGCGAAGTGCACGGCTGGTTCACCGACGACACGCCGAAGCGCTTCGAAGCCTACGGCTGGCAGGTGATCCGCAACGTCGACGGCCACGACGCCGACGAAATCCGCATGGCGATCGAGACCGCACGCAAGAGCGACCGTCCGACCCTGATCTGCTGCAAGACCATCATCGGCTTCGGTTCGCCGAACAAACAGGGCAAGGAAGAAAGCCACGGCGCTGCCCTGGGTGCCGAAGAGGTGGCGCTGACCCGCGCGAACCTGGGCTGGAACCACCCGCCGTTCGAAATTCCGGCCGACATCTATGCCGAGTGGAATGCCCGGGAAGCCGGCAGTAAGGCCGAGAACGACTGGAGCCAGCGCTTCGCCGCCTACCAGGCCGAGCACCCCGAGCTGGCCGCCGAGTTCACCCGGCGCATGGCGGGCGAACTGCCGGACGATTTTTCCGCCAAGGCTTCCGAGTTCATCCGCGCCGTGGCCGAGAAGGGTGAAACCATCGCCAGCCGCAAGGCCAGCCAGAACTGCCTGAATGCGTTCGGCCCGCTGCTGCCGGAACTGCTCGGCGGCTCCGCCGACCTCGCCGGTTCCAACCTGACGCTGTGGAAAGGCTGCAAGCCGGTGGTCGAGGAAGACGCCTCGGGCAACTACATGTATTACGGCGTTCGTGAATTCGGCATGAGCGCCATCATGAACGGCATCGCCCTGCACGGCGGCCTGATCCCCTACGGCGCGACCTTCCTGATCTTCATGGAATACGCGCGCAACGCCGTACGCATGTCGGCACTGATGAAGCAGCGCGTACTCTACGTGTTCACCCACGACTCCATCGGCCTGGGCGAAGACGGCCCGACCCACCAGCCGATCGAGCAACTGGCCAGCCTGCGCATGACGCCGAACCTGGATACCTGGCGCCCGGCCGATGCGGTCGAATCCGCGGTGGCCTGGAAGTACGCCATCGAGCGCAAGGACGGCCCGAGCGCCCTGGTGTTCTCGCGCCAGAACCTGCCGCATCACCTGCGCGATCACGAGCAGGAAAGCGCCATCGCCCGTGGCGGCTATGTCCTGAAGGATTGCGACGGCGAGCCGGAGCTGATCCTCATCGCCACCGGTTCGGAAGTCGCCCTGGCCGTGCAGGCTGCCGACAAGCTCGCCGAGCAGGGCCGCAAGGTGCGCGTGGTCTCCATGCCGTGCACCAGCGTGTTCGATGCCCAGGACGCCGCCTACAAGCAGTCGGTGCTGCCGGTGGAAGTCGGTGCGCGGATCGCCATCGAAGCGGCCCATGCCGACTACTGGTACAAGTACGTCGGCCTCGACGGCCGGGTGATCGGCATGACCAGCTTCGGCGAATCCGCGCCGGCGCCGGCCCTGTTCGAACACTTCGGCTTCACCGTCGACAACGTGCTTTCGGTAGCCGAAGAGCTGCTGGAAGACTGA	MPSRRDRANAIRALSMDAVQKANSGHPGAPMGMADIAEVLWRDYLKHNPANPQWADRDRFVLSNGHGSMLIYSLLHLTGYDLSIDDLKNFRQLHSRTPGHPEFGYTAGVETTTGPLGQGIANAVGFAVAEKIMAAQFNRSGHNIVDHYTYVFMGDGCMMEGISHEVCSLAGTLGLSKLIAFYDDNGISIDGEVHGWFTDDTPKRFEAYGWQVIRNVDGHDADEIRMAIETARKSDRPTLICCKTIIGFGSPNKQGKEESHGAALGAEEVALTRANLGWNHPPFEIPADIYAEWNAREAGSKAENDWSQRFAAYQAEHPELAAEFTRRMAGELPDDFSAKASEFIRAVAEKGETIASRKASQNCLNAFGPLLPELLGGSADLAGSNLTLWKGCKPVVEEDASGNYMYYGVREFGMSAIMNGIALHGGLIPYGATFLIFMEYARNAVRMSALMKQRVLYVFTHDSIGLGEDGPTHQPIEQLASLRMTPNLDTWRPADAVESAVAWKYAIERKDGPSALVFSRQNLPHHLRDHEQESAIARGGYVLKDCDGEPELILIATGSEVALAVQAADKLAEQGRKVRVVSMPCTSVFDAQDAAYKQSVLPVEVGARIAIEAAHADYWYKYVGLDGRVIGMTSFGESAPAPALFEHFGFTVDNVLSVAEELLED	PGPT0011200_3477	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_PENTOSE_METABOLISM,PGPT0011200-tktA|tktB-K00615	NA	NA
BMS010_08686	1047	epd	COG0057	D-erythrose-4-phosphate dehydrogenase	ATGCCCAACCGCCCTTACAAAGTTGTATTGAACGGCTATGGCCGCATCGGCCGTTGCGTGTTGCGCGCGCTCTACGAGCGTGGTGCCGGGGCGAGCTTCGACGTGGTCGCCCTGAACGACCTGGCCGACCAGGCCAGCATCGAATACCTGACCCGTTTCGACTCCACCCATGGTCGCTTCCCCGGCGACGTGAAGGTCGAAGGCGATTGCCTGCACATCAATGGCGATTGCGTGAAGGTGCTGCGCAGCGCGACGCCGGAGGGCATCGACTGGGCCGGCCTGGGCGTCGACCTGGTGCTGGAGTGCTCGGGCGCCTACCACACCCGCGCCGATGGCGAACGCTTCCTCGAGGCCGGTGCGCCACGGGTGCTGTTCTCCCAGCCCATGGCCAGCGAGGCGGATGTCGACGCCACCATCGTCTTCGGCGTCAACCAGGCCAGCCTCGGCGGTAAGGAGACCCTCGTCTCAAATGCATCCTGCACTACCAATTGCGGCGTGCCCCTGCTGAAACTTTTGAACGAGACAGTGGGTCTTGAGTACGTTTCCATCACTACGATCCACTCCGCGATGAACGACCAGCCGGTAATCGACGCCTATCACCATGAGGACTTGCGCCGCACGCGCTCGGCCTTCCAGTCGGTGATCCCGGTGTCTACCGGGCTGGCGCGCGGCATCGAACGCCTGCTGCCGGAACTTAGTGGGCGAATCCAGGCCAAAGCCGTTCGCGTGCCGACGGTCAACGTGTCCTGCCTGGATATCACCCTGCAGACCGCCCGCGACACCAGTAGCGAAGAAATCAACCGCGTGCTGCGCCAGGCCGCCGAAAGCGGCCCGCTGAAAGGCCTGCTGGCCTACACCGAGCTGCCCCACGCCAGTTGCGACTTCAATCACGATCCGCATTCGGCCATCGTCGACGGCAGCCAGACCCGCGTTTCCGGCCCCCGGCTGGTGAATCTGCTGGCCTGGTTCGACAACGAATGGGGCTTCGCCAACCGTATGCTCGACGTCGCCGATCACTACCTGCGCGTCGCCAACGCTTCCAATTAA	MPNRPYKVVLNGYGRIGRCVLRALYERGAGASFDVVALNDLADQASIEYLTRFDSTHGRFPGDVKVEGDCLHINGDCVKVLRSATPEGIDWAGLGVDLVLECSGAYHTRADGERFLEAGAPRVLFSQPMASEADVDATIVFGVNQASLGGKETLVSNASCTTNCGVPLLKLLNETVGLEYVSITTIHSAMNDQPVIDAYHHEDLRRTRSAFQSVIPVSTGLARGIERLLPELSGRIQAKAVRVPTVNVSCLDITLQTARDTSSEEINRVLRQAAESGPLKGLLAYTELPHASCDFNHDPHSAIVDGSQTRVSGPRLVNLLAWFDNEWGFANRMLDVADHYLRVANASN	PGPT0009145_118	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009145-epd-K03472	NA	NA
BMS010_08687	1161	pgk_2	COG0126	Phosphoglycerate kinase	ATGACCGTGTTGAAGATGACCGACCTCGACCTCCAGGGTAAGCGCGTGCTGATCCGCGAAGACCTCAACGTCCCGGTGAAGGACGGCGTGGTGAAAAGCGATGCGCGCATCCTCGCCTCCCTGCCGACCATCAAGCTGGCGCTGGAGAAGGGCGCGGCGGTGATGGTCTGCTCCCACCTGGGCCGTCCGACCGAGGGCGAGTACAGCGAAGAGAACAGCCTCAAGCCGGTCGCCGATTACCTGGGCAAGGCCCTGGGTCGCAACGTCCCGCTGGTCGCCGACTATTTGAACGGTGTCGAGGTGAAGCCCGGCGAGCTGGTGCTGTTCGAGAACGTGCGCTTCAACAAGGGCGAGAAGAAGAACGCCGACGAGCTGGCGCAGAAATACGCCGCCCTGTGCGACGTATTCGTCATGGACGCCTTCGGTACCGCCCACCGCGCCGAGGGTTCCACCCATGGCGTGGCCAAGTTCGCCAAGGTCGCCTGTGCCGGCCCGCTGCTGGCGGCCGAACTGGATGCGTTGGGCAAGGCCCTGGGCAACCCGGCCCGGCCGATGGCGGCCATCGTCGCTGGCTCCAAGGTCTCCACCAAGCTGGACGTGCTGAACAGCCTGAGCCAGATCTGCGACCAGCTGATCGTCGGCGGCGGTATCGCCAACACCTTCCTCGCCGCGGCGGGTTACAAGGTGGGCAAGTCGCTGTATGAAGCCGATCTGGTCGACACCGCCAAGGCCATCGCCGCCAAGGTCAGCGTGCCGCTGCCGGTGGACGTGGTGGTGGCCAAGGAATTCGCCGAAAGCGCCGCCGCCACCGTCAAGGCCATCGCCGATGTGGCCGACGACGACATGATCCTCGACATCGGGCCGCAGACTGCCGCCCAGTTCGCCGAGCTGCTGAAGTCGTCGAAGACCATCCTCTGGAACGGCCCGGTCGGGGTGTTCGAGTTCGACCAGTTCGGCGAGGGCACCAAGGCCCTGGCCCTGGCCATCGCCGAGAGCGATGCATTCTCCATTGCTGGCGGTGGCGACACCCTGGCGGCCATCGACAAGTACGGCGTGTCGGAGCGCATCTCCTATATTTCCACTGGCGGCGGCGCCTTCCTCGAGTTCGTCGAGGGCAAGGTGTTGCCGGCGGTCGAGGTGCTGGAGCAGCGCGGCAGATAA	MTVLKMTDLDLQGKRVLIREDLNVPVKDGVVKSDARILASLPTIKLALEKGAAVMVCSHLGRPTEGEYSEENSLKPVADYLGKALGRNVPLVADYLNGVEVKPGELVLFENVRFNKGEKKNADELAQKYAALCDVFVMDAFGTAHRAEGSTHGVAKFAKVACAGPLLAAELDALGKALGNPARPMAAIVAGSKVSTKLDVLNSLSQICDQLIVGGGIANTFLAAAGYKVGKSLYEADLVDTAKAIAAKVSVPLPVDVVVAKEFAESAAATVKAIADVADDDMILDIGPQTAAQFAELLKSSKTILWNGPVGVFEFDQFGEGTKALALAIAESDAFSIAGGGDTLAAIDKYGVSERISYISTGGGAFLEFVEGKVLPAVEVLEQRGR	PGPT0018015_5907	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0018015-pgk-K00927	NA	NA
BMS010_08688	201			hypothetical protein	ATGCGCCATCCCTTGCTCGTCCTCATGTGTTCGATCGGCCTGATCGGTTGTTCCGGCGGTTCGCCGGTCACCAGTACCTGCGAAGTGATCAGCCCGCCGCCTGCGATGGGCCCCACCGAGAAGGACAATCAGCGGATCGAGACACAGAGCAGCGGCGATCCGACCGCTGCCCGGGACAGTTCGGAGCAGCGCTGCCCTTGA	MRHPLLVLMCSIGLIGCSGGSPVTSTCEVISPPPAMGPTEKDNQRIETQSSGDPTAARDSSEQRCP				NA	NA	NA	NA	NA
BMS010_08689	318			hypothetical protein	ATGAAAGGTATTATCGCCCTGGCGGCGGCCGTTGTTCTGCTGGCTGGCTGTGCCGGTGCGCCGGCCGAACAGCCGTGGAGCCGCTGGACTTGCGACAGCGGCGCGGAGCTGAACTGGCGTTTCGCCGATGCCGGGCGCGATACCGTCGATCTGCGGGTGAGCGGAAGCGACGTGGTTTATCGGCTGCAGCGGGAACCTGCCGCCTCCGGCGCTCTCTATAGCGATGGCGTTATCGCCTTCCATGCCAAGGGCGAGGAAGGTCTGGCCTACTGGGTCGCCGGAAACGACTTGATCGGTCGAGGTTGCAAGGCCCAATGA	MKGIIALAAAVVLLAGCAGAPAEQPWSRWTCDSGAELNWRFADAGRDTVDLRVSGSDVVYRLQREPAASGALYSDGVIAFHAKGEEGLAYWVAGNDLIGRGCKAQ				NA	NA	NA	NA	NA
BMS010_08690	195			hypothetical protein	ATGCGTTACGTGTCGCTGAGTCTCCTGCTGCTGTCGTTGTCCGGCTGCTCGCTGAATCCTGTCGGAAACCGTTGGTGCAGCGAACTGGCTGCCTACTCGCTCAGTCAGCGCGAGGCGTTGCCCGAGCAGGGCGCCCCGGTCCGGACCGGCCTGGCGACGACGGCGCGCCGTCCCACCGCCTGCCATCACGGCTGA	MRYVSLSLLLLSLSGCSLNPVGNRWCSELAAYSLSQREALPEQGAPVRTGLATTARRPTACHHG				NA	NA	NA	NA	NA
BMS010_08691	1065	cbbA		Fructose-bisphosphate aldolase	ATGGCTCTCATCAGCATGCGCCAGATGCTCGACCACGCCGCCGAGTTCGGCTACGGCATTCCGGCCTTCAACGTCAACAATCTCGAGCAGATGCGCGCCATCATGGAAGCGGCCGACAAGACCGACTCTCCGGTGATCGTCCAGGCCTCCGCCGGTGCGCGCAAATATGCCGGCGCCCCGTTCCTGCGCCACCTGATTCTCGCCGCCGTCGAAGAATTCCCGCATATCCCGGTGGTGATGCACCAGGACCACGGCACCAGCCCGGCGGTCTGCCAGCGTTCCATCCAACTGGGCTTCTCCTCGGTGATGATGGACGGCTCCCTCGGCGAGGACGGCAAGACGCCGACCGACTACGAATACAACGTCCGCGTGACCCGCCAGGTGGTGGACATGGCCCACGCCTGCGGCGTGTCCGTGGAAGGTGAGCTGGGTTGCCTGGGCAGCCTGGAAACCGGCCAGGCCGGCGAGGAAGACGGTATCGGCGCCGAAGGCACCCTGGATCACAGCCAGATGCTGACCGATCCGGAAGAAGCCGCCGACTTCGTCGCCAAGACCAAGGTCGACGCCCTGGCCATCGCCATCGGCACCAGCCATGGCGCCTACAAGTTCACCCGTCCGCCGACCGGCGACATCCTTGCCATCGACCGCATCAAGGCGATCCACCAGCGCATTCCGGACACCCACCTGGTGATGCACGGCTCCTCCAGCGTGCCGCAGGACTGGCTGGCGATCATCAACGAATTCGGCGGCGAAATCCCGGAAACCTACGGCGTTCCGGTCGAGGAAATCGTCGAAGGCATCAAGTACGGCGTACGCAAGGTGAACATCGACACCGACCTGCGCCTGGCTTCCACCGGTGCCATCCGCCGCTTCCTGGCGCAGAACAAGAGCGAGTTCGACCCGCGAAAATACCTGGCGAAGACCGTCGATGCTATGCGCGACATCTGCATCGCCCGTTATGAAGCCTTCGGCACCGCCGGCAACGCCTCCAAGATCAAGCCGATCTCCTTGGAGGCGATGTATCAGCGCTATGCCAAGGGCGAGCTGAATCCGAAGGTGAATTGA	MALISMRQMLDHAAEFGYGIPAFNVNNLEQMRAIMEAADKTDSPVIVQASAGARKYAGAPFLRHLILAAVEEFPHIPVVMHQDHGTSPAVCQRSIQLGFSSVMMDGSLGEDGKTPTDYEYNVRVTRQVVDMAHACGVSVEGELGCLGSLETGQAGEEDGIGAEGTLDHSQMLTDPEEAADFVAKTKVDALAIAIGTSHGAYKFTRPPTGDILAIDRIKAIHQRIPDTHLVMHGSSSVPQDWLAIINEFGGEIPETYGVPVEEIVEGIKYGVRKVNIDTDLRLASTGAIRRFLAQNKSEFDPRKYLAKTVDAMRDICIARYEAFGTAGNASKIKPISLEAMYQRYAKGELNPKVN	PGPT0017615_1592	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0017615-fbaA|cbbA-K01624	NA	NA
BMS010_08692	681			hypothetical protein	ATGATCGACCTTGCCATCTGGAATCTGAGCATTCCCGTCGGTGTTCCCGCCACCACCATCGAAACCCGCGTCCTCGCGACCGGCTATCAGGACCACTACTTCAAGAACAACGGCTACAACACCGTGTTCTTCTGGGCGCCGGTCAACGGTACCACCACCGAGAGCGCCAGCTACCCACGTACTGAGCTAAGGGAGACCTATCCGGACGGCAGGCTGCGTAACTGGACCTACCCGAGCGCCGACAACTTCCTGCGGGCCGGCCTGAAGGTCAGCCAAGTTCCGTCCACCGGCAAGATCGTGGTCGGCCAGATTCATGCCTATAAGAGCAGCCGTCCGCTGCTGAAGTTGGAGTACCAGTACAAGGCGCGCTACGACTACGGCAACATCGTGGTGAAGGTCCGCCGCTCGCCGGATGACGAGACGTCGGAAGTCATCAATGTGCTCAGCGGCGTTCCGCTGAACCAGCGCTTCATCTACAGCATTCACCTGACGCCGAAAGGCACGCTGAGCGTGAACGTGAACGCGACGAAGTGGACCACGAAGCTGGACTCGGCCTGGGCGACGAAACCGCTGTACTTCAAGGCGGGGGTTTATACCCAGGACAATACCGGCTACGAAACCGAGGCCGGCGCAGCGATCTTCGACAAGCTACAGATCGAGCACCGCCCGCTCCCCATGTGA	MIDLAIWNLSIPVGVPATTIETRVLATGYQDHYFKNNGYNTVFFWAPVNGTTTESASYPRTELRETYPDGRLRNWTYPSADNFLRAGLKVSQVPSTGKIVVGQIHAYKSSRPLLKLEYQYKARYDYGNIVVKVRRSPDDETSEVINVLSGVPLNQRFIYSIHLTPKGTLSVNVNATKWTTKLDSAWATKPLYFKAGVYTQDNTGYETEAGAAIFDKLQIEHRPLPM	PGPT0019417_554	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_ALGINATE_DEGRADATION,PGPT0019417-putative_alginate_lyase_2-NA	NA	NA
BMS010_08693	675	alyA_4		Alginate lyase	ATGATCGACCTCGCTACCTGGAACCTGACCATCCCCGTCGGCGTCCCCTCCACCACCATCGAAACCCCGGTTCTGGTCGGCGGTTATCAGGACTACTACTTCAAGAACAACGGGAACAACACCGTGTTCTTCTGGGCGCCGGTCAACGGCACCACCACGGACAGCGCCATCTATCCGCGTAGTGAACTGCGCGAAACCTATGCCGACGGGCGCCTGCGCAACTGGCTGCACACGGCGGCCGACAATTTCCTGAGCGCAAGCCTGAAGGTCAGCCAAGTACCGTCCAGCGGCAAGATCGTCATCGGCCAGATCCATGCGTACCAGAGCGACAAGCCGCTGCTGAAGCTGGAGTACCAGTACAAGAGCACCTATGGCTACGGGAACATCGTCGCCAAGGTCCGCTACACGCCGACCGAAGAGACCAGCACGGTCATCACACTGTTCCGGGGCGTTCCGCTGAACCAGGACTTCGACTACGTGGCCCACTTGGACCCGAAGGGCAAGCTGAGCGTGACCGTCAACAACACCACCTGGAGCACGCAGCTCGATTCCAGCTGGGCGCCGAAGCCGCTGTACTTCAAGGCCGGCGTGTACACCCAGGACAACACCGGCTACGAAACCGAAGCCGGCGCCGCGACCTTCGACGTGCTGAAAATCGAGCACCGCGCACTCTGA	MIDLATWNLTIPVGVPSTTIETPVLVGGYQDYYFKNNGNNTVFFWAPVNGTTTDSAIYPRSELRETYADGRLRNWLHTAADNFLSASLKVSQVPSSGKIVIGQIHAYQSDKPLLKLEYQYKSTYGYGNIVAKVRYTPTEETSTVITLFRGVPLNQDFDYVAHLDPKGKLSVTVNNTTWSTQLDSSWAPKPLYFKAGVYTQDNTGYETEAGAATFDVLKIEHRAL	PGPT0019417_554	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_ALGINATE_DEGRADATION,PGPT0019417-putative_alginate_lyase_2-NA	NA	NA
BMS010_08694	672	alyA_5		Alginate lyase	ATGGTCGATCTCGCCACTTGGAACCTGAGCGTTCCCGTCGGAACGCCGGCGACCATCATCGAAACCCCGAAGCTGGTCGAGGGGTATCAGGACAATTACTTCCGCACGCCTTCCGGAGCCGTGATCTTTTGGGCACCGGTGACGGGTTCGAAAACGGAGAATGCGATCTATCCGCGTACGGAACTACGGGAAAGCTATCCCGATGGCCGGGTGCGCAACTGGCTGTACGCCGATGCCGACAACTTCATGCGCGCCGCCCTGTCGGTCAACCAGGTACCGTCGTCCGGCAGGGTCGTGATCGGCCAGATCCATGCCTGGAACAGCACCAAACCCATGCTGAAGCTGGAGTACCAGTACGAGGACGACGAGAAACTGGGGAATGTCGTGGCCAAGTTCCGCAACCGGCCGGACGATGAGGACCCGCTGGTGGTGACGGTGGCCGAAGGCGTCCCCCTGAACAAGCGCTTCACCTACAGCCTGCACGTGACGCCCAACGGCTCCCTCGCCGTGCATGCGGCCGGCTACCGCTGGGTGACCCGCCTGGACCGGAGCTGGGCACCGAAGCCGCTTTACTACAAGGCAGGCATGTATACCCAAGACAATACCGGCTACGCCAACGAAGGCGGGATGGCAACCTTCTACCGGCTGCACATCGAACACAAATCGCTCTGA	MVDLATWNLSVPVGTPATIIETPKLVEGYQDNYFRTPSGAVIFWAPVTGSKTENAIYPRTELRESYPDGRVRNWLYADADNFMRAALSVNQVPSSGRVVIGQIHAWNSTKPMLKLEYQYEDDEKLGNVVAKFRNRPDDEDPLVVTVAEGVPLNKRFTYSLHVTPNGSLAVHAAGYRWVTRLDRSWAPKPLYYKAGMYTQDNTGYANEGGMATFYRLHIEHKSL	PGPT0019417_589	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_ALGINATE_DEGRADATION,PGPT0019417-putative_alginate_lyase_2-NA	NA	NA
BMS010_08695	1623			hypothetical protein	ATGCTGCTACGCCGCTTCGGTATCGGCCCGCGCGCCGCCGTGAGTTTTGCCTTGATTGCCGGGTTGCTGTTGTTCACCGGCCTCTTTTCCTTGAATCGTATGTCCGTCATCAACCAGGCCTCCACCGTGATCAGCGAAGACTGGCTGCCGGGCGTGCAGATGTCCGGCCGATTGCAACTGCTCTCCGCTCGCTTCCGTCTGCAGCAGTTCGCCCACATCCTCACCCATGACGAGGCCGGCATGTCAGCGGTGGAGCGGCGATTGCAGGAGGTGCTGGGGGAGCTGGAGAAGGTTGAGAACGATTTGCTCCGTACCGCCAGTGGCTCGGAGGAAACGGCGCTGCTGGAGCGGTTCCGCTCGCAGCGCACGGATTACATGAAGGCGCACGAGTCCTTTCTCGCCATCTCCCGCGCCAACCGTACCGACGATGCCTTCGCCAGCCTGAACGGCATGGCGCCCCAGTTCGACGCCATGCGCCAGACCGCCGAGGAAATCGCACAATTGAATAGCCACGGTGGCGAGGCGGCCAGCGCGGCGGCGGACGAACAGTTCGCCAGCAGCCAGGTGGCTGTGATCGTCGCGCTGGTCCTGGCGGCGGCTCTCACCGCCCTGCTGGCGTGGATGCTGACCCGCAGCATCGTTGGGCCGCTCGGCGACGCGGTGGAGGTCGCCCGGACCGTGGCCAAGGGCGACCTCACCGGGCGCATCGATGTCGAGGGCGAGGACGAGCCGGCCCAGTTGATGCAGGCGCTGGCGGACATGCAGGTGCAACTGCGGCGGACCATCCAGCAGATCGGCGGCTCGGCGACGCAACTGGCGTCGGCGGCCGAGGAGCTGAGTGCGGTCACCGAGGAAAGCAACCGCTCGCTGATCCGCCAGAACGACGAGATCCAAATGGCTGCGACGGCGGTCAACCAGATGACCGCCGCGGTCGAGGAAGTGGCGCGCAATGCCAGCTCCACCTCGGAAGCCTCCAACGCCTCCGCCGAATCGGCCGGGCAGGGGCGCGACCGGGTGCGGCAGACCATCGCCGCCATTCGCAGCATGGGCCATGAGGTGAACACCACGGCCACCCTGGTGAGCAGCTTGGCCGAGCAGGCGCAGAACATCAGCAAAGTGCTCGATGTGATCCGCTCCATCGCCGAGCAGACCAACCTGCTGGCGCTCAACGCCGCCATCGAAGCGGCGCGCGCCGGCGAGCAGGGGCGCGGTTTCGCCGTGGTGGCGGACGAAGTGCGTGCCCTGGCCCACCGGACCCAGGAGTCCACCCTGGAAATCGAGCAGATGATCGGCAGCATCCAGGAAGGCACCAACCAGGCGGTCGACGCGATGAACAGCAGCAGCCAGCGGGCCCTGGGCATGCAGGAAGAAGCCGAGGCCGCCGGGCAGGCGATCGAGGTCATCGCCCAGCAGGTCGAGGCGATCAACGAGCGGACCCTGGTGATCGCCAGCGCCGCGGAGGAACAGGCCCAGGTGGCGCGGGAAGTGGATCGCAACCTGGTGAACATCCGCGACCTGTCGCTGCAGACGTCGGCCGGGGCCAACCAGACCGCAGCCGCCAGCCAGGAACTGTCGCGCCTGGCGGTGGAGCTGAACACCATGGTGACGCGTTTCGTCGTCTGA	MLLRRFGIGPRAAVSFALIAGLLLFTGLFSLNRMSVINQASTVISEDWLPGVQMSGRLQLLSARFRLQQFAHILTHDEAGMSAVERRLQEVLGELEKVENDLLRTASGSEETALLERFRSQRTDYMKAHESFLAISRANRTDDAFASLNGMAPQFDAMRQTAEEIAQLNSHGGEAASAAADEQFASSQVAVIVALVLAAALTALLAWMLTRSIVGPLGDAVEVARTVAKGDLTGRIDVEGEDEPAQLMQALADMQVQLRRTIQQIGGSATQLASAAEELSAVTEESNRSLIRQNDEIQMAATAVNQMTAAVEEVARNASSTSEASNASAESAGQGRDRVRQTIAAIRSMGHEVNTTATLVSSLAEQAQNISKVLDVIRSIAEQTNLLALNAAIEAARAGEQGRGFAVVADEVRALAHRTQESTLEIEQMIGSIQEGTNQAVDAMNSSSQRALGMQEEAEAAGQAIEVIAQQVEAINERTLVIASAAEEQAQVAREVDRNLVNIRDLSLQTSAGANQTAAASQELSRLAVELNTMVTRFVV	PGPT0015710_21541	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_08696	510	ygjP	COG1451	UTP pyrophosphatase	ATGACCGCGCTCAGGTTTCTCCAGGCGTATCCGCCTGCCTTGCTGGATCAGGTCCGTCACCTGATCGCCGAGGATCGCCTGGGCGATTACCTGGCCCAGCGCTACCCGGCGCGCCATGAAGTGCAGAGCGACAAGGCGCTGTACGCCTACACCATGGCGCTGAAGCAGGAGCACCTGCGCAACGCTCCCGGCATCGATAAGGTGCTCTACGACAACCGTCTCGACGTGGTTCAGCGCGCGCTGGGGCTGCACACCGCGGTGTCGCGGGTACATGGCGGCAAGCTCAAGGCGAAGAAGGAAATCCGCGTGGCCTCGCTGTTCAAGGATGCGGCGCCGGAATTCCTGAAAATGATCGTGGTGCACGAACTGGCCCACCTGAAGGAGTTCGAGCACAACAAGGCCTTCTACAAACTGTGCGAACACATGCTGCCGGGCTACCACCAACTGGAATTCGACCTGCGCCTGTACCTCACCTGGCGCGAATTGCAGGACGGTCGGAGCGATAGCTGA	MTALRFLQAYPPALLDQVRHLIAEDRLGDYLAQRYPARHEVQSDKALYAYTMALKQEHLRNAPGIDKVLYDNRLDVVQRALGLHTAVSRVHGGKLKAKKEIRVASLFKDAAPEFLKMIVVHELAHLKEFEHNKAFYKLCEHMLPGYHQLEFDLRLYLTWRELQDGRSDS				NA	NA	NA	NA	NA
BMS010_08697	390			hypothetical protein	ATGGACCGATTCACAGGTGGCTGCCTGTGCGGAAACGTCCGCATCGTCGCCTCGGGGCGGCCGTATCGGGTCGGCCTTTGTCACTGCCTCGATTGCCGTAAGCATCACGGGGCGCTGTTTCACGCGTCGGCGATTTTTCCCCAGAACGCCGTGACGGTTGAAGGCGAAACGCACGACTACGCCGGACGATTCTTCTGCCCTCGCTGCGGCTCGTCGGTTTTCTCGCGCAGCGAGGATGAAATCGAAGTGAGCCTGGGCTCCCTGGATGTCCCCGATCAGTTGATGCCGACCTACGAACTCTGGACCGTCAGGCGCGAATCCTGGCTGCCGTCGTTTCCGCTCAAGAAACGATACGAGCGCGACCGTGACGACACGAGCCGCGAGGAGTAA	MDRFTGGCLCGNVRIVASGRPYRVGLCHCLDCRKHHGALFHASAIFPQNAVTVEGETHDYAGRFFCPRCGSSVFSRSEDEIEVSLGSLDVPDQLMPTYELWTVRRESWLPSFPLKKRYERDRDDTSREE				NA	NA	NA	NA	NA
BMS010_08698	1611	lap	COG2234	Aminopeptidase	ATGTCTAACAAAAACAAAACGCTGCGTGTCGTCTGCAGTACCCTCGCATTCTCCCTCTCCACGACGCTGTACGCCGCTCCACCCCTGGAAACCGACCTGTTCAACGAGTTCTGGAGTCCGTCACGGCCCGATCCGTCCGGCTGCAACTCGATCCTGTTGAACAACACACCCATTGGCCTTCCCCGCTGCATGCAGGCCAGCAAGATCATGAACCACCTGCAGGCGCTGCAGGACATCGCCACCGCGAACGACGGTACGCGCGCGGCCGGGCTGTCCGGCTACCAAGCGTCGGTGGACTACGTGAAGCAGACGCTGGAGCAGGCCGGCTATCAGGTCAAGCTGCAGTCCTTCCCGTTCACCGCGTTCTATCCGCAAGGCCCCGGCGAACTGGCAGCCGTACTGCCGACGCCGGAGACCTACGAATGGGACGTGGACTTCACCTACCTGTCGCAAACCGAACCCGGCGACATCACCGGCAACGTGGTACCGGTGGACCTGGCGCTCGGCCCGGACAACGCGTCCAGCAGCGGTTGTGAAGCCGAGGACTTCAGCAGCTTCCCCGCCGGTTCCATCGCCCTGATCCAGCGCGGCACCTGCAACTTCGAGCAGAAGGCCGAGAACGCCGCGGCGGCCGGTGCCATCGGCGTGATCATCTTCAACCAGGGCAACACCGAGGACCGCAAGGATCTGATCAACGCCACCCTGGGCGATGGTTACGAAGGGGGCATCCCGGCCGTGTTCGCCACCTACGATAACGGCGTGGCCTGGGCCAGCACCGAAGGCCTGCAGTTGCACCTGGTGGTCGACGTGGTGCGCGAGCAGACCGAAACCTTCAACGTGATCGCCGAGACCCGTCGGGGCAACCCGAACAACGTAGTAATGGTCGGCGCCCACCTGGACTCGGTGTTCGAAGGCCCCGGCATCAACGACAACGGCTCGGGCAGTGCCGCCGTCCTGGAAATGGCCCTGCAGATGCGCAAGGCCCATCCGCGCAACAAAGTCCGTTTCGCCTGGTGGGGTGCCGAAGAGTCCGGCCTGGTCGGCTCGACCTACTACGTGAACAACCTCAGCGAGGAAGAGAAGAAGAAGATCAAGGTCTACCTGAACTTCGACATGATCGCCTCGCCGAACTTCGCGTACTTCATCTACGACGGCGACGGCTCCGACTTCGGCCTGGAAGGCCCGCCCGGGTCCGCCGCGGTAGAGAAGCTGTTCGAGACCTACTACCAGCTCCGCGGCCTGCCGTACGAGGGCGACGAGATCACCTTCCGTTCCGACTACGCGCAGTTCTTCCTGGACGGCATCGCCTTCGGCGGCCTGTTCACCGGCGCGGAAGTGGTCAAGACAGAAGAACAGGCAGCCAGGTACGGCGGTGAAGCGGGCGTCGCCTTCGACCCCTGCTACCACCAGGCCTGCGACGACATCACCAACCTGGACCAACGGGCGTTGGAGATCAACGGTGACGCCATGGCTTTCGCCACCAGCTGGTTCTCGCTGTCGACCAAACTCATCGACGACGAGATCGCCGGCTCGGCCGGTACCGCCGCTCGCGCGCTCAGCTCCCAGCAGTCCTACGACATCACCCACTGGGGTAAACACTGGGTCAAATGA	MSNKNKTLRVVCSTLAFSLSTTLYAAPPLETDLFNEFWSPSRPDPSGCNSILLNNTPIGLPRCMQASKIMNHLQALQDIATANDGTRAAGLSGYQASVDYVKQTLEQAGYQVKLQSFPFTAFYPQGPGELAAVLPTPETYEWDVDFTYLSQTEPGDITGNVVPVDLALGPDNASSSGCEAEDFSSFPAGSIALIQRGTCNFEQKAENAAAAGAIGVIIFNQGNTEDRKDLINATLGDGYEGGIPAVFATYDNGVAWASTEGLQLHLVVDVVREQTETFNVIAETRRGNPNNVVMVGAHLDSVFEGPGINDNGSGSAAVLEMALQMRKAHPRNKVRFAWWGAEESGLVGSTYYVNNLSEEEKKKIKVYLNFDMIASPNFAYFIYDGDGSDFGLEGPPGSAAVEKLFETYYQLRGLPYEGDEITFRSDYAQFFLDGIAFGGLFTGAEVVKTEEQAARYGGEAGVAFDPCYHQACDDITNLDQRALEINGDAMAFATSWFSLSTKLIDDEIAGSAGTAARALSSQQSYDITHWGKHWVK				NA	NA	NA	NA	NA
BMS010_08699	759			hypothetical protein	ATGCGATTCCTTTCCGCCATGCGGCTGGCCGCCTGTCTGTTCGGCCTGCTGCTCGGCTCCCCGGTACTGGCACGCGAGTGGCTGGCGGTAGGGGCGCAGTTTCCCGGCGTGTTCGAGCGGACCACGGCGGGCGAATACCAGGGCCTGGCGCCCGATCTGCTGCGTGCGGCCATGGCACGCCTTGGCGACACGGTCCGCTTCGAGCGCCATCCCTGGTTGCGTGCCCAGCAGATGGTGGAGCAGGGGCATGCCGATATCCTCATCGGCCCCTATTGGACGGCGGAGCGGGAGAAGCGCTTCGCCTATGGCCGTCATCCGTTCTATCAGGACCGCATCGTCTTCTATGCCCGCCTCGATGCGAAGACTGGTTGGAAGGGCGACCTGGCCGCCCTGAGCGACCGGGAGATCGCGGTGGTGCGCGGCTGGACCTACGGCGAGCGCTTCGAAAATGCCCGTCCGCAGCTCGATCTGGTGATGGTCGGCAGCGTGGAGAACGGGTTGCGCATGCTCAGCATCGGGCGGGTCGGCCTGCTCGCCAGCAACGAGCGCAACACCGTGCCTGTGCTGATGTCCCTGAAGCTGAATACCCGTATCGCCAGGCTCGAGCCGATCATCGATACCCAGCGGGGCTACTTCGCCTTCACCCGTGACACTACGGGCGATGCCCTACGCGCCAGGTTCGATCGCGCGTTCGATGCCCTGGTGGCGGACGGTACCCTGGCCCGGTTGGCGAAGAAGCATGGGGTGGAGACGCCTTGA	MRFLSAMRLAACLFGLLLGSPVLAREWLAVGAQFPGVFERTTAGEYQGLAPDLLRAAMARLGDTVRFERHPWLRAQQMVEQGHADILIGPYWTAEREKRFAYGRHPFYQDRIVFYARLDAKTGWKGDLAALSDREIAVVRGWTYGERFENARPQLDLVMVGSVENGLRMLSIGRVGLLASNERNTVPVLMSLKLNTRIARLEPIIDTQRGYFAFTRDTTGDALRARFDRAFDALVADGTLARLAKKHGVETP	PGPT0020800_14372	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_08700	207			hypothetical protein	ATGCGAACTCCCTTATTGCTGGCTGCGCTGCTGGGCGCTCTGCTGGTGGGCTGCGACAAGAAGGACGAGCCCGCGCAGAGCCCGAGCACTCCGCCGCCGAGCACAACCGAGCAGCCGACCACGCCGCCGACCACTCCCCCACCACCGCCGGAGCAGCCGCAAGGCACCGGGACCGGCACTGGCACCGGGACCGGGCAGAGCCAGTAG	MRTPLLLAALLGALLVGCDKKDEPAQSPSTPPPSTTEQPTTPPTTPPPPPEQPQGTGTGTGTGTGQSQ				NA	NA	NA	NA	NA
BMS010_08701	465			hypothetical protein	ATGCGTATGGCGGCAACCCTGCAACGCAGCCTTGAGGGCTCCGGATGCCAGTTCGAACTGGTATCCCACCCGCATTCGGCGACCAGCCTGGAATCGGCACGGACAGCCGGAATACCGGCGGATCGCCTGGCCAAGTCGGTGGTGTTGGACGACCGTCGCGGCCATTTCCTGATGGCCGTGGTGCCGGCCAACCGGCATCTGGATCTGAGCAAGGTGCGCAAGGATTCGCGCAAGTGGCAACTGACCAGCGAATACCGGATCGGCAGCCTGTTCAAGGATTGCGAGCGCGGCGCGGTCCCGGCCGTCGGCGAGGCCTACGGGATGAACATGCTGATCGACCCGATGCTGACCCGGCAGCAGGACATCTATCTGGAAGCGGGAGACCACGAGAACCTGGTGCACATGCGCATGGACCAGTTCCTCAAGCTCGCGCCGCACGCCGAAGTGTGCGAACTGAGCCAGTGA	MRMAATLQRSLEGSGCQFELVSHPHSATSLESARTAGIPADRLAKSVVLDDRRGHFLMAVVPANRHLDLSKVRKDSRKWQLTSEYRIGSLFKDCERGAVPAVGEAYGMNMLIDPMLTRQQDIYLEAGDHENLVHMRMDQFLKLAPHAEVCELSQ				NA	NA	NA	NA	NA
BMS010_08702	771			hypothetical protein	ATGTTTTCGTCGCGCACCGGCGCCTTGCTGCTGTTGCTGTTGTTACCCGCCGGGGCGTGGGCGGACAAGCTGCGGCTGGTGGGTGACATCTGGCCTCCCTACACCGACCAGTCGCTGCCCCACGGCGGTCTGGCCGTGGAGCTGGTGAGCACGGCGCTGGAGCGTGCCGGCTACGCCAGCGAGTACATGGAAATGCCTTGGGCGCGAGCCCTGCATGGTATCGGCAACGGCAGTTATGACGTGCTGGTCTGCGCCTGGCATTCCCGCGAGCGGGAGGCGATCGGAGCGTTCTCGGCACCCTACCTGACCAATCGGATTCTGTTCCTCCAGCGCAAGGACAACCCCGTCCGCTACCGCCGGCTGGACGACCTGCTGGCGCTGGACATCGCCGTGGTGCGCGGCTATGCCTACGACCGCCATTTCGACAGCCATGAGCGGCTGCGCAAGGTGCCGGTGCTGGGCTTCGACAATGCCCTGCACATGCTCTATGCCGGACGGGTGGCCCTCGCCCTGGACGACGAGCGGGTGGCGCGCTTTCGCTTGTCCCGCGAGTCGCCCCGCCTGCAAGCGGCGCTGGAGTTCCTGCCCAGACCGCTGAGCGAGAACCCGCTGCATATCCTGGTCAGTCGTCACCGCACCGACCATGCCCGCATCGTCGCTGCCTTCGACCGGGCGCTGGCCGGGATGCGTGCCGACGGCACCTACGCGAAGCTGCTGCGTGCCTGGGAGAGGGACGGCAATAGCGGCCTGCGGACCACGGCGCGCCCCTGA	MFSSRTGALLLLLLLPAGAWADKLRLVGDIWPPYTDQSLPHGGLAVELVSTALERAGYASEYMEMPWARALHGIGNGSYDVLVCAWHSREREAIGAFSAPYLTNRILFLQRKDNPVRYRRLDDLLALDIAVVRGYAYDRHFDSHERLRKVPVLGFDNALHMLYAGRVALALDDERVARFRLSRESPRLQAALEFLPRPLSENPLHILVSRHRTDHARIVAAFDRALAGMRADGTYAKLLRAWERDGNSGLRTTARP	PGPT0020800_15530	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_08703	1398			hypothetical protein	ATGAGCATTCCACCTGCCCGTAACCGTCTGGCGCTCGCCAGCGGTCTGGCGCTTGCCGTGATCGCCGGTGCCGGTCATGGCGCCGAACCGGAGAAGCCATCCAGCTACATCCCGGTGGTCGAGGAGGATTTCGACACCGTGTTCAAACGCATGTCGGCGGACAAGCCGAAAGTCATGCAGAAGCAGAAAGCGCTGCTGGAGGAGCGCTACGACCTCGCCGACAAACCGGCCGACGGTGTCACCATGACACGCGGCAAGCCGGTGCAGGCGGGGATCAGGGTCAAGCTGCCGAAGGGCACGACCTGGGACGAACTGGCGAAGATGAGCCCGGACCAGATTCGCGAGAAGAAACTCTTCCCCGCCGGCTTCCTGCCCCTGCCCCATCCGAACCACGCTGAAGGCGGGATGGTCTTCCCGCACTTCCAGATCGATGAGATCAACAAGCAGCAACAGCGCGACCTGACTCGCTTCGACCTGGATTTTGACCTGCCGGATCACTTCCTGCCCGAGTTCCCGGCGCCGATCTTCCTCACCACCCGGCCGGACCTGGGCGACGTTTCCCAGGGCAAGCTGGTGACCCTGTCCAACTACTACGAGCTGTTCAACGGCATCCTCAATCCCAAGCAGATCGAGGGCCTGCGCCTGCTCGTCACGCCCTTCATGCAGCAGCAGTTCAACGCCACTGCCGACCGCCGCAGCGAGAAACCCAGCTTCGGCGTGGCCTGCTTCGATTGCCACGCCAACGGCCACACCAACGCGGCCACTCACCTGGTCGGCGACATTCGCCCGCAGGCGCTGCGCCACCGCATCGACACGCCATCGCTGCGTGGGGTGAACATCCAGCGCCTGTTCGGTTCGCAGCGCGCCCTGAAGACGGTGGAGGACTTCACCGAATTCGAGCAACGCGCCGCCTACTTCGATGGCGACCCGGTGATCGCCACCAAGAAAGGCGTGAACATCCTCGAGCGCGGCAGCCAGGTGCACTTCATGGGCGAGTTCCAGGCGCTGCTCGACTTCCCGCCCGCGCCCAAGCTGGACATCGAGGGCAAACTGGACCCGAGCAAGGCCACCGAACAGGAAATGCGCGGCCAGGAACTGTTCTTCGGCAAGGCCGCCTGCGCCGGTTGTCATGTGCCGCCGTACTACACCGACAACCTGATGCATAACCTGAAGACCGAGCGCTTCTTCGAGCCGCAGACGATCAACGGCCGACTGGCCAAGGCCGACGGCCCGATCAAGACCTTCCCGCTGCGCGGCATCAAGGACTCGCCGCCGTACCTGCACGACGACCGCCTGCTGACCCTGGACGACACCGTGGAGTTCTTCAACTTGGTGCTGCAACGCGGTCTCAGCGAGTCGGAAAAGGCCGATCTGGTGGCGTTCCTGAGGACGCTCTAG	MSIPPARNRLALASGLALAVIAGAGHGAEPEKPSSYIPVVEEDFDTVFKRMSADKPKVMQKQKALLEERYDLADKPADGVTMTRGKPVQAGIRVKLPKGTTWDELAKMSPDQIREKKLFPAGFLPLPHPNHAEGGMVFPHFQIDEINKQQQRDLTRFDLDFDLPDHFLPEFPAPIFLTTRPDLGDVSQGKLVTLSNYYELFNGILNPKQIEGLRLLVTPFMQQQFNATADRRSEKPSFGVACFDCHANGHTNAATHLVGDIRPQALRHRIDTPSLRGVNIQRLFGSQRALKTVEDFTEFEQRAAYFDGDPVIATKKGVNILERGSQVHFMGEFQALLDFPPAPKLDIEGKLDPSKATEQEMRGQELFFGKAACAGCHVPPYYTDNLMHNLKTERFFEPQTINGRLAKADGPIKTFPLRGIKDSPPYLHDDRLLTLDDTVEFFNLVLQRGLSESEKADLVAFLRTL				NA	NA	NA	NA	NA
BMS010_08704	1386			hypothetical protein	ATGAATCGCCTGATCCCGCGCATCATGCTGTGTCTGGCGCTGCTGGCGCCGGCCGCGGCGACCATGGCCGCCGGCGCGGTGAGCGTGCTGACGGTGAACGGCCCGATCGGCCCGGCCAGCGCCGACTACCTGGTGCGCGGGCTGGCCCGCGCAGTGGACGAGGGCGCCCAGTTGGTGGTGATCAACATCGACACCCCCGGCGGCCTGGATACCTCGATGCGCGACATCATCAAGGCGATCCTCGCCAGTCCCGTGCCGGTGGCCAGCTACGTGTCGCCCAGCGGGGCACGGGCCGCCAGCGCCGGCACCTACATCCTCTATGCCAGCCATATCGCCGCCATGGCCCCGGGTACCAACCTGGGTGCGGCGACCCCGGTGCAGATCGGCGGCATGCCCGGCGCGCCGCCCGAACAGCCGGAAGATCCCGATGACCCGCAACGCCAGCGTGGCCAGCCGAGCGCTCCCGAGTCCGGCGATGCGCTGACGCGCAAGCAGGTCAACGATGCCGCTGCCTATATCCGTGGCCTGGCGCAGATGCGCGGGCGTAACGCCGATTGGGCCGAGCGGGCGGTGCGCGAGGCGGTCAGCCTGTCCGCCGACGAAGCGCTGCGGCTCAAGGTGGTGGACTACCGGGCGCGGGACCTCAACGACCTGCTGCGGCAACTGGACGGCAAGACGCTGAGCGCCGCCGGCCAGGACCTGACGCTGCGTACCGCCGGTGCCGCGCTGATCCACCATGAGCCGGACTGGCGCACCCGCCTGTTGGCGGTGATCACCAACCCCAGCGTGGCGCTGATCCTGATGATGCTGGGCATCTACGGTCTGTTCTTCGAATTCACCAACCCCGGTCTCGGCATCGGCGGTGTGCTCGGCGGCATCTGCCTGATCCTCGCGCTCTATTCGCTGCAACTGCTGCCGGTGAGCTATGCCGGAGTAGGGCTGATCCTGCTTGGCCTCGCCTTCATGGTGGCCGAAGCCTTCCTGCCCAGCTTCGGCGTGCTCGGCATCGGTGGGGTGGTGGCGTTCGTGGTCGGCGCGGTAATCCTGATCGATACCGAAGTCCCTGGCTTCGGTATTCCGCTGCCGCTGATCGTCAGCGTGGCGGTGGTCAGCGCGGTATTGATCGCGGCGCTGGTGGGAATGGCGCTGAAGGCGCGCCGGCGGGTGCTGGTCAGCGGCGACGCCGGGCTGGTCGGCAGTCGGGTGGCGGTGGACGCGGTGCAGGCGGACGACCCCCGCAGCGGCTGGGTCCGCTTGCAGGGCGAGCGCTGGCGGGTGTCGAGCGAGGCGCCGTTGCGGGCCGGTCAGACGGTGCGGGTGCTGGCGCGAGACGGTGTTCTTCTACAGGTGACCGCGGCCGACGACGGGCCAGCGGGAGGAGGTTGA	MNRLIPRIMLCLALLAPAAATMAAGAVSVLTVNGPIGPASADYLVRGLARAVDEGAQLVVINIDTPGGLDTSMRDIIKAILASPVPVASYVSPSGARAASAGTYILYASHIAAMAPGTNLGAATPVQIGGMPGAPPEQPEDPDDPQRQRGQPSAPESGDALTRKQVNDAAAYIRGLAQMRGRNADWAERAVREAVSLSADEALRLKVVDYRARDLNDLLRQLDGKTLSAAGQDLTLRTAGAALIHHEPDWRTRLLAVITNPSVALILMMLGIYGLFFEFTNPGLGIGGVLGGICLILALYSLQLLPVSYAGVGLILLGLAFMVAEAFLPSFGVLGIGGVVAFVVGAVILIDTEVPGFGIPLPLIVSVAVVSAVLIAALVGMALKARRRVLVSGDAGLVGSRVAVDAVQADDPRSGWVRLQGERWRVSSEAPLRAGQTVRVLARDGVLLQVTAADDGPAGGG				NA	NA	NA	NA	NA
BMS010_08705	765			hypothetical protein	ATGATCGGTTTCCAATTGAGTTTCGGATTCCTCGCGGCGCTGGTACTCGCCCTGCTGGTTTCGGCGTTCCGTATCCTGCGCGAATACGAACGGGGCGTGGTGTTCCAGCTTGGCCGCTTCTGGCGGGTCAAGGGGCCCGGGCTGGTCATCATCATCCCGGGCATCCAGCAGATGGTACGGGTCGACCTGCGCACCCTGGTGCTGGACGTACCGACCCAGGACGTGATCTCCCGCGACAACGTCTCGGTGAAGGTCAACGCGGTGGTCTACTACCGGGTGCTCGACCCTCAGCGGGCGATCATCCAAGTCGAGGATTACCACTCGGCCACCAGCCAGTTGGCGCAGACCACCCTGCGCGCGGTGCTGGGCAAGCACGACCTCGACGACATGCTGGCCGAGCGCGAGCAGCTCAACGGCGACATCCAACAGGTGCTGGACGCGCAGACCGACGCCTGGGGCATCAAGGTCTCCAACGTGGAGATCAAGCACGTCGACCTGGACGAATCCATGATCCGCGCCATCGCCCGCCAGGCGGAGGCCGAGCGCGAGCGGCGGGCCAAGGTGATCCACGCCGAGGGCGAGCTGCAGGCCTCCGAGAAGCTGATGCAGGCCGCCGAAATGCTCGGCCGTCAGCCCGGCGCCATGCAGCTGCGCTACATGCAGACGCTGGGATCGATCGCCGGCGACAAAAGCTCGACCATCGTCTTCCCGTTGCCCATCGAGTTGCTGAAAGGCATGACCATCGCGCCCGAGGGACCGAAGTGA	MIGFQLSFGFLAALVLALLVSAFRILREYERGVVFQLGRFWRVKGPGLVIIIPGIQQMVRVDLRTLVLDVPTQDVISRDNVSVKVNAVVYYRVLDPQRAIIQVEDYHSATSQLAQTTLRAVLGKHDLDDMLAEREQLNGDIQQVLDAQTDAWGIKVSNVEIKHVDLDESMIRAIARQAEAERERRAKVIHAEGELQASEKLMQAAEMLGRQPGAMQLRYMQTLGSIAGDKSSTIVFPLPIELLKGMTIAPEGPK				NA	NA	NA	NA	NA
BMS010_08706	1122	ald_2	COG0686	Alanine dehydrogenase	ATGCGTATTGGCGTCCCGAAGGAAATCAAGAACCATGAATACCGCGTCGGTCTGACCCCGCAATCCATCGCCGAACTGACCGGGCTCGGTCATGAAGTCTCGGTGCAGACCCAGGCCGGCGCGGCCATCGGCTTCTTCGACGAGGACTACCAGGCCGCCGGCGCGCGGATCGCCCGCGATGCCGACGAGGTGTTCGACGTCGCCGAGCTGATCGTCAAGGTTAAGGAGCCATTGGCCGAAGAACGCGCCCGTCTGCGTCCGGAACACACCCTGTTCACCTACCTGCATCTGGCCCCGGACCGCGCCCAGACCGACGAGCTGATCGCCTCGGGCGCCGTCTGCATCGCCTACGAGACCGTCACCGATACCCAGGGCCGCCTGCCGTTGCTGGCGCCGATGTCCGAAGTGGCCGGGCGCATGTCGATCCAGGCCGGCGCCACCTGCCTGGAGAAAGCCCGTGGCGGGCGCGGCGTGCTGCTAGGCGGGGTGCCCGGCGTGCCGGCGGGCAAGGTGGTGATCCTCGGTGGCGGCGTGGTCGGCAGCCACGCCTTGGCCATGGCCGTGGGCCTGGGCGCCGACGTCACCGTGCTGGACAAGAGCGTCGATGCCCTGCGCCGGCTGGATGCGCAGTACGGCAATCGCATCACCACGCTCTATTCCACCCGCAGCGCGGTACGCGAGCAGGTGCTGGCGGCGGACCTGGTGATCGGCGCGGTGCTGATTCCCGGTGCCTCGGCGCCCAAGCTGATCAGCGCCGAGATGGTCAGCCTGATGAAACCCGGCGCGGTGCTGGTGGACGTGGCCATCGACCAGGGCGGTTGCTCCGAGACGTCCAAACCCACCACCCACGACAAGCCCACCTACCTGGTCGACGAAGTGGTGCACTACTGCGTCGCCAACATGCCCGGCGGGGTGGCGCGCACCTCCACCCTGGCGCTGAACAACGCGACCCTGCCATTTGTCGTGGCTTTGGCCGAGAAAGGTACCCGCCGCGCCCTGGAGGGCGACCCGCATTTGCTCAACGGCCTCAACGTCGCGCGGGGGCTGATCACCTGCGCCAGCGTGGCGGACGCCCACGGCCTGCCGCATCAGCCTCCGGGCGCGGTGCTCGCCGAGTTGTGA	MRIGVPKEIKNHEYRVGLTPQSIAELTGLGHEVSVQTQAGAAIGFFDEDYQAAGARIARDADEVFDVAELIVKVKEPLAEERARLRPEHTLFTYLHLAPDRAQTDELIASGAVCIAYETVTDTQGRLPLLAPMSEVAGRMSIQAGATCLEKARGGRGVLLGGVPGVPAGKVVILGGGVVGSHALAMAVGLGADVTVLDKSVDALRRLDAQYGNRITTLYSTRSAVREQVLAADLVIGAVLIPGASAPKLISAEMVSLMKPGAVLVDVAIDQGGCSETSKPTTHDKPTYLVDEVVHYCVANMPGGVARTSTLALNNATLPFVVALAEKGTRRALEGDPHLLNGLNVARGLITCASVADAHGLPHQPPGAVLAEL	PGPT0020070_1198	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ALANINE_DEGRADATION,PGPT0020070-ald-K00259	NA	NA
BMS010_08707	654	pcaH_3	COG3485	Protocatechuate 3,4-dioxygenase beta chain	ATGCCGGGGCCGGATGCACTTCGCCGCAGGCTGCTGCAGGGCCTCGGCTGCGCCGGCCTCGCGTTGGCGGCGCCCGGTGTCTTCGCCGAGCTGCTGCTGACGCCCCGGCAGACCCAGGGCCCGTTCTACCCGGACGCGCTGCCGCTGGACCGCGACAACGACCTGATCCTCGTCGATGACCGGCTCACCCCGGCCATCGGCCAGATCGTCCATCTCCACGGTCGTCTGCTCGATGCCCGCGGCTTGCCGCTCAACCGTACGCTGATCGAAATCTGGCAGGTAGACGGCAACGGCCAGTACCTGCACAGCCGGGGCGGCGATCCGGCGCGGCGCGACGGCAACTTCCAGGGCTACGGTCGGTTCGAAACCGGCCGCGACGGGGCCTACCGCTTCCGCACCATTCGCCCGGTGCCCTATCCGGGGCGCACGCCGCACATCCACGTGGCCGTCACCCCACCCGGCCAGCCGCGCTTCACCACCCAGTGCTACGTCCGTGGCGAACCGCTGAACGCGCGCGACGGCATCCTCAACGCCATCCGCGATCCCCGCGCACGGGACAGCCTGATCGTCGACTTCGCACCGCTGCCGGATTCACCCAGTGGTGAATTGAGCGCGCGCTTCGACATCGTCCTCGGACTCACCGCCGCCCAATGA	MPGPDALRRRLLQGLGCAGLALAAPGVFAELLLTPRQTQGPFYPDALPLDRDNDLILVDDRLTPAIGQIVHLHGRLLDARGLPLNRTLIEIWQVDGNGQYLHSRGGDPARRDGNFQGYGRFETGRDGAYRFRTIRPVPYPGRTPHIHVAVTPPGQPRFTTQCYVRGEPLNARDGILNAIRDPRARDSLIVDFAPLPDSPSGELSARFDIVLGLTAAQ	PGPT0005015_959	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005015-pcaH-K00449	NA	NA
BMS010_08708	189			hypothetical protein	ATGCGCAGCACACCGATCCTCCTCACCACCCTGCTCGGCCTGCTGCTGACGGGGTGCGACAAACCGCCGGAAGAGCAGCAACGCGACAGCATGAGCGGCCCACAGGAAAGCCCGCAGCAATACCAGGACACCGTGGCCGAACCGCCGTTGGAAGAGCGCCCGGGGAGTGGGACGGGCGAGCGGGAATAG	MRSTPILLTTLLGLLLTGCDKPPEEQQRDSMSGPQESPQQYQDTVAEPPLEERPGSGTGERE				NA	NA	NA	NA	NA
BMS010_08709	1182		COG2081	putative protein	GTGCTCCCTTCTTCCGATGTCGTCATTCTCGGCGCCGGCGCCGCCGGCCTGATGTGTGCCTTCACCGCCGCCCAGCGCGGCCGCCGGGTGCTGCTGCTCGATCACGCCAACAAGGCCGGCAAGAAAATCCTCATGTCCGGCGGTGGGCGTTGCAACTTCACCAACCTGTACACCGAACCGGCCAATTTCCTCTCGCGCAACCCGCACTTCTGCAAGTCGGCCCTGGCCCGCTTCACCCAGTGGGATTTCATCGGCCTGGTGGGCAAGCACGGCATCCCGTACCACGAGAAAAAGCTCGGCCAACTGTTCTGCGATCACAAATCCAGCGACATCCTCGAGATGCTGCTGAAGGAATGCGCCGAGGCCGGCGTCGACCTGCGCCTGAACACCTCCATCGAGCGGATCGAAAAGACCGACGGCGGCTACCGCCTAGACACCAGCGCCGGTCCGGTGGACTGCCAGTCCCTGGTGATCGCCACCGGCGGCCTGTCGATCCCCACCCTTGGCGCCACCGGCTTCGGCTACCAAGTCGCCCGCCAGTTCGGCCACGACGTGCTGCCAACCCACGCCGGACTGGTGCCCTTCACCATCACCGATCAGTTGAAGGCGATGTGCAGCGAACTGTCTGGCACCTCGGTGGATTGCCGGGTGAGCTGCAACGGCCAGAGCTTCCGCGAGAACATCCTGTTCACTCACCGTGGCCTCAGCGGCCCGGCGATCCTGCAGATTTCCTCCTACTGGCAGCCGGGCGACGAAGTGGAAATCGACCTGCTGCCGGACCGCGACGCCGCCGACTGGCTGGCCGAGCAACAGGCCGCGCGACCTAACACCGAACTGAAGACGCTGCTCGCCGAGTGCTTCACCAAGAAGCTGGCGAGCCTGCTGGCCGAGCACTGGTTCGTCTCGAAACCGCTGAAGCAGTACACCCCGGCCGAACTGAACACCATTGCCCAACGCCTCTCCGCCTGGACCCTGGTACCCGCCGGCACCGAAGGCTACCGCACCGCCGAAGTCACCCTGGGCGGGGTGAGCACGGACGAGGTGTCGTCCAAGACCTTCGAATCCCAGCGCTCGCCGGGGCTGTACTTCATCGGCGAAGTGCTCGACGTCACCGGCCACCTCGGCGGCTTCAACTTTCAATGGGCCTGGGCTTCGGGGCACGCGGCCGGAGAGTACGTCTGA	MLPSSDVVILGAGAAGLMCAFTAAQRGRRVLLLDHANKAGKKILMSGGGRCNFTNLYTEPANFLSRNPHFCKSALARFTQWDFIGLVGKHGIPYHEKKLGQLFCDHKSSDILEMLLKECAEAGVDLRLNTSIERIEKTDGGYRLDTSAGPVDCQSLVIATGGLSIPTLGATGFGYQVARQFGHDVLPTHAGLVPFTITDQLKAMCSELSGTSVDCRVSCNGQSFRENILFTHRGLSGPAILQISSYWQPGDEVEIDLLPDRDAADWLAEQQAARPNTELKTLLAECFTKKLASLLAEHWFVSKPLKQYTPAELNTIAQRLSAWTLVPAGTEGYRTAEVTLGGVSTDEVSSKTFESQRSPGLYFIGEVLDVTGHLGGFNFQWAWASGHAAGEYV				NA	NA	NA	NA	NA
BMS010_08710	2184	yccS	COG1289	Inner membrane protein YccS	ATGCTTTCACCTTCGTTCCGGCAATCCCTGCGCCGTCTCTGGGCACTGGACAAGTTCGGCTACAGCCTGCGGGTCTTCGTCGCCCTGGCCGGAGCCATGGCGCTCGGCTGGTGGCAGGACCAGATGGACATGGTCATCCCGCTGTTCCTCGGCATCATCGCCAGCGCCCTGGCGGAAACCGACGACAGTTGGCTCGGCCGCCTCAGCGCATTGCTGGTCACCCTGTTCTGCTTCAGCGTGGCGGCGCTGGCGGTGGAGCTGCTGTTCCCCTACCCCTGGCTGTTCGTCGCCGGCTTGGCCCTGGCCACCTTCGGCCTGGTGATGCTCGGCGCCCTCGGCGAGCGCTACGCGGCCATCGCCTCGGCCACCCTTATCCTTTCCATCTACAGCATGATCGGCGTCGACCAGCGCGGCGGCGTGACCGGCGACCTGTGGCGCGAACCCCTGCTGCTGGTGGGCGGTGCCGCCTGGTACGGCGCGCTCTCGGTGTTGTGGAACGCGCTGTTCGCGCACCAGCCGGTGCAGCAGAGCCTGGCCCGGCTGTACCGCGAGCTGGGCCTGTACCTGAAGCTCAAGGCCGCGCTGCTCGAACCGCTGCGCCAACTCGACCTGGAAGCCCGCCGCCTGGAACTGGCGCGGCAGAACGGCAAGGTGGTCTCGGCGCTGAACGCGGCCAAGGAGACCATCCTCAACCGCATCGGCAGCAGCCGTCCGGGACCGAAGGTGAACCGCTACCTGAAGCTGTATTTCATGGCCCAGGACATCCACGAGCGCGCCAGCTCCTCGCACTACCCGTACAACGCCCTGGCCGAGGCCTTTTTCCACAGCGACGTGCTGTTCCGCTGCCAACGCCTGCTCAAGCTGCAAGCCCGTGCCTGCCGTGAGCTGGGCGAGGCCATCCAGCTACGCCAGCCGTTCGACTATGGCGAGGCCAGCGCCCAGGCGATGGAGGACCTGCACGCCTCGATCGACTACCTGCGCCAGCAGAACAACCCGGCCTGGCGCGGCCTGCTGCGCTCGCTGAACGCGCTGTCGGGCAACCTCGCCACCCTGGAGCGGCAACTGGCCGGGGCCAGCAACCCCGACGCCCTCGCCGAGGAGCAGGACAGCAGCCTGCTCGACCGCTACCCGCGCTCGCTGCGCGAAGCCATCGAGCGCATCCGCCTGCAACTGACGCCCACCTCGCTGCTGTTCCGCCACGCCCTGCGCATGGCCGTGGCGCTGGCCACCGGTTACGGCGTGCTGCACCTGATCCACCCGACCCAGGGGTACTGGATCCTGCTAACCACGGTGTTCGTCTGCCAGCCCAACTATGGCGCCACACGGATCAAGCTGGTGCAGCGGATCAGCGGCACCATGCTCGGCCTGGTCGCCGGCTGGGCGCTGTTCGAGCTGTTCCCCAGCCCGCTGGTGCAATCCCTCATCGCGGTGGTCGCCGGGGTGGTCTTCTTCGCCACCCGCACCACCCGCTACACCCTGGCCACGGCGGCGATCACCCTGCTGGTGCTGTTCTGTTTCAACCAGGTGGGCGACGGCTACGGGCTGATCTGGCCGCGTCTGGTCGATACCCTGCTCGGCAGCCTGATCGCCGGTGCCGCGGTATTCCTCATCCTGCCGGACTGGCAGGGTCGCCGGCTCAACCAAGTGGTGGCCAACACCCTCAGTTGCAGCAGCCTCTACCTGCGGCAGATCATCCAGCAGTACCACAGCGGCAAGCGCGACGACCTGGCCTACCGCCTGGCCCGGCGCAACGCCCACAACGCCGACGCGGCGCTCTCCACCACGCTGTCCAACATGCTGCTGGAGCCTGGCCACTTCCGGAAGGAGGCGGAGACCGGCTTCCGCTTCCTGGTGCTGTCGCACACCCTGCTGAGCTACCTCTCGGCCCTCGGCGCCCACCGCGAAAGCCTGCCCGCCGACACCAGCGACGCCCTCATCGACCGCGCCGCCGAGCACCTGACCCGGACTCTCGACCAGTTGGCCCAGAGCCTGATCGACAAGCACCCGGTGGCCATCTACAGCGACGAGGAAGAGTCCCTGGCCAAGGAGCTGGAGCAGATGCCCGAGGAACTGGACGACGGCCACCGCCTGCTGCAAACCCAACTCGCCCTGATCTGCCGCCAGCTCGCGCCGCTGCGCAGCATGGCCAGCCACCTGCTCAAGCAGGAACAGGCGGCGGCCTGA	MLSPSFRQSLRRLWALDKFGYSLRVFVALAGAMALGWWQDQMDMVIPLFLGIIASALAETDDSWLGRLSALLVTLFCFSVAALAVELLFPYPWLFVAGLALATFGLVMLGALGERYAAIASATLILSIYSMIGVDQRGGVTGDLWREPLLLVGGAAWYGALSVLWNALFAHQPVQQSLARLYRELGLYLKLKAALLEPLRQLDLEARRLELARQNGKVVSALNAAKETILNRIGSSRPGPKVNRYLKLYFMAQDIHERASSSHYPYNALAEAFFHSDVLFRCQRLLKLQARACRELGEAIQLRQPFDYGEASAQAMEDLHASIDYLRQQNNPAWRGLLRSLNALSGNLATLERQLAGASNPDALAEEQDSSLLDRYPRSLREAIERIRLQLTPTSLLFRHALRMAVALATGYGVLHLIHPTQGYWILLTTVFVCQPNYGATRIKLVQRISGTMLGLVAGWALFELFPSPLVQSLIAVVAGVVFFATRTTRYTLATAAITLLVLFCFNQVGDGYGLIWPRLVDTLLGSLIAGAAVFLILPDWQGRRLNQVVANTLSCSSLYLRQIIQQYHSGKRDDLAYRLARRNAHNADAALSTTLSNMLLEPGHFRKEAETGFRFLVLSHTLLSYLSALGAHRESLPADTSDALIDRAAEHLTRTLDQLAQSLIDKHPVAIYSDEEESLAKELEQMPEELDDGHRLLQTQLALICRQLAPLRSMASHLLKQEQAAA				NA	NA	NA	NA	NA
BMS010_08711	1377	dbpA	COG0513	ATP-dependent RNA helicase DbpA	GTGACCGCCGCCTTCGCCTCCCTGCCGCTCTCCGCCGCCATGCTGGCCAACCTCGACGCCCTCGGTTACACCGAGATGACGCCGATCCAGGCACAGAGCCTGCCGCTCATGCTCAAGGGCCAGGACCTGATCGCCCAGGCCAAGACCGGCAGCGGCAAGACCGCCGCCTTCGGCATCGCCCTGCTCGCCCCGCTGAATCCGCGCTTCTTCGGCTGCCAGGCGCTGGTGCTCTGCCCGACCCGCGAGCTGGCCGACCAGGTGGCCAAGGAGATCCGCCGCCTGGCCCGCGCCGCCGACAACATCAAGGTCCTCACCCTCTGTGGCGGGGTGCCGTTCGGGCCGCAGGTCGGTTCGCTGGAACACGGCGCCCACGTCATCGTCGGCACGCCGGGGCGGGTGCAGGAGCACCTGCGCAAGGGCACCCTGACACTGGACGGCCTCAATACCCTGGTGCTGGACGAAGCCGACCGCATGCTGGACATGGGCTTCTACGATTCCATCGCCGACATCATCGGCCAGACCCCGGCGCGCCGGCAGACGCTGCTGTTCTCCGCCACCTACCCGGCCGGAATCGAGCAGCTCGCCGCCACCTTCATGAAGGCACCGCAGCGCGTACAAGTGGAAGCCCTGCACGACGACGGCCAGATCGAGCAGCGCTTCTACGAGATCGACCCGCGCCAGCGCCTGGACGCGGTGCTGCGCCTGCTGCTGCACTTCCGTCCGCAATCCAGCGTCGCCTTCTGCCACACCCGGCAGCAGTGCCAGGAACTGGTGGAGCACCTGCAGGCACGGAAGATTTCCGCCCTGGCCCTGCACGGCGACCTCGAACAGCGCGACCGCGACCAGGTCCTGGCGATGTTCGCCAACCGCAGTTGCAGCGTGCTGGTAGCCACCGACGTGGCGGCCCGCGGCCTGGACATCGCCGGGCTGGAAGCGGTGATCAACGTAGAACTGGCGCGCGACCCGGAGGTGCATATCCATCGCATCGGCCGCAGCGGCCGTGCCGGCGAAAAGGGCCTGGCCCTGAGCCTGGTGGCCCCGGCCGAAGCCAGCCGCGCCCAGGCCATCGAGAACCTGCAGAAGGCGCCACTGAACTGGCATGAGCTGGACAGCCTGAAGCCGAAAAGCGACGAACCACTGCTGCCGCCGATGACCACCCTGTGCATCGCCGCCGGACGCAAGGACAAACTGCGCCCCGGCGACATCCTCGGCGCCCTTACCGGCGAAGCCGGCATCCCCGGCGCCCAGGTGGGCAAGATCGCCCTGTTCGACTTCCAGGCCTACGTCGCGGTGGACCGCAGCGTCGCCCGCCAGGCGCTCAAGCGGCTGAGCGAAGGCAAGATCAAGGGACGTTCGATGAAGGTGCGGGTGCTCTGA	MTAAFASLPLSAAMLANLDALGYTEMTPIQAQSLPLMLKGQDLIAQAKTGSGKTAAFGIALLAPLNPRFFGCQALVLCPTRELADQVAKEIRRLARAADNIKVLTLCGGVPFGPQVGSLEHGAHVIVGTPGRVQEHLRKGTLTLDGLNTLVLDEADRMLDMGFYDSIADIIGQTPARRQTLLFSATYPAGIEQLAATFMKAPQRVQVEALHDDGQIEQRFYEIDPRQRLDAVLRLLLHFRPQSSVAFCHTRQQCQELVEHLQARKISALALHGDLEQRDRDQVLAMFANRSCSVLVATDVAARGLDIAGLEAVINVELARDPEVHIHRIGRSGRAGEKGLALSLVAPAEASRAQAIENLQKAPLNWHELDSLKPKSDEPLLPPMTTLCIAAGRKDKLRPGDILGALTGEAGIPGAQVGKIALFDFQAYVAVDRSVARQALKRLSEGKIKGRSMKVRVL	PGPT0013740_3589	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
BMS010_08712	1683	betA_2	COG2303	Oxygen-dependent choline dehydrogenase	ATGCCTCAAGAATTCGATTACATCATCGTCGGCGCCGGTTCCGCCGGTAACGTACTGGCCACGCGGTTGACCGAAGACGCCGACGTCAGCGTCCTGCTGCTGGAAGCCGGCGGCCCGGACTATCGCCTGGATTTCCGCACCCAAATGCCCGCCGCCCTCGCCTATCCATTGCAGGGCCGCCGCTACAACTGGGCCTACGAGACCGACCCGGAACCGCACATGAACAACCGCCGCATGGAGTGCGGGCGCGGCAAGGGCCTCGGCGGCTCCTCGCTGATCAACGGCATGTGCTACATCCGCGGCAACGCCCTGGACTACGACAACTGGGCGAAGAACAAGGGCCTGGAAGACTGGACCTACCTCGACTGCCTGCCCTACTTCCGCAAGGCCGAGACCCGCGATATCGGCCCCAACGACTACCACGGCGGCGACGGCCCGGTCTGCGTGACCACGCCGAAGCCGGGCAACAACCCGCTGTTCCACGCCATGGTGGAAGCCGGGGTGCAGGCTGGTTTCCCGCGTACCGACGACCTCAACGGCTACCAGCAGGAAGGCTTCGGCCCGATGGACCGCACGGTAACGCCCCAAGGCCGTCGCTCCAGCACCGCCCGCGGCTACCTGGATCAGGCGCGCAACCGGCCGAACCTGACCATCGTCACCCACGCCCTCACCGACCGCATCCTGTTCAGCGGCAAGCGCGCCATCGGTGTCGCCTACCTGCACGGCAACGGCAGCGAGCCGGTCACCGCGCACGCCCGCCGCGAAGTGCTGATCTGCTCCGGTGCCATCGCTTCGCCGCAGCTCCTGCAACGCTCCGGGGTCGGCCCCGGCGCCCTGCTGCGCGACCTGGACATCCCGCTGGTGCTTGACCTGCCGGGCGTCGGCGCCAACCTGCAGGACCATCTGGAAATGTACGTGCAGTACGCCTGCAAGGAACCGGTGTCGCTCTACCCCGCGCTGCAATGGTGGAACCAACCGCCGATCGGCGCCCAGTGGCTGTTCCTCGGCAAGGGCGTCGGCGCCAGCAACCAGTTCGAAGCCGGCGGTTTCATCCGCACCCGCGACGAATTCGAGTGGCCGAACATCCAGTTCCACTTCCTGCCGGTGGCGATCAACTACAACGGCAGCAACGCGGTGAAGGAACACGGCTTCCAGGCCCACGTCGGCTCCATGCGTTCGCCCAGCCGCGGGCGCATCCAGCTCCGCTCGAAGGACCCGCGCAAGCACCCGAGCATCCTGTTCAACTACATGAGCACCGAGCAGGACTGGCAGGAATTCCGCGACGGCATCCGCATCACCCGCGAAATCATGAACCAGCCGGCACTGGACCCGTTCCGCGGCCGCGAAATCAGCCCCGGCGTCGACTACCAGTCCGACGCCGACCTCGACCGCTTCGTCCGCGAGCACGCCGAAACCGCGTTCCACCCGTCCTGCTCGTGCAAGATGGGCGAGGACGACATGGCGGTGGTCGACGGCCAGGGCCGGGTGCACGGTCTGGATGGGCTGCGAGTAATCGACGCCTCGATCATGCCGCTGATCACCACCGGCAACCTCAACGCCCCGACCATCATGATGGCCGAGAAGCTCGCCGACAAAATTCGTGGGCGGACGCCGCTGCCCCGCAGCAACGCGCCCTACTACGTCGCCAACGGCGCGCCGGTACGCGGCAAGCCGCTGCGCTGA	MPQEFDYIIVGAGSAGNVLATRLTEDADVSVLLLEAGGPDYRLDFRTQMPAALAYPLQGRRYNWAYETDPEPHMNNRRMECGRGKGLGGSSLINGMCYIRGNALDYDNWAKNKGLEDWTYLDCLPYFRKAETRDIGPNDYHGGDGPVCVTTPKPGNNPLFHAMVEAGVQAGFPRTDDLNGYQQEGFGPMDRTVTPQGRRSSTARGYLDQARNRPNLTIVTHALTDRILFSGKRAIGVAYLHGNGSEPVTAHARREVLICSGAIASPQLLQRSGVGPGALLRDLDIPLVLDLPGVGANLQDHLEMYVQYACKEPVSLYPALQWWNQPPIGAQWLFLGKGVGASNQFEAGGFIRTRDEFEWPNIQFHFLPVAINYNGSNAVKEHGFQAHVGSMRSPSRGRIQLRSKDPRKHPSILFNYMSTEQDWQEFRDGIRITREIMNQPALDPFRGREISPGVDYQSDADLDRFVREHAETAFHPSCSCKMGEDDMAVVDGQGRVHGLDGLRVIDASIMPLITTGNLNAPTIMMAEKLADKIRGRTPLPRSNAPYYVANGAPVRGKPLR	PGPT0013615_1740	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013615-betA|CHDH-K00108	NA	NA
BMS010_08713	1473	betB_2	COG1012	NAD/NADP-dependent betaine aldehyde dehydrogenase	ATGGCCCGATTCGAACTGCAGAAGCTCTACATCCACGGCGGCTACGTGGACGCCACCAGCGGCGCCACCTTCCAGAGCATCAACCCGGCCACCGGCGAAGTGCTCGCCGAGGTGCAGCGCGCCTCCCAGGCCGATGTCGAGCGCGCCGTGGCCAGCGCCGAGGAAGGCCAGAAGGTCTGGGCGGCGATGACCGCCATGCAGCGCTCGCGCATCCTGCGCAAGGCGGTGGACATTCTCCGCGCGCGCAACGACGAGCTGGCCGAGCTGGAAAGCCTGGACACCGGCAAGCCGCTGGCCGAGACCCGCTTCGTCGACATCGTCACCGGCGCCGACGTGCTGGAGTACTACGCTGGCCTGATCCCCGCCATCGAGGGCGAACAGATCCCGCTGCGCGAGACCAGTTTTGTCTACACCCGCCGCGAGCCGCTGGGTGTAGTAGCCGGCATCGGTGCCTGGAACTACCCGATCCAGATCGCCCTGTGGAAATCCGCCCCGGCCCTGGCCGCCGGCAACGCAATGATCTTCAAGCCCAGCGAAGTCACCTCGCTGACCGCGCTGAAGCTGGCCGAGATCTACACCGAGGCTGGCGTGCCGGATGGCGTGTTCAACGTGGTCACCGGCAGCGGCCGCGAAGTCGGCACCTGGCTCACCGAGCACCCGCGCATCGAGAAGATTTCCTTCACCGGCGGCACCGACACCGGCAAGAAAGTCATGGCCAGCGCCTCCAGCTCCTCGCTGAAGGAAGTCACCATGGAACTGGGCGGCAAGTCGCCGCTGATCATCTTCGACGACGCCAACCTCAACCGCGCCGCCGACATCGCGGTAATGGCCAACTTCTTCAGCTCCGGCCAGGTCTGCACCAACGGCACCCGTGTGTTCGTCCCGCGTGCCCTGCAATCGCGCTTCGAATCCAAGGTGCTGGAGCGGGTCAAGCGCATCCGCCTCGGCAGCCCGCTGGACGAAAACACCAACTTCGGCCCGCTGGTCAGCTTCGCCCACATGGACAGCGTCCTCGGCTACATCGAGAAGGGCAAGGCGGAAGGCGCACGCCTGATCTGCGGCGGCGAGCGTGTGACCGACGGCGACTACGCCAAGGGCGCCTACGTGGCACCGACGGTATTCAGCGATTGCACCGACGACATGACCATCGTCCGCGAGGAAATCTTCGGCCCGGTGATGAGCATCCTGGTCTACGACGACGAGGACGAAGTCATCCGCCGCGCCAACGCCACCGACTACGGCCTCGCCGCCGGCGTGGTGACCCAGGACCTGAACCGCGCACACCGGGCGATCCACCGTCTGGAGGCCGGCATCTGCTGGATCAACACCTGGGGCGAATCCCCGGCGGAAATGCCGGTGGGCGGCTACAAGCAATCCGGCGTCGGCCGCGAAAACGGCCTGACCACCCTGGCTCACTACACTCGCATCAAATCCATCCAAGTCGAGCTGGGCGATTACGTCTCCGTTTTCTGA	MARFELQKLYIHGGYVDATSGATFQSINPATGEVLAEVQRASQADVERAVASAEEGQKVWAAMTAMQRSRILRKAVDILRARNDELAELESLDTGKPLAETRFVDIVTGADVLEYYAGLIPAIEGEQIPLRETSFVYTRREPLGVVAGIGAWNYPIQIALWKSAPALAAGNAMIFKPSEVTSLTALKLAEIYTEAGVPDGVFNVVTGSGREVGTWLTEHPRIEKISFTGGTDTGKKVMASASSSSLKEVTMELGGKSPLIIFDDANLNRAADIAVMANFFSSGQVCTNGTRVFVPRALQSRFESKVLERVKRIRLGSPLDENTNFGPLVSFAHMDSVLGYIEKGKAEGARLICGGERVTDGDYAKGAYVAPTVFSDCTDDMTIVREEIFGPVMSILVYDDEDEVIRRANATDYGLAAGVVTQDLNRAHRAIHRLEAGICWINTWGESPAEMPVGGYKQSGVGRENGLTTLAHYTRIKSIQVELGDYVSVF	PGPT0007165_1411	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0007165-betB_homologous-K00130	NA	NA
BMS010_08714	594	betI_5	COG1309	HTH-type transcriptional regulator BetI	ATGCCCAAGCTTGGAATGCAACCGATCCGCCGCTCGCAACTGATCCACGCCACCCTCGAGGCGGTCGACCGGGTCGGCATGGGCGAGGCCAGCATCGCCCTGATCGCCAAGCTGGCGGGCATGTCCAACGGCATCATCAGCCACTACTTCCAGGACAAGAACGGCTTGCTCGAAGCCACCATGCGCCACCTGATGGCGGCCCTGCGCCAGGCCGTGCGCGAACGCCGCCAGGCGCTGTCCGACGACAACCCGCGCGACCACCTGCGGGCGATCATCGCCGGCAACTTCGACCCCAGCCAGGTCAACGGCCCGGCAATGAAGACCTGGCTCGCCTTCTGGGCCAGCAGCATGCACCAGCCCTCGCTGCGCCGGCTGCAACGGATCAACGACCACCGGCTGTATTCCAACCTCTGCGGCGAATTCCGCCGTGTGCTGCCGTATGAGGATGCGCGCGCCGCCGCCCGCGGACTGGCTGCGCTGATCGATGGCCTGTGGCTGCGCGGCGCGCTATCCGGCGATGCCTTCGACACCCAGGAAGCCTTGCGCATCGCCTACGAATACCTGGACCAGCAACTGGCCAAGCAGGCCGGCTGA	MPKLGMQPIRRSQLIHATLEAVDRVGMGEASIALIAKLAGMSNGIISHYFQDKNGLLEATMRHLMAALRQAVRERRQALSDDNPRDHLRAIIAGNFDPSQVNGPAMKTWLAFWASSMHQPSLRRLQRINDHRLYSNLCGEFRRVLPYEDARAAARGLAALIDGLWLRGALSGDAFDTQEALRIAYEYLDQQLAKQAG	PGPT0013625_642	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013625-betI-K02167	NA	NA
BMS010_08715	1242	btuD_19		Vitamin B12 import ATP-binding protein BtuD	GTGAGTATGATTCGCTTCGAGAAGGTCGACGTCATCTTCTCCAAACAACCGCGTGAAGCCCTCGCCCTGCTCGATCAAGGCCTCACGCGTGACCAGATCCTGAAGAAGACCGGCCAGGTGGTGGGCGTGGAAAACGCCAACCTGGACATCGAGCGCGGCGAAATCTGCGTACTGATGGGCCTTTCCGGCTCCGGCAAATCCAGCCTGCTGCGCTGCATCAACGGCCTCAACACCGTGAGCCGCGGCCGCTTGCTGATCGAGCACGAAGGCGCCGAGGTGGACATCGCGTCCTGCTCCCCGGCCACCCTCAAGGCCATGCGCACCAAGCGCATCGCCATGGTGTTCCAGAAGTTCGCCCTGATGCCCTGGCTGACCGTGGCGGAAAACGTCGGCTTCGGCCTGGAGATGCAGCACCGCCCGGCCGCCGAGCGCAAGAAGCTGGTCGAGGAGAAGCTCGAACTGGTCGGCCTCAGCCAATGGCGCGACAAGCGCCCGGACCAGCTCTCCGGCGGCATGCAGCAGCGCGTCGGCCTGGCCCGCGCCCTGGCCATGGATGCCGACATCCTGCTGATGGACGAACCCTTCTCCGCCCTCGATCCGCTGATCCGCCAGCAGTTGCAGGACGAATTGCTGGTGCTGCAACGCAAGCTGCACAAGACCATCGTCTTCGTCAGCCATGACCTGGACGAAGCGCTCAAGCTCGGCTCGCGCATCGCCATCATGAAGGACGGCCGGATCATCCAGTACAGCAAGCCGGAAGAGATCGTTCTCAACCCGGCGGACGATTACGTGCGCACCTTTGTCGCCCACACCAACCCGCTCAACGTGCTGTGCGGCGAGAGCCTGATGCGCCCGTTGCAGCAGTGCCGCCACGAAGGCAACGAAATCTGCGTGGACCAGGGCCGCGACTGCTGGCTCGGCCTGGACGACAACAACGGCGTGCAATGCGCTCGCCAGGGTGGCCAGGATCTCAAGCTGCAACGCTGGGCACCGGGCGATCTGGTGGCCAACCTGCGCCGCGAGCCGACCCTGGTCAACGTGCGCATCGCCATGCGCGACGCCCTGCAGATCCGCTACCAGACCGGGCACAAGCTGGTGCTGGAGGATAACGGCCAGGTGGTCGGCATCCTCGGCGACAGCGAGCTGTACCACGCATTGCTCGGCAAGAACCTGGAAAAGGACGACAACAACGCGGCCAAACCGGTCCAGGTGCAACCGGCGGAGCTCTCCCGGGTCGTCTGA	MSMIRFEKVDVIFSKQPREALALLDQGLTRDQILKKTGQVVGVENANLDIERGEICVLMGLSGSGKSSLLRCINGLNTVSRGRLLIEHEGAEVDIASCSPATLKAMRTKRIAMVFQKFALMPWLTVAENVGFGLEMQHRPAAERKKLVEEKLELVGLSQWRDKRPDQLSGGMQQRVGLARALAMDADILLMDEPFSALDPLIRQQLQDELLVLQRKLHKTIVFVSHDLDEALKLGSRIAIMKDGRIIQYSKPEEIVLNPADDYVRTFVAHTNPLNVLCGESLMRPLQQCRHEGNEICVDQGRDCWLGLDDNNGVQCARQGGQDLKLQRWAPGDLVANLRREPTLVNVRIAMRDALQIRYQTGHKLVLEDNGQVVGILGDSELYHALLGKNLEKDDNNAAKPVQVQPAELSRVV	PGPT0013630_1470	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013630-gbuA|proV-K02000	NA	NA
BMS010_08716	846	opuAB_3	COG4176	Glycine betaine transport system permease protein OpuAB	ATGCTGACTGATCACAAACTCCCCCTCGGGCAGTACATCGCCGACTTCGTCGAATGGCTGACCCTCAATGGCGCCGAATTCTTCGACTCGGTGGCCGACACGCTGGAAATGCTGATCCAGGGCGTCACCCATGGACTGCTCTGGTTCAACCCGCTGGTGCTGATCGGCCTGTTCGCGCTGCTGACGCAACTGATCCAGCGCAAGTGGGCCCTCACCGCGTTCTGCGTGCTCTCCTTCCTGCTGATCCTCAACCTCGGCTACTGGCAGGAAACCATGGAGACCCTGGCCCAGGTGCTCTTCGCCACCCTGGTCTGCGTGGCGATCGGCGTACCGCTGGGCATCGCCGCCGCGCACAAGCCGATGTTCTACACCTTCATGCGGCCAGTCCTGGACTTGATGCAGACGGTGCCGACCTTCGTCTACCTGATCCCCACCCTGACCCTGTTCGGCCTGGGCGTGGTACCGGGGCTGATCTCCACCGTGGTGTTCGCCATCGCCGCGCCGATCCGCCTGACCTATCTGGGCATCCAGGACGTGCCGCACGAACTGCTCGATGCCGGCAAGGCCTTTGGCTGCTCGCGCTGGCAACTGCTGAGCCGCATCGAGCTGCCGCATGCCATGCCCAGCATCGGCGCCGGCGTGACCCAGTGCATCATGCTGTCGCTGTCGATGGTGGTGATCGCCGCCCTGGTCGGCGCCGACGGGCTCGGCAAGCCGGTGGTCAACGCCCTCAATACCGCGGATATCGCCCTCGGCTTCGAAGCCGGTTTGTCCATCGTCCTGCTGGCCATCCTGCTCGACCGCGTCTGCAAACAACCCGAAGCCAAGCGGAGGACTGAAGCGTGA	MLTDHKLPLGQYIADFVEWLTLNGAEFFDSVADTLEMLIQGVTHGLLWFNPLVLIGLFALLTQLIQRKWALTAFCVLSFLLILNLGYWQETMETLAQVLFATLVCVAIGVPLGIAAAHKPMFYTFMRPVLDLMQTVPTFVYLIPTLTLFGLGVVPGLISTVVFAIAAPIRLTYLGIQDVPHELLDAGKAFGCSRWQLLSRIELPHAMPSIGAGVTQCIMLSLSMVVIAALVGADGLGKPVVNALNTADIALGFEAGLSIVLLAILLDRVCKQPEAKRRTEA	PGPT0013635_2237	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013635-gbuB|proW-K02001	NA	NA
BMS010_08717	939			hypothetical protein	ATGAAAATACGAACGTTTGCGATGGCCGCCACCCTAGCCAGCCTCCCCCTGCTGGCCCAGGCCGCCGAACCAGAATCTTGTGGCGTTGTTCGCTTTGCCGATGTCGGCTGGACCGACATCACCGTTACCACCGCAGTCACCAGCGAAGTGCTGGAAAGCCTCGGTTACCAGACCAAGACCAACATGCTGTCGGTGCCGGTGACCTACCGCTCGCTGCAGAACAAGGACATCGATGTCTTCCTCGGCAACTGGATGCCGACCATGGAGAACGACATCAAGGAATACCGCGACAAGGGCACCGTGGAAACCGTGCGGGCCAACCTCGAAGGCGCCAAATACACCCTCGCCGTACCGGACTATGCGTATGAAGCCGGCCTGAAGAACTTCGCCGACATCGCCAAGTTCGCCGACAAGCTGGACAACAAGATCTACGGCATCGAGCCGGGCAACGACGGCAACCGCCTGATCCAGGGCATGATCGACGCCAACACCTTCGACCTCGGCAAGTTCAAGGTCGTCGAGTCCAGCGAAGCCGGCATGCTTTCCCAGGTCCAGCGCGCCGTGCGGCGCAACCAGTGGGTCGTGTTCCTCGGTTGGGAACCGCACCCGATGAATACCCGCTTCCCCATGAAGTACCTGGAAGGCGGCGACGACGTGTTCGGTCCGAACTACGGCGGCGCCACCATCTATACCAACGTGCGCAAAGGCTACACCCAGGAATGCGCCAACGTCGGCAAGCTGCTGCAGAACCTGCAGTTCAGCCTGGATATGGAAAACCAGCTGATGGACGCCGTGCTGAACCAGAACCAGAAGCCGCGTGAAGCCGCCAAAGCCTGGCTGAAAACCAACCCGCAGGTTCTCGATACCTGGCTGGCAGGCGTTACCACTCGCGACGGAAAACCCGCACTGGGCGCTGCCCAGGCCAAGCTGGCGCCCTGA	MKIRTFAMAATLASLPLLAQAAEPESCGVVRFADVGWTDITVTTAVTSEVLESLGYQTKTNMLSVPVTYRSLQNKDIDVFLGNWMPTMENDIKEYRDKGTVETVRANLEGAKYTLAVPDYAYEAGLKNFADIAKFADKLDNKIYGIEPGNDGNRLIQGMIDANTFDLGKFKVVESSEAGMLSQVQRAVRRNQWVVFLGWEPHPMNTRFPMKYLEGGDDVFGPNYGGATIYTNVRKGYTQECANVGKLLQNLQFSLDMENQLMDAVLNQNQKPREAAKAWLKTNPQVLDTWLAGVTTRDGKPALGAAQAKLAP	PGPT0013640_2544	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013640-gbuC|proX-K02002	NA	NA
BMS010_08718	582			hypothetical protein	ATGGCGCGAGCCGCCACCCCCACCGGGCTTCGTCGAGCGCACCTGCAGCTCATCCGGATAAAAGGAAGCGAGGCGATGAAAGGCATCCTCCACGCATCCCCATTCGCGACACATGCAACGGAACCGGAAGGCTGCCGGCTGGTCCTTTATCCGACGTCGGCTGCATCGACATCACATGACCAGTGCAACGACCCACCTGGCGCTCGGCCACATCACCCAGGTCAAGCGCTTGTCGAGCCGGAGACCTGCCAGGCGCTGAGCGACAAGCCGCTCGATGTGTTTCTTCGACGAGAACACCAACCGCCGCCAGGCGGCCAAGGCGTGGCTGAAAGCCCATCCGCAGGCCCTCGACACCTGACTGGCCGGCAGCGGCACCTGGGGACGATCGCCCGGCACGAGAGGTGGTCAAGGCGCGGCCTGGTTTGTTTGAATGAAAAAAGGCCGGGGCGGTCCAGCAGCGCCCCCGGATACCGCGCAGAGGGGCCCCGAATTACCGGATACGACCCCTCTCATGCTGGATACGACCCCGGCTGCACTGGTTGCGACGCCCCCCATAGGCGTTTGTTTTCCGCTGTTCCATGA	MARAATPTGLRRAHLQLIRIKGSEAMKGILHASPFATHATEPEGCRLVLYPTSAASTSHDQCNDPPGARPHHPGQALVEPETCQALSDKPLDVFLRREHQPPPGGQGVAESPSAGPRHLTGRQRHLGTIARHERWSRRGLVCLNEKRPGRSSSAPGYRAEGPRITGYDPSHAGYDPGCTGCDAPHRRLFSAVP				NA	NA	NA	NA	NA
BMS010_08719	1377	sdaB_2	COG1760	L-serine dehydratase 2	ATGGCCATCAGTGTGTTCGACCTGTTCAAGATCGGGATCGGGCCTTCCAGTTCCCATACCGTGGGGCCGATGCGTGCCGCCGCGCTCTTCGTCCAGGCCCTTGGCGAGCGTCGCCTGTTGGCACGGGTCACCCGTGTCGAAGTGAATCTGTACGGCTCGCTGTCGGCCACCGGTGTCGGCCATGGCACCGACAACGCCGTGATCATGGGGCTGATGGGCGAATGGCCGGATCGCATCGACCCGCGCCAGATCGCGCCGCGTATCGCTGCTCTCAAGGAGACCGGCAGCCTGTTGCTGGGCGGTGAGCGGCCTGTGGCGTTCGACTGGGCGCGCGACATGCGCCTGCTCGACGAGAACCTGCCCTACCATCCGAACGCCATGACGCTGATCGCCTGCGACGACAACGGCGAGCTGCACAGCGATACCTACTATTCCGTCGGCGGCGGCTTCGTCGTCGATGCCGAGCAGGCCGCCGCCGGCCAGCTCGACCAGGACCACACCCACCTGCCCTACGACTTTTCCAGCGCGGTGGAACTGCTGCAACTGTGCCGTCAGCACGGGCTGCGGGTCTCTGAACTGATGCTGGAAAACGAGAAAGCCTGGCGCAGCGAAGCGGACATCCGCGCAGGGCTGATGCGCCTCTGGCAGGCCATGCGCGAATGCGTGGACAACGGGCTCAGCGAAGAGGGCATCCTGCCCGGCGGGCTCAATGTGCGCCGGCGTGCCGCCAAGCTGCACCGCAGCCTGCAGGAGCTGGGCAAGCCCAACGTGATCGGCTCGACCATGAGCGCCATGGAGTGGGTCAACCTGTTCGCCCTGGCGGTGAACGAGGAAAACGCCGCCGGCGGGCGCATGGTCACCGCGCCGACCAACGGCGCCGCCGGCATCATCCCGGCTGTGCTGCACTACTACATGAAATTCAACCCGGATGCCTGCGACGACGATGTCGTCAGATTTTTCCTGGGCGCCGCCTCGGTGGGCATCCTGTGCAAGAAGAACGCTTCCATCTCCGGCGCCGAAGTCGGTTGCCAGGGCGAGGTGGGTTCGGCCTGCGCCATGGCGGCGGCCGGTCTCGCCGAAGTGCTCGGCGCCACCCCGGAGCAACTGGAGAACGCCGCCGAGATCGGCCTCGAGCATAACCTCGGGCTGACCTGCGACCCGGTCGGCGGGCTGGTGCAGGTGCCCTGCATCGAACGCAATGCGATCGCTGCGGTGAAGGCGATCAACGCCGCGCAGATGGCGCTGCGTGGCGATGGCGAGCATTTCATCTCCCTCGACCGGGTGATCCGCACCATGCGCGACACCGGTGCGGACATGCACGACAAGTACAAGGAAACCTCGCGTGGAGGGTTGGCGGTCAGCGCGATCGAGTGCTGA	MAISVFDLFKIGIGPSSSHTVGPMRAAALFVQALGERRLLARVTRVEVNLYGSLSATGVGHGTDNAVIMGLMGEWPDRIDPRQIAPRIAALKETGSLLLGGERPVAFDWARDMRLLDENLPYHPNAMTLIACDDNGELHSDTYYSVGGGFVVDAEQAAAGQLDQDHTHLPYDFSSAVELLQLCRQHGLRVSELMLENEKAWRSEADIRAGLMRLWQAMRECVDNGLSEEGILPGGLNVRRRAAKLHRSLQELGKPNVIGSTMSAMEWVNLFALAVNEENAAGGRMVTAPTNGAAGIIPAVLHYYMKFNPDACDDDVVRFFLGAASVGILCKKNASISGAEVGCQGEVGSACAMAAAGLAEVLGATPEQLENAAEIGLEHNLGLTCDPVGGLVQVPCIERNAIAAVKAINAAQMALRGDGEHFISLDRVIRTMRDTGADMHDKYKETSRGGLAVSAIEC	PGPT0001975_1753	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001975-sdaA|sdaB|tdcG-K01752	NA	NA
BMS010_08720	1092	cdhR_9	COG4977	HTH-type transcriptional regulator CdhR	ATGTCGCAGTTCAACCCCGGGGCGCAAGCCCAGAACCGTGCGCCGCAATCCATCGGCTTCCTGCTGCTCGACAACTTCACCCTGATTTCCCTGGCTTCGGCCGTCGAACCCTTGCGCATGGCCAACCAGCTATCGGGCCGTGAGCTGTACCGCTGGTGCACCCTGACCCTGGATGGTGGTCAGGTCTGGGCCAGCGACGGCCTGCAGATCACCCCCGACTCCTCGGTCGCCAACGCCCCGGCGCTGGATACCGTCATCGTCTGCGGCGGCGTCGGCATCCAGCGCAGCGTGACCCGCGAACACGTGAGCTGGCTGCAGTCCCAGGCCCGCCAAGGTCGCCGACTGGGCGCCGTCTGCACCGGCAGCTGGGCGTTGGCCTGCGCCGGCCTGCTCGACGGTTTCGATTGCAGCGTGCACTGGGAGTGTCTGGCTGCGATGCAGGAAGCCTTCCCGCGCGTGACCATGAGCACCCGCCTGTTCACCCTCGACCGCAACCGCTACACCAGCTCCGGCGGCACCGCGCCGCTGGACATGATGCTGCACCTGATCTCCCGCGAGCACGGCCGCGAGCTGTCCGCCGCGATCTCCGAGATGTTCGTCTACGAGCGCATCCGCAACGAGCAGGACCACCAGCGTGTGCCGCTCAAGCACATGCTCGGCACCAACCAGCCGAAGCTGCAGGAAATCGTCGCGCTGATGGAGGCCAACCTCGAGGAGCCCATCGACCTCGACGAACTGGCGGTCTACGTCAACGTCTCGCGCCGGCAACTGGAGCGGTTGTTCCAGAAGTACCTGCACTGCTCGCCGTCGCGCTACTACCTCAAGCTGCGCCTGATCCGTGCCCGTCAGTTGCTCAAGCAGACCCCGATGTCGATCATCGAAGTGGCTTCGGTGTGCGGTTTCGTCTCCACGCCGCACTTCTCCAAGTGCTACCGCGAATACTTCGGCATCCCGCCGCGCGACGAACGCATGACGCCGAGCAACAGCCAGCCGGTGGCGCTGCTGCCGATTCCGCAGGCACTCATGCCCGGCGCCATGTCGGCGCTCAGCCAGGCGCGTGGGGAGTCCACGTTCGCGAGCGTCCGGCTGTAA	MSQFNPGAQAQNRAPQSIGFLLLDNFTLISLASAVEPLRMANQLSGRELYRWCTLTLDGGQVWASDGLQITPDSSVANAPALDTVIVCGGVGIQRSVTREHVSWLQSQARQGRRLGAVCTGSWALACAGLLDGFDCSVHWECLAAMQEAFPRVTMSTRLFTLDRNRYTSSGGTAPLDMMLHLISREHGRELSAAISEMFVYERIRNEQDHQRVPLKHMLGTNQPKLQEIVALMEANLEEPIDLDELAVYVNVSRRQLERLFQKYLHCSPSRYYLKLRLIRARQLLKQTPMSIIEVASVCGFVSTPHFSKCYREYFGIPPRDERMTPSNSQPVALLPIPQALMPGAMSALSQARGESTFASVRL	PGPT0021945_104	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARNITHINE_USAGE	PLANT_DERIVED_CARNITHINE_DEGRADATION,PGPT0021945-cdhR-K17736	NA	NA
BMS010_08721	261			hypothetical protein	ATGATGTATGCGGATTTGATCGATCAGGACGATTTGCGCGAACGCCTGCAGGCGCTGGGTATCGAGATTCCACCAGGGGCCACCGCCGAGCAGGCCTGCGAACGCGCCCTGGTGGGGCTCAGTGCGCCGCGCGCCCAGGCATTGCGGGGGCTGGTGGAGCAGATGCTGGCCAGCGGTGCGGAAATGCTGCCGGCCGTGCGCGAAGCCATTTCGCGCCAGTTGCTGCCGGCACTGGCCCAGTACCGGCAGACCCATGGCTGA	MMYADLIDQDDLRERLQALGIEIPPGATAEQACERALVGLSAPRAQALRGLVEQMLASGAEMLPAVREAISRQLLPALAQYRQTHG				NA	NA	NA	NA	NA
BMS010_08722	468			hypothetical protein	ATGTACCGCAACCAGCAAGCCGCCGCTTTCGGATTTCTCGCCATGCTCGCCCTCGTCGCCATCCTGCTGGTGATCCTGGCACTCTGGGCCTGGCCCAAGTACCGGGTCTACAAGCTCGAACTCGACGGCATCGCCGCGCTCAAGGAAGCCGAGTGGAGCAAGCAGATTCTCATCGAAGAAGCCAAGGCCAGGGAGCAGGCTTCACTGATGCAGGCGAAGGCCAAGGTCACCTTGGCCGAAGCCGAAGGCCGCGCGCAGGTCGTGCGCGCCAAAGCTGAAGGCCAAGCCGATATCGAACGCGCCAAGGCCGCCGCCGAGGCCAACCGCATCATCGGCGAATCCCTGAAGAACAACGAACAATACCTGCGCTATGTCTGGATCAAGGGCCTGCAGGACGGCAAGGGCGAACGCATCTACATCCCCACCGAAGCCGGCATGCCGATCCTCGAAGCGGGAAAGGCGAAGTAA	MYRNQQAAAFGFLAMLALVAILLVILALWAWPKYRVYKLELDGIAALKEAEWSKQILIEEAKAREQASLMQAKAKVTLAEAEGRAQVVRAKAEGQADIERAKAAAEANRIIGESLKNNEQYLRYVWIKGLQDGKGERIYIPTEAGMPILEAGKAK				NA	NA	NA	NA	NA
BMS010_08723	1194			Gamma-butyrobetaine dioxygenase	ATGAACCTCGCGCAAGGCCCGCTGGAATCCCCGGACATCGCCGACTATCGACGCTACCCGATCAGCACCGGGCTCAACGCACTGCGCCCGCGCGCCGACTATTTGGAAGTGGAATGGAGCGACACCCGCATCAGCCCCTTCCATTACCTCTGGCTGCGCGATAACTGCCCGTGCGCCCAATGCGTCTACGCGGTGACTCGCGAACAGGTGCTGGAAATCGTCGATGTACCGACCGATCTCCAGCCCCGGCAGACCCGGATCGAGGCGGATGGCACGCTACGGGTGGACTGGCAGGACGGCCACGTCAGCCGCTATCACCCCGGCTGGCTGCGCGCCCACGCCTACGACGACCTGTCCCGCGAGGAACGCTTGCGTGAGCGTCCGCGCAGCCGGCTCTGGGCCACGGGCCTGAATGAGCACCTGCCGGTGTTCGACTACGCCGCCGTGATGAAGGACGACCGTACACTGCTCGACTGGCTGCGGGCCCTGCGCGACACCGGCCTGACCCAGGTCCAGGGCATGCCCACCGAACCCGGCACCCTGCAGCACATCGCCCGGCGCATCGCGTTCATCCGCGAGAGCAACTTCGGCGTGCTGTTCAACGTGCAATCCCGGGCCGACGCCGATAGCAACGCCTACACCGCCTTCAACCTGCCGCTGCACACCGACTTGCCGACCCGCGAACTGCAACCGGGCCTGCAATTCCTGCATTGCCTGGTCAACGATGCGGTGGGCGGAGACAGCCTGTTCGTCGACGGCTTCGCCATCGCCGAAGCCCTGCGCCGCGAAGCGCCGGAGGACTTCCGTACCCTCTGCGAGCTGCCGGTGGAGTTTCGCAACAAAGACCGCCACAGCGACTACCGCTGCCTGGCACCGATCATCGCCCTCGATGCCCACGGTGCGGTCACGGAAATCCGCATCGCCAATTTCCTGCGCGGTCCCTTCGACACACCGGCCCGGCAAATGCCCGCGCTGTACCGCGCCTATCGCCACTTCATCGCCCTCACCCGCGAACCGCGCTTCCGCGTGGAACGGCGCCTGGAAGCCGGGCAGATGTGGTGCTTCGACAACCGCCGCACCCTCCACGCCCGCCACGCTTTCGACCCGAGCAGCGGCGCCCGTCACTTCCAGGGCTGCTACGTCGACCGGGACGAACTGCTGTCGCGGATCAGGGTGTTGGAACGGGAGAGATAG	MNLAQGPLESPDIADYRRYPISTGLNALRPRADYLEVEWSDTRISPFHYLWLRDNCPCAQCVYAVTREQVLEIVDVPTDLQPRQTRIEADGTLRVDWQDGHVSRYHPGWLRAHAYDDLSREERLRERPRSRLWATGLNEHLPVFDYAAVMKDDRTLLDWLRALRDTGLTQVQGMPTEPGTLQHIARRIAFIRESNFGVLFNVQSRADADSNAYTAFNLPLHTDLPTRELQPGLQFLHCLVNDAVGGDSLFVDGFAIAEALRREAPEDFRTLCELPVEFRNKDRHSDYRCLAPIIALDAHGAVTEIRIANFLRGPFDTPARQMPALYRAYRHFIALTREPRFRVERRLEAGQMWCFDNRRTLHARHAFDPSSGARHFQGCYVDRDELLSRIRVLERER	PGPT0013696_407	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0013696-BBOX1_like-K00471	NA	NA
BMS010_08724	924	aes_1		Acetyl esterase	ATGGGCAGCCGCTACCCGCTCTCCCCGGCCCTGGCTGCCTTCGTCGAGCGCAGCCAGGGCTTCGTCCCCCGCGACGACAGCCTCGCCGCCCTGCGCGAGGCCTATGCCGCGCTGTGCGCCGCCTTCACCCCGCCGCGACCGGACGGGCTGGAGATCGATGAGCGACGTCTCGCCGATGTCCCGGTACGGGTCTACCGCCCGGCCAACGCCGTCGCGAACCGCCCCGGCGTGCTCTATCTGCACGGCGGCGGCTGGATGCTCGGTGGGCTGGATTCCCATGACTTCCTCACCGCCGAGCTGGCGTTGGCGTTACAGGCCGTGGTGATCGCCGTGGACTATCGGTTGGCCCCGGAACATCCGTTCCCGGCCGCCTTCGACGACTGCCGGGCGGTCTGGCACGCGCTGCGCGCCGAGGCTTCCACCCTCGGCCTGGACCCGGCGCGCATCGCCGTGGCCGGCGACAGCGCCGGCGGCAACCTGGCCGCCGCCCTCTGCCTGGCCCTGCGCGACGGCGGCGAAGCCCTGCCCTGCGCCCAGGCGCTGATCTACCCGGCCCTCGGCGCCGACGACCTACCCTCGCGCCACCAATGCGCCGACGCCCCGCTGCTCAGCCGTGACGACCTGCTCCAGTGCCTCGCGCACTACCTGCCCGATCCGCAGCAACGGCGCGATCCCTACGCCATGCCGCTGGCCGCCACGAATTTCGCCAGCCTGCCACCCGCCTTCATCGGCGTGGCGGAGTTCGACCCGCTGCGCGACGACGGCCTGCTCTACCGCGACCGCCTGCGCGACGCCGGCGTGCCCGTGCGCTTCCACCCCGGCCACGGGCTGGTCCACGGCTGCCTGCGCGCCCGTGGCCAGGCTTTCGAAGTCGATGACCTGTTCGCCGAGCTGCTCACCGCTCTGCGCCTCTTCCTCCGTTGA	MGSRYPLSPALAAFVERSQGFVPRDDSLAALREAYAALCAAFTPPRPDGLEIDERRLADVPVRVYRPANAVANRPGVLYLHGGGWMLGGLDSHDFLTAELALALQAVVIAVDYRLAPEHPFPAAFDDCRAVWHALRAEASTLGLDPARIAVAGDSAGGNLAAALCLALRDGGEALPCAQALIYPALGADDLPSRHQCADAPLLSRDDLLQCLAHYLPDPQQRRDPYAMPLAATNFASLPPAFIGVAEFDPLRDDGLLYRDRLRDAGVPVRFHPGHGLVHGCLRARGQAFEVDDLFAELLTALRLFLR				NA	NA	NA	NA	NA
BMS010_08725	480	lcdH_1		L-carnitine dehydrogenase	ATGCCCAGCAACGCCCCGCTCACCACCTACCAGACGCCGATCCTCGCCGAATGGGTCGACTACAACGGCCACCTGCGCGACGCCTTCTACCTGCTGCTGTTCAGCTATGCCACCGATGCCTTCATGGACCACATCGGCCTGGACAGTAGCGGGCGCAAGGCCAGCGGCCATTCCCTGTTCACCCTGGAATGCCACCTCAACTATCTGCATGAGGTGAAGCAGGGCGAGGCCGTGGAGGTGCGCACCCAACTCCTCGCCCACGACCGCAAGCGCCTGCAGCTCTACCACAGCCTGCACCGCGCGGGGCAGGACGAGGCGCTCGCCGCCAGCGAACAGATGCTGCTGCACGTCGAACTCGCCGGGCCGCGCTCGGCGCCCTTCGCCGCGCCGGTGCTGGCGCGCATCGAAGCCCTGGCCGAAACCCAGCGCGCCCTGCCCCGGCCCGCCTACGTCGGCCGGGTGATCGGCCTGCCGGGGTGA	MPSNAPLTTYQTPILAEWVDYNGHLRDAFYLLLFSYATDAFMDHIGLDSSGRKASGHSLFTLECHLNYLHEVKQGEAVEVRTQLLAHDRKRLQLYHSLHRAGQDEALAASEQMLLHVELAGPRSAPFAAPVLARIEALAETQRALPRPAYVGRVIGLPG	PGPT0001850_1724	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107	NA	NA
BMS010_08726	969	lcdH_2	COG1250	L-carnitine dehydrogenase	ATGCCCATCTTCGTTACCGACATCAAGACATTCGCCGCCCTCGGCACCGGCGTGATCGGCGCCGGCTGGATCGCGCGCGCCCTGGCCCATGGCCTCGACGTGATCGCCTGGGACCCGGCCCCCGGCGCCGAAGCCGCGCTGCGGGCGCGCATCGCCAATGCCTGGCCGGCGCTGGAGAAGCAGGGCCTGGCCCCCGGCGCGTCACAGCATCGCCTGCGCTTCGTCGAGACCATCGAGGAGTGCGTGCGCGACGCCGATTTCATCCAGGAAAGCGCGCCGGAACGCCTCGACCTCAAGCTCGACCTGCACGCCCGCATCAGCGCCGCCGCACAGCCGGACGTGTTGATCGGCTCCAGCACCTCGGGCCTCCTGCCCAGCGAGTTCTACGCCGACGCGGTGCACCCGGAGCGCTGTCTGGTGGGCCACCCGTTCAACCCGGTCTACCTGCTGCCGCTGGTGGAAGTGGTCGGCGGCCAGCGCACCGCCCCCGAAGCCGTGCAGGCGGCGATCCAGGTTTATACCGCCCTCGGCATGCGTCCCTTGCACGTGCGCAAGGAAGTCCCCGGCTTCATCGCCGACCGCCTGCTCGAAGCGCTCTGGCGCGAGGCGTTGCATTTGGTCAACGACGGCGTGGCCAGCACCGGCGAGATCGACGACGCCATCCGCTTCGGCGCCGGCCTGCGCTGGTCGTTCATGGGCACCTTCCTCACCTACACCCTGGCCGGCGGCAATGCCGGGATGCGCCACTTCATGGCCCAGTTCGGCCCGGCGCTGCAACTGCCCTGGACCTACCTGCCGGCGCCGGCGCTCACCGAGCAGCTCATCGACCGCGTGGTGGAAGGCACCGCCGAGCAGCAGGGCGAGCGCAGCATCGCCGAGCTGGAACGCTACCGCGACGACTGCCTGCTGGCCGTGCTCGGCGCGATCAGGGAGACCAAGGCCCGGCACGGTTTCGCCTTCGCCGAGTGA	MPIFVTDIKTFAALGTGVIGAGWIARALAHGLDVIAWDPAPGAEAALRARIANAWPALEKQGLAPGASQHRLRFVETIEECVRDADFIQESAPERLDLKLDLHARISAAAQPDVLIGSSTSGLLPSEFYADAVHPERCLVGHPFNPVYLLPLVEVVGGQRTAPEAVQAAIQVYTALGMRPLHVRKEVPGFIADRLLEALWREALHLVNDGVASTGEIDDAIRFGAGLRWSFMGTFLTYTLAGGNAGMRHFMAQFGPALQLPWTYLPAPALTEQLIDRVVEGTAEQQGERSIAELERYRDDCLLAVLGAIRETKARHGFAFAE	PGPT0021955_352	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARNITHINE_USAGE	PLANT_DERIVED_CARNITHINE_DEGRADATION,PGPT0021955-lcdH|cdhA-K17735	NA	NA
BMS010_08727	888	kce	COG3246	3-keto-5-aminohexanoate cleavage enzyme	ATGAACCATGACGTCATCGTTACCTGTGCCCTGACCGGAGCCGGCGACACCGTGGACAAGCATCCGGCCATCCCGGTGACGCCCCGGCAGATCGCTGCGGCGGCCGTAGAGGCGGCCAAGGCGGGGGCCACCGTGGTGCACTGCCACGTCCGCGACCCCGAGACCGGCAAGCCGAGCCGCGACACCGCGCTGTACCGCGAAGTGATGGAGCGCATCCGCGAGGCGGACGTGGACATCATCGTCAACCTTACCGCCGGCATGGGCGGCGACCTGCAGATCGGCCAGGGCGAACGGCCACTGGAGTTCGGCCCGGGCACCGACCTGGTCGGCCCGCTGGAACGCCTCAAGCACGTCGAGGAACTGCTGCCGGAAATCTGCACCCTGGATTGCGGCACCCTGAATTTCGGCGACGGCGACTTCATCTACGTCTCCACACCGGCGCAACTGCGTGCCGGCGCCAGGCGCATCACCGAGCTGGGGGTGAAGGCCGAACTGGAAGTGTTCGACACCGGCCACCTGTGGTTCGCCAAGCAATTGCTCAAGGAAGGCCTGCTGGAGGACCCGCTGTTCCAGCTCTGCCTGGGCATCCCCTGGGGTGCGCCGGCGGACACCACCACCATGAAGGCGATGGTCGACAACCTGCCGCCCGGCGCCACCTGGGCCGGCTTCGGCATCGGCCGCATGCAGATGCCCATGGCCGCTCAGGCGGTGCTGCTCGGCGGCAACGTGCGGGTCGGCCTGGAAGACAACCTGTGGTTGGACAAGGGCGTGCCGGCGAGCAACGGCCAACTGGTCGAGCGGGTCATCGAGATCATCACCCGCATGGGCGCCCGTCCGCTCACCCCGGCCGAGGGGCGACGGAAGATGAATCTGTCGCGCCGTGCGTGA	MNHDVIVTCALTGAGDTVDKHPAIPVTPRQIAAAAVEAAKAGATVVHCHVRDPETGKPSRDTALYREVMERIREADVDIIVNLTAGMGGDLQIGQGERPLEFGPGTDLVGPLERLKHVEELLPEICTLDCGTLNFGDGDFIYVSTPAQLRAGARRITELGVKAELEVFDTGHLWFAKQLLKEGLLEDPLFQLCLGIPWGAPADTTTMKAMVDNLPPGATWAGFGIGRMQMPMAAQAVLLGGNVRVGLEDNLWLDKGVPASNGQLVERVIEIITRMGARPLTPAEGRRKMNLSRRA	PGPT0021956_2	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARNITHINE_USAGE	PLANT_DERIVED_CARNITHINE_DEGRADATION,PGPT0021956-cdhC-NA	NA	NA
BMS010_08728	939			hypothetical protein	ATGAAACGATTCATCCGTCCGCTCGCCTGTTGCCTGCTGCTCGCCAGCGGCACGCTGTTCGCCGCCGAGCCGGCCGCCTGCAAGAAAGTCCGCATGGGCGTGGTCAACTGGACCGACGTGATCGCCACCAGCGCCATGGCCCAGGTGCTGCTGGAAGAGATGGGCTACGAGGTCAAGCAGACCAGCGCCGCGCAGCAGATCATCTTCGCCGGCATCCGCGACAACCGCCTGGACATTTTCCTCGGCTACTGGAAGCCGGCGATGGACGCCAACATCAAGCCGTTCGTCGAGCAGGGCCAGGTGAAGGTATTGCCCGAGCCGAGCCTGGCCGACGCCCAGGCCACGCTGGCGGTGCCAGCGTACGCCGCCGAAGGCGGCCTGAAGACCTTCGCCGACATCGCCAAGTTCAAGGACAAGCTCGGCGGCAAGATCTACGGCATCGAGCCCGGCACCGGCGCCAACACCGCGATCAAGACCATGATCGAAAGCAACCGCTTCGGCCTCGGCGGCTTCCAACTGGTCGAGTCCGGCGAGGCCGGCATGCTCGCCGCCGTGCAGCGCGCCATCAAGCGCAACGAGTGGGTCGTGTTCGTCGGCTGGAAGCCGCACCCGATGAACATCAACATGAAGATCGCCTACCTGACCGGCAGCGAGGACGTGTACGGCCCCAACGAAGGCGCCGCCACCGTCTGGTCGGTCACCGCCCCCGACTATGCCGAGCGCTGCCCCAACGTCAGCCGCCTGCTGGCCAACCTGACCTTCACCGCCGACCAGGAAAGCCAGTTGATGGTGCCGATCATGCAGCGCCAGGAGCCGAAGGACGTCGCCCGCCAGTGGCTGCGCGACCACCCCGAGGACCTGCAGCGCTGGCTCGCCGGCGTGGAAACCCTGGACGGCCGCAACGCTGCGCAGATTCTGCAGGCCAGCCTGGCGCCCTGA	MKRFIRPLACCLLLASGTLFAAEPAACKKVRMGVVNWTDVIATSAMAQVLLEEMGYEVKQTSAAQQIIFAGIRDNRLDIFLGYWKPAMDANIKPFVEQGQVKVLPEPSLADAQATLAVPAYAAEGGLKTFADIAKFKDKLGGKIYGIEPGTGANTAIKTMIESNRFGLGGFQLVESGEAGMLAAVQRAIKRNEWVVFVGWKPHPMNINMKIAYLTGSEDVYGPNEGAATVWSVTAPDYAERCPNVSRLLANLTFTADQESQLMVPIMQRQEPKDVARQWLRDHPEDLQRWLAGVETLDGRNAAQILQASLAP	PGPT0013640_2528	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013640-gbuC|proX-K02002	NA	NA
BMS010_08729	954	cdhR_10	COG4977	HTH-type transcriptional regulator CdhR	ATGGCCCAAGATTTCTGGTTCCTGTTGTTGCCCGGTTTCTCGGTGATGGGCTTCGTCTCGGCGGTGGAGCCGCTGCGGGTGGCCAACCGCTTTCGCGGTGAGCTGTACCGATGGCATGTGATGAGTCTGGACGGTGGCCCGGTCCTCGCCAGCAACGGCATGTCGCTGAATGCCGACGGCGCGCTGGAGCCCTTGGTACGGGGCGATACGCTGTTGGTGGTGGCCGGCTTCGAGCCGCTGAAATGCTACGGGCCGGCTCTGGAACGCTGGCTGCGCAAGCTCGACCGCGACGGCGTGCGCCTGGGCGGGATCGATACCGGCGCCTTCGTGCTGGCCGAGGCCGGCCTGCTCGACGGCCATCGCCTGACCCTGCACTGGGAGGCGCTGGACGCTTTCAAGGAGTCCTACCCGCAATTGGAGGCGACCCAGGAGCTGTTCGAAATCGACGGCTCGCGCATCACCTCGGCCGGCGGTACCGCCTCCATCGACCTGATGCTCGACCTGATCGCCCAGACCCACGGCAGCGAGCTGGCGGTGCAGGTGTCCGAACAGTTCGTGCTCGGCCGTATCCGCCCGCGCCAGGACCACCAGCGGTTGCAGATCGCCAGCCGCTACGGGGTGAGCAACAAGAAGCTGGTGCAGGTGATCGGCGAGATGGAGCGCCACACCGAGCCGCCGCTGACCACCCTGGAGCTGGCCGAGCGAATCCAGGTGACCCGCCGCCAATTGGAGCGGTTGTTCCGTGTGCATCTGAAGGACACGCCGTCCAACTTCTACCTCGGCCTGCGCCTGGACAAGGCCCGCCACCTGCTGCGGCAGACTGACATGAGCGTGCTGGAAGTGAGTCTGGCCTGCGGCTTCGAATCCTCTTCCTATTTCTCCCGCAGCTACCGCGTGCGCTTCGGCTGCAGCCCGAGTCAGGACCGGGCGGTACTGCCGAAGCGTGGCGGGTGA	MAQDFWFLLLPGFSVMGFVSAVEPLRVANRFRGELYRWHVMSLDGGPVLASNGMSLNADGALEPLVRGDTLLVVAGFEPLKCYGPALERWLRKLDRDGVRLGGIDTGAFVLAEAGLLDGHRLTLHWEALDAFKESYPQLEATQELFEIDGSRITSAGGTASIDLMLDLIAQTHGSELAVQVSEQFVLGRIRPRQDHQRLQIASRYGVSNKKLVQVIGEMERHTEPPLTTLELAERIQVTRRQLERLFRVHLKDTPSNFYLGLRLDKARHLLRQTDMSVLEVSLACGFESSSYFSRSYRVRFGCSPSQDRAVLPKRGG	PGPT0021945_54	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARNITHINE_USAGE	PLANT_DERIVED_CARNITHINE_DEGRADATION,PGPT0021945-cdhR-K17736	NA	NA
BMS010_08730	441			hypothetical protein	ATGCACGTTTTCCGACATTCCCAACCGAATACCTCCATTTTCCGGCTCTTCGCCGCACTGGGCGCCGCCCTCGCCATGTTCGCCGGCCAGGCGGTAGCCGGTCCCTGCCCTTATGAATTCGCCCTGCGTGGCAAGACCGACCAGTTGTGGAAAAACGTCACCAACACCGCCTGGAACAACATGCTGCCGCCGCAGTGGGTGGACAAGGGCTTCCACTTCTACAGCCAGGCCCGCTCCCGCGGCCCGGCAAACGGCATCAACACCCCCGGCGACCTGGAGCTGGAAATCCACAAGAAAGTAGCGGAGGAACCGGAAGGCCATCCGAACCGCTGGCAGATCCTGCTGCCGATCCTGAATTCGAAGGGGGACAACCTGCGCGTCGTGTACGACTATGACGGAGGCAAGACCTCGAAGTGCGAGTTGGTCACGCTGAGCTTCTGA	MHVFRHSQPNTSIFRLFAALGAALAMFAGQAVAGPCPYEFALRGKTDQLWKNVTNTAWNNMLPPQWVDKGFHFYSQARSRGPANGINTPGDLELEIHKKVAEEPEGHPNRWQILLPILNSKGDNLRVVYDYDGGKTSKCELVTLSF				NA	NA	NA	NA	NA
BMS010_08731	978			hypothetical protein	ATGAGCCCAGCCGAACTGCACGCCGACAGCATCGTCATCGACGGTCTGATCATCGCCAAATGGAACCGCGAACTCTTCGAGGACATGCGCAAGGGCGGCCTGACCGCGGCCAACTGCACCGTGTCCGTCTGGGAGGGCTTCCAGGCGACGGTTAACAATATAGTCGCGAGCAACAAGCTGATCCGCGAGAACAGCGACCTGGTGATCCCGGTCCGCACCACCGCCGATATCCGCAAGGCCAAGGAGCAGGGCAAGACCGGCATCCTCTATGGCTTCCAGAACGCCCATGCGTTTGAGGATCAGATCGGCTACGTGGAGGTGTTCAAGCAGTTGGGCGTGGGCATCGTGCAGATGTGCTACAACACCCAGAACCTGGTCGGCACCGGTTGCTACGAGCGTGACGGCGGCCTCTCCGGCTTCGGTCGCGAGATCGTCGCCGAGATGAACCGCGTCGGCATCATGTGCGACCTGTCCCACGTCGGCTCCAAGACCAGCGAGGAAGTCATCCTCGAGTCGAAGAAGCCGGTCTGCTACTCCCACTGCCTGCCGTCGGGCCTGAAAGAGCACCCGCGCAACAAGTCCGACGAAGAGCTGAAGTTCATCGCCGACCACGGCGGCTTCGTCGGCGTGACCATGTTCGCGCCGTTCCTGGCCAAGGGCATCGACTCGACCATCGACGACTACGCCGAGGCCATCGAGTACGTGATGAATATCGTCGGCGAGGATGCCATCGGCATCGGTACCGACTTCACCCAGGGTCACGGCAAGGACTTCTTCGAGTGGCTGACCCACGACAAGGGCTACGCCCGCCGCCTGACCAACTTCGGCAAGATCGTCAACCCGCTGGGCATCCGCACCGTGGGCGAATTCCCCAACCTCACCGAGACCCTGCTCAAGCGCGGCATGCCCGAGCGCGTGGTGCGCAAGGTGATGGGTGAGAACTGGGTACGGGTTCTCGCCGACGTCTGGGGCGAATAA	MSPAELHADSIVIDGLIIAKWNRELFEDMRKGGLTAANCTVSVWEGFQATVNNIVASNKLIRENSDLVIPVRTTADIRKAKEQGKTGILYGFQNAHAFEDQIGYVEVFKQLGVGIVQMCYNTQNLVGTGCYERDGGLSGFGREIVAEMNRVGIMCDLSHVGSKTSEEVILESKKPVCYSHCLPSGLKEHPRNKSDEELKFIADHGGFVGVTMFAPFLAKGIDSTIDDYAEAIEYVMNIVGEDAIGIGTDFTQGHGKDFFEWLTHDKGYARRLTNFGKIVNPLGIRTVGEFPNLTETLLKRGMPERVVRKVMGENWVRVLADVWGE	PGPT0020950_3050	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020950-acdP-K01273	NA	NA
BMS010_08732	531			hypothetical protein	ATGTCCACCCACGCCCCCGAAATGCCCATCCTGGTCGACGACGAAACCGGCGTCTGGACCACCGACGCGTTGCCGATGCTCTATGTGCCGCGCCACTTCTTCGTCAACAACCACATCGGTATCGAAGAAGAGTTGGGCGCCGAGCGCTACGCCGAGATTCTCTACAAGGCCGGCTACAAGTCCGCCTGGCACTGGTGCGAGAAAGAGGCCGAGTGCCATGGCCTGGTTGGCGTCGAGGTCTACGAGCACTACATGAAGCGCCTGTCGCAGCGCGGCTGGGGCCTGTTCAAGATCGAAGAGATCGACGTCGACGCCGGCACCGCCCGGGTCCGTCTCGACCACTCGGCCTTCGTTTATGTCTACGGCAAGTGCGGCCGCAAGGTGGACTACATGTTCACCGGCTGGTTCGCCGGCGCCATGGACCAGATCCTCGCTGCCAAGGGCAGCCCGATCCGTACCGTTGCCGAACAGGTCTACGGTGCCTCGGAAGAAGGCCGCGATCACGGCCTGTTCGTCGTCAAGCCGCTGTAA	MSTHAPEMPILVDDETGVWTTDALPMLYVPRHFFVNNHIGIEEELGAERYAEILYKAGYKSAWHWCEKEAECHGLVGVEVYEHYMKRLSQRGWGLFKIEEIDVDAGTARVRLDHSAFVYVYGKCGRKVDYMFTGWFAGAMDQILAAKGSPIRTVAEQVYGASEEGRDHGLFVVKPL				NA	NA	NA	NA	NA
BMS010_08733	2076	stcD_2		putative N-methylproline demethylase	ATGGCCTTCGAAGCAATGTTCCAGCCGATCCAGATCGGCAAACTGACCATCCGCAACCGCGTGCTCTCCACCGCGCACGCCGAGGTTTATGCCACCGATGGCGGCATGACCACCGAGCGCTACGTGAAGTACTACGAGGAGAAGGCCAAGGGCGGCATCGGCTTGGCCATCTGCGGCGGCTCTTCCGTCGTGGCCATCGACAGCCCGCAGGGCTGGTGGAAGTCGGTGAACCTGTCCACCGACCGGATCATCCCGCACTTCCAGAACCTGGCCGACGCCATGCACAAGCACGGCGCCAAGATCATGATCCAGATTACCCACATGGGCCGCCGTTCCCGTTGGGATGGCGAGCACTGGCCGACCCTGATGTCGCCGTCCGGCATCCGCGAGCCCGTGCACCGCGCCACCTGCAAGACCATCGAGCCGGAAGAGATTTGGCGGGTGATCGGCAACTACGCCCAGGCCGCGCGCCGGGCAAAGGAAGGCGGCTTGGATGGCGTCGAGCTGTCCGCCGTGCACCAGCACATGATCGACCAGTTCTGGAGCCCGCGCGTCAACAAGCGCGACGATGAATGGGGCGGCAGCTTCGAGAACCGCATGCGCTTCGGCCTGGAAGTGCTCAAGGCGGTGCGGGCCGAGGTCGGCGACGACTTCTGCGTCGGCATGCGTATCTGCGGTGATGAGTTTCACCCGGACGGTCTGACCCATGAAGACATGAAGCAGATCGCCAAGTACTACAGCGACACCGGCATGCTCGACTTCATCGGTGTGGTCGGTTCCGGTTGCGATACCCACAACACCCTGGCGAACGTCATCCCGAACATGACCTACCCGCCGGAGCCGTTCCTGCACCTGGCGGCGGGCATCAAGGAAGTGGTCAACGTGCCGGTGCTGCACGCACAGAACATCAAGGACCCGAACCAGGCCACGCGCATCCTCGAAGGCGGCTATGTGGACATGGTCGGCATGACCCGTGCGCACATCGCCGACCCGCACCTGATCGCCAAGATCAAGATGGGCCAGGTCGACCAGATCAAACAGTGCGTCGGTGCCAACTACTGCATCGACCGTCAGTACCAGGGCCTCGACGTTCTCTGCATCCAGAACGCCGCGACGTCCCGCGAGTACATGGGCGTGCCGCACATCATCGAGAAGTCCACCGGGCCGAAGCGCAAGGTGGTGGTGGTGGGCGGCGGCCCGGCCGGCATGGAGGCGGCACGCGTCTCCGCCGAGCGTGGCCACGACGTGACCCTGTTCGAGAAGAAGGACCAGCTCGGCGGCCAGATCACCACGGCCTCCAAGGCACCGCAGCGCGACCAGATCGCCGGCATCACCCGCTGGTTCCAGCTGGAGCTGGCGCGGCTGAACGTCGACCTGCGCCTGGGCACCGCGGCGGACGCCGAGACCATCCTCGACCTCAAGCCGGACGTCATCGTCCTGGCCAACGGCGGCCATCCGTTCCTCGAGCAGAACGAGCACTGGGGCGCGGCCGAAGGGCTGGTGGTGAGCAGTTGGGACATCCTCGACGGCAAGGTGGCGCCCGGCAAGAACGTGCTGGTCTACGACACCATCTGCGAGTTCAGCGGCATGTCGGTGGCGGACTTCCTCGCCGACAAGGGCGCCCAGGTGGAGATCGTCACCGACGACATCAAGCCCGGCGTGGCCATCGGCGGTACGACTTTCCCGACCTACTACCGCAGCATGTACCCGAAGGAAGTGATCATGACCGGCGACCTGATGCTGGAAAAGGTCTACCGCGAGGGCGACAAGCTGGTGGCGGTGCTGGAGAACGAATACACCGGCGCCAAGGAAGAGCGGGTGGTCGACCAGGTTGTCGTGGAAAACGGCGTGCGCCCGGACGAAACGCTCTACTACGCACTCAAGCAGGGCTCGCGCAACAAGGGGCAGATCGACGTGGAGAAACTCTTCGCGATCCAGCCGCAGCCGTGCCTGTCCGCTCTTGATGGAAAGGCGGGGGGCGACGGCTACCTGCTGTTCCGCATCGGCGACTGCGTGGCCCAGCGCAACACCCATGCGGCGATCTATGACGCGCTGAGACTCTGCAAGGATTTTTGA	MAFEAMFQPIQIGKLTIRNRVLSTAHAEVYATDGGMTTERYVKYYEEKAKGGIGLAICGGSSVVAIDSPQGWWKSVNLSTDRIIPHFQNLADAMHKHGAKIMIQITHMGRRSRWDGEHWPTLMSPSGIREPVHRATCKTIEPEEIWRVIGNYAQAARRAKEGGLDGVELSAVHQHMIDQFWSPRVNKRDDEWGGSFENRMRFGLEVLKAVRAEVGDDFCVGMRICGDEFHPDGLTHEDMKQIAKYYSDTGMLDFIGVVGSGCDTHNTLANVIPNMTYPPEPFLHLAAGIKEVVNVPVLHAQNIKDPNQATRILEGGYVDMVGMTRAHIADPHLIAKIKMGQVDQIKQCVGANYCIDRQYQGLDVLCIQNAATSREYMGVPHIIEKSTGPKRKVVVVGGGPAGMEAARVSAERGHDVTLFEKKDQLGGQITTASKAPQRDQIAGITRWFQLELARLNVDLRLGTAADAETILDLKPDVIVLANGGHPFLEQNEHWGAAEGLVVSSWDILDGKVAPGKNVLVYDTICEFSGMSVADFLADKGAQVEIVTDDIKPGVAIGGTTFPTYYRSMYPKEVIMTGDLMLEKVYREGDKLVAVLENEYTGAKEERVVDQVVVENGVRPDETLYYALKQGSRNKGQIDVEKLFAIQPQPCLSALDGKAGGDGYLLFRIGDCVAQRNTHAAIYDALRLCKDF	PGPT0021970_155	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_STACHYDRINE_USAGE	PLANT_DERIVED_STACHYDRINE_DEGRADATION,PGPT0021970-hpbA-K22551	NA	NA
BMS010_08734	1962			hypothetical protein	ATGTTGAACACCCTTCTCCCCATCCTGCTTTTCGCCGCCTTGGGCCTGGCCGTCCTCGGTGCTGTGAAGCGCTTCGTCATGTGGCGCCGCGGCCGGCCGTCGAAGGTCGACTGGATCGGCGGCCTGCTGAAAATGCCGCGTCGCTACCTGGTGGACCTGCACCACGTGGTCGAGCGCGACAAGTACATGTCCAAGACCCACGTCGCCACTGCCGGCGGCTTCGTCCTGGCGGCACTGCTGGCGATCGTCGTGCACGGTTTCGGCCTGCATAACCGCATCCTCGGCTTCGCCTTGCTGGCGGCCACGGTGCTGATGTTCGTCGGCGCCCTGTTCGTCGCCAAGCGCCGGCGCAACCCGCCGAGCCGGCTGTCGAAGGGCCCGTGGATGCGCCTGCCGAAGAGCCTGCTGATGTTCTCGGTGAGCTTCTTCATCGCCACCCTGCCGGTTGCCGGCATCCTGCCGGAAGGTTTCGGTGGCTGGATTCTCGCTGCCATCCTGGCCGTGGGCGTGGCCTGGGGCGTGTCCGAGCTGTTCTTCGGCATGACCTGGGGCGGGCCGATGAAGCACGCCTTCGCCGGTGCCCTGCACCTGGCCTGGCACCGTCGAGCCGAGCGCTTCGGCGGCGGCCGTTCCACCGGTCTCAAGGCCCTCGACCTGGACGACCCGAAGGCGCCGCTGGGCGTGGAAAAGCCCACCGATTTCACCTGGAACCAGTTGCTCGGCTTCGACGCCTGCGTGCAGTGCGGCAAGTGCGAGGCCATGTGCCCGGCCTTCGCCGCCGGCCAGCCGCTCAACCCGAAGAAGCTGATCCAGGACATGGTCATCGGCCTGGCTGGTGGCAACGACGCCAAGTTCGCCGGCTCTCCGTACCCTGGCATCCCGCTCGGCGAGCATGGCGGCGGTCCGCACCAGCCGATCGTGGTCCAGGGCGGCAAGGGGCTGGTGGAGGCGGATACCCTCTGGTCCTGCACCACCTGCCGCGCCTGCGTCGAGGAGTGCCCGATGATGATCGAGCACGTCGATGCCATCGTCGACATGCGCCGTCATCTCACCCTGGAAAAGGGCTCGACCCCGAACAAGGGAGCCGAGGTGCTGGACAACCTGATCGCTACCGACAACCCCGGCGGCTTCAACCCCGGTGGCCGGCTCAACTGGGCGGCCGACCTCAACCTGCCGCTGATGAGCGAGAAGGGCGAGGCCGAGGTGCTGTTCTGGGTTGGCGACGGTGCCTTCGACATGCGCAACCAGCGCACCCTGCGCGCCTTCGTGAAGATTCTCAAGGCGGCCAAGGTGGACTTTGCCGTGCTCGGCCTGGAAGAACGCGACAGCGGCGACGTGGCGCGTCGGCTGGGTGACGAGGCGACCTTCCAGACCCTGGCCAAGCGCAATATCGCCACCCTGGCCAAGTACCGCTTCCAGCGCATCGTCACTTGCGACCCGCACAGTTTCCATGTGCTGAAGAACGAATACGGCGAACTGGGCGGCCGTTACGAAGTGCTGCACCACAGCACCTACATCGCCACCCTGATGTCCCGCAATCTGCTGGACCTCGGCCAGCACAAAGGCGGCAGCGTGACCTACCACGATCCCTGCTACCTGGGCCGCTACAACGGCGAGTACGAAGCGCCGCGCGCCGTGCTCAAGGCCATCGGCATCGAGGTGAAGGAAATGGAACGCTCCGGCTTCCGCTCGCGTTGCTGCGGCGGTGGCGGCGGTGCGCCGATCACCGACATCCCCGGCAAGCAGCGGATTCCCGACATGCGCATGGTCGACATCAAGGAAACCGGCGCCGAACTGGTGGCCGTGGGCTGCCCGCAGTGCACCGCCATGCTCGAAGGCGTGGTCGCCCCGCGGCCGGAAATCAAGGACATCGCCGAGCTGGTGGCCGACGTGCTGATCGAGGCACCCGCACCGGTGAAGAAGCCGGTGGTGGCGAAGGCTGAGTTGGAGGGGGTGCAGTGA	MLNTLLPILLFAALGLAVLGAVKRFVMWRRGRPSKVDWIGGLLKMPRRYLVDLHHVVERDKYMSKTHVATAGGFVLAALLAIVVHGFGLHNRILGFALLAATVLMFVGALFVAKRRRNPPSRLSKGPWMRLPKSLLMFSVSFFIATLPVAGILPEGFGGWILAAILAVGVAWGVSELFFGMTWGGPMKHAFAGALHLAWHRRAERFGGGRSTGLKALDLDDPKAPLGVEKPTDFTWNQLLGFDACVQCGKCEAMCPAFAAGQPLNPKKLIQDMVIGLAGGNDAKFAGSPYPGIPLGEHGGGPHQPIVVQGGKGLVEADTLWSCTTCRACVEECPMMIEHVDAIVDMRRHLTLEKGSTPNKGAEVLDNLIATDNPGGFNPGGRLNWAADLNLPLMSEKGEAEVLFWVGDGAFDMRNQRTLRAFVKILKAAKVDFAVLGLEERDSGDVARRLGDEATFQTLAKRNIATLAKYRFQRIVTCDPHSFHVLKNEYGELGGRYEVLHHSTYIATLMSRNLLDLGQHKGGSVTYHDPCYLGRYNGEYEAPRAVLKAIGIEVKEMERSGFRSRCCGGGGGAPITDIPGKQRIPDMRMVDIKETGAELVAVGCPQCTAMLEGVVAPRPEIKDIAELVADVLIEAPAPVKKPVVAKAELEGVQ				NA	NA	NA	NA	NA
BMS010_08735	1224	fixB		Protein FixB	ATGACCATCATCCGCCGCGATCCCCGCGCCGAGTGGATCGCCCGCAACCGCCTGCACCCGCTGCACGGCAAGCTGCAGCAGGCCGAGGCCCGCTGGATGGGCCCCAACGGCCTGATCCGCAAGAATCCCCATGCCGTCGGCTTCATCGGGCCCAACGGCATCAAGCGCATCGACCGCTCTGGCGCGCAGCAGGGCGGTAGCGCCCGCCAGCGTTCCGCCGCCGTCGAGGCCGTGCAACTGCCGCTGCACGTGGTCGCCCAGCCGGCGCACTACATCTGCGTGGTGCCGGACATGGTCGGTGGACGCCTGTCCAGCCACGACAAGGACCTGCTCGGCCTTGCCCGTCAGCTCGCCGGCAACGACGGTGCGGTACTGGCGGTGGTGTTCGGCGAGCACAAGGAAGGCGCCTTCGACACGGCCGGTGTGGACCGCCTGCTGCTGATCCAGGGCGAGGAATACGAAGGCTATGCGCCGGAACAGCGCATCCAGGCCCTGGCGGCGGTGGAGCGGCAGTTCGCGCCACGCCACTGGCTGCTGCCCGACAGCCGCATGGGCGGTGCCGAGCTGGGCCGCCGGCTGGCCGCCAAGCTGGGCGAGCGCCCGGCCACGCGGGTCTGGCAGGTGGAGGGCGAACGCTGTGTCGGCCGCGCCGGCGCCGGTCGCGAAGACCTGCACCGCGCCTTGCCGCGGCTCATCCTGGCTGCCGCCGAATGCGCCGAGCCGGTGGGCGAGACCCGTCACGAAGCACTGCCGCTGTCCCTGGACAACAGCGTTGCCCGCAGCCTGCCACGCATCGAAGACCTCGGTCCGGTGGCCGTGGACCCGGCGCAGATTCCCATGGCCGAAGCCGAGTTCATCCTCTCCGGCGGCAATGGCGTGAAGAACTGGGACCTGTTCCACCAGGCCGCCCAGGCCCTCGGTGCCACCGAAGGCGCTTCCCGCGTGGCGGTGGACGATGGCTTCATGCCGCGTAATCGCCAGGTCGGCGCCACCGGTACCTGGGTCACCGCGCGGGTCTACCTGGCGGTGGGCATCTCCGGGGCGATCCAGCACCTGCAAGGCATCGGTGCCTGCGACAAGGTGGTGGCGATCAACCTCGACCCCGGTTGCGACATGATCAAGCGCGCCGATCTTTCGGTGATCGGCGACTCGGCGGCGATCCTCCAGGCTCTGATCGAGAAGGTCAGCGCCTGGCGGCAGGGAGGGGCGCGCGATGCGGCCTGA	MTIIRRDPRAEWIARNRLHPLHGKLQQAEARWMGPNGLIRKNPHAVGFIGPNGIKRIDRSGAQQGGSARQRSAAVEAVQLPLHVVAQPAHYICVVPDMVGGRLSSHDKDLLGLARQLAGNDGAVLAVVFGEHKEGAFDTAGVDRLLLIQGEEYEGYAPEQRIQALAAVERQFAPRHWLLPDSRMGGAELGRRLAAKLGERPATRVWQVEGERCVGRAGAGREDLHRALPRLILAAAECAEPVGETRHEALPLSLDNSVARSLPRIEDLGPVAVDPAQIPMAEAEFILSGGNGVKNWDLFHQAAQALGATEGASRVAVDDGFMPRNRQVGATGTWVTARVYLAVGISGAIQHLQGIGACDKVVAINLDPGCDMIKRADLSVIGDSAAILQALIEKVSAWRQGGARDAA	PGPT0001040_195	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001040-fixB|etfA-K03522	NA	NA
BMS010_08736	774			hypothetical protein	ATGACTGACCTGAACATCGTCACTCTGGTATCGGTCGGCGCCCACCCGACCTCCGGCCGCGCACGCCGCGCCGAGCAGGACGCCCGCGCCGTGGAGCTGGGCCTGCGCCTGGCCGGTGAGCACCTGCGCGTGGTACATGCCGGCGACCCCCGTGAGGAAGCGCTGCGTGCCTACCTCGGCATGGGCCTGCCTGAACTGACCGTGCTGGAACAGCCGGCCGGCGCCGACGCGCTGCCGGCGCTGGCCGACTTCCTGGCGGAGGCCGGCGCCCAACTGGTGCTCACCGGCAGCCAGGCGGAGACCGGCGAGGGCTCCGGCCTGCTGCCCTACCTGCTCGCCGAGCGCCTCGGTTGGCCGCTGGTGGTGGGGTTGGCCGCGGTGGAGAAAGTCGAACAGGGCCATGCCCAGGTGCTGCAAGCACTGCCGCGTGGCCAGCGTCGCCGATTGAAGGTGCGCCTGCCGTTCCTCGCCAGCGTCGACAACGCCGCCCCGGTCGCCCGCCAGAGCGCCTTCGGCCCGGCCCGGCGCGGCGAGCTGCAGGTGGAAGCGGTGCCGGCGCTCACCGACGAACTGTTCGTCGATGCCCAACTGCAACCGGCGCGCCCACGGCCCAAGCGGCTGAAGGTGATCAAGGCGAAGACCGCTGCCGACCGCTTCAAGGCCGCCACGGCCAAGGCGTCCGGCGACGGCGGCCAGGTCCTGCGCGACCTGACGCCCGAGGCGGGGGCCGAGGCGATCTTCAAGTTGCTGGTGGAGGAAGGGGTGGTGCGGTAG	MTDLNIVTLVSVGAHPTSGRARRAEQDARAVELGLRLAGEHLRVVHAGDPREEALRAYLGMGLPELTVLEQPAGADALPALADFLAEAGAQLVLTGSQAETGEGSGLLPYLLAERLGWPLVVGLAAVEKVEQGHAQVLQALPRGQRRRLKVRLPFLASVDNAAPVARQSAFGPARRGELQVEAVPALTDELFVDAQLQPARPRPKRLKVIKAKTAADRFKAATAKASGDGGQVLRDLTPEAGAEAIFKLLVEEGVVR	PGPT0001035_1997	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001035-fixA|etfB-K03521	NA	NA
BMS010_08737	189			hypothetical protein	ATGACCCAATCTTCCCCGCCTGCCGATGCCGATCTGCCTGTCTGGTCCGTGGTACGCCTGGACGACAACGGCAACCGCTTTCTCGTCAGCGCCGGCCATACCTATGCCGACGCGCAAGCCATCGCCCACGACTTCCAGGCGAAGGGCCACAAGCAACTGTACGAAGTGAAGCGCCAGGAGCGGGACTGA	MTQSSPPADADLPVWSVVRLDDNGNRFLVSAGHTYADAQAIAHDFQAKGHKQLYEVKRQERD				NA	NA	NA	NA	NA
BMS010_08738	1293			Carnitine monooxygenase oxygenase subunit	ATGAGCACTACCACTACCCTGAGCCTGGGCGACCCGCTGGAGCCGGCACGCAAAGCCACCGCCGAGATGCTGCAGACTCGCGACCATACCTTCTCCCTGCCGCAGCCGTTCTACAACGACGAGCGCCTGTTCCAGATCGACATGCAGGAGATCTTCCTGAAGGAATGGCTGATCGCTGGCATGACCTGCGAAATCCCGGCCAAGGGTAACTACCTGACCCTGCAGATCGGCGACAACCCGATCATTGTGATCCGCGGCGCCGAAGGGAAAATCCACGCTTTCCATAACGTCTGCCGCCACCGCGGCTCGCGCCTGTGCGTAAGCGACAAGGGCAAGGTGGCCAAGCTGGTCTGCCCCTACCACCAGTGGACCTACGAGCTGGACGGCCGCCTGCTGTTCGCCGGCACCGAGATGGGCGCCGACTTCGACATGAACCAATACGGCCTCAAGCCGGTGAACTGCAAGAGCGCTGGCGGCTACATCTTCGTCTCGCTGGCGGATGAGCCGCCGGCCATCGATGACTTCCTGCGTACGCTCGAGCACTACATGGAGCCGTACGACATGGAGAACACCAAGGTGGCGGTTTCCACCACGCTGATGGAAAAGGCCAACTGGAAGCTGGTGATCGAAAACAACCGCGAGTGCTACCACTGCAACGGTTCGCACCCCGAGCTGCTGAACACCCTGCTGGAGTGGGACGACGTCACCGACCCGCGCGCCGACCAGGCGTTCAAGGACCACGTGGCCGCCTCCGCCGCCGCCTGGGACGCGGAGAAGATCCCCTACGCCCACGCCAGCTTCGGCCTGCGCAACCGCATCGTGCGCATGCCGCTGCTCAAGGGCACCGTGTCCATGACCATGGACGGCAAGCCCGGCAGCAAGAAGCTGATGGGCCGCATCCAGAACCCGGACCTGGGCTCCATGCGCATCCTGCACCTGCCGCATTCGTGGAACCACTGCATGGGCGACCACCTGATCAACTTCACCGTGTGGCCGATCAGCGCACAGGAAACCATGGTCACCACCAAGTGGCTGGTGCACAAGGACGCGGTGGAAGGTGTCGACTACGACATCGCCCGCCTGCGCGAAGTCTGGGACGCCACCAACGACCAGGACCGTCGCCTCGCCGAAGAAAACCAGCGCGGCATCAACTCCACCGCCTACCAGCCGGGTCCGTACTCGAAGACCTACGAGTTCGGCGTGATCAACTTCCTCGACTGGTACAGCGAGCGCATGCTCAACAACCTGGGCGTGGAAGAAGCCGCGCCGCAACTGCGCCAGGTCGGCGAATAA	MSTTTTLSLGDPLEPARKATAEMLQTRDHTFSLPQPFYNDERLFQIDMQEIFLKEWLIAGMTCEIPAKGNYLTLQIGDNPIIVIRGAEGKIHAFHNVCRHRGSRLCVSDKGKVAKLVCPYHQWTYELDGRLLFAGTEMGADFDMNQYGLKPVNCKSAGGYIFVSLADEPPAIDDFLRTLEHYMEPYDMENTKVAVSTTLMEKANWKLVIENNRECYHCNGSHPELLNTLLEWDDVTDPRADQAFKDHVAASAAAWDAEKIPYAHASFGLRNRIVRMPLLKGTVSMTMDGKPGSKKLMGRIQNPDLGSMRILHLPHSWNHCMGDHLINFTVWPISAQETMVTTKWLVHKDAVEGVDYDIARLREVWDATNDQDRRLAEENQRGINSTAYQPGPYSKTYEFGVINFLDWYSERMLNNLGVEEAAPQLRQVGE	PGPT0013680_160	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013680-gbcA-K00479	NA	NA
BMS010_08739	1101	hcr_2	COG1018	NADH oxidoreductase HCR	ATGTCGAACAGCTTCCTCAACCCGGTCAACACCCAGACCTGGACCAACGGCCGCCATCTAGTGCGCTGCGTCAAGGTGATCCAGGAAACCTGGGACGTGCGCACCTTCTGTTTCATGGCCGACCAGCCGATCCTGTTCTTCTTCAAGCCCGGGCAGTTCGTCACCCTGGAGCTGGAGATCGACGGGCAGCCGATCATGCGCTCCTACACCATCTCCAGCTCGCCGTCGGTGCCCTACAGCTTCTCCATCACCATCAAGCGCGTGCCGGGCGGCAAGGTTTCCAACTGGCTGCACGACAACCTCAACGAGGGCGACATGCTGCCGGTGCATGGGCCGGTGGGGTTGTTCAATGCCATCGATTTCCCGGCGGACAAGGTGCTGTTCCTCAGCGGCGGCGTCGGCATCACCCCGGTGATGTCCATGGCGCGCTGGTTCTTCGACACCAACGGCAACGTGGACATGGTGTTCGTCCACAGCGCCCGCACGCCGAAGGACATCATCTATCACCGCGAGCTGCGCCACATGGCCTCGCGCATCAACAACTTCAAGCTGCACCTGATCTGCGAGCGCTACGAGATCGGCGAAACCTGGTCCGGCTACCGCGGCTACCTGAGCCAGCCGATGCTGGAGCTGATCGCGCCGGACTTCAAGGAACGGGAGATCTTCTGCTGCGGCCCGACGCCCTACATGAATGCCGTCAAGCGCCTGCTGGAAGCCAATGGCTTCGACATGAAGCGCTACCACGAGGAATCCTTCGGGGCGACGCCGGCCGACGTGAGCGAAGAGGTCAGGGAACTGGCCGCCGAAGCCGCCGAGGCGCCGGAAATTCCGGCGGGCGACCTGCACCAGGTGTCCTTCACCAGCACCGGCAAGAGCATCCGCGTGGCGCCCGGCGAGACCGTGCATGCCGCCGCCGCCAAGCTCGGCCTGCATATTCCGAAGGCCTGCGGCATGGGTATCTGCGGCACCTGCAAGGTGATGAAGACCTCCGGCGACGTCGACATGGAGCACAACGGCGGGATCACCGACGAGGATGTGGCCGAGGGCTACATCCTGTCCTGCTGCAGTGTGCCTAAGGGCGATGTCAGCATCGACTATTGA	MSNSFLNPVNTQTWTNGRHLVRCVKVIQETWDVRTFCFMADQPILFFFKPGQFVTLELEIDGQPIMRSYTISSSPSVPYSFSITIKRVPGGKVSNWLHDNLNEGDMLPVHGPVGLFNAIDFPADKVLFLSGGVGITPVMSMARWFFDTNGNVDMVFVHSARTPKDIIYHRELRHMASRINNFKLHLICERYEIGETWSGYRGYLSQPMLELIAPDFKEREIFCCGPTPYMNAVKRLLEANGFDMKRYHEESFGATPADVSEEVRELAAEAAEAPEIPAGDLHQVSFTSTGKSIRVAPGETVHAAAAKLGLHIPKACGMGICGTCKVMKTSGDVDMEHNGGITDEDVAEGYILSCCSVPKGDVSIDY	PGPT0013685_342	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013685-gbcB-K21832	NA	NA
BMS010_08740	300			hypothetical protein	ATGAAAGCGCCCGCCGCCTGCCTCGCCCTGGCTCTCTGCACGCCGCTGGTGGTCGCCCAGGAGCGCCCGCCCGGCTCTCCCGGCACGCCGACACCGCAACCCTATGGCCAGCCGGCACCCATCACGCCGCGTCCGTCGGCGGACCGGTTGCCGCTGATCAACGACGGCGGCAACCGCAACCTGCCCAGGCCGAAGGAAAACATGCGCCAGGAATCCCTGCCGCTGTTGCGGGAGCGGCTGGAGCGCGACGCCACGCCCCGGACGCAGCCGAATGAAGAAGAGCGCCGACGCCGGCCGTGA	MKAPAACLALALCTPLVVAQERPPGSPGTPTPQPYGQPAPITPRPSADRLPLINDGGNRNLPRPKENMRQESLPLLRERLERDATPRTQPNEEERRRRP				NA	NA	NA	NA	NA
BMS010_08741	210			hypothetical protein	ATGTCTTTCGACCAGAATGCATTCCAGACCCTGCTCCGCCAGGCCCGCGAACACGCCGACAACGCCGCCGCGCAGAACGATCCCCTGCTTTACCGCGATGCCTTCCTGGCCACTTTGCAGGCCTTGGAAATGGTCGCCGGGGAAGCGGGTGGCTGGCGTGAAATGGTGGTGAGGGCAACCGAGGAGTACATGGGCGACGAGGGCATCTGA	MSFDQNAFQTLLRQAREHADNAAAQNDPLLYRDAFLATLQALEMVAGEAGGWREMVVRATEEYMGDEGI				NA	NA	NA	NA	NA
BMS010_08742	1050	ltaE_3		Low specificity L-threonine aldolase	ATGACAGACCCGACCCAACAGTTCGCCAGCGACAACTACTCCGGCATCTGCCCGGAAGCCTGGGCCGCGATGGCCGAAGCCAACCACGGCCACGAACGCGCCTACGGCGAGGACCAATGGACCGCCCGCGCCGCCGACCACTTCCGTCGGTTGTTCGAGACCGACTGCGAAGTCTTCTTCGCCTTCAACGGCACCGCCGCCAATTCCCTGGCCCTGTCCGCCTTGTGCCAGAGCTATCACAGCGTGATCTGCTCGGAGACCGCCCACGTCGAGACCGACGAATGCGGCGCCCCGGAATTCTTCTCCAATGGCTCCAAGCTGCTGCTGGCCGCCACCCAGGCCGGCAAGCTGACGCCCGCGGCGGTGCGCGAGGTGGCACTCAAGCGCCAGGACATCCACTACCCGAAACCCCGTGTGGTGACCCTCACCCAAGCCACCGAGGTGGGCACCGTCTACCGTCCCGATGAAATCCGCGCGATCAGCGAGACCTGCCGCGAACTCGGCCTGAACCTGCACATGGACGGCGCCCGTTTTGCCAATGCCTGCGCCTTCCTCGGCTGCTCGCCGGCGGAGTTGAGCTGGAAGGCCGGCGTCGACGTGCTCTGCTTCGGCGGTACCAAGAACGGCATGGCAGTGGGCGAGGCGATCCTGTTCTTCAACAAGGCCCTGGCCGAAGACTTCGACTACCGCTGCAAGCAGGCCGGCCAACTGGCCTCGAAGATGCGCTTCCTCTCCGCGCCCTGGGTCGGCCTGCTGCAGGACGACGCCTGGCTACACTACGCCGATCACGCCAACCGCTGCGCCCGTCTGCTCGCCGAGCGGGTCGCGGACATCCCCGGCGTGAGCCTGATGTTCCCGGTGGAAGCCAACGGTGTGTTCCTGCAACTCTCCGAACCCGCCATCGAAGCCCTGCGCGTCCGCGGCTGGCGCTTCTACACCTTCATCGGCAACGGCGGCGCGCGCTTCATGTGCTCTTGGGACACCCAGACCGAGCGCGTCGAGCAACTGGCGGCGGATATCCGCGACGTGATGATGGCCGCTCACGGCTGA	MTDPTQQFASDNYSGICPEAWAAMAEANHGHERAYGEDQWTARAADHFRRLFETDCEVFFAFNGTAANSLALSALCQSYHSVICSETAHVETDECGAPEFFSNGSKLLLAATQAGKLTPAAVREVALKRQDIHYPKPRVVTLTQATEVGTVYRPDEIRAISETCRELGLNLHMDGARFANACAFLGCSPAELSWKAGVDVLCFGGTKNGMAVGEAILFFNKALAEDFDYRCKQAGQLASKMRFLSAPWVGLLQDDAWLHYADHANRCARLLAERVADIPGVSLMFPVEANGVFLQLSEPAIEALRVRGWRFYTFIGNGGARFMCSWDTQTERVEQLAADIRDVMMAAHG	PGPT0020465_1808	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020465-ltaE-K01620	NA	NA
BMS010_08743	303			hypothetical protein	ATGCGCTATCACCCTCTGCTCGCCCTGTTCGCCTCCCTGGCCGTCACCCTGCCGGCGGCTGCTGCCGACTGGCCCGCCGGTGGCAAGGCGGATTTCATCAAGGAGTGCGTGGCCAGTTCCAAGTCCACCCATGGCGAGGACGCTGCGAAGGACTATTGCGAATGCGCTGCCGACAAGGTCAGCGATGAGTTCAGCGAAGCCGAGATGGAAGAGCTGCACAGCAAGACGGGCATTACGCCGCAGATGCAGCAGCGCCTGGTCAGTGCCTCGAGCAGTTGCCTGAGCGAGCTGAACCAGGAGTAA	MRYHPLLALFASLAVTLPAAAADWPAGGKADFIKECVASSKSTHGEDAAKDYCECAADKVSDEFSEAEMEELHSKTGITPQMQQRLVSASSSCLSELNQE				NA	NA	NA	NA	NA
BMS010_08744	765			hypothetical protein	ATGTTGCAGCACGACGTTTCCGACCTGACGGCCTGCCCGGAGCGGGCCGTCTCCCTGCCGCGCGATGCGGCGCTCGACCTGATCAAGTGGCTGGCCATGTTCAGCATGGTGCTGGACCACTTGCGCCATGTCTGGTTCGAGACCGCTTTCCTTTATGTCCCCGGGCGGCTGGCGTTTCCCTTCTTCTGCCTGGCCATCGCGGTGAACGTCGCGCGTCCGGTGGCGCCGGGACATTCGCCGATCCACGTGCGCTACCTGGGCTGGCTGCTGGCCTTCGCCGTGCTGTCCGAACTCCCCTATCGGTTGCTGGTGGAGCGGCCGGGAAGTCTCAATGTGCTGCCGACCCTCGCCCTCGGCATGCTGATCGCCAATGCCATGGCGCGGCCCGAGCGGATGGACCGGGGCCTGGGGCTGGTTGCCTTGCTGCTCGCAGCGTGGTTCCACGAGCACCTGATGTTCGGCCTCTTCGGCGCGGTGTTGCCTGCCGCCTTCCTGCTGGCACTGCGTGGCGAAGGCTGGAAACTGCTGCCCGGGGTGATCTGCCTGGCGGCGAACTATTGGTGGGAAATCTACGCCCGGGCATGGGCCCTGCAGCCGTTCGCCTGGCTGGTGATCGTCACCTGTTTCGTCGCACCTTTCATCGGATTGTGGTTGCTGCGCCATCCGCCACGCCTCCCGGTGCCACCCATGCGGCGCTGGGCGTACCTGCTCTATCCCGGGCATTTCCTGGCGCTCTGGGGGCTGCGCGAGTGGCTGGTCCGCTGA	MLQHDVSDLTACPERAVSLPRDAALDLIKWLAMFSMVLDHLRHVWFETAFLYVPGRLAFPFFCLAIAVNVARPVAPGHSPIHVRYLGWLLAFAVLSELPYRLLVERPGSLNVLPTLALGMLIANAMARPERMDRGLGLVALLLAAWFHEHLMFGLFGAVLPAAFLLALRGEGWKLLPGVICLAANYWWEIYARAWALQPFAWLVIVTCFVAPFIGLWLLRHPPRLPVPPMRRWAYLLYPGHFLALWGLREWLVR				NA	NA	NA	NA	NA
BMS010_08745	654			hypothetical protein	ATGAGTCTTTCGACCCGCCGGCGTGCCATCTATACCGGTCTCGCCGGTCATTTCTCCGAGGAGGAATTGCTGCCGCTGCTCTGGTTGTGGGAAACCAAGTATTCGGAAAAACCCTCTTTCGCCCTCAATGGGTTTCTCGCCGAAATCGCCGCGCTGAGCGAGCGCAAGCTGGAACGCGCTCGGCTATACCGCGAACTGGTGGGGGCCCTGAGCGGCCCCGTCAGTCAATTGCTGCCGGACCCCGAAGCCCGCCTGCAGGCTTGGCGTCGCAAGCATGGCGTGGTCGCGCCGAAGAGTGCGGCGAACGCGACGCCTGACGATCAGGCGCGGGAAACGTTCGAGGCGCTCGCCGATGCCCTGTTCGGCTTGGTCGACCCGGAGCGGCTGCCGCAACTGTGCCGGCAGGCGGCCAACAACCTGAATAGCCTGCGTACCGATGCCGGCGTACGACTGCGCCTGCGCAGTTGGTTGGACCAGTACGGCCGCCTGGGAGCGGCGGGGTTGGAGCTGGACCACCTGAAGATGCTGCTCAACCTGATCTACATCGGACTCTGCGAGCTGCTCGGCCCGGTACTGGCCGATCAGACATTGACCCGCGCGGTGCAGCAGGTGGAGCGGTTGGGGCTGCCGATGTCGCCGCAGAAGTTGTTGTAA	MSLSTRRRAIYTGLAGHFSEEELLPLLWLWETKYSEKPSFALNGFLAEIAALSERKLERARLYRELVGALSGPVSQLLPDPEARLQAWRRKHGVVAPKSAANATPDDQARETFEALADALFGLVDPERLPQLCRQAANNLNSLRTDAGVRLRLRSWLDQYGRLGAAGLELDHLKMLLNLIYIGLCELLGPVLADQTLTRAVQQVERLGLPMSPQKLL				NA	NA	NA	NA	NA
BMS010_08746	1296	amtB_4		Ammonia channel	ATGCGAGCATTTCTGTTGTTGTTTCTCACCCTGGGATTCGCCATACCGGCCAGCGCCGCTACCGACGAAGCCATCAACACGGGGTGGGTCGTCATTGCCAGCGCCCTGGTGTTCTTCATGCAGGCCGGCTTCGCCCTGCTGGAGAGCGGCATGGCGCGGGCCAAGAACGCCGTCAACGTGATGATGAAGAACTATATCGACAGCTGCGCCGGCGGCGTCGTCTTCTGGCTGGTGGGTTTCGGCCTGATGTTCGGCATCAATCGCAGCGGCTGGTTGGGCATGAGCCATTTCGCCACCAGCGAAGGGGAGCCTTGGGACTTCACCTTCCTCCTGTTCCAGCTGATGTTCGCTGCCACGGCGGCCACCATCGCCAGTGGCGCCATGGCCGAGCGGACGCGGTACGGCGCCTATCTGGTCGGCGCGATCCTGATTTGCGGCTTCATCTACCCGATGTTCGGTAGCTGGGCCTGGGGCGGTGTCTATGGTGGCCAGGGTTGGCTGGCGCGGCTCGGCTTCGTCGATTTCGCCGGTTCCACCGTGGTTCATGGCATTGGTGCCTGGTGCGCCCTGGCCGGCATCCTGGTGCTCGGCCCACGCCTGGGGCGCTTCGGGCCGGATGGCGAAGCGCGGGTCATCCCCGGTCATAACCTGGGCTTGGTTGCGCTGGGCGGTTTCGTGCTCTGGCTCGGCTGGTTCGGTTTCAACGCCGGCAGCGCCCTGGAAATGAACGTCAGCCTCGGGCTGATCGCCCTCAATACCCATCTGGCAGCTGCAGCCGGCGCGCTGGGTGCGGTGCTGGCGCTGCGCAGTTCCTCCAGCCCGGTTTTGCTGACCACTACGGTGAACGGTTCGCTCGGCGGCCTGGTGTCGGTGACGGCCGGCTGCGCCACCCTGGAGCCGTGCTTCGCCCTGCTGACCGGTTTGATCGCCGGTTTCCTGGTGGTGTTCGGCATGCGCCTGATGGAGCGCCTGCGGCTCGACGACGTGGTCGGCGCGGTGCCGGTTCACGGCTTCTCCGGTGCCTGGGGCACGCTGGCCGCCGGGCTGTTCTATGCGGGCGACCTGTTCGATCCGGCACGGGTCGGCGTGCAGTTGCTGGGTATCGCCTCGGCCTTCCTCTGGGCATTCCCGCTGGCGTTGATTATGTATCTGGTGATCGCCAAGACCATCGGCCTGCGTTCGTCGCCGCTGCACGAACAGCGCGGCCTGGATTATTCCGAGCATGCCGAGGTGGGGTATCCCGAGTTCAACCAGTCGGTAACGTTCGATAACAGCGAGCTGACGCGGAGGGGGTGA	MRAFLLLFLTLGFAIPASAATDEAINTGWVVIASALVFFMQAGFALLESGMARAKNAVNVMMKNYIDSCAGGVVFWLVGFGLMFGINRSGWLGMSHFATSEGEPWDFTFLLFQLMFAATAATIASGAMAERTRYGAYLVGAILICGFIYPMFGSWAWGGVYGGQGWLARLGFVDFAGSTVVHGIGAWCALAGILVLGPRLGRFGPDGEARVIPGHNLGLVALGGFVLWLGWFGFNAGSALEMNVSLGLIALNTHLAAAAGALGAVLALRSSSSPVLLTTTVNGSLGGLVSVTAGCATLEPCFALLTGLIAGFLVVFGMRLMERLRLDDVVGAVPVHGFSGAWGTLAAGLFYAGDLFDPARVGVQLLGIASAFLWAFPLALIMYLVIAKTIGLRSSPLHEQRGLDYSEHAEVGYPEFNQSVTFDNSELTRRG	PGPT0000840_5050	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-AMMONIUM_ASSIMILATION|USAGE	N-AQUISITION-AMMONIUM_TRANSPORT,PGPT0000840-amtB|ybaG|amt-K03320	NA	NA
BMS010_08747	2067			hypothetical protein	TTGAAGCTGGACCAGAAAAACAGCCTGTCCTTGAAGTTGCTCCGCGTGGTGCTGCTGTCCGCGCTGGCTGTCGGAGTCGTGCTGAGCTGTGCGCAGATCGTCTTCGATGTCTACAAGACACGCCAGGCCGTAGCCAACGACGCGCAACGTATCCTCGGCATGTTCCGCGACCCGTCGACCCAGGCGGTCTACAGCCTCGACCGGGAAATGGGCATGCAGGTCATCGAGGGCCTGTTCCAGCATGAATCCGTGCGCTTCGCCGCCATCGGCCATCCCAGCGAGCCCATGCTGGCGGAACGCTCGCGCGATCTGCTGGACCTGCCGACCCGCGTCCTCACCGACCGCATCCTCGGCAAGGAAAAGAGCTTCACCACCCAACTGGTCGGCCGCGGCCCGTACAGCGAATACTACGGCGACCTGACCATCACCCTGGACACCGCCCCCTACGGCGAGGACTTCGTCGCCAGTTCGGTGATCATCTTCGTCTCTGGCGTACTGCGCGCCCTGGCCATGGGCCTGGTGCTGTATCTGGTCTATCACCTGATGCTGACCAAGCCGCTGTCGAAGATCATCGAGCACCTGACCAACATCAACCCCGACCGCCCCAGCGAACACAAGCTGCCCATGCTCAAGGGCCACGAAAAGAATGAGCTGGGTCTATGGATCAACACCGCCAACCAGTTACTCGCCTCCATCGAGCGCAACAGCTACCTGCGTCGCGAAGCGGAAGACAGCCTGCTGCGCATGTCGCAGTACGACTTCCTCACTGGCCTGCCGAACCGCCAGCAACTGCAACAGCAGCTCGGCCAGATCATCGAGGATGCCGGCCGACTGCAACGCCGGGTCGCCGTGCTGTGCGTCGGCCTGGACGACTTCAAGGGCATCAATGAACAGTTCAGCTACCAGCTCGGCGACCAGTTGCTGCTGGCCCTGGCTGACCGCCTGCGCAGCCACAGCGGCCGTCTCGGCGCCCTTGCCCGCCTCGGCGGCGACCAGTTCGCCCTGGTCCAGGCGAACATCGAGCAGCCCTACGAAGCCGCCGAACTGGCACAGAACATCCTCGATGATCTGGAAATGCCGTTCGGCCTCGACCTCCAGGAAGTCCGCCTGCGCGCCACCATCGGCATCACCCTGTTCCCCGAAGACGGCGACAGCGCCGAGAAGCTGCTGCAGAAAGCCGAACAGACCATGACCCTGGCCAAGAGCCGCTCGCGCAATCGCTACCAGTTCTACATCGCCAGCGTCGACAGCGAGATGCGCCGCCGCCGCGAACTGGAAAAAGACCTGCGCGACGCCCTCGGCCGCGGCGAACTGCACCTGGTCTACCAACCACAGGTGGACTACCGCGACCACCACGTCAGCGGTGCCGAGGCGCTGCTGCGCTGGCAGCATCCACAGCATGGCCTGGTTCCGCCGGACCTGTTCATCCCCCTGGCTGAGCAGAACGGCAGCATCATCGCCATCGGCGAATGGGTGCTCGACCAGGCGTGCAAACAACTTCGCGATTGGCACGATCTGGGCTTCACCGAGCTGCGCATGGCGGTCAACCTGTCGACGGTGCAACTGCACCACACCGAGCTGCCCCGCGTGGTCAGCAACCTGATGCAGGTCTACCGCCTGCCATCGCGCAGCCTGGAACTGGAAGTCACCGAAACCGGCCTGATGGAAGACATCTCCACCGCCGCCCAGCACCTGCTCAGCCTGCGCCGCTCCGGTGCGCTGATCGCCATCGACGACTTCGGTACCGGCTACTCCTCACTGAGCTACCTGAAGAGCCTGCCGCTGGACAAGATCAAGATCGACAAGGGCTTCGTCCAGGACGTGCTGGAAGACGAAGACGACGCCACCATCGTCCGCGCCATCATCCAACTGGCCAGGAGCCTGGGCATGCAGGTGATCGCCGAGGGCGTGGAGACCGTCGAGCAGGAGGCCTACATCATCGCCGAAGGCTGCAACGAAGGTCAGGGCTACCTCTACAGCAAACCGCTGCCAGCCCGCGAACTGACCGTATTCCTCAAACAGGCCCGGCGCCTGACGTCGGTCGCGAGCAACCCGGCGACGTTCTGA	MKLDQKNSLSLKLLRVVLLSALAVGVVLSCAQIVFDVYKTRQAVANDAQRILGMFRDPSTQAVYSLDREMGMQVIEGLFQHESVRFAAIGHPSEPMLAERSRDLLDLPTRVLTDRILGKEKSFTTQLVGRGPYSEYYGDLTITLDTAPYGEDFVASSVIIFVSGVLRALAMGLVLYLVYHLMLTKPLSKIIEHLTNINPDRPSEHKLPMLKGHEKNELGLWINTANQLLASIERNSYLRREAEDSLLRMSQYDFLTGLPNRQQLQQQLGQIIEDAGRLQRRVAVLCVGLDDFKGINEQFSYQLGDQLLLALADRLRSHSGRLGALARLGGDQFALVQANIEQPYEAAELAQNILDDLEMPFGLDLQEVRLRATIGITLFPEDGDSAEKLLQKAEQTMTLAKSRSRNRYQFYIASVDSEMRRRRELEKDLRDALGRGELHLVYQPQVDYRDHHVSGAEALLRWQHPQHGLVPPDLFIPLAEQNGSIIAIGEWVLDQACKQLRDWHDLGFTELRMAVNLSTVQLHHTELPRVVSNLMQVYRLPSRSLELEVTETGLMEDISTAAQHLLSLRRSGALIAIDDFGTGYSSLSYLKSLPLDKIKIDKGFVQDVLEDEDDATIVRAIIQLARSLGMQVIAEGVETVEQEAYIIAEGCNEGQGYLYSKPLPARELTVFLKQARRLTSVASNPATF	PGPT0026015_115	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-c-di-GMP_SIGNALLING_PATHWAY,PGPT0026015-bifA-K21024	NA	NA
BMS010_08748	276			hypothetical protein	ATGGACAACCCCTTCAAGCGCATCAGCGATGTTTTCCAGGCCGATTACTTCGTCAACTTCAGCGTCGAGCGGCCCGACGGCAGTATCGTGCTCACCCTGTCCAACGCCAATGGCGTGGCGGTGAAGCGCTTCATCAGCGCCGAGCAACTGCGCGATCCGGAGAAGCTCGAGCGCTTCATCATGAGCGTCCGCTTCGGCCTGGCGATCGAGAATGGCGAGGCGTCCCCGGCCCTGCTGGCCTCGATGACCCAGGTCCGCGACGCGGTCCACGCCTGA	MDNPFKRISDVFQADYFVNFSVERPDGSIVLTLSNANGVAVKRFISAEQLRDPEKLERFIMSVRFGLAIENGEASPALLASMTQVRDAVHA				NA	NA	NA	NA	NA
BMS010_08749	1116	bkdC	COG0508	Dihydrolipoyllysine-residue acyltransferase component of branched-chain alpha-ketoacid dehydrogenase complex	ATGAAATATTTCAAACTGCCCGACCTGGGCGAAGGGTTGCAGGAAGCCGAGATCGTCGAATGGCACGTCAAGGTCGGCGACACGGTGAAGGCCGATCAACTGCTGGTGTCGGTGGAGACGGCCAAGGCGCTGGTGGATATTCCCGCTCCGCACGATGGCGTGGTGGCGAAGACCTTCGGCAACGAAGGCGACATTCTCCATGTGGGTGAGCCGCTGATGGCCTACGAGGGCGAAGGCGATGCCGGCACCGTGGTGGGGCGTCTGGAGGGCGGCGAGGGGGCCCGGGAGGACAGCTTCTTCGTCGGCGCGGCGCCTTCCACCCGCGAGCATATGGCGCCGCGGGCCACCCCGGCGGTGCGTCAGTTGGCCCGCCAGATGGGCGTGGAGCTGAGTGGGCTGAGCGGTTCCGGGCCGGACGGCCTGATCACCCGAACCGACGTGGAGGCGGCGGCCAAGCAGTCCAGCGATCGCTTCGGCGGCGAGAAGCTGCGCGGCGTGCGGCGTAGCATGGCAATCAACATGGCCAGGTCGCATGCCGAAGTGGTGCCGGTGAGCATCTATGCCGATGCCGACCTGTATCGCTGGAAGGAAGCGCGCGACCCGCTGATCCGTCTGGGCAAGGCGATTGCCGCGGCGATCCAGGCGGAGCCGGTGCTGAACAGTTGGTTCGATGGCCGCAGCCTGTCGATCCGCACCCACGAGAAGGTGGACCTGGGCATCGCCGTGGATACGCCGGACGGCCTGTTCGTGCCGGTGTTGCGCGACGTCGGGTCGCGTTCGGCGGAAGACCTCCGGCAAGGCATGGCGCGCTTGCGGGCGGATGTCCAGGCGCGTTCCATTCCGCCGCAGGAAATGATGGGAGCGACCATCACCCTGTCCAACTTCGGCACCCTGTTCGGCCGCTACGCCAACCCCGTGGTGGTGCCACCGCAGGTGGCGATCCTCGGTGCGGGCGGTATTCGTGACGAACCGGTGGCGATGAACGGCGAAGTGGTGGTCCACCCGATCCTGCCGCTGTCGCTGACCTTCGACCACCGGGCGGTGACCGGGGGCGAGGCGGCCCGTTTCCTCAAGGCATTGGTGCGGGCATTGGAGGAGCCGGAAGGCGCGGCCTAG	MKYFKLPDLGEGLQEAEIVEWHVKVGDTVKADQLLVSVETAKALVDIPAPHDGVVAKTFGNEGDILHVGEPLMAYEGEGDAGTVVGRLEGGEGAREDSFFVGAAPSTREHMAPRATPAVRQLARQMGVELSGLSGSGPDGLITRTDVEAAAKQSSDRFGGEKLRGVRRSMAINMARSHAEVVPVSIYADADLYRWKEARDPLIRLGKAIAAAIQAEPVLNSWFDGRSLSIRTHEKVDLGIAVDTPDGLFVPVLRDVGSRSAEDLRQGMARLRADVQARSIPPQEMMGATITLSNFGTLFGRYANPVVVPPQVAILGAGGIRDEPVAMNGEVVVHPILPLSLTFDHRAVTGGEAARFLKALVRALEEPEGAA	PGPT0001390_6121	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0001390-aceF|pdhC-K00627	NA	NA
BMS010_08750	984	pdhB		Pyruvate dehydrogenase E1 component subunit beta	ATGAGTGACAAGATCAGCCTGCTCGAAGCGGTCAACCTGGCCCTGCACCGCGCCATGGCCGAAGACGAGAACGTGGTGGTGCTCGGCGAGGACGTGGGCGTCAACGGTGGGGTGTTCCGTGCCACCCTCGGCCTGCGCGAGAGCTTCAGCTTCAAGCGGGTCATCGACACGCCCCTGGCCGAAACCATGATCGGCGGTCTCGCGGTGGGCATGGCCGCCCAGGGCCTCAAGCCGGTGATGGAAATCCAGTTCATGGGCTTCATCTATGCGGCCATGGAACAGCTCGTCTCCCATGCCAGCCGCCTGCGCAACCGCACCCGTGGCCGCCTGACCTGTCCGCTGGTGCTGCGCACGCCGATGGGGGCCGGTATCCGCGCGCCGGAGCATCACAGCGAAAGCACCGAGGCGATGTTCGCCCAGATTCCCGGCGTGCGCGTGGTCATCCCATCCTCGCCGGCGCGGGCCTACGGGTTGCTGCTGGCGGCCATCGACGATCCCGATCCGGTGATCTTCCTCGAACCCACCCGGCTCTACCGGATGAACCCCCAGGTTGTCGTCGACGATGGCAAGCGCTTGCCGCTGGACACCTGCTTCACCCTGCGCGAGGGCAGCGACCTAACCCTGATCAGTTGGGGCGCAAGCATCCACGAGACGTTGCAGGCGGCCACGCAACTGGCCGAGCGCGGCGTGTCGGCGGAGGTGATCGACGTCGCCTGCGTCAAGCCGTTCGACCTCGATACCCTGGAGGCGTCGGTACGCAAGACCGGTCGCTGCGTGATCGTGCACGAGGCGCCGAAGAGCTGCGCGGTGGGCGCGGAGATCGCCGCCAGCCTCTACGAGCGCGTGCTGCTCGATTTGCAGGCACCGATCCAGCGGGTCACCGCGCCGGATATCCCGCCGCCGCTGTACCGCCTGGAGCAGCTCTACATGCCTGGGCCGGACGACATCCTAGCCGCGTGCGACACGGTGCTGAACTACGCGTGA	MSDKISLLEAVNLALHRAMAEDENVVVLGEDVGVNGGVFRATLGLRESFSFKRVIDTPLAETMIGGLAVGMAAQGLKPVMEIQFMGFIYAAMEQLVSHASRLRNRTRGRLTCPLVLRTPMGAGIRAPEHHSESTEAMFAQIPGVRVVIPSSPARAYGLLLAAIDDPDPVIFLEPTRLYRMNPQVVVDDGKRLPLDTCFTLREGSDLTLISWGASIHETLQAATQLAERGVSAEVIDVACVKPFDLDTLEASVRKTGRCVIVHEAPKSCAVGAEIAASLYERVLLDLQAPIQRVTAPDIPPPLYRLEQLYMPGPDDILAACDTVLNYA	PGPT0008862_1620	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LEUCINE_DEGRADATION,PGPT0008862-bkdA2|bfmBAB-K00167	NA	NA
BMS010_08751	1092	pdhA		Pyruvate dehydrogenase E1 component subunit alpha	ATGCCTAACAAGATCGACCTTCCCTACACGAGGTACCTGGCCCCCGACGGACGCCTGAGCGGCGATCTCCCGGCCTGGGCCGACGACTTCAACCTGCTCACCCGACTCTACCGGCAGATGGTGCTGACCCGCCTGTTCGACCAGAAGGCGGTGGCGCTGCAACGCACCGGACGGATCGGCACCTACGCGCCGACCCTCGGGCAGGAGGCCATCGGCGTCGCCATCGGCAGCCTGATGCACCCCGAAGACGTGCTGATTCCCTATTACCGCGACACCGCCGTGCAACTGATGCGTGGCGTGAAGATGGAGGAAATCCTCCTCTACTGGGGCGGCGACGAGCGCGGCAGCGCCTATGCCGACCCGGCGGTGCGCGAGGACTTTCCGTTGTGCGTGCCGATCGCCACCCAGGCCCTGCATGCTTGCGGCGTGGCCAGTGCGTTCAAGATCCGCGGCGAGCACCGGGTCGCCGTGACCACCTGCGGCGACGGCGCCACCAGCAAGGGCGACTTCCTCGAAGCGCTGAACGTCGCCGGTGCCTGGCAGTTGCCGGTGGTCTTCGTGGTCAACAACAACCAGTGGGCGATCTCGGTGCCGCGGCGCATCCAGTGCGGCGCGCCGACCCTGGCGCAGAAGGCGATCGGCGCCGGCTTCCATGGCGAGCAGGTCGACGGCAACGACATCCTCGCGGTGTACGACCGCATGCGCATCGCCCTGGAGCGCGCCCGCCACGGCAAGGGGCCGGTGCTGCTGGAGTGCATCAGCTATCGCCTGGGCGACCACACCACCGCCGACGACGCCACCCGCTACCGTCCGGCCGAGGAGGTCAAGCAGGCCTGGCAGGAAGAGCCGATCAAGCGCTTGCAGACCTTCCTCGCCAGCCAGGGGGTATGGGACGAGAGGCGCGAGCAGGCCCTGGTCGCCGAGTGCCAGGCCGAGGTGCAGGCCTCGGTGGATGCCTTCGAGGCTGCTGGTATCCAGCCAGTGGAATCGGTGTTCGAGCATGTCTACGCGCAATGGCCGGCGGCGCTGGCGGATCAGCGCGAAATGCTGCTGGAGCGCGCCGCACGGCGGGGAGGTGAGTGCCATGAGTGA	MPNKIDLPYTRYLAPDGRLSGDLPAWADDFNLLTRLYRQMVLTRLFDQKAVALQRTGRIGTYAPTLGQEAIGVAIGSLMHPEDVLIPYYRDTAVQLMRGVKMEEILLYWGGDERGSAYADPAVREDFPLCVPIATQALHACGVASAFKIRGEHRVAVTTCGDGATSKGDFLEALNVAGAWQLPVVFVVNNNQWAISVPRRIQCGAPTLAQKAIGAGFHGEQVDGNDILAVYDRMRIALERARHGKGPVLLECISYRLGDHTTADDATRYRPAEEVKQAWQEEPIKRLQTFLASQGVWDERREQALVAECQAEVQASVDAFEAAGIQPVESVFEHVYAQWPAALADQREMLLERAARRGGECHE	PGPT0008861_1987	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LEUCINE_DEGRADATION,PGPT0008861-bkdA1-K00166	NA	NA
BMS010_08752	1026	ldh_2		Leucine dehydrogenase	ATGTTTGCCATGATGGAAGCCGCCCGGCTCGAGGCACTGCATCTCGCCCAGGACCCCGCCACGGGCCTCAAGGCCATCATCGCCATCCACAACACCCGCTTCGGCCCGGCGCTCGGCGGCTGCCGTTATCTCGCCTACCCCGATCACGTCAGCGCCCTGCGCGACGCCATCCGCCTGGCCCAGGGCATGAGCTACAAGGCCGCCCTGGCCGGCATCGAACATGGCGGCGGCAAGGCGGTGATCATCCGCCCGTCGCATGTGGATAACCGGGGTGCGCTGTTCGAGGCCTTCGGGCGCTTCATCGAAACCCTCAACGGGCGCTACATCACCGCGGTGGACAGCGGCACCTCCAGCGCCGACATGGACTGCATCGCCCAGCACACCCGCCACGTGACCAGTACCACCGCCGAGGGCGATCCGTCGCCGCACACGGCCATGGGCGTGTTCGCCGGCATCCGCGCCACGGCGCAGGCGCGCCTCGGCAGCGATGACCTGGAAGGGCTGCGGGTCGCCGTGCAGGGACTCGGCCACGTCGGTTATGCGTTGGCCGAGCAGTTGGCGGTCGCCGGCGCCGACCTGCTGGTCAGCGACCTCGACCCCGGCCGCGTGCAGCTCGCGGTGGAGCAGCTCGGCGCGCGCCCGGTGGCCAGCGAGGCGCTGCTCACCACCCCTTGCGACATCCTCGCCCCGTGCGGGCTGGGTGGCATTCTCAACGCGGAGACCGTCGGCCAGTTGCGTTGCGCGGCGGTGGCCGGGGCGGCGAACAACCAGTTGGCCAGTGCCGAGATCGCCGACGAACTGGAAGCGCGCGGCATCCTCTATGCGCCGGACTACGTGATCAATTCCGGCGGGCTGATCTACGTCGCGCTACGCCACCGCGGCGACGAGCTACCGGCGATCACCGCGCACCTGTCGCGGATCGGCCTGCGCCTGACCGAAATCTACGCCCACGCCCAGGCCGACAAGCGGTCGCCGGCGCGGGTGGCCGATGCCCTGGCCGAGCGCCTGCTCTATGGCGAGGGCTGA	MFAMMEAARLEALHLAQDPATGLKAIIAIHNTRFGPALGGCRYLAYPDHVSALRDAIRLAQGMSYKAALAGIEHGGGKAVIIRPSHVDNRGALFEAFGRFIETLNGRYITAVDSGTSSADMDCIAQHTRHVTSTTAEGDPSPHTAMGVFAGIRATAQARLGSDDLEGLRVAVQGLGHVGYALAEQLAVAGADLLVSDLDPGRVQLAVEQLGARPVASEALLTTPCDILAPCGLGGILNAETVGQLRCAAVAGAANNQLASAEIADELEARGILYAPDYVINSGGLIYVALRHRGDELPAITAHLSRIGLRLTEIYAHAQADKRSPARVADALAERLLYGEG	PGPT0020320_1103	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LEUCINE_DEGRADATION,PGPT0020320-ldh|leu-K00263	NA	NA
BMS010_08753	804			hypothetical protein	ATGAACCCACGCCAAGCCTGCCTCACCTGCCTCGAACGAGACCCGCCGGATACCTTCGAAGCGGCCCTGTGGATCGCCGCCGAGCACGACGATGCGCTGCGCCCGGCGCAGGTGCTGCGCGAGTTCGCCGGCTTGCAGCAACTGCTCGCCGCCGGCCTGCCCAACCTGCCGATCCGCGAGCTGGCGCAGCCGCTGTTGCGCCAGCTTAACGCCCTGGACTTTCACGAAGACGAGGACAGCCCGCTACGCCCGCAGGCCGCCCTGCTGCACCGAGTCCTGCAACGGCGCCGGGGGCAGCCGCTGTCGCTGGCACTGATCGCCCTGGAGCTGGCGCGGCGACTGGAGATTCCCCTGGTGGGCGTGAACTTTCCCGGCCACTTTCTGCTGCGCGTGCCGGGCGCCGATCACCTGCTCGATCCGTGCGGCGGGCGCCGCCTGTACACCCGCGACTGCCGCGAACTGCTGGTCCGCCAGTACGGCCCACGCGCGGAGCTGGACGCCTCCCACCTGCGTACCTGCGGCGAGCGCGAACTGATCCAGCGGCTCTCGCGCAACCTGCGCCAACTGCATCTGCATGCCGAGGATTACCTGGCGGCGCTGAAGGACGCCGAGCGGGTCCTGCAACTCGGCCCGCCCAGCGTCGCCGACCACCTGGCCCGCGCCGATCTCTACCGTCATCTGGACTGCCCCCAGGCCGAACGCTTCGACCTGGAGCGCGCCCTGTTGCTTTGCGACGACGATGCCCAGCGCCTCACCCTCAGCCAGCGCCTGCACAAACTCCAACGTTCGCCGGCATTGCATTGA	MNPRQACLTCLERDPPDTFEAALWIAAEHDDALRPAQVLREFAGLQQLLAAGLPNLPIRELAQPLLRQLNALDFHEDEDSPLRPQAALLHRVLQRRRGQPLSLALIALELARRLEIPLVGVNFPGHFLLRVPGADHLLDPCGGRRLYTRDCRELLVRQYGPRAELDASHLRTCGERELIQRLSRNLRQLHLHAEDYLAALKDAERVLQLGPPSVADHLARADLYRHLDCPQAERFDLERALLLCDDDAQRLTLSQRLHKLQRSPALH				NA	NA	NA	NA	NA
BMS010_08754	768	caiD_1	COG1024	Carnitinyl-CoA dehydratase	ATGAGCATCCGCATCGAGAAGAACGGCCCGGTCACGACCCTGATCATCGATCGTCCGGCGGTGCGCAATGCCGTCGACCGGCCCACGGCGGAGGCATTGGCGGCAGCGCTGCGGGCCTTCGAGGCGGACGAGGAAGCCCGGGTGGCGGTGCTCACCGGCGCCGGTGGAACCTTCTGTGCCGGTGCCGACCTGGCGGCGGTGGCCGAGGGCGGTGAGCGGCGCAATCGACTGGAGCCGGACGGGGACGGGCCCATGGGGCCGAGCCGCATGCAGTTGTCCAAGCCGCTGATTGCCGCTATCGAAGGCTATGCCGTGGCGGGCGGCCTGGAGTTGGCCTTGCTGGCCGACCTGCGGGTACTGGCCGAGGATGCAGTGCTCGGGGTGTTCTGCCGGCGCTTCGGTGTGCCGCTGATCGACGGCGGTACTGTGCGCCTGCCGCGCATCGTCGGCCAGGGACGGGCGCTGGACCTGATTCTCACCGGGCGCCCGGTGGGTGCCGACGAGGCCCTGCGCATGGGCCTGGCCAATCGTGTGGTGACCCGGGGCGAGGCGCGGCAGGAGGCCGAAGCCCTGGCTGCGGAGATCGCCGCCTTTCCCCAGCGCTGCCTGCTGGCCGACCGGGCCAGTGTTTATGCCCAGTGGGAATTGCCATTCGACGAGGCACTGCGCAACGAATTCCGGGGCGGCATGACGGTGATCGAAAGCGGCGAAACCGAAACCGGCGCCCGGCGTTTCGCAGAGGGGCAGGGGCGGCACGGGAGGTTCTGA	MSIRIEKNGPVTTLIIDRPAVRNAVDRPTAEALAAALRAFEADEEARVAVLTGAGGTFCAGADLAAVAEGGERRNRLEPDGDGPMGPSRMQLSKPLIAAIEGYAVAGGLELALLADLRVLAEDAVLGVFCRRFGVPLIDGGTVRLPRIVGQGRALDLILTGRPVGADEALRMGLANRVVTRGEARQEAEALAAEIAAFPQRCLLADRASVYAQWELPFDEALRNEFRGGMTVIESGETETGARRFAEGQGRHGRF	PGPT0001860_6349	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0001860-paaF|echA-K01692	NA	NA
BMS010_08755	912		COG1028	Putative short-chain type dehydrogenase/reductase	ATGAGTGATGCCGTACGCTTCGACGACAAAGTAGTGATAGTCACCGGTGCAGGCGGCGGTCTCGGCCGTGCCCACGCGCTGCTGTTCGCCCGGCATGGCGCCAAAGTGGTGGTCAACGACCTGGGCGGCAGCACTCACGGCGAAGGCGCCAACGCCTCGGCGGCCGACCGCGTGGTGGCGGAAATCCGCGAAGCCGGCGGCATCGCCGTGGCTAACCACGACTCGGTGACCGACGGCGAGAAGATCGTCCAGTGCGCGCTGGACCAGTTCGGCCGCGTCGATGTGGTGGTGAACAACGCCGGCATCCTCCGCGACAAGACCTTCCACAAGATGGAAGACACCGATTGGGAGCTGGTCTACAAGGTCCACGTCGAAGGCGCCTACAAGGTGACCCGCGCGGCCTGGCCGCACCTGCGCGAGCAAGGCTACGGGCGGGTGATCTTCACCTCGTCCACCTCCGGCATCTATGGCAACTTCGGCCAGTCCAACTACGGCATGGCCAAGCTCGGCCTCTACGGCCTGACCCGCACTCTGGCCATCGAAGGGCGCAAGAACAACATCCTGGTCAATGCCATCGCCCCCACCGGCGGCACCCGCATGACCGAGGGCCTGATCCCGCCGCAGGTCTTCGAGCAGCTCAAGCCCGAGCTGGTCAGCCCGCTGGTGGTCTACCTCGGCAGCGAACAATGCCAGGAAACCTCCGGCCTGTTCGAAGTCGGCGGCGGCTGGGTCGGCAAGGTGCGCTGGGAACGCAGCCTGGGCGTCGGCTTCGACCCGCGCGAAGGCTTCAGCCCCGACGATGTGGCGGCCAACTGGCAGCGCATCTGCGATTTCGAGGGCGCGGCGCACCCGGCGGATAACGTCGAGGCGCTGAAGGAAATGATGGCGAACCTGCAGAAGTACACCCTCTGA	MSDAVRFDDKVVIVTGAGGGLGRAHALLFARHGAKVVVNDLGGSTHGEGANASAADRVVAEIREAGGIAVANHDSVTDGEKIVQCALDQFGRVDVVVNNAGILRDKTFHKMEDTDWELVYKVHVEGAYKVTRAAWPHLREQGYGRVIFTSSTSGIYGNFGQSNYGMAKLGLYGLTRTLAIEGRKNNILVNAIAPTGGTRMTEGLIPPQVFEQLKPELVSPLVVYLGSEQCQETSGLFEVGGGWVGKVRWERSLGVGFDPREGFSPDDVAANWQRICDFEGAAHPADNVEALKEMMANLQKYTL				NA	NA	NA	NA	NA
BMS010_08756	528			hypothetical protein	ATGCGCCGACGAACGCTGTTGAAAGGAGCCGCGCTGGGCGGTGTGGCCGTGATGGCCGGCGGCTTTTGGGCACTGGGGAGTCCGGCACCGGTTCCGGTCAGCCTGGAGGGCGCGCGGCGGGTGTTGGATGGGCTGGCCGGGCGCCCACTGATCAGCGTGACGGGCTGGAGTCCGGCCGAGGTCTTCAACCATTGCGCCCAGAGCATCGAGTATTCGCTGGAGGGGTACCCTGAATTGAAGCCAGCCTGGTTCCGACACAGCATCGGCCCGGCGGCCTTCGCGGTTTTCAGCGCCCGAGGCGCGATGCGTCACCCGTTGCAGGAGGCTATTCCGGGGGCCGCGCCGTTGGCCGAACCGACCGGGCAGGATGCCGCGTTGCAACGCCTGCAAACCGCATTCGCCCGCTTCTCCACGCACACCGGCGCGTTGCAACCGCACTTCGCCTACGGTGCGCTCGATCACGACGCCTATAGCCAGGCTCATGTGCTGCACCTGTACAACCATTTGAGTCTGATCCGCCTGGCTTGA	MRRRTLLKGAALGGVAVMAGGFWALGSPAPVPVSLEGARRVLDGLAGRPLISVTGWSPAEVFNHCAQSIEYSLEGYPELKPAWFRHSIGPAAFAVFSARGAMRHPLQEAIPGAAPLAEPTGQDAALQRLQTAFARFSTHTGALQPHFAYGALDHDAYSQAHVLHLYNHLSLIRLA				NA	NA	NA	NA	NA
BMS010_08757	906	oleB	COG0596	Cis-3-alkyl-4-alkyloxetan-2-one decarboxylase	ATGCCGGCGCTGACCGGCATTCCCCTGGCCGAATGGCGGGCGCGGGGGCAGGACTTCGTCTTCGGCGGCCAGCGCATCCGCTACTGGCAGGCCGGAGAAGGCGAACCGCTGCTGCTGATCCATGGCTTCCCTACCGCCAGTTGGGATTGGCACCGTATCTGGGAACCGCTGGCGGCGCGCTACCGGGTAATCGCTTGCGACATGCTCGGCTTCGGCGACTCGGCCAAGCCGCGCGGGCACGACTACCGCCTGCTGGAACAGGCCGATCTGCAACAGGCGCTGCTGGCTCATCTGGGCGTTAGCGGGCCGGTGCACGTACTCGCCCACGACTATGGGGACAGCGTCGCCCAGGAGTTGCTGGCGCGGCACCACGAAGGACGTTTCGAACTGGCCAGTTGCGTCTTTCTCAACGGTGGCCTGTTCCCCGAGACCCACCATGCCGTGCGCGTACAGAAGCTGCTGCTGGGGCCGCTCGGCCCGCTGATCGGCCGGCTGTTCTCCCGACGCAAGCTGGCGGCGAACTTCGCCCGCATCTTCGGCCCCGACACGCAGCCCAGAGAGGACGAGCTGGATGACTTCTACGACCTCATCAAGACCGGCAACGGCCCGGCGGTGATGCACCGGCTGATCCGCTACATCCCCGAGCGCCGCGTGCAGCGTGACCGCTGGGTAGCGGCGATGCAGCGCGGTGGCGTACCGCTACGGGTGATCGACGGGGCGCTGGACCCGATATCCGGCGCGCATATGGTGGCGCGCTACCGCGAGCTGATTCCCGAGCCCGACTGCGTCCTGCTGGAGCGGATCGGCCACTACCCGCAGACCGAAGCGCCGGAACAGGTGCTCGAACACTACCTGCATTTTCGTGAAGCCTTGGAGAGCACGGCATGCGCCGACGAACGCTGTTGA	MPALTGIPLAEWRARGQDFVFGGQRIRYWQAGEGEPLLLIHGFPTASWDWHRIWEPLAARYRVIACDMLGFGDSAKPRGHDYRLLEQADLQQALLAHLGVSGPVHVLAHDYGDSVAQELLARHHEGRFELASCVFLNGGLFPETHHAVRVQKLLLGPLGPLIGRLFSRRKLAANFARIFGPDTQPREDELDDFYDLIKTGNGPAVMHRLIRYIPERRVQRDRWVAAMQRGGVPLRVIDGALDPISGAHMVARYRELIPEPDCVLLERIGHYPQTEAPEQVLEHYLHFREALESTACADERC				NA	NA	NA	NA	NA
BMS010_08758	783			hypothetical protein	GTGTCCACAGCCCACGCCCTGTCTCAACCGAACGTCAAGGATCAGGTGTCCGCCGTCGAATGGCAGACCCGGGTCGACCTGGCTGCCTGCTACCGCCTGGTGGCCCTGCACGGTTGGGACGACCTGATCTTCACCCACATCTCGGCCAAGGTACCCGGCACCGAGGACTTCCTGATCAACCCCTACGGGCTGATGTTCCACGAGATCACCGCGTCCAGCCTGGTGAAAGTCGATCAGGCGGGCAACAAGCTGATGGACAGTCCCTACGAGATCAACCCGGCTGGCTACACCATCCACAGCGCCGTGCACGAGGTGCGCCACGACGTCGCCTGCGTCCTGCATACCCATACCGCCGCCGGGGTCGCGGTGGCGGCACAGAAGCAGGGCGTCTTGCCGATCAGCCAGCAGTCGCTGTTCGTCCTCTCCAGCCTGAGCTACCACGCCTACGAAGGCGTGGCCCTGAACCACGAGGAAAAGGCGCGCCTGCAAGCCGACCTCGGCGCGACCAACTTCATGGTCCTGCGCAACCACGGCCTGATGACCTGCGCGCCGACCATTCAGGACACCTTCCTGATGATGTTCATCTTCCAGCGTGCCTGCGAAATCCAGGTCATGGCCCAGAGCGGCGGCGCCGAGCTGGTGAGCATTCCGCCGCAAATCCTTGCCGGCGCCAAGGCCATGGCCGCCGGGGTTACCCGCAGTGCCGAGGGGCTGGGCGGCAAGCTGGCCTGGCCGGCCCTGCTTCGCAAGCTGGACCAGCAGGACACGGGATACCGCAGCTGA	MSTAHALSQPNVKDQVSAVEWQTRVDLAACYRLVALHGWDDLIFTHISAKVPGTEDFLINPYGLMFHEITASSLVKVDQAGNKLMDSPYEINPAGYTIHSAVHEVRHDVACVLHTHTAAGVAVAAQKQGVLPISQQSLFVLSSLSYHAYEGVALNHEEKARLQADLGATNFMVLRNHGLMTCAPTIQDTFLMMFIFQRACEIQVMAQSGGAELVSIPPQILAGAKAMAAGVTRSAEGLGGKLAWPALLRKLDQQDTGYRS				NA	NA	NA	NA	NA
BMS010_08759	1812			hypothetical protein	ATGGAACCGTTTTGCAAACGGTTCCACTCATCTCTCGACCCGATTTCCAATAACTGCTGCCCTGCCCGGGATTCGAGAGAGCACATCATGGTCTTGCGCGTTTCCGATGCCTGTCATTCCTACGGTTCTTTCGACGTTCATTCCCAGCCGGAATTGAGCATCCGTCCACAGGCCAAGCCGCCCGTCTCGTCGACGGGCATCGAGTTCGGTCCCGCGCCGACTTCCTCTCCTGAGCCGCGCGTACCGGCTGGTGGAACGAACAGCTCTCTGTTCGACCGTCTGCTGCCCCCGGCCAAGCCGGAGCCCTCCATGCCGTCGCCGGTGGTGCTGGCCAGCGAGCCGGCGCAGGAGGAGGGGCCCTATGATTTTCTCGACAATTCGCCCCACAGTTCGCCGGAGCAGTTGAAAAAGTGGGAAGCGCTGCTGGGCGACCTGCCGCCCGCCGAGCGGGAGGCCGCCGCCAAGGAGCTGAACCGCCCCATCGCGGCGGCGCGGATCGCCGCGGAAGGCGGGCCGGATGCGGAGAAGGCCTGGGCCTTCATCAATGACAACCCGTCGTTGAAAACGGCGGTGGACGTCGGCAAGGACGGCGGCCGGGCCGACGGCAAGATCACCCACAAAGACCTCAAGGCGTTCGCGAACCATATGGACGACCGGCTCAATGACGCCGGCAAGACACTGCGCAAGTACGAGAAGGAACACCCGGATGCGGACCCGGCCTCGAAGCAACTGGTGCGCTCCGCCGCGCTGATGCTGGCCAACGAGCCGCTGACCCAGGCGGCCGATCCGGCCAGCGCCCAGGGCGCCGCGAACCAGCGCAAGGTCAACGGCTGTATCAGCACCGCCGGGCTGACCGCATTGCAGGAGAACGAGGGCCTGTCGGACGTGCTGCGCAATGCCGCGACCACTTGGTCCCAGCCCGGTATGTTCGAGCTGCTCGACCGGGGAGCCGCCAGCGGCAAGAAGTTGGCGAAGAAGGGGCCGGACGGGCAAGCGAACAGCAAGGACATCATGAAATGGATCGAGGACAAGGCACCGTTCAGCAGCGACGCCTTTGCCAGCACGCTGTTCGACGCGGCCACCTTCGGCGCGGTGTCCAAGACGGACACCAGCCAACTGAACGGCGATATTTTCGAGCATCCGGACAGCTACACCGGCGAGCAGAAGGCGGCGGTCCTGGTCAAGCTGCAACAGACCCAGGAACAGGTCATGGCCGGACGTGGCATCCGCGACACGCGCGAAACCGAAGAGGCGCTGGCGGGGCGGATCGAGCAGTTGCAGAACGACCCCGACGTGCAGTCCTTCCTGAGGCTCAACCTCGACGAGCAGGCGACGTCCATCGTCAATGGCGACCCGCGCCTGGCCAAGCTGGTCTCGAAGGGTACGGTCGATGGCGGACCGGGACTGCATACCCCGAATGGGACCGGTTCCGATAAGCGAGCGGGCCCGGTCGACGAGGGCAAGGAGGCGCTGAAGGTAACGGCGGATACCGTTCACCGGGTAGTGAATTTTGGCTCCGGCACCTTCGAGCGCCAAGGTGGAAAGGCGGTCGTCGGCCTGGGTGGACGCATTGCCGCCGCTGTGGGCGGGCGTGTGGTCGGCGCCGTCGCCGGCGAGGCGGCGGGTGCGGCGGCGGCCTCCGCCATCGGCGCCGCGGCAGGCCCCGTGGGCTGGGCGGTGAGCGGTATCATGGCGATCGGCATGGGCATCGGCGAGATCGTCAACGCGGTGAAGGAGCGCAAGGAGCGCAAGGCCTTCAGCCGCACGGTGAACCCGACGCTGGAGCAGTTCGGCATTCCCAAGCCCAAGTGA	MEPFCKRFHSSLDPISNNCCPARDSREHIMVLRVSDACHSYGSFDVHSQPELSIRPQAKPPVSSTGIEFGPAPTSSPEPRVPAGGTNSSLFDRLLPPAKPEPSMPSPVVLASEPAQEEGPYDFLDNSPHSSPEQLKKWEALLGDLPPAEREAAAKELNRPIAAARIAAEGGPDAEKAWAFINDNPSLKTAVDVGKDGGRADGKITHKDLKAFANHMDDRLNDAGKTLRKYEKEHPDADPASKQLVRSAALMLANEPLTQAADPASAQGAANQRKVNGCISTAGLTALQENEGLSDVLRNAATTWSQPGMFELLDRGAASGKKLAKKGPDGQANSKDIMKWIEDKAPFSSDAFASTLFDAATFGAVSKTDTSQLNGDIFEHPDSYTGEQKAAVLVKLQQTQEQVMAGRGIRDTRETEEALAGRIEQLQNDPDVQSFLRLNLDEQATSIVNGDPRLAKLVSKGTVDGGPGLHTPNGTGSDKRAGPVDEGKEALKVTADTVHRVVNFGSGTFERQGGKAVVGLGGRIAAAVGGRVVGAVAGEAAGAAAASAIGAAAGPVGWAVSGIMAIGMGIGEIVNAVKERKERKAFSRTVNPTLEQFGIPKPK				NA	NA	NA	NA	NA
BMS010_08760	459			hypothetical protein	ATGCACCCGCGCGCCGCCGAACTGATCCGCGAGCTGGAGCTGCTGCCCCATCCCGAGGGCGGCTTCTATCGCCGGGTCTTCCATTCCAGCAGCACCCTCGCCAACGGTCGCCCCTGCTGCACGGCAATCTTCTTCCTACTGCCGGCCGGCGTATGCGGGCGCTGGCATCGGGTCGATGCGGACGAACTCTGGCATTTCTACGAGGGCGCACCGTTGGAGTTGCTGATCGCCACGACTCCCGCGGAAACCCGCCGCGAGCGCCTCGGCCCGGTGGGGCCGGATTGCCTGCCGCAACGGCTGGTGCCGGCCCATGCCTGGCAGGCGGCGCGTCCGCTGGGCGATTACAGCCTGGTGGGCTGCACGGTGTCGCCGGGGTTCGATTTTTCCGGGTTCCGCCTGCTGGCCGAGGACGAGCAGGCGCAGCGCGAATGGGCGGCGCTGGACCAGGCGTTTCTTTGA	MHPRAAELIRELELLPHPEGGFYRRVFHSSSTLANGRPCCTAIFFLLPAGVCGRWHRVDADELWHFYEGAPLELLIATTPAETRRERLGPVGPDCLPQRLVPAHAWQAARPLGDYSLVGCTVSPGFDFSGFRLLAEDEQAQREWAALDQAFL	PGPT0013170_348	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS010_08761	453		COG0716	putative protein	ATGAAAATCGCCATCCTGTCCGGTTCGGTCTACGGCACCGCCGAGGAGGTCGCCCGGCACGCCGAGCACTTGCTCAAGGCGGCCGGTTTCGAGGCCTGGCACAAACCCCGCGCGGAGCTGGCCGACCTGCTGGCCTTCGCCCCCGAGGCTTTCCTGGTGGTGACCTCGACCACCGGCATGGGCGAGCTTCCGGACAACCTGCAGCCGCTGTACTACGCCATCCGCGATCATCTGCCGGCCTGGCACGGGCTGCCGGGCGGGGTGATTGCCCTGGGCGATTCCAGCTACGGCGACACCTTCTGCGCCGGGGGCGAGCAGGTGCGCGAGCTGTATGCGGAACTGGGCATCCGCGAGGTGGTGGACATGCTGCGTCTGGACGCCAGCGAAACCGTGACCCCGGAAACCGACGCCGAGCCCTGGCTCATCGGTTTCGGCAACGCATTGCGCGCCTGA	MKIAILSGSVYGTAEEVARHAEHLLKAAGFEAWHKPRAELADLLAFAPEAFLVVTSTTGMGELPDNLQPLYYAIRDHLPAWHGLPGGVIALGDSSYGDTFCAGGEQVRELYAELGIREVVDMLRLDASETVTPETDAEPWLIGFGNALRA				NA	NA	NA	NA	NA
BMS010_08762	444	pfyP		Blue-light photoreceptor	ATGATGATCAACGCCAAGCTGCTGCAACTGGTGGTCGATGCTTCTAACGATGGCATCGTCGTCGCCGAACGGGAGGGCGACGACCACATCCTGATCTACGCCAACCCCGCCTTCGAGCGGCTGACCGGCTACGCCGTGGACGACATCCTTTACCAGGACTGCCGCTTCCTCCAGGGCGACGACCGCGACCAGCCCGGCCTGACGGCCATTCGCGAAGCCCTGCGCAACCAGCAGGCCTGCCGCCAGGTCGTCCGTAACTACCGCAAGGACGGCACACCGTTCTGGAACGAGCTGTCGATCTCTCCCGTGTTCAACGACAACGACCAATTGACCTACTACATTGGTATTCAGAAGGACGTGACCGAGCAGGTCGAGGCACAGCAGCGCCTTCAGGCTTTGGAGGCCGAACTGGCGGCACTCAGGGCAGAACAGTCGAAAACATGA	MMINAKLLQLVVDASNDGIVVAEREGDDHILIYANPAFERLTGYAVDDILYQDCRFLQGDDRDQPGLTAIREALRNQQACRQVVRNYRKDGTPFWNELSISPVFNDNDQLTYYIGIQKDVTEQVEAQQRLQALEAELAALRAEQSKT	PGPT0014656_25	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014656-ytvA|pfyP-NA	NA	NA
BMS010_08763	603			hypothetical protein	GTGGATACTCCGTTACTGACCGAGGATGAACTGGCGTTTATCCAGACGTTGCAAGGCAAATCATCCGGCCCCAAGGGATTGCCGGGCCCCAGCCTATTGCTTGACGGCAGCGCCCAGGCCGAGGCGCTGATCGCGCGCCTGGCCAAACAGGGCCAACTGACCCTCGAGGCGGATTTCCACAGCCAGCACCTCACCTTCCCCCTGCGCCTCGTGCAGGACGAATTCCAGACCCCGCACCTGGAAATCGACGCTCCGGAAATATTCGAACAAGGTCCCACGCTTCGCCCCTGGCGCCTGCGCTTGCCGGAGCCTATCGCCCTGGTCGACGAACACGGAGCGGAAACCGCGCTCTGGGTGCATGAGCTGTCGCCGAATGGCGCATTGATCGAAGTCCGCGACCAGAAAGACACGCCGGAACTGTTCGCCCTCTGGCTGCCGCTGCCGGAGCAGGACTCCATCGCCCTGCTCGGCGCCCGGGTACGCAAGACCGAGCGCCAACTGGTCGCCTATCGCCTCACCATGGGCCACCCCGGCCACGGCGATCGCCTGCGCCAATACATCTTCCAACAGCACCGCCTGCTGCATCCGCTCCTGCACAAATGA	MDTPLLTEDELAFIQTLQGKSSGPKGLPGPSLLLDGSAQAEALIARLAKQGQLTLEADFHSQHLTFPLRLVQDEFQTPHLEIDAPEIFEQGPTLRPWRLRLPEPIALVDEHGAETALWVHELSPNGALIEVRDQKDTPELFALWLPLPEQDSIALLGARVRKTERQLVAYRLTMGHPGHGDRLRQYIFQQHRLLHPLLHK				NA	NA	NA	NA	NA
BMS010_08764	951			hypothetical protein	ATGACCGAATTTACGGCTTCGTCTCTGGTTTCCGGCGACCTCAAGCAGGAGGAGCTGTTTCCCATTCGTGAAGTCTCGCGCCTCACCGGGGTCAACCCGGTCACCCTGCGCGCCTGGGAGCGGCGCTATGGCTTGATCCAGCCGATTCGTACCGACAGCGGCCATCGCCTATATTCCCAGGCGGACGTCGAGGCGGTGCGCAGCATTCTTGGCTGGATCGAGCGCGGCGTGGCGGTGAGCAAGGTCGGCAAGATTCTCGCCCGCAGCGAGCAGGCCAAGGCGGCTTGCGCGCCGGTGGGGCAGGAGCCGGCGGTGGGCGAGTGGGAGGCGTGGCAGGTGCGCGTGCGTCGGGCCGTGGCGCAGTTCGATGAGGCCGAACTGGATCGCCTCTATGGCCAGGTGTTTTCCAGCTATCCGTTGCCGGTGGTGTTCCAAGACATCCTGATGCCGCTCTGGCAGGAAATGCTGGTGAGCCAGGAAGCGTTTGGACAGGCCAGCGAGTGGTTGTTCCTGGACAGCTTTCTGCGTGGCCGGGCGCTGCAGCGCCTGCAACTGGCGCGCGAGCCGGGAGCGGAACGGCTGCTGCTGGCGGCGATCCCCGGCCACTGTCGGGAGTTGGAGTTGCTGGTGGCCGGTCTGTTGCTCAGTGGCCCTGAACTGGCGCCTATGCTGCTCGGCCTCGGGCAGCCGTTGGCGGAGTTGACCCTCATCTGCGAAAAGACCCAGCCCCAGGCGTTGGTTCTGTTTTCCAACCAACCGCCGGCCGCCGACCTGCCGCGGCAACTGGACAAACTGGCGCTGGGGTTGAATTGCCCATTATTGCTGGCGGGTGATGCCGCGGACCTGGCGCAGGACAGCCTGGTGGGTTCCACCGTCGGTTGCCTGGGGAGCGAAGGGCGTCTGATGCGGCGGCGTCTGCAGCAGTTCCTGGCGGGCCACCTGGATACCTGA	MTEFTASSLVSGDLKQEELFPIREVSRLTGVNPVTLRAWERRYGLIQPIRTDSGHRLYSQADVEAVRSILGWIERGVAVSKVGKILARSEQAKAACAPVGQEPAVGEWEAWQVRVRRAVAQFDEAELDRLYGQVFSSYPLPVVFQDILMPLWQEMLVSQEAFGQASEWLFLDSFLRGRALQRLQLAREPGAERLLLAAIPGHCRELELLVAGLLLSGPELAPMLLGLGQPLAELTLICEKTQPQALVLFSNQPPAADLPRQLDKLALGLNCPLLLAGDAADLAQDSLVGSTVGCLGSEGRLMRRRLQQFLAGHLDT				NA	NA	NA	NA	NA
BMS010_08765	570			hypothetical protein	ATGTCTGCCGAACCCGTCACCCTCATGGTGGCGCGCCGCGTGGCCCGTGACCGCTACCAGGATTTCAGCGCCTGGCTGCACGAAGGCGAGCAACTCGCCGCCGACTTCCCCGGTTACCTCGGCTCCGGCGTCCTGGCGCCGCCACCGAACGACGACGAATTCCAGATCGTCTTCCGCTTCGCCGACGAACACACCCTCGATGCCTGGGAGCATTCCGCTTCCCGCCGCGCCTGGCTCGAACGCGGCGCCGGCCTGTTCGCCCAGCCCCACGAGCACCGTGCCGTCGGTCTCGATGCCTGGTTCGGCGCCGGCGACAAACGCCCGCCCCGCTGGAAGCAGAGCATTGCGATCTGGCTGGCCTTCTTCCCGGTTTCCCTGGCCTTCAACCTGCTGTTCGGCAGCACCCTCAACGAATGGCCGCTGATCGTCCGGGTCCTGCTCAGCACCCTGGTACTGACCCCGCTGATGACCTACCTGTTCATCCCCTTGTCGACCCGCCTGCTCGCCCCCTGGCTGCAGAACGACCGATCCCGCCGTCTCCTGCGTGCCGGCCTGCCGGCAACCCGTTGA	MSAEPVTLMVARRVARDRYQDFSAWLHEGEQLAADFPGYLGSGVLAPPPNDDEFQIVFRFADEHTLDAWEHSASRRAWLERGAGLFAQPHEHRAVGLDAWFGAGDKRPPRWKQSIAIWLAFFPVSLAFNLLFGSTLNEWPLIVRVLLSTLVLTPLMTYLFIPLSTRLLAPWLQNDRSRRLLRAGLPATR				NA	NA	NA	NA	NA
BMS010_08766	711	folM	COG1028	Dihydromonapterin reductase	ATGCGCGCATCCCCCTCCCCCATCCTGATCACCGGTGCCGGTCAGCGGGTTGGCCTGCATTGCGCCGAGCGCCTGCTCGATGACGGCGAATCGCTGATCGTGACCTACCGCAGCGAGCGTCCCGGCCTGGCCCGGCTGCGCGAACGGGGCGCCCTGACACTGCGCGCCGACTTCTCCAGCGAGGCCTCGATCCTCGCCTTCATCGCCGAACTGAAGCAGCACACCGACAGCCTGCGCGCCATCGTCCACAACGCCTCGGACTGGCTGAGCGAAACGCCTGGCCAGGAAGCCGAAGCCTTCCAGCGCATGTTCACCGTGCACATGCTGGCGCCCTACCTGATCAACCTGCACTGCGCCGAACTGCTGGAAAAATCGTCGCCCGCGGACATCGTCCACATCAGCGACGACGTCGCCCGCAAGGGCAGCGCCAGACGCATCGCCTACTGCGCCAGCAAGGCCGGGCTGGACAACCTGACCCTGTCCTTCGCCGCCCGCTTCGCCCCGACCATCAAGGTCAACGGCATCGCCCCGGCCCTGGTGCTGTTCAATGAACACGACGACGCGGACTACCGCGCCAAAACCCTGGCCAAATCCGCCCTGGGCATCGAACCCGGCGCCGAAGTGATCTACCAGAGCCTGCGCTACCTGCTGGACAACCCCTACGTCACCGGCACCACGCTGACCGTCAACGGCGGCCGCCACCTCAAATGA	MRASPSPILITGAGQRVGLHCAERLLDDGESLIVTYRSERPGLARLRERGALTLRADFSSEASILAFIAELKQHTDSLRAIVHNASDWLSETPGQEAEAFQRMFTVHMLAPYLINLHCAELLEKSSPADIVHISDDVARKGSARRIAYCASKAGLDNLTLSFAARFAPTIKVNGIAPALVLFNEHDDADYRAKTLAKSALGIEPGAEVIYQSLRYLLDNPYVTGTTLTVNGGRHLK	PGPT0008035_390	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008035-folM-K13938	NA	NA
BMS010_08767	561	folE_3	COG0302	GTP cyclohydrolase 1	ATGAGCGAGCAACTGTCTCACCATTACCGTGAGATTCTCCGTGGCCTCGGGGAAAACCCCGAGCGCGAGGGCCTGCTGGATACGCCCAAGCGGGCGGCCAAGGCCATGCAGTACCTTTGCCACGGCTACGGGCAGACACTGGAAGAGATCGTTAACGGCGCACTGTTCGAGTCCGACAACGACGAAATGGTGATCGTCCGCGAGATCGAGCTGTACTCCCTGTGCGAACACCACCTTCTGCCCTTCATCGGCAAGGCGCACGTGGCCTACATCCCCACCGGCAAGGTGCTCGGCCTGTCCAAGGTGGCGCGCATCGTCGACATGTACGCCCGCCGCCTGCAGATCCAGGAGAACCTCACCCGGCAGATCGCCGAGGCCGTGCAGAGCGTGACCCAGGCCGCGGGCGTGGCGGTGGTGATCGAGGCCAAGCACATGTGCATGATGATGCGTGGCGTGGAGAAGCAGAATTCGGTGATGAGCACTTCCGTAATGCTCGGCGCCTTTCGCGAATCCAGCAACACCCGCCACGAGTTCCTCAAACTGATTGGACGGAGCAACTAG	MSEQLSHHYREILRGLGENPEREGLLDTPKRAAKAMQYLCHGYGQTLEEIVNGALFESDNDEMVIVREIELYSLCEHHLLPFIGKAHVAYIPTGKVLGLSKVARIVDMYARRLQIQENLTRQIAEAVQSVTQAAGVAVVIEAKHMCMMMRGVEKQNSVMSTSVMLGAFRESSNTRHEFLKLIGRSN	PGPT0007875_4336	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007875-folE-K01495	NA	NA
BMS010_08768	387	folX	COG1539	Dihydroneopterin triphosphate 2'-epimerase	ATGCCACGACTGGAACCGGGCATGGCGCGCATCCGGGTCAAGGACCTGCGCCTGCGCACCTACATCGGCATCAAGGAAGAAGAGATCAACAACAAGCAGGACGTGCTGATCAACCTGACCATCCTCTATCCCGCCATCGAAGCGGTGCGCGACAACGACATCGAACACGCGCTGAACTACCGCACCATCACCAAGGCGATCATCCAGCACGTCGAAGGCAACCGCTTCGCCCTCCTCGAGCGCCTGACCCAGGAACTGCTCGACCTGGTCATGGAAAACCCGGCGGTGCGCTACGCCGAAGTGGAAGTCGACAAACCCCACGCCCTGCGCTTCGCCGAATCGGTTTCCATCACCCTGACCGCCCACCGCGACCCGGAAGACGAATAA	MPRLEPGMARIRVKDLRLRTYIGIKEEEINNKQDVLINLTILYPAIEAVRDNDIEHALNYRTITKAIIQHVEGNRFALLERLTQELLDLVMENPAVRYAEVEVDKPHALRFAESVSITLTAHRDPEDE	PGPT0008030_132	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008030-folX-K07589	NA	NA
BMS010_08769	297			hypothetical protein	ATGATGACTCCAGAAGAACGCCTCGAACTCGAAGCCGCCGCTTTTCGCCAACTGGTCCAACATCTGCGCAGCCGTCCGGACGTGCAGAACATCGACCTGATGAACCTCGCCGGCTTCTGCCGCAACTGCCTCTCCAAGTGGTACAAGGCCGCCGCCGACGACATCGGCGTCGACGTCACCCCGGACCAGGCCCGGGAAGAGATCTACGGCATGCCCTACAGCGAGTGGAAAGCCAAATACCAGAAAGAAGCCAGCCCCGAGCAGCAGGCCGCCTTCGACAAGAGCAACAAGAAATGA	MMTPEERLELEAAAFRQLVQHLRSRPDVQNIDLMNLAGFCRNCLSKWYKAAADDIGVDVTPDQAREEIYGMPYSEWKAKYQKEASPEQQAAFDKSNKK	PGPT0008420_5	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008420-moaB-K03638	NA	NA
BMS010_08770	339			hypothetical protein	ATGACCCTGAACGACTTCCGCGCCCACCTGCGCAGCGACCGGCACCAGTTCGCCGACACCCTGGCGTTCATCGCCGAGCACTACGACTACCAGCCCAGCGCCTTCTCCAACGGCCCGGTGGAAAGTGCCGCCGGCCAGAACGAAGGCTCCTGCAAGACCCTCGGCCTCGCCCTGCTGGAACACCTCACCCTCGACGAAGCCCTGCAAGCCTTCGGCGAACACTACCGCGCCGTCCTGGCCAACCCCGGCGGTAACGACCACGGCAACATCCGCGCACTGATGGAAACCGGCCTCGCCGGCGTGCGTTTCAACCACCCCCCGCTCAGCCGAAAAGCCTGA	MTLNDFRAHLRSDRHQFADTLAFIAEHYDYQPSAFSNGPVESAAGQNEGSCKTLGLALLEHLTLDEALQAFGEHYRAVLANPGGNDHGNIRALMETGLAGVRFNHPPLSRKA				NA	NA	NA	NA	NA
BMS010_08771	582			hypothetical protein	ATGCAACAGATACTGGTATGGAAACCCTGGACCACGCCCGGCGTGGAAAACCTGCGCCTCAGCCTGGATAGCGAAGGCATCCACGGCAGCAGCCACCTGATGCAGAACCTCAACGGTCACAGCATCGCCGCCACCTACGTCCTCGAATGCGACCCGCGCTGGCGCTTCCGCCGCCTGTGGCTGAAAGCCGACCACCACGGCCCGCGCACCCTCAGCCTGCACCGCGACATCCGCGGCCACTGGTACCTGAACGACGAACCGCGCCCGGACCTCGACGGCTGCCAGCACGTCATGATCCCCGCCTCCCCGTTCACCCATACCCCGGTGCTACAGAACGCCGCCCTGGAAACCGGCGAAAGCCTCGGCCTGCGCGTCGCCCATATCGACCTTTTGACCCTCGAAGTCACGCCACGCCACCAGCGCTACCACTGCCTGCAACGCCGCCCCGGCCACCACCTCTACCGCTGCGAAGCCGAAGGCAAACCGCCCGTCGAACTCACCTTCGACGATCACGGTCTGCTCACCGCCTGCGCCCATTACGTCCGACTCAGCGCACGGACGTTGATGGTGGATATGGCCTGA	MQQILVWKPWTTPGVENLRLSLDSEGIHGSSHLMQNLNGHSIAATYVLECDPRWRFRRLWLKADHHGPRTLSLHRDIRGHWYLNDEPRPDLDGCQHVMIPASPFTHTPVLQNAALETGESLGLRVAHIDLLTLEVTPRHQRYHCLQRRPGHHLYRCEAEGKPPVELTFDDHGLLTACAHYVRLSARTLMVDMA				NA	NA	NA	NA	NA
BMS010_08772	948		COG0492	Glucosaminate ammonia-lyase	ATGTCAGCGGTACGTCATGCCCGCGTCATCATTCTCGGCTCCGGCCCTGCCGGTTACACCGCGGCGGTCTATGCCGCGCGCGCCAACCTCAAGCCGCTGCTGATCACCGGCCTGCAGGCCGGCGGCCAGCTCACCACCACCACCGAAGTCGACAACTGGCCGGGCGACCCCCATGGCCTCACCGGCCCGGCGCTGATGCAGCGTATGCAGGAACACGCCGCGCGCTTCGAGACCGAGATCGTCTTCGACCATATCCATGGCGTCGATCTGGCCGGCCGACCGTTCACTCTCAAGGGCGACAGCGGTACCTACACCTGTGATGCGTTGATCATCGCCACCGGCGCCAGCGCCCGCTACCTGGGGCTGCCCTCGGAGCAGGCGTTCATGGGCAAGGGCGTGTCCGCCTGCGCCACTTGCGACGGTTTCTTCTACCGCAACCGCGACGTGGCGGTGGTCGGTGGCGGCAACACCGCGGTCGAAGAGGCGCTGTACCTGGCCAACATCGCCCGCAAGGTGACCCTGGTGCATCGGCGCGACAGCTTCCGCGCCGAGAAAATCCTGCAGGACAAGCTGATGGCCCGCGTCGCCGAGGGCAAGATCGGGCTGAAACTCAATGCCGAGATCGACGAGGTGCTGGGCGATGACATGGGCGTCACCGGCGTGCGGGTGAAGACGCTGGACGGCAGCCGCGAAGACCTGAAAGTGGAGGGCCTGTTCGTCGCGATCGGTCATACCCCGAATACCTCCCTGTTCGAAGGCCAACTGGCGCTCAAGGACGGTTACCTGGTGGTCGACGGCGGTCGTGAAGGCAATGCCACCGCCACCAGCGTGCCGGGCGTCTTCGCCGCCGGCGATGTGGCCGACCACATCTACCGCCAGGCGATCACTTCCGCCGGTGCGGGCTGCATGGCCGCGCTGGACGTGGAGCGATATCTCGACGCGCTCTGA	MSAVRHARVIILGSGPAGYTAAVYAARANLKPLLITGLQAGGQLTTTTEVDNWPGDPHGLTGPALMQRMQEHAARFETEIVFDHIHGVDLAGRPFTLKGDSGTYTCDALIIATGASARYLGLPSEQAFMGKGVSACATCDGFFYRNRDVAVVGGGNTAVEEALYLANIARKVTLVHRRDSFRAEKILQDKLMARVAEGKIGLKLNAEIDEVLGDDMGVTGVRVKTLDGSREDLKVEGLFVAIGHTPNTSLFEGQLALKDGYLVVDGGREGNATATSVPGVFAAGDVADHIYRQAITSAGAGCMAALDVERYLDAL	PGPT0018945_110	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0018945-trxB-K22345	NA	NA
BMS010_08773	1965			hypothetical protein	ATGCTTTTACGCAACCGGTTGTTCTGGCTGCTTGCCCCCCTCGCGACGCTCACCCTGGCGACCGTCTATCTACTGGCCGATCGCATTCTGCTGAAACGATTCGACCAACAGGACGCCACCGCCCTGCGCCAGGAAGTGGTTCGCCTGCACAGCCTGATGCGCTTCGAAACCGGCAATACCCTGGACCTGGCCCGCAGCTATGCCTGGTGGTCGGAAAGCCTGGATTACGTGCGCGATCCCGACCCCGAATTCATCGAAGGCAACCTGGATGAGGAGTCGGTCCACAACATGGGACTCGACTTCATGCTCTACCTCGATCCGTCGGGGAAGGTCCTGGCCGAGCGCTGGGTCGAGCATGAGCTGGAAGGCGCCGCCAGCTCCCAGAACATAGACACCGCCGTGCTCCAGCAGGCCATCGTCCTGCATGCCGTGCGGCTCGGTGCAGTGGACAACCGGGGCGATCCTCTGCACAGCGTTGCCCTGCTCTCGCTGATCCGGAACGTGCCGCTGATCCTGGTCTCGGCCGCCATCACCGACAACCAGGCCAAGGCCCCGCCCCTGGGCGCCATCGTCGCCGGGCGCTTCCTCGGCACCGAGCATCTGAACACCCATCTCAGCCTGATCGACGCGAAGCTGGAGCTGCTGCCGCCCGACAAGAACGAAATTGGCTGGCCCTTCCTGATCGAAGACAGCGACCACAACGCCCCGGTCCAGATCAGCCCGCGCCGGATCGAGGCGCAGATGCAATCGATGCGACTGCTTTATCGCAACGCCGCGGGCGAGCCGGAGCTGCTTTTCGGCCTGACCAAGCCCCGTGTGCTGTACCAAGGAGGCAAGCAGGCGATCGACTTCTTCCTTTATATCTCCGTCTCCGTGGCCATCGCCGCCTTGCTGCTGGCCTACCTGGCCCTGGAGTTCGGCGTGCTGCGCCGCATCATGCGCTTGAATCGCGAAGTCGCCGCCATCGGCCACGATGCCCGCACCGCCCGCATCGGCGATCTCGGCAAGGACGAACTGGGCCAGCTTTCCCGCGAACTCAACCGGATGCTCGAACGCCTGCAACAGAGCGAAGCCCGCGACCGGCTGATCCTCGACAGCATCCAGGACGCCTATTTCGAGATCGACGCCAAGGGCACGCTGCGCGCAGCCAACCAGGCCCTGTGCGATCTGGTCGGCTATTCCCCGGACCAGATCGTCGGCCGCTCCTACCGCGAGATTCTCGGCGAGCCCGATGTCGAACGCGCGAAAAAACAGTTCGCCGAGGCGCTCCGGGGCGGAAAGCCCATTTTCACCTCGTCCTTCAAGCGCCGCGACGGCAATCTCGGCCACTTCGAAACGCGCTTTTCCATCATTCAGGACATGCAGGGCCAGTTCGCCGGCTTCCGCGGCATCCTGCGCGACATCACCGCGCAGATGGCTTACCAGAACCAGTTGCTCGACATGGCCTACCGCGACCCGCTGACCAACCTGGGCAATCGCAAGGCCTTCAGCGAACAACTCAAGGACGCCTTGGAACTCGCGCAACGCCAGCAATCCTCGCTGGCCCTGCTGTACCTGGACCTGGACAGGTTCAAGGAAGTCAACGACCGCTTCGGCCACGACATCGGCGATGCCCTGCTGGTGGCCATCGCCGACCGCTTGCGCGGCGCGCTGCGCCAGCCGGACCGGCTCTATCGCCTGGGCGGCGACGAATTCACCCTGCTGCTGCCCGGCTCGGACAGCGACTCGGCCTCCGGACTCGCCCTGCGCCTGGTGAAGGTACTGGATGCGCCCTTCACGCTGGGTGGACACGTCATCGACTTCGTTACGCCGAGTGTCGGCATCGCCCTCTTCCCCACCCATGCGCAGGACGCGGAAAGCCTGATAAAGGCGGCCGACAGCGCCATGTACCAGGCCAAGCGGCAGCGCAACTGCGCGTTTCTCTATCATCCGCCGAGGCTTTCAACGCATCCGCAAAGCCGGTAA	MLLRNRLFWLLAPLATLTLATVYLLADRILLKRFDQQDATALRQEVVRLHSLMRFETGNTLDLARSYAWWSESLDYVRDPDPEFIEGNLDEESVHNMGLDFMLYLDPSGKVLAERWVEHELEGAASSQNIDTAVLQQAIVLHAVRLGAVDNRGDPLHSVALLSLIRNVPLILVSAAITDNQAKAPPLGAIVAGRFLGTEHLNTHLSLIDAKLELLPPDKNEIGWPFLIEDSDHNAPVQISPRRIEAQMQSMRLLYRNAAGEPELLFGLTKPRVLYQGGKQAIDFFLYISVSVAIAALLLAYLALEFGVLRRIMRLNREVAAIGHDARTARIGDLGKDELGQLSRELNRMLERLQQSEARDRLILDSIQDAYFEIDAKGTLRAANQALCDLVGYSPDQIVGRSYREILGEPDVERAKKQFAEALRGGKPIFTSSFKRRDGNLGHFETRFSIIQDMQGQFAGFRGILRDITAQMAYQNQLLDMAYRDPLTNLGNRKAFSEQLKDALELAQRQQSSLALLYLDLDRFKEVNDRFGHDIGDALLVAIADRLRGALRQPDRLYRLGGDEFTLLLPGSDSDSASGLALRLVKVLDAPFTLGGHVIDFVTPSVGIALFPTHAQDAESLIKAADSAMYQAKRQRNCAFLYHPPRLSTHPQSR				NA	NA	NA	NA	NA
BMS010_08774	750	cysZ_1	COG2981	Sulfate transporter CysZ	ATGCCCCCTTCCGCGCTGACCGGCCCGCAATACCTGAGCGAGGGCCTCAAACTCGTGCTGCGTCCCGGCCTGCGGCTGTTCGTGCTGCTGCCGCTGACCATCAACCTGATTCTGTTCACCGGCCTGATCGTGCTTGCGGTACAGCAGTTCAGCGGCTGGGTGGACAGCCTGTTGCCGAGCCTGCCCGAGTGGCTGAGCTTTCTGCAGTACATCCTCTGGCCGTTGTTCGTCCTGCTGGTGCTGGTGATCATGTTCTTCACCTTCAATCTGCTGGCCACCTTCATCGCCGCGCCGTTCAACGGTTTTCTCGCCGAGAAGGTGGAAGTGGTGGCCCGCGGCCGCGACGACTTCCCGCCGTTCAGCTGGGCCGAGCTGATGGCCATGGTGCCGCGCACCATCGGCCGGGAACTGCGCAAGCTGGGCTACTTCCTGCCGCGCGCCATCGGCCTGCTGATTCTTTCCTTCATCCCCGGCGTCAACCTGATCGCCGCGCCGCTCTGGATTCTGTTCGGCGTCTGGATGATGGCCGTGCAATACATCGACTACCCGGCGGACAACCACAAGATGAGCTGGGGCGACATGCTCGCCTGGCTGCGCGAGAAGCGCTGGCAGAGCCTGGGTTTCGGCGGAGCGGTGTACCTGGCGCTGCTGATTCCCTTCGTGAACATCCTGATGATGCCGGCCGCCGTGGCCGGGGCGACGCTGTTCTGGGTGCGCGAGGACGGGGACAAGGCCGTCACGATTCGGTAA	MPPSALTGPQYLSEGLKLVLRPGLRLFVLLPLTINLILFTGLIVLAVQQFSGWVDSLLPSLPEWLSFLQYILWPLFVLLVLVIMFFTFNLLATFIAAPFNGFLAEKVEVVARGRDDFPPFSWAELMAMVPRTIGRELRKLGYFLPRAIGLLILSFIPGVNLIAAPLWILFGVWMMAVQYIDYPADNHKMSWGDMLAWLREKRWQSLGFGGAVYLALLIPFVNILMMPAAVAGATLFWVREDGDKAVTIR	PGPT0003010_888	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0003010-cysZ-K06203	NA	NA
BMS010_08775	1215	mgtA_3	COG0438	GDP-mannose-dependent alpha-mannosyltransferase	ATGGCGCCGGTCGAGACTGGCGTCATGAGCCCGACTCCCCTGCACATCGCTCTCGTCAGCGAAACCTTCCCTCCGGAAATCAACGGCGTCGCCAATACCCTGGGACGCCTCTGCGCCGGCCTGCGCGAGCAAGGCCACACCCTGCAACTGGTGCGCCCCCGGCAGAGCACCGACCAGGGCTGTCGCAGCGACGATGAACTGCTGCTGACCCGAGGCTGGCCGTTGGTGGGCTATCCCGGTCTGCAATGGGGACAGTCGTCCATGCACAAACTGCTGCGTCGCTGGAAGCGCCGTCGCCCGGACGTGCTCTACATCGCCACCGAGGGCCCGCTCGGGTTGTCCGCGCTACGCGCGGCGCGGCGGCTGGATATCCCGGTGGTCAGCGGGTTTCACACCAATTTCCAGCAATACAGCAGCCATTATGGCTTCGGCCTGCTGACCCGGTTGGTGACCCATTACCTGCGCTGGTTTCACAACCGCACCCGCCTGACCCTGGTCCCCAGCGCCAGCCAGTGCATCGAGCTGGAACGGCGCGGCTTCGAACGCATCGCCCTGCTCGCCCGTGGCGTCGATGGCCAGTTGTTCCATCCCTCGCGGCGCAGCGCCGCGCTACGTGCACAGTGGGGGCTGGGGGAAGACGACATCGCGGTGATCCATGTCGGCCGGTTGGCGGCGGAGAAGAACCTCAGCCTGCTCGACCGCTGCTTCCGCGCCTTGCAGCAGCGTTATCCACAGCGCCGGCTGAAGCTGATCCTGGTCGGCGACGGCCCACAGCGCGCGGCCTTGCAGCAGGCCCTGCCAGACGCCCTGTTCTGTGGCCTGCAGCGGGGCGAAATCCTGGCCGAGCACTATGCCTCGGGCGATCTGTTCCTCTTCCCGAGTCTGTCCGAGACCTTCGGCAATGTGGTGCTGGAGGCCCTCGCCTCCGGCCTCGGCGTGGTGGCCTACGACCAGGCCGCGGCGGCCCAACATATCCGCCACGGGCATAACGGCGCGCTGGCGGTGCCCGGCGACGAGGAGGGATTCATCGATGCCGCGCGTTGGCTGCTGGAAGATGACGAAACCCTGCGCCGGGTCCGCCTGAACGCCCGCCAGCACGCCAACCGCCAGGGTTGGGCGGCCATCGTCCGGCAGTTCGAACAACACCTGCACAGCGCCCGCGCCGCACCGACGGAGATACCGGTGGCGGGCGGGGCGGATCAGAGGATTCGGTAG	MAPVETGVMSPTPLHIALVSETFPPEINGVANTLGRLCAGLREQGHTLQLVRPRQSTDQGCRSDDELLLTRGWPLVGYPGLQWGQSSMHKLLRRWKRRRPDVLYIATEGPLGLSALRAARRLDIPVVSGFHTNFQQYSSHYGFGLLTRLVTHYLRWFHNRTRLTLVPSASQCIELERRGFERIALLARGVDGQLFHPSRRSAALRAQWGLGEDDIAVIHVGRLAAEKNLSLLDRCFRALQQRYPQRRLKLILVGDGPQRAALQQALPDALFCGLQRGEILAEHYASGDLFLFPSLSETFGNVVLEALASGLGVVAYDQAAAAQHIRHGHNGALAVPGDEEGFIDAARWLLEDDETLRRVRLNARQHANRQGWAAIVRQFEQHLHSARAAPTEIPVAGGADQRIR				NA	NA	NA	NA	NA
BMS010_08776	1104			NADH oxidase	ATGACCGCTCAAGCCCTGTTCCAACCCTTCCGCCTTGGTGCCCTGGAGCTGCCGACCCGCGTGGTCATGGCGCCCATGACCCGTTCCTTCTCGCCGGGCGGCGTGCCCAACGCGCAGGTGGTTGAGTACTACCGCCGCCGCGCTGCCGCAGGGGTCGGTCTGATCGTCACCGAAGGCACCACGGTCGGCCATGCGGCCGCCAACGGCTATCCCAACGTGCCGCGTTTCTACGGCGAGGATGCCCTGGCCGGCTGGAAGCAGGTGGTGGATGCCGTCCACGCCGAAGGTGGCAAGATCGTGCCGCAGCTCTGGCACGTGGGTAATGTGCGTCGTCTCGGCACTGAGCCGGACGCCAGCGTGCCGGGCTATGGCCCGATGGAGAAACTCAAGGACGGCCAGGTGGTGGTGCACGGCATGACCAAGGCCGATATCCAGGACGTCATCGCCGCCTTCGCCCAGGCCGCGCGGGACGCCAAGGCCATCGGCATGGACGGCGTGGAAATCCACGGCGCCCACGGCTACCTGATCGACCAGTTCTTCTGGGAAGGCAGCAACCAGCGCACCGACGAGTATGGCGGCAGCCTGGCCAATCGCTCGCGCTTCGCCATCGAACTGATCCAGGCGGTGCGTGCCGCGGTCGGCCCCGACTATCCGATCATCTTCCGTTTCTCCCAGTGGAAGCAGCAGGACTACACCGCGCGCCTGGTGCAGACCCCCGAAGCCCTGGGCGAATTCCTCAAGCCGCTGTGCGAGGCCGGCGTGGACATCTTCCACTGCTCGACTCGCCGCTTCTGGGAGCCGGAGTTCGAAGGTTCCGACCTCAACCTGGCCGGCTGGACCCGCCAGCTCACCGGCAAGCCGACCATCACCGTGGGCAGCGTCGGTCTCGACGGCGAATTCCTGCAATTCATGGTCAACACCGACAAGGTGGCCCAGCCGGCCAATATCGAAGGATTGCTGGCGCGCCTGAACAAGCAGGAGTTCGACCTAGTGGCCGTGGGCCGTGCCCTGTTGGTCGATCCGGACTGGGCGCTGAAAGTCCGCGACGGTCGTCTGCAGGACATCCTGCCGTTCAGCCGCGAGGCGTTGAAGACGCTGGCATGA	MTAQALFQPFRLGALELPTRVVMAPMTRSFSPGGVPNAQVVEYYRRRAAAGVGLIVTEGTTVGHAAANGYPNVPRFYGEDALAGWKQVVDAVHAEGGKIVPQLWHVGNVRRLGTEPDASVPGYGPMEKLKDGQVVVHGMTKADIQDVIAAFAQAARDAKAIGMDGVEIHGAHGYLIDQFFWEGSNQRTDEYGGSLANRSRFAIELIQAVRAAVGPDYPIIFRFSQWKQQDYTARLVQTPEALGEFLKPLCEAGVDIFHCSTRRFWEPEFEGSDLNLAGWTRQLTGKPTITVGSVGLDGEFLQFMVNTDKVAQPANIEGLLARLNKQEFDLVAVGRALLVDPDWALKVRDGRLQDILPFSREALKTLA				NA	NA	NA	NA	NA
BMS010_08777	594	nemR		HTH-type transcriptional repressor NemR	ATGAACAGCAGCATTCGTAACGACAAGCGTGACCTGATCCTCGCCAAGGGTGCCGAGGTGATGACCCGTCGCGGCTATCACGGCACCGGCGTGCAGGAAATCGTCCAGGCCGCGAGCATTCCCAAGGGCTCCTTCTATCACTACTTCGCCAGCAAGGAAGACTTCGCCCTGCAGGCGTTGGAGTACCTCTATGGCCCGCGTCTGGAGCGCTATACCCAGGCGCTGGCTAACCCGGCGTTGAGCCCGCGCGAGCGCATCCTGGCGTATTACCGCGACCTGCAAGCCCATTTCAGTCGGCAGGAGCGGCTCGAGTATTACTGCTTCATCGGCAGCCTGAGCTTCGAAATGGCCGAGTTGTCCCCGGCCATCGCCGCCGAGGTCGACAGGATTCTGCAGCGTTCGGTGGACATCCTCCACGGCTGCCTGGAAGAAGCCCAGGCGGCTGGCGAACTGTCCGCCGAGGAAGACTGCGCGAACCTCGCCATGTTCATCACCCAGGCCTGGCAGGGCGCGCTGACCCGGCTCAAGGTCGGTGCCGGCCTGCTTCCCGTGAACGCTTTCATCACCCGGCTGGAACGTCTGCTCCGGCCCTGA	MNSSIRNDKRDLILAKGAEVMTRRGYHGTGVQEIVQAASIPKGSFYHYFASKEDFALQALEYLYGPRLERYTQALANPALSPRERILAYYRDLQAHFSRQERLEYYCFIGSLSFEMAELSPAIAAEVDRILQRSVDILHGCLEEAQAAGELSAEEDCANLAMFITQAWQGALTRLKVGAGLLPVNAFITRLERLLRP				NA	NA	NA	NA	NA
BMS010_08778	483	btuE	COG0386	Thioredoxin/glutathione peroxidase BtuE	ATGAGTGCATTTCACGATCTCACGCTGCGTGCGCTGGATGGCAAGGAACTGCCGCTCGCACCTTTCAAGGGCAAGTTGCTGCTGGTGGTCAACGTGGCCTCCAAATGCGGCCTGACGCCGCAATATGCGGGGCTGGAAAAGCTCTACCAGGCCTACCGCGACCGAGGCTTCGTGGTTCTCGGGCTGCCCTGCAACCAGTTCGCCGGCCAGGAACCGGGCAGCGAGGACGAGATTCGCGAATTCTGCAGCCTCAACTACGGCGTGAGCTTCCCGCTCGGCAGCAAGCTGGACGTGAACGGGCCGGGGCGGCACCCGCTGTATCGCCTGCTGGCTGGCGAAGGCGCCGAATTTCCCGGCGATATCACCTGGAACTTCGAGAAATTCCTCGTCGGCCCGGATGGCCGGGTGCTGGCGCGCTTCTCTCCTCGTACCGCCCCGGACGATCCCGCCTTGATCCAGGCCATCGAAAAGGCCCTGGGTTAA	MSAFHDLTLRALDGKELPLAPFKGKLLLVVNVASKCGLTPQYAGLEKLYQAYRDRGFVVLGLPCNQFAGQEPGSEDEIREFCSLNYGVSFPLGSKLDVNGPGRHPLYRLLAGEGAEFPGDITWNFEKFLVGPDGRVLARFSPRTAPDDPALIQAIEKALG	PGPT0013115_4169	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013115-bsaA|gpx|btuE-K00432	NA	NA
BMS010_08779	486	slyD	COG1047	FKBP-type peptidyl-prolyl cis-trans isomerase SlyD	ATGCCGATCGCCCGCAACAAGGCCGTCTCTATCGACTATACCCTGACCAACGATGCCGGTGAGGTGATCGATAGCTCCGCTGGCGGTGCGCCGCTGGTCTACCTGCATGGTGCAGGCAACATCATCGTCGGCCTGGAAAAGGCTCTCGAAGGCAAGCAGGCCGGTGACGAGATCACCGTCGCCATCGAGCCGGAAGATGCCTACGGCGAATACAGCGCCGAGCTGGTCGCCACTCTGAGCCGCGCCATGTTCGAAGGTGTCGACGAGCTGGAAGTCGGCATGCAGTTCCACGCCTCCGGCCCGGACGGCAGCATGCAAATCGTCACCATCCGCGACCTGGAAGGCGACGACGTGATCGTCGACGGCAACCACCCGCTGGCCGGCCAGCGTCTAAACTTCCAGGTCAAGGTTGTCGATGTTCGTGACGCCACCGCGGAAGAGATCGCCCATGGCCATATTCATGGGGAGGGTGGTCATCATCATTGA	MPIARNKAVSIDYTLTNDAGEVIDSSAGGAPLVYLHGAGNIIVGLEKALEGKQAGDEITVAIEPEDAYGEYSAELVATLSRAMFEGVDELEVGMQFHASGPDGSMQIVTIRDLEGDDVIVDGNHPLAGQRLNFQVKVVDVRDATAEEIAHGHIHGEGGHHH				NA	NA	NA	NA	NA
BMS010_08780	1191	ackA	COG0282	Acetate kinase	ATGCCCGCTCGAAACATTCTGGTGATCAACTGCGGCAGTTCGTCGATCAAGTTCGCCCTGGTCAACGAAGCCCACTCCCAATTTCCCCTCAGCGGGATCGCCGAACGCCTCGGCTCGCCGGATGCGGTGCTGCACTGGCAGCGCGGCAGCGGCGAGCGGGACAGCCTGATCATTCCCAACGGCGATCATCGCACCGCCCTCTCGCAACTCCTGCCGCTGGTGCAGGGCGCCGCCGGCGGCAAGCTGCACGGCATCGGCCACCGGGTGGTGCATGGCGGCGAGCTGTTCACCGCCGCCACCCGCCTGGACCCGAAAGTGCTGGCGGCGATCAACGCCACCGCGCCGCTGGCGCCGCTGCACAACCCGGCCAACCTGCAGGGCATCGAGGCGGCGATGAAGCTGTTCGCCAACCTGCCGCACGTGGCGGTGTTCGACACCGCCTTCCACCAGACCATGCCCGAGCACGCCTACCGCTACGCCCTGCCGGATTCGCTGTACCGCGAGCACGGCGTACGCCGCTATGGCTTCCACGGCACCAGCCACCGTTTCGTCAGCCGTCGAGCGGCGGAGATGGCTGGTCTGTCGGTGGGCGACAGCAGTTGGCTGTCGGCACATCTGGGCAACGGCTGCTCCACCTGCGCCATCGTCAACGGCCAGAGCCGCGACACCAGCATGGGCCTGACCCCACTGGAGGGCCTGGTGATGGGCACCCGCAGCGGCGACGTCGACCCCAACCTGCACAGCCACCTGCACCGCACGCTCGGCTGGAGCCTGGAAGAGATCGACCGCATGCTCAACCGCGACAGCGGGCTCAAGGGGCTGTCCGGGCTGTCCAACGACATGCGCAGCCTGGAGAAGGCCCGCGAGCAGGGCCATGCCGGCGCCACCCTGGCCATCGAGGTGTTCTGCTATCGCCTGGCGAAGTCCCTGGCGGCCATGAGCTGCGCCCTGCCGCAACTGGACGGCCTGATCTTCACCGGCGGCATCGGCGAGAACTCGCCACTGGTGCGCAGCAAGACGGTGGCTCACCTGCGGCTGTTCGGCCTGTCCCTGGACAACGAGGCCAATGCGCGTTGCGTGCGCGGCGTCGGCGGCGCCATCCAGGCTTACGGAGCGCCCCGCGTACTGGTCGTACCGACCAACGAAGAACGGCAGATCGCGCTGGATACCTTGGCGCTGCTCGACCACTGA	MPARNILVINCGSSSIKFALVNEAHSQFPLSGIAERLGSPDAVLHWQRGSGERDSLIIPNGDHRTALSQLLPLVQGAAGGKLHGIGHRVVHGGELFTAATRLDPKVLAAINATAPLAPLHNPANLQGIEAAMKLFANLPHVAVFDTAFHQTMPEHAYRYALPDSLYREHGVRRYGFHGTSHRFVSRRAAEMAGLSVGDSSWLSAHLGNGCSTCAIVNGQSRDTSMGLTPLEGLVMGTRSGDVDPNLHSHLHRTLGWSLEEIDRMLNRDSGLKGLSGLSNDMRSLEKAREQGHAGATLAIEVFCYRLAKSLAAMSCALPQLDGLIFTGGIGENSPLVRSKTVAHLRLFGLSLDNEANARCVRGVGGAIQAYGAPRVLVVPTNEERQIALDTLALLDH	PGPT0001360_3605	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PROPIONIC_ACID_BIOSYNTHESIS,PGPT0001360-ackA-K00925	NA	NA
BMS010_08781	2094	pta	COG0280	Phosphate acetyltransferase	ATGCATACCTTCTTCATCGCCCCCACCGGCTTCGGTGTCGGTCTCACCTCCATCAGCCTCGGCTTGGTCCGCGCACTGGAGCGCGCCGGTCTCAAGGTCGGTTTCTTCAAGCCGATCGCCCAGCCGCACCCCGGCGACGAAGGGCCGGAACGCTCCACCGAACTGATCGCCCGCACCCACGGCCTGACTCCGCCCAAGCCGCTGCCGCTGTCCCAGGTCGAGCACATGCTCGGCGACGGCCATCTGGACGAACTGCTGGAGGAAATCATCAGCCTCTACCAGCAGGCGGCCGAGGGTAACGACGTGGTGGTGGTCGAAGGCATGGTGCCGACCCGCCACGCCAGCTATGCCGCGCGGGTCAACTTCCACCTGGCCAAGAGCCTGGACGCCGACGTGATCCTGGTGTCGGCGCCGGAGAGCGAGACGCTCAACGAACTGTCCGACCGCATCGAGATCCAGGCCCAGCTGTTCGGCGGCCCGAAGGACCCGAAGGTGCTCGGCGTGATCCTCAACAAGGTGCGCAGCGACGACGGCGTGGACGCCTTCGCCAACCGACTGAAGGAAGTCTCGCCGCTGCTCAGGAAAGCCAACGACTTCCGCCTGATCGGCTGCATTCCCTGGCGCGACGAGCTGAATGCGCCGCGCACCCGCGACGTTGCCGACCTGCTCGGCGCACGGGTGCTGAATGCCGGCGACTACGAGCAGCGTCGGGTGCTGAAGATCGTCCTCTGCGCCCGCGCGGTGCCCAACACGGTGCAACTGCTCAAACCCGGCGTGCTGGTGGTGACCCCCGGCGACCGCGACGACATCATCCTCGCCACCAGCCTCGCCGCGATGAACGGCGTGCCCCTGGCCGGCCTGCTGCTGTGCAGCGACTTCCCGCCGGACCCGCGCATCATGGAACTTTGCCGGGGTGCCCTGCAAAGCGGCCTGCCGGTGCTCACCGTGTCCACCGGCTCCTATGACACCGCCACCAACCTCAACCGGTTGAACAAGGAAATCCCGGTGGACGACCGCGAGCGGGCGGAAAACGTCACCGAATACGTCGCCAGCCACATCGAGCACGAATGGCTGCGCCAGCGCTGCGGCACACCGCGCGAACTGCGCCTGTCGCCGCCGGCGTTCCGCTATCAACTGGTCAAGCGCGCCCAGGCCGCCAACAAGCGCATCGTCCTACCGGAAGGCAGCGAACCGCGCACCGTGCAGGCCGCCGCCATCTGCCAGGCGCGCGGCATCGCCCGCTGCGTGCTGCTGGCCAAGCCGGAAGCCGTGCACGGCGTGGCCCAGGCGCAAGGCATCGTGCTGCCGCCGGACCTGGAAATCCTCGACCCGGACCTGATCCGCGAACGCTACGTCGAGCCCATGGTCGAGCTGCGCAAGGGCAAGGGGCTGAACGCGCCCATGGCCGCCGCCCAGCTCGAGGACAGCGTGGTGCTCGGCACCATGATGCTGGCCCTGGATGAGGTGGACGGCCTGGTGTCCGGCGCCATCCACACCACCGCCAACACCATCCGCCCGGCCCTGCAACTGATCAAGACCGCCCCCGGCTACAAACTGGTGTCCTCGGTGTTCTTCATGCTCCTGCCGGACCAGGTACTGGTCTACGGCGACTGCGCGGTGAACCCCGACCCGAGCGCCGCCGAGCTGGCCGAGATCGCCATCCAGAGCGCCGACTCGGCCACCGCCTTCGGTATTCCGCCGCGGGTGGCGATGATCAGCTATTCCACCGGCGATTCGGGCAGCGGCGAGGAAGTCGAGAAAGTCCGCGAGGCCACCCGGCTGGCCCGCGCCAGCCGCCCCGACCTGCTGATCGACGGCCCGCTGCAGTACGACGCGGCGGCCATCGAGAGCGTCGGCCGGCAGAAGGCCCCGAACAGCCCGGTGGCCGGCCGCGCCACGGTGTTCGTGTTCCCCGACCTGAACACCGGCAATACCACCTACAAGGCGGTACAGCGCAGTGCCGACTGCATCAGCGTCGGCCCGATGCTGCAGGGACTGCGCAAGCCGGTGAACGACCTGTCGCGCGGCGCCCTGGTGGACGACATCGTCTACACCATCGCCCTGACTGCCATCCAGGCCGCGGCCAAGCCGTGA	MHTFFIAPTGFGVGLTSISLGLVRALERAGLKVGFFKPIAQPHPGDEGPERSTELIARTHGLTPPKPLPLSQVEHMLGDGHLDELLEEIISLYQQAAEGNDVVVVEGMVPTRHASYAARVNFHLAKSLDADVILVSAPESETLNELSDRIEIQAQLFGGPKDPKVLGVILNKVRSDDGVDAFANRLKEVSPLLRKANDFRLIGCIPWRDELNAPRTRDVADLLGARVLNAGDYEQRRVLKIVLCARAVPNTVQLLKPGVLVVTPGDRDDIILATSLAAMNGVPLAGLLLCSDFPPDPRIMELCRGALQSGLPVLTVSTGSYDTATNLNRLNKEIPVDDRERAENVTEYVASHIEHEWLRQRCGTPRELRLSPPAFRYQLVKRAQAANKRIVLPEGSEPRTVQAAAICQARGIARCVLLAKPEAVHGVAQAQGIVLPPDLEILDPDLIRERYVEPMVELRKGKGLNAPMAAAQLEDSVVLGTMMLALDEVDGLVSGAIHTTANTIRPALQLIKTAPGYKLVSSVFFMLLPDQVLVYGDCAVNPDPSAAELAEIAIQSADSATAFGIPPRVAMISYSTGDSGSGEEVEKVREATRLARASRPDLLIDGPLQYDAAAIESVGRQKAPNSPVAGRATVFVFPDLNTGNTTYKAVQRSADCISVGPMLQGLRKPVNDLSRGALVDDIVYTIALTAIQAAAKP	PGPT0001370_1049	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0001370-pta-K13788	NA	NA
BMS010_08782	897	yihG_1	COG0204	putative acyltransferase YihG	ATGCTGAGTTTTCTCCCCGCCGCCCTGCGCGGCGTGCTCGCCGGCCTGCTGCTGGCGCTGAACACCCTGTTCTGGTGTTGGCCCCTGTTCGCCGTCACCCTGCTCAAGATTCTGCTGCCCTTCGGGCCGGCCCGGCGCCTGTGCAACGTGGCGATGAGCTTCATCCAGGAATCCTGGATCAGCTGCAACAAGGGCTGGATGACCCTGGTGCGGCGGACCCGCTGGGATATCCAGGGCCTGGAACCGCTGGACTACCAGCACTCCTACCTGGTCACCAGCAACCATCAGAGCTGGGCGGATATCTTGGTGCTGCAATACATCCTCAACCGGCGCATCCGCCCGTTGAAGTTCTTCCTCAAGCAGGAGCTGATCTGGGTCCCGGTGATCGGCCTGTGCTGGTGGGCGCTGGAATTCCCGTTCATGAAGCGCTACTCGAAGGCCTACCTGGCCAAGCACCCGGAGAAGAAAGGCAAGGACCTGGCCACCACCCGCCGCGCCTGCGCCAAGTTCCGCCACAACCCGGTGGGCATCTTCAACTTCCTCGAAGGCACCCGTTTCACTCCCGAGAAGCACGCCGAACAGGCATCGCCGTTCCGCCACCTGCTCAAGCCGAAAGCCGGCGGCATCGCCTTCGTCCTCGATGCCATGGGCGAGCAACTGGAATCGCTGGTCAACGTGACCATCCATTACCCCAGCGGCAACCCGAGCTTCTGGACGCTGCTCAGCGGTGGGCTCGACGAGGTGGTGGTGCGTTTCGAAGAACTGCCGATCCCACGCGAATTCATCGGCAAGAGCTACGACCAGGACGAGGCCTACCGCCTGGCCTTCCAGCAGTGGGTCAATCGCCTGTGGGAAGACAAGGACGCCCTGCTCGACCGCTTGCACGCTGGCGAGTAA	MLSFLPAALRGVLAGLLLALNTLFWCWPLFAVTLLKILLPFGPARRLCNVAMSFIQESWISCNKGWMTLVRRTRWDIQGLEPLDYQHSYLVTSNHQSWADILVLQYILNRRIRPLKFFLKQELIWVPVIGLCWWALEFPFMKRYSKAYLAKHPEKKGKDLATTRRACAKFRHNPVGIFNFLEGTRFTPEKHAEQASPFRHLLKPKAGGIAFVLDAMGEQLESLVNVTIHYPSGNPSFWTLLSGGLDEVVVRFEELPIPREFIGKSYDQDEAYRLAFQQWVNRLWEDKDALLDRLHAGE				NA	NA	NA	NA	NA
BMS010_08783	2169	rcsC_26		Sensor histidine kinase RcsC	ATGGTGCTAGCGCAGCTTAAGCCGGTGCCCAAGAACCAGGTTCTGCTGGTGGTGGATGACCGCGAGGAGAACCGGGTGGCCATGGAGGCGTTGCTGGGCGACGGCGATTGGGAGGTGCGCTGCGTCGATAGCGGCCAGGCCGCCCTGCGCTGCCTGCTGGAAGAGGACGTCGGGTTGGTGCTGCTGGACGTGCAGATGCCGGAGATGGATGGCTTCGAGGTGGCGCGCCTGATGCGCGGCAACCCACGAACCCGCTACACGCCGATCATTTTCATTTCGGCCATCGCCCACACCCACGACTCGGTGTTGCATGGCTACGCCAACGGCGCGGTGGACTTCCTCCTCAAGCCGTTCGACCCGCAGGTGCTGCGCTACAAGATCAACGTGCTGCTGGAGCACGAGCGCAACCGCCATGAGCTGCAGATGCTCAGCCAGCAGTTGGACAGCGCCCGCGCGTTCAACGCCTCGGTGCTGGAAAACGCCGCGGAAGGCATCCTGGTGGTGGATGACAAGGGCTGCATCGGCTTCGCCAACCCGGCCATGGCGCGCATGCTCGGCACCACGGTGGAGGCGCTACGCGGCACGGCCCTGCTCGGTTACCTGGCGAGCCCGGACATGCCGCTGCGCTGGAGCGAGTCCGAGTTCTATCACCACTGGCGCCAGGGCGAGACCTACCGCCTGCACGACGCCGCCTTGCGTACCGGGGGCGGCGAGTTGCTGCCGGTGGCGCTGTCCTGTTCGCCGTTGCCGCAGTTGCAGCAATCCATGGTGGTGATCGTCCTGGATATGTCGACGGTGCGCGACCTGCACGCCCAGCTCGAATCCCAGGCGATCACCGATGCCCTGACCGGCCTGCTCAACCGGCGGGGTTTTCACCAGGCACTGGAGTCGGTGCTGGCGCGGATCGAGCGCAGCAGCAACAGCGAACGCAACAACCGGCGCATGGCCTTGCTCTATGTGGACCTGGACGGCTTCAAACGCATCAACGACTCCCTTGGCCACGCCGCCGGGGACATGGTGCTGCGCCGGGTTGCCGATCAACTGCGCGCCTGCATGCGCCCTTACGACACCCTGGCGCGCATGGGGGGCGACGAGTTCACCGCCTTGCTCGATTCCCTCGGCCACCCGGAAGACGCCGCGCGGGTGGCGGAAAAGCTGATCGAAACCCTGTCGGGCCGTTATGAGGTGGACGGCATCGAGGTGACCATGGGCGCCAGCGTCGGCATCGCCTGTTTTCCCGAGTGCGGGCAGACGGTGGACGGCCTGCTCTGCGCCGCCGACATGGCCATGTACGAGGCCAAGCGGGCCGGGCGACAGCAGTATCGCTTCTTCTCCCCGGAGATGAACGGCCGGGCGCGGTCACGGCTGATGCTGGAAGAGAGCTTGCGCAGCGCCATCGAGCACGACGATTTCGTTCTCGTCTATCAGCCACAGATTTACCTGGACAGCGGCCGCCTGCGTGGCTTCGAGGCGCTTTTGCGCTGGCAGCACCGGGTCGCCGGCACCGTGGCGCCCAGTGTGTTCATTCCGCTGCTGGAGGAGACCCGGCTGATCAACCGCCTGGGCGACTGGATTTTCCAGCATGGCATCGGCCAATGCCGGGACTGGCAGCCGGTGTTCGGCAACGGCCTGGTGATGAGCCTCAACGTCAGTCCGGTGCAGTTCAGCATGCCCAAGCTGGTCGACGACCTGCGCCGGGTGCTGGACGAAAAGGGCCTCGCGCCCGCCCAACTGGAGGTGGAGGTCACCGAAAGCGCCCTGATGCAGGATCTCGACGTGACTCGCGAGCAGTTGCGTCAACTGCGCGATCTGGGTGTGCGCATCGCCATCGATGACTTCGGTACCGGCTATTCGTCGCTGGCCTACCTGCGCCATTTCGAACTGGACACGCTGAAGATCGACCGGCTGTTCATTTCCAACATGCTCGAATCGCCACGGGATGCGGCGGTGGTCAGCACCATCATCGACCTGGGCCGCCACCTCGGGCTGGAGGTGATCGCCGAAGGGGTGGAGACCCTGGAACAGCGCGACTGGTTGATTGCCCACGACTGCAACATCATGCAGGGCTACCTCGTCGCTCCGGGCCTGCCGGCCAAGGTGGCCGCGGTGTTTCCGCAGCAGTTGGACTGGAGCGCGCTGGTGGCCGGGGAGCGCGGGGCCGTGCGCTGA	MVLAQLKPVPKNQVLLVVDDREENRVAMEALLGDGDWEVRCVDSGQAALRCLLEEDVGLVLLDVQMPEMDGFEVARLMRGNPRTRYTPIIFISAIAHTHDSVLHGYANGAVDFLLKPFDPQVLRYKINVLLEHERNRHELQMLSQQLDSARAFNASVLENAAEGILVVDDKGCIGFANPAMARMLGTTVEALRGTALLGYLASPDMPLRWSESEFYHHWRQGETYRLHDAALRTGGGELLPVALSCSPLPQLQQSMVVIVLDMSTVRDLHAQLESQAITDALTGLLNRRGFHQALESVLARIERSSNSERNNRRMALLYVDLDGFKRINDSLGHAAGDMVLRRVADQLRACMRPYDTLARMGGDEFTALLDSLGHPEDAARVAEKLIETLSGRYEVDGIEVTMGASVGIACFPECGQTVDGLLCAADMAMYEAKRAGRQQYRFFSPEMNGRARSRLMLEESLRSAIEHDDFVLVYQPQIYLDSGRLRGFEALLRWQHRVAGTVAPSVFIPLLEETRLINRLGDWIFQHGIGQCRDWQPVFGNGLVMSLNVSPVQFSMPKLVDDLRRVLDEKGLAPAQLEVEVTESALMQDLDVTREQLRQLRDLGVRIAIDDFGTGYSSLAYLRHFELDTLKIDRLFISNMLESPRDAAVVSTIIDLGRHLGLEVIAEGVETLEQRDWLIAHDCNIMQGYLVAPGLPAKVAAVFPQQLDWSALVAGERGAVR	PGPT0023624_2330	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-GGDEF|EAL|PAC|PAS-DOMAIN-CONTAINING_PROTEIN,PGPT0023624-GGDEF|EAL|PAC|PAS_domain_containing_protein-NA	NA	NA
BMS010_08784	2037	rcsC_27		Sensor histidine kinase RcsC	GTGGGGCCGCGGCGCCGCGGCGACGACGTGCTGGTACAGGCGGTGATCATCGACATCAGTGCGCGCAAGGCGGCCGAGGAGCGCCTGCGCATCCAGGCCGAGCAACTGGCGGTGGCCAACCGCTACAAGTCGGAATTCCTCGCCAACATGTCCCACGAGTTGCGCACGCCGCTGAACAGCATCCTGATCCTCAGCGATCAGTTGAAGCAGAACAGCGCCGGCAACCTGAGCGAGAAGCAGATCAAGCACGCCGACATCATCCACCGGGCCGGCAGCGATCTGCTGCAATTGATCAACGACGTGCTGGATTTGGCGAAGATCGAGGCCGGACGCGTCCAGCTCAAGCTGGAGCCGGTGACCGTCCAGGACATGCTGGCGGAGCTGGATGCCAGCCTGCGGCCGATGGCCGAGCTGAAAGGCCTGCAGTTGCACAGCAGCGTCGACCCGGAGGTGCCGCGCGCCATCTACAGCGATCGTGGCCGGCTGCACCAGATCCTGCGCAATCTGCTGTCCAACGCGCTGAAGTTCACCGAACACGGCGAGGTGGCGCTGCGGGTATCCTGCGGGCCCGGCCCGGACGATACGCGCCAGACCCTGCGCATCGAGGTCAGCGACACCGGCATCGGCATTCCGGCCGAGCAGCACGAGCGGATCTTCCAGGCGTTCCAGCAGATCGACGGTTCCACCAGCCGGCGCTTCGGCGGCACCGGCCTGGGGCTGGCGATCACCCGCCAGTTGGTGGAGGTGCTGGATGGCGGCATCCAACTCGAGAGCACGCCGGGGGAGGGCTCGCGTTTCATCGTCAGGCTGCCGCTCATCCCGTTGCCGCAGGCCCAGGAGAGTACGGCCGGGATCGGCCCGTTGCGCGGCGGCGAGGGGCCGGCGCTGCTGATCATCGAAGACGACGCCAATTTCGCCGCGGTGGTGGCAGAGGCGGCCCAGGCTCACGGCTTTTCCAGCGTGCTCTGCCAGACCGGCAGGCAGGCGCTCGACCTGCTCCAGCAGGAGCGTTTCGCCGCGATCATCCTCGACATCCTGTTGCCGGACGTCAGCGGCTGGCAAATCTACCGGCGCCTGCGCAGCCTGAACCAGTACCGTGGTACGCCAGTCCATATTATTTCCTGCGTACCGCAGCCGCAGAACTGGCAGGACGACACCCATTACCTGGTCAAGCCGATCGACCGGGAGACGCTGGAGCATGTGTTCGAGGACCTGACCCTGCTCAGCCAGACGCTGCCCTATCTGTTGCTGGTGGAGGATGTCGAGTGGGAGCGCGAGCACTACGCCGGGCATCTCCGGCAACTGGGGTTCACCGTGGTCGCCGCGGGCACCGCCGAGGAGGCGCGGGAGGCCTATGGGCAGCATGCGTTCGCCGCCTTGGTGATCGATCTCGACCTGCCCGACCAGGACGGTTTCGATCTGTTGGAAAGCCTGCACCGGTTGCGGCCGCTGGAGAATGCGCGGGTGGTGATCAACACCGGCGTGGATGTCACCCAGCAGGCCCTGCAACGCCTGCGGCGCTATTCGGCGGTGGTGGTGCGCAAGGCGGGCGACGATCTCAGTGCGCTGAGCGCCGCGGTCCAGGGGTTCCTCTCCAGCGTGGGAGAGCCGGGCCCGATCGGGGAGGCGTTCAGCCCGTTGCAAGGGCTGCGGGTGCTGCTGGTGGATGACGATGTGCGCAACATCTACGCGATGAGCGCGCTGCTCGACGAGGTCGGCCTGCTGGTGACGCCGGCGCGGGACGGCCAGGAGGCCATCGAGCTGTTCCTGCGCGAGCCGTTCGACCTGGTCCTGATGGACATCGCCATGCCCAACATGGATGGCTACACGGCGATCCGCCTGCTCAAGGAAGAACACGGTTGCCGCATCCCGGTGATCGCCCTGACCGCGCTGGCGATGAAGGGCGACCGGGAGAAATGCCTGGAGGCCGGCGCGGACGATTACCTGGCCAAGCCCGTGGGACGCCAGGAATTGCTCGATGTGCTGTATCGGTGGCTGGACAAACCGGGAGGTCGCGATGGTGCTAGCGCAGCTTAA	MGPRRRGDDVLVQAVIIDISARKAAEERLRIQAEQLAVANRYKSEFLANMSHELRTPLNSILILSDQLKQNSAGNLSEKQIKHADIIHRAGSDLLQLINDVLDLAKIEAGRVQLKLEPVTVQDMLAELDASLRPMAELKGLQLHSSVDPEVPRAIYSDRGRLHQILRNLLSNALKFTEHGEVALRVSCGPGPDDTRQTLRIEVSDTGIGIPAEQHERIFQAFQQIDGSTSRRFGGTGLGLAITRQLVEVLDGGIQLESTPGEGSRFIVRLPLIPLPQAQESTAGIGPLRGGEGPALLIIEDDANFAAVVAEAAQAHGFSSVLCQTGRQALDLLQQERFAAIILDILLPDVSGWQIYRRLRSLNQYRGTPVHIISCVPQPQNWQDDTHYLVKPIDRETLEHVFEDLTLLSQTLPYLLLVEDVEWEREHYAGHLRQLGFTVVAAGTAEEAREAYGQHAFAALVIDLDLPDQDGFDLLESLHRLRPLENARVVINTGVDVTQQALQRLRRYSAVVVRKAGDDLSALSAAVQGFLSSVGEPGPIGEAFSPLQGLRVLLVDDDVRNIYAMSALLDEVGLLVTPARDGQEAIELFLREPFDLVLMDIAMPNMDGYTAIRLLKEEHGCRIPVIALTALAMKGDREKCLEAGADDYLAKPVGRQELLDVLYRWLDKPGGRDGASAA				NA	NA	NA	NA	NA
BMS010_08785	1773			hypothetical protein	ATGGACGACGAACCTGCTTTTTTCTCCTCTCTGCGGTCCTGGTTGCCCCTGCTGGTGGCGCTGGTCGTGTTCGCTGGGCTCGGCGGCCTGGTCGCCTGGCAGTGGCGGGCGCTGGAAGACAGCAACCGCCATGAGCAGGAGCAGCGTTTCGAACTGGCGGTGGACGACGTCGAGCAGAGCCTGCTCAACCGCATGCGGGCCTACGAGATGGTGTTGCGCGGCATGTCCGGGCTGTTCCTCGCCGATGCCGAGCCGGATGAGGAGGCCTGGCACCGTGCCGCCGACCAGTTGCGCCTGCAGGAGCGCTATCCGGGCATGCAGGCGCTGGGCTGGGGGCGCTATTTGCCGGGCAGTGAGCTGGACGCCTGGCTCGCTAGCGGTGCCGTGCGGATTTTTCCGGAGGGAAAGCGGGACGACTACGTGTTCGTCCGCTATATCCACCCGATGGACTGGCGCAATAGCCGCGTGCTGGGCTTCGATATGTTCAGCCAAGCCACGCGCCGGCAGGCTATCGAAGCGGCTCGCGACAGCGGCGAGGCGGTGTTGACCGGCCCGTTGCGGCTGCGCCAGGAAACCGAGCAGGATGCCCAGGGCGTGGTGCTCTACCTGCCGGTTTATCGCCCCAAGTCACCGATCACCACGCCGGAGGAGCGACGGGCAGCGCTGACCGGTACGGTCTATGGCGCATTCCGGGTCGACGACCTGTTGCGCGGCGTGCTGGGGGCCACCGGTACGCTCTATCACATCGAGCTGTTCGACAGCGCGGCCACCGGCACGCCGTTGCTCCGCGCCCAGGAGGCGGGCCCGGAGTCACCCCGCTTCCAGATGAGTCGCGATCTGAACCTCTATGGCCGCGACTGGCGGCTGACGGTCAGCAGTATGCCGGTCTACGAGCGTGCGCTGGGCGGGCGGCATCTGTCGTTCAGTCTGTGGAGCGGCCTGTTGGCGTCGGCCTTGCTGGCACTGCTGATCGGCGGCTACCTCTTCCTGCGGGAGCGGACGCTGGCCAACAGCCAATTGCTCGGCGAGCGCCTGCGCGAGCGCGAGGAACGCTTCCGCCTGGTGGTGGAGGCTTCGCCGAACGCCATCGTGCTGGTCGACAGCCGCGGCCGTATCGCCATGGTCAACCGGCAGACCGAGGTGATGTTCGGCTACTCCCGCGACGAGCTGCTCGGCCAGCAGGTGGAAATGCTGCTGCCCGATGCCGTACGCGCGGCACACGTGGGGCTGCGCGAGAATTTCCAGAAGAGCCCGGAAACCCGTCGCATGGGCGGTAACCGCGAGCTGTTCGGGCAGCACCGCGACGGTCGCTCGATCCCGCTGGAAGTAGGCTTGTCGCCGCTGCGCAGCGGCAAGGATGTGCTGGTCCAGGCGGTGATCATCGACATCAGTGCGCGCAAGGCGGCCGAGGAGCGTTTCCGCCTGGTGGTGGAGGCCTCGCCGAACGCCATCGTGCTGGTCGACAGTCGGGGACGGATTGCCATGGCCAACCAGCAGACGGAGCAGATGTTCGGCTATTCCCGCGCCGATTTGCTGGGCCATCCGGTGGAGGTACTGTTGCCGTCCGCCTTGCAGGAAATCCACGTGGGCCTGCGCGAAGGCTATCTGCGCGCGCCGACCCCGCGGCGCATGGGCGGCAACCGCGAGCTGTTCGGGCAGCATCGCGACGGTCATTCGATCCCGCTGGAGGTGGGCTTGTCGGCGCGGGGCCCCGGCGCCCCCGGGCGGGGGCACGCGGGGGTGAACGACAGAACGGCGCGCCAACCCAGATAG	MDDEPAFFSSLRSWLPLLVALVVFAGLGGLVAWQWRALEDSNRHEQEQRFELAVDDVEQSLLNRMRAYEMVLRGMSGLFLADAEPDEEAWHRAADQLRLQERYPGMQALGWGRYLPGSELDAWLASGAVRIFPEGKRDDYVFVRYIHPMDWRNSRVLGFDMFSQATRRQAIEAARDSGEAVLTGPLRLRQETEQDAQGVVLYLPVYRPKSPITTPEERRAALTGTVYGAFRVDDLLRGVLGATGTLYHIELFDSAATGTPLLRAQEAGPESPRFQMSRDLNLYGRDWRLTVSSMPVYERALGGRHLSFSLWSGLLASALLALLIGGYLFLRERTLANSQLLGERLREREERFRLVVEASPNAIVLVDSRGRIAMVNRQTEVMFGYSRDELLGQQVEMLLPDAVRAAHVGLRENFQKSPETRRMGGNRELFGQHRDGRSIPLEVGLSPLRSGKDVLVQAVIIDISARKAAEERFRLVVEASPNAIVLVDSRGRIAMANQQTEQMFGYSRADLLGHPVEVLLPSALQEIHVGLREGYLRAPTPRRMGGNRELFGQHRDGHSIPLEVGLSARGPGAPGRGHAGVNDRTARQPR				NA	NA	NA	NA	NA
BMS010_08786	675	yiaD_1	COG2885	putative lipoprotein YiaD	ATGTCCACTGCACGTCGTTTGCTGACCGCCGCCACCGTCGTTACCCTGCTGGCGGGCTGTGCCTCGCAGAATCCCTATGAAGCCCAGGAGCCGGCCGGCTCCAACAAGACGATGAAATACGGCGGTCTCGGCGCCCTGGCCGGTGCCATCGCCGGTGCGGCGATCAACCACGACAACCGTGGCAAGGGCGCGCTGATCGGAGCCGCCGTCGGCGGTGCGGCCGGTGCCGGTTACGGCTACTACGCCGACAAGCAGGAAGCCGAGCTGCGCCGCAGCATGCAGGGCACCGGCGTGGAAGTGCAGCGCCAGGGCGACAACATTACCCTGATCATGCCGGGCAATATCACCTTCGCCACCGATTCGGCGGATATCGCCAGCAACTTCTACGCCCCGCTGAACAATCTGGCGACCTCGTTCAAGCAGTACGACCAGAACAGCATCGAGATCGTCGGTCACACCGACAGCACCGGTTCCCGCCAGTACAACATGACGCTGTCCCAGCGCCGTGCGCAGAGCGTGGCCAACTACCTGATCGCCCAGGGCGTCAACGGCATGCGCGTGACCACCCGTGGCGCCGGCCCGGACCAGCCGGTGGCGAGCAATGCCACCGAATCCGGCCGTGCACAGAACCGTCGCGTGGAAATCAACCTGCGCCCGCTGGCCGGTCAGCAGTAA	MSTARRLLTAATVVTLLAGCASQNPYEAQEPAGSNKTMKYGGLGALAGAIAGAAINHDNRGKGALIGAAVGGAAGAGYGYYADKQEAELRRSMQGTGVEVQRQGDNITLIMPGNITFATDSADIASNFYAPLNNLATSFKQYDQNSIEIVGHTDSTGSRQYNMTLSQRRAQSVANYLIAQGVNGMRVTTRGAGPDQPVASNATESGRAQNRRVEINLRPLAGQQ				NA	NA	NA	NA	NA
BMS010_08787	645	gloC_2	COG0491	Hydroxyacylglutathione hydrolase GloC	ATGCAATCCACCCAACCCACCCTCATCCGCGAAACTTTCCCCGTCGGCCCCTTGCAGTGCAACTGCACGATCATCGGCGATCCGCTGAGCAAGAAGGCCATCGTGGTCGATCCGGGCGGCAATCCCGAGCTGATCATGGCGCGTTTGGAGGCTCATGGCTTGCAGGTGGTGAGCATCATCCACACCCATGCGCATCTCGATCATTTCCTCGCGTCCGGGCAGATGAAGGAGAAGACCGGCGCCACGCTGCATCTGCATCAGGGCGATCAGTTCCTTTGGGACAACCTGGAGATGCAGTGCCGGATGTTCGGCGTGCCGTACACGCCGGTGCCGGCGCCGGACCAGTGGTTGCAGGACGACGAGGCGCTGGCTTGCGGGTGTGGGGTGGCGCTGCACACGCCGGGGCATACGCCCGGTTCGATGAGCTTCTGGTTCCCGGAGGCTAAACTGCTGATTGCCGGCGATACGCTGTTCCGCCGCGGGATCGGGCGGACCGATCTGTGGGGCGGCGATTACGCCAGCATCGAGCGTTCGATCAAGCAGCGCCTGTACCGCCTGGACGAAGAAGCGACGGTAGTCACGGGGCATGGGCCGGATACCCGGCTGGGCGACGAAATGCGGGAGAACCCGTTCGTCCGTGCCTGA	MQSTQPTLIRETFPVGPLQCNCTIIGDPLSKKAIVVDPGGNPELIMARLEAHGLQVVSIIHTHAHLDHFLASGQMKEKTGATLHLHQGDQFLWDNLEMQCRMFGVPYTPVPAPDQWLQDDEALACGCGVALHTPGHTPGSMSFWFPEAKLLIAGDTLFRRGIGRTDLWGGDYASIERSIKQRLYRLDEEATVVTGHGPDTRLGDEMRENPFVRA	PGPT0001770_6587	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069	NA	NA
BMS010_08788	390			hypothetical protein	ATGCCCCGCCTTCTGACACTGTCCCGCCTGAACGCCTACCTCCGCCAGAACGGCCGCTGCTTCTACTGCGGCGCCTCCATGTGGCTGGAAAGTCCCGAAACCTTCGCCCGCGAGCACGACATCCCCATCGAACGTACCGGCCGTTTCCGCTGCACCGCCGAGCACCTGCAAGCCCGCAGCGAGGGAGGAGGGGATGAGCCGGCCAACATCGTCGCCGCCTGCACCTTCTGCAACCACAATCGCCACGGGCGCAAACGCCCGATGAGGCCGGAACCGTACAAGCGCTTCGTCACCGCACGGCTGCGGCGCAGGCGCTGGCATCAGGAATGGGTGTTCGAAAGGCCCGTATTGCTGGGATTGGAAGACTGCCTCGAGGATGAGGCGGAGTGA	MPRLLTLSRLNAYLRQNGRCFYCGASMWLESPETFAREHDIPIERTGRFRCTAEHLQARSEGGGDEPANIVAACTFCNHNRHGRKRPMRPEPYKRFVTARLRRRRWHQEWVFERPVLLGLEDCLEDEAE				NA	NA	NA	NA	NA
BMS010_08789	234			hypothetical protein	ATGATCAAGGAACGCCTGATCAGCTTGATCAATAAAGAACGAACCACAACATGGTTCGAAAAGCAGACGGGGATCGATCGTTACCGTTGGCAGAACATCAAGAACGGCAAGGTTCGACTCTCCGATGCAGAGATCGATGCGGTCGTGGTTCTGTTTCCTCAGTACGCCTATTGGCTGATCAGCGGAAAGACCGCTCCCGAAATCGGCCAGATCAGCCCCGAGCAGGAACAGTAA	MIKERLISLINKERTTTWFEKQTGIDRYRWQNIKNGKVRLSDAEIDAVVVLFPQYAYWLISGKTAPEIGQISPEQEQ				NA	NA	NA	NA	NA
BMS010_08790	576			hypothetical protein	GTGGGCTTGCACCGGCCCGGTGAAACGAAGCATCCGTGCGGCCCGCATTTGCCAGCAGAGCTGGCTCCTACGCAAAGCGCTGCGTGGGGGCTGCGGGACTTGGCGAATTCATTCGCCCAGCGATGCCGAAACGGGCGCCTGAGTAGGCCCTGCGCTCATTTGCCCAACCGACCTCCGCCCCTCACCCTGCCCTCTCCCCAGTGGGGAGAGGATATGTGTGGGCTTGCACCGGCCTGTAAAACGAAACCTCCGCGGGGCCACAGGGCATTCGCCAGCAGAGCTGGCTCCTACGCAAAGCACTGCGTGGGGTTGCGGGGCTTGTGTAGGGGCGAATTCATTCGCCCAGCGATGCCGAATCGAGCGTATGAGTTGGTCCTTCGCTCATCTGCCCCACCGACCTCCGCCCCTCACCCTACCCTCTCCCCAGCGGGGCGAGGGTATGTGTGGGTTTGCACCGGTCTGGTGAAACGAAACCCTCGTGGGCCCGTATTCGCCAGAAAAGCTGGCTCCTACAAATCCCTGACTACGATCCACCGTTCCGATAGTCGCTTGGCAGCTTGCCTGTCCACTTCTTGA	MGLHRPGETKHPCGPHLPAELAPTQSAAWGLRDLANSFAQRCRNGRLSRPCAHLPNRPPPLTLPSPQWGEDMCGLAPACKTKPPRGHRAFASRAGSYAKHCVGLRGLCRGEFIRPAMPNRAYELVLRSSAPPTSAPHPTLSPAGRGYVWVCTGLVKRNPRGPVFARKAGSYKSLTTIHRSDSRLAACLSTS				NA	NA	NA	NA	NA
BMS010_08791	1104			putative HTH-type transcriptional regulator	ATGGGCTTGCCGATTTTTGTCGGACAAGGTTATTTTCAGCCAATCTTGCAGTCATATCCGGCCAAAGCGACTGATAACAACATGAACAAGCCGCTCAACCTTTCTGCCGAACTCGTGCCGGTAGCCTATGCCGTCGCGCTGCTCGACCTCGCCGAGGAGCTCGGCGTTTCGCGCCAGGCTCTGTTCGCCGCCGCCCGGGTACGCCCGGAGGTGATGGACAGCCCCAACGGGCGCCTCTCCTTCATCGATTTCAACCTGCTGGCCAGCGCGGCGCTGTTGCACTGCAACGAGCCGGCCCTGGGGCTGCGCCTCGGGCCGCGGTTGAACCTTTCCAGCCACGGCATCCTCGGTTATGCCGTGCTCTCCAGCGCCAATCTGGAAAGGGCGCTGCAATTCGCCCTGAAGTACTACCGGGTGCTGGGACTGGCCTTCGAGCTGGAGCAGGTCGACGACAATGGTCGGGTCCAACTGCGCGCCAGCGAAACCATGCCGCTGGGCGCGCTCGGCCGTTTCGCCGCCGAGAGCCTGCTGGCCAGCCTCTACAGCATCACGCGCTTTCTGGTGGGGGAAGAGCTGCAAGGCGTCGAGGTCGGTTTCGCCTACCCGGCGCCGAGCTATGCCGAGCGTTATGTGGAAGCCTTTGGCGTGGCGCCGGTCTTCGAGCAACCCTTCCACTGGCTGAGCCTGCCCACCAGCTACCTCGCCCGACCCATGGCCCTGGCCAACCCGGCCACTGTGCAGATGTGCCAGCAACAATGCGAAGCCCTGCTGGCCACCCTCGACATCCAGGATGGACTGCTCGTGCGGGTCCGCCGACTCTTGCTCGCCCGCCCCGGCGATTTCCCCGACCTCGACAGCGCCGCCCGCGCCCTGCATACCAGCGGACGCAGCCTGCGTCGCCACCTCGCCGCCATGGGCACCACCTACCAAGAAGTGCTGGACGACGTACGCAAGCGCCTGGCCTTGCAATACCTCACCACCACCCACCTGCCACTGCATGAAGTCGCCTTTCTGCTCGGTTTCAGCGACCCCTCCAACTTCCGTCGAGCCTTCAAGAAGTGGACAGGCAAGCTGCCAAGCGACTATCGGAACGGTGGATCGTAG	MGLPIFVGQGYFQPILQSYPAKATDNNMNKPLNLSAELVPVAYAVALLDLAEELGVSRQALFAAARVRPEVMDSPNGRLSFIDFNLLASAALLHCNEPALGLRLGPRLNLSSHGILGYAVLSSANLERALQFALKYYRVLGLAFELEQVDDNGRVQLRASETMPLGALGRFAAESLLASLYSITRFLVGEELQGVEVGFAYPAPSYAERYVEAFGVAPVFEQPFHWLSLPTSYLARPMALANPATVQMCQQQCEALLATLDIQDGLLVRVRRLLLARPGDFPDLDSAARALHTSGRSLRRHLAAMGTTYQEVLDDVRKRLALQYLTTTHLPLHEVAFLLGFSDPSNFRRAFKKWTGKLPSDYRNGGS				NA	NA	NA	NA	NA
BMS010_08792	834			hypothetical protein	ATGGCCAGCACCACACCCAAAGGTTTGGCGATTCGACCGCGCCAATTGGATTTCGATCTGCCGCAGCCCATGCCGCGCCATTGGCATGGCGGGGATGCTTTCAAGTCGCATCTGTTCGATGCGATGTCGGTGCTGTTTCCGGACGGCGAACGCTTCTTCATCGATTCGGTGCGGTTGTTCCGCGACCGGATCGACGACCCGCTGCTGAAGGAACAGATCCGCGGTTTCATCGGTCAGGAAGGCCATCACAGCCGCGAACATCTGGTCTACAGCCAGCGCCTGCGCGACTCCGGCTATGACGTGGATTACCTGGAGCGCGGCCTGAAGCGCCGCCTCGGCTTCATCCAGAAGCATTTCCCGGCGCGCCTGCAACTGGCGGCGACCTGCGCGGTGGAGCACCTCACGGCGATCATGGCCAATGCCTTGCTGACCGACCCACGCTGGCTGGAGGGTGCCGACCCGGCCATGAGCCGCTTGTGGCGTTGGCATGCCCTGGAGGAAACCGAGCACAAGGCGGTGGCCTTCGATGTATTCCAGACCGTGTGCGGCAGCCCCTGGCTGCGGCGGCGGGCGATGCTGCAGAGCACCTTCTTTTTTACCGTCGATTCGCTGAAGGGGCTGATTCATATGCTCAAGCGCGACGGCCTGCTATGGAACTGGCGCGTGTGGCGCGATGGCCTGCGTTGGCTGTGGGGCAAGGATGGCATCTACCGGCCGCTGGTGCGGGTCTACCTGGATTTCTACAAGGCGGATTTCCATCCGTGGCAGCATGACAATCTGCATCTGGTGGAGCGCTATCGCCGCGATTTCGACCCGGAGCCAGGTAGCGCCTGA	MASTTPKGLAIRPRQLDFDLPQPMPRHWHGGDAFKSHLFDAMSVLFPDGERFFIDSVRLFRDRIDDPLLKEQIRGFIGQEGHHSREHLVYSQRLRDSGYDVDYLERGLKRRLGFIQKHFPARLQLAATCAVEHLTAIMANALLTDPRWLEGADPAMSRLWRWHALEETEHKAVAFDVFQTVCGSPWLRRRAMLQSTFFFTVDSLKGLIHMLKRDGLLWNWRVWRDGLRWLWGKDGIYRPLVRVYLDFYKADFHPWQHDNLHLVERYRRDFDPEPGSA				NA	NA	NA	NA	NA
BMS010_08793	834			hypothetical protein	ATGGCCAGCACCACCCCGGAAGGTTTGCAGATTCGTCCGCGCCATCTGGATTTCGATCTGCCCAGCCCGTTGCCGCGCCACTGGCATAGCGGCGATGCGTTCAAGACGCACCTGTTCGACGCCATGTCGGTGCTGTTTCCCGACGGCGAGCGTTTTTTCATCGACTCGGTGCGGCAGTTTCGCGACCAGATCGACGATCCGGTGCTGAAGGAACAGATTCGCGGCTTCATCGGCCAGGAGGGCCATCACAGCCGTGAACATCTGGTGTACAGCCAGCGCCTGCGGGACCTCGGTTATCAGGTCGAACGCATGGAGCGCCGCGCCCAGGCCCGCATCCGCTACACCCAGAAGAAGCTCTCGCCCCGTCGCCAGTTGGCGGCCACCGCGGCGCTGGAACACATCACCGCAATCATGGCCGATGCCGTGTTGAAGAACCCCGAGCCGCTACACGGGGCCCATCCGGCCATGGCCCGCCTGTGGCGCTGGCATGCGCTGGAAGAGACCGAGCACAAGGCGGTGGCGTTCGACGTGTACAACCAGGTCTGCGGCAGCCGCAAGCTGCTGCGCCGGGCAATGCTGATGGGCACCTTTTTCTTCGTGCTGGATACCACGCGCGGGCTGGCGCACATGCTCGAGCGCGACGGTCTGTTGTGGAACTGGCGCGTGTGGCGCGACGGCCTCAAATGGGCCTGGGGCAAGGACGGCGTGTTCCGCCCGCTGGTGCGCACCTACCTGGATTTCTTCAAGGCCGACTTCCATCCCTGGCAGCACAACAACCTCGACCTGCTGGAGCGCTTCCGCGGCGAGTTCGAGCCGCAGGCCCGGGCGGCTTGA	MASTTPEGLQIRPRHLDFDLPSPLPRHWHSGDAFKTHLFDAMSVLFPDGERFFIDSVRQFRDQIDDPVLKEQIRGFIGQEGHHSREHLVYSQRLRDLGYQVERMERRAQARIRYTQKKLSPRRQLAATAALEHITAIMADAVLKNPEPLHGAHPAMARLWRWHALEETEHKAVAFDVYNQVCGSRKLLRRAMLMGTFFFVLDTTRGLAHMLERDGLLWNWRVWRDGLKWAWGKDGVFRPLVRTYLDFFKADFHPWQHNNLDLLERFRGEFEPQARAA				NA	NA	NA	NA	NA
BMS010_08794	942		COG0596	putative protein	ATGTCCGCTTCAAGCCTCTCCCTGATGCCGCCGCTGGCGGTCGGGTTCGCCCGCCTGGGCTTCGGCTCCCTGCCGCTCGACCGGCTGAAGGCCCGCTATGCCAGCCCGGACAGCGGCTCGCGCTTCATCGAGCTGGATGGCTTCAACGTCCATTACCGCGATGAAGGCAGCCGCGACAAACCGGTGCTGGTGATGATCCATGGCGTGGTCGCCTCCCTGCATACCTGGGACGGCTGGGTCAGCGCCTTCGCCCCGCATTACCGGATCATCCGCTTCGACGTGCCGGGCTTCGGCCTGACCGGGCCGAAGCGCGACGGCGACTACTCCGCCGAGCGGATGATGCGTGTCTTCGGCTTGCTCCTCGACTACCTCGGCATCGCCAAGGCCAGCATCGCCGGCAACTCGCTGGGCGGCTACATCGCCTGGAACTTCGCCGTCGCCGCGCCGGAGCGGGTGGACAAGCTGGTGCTCATCGACCCCGCCGGCTACCCCATGGCCAAGGTGCCCTGGATGATCGCCGCCGCCGCGCTGCCGGGTGCGACCTGGGCCATGCCGCTGTGGATGCCACGCGCGCTCATCGCCCAGGGCATCAAGGAAGTCTACGGCGAGCCGGGGCGGATCAAGCCGGGCGTGGTCGACCGCTACTACGACCTGACCCGCCGTCCGGGCAACCGCCGGGCGATGATGGACATCTTCCGCGTACTGCTGAAGGTGAATCGCGATGAGCTGCACACGACGCCGGAGCGGGTGGCGAAAATCCAGGCGCCTACGCTGTTGATGTGGGGCGACCGCGACCGCTGGATATCGCCCAAGCACGTGCCGCTCTGGCAACGCGACCTGCCCGGCATCCAGGTGAAAACCTACGCCGGCGTCGGCCATATTCCCATGGAAGAAATCCCCGAACGCACCGCCGCCGACGCCCTGCGCTTCTTGCAGGGATGA	MSASSLSLMPPLAVGFARLGFGSLPLDRLKARYASPDSGSRFIELDGFNVHYRDEGSRDKPVLVMIHGVVASLHTWDGWVSAFAPHYRIIRFDVPGFGLTGPKRDGDYSAERMMRVFGLLLDYLGIAKASIAGNSLGGYIAWNFAVAAPERVDKLVLIDPAGYPMAKVPWMIAAAALPGATWAMPLWMPRALIAQGIKEVYGEPGRIKPGVVDRYYDLTRRPGNRRAMMDIFRVLLKVNRDELHTTPERVAKIQAPTLLMWGDRDRWISPKHVPLWQRDLPGIQVKTYAGVGHIPMEEIPERTAADALRFLQG				NA	NA	NA	NA	NA
BMS010_08795	846			hypothetical protein	ATGAAACCGCCCCGCCGTTCGCTCTGGCCGCTGGCCTTTCTTCTGCTCGCGTTCCTGCGCCCGCTGGCCGCCGCCGACCTGTTCTACCTCGGCCAGAAGATTCCCGACATCGACAAACCCTGGGCCAGCGGCGACTACCAGTTGCTCATCGATGCGCTGGCGAAGATCGATACGACCCAGGCCAATGCCCTGCCCCGCCGCGCCGGCGAGTTCACCGGGCCGATCTACCGGCGGATGGTGAGCGAGGAGAATTTCCGCCCGCAGCTGAACATCTACGCGCCGCTGGAACTGCGCCAGAACGAGGCGCGCGAGGTGCTGTTCCGCCTCAAGGAGTTGATGCGCCTTTACTTCGATTTCCGTGCCGCGCAGCAGCCCTACGGGGCGGAGGCGCTCGGTCTGATGACCTATTCGCTGCGCCAGCAGGCGGTGCTGTTCACCCTGACGGTGGAGTTCTGGACCACCCTGTCGCAAACCGAGCAGAGTAACCCGGTCCGCCTGCAAGGCTTGCTAGAAACCAAAGCCGCCGCGGCCATGCTGACATCCAGCGCCCTGGATTACCTGGACCTCACCCGCCAGTTCGCCCGCCAGGACCTGGTGCTCTACGGGGCCGAGCTGGGCAAGCAATTGCCCGAGCTGTTCGTCCATCTGCGCAGCGACGTACGCCAAGAGCTGCTGGCACGCCTCACGAAGTTGGCGGAACAGCATCCTTACGCGGAAGTACGCACCAGCTTCGGCGAGACGCTCCCGGTGCTACAGGCGATCCAGGCGGACGTCGAGCAGCAACTGGCCCAGCCGCAACCGACGGGCAAGCCGGCCGCCAAGTTGGATCTTTCCGTTCCGCAGTGA	MKPPRRSLWPLAFLLLAFLRPLAAADLFYLGQKIPDIDKPWASGDYQLLIDALAKIDTTQANALPRRAGEFTGPIYRRMVSEENFRPQLNIYAPLELRQNEAREVLFRLKELMRLYFDFRAAQQPYGAEALGLMTYSLRQQAVLFTLTVEFWTTLSQTEQSNPVRLQGLLETKAAAAMLTSSALDYLDLTRQFARQDLVLYGAELGKQLPELFVHLRSDVRQELLARLTKLAEQHPYAEVRTSFGETLPVLQAIQADVEQQLAQPQPTGKPAAKLDLSVPQ				NA	NA	NA	NA	NA
BMS010_08796	2745	malT_5		HTH-type transcriptional regulator MalT	ATGATGCCTTTCCAGCCAGGTATGTCCGCGCTTTCACCCGCGCCATCGCCCGCCGAAGGACGCTTCTTCCGTCCGCCGCTGCCATCGGGGCACGTGCGGCGCGAGCGGCTGTGCGAGCGGCTCGCCGCCGGGCTGGGCGGGCGCCTGCTGCTGGTCAGCGCGCCGGCCGGGTTCGGCAAGAGCTCCCTGGCCATCGAATTCTGCCAGCACCTGCCGGACGATTGGCGCAGCCTCTGGCTCGGCCTCAGCCGGCGCGACAGCGACCCGGGACGTTTCCTCGAGCGCATGCTCGATGGGCTTCGTCAGTTCTTCCCCGGCCTGGGCGACGAGGCGCTGGGTCTGTTGAAGATGCGCCAGCGCCACCAGCCGTTCGCCTTCGAGGAGTGGCTGGACGGGCTGCTCGACGAACTGGCAGAACGGCTCGACCCCGCGGCCCCGCTGTTGCTCGTGCTGGACGATTACCACTTGGCCCAGGGGCCGGTGCTCGACCGTTGCTTGCAGTTTTTCCTCAACCACCTGCCCGATGGGTTGATCGTGCTGGTCACCAGTCGCCAGCGGCCGGACTGGCACCTGGCCCGGCTGCGCCTCCAGCGGCAGTTGCTCGAACTCAACGAACAGGACCTGCGTCTGACCCGCGACGAAGTGGCCGCGCTGCTCGGTAACCAGGGGGCGCGCTTCAATGAGGCGGCGCTGGAGAGCCTGGTCCAGCGCAGCGAGGGTTGGGTGGCGGGGTTGCGCCTGTGGCTGCTGGCCGCCGAGTCGGAAAGCGCCGAAGGCCTCGACCGGGCGCTGCACGGCGCCGAGGGGTTGATCCGCGACTACCTGCTCGAGGAAGTGATCGAACGCCAGCCGGCCGACGTGCAAGCCTTCCTTTACGAGACGGCCTGCCTGGAGCGCTTCTGTGCCGGGCTCTGCGATGCGGTGCGCGAGGCCCACGACAGTGCCGCCATCCTCCAGCACCTGCAGGCGCACCAAGTGTTCCTGGTGCCGCTGGACGAACATGGCCATTGGTTCCGTTACCACCACCTGTTCACCGACCTGCTACGGGCGCGGCCGGACAACCGCCTGACCCTGCCACGGGCCAGCATTCACCTGCGCGCCTGCCGCTGGTTCAGCGCCCAGGGGCTGCTCGACGAGGCGATCGACCAGGCCCTGCGCGCCGGCCAGCCGGACGTGGCGGCCAGCCTGGTGCAGAACCTTTCCGAAGAACAACTGCTGGCCGAGCAGAACGTCGCCATGCTGCTGCGCTGGAAGATGGACCTGCCGGACAGCCTGCTGGCCAGCACGCCCCGGCTGATCCTGCTGTACGGCTGGGCTCTGGGCCTGGCCTGCCAACTGGACGCAGCGGAGGAGCTGGCGAGCCACCTGGCCAACTTCCTGCCGGCGCCGACCGAGACCGAGCAGCGCGGCCTGCTGGCGCAATGGCTGGCCCTGAGCGGCCTGATCGCCCGCGGGCGCGGCGACAGCCAGCGTGCCGAGAAATTCTGTAGCGAAGCCTTGACGGCCCTGCCGCAGGATCGTTTCGGCCAGCGTCTGATGAGCCTGTCGATGCTGGGCAACCTGGCGATCGTCCGGGGCGATCTCTGGCGTGCCCGGGGGCTGAATCGCGAGGCCCTGGAGCTGGCCCAGCGGGTCGGCAATCCCTTGTTCGAGGCGCTGGCGCATTACGACCGCAGCCGGGTGCTCCAGGCCCGTGGCGAAGTGCTGCGCGCCCTGGAGGAGGTGCGCCAGGGACAGGAGCGGCTGCACGGGCTGCCGGCCCAGCGCCTGTATGCGGCACGGGCGCGCCTGACGCTCTACGAGGGCTACCTGATGGCGGTCCGCCTGGAGCCGGACAAGGCGAGAGTCCGCCTGCAGGCCGGTATCGCCGAGGCGCGGGCGTGCCGCGATATCAGTCTGCTCCTCGGCTTCTGTGCCCTGGCCAGCCTGGAAGGACGCGGCGGACGGATTTCCGAAGCTTTCGCCTTGCTCGCCGAGGCCGAGCGGCTCATGCACATCTGGGACGTGCCGCCGATCTACTACCTGGCGATGATCACCCTGGTGAAGTGCGAGCTCTGGCTGGCACAAGGGCAACTGGAATTGGCCGAAGCCTGGCTGGAGCGTCTGGCGGAAACCTACGGCGGCGAGCAGGCCGCCGCCGCACCGGAATTCCATCCGCAACTGCCGCTGCACATCGAACTTCACCGGGCGACCCTGGAGCGCCTGCAAGGCCGCCTGGTCGAGGCCGAGCGCCGTCTGCGCGGCCTCAGCCAGCGAGCGCAGTCGGCGGGCGGCCAGTTGTTCGCGATCATCGCCCAGGTACGCCTGACTCTGCTGCTGCGTGCGGGCGGACGCGAGCGCGAGGCGCAGCAGCAACTCGGCGCCAGCCTGGAAGCGGCGGCCGGTGGTGCGTTGCTGCCCTTCCATGACCTGCTCGAACAGCAACCGGGCTGGTTCCGCGAACAACTGCTGACGAAGGCCGCAGGCGATCTGCGCGACGCCTTGCTGCGCCGTCTACCCGACGACGAAGGCGCCGCCCCTCCGGAGAGCGGCGTCGCCAGCGGTCAGGCCGAATCCCTCAGCTCCCGCGAGCTGGCCGTACTGCACTTGATCGCCCAAGGCTGCTCGAACCAGGAAATCAGCGAGCGCCTGTTCATCTCCCTGCACACCGTCAAGACCCACGCCCGCCACATCAACAGCAAGCTCGGCGTGGAGCGCCGCACCCAGGCGGTGGCGCGGGCCAAGGGGTTGGGATTGTTGCGCTGA	MMPFQPGMSALSPAPSPAEGRFFRPPLPSGHVRRERLCERLAAGLGGRLLLVSAPAGFGKSSLAIEFCQHLPDDWRSLWLGLSRRDSDPGRFLERMLDGLRQFFPGLGDEALGLLKMRQRHQPFAFEEWLDGLLDELAERLDPAAPLLLVLDDYHLAQGPVLDRCLQFFLNHLPDGLIVLVTSRQRPDWHLARLRLQRQLLELNEQDLRLTRDEVAALLGNQGARFNEAALESLVQRSEGWVAGLRLWLLAAESESAEGLDRALHGAEGLIRDYLLEEVIERQPADVQAFLYETACLERFCAGLCDAVREAHDSAAILQHLQAHQVFLVPLDEHGHWFRYHHLFTDLLRARPDNRLTLPRASIHLRACRWFSAQGLLDEAIDQALRAGQPDVAASLVQNLSEEQLLAEQNVAMLLRWKMDLPDSLLASTPRLILLYGWALGLACQLDAAEELASHLANFLPAPTETEQRGLLAQWLALSGLIARGRGDSQRAEKFCSEALTALPQDRFGQRLMSLSMLGNLAIVRGDLWRARGLNREALELAQRVGNPLFEALAHYDRSRVLQARGEVLRALEEVRQGQERLHGLPAQRLYAARARLTLYEGYLMAVRLEPDKARVRLQAGIAEARACRDISLLLGFCALASLEGRGGRISEAFALLAEAERLMHIWDVPPIYYLAMITLVKCELWLAQGQLELAEAWLERLAETYGGEQAAAAPEFHPQLPLHIELHRATLERLQGRLVEAERRLRGLSQRAQSAGGQLFAIIAQVRLTLLLRAGGREREAQQQLGASLEAAAGGALLPFHDLLEQQPGWFREQLLTKAAGDLRDALLRRLPDDEGAAPPESGVASGQAESLSSRELAVLHLIAQGCSNQEISERLFISLHTVKTHARHINSKLGVERRTQAVARAKGLGLLR	PGPT0018616_658	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0018616-malT-K03556	NA	NA
BMS010_08797	1374			putative protein	ATGCAAATGAAAACAACAAAAAGTCTGTTGCAAACCGGTGCCCTGGCGCTGTCCCTGTTGGCTACCAGCGTCATGGCTGCGGTTTCTGCCGACGAAGCGGCCAAGCTGGGCGCCAGTCTGACGCCGGTGGGGGCGGAGAAGGCGGGCAATGCCGATGGTTCCATTCCCGAGTGGACCGGCGGCCTGCCGCAGAACGCCGGTGCCGTGGATGCCAAGGGGTTCCTGGCGGACCCCTTCGCCAACGAGCAGCCGCTGTTCACCATCACCGCGCAGAACATGGAGCAGTACAAGGACAAGCTGACCCCCGGCCAGCAGGCGATGTTCAAGCGCTATCCGGACAGCTACAAGATGCCGGTCTACCCGACCCATCGTTCCGCCACGCTGCCGGCCAATGTGCTCGAAGCTACCCAGTACAACGCCACCAACACCAAGCTGGTGGAGGGCGGTAACGGCCTGGAGAACTTCCGCACCGCCAACCCGTTCCCGATTCCGCAGAACGGCCTGGAAGTGATCTGGAACCACATCACCCGCTACCGTGGTGGCAGCGTGCGCCGTCTGGTGACCCAGGCGACTCCGCAGGCGAACGGTTCCTACAACCTGGTGTACTTCCAGGACGAGTTCACCTTCCGTGACAAGCTGAAGGACTACGACCCGAACAAGCCGAGCAACGTGCTGTTCTACTTCAAGCAGCGGGTAACCGCACCGTCGCGTCTGGCCGGTAACGTGCTGCTGGTGCACGAAACCCTGAACCAGGTGAAGGAGCCGCGCCTGGCCTGGCTGTACAACGCCGGTCAGCGCCGTGTCCGTCGCGCGCCGCAGGTGTCCTACGACGGTCCGGGTACCGCCGCGGACGGTCTGCGTACCTCGGACAACTTCGACATGTACAACGGTGCGCCGGACCGCTACGACTGGAAGCTGAACGGCAAGAAGGAAATCTACATCCCGTACAACAGCTACAAGCTCGACTCCCCGAGCCTGAAGTACGCCGATGTGATCAAGGCCGGCCACATCAACCAGGACCTGTCGCGCTACGAGCTGCACCGCGTCTGGCACGTGACCGCGACCCTGAAATCGGGCGAGCGCCACATCTACGCCAAGCGTGACTTCTTCATCGACGAAGACACCTGGCAAGCCTCCGCCATCGACCACTACGATGGTCGCGGCACCCTGTGGCGTGTCGCCGAGGCGCATTCCCAGTACTACTACGATAAGCAAGTACCGTGGTACACCCTGGAAGCCCTCTACGACCTGCTGTCCGGCCGCTATCTGGCGCTGGGTATGAAGAACGAGGAGAAACAGGCCTACGACTTCAACTACACCGCCGCGGAAAGCGACTACACCCCGGCTGCCCTGCGTCAGGCAGGCGTACGCTGA	MQMKTTKSLLQTGALALSLLATSVMAAVSADEAAKLGASLTPVGAEKAGNADGSIPEWTGGLPQNAGAVDAKGFLADPFANEQPLFTITAQNMEQYKDKLTPGQQAMFKRYPDSYKMPVYPTHRSATLPANVLEATQYNATNTKLVEGGNGLENFRTANPFPIPQNGLEVIWNHITRYRGGSVRRLVTQATPQANGSYNLVYFQDEFTFRDKLKDYDPNKPSNVLFYFKQRVTAPSRLAGNVLLVHETLNQVKEPRLAWLYNAGQRRVRRAPQVSYDGPGTAADGLRTSDNFDMYNGAPDRYDWKLNGKKEIYIPYNSYKLDSPSLKYADVIKAGHINQDLSRYELHRVWHVTATLKSGERHIYAKRDFFIDEDTWQASAIDHYDGRGTLWRVAEAHSQYYYDKQVPWYTLEALYDLLSGRYLALGMKNEEKQAYDFNYTAAESDYTPAALRQAGVR				NA	NA	NA	NA	NA
BMS010_08798	1794			hypothetical protein	ATGACAACAACAAAACCGCTCTGGCGCCTGGCAAGACTGCCGCTGGCCGTCAGTCTCGCATCCACCCTCGCCGCTCCGGCATTCGGCGTGACCTTCAACATCGGGGAAATCGAAGGGCAGTTCGACTCTTCGTTGTCGGTTGGGGCAAGCTGGGCCGTGCGTGGCGCGGACCCGGACCTGGTCGGCGCGCGGAATGGTGGTTCCGCCTCTTCGCAAACCGGTGACGATGGCCGGTTGAACTTCAAGAAGGGCGAAACCTTCTCCAAGATCTTCAAGGGCATCCATGATCTGGAACTGAAGTACGGCGATACCGGCGTATTCCTGCGTGGCAAGTACTGGTACGACTTCGAGTTGAAAGACGAGCATCGCCTGCTCTACGACATCGACGACAGCAACCGCAAAGAGGCTGCCCAGTCATCCGGTGCCCAGTTGCTTGACGCGTTCATCTACCACAACTACACCATCGGCGACCTGCCGGGCAGTGTGCGCCTGGGCAAGCAGGTGGTGAGCTGGGGCGAAAGCACCTTCATCTTCAACTCCATCAACTCCATCAACCCGGTCGACGCCGCTGCGTTCCGCCGTCCGGGTGCCGAGATCAAGGAAGGCCTGATCCCGGTCAACATGTTCTACGTGTCCCAAAGCCTGACCGATAACTTGTCGGTCGAGGCTTTCTACCAGCTCGAGTGGGACCAGACCGTGGTGGATAACTGCGGCACCTTCTTCTCGGTCGACCCCGTGGCGGATGGATGTACCGATCGTCTGGCTGTCCTAGGCAGTGACCTCGAACCGACCGGGGCTGACGGTTATCGTTTTGTAGGTCGATTGGGGGATAACGATGCTCGCGACAGCGGCCAATATGGCATCGCCCTGCGTTGGTTCGCGCCGGAGCTGAACGATACCGAGTTCGGCTTCTACACCATGAACTACCACAGCCGGACTCCCTATCTTTCCTATGTTGCGGGCCGTGGTGTCTATCTCTTCCCGAACTCCGTGGAGAATCCGGAAACCGGCGAACTCTATGCCAAGTATTACTTGGATTATCCGGAAGACATTCGTCTTCACGGGGTAAGTTTCTCCACCAACGTCGGTTCTACCGCCGTAGCAGGTGAGCTGAGTTATCGACCCAATATGCCGATGCAGCTCAACACCTTCGATTTGACGCTGGCATCCATTGCGCAAGGGCCGATTGGTTCCCTGCTCGGCGTTGATACCAACAGTCCGATTTTCACGAGCGGACACGCCATCTACGGCGAGGGCAATTCCATCAAGGGATATGTGCGCAAGCCGATGACCCAGGCGCAGTTGACCCTTACCCAGTTCTTCGACCAAGTGATGGGCGCCGAGCGGCTGACGGTCGTGGGCGAAGTGGGTTACACCCATGTCAGCAACCTTGGCAAGAACGAACTGCGTTTCGGTCGCGCTCCGGAGTTTGGCTCGGGTGAACTGCCGAATAATGCGCTCTGTACTGGCGTGGCCAATACCGCCAACCCCGACGAGTGCAACTCCAAGGGCTACTACACCACCACTTCCTGGGGCTATCGCGCCCGCATGATCCTCGACTACAACGACGTGATCGCTGGCGTGAACCTGAAGCCGAACCTGTCGTGGGCTCATGACGTGGACGGCTACAGCCCCACCTTCACCGAAGGCAATAAGGCCATCAGCATCGGTGTGGATGCCGAATACCAGAACACCTATACCGCCAGCCTGTCCTACACCGATTTCTTCGGTGGCGAATACAACACCAACGTCGACCGCGACTTCGTCGCGCTCAGCTTCGGCGTGAACTTCTAA	MTTTKPLWRLARLPLAVSLASTLAAPAFGVTFNIGEIEGQFDSSLSVGASWAVRGADPDLVGARNGGSASSQTGDDGRLNFKKGETFSKIFKGIHDLELKYGDTGVFLRGKYWYDFELKDEHRLLYDIDDSNRKEAAQSSGAQLLDAFIYHNYTIGDLPGSVRLGKQVVSWGESTFIFNSINSINPVDAAAFRRPGAEIKEGLIPVNMFYVSQSLTDNLSVEAFYQLEWDQTVVDNCGTFFSVDPVADGCTDRLAVLGSDLEPTGADGYRFVGRLGDNDARDSGQYGIALRWFAPELNDTEFGFYTMNYHSRTPYLSYVAGRGVYLFPNSVENPETGELYAKYYLDYPEDIRLHGVSFSTNVGSTAVAGELSYRPNMPMQLNTFDLTLASIAQGPIGSLLGVDTNSPIFTSGHAIYGEGNSIKGYVRKPMTQAQLTLTQFFDQVMGAERLTVVGEVGYTHVSNLGKNELRFGRAPEFGSGELPNNALCTGVANTANPDECNSKGYYTTTSWGYRARMILDYNDVIAGVNLKPNLSWAHDVDGYSPTFTEGNKAISIGVDAEYQNTYTASLSYTDFFGGEYNTNVDRDFVALSFGVNF				NA	NA	NA	NA	NA
BMS010_08799	1683		COG0318	Long-chain-fatty-acid--CoA ligase	ATGTTGCAGACCCGTGTCATTCCGCCAGCAGAAAACGCCTACCAGTACCCGCTGTTGATCAAGAGCCTGCTGCTCTCCGGCAGCCGCTACGAGAAAACCCGGGAAATCGTCTACCGCGACAAACTGCGCTACAGCTACGCCACCTTCAACGAGCGCGTCGCACGGCTGGCCAACGTGCTCAGCGAGGCCGGCGTGAAGGCCGGTGACACCGTGGCGGTGATGGACTGGGACAGCCACCGCTATCTCGAATGCATGTTCGCCATCCCGATGATCGGTGCGGTGCTGCACACCATCAACATCCGCCTCTCGCCGGACCAGATCCTCTACACCATGAACCACGCGGAAGACCGGCTGGTGCTGGTCAACAGCGAATTCGTGCCGCTCTACAACGCCATCGCCGGCCAACTGACCACGGTGGAAAAGACCCTCCTGCTGACCGACGGCGACGCCAAGACCGCCGACCTGCCCAACCTGGCGGGCGAGTACGAAACCCTGCTGGCCGCCGCCAGCCCGCGCTACGACTTCGCCGAGTTCGACGAGAACTCGGTGGCCACCACCTTCTATACCACCGGCACCACCGGCAACCCGAAGGGCGTGTATTTCACCCATCGGCAACTGGTCCTGCACACCCTGGCCATGGCCAGCACCATCGGCGCCCTCGACAGCATCCGCCTGATGGGCACCGACGACGTCTACATGCCGATCACCCCGATGTTCCACGTGCATGCCTGGGGCGTGCCCTACGTGGCCACCATGCTCGGCGTGAAGCAGGTCTATCCCGGCCGCTACGAGCCGGACATGCTCTGCCGTCTGATCCAGGAGGAGAAGGTGACCTTCTCCCACTGCGTCCCGACCATCCTGCAAATGTTGATGAACGCCCCCAACGCCCAGGGCTACGACTTCGGCGGCTTGAAGATGATCATCGGCGGCAGCGCGCTGAACCGCGCGCTCTACGAGGCGGCGCAGGCCAAGGGCATCCAGCTCACCGCGGCCTATGGCATGTCGGAAACCTGCCCGCTGATCTCGTGTGCCTACCTCAATGAACAGTTGCGCGCCGGCAGCGAGAACGAGCGCACCAGCTACCGGATCAAGGCCGGCGTGCCGGTACCGCTGGTCGAGGCGGCGATCATGGACAGCGAAGGGCGCTTCCTGCCGGTTGACGGCGAGTCCCAGGGCGAGCTGGTGTTGCGCGCGCCCTGGCTGACCCAGGGCTACTTCCGCGAACCGCAGAAGAGCGAGGAACTGTGGGAGCACGGCTGGCTGCACACCGGTGACGTGGCCACGCTGGACAGCATGGGCTTCGTCGAAATTCGCGACCGCATCAAGGATGTGATCAAGACCGGTGGCGAGTGGATTTCCTCGCTGGAACTGGAAGACCTCATCAGCCGCCACCCGGCGGTGCGCGAGGTCGCGGTGGTCGGCGTGCCCGACCCGCAGTGGGGTGAGCGGCCGTTCGCCCTGCTGGTCGTCCGCGAAGGGCAGGTGCTGGATGCCAAGGGCCTGAAGGAGCACCTCAAACCCTTCGTCGAGCAGGGGCACATCAACAAGTGGGCGATTCCCACCCAGATCGCGGTTGTTACCGAAATTCCCAAGACCAGTGTCGGCAAGCTCGACAAGAAACGCATTCGCGTGGATATAGCCCAGTGGCAGGAGGCAGGCAGCCCATTCCTGTCTACGCTGTAA	MLQTRVIPPAENAYQYPLLIKSLLLSGSRYEKTREIVYRDKLRYSYATFNERVARLANVLSEAGVKAGDTVAVMDWDSHRYLECMFAIPMIGAVLHTINIRLSPDQILYTMNHAEDRLVLVNSEFVPLYNAIAGQLTTVEKTLLLTDGDAKTADLPNLAGEYETLLAAASPRYDFAEFDENSVATTFYTTGTTGNPKGVYFTHRQLVLHTLAMASTIGALDSIRLMGTDDVYMPITPMFHVHAWGVPYVATMLGVKQVYPGRYEPDMLCRLIQEEKVTFSHCVPTILQMLMNAPNAQGYDFGGLKMIIGGSALNRALYEAAQAKGIQLTAAYGMSETCPLISCAYLNEQLRAGSENERTSYRIKAGVPVPLVEAAIMDSEGRFLPVDGESQGELVLRAPWLTQGYFREPQKSEELWEHGWLHTGDVATLDSMGFVEIRDRIKDVIKTGGEWISSLELEDLISRHPAVREVAVVGVPDPQWGERPFALLVVREGQVLDAKGLKEHLKPFVEQGHINKWAIPTQIAVVTEIPKTSVGKLDKKRIRVDIAQWQEAGSPFLSTL	PGPT0002895_268	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-DMS_DEGRADATION,PGPT0002895-dmdB-K20034	NA	NA
BMS010_08800	1176	thlA_3	COG0183	Acetyl-CoA acetyltransferase	ATGTCAGAAATCGTCATCGTCAGCGGTGCGCGTACGCCCATGGGCGGTTTCCAGGGCAGCCTGTCCGCGGTTTCCGCCGTGGACCTGGGCGCCACCGCCATTCGCGAAGCCGTGGCCCGTGCCGGCATCCAGCCGGGTGACGTGCAGGAAGTGATCATGGGTTGCGTGCTGCCCGCCGGTCTCAAGCAGGGCCCGGCCCGCCAGGCCGCGCTGAATGCCGGCCTGCCCGCCGCCACGGGCTGTACCACCATCAACAAGCTGTGCGGCTCCGGCATGAAGGCCGTGATGCTCGCCCACGACCTGCTCAAGGCCGGGACCAACAGCGTGATGGTCGCCGGCGGCATGGAGAGCATGTCCAACGCGCCCTACGTGCTGGAGAAAGCCCGCAGCGGCCTGCGCATGGGGCATGGCGAGATCAAGGACCACATGTTCCTCGATGGCCTGGAAGATGCCCGCAGCGGCCGCCTGATGGGCTCCTTCGCCCAGGAGACCGCCGACCAGTACGGCCTCACCCGCGAAGACATGGACGCCTATGCCATCGAGTCGCTGAAGCGCGCCCAGGCGGCCATCGCCGACGGCTCCCTGGCAGCCGAGATCGTGCCGGTCACGGTGGTCACCCGGAAGGGTGAGGTCACGGTGAAGGACGACGAGCAGCCACTGACCGCCAACCCGGAGAAGATTCCCGGGCTGAAGCCGGCGTTCCGCAAGGACGGCACCATCACCGCCGCCAACGCCAGCTCGATTTCCGATGGCGCTTCGGCCCTGGTCCTGATGACCGCTGAGGAAGCCGCCCGCCGTGGCCTGAAGCCGCTGGCGCGGATCATCGGCCATGCCACCCAGAGCCAGGACCCGAGCGAATTCACCCTGGCCCCGATCGGCGCCATGAGCAACCTGTTCAAGAAAACCGGCTGGTCCAAGGACGACGTGGACCTGTTCGAGATCAACGAAGCCTTCGCCATGGTCACCATGCTGGCGATGCGCGAGCACGGTCTCGACCACGCCAAGGTCAACGTCTTCGGCGGTGCCTGCGCCCAGGGCCACCCGGTCGGCTCCACCGGCTCGCGGATCATCCTCACCCTGATCAACGCCCTGCAGAAGAAGGGCGGCAAGCGCGGCGTGGCCTCGCTGTGCATCGGCGGCGGGGAAGCCACTGCCGTGGCCGTCGAGCTGCTGTAA	MSEIVIVSGARTPMGGFQGSLSAVSAVDLGATAIREAVARAGIQPGDVQEVIMGCVLPAGLKQGPARQAALNAGLPAATGCTTINKLCGSGMKAVMLAHDLLKAGTNSVMVAGGMESMSNAPYVLEKARSGLRMGHGEIKDHMFLDGLEDARSGRLMGSFAQETADQYGLTREDMDAYAIESLKRAQAAIADGSLAAEIVPVTVVTRKGEVTVKDDEQPLTANPEKIPGLKPAFRKDGTITAANASSISDGASALVLMTAEEAARRGLKPLARIIGHATQSQDPSEFTLAPIGAMSNLFKKTGWSKDDVDLFEINEAFAMVTMLAMREHGLDHAKVNVFGGACAQGHPVGSTGSRIILTLINALQKKGGKRGVASLCIGGGEATAVAVELL	PGPT0008320_11211	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
BMS010_08801	1389			hypothetical protein	ATGCACCGCGCCACTTTTCTCACCCGAGGATTGCCCTCTGCCCTGCTCATGTTGGCCAGCACGACCGTGCTGGCCAACGACAAGCTGCTGGTCACCGTCACCGATGACGCATTCGATGGCCTCTGCGACGCCCAGTGCTCACTGCGCGACGCCGTGGAAACCGCCAACCGGACGCCCGGTGCCGACCACATCCTGCTACCGGCCGGCGAATACGTGCTTGACCTGCCCGCGCCGGAAGACGAGCGAGGCGTCCCCTACGACGAGGACGACAACCTCAACGGCGACCTGGATGTCCGCGACGAGCTGGTCATCCAGGGCCGGGGCGACCAGCGCAGCCGCATCCTCGGCGGCAACGACCGGCTGTTCGAAGTCCTGCCCGGCGCCCAACTGACCCTGCTGAGACTCGGCCTGGAACAGGGCAACACCGCCTACAACGGCGGAGCGGTGGAGAACCACGGCCAGTTGCTCCTGCGCCAGGTGCGGGTACAGGGCAACAAGGCCAGTACGCAGAACCCGGCGCTCACCCCGTTGCCACCCGAGGACGGTTACCGTTTCGGCCAGGGTGGCGGCATCGCCAACTACGGCACGCTGGAGATATACGCCTCCAGCTTCCATGAAAACCGCTCCGAAGGCTTCTACTGGGACAACAACCTCGGCCGGGGTGGCGCTATCTTCAACCAGGGCGGCAACCTGCTGGTGCGCGACAGTGTCTTCGAGCGCAACCTGGTCACCGACCAGGCCGACAACGGCTCGGGTGGCGCGATCTACAACGGCGGCCAGGCGGATATCGCGCGCAGCCTGTTCGTCGCCAACAGCGGCGCCGAGCAGTCCCGTGGCGGAGCGATCGCCAACGAAGCCGGCGGCGTTCTCAAACTGACCAACAGCACCTTCAGCGGCAACTATTCCGGCGCTCTCAGCAACGGCTATCCCGCCAACCCCGAGGACGCCCTGCCCTCGGCCACGCTGATCAACGTCACCATCACCCGCTCGCTGGGCTACGGCCTGTACAACTGGGGCGACCTGCGGATACGCAACAGCCTGATCGCTGGCAACCTCGATCCCTACGAAGAAGGCGTGGCGCTCGACTGCCGCAACGTCGGAGTGTCCCGCTACCGCGCCATCGGCCTGTTGCTGAGCAGCCAGACGAGCAATTGCAGCGCAAACGTCTACATCGACGTCGGCCAGACCTTCACCCACCTGCTGGAGCCGTTGGCCGACAACGGCGGCCTGGCCCGAACCCACGCCCTGCGCCCCGGCAGCCTGGCCATCGACAGCGGCATCGGCTCCTGCACCACGCATGACCAGCGACGCCTGCCTCGCCCGCAGGACGGCAACGGCGATGGCGTGGCGGTCTGCGACCTCGGCGCCTTCGAGCGCGCGCGCCCTTGA	MHRATFLTRGLPSALLMLASTTVLANDKLLVTVTDDAFDGLCDAQCSLRDAVETANRTPGADHILLPAGEYVLDLPAPEDERGVPYDEDDNLNGDLDVRDELVIQGRGDQRSRILGGNDRLFEVLPGAQLTLLRLGLEQGNTAYNGGAVENHGQLLLRQVRVQGNKASTQNPALTPLPPEDGYRFGQGGGIANYGTLEIYASSFHENRSEGFYWDNNLGRGGAIFNQGGNLLVRDSVFERNLVTDQADNGSGGAIYNGGQADIARSLFVANSGAEQSRGGAIANEAGGVLKLTNSTFSGNYSGALSNGYPANPEDALPSATLINVTITRSLGYGLYNWGDLRIRNSLIAGNLDPYEEGVALDCRNVGVSRYRAIGLLLSSQTSNCSANVYIDVGQTFTHLLEPLADNGGLARTHALRPGSLAIDSGIGSCTTHDQRRLPRPQDGNGDGVAVCDLGAFERARP				NA	NA	NA	NA	NA
BMS010_08803	1371			hypothetical protein	ATGACCCTCCTGCACTCCATCGCGGCGCAAGCCGCCCTCGTCAGCTTCTGCCTCCTCGGCCTGCCACAGGCCGCCGCTGCCCTGGAAACCTTGCGGGTGAGCAAGGCCGGCGACAGCCTCGACGGCGCCTGCGACGCCGATTGTTCGCTGCGTGAGGCGGTGGTCCTGGCCAACGAACTGCCCGGACGGCAGCGCATCCTATTGCCGACCGGCACCTACACCCTGACCCTCCCCCCCGGGCGGGGCGATCCGGAGCACGATGAAGAGGATGTGCGCCTGGACGAGGACGACAATCTCAATGGCGACCTGGATATTCATGACGACCTGGACATCGTCGGCGCCGGCATCGGCCAGACGGTGATCGACGGCACCCAGAACGACCGGCTGCTGGAAGTCTTCGCCGGCGCCTCGGTACTGATCCGTGGGCTGACGCTGCGCAACGGCTACAGCTCCTTTTACGGAGGCGCCCTGGCCAACGAGGGCGACACCACCCTCAGGCATGTCCGCCTGGAGCGCAACGTCTACTACCACCCCTGGGGTGGAGGGCGAAAACAGGGCGGCGCCATCGCCAACTACGGCAGCCTGTCGGTCTACTACGCCACTTTCTTCCAGAACCACGCCAGCGGCGGCGACAGCAATGCCGGTTACGGCGGGGCCATCCACAACTCCGGCGTGCTGCGGGTACGCGACAGCCTGTTCCAGGGCAACAGCGCCCACAACGACGACGATTCGTCCGGCGACGGCGGGGCCATCGACAACCGCGGCTGGGCCGATGTCGCCCGCAGCACGTTCGTCGCCAACTATGCCGGCTATGGTGGCGCCATCACCAACATGGGCAACGCCAGCCTGAAGCTGAGCAACAGTACGATCACTCAGAACAACAGCGCCTGGGCGTACCGCAATGGCATCGTGCAGAACGGCTCGCCGCTGGATGGCGCCATACCGGAGCTGCGGCTGATCCACGTGACCCTGGCCGGCAACCATAACGTCGGCCTGGTCAACCATGGCGAGGTGCTGGTCCGCAACAGCCTCATCAGCGGCAACCTGCATACCGACGAAGGCATTCACTACAACTGCTTCAACTTCGGCGCCTACCGTGCATTGGGTCTCCTGTTGGGCACCGGCCCAGGCGGCTGTACCGGCGAGCGCTACGTGGAGAACGAAGCCACCTTCACCCAGGTGCTCTTCCCGCTCGCCGACAACGGCGGCTTCAGCCCCACCTTCGCTTTGCGCCCCGGCAGCCCGGCGCTGGATACCGCCATCGGCTCGTGCAGCGACCACGACCAGCGCTGGGTCCCCCGGCCGCAGGACGGCGATGGCGACGGCGTAGCGATCTGCGACCTGGGTGCCTACGAGGCCGCCGCGCCCTGA	MTLLHSIAAQAALVSFCLLGLPQAAAALETLRVSKAGDSLDGACDADCSLREAVVLANELPGRQRILLPTGTYTLTLPPGRGDPEHDEEDVRLDEDDNLNGDLDIHDDLDIVGAGIGQTVIDGTQNDRLLEVFAGASVLIRGLTLRNGYSSFYGGALANEGDTTLRHVRLERNVYYHPWGGGRKQGGAIANYGSLSVYYATFFQNHASGGDSNAGYGGAIHNSGVLRVRDSLFQGNSAHNDDDSSGDGGAIDNRGWADVARSTFVANYAGYGGAITNMGNASLKLSNSTITQNNSAWAYRNGIVQNGSPLDGAIPELRLIHVTLAGNHNVGLVNHGEVLVRNSLISGNLHTDEGIHYNCFNFGAYRALGLLLGTGPGGCTGERYVENEATFTQVLFPLADNGGFSPTFALRPGSPALDTAIGSCSDHDQRWVPRPQDGDGDGVAICDLGAYEAAAP				NA	NA	NA	NA	NA
BMS010_08804	1359			hypothetical protein	ATGAAACAGCCCTGCCCCCACCCGCTCCGCCGGATCGCCTTGCCGGCCCTGTTGTGCGCCCCGCTGAGCGCCTTCGCCCTGGACATCACCGTGACCAAGACCACCGACAGCTATGACGGCGACTGCAACGCCGACTGCTCGCTGCGCGAAGCGGTGGTGCTGGCCAACGCCACGCCCGGCCCCGACCGCATCCTGCTCGGCGCCGGCACCTATAGCTTCAGCCTGCCGGCGCCACGCGGCGACGATGGCGACATCTACGACGAGGACAACAACGTCAACGGCGATCTCGATGTCAGCGACAGCCTGACTATCTACGGTATTTCCCCCGAACAGACGATCATCGACGCCGGCCGCCTCGACCGTCATTTCGAAGTGCTGGCCGGCGCGACGCTGGGCCTCGAACAACTGACCCTGCGCAACGGCCTGCACAGCTATGACGGCGGATCGATCGCCAACCACGGCAGCGTCACCCTGAAACGCACACGGCTGGAGCAGAACCGGGCGTTCAACTGGTATTACCAAGGCCGGGGCGGCGGCATCGCCAACTACGGTTCCCTGGCCGTGTACTACACGGAATTCGTCGGCAACACCGCCGATTTCGGCGATACCACCAATGCCCACGGTGGCGCCATCTACAGTGAGGGCAACCTGATCGTGCGCGACAGCGCCTTCCGCAATAACAGGGCCAGTGGCGACGACGTACTCGGCAGCGGCGGCGCGGTGCATAACATCGGTACGGCGGACATCGCCCGGGCCGTGTTCGTCGGTAACTACAGCGACGGCCGTGGCGCCGCCATCACCAACGAGAACAACGGCGTGCTCAAGCTGACCAATGCCACGCTTAGCGGCAACACCGCCAGTTGGTACGGGCCTACCGGCATCATCAACAACGGCGCCAGCTATCCGGGCACGCCGGGCATACCCGACCTGACGCTGATCAACGTCACCATTGCCGAGAACCAGGGTTACGGCCTGGAGAACTTCGGCAAGGTGCTGATCCGCAACAGCCTGATCGTCGACAACCGCGATGAATACGGCGAACTCAGCCTGAACTGCCGCAATGGCGGCAGCGCCTATAGCTACCAGGCACGCGGGCTGCTTTTGGGTATCGATGGCAACAACTGCACGGCGGATATCCAGGTCCCGGATGCCGAGGTGCTGACCAAGGTGATCTACCCGCTGGCCGACAACAACTCGACCCTGCAAACCCACGCCCTGCGCCGCGGCAGCCCGGCAGTGGACACCGGCGTCGGCTCCTGCACCAGCCACGACCAACGCGGCTCCCGCCGCCCACGGGACGGCGACGGTGATGGCGTCGAAGTCTGCGATCTGGGGGCCTATGAGCGGCCGAAGTATTGA	MKQPCPHPLRRIALPALLCAPLSAFALDITVTKTTDSYDGDCNADCSLREAVVLANATPGPDRILLGAGTYSFSLPAPRGDDGDIYDEDNNVNGDLDVSDSLTIYGISPEQTIIDAGRLDRHFEVLAGATLGLEQLTLRNGLHSYDGGSIANHGSVTLKRTRLEQNRAFNWYYQGRGGGIANYGSLAVYYTEFVGNTADFGDTTNAHGGAIYSEGNLIVRDSAFRNNRASGDDVLGSGGAVHNIGTADIARAVFVGNYSDGRGAAITNENNGVLKLTNATLSGNTASWYGPTGIINNGASYPGTPGIPDLTLINVTIAENQGYGLENFGKVLIRNSLIVDNRDEYGELSLNCRNGGSAYSYQARGLLLGIDGNNCTADIQVPDAEVLTKVIYPLADNNSTLQTHALRRGSPAVDTGVGSCTSHDQRGSRRPRDGDGDGVEVCDLGAYERPKY				NA	NA	NA	NA	NA
BMS010_08805	1350	rhlE_5	COG0513	ATP-dependent RNA helicase RhlE	ATGACCTTCGCCTCCCTCGGCCTGATCGACCCGCTGCTGCGGACCCTGGAAACCCTCGACTACCGCCAGCCGACCCCGGTCCAGACCGAGGCGATTCCCGCCGTGCTCAAGGGCCGCGACCTGATGGCCGCGGCGCAGACCGGCACCGGCAAGACCGCCGGTTTCGCCCTGCCGCTGTTGCAGCGCCTGACCCTGGAAGGGCCGCAGGTGGCGAGCAATGCGGTGCGTGCGCTGGTGCTGGTGCCGACCCGCGAACTGGCCGAACAGGTTCACGAGAGCTTCCGCGTCTACGGCCAGAACCTGCCGCTGCGCAGCTATGCGGTGTATGGCGGCGTCAGCATCAACCCGCAGATGATGAAGTTGCGCAAGGGTATCGACGTGCTGGTGGCGACACCCGGCCGGCTGCTCGATCTCTATCGGCAGAACGCCGTGCGTTTCGAGCAGTTGCAGGCGCTGGTATTGGACGAGGCCGACCGCATGCTCGATCTCGGTTTCGCCCGTGAGCTGGACGAGCTGTTCTGCGCGTTGCCGAGGAGGCGCCAGACCCTGCTGTTCTCCGCAACCTTCTCCGACGCCATCCGGCAAATGGCCAAGGAGCTGCTGCGCGACCCGCTGTCCATTGAGGTCAGCCCGCGCAACGCGGCGGCGAAGAGCGTCAAGCAGTGGCTGATCCCGGTGGACAAGAAGCGCAAGGCCGAGCTGTTCCTGCATCTGTTGCAGGACAAGCGCTGGGGACAGGTGCTGGCGTTCGCCAAGACGCGCAAGGGTGTCGATCAACTGGTGGACGAATTGCAGGCCCAGGGCGTATCGGCCGACGCGATTCACGGCGATAAGCCGCAACCGGCGCGCTTGCGGGCATTGGAGCGGTTCAAGGCGGGCGAGGTGCAGGTGCTGGTGGCCACCGACGTGGCGGCGCGCGGCCTGGATATCGACGATCTGCCGCTGGTGGTGAATGTCGACCTGCCGATCGTTGCTGAGGACTACGTGCACCGCATCGGCCGTACCGGCCGTGCCGGGGCCACGGGGGAGGCGATTTCCCTGGTGTGTGCCGACGAAGTGCCATTGCTCGCGGCCATCGAGACGCTGATCAAACAGGTCTTGCCGCGCCGCGAAGAGCTGGGCTTCAGCCCGGATCACCGGGTGCCGCAGACCACCCTGGACGGACAGGTCCTGAAGAAGCCGAAGAAGCCCAAGCAGAAGCCGGTGCCCGGTGCAGGTGCGACCGGCAAGGGCAAGATCCATCTCGGCAACTGGTTCGACGAGAGCGAGAAGCCGGCGGTGAAGGCGGTACGCAAGATGCCCGGCTTCGGCAAACCGAGCGCGCGCAAGGGGCCGAAAAAACCGGGCTGA	MTFASLGLIDPLLRTLETLDYRQPTPVQTEAIPAVLKGRDLMAAAQTGTGKTAGFALPLLQRLTLEGPQVASNAVRALVLVPTRELAEQVHESFRVYGQNLPLRSYAVYGGVSINPQMMKLRKGIDVLVATPGRLLDLYRQNAVRFEQLQALVLDEADRMLDLGFARELDELFCALPRRRQTLLFSATFSDAIRQMAKELLRDPLSIEVSPRNAAAKSVKQWLIPVDKKRKAELFLHLLQDKRWGQVLAFAKTRKGVDQLVDELQAQGVSADAIHGDKPQPARLRALERFKAGEVQVLVATDVAARGLDIDDLPLVVNVDLPIVAEDYVHRIGRTGRAGATGEAISLVCADEVPLLAAIETLIKQVLPRREELGFSPDHRVPQTTLDGQVLKKPKKPKQKPVPGAGATGKGKIHLGNWFDESEKPAVKAVRKMPGFGKPSARKGPKKPG	PGPT0013740_2395	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
BMS010_08806	909	yedA_3		putative inner membrane transporter YedA	ATGCCTGCGCGTCGCTTCCCGTTGATCCTGCTCGGTGCCTTTTTCGCCCTCTACCTGATCTGGGGCTCTACCTATCTGGTGATCCGCATCGGCGTGGAGTCCTGGCCGCCGATGCTGATGGCCGGGGTTCGCTTCGTCATCGCCGGCTCGCTGATGTTCGCCTGGCTGCGCTGGCGCGGCGTACCGGCGCCGACCTGGCGCGAATGGAAGGCCGCCTCCGTGATCGGCGTGCTGCTGCTCAGCTGCGGCAACGGTGGAGTGACGGTAGCCGAGCACCTGGGCGTGGCTTCCGGGGTGGCGGCGCTGGCGGTGGCGACGGTACCGCTGTTCGCGCTGCTGTTCGGGCTGATCTGGGGCCAGCGCACCAGCAGCCTGGAGTGGGCGGGGATTGTGCTCGGGCTGGTCGGCATCGGCCTGCTCAATCTCGGCTCCAACCTGCAAGGCAGCCCGCTGGGCGCCGGCCTGATCCTGTTCGCGGCGGCGGCCTGGGCTTTCGGCTCGATGTGGAGCAAGCACCTGCCGCTGCCCGCCGGCCCCATGGCCAGCGCGGCTGAAATGCTCGCCGGCGGCGTCGCCTTGCTGATCGCCAGCGCGCTCAGCGGGGAGCGCATGACCGAGCTGCCGACCGCCGCGGGCTGGGGCGCCCTGGCCTACCTGGTGGTGTTCGGCTCGATCATTGCGTTCAGCGCCTACCTCTATCTGCTGAAGAACGTCCGCCCGGCGGCGGCCACCAGCTATGCCTACGTCAACCCGGTGGTGGCGGTGGTGCTGGGTATCCTCTTCGCCGGCGAACGCATCGGCATGGAGGAGTGGCTGGCCATGACCGTGATCGTCAGCGCCGTGGTGCTGATCGGCGTACCGCAGTGGCGTCAACAGAAACAGTTGAAGGAAGCCGAGGTGAGTACCTGA	MPARRFPLILLGAFFALYLIWGSTYLVIRIGVESWPPMLMAGVRFVIAGSLMFAWLRWRGVPAPTWREWKAASVIGVLLLSCGNGGVTVAEHLGVASGVAALAVATVPLFALLFGLIWGQRTSSLEWAGIVLGLVGIGLLNLGSNLQGSPLGAGLILFAAAAWAFGSMWSKHLPLPAGPMASAAEMLAGGVALLIASALSGERMTELPTAAGWGALAYLVVFGSIIAFSAYLYLLKNVRPAAATSYAYVNPVVAVVLGILFAGERIGMEEWLAMTVIVSAVVLIGVPQWRQQKQLKEAEVST				NA	NA	NA	NA	NA
BMS010_08807	465	lrpC_3	COG1522	HTH-type transcriptional regulator LrpC	ATGGACAAATACGACCGTCTATTGCTCGCCGCGCTGCTGGAAAACGGCCGTGCCTCCTACGCCGACCTGGCGCGACGGGTCAATCTGTCGGCCCCGGCGGTAGCGGACCGGGTCGCCAAGCTGGAGGCCAGCGGCGTGATCACCGGCTACCACGCGGCCATCGACATGGCCAAGATCGGCCTGCCCATCGAATGCCTGATCGAGCTGCGCATCGCCGACCACGAATCCCGCCGCACCCTCGAAGCCCTGGCGCAGATTCCCCAGCTGACCTTCTGCCACCGCATCACCGGCGATGCCTGCGTGATGATGAAGGCGGCGGTCGGCTCCATGCCGGAGCTGCAGGATTTGCTCGACCGGCTCAGCCAGTACGGCGCCAGCAAGACCTCGCTGATCCTCTCCACTCCCTTCCAGCGCCGCCTGCCGGCAACCTTGCAGAACGGCAACGGGCAGGAGAAGCGGGGTTAG	MDKYDRLLLAALLENGRASYADLARRVNLSAPAVADRVAKLEASGVITGYHAAIDMAKIGLPIECLIELRIADHESRRTLEALAQIPQLTFCHRITGDACVMMKAAVGSMPELQDLLDRLSQYGASKTSLILSTPFQRRLPATLQNGNGQEKRG				NA	NA	NA	NA	NA
BMS010_08808	1779	dmdC_2	COG1960	3-methylmercaptopropionyl-CoA dehydrogenase	ATGGCTGACTACAAAGCGCCCCTGCGCGATATGCGCTTCGTCCTCAATGAAGTTTTCGAAGTGGCCAAGCTCTGGAACGAGCTGCCCGGCATCGCCGAAGTGGTCGACGAAGACACCGCCTCCGCCATTCTCGAAGAAGCCGGCAAGGTCACCGGCGGCACCATTGCCCCGCTGAACCGCAGCGGCGACGAAGAAGGCTGCCAGTGGAAAGACGGCGCCGTGACCACCCCGGCCGGTTTCGTCGAGGCTTACCGCACCTACGCCGAGGGCGGCTGGGTCGGGGTCGGCGGCAACCCGGTCTACGGCGGCATGGGCATGCCTAAGGTGATCGGCGCCCAGGTCGAGGAAATGGTCAATTCGGCCAACCTGTCCTTCGGTCTCTATCCGATGCTCACCGCCGGCGCCTGCCTGGCGATCAACGCCCACGCCAGCGACGAGCTGAAGGACAAGTACCTGCCGAACATGTATTCCGGTGTCTGGGCCGGTTCGATGTGCCTGACCGAGCCGCATGCCGGCACCGACCTCGGCATCATCCGCACCAAGGCCGAGCCCCAGGCCGACGGGTCCTACAAGGTCACCGGCACCAAGATTTTCATCACCGGCGGCGAGCACGACCTGACCGAGAACATCATCCACCTGGTGCTGGCCAAGCTGCCGGACGCGCCGGCCGGTCCGAAGGGTATCTCCCTGTTCCTGGTGCCGAAGGTGATGGTCAACGCCGACGGCAGCCTGGGCGAGCGCAACGCTGTCGCCTGCGGCTCGATCGAGCACAAGATGGGCATCAAGGCCTCGGCCACCTGTGTGATGAACTTCGACGGCGCCACCGGCTGGCTGGTCGGCGAAGTGAACAAGGGCCTGGCGGCGATGTTCACCATGATGAACTACGAGCGCCTGGGCGTCGGCATCCAGGGGTTGGCCGCCGGCGAGCGTTCCTACCAGAGCGCCATCGAGTACGCCCGCGAGCGTATTCAGAGCCGCGCGCCGACTGGTCCCGTGGCCAAGGACAAGGCCGCCGATCCGATCATCGTCCACCCCGACGTGCGGCGCATGCTGCTGACCATGAAGGCGTTGAACGAAGGTGGCCGCGCGTTCTCCACCTACGTGGCGATGCAGCTGGATACCGCCAAGTACAGCGAAGACCCGAGCGTGCGCAAGCGTGCGGAAGACCTGGTCGCGCTGCTCACGCCGGTCGCCAAGGCCTTCCTCACCGACGTCGGCCTGGAAACCACGGTGCATGGCCAGCAGGTGTTCGGCGGCCACGGCTTCATCCGTGAGTGGGGCCAGGAGCAACTGGTGCGCGATGTGCGCATCACCCAAATCTACGAAGGCACCAACGGCATTCAGGCGCTCGACCTGATCGGCCGCAAGGTGGTGGGTAGCGGAGGCGAGTTCTACAAGCACTTCTCCTCGGAGATCAAGGCATTCATCGCTTCCGCGGGTGGCGAGCTGGCCGAGTTCACCGGGCCCCTGAAGGCTGCCGTGGAAAACCTCGACGACCTGACCGCCTGGGTACTCGACCGCGCCAAGAACAACCCCAACGAGATCGGCGCTGCGTCGGTGGAATACCTCCACGTGTTCGGCTACACCGCCTATGCCTACATGTGGGCGTTGATGGCACGGACCGCGCTGGGCAAGGAAGGGCAAGACGACTTCTACGCCAGCAAGCTGGGCACGGCGCGCTTCTACTTCGCCCGCCTGCTGCCGCGCATCCACTCGCTGACTGCGTCGGTGCGTGCGGGCAGCGAGTCGCTCTATCTGCTGGATGCCGCGCAGTTCTGA	MADYKAPLRDMRFVLNEVFEVAKLWNELPGIAEVVDEDTASAILEEAGKVTGGTIAPLNRSGDEEGCQWKDGAVTTPAGFVEAYRTYAEGGWVGVGGNPVYGGMGMPKVIGAQVEEMVNSANLSFGLYPMLTAGACLAINAHASDELKDKYLPNMYSGVWAGSMCLTEPHAGTDLGIIRTKAEPQADGSYKVTGTKIFITGGEHDLTENIIHLVLAKLPDAPAGPKGISLFLVPKVMVNADGSLGERNAVACGSIEHKMGIKASATCVMNFDGATGWLVGEVNKGLAAMFTMMNYERLGVGIQGLAAGERSYQSAIEYARERIQSRAPTGPVAKDKAADPIIVHPDVRRMLLTMKALNEGGRAFSTYVAMQLDTAKYSEDPSVRKRAEDLVALLTPVAKAFLTDVGLETTVHGQQVFGGHGFIREWGQEQLVRDVRITQIYEGTNGIQALDLIGRKVVGSGGEFYKHFSSEIKAFIASAGGELAEFTGPLKAAVENLDDLTAWVLDRAKNNPNEIGAASVEYLHVFGYTAYAYMWALMARTALGKEGQDDFYASKLGTARFYFARLLPRIHSLTASVRAGSESLYLLDAAQF	PGPT0008385_291	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008385-acd-K00249	NA	NA
BMS010_08809	564	ahpC_1	COG0450	Alkyl hydroperoxide reductase C	ATGTCCCTGATCAACACCGAAGTCAAACCGTTCAAGGCCACCGCCTACCACAACGGCCAGTTCGTCGAAGTCACCGAAGCCAGCCTGAAGGGCAAGTGGTCCGTGATCTTCTTCTACCCGGCCGACTTCACCTTCGTCTGCCCGACCGAACTGGGCGACCTGGCCGACAACTACGCCGAGTTCCAGAAGCTGGGCGTCGAAATCTACGGTGTGTCCACCGACACCCATTTCACCCACAAGGCCTGGCACGACACTTCTGACACCATCGGCAAAATCCAGTACCCGCTGGTTGGCGACCCGACCTGGGTCCTGTCGCGCAACTTCGACGTGCTGATCGAAGAAGCCGGCCTGGCTGACCGTGGCACCTTCGTCATCGATCCGGAAGGCAAGATTCAGATCGTCGAGATCAACGCCGGCGGCATCGGCCGTGACGCGTCCGAGCTGCTGCGCAAGGTCAAGGCTGCCCAATACGTCGCCGCCCACCCGGGCGAAGTCTGCCCGGCCAAGTGGAAGGAAGGCGACGCCACCCTGGCGCCCTCGCTCGACCTCGTTGGCAAGATCTGA	MSLINTEVKPFKATAYHNGQFVEVTEASLKGKWSVIFFYPADFTFVCPTELGDLADNYAEFQKLGVEIYGVSTDTHFTHKAWHDTSDTIGKIQYPLVGDPTWVLSRNFDVLIEEAGLADRGTFVIDPEGKIQIVEINAGGIGRDASELLRKVKAAQYVAAHPGEVCPAKWKEGDATLAPSLDLVGKI	PGPT0003260_769	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0003260-ahpC-K24119	NA	NA
BMS010_08810	1566	ahpF	COG3634	Alkyl hydroperoxide reductase subunit F	ATGTTGGACGCCACGCTTAAAACTCAGTTGAAGGCCTACCTCGAGAAGGTCACCCAGCCGTTCGAGATCGTCGCGTCCCTCGATGACAGCGACAAATCCCGTGAACTGCTGGCGCTGTTGAACGACATCGTCGGCCTGAGCGACAAAATCGCTCTGCGGACCGACGGCAGCGACACCCGCCGGCCGTCGTTCTCCCTCAATCGCCCGAACGGGAACATCAGCCTGCGCTTCGCCGGCATCCCCATGGGGCACGAATTCACTTCGCTGGTGCTGGCCCTGCTGCAAGTCGGCGGCCACCCCTCGAAGACCGCCGCCGATGTGATCGAGCAGATCAAGAACATCGAAGGTGAATTCAACTTCGAAACCTATTTCTCGCTGTCCTGCCAGAACTGCCCGGACGTGGTCCAGGCGCTGAACCTGATGGCCGTGCTCAACCCGAACATCCGCCACGTCGCCATCGACGGCGCGCTGTTCCAGGATGAAGTCGAGCAACGCCAGATCATGTCGGTGCCGAGCATCTACCTGAACGGTCAACCGTTCGGCCAGGGCCGCATGGGCGTGGAAGAAATCCTTGCCAAGATCGACACCGGCGCCACCGCCCGCGATGCCGAGAAGCTCAGCGCCAAGCAGGCATTCGACGTGCTGGTGGTCGGCGGTGGCCCGGCCGGCGCTTCCGCCGCCATCTATGCCGCCCGCAAGGGCATCCGCACCGGCGTGGCCGCCGAGCGTTTCGGCGGCCAGGTGCTGGACACCATGGCCATCGAGAACTTCATCTCCATCCAGGAAACCGAAGGCCCGAAACTGGCCCGCGCCCTGGAAGAGCACGTCAAGCAGTACGACGTGGACATCATGAACCTGCAACGCGCCGACAAGTTGATCCCGGCGACGCAGGCTGGCCAGTTGCACGAAGTCCGCTTCACCAGCGGCGCCTCGCTCAAGGCCAAGACCGTGATCCTCGCCACCGGCGCCCGCTGGCGCGAGATGAACGTCCCCGGCGAGCAGGAATACCGCGGCCGTGGCGTCGCCTACTGCCCGCACTGCGACGGCCCGCTGTTCAAGGGCAAGCGCGTGGCGGTGATCGGCGGTGGCAACTCCGGCGTGGAAGCGGCCATCGACCTGGCCGGCATCGTCGCCCAGGTGACGCTGATCGAGTTCGACAGCCAGTTGCGCGCCGATGCCGTGCTGCAGCGCAAGCTGTTCAGCCTGCCCAACGTCACCGTGGTCACCAGCGCGCTGACCAGCGAAGTGAAGGGCGACGGCCAGAAAGTCACCGGCCTGGTCTACAAGGATCGCAACTCCAGCGAGTTCCACTCGCTCGATCTGGAAGGCATCTTCGTGCAGATCGGCCTGGTGCCGAACACCGACTGGCTGAAGGGCACCGTCGAGCTGTCGCCGCGCGGCGAGATCGTGGTCGACTCCCGTGGCCAGACCTCGCTGCCCGGCATCTTCGCCGCGGGTGACGTGACGACCGTGCCGTACAAGCAGATCGTCATCGCCGTGGGCGAAGGCGCCAAGGCTTCGCTGGGGGCGTTCGATCATCTGATCCGGACGTCTGCGCCGGCCTGA	MLDATLKTQLKAYLEKVTQPFEIVASLDDSDKSRELLALLNDIVGLSDKIALRTDGSDTRRPSFSLNRPNGNISLRFAGIPMGHEFTSLVLALLQVGGHPSKTAADVIEQIKNIEGEFNFETYFSLSCQNCPDVVQALNLMAVLNPNIRHVAIDGALFQDEVEQRQIMSVPSIYLNGQPFGQGRMGVEEILAKIDTGATARDAEKLSAKQAFDVLVVGGGPAGASAAIYAARKGIRTGVAAERFGGQVLDTMAIENFISIQETEGPKLARALEEHVKQYDVDIMNLQRADKLIPATQAGQLHEVRFTSGASLKAKTVILATGARWREMNVPGEQEYRGRGVAYCPHCDGPLFKGKRVAVIGGGNSGVEAAIDLAGIVAQVTLIEFDSQLRADAVLQRKLFSLPNVTVVTSALTSEVKGDGQKVTGLVYKDRNSSEFHSLDLEGIFVQIGLVPNTDWLKGTVELSPRGEIVVDSRGQTSLPGIFAAGDVTTVPYKQIVIAVGEGAKASLGAFDHLIRTSAPA	PGPT0013150_781	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013150-ahpF-K03387	NA	NA
BMS010_08811	729			hypothetical protein	ATGGCTTACGTGGAATCGGTCGAATCGGATGCACAGGGAATGCAGCATCCGATTCCCCTTGGACCAATCGGATGCTTCCGGGACCGCCTGAAAACTGTCATGGGCAGCACTGGTGCACGCGCTTTTGGGCGTAGCGTCGGTCTGTCCGAGGGGGCTATACGCGGATATCTGAGCGGCATGACCTATCCAACGCTGGATCGGCTGGCGCAGATCGCCGAGGCCTGCGGTGTGTCAGCGATGTGGCTGGCGTTTGGGATCGACGAGCATGCGGCCGCTCAGGAGGGTAGCGGGCGCTATATCACCGACTCGCAGCCAGCCGGCCGCATTCCGCTGTATGACGCACGCTGCCGCCACATAGAGGGCACCTGGCGCGACCGCGCCGTTCTGGTGGGGATGCTGGACGTCAGCGTTGACGAGCTGCGCCAGCATGGCCTGGACGCGGCCAGCCTGGGCGCTGTGCGGGTCGATGGTGATGCAATGGAGGGCCTGGCGCGCTCCGGGGATACGGTCATGTTCGACCACTCCCGCAACCAGGTGGAGGCGGACGCCGTCTACGTCATCCGGCTGGACGGCACCCTGCAGCCGAAGCGCTTGCAGCGGCAGTTCGATGGCAGCGTGACCATCCTCAGCCACCACAAGGCGTACCGTGATATCGTGGTGCCTCGCGCTCATCTGGCCGATCTGGACGTTGTCGGCCGTGCGGTCTGGGCAGGGGTATGGCTGAGCTGA	MAYVESVESDAQGMQHPIPLGPIGCFRDRLKTVMGSTGARAFGRSVGLSEGAIRGYLSGMTYPTLDRLAQIAEACGVSAMWLAFGIDEHAAAQEGSGRYITDSQPAGRIPLYDARCRHIEGTWRDRAVLVGMLDVSVDELRQHGLDAASLGAVRVDGDAMEGLARSGDTVMFDHSRNQVEADAVYVIRLDGTLQPKRLQRQFDGSVTILSHHKAYRDIVVPRAHLADLDVVGRAVWAGVWLS				NA	NA	NA	NA	NA
BMS010_08812	441			hypothetical protein	ATGCGTCACGGAAAAGACGATAGAACTCTGGACATCTTCGAAGTTCCCGTCCCGATGAAAACCGTTCCGGGCGCCGGAAACTACGCCGACCAGGTGAGTGCCCTGGTCTCGGAGATCCTCAAATCCAGCGGCATGGAGCGGTGCGACATCGCCGCCCGCATGTCCGATCTCTCCGGCGACGACATCAGCAAACACATGCTCGACGCATGGTCGTCCCCGGCCCGTGCCGCACACAACCTGCCTTTCTATCGGGCGCCGCTGCTTGAAGAGGTGTGCTGCACCACTGCGCTAACCGATTGGATGGCCGCCCTGCGCGGCGGCAACGTCGCTTATGGCCCTGATGCCCTGCATGCCGAACTCGGCCGCCTGGAGCGCCTGCGCGACGAGACGACCCGGCGAGCCCGCGAATTGAAGCGAATGCTGGGGGCCCGCCATGCGTAA	MRHGKDDRTLDIFEVPVPMKTVPGAGNYADQVSALVSEILKSSGMERCDIAARMSDLSGDDISKHMLDAWSSPARAAHNLPFYRAPLLEEVCCTTALTDWMAALRGGNVAYGPDALHAELGRLERLRDETTRRARELKRMLGARHA				NA	NA	NA	NA	NA
BMS010_08813	2025			hypothetical protein	ATGCGTAAGTGGTACACCGCCCAAGAACTGGCCGGGCGTCCTGGGCTGCCAGGCACCGCCCGCAACGTCAAGGCCATGGCCGAGCGCCTGGGCTGGGAAGGCCAGCGCCGCCTGGGCACCAAAGCCATCGAGTACGCCTTCGCCAACCTGCCAGCGGAAACACAGGCCGCTCTTATAAAGGAAGCGGTCTCCGCGGAAGCGTCCTCCGGCACCGAAATAACACAGCGTGACTCCAAATCCCTGTCACGCTTGAGCGATACGCAACGCTCGGTGATGGATGCCCGACTGGCATTCGTGCGTGAAATCGAGCGGCTGAGCCTCGCCGTCAGCCAACAGCGCGCCATCATGACCCTGGTGGACGCCGCGCGGGACGGCACGCTGAGCCCGTACCTGGCCGACCGCGTCATCCGCGCCAACGACCGCAAAACCGCCGACCGCAGCCTGAGCGAGCGCACCTTGAAGCGCTGGCTGGCCGACTACCGCACCCACGGCGAAGGGGGCCTGGCGCCGGCCCGCCGTCAGGCTGATATGGGTGTGCCGGACTGGGCCCAGGCCTTCCTGCGCTGGTACCAGCGGCCGACCAAACCCACCGTTGAAGCGGCATATGCCGAGTTCGCCCAGGTCCACCAGGGCGAACGCCCGAGCATCCACCAGGTCCGCCGCTGGCTCGCCAAGCTGAGCCCGGAGGCCCGCGAAGCTGGGCGCCGCACCCCGCAGGAACTCAAAGCCCTGCAACCGTTCCGCCGCCGCCTGACCAAGAACCTGCTGCCGTGCGACGTCATCACCGCTGACGGCCACTGCTTCGACGCCGAAGTGCTCAACCCGCGTACCGGCAAGCCGTACCGCCCGGAAATCACCACCATCATCGATGTCGCCACCCGCCGCATCCTCGGCATCAGCATCGGCGAGGCCGAAAGCACTATCGGCGTGATGGACGCCCTGCGCGACGCCGTCACCCGTGGCGGCATGTTCGCCGTGTTCTACGTGGACAACGGGTCCGGCTTCGCCAACGACACCGTGCGCGAGGTCGTCGAGCGCCTGGGCGGCACCATGACCCACGCCCTGCCATACAACAGCCAGGCGCGTGGCCTGGTCGAGCGGGTGCACAAGACCATTTGGGTCAACAGCTCGAAGAAGCTGCCGTCCTACATCGGCGCCGACATGGACAAGCACGCCGGCACCAAGGTGCACCGCATCAGCCGCAAGCAGTTGCGCGAGCAAGGCACCACCCGGTTGATCCCCACCTTGGAAGAGTTCCTGCCCGGCGTCGAATACGAAATCGAGCAGTACCACAACCGGCCCCACCGGGGCCTGCCGAAGATCCGCGACCCGAAAACCCTGGCGCTCCGCCACATGAGCCCCAACGAGGCCTGGGATGCGGCGATCGCCAACGGCTGGGAGCCCATGCGGGCACCGGCCCACATGGCCACCGACCTGTTGCGGCCGCAGATCGTCCGGCCGGTACGGCGCGGGGAAATCGCCCTGCACGGGCATCGGTACTTCCTCGAAGACTTGCGCCACATCCATGACGAACAGGTGCGTGTCGCCTACGACTTCCGCGACGCCTCCCGCGTGTGGGTCCACACCCTGGCCGGCGAGTTCATCGGCGAGGCCCTGGTAGACGGCAACGCCTCCGACTACATGCCCAAGGCCGTGATCGAGCAGGCCTACGAACGCCGCGAACAGGGCCAGATGAAGCGCGCCCTGGACAAGCTGGAAACCCTCACCGGTAAGCGCGTCGAGCTGATCGCGCCCACCAGTGCCCCCTCGGCCCAGCTCAGCACCGCCGAACTCGACAGCGCCCGCGCCTACGCCATCACCGCCCACGCCCAACAGCCGCGCTTCACCGTGCCCGAGGACTCCATGGCCCGGTACCGGCTGTGGGCGCGCCTGGATGCGCGGCTGAACGAAGGGGAGCAACTGGGTGAGGAAGAAGCCAAGTGGCACGGGAACTACCCGCGCCACCCGGAATACGCGGCTATCCGCCGCATGTACGAACACGCGGACCTGCCAGCCCGCGCGTAA	MRKWYTAQELAGRPGLPGTARNVKAMAERLGWEGQRRLGTKAIEYAFANLPAETQAALIKEAVSAEASSGTEITQRDSKSLSRLSDTQRSVMDARLAFVREIERLSLAVSQQRAIMTLVDAARDGTLSPYLADRVIRANDRKTADRSLSERTLKRWLADYRTHGEGGLAPARRQADMGVPDWAQAFLRWYQRPTKPTVEAAYAEFAQVHQGERPSIHQVRRWLAKLSPEAREAGRRTPQELKALQPFRRRLTKNLLPCDVITADGHCFDAEVLNPRTGKPYRPEITTIIDVATRRILGISIGEAESTIGVMDALRDAVTRGGMFAVFYVDNGSGFANDTVREVVERLGGTMTHALPYNSQARGLVERVHKTIWVNSSKKLPSYIGADMDKHAGTKVHRISRKQLREQGTTRLIPTLEEFLPGVEYEIEQYHNRPHRGLPKIRDPKTLALRHMSPNEAWDAAIANGWEPMRAPAHMATDLLRPQIVRPVRRGEIALHGHRYFLEDLRHIHDEQVRVAYDFRDASRVWVHTLAGEFIGEALVDGNASDYMPKAVIEQAYERREQGQMKRALDKLETLTGKRVELIAPTSAPSAQLSTAELDSARAYAITAHAQQPRFTVPEDSMARYRLWARLDARLNEGEQLGEEEAKWHGNYPRHPEYAAIRRMYEHADLPARA				NA	NA	NA	NA	NA
BMS010_08814	723			hypothetical protein	ATGAGTGTAACCAAGATCGTACCCCTGACCAACGTGGGCCTACTGGCCAGCGCCCTCGAGCGCACCCAGCGCCGCCCCGTCGGCCTGCCCGGCCTGGTCGTGATGTACGGCGCCAGCGGCCTGGGCAAGTCCATCGCCGCCGCATTTACCGCAAATCTCCATCGTGCCTATTACGTCGAGTGCAGGGACACCTGGACCAAAAAGGCGTTCCTCCTCGCCATCCTGCGCGAAATGGGCATCATCCCGGCCCGGACCCTGTCCGAAATGGTCGACCAGATCGCCGAACAGCTGTCCCGCAGCGGCCGGCCGCTGATCGTCGATGACGTCCAGTACCTGCTGGACAAGGCCGCCGCCAACATCCTCACCGACATCTACAACGCCAGCCAGGGGACGCTGATTCTCATCGGCGAAGAGCGCGTGCCGGCCAGCCTGGCGCGCCTGGAGCGGCTGCACAACCGCGTCCTGGAATGGGTACCGGCCCAGGCCGCCAACGTGGACGACGTTATCCAGCTGGCCCGCGCGAGCTACCCGAACCTCCACCTGTCCGACGACCTGCTGGAAAACCTCTGCCAGCACGTCAAGGGCTGCCTGCGCCGCGTGGCGGTCAACCTTTACCGCCTGCAAACCGAATGCCTCGCCATGGACGTGGACAACATGGACCTGGCCGGCTGGGGCCAGCGCGGCTGGTACACCGGTGAAGCCCCGGCGCGGAGGGCCTACTGA	MSVTKIVPLTNVGLLASALERTQRRPVGLPGLVVMYGASGLGKSIAAAFTANLHRAYYVECRDTWTKKAFLLAILREMGIIPARTLSEMVDQIAEQLSRSGRPLIVDDVQYLLDKAAANILTDIYNASQGTLILIGEERVPASLARLERLHNRVLEWVPAQAANVDDVIQLARASYPNLHLSDDLLENLCQHVKGCLRRVAVNLYRLQTECLAMDVDNMDLAGWGQRGWYTGEAPARRAY				NA	NA	NA	NA	NA
BMS010_08815	729			hypothetical protein	ATGCGCGCCGGCAAAGCTCCCGCCCACCTGGCCATGGCCGGCGGCAAGCGCCCACGGCAGCGCATCTGGGAAGCGGTGCGCACCCTGGCCCGCAGCGACGTGGCGCTGACCACCTACAACGTCGCCCGCCGCAGCGGCCAGGATGACGAAGCCGTGCGCGGGTACCTGCGCGCCTTGGCCAAGGCGCAAATACTCCGGCAGCTCAAGCCGATGGGGCGGGACGCCCTGTGGGAGCTGCAGACCGATGAGGGTGCCGAGGCGCCGCGCGTCAATCGTCACGGCGAGCGCCAGCCGCCCGAAGCGGTCGAGTGCATCTGGCGCGCCCTGCGCATCATGGGCTCCCTGAACGCGGCCGAGGCCGCAGAACAGGCGCATGCCGGCGGCGCCCCCATCACCGAGAGCGGTGCGCGCATCTACCTGCAGGGGCTGGCGCTGGCCGGCTACGTCACCCGCGAGGGTGGCACCACGGGCCAGCCCGCCCGGTACCACCTGCGCCCGGCCCGCTATACCGGCCCGCTGCACCCGATCTATCAGCGTTGCACCTACGAACAGGTCTACGACCCGAACCTGGATCAGGTGGTGTGGGTGAAGGGAAAGCAGCCGGACGCGGTCGAGGTGGCCAAGCTGCGCGCGCTGCTCGGCGAATGGTTGGGGCTGGACGACTGGACTGACGAACAGATCGCCCCTGCCGGCCTGGTTGAGCGTACGCGCAAGGAGGTGCAGGCATGA	MRAGKAPAHLAMAGGKRPRQRIWEAVRTLARSDVALTTYNVARRSGQDDEAVRGYLRALAKAQILRQLKPMGRDALWELQTDEGAEAPRVNRHGERQPPEAVECIWRALRIMGSLNAAEAAEQAHAGGAPITESGARIYLQGLALAGYVTREGGTTGQPARYHLRPARYTGPLHPIYQRCTYEQVYDPNLDQVVWVKGKQPDAVEVAKLRALLGEWLGLDDWTDEQIAPAGLVERTRKEVQA				NA	NA	NA	NA	NA
BMS010_08816	378			hypothetical protein	ATGACCGCCTCCGTCCTGACCACTGCCTGGGGCGAACAGCCGCCGCTGTGGGTGGTGCTGCTGGCCCGCGAGGTCGAGCGCACCAACCGCACCCAGGCTGCCCAGCGCATCCAGATGAGCCGCAGCGCGGTGAGCCTGGTCCTGGCCAACCGCTACCCGTCGCCGTCCACCGCGGGCGTCGAGCGGCGCGTGCTCGACACCCTCGGCCGTATCGACTGCGTCGCCATCGGCGAGGTGGTCACGGTCGAGCAGTGCCAAAGCTACCGCGAACGCCCGGCGCCGACCCATAACCCGCTCGCCATGCAGCACTGGCGCGCCTGCCAACACTGCCCCCACAACCCCCATTGCGAGGCATCCCACCATGTGCGGATCCATTGA	MTASVLTTAWGEQPPLWVVLLAREVERTNRTQAAQRIQMSRSAVSLVLANRYPSPSTAGVERRVLDTLGRIDCVAIGEVVTVEQCQSYRERPAPTHNPLAMQHWRACQHCPHNPHCEASHHVRIH				NA	NA	NA	NA	NA
BMS010_08817	336			hypothetical protein	ATGTGCGGATCCATTGAGTGCACCGAACGCAAACAGCCGCCCCTGCGCGTGCTGACCGAGGAACTGAGCATCCGCCTGCGCGTGTTCAACCAGGCCGCCCGCGTGCTCCAGCAGATGGGCATCCGCCTGCACCGGATCGACCCGGTGGACAACCGCCTGGAAATCGGCGCGGAAGACGGCCGGCGCCTGCTGGCCATGCGCGTCACCGAGGGCTACCAGCGCACCGCCACGGCCGGTAGCACCCGCTACAGCGTGCAGTTCCAGGGCGTAGGCCTGGAATGGCGCGAACCCATCAGCGCCAGCAACCCCAGCAGCTACGCGCCCCGTCATCACTGA	MCGSIECTERKQPPLRVLTEELSIRLRVFNQAARVLQQMGIRLHRIDPVDNRLEIGAEDGRRLLAMRVTEGYQRTATAGSTRYSVQFQGVGLEWREPISASNPSSYAPRHH				NA	NA	NA	NA	NA
BMS010_08818	447			hypothetical protein	ATGACCACCAACACCAGCTGTATCCGCTGTAAATGGAAGGAAAACCCGGACAACGCGCGCTATGAGGGCATGGCCTGCACCAACCCCACCGTGCTGGAGCGCTACAACGCCGACACCGGCCGCACCCTGAGCCGGATGTACATCGACCAAGCCAGGCCGATGTTCTGCCGCGGCGGCCTTTTCGAGGAAACGGAGCTGGCCAAGGCGGCAGCGGCTGTGGCGCAGGATGCGGGTGAGACGACAGTCCAGGCGCAGGCCACCCGCCCCGCGCAGACCACCGCACCCTCAGCCCCACTCACCGCCACCATCCCCGTCGCCCAACTGCTCGACATCCGCCACGCCCTGGTCAATGGCGCCCACCTGGACCGCCTGTTCCTGCTCGCCGAGCTGCTGGAAACGGCCATCGAACGCGCCACCGGCAAGCCGTTCGCGGAGGTGCAGGGATGA	MTTNTSCIRCKWKENPDNARYEGMACTNPTVLERYNADTGRTLSRMYIDQARPMFCRGGLFEETELAKAAAAVAQDAGETTVQAQATRPAQTTAPSAPLTATIPVAQLLDIRHALVNGAHLDRLFLLAELLETAIERATGKPFAEVQG				NA	NA	NA	NA	NA
BMS010_08819	645			hypothetical protein	ATGAACATCACCTTAGATTCCGTGCGTGAGCGCCCGATTCTGTTCACCGAGCCAATGGTCCGCGCGGTCTTGGAAGACCGGAAGACGGTCACGCGGAGGGCGATCAAGCCGCAGCCAGATTTCCTTGGCTCGATGGCCGACCCGACAACCCCGTTCAAAACCCTGGGCGCGGGCCTCCACGGGCAGATTGTTTGCCCATACGGCCAGCTAGGCGACCGGCTGTGGGTGCGCGAGGCATGGGCAGCTGACGCCCAGGTTGATGCGGTTGCACCGCGAGACCTGAGCCACGGCGAGCCAATCCTGTTCTTGGCAGATGGAGCTGCCCGCCAGACTGGATGCTCCATGATCACGCCGGGGAAAACGCGCCCATCCATTCACATGCCCCGCTGGGTAAGCCGCATCCTGCTGGAAATCACCTCCGTGCGCGTCGAGCGCCTGCAGGACATCAGCGAGGCTCAGGCGGTAGCCGAAGGTGTGCATCCAGAGCCATGCGATCACGTCCGCCAATCTTGTTCTGACATTGGCTGCTGGGGCGACACCGCCAAGGGCGCCTTCGGATTCCTATGGGAGTCGATCAACGGCGCCGGTAGCTGGACCGCCAACCCGTGGGTCTGGGTGATCGCCTTTCGGAGGGTTCAGCCATGA	MNITLDSVRERPILFTEPMVRAVLEDRKTVTRRAIKPQPDFLGSMADPTTPFKTLGAGLHGQIVCPYGQLGDRLWVREAWAADAQVDAVAPRDLSHGEPILFLADGAARQTGCSMITPGKTRPSIHMPRWVSRILLEITSVRVERLQDISEAQAVAEGVHPEPCDHVRQSCSDIGCWGDTAKGAFGFLWESINGAGSWTANPWVWVIAFRRVQP				NA	NA	NA	NA	NA
BMS010_08820	261			hypothetical protein	ATGAAAACCATGACGTACGCCGAGTGGATCGGCCGCATGAAGGCCAAAGGTGTCGTGTTCCTGGCCTTCTCCTGCCCCAAGTGTGGCGGCGAGATTGAGACCCAGCGCGCGCCGCGCGGCGATACCTGGGACACGTTGTCTACGTGTCCGCACTGTGAAGCGCTGTTCATGAAGATCACCACGCACACGAAGGTAGAGGGTCTCCTTCCGCCGTGGAGCAGCAGCGCTGGAACGAAGCAGGGTGAAGAGGTGCATCCATGA	MKTMTYAEWIGRMKAKGVVFLAFSCPKCGGEIETQRAPRGDTWDTLSTCPHCEALFMKITTHTKVEGLLPPWSSSAGTKQGEEVHP				NA	NA	NA	NA	NA
BMS010_08821	186			hypothetical protein	ATGACCACTCCCGAAACCAAACGCTACCGCCGCCGGGACTCCTACTGGTGGCCAGTCAGCCCGGCCCGTAAACGCAAGCTCCAGAAACGCGGCGTGCTCTGCCGTTACTCGGTCGGCATGCACGCCTACGTCCGCAAAAACCCTATGCCCCACTTCCAGGAGAAATCCCATGTCGAACGCCCCTGA	MTTPETKRYRRRDSYWWPVSPARKRKLQKRGVLCRYSVGMHAYVRKNPMPHFQEKSHVERP				NA	NA	NA	NA	NA
BMS010_08822	627			hypothetical protein	ATGTCGAACGCCCCTGAAATCACCGCGCCGGCCGGCTACCGCAAGGACGCCCAGGGCCGGCTGGTGCCCGAAAGCATGATCAAGCCCGTCGACCTCACCCGCGACGCCCTGGTGGCCGAGCTGGTAGCGGCGGCCCTGGACCTGAGCGAGCGGCTCGCCCAGTTCAAGGCCCGCGCCTTCGGTGATATCCGCGCCTTCTGCGACCTGAGTGCCGAGCAGTACGGCGTCAAGCTGGGCGGGAAGAAGGGCAATGTGTCGCTACTGAGCTTCGACGGCCGCTACAAGCTGCAACTGGCCGTGCAGGAATCCATCCAGTTCGACGAGCGCCTGCAGGCCGCCCGCGCCCTGATCGACGAATGCCTGCGCGACTGGACCGAGGGCGCCCGGCCGGAGGTGCAGACCCTGGTCAACGACGCCTTCCGCACCGACACCCGCGGCGAAATCCGCACCGCCCGCGTCCTGGCCCTGCGCCGCCTGGAGATCGCCGACGAGCGCTGGCAGCGCGCCATGCGCGCCATCGGCGAGGCCTGCCAGGTCGTCGGCTCGAAGTCCTACATCCGCATCTACGAGCGCGAAGGGGATACCGATCAATACCGGGCGATCAGCCTGGACATCGCGGGGGTGTGA	MSNAPEITAPAGYRKDAQGRLVPESMIKPVDLTRDALVAELVAAALDLSERLAQFKARAFGDIRAFCDLSAEQYGVKLGGKKGNVSLLSFDGRYKLQLAVQESIQFDERLQAARALIDECLRDWTEGARPEVQTLVNDAFRTDTRGEIRTARVLALRRLEIADERWQRAMRAIGEACQVVGSKSYIRIYEREGDTDQYRAISLDIAGV				NA	NA	NA	NA	NA
BMS010_08823	210			hypothetical protein	ATGAACCCGAAACAGGTCGCTGAACGAAACATGGAATACATCCGCACCACCTACGGCGTACCGGCCTACCTGGGGAAGAAGGTCGTCGCATACGGCAAGCCGGGCGTCATCACCGGCACCAACGGGCCACACCTGAAAATCCGCCTGGACGGTGAGAAGCAAGCCTTCCCGTACCACCCCACCGACGGCATCGAGTACCTGGAGCACTGA	MNPKQVAERNMEYIRTTYGVPAYLGKKVVAYGKPGVITGTNGPHLKIRLDGEKQAFPYHPTDGIEYLEH				NA	NA	NA	NA	NA
BMS010_08824	417			hypothetical protein	ATGACCCAACAGTACGAAATCACCATCGAGTCCCTGATGGAACAGGCCCAGGTCTACGCCAGCGCCTGGTCGCTGGTAGGCGGGATGTTCGACAACGGCGACCAGCTGGAAGTGGCGAAGGTCGAGAAGGAAGTGCTGAAAGACATGCTGGAGGCCTTCCACAACCAGAGTGCCGGAAACCTCAAGGAAATCGCCGAAGGGCTGGTTGCTTGGCATACGACCCGGATCACGAACATCAAAACGATTCTCGACGCCCCCGAGGACACCGAAATTCGCCTTGGCTCGGGCGACGATCCCGTTGTCCTGACCGGCAACCACGCCGTGGCTTTCCGGGCTGGGCTGTCGGTGTGCCTGGAATGGTTCGGGAAATTCCCGCTGTCGATCCAGCGCACTGAGCCGAGCGACGAGGAGGAATGA	MTQQYEITIESLMEQAQVYASAWSLVGGMFDNGDQLEVAKVEKEVLKDMLEAFHNQSAGNLKEIAEGLVAWHTTRITNIKTILDAPEDTEIRLGSGDDPVVLTGNHAVAFRAGLSVCLEWFGKFPLSIQRTEPSDEEE				NA	NA	NA	NA	NA
BMS010_08825	462			hypothetical protein	ATGGCCATTCCCCGCACCCCCGAACCGCTGCCGCTCAGCTCGCCGGTACTGGAGCGCGAGCGGGCGCGGATCGCCACGCTCACCGAGCAGTTTCTGGCCAACGGCGGCGAGATCCAGCAGATCGGCTTCCAGATGACGGACCGCTACGCCTTCGTCATCGACCCGAAGCGCACCCCGGTCTATGCCCACCTGTTTCAGCCGGCGCCGGCGCCCAAGGCAGTGCCGGCCGCACCTGTGGAGCAGGCCAGCCCCGAGCCGCTTCCGGAGGCGCCAGCCCCCGAGCCGGTACCGGCCGTCATGGAATGCCCGCGGCTGCCAGGCCGCAACACCGCTGCCCGGCTGATGGCCCAGGCCGCCCTGGGTGCCAGCCCTCGGCAGGCCGCCGAGGCCATCGGCATCAGCGAAAAAGAAGCGCGCCAGTTGGCCCGCACCTTCCACATCACGTTCAAGCGCCAACGCTGA	MAIPRTPEPLPLSSPVLERERARIATLTEQFLANGGEIQQIGFQMTDRYAFVIDPKRTPVYAHLFQPAPAPKAVPAAPVEQASPEPLPEAPAPEPVPAVMECPRLPGRNTAARLMAQAALGASPRQAAEAIGISEKEARQLARTFHITFKRQR				NA	NA	NA	NA	NA
BMS010_08826	219			hypothetical protein	ATGGCCCGAATCGTCATTGTTCTGGAAGACACCGCCGACGGCCGGGTGGCTCAGTCGGTGAACGCCACTGGCGCACAGATGATGCCGTCCGGCACCCAGTTGCGCGCCACCCGCGCCGTGCGCCTGTGCCGAGCCATTACCGACATGGTGCGTTACGACCTGGCCCTGGATGACATCCCGGTCCACTGCAAGCAACCCGCCAGCCAGACCGTTCACTGA	MARIVIVLEDTADGRVAQSVNATGAQMMPSGTQLRATRAVRLCRAITDMVRYDLALDDIPVHCKQPASQTVH				NA	NA	NA	NA	NA
BMS010_08827	99			hypothetical protein	ATGTTCGCCCTGGCCTGGTTTCTCGCCGTCTACCTCCGCGCCGCCCGTGCCCGTGGCGTGGTCGTCTACCACCTGCGGGCACAGGAGCTGCCGCAATGA	MFALAWFLAVYLRAARARGVVVYHLRAQELPQ				NA	NA	NA	NA	NA
BMS010_08828	231			hypothetical protein	ATGATCAAGTCCGCCACCCAGCAACGCATGGAGGCTGAGGTAAAGGCCTCCATAGACCTCCAGGTATCCCACGGGCTGCAGGAAGCCCTGGACCTGATGCGCCGCGCCCATCGCTACGTCAGCGTGCACCCGACCATCGGTGGCCAGCGCCTCGGCGAGGAGATGGCCGCGTGGATCCACCGCAACGACCCCGACGCCCTGACGGCCAATACCGCACAGACCGTGCATTGA	MIKSATQQRMEAEVKASIDLQVSHGLQEALDLMRRAHRYVSVHPTIGGQRLGEEMAAWIHRNDPDALTANTAQTVH				NA	NA	NA	NA	NA
BMS010_08829	669			hypothetical protein	ATGGACCGCGACAAGGCGATGGACAAGATCAAAAAGCTGCTGCGTCTCGCTACCAGCAGCAACCCCAACGAAGCGGCCGCAGCCATGCGGCAAGCGCGCGCCATGATGGAGAAGTATCGGATCGAGGAGGGTGATGTGCTGGCCTCCGAGGTCTGCGAATGCGCCGCCCGTAGCGGCGGGAAGAACCGCCCAGTTGCCTGGGAAGCGAAGCTGGCGGACACCGTAGCCAAGGCATACGCGTGCCAATTCTTCTTCGTCGTGGGTATAAGTGAATACCGTTTCGTCGGTGAGATGGCCGAAGTTGCTGGCTACACCATGACTTTGCTGATGCGCCAAGTCAGGCAAGCCCGCCGCAAGTACATCGCGGATCATTTAACCCGCTGCAAGGCTGCCACGAAGACCAAGCGTGCGGACGTGTTCTGCGATGCCTGGACCTTCGCTGTGCGTAAGCGAGTCCAGGAATTCGCAGGTTCGGAACCTTCGGCGGCGGTGGCGGCATTCATGGCCAAGAACCACCCGGAGATGGAAACGAGCAAGGCCATTGACCGTAACAAGGGCGGCCGAGGGGGAAAGCGATCCTTCAAAGATGCTGTGCACGGAATCGCTGCGGCCGATGACGTCCGCCTGAATCACGGCGTGACAGGTGAAAAACCACTAGCCCTGACCTGA	MDRDKAMDKIKKLLRLATSSNPNEAAAAMRQARAMMEKYRIEEGDVLASEVCECAARSGGKNRPVAWEAKLADTVAKAYACQFFFVVGISEYRFVGEMAEVAGYTMTLLMRQVRQARRKYIADHLTRCKAATKTKRADVFCDAWTFAVRKRVQEFAGSEPSAAVAAFMAKNHPEMETSKAIDRNKGGRGGKRSFKDAVHGIAAADDVRLNHGVTGEKPLALT				NA	NA	NA	NA	NA
BMS010_08831	234			hypothetical protein	ATGACTGAGCAAACCAAAGCCAAGCCCCTGACCGCCGCCGACCGTGCGGCCCTGGCCGAGCTGCCGGCGTCCGAGTGGTTCGACGTGGCGCATGCGCCGATAGACCGACCGTTTTACCGCTGCGAGCGCTTGGAGGCCGCCGGCCTGCTGGAGCGCCGCGTGCAGAATGCCGGCATCACGGGCGAAAGCCTGTGGCGAAAGACGCAGTACCGGCGCAAGCCAGCCGCCGAGTAG	MTEQTKAKPLTAADRAALAELPASEWFDVAHAPIDRPFYRCERLEAAGLLERRVQNAGITGESLWRKTQYRRKPAAE				NA	NA	NA	NA	NA
BMS010_08832	273			hypothetical protein	ATGACAGACGAAACCAAGGCCGAGCGCCGCCGCAGGCTGGCACGCGACCGCCAACGCCGCCGCCGCAATGCGTTGCACAAGCACCACCAGAAGGTCGGCGCGACGAAGTTCCGCATGGACCTCTACGCCGGTACCGCGGCTGAGCTGGAGTTCCTGCGCCAGCACGGCGGCTTCGACGAAGCGGCCGAGCTGCTGACGCTGGCCATCCATGGGCTGGCCGACTTGGCGCGCCGGGACCCGGCGGCACTGGCCTTTCTGTTGAGGAGGATTTAG	MTDETKAERRRRLARDRQRRRRNALHKHHQKVGATKFRMDLYAGTAAELEFLRQHGGFDEAAELLTLAIHGLADLARRDPAALAFLLRRI				NA	NA	NA	NA	NA
BMS010_08833	195			hypothetical protein	ATGCAACTGCACACCCAGCCCCCGCCGAAGCACCGCGACGCCGGCTATGCCCTGGAACGCCACTGCCCGCGCTGTGACGACTACTGGCCGGCCGACGCCGAGTTCTTTCACCCGCGTCCGAACGGCCGGCTGGATTCCTGGTGCCGCGCCTGCTCGAACGATTACCGCAACCAGAAGAGGAAGGCCAAAGCATGA	MQLHTQPPPKHRDAGYALERHCPRCDDYWPADAEFFHPRPNGRLDSWCRACSNDYRNQKRKAKA				NA	NA	NA	NA	NA
BMS010_08834	414			hypothetical protein	ATGAACCGCCGCAATGCCAGCCTCAGCAAGATCCACATCGCCAAGAAAGACCTGGCCTTGGATGACGACACCTATCGCGCCCTGCTGGCCAGGGTGACGGGCAAGCGATCGGCCAAGGACCTGAGCGCGCGCCAGGTCTCGGCCGTGCTGGCCGAGTTCGAGCGGCTGGGCTGGGAGCCGAAGCCGGCGGCGAAGGCCGGGCGCACGCCGAAGCCGTCGGCCGACCGCGCCGCGCTGATGGGCAAGATCGAAGCGTTCCTGGCCGAGGCCAAGCGGTCCTGGGCGTATGCCGACGGCATGGCCCTGCGCATGTTCAAGGTGGCACGCACCGAATGGCTGGACGCCGAGCAGCTGCGCGCGGTGATCGCCGCCCTGGCCTACGACGCCCGCCGCCATGGGAGACCGACCGAATGA	MNRRNASLSKIHIAKKDLALDDDTYRALLARVTGKRSAKDLSARQVSAVLAEFERLGWEPKPAAKAGRTPKPSADRAALMGKIEAFLAEAKRSWAYADGMALRMFKVARTEWLDAEQLRAVIAALAYDARRHGRPTE				NA	NA	NA	NA	NA
BMS010_08835	441			hypothetical protein	ATGAACATCGAGCAGATCCAGAGCATGCTGCCCCAGCAGCTCCAGGAAATCGCCGAGGCCATCGGCCTGGCCGCCACTCAGCGCCTGGTGGAAGAGCTGGGCGGCACCACTTGGCCGGTGGCCAAGGGCGTGCGCCGGCTGGGCCAGATCCGCCACGCGGCGCTGGTGGAGGTGATCGGCGAAGACGCGGCGACGATCATGGCCGAGCGCTGGGCCAACGTCCCGCTGTATATTCCCAAGTGCGACGCGGCTATCCGCCGCCTGCGCGACCTGGAGATCAACCGCCAGTATGTCCAGGGCTGCCGGGAGGGGATATCCTCCAACACGCTGGTGGCCGAGCTGGCGCGCAGCTACAAGCTCAGCGACCGCCGGATCTGGGAGATTCTCAAACAGCCCGACGATTGCACCACTGGCGACCTGTTTGGCACTGAGGGAGAGTGA	MNIEQIQSMLPQQLQEIAEAIGLAATQRLVEELGGTTWPVAKGVRRLGQIRHAALVEVIGEDAATIMAERWANVPLYIPKCDAAIRRLRDLEINRQYVQGCREGISSNTLVAELARSYKLSDRRIWEILKQPDDCTTGDLFGTEGE				NA	NA	NA	NA	NA
BMS010_08836	483			hypothetical protein	ATGCGTATCTGGAAAGGACTGATTCTGGCGGCTGGGCTTTGCCTATCGACGTTGGGCTGGGCTACCCAAGATCCGATGGTTGAGATTGCCTTGGCCAAGGTGCGTGACGCCCAGTCGGCGCAACCTGCCGCCAACCAGAAGGACCCGGCGGCCAGCCTGGTAGAACAGGCCCGTTATCTGATGGCCGTCAAGGACGGTATGTCGCTGTATCGGGACGGCGAATTGACCGCCGAGGACAAGGATGCCCTGGTCGAGCTGGTTGCGCGTCAGGTCAAGGCGTCCAGTACCGCCTTGGGTGCCGGCATCAGCGGAGACCAGAAAGCACTGGCCGGAAAGATGCACCAAGCCTCCTTGGCCGCCGAGCAGTTGCTGAAGTTGGATCCGGCCGCTCCGGCGTTCAGCGGGCTGATGGAGCAGTACCACACCGGTGCGGGCTATCAAGCCTATCGAATGGCACAAGACATCGGCATCGAACAGTACTAA	MRIWKGLILAAGLCLSTLGWATQDPMVEIALAKVRDAQSAQPAANQKDPAASLVEQARYLMAVKDGMSLYRDGELTAEDKDALVELVARQVKASSTALGAGISGDQKALAGKMHQASLAAEQLLKLDPAAPAFSGLMEQYHTGAGYQAYRMAQDIGIEQY				NA	NA	NA	NA	NA
BMS010_08837	348			hypothetical protein	ATGGTGGCCATGACGAACACAGCCCCCCACCCGCCCCGCAGCCCCCGCGACTACGCCGCCGAGATCCTCGCCGAGCCGTCGCGCGAGCGCCGTAACCAGCTGCTCGACGCCTGCCCGGCACAGTGGCGGGACCTGGTGCGTGAACACGTCTCCACTGGCTTCGCCCGCATCAAGGCCTACCGCGAGCACAAGGCCGCCCGCGCCGGCCTGGCCGCGCAGAAGCCACCGTCTGCCCCGCGCCGGGAAGAGAAGCACGACATCGTCAACCACCCGCGATCCGCGCCCGACGTGGGCAATGCGGCCATCGCCAAACTGCGCGCCGCTGTCGGTGCCGAGGGGGTGGCATGA	MVAMTNTAPHPPRSPRDYAAEILAEPSRERRNQLLDACPAQWRDLVREHVSTGFARIKAYREHKAARAGLAAQKPPSAPRREEKHDIVNHPRSAPDVGNAAIAKLRAAVGAEGVA				NA	NA	NA	NA	NA
BMS010_08838	534			hypothetical protein	ATGAGCCTACGCGCCCGCATCGCCGCCGGCTCCTTGGTGCTGGCGGGTACCGGCCTGATGGCGTTCCTCGGTATTTGGGAAGGCGACGGGCAGAACCGGGTCATTCCGGACAAGCTGGCCGGCGGCCTGCCCACGGTGTGCAAGGGCATCACCCGGCACACCAGCCCCTATCCCGTGGTGGTAGGCGACTACTGGTCGGACGAGCGCTGCGCCGAGGTGGAGCGCATGGTGGTGGAGAAGGGCCAGCTGAAGTTGGCGGACTGCATCAGCAATGACCAGATCACCCAAAACACCTTCGACGCTCTCAGCAGCCACGGCCATAACGTCGGCATGCCGAGCACCTGCGCCAGCAGGGCCGTGGGCCTGATCAACGCCGGCCGCGTCGCCGAAGGTTGCCGGGCCCTGGCCTGGGGCGCGGATGGCCGCCCGGTGTGGGCCTACGTCACCGATGCCCAGGGCCACAAAGTCTTCGTGCGCGGTCTGCACCGCCGCCGGCTGGCGGAGATGAAGCTATGCCTGGAGGGCCTGCAATGA	MSLRARIAAGSLVLAGTGLMAFLGIWEGDGQNRVIPDKLAGGLPTVCKGITRHTSPYPVVVGDYWSDERCAEVERMVVEKGQLKLADCISNDQITQNTFDALSSHGHNVGMPSTCASRAVGLINAGRVAEGCRALAWGADGRPVWAYVTDAQGHKVFVRGLHRRRLAEMKLCLEGLQ	PGPT0019155_877	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_DEGRADATIVE_GLYCOSIDASES|GLYCOSYLHYDROLASES	PLANT_DEGRADATIVE_GS|GH-LYSOZYME,PGPT0019155-rrrD-K01185	NA	NA
BMS010_08839	609			hypothetical protein	ATGACCTGGGCCGTCCTGCTGCGCAAGCTGCTGCCATCCGTCGTGGTGATAGGCCTTTTGGGGGCGCTTTGCCTTGTGTTCTGGAACCTCGGCTACGACGTGGCCGAATCCAGGGGCTCGGCTTCCCTGGAACAACTGCGCCGCCACCACGCCGAGCAGGAAACCGACCGCGCCCGCCAGGCCGAAGCCAGTGCCAAAGCCGCCGCAAAGAAGCTGCAGGACGAGCAGGCCCGCAACGACAAGCTCGCCGCCGACCTGGCCGACGCCCAGCGCGCGCACCGCGAAACCACCGACCGCCTCAAAGGGGAGATTGCCCGTGTCACAAAACGCTATCGCAAGGCCCTGGACGCGGAGCCTGAGCCTGTCCCTGCTTGCGTTATCACTGCTGGCTGGGTGCGCATCTACGACGAAGCCACCGGAGCCCGAGTGCCAGCCCCCGCGGATTCCGGCAGAGCTGCTGCGCCGGCCGGCGAAGCCAGCCCCGCTGAGCAACTCGCCACAGGCCTCGACCAGGGCGACGTCCTCGACCATCACATCCGCTACGCCGAGCAGTGCCGGGGCATTGCCGACCAGCTCAACCGCCTGATCGACGCCGTGGAGGGCGATTGA	MTWAVLLRKLLPSVVVIGLLGALCLVFWNLGYDVAESRGSASLEQLRRHHAEQETDRARQAEASAKAAAKKLQDEQARNDKLAADLADAQRAHRETTDRLKGEIARVTKRYRKALDAEPEPVPACVITAGWVRIYDEATGARVPAPADSGRAAAPAGEASPAEQLATGLDQGDVLDHHIRYAEQCRGIADQLNRLIDAVEGD				NA	NA	NA	NA	NA
BMS010_08840	375			hypothetical protein	ATGGAAATGGATATTGGCTCCGGCATCACGCTGCTGGGAATTTTCACCGGGATCATTACCGGCTTGGTCAAGCTGCTGCTCTGGCAGTTCGAGAAACGCCTTGGCGAGCGGTTCGCAGCGCAGGACCAGGCCCGCCAGACCGCCGCCAAGCACTGGGAGGCGGCCTTCGAAAAGGTCATTGCACGGCAGGACAAGGACGCCGAAGCCGTGCAGCAGCTCGAAAAGACCTTTCTCAAGTGGCAGGCGGAACTCCCCATCAGCTACGTCCGCCGCGAGGACTTTGTCCGTAACCAAACCATCATCGAGGCGAAGATCGACAACATCGCTTCGAAGCTCGAAGTCATCCAGCTGAACGGAGCACGAAACCATGATTGA	MEMDIGSGITLLGIFTGIITGLVKLLLWQFEKRLGERFAAQDQARQTAAKHWEAAFEKVIARQDKDAEAVQQLEKTFLKWQAELPISYVRREDFVRNQTIIEAKIDNIASKLEVIQLNGARNHD				NA	NA	NA	NA	NA
BMS010_08841	309			hypothetical protein	ATGATTGAGATCGACGCCGCCAAGATCCGCCGCGAGTCCATGCGTTGGTACATCCTCCTGACGTTGAACAACGCCCGGCCGGTGGACCCGCATGAGCACCTGGTGCTGTCGACCATTCAGGGCATCTATCCGGACGCGACCCAGCACGAAGTCCGCCGTGAGCTGGACTACCTCAAGGACCGCTCCCTGGTGACGCTGGACAAGAAGCCGAGCGGTGAATGGGTGTGTGGGCTGACGCATTACGGGGTGGACATCGCCGAGTACACCATCCCCTGCAACCCCGGCATTGCCCGCCCGGCGAGGGTCTGA	MIEIDAAKIRRESMRWYILLTLNNARPVDPHEHLVLSTIQGIYPDATQHEVRRELDYLKDRSLVTLDKKPSGEWVCGLTHYGVDIAEYTIPCNPGIARPARV				NA	NA	NA	NA	NA
BMS010_08842	528			hypothetical protein	ATGCCGCCCCGCAGCAAGGTGGCCGCGCTGCCGGCCGAGGTCAAGGCGTGGCTCGACCAGGCCCTGGTCGAGGGTAATTTCTCAGGCTATGAGACGCTCTCCGCCGAGCTGGACGCCCGCGGATACAGCATCGGCAAAAGCGCCTTGCACCGCTACGGCCAGGGCTTCGAAGAGCGCCTGTCCGCCCTCAAGATGGCGTCCGAGCAGGCCCGCGCCGTGGTCCAGGCCGCGCCGGACGAAGAAGGCGCCGTCAACGAGGCCCTGATGCGCCTGGTGCAGGAACACCTGTTCAAGCTGCTGATGAGCGACGACGGCAAGTTCGACTTGCCCAAGGTGGCCAAGGCCGTGGCCGAGCTGGGCAAGGCTTCCATCAACCAGAAGAAGTGGGCCGCCGAGCACCGCAAGGCCATCCGCGAGGAGTATGCCGCCGAGGCGGCTGCCGCCGTCAGCGAAGAGCTGCGCGGCCAGGACGGTATGAGCGAAGAGCTGGAAGACCGCATTCGCGGCATTCTGCTGGGGAAAGCCTGA	MPPRSKVAALPAEVKAWLDQALVEGNFSGYETLSAELDARGYSIGKSALHRYGQGFEERLSALKMASEQARAVVQAAPDEEGAVNEALMRLVQEHLFKLLMSDDGKFDLPKVAKAVAELGKASINQKKWAAEHRKAIREEYAAEAAAAVSEELRGQDGMSEELEDRIRGILLGKA				NA	NA	NA	NA	NA
BMS010_08843	1665			hypothetical protein	ATGGCCATGCGCGCCACCGCCGCCAACCTGGGCGAGCGCCTCACTGCCACCGGCGCTCCGCGCAAGATCGACCTGGCCGAGGAAATGGCCCTATACGGGGTGGAGGTGCCACAAGAGGTATCCGACGCCCAGCCGGCCAACGAGCCGGTCTTCCTGCCGTACCAACAGCGCTGGTTCGAGGACCAAGCGCAGATCATGATCGCCGAGAAGAGCCGCCGAACTGGCCTGACCTGGGCCGAGGCCGGGCGCAACGTGATCAACGCCGCCAAGCCGCGCCGGCGCGGGGGTTGCAATACCTTCTACGTCGGCAGCCGCCAGGAAATGGCGCTGGAATACATCGCCGCCTGCGCCCTGTTCGCCCGAGCCTTCAACGAGCTGGCCGAGGCGGACGTCTACGAGCAGACCTTCTGGGACGAGGGTAAGAAGGAAGAAATACTCACCTACATGATCCGCTTCCCGAAGTCGGGGCGGAAAATCCAGGCGCTCTCCAGCCGGCCCAGCAACCTGCGCGGCCTGCAGGGCGACGTGGTGATCGACGAAGCGGCGTTCCATGAATCCCTGGAAGAGTTGCTCAAGGCCGCCTTGGCGCTGACCATGTGGGGCAACAAGGTCCGCCTGATCAGCACCCACAACGGCGTAGACAACCCGTTCAACCAGTACGTCCAGGACGCCCGCGAGGGCCGCAAGGACTACAGCATCCACCGCATCACCCTCGACATGGCGATTGCCGAGGGGCTCTACAAGCGCATTTGCTACGTCACCGGGCAAACCTGGTCGGCCGAGGCCGAGAAGAAGTGGCGCGACGGGCTGTACAAGAACGCCCCCAACGTCGAGTCGGCCGACGAGGAGTACGGCTGCATCCCGAAGAAGTCCGGCGGCGCCTACCTTAGCCGAGCCCTGATCGAGCAGGCGATGGTCAATGACCATTCGATCCGCATCTACCGCTTCGAGGCGCCGGATGGCTTCGAGAGCTGGACGCCCGCCATGCGCGAGGCGGAGGTACAGCGCTGGTGCGAGGAGAACCTGGCGCCCGAGCTGGGCAAGCTGAACAAAGGCTGGCGCCACGTCTTCGGCGAGGACTTCGCCCGCCGCGGCGACCTGACGGTGTTCGTTCCCCTGGCCATCAAGCCGGACCTTCGGCGCCGTGTGCCCTTCGTGGTCGAGCTGCGCAACGTGCCCTACGAGCAGCAAAAGCAGATCATGTTCTTCATCTGCGACCGGCTGCCGCGCCGTGGCGGGCTGGCCTTCGATGCCACCGGCAACGGCGGCTACCTAGCCGAGCAGGCGGCCCTCAAGTACGGCGTCACCGCAGTGGACCAGGTCAACCTGTCCGCCGGCTGGTATCACGAATGGATGCCCAAGCTCAAAGGCAAGTTCGAGGCCTTCCACTACGAGATCCCGCGCCACCAGTCCACCCTGGACGACCTGCTGGCTATCAAGGTGGTGAACGGCATTCCATCCATCGACAAGGGCCGCCAGAAAGACCTGGAATCCCCGGGCGGCAAGGGCAAGCGGCACGGTGACTTCGCCGTCGCCCTGGTGATGGCCGAGCGCGCCACCTGGATGGACGGAACGGAAATCGATTTCACCTCGGCCCCGCCGCGCCGCGAGCGCTGGGTCGACCACGACGACGATCAGCCCCGCAGCAACGGCGGCGCCTGGTAG	MAMRATAANLGERLTATGAPRKIDLAEEMALYGVEVPQEVSDAQPANEPVFLPYQQRWFEDQAQIMIAEKSRRTGLTWAEAGRNVINAAKPRRRGGCNTFYVGSRQEMALEYIAACALFARAFNELAEADVYEQTFWDEGKKEEILTYMIRFPKSGRKIQALSSRPSNLRGLQGDVVIDEAAFHESLEELLKAALALTMWGNKVRLISTHNGVDNPFNQYVQDAREGRKDYSIHRITLDMAIAEGLYKRICYVTGQTWSAEAEKKWRDGLYKNAPNVESADEEYGCIPKKSGGAYLSRALIEQAMVNDHSIRIYRFEAPDGFESWTPAMREAEVQRWCEENLAPELGKLNKGWRHVFGEDFARRGDLTVFVPLAIKPDLRRRVPFVVELRNVPYEQQKQIMFFICDRLPRRGGLAFDATGNGGYLAEQAALKYGVTAVDQVNLSAGWYHEWMPKLKGKFEAFHYEIPRHQSTLDDLLAIKVVNGIPSIDKGRQKDLESPGGKGKRHGDFAVALVMAERATWMDGTEIDFTSAPPRRERWVDHDDDQPRSNGGAW				NA	NA	NA	NA	NA
BMS010_08844	1530			hypothetical protein	ATGGCAATCGTAGATATCCACGGGCGACCGTTCGAACAGACGACCCTGCGCGAGCAGCAGACGGCGCGGCTCGCCCAGCTGCATGAGGAGTTCGCCGAACACCCGTCCAGCGGCCTGACGCCGCCGCGACTGGCGGCCATCCTGCGCCAGGCCGAACAGGGCGATATCCAGGCACAGGCCGAGCTGTTCGAGGACCTGGAAGAGAAAGACGCCCACCTGCTCGCCGAGATGGGCAAGCGCCGCCGGGCGCTGACCACGGTGGACTGGTCGGTGGTGCCGCCGCGCAACCCCTCGAAAGAGGAACAGGCCGACGCCGATTGGCTGGCCGAAGTACTTCAAGACCTGCCGGACTTCGAGGACCTGCTCTTCGACATGCTGGACGCCATCGGCAAAGGCTATGCCGGCATCGAACTGAGCTGGGCGCTGCATGGCCGCGAGTGGATCCCGGACGGCTTCGACTTCCGCCCGGCCAGCTGGTTTCAGCTCGACCGCGCCACCCGCACCGAACTGCGCCTGCGCGACAGCAGCCTGGAAGGCCAGGCTCTTGAGCCGTTCGGCTGGATCATGCACACCCACAAGGCCAAGTCCGGCTACATCGCCCGCGGCGGCCTGTACCGGGTGCTGGCCTGGCCGTGGCTGTTCAAGAACTACGCCGTCCGCGACCTGGCCGAGTTCCTGGAGATCTACGGTCTGCCGCTGCGCCTGGGCAAGTACCCGTCCGGCGCCTCGCCCGAGGAGAAGGCCACCCTGCTGCGCGCCGTGGTGGCCATCGGGCACAGCGCCGCCGGCATCATTCCCCAGGGCATGGAAATCGACTTCAAGGAAGCCGCCAAGGGTACCCACCAGCCGTTCGACTGGATGGTCAACTGGGCCGAGAAGTCCATGTCCAAGGCCATCCTGGGCGGGACGCTGACCAGCCAGTCCGACGGCAAGACTTCCACCAACGCCCTGGGCGAGATCCACAACGAGGTGCGCCACGACCTGCTGAAGAGCGATGCCAAACAGGTCGCGACCAGCCTGCGTCAGTACCTGCTCTATCCGCTGCTGGTGCTCAACCGCGGCGGCGACCGCGACCCGCGGCGCTTGCCGCGCTTCGTGTTCGACGTGATGGAAGCGGAGGATCTGGAGACCTACGCCGACGCGCTGCCCAAGTTGGTCAGAATCGGCATGCGCATCGATCCGAACTGGGCACACGACAAGCTGCGCATCCCCATGGCCGGCGAGGACGACCCGGTGCTGACCGTGCAGCCGGAAACCCCGGCCCCCGTGGCGCCGGCCCGCGCAGCACTCAAGACGCAGCTTCCGGCCGACCCGCTGGACGACCTGGCCGAGCAGCTCGCCGGCGACTGGCAGCCGGTGGCCAACCTGGTTGAGCCGGTCCAGGCGCTGCTGGCCAGCTGCACGACGCTGGAAGAGTTCCGCGACCGCCTGCCGGAGATCATTCCCCAGCTCGACGCCACCGAGCTGGCCGAGCTGATTGCCCAGGGCCTGTTCGTCGGCACGCTGGCCGGGCGCACGGGGGCACTGTAG	MAIVDIHGRPFEQTTLREQQTARLAQLHEEFAEHPSSGLTPPRLAAILRQAEQGDIQAQAELFEDLEEKDAHLLAEMGKRRRALTTVDWSVVPPRNPSKEEQADADWLAEVLQDLPDFEDLLFDMLDAIGKGYAGIELSWALHGREWIPDGFDFRPASWFQLDRATRTELRLRDSSLEGQALEPFGWIMHTHKAKSGYIARGGLYRVLAWPWLFKNYAVRDLAEFLEIYGLPLRLGKYPSGASPEEKATLLRAVVAIGHSAAGIIPQGMEIDFKEAAKGTHQPFDWMVNWAEKSMSKAILGGTLTSQSDGKTSTNALGEIHNEVRHDLLKSDAKQVATSLRQYLLYPLLVLNRGGDRDPRRLPRFVFDVMEAEDLETYADALPKLVRIGMRIDPNWAHDKLRIPMAGEDDPVLTVQPETPAPVAPARAALKTQLPADPLDDLAEQLAGDWQPVANLVEPVQALLASCTTLEEFRDRLPEIIPQLDATELAELIAQGLFVGTLAGRTGAL				NA	NA	NA	NA	NA
BMS010_08845	216			hypothetical protein	ATGGCGTTGATAGAGATCGATCAGCAGTCCGGCCTCGCCGTCGATGCCGGCGACATCAGTTGGTTGCAGTTCGGTGAGGCCAATGGCCAAACCTACTTGGATATCACGATGAAGAGCGGAGAGCGTCACCGCGTGCGGCACTGGCCCTACATGGGCGGCGTGGATGTCTATGCGCTGCACCGCCAGTTGCTGGCCGAGGGTGGTAGCCAGCAATGA	MALIEIDQQSGLAVDAGDISWLQFGEANGQTYLDITMKSGERHRVRHWPYMGGVDVYALHRQLLAEGGSQQ				NA	NA	NA	NA	NA
BMS010_08846	1158			hypothetical protein	ATGATCGAGCTGCGCCCCCTGCCGCCAGCCGAGGCCGTCGAGTACATCCGCCAGAAGGGCTTCGCCATCGGCTTCGACTACCGCGACGTCTGGCAGCAGCAGCACCAGGCCGGCTTCACCGTGGCCAAGGCCATGCAGCTGGACCTGTTGCAGGACATCCGCGCCGAGGTGGACCGGGCCCTGGCCGAAGGCACCACTCTGGCGGACTTCGCCAAGCGCCTGACGCCAACCCTGCAGGACAAAGGCTGGTGGGGCCGCCGGCCAATGCGCGACCCGCTCACCGGCGAGACCCGCGAGGTGCAACTGGGCAGCCCGCGCCGGCTCAAGACCATCTATGACACCAACCTGCGTACCGCCCATGCCGAAGGCCAGTGGCAGCGCATCCAGGCCCAGAAGGCCGCCTTTCCGCTGCTCCAGTACGACGGCGCCAACAGCGAGCACCCGCGCCTCCAGCACCGCGCATGGGATGGCATGGTGCTGCCGGTGGACGACCCGTTCTGGCAGGCGCACCTGCCGGTCAAGGAATGGGGCTGCAAGTGCCGCGTCATCCCGCTGACCCGGCGTCAGGCCGAGCGCCAGGGCCTGACGGTGAGCGAGTCGCCCCAGGTGCCGACCCAACCCTACGTCAACGCCCGCACCGGCGAGGTCCAGCAGATCCCGCTGGGTGTGCACCCGGCATTCCACTACCCGCCGGGCGGCCGCCGCGCCAGCCTCAACGGCCACCTGGTGGACAAGATGGATGGCGCGGCCGAGCCCATGGCCCGCGCCAGCATCGCTGACCTGCTGGCCGGCCAGGCCTGGGCGGACTGGTACCGCCAGCCCGCCGGGCGGTTCCCGTTGGCATGGCTTGGCCCAGCGCCGGCCGAACGCCTCGGCGCCAAGGCCCAGGTGCTGGCCATGTCGGACGACGTGTTGGCCCGGCAGTTGCGCGAGCAGCCGGCCATCACCCTGGAGGATTACGGCCTGGTGCAAGCGGTGATCGACCAGGGCCGGCGCATCCTGGAGGACGGCCGGGTGATCTACCTGCTGGAGCAAGGCAACCAGGTGCTGCTGGTCGAGGCAGCAGCCGAGGGAACGGGCATCGGCCTGCGCCATTTCCGGCGCCTGACCCGTGCCGCCGCCCGGCGCGATCGACAGGTTCGGCAGTGGCTCCAGTAG	MIELRPLPPAEAVEYIRQKGFAIGFDYRDVWQQQHQAGFTVAKAMQLDLLQDIRAEVDRALAEGTTLADFAKRLTPTLQDKGWWGRRPMRDPLTGETREVQLGSPRRLKTIYDTNLRTAHAEGQWQRIQAQKAAFPLLQYDGANSEHPRLQHRAWDGMVLPVDDPFWQAHLPVKEWGCKCRVIPLTRRQAERQGLTVSESPQVPTQPYVNARTGEVQQIPLGVHPAFHYPPGGRRASLNGHLVDKMDGAAEPMARASIADLLAGQAWADWYRQPAGRFPLAWLGPAPAERLGAKAQVLAMSDDVLARQLREQPAITLEDYGLVQAVIDQGRRILEDGRVIYLLEQGNQVLLVEAAAEGTGIGLRHFRRLTRAAARRDRQVRQWLQ				NA	NA	NA	NA	NA
BMS010_08847	498			hypothetical protein	ATGAGCGGGATGTTTGGCGAGCGGCGCAATGCACCGTCGTACAAGAGCGTCGAATGGTACACGCCGGCATGGGTGTTCGATGCGCTTGATCTTACCTTTGACCTCGATCCGTCCAGCCCCCATGACATGGAGACGGCGGTACCGGCTGCCGTAAAGTACACCCTCTATGACGATGGGCTTAAGAAGCCATGGTTTGGTCGGGTATGGATGAATCCCCCGTATGGACCGGATACGGGTTTCTGGATGCGTCGTATGATCGACCACGGCAATGGCATTGCCTTAGTCTTCAGCCGAACCGATGCGACCTGGTGCCAGGAAGCATTGCGGGCAGCGGATGCGGTCTTGTTTTTGGCTGGCAGGATCGATTTCATCCCGGGTCGGGAAAACCAGCATAAGAAGTCACGAGCCGGCGCTGGCACCGTGATGTTTGCCTTCGGTCCGCAGTGCGCCAGAGCGCTGGAACGGTTGGGTGACCGCGGGATTTACTTCAGGTCTTGA	MSGMFGERRNAPSYKSVEWYTPAWVFDALDLTFDLDPSSPHDMETAVPAAVKYTLYDDGLKKPWFGRVWMNPPYGPDTGFWMRRMIDHGNGIALVFSRTDATWCQEALRAADAVLFLAGRIDFIPGRENQHKKSRAGAGTVMFAFGPQCARALERLGDRGIYFRS				NA	NA	NA	NA	NA
BMS010_08848	1065			hypothetical protein	ATGAAGACATCCAGCCCCCCCAACGCCCACGCCTTCGCCGCCTGCACCTTCGAGATCCAGGCGGACGGCGCTGCCATCCAGTTGTTCCCGGCCGTGCCGTTCAAGGCCCGTGACGGTCGTCCGGACGTGAAGGGCGGCCACTGGGTGATCAATGCCAAAGTGGCCGCGAATGTCATCGCCAAGGCGGCGGCTCGCATCACTGACATGGTGATCGACTTCGAGCACCAGACCCTCAACACCGAGAAGAACGGCCAGCCTGCACCAGCGGCCGGTTGGCTCAAGGGCGCTTCCCTGGAATGGCGCGAAGGCCACGGCCTGTTCGCCGTCAACCCCGAGTGGGTGGGGGACACGGCCGAGCTGATAGCGTCCCGCAAGTACCGCTACCTCTCCCCGGTGTTCAGCTACGACCGCAAGACCGGCGAGGTGCTGGAGCTGCACCACGTCGGCCTCACCAACAATCCCGCGATCGACGGCATGGGCGACCTGCTGTCGCTGGCGGCTGCCCGCTTCGAACTGGCCAAACCGGCCGCAACTGCAACGGAGAAACCACGCGTGGATAAAGAAGCACTGATTGCGGCGTTGGGCCTGTCCAGCGACGCCACCGACGAGGACATCCAGACCGCCCTGACGGCCCTCAAGGCCAGCAAGGAAAAGGTGGATGAACTCACCACCCAACTGGCGGCCGCCAAGGCCCAGACCACGGCCAACCCGGACCCCGCGAAGTTCGCCCCGGTCAGCCTGGTCGAGGAGCTGAAGAAGGACATCGCCGCGCTGCGCACCGCCCAGGTATCCGGCGAGGTGGACGACCTGGTCAAGGCCGGCCTGTCTGACGGCCGCCTGCTGCCGGCTCAGGAGAAGTGGGCGCGTGAGCTGGGCACCAAGGACGTCGCGGCCCTGAAAACCTACCTGGACACCACACCGGCCATCGCGGCGCTCAAACGCCAGCAGACCGGGAGCCGGGCCCAGGTGCCGGACAAAGTCGAGGAGCTGGACGACGAGGCCCTGGCCATGTGCAAGGCCATGGGCGTCGAGCCGGCCGACTTCCTCGCCACCCTCAAAGCGTAA	MKTSSPPNAHAFAACTFEIQADGAAIQLFPAVPFKARDGRPDVKGGHWVINAKVAANVIAKAAARITDMVIDFEHQTLNTEKNGQPAPAAGWLKGASLEWREGHGLFAVNPEWVGDTAELIASRKYRYLSPVFSYDRKTGEVLELHHVGLTNNPAIDGMGDLLSLAAARFELAKPAATATEKPRVDKEALIAALGLSSDATDEDIQTALTALKASKEKVDELTTQLAAAKAQTTANPDPAKFAPVSLVEELKKDIAALRTAQVSGEVDDLVKAGLSDGRLLPAQEKWARELGTKDVAALKTYLDTTPAIAALKRQQTGSRAQVPDKVEELDDEALAMCKAMGVEPADFLATLKA				NA	NA	NA	NA	NA
BMS010_08849	399			hypothetical protein	ATGGCAGCCCTCACCCGTGACCGCAACACCCCGCAAATGAATGCGGGAATCATCCCCGTGCCTGTCGCGGCCAACGCCGTGATCTTCGCCGGGGCGCTCGTCGTGGCCAACGCCAACGGCTATGCCGCGCCGGGCAGCACGGCCACCACCCTGACCTATCTCGGCCGCGCCGAGGAGGCGGTGGACAACACCGGCGGGGCCAACGGCGCCAAGACGGTGCCGGTGCGCCGCCTGCTCGCCTTCCGCTGGGGCAACGACGGGTCGATCACCCAGGCCCACCTCGGCAAAACCGCCTACATCGTGGACGACCAGACCCTGGCCGCCACCGATGGCACGGGCACCCGCTCGGCCGCCGGCACCATCGTGCTGGTCGAGGCCGACGGCGTCTGGATCGAGTAA	MAALTRDRNTPQMNAGIIPVPVAANAVIFAGALVVANANGYAAPGSTATTLTYLGRAEEAVDNTGGANGAKTVPVRRLLAFRWGNDGSITQAHLGKTAYIVDDQTLAATDGTGTRSAAGTIVLVEADGVWIE				NA	NA	NA	NA	NA
BMS010_08850	909			hypothetical protein	ATGCTCGTCAATAAGCAAGCACTGCAAAACGCCTTCATCGCCTTGAAGACGATCTTCAACAAGGCCTTCGCGGCCGCGCCTTCCACCTGGCAGAAGATCGCCATGGAGGTGCCGAGCAACACCGGCCAGAACGATTACACCTGGCTGAGCAACTTCCCGAAGATGCGCCGCTGGATCGGGGCCAAGGTGGTCAAGGCGCTGGAAGCCTACAAGTACGTGGTGGCCAACGAGGACTTCGAGGCCACCGTGGAAGTGGACCGCAACCACATCGAGGACGACCAGCTCGGCATCTACCTGCCCCAGGCGCAGATGGCCGGTTTCTCGGCGGCCCAGTTGCCGGATGAATTGGTGTACGAGGTCGTGAGCGGCGGGTTCACCAAGCTGTGCTACGACGGCCAGTACTTCTACGACACCGACCATCCGGTGGGTGACGGCTCGGTCAGCAATAAATCGACCGTGGCCCTTTCCAACGCGACCCTGGCGGCCGCATCGGCCAGCTACGGCGCGGCGCGTACGGCGATGAAGAAGTTCAAGGACGAGGAAGGTCGCCCGCTGAACATCACGCCGAACATCCTGTTGGTGGGCCCGGCGCTGGAAGACGTGGCGCGCATGCTGCTCACCAACGACAAGCTCGCCGACGACACCCCCAACCCCTACAAGGGCACGGCGGAGCTGGTGGTGGACGCCCGCATCACGACGGACACCGAGTGGCACCTGCTCGACACCACCAAGCCAGTCAAGCCGTTCGTGTACCAGCCCAGGAAGAAGCCGGTCTTCGTCCAGCAGACCAACCCTGAAGCCGAAGACGTCTTCAACCTGAAGAAGTTCAAGTTCGGCGCCGAGGCACGTGCCGCTGCCGGCTACGGCTTCTGGCAGCTGGCCTTCGGCTCCACCGGCACCGGCGCGTAA	MLVNKQALQNAFIALKTIFNKAFAAAPSTWQKIAMEVPSNTGQNDYTWLSNFPKMRRWIGAKVVKALEAYKYVVANEDFEATVEVDRNHIEDDQLGIYLPQAQMAGFSAAQLPDELVYEVVSGGFTKLCYDGQYFYDTDHPVGDGSVSNKSTVALSNATLAAASASYGAARTAMKKFKDEEGRPLNITPNILLVGPALEDVARMLLTNDKLADDTPNPYKGTAELVVDARITTDTEWHLLDTTKPVKPFVYQPRKKPVFVQQTNPEAEDVFNLKKFKFGAEARAAAGYGFWQLAFGSTGTGA				NA	NA	NA	NA	NA
BMS010_08851	408			hypothetical protein	ATGACCAAGCAGACCAAGGCGCCCGCCAAGGGCGCCACCCCGGCCAAGGCGAAGGCCTCGGCCAGTGCCAAACCGACCGCGAAAGCGACCGGCACGGCGAACCTGGTCAAGGGCATCTTCGTCCGCAGCCTGAGCCCCACCGGCACGTTCCGCCGGTGCGGGATCACCTTCACCCGCCAGGGTGTGGGCGTGGCGCTCGACGCCGTGACCGAGGCACAGCTGGCCGCCATCAAGGCCGAGCCGATGCTGATCTGGGAAGAGACCGAGTTTCCGGCCACGCCCGAAGACGACGCCCGGCTGGGCGCCGAAGCGGACGAGACCGGGAGCGAGGACACGCCCCCGCCGGCGGCGACCGGCAACGAACCACCGCCGGCCAACCCCGCCGACAATCCGGAAGGTAACGCCTGA	MTKQTKAPAKGATPAKAKASASAKPTAKATGTANLVKGIFVRSLSPTGTFRRCGITFTRQGVGVALDAVTEAQLAAIKAEPMLIWEETEFPATPEDDARLGAEADETGSEDTPPPAATGNEPPPANPADNPEGNA				NA	NA	NA	NA	NA
BMS010_08852	501			hypothetical protein	ATGTACGCCAGTGCCGCCCAACTGCTGAGCCGTTACAGCGCCGATGAAATCGCCCAGCGTGCGGACGCCAGCGTCCCGCCGCTGGTGTACGGCGAATTGCTCACGGCCGCCGCCAACGGCGACGACCTGTCCGGCTACACGCCGGAAGAGCAGGCCGCCGCGGCGCTCGCCTTGGGCAAGGTGACCCGCGCCCTGCAGGACGCCCAGCAGACCATGGACGGCTACCTGGGTGGCCGCTACCAGCTCCCTCTGACCAATGCGCCGGAGGTGCTGGAGCGGATCGCCTGCCAACTGGCCCGGTTCTTCCTCTATGACGACCAGGCCACCGAGATGATCGAGAAGGGCTACAAGGACGCGCTGGAGTTCTTGAAGGGCGTGTCCCGCGGTGACGTCTCCCTCGGTATCACCGAGGCCGGCGCATCCGCGCAGCACTCGGCCACCGCCGAGATGGTCAGTGATGGCCGCGTGTGGGGCCGTGACAGCAGCCGAGGGTTCCTCTGA	MYASAAQLLSRYSADEIAQRADASVPPLVYGELLTAAANGDDLSGYTPEEQAAAALALGKVTRALQDAQQTMDGYLGGRYQLPLTNAPEVLERIACQLARFFLYDDQATEMIEKGYKDALEFLKGVSRGDVSLGITEAGASAQHSATAEMVSDGRVWGRDSSRGFL				NA	NA	NA	NA	NA
BMS010_08853	507			hypothetical protein	ATGGCTACCGTTCGCCTCCACGACAACCTGCGGCTGGTGCAACGCCTGTTCAAGGCGCTGCGCCAGATGGGCGGCGATCCCAAGCCGCTGATGGAAACCATCGCCGCCTACGGCGAAGCCAGTACCCGCGCCCGGTTCCGCTCCGAGACCGGGCCGGACGGCCAGCGCTGGCAGCCGAGCCTGCGCGCCCAATTGTTCGGTGGCCGCACCCTGACCAAGGACGGCCACCTGGGGGATTCCATCACCAGCCAGGCGAAGGGCCGCGCCGCCGAGTGGGGCACGAATCGTATCTATGCCGCCATTCACCAGTTTGGCGGCACCATCAAGGGCAAGAACGGCCCGCTGCGTTTCGCCTTGCCGGGTATCGGATGGCGGTCCGTGCCGTCGGTCACCATTCCGGCCCGTCCGTTCCTCGGCCTCGATGCCGACGACCGCCAGGAAATCCTGGATATCACGGCCGACTACCTGGCGAACCTGGTCCGCCAGCGTGCGGCAGGGGGTGCGTAA	MATVRLHDNLRLVQRLFKALRQMGGDPKPLMETIAAYGEASTRARFRSETGPDGQRWQPSLRAQLFGGRTLTKDGHLGDSITSQAKGRAAEWGTNRIYAAIHQFGGTIKGKNGPLRFALPGIGWRSVPSVTIPARPFLGLDADDRQEILDITADYLANLVRQRAAGGA				NA	NA	NA	NA	NA
BMS010_08854	588			hypothetical protein	ATGCTGGGCGACCTGGAGAACCAACTGATCGCCCTGATCAAGGGAAGCACGCTGGGCAGCAGGCTACGGACGGTCGATAGCCTGCCCGACGTGCCGGATAAGGACGTCGTGAAGCGGTGGGGCACTGACGCCCCGGCGGCGTATGTCGTGGCCATGGATGGCAGCCTTTCCTATTCCGTGGCCACGCCGCGCTTCGTCGTGGTGATGGTCGCCCGCAACGCCCGCGGTCACCAGAAGGCCCGCCATGGCGACGGCAAGCTGATCGGTCTGTACGAGATGCTCGATGCCGGCATTGCCCTGCTCAACGGCGGCACCACCCCCGACGCGAGCTGGCAGACCACGGGTTACCAGTTCCTGCGCGACACCGCACTGGCTGACCAGGGGCTGTTCGTCGGCATGGTCGCCATCCAGGCCGAGCTGGATCCGCCGCAGCCCGAAGAGACCAACGTCGGCGAGTTTCTCCAGTTCCACGCCGACATCGACGTGGAGCCGTTCACCCCGGACGAGCATGAGCGGTGGGTCAATGAGGACCACGCCGAGCCGGCGCCGGACCTGCAATCGGACATCAACCCGAGAGAGTTCCCATGA	MLGDLENQLIALIKGSTLGSRLRTVDSLPDVPDKDVVKRWGTDAPAAYVVAMDGSLSYSVATPRFVVVMVARNARGHQKARHGDGKLIGLYEMLDAGIALLNGGTTPDASWQTTGYQFLRDTALADQGLFVGMVAIQAELDPPQPEETNVGEFLQFHADIDVEPFTPDEHERWVNEDHAEPAPDLQSDINPREFP				NA	NA	NA	NA	NA
BMS010_08855	180			hypothetical protein	ATGAGCAAACCCGTGTACCTGGTCCCAGCGCCTGGCCTGAAAGTGCGCCATCCGGCCGGCGGCTACCTGCCCGAAGAGGGCGCCGAAGTGGTGGTGGACACCTACTGGCGCCGCCGCATCGCCGAGCAATCCGTCAGCGTGGGCAAGGCGCCCAAGGCTGCCGGCAAACCGAAGGAGTAA	MSKPVYLVPAPGLKVRHPAGGYLPEEGAEVVVDTYWRRRIAEQSVSVGKAPKAAGKPKE				NA	NA	NA	NA	NA
BMS010_08856	1470			hypothetical protein	ATGGCCGAAAACGTCAGCTTCAACGATATCCCGGACAGCATCCGGGTACCGGGCATCTATATCGAGATCGACCCGAGCCGCGCCGTCAGCGGTAGCCCGGTGATGGAACGGCGCCTGCTGCTGGTCGGCCAGCGCCTGCCCACCGGTACCGTGCCGGCCTTGACCGCCACCCGACTGGGTAGCCAGGCCGGCGACCAGGCCGCCCAAGCGTTCGGCCAGGGCAGCATGCTGCATGCCATGGCGGACGCTGCGCGCAACGCCGAGGAGTACGTGGATATCTGGGCCATCGGCCTCGATGACGACGTGGCCGGCGCTGCGGCGAGCGGCACCGTCACCCTTAGCGGCACGCCGACGGCCACCGGCACCCTGAATCTGTACATCGGCGGCACGCGTGTGCGGATTGCCGTGATCGCCGCCGAGACCGTCAGCACGCTGGCCACCCGGCTGGCCGACGCCATCAACGCTGACGCCGACCTACCCGTGACCGCTTCGGTCGCCTTGGGCGTGGTGACGCTCACCTGCCGCTGGAAGGGCGAAACCGGCAATGACCTGGACGTGCGCCTGAACTACAACGCCGAGCAGACGCCGGCCGGTCTGGCGGTCGCCATCGTCGCCCTGTCGGGCGGTACCGCCAACCCGGACGTAGCTGGCGTGATCACAGCGATTGCCGGCCAGCCGTACTACTCCATCGTCTGTCCGTACACCGACACGGCCAACCTCACGTTGCTCGAAGCGGAAATGGTCGATCGCTTCGGCCCGATGGACCCCATGACCGGGCATGTATTCAACGCCTACGTGGGCAACCATGCCCAACTCACCACGTGGGGCAGCGATCGCAATTCGCCGCACGTTTCCACGCTGGGTCTGTTCGACGTCCCGACCACGCCCTGGGTGGCGGCGTCCGTCTGGGGTGCCGTGGCCGAGCAGGCCGGTGCCAACGACCCGGCACGGCCGTTCCGTAGCCTGGCGCTGCCGGGCGTGCTGCCGCCGCCGGAGAAGAGCCGCTTCATCCGCAGCGAGCGCAACCTGCTGCTGTACGACGGCATCAGCACCTTTACCGTCGACCAGGGCGGCAGCGTCCTGATCGAGACCATCATCACCAACTACCAGACCAACAGCTTCGGCCTGCCCGATATCGCCCTGTTGCGCCTGGAAACCAAGTGGACGGTGGACCTGGTGCGGTTCCGCTTCAACGCCGCAGTGGCCCGCGACTACCCGCGTCACAAGCTGGGCGACGTTGCCGTGCCCGGCCAGGCCTACGCCACCGAAACCACGGTGCGCGCCACCCTGATCGCAGAGGCTATCAAGCTGGCCACCGAAGACGGGCTGATCGAGGACATCGCGGGCTTCAAGGAAACCCTGATCGTCAAGCGCAGCAACCAGAACCCCAACCGCCTGAACGCCGTGCTGGCGCCGAACCTGGTCAACCAGTTCGACATCCTCGCCGCCGCCGTCCAGTACCGCCTGTAA	MAENVSFNDIPDSIRVPGIYIEIDPSRAVSGSPVMERRLLLVGQRLPTGTVPALTATRLGSQAGDQAAQAFGQGSMLHAMADAARNAEEYVDIWAIGLDDDVAGAAASGTVTLSGTPTATGTLNLYIGGTRVRIAVIAAETVSTLATRLADAINADADLPVTASVALGVVTLTCRWKGETGNDLDVRLNYNAEQTPAGLAVAIVALSGGTANPDVAGVITAIAGQPYYSIVCPYTDTANLTLLEAEMVDRFGPMDPMTGHVFNAYVGNHAQLTTWGSDRNSPHVSTLGLFDVPTTPWVAASVWGAVAEQAGANDPARPFRSLALPGVLPPPEKSRFIRSERNLLLYDGISTFTVDQGGSVLIETIITNYQTNSFGLPDIALLRLETKWTVDLVRFRFNAAVARDYPRHKLGDVAVPGQAYATETTVRATLIAEAIKLATEDGLIEDIAGFKETLIVKRSNQNPNRLNAVLAPNLVNQFDILAAAVQYRL				NA	NA	NA	NA	NA
BMS010_08857	345			hypothetical protein	ATGCAGCATCACGGCCGCGCCACCATCAGCTACAACGGCAAGCGCATCAAGTCCAAGGAGGGCGCCACCCTCAACCTGGGCGGCACCAACCGTACGCCCGACCCGCTGGACGACGGTACCGTGGGGTTCATGGAGTCCACGGTGGCTCCCGAACTGTCCTGCGTCGTACCGCTCAGCGGCGATTTGGCGGTGGCGGAGCTGCGCAACCTGACGGGCGCTAACGTCGTGTTCCAGTCTGACGTCGGGATGAGCTGGGTCATTCGCGACGCCTTTGTCACTACCGCCCCGGTTGTGGGGCGCGAAGTGACGCTCACCTTCAGCGGTCAGCCGGCCGAGCAGCTGTAA	MQHHGRATISYNGKRIKSKEGATLNLGGTNRTPDPLDDGTVGFMESTVAPELSCVVPLSGDLAVAELRNLTGANVVFQSDVGMSWVIRDAFVTTAPVVGREVTLTFSGQPAEQL				NA	NA	NA	NA	NA
BMS010_08858	345			hypothetical protein	ATGAGCCACATGACGAAAACAGGCACCTTTCCCCATGGCCTCAAGATCGGCGACCAGGTCTACACCGACTTCGTGATGCGCGAAGTGGAGGTAGCCGACTGGTTCGATGCGGAATCCGAGTGCGGTGGCCCGCGCTTCGCGCTGCAGTGGAAGGCACAGTTGGCGGTGCGCCAGTTGGTCAAGGTGACGAACAAGTCTGGCGGTGAGTTCACTGGGCCGTTTGTCGTCTCGATGCTGAAAAAGCCCGCCGATTTCAGCGCGCTGATCCGGGTGATGGAAGAGCTGGAAGAACTGGGAAACGGCGAGCAGAGCGCCTCCGAGAGCGGTGGAACGCCGTCCAGCTGA	MSHMTKTGTFPHGLKIGDQVYTDFVMREVEVADWFDAESECGGPRFALQWKAQLAVRQLVKVTNKSGGEFTGPFVVSMLKKPADFSALIRVMEELEELGNGEQSASESGGTPSS				NA	NA	NA	NA	NA
BMS010_08859	1788			hypothetical protein	ATGCGCATCGCCCTGGACGTCACCCGCATGATGACGGGGCTGTCCAAGGGCGAAGGTGGCTTCCGCCGGTTCGGCAAGGCCGCCAAGGGCGAGATGGCCGCGCTGGGCAGTGCGCTCAATTCGGTGGAAGGTCGCCTGGCGCAGCTCGGCATCGGCGTGTCGGCCGTGGCGACGGTCATGCAATCGGCGGGTCTCGACAAGGACCTCAAACAGCTTCAACTGACGGCCGGCGCTACGGCGGACGAAGCGTCGCGGCTGCGCAACGAGCTGCTCAGCGCTCAAGCCGCCACGGGTACCGCAGCGGACGACCTCAAGGCCGGCGTGGATGCGCTGGTGGCCGGTGGTCAGAACTTGGCGGAAGCCACGGCTACCGTCCCGGCCATGGCCGCCACCCTGGCCGTGGCCAAGACCAACGCGGATGCACTGGCCAAGGCCATGGGCGTTGCCAGTAAGCAGTTCGACATCGACCTGAGCAAGACCGATGAGGCCCTGCTGCTGCTCGACAAGATGGTGGTGGCAGGCCGAGCCGGCAACGCTGAGCTGGAGAACCTGCCGGACGTGTTTGCCCGGATCGGCAGCAACGCCAAGGCCTCCAATCTCAGCCTCGATCAAACCCTGGCCTTGGTTGAAACGCTTTCGCTGGTAGAGCCGAATGCAGAGCGTCTGGCAACGCTTGTGGACAGCACCCTGCGCGTCTTCACCAATGCGAAATATATGAAGTCCGCCAGCAAGGCGACCGGTGTGAAGTTCTTCGATGCCGACGGTTCCCGCCGCGATGCGCTGGCGGTACTGGCGGACATCAAAAAGAAGTACGACAAGATCGGCGATGACGACCGCAAGCGCTTCGCCTTCATCACCAAGGCGTTCGGCAATGCCGACCTCGACACCCAGCGCGGCCTGCGCACTCTGCTCGAAAGCGGCTCACTGGGTCGCCTGGACGCCATCTTCCAGGATGTGGCAGGCGCCTCCGGCACCATCGCCCGCGACCTGCCGGACGCCATCGACAACGCCATCGACCAGACCAGCCGCCTCAAGGGCGTGCTGCGCGAAGCGGCCGATGGGTTCGCCCAGCCGATCAACGATGCCATCAGCGGCGCGATCAAGTTCGGCCTCGACAGCAAGGCCAACGGTGGCCTTGGCCTGGACGGCAAAGAGATCATGGGCGGCGCCGCTCTCGGAGCGCTCGGCTTGTTCGCTGCCGGCCGCTACGGTGGCAAGGCTCTGTCCGGCCTGGCTGGCAAGCTCGGGGGTGTGGGGGTCGGTGTGGGCGTTGGCAAGGCTCTGGAAGAGGCCGCGGGCGTCACCCCGGTGTTCGTCGTCAACATGCCCGGCGAGGGTTTGGGCGGTGGCCTTGGCGCAGGTGCCGCCGGCAAGGCGGCCGGTGGGTTCAACCCCAAGATATTCAGCAAGCTGAAGACCACCATCGGGTTGCTGGGCGCCGCCGACCTGGCGGCCATCCCCTCCATGGGGGCCGGCGCGTTGGCGCTCTCCGGCGCGGCCGTGGCCGGCGCCGGTGCGGCCGGCTATGGCGTCGGGTCGCTGATCAGCTCCCAGTTCATCGAAGGCACCGCCGTCGGCGATGCGATTGGCGAAGCGATTGCCTACGCCCTGTCGCCGTTCAGTGAGGCGGCGCGAGAAGCCATCGAGGCCAACAAGAGAGCCGCCGAGATCCAGGGCGCGATCGACATCCGCATCAGTGCGGATGGCAAGCCGACTGTCACCCGCCTGCAGAGCAGCGGCGGGGCTGACCTGAACGTATACACCGGACAAACAGGAGCGGGCGGCTGA	MRIALDVTRMMTGLSKGEGGFRRFGKAAKGEMAALGSALNSVEGRLAQLGIGVSAVATVMQSAGLDKDLKQLQLTAGATADEASRLRNELLSAQAATGTAADDLKAGVDALVAGGQNLAEATATVPAMAATLAVAKTNADALAKAMGVASKQFDIDLSKTDEALLLLDKMVVAGRAGNAELENLPDVFARIGSNAKASNLSLDQTLALVETLSLVEPNAERLATLVDSTLRVFTNAKYMKSASKATGVKFFDADGSRRDALAVLADIKKKYDKIGDDDRKRFAFITKAFGNADLDTQRGLRTLLESGSLGRLDAIFQDVAGASGTIARDLPDAIDNAIDQTSRLKGVLREAADGFAQPINDAISGAIKFGLDSKANGGLGLDGKEIMGGAALGALGLFAAGRYGGKALSGLAGKLGGVGVGVGVGKALEEAAGVTPVFVVNMPGEGLGGGLGAGAAGKAAGGFNPKIFSKLKTTIGLLGAADLAAIPSMGAGALALSGAAVAGAGAAGYGVGSLISSQFIEGTAVGDAIGEAIAYALSPFSEAAREAIEANKRAAEIQGAIDIRISADGKPTVTRLQSSGGADLNVYTGQTGAGG				NA	NA	NA	NA	NA
BMS010_08860	1212			hypothetical protein	ATGGCCTGGCGCGACGATTACCGCCCCGGATCCTACCGGGGCGTCCGGTTCTACCTCCGTACCAGTACCTCCACCGGCGGGCGCCGGGTGGTGCTCAACGAATACCCGTTGCGCGACGAGCCGGACACCGAGGACCTGGGTCGCAAGGCTCGCCAGTTCCGCCTGGTAATGACGGTCCAAGGGTCGGACTACATGGCGCAGCGCGATCGTCTGATCGCGGCCCTGGAGACTGCTGGCCCCGGCACTCTGGTGCATCCGTTCCGGGGCGAAATGCAGGTGGTACCGCTCGATGAATACAGCTGCGAGGAGAGTACGCAGGAAGGTGGCCTGGCGCGCATCTCGGTCACGTTTGTCGAGGCGGGCGTGGCTCCCCGGCCGGACAGCGAGGCTGCCCAGGGCGTGCGTGGCAATCTGGCGGCCGATGCCGTCCAGGCCGATGCCGTGGCCGAGTTCGAAGAAGAGTTCGATGTGCTCGGTTATGCCTCTTTCGTGGCCGAGGAAACCATCGACATGCTGCAGGACGCCGCTCAGTCGATCCTCGATGCCGGTGGCATTACCGGTGGGGCTGGGGATTTGGGTCTTCTGTTTAGGCGGCTGACCGGCAGCGTTCAGGCGCTGGTCCTGGCGCCCGGCAACCTGGCCGGCAGCCTGCTGGGCATGGTGCGCAGCCTGACGTCCGGTGCTGGCAACCCCCTGCAGGCGCTCAAGGCGCAGCTGTCGCTGTTCGGGCTGAGCGGGCGGGTCAAGCCGGTGGCCAGCTCGGGCACCCTGGTACCGGCCCGGCAGCAGCTCCAGGCCAATCAGACCGCCATCTATACCCTGATCGAGCGTGCGGCCGTCACCGAGGCGGTGCGCTTGGCTGTCACCAAGCCGGCCGCCGGCGGGGTCGATTACGACAACCGCGACCAGGCCGTGGATATTCGCGACCAGATCCTGGATGAGATCGATCGCCAGCAACTGGCCGCCAGCGCAGCGCGCTATCCGATCCTCGCCGGGCTGGCCGCCGACCTGGTGGCCGAGATGAACCGCACGGCCGCCAGCCTGGTGCCGTTGGCGCGCGTCACGCCGCCGGTGACGCTGCCGGCGCTATTGCTCGCCCACCAGCTCTATGGCGACGCCACGCTGGCCGACGACGTGGTCAAGCGCAACCGTATCCCGCACCCCGGCTTCCTGCCGGGTGGTGTCGAGCTGGAGGTACTGAAAAATGCCTGA	MAWRDDYRPGSYRGVRFYLRTSTSTGGRRVVLNEYPLRDEPDTEDLGRKARQFRLVMTVQGSDYMAQRDRLIAALETAGPGTLVHPFRGEMQVVPLDEYSCEESTQEGGLARISVTFVEAGVAPRPDSEAAQGVRGNLAADAVQADAVAEFEEEFDVLGYASFVAEETIDMLQDAAQSILDAGGITGGAGDLGLLFRRLTGSVQALVLAPGNLAGSLLGMVRSLTSGAGNPLQALKAQLSLFGLSGRVKPVASSGTLVPARQQLQANQTAIYTLIERAAVTEAVRLAVTKPAAGGVDYDNRDQAVDIRDQILDEIDRQQLAASAARYPILAGLAADLVAEMNRTAASLVPLARVTPPVTLPALLLAHQLYGDATLADDVVKRNRIPHPGFLPGGVELEVLKNA				NA	NA	NA	NA	NA
BMS010_08861	1044			hypothetical protein	ATGCCTGAGGTACGCCTGACCGTGGACGGCCAGGACTGGGGCGGCTGGCAGAGCTACCGCGTCAACCTGGGCATGGGCCAACTGGCCGGCCAATTCGACTTGACCCTGACCGAGCGCTGGGTAGGCCAGGCCGTCCGCCGCCCGCTGCGCATGGGGTCGCCCTGCACCCTGCACTACGACGGCGAGTTGCTCATCACCGGTTACATCGACAACGTGATGCCCACCTACAACGCCGTGGACCATCGCATTCAGGTTTTCGGCCGCGATGCCACCGCCGACCTGGTGGACTGTTCGGCACCAACCACCCAGTGGATTGGCCGCAGTCTGGTTGCCGTGGCGCGGGAGATTTGCAAGCCCTTTGGCATAACCGTGATCGACCAGGTGGGCGACAGTACCCCGTTTCGGTCGCTCAAGCCCAACGATGGCGACACCGTGTTCCAGATCCTGGACGAAGCGGCGCGGATCCGCGGCGTGCTGCTGACCACCGATGGCCGTGGCAACCTGGTGGTTACCCGTGCTGGCCATGGCCGCGCTACCGACGCCCTGCGCCTCGGCGAAAACGCCCTGCAGGGTTCCGGCAATTTCGACCTGCGCGAAGTACACAGCAGCTACACCCTCAAGGCGCAGCAGTCCGGCGACGACTTCCTGTTCGGTGAAACCACCTCGTCCGTCATTGCCCGCGCGACCGACGACCGGGTCAAGCGCCATCGGCCGCTGACCCTGATCGCCGATGCGCCGTTGGACTCGGCTGCGGCGAAGGCGCGCATCAACTGGGAGCGCAACGTCCGCTGGGGCCGCTCGCAAACCATCACCTACACCGTTCGCGGCCATCGCCAGCGATCCGGCGCGCTGTGGCGCACCAACATGCTGGTACCGGTGTTCGACGACTACCAGTTTCTCTCCGGAGAGGACCGCCTGATCACCGAGCTGACCTATGTCCTCGACGAGCATGGCGAGCGCACTGAGGTTGCCGTGATGCCACGCGAGGCCTACGACATGGTCCCGACGCCGGAGCCGGAGGATGACGATGCATTCGCCTTTTAA	MPEVRLTVDGQDWGGWQSYRVNLGMGQLAGQFDLTLTERWVGQAVRRPLRMGSPCTLHYDGELLITGYIDNVMPTYNAVDHRIQVFGRDATADLVDCSAPTTQWIGRSLVAVAREICKPFGITVIDQVGDSTPFRSLKPNDGDTVFQILDEAARIRGVLLTTDGRGNLVVTRAGHGRATDALRLGENALQGSGNFDLREVHSSYTLKAQQSGDDFLFGETTSSVIARATDDRVKRHRPLTLIADAPLDSAAAKARINWERNVRWGRSQTITYTVRGHRQRSGALWRTNMLVPVFDDYQFLSGEDRLITELTYVLDEHGERTEVAVMPREAYDMVPTPEPEDDDAFAF				NA	NA	NA	NA	NA
BMS010_08862	537			hypothetical protein	ATGCATTCGCCTTTTAACCGGATGCTGGGCCCGCTCAAGCGCCGCATGGCTCATCTGGTTTCCCGCGCCATCGTCACACTGGTGCACGATGCGGCGCGCATGCAGGCGCTGCAGCTCGGCATCCTGGCCGACGAGGCGCTGGATAACGTCGAGCATTGGCAACCCTACGGCTACACCGCCAAGCCTCACACCGGCGCCGAGGCGCTCGTATTGGCCGTGGGCGGACACCGGGCGCACAGCGTGGTCATTTCCGTGGCCGATCGCCGCTACCGGATCACCAACCTGGAAGACGGCGAGGTCGCCATCTACACCGACGAGGGCGACCGCATTCACCTCAGGCGGGGCCGCGTGATCGACATCGTCACCGAGACCCTGAACATCACCGCCTCGGCCGGCGTGAACATCGACACGCCCATCATCAATGCCAGCGGCCAGGTCGTTTCCGTGGGTGACCAGATCGCGGGGGGCATCAGCCAAATCAGCCACGTGCACGGTGGTGTCCAGGCCGGGCCCAGTACCACGGGGGTGCCGCAATGA	MHSPFNRMLGPLKRRMAHLVSRAIVTLVHDAARMQALQLGILADEALDNVEHWQPYGYTAKPHTGAEALVLAVGGHRAHSVVISVADRRYRITNLEDGEVAIYTDEGDRIHLRRGRVIDIVTETLNITASAGVNIDTPIINASGQVVSVGDQIAGGISQISHVHGGVQAGPSTTGVPQ				NA	NA	NA	NA	NA
BMS010_08863	447			hypothetical protein	ATGACCGATATCGCCCTGGTTTACGATGGCGGTGGGTTCGACCTGGCGCTGGCTGGCGACGACCTCCAGACCGACGGCAGTCTGAACACGTCGATCATCATTTCCCTGTTTACCGACCGCCGCGCCCGCAGCGACGACACCCTGCCCGGCGCCGAGCAGGACCGCCGCGGCTGGTGGGCCGATGCCTATCCGGTGATAGAGGGTGACCAGATCGGTTCCCGCCTGTGGCTGCTCAGTCGCGAAAAGGAACTGGCGGAAACCTTGCGCCGTGCCCGCGACTACGCCCAGGAAGCGCTGGCATGGCTGGTCGATGACGGCATTGCGGCGCGGGTCGAGGTGGTCGCCAGCGTGCCGCGCCGGGGCGTGCTCGGTCTGGCCGTGGACGTCCATCGCCGTGACGGCCAGATCGAAAACTACCAGTACGACGTTTTGTGGGAGTCCCTCTGA	MTDIALVYDGGGFDLALAGDDLQTDGSLNTSIIISLFTDRRARSDDTLPGAEQDRRGWWADAYPVIEGDQIGSRLWLLSREKELAETLRRARDYAQEALAWLVDDGIAARVEVVASVPRRGVLGLAVDVHRRDGQIENYQYDVLWESL				NA	NA	NA	NA	NA
BMS010_08864	1059			hypothetical protein	ATGGCCTTCACCCTGCCAACCCTCCAGAAAACCCGGCAGCAGGTCGCTACCGATATCGAAACCTACCTGCCCGGCCCCGATACCCGCACCCGTCGTACGGTGGCCGGTGTGCTGGCTCCGGCGATCGCCGGGGCCATTCGCGGCCTGCATGCAAACATCGAGTACCGCGAGCGCAACTTTCTCCCGGATGAACGCGCCTCGGCCGAGGGTGTCGAGCGTTGGGCCGCCCTGTTGGGTAAGTGGTACCTCGATGCCACCGGCGCCAGCGGCGAAGCCACCCTCACCGGTGCCAACGGCGCCACGCTGCCGGCCGGCACGCTGATGCAATACACCGACGGCACCGAGTACGCCACCACGGCCGAAGCCACCTTGGTCGGTGCCAGTGGCGCCGTGGCGATCGAGGCGGTGGAAGCCGGTGCCGCCGGCAACCTGCCAGCCGGAGCCAAGCTGACCCTGCTCAGCCCGGTGGCCGGCATCAACGCCACCCTGACCGTGGGGGCGGCAGGCCTGACCGGCGGGGCCGACGTTGAGCAGCTCGACGCGCTGCTGGAGCGGGTACAGAACCGCCTGCGCAATCCACCCATGGGCGGCAGCGGGCCCGACTACGTCACCTGGGCCCTGGAGGCCCACCCGGCTGTCACGCGGGCATGGGTCTATCCGAAGGAGCAAGGCCCCGGCACTGTCGTGATTCGCCTGGTCACGGACAACGAGGTCAGCATCATTCCCACCACCCCGGTGCTGGATGCGGTGGCCGCCTACATCGAACAGGTACGCAACGTTACCGCTGACGTCTACGTGGTCGCCCCGGTCGCCGTGCCGCTCGACTTCGAGATACACCTGGATCCGGATTCCACGGCGCTGCGCGAGCGCGTCACTAGTTCGTTGCAGGACCTCATCCGCCGCGAGGCCGAGCCCGGCGGCACCATCCTGCGCACCCACATCGCCGAGGCCATCAGCGTGACCGTGGGCGAGAACGATCACAGCCTGATCATCCCGGCGGGCAACGTCACCCACGCCACCGGCGAGATCGCGGTGATGGGAGTCATCACATGGGTATGA	MAFTLPTLQKTRQQVATDIETYLPGPDTRTRRTVAGVLAPAIAGAIRGLHANIEYRERNFLPDERASAEGVERWAALLGKWYLDATGASGEATLTGANGATLPAGTLMQYTDGTEYATTAEATLVGASGAVAIEAVEAGAAGNLPAGAKLTLLSPVAGINATLTVGAAGLTGGADVEQLDALLERVQNRLRNPPMGGSGPDYVTWALEAHPAVTRAWVYPKEQGPGTVVIRLVTDNEVSIIPTTPVLDAVAAYIEQVRNVTADVYVVAPVAVPLDFEIHLDPDSTALRERVTSSLQDLIRREAEPGGTILRTHIAEAISVTVGENDHSLIIPAGNVTHATGEIAVMGVITWV				NA	NA	NA	NA	NA
BMS010_08865	681			hypothetical protein	ATGGGTATGACCGGCGAGGACTACGCTCGCCAGCTGGCCCAGCTTCTACCGCCTGGCCAGGCGTGGCAGGTAGAGCCGGGCAAGAACCTCCACGGGCTGCTGCGTGGCATCGGCGAAGCGCTCGCCCGCGTCCACACCCGCGCCGACGACCTGTCCCGCGAAGTGGATCCGGCGCAGACCCTGGAACTACTGGATCGGTTCGAGTCGGTCCTGGGCCTGCCGGATAAATGCTCTGGCGAACTGGAAACCACCGTCCAAGGCCGGCGCAACGCCGTGCTGGCCAAGCTGTTCAGCACGGGCGGCCAGTCCATTCCGTTCTTCATCGGTGTCGGCCAGGCGCTGGGCTTCGAGGTCTCCATCACCGAGTTCAGGGCATTCCGTGCCGGTCGCTCAACAGCGGGTGAGGCGCTGAGCAATGGTGCCGATTGGGCCTATACCTGGCGCATCAACGCGCCTGAGGTGACGGTGATCCCATTTCGGGCCGGACAGAGCGCAGCTGGTGAACCCCTTCAGGCGTGGGGTAACGACAGCCTTGAATGCAAAATGAATCAACTCAAGCCCGCCCATACCACTCTCCTGACGGGCTACGGCGCCAACGAAGCCACCGACTTCTACTTGGCGACCGACCAATTGTTCTTTGCAGCGAACTACCAGCTGCCGTCTGACCTGGAGTCGACATGA	MGMTGEDYARQLAQLLPPGQAWQVEPGKNLHGLLRGIGEALARVHTRADDLSREVDPAQTLELLDRFESVLGLPDKCSGELETTVQGRRNAVLAKLFSTGGQSIPFFIGVGQALGFEVSITEFRAFRAGRSTAGEALSNGADWAYTWRINAPEVTVIPFRAGQSAAGEPLQAWGNDSLECKMNQLKPAHTTLLTGYGANEATDFYLATDQLFFAANYQLPSDLEST				NA	NA	NA	NA	NA
BMS010_08866	1704			hypothetical protein	ATGAGTCTGCCGGCTGATATCAATGATCGCATCGTCACGGCCACTGTCCGGGCGGAAGGTGCGTCCACCATCCTGCACCAACTCACCAACCTGGGCGAAGGCGAGTTTATCGAGACCGAGGCGGGGTCATTGCCCAGCATTGCCGAATGGCAGCGTATTCATGCTGCTGCCCTTGGTAATGTGCCCGCCTTGGAAACCCGTATCGATGATGTCGAAGGGTTCTCTCAGGAGGTTCAGAACAATCTTGATCCGGCCAAGGGCGCCAAGAAAGTCGGATGGAAGCGTTCGGTTTTGTCCGAAGCAATTAGCTCTGCCGGCGATCAACTGAACTTCCAGGAATTCAGTCTATGGGAGTTTGCCGGCGATATCGTATCGAAGCCCGACCCGGCGGACTTCACCACCTGGGACTGGGGGCCGGCCATCCAGAGCGCATGCAACGCGCCAACGTCCGGTATTCAGCACATCATCAAGGTGCATCGCGGTGTCCGGATCGGCTCTACCGTTACGATTAATAAGGGAGTCCGTTTTGTTGGTGGCGATACGTTCGACTACGACTACGCGCATTTTCACAACTACACCGACACCTCCATCGTCATGTTCCGCGTTCGGGCGCACTACGTTGTGTTCGACGGCATCATCATCGAAGGGCCAGGGAAGGCTGGTACCAGCATGGCCATCGAGGTCGGTAACGGTGCGACGAACTGGGACAAGTTCGCCTTCATCAACGACTCATTCGTTTTCTCTTTCAATGTAGGCATGGACGTTAAGACCCAGAACTGGCGTATTGCAGGCGGTTCTGGGGCTTCTACATGCGCGGTGGGCTTCAAGCTGACCGGGTTGCCCAGCTCGGCCGACCGCCGCAACGGCTATTTCGAGGGAGCGAACCTCCATTCCTGCGATATCGGCATACAGCTGGTCAACCAGTGGCAAGTGTTGGGCATCGTCGGATGCGACTTCAATTCGTGCGGGCAGGGAATCACCGGGGCGTTGGTGCGTAGCGTCGTCGGCTCCAACATCTTTTTTAATGGGAGCGGCACAGATATTGAGCTGACGTCGGCTCAGCACGTCACCATCGTTGGCAACGAGATCAACGGCAACACCGCTGCTGCGAATACTGGGCACGGTATTTCCGTCAATGGAAGTTATGTGTCGATTGCTAACAACGTGGTTGCGAATAAGGGCGGCCATGGCATTTTCGCGATGGTCAGTACTTCGGCGATTTCAGGGAACGTCGTCTCCGACTCCGATTATTTCGACACCAGCACCTATTCCGGCATCAAGGTGGTCGGTTCGGGCAATTCCATCGTTGGCGGGGTCTCTCGCACGACAACCGGAGGCGCATCCCGTCAGGTCTATGGCATCGACCTGTCCGAGGCATCGAGTACCACGGTCGTCGGCGTATATGTGCAAGGCAACAAGACTGCCGGCATTTTGCCTGGGGACGGCAATGATGTTTCCGCGTGCCCTGGATTCGTTACACGTAGCAAGGGCACGGTGTCGATCACCAGTGCGCAGACTTCGGTGGTGGTCAATCACCTACTGGCCTACACGCCCACCGCAGCTGACATTTCGGTAACCCCTGCCAGCGCATGGGGATCGTCGGCGAAGTTTTGGGTTAGTAACGTGACTGCCACGACGTTTCAGATCAACGTCGATGTGGCTCCCGGCACCGTCACAATGTTTTTCGGCTGGAAAGCCGGTTAA	MSLPADINDRIVTATVRAEGASTILHQLTNLGEGEFIETEAGSLPSIAEWQRIHAAALGNVPALETRIDDVEGFSQEVQNNLDPAKGAKKVGWKRSVLSEAISSAGDQLNFQEFSLWEFAGDIVSKPDPADFTTWDWGPAIQSACNAPTSGIQHIIKVHRGVRIGSTVTINKGVRFVGGDTFDYDYAHFHNYTDTSIVMFRVRAHYVVFDGIIIEGPGKAGTSMAIEVGNGATNWDKFAFINDSFVFSFNVGMDVKTQNWRIAGGSGASTCAVGFKLTGLPSSADRRNGYFEGANLHSCDIGIQLVNQWQVLGIVGCDFNSCGQGITGALVRSVVGSNIFFNGSGTDIELTSAQHVTIVGNEINGNTAAANTGHGISVNGSYVSIANNVVANKGGHGIFAMVSTSAISGNVVSDSDYFDTSTYSGIKVVGSGNSIVGGVSRTTTGGASRQVYGIDLSEASSTTVVGVYVQGNKTAGILPGDGNDVSACPGFVTRSKGTVSITSAQTSVVVNHLLAYTPTAADISVTPASAWGSSAKFWVSNVTATTFQINVDVAPGTVTMFFGWKAG				NA	NA	NA	NA	NA
BMS010_08867	540			hypothetical protein	ATGCATAGAGTCGATCATCCAACGGCGACCGTAGACAGCCTTTTCACAGAGGGGAGTGTCACGGGAGGGGTTCCGGCAACCATCGTTCCTGCTGACTGGCTGAATGATATTCAAGAGAACCTGATGGAGGTCCTGGCACAGGCTGGCATCGCTGCTACTAAGGGTCGGGAGCAGGACCTAGTGGACGCTCTGCTTTCACTGGTTTCGGGCAATCAATTGGGTGGTTCTAGCGCTTCCGACTATCTAGTTATTCGAGGGAAGGACAGAGTCACCGGCGCCAAGCGGGACTATGTCGTTCAGTGGGGGCAGGTAGTAACCGCAAGCAACCAACAGGTGGCTGTCACTTTCCCAGTGGCCCACACCGGGGGTGGGCTGTTGGCCGTTGTCGGTTCGCACTACGGCTCAGGCGGCGCCATGTTTGTTGTAAGCGCTCCAACTTTGACTGGGTTTACAGCCATCATTTCGACCGTGTTGGGTGGTACTGGGACCGGCTCCTTTAGTGGTCGGTGGATTTCGTTGGGCTACTTGCCGGTGGCGTGA	MHRVDHPTATVDSLFTEGSVTGGVPATIVPADWLNDIQENLMEVLAQAGIAATKGREQDLVDALLSLVSGNQLGGSSASDYLVIRGKDRVTGAKRDYVVQWGQVVTASNQQVAVTFPVAHTGGGLLAVVGSHYGSGGAMFVVSAPTLTGFTAIISTVLGGTGTGSFSGRWISLGYLPVA				NA	NA	NA	NA	NA
BMS010_08868	1797	dmdC_3	COG1960	3-methylmercaptopropionyl-CoA dehydrogenase	ATGCCCGAGTACAAGGCCCCGCTGCGCGACATGCGCTTCCTGCTCGATGAAGTCTTCGATTTCCCCGCGCGCTACGCGGCGCTGGGTGCCAGCGATGCGACGCCGGACATGGTCGGCGCGATTCTCGAAGAAGGGGCGAAGTTCTGCGAGCAGGTACTGGCGCCGCTGAACCGGTCCGGAGACGAAGAGGAATGCCGGTTCGACAACGGTGTGGTGACCACCCCGAAGGGCTTCAAGGAAGCCTTCGCCCAGTACGCCGAGGGCGGCTGGATGGGCTTGTCGGCCGATGCGGCCTACGGCGGCCAGGGGCTGCCGCATTCACTCGGTCTGATCCTCAGCGAGATGGTTGCCTCCAGCAATCAATCCTGGGCGATGTATCCCGGCCTGACCCACGGCGCCATGTCGGCGATCCATGCCCACGGCAGTGAAGAGCAGAAGCAGACCTACCTGACCCGCATGACCGAGGGTCGCTGGACCGGCACCATGTGCCTGACCGAGCCGCACTGCGGCACCGACCTCGGCATCATCAAGACCCGCGCCGTGCCCCGTGCCGATGGTAGCTACGCAATTTCCGGCACCAAGATATTCATCTCCGCCGGCGAGCACGACATGAGCGAGAACATCGTTCACCTGGTGTTGGCCAAGCTGCCTGACGCGCCGGCCGGGACCAAGGGCATCTCGCTGTTCATCGTGCCGAAGTTCCTACCGAATGCCGACGGCGGCGTGGGCGAGCGCAACGCACTGTCCTGCGGCTCCATCGAGCACAAGATGGGCATCAAGGCCTCGGCCACCTGTGTGATGAACTTCGACGAGGCCACCGGCTTCCTGATCGGTGAGCCGAACAAGGGCCTCAACTGCATGTTCACCATGATGAACCATGCCCGCCTGGGCACCGGCATGCAGGGGCTCTGCCTCGGCGAAGCGAGCTACCAGGGCGCGGTTCGCTATGCCAACGACCGTTTGCAGATGCGCGCCTTGACCGGGCCGAAGGCACCGGACAAACCGGCCGACCCGATCATCGTCCACCCCGACGTGCGGCGCATGCTGCTGACCATGAAAGCCTTCAACGAAGGCAACCGCGCCCTGGCTTACTTCACCGCGCAACTGCTCGACGTCGCCCACCTCAGCGAGGACGCCGCGGAGCGCGAGGAAGCGGAGAACCTGCTGGCCTTCCTGACGCCGATCTGCAAGGCCTTCATGACCGATACCGGACTGGAAGCCACCAACCTCGGCATGCAGGTCTTCGGCGGCCACGGCTACATCCGCGAGTGGGGTATGGAGCAACTGGTACGCGACTGCCGCATCGCCCCGATCTACGAAGGCACCAACGGCATCCAGGCCCTCGACCTGCTCGGCCGCAAGGTGCTGGGCAGCCAGGGCAAGCTGCTGCGCGGCTTCACCAAACTGATCCATAAGTTCTGCGAAGCCCAGGCCGAGCATCCGCAGCTCAAGGCCCAGGTTGCCGAGCTGGCGGCGTTGAACAAGGAGTGGGGCGAGCTGACCCTGAAGATCGGCCAGGCAGCGATGAAGAACCCGGACGAAGTCGGTGCGGCATCGGTGGACTACCTGATGTATGCCGGCTACGTGACCCTGGCCTACTTCTGGCTGCGCATGGCCGTGGTCGCCCGGCAGAAGCTGGACGCGGGCGAGGGCGAAGCGGCGTTCTACCAGGCCAAGCTGGCCACCTGCGACTTCTACTTCAAGCGATTGCTGCCCCGCACGGCGGCGCATCGAGCGGCAGTGGAGGCAGGGAGTGAGTGCCTGATGAGGCTGGAGGCAGGGCATTTCATGCTCTGA	MPEYKAPLRDMRFLLDEVFDFPARYAALGASDATPDMVGAILEEGAKFCEQVLAPLNRSGDEEECRFDNGVVTTPKGFKEAFAQYAEGGWMGLSADAAYGGQGLPHSLGLILSEMVASSNQSWAMYPGLTHGAMSAIHAHGSEEQKQTYLTRMTEGRWTGTMCLTEPHCGTDLGIIKTRAVPRADGSYAISGTKIFISAGEHDMSENIVHLVLAKLPDAPAGTKGISLFIVPKFLPNADGGVGERNALSCGSIEHKMGIKASATCVMNFDEATGFLIGEPNKGLNCMFTMMNHARLGTGMQGLCLGEASYQGAVRYANDRLQMRALTGPKAPDKPADPIIVHPDVRRMLLTMKAFNEGNRALAYFTAQLLDVAHLSEDAAEREEAENLLAFLTPICKAFMTDTGLEATNLGMQVFGGHGYIREWGMEQLVRDCRIAPIYEGTNGIQALDLLGRKVLGSQGKLLRGFTKLIHKFCEAQAEHPQLKAQVAELAALNKEWGELTLKIGQAAMKNPDEVGAASVDYLMYAGYVTLAYFWLRMAVVARQKLDAGEGEAAFYQAKLATCDFYFKRLLPRTAAHRAAVEAGSECLMRLEAGHFML	PGPT0008385_210	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008385-acd-K00249	NA	NA
BMS010_08869	1290			hypothetical protein	TTGCCTCGCTTCGCTGCGGTGCGCCTGACCCATTTCCTGCCGACGGTGCTGCTGCTCGCTGCCGGGTGGCTGATTGCCCGGCTTCCGGCGCTCAGCGAGTTCTTCACGTCCCTGTTCAATGTGCTGCCGACTCTGTTGTTATTGCTCGGCGGTGCGCTTTGCCTGGTGTATGGCCGCCAGCGCGAGTTGTTCCTGCTGGTGGTGATCTACCTGGGCTATTACCTGCTCGACACCCAGGTCGACCATTACCGTGCCACCGGCAAAATCCGCGACGATGCGGCGCTGGTGTTTCATCTGGCCAGTCTGCTGTTGCCACTCCTGTACGGGCTCTATGCCGCCTGGCAGGAGCGTACCCACCTGGTGCAGGACCTGATTGCCCGCAGCGCCGTGCTGCTGGCCGTGGGGGCGGTGACGGTAGGGCTGGCCCAGCGTTACCCCGGTGTGCTGCTCGCCTGGGTGGCCGAGGTGCGTTGGCCGAGCCTGCATGGCGACTGGATGAGTCTGGTGCAACTGGCCTATCCGCTGTTCGCACTGGCCTTTCTCCTGCTGCTGGTGCAGTACCTGCGGCAACCGCGACCCCTGCATGCGGCGCAACTGCTCGGCCTGCTCGGTCTGCTGTGGATGCTGCCCCATGTCTTTCTCCTGCCGCACGGGCTGAACGTGATGAGCAGCCAGGTCATGCTGGTGCTGGTCGCAGCGGTAGCCCATGAGGCCTATCACATGGCGTTCCGCGACGAGCTCACCGGACTGCCCGGCCGTCGTGCCCTGAACGAGCGGCTGCAGCGGCTCGGGCGCAACTATGTGATCGCCATGGCCGACGTCGATCACTTCAAGCGCTTCAACGACACCCACGGCCACGATGTCGGCGATCAGGTCCTGCGCCTGGTCGCCAGTCAGTTGCGCAAGGTGCGCGGAGGCGGGCGTGCGTATCGCTATGGCGGCGAGGAATTCACCCTGGTCTTCTCCGGTAAGACGCTGGAAGAGTGCCTGCCACACCTGGAGGCCGTGCGCCAGGCGGTGGAGAACTACCAACTGCAATTGCGCGACAAAGGCAGCCGACCGAAGAACGATCGCCAGGGCCGCCAGCGTCGCGGTGCGGCCACGGCTACCAGCGTGTCGGTGACGATGAGCTTCGGCGTCGCCGAGCGCCAGCAGGAGCAGCGCACCCCGGAAGAGGTGATCAAGGCTGCCGACCAGGCGCTCTACAGCGCCAAAAGCGCGGGCCGCAACTGCGTGCGGGCCCATGGCCAGAACCGGCGCGGCGCCGTGCGGGTGGCTGGGGCGGAATAG	MPRFAAVRLTHFLPTVLLLAAGWLIARLPALSEFFTSLFNVLPTLLLLLGGALCLVYGRQRELFLLVVIYLGYYLLDTQVDHYRATGKIRDDAALVFHLASLLLPLLYGLYAAWQERTHLVQDLIARSAVLLAVGAVTVGLAQRYPGVLLAWVAEVRWPSLHGDWMSLVQLAYPLFALAFLLLLVQYLRQPRPLHAAQLLGLLGLLWMLPHVFLLPHGLNVMSSQVMLVLVAAVAHEAYHMAFRDELTGLPGRRALNERLQRLGRNYVIAMADVDHFKRFNDTHGHDVGDQVLRLVASQLRKVRGGGRAYRYGGEEFTLVFSGKTLEECLPHLEAVRQAVENYQLQLRDKGSRPKNDRQGRQRRGAATATSVSVTMSFGVAERQQEQRTPEEVIKAADQALYSAKSAGRNCVRAHGQNRRGAVRVAGAE				NA	NA	NA	NA	NA
BMS010_08870	1806	dmdC_4	COG1960	3-methylmercaptopropionyl-CoA dehydrogenase	ATGCCTGAGTACAAGGCCCCCTTGCGTGATATTCGTTTCGTACGCGACGAGCTGCTCGGCTACGAAGCGCACTATCAGAGCCTGCCGGCTTGCCAAGATGCGACCCCGGACATGGTCAACGCCATTCTCGAGGAAGGCGCCAAGTTCTGTGAGCAGGTGATCGCTCCGCTGAACCGTGTGGGTGACACCGAGGGCTGCACCTGGAGCGAATCCGGCGTGAAGACCCCGACCGGCTTCAAAGAGGCATACAAGCAGTTCGTCGAAGGCGGCTGGCCGAGCCTGGCCCATGACGTCGACCACGGTGGCCAGGGCCTGCCGGAATCCCTCGGCCTGGCCATCAGCGAGATGGTCGGTTCCGCCAACTGGTCCTGGGGCATGTACCCCGGCTTGTCCCACGGCGCGATGAACACCCTGTCCGCCCACGGCACCGACGAGCAGAAGCACACTTACCTGACCAAGCTGGTATCCGGCGAGTGGACCGGCACCATGTGCCTGACCGAGCCGCACTGCGGTACCGACCTGGGCATGCTGCGCACCAAGGCCGAGCCCCAGGCCGACGGCACCTACAAAGTCACCGGCACCAAGATCTTCATCTCCGCCGGTGAGCACGACATGGCCGACAACATCGTCCATATCGTCCTGGCCCGCCTGCCCGACGCACCGGCCGGCACCAAGGGTATTTCCCTGTTCATCGTGCCGAAGTTCCTGCCGAACGCCGACGGCGGCGTAGGCGAGCGCAACGCCGTGTCCTGCGGCTCCATCGAGCACAAGATGGGCATCCACGGCAACGCCACCTGCGTGATGAACTTCGACGGCGCCACCGGCTTCCTGATCGGCCCGGCGAACAAGGGCCTGAACTGCATGTTCACCTTCATGAACACCGCTCGCCTGGGCACCGCGCTGCAAGGCCTGGCCCACGCCGAAGTGGCGTTCCAGGGCGGCATCAAGTACGCCCGCGAGCGTCTGCAGATGCGTTCTCTGACCGGCCCGAAGGCGCCCGAGAAGCCCGCCGACCCGATCATCGTGCATCCGGACGTGCGCCGCATGCTGCTGACCATGAAGGCCTTCGCCGAAGGCAACCGCGCCATGGTCTACTTCACCGCCAAGCAGGTGGATATCGTCAAGTACAGCCAGGACGAGGAGCAGCGCAAGGCCGCCGACTCCCTGCTGGCCTTCCTGACGCCGATCGCCAAGGCCTTCATGACCGAAGTGGGCTTCGAATCCGCTTCCCACGGCATGCAGATCTACGGTGGCCACGGTTTCATCAGTGAGTGGGGCATGGAGCAGAACCTGCGCGACTGCCGCATCTCCATGATGTACGAAGGCACCACCGGCGTTCAGGCCCTCGACCTGCTGGGCCGCAAGGTCCTGATGACCCAGGGCGAAGCGCTGAAGGGCTTCACCAAGATCGTTCACAAGTTCTGCCAGGCCAACGAAGGCAACGCGTCCGTCAAGGAGTTCGTCGAGCCGCTGGCCAAGCTGAACAAGGAGTGGGGCGAGCTGACCATGAAGATTGGCATGGCCGCCATGAAGGACCGCGAGGAAGTCGGTGCCGCCTCGGTGGACTACCTGATGTACTCCGGCTACGCCTGTCTGGCCTACTTCTGGGCTGACATGGCACGCCTGGCAGCCGAGAAGCTGGCCGCCGGCGAAGGCGATGCCGCCTTCTACACCGCCAAGCTGCAGACCGCGCGCTTCTACTTCAAGCGCATCCTGCCGCGTACCCGCACCCACGTCGAAGCTATGCTGTCCGGCGCCGACAACCTGATGGAGATGGACGAAGAGCATTTCGCTCTGGGCTTCTAA	MPEYKAPLRDIRFVRDELLGYEAHYQSLPACQDATPDMVNAILEEGAKFCEQVIAPLNRVGDTEGCTWSESGVKTPTGFKEAYKQFVEGGWPSLAHDVDHGGQGLPESLGLAISEMVGSANWSWGMYPGLSHGAMNTLSAHGTDEQKHTYLTKLVSGEWTGTMCLTEPHCGTDLGMLRTKAEPQADGTYKVTGTKIFISAGEHDMADNIVHIVLARLPDAPAGTKGISLFIVPKFLPNADGGVGERNAVSCGSIEHKMGIHGNATCVMNFDGATGFLIGPANKGLNCMFTFMNTARLGTALQGLAHAEVAFQGGIKYARERLQMRSLTGPKAPEKPADPIIVHPDVRRMLLTMKAFAEGNRAMVYFTAKQVDIVKYSQDEEQRKAADSLLAFLTPIAKAFMTEVGFESASHGMQIYGGHGFISEWGMEQNLRDCRISMMYEGTTGVQALDLLGRKVLMTQGEALKGFTKIVHKFCQANEGNASVKEFVEPLAKLNKEWGELTMKIGMAAMKDREEVGAASVDYLMYSGYACLAYFWADMARLAAEKLAAGEGDAAFYTAKLQTARFYFKRILPRTRTHVEAMLSGADNLMEMDEEHFALGF	PGPT0008385_210	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008385-acd-K00249	NA	NA
BMS010_08871	621			hypothetical protein	GTGAACATCCCGCCGGCCTCCACGTCCTTTCCTCCCTCGGCCTCACGCGCCGGTTTCCGTCCTGAAACGCCCTCGCCGGCGACTGCCGATGACCCCTCCCGCACTGAGCGCTCGCCAGCCGGCTCCTCGGAAGAGCGCCTACGTCTCGCTGCCCTGGATGAATTGATCCAGCGCGACCGCGAAGTTCGCGCCCACGAGCAGGCGCATGCGGCTGCCGGTGGCGGATATGCCGGGGCGCCGAGCTACACCTACTCGCGCGGCCCGGATGGGCGACTCTATGCCGTCGGCGGTGAAGTAGGCATCGATACCGCTCCGGTGCCCGGCGATCCGGCGGCGACACTGCGCAAGATGGAGGTCGTCCAGCGGGCCGCGCTGGCCCCGACCGAACCTTCCGCCCAGGATTTGCAGATTGCCGTCGAAGCGCAGGTCCAGGCGATACAAGCCCGTCTCGAACTGGCGGTGCAACAGCGCGAGGAAAGCACGAGCGCAAGCGCCGAAGAGACAGCGGAGAAGGAAGCCGAACCAAGCCAGCAGGCAGCCGGGAGCGGGCCTAAGCTGGATCTATACCGGCGTCTCCAGGACGACGGGTCCGTCGCATCGGTGGTCGATCTGTACGCGTAG	MNIPPASTSFPPSASRAGFRPETPSPATADDPSRTERSPAGSSEERLRLAALDELIQRDREVRAHEQAHAAAGGGYAGAPSYTYSRGPDGRLYAVGGEVGIDTAPVPGDPAATLRKMEVVQRAALAPTEPSAQDLQIAVEAQVQAIQARLELAVQQREESTSASAEETAEKEAEPSQQAAGSGPKLDLYRRLQDDGSVASVVDLYA				NA	NA	NA	NA	NA
BMS010_08872	279			hypothetical protein	ATGCAGATATCGAGCAATGTCCTCAGCGCAGGGGTGAATGCCTTCCAGGCCGGCCAGCAACGTGCCGACCGGGCCGCAGCGGAGATCGCTGCCGGAACCCTGCCTCCCGTCCAGCAGCCCGCACCCACGCCGCCGGCCCAGGCGACCGACAGAACGTCGGCCGACCTCGCCACCAGCCTGGTCGAACTGCGGGTCGGCGAAACCCAGGCGCAGGCGGGCGCCAAGGTGATCGAGACGGCCGACGAAGTGCTCGGTACGTTGATCGATACCCACGCCTGA	MQISSNVLSAGVNAFQAGQQRADRAAAEIAAGTLPPVQQPAPTPPAQATDRTSADLATSLVELRVGETQAQAGAKVIETADEVLGTLIDTHA				NA	NA	NA	NA	NA
BMS010_08873	804			hypothetical protein	GTGAACCACGATCATCCCACTCTCGTCTCGACCCGCCATCCCGTCGGGGGCTCCGACCAACCCAATGTCCAGGGCCTGGAACGCATCGCCTCGCTCGTCACTGGCGGCGTGCTGCTGGGCCATGGCTTGCGCAGCAGCGGATTGGGCGGCTGGCTGCAAGTCCTGCTGGGCGGGCTGGCCCTCGCCCGGGGCACGACGGGGCGTTGCCCGGCCAAGCGAGCACTGACCCCGACGCCGCTGGAAAGCGAACTGGCGGAAGAAAACCGCTGGAGCAGCGCGAAAACCCTGTCGCGCAGCATCACCATCGACAAGCCACGCACCGAGCTGTATCGCTTCTGGCGCGACTTCAGCAACCTGTCGCGCTTCATGACCTTCATCGAGCGCGTCGAAGTGCTGGCCAGCGATCACGCCCACTGGGTCGCCCGCCTGCCCATGGGCAAGACCCTGGAATGGACCACCCGCCTCACCGAGGATCGCCCCGACGAGCTGCTCGCCTGGATGTCCGAACCGGACGCGCCGATCCGCAACCTCGGCTGGGTCAGCTTCCGCGACGCCCCCCAGGGCAAGGGAACGGAAATCAAGGCGGTAATCGCCTACGAACCGCCCGCCGGCAAGTTGGGCTATGCCCTGGCACAAACGCTGGATCTGCTGCCGACCATGAAGGCCGCCCAGGACCTGCGCCGGCTCAAGCAGCTGATGGAAACCGGCGAGATCGCCACCAACAGCACCCGCCCCGCCACCGTGCGTCGACCGGTCGAACCCTCCCCGCCAGTCTTCCATCACGGCTCCACGGGGGTGCACTGA	MNHDHPTLVSTRHPVGGSDQPNVQGLERIASLVTGGVLLGHGLRSSGLGGWLQVLLGGLALARGTTGRCPAKRALTPTPLESELAEENRWSSAKTLSRSITIDKPRTELYRFWRDFSNLSRFMTFIERVEVLASDHAHWVARLPMGKTLEWTTRLTEDRPDELLAWMSEPDAPIRNLGWVSFRDAPQGKGTEIKAVIAYEPPAGKLGYALAQTLDLLPTMKAAQDLRRLKQLMETGEIATNSTRPATVRRPVEPSPPVFHHGSTGVH				NA	NA	NA	NA	NA
BMS010_08874	1170		COG1063	putative zinc-binding alcohol dehydrogenase	ATGCGCGCACTGACCTGGCAAGCCCCCAACCGGCTGAGCGTCGAAACGCTTCCCGACCCGGGAATCGTCAATCCCAAGGACGCCATCCTCAAGGTGGTCATGTCCTCGGTCTGCGGCTCCGACCTGCACCTGCTGGATGGCTACGTGCCGACCATGCACCCAGGCGACGTGCTCGGCCACGAATTCCTCGGCGAGGTGGTGGAGACCGGCGCGGCGGTCACCGGCCTCAAGAAGGGCGACCGGGCAATCGCCATATCCATCATCGGCTGCGGCGAGTGCGGCTATTGCAGCGAGGGCCATTTCAACTGCTGCGATAACTCCAACCCCAACGGCCAGCAGACCGAACTGGCCTACGGCTACAGCTGCGCCGGCATCTTCGGCTACAGCCACGCCTTCGGCGGCTATGCCGGCAGCCACGCGACCTATGTACGCGTGCCCTATGCCGACGTGAACCTGTTCAAGGTGCCGGACGGGGTGAGCAACGAGCAGGCGGTGTTCGTCTCCGATGCCGCGCCGACCGGCTACTTCGGTGCCGACCGGGCGGACATCCAGCGCGGCGACACCGTGGCCGTGTGGGGCTGCGGAGGCGTCGGCCAGATGGCGATCCGCAGCGCCTACCTGCTGGGTGCCGAGCGGGTCATCGCCATCGACCGCTTCGCCGATCGGCTGAGGCTGGCGGAAGAAAAGGCCGGCGCCATCCCCCTCGACTACACCCGCACCGACGTACATGAAGCCCTGCTGGAGCTGACCGGCGGGCGCGGGCCGGATCGCTGCATCGACTGTGTCGGCATGGAAGCCCACGGCACCGGCATCGAGCAGGTCTACGACAAAGCCAAGCAGCAGCTACGCCTGCATACCGAGCGCGGCGCGGCACTGCGCCAGGCGATCCGTGCCTGCCGCAAGAACGGGACAGTATCGGTACTCGGGGTCTACGGTGGCCTGCTGGACAAGTTCCCCATGGGCGCCATCGTCAACAAGGCACTGACCCTGCGCTCCGGCCAGCAGGCGGGGCAGCGCTATGTGCCGCGTCTGTTCGAGCACATCCAGAAAGGCGAGCTGGACCCGTCCTATTTGCTGACCCACCCGATGGACCTGGAGCAGGGCCCGGAGGGCTATCACCTGTTCAAGCAGAAGGCGCAGAACTGCATGCGGGCGGTGTTCCTGCCCTGA	MRALTWQAPNRLSVETLPDPGIVNPKDAILKVVMSSVCGSDLHLLDGYVPTMHPGDVLGHEFLGEVVETGAAVTGLKKGDRAIAISIIGCGECGYCSEGHFNCCDNSNPNGQQTELAYGYSCAGIFGYSHAFGGYAGSHATYVRVPYADVNLFKVPDGVSNEQAVFVSDAAPTGYFGADRADIQRGDTVAVWGCGGVGQMAIRSAYLLGAERVIAIDRFADRLRLAEEKAGAIPLDYTRTDVHEALLELTGGRGPDRCIDCVGMEAHGTGIEQVYDKAKQQLRLHTERGAALRQAIRACRKNGTVSVLGVYGGLLDKFPMGAIVNKALTLRSGQQAGQRYVPRLFEHIQKGELDPSYLLTHPMDLEQGPEGYHLFKQKAQNCMRAVFLP	PGPT0006355_536	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006355-frmA|ADH5|adhC-K00121	NA	NA
BMS010_08875	684	bioD1_2	COG0132	ATP-dependent dethiobiotin synthetase BioD 1	ATGAGCCTGGCTTTTTTCGTTACCGGCACCGACACGGAAATCGGCAAGACCACCATTGCCGGCGGATTGCTGCATGCGGCGCGGCTGGCTGGCTTGTCCACCGCGGCGGCCAAGCCGGTGGCTTCCGGATGTGCGATGACGGCCGATGGCCTGCGCAACGACGACGCCCTGGCCCTGCTCGGCGAATGCAGCGTGCCGCTGCGCTACGAAGAGGTGAACCCGCTGGCCTTCGCGCCGGCCATCGCACCGCACCTGGCGGCCCACGAAGTCGGCGTGAAGCTGGACGTATCCGCCTTGGCCGAACCGGTACGCGCCATCCTCGACAAGGGCGCCGACTTCACCTTGGTGGAAGGGGCCGGTGGTTGGCGTGTGCCGCTGGCGGGATCGGCCACCCTGTCCGATCTGCCCATTGCCCTCGACCTACCGGTGATCCTGGTGGTCGGGGTGCGCCTGGGTTGTATCAACCACGCCGTGCTCACCGCCGAGGCCATCGCCCGCGACGGCCTGCGGCTGGCCGGCTGGGTGGCCAATATCGTCGACCCGCAGACGTCGCGCCTCGACGAGAACCTCGCCACCCTGGCCGAGCGCCTGCCCGCTCCCTGCCTGGGCCGCGTACCGCGTCTCGGCCTGGCGACGCCAGTGGCGGTGGCGGCACATCTCGATCTGCGCCCGTTGCTCGGCTGA	MSLAFFVTGTDTEIGKTTIAGGLLHAARLAGLSTAAAKPVASGCAMTADGLRNDDALALLGECSVPLRYEEVNPLAFAPAIAPHLAAHEVGVKLDVSALAEPVRAILDKGADFTLVEGAGGWRVPLAGSATLSDLPIALDLPVILVVGVRLGCINHAVLTAEAIARDGLRLAGWVANIVDPQTSRLDENLATLAERLPAPCLGRVPRLGLATPVAVAAHLDLRPLLG	PGPT0022115_1237	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022115-bioD-K01935	NA	NA
BMS010_08876	783	bioC		Malonyl-[acyl-carrier protein] O-methyltransferase	ATGACTGACGGCCTGCCGGACAAGCGCCAGGTGGCTGCGTCTTTCTCGCGGGCGGCGGCCAGCTACGACAGCGTGGCCGCCCTCCAGCGCGCGGTGGGGAGCGCGCTGCTGGGTCGACTGCCGGAAGGCTTCGCTCCCGAGCGCTGGCTGGACCTGGGCAGCGGCACCGGACATTTCTCGCGACTCCTGGCCGAACGATTCCCCATGGCGGAAGGTATCGCCCTGGACATCGCCGAGGGCATGCTGCGTCATGCGCGCCCGCTGGGCGGAGCCCGGCGTTTCGTCGCGGGCGATGCCGAACGCCTGCCGTTGCGCGAGGCATCGCTGGACCTGATCTTCTCCAGCCTGGCGGTGCAGTGGTGCGCGGATTTCGCTGCCGTGCTCGGCGAAGCGCGTCGGGTGCTGCGGCCAGGCGGCGTATTCGCCTTCAGCAGCCTGTGCGTCGGCACCTTGCAGGAGCTGCGCGACAGTTGGCAGGCGGTGGACGGGTTCGTCCATGTGAACCGCTTCCGCCGCTTCGAGGATTACCGGCAGCTCGCCGAAGACAGCGGACTGCGCCTGCTCGGGGTTGAGCAACGGCCGGAAACGCTGCATTTCCCCGACCTGCGCAGCCTGACCCACGAACTCAAGGCTTTGGGCGCGCACAACCTCAACCCCGGGCGTCCCGGCGGCCTGACCGGACGGGCGCGCATCCTCGCCCTGATCGACGCCTACGAGCGCTTCCGCCAGCCCGAGGGACTGCCGGCCACCTACCAAGTGGTCTACGGAGTGCTGCAGAAATGA	MTDGLPDKRQVAASFSRAAASYDSVAALQRAVGSALLGRLPEGFAPERWLDLGSGTGHFSRLLAERFPMAEGIALDIAEGMLRHARPLGGARRFVAGDAERLPLREASLDLIFSSLAVQWCADFAAVLGEARRVLRPGGVFAFSSLCVGTLQELRDSWQAVDGFVHVNRFRRFEDYRQLAEDSGLRLLGVEQRPETLHFPDLRSLTHELKALGAHNLNPGRPGGLTGRARILALIDAYERFRQPEGLPATYQVVYGVLQK	PGPT0022060_1082	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022060-bioC-K02169	NA	NA
BMS010_08877	732	bioH		Pimeloyl-[acyl-carrier protein] methyl ester esterase	ATGCGTGACCGGCTGATCATGCTACCGGGCTGGGCGCTGGGCTGCGCGCCGCTGGAACCGTTGGCGGCCGCGCTGCGGGGGCTCGATCCGGCGCTCAAGGTGGACATCGAACCCCTGCCGCTGCTGGATAGCGGCGATCCTCAGGACTGGCTCGACGAACTGGATGCGAGTCTGCCAATGGATTGCTGGCTCGGTGGCTGGTCACTGGGCGGCATGCTCGCCGCCGAGCTGGCGGCACGGCGCGGGGAGCGCTGCTGCGGCCTGCTGACCCTGGCCAGCAATGCCTGCTTCGTCGCCCGACCCGACTGGCCGAGTGCGATGGCGGAAGACACCTTCACGGCGTTCCGCGCCGGTTGCGCGACCGATGCCGGTACGACACTCAAGCGCTTCGGCCTGTTATGCAGCCAGGGGGCGGGAGAAGCCCGCGCGCTGGCCCGGCAACTGGTGCTGGGGGCGCCGAGCGTCTCGCCGGACGTTCTGCTGGCAGGGCTCGACGTGCTTGCCGCCCTGGATACCCGCCAGGCTCTGCATGCCTTCCGCGGACCGCAGTTGCACCTGTTCGGCGGTGCCGACGCCCTGGTCCCGGCCGAGGCCGCCAGCGCTCTGCTGGCACTGCTGGGTGACGTCGAGATCGGGCTGATCGAAGACGCCAGCCATGCTTTCCCACTGGAGCGGCCCCACGAAGTGGCGGCGTCGATCCAGGCTTTCCTGCACGAGGCGGGCGATGACTGA	MRDRLIMLPGWALGCAPLEPLAAALRGLDPALKVDIEPLPLLDSGDPQDWLDELDASLPMDCWLGGWSLGGMLAAELAARRGERCCGLLTLASNACFVARPDWPSAMAEDTFTAFRAGCATDAGTTLKRFGLLCSQGAGEARALARQLVLGAPSVSPDVLLAGLDVLAALDTRQALHAFRGPQLHLFGGADALVPAEAASALLALLGDVEIGLIEDASHAFPLERPHEVAASIQAFLHEAGDD	PGPT0022065_946	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022065-bioH-K02170	NA	NA
BMS010_08878	1167	bioF_2	COG0156	8-amino-7-oxononanoate synthase	ATGTCTTTCGATCTGCAATCCCGCCTCGCCGAACGCCGCGCGGCCCATCTCTATCGCCAGCGTCCGCTGCTCGACAGCCCCCAGGGCCCTGAGGTGGTGGTCGACGGGCAGCCGCTGCTGGCCTTCTGTTCCAACGATTACCTGGGGTTGGCCAACCACCCCGAGGTGATTCGCGCCTTGCAGCGCGGCGCCGAACAATGGGGTGTTGGCGGTGGCGCTTCGCACCTGGTGATCGGCCACAGCGGCCCGCATCACGCGCTGGAGGAGGCCCTCGCCGAATTCACCGGACGGCCCCGAGCGCTGCTGTTTTCTACCGGCTACATGGCCAACCTCGCTGCCGTCACGGCGCTGGTGGGGCAGGGCGATACGGTGCTCGAGGACCGCCTGAACCACGCCTCGCTGCTGGACGCCGGCCTGCTCTCCGGGGCGCGCTTCTCGCGCTATCTGCATAACGATGCCGCGAGCCTTGCCAGCCGCCTGGGAAAAGCCACCGGCAATACCCTGGTGGTGACCGACGGAGTGTTCAGCATGGATGGCGACCTGGCCGACCTGCCGAACCTCTGCACCGTGGCGAAAGCCAAGGGCGCCTGGGTGATGGTGGACGATGCCCATGGCTTCGGCCCCCTGGGCGCGAATGGCGGCGGCATCGTCGAACAGTTCGGGCTGGGGCTGGATGACGTGCAAGTGCTGGTCGGCACCCTGGGCAAGGCGTTCGGCACCGCCGGGGCCTTCGTGGCCGGCAGCGAAGAGCTGATCGAGACGTTGATCCAGTTCGCCCGTCCGTACATCTACACCACCAGCCAGCCGCCGGCGGTGGCCTGTGCCACCCTCAAGAGCCTGGAGCTGTTGCGCAGCGAAGGCTGGCGCCGCGAGCATCTGGCGCACTTGATCGCCCGCTTCCGCGAAGGCGCCGAAGCGATCGGCTTGGTCCTGATGGACAGCCCGACGCCGATCCAGCCGATCCTGATCGGCGACAGCGAGCGGGCCATGAAACTGTCCGCACAGCTCAAGGCGCGCGGCATCCTGGTCGGCGCCATCCGCCCGCCCACCGTACCGGCCGGCAGCGCGCGCCTGCGCGTGACGCTGTCCGCCGCTCACAGCGAGGCGCAACTGGAGCGCCTGCTCGAAGCCCTGGCCGCTTGCTGGCCGGAGGTGCGCGATGCGTGA	MSFDLQSRLAERRAAHLYRQRPLLDSPQGPEVVVDGQPLLAFCSNDYLGLANHPEVIRALQRGAEQWGVGGGASHLVIGHSGPHHALEEALAEFTGRPRALLFSTGYMANLAAVTALVGQGDTVLEDRLNHASLLDAGLLSGARFSRYLHNDAASLASRLGKATGNTLVVTDGVFSMDGDLADLPNLCTVAKAKGAWVMVDDAHGFGPLGANGGGIVEQFGLGLDDVQVLVGTLGKAFGTAGAFVAGSEELIETLIQFARPYIYTTSQPPAVACATLKSLELLRSEGWRREHLAHLIARFREGAEAIGLVLMDSPTPIQPILIGDSERAMKLSAQLKARGILVGAIRPPTVPAGSARLRVTLSAAHSEAQLERLLEALAACWPEVRDA	PGPT0022095_1814	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022095-bioF-K00652	NA	NA
BMS010_08879	1062	bioB_2	COG0502	Biotin synthase	ATGAGCGCCACCGCCGCCGCTTCCGAACTGCGTCACGATTGGACCCTCGCTGAGGTCAAGGCCCTGTTCGAACAGCCCTTCAACGATTTGCTGTTCCAGGCCCAGACAGTGCACCGCGCCCACTTCGACCCGAACCGCGTACAAGTCTCGACCCTGCTGTCGATCAAGACTGGCGCCTGCCCGGAGGACTGCAAGTACTGCCCGCAGTCCGGCCACTACAACACCGGGCTGGAGAAAGAGAAGCTGATGGAGGTGGAAAAGGTCCTCAAGGCCGCCGCCGAAGCCAAGGCCATCGGCTCCACCCGCTTCTGCATGGGCGCCGCCTGGAAGCACCCGTCCGCCAAGGACATGCCCTACGTGCTGCAGATGGTCAAAGGCGTGAAGGCCATGGGCCTGGAAACCTGCATGACCCTGGGCAAGCTCGACCAGGAGCAGACCCGCGTGCTGGCCGAGGCCGGCCTCGACTACTACAACCACAACCTCGATACCTCGCCGGAGTTCTACGGCAACATCATCACCACCCGCACCTACGGCGAGCGCCTGCAAACCCTGGCCTACGTGCGCGAGGCGGGGATGAAGATCTGCTCCGGCGGCATCCTCGGCATGGGCGAGTCGCTGGACGACCGCGCCGGCCTGCTGATCCAGCTCGCCAACCTGCCGGAGCACCCGGAGTCGGTGCCGATCAACATGCTGGTGAAGGTCAAGGGCACGCCGCTGGAGCAGGAGAAGGACGTCGATCCGTTCGACTTCATCCGCACCCTGGCCGTGGCGCGAATCATGATGCCGAAATCCCACGTGCGCCTGTCCGCCGGCCGCGAGCAGATGAACGAGCAGATGCAGGCCCTGGCGTTCTTCGCCGGCGCCAACTCGATTTTCTACGGCGAGAAGCTGCTGACCACCGCCAACCCCCAGGCGGACAAGGACATGGCCCTGTTCGCCCGCCTCGGCATCAAGCCGGAAGAGCGCGAAGAACACGCCGACGAAGTGCACCAGGCAGCTATCGAACAGGCCCTGGTCGAGCAGAAGAACAGCGAGCTGTTCTACAACGCGGCATCCGCCTGA	MSATAAASELRHDWTLAEVKALFEQPFNDLLFQAQTVHRAHFDPNRVQVSTLLSIKTGACPEDCKYCPQSGHYNTGLEKEKLMEVEKVLKAAAEAKAIGSTRFCMGAAWKHPSAKDMPYVLQMVKGVKAMGLETCMTLGKLDQEQTRVLAEAGLDYYNHNLDTSPEFYGNIITTRTYGERLQTLAYVREAGMKICSGGILGMGESLDDRAGLLIQLANLPEHPESVPINMLVKVKGTPLEQEKDVDPFDFIRTLAVARIMMPKSHVRLSAGREQMNEQMQALAFFAGANSIFYGEKLLTTANPQADKDMALFARLGIKPEEREEHADEVHQAAIEQALVEQKNSELFYNAASA	PGPT0022120_1098	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022120-bioB-K01012	NA	NA
BMS010_08880	738			hypothetical protein	ATGCGCTGTCAACCAGAGAGCAAGCGCCAGGTTTACATCTGGACAAAAAATAAACAATCCTGCCTGCTATGCGACGAGCCAGCCGACGAACATCTGCCGCTCTGCACGGCCTGCGAAGCCGACCTGCCCTGGCTCGGCGGGCATTGCAACCTCTGCGCCCTACCGTTGCCCGGCACGGGACTGGTCTGCGGCGAATGCCTGAAGCACCCACCCAGTTTCAGCCGGGTCGAAGTGCCCTGGCGCTACGCTTTCCCAGTGGACAGTCTGGTCACCCGCTTCAAGCATCAGGCGAAGTGGCCGTTGGGACGTCTGCTCGCCGGGCTCCTGTCACATCATCTGCAACATGCCTTCGATGAGGGCCTACCGCGCCCGGCTGCCTTGCTGCCGGTCCCTCTGGCCAGCAAGCGTCTGCGCCGGCGCGGTTTCAACCAAGCGGCGATGCTCGCCCGCTGGCTCGGTCGAAATCTGGAACTGCCGGTGGACGAACGCACCTTGCTGCGCCCGCATGACACGCCGGCCCAACAGGAACTGGACGCCGCTGCCCGTCGACGCAACCTGCGCAAGGCGTTTGCCCTGTCGCCCGATGCCGACGTCGCGGGGCGCCATCTGGCGTTGGTCGACGATGTGCTGACCACCGGCGCCACCGCCGAAGCCCTGGCGCGCCTGCTGAAGAAGGCCGGCGCGGCGCGCGTGGATGTCTACTGCCTGGCGCGCACGCCTCGTCCGGGAGACGGCTGA	MRCQPESKRQVYIWTKNKQSCLLCDEPADEHLPLCTACEADLPWLGGHCNLCALPLPGTGLVCGECLKHPPSFSRVEVPWRYAFPVDSLVTRFKHQAKWPLGRLLAGLLSHHLQHAFDEGLPRPAALLPVPLASKRLRRRGFNQAAMLARWLGRNLELPVDERTLLRPHDTPAQQELDAAARRRNLRKAFALSPDADVAGRHLALVDDVLTTGATAEALARLLKKAGAARVDVYCLARTPRPGDG				NA	NA	NA	NA	NA
BMS010_08881	765	modE	COG2005	DNA-binding transcriptional dual regulator ModE	ATGAGCACGCTCTCCTCCCTCGCCCAACACGTAGTACGCCGGCCGCAGCGTATCGCCCTGTTGCAGCAGATCGCCGAGCAGGGTTCGATCACCCGCGCCGCCAAAGCCGCCGGGTTGAGCTACAAGGCGGCCTGGGACGCCATCGACGAGCTGAACAACCTGGCCGGCACACCCCTGGTGGAGCGCAGCGTCGGCGGCCGAGGTGGTGGCGGCGCGCGGTTGTCCGCTGACGGGCAGCGCTTGCTGGCGCTCTACCAACGCCTGGAAAGCCTCCAGGCCCAGGTGCTGCAAGCCGCCGAGGACAGCGCCGACCTCGACCTGCTCGGCCGCCTGATGCTGCGCACCAGCGCCCGCAACCAGTTGCACGGTCGCGTCGTGGCGATCGAGCCGCACGGCCGTCACGACCGCATCGAGATCGTCCTGAACGGAGCCCTGCGCATCGCCGCGCTGATCACCCGCGACAGCACGGAACGCCTGGAACTGGCCGTCGGCGCCCGCGTATTCGCACTGATCAAGGCCGGTTGGCTGCATGTGCTGGCACCCGATGAGGTCGGCGAGACCGACCATAACCGTCTCCTCGGCCATATCGACACCATCCTGCCAGCCGAAGAGGGCCCCAGCGAAGTCCGTATCGCCCTGCCCAATGGCCAGACACTCTGTGCCCTGGCGGACCCGGATCACCTGCACCACCTCCACCTCGTCGAAGGCTCACCCGTGCAGGTGCAGTTCTCTCCCGAGCAGGTCTTGCTCGGTACACCACTCTAA	MSTLSSLAQHVVRRPQRIALLQQIAEQGSITRAAKAAGLSYKAAWDAIDELNNLAGTPLVERSVGGRGGGGARLSADGQRLLALYQRLESLQAQVLQAAEDSADLDLLGRLMLRTSARNQLHGRVVAIEPHGRHDRIEIVLNGALRIAALITRDSTERLELAVGARVFALIKAGWLHVLAPDEVGETDHNRLLGHIDTILPAEEGPSEVRIALPNGQTLCALADPDHLHHLHLVEGSPVQVQFSPEQVLLGTPL	PGPT0000520_903	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0000520-modE-K02019	NA	NA
BMS010_08882	747			hypothetical protein	ATGCGTCTGCGTACTCCCGCCCTCGCCCTGCTGACTCTGCTGAGCCTGCCCGCCGCCCAGGCTGCCGAGCAGATTCGCATTGCCGTCGCGGCCAATCTGCTGCCGGTGATGGAGCAGATCGCCCACCGCTACCAGCAGGAGACCGGCGTCAGCGTGCAGCTCGCCGGCGGTTCTTCTGGTGCCTTCTTCGAGCAGATCCGCCGGGGCGCGCCGTTCGACCTGTTCTATTCGGCCGACGCCGAACGCCCCGAGCAACTCGCCACCAGCGGCAAGGGTGAAGCCGCCAGGCCCTATGCCTGTGGCCGCCTGGCCTTGTGGACGCCTGCCAGTGCACCGACCCTGGCCGCACTCCCGGCCGGCAAGATCGCCATCGCCCAGCCCGACACCGCGCCCTACGGCAAAGCCGCCATCCAGGCGCTGGAGCGCAGCGGCCAACTGGCCAAGGTGCAGCCGCGCCTGGTCTACGCCCAGGATATCGGCCAGGCCTACCAGTTCGTCTCCAGCGCCAACGCCGGCGCCGGTTTCGTCGCCCTCAGCCAGCTCACGGCCGGCAAGGTGCCCGCCAATCAGTACTGGCAGGTGGACGCCGCGCTGTACGACCCGCTGGTGCAGAAGCGTGTGATTCTGGCCAAGACGGAACGCCGCGCCGCCGCCGAACGCTTCGCCGCCTATTTCGACGCGCAGCGCGACACCCTCGCCGCCGCCGGCTACGCCCTGCCTGGAGACGCCGGCTGTGCTGCTGACTGA	MRLRTPALALLTLLSLPAAQAAEQIRIAVAANLLPVMEQIAHRYQQETGVSVQLAGGSSGAFFEQIRRGAPFDLFYSADAERPEQLATSGKGEAARPYACGRLALWTPASAPTLAALPAGKIAIAQPDTAPYGKAAIQALERSGQLAKVQPRLVYAQDIGQAYQFVSSANAGAGFVALSQLTAGKVPANQYWQVDAALYDPLVQKRVILAKTERRAAAERFAAYFDAQRDTLAAAGYALPGDAGCAAD	PGPT0008435_3832	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008435-modA-K02020	NA	NA
BMS010_08883	690	modB_2	COG4149	Molybdenum transport system permease protein ModB	GTGCTGCTGACTGACGGAGACTGGCAGGCCCTGTGGATCACCCTGCGCCTGGCGGGGCTGTCCACCCTGTTGCTGATGCTGATCGGCCTGCCGCTGGCCGCCTGGCGGGTGCGCCGACAGACGCGCCTGCGCCAGGTATTGGATGCCGTGCTGGCGCTGCCCCTGGTACTGCCACCGACGGTCCTCGGCTTCTACCTGCTAGTGGTCTTCGCGCCGGACACGCCGCTTGGCTCCGCCTGGACCCGCCTGACCGGACACCAACTGGCCTTCAGCTTCTCGGGGCTGGTGCTGGGCTCGGTGATCTACTCGCTGCCCTTCGTCGTGCAGCCCCTGACCGTGGCCTTCCGCGAAATCCCCCGCAGCCTGTTGGAGGCCGCCGCCAGCCTCGGCGCCAGCCGCTGGGAGCGCCTGCAACGGGTAATCCTGCCACTGCTGCGCCGCGGGCTGCTGGTGGCCGCGACCCTCGGTTTCGCCCATACCCTCGGCGAATTCGGCGTGGTGCTGATGCTCGGCGGGAGCATTCCCGGCGAGACCCAAGTGGTTTCCATCGCCCTGTTCCAGCACGTCGAGGCGCTGCGCTACGCCGAAGCGCACCGCTTGGCCGCCGCGCTGCTGGGGCTGTCGTTCCTCCTGCTGCTGCTGGTCTACGGCCTCGGCGACCCACGTCGCAGCGCGCCGATGCGCACCTGA	MLLTDGDWQALWITLRLAGLSTLLLMLIGLPLAAWRVRRQTRLRQVLDAVLALPLVLPPTVLGFYLLVVFAPDTPLGSAWTRLTGHQLAFSFSGLVLGSVIYSLPFVVQPLTVAFREIPRSLLEAAASLGASRWERLQRVILPLLRRGLLVAATLGFAHTLGEFGVVLMLGGSIPGETQVVSIALFQHVEALRYAEAHRLAAALLGLSFLLLLLVYGLGDPRRSAPMRT	PGPT0008440_1231	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008440-modB-K02018	NA	NA
BMS010_08884	975	srkA	COG2334	Stress response kinase A	ATGAGCCACCCCTTCGATACCCTTACACCCGATTTGGTACTGGATGCCGTGGAAAGCCTCGGCTACCTCAGCGACGCCCGCATCCTGGCGCTGAACAGCTACGAAAACCGCGTCTATCAGGTGGGCATCGAGGGTGAGCAGCCGCTGATCGCCAAGTTCTATCGGCCGGCGCGCTGGAGCGACGCGGCCATTCTCGAAGAACACCGCTTCACCCACGAACTGGCGGAATGCGAAGTGCCGGTGGTGGCGCCGGTCCAGCGCGACGGACAAACGCTGTTCGAGCACGCCGGCTTCCGTTTCGCCCTGTTTCCGCGCCGGGGCGGTCGCGCACCGGAGCCGGGCAACCTCGATCAGCTGTACCGCCTCGGCCAGTTGCTCGGCCGCCTGCATGCGGTGGCGGCGATCCGTCCGTTCGAACACCGCGAAACCCTGGGCGTGGACAACTTCGGCCATGCCTCGCTGGCGACCCTGCTGGAAGGCAGTTTCATTCCCCGCAGCCTGCTACCGGCCTACGAATCGGTGGCACGCGACCTGCTCAAGCGCCTGGACGAACTCTTCCAGCGCGTGCGCTATACGCCGACCCGTCTGCACGGCGACTGCCACCCGGGCAACCTGCTGTGCCGCGACGAGACTTTCCACATCGTCGACCTCGACGACTGCCGCATGGGACCAGCGGTGCAGGACCTGTGGATGATGCTTGCCGGCGAACGCCAGGAGCGCCTCGGCCAGCTCGCCGAACTGGTCGACGGCTACCAGGAGTTCCACGATTTCGACTCGCGCGAACTGCCGTTGATCGAGGGTCTGCGCGCCCTGCGCCTGATGCACTACAGCGCCTGGCTGGCCCGCCGCTGGGACGACCCGGCGTTCCCCATGAGCTTTCCCTGGTTCGGTACCGAGCGGTACTGGGGCGAGCAGATCCTGATGCTGCGGGAGCAGTTGGCGGCGCTGGATGAAGAGCCGCTGAAGCTGTTCTGA	MSHPFDTLTPDLVLDAVESLGYLSDARILALNSYENRVYQVGIEGEQPLIAKFYRPARWSDAAILEEHRFTHELAECEVPVVAPVQRDGQTLFEHAGFRFALFPRRGGRAPEPGNLDQLYRLGQLLGRLHAVAAIRPFEHRETLGVDNFGHASLATLLEGSFIPRSLLPAYESVARDLLKRLDELFQRVRYTPTRLHGDCHPGNLLCRDETFHIVDLDDCRMGPAVQDLWMMLAGERQERLGQLAELVDGYQEFHDFDSRELPLIEGLRALRLMHYSAWLARRWDDPAFPMSFPWFGTERYWGEQILMLREQLAALDEEPLKLF				NA	NA	NA	NA	NA
BMS010_08885	876	rarD_4	COG2962	Protein RarD	ATGGCCACCGCCAATCTCCGCCGCGGCTACCTGCTCGGTTTGAGCGCCTATGTCATCTGGGGCCTGTTCCCCCTCTACTTCAAAGCCATCCAGGAAGTACCGGCCCTGGAAATCGTCGTGCACCGCGTGCTCTGGTCGGCCCTGTTCGGCGCGATCCTGCTGTTCTTCTGGAAGCACCCCGGCTGGTGGGGCGAATTGCGCGACAACCCGAAACGGCTCGCCGTGCTGGCCGCCAGCGGTGCACTGATCGCGGTGAACTGGCTGACTTACGTCTGGGCGGTGAACAACGGGCGCATGCTGGAGGCCAGCCTGGGTTACTACATCAACCCGCTGGTGAACGTGCTGCTCGGCATGCTGTTGCTCGGCGAGCGCCTGCGCCGCCTGCAATGGGTCGCCGTGGGTCTGGCCGCGCTGGGCGTGGCGCAGCAGGTCTGGCAGGTCGGCAGCCTGCCGTGGGTGTCGCTGGTGCTGGCGCTGAGCTTCGGTTTCTATGGTCTGATCCGTAAACAGGCACCGGTGGCCGCTCTCCCTGGCCTGGTGGTAGAGACCTGGATGTTACTGCCGGCGGCACTGATCTGGCTGGTGGTCACACCCCAGGCGGGCAACGGTAGCTGGACCATGCCGGAAATCTTCTGGCTGGCCGCCGCCGGCCCGATCACCCTGGTGCCGCTGATCTGCTTCAACGCCGCGGCCCGCCACCTGCCCTATACCACCCTGGGCTTTCTCCAATATCTGGCGCCTACCCTGGTGCTGCTACAGGCGATCCTGCTATTCGGCGAGCCGCTGGAGCCGGCAAAGCTGCTGGCCTTCGTCTGCATCTGGGCGGGTCTGGCCGTGTATAGCGTCGATGCGTGGTTGGTACTGCGTAGCCGCTAA	MATANLRRGYLLGLSAYVIWGLFPLYFKAIQEVPALEIVVHRVLWSALFGAILLFFWKHPGWWGELRDNPKRLAVLAASGALIAVNWLTYVWAVNNGRMLEASLGYYINPLVNVLLGMLLLGERLRRLQWVAVGLAALGVAQQVWQVGSLPWVSLVLALSFGFYGLIRKQAPVAALPGLVVETWMLLPAALIWLVVTPQAGNGSWTMPEIFWLAAAGPITLVPLICFNAAARHLPYTTLGFLQYLAPTLVLLQAILLFGEPLEPAKLLAFVCIWAGLAVYSVDAWLVLRSR	PGPT0003906_2388	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0003906-rarD-K05786	NA	NA
BMS010_08886	519			hypothetical protein	ATGGATCATCTGGTACTCACGGTGATTGCCCAGGACCAGCCGGGGCTGGTCGAGCGGGTTGCCAAGTGCATCGCCGAGCACGGCGGCAACTGGCTGGAGAGCCGCATGTCGCGCATGGCCGGGCAGTTCGCCGGCATCCTGCGGGTGGCGGTGCCGGCGGAATCCCATGATGAGTTGGTGGACGCGTTGCAGGCCCTGAGCCTGCATGGCATTCGCGTGCTGCTGGCGCAGAGCGGGCTGGAGCCGGCCTGCAACTGGAAGCCGATCCGCCTCGACCTGGTTGGCAACGACCGGCCTGGCATTGTCCGCGATATCACCCGCCTGCTCGCCGAGCACGGTGTCAATCTGGAAAGCCTGGTCACCGAAGTGGCACCGGCGCCGATGAGCAGCGAGCCGCTGTTCCACGCCGAGGCGTTGCTGGCGGTGCCGCTCAATCTCTCGCTCGATGTGTTGCAGGAACGCCTGGAGACCCTGGCTGACGACCTGATGGTGGAGCTGAACCTGCGCACGGAGCCTTGA	MDHLVLTVIAQDQPGLVERVAKCIAEHGGNWLESRMSRMAGQFAGILRVAVPAESHDELVDALQALSLHGIRVLLAQSGLEPACNWKPIRLDLVGNDRPGIVRDITRLLAEHGVNLESLVTEVAPAPMSSEPLFHAEALLAVPLNLSLDVLQERLETLADDLMVELNLRTEP				NA	NA	NA	NA	NA
BMS010_08887	453			hypothetical protein	ATGCAAGTAAGACCCGCCACCCCGGCCGACCTGCCGGAACTGACCGAGTTGTTCGCCGGCTACCTGGATTTCTACCGGGTAACCAAGCCGATCCCGGCCATCGCCGCCTTCCTGCACGACAGGTTCGAGCGCGGCGACTCGCAGGTGCTGGTGGCTTGCGAGGCGAGCGGTCGGTTGTGCGGGTTCGTCCAGTTGTATCCGCTGCAGGCATCGCTGGCGCTGGCACCAGCCTGGTTGTTGAGCGATCTTTATGTGGCTATCGGTGCGCGTCGCCAGGGCGTCGGCGAGGCGCTGATGAATGCCGCCCGGGCGCATGCGGAAGCCAGCGGCGCCTGCGGCCTGCAACTGGAGACGGCGAAGACCAATCGGGCGGGCCAGGCGCTTTACGAGCGCCTGGGCTACGTGCGCGACGACACTTTCTACACCTACTGGCTGAGCCTCGAGCGCGGCTGA	MQVRPATPADLPELTELFAGYLDFYRVTKPIPAIAAFLHDRFERGDSQVLVACEASGRLCGFVQLYPLQASLALAPAWLLSDLYVAIGARRQGVGEALMNAARAHAEASGACGLQLETAKTNRAGQALYERLGYVRDDTFYTYWLSLERG				NA	NA	NA	NA	NA
BMS010_08888	2178	glcB_3	COG2225	Malate synthase G	ATGACTGAACGCGTTCAAGTCGGTGGCCTGCAGGTCGCCAAAGTCCTGTTCGACTTCGTTAACGACGAAGCCATTCCCGGTACCGGCCTTTCCGCCGACGCCTTCTGGGCCGGTGCCGAAGCGGTCATCAACGACCTCGCACCGAAGAACCGCAGCCTGCTGGCCAAGCGCGACGAGCTCCAGGCCCGTATCGACGGCTGGCACCAGGCCCGCGCCGGCCAGCCTCATGACGCCGCAGCCTACAAAGCCTTCCTCCAGGAAATCGGCTACCTGCTGCCGGAGCCGGCCGACTTCCAGGCCAGCACCGTCAACGTCGACGAAGAGATCGCCCGCATGGCCGGCCCGCAGCTGGTCGTACCGGTGATGAACGCGCGCTTTGCCCTCAACGCCTCCAACGCCCGCTGGGGCTCGCTGTACGACGCCCTCTACGGCACCGACGTGATCAGCGAAGCCGATGGCGCCACCAAGGGCCCGGGCTACAACGAAATCCGTGGCGCCAAGGTGATCGCCTTCGCCCGTGCTTTCCTCGATGAAGCCGCGCCGCTGGAAAACGGCTCCCACGTGGACTCCACCGCCTACGCCATCCAGAACGGCGCCTTGGTAGTCAGCCTGAAGAACGGCAGCCAGACCGGCCTGAAGAACGCCGCCCAGTTCATCGCCTTCCAGGGCGACGCCGCGGCCCCGGCGGCCGTGCTGCTGAAACACAACGGCCTGCACTTCGAAATCCAGATCGACCCGACCAGCCCGATCGGCCGCACCGACGCCGCCGGCGTGAAAGACGTGCTGATGGAAGCCGCGCTGACCACCATCATGGACTGCGAAGACTCGGTCGCCGCCGTCGATGCCGACGACAAAGTGGTGGTCTACCGCAACTGGCTGGGCCTGATGAAGGGCGATCTCGCCGAGGCCGTGTCCAAGGGCGGCAGCACCTTCACCCGCACCATGAACCCGGACCGCGTCTACACCAAGGCGGACGGCAGCGAACTGACCCTGCACGGCCGCTCCCTGCTGTTCGTGCGCAACGTCGGGCACCTGATGACCATCGACGCCATCGTCGACAGCCAGGGCTTCGAAGTGCCGGAAGGCATCATGGACGGCCTGGTCACCAGCCTGATCGCCGTGCACAACCTGAACGGCAACACCACCCGCAAGAACAGCCGCACCGGCTCGGTGTACATCGTCAAGCCGAAAATGCACGGCCCGGAAGAAGTCGCCTTCACCAACGAACTGTTCGGCCGCGTCGAAGACGTGCTCAACCTGCCGCGCAACACCCTGAAGGTCGGCATCATGGACGAGGAGCGCCGCACCACGGTCAACCTCAAGGCCTGCATCAAAGCCGCCGCCGAGCGCGTGGTGTTCATCAACACCGGCTTCCTCGACCGCACCGGCGACGAAATCCACACCTCCATGGAAGCCGGCGCCATGGTGCGCAAGGCCGCGATGAAGAGCGAGAAGTGGATCGCCGCCTACGAGAACAACAACGTCGACATCGGCCTGGCCACCGGCCTGCAGGGCCGCGCCCAGATCGGCAAGGGCATGTGGGCCATGCCTGACCTGATGGCGGCGATGGTGGAGCAGAAGATCGTCCACCCGATGAGCGGCGCCAACACCGCCTGGGTGCCGTCGCCGACCGCCGCCACCCTGCACGCGCTGCACTACCACAAGGTCGACGTGTTCGCTCGTCAGGCCGAACTGGCCAAGCGCGAGCCGGCCTCCGTGGACGACATCCTGACCATCCCGCTGGCCCAGGACACCAACTGGTCCGCCGAGGAAATCCGCAACGAGCTGGACAACAATGCCCAGGGCATCCTCGGCTACGTGGTGCGCTGGATCGACCAGGGCGTCGGCTGCTCCAAGGTGCCGGACATCAACGACATCGGCCTGATGGAAGACCGCGCGACCCTGCGCATCTCCAGCCAACTGCTGGCCAACTGGTTGCGCCACGGCATCGTCACCCGCGAGCAGATCGTCGAAAGCCTCAAGCGCATGGCCCCGGTAGTGGACCGCCAGAACGCCAACGACCCGCTGTACCGCCCGATGGCGCCGGACTTCGACAACAACATCGCCTTCCAGGCCGCCCTGGAACTGGTGGTCGAAGGCACCCGGCAGCCGAACGGCTACACCGAGCCGGTCCTGCACCGCCGCCGCCGCGAGTTCAAGGCGAAGAACGGTCTCTGA	MTERVQVGGLQVAKVLFDFVNDEAIPGTGLSADAFWAGAEAVINDLAPKNRSLLAKRDELQARIDGWHQARAGQPHDAAAYKAFLQEIGYLLPEPADFQASTVNVDEEIARMAGPQLVVPVMNARFALNASNARWGSLYDALYGTDVISEADGATKGPGYNEIRGAKVIAFARAFLDEAAPLENGSHVDSTAYAIQNGALVVSLKNGSQTGLKNAAQFIAFQGDAAAPAAVLLKHNGLHFEIQIDPTSPIGRTDAAGVKDVLMEAALTTIMDCEDSVAAVDADDKVVVYRNWLGLMKGDLAEAVSKGGSTFTRTMNPDRVYTKADGSELTLHGRSLLFVRNVGHLMTIDAIVDSQGFEVPEGIMDGLVTSLIAVHNLNGNTTRKNSRTGSVYIVKPKMHGPEEVAFTNELFGRVEDVLNLPRNTLKVGIMDEERRTTVNLKACIKAAAERVVFINTGFLDRTGDEIHTSMEAGAMVRKAAMKSEKWIAAYENNNVDIGLATGLQGRAQIGKGMWAMPDLMAAMVEQKIVHPMSGANTAWVPSPTAATLHALHYHKVDVFARQAELAKREPASVDDILTIPLAQDTNWSAEEIRNELDNNAQGILGYVVRWIDQGVGCSKVPDINDIGLMEDRATLRISSQLLANWLRHGIVTREQIVESLKRMAPVVDRQNANDPLYRPMAPDFDNNIAFQAALELVVEGTRQPNGYTEPVLHRRRREFKAKNGL	PGPT0001445_724	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-OXALACETIC_ACID_BIOSYNTHESIS,PGPT0001445-aceB|glcB-K01638	NA	NA
BMS010_08889	315	higA-2	COG2944	Antitoxin HigA-2	ATGAAGAAACGGGATCTGTTTTCGGAGCTGATGCAAGGCGTTGCCGAGATGGCCGCTCATCGTGAAGGCAAGATCACGCTGCGCCAGGTCACGTTGGAAGCCAAGCCGGCTCCGGAGGTAACGGCCGAGGAAATCGTCGCCCTGCGCAAGAAGCTGCGCATGTCTCAGGCGGTTTTCGCTCGGCGTATCCGTACCAGTCCGGGTACCCTGCGTAATTGGGAGCAGGACAAATCCAAGCCGAACCCGCACGCCGCCATCTTGATCAAGCTTGTCGAGCGTTACCCCGACATGGTCGAGCGGCTCGAAGCTGTTTGA	MKKRDLFSELMQGVAEMAAHREGKITLRQVTLEAKPAPEVTAEEIVALRKKLRMSQAVFARRIRTSPGTLRNWEQDKSKPNPHAAILIKLVERYPDMVERLEAV				NA	NA	NA	NA	NA
BMS010_08890	255			hypothetical protein	ATGTCTGACTTCCGTCCGCTTCCCTCCCTGAGCACCACTGCCCGTCCCGTTCTCTACACCAATACCCGCCTCAGCTCGGACGAGCTGTTCGAAGCCGGGCAGGAGCGTTTGAATGCAGCACAGCAGTTGGCGTTGGTGCTGTATTGCAATGAGCCTCAGTTGGACAACGGCGAGGTGTTCGCGGCGTTTCGTCTGCTGCTGGGCGATGCGGCGGGGTTGTATGCGGCGGCGTTCAAGCGTCTGCCGGGCGATTGA	MSDFRPLPSLSTTARPVLYTNTRLSSDELFEAGQERLNAAQQLALVLYCNEPQLDNGEVFAAFRLLLGDAAGLYAAAFKRLPGD				NA	NA	NA	NA	NA
BMS010_08892	174			hypothetical protein	ATGACCCTTGTTTACATGGTTACGCATACGCACAAACTTCCCGGCGGACAAGAGGATATAAAGTTCATCGGCGTATACGAGTCTAAGGAGACTGCTGAAAAAGCTATTGAAAGAGCAAGTCTTAAAGCGGGGTTCTCAGAAACTAAAGAAGGTTTTTTCATTGGTGAATATTAG	MTLVYMVTHTHKLPGGQEDIKFIGVYESKETAEKAIERASLKAGFSETKEGFFIGEY				NA	NA	NA	NA	NA
BMS010_08893	570			hypothetical protein	ATGCACTTCTTGGAGAAAATAGTTGATTTGAATAGCTACTCATCTTCTCTCGGGTTTTTGGGGTACTTCTCCTATAAAGGTAGAGATGTAAAAAAAGGAGGTGAGCTGGCGATCGCTGCGCTAGAAAAGAATATTGATGAAAAGCTTAAAGGAAAGATAACTGCCTTAACAAGCTTAAGCTTAGGAGGCCCTCTCTGCAGCATAAAAGATGAATTCGAATATAGCAATTATGATTTTGAAAACTACCTAATGCCACTAGTCGCTTCAGATTTTGTTTCCGATTATGGAGCTAAGGAAGGGTTTAGATCAATTGAGATCTCTGGGAAAAATAAGGATCTACTAAAAAAAGCATGCTATGTTCAGCTTTCACTCGGAGGGCTGGAGGGGCATTTATTTATTCTTTTTGAAGATGAAGGAATATTAATTTACCCCCATGATGAAGCTGGGTTTGGCGCCATTCAAGTTAAAGAAGACGACTCTTCTTCGCCAAGAATATTTAAACTAATCGACACTAATCTCTTTGAGATACGGCTCCGTACAGGTGGTCGCTCATGTGGAGCCAATACATGA	MHFLEKIVDLNSYSSSLGFLGYFSYKGRDVKKGGELAIAALEKNIDEKLKGKITALTSLSLGGPLCSIKDEFEYSNYDFENYLMPLVASDFVSDYGAKEGFRSIEISGKNKDLLKKACYVQLSLGGLEGHLFILFEDEGILIYPHDEAGFGAIQVKEDDSSSPRIFKLIDTNLFEIRLRTGGRSCGANT				NA	NA	NA	NA	NA
BMS010_08894	891			hypothetical protein	GTGCAATACAGCTCAACCGGCCAGAAGAAAACCGCCACCTACTGGATCTGGCTGGACGACCTGCCCCTGGCCGGGATCGAACTGAGCTACGCCAGCGACGGCACCACCCTGGCGAGCCACCGCCTGTACTACCTGCACGCCGACCACCTCAACACCCCGCGCCTGGCCACCGACGCCCACCAGCGCCTGCTGTGGAGCTGGAACAGCGACGCCTTCGGCGTCGGCCCCGCCAACCCCGACGTGGACGGCGACGGCATTACCACCGACATCCCCCTGCGCTTCCCCGGCCAGCTCTACGACGCCCACAGTGCGCTGCATTACAACTACTTCCGGGACTATGATCCGGAGACTGGTAGGTATGTGGAGAGTGATCCGATTGGGCTCAGGGGTGGGCTGAATACTTACGGGTATGTAGGGGGGAATCCGCTTTATTACTCCGACCCACGAGGGTTGGAATCCATTGCCATCCCCGATTGGGTAGTTAGATTGCCGAGTATTTCTTGGCCAACGCTCGGTGGGGCAGCTGCATCGGCGAGTGCTGCAGGCTTAGCGTGTTTGGTTTATACGCCAAGCCTGGGCAATGCAGAGTGCCCACCTGGCGGGTGCTACTACACTAAAGACAAAACAGACAATCCCAAGGCCAAAGCAGGGAACTCTAGCCCAGGCGATAAGGTAAGAACTCCGGATACACACCCTGAAGACTTTGCTTCAGCCGGTGGTGGGAAGAAGAAAAACACTACCACTGGCGAAATTTGGTCTCCAAGCCACACTAATCATTCCGGCTCTGCTGGTGGTGAATGGAAAGTAGGACCCAAGCCGGGAGTTCCCGCCAGACCGGGTAATAAAATCACAGTCGCATCTGACGGTACGATTATCAAAATTGATTTATAG	MQYSSTGQKKTATYWIWLDDLPLAGIELSYASDGTTLASHRLYYLHADHLNTPRLATDAHQRLLWSWNSDAFGVGPANPDVDGDGITTDIPLRFPGQLYDAHSALHYNYFRDYDPETGRYVESDPIGLRGGLNTYGYVGGNPLYYSDPRGLESIAIPDWVVRLPSISWPTLGGAAASASAAGLACLVYTPSLGNAECPPGGCYYTKDKTDNPKAKAGNSSPGDKVRTPDTHPEDFASAGGGKKKNTTTGEIWSPSHTNHSGSAGGEWKVGPKPGVPARPGNKITVASDGTIIKIDL				NA	NA	NA	NA	NA
BMS010_08895	282			hypothetical protein	TTGAGCCGCCGGCGACGCCAGCCTAAAGACACGCCCGGTGCTCAGTTGTTGCGCCAGCTTCATGCCGATCCCGATTTTGCCTCGGCCCGCGATGAGCGGGGCCGGGAGCGCTTCAAGTCAAGGCGCGAGGAAATGCAGCGCCTCAGTAACGCGGCCCGTCGCGGTCACGACGTGCCGCCCGAGATGGAGGCCGAGTGGAAAGCCCTCAAGGCGAAGCGGTCATTTTCCAATAATGAAATTGGAGCAATGCTCGGCTTGAAGCGCTGGCGAAGGAAAAGCTAA	MSRRRRQPKDTPGAQLLRQLHADPDFASARDERGRERFKSRREEMQRLSNAARRGHDVPPEMEAEWKALKAKRSFSNNEIGAMLGLKRWRRKS				NA	NA	NA	NA	NA
BMS010_08896	261			hypothetical protein	TTGAAGACGGTTTTCCTTTTGATGGCGCAGTACGACGGCCGCGCGATTATCCCGGTCGAAATGGTCTGCCAAGACTATTTCCCTCATCTTACGGTCAATCATTTTGTGCGCAAGGCGACGCGGGGAGAGATCAAGCTTCCGCTGATCTACATCGAGCCGAGCCAGAAGGCCGCGAAGGGAATTCACGTGCATGATCTGGCTGAATACATCGACGCTCGCCGGAAGGTCGCAAAGAGCGAAATGGAGGCGTTCCTCCGTTGA	MKTVFLLMAQYDGRAIIPVEMVCQDYFPHLTVNHFVRKATRGEIKLPLIYIEPSQKAAKGIHVHDLAEYIDARRKVAKSEMEAFLR				NA	NA	NA	NA	NA
BMS010_08898	426			hypothetical protein	ATGAAAGCACCACTGCGATCCCACGGTTTCGACAAGCCCTCGGACCTTGACGACCATCTGGCCGAACTGGACGAAGAGGCCGCGGAGAAGGAGGCTGCAAAACCCGCTGCTGCCCGCAGGGCGCGTGCCGCCGCCCCGGCGGAATCATCCTTGCGGGCGGAGTTGGAAGACCTTCGCAAACAGCTCGAAAAAATTCGCCGCGACGTCAAACGGCTGGAAGCCGCCTCCAACACGCCGCATCATAAATCCGCCGATGCCCGGCATGAGCGCGACCGTGAGAATTCGCGCCTGATGACGGTGGTGCGCTCCGTTGCCGTCACCTCGCTGGCAAGCCGCATCTTCGCCTCCTCGCCCGTCATGGCGGCGCTGGTGGCGGTAGTGCCAATTGCGCTTGGCCTTGCCGCACGGCGCAACGAGGGAGCGTAA	MKAPLRSHGFDKPSDLDDHLAELDEEAAEKEAAKPAAARRARAAAPAESSLRAELEDLRKQLEKIRRDVKRLEAASNTPHHKSADARHERDRENSRLMTVVRSVAVTSLASRIFASSPVMAALVAVVPIALGLAARRNEGA				NA	NA	NA	NA	NA
BMS010_08899	2217	fadJ_3	COG1024	Fatty acid oxidation complex subunit alpha	ATGAGCACTTATACCAATTTCACCATCGAGACGGACGCAGACGGCATCGCCCTCGTCACCTGGGATATGCCGGAAAAATCCATGAACGTCTTCACGTCAGAGGTAATGGACGAGCTGAACGCCATCGTTGACGCGACTGTCGCCGACAGTGCCGTCAAGGGCGTCGTCTTCACGTCAGGCAAAAGCACCTTTTCCGGCGGCGCCGATCTTTCGATGATCAAGTCGATGTTCTCCTTCTATAATGATGAGAAGACGAAGAACCCGGATCAGGCGGCGGCAAAGCTGTTCGAACTGGTTGGCCGCATGACGGGCCTGTTCCGCAAGATCGAGACCAACGGCAAGCCCTGGGTCTCGGCCATCAACGGCACCTGCATGGGCGGCGCTTTCGAACTGTCGCTCGCCTGCCACGGCCGGGTCGCCTCCAGCGCCAAGAACCTCAAGATCGCCCTGCCGGAAGTCAAGGTCGGCATTTTCCCGGGCGCCGGCGGCACCCAGCGTGTGCCGCGTCTGACGGATGCGCAATCGGCATTGCAGATGATGACCACCGGCCAGTCGCTGACCGGCGCGCGCGCCAAGGCTATGGGTCTGGTGCATCAGGTGGTGGAGCCGGATCAGCTGGTCTCCACTGCTAAGCAGATGATCAAGGACGGCCTGAAACCAGTCGCGCCCTGGGATGAAAAGGGCTTCAAGGCTCCCGGCGGCGGCATCTGGACGCCGGCCGCTGCCCAGCTCTGGCCCGCCGCACCGGCCATTCTGCGCCGTGAAAGCGCCGGCAACTATCCGGCCGCACTCGCCATTCTCAAATGCGTCTATGAAGGCCTGCAATTGCCCTTCGACACGGCGCTGAAGGTGGAGCAGCGTTATTTCACCGAAATCCTTCGCTCGAAGGAAGCCTTCGGCATGATCCGCTCGCTGTTCATTTCCATGCAGGAACTGGGCAAGGGCGCGCGCCGCCCGGCCGGCCAGCCGAAGACCGAGTTCAAGAAGGTTGGCGTCGTTGGTGCGGGCTTCATGGGCGCTGCCGTCGCTTATGTCACGGCTGCCGCCGGCATCCCCGTCACGCTGGTGGATCGCGATCAGGAAGCCGCCGACAAGGGCAAGGGTCATTGCGAAGAAAGCGTCAAGGCGGCCATCGGCAAGGGCAGGCTGACGCAGGAGGAGGGCAAGGCTCTGCTCGACCTCGTCACCCCGACGGCGGATTACAAGGCGCTCTCCGATGCCGATCTCGTCATCGAGGCCGTCTTTGAAGACCGCGACGTGAAGAAGGCCGTCATCGAAGCCGTGGAAGCCGTGCTGCCGCAGGGCGCTATCTTCGCTTCCAACACCTCCACTTTGCCGATCACCGGCCTTGCGAAGAACTCGAAGCGCCCGGCGGATTTCATCGGCATCCACTTCTTCTCGCCGGTCGAGAAGATGATGCTGACGGAAGTGATCCTCGGCAAGGAAACCGGCGACAAGGCGCTCGCCGTCGCGCTGGACTATGTGGCCAAGATCAAGAAAACCCCGATTGTGGTCAACGATACGCGCGGCTTCTTCGTCAATCGCTGCGTGCTGCGCTACATGGCGGAAAGCTACGATATGCTGATCGAAGGCGTACCCGCCGCCATGATCGAAAATGCCGCGAAATTCGCCGGCATGCCGGTCGGCCCACTGGCGCTGAATGATGAGGTGGCTATCGATCTTTCCTACAAGATCCTGAAGGCCACCGTCGCCGATCTCGGCGAAAAGGCCGTCGACCCGCGCCATATGGAACTGGTGAAAAAGCTGGTGGAAGGCGAGGGCCGCTTCGGCCGCAAGAACGCCAAGGGCTTTTACGACTATCCGCCAAAGCCTGCCAAAAAATCCCTCTGGCCCGGCCTGAAGGACCTTTATCCGCAGCAGAAGCCTGAAGCGGTGGATATGGAGGTGCTGAAACAGCGCTTCCTCGTCACCGTGGCGCTGGAAGCCGCCCGCACGGTGGAAGAAGGCATCGTCACCGACCCGCGTGAGGCGGATGTCGGCTCCATCCTCGGTTTCGGCTTTGCGCCCTATACCGGCGGCGCGCTGTCCTACATCGACGGCATGGGCGTGAAGAACTTCGTGGCGCTCGCCGAGAAGCTCAGCGAGACCTATGGCCCGCGCTTCAAGCCGACGCCGCTGCTGAAGGACATGGCCGCCAAGGGCGAAACCTTCTACGGTCGCTTCGATCCCTATGCCAGCGCCGCCAAGGCGGCCTGA	MSTYTNFTIETDADGIALVTWDMPEKSMNVFTSEVMDELNAIVDATVADSAVKGVVFTSGKSTFSGGADLSMIKSMFSFYNDEKTKNPDQAAAKLFELVGRMTGLFRKIETNGKPWVSAINGTCMGGAFELSLACHGRVASSAKNLKIALPEVKVGIFPGAGGTQRVPRLTDAQSALQMMTTGQSLTGARAKAMGLVHQVVEPDQLVSTAKQMIKDGLKPVAPWDEKGFKAPGGGIWTPAAAQLWPAAPAILRRESAGNYPAALAILKCVYEGLQLPFDTALKVEQRYFTEILRSKEAFGMIRSLFISMQELGKGARRPAGQPKTEFKKVGVVGAGFMGAAVAYVTAAAGIPVTLVDRDQEAADKGKGHCEESVKAAIGKGRLTQEEGKALLDLVTPTADYKALSDADLVIEAVFEDRDVKKAVIEAVEAVLPQGAIFASNTSTLPITGLAKNSKRPADFIGIHFFSPVEKMMLTEVILGKETGDKALAVALDYVAKIKKTPIVVNDTRGFFVNRCVLRYMAESYDMLIEGVPAAMIENAAKFAGMPVGPLALNDEVAIDLSYKILKATVADLGEKAVDPRHMELVKKLVEGEGRFGRKNAKGFYDYPPKPAKKSLWPGLKDLYPQQKPEAVDMEVLKQRFLVTVALEAARTVEEGIVTDPREADVGSILGFGFAPYTGGALSYIDGMGVKNFVALAEKLSETYGPRFKPTPLLKDMAAKGETFYGRFDPYASAAKAA	PGPT0001870_174	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0001870-fadJ-K01782	NA	NA
BMS010_08900	1209	fadA_4	COG0183	Putative acyltransferase	ATGACCGACGTATTTATCTATGACCATGTCCGCACCCCGCGCGGACGCGGCAAGAAGGATGGCAGCCTGCATGAGGTGCCTTCCGTTCGCCTTGCCGCCAAGACACTGGAAGCCATCCGCGACCGCAACGGGCTGGACACTTCTGCCGTCGACGACATCATCATGGGCTGTGTCGATCCCGTCATGGATGCCGGTGCGGTGATCCCGAAGGCCGCCGCCTTCGAGGCCGGTTATTCCAACAGGGCGCCGGGCATGCAGATCTCGCGCTTCTGCGCCTCGGGTCTCGATGCCATCAATTTCGCGGCCGGCAAGGTCAAGGCGGGGTCTGACGACATCGTCATCGCCGGCGGTGTCGAAAGCATGTCGCGCGTGGGCATGGGCATGTCTGGCGGCGCCTGGTACATGGACCCCTCGGTTAACTTCCCGGCCTTCTTCATGCCACAGGGCGTGTCGGCCGATCTCATCGCCACCAAATATGGTTTCTCCCGTGACGATGTCGACGCCTACGCCGTCGAAAGCCAGAAGCGTGCGGCGCACGCCTGGGAAAAAGGCTATTTCAACAAGTCGGTCATTCCGGTGAAGGACTCAAACGGCCTGACGATCCTCGACCGTGACGAGCATATGCGCCCCGGCACGGACATGCAGGCGCTGGCCTCCCTCAACCCATCCTTCCAGATGCCGGGTGAAATGGGCGGCTTCGAGGCCGTCGGCATCATGGCCCACCCGGAAGTCGAGCGGATCAACTACGTCCACCACGCCGGCAATTCATCCGGCATCGTCGATGGCGCTGCCGCCGTGCTGGTTGGCTCGAAGGCGGGCGGCGAGGCAATGGGCGTGAAACCGCGTGCCCGCATCAAGGCATTCGCCAATATCGGCTCCGATCCGGCGCTGATGCTCACCGGCCCGGTGGATGTGACCGAAAAGCTCCTGAAAAAGACCGGAATGTCGCTTGCCGACATTGATCTTTTCGAACTCAACGAAGCCTTCGCCGCCGTGGTCCTGCGTTACATGCAGGCCTTCGACATCGATCACGACCGGATGAACGTCAATGGCGGCGCCATCGCCATGGGCCATCCGCTGGGTGCCACGGGTGCGATGATCCTCGGCACGGTGCTGGATGAGCTGGAGCGGCGCGATCTGAACACCGCGCTCGTCACGCTCTGCATCGGCGCTGGCATGGGCACGGCGACGGTTATCGAGCGGGTTTGA	MTDVFIYDHVRTPRGRGKKDGSLHEVPSVRLAAKTLEAIRDRNGLDTSAVDDIIMGCVDPVMDAGAVIPKAAAFEAGYSNRAPGMQISRFCASGLDAINFAAGKVKAGSDDIVIAGGVESMSRVGMGMSGGAWYMDPSVNFPAFFMPQGVSADLIATKYGFSRDDVDAYAVESQKRAAHAWEKGYFNKSVIPVKDSNGLTILDRDEHMRPGTDMQALASLNPSFQMPGEMGGFEAVGIMAHPEVERINYVHHAGNSSGIVDGAAAVLVGSKAGGEAMGVKPRARIKAFANIGSDPALMLTGPVDVTEKLLKKTGMSLADIDLFELNEAFAAVVLRYMQAFDIDHDRMNVNGGAIAMGHPLGATGAMILGTVLDELERRDLNTALVTLCIGAGMGTATVIERV	PGPT0008320_4327	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
BMS010_08901	240			hypothetical protein	ATGGTTACCAAGGCAGATTTAACAGATTGGGTAGTCGAGGCGCTTAAGGCGAACAAAGGCGAAGGATCAATTCTGTACGTAGCCCAGTACATTTGGGACCATCATGAAAAGGACCTGCGCGGGCACGATCTTTTTTATTCCTGGCAATACGACATGCGATGGGCAGCGACGGAGTTGAGAAAAAAGGGCCGTCTCGTTGCCGCTGATGACGATCGCCGCGGAAAATGGACGCTTAAATGA	MVTKADLTDWVVEALKANKGEGSILYVAQYIWDHHEKDLRGHDLFYSWQYDMRWAATELRKKGRLVAADDDRRGKWTLK				NA	NA	NA	NA	NA
BMS010_08902	1797	dmdC_5	COG1960	3-methylmercaptopropionyl-CoA dehydrogenase	ATGCCTGTTTACAAGGCCCCAGTTAAAGACACGCTTTTTATCCTGAACGACGTTCTCGGCCTGGAGCGGTATAACAACCTGCCCGGCTTCGAGGATGCAACCCCCGACATGATCGAGGCCATTACCGGTGAAGCCGCAAAGCTTGCCGAAGAGCGGCTTTTCCCGCTCAACCTTTCCGGCGACCAACAGGGTTGCAAGCGCGCCGATGACGGTTCGGTTTCCGTGCCGGATGGTTTCAAGGAGGCCTATGACGCCTATTGCGAGGGCGGCTGGATCGGCCTTGCCGTTCCGCCGGAATTCGGCGGTCAGGGCCTGCCTTATACGCTGCACGCCGCCATTGGCGAATATATGTCGTCGGCCAACCTGTCGCTGATGATGTATCCCGGTCTGACGCAGGGTGCGATTGCCGCCATTCTGGTGCATGGCACGCAGGAGCAGAAGGACACCTACCTGCCGAAGATGGTGGAAGGCACATGGTCCGGCACCATGAACCTGACCGAACCCCATTGCGGCACCGATCTCGGCATGCTGCGCACCAAGGCTGTGCCGCAGGCTGACGGCAGCTACAAAATTTCCGGCCAGAAGATATTCATCTCCGCCGGCGAACATTCCATGACGAACAATATCGTTCATCTGGTAATCGCCCGCATCGAAGGCGCGCCTGAGGGCACCAAGGGCATTTCGCTCTTCATCGTACCGAAGTTCCTGGTGAAGGAAGACGGCACGCCGGGCGAGCGCAACGGCGTCACCTGCGGTGCCATCGAACACAAGATGGGCATTCACGGCAACGCCACCTGCGTCATGAACTACGATGACGCGACCGGTTATCTGCTGGGCGCTGAGAACAAGGGCCTTTCGGCCATGTTCGTGATGATGAACGAAGCCCGCCTCGGCGTCGGCCTTCAGGGTCTTTCCGTTGGCGAGATCGCCTACCAGAACGCGGTCGAATATGCCCGTGAGCGTATTCAGGGCCGCTCGCTCTCCGGAGCGAAATTCCCCGACAGGAAGGCCGACCCGATCATCGTGCATCCCGATATCCGCCGCACGCTGATGACCATCAAGGCCTATAATGAGGCCGGCCGCGCCTTCCTTCTGTGGACCGCGCTGCAATCCGACATCGCCCACCGCGCCACTGACGAAAAGCAGCGGCAGGCGGCGGACGACCTGCTCGGGCTCGTCACCCCGATCCTGAAAGGTGTCCTGACCGACAAGGGCTTCGAACACGCCGTGATGGCGCAGCAGGTCTTCGGCGGCCATGGCTACATCGAGGAACATGGCATGAGCCAATATGTTCGCGATGCACGCATCACCATGATCTATGAGGGCGCCAACGGCATTCAGGCGCTCGATCTGGTTGGCCGCAAGCTCGGCATGAATGGCGGCCGCGCCGTCATGGCGCTGTTCAAGGAAATCGGCGATTTCTGCGAGGAAAACCGCGCCGATGAAAAGCTCAGCCTTTACACCAAGGGTCTGAAGAAGGGCTTGAACGACCTGCAGGCCGCAACCATGTGGTTCATGCAGAACGCCATGGCGAAACCCGACAATGCCGGTGCCGGCTCGACCGATTACATGCATCTCTTCGGCATCGTGGTGCTGGGCTACATGCAGGCGCGCATGGCGAAAGCCGCCAGCGAAGCGCTTGTAGCGGGCAGCACTTCGGACGAGGATTACCTCAAGACCAAGCTTGTCACGGCGAAGTTTTACATGGAGCGCATCATGCCGGAAACGGCGCTGCGCAAGGCCCGCATCGAAACCGGCGCGGACACCATGATGGAACTGGCTGCGGAAGCATTCTGA	MPVYKAPVKDTLFILNDVLGLERYNNLPGFEDATPDMIEAITGEAAKLAEERLFPLNLSGDQQGCKRADDGSVSVPDGFKEAYDAYCEGGWIGLAVPPEFGGQGLPYTLHAAIGEYMSSANLSLMMYPGLTQGAIAAILVHGTQEQKDTYLPKMVEGTWSGTMNLTEPHCGTDLGMLRTKAVPQADGSYKISGQKIFISAGEHSMTNNIVHLVIARIEGAPEGTKGISLFIVPKFLVKEDGTPGERNGVTCGAIEHKMGIHGNATCVMNYDDATGYLLGAENKGLSAMFVMMNEARLGVGLQGLSVGEIAYQNAVEYARERIQGRSLSGAKFPDRKADPIIVHPDIRRTLMTIKAYNEAGRAFLLWTALQSDIAHRATDEKQRQAADDLLGLVTPILKGVLTDKGFEHAVMAQQVFGGHGYIEEHGMSQYVRDARITMIYEGANGIQALDLVGRKLGMNGGRAVMALFKEIGDFCEENRADEKLSLYTKGLKKGLNDLQAATMWFMQNAMAKPDNAGAGSTDYMHLFGIVVLGYMQARMAKAASEALVAGSTSDEDYLKTKLVTAKFYMERIMPETALRKARIETGADTMMELAAEAF	PGPT0008385_270	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008385-acd-K00249	NA	NA
BMS010_08903	3750			hypothetical protein	ATGAACGGATTGCGATCGAAAACCCAACAGCCAAGCGACAGATCGTCTCTTGATGCGCTCAATCGCACCATTGAAGGCCTCGAAGCCCGTATCGAAGGGCTGATGAGCCAGAAGTTCCCGCGCGACCCCCGGGCCGCGAGCGCGCAAGCCGAGCCCAAAAACGAGGCTTACGCCGCGTCGCGCGAACCGCGCGCCAGTGTTACCCCGCCGCAGCTCGATCCCGTCAACGAAATCCGCCAGCGCCAGCGTCTCCTCGAAGCGAGCTTCCAGCGCCCGCAGGAACCCGCCGCCCGCCCGGAGCGGACGATTACCAGACCGCTTGCACCGGAATACCGGCCGAGGGACGCCCAGCAGGCGGCCGCTCCCGCACCGCGGGCCCGCGCCATTCCGCCCTATCAGGAACAGCAACGCAATGACGCAGCCCTGCAGGAAATCGCCCAGGCGCTCGTCAATCTGCGGCATGAGCTGAAGCACGACATTGCCGAAGGCGTTGCCCGCGAAGCGCAGGGCCTGCGCGCCGAAATCCGCAATATTCGCGCGGTGGCGGAAGACCAGCAGTTCATCGGCGATCTGCGCGACGACATAGCGCGGTTGGCCGGCAGCATCGACCAGCTCGGCAATCTGGCGTCTCCCGATGCCTACGGGCTGCGCAACGAATTCGAGGACCTGCGCCTGACGATCGACCAGCTTGCGCGCGAGGACAGCGTGCACCGGATCGAAAGCCGCTGGAACAATGTGGAAGACACGTTGCGCGGTTTCGACGCCGGCGCGTTGCAGGATGAGATCGTTTCGCTCGCCTATCGTCTCGATGACATCAAGACTCAGCTCGGCGGCATGAGCAATAATCCGGCCGTGCGCGTGCTCGAAGACAAGCTGATCGCCATTGCCAGCGCCGTGGAGCAGCTCGGCAAGCATATGCAGCCGAACGAAGCGGCCTTTACCGAACAATTTTCCGGCCTCGACCAGCGGCTGGACGAAATCAGCCGCGCCATTGCCGCAACCGGCACGCGCGCCAATGCGCAGGCAACGGACAATGCGCTGGCGCAGCGTCTGGAAAACCGGCTGAACGGCCTTGCCGAACAGCTCGGCGACATCAACCGCCTTGCCGCCGCAAAACCTGAACCGGCGCTGGACCTGACCGCCCGTCTCGAAGCGCTGGCGGGCAAGATCGACGAACTCAGCACCGCCCGCGACGCCGCCCAGTTGCATGAGCGGCTGGACCAGCTTTCCCTGCTTCTGGAGCGTTCGCAGCGCCCCTCGCAACAGGCGGAGCTAACGTCTTTCCTCAGCGACATTTCCCGCAAAATCGATGCGCTGGATCACGGCGCCGTCAATGACGGTCTGGCAGAGCGGCTCGACCTGCTCTCGCGCCGGATCGAGGACCTCGATTATCGCTACAGCCAGCCGCAGCCGGCATCGGGCCTCAGCGAAAGCGCCTTCTCGCGTCTGGAAGAGCGGCTCGGCAATATTGCCGCCCGTCTCGACGAGACCGCCCATGCCGCGCCCGCCGACAGCCATGCGCTGGCAAGCCTCGAAAACCAGATCGCCCATCTCTCGACGCTGATCAGCCAGCCGGTGCAGACGCAGGCCGCAGGCATGCCGCCTGAACTTGATGCCCGCATGGCGGCCATCGAAGACTACATGGCGTCCAACGACGAATATATCATCGAAGCAGCCCGGCAGGCGGCCGAGGCCGTTCTCGATGCCTATACCCGCAATAATCTATCCGCCGGCGCAAACCTTGCCGACATGACCATGCTGACCGATCTTGCGACCGATCTGCGCAATCTCGAAGCCTTGAGCCGCAACACCGAAGAACGCACGCACCGCACATTCGAAGCGCTGCACGAGACGCTGGTGCAGATCGCCGGCCGGCTGGATAACCTCGACAATGCCCCCGTCTACCGCGAAGAGGCCGCGCCCCGCAACGTCGCGAAGCCTGTGTCGGCCCCCGCGCACGAAGATGTATCCATGCCGGCCGCCATCTTCCCGGAAGAGGGTTATATCGCCGAAGAACAGGCCATTCTCGACGCCGACGGGAAAGATGGGGATGCCATCGTGCCTCCCGCTGCGGCAAAGCCCGCGAAGGCGGAAAAAAAGAGCCTGCTTGCCGGCCTGACGAAGCGTTTCAAGACGGGTACTGCAAAGACCGTCAAGGCCGCAGAAGAACCCGTGTCGGCCTCTTCCTCCGCCCGTACGCAGGTGGAGCCCGCACCGTCGCTCGATCCGATCGACGTTCTGCCGGCGGGTCAGGAGAACGAACTTCTGGAGCCGGGTTCGGGTGCGCCCGATATCAAGAAAATCCTCGAGCGCGTGCGCGCCAGCCAGGTGGCCGCCAGCGGCAAGGCCGCGGACGCCGAAGGACGGACGGATTTCATTGCCGCCGCCCGTCGTGCGGCGCAGGCCGCCGCCATGGAAACATCGCCGGAGAAGCTTGATACCGGCAAGAAGGGCCGCAAGGCCGAGGCATCGGGGCTCTCGCGCTATCGTCGCCCGCTGCTGCTCGGCATCGGCGCCATTCTTCTGGCGATGATGGCGATGCCGCTCGTCAAGACGCTGATCGGCGGCGCGGAAGCTCCGGCTCCGGTCATCGAGCAGAAGCAGGACAATAGCCCGGTCTCCGCGCTTCCTGAAGCGGGCGACAAGGCCGTGACCATTCCGTCCGATCTCGCCATCGATCCGGAACAGGCCGCATCCGCCGACAGCATCGAAAACACCGCACCGGCGGAAAACACCATCGATCCCCGCACCGTCGGCGGCGCACCGCTGCCTGACGAGCCGCCGGTTGCCGACGTTCCTGCCGTGGATGCGGCAAATTCCGGCACTCTCGCGCAGAACGAACCTTCGGCTCCGGCACAGGCCGCCGCCACGGCTGCTCCCGCCCAGGACGCCATCACCGTTCCCGCCGGCATCGAGCCGGCATCTCTTGCCGAAGCGGCCGCCAAGGGCGACACGCAGGCGCTGTTCGAGATCGCAGCCCGCTACACCGATGGCCGCGGCGTTGCCGCCGACCGCACCGAGGCGGCAAAGTGGTACAAGCTCGCCGCTGATCGCGGCCTTGCACCCGCGCAATATCGTCTCGCCAATCTCTACGAGAAGGCGAACGGCGTCGAACGCAACCTTCCCGAAGCCAAGCGCTATTACACGCTGGCCGCGGAACAGGGCAATGCGGGCGCCATGCACAATCTTGCCGTGCTGCTTGCTTCCGATGCGGCCGGTCAGCCGGATTTCGCCGCCGCCGCGCAATGGTTCATCAAGGCTTCCGACCTCGGCGTTCGTGACAGCCAGTTCAACCTCGCCATTCTCTATGCGCGCGGCAGCGGCGTGAAGCAGGACATCGAGGAATCCTACAAGTGGTTCGCCATCGCAGCTAAGGATGGCGACGCCGACGCCGCCCAGAAGCGCGACGAAGTGGCAGGGGCCCTGAACCCGCAGCAGCTTCAGAGCGCCAAGGCCAAGGTGGACGCCTGGAAGGTCAAGCCGCTTTCGGAAGATGCCAACAGCGTCAACCCGCCCGAGGAATGGGCCGGCAAGGAAGGCGTGAAAACTGCCTCCGTGGACATGGAAAAGGCGATCCGCAACATTCAGGCGATCCTGAACAAGAACGGTTTCGATGCCGGCCAGCCTGACGGCAAGCTCGGCAAGAACACGGTGACGGCCATCAAGGACTTCCAGAAGTCCGTGGGCCAGACGCCGGACGGCCGCATTACCAACGAGCTGGTAACCGCGCTCCTCGCCCGCAACAAATAA	MNGLRSKTQQPSDRSSLDALNRTIEGLEARIEGLMSQKFPRDPRAASAQAEPKNEAYAASREPRASVTPPQLDPVNEIRQRQRLLEASFQRPQEPAARPERTITRPLAPEYRPRDAQQAAAPAPRARAIPPYQEQQRNDAALQEIAQALVNLRHELKHDIAEGVAREAQGLRAEIRNIRAVAEDQQFIGDLRDDIARLAGSIDQLGNLASPDAYGLRNEFEDLRLTIDQLAREDSVHRIESRWNNVEDTLRGFDAGALQDEIVSLAYRLDDIKTQLGGMSNNPAVRVLEDKLIAIASAVEQLGKHMQPNEAAFTEQFSGLDQRLDEISRAIAATGTRANAQATDNALAQRLENRLNGLAEQLGDINRLAAAKPEPALDLTARLEALAGKIDELSTARDAAQLHERLDQLSLLLERSQRPSQQAELTSFLSDISRKIDALDHGAVNDGLAERLDLLSRRIEDLDYRYSQPQPASGLSESAFSRLEERLGNIAARLDETAHAAPADSHALASLENQIAHLSTLISQPVQTQAAGMPPELDARMAAIEDYMASNDEYIIEAARQAAEAVLDAYTRNNLSAGANLADMTMLTDLATDLRNLEALSRNTEERTHRTFEALHETLVQIAGRLDNLDNAPVYREEAAPRNVAKPVSAPAHEDVSMPAAIFPEEGYIAEEQAILDADGKDGDAIVPPAAAKPAKAEKKSLLAGLTKRFKTGTAKTVKAAEEPVSASSSARTQVEPAPSLDPIDVLPAGQENELLEPGSGAPDIKKILERVRASQVAASGKAADAEGRTDFIAAARRAAQAAAMETSPEKLDTGKKGRKAEASGLSRYRRPLLLGIGAILLAMMAMPLVKTLIGGAEAPAPVIEQKQDNSPVSALPEAGDKAVTIPSDLAIDPEQAASADSIENTAPAENTIDPRTVGGAPLPDEPPVADVPAVDAANSGTLAQNEPSAPAQAAATAAPAQDAITVPAGIEPASLAEAAAKGDTQALFEIAARYTDGRGVAADRTEAAKWYKLAADRGLAPAQYRLANLYEKANGVERNLPEAKRYYTLAAEQGNAGAMHNLAVLLASDAAGQPDFAAAAQWFIKASDLGVRDSQFNLAILYARGSGVKQDIEESYKWFAIAAKDGDADAAQKRDEVAGALNPQQLQSAKAKVDAWKVKPLSEDANSVNPPEEWAGKEGVKTASVDMEKAIRNIQAILNKNGFDAGQPDGKLGKNTVTAIKDFQKSVGQTPDGRITNELVTALLARNK	PGPT0015890_74	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-PILUS|FIMBRIAE_SYSTEM	MOTILITY-PILUS_SYSTEM,PGPT0015890-podJ-K13582	NA	NA
BMS010_08904	927			hypothetical protein	GTGACTGTCTATCTGCCGATCGCAGAACTGTCGGTGAATATTTTCATCATTCTCGGCATGGGCGCGGCCGTCGGTTTTCTTTCCGGCATGTTCGGCGTGGGCGGCGGCTTTCTGATTACCCCGCTTCTGATCTTCTACAATATTCCGCCTGTGGTGGCCGTGGCGACGGGGGCAAACCAGGTGGTCGCCTCCTCCGTGTCAGGCTCGATCACGCATTTTCGGCGCGGCACGCTCGACGTCAAGCTCGGCAGCGTGCTGCTTGTGGGCGGTCTGGTGGGGGCGACGGTCGGCGTGTGGATATTCTCCTTCCTGCGCAGCATCGGCCAGCTCGATCTCATCGTCTCGCTGCTTTATGTCATCCTGCTCGGCACCGTCGGCGGGCTGATGCTGAAGGAAAGCATTTCGGCGCTTCGCCGCGCCGCCCGCAACGAAACCGTGACGCTGCGCCGGCCGGGCCATCACAACTGGGTGCACCGCCTGCCGCTGAAAATGCGGTTCAAGAAATCGAAGATCTATCTCAGCATCATTCCCATCGTCACGCTGGGTTTCGGCATCGGCATCCTCACCTCGATCATGGGTGTGGGCGGCGGCTTCATCATGGTGCCGGCGATGATCTATCTCTTACGCATCCCCACCAGCGTGGTTGTCGGCACCTCGCTGTTCCAGATCATTTTCGTAACCGCCTATACGACCGTGGTTCAGGCGGCGACCAACTATTCCGTCGATGTGGTGCTGGCCTTCATCCTGATGGTGGCGGGCGTCATCGGCGCGCAATATGGCGTGCGCGTCGGCCAGAAACTGCGCGGCGAACAGCTGCGCGCCCTGCTGGCGCTTCTCGTTCTCGCTGTTGCGCTTCGCCTTGCCGTATCGCTGGTGGTGCGCCCGGAAGACCTGTTTTCGGTGGCCGTCGGGGGGTTAGGTTATTGA	MTVYLPIAELSVNIFIILGMGAAVGFLSGMFGVGGGFLITPLLIFYNIPPVVAVATGANQVVASSVSGSITHFRRGTLDVKLGSVLLVGGLVGATVGVWIFSFLRSIGQLDLIVSLLYVILLGTVGGLMLKESISALRRAARNETVTLRRPGHHNWVHRLPLKMRFKKSKIYLSIIPIVTLGFGIGILTSIMGVGGGFIMVPAMIYLLRIPTSVVVGTSLFQIIFVTAYTTVVQAATNYSVDVVLAFILMVAGVIGAQYGVRVGQKLRGEQLRALLALLVLAVALRLAVSLVVRPEDLFSVAVGGLGY				NA	NA	NA	NA	NA
BMS010_08905	828			hypothetical protein	TTGACCCGCCATTTGCTGCTTGCCGCCCTTGCGCTGGCCTCATGTCTCACTTTCGGGCAGACCGCTTGGGCCCAGACGCCGCCGCTTGCCCTGCCGCCCGGCCCGCAGCAGCGATCCCTGCTGGAAAATATCGAAATCGGCGCATCGACGACCGAAATTCCAATTGCTTCCGATTTTCGCGGCGCGGATTTCACGCTTTTCGGCGCGCTGAACAATACCGACCAGTTGCTGCTCGCCATCGGGCAATACGACATTGTCGTGACGCTCGAGGGACCGAGCGACTATATGACCGTGCGCAAGAAGGAACGCGTGGCTGGCATCTGGATCAATACCAGCGCCATAACCTTCACGCCGCTGCCGGAATCCTATTCCATGGCCAGCACGCGCAATATCAGCGATGTCGCTTCGCCCGGAACGCTCCGCGCCATGGGGCTTGGCGTCGATCATCTGTCACTGAAAAGCGCGGTCTTTTCCGGCGTGCCCGACAATGTCTTCGATTTTCAGGAAGCCTATCGGCGTCTGAAGCTTTCCAGCGGCATCTATCGCAACGACACGACCGGGGTGCGGCTGGAACGCACCGGCCTGTTCTGGGCGACTTTGCGCCTGCCGGCCAACGTGCCGAACGGCGTGCACACCGCCCGCGCCTATCTCTTCAAGAGCGGCAAATTCATTGCCCAGCGCGAACTGAAACTGCGTGTCGTCAAGACCGGCATGGAACAGGCGATCACCGACGCCGCGCATCAGACGCCGCTTGCCTATGGGGCGCTCTGCGTTCTGCTCGCCGTCGTGACCGGCTGGGGCGCCAGCATCATCTTCCGCAAGGACTGA	MTRHLLLAALALASCLTFGQTAWAQTPPLALPPGPQQRSLLENIEIGASTTEIPIASDFRGADFTLFGALNNTDQLLLAIGQYDIVVTLEGPSDYMTVRKKERVAGIWINTSAITFTPLPESYSMASTRNISDVASPGTLRAMGLGVDHLSLKSAVFSGVPDNVFDFQEAYRRLKLSSGIYRNDTTGVRLERTGLFWATLRLPANVPNGVHTARAYLFKSGKFIAQRELKLRVVKTGMEQAITDAAHQTPLAYGALCVLLAVVTGWGASIIFRKD				NA	NA	NA	NA	NA
BMS010_08906	438	teaD	COG0589	TRAP-T-associated universal stress protein TeaD	ATGTTCAAGCACATTCTCATTCCCACCGATGGCTCGCCGCTGGCGCAGATCGCAATCGACCAAGGGTTCGCTCTCGCCAAGGAGGCAGGCGCAAAGGTGACCGTCGTGACGGTATCGGAACCCTTTCACGTGATTGCCAGCGATGTCGAGGACATTGCCGCCATTGCCGAAGAAGAATTCCACCGCTGCGAGGAAGCGGAACATCTGCTGAGGGATACGCAGGCGCAGGCCACTTCCATGGGGCTGAATTGCGAAGCGCTGCTGGCGCGAGCGGGAAGGCCCGACGAGGCGATCATCGAAGCCGCCAACAGGAGCGGCTGCGATCTCATCGCCATGGCCTCGCACCGACGCAGGAGCTTCGTGGAGATGCTGCTCGGCAGTGTCACGGCCAAGGTGCTGAAGAATTCGAAGATACCGGTGCTGGTCTACCGGCAATAG	MFKHILIPTDGSPLAQIAIDQGFALAKEAGAKVTVVTVSEPFHVIASDVEDIAAIAEEEFHRCEEAEHLLRDTQAQATSMGLNCEALLARAGRPDEAIIEAANRSGCDLIAMASHRRRSFVEMLLGSVTAKVLKNSKIPVLVYRQ				NA	NA	NA	NA	NA
BMS010_08907	729			hypothetical protein	GTGCTGAGCCGGCTGACATTGAGCGACAGGTTTTCCAATGGCTTCGAATGCCTCGGCAGCGAAACTGCCATCAATGGCGTCGCCGCCTGGTGCGATCCTTTGGGCGGGCTTTACCTGCCGGACCTGTCGCTGCTCGTCGTTTCCGACCTGCATCTGGAAAAAGGCGCGGCCTTTGCAAGGCGCGGACGCATGCTGCCGCCTTACGACACCATCGCCACGCTTAAAATCCTCTCCTCCCTTGTCAGCCGTTACGATCCGAAGATCGTGGTCAGCCTCGGCGATAATTTCCACGACCGCGTCGGTTCCGAGCACCTGCCGCTGCCGCTGCGCGAACTCATTCGCGACATGGCCCGTGGCCGCGAATGGATATGGATCAACGGCAATCACGATCCCGACGGCACGGTCGATCTGCCGGGCTCTTCGGTGGACGAAATGTTTTACGGCACTCTCGTCTTCCGCCACGAGCCGAAACCGGGCGATGCCGCCGGCGAGATCGCCGGGCACCTGCATCCCTCTGCCACGGTCCGCCGCCGTGAAAAGACGGTGCGGCGGCCCTGTTTCGCCACCGACGGTTCGCGTCTGTTGATGCCGGCTTTCGGGGTGATGAGCGGCGGGCTGGATCTGCGGCACAAAGCCATGCGCGGCCTGTTCGATCATGCCGCTCTCGTCGCGCATCTGATGGGGAGGGACCGCATCTATTCGGTGCGGTTTTCAAATCTTCTCGGCTGA	MLSRLTLSDRFSNGFECLGSETAINGVAAWCDPLGGLYLPDLSLLVVSDLHLEKGAAFARRGRMLPPYDTIATLKILSSLVSRYDPKIVVSLGDNFHDRVGSEHLPLPLRELIRDMARGREWIWINGNHDPDGTVDLPGSSVDEMFYGTLVFRHEPKPGDAAGEIAGHLHPSATVRRREKTVRRPCFATDGSRLLMPAFGVMSGGLDLRHKAMRGLFDHAALVAHLMGRDRIYSVRFSNLLG				NA	NA	NA	NA	NA
BMS010_08908	2379	rhlB_2		ATP-dependent RNA helicase RhlB	ATGCTGCTGATCGCGCCCACGGGCGCCGGCAAGACGCTGGGCGGCTTCATGGCTTCTCTCACCGATCTGGCAGAGCGCGGCAAGATGCCGCCGGGCTCCGGCTTCGTCGGCGTGCACACGCTGTATATCTCGCCGCTCAAGGCGCTGGCGGTGGATATCGAACGCAATCTCACCAGACCCGTCTCCGAAATGGGCCTGCCGATTTCCATCGAGACCCGCACCGGCGATACGCCGCAGGGCAAACGCCAGCGCCAGAAGGTGAAGCCGCCGGATATTCTGCTGACGACGCCGGAGCAGGTCTCGCTGCTGCTCGCCAACAAGGAGGCCGAGCGCTTTTTCCGCGATCTGAAATATGTGGTGCTCGACGAGTTGCATTCGCTCGTCACCTCCAAACGGGGCCATCTGCTGGCGCTGGCGCTCGCCCGTGTGCGTCGGCACGCACCCGATGTGCGCTTCATCGGCCTTTCGGCCACGGTGGCGGAGCCGATGGACTTGCGCCGTTACCTCGCGCCGCAGGGGCAGGATGAGCCGCCCGCCGGCCTCATCACCGTCGAAGGCGGGGCAAAGCCGGATATCTCCATCCTGAGCACGGAAGAGCGCATCCCATGGTCCGGCCACTCGGCACGTTACGCCATGAAGGATTTGTATGCCGCGCTGAAGGACCATCAGACGACGCTGATCTTCGTCAACACCCGCTCGCAGGCGGAGCTGATCTTCCAGGAGCTCTGGACCATCAATGACGACAATCTGCCGATTGCACTGCATCACGGTTCGCTGGATGCCGGCCAGCGCCGCAGGGTGGAAGCGGCCATGGCGGAAAACAAATTGCGCGCCGTCGTCGCCACCTCCACGCTCGATCTCGGCATAGACTGGGGCGATGTCGATCTCGTCGTGCATGTCGGCGCGCCAAAGGGGGCAAGCCGCCTTGCCCAGCGCATAGGCCGCGCCAATCACCGCATGGACGAGCCGTCAAAGGCCATCCTCGTTCCCGCCAACCGTTTCGAGGTGATGGAGTGCCGGGCAGCGCTTGATGCGAACTATATCGGCGCGCAGGATACGCCGCCGATTGCCGAGGGCGCGCTCGATGTTCTCGCCCAGCATGTGCTCGGCATGGCCTGCGCCGAGCCTTTCGATGCGGACGATCTCTATCGTGAAGTAACCAGCGCTTCGCCCTATGCCGACCTGCCGCGCGCCACCTTCGACCGGGTGGTGGATTTCACCGCCACCGGTGGTTATGCGCTGCGCACCTATGAGCGTTACGCCCGCATCCGCCAGATGAAGGACGGTCGCTGGCGCGTCTCCAATCCGGCGGTCGCACAGCAATATCGCCTGAACCTCGGCACCATCGTCGAGGCGGCGGAACTCAATGTCCGCATGGTCAAGCGCAATGCCAAGGGCACGGTCGGGCGCGGCGGCATGTCTCTCGGCAAGGTCGAGGAGTATTTCCTTGAGCAACTGGTGCAGGGCGATACGTTCCTCTTTGCAGGCAAGGTGCTGCGCTTCGAGGGTATCAGGGAGAATGAATGCCTGGTCTCCCAGGCCTTCTCCATGGACCCGAAAATTCCCTCCTATGCCGGCGGCAAGTTTCCGCTCTCCACCTATCTCGCGGATCAGGTGCGCTCCATGCTCTCGGACCCGACGCGCTGGCATGCGCTGCCGGATCAGGTACGCGACTGGCTGGCGATCCAGAAGGAAAAGTCGATCATTCCCAAGCGCGACGAGCTGCTGGTGGAGACCTTCCCCTTCCGCAAGCGCTTCTTCATGGTCATGTATCCCTTCGAGGGACGCTTGGCGCACCAGACGCTCGGCATGCTGCTGACGCGGCGGCTGGAACGGGCGGGCGCAAAACCCATGGGTTTCGTCGCCACCGATTATTCACTCGCCATCTGGGCCATGGAGGATATCGGCATGCGGCTGAAATCCCGCCGCCTGTCGCTGGCCGACCTTCTCGATGAGGACATGCTGGGCGACGATCTGGAAGCGTGGCTCGACGAATCCTTCATGCTGAAGCGGACCTTCCGCAACTGCGCCGTCATTTCCGGTCTGATCGAACGCCGCCATCCCGGCAAGGAAAAGACGGGCCGGCAGGTGACGGTCTCCGCCGATCTTATTTATGACGTTCTTCGCAGCCATGAGCCGGATCATATCCTGCTGGAAGCGACGCGGCGCGATGCCGCAGCGGGACTTTTGGACATTGGCCGTCTTGGCGATATGCTGAAGCGAATCAAGGGCCACACCACCCATCGCGCGCTGGAACATGTCTCGCCGCTTGCCGTTCCGGTCATGCTGGAAATCGGTCGCGAGACGGTGGCGGGTGAGGCGATGGACGATGTGCTGGCCGAGGCCGCCGACGAGCTGATCGCCGAGGCCATGTCCTGA	MLLIAPTGAGKTLGGFMASLTDLAERGKMPPGSGFVGVHTLYISPLKALAVDIERNLTRPVSEMGLPISIETRTGDTPQGKRQRQKVKPPDILLTTPEQVSLLLANKEAERFFRDLKYVVLDELHSLVTSKRGHLLALALARVRRHAPDVRFIGLSATVAEPMDLRRYLAPQGQDEPPAGLITVEGGAKPDISILSTEERIPWSGHSARYAMKDLYAALKDHQTTLIFVNTRSQAELIFQELWTINDDNLPIALHHGSLDAGQRRRVEAAMAENKLRAVVATSTLDLGIDWGDVDLVVHVGAPKGASRLAQRIGRANHRMDEPSKAILVPANRFEVMECRAALDANYIGAQDTPPIAEGALDVLAQHVLGMACAEPFDADDLYREVTSASPYADLPRATFDRVVDFTATGGYALRTYERYARIRQMKDGRWRVSNPAVAQQYRLNLGTIVEAAELNVRMVKRNAKGTVGRGGMSLGKVEEYFLEQLVQGDTFLFAGKVLRFEGIRENECLVSQAFSMDPKIPSYAGGKFPLSTYLADQVRSMLSDPTRWHALPDQVRDWLAIQKEKSIIPKRDELLVETFPFRKRFFMVMYPFEGRLAHQTLGMLLTRRLERAGAKPMGFVATDYSLAIWAMEDIGMRLKSRRLSLADLLDEDMLGDDLEAWLDESFMLKRTFRNCAVISGLIERRHPGKEKTGRQVTVSADLIYDVLRSHEPDHILLEATRRDAAAGLLDIGRLGDMLKRIKGHTTHRALEHVSPLAVPVMLEIGRETVAGEAMDDVLAEAADELIAEAMS				NA	NA	NA	NA	NA
BMS010_08909	504		COG1959	Putative HTH-type transcriptional regulator	ATGAAACTCGGCGACGGCGTGGAACAGGCCATTCACAGCGTGGGCATGCTGGCGGGACTTTCCGAAGGCGGCGTGCTGTCGGCGGCGGCGCTGGCGGAATTTCACGGCGTTTCCACGAGCTATCTGCTGAAGCATCTCCAGTCGTTGTCCAATGCCGGGATTGTCGCCACCGTGCCGGGGCCGAAGGGCGGTTACCGTCTGGCGAGGGCGACCGACAGGATCACGCTGCTCGATATCGTGCTGGCCGTCGAAGGGCCGCAGCCTGCCTTCCGCTGCGCGGAAATCCGCCAGCGTGGGCCGAACCCCTTGCCGGGGCGTTACTTCACCAAGCCCTGCGGCATCAATGCCGCAATGCTGAAAGCGGAAAAGGCCTATCGGGCCGAACTCGCCAAGACCACCATCGCCGACATTCTGGGCGATCTTGCCGCCAATGACGATGGCGGGATTGCCGCGCGTGGCTGCGCCTTTCTGGAGCTGAACGAGCGCAAAACAGCAACGCGCTGA	MKLGDGVEQAIHSVGMLAGLSEGGVLSAAALAEFHGVSTSYLLKHLQSLSNAGIVATVPGPKGGYRLARATDRITLLDIVLAVEGPQPAFRCAEIRQRGPNPLPGRYFTKPCGINAAMLKAEKAYRAELAKTTIADILGDLAANDDGGIAARGCAFLELNERKTATR				NA	NA	NA	NA	NA
BMS010_08910	462			hypothetical protein	ATGAAAACCCGTATCAACTATGCCAAAGCATCCCCCGAAGCCTTCAAGGCCGTTATGGCTCTGGAGAATTACGTTCAGGGCAGCGGGCTGGAGCGCCGCTTCGTGCACCTCATCAAGCTGCGCGCCTCTATCATCAACGGCTGCGCTTTCTGTGTGGACATGCATGTGAAGGAGAGCCGCCATGACGGGCTTTCCGAACAATGGATCAACCTGATGAGCGTGTGGCGGGAATCCCCCGTTTATACCCAGCAGGAACGGGCGCTGCTCGGCTGGGTGGACGCGGTGACGAAGATTGCCGAAACCGGCGCCCCGGATGACGCCTTCGAGGCGCTGAAGGCGCATTTTTCCGATGAGGAGATCGTGAAGATCACCGTCGCCATCGGCGCGATCAACACCTGGAACCGCATCGCCGTCAGTTTCCGCTCGCAGCATCCGGTCGATGCGGCTGCGAAGGCGGCGTGA	MKTRINYAKASPEAFKAVMALENYVQGSGLERRFVHLIKLRASIINGCAFCVDMHVKESRHDGLSEQWINLMSVWRESPVYTQQERALLGWVDAVTKIAETGAPDDAFEALKAHFSDEEIVKITVAIGAINTWNRIAVSFRSQHPVDAAAKAA				NA	NA	NA	NA	NA
BMS010_08911	642			hypothetical protein	ATGGACGATACGACTGCGCGCAGGCGTCTGAACCTTTGGGCCTCCGCGCCGGATCGTCATTCCTTGCTGGAAGACGCGCAGGGCGTTCTCGCGGGCAGCATGCTGGTTTCGCTCGGCGTCACGCTGTTTTCCGCTGCTGGCCTTTTGACGGGCGGCACGGTCGGGCTGGCATTTCTCGTGCATTACGGCACCGATCTAAGCTTCGGCGCGGTGTTCTTCCTCGTCAATCTGCCGTTTTATTATCTCGCCTTCCGTCGCCTCGGGCTTGCCTTCACGGTCAAGACCTTCTGCGCCATCGCCATGACGGCGCTGCTGTCGGAATATATGCCCGGCTTTTTCGCATTTCAGAGCATCAATCCGGTTGCCGCCGCACTTTTTGGCGGGCTGACGGTTGCGGCCGGCATGCTGGCGCTGTTTCGCCACCGCACCAGCCTCGGTGGTTTCGGCATATTGGCGCTTTATCTTCAGGATCGTTTCGGCTGGCGTGCGGGCCTCGTGCAGCTCGCCTTTGATGGCATGGTGCTGGCCTGCTCGTTTTTCGTGGCCACACCTTTCGTCATCATCTGCTCCGTCCTCGGCGCGCTGGTCATGAACCTCACGCTTGCCATCAATCACAGGAACGACCGCTACATCGCCATGTAG	MDDTTARRRLNLWASAPDRHSLLEDAQGVLAGSMLVSLGVTLFSAAGLLTGGTVGLAFLVHYGTDLSFGAVFFLVNLPFYYLAFRRLGLAFTVKTFCAIAMTALLSEYMPGFFAFQSINPVAAALFGGLTVAAGMLALFRHRTSLGGFGILALYLQDRFGWRAGLVQLAFDGMVLACSFFVATPFVIICSVLGALVMNLTLAINHRNDRYIAM				NA	NA	NA	NA	NA
BMS010_08912	639			hypothetical protein	GTGAGCAGAACGAGAAGTGTTTACGGCATGTGGAGTTCCGATCCGGCCAAACATGCGCCGGTGGAAGACGTGCAGGGCATCGTTACCGGTGCCATCGTCTCGGCGCTTGGCTTTTATCTTCTGAACAAGGTCGGCCTTCTGACCGGCGGCACCGCCGGCGTCGCCTTCCTGCTTCATTATGCTTTCGGCATCAGCTTCGGCCTCCTGTTCTTCCTCGTCAATCTGCCCTTCTATTACCTGTCCTTCCGCCGCCTCGGTCTTGCCTTTTCCTTCAAGACCTTCATCGCCATCGGCCTTGTTTCGGTGCTGACGGAAGTGGAGGCGCGCTGGATGGTGATCGACAGCATCAACCCGCTCTGGGCGGCGCTGCTCGGCGGTCTGCTTCTGGGTTACGGCTTGCTGGCGCTTTATCGTCACCGCGCCAGCCTCGGCGGCATCGGCATTCTCGCCATCTATATTCAGGATCGCTTCGGCATCCGCGCCGGTCTCATCCAGCTCGCCTTCGACGCCTTCGTGATGCTCTGCGCCTTCCTCGTCATCGATCCGGCCACGGTTGTCTATTCGATTGTCGGCGCTTTCGTGCTCAACATGTTTCTGGCCATCAATCACCGCTCGGACAGATATATCGTCGTGCGCTGA	MSRTRSVYGMWSSDPAKHAPVEDVQGIVTGAIVSALGFYLLNKVGLLTGGTAGVAFLLHYAFGISFGLLFFLVNLPFYYLSFRRLGLAFSFKTFIAIGLVSVLTEVEARWMVIDSINPLWAALLGGLLLGYGLLALYRHRASLGGIGILAIYIQDRFGIRAGLIQLAFDAFVMLCAFLVIDPATVVYSIVGAFVLNMFLAINHRSDRYIVVR				NA	NA	NA	NA	NA
BMS010_08913	942			hypothetical protein	ATGGCCCCAAACCAGTTTTCTTCCGGTGACGTCATTGCCGACCGCCGGGCGGACTATGCCCGCATGCTGGCGGAGAGCGGTGACTTTCCCGCCGCCGCCGAACTCATGGAACAGGCGCTGGAGCTTGCGCCGCGGTGGACGGCGGGCTGGTTTCGCTTCGGGGAATATCACGAAAAAGCGGGCGAAACGGACAAAGCCGTCGCGGCTTACGGGAAAGTCGCCCAACTGGACACCGAAGGACTTTTTGCAGCCGAGCTGAAACTCGCGGTTCTCGGCGCCGCCGAAACGCCCGAGCAACCGCCAAGCCGCTATGTGGAAGGGCTCTTCGACGATTATGCGGACCGTTTCGAAACCTCGCTTGTGGAAAAGCTGGATTACAGTGTGCCGCAAAAGCTGGCGGAACTGATCGGCAAGGCAGCGGAAGGCGGCGTCTTCGACACCATTGTCGATATTGGCTGCGGCACCGGTCTCCTTGGCGTTGAAATCCGCGCTTTCGCGAACCGGCTGGAAGGTTTCGATATTTCCCAGAATATGCTGGCCAAGGCGGAGGAAAAGGGGCTTTACGATCATCTCGACCAGGCCGATCTTTCGCTGGAGCCGGAGGCCTCGGGGCTCTTTACCCCCACGCTTGCCCAGCACCGCGCCGGCCTTGTGGCCGCCGCCGATGTGATGATGTATCTCGGCAGTCTCGAAACTGTCATGCCGCTCGTTTCCGCCCTGCTTGCGCCTTCCGGTTTCTTTGCCTTTTCGGTGGAGGATGCGGGGGAGGAAGACGGTTTCGTGCTTCGGGAATCCCTTCGTTACGCCCACTCGAAGAGCTATGTGAGTGAGCTTCTTGAGCGGACGGGCTTTTCCCTCATCGAAATCCGCAAAACCACCATTCGCAAGGATGCCGGAAAACCCCTTTCCGGCATTCTTTTTCTTGCCCGTGCCAAAGGCTGA	MAPNQFSSGDVIADRRADYARMLAESGDFPAAAELMEQALELAPRWTAGWFRFGEYHEKAGETDKAVAAYGKVAQLDTEGLFAAELKLAVLGAAETPEQPPSRYVEGLFDDYADRFETSLVEKLDYSVPQKLAELIGKAAEGGVFDTIVDIGCGTGLLGVEIRAFANRLEGFDISQNMLAKAEEKGLYDHLDQADLSLEPEASGLFTPTLAQHRAGLVAAADVMMYLGSLETVMPLVSALLAPSGFFAFSVEDAGEEDGFVLRESLRYAHSKSYVSELLERTGFSLIEIRKTTIRKDAGKPLSGILFLARAKG				NA	NA	NA	NA	NA
BMS010_08914	267			hypothetical protein	ATGGCCGGTGAGGTCAACAAAATGCTGGGTGACACGGTGGCCCGTACCGTGGTGAAGCTGCTGGTGGTTTCACTGCTCGTCGGCTTTCTGATGGCGATCTTCGGATTGACGCCATGGAACATCATCTACGGCGCGCGCGATTTCGTGGTCGACCTGTGGCGCAGCGGTTTCCATGCGCTGGGCGCAATCGGCGACTATCTGATCCTCGGGGCAACGATCGTCATTCCGGTTTTCATCATCCTGCGCCTGCTGAGCTACCGCCGCTGA	MAGEVNKMLGDTVARTVVKLLVVSLLVGFLMAIFGLTPWNIIYGARDFVVDLWRSGFHALGAIGDYLILGATIVIPVFIILRLLSYRR				NA	NA	NA	NA	NA
BMS010_08915	498			hypothetical protein	ATGACCCACTCCCCGTTTCAAACGCTTTCACGGCGCGGCTTCGTGCTGATGTCCGCTGGCTCCGTTCTTTCCGCCTGCGTCTCCATGCCCACCAACAAGGGCATGCCCTCCGGCACCCGCGACGAAACGGCGGCGGCGCTTCCCATGGTCAACGATCTGCGCCGTTCCAAGGGGCTTTCGCCGCTTGCCGTCAATGGCGCGGCAAGCGGTGCTGCCGCCTATCAGGCCGGCCGCATGGTCAAGGCGCAGAAGATGGCGCATCTGATCGGCCTGACCGACAGTTTCCTGATCCGCATGAAAGACGGCAATGTGCCGCTTCCGGCAGCGGAAAACGTGGCCGCCGGGCAGGACAGCGTCGAGCGGGTGGTGAAGGCCTGGATCGGCTCACAACATCACCTCGAAAACATGCTCGGGCCTTATAACGGCCTCGGCGTCGCGGTCGCTTATGACGCGGCCAGCCGCAACCGGCCCTATTGGGCGATGGTGCTCTGCGCCTGA	MTHSPFQTLSRRGFVLMSAGSVLSACVSMPTNKGMPSGTRDETAAALPMVNDLRRSKGLSPLAVNGAASGAAAYQAGRMVKAQKMAHLIGLTDSFLIRMKDGNVPLPAAENVAAGQDSVERVVKAWIGSQHHLENMLGPYNGLGVAVAYDAASRNRPYWAMVLCA				NA	NA	NA	NA	NA
BMS010_08916	1092	pyrD_3	COG0167	Dihydroorotate dehydrogenase (quinone)	ATGAGCGGATTATTTTCCTCTATCGGCCGCAAGGGCCTGTTTCTGGTCGATCCGGAAAAGGCGCATGGCCTGTCCATTGCGGCGCTGAAAAGCGGCTTCCTGCCCACCTGCATGGTGCCGCACGATCCGCGTCTGCAGCAGACCGTGGCTGGCCTCGTCTTCCCCAATCCGCTTGGCATGGCGGCGGGTTACGACAAGAATGCGGAAGTGCCGGGGCCGCTTCTGAGGCTCGGTTTCGGCTTTACCGAAATCGGCACCGTCACGCCAAAGGCGCAATCCGGCAATCCCAGGCCGCGTATCTTCCGTCTGGTCGAAGACGAAGGTGTCATCAATCGCCTCGGCTTCAACAATGAAGGCCATGCGGCCGCGCTGGAGCGCCTGAAGCAGGCAAAGCTGCGTGGCATCGTCGGTGTCAATATCGGCGCCAACAAGGATAGCGAAGACCGCATTGCCGATTATGTGCAGGGCATCGAGGCGTTTTATTCGGTTGCATCCTATTTCACCGTCAATATTTCCTCGCCCAACACGCCCGGCCTGCGCGATCTTCAGGCGCGCGAAAGCCTTGCCGCTCTTCTCGCCGCTGTGCTGGAACGCCGGAAAGTGGAAGCCGACCGTTTCGGCAAACGCATCCCGGTTTTCCTCAAGATCGCGCCCGATCTGACCGAAGAGGGGCTGGACGACGTTTCCGAAGAGGCGCTCGCCCATGATCTCGATGGCCTGATCGTCTCGAACACCACGCTTTCCCGCGAAGGTCTGCGACCCGGCCCGCACAAGGGCGAGGCAGGCGGTCTCTCTGGCAAGCCGGTCTTCGAGCTTTCCACCACGGTTCTCGCCAAGATGCGCCGCCGCGTCGGCGGCAACCTGCCGATCATCGGCGTTGGCGGTGTGTCATCGGCAGAGACAGCTTTGGAAAAGGTGAGGGCAGGGGCCGATCTCGTGCAGCTCTATTCCTGCATGGTCTATGAAGGCCCCGGCCTGCCCTCGGCCATCGTCAAGGGCCTGTCGAAGCTGGTCGCCCGCGAGGGTGTACAGTCCATTCGCGACCTGCGTGACAGCGCGGTGGACCGCTGGGCGGATCGCAAGCTTAGCTGA	MSGLFSSIGRKGLFLVDPEKAHGLSIAALKSGFLPTCMVPHDPRLQQTVAGLVFPNPLGMAAGYDKNAEVPGPLLRLGFGFTEIGTVTPKAQSGNPRPRIFRLVEDEGVINRLGFNNEGHAAALERLKQAKLRGIVGVNIGANKDSEDRIADYVQGIEAFYSVASYFTVNISSPNTPGLRDLQARESLAALLAAVLERRKVEADRFGKRIPVFLKIAPDLTEEGLDDVSEEALAHDLDGLIVSNTTLSREGLRPGPHKGEAGGLSGKPVFELSTTVLAKMRRRVGGNLPIIGVGGVSSAETALEKVRAGADLVQLYSCMVYEGPGLPSAIVKGLSKLVAREGVQSIRDLRDSAVDRWADRKLS	PGPT0021190_1254	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021190-pyrD-K00254	NA	NA
BMS010_08917	354			hypothetical protein	ATGCAGGAAACGCCCGCGATCATCTATAAAATCGTGCCGGAGACGTTATGGAGCGCGGCAAAGGCGAAGGGCGTCTTCGAAGGTGCGGCCATCGACCTGACCGACGGCTTCATTCATTTTTCAACGGCAAAACAGGCGGCAGAGACAGCCGCGCGGCATTTTTCCGGCCAGGTCGATCTGCTTCTGATCGCGGTCGACGGCGCGGCCCTCGGCGACAGGCTGGTTTATGAACCCTCCAGAGGCGGCGATCTTTTCCCGCATCTTTATGCGCCTCTTCCCCTGACCGCCGTGCTTTGGGAAACGCCGCTTTCGCTCGGTCACGACGGCCAGCACCAGTTTCCGGAGATTTTGTGA	MQETPAIIYKIVPETLWSAAKAKGVFEGAAIDLTDGFIHFSTAKQAAETAARHFSGQVDLLLIAVDGAALGDRLVYEPSRGGDLFPHLYAPLPLTAVLWETPLSLGHDGQHQFPEIL				NA	NA	NA	NA	NA
BMS010_08918	651	degU_5	COG2197	Transcriptional regulatory protein DegU	ATGTCGGAACTTGTCATTATCATCGCAGATGACCACCCGCTTTTTCGCGGCGCCCTGAAACAGGCCGTATCCGGCCTCGACGGGCAACAGAGCATTATTGAAGCCGGGGATTTCGAGGCCGCCCGCAGTGCAGCCGCAGCGCGCAACGACGCCGATCTCATGCTTCTCGACCTCGCAATGCCGGGGGTCAGCGGATTTTCAGGCCTGATGGCGCTCCGGGCGGAATTCTCCAGCCTGCCGATCGTCATCGTTTCGGCAACGGACGATGCGACCACCGTGCGCCGCTCCATCGAGCTCGGTGCTTCCGGTTTCATTTCTAAATCCTCGGGTATCGACGATATCAGGGACGGCATCCGCGCGGTTCTAGAAGGCGATGTCTGGATACCGGCGGGTCATCAGGGCGATAAGGAACAGGATCCTGACGTGGCGGATCTCATCGGCAGGCTCAGAACACTGACGCCGCAGCAAAGCCGGGTTCTGGGCATGCTGGCCGAAGGGTTGCTGAACAAGCAGATCGCCTATGAGCTCAATGTTTCCGAAGCCACCATCAAGGCGCATGTCTCCGCAATCCTGCTGAAGCTCAAGGTCGACAGCCGCACCCAGGCGGTGATCCAGCTCGCCAAGATAAATACATCGGCCATGGTGGCGTAG	MSELVIIIADDHPLFRGALKQAVSGLDGQQSIIEAGDFEAARSAAAARNDADLMLLDLAMPGVSGFSGLMALRAEFSSLPIVIVSATDDATTVRRSIELGASGFISKSSGIDDIRDGIRAVLEGDVWIPAGHQGDKEQDPDVADLIGRLRTLTPQQSRVLGMLAEGLLNKQIAYELNVSEATIKAHVSAILLKLKVDSRTQAVIQLAKINTSAMVA				NA	NA	NA	NA	NA
BMS010_08919	651	lexA_2		LexA repressor	ATGCTGTCACACGAGACGATCTGGAGCGCCATCGATACGCTTGCCGAACGCCACCAGCTAACGCCTTCGGCATTGGCGAAGCGCGCCGGCCTCGATCCCACCTCGTTTAATAAATCGAAACGTTTCGGCCCGGATGGCCGCAAACGCTGGCCTTCGACTGAATCCGTCTCCAAGGTGCTGGAGGCGACGGGGGCAAGCGTCGACCAGTTTTTCGGTTATGCTTTCGGCAGGGCGCAGACCATGCAGCCTTCCGGCGCCGACAACGCCATTCCCCTGCTCGGTTTCGCGCAGGCGGGCTCCGGCGGCTTTTTCGACGATGGCGGTTTTCCGGCGGGTCAGGGCTGGGATGTGGTGGAATTCCCCTCCTCTCCAGAGCGCAGGCAGGGCGTCTATGCACTGGAAGTGCAGGGCGAGAGCATGATGCCGCTCTACCGCGACGGCGATATCCTCATCGTGGAGCCCGGCGCGCAGGTGCGGCGCGGCGACCGCGTGGTGCTGAAAAGCCGCGACGGCGAAGTGATGGCCAAGGTGCTGGCGCGGCAAAGCCCCAAAAACATCGAGCTTCTTTCGCTCAACCCGGAACATCCGAACCGCAGCTTCGACATGGCCGATGTGGAATGGATCGCCCGCATCATCTGGGCCAGCCAATAA	MLSHETIWSAIDTLAERHQLTPSALAKRAGLDPTSFNKSKRFGPDGRKRWPSTESVSKVLEATGASVDQFFGYAFGRAQTMQPSGADNAIPLLGFAQAGSGGFFDDGGFPAGQGWDVVEFPSSPERRQGVYALEVQGESMMPLYRDGDILIVEPGAQVRRGDRVVLKSRDGEVMAKVLARQSPKNIELLSLNPEHPNRSFDMADVEWIARIIWASQ				NA	NA	NA	NA	NA
BMS010_08920	753			hypothetical protein	ATGACGCAAAAAATCGGGACTTTTACCGACCGGATCAATAACCGGCTGGTGCGCTATTTCCCGGGACCGGCGGTGCGGATCGAAACGTCCGAACCGATCGTGTCCTTCACATTCGACGATGTGCCGGCAAGCGCCTGGACGGCGGGTGCGCGCATTCTGGAAAACGAGGGCGTTTGCGGCACGTTTTATATCGCCGGCGTGTTTATCGACCAATACGATGAACAGCAGCAGATGATTTCCGCGAAAGGCTGCTCGGAACTGGCGGCAGCCGGCCATGAGCTTGCCTGCCACACCTTTTCCCATCGCAAACTCTCGAGCTTTTCCCGACGGGGGCTCGAGGAGGATCTCGATCGCAATGACCGCGTGCTCGGCTCGTTCGATGCAAGCCGCCACGGGCGCAATTTCTCCGTTCCCTTCGGTATGGCTTCACCGGTCATGCAGCCGCTGCTGCGGCGCCGGTTCAGGACGGCGCGCGGCATCATGCCGGGGATCAACCGGGGCAGTGTCGACCCGCATAATCTTGCCGCGGTCGAGTTGCGTTCGGATCAAAACTACCTCGACGCCGCCGATGGCTGGCTGGAGGATGTTCTGCAAAAAGGTGGCTGGCTCATCATCTTCACCCATGATGTTTCGCACACACCGAGCTTTTACGGTTGTCCGGAAGGCAGATTTCAGGGTCTCGTCCGCAGGGCGATGTCGGGCGGCGCGAAGATCATGACGGTCGATGCCGCCGCAAGGACACTCGGTCTTTAG	MTQKIGTFTDRINNRLVRYFPGPAVRIETSEPIVSFTFDDVPASAWTAGARILENEGVCGTFYIAGVFIDQYDEQQQMISAKGCSELAAAGHELACHTFSHRKLSSFSRRGLEEDLDRNDRVLGSFDASRHGRNFSVPFGMASPVMQPLLRRRFRTARGIMPGINRGSVDPHNLAAVELRSDQNYLDAADGWLEDVLQKGGWLIIFTHDVSHTPSFYGCPEGRFQGLVRRAMSGGAKIMTVDAAARTLGL	PGPT0012156_556	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-CHITINOLYTIC_ACTIVITIES,PGPT0012156-chitin_deacetylase-NA	NA	NA
BMS010_08921	1296			hypothetical protein	ATGCCGCGTTCGGCTGATACGCAGCCCGTCTCTGCGCAAGGCAGCGCCATTTCCCTTACCGGCGGCCGGCGCGACGCGTTTTTCTTCGTCGCCACCATGCTCTATATCTGGATTTCCGTCGCGCCTTTCGAAAATCTCGCAGCACCGCCCGTGCCGCACGCCGCCGCAAACCAGCTGACCGGCCTCGTGATCGCATTGATCCTCGGCGTTTTTGCGCTGCGCCACCGGCTGACGGGGCTTCTGCTGCGGCCGCGGCTGCCCATTCTGCTGCTGTTTTTCTGGCTGGCGATATGCTCGGTGGTCGGAACCCAGCCCGGCACGTCGCTGCAACGTCTAATCTTCACGGCGCTCCTGTGCTTCATAACCAGCGTCCTTGTCGTCATGCCGCGCGACCGGCGGCAGTTCGACCGGATGATGGCCATCTTCGCCATCATTCTCTTGGCGCTGTGCTATCTGGGGGTGATCTTCCTCAGCTCGCGCTCGATCCATCAACCCTATGATCTCGATGAAAAAGCGCTGGCGGGTGACTGGCGCGGTATCTTCAATCACAAGAACGCCGCCGCGCCGGCGATGATCATTCTGTTCATGATCGGGCTTTACCTGCGCAATGCCTGGTCGACGCTGGGCGGCCTCGCCATCACGCTGCTGGCGGGGTTCTTCCTGTGGAAGACCAACGGAAAAACCGCAGCCATGCTGCTGCCCGTCACGGTGGCGCTGATCTGGATCATGGAAAGGCATGCCAACCGTACTTTGTTGATGATCGGCGGTCTTCTGGCCTTCATCAACATATCCGCGGTCGGCTCCACCTATTTTCCGAGTATACAGAATTTCGTCGAAGGCCTGGGCATCGATTCCACCTTCACCGGGCGGACGGACATATGGCGGCTATCCTTCGACACTTTCGCGCAATCGCCGATCTTCGGGCAGGGGTTCCAGGCATTCTGGACGAGCGACAGGCTCCTGTCGCAGGCCGATATTGCCGGCACCTGGGCGGTCACAGCCTTCCATGCCCATAATGGCTATATTGAAAGCCTGCTGAATGGCGGCCTGCCGGCCTTCATTCTCACCGTCATCTGGCTGGTCATCATACCCGCGAACGATTTCCGCACGGCGGTGGACAAGGGCACGGACCCGGCACTTACCCGACTTTTTGCCAGAATTTGGGTGTATGCGTTACTTTCTTCGTGTTTAGAGAGCAATTTCTTTACCGGAACCGGGCCTATCTGGTCTTCTCTTCTAATCGCCATCTATTGTTTGAGGCATCAGGCTTACGACATACTCGAAGAGGGACAGTAA	MPRSADTQPVSAQGSAISLTGGRRDAFFFVATMLYIWISVAPFENLAAPPVPHAAANQLTGLVIALILGVFALRHRLTGLLLRPRLPILLLFFWLAICSVVGTQPGTSLQRLIFTALLCFITSVLVVMPRDRRQFDRMMAIFAIILLALCYLGVIFLSSRSIHQPYDLDEKALAGDWRGIFNHKNAAAPAMIILFMIGLYLRNAWSTLGGLAITLLAGFFLWKTNGKTAAMLLPVTVALIWIMERHANRTLLMIGGLLAFINISAVGSTYFPSIQNFVEGLGIDSTFTGRTDIWRLSFDTFAQSPIFGQGFQAFWTSDRLLSQADIAGTWAVTAFHAHNGYIESLLNGGLPAFILTVIWLVIIPANDFRTAVDKGTDPALTRLFARIWVYALLSSCLESNFFTGTGPIWSSLLIAIYCLRHQAYDILEEGQ				NA	NA	NA	NA	NA
BMS010_08922	1305			hypothetical protein	ATGCCGGAAAACATGGAGAATGAGGTGTCGTTCAATACGCCGCGGCTCGGCCATCTAGTCAGATTGGGATTGACCTACATGGCATCCGGCGGAGCGCTCCTCATGTCCAGCGCCGCCCAGCTTCTGACCTTTGCGCTGCTTGCCCGCCATCTCGGTGTCGAACAATTCGCGCTTTACGCCTCCATCACGGCCGTCACCAATCTCGGCGTCCAGATCTGCGGTATCGGCTCGCAGGAATCGCTGATCCGCCGTGTCGCGCAGGATCGCAGCATGTTTCCCGTCATGCTCGGCCACAGCTATCTTTTGAGCGCCGCGACAGGCGTGGTGCTGACCATCATCGGCATGGTGACGATCCCGGTATTTTTCCCGACCTCGGAAACATTGCTGCACACGCTGATCACCACCTTCCTGATCCTGTTCACGAACCTCGTCCTCCTGAAAGTCATCTCGCTTTCTACGCAAAGCTTCATCGCCCATTCCGACTTCGCCTCCGCCAACAAGCTGGAAGTGATGTTTGCCGTCGCCCGCACCATTGCCGCGGTGGTCGCCTGCCTCATCTTCAAGGTGGAAACAGTGGAGGCCTGGGCGCTATGGAACCTTGCCGCCCACACCATTGCAGCCATGATCTCGGTCAAGGCGATAGCGAGACTCGGCCGCCCGGTGTTCCGCATCGTGCGTGAGGAAATCCGCATCGGCGTCCTGTTTTCCACCCAGTTCCTGTTCAAGGCCGTGCGCGGCAATGCCGATATTCTCGTTCTCGGCGCCATTGCCAGCGCCGAGGTGCTGGGCAGCTATTCCATCGCCCGGCGCATTCTCGACAGTTCCTATCTCTCCGTCGAGGCCCTCAACCGGCTGATCTATCCGGGTTCGGCTTCCGCCGCCCTGCAAGGTATCAGCAAAACCGTAGAACGCGCCTATAACGTGCTGAAGGCCGCACTTTTCATCGCGACCGGCAGTGCGCTCGTCATTTTCATCATCGCGCCCTTCCTGCCACTTTTGTTCGGCGATGAATATGTTTCGCTGCCCATCATCACCCGCGTGCTTTGCTGGGCGGTTCTGCCCATGGCCGTTGCCGCCACCGCGCTCGAGGCGCTCGGCGCATCCGGGCGGCAGGATATTCGCGCGAAGATCTGGAACAGTGGCAACCTCATCGGCTCCGTCGTCGTCGCCTTCTTCACCTGGTCATTCAGCATTTCAGGAACGATCGGCAGCTATTTCATGGTGGAAACCGCCATCGCTGCCGCCGTATGGATCGCGCTGCTGCGCCTGCGCCGCAATGAAGAAGTTTTCGCGCCAGCAAAATAG	MPENMENEVSFNTPRLGHLVRLGLTYMASGGALLMSSAAQLLTFALLARHLGVEQFALYASITAVTNLGVQICGIGSQESLIRRVAQDRSMFPVMLGHSYLLSAATGVVLTIIGMVTIPVFFPTSETLLHTLITTFLILFTNLVLLKVISLSTQSFIAHSDFASANKLEVMFAVARTIAAVVACLIFKVETVEAWALWNLAAHTIAAMISVKAIARLGRPVFRIVREEIRIGVLFSTQFLFKAVRGNADILVLGAIASAEVLGSYSIARRILDSSYLSVEALNRLIYPGSASAALQGISKTVERAYNVLKAALFIATGSALVIFIIAPFLPLLFGDEYVSLPIITRVLCWAVLPMAVAATALEALGASGRQDIRAKIWNSGNLIGSVVVAFFTWSFSISGTIGSYFMVETAIAAAVWIALLRLRRNEEVFAPAK				NA	NA	NA	NA	NA
BMS010_08923	762	artJ_2	COG0834	ABC transporter arginine-binding protein 1	ATGCCGGTGCTTTTCGATGCGCAGGAGCGGTTTCCGGGCGGCGATCTTTCTTCCGTTCCCCGCATCAGATTTCTGATGTCGGTCGATTTCCCGCCCTTCAATTTTACCGATCAGGAAGGCCGGCTTGCGGGTTTCCATGTCGATCTGGTGCGTGAAATCTGCGCGCAACTGAAGGTCGAAAGCAAATGCCAGGTGCAGGCGCTGCCGTTTGATGAGCTGGAGGCGGCTTTGGAAATGGGCGAGGGCGAAGCGGTGATTTCCGGCCTCGCCACCACCGCCGACCTGCGCAAGAGTTTTACCTTCTCGCGGCCCTATCTCCTGATGCCCGCCCGTCTTGCGGTGAACAAGGCGGCCAAATTCACCGGCGCGGGTGCCGATGCGCTTTCGGGAAAGAAGGTGGGTGTGGTTGCCGGCTCGCGGCACGAACAGATGCTGAAGGCATTCTTTCCAAAGGCCGCGGCTGAGGGCTTCGATGGTTACGAGCCGATGTATGACGCGCTGAAGAAAGGCAAGGTGGACGCCATCTTCGCCGATGGTCTGCGCCTGCCTTTCTGGGTTTCAGGAAGCGCTTCCGAAGGCTGTTGCGCACTCTTCGGCGGTCCCTATATGTCCGACAGGTTTCTCGGTGAAGGCCTGTCCATCATGACTGTCGATCCCGATAACGTGCTCGTTCCGGCTTTCGATCAGGCGCTGGCGGCCCTTTCCCGCAACGGCCGGCTGGAGGAAATCTACCGGCGTTATTTCCCTTATGGGCTCTATTAG	MPVLFDAQERFPGGDLSSVPRIRFLMSVDFPPFNFTDQEGRLAGFHVDLVREICAQLKVESKCQVQALPFDELEAALEMGEGEAVISGLATTADLRKSFTFSRPYLLMPARLAVNKAAKFTGAGADALSGKKVGVVAGSRHEQMLKAFFPKAAAEGFDGYEPMYDALKKGKVDAIFADGLRLPFWVSGSASEGCCALFGGPYMSDRFLGEGLSIMTVDPDNVLVPAFDQALAALSRNGRLEEIYRRYFPYGLY	PGPT0020800_13754	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_08924	1971			hypothetical protein	ATGGATTATTTTAGGCAATATACACGAGATTCGTTTCGCACGACGCCGGCGACACGAAAAATTACATTTTCCCACGCCAGTGAAAATCCGCTTTCAACCGCTCCCGAACAGGACCAGGCCGGACAGGCCCGCTTTCTCTCTTCGCTGGGATTTGGCAGGCCCTACATCGAGGCATTCGAACAACGGGCTCTGGAAAATGGCTCGACTTTGGAGGACGAATTGCTGGCAAGCGGTCTCGTCACGACGGATGCCTATTTCGGCGCTTTCGCCCGATTCCTGCGACTGCCGTTTCTCCCGGAAATCGGCCCGGACCGTGTGACGGATTTGAATAAGCTGGACACTCAGCTCTCCGAACCGAGGTTTCTGCGGCTGACACCGCTGAGCGGCACGCCAACGCTGCTGATCGTACCGGAACTGGCGCGAATGGCGTCGCTGAAAAACATGCTGGATCAACGTCCGCGTCTTCTCGACGAATTTGCCGTGACAACCCCGCAGGCCATGCGCAGCGCAATCTGGAAAGCGGGCGAGGCCCGCCGCTCGGCGGAAACCCAGCAGCGGCTTTTCAACACGGCGCCGCACCATTCCGCCAGGATCACGCTACAGGGCCAGCAGGGTTTTTACAGCGGCGTCCTCCTTACCCTGCTCATTCTGTCGCTGCTATTTTACACGGAAGCGGCATTTGCTTATCTGCACGTCACCCTGACGATGCTTTACCTTTTTACCCTGCTTTTCAGGCTGTTCGCACTCGTCCATGCGCCCCGGGGGAACGACGCGAAGAACGTCTTGCCTCTTCGGCAGGAAAACGAATTGCCTGTCTATACCGTTCTGGTGGCGCTTTACCGGGAAGAGGCTATCGTCGGGCAGCTCATCGTCGCATTGGAACGTCTGGACTGGCCCAAATCCCGGCTGGACATCAAGCTTGTCTGCGAAGCAGACGACGCCGCGACGATCGAGGCGATCCAGCGGATAAATCCCGGCCCGCACATAGAGGTCGTCAGGGTGCCGCCCTCCCTGCCGCGCACCAAACCAAAGGCCCTCACTTACGCGCTTTCCGGCGCGCGTGGCGCATTCGTTGCGGTCTATGATGCCGAGGATCGGCCCCATCCGCAGCAATTGCGTGAAGCCTATGCCACCTTCCGCAACGAGCCGGACGAGGTGGCCTGCCTGCAGGCGCCGCTCATCGTCAGCAATGCCTCTTCCTCCTGGCTCAGCGCCTGTTTCGCACTGGAATATTCCGGTCTCTTCCGCTGCATGTTGCCTGCCCTTGCCGCACACGGCTTGCCGCTGCCGCTTGGCGGCACCTCCAATCATTTCCGGACCGCCGTGCTGCGGAAGGCCGGCGCCTGGGACCCCTATAATGTAACTGAGGATGCCGATATCGGCCTCCGGCTGCATCGGCTGGGTTATCGCTGCGGCGTCATCCGGCGACAGACGCTGGAGGATGCGCCGACCTCGCTACCCGTGTGGCTGAACCAGCGAACACGCTGGTACAAGGGCTGGCTGCAAAGCTGGCTGGTGATGACCCGTGCGCCCTTTGCGACCGCGCGCGACATGGGATGGTTTGCCTATGTGGTCTTTCAACTGCTGATCGGCGGCATGCTTCTGTCGTCGCTGGCGCACCCCCTGCTCTTCGTTTCGCTCGCATTCATGACCATCGCCCTCCGGGAAAATGGCGCTGACCTGCTGCTCACCTGGCAGGGTCTTCTGTTTTTTATCGATGTGCTGAATATCGTCGGAAGCTACACGATCTTCGTGCTGATGGGCCGCGGCAGAATGATTGCCTATGAAAGAAGGCATGTCGGAAGGCGGTGGCTGGCAATACCCGCATATTGGCTGATGCTGTCCATCGCGGCCTGGCGGGCCGTGGTGGAACTCAACACCAAACCCTTCGCATGGAACAAGACGCCACACGCGCCTGTCGCCAAAAATACTCATGATCCGGCATCTTCGGCAGAGCCGAAACAGTCCTGA	MDYFRQYTRDSFRTTPATRKITFSHASENPLSTAPEQDQAGQARFLSSLGFGRPYIEAFEQRALENGSTLEDELLASGLVTTDAYFGAFARFLRLPFLPEIGPDRVTDLNKLDTQLSEPRFLRLTPLSGTPTLLIVPELARMASLKNMLDQRPRLLDEFAVTTPQAMRSAIWKAGEARRSAETQQRLFNTAPHHSARITLQGQQGFYSGVLLTLLILSLLFYTEAAFAYLHVTLTMLYLFTLLFRLFALVHAPRGNDAKNVLPLRQENELPVYTVLVALYREEAIVGQLIVALERLDWPKSRLDIKLVCEADDAATIEAIQRINPGPHIEVVRVPPSLPRTKPKALTYALSGARGAFVAVYDAEDRPHPQQLREAYATFRNEPDEVACLQAPLIVSNASSSWLSACFALEYSGLFRCMLPALAAHGLPLPLGGTSNHFRTAVLRKAGAWDPYNVTEDADIGLRLHRLGYRCGVIRRQTLEDAPTSLPVWLNQRTRWYKGWLQSWLVMTRAPFATARDMGWFAYVVFQLLIGGMLLSSLAHPLLFVSLAFMTIALRENGADLLLTWQGLLFFIDVLNIVGSYTIFVLMGRGRMIAYERRHVGRRWLAIPAYWLMLSIAAWRAVVELNTKPFAWNKTPHAPVAKNTHDPASSAEPKQS	PGPT0025625_112	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0025625-xagB-K20327	NA	NA
BMS010_08925	294			hypothetical protein	ATGGATCTTGCTTCGATATTGGCCCAGATCGTCGGCGGTGCGGTAGGCGGCACGGCAGGCGGAAAGATAGTGAAGGACTCCGATCTTGGTTCGCTCGGCAATCTGATTGCCGGCGCCATCGGCGGTCTCGGCGGTGGAACCGTGCTCGGTTCGCTGCTCGGCGCGGCGGGCGATGCGGCAGCCGGCGGCGTGGATATCGGCGCTCTCGCCGGCCAGCTCGTTGGCGGCGGTGTCGGCGGTCTGATCGTGCAGATCATCGTCGGCCTGATCAAGAACAAGCTCGTTACCAAGTAG	MDLASILAQIVGGAVGGTAGGKIVKDSDLGSLGNLIAGAIGGLGGGTVLGSLLGAAGDAAAGGVDIGALAGQLVGGGVGGLIVQIIVGLIKNKLVTK				NA	NA	NA	NA	NA
BMS010_08926	726	aqpZ2		Aquaporin Z 2	ATGAGTCGCAAACTTCTTTCGGAATTTCTGGGAACCTTTTGGCTCGTCTTCGGAGGATGCGGCAGTGCGGTTTTTGCCGCCGCTTTTCCTGAACTCGGCATTGGCTTCCTTGGTGTCGCTTTCGCTTTTGGTCTGACGGTTCTGACCATGGCCTATGCGGTTGGCGGCATTTCGGGCGGTCATTTCAATCCGGCCGTTTCAGTCGGCCTCACCGTTGCCGGTAAGTTCCCGACGGCGAACCTCGTGCCTTACATAGTGGCGCAGGTTCTGGGGGCGATCGTCGCGGCTGCGGCGCTTTATGTCATCCTCACCGGCAAGGCGGGGGCTGAAATCGGCGGTTTTGCCGCCAATGGTTATGGTGAACATTCGCCGGGCGGATATTCTCTCGTATCGGCGCTGCTGATCGAAGTCATCCTGACGGCGTTTTTCCTGATCGTCATTCTGGGCTCTACGCATGGCAGGGTCCCTGCCGGCTTCGCGCCGATCGCCATCGGTCTTGCCCTTACCCTTATTCATCTGATTTCCATTCCGGTCACCAACACATCCGTCAATCCGGCCCGCTCCACGGGACAGGCATTGTTCGTTGGCGGATGGGCGCTGCAGCAGCTCTGGCTGTTCTGGCTCGCTCCGATCCTCGGCGGCGCCATCGGGGCCGTGATCTGGAAAATCTTCGGCGAGGAAGAGAAGGCCGGCCATGCCGGTTCGGTTCAACCTGCGCAGACTTGA	MSRKLLSEFLGTFWLVFGGCGSAVFAAAFPELGIGFLGVAFAFGLTVLTMAYAVGGISGGHFNPAVSVGLTVAGKFPTANLVPYIVAQVLGAIVAAAALYVILTGKAGAEIGGFAANGYGEHSPGGYSLVSALLIEVILTAFFLIVILGSTHGRVPAGFAPIAIGLALTLIHLISIPVTNTSVNPARSTGQALFVGGWALQQLWLFWLAPILGGAIGAVIWKIFGEEEKAGHAGSVQPAQT	PGPT0004755_592	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ARSENIC_RESISTANCE	ARSENIC_RESISTANCE-ARSENIC_TRANSPORT,PGPT0004755-aqpZ-K06188	NA	NA
BMS010_08927	213			hypothetical protein	ATGGCTGACAAAAAGTCGATGACTCTGACGCTCAGTGATCGGGAAATGGAGCTCTTGGAGCAATTGGCGCTGGGTCGATCTGTATCAAAGACTGCGATCCTCAAGCAGGCTCTTCGCTTGTATCATTCGATCTCGACGCGGATGGTAGATGGTGACAAGGTTTTCGTGGAAGACCCCATCACTAAAGACAAAGCGGAGCTGATGGTTCTATGA	MADKKSMTLTLSDREMELLEQLALGRSVSKTAILKQALRLYHSISTRMVDGDKVFVEDPITKDKAELMVL				NA	NA	NA	NA	NA
BMS010_08928	630			hypothetical protein	ATGACAAGAATCTCGTCTTCGTATGATCTGTTCGACAGGGATGAAGAATGCTTCGTCGAGTGTAAGCTTTTCCGCGATATTGCACCGAATAATGTGCTCGACTTTAAAGAAAAGTGGCTGCCGGTTTTCGATGCAAAAAAAGAAGAGCTAAAGACGGAAGGCAACTTTACCGTTGAGGCGCTGAAAGAGTTCAGCCTTCAGGATTCGCATTGGAAGTGGCCTGAAAAGGCTGCGTATATTGAGAAGCACAATGGCTATATTGGTTTCTCGGTTGAATGCGCTGATGTGACACAGGGGCTGATGATCTTGTCCCCGGTTGGCTTCGCACGTGAAGACTCGCAAAAAGATGAGCCTCTCGTTCAGGTCGAGCTGCTCTCGACCGCTCCGTGGAATCGTAAGAAGCTCGTTGCCTCCCCTAAGTTCAAGGGTGTTGGCGAACTGCTGCTTCAGGCGGCAGTAACTGTAAGCTTTGAGTTTCACAATGAAGGTCGCATTGGCCTGCACGCCTTGTCAGGCGCAGAGGCTTGGTATCGCGACTACTGCGGCATGACCGATCTGGGGTTTGATGCCGACAAAAACATGCATTACTTTGAGATGACCGCGTCTCAAGCTAAGGCGTTCATCTCCTAA	MTRISSSYDLFDRDEECFVECKLFRDIAPNNVLDFKEKWLPVFDAKKEELKTEGNFTVEALKEFSLQDSHWKWPEKAAYIEKHNGYIGFSVECADVTQGLMILSPVGFAREDSQKDEPLVQVELLSTAPWNRKKLVASPKFKGVGELLLQAAVTVSFEFHNEGRIGLHALSGAEAWYRDYCGMTDLGFDADKNMHYFEMTASQAKAFIS				NA	NA	NA	NA	NA
BMS010_08929	117			hypothetical protein	ATGTTGCTTTACTCGAATCTTCTAGCGAAGCATCCGACGATTCGGATTCAGTCAAACTCAAAGAAGCGTTTGGCGTCTTTGTTCGTCAGCTTAGACGAAGAGAAAGACTATCCGTAG	MLLYSNLLAKHPTIRIQSNSKKRLASLFVSLDEEKDYP				NA	NA	NA	NA	NA
BMS010_08930	924			hypothetical protein	ATGGCAGTTGAAGTGGGTGCGTACGAAAGGAGTGACATTGACGGAATTGTAGACAAGGTACTGCGTGAAATAGGCTCCCCAGAGCCCCCGCTTTCACTAGAGGTTGTCCGAGAAGCTCTTCGTCTAGACCTTCAGTACTACAGCAGTTCTGATCACAGTGTCCTCGGCGACGTAGTGCATCGAGTGAAGGTCGGAGCAAAGCAATTGATCCTGCGGCCGGGCCTCCTTTTCGATGCCCTAAAGAAAGCTAATCTGTCCGCACTCTGGATGCCTGATGCGAAACGGATAATGATCGATGATGCGATTCCCAAGTTAAAGCATCGCTGGATTGAAGGCCACGAAATCGGACACAGCTTGATTCCTTGGCATAAGGAAGCTCTATTTGGGGACACCGAGTTTACACTGGACCCCACCTGCCATGAACTGATTGAGGCTGAGGCTAACTATGCCGCAGCGCAATTGCTTTTCATGAGAGGTAGGTATTCCGCAGAGGCTCGTGATCTGCCTGTAGATTTCAAGTCGATTACTAAGCTTTCCAAGCGGTACGGGAACACCATCACATCGTCACTTTGGCGGACGGTGGAGGAACGAGACCCAGCCTCACCAGTCTTCGGTTTGGTTTCCTGCCATCCCCGCCATCCCGCGATAGGCTCCGGGCCGAATGGTGAGGAGATTAGATACTTCATCCGTTCCCCCGGATTTGTACAGGAGTTCGCTAACGTGACTGAGCAGCAGGCTTTCAAGCTAGTGAAAGACAATGCTAGCTGGAGTCGTAGCGGTACTATCGTTGAGGGTGAGTTCCAACTACTAGACGCTAATGGCACGAGGCGTGATTTCAGAGTTGAGAGCTTCTCAAACACTCATGCACTCCTGACAATTGGCTACGCCCTTCGTACAAGTAGACGACTATTTGCGGCAGCATAA	MAVEVGAYERSDIDGIVDKVLREIGSPEPPLSLEVVREALRLDLQYYSSSDHSVLGDVVHRVKVGAKQLILRPGLLFDALKKANLSALWMPDAKRIMIDDAIPKLKHRWIEGHEIGHSLIPWHKEALFGDTEFTLDPTCHELIEAEANYAAAQLLFMRGRYSAEARDLPVDFKSITKLSKRYGNTITSSLWRTVEERDPASPVFGLVSCHPRHPAIGSGPNGEEIRYFIRSPGFVQEFANVTEQQAFKLVKDNASWSRSGTIVEGEFQLLDANGTRRDFRVESFSNTHALLTIGYALRTSRRLFAAA				NA	NA	NA	NA	NA
BMS010_08931	636	bin3_3		Putative transposon Tn552 DNA-invertase bin3	GTGTCCAAGACAGTACTGTATGCCCGCGTATCGACTATCGACCAGACGCTTGACCACCAGCGAACGCAAGCAGAGCAAGCGGGCTTCGTTATTGACGAGGTATTTGCAGACCATGCCGTATCAGGCATCAGCACCAGACTTAGAGACAGGGCTGAAGGCAAGCGGCTGTATGACAGGCTCCGTCGTGGCGATGTGCTAGTTGTCCGCTGGGTCGATAGGCTGGGGCGTAACTACGAGGATGTAACAGACGCCATCCGGCACTTCATGCGGGAGGGTGTCGTCATCAAAACAGTCATCAATAGCATGACGTTCGATGGGGCGACGACGGACCCGATACAGCAAGCCGTCAGGGACGCGCTGATTGCGTTCATGGCCGCAACGGCACAGGCACAGGCCGAAGCGACGAAGGCCGCTCAGCGGGCCGGGATTGAGGCAACGAAAGGTGACGCCCAGAAGTACCGGGGCAAGAAGCCTAGCTACAGCCGGGATGCTTACCAGACGGTGATGGACATGCTGGCAATCGGTAATGGTACTTCCGAGATTGCCAAGGTCACGGGCTTGTCCAGACAGGCGGTACTTAGGATTAAGAGCGATCCGGCCGCAATGGAAACTGCTTTAGTGAAATGGGGTTTGTAG	MSKTVLYARVSTIDQTLDHQRTQAEQAGFVIDEVFADHAVSGISTRLRDRAEGKRLYDRLRRGDVLVVRWVDRLGRNYEDVTDAIRHFMREGVVIKTVINSMTFDGATTDPIQQAVRDALIAFMAATAQAQAEATKAAQRAGIEATKGDAQKYRGKKPSYSRDAYQTVMDMLAIGNGTSEIAKVTGLSRQAVLRIKSDPAAMETALVKWGL				NA	NA	NA	NA	NA
BMS010_08932	837			hypothetical protein	ATGCGGTTACTAACTCCCCGATCACCAGAGATCGAAGGGCCTTTCGCGGGGACGTACCGCGCCTACCGCCCTTCCGTATGGGGACGTGTCTCATTGCAATCGAACGCAACAGCAGCAAGGCCAGCACAAGGGCAGACACTTAACCACACTTACTTAGCCTCATTCATGCAGCCAGCAATACTGGCCTGCATAATGACCGCTGGGTTGCTAGTCGCACCTACCAGCCCTTACGCAGCCTGCAATTTTCAAGGCATCCCCAAACAGTACCGTCCCTACGATCTACCGGAAGGTACGACAAATTCGATGGGGCAAGCCGTCATTGGCGGGGAAGCCGCAGGCAAACGTGCAGAACGGGAATGCCGGGAGGAGCAAGACAAGCAATCTTGGTATCAGACACTGGGCATCGCCGCAGACGATAACACCGAAACCTTGTTCAAGGGTGTGACTGACAGCTTCAAAGCGGGCGGCAGTATCATTTTCAACGTCGCGGCATCATACCAGCGAGCGTACGACAATCCCGCCAATCCAGATTTTGAGCCTCGGAGATGGCTTGAGGAACACGGTGATAAATACCGGATTGAAGAGGAAGACCTCTACCTGTTTGCAGGTACAAGGTCGGAAGCAGAAGCTTACGCCCTTCTAGCGCAGGTTAAACAACGCAAAGCAGCGCAAGCCCGGATACAGCGCATGGGTACGGCAGCGAAAATGACGGCCAAAGCAGTTGCTACAATACCAGACATCACCATAGCACTGCTCAGCTTTGCCGCCTTGTCCATAGCGGTCAGGCCAGCTTTCCGACGCTCCGTGAAGCCAGAGCGAGCAACGACACGCACTTAG	MRLLTPRSPEIEGPFAGTYRAYRPSVWGRVSLQSNATAARPAQGQTLNHTYLASFMQPAILACIMTAGLLVAPTSPYAACNFQGIPKQYRPYDLPEGTTNSMGQAVIGGEAAGKRAERECREEQDKQSWYQTLGIAADDNTETLFKGVTDSFKAGGSIIFNVAASYQRAYDNPANPDFEPRRWLEEHGDKYRIEEEDLYLFAGTRSEAEAYALLAQVKQRKAAQARIQRMGTAAKMTAKAVATIPDITIALLSFAALSIAVRPAFRRSVKPERATTRT				NA	NA	NA	NA	NA
BMS010_08933	1062			hypothetical protein	ATGGTCACTGTTGATCTGAAGGGCGTACACAAGGTTTCATCGAAGGGCAGATACTACTACTACGCTTGGCGCGGCGGTCCCCGCCTCATGGGCGAACCCGGCTCAGATGAGTTCATGGCCGCATACTACGAGGCGCGGGAAAGCCATCATGTACCAGACAGCGCAAAATTCAGCGCAGTAATACAGGCGTATCGCAAGAGCGCAGACTTCGCAAAGTTGGCTGACAGTACGAAGCGCAACTGGTCACCAATGCTCGACAAGATCGAGGCGCATTTTGGTCAGATATCCAATGCACAGTTCGATAAGTACAAACGGATACGGCCTATCATACTCCAGTGGCGCGGCCAGTTCGCAGACACGCCTCGCACCGCTGACTACGGCATGCAAGTCTTGTCCCGTGTCCTATCGTACGGTGTTGATCCGCTGGGCAAGATCGCAACCAACCCATGCGAGGGCATCAAGAGCCTGTACAAGAACAACCGCAGCGCCATTATCTGGACTGAGGCCGATCTAAAGACTTTCAGGGAAGCACGAGACGATAAAGGCAAGCTTGCCTGCTCCACAGACATGGCCTTTGCTATCGACCTAGCCATTCATACCGGCCTGCGTGTAGGCGATCTGGTCAAGGTGTGCTGGTCGCATGTCGGCAAGGATGCAATCACTATCGCTACGGGCAAGAGCAACGGCAAGCGCGAAGCGTTTATACCGCTGTATGATGGCTTGCGTGAATTACTTGACCGCATACCCCATCGCAACAAAACGATCCTAACGAACAGCCGAGGTGCAGTGTGGACAAAGGACGGCCTTGCATCGTCATTCCATACAGCCAAGAAGCTAGCCGGATTGAGCGACCGAAACCTACATTTTCACGACCTACGAGGAACAGCAGCCACCAAGTTCTACACGCTTGGACTGCCGAACCGCGTCATTGCTGAGATCATGGGGTGGTCTGAGAACGAGGTCGAAAATATCATCCGCAGGTACGTTGACAGGACCGCAGCGACCCGTGCCATCATCGATCAAATCAACGGTGGTGTAAAACTGGCTGTAAAACCGGGCTAA	MVTVDLKGVHKVSSKGRYYYYAWRGGPRLMGEPGSDEFMAAYYEARESHHVPDSAKFSAVIQAYRKSADFAKLADSTKRNWSPMLDKIEAHFGQISNAQFDKYKRIRPIILQWRGQFADTPRTADYGMQVLSRVLSYGVDPLGKIATNPCEGIKSLYKNNRSAIIWTEADLKTFREARDDKGKLACSTDMAFAIDLAIHTGLRVGDLVKVCWSHVGKDAITIATGKSNGKREAFIPLYDGLRELLDRIPHRNKTILTNSRGAVWTKDGLASSFHTAKKLAGLSDRNLHFHDLRGTAATKFYTLGLPNRVIAEIMGWSENEVENIIRRYVDRTAATRAIIDQINGGVKLAVKPG				NA	NA	NA	NA	NA
BMS010_08935	1098	dcd_1		dCTP deaminase, dUMP-forming	ATGACCAGAACCACGGGCATTTTGGCGGATGGCGCAATCAAGGCGCTGTTTGCGGGCGGCAAGCTGAAGAGTGAGGCCGATCTCGATGCTGATCAGGTGCAGCCCGCCAGCCTCGATCTCAGGCTCGGCTCGAAGGCCTATCGCGTGCGCGCCAGCTTCATGCCCGGCCCCGGAAACCGCGTCATCGACAAGCTCAATCGTCTCAGCCTGCACGAGATCGACCTTACCCAGGGCGCGGTGCTGGAAACCGGTTGTGTCTATATCGTTCCCTTGATGGAAAGCCTTGCGCTGCCCGCGGACATGTCGGCCTCGGCCAATCCGAAAAGCTCGACCGGCCGTCTCGATATCTTCACCCGCGTCATGACTGACAGTGCGCAGGAATTCGACAAGATACCGGCCGGTTATGCCGGCCCGCTCTATCTGGAAATCAGCCCGCGCACCTTCCCGATCGTGGTGCGACGCGGCTCGCGCCTGTCGCAGATCCGCTTCCGCATCGGCCATTCGCTGCTCAACGAAAGTGAACTGCTGAAGCTGCACGAGACGGAAACGCTGGTTGCCAGCGACACGCCCAACGTGACCGGCGGCGGCATTGCGCTCTCGATCGACCTCAAGGGTTTCGGTGAAAACGGGTTGATCGGTTATCGCGGCAAACATCACACGGCCGTGGTAGACGTCGACAAGAAGGCCCAGCACGACGTTCTCGATTTCTGGGAGCCGCTCTATGCCCGCGGCCGCGCCGAACTGATCCTCGACCCGGATGAATTCTATATTCTCGTCTCGCGCGAAGCCGTGCACGTTCCGCCGCTCTATGCGGCCGAAATGACACCCTTCGATCCTCTGGTGGGCGAATTCCGCGTGCACTACGCCGGCTTCTTCGATCCCGGCTTCGGCCATGCGCAGGCCGGCGGCACCGGCAGCCGCGCCGTGCTGGAAGTGCGCAGCCACGAGGTTCCCTTCATCCTCGAACATGGCCAGATCGTCGGCCGGCTGGTTTACGAGCACATGCTGCAGAAACCGGAAGGCCTCTATGGCACCGGCCTCGGCTCCAATTATCAGGCGCAGGGGCTGAAGCTCTCCAAGCATTTTCGAGCCGAATAA	MTRTTGILADGAIKALFAGGKLKSEADLDADQVQPASLDLRLGSKAYRVRASFMPGPGNRVIDKLNRLSLHEIDLTQGAVLETGCVYIVPLMESLALPADMSASANPKSSTGRLDIFTRVMTDSAQEFDKIPAGYAGPLYLEISPRTFPIVVRRGSRLSQIRFRIGHSLLNESELLKLHETETLVASDTPNVTGGGIALSIDLKGFGENGLIGYRGKHHTAVVDVDKKAQHDVLDFWEPLYARGRAELILDPDEFYILVSREAVHVPPLYAAEMTPFDPLVGEFRVHYAGFFDPGFGHAQAGGTGSRAVLEVRSHEVPFILEHGQIVGRLVYEHMLQKPEGLYGTGLGSNYQAQGLKLSKHFRAE	PGPT0021225_129	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021225-dcd-K01494	NA	NA
BMS010_08937	1185	metZ_2	COG0626	O-succinylhomoserine sulfhydrylase	ATGAGCAATAAATGGCGCCCGGCAACCCAGCTCGTTCACGGCGGTACGCTACGCTCCCCTTACGGTGAAACGTCGGAAGCGATCTATCTGACCCAGGGTTTCGTCTATGAAAACTCCGAAGCCGCCGAAGCGCGCTTCAAGGGTGAAACGGATGGGTTCATCTACGCCCGCTATGCGAGCCCGACCAACGACATGTTCGAAAAGCGCATGTGCCTGCTGGAAGGCGCTGAAGACGCCCGTGCACTTGCCTCCGGCATGGCTGCCGTCACCGCCGCCATCATGTGCCAGCTGCGCGCCGGCGATCATATCGTTGCGGCCCGCGCCCTCTTCGGCTCCTGCCGCTGGGTGGTCGAAACGCTTGCGCCGAAATATGGCATCGAATGCACGCTGATCGACGGTCGCGATCTCGGCAACTGGGAAAAGGCGATCCAGCCGAACACCAAGCTGTTCTTCCTCGAAAGCCCGACCAATCCGACGCTTGAAGTGGTGGATATTGCCGGCGTGGCAAAGCTCGCCAACCAGATCGGCGCCAAGGTGGTGGTCGACAACGTCTTCGCCACGCCGCTTTTCCAGAAGCCGCTCGAACTCGGCGCCCATATCGTGGTTTATTCGGCCACCAAACATATTGATGGCCAGGGCCGCTGCCTTGGCGGCGTGATCCTTTCCGACAAGAAGTGGATCGAGGAAGAGCTGCAGGATTATTTCCGCCATACCGGCCCGGCCATGTCGCCTTTCAATGCCTGGACGCTTCTGAAAGGCATCGAGACCCTGCCACTGCGTGTGAAGCAGCAGACGGCCAATGCCGGCAAAATCGCCGATTTTCTCGCCGATAGCGGCAAGGTCGCCAAGGTCATCTATCCCGGCCGCGCCGATCACCCGCAGGCCGATATCATCGCGCGGCAGATGTCCGGCGGCTCGACGCTGGTGGCTTTTGAGCTGAAGGGTGGCAAGGAAGCAGCATTCAAGCTGCAGAACGCGCTTGAGATCGTGAAGATTTCCAACAATCTCGGCGATGCCAAGAGCCTCATCACCCACCCCGGCACGACGACGCACAAGAACCTCACCGACGAGGCGCGTGCCGAACTCGGCATTTCCGGCGGCACCCTGCGTCTTTCCTGCGGCATCGAGGATACCGACGATCTTCTGGAGGATCTGGCGAAGGGTCTGGCGGCCGTTTCGGCCTGA	MSNKWRPATQLVHGGTLRSPYGETSEAIYLTQGFVYENSEAAEARFKGETDGFIYARYASPTNDMFEKRMCLLEGAEDARALASGMAAVTAAIMCQLRAGDHIVAARALFGSCRWVVETLAPKYGIECTLIDGRDLGNWEKAIQPNTKLFFLESPTNPTLEVVDIAGVAKLANQIGAKVVVDNVFATPLFQKPLELGAHIVVYSATKHIDGQGRCLGGVILSDKKWIEEELQDYFRHTGPAMSPFNAWTLLKGIETLPLRVKQQTANAGKIADFLADSGKVAKVIYPGRADHPQADIIARQMSGGSTLVAFELKGGKEAAFKLQNALEIVKISNNLGDAKSLITHPGTTTHKNLTDEARAELGISGGTLRLSCGIEDTDDLLEDLAKGLAAVSA	PGPT0020020_813	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020020-mdeA-K01761	NA	NA
BMS010_08938	393	apaG_2	COG2967	Protein ApaG	ATGTATCGTGCTCTGACAAGGGATATCGAGGTAACGGTCGATCCGTATTATCTCGAGGAACAATCCGACCCGGATGACGATCGTTACGTCTGGGGCTACAAAGTCGTGATCGCGAACAATTCCGATATTCCGGTTACCCTCGTCAATCGCTATTGGCACATCACCGATCAGAACGGACAGGTGGATGAGGTCTATGGGCCGGGCGTTGTGGGTGAGAAGCCGCATCTGAAACCGGGCGACAGCTACGAATATTCTTCCGGCTGCCCGCTTGATACACCTTCCGGCCTGATGTTCGGCCATTATGAAATGGAAACGGAAAATGGCGAGGTGTTCAACGTCACCATACCCGCCTTCTCGCTGGATTCACCCGGCCTGATGCGGGTCCTGAACTGA	MYRALTRDIEVTVDPYYLEEQSDPDDDRYVWGYKVVIANNSDIPVTLVNRYWHITDQNGQVDEVYGPGVVGEKPHLKPGDSYEYSSGCPLDTPSGLMFGHYEMETENGEVFNVTIPAFSLDSPGLMRVLN	PGPT0004665_504	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-RELATED_ROTEINS,PGPT0004665-apaG-K06195	NA	NA
BMS010_08939	990	hslO_1	COG1281	33 kDa chaperonin	ATGGCAGATGTAACGGTTGAACTGGACGATCTCGATTTTGCTGGCGACGACAAGGTTGTGCCCTTTCAAGTCGAAGGTCTGGATGTGCGCGGCCGCGCCGTACAGGTGGGTCCGCTGCTGAATGCCATCCTCGAACGGCATGACTATCCCCCGGCGGTCGCACGTCTGCTGGCGGAAGCGACCGTTCTGACGGCGCTGATCGGCACCTCGCTCAAGTTTTCCGGCAAGCTGACCGTCCAGACCAAGGGTGACGGCCCGGTCGACCTGCTGGTTGCGGATTTCACCGCACCGGAAAGCATGCGCGCTTATGCCCGTTTCGATGAGGAGCGGCTGGCGGAGGCGATTGCGGCCGGGGCGACGTCGCCCGAGCAATTGCTCGGCAACGGCATTCTGGCCTTCACGATCGATCAGGGTGCGGGCATGCAGCCTTATCAGGGTATCGTGCCGCTCGATGGCTCCTCGCTGGAAGACATTGCCGGGGTTTATTTCCGTCAGTCGGAACAGCTTCCCACCCGCGTGCGGCTGGGCGTTGCCGAATTCTTCGACCGTGATGGCGAAGGCAAGCCGCGACATGGCTGGCGTGCGGGCGGCGTTATCGCGCAGTTCCTGCCGCAGGCGCCTGAGCGGCTGCGCATGCGCGACCTGCATGGCGGCGATGGCGATGAAGGCGGTCACGAGGTGCAGGAAGACGATGCCTGGACGGAGGCGGTAACGCTGCTGAACACGGTGGATACAGACGAGCTGACCGATCCGCAGGTGCCGGTGGAACGTCTCCTCTTCCGGCTTTTCCACGAGAGCGGTGTGCGCATCTATGATCCGCAGGCGGTTTTCGACCGTTGCAGCTGCTCGCGGGACAAGATCAAGGGCGTCCTGTCCGGTTTCACTGCTGAGGAGATCGAGGCAAGCGAGGAAGACGGCGCCATTGCCGTGACCTGCGAGTTCTGCTCCACGACCTATCGCTACGATGTCAGCGAATTTGAGAATGCCTGA	MADVTVELDDLDFAGDDKVVPFQVEGLDVRGRAVQVGPLLNAILERHDYPPAVARLLAEATVLTALIGTSLKFSGKLTVQTKGDGPVDLLVADFTAPESMRAYARFDEERLAEAIAAGATSPEQLLGNGILAFTIDQGAGMQPYQGIVPLDGSSLEDIAGVYFRQSEQLPTRVRLGVAEFFDRDGEGKPRHGWRAGGVIAQFLPQAPERLRMRDLHGGDGDEGGHEVQEDDAWTEAVTLLNTVDTDELTDPQVPVERLLFRLFHESGVRIYDPQAVFDRCSCSRDKIKGVLSGFTAEEIEASEEDGAIAVTCEFCSTTYRYDVSEFENA	PGPT0014645_373	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014645-hsp33|hslO-K04083	NA	NA
BMS010_08940	933	argF_1	COG0078	Ornithine carbamoyltransferase, anabolic	ATGGGACAGTTTGAAATGGCTTCACCTAAACATTTTCTTGACCTGTCGGCCGTCAGCTCGCAGGACCTGCGGGCAATTCTCGACGATGCCCGCGCACGCAAGGCCGCCACCAAGGCCGGAACGGCGGAAAAGCCGCTTGCCGGCAAGATGCTGGCTATGATCTTCGAAAAGCCTTCCACCCGCACCCGCGTCTCCTTCGATGTCGGCATGCGCCAGCTCGGGGGCGAGACGCTTTTCCTCTCCGGTACGGAAATGCAGCTCGGTCGCGCCGAAACGATCGGCGATACGGCCAAGGTGCTGTCGCGTTACGTCGACGCCATCATGATCCGCACGACGGATCATTCGCGCCTGCTGGAGCTTGCCGAACATGCGACCGTGCCGGTCATCAACGCCCTGACGGATGACACGCATCCCTGCCAGATCATGGCGGATATCATGACCTTCGAGGAACATCGCGGCCCGGTCAAAGGCAAGACCATTGCCTGGACGGGTGACGGCAATAACGTCCTGCATTCCTTCGTCGAAGGCTCGGCCCGTTTCGGTTACCGCATGACGATGGCCGTGCCGATGGGCTCCGAACCGCATGATAAGTTCCTGAACTGGGCGCGCAACAATGGCGGCGAGATCATGTTGTGCCATGATGCCGACAAGGCCGTTGCGGGTGCGGACTGCGTCGTCACCGATACCTGGGTGTCCATGAACCAGGAACACAAGGCGCGCGGCCACAACATTTTCCAGCCCTATCAGGTCAATGAAGCCCTGATGGCCAAGGCGGAAAAAGACGCGCTGTTCATGCATTGCCTGCCGGCCCATCGCGGTGAGGAAGTGACGGATGCCGTGATCGACGGTCCGCAATCCGTCGTCTTCGACGAGGCGGAAAACCGCCTCCACGCGCAGAAGTCCATCATTGCATGGTGCATGGGCGTCATTTGA	MGQFEMASPKHFLDLSAVSSQDLRAILDDARARKAATKAGTAEKPLAGKMLAMIFEKPSTRTRVSFDVGMRQLGGETLFLSGTEMQLGRAETIGDTAKVLSRYVDAIMIRTTDHSRLLELAEHATVPVINALTDDTHPCQIMADIMTFEEHRGPVKGKTIAWTGDGNNVLHSFVEGSARFGYRMTMAVPMGSEPHDKFLNWARNNGGEIMLCHDADKAVAGADCVVTDTWVSMNQEHKARGHNIFQPYQVNEALMAKAEKDALFMHCLPAHRGEEVTDAVIDGPQSVVFDEAENRLHAQKSIIAWCMGVI	PGPT0020080_4542	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020080-arcB|argF|argI-K00611	NA	NA
BMS010_08941	1200	aruC_2	COG4992	Succinylornithine transaminase/acetylornithine aminotransferase	ATGGCCGAAGCCGCCGCGCCATTGTTCGATACGTTTGCAAGAGCCCCCCTGCGCTTCGAGCGAGGCGAAGGCGTCTGGCTGTTCACGGAAAGCGGCGAACGATATCTGGATTTTGCGGCCGGCGTCGCGGTCAACTCGCTAGGCCATGCCCATCCGCACCTCGTGGAAGCGATCAAGACCCAGGCCGAGAAGGTCTGGCACGTCTCGAACCTTTATGAAGTGCCGGGCCAGGAAAAGCTTGCAAAGCGCCTGACGGAAGCGACATTCGCAGACAAGGTCTTCTTCACCAATTCCGGCGCGGAAGCGCTTGAATGCGCGATCAAGACCGCGCGCCGTTATCATTATTCCAAGGGGCATCCGGAAAAATTCCGGATTGTCACTTTCGAAGGCGCTTTCCATGGCCGCACGCTGGCGACGATTGCCGCCGGCGGCCAGCAGAAATATCTCGAAGGTTTCGGCCCCAAGGTCGAAGGTTTCGACCAGGTGCCCTTCGGTGACGTCGATGCGCTGAAAGCCGCCATCACGGCCGAGACGGCCGCGCTTCTGATCGAGCCCATTCAGGGTGAGGGCGGCATTCGCGCACCAGCCAAGGAATTCCTGCAGCTGCTGCGGTCGCTCTGCGACGAGCATGGCATGTTGCTGATTTTCGACGAGGTCCAGACCGGCGTTGGCCGTACGGGCAAACTCTTTGCCTATGAGCAGACGGGCGTTGCACCGGATATCATGGCGGTTGCCAAGGGTATCGGCGGCGGTTTCCCGCTCGGCGCCTGCCTTGCGACGGCGGATGCCGCTTCCGGCATGACGGCGGGCGTGCATGGCACCACCTATGGCGGCAACCCGCTGGCCATGGCTGTCGGCAACGCCGTGCTCGATGTCGTCCTCTCCGAGGGCTTTCTGGAAAAGGTTCGTGATGTCGCGCTGGTCTTCCGCCAGGGCCTTGCTTCGCTGAAGGATCGTTATCCTGACGTTATCGAGGAAATCCGTGGCGAAGGCCTGCTTCTCGGCATCAAGGCCAAGGTTCCATCGGGCGAGCTGTTGCAGGCCATGCGCGCCGAGCATCTGCTGGGTGTGCCGGCGGGCGACAACGTCATCCGTCTTCTGCCGCCGCTCGTCACCACGGCGGAAGAGGCCCGCGAGGGTCTGTCACGCGTGGAAGCGGCTGCCGCTTCCCTGACAGCGAAACAGGCAAAAATCGCCTGA	MAEAAAPLFDTFARAPLRFERGEGVWLFTESGERYLDFAAGVAVNSLGHAHPHLVEAIKTQAEKVWHVSNLYEVPGQEKLAKRLTEATFADKVFFTNSGAEALECAIKTARRYHYSKGHPEKFRIVTFEGAFHGRTLATIAAGGQQKYLEGFGPKVEGFDQVPFGDVDALKAAITAETAALLIEPIQGEGGIRAPAKEFLQLLRSLCDEHGMLLIFDEVQTGVGRTGKLFAYEQTGVAPDIMAVAKGIGGGFPLGACLATADAASGMTAGVHGTTYGGNPLAMAVGNAVLDVVLSEGFLEKVRDVALVFRQGLASLKDRYPDVIEEIRGEGLLLGIKAKVPSGELLQAMRAEHLLGVPAGDNVIRLLPPLVTTAEEAREGLSRVEAAAASLTAKQAKIA	PGPT0014253_2005	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014253-argD|pqqI-K00821	NA	NA
BMS010_08942	534			hypothetical protein	ATGAACTGGACAGACGAACGGGTCGAAAAACTCAAGAAATTGTGGTCCGAGGGGCTTAGCGCCAGCCAGATAGCAGCACAGCTGGGCGGCGTCAGCCGCAATGCCGTCATCGGCAAGGTCCATCGCCTCAACCTGCCGGGACGCGTGAAGGCCGGCGGCCCGGTTACTTCGGCGCGTTCCGCGCCCAAGCGCACTGCCGCCCCTGCCCCGCGCGCGACGAATTTCGCAGCCCGCGTCAGCGCAGCACCTGCACGCGCCCTGAACCGCTCGAGCGCGGCAACGGCGCTGCACGAGGAGATCGATATCGAGACCGCCGAAGTTCTCGATTACGTTCCCTCCAAAAATGTCGTGACGCCGATCTCCCGCCGCCTGACGCTGACGGAACTGACGGAGCGCACCTGCAAGTGGCCGGTCGGCGATCCGCTGAAGGATGATTTCCATTTCTGCGGTTGTGAAGCACTGGAATCTTCGCCCTATTGCAAGTTTCATGCAAAGCTTGCCTACCAGCCGGTAAGCGAGCGTCGCAAGGCTTGA	MNWTDERVEKLKKLWSEGLSASQIAAQLGGVSRNAVIGKVHRLNLPGRVKAGGPVTSARSAPKRTAAPAPRATNFAARVSAAPARALNRSSAATALHEEIDIETAEVLDYVPSKNVVTPISRRLTLTELTERTCKWPVGDPLKDDFHFCGCEALESSPYCKFHAKLAYQPVSERRKA	PGPT0015595_376	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-PILUS|FIMBRIAE_SYSTEM	MOTILITY-PILUS_SYSTEM,PGPT0015595-gcrA-K13583	NA	NA
BMS010_08943	684	phoB_2	COG0745	Phosphate regulon transcriptional regulatory protein PhoB	ATGGTGCCCAAGATTGCAGTTGTGGAAGATGAGGAAGCGCTGAGCGTCCTGCTTCGTTACAATCTCGAGGCTGAGGGATATGACGTCGACACGATACCCCGTGGAGACGAGGCAGAAATCAGGCTGCAGGAACGTATTCCGGACCTCCTTATCCTGGATTGGATGCTTCCCGGCGTTTCCGGTATCGAACTTTGCCGTCGGCTCAGGATGCGGCCGGAAACCGAGCGCCTGCCCATCATCATGCTGACGGCGCGCGGCGAGGAAAGCGAAAGGGTTCGCGGCCTCGCCACCGGCGCCGACGATTATGTCGTCAAGCCGTTCTCGACACCGGAACTCATGGCCCGCGTCAAGGCGATGCTGCGCCGCGCCCGCCCGGAGGTTCTGTCTTCGGTGCTGAAATGCGGCGATATCGAACTGGATCGCGAGACCCATCGCGTTCACCGCAAGAGCCGCGAAGTGCGCCTCGGCCCGACGGAGTTCCGCCTGCTGGAATTCCTGATGACCTCTCCCGGCCGGGTGTTTTCCCGCTCGCAATTGCTGGATGGTGTGTGGGGTCACGATATCTATGTGGATGAGCGCACCGTCGACGTGCATGTCGGACGTCTGCGCAAGGCGCTCAATTTTTCGCATATGCAGGATGTCATCCGCACCGTGCGCGGCGCCGGATATTCAATGGAAGCCTGA	MVPKIAVVEDEEALSVLLRYNLEAEGYDVDTIPRGDEAEIRLQERIPDLLILDWMLPGVSGIELCRRLRMRPETERLPIIMLTARGEESERVRGLATGADDYVVKPFSTPELMARVKAMLRRARPEVLSSVLKCGDIELDRETHRVHRKSREVRLGPTEFRLLEFLMTSPGRVFSRSQLLDGVWGHDIYVDERTVDVHVGRLRKALNFSHMQDVIRTVRGAGYSMEA	PGPT0002660_1779	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002660-phoB-K07657	NA	NA
BMS010_08944	726	phoU_2	COG0704	Phosphate-specific transport system accessory protein PhoU	ATGACACAGACAACGACCCATTCGCATATTCTGTCGGCCTATGACGACGAACTGAAATTCCTTACGCGTCGTATCGCCGAAATGGGCGGTCTTGCGGAGCAGATGTGCGCCGACGCCGTGCGCGCGCTCGTCAATTCCGATGCCGCGCTCGCCCAGAAGGTCATTTCCGACGATGCGATCCTCGACCACGCCGAGCGCGAGATCGGCGACAAGGCCATCGTCACCATCGCCAAACGCCAGCCGATGGCGGCAGACCTTCGCGAGATCATCGGCACCCTGCGTATTGCAGCTGACCTTGAACGCGTCGGCGACCTTGGCAAAAACACAGCCAAGCGCGTCATCGCGGTTGCCGGCACCGGCGTGCCGCGCAAGCTCGCCCGTGGCATCGAACACCTGTCGGAACTGGCGCTGGTGCAGCTCAAGGAAGTGCTGGACGTCTATTCCACGCGTTCCGCCGAGAAGGCCAATGCCATTCGCGAGCGCGACGAAGAAATCGACGCCATGTACACGTCGCTCTTCCGTGAGCTTCTGACCTACATGATGGAAGATCCGCGCAACATCACCACCTGCACGCATCTTCTGTTCTGCGCCAAGAACATCGAGCGTATCGGCGACCACGCCACCAATATCGCCGAAACGATCTATTACATGACCACCGGCAGCCAGCCGGAAGGCGAGCGTCCGAAGGACGACAGTTCCAACACGCTCGGTTCGGTGACCGAGTAA	MTQTTTHSHILSAYDDELKFLTRRIAEMGGLAEQMCADAVRALVNSDAALAQKVISDDAILDHAEREIGDKAIVTIAKRQPMAADLREIIGTLRIAADLERVGDLGKNTAKRVIAVAGTGVPRKLARGIEHLSELALVQLKEVLDVYSTRSAEKANAIRERDEEIDAMYTSLFRELLTYMMEDPRNITTCTHLLFCAKNIERIGDHATNIAETIYYMTTGSQPEGERPKDDSSNTLGSVTE	PGPT0002630_583	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ARSENIC_RESISTANCE	ARSENIC_RESISTANCE-PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002630-phoU|phoY-K02039	NA	NA
BMS010_08945	816	pstB_2		Phosphate import ATP-binding protein PstB	ATGAACATGTTGTCGGAAGCAGCAGTTGAAAAGGCGCTGGACAAAAAAATGAATGAAGTCTCATACAAGATGATCGGCAAGGACGTTTCGGTTTATTACGGCGAAAAGCGCGCGCTTTACGACGTGAACCTCAACGTTCGGGAAAATACGGTGACCGCGCTTATCGGCCCGTCCGGCTGCGGCAAATCCACCTTCCTGCGTACCCTGAACCGTATGAACGACACGATCGACGGTTGCCGGGTCACCGGCAAGATCACGCTCGACACCGACGATATCTACGATCAGGCGATTGACGTCGTGGAATTGCGCGCCCGCGTCGGCATGGTGTTCCAGAAGCCGAACCCCTTCCCGAAGTCGATCTACGAAAACATTTCCTACGGTCCGCGCATCCATGGTCTCGCCCGCAACAAGGCGGATATGGACCAGATCGTCGAGCAGAGCCTGCAGAAGGCGGGTCTCTGGAACGAGGTTAAGGATCGTCTGCACGAATCCGGCACCGGTCTTTCCGGCGGTCAGCAGCAGCGTCTGTGCATCGCACGCGCCGTTGCCGTCAGCCCGGAAGTGATCCTGATGGACGAGCCCTGCTCGGCTCTCGACCCGATCGCGACCGCAAAGGTCGAAGAATTGATCCACGAGCTGCGCACCAATTACACCATCGTCATCGTCACGCACTCCATGCAGCAGGCGGCGCGTGTTTCCCAGCGCACGGCCATGTTCCATCTTGGTCATCTTGTCGAGGAAAACGAAACCGACAAGATGTTCACCAATCCGGACGACCAGCGCACGCAGGATTACATCATGGGCCGCTTCGGCTGA	MNMLSEAAVEKALDKKMNEVSYKMIGKDVSVYYGEKRALYDVNLNVRENTVTALIGPSGCGKSTFLRTLNRMNDTIDGCRVTGKITLDTDDIYDQAIDVVELRARVGMVFQKPNPFPKSIYENISYGPRIHGLARNKADMDQIVEQSLQKAGLWNEVKDRLHESGTGLSGGQQQRLCIARAVAVSPEVILMDEPCSALDPIATAKVEELIHELRTNYTIVIVTHSMQQAARVSQRTAMFHLGHLVEENETDKMFTNPDDQRTQDYIMGRFG	PGPT0002615_1499	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE-PUTATIVE_PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002615-pstB|phoT-K02036	NA	NA
BMS010_08946	1323			hypothetical protein	ATGACCGACATCGTTTCTCCCGCAGCCGGCGCGAGCGCCGTCAACAAGGCCACGCGCCGTGATATCGGCATCAAGCGCCGTTATGCCGCCGAACGCCGCTTCCGTGCCTACGGCATGGCAGCGATTTCTTTCGGCCTCATCTTCCTCTTCCTGCTGCTTTTCTCGGTGGTTTCCAAGGGTTACACCGCTTTCCAGCAGACGATGATCACCGTTCCGGTCGAGTTCTCCGAACAGATCATCGATCCGAAAAATGAGCGCGCCACCAATCCCACAAAGCTGATGACGGCCAATTATCCCGTCATCGCCCGCGATGCTGTCGCCAAGGTCCTTGGCGTTGCGCCGACGGACCGCGCCGGTCTTCGCGCCGTCAACCTCTTGATCTCCGACAGCGTGCGCACGCAGCTTCGCGATATCGTCGTCGCCGATCCCGCCGTCATCGGCACCACGCGCACCGTCACGCTGCTGGCGTCGGGCGACGTCGACAGCGCCTTCAAGGGCCAGGTCGACCTGACGGCGGATGAAGCCAATCGCCGTATCTCGAACCAGCAGCTCGGCTGGATGAACCAGCTCGCCGAAAGCGGCCAGCTCGGCAAACATTTCAACACCGGCATCTTCGTCAACGGCGCGTCGAGCCGTCCGGAAGCGGCGGGTGTCGGTGTGGCGCTGATCGGCTCCTTCTACATGATGCTGATCGTGCTGGTGCTGTCATTGCCGATTGGCGTTGCGGCCTCCATCTATCTCGAGGAATTCGCCCCGAAGAACCGTCTGACGGATCTTATCGAGGTGAATATCAACAATCTCGCGGCCGTTCCTTCGATTGTTTATGGTCTGCTCGGCCTCTCGGTCTTCATCAACTTCATGGGCTTTCCGCGCTCGGCCTCGCTGGTCGGCGGCCTCGTCCTGACGCTGATGACCCTGCCGACGATCATCATCGCGACGCGCGCTGCCCTGAAAGCCGTGCCGCCGTCTATCCGCGCCGCCGCCCTTGGCCTCGGCGCTTCCAAGATGCAGACGATCTTCCACCATGTGCTGCCGCTCGCCATGCCCGGCATTCTGACCGGCACCATCATCGGTCTCGCCCACGCGCTGGGCGAAACGGCGCCGCTGCTCTTGATCGGCATGGTGGCATTCGTTGCGAATTATCCGACAACGCCGATGGATCCGTCCACGGCCCTGCCGGTGCAGATTTACATGTGGGCGAACGAAGCCGAGCGCGCCTTTGTCGAAAGGACATCCGGCGCTATCATCATCCTGCTTCTGTTTCTCATCGTCATGAATGTTGGCGCAATCCTGTTGCGTCGCCGCTTCGAACGGCGCTGGTAG	MTDIVSPAAGASAVNKATRRDIGIKRRYAAERRFRAYGMAAISFGLIFLFLLLFSVVSKGYTAFQQTMITVPVEFSEQIIDPKNERATNPTKLMTANYPVIARDAVAKVLGVAPTDRAGLRAVNLLISDSVRTQLRDIVVADPAVIGTTRTVTLLASGDVDSAFKGQVDLTADEANRRISNQQLGWMNQLAESGQLGKHFNTGIFVNGASSRPEAAGVGVALIGSFYMMLIVLVLSLPIGVAASIYLEEFAPKNRLTDLIEVNINNLAAVPSIVYGLLGLSVFINFMGFPRSASLVGGLVLTLMTLPTIIIATRAALKAVPPSIRAAALGLGASKMQTIFHHVLPLAMPGILTGTIIGLAHALGETAPLLLIGMVAFVANYPTTPMDPSTALPVQIYMWANEAERAFVERTSGAIIILLLFLIVMNVGAILLRRRFERRW	PGPT0002610_1000	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE-PUTATIVE_PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002610-pstA-K02038	NA	NA
BMS010_08947	1485			hypothetical protein	ATGAACACATCGATCCTTTTGCTGATACTGGCGCTCATCGGCATCGGCAGCTATCTGCTCGGCAGCCGCCGTGCCGTTGCCCTGTCTGGCGGTCGCCCCTCCAGCATGCATTCCCGTGCTGGTTATCACGGTTCCTACGCGGTCGTCTGGGCGGTACTGCCCGCGGCGTTCATTCTCTGTGCCTGGCTCATTGTCAGCCCATTGCTCGTCACCTCGGCGGTGCGCGGTAGTTTCCCCGAGGATGTCCGGGCGCAATCCGAAGCGCAGCAGAGCCTGACCTACGGTATGGTGACCTCCATCGCCCGTGGCCTCCAGCGGCTGACGCCCGAGGAAACCGCACAGGTCGAGGCCGATACGGCTGCGGTCCGGCCGCTTCTGGCATCGAAAGGTGTTGCAATCGCCGGCGATCCCGAGCGGTTCATGGTCGATGCCGCCCACACGCTCAACAGCATGACCTCCACCAGCCGTATCGCGATGATCGCCGTTGTGCTGCTGGCCGCGCTCGGCGGCGGCGCCTATGCGCTGCGTGCAATCGCGCCGCGTTTCCGGGCGCGCAACCAGGTCGAGAAAGTCATTCTCGCGGCCCTGCTCGTCGCCTCGTCCATCGCCATCCTCACGACCATCGGCATCGTCCTGTCGATGCTGACGGAGGCGATCCAGTTCTTCACCATGGTTCCGGCGCACCAGTTCTTTTTCGGAACGGTCTGGGATCCGCGTTTTGCAGCGGCAGGCGCTACCGATTCCTCCGGCCAGTTCGGCCTGATCCCGCTGCTCGCCGGCACGCTTTATATCGGCTTCGTCGCCATGCTGGTTGCGGTTCCGGTCGGTCTCTTCTCGGCGATCTACATGGCGGAATATGCCTCGCCGCGCTTCCGCTCCATGGCAAAGCCGCTGCTTGAAGTGCTCGCCGGCATTCCCACCATCGTCTACGGCTTCTTCGCGCTCACGACGGTCGGTCCTTTCCTCAGAGACATTTCCACGCAGATCAACGGTCTGGCGACGGGCAACTACGCCAACTTCATCCAGGCGCAGAGCGTCATCACCGCCGGCTTCGTCATGGGCATCATGCTGATCCCCTATGTGTCGTCGCTGTCGGACGACATCATCACCGCTGTGCCGCGCTCGCTGCGTGACGGTTCGCTCGGTCTTGGCGCCACGCGTTCCGAGACGATCAAGAGGGTCATTATTCCGGCCGCTCTTCCCGGCATCGTCGGCGCCGTGCTGATGACGGCTTCGCGCGCCATCGGCGAAACCATGATCGTGGTTCTTGCGGCCGGTGTTGCTGCCCGCCTGCAGCTCAATCCCTTCGAGCCCATGACCACGGTGACGGTCAAGATCGTCAGCCAGCTTACCGGCGACCTTGAATTTACCTCGCCGCAGACGCTGGTTGCCTTTGCGCTCGGCATCACGCTTTTCGCCATCACGCTTTGCCTGAATATCTACGCGCTTTACATCGTGCGCAAATACCGGGAGCAATATGAATGA	MNTSILLLILALIGIGSYLLGSRRAVALSGGRPSSMHSRAGYHGSYAVVWAVLPAAFILCAWLIVSPLLVTSAVRGSFPEDVRAQSEAQQSLTYGMVTSIARGLQRLTPEETAQVEADTAAVRPLLASKGVAIAGDPERFMVDAAHTLNSMTSTSRIAMIAVVLLAALGGGAYALRAIAPRFRARNQVEKVILAALLVASSIAILTTIGIVLSMLTEAIQFFTMVPAHQFFFGTVWDPRFAAAGATDSSGQFGLIPLLAGTLYIGFVAMLVAVPVGLFSAIYMAEYASPRFRSMAKPLLEVLAGIPTIVYGFFALTTVGPFLRDISTQINGLATGNYANFIQAQSVITAGFVMGIMLIPYVSSLSDDIITAVPRSLRDGSLGLGATRSETIKRVIIPAALPGIVGAVLMTASRAIGETMIVVLAAGVAARLQLNPFEPMTTVTVKIVSQLTGDLEFTSPQTLVAFALGITLFAITLCLNIYALYIVRKYREQYE	PGPT0002620_677	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE-PUTATIVE_PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002620-pstC|phoW-K02037	NA	NA
BMS010_08948	1035	pstS_2		Phosphate-binding protein PstS	ATGAACATCGTTAAATTTTCCGCAGCAGCTCTGGTGGCTTCTGTCGCCTTCGCTGGCGCCGCCGCTGCTCGCGACCAGATCCAGGTTGCCGGTTCCTCCACAGTTCTGCCTTACGCCAAGATCGTTGCCGAGACCTTTGCCGAAACCTTCCCGAACTTCAAGGCTCCCGTTGTTGAGTCCGGCGGCACGGGCGGCGGTCTGAAGGCGTTCTGCTCGGGCGTCGGCGAAGGCACCATCGACATTGCAAACGCTTCCCGCAAGATCAAGAGCGACGAACTTGCCGCCTGTAAGGCTGCTGGCGTTGCCGACGTTCAGGAAGTGAAGATCGGTTACGACGGTATCGTTTTCGCAATGGACTCTTCCAACAAGGACATCAAGCTCGAGCCGAAGGATCTGTACCTTGCGCTCGCCGCTGAAGTCGTCAAGGACGGCAAGCTCGTTGCCAACCCTTACAAGAAGTGGTCGGAAATCAACAAGGAACTGCCTGATGTAGCAATCGCTGCTTACATCCCGGGTTCCAAGCACGGCACGCGCGAAGTCTTCGAAGAGAAGATCATGGCTGACGGCTGCAAGGAAGCCAAGGCGACCGACGTCATCAAGACGCTCATCACCGACGCCAAGCAGGCTGCTGCCAAGTGCGTTGCAGTCCGTAAGGACGGCGCAGCAGTCGACATCGACGGCGATTACACCGAAACGCTCGCCCGCATCGATGCCAACAAGACCGGCCTCGGCGTTTTCGGTCTCGCTTTCTATGAAAACAACGCTGACCGTCTGAAGGTCGCGACCGTTTCGGGCGTCGTTCCGTCCACCGAAACCGTTGCCAGCGGCAAGTACCCGGTTTCCCGCCCGCTGTTCTTCTACGTGAAGAAGGCTCACCTGGGCGTTATCCCGGGCCTTAAGGAATATGTCGAGTTCTTCGTTTCCGACGAGATGATCGGCCCGGATTCCCCGCTCGCCAACTACGGCCTGGTTGCTGCTCCGGACGCAGAGCGCGAAGAAATCCGCTCGAAGTTCTCGGCCGGCTCCACGATGTAA	MNIVKFSAAALVASVAFAGAAAARDQIQVAGSSTVLPYAKIVAETFAETFPNFKAPVVESGGTGGGLKAFCSGVGEGTIDIANASRKIKSDELAACKAAGVADVQEVKIGYDGIVFAMDSSNKDIKLEPKDLYLALAAEVVKDGKLVANPYKKWSEINKELPDVAIAAYIPGSKHGTREVFEEKIMADGCKEAKATDVIKTLITDAKQAAAKCVAVRKDGAAVDIDGDYTETLARIDANKTGLGVFGLAFYENNADRLKVATVSGVVPSTETVASGKYPVSRPLFFYVKKAHLGVIPGLKEYVEFFVSDEMIGPDSPLANYGLVAAPDAEREEIRSKFSAGSTM	PGPT0002625_3347	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE-PUTATIVE_PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002625-pstS|phoS-K02040	NA	NA
BMS010_08949	1272	sasA_27		Adaptive-response sensory-kinase SasA	ATGGCAGTCATGGAAGGCGATGGTGGGTTAAGGCGTTTGGGAAGGAAGCTCGGTCGAAACTGGTTGCCCGTTCTCATCGTCAGCATGCTCGCCATCGTGGCCGTTGCCGAGCTCAACACGCCCTATATGCCCGCCGCCCTGTGGCTTTGCGCCGTCATTGCCATCCTCGCCGCCCGGGAGGGGCCGGCGGCGGCTCCCCCAAAAGACGGGAGCCCGGCTGAGGAGGCAGATGAGCAAGAAGTGCCCGGCGAAAGCGTCATTTCCGGCGTAAGGGCGGGCCTCGCGGTTCTGGATACCCCCGTTTTCATTCTCGACAGGAACGCCAGCGTGCTGTTTCAGAACGGCGCGGCCGAGCGCGCCTTCGGCCAGTTGCCCGCCGGGGCGCATATTTCCGCCCGGCTGCGCTCTCCCGGCCTCCTGGATGTCATTCGCGAAACCATCACCACCGGCCAGCCTAACCAGGTCGAACATTCGGAGCGCTTCCCTTCCGAACGGGTCTTCATCGTTCGTATCGCCCGTGCGGATGCGGGAGAGGGGGCAGGCCCGCCATTCTATATCCTGTCGTTCCGCGACGTCTCGGAGCTTCGCCGCATCGACCGCATGCGCAGCGACTTCGTCGCCAATGCCAGCCACGAATTGCGCACACCGCTCGCCTCGCTGCGCGGTTTCATCGAAACCATGCAGGGGCCGGCGCGCAACGACCCGAAGGCGCAGGAACGTTTCCTTGCCATCATGCTGGATCAGGCAACCCGCATGAGCAGGCTGGTGGACGATCTCATGTCGCTGTCGCGGCTGGAATTGCGGGCCAACATCGCGCCCGACCAGAAGGTCGATCTCGTTCCCGTCATCGGCCATGTGCGCGATACCCTGCTGCCGCTTGCCGACGAGCTGGATGTGACCATCACGCTGCACCTGCCCGACCGGCCGGCAGAGGTGCAGGGAGACCGCGACGAGCTGGTGCAGGTATTCCAGAACCTCGTTGAAAATGCTTGCAAATACGGCCAGGAAGGCAAGGTCGTGGATGTCTGGCTGCGGGCCGAACCCGGCAAGCCGGTGGAGGTGAGCGTTATCGACAAGGGGCCCGGCATCCCCGCCGAACATGTGCCGCGTCTGACGGAGCGTTTTTATCGCGTCAGCGTCGCCGACAGCCGCTCGAAAAAGGGCACGGGTCTCGGACTTGCCATCGTCAAGCACATCCTCACCCGCCACCGCGCCCGCCTCATCATTAAATCGGAATTGGGCAGCGGCACGGACTTCACTGTGAGATTCTGA	MAVMEGDGGLRRLGRKLGRNWLPVLIVSMLAIVAVAELNTPYMPAALWLCAVIAILAAREGPAAAPPKDGSPAEEADEQEVPGESVISGVRAGLAVLDTPVFILDRNASVLFQNGAAERAFGQLPAGAHISARLRSPGLLDVIRETITTGQPNQVEHSERFPSERVFIVRIARADAGEGAGPPFYILSFRDVSELRRIDRMRSDFVANASHELRTPLASLRGFIETMQGPARNDPKAQERFLAIMLDQATRMSRLVDDLMSLSRLELRANIAPDQKVDLVPVIGHVRDTLLPLADELDVTITLHLPDRPAEVQGDRDELVQVFQNLVENACKYGQEGKVVDVWLRAEPGKPVEVSVIDKGPGIPAEHVPRLTERFYRVSVADSRSKKGTGLGLAIVKHILTRHRARLIIKSELGSGTDFTVRF	PGPT0002705_3071	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002705-phoR-K07636	NA	NA
BMS010_08950	882		COG2326	Polyphosphate:ADP phosphotransferase	ATGGGCGAAGAAACGAAGAAGCGGACGGTCGATATCACCATAGGCGGCAAACTGCGCAGCTTCGACATCGACGATCCGGTTCTTCCTGACTGGGTTGAGGAAAAGAAACTTTCCGCCGGCGATTTTCCCTACGACAAGAAGATGAAGCGGGAGGACTACGACAGCACCCTCGAGGCGCTGCAGGTGGAGCTGGTCAAGGTGCAGTTCTGGCTGCAGGCCACCGGCAAAAGGGTCATGGCGGTTTTCGAGGGCCGCGATGCGGCGGGCAAGGGCGGCGCGATCTTCGCGACCCGGGCCTATCTCAACCCCCGCTATGCCCGCGTGGTGGCGCTGACCAAACCGACGGAAACCGAACGCGGCCAATGGTATTTCCAGCGCTATATCTCGCATTTTCCGACCGCCGGCGAATTCGTTCTCTTCGATCGCTCGTGGTATAACCGCGCAGGCGTAGAGCCGGTCATGGGTTTCTGCACGCCGGAGGAACATAAGCGTTTCCTCAAGGAAACGCCGCGCCTGGAAAAGATGCTGGTCCATGAGGACGTTCATCTGTTCAAGTTCTGGCTCGACATCGGCCGCGAAACGCAGATCGAACGCTTCCATGACCGTCGCCACAGCCCGCTGAAATGCTGGAAGCTTTCGGATATGGACATAGCGGCGCTGACGAAATGGGACGACTACACGCAAAAGCGCGACGAAATGCTGGAAAAGACCCACACCGATGCAGCCCCCTGGACGGTGGTGCGCGCCAACGACAAGCGCCGCGCGCGGGTAAACCTCATCCGTCACATTCTCCTTGCGCTCGACTATGAGGGCAAGGACAAAAAGGCAATCGGCGAAATCGACGACAAGATTTTGGGATCTGGGCCGGATTTTCTCAAATAG	MGEETKKRTVDITIGGKLRSFDIDDPVLPDWVEEKKLSAGDFPYDKKMKREDYDSTLEALQVELVKVQFWLQATGKRVMAVFEGRDAAGKGGAIFATRAYLNPRYARVVALTKPTETERGQWYFQRYISHFPTAGEFVLFDRSWYNRAGVEPVMGFCTPEEHKRFLKETPRLEKMLVHEDVHLFKFWLDIGRETQIERFHDRRHSPLKCWKLSDMDIAALTKWDDYTQKRDEMLEKTHTDAAPWTVVRANDKRRARVNLIRHILLALDYEGKDKKAIGEIDDKILGSGPDFLK	PGPT0002690_1330	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002690-ppk2-K22468	NA	NA
BMS010_08951	1146			hypothetical protein	GTGAGCGGACTGGAAACGGCAATCAGAAATGCTCTGGAAAAATCGGACAGATCGAACGCCGAAGTTCGTGCACGGATTTACCAATCCTCCCGCCAGGCACTGGAAGCGGGCCTGCGCAAGCAGGGCATAGACGATCCGCAGGTTGTCTCCCAGCAGCGCCAGCGGCTTGAAGGCCTGATCCACCAGATCGAGAATGAAGAGCGCAACCGGCTTCTGGACAGGGTGGAGCAGCAATTGCGTCCTCCCGCACCGGAAAGTCCGGCGCAGGACGATCACTCGGTCGATCCCGTTTCGCAGACGCCTCACCACGGCGATGTGGGTGTTGAGCCGGAGTTGCGTGGTGAAACGCGCGATGTGCGGCCGGGCGGCGCCGCTGCTCCGGCGCCGCTGAGTGCGGGGCAGCGCAATGGCAAGCCGCCGAAGAGAGGCTCCCGCGCGGGCGATGCTTCGCTTGCCTTCCGGCCGGAAGTCGCGGTTGGCCGCCGCAAGCGCCGCGGGCTTTTCGCCCGGCTTTTCATCTACGTGACGCTTCTGGCCTTTATCGGTTTCGGGGCCTGGTGGGGCTATTCCTCAGGCCTCCTGCTGTCGCCGGAGCAGCGCGATACCAGCGTGCCCAATCCGCCGGCGCAGGTGCAGGCGGAGGATTTCAACGGGACGGAGCCCGCGCCGAGCCTTTCCGCCGGCCGTGGTTTTTCCGACGACTGGGTGGAAGTCTTCAATGCGGAGCGTGGCAGTTCCGGTGTTTCGGCCGGCCCGCGCGCCAATGTCGAAAACATCGCCACACCCGCCGGCAAGGCGATAAAGGTGACCTCGAGAAGTGTCTCGCAGGATGGCGCCGTCAGCGTCGAGGTTCCGGTGGAGGTGATGCGGGATATGGCGGGTAAGTCCTCGACCATTTCGATCACGCTGCAATCCTCCAGCGACCGGCAGACCCAGGTGTCCGTCGCCTGCGATTTCGCGACATTGGGCGATTGCTCCCGCCACCGCTTCACCGCCACGGCCGAGCGCGCGGACATGCTGCTGAACACGACATTCGAACGATCTCTCGCCCCCAATGCGCCGGGCAGGATCTTCATCAACAGCGACATCGATGGCAGCGGCCGCCCGGTCAATCTTTATTCCGTGCGCATTCTGCCGGGCCAGTAA	MSGLETAIRNALEKSDRSNAEVRARIYQSSRQALEAGLRKQGIDDPQVVSQQRQRLEGLIHQIENEERNRLLDRVEQQLRPPAPESPAQDDHSVDPVSQTPHHGDVGVEPELRGETRDVRPGGAAAPAPLSAGQRNGKPPKRGSRAGDASLAFRPEVAVGRRKRRGLFARLFIYVTLLAFIGFGAWWGYSSGLLLSPEQRDTSVPNPPAQVQAEDFNGTEPAPSLSAGRGFSDDWVEVFNAERGSSGVSAGPRANVENIATPAGKAIKVTSRSVSQDGAVSVEVPVEVMRDMAGKSSTISITLQSSSDRQTQVSVACDFATLGDCSRHRFTATAERADMLLNTTFERSLAPNAPGRIFINSDIDGSGRPVNLYSVRILPGQ				NA	NA	NA	NA	NA
BMS010_08952	963			hypothetical protein	ATGCTGCCGTCCGTGCTGAAAGACAATCTGCGTCTTCCGGTCATAGCATCACCGCTATTCATCATTTCACATCCGCAGCTGACGCTGGCGCAGTGCAAGGCGGGCGTCATCGGCGCTTTCCCGGCGCTCAATGCGCGGCCCGAAAGCCAGCTCGACGAGTGGCTGGCAATGATCACCGAGGAGCTTGACGCTCACAACCGGGCCAATCCCGAGCGCCCGGCGGCGCCCTTCGCGGTCAACCAGATCGTGCACATGTCCAACAAGCGGCTGGAGCACGATCTCGGCCTTTGCGTGAAATACAAGGTGCCGGTGGTGATTTCTTCGCTTGGCGCGGTGCCGGAGGTCAATGCGGCCGTGCATTCCTATGGCGGCATCGTGCTGCATGACGTCATCAACGACCGCCATGCCCGCTCCGCCATTCGCAAGGGCGCGGATGGGCTGATCGCGGTGGCGACGGGTGCCGGCGGACATGCGGGCACGCTTTCGCCCTTCGCCCTCGTTCAGGAAATCCGCGAATGGTTCGACGGCCCGCTGCTGCTGGCCGGCGCCATCGCCAATGGCGGCTCCGTTCTCGCGGCGCAGGCCATGGGCGCGGATATGGCCTATATCGGCTCTCCCTTCATCGCCACCGAGGAAGCGCGCGCTTCCGAAGGCTACAAGCAGGCGATTGTGGACGCGCAGGCCAAGGATATCGTCTATTCGAACTATTTCACGGGCGTACACGGAAACTACCTGAAAAGCTCGATCGTCGCCTCCGGCATGGATCCCGACAATCTGCCCGAGGCCGATCCTTCGAAAATGGACTTCGAAACGGTCTCCGGCGGCGCCAAGGCCTGGAAAGACATCTGGGGCGCAGGGCAAGGCATCGGCGCCGTCAAGGCGGTGGAACCGGTGGCGGCGCTCGTCGATCGTCTGGCAAATGAATATGAAACGGCCAAAAAGCGCATCTGCGGGAAAGGCTGA	MLPSVLKDNLRLPVIASPLFIISHPQLTLAQCKAGVIGAFPALNARPESQLDEWLAMITEELDAHNRANPERPAAPFAVNQIVHMSNKRLEHDLGLCVKYKVPVVISSLGAVPEVNAAVHSYGGIVLHDVINDRHARSAIRKGADGLIAVATGAGGHAGTLSPFALVQEIREWFDGPLLLAGAIANGGSVLAAQAMGADMAYIGSPFIATEEARASEGYKQAIVDAQAKDIVYSNYFTGVHGNYLKSSIVASGMDPDNLPEADPSKMDFETVSGGAKAWKDIWGAGQGIGAVKAVEPVAALVDRLANEYETAKKRICGKG	PGPT0006800_4028	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-PROPIONATE-3-NITRATE-DERIVATE_RESISTANCE,PGPT0006800-ncd2|npd|pnoA-K00459	NA	NA
BMS010_08954	174			hypothetical protein	ATGGAACTGAAGCGAATCAACGATTCCGCGCAGCGAAATCAGCCCAAGCCGGGCCAACAATTGGTGGACAACTTTGACACAAAAATCTCGTCTGAGACCGTCGAGGCGTTGAAGCAGGTCGACGCAAATATTCGGGCCGCCGAACAGAAAGCGGGGCACTTGCTGGTCGCTTAA	MELKRINDSAQRNQPKPGQQLVDNFDTKISSETVEALKQVDANIRAAEQKAGHLLVA				NA	NA	NA	NA	NA
BMS010_08955	1596			hypothetical protein	ATGACCGTAACTGCTTTTTCGCTTGATGCCGATGGCTGGACCCACCTAACAAGCGTGCTCAATGACAATCAATTAAACCCACATATTACCACGAAGCTTATAGAGCAGCTGCGAGCACTCAACGCACAAACCTTCCTTATGGAAGACGAGTATATTGACCGCGACTTCTCCGAAGCATTTGCGGCTTACTACTCTCGACTATTCAAGAGACACGGCAAAATCTGTCGGCGCATTCACTTCTTTTGCCAGGATTTGTCCGGGGTTATCACTAGTTCGACCGACGCGGATATGGCGCTGGCGCTTGAACAATGCCAGAATGATTATCTTGGGTTCATAGTTCTCAGACCGGTCCATCAAGCGCCAGTTGCATCTGCGGTTCTTCGGACGCCACCTCCACCCCTTGGGACTGAGGCGCATCCGCTTGTAAAAGCGAAATATAACGTGCACCTTCTTGGTGCTCAGCTCACAATAGATGCGTTTCCAATGACGCAGCAAGACCAACGAATTGGGGCATGCGCGCAAGCCACAATCTGGTCTACCGCGAGGCATTTCCACGCGCGGCACAGTGGACCTTGGGTCTCCATGGTGAACATCACCGAAGCCGCCATGATGCAAGAAGTGTTTTCAGTCAGCTCAACACTTCCCAACGGGTCAGAATTTCTGAGCCTAAGTGGCATGGTATCGGCACTCCGTGTTTCGGGTCGAAAGCCTCTTATCTACATGGCGGACGATCAAGTAAATTTGCTCTGGCAGGGAATCCGGCCGTCAGATGTTATCAACAGGTACGTCGATTCTGGTATTCCAGTTATCGTTGGCCTCGGTTTTGCGGGGCAAAATGTGGGCCACGCAGTAGTCGCATCAGGGCAGGTTTTTTCTCAGCAAACACCTACGGGTCTGCCTCCGCGCCCGACTAGGGCGGAGTTTTGTTCTGCCTTCTATATCAACGATGATCAACGGGGTCCCAACCTAAGAATGCCGGTCGTGGCTGGCGACCCTGTTGGGGAGACCCCCTATAGTGTCGGAGGCAATGTCAGATTTTTGATCATCCCCTTGCCGGACAAGGTATTTCTCCCCGCAGAAAAGGCCGAGCTGTTTGCGTGGGACATTTTGACTAAATATTCCAACTCTTGGAGCAATCTCAAGTCTGGTGCCCAATTGGGAACATCCGTGGCTGCCGGCGATGCTTTTAATGCAGAATTGGTTGCAAACAATATCGTTGCCAGAACGTATTTGACGTATGGATGGAAATACAAGCACCGGATGTTGCGCAACCAGCTCACGGACGCGACCAAGGGGCTTCTCAGTTCGACAGAACTACCACGCTATGTCTGGGTCACAGAATTCGGCACCGTAGACTCTTTTGCTGCGAACGATATCTATCAGCGCCGAATTTTTGGCCACTGTGTAGTAGATGCCACCGCTAAGAATATGGGAGACGATAGTTGCTTATTCTTCCATGCGCCTGGGCTGGTAGTGCGTCGCGTGCACAGCAGTACAAATCCCTATGGCCCCTACGAACAGTCGACCCATGCCATAGCTGATGATGAGCCATATTTTCCCAAGCTGCGGGGCAACATAGATTTCCACGGTTACTAA	MTVTAFSLDADGWTHLTSVLNDNQLNPHITTKLIEQLRALNAQTFLMEDEYIDRDFSEAFAAYYSRLFKRHGKICRRIHFFCQDLSGVITSSTDADMALALEQCQNDYLGFIVLRPVHQAPVASAVLRTPPPPLGTEAHPLVKAKYNVHLLGAQLTIDAFPMTQQDQRIGACAQATIWSTARHFHARHSGPWVSMVNITEAAMMQEVFSVSSTLPNGSEFLSLSGMVSALRVSGRKPLIYMADDQVNLLWQGIRPSDVINRYVDSGIPVIVGLGFAGQNVGHAVVASGQVFSQQTPTGLPPRPTRAEFCSAFYINDDQRGPNLRMPVVAGDPVGETPYSVGGNVRFLIIPLPDKVFLPAEKAELFAWDILTKYSNSWSNLKSGAQLGTSVAAGDAFNAELVANNIVARTYLTYGWKYKHRMLRNQLTDATKGLLSSTELPRYVWVTEFGTVDSFAANDIYQRRIFGHCVVDATAKNMGDDSCLFFHAPGLVVRRVHSSTNPYGPYEQSTHAIADDEPYFPKLRGNIDFHGY				NA	NA	NA	NA	NA
BMS010_08956	300			hypothetical protein	ATGACCGTTCACGAGGAGATGAAGCTTGATCCCGATGGAATAGTTTTCAACGATCAACTGCATGCGAACTACCTTGCTAAACACAAGGAGGCCTTGGACAGGCAACAAGCTTTATTGAAGAGCTTGCTATATGCAGACGTCGCATTGGCGATGCTGCTTTTCGGCAAGGACATTAAACTGCCTTTAGTGGAACTGAATTTAAGCGAGATACCGGCCGCAATCCAAATTGTCGCCTTCATCTCATCGATCTCGTTTCTGCTTTTGTCCTATGCATTTCTAAACGCTATGACCTGCCACTGA	MTVHEEMKLDPDGIVFNDQLHANYLAKHKEALDRQQALLKSLLYADVALAMLLFGKDIKLPLVELNLSEIPAAIQIVAFISSISFLLLSYAFLNAMTCH				NA	NA	NA	NA	NA
BMS010_08957	543	blc	COG3040	Outer membrane lipoprotein Blc	GTGCGTTTCCCGCTCGTCCTCTTCGCCAGCCTGTTGCTGACCGCCTGCGCCAATTCCGGCACCGGGCAAGCGCCGCCGGAGACGGTCGGCAAGGTGGACCTGGCCCGTTACCAGGGCACCTGGTACGAAGTGGCCCGCCTGCCGATGTTCTTCCAGCGCGACTGCAGGGAATCCGAAGCCCATTATCAACTGCGGGACGATGGTCGGATGGCGGTCACCAACCGTTGCCGTACGGTGTCCGGTAAGTGGAAGCAGGTGCAGGGCGAGGCGGAGCCCCAGGAGGCGGGGCAGACCGACAAACTGTGGGTGCGCTTCGATAATGGCGTCAGCCGCCTCCTGCCGGGGCTGACCAAGGGGGAGTACTGGGTGTTGTCCCTGGACGACGATTACCGCGTCGCCCTGGTCGGCCATCCCAACCGCAAGTACCTCTGGCTGCTGTCCCGCAAGCCGAACCTGAGCACCGAGCAGCGCGACGAGCTGCTCACCGTGGCTCGCCAGCAGGGGTACGACACGTCGGAGTTGATCTGGCGCGAGGGTGAGTGA	MRFPLVLFASLLLTACANSGTGQAPPETVGKVDLARYQGTWYEVARLPMFFQRDCRESEAHYQLRDDGRMAVTNRCRTVSGKWKQVQGEAEPQEAGQTDKLWVRFDNGVSRLLPGLTKGEYWVLSLDDDYRVALVGHPNRKYLWLLSRKPNLSTEQRDELLTVARQQGYDTSELIWREGE	PGPT0012970_1277	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012970-blc-K03098	NA	NA
BMS010_08958	255			hypothetical protein	ATGTCCCTGCGTCGTATTGCCGTGCTGTCGTTCTGCGTGCTGTTGGCGGCCTGCAGCAAGGTCAACCAGGAAAACTACGCCAAGCTCAAGGCCGGGATGACCAAGGCCGAGGTGGAAAACCTGCTTGGCAAGCCTACCGAATGCTCCGGCGCGCTGGGTCTGTCCAGTTGCACCTGGGGCGACCAGCAGATCTTCATCAGCGTCCAGTTCGCCGGCGACAAGGTAATGATGTTCTCCGGCCAGGGACTCAAGTAA	MSLRRIAVLSFCVLLAACSKVNQENYAKLKAGMTKAEVENLLGKPTECSGALGLSSCTWGDQQIFISVQFAGDKVMMFSGQGLK				NA	NA	NA	NA	NA
BMS010_08959	609			hypothetical protein	ATGCGGTCTCCCTGGCAGTCCCTGCTCGACTGGTGGTTCGGTGAAGACCGGACCGCCAGTGCCGCCGACGTGGCAGCGGCGAAGAACGGCCTCTGGTTCGGCTACCGCGACAGCCAGGATGCCGAGGCGCGCGAGCGTTTCGGTGATCTGACCGAGCAGGCGCTGGCAGGCGGTCTGTCCGAGTGGACTGCCGAACCCCACGGCTGGCTGGCGCTGATCCTGCTGCTCGACCAGTTGCCGCGGATGACCCACCGCGGTACGCCACGCGCCTTCGCTGGCGACGTCCGCTCCCGCGAACTGGTGCGCCATGGCCTGGAGCAGCACTGGGAAGAGGCGTTGCGACCGATCGAGCAGGTGTTCGTCTACCTGCCGTTGGAGCATGCCGAAGACCGTGACAGCCAGACACTGTCGGTGGAGCGCTTCCGCGACCTGCGCGAAGCCTCGTCGGTGGACGAAGACGAGCTATTCGCCGGCTTCCTCGACTATGCCGAGCGCCATCGCGCGGTGATCGAACGCTTCGGCCGCTTCCCCCATCGCAATGCCATCCTGGGTCGGGAAACCACCGAGGAAGAGGGGGTATTCCTGCAGGGACCAGGGTCGCGCTTCTAG	MRSPWQSLLDWWFGEDRTASAADVAAAKNGLWFGYRDSQDAEARERFGDLTEQALAGGLSEWTAEPHGWLALILLLDQLPRMTHRGTPRAFAGDVRSRELVRHGLEQHWEEALRPIEQVFVYLPLEHAEDRDSQTLSVERFRDLREASSVDEDELFAGFLDYAERHRAVIERFGRFPHRNAILGRETTEEEGVFLQGPGSRF				NA	NA	NA	NA	NA
BMS010_08960	1014	fbp_2	COG0158	Fructose-1,6-bisphosphatase class 1	ATGTCCCGCGTTACCCTCAGTCGGTATCTGATCGAGCAGACCCGCAGCCATAACACCCCGGCGGATCTGCGTTTCCTCATCGAGGTGGTGGCGCGGGCCTGCAAGGAAATCAGCCACGCCGTATCCAAGGGTGCGCTGGGCGGGGTGCTCGGCAGCATGGGTACCGAGAACGTGCAGGGCGAGGTGCAGAAGAAGCTCGACGTGCTGTCCAACGAAATCCTGCTGGAGGCCAACGAGTGGGGCGGTCACCTGGCCGGCATGGCCTCGGAAGAAATGGACAACGCCTACCAGATTCCCGGCAAATACCCGAAAGGCGCCTACCTGCTGGTCTTCGACCCGCTGGATGGCTCCAGCAACATCGACGTCAACGTTTCGGTCGGCACCATCTTCTCGGTGCTGCGTTGCCCGAACGAGTGCTTCAGCCAGAACGACTCTCTCGGCGAAGAAGCCTTCCTCCAGCCGGGCTCCAAGCAGGTCGCCGCCGGCTACGCCATCTACGGTCCGCAGACCATGCTGATGCTGACCCTCGGCGATGGCGTCAAGGGTTTCACCCTGGACCGCGAACTGGGCAGCTTCGTGCTCACCCACGACAATATCCGCGTCCCGGAAAGCACCGCCGAGTTCGCCATCAACATGTCCAACCAGCGCCACTGGGAGGCTCCGGTTAAGCGCTACGTGGACGAACTGCTGGCCGGCGACACCGGCCCGCTGGGCAAGAACTACAACATGCGCTGGATCGCCTCGATGGTCGCCGACGTCCACCGCATCCTCACCCGCGGCGGCATCTTCATGTACCCGCGCGACGCCCGCGAACCCTCCAAGCCGGGCAAGCTGCGCCTGATGTACGAAGCCAACCCGATGTCGATGATCATCGAACAGGCCGGCGGCGCCGCCACCGACGGGCGCCAGCGCATCCTCGACATCCAGCCGGAATCCCTGCACCAGCGGGTGGCGGTATTCCTCGGCTCGAAGGAAGAAGTCGAGCGCGCCACCGCCTACCACAACCAGCAGTAA	MSRVTLSRYLIEQTRSHNTPADLRFLIEVVARACKEISHAVSKGALGGVLGSMGTENVQGEVQKKLDVLSNEILLEANEWGGHLAGMASEEMDNAYQIPGKYPKGAYLLVFDPLDGSSNIDVNVSVGTIFSVLRCPNECFSQNDSLGEEAFLQPGSKQVAAGYAIYGPQTMLMLTLGDGVKGFTLDRELGSFVLTHDNIRVPESTAEFAINMSNQRHWEAPVKRYVDELLAGDTGPLGKNYNMRWIASMVADVHRILTRGGIFMYPRDAREPSKPGKLRLMYEANPMSMIIEQAGGAATDGRQRILDIQPESLHQRVAVFLGSKEEVERATAYHNQQ	PGPT0017665_1816	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017665-fbp|cbbFC-K03841	NA	NA
BMS010_08961	1956	estA	COG3240	Esterase EstA	ATGAAGCGTGTGCTTACCCCACTGGCGGCCGCGTGCCTGCTGGCTTTCTCGTCTTCTTCCCTCATGGCCTCGCCCTATAGCGGGCTGGTCGTGTTCGGCGACAGCCTGAGCGATGCCGGGCAGTTTCCGGATGCATCCGGGCCAGCCGGCTCGACCCGGCGCTTTACCAACCGCACGGGGCCGAACTACGACTCCAGCGAATTCTTCGCGCTGAACTCGACCCAACTGCTCAGCTTGCAGCTTGGCCTCGGTGACCTGACTGCCTCCACCTCGCCGGTGAATGCTGCACTGGGCCTGCCGGACGGCACCAACTACGCGGTGGGCGGCAACACCACCCAGCAGATTCTCGATTCCATCGTCGGCACTGGCGAGGGTTCGGTGGTCGAGTTGGCCGACGGCACCAACCTGCGCACCCGTCCCGGTTACCTGGCCGAACTGGCTGCGCTGGGGCAGTCGATTGACTCGGATACCCTGTTCTACGTGAACGGCGGCGGCAACGATTTCCTCGATCTGATCATCAACCCGCTTGCGCCTACGGACGTAGCCACCGCCCAAGCCCAAGCCTCCGCGACACGATTGGCGGATGGCGTGCGCGCCTTGGAGGCCGCCGGTGCGCGTTACATCGTGGTGTCGCTGTTGCCGGACGTAGGGCAGACCCCGAATGCCCGGGCGCTGGAGTCGCTGATTCCCGGAATCTCTGACACCATTTCCGGCCTGGTCGCAGCCTTCAATACCGAGCTGGTCAGCCAACTCGCCGCCATCGACGCGGAAATCATCCCGCTCAACGTGCCGCTGCTGTTCAACGAGATCGTCGCGGATGCGGCGAGCTTCGGCTTTGATGCCACCCAGGACCTGATCGCCACCTGCTTCGACAGTTGCGCCAGCCCGAACGCCACCTGGGGAATCGGCAGCACGACCCCCGACCCCAGCAAACTCATCTTCAACGATAGCGTGCACCCGACCAGCGCGGTGCAGCAGATCTTCGCCGACTACACCTACTCCCTCCTGGCCGCCCCCTGGGAGCTGACGTTGCTGCCGGAGATGGCCCACGGCACCCTGCGTGCCCATCAGGATCAGTTGCGCAGCCAGTGGCAGGCGGATTGGGAGGACTGGCAGGCAGTCGGCCAATGGCGCAGCTTCGTCAATGCCGGTGGGCAGCGCCTGGACTTCGACGAGCAGGATGCCTCGGCCAGCGGCGACGGTAACGGCTACAGCCTGAACCTCGGTGGCAGCTATCGACTGGACGATGCCTGGCGTGCCGGTGTGGCGCTCGGGCTCTACCAGCAGGAGTTGGAGGCCGGCCGGGCCGATTCCGATTACGAATTGCGCAGCTACCTCGCTACGGCCTTCGTCCAGTACCAGTCGAACCGCTGGTGGGCCGACCTGACCCTGAGCGGCGGCTACCTGGATTACGACGATCTCTCGCGTAAGTTCGACCTGGGCATCGTCACGCGCAGCGAGAAAGGCGATACCGACGGACAGTTGTGGGCGTTCGGCGGCCGCCTGGGCTACGACATCGCCCAGCCTGGCAGCACCTGGCACCTGAGCCCCTTCATCAGTGCCGACTACGCCCGCGTGGAGGTGGACGGCTACGCCGAGAAGAGCGACAGCGCGACCTCGCTGACCTACGACGACCAGACCCGCACATCCAAACGCCTCGGCGCCGGTTTCCAGGGGCGTTTCGCGGTGAGCCCGTCCACCCAGGTATTCGCCGAAGTGGCCCGCGAACGGGAATACGAAGACGATCCGGGCGAACTGACCATGAGCCTGACCAGCCTGCCGGGGATCGACTTCACACTCGAAGGCTACACGCCCGAAGACCGCCTGACCCGCGCCAGTCTCGGTTTCAGCCAGAAACTTGGTGGCGAGCTGTCGCTGGGCGCGAGCTATCACTGGCGCAAGGGCGAAGATCAGACGCAGCAAGGGGTGAATCTGTCGGTAGCCTGGAACTGGTAA	MKRVLTPLAAACLLAFSSSSLMASPYSGLVVFGDSLSDAGQFPDASGPAGSTRRFTNRTGPNYDSSEFFALNSTQLLSLQLGLGDLTASTSPVNAALGLPDGTNYAVGGNTTQQILDSIVGTGEGSVVELADGTNLRTRPGYLAELAALGQSIDSDTLFYVNGGGNDFLDLIINPLAPTDVATAQAQASATRLADGVRALEAAGARYIVVSLLPDVGQTPNARALESLIPGISDTISGLVAAFNTELVSQLAAIDAEIIPLNVPLLFNEIVADAASFGFDATQDLIATCFDSCASPNATWGIGSTTPDPSKLIFNDSVHPTSAVQQIFADYTYSLLAAPWELTLLPEMAHGTLRAHQDQLRSQWQADWEDWQAVGQWRSFVNAGGQRLDFDEQDASASGDGNGYSLNLGGSYRLDDAWRAGVALGLYQQELEAGRADSDYELRSYLATAFVQYQSNRWWADLTLSGGYLDYDDLSRKFDLGIVTRSEKGDTDGQLWAFGGRLGYDIAQPGSTWHLSPFISADYARVEVDGYAEKSDSATSLTYDDQTRTSKRLGAGFQGRFAVSPSTQVFAEVAREREYEDDPGELTMSLTSLPGIDFTLEGYTPEDRLTRASLGFSQKLGGELSLGASYHWRKGEDQTQQGVNLSVAWNW	PGPT0023515_152	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_V_SECRETION_SYSTEMS	CE-T5a_AUTOTRANSPORTER_SECRETION,PGPT0023515-apeE|estA|lip_1-K12686	NA	NA
BMS010_08962	1614			hypothetical protein	ATGAGCCTCCCCGTGCTGCTGACCGGTGCCGTCTGCGTGGGTGTGGTGCTGTTGGCGCGCTGGGTCAGACGGCAGCGCTCCTTTCCCGGTCGTGACAGTTTCATCCTGCTGCACCTGGGCAGCCTCTGGTGGCTGGCCGCGGCGAGTCTGGAAATGGCCGCCCAGGCGCCGACCTGCAAGGTGTTCTGGGCGACCATGGCCTGGCCCGGCATCATCGGGGTGCCGACCTTCTGGGCCGTGTTTCTCTGGCAATACGTGAACAGCGTGCGCCAGCCCCTGCCGTCGCGCAGCCTCCTCGGGCTGACGCTGGTGCCGCTGCTGGTCTGGCTGATGGCCCTGAGCAATCCCTGGCACGGCCTGTTCTACGGTACGGGCACCACGCCGATGTCCGCCGAGCCGGGGGCGCCGGTGCGCTACGACCATGGGCCGCTGTTCCATGCGGCGGCCGTCTATGTCTACCTGGGGATGATGTTCTGCCTGGGTGTGGTGATCCGCGCCGCGGTGATCAGCTATGGCGTGCACCGTCGCCATTACCTGGCGTTCGTGGTAGTCACCCTGGTGCCTTGGGCGGCCAACGTCAGCTATGTCGTGTTCGACCGCACCCTGTTCGGCTTCGACCCGACACCGTTCAGCTTCGCCTTCACCCTGGCGGCGTTTGCCTGGCTGATCGTCGGAGTGCGCCTGTTCGACCTGTTGCCGGTGGCTCGGCATCTGCTGCTGGAAGAACTGCTCGACCCGGTGCTGGTGGTCGATCCGCAGTGGCGGGTGCTGGAGGCCAACCCGGCGGCCTTGAAGCTGGCCGGCCTGCGCAACGGCTGGCAGGGTCGCAAGCTGATCGATTGGCCGGTGTTCGGCGCCGAGCTGCACGCTCTGCTGCAAACGTCGTGGAGCGGCGAGCAGGATCGCCTGCTGACACTGGCCGGCCCCGCACGCTATTACGAGGTGCGCAGCCGTGCCATCGAGCGCGTCACCCGTTCGGGCACTCATGTGCTCGGGCAGATGCTCTACCTGCGCGACGTGACCCAGCGCCATCTGGGCGAACTCAAGCTGTCCGAGGCCCTGGCCACCAGCGAGGAACGTCTGCGGATCATTTCCAGTCTTCATGAGCGATTGCAGGAACAGGCACTCCGTGACCCGCTGACCGGCCTCTACAACCGCCGTTACCTGGATGAATTCTTCAGCCGCGAAGTGGCCCGCGCCCGCCGCGAACGAGAGCCTATCGCCCTGGCGCTGATCGACCTCGATCACTTCAAGGCGCTCAATGACCAACACGGCCATCTGATCGGCGACGACGTGCTGCGGGCCGTGGCGCGGCACCTGGGCGAGAACCTGCGCGGTTCGGATGCGGTGTTCCGTATCGGCGGTGAAGAGTTCCTGCTGATCCTGCCCGGCGCCGATGCCGACGAGGCGCGCCGCCGCCTCGAAACCCTATGTCGGGAGCGCGCCGCGACGCCGGTCGAGACCCGTGGCGGGCCGTGCGGCGTGACCCTCTCCGCCGGCATGGCGATCTGGCCGGACCAGGGCCAGGCCCTGGACGAACTGCTGCACGCCGCCGATGCGGCGCTGTACCGGGCCAAGCGCGAAGGCCGCAACCGGGTCTGCAGCCCGGCCTGA	MSLPVLLTGAVCVGVVLLARWVRRQRSFPGRDSFILLHLGSLWWLAAASLEMAAQAPTCKVFWATMAWPGIIGVPTFWAVFLWQYVNSVRQPLPSRSLLGLTLVPLLVWLMALSNPWHGLFYGTGTTPMSAEPGAPVRYDHGPLFHAAAVYVYLGMMFCLGVVIRAAVISYGVHRRHYLAFVVVTLVPWAANVSYVVFDRTLFGFDPTPFSFAFTLAAFAWLIVGVRLFDLLPVARHLLLEELLDPVLVVDPQWRVLEANPAALKLAGLRNGWQGRKLIDWPVFGAELHALLQTSWSGEQDRLLTLAGPARYYEVRSRAIERVTRSGTHVLGQMLYLRDVTQRHLGELKLSEALATSEERLRIISSLHERLQEQALRDPLTGLYNRRYLDEFFSREVARARREREPIALALIDLDHFKALNDQHGHLIGDDVLRAVARHLGENLRGSDAVFRIGGEEFLLILPGADADEARRRLETLCRERAATPVETRGGPCGVTLSAGMAIWPDQGQALDELLHAADAALYRAKREGRNRVCSPA				NA	NA	NA	NA	NA
BMS010_08963	1374			hypothetical protein	ATGAGCCGTCTTTCTTCTCTCTACCGCCTGTTGCCGGCGCTGCTGGCCAGTGTGCTGGCTGCGCCGCTGGCGCTGTCCGGTCAGGAGTCGCCCGACGGCTTCGCCACCCGGGTACCGCTGGAACTCAGTGGCGAAGGGCCCTGGTATCGGTTGGAGTTGCCGTTGGCGCTGCATCTGACGGCCCGTCATGCCGATCTGCGCGACTTGCGCGTGTTCAACGGCGAGGGCGAGCCGCTGGCCTACGCCCTGACCCTGGGCAGCACCCAGCCCAGCGAGACCCATACGGAAACGCCGGTGAAGTGGTTCCCGCTGTACAGCCCGGCGAGTGCCCCGGACAGCCCGCATATCCGTGTGCAGCGCGGCACCGGCGGTACCCTGGTCGAAGTGATGGAAGGCCAGGCTGCGGATGCGGGCGAGGTACTGCGCGGCTGGGTGTTGGACGCCAGCGCGCTGAAGCAGCCGTTGCAGAAGCTGGTTCTCGATTGGAGCGCCGATCGCGAGGGATTCCAGCGTTTCACCATCGAGGCCAGCGATGACTTGCAACAGTGGCGCTCCTGGGGCGATGGGCAGATCGCCCGGCTGTCGTTCGCCGACGAGCGCATCGATCAGCGCGAAGTGGCCCTGCCGGGCCTGCGTGCGCGCTACCTGCGGCTGCTCTGGGAAAGCCCGCAGCAGGCGCCGGCCCTGACCCAGGCCCTGGTGGTCAGCTCCACCCGCGTGCCAGCGCCGATCGCCTGGTCGGGCGACTTGCCGCCGCGCCGCGCCGGCAACGGGGAGTTCTACTGGGAGCTGCCCGTGGCGCTGCCCCTGGAGCGTCTGCGCATCGAGCTGCCACAGGCCAATACCCTGGCGCCAGTGACGGTGCAGGGCCGCCGCGACGACCGGCAACAATGGTTCTGGCTGGCGCGCGGCCTGCTCTACCGACTGCCGGAGAATGGCAGCGAAGTGCGCCAGGAGACCCTCGAACTGCCCGGTACACCCGTACACCAGTTGAAACTGCAGGTGGACGAGCGGGGCGGCGGCCTGGGCAGCGCCACGCCCAGGCTGCAGGTCGGCGTACGCACCACCCAGGTGGTCTTCCTGGTACGCGGCACGCCGCCGTACACGCTGGCGCTCGGCAACGCGACGGCCAAGGCGGCGAACCTGCCGCTGGCAACGCTCATCCCCGGTTACGACGACGAGCGATTGGCCCGCCTGGGCGTGGCGACGCCGACCGGTGAAGCCGTTACCGCAACGGTGAAGCAAGACCAGCCGGAAGCCGGGACCGACTGGAAGCGCATCGGCCTGTGGGCCGTGCTGGTGGCCGGGGTCGGGTTGCTGGTGCTGATGGCGTTGAGTGTCCTGAGGTCGCCCGCTACCCCTCGTCAGGAATGA	MSRLSSLYRLLPALLASVLAAPLALSGQESPDGFATRVPLELSGEGPWYRLELPLALHLTARHADLRDLRVFNGEGEPLAYALTLGSTQPSETHTETPVKWFPLYSPASAPDSPHIRVQRGTGGTLVEVMEGQAADAGEVLRGWVLDASALKQPLQKLVLDWSADREGFQRFTIEASDDLQQWRSWGDGQIARLSFADERIDQREVALPGLRARYLRLLWESPQQAPALTQALVVSSTRVPAPIAWSGDLPPRRAGNGEFYWELPVALPLERLRIELPQANTLAPVTVQGRRDDRQQWFWLARGLLYRLPENGSEVRQETLELPGTPVHQLKLQVDERGGGLGSATPRLQVGVRTTQVVFLVRGTPPYTLALGNATAKAANLPLATLIPGYDDERLARLGVATPTGEAVTATVKQDQPEAGTDWKRIGLWAVLVAGVGLLVLMALSVLRSPATPRQE				NA	NA	NA	NA	NA
BMS010_08964	3606			hypothetical protein	ATGCAATGGATTTTCATGCTGGTTGGGTTGGTGGTGGGCAGTGTGGCCGGCGAATCGCTGACCGCCGCCCTGTTGGGCGCTCTGGTGGGGCTTGGGCTGGGACAGGCCATCCGCTTGCAGCAGTTGTCGGCGGAGAACGCCACGCTGCGCAAGAGCCTGGATACCTTCGCCCAGCGCTTCGAGGCCGGTACCACGGCGGTCGTCGAGCGGTTGCTGCGATTGGAGCAGGGCTTGCCGCCGCAGCCGGCCCAGGCGCCCGCGCCGGAACCGGAGGCCGCCGCGCCTGAGCCTGCCCCGACCCCGACCGCAACGGCGGAAGCGCCCGCCGAGGAACGCCGTGACGAGGACTTGATCTGGGAGCTGCCGGAGCCCGAACTCGAGCAAGTCGCCCAACCCGAAGCGCCGGAGCCGGCCGTCGCCCGGGTCGAGGCGCCCGCCGAGCCCATTCGGCCGCGTCCGGCGCCGATTCCGCCGAAACCCCGCGAACCCTCTCCCATCGAACAGGCCATCGACTGGGCGAAGAACTGGCTGTTCGGCGGCAACACCGTGCTGCGCGTCGGCGTGCTGCTGTTGTTCCTCGGCCTGGCCTTCCTCCTGCGCTACGCCACCGAAGGCATGGTGGTGCCGGTGGCCGTGCGCTACGCCGGCGTGGCGGCCAGTGCCATTGCGCTGCTCGGCCTCGGCTGGTGGTTGCGCCGGCGCAACCCGGGCTACGGGCTGATGCTCCAGGGCGCCGGCATCGCCGTGCTGTACCTGACGATCTTCGCTGCCATGCGCCTGCATCCGCTGCTCGACGCCAAAGAAGCCCTCGGCCTGCTGGTGGTGGTGACGGTCTGCTCGGCGATACTGGCCGTGGCGCAGAACGCCATGGGCCTGGCCGCGGCTGCGGCGCTCGGCGGCTTCGCCGCGCCGATCCTGACCTCCACCGGCAGCGGCAACCACGTGGCGCTGTTCTCCTACTTCATCCTGCTCAACGCCGGCATCCTGGCCATTGCCTGGTTCAAGGCCTGGCGCCTGCTCAACCTGATCGGCTTCGTCGGCACCTTCGGCATCGGTTTTGCCTGGGGCCTGCGCTCCTACCGGCCGGAGCTGTTCGGCAGCACCGAGCCGTTCCTGGTGGCGTTCTTCCTGATGTACGTGGCCATCGGCCTGCTGTTCGCCCGCCGCAAGCTGCGCGAGGCCGCCGATGCGCCCACGGAGCGCGACGCGCTGCTGCGCTGGTCGGTGGGCAAGACCGACTACGTGGATGGGACGGCGCTGTTCGGCCCGCCGCTGATCGGCTTCGGCCTGCAATACGCGGTGATCCGTCACCTGGAGTTCGGCCCGGCGTTCAGTGCGCTGGCGTTGGGGTTGTTCTATCTGCTGCTGGCCCGTCTGCTGGCCGGTCGCGTGCGCAACCAGGCGCTGTTGCTGGTGGAAACCTGCCTGGCCTTGGGCGTGGTGTTCGGCACCCTGGCGATCCCGCTCGGCCTGGATGCACGCTGGACGTCCGCCGCCTGGGCGGTGGAGGGCGCCGGCCTGTTCTGGCTGGGGCTGCGCCAGCGGCGTCCGCTGGCGCGTGGCTTTGCCCTGCTGTTGCAAGTGGGGGCGGCGCTGGCCTTCCTCGGCAAGCTGGATATCGGCGACGTAACCCTGCTGGATGGCGTGCCGCTGGGCGCTGCGATGCTCGGCGTGGCGCTGCTGTTCAGTTGGTGGCAACTGCGCCATGCGCCGGAAGATGCCGCCGGGCCCTGGGAGCGCCGTGGTTTGCCGTTGCTGGCCTGTTCCGGCCTGGGCTTCCTGTACATGATCGCGCCGCTCAGCCTTGCCGCCGAGGCCACGGCCATCGCCTGGGCCCTGGCCGGGCTGGCGACGCTGTTCGCCGCCCTGCGCCTGCAATCGCGGGCCTTCCTGTTCAGCGCATTCGGCGTGCAGTTGCTCGGCGGCGCGGTGTTCCTGCTGCAACTGGATACGGCGGGTGCCGGCAGCGGCGTGTTCAGCGATGGCTGGCGCGGACTGATTGGCGCGTCGCTGATCGGCCTGGCACTGATCGGCGGCATGTTGCTGGCAGCGCGCGATCCGCTGGTGCGCAACGACGCCCGCCTACTGCGCGGACTCTCGGTGATCCTGCTGGTGGGACTGGTGTTCCTCAACCTGGCGGTACTGTTCGTGCTGCCCTGGCAGAGCGCCAGCGCGGTCTGGGCCGGCAGCGGTCTGCTGATCATCTGGCTGGCGCTGCACTTGCAACAGCGCGCCAGCTTCCTGTTCGGCCTGCTGCTGCAGGGTGTCGGGGGCGTGGCCTTCCTCGCCGCCAGCCCGCTGCTGCTCGGCCAGTTGAGTGGCGAAGGGCTGCGGCCGCTGGGCCATGCCGGGTTCTGGACGCCGCTGGCCCTGGCGCTCGCCGCGTTGATCGGCGCCTGGCGCCTGCATCAGGTGGTTCGTCGCGACTTGGCCGGGGCGCTGGGCGGTCCGAGCCTAGAGCGGTTGTCCCAGGTGCTGCTGGTTTGGGGAACCGGCTGGTGGAGCCTGGCGCTGATCAACGAGATCGTCCGCTTCGCTCCCGCGGAATTGCAGGCACCGCTGATGCTGCTGGCTGCTGCGCTCAGCGTAGCGGCGGCCATTCTGATCGCGCCGCGCTTCGAATGGCGTACGTTGGCGTTGCTCTGCACGCTGTTGATACCGGCGGCTGCCGTGCTGCTGCTCTGGGCCTGGCATACGGAATACCACCCGGCGGCGGACTTCGGCTGGCTCGCCTGGGGCGTGCTGTTCGCCGTGCACTTCGTCGGCCTGCGCCGGCTGGCGTCGCTGCTGCCCGTCGGGGCACGGAGCGCCGCCCACGTATTCGGCTGCTGGCTGATCATCGGTGTGCTGTCGCTGGAACTGCGTTACCTGCTGTTCGCCCTCTCCGAGCATTACAACGCCTGGCGCTGGCTGGGCTGGGCACTGCTGCCGAGCGCCTACCTGCTGGCCATGGCCGCGCCGCGTGCCTGGCCGTGGCCGGTGTCGGCCTACCGCCAGGAATACCGTCTGTTGGCGGCCTTGCCGCTGGCGGTGGCGATGCTGGGCTGGTTCTGGCTGGCCAACATCGCCAGCGACGGCGCCGCCGATCCGCTGCCTTACCTGCCGCTGCTCAATCCCTTGGAGCTGGGCCTGTTGTTCGTCCTATTCGGCGTCTGGCGCTGGTTGTCGGTGAGCCTGCCACAGCTCTCCCTGGACGAGGACTGGCGCCGCTGGCTGCCCCAGGGCGTGGCCGGCGTGTCGCTGTTTGCGCTGCTGACGGCGACGGTATTCCGCTTCGCCCACCACTGGGGCGGGGTGCCGTACCGGCTGGATGCGCTGCTCGATTCGATGCTGGTGCAGGCCGGGCTGTCGCTGGTCTGGACGCTGATCGCCCTGCCGCTGATGATCGTCGGCCACCTGCGTCTGCGCCGTGAACTGTGGCTGATCGGCGCGGCGCTGATCGCCGTGGTGGTGGCCAAGTTGTTCTTCGTCGAGCTGGGCAACCGCGGCGGGCTGGAGCGCATCGTGTCCTTCATCGGCGTCGGCGTGCTGTTGTTGATCATCGGGTATTTCGCGCCGCTGCCGCCCCGGCAGCCGGCCTCTGACGTGGAGCAGGCCAGAGCATGA	MQWIFMLVGLVVGSVAGESLTAALLGALVGLGLGQAIRLQQLSAENATLRKSLDTFAQRFEAGTTAVVERLLRLEQGLPPQPAQAPAPEPEAAAPEPAPTPTATAEAPAEERRDEDLIWELPEPELEQVAQPEAPEPAVARVEAPAEPIRPRPAPIPPKPREPSPIEQAIDWAKNWLFGGNTVLRVGVLLLFLGLAFLLRYATEGMVVPVAVRYAGVAASAIALLGLGWWLRRRNPGYGLMLQGAGIAVLYLTIFAAMRLHPLLDAKEALGLLVVVTVCSAILAVAQNAMGLAAAAALGGFAAPILTSTGSGNHVALFSYFILLNAGILAIAWFKAWRLLNLIGFVGTFGIGFAWGLRSYRPELFGSTEPFLVAFFLMYVAIGLLFARRKLREAADAPTERDALLRWSVGKTDYVDGTALFGPPLIGFGLQYAVIRHLEFGPAFSALALGLFYLLLARLLAGRVRNQALLLVETCLALGVVFGTLAIPLGLDARWTSAAWAVEGAGLFWLGLRQRRPLARGFALLLQVGAALAFLGKLDIGDVTLLDGVPLGAAMLGVALLFSWWQLRHAPEDAAGPWERRGLPLLACSGLGFLYMIAPLSLAAEATAIAWALAGLATLFAALRLQSRAFLFSAFGVQLLGGAVFLLQLDTAGAGSGVFSDGWRGLIGASLIGLALIGGMLLAARDPLVRNDARLLRGLSVILLVGLVFLNLAVLFVLPWQSASAVWAGSGLLIIWLALHLQQRASFLFGLLLQGVGGVAFLAASPLLLGQLSGEGLRPLGHAGFWTPLALALAALIGAWRLHQVVRRDLAGALGGPSLERLSQVLLVWGTGWWSLALINEIVRFAPAELQAPLMLLAAALSVAAAILIAPRFEWRTLALLCTLLIPAAAVLLLWAWHTEYHPAADFGWLAWGVLFAVHFVGLRRLASLLPVGARSAAHVFGCWLIIGVLSLELRYLLFALSEHYNAWRWLGWALLPSAYLLAMAAPRAWPWPVSAYRQEYRLLAALPLAVAMLGWFWLANIASDGAADPLPYLPLLNPLELGLLFVLFGVWRWLSVSLPQLSLDEDWRRWLPQGVAGVSLFALLTATVFRFAHHWGGVPYRLDALLDSMLVQAGLSLVWTLIALPLMIVGHLRLRRELWLIGAALIAVVVAKLFFVELGNRGGLERIVSFIGVGVLLLIIGYFAPLPPRQPASDVEQARA				NA	NA	NA	NA	NA
BMS010_08965	552			hypothetical protein	ATGCGCATCCGTAGACCCCCTCTCGCCGCCCTCCTCTTCAGCCTGGCCCTGGGCAGCGCCCAAGCCGGCGAAACCACCACCCCGGCGCTGGACGCGCTGATCCGGGTGAGCACCGAACGCCTGCTGCTGGCCGACCAGGTAGCTGCCAGCAAGGCACAGTCGGGCAAGGCCGTGGAAGATGCGGCACGGGAAAGCGAGCAACTCGCGACGCTCTCGGCGAAAGCGCCCGACTACCGGCTCACGCCCGAGCAAGTGACGGCCTTCTTCAAATGGCAGATCGAGGCCAACAAGCTGGTCCAATACCGCCTGCTGGCCAAACCGGCGCCCGCCAGCGGCACGCCGGTCAGCCTGGATGCCATCCGCGCCCGCCTGAACACCATCAACGTGGAAATCCTGGAAAACCTCGCCCCGGCTCTGGCCGAACTGCAACAGCACGGCTGCGCCGAAACGCTGTACGAAGGCATTCGCCGCCGCACGAAGCGCGAACACCTGGATGCCTTGCACAAGACCGCGCTGGTCAGGGCGTTCGGCGATACCTGCCGAAGTCTCTAA	MRIRRPPLAALLFSLALGSAQAGETTTPALDALIRVSTERLLLADQVAASKAQSGKAVEDAARESEQLATLSAKAPDYRLTPEQVTAFFKWQIEANKLVQYRLLAKPAPASGTPVSLDAIRARLNTINVEILENLAPALAELQQHGCAETLYEGIRRRTKREHLDALHKTALVRAFGDTCRSL				NA	NA	NA	NA	NA
BMS010_08966	432			hypothetical protein	ATGACCGAGTCCCGCCACACCCGCCTCGATTACCGCCACTTCCAACCCATCACCACCCGCTGGCACGACAACGACGTCTACGGCCACGTGAACAACGTGACCTACTACGGCTTCTTCGACACGGCGGTGAACACCTACCTGATCGAACGGGGTGGGCTGGATATCCATGAGGGCGAAGTGGTGGGCTTTGTTGTCAGCTCGTCCTGCGACTACTTCGCCTCTGTTTCCTTTCCCGAACGCATCGAGGTGGGGTTGCGAGTGGGCAAGCTGGGCAATAGCTCGGTGCAGTACGAGCTGGCGGTGTTCAAGGCGGGAGAAGAAGAGGCCTGCGCAGCGGGGCGCTTCGTCCATGTCTTCGTCGACCGCGCGAACAACCGGCCGGTGAGCATTCCGGCGCGGTTGCGCGAGGCGTTGGCCGCGTTGGTGGTTTAG	MTESRHTRLDYRHFQPITTRWHDNDVYGHVNNVTYYGFFDTAVNTYLIERGGLDIHEGEVVGFVVSSSCDYFASVSFPERIEVGLRVGKLGNSSVQYELAVFKAGEEEACAAGRFVHVFVDRANNRPVSIPARLREALAALVV	PGPT0001850_4157	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107	NA	NA
BMS010_08967	1164	adh1_3	COG1454	Long-chain-alcohol dehydrogenase 1	ATGCACCCGTTCAGCTTTGCCACCACGGCCCAATTGATTTGCGAAACCGGCTCGTCGCGCCGGTTGGCGGCGATCTGCCGGGAGCGGGGCGCCCGTTCGGTGCTGATCGTCACCGACCCCGGCATCACCCGCTTCGGCCTGCTCAATGACGTCCTGCCCGGCTTCTCCGCCGAGGACTTGGCCGTGGCGGTGTTCGACCAGGTCCTCGCCGATCCGCCGGAAGCGGTAGTGCTGGATGCGGTGCAACGGGCTCGGGATATCGGCGCCGGGTTGATCGTCGGCTTCGGTGGCGGCAGCTCGATGGACGTGGCCAAGCTGGTCGCCTTGCTCGCCCATCCGCAGTGCGGGCAGGGCCTCAAGGATATCTACGGGGTCGGCAACGCTCGCGGCCAGCGCCTGCCGCTGATCCAGGTACCGACCACCGCCGGCACCGGCTCGGAGGTGACGTCCATCGCCATCGTCACCACCGGCGAGACGACCAAGATGGGCGTGGTGTCGCCGATGCTGCTGCCGGACCTGGCGCTGCTCGACGCCGACCTCACCCTCGGCCTGCCGCCAGCGGTGACCGCCGCCACCGGCATCGACGCCATGGTGCATGCCATCGAGTCCTACACCAGCGCGCTGAAGAAGAACCCGCTGTCCGACTTGCTGGCCCGCGAAGCGCTGCGCCTTCTGGCGAACAACCTCGACCAGGCGGTGCACCACGGGCAGAACCGCGAGGCGCGCCAGGCCATGCTGCTGGGCGCCTGCCTCGCCGGCCAGGCCTTCGCCAATGCGCCGGTGGCTGCGGTACATGCGTTGGCTTATCCGCTGGGCGGGCACTTCCACATTCCGCACGGTTTATCCAACGCGCTGGTGCTGCCCCATGTGCTGCGCTTCAATGCACCGGCGGCGACACCGCTGTATGCCGAGCTGGCGCCGTTGCTGCTGGGCGAACGCCTGAAGCCGGGGAGTGTCGAGAGCCTGACCGCCCAGTTCATCGACGAACTGGCGGCGCTGAACGAACGCCACGGCCTGCCCAGCCGCCTGCGTGACGCCGGCGTGCCGGAAGCGATGCTGCAGCAACTGGCCAGCGACGCCATGCTCCAGCAGCGCCTGCTGGTGAACAACCCCCGTGAAGTCACCGAGGCGGACGCACTGGCGATCTACCAGGCGGCGTATTGA	MHPFSFATTAQLICETGSSRRLAAICRERGARSVLIVTDPGITRFGLLNDVLPGFSAEDLAVAVFDQVLADPPEAVVLDAVQRARDIGAGLIVGFGGGSSMDVAKLVALLAHPQCGQGLKDIYGVGNARGQRLPLIQVPTTAGTGSEVTSIAIVTTGETTKMGVVSPMLLPDLALLDADLTLGLPPAVTAATGIDAMVHAIESYTSALKKNPLSDLLAREALRLLANNLDQAVHHGQNREARQAMLLGACLAGQAFANAPVAAVHALAYPLGGHFHIPHGLSNALVLPHVLRFNAPAATPLYAELAPLLLGERLKPGSVESLTAQFIDELAALNERHGLPSRLRDAGVPEAMLQQLASDAMLQQRLLVNNPREVTEADALAIYQAAY	PGPT0006375_361	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006375-EC_1_1_1_1|adh-K00001	NA	NA
BMS010_08968	1791	dmdC_6	COG1960	3-methylmercaptopropionyl-CoA dehydrogenase	ATGAATTACCGGGCTCCCCTGCGCGACATGCGCTTCGTGATCCATGAGCTGTTCGACGCCAGCGGCCACTGCGCGCTGCTCGGCAACGGCCTGGACCGCGAGTTGATCGACGGTGTGCTGGACGAGGCGGCGCGCTATACCGGCGAGGTGGTCGCCCCGCTGAATCGCAACAGCGACGAAGAGGGCGTGACCCTGGTCGATGGCGCCGTGACCACGCCCAAGGGCTTTCGCGAGGCCTATCGGCAATACGTGGAGAATGGTTGGGCGAGCATGACCGGGCCGACCGAATTCGGCGGCCAGGGCTTTCCGCAACTGGTGGCGTGTAACTTCCACGAGATGCTGATGGGCGCGAGCCTGTCCTTCCGCATCTATTCCGGGCTCACCGAGGGCGCGGTGCTGGCCTTGTACAAGCATGGCAGCCCTGAATTGCAGGCCGCCTACCTGGCCAAACTGGTGAGCGGCGAATGGACCGGCACCATGTGCCTCACCGAGCCCCAGGCCGGCACCGACCTGGCCCTGCTGCGCACCCGCGCCGAGCCGCAGGTGGACGGCAGCTACAAGGTCAGCGGCAGCAAGATTTTCATTAGCGGCGGCGAGCACGATATGAGCGAGAACATCGTCCATCTGGTGCTCGCCCGCCTGCCGGACGCACCGGCGGGCGTGAAGGGCATCAGCCTGTTCCTCGTGCCGAAATTCGTCGCCAATCCCGACGGCACACCCGGCGCGCGCAACGCCCTGAATTGCGGGGCCATCGAGCACAAGATGGGCATCAAGGGTGCCGCCACCTGTGTGATGAATTTCGACGGCGCCACCGGCTGGCTGGTGGGCGAACCCAACCAGGGCCTGGCCTGCATGTTCACCATGATGAACGACGCGCGCTTCCAGGTCGGCCTGCAAGGGCTGGGCATCGCCGAGCAGGCGTACCAGGGCGCGCTGAGCTACGCCCGCGAGCGCCTGCAATCCCGCGCCCTGACCGGTCCGGCACAGCCGGACAAGCCAGCCGACCCGATCATCGTCCACCCGGACGTGCGGCGTATGCTGCTGACCCAGAAGACCCTGGTGGAGGGCTGCCGCATGCTGGCTGCCTACACCGCGCGCCAGCTCGATCTGGAGCACGGTCACCCGGACGCCACCGTGCGCCATGCGGCCGCCAAGCGGGCGGCGCTGCTGATTCCTATCGTCAAGGCATTCTTCACCGACATGGGCCAGGAAGTGGCCAGCCTCGGCGTACAGGTCTACGGCGGCCACGGCTACATCCGCGAATGGGGCATGGAGCAGTTGATGCGCGACAGCCGCATCACCCAGCTCTACGAGGGCACCAACGGCATCCAGGCACTGGACCTGATCCGCCGCAAGCTGTTGGGCGATGGCGGTGCGGAACTGAGCGCGTTGCAGGCGGAGTTCAGCGAGCTGTGCGACGACCAGGCCAAGCGCCCGGCCCTGCGCGAATTGGCCGCCACGGTACAGGCACGCCTGGGCGAATGGCGCGAGCTGGGCGCCGAAGTTATCGCCGCCAGCCAGCGTGATCCGCAGGAGATCGGCGCCTGTTCCGTGGATTTCCTCCAGTATTCCGCCTACGTGCTGCTCGCCGGCCTCTGGCTCCAGGCGGCTGCGCGGGCGCAGGACTTCCTGGAAGTGGGAAGCGGGGAAGCCGCCTTCTACCGTGCCAAGCTGCAGAGCGCGGATTTCTATCTGCGCCGCGTTCTGCCACGGGCCAGTGCCCACCGGGAAGCGATCCGGGGTGGGGCGCAGTGCCTGATGGCGTTGGATGAGGATAGTTTTGCGTTTTGA	MNYRAPLRDMRFVIHELFDASGHCALLGNGLDRELIDGVLDEAARYTGEVVAPLNRNSDEEGVTLVDGAVTTPKGFREAYRQYVENGWASMTGPTEFGGQGFPQLVACNFHEMLMGASLSFRIYSGLTEGAVLALYKHGSPELQAAYLAKLVSGEWTGTMCLTEPQAGTDLALLRTRAEPQVDGSYKVSGSKIFISGGEHDMSENIVHLVLARLPDAPAGVKGISLFLVPKFVANPDGTPGARNALNCGAIEHKMGIKGAATCVMNFDGATGWLVGEPNQGLACMFTMMNDARFQVGLQGLGIAEQAYQGALSYARERLQSRALTGPAQPDKPADPIIVHPDVRRMLLTQKTLVEGCRMLAAYTARQLDLEHGHPDATVRHAAAKRAALLIPIVKAFFTDMGQEVASLGVQVYGGHGYIREWGMEQLMRDSRITQLYEGTNGIQALDLIRRKLLGDGGAELSALQAEFSELCDDQAKRPALRELAATVQARLGEWRELGAEVIAASQRDPQEIGACSVDFLQYSAYVLLAGLWLQAAARAQDFLEVGSGEAAFYRAKLQSADFYLRRVLPRASAHREAIRGGAQCLMALDEDSFAF	PGPT0008385_301	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008385-acd-K00249	NA	NA
BMS010_08969	1242	fadB_4	COG1024	Fatty acid oxidation complex subunit alpha	ATGAGTCATGCCGTCTCGAAGATTCACAGCGCCGCCGTCATCGGTGCCGGCACCATGGGTCGTGGCATCGTGATGAGTCTGGTCAACGCCGGCCTGCCGGTGCATTGGCTGGACAACAATCCCCAGATGCTCGAGCAGGCCCGGCAGGCAGTCGCCGATACCTACGCGCATAACGTGCGCCAGGGCCGCATCGACGAGCAGGAGGCCGCCGCCCGACGCGCGCGCATCCAGCCGGTGGGCGACTACGCGGCGCTGGCCGAGGTGGATCTGGTGATCGAGGCGGTGTACGAGAACTTGGAACTGAAGCAGCAGATCTTTCGCCAGTTGGATGCCGTGCTGAAGCCCGAGGCGATTCTCGCCAGCAATACCTCGGCGCTGGACATCGACGCCATCGCCGCGGTCACCGGGCGCCCAGGGCAGGTGCTGGGCCTGCACTTCTTCAGCCCGGCGCACATCATGAAATTGCTGGAAATCGTGCGCGGCGCGAAGACCGTGCCGGCCGTACTGGACACCTGCCTGGAGCTGGGTCAGCGCATGGGCAAGGTGGCGGTGGTGGCCGGCAACTGCCACGGCTTCATCGGCAACCGCATGCTCCACACCTATGTGCGCGAGGCACGGATGATGCTGCTGGAGGGCGCCTTCCCCCACCAGGTGGACGCCGCGTTGCAGGGCTTCGGCTTTGCCATGGGCCCGTTCCGCATGTACGACGTGGTGGGCATCGACCTGGAATGGCGCGCCCGCGAACTGGCTGGCGAGGGACAGGAGGTCGACGAGGTGCAGGTGGACAACCGTCTCTGCGCTCTCGGCCGTTTCGGCCAGAAGTCCCGCATGGGCTATTACCGTTATGCCGAGGGCAGCCGCCAGGCCGAGCACGACCCGGAGGTGGATGCGCTGGTGCAGCAGGTCTCCGAACAGCTCGGTTATGAGCGTCGGGACGTGGGTCCGGAGGAAATCCTCGAGCGCTGCTTGCTGGCGCTGGTCAACGAGGGGGCGAAGATTCTCGAAGAAGGCATCGCCGCGAACAGCCAGGACATCGACCGGGTCTACCTGAATGGGTATGGCTTTCCGGCGGACAAGGGCGGGCCGATGGCCTGGGCCGACAGCCAGGGGTTGCCGGCGATCCGCGGGCGGCTCGTCCATCTGCAACAGCGTTTCGGCGAGCACTGGCGCCCGGCTGCGCTGATCGAGCGACTGGCCGCGGCGGGCAAAGGCTTCGCCGAGGCGAAGGAGGTGGCGGCATGA	MSHAVSKIHSAAVIGAGTMGRGIVMSLVNAGLPVHWLDNNPQMLEQARQAVADTYAHNVRQGRIDEQEAAARRARIQPVGDYAALAEVDLVIEAVYENLELKQQIFRQLDAVLKPEAILASNTSALDIDAIAAVTGRPGQVLGLHFFSPAHIMKLLEIVRGAKTVPAVLDTCLELGQRMGKVAVVAGNCHGFIGNRMLHTYVREARMMLLEGAFPHQVDAALQGFGFAMGPFRMYDVVGIDLEWRARELAGEGQEVDEVQVDNRLCALGRFGQKSRMGYYRYAEGSRQAEHDPEVDALVQQVSEQLGYERRDVGPEEILERCLLALVNEGAKILEEGIAANSQDIDRVYLNGYGFPADKGGPMAWADSQGLPAIRGRLVHLQQRFGEHWRPAALIERLAAAGKGFAEAKEVAA	PGPT0008395_2372	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008395-fadN-K07516	NA	NA
BMS010_08970	912	nodD2_2		Nodulation protein D 2	ATGAATATCGCCAACTTCGACCTGAACCTCCTGCGCGTACTGGACGCCCTGCTGCGCGAGCAGAACGTCTCCCGCGCCGCCGAGCGCCTCGCCCTCAGCCAGCCGGCGGTGAGCAATGCCCTCAACCGCCTGCGCGAACTGCTCGACGACCCGCTGCTGGTGCGCATCGGCCGGCGCATGCAGCCCACGCCCCGCGCCCTCGCCCTGGAAGCGCCGATCCGCAGCGCCCTGCGCCAGATCGAGCAGAGCCTGGCCGCCGGCGAAACCTTCGATCCGGCCGAAAGCCACCAGCGCTTCAGCATCGCCGTGACCGACTATGTCGAACTGGTCTGCATGCCGGCGCTGCTGGATCGCCTCAGCCAGCATGCGCCGGGGATCGGCATCGATATCCGCCATCTCAGTCCGACGCTGCCGGCCGAAGCCCTGGACAAAGGCGAGCTGGACCTGGTGCTGGGGCGCTTCGACGACGTGCCGGCACGTTTTGCCCGCCAGCACTGGATGAGCGAGACCTTGCAACTGGCGGTACGGCGCGACCACCCGCAGGTGGACGGCCCTCCCGACCTGGAGCGTTTCCTCGCCTTGCGTCATCTCTGGGTGCATGGTGGGCAAACCCGCGGCATGGTCGACCAGTGGCTCGGCGAACAGGGGCTGAGCCGGCAGATTCTCTACACCACGCCGAATTACCTGCAGGCCGCGCACATCGTCGCCGGCAGCGAGCTGGTCGCGGTCCTGCCCACCCAACTGGCACGCCACTTCGCCCGGTTGCTGCCGCTGAATCTGTTCGATCTGCCCTTCGCCCTCGGCCCCTTCCACCTGGAAATCGTCCACCTCGCCCAGCGCCAGCGCGACCCCGCGCTGCAGTGGCTGATCGGAGAGATCCAGGCGGTGGCAGAGGGCGCCCGTCACGCCTGA	MNIANFDLNLLRVLDALLREQNVSRAAERLALSQPAVSNALNRLRELLDDPLLVRIGRRMQPTPRALALEAPIRSALRQIEQSLAAGETFDPAESHQRFSIAVTDYVELVCMPALLDRLSQHAPGIGIDIRHLSPTLPAEALDKGELDLVLGRFDDVPARFARQHWMSETLQLAVRRDHPQVDGPPDLERFLALRHLWVHGGQTRGMVDQWLGEQGLSRQILYTTPNYLQAAHIVAGSELVAVLPTQLARHFARLLPLNLFDLPFALGPFHLEIVHLAQRQRDPALQWLIGEIQAVAEGARHA				NA	NA	NA	NA	NA
BMS010_08971	2019			hypothetical protein	ATGAGTTCCCTGTCCCGCTTCCTGTCCTCACGCAAGCAGTCCGATGGCGTCCTCGGCATTCTCTGCAGCCTTCGCCAACTGCCGGAAAAACTGGCCGAGGCACGCATCAAGCCGACCTACATTTGCGGTTTCGTCTCGCCGCACATCAGCCTCGACGACGTAGCCCGGCAGATCGGCCAGCGCTTCCCCGGCGCGGTGGTCAGCCTCTGCACGACTGCCGGCGAGCTGTGCAGCCAGAACGACCGGCTCTACTGCAACACCGGCAACCAGTGGGACCGCATCGTTCTGCAGCTCTTCGATGCCAGCGTCATCGCCGCGGCGGAAATCGTCCACGTTCCCCTGGAAAGCCAGGACATCCGCGGCCAGGGCAAGCGCCTGACAATGGGCGAACGCATCGCCCGGCTGACCGACTCGATCAAGCGGCTCAACGTGTCGATGACCATCGACTACCGCGATACCCTGGCCAATATCCTCTTCGACGGCCTTTCCGCCTCGGAATCCTTCTTCATGGAGGCGCTTTATGAGTCCGGCCGTTTTCCCTGTCTGTTCGTCGGCGGCTCCGCCGGCGGCAAGGGCGACTTCCGCCAGACCCAACTGCATGACGGCAAGCGCAGCTACGAGAACCACGCGCTGATCGTCTTCCTCAAATGCGCGCGGAACATCCGCTTCGGCGTGTTCAAGAGCCAGAACTTCGAGCCCACGCCGTTCAGCCTCAATGTGCTCAGCGCCTCGCTGGAAGAGCGCTACATCAGCCAGGTGGTGGACACCCGCGGCAACATCCGCTCGATGGTCGCCGCGCTCTGCGACACCTTCAAATGCGCGCCCGGGCAACTGGACGCACGGCTGGCGGACTATTCCTTCGCCATCCGCGTGGGCGAGGAAGTGTTCGTCCGCTCCATCGCCCGCATCGACCCGGTGCAGGAACGCGTCCACCTGTTCTGCGACGTTGCCCCGGGCGAAGAACTCATCATGGTCAAGCGCACCCCGCTGGCCGAGGCCACCCGCCGCGACTTCGAGCGTTTCATGCGCAACAAACCGGGCACGCCGCTGGTGGGCATCCTCAACGACTGCATCCTGCGCCGCCTGAACAACGAGCAGGCCCTGGCCGGGATGAACGACGTGTTCAAGGGTGCCCCGGTAATCGGCTTCTCCACCTACGGTGAGATTCTCGGACTCAACCTGAACCAGACGCTGACCGCGGTGTTCTTCTTCCGCACCGACGACCCGGACAATTTCCACGACGAATACACCGACAACTTCATCAGCTATCACAGCGAGTTCAAGGCGTTCTTCCTGCGTCGGCAGATCAAGAAACTCGCCGGGCTGAGCCAGGTGGTGGTCAAGCAGATCGAGCAGTTCAAGCGACAGGACTATGCCACCAGCCTCGACATCAACGGCCTCGACGAGCACATCCGACCGGTATTCCAGGGCCTCGGCGACCTCGGCCACATCCTGCTCGACGCCCAGCGCCAGCGGGAAAGCATCGCCGAGCAACTGCGCCAGTGCTCCACCGACCTGCACGGCTCGGTGGACGACCTCACCGACACTATCCACCGTCAGGCCGGCGTCATCGACCAGGCCGGCGGTGCCGTGACCCAACTGGTGAACAAGGCCGACGACGTGGTCGGCAGCGCCCGCGAACTGGCGCAGAACAGCCAGCGCATCCAGTCGGTGGTGCAGATCATTCAGCAGATCGCCCAGCAGACCAACCTGCTCGCCCTCAACGCCGCCATCGAGGCCGCCCGCGCCGGCGAACAGGGCCGTGGCTTCGCCGTGGTCGCCGACGAGGTGCGCCAGCTCGCCGCCAAGACCGGGCAGAACGCCGAGGAAATCAGCCACGACGTCGACCAGCTCGCCACCGCCATCCGCCAGGTCGCCCAACACATCGAGACCCAGTCCGGCGAGGTCGGCGCCCTCACCCAGCTGCTCGACGAACTGAAAAGCTCCAGCGGCGTGACGGCCGATACGTCCGAGCGGACCAAGGACGTGGCGAATCGATTGGTGGATCTGATGCGCTAA	MSSLSRFLSSRKQSDGVLGILCSLRQLPEKLAEARIKPTYICGFVSPHISLDDVARQIGQRFPGAVVSLCTTAGELCSQNDRLYCNTGNQWDRIVLQLFDASVIAAAEIVHVPLESQDIRGQGKRLTMGERIARLTDSIKRLNVSMTIDYRDTLANILFDGLSASESFFMEALYESGRFPCLFVGGSAGGKGDFRQTQLHDGKRSYENHALIVFLKCARNIRFGVFKSQNFEPTPFSLNVLSASLEERYISQVVDTRGNIRSMVAALCDTFKCAPGQLDARLADYSFAIRVGEEVFVRSIARIDPVQERVHLFCDVAPGEELIMVKRTPLAEATRRDFERFMRNKPGTPLVGILNDCILRRLNNEQALAGMNDVFKGAPVIGFSTYGEILGLNLNQTLTAVFFFRTDDPDNFHDEYTDNFISYHSEFKAFFLRRQIKKLAGLSQVVVKQIEQFKRQDYATSLDINGLDEHIRPVFQGLGDLGHILLDAQRQRESIAEQLRQCSTDLHGSVDDLTDTIHRQAGVIDQAGGAVTQLVNKADDVVGSARELAQNSQRIQSVVQIIQQIAQQTNLLALNAAIEAARAGEQGRGFAVVADEVRQLAAKTGQNAEEISHDVDQLATAIRQVAQHIETQSGEVGALTQLLDELKSSSGVTADTSERTKDVANRLVDLMR				NA	NA	NA	NA	NA
BMS010_08972	441			hypothetical protein	ATGTCTGACAGGCAAAAACATATTCCCGTCTTGCTGCCGACGCCGGATCGCCGGCAATGCGAAATGGCGTTGGATGAACTGGTGGCGCGTAACGTAGACGGTATCTCGCTGGCCCTGCTGGCCTATCGGGACGGGCATCCCTACCTGTTCCGCGGCAAGGAACTGCAGAACGCCGGCAAGCTCGCCGCAATGGCCAGCTCGATGGCGGCGCTGTCCGGCACCATGCTGCGGGAAATCGACAGCGACTCGGGCGAAATGACCCTGCTGCAAGGCAAGAAGGGGAAGATCATCATCCTCCAGGTGCCGGCGGCGAATAACCTGATGCTGTTGGCTGTGCACACCACCGAAGAGGTCAACCTGGGCCTGTTGCTGGCCCATACCAAATCCTGCGTGACGAAGGTGGCGGCGAGCTTCGGCGCGGCCCAGGCCGGGCAGCCGTAG	MSDRQKHIPVLLPTPDRRQCEMALDELVARNVDGISLALLAYRDGHPYLFRGKELQNAGKLAAMASSMAALSGTMLREIDSDSGEMTLLQGKKGKIIILQVPAANNLMLLAVHTTEEVNLGLLLAHTKSCVTKVAASFGAAQAGQP				NA	NA	NA	NA	NA
BMS010_08973	543			hypothetical protein	ATGGATCGGAAAATCACCTACAAGCTTGTATTCATCGGTGCGCCCGGCTCGGGCAAGAGCACCTGCATCGGGGCGGTCAGCGATATCCCCGTGGTCTCCACCGACGTGGCCTGCACCGACGGACTCGCGTCGATCAAGGAAACCACGACAGTGGCCCTGGACTACGGCGAAATGTCGTTGGGCGATGGCGAGCGCCTGCTGCTCTACGGCTTGCCCGGCCAGTCCCGGTTCACTTTCATGTTCGATACGGTGGCGGAGAACCTGGCCGGCGTCGTGATGCTGATCGACGCGTCGTCCGCCGCGCCGCTGGAGGGGCTGGAGGAGACTTTGCGCACTTACGCCGGACGGATCGGGGAAACGCCTTTCGTCGCGGCGATCAACAAGGTGCAGGGCCATGTCGATGCCCTGCGCGAGCAGGTGGCGGAGACGCTGCGCCGACATGGCCTGGTCGGGCCGGTGATCGTCGTGGACGCCCGTCGCCGCGAAGACATGGCGCTGATATTCGACTTGGTTTTCCTGTGCGCGGAGTACAGCGATGTCTGA	MDRKITYKLVFIGAPGSGKSTCIGAVSDIPVVSTDVACTDGLASIKETTTVALDYGEMSLGDGERLLLYGLPGQSRFTFMFDTVAENLAGVVMLIDASSAAPLEGLEETLRTYAGRIGETPFVAAINKVQGHVDALREQVAETLRRHGLVGPVIVVDARRREDMALIFDLVFLCAEYSDV				NA	NA	NA	NA	NA
BMS010_08974	654			hypothetical protein	ATGTCGGAATTATCAGTTACATGTCTGTTGTTCGACGAGGATCAGCTCAAGGCCCTGTTATCCATCCTGCCCTTGATCCGGAAGTATCTGGATCGCGAATGGCAGGTGGATACGGACCCTTCCTCGGTTTCCGACGTCGTCGTGGTGAACCTCGACGACTCGGCGGGTGGCCCTCTGCTCGAGGCGCTGGTAGGCAAGGGCGTCCATGCCGTCGGCTGCGCCCGCCACCCCCGTCTTCATGTGGCGGGCACGCTCCACCGGCCTTTCCGGGGCTATGAGGTGCTGGCGCTGTTGCAGGAGGGTGAGCGGCGTGCTTTCGACCGTTCCCGCTCCCGACCATCCCGGCGGGATCTGGAAAGCGAGGTACGCCGTTTCGCGCTGGCCGAGTGGCCGGCGGAGTTCCGCGAATGGCCGAAAGAGTGGTGGCGCGTCCTGGCGGCCATTCGCACGAATTGCCTGTCGGCAGTGCAGATCGCGCAACGCTGCGATTTGCCGGAGGCCGAAGTCATGGCCTGTCTCGACATTCTGCAGGAGCGCAAGGCCGTGAGCGTCCGGGTCGATATCGAGATCCTGGACAGCGCGAAAGGGGGACGCCGGCCGGGCTTCTGGCGGCGTATCGGGGCACGTGTTTCCGACTTACTGGGCCGTCTGTGA	MSELSVTCLLFDEDQLKALLSILPLIRKYLDREWQVDTDPSSVSDVVVVNLDDSAGGPLLEALVGKGVHAVGCARHPRLHVAGTLHRPFRGYEVLALLQEGERRAFDRSRSRPSRRDLESEVRRFALAEWPAEFREWPKEWWRVLAAIRTNCLSAVQIAQRCDLPEAEVMACLDILQERKAVSVRVDIEILDSAKGGRRPGFWRRIGARVSDLLGRL				NA	NA	NA	NA	NA
BMS010_08975	405			hypothetical protein	ATGTCCCTAGATCAAGCACTTAGCCAGGCGCAAGCCAGCATTCCCGAATGCGTCGCCAGCGGTTTCGTGGACATGTCCACCGGCATGCTGCTGGGCGTGAAGACCGTCGATTCTCATCCCGGCGAGGTGCTCGACCTGGTCGCCGCCGCTACCGGCGACCTGTTCCAGGGCCGCAACGTGGTGGAGATCGAGAAACTGTTCGACCGCAGCCGCGGCATCACCGACCGCAAGTCCCATTACTTCCAGGAAATCATCGTGTTCAGCACCAACCTGCTGCACGTGTTCCTGCGTTCGAAGAAAGACGAGAACCATGTGGCGGTGTTCGTGACCCGCGCGTCGGCCAACATCGGCATGGTGATCGTACGTTCGCGCGCCGCCATGGCCGCGATCGACGCCTCCGTCTGA	MSLDQALSQAQASIPECVASGFVDMSTGMLLGVKTVDSHPGEVLDLVAAATGDLFQGRNVVEIEKLFDRSRGITDRKSHYFQEIIVFSTNLLHVFLRSKKDENHVAVFVTRASANIGMVIVRSRAAMAAIDASV				NA	NA	NA	NA	NA
BMS010_08976	1125			hypothetical protein	GTGTTTGAAGTTCGGAAGCTCAGCGTCGCCAGGTCGGGCAAGCCTGTCGTTCGCAGTCTGTATCTGTCGGTGACGAGCCCCGGGGCGTTGACGCTGATCGGTCCCGGCGGCGCGGGCAAATCGTCCTTGTTGCAGGCTGTCGTCGGCGAACTCGATGCAGGAATGTCGGTGAGCGGAGCGGCCTTGCTGGATGGCTTGCCCTGCCATACCGCCCCGCGGGGTGTCGGCTGGTATCGACAACATACGGGCATCGAGGCCGGCGTGCGCAGGCCGCACGGCGACGCGGAGCGACGGGCCTGGAGCGCGAACAGGCTGCGGGCGTTGCGCACATTCGTCGAAGTCCCGCGCTCGCTGTACGTGCTCGACGAACCGACCGCCGGCATGACCGAAGACGACGCCCTCCAGGCAAGGGCCTGGTTGAAGCCGTTATCGGAGCGATCCTTCGTGCTGATGGCGACGCATGACCGGCGCGATTGCCTGGCCCTGGGTGGCATGAGCGCGATATTCGATGCCGGCGCGGTGGTGGAAGCCGGAAGGTCCGATCGCCTGTTCGCGCAGCCGCGCACGGAGGCGGGCAGGCATTACGTGGAGACCGGTCACCTGGCCGGTTTCGGCTCGCGTAGCCGCGAGCAATCCGTCGATGGCGTCTGGTGGGTCGTGCCGGGCGTGCTGTGCGGTATGAGCCGCCCCGGGCTGGTGGCGCCGGCCGAGCGACAGTTCCGTCAACTGGCCGACGCCGGCGTCCGCCATCTGGTGACGCTGGAAGAGGAGGTGCCCGCCCTGGCGCGGAGCTGCTCGTCCTTCGGCATCGTCCACCACCATTTCCACATATCCGACATGGCCGCGCCCGACTTCGACCAGGCATTCACGTTCTGCCGCCTGGCCGAGGAGGCGGTCGCCCGCAACGAAGGCATCGCCTTCCATTGCCGCGGCGGCCTGGGCCGGACGGGGACCGCCATCGCGACGGTATTGATCTGGTATGGCGAGCCGGCCGCCTCCGCCATCTCCCGGGTACGCGGTGCACAGGCCTATGCCATCCAGAGTCAGACACAGACGCACTTTCTACATCAATTCGCCGATCGCCTCAGCGATGGGCACCTCTCGGCCGTGTTGAGCCATTCATAG	MFEVRKLSVARSGKPVVRSLYLSVTSPGALTLIGPGGAGKSSLLQAVVGELDAGMSVSGAALLDGLPCHTAPRGVGWYRQHTGIEAGVRRPHGDAERRAWSANRLRALRTFVEVPRSLYVLDEPTAGMTEDDALQARAWLKPLSERSFVLMATHDRRDCLALGGMSAIFDAGAVVEAGRSDRLFAQPRTEAGRHYVETGHLAGFGSRSREQSVDGVWWVVPGVLCGMSRPGLVAPAERQFRQLADAGVRHLVTLEEEVPALARSCSSFGIVHHHFHISDMAAPDFDQAFTFCRLAEEAVARNEGIAFHCRGGLGRTGTAIATVLIWYGEPAASAISRVRGAQAYAIQSQTQTHFLHQFADRLSDGHLSAVLSHS				NA	NA	NA	NA	NA
BMS010_08977	897	dmlR_19		HTH-type transcriptional regulator DmlR	ATGGATCGCCTCACCAGCATGGCGGTGTTCGTCAAGGCCGTGGATCTGGGCTCGTTCACCGCGGCTGCCGAGGCACTGGAACTGTCCGGGCCCATGGTGGGCAAGCATGTACGTTTTCTCGAGGAGCGCCTGGGCGTACGGCTCCTGACCCGGACCACTCGCCGCCAGAGCCTCACGGATTTCGGCCGTGCCTATTACGAACGCTGCCGGATCGTGTTGGCCGAGGCGGAAGCGGCGGATGCGCTGGTAGCCGACCAACTGGCCGAGCCGCGCGGCCGGTTGCGCGTCACCATGCCCGTGCACTTCGGCCGTCGCTGTGTGGCGCCCGTGCTGCTGAAACTGGCGCAGCAGTATCCGGCGCTGGAGCTGGACCTGTCGTTCAGCGACCGCTTCTCCGACCTGGCCGAGGACGACTACGACCTCGCCATTCGTACCGGCGATCCGGAGGAAAAGCCCGGTCTGGTCGCTCGCCGCGTGGCACGTCAACGCATGCTGGTGTGTGCGGCGCCCGCCTATCTCGAGCGGCATGGCCGGCCGCAGCGGGTGGAGGAATTGGCGGGACACCAAGCCGTTATTTATCGGCGATCCGGGCGCATCCGCCCATGGCTGTTTCCGCAGGAAGGTCAGTCGCCGCTGGAAATCACGCCTGCCAATCGCCTTCGTTTCGACGATCTGGATGCGGTTGCCGATGCCGCGACGCTGGGAATGGGGCTTGCCTGGCTGCCTTCCTGGCTGGTGCGCGAGCGTCTCTCCTCCGGTGCGCTCGTGCAGTTGCTGCCGGAGCAACCGGCGTTTCTCTACGATGCCCATGCCCTGTGGTTGCAGGCGCCTCATTTACCGCGCCGGGTTCGCCTCGCCGTCGAGACGCTGACGGACGCTTTGCCCTCAATGATGTGA	MDRLTSMAVFVKAVDLGSFTAAAEALELSGPMVGKHVRFLEERLGVRLLTRTTRRQSLTDFGRAYYERCRIVLAEAEAADALVADQLAEPRGRLRVTMPVHFGRRCVAPVLLKLAQQYPALELDLSFSDRFSDLAEDDYDLAIRTGDPEEKPGLVARRVARQRMLVCAAPAYLERHGRPQRVEELAGHQAVIYRRSGRIRPWLFPQEGQSPLEITPANRLRFDDLDAVADAATLGMGLAWLPSWLVRERLSSGALVQLLPEQPAFLYDAHALWLQAPHLPRRVRLAVETLTDALPSMM	PGPT0031690_1	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-MALLEOBACTIN_METABOLISM,PGPT0031690-mbaP-NA	NA	NA
BMS010_08978	990	qorA_3	COG0604	Quinone oxidoreductase 1	ATGGCACGCGTCGTCCGCTTTCACCAACTGGGTGGTCCCGAGGTTCTGCGCATCGAGCACGTCGACATACCGGAGCCCGGCCATGGCGAAGTCCGGATTCGCGTCAAGGCACTGGGCCTGAACCGGGCCGAAGCGCTGCTACGCGCCGGAGCCTACATCGAAACGCCGACCTTCCCCTCGGGCCTCGGCCTCGAAGCGGCGGGCCTCATCGAAGCGGTCGCCCCCGGTGTGGAAGGGCTCGCGCCGGGCGACGCGGTCAGCCTGGTACCACCGCAATCGATGGTCCGCTGGCCCACCTATGGCGAGCGCATCAACATGCCCGCCACGCTGGTGGTCAAGCACCCGCCGACACTCGACTGGGACATGGCCGCCGCCACCTGGATGCCCTACCTGACTGCGTACGGCGCCCTGATCGACCTCGCCGGGCTCCGCCGGGGCGACTTCGTGGTGGTGACGGCAGCCTCCAGCAGCGTCGGCCTGGCGGCGATCCAGATCGCCAATCGGGTGGGTGCGATACCTATCGCGGTAACGCGGACATCCGCCAAGAGGCAGGCTCTGCTCGAACAGGGTGCGGCCTATGTGGTGGCGTCGGGCGAAGAGGATCTGGTCGCTCGACTGACGGAAATCAGCGGCACCCAAGGCGTGCGGGTCGTGCTCGACCCAATCGGCGGCCCGATAGTCGCCGCCTTGACCGCAGCCATGGCAGAGGGCGGCATCTTCATCGAATACGGCGGCCTGAGCCCCGAGCCCACGCCCTTCCCCTTGTTCGCCGTGCTGAGCAAGCGGCTGACCCTGCGCGGCTACCTCGTCCACGAGATCACCGGCGACCCGGTCCGCCTGGAGACCGCCAAGCGCTTCATCCTCGACGGGCTGGAGTCCGGCGCGTTCCGGCCGGTGATCGCCAGGACCTTCGTCTTCGACCAGATCGTCGAGGCGCATCGCTACCTGGAGTCCAACGAGCAGTTCGGCAAGATCGTGGTGAGGGTTTGA	MARVVRFHQLGGPEVLRIEHVDIPEPGHGEVRIRVKALGLNRAEALLRAGAYIETPTFPSGLGLEAAGLIEAVAPGVEGLAPGDAVSLVPPQSMVRWPTYGERINMPATLVVKHPPTLDWDMAAATWMPYLTAYGALIDLAGLRRGDFVVVTAASSSVGLAAIQIANRVGAIPIAVTRTSAKRQALLEQGAAYVVASGEEDLVARLTEISGTQGVRVVLDPIGGPIVAALTAAMAEGGIFIEYGGLSPEPTPFPLFAVLSKRLTLRGYLVHEITGDPVRLETAKRFILDGLESGAFRPVIARTFVFDQIVEAHRYLESNEQFGKIVVRV	PGPT0013255_4072	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
BMS010_08979	480			hypothetical protein	ATGAGCCAGCGCATCGATTACTTCAAGATTTCCAAACAAGCCGCCAACAAACTCGTCGAACTCAACATGCTCCTGACCGAGAAGCCGTTCCTCAACGAGGTCGGCCACCTGGTCACGCTGCGGGCATCGCAGTTGAACGGCTGCGCCTTCTGCGTGGACATGCACGTGAAGGAAGCCAAGATCCACGGCGAGCGCGAACTGCGCCTGCACCATGTCGCGGTGTGGCGCGAGTCGCCGCTGTTCTCGCCCCGCGAGCGCGCCGTGCTGGCGTGGACCGAGGCCCTGACCCAGTTGCCGCCGCACGGCGTCTCGGATGCACTGTTCGATAGCGTGCGCGAGCAGCTGTCGGAACAGGAACTGTCCGACCTGTCCTTCCTCATCGTCGCCATCAACGGCTGGAACCGCCTGAACGTGGCCTTCCAGGCGGTGCCGGGCACGCTCGACAAGCTGTACGGGCTGGACAAGGCCAACCTGAGCTGA	MSQRIDYFKISKQAANKLVELNMLLTEKPFLNEVGHLVTLRASQLNGCAFCVDMHVKEAKIHGERELRLHHVAVWRESPLFSPRERAVLAWTEALTQLPPHGVSDALFDSVREQLSEQELSDLSFLIVAINGWNRLNVAFQAVPGTLDKLYGLDKANLS				NA	NA	NA	NA	NA
BMS010_08980	1428	gabR_1	COG1167	HTH-type transcriptional regulatory protein GabR	ATGCTCCTGCACGATGCCTTTTCGCCGCTCTCCCCACAGGGAAACGAGCCGCTCTATCGCCAACTGTATGAACGGGTACGAGGTGCCATCGCCGCCAGTACCCTGGGGCCAGGCGATCGCGTGCCGTCGGCGCGCGCATTGGCCAAGGAGCTGGGCGTGGCGCGCGGGACCGTGGAGCTGGCCTATTCGCTGCTGGTCAGCGAAGGCTACCTGCTGGCGCGTGGGCAGGCCGGTACGGTGGTGAACCCGGAACTGCAACCCATCCTGCCTCCTGCCGCACCTCCGACCGATACACCGCAGCCGTCCGGTCTCGAGCAGGATGTACTCTGGCGTCCCTCGCACCTGTTGCCGTTCCAGATGGGCGTGCCAGCGTTGGATGCGTTCCCGCGCAAGACCTGGGCGCGGCTGGGTGCGCGCTACGTGCGCGGCATGAGCCTGGCGGACCTGGACTATCCACCACCCCATGGCTTGCCCGCCCTGCGCAGCGCCATCGCCTCGTACCTGCAAGTGGCGCGCGGGATCGATTGCGGGGCGCACCAGGTATTCGTCACTGCCGGTTGGCGCAGCAGTCTGCAATTCGTCGCCCATGCCTTGCTGCGTCCGGGTGAGCGGGCCTGGGTGGAAGATCCCGGCTACCCACCGGCACGGCAGATTCTGAAGCAGTTCGGACTGCAGACGGTGCCGGTCGCGGTGGATGAGGAGGGGTTGGACGTGGCGCGTGGCGTTGCGCTCGCCCGCGATGCGCGGGTGGCGGTCGTCACCCCGGCGCACCAGAGTCCGTTGTCGATGACGCTCTCGCTGCCGCGCAGGCAGGCGCTGCTCGATTGGGCGGCGGCATCCGGTAGTTGGGTGGTGGAAGACGATTACGACGGCGAGTACCGCTACGTGAGCCGTCCGCTGCCCGCCTTGGCGAGCCTGGACCGTCACGGTCGCGTGCTGTACACGGGCACCTTCAGCAAGGTGCTGTTTCCCGGTATCCGGCTGGCATACCTCGTGGTACCGCAGGCCAAGGTCGCCACCTTCGAGCGCGTAGGGCGCATGCTCTTCGCCGCGACGACACCGGCGATGACCCAGGCCATCGTCGCCGACTTCATGGCCGAAGGCCATTTCGCCCGTCATATCCAGCGCATGCGCCGGCTCTACAGCGAGCGTCGAACCCTCACCGCCGCCGCCCTGGCGCGTGGGCTGGGCGGCTGTGCGCAGGTGGAGCCTTCTCCAGGTGGCATGCACCTGCTCCTGCGCCTGCCCGGCGAGGGCAGCGACCTGCCGGTGGCCGAGCGACTGCTGGCGCATGGCGTGGCCGGGCAGCCGCTGTCGCCCTGGTGGGCATCGGAACGCCGCGGCTCGGGCTTGCTGGTCAGTTTCACCAACTGCGCCACGGCCAGCCAGGCCGAGCAGCTCGGCGTGCTGATCCGGCAGTCGCTCTGA	MLLHDAFSPLSPQGNEPLYRQLYERVRGAIAASTLGPGDRVPSARALAKELGVARGTVELAYSLLVSEGYLLARGQAGTVVNPELQPILPPAAPPTDTPQPSGLEQDVLWRPSHLLPFQMGVPALDAFPRKTWARLGARYVRGMSLADLDYPPPHGLPALRSAIASYLQVARGIDCGAHQVFVTAGWRSSLQFVAHALLRPGERAWVEDPGYPPARQILKQFGLQTVPVAVDEEGLDVARGVALARDARVAVVTPAHQSPLSMTLSLPRRQALLDWAAASGSWVVEDDYDGEYRYVSRPLPALASLDRHGRVLYTGTFSKVLFPGIRLAYLVVPQAKVATFERVGRMLFAATTPAMTQAIVADFMAEGHFARHIQRMRRLYSERRTLTAAALARGLGGCAQVEPSPGGMHLLLRLPGEGSDLPVAERLLAHGVAGQPLSPWWASERRGSGLLVSFTNCATASQAEQLGVLIRQSL	PGPT0016790_2911	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0016790-mocR-K00375	NA	NA
BMS010_08981	483			hypothetical protein	ATGACCTACTTACATCACCAATCACTCCCCAGCGTGCTGGACCTGGCCGACCCGGCATTACGCCCGCTCGACGGGCCCGGCGACCTGCGCGCCGCCTACCCGGTGATGCGCGAATTGCGCCCTCACCTGGCCAGCGAGGCCGACTTCCTCGCCCGCGTCGAACGCATGCGGCCCCAGGGCTATCGCCTCGTCGGCGCCTTCAATGGCGCCGCGCTGGTGGCGCTGGCCGGCTACCGGTTGCAGGAAAACCTGGTGTACGGCGCCTTCCTCTACGTGGACGACCTCATCACTGCCGAGCCCCACCGTGGCGGCCACTGGGGCGCCCGCCTGCTGCGCGCACTCGACCGCGTGGCACGCGCCGAAGGCTGCGCGCGGCTGGTGCTGGACACCGGTCTCGCCAACGCGCGTGCCCAGCGCTTCTACTTCCGCGAGGGGCTCTACACCGGCGCGCTGCGCTTCCAGAAGCTGCTCGACAGCCACTGA	MTYLHHQSLPSVLDLADPALRPLDGPGDLRAAYPVMRELRPHLASEADFLARVERMRPQGYRLVGAFNGAALVALAGYRLQENLVYGAFLYVDDLITAEPHRGGHWGARLLRALDRVARAEGCARLVLDTGLANARAQRFYFREGLYTGALRFQKLLDSH				NA	NA	NA	NA	NA
BMS010_08982	642	azoR_3	COG1182	FMN-dependent NADH-azoreductase	ATGCCCCTCCAGGACACCGCCTCCCTCCGCGTACTGCGGCTCATCTGCAGCCCACGCGGCTCGGACTCCGAAAGCTACCGGCTGTCGCAGCAGATCCTCGACGGGCTGGCGAGCCAGGCCGGCGAGCGCGGCCTCGAACTCACCGACCTCGACCTCAACGACTTGCCCCACGTCGACCATGACTATGCCGCCGCCCTCGCCTCGCCGGTCGAGCCGGAGCGTACGCATCCCGGCAGCGCCCTGCACCGCTCCGACACATTGATCCGGCAACTCGAGGCAGCCGACGTTCTGCTGATCGCCACACCCATGCACAACTACACCGTGCCCTCGGCGCTCAAGGTCTGGATCGACCATATCGTGCGGATACGTATCACCTTCATCGGCACGCCCCAGGGCAAACAGGGTGTCCTGCGCGACCGCCCCGTCCACGTCGCCATCGCCTCGGGCGGCCCTTTCAGCGGCGAGAACGCCCGGCAGCCGGACTTCCTCCGCCCCTACCTCAAGGCCGCGCTGGGTACCGTGGGCTTGCACGACCTGCACTTCTTCGCCGTCGAAGGCACGGCGCGGGGGGATGCGGCCCTGGAAGCGGCGCGGGAACGGGCCGGGGTGGCGGTCGGGGAATTTTTTGCGATGACGCGTTGA	MPLQDTASLRVLRLICSPRGSDSESYRLSQQILDGLASQAGERGLELTDLDLNDLPHVDHDYAAALASPVEPERTHPGSALHRSDTLIRQLEAADVLLIATPMHNYTVPSALKVWIDHIVRIRITFIGTPQGKQGVLRDRPVHVAIASGGPFSGENARQPDFLRPYLKAALGTVGLHDLHFFAVEGTARGDAALEAARERAGVAVGEFFAMTR	PGPT0006790_764	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS	XENOBIOTIC_AZO_DYE_DEGRADATION,PGPT0006790-acpD|azoR-K01118	NA	NA
BMS010_08983	234			hypothetical protein	ATGGTGCGGCGTTCCCACGCGAAGCGTGGGAACGATCAACGCTGCCAGGACTACATCGAGCGCGTGCGCCTCTACCTGGAGTTCCGCCGCTGCTGCGGCATCAGCGGCGAGACCGACATGCTGGTATACGTCGAGGCGGCCAGCTACGCGCGCGAGACGCTGGATGAGCTGTCGGCTGAGGAGGTATTCGAGCGGCGCCTAGGCCAGGAACAGCTGGCCGGGGAAGAGGCGTAG	MVRRSHAKRGNDQRCQDYIERVRLYLEFRRCCGISGETDMLVYVEAASYARETLDELSAEEVFERRLGQEQLAGEEA				NA	NA	NA	NA	NA
BMS010_08984	1212			hypothetical protein	ATGCACTGCTCCCGCCTGCTCGTCGGCCTCGCTGCCTGCTTTTCCCTGCCCGCCATGGCCTGGGAACGTGTTCTCATTGACGCCGATACCCCGGCGCAGAACTGGCGTGTCACCAGTGAAGAGCTTGGCATCAAGGCCGACCGGCCCTTCAGCGTCAGCCTGCGCACCCTGCATGGTGGTCGGCAGGAAGGCGTCAGCCTGATCGACATCGATAACGGCGCCATGACCCTCACCGTCATTCCCACCCGCGGCATGAACGTCCTCCGCGCCCAGGCTGGCGACGTGCGCCTGGGCTGGGATTCGCCCGTGGACGAAGTGGTCAACCCGGCCTTCATCGAACTCAACGGCCGTGGCGGGCTGGGCTGGTTGGAAGGCTTCAACGAGTTGGTCACCCGCTGCGGCTACGAATGGGTCGGCCACCCCGGCGTGGACAACGGCGAGTTGCTCACCCTCCACGGCCGCGCCGCCAACATCCCGGCCTCCCGCGTGGTACTGGAAATCGATGAGAAACCGCCGTACCGCATCCGCTTGCGCGGCGAGCTGCAAGAAAAAGCCTTCAAGAAAGTGGACTTCAGCATCCACACCGAACTGGCCGTCGAGCCCGGTGCCACGGTCTTCAGCCTTCACGACACCCTGACCAACAACGGCGACTATCCCAAGGAATACCAGGCGCTGTACCACAACAACTTCGGTTCCCCGCTGCTGGAAGAGGGCGCCCGCTTCGTCGCCCCGGTGAAGCAGGTCTCGCCCTTCAACGACAAGGCCAAGGGCGATCTCGCCACCTGGCAGACCTATCGCGCACCGACGCCGGACTACGACGAAACCGTCTACAACGTCGTCCCCTATGCCGACGAGCGCGGCGACACCCTTGCCATCCTCCACAACAAGGCCGGCGACCGGGGCATCGCGGTGGGCTTCAATATCCAGCAGTTGCCGGTGTTCTCCCTGTGGAAGAACACCAACACCGGGGGCCAGGGCTACGTCACCGGTCTGGAGCCCGGCACCAGCTTCTCCTACAACCGCCGCTACCAACGCCCGCTCGGCCTCGTTCCGACCATCGGCCCGAAGGAACAGCGCCACTTCGATGTGCGTTTCCAACTCCTCGCCGACAAAGTCGCCGTGGACAAGGCCGTGAAGCAGGTCGACAGCATTCTGGCCGGTCGCAAGACCGAAGTCCGCCAGGTGCCGCTGGTCGATCTGAGTAAGGACTGA	MHCSRLLVGLAACFSLPAMAWERVLIDADTPAQNWRVTSEELGIKADRPFSVSLRTLHGGRQEGVSLIDIDNGAMTLTVIPTRGMNVLRAQAGDVRLGWDSPVDEVVNPAFIELNGRGGLGWLEGFNELVTRCGYEWVGHPGVDNGELLTLHGRAANIPASRVVLEIDEKPPYRIRLRGELQEKAFKKVDFSIHTELAVEPGATVFSLHDTLTNNGDYPKEYQALYHNNFGSPLLEEGARFVAPVKQVSPFNDKAKGDLATWQTYRAPTPDYDETVYNVVPYADERGDTLAILHNKAGDRGIAVGFNIQQLPVFSLWKNTNTGGQGYVTGLEPGTSFSYNRRYQRPLGLVPTIGPKEQRHFDVRFQLLADKVAVDKAVKQVDSILAGRKTEVRQVPLVDLSKD				NA	NA	NA	NA	NA
BMS010_08985	1941	deaD_2		ATP-dependent RNA helicase DeaD	ATGCTCAAGCAAAGCCTTCAACGCGTGTTTGGCTATGCCGCGTTCCGTCCCGGCCAGGAAGCGGTCGTCGAGACCGTGGTCGCCGGCCGGTCGGCGGCGGCGATCTTTCCCACCGGTTCCGGCAAATCGCTGTGCTACCAACTGCCGGCCCTGCACCTGCCGCACCTCACCCTGGTGGTCTCGCCCCTGCTGGCGCTGATGCAGGATCAACTGGCCTTCCTCCACCGGCACGGCATCGCTGCCGCCAGCATCGACTCGGCGCAGAGCCGCGAGCAGGTCAGCGAGGTGATGAGCAAGGCCAAGGCCGGCGAGCTGAAGATCCTCATGATCTCGGTGGAGCGCCTGAAGAACGAACGCTTCCGCCACTTCATCGCCCAGGTGCCGATCTCCCTGCTGGTGGTGGACGAAGCCCACTGCATTTCCGAATGGGGCCACAACTTCCGCCCGGACTATCTCAAGCTGCCCGACTATCAGCGCCAGTTCGGCATTCCGCAGGTGCTGCTGCTCACCGCCACCGCGACGCCGCCGGTAATCGCCGATATGCGGGCGAAATTCGCCATCGCTGCCGAAGACGTCGTTACCACAGGGTTCTACCGACCCAATCTCAACCTGCTGGTCGAACCGGTGAGCGGTCGCGACAAGCTGCGCCGGCTGGTCGACTGGCTGTCCAGCCGCTCGGGCCAGCCGAGCGTCGTCTACGTCACCCAGCAGAAAACCGCCGAACAGGTGGCCGAGCACCTGAGCCGGCATGGCATTGCCGTTAGCGCCTACCACGCCGGCATGCCCCACGAGAAACGTGAGGCGACCCAGCGCCAGTTCATGGAAGGGCGGTTGAACGGCATCGTCGCCACCATTGCCTTCGGCATGGGCATCGACAAGTCGGACATCCGCAACGTGGTGCACTACGACCTGCCGAAATCCATCGAGAACTACAGCCAGGAAATCGGCCGCGCCGGCCGCGACGGGCAGCCGTCCGACTGCCTGGTGCTGGCTAACCGCGACAGCCTCAACGTGCTGGAAAACTTCGTCTACGGCGATACCCCCGAGCGCGATGGCATCCGCTGCGTGCTCGACGAACTGCTGGCCGCACCCGACGGGCAATGGGAGCTGATGCTCAACGCGCTCTCCGAGCAGAGCAACATCCGCCAACTGCCGTTGAAAACCCTGCTGGTGCAACTGGAGCTGCGCGGCCTCATCGCCCCGCGCTATGCCTATTTTGCCGAGTATCGCTTCAAGTACCTCATCGAGCCGGAGACGCTGGTCGGCCATTTCGATGGCGAGCGGCGTCAGTTCGTCGAGGCCATCGTGCAGACTTCGGCCCGTGCCCGCACCTGGTGCACCGTGGACTTCGATGCTCTCTATCGGAACCACCGCGCCGAGCGCAGCCGGGTGGTCAAGGCGCTGGACTGGTTCCAGGAAAAAGGCTGGATCGAACTGGAAAGCAAGCAGATGACCGAGGTCTACAGCGTGCTCCGGCACGACTTCGACGCCGAGGTCCTGAGCGGCGAGCTGCATGGCTACTTCAAGCAGCACGAAACCAGCGAAATCGCCCGCATTCACGCTATGCTCGCGTTGTTTGCCAGTGACCACTGCCTCAGCCATCGCCTGGCCGATTACTTCGGCGACCACGACGCCCCAATGCGCTGCGGCCACTGCTCGGTGTGCCACGGCCACGTCGCCCGGCTGCCCGAGCCGCCCGCGCTGCTGCCGCTGGAAGGGCAGGATGTGAACGCTCTCTGCGGCGACTTCATCCAGCGCTACCAGGCCTTGAAAGCCGGCCACCCCAGTGCCGAATGCCTGACCCGCTTCCTCTGCGGCATCAGCGTGCCGTTGTTCACCAAGCTGAAAGCCAAGGGCATTACCAGCTTCGCTTCCCTGGAAGACTACCCCTACGCCGCGGTGCGTACCTGGGTGGAGACGTATTCGGGAGCCTGTTCGTAG	MLKQSLQRVFGYAAFRPGQEAVVETVVAGRSAAAIFPTGSGKSLCYQLPALHLPHLTLVVSPLLALMQDQLAFLHRHGIAAASIDSAQSREQVSEVMSKAKAGELKILMISVERLKNERFRHFIAQVPISLLVVDEAHCISEWGHNFRPDYLKLPDYQRQFGIPQVLLLTATATPPVIADMRAKFAIAAEDVVTTGFYRPNLNLLVEPVSGRDKLRRLVDWLSSRSGQPSVVYVTQQKTAEQVAEHLSRHGIAVSAYHAGMPHEKREATQRQFMEGRLNGIVATIAFGMGIDKSDIRNVVHYDLPKSIENYSQEIGRAGRDGQPSDCLVLANRDSLNVLENFVYGDTPERDGIRCVLDELLAAPDGQWELMLNALSEQSNIRQLPLKTLLVQLELRGLIAPRYAYFAEYRFKYLIEPETLVGHFDGERRQFVEAIVQTSARARTWCTVDFDALYRNHRAERSRVVKALDWFQEKGWIELESKQMTEVYSVLRHDFDAEVLSGELHGYFKQHETSEIARIHAMLALFASDHCLSHRLADYFGDHDAPMRCGHCSVCHGHVARLPEPPALLPLEGQDVNALCGDFIQRYQALKAGHPSAECLTRFLCGISVPLFTKLKAKGITSFASLEDYPYAAVRTWVETYSGACS				NA	NA	NA	NA	NA
BMS010_08986	1545	pckA_2	COG1866	Phosphoenolpyruvate carboxykinase (ATP)	ATGATGCAAGCCAACCACGCCGTCTACACCGACATCAGCACTGCACAACTGGTCGAAGAGGCCATCCGTCGCGGTGAAGGCGAACTGGCCGCCAACGGATCGCTGGTGGTGAAGACCGGTCATCGTACCGGCCGCTCTCCGGCCGACCGCTTCATCGTCGAAGAGTCGACCACCCAGGCTGCCATCGCCTGGGGCGCGATCAACCGGCCGTTCCCGGCGGACAAATTCGACGCCCTCTGGGCCCGCGTCGAAGCCTACCTCGGCGAGCGCGACCGCTTCGTTTCCCACGTCCACGTAGGGGCTGATCCGGCGCACTACCTGCCGGTCAAGATGACCACCGAAACCGCCTGGCACAACCTGTTCGGCCGTTGCCTGTTCATCAACCCCGAGCAGTTCAACCCGGCTTCCAAGAGCGAGTGGCTGATCCTCAACGCCCCGTTCTTCGAGTGCGACCCTGCCCGTGACGGTACCAATTCCGATGGCTGCGTGATCATCAACTTCGCCGCCAAGAAGGTCCTCCTCGCCGGCATGCAGTACGCCGGTGAAATGAAGAAAGCCATGTTCTCTGTGCAGAACTTCCTCCTGCCGGACGCCGACGTGCTGCCGATGCACTGCGCCGCCAACATGGGCGAAGAGGGCGACGTGACCCTGTTCTTCGGTCTCTCCGGCACCGGCAAGACCACCCTCTCCGCCGACGAAAGCCGCTACCTGATCGGCGACGACGAGCACGGTTGGGGCGTGGGCAGCGTGTTCAACATCGAAGGTGGCTGCTATGCCAAGTGCATCGACCTTTCCGAGAAGAACGAGCCGGTCATCTGGAAAGCCATCCAGTTCGGCGCCGTGCTGGAAAACGTCGTGCTGCACCCGGAAACCCGCCAGCCCGACTATGCCGACGGCAGCCTGACCCAGAACACCCGCGCCGCCTACCCGCGCGATCTGATCGAGAAGCGCGTCGACGCCAACCGTGCCGGCGAGCCGAACGCCGTGATCTTCCTGACCTGCGACCTGACCGGCGTGCTGCCGCCTGTGTCGATCCTCAACGAAGAGCAGGCCGCCTATCACTTCCTGTCCGGCTACACCGCCCTGGTCGGCTCCACCGAAATGGGCTCCGGCGGCGGCATCAAGTCCACCTTCTCCACCTGCTTCGGTGCGCCGTTCTTCCCGCGTCCGGCCGGTGAGTACGCGGAGCTGCTGATCAAGCGTATCCGTGGCTTCGGTTCCAAGGTCTACCTGGTCAACACCGGCTGGACCGGCGGTGGCTACGGCGTCGGCAAGCGCTTCAACATCCCGACCACCCGTGGCGTGATCGCGGCGATCCAGAGTGGCGCGCTGATCGGTGCCGAGACCGAGCACCTGCCGATCATCAACCTGGACGTGCCGAAGACCGTTCCGGGCGTCGAGACCAACCTGCTCAACCCGCGCAACACCTGGGCAGACCACAACGCCTACGACGAGGCTGCCAAGGCCCTCGCCAAGCAGTTCATCGAGAACTTCAAGAAGTTCGACGTCTCCGACGCCATCCGCAACGCCGGCCCGCAGCTCTGA	MMQANHAVYTDISTAQLVEEAIRRGEGELAANGSLVVKTGHRTGRSPADRFIVEESTTQAAIAWGAINRPFPADKFDALWARVEAYLGERDRFVSHVHVGADPAHYLPVKMTTETAWHNLFGRCLFINPEQFNPASKSEWLILNAPFFECDPARDGTNSDGCVIINFAAKKVLLAGMQYAGEMKKAMFSVQNFLLPDADVLPMHCAANMGEEGDVTLFFGLSGTGKTTLSADESRYLIGDDEHGWGVGSVFNIEGGCYAKCIDLSEKNEPVIWKAIQFGAVLENVVLHPETRQPDYADGSLTQNTRAAYPRDLIEKRVDANRAGEPNAVIFLTCDLTGVLPPVSILNEEQAAYHFLSGYTALVGSTEMGSGGGIKSTFSTCFGAPFFPRPAGEYAELLIKRIRGFGSKVYLVNTGWTGGGYGVGKRFNIPTTRGVIAAIQSGALIGAETEHLPIINLDVPKTVPGVETNLLNPRNTWADHNAYDEAAKALAKQFIENFKKFDVSDAIRNAGPQL	PGPT0001405_2651	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001405-pckA-K01610	NA	NA
BMS010_08987	894	hslO_2	COG1281	33 kDa chaperonin	ATGCACGATTTCGATCACACCCAGCGGTTCCTCTTCGAAGACACCGACATCCGGGGCGAACTGGCCACCCTGAACGACAGCTACGGCCACGTCCTGGCCAAACACCCCTACCCGGAACCGGTGGCGCAACTGCTGGGCGAGATACTCGCCGCCGCGGCATTGCTGGTCGGCACCCTCAAGTTCGATGGGCTGCTGGTACTCCAGGCGCGTTCCGCCGGCGCCGTGCCGCTGCTGATGGTGGAATGCTCCAGCGAGCGTGAAGTGCGCGGCATTGCCCGCTACCACGCCGAGCAGGTGCTGCCGGGCGCCGACCTGCGCAGCCTGATGCCGGAGGGCGTGCTGACGATCACCGTCGATCCGCGCCAGGGCCAGCGCTACCAGGGTATCGTCGCCCTCGAGGGCGCCAATCTGGCCGAGTGCCTGTCCGGCTATTTCGCCACCTCCGAGCAATTGCCGACGCGCTTCTGGCTCAATGCCGACGGTCGCCGCGCTCGTGGCCTGCTGCTCCAGCAACTGCCGGCCGACCGCCTCAAGGACCCGGAAGAGCGCGAAGCCAGCTGGCAGCACATGACCACCCTGGCCGACACACTGACCGCCGAAGAACTGCTCGGCCTGGACAACGAGACCCTGCTGCGCCGCCTCTATCACCAGGAGACCGTGCGTCTGTTCGACCCGCAGGCATTGGAGTTCCGCTGCAGTTGTTCGCGGGAACGTTCGGCGAACGCCCTGGTCAGCCTTGGCCAGCAGGATGCCGAGCTGCTGCTCGATGAAAGCGACGGTACAGTCGAGATCGATTGCCAATTCTGCAACCAGCGCTACATCTTCGACGCCGCCGATGTGGCTCAATTGTTCGCCGGTGGCGGGAGCGGGGCTCCGTCCAAGACCCGGCACTGA	MHDFDHTQRFLFEDTDIRGELATLNDSYGHVLAKHPYPEPVAQLLGEILAAAALLVGTLKFDGLLVLQARSAGAVPLLMVECSSEREVRGIARYHAEQVLPGADLRSLMPEGVLTITVDPRQGQRYQGIVALEGANLAECLSGYFATSEQLPTRFWLNADGRRARGLLLQQLPADRLKDPEEREASWQHMTTLADTLTAEELLGLDNETLLRRLYHQETVRLFDPQALEFRCSCSRERSANALVSLGQQDAELLLDESDGTVEIDCQFCNQRYIFDAADVAQLFAGGGSGAPSKTRH	PGPT0014645_1430	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014645-hsp33|hslO-K04083	NA	NA
BMS010_08988	393	hslR_2	COG1188	Heat shock protein 15	ATGAACGAAAAAGACGACGACAAAGTCCGCCTGGACAAATGGTTGTGGGCCGCGCGCTTCTACAAGACCCGTGCCCTGGCCAAGGCGGCCATCGAGGGCGGCAAGGTGCACTGCCGTGGCGAGCGCTGCAAACCGGCCAAGGAGCCCCGGGTGGGTGACGAACTGACCATCCGCACCGGGTTCGACGAGCGTACCGTCGTGGTCCGCGCCCTTTCCGGCGTCCGCCGGGGCGCGCCGGAAGCGCAGGCGCTTTACGAGGAAACCGCCGACAGCATCCAGCGCCGCGAGCAGGCCGCCGCGCTGCGCAAGGCCGGTGCCCTCGGCATCCAGACCGACGGCCGTCCGACCAAGAAGCAGAGGCGGCAGATTCATTTTTTCCGCGACGGCGCTTAG	MNEKDDDKVRLDKWLWAARFYKTRALAKAAIEGGKVHCRGERCKPAKEPRVGDELTIRTGFDERTVVVRALSGVRRGAPEAQALYEETADSIQRREQAAALRKAGALGIQTDGRPTKKQRRQIHFFRDGA	PGPT0014620_1328	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014620-hslR|yrfH-K04762	NA	NA
BMS010_08989	471			hypothetical protein	TTGAAGACGTTCGACCACCTTTCCGTGATCGGCCTGCGCGAGTGGATCGCCCTCCCCGACCTGGGTGTGGCCGGCCTGCGCGCGAAGATCGACACCGGTGCCAGCACCTCGGCGCTGCACGCCACCGAGATCGTCGAGTTCGAGCGCGACGGCATGCCCTGGGTGCGCTTCACCGCGCATCTCGGCACCCTGGTGCAGCTGCGCCATCGCCACTGCGAAGCGCCATTGGTGGCGGTGAAGACGATCAAGAGTTCGAACGGCCAGGCCCAGAGCCGCTACGTCATCCGCACCACGCTGTCCCTCGGCGACCGCGCCTGGCCGGTGGAATTCACCCTGACCTGCCGCAAGGCCATGCGCTACCGCGTGCTGCTGGGTTCGAAGGCCCTGGTCGAAGGGCAACTGGTGGTCAACCCCGCGCTTTCCTATGTCCAGGACAAACCCTCGCTCCCCTCTCTCGCTGGTGCCCAATGA	MKTFDHLSVIGLREWIALPDLGVAGLRAKIDTGASTSALHATEIVEFERDGMPWVRFTAHLGTLVQLRHRHCEAPLVAVKTIKSSNGQAQSRYVIRTTLSLGDRAWPVEFTLTCRKAMRYRVLLGSKALVEGQLVVNPALSYVQDKPSLPSLAGAQ				NA	NA	NA	NA	NA
BMS010_08990	906	rimK	COG0189	Ribosomal protein S6--L-glutamate ligase	ATGAAAATTGCCGTGCTTTCGCGCAATCCGCGTCTGTATTCGACTCGTCGTCTGGTGGAAGCCGGTGAGCAACGTGGTCATGAAATGGTGGTGATCGACACTCTGCGTGCATACATGAACATCGCCAGCCACAAGCCGCAGATCCATTACCGCGGCAAGCGGCTGGAGGGCTTCGACGCGGTGATCCCGCGCATCGGCGCGTCGATCACCTTCTACGGCTGTGCGGTGCTGCGCCAGTTCGAGATGATGGGCGTCTGCCCGCTCAACGAATCGGTGGCCATCGCCCGCTCGCGCGACAAGCTGCGCGCGCTGCAACTGCTTTCCCGGCGCGGCATCGGCCTGCCGGTGACCGGCTTCGCCCACTCGCCGGACGACATTCCCGATCTGATCCAGATGGTCAACGGCGCCCCGCTGGTGATCAAGGTGCTGGAAGGCACCCAGGGCATGGGCGTGGTGCTCTGCGAGACGGAAAAGGCGGCGGAATCGGTGATCGAGGCGTTCATGGGCCTGAAGCAGGACATCATGGTCCAGGAATACATCAAGGAAGCCGGCGGCGCGGACATCCGCTGCTTCGTGGTGGGCGACAAGGTGATCGCCTCGATGAAGCGCCAGGCCAAGCCCGGCGAATTCCGCTCCAACCTGCACCGCGGCGGCACCGCCAGCCTGATCAAGATCACCCCCGAGGAACGCATGACGGCGATCCGCGCAGCCAAGGTCATGGGCCTCAACGTGGCCGGGGTGGACATCCTGCGCTCCAACCACGGGCCGCTGGTGATGGAGGTGAATTCCTCGCCCGGCCTGGAAGGCATCGAGCAGACCACCGGCAAGGACGTCGCCGGGATGATCATCCAGTACCTGGAAAAGAACGGCGGGCCGAACCTGACGCGGACCAAGGGCAAGGGGTAA	MKIAVLSRNPRLYSTRRLVEAGEQRGHEMVVIDTLRAYMNIASHKPQIHYRGKRLEGFDAVIPRIGASITFYGCAVLRQFEMMGVCPLNESVAIARSRDKLRALQLLSRRGIGLPVTGFAHSPDDIPDLIQMVNGAPLVIKVLEGTQGMGVVLCETEKAAESVIEAFMGLKQDIMVQEYIKEAGGADIRCFVVGDKVIASMKRQAKPGEFRSNLHRGGTASLIKITPEERMTAIRAAKVMGLNVAGVDILRSNHGPLVMEVNSSPGLEGIEQTTGKDVAGMIIQYLEKNGGPNLTRTKGKG				NA	NA	NA	NA	NA
BMS010_08991	3780			hypothetical protein	ATGCCCGTTGTATCCGACCGCCAGCCCCGATGGACCTGGTGGCTGCCCCTGCCGTTGTTCCAGCTGGGCACCTGGTTATCCCTTTCCACCCAGTTCTCCAGCGGGGTGGCGATCTGGTATGTGCCCTTCGCCCTGGGATTGGCGTTCAGCCTCTGGTGGGGGCCACGGATACTTCCCGCGCTGTTCCTCAATGCGCTGTTGAGCGTGCCGTTGTGGGATCTGGACTGGCACTGGGCGCCGCTGCATGCCCTGCCGGAAACCCTGGCCGTGGGGTTGGGCTGGCTGATGACCGCCCGGCGCGGCTTCGATCCGGCGCTGAACGAATTCAATCATCTGCTGCGCTTCATTCTGCTCGGTGTGCTGCTGCCGTCCTCGGTGGTGGCGCTCGGCGTGCAGGGCAACCTCGTCATCACCGGCCATCTGCCGGCTGGCGACTGGCTGCATGCCAGTCTGGCCCTCGGATTGGCCGACAGCCTCAGCGTCCTGGCCATCGCCCTGCCGTTGCTGCATTTCGGCACCCCTCTGCTGCGCCGCAAGGGCTGGTTGCGCGCGGCGCCCGACAGCGCCGCGACGACTGACGAACCCATTCCGCAGCGCCTGCCGCCCTGGCCTCTGCTGTTGGCCCTGCTGGTTGGCCTGCCCGGTCTGCTGGTGGCCTTGCCCTGGTTGCAGACCTTGCCGCTGATCGGTTTCGCCATGCTGGTGCTGTCCCTGGTCTGGGGTTTTCCCGGTGCGCTGTGCGGCGCCGTGCTGACCAGCCTGCTGGTCCTGGCGCTGCCGCTGGTGGCGCCGCTGGAGACCCAGCCGGAGTGGTTCGGCCCGCAGCGCACCAGTCTCCACCTCAGCGTGCTGTTGATGATGATCGCCATGCTCCTGGTGGGTCGCAGCCTCAGCGACATGCGCCGGGCGCTGGCGCGCAGCGCGCGGATGCAGCAGCAACTGGCGCTGGCCAACCTCGCCCTGGAGGCCAGCCCGCTCGGTGTCAGCATCGCCGACGCACGTGCCGAGGGGCTTCCGTTGATCTATTGCAACCCGGCGTTCCAGCGCATCAGCGGCTATTCCCGCGCCGAGACGCTGGGACAGCCCAGCGATTTCCTGCTCGGCAGGGACCAGGGCCAGCACGAACTGCCCCGCATGCAGCATGCGCGCAACCGGGGCGAGACCTGCCAGGTGGTGCTGCGCAACTACCGCAAGGACGGCCGGCCGTTCTGGAACGAAGTCACCGTGGCGCCGATGCGTGACGAGCGGGGCATCAGCCACTTCCTCAGCCTGCAACACGACGTCACCAGCCGCGAGCGGCTGGCCCAGGAACTGGCCAAGCGTCGCGAGGAGCTGCTGCGCCAGACCCATCTGCTGACCCAGACCGAAACCATCGCCGACCTCGGCGGTTGGGTGCTGGAACTGCCCGGCTACCGGATGTTCTGGAGCGAAGGCAGCTACCGCATCTTCGAGCGCGAACCCGGCGACGGCGCGCTGGAGTACCGCCAGGCCCTGGCCTATCTCGACGAAGACAGCCGCGAACTGGCCTGGACTACCCTGCGCCAGTTGTTCAAGGGGCAGGACAGCTTCGATATCGAGTTGCACCTGAGCACCGCCCGCGGCAATCCGCGCTGGGTCCGCGCCCGCGGGCTGGTGGAGCGCGATGGCGAGCGGGTGATCCGCATCTACGGCGCGCTGCAGGACCTGACCGCGCGCAAGCAGGCCGAGCGCCAGTTGCAGGAACGCGACGAGCGTCTGCGGCTGTTCTTCGAAGCGCCGCTGATCGGCATGGCCCTGACCACCCCCGAGCAGCGCTGGGAAGAGGTGAATTACAAGCTGTGCAGCATTCTCGGGCGGTCCCGCGAAGAGCTGAACGCCACCACCTGGGCAGCCATTACCCACCCCGACGATCTCCCGGCCGACCAGGCGCGCCTGGAGGAATTGCAGGACGGCTCGCGGGATGGCTACGAGCTGGAGAAACGCTTCCTGCGTCCGGACGGCAGTCCGGTCTACACCCGCGTCAGCGTTCGCGCGGTACGCGATGCCGACGGCCGGCTGGAAGCCTGCCTGACCCTGGTGGAAGACATCAGCGACCGCTACGAAGCCGAAGCCCGTTACCGCACCCTGGTGGAGCATGCGCCGGAAGCCATCCTGGTGTTCGATACCGAGCGCGGCATCGTCGAAGCCAACGAGAACGCTGCCCGCCTGTTCGGTCTGCCCCGCGAGCAGTTGCTCGGCAAGCGTCCGGCGCATTTCAGTCCGGTGTTGCAGGGGGGCGGCGAGTCGTCAGAAGAGGTCGCCAGCCGCCAGATCGAGGCGGCGCTCGCTGGCGAAGCGCCGGTGTTCGACTGGCTGGTGCGCGATGCCGCCGGCCGCGTGCGCCCTTGCGAGGCACGCCTGGTCCTGCTGCCGGGCGGGGAAGGGCGGTTGGTCCGCCTGAGCTTCACCGATATTTCCGAGCGCCAGCGTTATCAGCGGGAAATCGAACGCCTGGCCTACAGCGACGAACTGACCGGGTTGCCCAACCGCCGCCTGCTGCTCGACCGCCTGCAGCACGCCATGGCCCGAGAGCAGCGGGAAGGCCGATATGGCGCCTTGTTGTTCATCGACCTCGACCACTTCAAGACGGTCAACGACAGCCTCGGCCACCCGGTCGGCGACGGCCTGTTGCGCGAAGTCACGGCGCGTCTGGCCGGCGGTCTGCGCGCCGAGGACACCCTGGCGCGGCTTGGCGGCGACGAGTTTGTGGTCTTGCTGGAGGCCATGGCGGATACCCCGGAAGTCGCCGCCGAGCATGCCGCCGAGGTGGGCGAGAAGCTGCTGGCCAGCCTGATCGGCGGCTATCGCATCGACGGCCACGAACTGTCGATCAGCGCCAGTATCGGCATCTCCCTGCACCCCCTCGGCGGCCAGGCGGCAGCCGATGTGCTCAAGCAGGCGGACACCGCCATGTACCGGGCCAAGCAGGGCGGGCGCAACGCGTTGCACTTCTTCGCCCCCGAGATGCAGGCCGCCATCGACCAGCGCCTGCAGCTGCAGAACGAACTGCGTCAGGCCATGACACGCGGCCAGTTGCGCCTGGTGTTCCAGCCGCAGCTGTCACTCGCCTCCGGGCGCGTGGCCGGGGCCGAGGTGCTGGTGCGCTGGTCGCATCCCGAGCGCGGTGAAGTCACTCCCACCCACTTCATTGCGCTGGCGGAAGAAACCGGGATGATCCATGAGCTCGGAAATTGGGTGCTGGAGCAGGCCTGCGCCGCGTTGGCGCGCTGGCGGGTGCAGTGGCCGGAACTGGTGTTGGCGGTGAACATCAGCCCGCGCGAGCTGCGCCAGCCCGACTTCGCCCAGCGCATCAGCAGTTGCCTGCAACGCCATGGCGTGCCGGCTGCCGCGCTGGAGCTGGAGATCACCGAAGGCGTCCTGCTGGAAGACGCCGAGCAGTGCATCGCCGCTATGCAGGCACTGAAGCGGCTCGGCGTGCGTTTCGCCATCGATGACTTCGGCACCGGCTACTCGTCGCTCACCTACCTCAAGCGCTTGCCGCTGGACCGGCTGAAGATCGACCGCAGCTTCGTCGGCGATCTCGATGGCGAAACCAGCGGTGCGATGCTGGTGGAGACCATCCTGGTGATCGCCCGCAACCTGGGCCTGGAGTGCGTGGCCGAGGGCATCGAGAGCCAGGTCCAGCTGGACAGCCTGCGCCGCCACGGTTGTGCCCTGGGGCAGGGCTTTCATTTCAGCCGGCCGCTGAACGAAACCGCCTTTCTCGCCTGGATGGATGCGCGCGAGAGTCACATCGCCTGA	MPVVSDRQPRWTWWLPLPLFQLGTWLSLSTQFSSGVAIWYVPFALGLAFSLWWGPRILPALFLNALLSVPLWDLDWHWAPLHALPETLAVGLGWLMTARRGFDPALNEFNHLLRFILLGVLLPSSVVALGVQGNLVITGHLPAGDWLHASLALGLADSLSVLAIALPLLHFGTPLLRRKGWLRAAPDSAATTDEPIPQRLPPWPLLLALLVGLPGLLVALPWLQTLPLIGFAMLVLSLVWGFPGALCGAVLTSLLVLALPLVAPLETQPEWFGPQRTSLHLSVLLMMIAMLLVGRSLSDMRRALARSARMQQQLALANLALEASPLGVSIADARAEGLPLIYCNPAFQRISGYSRAETLGQPSDFLLGRDQGQHELPRMQHARNRGETCQVVLRNYRKDGRPFWNEVTVAPMRDERGISHFLSLQHDVTSRERLAQELAKRREELLRQTHLLTQTETIADLGGWVLELPGYRMFWSEGSYRIFEREPGDGALEYRQALAYLDEDSRELAWTTLRQLFKGQDSFDIELHLSTARGNPRWVRARGLVERDGERVIRIYGALQDLTARKQAERQLQERDERLRLFFEAPLIGMALTTPEQRWEEVNYKLCSILGRSREELNATTWAAITHPDDLPADQARLEELQDGSRDGYELEKRFLRPDGSPVYTRVSVRAVRDADGRLEACLTLVEDISDRYEAEARYRTLVEHAPEAILVFDTERGIVEANENAARLFGLPREQLLGKRPAHFSPVLQGGGESSEEVASRQIEAALAGEAPVFDWLVRDAAGRVRPCEARLVLLPGGEGRLVRLSFTDISERQRYQREIERLAYSDELTGLPNRRLLLDRLQHAMAREQREGRYGALLFIDLDHFKTVNDSLGHPVGDGLLREVTARLAGGLRAEDTLARLGGDEFVVLLEAMADTPEVAAEHAAEVGEKLLASLIGGYRIDGHELSISASIGISLHPLGGQAAADVLKQADTAMYRAKQGGRNALHFFAPEMQAAIDQRLQLQNELRQAMTRGQLRLVFQPQLSLASGRVAGAEVLVRWSHPERGEVTPTHFIALAEETGMIHELGNWVLEQACAALARWRVQWPELVLAVNISPRELRQPDFAQRISSCLQRHGVPAAALELEITEGVLLEDAEQCIAAMQALKRLGVRFAIDDFGTGYSSLTYLKRLPLDRLKIDRSFVGDLDGETSGAMLVETILVIARNLGLECVAEGIESQVQLDSLRRHGCALGQGFHFSRPLNETAFLAWMDARESHIA	PGPT0023624_89	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-GGDEF|EAL|PAC|PAS-DOMAIN-CONTAINING_PROTEIN,PGPT0023624-GGDEF|EAL|PAC|PAS_domain_containing_protein-NA	NA	NA
BMS010_08992	1314	envZ_3		Osmolarity sensor protein EnvZ	ATGAAGGCTCCCCTCTGGTTCCCGCAAAGTTTCTTCGCCCGCACCCTCTGGCTGGTGCTGATCGTGGTGCTGTTTTCCAAGGCGCTGACCCTCGTCTATCTGATGATGAACGAGGACGTCCTGGTGGACCGCCAGTACAGCCACGGCGCGGCGCTCACCCTGCGCGCCTACTGGGCGGCCGAGCCTTCGTCGCGCGACGACATCGCCCGCGAGGCCGGGCTCACGCTGGTCCAGCGCGATGCCGTGCCGCTCAGCGAGCAGCACTGGCCGTACAGCGAAATCTTCCAGCGCCAGATGCGCACCGAACTGGGGCCGGACACCGAGGTGCGGGTGAGGGTGAAGAGTCCGCCGGCGCTCTGGGTGTACGCGCCGAGCCTGGGCGACGACTGGCTGAAAGTGCCGCTCTATCCGCACCCGTTGCGCGGACAGCGCATCTGGAACGTGCTCGGCTGGTTCCTCGGGATCGGCCTGCTCTCCACCGCCGCCGCCTGGATTTTCGTCCGCCAGCTCAGCGCGCCGCTCAAGCGCCTGGTGTTCGCCGCCCGCCAGGTCGGCCAGGGCCGCAGCGTGCGCTTGCCGATCGGCAATACGCCGAGCGAGATGACCGAGGTCTACCGGGCCTTCAACCAGATGGCCGAGGACGTCGAACAGGCCGGCCGCGAGCGCGAACTGATGCTTGCCGGCGTCTCCCACGACCTGCGCACCCCGCTGACCCGCTTACGCCTGTCCCTCGAACTGCTGGGCAACGACAACGAGTTCGCCGAGGACATGGTGCGCGACATCGAGGACATGGACGCCATCCTCGATCAGTTCCTCGCCTTCATCCGCGACGGTCGCGACGAGCCGGTGGAAGATGTCGATCTCGGCGAACTGGCCCAGGAGGTGGTGGCGCCGTTCAACCAGAAGGGTGAACAGGTACGGCTGTGCCTGGAGCAGATCCCGCCGATCCCGCTGCGCCGGGTGTCGGTCAAGCGGCTGCTGACCAACCTGGTGGAAAACGCCCTGCGCCATGGCGGCCAGCAGGTCGAGGTGGCCGCCTACGTATCCGGCGACTGCCGTGCGCCCTACGTGGTGCTCAGCGTGCTGGACCGCGGCCCCGGTATCGACCCGACGGAAATGTCCGACATCTTCAACCCCTTCATTCGCGGCGACCGCGCCCGGGGCGGCAAGGGCACCGGCCTTGGACTGGCCATCGTCAAGCGCATCGCCGCGCTGCATGGCGGCAGCGTGGAGCTGCGCAACCGTTCAGGCGGCGGACTGGAGGCCAGGGTGTGCCTGCCGCTGGGGTTGATGCTGCCGCGCGACGCGGTCTGA	MKAPLWFPQSFFARTLWLVLIVVLFSKALTLVYLMMNEDVLVDRQYSHGAALTLRAYWAAEPSSRDDIAREAGLTLVQRDAVPLSEQHWPYSEIFQRQMRTELGPDTEVRVRVKSPPALWVYAPSLGDDWLKVPLYPHPLRGQRIWNVLGWFLGIGLLSTAAAWIFVRQLSAPLKRLVFAARQVGQGRSVRLPIGNTPSEMTEVYRAFNQMAEDVEQAGRERELMLAGVSHDLRTPLTRLRLSLELLGNDNEFAEDMVRDIEDMDAILDQFLAFIRDGRDEPVEDVDLGELAQEVVAPFNQKGEQVRLCLEQIPPIPLRRVSVKRLLTNLVENALRHGGQQVEVAAYVSGDCRAPYVVLSVLDRGPGIDPTEMSDIFNPFIRGDRARGGKGTGLGLAIVKRIAALHGGSVELRNRSGGGLEARVCLPLGLMLPRDAV	PGPT0012975_1391	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OSMOLARITY_SIGNALLING,PGPT0012975-envZ-K07638	NA	NA
BMS010_08993	729	ompR_7		Transcriptional regulatory protein OmpR	ATGAACACTGCCCCCGTTGAAGGCGAAAAAATCCTCGTGGTCGACGACGACGCCCGTCTGCGGCGTCTGCTCGAACGTTTTCTCGACGAACAGGGCTACCGCGTGCGGGCGGTGGAGAACGTCGAACAGATGGATCGCCTGCTCGCCCGCGAGCTGTTCAACCTGGTGGTGCTCGACCTGATGCTGCCGGGCGAGGACGGCCTCTCCGCCTGCCGCCGCCTGCGCGCATCGAACAACCAGATCCCGATCATCATGCTCACCGCCAAGGGCGACGAGTCGAGCCGCATCCAGGGCCTGGAACTGGGCGCCGACGACTACCTGGCCAAACCGTTCAACCCACGCGAGCTGCTGGCGCGGATCAAGGCCGTGCTGCGTCGCCAGGCGCCGGTGGTGCCGGGCGCGCCGGCCAGCGAAGACGAAACCGTGCGTTTCGGCGACTACGAATTGTCCCTCGGTACCCGCGAACTGAAGCGCGGCGATGAAGTGCACATGCTCACCACCGGCGAGTTCGCCGTGCTCAAGGCGCTGGTACAGCATGCACGCGAGCCGCTGACCCGCGACAAGCTGATGAACCTCGCCCGCGGCCGCGAGTGGGACGCCCTGGAGCGCTCCATCGACGTACAGATTTCCCGCCTGCGCCGGCTGATCGAGCCGGACCCGTCCAAGCCCCGCTACATCCAGACCGTCTGGGGCGTCGGCTACGTGTTCGTTCCGGATGGAAATAAATGA	MNTAPVEGEKILVVDDDARLRRLLERFLDEQGYRVRAVENVEQMDRLLARELFNLVVLDLMLPGEDGLSACRRLRASNNQIPIIMLTAKGDESSRIQGLELGADDYLAKPFNPRELLARIKAVLRRQAPVVPGAPASEDETVRFGDYELSLGTRELKRGDEVHMLTTGEFAVLKALVQHAREPLTRDKLMNLARGREWDALERSIDVQISRLRRLIEPDPSKPRYIQTVWGVGYVFVPDGNK	PGPT0012985_388	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OSMOLARITY_SIGNALLING,PGPT0012985-ompR-K07659	NA	NA
BMS010_08994	2325	yhgF_2	COG2183	Protein YhgF	ATGGATATCAACAGTCGTATCGCCGAGGAGCTCGGTGTCCGTCCGCAACAGGTTGCCGCCGCCGTGGGGCTGCTCGACGAAGGCTCCACCGTGCCCTTCATCGCCCGTTACCGCAAAGAGGTGACCGGCAGCCTCGACGATACCCAGCTGCGCCATCTGGAGGAGCGTCTGCGCTACCTGCGCGAACTGGAAGAGCGCCGCGCCGCGATCCTCGCCAGCATCGAGGAACAGGGCAAGCTGACCCCGGAACTGGCCCGCGAAATCAACCTCGCCGACACCAAGACCCGCCTGGAAGACCTTTACCTGCCGTACAAGCAGAAGCGCCGCACCAAGGGCCAGATCGCCCTGGAAGCCGGCCTCGGCGAGCTGGCCGACGCCCTGTTCGGCGACCCGACCCTGGCGCCGGAAGCCGAAGCGGCCCGCTTCGTCGATGCGGAAAAGGGCTTCGCCGACGTCAAGGCCGTGCTGGAAGGCGCCAAGTACATCCTCATGGAGCGCTTCGCCGAAGACGCCACCCTGCTCGACCGCCTGCGCGGCTTCCTCAAGGACAACGCCACCCTCAGTGCCCGCGTGGTCGCCGGCAAGGAAACCGAAGGCGCCAAGTTCCGCGACTACTTCGAACACGACGAAACGCTCAAGGGCACTCCGTCCCACCGTGCCCTGGCGATCTTCCGCGGCCGCAACGAGGGCGTGCTGAGCGTCGCGTTGAAGGTCGGCGACGAAGCGCCGGGCATCATGCACCCGTGCGAAGGCATGATCGGCGAGCGCTTCGGCATCAAGGATCAGGGCCGTGCTGCCGACAAATGGCTCGGCGAGGTGGTGCGCTGGACGTGGAAGGTCAAGCTCTACACCCATCTGGAAACCGACCTGCTCGGCGAGCTGCGCGAAAAAGCGGAAGACGAAGCGATCAGCGTGTTCGCCCGTAACCTGCACGACCTGCTGCTGGCCGCGCCGGCCGGCCCTCGCGCCACCCTGGGCCTCGACCCGGGCCTGCGTACCGGGGTCAAGGTGGCCGTGGTGGACAACACCGGCAAGCTGCTCGACACCGCCACGGTCTACCCCCACGCGCCGAAGAACGACTGGGACGGCACCCTCGCGGTGCTGGCCAAGCTCTGCGCCAAGCACGGCGTCGACCTGATCGCCATCGGCAACGGCACCGCCAGCCGCGAGACCGACAAGCTGGCCGGCGACCTGATCAAGAAGGTGCCGGGCCTCAAGCTCACCAAGATCATGGTGTCCGAGGCCGGCGCCTCGGTGTACTCGGCCTCCGAGCTGGCGGCGAAGGAATTCCCCGATCTCGACGTGTCCCTGCGCGGCGCCGTGTCCATCGCCCGCCGCCTGCAGGACCCGCTGGCCGAGCTGGTGAAGATCGACCCGAAATCCATCGGCGTCGGCCAGTACCAGCACGATGTCTCCCAGCTCAAGCTGGCACGCTCGCTGGATGCCGTGGTGGAAGACTGCGTGAACGCCGTCGGGGTGGACGTCAACACGGCATCCGCCGCACTGCTGGCGCGGATTTCCGGCCTCAACACGACGCTGGCGCAGAACATCGTGCAGTTCCGCGATGCGAACGGTGCGTTCAAGTCCCGCGATGAACTGAAGAAGGTCCCGCGCCTCGGCGAGAAGACCTTCGAACAGGCCGCCGGCTTCCTCCGTGTGATGAACGGCGACAACCCGCTGGACGCCTCGGCGGTGCACCCGGAAACCTACCCGCTAGTGCAGCGCATCGCCCAGGACACCGGCCGCGACATCCGCTCGCTGATCGGCGACTCGGCATTCCTCAAGCGCCTCGATCCGAAGAAGTTCACCGACGAGAAGTTCGGCCTGCCGACCGTCACCGACATCCTCGGCGAACTGGACAAGCCCGGCCGCGACCCGCGCCCCGAGTTCAAGACCGCCGAGTTCCAGGACGGCGTGGAAACCCTCAAGGACCTCAAGCCGGGCATGGTGCTGGAAGGCGTGGTAACCAACGTGACCAACTTCGGCGCCTTCGTCGATATCGGCGTACACCAGGACGGTCTGGTGCACATCAGCGCGCTCTCGGAGAAGTTCGTCAAAGACCCCTATGAAGTGGTCAAGGCCGGCGACATCGTCAAGGTCAAGGTCATGGAGGTGGACATCCCGCGCAACCGCGTCGGCCTGTCCATGCGCATGAGCGACACCCCCGGCGAGAAGGTCGAAGGCCCGCGCGGCGGCGGCCAGCCCAACCGTGGCAGCCAACCGCGCCAGCCCCAGGCCGCACGTAGCACGGGCGGCGCACAACCGGCCGGCGGCGGCGCCATGGCCGCGCTGTTCGCCAACGCCAAGCAACTGAAGAAGAAGTGA	MDINSRIAEELGVRPQQVAAAVGLLDEGSTVPFIARYRKEVTGSLDDTQLRHLEERLRYLRELEERRAAILASIEEQGKLTPELAREINLADTKTRLEDLYLPYKQKRRTKGQIALEAGLGELADALFGDPTLAPEAEAARFVDAEKGFADVKAVLEGAKYILMERFAEDATLLDRLRGFLKDNATLSARVVAGKETEGAKFRDYFEHDETLKGTPSHRALAIFRGRNEGVLSVALKVGDEAPGIMHPCEGMIGERFGIKDQGRAADKWLGEVVRWTWKVKLYTHLETDLLGELREKAEDEAISVFARNLHDLLLAAPAGPRATLGLDPGLRTGVKVAVVDNTGKLLDTATVYPHAPKNDWDGTLAVLAKLCAKHGVDLIAIGNGTASRETDKLAGDLIKKVPGLKLTKIMVSEAGASVYSASELAAKEFPDLDVSLRGAVSIARRLQDPLAELVKIDPKSIGVGQYQHDVSQLKLARSLDAVVEDCVNAVGVDVNTASAALLARISGLNTTLAQNIVQFRDANGAFKSRDELKKVPRLGEKTFEQAAGFLRVMNGDNPLDASAVHPETYPLVQRIAQDTGRDIRSLIGDSAFLKRLDPKKFTDEKFGLPTVTDILGELDKPGRDPRPEFKTAEFQDGVETLKDLKPGMVLEGVVTNVTNFGAFVDIGVHQDGLVHISALSEKFVKDPYEVVKAGDIVKVKVMEVDIPRNRVGLSMRMSDTPGEKVEGPRGGGQPNRGSQPRQPQAARSTGGAQPAGGGAMAALFANAKQLKKK				NA	NA	NA	NA	NA
BMS010_08995	384	menI		1,4-dihydroxy-2-naphthoyl-CoA hydrolase	ATGGATATCCCCGAAGACCTGCAATTCAGCAACTTCAGCCGGCTCATCGGCTGCCGCGTGCATCGCCTGGGCGAAGGCGAAGCCGAGATCACCCTGAGCATGGCCGATCACCTGCGCAACCGGGGCGGCAAGCTGCATGGCGGCGCGTTGTTCAGCCTGATGGACACCGCCATGGGCCTGGCCTGCTCGACCGCCCACGGTTTCGACCGGCAGAGCGTGACCCTGGAATGCAAGATCAACTACATCCGCGCCGTCGGCGAGGGCGATGTGATCTGTCATGCCCGCGTCCTGCATGCCGGCCGCACCACCCTGGTAGTGGAAGCCGACATCCGCCAGGGCGACACCCTCGTCGCCAAGGGACAAGGCACCTTCGCTCAGCTGTAA	MDIPEDLQFSNFSRLIGCRVHRLGEGEAEITLSMADHLRNRGGKLHGGALFSLMDTAMGLACSTAHGFDRQSVTLECKINYIRAVGEGDVICHARVLHAGRTTLVVEADIRQGDTLVAKGQGTFAQL				NA	NA	NA	NA	NA
BMS010_08996	1584	gshA	COG2918	Glutamate--cysteine ligase	TTGAGCGACCTCCTTTCCCGCCGCCTGGCCCTGCTCGGCGAGCGCGCCCCTCTCTCCCTGCTCGAACAGTGCCTGCACGGCATCGAGCGGGAATGCCTGCGTGTGGATGCCGATGGCCAGCTGTCGCTGAGCCCGCACCCCGCCGTGCTGGGTTCCGCGCTGACCCATCCGCAGATCACCACCGACTATTCCGAGGCCCTGCTGGAGTTCATCACGCCGGCCGAGCAGGACCCGGCGCTGACACTGGACGACCTGGATCGCATCCACCGCTTCGTCTACGCCAAGCTCGACGGGGAGTTCCTCTGGAGCGCCTCGATGCCCAGCCAGTTGCCGGACGAGGAGACCATTCCCATCGCCCGCTACGGCGACTCGCTGATCGGCCGCCTCAAGTACGTCTACCGCAAGGGTCTGGCGCTGCGTTACGGCAAGACCATGCAGTGCATCGCCGGCATTCACTACAACTTCAGCCTGCCCGAGACGCTCTGGCCGGTCCTCAAGGCCGCCGAAGGCGACCCGCAGAGCGACCGCGACTACCAGTCGGCGCGCTACATCGCGCTGATCCGCAACTTCCGCCGCTACAGCTGGTTGCTGATGTACCTGTTCGGTGCCTCGCCGGCGCTGCACAAGGGCTTCCTGCGCGGCAACCCGCATCAACTGGAAACCCTGGACGAGGACACCCTCTACCTGCCCTGGGCCACCAGCCTGCGGATGAGCGACCTGGGCTACCAGAACAATGCCCAGGCCGGTCTGACACCTTGCTACAACAGCCTCGACAGCTACCTGGCCAGCCTGCGCCAGGCGGTCGGCACGCCCTACCCGCCCTATGTCGAGATCGGCACCCAGCGCGACGGCGAGTGGCTGCAACTGAACACCAACGTCATCCAGATCGAGAACGAGTACTACTCGAGCATCCGCCCGAAGCGCGTGACCCACACCGGCGAGCGGCCGATCCAGGCGCTGGCGGCGCGCGGCGTGCAGTACATCGAAGTGCGCTGCATGGACATCGACCCCTTCCTGCCACTGGGTATCGACCTGACCAGCGCACGTTTCCTCGATGCCTTCCTGCTCTACTGCGCCCTGCAGGACAGTCCGCCGCTGGCTGGCGACGAGTGCCGCGCCTGCACCAACAACTTCCTCAAGACGGTGAAGGAAGGTCGTCGTCCCGGCCTGCATCTGCAGCGGAACGGCGAAGCGGTGGAGCTGAAGACCTGGGCCCACGAACTGCTCGACGACATCGAACGGGTCGCCGACCTGCTCGATCGCAGCCACGGCGGCCATGCCCATGCCGACGCCCTGGCGGCCCAGTGCGCCAAGGTGGACGACGCCCGCCTGACGCCATCCGCGCGGGTACTGGACGCCTTACGCGAGCACCGCGAAAGCTTCGTCGGTTTCGCCCTGCGCCAGAGTCGGGCGCACGCCGAGTATTTCCGCGAGCGACCGCTGAGCGAGGCGGAAATGGCGGAGTACGAGGCGCAGGTGCAGCAGTCCCTGGCCGAACAGGAGGAGCTGGAACGCACCCAGGTCGGCGATTTCGATACCTTCGTCGAGGCCTACCAGGCCAGCATCCTCGGCATCGCCATCTGA	MSDLLSRRLALLGERAPLSLLEQCLHGIERECLRVDADGQLSLSPHPAVLGSALTHPQITTDYSEALLEFITPAEQDPALTLDDLDRIHRFVYAKLDGEFLWSASMPSQLPDEETIPIARYGDSLIGRLKYVYRKGLALRYGKTMQCIAGIHYNFSLPETLWPVLKAAEGDPQSDRDYQSARYIALIRNFRRYSWLLMYLFGASPALHKGFLRGNPHQLETLDEDTLYLPWATSLRMSDLGYQNNAQAGLTPCYNSLDSYLASLRQAVGTPYPPYVEIGTQRDGEWLQLNTNVIQIENEYYSSIRPKRVTHTGERPIQALAARGVQYIEVRCMDIDPFLPLGIDLTSARFLDAFLLYCALQDSPPLAGDECRACTNNFLKTVKEGRRPGLHLQRNGEAVELKTWAHELLDDIERVADLLDRSHGGHAHADALAAQCAKVDDARLTPSARVLDALREHRESFVGFALRQSRAHAEYFRERPLSEAEMAEYEAQVQQSLAEQEELERTQVGDFDTFVEAYQASILGIAI	PGPT0013035_641	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013035-gshA|ybdK-K01919	NA	NA
BMS010_08997	225			hypothetical protein	ATGGCGCCGTCCGACGCCTCTCTCGACAACGATGACAGCCAATGGAGCCTGGAAAGCCTGACGAAGGCCTACCAGCAAGGCTATATGGCAGGTCTGACCGGCCACCCGATCGACCAGCAACCCTACCCGGCCGATGTCGTGGCCGCCGCCTGGGAAGCCGGTTGGGACGACGGGCACGAGCAACTGCTCGCCTCCGGCCGCCAGCCCCAGACCAAGCGCGCCTGA	MAPSDASLDNDDSQWSLESLTKAYQQGYMAGLTGHPIDQQPYPADVVAAAWEAGWDDGHEQLLASGRQPQTKRA				NA	NA	NA	NA	NA
BMS010_08998	1299	argA	COG0548	Amino-acid acetyltransferase	ATGCTCGATTACGTCAATTGGCTCCGCCACGCATCGCCCTATATCAACTCGCATAGGGATCGGACTTTCGTGGTCATGCTGCCCGGCGAGGGGGTGGCTCACCCGAACTTCGGCAACATCGTCCATGACCTGGTGCTGCTGCACAGCCTCGGCGTGCGCCTGGTACTGGTCCACGGCTCGCGCCCGCAGATCGAGGCGCGCCTGGTCAATCGCGGCCTGACGCCGCATTTCCACCACAACCTGCGGATCACCGACGCCCCCACCCTGGAGTGCGTGATCGATGCCGTGGGGCAATTGCGTATCGCCATCGAGGCGCGCCTGTCGATGGACATGGCGGCCTCGCCGATGCAGGGCTCTCGTCTGCGCGTTGCTGGCGGCAACTTCGTCACCGCGCGGCCGATTGGCGTGCTCGAGGGCGTCGACTATCACCATACGGGCGAAGTGCGGCGGGTCGACCGCAAGGGGATCGGCCGCCTGCTCGACGAGCGCGCCATCGTGCTGCTGTCGCCGCTCGGCTATTCGCCCACCGGGGAAATCTTCAACCTTGCCTGCGAGGACGTGGCGACGCGCGCGGCCATCGACTTGGCGGCCGACAAGTTGCTGCTGTTCGGCGAGGAACGTGGCCTGCTCGACGAGCAAGGGCGCTTGATTCGCGAGTTGCGCCCGCAGCAGGTGCCGACGCACCTGGCGCGGCTCGGCGCCAGCTACCAGGCCGAACTGCTCGACGCCGCAGCCCAGGCCTGCCGGGGTGGGGTGAAGCGCAGCCATATCGTCAGCTACCAGGAGGATGGCGCGCTGCTTACCGAGCTGTTCACCCGCGACGGCGGCGGCACCCTGGTCGATCAGGAGCAGTTCGAGCAATTGCGCGAGGCGACCATCGAGGACGTCGGCGGCCTGATCGACCTGATCAGCCCGCTGGAGGAGCAGGGCATCCTGGTGCGTCGCTCGCGCGAAGTGCTGGAGCGGGAGATCACCCAGTTCAGCATCGTCGAGCGCGACGGCCTGATCATTGCCTGCGCGGCGCTCTATCCCATCGCCGATTCGGACGCCGGCGAACTGGCCTGCCTCGCGGTCAACCCGGAATACCGCCACGGCGGGCGTGGCGACGAACTGCTCGAGCGCATCGAGGAGCGGGCCCGCCAGCAGGGATTGAAGACTTTGTTCGTGCTCACCACGCGTACCGCGCACTGGTTCCGCGAACGTGGCTTCGAGCCCAGCAGCGTCGAGCGCCTGCCGGCTGCGCGGGCGTCGCTGTACAACTACCAGCGCAATTCGAAGATTTTCGAGAAATCGCTGTAG	MLDYVNWLRHASPYINSHRDRTFVVMLPGEGVAHPNFGNIVHDLVLLHSLGVRLVLVHGSRPQIEARLVNRGLTPHFHHNLRITDAPTLECVIDAVGQLRIAIEARLSMDMAASPMQGSRLRVAGGNFVTARPIGVLEGVDYHHTGEVRRVDRKGIGRLLDERAIVLLSPLGYSPTGEIFNLACEDVATRAAIDLAADKLLLFGEERGLLDEQGRLIRELRPQQVPTHLARLGASYQAELLDAAAQACRGGVKRSHIVSYQEDGALLTELFTRDGGGTLVDQEQFEQLREATIEDVGGLIDLISPLEEQGILVRRSREVLEREITQFSIVERDGLIIACAALYPIADSDAGELACLAVNPEYRHGGRGDELLERIEERARQQGLKTLFVLTTRTAHWFRERGFEPSSVERLPAARASLYNYQRNSKIFEKSL	PGPT0014243_1228	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014243-argAB-K14682	NA	NA
BMS010_08999	1155	argE_2		Acetylornithine deacetylase	ATGCCCGTTCCCTCCCTCAAAGACGCCTTCGCCGCGCTGATCGCCGCGCCCTCGGTGAGCTGTACCCAGCCGCACTGGGACCAGACCAACCGACCGGTGATCGATCTGCTCGCCACCTGGCTGGGTGACCTCGGCTTCGCCTGTGAAGTGCAGGAAGTGGTGCCCGGCAAGTTCAACCTGCTCGCCAGCTACGGCAGCGGCCCCGGCGGGCTGGTGCTGGCTGGCCACAGCGATACCGTGCCCTTCGACGCCGCCCTGTGGAAGAGCGATCCGCTGCGCCTGGACGAGCGCGACGGCCGTTGGTACGGCCTCGGCAGTTGCGACATGAAGGGCTTCTTCGCGTTGATCGTCGAGGCGGTACGGCCGCTGCTCGCGCAGCCGTTCAAGCAGCCGCTGCTGATCCTCGCCACTTGCGACGAAGAAAGCTCCATGTCCGGCGCCCGTGCCCTGGCCGATGCCGGACGGCCGCTCGGTCGCGCCGCGGTGATCGGCGAGCCGACCGGACTGCGGCCGATCCGCCTGCACAAGGGCGTGATGATGGAACGCATCGACATCCTCGGCCGCAGCGGTCACTCGTCCGACCCGAGCCTCGGGCATAGCGCCCTGGAAGCCATGCACGAGGCGATCGGCGAGTTGCTGGCGCTGCGCAGCCAGTGGCAGAAGGAATACCGCAATCCGCTGTTCAACGTACCGCAGCCAACCCTCAACCTGGGCTGCATCCATGGCGGCGACAATCCCAACCGCATCTGCGGGCAGTGTTCCCTGGAGTTCGATCTGCGTCCGTTGCCGGGCATGGCGCCGGAGCACCTGCGCCTGGAAATTCGCCAACGCCTGCAACCGCTGGCCGAGCGGCACCAGGTGAAGATCGACTTCGCCCCGCTGTTTCCCAGCGTGCCGCCCTACGAACAGGCCGCCAACGCCGAACTGGTGCATGTGGCCGAGCGGCTCACCGGCCATGCCGCCGGCGCGGTGGCCTTCGGCACCGAGGCGCCGTATCTTCAGCAGCTCGGTTGCGAGACCCTGGTGCTCGGCCCCGGCGATATCGCCTGCGCCCACCAGCCGGACGAGTACCTCGAGATGGCGCGTCTGGAGCCGAGCGTCCGGTTGCTGCGCGAGCTGATCCAGCACTATTGCCTGAGCCCGAGTGGAGTCTGA	MPVPSLKDAFAALIAAPSVSCTQPHWDQTNRPVIDLLATWLGDLGFACEVQEVVPGKFNLLASYGSGPGGLVLAGHSDTVPFDAALWKSDPLRLDERDGRWYGLGSCDMKGFFALIVEAVRPLLAQPFKQPLLILATCDEESSMSGARALADAGRPLGRAAVIGEPTGLRPIRLHKGVMMERIDILGRSGHSSDPSLGHSALEAMHEAIGELLALRSQWQKEYRNPLFNVPQPTLNLGCIHGGDNPNRICGQCSLEFDLRPLPGMAPEHLRLEIRQRLQPLAERHQVKIDFAPLFPSVPPYEQAANAELVHVAERLTGHAAGAVAFGTEAPYLQQLGCETLVLGPGDIACAHQPDEYLEMARLEPSVRLLRELIQHYCLSPSGV	PGPT0014254_2305	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014254-argE-K01438	NA	NA
BMS010_09000	1263			hypothetical protein	ATGTCTCTGATCACGGACTACGGTTTCGTACTCCTGCTGCTTGCCTGCCTGTTCGGTTTCTTCATGGCCTGGGGCGTGGGTGCCAACGACGTGGCGAACGCCATGGGGACCTCGGTGGGCTCGCGGGCCCTCACCATCAAGCAGGCGATCGTCGTCGCCATGGTCTTCGAGTTCTGCGGTGCTTACCTGGCGGGTGGCCAGGTCACCGAGACCATCAAGAGCGGCATCGTCGATGCGTCGCTGATTTCGCCTGAGCTGATGGTGCTGGGCATGATGTCGGCGCTGCTGGCGGCAGGGACCTGGCTGCTGATCGCGTCCATGAAGGGCTGGCCGGTGTCCACGACCCACTCCATCGTCGGCGCGGTGATCGGTTTCGCGGCCGTCGGCATTTCCATGGATGCGGTGAAGTGGAGTGGCGTCGGCCCCATCGTCGCCAGCTGGGTGATTTCTCCGGTACTGTCCGGCGTGGTCGCTTTCGGCCTGTTCATGAGCGTGCAGAAGCTGATCATCGACACCGACAGCCCGTTCAAGAACGCCAAGCGCTTCGTGCCGTTGTACATGTTCCTCACCGGCTTCATGGTGGCGGTGATGACGCTGTCCAAGGGGCTCAAGCACATCGGCCTGAACCTCAGCAGCAACCAGAGCCTGCTGCTGGCCGTGGCTGTCGGTGTCCTGGTCATGCTGCTGGGCGTCGCGATCCTCAGTCGCATCCATGTCGATGAGGAAGCGGACAAGGCGTTCCACTTCTCCAGCGTGGAGAAGGTCTTCGCCGTGCTGATGATCTTCACCGCCTGCTCCATGGCCTTCGCCCATGGCTCCAACGACGTGGCCAACGCGGTCGGTCCGCTGGCCGCCATCGTCGGCGTGATCCAGTCCGGCGGCGAGGCGGTGGGTGCCAAGGCCGCGCTGCCGAGCTGGGTGCTGCTGCTCGGCGCCGTGGGGATCGTCATCGGCCTGGCCACCTACGGCTACAAGGTGATCGCCACCATTGGCAAGGAAATCACCGAGCTGACCCCGAGCCGTGGCTTCGCCGCCGAGTTGGCCACCGCCACCACCGTGGTGGGTGCCTCGGCCATCGGCCTGCCGGTATCCACCACCCACACCCTGGTCGGTGCCGTGCTGGGCGTCGGTATCGCGCGGGGTATCGGTGCGTTGAACCTGGGTGTGATCGGCTCGATCTTCATGTCCTGGATCATCACCCTGCCGGTGGGTGCGGCCCTGTCGATCCTGTTCTTCCTGATCCTCAAAGGCATCTTTGCCTGA	MSLITDYGFVLLLLACLFGFFMAWGVGANDVANAMGTSVGSRALTIKQAIVVAMVFEFCGAYLAGGQVTETIKSGIVDASLISPELMVLGMMSALLAAGTWLLIASMKGWPVSTTHSIVGAVIGFAAVGISMDAVKWSGVGPIVASWVISPVLSGVVAFGLFMSVQKLIIDTDSPFKNAKRFVPLYMFLTGFMVAVMTLSKGLKHIGLNLSSNQSLLLAVAVGVLVMLLGVAILSRIHVDEEADKAFHFSSVEKVFAVLMIFTACSMAFAHGSNDVANAVGPLAAIVGVIQSGGEAVGAKAALPSWVLLLGAVGIVIGLATYGYKVIATIGKEITELTPSRGFAAELATATTVVGASAIGLPVSTTHTLVGAVLGVGIARGIGALNLGVIGSIFMSWIITLPVGAALSILFFLILKGIFA	PGPT0002655_1430	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPHATE_TRANSPORT,PGPT0002655-TC_PIT-K03306	NA	NA
BMS010_09001	678			hypothetical protein	ATGCCAACCAATCCCTTCGTCAGTCTGTTCGGCCGGTCGCCCATCGGCCCGATGCAACAGCACATCGCCAAGGCCCACGAGTGCGCGGCGAATCTGATGCCCTTCTTCCAGGCTGTAGTGGCGGAAGACTGGGACAGAGTGGAACAGGTGCAGCAGGAGATGGTGCGTCTGGAGAAGGAAGCCGACAAGCTCAAGAAGAGCGTGCGCCTGCACCTGCCCAAGAGCCTGTTCCTGCCGGTTCCGCGTTCGGATCTGCTGGAGCTGCTGAGTGTACAGGACAAAGTCGCCAACCGCGCCAAGGACATCGCCGGCCTGATGCTCGGCCGCTGCATGACCGTACCGGAAGCCCTGCAGCCGCTGATGCTGACCTACGTCCAACGCACCGTGGACGCCAGCGCCCAGGCATTGAAGGCGATGAACGAGCTGGACGAATTGCTGGAAACCGGTTTCGGCGGCCGTGAGGCGGTGCTGGTGGAAAACCTGATCGAAGAGCTGGACGCCATCGAGCAGGACACCGACCGTCTGCAGATCGAAGTGCGCCGCGGCCTGTTCAAACTGGAAAAGGATCTCCCCCCGGTCGATGTGATGTTCCTCTATCAGATCATCGACTGGATCGGCGACGTCGCCGACCGTGCCCAGCGCGTGGGCAACCGACTGGAACAATTGCTGGCGCGATGA	MPTNPFVSLFGRSPIGPMQQHIAKAHECAANLMPFFQAVVAEDWDRVEQVQQEMVRLEKEADKLKKSVRLHLPKSLFLPVPRSDLLELLSVQDKVANRAKDIAGLMLGRCMTVPEALQPLMLTYVQRTVDASAQALKAMNELDELLETGFGGREAVLVENLIEELDAIEQDTDRLQIEVRRGLFKLEKDLPPVDVMFLYQIIDWIGDVADRAQRVGNRLEQLLAR	PGPT0002655_1	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPHATE_TRANSPORT,PGPT0002655-TC_PIT-K03306	NA	NA
BMS010_09002	1365	ygiF	COG3025	Inorganic triphosphatase	ATGGTCAAAGAAACCGAAATCAAGCTGCGCGCCAGTCGCGACACGCTCGCCGCACTGCGCGAACATCCGTTGCTGAAAAAACGCAACAAGAGCGGCTGGGAACGCCGCGAACTCTTCAACCAGTATTACGACAGCGCCGAGCGCGACTTGGCTCGGGCCAAGGTGGCGCTGCGCCTGCGCCGCGACGGCGAGCAGTACATCCAGACCCTGAAGAGCCGCGGCCAGAGCGTCGCCGGGCTGTCCGAGCGCAACGAATGGGATTGGTACCTGGACAAACCCAAGCTCGACCCGAAGAAGCTCACCGACGAGTGCTGGCCAGCCAGCCTGGCCGGGCTGGACAAGAAGTGCCTGAAGCCGATCTTCACCACCGACTTCGTTCGCGAACGGGCGGAAATCGCCTGGGGGCGCGGCAAGGCCAAGGTGGTGATCGAAGCGGCGCTGGACTTGGGCAAGGTCATCGCCGGGAAGCAGGAAGAAGAAATCTGCGAGCTGGAACTGGAACTGCGCCAGGGCGAGCCGGAAGCGCTGCTGGAACTCGCCGCGGAGCTGGCCGCCGACCTGCCGCTGATGCCCTGCGACATCAGCAAGGCCGAGCGCGGCTACCGGCTGTTCGATGAAAACAGCTACGCCCTCAGCCTGCCCGCGCCCGAACTGGACGCCCTGATGCCGCTGGACGACGCTTTCGCCGCACTGGCCTGGCATCTGCTCGGCAGCAGCCAGCGCCTCGCCGAACAATACCGCTTCAATGGCCATTGGCGTCTGCTCGGCCTATGGCTGGGCCAGTTGGCCGAGCTGCGCGCCCTGCTCGGCAGCCTCGGCCAGGCCGTGCCCCGGGCCAGCAGCCGCGAGCTGCGCGAAAGCCTGGATGCGCTGCTCATGGATTGGCGCCCGCGCCTGCAGGATGGGCAGCACAGCGAAGAAAGCCGACAGGCCGCCGTCGGGCAGTTCGCCGAGGAGCTGGCCGGCACCCGCTGGGGCCTGTTCTCGCTGAACGCCTCGCGCTGGCTGCTCGGCCGTGCCTGGGTGTCCGCCCGCAACGAGCGCGGCCAGCGCCAGGGCGCCGCCCCCCTGGGCCGCTGGCTGCCGCGCATGCTCGCCGAAGAGGCCCAAGCTCTGCCGCTGACCCGCTACCAGCGGCAGCCGGAGGACCTCGCCGAGCAACTGCCGCGCATCGAGCGCATGCTGGTCTGGCTGCGCCTGGCCCGCGGCGCGCTGGAGCTGCCGGAAGTCGACCGTCTGTACGGGGAACTGAACAAACTGGCGGCCCTCGCCGTCCAGCCCCTGGATGACGAGCAGTGCGAGCTGCGTACGGCCCAGGCACAGACGCTGATCTCCCTGCCTGCCTGGAAGGCCTTGCAGAAATAA	MVKETEIKLRASRDTLAALREHPLLKKRNKSGWERRELFNQYYDSAERDLARAKVALRLRRDGEQYIQTLKSRGQSVAGLSERNEWDWYLDKPKLDPKKLTDECWPASLAGLDKKCLKPIFTTDFVRERAEIAWGRGKAKVVIEAALDLGKVIAGKQEEEICELELELRQGEPEALLELAAELAADLPLMPCDISKAERGYRLFDENSYALSLPAPELDALMPLDDAFAALAWHLLGSSQRLAEQYRFNGHWRLLGLWLGQLAELRALLGSLGQAVPRASSRELRESLDALLMDWRPRLQDGQHSEESRQAAVGQFAEELAGTRWGLFSLNASRWLLGRAWVSARNERGQRQGAAPLGRWLPRMLAEEAQALPLTRYQRQPEDLAEQLPRIERMLVWLRLARGALELPEVDRLYGELNKLAALAVQPLDDEQCELRTAQAQTLISLPAWKALQK				NA	NA	NA	NA	NA
BMS010_09003	642			hypothetical protein	ATGCTCAGACAAAGCCTACGATCCGTTTTCGCCACTTGGCTCACCGGCCTCCTGGCGTTGCTGCCCCTGGCCCTGACCCTGGCGCTGCTGGCCTGGGTGGTTAGCCTGCTGAACCGCCTGGTGGGCCCCTCCACCCTGGTCGGTCAACTGTTCGCCACCCTCGGCCAGCCGTTCGCCAGCAACCCGTACCTGGCCTATCTGCTGGGCAGCCTGGTGTTGCTGGGGAGCCTCTACCCCCTCGGGCTCGCCGTGCAGTTGGGATTGCGTCGGCCGCTGGCCTGGCTGATCGACGTCACCCTGCGGCGTACCCCGCTGATCGGCAACCTCTACAACCTGGCGGATCGCTTCGTCGGCCTGCTGGACCGCGAGAAGAACCCGGACATCGGTGCCATGAGCCCGGTCTGGTGCTTTTTCGGCGGGGATGGCGCGGCCGTGCTGGCACTGCTGCCTAGCCCGGAGCCCGTCGAACTGGAAGGCCGGCCGCACTACGCAATCCTGGTCCCGACCGCACCGATACCGGTCGGCGGCGGGCTGATCTACGTCCCGGTGGACTGGGTGCGCCCGGCCCACATGGGCGTCGACGACCTGAGCGCCATCTACGTCTCCATGGGCCTCACCCCGCCTCCACCGCGCAAGGACTGA	MLRQSLRSVFATWLTGLLALLPLALTLALLAWVVSLLNRLVGPSTLVGQLFATLGQPFASNPYLAYLLGSLVLLGSLYPLGLAVQLGLRRPLAWLIDVTLRRTPLIGNLYNLADRFVGLLDREKNPDIGAMSPVWCFFGGDGAAVLALLPSPEPVELEGRPHYAILVPTAPIPVGGGLIYVPVDWVRPAHMGVDDLSAIYVSMGLTPPPPRKD				NA	NA	NA	NA	NA
BMS010_09004	465	decR_7	COG1522	DNA-binding transcriptional activator DecR	ATGTCCGTCATGCTGGACAATTTCGACCGCCGCATCCTCGCCCTGCTGCAGGAGGACGCCAGCCTGTCCACCGCGGAGATCGCCGAGCGGGTGGGCTTGTCCCAGTCGCCGTGCTGGCGGCGTATCCAGCGGCTGAAGGAGGAGGGGGTGATCCGTGGCCAGGTCACCCTGCTGGACCGCCGCAAGGTCGGCCTGAACGCACAAATCTTCGCCCAGGTGAAGCTCAACGCCCACGGTCGCTCCAACCTCACCGAGTTCGCCGAAGCCATGCGCGGCTTTCCCGAGGTGCTGGAATGCCACGTGCTGATGGGGACGGTGGATTTCATGCTGCGCATCGTGACCCGCGACATCGAGGCCTACGAGCGCTTCTTCTTCGAGAAGCTCTCGCAGGTGCCGGGTATCCAGGAGGTGAACTCCATCGTCGCGCTGTCGGAGATCAAGTCGACTACCGCGCTGCCGGTGTGA	MSVMLDNFDRRILALLQEDASLSTAEIAERVGLSQSPCWRRIQRLKEEGVIRGQVTLLDRRKVGLNAQIFAQVKLNAHGRSNLTEFAEAMRGFPEVLECHVLMGTVDFMLRIVTRDIEAYERFFFEKLSQVPGIQEVNSIVALSEIKSTTALPV				NA	NA	NA	NA	NA
BMS010_09005	366			hypothetical protein	ATGCCCGCCCACGCCAGCGCCAGCCCCCTCCACCTCGTACCGTCCGTGCCGCTGGATTACCGGGCGGACGCCTGGAACGGCGCCGTCACCCGCCTGATCGACGCGCACTTCCATATCCAGGCGGATGCCGAGCCGGACGTGCTCTGCCGCCTGCTCGGTTTCTTCGCGCAACAGCAATTGACGCCGTCGGACGTCAGCGCGCACCGCGAAGACGACGACCGGTTCGCCCTGACCATCCGCCACCCGTCGCTCTGCGCCCGACGCGCGGAAGTGATCGCACAAAAGATGCGCAGCCTGGTCAGCGTTTTCGCGGTCGAACTCCGAGAGGCAACCGCATTGGCGCCCAGGATCGAAGCCCAGGCGTAA	MPAHASASPLHLVPSVPLDYRADAWNGAVTRLIDAHFHIQADAEPDVLCRLLGFFAQQQLTPSDVSAHREDDDRFALTIRHPSLCARRAEVIAQKMRSLVSVFAVELREATALAPRIEAQA				NA	NA	NA	NA	NA
BMS010_09006	1785	epsE_1	COG2804	Type II secretion system protein E	ATGACAGCGTTCGCTTCATCCGCCCAGGACCGTTGGCTGGATCTCAACGACGTGCTCCGCGAGCTGGTCAACCAGGGCCGGGTGGACCAGAACACCGCCGAGCAGTGCCTGGCGATCCGTCGCAGCGCGGTGAACAACCAGCAGCACCCGCTGGAATTCCTCGCCGCCCAGCAGATCGACGACCTCACCCGGCCGGGCAGGAAACTCGACCTCGACACCTTGACCCGCTGGCTCGCCGATTTTTCCGGCCAGCCCTACCTGCGCATCGACCCGCTGAAAGTGGACGTCGCCGCGGTAACGCCGCTGATGTCCCACGCCTTCGCCCAGCGGCACAAGATTCTCGCCGTGGAAGTGACGCCGGACCTGGTGACCATCGCCAGCGCGCAACCCTTGGTGCACAGCTGGGAAAGCAACCTGACCCACGTGCTGAAACGGCCGATCAAGCGGGTGGTGGCCAACCCGGCGGACATCCAGCGCTTCACCCAGGAGTTCTATCGCCTGGCCCGCTCCGTCAGCGGCGCCAGCGCCGCCGACCAGAAGGTCAGCGGCGTCGGCAACTTCGAGCAATTGGTCAACCTCGGCTCCGGCGACCAGGAGCCGGACGCCAACGACGCGCACATCGTCAACATCGTCGACTGGCTGTTCCAGTACGCCTTCCAGCAGCGCGCCAGCGATATCCACATCGAGCCACGCCGCGAACAGGGCACCGTGCGCTTCCGCATCGACGGTGTGCTGCACAACGTCTATCAGTTCCCGCCGCAGGTCACCATGGCGGTGGTCAGCCGCCTGAAGAGCCTCGGCCGGATGAACGTGGCCGAGAAGCGCAAACCGCAGGACGGCCGGGTGAAGACCAAGACCCCTGACGGCGGCGAAGTGGAGCTGCGCCTGGCCACCCTGCCCACCGCCTTCGGCGAGAAGATGGTGATGCGGATCTTCGACCCCGAAGTGCTGTTGAAAAGCTTCGACGCCCTCGGCTTCTCCCTGGACGACCTGCGCCGCTGGCAAGGCATGACCAACCAGCCCAACGGCATCATCCTGGTCACCGGCCCCACCGGCTCGGGCAAGACCACCACGCTGTACACCACGCTCAAGCAGCTCGCCACTTCCGAAGTGAACGTCTGCACCATCGAAGACCCGATCGAGATGATCGAGCCGGCGTTCAACCAGATGCAGGTCCAGCACAACATCGACCTGACCTTCGCCAGCGGCGTGCGCGCCCTGATGCGCCAGGATCCGGACATCATCATGGTCGGCGAGATCCGCGACCTGGAAACCGCCGAGATGGCGATCCAGGCGGCGCTGACCGGCCACCTGGTGCTCTCCACCCTGCACACCAACGACGCGCCCAGCGCGGTGACGCGCCTGCTCGAACTCGGCGTGCCGCACTACCTGATCAAGGCCACCGTGCTGGGTGTCATGGCCCAGCGCCTGGTGCGCACCCTCTGTCCGCATTGCAAGGCACCGACGGAGCTGAGCGAAGAGGACTGGCAGAGCCTGACCAAGCCCTGGAGCGCCCCGCTGCCGACCGGCGCCCACCGCGCGGTGGGCTGCCTGGAATGCCGAGACACTGGCTACCGTGGGCGCGCCGGGGTCTACGAGATCATGCTGCTCAACGATGCGATCAAGCCGCTGATCACCGCCGACACCGACCTGGTCGCCTTGCGCCGCCAGGCATTCAAGGACGGCATGCGCAGCCTGCGCCTGTCCGGCGCGCAGAAGATCGCCGCCGGCCTGACCACCCTCGAAGAAGTGCTGCGCGTGACACCGCAGAGCGAGCAGAAGTAG	MTAFASSAQDRWLDLNDVLRELVNQGRVDQNTAEQCLAIRRSAVNNQQHPLEFLAAQQIDDLTRPGRKLDLDTLTRWLADFSGQPYLRIDPLKVDVAAVTPLMSHAFAQRHKILAVEVTPDLVTIASAQPLVHSWESNLTHVLKRPIKRVVANPADIQRFTQEFYRLARSVSGASAADQKVSGVGNFEQLVNLGSGDQEPDANDAHIVNIVDWLFQYAFQQRASDIHIEPRREQGTVRFRIDGVLHNVYQFPPQVTMAVVSRLKSLGRMNVAEKRKPQDGRVKTKTPDGGEVELRLATLPTAFGEKMVMRIFDPEVLLKSFDALGFSLDDLRRWQGMTNQPNGIILVTGPTGSGKTTTLYTTLKQLATSEVNVCTIEDPIEMIEPAFNQMQVQHNIDLTFASGVRALMRQDPDIIMVGEIRDLETAEMAIQAALTGHLVLSTLHTNDAPSAVTRLLELGVPHYLIKATVLGVMAQRLVRTLCPHCKAPTELSEEDWQSLTKPWSAPLPTGAHRAVGCLECRDTGYRGRAGVYEIMLLNDAIKPLITADTDLVALRRQAFKDGMRSLRLSGAQKIAAGLTTLEEVLRVTPQSEQK	PGPT0026430_367	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026430-gspE|epsE-K02454	NA	NA
BMS010_09007	921	qmcA_2	COG0330	Protein QmcA	ATGGAAATCGGAACAGTCATTCTTCTCTTCGTCGGCCTCGCCATCGCCGTGGTCTTCATGGGCTTCAAGGTGGTACCGCAGGGCTACCAATGGACGGTCGAACGCTTCGGCCGCTACACCAACACCCTCAAGCCGGGCCTGAACATCATCGTTCCGGTGATGGACCGCATCGGCCGCAAGCTCAACGTGATGGAAAGCGTGCTGGACATCCCGCCGCAGGAAGTCATCAGCGCCGACAACGCCATCGTGCAGATCGACGCGGTGTGCTTCTTCCAGGTGATCAACGCGGCCCAGGCGGCCTACGAGGTGAACAACCTGGAGCTGGCCATCCGCAACCTGGTGATGACCAACATCCGCACCGTGCTCGGCTCCATGGAGCTGGACGCCATGCTCAGCCAGCGCGACGCCATCAACGAACGCCTGCTCAAGACCGTGGACGAGGCCACCGCCCCCTGGGGCATCAAGATCACGCGCATCGAGATCAAGGACATCACACCGCCGTCCGATCTGGTCGAGGCCATGGCCAGCCAGATGAAAGCCGAACGCCTCAAGCGTGCGCAGATTCTCGAGGCCGAGGGCAAGCGCCAGGCCGAAATCCTCACCGCCGAAGGCGAGAAGCAGGCACAGATCCTCAAGGCCGAAGGCGAACGCCAGGCCGCCTTCCTCGAAGCCGAGGCCCGCGAACGGGCGGCCGCCGCCGAAGCGGAGGCGACCCGCATGGTGTCCGAGGCGATCGCCGCCGGTAACGTGCAGGCGGTGAACTACTTCGTCGCCCAGAAGTACATCGACGCCCTCGGCCAGCTCGCCGCGTCGGACAACAGCAAGATCGTCCTGATGCCGTTGGAAGCCAGCCAGGTGATCGGCGCGGTCGGCGGCATCGGCGAGATCGTCAAGGCGACGTTCGACGGCAAGAAGAGCTGA	MEIGTVILLFVGLAIAVVFMGFKVVPQGYQWTVERFGRYTNTLKPGLNIIVPVMDRIGRKLNVMESVLDIPPQEVISADNAIVQIDAVCFFQVINAAQAAYEVNNLELAIRNLVMTNIRTVLGSMELDAMLSQRDAINERLLKTVDEATAPWGIKITRIEIKDITPPSDLVEAMASQMKAERLKRAQILEAEGKRQAEILTAEGEKQAQILKAEGERQAAFLEAEARERAAAAEAEATRMVSEAIAAGNVQAVNYFVAQKYIDALGQLAASDNSKIVLMPLEASQVIGAVGGIGEIVKATFDGKKS				NA	NA	NA	NA	NA
BMS010_09008	450	ybbJ_2	COG1585	Inner membrane protein YbbJ	ATGTGGGATTATCTGCAACACCTGTCCTTCTGGGACTGGCTCGCCTTCGGCACCCTGCTGCTGATCCTCGAAGTCTTCGGCGCGGGCGGCTACCTGCTGTGGATCGGCGTCGCCGCCGCCAGCGTCGGCGTACTCACCTTCGTCTTTCCCGACCTGCACTGGACCCTGCAGTTCATCCTGTTCGCCATCCTCTCGGTACTCACCGCCGTGCTCTGGTGGCGGCGCCAGCGCAGTGCGGCAAAGCCATCCGACCAACCCGGTCTGAATCAGCGCGGCCAAGAGCTGTATGGCCGCACCTTCAGCCTGCACGAAGCCATCGTCGGCGGCCGCGGCAAGATCAAGGCCGGCGATACCGTCTGGCTGGTGATCGGCCCTGACCTGCCGGCCGGTACGGCCGTTCGGGTGATCGGCCAGGAAGGCGTGCTGCTCAAGGTCGAAGCCGCAGCCTGA	MWDYLQHLSFWDWLAFGTLLLILEVFGAGGYLLWIGVAAASVGVLTFVFPDLHWTLQFILFAILSVLTAVLWWRRQRSAAKPSDQPGLNQRGQELYGRTFSLHEAIVGGRGKIKAGDTVWLVIGPDLPAGTAVRVIGQEGVLLKVEAAA	PGPT0024505_902	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024505-ybbJ-K07340	NA	NA
BMS010_09009	300			hypothetical protein	ATGCGCCGTTCCCTTGCCTGCCTCGCGTTAGCCTTGTCCCTGCCCGCCGCCAGCGCCTTCGCCGACGGCGATTTCTGGCGCGACGTACTCTCGTCGGGCGCCACCACCGCCTCGACCTACCTGACCTTCAAGGACGACAAGTTGATCGTGGCCGCCAAGGATGACGCCAGCAGCTTCGTCGCCAGCGGCGGCGAGATTCGCGGGCCGTACCTGGAAGCCGCGCTGCAGCGCATCCGCGACCAGCACCCCGGTGTGAAAGCCGACGACATGGAGCTGGCTACGGCGATCCTTGCGGAATAA	MRRSLACLALALSLPAASAFADGDFWRDVLSSGATTASTYLTFKDDKLIVAAKDDASSFVASGGEIRGPYLEAALQRIRDQHPGVKADDMELATAILAE				NA	NA	NA	NA	NA
BMS010_09010	618			hypothetical protein	ATGTCATCCGTGCTAGCCCTCAATAGCCTGCTCGATGCACGCCGCGTATGGCGCGGTCAGGTCAGCTTTTCCCCATCCGCAGCCCAATCGACCGGGCATGCTGGGCTGGATGCGACCTTGCCCGGCGGTGGATGGCCAGACTCGGCACTGAGCGAGATTCTTGTCGCGGCCGCCGGTATCGGTGAGCTTCGCCTGCTGTGGCCTACCCTGGCACGACTGACCGCCGCCGGCGAACGCGTGGTGCTGGTCGGACCGCCACATCTGCCCTACCCTCAGGCTTGGTTGGCCGCTGGGGTTGACCTACGGCAGTTGGTGATCGTCCATGCGCAGGAGCGCGACGCGCTGTGGGCTGCCGAGCAATGCCTGCGCTCGGGTAGTTGTGGCGCGGTGCTGTGCTGGCCGCAGCAAGCCGATGACCGAGCCCTGCGCCGTCTACAGGTTGCCGCCGAGAGCGGACAAACCCTGGCCTTCGCCTATCGCCCTCTGGAGGAGGCGATAAATCCCTCGCCTGCAGCCCTACGCCTGGCACTCGAGACCCGGCCGGCACAAATACGCGTGCTCAAATGCCGCGGCGGCTTGGCCCCGGCACGGACAATCCCGGCCGCCGGCTGGCAGTGA	MSSVLALNSLLDARRVWRGQVSFSPSAAQSTGHAGLDATLPGGGWPDSALSEILVAAAGIGELRLLWPTLARLTAAGERVVLVGPPHLPYPQAWLAAGVDLRQLVIVHAQERDALWAAEQCLRSGSCGAVLCWPQQADDRALRRLQVAAESGQTLAFAYRPLEEAINPSPAALRLALETRPAQIRVLKCRGGLAPARTIPAAGWQ				NA	NA	NA	NA	NA
BMS010_09011	1410	imuB_3		Protein ImuB	ATGCTCTGGGCCTGCATCCTTTTGCCGCAACTGGCCATGGACGGAGTGCTACGTCACCGCTCCGATGCCGATGCACCACTGGCGCTGCTCGGCGGGTCGCCCCAGCGCCGTGTGCTGCAAGCGGTCAATCCGGCCGCGCGGGCACTGGGCCTGAGACCAGGCCAGTCGCTGACGGCCGCCCAGGCGCTGACCCGCACTTTCGCCACCGCCGACTATGACGTGGCGGCAATCGAACGCTGGCAACGATTCCTCGCCGCCTGGGCCTACGCTTTCAGCGCCCAGGTCAGCCTGCACTATCCACGCTGCCTGCTGCTGGAAGTGCAATCCAGTCTTCGCCTGTTCGGGCCCTGGCCACACTTCGAGGCACGCCTGCGGGCGGAGTTGACCGGGCTGGGCTTTCGCCATCGCATCACTGCCGCTCCCACTCCGGCGGCTGCCCGGGTGCTGGCCAACGCCTATGACGGCCTGACTATACCCGACAGCGCCCTGCTGCATGAGACGCTCGGCCGGTTGCCGGTAGAGCGCCTCGGTTTGCCCCGCGAAGTGGCGGCAGCCCTCACGCGCATGGGACTGCACAGCCTGTCACAGCTCCTTGCCCTACCCCGTGACAGTCTCGCCAGACGCTTTTCTGCCGACGTGCTGGCCCACCTCGACACTCTGCTCGGCAACCGCCCCCTGGCGTTGGATTTCTACCGGCCACCGGATGTGTTCGATGCACGGATAGAACTGAACTTCGAGGTCGAGTCGCACCAGGCATTGCTGTTCCCGCTGCGGCGCCTGACCGCCGACCTCGCGGCCTACCTGGCCGGACGCGACTGCGGTGTGCAGCGTTTTACCCTCTACCTGGAACATCGGAACCAGACTGCCAGCCGCATGCCAGTTGGTTTGCTCAGCGCCGAGCGCGAGGCAGCCATGCTCTTCGAACTGACCCGTGGGCGCCTGGAGCATCTGCAACTGCCGGCACCGGTGCTAGCGATACGGCTGGAAGCCCTGGAACTACCCGCCTTCACTCCGGAACACCGACAGTTGTTCGACGAACGCCCACAGCAATCCCTGTCCTGGGAACAGTTACGCGAACGTCTGCGTACCCGCCTGGGTGACAATGCCGTCCAGAGCCTTGGCGCTCGCGCCGATCACAGGCCTGAACACGCCTGGGTTGAACAACCGACAGAACTGTCGCTGCCTCCCTGCGGCCCGCGTCCCGGCTGGCTGCTGGCAGAGCCGCTCTCCCTGCGCGAGTCCTCTTTACGTATCCTCGCCGGGCCGGAACGGATCGAGTCCGGCTGGTGGGACGGAGGCGACGTCCGGCGAGACTATTACGTCGTGGAGACTCGTGCGGGGCAACGCGGCTGGGCTTTCCGTAAGGTTGGAGACGGAGGACCGTTGCTGCTGCACGGCTGGTTCGCATGA	MLWACILLPQLAMDGVLRHRSDADAPLALLGGSPQRRVLQAVNPAARALGLRPGQSLTAAQALTRTFATADYDVAAIERWQRFLAAWAYAFSAQVSLHYPRCLLLEVQSSLRLFGPWPHFEARLRAELTGLGFRHRITAAPTPAAARVLANAYDGLTIPDSALLHETLGRLPVERLGLPREVAAALTRMGLHSLSQLLALPRDSLARRFSADVLAHLDTLLGNRPLALDFYRPPDVFDARIELNFEVESHQALLFPLRRLTADLAAYLAGRDCGVQRFTLYLEHRNQTASRMPVGLLSAEREAAMLFELTRGRLEHLQLPAPVLAIRLEALELPAFTPEHRQLFDERPQQSLSWEQLRERLRTRLGDNAVQSLGARADHRPEHAWVEQPTELSLPPCGPRPGWLLAEPLSLRESSLRILAGPERIESGWWDGGDVRRDYYVVETRAGQRGWAFRKVGDGGPLLLHGWFA				NA	NA	NA	NA	NA
BMS010_09012	3075	dnaE2_3		Error-prone DNA polymerase	ATGAGCGATTACGCCGAGCTGCATTGCCTGTCCAACTTCAGCTTCCAGCGTGGCGCCTCCAGTGCCCGTGAGCTGTTCGAGCGCGCTGCTCGCCTCGGTTACCACGCCCTGGCGATTACCGATGAATGCACCCTGGCCGGCATCGTTCGCGCCTGGCAGGCCTCGAAAGGCACCGGCCTCCCCCTGATCGTCGGCAGCGAGGTGCGCATCGTGGACGGCCCCAAGCTGGTCCTACTGGTGGAAAACCTCGCCGGCTACCAAGCCCTCTGCCGGCTGATCACCCAGGCCCGACGGCGCGCCGAGAAAGGTTGCTATCGCCTGTTGCGTGAAGACTTCGACGAGCCGCTGGACGGCCTGCTGGCGATCTGGTTGCCGGAGGGCGACATCCGACACGTTCCCTGGCTGCGCGGACGCTTCCCGGAGCGATTATGGCTCGGTATCGGACTGCACCGAGGCGCGGACGACACGGCAAGGCTGCGCCAATTGCTCGAACTGGCGGAGGACCATTGCCTGCCGGCGGTGGCCTGTGGTGACGTGCATATGCATGCCCGCGGCCGCCGCGCCTTGCAGGACTGCATGACCGCCATCCGTCATCACCTACCGATCACCGAGGCCGGTGCCTATCTGTTTCCCAATGGCGAACGCCATCTGCGCCGCCGCGAGGAATTGATCGAACTGCATCCCTCGGAGCTGCTCGCCGAAACCCTTCGCATTGCCAGGCGATGCAGCTTCGACCTCAGCCAGTTGGACTATCAGTATCCCCACGAGGTGGTACCCGCTGGCCACAATGCCACTTCGTGGCTACGCGAGCTGGTCGAACGGGGCGCCCAGTGGCGCTGGCCCAAAGGCGTGCCAGAGAAAGCCTGGGCGCAGATCGATCACGAGCTGGCACTGATCGCCGAGCTACGCTACGAGAGCTATTTCCTTACCGTCTACGACATCGTCCACTGGGCGCGCGGACAGGCCATTCTCTGCCAGGGCCGAGGCTCTGCGGCCAATTCCACGGTGTGTTTCACCTTGGGCATTACCGAACTTGACCCCATGCGTTCGGACAGCCGCCTGCTGTTCGAACGGTTCCTGTCACGCGAGCGCAACGAGCCGCCGGACATCGACGTCGACTTCGAGCATGAGCGCCGCGAGGAAGTCATCCAGTATGTGTTCCACCGCTACGGCCGCGGGAGAGCCGCGCTCACCGCCGTGGTCAGCACCTACCATGCGGCCGGTGCGGTGCGCGATGTGGCCAAGGCTCTCGGTCTTTCACCAGACCAAGTGAATTCCCTGGCCGACTGTTGCGGACGCTGGAGCAACCAAGTGCCATCCGCCGAACGCCTGGCCGAGGCCGGCTTCGATGCGGATACCCCCCTGCTGCGCCGGGTGCTGGCCCTGACCGGCGAGCTGATCGGCTTTCCCCGCCACCTGTCACAACACCCTGGTGGCTTCGTGATCTCCGAACATCCGCTGGAAACCCTGGTACCGGTGGAGAACGCAACCATGGCCGGGCGTACGGTGATCCAGTGGGACAAGGATGACCTCGACCTGGTCGGCCTGCTCAAGGTCGACGTGCTGGCCCTCGGCATGCTCAGCGCCTTGCGTCGCTGTTTCGCGCTGATCGAGTGCTATCGAGGAGGCCAGTGGACGCTGGCCACGCTACCGCCGGGTGACACGGCGACCTACGAGATGATCAGCCGCGCCGATACCATCGGCGTATTCCAGATCGAATCACGGGCACAGATGGCCATGTTGCCGCGCCTGCGGCCGAGGACTTTCTACGATCTGGTGATCCAGGTGGCCATCGTCCGCCCGGGGCCGATCCAGGGCGATATGGTCCATCCCTACCTGCGCCGGAGAAATAAGGAAGAGCCGGTCGAATATCCCTCCGAGGAATTGAAGCCAGTGTTCGAGCGCACCCTCGGCGTTCCGCTGTTCCAGGAACAGGTGATGGAGTTGGCTATCGTCGCCGCCGACTACACCCCGGGCGAAGCCGATGAGCTACGCCGCAGCATGGCCGCCTGGAAGCGCCACGGAGGCCTGGAGCCACACCGCCAGCGACTGACGTCGCGCATGCTCGCCAAGGGCTACACGGAGGAATTCACCAGCCGCATCTTCAGGCAGATCGAAGGCTTCGGCAGCTATGGTTTTCCCGAATCCCATGCCGCCAGCTTCGCCCTGCTCACCTATGCCAGTTGCTGGCTGAAATGCCACGAGCCGGCAGCCTATGCCTGCGCGCTGGTCAACAGTTGGCCGATGGGTTTCTACAGCCCCGACCAGGTCCTGCAGGACGCCCGCCGCCACGGCATTGAAGTGCGCCCGGTGGACGTCCGCTACAGCGACTGGGATTGTGGCCTGGAACCGACCGGCACCGTACAACCGGCAATCCGCCTTGGGCTCCGGATGATTCGTGGCTTGCACGAGGTGGATGGGCGGCGCATCGAGGAAGCGCGCCAGAAAAGTCCATTCGCCGACATCGAGGATCTTTGCCGACGCGCTAGCCTGGATGCCCGCGCCCGCGAACGACTGGCGGACGCCGGGGCCTTGCACGGTCTCACCGGGCATCGGTACCAGGCGCGCTGGGCGGTGGCCGGCATCGAACCACAGTTGCCCCTGTTCGCGGGACTGGCCGCTCCCCAGGAGGCGCCGGTGGATCTCCCCCTACCCTCGGTCGGCGAGGACCTGCTCGCCGACTACGCCACGCTCGGTACTACCTTGGGCCCTCATCCACTGGAACTGCTACGGGGCCAGCTCAAGGCCCAGCGTTGCCGCAATTCGCGCGAACTGGTTGGGATCGCGCACGGTCGCCCGGTCAGCATTGCCGGCCTGGTCATTGGTCGTCAGCGCCCACAGACCGCCAGTGGGGTGATCTTCGTCACCCTCGAAGACGAGTTCGGCCTGGTCAACGTGGTGGTCTGGCACGATCTCGCGGAGCGCCAGCGCCGCGTACTCGTTCAATCACAGATGCTGCGCATCGACGGTCATCTGGAGGCGGCAGATGGCGTACGCCACGTGATCGCCGGGCGACTGACCGATCTCACGCCCCTCTTGACCGGCCTGGACGTGCGCAGCAGGGACTTCCAATGA	MSDYAELHCLSNFSFQRGASSARELFERAARLGYHALAITDECTLAGIVRAWQASKGTGLPLIVGSEVRIVDGPKLVLLVENLAGYQALCRLITQARRRAEKGCYRLLREDFDEPLDGLLAIWLPEGDIRHVPWLRGRFPERLWLGIGLHRGADDTARLRQLLELAEDHCLPAVACGDVHMHARGRRALQDCMTAIRHHLPITEAGAYLFPNGERHLRRREELIELHPSELLAETLRIARRCSFDLSQLDYQYPHEVVPAGHNATSWLRELVERGAQWRWPKGVPEKAWAQIDHELALIAELRYESYFLTVYDIVHWARGQAILCQGRGSAANSTVCFTLGITELDPMRSDSRLLFERFLSRERNEPPDIDVDFEHERREEVIQYVFHRYGRGRAALTAVVSTYHAAGAVRDVAKALGLSPDQVNSLADCCGRWSNQVPSAERLAEAGFDADTPLLRRVLALTGELIGFPRHLSQHPGGFVISEHPLETLVPVENATMAGRTVIQWDKDDLDLVGLLKVDVLALGMLSALRRCFALIECYRGGQWTLATLPPGDTATYEMISRADTIGVFQIESRAQMAMLPRLRPRTFYDLVIQVAIVRPGPIQGDMVHPYLRRRNKEEPVEYPSEELKPVFERTLGVPLFQEQVMELAIVAADYTPGEADELRRSMAAWKRHGGLEPHRQRLTSRMLAKGYTEEFTSRIFRQIEGFGSYGFPESHAASFALLTYASCWLKCHEPAAYACALVNSWPMGFYSPDQVLQDARRHGIEVRPVDVRYSDWDCGLEPTGTVQPAIRLGLRMIRGLHEVDGRRIEEARQKSPFADIEDLCRRASLDARARERLADAGALHGLTGHRYQARWAVAGIEPQLPLFAGLAAPQEAPVDLPLPSVGEDLLADYATLGTTLGPHPLELLRGQLKAQRCRNSRELVGIAHGRPVSIAGLVIGRQRPQTASGVIFVTLEDEFGLVNVVVWHDLAERQRRVLVQSQMLRIDGHLEAADGVRHVIAGRLTDLTPLLTGLDVRSRDFQ				NA	NA	NA	NA	NA
BMS010_09013	1026			hypothetical protein	ATGAAAACTATTCGAAACACATTGGTTGTGGTGGATGTAAAGCAGCCGGGATCAATGATACTGAATAAGGCAAAGTTGATTGCCAGCTTTACTCAATCGCATCTGCACTTGCTGGTGTGCAACAAGAAGAACGATGAATCTGTTCATCTACAGGCGATGGTGAACAGCCTGCGTCAAGAGGGATTTAGTGTCAGCGCTGAGCAAGCATGGGAGCACTGCGAGTATCGGACCATCATTGCCGTGCAGCAGATGCAAGGCTGTGGATTGGTAATCAAGCAGCACCGTCCCGATAATCCACTGCTCAAGACCTTCCTGCCATCCGAGGACTGGAAGCTGCTGCGCTTCTGTCCCTGCCCGGTGCTGATCGTCAAATCTTCGACGCCTTGGAGCGGGGGCGCCATCCTCGCGGCGATCGATGCCGGTAACTGCGACGTCAGCCACCGAGTACTGCATACCGGTATCGTTGGTCACGGCCACGATATCGCGCGCATGGTCGGAGGTACTCTGCATCTGATATCCGCGCATCCCTGCGCGCAGCAGTTGGCGGCGGATCCGGTCTATCAGATCAAGGAAAGCATCCACTCCCTGTATCTGGAGCACTGCAAGGCGCTGCAGGCCGAGTTCAAGATCGAGGATGCCCAGTTGCATATCGAGGAAGGGCCCGCGGATTCGCTGATCCCGGAGATCGCCCGGCAACTCGAGGTCGCCCTCTGTGTGATCGGCAGTGTGGCGCGCCGCGGGTTGAGCGCCGCGCTGATCGGCAACACTGCGGAGACCGTGCTCGATAGCCTGGACTGTGATGTGCTGGTGCTCAAGCCCGACGACATCATTACCCACCTGGAGGAGCTGGCGGCTCCGCCGACGAATGCCGTGCTCGACCAGGCGATACACTCATGGCCTTACAGTCACAGCCCGGAGCCGGATATCTGGAGCGCTCCCCAGGCAGCGATACCGGCGCAGCAAGGGTATGGCGAGGCGCTGTCGCCGGGTGTGGCGGCGCAGCCTGCCGGGCTCAAGATGCGCTGA	MKTIRNTLVVVDVKQPGSMILNKAKLIASFTQSHLHLLVCNKKNDESVHLQAMVNSLRQEGFSVSAEQAWEHCEYRTIIAVQQMQGCGLVIKQHRPDNPLLKTFLPSEDWKLLRFCPCPVLIVKSSTPWSGGAILAAIDAGNCDVSHRVLHTGIVGHGHDIARMVGGTLHLISAHPCAQQLAADPVYQIKESIHSLYLEHCKALQAEFKIEDAQLHIEEGPADSLIPEIARQLEVALCVIGSVARRGLSAALIGNTAETVLDSLDCDVLVLKPDDIITHLEELAAPPTNAVLDQAIHSWPYSHSPEPDIWSAPQAAIPAQQGYGEALSPGVAAQPAGLKMR	PGPT0014995_479	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014995-uspE-K14055	NA	NA
BMS010_09014	978			hypothetical protein	ATGAAAACCAGAATCGTCAACGCAATATTCGTTTCCGCATTCCTCGCCGCCGGCATCTCGCATGCCGACGTCCTGACGCTGAAGATCGAGAACGATGTGTTTCCAGGCGGCTCCGATGGCCATTACACGAACGGCATCGAGGCTTTCCGGGCTTTCGAGCCGGCGCCCGATCACTGGACACGCGGTCTGGCAGGAGCAGTGCCAGGATGGAGTGCGGGTGATCTGACATACGCGGCCTACCGGTTCGGCCACCAGATGTATACACCGGAGGAAATCGAGCGGGACGCGTTGCAATCCGAAGACCGGCCTTATGCAGGCATGCTCTTCGGTGGCATCACACTGTTCTCGGCGGAGCAATTGGCCAGCCGGCGGGAAACCCGCGCGCTCACCCTGGATATTGGCCTCGTAGGGCAAGGGGCAGGTGGAGAGCGACTCCAGCGTGCCGTGCACAAGGTTACGGGCAGCGACGCTCCCGAGGGCTGGGATCACCAGTTGGAAAACGAGCCGTTCGTGAACCTGGGCTACGAGAAACGCTGGTGGTTCCAGAGCCAGCTTGGCGGCCTGGAAATGGAATACGGCCCAAGCGCAGGCGGTGCCTTGGGCAACCTGTACACCTACCTTTCGACAGGAGCCGGCGTGCGCCTGGGCCAGGGTCTGTCGCGCAGCCCAAGCTACGCCTCCGTGACGCCATCCAGCAGCGGTGTGCAATTCTTCAAGGCAGAGGGTGGTTTCGGCTGGTTTGTCTACGCCAACGTCGAGGGCCGCTACATGGCCCACAACATGCTCCTGGACGGCAACACGTTCCGTGACAGCCATTCAGTGGACCGCGAGGAATGGGTAGGTGACGCCCAACTCGGGATAGCCCTGCTGTGGGATCGCTGGCAGCTATCGTTCGCCAACGTATGGCGCAGCCGGGAATTCCATGGGCAGGACGGACACGACCAGTTCGGCTCGCTGTCCCTCTCTACCTGGTTATAG	MKTRIVNAIFVSAFLAAGISHADVLTLKIENDVFPGGSDGHYTNGIEAFRAFEPAPDHWTRGLAGAVPGWSAGDLTYAAYRFGHQMYTPEEIERDALQSEDRPYAGMLFGGITLFSAEQLASRRETRALTLDIGLVGQGAGGERLQRAVHKVTGSDAPEGWDHQLENEPFVNLGYEKRWWFQSQLGGLEMEYGPSAGGALGNLYTYLSTGAGVRLGQGLSRSPSYASVTPSSSGVQFFKAEGGFGWFVYANVEGRYMAHNMLLDGNTFRDSHSVDREEWVGDAQLGIALLWDRWQLSFANVWRSREFHGQDGHDQFGSLSLSTWL	PGPT0022405_346	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022405-lpxR-K09953	NA	NA
BMS010_09015	573			hypothetical protein	ATGAGTCTGTCACTCCGAAAAGAGTCCCGTCATGACAGGCGGAAGCGGGAAATCCTGCAGGCCGCGAGCGAGGTATTCGTGGCGCTCGGCTACGAGCTCGCCAACATGCAGGTCATCGCAGAGTCCGCCGGCGTGACCAAAGCCACCCTCTATGCGCATTTCGGCAACAAGACCCAGTTGTTCCGGACCGTCATCGAGTACTGGATGGAAGAACTGCCGGAGCCGATGCTGGAAGAGCCATCGGACGGAGGCTTGCGCATGCAGCTCGACGAAGTGGCACGGGAGCTGCTCCGGCAAAGCCTGCATCCCGCGTCCCTGGCGCTGACACGCATCCTGATGCGATCCAACTGGGTGCCACAGAAGCGCTGGCGACAGCGCCATCGTCCATGCCGGATGTATCTGGAAAGGGCACTGGCCCAGTGCCCCCGCTGCAACGACCCCGGACAGGCCGCCGCCCAGTTCCTGCTGCTGGCGGTCGGCAGTCTCGATGCCAATGGCGCCACGGCGGCGGATGAGTCCCGTGTTGCGGCCGCCGTGGAGCTGTTCGTCCAGGCCTATGCGGACTTCGGGTGA	MSLSLRKESRHDRRKREILQAASEVFVALGYELANMQVIAESAGVTKATLYAHFGNKTQLFRTVIEYWMEELPEPMLEEPSDGGLRMQLDEVARELLRQSLHPASLALTRILMRSNWVPQKRWRQRHRPCRMYLERALAQCPRCNDPGQAAAQFLLLAVGSLDANGATAADESRVAAAVELFVQAYADFG				NA	NA	NA	NA	NA
BMS010_09016	297			hypothetical protein	ATGAGTACGCGAAATGCGGTTCGTATCGTAGTCACGGGAACAGGTGTCGTCGGGCCATTGGGGTGCGGCACCGCGACGGTCTGGTCCCGTCTGCTGGCGGGGGAGTCAGGCATTCGTACCTTGCCTGCCGATCTGGCCAAAGGTATCGGTTGCACCGTTGGTGGGCGGGTTCCGACGCGGGAGGAGGATGGGGAAGCCGGTTATGACCCGGAGCGAACCATCGCCGCCAAGGAGCGCAAGAAGATGGATCGCTTCATCGCCAGCCTGCTGTTCCGTCGTTGGGAGCCGCGCCAATGA	MSTRNAVRIVVTGTGVVGPLGCGTATVWSRLLAGESGIRTLPADLAKGIGCTVGGRVPTREEDGEAGYDPERTIAAKERKKMDRFIASLLFRRWEPRQ	PGPT0008360_1518	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008360-fabF-K09458	NA	NA
BMS010_09017	540			hypothetical protein	ATGACTGAACCGACCATCGACTGGGCTGCCCAGCAGCACACGGCGCTGCAGTATTCGATTGCAGGTGGCGGCAGGCCGGGTCTCGCCCGACCGGAGCAGCTCGCTGGCAAGAGCGGCCGCGAGATTCTGGAAGGGATGATGTCCGGCGAACTGCCGTACCCGCCCATGAACGAGACCATGAACATGACCCTTCTGGAGGTGGGCAACGGTCGCGCGGTATTCCAGGGCATCCCGCTGCCGCAGCACTACAACCCGCTGGGTACGGTACACGGCGGCTGGTTCGCCACGTTGCTGGATTCGGCCCTGGGGTGTGCCGTGCAAACCACTCTGCCGGCCGGGCGCTCCTACACCACGGCCGAACTCAGCATCAACATCGTCCGACCTGCCTCGCACAAGACCGGCCCCTTACGGGCCATCGGCACACTGATCCATGGCGGGCGGCAGATGGCTACGGCCGAAGCCCGTATCGAAGACGAGGCGGGCAAGCTCTATGCCCATGCAACCACAACCTGCTTCGTCTTCGACGTACCGACGGCATAA	MTEPTIDWAAQQHTALQYSIAGGGRPGLARPEQLAGKSGREILEGMMSGELPYPPMNETMNMTLLEVGNGRAVFQGIPLPQHYNPLGTVHGGWFATLLDSALGCAVQTTLPAGRSYTTAELSINIVRPASHKTGPLRAIGTLIHGGRQMATAEARIEDEAGKLYAHATTTCFVFDVPTA				NA	NA	NA	NA	NA
BMS010_09018	807	hcaB_11		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGTCGAATTCCACCGTTGTCGTCGTTACCGGAGTGTCATCGGGCATCGGCCGCGCCGCCGCAGAGCGGTTTGCCAAGCGCGGTTGCCGGGTCTTCGGCACCGTGCGCAACAGGGCAAAAGCCCAACCCATAGCCGGTGTCGAACTGGTCGAGATGGATATCCGCGACCAAGCGTCGGTGGGGCAGGGCGTCCAGGCGATCATCGCCCAGGCCAAACGCATCGACGTGCTGGTCAACAGTGCAGGCGTGACGCTGCTCGGCGCGGCGGAAGAAACTTCGATTGCCGAGGCGCAGGCGCTGTTCGATACCAACGTCCTGGGCATCCTGCGTACCACCCAGGCGGTGCTGCCGCAGATGCGCGAGCAGGGTTCCGGGCGCATCGTCAACGTCAGTTCGGTGCTGGGCTTCCTGCCGGCGCCGTACATGGGGCTCTATTCGGCGTCCAAGCATGCCGTGGAAGGGCTGTCCGAGACCCTTGATCACGAGGTGCGCAAGTTCGGCATTCGCGTGGCGCTCATCGAGCCGTCCTTCACCAAGACCAATCTGGACCTCAATGCGCCGCAGGCGGCCTCTAGGATCGCGGCCTACGACAGCGAGCGCAGCGTCGTTGCCCAGGCCATTCAAAACAATGTGCAGAAGGCGCCGCTACCCGATGGGGTCGCCTCGACCATCGTCGAGGCCGCCCTGGGGGCCTGGAAAATGCGCCATACGCCCAAGGGCGAGGCCTCCCTGCTCAGCAAGTTGCGCCGCTTTATGCCGGCCGGCCCGGTCGAGAAGGGCCTGAGGAAGACCTTTGGACTTGCCTGA	MSNSTVVVVTGVSSGIGRAAAERFAKRGCRVFGTVRNRAKAQPIAGVELVEMDIRDQASVGQGVQAIIAQAKRIDVLVNSAGVTLLGAAEETSIAEAQALFDTNVLGILRTTQAVLPQMREQGSGRIVNVSSVLGFLPAPYMGLYSASKHAVEGLSETLDHEVRKFGIRVALIEPSFTKTNLDLNAPQAASRIAAYDSERSVVAQAIQNNVQKAPLPDGVASTIVEAALGAWKMRHTPKGEASLLSKLRRFMPAGPVEKGLRKTFGLA				NA	NA	NA	NA	NA
BMS010_09019	3090	cnrA_2		Nickel and cobalt resistance protein CnrA	ATGAGTGAGGGTCGTTTCAACCTGTCGGCGCTCGCCGTTCGCGAGCGTTCCGTCACCCTGTTCCTGGTCTGCCTGATCTCCCTGGCGGGACTCGTCGCCTTCTTCAAGCTGGGGCGGGCGGAAGACCCGGCCTTCACGGTCAAGGTGATGACCATCGTCACCGCCTGGCCCGGGGCCACGGCCCAGGAGATGCAGGACCAGGTCGCCGAGAAGATCGAGAAACGCCTGCAGGAGCTGCGCTGGTACGACCGCAGCGAGACCTACACGAGACCCGGCCTGGCTTTCACCACCCTGTCGCTGCTCGATACCACGCCGCCCTCGCAGGTGCCGGAGGAGTTCTACCAGGCCCGCAAGAAGATCGGCGACGAGGCGAAGACGCTGCCGGCCGGCGTGATCGGCCCACTGGTCAACGACGAGTACTCGGACGTCACCTTCGCCCTGTTCGCGCTCAAGGCCAGGGGCGAGTCGCAGCGCCTGCTGGTGCGCGACGCGGAGACGCTGCGCCAGCGGCTGCTGCATGTGCCGGGGGTGAAGAAGGTCAACATCATCGGCGAGCAGGCCGAGCGCATCTTCGTCGAGTTCTCCCACGAGCGGCTGGCGACCCTGGGTATCGGCCCGCAGGAGGTGTTCGCCGCGCTCAACGCGCAGAATGCCCTGACCCCGGCCGGCTCCGTGGAGACCAAGGGGCCGCAGGTGTTCCTGCGCCTGGATGGTGCCTTCGATGAGTTGCAGAAGATCCGCGACACGCCGGTGGTGGCGCAGGGGCGCACGCTGAAGCTGTCGGACGTCGCCACGGTCAAGCGCGGTTATGAAGACCCGGCGACCTTCCTGATCCGCAACGGCGGCGAACCGGCCCTGTTGCTGGGCATCGTCATGCGCGACGGCTGGAACGGCCTCGACCTGGGCCAGGCGCTGGACGGCGAGGTGAGCGCGATCAACGCCGAGCTGCCGCTGGGCATGAGCCTGACCAAGGTCACCGACCAGGCCGTCAACATCAGCGCCGCGGTCGACGAGTTCATGATCAAGTTCTTCGTCGCGCTGCTGGTGGTCATGCTGGTGAGCTTCATCAGCATGGGCTGGCGGGTGGGTGTGGTGGTCGCGGTGGCCGTGCCGCTGACCCTGGCGATGGTTTTCGTGGTGATGGCGGCGACCGGCAAGAACTTCGACCGCATCACCCTGGGCTCGCTGATTCTCGCGCTCGGCCTGCTGGTGGACGACGCCATCATCGCCATCGAGATGATGGTGGTGAAGATGGAGGAGGGCTACAGCCGCATCGCGGCTTCCGCCTACGCCTGGAGCCATACCGCGGCGCCGATGCTGTCCGGCACGCTGGTCACCGCCGTCGGCTTCATGCCCAACGGTTTCGCCCGCTCCACGGCGGGGGAATACACCAGCAACATGTTCTGGATCGTCGGCATCGCGCTGATCGCCTCCTGGCTGGTGGCGGTGCTGTTCACCCCTTACTTCGGCGTCAAGCTGCTACCCAGCTTCAAGAAGGTCGAGGGCGGCCATGCGGCGCTCTACGACACGCCGCGCTACAACCGTTTCCGCCGGTTGCTGGAATCCGTCATCGCGCGCAAGTGGCTGGTCGCCGGTTCGGTGGTCGGGCTGTTCGTCGCGGCCGTGCTGGGCATGGGGCTGGTCAAGAAGCAGTTCTTCCCGATCTCCGACCGCCCTGAGGTGCTGGTCGAGGTGCAGATGCCCTACGGCACCTCCATCGCCCAGACCAGCGCCGCCACGGAAAAGATCGAGGCCTGGCTGGCCGAGCAGGAGGAAGCCCGGATCGTCACGGCCTATATCGGCCAGGGCGCGCCGCGCTTCTATATGGCCATGGGGCAGGAGCTGCCCGATCCGTCGTTCGCCAAGATAGTGATCCGCACCGACAACCAGGACGAGCGCGAGGCATTGAAGCATCGGCTGCGCCAGGTAATCGCCGACGGCTTGGCCAGCGAGGCGCGCGTGCGTGTCACCCAATTGGTGTTCGGTCCGTACTCGCCGTTCCCGGTCGCCTACCGGGTCACTGGCCCGAACCCGGACAAGCTGCGCGAAATCGCCGCCGAGGTACAGCAGGTGATGGATGCCAGCCCGATGATGCGCACGGTCAACAGCGACTGGGGCACGCGCGTGCCGACGCTGCACTTCAGCCTGCAACAGGATCGCCTGCAGGCCGTGGGGCTGAGCTCCAATGCGGTGGCGCAGCAGTTGCAATTCTTGCTCAGCGGCGTGCCCATCACAGCCGTGCGCGAGGACATCCGCACCGTGCAGGTAATGGCTCGTGCGGCTGGCGATATCCGCTTCGATCCGACCCGGGTGATGGATTTCACCCTGGCCGGCGCCAACGGGCAGCGCATCCCGCTGTCGCAGGTCGGTGAAGTCGATGTGCGAATGGAGGAGCCGATCATGCGCCGGCGCGACCGCATGCCGACCATCACCGTGCGTGGCGATATCGCCGACGGCCTGCAGCCGCCGGACGTGTCGGCGGCCATTACCCGACAGCTCCTACCCCTGATGGCGATCCTGCCGAGCGGTTATCGCATCGAGGAGGCGGGCTCCATCGAGGAGTCGGGCAAGGCGAGCAAGGCCATGCTGCCGCTGTTCCCGATCATGCTGGCGGCCACGCTGATCATCATCATTCTGCAGGTGCGCTCGATCTCGGCGATGGTCATGGTCTTTTTGACCAGTCCGCTGGGGCTGATCGGCGTGGTGCCCACGCTGATCCTGTTCCAGCAGCCGTTCGGCATCAACGCGCTGGTCGGGTTGATCGCGCTGTCGGGCATCCTGATGCGCAACACGCTGATCCTGATCGGGCAGATCCGCCACAACGAACAGGCCGGCCTGGAGCCGTTCCGCGCGGTGGTCGAGGCCACCGTGCAGCGCGCCCGGCCGGTGATTCTCACCGCGCTGGCGGCGATCCTGGCGTTCATCCCGCTCACTCATTCCGTGTTCTGGGGAACGCTCGCCTACACCCTGATCGGCGGCACCTTCGCCGGCACCGTACTGACCCTGGTGTTTCTGCCGGCCATGTATGCCATCTGGTTCGGCATCCGTCCCGTCGCTCATGACCCAATCATGCAGGCGCAACCCGCATGA	MSEGRFNLSALAVRERSVTLFLVCLISLAGLVAFFKLGRAEDPAFTVKVMTIVTAWPGATAQEMQDQVAEKIEKRLQELRWYDRSETYTRPGLAFTTLSLLDTTPPSQVPEEFYQARKKIGDEAKTLPAGVIGPLVNDEYSDVTFALFALKARGESQRLLVRDAETLRQRLLHVPGVKKVNIIGEQAERIFVEFSHERLATLGIGPQEVFAALNAQNALTPAGSVETKGPQVFLRLDGAFDELQKIRDTPVVAQGRTLKLSDVATVKRGYEDPATFLIRNGGEPALLLGIVMRDGWNGLDLGQALDGEVSAINAELPLGMSLTKVTDQAVNISAAVDEFMIKFFVALLVVMLVSFISMGWRVGVVVAVAVPLTLAMVFVVMAATGKNFDRITLGSLILALGLLVDDAIIAIEMMVVKMEEGYSRIAASAYAWSHTAAPMLSGTLVTAVGFMPNGFARSTAGEYTSNMFWIVGIALIASWLVAVLFTPYFGVKLLPSFKKVEGGHAALYDTPRYNRFRRLLESVIARKWLVAGSVVGLFVAAVLGMGLVKKQFFPISDRPEVLVEVQMPYGTSIAQTSAATEKIEAWLAEQEEARIVTAYIGQGAPRFYMAMGQELPDPSFAKIVIRTDNQDEREALKHRLRQVIADGLASEARVRVTQLVFGPYSPFPVAYRVTGPNPDKLREIAAEVQQVMDASPMMRTVNSDWGTRVPTLHFSLQQDRLQAVGLSSNAVAQQLQFLLSGVPITAVREDIRTVQVMARAAGDIRFDPTRVMDFTLAGANGQRIPLSQVGEVDVRMEEPIMRRRDRMPTITVRGDIADGLQPPDVSAAITRQLLPLMAILPSGYRIEEAGSIEESGKASKAMLPLFPIMLAATLIIIILQVRSISAMVMVFLTSPLGLIGVVPTLILFQQPFGINALVGLIALSGILMRNTLILIGQIRHNEQAGLEPFRAVVEATVQRARPVILTALAAILAFIPLTHSVFWGTLAYTLIGGTFAGTVLTLVFLPAMYAIWFGIRPVAHDPIMQAQPA	PGPT0028890_426	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexJK-OprM,PGPT0028890-mexK-K18303	NA	NA
BMS010_09020	1107	mdtA_11		Multidrug resistance protein MdtA	ATGTTTGCGCGCCGCCTCGCTTCCTCCCTCGTCATCTGCGCATTGCCTTTTGTGCTGGTCGCCTGCGGCGAGTATTCGCCAGCCGATCCCCGCACCGAGGCGCCGCTGGTACGTGCCGTCCTCATTCAAGGCGCGTCCGCCGCGCCGCGCGCCTTCACCGGCACCGTAGCCGCCAGGGTCCAGAGCGACCTGGGTTTTCGCGTCGCCGGCAAGGTGCTGGAGCGGCTGGTGGATACCGGGCAACCGGTCAAGCGCGGCCAGGTGCTGCTGCGCATCGATCCCGTCGACCTGAAGCTCGCCGCCCATGCGCAGCGCGAAGCGGTCGCCGCCGCGCGAGCGCTGGCGCAGCAGAGCATCGACGACGAGGTTCGTTATCGCGCTTTGCGCGGCACCGGTGCGGTATCGGCCTCGGCCTACGACCGCTACAAGGCGGCGGCGAATGCGGCCAGGGCCCAGCTCAGCGCGGCCGAGGCCCAGGCGCAAGTCGCCCGCAATGCCACGCGCTACGCCGAGCTGCTGGCCGATGCCGATGGCATCGTCATGGAGACGCTGGTCGAGCCCGGCCAGGTAGTCGCTGCCGGGCAGGTGGTGGTGCGGGTGGCGCATGCCGGGCCACGGGAAGCGGTCATCCAACTGCCGGAAACCCTGCGTCCCGCCGTCGGTTCCGCCGCCCAGGCCAGGCTCTTCGGCAGAGAGGGGATCAGCGTTGCGACCCATCTGCGCCAGCTCTCGGATGTGGCGGATCGCCTGACTCGCACCTTCGAGGCGCGCTACGTGCTGGAGGGCGAACTGGCCAACGCGCCGCTGGGCACCACCATCACCGTGCAGATTGCCAATGGGCAGACGTACAGCACCGACCTGCAGGTGCCGATCGGCGCGCTGTACGACGCGGGCAAAGGGCCCGGCGTGTGGGTCATCCAGGGAGATCCCGCTCAGGTGACCTGGCGGCCGGTCGCGGTCCAGCACCTGGATGACGAGCGCGCGCGCGTCACCGGCCAGCTCAAGGCAGGCGAGCGGATCGTCGCGCTCGGCGCCCATCTGCTGCGCGAAGGCCAGCAGGTGCGGCTGGCCGGTCAGCCTGCCGTCGCAGGAGTCCGCCATGAGTGA	MFARRLASSLVICALPFVLVACGEYSPADPRTEAPLVRAVLIQGASAAPRAFTGTVAARVQSDLGFRVAGKVLERLVDTGQPVKRGQVLLRIDPVDLKLAAHAQREAVAAARALAQQSIDDEVRYRALRGTGAVSASAYDRYKAAANAARAQLSAAEAQAQVARNATRYAELLADADGIVMETLVEPGQVVAAGQVVVRVAHAGPREAVIQLPETLRPAVGSAAQARLFGREGISVATHLRQLSDVADRLTRTFEARYVLEGELANAPLGTTITVQIANGQTYSTDLQVPIGALYDAGKGPGVWVIQGDPAQVTWRPVAVQHLDDERARVTGQLKAGERIVALGAHLLREGQQVRLAGQPAVAGVRHE	PGPT0028885_724	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexJK-OprM,PGPT0028885-mexJ-K18302	NA	NA
BMS010_09021	618			hypothetical protein	ATGAACAAGACCTCCTCTCCCAAAACGACATCCCGTGGCCCGGTCGATCACGAGGTGCGCGACCAGATCGTGGCTGCGGCCACCGAGCACTTCAGTCTCTATGGCTACGAGAAGACCACGGTCTCCGATCTGGCCAAGGCCATCGGCTTTTCCAAGGCTTATATCTACAAGTTCTTCGAGTCCAAGCAGGCCATCGGCGAGGCGATCTGCTCGAACTGTCTGAGCCAGATCGAAGCGGAGGTCCGGGCCGCCGTCGACGAGGCCGAGCGCCCGCCGGAGAAGCTGCGGCGCATGTTCAAGGCGCTGGTGGAATCGAGTCTGCGTCTGTTCTTCCAGGACCGTAAGCTCTACGAAATCGCCGCCTCGGCGGCGACCGAGCGCTGGCAGGCGGCGCGTGACTATGAAGGGCGCATCCAGCAATTGATCCAAGACATCCTGCAGCAGGGCCGGCAAAGCGGCGACTTCGAACGCAAGACGCCCCTCGATGAAGCTGCGATGGCGATCCACCTGGTCATGCGTCCCTATCTCAACCCCTTGCTGCTGCAGCATGGCCTCGATCATACCGACGAGGCGCCGGTGCTGTTGTCCAGCCTGATCCTGCGCAGCCTGTCGCCATGA	MNKTSSPKTTSRGPVDHEVRDQIVAAATEHFSLYGYEKTTVSDLAKAIGFSKAYIYKFFESKQAIGEAICSNCLSQIEAEVRAAVDEAERPPEKLRRMFKALVESSLRLFFQDRKLYEIAASAATERWQAARDYEGRIQQLIQDILQQGRQSGDFERKTPLDEAAMAIHLVMRPYLNPLLLQHGLDHTDEAPVLLSSLILRSLSP				NA	NA	NA	NA	NA
BMS010_09022	1461	ttgF		Toluene efflux pump outer membrane protein TtgF	ATGCCGCCCAAACGCCAGCTTGCCCTGCTCGTCCTTGCCAGCCTCTCGGCTGGCTGCACCGTCGGCCCCGACTACATCCGTCCCGAGACGCCCATGGCGGAACGCTATTTGGGCCAGGCGGCGATAGATCGACGGCCTGCCAGCACCAGCGCCGATCTCCTGGCCTGGTGGACGGCATTTGGCGACCCGCAGCTGACTCGCGTCGTGACCCTCGCCCTGGAGCAGAACCTCGATCTCGCCCAGGCGGCCGCGCGCGTCGCCCAGGCGCGCGCCGGGTTAGGCGCCGCCAATGCCGCGCTAGTGCCATCCGGCACGATTAGCGGTCAGGCAGCCAGAGCCTACCAGTCGATCGATACGCCGTTGGGACGGGTGCTGAACGCCACGCCCGATTTCGACCGTTACGGCAGCGCCTATGAAGCCAATCTCGCCGCGAGCTGGGAACTAGACCTGTTCGGCGGCCTGCGCAGTGGGCGTGAAGCGGCGCTGGCCGAGTACCAGGCTTCGGCGGCAGGCGCCGCCGCCACGCGACTGGCGGTGGCGGCACAGGCCGCCGATATCTACATCGGCATTCGTGGCTTGCAAACTCGCCTCGACGTGGCGCGCCGGCAGGTGGAGACGCAGCAGGAGCTGCTCGCCACCGTCAACCTGCTTTATGGCCAGGGCGTGGCAGCCGAACTCCAGGTCCATCAGGCCGAAGGCGCCCTCGCCCAGGTACGGGCCTCGGTACCCGTGCTCGAGACGGGGCTGGACGCGGCGCTGAACGCACTGGACGTGATGCTGGGCGCCCCGCCCGGCACCTATCGCGCGGAGCTGGCCGAGGTTGGCGAAATCCCCCTCGCCCCGCGGATGGCGGCAACCGGCTCGCCGGGCGACCTGCTCAGACGCCGGCCCGACTTGATCGCGGCGGAGCGCCGCCTGGCCGCTGCGAATGCGCGGATCGGCGTCGCCATCGCCGAGTACTACCCCAAGCTATCCCTGAGCGGGCTGATCGGCAGCGCGACCTCGGTGTCGGCCGGCAACCTGTTCGGCAGCGGCGCCAGCCAGGTCGCCGGCGTGCTGGGTCTGCGCTGGCGGCTGTTCGACTTCGGCCGTATCGACGCGCAGATCGACCTGGCCAAGGGCGAGGAAGCCGAGAGGCTGGCGGGCTATCGACTGGCCGCCCTGCGCGCCACCGAGGACGTGGAAAACGCTTTCTCCGCCCTGGTCAAGCGTGAAGAACAGGCGCAACTGCTCGAGCAGGGTGCGAACTCGCTCGGTCGTGCGCGGCAAGCCTCCTTCGCCGCCTACCAGAAAGGCGTCGTCAGCCTGATCGAAGTCCTGCAAGCCGACGAAAACCTGCTGCGCGCCGCCGATGCCCGCGCGCAGGCCCGAACAGAGGCGGCTCGCGCTGCGGTCGCCGCCTTCAAGGCGTTAGGTGGAGGCTGGACACCCCTTGAGCAATCCACGGTGGCTACCCAGTAA	MPPKRQLALLVLASLSAGCTVGPDYIRPETPMAERYLGQAAIDRRPASTSADLLAWWTAFGDPQLTRVVTLALEQNLDLAQAAARVAQARAGLGAANAALVPSGTISGQAARAYQSIDTPLGRVLNATPDFDRYGSAYEANLAASWELDLFGGLRSGREAALAEYQASAAGAAATRLAVAAQAADIYIGIRGLQTRLDVARRQVETQQELLATVNLLYGQGVAAELQVHQAEGALAQVRASVPVLETGLDAALNALDVMLGAPPGTYRAELAEVGEIPLAPRMAATGSPGDLLRRRPDLIAAERRLAAANARIGVAIAEYYPKLSLSGLIGSATSVSAGNLFGSGASQVAGVLGLRWRLFDFGRIDAQIDLAKGEEAERLAGYRLAALRATEDVENAFSALVKREEQAQLLEQGANSLGRARQASFAAYQKGVVSLIEVLQADENLLRAADARAQARTEAARAAVAAFKALGGGWTPLEQSTVATQ				NA	NA	NA	NA	NA
BMS010_09023	1149	fsr_3		Fosmidomycin resistance protein	ATGCGTGTGATCGGCGCCTGTGCCCTGGCTCATCTGATCAACGACCTGATCCAGGCGGTGTTGCCGTCGATTTACCCGGTGCTCAAGGCCAGCTATGGGTTGACCTTCACGCAGGTCGGCCTGATCACCCTGACGTTTCAGCTTACGGCCTCGCTGCTCCAGCCCTGGGTTGGCTATCACACCGATCGCCATCCGAAGCCATGGTTGCTGCCTGTGGGGGCGGTCTGCACCTTGGTAGGCATTCTCCTGCTGGCCTCCGTTGGCACCTTTCCGGCGATTCTCATGGCTTCGGCATTGGTGGGCGTTGGCTCGTCAACCTTTCATCCGGAGGCATCACGTATCGCGCGACTGGCTTCGGGTGGTCGCTATGGTCTGGCGCAGTCGACCTTTCAGGTTGGCGGTAACGCCGGCAGTGCTTTCGGTCCGCTGTTGGCGGCGGCGATCATCATTCCCTACGGCCAGGACCATGTGGCCTGGTTCGGACTGTTCGCGGCATTCGCCATCGTGGTGCTCTATGGGTTGAGCCGTTGGTATCGCAACCATCTGAACCTTTTCCGTCTCAAGGCGGGCAGTATCGCTACCCACGGGCTCTCCAGGCGACGGGTGATGCTGGCCCTGGTGGTCCTGGCGGTGCTGGTGTTCTCCAAGTACTTCTACATGGCCAGCCTTACCAGCTACTTCACCTTTTACCTGATCGAGAAGTTCGGCCTGTCGGTGGCCAACTCCCAGCTCTACCTGTTTCTGTTTCTCGGTGCCGTTGCCGCTGGTACTTTCTTCGGCGGTCCGATAGGAGACAGGATTGGGCGCAAGAAGGTGATCTGGTTTTCCATTCTCGGGGCCGCGCCTTTCACGCTGGCGCTGCCTTATGTGGGACTGTTCTGGACCGGCGTGCTGAGCATGGTCATTGGCTTCATCCTCGCCTCGGCATTTTCCGCCATCGTCGTTTTCGCCCAAGAGCTGGTGCCGGGTAATGTGGGGATGATTGCGGGTGTGTTCTTCGGCCTGATGTTCGGCTTTGGCGGTATTGGTGGTGTGCTATTGGGATACCTGGCGGATATCCGTGGTATCGAACAGGTGTTCCTGTTGTGTTCCTATCTGCCGTTACTTGGCGTCCTGACGATTTTGCTGCCTTCCACCAAGAGGGCATAG	MRVIGACALAHLINDLIQAVLPSIYPVLKASYGLTFTQVGLITLTFQLTASLLQPWVGYHTDRHPKPWLLPVGAVCTLVGILLLASVGTFPAILMASALVGVGSSTFHPEASRIARLASGGRYGLAQSTFQVGGNAGSAFGPLLAAAIIIPYGQDHVAWFGLFAAFAIVVLYGLSRWYRNHLNLFRLKAGSIATHGLSRRRVMLALVVLAVLVFSKYFYMASLTSYFTFYLIEKFGLSVANSQLYLFLFLGAVAAGTFFGGPIGDRIGRKKVIWFSILGAAPFTLALPYVGLFWTGVLSMVIGFILASAFSAIVVFAQELVPGNVGMIAGVFFGLMFGFGGIGGVLLGYLADIRGIEQVFLLCSYLPLLGVLTILLPSTKRA				NA	NA	NA	NA	NA
BMS010_09024	774	nimR_2		HTH-type transcriptional regulator NimR	ATGCTCAGGTCCCTGGATAAGTTACTGATCGAAATCGACGAAGCGGCGCTGATGGTCATCAGCAGTGCCACCGATTACCCGGCGGGCTGCACGATCGAGCCCCATTCCCATAAAAAGCACCAACTCATCCATGCGATTCAGGGAGTGATGGTGGTGCACTCCGCCATGAACCAGTGGGCCGTACCACCCAGCCGCGGCATCTGGATGCCGAGCGGACAAATCCACTCCATTCGTTGCGTTGGTCCCGTGAAGATGCGCAGCGTATTCGTGCGACCGGATGACTCTCTGGACATGCCGACCGAGTCCAGGGCCCTCAACATCTCTCCCCTGCTGAGGGAGCTGATACAGGCCTCCATTGCCATAGCCGAACCCTACGAGCCGGACTCGCGTGCATCACGAGTGATGGGGTTGATCCTGGATGAACTCAAAGTCCTGCCGAGCCTGCCCCTGCATCTTCCCCACCCTAGCGATGAGCGAATCCAGATCATATGCACGACGCTCCAGCGTGATCCCGGAGACGGATCGACCCTGTCGGATTGGAGCGCTCGACTGGGTCTCGACGAAAAGACCATCCAGCGGCTGTTTCAGAAGGGCACGGGAATGACCTTCGGCCAATGGCGCCAGCAGGCCCGCCTGCTTCTGGCCCTGGAGCGCATCGCGGTAGGAGAGAAAATCATCGACATTGCCGGAGCACTCGGCTACGAAAGCCCCAGCGCCTTCACCACCATGTTCAAGAAGCAGTTCGGAACGACACCCAGCAACTTCTTTAAATGA	MLRSLDKLLIEIDEAALMVISSATDYPAGCTIEPHSHKKHQLIHAIQGVMVVHSAMNQWAVPPSRGIWMPSGQIHSIRCVGPVKMRSVFVRPDDSLDMPTESRALNISPLLRELIQASIAIAEPYEPDSRASRVMGLILDELKVLPSLPLHLPHPSDERIQIICTTLQRDPGDGSTLSDWSARLGLDEKTIQRLFQKGTGMTFGQWRQQARLLLALERIAVGEKIIDIAGALGYESPSAFTTMFKKQFGTTPSNFFK	PGPT0014658_41	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014658-ypdC-NA	NA	NA
BMS010_09025	1389	intA_4	COG0582	Prophage integrase IntA	GTGGCCAAGCTGACGATCAAGCAACTGGAGGCTTTCACAGCTGAAGATCATGGAAAGGTCTTCCGAGAGGATGGAGGACTGGTTGCCGAGGTGCGAGCTGGCGTACGCGGAGTCACGGTTCAATTCAGCTATGAATTCAAACTGGATGGCTCCAGAACCCGAAAGCGACTGGGCAGTTGGCCGAAGAAAAGCCTGGCGCAAATCCGAGCTGAGCGAGACGAAGCCCGGACTCTTGTTACGAAAGGCCTGCACCCTACCCTTGCCGCCAAAGCAGCAAGGATCGAGGCACAAGCGGCCATTGTCGCTACGATTGCTGAGGCCGAACGTGAAGCCGCCGAAAACAAAACAGTGGCAGACCTGTTTGACGAATGGATACGCGACGGCGTTTCTCGGCAGGATGGCAATGCTGAACTGATCCGCAGCTTCAAAAAAGACGTACTTCCCCTCATCGGCAAGAAGCCACTTCGCAGCCTGACAGAGAAAGATTTACTCACCGTCCTACGCTCAGTCAAAGCACGAGGCCTGAACCGTACCGTCGTGATTCGCAGCAAAGATATCGGTCAGATGCTGCGCTGGGGAGAAAAGCGTAAGCCGTGGCGCACCCTGATGGCGGACGGCAATCCTGCCGACCTGATCGACGTGAGCAAGCTGCTGGATCACGACTACGAAGAACAGCGCGACCGATTGCTTTCGCCAGATGAGATTCGCGAGCTGCGTGACATTTTCGAGCGCCTGGAGCGTGATTACGATGCCCTGCCCGCCGGCCAAAAATACTCCGGCATCCGTCCGGTTAATCCGCGCGTGCAATGCGCCGTATGGATCTGCCTGAGCACCCTCTGCCGCATCGGCGAACTGCTGAAGTCTGAATGGCGCCACGTGGATCTGGAGAAAGGCACTTGGTTCATCCCGGCCGAAGCGACCAAGGGCCACAAAGGTAAGCGCCAGGACCACCACATTTTTCTTTCGGCTTTTGCCCTTGAGCAGTTCAAACGGCTGCACAAAGAAACCAGCGATACGCCGTTCTGCTTCCCCAGCAAGGATGGCAAAAGCCACGTCGACACCAAGACGGTCAGCAAGCTCATCGGAGACCGACAGTGCCGTTTCAAGAACCGCAGTAAGCCCTTAGCTGGCCGCCATCATGACGATTCACTGGTGCTGAGTAAGGGCACCAAGGGCGAGTGGACTCCGCATGACCTGCGCCGCACCGGTGCAACGATGATGCAGGAGCTCGGAGTCACTCTGGAAATCATTGACCGCTGCCAGAACCACTTACTCGGCGGCTCCAAAGTGCGCAGACACTACCTCCATCACGACTATGCAAAGGAGAAAACCGATGCTTGGTGGCTTCTTGGAGATAAATTAGAAACGATTCTCCAGAAAACATCCTAA	MAKLTIKQLEAFTAEDHGKVFREDGGLVAEVRAGVRGVTVQFSYEFKLDGSRTRKRLGSWPKKSLAQIRAERDEARTLVTKGLHPTLAAKAARIEAQAAIVATIAEAEREAAENKTVADLFDEWIRDGVSRQDGNAELIRSFKKDVLPLIGKKPLRSLTEKDLLTVLRSVKARGLNRTVVIRSKDIGQMLRWGEKRKPWRTLMADGNPADLIDVSKLLDHDYEEQRDRLLSPDEIRELRDIFERLERDYDALPAGQKYSGIRPVNPRVQCAVWICLSTLCRIGELLKSEWRHVDLEKGTWFIPAEATKGHKGKRQDHHIFLSAFALEQFKRLHKETSDTPFCFPSKDGKSHVDTKTVSKLIGDRQCRFKNRSKPLAGRHHDDSLVLSKGTKGEWTPHDLRRTGATMMQELGVTLEIIDRCQNHLLGGSKVRRHYLHHDYAKEKTDAWWLLGDKLETILQKTS				NA	NA	NA	NA	NA
BMS010_09026	5466			hypothetical protein	ATGAGTAATGCGTTTACCAAGCTTTCCCAGGATAAGTTGAACGCGGCGGTCGCTTGTCTGCTGTGCCCCCGTATCGAAGCGATCGTGGGTGACCGTGGCCCAGGCCACTGCATGCGGGTCACCGATCTCGATGACGAGGTAATGGAGTCGGTCTGCAAGGAACTACGTCGGACCCGGCCCGACGGAAACATCTTTATCCTCGGCAGCCATGATCAGGAGGGCCAGCCCTTCCGAGTCACTTCCACCAAACTGGTGGAGTTGCGCAACCCGGACGCGAACGGCGAGCTGCGTCAGCCTTTGCTGGTCTTCATACCGACTTCGCTTCGCACCAGCGCCGAGGACTCTTTCGGTGTGGCGACCTTCGAGGAGCTGACCTTCGCCAGTATCTACGAGGACCTTATCGACTCGCTGCTTGATCAGCTCCCGACAACACTAGTTGGCCATGCTCGCGATCTTTTGGGCATGCTCACCGAGGAGGAGTGGCTGTTTGCTGACCATGTTTCCCGTGTGCGGTACCTGCTCACTGCGCTCGAAAACGGGATTGATGGAGAAACCCTCGGGGCCAGCCTGTATGAATTGACGTTGATTCCAGACTTCAAGCTCTTTGCCGATCCCGGCATGGTCAATGGCAAGATTCGCCGTAACCTCGGCAGCGTCCGCAGTCTGATGGCCTCGCACAAGTCGGTTCGTGGTCGTATCGCTGATCTGGGACTCAGCGACAAGGCATTGGAGTCGCGACTATTCACCTACTTTGAAAAATACGATGTCCAGGAGCCCGAATCCTGGACGCCGCCCATCGCGACCGACAAGAGCTGGTGGAGCATTTCTTTCGATAAATGGGCGTTCCAGGAAGAGCTTTCGCTGGACAAGGTCCTGCTGACAGTGCTGGAGACCGACTTGCCGGTCGTTCAGGAGGATGAGACCGACGACCAACTCTCCGGCCTCATCGGGCAACAGGTTCTGGTGCCGAACGACCGCCGCAAAATGAACGTGGTGTTCGAGGTTAGCCCTCACCCCGGCAAGGTCAGCGGGCTTGATCATTTTACGGTTCAGATCATTTCGCAGAATGACGGCCCGGTAGGAAAATCAAAAAAAGTCAAGGCCTGGACGCCGAACCGCCTGCAATGCACGACCAACTTGGTCAAGCTCAATAAGATCGAATTCGAGGAAGGATGGCATTTCATCCGTGTAATGCCTTGGACGGCCGATGGCGATCCGATTCCGCTGGACGCGGATTCCGCCTCCGAGGGCGCGAGACGTTCCTACGAGAGCGAACCTTTCTACGTCCTGCCCGGTGGCAACATCGAGGAAGAGCCAACGCAACGCGCCATACCCATTGAGCAGAGCCTGGAGCATGCGCGTTTCCGGCTGCAACTGACTGCCCTGGGCGATGAGCGCGATCCCGATGATATCGCCATCAGTGGTGTCGCCTGGGTCGAGGGCGGTCGTTCCAAGAAGACCTCTCGCCAGGAAACCCTGCACGCAAAATTCGGTCGTGAGGGCACGGTTCAGATCCCGCTTTCGCGTATGCTCAAAACCATCGAGCAGCGCGTCTTGGCGGAGCCCAAGCACCCGTCAGGCTGGCGAATGCAGATCAATCTGGATACCGCCGAGCCGCCTTCCGAGGTCGGACTCACGCTGCCATCTTCCGCCGCGATGGCTTCCTTCCTGGCTGCCCGCGAAGAGTTTTTTGCAGCAGTGCGCAAAGACACTGCCGAGCTGATCATGCAGGGGCTTTCGTTCCGCGACTCGGAAAGGGAATGCCTCGCGTATGCTGAAAGCTACCTTGACTTGGTCAGGAGCCTCATCCGTCAGGCCGAGACGACTTCTGGTGCCGAGCGTCAGCAACACTTGCAAGTGCTCAGAAATGTGCTGGCCGTCGATTCCATTCATATCATCTTGACCGACTTCGGTGGAAGGCACCGGGAGGCTGTTTTGGTCTCCCCAACCCATCCGCTCCGTGCCTTGTGGCTGAGCAGTTGGGTCGCCCTGGGTAAGGATTGGATTGAGAAGATCAAGTCAGGCGGAAAGGATCACATTCCTCACGTCCGTTCCGCGCTGTTGGATGGCCTTGTGCCCTCTGCCTATCCGGTCGGTATTCCCGTCGAGGATGGCCGCATCTTCACTCCGGTGGACAACCTGAATGCTTTCTGGGCGCTCTACGCCCCGACGACCGAGGAAAATTCCCGTGGTCTGATGGCGGAAATCTGTTCAGCGCTCGGCTTGGCCGAGCCCTCTGCGGCGGGATCAGATATTTCCGGACAAGTCATTGCGGACAAGATCGAGCGCTATCTCTCTCAGCATCCCTATGTTCGAGAGTTATCACTGAACATCTTCAACCCTGGGGCCGGATCGGTGATTGCGGAGGCTCTGCTATCGCTCCAGCAGAAGCGCGAGCATGCTGATTTGCGCTATGACGTGCGGCTCTTTACCACCGATCCCGACTCACCTGTTTTGGGCGAGGCTCTTGAGTCGATGGTCCGTCCCGGAGCCACGGTAAACGAGGCCGCCGACGCATTTGCGACCTCAACGGGCAGCCATCTGTTCTCCAAGCTGAACTTGGCCAAGCACCCCCTGAATGAATTCCATGCAAATTCCAAGGAGTTCCCGGCGCACATCAGTGTTCTTCTGGATGTGTTTCCCGCCGAGGAGCTTTCCATTGCAGAGAAGCCGATGGGGGTGACCCCGCTGCATGGACTGATACAGGACTTCGACACTGAATTCGTTGATGACGATTCGGGGACCTTCTGGAATAAGCGGCCGATTGTCGGGCGCTCCCTCGGCGCGGACAACCATGCGGCGTGCTTCGATTTGCTGTCGTCCCTGAGCCGACACCTCTGTTTTGCTACCTCAGCGGTTGCTGCTTCTGGTGCCAGCTTCAAAGCTGTGCCTGTGGTGACCCTTGGCCTCGATGTGGCCCAACGAGAACTGATCTACGAGGTTCACCAGATCAGCGATTGGGTGTTCACCATCGACCGAAATATGGGGATTGAGTTCTTCGACCATGGCGGCCGGAAGAACAGACCGGACTATCTGATTGACTATGTGCCGGGAGCCAGCTCCCAGGCGACACACAACCTGATCATCTCGTCGCGCTCGAACGATGAACTGGAGGCGATGCTAAAGCCGGTGCTGCTTGAGCATGGCTTGTCCGCCGACGGCGAGCAGTCGGTTCAGATCCTGGCAAATCTGCGGTCGCTGTCCGGTCAGCTTGCCCTGAAGCTGATTTCTGCTCGCACACAACAGGCGGAAGCACTTGGTCTGGCTTTGGCTCGGCTCTACCTCGAATATCAGGGCGCATTGAGCAATCAGGTCATTGTGCCGTTGGATGCGCACACGGACCTTTACCGCTCAAGCGGTGAGTCAGACGGTGTCAATGATGCAATCAGCCTGCAACGCACCGACTTGGGATTGTTCGACTTGGATTTGAACACCAGAACGATCACTTGCAACCTGGTCGAGGTGAAATGCTATTCGCAAGTGGGCGACTTTGCGGCCTTCAACCAACTGAAGGAACGGATTTCCGCCCAGATCAATCAGAGCGAGCGCATCCTCCAGCGCCACTTTGACCCGGCCTTGAAGAAGCCCGATCGGCCGGATAGGTTGCTCAAGAGCCGGGAGTTGGCTCAGATCCTTCGTTTCTATCTAGAGCGCTCACTGCGTTACGGGATCTTTGATGCGACTGCTGCGCAGGAAGCACGAGGGCTACTTGAATCCATCGAGCAGGGCTACTCGCTTCAGTTCAGACGCTGCGCCCTGATCTTCGACTTCGACAAGACCGGAACCGAGGCCCCCGACAACGAGGTTGGCATTGAATTCCACCGCATCGGTAAGGATCTCATTCGCGCCTTACTGGAGAACTGCCGCAAGCCTGTTTCCGTCGAGATTGAGGAAGAACCGACTGTGCACCTCCTGAGCGAGCAGTTTATACCGAGCGTGCCGAAGCTCGAGACAGCCGCTTTCATCGCACCCAAGAGAGCCCGGTCAACGTCCTGGACGGTGGATGAGCTCTGGGACGAAGAGCCGAAGGCACCAATCACCCAGCCAACACCACCTGCTGGAGAGGAAACGCCCGCACCTGCCCAAGAGGAAAACGAAGAGCAGGCTGAACCTGTCGAGCAAGCATCTCGAACTTCCACCATTGCGCCTAAAGAAAAAAAAGAAGACGAGCAGCCCGCCGCCGTTGCTGTTGAGCCGGCGGAACCTGTTCAACCCGAGTATGAAGCGCCGGAACATCCGACACCCGAGCATGCGCCTCAAGCCGAGGTCAGCTATGACATTATGCTGGGCGTTAATGGTGACTCACCCCAGTACGGATTGCTCGGAGAGGTTTCCGGCAGGAAAATCGCGCTGGACCTCAACCATACCCACACGATCAGTCTCTTTGGGGTTCAAGGCGGCGGCAAGAGCTACACCCTTGGAACAGTCATTGAGATGGTCTCCATGCCGCTTCAGCACATCAATGTGCTGCCAAGCCCGCTCGCCACGGTCATCTTCCATTACAGCCCGACGCAGGACTATGCGCCGGAGTTTACCTCGATGATCAATGCCAACTCGGTGGACGAAGAGATCCGCATCCTTCGTGAGCGTTACAAGGCCAACCCGGAAGCCCTGAAGGATGTCCTGATTCTTACCCCGGCAAACAAGGTGGATGATCGCCGAGCCGAGTACCCGGATATCGAAGTTAAGCCGCTAGCTTTTTCGGCGTCCGAACTCAAGGCGGCGCACTGGAAATTCCTGATGGGAGCGATTGGCAGCCAGAGCATGTATATGCGGCAAATCAATCTCATCATGAGAGGGCTGCGGGACAACCTGACCTTGGATGCTTTGCAAGCAGGCATCGATAACTCTGGTCTATCCGATCACCTGAAAGAGCTGGCTCAGACGCGTCTGCTGTTCGCCAGCGAATATATCGATGATAACCAGCGGCTCCAGGACCTGATTCGTCCAGGCAGGTTAATCATCGTGGATCTGAGAGATGAATACATTGAAAAGGACGAGGCCCTCGGACTGTTTGTGGTGATGCTGCAAATTTTCTCGGAAGCAACCTATCAAGGAAGTGCCTTCAACAAGCTCGTGGTTTTCGATGAAGCTCATAAGTACATCGAGAACGATGACCTGGTTTCCGGCCTGGTAGAGGTTGTCCGTGAGATGCGACACAAGGGGACTAGCATCATGGTGGCCTCTCAGGATCCGCCATCGGTCCCTGTCTCTCTGATCGAGCTGTCATCTCAGATCATCATGCATAAATTCAACTCGCCCGCCTGGCTGAAGCATATCCAGAAGGCAAATGCTGCCCTCGGCGAGTTGACCTCCGACAAGATGAGCCATCTCGGAACCGGCGAAGCCTATGTGTGGTCGAGCAAAGCCTCGGACGATTCCTTCGCCCGGGGCGCGGTGAAGATCAAGTGCCGTCCACGCATCACGCAGCATGGAGGTAGCACCAAAACGGCTGTGGGCCGGTAA	MSNAFTKLSQDKLNAAVACLLCPRIEAIVGDRGPGHCMRVTDLDDEVMESVCKELRRTRPDGNIFILGSHDQEGQPFRVTSTKLVELRNPDANGELRQPLLVFIPTSLRTSAEDSFGVATFEELTFASIYEDLIDSLLDQLPTTLVGHARDLLGMLTEEEWLFADHVSRVRYLLTALENGIDGETLGASLYELTLIPDFKLFADPGMVNGKIRRNLGSVRSLMASHKSVRGRIADLGLSDKALESRLFTYFEKYDVQEPESWTPPIATDKSWWSISFDKWAFQEELSLDKVLLTVLETDLPVVQEDETDDQLSGLIGQQVLVPNDRRKMNVVFEVSPHPGKVSGLDHFTVQIISQNDGPVGKSKKVKAWTPNRLQCTTNLVKLNKIEFEEGWHFIRVMPWTADGDPIPLDADSASEGARRSYESEPFYVLPGGNIEEEPTQRAIPIEQSLEHARFRLQLTALGDERDPDDIAISGVAWVEGGRSKKTSRQETLHAKFGREGTVQIPLSRMLKTIEQRVLAEPKHPSGWRMQINLDTAEPPSEVGLTLPSSAAMASFLAAREEFFAAVRKDTAELIMQGLSFRDSERECLAYAESYLDLVRSLIRQAETTSGAERQQHLQVLRNVLAVDSIHIILTDFGGRHREAVLVSPTHPLRALWLSSWVALGKDWIEKIKSGGKDHIPHVRSALLDGLVPSAYPVGIPVEDGRIFTPVDNLNAFWALYAPTTEENSRGLMAEICSALGLAEPSAAGSDISGQVIADKIERYLSQHPYVRELSLNIFNPGAGSVIAEALLSLQQKREHADLRYDVRLFTTDPDSPVLGEALESMVRPGATVNEAADAFATSTGSHLFSKLNLAKHPLNEFHANSKEFPAHISVLLDVFPAEELSIAEKPMGVTPLHGLIQDFDTEFVDDDSGTFWNKRPIVGRSLGADNHAACFDLLSSLSRHLCFATSAVAASGASFKAVPVVTLGLDVAQRELIYEVHQISDWVFTIDRNMGIEFFDHGGRKNRPDYLIDYVPGASSQATHNLIISSRSNDELEAMLKPVLLEHGLSADGEQSVQILANLRSLSGQLALKLISARTQQAEALGLALARLYLEYQGALSNQVIVPLDAHTDLYRSSGESDGVNDAISLQRTDLGLFDLDLNTRTITCNLVEVKCYSQVGDFAAFNQLKERISAQINQSERILQRHFDPALKKPDRPDRLLKSRELAQILRFYLERSLRYGIFDATAAQEARGLLESIEQGYSLQFRRCALIFDFDKTGTEAPDNEVGIEFHRIGKDLIRALLENCRKPVSVEIEEEPTVHLLSEQFIPSVPKLETAAFIAPKRARSTSWTVDELWDEEPKAPITQPTPPAGEETPAPAQEENEEQAEPVEQASRTSTIAPKEKKEDEQPAAVAVEPAEPVQPEYEAPEHPTPEHAPQAEVSYDIMLGVNGDSPQYGLLGEVSGRKIALDLNHTHTISLFGVQGGGKSYTLGTVIEMVSMPLQHINVLPSPLATVIFHYSPTQDYAPEFTSMINANSVDEEIRILRERYKANPEALKDVLILTPANKVDDRRAEYPDIEVKPLAFSASELKAAHWKFLMGAIGSQSMYMRQINLIMRGLRDNLTLDALQAGIDNSGLSDHLKELAQTRLLFASEYIDDNQRLQDLIRPGRLIIVDLRDEYIEKDEALGLFVVMLQIFSEATYQGSAFNKLVVFDEAHKYIENDDLVSGLVEVVREMRHKGTSIMVASQDPPSVPVSLIELSSQIIMHKFNSPAWLKHIQKANAALGELTSDKMSHLGTGEAYVWSSKASDDSFARGAVKIKCRPRITQHGGSTKTAVGR	PGPT0027795_26	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-DNA_PHOSPHOROTHIOATION-DEPENDENT_RESTRICTION_PROTEINS,PGPT0027795-dptH-K19175	NA	NA
BMS010_09027	1644			hypothetical protein	ATGTCAATCAAGGGTAGAGACAAGGAATTCAGAACACCTAAGGTCAGTTATTTACATTGGCAGCACACGGAAATGGATCGTGTGCTGACCATGCTATTTCCTCGCCTCAAATTCAATGGCTATGGCAGTCGCAAGCCGCCACGCGCAAATATTTTGCAGCCAGAAGAATTTGCAGATGAAATGATGCTGTCCGAAGAGGTTAAGCAGTATTTTGAGGGCTTTGACGAACATCCCTCCATTGTCCACAAGTGGGTAGAAACCGAACTTCTTGATGTGGTAAATCGGGGCAAGTCTAACCAAGCTGTCGCCTCTCCGCGCCCGCTTCATGGAGAGACCTACAAATTTCGAAATGCGAAGCACTGCCGTGACTATGGGGCAGCCGAGCAGATTTATTGGATGCTCTACTATGCCCGCAAAGGCAAGGGCCAGGCCGCCCGAGACACGCTAAAACGCTTCTTTTTCCCTGGGATTGATCATGTAACCGGTAGGCATGAATCCGGCACGGTCGTTGATGTAGAAACCCAAGCGCTACTTCGCTTCGATTCTCAAGTTACTCAGGACACACAGGACTCCAAGGAGCCCGAGCGCTTTCCACCACTTCTGATTGATCAGGCCGACACCATGGCCGACGACATTCTGCGGCTATTGGCCTATGAGCCCTATATTCCTCGCTCGGTGCTGGTGGATTACCTCAAGACCCTGATGGCATTCCATCTGGCGCTCTACCACCTCAAGCTGTTGCAGATACTGCCCAAGCTGGTGAAGCAGCGCTCGGCCAATGCGCTGGCGAGTTCACCTGATCCCGTGGCGCTGGTCGTGGATATGGGGGACGTCAATAATCCGCATATGGGCGAGCTGGCTCGCAAGTCCACTGACCGGCTCTATCGCCAGATTCCTGCCTTTGTGCAGGCCAATTTCGTCGTCAAGAAGCTCGATGAGATGGCGGAATACCTGAGCAAGAAGACGGGCAAGCTGACTACTCCAGGGGGCGGCGTGTTTACCGTCGGCGATCTGGTTTCTCTACTGAAGCCCGAGCACGACGCCGAGCGGCAAGCCTACTTCAAGTTCCGCCTGGCCAGCCTGATCGAGGAGTCGACCTCTGGAAACGAGGACATCGATCCGGAGATCCGGGAAGTCACCGCCATGGGCCTTGGCGAGTTCGAATCCTTCATAGAAATCCTGATGGCATATCGCGGCAAGTATCACCGCCAGTACATCACTGAGTGCCTGGACTCACTGCTGCTGAAGAACAAGGAGAACGGCCTGTTGGCCCAATCCCGAACCAAGGGAAGTCCTCGGCGGTTTGTGCTGGGAAGCAAGCTTCTTGAAGTGCTCCTTCAGGTGGCTGTGCTCACTCAGGATGACGGGCGTTTCGTGACCCGCGAGGTTCGCATCGAAGAGTTGCTGGCCTTTTTAAGAAGCCGCTACGGCCTTCACATCGACCGGCTGCCGGAAGGAGCACAGGCCAACAGCAGCATCCTCGACAGACGCGCCTTGCGCCTCAACCTCGAAGCCTTCAAGCGTCGCCTGCGTGAAATCGGGTTCTACGAGGACCTGTCGGATGCCTACGTGACCCAGAAGGTATCGCCCCGCTATGCGATTGAGAGAAATGACGGAACAGATAAGAACGGGAGGCACGCATGA	MSIKGRDKEFRTPKVSYLHWQHTEMDRVLTMLFPRLKFNGYGSRKPPRANILQPEEFADEMMLSEEVKQYFEGFDEHPSIVHKWVETELLDVVNRGKSNQAVASPRPLHGETYKFRNAKHCRDYGAAEQIYWMLYYARKGKGQAARDTLKRFFFPGIDHVTGRHESGTVVDVETQALLRFDSQVTQDTQDSKEPERFPPLLIDQADTMADDILRLLAYEPYIPRSVLVDYLKTLMAFHLALYHLKLLQILPKLVKQRSANALASSPDPVALVVDMGDVNNPHMGELARKSTDRLYRQIPAFVQANFVVKKLDEMAEYLSKKTGKLTTPGGGVFTVGDLVSLLKPEHDAERQAYFKFRLASLIEESTSGNEDIDPEIREVTAMGLGEFESFIEILMAYRGKYHRQYITECLDSLLLKNKENGLLAQSRTKGSPRRFVLGSKLLEVLLQVAVLTQDDGRFVTREVRIEELLAFLRSRYGLHIDRLPEGAQANSSILDRRALRLNLEAFKRRLREIGFYEDLSDAYVTQKVSPRYAIERNDGTDKNGRHA				NA	NA	NA	NA	NA
BMS010_09028	4158	pknD_6		Serine/threonine-protein kinase PknD	ATGGCGAAGGTCATACCCATCGGGCAGCCCGCGAACGAATCTGAACGCCAGGCCATCGGTTTCCTTCGGGATCATCTGCCCGATGGTTGGCTGATCTTCCATAACTTCGAGATGCGCCAAGGGCAGGAGGTGTTCGAGATCGACATCGCCATCCTCGCGCCTCATGCGGTGTATCTGGTGGATGTCAAAGGGACGCGGGGCAACATCGATGTGTATGGCTCCAAGTGGTATCCGCAGGGGCGGCAACCGTTTCACTCGCCCCTCGCGAAGCTTCGTCACCACGCAAAGGTGATGGCCAGCTTCATCCGCGATAGCAATCCCGGACAGATCGAGCTGCGCAAAGCCCATGTCCATGCCGCCGTGTTGCTCACTGCCGATGACGCCACCGTGTTCGATCAGGCGGGCATCGACAGCCCGGACGTGACCGACTTCAAGCACTGCCTGAAATACTTCCGCGACGCGAGCCGCATTCCTGACAGCCGGCTGGATAACATTACCCGCTTCCACTCCCAGATCGCCAAGGCGATCACCGGCAACGCTAGACCTAAGAGCGCGGCGCTGGTGTTCCGCGACTGGCAGGTGGAAGAGAAGCTGGGCGGCACCGACCGCTACACCGAGTACCGCGCCAAACACAACCTGTTGGGCAAGAGCGGCGGCATGGCCCGCCTGCGGGTCTACCAGGCCGACCCGTACCAGGACGAGGCCGCCCGCAAGGAAGAGTTCAAGAAGATCAGCAACGCCTATCGCGCCGTGGCGCACATGCCGACCCACGCCAATGTGCTGGCGGTGAAGGACCTGTTCGTCTCCGACGATGAAGACAAGGTGGTGCTGGTCACTGAGGATCTGCCTGGCCAGGCCCTGCGCCTGAACATCAACAAGGTCTCGATGGCGCTGACCTTCGATCAGAAGCTCCAAGTGATGCGCGACGTGCTGTCGGCCCTGGACCATGCGCACCGGCATGAGGTGATCCACCGCAACCTGACCCCGGACGCCATTCTACTGACCAAGGGCGGCCAGGCCCGGGTAACCGATTTCGATTTCGCCAGGGTGGGCAAGAACCGCACCTCTACCATCGCCGATCAGGTGGTGGATGATCTAGATGCTGCCTACCAGGCTCCAGAGTGCTTCAAGGACCCGACCCAGGCCAGCATTGCCTCCGACCTCTATGCTGCCGGGCTGATCTTTTTTGAACTGCTGACCGGCGAGCTGCCCTTTGAAAGCGTCGACCAGATGATGGAGGCCGACGGCAAGTTCCCCATCAAGCCCTCGGAGCACAAGCCGGACCTGCCCAAGGGGATCGACGAGTGGTTGCAGAAGTTCTGCGAGTTTGACCCGGAGGAACGGCACACGAGCGCAGCCATCGCTCGCAAGGCCCTGGATGATCTGATTCTGCCAGAGGCCAAGAACGACTCAGGCCCGGATGTGAGCGGCCCGGCCGTGGTTGTGCCACAGCTCCCAGATAACCTGATGAACTTGCCGCAGGATTTCATCCTGGCGGATCGCTTCCGCATTCAGAAGAAGTTGGGCAGCGGCGGCTTCGGCGTCGCCTACAAGGTGTTCGATTCCCTGGGCGATGTGGTCCGCGTCATCAAACTGGTGACCAAGGACCGCCGCAGCGTGTACGAACGGCTGCGCCGCGAGTACAGGACCCTGACCAATCTCCCCGAACATCCGCATGTGGTGAAGGTGATCTGGGCGGATCGCATGGCCGATGCTAAGCAGACGCCTTACATTGTCTTTGAGTATGTGGAAGGTTTGGATGTTTCCGATCTGATCGATGCCGAGGCGTTGTCGCTGGATGATGCCGTGCGCATCGTGCGCGAGGCCGCCGAGGGGCTGGCCCATCTCCACAAGCACGGCGTTTACCATCAGGACGTCAAGCCCTCCAATCTGCTTTGGACGGACAAAGGCGTTCGCATCATCGATTTCAACGTCGCGGTTTCCGAGAACGATGAGGTTCAAGGTGGTGGCGGCACGCGCCGTTACCTGCCGCCGGATTACGACTACTCCTCCGAGCCGGATGCTTCGGATCGAATGGATCGTGACCTCTATGCCTTGGGCATCTCCTTCTATGAGTGCCTAACCGGCAAGTATCCTTTCGACGATCCCACGCCGCCGATCAAGACTCAGCCCAGGGACCCCAAGCAGTTCAAAGGCTGCGCCGACCTCAGCTCGTCGCTGGTCAATGTGCTGGCGAAGATGATCGCGCCGGAGCGCAAGGTTCGTTTTGCGTCGGCGGAGGAGTTCTTGATTGCCCTGGCCGAGGTCAAGCGCCTGCGCTCGGTGCTGACGACCGGCGAGATTGGTACCGGACCCAAGGTGGTGGCCAAGCTGGGTTTCGAGCCGATCAAGCCCAACACCAACCCCTTTGTAACCCACCTGCTGACGCTCTATAGCCAGAGCCAGGTGTCCAACGCAGGCACCCGTGGCCTCGACGAAGTTGGCAAGGCCACCTACGTGTCGACTTATCTGGACGAAAAGCTCAAGCCCGCGCTGCTCAAGGGCGAGTTCCGTTTGGTCATCATCAGCGGTAACGCCGGCGACGGCAAGACGGCCTTCATCCAGCAGTTCGAGGCCTTTGCCGAGAGCAAGGGCGCACAGATACAGCGCGGCGCGAACGGGGCTGTGTTCCAGCTCAAGGGGCATACCTACCAAAGCAACTACGACGGCAGCCAGGATGAAGGCGACGAGCGCAACGATACCGTGCTTCAGAAGTTCTTCGCTCCCTTCGCGGGCAAGGATGCCTCCGGCTGGCCCGAGAATCAGACCCGCCTAATCGCCATCAACGAGGGACGGCTGGTCGACTTCTTCCTTGAGCATGAAGAAGAGTTCCCGTTGCTTGCCAAGCAGATCCAGCAGGGCTTGGCCGGAGCTGCTCCGGAAGGCGGTATCGCGGTTATCAACCTCAACCTGCGCTCGGTGGTCGCCGAACCCGAGAAAGGTCAGCCTTCGATTCTGGAGCGACTGATCGCCCGCATGACGCAGCAGGAATACTGGCAGGCATGCGACAAGTGCGATCTCAAGGGCAAATGCTACGCCTATCACAACGCCCGGACCTTCCAAGACCCGGTTGCCGGTCCCAAGGTGATCGAGCGCCTGAAGATGCTCTACACCATTACGCACCTGCGCGGCCGACTGCACATCACCATGCGCGACCTTCGTTCGGCGCTGGCCTTCATGCTGGTAGGCACCCAGGATTGCGACGGCATTCACCACCTCTATCAGAACGGCGGAGAAGAAACCCAGAATCGCATCCTTGACGGTTTCTATTTCAACTCGTGGCTTGGCGGTGCGGAAGGATCCAATGACCGGCTGATTGCCTTGCTGCGCGAAATTGACGTTGCCGAAGTCAGCAATCCCGACCTGGACCGCGAGCTTGGCTTCCTCAATCCCAAGACCAAGGCCATGAGCCGCTTCTCGTTCGCGGAGCGGGCTGGGTATGACGATGAACTTGTGGCAACGCTGTTCCGCAATCTGCCTCGCGATTACTCGTCGAAGAACCGTGCTCGACTGATCGCCAAACACCGCAATTATCTATCGCATATGCGCCGTCGCCATTTCTTTGAGCGACGCGACATCGGCTGGAAGGAGATGCTGCCATATGGAAGCATCGATCCCTTCCTGGATGCCATTGAGCAGCCGGGAGCGAAAAGTGTAGATGAGGTTACCGCCATTCTTCGAGCCATCAACCGGGGCGAAGGTCTGAGCGATCCGGCGCGTTTGGGCAACCAGTTGGCGCTGCGTGTTCGCCAGGTGGATAAGGGCACCATCCGCAGTTACCGTCTCTTTGACGGCGACCATTTCACGCTCCGCACCGAGCAGGAAAATGCGGCTCATCCTTTCCTTGAATGCCTGTCTCAGGCGCTGGTGCTGCTTTACGACTCCGGCGACGGGCACAAGGCCAGCCTGCGCATCAATCTTGACATCTATGAAATGCTGATGCGGCTCAACAACGGCTACCGTCCCAGCATCGAGGAGCAGGAAGGTTTCCTGTTAAGTCTGGCGGTATTCAAAAACCTGTTATCTGCTGCACTCTATCAAGAAGTTCTGCTGACGGAAAATGGGCTCCGGTTCTACCAGATAAACAGAAAAGAGGATGGCGTATTGGCATTGGGTGTTTCTGAAAAGGGGGCTGAATATCATGTCAATCAAGGGTAG	MAKVIPIGQPANESERQAIGFLRDHLPDGWLIFHNFEMRQGQEVFEIDIAILAPHAVYLVDVKGTRGNIDVYGSKWYPQGRQPFHSPLAKLRHHAKVMASFIRDSNPGQIELRKAHVHAAVLLTADDATVFDQAGIDSPDVTDFKHCLKYFRDASRIPDSRLDNITRFHSQIAKAITGNARPKSAALVFRDWQVEEKLGGTDRYTEYRAKHNLLGKSGGMARLRVYQADPYQDEAARKEEFKKISNAYRAVAHMPTHANVLAVKDLFVSDDEDKVVLVTEDLPGQALRLNINKVSMALTFDQKLQVMRDVLSALDHAHRHEVIHRNLTPDAILLTKGGQARVTDFDFARVGKNRTSTIADQVVDDLDAAYQAPECFKDPTQASIASDLYAAGLIFFELLTGELPFESVDQMMEADGKFPIKPSEHKPDLPKGIDEWLQKFCEFDPEERHTSAAIARKALDDLILPEAKNDSGPDVSGPAVVVPQLPDNLMNLPQDFILADRFRIQKKLGSGGFGVAYKVFDSLGDVVRVIKLVTKDRRSVYERLRREYRTLTNLPEHPHVVKVIWADRMADAKQTPYIVFEYVEGLDVSDLIDAEALSLDDAVRIVREAAEGLAHLHKHGVYHQDVKPSNLLWTDKGVRIIDFNVAVSENDEVQGGGGTRRYLPPDYDYSSEPDASDRMDRDLYALGISFYECLTGKYPFDDPTPPIKTQPRDPKQFKGCADLSSSLVNVLAKMIAPERKVRFASAEEFLIALAEVKRLRSVLTTGEIGTGPKVVAKLGFEPIKPNTNPFVTHLLTLYSQSQVSNAGTRGLDEVGKATYVSTYLDEKLKPALLKGEFRLVIISGNAGDGKTAFIQQFEAFAESKGAQIQRGANGAVFQLKGHTYQSNYDGSQDEGDERNDTVLQKFFAPFAGKDASGWPENQTRLIAINEGRLVDFFLEHEEEFPLLAKQIQQGLAGAAPEGGIAVINLNLRSVVAEPEKGQPSILERLIARMTQQEYWQACDKCDLKGKCYAYHNARTFQDPVAGPKVIERLKMLYTITHLRGRLHITMRDLRSALAFMLVGTQDCDGIHHLYQNGGEETQNRILDGFYFNSWLGGAEGSNDRLIALLREIDVAEVSNPDLDRELGFLNPKTKAMSRFSFAERAGYDDELVATLFRNLPRDYSSKNRARLIAKHRNYLSHMRRRHFFERRDIGWKEMLPYGSIDPFLDAIEQPGAKSVDEVTAILRAINRGEGLSDPARLGNQLALRVRQVDKGTIRSYRLFDGDHFTLRTEQENAAHPFLECLSQALVLLYDSGDGHKASLRINLDIYEMLMRLNNGYRPSIEEQEGFLLSLAVFKNLLSAALYQEVLLTENGLRFYQINRKEDGVLALGVSEKGAEYHVNQG				NA	NA	NA	NA	NA
BMS010_09029	1410			hypothetical protein	ATGAATAGAAGATTTCAATGCAGAGCGATTCCAAGCTCATGGCTTGAAAACAACGGTCGTCGCCTTGACTGCGGTCCTTACATGTCCGGGGCTGTTGAAGCGCGGGAACTTTTGAAGAGGCACAAAACTGAGCCTCTCAAGACTCTTACTGCCGAACGCAACGGCGGCATTTTTAATGGCCCTCGGTTTCCTCGAGTTTACGTTGACGATCCTGCGCATGGTGTTCCATTTCTGGGAAGCACAGACATCCTCGATGCGGATTTGTCAAACGTCTCTTTTTTGTCGAAGAAGCAAGTTGACGGAAATCCTGCCCTAGTAATTGATGAAGGGTGGACCCTTATCACTTGTTCGGGAACCATCGGACGGATGGCTTACGCCCGTTCGGATATGAAAGGAATGGCGGGTTCGCAACATTTCATGAGAGTTACGCCTGACGAAAGCAAAATCACATCAGGCTACCTCTACGCTTACCTTTCCAGTCGATTTGGTGTCCCCATTGTCGTTTCTGGGACTTATGGAGCAATCATTCAGCATATTGAGCCGCACCACATTGCCGACCTTCCTGTTCCTCGCCTTGGTTCGGTGGAAGATCAGGCGCATGAACTAGTTCAGCAAGCGGCCAATTTACGAACTCAAGCAAGTGAATCCCTTATAGAAGCCATTGCGATGATGGAGCGTGAGTCAGGGCTGCAAAGGATACCTGCAGCCGCACGTTCAGGAATTGGATTTGGTGCCAGGGCGGTATCTTCAGCCGCCCTGGTGAAGCGAATGGATGCAAGTTTTCACAGCCCCTTCCATGAAGATGCTCTGTGTTCGATTCGAACTATTGCAGTAGGCACCGTCTCCGTTCAAGAGATCGCAGAATCGATATTTGAACCAAAAAGGTTCAAACGCATCCAGGTTGATGACGAAGAGTTCGGAATTCCCATGTTCGGGACAACGGCATTGATGTGGGCGGACCCTCAGCCAAGTTTCTTGATTCCAAAATCCATGACGGGAGTTGAAGACCTCATAGTGGATAGGCGAACTGTCCTTATACCAAGGTCTGGACAAGTGTCCGGAATCATTGGTACAGCAGTATTGCCGTACGGAAAACTGATCGGAGGTGCTGTCTCCGAACATGCAATCCGTATTCATTGCCGCAACGAGATCGATGCTGGATACCTTTACGTTGCCCTTCGTTCAGAGCATGGTAGACGTCAACTCAAGTCCCGAGCCTACGGCTCCTCAATCCCCTCCTTAGACGTAGCTCAAGTTGGCCAGGTCATCGTTCCTGATCTGCGAGGCGATGTCCTTGAGCAAATCGGAGCCCTGGGCGTTCGCAGCGCCAAGCTTCGCAGTCAAGCCATTGAAATCGAAGATGAGGCTCGGTCCCTTGTCGAGCGCACCATCGAGGAAGGAGGTCGCTAA	MNRRFQCRAIPSSWLENNGRRLDCGPYMSGAVEARELLKRHKTEPLKTLTAERNGGIFNGPRFPRVYVDDPAHGVPFLGSTDILDADLSNVSFLSKKQVDGNPALVIDEGWTLITCSGTIGRMAYARSDMKGMAGSQHFMRVTPDESKITSGYLYAYLSSRFGVPIVVSGTYGAIIQHIEPHHIADLPVPRLGSVEDQAHELVQQAANLRTQASESLIEAIAMMERESGLQRIPAAARSGIGFGARAVSSAALVKRMDASFHSPFHEDALCSIRTIAVGTVSVQEIAESIFEPKRFKRIQVDDEEFGIPMFGTTALMWADPQPSFLIPKSMTGVEDLIVDRRTVLIPRSGQVSGIIGTAVLPYGKLIGGAVSEHAIRIHCRNEIDAGYLYVALRSEHGRRQLKSRAYGSSIPSLDVAQVGQVIVPDLRGDVLEQIGALGVRSAKLRSQAIEIEDEARSLVERTIEEGGR	PGPT0027175_693	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_I_R-M_SYSTEM,PGPT0027175-hsdS-K01154	NA	NA
BMS010_09030	2025			hypothetical protein	GTGAGCGATCAAGACGACATCATCGAGACCCCGCAGGATGCTGCCGAAGAGAGTGGCCCGGATAACTTCTTCATCGACATCCTGACCGGCAACAAGGAAAGCGCCTCAGCCAAAAAGCTGCTGGTGCAGAAAGTTCTGCGCCAGCTCATCGAGAGCTATGGCTTCGATCGTGATGATCTGGAGGTCAACTACAACCCTCAGATTCCCGGCCAGGGGCGCAAGCGTATCGACATTGCGATTTTTCGTCCCGATGCCGAGCACAACAACGACAACCTGCAGCGCATCATCGTCTGCAAGACTCAGAAAAAGCGCGACAAGCTCCGCTCCATTGCCGAGGCCGACGCCGACCTGCGCGAGCTCAAGGAGCTGCTGGAACTGATCCCGGGCGCGGCGCTGGGCATGTGGACCAACGGTCAAGAAGAGTTCCTGTTCCAGGTCGAGCGCACCCGTTTTGAAGTCCGGCCCAAGCCGCTGGGTGTCTGGCCGGTGCCGGGCGAACGCACCACCGACCTCGACCGTACCGGCGGTGTCATTCAGGTCAGCGCCGAGGCGGAGAATCTGGAAGACGCCCTGATGCGTTGCCGACAGTATCTGAATCGCAACCTGGGGCTCGACCACAAGGATTCCTTCAAGCAGTTGGCCGTGCTGATGCTGGCCAAGATCCACGACGAGACCCTGCCCACCGGTGAGCGCAAGTTCTGGATCAGGGGTGACGAGCCTTTCACCGAGGCGGGTCAACAGGCCATTGCCCAGCGCATCAATGAATCCATTACCGCCGCCAAGGCCTGGCAGCCAAACCTGCTGACTCGCGGCTGGGACCTGACGCTGGAACCTCACGAGACTGCCCGCGTGGTCATGGAACTGGCTCGCTATAACTTAAGCGAAACCCAGCCCCGCTACCGCATCGGTGCCTTCCGTGCGGTCGCTCGCAGCGTGATGGACGGCCGCGAGGGTCGTTACCCCACGCCTCTCAACGTGGCCGAAATGGCGGTGGAAATGCTTGACCCGCAACCCGGCGAACGCATCATGGACTGCTCCAGCGGCACCGGCACCTTCCTGGCCATGACCGCCGCGCACATCTTCAAGAAAAAACTGGCGGCTGTGGGCACCACGCCTGAAGAGGCCACCAATGAACAGATACGTCAGGCGCAAAACGAAACCGCCGCCTGGGCGGCCAGCAATGCCCTGGGCTGTGACATCGATCCCTTCCTGGCCGTCGCCAGCCGCATGAACCTGCTGTTCACCACCGGCAATCCCGGTCGTGTGTTCCGCATCGATGCTCGCACCTTCCCGGACGGGGATCTTGACGGTGTTGAGGATGCTTGTCGCGCGATGAGCCGGAACCTAGGAGATATGGATATCGTCCTGCTTAACCCCTGGTTCTCCACCCAAGACACCGTGAGCGACACCTCCATCCTGGAGCGCTACGACCTGGGCAACAACTGGGAGCGCGACGAAGAAGGTGGATTCCGCAACACCGGCAATCTAAACATCGGCGGTGTGCCGCCCGAGGTGCTGTTTATCGAACGCGCCCTGCAATGGGTGAAGCCCGGCACCGGCCGCGTGGGCATCCTGTTGCCCGATGGCTTGCTGGGCAATCCCAGCGACGAGTACGTGCGCTGGTGGATTCTCCGCCACTGCGAGGTCTTGGCCTCGGTTGACCTGCCGGTGGAGCCGTTCAAGGTCACGGTGAAGGAATATGGCCTGACGCCCGCCTTGCCCAGTCTCTTGGTACTGCGCCGCCGCAGCCAGGAAGAGCTCATCAATACCGAAGACCCCGAATACAAGGTCTTCATGGCCGTGGTGGACCGGGCTGGTGTAGACGCCCGGGGCAATCTCCTGTTCCAGCGAGCCCCCGATGGAGAGGAACTGGTTTTCGATGAGGAAGTGATCGAGCGGGTTCGAGAAGGCGGTGAAGTGGAAATCCGTCGGACCACACGCCGTAACCGCCGTGTTCATGACGAGCTGCCGCTAGTGGCAGAGAAATACAAGGAATTCCGCGCAACCGGCGAGGTAACGCTATGA	MSDQDDIIETPQDAAEESGPDNFFIDILTGNKESASAKKLLVQKVLRQLIESYGFDRDDLEVNYNPQIPGQGRKRIDIAIFRPDAEHNNDNLQRIIVCKTQKKRDKLRSIAEADADLRELKELLELIPGAALGMWTNGQEEFLFQVERTRFEVRPKPLGVWPVPGERTTDLDRTGGVIQVSAEAENLEDALMRCRQYLNRNLGLDHKDSFKQLAVLMLAKIHDETLPTGERKFWIRGDEPFTEAGQQAIAQRINESITAAKAWQPNLLTRGWDLTLEPHETARVVMELARYNLSETQPRYRIGAFRAVARSVMDGREGRYPTPLNVAEMAVEMLDPQPGERIMDCSSGTGTFLAMTAAHIFKKKLAAVGTTPEEATNEQIRQAQNETAAWAASNALGCDIDPFLAVASRMNLLFTTGNPGRVFRIDARTFPDGDLDGVEDACRAMSRNLGDMDIVLLNPWFSTQDTVSDTSILERYDLGNNWERDEEGGFRNTGNLNIGGVPPEVLFIERALQWVKPGTGRVGILLPDGLLGNPSDEYVRWWILRHCEVLASVDLPVEPFKVTVKEYGLTPALPSLLVLRRRSQEELINTEDPEYKVFMAVVDRAGVDARGNLLFQRAPDGEELVFDEEVIERVREGGEVEIRRTTRRNRRVHDELPLVAEKYKEFRATGEVTL	PGPT0027180_1249	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_I_R-M_SYSTEM,PGPT0027180-hsdM-K03427	NA	NA
BMS010_09031	2004			hypothetical protein	ATGAGCAGCAAGAAGAACAGCCAAGTCGAGAACACCATCCCGGCGGGATATACGCTTGACTACGTTTCCGGCAAGCAGATCAAGGAAACAAAGAAGGAGCTGGTCCGTCAGCGCGTCGTTCGTGCCTTGATCCACGAATACGGATTCTCGCCGGAAGACATGGAACTGGATTTTTCCATTGGCGGGCGCAAGAAGGTGGATGTGGCCATCTTCCACCACGGCAAGGACCACACGATTGAGAATCTCAGCCGCGCCGTGATTTGCCGCCAGGAACCGAACGTCGGCAAAAATGCCATGCGCATCCGCGACTTCGAGCAGGCCGCCAAAGACCTCGACGAGATCGAAACCATCATGCGCGAGGTCGATGCCGTTCAGTACGGCTTGTGGACCAACGGCCTGGAGTTCTTCTTTGTCGAGAAAGAGCAAAAGCGCTTCGAAACCAAGTGCAACCCCATCGGCGACTGGCCGATGGCCGAAGAGTCGGTCGGCACTAAGGAAGTCATCTCCGATGCCCATACCCGTGTCGCCGACAACGAGATGCTGAAGATCACCTTCCGGCGTTGCCACAACTTCATTCATGGCAACGAGGGCATGCCCAAGGACGCCGCCTTCTGGCAATTCCTGTACCTAATATTTTGCAAGATGCACGACGAGAATCTGCGTGCCAAGCAGCGGCAGGCCTGGCAGCGCCGTTTCTGGGCTGGACCCAGGGAGCAGTTCGAGCCACAAGGGCGCAAAGCCATCCGCGTCCGGATCGAGGAGCTCTTCACCGAGGTCAAGAAGCAGTACAAGAATATTTTCCGAGGCAACGAGGAGATCACTCTCTCCGACCGGGCGCTGGCCTTTATCGTTTCGGAACTGGCCAAGTACGACTTTACCCGAACTGACGTCGATGCCAAGGGCGTGGCCTACCAGGAGCTAGTTGGCGTTAACCTGCGTGGCGACCGGGGCCAGTATTTCACTCCTAGAGGCGTCGTGAAGCTGGTCATTGAGATGCTCGACCCCAAAGAGACCGAGACTCTGCTGGACCCGGCCTGTGGCACGGGCGGCTTCTTGGTCGCGACCCTCGGGCACATGTTGAAGAAGTTCCGCGAAGAGCAAAACATCCAGGCCGGAAACGAGAACACCACCGAGTTCCTGAACATCCACGAACGGCTGAAAGAGTATGCCGCCGCCAATGTCTTCGGCACCGACTTCGACCCGTTCCTGATCCGCGCCGCTCAGATGAACATGGTGCTCGCGGGCGATGGCCGTGGACATATCTACAACATCAACTCATTGGAGTTTCCGCTGGGGCATCTAGCCGACCTGCCCAGCGTCAAGAAGGAGATCCCGCTGGCGTCGGTGGATATCATCGCCACCAACCCTCCCTTCGGCTCCGACATCCCGATTACGGACAAGCACATTCTGGAGCAGTACGAGCTGGCTCATGGCTGGGAGCCGGACGGCGAAGGTGGATTCCGCAACACCGGCGTTCTCAAGGGCAGTGTTGCCCCCGAAATTCTCTTTATCGAGCGCTGCATCAAGTGGCTCAAGCCGGGGACCGGCCGCATGGGCATCGTTCTTCCCGACGGCGTTCTCGGCAATCCGGCCGCGGAATACATCCGCTGGTGGATCATGCGCGAAACGCAGGTGCTTGCTTCCGTCGACCTGCCGGTAGAAGCCTTCATTGCCGAAGCCAACGTCAACATCCTCACTAGCTTGCTGTTCCTACGCCGCAAGGACGACCAGGAGAAGCATCGCGAGGCCCTGGGTAGTGCCGAGGAATACCCAGTCTTCATGGCCGTTGCCGACAAGGTTGGCTTCGACCGCCGTGGTAACAAACTCTACAAGCGCACCCCGGACGGCGAAGAGATTGTCGAGCCCAAGCAGCATATCGAGCGCATCCGTATCGGCGGGCGCTTCGTGGAACGGACCCTGACCCGCAGTGAAAAGATCGAGGACAACGATCTGCCGGTCATCGCTGAGAAGTACCGCGAATTTCTCAAGGAGCAGAACGGGTGA	MSSKKNSQVENTIPAGYTLDYVSGKQIKETKKELVRQRVVRALIHEYGFSPEDMELDFSIGGRKKVDVAIFHHGKDHTIENLSRAVICRQEPNVGKNAMRIRDFEQAAKDLDEIETIMREVDAVQYGLWTNGLEFFFVEKEQKRFETKCNPIGDWPMAEESVGTKEVISDAHTRVADNEMLKITFRRCHNFIHGNEGMPKDAAFWQFLYLIFCKMHDENLRAKQRQAWQRRFWAGPREQFEPQGRKAIRVRIEELFTEVKKQYKNIFRGNEEITLSDRALAFIVSELAKYDFTRTDVDAKGVAYQELVGVNLRGDRGQYFTPRGVVKLVIEMLDPKETETLLDPACGTGGFLVATLGHMLKKFREEQNIQAGNENTTEFLNIHERLKEYAAANVFGTDFDPFLIRAAQMNMVLAGDGRGHIYNINSLEFPLGHLADLPSVKKEIPLASVDIIATNPPFGSDIPITDKHILEQYELAHGWEPDGEGGFRNTGVLKGSVAPEILFIERCIKWLKPGTGRMGIVLPDGVLGNPAAEYIRWWIMRETQVLASVDLPVEAFIAEANVNILTSLLFLRRKDDQEKHREALGSAEEYPVFMAVADKVGFDRRGNKLYKRTPDGEEIVEPKQHIERIRIGGRFVERTLTRSEKIEDNDLPVIAEKYREFLKEQNG	PGPT0027180_1215	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_I_R-M_SYSTEM,PGPT0027180-hsdM-K03427	NA	NA
BMS010_09032	207			hypothetical protein	ATGAGTATTGATGAGGTCCTGAAGCTGAAGGACGTCGCTGCGTTACTTAAGGTCGGCGAGAAGACGGTCTATTCCATGGCCCAGGCCGGGGAACTGCCTGCTTTCAAGGTCCGAGGTCAGTGGCGATTCTCCCGAAAGGACATCGACGCATGGATAGAGCAACAGAAACACACAAGCCAAGATTTCGGCGAGGACAACCAGAAATGA	MSIDEVLKLKDVAALLKVGEKTVYSMAQAGELPAFKVRGQWRFSRKDIDAWIEQQKHTSQDFGEDNQK				NA	NA	NA	NA	NA
BMS010_09033	351			hypothetical protein	ATGAAAAACTTTGGTGAAACCATACGCGACCTTCGAGCCGCCCAGGACCTTGGCCTGCGCGAGACGGCGACCAAGATAGGCATCTCTCCCGCCTATCTCAGTCGCATAGAACGTGGCAAAGAGCGCCCACCAAGGCCAGAGGTGATCAAGGCGCTGGCCAAGGTGCTGGCAGCCGATCCCGATGTGCTGTTCCGTTTGTCCTCATCCACGGACCCGGAAGTAGTCGACTACCTTCATGATCACCCCGAAGTCATGAACCTGCTTCGTTATATCAAAGAAACAAGCTTTACCGAAGATGAAATCAAAAACCTTATTCAGGCAGCCGAAAGCATTAAGACCGAGACTCATTAG	MKNFGETIRDLRAAQDLGLRETATKIGISPAYLSRIERGKERPPRPEVIKALAKVLAADPDVLFRLSSSTDPEVVDYLHDHPEVMNLLRYIKETSFTEDEIKNLIQAAESIKTETH				NA	NA	NA	NA	NA
BMS010_09034	855			hypothetical protein	ATGCAATCTGTTACCTACCGTCTTGATCAGAGTCCCGTGACGCCATTTCAGTACCAGCAGGATGTCGAGAAGTACGCGGGCAATATCGAGTGCTCAGAGTGCGAGGCTAGTGCCTGGTTCGTAAGAAGTTCAGTCAGTGGCGGTCGGGAGCGTGTTGCTTGCTTCGCCGCGCACCACCAAGACGGTTGCCAGATCAAGACGGTGGTACTGGTTGTTGATGATGAAGGGGCTGAGCCAGATGAGGGTACGGACACTACGCGCATCAATGTCGATCTAGATAAACGCAAACCCCAGGAAATCTTGGTGGCAGAGCCCAGAGAACGGCAGCCCGTTGATTCTCCATGGGGTGTGCTACAGCGGAAATACGCAAACGCTGCAGACTACCCGATCAATAAATCACTCCGGCAGATACTGTCGTGCCTGATCAAGAACCCCGAATACCCAGAGGATGATGTTTCGATCCGGATCACCACTGACGGTGGTCGAGTCGCTCTGGAAGGGGAAGTTCGTAAGTTGCTCTCCCATCAGCGACAGCTTGCTGGCATCGAACTCGGTACGGTTCGCTTGTTCTGGGGGCTGGTCACCAACGTCAACCGGAAGGATGGCGAGGTCTGGCTCAACTGTGGGGATTACCGTACCGAACCAAGCCTGCTAGTCAGAGATGGGAGCCTTGAGGAGGAAATGCTGAAGGCGTTCCGCCTCAAAAGTTTGGATGAGCTTGAGGGTGCCTATTTCCTTGCCATGGGATGGCTCGCTGGCTCGGAGCGCAAGCCCATTATCAACTTCGGCTTTGCGAAGTATATTGCCTTTGTAAAGTACCGTATTCAGTACGACTCCAATCATCCCCCCCGCTGA	MQSVTYRLDQSPVTPFQYQQDVEKYAGNIECSECEASAWFVRSSVSGGRERVACFAAHHQDGCQIKTVVLVVDDEGAEPDEGTDTTRINVDLDKRKPQEILVAEPRERQPVDSPWGVLQRKYANAADYPINKSLRQILSCLIKNPEYPEDDVSIRITTDGGRVALEGEVRKLLSHQRQLAGIELGTVRLFWGLVTNVNRKDGEVWLNCGDYRTEPSLLVRDGSLEEEMLKAFRLKSLDELEGAYFLAMGWLAGSERKPIINFGFAKYIAFVKYRIQYDSNHPPR				NA	NA	NA	NA	NA
BMS010_09035	1599			hypothetical protein	ATGAGCAGGTCCGATCTTTTCAGCAAGCAAAAAAAATTAAGGGAAAAAATTTCTGGGCGCCCGTTGATGCACCCCGCTGCAGACGCTGCAGACGTTGAGGCGCTCCTGAACTCACCATTGGATACCAGTCGAATTGCGACACTTGACTATTTTTCGATGATTTCAATTAACTCGGTTGCCTTGCCTGGTGAAGACCTAGCGTTGATCGAGCGTCTTGAAAAGGCCTTCGAGCGCAATCGTCTGGATGAAGCTTTAGAGAAGGCTCAGCGCGATGTTGTTGGTGCTATCGCTGGCCCGCTAGGGCTAGGCAAGGTGCTATCTGTCCATGAAAAAATAGGCGATAAGAATGGGGGGAATGTCACGACAATCCATAATGCCAAACAAAAAATTTATGCTCGTAAAGAGGATGAGTACAATCGGGATGACTACACAAAGTCACTTAATAGCCAAGGTAAAAAATTTCAAGGTAAAGGTAAAAAATCGGTTGGTGCTCAGTTTACCATCAGTCAAATGGATGCAGATCGGAATGTAACGGACGGTTACACCGGTAAAAAACTGAAAGCTGAAGATACGAGTCCGGATCACATTATTTCCAATTCAAGCTTCCACAAGAATGGCGGCTTTATGCTGTCGGCAGCAGAAAAAGCCGACTTTGGGACCGATACGCGAAATCTTGTCATAACTAAACGCTCTATTAATCAATCAATGAGTGACCACGAAAAGCAAGAGTGGATTGCACGAAGAAGTGGCAAGCGAGAGGTTGAAAACGGCGAGCATTACGAGGTCGATCCAGAGCTTGTAAGGCAGGTGGTCAAGCGCGGTGAGGAGGCCGCAGCAGAGCACGCTCCTACAATCGCCGAGAAGGGGAAGTTCTATGGTGTCAACTCCGCAAAGACAGGCATTAGTGAAGGCTTGAAGATGGGGGCTCAGCAGGTGTTTGGTCTTATTATGGTGGAGTTCTTTAGCGCGGCCACCCTTGAGATCAAAGACATGTATCAGCGCTACGCTGACAACTCCCCCGTACTTAATGAGGTCGGTGTCCGGCTGATTCGAGTGGGCAAGACAGTTGCTTCCAAATGGGATGGCGTGATCAAGGGATTCGGCCAGGGTTTTATTTCAGGCTTTATCTCCAACGTAGTTACTGTCCTCATCAACATGGTCTGCACCACTGGAAAGCGACTCGTGAGGATGATCCGAGAAGGCGTTTTTTCGCTGATGAAAGCTCTAGGTATGTTTATCTTTAAACCAGAGGATATGACCTGGGAGCAAGCTTCTCATGAGGGGCTGAAACTGCTTGGTGCTGCGGGCATTCTGATCGGCGGTATCGCCCTTGAAGAAGTACTGGAAAAGCTACTCATGACATTTCCGCCGTTGATTCCATTCGCCGGACAGCTCACCGCGATCATTATTGGTGCCTCTACTTCCTTCTGCATGATCTTCGCTTGCTACCTACTCGATAAGCTCGACCTGTTCGGGGCCATCAAGCTAGAGCGTGACAAGCACGTCATCCAGAAGTTGGATGAGTCCATAGAACAGCGGATTACTTCATCGAACACGATCATCGCCGAGATCGAGCGTTATCTTCCCTCTTCGGGGTGA	MSRSDLFSKQKKLREKISGRPLMHPAADAADVEALLNSPLDTSRIATLDYFSMISINSVALPGEDLALIERLEKAFERNRLDEALEKAQRDVVGAIAGPLGLGKVLSVHEKIGDKNGGNVTTIHNAKQKIYARKEDEYNRDDYTKSLNSQGKKFQGKGKKSVGAQFTISQMDADRNVTDGYTGKKLKAEDTSPDHIISNSSFHKNGGFMLSAAEKADFGTDTRNLVITKRSINQSMSDHEKQEWIARRSGKREVENGEHYEVDPELVRQVVKRGEEAAAEHAPTIAEKGKFYGVNSAKTGISEGLKMGAQQVFGLIMVEFFSAATLEIKDMYQRYADNSPVLNEVGVRLIRVGKTVASKWDGVIKGFGQGFISGFISNVVTVLINMVCTTGKRLVRMIREGVFSLMKALGMFIFKPEDMTWEQASHEGLKLLGAAGILIGGIALEEVLEKLLMTFPPLIPFAGQLTAIIIGASTSFCMIFACYLLDKLDLFGAIKLERDKHVIQKLDESIEQRITSSNTIIAEIERYLPSSG				NA	NA	NA	NA	NA
BMS010_09036	1005			hypothetical protein	ATGTTCAGAACGATCAAAAGTGGTCTGTCCAAAGTGGCTGATGGCATTGGGGATGCGGCGCGTGTTGTCGTAGACAAGGCCAGTGATGCTTATGACGTCACTGCAAGCGGACTCTCCTCTGCCGGATCCATTGTTTCTGACGTGGCAAGTAGCGCCAGGGACGTAGTTGCTGACACGGCTCGCACAGTTGCCGATAAGGCCGGTGATGCAATTGACGCAACGGCTAGCGGCTTGTCCTCGGCAGGGTCTGCTGTTGCAGACGCGGCAAGTGGCGCCAAGGATGTTATCGGCGACGTTGCATCAAAGGCATATGAATCCACGAAGGACTACGCGGGGGCTGTGGCATCCGGCGAAAAAGATGTTCAGTGGGGAAAGGTAATGCTTGGGGCATCCGTCGGAGTCGCAGCTGTTGCAGCTGCGCCATTCACGGGCGGAGGATCCCTACTTGCGGGGGCAACCTTGGCAAGCTCTCTTGCAGGTGCAGGTGCTGTGGCGGCTGCAGGCACGGCAGCTGTAGCGGGGGGCGTCATCGCTAATAAGCTTGGTGATGACTCTAAGGTACGTGAGGAGGCCTATCGAGAAGGCGTTAAAGTTACCAAGGCTCAACACCAGCAAGAGCTTGATCATCTACAGAAAAACCTAGAGGCCGCGCTCAATGGGCTGAAAGGAGCAGCGGAGCACTACAAAGCTATTATCGCTATGCATGCTGTAGCTGTAGCGACCGCAAACTGTGATGGTTCTATCTGTGAGAGAGAGCGCGAAAATATCGAACTCTTCATTTCGGGGGTTTCAGCAAGCTCAATCCCAGCTGAAGTAACCGCCAAGCTTCAATCCCTTTACGATACCCCTCCATCGATTCGAGATGCCTGGGAGCTAGCCAAACACTCGGGCGTGGCAATCCCTGTCTTTGACGAGATTATCCAGATCGTTATTCACGCAGATGAGGTTCAGCATCCGATGGAGGATGCCTTCATGCAGGCGTGGAATGGTTTTAAGCTCGCCTGA	MFRTIKSGLSKVADGIGDAARVVVDKASDAYDVTASGLSSAGSIVSDVASSARDVVADTARTVADKAGDAIDATASGLSSAGSAVADAASGAKDVIGDVASKAYESTKDYAGAVASGEKDVQWGKVMLGASVGVAAVAAAPFTGGGSLLAGATLASSLAGAGAVAAAGTAAVAGGVIANKLGDDSKVREEAYREGVKVTKAQHQQELDHLQKNLEAALNGLKGAAEHYKAIIAMHAVAVATANCDGSICERERENIELFISGVSASSIPAEVTAKLQSLYDTPPSIRDAWELAKHSGVAIPVFDEIIQIVIHADEVQHPMEDAFMQAWNGFKLA				NA	NA	NA	NA	NA
BMS010_09037	123			hypothetical protein	ATGAAAAATCTATTTGCAATAGTCGGTTTCATCGTTATCGCAAGAAAGGCATTGGATCTGTATTTCGAGTACAGCGCCCTCAAACGTGAGAAAAATGCTCGCGAAGCAGCTCAGCAACACTGA	MKNLFAIVGFIVIARKALDLYFEYSALKREKNAREAAQQH				NA	NA	NA	NA	NA
BMS010_09038	669			hypothetical protein	ATGGCATTGATCACCTGTTACGAATGCGACCGTATGGCTAGCGACCAAGCAGCCGCCTGCCCACACTGTGGTGCGCCTATCGCCGATCAGGCCGCCGCCGTTCAAGCGCAGCCAGTTCTCGTAGTTAACCGGAGCGTGGGTTTCTGGCTCTGCGTGGGCGTGTTCCTGTTTCCGGCCGTTTTTGTCTGGTTCTTGCTGCGCCAAGGGCATAGCACCACGAGCCGGGTAATTGGCTTTGCTTGGTTGGGCTTGGCGCTGTTTGTTATGGCTGGGCACGAGCGGAGCGATACGCGGCCAGCGGCCGCTACTACCAGCCAAGGTCAGCCAGAAAATGTGTCGGCGCCTGCCGAACCACGGAGTGAAATCAGCGCCCAGCACCTGGCTCAAGCTTACGACCGCAATACCGTGGCGGCTGATCAGCAGTTCAAGGGCAAGCGTTTCCAGGTCACAGGCGTGGTGGATTCCGTCAATACCGATCTGTTCGGCAATCCCTACGTCACCCTGCGCGGTAGGGTGAATCAATTTATGGAGCCGCAGTTCGAGCTGGACGAAGCACACGCCAACTATGCGGCGGGGCTTCAGGCGGGCATGCGCATCAGCCTGGTGTGCACGGGGAGCGGCGATGTGGCAAAAACGCCAATGTCCCAGGATTGCGTGCCCGCAAACTGA	MALITCYECDRMASDQAAACPHCGAPIADQAAAVQAQPVLVVNRSVGFWLCVGVFLFPAVFVWFLLRQGHSTTSRVIGFAWLGLALFVMAGHERSDTRPAAATTSQGQPENVSAPAEPRSEISAQHLAQAYDRNTVAADQQFKGKRFQVTGVVDSVNTDLFGNPYVTLRGRVNQFMEPQFELDEAHANYAAGLQAGMRISLVCTGSGDVAKTPMSQDCVPAN				NA	NA	NA	NA	NA
BMS010_09039	876			hypothetical protein	ATGAAACGCAAGCAATCAATCGAATCCGTGCGCTGGGATCTGGCGTTGCGCTATCGCCTGATCGAGACAGTGGCCTGGTGGGAAGGCCGTCTGACCACTAATCACCTGATTCAGAGCTTCGGCATCAGCCGCCAACAGGCGTCGAAAGACATCAACTCCTACATCACCGATTACGCGCCGAAGAACCTGGAATATGACAAGCATATAAAGGGGTATGTACCCAGCAGGCACTTCAAACCGCTGTTCATCGATGACAGCGCCAGCGCCTATCTACACCTACTCAACCAAAATCACGACCGTGCGCCGCACATCGAGGGCCTAGCATTAGCCTATGCCCACACCGAGGTGCTGCAGGTGCCGGATCGCACGGTACGGCCGGAATTACTGCGCCCGCTTCTGCGCGCCTGCCGCGAGGGGCTGCGCCTGGAGTGTGAGTACGTATCCTTCACTACGCCGGATGCAGAGACACGCTTGATCGCTCCGCATACGCTGATTTACACCGGCATGCGCTGGCACGTGCGCGCGTACTGCGAGAAGAATCGCGATTATCGGGACTTCGTATTGAGTCGCTTCCGCGGCGTGCCTGAGCTTATGGATGACCCTTCGGCCAATGGACGCGATCAGGATGCAGGCTGGAGCGCTCAGGTGGCCGTGGTGATCGAACCGGACTCACGACTAAAACCGGAGCAGAGGGTAATCATCGAAACCGACTACGGGATGCGCGAGGGTCAGCTGGTGATCGAAACGCGCGGAGCCCTGGTGCAGTACGTTCTGCAGCGCTACCAAATCGACCCGACCAAGGTGCATGCCAAGGCAACGGCGCAGCAGATCGTCGTCGCCAACCTGGATGAACTGCAACCCTGGCTGTACCACTAA	MKRKQSIESVRWDLALRYRLIETVAWWEGRLTTNHLIQSFGISRQQASKDINSYITDYAPKNLEYDKHIKGYVPSRHFKPLFIDDSASAYLHLLNQNHDRAPHIEGLALAYAHTEVLQVPDRTVRPELLRPLLRACREGLRLECEYVSFTTPDAETRLIAPHTLIYTGMRWHVRAYCEKNRDYRDFVLSRFRGVPELMDDPSANGRDQDAGWSAQVAVVIEPDSRLKPEQRVIIETDYGMREGQLVIETRGALVQYVLQRYQIDPTKVHAKATAQQIVVANLDELQPWLYH				NA	NA	NA	NA	NA
BMS010_09040	582			IS66 family transposase ISPre3	ATGGCCGTTCAGACCTCGCTATACACCCTGCATATCCAGCTGGAGCCACTGCAGTTCGAGCCGTCGATTTGGAGGCGGATCCAGGTAACGGGTGACTGTTCGCTGCGCAAGCTCCACCACTTCATTCAAGCTGCGTTTGGCTGGTCCAGCAGTCATCTACATGAATTCAGCGACGGACTTCATCGCTACATGCCACTGGACGCCGAGTTCGCCGACATGTTCGAAGACGCGCTGGATGACCGCAAAATCAAACTGCGTCGGGTACTGAAAGATAGCGACCGCCTGCGCTATCTCTACGATTTCGGCGACAGCTGGCAACATGTGATCGCAGTGGAGGCCATCGAGCCCTGTGACTTCAGCGGCACCTGGTGCGAAGTGCTAGACGGCGCCCGCGCCTGCCCACCGGAGGACGTGGGTGGAGTTCCGGGCTATCAGCACTTCCTGCAAAACATCCAGCTCCCTGACAGCGACGAAGGCCGCAATGCACTGGAATGGGCAGGCGGCAGCTTCGATGCAGAGCTATTTGATCGCCGCGCAGCTGCCGCGGCAGTGCAACGGATCTGCAACAACTTCTGGGGCTAG	MAVQTSLYTLHIQLEPLQFEPSIWRRIQVTGDCSLRKLHHFIQAAFGWSSSHLHEFSDGLHRYMPLDAEFADMFEDALDDRKIKLRRVLKDSDRLRYLYDFGDSWQHVIAVEAIEPCDFSGTWCEVLDGARACPPEDVGGVPGYQHFLQNIQLPDSDEGRNALEWAGGSFDAELFDRRAAAAAVQRICNNFWG				NA	NA	NA	NA	NA
BMS010_09041	102			hypothetical protein	ATGATCATGCTGAGCTCACTGAGTGAATATCTCGTGCTGTTGGGTTCGATGCTGCTGATGATTGGGTTGGCACGGCTCGCTTACGGCGGCCGTGCAATCTGA	MIMLSSLSEYLVLLGSMLLMIGLARLAYGGRAI				NA	NA	NA	NA	NA
BMS010_09042	2142			hypothetical protein	GTGGCGCCTAACTTGCGGTGCAGGGACTACTACCAGGCGCAGTTCGCAGGGTATGCGCGCTACCTGGCATGCGGCGTCGCGCTTGATGAGTGTCTGCATGACTTTCTCGATCAACGACCAAGCGGAAAGTACACCCAGAGGCATCGTGCCTCTGGGCTGGCTGGCGCCGATTTCTGGCGGCAGCCCGCAAATGTAGATGGAGCTGCTCTGGCCAGTCTGGCGCTTGCGCGTGTACTGCATTTTGACGACGTGATCAGTACTGAGCTGTTGGATCACCTGGCAGTTCATCACCCTGATCAGCTGCGCTGGGCCATTCGCTACTCCAAGCTTTTCACCCGTAGGGATTCGCCTCTCTGGATTCACCTTAAAGAAAACTGCACTAGCGAGCAGTGGCAGACGTTCTTCGGAGTTTGCGAGCGTCTGCTGCTGCAACTGGAACCCTTTGAAGCCGTGATCAATAGTGCTGAGCGACAACTGCAGTCTCTGACGCTTTTGGAGCTGCTGTCCTATCTCAGCGTATTGGCCTATGCCCGTCTCGGGGAGGCTGGTGACGATCCAGCAGGCATGGATTGGCTTGCTTACGAGCGGATCATCCTGCGTAAGCTGAAGTCTTGTGACGAGTCTGATTTTCGGCTTTCTGCCGATGTGCTCGGTCGTTCGTTGAGGCAGCATCTGTCGCCCATGTTGTTTCCGCAGCCTGGGGAAGGCGCGGAGTGCGCTGTAAACCTAGAAGCAGTCGGCGCGATGATCGATGCAACGCGGGAGCTCATTGACTATGAGCGCTCCATCGATTGGTTTTGCTTCGACAGTGAATGCGATTACCAGCTCCAGCCTGGGCAATCAGTCATTTTCAACAAAACAGACGAGGGTACTCTGCGCTGGCAGCGTACTGAGCGAAAAAGCCAGCTGCTATGGTGCTACTGGATGCGCCGCGCGGTCGATGTCTTTGCGGCTTCTGAGCTGGCAGGGCAGGTCATCGGGAGTGCTGAAAACCATGAAGCCAACCAGCTTGCCTACATCAAAGCGATTCGCAGCCAGCTTTATCTGCAGGTGGTCTTTGGGCTCGGCGAAAGCATCAGGCTTAACAATGGGGCAGAGGTCTCGCTGCATCACGCCATGCTGACCAGTGAGCTGACTAGCGTCTTTTTCGAGCAGGCCTATCTGAGACCTTATCGGCGATACCTGGCTGACTCCGCTGATCCCATAGCGGCACTGGGGCGTTTGGCTTTTGAGGGGCTGCTGCAGGGCGAGAATCGCTTTCCCATGACCTGGTCGGAGTTGCCGGAGAAAGTGGCGCGGATACGCGCGTGGACGGTGAGCGATGAGCATCCCGCGGGTGATCCAGAGGCCGCGAAAGCGATTCTGCAGTTTTGGACCAGTGATCTTCAGGCGCTGTCCGAGCAAATCAAGCAAGCACCTAATCAACCGACGCCAAGGCTATACGAGCGGCCGTTCTACAAAATCGGCCGCGTTAGTTTTCAGTTTCCTTGGGTTGCGGGAAGACAGAACAGTCTCACCGCCGCGGTAAACAATTTGCGTCGAGTAGATCCGCGCAGGCCTGAGCTTCGCTCCGAAACAGAGCGCGTCGAGCACGAACTGGCTGCGTCTCTTCGTCAGCGAGGTTTCAGTGTGGTTGTGGGCTACCAGCCGCCTCGCATGGATGAGGGCGATGTAGGTGAGATCGATGTGCTGGCGTGTCTCGAAGGCGTGTTGCTATTGCTCGAGGTCAAATCAGGATTTATCCGGTCCAACGGCCACGAAGTCTGGCTTCACCGCACGAATACGTTGCGTAAGGCTGCTAGGCAGTTGAAGCGTAAAAGCCCTGCGGTGCTCCCTGCATTGCTGGCGGACGCTAACTTGCGTAACGCGCTAGGGCTGGCGATTTTTGATCCTGCGCCGGACTTGCATACCTGGGTTGTAGACACCTCGATTGAGCAGGATGGGGAGGTTGTTGATGACGCTCTGGTGGTATCCCGAGAAGTCCTGGAGGTCGCGCTACGTGATGAGCAGCATTACCTGAGACTGTTCGATCAGGGCGCGGAGGAAGAGGAGGCAATCGCCACGCTTTATCCGGACGGATTCAGCGCTCAGGCGTTTATCCGAGTCATCGAGCGCAACGAGGTTTGGCGGGACTTACTTTAA	MAPNLRCRDYYQAQFAGYARYLACGVALDECLHDFLDQRPSGKYTQRHRASGLAGADFWRQPANVDGAALASLALARVLHFDDVISTELLDHLAVHHPDQLRWAIRYSKLFTRRDSPLWIHLKENCTSEQWQTFFGVCERLLLQLEPFEAVINSAERQLQSLTLLELLSYLSVLAYARLGEAGDDPAGMDWLAYERIILRKLKSCDESDFRLSADVLGRSLRQHLSPMLFPQPGEGAECAVNLEAVGAMIDATRELIDYERSIDWFCFDSECDYQLQPGQSVIFNKTDEGTLRWQRTERKSQLLWCYWMRRAVDVFAASELAGQVIGSAENHEANQLAYIKAIRSQLYLQVVFGLGESIRLNNGAEVSLHHAMLTSELTSVFFEQAYLRPYRRYLADSADPIAALGRLAFEGLLQGENRFPMTWSELPEKVARIRAWTVSDEHPAGDPEAAKAILQFWTSDLQALSEQIKQAPNQPTPRLYERPFYKIGRVSFQFPWVAGRQNSLTAAVNNLRRVDPRRPELRSETERVEHELAASLRQRGFSVVVGYQPPRMDEGDVGEIDVLACLEGVLLLLEVKSGFIRSNGHEVWLHRTNTLRKAARQLKRKSPAVLPALLADANLRNALGLAIFDPAPDLHTWVVDTSIEQDGEVVDDALVVSREVLEVALRDEQHYLRLFDQGAEEEEAIATLYPDGFSAQAFIRVIERNEVWRDLL				NA	NA	NA	NA	NA
BMS010_09043	1368			hypothetical protein	ATGGAAAAGAGCACCTACCTACAGACTCCCGCCGTAGCGAATTTCGTCAAATGGATGAGTGAGAACCTCGATGGCGATACCTTCGCGCATCAGTACACGAACCGTCGTTCGGGATGTGTCTGGCGCTGCGACAGCCTTTATGACGCTTATGCCCAGTATCACTGGCCGCACCCAGGCAATCAGCGTCTCGGAGAGCCGACAGGCACCACTTTCGAATCCAGCGCAGCCACTCTTCAGGCGCTTAGTCAGGATCTTCAGAGCGCTTTGGGATCCCAGGGAAGCGATCACTCGGTTGTAACGGCTGCAGTCGACGTCATGACATGGGGTGGCGTACGTGCTGGCAACGTACGTTGGCTGCATGCGAACCAAGCCAATCTACCTCAGGTTCTATCCAGCACCAGGCAAGCCTTGGATGCAGGAAGCACTGATCATCCTCTGCTAGTTGCCAAAGAGCTCCGGTTCAATGCCGGGATGACCAAGGTCTATTCACTCATCTGCGACCGCTTCGTTATTTATGACAGCCGTGTTGCTGCGGCGTTGGGTTGGGCCGTTGTGAAGTTTTGCCAGGCCGCTGGGCTGTCGGAGGTGCCGCAAGAGCTTCGTTTCCCGTGGGCTCCTGCAAAGAGCGCAGCTAACGACCCGTCCCCTAAACGGCGTAACCCAGGCCAGTCAGAATTTTTCTTTCCGAGGTTAAAGTCAGGGGCTAACCATGCTGCCTGGAATCTGAAAGCAAGTTGGTTGCTCAGTGACGTGCTGGAGCAGCCTGCGGCGCAGAACAGTCGATTCAATCAGATTGAGTGTTTTGATACTCGTCTAAGGGCGCTCGAGGCTGCGCTTTTCATGATTGGGTATGACCTGGATGCTACTCAGGCAGGCGCATCCGCGGCGATTTCCGAGCAGGTCATGGACCGCGCCCAAGAAGATGAGGTCGATAGTTTTTGGAACGACTGTCAGACGCTAAGCAAGGGGAATCCCTTTCGCTACAAACTGACGGACAGTGGCATTGCTATCGAGGGTGGTCCGACCTTTACGTTGGCGGACATCTCTTCAACCTTGATGCAGCTCTGGACTGACTTTGGCTCGAGTGCGTTCCCCCTTGCAAACAGCGCTACCGATGTTCGTGATGGCACTGCCCCAAAAGGCATGGGGGTAGCCTACTTTCAGGCGACCGGCGCCAATCCGCCCAATACCAGTAAGCTCGCTGCTGTCTTGGAGGAGCTGGGGGCGATTGTTCCTACAGCGGGATATTCTGCTCGATCGCTGAGCTGGACACTCGATTTGCGTCGGCTTGGGCTCGATCAGGGCGCGCGTACGGTCGATATTGATTCTTTCTGGGCTGAGGTGCTCCGTGCTGAGCAGGAAGGCTGA	MEKSTYLQTPAVANFVKWMSENLDGDTFAHQYTNRRSGCVWRCDSLYDAYAQYHWPHPGNQRLGEPTGTTFESSAATLQALSQDLQSALGSQGSDHSVVTAAVDVMTWGGVRAGNVRWLHANQANLPQVLSSTRQALDAGSTDHPLLVAKELRFNAGMTKVYSLICDRFVIYDSRVAAALGWAVVKFCQAAGLSEVPQELRFPWAPAKSAANDPSPKRRNPGQSEFFFPRLKSGANHAAWNLKASWLLSDVLEQPAAQNSRFNQIECFDTRLRALEAALFMIGYDLDATQAGASAAISEQVMDRAQEDEVDSFWNDCQTLSKGNPFRYKLTDSGIAIEGGPTFTLADISSTLMQLWTDFGSSAFPLANSATDVRDGTAPKGMGVAYFQATGANPPNTSKLAAVLEELGAIVPTAGYSARSLSWTLDLRRLGLDQGARTVDIDSFWAEVLRAEQEG				NA	NA	NA	NA	NA
BMS010_09044	879			hypothetical protein	ATGAGCAAATCGGTCTGTGTGTTCAATCTGCTGGAGCGATTGCTCCCGATGCCTGAGCAGGTTGCGGTTGTCGAGCCGGGTGAGATGCAGAGTCTCTACAGCGGGGTTGGGATTCCATCCTTGCGCACCGCGGAGCTGGCAGGGCAGGCCAGGTTTGCCAATCTGCATGAAGTCAAAGCGGCTAATCCACTGCTGGGATTGGTTGACCTGATCGAGATTCACCAAACATACGCTTGCCTGAGGGTCGCGGCCGTTGATGGCGACGTCGATGCGATAAATGATTTGGGCTGGTTATGGCTCAATGGAACGCGCTTGGCATCTGACCCAATATTGGCAAGGCGGTTGTTCAAGCTAGCTGCTGTCGAGGGCAATGGCGAAGCGTTATTCAACCTGGCCGAGCAGGCTTACTACGGCAAGGGGATGGTCGCGAATCCTGCTCTTGCCATCGACTACTACGAGCAAGCATTCGAGTATGGTGTGCCAGGTGCTGCGCTGGCGCTGGGAGCAATCTACGAAGAGGGTGACGAAGGTGTCATGGTCGACCATGGCAGGGCCATGCTCTGGTACAAGCGGGCGGTCGAAGAGGGGGATGTACTGGCAGGTTTTTATCGTGGACGGCTGGCACTGAATGAATCATCGACAGAGCACGACATGGCCTCCGGGGTTTACTGGTTGCAATGGTCCGCAATGCTCGGTGAGCGGTGCGCGAGCGAAGCGCTTGTTGAACTCTACAGTTCTCCGTTCAATTCACCACCTGATCCCGAGCGTCGGCTGTACCGCTTCTGGCGTGATTTTGCTATCGACCAGGGGAGTAGCACAGCGATCGCGATGAGGGATGCGGATGAGGTTTCTAGCTTGCGCCTTGCTGAGGACAATTGA	MSKSVCVFNLLERLLPMPEQVAVVEPGEMQSLYSGVGIPSLRTAELAGQARFANLHEVKAANPLLGLVDLIEIHQTYACLRVAAVDGDVDAINDLGWLWLNGTRLASDPILARRLFKLAAVEGNGEALFNLAEQAYYGKGMVANPALAIDYYEQAFEYGVPGAALALGAIYEEGDEGVMVDHGRAMLWYKRAVEEGDVLAGFYRGRLALNESSTEHDMASGVYWLQWSAMLGERCASEALVELYSSPFNSPPDPERRLYRFWRDFAIDQGSSTAIAMRDADEVSSLRLAEDN	PGPT0000855_3542	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-ACIDITY|NITROGEN_RELATED_REGULATION,PGPT0000855-exoR-K07126	NA	NA
BMS010_09045	993			hypothetical protein	GTGGATCAGCTATTTCGCCAGGACCTGATTCTGGGAATTCTTCCCGGCAAGGAAAACGCGTTGGGCAGTACAGCCATTCGCGAGCGCGTAGCTCGACAAGGTCTGAATGTCGACCTGAGGACGATCCAGCGGGACCTGAGCGATCTGAAGGAAAAATACCCTCATGTACACAGCAGAAAAGACGGACGCTCGACGCTGTGGTGGGCGGAAAAGTCCCTTTCCCGATTGTCGATGCTTCCCACCGATGCCATGAACCTGACCATGATCATGGATCACGCCACGCGTTTTGGGATGGCTGCGCAAGTCGAACGACTGGCCCCGCTTCGTGATTACGCTGTTTCCCTGCTCAAAGGCAACCGGCCCAGTCAGGATGTTTCCAATAAGATCACCAGCAACACGCGCTTCATTACCCTGCAGCCCAGCGTGGTCAAACAAGAGGTGCTGGACGTCATTCAGCAAGCGCTTTTAGACGGCATGTCAATCGAAGCGCTCTACCAGAAGCGTGGCGCCGACGAGCCCAAGCTGCTCCAACTAAAACCGCTGGGGCTATCCTATCAAGATTCGAACATCTATCTCTCGTGCGTCTTCAAGGGGTTGCCTCAAGGCAGTATTGCTGCGCTGCCCCTGCATCGTTTCAGAACCGCACGCACGATGTTCGAGGATATCGCTGCGCCAGAGGACTACGACATCAATTCAGTCCCCGCAATGCGCAGCCTGGTGGGTCTGAGAACGGATCATCCTGTCCAGATCCGACTCCGCGTCAGCCACACCTTGAGCGAGCGCCTGCAGGAGAACCCACTCACTGAAGACCAGACTCTGGAACCGGAAACGACGGACTGGTGGCTTATGAGCGGCAGCATCCACCTCAGCCAGGGTTTGGACTTGTGGCTGCTGAGCCAAGGTGAACATCTGGAAGTTCTCGAGCCCACCGCCCTTCGTGCGCAAATCGCAGCGTCGGCTAAGCGCATGGCGGCTCTTTACGCCGGCGAGTGA	MDQLFRQDLILGILPGKENALGSTAIRERVARQGLNVDLRTIQRDLSDLKEKYPHVHSRKDGRSTLWWAEKSLSRLSMLPTDAMNLTMIMDHATRFGMAAQVERLAPLRDYAVSLLKGNRPSQDVSNKITSNTRFITLQPSVVKQEVLDVIQQALLDGMSIEALYQKRGADEPKLLQLKPLGLSYQDSNIYLSCVFKGLPQGSIAALPLHRFRTARTMFEDIAAPEDYDINSVPAMRSLVGLRTDHPVQIRLRVSHTLSERLQENPLTEDQTLEPETTDWWLMSGSIHLSQGLDLWLLSQGEHLEVLEPTALRAQIAASAKRMAALYAGE				NA	NA	NA	NA	NA
BMS010_09046	165			hypothetical protein	ATGAAAACCTACTCCGCCTTTTTACAACGTGTCGTGGCGAATGCTGGGCCGCGGGCCAATTTCACGATCACCGTCCAAGCGGTGAACTCGGCCATGGCACGGGTAACAGCAGAAGCTCAGTATCCTGGATACAAATGCATCAACGCTCCGGTGCAAGTCCGGTAA	MKTYSAFLQRVVANAGPRANFTITVQAVNSAMARVTAEAQYPGYKCINAPVQVR				NA	NA	NA	NA	NA
BMS010_09047	831			hypothetical protein	ATGCATCAACGCTCCGGTGCAAGTCCGGTAACTGTTCCCATCATGCGGCCTCGGGACTACCTCTTCTACCTGCTGGGCATCGGTGATGACCCGCAGGTCGCCGTGCCACTCGTTGCGCAGCAGTCGTCGCCCCCGACTCAAGAGGGCTGCTACGAAATTGCCTTGCTCGCTGCTACTGAGGAGGAGGCACTTCGGGCATGCAAGGAATTCCGTGAGAGAGGTAGCAGCTCCCACGAACTCCCCAAGCAGAGGCAATCGCGCCACAACTTCCACGCAATCGCTCCGGATGCCACCTGGCCAACGCAGCGATTCCACGAGCTTCACTGGCTATGCAGCCACAGGGACTCGCCAGCCAATCTACAGCGCCTGAAGGGGCTGGCCGACATCATCCATGTACATTACCTCCGACCAGCTCCTTCAGCGATGCCCGCCGGCATTCGCGTCTATCAGTGGACGAAAGAGCAAGACATGTTCGACTTCTGGCATGCCCTGTACGCTGCACGGGACAACCCAAATTTACTTGGGTTGGACTGGACCAGTTATGCCCCCTGGAATCCGCAACAGCTGATCGGCAGGTACGTCTCAGCGCAAGCGAAATCCGCCCTTCAAGCCTTGCAGCATTTACGAAACCGCGTGCGACTTTACCAGTCGGATCCTGCACAGGCAGCACTGCTAGTTGTTGATGGCAAGCCTACGCTTACGCTCGGCGAATACACACATATAGTCGACAGTCTGGCGGAAGTACTGGGGTGTGAAGTCGCCCCAGTGCTTCATCTCACGGATCTGCATGAAGGGTGCAAAATGAAACTGCTGATGTTTTCTCCGCAGTGA	MHQRSGASPVTVPIMRPRDYLFYLLGIGDDPQVAVPLVAQQSSPPTQEGCYEIALLAATEEEALRACKEFRERGSSSHELPKQRQSRHNFHAIAPDATWPTQRFHELHWLCSHRDSPANLQRLKGLADIIHVHYLRPAPSAMPAGIRVYQWTKEQDMFDFWHALYAARDNPNLLGLDWTSYAPWNPQQLIGRYVSAQAKSALQALQHLRNRVRLYQSDPAQAALLVVDGKPTLTLGEYTHIVDSLAEVLGCEVAPVLHLTDLHEGCKMKLLMFSPQ				NA	NA	NA	NA	NA
BMS010_09048	330			hypothetical protein	ATGTCGATTAACTGCCCTTCCTGTAACTCTGCGCGCGTCACAGCGCGCAACCATGCCCGCAAAATCGGTGGTGCAGCCGGTGCTGTAGGTGGAGCCGCGACCGGCGCGGCAAGCGCTGCCGCCGGAGCACAAAGTGGTGCTGCCCTGGGCGCAGTCGCGGGCCCCATCGGAGCGGCCTTGGGTGGCCTGGCTGGTGCCATCCTGGGCGGCTTGGCTGGTGGCGCCGTCGGCAGCCTCGCCGGTGCACGCATGGGTGAAGAAATCGATGCCCGCGTGCTCGATAACTTCGAGTGCCACGCCTGCGGCCACGTCTTTTCCCTCGACCAGTAG	MSINCPSCNSARVTARNHARKIGGAAGAVGGAATGAASAAAGAQSGAALGAVAGPIGAALGGLAGAILGGLAGGAVGSLAGARMGEEIDARVLDNFECHACGHVFSLDQ				NA	NA	NA	NA	NA
BMS010_09049	969			hypothetical protein	ATGGCTCATCAAATCGAGCAAATGGCCTACGTCGGAGCCACCCCTTGGCACGGCCTAGGTAATCAACTCACGCAAAAGCAGCCCCTGGAAGTCTGGCAGCGCGAAGCCGGTATGGACTGGCAGATCTTGGAAAGCCCCGTGCATTTCAAGTCAGACGCGATTGGCCATCTCGGTACGATCCATTCGTTCTCCGAGCAGAAGGTATTGTTCCGTTCGGACACCAAGGCGCCGCTGTCGGTGGTCTCCCAGCGCTACCACACCGTGCAACCGCGCGAGGTGCTGGAGTTCTACAGGGATCTGACCGAGGTCTCCGGCTATGAGCTGGAAACCGCTGGCGTACTCAAAGGCGGGCGCAAGTTCTGGGCGCTGGCACGTACCGGACAAGGCGCCGCGCTCAAGGGCAACGACCAGGTCAACGGTTACCTGCTGTTGGCGACGTCCTGCGACGGCACCCTGGCCACCACGGCAACGCCTACCACCGTGCGCGTGGTGTGCAACAACACCCTGACCATCGCCCTGGACGGAACCAGTCGCGCGATCAAGGTGCCGCACAACACTCGCTTCGATCCCCAAGCGGTGAAAAAGCAGCTTGGCATCGCCGTCTCGCAATGGGACGACTTCATGTACCGCATGCGCGCGCTGGCCGAGCGTAAGGTGCAATGGCATGAGGCACTGGGCTTCTTCATGAACGTCATGTGCGAGACCAGCCCGACCGGTGCGCTACCCGAACATCTGCCCAACGAACGCGCCCTGCGCAAGGTGCAGGAACTGTACGAAGGCCGTGGCCGGGGCAGCCAACTTGACTCGGCACGCGGCACCGCCTGGGGCCTGCTCAACGCCGTCACCGAGTATGTCGACCACGAGCGCCGTGCACGCAGCAACGAGTACCGCATGGACTCGGCCTGGTTCGGCCAAGGCGCGCAGATCAAGCAGCGCGCCCTGAACGCTGCGCTGCAGCTCGCCGCATAA	MAHQIEQMAYVGATPWHGLGNQLTQKQPLEVWQREAGMDWQILESPVHFKSDAIGHLGTIHSFSEQKVLFRSDTKAPLSVVSQRYHTVQPREVLEFYRDLTEVSGYELETAGVLKGGRKFWALARTGQGAALKGNDQVNGYLLLATSCDGTLATTATPTTVRVVCNNTLTIALDGTSRAIKVPHNTRFDPQAVKKQLGIAVSQWDDFMYRMRALAERKVQWHEALGFFMNVMCETSPTGALPEHLPNERALRKVQELYEGRGRGSQLDSARGTAWGLLNAVTEYVDHERRARSNEYRMDSAWFGQGAQIKQRALNAALQLAA				NA	NA	NA	NA	NA
BMS010_09050	1005			hypothetical protein	ATGAAAGCAACGTCACTGAACAGCAGCACCCGCAAGAAACGCCCTGCCCTGCGCCTGGTCAGCACCAAGGAGCTGCCGCGCGAGGACTGGCTGCAAATCCGCAAGCAAGGTATCGGTAGCTCGGATGCAGCGGCAGCAGTCGGCCTCAATCCCTACAAATCGCAGCTGGAACTGTGGCTGGAGAAAACCGGCCGCGACACCAAACTGCCGAAGACCGATCCGCATGATGAGGAAAGCCCAGCCTACTGGGGCAACGTACTCGAGCCTATCGTGGCCTGGCACTACAGCAAACGCACAAAGAACCGCGTGCGGCGCATCAACGCCGTGCTCCAGCATCCGGATCCGGAAATGTCCTGGATGTTGGCCAACATCGACCGTGAGGTGATCGGCGCTGACGATGTGCAGATCCTCGAATGCAAGACCGCTGGCATAAACGGGGCACGCCTCTGGAAAGAGGGCGTGCCCGAGTATGTGCAGTTGCAAGTGATGCACCAGCTCGCCGTCACCGGCAAGCAGGCGGCTGATGTGGCTGTACTACTCGGCGGTCAGACGTTGGAGATTCACCGAATCGAGCGGGATGAGCAGATGATTACGCGGCTCATCGAGCTCGAACGCAGGTTCTGGCAGTACGTGGAAACGGACACACCGCCACCGGCCGATGGCTCGGCATCCGCTGAAATTGCCCTGCGCTGCCTCTATCCGGAAGACAACGGCCAGGTCATCGACTTCAGCAGCCATGCCGGACTGACCGCAGCCTTCATCGAGCTGAAAGCCGTTCGCCAGTCGATTGCCGACAAGGAAAAGCGAGAAGCCGAGCTCAAGCAGATGTTGCAGCAAGCCATGGGTGACGCCAGCCGAGCTGAGTTCGCCAGCGGGTACGTCAGTTGGCGCAAGGCCAAAGACAGCATTGGCTTGGACGTCACTCAGCTACTCAAGGACAAACCTTACTTGCAGGCCAAGTACCCGCTACTGAAGCCCGGCGCGCGGCGTTTCTTGGTCGGCTGA	MKATSLNSSTRKKRPALRLVSTKELPREDWLQIRKQGIGSSDAAAAVGLNPYKSQLELWLEKTGRDTKLPKTDPHDEESPAYWGNVLEPIVAWHYSKRTKNRVRRINAVLQHPDPEMSWMLANIDREVIGADDVQILECKTAGINGARLWKEGVPEYVQLQVMHQLAVTGKQAADVAVLLGGQTLEIHRIERDEQMITRLIELERRFWQYVETDTPPPADGSASAEIALRCLYPEDNGQVIDFSSHAGLTAAFIELKAVRQSIADKEKREAELKQMLQQAMGDASRAEFASGYVSWRKAKDSIGLDVTQLLKDKPYLQAKYPLLKPGARRFLVG				NA	NA	NA	NA	NA
BMS010_09051	120			hypothetical protein	ATGCAGCGCAAACTGCATGGACTGGCCAAGGGGGAGGGAACGGATGGAAACAGCCGGATTCAGCCGACCAAGAAACGCCGCGCGCCGGGCTTCAGTAGCGGGTACTTGGCCTGCAAGTAA	MQRKLHGLAKGEGTDGNSRIQPTKKRRAPGFSSGYLACK				NA	NA	NA	NA	NA
BMS010_09052	894			hypothetical protein	ATGTTGAAAGGTCTGGCTCTAACGCCCCCAGTGATTGGCCGCATCTCAATCGGAAAAGTCGTCGAGAGAAACGGCAAACGTCTGCCGGAGAAAGACGATCAGTTCACCATCACCTCCCAGGTGCAAGGCAAGGATGGTTGGTTACTGCATCCACTTAACGACCAGCTGCGCCAAGGCAAAGAGGACAAACTGCGCAGCATCCCGATCCGTCTGATGTTCAACGAACCCGAGCTCAACTTCCGCGCCGACTACACCCTGTTCGATCGGCAAACCGGGCGTCCGGTTTGTGTGGGCAATGGGGAAACCTGCAAGCGCATTGGCCAGGATGGAATCCAGTCACTGCCGTGCCCCTCGCCCGATGCCTGTCCACTGGCCAAAGGGGGCGCTTGCAAGCCGTATGGCCGACTGAACGTGGTTATCGGCGATGAGGATCCGCTGGGTAGCTTTGTGCTCCGTACCACCGGCTTCAACAGCATCCGCACCCTCGCAGCACGCCTGAAATACTTCCAGGCGATCTCAGGCAATCGCCTGGCCTGCCTGGCATTGGAGCTGCGCCTACGCGGCAAATCCACCCGGCAAAGCCATGGAATGCCCATTTTCTACGTAGACATCACGCTGCGTAGCGGCATGAGCGTGGAGGAGAACCTGCTGGCCGCCAAGCAATTGGATGAGGCTCGCCAAGCAGCCGGCTTCGACCAGCGCGCGCTCGATAGCGCCGCGCAGCAAGGGCTGGGCAATGGCGCCTTCGAAGATAACGAGGAGGACAGCGGCGCGATTGTCGATGAGTTCTTCCCGCTCACCGAGCCAGAGCCCACCGCCAGCGAGCCTTCACCCCCACGACGCACAGCCCTGGCCGCCAAGCTGGAATCGCTCAGCAGCGAAGCGAGGCCCTGA	MLKGLALTPPVIGRISIGKVVERNGKRLPEKDDQFTITSQVQGKDGWLLHPLNDQLRQGKEDKLRSIPIRLMFNEPELNFRADYTLFDRQTGRPVCVGNGETCKRIGQDGIQSLPCPSPDACPLAKGGACKPYGRLNVVIGDEDPLGSFVLRTTGFNSIRTLAARLKYFQAISGNRLACLALELRLRGKSTRQSHGMPIFYVDITLRSGMSVEENLLAAKQLDEARQAAGFDQRALDSAAQQGLGNGAFEDNEEDSGAIVDEFFPLTEPEPTASEPSPPRRTALAAKLESLSSEARP				NA	NA	NA	NA	NA
BMS010_09053	348			hypothetical protein	ATGTCCGAGATTGATCAGAAGCACCTGGCCGAAGCTGTAGGTCGAGCGATTGCCAAGCAGCGTGTCCGCGCCGGTATGACGCAAGAGCATGTGGCGGAGCGGCTTGGCATTGGCAGCGAGGCGATTTCCCGCATTGAGCGGGGTATCGTCATCCCCAACATTTCTCGGTTGCTGGAGTTCGCCGCCATCTTTGAGTGCGAGGCCGCGGACCTGCTGACAGAAGCAAGCCCGCGAACCGACGATCAGGCGCAACGGATCAGTCGTATGCTGGCTACGGTCTCCCCGGAGGATCGCCAGTTGATCCTGGGGCTGGTCGAGCAGTTGGTGGATCGCCTGGCTGAGGCGTAA	MSEIDQKHLAEAVGRAIAKQRVRAGMTQEHVAERLGIGSEAISRIERGIVIPNISRLLEFAAIFECEAADLLTEASPRTDDQAQRISRMLATVSPEDRQLILGLVEQLVDRLAEA				NA	NA	NA	NA	NA
BMS010_09054	1014			hypothetical protein	ATGAACCTGCGAACGATCATTCTCGTGCCGCTTTTGCCCCTGGCCTTGGCCGGCTGCAATGAAGCCATCGATACCGTTAAGAACGGTCGAATGAAAATCAACCAGCAATACACCGTCGACCAGGCGTTCAGCAATCGGAGCATCTGCGACAGCGCCGATTGGGACGTCATTACCGATGACAGAAACAGAGAGCTTGTTCAGTACAAGTGCCATATCACCGGCATCGAGTCGTACTACGCACAGGAAAAGCAACGTATCCGGGAGAACTTGCTCAGCGGCTTCGACTTGGAAAAGCGGGCTGCCCAAGTCCATCTAGAACCGGCACGCATGGAGGTGGAAGCCGCCGAGAACGCGCTGAATAAACCGCGGCCCGCCAACACTGCTACCTTGGACAGCGACCGGCTCACAGACCTGCTGGCCCGGGAGGATCTGCTCTCCGAAAACGCCCCCTCACGCTCGCTTCAGAACTACTCCGGCAGCCCAGAGATTGCCGCAGCTGCACAGCGTTACTTCTTGAGCTACGTACGAGACACAACCTCCCCTCAGTTCGCTGCGCACAAGCAGAACGAACAGGAGCTACTTCGCGCCATGGCGGCTGAACGCGAAAAGGTTCAAGCCCAGATTACTGAGGAGCGGGCTCGCTTGAGCGAAGTCCAGAATGCTCGCGGGCAAGAATCGGTGGCTCACGCTCAGCAGCGCCTGAACCGGGCAACGGAGCTCTATGAAAACCTGCAGAACTCCGTTGCTGCCAAGCTTGAGGAACTGGATGCCCAGCACGCCGCCAAGCTGAAGCAGTTCGACGGTGCAGCCACCATAGAGTCAGTAGCCGAGGTCTTTGAGTGGGTCGTCAAGGGTGAGGAAATCGAACTCGTCTGGTCGGGGCTGGAAGGCACTTACAGCGACGGACAGATCAAGAGGTTTGGCCACATCAATCGGCTCAGCAGCCTTCAGGACGTATACCGCAATAACGTGAAGAGCTATTCCGACCTACGCCAAAAAGCGCCGCTGCTGTAG	MNLRTIILVPLLPLALAGCNEAIDTVKNGRMKINQQYTVDQAFSNRSICDSADWDVITDDRNRELVQYKCHITGIESYYAQEKQRIRENLLSGFDLEKRAAQVHLEPARMEVEAAENALNKPRPANTATLDSDRLTDLLAREDLLSENAPSRSLQNYSGSPEIAAAAQRYFLSYVRDTTSPQFAAHKQNEQELLRAMAAEREKVQAQITEERARLSEVQNARGQESVAHAQQRLNRATELYENLQNSVAAKLEELDAQHAAKLKQFDGAATIESVAEVFEWVVKGEEIELVWSGLEGTYSDGQIKRFGHINRLSSLQDVYRNNVKSYSDLRQKAPLL				NA	NA	NA	NA	NA
BMS010_09055	459			hypothetical protein	ATGAAGCGACTGACCGCACTTGTTCCGATATTGCTGCTGACCTCGATCAGCGTCCAGGCCAATGCCTACTGTGATTCCAGGCGATCTGCTCAAGAGGTTGAGACCTGCTATCGGCAATCCCTGACGGCGCTCAAACGAGCTGTCGACAAGGGCTTCAATAAAATCATGAACAGTCCTAACTACAGCGAAGCAACCAAGCAGCGTGTTCAGGAGGAGCATCACGTTTGGGAGCAGAGCGTCCAGACCAACTGCCAGAACTACGCTTGCGTTGAATATCAATTCCAGGGCCGACTACTTCAGCTGGGTCGAATAAAAGCAGCTCCCTCAGCGATGGATGCTGAGGCGTGCCTGGATGCCTGGATCGCTGCCTATCGCCAAGATGAAGAAGACGAAGTCGCGATCATCCATGACCAAATCACCGAGTGGCAGCAATGGTGTAGCGAAGGCCGCTTGCCCTGA	MKRLTALVPILLLTSISVQANAYCDSRRSAQEVETCYRQSLTALKRAVDKGFNKIMNSPNYSEATKQRVQEEHHVWEQSVQTNCQNYACVEYQFQGRLLQLGRIKAAPSAMDAEACLDAWIAAYRQDEEDEVAIIHDQITEWQQWCSEGRLP				NA	NA	NA	NA	NA
BMS010_09056	495			hypothetical protein	ATGACTGCCAAATTCAAGGCCGGCGAGTCCGCTGGCACCTACATCGCCGATGCACCGGTGACCGAAGCCGATATCGTGGAAATGGCTCAACATCTGGCCAGCAAGCGGCTGCGTAAAGGCCAGGCCTTGCATCAACCCAAGGAGGTCTTTAGCTACCTGCAGCTCCTGCTGCAGGACTATGAACATGAGGTATTTGCACTGCTACTGCTGGACAGCAAACACCGTGTCATTCGATTTGAGGAGCTGTTTCGCGGCACCCTGGACAGTGCCAGTGTCTATCCCCGCGAAGTCGTCAAAGTAGCGCTGGAACACAATGCAGCAGCAATAGTGTTGGTGCATAACCACCCTTCCGGTGATCCGGAGCCAAGCCATGCAGACCGTGTCCTGACCAGCAGGCTCAAGCAAGCACTCGAGATGGTGGACATACGCACGCTCGACCACATCATCGTGGGCGCTGAAGGCTGCGTATCGCTCGCCGAACAGGGATACCTGTGA	MTAKFKAGESAGTYIADAPVTEADIVEMAQHLASKRLRKGQALHQPKEVFSYLQLLLQDYEHEVFALLLLDSKHRVIRFEELFRGTLDSASVYPREVVKVALEHNAAAIVLVHNHPSGDPEPSHADRVLTSRLKQALEMVDIRTLDHIIVGAEGCVSLAEQGYL				NA	NA	NA	NA	NA
BMS010_09057	195			hypothetical protein	ATGAGACTGATTCGACTGAAAGAAGTGATGCGACTGACCGGCCTTGGCCGCTCTACCGTCTACAAGGTCATGAAGGAGGGGAGCTTCCCTGGCTCAGTTGCTTTGGGGGGTAAGGCTGTAGCGTGGGTTGAGTCCGAGGTGCAGGAATGGATCCTGGCTCGGCTTCGGGAACGAGATGGTCAGCCATCTCTGTAG	MRLIRLKEVMRLTGLGRSTVYKVMKEGSFPGSVALGGKAVAWVESEVQEWILARLRERDGQPSL				NA	NA	NA	NA	NA
BMS010_09058	678			hypothetical protein	ATGTACGATCAGCCACCAGTAGGCTCGCCTCAATGGCGAGACCTTTCTGTCCAATTGCTACCTCATGAGAGTCATGAGGCCTACCTGAATAATATCTACTCGTTGCTCTCAAATAGTTTGATGGTGCACCCGCGGTGGACCGTCATCCGGTTGGATCTGCACGTGCCCACCGGATGCTTGCTGCCCCAGCGGGCAATAACCGACTTCATCGAGTCCCTCAAAAGCCAACTCGAACATGTACGGTCCATCAAGGCAGCGGCAGGGAAAAGAGCTTACGATCCGATGCTTCGGTATGTGTGGGTGCGCGAGTGGGATACTGCAGAGTACCCGCATTATCACTTGGCGCTACTGCTCAACCATGATGCCTACTTTTCCGTAGGCGATTACTCGAAGTTGCAGTCTGATGATTGCAGTTATGACCAGATGCTTGCCGGTCGCATCTACAAAGCTTGGGGTGTGGCACTGGGGGTGGATTGGGCAATCGCCATGAAAGGGGTTCTATTCGCCCCCAACCCTGTATCGCCTTTACAGGTCCAGCATCCGCTGTTCGAGCAGCAGTTTCAGTCGGTCTTCTACCGCCTGAGCTACTTCGCCAAAAAGAGAACCAAGGTATATGGGGACGGTCAGCGAAACTTTGGCATGAGTCAGCTGAGTCGTCTTGAAACCGAACTCCCCTGA	MYDQPPVGSPQWRDLSVQLLPHESHEAYLNNIYSLLSNSLMVHPRWTVIRLDLHVPTGCLLPQRAITDFIESLKSQLEHVRSIKAAAGKRAYDPMLRYVWVREWDTAEYPHYHLALLLNHDAYFSVGDYSKLQSDDCSYDQMLAGRIYKAWGVALGVDWAIAMKGVLFAPNPVSPLQVQHPLFEQQFQSVFYRLSYFAKKRTKVYGDGQRNFGMSQLSRLETELP				NA	NA	NA	NA	NA
BMS010_09059	1314			hypothetical protein	TTGATCAGAAGACCCGATCAATGGAAGACGGGGTTTATGGAGCGGTTACTTTTTATGTACATCTCATGCCGAACCTTTGCTTGCAAGAGGGCGATTCCGCTTAGGGCGCGCTTCCTTCTTTTCAGGCTAGTTGAGCGGTATGGTCTGGTGGGAGTGGATGAGGTAGGGGTTAGTGGCGTGCAACGCCTCGCTGAAAGCACGGGCTTTAGCAAGAGCGCGTTGAGTCGAGCCCTGAGCATCCTCGTTGGTCAGGGGGTGCTTATAGAGAGGCGTGAGCCAACCAAGGGGAGGCCTAGAACGATCTACCGCCTTGCGCCTGCCTTGAAAGAAGTTGTGCTTTCACCGTCACGGAGAGATTTTCACGCGCCGTGGCTGGTTCGTTTGCTGGGGTCAGATGACCTTGTGTTTAGCGATCTTTCGATATCAGAAAGAGCTCTATTGGCGATCCTATGGGGTTTGCTCCCTCGCCCAGGTTTGTGCGTACTTGATGGCTGGAGTGTTTCCCGTCTAGCAAGGTTGGCCAGTGTCGATCCGTCTACTTTTTATGAGATTGTTCGTAGGCTCGAGCAAAAGAAGATGCTCGTAGTGTCTGGTGCAGCGTTTGCTTCTGGCGGGGCGAAGGACAAAACCAAGACTTACTTTTTGTTGGGTCCTGCAGTGCTGTCGTGCTGGCCTAGATCCTATACATGGCAGGTTGATCTGACGGGGTTGTTGGGATGGTTTGCAGGTAGGGAGGATCAGTTCAGCGCCAGGGAACTGATGCAGCTTGTTAATAGTCCAGCGCTGAAAGTGAATGAAATTGAGGTCGGTGTCAGGGCTGAATTGCTTGAGCTTTTGAATGATGCGGCCGGTCGTGACTATGTTTTCAATCAATGCTGCGCTGCCATATCACATGCTTTCTCCGGTGGTGGGAGTGGTTCTTTGAATGAAAATGTTCTTTATCCCAGAGTGCAGTCGGCGCTGCTAAGGCTGTTGCGAATGCAAGTGGTAGGTAATGGCTTATACCACAGGGCTATTGAGGATATGGACTTCGGTAGGCTTGATGCTAAGTCCCGCGTGCTATCTGTTTTTGCGGAACAGGTCTCATTTATTTTAGTTCGCGAGTTCAAGAACCTGCTTTCCTTTGCTCCCAGATATTGGGAGCTTGGGCAAGGGAATAGGCTTATGGTTTGCTACCTTGTGGGTGTGGAAGAAGCATGCAAGATGCGTATTGACTTTGTCACTGATGATATTGATGCGGGAGATAAGTTCGGAGCAGGTTTGCAGGTTCGATATCAGCAAGGCCTGCTTGATTTGCCTGATCAGCTGCGCTAA	MIRRPDQWKTGFMERLLFMYISCRTFACKRAIPLRARFLLFRLVERYGLVGVDEVGVSGVQRLAESTGFSKSALSRALSILVGQGVLIERREPTKGRPRTIYRLAPALKEVVLSPSRRDFHAPWLVRLLGSDDLVFSDLSISERALLAILWGLLPRPGLCVLDGWSVSRLARLASVDPSTFYEIVRRLEQKKMLVVSGAAFASGGAKDKTKTYFLLGPAVLSCWPRSYTWQVDLTGLLGWFAGREDQFSARELMQLVNSPALKVNEIEVGVRAELLELLNDAAGRDYVFNQCCAAISHAFSGGGSGSLNENVLYPRVQSALLRLLRMQVVGNGLYHRAIEDMDFGRLDAKSRVLSVFAEQVSFILVREFKNLLSFAPRYWELGQGNRLMVCYLVGVEEACKMRIDFVTDDIDAGDKFGAGLQVRYQQGLLDLPDQLR				NA	NA	NA	NA	NA
BMS010_09060	183			hypothetical protein	ATGGCCACTGACAAAGCTGAAATCGAACTCGAAGATGACTTCGTCGCGGAAGATTCGGAAGAAGCAGCCGAAGCCGCTGTGGAAGTAGCCAAGACCAATCTCACCAAGCGTCGCATCATCGATAACTACCTCGAAGAGCGCCGCCTGCAGAAGCAACTCGCCGATTACGATTTCGATCTCTGA	MATDKAEIELEDDFVAEDSEEAAEAAVEVAKTNLTKRRIIDNYLEERRLQKQLADYDFDL				NA	NA	NA	NA	NA
BMS010_09061	639	nth_1	COG0177	Endonuclease III	ATGAACGCTGCCAAGCGCCTGGAGATTTTCCGCCGCCTGCACGAAGACAACCCCAACCCGACCACCGAGCTGGCCTTCACCACGCCCTTCGAGCTGCTGATCGCCGTGATTCTGTCGGCCCAGGCCACCGACGTCGGGGTGAACAAGGCCACGGCGAAGCTGTTTCCGGTCGCCAATACGCCCGAAGCCATTCATGCGCTGGGGGTGGAAGGGCTTTCCGAGTACATCAAGACCATCGGCCTCTACAACAGCAAGGCCAAGAATGTCATCGAGACCTGCCGGATTCTCATCGAGAAGCACGGCAGCCAGGTCCCGGACAACCGCGAAGACCTCGAAGCCCTGCCCGGCGTGGGCCGCAAGACCGCCAACGTGGTGCTGAACACCGCCTTCCGCCAGCCGACCATGGCGGTGGACACGCACATCTTCCGGGTCGCCAACCGCACCAACATTGCGCCTGGCAAGAACGTCCTGGAAGTGGAACGCAAGCTGGTGAAGTTCGTCCCCAAGGATTATCTGCTCGACGCCCACCACTGGTTGATTCTCCATGGCCGCTACGTGTGCAAGGCGCGCAAGCCATTGTGTGGCAGTTGCCGGATCGAGGATTTGTGCGAGTACAAGCACAAGACATCGGACGATTGA	MNAAKRLEIFRRLHEDNPNPTTELAFTTPFELLIAVILSAQATDVGVNKATAKLFPVANTPEAIHALGVEGLSEYIKTIGLYNSKAKNVIETCRILIEKHGSQVPDNREDLEALPGVGRKTANVVLNTAFRQPTMAVDTHIFRVANRTNIAPGKNVLEVERKLVKFVPKDYLLDAHHWLILHGRYVCKARKPLCGSCRIEDLCEYKHKTSDD	PGPT0013735_5005	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013735-nth-K10773	NA	NA
BMS010_09062	714	rnfE	COG4660	Ion-translocating oxidoreductase complex subunit E	ATGGCTAATCCCAGTTATCGCGAGCTGACCCTCAACGGCCTGTGGAAGAACAACCCGGCACTGGTCCAGTTACTCGGCCTCTGCCCGCTGCTGGGGGTAAGCAACTCCACCGTCAACGCCCTGGGCCTGGGGCTCGCCACCGCCCTGGTGCTGACCTGTTCCAACCTCGCGGTGTCGCTGGTGCGCGGGGTCGTCAATACCGCGGTACGGCTGCCCGCCTTCGTGATGATCATCGCCGCGCTGACCACCTGCATCGAGCTGCTGATGCAGGCGTTCACCTATGAGCTGTACCAGATCCTCGGCATTTTCATCCCGTTGATCACCACCAACTGCGTGATCCTCGGCCGCGCCGATGGCTTCGCCGCCAAGCACAATCCGGCGCTGGCCAGCTTCGACGGCCTGATGATGGGGTTCGGCTTCTGCCTGGTGCTGGTGGTATTGGGCGGCCTGCGCGAGCTGTTCGGCACCGGCGCGCTGTTCGCCAACATGCACCTGTTGTTCGGCCCGGTCGCCGCCGATTGGCAGGTCACCGTATTCCCCGAGTACAAAGGCTTTCTGTTGGCGATCCTGCCGCCCGGCGCGTTCCTCGTCCTGGGCCTGCTGATCGCCCTGAAGAACCGCGTCGACGAGAGCCTTGCCGAACGCGCCAAGGCACGCCAGCCGCAGGCTCCCGTACAGAGTCGCCGCGTTCGCGTGACCGGAGTGATCGAATGA	MANPSYRELTLNGLWKNNPALVQLLGLCPLLGVSNSTVNALGLGLATALVLTCSNLAVSLVRGVVNTAVRLPAFVMIIAALTTCIELLMQAFTYELYQILGIFIPLITTNCVILGRADGFAAKHNPALASFDGLMMGFGFCLVLVVLGGLRELFGTGALFANMHLLFGPVAADWQVTVFPEYKGFLLAILPPGAFLVLGLLIALKNRVDESLAERAKARQPQAPVQSRRVRVTGVIE	PGPT0013280_188	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013280-rnfE|rsxE-K03613	NA	NA
BMS010_09063	636	rnfG	COG4659	Ion-translocating oxidoreductase complex subunit G	GTGCTGCCTGAAATCAGCCGTTCGATGCTGAAGAACAGCCTGGTCCTCGGCCTGTTCGCCGTGGCCACGGTGGGCGTGGTGAGCCTGATCCAGCAAAGCACCGCCGCGCGCATCGAGCGTTCCGCCCACGAGGCGCAGATACGCGTGCTCGGCGAAATCCTCCCGGCCGGCAGCTACGACAACCACCTGCTGGACAACAGCATCGAGCTGCACGACCCACTGCTGGGCAGCAAGGCTCCGCAGCCGGCCTATATCGCGCTCAAGGAAGGCAAGCCCACCGCGATCATCCTCCAGGCCACGGCGCCGGATGGCTACAGCGGGGCCATTCGCCTGCTGGTCGGCATCCAGGTGGACGGCCGCCTCGCCGGCGTGCGCGTACTCAGCCACCGGGAAACCCCTGGCCTGGGCGACCGGATCGAGCTGGCCAAGAGCCCTTGGATGCACGGGTTCGAGGGCAAGTCGCTGACCAATCCCGGCGAAGCCGGCTGGGCGGTGAAGAAGGATCGCGGCGAGTTCGACCAGTTCGCCGGCGCCACCATCACGCCGCGGGCGGTGGTCAAGGCGGTGCACAAGGCCCTGCAATTCTTCGATGCACACAAGGCGGAGCTGTTCGCCGAGGTGAACCCCAATGGCTAA	MLPEISRSMLKNSLVLGLFAVATVGVVSLIQQSTAARIERSAHEAQIRVLGEILPAGSYDNHLLDNSIELHDPLLGSKAPQPAYIALKEGKPTAIILQATAPDGYSGAIRLLVGIQVDGRLAGVRVLSHRETPGLGDRIELAKSPWMHGFEGKSLTNPGEAGWAVKKDRGEFDQFAGATITPRAVVKAVHKALQFFDAHKAELFAEVNPNG	PGPT0013285_46	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013285-rnfG|rsxE-K03612	NA	NA
BMS010_09064	1032	rsxD	COG4658	Ion-translocating oxidoreductase complex subunit D	ATGGCCCTGCCACGCATCACCTCGCCCCACGCCAAGGGCAGCAACCGGACCCAGCGGGTCATGCTGCTGGTACTCGCCGCCACCCTGCCCGGCGCGCTGGCCCTGACCTGGCTCTATGGCGTCGGCACGCTGGCCAACCTGTGCCTGGCGAGCGCCGTGGCGCTCGCCACCGAAGCGGCGATCCTGCGGCTGCGCCAACGCCCCGTACTGTTCTTCCTGCAGGATGGCAGCGCACTGGTCACCGCCGTCCTGCTCGCCCTGGCCCTGCCCCCCTATTCCCCCTGGTGGCTGACGCTGATCGCCACCGCCTTCGCCATCGTCTTCGGCAAGCAGCTTTACGGCGGGCTCGGGCAGAACCCGTTCAACCCGGCCATGATCGGCTATGTCGTGGTGCTGATTTCCTTCCCGGTGGAAATGACCAGTTGGCCCGCCGCCCACAGCGTAGGCATCGGCGAAGGGCTGAAGCAGATCTTCGGCATCGCCGCACTGCCCGACGGCTGGGCCCACGCCACCGCGCTGGACAGCCTGAAGATCAACAACCGCCTGACCATGGGCGAACTGCGCGCACAGAACCCGGCCTTCGGCCAGTTCGGTGGCGCCGGCGCGGAATGGGTCAACCTGGCGTTCCTGGCCGGCGGCCTCTTCCTGCTCTACAAGCGCCTGTTCAGTTGGCACGCACCGGTCGGGATGCTCGCCACCCTGGCCCTGATGAGCCTGATCTTCTGGAACGGCACCGGCTCGGATACCCACGGCTCGCCCCTGTTCCACCTGCTCAGCGGCGCCACCATGCTCGGTGCCTTCTTCATCGTCACCGACCCGGTCAGCGGCGCCACCAGCCAGCTCGGCCGGCTGATCTTCGGTGCGGGCGTCGGCATCCTCGTCTACGTGATCCGGACCTGGGGCGGCTACCCGGACGGTGTCGCCTTCGCCGTGCTGCTGATGAACCTGGCGGCGCCGACCATCGACTACTACACCCGCCCGCGCACCTACGGCCACCGCAAGGCCGAGCGCGGCTTCAAGCTGGGAGAATGA	MALPRITSPHAKGSNRTQRVMLLVLAATLPGALALTWLYGVGTLANLCLASAVALATEAAILRLRQRPVLFFLQDGSALVTAVLLALALPPYSPWWLTLIATAFAIVFGKQLYGGLGQNPFNPAMIGYVVVLISFPVEMTSWPAAHSVGIGEGLKQIFGIAALPDGWAHATALDSLKINNRLTMGELRAQNPAFGQFGGAGAEWVNLAFLAGGLFLLYKRLFSWHAPVGMLATLALMSLIFWNGTGSDTHGSPLFHLLSGATMLGAFFIVTDPVSGATSQLGRLIFGAGVGILVYVIRTWGGYPDGVAFAVLLMNLAAPTIDYYTRPRTYGHRKAERGFKLGE	PGPT0013275_902	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013275-rnfD|rsxD-K03614	NA	NA
BMS010_09065	2301	rsxC		Ion-translocating oxidoreductase complex subunit C	ATGACGTCGTTGAAAGTCTGGGATATTCACGGCGGCATCCATCCGGCGGAACGCAAGACCCTCTCCAACCACACGCCGATCCAGCCGGCCCCGCTGCCCAAGCGCCTGGTCATGCCGCTCGGCCAGCACATCGGCAGCCCCGCCGAACCCTGCGTCACGCTGGGCGATCGGGTCCTCAAGGGCCAGAAGATCGCCGAGGCGAGCAGCTTCGTCAGCGCCCCGGTGCATGCCCCTACCTCCGGGGTGGTCAGCTTCATCGGTCCGCAGCCCTACCCGCACGTGTCCGGCATGCCCGCCGCCGCCATCGTCATCGACAGCGACGGCCTCGACGAATGGATCGAGCTGGTCCCCTGCGCCGACTACCGCAGCCTGGAGCCCTCGGCCCTGCTCGAACGCATCCGCCAGGCAGGCATCGCCGGCCTCGGCGGCGCCGGCTTCCCCACGGCAGTGAAACTGACGGCGCGGCCACAGCAGAAAATCCACACGCTGATCATCAACGGCACCGAGTGCGAGCCCTACATCACCGCCGATGACCTGTTGATGCGCGAAAAGGCTGCCGAACTGGTCGCCGGCATCGAGATTCTCGCCCACCTGATCCAGCCCGCCGAGGTGCTGATCGGCATCGAAGACAACAAGCCGGAGGCCATCGCAGCGGTGCGCGCGGCCGTTGGCGAGCGGCCGTTCAGCGTACGGGTGTTCCCGACCAAGTACCCATCCGGTGGCGAGAAGCAACTGATCCAGATCCTCACCGGCAAGGAAGTCCCCTCCGGCGGCCTGCCGGCGGACATCGGCATGCTCTGCCAGAACGTCGGCACCTGCGTCGCCATCCATGACGCCGTCCTCCTCGGCCAGCCGCTGATTTCGCGGATCACCACCCTGACCGGCGAGGCCCTGGCGCGGCCGATGAACGTGGAGGCGCTGATCGGCACACCGGTGGGCGAGCTGCTGGCATTCGCCGGCCTCGATTCGTCGACGCTCAACCGCCTGATCATGGGTGGACCGATGATGGGCTTCACCCTGCCGTCCATGGACGTGCCGCTGGTGAAGACCAGCAACTGCCTGCTCGCCAGCACGGCTACCGAACTGCCACCGCCTCCTCCGGCGCTGCCGTGCATCCGCTGCGGCGAATGCGCCGAAGCCTGCCCGGCCAGCCTGCTACCCCAGCAATTGCACTTCTTCGCCCTAGGCCAGGACCACGAACAGCTCAAGGCCTACAACCTGTTCGACTGCATCGAATGCGGCGCCTGTGCCTACGTCTGCCCGTCGAACATCCCGCTGGTGCAGTACTACCGCGCCGCCAAGGGCGAGATTCGCGAGCTGGAGCAAAAGCAGCAGAAAGCCGAACACTCCAAGCAGCGCTTCGAGCTGCGCCAGGAACGCCTGCGCCGCGCCGAAGAACAGAAGGAAGCCGAACGCAAGGCGCGCGCCGAAAAGGCCGCACGGGCCAAGGCCCTGCAGGCGGAAAGCGCCTCGGTGCCCAGCCAGGAAGCCCCGGCCGCAGGCGTCCCGGCGCAAAAAGCCGGTGGGCTCAGCGACGAACAGAAGAAACTGAAGATCGAGGCCAGCATGGCCCAGGTCGCCCTGAAAAAGGCCGAGAAACAACTGGCCACCCACGACACGCCGGAGCTGCAAGCCCAGGTCGCCGAACTGCGCGCCGCCGCCGAAGCGGCGCAGAAGGCCCTGGATGCCGCCCTTGCAGCCGCGCCACCCAGCACAGCGGCTTCGCCCGCCAAGCCGGCAGACGACGGAGCGCTGAAGAAGGCCAAGATCGACGCGGCCATGCTCAAGGCGCAGATTCGCAAGGCGGAAAAGGTCGAGGCTCCTAGCGCCGAGCAGCAGGCCGAGCTGGAGCAACTGCGCAGCCAGCTCGCCGCCGCCGAGAAAGCCCTTGCCGAGCTGGAAGGCCAAATTCCGGCCGCCGAGCCCAAGCCGGAAGCCCAGCCCATCGATCCGCTGAAGAAAGCCAAGATCGAACTGGCCATGAAGCGCGCGGAACTGAAGAAAGCTGAAAAAGCCGTGGCCGACGACGCCGAGCTGAGCAAGCTGCGCGACGCCGTCCGCGATGCGGAGGAGGCCTTGCATGCCGCCGAAGCGACCACCAATCGGCCCGAGCCGGACCGCGCATTGGTGGACAAACGCCCGGTGGACGACAGGACCCGCGAACTGAAAACCGAAATCGCTTTCGCCCGTGCCGACCTGCGCAAGCTGGAGCGCGACGAGAACGCACCGGCGGATGCCCTGGATGCGGCCCGCGCCCGGCTCGCCGAAGCCGAGCGCCGCCTGGGCGAGCACACGAACTGA	MTSLKVWDIHGGIHPAERKTLSNHTPIQPAPLPKRLVMPLGQHIGSPAEPCVTLGDRVLKGQKIAEASSFVSAPVHAPTSGVVSFIGPQPYPHVSGMPAAAIVIDSDGLDEWIELVPCADYRSLEPSALLERIRQAGIAGLGGAGFPTAVKLTARPQQKIHTLIINGTECEPYITADDLLMREKAAELVAGIEILAHLIQPAEVLIGIEDNKPEAIAAVRAAVGERPFSVRVFPTKYPSGGEKQLIQILTGKEVPSGGLPADIGMLCQNVGTCVAIHDAVLLGQPLISRITTLTGEALARPMNVEALIGTPVGELLAFAGLDSSTLNRLIMGGPMMGFTLPSMDVPLVKTSNCLLASTATELPPPPPALPCIRCGECAEACPASLLPQQLHFFALGQDHEQLKAYNLFDCIECGACAYVCPSNIPLVQYYRAAKGEIRELEQKQQKAEHSKQRFELRQERLRRAEEQKEAERKARAEKAARAKALQAESASVPSQEAPAAGVPAQKAGGLSDEQKKLKIEASMAQVALKKAEKQLATHDTPELQAQVAELRAAAEAAQKALDAALAAAPPSTAASPAKPADDGALKKAKIDAAMLKAQIRKAEKVEAPSAEQQAELEQLRSQLAAAEKALAELEGQIPAAEPKPEAQPIDPLKKAKIELAMKRAELKKAEKAVADDAELSKLRDAVRDAEEALHAAEATTNRPEPDRALVDKRPVDDRTRELKTEIAFARADLRKLERDENAPADALDAARARLAEAERRLGEHTN	PGPT0013270_352	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013270-rnfC|rsxC-K03615	NA	NA
BMS010_09066	573	rnfB	COG2878	Ion-translocating oxidoreductase complex subunit B	ATGAGCCTGGTCGTCGTTGCCATCCTCGCCCTGCTCGCACTCTGCCTGGTGTGCGGGGCGATCCTCGGGTTCGCCGCGGTGCGTTTCCGCGTCGAGGGCGACCCCATCGCCGAACAGATCAACGGCCTGCTGCCACAGACCCAGTGCGGCCAGTGCGGCTATCCGGGCTGCAAGCCCTACGCCGAGGCCATCGCCAACGGCGACAAGATCAACAAGTGCCCACCGGGCGGCGAGGCCACCATCCAGGCCCTGGCCGACCTGCTCGATGTCGAGCCGGAACCGCTGGACGCGGCCGAGGAAGTCCCGCCGCGCGTGGCCTACATCCGCGAGGCCGAGTGCATCGGCTGCACCAAGTGCATCCAGGCCTGCCCGGTGGACGCCATCGTCGGCGCGGCACGGCAGATGCACACGGTGATCGTCTCCGAGTGCACCGGCTGCGACCTCTGCGTGGAGCCCTGCCCGGTGGATTGCATCGACATGATCGAGGTGGGCAGTAACGTGCAAAGCTGGAAATGGGACCTGCCACTGGCCCCAGGTCAACTGATCGCCAGCGACCGGGAGCAGGCCGCATGA	MSLVVVAILALLALCLVCGAILGFAAVRFRVEGDPIAEQINGLLPQTQCGQCGYPGCKPYAEAIANGDKINKCPPGGEATIQALADLLDVEPEPLDAAEEVPPRVAYIREAECIGCTKCIQACPVDAIVGAARQMHTVIVSECTGCDLCVEPCPVDCIDMIEVGSNVQSWKWDLPLAPGQLIASDREQAA	PGPT0013265_1425	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013265-rnfB|rsxB-K03616	NA	NA
BMS010_09067	585	rnfA		Ion-translocating oxidoreductase complex subunit A	ATGACCGAACTCGCCCTGATCATGGTTAGCGCCATACTGGTCAACAACTTCGTGCTGGTTCAGTTCCTTGGACTCTGCCCGTTCATGGGCGTTTCGAAGAAAATCGAAACGGCCATCGGCCTGTCGCTGGCAACCACCTTCGTACTGACGCTGGCGGCTATGTGCAGCTACCTGGTGCAGCAGTACGTGCTCAAGCCGCTGGACCTGGAGTTCCTGCGTACCATCAGCTTCATCCTGGTCATCGCCGTGGTCGTGCAGTTCACCGAGATGGTGGTGAACAAGACCAGCCCCCTGCTCTACCGCGTGCTCGGCATCTTCCTGCCGCTGATCACCACCAACTGCATCGTGCTCGGCGTCGCGCTGCTGAACGCCAACAAGGCCGAATTCACCTTCATCACCGCCACCGCCAACGGCTTCGCCGCCGGCCTGGGCTTTTCCCTTGTGCTGGTGTTGTTCGCCGCCATGCGCGAGCGCATCGCTATCGCCGATGTGCCCAAGTCGTTCCAGGGCGCGGCCATCGGCATGGTCACCGCCGGCCTGATGTCGCTGGCCTTCATGGGCTTCACGGGGTTGATCAAGCTATGA	MTELALIMVSAILVNNFVLVQFLGLCPFMGVSKKIETAIGLSLATTFVLTLAAMCSYLVQQYVLKPLDLEFLRTISFILVIAVVVQFTEMVVNKTSPLLYRVLGIFLPLITTNCIVLGVALLNANKAEFTFITATANGFAAGLGFSLVLVLFAAMRERIAIADVPKSFQGAAIGMVTAGLMSLAFMGFTGLIKL	PGPT0013260_161	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013260-rnfA|rsxA-K03617	NA	NA
BMS010_09068	468			hypothetical protein	ATGCCCGACCTGTCGGCGGGCCTGACCAGCATGGACGGTGACAACGGCGCAATCAGCCTCCCATGGAGAACGAGTGTGGCGTATCAACGGACGCGCGGTTTTACCCTCATCGAACTGATGGTGGTGGTCGCCATCATCGGCATCCTGGCTTCCATCGCCTGGCCCAGCTATCGGCAGTACGTCATTCGTGGCAACCGGGTCGCGGCCCAGGCGCAGATGATGGACATCGCCAACCGGGAGAAGCAGTTCCTTCTCGCCAACCGGGCCTATGCCGACAAGACTGCGCTCGAAGCCAGCGGCTATCGATTGCCGTCCGAAGTCAGCCGTAATTACGACTACGCTATCTCCGTCGGCACCGGCACGGTGCCTTCGTTCACCATTACCTTCACCGCCATCGGCAGCCAGGCCAGCGACGGCAATCTCACCCTGAACAGCGAAGGGGTGAAGACGCCCGCGGATAAGTGGTGA	MPDLSAGLTSMDGDNGAISLPWRTSVAYQRTRGFTLIELMVVVAIIGILASIAWPSYRQYVIRGNRVAAQAQMMDIANREKQFLLANRAYADKTALEASGYRLPSEVSRNYDYAISVGTGTVPSFTITFTAIGSQASDGNLTLNSEGVKTPADKW	PGPT0015930_1270	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015930-pilE-K02655	NA	NA
BMS010_09069	552			hypothetical protein	ATGAACGGTCGGCAAGCGGGCGTCAGCCTCGTCGAAGTGCTGGTCACCATGGTGATCCTGGCCATCGGCCTGCTCGGGGTGATGGGGTTGCAGGCCCGCCTGCAGCAATCCGAGATGGAAGCCTACCAGCGTTCGCAGGCGTTGCTCCTGCTCGACGATATGGTCAGCCGGCTCGCCGCCAATCGCAACGCGGCGGCCAGCTATGTAACGGGTAGCGCCAACCCCCTCGGCGCGGGCATGACCTGCCCCACCGCCACGGCCACCCAGCAGCAGCGCGATGCCAAGGAATGGTGCGAAGCCTTGCAGGGGGCTGCCGAAATCAGCGATGCCAGCCGGGTCGGCGCGATGATCGGCGGGCGCGGCTGCGTGGAATCGCTCGGTAGCGGCCAGTACCTGATCACGGTGGCGTGGCAGGGGATGGCGCCGTTGAGCGCCCCGGTAGCCGGCACCACCTGCGGACAGAGCCTCTACGACGGCGGCACCGGCAGTCAATGCACCGATGACCGCTGCCGTCGCGTGGTCACCACCCTTGTCCGGATCGCCCCGCTATGA	MNGRQAGVSLVEVLVTMVILAIGLLGVMGLQARLQQSEMEAYQRSQALLLLDDMVSRLAANRNAAASYVTGSANPLGAGMTCPTATATQQQRDAKEWCEALQGAAEISDASRVGAMIGGRGCVESLGSGQYLITVAWQGMAPLSAPVAGTTCGQSLYDGGTGSQCTDDRCRRVVTTLVRIAPL	PGPT0015975_270	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015975-pilV-K02671	NA	NA
BMS010_09070	1101			hypothetical protein	ATGAGCCCGTCGAACCGAGTGCAGTGTGGTTTCGGCCTGATCGAATTGATGGTGGCCATGACCATCGCCCTGATCCTGACCGCCGCGATCCTGACGCTGTACCTGGACATGAGCCGTACCAATACGGAGATGGCCAAGACCAACACGCAAATGGAAAACGGCCGGTTGGCGATCAAGGTGCTGCGCGACGACCTGATGCATGCCGGCTTCTGGAATGGCTATATCCCCGAGTTCGACGACTTGGTGGCGACCGGTATCCCGGGCGACTATCCGACGGCCATCCCGGCGCCCTGCACCGACTACGCTTCCTGGGACACGGCGCATCGCACCAACCTGATCGGTGTGCCTGTGCAGCTCTATGCCGGCGTGCCGTCCGGTTGCACCAGCCAGCTTCCCGACAAGGTACCCAACAGCGACGTGCTGGTGGTCCGGCATGTGCAAACCTGCGTGGCGGGCGTGGGCAACTGCGAGGCGGACACCGCCGGCAAGCTTTATTGGCAGACTTCCGGTTGCGAAGGCGAAAGCCGCTACCTGCTCGCCATCACGGGCTTTTCCCTGCGTAAGCGCGATTGCTCGACGCCAGCGGAGAAGCGCCAGTACGTCAACAACATCTATTACCTGCGCACCTATGCGGTGACGCCGGGCGACGGTATTCCGACCCTGATGCGCTCTCGCTTCGATCTGCAAGGTGGCGTGCTCGTCCAGCAGGCGGCGGAGCCGTTGATCGAAGGGGTCGAGGCCATGCGCTTCGAGTTCGGCGTCGACAACCTCAGCGATTCCGGCGCGGCGGTGAACTATGCGGCGGCAATCGCCTGGGCAGATACCGAGAACAAGGTCTCCGCTACCAACCGGGGCGACGGCGCCGCCGACACCACGTGCCGCTCGGCCACCCCGTGCAGCCTCGCCCAACTGGTGGGCACAGTGGTGGTCAAGGTCCATCTGCTGGTGCGCAATCTGCAATCCACCCCGGGCTACAGCAGCACCAAGACCTACTCGTTGGCGGGGGAAACCTTCGGCCCGTTTACCGACGCTTTCCAACGCCATGTCTATTCCAGCACGGTCCGCCTGGTGAACATCTCCGGCAGGAGGGAAACCCCATGA	MSPSNRVQCGFGLIELMVAMTIALILTAAILTLYLDMSRTNTEMAKTNTQMENGRLAIKVLRDDLMHAGFWNGYIPEFDDLVATGIPGDYPTAIPAPCTDYASWDTAHRTNLIGVPVQLYAGVPSGCTSQLPDKVPNSDVLVVRHVQTCVAGVGNCEADTAGKLYWQTSGCEGESRYLLAITGFSLRKRDCSTPAEKRQYVNNIYYLRTYAVTPGDGIPTLMRSRFDLQGGVLVQQAAEPLIEGVEAMRFEFGVDNLSDSGAAVNYAAAIAWADTENKVSATNRGDGAADTTCRSATPCSLAQLVGTVVVKVHLLVRNLQSTPGYSSTKTYSLAGETFGPFTDAFQRHVYSSTVRLVNISGRRETP	PGPT0015980_182	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015980-pilW-K02672	NA	NA
BMS010_09071	483			hypothetical protein	ATGAATGCCAAGGCACCCCCCAAGCAGCGAGGGATGGCGCTGATCATCGCGCTGATCATGTTGCTGCTGTTGACCCTGATGGTGTCGTCCGCCTTCACCCAGAGCACCACCAACCTGGAAGTGGTGGGCAACCAGCAGTGGCGCAGCGAAGCGCTGTCGGCTGCCGACGTGGCGATCGAGCAGGTGGTGGGCTCGGCGTTCACCACGGCGCCGGTGGCGCAGGCCGTCAATGTTGACCTGAATCGGGACGACCGGACGGACTACGTCGTGCAGGTGTCCCAGCCGGAATGCGTCCGGGCCAGCCTGGCGAGCGCCACGGCACCGAGCAGCCTGACCCTGGTGGGCATGTCCAACTCCACCTGGAACACCATCTGGGAGATGGTCGCGACGGTGGACGATCCGGCCAGCGGGGCCTCGGTACGGGTGCGCTCCGGCGTTCGCGTCCTGCTCTCCGACGCCCAGAAAAATGCGGTATGCCCTTGA	MNAKAPPKQRGMALIIALIMLLLLTLMVSSAFTQSTTNLEVVGNQQWRSEALSAADVAIEQVVGSAFTTAPVAQAVNVDLNRDDRTDYVVQVSQPECVRASLASATAPSSLTLVGMSNSTWNTIWEMVATVDDPASGASVRVRSGVRVLLSDAQKNAVCP				NA	NA	NA	NA	NA
BMS010_09072	3033			hypothetical protein	ATGAGGTCGTACATTCGCATGGTGCTATTGGCCATGGCAGCCGGGTTATCCGGATTGTCGCAGGCGGAGGACATCGACCTGTTCCTGGGCACTCCGCCCAACGCGACGGGCGCGCCCAACGTGCTGATCATCCTCGACAACACGGCGAATTGGAGCACCCCGTTCGACAACGAGATCGCCGCGCTCGTCTCGGTGGTGGACGCCTTGCCGGCCGACAAGTTTCGCCTGGGGCTGATGCTCTTCACCGAGAGCGGCGGTGCGAACGCGGGTAACGACGGTGCCTACCTGCGGGCGGCGATCCGGCCGCTGACCGCTGCCAACAAGGTGCTGATGCAAAACCTCGTGCGCAGCCTGGACAAGAACGCCGACAAATCCAACGGCGGCAAGATCAGCAAGGCCATGGAAGAGGCCTACCTGTACTTTTCCGGTGGCACGCCGCACGCCGGCAACAACAAGGCGAAAACGGACTTCACCGGCAACCGGGGCATCAGTACCGCTTCCGACGCCATCTATGCCCTGAGCGGCAACGCATTGTCCAGCAAGACGGCCACCACCTATAACAACCCCATCGTGTCCGGCTGCGCCAAGAACTACGTCATCTACATCAGCAACGGTGCCGCCCAGGACAACTCCAGCGATATCGAGCAGGCGACGGCCGCGCTGGAGCGGCTGGGCGGTTCGACGACCACCATTCCGATTTCGCCCAGCGGCTCGCAGGGTAACGTCGCGGACGAGTGGGCACGCTTCATGAAGAAAAGCCCCGAGGCGATCACCACCTACACCATCGATATCAACAAGGTCACCTCCGGCCAGGGGCCCGGCTGGACGGCGCTGCTGCAGAGCGTCGCCCGGGTCAGCAGCGGCAAGTACTTCGACGTGGCCAGCAGCGGCTCGCAGATCGCCGATGCGCTGGCAACGATCTTTTCCGAGATCCAGTCGACCAACAGTGCCTTCGCCTCGGTGAGCCTGCCGGTCAGCGTCAATACCCAGGGCACCTACCTCAACCAGGTGTTCGTCGGCATGTTCCGTCCGGACGAGGACTCCTTTCCGCGCTGGTTCGGCAACCTGAAGCAGTACAAGCTCGGGCTGGTCAGCGGCGACCTGAGACTGCTGGACGCCGACAACAATCGGGCAATCAACGCCGAACGCGGATTCATCGCCGAGTGTGCGCGCAGTTTCTGGACGCCTACCGCGGCGGACAATTACTGGTCGTTCAGCCCTCGGGGCGAGTGCCTGGCCGTGGCGGGTTCGGATGCCTCCAACTACCCGGACGGCAACATCGTCGAGAAGGGCGCCCAGGCCTACATGCTGCGCCGTGATGGCTCCCGCACGGTCCATACCTGCTCTCCCAGCTTTGGTTCCTGCAATGCGTTGACCTCGTTCAACACCGCCAATACCGCGATCACCCAGAGCCTGCTGGGCGTCGGCAGCGCCACCGAACGCGACAACCTGATCAACTGGTCGCGAGGGCAGGACCTGAAAGACGAGAACGGCAGGGACGGCACCACCGAGGTGCGGCCATCGGTGCATGGCGATGTGGTGCACTCGCGACCGGTGGCGATCAACTACGGCACCGACAGCTCGCCCCGGGTCGTGGTGTTCTATGGCGGAAACGACGGGGCCCTGCGCGCGGTGAATGGCAATCGTGCGGCGAACTTCGGCAACTACCTTGCCGGGCAGGAACTCTGGTCGTTCATACCGCCGGAGTTCTACGGCTCGCTCAAGCGGCTGTACGACAACGCCGTCACCATCAGCTACCCCGGGCACACCACCGGGACGCCGACACCTCAGCCGAAATCCTATGGCATGGACGGACCCGTCGCGGCCTACAAGGACGGCAATACCGCCTGGATCTACGCCACCATGCGCCGCGGTGGACGGGCGCTGTACGCCTTCAATGTGAGCAACCCCGATTCGCCTTCGCTCAAGTGGAAGAGGGGCTGCCCCTCCAATTTTCCGGCCTCCGGCACGGTCAGCGATACGGGCTGTTCCACCGGCTTCAGTGGGATCGGCCAGACCTGGTCCACGCCGAAACTCTTCAAGGCCGCCGGTTATAGTGCGGGCACGGCGCCGCTCCTGATGATGGGCGGCGGCTACGACACCTGCGAGGATGCCGATCCCAACACCTGCACCAGCTCGACCAAGGGCAACAAGATCTATGTGATGGACGCCGATACCGGTGAGCTGCTCAGGACCTTCGACACCGAGCGCAGCGTGGTGGCGGACATGACCATCGTGCCCGGCAGCAACGGTCTGGCGCTCTATGCCTACACCGCCGATCTGGGCGGCAACGTCTACCGCATCACCATGGGGACGAATACGCCAGCCAACTGGAGCATCACCCGTATCGCCGCACTGGGTTGCGGTAGCGGGACGAGCTGTACGGCCAACCGCAAGTTCATGTTCGCCCCGGATGTGGTGGCGGATACCTCGGGCTATATTCTGCTGCTCGGCTCGGGGGACCGCGAGAAGCCGGTGTCCAACTACACCAGCGCGACCAGCGTCACCAATTACTTCTTCATGCTGAAAGACCGTCCGAGCGATGCCAACTGGCTCACCAGCGAGTCCACCAACTGCGGCGCTGGGCGCCTGTGCCTGAATTCCCTCCTGGCCATCAGCGGCAACACCACCCCGACGAGCACCCAACTGTCGCAGAAGAAGGGCTGGTACCTGGCGCTGAGCCCCACCGAGCAGGTGGTCACCTCGGCCATCACCGTGTTCGGCCAAGTGACCTTCAGCACCCACCAGCCCTCCGTACCCACCTCCGGCGTCTGTGCCACCCTGGGCGAAGCGCGGGTCTACAACGTCAACTACCTCACCGCCGAAGGCGTGGATGGCCAGCGTTATCTGGATCTTGCGGGGGACGGGCTGCCGCCGTCGCCGGTGGCGGGCATGGTGACCCTGGACGATGGGACCACGCGGCCGTTCATCATCGGCGCCAATCCGGAGTCGGCGCTGGAGGGTAGCCCCGACGTCAAGCAGCTCTCGGTCGTACAGCCGACCGCGCGGGTCTACTGGAACGTCGAGGAATGA	MRSYIRMVLLAMAAGLSGLSQAEDIDLFLGTPPNATGAPNVLIILDNTANWSTPFDNEIAALVSVVDALPADKFRLGLMLFTESGGANAGNDGAYLRAAIRPLTAANKVLMQNLVRSLDKNADKSNGGKISKAMEEAYLYFSGGTPHAGNNKAKTDFTGNRGISTASDAIYALSGNALSSKTATTYNNPIVSGCAKNYVIYISNGAAQDNSSDIEQATAALERLGGSTTTIPISPSGSQGNVADEWARFMKKSPEAITTYTIDINKVTSGQGPGWTALLQSVARVSSGKYFDVASSGSQIADALATIFSEIQSTNSAFASVSLPVSVNTQGTYLNQVFVGMFRPDEDSFPRWFGNLKQYKLGLVSGDLRLLDADNNRAINAERGFIAECARSFWTPTAADNYWSFSPRGECLAVAGSDASNYPDGNIVEKGAQAYMLRRDGSRTVHTCSPSFGSCNALTSFNTANTAITQSLLGVGSATERDNLINWSRGQDLKDENGRDGTTEVRPSVHGDVVHSRPVAINYGTDSSPRVVVFYGGNDGALRAVNGNRAANFGNYLAGQELWSFIPPEFYGSLKRLYDNAVTISYPGHTTGTPTPQPKSYGMDGPVAAYKDGNTAWIYATMRRGGRALYAFNVSNPDSPSLKWKRGCPSNFPASGTVSDTGCSTGFSGIGQTWSTPKLFKAAGYSAGTAPLLMMGGGYDTCEDADPNTCTSSTKGNKIYVMDADTGELLRTFDTERSVVADMTIVPGSNGLALYAYTADLGGNVYRITMGTNTPANWSITRIAALGCGSGTSCTANRKFMFAPDVVADTSGYILLLGSGDREKPVSNYTSATSVTNYFFMLKDRPSDANWLTSESTNCGAGRLCLNSLLAISGNTTPTSTQLSQKKGWYLALSPTEQVVTSAITVFGQVTFSTHQPSVPTSGVCATLGEARVYNVNYLTAEGVDGQRYLDLAGDGLPPSPVAGMVTLDDGTTRPFIIGANPESALEGSPDVKQLSVVQPTARVYWNVEE	PGPT0015990_968	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015990-pilY1-K02674	NA	NA
BMS010_09073	513			hypothetical protein	ATGGGCATGCACCTGCCTGCGATCGGAGCCGCGGATTGCCGGGGCTTCACCCTCGTCGAGCTGCTGGTGGCAATGGCGGTGCTGGCCATCCTGGCGGGCATTGCGGTACCGGCGTTCGACAGTTTCGTCCTGAGCAACCGCCTGCGCACCTACAGCAACAGCCTCGTCGTCAGCGCCCAACTGGCCAAGAGCGAAGCCATGAAGCGCCGGACCCCCGTGACCCTGTGCAAGTCCGCCAACGGCACCAGTTGCACCACCAGTGGCGGCTGGGAACAGGGCTGGATTGTCCTCGCCGGCACCACCGTCATCCGTCGCGAACAACCGGCGGCTTCCGGCTATCTGCTGTCCACCACCACCAATAGCCTCACCTTCCAACCCAGCGGCTTCGGCTCCACCCAGGCAACCATCACCGTATGCCGCTCATCGCCAACGGGGAGCCAGGAACGCGTGGTCACCGTCTCGGCGACCGGGCGGACGACCGTTACCAGGACGAGTACGGGGAGTTGTTCGTGA	MGMHLPAIGAADCRGFTLVELLVAMAVLAILAGIAVPAFDSFVLSNRLRTYSNSLVVSAQLAKSEAMKRRTPVTLCKSANGTSCTTSGGWEQGWIVLAGTTVIRREQPAASGYLLSTTTNSLTFQPSGFGSTQATITVCRSSPTGSQERVVTVSATGRTTVTRTSTGSCS	PGPT0016065_874	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0016065-fimT-K08084	NA	NA
BMS010_09074	399			hypothetical protein	ATGACCCTGCTTCAGACCCTACCGAACTTTTTCCTCTACCTGTCCAGCGCACTGGCGCTGTTCTGCCTGTTCATCGGCCTTTACATCCGGCTGACGCCCTACCATGAACTGGAACTGATTCGCCAAGGCAACGCCGCCGCTGCCTGTGCTCTGCTGGGGACCGCCCTGGGCTTCGTGCTACCGCTGGCCAGCAGCATCGCCCATAGCGCCAGCCTGCGCGACATGCTGGTCTGGGGTGGCATCGCCATGCTGGTGCAGGGGCTCGTCTTCCTCGGCACTGCGCACCTGATACCGGAACTGAAGCAGGGAATCGTCGAAGGCAAGGTCGCCCACGGATTATTCCTGGGCGGCTGTGCCCTGTGCGTCGGTATCGTCAACGCCGCCTGCCTGGTGTACTGA	MTLLQTLPNFFLYLSSALALFCLFIGLYIRLTPYHELELIRQGNAAAACALLGTALGFVLPLASSIAHSASLRDMLVWGGIAMLVQGLVFLGTAHLIPELKQGIVEGKVAHGLFLGGCALCVGIVNAACLVY				NA	NA	NA	NA	NA
BMS010_09075	1119	ygiC	COG0754	Putative acid--amine ligase YgiC	ATGCGATGCCTGCCCAGCCAACCACGGCCACACTGGCGCGAACAGTGCGAGTCCCTGGGTTTCACCTTCCACAGCATCGATGGACGCTATTGGGACGAAACCAAGGCCTATCGCTTCACTCTGGCGCAGATCGAACACCTGGAAGCCGTGACCGAGGACCTCCACCAACGCTGTCTGGAGGCCATCGACTGGATCATCCGAGAAGAGCATTTCGCGCCCTTCGGCCTTTCACCCAGCGCAATCCAACTGGTTCAACGCTCCTGGCGCCGCAAGGAGCCAAGCCTGTACGGGCGCTTCGATTTTTCATGGAACGGCAGCGGCGAGCCCAAGCTGCTGGAGTACAACGCCGATACACCAACCGGCCTGCTCGAAGCCAGCGTAATCCAGTGGCATTGGCTACAGGATTGCCAACCGGACGCCGACCAGTTCAACTCGCTGCACGAAAAGCTGGTTGCGCGCTGGCGGCAGATCGCACCGCGCCAGCCGATGTACTTCGCCGCCCAGCATGACCATGAGGAAGATACCGGTAACCTGCTCTATCTGCTGGATACCGCGCACCAGGCCGGTCTGACGACACGCTACCTACCCATCGAGCGAATCGGCTTCAGCGCCCTGCAGCAGCGTTTCGTCGATGAAAACGACCATCCCATCGAGCACTGTTTCAAGCTTTACCCGTGGGAATGGTTGATCGAGGAAGAGTTCGGCCGGCACATCGCGGCCAGCGAGATCCGCTTCCTCGAACCAGCCTGGAAGCTGCTGCTGTCGTGCAAGGCGATCCTGCCGATCCTCTGGCAGTTGTTCCCCGAGCATCCGAATCTGCTACCCGCCAGCTTCACCGATAACCTGTCCGGTGCCCATGTGCGAAAGCCGCTCTACTCACGGGAAGGTAGCAACATCCAGATTGTTGCCCCAGGCATCGACGAACGGAGCGACGGTCCCTACCGGGAAGAAGCCGGCATCTACCAAGCCTTCGCCCCGCTCCCGCGTTTCGGCGACAGCCACGCAGTGATCGGCAGTTGGGTCGTCGGCGATGCCGCCGCCGGGATCGGTATCCGTGAAGACTCCAGCCTGATCACCCGGGACAGTAGCCGCTTCATCCCGCACTTCTTTATCGAATGA	MRCLPSQPRPHWREQCESLGFTFHSIDGRYWDETKAYRFTLAQIEHLEAVTEDLHQRCLEAIDWIIREEHFAPFGLSPSAIQLVQRSWRRKEPSLYGRFDFSWNGSGEPKLLEYNADTPTGLLEASVIQWHWLQDCQPDADQFNSLHEKLVARWRQIAPRQPMYFAAQHDHEEDTGNLLYLLDTAHQAGLTTRYLPIERIGFSALQQRFVDENDHPIEHCFKLYPWEWLIEEEFGRHIAASEIRFLEPAWKLLLSCKAILPILWQLFPEHPNLLPASFTDNLSGAHVRKPLYSREGSNIQIVAPGIDERSDGPYREEAGIYQAFAPLPRFGDSHAVIGSWVVGDAAAGIGIREDSSLITRDSSRFIPHFFIE				NA	NA	NA	NA	NA
BMS010_09076	309			hypothetical protein	ATGAAGAAATCCACTCTGGTCATCAACACGTTGCTGACAGGCGGCGTGCTCACGGCTCTGCTCCACCACAACGCGGTCTACCGCGATAACTACGCCAGCCGAGAGGATTGCCTCGCCGACTGGAACCAGAATCCAGCCAACTGCGAGGCGAGCGGCGGCTCTGGCGGCTCGGCAGGTTTCTACCGCGGCCCCACTTACGAAGACGGCAGCCGCCCAAGGACGCCGCAGCAGCAGCGCGTGGCCTTTCGCGAGATGGTCAAGCGCAGCGGCTTCGGCAGTTCCGGCGCACGCTTTTCCGGAGGCGGCTGA	MKKSTLVINTLLTGGVLTALLHHNAVYRDNYASREDCLADWNQNPANCEASGGSGGSAGFYRGPTYEDGSRPRTPQQQRVAFREMVKRSGFGSSGARFSGGG				NA	NA	NA	NA	NA
BMS010_09077	2067	metG_2	COG0073	Methionine--tRNA ligase	GTGTTACCAGTGCAGCCGATCACCATGTCCGAAGCCCGCAAGATTCTCGTCACCAGTGCCCTGCCCTACGCCAACGGTTCGATCCACCTGGGTCACATGCTGGAGTACATCCAGACCGATATGTGGGTGCGCTTCCAGAAACTGCGCGGTAACCAGTGCATCTATGTCTGCGCCGACGATGCCCACGGCTCCGCGATCATGCTGCGCGCCGAAAAGGAAGGCATTACCCCGGAGCAGTTGATCGCCAACGTCAAGGCCGAGCACACCGCCGACTTCGCCGATTTCCTGGTCGGCTTCGACAACTATCACTCCACCCACTCGGACGAGAACCGCGAGCTGTCGAGCGCCATCTACCTGAAGCTGCGCGACGCCGGGCACATCGCCACCCGTGCCGTGACCCAGTATTTCGACCCCGAGAAGGGCATGTTCCTCGCCGATCGCTTCATCAAGGGCACCTGCCCGAAATGCGGCGCCGAGGACCAGTACGGCGACAACTGCGAGAAATGCGGCGCCACTTACGCCCCCACCGAGCTGAAGAATCCCAAATCCGCCATCTCCGGCGCCACGCCGGTGTTGAAGGAATCCCAGCACTTCTTCTTCAAGCTGCCGGATTTCGAGGCCATGCTGAAAAGCTGGACCCGCAGCGGCACCCTGCAGGACGCGGTGGCCAACAAGATCGCCGAATGGCTCGACAGCGGCCTGCAGGAATGGGACATCAGCCGCGACGCCCCCTACTTCGGCTTCGAGATTCCCGGCGAGCCGGGCAAGTACTTCTACGTCTGGCTGGACGCGCCGATCGGCTACATGGCCAGCTTCAAGAACCTCTGCGACCGCACGCCGGACTTGGACTTCGATGCCTTCTGGGGCAAGGACTCCAGCGCCGAGCTGTACCATTTCATCGGCAAGGACATCGTCAACTTCCACGCGCTGTTCTGGCCGGCCATGCTCGAAGGCGCCGGCTACCGCAAGCCGACCGGCGTGAACGTGCACGGCTACCTGACCGTCAACGGGCAGAAAATGTCCAAGTCGCGCGGCACCTTCATCAAGGCGCGCACCTACCTGGACCACCTGAATCCCGAATACCTGCGCTACTACTACGCGGCCAAGCTCGGCCGCGGCGTCGATGACCTCGACCTCAACCTCGAAGACTTCGTGCAGAAGGTCAACTCGGACCTGGTGGGCAAGGTGGTCAACATCGCCAGCCGCTGCGCCGGGTTCATCCACAAGGGCAACGCCGGGGTCCTGGTGGCCGGCAATGCCGCTCCCGAGCTGACCGACGCCTTCCTCGACGCCGCGCCGGGCATCGCCGAAGCCTACGAGGCCCGCGACTTCTCCCGCGCCATGCGCGAGATCATGGCCCTGGCCGACCGCGCCAACGCCTGGATCGCCGACAAGGCACCCTGGGCCCTGGCCAAGCAGGACGGCAAGCAGGCCGAGGTGCAGGAAGTCTGCGCCCTCGGCATCAACCTGTTCCGTCAGTTGGTGATCTTCCTCAAGCCCGTGCTGCCGAAACTGGCAGAGGCCGCGGAAGCCTTCCTCAACGTCGCCCCGCTGCGCTGGGACGACCATGCGACCCTGCTGGCCAACCACCAGTTGAATGCCTTCACTCCCCTGATGACCCGTATCGAGCCTGCGAAAATCGACGCCATGATCGAAGCCTCCAAGGAAGACCTCGCCGCCACCGAAGCCACCGCCAAGCCCGCAGGGAACGGCGAACTGGCGAAAGACCCACTGGCAGCGGAAATCACCTTCGACACCTTCGCCGCGGTCGACCTGCGCATCGCCCTGATCGAGAAGGCCGAATTCGTCGAGGGCGCCGACAAGCTGCTGCGCCTGTCGCTGGACATCGGCGACGAAAAACGCAACGTCTTCTCCGGCATCAAGAGCGCCTACCCCGACCCGAGCAAGCTGGAAGGCCGCCTGACCCTCTACGTCGCCAACCTCGCCGCGCGCAAGATGAAGTTCGGCGTCTCCGAAGGCATGGTCCTGGCCGCCGGCCCCGGCGGCGAGGAAATCTACCTGCTCAGTCCGGACAGCGGCGCCAAGCCGGGGCAGCGTGTGAAGTAA	MLPVQPITMSEARKILVTSALPYANGSIHLGHMLEYIQTDMWVRFQKLRGNQCIYVCADDAHGSAIMLRAEKEGITPEQLIANVKAEHTADFADFLVGFDNYHSTHSDENRELSSAIYLKLRDAGHIATRAVTQYFDPEKGMFLADRFIKGTCPKCGAEDQYGDNCEKCGATYAPTELKNPKSAISGATPVLKESQHFFFKLPDFEAMLKSWTRSGTLQDAVANKIAEWLDSGLQEWDISRDAPYFGFEIPGEPGKYFYVWLDAPIGYMASFKNLCDRTPDLDFDAFWGKDSSAELYHFIGKDIVNFHALFWPAMLEGAGYRKPTGVNVHGYLTVNGQKMSKSRGTFIKARTYLDHLNPEYLRYYYAAKLGRGVDDLDLNLEDFVQKVNSDLVGKVVNIASRCAGFIHKGNAGVLVAGNAAPELTDAFLDAAPGIAEAYEARDFSRAMREIMALADRANAWIADKAPWALAKQDGKQAEVQEVCALGINLFRQLVIFLKPVLPKLAEAAEAFLNVAPLRWDDHATLLANHQLNAFTPLMTRIEPAKIDAMIEASKEDLAATEATAKPAGNGELAKDPLAAEITFDTFAAVDLRIALIEKAEFVEGADKLLRLSLDIGDEKRNVFSGIKSAYPDPSKLEGRLTLYVANLAARKMKFGVSEGMVLAAGPGGEEIYLLSPDSGAKPGQRVK				NA	NA	NA	NA	NA
BMS010_09078	1095	apbC_2	COG0489	Iron-sulfur cluster carrier protein	ATGAGCACCGTTACCCGCGACGTGGTGGAAGCCGCACTGCGCCAGTACATCGATCCGCATCTCAACCAGGACCCCGTCAGCGCCGGCTGCCTGCGCGGGATCGATATCCAGGGCGACCGCGTTTCCGTGCGGCTGGAACTGGGTTACGCCGCCGGTCTGTTCAAGAACGGCCTCGCCCAGTTGCTGCAGATGGCCTTGGAAGACCTCGATGGCGTGAGCCAGGCAAGCGTCCAGGTGGATTGCGTGATCGCCCCGCACAAGGCACAGGGCCAGGTGCCGGCGTTGGCCAACGTGAAGAACGTGATCGCCGTGGCTTCTGGCAAGGGCGGCGTGGGCAAGTCCACCACCGCCGCCAACCTGGCCCTGGCCCTGGCCCGCGAAGGGGCACGGGTGGGTGTGCTGGATGCGGATATCTACGGCCCCAGCCAGGGCATCATGTTCGGCATCCCGGAGGGCACCCGCCCGCAGGTGAAGGATCAGAAGTGGTTCGTGCCGCTGGAGGCCCATGGCGTGCAGGTCATGTCCATGGCCTTCCTCACCGACGACAACACCCCCATGGTCTGGCGCGGGCCGATGGTTTCCGGTGCGCTGATCCAGCTGATCACCCAGACCGCCTGGGACAATCTCGATTACCTGGTGGTGGACATGCCGCCCGGCACCGGCGACATCCAGCTGACCCTGGCGCAGAAGGTGCCGGTGGCCGGCGCGGTGATCGTGACCACGCCGCAGGACCTGGCGCTACTCGATGCCAAGAAGGGCGTGGAGATGTTCCGCAAGGTCAACATTCCGGTCCTCGGGGTGGTGGAGAACATGGCCATCCATATCTGCTCCAACTGCGGCCATGCCGAGCACCTGTTCGGCGAAGGCGGCGGCGAGAAACTGGCCGCGCAATACGGCGTCGAGCTGCTGGCGTCGCTGCCGCTGTCCATGGCGATCCGCATGCAGGCCGACGCCGGCAAGCCGACCGCCATCGCCGATCCGGAAAGCCAGATCGCCATGATCTACCAGGCCATGGCCCGCAGTGTCGGCGCGCGCATCGCCCAGAGCGAGCAGGCGGCGCCGACGATGCCGAATATCGTGATTTCCGACGACTGA	MSTVTRDVVEAALRQYIDPHLNQDPVSAGCLRGIDIQGDRVSVRLELGYAAGLFKNGLAQLLQMALEDLDGVSQASVQVDCVIAPHKAQGQVPALANVKNVIAVASGKGGVGKSTTAANLALALAREGARVGVLDADIYGPSQGIMFGIPEGTRPQVKDQKWFVPLEAHGVQVMSMAFLTDDNTPMVWRGPMVSGALIQLITQTAWDNLDYLVVDMPPGTGDIQLTLAQKVPVAGAVIVTTPQDLALLDAKKGVEMFRKVNIPVLGVVENMAIHICSNCGHAEHLFGEGGGEKLAAQYGVELLASLPLSMAIRMQADAGKPTAIADPESQIAMIYQAMARSVGARIAQSEQAAPTMPNIVISDD				NA	NA	NA	NA	NA
BMS010_09079	1491			hypothetical protein	ATGGAGCATCAGGCTCACTATCTGCGCAAGGATGCGATGGCCGGCGACCAGGGCATGGACGAGCACATGCGGCTGATGCAGCAGCGCCGCATCGCCACGCTCTGGTGTCATTTCGCCAATATCGGCCTGGGTTTCTGGTTGCTCGCCCAGCCATTCATCCTCGGCTATTCGAACATCGGCCCCGATGATCTCGACCTGGCGCGGGTCACCGCTGAGCGTGGCCTCCCCGACGTCGCCACCCGCGCGCTGCTGATGACCGGCTCGGACATGCTGGGCGGCGCGCTGATCGTGCTGTTCTCCATCTTGTCGCTGAAACGCCTGAGCTGGGCGCAGTGGGCCAACGCAGTGCTTGGCCTCTGGCTGATGTTCGCGCCGCTGCTGTTCTGGACGCCATCGCCGGCCAGCTACAGTGGCGGATTGCTGGTCGGCGGGCTGGTCATCGCGTTTTCCGTGCTGGTACCGATGATGCCGGGCATGAGCATGGAGGGCATGATGCAGAAGGCCTCGCTCCCTCCCGGCTGGGATTACAACCCTTCGACCTGGCTGCAGCGTCTGCCGATCGCCGTGCTGGCACTGCTCGGCATCCTCCTGGCGCACTATCTTGCCGCTTACCAGCTTGGCCATATCGCCAATGCCTGGGACCCGTTCTTCGGCACCGAACCCAATGGCACGGAGACCATCGTCACTTCGGACATGTCCAAGGCCTGGCCGGTGGCGGATGCCGGGGTAGGCGTCATGGCCTACATGATCGAGCTGCTGATGGCGGTGATGGGCGACGCGCGTCGCTGGCGGACCATGCCCTGGATGGTGGCGGCGTTCGGCGTGGTGGTGGTACCGCTGGGAGCGGTGAGCATTTTCTTCATCATCGCCCAGCCCATCGTCATCGGTACCTGGTGCAGCCTGTGCCTGCTGCAGGCGGCCGCGATGCTGGTGATGATGCCCTATGCCCTCGACGAACTGGTGGCCATGGGGCAGTTCCTCAAGGATGCCCTGCACCGGCGCAAACCCTTCTGGCGCACCTTCTTCATGGGCGATGCCATGGAGGGCGCCCGCGCGGACGATACCCCGGAATTCGAAGGCGGCCTCGGCGACATGAGGCTCAAGGCCCTGCGCGGGGTCAATCTGCCCTGGGGGGCTGGTGATCGTCTGCCTGATCGGCCTGTGGCTGATGTGCACGCGACTGATCTTCGGCAGCAGTGGGGCCATGGCCGACAGCGATCACTTGATGGGGGCGCTGCTGATCACCATCGGCGTCCTCGCCATGGCCGAAGTCGCCCGTCCGCTGCGCTGGCTCAACCTGCCCATCGGCGCGTGGCTGCTGGCGGCCCCCTGGCTGCTCGACGGCGCGGGTCCCGGTGCACTCGTCGGCAGTCTGGCAGCGGGGGTATTGGTGATGATCGCCAGCGTGCCGCGCGGTGCGATCCGCCATCGCTACGCCGGTTGGAACGCGTTGTTGAAATGAATCCAGTGGCAACAGGGAGTTCACCATGA	MEHQAHYLRKDAMAGDQGMDEHMRLMQQRRIATLWCHFANIGLGFWLLAQPFILGYSNIGPDDLDLARVTAERGLPDVATRALLMTGSDMLGGALIVLFSILSLKRLSWAQWANAVLGLWLMFAPLLFWTPSPASYSGGLLVGGLVIAFSVLVPMMPGMSMEGMMQKASLPPGWDYNPSTWLQRLPIAVLALLGILLAHYLAAYQLGHIANAWDPFFGTEPNGTETIVTSDMSKAWPVADAGVGVMAYMIELLMAVMGDARRWRTMPWMVAAFGVVVVPLGAVSIFFIIAQPIVIGTWCSLCLLQAAAMLVMMPYALDELVAMGQFLKDALHRRKPFWRTFFMGDAMEGARADDTPEFEGGLGDMRLKALRGVNLPWGAGDRLPDRPVADVHATDLRQQWGHGRQRSLDGGAADHHRRPRHGRSRPSAALAQPAHRRVAAGGPLAARRRGSRCTRRQSGSGGIGDDRQRAARCDPPSLRRLERVVEMNPVATGSSP				NA	NA	NA	NA	NA
BMS010_09080	993			hypothetical protein	ATGACCCATACCTCTACCGCCGTGATCTGCGGCGCCAGCGCGGGTGTCGGCCGCGCCGCCGCCCATGCCTTCGCCCGTGCCGGTTACCGCGTCGGGCTGATCGCCCGGAGCGAGAAGGGCCTGGCCGATACCGAGGAGGAGTTGCGCAAGGTCGGCGCCACGGCCCTGGCGATTGCCGCCGATGTGGCTGACGCCGGGGCACTGGAGCGGGCCGCGGAGCGCTTCGAGGCGGAGCTGGGGCCGATCGAGGTCTGGGTCAATTCGGCGATGGTCACCGTGTACGCCCCGGTCAGCCAGATGACTGCGGACGAGTACCGGCGGGTCACCGAGGTCACCTACCTGGGCTTCGTACACGGTACGCTGGCGGCTTTGCGGCACATGCGGCCACGCGACCGCGGCACCATCGTCCAGGTCGGCTCGGCGCTGTCCTACCGGGCGATTCCGTTGCAATCGGCCTACTGCGCCGCCAAGTTCGCCATCCGTGGCTTCACCGACGCGCTGCGCTGCGAGCTGATCCACGACAAGAGCCATATCCGCCTCACCATGGTGCAATTGCCGGCGCACAACACGCCGCAATTCGACTGGGCGCGCAGCCGGATCGCCAAGCGGCCGCAGCCGGTTCCGCCGATCCACACGCCGGAAGTCGCCGCCCGCGCGATCCTGCGGGCGGCCGTCGATGCGCCGCGGGAACTCTGGCTGGGCAAGGCCACCATCCAGGCCATCATCGGCAGCCAGCTGATCCCCGGCACCCTGGACCGGATGATGGCCACGCAGGCCTACAACGGTCAGTTCAGCCTGGAAGACGCCGAGCCCGGACGCCCCGACAACTTGTTCGACCCGGTCGACGGACTGCACCGCACCGCCGGCCGCTTCGGCGACCAGGCGCTGGACAAGGCGCTGTGCCTGAGTTCGGAAACGGTGGGCAAGCTGATCGCCGTCGGCATTGCCGGTGTGGCGCTGGTGGTCGCGCTGATTCTGCTGGCGCTGGGGTGA	MTHTSTAVICGASAGVGRAAAHAFARAGYRVGLIARSEKGLADTEEELRKVGATALAIAADVADAGALERAAERFEAELGPIEVWVNSAMVTVYAPVSQMTADEYRRVTEVTYLGFVHGTLAALRHMRPRDRGTIVQVGSALSYRAIPLQSAYCAAKFAIRGFTDALRCELIHDKSHIRLTMVQLPAHNTPQFDWARSRIAKRPQPVPPIHTPEVAARAILRAAVDAPRELWLGKATIQAIIGSQLIPGTLDRMMATQAYNGQFSLEDAEPGRPDNLFDPVDGLHRTAGRFGDQALDKALCLSSETVGKLIAVGIAGVALVVALILLALG				NA	NA	NA	NA	NA
BMS010_09081	567	dcd_2		dCTP deaminase	ATGAGCATTAAATCGGACAAGTGGATTCGCCGCATGGCCCAGGAACACGGCATGATCGAGCCTTTCGTCGAGCGCCAGGTGCGCACCGAAGGCAACGAGCGGCTGATCTCCTACGGCGTGTCCAGCTACGGTTACGACGTGCGTTGTGCCGATGAATTCAAGGTCTTCACCAACATCAACTCGGCCACCGTGGACCCGAAGAACTTCGATGAGAAGAGCTTCGTCGACGTCAAGAGCGATGTCTGCATCATCCCGCCGAATTCCTTCGCCCTGGCGCGTACCGTCGAGTACTTCCGCATCCCGCGCAACGTCCTGACCATCTGCCTCGGCAAGAGCACCTATGCCCGTTGCGGCATCATCGTCAACGTCACGCCGCTGGAACCCGAGTGGGAAGGGCACGTGACCCTGGAGTTCTCCAACACCACCACGCTGCCGGCGAAGATCTACGCCAACGAGGGCGTGGCGCAGATGCTGTTCCTCGAATCCGACGAGGCCTGCGAGGTGTCGTACCGTGACCGGGGCGGCAAGTACCAGGGGCAGACCGGCGTTACCCTGCCGAAGACCTGA	MSIKSDKWIRRMAQEHGMIEPFVERQVRTEGNERLISYGVSSYGYDVRCADEFKVFTNINSATVDPKNFDEKSFVDVKSDVCIIPPNSFALARTVEYFRIPRNVLTICLGKSTYARCGIIVNVTPLEPEWEGHVTLEFSNTTTLPAKIYANEGVAQMLFLESDEACEVSYRDRGGKYQGQTGVTLPKT	PGPT0021225_2014	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021225-dcd-K01494	NA	NA
BMS010_09082	237			hypothetical protein	ATGATCAACGCGCCACGCATTTCCCCCGCCGAGCTGCCCTGGGGCGGTCTGCCAGTGGAGTTTCCCTTCGCCGGGATGACTCTGCCCGTCGAAGACTTCAGTGACTTTCTGCGGGCCGGCGGCATTCCCGGCCAGCCGGGCCCCGACACCCCCGAGCCGCCACCTCAACAACCGCAGCCGGGAGAGCCGGGCGAGCCCACGGTTCCGGATCAGCCGCCCCCCGCCCCGGTGGCCTGA	MINAPRISPAELPWGGLPVEFPFAGMTLPVEDFSDFLRAGGIPGQPGPDTPEPPPQQPQPGEPGEPTVPDQPPPAPVA				NA	NA	NA	NA	NA
BMS010_09083	828	pheC		Cyclohexadienyl dehydratase	ATGCATCCATTTCGCCTTTTCCGCGCCTCCGTCGCGCAGTTGACCGTCGCTTGTCTGTTGCTGGCCAGCCAGGCGCTGACCGCCGCCCAGGCCGAAACCAACCGCCTCGACCGCATCCTCGAAAGCGGGGTGCTGCGGGTCGGCACCACCGGCGACTACAAACCCTTCAGCTACAAGGACCCGAAGAGCGGCCAGTTCATCGGCCTCGATGTGGAAATGGGCGAGTCCCTGGCCAAGGCCCTGGGCGTGAAGCTGGAGCTGGTGCCCACCAGTTGGCCGACCCTGATGGCGGACCTGGCGGCGGACAAGTACGACGTCGCCATGAGCGGCGTCTCGGTCAGTCTGGAACGGCAGAAGGTGGCGTTCTTCTCCCAGCCCTACATGCGTGACGGCAAGACGCCGATCACCCTGTGCAGCAACAAGGACAAGTTCCAGAGCCTGGAGCAGATCGACCGCGCCGGCGTGCGCGCCATCGTCAATCCAGGCGGCACCAACGAGAAATTCGCCCGGGCCAACCTGAAGCAGGCCGAAATCGTGATGCACCCGGACAACGTCACCATTTTCGAGCAGATCGTCCAGGGCAAGGCCGACCTGATGATGACCGACGCCGTCGAGACCCGCCTGCAATCGCGCCTGCACCCCGAACTCTGTGCCCTGCATCCGGACCAGCCGTTCGACTTCTCGGAAAAGGCCTATCTGATACCGAGGGATCTGGTGTTCAAGCAGTTCGTCGACCAATGGCTGCGCCAGGACATCGAAAGCGGTACGTTCGCCAAGCGTTTCGACCAGTGGCTGAACTATCCCTGGCAGGCGGCGAACAAGCCGTAA	MHPFRLFRASVAQLTVACLLLASQALTAAQAETNRLDRILESGVLRVGTTGDYKPFSYKDPKSGQFIGLDVEMGESLAKALGVKLELVPTSWPTLMADLAADKYDVAMSGVSVSLERQKVAFFSQPYMRDGKTPITLCSNKDKFQSLEQIDRAGVRAIVNPGGTNEKFARANLKQAEIVMHPDNVTIFEQIVQGKADLMMTDAVETRLQSRLHPELCALHPDQPFDFSEKAYLIPRDLVFKQFVDQWLRQDIESGTFAKRFDQWLNYPWQAANKP				NA	NA	NA	NA	NA
BMS010_09084	1140			hypothetical protein	ATGCAAGCGCTCAAAGACTATTTTCAACGCCACGGCCACGCCGCCTTCCGCTGGGGTGACGGCCGTATCAGCGGCTATCTGTCCGCCGCGCTGGGGTTACTCAGCCTGCTCGCGGTGCTGTGCTTCCTGTTCCCGCAATGGCTGACCACCACCGAGCTGCGCCAGGTCTATACCGAGCAGTTCGCCCGCAGCGCCCTGTTGCTGGGGCTGGTGGTGTCCTTCTCCCTCGGCACTCTCAATATCCTGCGTAACCGCCGCAAGCGCCTGGGCTTCACCGGACTGGTGGCATCGGGACTGGCGGTCCTGCTCGGCGGCACCAACATCCAGTTCGAGGCAATCGGTCAGACCCCGTATTCCCTGGGCCTGGACTGGTTCGTGCTGGCCCTGCTGGTCTCGGCGATCGTCTTCATCCCTCTGGAAAAGCTCTATGCCAAGGACCCCGAGCAGAACATCCTGCGTCCGCACTGGCGTACCGACCTGGCCTATTTCTTCGTCAGCCACATGCTGGTGCAGTTCATCCTGATCTTCGCCACCGCATCCTCCACGCTGGTGGTGGGCTGGGCGGTGTCCGGCGGGTTCCAGGCGAAGGTGCAGGCGCTGCCGTGGTTCGTCCAGTTCGTCCTCGCGGTGTTCGTGGCCGACCTCGGCCAGTACTGGCTGCACCGCCTGTATCACACCATTCCCTGGCTGTGGCGCTTCCATGCCGTGCACCACTCCAGCACGGCGATGGACTGGCTGGCCGGCTCGCGGATTCACTTCGTCGAAATCCTCCTGACCCGCACCGCCGTGCTGGTGCCGCTGCTGCTGATGGGCTTCTCGTCGCAGGCGCTGAATGCCTACGTGATCCTGGTGGGCATCCAGGCCGTGCTGGCCCATGCCAACGTGCGCATCGACGGCGGCTGGCTGAACTACCTGCTTGTGCTGCCGCGCTACCATCACTGGCACCACGCCAAGGACCCGGCCTACGCGTACAAGAACTACGCCATCCATCTGCCGCTGGTGGACATGCTGTTCGGCACCTTCAAGCTGCCGCCGAAGGAATGGCCGAGCCGTTACGGCGTGTTGGGCAAGGCGCTGCCGGACGGCATCCTGCGCCAGCACCTGTACGCCTTCCAGCGCCCCGTCAAAAAGGCCCAATGA	MQALKDYFQRHGHAAFRWGDGRISGYLSAALGLLSLLAVLCFLFPQWLTTTELRQVYTEQFARSALLLGLVVSFSLGTLNILRNRRKRLGFTGLVASGLAVLLGGTNIQFEAIGQTPYSLGLDWFVLALLVSAIVFIPLEKLYAKDPEQNILRPHWRTDLAYFFVSHMLVQFILIFATASSTLVVGWAVSGGFQAKVQALPWFVQFVLAVFVADLGQYWLHRLYHTIPWLWRFHAVHHSSTAMDWLAGSRIHFVEILLTRTAVLVPLLLMGFSSQALNAYVILVGIQAVLAHANVRIDGGWLNYLLVLPRYHHWHHAKDPAYAYKNYAIHLPLVDMLFGTFKLPPKEWPSRYGVLGKALPDGILRQHLYAFQRPVKKAQ				NA	NA	NA	NA	NA
BMS010_09085	669		COG1926	Putative phosphoribosyl transferase	ATGCGTGCCCTGGCCCGATCGCCGCATCTGTTCCCCGACCGGCACAGTGCCGGTCTGGAGCTGGCCGAAGCATTGGCGCCCTACGCCGCCGACCATCCGTTGGTGCTGGCCCTGCCGCGGGGCGGCGTGCCGGTGGCCTATGAGATCGCCCGAACCTTGAAGGCGCCGTTGGATCTGGTTTTGGTACGCAAGATCGGCGCACCGGGCTACGAGGAGCTGGGCCTGGGCGCAGTCATCGACGGCGCCGATCCGCAATGGGTGCTCAACGAAGAAGTGGTGCGTCAGGTGCATCCGCCGGAGGGCTGGTTCGAAGCGGAGATGCAGCGCCAGTTGGTCGAACTGGAGCGGCGCCGCCGTCTCTACTGCGGCGACCGTCCCGCGCCGAACGTCGGCGGCCATGTGGTGATCGTGGTGGATGACGGTATTGCCACCGGCGGCACAGTGCGGGCGGTCCTGAAGGGACTGGCCAAGGCCGGACCGAGCCAATTGGTGCTCGCCGTACCGGTGGGCCCGCGGGAAGTGATCGAAGACCTGCGCAGCCAAGTGGACGAACTGGTCTGCCTGGTGATGCCGGAGCCTTTCATCGCCGTGGGCCAGCATTACGCCGACTTCGCCCAGACCACCGACGAGGAAGTGATCGCCCTGCTGGCACGCAGCCGGACCGGCTAA	MRALARSPHLFPDRHSAGLELAEALAPYAADHPLVLALPRGGVPVAYEIARTLKAPLDLVLVRKIGAPGYEELGLGAVIDGADPQWVLNEEVVRQVHPPEGWFEAEMQRQLVELERRRRLYCGDRPAPNVGGHVVIVVDDGIATGGTVRAVLKGLAKAGPSQLVLAVPVGPREVIEDLRSQVDELVCLVMPEPFIAVGQHYADFAQTTDEEVIALLARSRTG				NA	NA	NA	NA	NA
BMS010_09086	1353		COG1926	putative protein	ATGGGCACGCTTTCAGAGAAGCTCCGCTCCGCCCTCCCGTCCAAACGTCCCACCGCCGAGCTGGCCACCCTGCTGCAACGTTACGCCGAACCGCTGCCGGCGCTGGACGCCCCGGCCTTCGGCGATCTGTTCGACCGCTACGGCAACGCCCGGGTGGTGCTGATCGGCGAAGCCAGCCATGGCACCTCGGAGTTCTACCGCGCCCGCGCCGCCATCACCCGCCGGCTGATCGAGCGGCATGGTTTCAACATCGTCGCCGCCGAGGCGGACTGGCCGGATGCCGCGCAGATCGACCGCTACGTACGCGGCCAGCAGCCGCCGACCTGGCGCCACGACGCCTTCGAGCGCTTTCCCACCTGGATGTGGCGTAACCAGGAGGTCGGCGACTTCACCGATTGGCTGCACGGCTACAACCAGGCCCGTGCCGCCGATGAACGCGTTGAATTCCGCGGGCTCGACGTGTACAGCCTGGGCGCCTCGATCAGCGCGGTGCTGCGCTACCTCGACCGCGTCGACCCCGAAGCCGCCAAGGCCGCGCGACGCCGCTATGGCTGCCTGACACCCTGGCAGGAAGAACCGGCCTACTACGGCCACAACGTGCTCTACGGGCAGAAGGAGCCGTGCGAAGACGTGGTGGTGGAACAGCTCAACGCCCTGCTCGAACAGCGGCTGAACTACCTCGGCGAGGATGGCGAGAGTTTCTTCGACGCGGCGCAGAACGCCCGCGTGGTGCGCTCCGCCGAGCAGTACTACCGCATCATGTACCGTGGCTCGACGGAATCCTGGAACCTGCGCGACCGGCACATGTTCGACACCCTGCGGGCGCTGATGGAGCACCGGGGCACCGGGGCCAAGGCCGTGGTCTGGGCGCATAACTCGCACATCGGCAACGCCGCGGCGACCTCCATGGGTTGGACTGGAGAATTCAACATCGGCGAACTCGGCCGCACCGCCTGGGGCAGCGACGCGGTGCTGATCGGCATGGGCACCGACCGGGGCCTGGTGGCGGCAGCCAGCAACTGGGACGACCCGATGCAGATCAAGCAGGTCCGCCCCTCGCGCAGCGACAGTTGGGAACAGGCGTTCCTTCTCGCCGGCGTGCCGGCATCACTTACCGATTGGCGCGCGGCGGACCGCCACGAGCTGCGCAACGCCCTCGCCGCACCGCGCCTGGAGCGGGCCATCGGGGTCATCTATCGCCCCGAGAGCGAACGCGCCAGCCACTACTTCGACGCGGTGCTGGCGGAACAATTCGACGCCTGGCTGTGGTTCGAGGAAACCCGTGCCGCCACGCCGCTCGGCCCGCGCCAGCCGAAGTCCGGCACCCCGGAAACCTACCCGTTCGGAGAGTGA	MGTLSEKLRSALPSKRPTAELATLLQRYAEPLPALDAPAFGDLFDRYGNARVVLIGEASHGTSEFYRARAAITRRLIERHGFNIVAAEADWPDAAQIDRYVRGQQPPTWRHDAFERFPTWMWRNQEVGDFTDWLHGYNQARAADERVEFRGLDVYSLGASISAVLRYLDRVDPEAAKAARRRYGCLTPWQEEPAYYGHNVLYGQKEPCEDVVVEQLNALLEQRLNYLGEDGESFFDAAQNARVVRSAEQYYRIMYRGSTESWNLRDRHMFDTLRALMEHRGTGAKAVVWAHNSHIGNAAATSMGWTGEFNIGELGRTAWGSDAVLIGMGTDRGLVAAASNWDDPMQIKQVRPSRSDSWEQAFLLAGVPASLTDWRAADRHELRNALAAPRLERAIGVIYRPESERASHYFDAVLAEQFDAWLWFEETRAATPLGPRQPKSGTPETYPFGE	PGPT0027980_349	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027980-ereA_B-K06880	NA	NA
BMS010_09087	234			hypothetical protein	ATGGCGAAGTGGATTATCACCTTCAACAAAGACGGCAATACCGCCATGATCACGACGGAATCGGCCGAGAAACCCGGCATGGAGCAAGCGATCGAGCTGGTTCGCGAAGAGGCGGCCAAGCGTTACGAACCGCTGGAACCCACCAACCAGGACGAGGGGTTGGAGGGCCCCGCGCAGGATTTGCTGCAACGTTATGGCGTGACCATCACCGGCATTTCCGAATCCAGCGATTGA	MAKWIITFNKDGNTAMITTESAEKPGMEQAIELVREEAAKRYEPLEPTNQDEGLEGPAQDLLQRYGVTITGISESSD				NA	NA	NA	NA	NA
BMS010_09088	654			hypothetical protein	ATGAGCAGCCACCATGTCCTCTCCCTCGCCGGCACCGACCTCTGGCTGCTCGGCGAGAAGGCGGCCTACTGGCCGGAGCAACGGACCCTGCTGGTCGCCGATATTCATTTCGGCAAGGCCGTCGCCTACCGCCGCCTCGGTCAGCCGGTTCCGCAGGGCACCACCACGAACAACCTGCGCCGGCTGAATGCCTTGCTGGATCGTCACGCCTGTTCCCGGTTGGTGTTTCTCGGCGATTTCCTGCATGCGCCGGAATCCCACGCTCCGGCCACCCTCGCCCGCCTGGGCGAATGGCGGGAGCGCCATGCCGCGCTGCCGATGACCCTGGTGCGCGGCAACCATGACCGTCGCGCCGGGGATCCGCCCGCTGCGCTGAATATCGAGGTGGTCGGTGAGCCCTTGTACCTGGGGCCGTTCGCCCTGCGCCACGAGCCCGTCCGCGAGGCGGAGCGCGTGGTGCTGGCCGGTCACTTGCACCCGACGTTCCGCCTGGCCGGCAAGGGACGCCAGAGCCTGCGCCTGCCGTGCTTCAGCGTCGAAGACGGGCTCATTCTGCTGCCGGCGTTCGGCGATTTCACGGGCGGCATGGAATTGCCCGCCGCACCGGGGCGGCGGGTATTCGTGGTTGCCGATGGGGAGATCTGGCCGGTCTAG	MSSHHVLSLAGTDLWLLGEKAAYWPEQRTLLVADIHFGKAVAYRRLGQPVPQGTTTNNLRRLNALLDRHACSRLVFLGDFLHAPESHAPATLARLGEWRERHAALPMTLVRGNHDRRAGDPPAALNIEVVGEPLYLGPFALRHEPVREAERVVLAGHLHPTFRLAGKGRQSLRLPCFSVEDGLILLPAFGDFTGGMELPAAPGRRVFVVADGEIWPV				NA	NA	NA	NA	NA
BMS010_09089	2592			hypothetical protein	ATGAGCCCGTCCCCGCACCTCGCCGGTGCCTGGTTTGCCCGCCAGGGCTGGTCGCCGTTCGCCTTTCAGGAACGGGTCTGGCAGGCGGTGGCCGAGGGCGAGTCCGGCCTGCTGCATGCCAGTACCGGCGCCGGCAAGACCTACGCGGTCTGGTTCGCCGCGTTGAACCGCTTCGCCGAGGGCGGCAGCGCCACGGCCTCGAACCAGAGCGCGCCCTTGACCGCCCTCTGGATCACGCCGATGCGCGCCCTCGCCGCCGACACCGCACGTGCCCTGGAGGCGCCGCTGAAGGACCTGGACATCGCCTGGGATATCGGCCTGCGTACCGGCGACACCGGCAGCGCCGAGCGCGCCCGCCAGGGGCGCCGCCTGCCGAGCGCGCTGGTCACTACCCCGGAAAGCCTGACCCTGCTGCTCACCCGCGCCGATGCCCGCCAGGCCTTCGCCGGACTGCGCATGCTGGTGGTGGACGAGTGGCACGAACTGCTCGGCAACAAGCGCGGCGTGCAATTGCAATTGGCCCTGGCACGCCTGCGCCAATGGAATCCCACGCTGATCGTCTGGGGCCTTTCCGCCACCCTGGGCAATCAGACGCATGCCCTGGAGGTATTGCTTCACCCCGGCCATGGGCGACTGGTCCAGGGGCTGACACCCAAGACCTTGCAGGTCGATACCCTGCTGCCGCCCACGCTGGAACGCTTCCCCTGGGCCGGCCATCTCGGCCTGCGCATGCTGCCCCAGGTAGTCGAGGAACTGGAGACGGCAGCCACCTCGCTGGTGTTCACTAACACCCGCTCCCAGGCCGAGCTGTGGTACCAGGCGCTGCTCGATGCGCGTCCGGACTGGGCCGGGCTGATCGCCCTGCACCATGGTTCGCTGTCCCGCGAGGTACGCGATTGGGTGGAGCGCGGGCTCAAGGATGGCCGGCTCAAGGCGGTGGTCTGCACCTCCAGCCTCGATCTCGGGGTGGATTTCCTGCCGGTGGAGCGGGTGTTGCAGATCGGTTCGCCGAAAGGCGTGGCCCGGCTGATGCAGCGCGCCGGACGCTCCGGCCACGCACCGGGGCGGCCGTCGCGGGCGACCCTGGTACCGACCCACAGCCTGGAACTGGTGGAAGCCGCTGCCGCCCGGGATGCGGTGGCAGCGCGCCGGGTCGAGGCGCGGCTGTCGCCGGAAAAGCCGCTGGATGTGCTGGTCCAGCACTTGGTCAGCATGGCCCTGGGCGGCGGTTTCCGGCCCGATGCCCTGTTCACCGAAGTCCGCCATGCCTGGGCCTATCGCCACCTGGGCGAAGCCGAATGGGTCTGGGCCCTGGCCTTCGTCCGCCATGGCGGCCATTCCCTCACCGCCTACCCCGACTACCGGCGCGTCGAGCCGGACGAACACGGCGTCTGGCGCGTGCCGAGCCGGCGCCTGGCGCTGCGCCATCGAATGAGCATCGGCACCATCGTCAGCGATGCCGCTCTCACCGTGAAGTTCTGGCGCCAGGGCGGCAGCGGCGGCGCCCTCGGTTCGGTGGAGGAAGGCTTCATCGCCCGCCTGCGCCCCGGCGATTGCTTCCTGTTCGCCGGCCGCCTGCTGGAGCTGGTGCGGGTGGAAAACATGACCGTCTACGTCCGCCGGGCCAGCGGCCGCAAGCCCGCCGTGCCGCGCTGGAATGGCGGACGCATGCCACTTTCCACCGAGCTGGCCGATGCTCTGGTGGAGCAGCTCGGCGCCGCCGCACGCGGCGAATTCGCCAACGTCGAGATGCAACGGGTACGTCCACTGCTGGAGGTGCAGCAGGCCTGGTCGGCGCTGCCCACGGCAACCAGCCTGCTCGCCGAGGTGTTGAAGTCCCGCGAGGGCTGGCACCTGTTCCTCTACCCGTTCGCCGGCCGCCACGTTCACTTGGGCCTGGCCAATCTGCTCGCCTGGCGGGTCGCGCAGCGCCAACCGGTCACGTTCTCCATTGCCGTCAACGACTACGGCTTCGAATTGCTCTCCCCCACCGAGGTGGACTGGGCGCGCTGGCTGACGCCCGCCCTGTTCGGCCACGAACACCTGCTCGCCGATGTCCTGGCCAGCCTCAATGCCGGCGAGATGGCGCGCCGGCGCTTCCGCGAAATCGCGCGGATCGCCGGGCTGGTGTTTTCCGGCTATCCCGGTGCGCAGAAAAGCGCACGTCAGTTACAGGCCTCCAGCGGGCTGTTCTTCGAAGTGTTCCGCCAGTACGACCCGGACAACCTGTTGCTCGCCCAGGCCGAGGAAGAAGTGCTGTGCCAGGAGCTGGACGTGGCACGCCTGGAGCAGGCGCTACGCCGCCTGCAGGAACGGCACCTGGATATCCACCCGATCAAGCGCCCCACCCCGCTGGCCTTCCCTCTGCTGGTCGAACGCTTCCGCGAAGGCATGAGCACGGAAAAACTGGCCGACCGCATCACCCGCATGGTCCGCGACCTGGAGAAAGCAGCCGGACCCGGTGGGCCGGAGAGCGCCGTCGAGATCGGTCAACCGTCGCTCGAACGCGACGATGACCTGTCCCGTCGGCCTCGCGCGCCGCGCCAGCGCAAGACGGGCCTGCCCCGGCAACGGAAGACGGCCGGCCGATGA	MSPSPHLAGAWFARQGWSPFAFQERVWQAVAEGESGLLHASTGAGKTYAVWFAALNRFAEGGSATASNQSAPLTALWITPMRALAADTARALEAPLKDLDIAWDIGLRTGDTGSAERARQGRRLPSALVTTPESLTLLLTRADARQAFAGLRMLVVDEWHELLGNKRGVQLQLALARLRQWNPTLIVWGLSATLGNQTHALEVLLHPGHGRLVQGLTPKTLQVDTLLPPTLERFPWAGHLGLRMLPQVVEELETAATSLVFTNTRSQAELWYQALLDARPDWAGLIALHHGSLSREVRDWVERGLKDGRLKAVVCTSSLDLGVDFLPVERVLQIGSPKGVARLMQRAGRSGHAPGRPSRATLVPTHSLELVEAAAARDAVAARRVEARLSPEKPLDVLVQHLVSMALGGGFRPDALFTEVRHAWAYRHLGEAEWVWALAFVRHGGHSLTAYPDYRRVEPDEHGVWRVPSRRLALRHRMSIGTIVSDAALTVKFWRQGGSGGALGSVEEGFIARLRPGDCFLFAGRLLELVRVENMTVYVRRASGRKPAVPRWNGGRMPLSTELADALVEQLGAAARGEFANVEMQRVRPLLEVQQAWSALPTATSLLAEVLKSREGWHLFLYPFAGRHVHLGLANLLAWRVAQRQPVTFSIAVNDYGFELLSPTEVDWARWLTPALFGHEHLLADVLASLNAGEMARRRFREIARIAGLVFSGYPGAQKSARQLQASSGLFFEVFRQYDPDNLLLAQAEEEVLCQELDVARLEQALRRLQERHLDIHPIKRPTPLAFPLLVERFREGMSTEKLADRITRMVRDLEKAAGPGGPESAVEIGQPSLERDDDLSRRPRAPRQRKTGLPRQRKTAGR				NA	NA	NA	NA	NA
BMS010_09090	1695	lig_2		DNA ligase	ATGAAGGCCTTCGCCGAACTCTACGCGCGCCTCGACGCCACCACCTCGAGCAACGCCAAGCTGGCCGCGATGCGCGACTACTTCCGCGAGGCGCCGGCGGAAGACGCCGCCTGGGCGGTCTACTTCCTCGCCGGAGGGCGACCGCGCCAACTGGTGCCGACCCGGCTGCTGCGCGACACCGCCACCCGTGCCGCCGGCCTCCCCGACTGGCTGTTCGAGGAAAGCTACCAGGCGGTCGGCGACCTGGCGGAAACCATCTCCCTCCTGTTCCCGGAATCCCACCACACCTCGGACGACGGCCTCGCCGTGTGGATGCAGGAGAAACTGCTTCCTCTGCGCGGTCTGCCGCCGGAAGAGCTGGCCGAACGCCTGCCGCCGCTCTGGGCGCAACTGGACCGCCCGAGCCTGATGCTCTGCCTCAAGCTGGTCACCGGGGCGTTCCGCGTCGGCGTGTCGAAACTCCTGGTCACCCGCGCGCTGGCCGCCGTCGCCGACATCGACCCGAAGCGCGTGGCCCAGCGCCTGGTGGGCTATACCGACCTGTCGCATCGCCCCAGCGCCGACAGCTTCCAGGCGCTGATCGCCCCGGAGTCGGACGACGAACATGCCCAGCGCGGCGGCCAGCCCTATCCGTTCTTTCTTGCCCATCCGCTGCAAGCCGAGATCGAGCGCTTCGCCGGTCTGCTCGGCCCGCCGTCCGACTGGTTGGTGGAATGGAAGTGGGACGGTATCCGCGCGCAACTGGTAAAGCGCGACGGCCGCCTGTGGGTCTGGTCGCGCGGCGAGGAACTGGTCAGCGAGCGCTTCCCGGAGTTGGAGCGGCTCGCGGCTTGCCTGCCCGACGGCAGCGTGCTGGACGGCGAGATCGTCGCCTGGAAGGACGGCCGCGTGCAGCCCTTCGCCCTGTTGCAGCAGCGCATCGGGCGCAAGACATTGACCGCGAAAGTGCTGGAGCAGGCACCCGCGGCGGTGCTCGCCTACGACCTGCTGGAATGGCAGGGCGAGGATTGGCGGCAACGGCCGCTGGGCGAACGCCGCGCCTGTCTGGAGCAGGTGGTCGCCCGCTGCTCGGGGGACGCGGCGATCCAGGCCGACCTGCTCGACGAGCACGCACCGGCGGTGGAGCACGCCGTGCTGATGCTCTCGCCCCCGGTGGAGGGTACCGACTGGCACGACCTCGCCCGCCAGCGCGAAGCCTCCCGCGAGCGCGGGGTCGAAGGGATGATGCTCAAGGCCCGCGACTCCCGCTACGGCGTGGGCCGGACCAAGGATGTCGGCGTCTGGTGGAAATGGAAGATCGATCCCTACTCGGTGGACGCTGTGCTGATCTACGCCCAGCGCGGCCATGGCCGGCGCGCCAGCCTGTACACCGACTTCACCTTCGCGGTCTGGGACGGCGCGCCCGGCGATCCCGGGCGCAAGCTGGTGCCGTTCGCCAAGGCCTACTCCGGGTTGACCGACGAGGAAATGCGTCAGGTCGATGCCATCGTCCGCCGCACCACGGTGGAAAAATTCGGCCCGGTGCGCAGCGTTACCCCAACCCTGGTGTTCGAGCTGGGCTTCGAAGGCATCGCCGCCAGCAACCGCCACAAGAGCGGCGTCGCCGTGCGCTTCCCGCGCATGCTGCGCTGGCGCCACGACAAGCCGGTGGAAGAAGCCGACACCCTGGAAACCCTCCGGGCACTGCTGCCATGA	MKAFAELYARLDATTSSNAKLAAMRDYFREAPAEDAAWAVYFLAGGRPRQLVPTRLLRDTATRAAGLPDWLFEESYQAVGDLAETISLLFPESHHTSDDGLAVWMQEKLLPLRGLPPEELAERLPPLWAQLDRPSLMLCLKLVTGAFRVGVSKLLVTRALAAVADIDPKRVAQRLVGYTDLSHRPSADSFQALIAPESDDEHAQRGGQPYPFFLAHPLQAEIERFAGLLGPPSDWLVEWKWDGIRAQLVKRDGRLWVWSRGEELVSERFPELERLAACLPDGSVLDGEIVAWKDGRVQPFALLQQRIGRKTLTAKVLEQAPAAVLAYDLLEWQGEDWRQRPLGERRACLEQVVARCSGDAAIQADLLDEHAPAVEHAVLMLSPPVEGTDWHDLARQREASRERGVEGMMLKARDSRYGVGRTKDVGVWWKWKIDPYSVDAVLIYAQRGHGRRASLYTDFTFAVWDGAPGDPGRKLVPFAKAYSGLTDEEMRQVDAIVRRTTVEKFGPVRSVTPTLVFELGFEGIAASNRHKSGVAVRFPRMLRWRHDKPVEEADTLETLRALLP				NA	NA	NA	NA	NA
BMS010_09091	1038			hypothetical protein	ATGGATCTGGTCATCGCCCGCCCCGAAGGTCTCTACTGCCCGCCCGGCGATTTCTACATCGATCCCTGGCGGCCGGTGGAGCGCGCCGTCATCACCCATGCCCACGGCGATCATGCCCGTTGGGGCATGGGACATTACCTGGCCGCGGGACCCAGCGAAGGCATCCTGCGGACGCGCCTGGGCCCGGATCTGCCGCTGCAAACCCTGGCCTATGGCGAAAGCCTCGACCACAACGGCGTGACGCTGAGCTTCCACCCCGCCGGCCATGTCCTCGGTTCGGCCCAGGTGCGCCTGGAATACCGCGGCGAAGTCTGGGTCGCCTCCGGCGACTACAAGGTCGAGCCGGACGGCACCTGCACCCCCTTCGAGCCGGTACGCTGCCACTGCTTTATCAGCGAATCCACCTTCGGCCTGCCGATCTACCGCTGGCCGACGCAGGCATCCGTATTCCGCGAAATCAACGACTGGTGGCGTGCCAACGCCGCCGTCGGGCGCACCAGCGTGCTGTTCTGTTACGCCCTGGGCAAGGCACAACGCATCCTCCACGGACTCGATGCCGATGTCGGTCCCATCGTCGTGCATGGTGCGGTGGAGCCGCTCAACCGGGTCTACCGCGAGGCCGGCGTGCACCTCCCCGATACGCTTTACGCCGGCGACCTGGCGAAGAACGACCCGCGCCTGCGCCAGGCCATCGTCCTCGCCCCGCCCTCGGCCGGCGGCAGCACTTGGATGCGTCGCTTCGGCGATTATTCCGACGCCTTCGCCAGCGGCTGGATGATGTTGCGCGGTACTCGGCGCCGGCGCGGTGTCGATCGCGGCTTCGTGCTTTCCGATCACGCCGACTGGCCGGGCCTGCTCTGGGCCATCGAGCAGACCGGCGCCGAGCGGGTGATGGTCACCCACGGTTCGGTGGCGGTGCTGGTGCGCTACCTCTGCGAACAGGGGCTCGATGCCCAGGCGTTCGACACCGAATACGGCGACGAGGAAGAAGCCGACCTGGTGGCCCGCCAGGAAAGCACAGAGGGAGACGCCGGATGA	MDLVIARPEGLYCPPGDFYIDPWRPVERAVITHAHGDHARWGMGHYLAAGPSEGILRTRLGPDLPLQTLAYGESLDHNGVTLSFHPAGHVLGSAQVRLEYRGEVWVASGDYKVEPDGTCTPFEPVRCHCFISESTFGLPIYRWPTQASVFREINDWWRANAAVGRTSVLFCYALGKAQRILHGLDADVGPIVVHGAVEPLNRVYREAGVHLPDTLYAGDLAKNDPRLRQAIVLAPPSAGGSTWMRRFGDYSDAFASGWMMLRGTRRRRGVDRGFVLSDHADWPGLLWAIEQTGAERVMVTHGSVAVLVRYLCEQGLDAQAFDTEYGDEEEADLVARQESTEGDAG				NA	NA	NA	NA	NA
BMS010_09092	2553	quiP_2	COG2366	Acyl-homoserine lactone acylase QuiP	ATGCCATCGCGCCTGTTCCGACCGCTGACCAGCCTGACCCTGGGAGCGCTGATTTCCGGGCTGGTGAGCCTGACCGGTTGCCAGTCGCTGTTCGACAGCCGCTACCGCGACAGCGTGCCGCCGGACCAGGGCACCGTGCGCATCCAGGGCCTCGCGCAAAGCGTGGTGGTCCGGCGTAACGCGCTGGGCATGCCGCTGATCGAGACCAATACTTTCCACGATGCGCTGTTCGCCCTGGGCTATGTGCATGCCAGCGACCGCCTGAGCCAGATGGTCGGCATGCGCTTGATGGCCGAAGGCCGGCTGGCGGAAATGGCCGGCCCCGGCGTGCTGGAGATCGACCGCTTCATGCGCGCGGTGAATCTCAAGCAAAGCGCCGACACGCTCTACAAGAACGCCTCGCCACGCATCAAGCAGTTCTTCGAGGTCTACGCCCGTGGCGTGAACGCCTACCTGTTCCGCTACCGCGACAAGCTGCCGATGGACCTGGCCGAATCCGGCTACAAGCCGGCCTACTGGAAACCGGAAGACTCGGTATTGGTGTTCTGCCTGCTGAATTTCGGCCTGTCGGTGAACCTGCAGGAGGAGATCGCCTCCCTGGTGCTGGCGCAGAAGGTGGGGGCCGACAAGCTGGCCTGGCTGATGCCGATCTATCCCGACGAACCCCTGCCCTTCGACGAAGCGGAAAAACTCAAGGGCCTGGACCTCACCGGCAACGCGTTCGCCACGATTCCCGGCCTGCGCCAGGTCGATTCCGCCGCCGCCCAGGTGGCCGCGTTGAACATGCTGGGGGTCGCCGCCTCCAACAACTGGGCCATCGCCCCGCGGAACAGCCGCAGCGGCAAGAGCCTGCTGGCCAACGACACCCACCTGCCGCTGCAGATGCCCTCGGTGTGGAACTTCGTGCAGATCCGTTCGCCGAAATTCCAGGCCGCCGGGGTATCCGTCGCCGGGGTGCCGGCGGTGGTGGCCGGGTTCAACGGCAAGCTGGCCTGGGGCATGACCATGGTCATGGGCGACAACCAGGACCTGTTCCTGGAAAGGCTCAAGCGCGAAGGCAACCGGCTCTACTACCAGGCCGACGGACAGTGGCTCCCGGCTCGCGAACGGCAGGAAACCTTCTTCATCAAGGGCGAGCGACCGATCCGCGAAACCCTCTACGAGACCCGTAACGGCCCGCTGCTGAACAGCGTGCTCGGCGAACGCAAGCACATGCTGCAACCGTTGCAGCTCGCCAGCGGCTATGGCCTGGCGCTGAAACAGGCGTCCATGGATGGCGACCGCAGCCTCGACGCCTTCTTCGACCTGTCCCGCGCCCAATCGGTGGAACAGGCCTTCGACGCCACCCGCGAAGTGCGCGCCATGGCACTGAACGTTCTGTTTGCCGATGCCGAGCATATCGGCTGGCAGGTCACCGGGCGCTTCCCCAACCGCCGCGAAGGCCGTGGACTGCTGCCCTCGCCCGGCTGGGACGACCGCTACGGCTGGGACGGCTTCGCCGACCCGATGCTGTATCCGATGGATCAGGACCCGCCGCAAGGCTGGCTGGGCACCGCCAACCACCGCACCGCGCCCGCCGGCTACGGCGTGCAACTGTCCAATTCCTGGTACTACCCGGAACGCGCCGAACGCATCGCCGAGCTGGCTGGCCGTGGCAAGCATGACCAGCAGAGCATGATCGCCATGCAGTACGACCAGACAACGCCGTTCGCCGCCAAGCTGAAAGCCGTGTTCGAAGACCCCGGCATGGCCCAGCCGCTCAAGCAGGCCATCGATGCCCTGCCCGGCATCGAGCGGGACAAGGCCCGCGAGGCCTTGAGCCGCCTGCTGGCGTTCGACGGCCGCCTCAGCCCGGCTTCGGCGGATGCCGCCCTGTATGGCGCCTTCCTCCATGAAAGCGCGCGGCAAATCTTCCTCGACGAACTCGGCCCAGACGACAGCCCGGCCTGGAGGGCGCTGATCCAGACCGCCAACACCTCCTACTCGGCCCAGGCCGACCACCTGCTCGGGCGCCTCGACAGCCCGTTCTGGGACGACATCCGCACCCCGCAGCAGGAAGACAAGCCGGCGATCCTCGCCCGCAGCCTGGCCGCCGCCGTGACCTTTATCGAGAGCCACCTGGGCACGGACCGCAAGGCCTGGCAGTGGGGCAAGCTGCACCGCTACGTCTGGGCCACCGAGACCACCCGCCTGGCGCCGTACATGAGCGCCAGCCAACGCGCCGGCATCAACGCGTTGAAAGGTTACCTCGACCGCGGTCCCTATCCCGCCGGCGGCGACCACAGCACGCTGAACGTCTCCGCCTACAACTGGGGGCAGGATTTCGACACCTGGTTGATCCCGGCGATGCGCATCGTCGTCGACTTCGGCCAGAACGAACCGATGATGGGCGTGAACAGCTCCGGCCAGTCCGGCAACCCGGCCAGCCCGCACTATGCCGATGGCATCGACGCCTGGCTCAAGGGCCGCTACGTGACCTTCCCCTTCCAGCCGCAGAACCTGGACAAGGTGTACGGCAGCAAACGCCTGATCCTGATGCCCGCAGGGCGCTGA	MPSRLFRPLTSLTLGALISGLVSLTGCQSLFDSRYRDSVPPDQGTVRIQGLAQSVVVRRNALGMPLIETNTFHDALFALGYVHASDRLSQMVGMRLMAEGRLAEMAGPGVLEIDRFMRAVNLKQSADTLYKNASPRIKQFFEVYARGVNAYLFRYRDKLPMDLAESGYKPAYWKPEDSVLVFCLLNFGLSVNLQEEIASLVLAQKVGADKLAWLMPIYPDEPLPFDEAEKLKGLDLTGNAFATIPGLRQVDSAAAQVAALNMLGVAASNNWAIAPRNSRSGKSLLANDTHLPLQMPSVWNFVQIRSPKFQAAGVSVAGVPAVVAGFNGKLAWGMTMVMGDNQDLFLERLKREGNRLYYQADGQWLPARERQETFFIKGERPIRETLYETRNGPLLNSVLGERKHMLQPLQLASGYGLALKQASMDGDRSLDAFFDLSRAQSVEQAFDATREVRAMALNVLFADAEHIGWQVTGRFPNRREGRGLLPSPGWDDRYGWDGFADPMLYPMDQDPPQGWLGTANHRTAPAGYGVQLSNSWYYPERAERIAELAGRGKHDQQSMIAMQYDQTTPFAAKLKAVFEDPGMAQPLKQAIDALPGIERDKAREALSRLLAFDGRLSPASADAALYGAFLHESARQIFLDELGPDDSPAWRALIQTANTSYSAQADHLLGRLDSPFWDDIRTPQQEDKPAILARSLAAAVTFIESHLGTDRKAWQWGKLHRYVWATETTRLAPYMSASQRAGINALKGYLDRGPYPAGGDHSTLNVSAYNWGQDFDTWLIPAMRIVVDFGQNEPMMGVNSSGQSGNPASPHYADGIDAWLKGRYVTFPFQPQNLDKVYGSKRLILMPAGR	PGPT0003395_84	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_QUENCHING	CE-QUORUM_QUENCHING-AHL-DEGRADATION,PGPT0003395-pvdQ-K07116	NA	NA
BMS010_09093	465			hypothetical protein	ATGGACACGCTGAGCCTGGGCCTGCTGCTCGCCGGCCTGCTGATCATCCTTCCGCTGGCGCTGTATGCGCTGTTTCTCTGGCGGCGCGTCTGGGCCCGCCAGCGAGCGATCAGGGAGGCGGAGCGGACGCGCCGGGAGCGCCTCGGCAGTGACCTGCGTATCCTGGCCGGCAGCCTGCTCGACGAGCAGTTGCCGCTGATCGAAGGGGCGATCCGCATCAAGGTGCTGATCGACAACTACGACACCGCGCTGAGCAACAACCCGCGCTGCCAGGTCTTCCACCAGTTGTTCGAAGCCACCGCCCACGTGCCCACCCATGCCGCCTGGAAGGCGCTGGAGCGGAACGAGCGGCGCCACCACGAGGCCCGCTTCATGGAGTTGGAGCTGCAGCACAAGGCCGCCGCCCGTGCCGGTGCGCGCTGGCTGCTGGAAGAAGCCTTGCCGCCCCCCGCCAACGACGATTGA	MDTLSLGLLLAGLLIILPLALYALFLWRRVWARQRAIREAERTRRERLGSDLRILAGSLLDEQLPLIEGAIRIKVLIDNYDTALSNNPRCQVFHQLFEATAHVPTHAAWKALERNERRHHEARFMELELQHKAAARAGARWLLEEALPPPANDD				NA	NA	NA	NA	NA
BMS010_09094	189			hypothetical protein	ATGCACCAAGAACCCCATGTCCATGGTCCCGACTGCAACCACGATCATGACCATGAGCACCACGTCCACGGCCCGCACTGCAACCACGCCCACCAGGAGCCGGCGCGCAACCCGCTGAAGGACGTCGGCCGCAACGACCCCTGCCCCTGCGGCAGCCAGAAGAAATTCAAGAAGTGCCACGGCGCCTGA	MHQEPHVHGPDCNHDHDHEHHVHGPHCNHAHQEPARNPLKDVGRNDPCPCGSQKKFKKCHGA				NA	NA	NA	NA	NA
BMS010_09095	498			hypothetical protein	ATGTTTTATCAGGCGCAAACGATAAGAATTCTCAGCCTAATGATGTTGTTCGGCCTGGCGACAGGCCTCGCAGGATGCTCCACCTGGCTCACTGGTGGATTCAAGGACCCGGACGTCCAACTCATCAAAGTCGATGTTGTCAGTGCCAAGCTGATGAAGCAGGAGTTCCTCCTGCGTTTCCGCATTGCCAATCCCAACGGGATGAGCCTGCCGGTGCGCGGGCTGGTCTACGACATCCACCTCAACGATGTGAAACTTGCCGAAGGCGAGGCACGGACCTGGTTCACCGTGCCTGCCCATGGCCGCGAAGAGTTCGAGGTGCCGGTGCGCACCAACCTCTGGCGGCACATGAAGTACATCGTCAAGCTGCTCGAGAAGCCCGACCAGCCGATCCGCTATCGCCTCGAAGGCGAGGTCAAGACAGGCCTGATGTTCGGCCGCAGCGTGCACCTTTCGCGGAATGGCGAGATAATTCCCGGCGACTACATTCCGGAGTGA	MFYQAQTIRILSLMMLFGLATGLAGCSTWLTGGFKDPDVQLIKVDVVSAKLMKQEFLLRFRIANPNGMSLPVRGLVYDIHLNDVKLAEGEARTWFTVPAHGREEFEVPVRTNLWRHMKYIVKLLEKPDQPIRYRLEGEVKTGLMFGRSVHLSRNGEIIPGDYIPE				NA	NA	NA	NA	NA
BMS010_09096	546			hypothetical protein	ATGAGCCGCTTTGAGATCGCTTTCTCGGGCCAACTGATACCGGGCGCGCAACTGGAGCAGGTGAAGGCCAATCTGGCCAAGCTGTTCCAGGCCGATGCCCAGCGCATAGCGTTGCTGTTTTCCGGTCGCCGGATAGTGATCAAGAGCAATCTCGACGCGGCTGGTGCGGAAAAATACCGGGCTACGCTGGAGCGTGCCGGGGCCGTGGTGGAAGTCGCCGCGCTGGACGCGGAGATCGAGGAGGTCGAGCTGGCGCCTCCGCCTGTCGCGGCGGAAGCCCCGAAACCCGCCGCACCGGGCAGCGAGGTCGGGCGGCTCAAGGTGGCGCCGCGGGACGAGTACATGGCGGCGTTCGTCGAGGTCGAGGCGCCGGACTTCGGCATCGCCCCGGTAGGCACCGACCTGCAGGATGCCAAGCCGGCACCGCAGGCGCCCGAGGTGGACCTCGAACAGTTCTCCCTGGCACCGGTGGGCAGCGACATGGGGCAGGCGAAGGCGGCTCCGCCGGCCCCGTCGCCGGATGTCTCCCACCTCAAACTGGTCTGA	MSRFEIAFSGQLIPGAQLEQVKANLAKLFQADAQRIALLFSGRRIVIKSNLDAAGAEKYRATLERAGAVVEVAALDAEIEEVELAPPPVAAEAPKPAAPGSEVGRLKVAPRDEYMAAFVEVEAPDFGIAPVGTDLQDAKPAPQAPEVDLEQFSLAPVGSDMGQAKAAPPAPSPDVSHLKLV				NA	NA	NA	NA	NA
BMS010_09097	1107			hypothetical protein	ATGCCAGTACGTAAGGGAATGGCTGCCGGCCTGGCGGCCATGGCCTTCAGCGCAACGCTGCAGGCCGACGTCCAGCTCGACCTGGGCAGCACCGAACGCGTCACCCGCCTGTTCGCCTATCCCAACAATTGCCACGTCATCTGCTACCGCAACTGGACGCTGGAGCAGACCGTCGAGCACTACATGACCCAGAGCGTGCAACGCGACGGTTATGCGGACGCGAAAGTGGCAGTGAACCGCGACAACGATCGCCTCTTCCTGACCATCCAGGGCGTACCGGACGGCTACGGCACGCCGTTGCAGGCGCTGCTCGAGGCCGGCGACATGGCCTACCAGGGCGCCAGCCGCCTGAACAGCGATGGCAAGTGGCAATACAGTTGGTACTTCTTCCTGCCCCTGGGCATGGCCCTGGAGAACCGTCGGAGCGTCGAGCTGCTGCATTTCCCGCCGGACTACTCGCTGACCCAGGCGCAGGACTACCTCGAATCCAAGACCACCGACCGCTGGGCCGACCTGCTCAGCCGCAATGGCATTCCGGCGGAGCAGACGCCTGCCTATCAGACCATCATCGATATCGCCCCCATCGCGGCACCGTCCAGCGCCGGCAGCACACTGGAAGAGGTCTACGACTACTTCGAGGACTACCAGAAGAGCATGGTCGCCCAGCTCACCGCCGGCAGCGGCAAGCAGACCCTGCCGATGGTTGCGTTCGGCAGCCCGGTGCGCAACTGGATCAAGCAGCAGTACGGCGTCAGCCTGAACGTGCTCGGCCTGGGGCAGATCAAGCCGGTGGAAGGCAAGTCCGTCGCGGTGCTCGGCAGCAACCACCCCAGTTACATCTGGTATGCGGCCGATCCGGAAAACAACGACGACAACGAAGAGAAGGCCGACCAGGCCGGATTGAAAGTCATGGGCCAGGACATCACCGCCGCCTGCTGGCAAGCCGGCATGGGCAGCGATCCGGGCGCCGATCCGCAGAAGACGCTGGATGCCTGCACCCAGAAGTGGCAAGTCACGGACAAGGTGCAAACCTGCGAGCTGTTCTACACCTCGATCCGCAATCTCACACCGGAACAGGCCGCCGCCAAGTGCGAGACGGACGCCTGA	MPVRKGMAAGLAAMAFSATLQADVQLDLGSTERVTRLFAYPNNCHVICYRNWTLEQTVEHYMTQSVQRDGYADAKVAVNRDNDRLFLTIQGVPDGYGTPLQALLEAGDMAYQGASRLNSDGKWQYSWYFFLPLGMALENRRSVELLHFPPDYSLTQAQDYLESKTTDRWADLLSRNGIPAEQTPAYQTIIDIAPIAAPSSAGSTLEEVYDYFEDYQKSMVAQLTAGSGKQTLPMVAFGSPVRNWIKQQYGVSLNVLGLGQIKPVEGKSVAVLGSNHPSYIWYAADPENNDDNEEKADQAGLKVMGQDITAACWQAGMGSDPGADPQKTLDACTQKWQVTDKVQTCELFYTSIRNLTPEQAAAKCETDA				NA	NA	NA	NA	NA
BMS010_09098	489			hypothetical protein	ATGAGCCCTACCCTGGACCCCGCCTCCCCCAGTTGCCCCTGCGGCAGCGGCGCCGTTCTGAGCGACTGCTGCGGACGCTACCACGCGGGCACACCGGCCCCCAGCGCCGAGCGCCTCATGCGCTCGCGCTACAGCGCCTATGTGCTGGGCCTGGTCGATTATCTGGTGGCTACCACTCTCCCCGCCCAGCAGGCCGCCCTGGATCGTGCCGCGATCGCCGCCTGGAGCGCGCAAAGCACCTGGCTCGGCCTGGAAGTGGAGAATGCCGAATTGCTCGGCGGCCAGCCGGAGCATGCTTTCGTCACCTTCACCGCGCGCTGGCATGACGGCACGGGCGAGCACAGCCACCGCGAGCGTTCGGCCTTCGTCCAGAACGCCGGCCGCTGGTACTTCATCGACCCCACCGCCCCGCTGAAGGCCGGCCGTAATGATCCCTGCCCGTGCGGCAGTGGGCAAAAATTCAAAAAATGCTGTTTCGGCTTTCTTTAA	MSPTLDPASPSCPCGSGAVLSDCCGRYHAGTPAPSAERLMRSRYSAYVLGLVDYLVATTLPAQQAALDRAAIAAWSAQSTWLGLEVENAELLGGQPEHAFVTFTARWHDGTGEHSHRERSAFVQNAGRWYFIDPTAPLKAGRNDPCPCGSGQKFKKCCFGFL				NA	NA	NA	NA	NA
BMS010_09099	498			hypothetical protein	ATGACGGCCTCCATTTCCTCCCTGACGCCACAACAGGCACTCGCCGGCCTGCTCGACCGCCACGCCCCGGAGCGTGTCCTGCTGATTGGAGCCAGCCAGTTGCCGGCGCTGGAGGCATTCCGCTCCGCGCACCCGCAAAGCCGGGTGGAGCACGCCGAGGCCGGCCCCCTGCCGGATGCGCTGGCCGCTCAACGCTTCGATCTCGCCCTGCTGGTGGATTGCCTCGAACACCTGCCCAAGCGCACCGGCCTGGAATTGCTCGGTGGCATCCGTAACCTCAATGCGAGCCGCCTGGCCGTACTGGTCGACCTGCAGGCCTGCGGCTGGCAAGACACCGACTTCTTCGCCCTGGCCATGCAGGCCAGCGAACGCTTCCAGCGCGGCGAGCAGACCCTGACGCTGTTCACCTACGACCTGCGCGACTACAAGCAGGTACCGGACTGGCTGAACGCCAAGTTTTGGGCCAACCCGGAAAACTTCGGCAAATACTGGTGGTAA	MTASISSLTPQQALAGLLDRHAPERVLLIGASQLPALEAFRSAHPQSRVEHAEAGPLPDALAAQRFDLALLVDCLEHLPKRTGLELLGGIRNLNASRLAVLVDLQACGWQDTDFFALAMQASERFQRGEQTLTLFTYDLRDYKQVPDWLNAKFWANPENFGKYWW				NA	NA	NA	NA	NA
BMS010_09100	747	pal_8		Peptidoglycan-associated lipoprotein	ATGAAGCCTAACGTGCGGCGACACACTGGCCTAGTGCTGGCGGAATTTAAAACCGGCGTCTTTACTCCCATGGAGTCGGTTTGGACCGATCCCAAAGAGGAGACTTCGTTTATGAGTATGACAAGGACCGCAGTACCCCTGCTTTTGGCGACCAGCGTCTTGACCGGCTGCGCCGGTCTGCAGAAGAGCGATTGGCCGACCTGTGCGGCCGTCGGTGGCGTGGGCGGCGCGGCGTTAGGGGCGATCGAGAGCAGCACCTGGGCGGCTGGCGGTGCGGCGGTGGGTGCCGGCATGGCGGCTGCCTATTGCTGGGTGCACGGCCAGGGCGAGGAAGAAACCGTCGCCGCCGTCGAGGAACAACCCATGCCCGAACCCACGCCCATGCCGGAGGCTGCCGAGCCGGTGCGTGTCGAGCTGGACGTGAAGTTCGATTTCGACAAGTCGGTGGTCAAGCCTGAGAGCTATGACGACATCCGCAGCCTGGCCGACTTCATGAAGCAGTATCCGCAGACCTCCACCGTGGTCGAAGGCCATACCGACTCCATCGGTACCGACGCCTACAACCAGGGGCTGTCCGAGCGCCGTGCCAACGCCGTGCGCGACGTGCTGGTCAACCAGTACGGCATCGAGGGCAGCCGTGTCGATACGGTCGGTTATGGCGAGTCCCGTCCGGTGGCGGATAACGCGACCGATGCAGGCCGTGCCATCAACCGTCGTGTGGAAGCGGAAGTCGAAGCCCGTCCCTGA	MKPNVRRHTGLVLAEFKTGVFTPMESVWTDPKEETSFMSMTRTAVPLLLATSVLTGCAGLQKSDWPTCAAVGGVGGAALGAIESSTWAAGGAAVGAGMAAAYCWVHGQGEEETVAAVEEQPMPEPTPMPEAAEPVRVELDVKFDFDKSVVKPESYDDIRSLADFMKQYPQTSTVVEGHTDSIGTDAYNQGLSERRANAVRDVLVNQYGIEGSRVDTVGYGESRPVADNATDAGRAINRRVEAEVEARP				NA	NA	NA	NA	NA
BMS010_09101	738	pal_9		Peptidoglycan-associated lipoprotein	ATGAGTACTGTCGCCAGGACAGTAGTCCCGATTCTTCTGGTCAGCAGTGTTCTCACCGGTTGCGTCACCACCACCAGTACGGGGGATGCGGCGTTCAACCAGGGGAACTGGCCTATCTGCAGTGCGATTGGCGGTCTGGCCGGCGGCGGCCTCGGCGCCATCGAAAGTTCAGCCTGGGCAGCGGGAGGCGCGGTGGCCGGCGTGGTCGTCGGCGGTCTGCTCTGCTATGCGCAGGACGGGGACGAAGACGGGGATGGCGTCTTCGACCGGCGCGACCGATGCCCGGGTACGCCCGCGAATACACCGGTGCACCACAACGGTTGTCCGATCAAGGAATACCCGGCTGCGCCCCAATCCCCGGAACCCGAGCCGACGCCTGCGCCACAAAGCGAGGTAATCGTGCTCAGCGATCTGGGCGAAGTGTTGTTCGCCTTCGATTCCGCCGACGTGACCGAAGGGGCGCGTGCCCGCTTGAGGGATGTGGGCGGGCGTCTGCAGGGGGCGGACGTCATCGAGATCAAGGTGCAGGGACACACCGACAGCGTCGGCAGCGATGCCTACAACCAGGGGCTTTCGGAGCGACGGGCACGGAGCGTGGCGGATTTCCTGGTCGCTCAGGGCGTTCCGGCGAGCAAGCTGAGCACGGAAGGTTTCGGCGAGAGTAGGCCGGTTGCGGACAACGCCACCGACACCGGGCGGGCGCAGAACCGGCGCGTTGAAATTCATGTCACTCGCTAG	MSTVARTVVPILLVSSVLTGCVTTTSTGDAAFNQGNWPICSAIGGLAGGGLGAIESSAWAAGGAVAGVVVGGLLCYAQDGDEDGDGVFDRRDRCPGTPANTPVHHNGCPIKEYPAAPQSPEPEPTPAPQSEVIVLSDLGEVLFAFDSADVTEGARARLRDVGGRLQGADVIEIKVQGHTDSVGSDAYNQGLSERRARSVADFLVAQGVPASKLSTEGFGESRPVADNATDTGRAQNRRVEIHVTR	PGPT0022215_4211	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-SURFACE_ATTACHMENT	SURFACE_ADHESION	OTHER_SURFACE_ADHESION_PROTEINS,PGPT0022215-ompA_ompF_porin|oprF-K03286	NA	NA
BMS010_09102	270			hypothetical protein	GTGTTTCTGGGGTTGGGCAAGGTGGCTGCCTTGCTGTTCTGGCCGTTGGTGCTGGCCAATCTGATCGATCCGTTCGCCAATCCATTCGGCCTGCTGCTCACTGTGGCCGGTGTGGTGCTTTTCCTCATTCACCTTCTTGAACTGGCCTGGTTCGGCATCCGCTTGAAAGGCCGGCCGCGAATCGTTCTGGAATGCCTGCACGTGCTGGTCTTCGGTATCTTTCACCTCGGCCTGCAACGGCCTTCCGTCAAGGAGGCTCGTCATGCGTAA	MFLGLGKVAALLFWPLVLANLIDPFANPFGLLLTVAGVVLFLIHLLELAWFGIRLKGRPRIVLECLHVLVFGIFHLGLQRPSVKEARHA				NA	NA	NA	NA	NA
BMS010_09103	765			hypothetical protein	ATGCGTAACCTGTGCTTGCTCGCGTGCCTGTGCGCTCCGCTGGCCATGGCGGAATCCCTGGTCAAGGTGGCGCCCCACTCGCTGTTGCGCCTGCCCACCCATGCCAGCACTCTGCAACTGGATCGGCTGGAGATCGCCGACCATGCCTCCCTCTTGCTGCCGGCCAACCTCAGCGAGTTGCGGGTAGGCGAACTGCGCATGGGGCGCGACGCGCATATCGGCATCGCACCGAGCGAGACCGCTTTCCGCCTCGACGTGGCGCAGGGCGAGATTGCCGAAGGCAGCCATATCGGCGCCCGTGGCGCGCCGGGCAACTACGACCGACCGGCCAGTGCCGGCCGGACACTTGCCCTGCGCTTGGAGCAGGTCCAAGTAGAGTCTCTCTCCATCGATGCCCGCGGTGGGCGCGGAACGCCGGGCTACCGGGGGCTGGACGGCGCGAAAGGCCAGCCGGCGGGCTGCCTGTGGGGCGATGCCGGCCGAGGTTACGACGGACAGAACGGCGGGGATGGCCAGGATGGCGCTCCGGGCGGCAAGGTTCGCCTGGAAGTGCCGGCCGATTTCCCGGTGGAGCGTATCCAGGTTCGCCTGGAGGGCGGTGCGGGCGGCCCTGCGGGCGAGCCCGGCGAAGGCGGTCCCGGTGGCGCGGCCAAGGGTTGCCTGCTTTATCGTGCCGACGGTGCGGCCAAGGGGCGTCCGGGACAACCCGGCCAGCCAGGAGCCCAGGGCGCCGAGGGGCAGCTGGAAGTGGTGCGTTTCGAATAG	MRNLCLLACLCAPLAMAESLVKVAPHSLLRLPTHASTLQLDRLEIADHASLLLPANLSELRVGELRMGRDAHIGIAPSETAFRLDVAQGEIAEGSHIGARGAPGNYDRPASAGRTLALRLEQVQVESLSIDARGGRGTPGYRGLDGAKGQPAGCLWGDAGRGYDGQNGGDGQDGAPGGKVRLEVPADFPVERIQVRLEGGAGGPAGEPGEGGPGGAAKGCLLYRADGAAKGRPGQPGQPGAQGAEGQLEVVRFE				NA	NA	NA	NA	NA
BMS010_09104	465			hypothetical protein	ATGACACCTTTTGCCCTCGTTTACGCCCTGCACGTGCTGGCGGCCCTGGTCTGGGTCGGCGGCATGTTCTTCGCCTGGATGGTCCTGCGACCGGCGGCCGTCGCGGTGTTGCAAGCCCCGGAAAGACTCCGGTTGTGGGCGGATGTGTTCCGGCGCTTCTTCGTCTGGGTCTGGGCGGCGGTGGTGGTCCTGCCGATCACCGGTTTCGGCATGCTGCACCTGCGCTTCGCCGGCTTCGAGCAGGCGCCCCGCTATGTGCATGTGATGATCGGCCTTTATATCGCGATGCTGGCGCTGTTCCTGCGGGTGCAGGCGCTACAACTGCCGCAGTTGAACAAGGCCATCGAAGCGCAGGACTGGCCCGCTGGCGGTGCGACGCTGGGGAAGATTCGTCGACTGGTGGGTTTCAATCTGCTGATGGGATTGGTGCTGGTGGCCATCGCGGCGGCACGGCCGGGGTTGTAG	MTPFALVYALHVLAALVWVGGMFFAWMVLRPAAVAVLQAPERLRLWADVFRRFFVWVWAAVVVLPITGFGMLHLRFAGFEQAPRYVHVMIGLYIAMLALFLRVQALQLPQLNKAIEAQDWPAGGATLGKIRRLVGFNLLMGLVLVAIAAARPGL				NA	NA	NA	NA	NA
BMS010_09105	2145	dinG_4	COG1199	ATP-dependent DNA helicase DinG	ATGCTCAGTCCCGAACTCAAGGCCCAGATCCAGGGGGCCTATTCTCGTTTTCTCGAAGCCAAGGGGCTCAAGCCGCGTTACGGCCAACGGCTGATGATCGCCGAAGTGGCCAAGGTGCTCGGCGCGATCAAGCACAACGATGAAGGCCAGCGCGATGGCGAACCGGCGGTGGTGGCGGTGGAGGCGGGGACCGGTACCGGCAAGACCGTCGCCTACAGCCTGGCCACCATTCCCATCGCCAAGGCCGCCAGCAAGCGCCTGGTGATCGCCACCGCCACCGTGGCCCTGCAAGAACAGATCGTGCACAAGGACCTGCCGGACCTGATGCGCAACTCGGGCCTCAACTTCAGCTTCGCCCTGGCCAAGGGGCGCGGCCGCTATTTGTGCCTGTCCAAGCTGGACATGCTGTTGCAGGAAGGGCAGGCACAGAACGCCACGGCCCAGTTGTTCGAAGAAGAAGGTTTCAAGCTCGACGTTGACGAGCGCAGCCAGAAGCTCTTCACCCAGATGATCGAAAAGCTCGCTGGCAACCGTTGGGACGGCGACCGCGATGCCTGGCCAGAGGCCCTCGACGACGCCGACTGGGCGCGCCTGACCACCGACCACAGCCAGTGCACCAACCGTCATTGCCCGAATTTCCAGCAGTGCGCCTTCTATAAAGCCCGCGAAGGCATGACCAAGGTCGACGTGATCGTCACGAACCACGACATGGTCCTCGCCGACCTGGCGCTGGGCGGTGGCGCCGTGCTGCCCGATCCGCGCGAAACGCTCTACGTCTTCGACGAAGGCCACCACTTGCCGGACAAGGCCATCGGCCATTTCGCCCATTTCACCCGCCTGCGTTCCACGGCCGACTGGCTCGGCCAGGTGGAAAAGAACCTCACCAAGTTGCTCGCCCAGCACCCGCTGCCCGGCGAGCTGGGGCGGTTGATCGAAGGCGTGCCGGAGCTGGCGCGCGAGCTGCGCACGCAACAGCAATTCATGTTCAGTGCCTGCGAGCAGGTCGCCGATTTCCGTGCCGGTGAAGACATGGAAGGCCGCGAGCGGCCACGCCACCGTTTCGTTGGCGGACTGGTGCCGGAACACCTGCGGGAAATGGGGCTGGAGCTGAAAAAGGGCTTCGCCAAGCTCACCGACCTCTTCACCCGGCTCACCGAACTGCTCAAGGAGGCCATGGACGGCGAGGCCAGCGTTGGTGTCGCCAGTCACCAGGCGGAGGAGTGGTATCCGCTGTTCGGCAGCCTGTTGTCCCGTGCCCAGGGCACCTGGGAGCTGTGGACCGCCTTCACCGTCGAAGACCCGGAAGACAGCCCGCCCATGGCCCGCTGGCTGACCTTGGCGGAGAGCGGCGCGGCCTACGACATCGAGGTCAACGCCAGCCCGATCCTCGCCGCGGAGACCCTGCGTCGCAACCTGTGGAACGTCGCCTACGGCGCCCTGGTCACCTCCGCCACCCTGACCGCGCTGAACAGTTTCGACCGCTACCGGATGCGCGCCGGCCTGCCCAAGGCGGCGGTCACCGCCGTGGTACCCAGTCCGTTCCACCATGCCGATGCGGGGCTGCTCAAGGTGCCGGACCTGCGCGCCGACCCGCGCGACGCCGCCGCCCATACCGCCGCCATCGTCCGCGAATTGCCGGCCCTGGTGGACGGCACCCGCGGCACCTTGGTGCTGTTCTCCTCGCGCAAGCAGATGCAGGACGTTTTCGATGGCCTCGAACGCGACTGGCGCAAGCGCGTGCTCATCCAGGGCAACCTGTCCAAGCAGGAAACCCTGAACAAGCACAAGGCACGCGTCGACGATGGCGAGCCCAGCGTGCTGTTCGGCCTCGCCAGCTTCGCCGAGGGCGTCGACCTGCCGGGAGCCTATTGCGAACACGTGGTAATCGCTAAGATTCCGTTCGCCGTGCCGGATGATCCCGTCGAAGCTGCGTTGTCGGAATGGATCGAGGCGCGCGGCGGCAACCCCTTCATGGAAATCGCCGTGCCGGACGCTTCGTTGCGCCTGGTCCAGGCCTGCGGGCGGCTGCTGCGCACCGAAAGCGACCGCGGCACCATCACCCTGCTGGATCGCCGGGTGGTGACCCAGCGTTATGGCAAGGCGATCCTCAACGCGTTGCCGCCGTTCCGCCGGGAAATCGCATAA	MLSPELKAQIQGAYSRFLEAKGLKPRYGQRLMIAEVAKVLGAIKHNDEGQRDGEPAVVAVEAGTGTGKTVAYSLATIPIAKAASKRLVIATATVALQEQIVHKDLPDLMRNSGLNFSFALAKGRGRYLCLSKLDMLLQEGQAQNATAQLFEEEGFKLDVDERSQKLFTQMIEKLAGNRWDGDRDAWPEALDDADWARLTTDHSQCTNRHCPNFQQCAFYKAREGMTKVDVIVTNHDMVLADLALGGGAVLPDPRETLYVFDEGHHLPDKAIGHFAHFTRLRSTADWLGQVEKNLTKLLAQHPLPGELGRLIEGVPELARELRTQQQFMFSACEQVADFRAGEDMEGRERPRHRFVGGLVPEHLREMGLELKKGFAKLTDLFTRLTELLKEAMDGEASVGVASHQAEEWYPLFGSLLSRAQGTWELWTAFTVEDPEDSPPMARWLTLAESGAAYDIEVNASPILAAETLRRNLWNVAYGALVTSATLTALNSFDRYRMRAGLPKAAVTAVVPSPFHHADAGLLKVPDLRADPRDAAAHTAAIVRELPALVDGTRGTLVLFSSRKQMQDVFDGLERDWRKRVLIQGNLSKQETLNKHKARVDDGEPSVLFGLASFAEGVDLPGAYCEHVVIAKIPFAVPDDPVEAALSEWIEARGGNPFMEIAVPDASLRLVQACGRLLRTESDRGTITLLDRRVVTQRYGKAILNALPPFRREIA				NA	NA	NA	NA	NA
BMS010_09106	2385			hypothetical protein	ATGATGCGTCGTCCGTTGTACGCCGTGGTGGCACTGATGCTGGCCACTCCGCTATTCGCTGCGCCCGAGGCCCAGCAAAACCTCTTCAACTTCGCTCGCCCGACCGACGTGGCCAAGGTGGTCACCCAGGGCAGCGCGCTCCCGTCGCTGGAGCCCGAATTCACCGACCGGGGCGAAGCGTTGCGACGCCTGGTGTTCCATGTCGGTGAGCGGCCGACCCTGCAGCTCACCCCCCAACAGGGCACCTGGGACTGGTCCCAGGCCGGCGTGCTCGGCTTGCGCATCCAGAACGCCCAGGACTGGGCCATCACCCTCGACCTGCGCATCGAAAGCAGCGACGGCAAGGCTCTTACCAGCCGTATCGCACTGCCGGCCGGCCCGGCGCAGACGTTGCTGGTCCCATTGTACGCCACCACGCCGCGCGACCACGGCATGCGTGCCGGTCCGCCGATGCCCTTCGAACATGAAGGGCAACGCCTGCTGCTGGCTGAATTCGTCGAAGGCGAATTGAACCCGGCGCAGGTCAGCTCCATCAGTCTTTCCCTGGAGCGCCCCGATGCGAACCAGAATATCCTGCTCGGACGTGTGCTGGTCGAACCGGGCGAAGGCTCGCTGAAAGCGGCCTACACCGGCATCGTCGATGCCTATGGCCAGTACACCCGGGCCCGCTGGCCGGAAAAAGTGAACAGCGACGCCCAGCTCAAGCAGGCATCCGTCAAGGAAAAGGACCAGCTCAAGGGCTGGCTGGATAAACGCCCCGAGCAGGACCGCTTCGGCGGCTGGATGAAGGGCCCGTCCTTCGAAGCGCGAGGCTTCTTCCGCACCGAGAAGCATGACGGTCGCTGGTATCTGGTCACCCCCGAAGGGCATCCGTTCTATTCCCTCGGCGTGAACACCATATCGGCCAACGGCAGCCAGACCTATGTCGAGGGCCGGGAAAGCATGTTCACCAGTCTGCCGGAGGAGGGCTCGCCGCTTGCGGCTTTCTACGGCCAGGGCGACAACCGCAGCGACACCGGCGCCAACAAGGGCCGTGTCTACGCCCAGGGCCGCTGGTACGACTTCTACCGCGCCAACCTGCAACGTACCTACGGCGATCAGGTTTGCCCGCCGGATGCCTCTCAGAAGTCCGTTGGCGCCGCTCCGGAGGCCGCAGCGCCCGCCACCGGGGAGCCTGCCGTCGGCTCTTCCGCTCCCGCGCAATCCGCCGCAGCGGAAAAGCCCTGTGTGCCGGAAGCCGAGCGCTGGGTCAACCAGACCCTCGACCGCCTGCAGGGCTGGGGGTTCAACACCCTCGGCAACTGGAGCGACAACGCGCTCGGCGAGGCCAAGCGCATGCCTTATACGCTGCCGCTGTCGATCCAGGGCGACTACGCCACCATCAGCACCGGCCACGACTGGTGGGGCGGTATCCCCGATCCGTTCGACCCGCGCTTCGCCATGGCGGCCGAGCGGGCCATCGCCATCGCCACCCGCGATCACCGCGAAGACCCCTGGCTGCTGGGCTACTTCGCCGACAACGAACTCGCCTGGGCGGGCGTCGGCAGCGATCCCAAGGCCCGTTACGCCCTGGCCTACGGCACCCTGCGCCTGACCACCGACGTACCGGCCAAGCGCGCCTTCCTCAAGCAACTGCGCGACAAGTATCGCAACCAGCAGGGGCTGTCCGCGGCCTGGGGCATCGACCTGCCAGCCTGGGAACTGCTGGAGGACCCCGGTTTCGAAGCGCCGTTGCCGAGCCCGGAGCACCCGGCCATCGAGGAAGACTTCAAACGCTTCCAGAAGCTGTTCGCCGACACCTACTTCAAGACCATCTCCGACTCGCTCGACTGGCACGCTCCCAACCACCTTCTGCTCGGCGGCCGCTTTGCTGTCAGCACCCCCGAGGCGGTGGAAGCCTGTGCCCAGTACTGCGACGTGCTGAGCTTCAACTTTTATACCCGCGAGCCGCAGCAGGGCTACGACTTCGACGCCCTGCGCGCGCTGGACAAGCCGGTGCTCATCACCGAGTTCCACTTCGGCTCGCGCGATCGCGGCCCGTTCTGGGGTGGTGTCGCCGAGGTCTACAAGGAAGAAGAGCGCGGCCCGGCCTACGCCCACTTCCTGAAACAGGCCCTGACCGACCCGATGATCGTCGGCGCCCACTGGTTCCAGTATCTCGACCAGCCGGTGACCGGCCGTCTGCTCGACGGCGAGAACGGCCACCTCGGCCTGGTCGGCATTACCGACCGCCCGTTCCAGGGTTTCGTCGAAGCCGTGCGTAAGGCCAACCTCGACGTCCCCAAGACCCTCCTGGCCCCGCCGGCTCCGGTGGGTGAGAACAACAAGGGAGAAGCGAAGACGACGACCGGCGAACAGGCCACTCCTCAGCAGCCGGCGCAGTAA	MMRRPLYAVVALMLATPLFAAPEAQQNLFNFARPTDVAKVVTQGSALPSLEPEFTDRGEALRRLVFHVGERPTLQLTPQQGTWDWSQAGVLGLRIQNAQDWAITLDLRIESSDGKALTSRIALPAGPAQTLLVPLYATTPRDHGMRAGPPMPFEHEGQRLLLAEFVEGELNPAQVSSISLSLERPDANQNILLGRVLVEPGEGSLKAAYTGIVDAYGQYTRARWPEKVNSDAQLKQASVKEKDQLKGWLDKRPEQDRFGGWMKGPSFEARGFFRTEKHDGRWYLVTPEGHPFYSLGVNTISANGSQTYVEGRESMFTSLPEEGSPLAAFYGQGDNRSDTGANKGRVYAQGRWYDFYRANLQRTYGDQVCPPDASQKSVGAAPEAAAPATGEPAVGSSAPAQSAAAEKPCVPEAERWVNQTLDRLQGWGFNTLGNWSDNALGEAKRMPYTLPLSIQGDYATISTGHDWWGGIPDPFDPRFAMAAERAIAIATRDHREDPWLLGYFADNELAWAGVGSDPKARYALAYGTLRLTTDVPAKRAFLKQLRDKYRNQQGLSAAWGIDLPAWELLEDPGFEAPLPSPEHPAIEEDFKRFQKLFADTYFKTISDSLDWHAPNHLLLGGRFAVSTPEAVEACAQYCDVLSFNFYTREPQQGYDFDALRALDKPVLITEFHFGSRDRGPFWGGVAEVYKEEERGPAYAHFLKQALTDPMIVGAHWFQYLDQPVTGRLLDGENGHLGLVGITDRPFQGFVEAVRKANLDVPKTLLAPPAPVGENNKGEAKTTTGEQATPQQPAQ				NA	NA	NA	NA	NA
BMS010_09107	1146			hypothetical protein	GTGCAGATCCAAGGCTATTTCGACCTGAAATTCGAAGCAGTAAAGGACGCCTTCGCCGCCCTCTTCGAAAATCCCCAGGAACGCGGTGCGGCGCTCTGCATCAAGGTCGGCGGCGAGGCCGTGGTGGATATCTGGGCCGGCGTCGCCGACAAGGACGGCACCGAGGCGTGGAACAGCGACACCATCCTCAACCTGTTCTCCTGCACCAAGACCTTCACCGCTGTCACCGTCCTGCAACTGGTCGGCGAGGGCAAGCTGGAGCTGGATGCCCCCGTCGCGCGCCTCTGGCCCGAGTTCGCTGCTGCCGGCAAAGAAAAGATCACCCTGCGCCAACTGCTCTGCCACCAGGCCGGCCTGCCTGCGCTGCATGAACTGCTCCCCGCCGAAGCCCTCTACGACTGGAATGCCATGGTCCAGGCCCTGGCCGCCGAGCAGCCCTGGTGGACGCCCGGCGAAGGCCATGGCTATGCCCCGATTACCTACGGTTGGCTGGTGGGCGAACTGCTGCGCCGCGCCGACGGCCGTGGCCCCGGCGAATCCATCGTCGCCCGTACCGCAAAGCCCCTGGGCCTCGACTTCCATGTCGGCCTGGACGACGCCGAATTCCCCCGCGTCGCCCATATCGCCCGGGCCAAGGGCAACCTCGGCGACGCCGCCGCCCAGCGTCTGCTGAAGTGCATGATGACCGAGCCCACCTCCATGCCGACGCGGGCCTTTACCAACCCGCCGTCCATCATGACCAGCACCAACAAACCGGAATGGCGTCGCATGCAGCAACCCGCCGCCAACGGCCACGGCAACGCCCGAGCCCTGGCCGGGTTCTATGCCGGCCTGCTGGACGGCAGCCTGCTGGAATCCGATCTGCTCAACGAACTCACCCGCGAGCATTGTCGCGGCGCAGACAAGACCCTGCTCACCAGCACCCGCTTCGGACTCGGCTGCATGCTCGACCAGCCGGACGTCGCCAACGCCACCTACGGCCTCGGCCCGAAAGCCTTCGGCCACCCCGGCGCCGGCGGTTCCAGCGGCTTCGCCGACCCCGAGCGCGACCTCGCCTTCGGCTTCGTCACCAACACCCTCGGCCCTTACGTCCTCATGGACCCCCGCGCCCAGAAGCTCGCCCGCGTCGTCGGCGAGTGCCTGTAA	MQIQGYFDLKFEAVKDAFAALFENPQERGAALCIKVGGEAVVDIWAGVADKDGTEAWNSDTILNLFSCTKTFTAVTVLQLVGEGKLELDAPVARLWPEFAAAGKEKITLRQLLCHQAGLPALHELLPAEALYDWNAMVQALAAEQPWWTPGEGHGYAPITYGWLVGELLRRADGRGPGESIVARTAKPLGLDFHVGLDDAEFPRVAHIARAKGNLGDAAAQRLLKCMMTEPTSMPTRAFTNPPSIMTSTNKPEWRRMQQPAANGHGNARALAGFYAGLLDGSLLESDLLNELTREHCRGADKTLLTSTRFGLGCMLDQPDVANATYGLGPKAFGHPGAGGSSGFADPERDLAFGFVTNTLGPYVLMDPRAQKLARVVGECL				NA	NA	NA	NA	NA
BMS010_09108	666	pal_10		Peptidoglycan-associated lipoprotein	ATGAAGTTGTTGAAGAGCGCCACCCTCATTCTGCTGTTGTCCGTTTCCGGTTGTTCGCTCTTCGGCGGTGACGAAAAGGCCCAGGCGGAAGCCAAGGCCGAGCCGGCGAAGATCGATGTCAAAGTCACCCAGGCCTGGTTGGATGAGTACGAACCGCGGCTGCGCGAGGCGCTGAAGGAAAGCAAGTTCGAGCTGGAGCGCCGTGAGAACGTGCTGGTGGTGACCGCGCCGGTGGATTACTCGTTCAACCCCGACCGTCCGAGCATGCTGATGCCGGTGACCCTCGGCCCGTTCAGCCGGGTCGCCAAGCTGGTGGAAGGCGATACGAAGACCGGCGTGCTGGTGCTCGGCCATGCCGACAGCAGCGGGGAAGCCAAGGCGAACATGACCCTGAGCGAGGACCGGGCCAAGGCCGTGGCGGCGATCTTCCGTCTCAGCGGCCTGCAGCGCGACCGGCTGATGCTCAAGGGGGTGGGTTCCGACATGCCGCGTGCCGCCAACGACAGCAAGGAAGGCCGTTCGCTGAACCGCCGCGTGGAGGTCATCCTTACTCCGCAGGAAACCCTGGTGGCGCTGGTGGCCAGGTATTCCCAGCCGGCCCCGGCGGGGGACGCGGCGCAGCCGACCAAGGTTGCGCAGGTCGTTGCCGCAGATCAAGCCAAGTAA	MKLLKSATLILLLSVSGCSLFGGDEKAQAEAKAEPAKIDVKVTQAWLDEYEPRLREALKESKFELERRENVLVVTAPVDYSFNPDRPSMLMPVTLGPFSRVAKLVEGDTKTGVLVLGHADSSGEAKANMTLSEDRAKAVAAIFRLSGLQRDRLMLKGVGSDMPRAANDSKEGRSLNRRVEVILTPQETLVALVARYSQPAPAGDAAQPTKVAQVVAADQAK				NA	NA	NA	NA	NA
BMS010_09109	648	pdxH_2	COG0259	Pyridoxine/pyridoxamine 5'-phosphate oxidase	ATGACCCAAACCCTGGCCGACATGCGCCGTGACTATACCCGTGACGGCCTCAGCGAAGAAAAGGCTCCCCATGAGCCTTTCGCGCTTTTCCAGCAATGGTTCGCCGATGCGGTGAAGACCGAGCAGCCGCCGGTGGAGCCGAACGCCATGTGCCTGGCGACGGTGGATGCCGAAGGCCGCCCGCATTGCCGGGTGCTGCTGTTGAAGGGGCTGGATGACCGCGGCTTCACCTTTTTCACCAACTACGACAGTGCCAAGGGCGACCAGCTCAAGGCCAATCCCTTCGCCGCGATGACGTTCTTCTGGCCGAGCCTGGAGCGCCAGGTGCGGATCGAAGGCCGGATCGAGCGGGTCAGCCCGGCTGAATCCGATGCCTATTACCAGGTGCGCCCGCTGGGCAGCCGCCTGGGCGCCTGGGCTTCGCCGCAGAGCCGGGTGATCCGTGATCGCGCCGAACTGGAGGCGCTGCTGGCGGAAACGGAGCGCCGTTTCCTCAACCAGGCACCGCATTGTCCGGAGCATTGGGGCGGTTATCGGTTGCTGGCCGAGCGTATCGAGTTCTGGCAGGGCCGTCCGAGCCGTCTGCATGACCGCCTGAACTACCGCCTGCAGGCGGGGGAGTGGGTGAGGGAGCGGTTGGCGCCCTGA	MTQTLADMRRDYTRDGLSEEKAPHEPFALFQQWFADAVKTEQPPVEPNAMCLATVDAEGRPHCRVLLLKGLDDRGFTFFTNYDSAKGDQLKANPFAAMTFFWPSLERQVRIEGRIERVSPAESDAYYQVRPLGSRLGAWASPQSRVIRDRAELEALLAETERRFLNQAPHCPEHWGGYRLLAERIEFWQGRPSRLHDRLNYRLQAGEWVRERLAP	PGPT0009115_1720	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009115-pdxH-K00275	NA	NA
BMS010_09110	237			hypothetical protein	ATGGATTACTTCATTATCGTAGTCGTTACCGTGGCTGGCCTGTACTTCCACTGGTGGCTGTACGTGCGCATCAAGCGCTGGGTGGACCGCGACCTGGCCCTGTCCATGGCCGGACAGGACCCGACCAAGCGTGACTACATGCTGAAACGCCTGGAAGAAGCCCGTGCGCAAGGCATCAAGCGCAAGGACTTGCCGAAATGGCTGGAACAGGCCGCCGGCGACTACCGCGCCCCCTGA	MDYFIIVVVTVAGLYFHWWLYVRIKRWVDRDLALSMAGQDPTKRDYMLKRLEEARAQGIKRKDLPKWLEQAAGDYRAP				NA	NA	NA	NA	NA
BMS010_09111	465	slyB	COG3133	Outer membrane lipoprotein SlyB	ATGCGTAAGTCCGTTCTGCTGGTCGCCTCGTTCACTGCGGTGACGCTGGCCTTGGGAGGCTGCGCCTCCAGTCTGACCGGCGATACCTACAGCCGTGACGAGGCGCGCACCGTGCAGACCGTGCGCATGGGTACCATCGAGTCCTTGCGGCCGGTGAAGATCGAAGGCACCAAGACGCCGATCGGCGCTGGCGCCGGTGCGGTGGTCGGTGGCGTGGCCGGCAGCGGTGTCGGTGGCGGACGCGGTAGCGCGGTGGCCGCGGTGATCGGGGCAGTGGCCGGTGGCCTGCTCGGCGCGGCGGCGGAAGAGGGCATCACCCGCACCCAGGGCGTGGAGATCACCGTGCGCGAAGACGACGGCACCATGCGCGCCTACGTACAGGAGGTGCAGCCCAATGAAGTCTTCCGGGTCGGCGAGCGCGTGCGCATCCTGACCGTCAATGGCACCAGTCGCGTAGCGCATTGA	MRKSVLLVASFTAVTLALGGCASSLTGDTYSRDEARTVQTVRMGTIESLRPVKIEGTKTPIGAGAGAVVGGVAGSGVGGGRGSAVAAVIGAVAGGLLGAAAEEGITRTQGVEITVREDDGTMRAYVQEVQPNEVFRVGERVRILTVNGTSRVAH	PGPT0024490_849	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024490-slyB-K06077	NA	NA
BMS010_09112	2868	mrpA_2	COG1009	Na(+)/H(+) antiporter subunit A	ATGCCGGGCCGGAAGCGGATCGATTCCGCGGATGTCTGGCGGCAGGCACCGACGGATCGCATAAGGGGTTTGCTCATGGCGCTTGCGCTGATTGTCGCCTTGCCATTTCTGGGCGTGTTCTTGCCCTTGCTCGGGGAGCGTTTCGGTCGATCGGCCTGTGCCGCGGGGGCGGCGCTGGCGCCTATGATCGGTCTGGTGCTGTTACTGTCGATGCAGCCGGAAGTGTTCGCCGGCGAAGTGCTGCGACTCCGTGTGACTTGGTTGCCGGAGCTGGGGTTGAACCTCAGCCTGCGGCTGGATGGCTTGGGCTTCCTCTTCGCGTTGCTGATTCTCGGCATCGGTCTGCTGGTCATCCTCTACGCCCGCTACTACCTGGCGAAGAAGGAGCCGATGGGGCGCTTCTTCGCCTTCCTGCTGATGTTCATGGGGGCCATGCTCGGGGTGGTGCTCTCGGAAAACCTGCTGCTGATGCTGGTGTTCTGGGAACTGACCAGTCTGTCTTCCTTCCTGCTGATCGGCTTCTGGGGCGAGCGCTCGGATGCCCGCAAGGGCGCGCGGATGTCGCTGGCAGTGACGGGTGGCGGCGGATTGGCGCTGCTGGCCGGTGTGTTGCTGCTGGGTCATATCGCCGGCAGTTTCGAGCTGTCCCAGGTGCTCGCCGCGGGCTACGCGATTCGCGCCCATGAGCTGTATCCGGTCGCCCTGGTGCTGGTGCTGCTCGGGGTGTTCACCAAGTCGGCGCAGTTCCCGTTCCATTTCTGGCTGCCCCAGGCGATGGCCGCGCCCACGCCGGTTTCCGCCTACCTGCATTCGGCCACTATGGTGAAGGCCGGCGTGTTCCTGCTCGCGCGGCTGTACCCGGCGCTGGCCGGTTCGGAGTGGTGGTTCTACTTGGTCAGCCTGACCGGACTCGCCACGTTGCTGGTCGGCGCCTGCATGGCCCTGTTCCAGCATGACCTCAAGGGCTTGCTGGCTTATTCGACCATCAGTCACCTCGGCCTGATCACCCTGCTGTTCGGCCTCGATTCGCCCATGGCGGCCGTGGCGGCTGTGTTCCACATCATCAACCACGCCACCTTCAAGGCGTCCTTGTTCATGGCCGCCGGGATCATCGACCACGAGACCGGCAGCCGCGACATGCGGCGTATCAACGGAATGTGGAAGTACCTGCCGCACACGGCGGTGCTGGCGATGGTGGCGTCCTCGGCGATGGCCGGCGTGCCGTTGCTGAACGGCTTCCTCAGCAAGGAGATGTTCTTCAGCGAAACCCTTCACCAGCACCTGCTGGGCAGCTTCAACTGGGTCATCCCGGCGGCGGCGACCCTGGCAGGGGTCTTCTCGGTGGCCTATTCGCTGCGCTTCATCCACGACGTGTTCTTCAACGGCGAGCCGATCAACCTGCCCAAGTTTCCGCCCCATGAGCCGCCGCGCTACATGAAGGTGCCGGTGGAAATCCTGGTGTTTCTCTGCCTGCTGGTGGGCATGCTGCCCGGCTACACCGTGGCGCCGTTGCTGGCCGCGGCGGCTTCGGCCAGCTTGGGCGGCACCTTGCCGGAGTACGACCTGGCGATCTGGCACGGCTTCAACCTGCCGCTGATGATGAGCTTCGTCGCACTGTTCGGCGGGATTCTGGTGTATGCGTGCCGGCAGCCATTGTTCCGCTGGTACGCCGGCCTGCCCGAAGTGGACTCCAAGCTGGTCTTCGAACATGGCGTGCGAAGCCTGGTGGCGGGCTGCGTGCGGCTGACCGGCTGGCTGGAGAGCGGCTCCCTGCAGCGTTATCTGGCGCTGCTGGTCGGCGCCGGCCTGGTGGTGGTGACCCTGGCCCTCGGCCCGTTGCCGCAGTTGAGCGGGCCGCGGGAGCTGACGCCGATCGACGGGATCACCGCGCTGGGGCTGGTGCTGCTGGCGTTGTCGGCGGTGACCACGGTGGTGTTCCATCGTCAGCGATTGGTGGCGCTGGTGATGCTCAGCGTGGTCGGCCTGTTCGTTGCTCTGGCGTTTGCCCGCTTTTCCGCACCGGACCTGGCGCTGACCCAGCTGTCGGTGGAGGTGGTGACCATCATCCTGCTGATGCTTGCGCTGTTCTTCCTGCCATCGGCGACGCCGGGGGAATCAAGTAGCTTGCGTGGGCTGCGCGACTTCGTGCTGGCGATCGTCAGCGGCGTGGTCGTCGCGCTACTGGCATTCGCCGTGCTCTCGCGGCCTTACGACAGCATCGGTGCGTTCTTCCTCGAGAACAGCGTGCCGGGCGGCGGCGGGGCGAACGTGGTGAACGTGATCCTGGTGGACTTCCGGGGTTTCGACACCCTGGGCGAGATCACCGTACTGGCCATCGCTGCGGTGGGCATCTACGCCATGCTCGATGGGCTGCGCCTGTTCCAGCCGGGTGAGGACGCGGAAGGCCGTAGTTGGGCCCGCGATCGCCACCCGCTGATCCTCTCGACCCTGTCGCGGGTCATGCTGCCGATGGCCCTGATGGTCTCGGTATTCATCTTCCTGCGTGGGCATAACCTGCCGGGCGGCGGTTTCATCGCCGGCCTGATCACCGCCGTGGCGCTGATCCTCCAGTACGTCGCCAGCGGGGTGCAGTGGACGCAATCGCGCCTGCCGCTGAACTACACCTTCCTCGCCGGGGGCGGCGTGATGATCGCCGGTCTGACCGGCGTGGGCAGTTGGTTGTTCGGTCGGCCGTTCCTGACCTCGGCGTTCGGGCATTTCCATATCCCGCTGGTGGGCGACATCGAGTTGGCCACCGCCATGCTGTTCGACCTGGGCGTGTACCTGACGGTAGTCGGGGCGACGCTGCTGATTCTCGCCAACCTGGGCAAGTTGACCCAGGAGAGGGCGGGCAAGGAGGTGCTCTGA	MPGRKRIDSADVWRQAPTDRIRGLLMALALIVALPFLGVFLPLLGERFGRSACAAGAALAPMIGLVLLLSMQPEVFAGEVLRLRVTWLPELGLNLSLRLDGLGFLFALLILGIGLLVILYARYYLAKKEPMGRFFAFLLMFMGAMLGVVLSENLLLMLVFWELTSLSSFLLIGFWGERSDARKGARMSLAVTGGGGLALLAGVLLLGHIAGSFELSQVLAAGYAIRAHELYPVALVLVLLGVFTKSAQFPFHFWLPQAMAAPTPVSAYLHSATMVKAGVFLLARLYPALAGSEWWFYLVSLTGLATLLVGACMALFQHDLKGLLAYSTISHLGLITLLFGLDSPMAAVAAVFHIINHATFKASLFMAAGIIDHETGSRDMRRINGMWKYLPHTAVLAMVASSAMAGVPLLNGFLSKEMFFSETLHQHLLGSFNWVIPAAATLAGVFSVAYSLRFIHDVFFNGEPINLPKFPPHEPPRYMKVPVEILVFLCLLVGMLPGYTVAPLLAAAASASLGGTLPEYDLAIWHGFNLPLMMSFVALFGGILVYACRQPLFRWYAGLPEVDSKLVFEHGVRSLVAGCVRLTGWLESGSLQRYLALLVGAGLVVVTLALGPLPQLSGPRELTPIDGITALGLVLLALSAVTTVVFHRQRLVALVMLSVVGLFVALAFARFSAPDLALTQLSVEVVTIILLMLALFFLPSATPGESSSLRGLRDFVLAIVSGVVVALLAFAVLSRPYDSIGAFFLENSVPGGGGANVVNVILVDFRGFDTLGEITVLAIAAVGIYAMLDGLRLFQPGEDAEGRSWARDRHPLILSTLSRVMLPMALMVSVFIFLRGHNLPGGGFIAGLITAVALILQYVASGVQWTQSRLPLNYTFLAGGGVMIAGLTGVGSWLFGRPFLTSAFGHFHIPLVGDIELATAMLFDLGVYLTVVGATLLILANLGKLTQERAGKEVL	PGPT0013830_730	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013830-phaA-K05559	NA	NA
BMS010_09113	330	mnhC1_2	COG1006	Na(+)/H(+) antiporter subunit C1	ATGGAGGCATTGTTCGCAATCGCCCTGGGCGTGCTGACGGCCAGCGGTGTCTACCTGCTGCTGCGGGCGCGCACCTTCCCGGTGGTGATGGGCCTGACGCTGATTTCCTACGCGGTGAACCTGTTCCTGTTCGCCATGGGCCGGCTGCAAACGGGCGCGGCGGCGGTGATCGGCAAGAGCGCCGAGCATGTCGACCCGGTGCCCCAGGCCCTGGTGCTGACCGCCATCGTGATCGGCTTCGCCATGACCGCTTTCGTCGTAGTGCTGTCCCTACGCAGCCTGGGTGAGTTGAAGAACGACCACGTTGATGGCCGGGAGCCCAGGCCATGA	MEALFAIALGVLTASGVYLLLRARTFPVVMGLTLISYAVNLFLFAMGRLQTGAAAVIGKSAEHVDPVPQALVLTAIVIGFAMTAFVVVLSLRSLGELKNDHVDGREPRP	PGPT0013835_622	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013835-phaC-K05560	NA	NA
BMS010_09114	1506	ndhB_2		NAD(P)H-quinone oxidoreductase subunit 2, chloroplastic	ATGAATCATGCGTTGATCCTGCCGGTATTGTTGCCGATGTTCGCCGGCAGTTTGTTGCTGCTCGGGGCGCGTCTGGGTATGTCGGCCACGCGGCGGCTGTCGCTGCTCAGCGTGGGGTTGCAGGTGGCCGTCAGCGCCTGGTTGATCGTCCAGGCCAGCGACGGGCAGGTACAGGTCTACGCGCTGGGCGATTGGCGCCCGCCGTTCGGCATCGTCCTGATGTTCGACCGCCTGAGTGCGCTGATGCTGTTCATCACTGCGCTGCTGGCGCTCTTCTCGCTGCTTTATGCGACACGCGGCGACGATACCCGGGGCAGCAACTTCCATGCGCTGTTCCAGTTCCAGCTGATGGGCATCAACGGCGCCTTTCTCACCGGCGACCTGTTCAACCTGTTCGTCTTCTTCGAGATCCTGCTGATCGCTTCCTATTCGTTGCTGTTGCACGGCGGCGGGCCGGAGCGGGCGAAGGCCGGGCTGCACTATGTGGTGCTTAACCTGGTGGGCTCCTCGTTCTTCCTGATCGCCCTCGGCGTGCTTTTCGGCATCGCCGGCACCCTGAACATGGCCGACCTGGCGGTGAAGGTGTCCGAGGCCAGCGCCGACCAGGCGCCATTGCTGGGTGCTGCAGGGATGCTGCTGCTGGTGGTGTTCGGCCTCAAGGCGGCCTTCCTGCCGCTGTATTTCTGGCTGCCGCGCACCTACGCCTCGGCCACCGCGCCGGTGGCGGCACTGTTCGCCATCATGACCAAGGTGGGGATCTACTCGATCCTGCGGGTCTACACGCTGATCTACGGCGCCGAGGCGGGCTCGCTTGCGAACATGGCTTTGGACTGGCTCTGGCCGCTGGCACTGCTGACCCTGGCTGTCGGCGTCATCGGCGCCCTGGCGGCGACCAGCCTGCAGGAGCTGATCGCCTACCTGGTGATCGTCTCCGTCGGCACGTTGCTGGCCGGCATTGCCATCGGCACCCCGGAAGCGTTGTCGGCGTCGCTCTATTACCTGATCCACACCACCTGGGCGACCGGTGCGCTGTTCCTCCTCGCCGATCTGATCGCCCGTCAGCGGGGCGTGAAAGGCGGGCTGCTGCTGCAAGGTCCCGCGCTCCTGCAACCGCACGTGCTGGGCGCCTTGTTCTTCATTGGCGCCATCGCGGTGGTGGGGTTGCCGCCGCTCTCCGGCTTCCTCGGCAAGGTGCTGCTGCTGCATGCCTTGCAGCCGGGGCCGCAGGCGGTATTGTTGTGGCCGGTGATCCTGATCGGCAGCCTCGGCAGCCTGATCGCCTTCAGCCGGGCCGGCAGCACGCTGTTCTGGCGGACCGGCCTGACCGTGCTCGGCAGTGCCGAACGGGACGGCAAGGGGCTGCTGGCCTGTGTCGGCCTGTTGCTGCTCAGCCCGCTACTGGTGGCCTTCGCGCATCCCGTGCTGGAGTACCTGGAAGCCACCGCGGCGCAATTGCACGACCTCGACCTGTACCGGCAGATCCTGACTCCCGGAGGTGCGGTATGA	MNHALILPVLLPMFAGSLLLLGARLGMSATRRLSLLSVGLQVAVSAWLIVQASDGQVQVYALGDWRPPFGIVLMFDRLSALMLFITALLALFSLLYATRGDDTRGSNFHALFQFQLMGINGAFLTGDLFNLFVFFEILLIASYSLLLHGGGPERAKAGLHYVVLNLVGSSFFLIALGVLFGIAGTLNMADLAVKVSEASADQAPLLGAAGMLLLVVFGLKAAFLPLYFWLPRTYASATAPVAALFAIMTKVGIYSILRVYTLIYGAEAGSLANMALDWLWPLALLTLAVGVIGALAATSLQELIAYLVIVSVGTLLAGIAIGTPEALSASLYYLIHTTWATGALFLLADLIARQRGVKGGLLLQGPALLQPHVLGALFFIGAIAVVGLPPLSGFLGKVLLLHALQPGPQAVLLWPVILIGSLGSLIAFSRAGSTLFWRTGLTVLGSAERDGKGLLACVGLLLLSPLLVAFAHPVLEYLEATAAQLHDLDLYRQILTPGGAV	PGPT0013840_693	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013840-phaD-K05561	NA	NA
BMS010_09115	504	mrpE_2	COG1863	Na(+)/H(+) antiporter subunit E	ATGAAACCGAGTCGCTGGTTGCCTCATCCCTTGCTGAGCATCTGTCTGCTGGTGGTCTGGCTGCTGCTGATCAACGGCTTCAGCCTGGGCCATCTGCTGCTCGGCGCCTTGCTTGGCTGGTTGATTCCGCTGGTGACCCAGGTGTTCTGGATCAACCCACCGCGGATACGCAAGCCGATCAAGCTGTGCCTGTTCCTGCTGCATGTCATCTGGGACATCCTGCTCGCCAACCTGCAGGTCGCCCGCTTGATTCTCGGCCCGTCGAGCCGGTTGCGGCCGGCCTTCGTCGAAATCCCGGTGCAACTGGAAGACGAGCTGGCGCTGACCATGCTCGCCAGCGTCATTTCGCTTACGCCGGGTACGGTATCCGCCGATCTCAGCGACGACCGTAAGACCCTGTTGGTCCATACCCTGGACGTGGCCGACGAGGAGCAACTGGTCCGCGACATCAAGGCCCGTTACGAAGCGCCGCTGCTGGAGGTGTTCGCATGCTCGGCTACGTGA	MKPSRWLPHPLLSICLLVVWLLLINGFSLGHLLLGALLGWLIPLVTQVFWINPPRIRKPIKLCLFLLHVIWDILLANLQVARLILGPSSRLRPAFVEIPVQLEDELALTMLASVISLTPGTVSADLSDDRKTLLVHTLDVADEEQLVRDIKARYEAPLLEVFACSAT	PGPT0013845_187	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013845-phaE-K05562	NA	NA
BMS010_09116	270	mrpF	COG2212	Na(+)/H(+) antiporter subunit F	ATGCTCGGCTACGTGATTCCGATCTGCCTGGCCATCATCGGTCTCGCCCTGGCGCTGACCCTGGCGCGCCTGTTCAAGGGGCCGGACCTCCCGGACCGCATCCTGGCCCTGGACACCCTGTACATCAACGCCATCGCCCTGCTGGTGCTGTTCGGCATCTGGCTGGGCTCGGACCTGTATTTCGAGGCGGCCCTGCTGATCGCGGTGATGGGCTTCGTCGGTACCGTGGCGGTGGCGAAATATCTCCTGCGCGGCGACATCATCGAGTAA	MLGYVIPICLAIIGLALALTLARLFKGPDLPDRILALDTLYINAIALLVLFGIWLGSDLYFEAALLIAVMGFVGTVAVAKYLLRGDIIE	PGPT0013850_456	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013850-phaF-K05563	NA	NA
BMS010_09117	333	mrpG_3	COG1320	Na(+)/H(+) antiporter subunit G	ATGAATGAATGGATTGAAGGCATCGTCGCCCTGTTCCTCCTGCTCGGCAGCCTGTTCGCCCTGGTCGGCGCCCTCGGCCTGTATCGCCTGCCGGATTTCTTCATGCGCCTGCACGGGCCGACCAAGGCCACCACGCTCGGCGTGGGAGGGATGGTCATCGCTTCGATGATCTATTTCGGCGCGCGTGGCGAAGGACTCAGCCTGCACGAGCTGCTGATCACGCTGTTCCTCTTCATCACCGCGCCGGTCAGCGCCCACATGCTGGCCAAGGCCGCGTTGCAGCAGAAGCTGCGCCTGGACGAAAAAACCCGCGGCCGTCCTTGGGAGCAGTAA	MNEWIEGIVALFLLLGSLFALVGALGLYRLPDFFMRLHGPTKATTLGVGGMVIASMIYFGARGEGLSLHELLITLFLFITAPVSAHMLAKAALQQKLRLDEKTRGRPWEQ	PGPT0013855_667	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013855-phaG-K05564	NA	NA
BMS010_09118	906			hypothetical protein	ATGGCGGTGCAGAACAGAGGCATGGCAATCGGCTGCCTGATCATCGCGATGGCGCTCTGGGGCAGCTCGTTCATCGCACTCAAGCTGGCCTTCGGCGAGTTGCCGCCGTTGTGGGTGATCTTCGGCCGCATGGCGTTCGGCAGCCTGGTGTTTCTGCTGGCCTGGCGCTGGCGCGGTCGTCTCGATTACCGCCCGGGTGACTGGAAATACCTGATCGGCCTGGCCGCCTGCGAACCCTGCCTGTACTTCATCTTCGAAGCCCTGGCGCTGCAACGGACCAGCGCCTCCCAGGCCGGGATGATCACCGCGCTGCTGCCGCTACTGGTGGCCATGGGCGCGTTCCTCTTCCTGCGTGAACGTGTCAGCCGTACCACCCTGGCCGGCTTCCTCCTGGCGGTGGTCGGGGCGGTCTGGCTGAGCCTGGCGGGGGAGGTCGACGACCATGCGCCGGCGCCGTTGCTCGGCAACTTCTTCGAGTTCCTCGCCATGCTCTGCGCGACTGGCTATACGCTGTTGCTCAAGCATCTCTCGACGCGTTACTCGGCATTCGTGCTCACCGCCATGCAGGCGTTCATCGGTGCCTTGTTCTTCCTGCCGCTGGCGGCGCTGACCGAGCCGATGCCCGCGTCCATCAGTCCCCTGGGCCTGGGGGCGGTGTTCTATCTCGGCGTGGTGGTGACGGTGGGCGCCTATGGCCTGTACAACTTCGGCGTCAGCCATCTACCGGCAAGCCAGGCATCGGGGTTCATCAACCTGATTCCCGTGTTCACCCTGATCTTCGCCGTGCTGCTGCTGGGCGAAAGCCTTACCCTGGTGCAGATGCTGGCCGTCGCGCTGGTGTTCGCCGGGGTTGGCTTGAGCCAGTGGCGAAGCGCACCGTCGGCACCGGCCGGCATTCTTGACTGA	MAVQNRGMAIGCLIIAMALWGSSFIALKLAFGELPPLWVIFGRMAFGSLVFLLAWRWRGRLDYRPGDWKYLIGLAACEPCLYFIFEALALQRTSASQAGMITALLPLLVAMGAFLFLRERVSRTTLAGFLLAVVGAVWLSLAGEVDDHAPAPLLGNFFEFLAMLCATGYTLLLKHLSTRYSAFVLTAMQAFIGALFFLPLAALTEPMPASISPLGLGAVFYLGVVVTVGAYGLYNFGVSHLPASQASGFINLIPVFTLIFAVLLLGESLTLVQMLAVALVFAGVGLSQWRSAPSAPAGILD				NA	NA	NA	NA	NA
BMS010_09119	1095	cysM_2	COG0031	Cysteine synthase B	ATGACAGACCTGCGCCAGTGGACACGCGAGGCGATTCGCATCATCGAAGCGGATTTCCAGCGCAGCGCCGACACACACCTGATTCCACTCGACGTACCGGGCCTGCCGGGTGTCGATCTTTACTTCAAGGACGAATCCAGCCACCCCACCGGCAGCCTCAAACACCGTCTGGCCCGCTCGCTATTCCTCTATGCGCTGTGCAACGGCTGGCTCAAGCCGGGAGCGCCGGTGATCGAAGCCTCCAGCGGCTCCACGGCGATCTCCGAAGCCTATTTCGCCTGGCTGCTGGGGCTGCCTTTCATCGCCGTGATGCCCTCGTCGACTTCGCCGGAGAAGATCGCCCAGATCGCCTTCTACGGTGGGAAAAGCCATCTGGTGGACGACCCGACGCAGATCTACGCGGAGTCCGAGCGCCTCGCCCGTGAAAGCGGCGGCCACTTCATGGACCAGTTCACCTACGCCGAACGGGCCACCGACTGGCGGGCGAACAACAACATCGCCGAATCGATCTTCCAGCAATTGCGTTTCGAACGCTGCCCGGAGCCGAGCTGGCTGGTGTCGAGTCCCGGCACCGGCGGTACCACCGCGACCCTGGGGCGCTACGTGCGCTATCGCCAGCACGCCACCCGCGTGCTCTGCGCCGATGCCGAGCGCTCGGTGTTCTTCGACTACTTCCGCGACGGCGATGCCGGCCTGCGACTGGACTGCGGTTCGCGCATCGAAGGCATCGGCCGGCCGCGCGTCGAAGCCTCGTTCCTGCCCCAGGTGATCGACGCCATGTGCAAGGTGCCGGATGCCCTGTCGCTGGCAGCCATGCACTACCTGGCGCGCCGACTGGGCCGACGCGTCGGCGGCTCCAGCGGCACCAACCTGATCGGCGCCTTGCTGGCTGCCCAGCGCATGGTTGCGGCGGGCGAACGGGGATCGGTGGTGGCGATCCTTTGCGACAGCGGCGAGCGCTACGCCACGACCTATTACGACCCCACGTGGCTTACCGCCCAGGGCTTCGTCCTGGAGCCCTTGGTCGAACGGGTCGCCGCTTGTGCGGAGCGGGGCGAACCGTTGCGGGTGGATGTGCCGATGATTGTGCGGTAA	MTDLRQWTREAIRIIEADFQRSADTHLIPLDVPGLPGVDLYFKDESSHPTGSLKHRLARSLFLYALCNGWLKPGAPVIEASSGSTAISEAYFAWLLGLPFIAVMPSSTSPEKIAQIAFYGGKSHLVDDPTQIYAESERLARESGGHFMDQFTYAERATDWRANNNIAESIFQQLRFERCPEPSWLVSSPGTGGTTATLGRYVRYRQHATRVLCADAERSVFFDYFRDGDAGLRLDCGSRIEGIGRPRVEASFLPQVIDAMCKVPDALSLAAMHYLARRLGRRVGGSSGTNLIGALLAAQRMVAAGERGSVVAILCDSGERYATTYYDPTWLTAQGFVLEPLVERVAACAERGEPLRVDVPMIVR	PGPT0002810_1071	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0002810-cysK-K01738	NA	NA
BMS010_09120	930	hlyC	COG1075	Triacylglycerol lipase	ATGCGTCGAGTCATTTCCACTGCTTTGGCCACCCTGGCCCTGGTGGGCGCTGTCGAAGCGCAAGCCAGCGGATACACCCAGACCAGATACCCCATCGTGCTGGTGCACGGCATTACCGGTTTCGACACCATCGGTGGCCTGGTCAATTACTTCCACACCATTCCCTGGAACCTGGAGCGCGACGGCGCCAAGGTGTATGTCGCCAGCGTGGCCGCGTTCAACGACAGCGAACAGCGTGGCGCGGCACTGGCGCAGCAGATCGTGCCCTGGGCGACGGCCAATGGCGGCAAGGTCAATCTGATCGGCCACAGCCAGGGCTCGCCGACCTCGCGGGTGGCGGCTTCGCTGCGGCCGGACCTGGTAGCGTCGGTGACTTCCGTCAACGGGGTGAACAAGGGTTCGAAAGTGGCGGATGTGATACGTGGTGCCATTCCTGCGAACGGTGCCATCGAGGGCGGGGCTGCTGCCCTGGCGAATGCGTTGGGAGCGATGATCAATCTGCTCTCCGGCAGCAGCAATCCGCAGAATGCCATCGCTGCGCTGGGAACGCTGACGACTGCGGGTACCGCCGCGCTGAACAGCCGTCATCCGTGGGGCGTGAATACCTCCAGCTACTGCGCTAAGTCCACGGAAGTGCACAACGTGCGCGGTTATGACATCCGCTACTTCTCCTGGACCGGCAATACCTCCTACACCAACGTGCTGGATGCCGTGGACCCGTTCCTGGCGATCACCGGGCTGGCCTTCGGCAGCGAGAAGAACGATGGCCTGGTGGGCGTCTGTTCCACCTACCTGGGGTCGGTGCTGGGTGACACCTACAACATGAACCACGTGGATGCGATCAACCATCTGTTCGGCCTGCGCGGCTGGACCGATCCGGTCTCGCTGTATCGCCAGCATGCCAATCGCCTGAAGAACAAGGGCGTCTGA	MRRVISTALATLALVGAVEAQASGYTQTRYPIVLVHGITGFDTIGGLVNYFHTIPWNLERDGAKVYVASVAAFNDSEQRGAALAQQIVPWATANGGKVNLIGHSQGSPTSRVAASLRPDLVASVTSVNGVNKGSKVADVIRGAIPANGAIEGGAAALANALGAMINLLSGSSNPQNAIAALGTLTTAGTAALNSRHPWGVNTSSYCAKSTEVHNVRGYDIRYFSWTGNTSYTNVLDAVDPFLAITGLAFGSEKNDGLVGVCSTYLGSVLGDTYNMNHVDAINHLFGLRGWTDPVSLYRQHANRLKNKGV	PGPT0024445_1325	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_LIPASE_ACTIVITY,PGPT0024445-lip|lipC-K01046	NA	NA
BMS010_09121	1044	lifO_2	COG5380	Lipase chaperone	ATGTTTCCACGAGTCTGGTTTCTGGCCAGCGCCGCCCTGGCCCTGGTTTGTGCCGGTGCGGTGCTGTACTGGCAATGGCCTGCGACGCCGGAAGTCGCGACGCCGAGTCGGATGGTCGCCAGCCCCGCGCCGGCGCCGCTTGGCGTCGTACCGTTGCCATCCCGGGCGCAGGACGCGCCGTCCGTGCAACGACCGACGATACCGGCGATGGCGGACACCGAGGTCGATGGCGAACTGACGATGGACGCCGCCGGCAACCTGATGCTGAGCCTGCGGGTACGCGATTACCTCGACTATTTCCTCAGTGCTGCCGAGCGGATCGGGCTGGAGGCCGCCGTGGCGGCGATGGTGGACGATGCCGGCCGGCGCCTGCGTGAGCCAGCGCTCGGGCAGTTTTCCCGGCTGCTGGCCGATTACATGGACTACAAGCGCGCCAGCCTGGCGCTCATGCAGCAGCCGCTGGACCCGTCGCAGAGCCAGCCGCAGGCGCTGGAGGACGCTTTCCAGCGTCTTGCCCGGTTGCGCCGGGAGCATATGGATGCGGCAGCGGTGGAGGCTTTCTTCGGCGCCGAGGAAGCCTACGCGCGCTACACCCTGGACAGCCTCGCGCTGCAGGCACGCGAGGACCTCTCCGGCGAAGACAAGACCCGGGCCATCGAGGCGTTGCGCGCACAACTGCCGGAGGCCATGCGTGCCAGCGAAGTGCGGCAGAGCGAGGCGCTGGCCGTGCAGACGGAAAGCGAGCGGCTGTGGCAGGAAGGGGCGGGCGAGGAACAGATGCGCGATTTCCTCGCCATGACCTATGATCCGCCCACGGTTGAGCGGCTGCTCGCCGAACAGCGGGCCGAGCGGCTCTGGCAGCAGCGCTATGCGGCGTACCGGAGCGAACTCGCCGGCCTGCGTGGCAACGGACTGAGCGAGGCGGACCAGGAGCGGGAACGCCGGCTCCTGCGCCAGCGGCTGTTCAGCGCCGATGACCTGCACCGGGTGGAGACCTATGACGCGATTGCCGCCAAACAGGAGCTTGCCGATTCCGGCCGTTGA	MFPRVWFLASAALALVCAGAVLYWQWPATPEVATPSRMVASPAPAPLGVVPLPSRAQDAPSVQRPTIPAMADTEVDGELTMDAAGNLMLSLRVRDYLDYFLSAAERIGLEAAVAAMVDDAGRRLREPALGQFSRLLADYMDYKRASLALMQQPLDPSQSQPQALEDAFQRLARLRREHMDAAAVEAFFGAEEAYARYTLDSLALQAREDLSGEDKTRAIEALRAQLPEAMRASEVRQSEALAVQTESERLWQEGAGEEQMRDFLAMTYDPPTVERLLAEQRAERLWQQRYAAYRSELAGLRGNGLSEADQERERRLLRQRLFSADDLHRVETYDAIAAKQELADSGR				NA	NA	NA	NA	NA
BMS010_09122	1803	rcsC_28		Sensor histidine kinase RcsC	ATGACGGGCGCTGACGAGGCGCCGACGCCGGAGCAGCTGGAGCGGCTCCTGCTGGCCCAGCAGCGCCGGGGGCATGCCCGGCTGCGTTTCGTGCAGATGCTGGAACGCCTGTTCGTCGAGCATCGGGTACGCCGCCTGCGTCGTCGCCTGCCTCTGATCGCGGCGACCGCGGTGCTGTTCCAACTGATCTATACCTTTCTCGATTTCGCCCTGATGCCGCCAGCGGTTGCCGGCTCGGTGCTGCCGCTACGCCTGCTGGCGCTGGGTGGGCTTGCGGTTGGGTTCTTCTACTGTCGGCGCCCGCACGCTCCTCCCAGGGCGACGCACGCTGTCTATGCCACGGTGTACGCGCTGAACGGCGGTTGCGTTGCGCTGATCGTCCACTTCTGTTGGGCTCAGGGCGTGCCGATGCCGTACGAAGGGTTGTTTCTGATCCTGCTGTTCGGCTACGTGCTGCTTGGTTTGTCGTTCCGTGCGGCATCCCTCTCGGCTTGGGGATTCTGCGGCCTGTTCCTGTTGCCCGGCCTGTGGTTTTCCGAAACCCGGGCGAGCCTGGCCTATCCGGGGCTGTTCCTGGTCTGCGCCAACCTGATCGGCAGTGTCGGTGCCTACTTGCAGGAGCATGGCCAGCGCAGCGCCTGGCTCAACCTGCGGCTACTGGACTTGGCCCGCCTGCGCGCCGAGGCGGACGATGCGCGCAAGCTGCGTCTGCTCGCCGCCGCCAGCCACGACCTGCGCCAGCCGCTCAATGCCATGGGGCTGTATGCCCAGCACTTGCTCGAGCAGACCCGCGAGCCGCTGACCCGGCAGGTCGGCGAGCGTCTGGTGATCTCGGTGGAGCAGCTCAGCCGCCTGCTGCAATCCTTGCTCGACTTCACCCGCCTGACCCTGCCCGGTGGCGTGCAGGCGCGTCCGGAGAACCTGCCGCTACGCCCATTGCTGGCGCGATTGGTGGACGAGGCGCAGGCCGAGATCGAGCAGAGCGATTGTCAGTTGCGCCTGGCGTGCGAGGAGCTTTGGGTGCGCAGCGATGCGTTGCTGCTGGAGCGTCTGCTGCGCAACCTGCTCAACAATGCGCTACGCCATGCCGGGGCCCGACACGTCTGGCTGCAGGCCGAGGCGCAAGGCGACGAGGTGCTGCTGGAGGTGGGCGACGACGGACGTGGTCTGGCGGCGGAGGAACAGGAGTTGATCTTCGAAGAGTTCCGTCAGTTGGACAATCCGGGACGCAACGCCGAGCGCGGACTGGGGCTCGGCCTGGCCATCGTCCGGCAACTGGCGGCGTTGCTTGAGCATCCGTTGCGTCTGGATTCCCGTCCGGGTGAGGGTGCCCGGTTCAGTCTGCGTCTGCCCGCGGTGGCGCCGGGCGCCGAGGTTTCGCAAAGCGCCGCGCCGGCCAAGGTGTTGGCCGGGCGGATTCTGTTGCTGGAAGACGACCCAGCGGGTCGCGAGGCGTTGCAAGGGCTGTTGCAGCGTTGGGGATGCGAAGTGGAGGTCTGCGCCGACCTGCCGCAAGCCTTGGGCCGTCAGGCCGCTTTTCGGCCACAGGTGCTGATCAGCGATTACCGGCTGGCCGGGGAAGAGGATGGCCTCAAGGCCATTGAGCGTTTGCGCGAAGCGGCCGGGCAGATGCTGCCGGCACTGCTGATCAGCGCGGACGTCAGCCCCGAGTTGCAGGAGCGCTGTATGCCGGCGCATGTCACCCTACTGGCCAAGCCCTTGTTGCCGGCCCGCCTGCGCCGGGCGCTGGCGTTGTCGCTGCCGGAGGCGGTCACAGCCAGCCGCGCTGCCGCGCCGCACTGA	MTGADEAPTPEQLERLLLAQQRRGHARLRFVQMLERLFVEHRVRRLRRRLPLIAATAVLFQLIYTFLDFALMPPAVAGSVLPLRLLALGGLAVGFFYCRRPHAPPRATHAVYATVYALNGGCVALIVHFCWAQGVPMPYEGLFLILLFGYVLLGLSFRAASLSAWGFCGLFLLPGLWFSETRASLAYPGLFLVCANLIGSVGAYLQEHGQRSAWLNLRLLDLARLRAEADDARKLRLLAAASHDLRQPLNAMGLYAQHLLEQTREPLTRQVGERLVISVEQLSRLLQSLLDFTRLTLPGGVQARPENLPLRPLLARLVDEAQAEIEQSDCQLRLACEELWVRSDALLLERLLRNLLNNALRHAGARHVWLQAEAQGDEVLLEVGDDGRGLAAEEQELIFEEFRQLDNPGRNAERGLGLGLAIVRQLAALLEHPLRLDSRPGEGARFSLRLPAVAPGAEVSQSAAPAKVLAGRILLLEDDPAGREALQGLLQRWGCEVEVCADLPQALGRQAAFRPQVLISDYRLAGEEDGLKAIERLREAAGQMLPALLISADVSPELQERCMPAHVTLLAKPLLPARLRRALALSLPEAVTASRAAAPH				NA	NA	NA	NA	NA
BMS010_09123	618	degU_6	COG2197	Transcriptional regulatory protein DegU	ATGACCGCGCTATGCACCGCTCTTCCCGAGCGACTTTCACTGCTTCTGGTGGACGACCACCGGATATTCCTCGACGGCCTGGCCCTGGCGCTCGGCCCACTCTGTCCCGACCTGCGCATCCAGACCGCACAGACCGCCGCCGAAGCCGAGCAGTGCCTGCAGCACGGCAGCTTCGACCTGATCCTTCTCGACTTGCGCCTGCCCGACATGCCCGGCCTGGAACTGCTGCAACGCTGGCAGCGCCAGGGCCTGCCGACGCCGGTGGCGATTCTCAGTGGCAGCGACTCCAGCCAGGATGCCCAAGCTGCACTGGCAGCCGGCGCGCTGGGGTTCATCCCGAAGAGCGCCGACAGCGAGGACCTGCGCCAGGCGGTGACCCGCGTCCTCCTCGGCGAAGTCCTGCCGATGCCGCAGACGACGGAGCGCCCGCATCTGACGCCCCGGCAACGGGAAATCCTCCTGCTGCTCGCCGAGGGCCTGCCGAACAAGGCCATCAGCCGTCGCCTGGGGCTCTCCGAAGACACCGTCAAGACGCACCTGAAAGCCTTATTCCAGGAACTCGACGTGCATACTCGAACCGCCTGCGTCAGTGCGGCGCGGCAGCGCGGCTGGCTGTGA	MTALCTALPERLSLLLVDDHRIFLDGLALALGPLCPDLRIQTAQTAAEAEQCLQHGSFDLILLDLRLPDMPGLELLQRWQRQGLPTPVAILSGSDSSQDAQAALAAGALGFIPKSADSEDLRQAVTRVLLGEVLPMPQTTERPHLTPRQREILLLLAEGLPNKAISRRLGLSEDTVKTHLKALFQELDVHTRTACVSAARQRGWL	PGPT0000550_1459	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	N-AQUISITION-NITRATE|NITRITE_SENSING,PGPT0000550-narL-K07684	NA	NA
BMS010_09124	1290		COG2067	Putative outer membrane protein	ATGAGAAAAGTCTGTCTCAAGACCTCCATCGCCCTGGCCCTTACTGCCCTTTCCACCCAGACCCTGGCCAACGGCATCGCGATCAACGAGCAAAGCGTCAGCGGCATGGGTACCGCGTTTGCCGGGCGCTCCTCTTCCGCGCAGGACGCCAGCACCCTCTATGGCAACCCGGCGGGCCTGTCCAAGCTCAAGCGCAGCGAGGTCAGCGGCGGCCTGGCTGCGATCAAGGCCAAGGTCGAGATCGACGATGCGTCCAGCAGCGCCAGCGGCACCAACGACGGCGACATGGTGCCCTTCGCCAGCGTGCCGTTCGGCTATTTCGCCACCCCGCTGAACGACGACTGGCACTTTGGTATCGGCGTGTACGCGCCCTTCGCCCTCATCAGCGATTACGAAAAGAGCTTCCAGGGGCGCTACAAGGGCCTCTACAGCAAGGTGCAGGTGGTCACGCTGCAACCGACCCTGAGCTACCAGATCAACGACCGCGTATCGGTCGGTTTCGGCCCGACGATCAACAGGATCGACGGCAAGCTCACCAACATGCTCGCCACCAATGCCCTGAACGGCGGCAACGGTGACACCAAGCTGAACATCAAGGGCGACGACACCGCGCTCGGCTATAACATCGGTGTGCTGGTCGACATCAACGACCGCACCACCTGGGGCCTGACCTATCACTCCAAGGTCGACTACACCCTCGAGGGCCGCACCAAGGTCAGCAACTCCCCCGCGCTGCTCGGCCTCGACGGCAGCTACGACGCCAAGCTGGACTTCACCACGCCGGAGTCGGTCGATACTTCCATCACCTACAAGCTGGACGACCGCTGGACTCTCTACGGCGGTGCCACCTGGACCCGCTGGAGCCGCCTGGACAAGATCATGGTGGAGAACGAGGGCATTCCGGCCCTGGTTTCCGGCCAGTTCAGCACCCTGACCGAAGAAATGCACTGGGAAGACACCTGGTCCTATGCCATCGGCGCGGCCTACCAGCTCAATCGCCAGTGGGTACTGCGCACCGGCTTCGCCCTGGACGCCTCCCCCACCAGCAACGCCGACCGTACCGTGCGCATCCCGGTGGGCAACCGCAAGGTGTTCTCCCTGGGTGCGGGCTGGTCGCCGAACGAAGACCTGACCATCGACGTCGCCTACTCCTACCTGCGTGAAAGCAAGGCGTCGGTCAACCAGGAAAGCTCCGGCCAGATCGGCCCGTTCACCCTGCAGCCGGGTTACAGTGCCGAATACCGCAACAGCGCTCATGGTATCGGTACGCAAGTGACCTACCGCTTCTAA	MRKVCLKTSIALALTALSTQTLANGIAINEQSVSGMGTAFAGRSSSAQDASTLYGNPAGLSKLKRSEVSGGLAAIKAKVEIDDASSSASGTNDGDMVPFASVPFGYFATPLNDDWHFGIGVYAPFALISDYEKSFQGRYKGLYSKVQVVTLQPTLSYQINDRVSVGFGPTINRIDGKLTNMLATNALNGGNGDTKLNIKGDDTALGYNIGVLVDINDRTTWGLTYHSKVDYTLEGRTKVSNSPALLGLDGSYDAKLDFTTPESVDTSITYKLDDRWTLYGGATWTRWSRLDKIMVENEGIPALVSGQFSTLTEEMHWEDTWSYAIGAAYQLNRQWVLRTGFALDASPTSNADRTVRIPVGNRKVFSLGAGWSPNEDLTIDVAYSYLRESKASVNQESSGQIGPFTLQPGYSAEYRNSAHGIGTQVTYRF				NA	NA	NA	NA	NA
BMS010_09125	480			hypothetical protein	ATGGGTATTGCCGCAAGCGAACTGTGCAAGCACGTCATCCGCCCTACCCTGCTCTACCTGGGGCGCCCATCCGTCTCCGCCGAAGCCCTGCTGCTGGGAGTGGCCGCCAGCCAATCCGCGCTCGGTGCGGCCCTCGATGATCGCCAGGGCCATGGCCTCTACCGCATCGACGAAGCCCGCCACCAGCGGCTCTGGGACCTGTACCTGGCCAAGGACCCGGACCTCGCCAGTCTGGTGCGCGGCCTGGCCAGCCAGCATGCCTTCCTCGCGGCCCCTCATCTGGAACTCACCGTGAACCTGCGCTACGCCACCGCCATCGCCTGGCTGCTGGTGGAGGCGGAAATCAGCAACCTCCCCGCCGCTGACGACCTGCCCGGCCTGGCGAGCGTCTGGCGGCAAGTGTTTAAACCTCAAGGCAAATCCGGCGATTTCATCGCGGCATGGACCCGCTGGATAGGTGCGCTCAGCCAAGTCGCCTGA	MGIAASELCKHVIRPTLLYLGRPSVSAEALLLGVAASQSALGAALDDRQGHGLYRIDEARHQRLWDLYLAKDPDLASLVRGLASQHAFLAAPHLELTVNLRYATAIAWLLVEAEISNLPAADDLPGLASVWRQVFKPQGKSGDFIAAWTRWIGALSQVA				NA	NA	NA	NA	NA
BMS010_09126	855	sseB	COG2897	Putative thiosulfate sulfurtransferase SseB	ATGCCCCTCGCACAACTGCTCAGCCCGCAGCAACTGGCCGACCGCCTCGACCAACCCGGCCTGGTGATCCTGGATTGCCGCTTCGCCCTGGAAGACCCGTCCTACGGCCAGCGCAGCTATGCCGAAGGGCATCTTCCCGGCGCCCACTTCGTCGATCTGGAGCGGGACCTGTCCGGCCCGGTGGAAAAAGGCGTGACCGGACGCCACCCGCTGCCCACCCCCGCACAACTGCTGCAACGCCTCCGCGATTGCGGCCTGGATAGCGACAGCCAGGTGGCGCTCTACGACGACGGCCCCGGTGCCTTTGCCGCGCGGGCCTGGTGGTTGCTGGCCTGGCTCGGCAAGCGCGACGGCGTCTTCCTGCTCGATGGCGGACTCAAAGCCTGGCGCGAGGCCGGTCTTCCCCTCACCACCGAGACGCCAGCCGTACGCCAGGGACATTTCGAAGGACAGCCCGACCCGGCCCTGGTGGTGGATGCCACAACCCTTCGACAGCGCCTGGATGACCCGCAGCTGGCTCTGCTGGATGCCCGTGCCCTGCCCCGTTTCCGCGGCGAGGTGGAGCCGATCGATCCGGTGGCCGGCCATATTCCCGGCGCGCGCTGCGCGGCGTTCACCGATAACCTGAGCAGCGATGGCCGCTTCCTGCCGGCCGACCAGTTGCGCCAGCGCTTCGCGGCATTGCTCGGGGGGCGTTCCCCGGAACGGCTGGTGGCCTACTGCGGCTCCGGCGTCACCGCCTGCCACAACCTGTTCGCCCTCTGTCTCGCCGGCTATCCCCTCGCACCGCTCTACGCCGGGTCCTGGAGCGAATGGATCACCGATCCTGTGCGCCCGGTGGCGACCGGCGACTGA	MPLAQLLSPQQLADRLDQPGLVILDCRFALEDPSYGQRSYAEGHLPGAHFVDLERDLSGPVEKGVTGRHPLPTPAQLLQRLRDCGLDSDSQVALYDDGPGAFAARAWWLLAWLGKRDGVFLLDGGLKAWREAGLPLTTETPAVRQGHFEGQPDPALVVDATTLRQRLDDPQLALLDARALPRFRGEVEPIDPVAGHIPGARCAAFTDNLSSDGRFLPADQLRQRFAALLGGRSPERLVAYCGSGVTACHNLFALCLAGYPLAPLYAGSWSEWITDPVRPVATGD	PGPT0002045_3011	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0002045-sseA-K01011	NA	NA
BMS010_09127	1062			hypothetical protein	ATGAAGAAGCTCCTGGGCCTCGTCGTCGTGTTGATCGCCGCCGCCGCGCTCTATCTTGCCGTCACCCCCAGCCCCATCGACCCATTGGCCTGGGAGGCACCCACGGCGCCTGCCATGACCGGCGTCCTGGAGCCCAACGACACCCTGATGAAGGCCGAACTGCTCGGCCAGGGTCAGATCCACGGCCCCGAAGACACCGCCGTGGACACCCAAGGCCGGGTCTACGCCGGTCTGCACAATGGCCGGGTGGTGCGCATCGGCACCGACGGCACGGTGGAGACCTTCGTCGAAACCGGCGGCCGCCCGCTGGGCATGGATTTCGACGCCGCCGGCAACCTGATCCTCGCCGACGCCTACAAGGGCCTGCTCAGCATCGACCCGCAAGGACAGATCAAGGTGCTCGCCACCGAAGCCGGCGGCGTTCCCTTCCGCTTCACCGACGATCTCGACATCGCCAGCGACGGGCGCATCTACTTCACCGACGCTTCCTCGAAATTCGAGCAACCCGACTACCTGCTGGACCTGCTCGAAGCCCGCCCCCACGGCCGCCTGCTGCGCCATGACCCGGCCACCGGCGTCACCGAGGTCCTGCTCGATGACCTGTACTTCGCCAATGGCGTCGCGCTCTCGGCTAACGAAGACTTCGTGCTGGTCAACGAAACCTACCGCTACCGCATCACCCGCTATTGGCTGAAAGGCGAGAAAGCCGGCCAGCACGATGTGTTCATCGACAACCTGCCGGGCCTGCCGGACAACCTCCAGGGCGATCGCGCCGGTACTTTCTGGGTGGCGCTGCCCAGCCCGCGCAAGAGCGACGCGGACTTCCTCCACCGCAACCCCTGGCTGAAAGCGCAACTGGCCAAGCTGCCGCGCGCGCTCTGGCCGAAAGCCGTCGCCTACGGACTGGTTATCGCCCTCGACGAGAACGGCAAGATCGTCCGCAGCCTGCACGACACCAGCGGCAGCCACCTGCGCCTGATCACCTCGGCCAAGCCGGTGGGCGGCTATCTCTACCTCGGCAGCCTGGAAAACGACCGTATCGGCAAGCTGAAGATTCATTGA	MKKLLGLVVVLIAAAALYLAVTPSPIDPLAWEAPTAPAMTGVLEPNDTLMKAELLGQGQIHGPEDTAVDTQGRVYAGLHNGRVVRIGTDGTVETFVETGGRPLGMDFDAAGNLILADAYKGLLSIDPQGQIKVLATEAGGVPFRFTDDLDIASDGRIYFTDASSKFEQPDYLLDLLEARPHGRLLRHDPATGVTEVLLDDLYFANGVALSANEDFVLVNETYRYRITRYWLKGEKAGQHDVFIDNLPGLPDNLQGDRAGTFWVALPSPRKSDADFLHRNPWLKAQLAKLPRALWPKAVAYGLVIALDENGKIVRSLHDTSGSHLRLITSAKPVGGYLYLGSLENDRIGKLKIH				NA	NA	NA	NA	NA
BMS010_09128	1128	rnd_3	COG0349	Ribonuclease D	GTGGCTATCGATATTCATTGGATCCGTGACGACGCCAGTCTGGCGCAGCGGTGCGCCGAGTGGCGGCACCTGTCTTTTGTGGCCCTCGATACGGAATTCATGCGGGTCGATACCTTCTATCCCATGGCCGGCTTGGTGCAGATCGGCGATGGAGACAGTGCTTATCTCATCGATCCGCTACTGATCCGCGACTGGAGCCCGTTCGCCGCCCTGCTGGAAGACCCGGCGGTGGTGAAGGTGCTTCATGCCTGCAGCGAAGACCTGGAAGTGTTGCTGCGCCTGACCGGTAGCCTGCCGGCGCCGCTGTTCGACACCCAGTTGGCGGCCGCCTACCTCAACCTGGGTTTTTCCATGGGCTATTCGCGGCTGGTCCAGGCCGTGTTGCAGATCGACCTGCCCAAGGACGAGACCCGTTCCGACTGGCTGCAGCGCCCGCTGACGGAAATGCAGGAGCGCTACGCCGCCGAGGACGCCAAGCACCTGGCCGAACTCTACGAAGCGTTGAATCCCCGCCTGTCCGACGAGAAACGCGCCTGGCTGCTGGAGGACGGTGCCGAACTGGTGGCCGGGCTGCGCCGGGAAGTCGACCCGGACGAGCTGTACCGCGAAGGCAAGCTGGCCTGGAAACTCTCCCGGGCCCAGCTCGGCGTACTGCGCGATCTCTACGCCTGGCGTGAGCGCGAGGCGCGCCGGCGCAACCTGCCGCGCAACCGCATCCTGCGGGAGCACACCCTGTGGCCGTTGGCCCGCTTCCAGCCGAGCGATCTGGTGGCCCTGGCGCGTATCGACGATATGCATCCGCGCACCGTGCGCCAGGATGGCGAAACCCTGCTGAAACTGATCAAGAGCGCCGCGGCACAGCCGCCTGAGGCCTGGCCCGAGGCGCTGCCGGAACCCCTGCCACTGGAGGCTTCGGCGCTGATGAAGCGGCTGCGTGCCGTCGGCCAGCGCGAGGCGGAGCGCCTGCAGATAGCGCCGGAACTGATGCTGCGCAAGAAAGTACTTGAGGCCCTGCTGAAGAGCGGCTATCCCAACGGTCCCTACCATCTGCCCGAATCGCTGCGCGGCTGGCGTCGCGAGCTGATGGGACAACAGCTGCTCGACACCCTGACCGGAGACCAGCCATGA	MAIDIHWIRDDASLAQRCAEWRHLSFVALDTEFMRVDTFYPMAGLVQIGDGDSAYLIDPLLIRDWSPFAALLEDPAVVKVLHACSEDLEVLLRLTGSLPAPLFDTQLAAAYLNLGFSMGYSRLVQAVLQIDLPKDETRSDWLQRPLTEMQERYAAEDAKHLAELYEALNPRLSDEKRAWLLEDGAELVAGLRREVDPDELYREGKLAWKLSRAQLGVLRDLYAWREREARRRNLPRNRILREHTLWPLARFQPSDLVALARIDDMHPRTVRQDGETLLKLIKSAAAQPPEAWPEALPEPLPLEASALMKRLRAVGQREAERLQIAPELMLRKKVLEALLKSGYPNGPYHLPESLRGWRRELMGQQLLDTLTGDQP				NA	NA	NA	NA	NA
BMS010_09129	294	ycgL	COG3100	Protein YcgL	ATGAAACGTATCTGCTCGATCTACAAGAGCCCGCGCAAGAACGAGATGTACCTCTATGTCGACAAACGCGAAGCGCTGAGCCGCGTGCCCGAAGGGCTGCTGGCGGCGTTCGGTCCGCCGCAGCACGCTTTCGACCTGCTGCTGACGCCGGAGCGCAAGCTGGCGCGGGAGGATATCGACAAGGTCCTGGCGAATATCGAGAACCAGGGCTATCACCTGCAAATGCCGCCGGCGGAAGAGGAATACATCGAGCACCTGCCGGAAGAACTGCTGCGCATGAACGATCCGGTCTGA	MKRICSIYKSPRKNEMYLYVDKREALSRVPEGLLAAFGPPQHAFDLLLTPERKLAREDIDKVLANIENQGYHLQMPPAEEEYIEHLPEELLRMNDPV				NA	NA	NA	NA	NA
BMS010_09130	933	ghrA_3		Glyoxylate/hydroxypyruvate reductase A	ATGTCCATTCTGATTGCCGAACACCAGCACGCCCTTTACCGCGATTTACTGGCGGCTGCCGCGCCTGATCTGGTGCTTCGCAGCAGCGCCGATCCCGAGGAGCTGGCCCGGCTGGCCGGGGACTGTCCGATCTGGCTGGGCTGTCCGGACCTGCTGGTGCCCCTGCTGCGGCAAGGGCTGAAGCCGGCGTGGCTGCAGTCCACCTGGGCCGGGATCACGCCGATGCTGGCGCCCGAGTTGCCGCGGGACTATCGCTTGAGCCGGGCGGTGGGAATCTTCGGTCAGGTGATGGCGGAGTATGTCCTGACCTACATTCTGGCCCATGAGCGGCAATTGCTGGCGCGTCTGGCCAGCCAGGTCGAGCGGTGCTGGGACAACCGCCTGCCGCATAGTCTGGCAGGGCGTCGGGTCCTGATCGTCGGCAGCGGCGACATCGGCCAGAGTGTCGCGCGTTTCCTCCAGCCTTTCGGCGTCGAGCTGCACGGCATCGCCCGTGAGCCGCGCCCGCTCGAGCCGTTCCGGGAAGTCGCCGGACTGCCGGAGCTGACCGGGCAGGCGGCACAGGCGGACTACCTGATCAATCTGCTGCCGGACACCCCGGCCACCCGCGATCTGTACGATGCCGCGCTGTTCGCCCAACTGAAGCCCAGCGCCTTGTTCATCAATGCCGGGCGAGGAGTGGCGGTGGTCGATGCCGATCTGGTCGCGGCGCTGGAAGAAGGCCGGCTGGCGGGCGCGGTGATCGATGTCTGTCGCGAAGAGCCGTTGCCGGCGGAGCATCCGTTCTGGAACGCGCCACGCCTGCTGCTCACCGGCCACAGTTCGGCGCCGACCCTGCCGAGGCCCATGGCGGAGCTGTTCCTCGACAACCTGCAGCGTTACCGCCGTGACGAGCCCTTGCGTGGCCAGGTGGATTTCCAGCGCGGCTATTGA	MSILIAEHQHALYRDLLAAAAPDLVLRSSADPEELARLAGDCPIWLGCPDLLVPLLRQGLKPAWLQSTWAGITPMLAPELPRDYRLSRAVGIFGQVMAEYVLTYILAHERQLLARLASQVERCWDNRLPHSLAGRRVLIVGSGDIGQSVARFLQPFGVELHGIAREPRPLEPFREVAGLPELTGQAAQADYLINLLPDTPATRDLYDAALFAQLKPSALFINAGRGVAVVDADLVAALEEGRLAGAVIDVCREEPLPAEHPFWNAPRLLLTGHSSAPTLPRPMAELFLDNLQRYRRDEPLRGQVDFQRGY				NA	NA	NA	NA	NA
BMS010_09131	450			hypothetical protein	ATGGCCGCCAAAGTCGAACCCTTCTGGAAACGCAAGACCCTCGCCCAGCTCGATCAGGATGAGTGGGAGTCGCTGTGCGACGGCTGCGGCCTGTGCTGCCTGCAGAAGCTCGAGGATGAGGACGACGGCAGCGTCTACTACACGCGCATCGCCTGCAAGCTGCTCGACCTCAAGACCTGCCGCTGCACCGACTACCCGAACCGTCGGCAGAGCGTGCCCGACTGCATCCAGCTCACTCCGGCCCAGGCCGACCAATTCCAGTGGTTGCCGCCGACCTGCGGTTATCGCCTGGTGGCCGAAGGCAAGGACCTGCTGCCCTGGCACCCGCTCGTCTGCGGCGACCCCGAGGCGGTGCACAAGGCCGGCATTTCCCAGTCCGGCAAGATGCTCAGCGAAAACAGCCTCTCCGAGGACGACTGGGAAGAGCATCTGATCTTTCGCGCCGGCTGA	MAAKVEPFWKRKTLAQLDQDEWESLCDGCGLCCLQKLEDEDDGSVYYTRIACKLLDLKTCRCTDYPNRRQSVPDCIQLTPAQADQFQWLPPTCGYRLVAEGKDLLPWHPLVCGDPEAVHKAGISQSGKMLSENSLSEDDWEEHLIFRAG	PGPT0009760_750	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI-1_ExpI|EsaI_PERCIPITATION|SIGNALLING|AHL|NAHL,PGPT0009760-ycgN-K09160	NA	NA
BMS010_09132	1230			hypothetical protein	ATGCCCGTTTGCCCGAAGTCCCTGCTGTCTGTCGTGTTGCTGGCACTGAGCAGCCCGTCGTGGGCGGCCAAGAAAGTCGATCTGGATTATCACGTGCGCTTTCTGCCCGAAAGCGACCAGGCCGAGGTCCGTCTGACCCTGGAACGTGGCGAGGCCGTCACCAGCCTCGATTTCGACTTGGGCAACAAGGGTTACTACAGCGATTTCCAGGCCGATGGCCAATGGCAGCCGAACGGCGACAGTCGCGGTGTCTGGTTGCCGGCGAAAGGCAAGGCCAGTCTCAGCTACCGGGTGAAGGTCAGTCATCCGCGGCAGGACGACCGCTTCGATGCCCGCATGACGGAAAACTGGGCCTTGCTGCGGGGTGACGATCTGGTGCCGAGCGCTCGCTTGAAGCAGCAGGACGGCATCGAGCTGGTCTCGCGCCTGACTTTCGAATTACCCAAGGGCTGGAAGAGCGTGGAAACCGGTTGGCCTCGCATCGGCAAGAACCGTTTCCGCATCCATAACCCGTCGCGCAAGTTCGATCGCCCGACCGGCTGGATGCTGGCCGGCAAGCTCGGCACCCGTCGGGCGCGGTTGGGCGATACCGAAATCGCCGTGGCGGCGCCGGTGGGCGAGGGCATGCGGCGGATGGATGTGCTGACCTTGCTCACCTTCGTCTGGCCTGAAGCCCAGGCGGTATTCCCGCGCGACCCGGACAAACTGCTGATCGTCGGCGCCGGCGACCCCATGTGGCGGGGCGGACTGTCGGCGGGCAACTCATTGTTCATGCATGCCGACCGACCGCTGGTGAGCGAGAACGGCACCAGTTCGCTGGTGCATGAACTGGTGCACGTGTTCAGCCGCATCTCGGACACCGATCGCAGCGACTGGATTACCGAAGGGCTGGCCGAGTACTACGCCATCGAACTGATGCGCCGCGCCGGCGGGCTGGGCGAGGACCGTTACCAGAAGGTCCGCGAGCATCTGATCAAATGGAGCCGCGATGTGAAGAGCCTGCGCGGCGAGAACGCCACCGGTCCGGTCACCGCCCGCGCGGTACTGCTGTTGCAGGACCTGGACCGGGAAATCCGCCAGCGTACCCGGGAACGTGGCGAGCGCTCCTTGGATGATGTCACCCGTGGCCTGATGCGCCTGGACAAGGCCAGCACCAAGGACTTCATCGAGATCAGCGAAAACGTCATGGGGGCGCCGTCCAAGGTGCTCGATACGCGTCTGCTTCGCTGA	MPVCPKSLLSVVLLALSSPSWAAKKVDLDYHVRFLPESDQAEVRLTLERGEAVTSLDFDLGNKGYYSDFQADGQWQPNGDSRGVWLPAKGKASLSYRVKVSHPRQDDRFDARMTENWALLRGDDLVPSARLKQQDGIELVSRLTFELPKGWKSVETGWPRIGKNRFRIHNPSRKFDRPTGWMLAGKLGTRRARLGDTEIAVAAPVGEGMRRMDVLTLLTFVWPEAQAVFPRDPDKLLIVGAGDPMWRGGLSAGNSLFMHADRPLVSENGTSSLVHELVHVFSRISDTDRSDWITEGLAEYYAIELMRRAGGLGEDRYQKVREHLIKWSRDVKSLRGENATGPVTARAVLLLQDLDREIRQRTRERGERSLDDVTRGLMRLDKASTKDFIEISENVMGAPSKVLDTRLLR				NA	NA	NA	NA	NA
BMS010_09133	354			hypothetical protein	ATGAAGACTTCGAGCCTGCCCGGCCAACGGCATACCTTCGAACCCAACGTGCATGGCTGGGAGCGCACCGCGTCGATCGCCGGCGGGCTGGTCCTGCTCGGCAAGGGATTGCGCAAAGGCGGTATCGTGGGAATGGTGCAGGCGGCCATGGGCGGCATGACGCTGCTACGCGGGCTGACCGGCCGCTGCGCCGTGAAACGCGCCATCAGCGAGGCACGCGATCACCTGCACGACGCGCAACTGGACGTCCGGGGAAGCGACCTGGGTGCCTTGCAGAGCAGCGCCGAAGCCGCCACCTCCACCGCCACGGTGACCGGCAACGATTCGCTGACCAGCCCGCGCGCCGGCCTCTGA	MKTSSLPGQRHTFEPNVHGWERTASIAGGLVLLGKGLRKGGIVGMVQAAMGGMTLLRGLTGRCAVKRAISEARDHLHDAQLDVRGSDLGALQSSAEAATSTATVTGNDSLTSPRAGL				NA	NA	NA	NA	NA
BMS010_09134	513			hypothetical protein	ATGGATGACATCGTTCTACGCGATTGGCATGAGCTGTCGGCACGCCAGCGCCTCGCCGTTACCGAACTGCGGATCGACAATGAACAACAAACCTTTGCCGGGCGAATCGATGATGCCATCCGCGCCTGCGAACAGGCGGCGCCCTGTCATTTGCGTGGACTCGCCGTCCTGCACAACGAGCGCCCGGTAGGTTTCCTGCTGCTCAAACGTCCGCCGTTATCGCCTGCCTGGGCACCGGACGACGTGATCACCCTGCATGCGCTGCAGATCGACCTGAGCCATCAAGGTCGCGGATACGGCCGGTCGGCTCTGGCGGCGCTGCCCAGCCTCGCCATGCGCGCATGGCCACAGGCGCGATGCCTGGCTCTCTCGGTGGACGCCCATAACGCTGCGGCCATGGCTCTTTATGTCCGCAGTGGCTGGCTGGATAGCGGGCAGACGTACCAGGGGCGCCTAGGCCTCGAGCGGCGCTTCAACCTTCCTCTCTTTTCGGGAGCGCACCAGCCATCGTGA	MDDIVLRDWHELSARQRLAVTELRIDNEQQTFAGRIDDAIRACEQAAPCHLRGLAVLHNERPVGFLLLKRPPLSPAWAPDDVITLHALQIDLSHQGRGYGRSALAALPSLAMRAWPQARCLALSVDAHNAAAMALYVRSGWLDSGQTYQGRLGLERRFNLPLFSGAHQPS				NA	NA	NA	NA	NA
BMS010_09135	873			hypothetical protein	ATGTTTTCACGCTATCTGCGAGGGCTTGGGCCGCTGGAGGTGATCAAGCGCAGCGTCAAGGACTTCATCGACGACGAAATGCCGACCTATTCGGCCGCACTGGCGTTCCAGATGTTCTTCTCGCTGTTCCCGTTCCTGATCTTCCTGATCGCCCTGCTGAGCTTCCTCGATCTGCAGAACTTCTTCGAGTGGCTGCGCCAGCAGGCGGCCCTGTTGCTGCCGCAGCAGGCCATGGATGAGGTGAACGCGGCCATCGACAAGATCATGGAACAGAAGAGTGGACTGTTCTCGATGGCGATCATCGTAGCGTTGTGGACGGCCTCGTCCGGGGTGCGCTCGGCCATGGACGCGATGAACAAGGCCTATGACGTGGAGGAGGGGCGGCCGGCCTGGAAGCGTTTTCCCTTGTCGATCGTCTATACCGTCGGCATCGCCCTGATGCTGCTGATGGCGGCGGGCTTCATGATCATCGGGCCGGAGGTGATGAACTGGCTGGCCCACTACCTGGGGCTGGAGCAATTGATGGTGGTGATCTGGGCCTGGGTGCGCTGGCCCGTGGCGGTTTTCCTGCTGATCATGGCCCTGGCCCTGGTCTATTACGTGGTGCCTGATGTAAAGCAGCGCTTCCGCTTCATCACGCCGGGCTCGGTGCTGGCGGTGCTGGTGTGGATCGTGGCATCGCTGGGGTTCGGCTTCTACGTGAAGAACTTCGGCAAGTACGACGCCATGTACGGCAGCATCGGCGCGATCATCGTCCTGCTGCTGTACTTCTACATTTCCGCCGCAGTGCTGCTGATGGGGGCGGAACTGAACGCGGTGATCGAGCATCACCATCCCGAGGGCAAGGACCCGGGAGAAAAAACGCCGCCCTGA	MFSRYLRGLGPLEVIKRSVKDFIDDEMPTYSAALAFQMFFSLFPFLIFLIALLSFLDLQNFFEWLRQQAALLLPQQAMDEVNAAIDKIMEQKSGLFSMAIIVALWTASSGVRSAMDAMNKAYDVEEGRPAWKRFPLSIVYTVGIALMLLMAAGFMIIGPEVMNWLAHYLGLEQLMVVIWAWVRWPVAVFLLIMALALVYYVVPDVKQRFRFITPGSVLAVLVWIVASLGFGFYVKNFGKYDAMYGSIGAIIVLLLYFYISAAVLLMGAELNAVIEHHHPEGKDPGEKTPP	PGPT0014525_5996	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014525-yfkH-K07058	NA	NA
BMS010_09136	2031	ptrB	COG1770	Protease 2	ATGCAAGCACCCATCGCCCGTATCGACAACGACAGCCACGATCCCTACCGCTGGCTGGAGAACCGCGACAGCGACGAGGTGCTCGACTACCTCAGGGCCGAAAATGCCTACCTCGATACCGTTCTCGCGGACCAGACCGAACTGCGCGAAACGCTGTTCCAGGAAATCAAGGGCCGCATCCGCGAGACCGACCTGTCCCTGCCTTCGCCCTGGGGACCTTACCTGTACTACCAACGCACCACCGCGGGCGACGAGTACCCGCGCCACTATCGTTGCCCACGCCCGGCGGACGGCTCGCTGACGGTCGACGAAAGCCGCGAGGAACTGCTGCTCGACCCCAATGCCCTGGCCAATGGCGGCTACCTGTCCCTCGGCGCCTTCACCATCACCCGCGACCACAACCGCCTCGCCTACAGCCTGGACACCAACGGCGACGAGATCTACCGGCTGTTCGTCAAGGACCTGCGCAGCGGCGACGTCGAGGAGCTGCCCTTCGATGACTGCGACGGCAGCATGACTTGGGCCAACGACCACCAGACGCTGTTCTTCGGCGAGCTGGATGACACCCACCGGCCGCACAAGCTGTACCGCTACCGCCTCGGCGAGCGGGAGGCGGAGCTGGTCTTCAACGAGCCGGACGGACGCTTTTTCATTCACTGCTACCGCTCCAGTTCCGAGCGCAAACTGATCCTGCTGAGCAACAGCAAGACCACCTGCGAAGCCTGGGTCCTCGATGCCGACCGGCCGCACGACGCCTTCGTCTGCCTGGCACCACGCGAAGATGGCCACGAGTACTACCCCGACCACGGCCGCCAGGGCGGCGACTGGGCCTGGCTGATCCGCAGCAACCAGGCCGGTATCAACTTCGCCCTTTATCGCGCCGCCGAAGAAACCCCGAGCCGCGAGCACTGGCAGACGCTGGTTCCGCACAGCGACACGGTGACCATGGAGAGCCTCAGCCTCAACGCCGAAGCCCTGACCCTGAGCCTGCGCGAAGGCGGTTTGCCGATCATCGAAGTCCATCCACAGGGTGCCCCTGCCTACCGCGTACAGCTTCCCGACGCCGCCTACAGCCTGCACGTCCAGGACACCCTGGAATTCGAAAGCGCAGTCATCCGCCTGCGCTACGAAGCGCTCAACCGGCCGGCGCAGATTCGCCAGTTGGCCCTCGCCAATGGCGAACAACAGGTGCTCAAGGAGACCCCGGTGGAAGGACCGTTCGACGCCGATGCCTATGTCAGCCAACGGCTCTGGGCGACGGCAGGGGACGGCACGCGGATTCCCATCAGCCTGGTCGCCCGCCGCGATACCCTGGGACAGCCCGCGCCGCTGTACCTGTACGGCTACGGTGCCTATGGCGAGAGCCTCGACCCCTGGTTCTCCCATGCCCGCCTGAGCCTGCTGGAGCGCGGTTTCGTCTTCGCCGTCGCCCATGTGCGCGGCGGCGGCGAACTGGGCGAAGCCTGGTACCGGGCCGGCAAGCTGGAACACAAGCAGAACACCTTCGGCGACTTCATCGCCTGCGCGGAATTCCTCGTTGCCGAGGGCTACACCACGCCCGCGCAGTTGGCCATCAGCGGCGGCAGCGCCGGCGGCCTGCTGATCGGCGCGGTGCTCAACCAGCGGTCCGACCTGTTCGCTGCGGCCATTGCCGAAGTGCCCTTCGTCGATGTGCTGAACAGCATGCAGAACCCCGACCTGCCGCTGACGATCGCCGAGTACGAGGAATGGGGCGATCCGCGCGAGCCGGACGTCTACGAGCGGATCAAGGGCTACGCCCCTTACGAGAACGTCCGGGCCCAGGCCTACCCCGCCATTCTCGCGGTGGCCGGCTACCACGACAGCCGCGTGCAATATTGGGAAGCGGCGAAATGGGTAGCCAAGCTGCGCGCCCACAAGACCGACGACAATCTCCTCCTGCTGAAGACCGACCTCGGCGCGGGCCACGGCGGCATGAGCGGACGTTACCAGGCGCTGCGCGACGTCGCCCTGGAATACGGTTTCCTGCTCAAGGTGCTCGGACGGGAATGA	MQAPIARIDNDSHDPYRWLENRDSDEVLDYLRAENAYLDTVLADQTELRETLFQEIKGRIRETDLSLPSPWGPYLYYQRTTAGDEYPRHYRCPRPADGSLTVDESREELLLDPNALANGGYLSLGAFTITRDHNRLAYSLDTNGDEIYRLFVKDLRSGDVEELPFDDCDGSMTWANDHQTLFFGELDDTHRPHKLYRYRLGEREAELVFNEPDGRFFIHCYRSSSERKLILLSNSKTTCEAWVLDADRPHDAFVCLAPREDGHEYYPDHGRQGGDWAWLIRSNQAGINFALYRAAEETPSREHWQTLVPHSDTVTMESLSLNAEALTLSLREGGLPIIEVHPQGAPAYRVQLPDAAYSLHVQDTLEFESAVIRLRYEALNRPAQIRQLALANGEQQVLKETPVEGPFDADAYVSQRLWATAGDGTRIPISLVARRDTLGQPAPLYLYGYGAYGESLDPWFSHARLSLLERGFVFAVAHVRGGGELGEAWYRAGKLEHKQNTFGDFIACAEFLVAEGYTTPAQLAISGGSAGGLLIGAVLNQRSDLFAAAIAEVPFVDVLNSMQNPDLPLTIAEYEEWGDPREPDVYERIKGYAPYENVRAQAYPAILAVAGYHDSRVQYWEAAKWVAKLRAHKTDDNLLLLKTDLGAGHGGMSGRYQALRDVALEYGFLLKVLGRE	PGPT0020980_2217	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020980-ptrB-K01354	NA	NA
BMS010_09137	474			hypothetical protein	ATGATCGAGAACGACTACACACTTGCCTGGGCCGCCTACGGAGTCGCTGCGTTGGGCTGTCTCCTGGTCTGGTTCCGTCTCACCGGCTGGATGTGGCGATGGTTGCGCGAGCCGCTGTGGCTGATCGGGGCGGTGCTGCTGCTGACCCCGACCATCGTCGAGCCGACCAAGGAGTTGTATGCGCCGGCGGTTGCGGTGCTCGCGCTGGACCTGCTGTTCAAAGTAGGCAACAACGCTTGGTATGCGGTTTCCGACCTGGCGATATTCGGTATGGTCGCGTTCGCCTGCTACCTGCTGCTGGTGGCCCTGCGCTGGCCGCTGGAGCGTTGGTTGAAAGGACGTCGCCAACCGGCACCGGCCGACGAGGACGAGCCGACCCTGCGCGAGATGATGAGCCGCGACGGTGCCGACGACGCGGATGTGCGCTACGACCGCAACGGCGACCGTCGGATGCGTTTGGAGCCCAAGCTGTAA	MIENDYTLAWAAYGVAALGCLLVWFRLTGWMWRWLREPLWLIGAVLLLTPTIVEPTKELYAPAVAVLALDLLFKVGNNAWYAVSDLAIFGMVAFACYLLLVALRWPLERWLKGRRQPAPADEDEPTLREMMSRDGADDADVRYDRNGDRRMRLEPKL				NA	NA	NA	NA	NA
BMS010_09138	447			hypothetical protein	ATGAATTGCCCTTTCTGCGCTATCGCCGCCGGTCAGTTGCCCGCCCACCTGCTGCATGAGGACGAGCACTTCCTGGTCATTCTCGATATTTACCCGATACGCCCGGCCCATGTGCTGCTCGTCAGCCGCGAGCATGCGCCGCACCTGAGCGATCTCCCCCTGCCGGCGCGTGAGCGCCTGGTGGCGCTGGCGGAGCGAGTCCAGCGGGCGCTGCGGGCCTGCGGCCATGGGCGCGACGGGATCAACATCATGATCAACGACGGGCCGGCCTCCAATCAGCATGTCCCGCATTTCCATCTGCACCTGGTGCCGCGCCGGCTGGGCGATCTGCCCTGGTTGCTGTGGCGCATGCTGACGCGCTTCCTGCCGCTGGGCCGGAAAACCCTCCAGCGCCGCCTGGAAGGCGAGGCCGACGCCCTGCGCCAGGCGCTGCAACGCGAGGCCTGA	MNCPFCAIAAGQLPAHLLHEDEHFLVILDIYPIRPAHVLLVSREHAPHLSDLPLPARERLVALAERVQRALRACGHGRDGINIMINDGPASNQHVPHFHLHLVPRRLGDLPWLLWRMLTRFLPLGRKTLQRRLEGEADALRQALQREA				NA	NA	NA	NA	NA
BMS010_09139	804	yafJ	COG0121	Putative glutamine amidotransferase YafJ	ATGTGCGAACTGCTTGGCATGAGCGCCAACGTACCCACCGATATCGTGTTCAGCTTCACCGGGCTGATGCAGCGTGGCGGCCGTACCGGCCCGCATCGGGATGGCTGGGGCATCGCCTTCTACGAAGGCAAGGGGCTGCGCCTGTTCCAGGACCCGGCGGCCAGCGCCGAGTCGGAAGTCGCCCGGCTGGTGCAGCGCTATCCGATCAAGAGCGAAGTGGTGATCGGGCATATCCGCCAGGCCAACGTCGGGCGCGTCTGTCTGGCCAATACCCATCCTTTCATCCGCGAGCTGTGGGGGCGCAACTGGTGTTTCGCCCATAACGGCCAGTTGGCGGGGCTGGACACCACGCCGGGGTTCTACCGGCCGGTGGGGGATACCGACAGTGAGGCGGCCTTCTGCGACCTGCTCAACCGGATTCGTTCGACCTTTCCCGAGCCGGTACCGGTCGAGGCGCTGTTGCCGACGCTGGTCGAGGCCTGTGCCGACTATCGCCGCAAAGGCGTATTCAACTGCCTGCTGAGCGATGGCGACTGGCTGTTCAGCTTCTGCACCACCAAGCTGGCACACATCACCCGGCGCGCGCCGTTCGGGCCGGCCCGGCTCAAGGATGCCGAACTCACCGTGGACTTCCAGGCGGAGACCACGCCGAACGACGTGGTCACGGTGCTGGCCACCGAACCGCTGACCACCAACGAAACCTGGTCCCTCTACCAGCCCGGCGACTGGAGTCTGTGGCGCAACGGCGAAGGCATCGCCCAGGGGCGGCGCGAGCCGGATGCCATTTCCGAGACGACACCATAA	MCELLGMSANVPTDIVFSFTGLMQRGGRTGPHRDGWGIAFYEGKGLRLFQDPAASAESEVARLVQRYPIKSEVVIGHIRQANVGRVCLANTHPFIRELWGRNWCFAHNGQLAGLDTTPGFYRPVGDTDSEAAFCDLLNRIRSTFPEPVPVEALLPTLVEACADYRRKGVFNCLLSDGDWLFSFCTTKLAHITRRAPFGPARLKDAELTVDFQAETTPNDVVTVLATEPLTTNETWSLYQPGDWSLWRNGEGIAQGRREPDAISETTP				NA	NA	NA	NA	NA
BMS010_09140	525			hypothetical protein	ATGCTGCGAAGCTATCTGCGTCTGCTGCTGTTCGGCCTGGGGCTGCTGGTCGGGGTCCAGGTGCCGGGATTCATCGATGACTATGCCAAGCGGGTGGAGGCACACCGGCTGGAAGCGCAGCAGGGGTTGAGCGGGTTCGAGGAAACGGCGCGGCGTTTTTTCAATGGTGATCTGAACGCGCTGGTGGCCCATTACCAAGCCAGCGACGATCCGGTTTTCCGCAACGATGCGCAGAGCATCGGGCGGCTGGTGGAGCGGGTCCGGTTGCTGGACCGCGAATGGCAGGTCATGCAAGGGCCTTGGTATGCGCAGGCCTGGCATGTGCTGGTCGATGCGGATCGCGCACTGCTCGACGAAACCTATCGGGCCTATCGCTATCAGGTTTTGCTGGCGCCGCAAGCCATCGCCTGGGGGCTGGGGTGCGCCTTGTTGTTGGCCTGGCTGGTGGAAAGCCTGGTCCTGCTGCTGGCCATGCCCTTTTCCATGGGGCGCAGCAAACAGGTGCAGCAGCGACATTGGCGCTGA	MLRSYLRLLLFGLGLLVGVQVPGFIDDYAKRVEAHRLEAQQGLSGFEETARRFFNGDLNALVAHYQASDDPVFRNDAQSIGRLVERVRLLDREWQVMQGPWYAQAWHVLVDADRALLDETYRAYRYQVLLAPQAIAWGLGCALLLAWLVESLVLLLAMPFSMGRSKQVQQRHWR				NA	NA	NA	NA	NA
BMS010_09141	1425	hisC_10		Histidinol-phosphate aminotransferase	ATGGCTGTCAAACCAATTATTGACACGGTGTCAATACTGCAGAGCGCTCTGGAATCCGGGCTGGGTGCCAAGTACAAGAAGCTCGCCGAAGCACTGGAAGTGAAGATTCTCGACGGCACCATCGAAGCCGGTGCCAAGCTGCCGCCCCATCGCGCACTCGCCGACCGCCTGGGCATCACCATCGGCACGGTGAGCCGGGTCTATGCGGAACTGGAGCGGATGGGCCTGGTGGTGGCGCGGGTCGGCGACGGTACCTTCGTCCGCCGGCGCGGGCTGGAACGCAAGCGCGACGAGGGTTTCCGCAACTTCATCGATGAGCCCCAGCAGTACTACGACATGAGCCGGAACATGCACATTCCGGGGCACGAGATCGACTACCTGTCCGAAAGCCTGATGGCCTTCGCCAGCGACCCGAAGACCCTCCAGGACCTGACGCTGTACACGCCGGACGTGGGCCTGCCGCGCTATCGCATGGCCGGCGCGCGGTGGCTCGGCCACGACAGCTTCGAGCCCCAGGCCGACCAGGTCATCTGCACCAACGGCGGCCAGCATGGCCTGCTGTGCGCCCTGCTCGCCCTGCTCCGCGCCGGTGACACCATTGCCACCGAACAATTGACCTATCCGGGGTTGATCACTGCGGCGCGCTTCCTGGGGATCAAGATTCTCGGCGTGGACATGGACGAACAGGGCATTATTCCCGCCGCCCTGGAGGAGTTGTGCCGCAGCAACCGGATCTCCGCGCTGTATTGCACCCCGACCATCCAGAACCCGACCACCGCCGTGCTGTCACCTCAGCGTCGCGAGGAACTGGCCCGCGTCTGCCGGGACAACAACCTGCTGATCATCGAAGACGAAGCCCACGGCGTGCTGGTGGAAGACCGCCCGTTGCCGCTGACCTGTCATGCTCCGGAACGGACCATCCTCATCAGCAGCCTGAGCAAGGCGGTGGCAGCGGGATTGCGGGTCGGCTACCTGCATGCGCCGAATTCGCTACAGAGCCGGCTGGCAGCCTCGTTGCGGGCGACCTGCTGGATGGCTACGCCCCTGGCCCTGGAACTTGCCACCCACTGGATCGACGACGGTACCGCCGACAGGCTGCGCCGCCAGCAGGTGCACGAAATCAGCCGACGCAAGTCACTGGTGGAAGGCCTGTTGTTCGGCCTGAACTACCGCACCCACCCGCAGAGCCCGCACTTCTGGATCGAAGTACCCGAGCCCTGGCGCGCCTCGGAGATCGAAGCCGATCTGAAGCAGAAGAACTACCTGATCACCGCCGCCGAAGCCTTCGCCGTCGGCCGCAGTGCCGTACCGCAGTATGTGCGCGCCAGCGTCAGCAATGCCTCCAGCAACGATCAGCTGTTGAGCGACGGCTTCCAGGCCCTGGCCAAGACGCTGAAGGAAGAAGCCGGCCAGTTCGCCATGTGA	MAVKPIIDTVSILQSALESGLGAKYKKLAEALEVKILDGTIEAGAKLPPHRALADRLGITIGTVSRVYAELERMGLVVARVGDGTFVRRRGLERKRDEGFRNFIDEPQQYYDMSRNMHIPGHEIDYLSESLMAFASDPKTLQDLTLYTPDVGLPRYRMAGARWLGHDSFEPQADQVICTNGGQHGLLCALLALLRAGDTIATEQLTYPGLITAARFLGIKILGVDMDEQGIIPAALEELCRSNRISALYCTPTIQNPTTAVLSPQRREELARVCRDNNLLIIEDEAHGVLVEDRPLPLTCHAPERTILISSLSKAVAAGLRVGYLHAPNSLQSRLAASLRATCWMATPLALELATHWIDDGTADRLRRQQVHEISRRKSLVEGLLFGLNYRTHPQSPHFWIEVPEPWRASEIEADLKQKNYLITAAEAFAVGRSAVPQYVRASVSNASSNDQLLSDGFQALAKTLKEEAGQFAM				NA	NA	NA	NA	NA
BMS010_09142	960			hypothetical protein	ATGCCAATGTCCGCTGTAATTGGGAACACTGAGAAAACTCAGAATTTGTGGTTAGCAAAACTGATTACAGCGGCATTGTTTCTGGTGGTTTGCCTGAGTTGGGGAACGACTTGGCTGGGTATCAAGGTGGCGGTGGAAAGTGTGCCGCCGCTGACGTCGGCGGGATTGCGCTTCTTGATCGCGTTTCCGCTGTTCCTGATTTTCGCGCTGGTGCGCCAGGACCCGATCTTCTTTCCGCGCAAGCAAACCGGGTTCTTCGTGTTCGTGACGCTGACGTATTTCAGCATTCCCTATTACCTGCTCAATTACGGCGAACAGCACGTTTCTTCCGGATTGACCGCATTGCTGTTCAGCAGCATGCCGGTGTTCATCCTGATCTTCTCGTCGATGTTCCTGAAAGAGCGGATCTACACCTCGCAGATGGTTGGTATCGCCATCGGTTTCGCCAGCCTCTTCATGATCATCAAGACCCAGGGGTTGCACCTGGGGCATACCGGTATCTTCGGCGTGGCGGCGATCCTGGTGGCGGCGATCATGCATGGCTTCTGCTACGTGATCACCAAGCAGAGGGGCTCGGCGATCAGCGTGCTCACCTACAACACCCTGCCGATCGGCGTGGCCGGATTCCTGCTGTTCGTCAGCGGCCTGTGGCTCGAAAGCCCGGACCTGGGCGCGGTGACCCTGCGCTCCTGGACAGCCCTGGCCTACCTGGGCGTCATCGCATCGGTGGGCGGCTTCATCGCCTACTTCATCCTGCTGAAGCGGCTCAGCCCGGTCATTCTGTCCTTCGTTTTCATCATCTTCCCGGTGTTCGCGGTGATCTTCGGCTCCTGGTACGAAGGGCAGCCCATCTCGTCGGACCTGGCCACCTATTCCGCAATCCTTCTCGCGGGTTTCGCCATCACCAAACTACCGGTGGAAAAGTTGCTGTCGAAAAATGCCAAGGAGCATTTGGGTTAA	MPMSAVIGNTEKTQNLWLAKLITAALFLVVCLSWGTTWLGIKVAVESVPPLTSAGLRFLIAFPLFLIFALVRQDPIFFPRKQTGFFVFVTLTYFSIPYYLLNYGEQHVSSGLTALLFSSMPVFILIFSSMFLKERIYTSQMVGIAIGFASLFMIIKTQGLHLGHTGIFGVAAILVAAIMHGFCYVITKQRGSAISVLTYNTLPIGVAGFLLFVSGLWLESPDLGAVTLRSWTALAYLGVIASVGGFIAYFILLKRLSPVILSFVFIIFPVFAVIFGSWYEGQPISSDLATYSAILLAGFAITKLPVEKLLSKNAKEHLG				NA	NA	NA	NA	NA
BMS010_09143	438			hypothetical protein	ATGGACTTTCTGAATAAAGAAAATCTCGAACGAATTTATCGCCATGCATCCCGTGCCTATCCCGAGGAATGTTGTGGATTCGTCTTCGCCAATGGCGGCGTGCATGAGGGAATGAATATTCAGAACGAACTGAATGCGCGCGATCCCGACATTTATCAGCGCACGGCGAGTACCGGTTACACCTTTTCGGTGTCTGACACGCTGATGCTGAACAAGAGTTTCCGCAGCGATAACCCGGTGACCATCATCTACCACTCGCACCCGGACGTCGGCGCCTACTTCAGTAAAGAGGACGAAGACAAGGCGCTGTTTCTCGGGCAGCCCATCTACCCGGTGAAGTACCTGGTGGTGGATGTCCGCGAGGCCCGGCCTTGCGGCGCCAAATTGTTCGAGTGGGCGAATGGCGGCTTTGTCTGTAGCCAGGAATTTTCTTGCTGA	MDFLNKENLERIYRHASRAYPEECCGFVFANGGVHEGMNIQNELNARDPDIYQRTASTGYTFSVSDTLMLNKSFRSDNPVTIIYHSHPDVGAYFSKEDEDKALFLGQPIYPVKYLVVDVREARPCGAKLFEWANGGFVCSQEFSC				NA	NA	NA	NA	NA
BMS010_09144	1416	moeZ_2	COG0476	putative adenylyltransferase/sulfurtransferase MoeZ	ATGAAGACGGTGATTTTTCCGGAAGTGCTGGCACGCGTAGCCAAGCTCCCGGGAACGGCCATTCCGGCCGAGGGGCGCACCCTGCGCGAGCTGGTCAACGCCATCTGTGAACGCCATGCCGAGCTGCGCGCTCATCTTTTCTACCAGAACGACAGTTTCAAGGAGCACTTCCTGCTGACCGCCAACGGTGGGCTGGTCGATCCGGACAGCGAGCTGCCGGAGGGCTGCGAAGTGGACATCATGCTGGCGACGTCCGGTGGGCTGGATGTGGACCAGTTGTCCAACGAGGAAATCAAACGCTACGTCCGCCATATCACCTTGCCGAACGTCGGCCGGGAAGGGCAGTTGCGCCTGAAGAAGGCCCGCGTGCTGATGATCGGCACCGGCGGGCTGGGTTCGCCGATTTCCCTGTACCTGGCGGCCGCCGGAGTCGGCACCCTGGGCCTGATCGATTTCGACGTGGTCGAGTCGAGCAACCTGCAGCGGCAGATCGTCCATGGCACCAGCACCCTGGGTTTGCCCAAGGTGGAGTCGGCGAAGCGGCGGCTGCTGGACATCAACCCGGACATCCGGGTGATCCCCTACAATTGCGCACTGAATGCCGATAACGCCTTGCCGCTGATCGCCGAATACGATCTGGTGGTGGACGGCTCGGACAATTTCGCCACCCGCTACCTGATCAACGATGCCTGCGTGATGCTGGAAAAGCCCTTCGTGTACGGGGCGATCTACCGGTTCGACGGGCAGATCAGTGTATTCAACCACCAGGACGGGCCTTGCTACCGCTGCCTGTTCCCCAAGAGCCCACCTCCCGAGCTGGCGCCGAATTGCAGCGCCGGCGGGGTCATCGGTGTGCTGCCCGGCGTGGTCGGCATGATCCAGGCCACCGAGGCGGTCAAGCTCATCCTCGGCATCGGCGAGCCGTTGTCCGGCCGCCTGATGCGTTTCGATGCGCTGTCCATGCGCTTCAATGAAATCCGTTTCGCCAAGCGCGCCGATTGCCCGGCCTGTTCGGCGAACCCCAGCATCACCTCGTTGCGCGAAGAGCAGCAGGTCTGCGCCAGCAGCCTGCCTTCGCAGCCGCTGCTGGCGGCGGACGCCTACATCGAACCCAAGGCCCTGCAGCGGATTCTCCATGAGCACCGCGAAGACGCCGTGCTGCTGGACGTGCGGGACGCCAACGAATGCGAGGTCTGTGCCCTGGAGGGATCGCTGAACATCCCGCTGAGCGAGCTGGACCAACGCCTCGACGAACTGGACAAGGACAAGACCTACTACGTGGTCTGCTATGGCGGCAGCCGGGCGGAGCGCGCTGCGAGCAGGATGCTGGAGGCATCCATCGGCAACACCTTCGTGCTGGAGGGCGGGATCAAGCGTTGGGTGAGGGATGTCGATCCCTCGATGCCCATCTACTGA	MKTVIFPEVLARVAKLPGTAIPAEGRTLRELVNAICERHAELRAHLFYQNDSFKEHFLLTANGGLVDPDSELPEGCEVDIMLATSGGLDVDQLSNEEIKRYVRHITLPNVGREGQLRLKKARVLMIGTGGLGSPISLYLAAAGVGTLGLIDFDVVESSNLQRQIVHGTSTLGLPKVESAKRRLLDINPDIRVIPYNCALNADNALPLIAEYDLVVDGSDNFATRYLINDACVMLEKPFVYGAIYRFDGQISVFNHQDGPCYRCLFPKSPPPELAPNCSAGGVIGVLPGVVGMIQATEAVKLILGIGEPLSGRLMRFDALSMRFNEIRFAKRADCPACSANPSITSLREEQQVCASSLPSQPLLAADAYIEPKALQRILHEHREDAVLLDVRDANECEVCALEGSLNIPLSELDQRLDELDKDKTYYVVCYGGSRAERAASRMLEASIGNTFVLEGGIKRWVRDVDPSMPIY				NA	NA	NA	NA	NA
BMS010_09145	915	cysK_2		Cysteine synthase	ATGATCTACAACTCCTTGCTCCAGGCCATCGGCCAGACCCCCATCGTACGCCTCGGTGCGTTCTCCGAAGAAGTGGGGCTGAATGTCTTCGCCAAGCTGGAGTCGCTCAACCCCGGCGGCAGCCACAAGGTGCGCATCGCTCTGGGCATGATTCAGGATGCCGAGCGCAAGGGCATCCTGGTGCGCGGCAAGCGCCAGACCATCATCGAGCCCAGCGGCGGCAACACTGGCATCGGCCTGGCCATCGCCGGCAACATCCTCGGCTACCGGGTGGTACTGGTGATTCCGGACAACTACAGCCCAGAGAAACAAAAGCTGCTCAAGCTCTACGGTGCCGAGGTGGTGCTGTCGGACAGCCGCCTGGGCAACAACTCCCACGGCCAGAAGGCCATGGAGATGCAACTGGAGAACCCCGAGTATGTGATGCTCAACCAGCAGCGCAACGGGGCCAATCCGGAAACCCATCGGCAAACCACGGCCAAGGAGATCATCCGTTCCTTCGGCGAGAAGAGCATCGACTATTTCGTCGGCGGCATCGGCACCGGTGGGCACATCACCGGTATCGGCGAGACGCTGAAGGCGCGTTGGCCGGACCTGCGGGTGTTCGGCGTGGAGCCGGAGGAGTGTGACCTGCTCAACGATCGTCACGCCCCGCATGAGATTCAGGGGCTGTCGGTGGGCATCGTACCGAGCATCCTCAACGTCTCGATTCTCGACGGCATGCTGAAAGTCTCCAAGGCCGAATGCGTCGAACGGGTGCGCACCACCATGCGCAGCGATGCCATCAGCCTGGGGATATCGTCCGCGGCCAACCTGGTGGCCATCGCCAAGCTGGCCCAGGAAATAAAAAAGGATGCGGTCGTCCTGACCGTCATCTACGACTCGGTGGATTCCTATCTGTCCTACTTCAGCTGA	MIYNSLLQAIGQTPIVRLGAFSEEVGLNVFAKLESLNPGGSHKVRIALGMIQDAERKGILVRGKRQTIIEPSGGNTGIGLAIAGNILGYRVVLVIPDNYSPEKQKLLKLYGAEVVLSDSRLGNNSHGQKAMEMQLENPEYVMLNQQRNGANPETHRQTTAKEIIRSFGEKSIDYFVGGIGTGGHITGIGETLKARWPDLRVFGVEPEECDLLNDRHAPHEIQGLSVGIVPSILNVSILDGMLKVSKAECVERVRTTMRSDAISLGISSAANLVAIAKLAQEIKKDAVVLTVIYDSVDSYLSYFS	PGPT0002810_5981	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0002810-cysK-K01738	NA	NA
BMS010_09146	999	lpxD_2		UDP-3-O-(3-hydroxymyristoyl)glucosamine N-acyltransferase	ATGTGGAGTTTTCTGCACAAGATTCACGTGCACGACAGGCTGCTCGACCATCTGGTCGATGCGTTGGATTTCGCTGAGGTGGAGCGTCTGTTCGGGCACCTCGACGGCATTCTGAAGGAGGCGGTGAGCCGCGTCTCCGAGGATCTCGAAGCCTATGCCTCGCGCGATCCGGCATCGGCCGGGCGCGAGGATGTCATCTTTGAAGCCTACGCCTCGTTCAAGGCTGTCCTCTATTACCGGCTGGCCCATCAGGTCTGGACGCTGGAGGATGGCCTGGGTGGCCTGCGTGAAATCATCGCCCACAAACTGACCAACAAAGGCAAGATCGCCTCGGGGGTGGAAATCCACCCGGCGGTGCGCATCGGCCGCCGCTTCGTGCTCGATCACGCCTACGGCACCGTGATCGGCGAGACCTGCGAGATCGGTGACGACTGCTACATCCTCAGCGGCGTGACCCTGGGCGCCTCGGGTATCGCCAACAACCCGGAAACCAAGCGTCACCCGACGCTGGGCAACAACGTCGAGGTGGGGGCAGGGGTGCGGATACTCGGCCCCGTGCGCATCGGCGACAACGTGTTCATCAGCCCGTCTTGCGTGATCACCCAGGACATCCCGGCGAACAGCAAGGTCAGCATCGTCAATCAGGTACAGACCCTGAAGCATGGCGACCCGGCCGAGCGGACCGGGTTCTACAGCGCCTTCGCGGTCAGCGACCGCCTGTTCCTGCTGGGCGAGAAACTGGAGTTCAACGATATCTCGGTGGTCGATGCCGATCACCAGGCGTTGCCGTTCCTCGCCATGGACCGTGCCTGCCAGGACAAGAACCACATCGAATACCGCTTGCGCTGGGATGCGCTGGGCATGGACGGCCCGATCAATTTCCCCCTGAACCTGCGGATTTCCAGTGCGCTGCAGGAAGTGACGCTGCTCAGCCCACCGGGCCTGGATGCCCTGGTGCGCAGTGTCGTCGACCCTCGAATCCCGACCATAGGTGGCTGA	MWSFLHKIHVHDRLLDHLVDALDFAEVERLFGHLDGILKEAVSRVSEDLEAYASRDPASAGREDVIFEAYASFKAVLYYRLAHQVWTLEDGLGGLREIIAHKLTNKGKIASGVEIHPAVRIGRRFVLDHAYGTVIGETCEIGDDCYILSGVTLGASGIANNPETKRHPTLGNNVEVGAGVRILGPVRIGDNVFISPSCVITQDIPANSKVSIVNQVQTLKHGDPAERTGFYSAFAVSDRLFLLGEKLEFNDISVVDADHQALPFLAMDRACQDKNHIEYRLRWDALGMDGPINFPLNLRISSALQEVTLLSPPGLDALVRSVVDPRIPTIGG	PGPT0020265_360	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION-1,PGPT0020265-cysE-K00640	NA	NA
BMS010_09147	744			hypothetical protein	ATGGACCCCCGACTTGAAACGCTTTGCCTCTTCGACGATGCGCCTTACCTGCGCACTTTTACCGCCGACGTGGTAGCCGTAAGCGATCTCGGCGTAGCGCTCGACCGCACCCTGTTCTATCCCACCGGCGGCGGGCAGCCGGGCGATGTCGGCAACTTCATCCTGGCCGACGGCTCCTATGCCATGGTGCTCGGCACCCAGCGCGACCCGGAACAACGCTCGCTGATCTGGCATCAGGTGGACTGCGACCCGTATCGCTTCGCGGTCGGCCAGACCTTGCAAGGGTGCATCGACTGGGACCGGCGCTACCGGCACATGAAAATGCACACCTGCCTGCATCTGCTCTGCTCGATCATCGATGCGCCGGTGACCGGTTGCAGCATTTCCCCTGACAAGGGGCGCCTGGACTTCGATCTGCCGGAATCGACTCTGGAGAAAGACGCCATCACCCACGCCCTGAACGAGTTGATCCTGTGCGACTTCGAGGTGCTGGCCAAGCGGATGCCCGCCTCGGAATACGCGGCCATCCTGGAAATGGCGCGGACCAAATCCGTCGTGCCGCCGGTGTTCGGGGATTCGGTGAGGGTGATCGAGATTCCCGGCGTGGATATCCAGCCCTGCGGCGGGACTCATGTCGCGCACACCGGCGAAATCGGCCGGGTGGTTTGCGACAAGATCGAGAAGAAGAGCAAGCACAACCGCCGGGTGGTGCTGCGCTTCGCGGAAATGGCCGCGGCGGACTGA	MDPRLETLCLFDDAPYLRTFTADVVAVSDLGVALDRTLFYPTGGGQPGDVGNFILADGSYAMVLGTQRDPEQRSLIWHQVDCDPYRFAVGQTLQGCIDWDRRYRHMKMHTCLHLLCSIIDAPVTGCSISPDKGRLDFDLPESTLEKDAITHALNELILCDFEVLAKRMPASEYAAILEMARTKSVVPPVFGDSVRVIEIPGVDIQPCGGTHVAHTGEIGRVVCDKIEKKSKHNRRVVLRFAEMAAAD				NA	NA	NA	NA	NA
BMS010_09148	1179			hypothetical protein	ATGCTGCTTGGCTTGTTCAATGAAATGCGCGCCGCCAAGGTACCGGTCTCGGTGCGCGAACTGCTCGACCTGATCGATGCGCTCGAACACAAGGTGGTGTTCGCCGACATGGACGAGTTCTATTTCCTCGCCCGCACCGTCATGGTCAAGGACGAGCGCCACTTCGATAAGTTCGACCGCGCCTTCGGTGCCTATTTCAAAGGCCTGGAGAAGCTCGACGACTACCTGAAGGCGCTGATTCCCGAAGAATGGCTGCGCAAGGAGTTCGAGCGCCTGCTGACCGACGAGGAGAAGGCACAGATCCAGAGCCTGGGCGGGCTGGACAAACTGATCGAGGAATTCAAGAAGCGCCTCGAAGAGCAAAAGGAGAAGCACGCCGGCGGCAACAAGTGGATCGGAACCGGCGGCACCAGCCCATTCGGCTCGGGTGGCTTCAACCCCGAGGGCATCCGCGTGGGCGATGCCGGCAAGCGCCAGGGCAAGGCGGTCAAGGTGTGGGACCAGCGCGAGTACAAGAACCTCGACGACCAGGTCGAGCTGGGCACGCGCAACATCAAGATCGCCCTGCGCCGCCTGCGCAAGTTCGCCCGCGAAGGTGCGGCGGAAGAGCTGGATATCGACGGCACCATCGACCACACCGCCAAGGACGCCGGCCTGCTGAACATCCAGATGCGCCCGGAACGCCGCAACACGGTCAAGCTCCTGCTGCTACTGGATATCGGCGGTTCGATGGACGCCCACGTGAAGGTCTGCGAGGAGCTGTTCTCGGCCTGCAAGACCGAGTTCAAGCACCTGGAGTACTTCTACTTCCACAACTTCATCTACGAATCGGTGTGGAAGAACAACCTGCGCCGCACCAGCGAACGCACCTCGACCATGGACCTGCTGCACAAGTACGGCCCGGACTACAAGGTGGTGTTCGTCGGCGACGCGGCCATGGCGCCTTACGAAATCACCCAGGCCGGCGGCAGCGTCGAGCACTGGAACGAAGAAGCCGGCTACGTGTGGATGCAACGCTTCATGGAGAAGTACAAGAAGCTCATCTGGATCAACCCGTATCCGAAGGACACCTGGAACTACACCGCCTCGACCAATATCGTCCGCGAGCTGATCCACGATCAGATGTTCCCGCTGACGTTGCGCGGCCTGGAAGAAGGCATGCGCTTCCTGTCCAAGTGA	MLLGLFNEMRAAKVPVSVRELLDLIDALEHKVVFADMDEFYFLARTVMVKDERHFDKFDRAFGAYFKGLEKLDDYLKALIPEEWLRKEFERLLTDEEKAQIQSLGGLDKLIEEFKKRLEEQKEKHAGGNKWIGTGGTSPFGSGGFNPEGIRVGDAGKRQGKAVKVWDQREYKNLDDQVELGTRNIKIALRRLRKFAREGAAEELDIDGTIDHTAKDAGLLNIQMRPERRNTVKLLLLLDIGGSMDAHVKVCEELFSACKTEFKHLEYFYFHNFIYESVWKNNLRRTSERTSTMDLLHKYGPDYKVVFVGDAAMAPYEITQAGGSVEHWNEEAGYVWMQRFMEKYKKLIWINPYPKDTWNYTASTNIVRELIHDQMFPLTLRGLEEGMRFLSK				NA	NA	NA	NA	NA
BMS010_09149	393			Putative glutathione-dependent formaldehyde-activating enzyme	ATGTATACCGGCAGTTGCCTCTGTGGCAGCGTGAAATACCGTATCGACGCGCCCATCGCGTCGCTTACCCATTGCCATTGCAGCATGTGCCGCAAGGCACACGGGGCTGCCTTCGCCACTTATGCCGGCGTTCCGCTGGATGCCTTCCACATCACCGAAGGCAAGGACCAGCTCGGCGTCTACCACTCCTCTCCCCATGTGACGCGGACTTTCTGCAAGAACTGCGGTGCCACGCTGCAGTTCGTCGACAACCGTGAGAACGAACTGGGCATTGCCGCGGGCACCCTCGATTCGCCCCTGGGCGTGCCGGAGCAGTCGCACATCTATGTCGATTCGAAGGCCGACTGGTATGAGATCCGCGATGGCCTGCCCCAGCACCGGAACGACATCTGA	MYTGSCLCGSVKYRIDAPIASLTHCHCSMCRKAHGAAFATYAGVPLDAFHITEGKDQLGVYHSSPHVTRTFCKNCGATLQFVDNRENELGIAAGTLDSPLGVPEQSHIYVDSKADWYEIRDGLPQHRNDI				NA	NA	NA	NA	NA
BMS010_09150	846			hypothetical protein	ATGAAGTTCGAAGGCACTCAGTCCTACGTCGCCACCGATGACCTCAAGCTCGCGGTCAATGCCGCCATCACCCTGCAACGTCCGCTGCTGGTGAAAGGCGAGCCGGGCACCGGCAAGACGATGCTCGCCGAGCAACTGGCCGAGTCCTTCGGCGCCAGGCTGATCACTTGGCACATCAAGTCCACCACCAAGGCGCACCAGGGGCTCTACGAGTACGACGCGGTCAGCCGCCTGCGCGACTCCCAGCTGGGCGTGGACAAGGTCCACGACGTGCGCAACTACATCAAGAAGGGCAAGCTGTGGGAGGCCTTCGAGGCCGACGAGCGGGTCATCCTGCTGATCGACGAGATCGACAAGGCGGATATCGAGTTCCCCAACGACCTGCTGCAGGAACTCGACAAGATGGAGTTCTTCGTCTACGAGACCAACGAGACCATCAAGGCCAAGCAGCGTCCGATCATCATCATCACCTCGAACAACGAGAAGGAGCTGCCGGACGCCTTCCTGCGCCGCTGCTTCTTCCACTACATCGCCTTCCCGGACCGCGACACCCTGCAAAAGATCGTCGACGTGCATTTCCCGAACATCAAGCAGTCGCTGGTCAGCGAAGCGCTGGACATCTTCTTCGACGTGCGCAAGGTGCCCGGCCTGAAGAAGAAGCCCTCCACCTCGGAATTGGTCGACTGGCTGAAGCTGCTGATGGCCGATGAGATCGGCGAGGCCGTGCTGCGCGAACGCGACCCGACCAAGGCGATCCCGCCGCTGGCCGGTGCCCTGGTGAAGAACGAGCAGGATGTGCAGTTGCTCGAACGTCTGGCGTTCATGAGCCGTCGCGCCAGCCGCTGA	MKFEGTQSYVATDDLKLAVNAAITLQRPLLVKGEPGTGKTMLAEQLAESFGARLITWHIKSTTKAHQGLYEYDAVSRLRDSQLGVDKVHDVRNYIKKGKLWEAFEADERVILLIDEIDKADIEFPNDLLQELDKMEFFVYETNETIKAKQRPIIIITSNNEKELPDAFLRRCFFHYIAFPDRDTLQKIVDVHFPNIKQSLVSEALDIFFDVRKVPGLKKKPSTSELVDWLKLLMADEIGEAVLRERDPTKAIPPLAGALVKNEQDVQLLERLAFMSRRASR				NA	NA	NA	NA	NA
BMS010_09151	1083			hypothetical protein	ATGAAGAGACGCTATCGCCTACCGATCCTGATCCTGCTGAGTCTGGCCCTGTTGCTGGTGATGGCCCACCTCATCCTGCCGTATGTGATCCGCGAATACCTGAACGACAAGCTCGCCGTGATGGGCGATTACCGTGGCCGGATCGAAGACGTGGACCTCGCCTGGTGGCGCGGCGGCTACCGGATCGACGGCCTGAAGATCGTCAAGATCGACCGCGACATCCCCGTCCCCTTCCTCGATGCGCCGCGCATCGACCTGTCGATCAGCGGGCGCGCGCTCTGGTATGACCGCGCAGTGGTGGGCCGGGTGGAATTCGAACGCCCCGAGCTGAACTTCGTCGATGGCGGCACCCGCGAAGAGTCGCAGACCGGTGAAGGCGTCAACTGGCGGGCCCAGTTGGAAAAGCTGCTGCCGATCACGCTGCATGAACTGAAAGTGGTGGATGGACAGGTCAGCTTCCGCAACTTCAAGTCCGACCCACCGGTGGACCTGAAAGCCACCGCAATCAATGCCAGCGTCTACAACCTCACCAACCTGGACCAGAAAGGCAAGCGTGTCGCCCATCTGGAAGGCCGCGCCCAGGTGCTGGGGCAGGCCCTGCTGGAGGCCGAGGCGGACTTCAAGCCGCTGAGCAACCTGGAGGATTTCCAGTTGCGGCTGCGCGTCACCGACGTCGACCTCACCCGCCTGAACGATTTCGCCCGCGCCTACGGTCGTTTCGACTTCGCCGCCGGCCGCGGCGACCTGGTGATCGAAGCCGAGGCGGAGAACAACCAGTTGAGCGGCTACATCAAGCCGCTGCTGCGTCACGTCGAAGTCTTCAATTGGAAGCAGGATATGGACAACGAGGAAAAAGGCTTCCTCCGCGGCCTTTGGGAAGCCCTGGTCGGCGGCGGCGAGACCATCCTGAAAAACCAGCGGAAAGATCAGTTCGCAACCCGCATCGAACTGTCCGGTAATCTCCAGCAGAAGGAAATCAGCCCGCTGCAGGCCTTCCTGGCGATCCTGCACAACGCATTCGTCGAGGCGTTCACGCCGCGCTTCGAACGGGCGCTGGAAAAGAACGATACGGACAGCGGGTGA	MKRRYRLPILILLSLALLLVMAHLILPYVIREYLNDKLAVMGDYRGRIEDVDLAWWRGGYRIDGLKIVKIDRDIPVPFLDAPRIDLSISGRALWYDRAVVGRVEFERPELNFVDGGTREESQTGEGVNWRAQLEKLLPITLHELKVVDGQVSFRNFKSDPPVDLKATAINASVYNLTNLDQKGKRVAHLEGRAQVLGQALLEAEADFKPLSNLEDFQLRLRVTDVDLTRLNDFARAYGRFDFAAGRGDLVIEAEAENNQLSGYIKPLLRHVEVFNWKQDMDNEEKGFLRGLWEALVGGGETILKNQRKDQFATRIELSGNLQQKEISPLQAFLAILHNAFVEAFTPRFERALEKNDTDSG				NA	NA	NA	NA	NA
BMS010_09152	975	cysK_3	COG0031	Cysteine synthase A	ATGAGCCGCATCTTCGCAGACAATTCCCAGTCCATCGGCAACACGCCGCTGGTCATGATCAACCGCCTGGGGCCCAAGGGCGTCACGCTGCTGGCCAAGATCGAAGGGCGCAACCCGGCCTATTCGGTGAAGTGCCGGATCGGCGCCGGCATGATCTGGGATGCCGAGGAGCGCGGGGTGCTCAAGCCGGGCATGACCCTGGTCGAGCCCACCTCCGGCAACACCGGCATCGGCCTGGCCTTCGTCGCCGCCGCGCGGGGCTACAAGCTGATGCTGACCATGCCGGCCTCCATGAGCCTGGAGCGGCGCAAGGTGCTCAAGGCGCTCGGTGCCGAGCTGGTCCTGACCGAGCCGGCCAAGGGCATGAAGGGTGCCATCGAGAAGGCGGCGGAAATCGCCGCATCCGACCCCGCGAAGTACTACATGCCGCAGCAGTTCGATAACCCGGCCAACCCGGCGATCCACGAGAAGACCACCGGGCCGGAAATCTGGAACGACACCGACGGCGGCATCGATGTGCTGGTCGCCGGGGTCGGCACGGGCGGCACCATCACCGGTGTGTCGCGCTATATCAAGCAGGTCAAGGGCAAGAAGATTCTCTCGGTGGCGGTGGAGCCGATCAGCTCCCCGGTGATCAGCCAGACCATGGCCGGCGAGGAGGTCAAGCCCAGCCCGCACAAGATCCAGGGGATTGGCGCCGGTTTCGTGCCGAAGAACCTGGACCTGTCCGTCGTCGATCGTGTCGAGCAGGTCAGCGACGACGAAGCCAAGGCCATGGCCCTGCGGCTGATGAGGGAGGAGGGCATCCTCTGCGGGATTTCCTGCGGCGCCGCCATGGCCGCTGCGGTGCGCCTGGCCCAGCATCCGGAGATGCAGGGCAAGAACATCGTGGTGATCCTGCCGGACTCCGGCGAGCGCTACCTGTCGAGCATGCTGTTCGAGGGTCTGTTCAGCGAGCAGGAGATGGTGCAGTAA	MSRIFADNSQSIGNTPLVMINRLGPKGVTLLAKIEGRNPAYSVKCRIGAGMIWDAEERGVLKPGMTLVEPTSGNTGIGLAFVAAARGYKLMLTMPASMSLERRKVLKALGAELVLTEPAKGMKGAIEKAAEIAASDPAKYYMPQQFDNPANPAIHEKTTGPEIWNDTDGGIDVLVAGVGTGGTITGVSRYIKQVKGKKILSVAVEPISSPVISQTMAGEEVKPSPHKIQGIGAGFVPKNLDLSVVDRVEQVSDDEAKAMALRLMREEGILCGISCGAAMAAAVRLAQHPEMQGKNIVVILPDSGERYLSSMLFEGLFSEQEMVQ	PGPT0002810_3458	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0002810-cysK-K01738	NA	NA
BMS010_09153	894			hypothetical protein	ATGAACGAGTTGGACAGAAACGCCTGGGCCGGTTACGGCTCGACCAGTCTGTTCGTGCTGCTCTGGAGCAGCGGCGCGATCTTTTCCAAGTGGGGCCTGGCGTTCGCCTCACCCTTTGCCTTCCTCGAAATCCGTTCGGCCATTGCCTTGCTCGGGCTGCTCCTGTTGGCGCCCTGGTTGCGCCTGCATTTGCCGGCCGGTCGGCGGGAGCGCCTGTATGCCCTGGCGACCGGTGCGGTGCTGCTCGGTGCCTACCAGATCTTCTATCTGCTGGCGCTGGAGCTGCAGGTGACGCCCGGTGTGATGGCTACGCTGTTGGGCGTCCAGCCGATCCTCACGGCGATCTGCCTGGAGCGCCGCCTGTCGCCGGCGCGTTGGTGCGGCCTGGCGCTCGGGTTGGGCGGGCTGGTGCTGGTGGTCTATGAGCGCATCGGGCTGGCCGGCTTGTCCTGGGGCGGCATGCTCTGCGGCCTGATGGCGTTGGCCAGCATCACCCTGGGGGCGATCATGCAGAAGCGCATCCGGGAGAATCCCCTGGGCACTCTGCCGCTGCAGTACCTGGCGGGACTCTTGCTGTGCTCGGTCTTCGTGCCGTTCCAGCCTTTCCGGGTCGACTGGAGCCTGGGATTCCTCGTTGCGGTGGGCTGGATGGGGCTGGTCATTTCCCTGTTGGCGACCCTGCTGCTGTACCGGCTGATCGCCCGCGGCAACCTGGTGAACGTCAGCAGCCTGTTCTACCTGGTGCCCGCCGGGACGGCGATCCTTGACTACCTGGTGTTCGGCAACCGCTTGGCGATGCTCAGCCTGGTTGGCATGGGGTTGATCGTGCTGGGCCTGCTCTTCGTCTTCCGCACGCCGACGGAGGAGCGGGACAAGGTCGCCGAGACGGCTTGA	MNELDRNAWAGYGSTSLFVLLWSSGAIFSKWGLAFASPFAFLEIRSAIALLGLLLLAPWLRLHLPAGRRERLYALATGAVLLGAYQIFYLLALELQVTPGVMATLLGVQPILTAICLERRLSPARWCGLALGLGGLVLVVYERIGLAGLSWGGMLCGLMALASITLGAIMQKRIRENPLGTLPLQYLAGLLLCSVFVPFQPFRVDWSLGFLVAVGWMGLVISLLATLLLYRLIARGNLVNVSSLFYLVPAGTAILDYLVFGNRLAMLSLVGMGLIVLGLLFVFRTPTEERDKVAETA				NA	NA	NA	NA	NA
BMS010_09154	939			hypothetical protein	GTGAAAACATCCGATTTTCTCCGTCTGCTCAGCCTCGCAGCCCTCTGGGGCGCCAGCTTTCTGTTCATGCGCATCATCGCACCGGTAATCGGTGTTTTGCCGACCGCCTTCTTCCGGGTGCTGCTGGCCACCTTCGGGCTGCTGGCGATCCTGCTGGTGTTGCGCGTGGGCTGGGATTTCCGCGGCAAACTCAGGCAATGCCTGCTGCTTGGCGTGTTCAGCTCGGGCATTCCCTTCGCCATGTACGCCATCGCCGCACAGTTGTTGCCGGCGGGCTACTCAGCGATCTTCAACGCCACGACGCCGCTCATGGGCGTGCTTATCGGCGCACTGTTCTTCGCCGAAGCGCTGACCCTGGCCAAGGCCGGCGGCGTGCTGATCGGCCTGCTCGGCGTGGCCGTGCTGACCCGTACCGGGCCGGTGGCCTTCGACGCGACGCTGCTGGGAGGCGCCCTCGCCTGTCTGGTGGCTACGGCCTGCTATGGCCTCGCCGGTTTTCTCGCACGGCGCTGGATCAACCAGCAAGGCGGCCTGGACAGCCGCTTGGTGGCCCTTGGCAGCCAGGTGGGCGCCAGCCTGTTCCTGCTGCCACTGTTCGCCGTCGCCACCGCAGTGCAGCCACCGGCCAATTGGGGCGGCGGCGCGGTCTGGGCCAGTCTGGCCGGGCTCGGCCTGTTCTGCACTGCGCTGGCTTACATCCTGTATTTCCGCCTGCTCGACGATATCGGGCCGGTGAAAGCCAGCACCGTGACCTTCCTCATCCCGCCCTTCGGCGTGCTCTGGGGCGCTCTGCTGCTCGACGAGCCGCTGTCCTGGGCCTACCTCTACGGCGGGGCACTGATCGCCCTGGCGCTCTGGCTGGTCCTGAAGCCGACGCCGGTCGAGGCGACCAAGGAGCGAACCGACGAAGAGAGCCCGCTTCTGCAAGAACGGCAATGA	MKTSDFLRLLSLAALWGASFLFMRIIAPVIGVLPTAFFRVLLATFGLLAILLVLRVGWDFRGKLRQCLLLGVFSSGIPFAMYAIAAQLLPAGYSAIFNATTPLMGVLIGALFFAEALTLAKAGGVLIGLLGVAVLTRTGPVAFDATLLGGALACLVATACYGLAGFLARRWINQQGGLDSRLVALGSQVGASLFLLPLFAVATAVQPPANWGGGAVWASLAGLGLFCTALAYILYFRLLDDIGPVKASTVTFLIPPFGVLWGALLLDEPLSWAYLYGGALIALALWLVLKPTPVEATKERTDEESPLLQERQ				NA	NA	NA	NA	NA
BMS010_09155	1725	aceK	COG4579	Isocitrate dehydrogenase kinase/phosphatase	ATGGTGCAGCAATCGGCCGCAGAGATCGCCCGTCAGATTCTCAATGGCTTCGATGATTACCGTGAGCATTTCCGGCACATCACCGACGGTGCCCGCGCACGCTTCGAACAGGCGCAGTGGCAGGAAGCGCAGCGGGCTTCGGCGGCGCGGATCAACCTCTACGAGGAAAAGGTCGGCGAAGTGACGGCGCGGTTGCGCGAGACCTTCAACGAGGAGTTGCTGCTGAGCGTCGGGCTCTGGCCCCTGGTGAAAAGCGCCTATATCGCGCTGATCGACCTGCGTTTCGACGATGAGCTGGCGGAGACCTGGTACAACTCGATCTTCTGCGGGTTGTTCAGCCACGATTGCATCAGCGACGGCACCATGTTCGTGCACACCACCCGCCCGTCGCTGCGCAGCCACGAGCGCGCCGCCCAGACCCGTAGTTACGACCCGCAGGGACACCTGCAAGGCATGCTCGAGCAGATCTTCGAGGATTACCGTTTCGACGTGCCCTACGAGGACCTGTCCCGCGATATGACGCGCCTCGAAGGGCAACTGCGGCAGAACCTGCCGGACTGGGTATGCAAGGACCCGGAGCTGCGCGTGGAGCTGTTCTCCTCGGTGCTCTACCGCAACAAGGGGGCGTACCTGGTCGGGCGCATCTACACCCGCGACGAACAGTGGCCGCTGGTGATCCCGCTGCTGCACCGCGAAGGGAAGGGCATCCAGGTCGATGCGCTGATCACCGACGAGGCGGAGGTGTCGATCATCTTCTCCTTCACCCGTTCCTACTTCATGGTGGACGTGGCGATTCCGGCGGAGTTCGTCGGCTTCCTCAAGCGCATCCTGCCGGGCAAGCACATCGCCGAACTCTATACCTCCATCGGCTTCTACAAGCACGGCAAGTCGGAGTTCTACCGGGCGCTGATCAACCACCTGGCCACCACCGACGACCGTTTCGTCATGGCGCCGGGCGTGCGGGGCATGGTCATGAGCGTGTTCACCCTGCCGGGCTTCAATACCGTGTTCAAGATCATCAAGGACCGTTTCTCGCCATCGAAGAACGTCGACCGCGCGACGGTGATCGAGAAGTACCGGCTGGTGAAGAGTGTCGACCGGGTGGGGCGCATGGCCGATACCCAGGAGTTTTCCGACTTCCGCTTCCCGAAGAGCAAGTTCGACCCGGATTGCCTCGCCGAACTGCTGGAGGTGGCGCCATCCACCGTCGAGATGGAAGGGGATACGGTACTGGTGCGCCACTGCTGGACCGAGCGCCGCATGACCCCGTTGAACATCTACCTGGAACATGCCAACGAAGCCCAGGTGCGCGAGGCACTGGAGGATTACGGCCTGGCGATCAAGCAACTGGCGGCGGCGAATATCTTTCCTGGCGACATGCTGCTGAAGAACTTCGGCGTTACCCGTCACGGGCGGGTGGTGTTCTACGACTACGACGAGATCAGTTTCCTCACCGAGGTGAACTTCCGCCGCATCCCGCCGCCGCGTTATCCGGAGGACGAGATGTCCTCCGAGCCCTGGTATTCGGTGGCGCCCAACGACGTGTTTCCGGAGGAGTTCCCGCGTTTCCTCTTTGCCGACATCAACCAGCGCCGGCTTTTCGCCAAGCTGCATGGCGATCTTTATGACGCGGATTACTGGAAGAGCCTGCAGGACGCCATCCGCGCGGGCAAGGTGATCGACGTGTTCCCGTATCGACGCAAGGCCGAAGAAGCGGTGAGTTGA	MVQQSAAEIARQILNGFDDYREHFRHITDGARARFEQAQWQEAQRASAARINLYEEKVGEVTARLRETFNEELLLSVGLWPLVKSAYIALIDLRFDDELAETWYNSIFCGLFSHDCISDGTMFVHTTRPSLRSHERAAQTRSYDPQGHLQGMLEQIFEDYRFDVPYEDLSRDMTRLEGQLRQNLPDWVCKDPELRVELFSSVLYRNKGAYLVGRIYTRDEQWPLVIPLLHREGKGIQVDALITDEAEVSIIFSFTRSYFMVDVAIPAEFVGFLKRILPGKHIAELYTSIGFYKHGKSEFYRALINHLATTDDRFVMAPGVRGMVMSVFTLPGFNTVFKIIKDRFSPSKNVDRATVIEKYRLVKSVDRVGRMADTQEFSDFRFPKSKFDPDCLAELLEVAPSTVEMEGDTVLVRHCWTERRMTPLNIYLEHANEAQVREALEDYGLAIKQLAAANIFPGDMLLKNFGVTRHGRVVFYDYDEISFLTEVNFRRIPPPRYPEDEMSSEPWYSVAPNDVFPEEFPRFLFADINQRRLFAKLHGDLYDADYWKSLQDAIRAGKVIDVFPYRRKAEEAVS	PGPT0001475_752	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-CITRIC_ACID_BIOSYNTHESIS,PGPT0001475-aceK-K00906	NA	NA
BMS010_09156	1104	pucI_1	COG1953	putative allantoin permease	ATGAGCGAGCAGCAACGTCCGGCCGGTTACAGCCCGCGCCTGCACAACCACGATCTTGGCCCCGTGCCGCAAACATGGAACTGGTACAACATCTTTGCCTTCTGGATGAGCGACGTGCACAGCGTCGGCGGCTATGTTTTCGCCGCCAGCCTGTTCGCCCTTGGCTTGGCCAGTTGGCAGGTGCTCATCGCTCTGCTGGTGGGCATCTGCATCATCCAGGCGATCGCCAATCTGGTGGCCAGGCCCAGCCAGATGGCGGCGGTGCCGTATCCGGTGATCTGCCGGCTGGCCTTCGGCGTGTTCGGCGCGAACATCCCGGCGGTGATTCGCGGCCTGATCGCCGTCGCCTGGTACGGCATCCAGACCTACCTGGCGTCCAGCGCGCTGATTATCGTGGTGCTGCGCTTCTTCCCGGGGATGGCCAGCCTGCACGAGGTGACCTTCCTCGGCCTGTCCTACCTCGGCTGGTTCGGCTTCCTCTCGCTCTGGTTCGTCCAGGCGCTGGTGTTCTGGTGGGGAATGGAGGCGATCCGCCGTTTCATCGACTTCGCCGGCCCGGCCGTGTATGCCGTGATGTTCGTGCTGGCGGCCTGGATCGTCTGGAAGGCCGGCTGGGGCAACATCAGCTTCACCCTGGCGGAGAAGGAGCTGTCCGGCTGGGCCGCCTTCGGCCAAGTGATCGTGGCCATCGCCCTGGTGGTGTCCTACTTTTCGGGGCCGACCCTCAATTTCGGGGACTTCAGCCGCTACTGCCGCAGCATGCAGGATGTCCGGCGCGGCAATTTTTGGGGCTTGCCGGTGAACTTCCTGGCCTTCTCCCTGGTGACCGTGGTGATCGTCTCCGGCACCCTGCCGATTTTCGGCGAGATGATCCACGATCCGATCGCCACGGTTGCGCGCATCGACAACACCACCGCCGTGCTGCTCGGCGCGTTCACCTTCGTCACCGCCACCATCGGCATCAACATCGTCGCCAACTTCGTCTCCCCGGCCTTCGACTTCGCCAACGTCGCGCCCAGCCGCATCAGCTGGCGAGCCGGCGGCATGATCGCCGCGGTGGCCTCGGTGTTCATCACGCCCTGGAACCTGTTCAACAACCCCTAG	MSEQQRPAGYSPRLHNHDLGPVPQTWNWYNIFAFWMSDVHSVGGYVFAASLFALGLASWQVLIALLVGICIIQAIANLVARPSQMAAVPYPVICRLAFGVFGANIPAVIRGLIAVAWYGIQTYLASSALIIVVLRFFPGMASLHEVTFLGLSYLGWFGFLSLWFVQALVFWWGMEAIRRFIDFAGPAVYAVMFVLAAWIVWKAGWGNISFTLAEKELSGWAAFGQVIVAIALVVSYFSGPTLNFGDFSRYCRSMQDVRRGNFWGLPVNFLAFSLVTVVIVSGTLPIFGEMIHDPIATVARIDNTTAVLLGAFTFVTATIGINIVANFVSPAFDFANVAPSRISWRAGGMIAAVASVFITPWNLFNNP	PGPT0009075_2260	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_TRANSPORT,PGPT0009075-cytX-K03457	NA	NA
BMS010_09157	354	pucI_2	COG1953	putative allantoin permease	GTGATCCACTACACCCTGGATGTGCTGGCGGCCTTCATCGGCCCGCTGTTCGGCATCCTGCTGGTGGACTTCTACCTGGTGCAGAAGCAGACGATCGACGTCGATGCGCTGTTCGACGACAGCCCCAACGGGCGCTACTGGTACCGCAACGGGGTCAATTGGGTCGCGGTGCAGGCGCTGGTGCCGGCAGCGCTGATCGGCCTGTGCTTCACCTTCGTGCCCTGGTTCCAGCCGATCGCCAACTTCGCCTGGTTCACCGGTTGCTTCCTCGGCGGGGCGTTCTTCTACGCACTCAGCCGATTTGCTCCCCGCAGCGCTTCTGCGACCGGGCAGGAAGCCGCGTCGTTGGGCTGA	MIHYTLDVLAAFIGPLFGILLVDFYLVQKQTIDVDALFDDSPNGRYWYRNGVNWVAVQALVPAALIGLCFTFVPWFQPIANFAWFTGCFLGGAFFYALSRFAPRSASATGQEAASLG	PGPT0009075_2341	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_TRANSPORT,PGPT0009075-cytX-K03457	NA	NA
BMS010_09158	261			hypothetical protein	ATGGATCAGCAAAACCCTCTCGGAACGGTGTTGGTGGTGTTCGCCGGGTTGTTCCTGTGCATCGTGCTCGCCGGTTTCGCCCACGGCGCCGTGCCGCTCACGGCAAGTCCCTTCGCGTCGATCAAGCGTGACGCCGGTTTTGCCGGCAAGGCCTCACCGATGCCATCCGCTGTCAGCCGCGCGTACCAGCCGGCCCGCTCGGGTGGCGAGGTCGGTTTCGTCGCCGGCCGCGATCCGCATGAGGCCAAGGTCCAGCCCTAG	MDQQNPLGTVLVVFAGLFLCIVLAGFAHGAVPLTASPFASIKRDAGFAGKASPMPSAVSRAYQPARSGGEVGFVAGRDPHEAKVQP				NA	NA	NA	NA	NA
BMS010_09159	114			hypothetical protein	ATGAAAGCATGGTTTGAACATTGGGTCTGGAATCTGAGCGTCGCCCTTGGGCTGGTCGAGCCGCCGCGTCCGATCGAAGTCCGCCAGGAGGCGCAGCCCCGGCAACGGCGTTAA	MKAWFEHWVWNLSVALGLVEPPRPIEVRQEAQPRQRR				NA	NA	NA	NA	NA
BMS010_09160	729	gloC_3	COG0491	Hydroxyacylglutathione hydrolase GloC	ATGAAGATCGTCAGCCGCGACCGCTGGTTCGAGGTGGAACACCGTTACGACGGCATCAGCCTGATCCACGAGCCCTACATCCGCCCGTTCTACCGCTGCAACCTGTGGCACGTGCAGGGCCGCGACCGCGATGTGCTGATCGACTCCGGTTCCGGGCTGGTCAGCCTGCGCGAGCAGTTACCCTGGTTGACCGAACGCCCACTGCTGGCAGTGGCCAGCCATACGCACTTCGATCACATCGCCGGGCACCATGAGTTTCCCGAGCGCCTGGTGCACCCGGCGGAGGCGGATATCCTCGCCGCCCCGACCCGGTCCAACACCCTGGCCGATCCTTATGTCGATGACGAGATGTTCGAAGCCCACCCGGACTGCCCGTTGTGCTATGCGGAATATCAGGTGAAGGCGGCGCCGGCGACGCGGCTGATCGACGAGGGCGACGTGCTCGACCTGGGCGACCGGGTATTGCAGGTGCTGCATACCCCCGGCCATTCGCCGGGCGGCATCAGCCTGTGGGAAGAGAAGACGCAAACGCTGTTCTCGGGCGATATTGTCTATGACGGTCCGCTGATAGACGACGCCTACCATTCGAACCGGAACGACTACGCCAACAGCCTGCTCCGGCTGCGTCGGCTACCGGTGCGCACCGTGCATGGCGGGCATTTCCCGAGCTTTTCCGGCGAGCGCCTGCACCAGTTGATCGACGACTGGCTGCGCCGCCACAAGCCTTAA	MKIVSRDRWFEVEHRYDGISLIHEPYIRPFYRCNLWHVQGRDRDVLIDSGSGLVSLREQLPWLTERPLLAVASHTHFDHIAGHHEFPERLVHPAEADILAAPTRSNTLADPYVDDEMFEAHPDCPLCYAEYQVKAAPATRLIDEGDVLDLGDRVLQVLHTPGHSPGGISLWEEKTQTLFSGDIVYDGPLIDDAYHSNRNDYANSLLRLRRLPVRTVHGGHFPSFSGERLHQLIDDWLRRHKP				NA	NA	NA	NA	NA
BMS010_09161	1341	hyuP_1		Hydantoin permease	ATGTTCAAGCAAATCACCCAACACTTCGGCCAGGACGGCCTGGAGCCCACCGCCAGCGATCACCGCAGCCTCGGCCTGGGCGGCACCACCGCGCTCTGGCTGGGCGCCAACGTGGTGGTGACCACCATTCTCACCGGCATGCTGCTGGTACCCGACCTGCCCTTCCTGCAGGCCATGCTCATCGTCCTGGTCGGCTCCGGGCTCGGCATCCTGCCGCTGGTGCTGGTCGGGTTGATGGGGCAACGCAGTGGCCTCACCACCATGGTGCTGGCGCGGGGCAGCTACGGCATCCACGGTGCCAAGCTGCCGTCCCTGGTCAACCTGCTGACGCTGCTGGCCTGGAGCTGGATCCAGGCACTGCTGGCCGGAATGAGCCTGAACTACGCGGTGGAAGCCACCACCGGTTATTCCAACCTGCCGTTGTTCACTGTGCTCTGCGAAACCCTGGTGGTGCTCATCGCCCTGCGCGGGCACCTGGGCATCGAGCGGGTCGAACGCTGGGCCGCCATCGGCATGCTGCTGCTCGCCGCGGCGGTGTTCTATGCCATGGGCCGTAACTTCCAGTTCGGCGAACTGCTGAGCATGCCGGTGCAGCCGCGTAACGAGGTCAGCCCCGGCATTGCCTTCGACATCGTGATCGCCACCGCCTTCTCCTGGATTCCCCTGGCCGCCGACTACAACCGCAACTGCCGCAGCCAGGGCGTGGCGGCGGTGGGCACCTGGGTCGGCTACGTCGCCGCCACGCTGCTGGCCATGGGGCTGGGCGCCACGGTGTCCGGTTTCAGCGTGCTCACCGGCATAGAACAGACCTACGACCCGGCCGTGCTGCTGGCCGGGTTCGGTTTCGGCCTGCCGGCGGCCATCGTGGTGTTCCTCTCGGTGATGACCACCAACGTGATGTGCGTGTATTCGGCCACCCTCTCCTACCTGAACATGCGCCCGCGGACGCGTTTCTGGAAACCGGCATTGACCATCGGCGTGCTGTCCATCCTGGGCTCGCAGATTCCCGGCATCCTGGATAACTTCCAGAACTTCCTGCTGGTGATCGGCAGTGTGTTCATCCCGGCTTTCGCCGTGCTGATCGCCGACTACTTCGTGATCCACCGCGGGCAATACGCGGTGAGCGAGCTGCTCGACGAACGCGGCGGCCGCTACCGCTACCTGAACGGCATCAATCCGGCCGCCTTCGCGGCTTACGGACTGGGCGCAGTGCTGGCCTACTACTGGGGCTGGGTCTCGCCGCTGGCCTACGGGGCCTCGCTGCCGGTGTTCCTGCTCACCGCCGCCAGCTACCTGGTGTTGCGCCGCTGGGTGCTGGTACCGAGGGCGCAAGTGGCCTGA	MFKQITQHFGQDGLEPTASDHRSLGLGGTTALWLGANVVVTTILTGMLLVPDLPFLQAMLIVLVGSGLGILPLVLVGLMGQRSGLTTMVLARGSYGIHGAKLPSLVNLLTLLAWSWIQALLAGMSLNYAVEATTGYSNLPLFTVLCETLVVLIALRGHLGIERVERWAAIGMLLLAAAVFYAMGRNFQFGELLSMPVQPRNEVSPGIAFDIVIATAFSWIPLAADYNRNCRSQGVAAVGTWVGYVAATLLAMGLGATVSGFSVLTGIEQTYDPAVLLAGFGFGLPAAIVVFLSVMTTNVMCVYSATLSYLNMRPRTRFWKPALTIGVLSILGSQIPGILDNFQNFLLVIGSVFIPAFAVLIADYFVIHRGQYAVSELLDERGGRYRYLNGINPAAFAAYGLGAVLAYYWGWVSPLAYGASLPVFLLTAASYLVLRRWVLVPRAQVA	PGPT0009075_3396	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_TRANSPORT,PGPT0009075-cytX-K03457	NA	NA
BMS010_09162	1602	aruI	COG0028	putative 2-ketoarginine decarboxylase AruI	ATGACTACCTGCGGCGAGTTTCTCGTCAAGCAACTGGAAGCCTGGGGCGTGGATACCGTCTTCGGCATTCCCGGCGTGCACACGGTCGAGCTGTACCGTGGCCTGCCCCACAGCGGTATCCGCCACATCACCCCGCGCCACGAGCAGGGCGCCGGTTTCATGGCCGACGGCTATGCCCGTGCCAGCGGCAAGCCCGGGGTGTGCTTCATCATCACCGGACCAGGGATGACCAACATCCTCACCGCCATGGCCCAGGCCTACGCGGATTCCATTCCCATGCTGGTGATTTCCAGCGTCAACGAACGCGACCGCCTCGGCCTGGGCAAGGGCTACCTGCACGAACTGCCGGACCAGCGCGGCCTGACCGCCGGCGTCACCGCCTTCAGCCACACGCTGATGAGCGTCGAGGAACTGCCGGCGGTGCTGGCCCGCGCCTTCGCTGTGTTCGAGGGCGAACGCCCGCGCCCGGTGCACATCGAGTTGCCGCTGGACATCATCACCGCCCCCGCCGATCACCTGCGCGTGCAAGCCAAGCCACGCACCAGCCGCTCGGCCCCACCGGCCGCCCTGCTGCGCGAAGCGGCGGACAAGCTGCGCCGGGCCGAACGGCCGCTCCTGCTGCTCGGTGGCGGCTGCATCGAGGCCCAGGCCGAGGCGCGTGCCCTGGCCGCCGCGCTGGACGCACCGACGGCGCTGACCATCAATGCCAAGGGCCTGCTGCCTCCGGGCCACCCCTTGCTGCTCGGCAGCAACCAGTCGCTGGTGCCGGTACGCCAACTGGCGCTGGAAGCCGACGTGGTGCTGGCCATCGGCACCGAGCTGGGCGAAACCGACTACGACGTGGTGTTCGACGGCAACTTCAAACTGGCTGGCGAGTTGATCCGCATCGATATCGACGCCCGGCAGTTGCAACGCAACTTCACACCGACCCTGGCGATCCAGGGCGACGCCCGCGAGGCCATGCGCCTGCTGCTGGAAGAGCTGCCGACACGCGCGGCGGACCCACAGAGCCCCGGCGCCCGGCGTACTGCGGCGGTACAGGCACAACTGGCCGAGGACTTCGCCGGCTGGGCGCATTACCGCACGCTGTTCGCCACCGTGCTGGACGCCTTGCCAGCCGCCCGTTTCGTCGGCGATTCCACCCAGACCGTGTACAGCGGCAACCATCTGGTGGAGCTGGACAGCGCGCGTCGCTGGTTCAACAGCTCCACCGGCTACGGCACCCTCGGCTACGGCCTGCCGGCGGCCATCGGTGCCCGACTGGCCGAGCCGGACCGTCCGGTGGTGTGCCTGATCGGCGACGGCGGCATCCAGTTCAGCCTGCCCGAGCTGGCCAGCGCCGTGGAGGCGCAGGTGCCGGTGATCGTGTTGCTGTGGAACAACCAGGGCTATGGCGAGATCAAGCGCTACATGCAGCGCCGCGACATCACCCCGCTGGGCGTGGACATCTTCACCCCCGACTTCCTCGCCATTGCCCGCGGCTTCGGCTGCGCGGCGGAGCGAGCCCGGGACCACGCCCACTTGGCCGATCTGCTGCGCAGCGCACCGCTGGATCGCCCGTTGCTCATCGAGATACTGGAGGCGCCGCCGTTTCACCCCTGA	MTTCGEFLVKQLEAWGVDTVFGIPGVHTVELYRGLPHSGIRHITPRHEQGAGFMADGYARASGKPGVCFIITGPGMTNILTAMAQAYADSIPMLVISSVNERDRLGLGKGYLHELPDQRGLTAGVTAFSHTLMSVEELPAVLARAFAVFEGERPRPVHIELPLDIITAPADHLRVQAKPRTSRSAPPAALLREAADKLRRAERPLLLLGGGCIEAQAEARALAAALDAPTALTINAKGLLPPGHPLLLGSNQSLVPVRQLALEADVVLAIGTELGETDYDVVFDGNFKLAGELIRIDIDARQLQRNFTPTLAIQGDAREAMRLLLEELPTRAADPQSPGARRTAAVQAQLAEDFAGWAHYRTLFATVLDALPAARFVGDSTQTVYSGNHLVELDSARRWFNSSTGYGTLGYGLPAAIGARLAEPDRPVVCLIGDGGIQFSLPELASAVEAQVPVIVLLWNNQGYGEIKRYMQRRDITPLGVDIFTPDFLAIARGFGCAAERARDHAHLADLLRSAPLDRPLLIEILEAPPFHP	PGPT0008185_10088	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008185-budB|ilvK|alsS|ilvB|ilvG|ilvI-K01652	NA	NA
BMS010_09163	1395			hypothetical protein	ATGAACCGTGACGAACCCATGCTCCTGATGGACGACCAGCCACCGGCGGACGCTTCCTTCAACCTGCGCCAGTTGCTGATCTTCCTGATCCCGTCGCTGCTCGGCGTGCTGCTGTTCCTCACTCCCATCGTCTATGAGGAAAAGGTCACCATCGGCCTCGGCCTGCTCGCCGACGGCCTGAAGGCGGCCGTGGGTGCCTGGCTGCCGGCGATTGCCGTGGGCCTGCTGGTGTTTTCGTCGGTGCTCGGCCTGGTCGGCAGCCTGGCCAAGCCGCGCTGGATCACCGAGCGCCGCGCACTGAACGAGCTGTTCAACCTGCACCCGTTCTGGCTCGCCCTGCGGGTGATCGGCGCGGTGTTCGCCGCGATGACCTTCTGGGAATTCGGCCCGGCCTGGGTTTGGAACGCCAACACCGGCGGCGTGGTGCTGAAGGACCTGGCACCGGTGCTGATCACCTTCTTCCTGGTTGCCGGCCTGGTCCTGCCGCTGCTCACCGACTACGGTCTGATGGAGTTCTGCGGCACCCTGGTGCGCAATGTGTTCCGCAAAATCTTCGGTCTGCCCGGTCGCTCGGCCATCGATGCCATCGCCTCCTGGCTCGGCTCGGGCACCGTCGGCGTGCTCATCACTGCGCAGCAGTACCAGAAGGGCTTCTACAGCGCCCGCGAGGCGGCGGTGATCGCCACCAACTTTTCCATCGCCTCGATCGCCTTCAGCCTGCTGATCACCAGCTTCATGAAGCTGGACCACCTGTTCGTGCCCTTCTACCTCACCGTGGTGGTCGCCGGCCTCGCCGCCGCCATCATTACGCCGCGCATCCCGCCGCTGTCGTGGAAGAAGGACGAATACATGCCGGGCGTCGGCAAGCAGATCAAAGAGGACGTCCCCAGCGACATCTCGCTGCTGCGCTGGGGTCTGGTGCAGGCGGTCAAGCGCGCCAACAGCAATCCCTCGCCCGTGGCGATGGTGCGGATCGGCGTGCACAACGTGGTGGACATCTGGCTCGGCCTGCTGCCGCTGGTGATGGCCATCGGCACGGTTTCCCTGGCCATCGCCGAGTACACCCCGGTGTTCACCTGGTTGTCCTACCCCTTCGTGCCACTGCTGGAAGCACTGCAACTGCCGGACGCCGCCAAGGCCGCGCCGGCGATGCTGGTGGGCTTCGCCGACATGTTCCTGCCGGCCGTGCTGGGCAAGGGCATCGAGAGCGAGCTGACCCGCTTCGTGGTGGCCTGCGTGTCGCTGACCCAGTTGATCTATATGTCCGAGGTGGGCGTGCTGATCCTCAAGGCCAAGCTGCCGCTGAACCTGCTGGAGCTGTTCGTGATCTTCATCATCCGTACGCTGATCACCCTGCCGATCATCGCGCTGATGGCGCACTGGATCGTGGGTTGA	MNRDEPMLLMDDQPPADASFNLRQLLIFLIPSLLGVLLFLTPIVYEEKVTIGLGLLADGLKAAVGAWLPAIAVGLLVFSSVLGLVGSLAKPRWITERRALNELFNLHPFWLALRVIGAVFAAMTFWEFGPAWVWNANTGGVVLKDLAPVLITFFLVAGLVLPLLTDYGLMEFCGTLVRNVFRKIFGLPGRSAIDAIASWLGSGTVGVLITAQQYQKGFYSAREAAVIATNFSIASIAFSLLITSFMKLDHLFVPFYLTVVVAGLAAAIITPRIPPLSWKKDEYMPGVGKQIKEDVPSDISLLRWGLVQAVKRANSNPSPVAMVRIGVHNVVDIWLGLLPLVMAIGTVSLAIAEYTPVFTWLSYPFVPLLEALQLPDAAKAAPAMLVGFADMFLPAVLGKGIESELTRFVVACVSLTQLIYMSEVGVLILKAKLPLNLLELFVIFIIRTLITLPIIALMAHWIVG				NA	NA	NA	NA	NA
BMS010_09164	960	gbuA_2	COG0010	Guanidinobutyrase	GTGGAGAAGACCTTCCACCAGCCCCTGGGCGGCAATGAAATGCCCCGCTTCGGCGGCATCGCCACCATGATGCGCCTGCCGCACATCCAGACCCCCGAAGAAAAACGTGCCCTGGACGCCGCCTTCGTCGGCGTGCCGCTGGACATCGGCACCTCGCTGCGCTCCGGCACGCGCTTCGGCCCCCGCGAGATCCGCGCCCAGTCGGTGATGATCCGTCCGTACAACATGGCCACCGGCGCCGCGCCCTTCGACTCGCTCAATGTGGCCGACATCGGCGACGTGGCGATCAATACCTTCAACATGGCCGAGGCAATCCGCATCATCGAGGCCGCCTACGATGACATCCTCGAACACGGCATCGTGCCGCTGACCCTGGGTGGCGACCACACCATCACCCTGCCGATTCTCCGTGCGATCAAGAAGAAGCATGGCAAGGTCGGGCTGGTCCATGTGGATGCCCATGCCGACGTCAACGACCACATGTTCGGCGAGAAGATCGCCCACGGCACCACCTTCCGTCGGGCCGTCGAGGAAGGGCTGCTGGATTGCGACCGCGTGGTGCAGATCGGCCTGCGGGCCCAGGGCTATACCGCCGAGGACTTCAACTGGAGCCGCAAGCAGGGCTTCCGCGTGGTGCAGGCCGAGGAATGCTGGCACAAGTCGCTGGAACCGCTGATGGCCGAAGTACGCGAGAAGGTCGGCGGCGGTCCGGTGTACCTGTCGTTCGATATCGATGGCATCGACCCGGCCTGGGCCCCCGGCACCGGCACCCCGGAAATCGGCGGCCTGACCACCATCCAGGCAATGGAGATCATCCGGGGCTGCCACGGCCTGGACCTGATCGGCTGCGACCTGGTGGAGGTTTCTCCGCCCTACGACACCACCGGCAACACCTCGTTGCTGGGAGCCAACCTGCTGTACGAAATGCTCTGCGTGCTGCCCGGGGTACAGCGCCGCTGA	MEKTFHQPLGGNEMPRFGGIATMMRLPHIQTPEEKRALDAAFVGVPLDIGTSLRSGTRFGPREIRAQSVMIRPYNMATGAAPFDSLNVADIGDVAINTFNMAEAIRIIEAAYDDILEHGIVPLTLGGDHTITLPILRAIKKKHGKVGLVHVDAHADVNDHMFGEKIAHGTTFRRAVEEGLLDCDRVVQIGLRAQGYTAEDFNWSRKQGFRVVQAEECWHKSLEPLMAEVREKVGGGPVYLSFDIDGIDPAWAPGTGTPEIGGLTTIQAMEIIRGCHGLDLIGCDLVEVSPPYDTTGNTSLLGANLLYEMLCVLPGVQRR	PGPT0007635_128	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	INSECTICIDAL_COMPOUNDS	INSECTICIDAL-GAMMA-AMINOBUTYRIC_ACID_BIOSYNTHESIS,PGPT0007635-gbuA-K12255	NA	NA
BMS010_09165	507			hypothetical protein	ATGGACGAAGCCTTACCCCCTCTCACTTTCCTTCGCTACAACCGCCCGTTGCGTGGCGTGATGATCGACAACCAACCCTGGTTTGACGCCCAGGACTTCTGCCGTCTCATCGGTCACCGCCATCCCCAGCGGATCAGCCGGATGATGGAGGACGACCAGATTCGTACCGTGCGTTTCCTCCACGCCAGCGGCGGCGAAGAAGACGCACAGGTCATCAACGAATCCGGTATCTATCGGGCTCTCGGTCGATACCCCCACCCGGAAAACCGCAGCCTGCGTCGCTGGCTCAATGTCGAGGTGATCCCGGCGCTGCGCGATGCCTTCTCGGCCGAGACACAACAGCCTCGCCGTACCCAGATGACCTGGGCCTCGCAACGGGTGAGTCTGCTGGAATGGCAAGGCAAGCTGTGGATACCGCTGGACAGCCTGCCATGGTTCGGAACTCGTCCGTTGCAAGACACCGGGAGCGGTTTGTTGAGGCGCTGTTGCGCTGAAGCGGGCGAATGA	MDEALPPLTFLRYNRPLRGVMIDNQPWFDAQDFCRLIGHRHPQRISRMMEDDQIRTVRFLHASGGEEDAQVINESGIYRALGRYPHPENRSLRRWLNVEVIPALRDAFSAETQQPRRTQMTWASQRVSLLEWQGKLWIPLDSLPWFGTRPLQDTGSGLLRRCCAEAGE				NA	NA	NA	NA	NA
BMS010_09167	753			hypothetical protein	ATGCCACGGGAAATGTCGGCCGGCAATCCAAATGCGCCGGTCCTCAGCGGCTCATTGAGTAATGCGCTCTACCGCCATGCCGAGCAACGCTGCTTCGCCTTCTTCATCTACCTGTTCTACGTGAAGATCCTGACGGAGCGCGGGAATAATCTGCACAACGCCAACCTCCAGGCCCACGATGCCGTCGAGCACAAGGCCACCCACCAGATCGACAGCGGCTTCCGTCAGCCGAACCAACCGCACTACTACGGCTTCGACGACAACGACCCCAACATCGTCAACCAGTCCGCCACCGCCTGCGGCAAGATGGACGCCGCGCACTTCTGCAACCTGGGCATCGACAGCCGCTACCAGAACGCTTTCGCGCAACTGGGACAGAATGATGCGGCACTGAACGATTACTACGAGAACCTGAAGAAAATCTGCGGCGACACCCGCATGCTGCCCCAGCGCATCAACATCGGCCCGGACCGCGTGATCGACCAGCTCCACGCCGAGCTGGCCGTGCGCTTCCTGCGCGCCGGTGGTCCACCGATCACTCGACAGAACGTTACGACCTACTGCCAGGAAGGCATCAAGCGCATCGCTCAGTACCAGGCCACCCGAGGCGCCGGCATCGTCGCCTGCGCCCAGCGCTACGCCGATTTCTACGCGGCGGCACAGAGCGAGATGTGGCAGTCGGTCTCCGGTTCGGTAGCCGCCTCCTGCGCGGCCCATGGCCTGCCGGTTACGGATTATCTGTCGTATCACTGA	MPREMSAGNPNAPVLSGSLSNALYRHAEQRCFAFFIYLFYVKILTERGNNLHNANLQAHDAVEHKATHQIDSGFRQPNQPHYYGFDDNDPNIVNQSATACGKMDAAHFCNLGIDSRYQNAFAQLGQNDAALNDYYENLKKICGDTRMLPQRINIGPDRVIDQLHAELAVRFLRAGGPPITRQNVTTYCQEGIKRIAQYQATRGAGIVACAQRYADFYAAAQSEMWQSVSGSVAASCAAHGLPVTDYLSYH				NA	NA	NA	NA	NA
BMS010_09168	453	ohrR_2		Organic hydroperoxide resistance transcriptional regulator	ATGGACACTTCCCGCTGTGACGACTTGCTGCTCGACAACCAGGTCTGTTTCGCCCTGTATTCCACGTCGCTGATGCTGACCAAGGTCTACAAGCCGATCCTGCAGGCCGTCGGCCTCACCTACCCGCAGTACTTGGCCATGCTGGTGCTCTGGGAACGCGACGGCATCACCGTGGGCGAACTCAGCGCCCGTCTGCTCACCGACCCCGGCTCGGTCACTCCCCTGCTCAAGCGCCTGGAAGGCGAAGGGCTGATCACCCGCACCCGCAGCAGCGCCGACGAGCGCGTCGTGGAATTGCGCCTGACCGACAAGGGCCGCGAACTGCAACAGCAGGCACAAGCCTTCCCCGCCTGCATCGTCGAAGCCAGCGGGCAATCGGCGGAGCAACTGATGGCGCTGAAGGACGAACTGGTGAAACTGCGCAGCCAGTTGCAACAGGCGCTGCCTGCCTGA	MDTSRCDDLLLDNQVCFALYSTSLMLTKVYKPILQAVGLTYPQYLAMLVLWERDGITVGELSARLLTDPGSVTPLLKRLEGEGLITRTRSSADERVVELRLTDKGRELQQQAQAFPACIVEASGQSAEQLMALKDELVKLRSQLQQALPA	PGPT0013155_2792	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
BMS010_09169	960	dmlR_20		HTH-type transcriptional regulator DmlR	ATGAATCCCGATACCCTCACCGACCAGTTCAGTCTGTTCCTCGACGTGCTGGACTCCGGCAGCTTCTCCGCCGCGGCCCGCCGCCATCCCCTGACCCCTTCCGCCGTGGCCCGACGCATCGACGCCCTGGAACGCGCCCTCGGCAGCACTCTGTTCATCCGCAGCACCCATGCCGTGCGCGCCACAACGGCCGGGCTGGCGTTCGCCGAGCGGGCCCGCCGGATACTCGCCGAACTGCGCCTGGCCCGCGCCGAAGCCGCCTCGCTGAGCAGCGCCCCGGAAGGTCTGATCCGCATCGACGCACCGGCGCCTTTCGGCCGCCGCCGACTGGCCCCGGCCATCGCCGAATTCCTCGCCGCCAATCCAGGGGTGGACGTGCAGTTGCGGCTGATCGACAGTTTCATCGATCTGCACGGCGAACACCTCGGCGAAGTGGACCTGGTGCTGCGCATCGGCCCGCTGGCCGACACCCGCCTGGTCGCCACTCCCCTGGCACCCCTGGTGCGCATTGCCTGCGCCAGCCCGGACTACCTCAAGCGCCGCGGCACTCCGCGCGAGCCGAGCGAACTGGTCGACCACGACGGCCTCGATTGGGACAGCCTCGCCCCGCCCTACGCCTGGCGCTTCCAACGCGCTGGCCGGCTCCAGCATTACAAGCCGCAACGCCAGCGGATGACCGCCAACAACGCCGAAGCCTTGCTGTTCGGCGCACTCGACGGGCTCGGCATCGCCCATCTGCCGACCTGGCTGAGCAGCGAGTATCTGCTGCGTGGCGAACTGGTCCCGCTGTTTTGCCAAGAGGGCCTGCCTGCGCCCGAGCCGAGCAGCATCTACGCCCTGCGCCTGGAGCGTGAAGCCAGTCCGCGCACCCGGCTGCTGCTGGCCTTCCTGCAGGAGCGCTTCGGCCATCCGCCGCCGTGGGATCAGGCGCTGCAGAGTCGCCTGGTGCCTTCCAGCTAG	MNPDTLTDQFSLFLDVLDSGSFSAAARRHPLTPSAVARRIDALERALGSTLFIRSTHAVRATTAGLAFAERARRILAELRLARAEAASLSSAPEGLIRIDAPAPFGRRRLAPAIAEFLAANPGVDVQLRLIDSFIDLHGEHLGEVDLVLRIGPLADTRLVATPLAPLVRIACASPDYLKRRGTPREPSELVDHDGLDWDSLAPPYAWRFQRAGRLQHYKPQRQRMTANNAEALLFGALDGLGIAHLPTWLSSEYLLRGELVPLFCQEGLPAPEPSSIYALRLEREASPRTRLLLAFLQERFGHPPPWDQALQSRLVPSS				NA	NA	NA	NA	NA
BMS010_09170	756			hypothetical protein	ATGAACCCTCTGGATATGCTGCTGAACCTGGTATTGGGCCTGGGTCTGGGAACGCTGGGTGGTCTGTTCGGCATTGGCGGCGGGTTGATCGCGATTCCCACGCTGGGCGTGCTGTTCAGCCTGGACCAGCAACTGGCCCAAGGCACGGCGCTGGTGATGGTGGTGCCCAACGTGCTGCTGGCGCTATGGCGCTATCACCAGCGTAATCGCATCGACCCGCGCCATGCCCTGGCGCTGGCGGCCTCGGGATTCTGCTTCGCCCTGCTCGGGGCGCGTTGGGCCGTGTCGCTGGATGCCGAACGGATGCGCATGGCCTTCGTCGGCTTCCTCGTGGCGTTGGCGTTCTACAACTTTGCCAAGGTGTTCCTGCGTCACGGCGGGGGCGGCACCGAGCTGCGGCACCCCTGGCCCTGGCTGGGGGCGCTGGGTAGCGGTGCGGGGTTGCTCGGCGGGCTGTTCGGGGTGGGCGGCGCCGTACTGGCGACGCCGGTACTGACCAGCGTATTCGGAACGACCCAGGTGATCGCCCAGGGCCTGTCGCTGGCGTTGGCGGCACCGAGCACTGGCGTCACGCTGGCGACCTACGCACTCCACGATCATGTCGATTGGCTACTGGGCATTCCCTTGGCGATAGGCGGCCTGCTCAGCATCAGTTGGGGCGTGCGGCTCGCCCATTCCCTGCCGGAGCGCGTATTGCGGGCAATGTTCTGCGGCTTCCTGTTGCTTTGCGCGGCGTCGCTGGCCCTTAAAGTTTGA	MNPLDMLLNLVLGLGLGTLGGLFGIGGGLIAIPTLGVLFSLDQQLAQGTALVMVVPNVLLALWRYHQRNRIDPRHALALAASGFCFALLGARWAVSLDAERMRMAFVGFLVALAFYNFAKVFLRHGGGGTELRHPWPWLGALGSGAGLLGGLFGVGGAVLATPVLTSVFGTTQVIAQGLSLALAAPSTGVTLATYALHDHVDWLLGIPLAIGGLLSISWGVRLAHSLPERVLRAMFCGFLLLCAASLALKV				NA	NA	NA	NA	NA
BMS010_09171	855	hdfR_7		HTH-type transcriptional regulator HdfR	ATGAGCAGCTACGTCGGTATCGACACGGAACTCCTGCGCACCTTCGTTGCGATTGCCGATACGGGCGGTTTCACCCGCGCGGCCGAGGCCGTCAACCGCACCCAGTCGGCAGTCAGCATGCAGATGAAGCGGCTGGAAGAAGAAGTGCTGGAACGGGCGCTGTTCGAGCGCGATGGCCGGCAGGTTCGGCTCACACCCGAAGGCCAGGTGCTGCTCGGCTACGCACGGCGCATCCTCAAGCTACATGGCGAAGTACTGACCACCCTGCGCGAACCGCACATGGTCGGCTCGGTGCGCATCGGTACGCCGGACGACTATGTCATGCGCTTCCTGCCCGGCATCCTCTCGCGCTTCGCCCAGGCCTACCCGCTGGTTCAGGTGGAGGTGCATTGCGACTCGTCCTTCCAGCTTCTCCAGCGCAGCGACCTCGATCTCAGCATCATTACCCGCGAACCGGGCAAGGAAATCGGCCAGTTGTTGCGCCAGGAGCATGTGGTGTGGGCCGAGGCCATCGGCTTTGCCCCACACGAGCAGAACCCGTTGCCGCTGGCGATGTTCAATGCGGATTGCTTCTGCCGCTCCTGGGCCTGTAATGCCCTGGACAGCCTGGAACGCCCCTACCGCGTCGCCTACACCAGCCCCAGCCTCTCGGCGATCATGGCGGTGGTCAGCGCCGGCCTGGCCATCACCGCCCAGCTGCAGAGCCTGATTCCACCGGACATGCGCATCCTCGGCGAAGCCGAGGGCCTGCCAGGCATGCCGATGGCGAGCATCGTGCTGCTGCGCAACCCGCACAGCCAGAACCCGGTCACCGAGTGCCTGGCCGAGCACATCGCCGAAGGCTTCAAACTTTAA	MSSYVGIDTELLRTFVAIADTGGFTRAAEAVNRTQSAVSMQMKRLEEEVLERALFERDGRQVRLTPEGQVLLGYARRILKLHGEVLTTLREPHMVGSVRIGTPDDYVMRFLPGILSRFAQAYPLVQVEVHCDSSFQLLQRSDLDLSIITREPGKEIGQLLRQEHVVWAEAIGFAPHEQNPLPLAMFNADCFCRSWACNALDSLERPYRVAYTSPSLSAIMAVVSAGLAITAQLQSLIPPDMRILGEAEGLPGMPMASIVLLRNPHSQNPVTECLAEHIAEGFKL				NA	NA	NA	NA	NA
BMS010_09172	234			hypothetical protein	ATGAAATTCCAACGTGGTTACGCCATTGCTTCTACATTTCCTCAGGCCCGCCACGGCTTCGGCCGCCTGCTGGCGACTGCCTGGAAGCGGCTGCAACGCTGGCTGGCGCTGGCTGAGCAGCGTCGGCAACTGGCCGCTTTGAGCGACGAGGCGCTCAAGGATATCGGCCTGTCACGGGCGGATATCTATCAGGAAAGCGAGCGGCCGTTCTGGATCGATCCGCTCAAGCGCTGA	MKFQRGYAIASTFPQARHGFGRLLATAWKRLQRWLALAEQRRQLAALSDEALKDIGLSRADIYQESERPFWIDPLKR				NA	NA	NA	NA	NA
BMS010_09173	477			hypothetical protein	ATGACCCAGCACTACCATTTGGCCCAGGTGAACGTGGCCAAGGCCAGGGCACCCCTGGATGATCCGCTCATGCAGGGGTTCGTCGAGCAATTGGATCACATCAACGCCCTGGCGGAGCGCAGTCCGGGCTTCGTCTGGCGGCTCAAGGACGAGGCTGGCGATGCCACGGCGATCCGGTTGTTCGACGATCCTTCGATCATCGTGAACCTGTCGGTATGGCAATCCCTGGAGGCGCTCAAGGCGTATGTCTACCAGGGCGATCACCTGACGGTCCTGCGCGATCGCAAGCAGTGGTTCGAGAAACTGGCGATCCCGCATCTGGCGCTCTGGTGGATTCCGGCCGGGCAGGTACCGACCCTGGAGGAGGCGCGGCGGGCTCTGCTCAGTCTGGATGCGCATGGCCCGAGCGAGCGGGCGTTCACTTTCGCGCGGCCGTTTTCGGTGCCGGGTGAAAAGGTGGCGGTGCAAGCGGTCTGA	MTQHYHLAQVNVAKARAPLDDPLMQGFVEQLDHINALAERSPGFVWRLKDEAGDATAIRLFDDPSIIVNLSVWQSLEALKAYVYQGDHLTVLRDRKQWFEKLAIPHLALWWIPAGQVPTLEEARRALLSLDAHGPSERAFTFARPFSVPGEKVAVQAV				NA	NA	NA	NA	NA
BMS010_09174	1218			hypothetical protein	ATGTCCGCTGCGTTGTCGTTGTCGCTAAAAGAGGCTCGCCGTCTCGCGCTGGCGGCCCAGGGTTTTACCAGCCGCCGGCCGACCGCCGCGATCCGTGCGGCACATCTGCTCAAGGTGATCGAGCGTCTCGGCGTCGTACAGATCGATTCGGTGAACGCCTTGGTGCGTTCCCATTACCTGCCGCTGTTTTCCCGTCTCGGCATCTACCCCCGCAAACTGCTCGACCAAGCCGCCTGGGGCACCGGGCGGCAGCGGGCGTTGTTCGAATACTGGGGGCATGAGGCTTCGCTGCTGCCGCTGGAGCTGTATCCCGCGATGCGCTGGCGAATGCGCCGAGCCGCACGTGGGGAGGGCATCTACCGACAGTTGGCGCGCTTCGGCGTGGAACAGCAGCCGCTGATCCAGCGCGTACTGCAAACAGTGCGGGAGCAGGGGGCGCTGGGGGCGGGCAGCCTGTCCACGCGACAGGAGCGGGCGGGCCCCTGGTGGGATTGGAGTGCGGAGAAGCACGCGCTGGAGTGGCTGTTCGCTGCCGGTGAGGTGACGGTTGCCGGCCGGCGGGGGTTCGAGCGGCTGTACGATCTGCCGGAGCGGGTCATCCCATCCGTTATCCTGGCGCAGCCCGAGCCGGAAGAGGCGGAAGCGCAGCGCCGGCTGTTGCTGCGTTCGGCGGCGGCCCTGGGCGTGGCGACGGAAAAGGACCTGCGCGATTACTACCGGCTCGACCCGGCCGACAGCCGTGCGCGCGTGGCCGAGCTGGTGGAGAACGGCGACCTGTCGGTTGCCCGGGTGCAGGGTTGGGACAAGCCGGCCTACTGCCTGGGCGAGCCGAGGGTTCCGCGCAAGGTGGCGGCCAGTGCCTTGCTGTCGCCGTTCGATTCGCTGATCTGGGAGCGGGCGCGGACCGAGCGCCTGTTCGATTTCCATTACCGCCTGGAGATCTACACCCCGCCGCACAAGCGGGTGTATGGCTACTACGTGCTGCCGTTCCTCCATCATGAACGCCTTGTCGCGCGGGTCGATTTGCGTAGCGAGCGGGCCCACGGGCGCCTGGCGGTGCATGCCGTTCACAGCGAGGAGGCGGGGTTGCACGAGGAAGCGCTCGCCGCCCTGGCGGGCGAGCTGCGGGCCCTGGCCGATTGGCTCGAGCTGCCGAGCGTGGTGCTGAACTGCCGGTCCGCACTGGCCGCTCGGCTGCGGCCGTTGTTGCAATGTTGA	MSAALSLSLKEARRLALAAQGFTSRRPTAAIRAAHLLKVIERLGVVQIDSVNALVRSHYLPLFSRLGIYPRKLLDQAAWGTGRQRALFEYWGHEASLLPLELYPAMRWRMRRAARGEGIYRQLARFGVEQQPLIQRVLQTVREQGALGAGSLSTRQERAGPWWDWSAEKHALEWLFAAGEVTVAGRRGFERLYDLPERVIPSVILAQPEPEEAEAQRRLLLRSAAALGVATEKDLRDYYRLDPADSRARVAELVENGDLSVARVQGWDKPAYCLGEPRVPRKVAASALLSPFDSLIWERARTERLFDFHYRLEIYTPPHKRVYGYYVLPFLHHERLVARVDLRSERAHGRLAVHAVHSEEAGLHEEALAALAGELRALADWLELPSVVLNCRSALAARLRPLLQC				NA	NA	NA	NA	NA
BMS010_09175	1347	aroH_2	COG3200	Phospho-2-dehydro-3-deoxyheptonate aldolase	ATGACCGACACCTGGAGCCCCGACAGCTGGAGAGCCAAGCCGATCCAGCAACAACCCGAATACCCCGACGCCGCGCACCTGGCACAGGTCGAGCAGACCCTGGCCGGCTTCCCGCCGCTGGTATTCGCCGGTGAAGCCCGCGAGCTGCGCCGGCAGTTCGCCGAGGTGACCCAGGGGCGCGCCTTCCTGCTCCAGGGCGGCGACTGCGCCGAAAGCTTCGCCGAGTTCTCCGCGGCGAAGATCCGCGACACATTCAAGGTACTGCTGCAGATGGCCATCGTCATGACCTTCGCCGCCGGCTGCCCGGTGGTGAAAGTCGGCCGCATGGCCGGCCAGTTCGCCAAGCCACGCTCGTCCGGTGACGAAACCCAGGGCGACGTCACCCTGCCCGCCTACCGGGGCGACATCGTCAACGGCATCGGCTTCGACGCGAAGAGCCGCATCCCCGACCCCGAGCGCCTGCTCCAGGCCTACCATCAGTCCACGGCCAGCCTCAACCTGCTGCGCGCCTTCGCCCAAGGCGGCTTCGCCGACCTGCACCAAGTGCACCAGTGGAACCTGGACTTCATCGCCAACTCCGCCCTGGCGGAGAAATACAGCGCACTGGCCGACCGCATCGACGAAACCCTCGCCTTCATGCGCGCCTGCGGACTGGATACCGCACCACAACTGCGCGAAACCAGCTTCTTCACCGCACACGAAGCGTTGCTGCTGAACTACGAACAAGCCTTCGTCCGCCGCGACAGCCTCACCGGCGGCTGGTACGACTGCTCCGCTCACATGCTCTGGATCGGCGACCGCACCCGCCAGCCGGACGGCGCCCATGTGGAATTCCTGCGCGGCGTGGGCAACCCCATCGGGGTCAAGGTCGGCCCGAGCATGACCGACGAGGACCTGATCCGCCTGATCGACATCCTCAACCCGGACAACGACCCCGGCCGCCTCAACCTGATCGTGCGCATGGGCGCCGACAAGGTGGAAGCCGGCCTGCCGCGGCTGATCCGCACCGTGCAGCGCGAAGGTCGTCAGGTGCTGTGGAGTTCCGACCCGATGCACGGCAATACCATCAAGGCGTCCAGCGGCTACAAGACCCGCGACTTCGAGCGCGTCCTCGCCGAGGTGAAGCAGTTCTTCGATGTACACCACGCCGAAGGCACCTATGCCGGCGGTATCCACATCGAAATGACCGGGCAGAACGTCACCGAGTGCATCGGCGGCGCCCGGCCGATCACCGAGGACGGCCTCTCGGACCGCTACCACACCCACTGCGACCCGCGCCTCAACGCCGACCAGTCGCTGGAGCTGGCCTTCCTCATCGCCGAGACGCTGAAGCAGGTTCGTCGGTAA	MTDTWSPDSWRAKPIQQQPEYPDAAHLAQVEQTLAGFPPLVFAGEARELRRQFAEVTQGRAFLLQGGDCAESFAEFSAAKIRDTFKVLLQMAIVMTFAAGCPVVKVGRMAGQFAKPRSSGDETQGDVTLPAYRGDIVNGIGFDAKSRIPDPERLLQAYHQSTASLNLLRAFAQGGFADLHQVHQWNLDFIANSALAEKYSALADRIDETLAFMRACGLDTAPQLRETSFFTAHEALLLNYEQAFVRRDSLTGGWYDCSAHMLWIGDRTRQPDGAHVEFLRGVGNPIGVKVGPSMTDEDLIRLIDILNPDNDPGRLNLIVRMGADKVEAGLPRLIRTVQREGRQVLWSSDPMHGNTIKASSGYKTRDFERVLAEVKQFFDVHHAEGTYAGGIHIEMTGQNVTECIGGARPITEDGLSDRYHTHCDPRLNADQSLELAFLIAETLKQVRR	PGPT0012920_1933	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-PHENAZINE_DERIVATES	BIOTIC_STRESS_RESISTANCE-PHENAZINE-1-CARBOXYLIC_ACID_BIOSYNTHESIS,PGPT0012920-3_deoxy_7_phosphoheptulonate_synthase|aroF|aroG|aroH-K01626	NA	NA
BMS010_09176	750	speE_2		Polyamine aminopropyltransferase	ATGGAAAAAGAGGAACGCCTGCTCGCAGAGGTCCGTGACGAGTTCGGCCTGATCCGTGTACTGGAGGTGGGCGACTACCGGTTCCTCGAATTCGGTGAGTCGGTGGAGCAGAGCTGCGTATTCACCCGCGATCCAAGCTGGCTGGAGTACGACTACACCCGCGCCATGCTGCTCGGTGCGCTCTGCCACGAGGCGCCGGAGAGTGCGCTGTTCCTCGGCCTGGGGGCCGGCAGCCTGACCCAGGCGTGCCTGAAGTTCCTGCCGCTGGAGGATGTCGAGGCCATCGAGCTGCGTCCCGATGTGCCGCGCCTGGCTATGGATTACCTCGGCCTGACGGACGATCCGCGCCTGTATATCCGCGTCGGCGATGCACTGGATCTGCTGAATACGGCGGAAAAAGCAGACCTGGTGTTCGTCGATCTCTATACCGATACCGGGCCGGGCGTTGGGCATCTGGCCTGGCGTTTTCTCGAGCGTTGCCAGCAGCAGCTCAATCCGGGCGGCTGGCTGGTGATCAACCAATGGACCAACGACGAGGGCAAGCCGCTCGGTGCGGCGCTGCTGCGCGGGCTCTATCACCGGCATTACTGGGAGTGCCCGGTGAAGGAGGGCAACGTGATCCTGCTGGTGCCGGCCGATCTCGAACAGGACCTCGATCTGGACGGCCTGGTCGCCAGGGCCGATGCGCTGGCACCCAGGCTCGGCTATTCCCTGCGGCCGTTGATCGAGGTGCTGCGTCCGGCGACCTGA	MEKEERLLAEVRDEFGLIRVLEVGDYRFLEFGESVEQSCVFTRDPSWLEYDYTRAMLLGALCHEAPESALFLGLGAGSLTQACLKFLPLEDVEAIELRPDVPRLAMDYLGLTDDPRLYIRVGDALDLLNTAEKADLVFVDLYTDTGPGVGHLAWRFLERCQQQLNPGGWLVINQWTNDEGKPLGAALLRGLYHRHYWECPVKEGNVILLVPADLEQDLDLDGLVARADALAPRLGYSLRPLIEVLRPAT				NA	NA	NA	NA	NA
BMS010_09177	414			hypothetical protein	ATGTTGGTTCAAGCCTATCTATTCTTCCACGGCCGTTGCGAAGAGGCCCTGACCTTCTACCGGCAGGCGCTGGGCGCGGAGGTGTCGGAGCTGCTGCGTTTCAGCGACAGCCCCGATCCGCTGCCGGAAGGCATGCTGCCACCTGGCTACGAAAGCAAGGTGATGCATTGCTGCTTCCGTATCGGTGAGGCACAGGTGATGGCGTCCGACGGTTGTAGCGCGGAGCAGCTCGGCTTCAAGGGCTTTTCCCTGTCGATCACGCTGCCGAGTGCAGCTGAGGCCGACCGGATCTTCACGGCGCTGGGCGAGGGCGGCCAGGTGCAGATGCCGCTCGGCAAGACCTTCTGGTCGCCCTGCTTCGGCATCGTGATGGACCGCTTCGGTGTGTCCTGGATGCTCAATGTGATCGAATGA	MLVQAYLFFHGRCEEALTFYRQALGAEVSELLRFSDSPDPLPEGMLPPGYESKVMHCCFRIGEAQVMASDGCSAEQLGFKGFSLSITLPSAAEADRIFTALGEGGQVQMPLGKTFWSPCFGIVMDRFGVSWMLNVIE	PGPT0030505_1628	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030505-phnB|yjdN-K04750
BMS010_09178	423			hypothetical protein	ATGCGTTTCATGATGCTGATGATCCCCAAGGGCTACGAGAAAGCGGCACCGGGCACCACACCTGACCCGGAAGCGGTGGCGGCGATGATGAAGTACAACGAATCCCTGCAGGAGGCCGGTGTGCTGCTCGCGCTGGATGGGCTGCATCCGCTGGCTTCCGGCGCGCGGGTGTCGTTCGCCGGGGGCAAGCCGACCGTGACCGATGGTCCCTACGTGGAAACCAACGAGGTACTGGGCGGCTACTGGATGATCCGGGTGAATTCGAAGGAAGAAGCCATCGAGTGGGCGAAGCGCTGCCCGGCGGGCGACAACGAAGTGATCGAGTTGCGCCAGGTGTTCGAGATGGAGGACTTTCCCGCCGATGTGCAGGAGGCGGCGTCCGGCTTCACCGAGATGCAGGCATCGGCGCAGGACTCGCACTAG	MRFMMLMIPKGYEKAAPGTTPDPEAVAAMMKYNESLQEAGVLLALDGLHPLASGARVSFAGGKPTVTDGPYVETNEVLGGYWMIRVNSKEEAIEWAKRCPAGDNEVIELRQVFEMEDFPADVQEAASGFTEMQASAQDSH	PGPT0030505_40	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030505-phnB|yjdN-K04750
BMS010_09179	792	caiD_2		Carnitinyl-CoA dehydratase	ATGGCAGAAAGCCCCAACGGCCGCGTCAGCCGCGAGAAACGCGGCCATGTCCTGTTGCTCGGCCTGGATCGCGTGGCCAAGCGCAATGCCTTCGATATCGAGATGCTGAACGACCTGGCGCTCGCCTACGGCGAGTTCGAGGACGACAACGAGGCGCGGGTCGCCCTGGTTTTCGCCCACGGCGAGCATTTCACCGCCGGCCTGGACTTGGCCAAGGTCGCACCGGTGTTCGCCGAAGGCTGGGAGATTCCCGAAGGCGGCTGCGATCCCTGGGGGGTATTCAATGGCCATCGTGTCAGCAAGCCGGTGATCGTCGCCGCCCAAGGCTACTGCTTCACCATTGGCATCGAACTGATGCTCGCCTCGGACATCTGCCTCTGCGCCAGCAATACCCGCTTCGCCCAGATGGAAGTACAGCGCGGCATCTTCCCCTTCGGCGGTGCCACCCTGCGCCTGCACCAGCACGCGGGCTGGGGCAACGCCATGCGCTGGCTGCTCACCGGTGACGAATTCGATGCCCACGAAGCCTACCGGCTCGGCCTGATGCAGGAAGTGGTGGCTAGCGAAGACCTGCTGCCACGCGCGCTCTGGCTGGCCGAACGGATCGCGGCACAAGCGCCTCTTGGGGTACAGGCCACGTTGGCTTCGGCGCGCCAGGCGGTACGCGAAGGCGAGCAGGCGGCGATCCGCAGCCTGGTTCCCATCGTGCGTACACTCATGGCTACGGAAGACGCGCAGGAAGGCGTCCGCGCCATGCTCGAACGCCGCCCCGGAAATTTCCAGGGACGTTGA	MAESPNGRVSREKRGHVLLLGLDRVAKRNAFDIEMLNDLALAYGEFEDDNEARVALVFAHGEHFTAGLDLAKVAPVFAEGWEIPEGGCDPWGVFNGHRVSKPVIVAAQGYCFTIGIELMLASDICLCASNTRFAQMEVQRGIFPFGGATLRLHQHAGWGNAMRWLLTGDEFDAHEAYRLGLMQEVVASEDLLPRALWLAERIAAQAPLGVQATLASARQAVREGEQAAIRSLVPIVRTLMATEDAQEGVRAMLERRPGNFQGR	PGPT0001860_4098	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0001860-paaF|echA-K01692	NA	NA
BMS010_09180	1665	deaD_3	COG0513	ATP-dependent RNA helicase DeaD	ATGACCCAGGAAACCGGCGGCTTCGCCGCGCTCGGCCTTCATCCCGCTGTACTCTCCGCAATCTCCGCGGTGGGTTACGAAGAACCTTCCCCCATTCAGGCCCAGTCGATCCCGGTGATCCTCGGCGGCCACGACATGATCGGCCAGGCCCAGACCGGCACCGGCAAGACCGCGGCCTTCGCGCTGCCGCTGCTGAGTCGTCTCGACCCGTCCCGTCGCGAGCCCCAGGTGCTGATCCTGGCGCCGACCCGCGAGCTGGCCCTGCAAGTGGCCACCGCATTCGAAACCTATTCCAAGCAGATGCCCGGCGTCGGTGTCGTCGCCGTCTACGGTGGCGCGCCCATGGGGCCGCAACTCAAGGCACTGCGCCAGGGTGCGCAGATTCTGGTCGCCACGCCCGGCCGTCTATGCGATCACCTGCGCCGCGACGAAAAGATGCTCTCGACCGTGCAGCACTTGGTGCTCGACGAGGCCGACGAGATGCTCAAGCTCGGCTTCATGGACGACCTGGAAGTGATCTTCCAGGCGTTGCCGGAAGAGCGCCAGACCGTGCTGTTCTCCGCGACCCTGCCGCATTCGATCCGCGCTATTGCCGAAAAGCATCTGCGTAACCCGCAGCACGTCAAGATCGCCGCCAAGACCCAGACTGTGGCGCGTATCGAACAGGCCCACCTGATGGTGCATGCCGACCAGAAGACCGCAGCGGTGCTGCGCCTGCTGGAGGTGGAGGAGTTCGACGCGCTGATCGCCTTCGTGCGTACCAAGCAGGCCACCCTCGACCTGGCCAGTGCGCTGGAAGCCAAGGGCTACAAGGCGGCCGCGCTGAACGGCGACATCGCGCAGAACCAGCGCGAGCGGGTGATCGACTCGCTGAAGGACGGCCGTCTGGACATCGTGGTCGCCACCGACGTGGCAGCGCGTGGTATCGACGTACCGCGCATCACCCACGTATTCAACGTCGACATGCCGTACGACCCGGAGTCCTACGTGCACCGTATCGGCCGTACCGGTCGTGCCGGTCGCGATGGCCGTGCGCTGTTGCTGGTGACGCCGCGCGAGCGCCGTATGCTGCAGGTGATCGAGCGCGTCACCGGGCAGAAGGTTGCCGAGGTACGCCTGCCGAATGCCCAGCAGGTACTGGACGCCCGCATCAAGAAACTGACCGCCAGCCTGGTGCCGCTGGTGGCCGATGCCGAGGAAACCCACGGCGAGCTGCTCGACCGCCTGATCGCCGATATCGGTTGCAGCCCGCGTGCCCTGGCGGCGGCGTTGCTGCGCAAGGCCACCCATGGCCAGGCGCTCAACCTCGCCGAAGTCGAGCGCGAGCAGCCGCTGGTGCCGAGTGCGGCTCCGCGCGAGCGCAGCGAACGTTCCGGTGAGCGTGGCGAATACCGCGAGCGTCGTGCGCCCATGCCGCTGGCCGAAGGCCGTGCGCGTTGCCGTACCTCGCTGGGTGCGCGTGACGGGATCGCGGCGAAGAACCTGCTCGGCGCCATCCTCAACGAGGGCGGCCTGGCTCGCGAGGCCATCGGGCGTATCCAGATTCGCGAGACGTTCAGCCTGATCGAGCTGCCGGAAGAAGGGCTGGATCGCCTGCTCGGCAAGCTCAAGGACACCCGTGTGGCCGGCAAGCAGTTGAAGCTGCGTCGGTACCGCGAGGACTGA	MTQETGGFAALGLHPAVLSAISAVGYEEPSPIQAQSIPVILGGHDMIGQAQTGTGKTAAFALPLLSRLDPSRREPQVLILAPTRELALQVATAFETYSKQMPGVGVVAVYGGAPMGPQLKALRQGAQILVATPGRLCDHLRRDEKMLSTVQHLVLDEADEMLKLGFMDDLEVIFQALPEERQTVLFSATLPHSIRAIAEKHLRNPQHVKIAAKTQTVARIEQAHLMVHADQKTAAVLRLLEVEEFDALIAFVRTKQATLDLASALEAKGYKAAALNGDIAQNQRERVIDSLKDGRLDIVVATDVAARGIDVPRITHVFNVDMPYDPESYVHRIGRTGRAGRDGRALLLVTPRERRMLQVIERVTGQKVAEVRLPNAQQVLDARIKKLTASLVPLVADAEETHGELLDRLIADIGCSPRALAAALLRKATHGQALNLAEVEREQPLVPSAAPRERSERSGERGEYRERRAPMPLAEGRARCRTSLGARDGIAAKNLLGAILNEGGLAREAIGRIQIRETFSLIELPEEGLDRLLGKLKDTRVAGKQLKLRRYRED				NA	NA	NA	NA	NA
BMS010_09181	876	rhaR_8		HTH-type transcriptional activator RhaR	ATGACCTGGCACACGGAAGGGATCAGCGTCACTGCGCCGGTGAAATGGCGGCAGTTCGACGGGCTGGTCAGTGCTTTCTGGGAAGCGGAAAGCCAGATGGGAGCGAAGGGTTATTATCTGGCCGCCGATCCGCGCATCATGATCTTTTTCAACGATGTCTCCTCGCGCATCAGCATGTCCAACCGCAATGGCGAATTCACCAACCATTCGCGGCCGATGACACGGGCGGTTTATGTGCCGGCCGGCGTACCGATGTGGACGAGCAGCAGCGCCACGCACCGGTTCTCGCATCTCAACCTGCATATTCACAAGGACCGCCTGTTGCGTTTCCTGTCACCTTCGGTGGGCAGTTCGGCGGCGATGACGGCGCTGCGCCGTCCCGTCGAGATACAGGATATCGGCTCGGTGGAAACCCTTGCCGGGCTGCTGGTCGATGAGCTAGCTGAACCCTCGAAACATGCGGTCTATGCGGAAAGCCTCGTCGGCAGCATCGTTGCCGGCCTGCTGGATATTCCCGGCTCTTCGCCGGAGCAGGTCAATGGCAGGCTGACGCAGGCGCAGTTGAACAAGCTTCTTGCCCAGGTCGAAAAGCGTGGCGACGACCGCATGACGGTTGCCGAAATGGCCGATATTGTCGGTCTTTCGGAAAGCTGGTTCGCCACCGTATTTCGCCAGACCACCGGCAAGACGCCGCTGCAATGGCAATTGGAGCGGCGCATCAATGCCGCCCAGAAACTTCTGCTGGAAGGCGATCTGACGGTGGCCGATATCGCCGCTCAGCTTGGCTTTTCCGATCAGGCCCATCTGACCAAGGCTTTCCGCCAGTCCGTGGGCAACACACCAGCCGCCTGGCGACGGCTGCACCGGCTGCTTTGA	MTWHTEGISVTAPVKWRQFDGLVSAFWEAESQMGAKGYYLAADPRIMIFFNDVSSRISMSNRNGEFTNHSRPMTRAVYVPAGVPMWTSSSATHRFSHLNLHIHKDRLLRFLSPSVGSSAAMTALRRPVEIQDIGSVETLAGLLVDELAEPSKHAVYAESLVGSIVAGLLDIPGSSPEQVNGRLTQAQLNKLLAQVEKRGDDRMTVAEMADIVGLSESWFATVFRQTTGKTPLQWQLERRINAAQKLLLEGDLTVADIAAQLGFSDQAHLTKAFRQSVGNTPAAWRRLHRLL				NA	NA	NA	NA	NA
BMS010_09182	177			hypothetical protein	ATGGACAGCAAAAAGGAACCGGGCAACTTCGCGGACAAGAAACGCGAAGAGAAGGGCCGTGGCGTCATCGTGGCCGGGCCGGATGCGCACGAAAACGAAAAGAGCGGCAAAGCTCCCTCGGCAAAGGCGGAGAAATCTTCATCCGGCAAACCGGTTGCGGCTTCTGACCGGCGATAA	MDSKKEPGNFADKKREEKGRGVIVAGPDAHENEKSGKAPSAKAEKSSSGKPVAASDRR				NA	NA	NA	NA	NA
BMS010_09183	2172	katG	COG0376	Catalase-peroxidase	ATGGACGCAACTTCAAAACCGGCTGGCAAGTGTCCTGTCATGCATGGAGGCAACACGGCCTCGGGTAAATCGGTGACCGAATGGTGGCCGAATGCGCTGAACCTCGACATCCTGCACCAGCACGACACCAAGACCAATCCGCTCGGCACCTCCTTCAACTATCGCGAAGCCCTGAATACGCTCGATGTCGAAGCGTTGAAGGCCGATCTGCGTGCACTTATGACCGACAGCCAGGACTGGTGGCCGGCGGACTGGGGCAGCTATGTGGGCATGATGGCGCGCGTTACCTGGCATGCCGCGGGTTCCTACCGTGTGACTGACGGCCGCGGCGGCGCCAATACCGGCAACCAGCGTTTTGCGCCGCTCAATTCCTGGCCGGACAACGTCAACACCGACAAGGGCCGCCGCCTCCTGTGGCCGATCAAAAAGAAATACGGCAACAAGATTTCCTGGGCAGACCTGATCGCGCTCGCCGGCACCATTGCCTATGACGTCGCCGGTCTGAAGACCTTCGGCTTTGCTTTCGGCCGCGAAGATATTTGGGCTCCGGAAAAGGACACCTATTGGGGTGACGAAAAGGAATGGCTGGCGCCGAGCGACGGCCGTTACGGCGACGTGACCAAGCCCGCGACGCTGGAAAACCCGCTCGCTGCCGTGCAGATGGGCCTCATCTACGTCAACCCGGAAGGCGTGAACGGCAAGTCCGATCCGCTGGCGACGGCGGCGCAGATGCGCGAAACCTTTGCCCGCATGGGCATGGATGACGAAGAAACCGTGGCGCTTACCGCCGGCGGCCACACCATCGGCAAGTCGCACGGCAATGGCAGCGCCGCCAACCTCAGCCCCGATCCGGAAGCAGCAGGCCCGGAATTTCAGGGTCTCGGCTGGATCAACACCAAGGGCCGCGGCATCGGTCGCGACACCGTGGTATCCGGCATCGAGGGCGCGTGGACGAGCGAGCCGACCAAGTGGGACAACGGTTTCTTCGATATGCTGTTCAAGCATGAGTGGACGTTGACGCACAGCCCCGCCGGTGCATCGCAATGGGCGCCGATCACCATTGCCGAGGAAGACAAGCCTGTCGACGTCGAGGATGCCTCGATCCGCACCATTCCGATGATGACCGATGCCGACATGGCCCTGAAGGTCGACCCGATCTACCGCGAGATTTCGCTGAAGTTCAAGGACGATCAGGACCATTTCTCCGAGGTCTTTGCCCGCGCCTGGTTCAAGCTGACCCACCGCGACATGGGGCCGAAGTCCCGTTATTTCGGCCCGGACGTTCCGGCGGAAGACCTGATCTGGCAGGATCCCATCCCCGCAGGCTCCACCAGCTACGATGTCGCCGCCGTCAAGGCTAAGATCGCGGCTTCTGGCCTTTCCGTTGCCGATCTGGTTTCGACCGCCTGGGACAGCGCCCGCACCTTCCGCGGTTCTGACAAGCGCGGCGGCGCCAATGGCGCGCGCATCCGCCTTGCACCGCAGAAGGACTGGGAAGGCAATGAGCCCGCCCGTCTGTCCCGTGTGCTCTCGGTTCTGGAACCGATTGCCCGTGAAACCGGCGCAAGCATTGCGGATGTGATCGTTCTGGCCGGCAATTACGGTGTGGAACAGGCGGCGAAAGCGGCCGGGTTCGACATTGCCGTGCCTTTCGCGGCCGGCCGTGGCGATGCTTCCGCCGAGCAGACGGATGCCGACAGCTTTGCGCCGCTGGAACCGCTGGCGGATGGTTTCCGCAACTGGGTCAAGAAGGACTATGTCGTCAGCCCCGAAGAGCTGCTTCTGGACCGCGCCCAGCTCCTCGGCCTGACCGCGCCGGAATTGACAGTGTTGATCGGCGGCCTGCGCGTCATCGGCGCCAATTATGCCGGTACGGCCCATGGCGTGTTTACCGACAAGCCCGGCGCGCTGACGACGGACTTCTTCACGACGCTGACGGACATGGCCTATTCCTGGGTTCCGACCGGCAACAATCTCTATGAGATTCGTGACCGCAAGACCGGGGCCGCCAAGTACACGGCGACCCGCGTGGACCTCGTCATCGGTTCGAACTCCATCCTGCGCGCCTATGCGGAAGTTTATGCGCAGGACGACAGCAGGGAGAAATTCGTGCGTGATTTCGTCGCCGCATGGACGAAGGTGATGAACGCCGACCGTTTCGATCTTTTGTAA	MDATSKPAGKCPVMHGGNTASGKSVTEWWPNALNLDILHQHDTKTNPLGTSFNYREALNTLDVEALKADLRALMTDSQDWWPADWGSYVGMMARVTWHAAGSYRVTDGRGGANTGNQRFAPLNSWPDNVNTDKGRRLLWPIKKKYGNKISWADLIALAGTIAYDVAGLKTFGFAFGREDIWAPEKDTYWGDEKEWLAPSDGRYGDVTKPATLENPLAAVQMGLIYVNPEGVNGKSDPLATAAQMRETFARMGMDDEETVALTAGGHTIGKSHGNGSAANLSPDPEAAGPEFQGLGWINTKGRGIGRDTVVSGIEGAWTSEPTKWDNGFFDMLFKHEWTLTHSPAGASQWAPITIAEEDKPVDVEDASIRTIPMMTDADMALKVDPIYREISLKFKDDQDHFSEVFARAWFKLTHRDMGPKSRYFGPDVPAEDLIWQDPIPAGSTSYDVAAVKAKIAASGLSVADLVSTAWDSARTFRGSDKRGGANGARIRLAPQKDWEGNEPARLSRVLSVLEPIARETGASIADVIVLAGNYGVEQAAKAAGFDIAVPFAAGRGDASAEQTDADSFAPLEPLADGFRNWVKKDYVVSPEELLLDRAQLLGLTAPELTVLIGGLRVIGANYAGTAHGVFTDKPGALTTDFFTTLTDMAYSWVPTGNNLYEIRDRKTGAAKYTATRVDLVIGSNSILRAYAEVYAQDDSREKFVRDFVAAWTKVMNADRFDLL	PGPT0013165_2136	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PHENYLALANINE_DEGRADATION,PGPT0013165-katG-K03782	NA	NA
BMS010_09184	906	oxyR_3		Hydrogen peroxide-inducible genes activator	ATGATTGCGCTCTCCATGAAACATCTCCGTTATTTCGACGCTCTGGCCAAGATCGGCCATTTCGGTCGGGCGGCGGAGGCGTGCGCGATTTCCCAACCTGCACTATCTTTGCAGATCCGGGAACTGGAGGAATTGATCGGTGCGCCGCTCGTCGAACGCGGCAGCCGCCAGATCAGGCTGACCGCGCTTGGCGAGGAATTCGCCGAACGCACCCGCTCGATATTGCGTTCGGTGGACGAGTTGCAGGATCTGGCGCGTGCGGGGCACGGCCCTCTCAGCGGTCGCCTGCGCATCGGTGTCATTCCCACCGTCGCGCCCTATCTTTTGCCGCAGGTGATCAAGACGCTCACGCGGCATTATCCCGGACTGGAAGCACGCCCGCGCGAGGCGGTGACGCAGAAACTCATCGAGGACCTTCTGGAAGCCCGGCTCGACATGGCAATCGTCGCGCTGCCCGTTTCGGAACCGGCGCTGGAGGAGGTTCCGCTGTTTTCGGAGGAATTCATTCTGGTGCGGCCGATGGAGGATGCGGGCATGCCGGTGCCAAGCGCCGACAAGCTGGGCGAAATGCGCCTGCTGCTGCTGGAAGAAGGCCATTGTTTCCGCAACCAGGCGCTTTCCTTCTGCAGCACGACCAATGCGCCGCCCCGCGTGCTGATGGAAGGCTCCTCGCTCTCCACCCTCGTGCAGATGGTCGGCGCCGGCATCGGCGTCACACTCATTCCGCAGATGGCCGTCGATATGGAGACACGGCAATCCACCGTCTCAGTGTTCCGGCTGGCGGAACCGCGCCCGTCGCGCACCATCGGCATGGTGTGGCGCAAGAGCAATCCGCTCTCGGCGCAGTTCAGCCATATCGCCGAAATCGTCCGCGAATGCGGCCTTCAGAAACTCGGCCAGTCTTGA	MIALSMKHLRYFDALAKIGHFGRAAEACAISQPALSLQIRELEELIGAPLVERGSRQIRLTALGEEFAERTRSILRSVDELQDLARAGHGPLSGRLRIGVIPTVAPYLLPQVIKTLTRHYPGLEARPREAVTQKLIEDLLEARLDMAIVALPVSEPALEEVPLFSEEFILVRPMEDAGMPVPSADKLGEMRLLLLEEGHCFRNQALSFCSTTNAPPRVLMEGSSLSTLVQMVGAGIGVTLIPQMAVDMETRQSTVSVFRLAEPRPSRTIGMVWRKSNPLSAQFSHIAEIVRECGLQKLGQS	PGPT0012965_1663	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0012965-oxyR-K04761	NA	NA
BMS010_09185	1002			hypothetical protein	GTGAGCAGGCCGAATTACCGCGATATCGCCCGCCTCGCAGGCGTTGGAACCGCCACGGTCGAGCGGGTGCTAAACGGGCGCGGCGGCGTTCGTGCCGAACTCGTGGAAAAGGTCGTTCTTGCCGCACGCACACTGGATTATCCGCGCACCCTGCCGGAGACCCACCGAGGCCTCTTGCGCATAGAAGTGCTGATGGTACGCCCGGACACCACCTTTTACCGGCGGCTTTCCAAGGCCTTCGAAAGAATTGCGGCAACGCTTGACCCTCTCGTCGTTGTCCACCGCAGCTTCGCCGAAGAGATGAAGCAGGACGAGCTGGCGAGCCGCATCACCGCCGCCGCAGAGGCGCGCGCGGGCCTTATCCTCGCCAGTCCGAGCAGCCCGGCGGTTAGCGCCGCCGTCGAGGCGGCGGTGGCGCGCGGCGTGCCGGTCGTGCATGTCGTCACGCGCGCTTCGGCGGAAAAGGGCGAATTCATCGGCATCGACAATGGCGCGGCGGGACGGACGGCGGCGCATTTCATCACCCGCATGGCGCGCCAGCCCGGCCCGGTCATCGCGCTCTGCCATCCGATCTATCAGGTCCACCGCGACCGTATCGGCGGCTTTTCCGATTACTTCCGAGATCATCCCAGTGAACATCGCTTCGAATGGCTGGGCTTTACCCGCGACGACGAATATTACGGCGCCGAGGCCCTGCGCATGGCGCTCGATCTCTATCCCGACATGGCCGGACTCTATAATGCCGGCGGCGCGAATGCCGCCCTGATCGACGTTCTTCGCCGGCATCCGCGCGGCAGCGAGATATTCTTCGTCGGCCATGAATTGACCGATTATACCCGCAAGGCGCTGAATGACGGCATCATGGATATCGTGCTTGATCAGGCCCCCGAGGCGCAGGCCCGCCGGGCGCTGGATCTCGTCCTTCGCCGGATCGGTCTCACCGATATTGAGCCCGATAACGCGCCCATTCGCTTCGTCACCATCACCGCCGAAAGCCTTTGA	MSRPNYRDIARLAGVGTATVERVLNGRGGVRAELVEKVVLAARTLDYPRTLPETHRGLLRIEVLMVRPDTTFYRRLSKAFERIAATLDPLVVVHRSFAEEMKQDELASRITAAAEARAGLILASPSSPAVSAAVEAAVARGVPVVHVVTRASAEKGEFIGIDNGAAGRTAAHFITRMARQPGPVIALCHPIYQVHRDRIGGFSDYFRDHPSEHRFEWLGFTRDDEYYGAEALRMALDLYPDMAGLYNAGGANAALIDVLRRHPRGSEIFFVGHELTDYTRKALNDGIMDIVLDQAPEAQARRALDLVLRRIGLTDIEPDNAPIRFVTITAESL	PGPT0017992_12712	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017992-lacI|galR-K02529	NA	NA
BMS010_09186	1035			hypothetical protein	ATGGACGATCTGAAATATGGAACGCGTAACAAGCGCGGCGACTGGGCGCCCCACCAGCCGGTGGAAACAGCACCGCTCTTTGCCTTTCCGCCGCGCTTCGTGGCGGTGCTGAAGTGGCTCCCGCATTATTTTTTTCCGTGGAATGCGATCTTCGCGCTTTCTGCAGTCGGCTACTGGGCCTTTGTCATTCCGCCCGTCGAAACCATGGCCACGCTCGGCTTCGGCTGGATCGCCTGGCTTCATGCGGTCAATGCGGTCTGCGTCTTTCTCTTCTACGGCGGTTTCGAACTCCATCTCTATATTCTGAAGCGGCAGGAAAACCGCTTCAAATATAACGGCAAATTTCCCGCCGAACAGAAGAGCAATGCCTTCTGGTTCGAGAGCCAGAACCTCGACAACATCCTGCGCACCTTCCTTTCCGGCGTGACGATCTGGACCGCCATCGAAGTGGCGATGTTGTGGGCCTATGCCAATGGTTATGCGCCATGGCTCAGCTTTGCCGAAAATCCGTGGACGCTCGCAGCCGTGGCGCTTGTTGTGCCGATCATCCACGAATTTCACTTCTTCTGCATCCACCGGCTCATCCACACGCCGCTGCTTTATAAATGGGTGCATTCCGTCCACCACAATTCGGTGAACCCGTCGCCCTGGTCGTCGCTATCCATGCATCCGGTCGAGCATCTGCTCTATTTCGGCACCGCCTTTTATCACCTGGTCCTGCCGTCCAACCCGGTCCTCATGCTTTACCAGCTGCATTATGCGGGCTTCGGCGCGATCCCCGGCCATGTCGGCTTCGACAAGGTCGAGATCGGCGAGGACAAGCTGGTCGATAGCCATGCCTATGCGCATTACCTCCACCACAAATATTTCGAGGTGAATTACGGCGACGCCCTCATCCCGCTCGATAGGTGGTTCGGCACCTGGCACGACGGCTCGGCCGAGGGAGAAGCCCGCATGCAGGAACGCTATCGCAAACGCAAAGAAAAACTCGCGGCCCGCAAGGCGCGCAACACCATCGGGGAGGCAGCCGAATGA	MDDLKYGTRNKRGDWAPHQPVETAPLFAFPPRFVAVLKWLPHYFFPWNAIFALSAVGYWAFVIPPVETMATLGFGWIAWLHAVNAVCVFLFYGGFELHLYILKRQENRFKYNGKFPAEQKSNAFWFESQNLDNILRTFLSGVTIWTAIEVAMLWAYANGYAPWLSFAENPWTLAAVALVVPIIHEFHFFCIHRLIHTPLLYKWVHSVHHNSVNPSPWSSLSMHPVEHLLYFGTAFYHLVLPSNPVLMLYQLHYAGFGAIPGHVGFDKVEIGEDKLVDSHAYAHYLHHKYFEVNYGDALIPLDRWFGTWHDGSAEGEARMQERYRKRKEKLAARKARNTIGEAAE				NA	NA	NA	NA	NA
BMS010_09187	312	nagAb		Naphthalene 1,2-dioxygenase/salicylate 5-hydroxylase systems, ferredoxin component	ATGAACTGGGTTTCAGCCTGCAAACTGGAAGACATCGAACAGGAAGGCGCGATCCGCTTCGACCACGCCGGACGCACCTATGCGATCTACCGCGGTCCGGATGACAGCGTTTATTGCACAGCCGGCCTCTGCACCCATGAGGCCATCCATCTCGCCGAAGGGCTGGTGATGGATTTCGAGGTGGAATGTCCCAAGCATTCCGGCGCCTTCGATTATCGCACCGGCGAGGCGCTGCGGCTGCCCGCCTGCGAAAACCTGAAGACCTATCCGGCGCAGGTGGTGGACGGCGAAGTACGCATCACCATCGGCTAG	MNWVSACKLEDIEQEGAIRFDHAGRTYAIYRGPDDSVYCTAGLCTHEAIHLAEGLVMDFEVECPKHSGAFDYRTGEALRLPACENLKTYPAQVVDGEVRITIG	PGPT0019745_1043	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-3-PHENYLPROPIONIC_ACID|CINNAMIC_ACID_RESISTANCE,PGPT0019745-hcaC-K05710	NA	NA
BMS010_09188	945	mglB_2	COG1879	D-galactose-binding periplasmic protein	ATGAAATCCATCTGTACCATCGCCGCTGTGGCGGTCCTTTTCGCGGGCACGGCATCGGCCGAGACCATCGGCGTTTCGATGCAGAGCTTCGACAATAATTTCCAGACCCTGCTGCGCGAAGGGCTTGGCGCCCGGGCGTCTGAGGTCGACGGCGTCAAGATCCAGGTCGAGGACGCGCAGGCCGATATTTCCAAGCAGCTCAACCAGGTCAATAATTTCATCGCCGCAAACGTCGACGCGATCATCGTGACGCTGGCAGACACCTCGGCCGCACCCGGCATCAGCGATGCCGCCGCCAAGGCGGGCATTCCGCTGGTCTACCTCAACCTCGAACCGGACAATGTCGCCAAACTGCCGGAAAAGCAGGCCTATGTCGGCTCACGGGAAACCGATGCGGGGCGGCTGGCCGGCGAAGCGGCCTGTTCGTTGCTCAAGGAGAAGGGAAAGGCCGCCGACGCGCAGGCCTATATATTGATGGGCGATCTCGCCCATCAGGCCTCGCGCGACCGGACCTCGTCCTTCAAGCAGGCGCTCACATCCGGCGACTGCAGGGCCGTCACCATCGCCGACGAGCAATCGGCCGCCTGGACACGGACAACCGCCATGGACATGACGACCAACTGGATCACCGCCGGCCGGCCCATCGACGTCGTCTTCGCCAATAATGACGAGATGGCGATCGGCGCGGTTCAGGCGCTGAAGGCGGCCAGCGTTTCGATGGACGATGTGATCGTCATCGGCATCGACGCCACGCCGGACGGTCTCGCCTCCATGGCCGCTGACGATCTCGACGCCACGGTGTTCCAGAACGCCAAGGGGCAATCGACAAGCGCGCTCGATGCCGCCGTCGCCCTGATACGCGGCACGCCGGTCGACAAACAGGTCATGGTTCCGTTCGAACTGGTGACGCGGAAGAACATGACCGACTACGCCAGCCGAAACTGA	MKSICTIAAVAVLFAGTASAETIGVSMQSFDNNFQTLLREGLGARASEVDGVKIQVEDAQADISKQLNQVNNFIAANVDAIIVTLADTSAAPGISDAAAKAGIPLVYLNLEPDNVAKLPEKQAYVGSRETDAGRLAGEAACSLLKEKGKAADAQAYILMGDLAHQASRDRTSSFKQALTSGDCRAVTIADEQSAAWTRTTAMDMTTNWITAGRPIDVVFANNDEMAIGAVQALKAASVSMDDVIVIGIDATPDGLASMAADDLDATVFQNAKGQSTSALDAAVALIRGTPVDKQVMVPFELVTRKNMTDYASRN	PGPT0016780_143	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_TRANSPORT,PGPT0016780-rbsB|mocB|mglB-K17213	NA	NA
BMS010_09189	1206	andAa		Anthranilate 1,2-dioxygenase system ferredoxin--NAD(+) reductase component	ATGGACGCAATCGTCATCATCGGCGCCGGCGAGGCGGGCACACGTGCCGCCTTTGCGCTGCGCGAAGCGGGCTTTGCAGGCAACGTCACGCTGGTCGGCACGGAGCCGCACCCACCCTATGAACGGCCCCCGCTCTCCAAACCGCTCGAAGGGGCGGTGCGGATGAAACCCATCTGCGGCGACGGAGCACTGGAGGCTGCCCGCATCTCCTATCGTCAGGGCGTATCGGCGACCCGGATCGATGTGAAAGACCGCCTTGTGACGCTTGATGACGGGCGGGCGCTCGGCTATGACAGGCTGCTGCTTGCAACCGGGGCACATCCGCGAAAATTAACATGCCCCGGCGCGGGGCTGGCGCTGGATTTCCGCACCCACGCGGATGCGCAGGCGATTTTCTCCCGCACAAATAGCGGCGCCCGGATTGCGATCATCGGCGGCGGGCTGATCGGAATGGAACTTGCGGCGGTTCTGCGCGGCAAGGGGCTTGCGGTCAACATTATCGAGGCCGCAACACGGCCGCTCGGCCGTGCGGTTCCCCCGCGTTTTGCCGAAAGGATACACAAGCGCCATCTCGAAGAGGGCGTGAATTTCCATCTGGGAAAGGGCGTTTCGGAAATCACGCCGGAAGCAGTTTTGCTTACCGAAGGCGCGCGCGTACCGGCCGATATAGTCGTCTCCGCCATCGGCGTCCTGCCCAATGTCGCATTGGCGCAAACGGCTGGGCTTGCGACCGGAAACGGCATTCTGACCGATGCTTTCCTGCGCACCAGCGATCCCCATATCTTCGCGGCGGGCGATTGCGCGGCCGTCTCGCAAGCCGCCGGCGGACATATCCGGTTTGAAAGCTGGCGCAATGCCCGCAGCCAGGCGGAGGTCGCAGCGCATAACATTCTTGGCGCAAACGAGGCCTTCGCCGCCCTACCTTGGTTCTGGTCGGATCAATATGATCTCGGCCTTCAGGTCGCGGGCCTGCCGCAGCCGGAGCATCAGAGCGTCACCCGACCACTGGGCGATGGCGAACTGGAATTCTACCTTCAGGACGGCCGCCTTGTCGCCGCCGCCGGGCTGGGCGTCGGCAACAGCGTCGCCAGAGACATCAAACTGGCCGAGATGCTGATCGTCGCCGGCATCAATCCCGATCCGTCGGCTCTTGCCGACCCCGGCGTCAATCTCAAATCATTGCTGAAAAGCGCACGGGCGGCCTGA	MDAIVIIGAGEAGTRAAFALREAGFAGNVTLVGTEPHPPYERPPLSKPLEGAVRMKPICGDGALEAARISYRQGVSATRIDVKDRLVTLDDGRALGYDRLLLATGAHPRKLTCPGAGLALDFRTHADAQAIFSRTNSGARIAIIGGGLIGMELAAVLRGKGLAVNIIEAATRPLGRAVPPRFAERIHKRHLEEGVNFHLGKGVSEITPEAVLLTEGARVPADIVVSAIGVLPNVALAQTAGLATGNGILTDAFLRTSDPHIFAAGDCAAVSQAAGGHIRFESWRNARSQAEVAAHNILGANEAFAALPWFWSDQYDLGLQVAGLPQPEHQSVTRPLGDGELEFYLQDGRLVAAAGLGVGNSVARDIKLAEMLIVAGINPDPSALADPGVNLKSLLKSARAA	PGPT0019730_1842	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-3-PHENYLPROPIONIC_ACID|CINNAMIC_ACID_RESISTANCE,PGPT0019730-hcaD|cndC1-K00529	NA	NA
BMS010_09190	873			hypothetical protein	ATGCAGAAGCTGCTCGTCTTTCAATCGCTGTGGGCCATGGAAAGGCTCTCCGGCGACAGCCATAAACCCGGCCTTGAGGAAAACATAGCCCGGATCGCCGCAGCCGGTTTCGATGGCGTCAGCGCGCATTATACCGACCGTGCAGATGTGTTGCGTCTCAACAGCGCGATCCGTGGCACGGGCCTTCGGATTGAAGGTGTCTGCTTTCCGCGCAGTATCGAGGATCTGCGCCACACGTTGGCGCTGGCGCAGGAGTTTCCCGTCAGCCATATCGATCTTCAGGCGGATATCCGTCCGCGCCGGGTGGAAGATTGCCTGCCGCTTCTCGACGGCTGGATGCGGCTTGCCGAAGAGGCGGGCGTTCCCGTCTTCATCGAAACCCATCGCAACCGGATGACCAGCGATCTCCTGTTCACGCTCGACCTTCTGGAACGGCGGCCCGAACTGCCGCTGCTGGCCGATCTGTCCCACTATCTCGTTGCCCGCGAATTCGCCTTTCCAGTCGAAGATGAAAGCCAGCGGCAGATCCGCCGCATCCTTCGCAATGCGCAGGCCTTTCACGGACGGATCGGCTCCTGCGAGCAAATCCAGATCGAGATTTCCTTCGCCCATCACCGCCCATGGGTCGATCTGTTTCTGAACTGGCGGGACTATGGATTCCGCCACTGGCGATCGCTTGCGCCAGATAATGGTGAGCTGGTCTTCACCTGTGAACTCGGCCCCAGCCCCTATGCCATCACCGGCCGGGACGGCAGCGATTCCACCGACAGATGGGTGGAATCGCTGCAACTCAAGACGATGGCGCAAACGCTATGGGCGCAAACCGCTCATTCTGCGAGCGGGATCGCGACCGTCTCGCATATCAACCGCTGA	MQKLLVFQSLWAMERLSGDSHKPGLEENIARIAAAGFDGVSAHYTDRADVLRLNSAIRGTGLRIEGVCFPRSIEDLRHTLALAQEFPVSHIDLQADIRPRRVEDCLPLLDGWMRLAEEAGVPVFIETHRNRMTSDLLFTLDLLERRPELPLLADLSHYLVAREFAFPVEDESQRQIRRILRNAQAFHGRIGSCEQIQIEISFAHHRPWVDLFLNWRDYGFRHWRSLAPDNGELVFTCELGPSPYAITGRDGSDSTDRWVESLQLKTMAQTLWAQTAHSASGIATVSHINR				NA	NA	NA	NA	NA
BMS010_09191	900			hypothetical protein	ATGCCAACTGGAGTACGTGCAGTGAAACAACAGTGCAGTCTGTTTGCCCGGGCTTCCGGCGACAGGGCCTCCCGCAGTCGCGGCGTCGCCTTCGCCACCTTGCCCTTTGCCATCATCATGTCCGGCTGCACGTCCGTGCCGCTCAAGGAAGGCGGTACGCTGACCTCCTATGCGCAACTCAGCCCGGTCAAGGGCAAGTTCACCAAATCGCGCACCTTCGTGGACGCCAACGGACTGGCCGGCGTCAAGACCGTCGCCATCGTGCCGACCACCTTCTCCTTTGCGGCCTCGTCACGGGTCACATCGGAAAAGGACCGTGTCCTTGTTTCGAATGCGCTGGATCGTGCCATCTGCGTGGCGCTCAGCGATAAATACCGGATTGCCGCGCTGGGCCAGCCGGCGGACATGACGGTGCGCACGGTCATCACCGATCTGGTGCCGACCGACAAGACCATGGCCGGGGTATCGACGGCCGTGACGCTCGGCAGCGGCTTCGTCCTGCCGGTCAGCGTGCCGCGTCTTCCATTCGGGCTTGGCGGCCTCGCCGTCGAGGCGGAGGCGGTGGACAGCACCGGCGTCCAGCGCGCTGCGGCCGTCTGGTCCAAGGGAGCGAATTCCATCACGGGCAACGCCCGCGTCTCGGAAATCGGAGATGCCTACGAGCTAGCCGCCGATTTCTCCAACTACTTCTCGCGCATTCTGGTGACAGGCAAGGTCTCCGACGGGCTGAACCTCTCTATCCCCTCCGGCCATCGAATCCGGTCCGCCCTGGGCGGAAAACCGAAATATGTCGAATGCGATGCCTATGGCCGGTCGCGCGGCCTGCAGGGCATGGTGGCCGACAAGTTCGGTGCGCCACCCGAATGGACCGACAGATCCGCAAAGGCCGCGTCGCGATAA	MPTGVRAVKQQCSLFARASGDRASRSRGVAFATLPFAIIMSGCTSVPLKEGGTLTSYAQLSPVKGKFTKSRTFVDANGLAGVKTVAIVPTTFSFAASSRVTSEKDRVLVSNALDRAICVALSDKYRIAALGQPADMTVRTVITDLVPTDKTMAGVSTAVTLGSGFVLPVSVPRLPFGLGGLAVEAEAVDSTGVQRAAAVWSKGANSITGNARVSEIGDAYELAADFSNYFSRILVTGKVSDGLNLSIPSGHRIRSALGGKPKYVECDAYGRSRGLQGMVADKFGAPPEWTDRSAKAASR				NA	NA	NA	NA	NA
BMS010_09192	1335	sasA_28		Adaptive-response sensory-kinase SasA	ATGAAAGCGCAGGGCACCTCCAACTCGTCCTTGTGGTGGAAACTGAGCTGGCAGCTCAGCGTCGTCGTCTCCGCCATGATTGCCGTGGTCATCATCGGCCTCTGCTTTTACGGCATGACGATGCTTTCGCCCAATATTGCGCTCTGGGACGATCTGTCGGCAACACTCGATAAGTCGCTTTCGCTCGATCCGCAAAAAGGATTGGTCGTTACCAATGGCCCGGCATTGCAGGCCCTGAAGGCGGAGAACTCAACGCTCTGGTTCGTGGCTTCCACGCTGGACGGGCGGGTGGCGAGCTATGGCGCCGTGCCTGCCGTTTATGAGGAATTGTCGCCGTATCTGCATTTGCTGACGGATGCCGATATTCGCGGAGGAAAGGGCGTCTCCGAGGTCGCCCTGGTTGAAAGCATGGAGACGAAGTTGGGTTCCGTCAGGGTCATGTTCGGCGGAACCACGCATATGAGGGGGCAGTTTTTGGCGCTCCTTGCCGGAACCTACAAGATTTACGTTCCCCTCCTGGCTGTCATCTTGCCTGCCGTGTTCTTCTCGGTTCCCCGCATCGTGCGCGAGGCGCTTGCCGGCCTCAATTCCGTCGTCAAAAAGGCTCCCGAGATCGACCCACGCCGGCCGGGCTCGAAGCTTCCGGTCGAGGATGTGCCGCGGGAGGTGGTGCCCCTGATCCTTGCCTTCAACGGCATCCTCGAACGGCTTGAAGAGCAGTTTCGGGCGCGGCAGCGTTTTCTCATCGATGCGGCACATGAGCTGAGAACGCCGATTGCGATCATGCAGACCCGAATAGAGGGTCTGCCCGGGCCCGAGCAGCAACGCCTGATGGAGGATGTCGCGCGGCTTGGGGAGACCACGGAGCAGCTTCTCGCCTTCGAAAGAAACGATCAGGTGAACGACCGGCGCGAAACGCTGGACCTCGTCGAGACGGCGCGCACTGTCGTTGCCGATCTCGCGCCGCTCGCGCTTGCGGCGGGCTACGATATCTCCTTCGAAACGCAGGTCGCGCGCTATGAAATACTGGGCAACCCGTTCACCCTGCCGCGCGCCATCAGCAACATCGTGCGCAACGCCATCGACCATGGCGGAAACAGGGGGATGATCCACGTCTCGATTCTCGCCAGTGGCGAGATCGCGGTTTCCGATGAGGGACAGGGGATAGCCGAAGATCAGCGGGAGCGGATTTTCGAGCCCTTTTATCGCGTTACACCGCGCAGCACCGGGGCCGGCCTTGGCCTCAGCCTCGTCAAGCAGATCGTCGCCAACCATAACGGGCGAATCTTTCTGGACAGCAGCGCCTTCGGAAGCACCTTCCGGTTGCGTTTCTGA	MKAQGTSNSSLWWKLSWQLSVVVSAMIAVVIIGLCFYGMTMLSPNIALWDDLSATLDKSLSLDPQKGLVVTNGPALQALKAENSTLWFVASTLDGRVASYGAVPAVYEELSPYLHLLTDADIRGGKGVSEVALVESMETKLGSVRVMFGGTTHMRGQFLALLAGTYKIYVPLLAVILPAVFFSVPRIVREALAGLNSVVKKAPEIDPRRPGSKLPVEDVPREVVPLILAFNGILERLEEQFRARQRFLIDAAHELRTPIAIMQTRIEGLPGPEQQRLMEDVARLGETTEQLLAFERNDQVNDRRETLDLVETARTVVADLAPLALAAGYDISFETQVARYEILGNPFTLPRAISNIVRNAIDHGGNRGMIHVSILASGEIAVSDEGQGIAEDQRERIFEPFYRVTPRSTGAGLGLSLVKQIVANHNGRIFLDSSAFGSTFRLRF				NA	NA	NA	NA	NA
BMS010_09193	675	arlR	COG0745	Response regulator ArlR	ATGAGACTCCTGTTGATCGAAGACGAAAAGGCAATGGCGGATGCGCTGACGGCGACGCTCGGCAGGCAGGGCATCGTCATCGACCATACGATGTGGCTCGGCGATGCGATGGAGCTGACGCGCCAGCACGTCTATGACGCCATCCTGCTTGATCGCCGCCTGCCGGACGGGGAGGGACTTGCCTTCATTCCGCAGCTGCGCCATGCCGGCATTGACACGCCGATCATACTGTTGACGGCATTGAACGAACCGGAAGACCGCATAGCCGGACTGGATGGCGGCGCCGACGACTATCTCGGCAAGCCGTTTCTCGTCGGTGAGCTGCTGGCGCGGGTGCGTGCGGTTCTGAGACGGCCGGCAAATCTTGCGCCGGCCGAAATCACAGCCGGCCGCATCGTTATCGATCCGCTCCATCTCAGCGTCACGATCAATTCCGCTCCCTTCGATCTGCCAAGGCGCGAGCTTGCGATTCTCGTTGCGCTGGCGAAACGCAAGGGCAAATCCGTGCTGCGTTCCACGCTTGAGGCGGCCGTCTACAATTACGAGGAAGAGATCCAGTCCAATGCGCTCGACGCGCATATATCGCGGCTGCGAAAACGCCTGTTCGATGCCTCCGCAGGCGTTGGCGTCCATAATATTCGCGGCATCGGTTATCTGTTGAAGGAAGAGGCATGA	MRLLLIEDEKAMADALTATLGRQGIVIDHTMWLGDAMELTRQHVYDAILLDRRLPDGEGLAFIPQLRHAGIDTPIILLTALNEPEDRIAGLDGGADDYLGKPFLVGELLARVRAVLRRPANLAPAEITAGRIVIDPLHLSVTINSAPFDLPRRELAILVALAKRKGKSVLRSTLEAAVYNYEEEIQSNALDAHISRLRKRLFDASAGVGVHNIRGIGYLLKEEA	PGPT0003915_590	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-POLYMYXIN_RESISTANCE,PGPT0003915-pmrA-K07666	NA	NA
BMS010_09194	1161	mdtA_12		Multidrug resistance protein MdtA	ATGTGGGTGAAGAGAACCATCAAGGCGGGGATCGCGCTTGCAGGTTGCGTTCTCGTTGTCACCGCTCTCGATCCGGCGCGCGGCAGTGTCGATGCGAATGAGCGTGTCAAAGGCATCGTGAACGGGCTCGTCGAGACTGCCGCGATGAGCCCGGCAGGCACTCCGTTCGAACTGACGGCGACCGAAACGGCGAAGATCGGCACGCGCCCGATGGTGGAGCGGCTTGGCATCAGCGGCGAACTTCAGCCCATCACCCGTGTGGTGATCCGCGCCCGTGAAGCCGGCAAGATTGTCGAGATGAATGTCCGCGACGGAGACGCGGTACAGGCGGGCGAGCTGCTCGTGCGTTTCGAAACCGACGAGCTGCAATCGACGCTTTTGCTGAGGCAGAGCGACCGGGATGCGGCCGAGGCCGAGCTGATGCTGGCAATGCAGGCCCTGACGAGAACCGAACAGCTTGCCCTGAAAAACATCGCTTCGGCAGAACAGCTCGACAAGGCGAAAAGCGATGTCGCGGTGAAGACGGCAAGGCTCCAGAGCCTCTCGGCGCAGGCGGATATTGCTCGCCTCGCCCTTCGCAATGCCGAAATCCGCGCGCCCTTCGGCGGCACCGTCACCCGGCGGCTGGCCGAGGCGGGATCGCGTGTCGGTGCGGATGGCGAGCTTCTCACGCTGGTCGATACCAGCGTGCTGGAGGCGAAGGTTCTTGTCGCGACGCGCGATGTTCCGCGCGTCGCCCTCGGCCAGACGGCGGAACTGGAAATTGACGGCCTTGGCGGCCAGATCGTCAAAGGCACGGTCGACCGCATCAGCCCGGTTGCCGAAGACGGCACCCGCTTCATCGCCGTCTATCTGCGGCTTGCCAATCGTGACGGCCGGCTGTGGGGCGGAATGTTCGCCAGCGGATCGATTCTGCTGCGCGAGAAAAACGATGCGCTCGTCGTTCCCGCCATCGCGCTGCGCAAGGATGAGGCCGGTTATCATGTGCTCAAGGTGCAGGACGGCCATCTTCGCCGCCAGACAGTCACGGTGGGAGCGCGCTGGAACGGCGGCAACCTGATCGAGATTGCCGCCGGGTTGAAGGATGGCGAGACCATCCTGACCGCGCCGCTTCCACAATTGCGGTCCGATATGGCCGTCACCGTCGACAAGGCAGGCTGA	MWVKRTIKAGIALAGCVLVVTALDPARGSVDANERVKGIVNGLVETAAMSPAGTPFELTATETAKIGTRPMVERLGISGELQPITRVVIRAREAGKIVEMNVRDGDAVQAGELLVRFETDELQSTLLLRQSDRDAAEAELMLAMQALTRTEQLALKNIASAEQLDKAKSDVAVKTARLQSLSAQADIARLALRNAEIRAPFGGTVTRRLAEAGSRVGADGELLTLVDTSVLEAKVLVATRDVPRVALGQTAELEIDGLGGQIVKGTVDRISPVAEDGTRFIAVYLRLANRDGRLWGGMFASGSILLREKNDALVVPAIALRKDEAGYHVLKVQDGHLRRQTVTVGARWNGGNLIEIAAGLKDGETILTAPLPQLRSDMAVTVDKAG	PGPT0003275_3285	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexAB-OprM,PGPT0003275-acrA|lir|mtcA|mexA|adeI|smeD|mtrC|cmeA-K03585	NA	NA
BMS010_09195	3147	mdtB_3		Multidrug resistance protein MdtB	ATGTTCTTGACCCGCATATCCGTTACCCATCCCGTTTTCGCCACCATGATGATGGTGGCGCTTCTGGTTATGGGCGCCTTCTCCCTGCAACGGCTTGGGCTGGACCAATATCCCAATGTCGACGTTCCCGTGGTGGTGGTCGTCACCTCTTATCCCGGCGCGACGCCGGAGACGGTGGAAACCGAGGTGACACGCCCGGTCGAGGATGCGCTGAACGCCATTGGCGGTCTCGATGAGGTCACCTCCACCTCTTATGAGGGGCGCTCCGTCGTCGTCGCGAAATTCAAGCTCGAGGTCCGCAGTTCAGCCGCCGCGCAGGAGGTGCGCGACAAGATCGCCGCCATCGAGGCGAATTTTCCGGAAGACGCCAAAAAGCCCGTCATATCGAGGTTCGACCCCGCCGCCGAGCCGATCCTTTCCGTAGCGATCAGTTCGACATCGCTCGATGTGCCCGCCCTCACCAGCCTTGCCGACCAGAAGGTGGTGCGGCAGCTGACGACCGTTGCCGGCGTCGGGCAGGCAACGCTGGTCGGCGCCCGCAAACGGCAGATCGATGTGACAATCGACGAGACGCGCATGCGCGCCCTCGGGATCGGCATCAACGAGGTGGTGAATGCGCTGCGCACCGGCAACAGCAACAGCCCGGCCGGAAGCGTCGTCGATCCCGTCTCCGAACGCACGATCCAGGTGCAGGGGCGTATCGAGGAACCGCAGGCGCTGCTGGATATGGTCGTGGCAAGGCGCGGCGGCGCGGCCATTGCCCTTCGCGATGTCGCCACACTTTCCGAAGGGGCAGCCGATGCCGAAAACCGCGCCCTCTATAATGGCCAGACGGCGCTGGCGATCGACATCGTCAAGGTTCAGGACGCCAATACGGTTCAGGTCGCAACAGATGTGAGGAAGCGCCTCGATGCGCTCAATGCCGAGCTTGCCCCGCAGAACGTGCAATTGCGCATCGTCACGGATGCGTCGATACCCATCCGCGAATCCGTCAATCAGGTACAGACGACGCTGATCGAAGGTGCGGCGCTCGCCGTCGTCATCGTCTTCCTGTTCCTCAATTCCTGGCGCAGCACGGTGATTACCGGGCTGACATTGCCGATAGCAATCATCGGCACGCTCGCAGTGATCCATTTCCTCGGCTTCACGCTCAATACGCTCAGCCTGCTGGCGCTGACGCTTTCCATCGGCATTCTGGTGGATGACGCCATCGTGGTGCGCGAAAACATCACCCGCCATCTTCACATGGGTAAATCGCATCTGCGTGCGGCCCTCGACGGCACCAATGAAATCGGGCTTGGGGTAATCGCAACAACGGCGACAATCGTGGCAGTTTTCCTGCCGGTCGCCTTCATGGACGGCATTGTCGGCCGGTTTTTCTACGAATTCGGCGTCACCGTTTCCGCCGCCGTCCTGATCTCGCTCTTCGTCGCCTTCACGCTCGACCCGATGCTGTCCAGCGTCTGGTACGATCCGGACGCCCAGCCCGATGCGAAGCGCGGGCCCGTGGGCCGCCTGATCGCCCGTTTCGACCACGGCTTCGAATGGATGGCCGGGCAATATCGCCGTGCAATCGGCTGGACCCTGCGGCATCGGCTCGTCACCCTGCTTGTCACGTCGGGCATCTTTATCGGCAGCCTGTTCATGGTGCCGCTGGTCGGCACGGAATTCGTTCCGAATGCCGATGAGGGCCGCTTTCAGGTCAATATTACCGCGCCGGTCGGCTCTTCGCTGGACTATACGACAACGAAGGTGCGGCAGGTCGAAAAGGCGCTGAAGGAATTTCCGGAAGTCGAGACGCTCTATTCCACCGTCAATACCGGCGGCGCCGCCGGAAAACATCGCGCCGCCATATTGGTGGGGCTGGTGCCGCTCGATATGCGGAGCCGAACCCCGCTCTCCCTTGCCGAACCGGTTCGCAAACGCCTGTCAGCCATACCCGGCATAGAGGTCACGATCCTGCAGAATGGCCTTGGCGGCGGCGAAAGCCCGGTGCAGCTCAGCATCCTCGGCGACGACCGGGCGGTCCTCGAAAAAATCGCCACCGGTCTGGTCGAAGACATGAAGAAAATTCCCGGCCTCGTGGATGTGACCTCGAGCGCCAAGGATGTGACTTCCATTCTTTCGGTCCGCCTGAAGCCTGCGGCGGCGAGCGATCTCGGCATTACCCGCTCCGATCTTGCAGCAGCGCTTTCCCCCCTCATCGGCGGCGAGGATGTGTCGAAATGGACGGATGCGGATGGCAACAGCTACGATATCGTCATCCGCCTGCCCGTCGAGCGGCGGTCCGACACGGAAGGTCTCGGTGAATTGATGATCGCAACCGGCCGCACGGCCGCGAAGGGCGCGCCGCTGATGGTGCGTCTCGATCAGGTCGCCGATATCGGCATCATGCCGGCCCCCGCCGAAATCCGCCGTATCGACAATCGCCGCGAGATACTGGTTTCGGCCAATATCGCCGGCCGCACGCTTGGCGAGGTGACGGAGACGTTGCAGGGCCTGACCGCCGGTCTTGACCTGCCGAACGGCTATCGCATCCGCTTCGGCGGTGACGCCGAAACCATGCAGGAGACCATCGGCCACATGGCCACGGCGCTTACCATGGCCGTCATCTTCATCTACATCGTGCTCGCCTCGCAATTCGGCAGTTTCATGCAACCGCTCGCCATCATGGCGTCCCTGCCGCTTTCGCTTGTCGGCGTCCTCATCGGGCTGATGGTGGCCGGCAGCACGATCAACATGTTCTCGCTGATCGGCTTCATCATGCTTATGGGCCTCGTGACCAAGAACGGCATCCTTCTGGTCGATTTCGCCAATCGCGAGCGGCGGCGTGGGCTTTCGCTGAACGAGGCGCTGGAAAATGCCGGCGTCATCCGCTTCCGCCCGATCATCATGACGACGCTCGCGATGATCTTCGGCATGATCCCGCTCGGTCTCGCCGTCGGCGGCGGTGGCGCGCAGCGTGCGCCGATGGCCCATGCGGTGGTTGGCGGCCTCATCAGTTCCACGCTGCTGACCCTGATCGTGGTGCCGACCATCCTGTCCTATATAGACAGCATCGTCAGGCGTTTTACCCGCCTGTTGCCGAAAGCGCCGGACGAGGCGGCGGAAACGGCCATGCAGCACCGACCGGCGGCCTCGGCCTAG	MFLTRISVTHPVFATMMMVALLVMGAFSLQRLGLDQYPNVDVPVVVVVTSYPGATPETVETEVTRPVEDALNAIGGLDEVTSTSYEGRSVVVAKFKLEVRSSAAAQEVRDKIAAIEANFPEDAKKPVISRFDPAAEPILSVAISSTSLDVPALTSLADQKVVRQLTTVAGVGQATLVGARKRQIDVTIDETRMRALGIGINEVVNALRTGNSNSPAGSVVDPVSERTIQVQGRIEEPQALLDMVVARRGGAAIALRDVATLSEGAADAENRALYNGQTALAIDIVKVQDANTVQVATDVRKRLDALNAELAPQNVQLRIVTDASIPIRESVNQVQTTLIEGAALAVVIVFLFLNSWRSTVITGLTLPIAIIGTLAVIHFLGFTLNTLSLLALTLSIGILVDDAIVVRENITRHLHMGKSHLRAALDGTNEIGLGVIATTATIVAVFLPVAFMDGIVGRFFYEFGVTVSAAVLISLFVAFTLDPMLSSVWYDPDAQPDAKRGPVGRLIARFDHGFEWMAGQYRRAIGWTLRHRLVTLLVTSGIFIGSLFMVPLVGTEFVPNADEGRFQVNITAPVGSSLDYTTTKVRQVEKALKEFPEVETLYSTVNTGGAAGKHRAAILVGLVPLDMRSRTPLSLAEPVRKRLSAIPGIEVTILQNGLGGGESPVQLSILGDDRAVLEKIATGLVEDMKKIPGLVDVTSSAKDVTSILSVRLKPAAASDLGITRSDLAAALSPLIGGEDVSKWTDADGNSYDIVIRLPVERRSDTEGLGELMIATGRTAAKGAPLMVRLDQVADIGIMPAPAEIRRIDNRREILVSANIAGRTLGEVTETLQGLTAGLDLPNGYRIRFGGDAETMQETIGHMATALTMAVIFIYIVLASQFGSFMQPLAIMASLPLSLVGVLIGLMVAGSTINMFSLIGFIMLMGLVTKNGILLVDFANRERRRGLSLNEALENAGVIRFRPIIMTTLAMIFGMIPLGLAVGGGGAQRAPMAHAVVGGLISSTLLTLIVVPTILSYIDSIVRRFTRLLPKAPDEAAETAMQHRPAASA	PGPT0016195_902	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-SURFACTIN_RESISTANCE,PGPT0016195-swrC|yerP-K03296	NA	NA
BMS010_09196	543			hypothetical protein	ATGAAACCCACCAAGAAAAGCCGGAAAACCCGCCCGGCTCGTGCACTGACATTGCTCCAGCAGCTTGCTGCGGTTCCGGAAAAGCTCTTCACAGGCGCTTTCCGGCAGCAATATGCCGCGCTCTGCTTCCGTTATACCGGCAATGGCGAGGATGTCGAAATCCTCCTTGTCACGTCCCGTACCAGTGGACGCTGGATCATTCCGCGCGGCTGGCCGATGAAACGCAAGAAGCCGCACGAGGCGGCGGCAATCGAGGCGTGGGAGGAGGCGGGCGTGCGCGGTCGGGTGAAAAAGAATGCGGTTGGCCGCTATACCTATCTCAAGATGCTCGACAATGGCGATGTCGTTCCCTGCATGGTCGATGTGTTCCAGATAGAGGTGACGGAGGCGGAAACCAGTTTCAAGGAACGCGGGGAACGCCTGCTGGAATGGGTGCGCCCGGATGAGGCGGCAAGGCGCGTTCGCGATATCGAACTGAAGTCGCTTCTTGTCGATTTTCGTCCGAAGGGCAAAAAGAAGCGTCAGGGCAGCGAGAGGCCCTGA	MKPTKKSRKTRPARALTLLQQLAAVPEKLFTGAFRQQYAALCFRYTGNGEDVEILLVTSRTSGRWIIPRGWPMKRKKPHEAAAIEAWEEAGVRGRVKKNAVGRYTYLKMLDNGDVVPCMVDVFQIEVTEAETSFKERGERLLEWVRPDEAARRVRDIELKSLLVDFRPKGKKKRQGSERP	PGPT0021415_37	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021415-mutT|ndx-K01518	NA	NA
BMS010_09197	645			hypothetical protein	ATGATGAGTATTTTTCGCAAGCTGATGCCGCGCGAGGACCGTTTCTTCGACATGTTCAGCAAACATTCCGAAACCGTCATCAAAGCGGCCGAGGCCCTTGACCAACTTTTGAGCGGCATCGACGTCGAGAAGAACTGCGACCTCATCGTCGCCCTTGAACACCAGGCGGACGACATCACCCGCGAGGTGCTGCTCGCCGTCAGGCGCAGCTTCATCACCCCCTTCGACCGCGGCGACATCAAGGATCTCATCCAGTCGATGGATGACGCCATCGACATGATGCACAAGACCGTCAAGACCATCCGTCTTTTCGAGCAAACGGAATTCGATCCGCTGATGAAGGAAATGGGTCATGAGATCGTGCGCGCAGCCGGCCTCATCGCGGAAGCCATTCCGCTTCTCAACAAGGTCGGCACGAATGCGCATCGCCTGTCATCCATTTCCGAAGAGGTGACCCGCGTTGAAGGCCGCTCCGACGAACTTCACGATCTGGGTCTCAAGGACCTCTTCCGCCGCCACGGCGCAAGCGGCAATGCCATGGCCTATATGATCGGCAGCGAGATCTACGGCGAACTCGAAAAGGTCGTCGACCGCTTCGAGGATGTGGCCAACGAGATCAGCGGCATCGTTATCGAGAACGTCTGA	MMSIFRKLMPREDRFFDMFSKHSETVIKAAEALDQLLSGIDVEKNCDLIVALEHQADDITREVLLAVRRSFITPFDRGDIKDLIQSMDDAIDMMHKTVKTIRLFEQTEFDPLMKEMGHEIVRAAGLIAEAIPLLNKVGTNAHRLSSISEEVTRVEGRSDELHDLGLKDLFRRHGASGNAMAYMIGSEIYGELEKVVDRFEDVANEISGIVIENV				NA	NA	NA	NA	NA
BMS010_09198	1005			hypothetical protein	ATGGATGTCGCACTTGCCCTGCCGCTGCTAATCGGCCTTATCGCCATCGCGCTGTTCTTCGATTTTCTGAACGGCCTGCACGATGCCGCCAATTCCATCGCCACCATCGTCTCCACCCGCGTGCTGCGCCCGCAATATGCGGTCGCCTGGGCGGCCTTCTTCAACTTCATCGCCTTCCTGTTCTTCGGCCTGCATGTGGCCGAAACGCTCGGCACCGGCATCATCGATCCGGCCATCGTATCGCCGCAGGTGATCTTCGCGGCGCTGATCGGCGCCATCGTCTGGAACATCGTCACCTGGATTTTCGGCATTCCCTCCAGCTCGTCGCACGCGCTGATCGGCGGGCTCGTCGGTGCGGGATTTGCGAAGGTGGGTTTCAATTCCATCGTCTGGTCGGGCCTGCTGAAGACCGTCGGCGCCATCTTCATGTCGCCAGCCATCGGCTTCTTCCTCGCCCTGCTTCTGGTGCTCACCGTCTCCTGGCTGTTCGTGCGGCAGACGCCCTTTGCCGTGGACCGCACGTTCCGCGTGATGCAGTTCATCTCCGCCTCGCTTTATTCGCTGGGACACGGCGGCAACGACGCGCAGAAGACCATGGGCATCATTGCCGTGCTGCTCTTCAGCCAGGGACATCTGGGCGAGAGCTTCTACGTGCCCTTCTGGGTGGTGATTTCCTGCCAGTCGGCCATGGCGCTCGGCACGCTGTTCGGCGGCTGGCGCATCGTCCATACGATGGGATCGAAGATCACCCGGCTGAACCCGATGCAGGGTTTCTGCGCCGAAACCGGCGGTGCGCTGACGCTGTTCGGTGCAACATGGCTCGGCATTCCGGTCTCCACCACCCACACGATCACCGGCGCCATCGTCGGTGTCGGCGCTGCCCGCCGCGTCTCGGCGGTGCGCTGGGGCCTTGCCGGCAATATCGTCATCGCCTGGATCGTGACCATGCCGGCGGCTGCGCTGATCTCCGCCGCGGTTTACGGGCTGACGTCGCTGTTCGGCTGA	MDVALALPLLIGLIAIALFFDFLNGLHDAANSIATIVSTRVLRPQYAVAWAAFFNFIAFLFFGLHVAETLGTGIIDPAIVSPQVIFAALIGAIVWNIVTWIFGIPSSSSHALIGGLVGAGFAKVGFNSIVWSGLLKTVGAIFMSPAIGFFLALLLVLTVSWLFVRQTPFAVDRTFRVMQFISASLYSLGHGGNDAQKTMGIIAVLLFSQGHLGESFYVPFWVVISCQSAMALGTLFGGWRIVHTMGSKITRLNPMQGFCAETGGALTLFGATWLGIPVSTTHTITGAIVGVGAARRVSAVRWGLAGNIVIAWIVTMPAAALISAAVYGLTSLFG	PGPT0002655_3357	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPHATE_TRANSPORT,PGPT0002655-TC_PIT-K03306	NA	NA
BMS010_09199	792	ku_2	COG1273	Non-homologous end joining protein Ku	ATGGCACGGCAGGTTTTCTGGAAGGGTTATCTCAAGCTGTCGCTGGTGACGGCCTCCGTCTCGCTGACACCCGCGACGACGGAAGGCAACAAATACACCTTCCACATCCTCAATCGCAAAACCGGCAATCGCGTCGAAAGCCGTTATGTCGACAGCATCACCCACCGACCGGTCGCCGCCAAAAACCAGGTAAAAGGTTTTCCCCGCGCCGAGGACGATTACATTATTCTGGAGGATGACGAGATCGATGCGGTAGCGCTGGAAAGCACCCGCACGATCGATATCAAGACCTTCGTGCCAAAAGGATCGATCGACTGGATCTGGTACGACCGTCCGCATTTTCTGCGCCCGGAAGACAAGATCGGCACCGAAGCCTTCAGCGTCATTCGCGAAGCCATGAAGGTGAACGATGTTTTCGGTATTGCGCGCCTCGTAATCTACCGTCGCGAAAGGGCTGTGCTCCTCGAACCGTCGGGGAAAGGCATCATCCTGTGGACGCTGCATTATGGCGAAGAGGTGCGCGAAAGCATTGACGCGCTGGAGCCGAAGATGAAAATCGACCGGCCGCTGCTGGACGCCATGGAAAAACGCATCGGCAAACAGGTGACGGGTTGGAAACCGGCTTTGGTGCAGGACCCCATTCAGAAGAAGATCAAGTCCCTGCTGAAGACCAAGGGCGACGAGGTCTCCTCCTCGAAAAAGAAAACCGGCACGAAGGCCCGCGCCGGGGGCAATGTCATCAACATCATGGACGCCCTGAAGAAAAGCCTTGCTTCCGAAAAGAGAAGCTGA	MARQVFWKGYLKLSLVTASVSLTPATTEGNKYTFHILNRKTGNRVESRYVDSITHRPVAAKNQVKGFPRAEDDYIILEDDEIDAVALESTRTIDIKTFVPKGSIDWIWYDRPHFLRPEDKIGTEAFSVIREAMKVNDVFGIARLVIYRRERAVLLEPSGKGIILWTLHYGEEVRESIDALEPKMKIDRPLLDAMEKRIGKQVTGWKPALVQDPIQKKIKSLLKTKGDEVSSSKKKTGTKARAGGNVINIMDALKKSLASEKRS				NA	NA	NA	NA	NA
BMS010_09200	2493	ligD_3	COG1793	Multifunctional non-homologous end joining protein LigD	ATGGGATTGCAGACCTATAACGCCAAGCGCAGTTTCGACAAGACGCCGGAGCCAAAAGGGACGACGGCCGAACAGCAGGGATCGAGCTTCGTGATACAGAAACACGATGCCCGCCGTCTGCACTATGATTTTCGGCTGGAAATGGACGGGGTGCTGAAAAGCTGGGCGGTGACGCGCGGCCCGAGCCTCGATCCCGAGGACAAGCGCCTTGCCGTGCATGTCGAGGACCATCCGCTCAGCTATGGCGATTTCGAGGGCGTCATCCCGAAAGGACAATATGGCGGCGGCACCGTGATTGTCTGGGATCGCGGCACCTGGCAGCCGATCGGTGACGCCCGGAAAGGTTATCGCAAAGGCCATCTGGAATTTGAACTGGACGGCGAAAAGCTCAAAGGCCGATGGCATCTGGTACGCATGCACGGAAAGCCCGGAGAAAGCCGGGAGAACTGGCTGCTGATCAAAGGCGTTGACGAGGAGGCGAGGCATAAGGGCGGCGCGGATATTCTCGAAGAACGGCCGGAATCCGTAAAGACCGGGCGCAGTGTCGAGGAAGTTGCAGCCAAACCGAAGGATACCTGGAATTCCAAAACGGTATCTAAAAAGACCGTCGCTTCTGCCTCCGGCAGGAAACAGGCGCATGCGCTGCCAAAAGGCGCACGCAAACTGGCCATGCCATCTTTCGTGCCGCCGGCGCTCGCCACGCTTAAGCCGAAACCGCCCAACGGAGATCGCTGGCTGCATGAAATCAAATTTGACGGCTATCGTCTGCAGGCGCGCGTCGATCAGGGCAAGCTTCAACTGCTGACCCGCAGCGGGCTGGACTGGACGGAGAAATTCGGCCGGGCCGTGACAGGAGCTCTCACGGCGCTGCCGGTGGAAACGGTTTTGATCGACGGCGAAATCGTCGTTGAACGCGACAGCGGGGCCTCCGATTTCTCCGCCTTGCAGCAGGATCTGAGCGAAGGGCGCAGCGACCGCTTCGTGTTTTACGCCTTCGACCTTCTCTATCTCGATGGCAGCGATCTGCGCGGTGCGGCATTGAGCGAGCGAAAGGCGCTGCTCGAAAAGCTGCTGCCGGCGGGTGACCCCCATCTCCGTTACAGCCAGCATTTCGAGGAAAGCGGCGCGCTTGTCCTCGACCATGCCTGTCGGCTCAGCCTCGAGGGCGTCATTTCCAAGGTCAAGAACAGCAAATATGTTTCGGGCCGCAAGGGCGAATGGGTAAAATCCAAATGCTCGATGCGACAGGAATTCGTCATCGGCGGTTATACCGTCTCCTCGACATCCGACCACGCGATCGGATCGCTGGCGCTCGGCGTTTATGAAAATGGCAAGCTGCGCCATGTCGGCCGTGTCGGGACAGGTTATACGGGTGAAGTGGCGGAGATGCTGCTCGGCCGGCTGAAGCCGCTTGAGCGCAAGGAAAGCCCGTTCGGTGAGAAACTCACCGCGCTTGCCCGCCGCGATCTTCATTTCGTCAAGCCGGAACTGGTCGCTGAAGTGGAGTTTCGTGCATGGTCTGGAGATGGCAATCTGCGTCACGCCTCCTTCCGGGGGTTGCGCGAAGACAAGCCCGCAGCAGAAATCGAACGCGAGGAGAAGGCCGTGTCCGATACCCAGGCGCCGCAATCGAAGATCAAGTTCACCCATCCGGACCGGCTTTATTGGCCGGAGGACGGCGTGACGAAGGAGGGGCTTGCCGACTATTATGCGCTGGTCTGGCGGCACATGGCGCCCTTTGTCGTTAACCGGCCGCTGGCATTGTTGCGCTGCCCGGAGGGCATAGAGGGGCAGCGATTCTTCCAGAAACACGCCTGGCGCGGCATCAACAAGGCCGTCGAGCAAATCAAGGATCCCAAGGACAAGGGCGGAGAACCGCTGATCCGCATCACCGATTTTGATGGCCTGATGGCGCTCGTGCAATCCGCCGCGCTCGAAATCCACCCATGGGGCGCGACCACTGCCAATTGGGAAAAGCCGGACATGATCACCATGGATATCGACCCCGGCGAGGATGTGGCATGGGAAGAGGTGATCGAAGCGGCGCTGGAGCTGAAGCGGCGTTTCGAAGAAGCCGGGCTTGCCGCTTTCGTCAAGACCTCCGGCGGCAAGGGGTTGCATGTTGTCGCACCCTTGAAGCCGCAGGCGGGCTGGGCTCCGGTCAAGGCCTTCGCCAAGGCCATGGCGGCGGATATGTCGAAGGCCGAGCCTGAGAAATATCTCTCCGTCGCCACCAAGGCGAAACGGCAGGGCCGCATTTTCATCGACTATCTGCGCAATGGCAGGGGCAATACGGCGGTTGCGGCCTATTCGACCCGTGCCCGGCCGGGAGCCGCCATTTCAGCAACGCTCGAATGGTCGGAACTCACTGCCGAGATCGGCCCGGCCCATTTCACCGTCAACAATATCGGAGCGCGTCTTTCCGCGCTGAAAAAAGACCCTTGGGATGGATTTTTTGCCGCTGCCGAGCCGCTTCCGAAAAAGGCCCGCTGA	MGLQTYNAKRSFDKTPEPKGTTAEQQGSSFVIQKHDARRLHYDFRLEMDGVLKSWAVTRGPSLDPEDKRLAVHVEDHPLSYGDFEGVIPKGQYGGGTVIVWDRGTWQPIGDARKGYRKGHLEFELDGEKLKGRWHLVRMHGKPGESRENWLLIKGVDEEARHKGGADILEERPESVKTGRSVEEVAAKPKDTWNSKTVSKKTVASASGRKQAHALPKGARKLAMPSFVPPALATLKPKPPNGDRWLHEIKFDGYRLQARVDQGKLQLLTRSGLDWTEKFGRAVTGALTALPVETVLIDGEIVVERDSGASDFSALQQDLSEGRSDRFVFYAFDLLYLDGSDLRGAALSERKALLEKLLPAGDPHLRYSQHFEESGALVLDHACRLSLEGVISKVKNSKYVSGRKGEWVKSKCSMRQEFVIGGYTVSSTSDHAIGSLALGVYENGKLRHVGRVGTGYTGEVAEMLLGRLKPLERKESPFGEKLTALARRDLHFVKPELVAEVEFRAWSGDGNLRHASFRGLREDKPAAEIEREEKAVSDTQAPQSKIKFTHPDRLYWPEDGVTKEGLADYYALVWRHMAPFVVNRPLALLRCPEGIEGQRFFQKHAWRGINKAVEQIKDPKDKGGEPLIRITDFDGLMALVQSAALEIHPWGATTANWEKPDMITMDIDPGEDVAWEEVIEAALELKRRFEEAGLAAFVKTSGGKGLHVVAPLKPQAGWAPVKAFAKAMAADMSKAEPEKYLSVATKAKRQGRIFIDYLRNGRGNTAVAAYSTRARPGAAISATLEWSELTAEIGPAHFTVNNIGARLSALKKDPWDGFFAAAEPLPKKAR	PGPT0014910_754	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014910-ligD-K01971	NA	NA
BMS010_09201	834	ku_3	COG1273	Non-homologous end joining protein Ku	ATGAACCGGAGAGCGAGCTGGAGGGGCCATCTGAGCTTTGCCGATTTCAACTGCGAAGTCGGTCTTTATTCCGCACTGACCTCGGCGGAGAAAATCTCCTTCAATATCGTCAACCGCAAGACCGGCCACCGCGTCGAGCGGCAATATGTCGACAGCGACACCGGCGAGGCGGTTCTTCGCGAAGATCAGGTCAAGGGATACGAACTCGACAATGGTGACCACATCGTCATCGAGGGAGACGAGATTGCGAAGCTGATGCCGGAAAGCGACAAGGTCATCCGCATCAGGCACTTCCTGCCCTGTGACGAGATCGACAAGCTTTATTTCGACAAGTCCTATTATCTCGCGTCGAGCGGGGAGGACGGCGAAGAGGCGCTGACGCTTCTTGCCAGGGCAATGGACGACGAGAATGTCGCAGCTCTCGGCGAAGCGGTGCTTTTCCGCCGCAACCGTGTCCTGCTGATCCGTCCGAGCGGTAAGGCTCTCGTCGCTACGACGCTGAATTTCAGCTACGAGGTCCGTTCGCAGACATCCGTCTTCAAGTCGATCCCCGATATCGAGTTCGATGAGGAAATGCTGGAGCTGGCCGGTCACATCATCGAAAAGCGTGCGGGCACATTTGACCCGGCAGACTATAGCGATCGGTATAATGACGCACTCGCAGAACTGGTGAAAGCCAAGATCGAAGGCCGGGAAATCGCCAAGCCGCCGCCGCGCAAGGAAGACAATATCATTGATCTCAAGGAGGCCTTGCGTCGCAGCGCGGGGGCCGAAGCGGGCAGCAGAAAAAGGGCGACGGCAGCGGGCCGGAAGGCTCCGCGGAAAGCGAGCTGA	MNRRASWRGHLSFADFNCEVGLYSALTSAEKISFNIVNRKTGHRVERQYVDSDTGEAVLREDQVKGYELDNGDHIVIEGDEIAKLMPESDKVIRIRHFLPCDEIDKLYFDKSYYLASSGEDGEEALTLLARAMDDENVAALGEAVLFRRNRVLLIRPSGKALVATTLNFSYEVRSQTSVFKSIPDIEFDEEMLELAGHIIEKRAGTFDPADYSDRYNDALAELVKAKIEGREIAKPPPRKEDNIIDLKEALRRSAGAEAGSRKRATAAGRKAPRKAS				NA	NA	NA	NA	NA
BMS010_09202	288			hypothetical protein	ATGAAACGGCAGGCAGAACGTTCCGACAGAAGTTTGAAGAGCTTCGATTTTCGCGACCGGCTGATACTGGCGCTTTATGCGCAGTTGAAAGCGGAGCGGCAAACCCGTGAGGCCCTGGAATGGGTTATCCGCAATGGCGGGCTGTCGCCGGAGGTGCTGGAAGCCATGGCGTCCGACCCGGTGCCGGTTCTGGCGGAGGCGGATGTGCCCGCCATCGAGCGCATTCTGGCCAAGGGTCGACGCGGAGACATGTCCTCCCGCAGCGATGACGAGGGACGACGGACATGA	MKRQAERSDRSLKSFDFRDRLILALYAQLKAERQTREALEWVIRNGGLSPEVLEAMASDPVPVLAEADVPAIERILAKGRRGDMSSRSDDEGRRT				NA	NA	NA	NA	NA
BMS010_09203	894	yghA		putative oxidoreductase YghA	ATGACAGACCGCCTCGAGCCACAGGACCCGCGCAGCCAGTATCCGCGCCCGCCTTTTTCGACCCCGACCCAGGAAATGCCGGGTCTGGTGACGAATATGACGCCTTTCCCGGACCATGGTGAAAAGACCTATCGCGGTACCGGCAAGCTAGCAGGGCGCAAGGCGCTGATAACCGGCGGTGATTCAGGCATTGGCCGTGCGGTCGCCATCGCTTTTGCAAGGGAAGGCGCGGATGTGGCGATCTCCTATCTTCCGGAAGAAGAATCCGACGCGGAGGAGGTCGTGGCGCTCATTGAGGCGGAAGGCCGTGTGGCGGTCGCGCTGCCCGGTGATATCACCGACGAGGCCTGGTGCCGCGAACTGGTCGAGAAAGCGGCCGGTGATCTCGACGGGCTGGATATTCTGGTTATCAACGCGGCAAGGCAGCAATATCGCGACGATATAGAAGAACTGTCGACGGACGATTTCGACCGCACCATGAAGACCAATCTTTATGCCCTGCACTGGATTGCGCAGGCGGCCGTTCCCCACCTCAAGCCGGGGTCGTCGGTAATCACCACGGCGTCGATACAGGCCTATGAGCCCTCCGCCATCCTGCTGGACTACGCCACCACCAAAGCCGGCATCGTCGCCTATACGAAAGCGCTTGCAAAGCAGCTTATCGAAAAGGGTGTGCGCGCCAATTCCGTCGCTCCCGGCCCGTTCTGGACGGTTCTTCAGCCGAGCGGCGGCCAGCCGGACGAGAAGGTGAAGAATTTCGGCAAGGACAGCGATTTCGGCCGCCCGGGACAGCCGGTGGAACTGGCGCCCGTCTATGTGCTGCTGGCATCGCAGGATGCGAGCTTCATCAATGGCGAGGTTTATGGCGTGACCGGCGGCAGGGGCATTGCCTGA	MTDRLEPQDPRSQYPRPPFSTPTQEMPGLVTNMTPFPDHGEKTYRGTGKLAGRKALITGGDSGIGRAVAIAFAREGADVAISYLPEEESDAEEVVALIEAEGRVAVALPGDITDEAWCRELVEKAAGDLDGLDILVINAARQQYRDDIEELSTDDFDRTMKTNLYALHWIAQAAVPHLKPGSSVITTASIQAYEPSAILLDYATTKAGIVAYTKALAKQLIEKGVRANSVAPGPFWTVLQPSGGQPDEKVKNFGKDSDFGRPGQPVELAPVYVLLASQDASFINGEVYGVTGGRGIA				NA	NA	NA	NA	NA
BMS010_09204	2340		COG2199	putative signaling protein	ATGTTCACGGTTCTGGAATGCGTTGCCGTACAACACGACCGGGCGGTCGTGCTTCTTGCGGCTGTTATCTGCCTGCTTGGCATGTTTGCTTTTTTTCATCTTTTATTGCGCGCGGAGGAAAGTCCGGCTGGCCGCAAGCCCTATTGGGTGCTGGTTGCCGCCTTTGCCGGAGGGCTCAGCGTCTGGGCCACGCATTTCGTCGCCATGCTCGCCTATAAGGGCGCGGTCCCGATCGGTTATGATTTCGCCTTCACGGCGTTTTCGGCGGTTCTTGCGGTTTTCGGTTTCTGGCTGGCGCTCACCAGCCGTTCGCAGGCCGCTTACAGCCCTGCGATCGCCGGCACGCTGGTCACGCTGTCGGTTGCTGTCATGCATTTCGTCGGCATGGCGGGAATGGATGTCGCCGCCACGATCAGCTATCGGTGGGGGCCGGTGCTGGGTGGTTTTGCGGTTGCCTGGGCGTTTTTTCTCCTCGCCTTTTTCCTTTTTCGCCGCCTCGGCTCCTGGCAGCGCATCGCCGCGCCGGCTGGATCGGCGATTTTCGCGATCTGCGCGCTGCATTTCACGGCCATGTCGGCCACGGTGCTTTCGCCGGATCCTTCCGTATCCGGGCCTGATCCCGACAATGTCGCCCGGCTGATCATGATCTGCGCCATTTCCGGCGTCACGTTCCTGATCCTGTCCACCACTGCTGCGGCTGCTCTTGTGGATCGTTACCTTGTCGATCTCAAGGGTCTTGTGGATGCGACGCTCGATGGTCTCGCCGTCGTTCGCGATGGGCGGATCGTGGAGCTTAACACCCGTTTTGCCGGCCTTCTGGGCCGGGAGGAAGCGTCGCTGGTCGGACAAAACCCCGACGATCTCTTCAAGGCCATCGACGGGCAACCCGCCTATCTGCCGCGCCATGCACCGGTGGAGGCGGTGCACGAGCGCGCCGGGCAGGCGCAGATATTCGAACTCGGCGTACGAACGATCGAATATCGCGGCCGCCCCTGCGAGGTGATGGCCATTCGCGACCTGACGGAAAAGCGCGAAGCGCAGCGGGAAATCGAATATCTCGCCCGCCACGACGTTCTGACGGGCCTTTCCAACCGCACCATGTTTCAAACCCGTCTTCACCAGCAGATCGAACATTGCGATGAGGAGGACGAATTCGCGCTGCTGGCGCTCGACCTCGACCGGTTCAAGGCGGTCAACGACATATTCGGCCATGCCGAGGGGGATCGCGTTCTGAAAAAGGTCGCCGCCATTCTCGATGAATGCGCAAGGGCAGGCGATGTTGTCGCCCGTCTCGGCGGCGATGAATTCGTTATCCTGACTACCCGGCACACCAGGGCGGAAGAGGCGCGCCTGCTGGCCGAGACGATCCTTGGCATGTTCGCACTGAAGATGAATGTTGCCAACGATCCGACCTCCGTTGGCGTCAGCATCGGCATCGCCGTCTTCCCGCGCGACGGGAAGGACGATGAAAGCATCATGCACGCCGCCGATCTGGCGCTCTACCGCGCCAAGATGGGCGGGCGAGGCATATTGGCCTTCTACGATCCGGTGATGGACCAGGAGGCGCGCGAACGCCGCCAGCTCGAAACGGATCTGCGGCTTGCCATCAATCGCAACGAGTTGCTGTTGAATTATCAGCCGGTGCTGTCAGTCGAATGCGGCCAGGTCGTGGGTTACGAGGCGCTGGTGCGCTGGCAGCACCCGACACGGGGCGTGGTGCCGCCGGATGTTTTTATTCCGATTGCCGAAGAGAGCGGTATCATCATCTCGCTCGGCGAATGGGTGCTGCGCGAGGCCTGCCGTCAGGCGGCCGGCTGGGCACCGCACCTGAAGATCGCGGTGAACGTTTCGCCATTGCAGTTTTCGCTGGCCAATCTCGGTCATGTCGTCTGCACCGTGCTGATGCAGACCGGACTTTCGCCCAACCGGCTGGAACTGGAAATCACCGAAGCCGCGCTTCTGAAGGACCGAAGGGCGACATTGATCATCCTCAACCAGTTGAAGGCGCTCGGCGTCGCCATCGTCATGGACGATTTCGGCACCGGTTATTCCTCGCTCAGCAACCTGCAGAGCTTCCCCTTCGACAAGATCAAGATCGACCGCAGCTTCATCGCCGCCATGAGCGACGATGACAATGCCCGCGCCATCGTGCGCGCGGTGATCGGCCTCGGCCGCAGCCTCGATCTGCCGGTGACGGCGGAGGGAATTGAAACGGATGCGCAATACCGCATGGTGGTCGACGAGGGCTGCGCGCAGGCGCAGGGTTATCTCTTCGGCAAACCGGATGTCGCGCCCGCTCAGGTCGTCAGCGCCACCACACGGAAGAAACATTCCGTTTGA	MFTVLECVAVQHDRAVVLLAAVICLLGMFAFFHLLLRAEESPAGRKPYWVLVAAFAGGLSVWATHFVAMLAYKGAVPIGYDFAFTAFSAVLAVFGFWLALTSRSQAAYSPAIAGTLVTLSVAVMHFVGMAGMDVAATISYRWGPVLGGFAVAWAFFLLAFFLFRRLGSWQRIAAPAGSAIFAICALHFTAMSATVLSPDPSVSGPDPDNVARLIMICAISGVTFLILSTTAAAALVDRYLVDLKGLVDATLDGLAVVRDGRIVELNTRFAGLLGREEASLVGQNPDDLFKAIDGQPAYLPRHAPVEAVHERAGQAQIFELGVRTIEYRGRPCEVMAIRDLTEKREAQREIEYLARHDVLTGLSNRTMFQTRLHQQIEHCDEEDEFALLALDLDRFKAVNDIFGHAEGDRVLKKVAAILDECARAGDVVARLGGDEFVILTTRHTRAEEARLLAETILGMFALKMNVANDPTSVGVSIGIAVFPRDGKDDESIMHAADLALYRAKMGGRGILAFYDPVMDQEARERRQLETDLRLAINRNELLLNYQPVLSVECGQVVGYEALVRWQHPTRGVVPPDVFIPIAEESGIIISLGEWVLREACRQAAGWAPHLKIAVNVSPLQFSLANLGHVVCTVLMQTGLSPNRLELEITEAALLKDRRATLIILNQLKALGVAIVMDDFGTGYSSLSNLQSFPFDKIKIDRSFIAAMSDDDNARAIVRAVIGLGRSLDLPVTAEGIETDAQYRMVVDEGCAQAQGYLFGKPDVAPAQVVSATTRKKHSV	PGPT0026010_372	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0026010-mucR-K21023	NA	NA
BMS010_09205	1176			hypothetical protein	ATGACTATTCCTTCCATCGGGCGAGAGTCGAGAACTCCGCTCACCCACCTCCCGAAGAATGCGTTGATGACCATGAACCTTGCACAGATAAAACTTCCGTCTCGGCCGCTGAGCCTCAAACGTGGCGTCATTTCAGTGCCGGCAGCCTATTATTTTTCCATTCCGGTGCTTCTGGTCATCACGGCCGTCATGCTCGTCGCCGAAGGTCCGGGCATATTGCGCGACTATCAGATCAGCAAAGATCCGCTGGAGATTGAAAACGGCGATATCAGCGGCAGCTGCAAGACGCGCAAGGCGATCTTCACGACCTGTGAGGCGGATCTTTCCTATGACCATGCGGGCGTGAGCTACAAGAAGGATGTCGAGGTCATGTTCGTCGATTTCCATTCCGGCGATTATGAAACCGGACTGGTCATCTCCGCGAAGAACCCGGAACTCGCTACGATTTCGCTGGGCCTCGACATGCTCTGGAACCGCATCATTACGCTCGGCGTGTTCGTTGCCCTGCTCGGCTTCGGCAGTTTGGCGATGTTGTTCACGCTTATCCGTGTCCTCCGGGTTCGCCTGCAGCTGCGCAAGCCCGCACCGTTGACCGTCATTCCGGTGGCGCTGACGGCGGTTGCCGAAAAACGCAGCCGTCTCTTCGTCACCTATGCCGATACGGTCAGAGAAGACAAGACCAAGCGGCAGTCCTTCACCCATCTGGAGAGGGGGCGAATCCCGGTCGTCGTTGGCCATAACGGAAAACACGATGTTGCGTTGGCAGTCTGGCACGGCAAGACCGCGCTGCCGGTTCTGCTCGACGACCGGCTGGAGCGGATCGAGCTATCGGAGCAGGAAAGGGCGGAGGCTCTCGCATCGCTTGCCCCGATGCTTGCGAACCAGACACCGGAGGGCGCCTCGGCTCCGGGTGCGACGAGTGCGAAAGGGCCGAGCCTCCTGCGCAGACTGGGGACTTTCGTTGCCATCGTGGCCGTCATCGTCGTCGCGGTTATCGGTTACTGGCTGTGGTACGTCACCAGCGCCCCGTCGCAGTTCAACTCGCCCGGCATGGACCTCAACAACATGATGCCCGCAGCAATTAACGAGTGGGGATGCGCCCGTCTGCAGGAGCGTTTCTCCGATGGCCCGGCGCCTTTCGGATGCGCCGCAGCCGATTATCGAAGCTGGAAATAA	MTIPSIGRESRTPLTHLPKNALMTMNLAQIKLPSRPLSLKRGVISVPAAYYFSIPVLLVITAVMLVAEGPGILRDYQISKDPLEIENGDISGSCKTRKAIFTTCEADLSYDHAGVSYKKDVEVMFVDFHSGDYETGLVISAKNPELATISLGLDMLWNRIITLGVFVALLGFGSLAMLFTLIRVLRVRLQLRKPAPLTVIPVALTAVAEKRSRLFVTYADTVREDKTKRQSFTHLERGRIPVVVGHNGKHDVALAVWHGKTALPVLLDDRLERIELSEQERAEALASLAPMLANQTPEGASAPGATSAKGPSLLRRLGTFVAIVAVIVVAVIGYWLWYVTSAPSQFNSPGMDLNNMMPAAINEWGCARLQERFSDGPAPFGCAAADYRSWK				NA	NA	NA	NA	NA
BMS010_09206	1587	ddpA_4	COG0747	putative D,D-dipeptide-binding periplasmic protein DdpA	ATGAGAAAATCATTGATCCGTCTCGCACTCACCACGGCCCTTGGCGCCATGCTGGTGCAGGCAGCGCCGGCCGTGGCCAAAACACCGAATGACCAGCTTGTCATCGGAACCTCGCTGGCTCAGGTGCTGTCGCTTGATCCGCATCAGGCCACCGAAGGAAAAGCCAACGAAATCATGTCCAACCTCTATGACCGTCTGATTTCGGTCGATGGTTCGGGCAAGGTTTCACCGCAGCTTGCCGAGCGCTGGGAGATAGATGACAAGGGCATCACCTTCCATCTTCGCGAGGCCAATTTCGCCTCGGGCAATCCGGTAACCTCGGCAGATGTCGTCTATTCGCTCAGCCGGCTGTTGAAGATGAACCAGGCGGCCGCAGCCAACCTCAAGCGCGTTGGTTATAACGCCGATAACGTCGACAAGCTGGTGAGCGCGCCGGATGAAAAAACGGTACGCATCGATCTTTCCGGCGAAACGACGTCCGAGCTGCTTCTTTACCGTCTGGCCATGGTCATCGCCAGCGTCGTCGACAGCAAGGAACTCAAGTCGCATGAAAGCAGTGGCGACTGGGGCAATGGCTGGCTGAGAACCAATTCCGCCGGTTCCGGTCCCTTTACGCTCAATCGCTGGTCGCCGAATGAGATCATCATTCTCGAGGCCAACAAGAATTATGTGGCCGGCAGCCCGAAAATGCGCCGCGTCATCGTGCGGCATGTGCCGGAAAGCCAGGTGGAGCGCCTGATGCTGGAGCGTGGCGATATCGACATCGCCAGTGCGCTGACGGCTGCCGACCTTGCAACCTTCAACAACAAGGAAGGCTTCCAGATCCAGCGCGTGCCGACGGGCGGCTTTTACGTCCTGTCCATGAATGCCGGCAAGGAACCTTTGTCCAACCCCAAGGTCCGCGAAGCGATTGCCTATGGCATCGACTACAAGGGCATGGAAAAGACCATCATGGGTCCCTATGGCCGGGCGCGCACGGTGCCGGTGCCGGAAAACTTCGAATACGCCATTCCGAGCCCGGACTGGAAGCTCGATGTGGAGAAGGCGAAGGCGCTCCTCAAGGAGGCCGGTTATGAGAACGGCTTCACGCTTAATCTGAAGACGATCGCGCAGACGCCGCGCATCGACCTTGCCACCGCGATCCAGGCATCGCTCAGCCAGATCGGCATCAAGGTCAATATCCAGCAGGGTAACGGTTCGGACGTGATTGCCGCCCACCGCGCGCGGGATTTCGATCTGCTCATTCCGCAGACGGGCGCCTATATGCCGAATGTGCTGGGCTCGATGGAGCAATTCTCCAGCAACCCCGACAATTCGGTGGCCGCCAACAACGCCGGCAATTTCGTCTGGCGCTCGGCCTGGGACATTCCGGAACTGACGGCGCTCACAGCAAAGGCTTCGCTGGAGCCGGACGCCAAGAAGCGCGGAGAAATCTACACCCAGATGCAGGAAATGTTCGTCGCCCAGAAGCCGGCGGTGCTGCCGATGTTCGAGAGGTTCGAGCCGATCGTGCTGAATGCGCGCGTGAAGGATTATGTGGGTCATCCCAGCCAGACGACCCGGCTGGAAAAGGTCACGAAGGATTAA	MRKSLIRLALTTALGAMLVQAAPAVAKTPNDQLVIGTSLAQVLSLDPHQATEGKANEIMSNLYDRLISVDGSGKVSPQLAERWEIDDKGITFHLREANFASGNPVTSADVVYSLSRLLKMNQAAAANLKRVGYNADNVDKLVSAPDEKTVRIDLSGETTSELLLYRLAMVIASVVDSKELKSHESSGDWGNGWLRTNSAGSGPFTLNRWSPNEIIILEANKNYVAGSPKMRRVIVRHVPESQVERLMLERGDIDIASALTAADLATFNNKEGFQIQRVPTGGFYVLSMNAGKEPLSNPKVREAIAYGIDYKGMEKTIMGPYGRARTVPVPENFEYAIPSPDWKLDVEKAKALLKEAGYENGFTLNLKTIAQTPRIDLATAIQASLSQIGIKVNIQQGNGSDVIAAHRARDFDLLIPQTGAYMPNVLGSMEQFSSNPDNSVAANNAGNFVWRSAWDIPELTALTAKASLEPDAKKRGEIYTQMQEMFVAQKPAVLPMFERFEPIVLNARVKDYVGHPSQTTRLEKVTKD	PGPT0004430_12066	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004430-ddpA|ABC_PE_S-K02035	NA	NA
BMS010_09207	981	uxuA_2	COG1312	Mannonate dehydratase	ATGTATGTCGGCACCCAGGTTGCTGCGCGCGATGACGAGGATTTTAAGGTTTGGGCGCAGCTTGGCGTAAAAAATATCAACGCGGATCCGCCCGGAAAGCCCGCGAGCTGGACTTTCGAGGACTTTGAGCGCCACCGTGACAAGGTCGAAAGCTTTGGCCTCGTTCTCGACATGGTGCAATTGCCGCTGCCGTCGCGGCCCATCGAACAGGCGTCGTATCCCGATATCCTGCTTGCCGGTCCTGATCGCGACCGGCAGATCGATGCCGTCTGCACGATGATAGAGAATATCGCCAGGGCCGGAATCCCTGCCGCAAAATACAATCTCAACCTCATCGGCATTCCGCGCACAGAAATGGAGCGCGGCCGCGGCGGCTCGCTCAATGAAGCCTGGCGCTGGGACAAGGCGGACCATGATGCACCGCCGGGTCTCGCGGGCGTTCTTTCCGAAGACGAGAACTGGGAACGCATCGACTATTTCCTCGAGCGTGTGGTGCCGGTGGCCGAAAGCAACCGCGTGCGCCTGGCATGCCATCCGCATGATCCCTACACACCGCCGGGTTACAGGGGCGTCACCCGCGTTCTCGGCACGGTCGAAGGGCTGAAGAAATTCGTGCAGATGCGCGAGAGCCCCTATCACGGCCTGAATTTCTGCCAGGGGTCGATCGGCGAAATGCTCGACAATCCGCACGAGGAAATCGACGACATCATCAGGTGGTTCGGCAGCCGCGACAAAATCTTCAACGTCCACTTCCGCAATATCAGCGGCGGCAAACTCTCCTTCATGGAGACATTCCCCGATGAGGGCGACATGGACATGGTGCGTTCGCTGAAACTCTATCACGAACTCGGCTATCGCTACATGATCATGCCAGACCATGTGCCGACGATTGCCGGGCGCGATGCCGTCGGTGTCGCTTTCGCCTTCTGCTACGGCTACATCGCCGCCTTGATAGAAGCGCTTGATAACAAACATCTTTGA	MYVGTQVAARDDEDFKVWAQLGVKNINADPPGKPASWTFEDFERHRDKVESFGLVLDMVQLPLPSRPIEQASYPDILLAGPDRDRQIDAVCTMIENIARAGIPAAKYNLNLIGIPRTEMERGRGGSLNEAWRWDKADHDAPPGLAGVLSEDENWERIDYFLERVVPVAESNRVRLACHPHDPYTPPGYRGVTRVLGTVEGLKKFVQMRESPYHGLNFCQGSIGEMLDNPHEEIDDIIRWFGSRDKIFNVHFRNISGGKLSFMETFPDEGDMDMVRSLKLYHELGYRYMIMPDHVPTIAGRDAVGVAFAFCYGYIAALIEALDNKHL	PGPT0018270_1629	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GULONATE|FRUCTURONATE|MANNONATE_DEGRADATION,PGPT0018270-uxuA-K01686	NA	NA
BMS010_09208	714	lldR_6	COG2186	Putative L-lactate dehydrogenase operon regulatory protein	ATGATGGGCGACAAAACGAGGCCGCGGGAGAGGCGGGCACAACAGATCATCGATAATCTCAGCGCAGAAATTCGCAGTGGAAAACTGAAAAACGGTGATCAACTTCCCACCGAACCGGAGCTTGAGCGCAGCTACGGCGTGAGCCGCACCGTGGTTCGCGAGGCGATCGCGGATTTGCGTTCCGCCGGCTATGTCGTTCCCATCCAGGGCAAGGGGGTTTTCGTCAGCAATGCCAGTGAATGGGCCGGCGTGAAACTGACGCAATCCGAAGTCGGAACCATTGCGGAAACGCTGGAAATGCTGGAGTTCCGGCTTGCGACGGAAGGGGAGGCAGCGGCAATCGCCGCCTATCGCCGCACCGCCCAGCAGGAGGCCGCAATCTCTGCGGCGCACCGGAAAATGGCCCGCGCCATCGATGCGCGTGAAACCACCGTCGATGCCGATTACGAGTTTCACACGGCCATCGCGATCGCCACGAATAACCGCTTCTATCTGGAGGCTCTGCGTCAGTTCGGTTCGCGCTCGATCCCGCGCGGGCAGTTCCCGACGCTGCCGGAAACCGGTGACGCGAATTATCTTCGCAAAGTGCAGGCCGAGCACGAGGCAATCCTGCGCGCCATCGTCGAACAGGATCCGGAAGCGGCGCGAAAAGCCATGCGCGAACATATGCTTGCGAGCCAGCGCCGATACAGGTTGCTGTCAGAAGCGCAATAG	MMGDKTRPRERRAQQIIDNLSAEIRSGKLKNGDQLPTEPELERSYGVSRTVVREAIADLRSAGYVVPIQGKGVFVSNASEWAGVKLTQSEVGTIAETLEMLEFRLATEGEAAAIAAYRRTAQQEAAISAAHRKMARAIDARETTVDADYEFHTAIAIATNNRFYLEALRQFGSRSIPRGQFPTLPETGDANYLRKVQAEHEAILRAIVEQDPEAARKAMREHMLASQRRYRLLSEAQ				NA	NA	NA	NA	NA
BMS010_09209	1029	dppB_7	COG0601	Dipeptide transport system permease protein DppB	ATGACGGAAATCTCACTGCGCGGGCTTGGACATCGTTTTCTGCAACTGATCGTCAGCCTCTTCATCCTGCTCTGCATCACCTTCATCATCGGCCGGGTCATGCCGAGCGATCCGGTCGGGGCAATCGTCGGCGAACTTGCCGATCCCAAGGCCTATGAGGCCATGCGAGCGCGACTGGGGCTCGACCTGCCGCTTTACCAGCAATTCTTCATCTATCTGCGCGGCCTGCTGCATGGCGATTTCGGCATTGCGATCCTGACCGGAAACCCCGTTACCCGCGATCTGGCGCAGGCTTTCCCCGCCACTTTCGAACTCGCCACGCTGGCGATCATCATCTCGACGGTCATCGGCGTCCCACTCGGTCTCGCCGCCGCCCTCTTCCGCGACACCTTCATCGACAAGTTCGCGCGCGTTTTTGCGCTGGTGGGACATTCGATACCGGTCTTCTGGTTCGGCATCGTCGGGCTGGTGATTTTCTACGCGAATCTCAACCTTGTCGCGGGGCCCGGCCGGGTCGACGTCTTCTACGAAGGCCTCGTGGAGCCGAAGACGGGATTGATGCTCGTCGACACCCTCCTTGCGGGCGAGACGGAAATCTTCTGGAATGCGCTTGGACACATCATCCTACCGGCGATCATCCTCGCCTATATGGCCATGGCCTATATTACCCGCATGACGAGGGCCTTCACCCTCGAACAGCTCAGCCAGGATTATGTCATCGCGGCGCGGGCCAAGGGTGTCAGCCCCGCGCGCACCATCACCCGCCATGTGCTGCCCAACATCGCCGTGCAGCTCATCACCGTTCTGGCGATCTCCTATGGCAACCTGCTGGAAGGCGCCGTGGTCACGGAGATCGTCTTCTCCTGGCCCGGCATCGGCCAATACATGACGAATGCACTGCTCATCGGCGACATGAATGCGATTCTGGCCGCCACAATCGTCATCGGCTTCATTTTCATGTTGCTCAACTTCCTCGCCGATCTGGCCTACACCACGCTCGATCCCCGTACACGGGAGGCCGCACGATGA	MTEISLRGLGHRFLQLIVSLFILLCITFIIGRVMPSDPVGAIVGELADPKAYEAMRARLGLDLPLYQQFFIYLRGLLHGDFGIAILTGNPVTRDLAQAFPATFELATLAIIISTVIGVPLGLAAALFRDTFIDKFARVFALVGHSIPVFWFGIVGLVIFYANLNLVAGPGRVDVFYEGLVEPKTGLMLVDTLLAGETEIFWNALGHIILPAIILAYMAMAYITRMTRAFTLEQLSQDYVIAARAKGVSPARTITRHVLPNIAVQLITVLAISYGNLLEGAVVTEIVFSWPGIGQYMTNALLIGDMNAILAATIVIGFIFMLLNFLADLAYTTLDPRTREAAR	PGPT0004445_2239	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004445-ddpB|appB-K02033	NA	NA
BMS010_09210	900	ddpC_8	COG1173	putative D,D-dipeptide transport system permease protein DdpC	ATGACCGATATCGCGCACAACAATACCGTTGATCGTCCCAGCGCCCTGTCGCGCATCTCGACCACCACCGCGCGGACACTTCGAAAGCTCGCGGACGAACCGCTTGGAATGTTCGGCTTCGCCATTCTGGCCATTCTGGTTCTGGTCGCCATTTTCGCACCGCTCATTGCGCCTTACGATCCTGCGCGCCAGGCTCTGGAAAACGCGCTTCAGCCTCCCAGCTGGGCGCATCTGGCCGGAACCGACGAATTCGGCCGCGATATTTTCAGCCGGCTCGTATACGGCACCCGCATCACCATCCAGACGGTACTGTCGGTCTCGGTCATCGTCGGTCCTATCGGCCTTGCCATTGGCGTGATGGCCGGTTTCTTCGGCGGGCGAACCGACGCGATCCTGATGCGCGCGACCGATATCGTCCTTTCCTTCCCCTCGCTCGTGCTGGCGCTTGCCTTTGCGGCCGCCATGGGCGCCGGCCTCGGCACGGCGATCATCGCGATCTCGCTGACGGCATGGCCGCCGATTGCGCGTCTTGCCCGTGCGGAAGCCCTTGTCGTGCGCAATACCGACTACGTCGCCGCCGCCCGTCTCTATGGCGCCTCGCCGCTGCGCATCCTGTTACTGTACATTGCGCCGATGTGCATTCCCTCGGTCATCGTTCGCCTGACGCTGAACATGGCCGGCATCATCCTGACGGCCGCTTCACTCGGCTTCCTTGGTCTCGGAGCCCAGCCGCCGCTGCCGGAATGGGGCGCGATGATCTCCAGCGGCCGCAAGTTCATGCTCGACTACTGGTGGGTCGCCGTCATGCCCGGTATCGCCATCCTGCTGACGAGCCTTGCCTTCAACATCGCCGGCGATACGCTGCGCGACCTTCTGGATCCGCGTCATGCCCGTTCCTGA	MTDIAHNNTVDRPSALSRISTTTARTLRKLADEPLGMFGFAILAILVLVAIFAPLIAPYDPARQALENALQPPSWAHLAGTDEFGRDIFSRLVYGTRITIQTVLSVSVIVGPIGLAIGVMAGFFGGRTDAILMRATDIVLSFPSLVLALAFAAAMGAGLGTAIIAISLTAWPPIARLARAEALVVRNTDYVAAARLYGASPLRILLLYIAPMCIPSVIVRLTLNMAGIILTAASLGFLGLGAQPPLPEWGAMISSGRKFMLDYWWVAVMPGIAILLTSLAFNIAGDTLRDLLDPRHARS	PGPT0004450_7647	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004450-ddpC|appC-K02034	NA	NA
BMS010_09211	846	dppD_3	COG0444	Dipeptide transport ATP-binding protein DppD	ATGCCCGTTCCTGATAGCTCCCCCATCCTTTCGGTCCGCGACCTCAATGTCCGTTTCGGCCGCAACACCATTCCAGCCGTGTCCAACGTCAATTTCGATGTCGGGCGCGAAAGGGTCGGCATCGTCGGTGAGTCCGGCTCGGGAAAATCCACCACCGGCCGTGCCGCCATGCGGCTCCTGCCGAAAAGCGCCACGGTGACAGCGGAGCGGATGGATTTCCTGTCCGAACCGTTGCTCGAAAAATCCGAGCGGCAGATGGGCGCGATCCGCGGCAGCGAGATGGCGCTGATCATGCAGGACCCGCGTTATTCGCTGAACCCGGTGCTGCCCATCGGAAAGCAGGTGGCGGAGGCCGCCGAACTGCATCTGGCGCTGACCGGAAAGGCGGCCAGGAATGCAGCACGCGACATGTTGCTGCGCGTGCGCATCAACGATCCCGACCGCGTGATGGCGCTTTATCCGCACCAGATATCGGGCGGCATGGGCCAGCGCGTGATGATCGCCATGATGCTGCTCGCAAAGCCCAAGCTGGTCATTGCCGACGAACCGACCTCGGCCCTCGATGTCAGCGTCCGCAAGGATGTGCTTTTGCTTCTGGACGAGATGGTGCGGGAGAATAATTCCGGCCTGATCCTCATCAGCCATGACATCCGCATGGTCGCGGCCTTCTGCGAGCGCGTGCTGGTCATGTATGGCGGGCGCGTCGTGGAAACGCTGACGAAGCTGGAGGATGCGCAACATCCCTATACGCGGGGCCTGATCGCGGCGATGCCCGATCCCCGCAATCCGGTGCGGCGTCTCAAGGTGCTGGACCGTCAGGCCATCGATGCGGAGGTGATGCGATGA	MPVPDSSPILSVRDLNVRFGRNTIPAVSNVNFDVGRERVGIVGESGSGKSTTGRAAMRLLPKSATVTAERMDFLSEPLLEKSERQMGAIRGSEMALIMQDPRYSLNPVLPIGKQVAEAAELHLALTGKAARNAARDMLLRVRINDPDRVMALYPHQISGGMGQRVMIAMMLLAKPKLVIADEPTSALDVSVRKDVLLLLDEMVRENNSGLILISHDIRMVAAFCERVLVMYGGRVVETLTKLEDAQHPYTRGLIAAMPDPRNPVRRLKVLDRQAIDAEVMR	PGPT0004435_13325	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004435-ddpD-K02031	NA	NA
BMS010_09212	738	oppF_6	COG4608	Oligopeptide transport ATP-binding protein OppF	ATGATCACGGTAGACAAGCTCGACGTCGTCTATGGCGCAAAGGAAAACCGCAATCACGTCGTGCGCGGCGTCAGCCTCACGGTCAACAGGGGTGAAACGCTCGGCATCGTCGGCGAAAGCGGCTGCGGCAAGTCGACCTTGCTGCGGTCGCTGGCGGGGCTGGAGGCCGGCTGGACCGGCTCCATCAGCTTTAACGGTAAACCGGTCGGCAAGACCCGCAGTCGCGACGAACTGAAACTGGCGCAGATGGTGTTCCAGGACCCCTACGGTTCGCTGCACCCGCGCCACCGCATCGGCCGGGCGCTCGCCGAACCGATCCGCGCCATGGGACTTGGCGATGGCTGGTCGAAAGTGCCTGCCGCCCTGCAACAGGTGGGCTTGCCCGCACATTTCGCCGAGCGCTTCCCGCATGAACTTTCCGGCGGCCAGCGCCAGCGCGTGGCAATCGCCCGCGCGCTGATCCTCGAACCGCCGATCCTGCTGCTCGACGAGCCGACATCCGCGCTCGACGTCTCCATCCAGGCGGAAATCCTGAACCTGCTTGCCGACCAGCGCGAAGAACGCGACCTCACCTTTGTTCTCGTCAGCCACGACCTCGCGGTCATCGCCCATATGTGCGACCGGGTGCTGGTCATGCAGAACGGCGATTTTGTCGATGAGCTGACCAAGGCCGACCTTGAAGCGGGCGTTACCCATTCGGCCTATTCAGGTGAGCTGTTCGAAAGCAGTTTCCTGTAA	MITVDKLDVVYGAKENRNHVVRGVSLTVNRGETLGIVGESGCGKSTLLRSLAGLEAGWTGSISFNGKPVGKTRSRDELKLAQMVFQDPYGSLHPRHRIGRALAEPIRAMGLGDGWSKVPAALQQVGLPAHFAERFPHELSGGQRQRVAIARALILEPPILLLDEPTSALDVSIQAEILNLLADQREERDLTFVLVSHDLAVIAHMCDRVLVMQNGDFVDELTKADLEAGVTHSAYSGELFESSFL	PGPT0004440_9569	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004440-ddpF-K02032	NA	NA
BMS010_09213	2067	pcrA_2		ATP-dependent DNA helicase PcrA	ATGGCGGTTGCCTATCTGGAAAAGCTCAACGAACAGCAACGCAGGGCGGTGGAGCATGGCGTTGGGCTGGCGGAAGGGCACACGGCCGGACCGCTGCTGATCATCGCCGGGGCCGGTTCGGGCAAGACCAATACGCTCGCCCACCGTGTTGCGCATCTGATCGTGAATGGCGCCGATCCCCGCCGCATCCTGCTGATGACGTTTTCCAGACGTGCCGCCACGGAAATGTCGCGGCGGGTCGAGCGTATCTGCAAACACGTTATCGGGGCGAATTCGGCAATCATGACAGACGCGCTGGCCTGGTCCGGCACGTTTCACGGCATCGGGGCGCGCCTGTTGCGCATCTATGCCGAGCAGATCGGGCTTAACATCGATTTCACCATCCACGACCGCGAGGATAGCGCCGACCTGATGAACCTCGCCCGGCACGAGCTGGGCTTTTCCAAAACCGAAAGCCGCTTTCCAACGAAGGGTACGTGTCTTGCGATCTATTCGCGCGTGGTGAATTCCCAGACGCCGCTCAAGGAGATATTGCGCCAGCATTATCCCTGGGTCGCCAACTGGGAGAGTGAACTGAAAGAGCTGTTCGCAGCCTATGTCGAGGCCAAGCAGGTCCAGAACGTGCTCGATTACGACGATCTTCTGCTCTACTGGGCCCAGATGGTCAGCGACCCCGTTCTGGCGGACGATATCGGCAACCGCTTCGACCATGTGATGGTCGACGAATATCAGGATACCAACCGGCTTCAGGCTTCGGTGCTGATGGCGCTCAAGCCCGGTGGCCGCGGGTTGACCGTGGTGGGTGACGATGCGCAATCGATCTATTCCTTTCGGGCGGCGACGGTGCGAAACATCCTCGATTTTCCGGCTTCCTTCAGCCCTGCCGCCGACATCATCACGCTTGACCGCAACTATCGCTCGACGCAGCCGATCCTGGCGGCCGCCAACGGCGTCATCGATCTGGCGCGCGAGCGGTTCACCAAGAACCTCTGGACCGAGCGGCAGTCGCTGGAGCGCCCGAAGCTTGTGACGGTGAAGGACGAGACCGAACAGGCGAATTTCATCATCGACCAGATTCTCGCCAACCGCGAAACCGGCATGACGCTGAAACAGCAGGCCGTGCTGTTCCGCACCTCCAGCCATAGCGGCCCGCTCGAGGTGGAACTGACCCGCCGCAACATCCCCTTCGTCAAATTCGGCGGCCTGAAATTCCTCGACAGCGCCCATGTGAAGGACATGCTGGCCGTGCTGCGCTTCGCGCAGAACCCGCGCGACCGCGTCGCCGGTTTCCGACTGCTGCAGATGCTGCCCGGCATCGGTCCGAAGAAGGCCGGCAATATTCTCGATGCGATTGCGACAGACCCCGAGCCGCTGCTTGCCCTTGCGGAAATTCCGCCGCCGCCGAAGACCGGAGACGACTGGACGACCTTCACGCAAATGCTGGTGGGCCTGCGACAGACGCCGAACGACTGGCCGGGCCAGATCGGGCAGGCGCGGCTGTGGTACGAACCGCATCTGGAACGCATCCATGAGGATGCGGACACCCGCAAGGCCGATTTGCTGCAGCTCGAGCAGATCGCCGGCGGCTACCCCTCGCGGGAGCGCTTTCTGACCGAGCTGACGCTTGATCCGCCCGACGCCACCAGCGATCAGGCCGGCGTGCCGCTGCTTGACGAGGATTATCTCAGCCTCTCCACCATCCATTCGGCAAAAGGCCAGGAATGGCGTTCCGTCTTCATCCTGAATGTGGTCGATGGCTGCATTCCCTCCGATCTCGGGGTCGGCACCACGCAGGAACTGGAGGAGGAACGCCGGCTGCTTTATGTCGCCATGACGCGCGCCAAGGACAGCCTGTCGCTGATCACGCCGCAACGTTTCTTCACCGGCGGGCAGAACCAGCAGGGCGACCGGCATGTCTACGCCGCAAGAACCCGCTTCATCCCGGCGACATTGCTGCAATTCTTCGAAACGGCAACCTGGCCACTGGTGTCGGCCGCCGCTTCCGAGCGCAGCGCGCAGCAGATCCGCATCGATGTGGGTGCTCGGATGCGGGCCATGTGGAAGTAA	MAVAYLEKLNEQQRRAVEHGVGLAEGHTAGPLLIIAGAGSGKTNTLAHRVAHLIVNGADPRRILLMTFSRRAATEMSRRVERICKHVIGANSAIMTDALAWSGTFHGIGARLLRIYAEQIGLNIDFTIHDREDSADLMNLARHELGFSKTESRFPTKGTCLAIYSRVVNSQTPLKEILRQHYPWVANWESELKELFAAYVEAKQVQNVLDYDDLLLYWAQMVSDPVLADDIGNRFDHVMVDEYQDTNRLQASVLMALKPGGRGLTVVGDDAQSIYSFRAATVRNILDFPASFSPAADIITLDRNYRSTQPILAAANGVIDLARERFTKNLWTERQSLERPKLVTVKDETEQANFIIDQILANRETGMTLKQQAVLFRTSSHSGPLEVELTRRNIPFVKFGGLKFLDSAHVKDMLAVLRFAQNPRDRVAGFRLLQMLPGIGPKKAGNILDAIATDPEPLLALAEIPPPPKTGDDWTTFTQMLVGLRQTPNDWPGQIGQARLWYEPHLERIHEDADTRKADLLQLEQIAGGYPSRERFLTELTLDPPDATSDQAGVPLLDEDYLSLSTIHSAKGQEWRSVFILNVVDGCIPSDLGVGTTQELEEERRLLYVAMTRAKDSLSLITPQRFFTGGQNQQGDRHVYAARTRFIPATLLQFFETATWPLVSAAASERSAQQIRIDVGARMRAMWK				NA	NA	NA	NA	NA
BMS010_09214	2100			hypothetical protein	ATGCGCGAATTTAAAACAAATCGATCCAGCAACCTTTTAGACTTCTCATCTTCTGCTTTCAAGCTTTGCATCGTCACGATTGGCCTCGCCGAAATATATTTTTTAGTAGTAACTCGGACGTATGTTCCCGACGAAGCTTGGTTTTTATTCGAAGCTTATGCCTCTGCAGTCCGCGCCGACACTTGGGGATGGTCAAAAGAACTACTCATGCACCGAAATAGCTTCGGCTACGGCCAACTCTGGTGGGAAGTCTATGCACTGTTCGCAGGTGCGGCAAGATCGATCTGCGCTGACACAAACGGATTTATGGCTGGCGTTATCAAGTCCGAGGCTTGGAGCCGACCGGAACTGGACGTGATGAAGGCGACCGTTTGGTCAATAGAGAAGGCAAAGCTGTACGACCGCACGTCGACATGTTTTACGTTACCCCTCCACGCAATGCGACTTATCTCATTTCTCCCATACGTCGTTCTCGGTGTCTTACTCTTAAGAAACGATAACACGTCGTCACTATTTTCGCTCACAATTTTTATACTTTCACCCGTTCTCCTATGGTCAGGAAAGCTTGCCGCGCCGGATCTACTCGTATCCGGATTATTTGCACTTGCTGTTTATCTGACGTTTTTCAGTTTCAAATTTTTTCTATCTATTTTAGTTATTGTTGTCGCGATATCTGTTAAGCCAACGATAGTGACAATTTCACTGACATTAATCCCATTTGCTCTATTATATGAATATAGAAGAAATAATTTACAAAATATGAAATTTGTTATCCCAGTATTTTTGATAATATTTCTGGCGTTGAATTCCTACTATATTGCTGAGCCCTTGGATGCCCTACAGACAATAAAAATACTAGCGGAAACGATCCGCGCGTATCCGGATACTCAGCTACAGGTTGCAACAATCCTATTCGGCAATTTCTCCTCATGGGAGCTGACAAGTTACGGGAGTTTTTTCTACTTTATCGGCGGCCCCCTGGTACTCATTGGCATGGTTGCTTATGCGTGGAAGTCATACGGCTCCAATCCAACATTAAAGCAATATTCAGCTTTTCTCGGAGCCGCGTTCGCGATTCAATTCGCAGCAAACGTGCTCCAGGTTCCTCATGGATGGTACTGGTTCCCTTTAATAAGCGCTATTTTTTTGGCACCAGCTTTGGTTGAAAGCTCCAATCTAAAACCGAGAATTCGAAGAATTTGTTTCGCAATTGTCCTAGCACCGCTCGCGACCAACGCGATGGCGGAGGCTCGACTTCGTAGTTCTCACGAATTCGAGCTTCAGAATGCAAATGATACCTATTCCTGCATATCCCACCTCGCGTCAGAAAAGGGCATCAACCGCATTTACGATCTTGCCGTAATCGGCCGGGAGTACCAATCAGCCAATGTAGATGTCGTTAGCTACTTTGAGTCTTTTTCACTACTCGCAAAGAATGAATTTAATTTACAACCCGGCGACGCAATAGTTGTTGGAATGAGGGCCTTGGAAAGCTGGCCGCCAACACAGAACATTTCGCATTTTTTTTCTAACGACTCCTCATTTGAGTCAGTCAGATGCGGAACCAGCAATATAATTATGAATATTGCTCCCGCTCAAGAAGGTGAGGCACAAATTCAAACGAGACTGGATGATTTCTCATCAAAGGTATCTACAGAATCGCGAAATCTGGCTTACACCAATAGTTATACGAGCTATATTCTACTCTCACAAAAATCACCGAGCAAAGGTGTATATACGAGTGGATTTGCCAGTATTTTTCCACTCATCGAAATCAAAACCGGCACAATTGATGTAAAGCTGGAAAATCTATCGGTTGAGCCATGGCTACCCATTCCAAAATTTGGTCTCAACTCAATATCGCTTTCCTATCATATATTGGATAAAAGCACGCGAGAGGTAGTATACGACGGCTTACGGACGCCAATATCAAGAACTCTTAGGCCCGGCGACACCATGGTACAAAGCATGAAATTTGAGATACCACCGCCGGGACAGTATGTTCTCCGGGTAACAGTCGTTCAGGAAGGCGTTGCCTGGTTTTATAATGTCGGTGGCGGATATTTTGACGTTCCGCTTATCGTGCATCCTTCACTTTAA	MREFKTNRSSNLLDFSSSAFKLCIVTIGLAEIYFLVVTRTYVPDEAWFLFEAYASAVRADTWGWSKELLMHRNSFGYGQLWWEVYALFAGAARSICADTNGFMAGVIKSEAWSRPELDVMKATVWSIEKAKLYDRTSTCFTLPLHAMRLISFLPYVVLGVLLLRNDNTSSLFSLTIFILSPVLLWSGKLAAPDLLVSGLFALAVYLTFFSFKFFLSILVIVVAISVKPTIVTISLTLIPFALLYEYRRNNLQNMKFVIPVFLIIFLALNSYYIAEPLDALQTIKILAETIRAYPDTQLQVATILFGNFSSWELTSYGSFFYFIGGPLVLIGMVAYAWKSYGSNPTLKQYSAFLGAAFAIQFAANVLQVPHGWYWFPLISAIFLAPALVESSNLKPRIRRICFAIVLAPLATNAMAEARLRSSHEFELQNANDTYSCISHLASEKGINRIYDLAVIGREYQSANVDVVSYFESFSLLAKNEFNLQPGDAIVVGMRALESWPPTQNISHFFSNDSSFESVRCGTSNIIMNIAPAQEGEAQIQTRLDDFSSKVSTESRNLAYTNSYTSYILLSQKSPSKGVYTSGFASIFPLIEIKTGTIDVKLENLSVEPWLPIPKFGLNSISLSYHILDKSTREVVYDGLRTPISRTLRPGDTMVQSMKFEIPPPGQYVLRVTVVQEGVAWFYNVGGGYFDVPLIVHPSL				NA	NA	NA	NA	NA
BMS010_09215	132			hypothetical protein	ATGGCAGGGGTCATAGCGGTACAGCGTGTCATCCAGATCAACCAATATGCCTTGATACCGGTCGACGTCGATATCTTCGTACTCTACGGGCTGTTTCAAGATCTGCTCAATTTTTTCCGATTCGGGAGCTGA	MAGVIAVQRVIQINQYALIPVDVDIFVLYGLFQDLLNFFRFGS				NA	NA	NA	NA	NA
BMS010_09216	1566	udk_2		Uridine kinase	ATGCACATGCTGCTCATGGCCCCGTTCGTGCTGGTTTACCTTTGGCAAGATTACACACGATTTGCACCGGTACTCAAATATGGCGTGACCATGTGTCTCTCCTTCTTGATTATAAACGCACCATATTTGTTAAGCGATGGCTTCATTCATATGGTTTTTATGAACGCTCAGCAAAACAAGGTTGGGCTTGCCGCATTTTCACTGAGCAATGGGATCGAATTCTACCTCATCCCCGCCCTTCTTATGGCGCTCATCATATATGCCACACACATCCAGATAAGGAATCGAGATGTATTCCTGATATTTATTGGATTTTCATTTGGAATAATACTCTTGTTCATTCCGCCGTCTCAGGGATGGTATTACTGGGTATTGCCGTTTTTCATCTACTTTTACGTAAGGTCACCAAGATCATACTTTCCCGTTATAATTGCCTTGCAGGCTGCGTACTTTTTATATTTCGCTCTCATTACCGATTCGGATTTCACGACACTCTTGCAGGTTGGAGATTTTGTCACTCGTGAATCTCTGTACGCGACTTTATCCCGCTTGGGAATTGATGCGCCCATCGCACTCAATTCCGCATTCACAGGCTTGCAGACCCTGCTGCTTCTCAATTGTGTCGTCGTCTTTTACCAGGGCGTGTATATCCCGCAGCGCCGCAGCATCATGGCGCGCCCGTTTATGCTTGGGATTGCAGGCGACTCCGGAGCTGGAAAGTCAACCATCTCGTCCTGTATCCAAGATTTGTTTGGGGTCTCACAGCTTGCCGTCATCTGCGGCGACGACATGCATAAATGGCAACGCGGACATTCCCAATGGCATGAACTGACGCATTTGGACCCACGTGCAAACGAGCTTCACAACGAACTTCAATACCTCAAGCTTCTTCGCGAAAACAAGCTGATCTGGCGCAGGCACTACGACCACAATACCGGAAAATTTACCAACGAGTTGCCGATAAGCCCTCGTCCGGTGATGGTCATGGAAGGGCTTCACTCGTTTTATCTAAAACCTGCCCGAGACTTATTTGACCTGAAAATATTCGTTAAGCCGGATCCCACTTTGCTTCTCCATCGCAAAGTCGTCCGCGACATGAAAAAGCGGAACTACACCAAGGAAAAAGTTATCCGATCCATTGAAGAGAGAAGGAAGGATTCCGAGAAATATATCGTCACTCAGGAGCGGTATGCAGACATAATCGTTTCCCACATGTTGCGCCAACCCATAGCGGCAGAAGACATAGGAAACCCTGAGATCGCGGCTGAAGAATGGCTGCGCGTCACGCTGTCCAATGAATATTTCCTTGACCCCATCATCACAGATCTCCTGGAAATGCTGCCAGGCGCAGTCAGCCACTATTATGACGAGAACGACTTACAGGTTCTGGACTTTGATCGCCCTCCGGAAGTCGAGGATATTCTCGCGCTCGGCGAAAAATATGTTGAGGGTCTTCAGCAGTTCGGTATCTACGATCCGAAGTGGCGTGGCGGCTGGCAGGGCCTAATGCAACTTTTGATTGGCTATTGCATCTTTCACGGCTGGGAATCAGAATATGGTAGCTGA	MHMLLMAPFVLVYLWQDYTRFAPVLKYGVTMCLSFLIINAPYLLSDGFIHMVFMNAQQNKVGLAAFSLSNGIEFYLIPALLMALIIYATHIQIRNRDVFLIFIGFSFGIILLFIPPSQGWYYWVLPFFIYFYVRSPRSYFPVIIALQAAYFLYFALITDSDFTTLLQVGDFVTRESLYATLSRLGIDAPIALNSAFTGLQTLLLLNCVVVFYQGVYIPQRRSIMARPFMLGIAGDSGAGKSTISSCIQDLFGVSQLAVICGDDMHKWQRGHSQWHELTHLDPRANELHNELQYLKLLRENKLIWRRHYDHNTGKFTNELPISPRPVMVMEGLHSFYLKPARDLFDLKIFVKPDPTLLLHRKVVRDMKKRNYTKEKVIRSIEERRKDSEKYIVTQERYADIIVSHMLRQPIAAEDIGNPEIAAEEWLRVTLSNEYFLDPIITDLLEMLPGAVSHYYDENDLQVLDFDRPPEVEDILALGEKYVEGLQQFGIYDPKWRGGWQGLMQLLIGYCIFHGWESEYGS				NA	NA	NA	NA	NA
BMS010_09217	855	mtnB_2		Methylthioribulose-1-phosphate dehydratase	ATGGTAGCTGACCTTCAAACGCTGGTAACAATTTCTCGCCAATTAGGAAGCGAGGTCGGATATATTCAAGGTGGCGGCGGAAACACGTCACTCAAGGTGAATGATGATGAAATGTACATCAAGGCGTCTGGTCGCTCGCTTGCCGAAGTGGACGCAGAAAACGGCTTTTTGGCAGTCAATTGGCGTCAGGTGAAGGCAGGCTTGTCGACATGCGAAACTGAAGGAACCTATAGCGAACTGCTAGCCGAAAGCTCTTTCAGCGCCGACAAGACGGTTAGGCCATCCATCGAGACCGGCTTTCACGCGCTTCTCGGTCGATGTGTGGTACACAGCCATTCTGTATGGTCGAACATCCTCAATTGTTCGGAGGAAGGTCCAGCGATCATTGGCAAGCTCTTCCCAAATGCCTTATGGATTGAGTACGAAACACCAGGTTTGCATTTGACGAAGGCCATAATGGCGCGCACCAACAAATTGGATCAGCAGATTCTATTTTTGCAAAATCATGGGCTGATCGTATGGGCCGACGATGAAAAAAATGCATCGATCCTGCATCAATCAGTAAACGATAAGATACGAGAACATTTCAATGGGGGACTTCATTTCCCGGCTGCGGATGTCGCGGTTCCTCCCTCGTTTCGCGACGGGCTTCTTTTCCCCGATCAAGCGGTTTATCAGAGCAATATAGACTTGGCGCATAGTCGTGCCGGACGAGAAACAATGCTCGCCTGTGATTTTATACTTCACAATATTATAAAATTGGGATTGACGGTCAATTTCATCAGAAGCTCAGAGAAAGACGTGTTGCTGAACCTTGAGACGGAAAAGTATAGGCAGAGGCTGATAACCGAATGA	MVADLQTLVTISRQLGSEVGYIQGGGGNTSLKVNDDEMYIKASGRSLAEVDAENGFLAVNWRQVKAGLSTCETEGTYSELLAESSFSADKTVRPSIETGFHALLGRCVVHSHSVWSNILNCSEEGPAIIGKLFPNALWIEYETPGLHLTKAIMARTNKLDQQILFLQNHGLIVWADDEKNASILHQSVNDKIREHFNGGLHFPAADVAVPPSFRDGLLFPDQAVYQSNIDLAHSRAGRETMLACDFILHNIIKLGLTVNFIRSSEKDVLLNLETEKYRQRLITE				NA	NA	NA	NA	NA
BMS010_09218	675			hypothetical protein	ATGATAGAATGGGTCCTACGCATGTTTCCAGGTGAAGAAACTCCACTCTTCATCTGCAGGGAGGAACATATTGAACAGACGCCCATGGCGTCCGTTCTGAAAGAATTGAAGCCGAAGGGTGAGATTGCGACTATCAAGGGCGAAAAACTCGGACCGGTGGCAGCGTTGATGGCCGCTGCGGATAAAATAGATGATAATTCCCCAGTTTTGGTCAGTTATTGCGACTATTACATGAGTTGGGATTATGCTGCGTTTCTGCAGTACCTCGACGCCGGAAACTTCGCCGGCGCGATACCATGCTACACCGGTTTCCACCCTCACCTTCTGCCAGCAAAAAATCTTTATGCGAGTTGCCGTATCAACGACAGCGGACTTTTATCTGAAATCAGGGAAAAACACTCCTTCGAAGCCGACAAAACCAAAACCCTTCATTCGCCAGGCGTTTATTTCTTCGGTTCGGGGCGCCTTTTGAAGGACTATGGGAATCGCCTGATGGCCGCGGACGACTCACTCAATGGAGAATATTACGTCAGCATGATCTACAATCATCTTGTAAGAGACGGGCTGCGTGTAGGCGTGCCGGCGAACATCGACTATTTTTGCCAGTGGGGAACACCTGAGGATCTAGATGAATATCTCTATTGGAATTCCGTCGCACGGAGGCGTTTGCCGTGA	MIEWVLRMFPGEETPLFICREEHIEQTPMASVLKELKPKGEIATIKGEKLGPVAALMAAADKIDDNSPVLVSYCDYYMSWDYAAFLQYLDAGNFAGAIPCYTGFHPHLLPAKNLYASCRINDSGLLSEIREKHSFEADKTKTLHSPGVYFFGSGRLLKDYGNRLMAADDSLNGEYYVSMIYNHLVRDGLRVGVPANIDYFCQWGTPEDLDEYLYWNSVARRRLP				NA	NA	NA	NA	NA
BMS010_09219	804			hypothetical protein	GTGAACATCCTCATCCCAATGGCTGGCGCCGGTTCGCGCTTCTCCGTTGCTGGATACACCCAGCATAAACCCGTCATTCCTGTATCCAGCAGGTTGCGCAACGAAACAGTCCCGATGGTGGTCGCGGCCGTTGACGATTTGCCTGTCAATTCTGCCGGAAGAGATACAAAGCTGATTTTCATTGTCCGCGACTTCCACCTTCAAGATGGCGTCGATGTCATTTTGAAAAAAAGGTTTCCCCACGCTCAATTCATTTCAATCGACAGTCTCACCGAGGGGCAGGCGAACACCTGCCTCCTAGCGCGCGAAGTGATCGATAATGATGAACCCCTGCTAATCGCCGCATGCGACAACGGCATGGACGTGTCGCGGGAATATTTCGAAGAGCAAGCCCAATCAGCCGATGCCCTTATATTCACCTTTCGTAATAATGAAGCCGTTCTTCAAAATCCGAAATCCTATGGCTGGATCAGGGTGCAAGGAGACAAGGTTACGGGGGTTTCAATAAAACAGCCAATTAGCGACAACCCGGTAAACGACCATGCCGTGGTGGGGACTTTCTGGTTTCGTCGAGGCAGCGACTTTGTGAAAACTGCCGATGAGATGATTGCTGCAAATGACCGCATCAACAATGAATTTTATGTCGATCAGGTGTTCAAATATATGGTGAACGCCAATGCAGATGTCCGCGTAACAGAAATATCGCGATACATTTGTTGGGGTACGCCAGAGGACTATGAGGCCTATGAAAATACTTTGTCCTACTGGACGGAGTTCACGGCAAGGGAGCCTTGGACACGATGA	MNILIPMAGAGSRFSVAGYTQHKPVIPVSSRLRNETVPMVVAAVDDLPVNSAGRDTKLIFIVRDFHLQDGVDVILKKRFPHAQFISIDSLTEGQANTCLLAREVIDNDEPLLIAACDNGMDVSREYFEEQAQSADALIFTFRNNEAVLQNPKSYGWIRVQGDKVTGVSIKQPISDNPVNDHAVVGTFWFRRGSDFVKTADEMIAANDRINNEFYVDQVFKYMVNANADVRVTEISRYICWGTPEDYEAYENTLSYWTEFTAREPWTR				NA	NA	NA	NA	NA
BMS010_09220	729	ppm1		Polyprenol monophosphomannose synthase	ATGAGGCTCGCGATCATAATTCCCTGTTACAACGAACGAGACAATATTCCTCTGATTATCTCCCGCTTGAGGGAAACGATTGGGGAACGAAGCGATGTAGACGTCATCTTGGTCGACAACGGCTCCACCGATGGGTCCGATGCCGTTCTCGCAAACACACTTAAAGCTGGTTCGCCAATTCGCTCTGTAAAGGTCCCAAAAAATCAGGGATATGGTTACGGGATCCTCTTTGGACTTGCTTCCACAGATGCAGATGTTCTTGCCTGGACTCACGCGGATATGCAAACCGACCCTAATGATGTTCTGGTTGGCTTTGACCGACTGCGTCAATATGGAAACCCGAAGGTCATTGTAAAAGGCCGGAGAAAGAACAGACGCTTTCTAGAAGCCTTCTTCACGTTCGGCATGCAGGTTCTAGCAGCCTTCGCTCTGCGTATCCGGCTTAGCGATGTGAACGCCCAACCCAAGATTTTCCCTCGTAGCTTCTACGAAAATTTCATCAGGGAAAAGGCGCCTCACGACTTCTCCCTAGACCTGTTCCTGCTCTATCAGGCCCAAGTGAACGAATATTCTGTCGTGGAAATTCCGGTTATTTTCGCAGAGCGGGTACATGGCGTTGCCAAAGGCGGCGGCAGCTGGAAAACTAGGATAAAGCTAATTCGCCGAACAGTAGCATATATTTTCGACCTGCGCAGATCATTAATATTAAAAAGAGACAACCAGGTATGA	MRLAIIIPCYNERDNIPLIISRLRETIGERSDVDVILVDNGSTDGSDAVLANTLKAGSPIRSVKVPKNQGYGYGILFGLASTDADVLAWTHADMQTDPNDVLVGFDRLRQYGNPKVIVKGRRKNRRFLEAFFTFGMQVLAAFALRIRLSDVNAQPKIFPRSFYENFIREKAPHDFSLDLFLLYQAQVNEYSVVEIPVIFAERVHGVAKGGGSWKTRIKLIRRTVAYIFDLRRSLILKRDNQV	PGPT0017834_2722	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GLYCAN_BIOSYNTHESIS,PGPT0017834-DPM1_like|arnC|ppm1|wcaA-K00721	NA	NA
BMS010_09221	642			hypothetical protein	ATGATTATAATAAAGCATCGTCAAAATCTGATCGAAGAACTAGCTGCTGCACCAAATACATATGGCATCGAAGTTGACCTGCGCAATCATGGGGACAAAATTGTTGTATTTCATGACCCTTTCAATGACGATGCCGTAACGTTTGATGAGTGGCTCCGAGAATACAAACATGCGTTTCTTATCGCAAATGTAAAAGAAGAAGGCCTGGAGCCGAAAATAATACCGCTTCTGGAAAAATATAACATTGAGAAATACTTTATCCTCGATGAAAGTCTTCCATACATCCGGAAATTCGCTCTCGGAGGATTATCAAAATTCGCTGTCCGCGTATCGGAAATTGAAAGCGCCGAAACTGCGTTGAACTTGGTCTCTCACCTTCGCCAGCAGGAAAAAAAGATCGACTGGGTTTGGTTGGATTCATTCACTGGCAATCCATTGCCGCAAGCGACAATTCAAGCGCTCAAGGCGTCTGGCCTAAAATTGTGTCAAGTTTCTCCAGAACTGCATCACGTTGACAGACCGGATGTTTGGGAGAGTATGGTTGAACATTTCATTGGTCAGTGGGGAAATGCTCCTGCTAATAACATCGACATGGTCTGCACCAAATTACCGGAAATTTGGCACCAATATGCCAATCGCTAA	MIIIKHRQNLIEELAAAPNTYGIEVDLRNHGDKIVVFHDPFNDDAVTFDEWLREYKHAFLIANVKEEGLEPKIIPLLEKYNIEKYFILDESLPYIRKFALGGLSKFAVRVSEIESAETALNLVSHLRQQEKKIDWVWLDSFTGNPLPQATIQALKASGLKLCQVSPELHHVDRPDVWESMVEHFIGQWGNAPANNIDMVCTKLPEIWHQYANR				NA	NA	NA	NA	NA
BMS010_09222	1455			hypothetical protein	ATGAATTCAAATCAGGAAAAAGAAATCACAAGATACTTTTTCGATGTATCGGCTCTGCACGAATATGTAAGGGCTTTTGAACGTTACTCAGGTATTCAGCGAGTTGTCGCTACGATAATCGAGCACTATCTACATATTCAGGGCGGAGAAAATGCGTATATATCTTTCCTAGAGAGAGGATTCGGAAGGTATAAGTGTATAAAACTGAATGATATCGACCCGCTTTGTTTCCGATCACCCGCATCTCTCGCTGCGGCGATGGGAAAAAAAGGTGTAGATGGGACGTATCTGGCACCGATAGCGAAATACAAATCAAGCAGGCATAAGTACCTGTTTCATCGTTTGAAGTTTGATGTTTTCGCCGCACTGAACATGGACCGACGCTTTGCCAAGTATAATCTAAATGCAAAATCCTGGAAGGAGTTGCGGCGTCCACTCCCGAAGCTCATCGAGAGCGTGGAATTTTTGGATTTCTTCGACCTGGCGCGGCCGGGAGATCATTTGATCGTCATCGATAGTTCTTGGCTGCCGAAACATTCCGAAATGTTCCGCAAAGCCAAAGAACTGGGTCTTGAGGTCCATACTTTTGTGTATGATTTGGTTCCCGTCATCATGCCACACGTGACGGCGGGAAATATGCCCAATATGTTCTATAACGCGCTTCTGGATAGCATCAACTATACAAGCGGTTACATTACAATATCAGATTCGACGAAGGCGGATCTGGACAAATTCTTACAAAACAAGGGAGTCGACATTCCAAGCCGCTCACTACCTTTGGCTCAGGAGGGGCTGCCGTCGAAAATGACCGACTCTTCGACCAATACGAATGATCACCTCGTCAACGAGCAATACGACGACTATGCTCATATTGCAGAAGTCGGCGCGTTGCGGGACGAGATACGCAGTGTCGCTACAATTCCCTATGTTCTTTGCGTGGGCTCCATTGAACCGCGCAAAAATGGCTGGAGGATTGCTAACGCATGGGCGCGGCTTTCCGAGTTGAAGGGAATTGAAGTGCCCCGTCTTGTATTCGCAGGCGGATCCGGCTGGCTGAGAAGTGAATTCGATACGTTCCTTGAGGGAACAGGAAACCTTAATGGGTGGGTTCAAGTAGTGGATCGGCCGACGGACATTGAACTTGCATTTCTGTATCGCAATTGCTCCTTCACCATCATGGCCAGCATTTACGAGGGCTGGGGTTTGCCGGTGGGAGAATCTCTCGCTTATGGAAAAACTGCAATTGTATCCAATACAACATCCTTGCCGGAAGTAGGCGGCAACCTCGTAAAATACTGCGATCCCAATTCGATCGACAGTATTGAGGCCGCATGCAAAGAGTTAATTTGCCAACCTGAAATTCGGGTTGAGCTGGAAGAAAAAATTAAATCTACAAATTTGCGAAGCTGGGGTGACGTATCCGCAGATCTAATCAGTATTCTCCGCGCATCGTAA	MNSNQEKEITRYFFDVSALHEYVRAFERYSGIQRVVATIIEHYLHIQGGENAYISFLERGFGRYKCIKLNDIDPLCFRSPASLAAAMGKKGVDGTYLAPIAKYKSSRHKYLFHRLKFDVFAALNMDRRFAKYNLNAKSWKELRRPLPKLIESVEFLDFFDLARPGDHLIVIDSSWLPKHSEMFRKAKELGLEVHTFVYDLVPVIMPHVTAGNMPNMFYNALLDSINYTSGYITISDSTKADLDKFLQNKGVDIPSRSLPLAQEGLPSKMTDSSTNTNDHLVNEQYDDYAHIAEVGALRDEIRSVATIPYVLCVGSIEPRKNGWRIANAWARLSELKGIEVPRLVFAGGSGWLRSEFDTFLEGTGNLNGWVQVVDRPTDIELAFLYRNCSFTIMASIYEGWGLPVGESLAYGKTAIVSNTTSLPEVGGNLVKYCDPNSIDSIEAACKELICQPEIRVELEEKIKSTNLRSWGDVSADLISILRAS				NA	NA	NA	NA	NA
BMS010_09223	918			hypothetical protein	ATGGTTGACCAAAGATTCTATTTTGAATTTGAACAGAGATTTAGAGGCAGCAGGGAGGATATAGGGAAGAGGCTTGATGGCTATTCTTCTCTATTGGAGACGCTGGAAAAGTCCGGCATTCAAACCAATGCGGTAGATTATGGCTGTGGGCGAGGGGAGTGGCTAAGGTTGCTGTTGCGCCGCGGCTGGGATGCCATTGGCGTGGACAGCAATGCGGATATGGTTAAGCCCGCCGAAGAGGAAGGACTTAAGATCGAAGTTGGAGATGCTATAGCTCATATACAAAGCCTGCCGAGCAATAGTGTTTCAATGGTCACCGGTTTTCATATTGTGGAGCATCTGCCCGCGCAAGTGCTTCTTAAACTGGTTGCTGAAAGTTTCAGGGTTGTGAGACCCGGAGGGATAATAATATTCGAGACACCGAATCCCGAAAACTTTCTGGTTGGATCGAACCGTTTTTATTTAGACCCCACACATGTTCACCCTCTTCCGCCTTACTATTTAAAGTTCGTTGCGGAATTTTCAGGTTTCGATGAGGCTGTTTGCATCGGCGTGAATGCGCCTCCACTAAGGCATTCGACGGGCGTCGCGGCTGCCTTTCTTGAATTCGCAGAGCGTTCCCCAGATTACGCGTTGATCGCGCAGAAAACGTCACCCGACATGATCGTCGACAGACTTTCGAATGTAATGCTGAAATATTATCCGGAAAATACGCCATTTGCTCATCCTGCACTTGATCGATTTATCGATGGAATGCACGCAATGGAGTCACGCTTCAATAGCATGAATGAAGAACTACTAAGTTTGAGACATAGGCTGGATGACTTGATCAACAGCAAAGAGGATCAGCCTGTTGAAACTAAGTCAAAATGGTCAATGTTCGGCTTGCGTGAAAAGATCGAAAAAAAGTTCAAGTGA	MVDQRFYFEFEQRFRGSREDIGKRLDGYSSLLETLEKSGIQTNAVDYGCGRGEWLRLLLRRGWDAIGVDSNADMVKPAEEEGLKIEVGDAIAHIQSLPSNSVSMVTGFHIVEHLPAQVLLKLVAESFRVVRPGGIIIFETPNPENFLVGSNRFYLDPTHVHPLPPYYLKFVAEFSGFDEAVCIGVNAPPLRHSTGVAAAFLEFAERSPDYALIAQKTSPDMIVDRLSNVMLKYYPENTPFAHPALDRFIDGMHAMESRFNSMNEELLSLRHRLDDLINSKEDQPVETKSKWSMFGLREKIEKKFK				NA	NA	NA	NA	NA
BMS010_09224	1776			hypothetical protein	GTGCAGAAGGTCGTGAAAACTTTGACCATGTCGATAAATGGCTCGCTCGAGAACCTAAAATACTTCAGCTCCGGATTTAGCAAGGCGTTTTGGGTTTCTTCGATTAGCGTCGGCTTCGCCCTACTGCTTATGTTTTATTTCCTTGCCGGAGAGGGCAGGGGTAATTTGGCGTGGCACGTGCGGCCGGCGGCCCATTTTGGGATAACCGACATTCTGCAGAATCACAACATCGAGCCGCTATATATTGGCCCCGGTAACGTTGGCTGGGACGGGCAATTTTATTTTGCTATCGCCAATGACCTTAAAATGGGTGCTGATACCGCCTCGCATATGGATGTTGCGGCGACCTATCGTTATCAGCGTATCGGTTTGCCGCTGGCGGCCAATGCGGTCGCACTTTTGAGCTTTCAGAAATGGGTCAGCCCGCTTGTTTACTGGGGAACGAATTTAATCTTGCTCTTTTGGGGCACCTTTGCCTTAGCTTCCATATTGAGAAGGGTAGGCCTTAGTCCCACTTGGGCTCTGTTTTGGTCGCTGAGCGCAGGTGTTCAGGTTACGGTCCTGAGCGGACTTCCGGATGCTGCCGGTGATGCCTTTTTTCTGATCGCCATTGACGGCCTATTGCGCGGGCGCTTTCCGTTGTATTCAGTTGCGATAATTATGGCTGTGCTTTCACGGGAATCCTTCGTGTTTGCGGCGGCAGGTATATTTTTGGCGTATGGCTATCTTCATCGCGCCCAGCTGAAGAGCTTGACTCTATCCCTATATACAAAGCTTTTTCTCCTGGCCTTGCCAGGGGCTGTATTCGCCGCCTGGCAGTTAAGTATCTATTTAAGATTTGGAAAATTTCCCTCTCAGGAACCCGGAGTGGCGGGAGCGATCGTTTCAAAGCCGTTCGTGGCTTGGTATGAGGCGCTTCAACGGGCAGTCAGCGATGGTTCAGCTTTTTTTGCCGGCTCTCTCGCAAACTCGCAGGTTCCGCTAGCGCCAACGTTCTTTCTTCTTTTGGTATCATTTGCCGCGTCGCTTTATCTATTGCGCAACAAGCATGGTGCAATGTCGGCAAATAGCGCGCTGATCGGCGCGGCGTTTCTACCATTGCCTCTTCTAGCCACGACATTTGGTCCGATCGTGACGATTCACTGGACAGGTTATCTGAAGGCGACAGCGATACTCCTCGTTCCCGTAATGCTGGCTCTTTCCACCCTGAATGCACGACATTTAAGGACATTGGGAGTTGCCCTCACTTGTTTCGTGCTGCTGCAGATGCCCGGACTCTGGTCATGGGCAGGAACAAACGGGGCTGCAAACGAATATTCCAGTGAAGAGATTTTCTGGGGTAACAAAGAAAGCAGTTTCCAGACGGAGAGCGCATGCCTAAGCGACTACAAATCAAAAATCACTCTTCTCCGCTTTCAGAATTTCGACGTCACCAATTTTTATAGAGCGGTTATTGGATTGCCCCCGCGGTATCTTTTGGATTTGGAAGTCGAAAATTTGGGTGCGGAGGCATGGCTGCATACCCAAGGCAAAGGAAGCGTAAATCTTGCAGGACGATGGATTGATGAGAAGTCCGGACAAGAGATTGCAAGAACGCGGCTTGCCGTAATCGGGGGACAATTAGCGCCGCTTGAACGTAGAAAACTGCACTTGATCATCGAAGGAGCGCGCCCGAGCGCCGAGGCGAAATTGATTCTGTCGATGGTTCAAGAAGGTTGCGGATGGTTTTATGAGGCGGGTGATTCCGGTTTTGTAGACATGGGTCGCTTCCGTTGA	MQKVVKTLTMSINGSLENLKYFSSGFSKAFWVSSISVGFALLLMFYFLAGEGRGNLAWHVRPAAHFGITDILQNHNIEPLYIGPGNVGWDGQFYFAIANDLKMGADTASHMDVAATYRYQRIGLPLAANAVALLSFQKWVSPLVYWGTNLILLFWGTFALASILRRVGLSPTWALFWSLSAGVQVTVLSGLPDAAGDAFFLIAIDGLLRGRFPLYSVAIIMAVLSRESFVFAAAGIFLAYGYLHRAQLKSLTLSLYTKLFLLALPGAVFAAWQLSIYLRFGKFPSQEPGVAGAIVSKPFVAWYEALQRAVSDGSAFFAGSLANSQVPLAPTFFLLLVSFAASLYLLRNKHGAMSANSALIGAAFLPLPLLATTFGPIVTIHWTGYLKATAILLVPVMLALSTLNARHLRTLGVALTCFVLLQMPGLWSWAGTNGAANEYSSEEIFWGNKESSFQTESACLSDYKSKITLLRFQNFDVTNFYRAVIGLPPRYLLDLEVENLGAEAWLHTQGKGSVNLAGRWIDEKSGQEIARTRLAVIGGQLAPLERRKLHLIIEGARPSAEAKLILSMVQEGCGWFYEAGDSGFVDMGRFR				NA	NA	NA	NA	NA
BMS010_09225	999	rmd		GDP-6-deoxy-D-mannose reductase	ATGAAGGTGGAGCGTTGTTCCTGCTTTAGCGTTTTGGTGACCGGTGCAGGAGGGTTCGTCGGCCGTTGGCTCCGAAAAGCCCTTTTGGATGCTCTGCCGCCAGATGCTTTATTGCTTTCCTCTGGTCGGAAGGGTGAAGCCCCCGTTTCGGCTAGTCTTGACTCGCGCGAAAAGTGGATTTCCCTAGATGTTGAAAGCGAGGCCGCAACTGCTGCTGCAATGATTGAATGGCGACCTGATGTCGTCATTCATCTCGCTGCACAATCGAATGTCCAACGAGCCGCTACCGCGCCACGAGATACTTTTTCGGTCAATTTTTTTGGCACAATGAATTTGGCCGATGCCATATTGAAACATTGTCCCGAGACCCTGCTTGTCAATGTGGGTACGTCTGAGGTGTATGGCGGCACCGCAAAGAAAATAGCCTATCCTCTCGCCGAAGACACTCTACTCGATCCAATGAATGCGTATGCTGTCTCCAAGGCATCGTCAGATTTGTTGGTCGGGCAAATGTCACGCAATGGTCTGAGGTCTGTTCGCTTTCGACCTTTCAACCACACAGGACCATTTCAAACGGACAGCTTTGTTGTGCCGGCCTTTGCCGCGCAGATTGCAAGGATAGAAAAGGGTTTGCAGGAGCCACGAATCAAAGTTGGCAACCTTGAAGCTGAACGCGACTTTTCGGACGTGAGAGATATAGTTTCAGCCTATACTAAGGTAGCGTTGTCGATGCCGCTCCCTTTCGAGTCTGGAACGGTGTTTAATTTGGCGTCCGGAAAATCTAGGCGCGTTGGCGACATATTGGACGCCTTGTTGTCTAAGTCCAATGTGAAGATTGAACTCGTTGAAGATCCCTCAAGACTGCGACCGAGTGACGTGCCCAAGATCGTTGGAGACGCCAGTCGGGCTAGGGAACTGCTTGGTTGGCGGCCTACCTATGATTGGGACGAAACCTTGGATGGTTTGCTGAATTATTGGCGTGAAGAGGTTGGAAAATAG	MKVERCSCFSVLVTGAGGFVGRWLRKALLDALPPDALLLSSGRKGEAPVSASLDSREKWISLDVESEAATAAAMIEWRPDVVIHLAAQSNVQRAATAPRDTFSVNFFGTMNLADAILKHCPETLLVNVGTSEVYGGTAKKIAYPLAEDTLLDPMNAYAVSKASSDLLVGQMSRNGLRSVRFRPFNHTGPFQTDSFVVPAFAAQIARIEKGLQEPRIKVGNLEAERDFSDVRDIVSAYTKVALSMPLPFESGTVFNLASGKSRRVGDILDALLSKSNVKIELVEDPSRLRPSDVPKIVGDASRARELLGWRPTYDWDETLDGLLNYWREEVGK	PGPT0022780_104	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-GDP_D-RHAMNOSE|DEOXY_D_MANNOSE_MODIFICATION,PGPT0022780-rmd-K15856	NA	NA
BMS010_09226	975	gmd	COG1089	GDP-mannose 4,6-dehydratase	ATGCCAAAGGCGCTTATAACAGGGATTATCGGACAGGATGGGGCCTATCTTGCGCAATGTCTTCTTGATAAAGGCTATGAAGTCTATGGTCTGGTCAGACGCTCGTCATCTGCTGATATAAACGATTCACGCCTAAGATGGCTGGGTATTCGCGATAGGGTAAAATTGCTTGATGGCAATTTGACCGATCTGTCGAGTTTGATCCGGATCTTGCGCGAGACACGCCCAACCGAAATCTACAATCTTGCTGCGCAGTCATTTGTTAAATCGTCTTGGAACCAGCCTATTCTGACCGGCCAGGTCACGGGTATCGGTTGTGTGAATATGCTGGAAGCGTTTCGCCTGGAGACGCCGGAAGCCAGGTTTTATCAGGCGTCCTCATCGGAAATGTATGGGCTGGTTCAAGAGCCGATACAAAGCGAGCACACGCCTTTCTATCCTCGATCTCCTTACGCTGCCGCCAAGCTCTATGCACATTGGATGACAGTCAACTACCGCGAGAGCTTTGGCTTGCATACATCCAGCGGGATATTGTTCAATCACGAGTCGCCCCTGCGTGGGATCGAATTCGTAACTCGAAAGGTTACGGATTGCGTGGCGCGTATAAGATTGGGAATGGAGAAGGAGCTGCGTCTGGGCAATATTGATGCGCAGCGTGACTGGGGCCATTCGAAAGACTACGTCAAGGCAATGTGGCTCATGCTGCAACAGGAAGTGCCGGACGATTATGTGATTGCTACCGGCCGGACGGTAACCGTCAGACAAATGTGCGAAATTGCATTTTCGCATGCCGGTCTGAAAATGGAAGATCATCTGGTTATCGATCCAGAGCTGTTCCGGCCTGCGGAAGTGGACATTCTTTTGGGTAACCCCGCGAAGGCGAAAGAAAAGCTCGGATGGGAGGCTCAGATCAGCTTGGAAGAAATGATCTGCGAAATGGTTGACGCAGACTTGCAGCGGTTAAGCGTTAAGTGA	MPKALITGIIGQDGAYLAQCLLDKGYEVYGLVRRSSSADINDSRLRWLGIRDRVKLLDGNLTDLSSLIRILRETRPTEIYNLAAQSFVKSSWNQPILTGQVTGIGCVNMLEAFRLETPEARFYQASSSEMYGLVQEPIQSEHTPFYPRSPYAAAKLYAHWMTVNYRESFGLHTSSGILFNHESPLRGIEFVTRKVTDCVARIRLGMEKELRLGNIDAQRDWGHSKDYVKAMWLMLQQEVPDDYVIATGRTVTVRQMCEIAFSHAGLKMEDHLVIDPELFRPAEVDILLGNPAKAKEKLGWEAQISLEEMICEMVDADLQRLSVK	PGPT0022770_2639	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-COLANIC_ACID_METABOLISM	CE-EPS-COLANIC_ACID_RELATED_PROTEINS,PGPT0022770-gmd-K01711	NA	NA
BMS010_09227	888	mshA_9		D-inositol-3-phosphate glycosyltransferase	ATGTCCGACTATCTGGCCGCCCTTGAAGCGCGTGGAACAAACGTGATCTTTGTCCCACTTCTCCACGACATGATCCCGTTGCATGATTTCACGCACAGGAATCAATTCTCTTTCCCGAAGAATTTTCTGCACGACAATCAGGTGGCGATTAAAGCCTCGTCACTCATTCTCACAAATTCGGAATTCACAGCTCGTGAGGTTCTGCATTTTTCGGAGAAAGGCGTTTTGCCGCCTGTATCAAAGGTCATTGCCGTGCCGCTTTGCAACGAGTTGCGCCCGACCTCAGAGCCCATAGAGAAGCGCGGGCCATCCGGACGTTACATCTTATGCGTGGGAATATATAACGGCAGGAAAAATCTGGAATGCGTAGTCGAGGCCATGATGTCCCTTTACGAGCGGGGAATGGATGTCCCCAATCTCGTATTGGCTGGTGCGAGACGCAAACGTGTGGAGAAATTTCTAAAGAATAAGCGATTTCTGCCCCTGTCCACAAAATTTCATTTCGTACTCAACCCGAACCAGGCCGAACTGGCGGAGTTGTATAAGCGTGCATTTGCGCTTGTTCTCCCCAGCCGGATGGAAGGATGGGGCTTGCCCATAAGCGAGGCATTGTGGTGCGGAACACCTGCACTGGCGGCGGACGTTCCTGCGCTGAGAGAGGCGGGGGGCGACCTGGCGCGCTATTTCGACCCGGAAAAGCCTGCTGAACTTGCGGATATTCTGGGCGCATTGTTGGCGGATGAGTCTGAATATGATGTATTAAAGGCGAAGATCGCGGATGCGCATTCTTCAATGCGAACCTGGCACGATGTTGCTTCTGAGTTGTTGCAGGCGTTGGATGACAATGAGATCGCCAAGCGGGTCGGTGTTGACCGGGAAAACAATTGA	MSDYLAALEARGTNVIFVPLLHDMIPLHDFTHRNQFSFPKNFLHDNQVAIKASSLILTNSEFTAREVLHFSEKGVLPPVSKVIAVPLCNELRPTSEPIEKRGPSGRYILCVGIYNGRKNLECVVEAMMSLYERGMDVPNLVLAGARRKRVEKFLKNKRFLPLSTKFHFVLNPNQAELAELYKRAFALVLPSRMEGWGLPISEALWCGTPALAADVPALREAGGDLARYFDPEKPAELADILGALLADESEYDVLKAKIADAHSSMRTWHDVASELLQALDDNEIAKRVGVDRENN				NA	NA	NA	NA	NA
BMS010_09228	393			hypothetical protein	ATGGTCGGCGGCAAGCGCCAGCACCAGGCATCCGGGCTCGCGGCGCTCGGCCAGCACGGCGGCGGCGGCCATGGCGGCGGCGCTGTCGCGGCGGGCGGGCTCCAGCACTACCGTTGCCGGCAGATCGATCTCTTCGGCCTGACGGCGGGCGAAGAACCGGAAATCCTCATTGGTGATCACCAGCGGCTCGGCGTAAAGGCCCTTGTCGCCCACCCGCCGCAGCGTCTGCTGATAGGTCGAAAGATTGCCGACCAGCGGCTGGAACTGCTTGGGCAACTGATCGCGCGATACCGGCCAAAGCCGCGAACCAGCACCGCCAGCAAGAAGAGCCGGCGTGATCTTTCGAGCGTATGTGTTCAAAATGAAACCTCTCAACTTTCTATCGCCCCCTAA	MVGGKRQHQASGLAALGQHGGGGHGGGAVAAGGLQHYRCRQIDLFGLTAGEEPEILIGDHQRLGVKALVAHPPQRLLIGRKIADQRLELLGQLIARYRPKPRTSTASKKSRRDLSSVCVQNETSQLSIAP				NA	NA	NA	NA	NA
BMS010_09229	549	yodB	COG3038	Cytochrome b561	ATGATCCCTCTCTCTCAACGCTACAGTCGCCTTTCCATCGGCCTGCACTGGCTGATGCTGCTGCTGATCGCCGGTGTGTATGCCTGCATCGAGCTGAAAGGCAACTTCCCCAAGGGTAGCGAGACTCGCGAGTTGCTCAAGCAATGGCACTTCATGCTGGGCCTGGCGGTGTTCGCTCTGGTCTGGCTGCGTCTGCTGGCGCGCATTCTGGGTCCCTCGCTGCGTGACGAACCCGCCACCCCGGCCTGGCAGGATTGGCTGGCGAAGGCCATGCACCTGGCGTTGTATGGGCTGATGATCGGCCTACCGTTCATGGGCTGGTTGATCCTCAGCGCGGCCGGCAAGCCGATTCCGTTCTTCGGCCTGGAATTGCCGGCCCTGGTGACCCCGGACAAGGGGCTCGCGGGTGAGCTGAAGGAATTGCACGAAGCGCTCGGTCAGGCCGGCTACTGGCTGATCGGTCTGCACGCGGCGGCGGCGCTGTTCCACCATTACGTGAAGCGCGACGGGGTGCTGCTGCGCATGTTGCCGCTGGGTAGTGGGCGCTGA	MIPLSQRYSRLSIGLHWLMLLLIAGVYACIELKGNFPKGSETRELLKQWHFMLGLAVFALVWLRLLARILGPSLRDEPATPAWQDWLAKAMHLALYGLMIGLPFMGWLILSAAGKPIPFFGLELPALVTPDKGLAGELKELHEALGQAGYWLIGLHAAAALFHHYVKRDGVLLRMLPLGSGR	PGPT0013195_187	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0013195-cybB-K12262	NA	NA
BMS010_09230	1407	qseC_3		Sensor protein QseC	ATGCGTTCGATCCGTGCCCGTACCCTGCTGCTGGTGCTCGGTCTGCTCGGCGTGTCGCTGGGGTTGATCTCCTGGAAGAGCTACCGCGACGCCCACCACGAGATTGAGGAACTGTTCGACGCCCAGTTGGCGCAGAGCGCGCGCTTGCTACAAGGGCTAGTCGGGCGCGACATGAGCGACGCCAACCGCAGCGAACTGCAGGCTGCCCTGGATGCCGCGCTGGTGGGCGGCCAGGAGCGCAAGGCGGGTCACCGCTACGAGGGCAAGCTCGGTTTCCAGGTTGCCGACGAGCAGGGCCGCTCGCTGCTGCATTCGGCGAGTATCCCGGCGGATGCCTTGCAGGTTTTGCTGAGCAGCGTCGGGGCGACCGCCCCGAGCACCGCCCTGGAGGGTTACCACGACCTGCGCATGGCCGGGCACGGCTGGCGACTGTTCCTCCTGCACGACCGGGAGGATCGCGCCTGGCTGCTGGTCGGCGAGCGCGACAGCGTGCGCGGCGAACTGGTGGGCAAGATCGCCGCGCGCAGCCTGTTGCCCGATCTGGTGGGGCTGCCGGTGCTGGCCCTGCTGGTCTGGCTGGCGGTGGGTTGGGGGCTGCGCCCGCTGGTGCGCATGACCCAATCGCTCAAGGCGCGCGGCCCGGACGATCTGTCTCCGCTGATCCTGCAACCCTTGCCGAGGGAGCTGGAACCGGTGGTGGCGTCGTTGAACCGCCTGTTGCTGCAAGTCACCCACCTGATCGAGCGGGAGAAGCGCTTCATCGCCGATGCCGCCCACGAGCTGCGCACGCCCCTGGCGGTGCTGCGTATCCATGCACAGAACGCGATGGAGGCGGTCGATGAGCATGACCGCGCCGGTGCATTGGCGCAGCTCATCGCCGGCGTGGACCGGACCACCCGTGTGGTGGCGCAGATGCTGACCCTGGCCCGGCTGGAGCCGAATGCCGTGCAACTGGCCATGACCCGTCTCGACCTGTGTGCGCTGGCCCGTGGTGCCCTGGCGGAGCTGACGCCCTTGGCGCTGAGTTGCCGCCAGGAACTGACCCTGGAAGCGGCAGACGGCGGCGATTACCGCCTGACGGGCGATGCGGCCAGCCTGGAGACCCTGTTGCAGAACCTGGTCGGCAACGCCCTGCAATACACCCCGGCCGGTGGGCAGATCCAGGTGTGCCTGGAAAGCGCCGAGGATGCCGTGTTGCTGCGCGTCTTGGACAGCGGCCCCGGCGTGCCGCTGGACATGCGTGCCAAGGTGTTCGAGCGCTTCTTCCGCGAGGGCGAAGGGCAGGGCGCCGGGCTGGGCTTGTCCATCGTCGCGCGGGTGGCGGAACTGCACCGGGCGGATGTCGAACTGCTCGAATCGCCGCTGGGCGGGCTGGAAGTCCGGGTGCGTTTTCCGCGTGAGGTGTGA	MRSIRARTLLLVLGLLGVSLGLISWKSYRDAHHEIEELFDAQLAQSARLLQGLVGRDMSDANRSELQAALDAALVGGQERKAGHRYEGKLGFQVADEQGRSLLHSASIPADALQVLLSSVGATAPSTALEGYHDLRMAGHGWRLFLLHDREDRAWLLVGERDSVRGELVGKIAARSLLPDLVGLPVLALLVWLAVGWGLRPLVRMTQSLKARGPDDLSPLILQPLPRELEPVVASLNRLLLQVTHLIEREKRFIADAAHELRTPLAVLRIHAQNAMEAVDEHDRAGALAQLIAGVDRTTRVVAQMLTLARLEPNAVQLAMTRLDLCALARGALAELTPLALSCRQELTLEAADGGDYRLTGDAASLETLLQNLVGNALQYTPAGGQIQVCLESAEDAVLLRVLDSGPGVPLDMRAKVFERFFREGEGQGAGLGLSIVARVAELHRADVELLESPLGGLEVRVRFPREV	PGPT0003920_40	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-POLYMYXIN_RESISTANCE,PGPT0003920-pmrB-K07645	NA	NA
BMS010_09231	660	qseB_4		Transcriptional regulatory protein QseB	ATGCGATTGTTGCTGGTTGAAGATGACGGTGCGCTGGGCGAGGGCATCCGCACGGCGCTCAAGCCGGAGGGCTACACCGTCGACTGGTTGCAGGACGGCGCCAGCGCGCTGCATGCGCTGAGCCACGAGGACTTCGACGTGGCCGTCCTCGACCTCGGCCTGCCGCGCCTGGATGGCCTGGACGTGCTGCGGCGCCTGCGCGCGGCGGCCAACCCGGTGCCGGTGCTGGTGCTCACCGCCCGCGACGCCACCGGCGACCGGGTCGCCGGGCTCGATGCCGGGGCGGACGATTACCTGGTCAAGCCGTTCGATGTCGCCGAACTCAAGGCTCGTTTGCGGGCGCTGGTCCGGCGCAGCCTCAACCGCCCGCAGCCGGCGCTGGAGTACCAGAACATCCGCCTCGACCCGGTGGACCAGCAGGTCACCTACCGGGGCGAGGCGGTGAACCTCTCGCGCAAGGAATTCATGCTGCTCCACGAACTGCTCGCCCATCCGGGCCGGGTGCTGACCCGCGATAAGCTGCAGCAGGTGCTCTACGGCTGGGACGAGGAGGTGGAGAGCAACGCCCTGGAGGTGCACGTGCACCACCTGCGGCGCAAGTTCTTCCCCGAGCTGATCCGCACCGTGCGGGGCGTCGGCTATCTGGTGGACAAGCTCTGA	MRLLLVEDDGALGEGIRTALKPEGYTVDWLQDGASALHALSHEDFDVAVLDLGLPRLDGLDVLRRLRAAANPVPVLVLTARDATGDRVAGLDAGADDYLVKPFDVAELKARLRALVRRSLNRPQPALEYQNIRLDPVDQQVTYRGEAVNLSRKEFMLLHELLAHPGRVLTRDKLQQVLYGWDEEVESNALEVHVHHLRRKFFPELIRTVRGVGYLVDKL	PGPT0003915_1579	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-POLYMYXIN_RESISTANCE,PGPT0003915-pmrA-K07666	NA	NA
BMS010_09232	651			hypothetical protein	ATGAGAATCCTGATTTCCCTTTGCCTGGCCCTGGGCGGCCTGCTCAGCCTGCCGGCGTTCGCCCTCAGCGACAGCGGCCAGCAGGCCCTGGGTCAATTGCAAACGCGCTGGGCGGAAATCCGCTACGAGTTGCCGGAAAAACAGCGCGAAGCGGCGTTCGCCGGGCTCGCCAAGGAGGCCGACCAGGCGCTCGCCAGCGAACCGAAGGCGGCCGAGCTGCTGATCTGGCGCGGCATCATCCTCAGCACCTGGGCCGGCGCCAAGGGCGGGCTCGGCGCGCTGGACCTGGTCAAGCAGGCGCGCTCCAGCCTGGAGCAGGCCCTGGCGATGGACCCCAAGGCCCTCGACGGCTCCGCCTATACCAGCCTGGGCAGCCTCTACTACCAGGTACCCGGCTGGCCGATCGGCTTCGGCGACGACGAGAAGGCCGAGACGATGCTGAAGCAGGCGCTGGCGCTCAACCCCAAGGGCATCGACCCGAACTATTTCTACGGCGACTACCTGTTGCGCCAGAAGCGCTACGCGGAAGCCCGTGCCGCCCTGGAAACGGCATTGCAGGCACCGGACCGCCCCGGCCGCGCGCTGGCCGACAAGGGCCGCCGCGAAGAGGCGCGCACGCTGCTGGCCGAGGTCCGCAAGAAGCTGGAATGA	MRILISLCLALGGLLSLPAFALSDSGQQALGQLQTRWAEIRYELPEKQREAAFAGLAKEADQALASEPKAAELLIWRGIILSTWAGAKGGLGALDLVKQARSSLEQALAMDPKALDGSAYTSLGSLYYQVPGWPIGFGDDEKAETMLKQALALNPKGIDPNYFYGDYLLRQKRYAEARAALETALQAPDRPGRALADKGRREEARTLLAEVRKKLE				NA	NA	NA	NA	NA
BMS010_09233	792			putative oxidoreductase	ATGAAACTCTCCGAATGCCGCGCCGTGCTCACCGGCGCCAGTGGTGGAATCGGCCAGGCACTGGTCGAACGGCTTTGCGCCGGCGGTGCCAAGGTGCTGCTGGTGGGGCGCCAGGGCGATATCCTGCGGGCCCTGGCGCAGCGCTATCCCGGGCAGGTCGAGGTGGTCCAGGCCGACCTGCGCCAGAGCGTCGGGCGCGATGCGGTGCTGGGGGCCGCGCGGCGTTTCGGCGGGGTCAATTGCTTGATCAACGCGGCCGGGGTCAACCAGTTCTGCCTGCTGGAATCCCAGGACGAGGACGCCATCGCCGCGCTGGTCGAGGTCAACCTCACCGCACCGCTGCAACTCACCCATCGCCTGCTGCCGCTGCTGCGCCATGCGCCGCGCGCGCTGGTGGTGAATGTCGGTTCCACCTTCGGCTCCATCGGCTACGCCGGTTTCACCGCCTATTGCGCCAGCAAGTTCGCCGTGCGCGGCTTCTCCGAGGCCCTGCGTCGCGAGCTGGCGGACACCTGCGTGAAGGTGCTCTACATCGCCCCGCGCGCCACCCGCACGGCCATGAACGGCGACCACGTGGTGGCCATGAACGACGAGCTGAACGTGAGCATGGACGCGCCACAGGCGGTGGCCGCGCGGATCGTCGAGGCGATCCTCCGCGAGCGCGAGGAGAGCTACCTCGGCTGGCCGGAAAAACTCTTCGTGCGCCTCAACAGCCTGTTGCCGCGTGTGGTGGACCAGGCGCTGCGCAAGCAACTGCCGGTCATCCAACGCTTTGCCCGTCATCGTTCCTGA	MKLSECRAVLTGASGGIGQALVERLCAGGAKVLLVGRQGDILRALAQRYPGQVEVVQADLRQSVGRDAVLGAARRFGGVNCLINAAGVNQFCLLESQDEDAIAALVEVNLTAPLQLTHRLLPLLRHAPRALVVNVGSTFGSIGYAGFTAYCASKFAVRGFSEALRRELADTCVKVLYIAPRATRTAMNGDHVVAMNDELNVSMDAPQAVAARIVEAILREREESYLGWPEKLFVRLNSLLPRVVDQALRKQLPVIQRFARHRS	PGPT0003180_2087	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0003180-ymfI|fabG|efpI-K00059	NA	NA
BMS010_09234	651			hypothetical protein	ATGAGTTTCTACGAGGCTTTGCAACAACAGACCGCCGCCGAGCGCGACTACCTGCTCGGCGCACCGATCATCCAGCAGACCATGGCCGGCCAGGTCAGCCTGGCCAGCTACAAGGCGTTCCTCACCGAGGCCTACCACCACGTCAAGCACACGGTGCCGCTGCTGATGGCCTGCGGCGCGCGCCTGCCGGAGCGGCTGGAGTGGCTGCGCGAGGCAATCGCCGAATACATCGAGGAGGAATACGGCCATCACGAATGGATTCTCAACGACATCCGCGCCTGCGACGGCGACGCCGAGGCGGTGCGCAACGGCACGCCGGGCCTGCTTACGGAGCTGATGGTCGCCTACGTCTACGACCGCATCGCCCGGGACAACCCGGTGGGCTTCTTCGGCATGGTCAACGTGCTGGAGGGCACCAGCGTCATGCTCGCCACCCAGGCTGCCGGCATCATCCAGGGCCAGCTCGGCCTGCCGGCCCAGGCGTTCAGTTACCTGACCTCCCACGGCAGCCTGGATCTGGAGCACATCGAGCTGTTCAAGGGCCTGATGAACCGCCTCGACGATCCGCGCGACCAGGCCGCCGTGGTGCACACCGCGCGGGTGGTGTACCGCCTGTACGGCGATATGTTCCGCAGCTTGCCGCTGTCCTGA	MSFYEALQQQTAAERDYLLGAPIIQQTMAGQVSLASYKAFLTEAYHHVKHTVPLLMACGARLPERLEWLREAIAEYIEEEYGHHEWILNDIRACDGDAEAVRNGTPGLLTELMVAYVYDRIARDNPVGFFGMVNVLEGTSVMLATQAAGIIQGQLGLPAQAFSYLTSHGSLDLEHIELFKGLMNRLDDPRDQAAVVHTARVVYRLYGDMFRSLPLS	PGPT0008380_1268	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
BMS010_09235	1461		COG1022	Long-chain-fatty-acid--CoA ligase FadD15	ATGCAGCCTGCCATTGACCGGCTGTGGGCCGCGCTGGTGGCGCACGGCGAGCGGACTGCCCTGCGCCAGGGCGCGCTGTCGCTGAGTTATGCCGCGCTGCGCCGGGAGGCGGAAGAGCGTGCCGGGCACCTGGAGGCGCTCGGCGCCCGGCGTGTCGCATTGGCGCTGGACAACGGCCCCGAGTGGGCGCTGTGGGACTTGGCGTTATTGCGGGCCGGCAAGGTCTGCGTGCCGCTGCCGGGGTTCTTTTCGCCGGGACAGCGGCGCCATGTGCTGGACAGCGCCGGCATCGATACGCTGATCGGCGCCGCCGACGAAACGGTCCGCGCCCTCGGCTTCGAGGAACGCCAGCCGGGCCTGTGGCAGCGCGATCCGGGCAAGGTCGCGGCGTTGCCGGCCGGTACTCTGAAAATCACCTACACCTCCGGCACCACCGGCCAGCCGAAGGGCGTCTGCCTGGATGGCGAGGTGCAACTGCGGGTGGCGGAAAGCCTCTGGCAAGCCAGCCGGCCCCGCGAGGTCGAGCGGCACCTGTGTATCCTGCCGCTGGCGGTGCTGCTGGAGAACATCGCCGGAATCTACGCGCCGCTGCTGGCCGGTGCCGAGATCGACCTGCCGTCGCTGGCTGACGTGGGAATCAAGGGCGGCAGCGGTCTCGATCTGCCGCGCTTTCTCACCGCGCTGGCGCAGAGTCGGCCGCACAGCCTGATTCTCCTGCCGCAACTGTTGCTGGCGCTGGTGACCGCCGTCGAACGCGGGATGCCGCTGCCCGATTCGCTGCGCTTCGTCGCGGTGGGCGGCGGGCGGGTGGCGGAGCAGTTGCTGCAACGCGCCGATGCGCTCGGCCTGCCGGTGTTCGAAGGCTACGGGTTGTCCGAGTGCGCCTCGGTGGTCTGCCTGAACACCCCGGAAGCACGGCGCATCGGCACGGTCGGCAAGCCGCTGGCGCACCTGCAGGTACGTTTGAGCGAGGAGGGCGAAGTGCGGGTGCGCGGCGCCCGGATGCTCGGTTACCTCGGCGAGCCGGCGCCGCAGGACGAATGGCTGGCCACCGGCGACCTTGGGCATTTCGACGACGGTTTTCTCGTCCTGCACGGCCGCCGCAAGCACCAGTTCATCACCGCCTACGGCCGTAACGTCAACCCGGAATGGGTGGAGGCCGAACTGGTCCAGCAACTGCCCATCGCCCAGGCCTGGCTGCATGGCGAGGCGCTGGCGGAAAACATTGCCGTGCTGGTGCCGCGTTTCCCCTCTTGCAGCGATGCCGAGCTGGCCGAGGCGGTGCAGGCGGCCAACCGCTCGCTGCCCGATTACGCCCGCGTTCATCGCTGGTTGCGCGCCGAAGAGCCCTTCAACGAGAGCAACGGCCTGGCCACCGCCAACGGCCGGTTGCGCCGCGCCGCCTTGCTCCATCACTACCAGTCGGCCTTCGCGGCCCTTTCCCCCGAGGACAGACCATGA	MQPAIDRLWAALVAHGERTALRQGALSLSYAALRREAEERAGHLEALGARRVALALDNGPEWALWDLALLRAGKVCVPLPGFFSPGQRRHVLDSAGIDTLIGAADETVRALGFEERQPGLWQRDPGKVAALPAGTLKITYTSGTTGQPKGVCLDGEVQLRVAESLWQASRPREVERHLCILPLAVLLENIAGIYAPLLAGAEIDLPSLADVGIKGGSGLDLPRFLTALAQSRPHSLILLPQLLLALVTAVERGMPLPDSLRFVAVGGGRVAEQLLQRADALGLPVFEGYGLSECASVVCLNTPEARRIGTVGKPLAHLQVRLSEEGEVRVRGARMLGYLGEPAPQDEWLATGDLGHFDDGFLVLHGRRKHQFITAYGRNVNPEWVEAELVQQLPIAQAWLHGEALAENIAVLVPRFPSCSDAELAEAVQAANRSLPDYARVHRWLRAEEPFNESNGLATANGRLRRAALLHHYQSAFAALSPEDRP	PGPT0008380_15638	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
BMS010_09236	690			hypothetical protein	ATGGAACTGCCTGGGATTCATGCCGACGGTTTGCTCGCCCGGATCGGCCGCGAGCCGGCGCTGAGCCTTCGCTGTGCCCGGCCTTGCGACGGGGCGCGACGGGCGTTGCTGGAGGCGTTCATCCGCGAGCGTTTCGCGGCGCATTACGCGGCGCGCATCCGCCATTTCATGCCATGCCTGCTGGGGATGGAAGGGGCGGACGGGCGCATACAGGGCGCGGTGGGGCTGCGTTCCGCCGGCGAGGCGCCGTTGTTTCTCGAGCGCTATCTGGACCGGCCGATCGAGCAGGTGATCGCCGGGTACGGCGGCCAACCGATTGTGCGCCGCGACATCGTCGAGGTGGGCAACTTGGCGGCGCTGGGCGCCGGTTCGGCGCGGCTGCTGATCGTGGCGCTGACCGACCTGCTGGTGGCCTGCGGCTTCCGCTGGGTCACGTTCACCGGCACGCCCGCGCTGCTGAACAGCTTCCAGCGCCTGGAGCTTTCGCCGTTGTCCCTGGGCGCGGCCGATCCGGCCTGCCTGGGCGACGAGCAGGCCGACTGGGGCAGTTACTACGCCAACCACCCGCAGGTCATGGCCGGGGAAATCCTGGGTGGTCACCAGCGCCTGGTGCAGATGGGCGTCTACCCGCGGCTGGGCTATCAAGCCCTCTACAGCGAAGGAGCCTTGCCCCATGCAGCCTGCCATTGA	MELPGIHADGLLARIGREPALSLRCARPCDGARRALLEAFIRERFAAHYAARIRHFMPCLLGMEGADGRIQGAVGLRSAGEAPLFLERYLDRPIEQVIAGYGGQPIVRRDIVEVGNLAALGAGSARLLIVALTDLLVACGFRWVTFTGTPALLNSFQRLELSPLSLGAADPACLGDEQADWGSYYANHPQVMAGEILGGHQRLVQMGVYPRLGYQALYSEGALPHAACH				NA	NA	NA	NA	NA
BMS010_09237	1140	zapE_4	COG1485	Cell division protein ZapE	ATGTCCGTTCCTCTGTCCCCGCTGGCTGCTTACGAGCAGGCCATTGCCCAGTCAGGCTTTCTGCCGGACGCCGCCCAGCGGCAGGCGGCGGAGGTGCTGGAGCGTTGCCATCGGGCGCTGCATGCCGAGCGGGCCGGGGCGATTGATGGAGTGTATCTCTGGGGGCCGGTGGGGCGCGGCAAGACCTGGCTGATGGATCGCTTTCACCAGAGCCTGCGGGTGCCGGCGCGGCGGCTGCATTTTCATCACTTCATGCGCTGGGTGCATCAGCGCCTGTTCCAATTGACCGGCACGGCCGATCCACTGCTGGCTCTGGCCAGCGAGCTGGGGCGGGAGGTGCGGGTGTTGTGTTTCGACGAGCTGTTCGTCAGCGATATCGGCGATGCCATGATCCTTGGCCGGCTGATGCAGGCGATGTTCGAGCAGGGCGTGGTGCTGGTGGCCACGTCCAACCAGCCGCCGGAACAGCTTTATGCCGATGGCTTCAACCGTGACCGCTTCCTGCCGGCCATCGCTGCGATCCAGAGGCATATGCAGGTGGTGGACGTCGATGGCGGCCAGGATCACCGCCTCCATCCGGGCCAGGGGCAGCAACGCTATTGGGTGGCGCAGCCCGGCGAGCCCAGCGCTCTGGCCGAGGTGTTCGCGCGGCTGGCGGATGGACGGGCAGGCAGCGACGAGGCACTGCTGATCGGCCGGCGCAGCCTGCCGGTGGTGAATGCCTGCGATACGGCGGTCTGGTGCCGTTATGCCGATCTTTGCGAGGGGCCGCGCGCGGCTTCGGATTTCATCGAGCTGTGCGACCGCTTCCCGGCCATTCTGCTGGGCGAGGTGCCCAGCCTGGGCGGTTCCCAGCGCGAGGCCTACATCGCCCGTGGCACCGAGGACGGGGTGGAGCGGGTGGCGGCGGGGGATCGACGGCTTCCGACGCTGTCCGTCCATGACAACGGTGTGCGTCGTTTCATCGCCCTGGTGGACGAGTGCTATGACCGGGGCGTGCCGCTTTATCTGGAGGCGCAGGTGCCGCTGGAAGCGTTGTATACCGAGGGCTACTTGGCGTTTCCGTTCCGCCGGACCCTGAGCCGCCTGCGCGAGATGCAGTTGGCGCGGTTCGGGGCGGCGGCCAGCCCGGTCCTGTAG	MSVPLSPLAAYEQAIAQSGFLPDAAQRQAAEVLERCHRALHAERAGAIDGVYLWGPVGRGKTWLMDRFHQSLRVPARRLHFHHFMRWVHQRLFQLTGTADPLLALASELGREVRVLCFDELFVSDIGDAMILGRLMQAMFEQGVVLVATSNQPPEQLYADGFNRDRFLPAIAAIQRHMQVVDVDGGQDHRLHPGQGQQRYWVAQPGEPSALAEVFARLADGRAGSDEALLIGRRSLPVVNACDTAVWCRYADLCEGPRAASDFIELCDRFPAILLGEVPSLGGSQREAYIARGTEDGVERVAAGDRRLPTLSVHDNGVRRFIALVDECYDRGVPLYLEAQVPLEALYTEGYLAFPFRRTLSRLREMQLARFGAAASPVL				NA	NA	NA	NA	NA
BMS010_09238	1212			hypothetical protein	ATGATCAGCAGGATGTATTTTTCATGCACTGCATGTGGGCAGGAAATTATTGTCAGAGCACAAGTCGGATATGAAAAAAATCAACCACATACATTTCCATGTCCCAATTGTGAGTCGCCAATAAGTATAAAGCTGATTTTAGATAATCCTCCGCATGTTGATTTTGAGCATGATGACAGTTGCAGAATTATACCTCTCTCGGAAAATGGAATTATAGTGAACTTGGGGGTCGGTTTTCTCATCCCCAAGAGCAAAGCAAATCAAGAGTTCTACTTTCCAGCTATGGAGCTAATGCATAATTTTAGAGACGATATACTCAAGAAATTGTCAGAAGAAAAAAAGACTCCTCCCATACGTGACTATTTAATTGAGGGGTTCCCAGGAGCCGCGAGGGCATGGAGACACCTAGAAAAAGCTTGCAGATTTCATAGAAAAGGAAAGCTTGATCTACGTGATAGAAACCTGGCAGCTTTCAGAGCTGAAACAGGGTTCAAGAAGGATGACTTTGACAGCACTTTGTTTGACTTCATTGAGTGTTTTTTAGGCCCGATTGGTCGAGAAACAACCCAGAAGAATTCGGATTGGATAAAGAAAATATATAAAAGTCACTCGGGTGAGTTCAAGAAGTTCCTAAGTCATTATATTGATGACTTGCAAGATGAGCGACTAAAAGAGTATATCGAAATTTGTGCTGAGTATTTCTCCGCCCACCATGAATATGAACAAACTATTCTTTATAATCGATATGGGATAGAAATACCTGAGGACTCAGCTGCCTCGTCGGCAAATTTTGAGTCGACAAAAATGTTCTATGGGAATGCATTTGAACTTCTTGGCGCGCACTTAGACATTATTGCGGCTCTAAACAATATAGATCAAGGACGCCCATATGATCAGATGCAAAAAATGGATTTAAAAAAATATCGAACCTTAAATAAGGCCAATAGAACTGAGTGCCTAAAGAACAACCCAGACCTAGGCTCTCTATTCGAAGAGTATGACAGTGCCATTCGAAATGCCTCGCACCATAGATGGTTTCGAATATCTGACGACCGACAAGTCATTAGCTATAGAAGCGGAGGAACGGGGGCAAAACAGAGCATCACGTATGCAGAGTATACATATCGCTGTAATAAATTATTCCTACAAATACTTTTAGTGTTCTCATTGGAAATAATTCTTGTGAGAGCTGCTCAAAACTTACTGTCCTAG	MISRMYFSCTACGQEIIVRAQVGYEKNQPHTFPCPNCESPISIKLILDNPPHVDFEHDDSCRIIPLSENGIIVNLGVGFLIPKSKANQEFYFPAMELMHNFRDDILKKLSEEKKTPPIRDYLIEGFPGAARAWRHLEKACRFHRKGKLDLRDRNLAAFRAETGFKKDDFDSTLFDFIECFLGPIGRETTQKNSDWIKKIYKSHSGEFKKFLSHYIDDLQDERLKEYIEICAEYFSAHHEYEQTILYNRYGIEIPEDSAASSANFESTKMFYGNAFELLGAHLDIIAALNNIDQGRPYDQMQKMDLKKYRTLNKANRTECLKNNPDLGSLFEEYDSAIRNASHHRWFRISDDRQVISYRSGGTGAKQSITYAEYTYRCNKLFLQILLVFSLEIILVRAAQNLLS				NA	NA	NA	NA	NA
BMS010_09239	1038			hypothetical protein	ATGGCCGGAAAACGACAGCACTTCGTACCTCAATTCCTGCAGCGTGGTTTTGTCAGCCACGTCGTGGGAGGTGAAGCCTTCACCTGGGTCCATCGCAAAGACGCGCAACCCTTTAACACCAATTTGAAGAACGCTGGTGTAGAAGGGTTCTTCTACTCCGTGGGACAGGGCACTGAGCTGGACGACGCTATTACAGATTTCGAGGGAGAGTTTAGTTCTCTAATCTCGGATCTACGCTGTGGAACGTCGCAAATAACCGCTGACACCCTGCGCATAGCGCAACTGTTAGCGCATCTTGAAATGCGCACAAGACATTTGAGGCAGAGCTTTCTCGAAACGGGCACGCACCTCTTAGATGAACTCATGAAGTTCGCTTCAGACGAAGAAGCGTTTGGTCGGTACTTTCGACGCGCTATTCAGCGCGATAGCTCGCTGATGCAAGATGCCATGGCGAAGGAGATGCGGAAGTATGGCATTCCGCTACAATATCTTCCGCAATTTATTGAGATTAGCGGACCACTGATAGAGCGAATGCTCCCGAAAACACTCCCCCAGATGTCAGAGTTTGCTAAGCAGTTTCGCAATTCGTTCCCCGGAACGCTGAAGGAAGCCGCAAAGGCCGGGCAGATAAAGGCCATGCTGGGAACACTGGCGCCGGAGAGCAAAGTAGATCGCTTTGTTGGTCTTGAATTTCAAGTTCTCGAATCCGCCGGGCCGCCCCTTGCGCTGGGGGATTCTGTAGTGCTGTTTCAGGTGGCAGGCGAAAGGGCTTTCAAACCCTTCTTGGAAGGCGAGGACGAGCTGGTAGCAGTCTACTTGCCACTAAGCCCTCAACAGGTATTGGTCGGTTCCAATGCTTTTTTTGTGCTAGATCCCGCGTGCTTGCGCCGTGAGATAGCCCGTTGCTCCCTTGAGCATTTTGTTGCCAGTGAAGCGCCACCAGAACACAGTGATCTTCTCCCGCTCATTGGCGAGAACGCCCATCTGCTGTCGATCAATCAAGTCGAGACAATAGTGCATGAGCTCATAGAGAAATAG	MAGKRQHFVPQFLQRGFVSHVVGGEAFTWVHRKDAQPFNTNLKNAGVEGFFYSVGQGTELDDAITDFEGEFSSLISDLRCGTSQITADTLRIAQLLAHLEMRTRHLRQSFLETGTHLLDELMKFASDEEAFGRYFRRAIQRDSSLMQDAMAKEMRKYGIPLQYLPQFIEISGPLIERMLPKTLPQMSEFAKQFRNSFPGTLKEAAKAGQIKAMLGTLAPESKVDRFVGLEFQVLESAGPPLALGDSVVLFQVAGERAFKPFLEGEDELVAVYLPLSPQQVLVGSNAFFVLDPACLRREIARCSLEHFVASEAPPEHSDLLPLIGENAHLLSINQVETIVHELIEK				NA	NA	NA	NA	NA
BMS010_09240	252	imm_2		Colicin-E7 immunity protein	ATGGGTAACCAACTAAGCGACTACACCGAAGGGGAGTTCCTGGAACTCCTTCGTAAGATTTTTAATGCCGAATACCCAACAGCCAATGAATATGACGAAGCAGTTGATCACGTCGTTGAGCTAATCGGGCATCCCACCGGAACGGACATAATCTTTTATCCGTCCTCCGAAGCAGAAGACAGCCCAGAAGGCGTACTAAAGGTTGTAAAAGAGTGGCGAGCTACCAACGGCCTGCCCGGATTCAGAGAATAG	MGNQLSDYTEGEFLELLRKIFNAEYPTANEYDEAVDHVVELIGHPTGTDIIFYPSSEAEDSPEGVLKVVKEWRATNGLPGFRE				NA	NA	NA	NA	NA
BMS010_09241	501			hypothetical protein	ATGGAAAACGCTTTCTCTCCCCTCACCCTCCACCGCTACGACCGCCCTTTGCGCGGCGTGATGATCGACGGCCAGCCCTGGTTCGCCGCCTGGGATTTCGCCCGGCTGATCGGCCATCGCCACCCCGAACGCATCGGGCGGATGATGGAGGACGACCAGATACGTACCGTGCGTTTCGCCCTGGCCAGCGGCGAGACGGAAGACGTCGAGGTGATCAGCGAATCCGGCGCTTACCGGGCGCTGTGGCGCTACAACCACCCGGAAAACCGCAGCCTGCGCCGCTGGCTGACACTGGAGGCGGTGCCGCTGTTGCGCGATGCCCGCGGCACGGGCCCTGCCTGCCCCAAGCGCACGTTGTTGCAGTGGGGTACGCAGCAGGTCGGGTTGCTGGAGTGGCAAGGGGTGTTGTGGGTGCCGTTCGATGCGCTGCCGAGGTTCGCGGCGCCGGCTGTGGAGCGGCGGTCGATGCGGCGCGGTTTGCTGGGGCGTTGGGGAAGGTGA	MENAFSPLTLHRYDRPLRGVMIDGQPWFAAWDFARLIGHRHPERIGRMMEDDQIRTVRFALASGETEDVEVISESGAYRALWRYNHPENRSLRRWLTLEAVPLLRDARGTGPACPKRTLLQWGTQQVGLLEWQGVLWVPFDALPRFAAPAVERRSMRRGLLGRWGR				NA	NA	NA	NA	NA
BMS010_09242	516			hypothetical protein	ATGAGCGCCCTGCCCCGTGTTTTCGCGTACCTGCTTCTGTTGCCTGCCTTCGTTTCCGCCGCGTTGGCCGATGATCGCTGGCAGAGCCAGCCGGAGGGTCCGGTGATTCTGACGGTGACGGGCCCATTGGGCTGTTGCCCGGAGGGAGTGGCGTTGTTCGACCAGGCGCGGTTGGATGCATTGCCGCAGACCCAGGTCAAGACGCTCACGCCCTGGACGGAGCAGGTGGATACCTTTGAGGGCGTATCGATCCGCGATCTGCTCGTGCAGCTGCAGGCCAGTGGCCGGTTCATCGAGGCGAAGGCTCTGAACGACTACCACACCCGCTTCGAGGTGCAGACGGTGCTGGATTACCCGGTGATCCTGGCGACGCGGAAGAACGGCGAGCCGATGCCGGTGCGCAACAAGGGGCCGATCTGGATCATCTATCCGCTCAGCGACTTTCCGCCGCTGCGCAAGGAGCTGCATCACCAGGCGATGGTCTGGCAGCTCAAGTCGCTGACTATCGTCGAGTAA	MSALPRVFAYLLLLPAFVSAALADDRWQSQPEGPVILTVTGPLGCCPEGVALFDQARLDALPQTQVKTLTPWTEQVDTFEGVSIRDLLVQLQASGRFIEAKALNDYHTRFEVQTVLDYPVILATRKNGEPMPVRNKGPIWIIYPLSDFPPLRKELHHQAMVWQLKSLTIVE				NA	NA	NA	NA	NA
BMS010_09243	1941			hypothetical protein	ATGCTGCGTTTGCGCTATCTGTTCCTGACGCTGGTCACCCTCGGCTTCGCCGGTGGGATCGTGGCGTCACTGGTGCATAACCAGCGCAGCGCGGAGATGAATACGGCACGCATCCAGCTCTCGGCCTGGTCGCTGGCGCAGTTGGAGTTCGAGTACCTGCGGTTCTACGACACGCTGCGCCTGTACCGGGCCGGAGCAGCCGATGCGGGCCGGCTGCGGATGACGTTCGATCTGCTGTGGAATCGCCTGGATGTGTTCCTGACCGGCGAGGAGAACCGCGCGATTCGCCAGCGTTTCGGCGGCGAGGATACGGCGAAGGCGCTGCTCGCCCAGTTGCAGGCGGACGAGGCGTTGATCTTCGCGACCGACCTGAAGCCGGGCGCGGGCCTCGATGCGGTGATCGCCCGTTATGCCGGGTTCCAGACGCCGATCCGCGATCTGATGATCCATAACTTCACCGGGCCGGACGCGGCGCACATCGCCGATGAGATCAACCGCCACCATTACCTGACGCAGGTGTTCCTGCTCGGCCTGCTGTTCTGCGGCGGCGCGCTGGCGCTGATGCTGTTCTACGAGGCGCGGCGCAATCACCACATGGCGCGCAACGACGTGCTGACGCAACTGCCCAACCGCTTCCACTTCAAGACCTTGCAGAAGTCCCTCTCCCACCGCCATTGCTGTGCCCTGGCGGTGATCGAGCTGAGCAATTTCCGCGCGGTGAACGAGAACATCAGCCACGATGCGGGGGACCTGCTGCTGACGCGGGTCGGCGAGATTCTCAACAGCCTGAAGCCGGAAGGCAGCTTCATCGCCCGGGTGGATGGGGACGAGTTCGTGATGACCTTTCCGGATGGCTTCTCCGAGGAGCTGGTGAAGTCGACGCTGAACGGTCTGGCCATCGCCCTGAGTTTCGACTTCCAGAACGACAAGCACCTGTTCCAGGTCGGCACCCGCATCGGGCTCTGTTTCAACCCGGACCGGGCGTTCGATCTGCAGAAGCTCTACCAGTTCGCGACGCTGGCCGTGCGCGAGCAGCGGCTGAGCAAGCGCAACGGGCTGGCGCTGTTCACCGAGGAGATCAACAACCGCTATCTGCGCAGCCAGAGCCTGTTGAGCGACCTCAAGCGCGCCCTGGCGCCGGGGAGCAAGACCGGCAGCGACCTGCTGCTGCACTACCAGCCGATCGTCGCCTGCCATGGCGGGCAGACGGGGGTGGAGGTGCTGCTGCGCTGGCTGCATCCGCAGTTGGGCTACATCTCGCCGCTGGAGGTGGTGGAGCTGGCGGAGAACAACCAGATGGGGCCGCAGCTGGGGCGCTGGGTGCTGCAACGGCTCAAGCGCGACCTGCTGAATATCCCGCCTTCCGTGCGCAATGCGCTGTTCTACTCGGTGAACATCGCGTCGTCGCAGTTCACCCGCGAGTTGCCGGAGCAGTTGCGGGCGTGGCTGGCGGATACGCCGATCCGCGCGGATCAGTTGCAGGTGGAGATGACCGAGTCGATCTCGGTGGCCAATTTCGTCGATGGCTCGCTGATCCTTCGGCGGCTCAACCAACTGGGCATCCAGGTGGCGTTGGACGATTTCGGCACGGGTTATTCGTCGCTCTCGTACCTGAAGGAGCTGAATATCCAGCGGGTGAAGATCGACAAGTCGTTCATCCAGGGCATCGGCCGCAATGCGCAGCAGCAACAGGTGGTGCGCAGCATTATCGATCTCTGCCATACCTTCCATTTCAAGGTGGTGTGCGAAGGCATCGAGGACGAGCTGGATGCCCAGCAAGTGTCCAGCCTGGGCAGCGATTTCGCCCAGGGCTACTGGTATGGCAAGCCGATGCCGATGCAGGCGCTGCTGGTGTGGCTCACCGTTGCGCAGGAGGCGGCAACGCCGAGCTATCCGCGTCATGCGCCGGTCGAGGTGCAGCCCGTTCCCCCGGTCGAGTGA	MLRLRYLFLTLVTLGFAGGIVASLVHNQRSAEMNTARIQLSAWSLAQLEFEYLRFYDTLRLYRAGAADAGRLRMTFDLLWNRLDVFLTGEENRAIRQRFGGEDTAKALLAQLQADEALIFATDLKPGAGLDAVIARYAGFQTPIRDLMIHNFTGPDAAHIADEINRHHYLTQVFLLGLLFCGGALALMLFYEARRNHHMARNDVLTQLPNRFHFKTLQKSLSHRHCCALAVIELSNFRAVNENISHDAGDLLLTRVGEILNSLKPEGSFIARVDGDEFVMTFPDGFSEELVKSTLNGLAIALSFDFQNDKHLFQVGTRIGLCFNPDRAFDLQKLYQFATLAVREQRLSKRNGLALFTEEINNRYLRSQSLLSDLKRALAPGSKTGSDLLLHYQPIVACHGGQTGVEVLLRWLHPQLGYISPLEVVELAENNQMGPQLGRWVLQRLKRDLLNIPPSVRNALFYSVNIASSQFTRELPEQLRAWLADTPIRADQLQVEMTESISVANFVDGSLILRRLNQLGIQVALDDFGTGYSSLSYLKELNIQRVKIDKSFIQGIGRNAQQQQVVRSIIDLCHTFHFKVVCEGIEDELDAQQVSSLGSDFAQGYWYGKPMPMQALLVWLTVAQEAATPSYPRHAPVEVQPVPPVE				NA	NA	NA	NA	NA
BMS010_09244	1206			hypothetical protein	ATGAGTACCATCGGCCGTCTTTCGGTCTCGACGCCCCAGGGGCCGAGCGGTAGCGTGCTGCTCGACCGCGACGACTACCTGTTCCGCTACGCCGACGATGCCCATCGCGACTGTGCCATCAGCTTGCTGATGCCCGTGCGAACGGCGGAATACCGGTCCCGCGAATTGCATCCGGTATTCCAGATGAACCTGCCGGAAGGCTATCTGCTGGAGCAACTGCGCAATCGCCTGGCCAAGATCACCCCGCTCGATCCCATGCTGCTGCTTGCCTTGAGCGGTAGCAGTGCTCCTATCGGTCGGTTGGCCGTGCAATCGGAACGGGTCGATGCCTTGCTGAAACGGCAGGAGCGCATGGGGCCGGGGGAGCGACTGGAGGATATCCTCGCCTGGGATGGCACTGAAAACCTGTTCGCCGAGCTGGTCGATCGCTACATCCTGCGGGCTGGCATTTCCGGGGTTCAACCCAAGGTCCTGGTGCCGGAGGCGGGTAGCCGGGACAAGGCCACGGCACGGACTTCCGACCTCATCGTCAAGAGCGGGCGCGACGAATTTCCCGGGTTGGCCATCAATGAGTTCCTCTGCATGAGCATGGCCAGGCAAGCCGGGTTGCCGGTGCCTGAGTTCTATCTGTCGCGCAATCTGCAGATGTTCGTCATGCGCCGCTTCGACCGGGACGACAGCGGCCAGCCGATCGGTTTCGAAGACATGGCCGCCCTCATGGGGCTGCCGGCGGCCATGAAGTACAGCAAAAGCTATGAGCTGATCGCCAAGGCCGTCCGGTTGTTCTGCTTCGGCGAGAGCCAGGCACGCTCCCTGAGCGAGCTTTTCGACAGCGTCGCCCTGAGTTGCATCGTCGGCAATGGCGACGCCCACCTGAAGAACTTCGGGTTGCTCTACAGCCAGCCATCGGCACGGGACGCGCGGCTGGCCCCGGCTTTCGATATCGTCAACACCACCGCCTACCTTCCGGACGACGCCCTGGCACTGGAACTCGGCGGCAGCAAGAGCCTGTTCGCCTCCCGCCTGGGCATTCTCGAGTTCGCCGTCCGTTGCGACGTCCGCCATCCACAGGAACGCATCGAGCGGCTTCTCCTCGCCGTCGAAACCGTTCTGCGAGACCAGATCGCACTGTCGGAACAGGTCCCTCAGGTCACCGCCGCCATCCGCAGCAGCGCCGAACGCTTCGCCCAGACCTTCACCCGCTGA	MSTIGRLSVSTPQGPSGSVLLDRDDYLFRYADDAHRDCAISLLMPVRTAEYRSRELHPVFQMNLPEGYLLEQLRNRLAKITPLDPMLLLALSGSSAPIGRLAVQSERVDALLKRQERMGPGERLEDILAWDGTENLFAELVDRYILRAGISGVQPKVLVPEAGSRDKATARTSDLIVKSGRDEFPGLAINEFLCMSMARQAGLPVPEFYLSRNLQMFVMRRFDRDDSGQPIGFEDMAALMGLPAAMKYSKSYELIAKAVRLFCFGESQARSLSELFDSVALSCIVGNGDAHLKNFGLLYSQPSARDARLAPAFDIVNTTAYLPDDALALELGGSKSLFASRLGILEFAVRCDVRHPQERIERLLLAVETVLRDQIALSEQVPQVTAAIRSSAERFAQTFTR	PGPT0027480_2427	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HipA-HipB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027480-toxin_hipA-K07154	NA	NA
BMS010_09245	252			hypothetical protein	ATGGATTATCAGCTCATCAACGAACGCTTCGGTGCTGAAATCCGCCAGCTACGCCTCAAGCGTGGGTTGACCCAGGCTGAATTGGCTGGAATAGCCGGAATTACCCGCCAGAAGCTGATCGAGATCGAAAAGGGCCACGGCACGGTGGCGCTGAATTTCTACACACGGGTAATCGCCAGCCTGGAGGGCGAGCTGCAGGTCGTGCCGGCGCAACTACCGACCCTTGACGACATCCGGGGCTTCTTCGAATGA	MDYQLINERFGAEIRQLRLKRGLTQAELAGIAGITRQKLIEIEKGHGTVALNFYTRVIASLEGELQVVPAQLPTLDDIRGFFE	PGPT0027485_641	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HipA-HipB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027485-REGULATION_hipB-K15773	NA	NA
BMS010_09246	1590	ybiT	COG0488	putative ABC transporter ATP-binding protein YbiT	TTGATTTCCACCGCCAATATCACCATGCAGTTCGGCGCCAAGCCGCTGTTCGAGAACGTTTCCGTCAAATTCGGCAACGGCAACCGCTACGGCCTGATCGGCGCCAATGGCTGCGGCAAGTCGACCTTCATGAAGATTCTCGGCGGCGAGCTGGAGCCGTCCGGCGGCCAAGTGATGCTGGAGCCGAACGTGCGCCTCGGCAAGCTGCGCCAGGATCAGTTCGCCTATGAAGACTTTTCGGTGATCGACACCGTGATCATGGGCCACACCGAGCTGTGGGAGGTGAAGGCCGAGCGCGACCGCATCTACTCGCTGCCGGAGATGAGCGAGGACGACGGCATGAAGGTCGCCGAGCTGGAGGTGCAGTTCGCCGAGTACGACGGCTACACCGCCGAGTCCCGCGCCGGCGAACTGCTGCTCGGCCTGGGCATTCCGCTGGAACAGCATTTCGGCCCGATGAGCGCGGTGGCGCCCGGCTGGAAGCTGCGCGTGCTGCTGGCCCAGGCACTGTTTTCCGACCCGGAAGTGCTGTTGCTGGACGAACCGACCAACCACCTGGACATCAATACCATCCGCTGGCTGGAGTCGGTGCTCACGGCGCGCAACAGCACCATGATCATCATTTCCCACGACCGCCACTTCCTGAACAGTGTGTGCACGCACATGGCGGACCTGGATTACGGCGAGCTGCGCCTGTTCCCCGGCAACTACGACGAGTACATGACCGCGGCGACCCAGGCCCGCGAACGCCTGCTGGCGGACAACGCCAAGAAGAAGGCGCAGATCGCCGAGCTGCAGACCTTCGTCAGCCGCTTCTCGGCCAACGCCTCCAAGGCCAAACAGGCCACCAGCCGCGCCCGGCAGATCGACAAGATCCAGTTGGAAGAAGTGAAGCCCTCCAGCCGGGTCAGTCCGTTCATCCGCTTCGAGCAGTACAAGAAGCTGCATCGCCAGGCGGTGACGCTGGAGCGCATCAGCCAGGGCTATGACGGAACTCCGCTGTTCAAGAACCTCAGCCTGCAGATCGAGGCCGGCGAGCGCGTGGCGATCATCGGCCCCAACGGGATCGGCAAGACCACCCTGCTGCGCACCCTGGTCGACGAGATGCCGCCGCTGGCCGGCGAGGTGAAGTGGACCGAGAGCGCCGACGTGGGCTATTTCGCCCAGGATCATGCCGAGGATTTCGCCGACGACATGACCCTGTTCGACTGGATGGCCCAGTGGACCCAGGGCGGCGAGCAACTGGTGCGCGGCACGCTGGGCCGCATGCTGTTCTCCAACGACGAGATCAAAAAGTCGGTGAAGGTGATTTCCGGTGGCGAGCAGGGCCGGATGCTGTTCGGCAAGCTGATTTTGAAGAAGCCCAACGTGCTGGTGATGGACGAGCCGACCAACCACCTGGACATGGAGTCCATCGAGGCGCTGAACCTGGCGCTGGAGAACTATCCGGGCACGCTGATCTTCGTCAGCCACGACCGCGAGTTCGTCAGCTCCCTGGCGACGCGCATCATCGAGCTGTCGGAAAACGGCGTGACCGACTTCAGCGGTACCTACGACGACTACCTGCGCAGCCAGGGCGTGATTGTCTGA	MISTANITMQFGAKPLFENVSVKFGNGNRYGLIGANGCGKSTFMKILGGELEPSGGQVMLEPNVRLGKLRQDQFAYEDFSVIDTVIMGHTELWEVKAERDRIYSLPEMSEDDGMKVAELEVQFAEYDGYTAESRAGELLLGLGIPLEQHFGPMSAVAPGWKLRVLLAQALFSDPEVLLLDEPTNHLDINTIRWLESVLTARNSTMIIISHDRHFLNSVCTHMADLDYGELRLFPGNYDEYMTAATQARERLLADNAKKKAQIAELQTFVSRFSANASKAKQATSRARQIDKIQLEEVKPSSRVSPFIRFEQYKKLHRQAVTLERISQGYDGTPLFKNLSLQIEAGERVAIIGPNGIGKTTLLRTLVDEMPPLAGEVKWTESADVGYFAQDHAEDFADDMTLFDWMAQWTQGGEQLVRGTLGRMLFSNDEIKKSVKVISGGEQGRMLFGKLILKKPNVLVMDEPTNHLDMESIEALNLALENYPGTLIFVSHDREFVSSLATRIIELSENGVTDFSGTYDDYLRSQGVIV				NA	NA	NA	NA	NA
BMS010_09247	510			hypothetical protein	ATGCCACTCTCCATGTACCAAGCCTCGATTCCGGTGTTCCAGCGGATGCTGGGCAACCTTGCGCAGATTCTCGACAAGGCGGTTGCCTACGCCGAGGCGAAGAAGATCGACCCGAACGTGCTGATCAACGCCCGCCTGGCGCCGGACATGCTGCCGCTGGCGCGCCAGGTGCAGATCGCCACCGACACCGCCAAGGGCTGCGCCGCGCGCCTGGCTGGCGTCGAGAACCCTAGCTACCCGGATACCGAGACCACCTTCGCCGAACTCCAGGCCCGCCTGGACAAGACCCAGAGCTTCCTCAAGAGCGTGACGGCCGAACAGATCGATGGCAGCGAGGGCAAGCCGATCACCCTGACGTTCCCCAGCATCGAACTGAAATTCGACGGCCAGAACTACCTGCTCGCCTTCGCCTTGCCCAACTTCATGTTTCACGTCACCACCGCCTACGCCATCCTCCGCCACAACGGTCTGGACATCGGCAAGATGGACTTCCTCGGCAAGCCGACCTGA	MPLSMYQASIPVFQRMLGNLAQILDKAVAYAEAKKIDPNVLINARLAPDMLPLARQVQIATDTAKGCAARLAGVENPSYPDTETTFAELQARLDKTQSFLKSVTAEQIDGSEGKPITLTFPSIELKFDGQNYLLAFALPNFMFHVTTAYAILRHNGLDIGKMDFLGKPT				NA	NA	NA	NA	NA
BMS010_09248	444			hypothetical protein	ATGATCGACCGCAACCAACGGCCACGACGCTCCACGCGCAACGAAGGCATCCGCAACGCCCGCCTCAAGCTGCTGGCCCTGGCGGTGCTCTGCACGTTGCCGCTCTGGGGTTGTCTGCAACTCTGGCTGGCCAAGGGTACATTCTGGCCCGCGCTGCTCTATGGGCTCGCCAGCCCGGTCGCTTTCTTCCTCTACTGGCGCGACAAGCACAGTGCCCGCAACGGCCACTGGCGCACCCCGGAAAGCACCCTGCACCTCGCCGAACTGCTCGGCGGCTGGCCGGGTGCCTTGCTCGCCCAACAGGCGTTCCGCCACAAGACCCGCAAACTGTCCTTTCAGGTTCCGTTCTGGATCATCGTCGCGTTGCACCAGGCCATCTGGATCGACTACCTCTACTTACGCGCCGTGTTTGGCAGCACTTTCGTCCAGCGATTTATCGGCTAG	MIDRNQRPRRSTRNEGIRNARLKLLALAVLCTLPLWGCLQLWLAKGTFWPALLYGLASPVAFFLYWRDKHSARNGHWRTPESTLHLAELLGGWPGALLAQQAFRHKTRKLSFQVPFWIIVALHQAIWIDYLYLRAVFGSTFVQRFIG				NA	NA	NA	NA	NA
BMS010_09249	348			hypothetical protein	ATGAATGCCGACGACGTTGCCGCTTTCTGCCTGAGCCTGCCCGGCGCCCGGGAAGACCTGAAATGGGGCGGTGTCCGGGTGTTTTCCGTGGCCGGGAACAAGATGTTCGCCGTGCTCGACTTCATGGGCGAAGGACTGGGCTTCAAGGTGGACAAGGAGCTTTTCCTCGGTTTCTGCGACCGTCCGGGTATCCATCCCGCGCCTTACCTGGCACGGGCCCAGTGGGTCCGGATGGAACCGCCCTACCCGCTCGGCGATCAGGAGCTGCGCGAGTTGCTGACCCGCTCCCACCAGTTGGTGGTGGGCAAATTGCCCAAGCGCCAGCGCATGGGGTTGTTGTTGGATTAG	MNADDVAAFCLSLPGAREDLKWGGVRVFSVAGNKMFAVLDFMGEGLGFKVDKELFLGFCDRPGIHPAPYLARAQWVRMEPPYPLGDQELRELLTRSHQLVVGKLPKRQRMGLLLD				NA	NA	NA	NA	NA
BMS010_09250	831	uppP_3	COG1968	Undecaprenyl-diphosphatase	ATGGATCTTTGGACTGCCGCTCAGGCGCTGATTCTGGGCATCGTCGAGGGACTGACCGAATTCCTGCCGGTCTCCAGCACCGGCCACCAGATCATCGTCGCCGACCTCATCGGCTTTGGCGGCGAGCGGGCCAAGGCCTTCAACATCATCATCCAGCTCGGCGCCATCCTCGCGGTGATCTGGGAATACCGCCGCAAGATTCTCGACGTGGTGATCGGCCTGCCCACCGAGCGCCAGGCGCAGCGCTTCACGGTCAACCTGATGGTCGCGTTCTTCCCGGCGGTGGTGCTGGGCGTCACCTTCGCCGATCTGATCCAGCACTACCTGTTCAACCCCATCACCGTGGCGGCGGCGCTGGTGGTCGGTGGCGTGATCATGCTCTGGGCCGAGCGCCGGGAGCACCGCGTCCGTGCCGAAACGGTGGACGACATGCGCTGGCAGGATGCCCTGAAGGTCGGCTGTGCCCAGTGCCTGGCGCTGATCCCTGGCACCTCGCGCTCCGGCGCGACCATCATCGGCGGGCTGCTGTTCGGCCTGTCGCGCAAGGCGGCCACCGAGTTTTCCTTCTTCCTGGCGATGCCGACCATGGTCGGCGCGGCGGTCTATTCCGGCTACAAGCATCGCGAACTGTTCCAGCCGGGCGACTTCGGCGTGTTCGCCATTGGCTTCGTCACTGCCTTCATCTTCGCCATGCTGGCGGTGCGGGCCCTGCTCAAGTTCATCGGCAGCCACAGCTACGCGACCTTCGCCTGGTACCGTATCGCCTTTGGCCTGCTGATCCTGGCGACCTGGCAGTTGGGTGTGATCGACTGGTCCACGGCGGTGGATTGA	MDLWTAAQALILGIVEGLTEFLPVSSTGHQIIVADLIGFGGERAKAFNIIIQLGAILAVIWEYRRKILDVVIGLPTERQAQRFTVNLMVAFFPAVVLGVTFADLIQHYLFNPITVAAALVVGGVIMLWAERREHRVRAETVDDMRWQDALKVGCAQCLALIPGTSRSGATIIGGLLFGLSRKAATEFSFFLAMPTMVGAAVYSGYKHRELFQPGDFGVFAIGFVTAFIFAMLAVRALLKFIGSHSYATFAWYRIAFGLLILATWQLGVIDWSTAVD	PGPT0024165_2255	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024165-bacA-K06153	NA	NA
BMS010_09251	1635	mcpP_3	COG0840	Methyl-accepting chemotaxis protein McpP	ATGAGTAGTCTTCGCAACCTGCCCATCAACCGCCGCCTGTGGCTGATCCTGGCGCTCGCCATCCTGATGCTGTTCATTCTCGGCGTGATGATGCTGCGGCAGATCCACACCGATCTGTACCTGGCCAAGGAGGAAAAGACCCAGCACGTGGTGGAAAGCGCGGCGGGCATCCTCCGTTACTACCACGGTCTCGAGCAGGCCGGCGGCCTGAGCCGGGAGGACGCCCAGAAGCAGGCGATGGAGTTGATCCGCGGGTTGCGCTACGACAAGGACGATTATTTCTGGATCAACGACCTCGCCCCGCGCATGGTCATGCACCCGACCAATCCGAAGCTGGAAGGCCAGGATCTCTCGGGCATCAAGGACCCGGACGGCAAGGCGCTGTTCAATGAGATGGTGCGGATCGCCAAGAGCCAAGGCGCCGGCATGGTCGACTACCGCTGGCCGAAGCCGGGCAGCAGCGATCCGGTGCCGAAGATTTCCTATGTCGAGCTGTTCCAGCCGTGGGGTTGGATCATCGGTTCGGGCGTGTATGTGGACGACGTGCAAGACGAGTTCCGCCAGCAAGCCTTGCACGCAAGCGGCGTCGGCCTTGCCATCGTGGTGGTGATGGCGCTGCTGCTCGGCGTCATCGTGCGCAGCATCACCCGCCCCTTGCAGGAGGCGGTGCATGCCATGGCCGACATCGCCAGCGGCGAAGGCGACCTGACCCGTAACCTCGATCCACAGGGCCAGGACGAACTGAGCGCCCTGGCCAGCCACTTCAATGCCTTCACCGACAAACTGCGCCGGGTGATCCAGCAATCCCTGCAAGCAGCCGGTACGCTCGACCAGGCCGCCCGCTCGCTGGGCGGGGTCGCCAACGACGCGTTGCAGCACAGCCAGCAGCAGTCGCAGCAGATGGAGCTTGTGGCCACGGCGATCAACGAAGTCACCTACGGCGTGCAGGACGTGGCGAAGAACGCCGAGCACGCGGCCAATGAGGTCCGTGCCGCCGAGGAACAGGCACGGCACGGCCAGCAGAACATCGACACCAGCCTGCGGCAGATCGACCAGTTGTCCGCCACCATCGACCAGGCCGTGCAGGTGATCCAGTCCCTCGCCCAGGAAAGCACCCAGATCGGCAGCGTCCTGGAAGTGATCCGCTCCATCGCCGAACAGACCAACCTGCTCGCCCTGAACGCGGCCATCGAGGCGGCACGGGCCGGCGAGCAGGGACGCGGCTTCGCCGTGGTGGCCGACGAGGTACGCCTGCTGGCGCAGCGTACCCAGCAGTCCACTGCGGAAATCCACTCGATGATCGAGCGCCTGCAGACCAATTCCGAGGCTGCGGTGAAAGTGATCCACGACAGCAGCCGCGCATCCCAGGCCACGGTCGAGCAGGCCAGCCAGGCCGGCGAGAGCCTGACGCAGATCGCCCAGGCGCTGCGCAACCTCAGCGGGCTGAACGCTTCCATTGCCAGTGCTACGCTGCAACAAGCGCATGTGGTCGAAGACATCAACCAGAACGTGACCCAGGCCGCCGGGCTGGCGCACAACAACGCACTGGCGGCCGAGCAGTCCAGTTCGGCCAGCCAGAACCTCAATCAACTGGCCGAACAACTGAATCGGCTCTTGGGTCAATTCCGCGTATGA	MSSLRNLPINRRLWLILALAILMLFILGVMMLRQIHTDLYLAKEEKTQHVVESAAGILRYYHGLEQAGGLSREDAQKQAMELIRGLRYDKDDYFWINDLAPRMVMHPTNPKLEGQDLSGIKDPDGKALFNEMVRIAKSQGAGMVDYRWPKPGSSDPVPKISYVELFQPWGWIIGSGVYVDDVQDEFRQQALHASGVGLAIVVVMALLLGVIVRSITRPLQEAVHAMADIASGEGDLTRNLDPQGQDELSALASHFNAFTDKLRRVIQQSLQAAGTLDQAARSLGGVANDALQHSQQQSQQMELVATAINEVTYGVQDVAKNAEHAANEVRAAEEQARHGQQNIDTSLRQIDQLSATIDQAVQVIQSLAQESTQIGSVLEVIRSIAEQTNLLALNAAIEAARAGEQGRGFAVVADEVRLLAQRTQQSTAEIHSMIERLQTNSEAAVKVIHDSSRASQATVEQASQAGESLTQIAQALRNLSGLNASIASATLQQAHVVEDINQNVTQAAGLAHNNALAAEQSSSASQNLNQLAEQLNRLLGQFRV	PGPT0015710_20152	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_09252	615			hypothetical protein	ATGAGCAGTATGGAACATCAGGAAATCGACCTCAGCCGGCCTCAGAATCAGGATTTGATCTGGGACCTGGACAGCATCGCCCGACGCGAACTCGCCGAGCGCTTCATCCGGCTGTTCGAGAATCGCCTGTGCGTCTACTCCGAGTCGGTGCGCCAGCTCTATACCAATTACAACCTGCACTTCCCGTCCGACCTCGGTCGCAAGATGGTGGTGCTGCCCAACCCCTATGCCTTCCATGACACCCTGCACGGCATCGAGTCCTCCGCCGTGCGCCAGACCGGCCTGTGCGTGCTGCCCGGCCAGGTCGCGGGCAAACCGGGCCTGCTGCTGACCACCCAGGCCAAGGCAGGCGGACCGACTCCGAAGACCATGCCGTTCAAGCAGGCCCTGGCACAGATCATCAGCAACCAGAAGAAGATCGGTGACGTGTTCCTGCCGATCCTGATGAAGGGTGACCTGCGCGAATTCGACCAACGCACGCCCTACCTGCACCTGCACCGCCTCCAGGTGCACAAACTCACCCATTTGTCCGAGTTCGAACGCGACGACATCCAGGACACCATCACCCGCAAGCTGTTGCTGCTCTATCGCCAGGCCGACAGTCTGGTGTGCTGA	MSSMEHQEIDLSRPQNQDLIWDLDSIARRELAERFIRLFENRLCVYSESVRQLYTNYNLHFPSDLGRKMVVLPNPYAFHDTLHGIESSAVRQTGLCVLPGQVAGKPGLLLTTQAKAGGPTPKTMPFKQALAQIISNQKKIGDVFLPILMKGDLREFDQRTPYLHLHRLQVHKLTHLSEFERDDIQDTITRKLLLLYRQADSLVC				NA	NA	NA	NA	NA
BMS010_09253	567	pnuC	COG3201	Nicotinamide riboside transporter PnuC	ATGTCCGCACTCGAACTCTTCGCTGCCGCCCTCGGCGTGCTGGCCGTCTGGCTTACCGTCCGGCAGAACCCCTGGTGCTGGCCGATCGGGCTGGTGATGGTGCTGCTGTATAGCTGGATCTTCTTCGAGGTGAAGCTGTATTCGGACATGTTGTTGCAACTGGTTTACGCCGTGCTGCAACTCTACGGCTGGTGGCAATGGACCCGAGGCGGCGATGCGCACCGGGGCCGCGAGGTCAGCCGCTTGAGCGCTGGCGGGCTTGCCTTCAGCCTTGCTCTTGGTGCCGTCGGCAGCCTGGGCCTGGGTTACCTGATGGCCACCTATACCGACGCAGCCCAGCCCTGGCTGGATGCCGCACTGACCGCCTTCAGCCTGGTGGCCCAGGCCTGGATGGCGCAGAAGCGCCTGGAATGCTGGCCGCTGTGGCTGGTGCTGGATGTGCTGTTCGTCGGCCTGTTCGTCTACAAGGCGCTGTACCTGACCGCCGGGCTCTATGCCCTCTTCACGCTGCTGGCGATCCAGGGCTGGCTGGCTTGGCGACGTGACCCGGCGCTGGCGGCGGCATGA	MSALELFAAALGVLAVWLTVRQNPWCWPIGLVMVLLYSWIFFEVKLYSDMLLQLVYAVLQLYGWWQWTRGGDAHRGREVSRLSAGGLAFSLALGAVGSLGLGYLMATYTDAAQPWLDAALTAFSLVAQAWMAQKRLECWPLWLVLDVLFVGLFVYKALYLTAGLYALFTLLAIQGWLAWRRDPALAAA				NA	NA	NA	NA	NA
BMS010_09254	528	nadR	COG1056	Trifunctional NAD biosynthesis/regulator protein NadR	ATGAAGGTCCTGGTGCTCACCGGGCCGGAGTCCAGCGGCAAAAGCTGGTTGGCCGGGGAACTGCAGGACGCCTTTGGCGGCGTGGTGGTCGGTGAGTACGTGCGCCATTTCATCGAGCGCGAGGCTCGCAATACCTGCTACGCGGATATCCCCGCCATCGCCCGGGGCCAACTGGAGTGGGAAGACCACGCCCGCCTGGCCGCCCCGCCGCTGCTGATCCTGGATACCCATCTGCTCAGCAACCTGCTGTGGAGCCAGGCGCTGTTCGGCGACTGCCCGGCCTGGATCGAGGAAGCCCTGCTGACGCGCCGCTACGACTTGCACCTACTGCTCGCCGCCGATGGCGTGCCCTGGGTCGCCGACGGCCAGCGCTGCCAGCCGAACCTCGACGCCCGCCGGGCTTTCCAGCAGGCCTGCCGGGACTGGCTGGAGCAACGCCGCCAGCCCTTCGTCGAAATCGGCGGGGATTGGGAGGAACGCCGGCAGTGTGCGCTGCGCGTTGTCGGGGATTGGTTAGTCGCCCGGTAG	MKVLVLTGPESSGKSWLAGELQDAFGGVVVGEYVRHFIEREARNTCYADIPAIARGQLEWEDHARLAAPPLLILDTHLLSNLLWSQALFGDCPAWIEEALLTRRYDLHLLLAADGVPWVADGQRCQPNLDARRAFQQACRDWLEQRRQPFVEIGGDWEERRQCALRVVGDWLVAR				NA	NA	NA	NA	NA
BMS010_09255	474			hypothetical protein	ATGCATCCATTCGAAGCCAAAGATCCCCACCAACTGGCCCTCCTGCTCGGCTATGCCGGGTTGATCCCCTTCGTCAGCGGCGCCCTTGGCATCTGGGTGATTCCGGTCGGCTGGCGGCCGATGGTGATGGCCGCCTTGTTGGATTACTCGGCCGTGACCCTGGCCTTCATGGGGGCGATCCACTGGGGGCTGGCGATGCGTGCCAGGGAAACCGACGAGCACGCCCGGATTCAGCTCGGGCTGTCGGTCATCCCGCCGATGCTCGGCTGGGCTGCGGTAGCCAGTGGGCTGCCGGTGGCGCTGGCCCTGCCGGTGTTCCTGGTGGCCTTCGTCGGACTCTACCTGGCGGATGTCCATGCCGTGTCCATTGGCTTGGCGCCGCGCTGGTATCCGGCCCTACGCAAGCCGCTGACCATCATCGTGGTGCTGTGTCTGTTGCTGGCCTGGGCCAGTGTGTTGCTACCGGGCGACTAA	MHPFEAKDPHQLALLLGYAGLIPFVSGALGIWVIPVGWRPMVMAALLDYSAVTLAFMGAIHWGLAMRARETDEHARIQLGLSVIPPMLGWAAVASGLPVALALPVFLVAFVGLYLADVHAVSIGLAPRWYPALRKPLTIIVVLCLLLAWASVLLPGD				NA	NA	NA	NA	NA
BMS010_09256	1266	norR_8		Anaerobic nitric oxide reductase transcription regulator NorR	ATGTTGGAAGCAGTAACCCCTACCTCTCGACGCGTACTGGTAGTCGATCCGGACGATGAGTGCGAGCCGCTGCTGGAAGCGCTGGGCGCTTGTGCCTGGGGCATCGAGCGCTGCGAGCTGGATTCGGCGCCTACGGCGGGCTACGAAATCGGCCTGCTCTGCTTGCGCCCGGAGCACCTTTCCCACCTGGGCAGCATCAGGGCGCTGATCAGCCAGAGCGGCACGGAATGGATGACGGTGTTCGATCCCGAGCTGCTGCCGGCCCCCGGCGTCAACGACTTCATTGGCGAATGGTTCTTCGACGGCTATGCACTGCCGGGCGATCCGCTGCTGTTCCAGCAGAGTCTGGGCCATGCCATGAGCCTGGTCCGGCTACGAGGGCTCAGCCGCCTGCACGAGCAGGAACTGATCGGCCATAGCCGGGCATTGCGTGGCTTGCGCAAGCAGCTCGCCAAGCTCGGACCGGGCGATGTACCGGTGCTGATCCAGGGCGAGAGCGGCACCGGCAAGACATTGGCCGCCCGTGTCCTGCATCGCCACTCCCGCCGGGTAGGTGGACCTTTCGTGGTGGTCGATTGCGCGGCCTTCCCGCAAGAGCGCCTGGACCAGATCCTGTTCGGTAGCGGTGACGACCAGGGCCGGCTCTTCGCCGCCCGGGGTGGAACGCTGCTGCTCGACGACATCGGCGCGATGCCTTTGGCCGTCCAGCAGGCCCTGTTCGAGCGGCTGAGCATGCCGCGCCGCGGGCGGGCCGATGTCCGCATCCTGGCTACGACCCGGAACAGCCTGCACGAGGCCGTGACCCAGGGTCGGTTCGATGCCGGGCTGTTCGGCTGGCTGGGGCAGCAGACCGTCGACATCGCACCCTTGCGCAAGCGTCAGGGCGACATCGCCTTGCTCGCCACGCATTTCCTGGCGCTCTACGGGGCGGACAGCGGACGGCATCCGCCGACGTTCAGCGATCGGGCACTGGCCGCCATGGCCCGTTATCACTGGCCGGGCAATGTGCGCGAACTGGCCACGCGGGTACGCCGCGGCTTCGCCCTGGCCGACGACACCATCGAGGCCAACGACCTCGGCCTGGAGGGTGGCCTGCCCGGCATCGGCCTGCTCGGTACCCTGGAAGACTACAAGCGGCGCGCGGAATACCAGGCCCTCTGCGATGCGCTGACCCGGTACAGCAACAACCTCAGCCTGGCCGCACGCATGCTGGGGATATCCCGGCCGACGTTCTATCGGTTGTTGCACAAGCATCAGTTGCTTTGA	MLEAVTPTSRRVLVVDPDDECEPLLEALGACAWGIERCELDSAPTAGYEIGLLCLRPEHLSHLGSIRALISQSGTEWMTVFDPELLPAPGVNDFIGEWFFDGYALPGDPLLFQQSLGHAMSLVRLRGLSRLHEQELIGHSRALRGLRKQLAKLGPGDVPVLIQGESGTGKTLAARVLHRHSRRVGGPFVVVDCAAFPQERLDQILFGSGDDQGRLFAARGGTLLLDDIGAMPLAVQQALFERLSMPRRGRADVRILATTRNSLHEAVTQGRFDAGLFGWLGQQTVDIAPLRKRQGDIALLATHFLALYGADSGRHPPTFSDRALAAMARYHWPGNVRELATRVRRGFALADDTIEANDLGLEGGLPGIGLLGTLEDYKRRAEYQALCDALTRYSNNLSLAARMLGISRPTFYRLLHKHQLL				NA	NA	NA	NA	NA
BMS010_09257	1566			hypothetical protein	ATGATTGAGGTGGACGGCAGGCATGCCTGCGGGGAGTGGGAAAACATCGTGAGCAGACTGGCCATCGTCGTCGAACGCAAAGAGGACTGGACCTCCTATTACCCCAGCGAAGATGTCATCACCGTCCAGGAATACCTGGAGCAACCCAACGAAGACGATAGCGGCAAGCGTGTGCAGGTGATCAACCTGTGCCGCAACTACAAGTACCTCGGCCACGGCTATTACTGCTCGTTGCTGGCCGAAGCGCGTGGCCACCGGGTCATCCCCTCGGTACGCACCATCAGCGAACTGGCGCGCAAGGCGCTCTACAGCCTGGCCCTGGAGGATCTGGACCGGACGTTGGACAAGGCACTGGCCGATCACCCGTTCGGCAGCACCGACGGCTTCACCCTGACGCTCTATTTCGGCCGCACCGACATCGAGCCGCTGCAGGAGCTGGCGCGACAGTTGTTCGAAGCCTTCCCCTGTCCGCTGCTGCTGGTGGAGTTCCGCCGCAACGACAGTTGGCACATCACCGGAATCAAACCGGGCGCCTTGCACAAGCTGCGCGAGGACCAAGAGGACCTGTTCGCCAATGCGCTGGACAACTTCAGCCGGAAGATCTGGCGCAAACCCCGGTCGCGGCGCCTGGTGCGTTTCGACCTGGCGATCCTGCACAACCCCGAGGAAGAGCTGCCGCCTTCCAACACCAAGGCTCTGAAGAACTTCATCCGCGTCGGCAAACGCCTGGGCATCGAAGTCGACCTGATCGAGAAGAAGGACTATGCCCGCCTGGCCGAATACGACGCGCTGTTCATCCGCGAAACCACCAGCGTCGGCGACCATACCTACCGTTTCGCCAAGAAGGCGGAAAGCGAAGGGTTGGTGGTGATCGACGACCCCGCATCGATCCTGCGCTGCACCAACAAGGTCTATCTCACTGACCTGTTGCGGGCACACAAGCTGGGGATGCCGGCGACCGAGATTCTCTATAAGGACCGCCCGCTGGAGCTGGAGCGCGTCGGTGAGCGCCTGGGCTTCCCGCTGGTGCTGAAGATTCCCGATGGCAGCTTTTCGCGCGGGGTGATCAAGGTGGAGGACCAGGCCGCCTTGCTCAAGGTCAGCGAAGAGCTGTTCGAGCATTCGGTGTTGCTGCTGGCCCAGGAGTTCTTCTACACCGAGTACGACTGGCGCATCGGCATTCTCAACCGCAAGCCGATCTTCGCCTGCAAGTACTTCATGTCCAAGGGGCACTGGCAGATCTACGACCATAGCCCGGATGCCGAGGAGTCCAGCGGGGATTTCACCACGCTGCCGGTGGAACAGGTGCCGCCGGAGGTGATCGAGCTGGCCGTGGAAACCGCCAACCTGATCGGCGATGGCCTCTACGGCGTCGACCTCAAGCAGGCGAATGGCAAGGTGGTGGTCATCGAAGTGAACGACAACCCCAACGTCGATGCTGGCATCGAAGACGCCCACCTGCAGGACGAACTCTACGCCATCATCCTGATGGAGTTCGTCCGCCGCCTGGAACTCAAGCGCCAGGGGCAGCCCTGGTCCGAGAACCAAACGGCATTGACCCTATAG	MIEVDGRHACGEWENIVSRLAIVVERKEDWTSYYPSEDVITVQEYLEQPNEDDSGKRVQVINLCRNYKYLGHGYYCSLLAEARGHRVIPSVRTISELARKALYSLALEDLDRTLDKALADHPFGSTDGFTLTLYFGRTDIEPLQELARQLFEAFPCPLLLVEFRRNDSWHITGIKPGALHKLREDQEDLFANALDNFSRKIWRKPRSRRLVRFDLAILHNPEEELPPSNTKALKNFIRVGKRLGIEVDLIEKKDYARLAEYDALFIRETTSVGDHTYRFAKKAESEGLVVIDDPASILRCTNKVYLTDLLRAHKLGMPATEILYKDRPLELERVGERLGFPLVLKIPDGSFSRGVIKVEDQAALLKVSEELFEHSVLLLAQEFFYTEYDWRIGILNRKPIFACKYFMSKGHWQIYDHSPDAEESSGDFTTLPVEQVPPEVIELAVETANLIGDGLYGVDLKQANGKVVVIEVNDNPNVDAGIEDAHLQDELYAIILMEFVRRLELKRQGQPWSENQTALTL				NA	NA	NA	NA	NA
BMS010_09258	1128			hypothetical protein	ATGAAACTCGATTTGCGCCCCGCCACCAGCGAGGATCTGTCCGCATTGGTGGAGTTGGAAAACCGCTGCTTTGAAATAGACCGACTGTCACGGCGAAATTTCCAATGGATGATCAACCGTGCCCACGCCAGCCTCATCGTCGCGGAAGGCGATGCCGGGGTGCTCGGCTACGCCCTGGTGCTGTTCCACCAGGGCACGTCGCTGGCGCGGCTCTACTCCATCGCCGCCGATCCCCGTGCGCGCGGCATCGGACTCGGCCAGCGCCTGCTGGATGCCGCCGAGAACGCCGCCCGCGAACACGATTGCGCCTATCTGCGACTCGAGGTGCGGCCGGACAACCGTACTGCCATCGCCCTCTACGAGCGCAACGGTTACCGTCCCTTCGCCACGGTCAGCGACTACTACGAGGATCACAGTGAAGCCCTGCGCTTCGAGAAACGCATCCACCAGCTCAGCGCGAGCAGGCGGCGGCTCGCGCCCTTCTACCGGCAAACCACCGAGTTCACCTGCGGCCCGGCCTGCCTGATGATGGCCATGGCGGCGCTCGACTCCAGCTATCGGATGACACGCCGTGACGAATTGCGCCTCTGGCGCGAGGCCACCACCATCTATATGACTGCCGGACACGGCGGCTGCAGCCCGCACGGCCTTGCCCTGGCCGCCTGGCGACGGGGCTTCCGGGTCGGCCTGCAAGTGAATGTGAGAGGGCCGCTGTTCCTCGACGGCGTACGCAGCGAGGAGAAACGCGCGGTGATGCGGGTGGTACACGAGGACTTCTGCTCCGAGCTGGAGCAGAGCGGCGTCGAGGACCTGCGCGGCGGTCCGCTGGACATCCCCGCCCTCCTCGCCGCCGGCGGCAAGCCGCTGGTCTTGATCAGCAGCTACCGCCTGACCCGCTCGAAAGCCCCGCATTGGATTCTGGTCACGGATTGCGACGAGGATTTCATTTATCTACATGACCCCGACGTCGACCACAGCCTGCATCGCCAACCCCTGGATTGCCAGCACGTGCCTGTCAGCCACGGGGAGTTCGAAAAAATGAGTCGCTTCGGCCGCAGCAAACTGCGCGCGGCCGTCGTGCTCTACAAGGGCGAACAGGAGCGTGACCAATCGCCCACTAAGAAATAG	MKLDLRPATSEDLSALVELENRCFEIDRLSRRNFQWMINRAHASLIVAEGDAGVLGYALVLFHQGTSLARLYSIAADPRARGIGLGQRLLDAAENAAREHDCAYLRLEVRPDNRTAIALYERNGYRPFATVSDYYEDHSEALRFEKRIHQLSASRRRLAPFYRQTTEFTCGPACLMMAMAALDSSYRMTRRDELRLWREATTIYMTAGHGGCSPHGLALAAWRRGFRVGLQVNVRGPLFLDGVRSEEKRAVMRVVHEDFCSELEQSGVEDLRGGPLDIPALLAAGGKPLVLISSYRLTRSKAPHWILVTDCDEDFIYLHDPDVDHSLHRQPLDCQHVPVSHGEFEKMSRFGRSKLRAAVVLYKGEQERDQSPTKK				NA	NA	NA	NA	NA
BMS010_09259	1875			hypothetical protein	ATGCGTATTCTTCGTCGCGCCCTTCTGTCGATCCTTCTGATCGTGCTGGCCGGGCTGGCCGTCGTGCTGTACTACGTCGCCAACCCCAATCTGCCCGCCTACCAGCGTCCCGAGCAGCTTCACTACCTGAACCAGTGGAGTCCGCAAGCCCGTCAGACCTACTACTACACGCCCCAGGGCACCCAGGTGAAAGGCCTGCGCTACGAGTGGTTCACCGCGCTCGAACTGCCCTTCTCCCGCGAGCGCTTCGCCACCCCGGAATACCTGGCGCGTTTCGGCTTCCTGATCGACCCCCAGCAGAAGCCCAGCGAAATGAACCCCGGCAACCTGCCGGTCGGTTTCGCCCGTCATCAGGATGACGAAACCGGGATCAATTACCTGGATGTCACCTGCTCGGCCTGCCATACCGGCGAGCTGCGCTACAACGGCCAGGCCGTGCGTATCGACGGCGGCTCCGCGCTGCACTCGCTGGCCTCCACCGTTCCGACCCTGCGCGGCGGCAGCTTCGGCCAGGCGCTGGGCATGAGCATGGCCTTCACTTACTACAACCCGCTGAAATTCAGGCGTTTCGCCGAGACGGTACTCGGCGATGACTATCCCGAGGGCAAGGACCAGCTGCGCACCGACTTCAAGGCGGTGCTGGACCGCCTGCTCGGCCAGGCCTGGAACGATACCCACCGGGGGCTCTACCCCACCGAGGAAGGCTTCGGCCGTACCGACGCCTTCGGCCGCATCGCCAATACCGTGTTCGGCGACGCCATCGATCCCGCCAACTACCGGGTCGCCAATGCACCGGTGAGCTACCCGCAGGTCTGGGATATCTGGAAATTCGACTGGGTGCAGTGGAACGGTTCGGCCATGCAGCCGATGGCACGCAACATCGGCGAGGCCCTGGGTGTCGGGGCCCCTCTGCGTCTGTTCGAAGAGAACGGCCACACCCTGCCGGTCGACCAGCGCTACCCGTCCGGGGTGCGTCTGAACGATCTCTACACCGTGGAAGAGACTCTCAAGCAGCTCAAGCCGCCGACCTGGCCGGAAGAGGTGCTCGGCAAGGTCGATCTGCGCCTGGCCAGCCAGGGCCGTGCCCTGTTCACGGAAAACTGCGCCTATTGCCACGCTCCCGATCCCAAGCCGGTCGAGGAGCGCCTCGCGCCGAGCCGCGACCCGGAATGGAAGATGCGCATCGTGCCGACACGCATCGTCGGCACCGACCCGACCACCGCCGACAACATCGCCGATCACCGTTTCGACATCCGCAAGCTGGGCTGGACCAAGGCCGAGCTGAGCAAGCTGGACGTCCATCTGTACGGCTCCAGCCTCGACGAAGTCGACTTCTCGAACATCTCCAGCGCCAAGGGCTTGGCCTATCTCACCGCCTACGTGGAAGACCGGGCCTACCGGGATGCCGGTATTTCCCCCGCGCGCCAGCAGGTCATGAACGGCTTCGGCATGGATATCGGCGTACAGGAAAAACGCGGCTACAAGGCGCGCCCCCTGCATGGAATCTGGGCAACGCCGCCATTCCTGCACAACGGCTCGGTGCCCAACCTGTTCCAGCTCCTCTCCCCGGTTTCCGAGCGCGCCAGCGAATTCTGGGTCGGCAGCTTCGAGTTCGATCCCAAGCAGGTGGGCTTCCGTACCGAGAAATTCGACGGCGGCTTCCTGTTCCGCACTTCGGTCACCGGCAATGGCAACGGCGGCCACGAATTCCGCGACGGCTGCCGCCAGGACGGGGTGATCGGACGCGCCTTGGCGCCCGAAGAGCGCTGGGCGCTGATCGAGTACCTCAAGGTGCTGGGTGACGAGCGCCTGGAGAATCAGTTGGAGTCGGTCGAGCCGAAACCCTGGAGCCCGGGACCGAACTGCCCGGGCTGA	MRILRRALLSILLIVLAGLAVVLYYVANPNLPAYQRPEQLHYLNQWSPQARQTYYYTPQGTQVKGLRYEWFTALELPFSRERFATPEYLARFGFLIDPQQKPSEMNPGNLPVGFARHQDDETGINYLDVTCSACHTGELRYNGQAVRIDGGSALHSLASTVPTLRGGSFGQALGMSMAFTYYNPLKFRRFAETVLGDDYPEGKDQLRTDFKAVLDRLLGQAWNDTHRGLYPTEEGFGRTDAFGRIANTVFGDAIDPANYRVANAPVSYPQVWDIWKFDWVQWNGSAMQPMARNIGEALGVGAPLRLFEENGHTLPVDQRYPSGVRLNDLYTVEETLKQLKPPTWPEEVLGKVDLRLASQGRALFTENCAYCHAPDPKPVEERLAPSRDPEWKMRIVPTRIVGTDPTTADNIADHRFDIRKLGWTKAELSKLDVHLYGSSLDEVDFSNISSAKGLAYLTAYVEDRAYRDAGISPARQQVMNGFGMDIGVQEKRGYKARPLHGIWATPPFLHNGSVPNLFQLLSPVSERASEFWVGSFEFDPKQVGFRTEKFDGGFLFRTSVTGNGNGGHEFRDGCRQDGVIGRALAPEERWALIEYLKVLGDERLENQLESVEPKPWSPGPNCPG				NA	NA	NA	NA	NA
BMS010_09260	1149			hypothetical protein	ATGCTCACACGCTTCTGGCTCTGGCTCGGCCGCCTGCTCGGCAAGCTCTTGCTGGTCCTGCTGCTCGTTGGCCTGCTCGGCTGGGGAGTCGGCGAAGCCTATTACAGTTGGAAATTCTCCGGCCCGGTGTCCGCCGAAGAACAGATTCCCCCGGGCGAAGCGGCCATGACCCGAGGCATCATCGAAGACGCCATCCGTATCGTCGAACAGCACCGCGACAATACCCGCGTCCTGCGCGATGCCCATGCCAAGGCCCATGGCTGCGTGAAGGCCGAGGTCCGGGTGCTGGACAATCTCGACCCGGACCTGCGCCACGGCGTGCTGAGCGAGCCCGGGAAGACCTGGCAGGCGTGGATGCGCCTGTCCAACGGCAACGCCTACCCGCAGTTCGACAACCTGCGCGATGCCCGCGGCATGGCCATCAAGCTGCTCGACGTACCCGGCGAGAAACTGCTGGCGCTCCCCGCCCACGCCGGCGAACAGGACTTCGTGATGTTCAACCATCCGGTGCTCTTCGTACGCGACGTGGCGGAATACAAGCAGAACTTCGCCGCCCAGGCCGACGGCAAGAAAGTCCTGGCGTTCTTCCCCGGCTGGGACCCGCGCACCTGGGAAATCCGCCACCTGATCATCGCCCTGAAGACCCTGGCACCGCCGCCGGACAGCCCGACCCTGGCGACCTACAACTCCATCGCCCCGTTCAAGCTCGGCCCGCACAACATCAAGTACCGTGTGGTTCCCGCACCGGAGAACTGCCCGGCCTATGAGCTGCCGAAGCAGAACACGGACCTGCCCAATTTCCTGCGCAACGCGCTCTACCAGCAACTCTCGCTGGACCGCGTGCCGGCCTGTTTCGCCCTCCAGATCCAGCGACAGAAGCCTGAGCACTACATGCCCATCGAGGACACCAGCGTGGAATGGGACGAAGCCCTTTCGCCCTTCGAGACCGTCGCCACCATCCAGGTGCCGGCGCAGGACTTCGATAGCCGCGAGCAGAACCTGTTCTGCGACAACCTCTCGTTCAACCCCTGGCACGCCTTGCCGGAGCATCGCCCGATCGGGGGCATCAACCGCCTGCGCAAGGCGGTGTACCAGGCCGTCAGTGTCTATCGGTACCAGCGGAACCAAGCCATCCCCAACCCGCCGTGA	MLTRFWLWLGRLLGKLLLVLLLVGLLGWGVGEAYYSWKFSGPVSAEEQIPPGEAAMTRGIIEDAIRIVEQHRDNTRVLRDAHAKAHGCVKAEVRVLDNLDPDLRHGVLSEPGKTWQAWMRLSNGNAYPQFDNLRDARGMAIKLLDVPGEKLLALPAHAGEQDFVMFNHPVLFVRDVAEYKQNFAAQADGKKVLAFFPGWDPRTWEIRHLIIALKTLAPPPDSPTLATYNSIAPFKLGPHNIKYRVVPAPENCPAYELPKQNTDLPNFLRNALYQQLSLDRVPACFALQIQRQKPEHYMPIEDTSVEWDEALSPFETVATIQVPAQDFDSREQNLFCDNLSFNPWHALPEHRPIGGINRLRKAVYQAVSVYRYQRNQAIPNPP				NA	NA	NA	NA	NA
BMS010_09261	258			hypothetical protein	TTGAACAGACTCCCTTTCGCCAAAGCGCTCGAGTTGATGAAGCTTCATTTCCATCCGTTCGGATTCGAAGCTACCCTTGAAACCCCTACCAGCCTCCTCGTCCGTGTCTTCGATCTGACTACCGGCGACACCCTGCTGACCGTGACGGGCATTCGCTGCTCGACGACACCCAGCCTGGACGATGTGGAACGCATCATCCGCACCGTCGAATCCGATCTCGAAGTCATTCTCGAAGACCGCTTCCCCCGCGCCATGTAA	MNRLPFAKALELMKLHFHPFGFEATLETPTSLLVRVFDLTTGDTLLTVTGIRCSTTPSLDDVERIIRTVESDLEVILEDRFPRAM				NA	NA	NA	NA	NA
BMS010_09262	270			hypothetical protein	ATGAACGCCCCGCTCCGTGTCAACGAAGCACTCTTGATTGCAGGCCGCGCTTTCCAACCGTTCCAGTGCGTGGCCTGGGCGCCGCAAGACGGCAACGGCGAACTCAACCTGAGCGTCATCGACCGCACCTGCAACCGCTTGCTGGGCCGCAACCGGATCTCCCGCAGCATCTATTCCGACCCGCAACGCCTGGCCGAAATCCTTCGGGAAGCCCGCCAGGAGCTGTGCCAGGAAGGCTTCAGCCTCGCTCCCTGGCAGATGCCCGAGTAA	MNAPLRVNEALLIAGRAFQPFQCVAWAPQDGNGELNLSVIDRTCNRLLGRNRISRSIYSDPQRLAEILREARQELCQEGFSLAPWQMPE				NA	NA	NA	NA	NA
BMS010_09263	285			hypothetical protein	ATGAAAGGTGCCGAAGCCTATGTGAACGACCAGTGGCAGACTTGCGGCCTGAACGATCTGCCTCAAGGCCCCGGACCGCTGGACGTCACCCTGCATTTCGCCATTCCTGGCGACACTCAGTTCACCGGCCTGCTCAACCACATCTGCGAAGTCGCCGAGCGCCACCTGTGCGAGGCCTATCCGGGACGCAGCGTGCATCACCAACCCATTGTCGGCTCGGTCGTCGGCGATGGCAGTGGCAACGGCATCGTGCTCCATTACCGGATCGGCCCTGCCGCCGAGTGA	MKGAEAYVNDQWQTCGLNDLPQGPGPLDVTLHFAIPGDTQFTGLLNHICEVAERHLCEAYPGRSVHHQPIVGSVVGDGSGNGIVLHYRIGPAAE				NA	NA	NA	NA	NA
BMS010_09264	297			hypothetical protein	ATGGCAACCCCTTCTTTCACCCTCGACGAGGCCATGAGCATCGCCAGCCAGGCATTCCTGCCGTATCGCTGCGTGACGTTGCCGCATGCCGAGGATGCGAGTTTCGCCATGCGCATTCACGATGATGCCGACCGGGAAATCCTCTCGGTTCCGCACGTGGCCCGCTCGCAGTACTCCGACCCGGTTCGCCTGGCCGGCATGCTGGAGCAGGCGCGACTCGACCTGAGCAAGGACGGCTACAGCCTGCTGCCCTGGTCCATGCCCTTCCAGCCGGACCTGGTCTTCGTCAATCACTGA	MATPSFTLDEAMSIASQAFLPYRCVTLPHAEDASFAMRIHDDADREILSVPHVARSQYSDPVRLAGMLEQARLDLSKDGYSLLPWSMPFQPDLVFVNH				NA	NA	NA	NA	NA
BMS010_09265	210			hypothetical protein	ATGCTTGGTGATCACTCCGAACTGCTGCAGCACCTCAACACCGCACGCAAGCATGCCGATCAGGCAGAAACCCAGAACAATCCCGCGCTGTATCGGGAGGCCATCGATGAACTGGTGGTGGCTGTAGAGCTGTTGGCGCGCAACACGCCGGAACTGGAGGGCGAAATCCGCAAGGCCGCTTCCGAGCCGGAACTCCCCGCCTTCAAATAG	MLGDHSELLQHLNTARKHADQAETQNNPALYREAIDELVVAVELLARNTPELEGEIRKAASEPELPAFK				NA	NA	NA	NA	NA
BMS010_09266	1098			hypothetical protein	ATGCGCTTCGACAGCGATGCTGCGACACCGGCCCTCCGCGGCCCTCTTCCCACTGAAACGGAAGAGCCGGAGGCCCCCTCCGATCCCCTCTTGCCACCGGACCTCCACTACGTCGACGACAGCCAGCCCGGCATTCGCCGGCGTTCGTTGCGCGGCCGGTTCATCTATGTCGATGCTCGAGGAGAGCGCATCCGCGATGCCGACGAGATCCGCCGGATCGAGCGCCTGGCGATTCCCCCGGCCTACCGCGACGTCTGGATCTGCAGCGATCCGCAAGGCCACCTGCAAGCCACCGGCCGCGATGCGCGCGGCCGCAAGCAGTACCGCTACCACCCGCGCTGGCGGGAAATCCGCGACGCCAACAAGTATGGGCGGATGCTCCAGTTCGGCCACAGCCTGCCGGCCCTGCGCGCACAGATCGAAAAGCACCTGGCCCTGCGCAGCCTGTGCCGGGAAAAAATCATGGCCACGGTGGTCGCGCTGCTCGATGCCACGCTGATCCGCATCGGCAATCCGCAGTACGCCCGCGACAACCGTTCCTACGGCCTGACCACCCTGCGCAACCGCCATGTCGAGGTGAAAGGCGCCTCCATTCACTTCCGCTTCCGCGGCAAGAGCGGCGTCGAACACCGCCTCCGCCTCGATCACCTGCGACTGGCGCGGGTCATGCGGCGCTGTCGGGAGCTGCCCGGCCAGCACCTGTTCCAGTACCTGGACGATCAGGGAGAGCGCCACGCGGTGACATCCACCGACGTCAACGCCTACCTGCGGGAAATCAGCGGCGCCGACTTCACCGCCAAGGATTACCGAACCTGGGCCGGCAGCGCCCTGGCACTGGCCCGGCTCCGTGAGCAACCCTGGGAGCCTGAAAGCGAGGCGCGGAAGAATCTGGTGGAGACGGTCAAGGTGGTGGCCAAGACCCTCGGCAACACCCCGGCCGTCTGCCGTAAATGCTATATCCATCCCAACCTGCTGGACGCCTTCGGCCGAGGCGAACTGGCCCGTCTGCCGAAAGCGCGCAAGCGCAAATGGCTGAGCGCCGAGGAAGTCGCCCTGCTGCGCTTCCTCGAACGGCACGTTGAGGCTCAGAGCAACTGA	MRFDSDAATPALRGPLPTETEEPEAPSDPLLPPDLHYVDDSQPGIRRRSLRGRFIYVDARGERIRDADEIRRIERLAIPPAYRDVWICSDPQGHLQATGRDARGRKQYRYHPRWREIRDANKYGRMLQFGHSLPALRAQIEKHLALRSLCREKIMATVVALLDATLIRIGNPQYARDNRSYGLTTLRNRHVEVKGASIHFRFRGKSGVEHRLRLDHLRLARVMRRCRELPGQHLFQYLDDQGERHAVTSTDVNAYLREISGADFTAKDYRTWAGSALALARLREQPWEPESEARKNLVETVKVVAKTLGNTPAVCRKCYIHPNLLDAFGRGELARLPKARKRKWLSAEEVALLRFLERHVEAQSN				NA	NA	NA	NA	NA
BMS010_09267	1401			hypothetical protein	ATGCCTGCTGCCAAGCCGTTCCGCTTGTCCGCTTTCGTTCTGCCGTTGCTGCTGCTTCCGTTCGCGTCGCTACGCGCCGAACCGGGGGACTACAGCGTCTGGCAAACGATGATCAACCTGGTCTCGCCCCCGGCGGCGGACAGCCCGGTCACGCCGGCGCAACGGCTCGGGCCATATCCGCTGCTGGCCAACCCCGCCGGTTTCGACAGCGGCTTCCGCCCGGGCAGCTACTACGCCTGGCAGACCGTCCAACTGGCGCCGCAGACCGGCGCGGTCTGCGGCAACGGCTCACCCTACAAGTTCTTCGTCAACCGCGTGCCGAACACACGCAACACCATCATCTATCTGGAGGGCGGCGGCGCCTGCTGGGACTACCCCAGCTGCAGCGGGCAGGGCGGTATCCGCGGTGCGCGCAACCCGAACGGCATTCCCGACGACTACATGGCCCTGCTGAATCCGGGCGCCAGCCTGGTCAGCCCCTTCGTCGTGCGCCTGCATCCCTGGACCCGGGTAAAGACACAGAACTGGAACATGGTCTATGTGCCTTACTGCACTGGGGACATCTATTCCGGCGACCGCGTGGCGATCTACCAGGACCCGCAGAACCCGGAGCAGCAGCCTCTGGTCTGGCATCACAACGGGTTGCGCAACGTGCGCGCGGTGGTCGGCTGGCTGAAGGACAACCTGCAGCGTCCGACCCAGATGCTCACCACCGGGTGCAGCGCCGGCGGAGCGGGCAGCCTGACCAACCATGCGGCGATCCGCCAGGACATCGCGCCGGACCGCGGCTTTCTCATCGACGATTCCGGTCCGGTGTTCAGCGCCATCGCCGGCGGCAATCCACAGGACTATCCATCGCTGCCGCTGCAGGGCTTCATTCGCCAGGCCTGGGGACTGGACGCCGGACCGCTGCCCTACTTGCAGAGCCGCCTGCCGGGGTTGAACCCCAATGACCTCGGCACCCTGTATCCAGCGCTGTCGGCCAACCTGCCGGGGGACCGCATGGGGCACACCCATTTCTGGAAGGACCTGAACTATTCGTCCTACTCCTACGAGCGCTTCTATCCCGACATCATCAACGCGCCGGACCAGGCAACGAAGCACGCGCTGATCCATGCCCGCTGGGACGTGGACACCGGTCGGCTGCGCAACGAACTGGCCAACCTGAGCAACTTCGGCGGCTACTTCCCGCAGTACCGGGCGGTCAACGAAAGCCACTGCACCAGCATCATCGAGTTCGCCAATGCGGATATCCAGGAGCAGAACCTGGAGCTGGATGATTTCGTCAGCAGCGTGCTCAATGGCAGCGGCCCGGTGTTGGATGCTTCCGAAACCAGCGATCAGGCCGACCGGCAGAAGCCGTTCAACCTGCTGTATTACGCGCTGGATCAGTTGCTCTGA	MPAAKPFRLSAFVLPLLLLPFASLRAEPGDYSVWQTMINLVSPPAADSPVTPAQRLGPYPLLANPAGFDSGFRPGSYYAWQTVQLAPQTGAVCGNGSPYKFFVNRVPNTRNTIIYLEGGGACWDYPSCSGQGGIRGARNPNGIPDDYMALLNPGASLVSPFVVRLHPWTRVKTQNWNMVYVPYCTGDIYSGDRVAIYQDPQNPEQQPLVWHHNGLRNVRAVVGWLKDNLQRPTQMLTTGCSAGGAGSLTNHAAIRQDIAPDRGFLIDDSGPVFSAIAGGNPQDYPSLPLQGFIRQAWGLDAGPLPYLQSRLPGLNPNDLGTLYPALSANLPGDRMGHTHFWKDLNYSSYSYERFYPDIINAPDQATKHALIHARWDVDTGRLRNELANLSNFGGYFPQYRAVNESHCTSIIEFANADIQEQNLELDDFVSSVLNGSGPVLDASETSDQADRQKPFNLLYYALDQLL				NA	NA	NA	NA	NA
BMS010_09268	411	ndhC_2		NAD(P)H-quinone oxidoreductase subunit 3, chloroplastic	ATGCCTGATGTGGCCAGTTTGTCCCATCACTGGGGCTTTGCAGTTTTTCTTCTGGGGGTCTTCGGCCTCTGTGCGTTCATGCTCGGCGTCTCCAGCCTGCTGGGCAGCAAGGCCTTCGGCCGCAGCAAGAACGCCCCCTTCGAATCCGGGATCGTTCCCACCGGCGGCGCCCGCCTGCGCCTGTCGGCCAAGTTCTACTTGGTCGCGATGCTGTTCGTGATCTTCGACGTGGAAGCCCTGTTTCTCTTCGCCTGGGCCGTTTCCGTACGGGAAAGCGGCTGGGCCGGCCTCATCGAGGCAAGCATTTTCATAGCCATTCTGCTGGCGGGTCTTGTCTATCTCTGGCGCATCGGAGCCCTCGACTGGTCTCCCGAGTCGCGCCGCAGACGGCAGGCGAAGCTCAAACCTTGA	MPDVASLSHHWGFAVFLLGVFGLCAFMLGVSSLLGSKAFGRSKNAPFESGIVPTGGARLRLSAKFYLVAMLFVIFDVEALFLFAWAVSVRESGWAGLIEASIFIAILLAGLVYLWRIGALDWSPESRRRRQAKLKP	PGPT0026780_682	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026780-nuoA-K00330	NA	NA
BMS010_09269	675	nuoB_2	COG0377	NADH-quinone oxidoreductase subunit B	ATGCAATACAAACTCACCAGGATCGATCCGAACGCAGCCAACGCGCAGTACCCGATCGGTGAACGGGAGACCGTGCCCGACCCGCTGGAAAGCCAGGTCCACCGCAACGTGTTCATGGGCAAGCTGGAAGAGGTGCTGCACGGCGCGGTGAACTGGGGGCGCAAGAATTCCCTGTGGCCGTACAACTTCGGCCTATCCTGCTGCTACGTGGAAATGACCACGGCGTTCACCGCTCCCCACGATATCGCCCGCTTCGGCGCCGAGGTGATCCGCGCCTCACCGCGCCAGGCCGATTTCATGGTCATCGCCGGCACCTGCTTCATCAAGATGGCGCCGGTCATCCAGCGCCTCTACGAGCAGATGCTGGAACCCAAGTGGGTGATCTCCATGGGCTCGTGCGCCAATTCCGGCGGCATGTACGACATCTACTCGGTGGTCCAGGGGGTCGACAAGTTCCTCCCGGTGGACGTTTACGTGCCCGGCTGTCCGCCCCGCCCGGAAGCCTTCCTGCAGGGGCTGATGCTGCTGCAGGAATCGATCGGCGAGGAACGCCGGCCGCTGTCCTGGGTGGTCGGGGACCAGGGCATCTACCGCGCCGAAATGCCGTCGCAACGCGAGCAGCGGCGCGAGCAGAGGATCAAGGTCACCCAGTTGCGCAGCCCCGACGAAGTCTGA	MQYKLTRIDPNAANAQYPIGERETVPDPLESQVHRNVFMGKLEEVLHGAVNWGRKNSLWPYNFGLSCCYVEMTTAFTAPHDIARFGAEVIRASPRQADFMVIAGTCFIKMAPVIQRLYEQMLEPKWVISMGSCANSGGMYDIYSVVQGVDKFLPVDVYVPGCPPRPEAFLQGLMLLQESIGEERRPLSWVVGDQGIYRAEMPSQREQRREQRIKVTQLRSPDEV	PGPT0026785_326	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026785-nuoB-K00331	NA	NA
BMS010_09270	1782	nuoC	COG0649	NADH-quinone oxidoreductase subunit C/D	ATGACGTCTAGCAGCGCATTGCACACACCGCCGTACCCAGCCTCGCCGCCCGACGTGGTGGCCGAGCTGAGCGCCCGTTTCGGCGCCGAGGCCTTCACCGTGCAGGCCACCCGCACCGGCATGCCGGTGCTCTGGGTGCCGCGCGAACAGTTGATCGAGGTACTGCGCTTCCTCCGCCAATTGCCGCAGCCCTACGTCATGCTCTACGACCTGCACGGTGTCGACGAGCGCCTACGCACCCAGCGCCGGGGGCTGCCCGAGGCGGACTTCAGCGTCTTCTACCACCTGCTCTCGGTGGAACGGAACAGTGACGTGATGATCAAGGTTGCCCTCGCCGAGAGCGACCTTTCACTGCCCAGCGCCACGGCCATCTGGCCCAACGCCAACTGGTACGAGCGGGAAGTCTGGGACATGTACGGCATCCGCTTCGACGGCCATCCGCACCTGGTCCGCATGCTGATGCCGCCGACCTGGGAAGGCCATCCGTTGCGCAAGGACTACCCGGCGCGCGCCACCGAGTTCGATCCCTACAGCCTGTCCGCCGCCAAGCAGGACCTGGAGCAGGAAGCCCTGCGCTTCAAGCCGGAAGACTGGGGCATGCAGCGCCATCGCGAGCATGAGGACTTCATGTTCCTCAACCTGGGCCCGAACCACCCCTCCGCCCACGGCGCCTTTCGCATCATCCTGCAACTGGACGGCGAGGAGATCGTCGATTGCGTGCCGGAAATCGGCTACCACCATCGCGGCGCCGAGAAAATGGCCGAGCGCCAGTCCTGGCACAGCTTCATCCCCTACACCGACCGCATCGACTACCTCGGCGGGGTGATGAACAACCTACCCTACGTGCTGGCAGTGGAGAAGCTCGCCGGCATCAAGGTGCCGAGCCGGGTCGACTTCATCCGCGTGATGATGGCCGAGCTCTTCCGCATCCTGAATCACCTGCTGTACCTGGGTACCTACATCCAGGACGTCGGCGCCATGACGCCGGTGTTCTTCACCTTCACCGATCGCCAGCGCGCCTACCAGGTGGTCGAGGCCATTACCGGCTTCCGCATGCACCCGGCCTGGTTCCGCATCGGCGGTGTAGCCCACGACCTGCCGCGCGGCTGGGACCGGCTGGTGCGCGAGTTCCTCGACTGGATGCCCAAGCGCCTGGCCGAGTATGAGAAGGCCGCGCTGAAGAACAGCATCCTGCGCGGCCGGACCATCGGCGTAGCCCGCTACAACACCCAGCAGGCCCTGGAATGGGGCGTCACCGGCGCCGGCCTGCGCGCCACCGGCTTCGACTATGACATCCGCAAGGTCCGCCCCTACTCCGGCTACGAGCACTTCGAATTCGAGGTGCCCCTGGCCGCCAATGGCGATGCCTACGACCGCTGCCTGGTGAAAGTCGGCGAGATGCGCGAAAGCCTGCGCATCATCGAGCAGTGCCTGAACAACATGCCCGAGGGCCCGTTCAAAGCCGACCACCCGCTGACCACTCCGCCACCGCGCGAACGCATGCTGGAGCACATCGAGACCCTGATCACCCACTTCCTGCAGGTCTCCTGGGGTCCGGTGATGCCAGCCAACGAAGCCTTCCAGATGATCGAGGCGACCAAGGGCATCAACAGCTACTACCTGATCAGCGACGGTAGCACTATGAGCTACCGCACGCGCATCCGCACGCCCAGCTTCCCGCACCTGCAACAGATTCCCGCGGTGATCCGCGGCAGCATGGTGTCGGACCTTATCGCCTACCTGGGCAGCATCGATTTCGTAATGGCCGACGTGGACCGCTGA	MTSSSALHTPPYPASPPDVVAELSARFGAEAFTVQATRTGMPVLWVPREQLIEVLRFLRQLPQPYVMLYDLHGVDERLRTQRRGLPEADFSVFYHLLSVERNSDVMIKVALAESDLSLPSATAIWPNANWYEREVWDMYGIRFDGHPHLVRMLMPPTWEGHPLRKDYPARATEFDPYSLSAAKQDLEQEALRFKPEDWGMQRHREHEDFMFLNLGPNHPSAHGAFRIILQLDGEEIVDCVPEIGYHHRGAEKMAERQSWHSFIPYTDRIDYLGGVMNNLPYVLAVEKLAGIKVPSRVDFIRVMMAELFRILNHLLYLGTYIQDVGAMTPVFFTFTDRQRAYQVVEAITGFRMHPAWFRIGGVAHDLPRGWDRLVREFLDWMPKRLAEYEKAALKNSILRGRTIGVARYNTQQALEWGVTGAGLRATGFDYDIRKVRPYSGYEHFEFEVPLAANGDAYDRCLVKVGEMRESLRIIEQCLNNMPEGPFKADHPLTTPPPRERMLEHIETLITHFLQVSWGPVMPANEAFQMIEATKGINSYYLISDGSTMSYRTRIRTPSFPHLQQIPAVIRGSMVSDLIAYLGSIDFVMADVDR	PGPT0026795_382	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026795-nuoCD-K13378	NA	NA
BMS010_09271	501	nuoE_2	COG1905	NADH-quinone oxidoreductase subunit E	ATGAGCCAGAACAGCCTGATCCAGACCGACCGCTTCACCCTCAGCGCCGCCGAGCGCGCGGCCATTGTGGCCGAGATGCACCATTACGAGGATGCCCGCGCGGCGTCCATCGAGGCGCTGAAGATCGTCCAGCAACAGCGCGGCTGGGTGCCGGATGGTGCCATTCCGGCCGTGGCCGAGGTGCTGGGTATCCCGGCCAGCGACGTCGAGGGCGTCGCCACCTTCTACAGCCAGATCTTCCGCCAGCCGGTGGGCCGCCATGTCATCCGACTGTGCGACAGCATGGTCTGCTACATCAACGGCCACGAGACGATCCAGGCCGCGCTGGAGAAAGAGCTTGGCATCGGCCTCGGCCAGACCACGCCCGACGGTCGCTTCACCCTGCTGCCGGTGTGCTGCCTGGGCAACTGCGACAAGAGCCCGACGCTGATGGTGGACGACGACACCCACAGCCATCTGGACGCCTCGGCCATCGCCCGGCTGCTGGAGGCCTACCCATGA	MSQNSLIQTDRFTLSAAERAAIVAEMHHYEDARAASIEALKIVQQQRGWVPDGAIPAVAEVLGIPASDVEGVATFYSQIFRQPVGRHVIRLCDSMVCYINGHETIQAALEKELGIGLGQTTPDGRFTLLPVCCLGNCDKSPTLMVDDDTHSHLDASAIARLLEAYP	PGPT0026810_1888	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026810-nuoE-K00334	NA	NA
BMS010_09272	1326	nuoF	COG1894	NADH-quinone oxidoreductase subunit F	ATGAGCTGCGTGTCCTTCTCCACGGCCAACCGGGTGCCGCGCAGCGCGGAAACCCATCCGCTGACCTGGCGCCTGCGCGACGACGGTGAACCGGTCTGGCTGGACGAGTACCAGGCGCGGGACGGTTACAGTGCCGCGCGCAAGGCGCTGACCACCCAGAACCCGGACGAGATCGTCCAGCAGGTCAAGGACGCGGGGCTCAAGGGCCGGGGCGGCGCCGGCTTCCCCACCGGGGTGAAGTGGGGGCTGATGCCCAAGGACGAATCGCTGAACCTGCGTTACCTGTTGTGCAACGCCGACGAAATGGAGCCGAACACCTACAAGGACCGGCTGCTGATGGAGCAACTGCCGCACCTGCTGATCGAGGGCATGCTGATCAGCGCGCGGGCGCTCAAGGCCTACCGTGGCTACATCTTCCTGCGCGGCGAATACGTCGACGCGGCGCGCACCCTCCGCCGGGCGGTGGAAGAAGCCCGGGCGGCGGGCTTATTGGGGCGTAACATTCTCGGCTCGGGTTTCGACTTCGAGCTGTTCGTGCACACCGGGGCCGGACGCTACATCTGCGGCGAGGAGACCGCGCTGATCAACTCCCTCGAAGGGCGCCGCGCCAATCCGCGCTCCAAGCCGCCGTTCCCCGCCGCCGTCGGCGTCTGGGGCAAGCCGACCTGCGTGAACAACGTGGAAACCCTGTGCAACGTGCCGGCGATCATCGGCAACGGGGTGGACTGGTACAAGGCCCTCGCCCGGCCCGGCAGCGAAGACATGGGCACCAAGCTGATGGGATTCTCCGGCAAGGTGAAGAACCCCGGCCTGTGGGAGCTGCCGTTCGGAATCAGCGCCCGCGAACTGTTCGAGGAATACGCCGGCGGCATGCGCGACGGCTATCGCCTGAAAGCCTGGCAACCCGGCGGGGCCGGCACCGGCTTCCTGCTGCCGGGGCATCTGGACACTCCGCTCTACGCAGCCGGCGTCGCCAAGGTCGGCACCCGCATGGGTACCGGGCTGGCCATGGCGGTGGACGAGACGGTCAACATGGTCGGCCTGCTGCGCAACATGGAGGAATTCTTCTCCCGAGAGTCCTGCGGCTTCTGCACGCCCTGCCGCGACGGGCTGCCGTGGAGCGTGAAGCTGTTGCGCGCACTGGAGCGCGGCGAAGGCCAGCCCGGTGACATCGAGATTCTGGAGCAGCTGTGCGACTTCCTCGGCCCCGGCAAGACCTTTTGCGCCCACGCACCGGGCGCGGTGGAGCCGCTGGCCAGTGCGATCAAGTATTTCCGACCGGAGTTCGAAGCCGGCATCGCCCGGCTGGAGGCGGTCGGCGTGTAA	MSCVSFSTANRVPRSAETHPLTWRLRDDGEPVWLDEYQARDGYSAARKALTTQNPDEIVQQVKDAGLKGRGGAGFPTGVKWGLMPKDESLNLRYLLCNADEMEPNTYKDRLLMEQLPHLLIEGMLISARALKAYRGYIFLRGEYVDAARTLRRAVEEARAAGLLGRNILGSGFDFELFVHTGAGRYICGEETALINSLEGRRANPRSKPPFPAAVGVWGKPTCVNNVETLCNVPAIIGNGVDWYKALARPGSEDMGTKLMGFSGKVKNPGLWELPFGISARELFEEYAGGMRDGYRLKAWQPGGAGTGFLLPGHLDTPLYAAGVAKVGTRMGTGLAMAVDETVNMVGLLRNMEEFFSRESCGFCTPCRDGLPWSVKLLRALERGEGQPGDIEILEQLCDFLGPGKTFCAHAPGAVEPLASAIKYFRPEFEAGIARLEAVGV	PGPT0026815_1122	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026815-nuoF-K00335	NA	NA
BMS010_09273	2706	nuoG	COG1034	NADH-quinone oxidoreductase subunit G	ATGGCCACGATCCACGTAGACGGTAAATCGTTCGAAGTCGACGGAGCGGACAACCTGCTGCAGGCCTGCCTGTCGCTGGGGCTGGACATCCCCTACTTCTGCTGGCACCCGGCGCTGGGCAGCGTGGGCGCCTGCCGTCAGTGCGCGGTCAAGCAGTTCAGCGACGAGAACGACAAGCGCGGCCGCCTGGTGATGTCCTGCATGACCCCGGCCAGCGACAACACCTGGATCTCCATCGACGACGAAGAGGCCAAAGCCTTCCGCGCCAGCGTGGTGGAGTGGCTGATGACCAACCACCCACACGACTGTCCGGTATGCGAGGAAGGCGGCCACTGCCACCTGCAGGACGTCACCGTGATGACCGGCCACAACCGCCGGCGCTACCGCTTCGCCAAGCGCACCCACGAGAACCAGGACCTCGGACCCTTCATCGCCCACGAGATGAACCGCTGCATCGCCTGCTACCGCTGCGTGCGCTACTACAAGGACTACGCCGGCGGCACCGATCTCGGCGTGTTCGGCGCCCACGAGAACGTCTACTTCGGCCGGATCGAGGATGGCGTGCTGGAAAGCGAGTTCTCCGGCAACCTCACCGAGGTCTGCCCGACCGGTGTGTTCACCGATAAGACCCATTCCGAACGCTACAACCGCAAGTGGGACATGCAGTTCGCCCCGAGCATCTGCCACGGCTGCTCGTCCGGCTGCAACATCAGTCCCGGCGAGCGCTACGGCGAGCTGCGCCGCATCGAGAACCGCTACAACGGCTCGGTGAACCACTACTTCCTCTGTGACCGCGGCCGCTTCAGCTACGGCTACGTCAACCGCCGCGACCGCCCGCGCCAGCCGCTGCTCGATGGCCACACCCTGGGGCTCGACGCGGCGGTGGACAAGGCGGCCGAGCTGCTTGCCGGCAAGCGGGTGATCGGCATCGGCTCGCCACGCGCCAGCCTGGAAAGCAACTTCGCCCTGCGCGAACTGGTCGGCGAAGCGAATTTCTCCTGTGGTATCGGCGCTGCCGAACTTGAACTCCTGCGACTGACCCTCGACGTCCAGCGCAACAGCCCGCTGCCTATCGCCTCAATCCGTGAAATGGAGGACCACGACGCCGTCTTCGTACTCGGCGAAGACCTGACCCAGACCGCCGCGCGCATCGCCCTGGCCCTGCGCCAGACGGTAAAGGGCAAGGCCGAGGCCATGGCCGCCGCGATGAAGCTGCAGCCCTGGCTGAACGCGGCGGTGCAGAACATCGGCCAGCACGCCTTGTACCCGTTGTTCATCGCCAGCCTGGCCGCAACCCGCCTCGACGACGTGGCCGAGGAATGCGTGCACGCCGCGCCGGAGGACCTCGCCCGCCTCGGCTTCGCCGTGGCCCATGCGCTGGACGATCAGGCTCCGGTAGTGACTGGCCTGGAGCCGGAAGCCGAAGCGCTGGCCCGACGTATCGCCGATACCTTGCTGGCGGCGCAACGGCCGCTGCTGGTCTCGGGCATGTCCCTCGGCAGTGCGGCGCTCATCGAGGCTACCGCCAACATCGCCAAAGCCCTGCACCGGCGCGGCAAGGCGGGCTCGATCAGCCTGGTCGTCCCAGAAGCCAACAGCCTGGGGCTGGCCCTGCTCGGTGGCGTCTCGCTGGACGAAGCCTTGCAACGTTTGAGCGATGGCCATGCCGATGCCTTGGTGGTGCTGGAAAACGACCTGTACCGGCGTGCCGGTCAGGCCCAGGTGGACGCTGCCCTGCAAGCGACTCGCACGCTGATCGTGGCCGATCACCAGCGCACTCCCACCGCAGAGCGTGCCCACCTGCTGCTATCGGCTGCCAGCTTCGCCGAAGGCGATGGCACCCTGGTTAGCCAGGAGGGCCGCGCGCAACGCTTCTTTCAGGTGTTCGATCCGGCCTACTACGACGCCGGCAACCTGATCCGGGAAAGCTGGCGCTGGTTCCACGCCGTGCACAGTACGCTGCAAGGCAAGCCAGTCGACTGGACCCAGCTCGACCAGGTCACCGATGCCTGCGCCAGTGCGCTACCGGCCCTGGCCGGCATTCGTGACGCGGCGCCCAAGGCCAGCTTCCGCATCCGCGGCCTCAAGCTGGCGCGCGAACCGCACCGCTACAGCGGCCGCACCGCCATGCGCGCCAATATCAGCGTGCACGAGCCGCGCACACCGCAGGACAGCGACACGCCCTTCGCCTTCTCCATGGAGGGCTACGCCGGCGCCGCGCTGCCGCGCCAGCAGATCCCGTTTGCCTGGGCGCCGGGCTGGAACTCGCCGCAGGCCTGGAACAAGTTCCAGGACGAGGTGGGCGGTCACCTGCGCGCCGGCGATCCGGGGATACGCCTGATCGAGCCCCAGGGCGATGGCCTCGGCTGGTTCACCGCGCCGGCCGCCTTCGAACCCCAGCCCGGCCGCTGGCGGGTGGTCCCGCTCCATCACCTGTTCGGCAGCGAGGAAACCTCCGCACGTGCCGCGCCGATCCGGGAGCGCATGTGCGCAGCCTATGTGGCGTTGTCCGAAGCCGATGCAGCCCGCCTTGGCGTGAACGACGGCGCCTGGCTCAGTCTGACCCTCGACGGCCGGACGCTGCGCCTGCCGCTACGCATCAGCCAGGAACTGAGCGAGGGGCTGGTCGGACTGCCTGCCGGCTTCGACGGCATTCCGCCTCTCGCCGGCCAATGGGCAGCCGACCTGCAGGAGGCTGCGCAATGA	MATIHVDGKSFEVDGADNLLQACLSLGLDIPYFCWHPALGSVGACRQCAVKQFSDENDKRGRLVMSCMTPASDNTWISIDDEEAKAFRASVVEWLMTNHPHDCPVCEEGGHCHLQDVTVMTGHNRRRYRFAKRTHENQDLGPFIAHEMNRCIACYRCVRYYKDYAGGTDLGVFGAHENVYFGRIEDGVLESEFSGNLTEVCPTGVFTDKTHSERYNRKWDMQFAPSICHGCSSGCNISPGERYGELRRIENRYNGSVNHYFLCDRGRFSYGYVNRRDRPRQPLLDGHTLGLDAAVDKAAELLAGKRVIGIGSPRASLESNFALRELVGEANFSCGIGAAELELLRLTLDVQRNSPLPIASIREMEDHDAVFVLGEDLTQTAARIALALRQTVKGKAEAMAAAMKLQPWLNAAVQNIGQHALYPLFIASLAATRLDDVAEECVHAAPEDLARLGFAVAHALDDQAPVVTGLEPEAEALARRIADTLLAAQRPLLVSGMSLGSAALIEATANIAKALHRRGKAGSISLVVPEANSLGLALLGGVSLDEALQRLSDGHADALVVLENDLYRRAGQAQVDAALQATRTLIVADHQRTPTAERAHLLLSAASFAEGDGTLVSQEGRAQRFFQVFDPAYYDAGNLIRESWRWFHAVHSTLQGKPVDWTQLDQVTDACASALPALAGIRDAAPKASFRIRGLKLAREPHRYSGRTAMRANISVHEPRTPQDSDTPFAFSMEGYAGAALPRQQIPFAWAPGWNSPQAWNKFQDEVGGHLRAGDPGIRLIEPQGDGLGWFTAPAAFEPQPGRWRVVPLHHLFGSEETSARAAPIRERMCAAYVALSEADAARLGVNDGAWLSLTLDGRTLRLPLRISQELSEGLVGLPAGFDGIPPLAGQWAADLQEAAQ	PGPT0026820_549	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026820-nuoG-K00336	NA	NA
BMS010_09274	990	nuoH_2	COG1005	NADH-quinone oxidoreductase subunit H	ATGAGCTGGCTGACTGCTGATGTCGTCGCCGTGCTGGTGGCCGTGCTCAAGGCCATCGCCATCCTGCTGGTGGTGGTGGTCACCGGCGCTCTGCTGAGCTGGGTGGAGCGACGCCTGCTCGGGCTCTGGCAGGACCGCTATGGGCCCAACCGGGTCGGTCCGTTCGGTGCCTTCCAACTCGGTGCGGACATGATCAAGATGTTCTTCAAGGAGGACTGGACGCCGCCGTTCGCCGACCGACTGATCTTCACCCTGGCCCCCATCGTCGCCATGAGCGCGCTGCTGATCGCCTTCGCCGTGGTACCGGTGACGCCGACCTGGGGCGTCGCCGACCTGAACATCGGTCTGCTGTTCTTTTTCGGCATGGCCGGACTGGCGGTCTACGCGGTGCTCTTCGCCGGCTGGTCGAGCAACAACAAGTTCGCCCTGCTCGGCGCCTTACGCGCTTCGGCGCAGACACTCTCCTACGAGGTATTCATGGGCCTGGCGCTGATGGGCGTGGTGGCCCAGGCCGGCTCCTTCAATATGCGCGACATCGTCCAGGCCCAGGCGGATGGCGTGTGGTTCATCATTCCGCAGTTCCTCGGCTTCGCCACCTTCTTCATCGCCGGCGTCGCGGTGACCCACCGTCACCCGTTCGACCAGCCGGAAGCGGAGCAGGAGCTGGCCGACGGGTATCACATCGAATACGCCGGCATGAAATGGGGCATGTTCTTCGTCGGCGAGTACATCGGCATCGTGCTCATCTCGGCGCTGCTGGTGACCTTGTTCTTCGGCGGCTGGCACGGACCGTTCGGCCTCCTGCCCTCGCTGTCCTTCGTTTGGTTCGCGCTGAAGACGGCGTTTTTCATCATGCTGTTCATCCTGCTGCGCGCCTCGGTGCCGCGGCCGCGCTACGACCAGGTGATGGCGTTCAGCTGGAAGGTTTGCCTGCCGCTGACCCTGATCAATCTGCTGGTGACCGGCGCCTTCGTGCTGGCTGCCCGCTGA	MSWLTADVVAVLVAVLKAIAILLVVVVTGALLSWVERRLLGLWQDRYGPNRVGPFGAFQLGADMIKMFFKEDWTPPFADRLIFTLAPIVAMSALLIAFAVVPVTPTWGVADLNIGLLFFFGMAGLAVYAVLFAGWSSNNKFALLGALRASAQTLSYEVFMGLALMGVVAQAGSFNMRDIVQAQADGVWFIIPQFLGFATFFIAGVAVTHRHPFDQPEAEQELADGYHIEYAGMKWGMFFVGEYIGIVLISALLVTLFFGGWHGPFGLLPSLSFVWFALKTAFFIMLFILLRASVPRPRYDQVMAFSWKVCLPLTLINLLVTGAFVLAAR	PGPT0026825_2769	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026825-nuoH-K00337	NA	NA
BMS010_09275	546	nuoI_2	COG1143	NADH-quinone oxidoreductase subunit I	ATGAAAGAAATCCTGCATGTTCTCCACGGCACCTACACCCAGTTGCGCAGCCTGGTGATGATCTTTTCCCACGCCTTTCGCAAGCGCGACACCCTGCAGTACCCGGAAGAGCCGGTGTACCTGCCTCCCCGCTACCGTGGCCGCATAGTGCTGACCCGCGACCCCGACGGCGAGGAGCGCTGCGTGGCCTGCAACCTCTGCGCGGTAGCCTGCCCGGTGGCCTGCATCTCCCTGCAGAAAGCGGAAAAGCCCGACGGCCGCTGGTACCCGGAGTTCTTCCGCATCAACTTCTCCCGCTGCATCTTCTGCGGCCTGTGCGAGGAAGCCTGCCCGACCAGCGCCATCCAGCTCACCCCGGACTTCGAGATGTGCGAGTACGACCGCCAGCAACTGGTGTACGAGAAGGAAGACCTGCTGATCTCCGGGCCGGGCAAGGATCACGGCTACAACTTCTACCGCGTGGCCGGCATGGCCATCGCCGGCAAGCCTAAGGGAGCGGCGAAGAGCGAGGCGGAGCCGGTGAATGTGAAGGGGTTGATGCCATGA	MKEILHVLHGTYTQLRSLVMIFSHAFRKRDTLQYPEEPVYLPPRYRGRIVLTRDPDGEERCVACNLCAVACPVACISLQKAEKPDGRWYPEFFRINFSRCIFCGLCEEACPTSAIQLTPDFEMCEYDRQQLVYEKEDLLISGPGKDHGYNFYRVAGMAIAGKPKGAAKSEAEPVNVKGLMP	PGPT0026830_1019	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026830-nuoI-K00338	NA	NA
BMS010_09276	501	nuoJ_2	COG0839	NADH-quinone oxidoreductase subunit J	ATGCAATTCGCCTTCTACTTCTCGGCCGGCATCGCCTTCCTCGCTACCTTGCGGGTGATCACCCACACCAATCCGGTACATGCCCTGCTCTACCTGATCGTCTCCCTGCTGGCGGTGTCCATGTGCTTCTTCGCACTCGGCGCACCTTTCGCCGGGGTGCTGGAGATCATCGTCTACGCCGGGGCGATCATGGTGCTGTTCGTCTTCGTGGTGATGATGCTCAACCTCGGCCAGGCGGCCATCGAGCAGGAGCGCCGCTGGCTCCGGCCGGGCATGTGGGTCGGGCCGGCGCTGCTCTCCCTGCTGCTGTTCGGCGAGCTGGCCTGGGTATTGGCGAAAGGCTACCTGGGCGCGCCGGCCGGGCTGGAAACCGTCGATGCCAAGGCTGTCGGCATCAGCCTGTACGGCCCCTACCTGCTGGCGGTGGAGCTGGCCTCCATGCTGCTGCTCGCCGCACTGGTCGCGGCCTACCACCTCGGACGCCACGAGGCGAAGGAGTAA	MQFAFYFSAGIAFLATLRVITHTNPVHALLYLIVSLLAVSMCFFALGAPFAGVLEIIVYAGAIMVLFVFVVMMLNLGQAAIEQERRWLRPGMWVGPALLSLLLFGELAWVLAKGYLGAPAGLETVDAKAVGISLYGPYLLAVELASMLLLAALVAAYHLGRHEAKE	PGPT0026835_3029	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026835-nuoJ-K00339	NA	NA
BMS010_09277	309	nuoK_2	COG0713	NADH-quinone oxidoreductase subunit K	ATGCCCGGACTGCCCATGGAACACGGCCTCGCCGTCGCCGGTCTGCTCTTCAGCCTGGGGCTGGTCGGCCTGCTGGTACGGCGCAACATTCTGTTCGTACTGATGAGCCTGGAAGTCATGATGAACGCCGCCGCCCTCGCCTTCGTCGTCGCCGGTAGCCGCTGGGCCCAGGCCGACGGACAGATCATGTTCATCCTGGTGCTCAGCCTGGCTGCCGCCGAGGCCAGCATCGGGCTGGCGATCCTGCTTCAGCTCTATCGCCGTTTCGACACCCTGGATATCGACGCTGCCAGTGAGATGCGCGGATGA	MPGLPMEHGLAVAGLLFSLGLVGLLVRRNILFVLMSLEVMMNAAALAFVVAGSRWAQADGQIMFILVLSLAAAEASIGLAILLQLYRRFDTLDIDAASEMRG	PGPT0026840_986	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026840-nuoK-K00340	NA	NA
BMS010_09278	1842	nuoL_2	COG1009	NADH-quinone oxidoreductase subunit L	ATGAACCTGCTCTTTCTGACCATTGCCTTTCCCCTGCTCGGCTTCGTCGTCCTGGCGCTATCCCGTGGGCGTCTGCCGGAAAACCTCGCGGCGCTGATCGGCGTCGGTTCGGTGGGGCTGTCTGCGCTGGTAGCACTGTATGCCGGCTGGCAGTTCCTCGCAGCGGGTGGAGCACCCCATGTCCAGATGCTCTGGCAATGGCTGGCGGTGGAAGGCTTCCGCCCGGCCGTCTCCCTGCACCTCGACGGGCTGTCGCTGACCATGCTCGGCGTGGTGACCGGCGTCGGCTTTCTGATCCACCTGTTCGCCTCTTGGTACATGCGCGGCGAGGAAGGCTATTCGCGCTTCTTCGCCTACATGAACCTGTTCGTCGCCAGCATGCTGTTCCTGGTTCTGGCCGATAACCTGCTGCTGCTTTATCTCGGCTGGGAGGGCGTGGGCCTGTGCAGCTACCTGCTGATCGGCTTCTACTACCGCACCCCGGCCAACGGCGCGGCGGCGCTGAAGGCGTTCATCGTCACGCGGGTTGGCGATGTGTTCATGGCCATCGGCCTGTTCATTCTCTTCCACGCCCTCGGTACGCTTCACATCCAGGAACTGCTCAGCCTGGCGCCGCAACGTTTCGCCAGCGGCGACCCGCAACTCACCCTGGCGACCCTGCTGCTGCTCGGTGGCGCAGTCGGCAAGTCCGCGCAATTGCCGTTGCAGACCTGGCTGGCCGATGCCATGGCTGGTCCGACGCCGGTCTCCGCGCTGATCCACGCGGCGACCATGGTAACGGCCGGCGTCTACCTGATCGCCCGCTGCCACGGCCTGTTCAGCCTGACGCCGACGACGTTGGAGCTGGTCGGCATCGTCGGCGCAGTGACGTTGCTGCTGGCCGGCTTCGCCGCCCTGGTGCAGACCGACATCAAGCGCATTCTCGCCTACTCCACCATGAGCCAGATTGGCTATATGTTCCTCGCCCTTGGCGTCGGCGCCTGGAGCGGCGCGATCTTCCATTTGATGACCCATGCCTTCTTCAAGGCCCTGCTGTTCCTCGCCTCCGGCGCGGTGATCGTTGCCTGCCACCATGAACAGAACATCTTCAAGATGGGCGGTCTGCGCCGGCCGCTGCCGCTGGCCTACGCCTGTTTCCTGGTCGGCGGCTCGGCACTGGCGGCGCTGCCGTTCATTACCGCCGGTTTTTACTCGAAGGATGAAATCCTCTGGGAAGCCTTCGCCAGCGGCCATCGGCCCCTGCTGTTGGCGGGCCTGATAGGCGCCTTCCTCACCTCGCTGTACACCTTCCGTCTGATCTTCATCGCCTTTCACGGCGAGGCGAAGACCGAGGCCCATGCCGGCCACGGCGTCAGCCACTGGCTGCCGCTCGGTGTGCTGCTGGTGCTGTCCACCTTCATCGGTGCGCTGATCCACCCACCGCTGGCCACGGTGCTGCCAGCCAGTGCGGGGGAAGCCGGCGGCGAGGCCAAGCACAGTCTGGAACTACTGTCCGGGGTGGTCGCGGTATCCGGCATCGTGTTGGCCGCCCTGCTCTTCCTCGGCCAACGGCGGTTCGTCGTGCGCCTCGCGGAGAGTGCGCCGGGCCGTTTATTCGCCACCTGGTGGTATGCCGCCTGGGGCTTCGACTGGCTCTACGACAAGCTGTTCGTGCGGCCTTACCTACTGCTCTGCCGACTGCTCGGACGCGATCCGTTCGACCGTGGCATCACCCAGATCCCGAAGCTGGCAAAAGGCGGCAACCGGCTGATGAGCCAGACCGAAAGCGGCCGCTTGCGCTGGTATGCAGCCTCCCTCGCCGGCGGCGCGGTACTGCTGCTCGGCGCCCTGGCATTGGTGTAG	MNLLFLTIAFPLLGFVVLALSRGRLPENLAALIGVGSVGLSALVALYAGWQFLAAGGAPHVQMLWQWLAVEGFRPAVSLHLDGLSLTMLGVVTGVGFLIHLFASWYMRGEEGYSRFFAYMNLFVASMLFLVLADNLLLLYLGWEGVGLCSYLLIGFYYRTPANGAAALKAFIVTRVGDVFMAIGLFILFHALGTLHIQELLSLAPQRFASGDPQLTLATLLLLGGAVGKSAQLPLQTWLADAMAGPTPVSALIHAATMVTAGVYLIARCHGLFSLTPTTLELVGIVGAVTLLLAGFAALVQTDIKRILAYSTMSQIGYMFLALGVGAWSGAIFHLMTHAFFKALLFLASGAVIVACHHEQNIFKMGGLRRPLPLAYACFLVGGSALAALPFITAGFYSKDEILWEAFASGHRPLLLAGLIGAFLTSLYTFRLIFIAFHGEAKTEAHAGHGVSHWLPLGVLLVLSTFIGALIHPPLATVLPASAGEAGGEAKHSLELLSGVVAVSGIVLAALLFLGQRRFVVRLAESAPGRLFATWWYAAWGFDWLYDKLFVRPYLLLCRLLGRDPFDRGITQIPKLAKGGNRLMSQTESGRLRWYAASLAGGAVLLLGALALV	PGPT0026845_3226	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026845-nuoL-K00341	NA	NA
BMS010_09279	1533	nuoM_2	COG1008	NADH-quinone oxidoreductase subunit M	ATGATTCTGCCCTGGCTGATCCTGATCCCCTTCATCGGCGGCCTGCTCTGTTGGCAGGCCGAACGCTTCAGCCTCACCCTGCCGCGCTGGCTGGCACTGGCCACCATGGCCCTGGTGCTGCTGCTCGGCCTCTGGCTGTGGAGCCAGGGCGAATTCCACCTGGCGCCCACACCCGGCAGCGAGCAAGTCTGGGAGCTGGAGTTCAAGTACCCATGGATTCAGCGCTTCGGCATCAACCTGCATCTGGCCCTGGACGGTCTGTCGCTGCTGATGATCCTGCTCACCGGCCTGCTCGGTGTGCTCTCTGTGCTCTGCTCCTGGAAGGAAATCCAGAAGCACGTCGGCTTCTTTCACCTGAACCTGATGTGGATTCTCGGCGGCGTGATCGGCGTGTTCCTCGCCCTTGACCTGTTCCTGTTCTTTTTCTTCTGGGAAATGATGTTGGTGCCGATGTACTTCCTCATCGCGCTCTGGGGGCACAGTGCCGAGGATGGCCGCAGTTCTCGGATCAACGCGGCGACCAAGTTCTTCATCTTCACCCAGGCCAGCGGCCTGGTGATGCTGGTGGCGATCCTCGGGCTGGTGTTCGTCAACTTCAACGAAACCGGCGTGCTCACCTTCGATTACTCGCTGCTGCTGCAGGCCAACCTCGCCCCCGGTACCGAATACCTGTTGATGCTCGGCTTCTTCGTCGCCTTCGCGGTGAAGCTGCCGGTAGTACCGGTGCACTCCTGGCTGCCCGACGCCCACGCCCAGGCACCCACCGCCGGCTCGGTGGACCTCGCCGGCATCCTCCTGAAGACTGCCGCCTACGGCCTGTTGCGCTTCGCAGTGCCGCTGTTTCCCAATGCCTCGGCGGAATTCGCGCCGATCGCCATGTGGCTCGGCTTGCTCGGCATCGTCTACGGCGCCCTGCTGGCCTTCGCCCAGACCGACATCAAGCGGCTGGTGGCCTATACCAGCGTGTCGCACATGGGTTTCGTACTGATCGGTATCTATTCCGGCAACCCGCTGGCGTTACAAGGCGTGGTGGTGCAGATGGTCGCCCACGGTCTGTCCGCCGCCGCGCTGTTCATCCTCTGCGGCCAGCTCTACGAGCGCCTGCATACCCGCGACATGCGCCAGATGGGCGGGCTCTGGGGCCGGCTGAACTACCTGCCCGGGGTGATGCTGTTCTTCTCCGCCGCCTCCCTCGGCTTACCCGGCACGGGCAACTTCATCGGAGAGTTTCTCATCCTGCTGGGCAGTTTCCAGGTGGTTCCCTTGATCGCCGCCCTCGCCACCGGCGGGCTGGTATTGGCTTCGATCTACTCGCTGATTGTGATGCAACGGGCTTTCTATGGCCCCGCCCACGACGAGACAACACTGGCCGGCCTCAACGGCCGCGAGTTGACCATGATGTTCAGCTTGATCGGACTGCTGGTTCTGCTCGGCCTCTATCCGCAGCCACTGCTGGACACTTCGGCAGCCAGCATGCACGGCGTCCAGCAATGGCTGGGTGCAGCCTTCTCCCAACTGGTTTCGACCCGGTAG	MILPWLILIPFIGGLLCWQAERFSLTLPRWLALATMALVLLLGLWLWSQGEFHLAPTPGSEQVWELEFKYPWIQRFGINLHLALDGLSLLMILLTGLLGVLSVLCSWKEIQKHVGFFHLNLMWILGGVIGVFLALDLFLFFFFWEMMLVPMYFLIALWGHSAEDGRSSRINAATKFFIFTQASGLVMLVAILGLVFVNFNETGVLTFDYSLLLQANLAPGTEYLLMLGFFVAFAVKLPVVPVHSWLPDAHAQAPTAGSVDLAGILLKTAAYGLLRFAVPLFPNASAEFAPIAMWLGLLGIVYGALLAFAQTDIKRLVAYTSVSHMGFVLIGIYSGNPLALQGVVVQMVAHGLSAAALFILCGQLYERLHTRDMRQMGGLWGRLNYLPGVMLFFSAASLGLPGTGNFIGEFLILLGSFQVVPLIAALATGGLVLASIYSLIVMQRAFYGPAHDETTLAGLNGRELTMMFSLIGLLVLLGLYPQPLLDTSAASMHGVQQWLGAAFSQLVSTR	PGPT0026850_1551	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026850-nuoM-K00342	NA	NA
BMS010_09280	1473	nuoN_2	COG1007	NADH-quinone oxidoreductase subunit N	ATGGACCTGAGTACTTCCCACTTCGTCGCCCTGCTGCCCCTGCTGGTGCTATCCGCCACAATCGTCGTGGTGATGCTGGCCATCGCCTGGCGGCGGCACCACAGCCTGACCTTCGTGATCTCGGTGATCGGCCTGAATCTGGCCCTGCTGTCGATCATCCCAGCGCTACGAGTGGCACCGCTGGAGGTCACGCCACTGCTGCTGGTGGACCGCTTCGCCTGCTTCTACATGGCCCTGATACTGGTCGCCACCCTGGCTTGCCTCACCCTGGCCCATGCCTACCTCGGCGAGTCCGGCCGGTCCGGCTATCCCGGCAATCGTGAAGAGTTCTACCTGCTGATGCTGCTGGCGGCTGCCGGTGGCTTGGTATTGGTCAGCGCACAGCATCTGGCCGGATTGTTCATCGGCCTGGAACTACTATCGGTACCGACCTACGGATTGGTCGCCTACGCCTTCTTCAACCGGCGCTCGCTGGAGGCCGGCATCAAGTACATGGTGCTGTCCGCCGCCGGGTCGGCTTTCCTACTGTTCGGCATGGCATTGCTCTACGCAGGCTCCGGCACGCTGGGTTTCGCTGGGATCGGCGCAACGCTGGAAACCGCCACTGGAACATCACCGCTGATCCAGATCGGCATGGGCATGCTGCTGGTCGGGTTGGCGTTCAAATTGTCCCTGGTGCCCTTCCACCTGTGGACGCCGGACGTCTACGAAGGTGCACCGGCGCCGGTCACCGCGTTCCTCGCTACGGCCAGCAAGGTGGCAGTGTTCGCCGCGCTGCTACGGCTGTTCCAGCTCGCCCCGGCTGGCACCAATCCCTGGCTGCACGACCTGCTGGCGCTGATCGCCATCGCCTCGATCCTGATCGGCAATCTGCTAGCGCTGCTGCAGAGCAACCTAAAGCGGCTGCTCGGTTACTCCTCCATCGCCCACTTCGGCTACCTGCTGGTCGCGCTGGTAGCCAGCCGGGGCCTGGCAGTGGAGGCGGTGGGCGTCTACCTGCTGACCTACGTGCTCACCAGCCTCGGTGCGTTCGGTGTGATCACGCTCATGTCGACACCCTACAGCGGCCGTGACGCCGATGCCCTCTACGAATACCGAGGGCTGTTCTGGCGCCGTCCCTATCTGACCGCCGTGCTGACAGTGATGATGTTGTCACTTGCCGGCATCCCGCTCACCGCCGGGTTCATCGGCAAGTTCTACCTGGTCGCGGTGGGTGTCGAGGCGCGGCTCTGGTGGCTGATCGGGACATTGGTGCTGGGTAGCGCGATAGGCCTGTTCTACTACCTGCGGGTCATGGTGACGCTGTTCCTGCTCGAACCCAACCTGCGCCGCCATGACGCGCCGTTCAACTGGGGTCAACGAGCCGGAGGCATCATGCTGCTGGCGATCGCCGTGCTGGCATTCTTCCTTGGTGTCTACCCGCAGCCACTGCTGGAATTGGCGCGTCAGGCCGGTATCGCCGCCCTCGGCTGA	MDLSTSHFVALLPLLVLSATIVVVMLAIAWRRHHSLTFVISVIGLNLALLSIIPALRVAPLEVTPLLLVDRFACFYMALILVATLACLTLAHAYLGESGRSGYPGNREEFYLLMLLAAAGGLVLVSAQHLAGLFIGLELLSVPTYGLVAYAFFNRRSLEAGIKYMVLSAAGSAFLLFGMALLYAGSGTLGFAGIGATLETATGTSPLIQIGMGMLLVGLAFKLSLVPFHLWTPDVYEGAPAPVTAFLATASKVAVFAALLRLFQLAPAGTNPWLHDLLALIAIASILIGNLLALLQSNLKRLLGYSSIAHFGYLLVALVASRGLAVEAVGVYLLTYVLTSLGAFGVITLMSTPYSGRDADALYEYRGLFWRRPYLTAVLTVMMLSLAGIPLTAGFIGKFYLVAVGVEARLWWLIGTLVLGSAIGLFYYLRVMVTLFLLEPNLRRHDAPFNWGQRAGGIMLLAIAVLAFFLGVYPQPLLELARQAGIAALG	PGPT0026860_1418	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026860-nuoN-K00343	NA	NA
BMS010_09281	1065		COG0628	Putative transport protein	ATGCCTAATTCAAATCTGGAACACAAGACCTTTCTTTTGCTGCTGGTTGCGGTTTCCGTGGCATTCGGTTGGGTACTGCTGCCATTCTCCGGTGCAGTGTTCTGGGCAGCGGTACTTGCCATACTGTTTGCACCTCTCCAGCGTCGTCTCTATCGGCGCTTCCACAGCCGCAGCAACTTGAGCGCTTTGCTCACTCTGACGGTCTGCGTACTGCTGGCCGTGGTGCCGATGCTGATTGTCACCGGCCTTGTGGTGCAAGAAGGGGCCAGTCTCTACAAGCGTATCGAAAGCGGGGAACTGGATATCGGTGCTTTCCTTGGGCAGATCAAGGATATGCTGCCATTGACCATTCGCCAGATGCTCGACCGTCTCGGCCTGAGCGACCTCGGCAGTCTGCGTGACAAGATGTCCAGCGGGGCGTTGCAGGGCAGTCAGTTCCTTGCCACCAAGGCGTTCAATTTCGGCCAAGACACCTTCCAGTTCGTGGTCGGTTTCTTTGTCATGCTCTATCTGCTGTTCTTCTTCATCCGCGACGGCGGCGAACTGAGTGGGCAGATCAAGCGCGCCATTCCCCTCAGCGAAGCGCAGAAGCGCCGGTTGTTCAGCAAATTCACGCGCGTGGTGAGGGCCACGGTGAAGGGTAACATCGTGGTGGCAGCGGCCCAGGGGGCACTGGGCGGATTGATCTTCATGATCCTGGGTATCCCCAGCGCCTTGCTCTGGGGCGTGCTTATGGCGTTTCTCTCGCTACTGCCGGCCATTGGCGCGGGTCTGGTCTGGGCACCGGTGGCGGTGTACTTCCTGCTCAGTGGCGCGTTGTGGAAGGGCGTGGTGCTGGCACTGTTCGGGATCTGCGTGATCGGCCTGGTAGATAACATCCTGCGGCCGATCCTAGTGGGTAAAGACACCCGCATGCCGGACTACCTGGTGCTGATCTCCACGCTCGGCGGGCTGAGCCTGTTCGGCCTCAACGGATTCGTCATCGGCCCGCTGATCGCGGCGTTGTTCGTGTCCTGCTGGGGCCTATTCACTGATGGCAAGAAAGACCACATCATCACATCCTGA	MPNSNLEHKTFLLLLVAVSVAFGWVLLPFSGAVFWAAVLAILFAPLQRRLYRRFHSRSNLSALLTLTVCVLLAVVPMLIVTGLVVQEGASLYKRIESGELDIGAFLGQIKDMLPLTIRQMLDRLGLSDLGSLRDKMSSGALQGSQFLATKAFNFGQDTFQFVVGFFVMLYLLFFFIRDGGELSGQIKRAIPLSEAQKRRLFSKFTRVVRATVKGNIVVAAAQGALGGLIFMILGIPSALLWGVLMAFLSLLPAIGAGLVWAPVAVYFLLSGALWKGVVLALFGICVIGLVDNILRPILVGKDTRMPDYLVLISTLGGLSLFGLNGFVIGPLIAALFVSCWGLFTDGKKDHIITS				NA	NA	NA	NA	NA
BMS010_09283	1416			hypothetical protein	ATGGAAAAGACCCACTGCCATTACCATTCGGCACAACCCGCGACTTGGCATTGCGTGCCTTGCCAGCGTCATTACGGCGACTGTTGCATCCCGCTGAACGAAGACGCGCCGGAAGAAACGCCGGCCTGTCCATTGTGCCGTGACCCGCTGAGCTTTCTCGGTGCGGCCAACACTGCCCAGCCGTTCTGGGAGCGTATCCCGAGTTTCTTTGCGTATGGCTGTCAGCCCAGCCCGCTGGCTTTCAGTGCGATCCTGGCCCTGGCGAGCCTGTTCATGCCGAGCATCATTCTGCTCTGGATCGCCTTGTTCAGTATCGCGACCAAGTACTTCCACAGTGTGATCGAGGCCAGCAGCCAGGCGGAGAAGACCGCCCCGCACCTGCTGTCGGCGTTCACCGGCGAAGGCTTTTCATTATTCTTCAAGCAACTGGCAGTGTTCTTCATCGCCATGGCGGCGCTCTGGCTGGCTGCCGACTTCAACAGTGAAGCGCTGTTCTGGGTGGTGAACATCGGCATTCTGCTGGTCATGCCGGCCAGCATCATTCGTCTGGCGCTGGACAAGACGCTGAGCGCGGCCCTCAGCCCGGACGAGGTGGGGCAGGTGATCAAGGCCATGGGCTGGCGCTACCTCATTCTCTGCGCCTTCTTGTTCATTCTCTGGCAATCGCCGACCTGGGTGACCTACATGCTCTCCCATGGCTTGCCCAAGGTTGTGCTGGTACCTGTCGCCGCCTTTCTGTTCGGTTATTTCGGCGTGGTGATGTGCGCGATGATGGGTTATGCGGTCTTCCAGTACCAGGGACCGCTGGGTTACGTGATCGCGGATGAGGACGGACAGGCGGCCTTTCCGGCCCCGGAGTACCAGCGCCGCCGTGCCCTGGCCGAAGCCGAGATCAGGGTCAAGGAAGGGCAGAGTCCGCAGGCATTGGAAACCCTCGCCCAAGCCTTGCAGCGGACCCCGGACGATCTCAAGTTGAACGAGCGCTACCACCAGTTGCTGTTCGGCCTCAATGCCCGGGAGCGCTGTCTGCATCACTTGGCGCATTATCTGCCGCTGGCCGCACGGATGAATTCGGCGCTGGCCGCAACCGCTTTGCTCAATGCGCGGCAGTTGAAGCCGGATTATCTGCCGGATGATGCGCTGGTCTGCGAGAAGGTGGCCGGCGCTCTTCTGGAGCGGCACAAGACGCGCGAAGGCCTGAGCCTGTTGCGCAATCTGCATCAGCGCTTCCCCGACTATCCGCACATTCCCAGGGCCTATCTCCTGGCTGCTCGTGGCTTTGCCGAAGGGCTCGGGCAAGTCGAGCCGGCGCAGAAGCTGCTCGCGTTCGTCCGCATGCGTTACCCGGACTCGCCGTTGGGGGCAGACATCGCCGCCCTGGAGGCGACTTTGTCGCGTCTCGCCGCCAAGGCGTGA	MEKTHCHYHSAQPATWHCVPCQRHYGDCCIPLNEDAPEETPACPLCRDPLSFLGAANTAQPFWERIPSFFAYGCQPSPLAFSAILALASLFMPSIILLWIALFSIATKYFHSVIEASSQAEKTAPHLLSAFTGEGFSLFFKQLAVFFIAMAALWLAADFNSEALFWVVNIGILLVMPASIIRLALDKTLSAALSPDEVGQVIKAMGWRYLILCAFLFILWQSPTWVTYMLSHGLPKVVLVPVAAFLFGYFGVVMCAMMGYAVFQYQGPLGYVIADEDGQAAFPAPEYQRRRALAEAEIRVKEGQSPQALETLAQALQRTPDDLKLNERYHQLLFGLNARERCLHHLAHYLPLAARMNSALAATALLNARQLKPDYLPDDALVCEKVAGALLERHKTREGLSLLRNLHQRFPDYPHIPRAYLLAARGFAEGLGQVEPAQKLLAFVRMRYPDSPLGADIAALEATLSRLAAKA				NA	NA	NA	NA	NA
BMS010_09284	375			hypothetical protein	ATGAAACAGCCTTTCAACAAATTGGCCTTCGCCACTGTTGCTGCTACTGCCCTGAGCCTGTCGCTGAGTCATGTCGCGTTTGCGCAATCGGACGAGTCGGCTCGCGCTCAGCCGGCCGTGTTGGCCGCCAACGAGACCATCGAAAAGGCCGAAGATGCGGTCTCCGATACCTGGATTACCAGCAAAGTGAAGTCTGCGTTCATCGCCGACAGCAGCTTGAGCGGTATGGATATCAAGGTTGAAACCAAGCAGGGCGTCGTTTCCCTGTCCGGCGTGGTCGGCAGCGATGCTGAGCGCAATCTGGCCATCGAGAAGGCCAAGAGCATCAAGGGCGTCGTCGATGTCGCCGCCGATGGCCTGAAGACCGCCGATTGA	MKQPFNKLAFATVAATALSLSLSHVAFAQSDESARAQPAVLAANETIEKAEDAVSDTWITSKVKSAFIADSSLSGMDIKVETKQGVVSLSGVVGSDAERNLAIEKAKSIKGVVDVAADGLKTAD	PGPT0013305_1263	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013305-osmY-K04065	NA	NA
BMS010_09285	198			hypothetical protein	ATGAACGCCGATGTCATTCAAGGCAAATGGAAACAATTGACGGGCCGCATCAAGGAGCGATGGGGCAATCTCACCGACGATGATCTGGATGTCGCTGAAGGACACAGCGATTATCTGGTCGGCAAACTGCAGGAACGCTACGGCTGGAGCAAGGAGCGCGCTCAGGACGAGTTGCGCGACTTCAGTAGCCGCCTGTAG	MNADVIQGKWKQLTGRIKERWGNLTDDDLDVAEGHSDYLVGKLQERYGWSKERAQDELRDFSSRL				NA	NA	NA	NA	NA
BMS010_09286	1452			hypothetical protein	GTGCTCATCCTCCCCGCAGAACACCCGCTCGACTGGAAGAAACCGCCAGTCATGACCCTGCTGCTGATCCTGCTCAATGTGCTGATCTATTTCGGCTACCAGGGCGGTGACGAGCAGCGCTGGGAAACAGCCATCGAGGCGTATCTCGACGCTGGTCTGCTCAATCGCGAGCGGACCCTTTTTCTCGACGACTTCGGCTCCCGTCGCAAACTGGAAGCGGACGAGCAGCGCGCCCTCGCCGCCATGCGTCGGAGTGACCTCGCCGGCCTGATCCTCAGTGACCTGCAGTTCGAAAACCGCCTGCATCACGAGCCGGCCTACCAAGCCGATACCGACTGGCAGGCCGCACGCCGGAAAGTCGAAGCCGAACGCGACAAAGTCAGCAGCATGCGCTTCGGCTTCATCCCGGCGAAGTTCAGCGTCCAGGGCTTGTTCGGCGCCATGTTCCTGCACGGCAGCTTCGATCACCTGCTGGGTAACATGATCTTCCTGTTCATCTTTGGTTTCGCCCTGGAAATCGCCCTGGGCCGCTGGCTCTACCTCGGCCTTTACCTGCTCAGCGGCGTCGCCTCGCATCTGCTCTGGTGGGTCATGGACCCGGTGTGGGTCACCGGAGTCGGCGCCTCGGGGGCGATCTCCGGGTTGATGGGCATGTACCTCGGCGTCTATGGCCTGCGCCGGATCAACTTCTTCTACTGGCTCGGGCCGATGTTCGGCTACTTCCGCGCACCGGCGCTGTGGATTCTGCCGGTCTGGATGGGCAAGGAGCTGTACGGCCTGCTGCTGGCCGACGACAACGTCAACTACTACGCACACCTCGGCGGCCTGGGAGCTGGCTTCCTGTCGATCTGGCTGCCGCGTCTGGTCGGCCGACTGAAGGTCGACGAAGCCTATCTGCACAAGGAAGACCCCGACGCGCCCTTCAAGCGGGAACTCGCCGCACTGGATCAGGCGATCGGCCGTTTCGCTCTGGAGCAGGCCGCCTCTCGCGGTCTCGATCTGCTGAGCCGCTATCCGGGTCGGCAAGAGCTGTTGGAGAGACTCTATCCGGTTGCCAAGAGTCGGCAGGACGCGGCCCTCATGACCGCCCTACTCAAGCAGGTTTTCGCCTTGCCGCCCGGCACTGGCCTTCCCTTGTTGCAGCGTCTGGGCGACGACAGCCAGGTACCGGAACAGCGCCTGCTACGACATCCTGGCGTGCAGCTTCATCTCCTTCAGGGATTGCTACGGGGCGCCGATGGCCCCCGTGCCCTCGCCGCCTGGCGCCGGCTGTGCCAGCATTCCCGCCATCCGAGCCAGCTCCCACTGCTGACGCTGCAATTGGCCAAGCTGCTGGGCCAGCGCAAAGACCTGCGCGGCATTGCCGAGCTGGGCCAGTTTCTCCGAAGCGTCTATCCCGAAGCCGAACAGACCCGCCAAATCACCCTCTACCAGCAGCATCTGGCCCGTTGA	MLILPAEHPLDWKKPPVMTLLLILLNVLIYFGYQGGDEQRWETAIEAYLDAGLLNRERTLFLDDFGSRRKLEADEQRALAAMRRSDLAGLILSDLQFENRLHHEPAYQADTDWQAARRKVEAERDKVSSMRFGFIPAKFSVQGLFGAMFLHGSFDHLLGNMIFLFIFGFALEIALGRWLYLGLYLLSGVASHLLWWVMDPVWVTGVGASGAISGLMGMYLGVYGLRRINFFYWLGPMFGYFRAPALWILPVWMGKELYGLLLADDNVNYYAHLGGLGAGFLSIWLPRLVGRLKVDEAYLHKEDPDAPFKRELAALDQAIGRFALEQAASRGLDLLSRYPGRQELLERLYPVAKSRQDAALMTALLKQVFALPPGTGLPLLQRLGDDSQVPEQRLLRHPGVQLHLLQGLLRGADGPRALAAWRRLCQHSRHPSQLPLLTLQLAKLLGQRKDLRGIAELGQFLRSVYPEAEQTRQITLYQQHLAR				NA	NA	NA	NA	NA
BMS010_09287	303			hypothetical protein	GTGAACATCCGCTTTTGCCTTCTCGCCCTGCTCCTGTTGGCAGGCAGCGCCCATGCCTCCTCCACGCTGCGCTGCGATAGCAACCTGATCAGCCTTGACGACACCACCAGTGAAGTCCGTAGCAAATGCGGCGAACCGGCCAGTACGGCCTTCCTCGGCTATCGCGAAAAACTCGACGACTACGGCTACCGACAGGAGGTGCCGGTCGAAGAATGGGTCTATGGCCCGCGCAATGGCATGTACCACTACCTGCGCTTCGAGGCCAACCGGCTGGTGAAGATCGACAGCAAGCGCGGCAACTGA	MNIRFCLLALLLLAGSAHASSTLRCDSNLISLDDTTSEVRSKCGEPASTAFLGYREKLDDYGYRQEVPVEEWVYGPRNGMYHYLRFEANRLVKIDSKRGN				NA	NA	NA	NA	NA
BMS010_09288	294			hypothetical protein	ATGATGCAACGCGCTTTCTTCCTCTGCCTGCTGGTGCTGGCCGCCGCCCCCGCCCAAGCCGAAACCATGCGCTGCGGCAGCAAACTGGTCAGCCTCGGCGACCGGGCTTTCGAAGTGCAGCAAAAGTGCGGCGAGCCGGCGCATCGCGATCTGGTCGGCTATACCCTGGGCGAATACGATCGCCGCGAGTTCAAGATGGAAGAATGGGCCTACGGCCCGAACAACGGCATGCTGTACATCCTGACCTTCGAAGGAAACCGCCTGATCCGCATCGAAACCCGGCGCAGCCGCTGA	MMQRAFFLCLLVLAAAPAQAETMRCGSKLVSLGDRAFEVQQKCGEPAHRDLVGYTLGEYDRREFKMEEWAYGPNNGMLYILTFEGNRLIRIETRRSR				NA	NA	NA	NA	NA
BMS010_09289	2904			hypothetical protein	ATGACCAAAGGATTGAAACGCACCCTCGGCGGACTGGTGATCGCCGTCCTGCTGTACAGCCTGATCGGCTTTCTGATCCTGCCCGGGGTGGCGCTGCACCTGATCAACCAGCAATTGGCCCAGTACGCCAGCGTACCCAGCCGGCTGGAGCGTCTGGAGTTCAATCCATTCAGCCTGGAGTTGACCCTCTGGGGCCTGCGCATCGGCGAAGCCGGCAGCGAACCCCTGGCATTCCAGCGCCTGTATCTGAATTTGCAGGCAGACAGCCTCTGGAGCGGCGCCCTGCACTTGGCGGACATCGAACTGGACGGTCTGAGTGCCGACGTCCTGTTCGCCAAGGACGGCCGCCTGAACCTGACGCAACTGTTCGTCTTGCCCGCCAGCACCGAACCCAAGGCCGAAGAACCGGCGTCGGAACCCTTCCCGTTGCGGGTCGGCCGCATCCAACTGGCACGCGGGCGCCTGCATTTCCAGGACCTGCGCCCGAGCGAGCCCATCGAATTCCTCTACGATTCGCTGGATTTCGAGCTGCATAACCTCAGCACACTGCCCGACGACAACGCCGACATGACCTTGGTCGCTACCGGTCCGCGCGGTGGGCGGATCGACTGGAAGGGTCAGATCAGCCTCGTTCCGCTGGCCTCCAGCGGCGCGCTCAAGGTGACCGATCTCGACATGAAAGGTTTCTGGCCCTACGTGCAGGATGCCGTTCCCCTTGCGCTGGAAAAAGGCACGCTCAGCCTGAGCACGGACTACCGGGTGAACCTCGCCAAAACCACCCAGGCGCGGTTGGATAACCTCCAGCTAGCCCTGGCCCCCTTCGCCATCAAGACGGCGGACGATCGTCCACTGCTGCGCCTGGAGCGCCTGGACGTGGCCCAGACCTCGGTGGATCTGGCGAAGCAGCAGGTGGTGATCGGCCAGGTCCGCAGCCAGGGCCTGGAAACCTGGGCCGCCCGCGAAGCCGATGGACAATTGGACTGGCAGAAGCTGTTTGCCGACCGCCCCGGAAAGACCGCTCCCGCCGAGGCCAACGGCAAGCCAGCCAATGAACCCGGCAAGCCCTGGCAGGTGCTGCTGCGCGATGCCCAGTTACGCAACTACCGCGCTCATTTGGCCGACCGGGTGCCCAAGGACGAGGTCACGCTCGACCTCGGCCCGCTCAACGTCGATGTGCGCGATTTCGATAGCCTCGGGCAATCGCCGTTCGCCCTCAAGCTGGATACCGGCCTCGGTCGCCAGGGCCAGCTCCAGGCGGAAGGCAACGTCCGATTGAGCCCGGTGAGCGCCCAGCTCAAGGTTTCCACCCGTGATATCGACCTGCGTATCGCCCAGGCCTACCTGGCGCCATTCGTTCGCCTGGAACTGCGCAGCGGCCTGCTCGGCAGCGACCTGAACGTCGACCTGAAAAGCACCGAACCGCTGGCCTTCAGCGTCACCGGGCGGGCCGAGGTTCACCAGTTGCATACCTTGGACACTGTGAAAGAACGCGACTTCCTCAAATGGCGCCAACTGTCCCTCGAAGGGCTGGACTATCGCCATGGTGACCAGCTCACCATCGCCAAGGTGGACCTGGCCCAGCCCTATGCGCGTTTCATCATCAACGAAGACCTCAGCACTAACGTCAAGGAGCTGCTGATCCCGCAGCCGGACAGCCCGGCCCCGGCGAACGCGGTGGCGACTCAGCCATCGCCGGCAAAGCCCCTGGGCATTCGCATCGGTGAGATCGTCATTGCCGACGGTTCGGCCAACTTCGCCGACTTCAGCCTGACCCCGAGTTTTGCCACGGCGATCCAGCAGCTCAACGGCCGCATCGGCACCCTCGACAACCGCCAGTCGCTGCCCGCGAAGGTCGAGGTGAAGGGCCGGGTGGATCGCTACGCCCCGGTGAGCATCCAGGGCAGCCTGACGCCGTTCGATCCGCTGGAGAAGCTGGACATCCAGACCAGCTTCAAGCGGGTCGAACTGACTACCTTGACGCCCTATTCCGGCAAGTTCGCCGGCTACCGCATCCGCAAGGGCCGCCTCAACCTGGACCTGCATTACCGCATCGAGAAGGGCCAACTGAACGCCGAGAACCGCGTGGTGCTGGAGCAACTGCAGCTCGGTGAGCGGGTCGACAGCCCCGACGCAGTGGACCTACCGGTGCGCCTCGCCGTTGCGCTGCTGAAAGACACCGAAGGCAAGATCGATATTGCCCTGCCGGTCAAGGGCGACCTCAACAACCCCCAGTTCCGGGTCATGCCGATCGTCTGGCAGACCTTGCGCAATCTAGTGCTGCGAGCGGCCCAGGCACCGTTCAAGTTCGTCGCCGGGCTGGTCGGCGGCAGCGACGCAGACCTCAGCCAGGTCAGCTTCGCCGCCGGCAGCCCGGCACTGGACGACGAGGCCCGCAAGACCCTGGATACCCTGGCCGATGCCTTGAAGAAGCGGCCGGCGTTGCGCCTGGAAGTCGAAGGCTTGAGCGCCACAGCCAGCGATGGGCCACACCTGGCTGAACAGCGTCTGGAGCGGGAATACCGCAGCACCTATTACAAAGTCCTCCAGCGGCGCGGCGACAAGGTGCCCGCCGATGCCGACCAGTTGGTCGTTCCGGAAGACGAAAAGGGCCCATTGCTGGAGGGCATCTACCGTGCCCGTCTGAAACAGCAGCCCCCAGCCGAATGGGCTGAGCTGGACAACGAAGAACGTGCGCGCCGGTTGCGCGATGGCGTCCTCGCCTCCTGGAGCCAGAGCCAATTGCTGTTGCGGCAGTTGGCTCAGGCCCGGGCCTCTCATATCAAGGAATACCTGGTGGACCAGGGTGGACTGGAGGACGAACGCATCTACCTGCTCGACGTGAGCACCGGCGAAGCGGAAACTGACGGACGGGTTTCCACCCCTCTACACCTGGACAGTGAATGA	MTKGLKRTLGGLVIAVLLYSLIGFLILPGVALHLINQQLAQYASVPSRLERLEFNPFSLELTLWGLRIGEAGSEPLAFQRLYLNLQADSLWSGALHLADIELDGLSADVLFAKDGRLNLTQLFVLPASTEPKAEEPASEPFPLRVGRIQLARGRLHFQDLRPSEPIEFLYDSLDFELHNLSTLPDDNADMTLVATGPRGGRIDWKGQISLVPLASSGALKVTDLDMKGFWPYVQDAVPLALEKGTLSLSTDYRVNLAKTTQARLDNLQLALAPFAIKTADDRPLLRLERLDVAQTSVDLAKQQVVIGQVRSQGLETWAAREADGQLDWQKLFADRPGKTAPAEANGKPANEPGKPWQVLLRDAQLRNYRAHLADRVPKDEVTLDLGPLNVDVRDFDSLGQSPFALKLDTGLGRQGQLQAEGNVRLSPVSAQLKVSTRDIDLRIAQAYLAPFVRLELRSGLLGSDLNVDLKSTEPLAFSVTGRAEVHQLHTLDTVKERDFLKWRQLSLEGLDYRHGDQLTIAKVDLAQPYARFIINEDLSTNVKELLIPQPDSPAPANAVATQPSPAKPLGIRIGEIVIADGSANFADFSLTPSFATAIQQLNGRIGTLDNRQSLPAKVEVKGRVDRYAPVSIQGSLTPFDPLEKLDIQTSFKRVELTTLTPYSGKFAGYRIRKGRLNLDLHYRIEKGQLNAENRVVLEQLQLGERVDSPDAVDLPVRLAVALLKDTEGKIDIALPVKGDLNNPQFRVMPIVWQTLRNLVLRAAQAPFKFVAGLVGGSDADLSQVSFAAGSPALDDEARKTLDTLADALKKRPALRLEVEGLSATASDGPHLAEQRLEREYRSTYYKVLQRRGDKVPADADQLVVPEDEKGPLLEGIYRARLKQQPPAEWAELDNEERARRLRDGVLASWSQSQLLLRQLAQARASHIKEYLVDQGGLEDERIYLLDVSTGEAETDGRVSTPLHLDSE				NA	NA	NA	NA	NA
BMS010_09290	1017	rlmI_2	COG1092	Ribosomal RNA large subunit methyltransferase I	ATGCCCTCCTTGAATCAGGCGCTTCGCGCCGCCCTCGCCGCCCGCCGCGACCTGCTGACCGATCTGCACGCCCAGGGCACCGACTGCTACCGCCTGTTCCATGGCAGCCAGGAGGGCGAGCCCGGCCTCACCCTCGACCGCTACGGCCCGCAGTTGCTGGTGCAGAGTTTCCATCAACCGCTCGATCAGGCCCGGCTGCCCGAACTGGAGGCCATCGTCGCTGAATTCCTCGGCGACAAGCTGTTGCTGGTCTACAACGACCGCTCCGGCGGCAACTCACGGATCGACCGCAGCGCCACCAGCCATCGAGCGGACGCCGAGGCCCTGGACGACCTCGTCGGCCATGAGTGGGGCCTGAATTATCGGGTGCGCGGGCGGCACGCCGGACAGGACCCGCTGCTCTTCCTCGATCTGCGCAACGCACGCGGCTGGGTCAAGGCGAACAGCGCAGGCCGCTCGGTGCTCAACCTGTTCGCCTATACCTGCGGCGTCGGTCTCTGCGCCGCGGCAGGCGGTGCGCGCGAGGTCTGGAACCTGGACTTCGCCGAGGGCAACCTGGCGGTCGGCCGGGAAAATGCCGCGCTCAACCCGGACCTGGCGCCGATGCGCTTCATCCAGTCCGACTACTTCCCGGCGATCCGCCAGTTGGCCGGGTTGCCGATTTCCCGCCGCCATGGCCAGCGCCTGCCCAGCTATCCGCATCTGGATGAGCGTCGCTTCGATCTGGTCTTCCTCGATCCGCCAGCCTGGGCGAAAAGTGCCTTCGGCACCGTCGATCTGCTGCGCGACTACCAGAGCCTGCTGAAACCGGCGCTGCTCGCGACCGCCTACGACGGTGTGCTGGTCTGCTGCAACAACCTGGCGAAAGTCCCGCTGGCCGAGTGGCGCGAACAGGTGCTGCGCTGTGCCGCCAAGCAGGGGCGCACGGTCCGGGAATGGGAGGTGCTGGCGCCCGCCGCCGACTTCCCCTCGCAGGATGGCAAACCGCCGTTGAAGACCTTGGTTCTGCGCTTCTGA	MPSLNQALRAALAARRDLLTDLHAQGTDCYRLFHGSQEGEPGLTLDRYGPQLLVQSFHQPLDQARLPELEAIVAEFLGDKLLLVYNDRSGGNSRIDRSATSHRADAEALDDLVGHEWGLNYRVRGRHAGQDPLLFLDLRNARGWVKANSAGRSVLNLFAYTCGVGLCAAAGGAREVWNLDFAEGNLAVGRENAALNPDLAPMRFIQSDYFPAIRQLAGLPISRRHGQRLPSYPHLDERRFDLVFLDPPAWAKSAFGTVDLLRDYQSLLKPALLATAYDGVLVCCNNLAKVPLAEWREQVLRCAAKQGRTVREWEVLAPAADFPSQDGKPPLKTLVLRF				NA	NA	NA	NA	NA
BMS010_09291	549			hypothetical protein	ATGAACCGCACCGGCCGCACCCTGACACTGGGCTGCCTGTTGCTTCTTTTGTCACCGCTCGCATCGGCGGGCGGCAATTCCCTGCTGATCCCGGCAAGCGGTCGCTGCGCCCTGAACACGCTGCCCGAAGACCTGCCGGAAGCCCTCGCCGCCTGCCAGGACCTGGCCAGGAGCGGCGATAGCCAGGCGCAGTACGAACTCGGCCTGTTCTTCTACGAAGGCAAGCAGACGCCACGGGACCTCGACCAGGCGCTGAACTGGTTCGAACAGGCCTCGCTCAAGGGGCACGCCGACGCACAGTTGCGTCTCGGCAACATGTTCTTCCGCGGCGAAGGTGTGCCGGCCAACAATGTGCAGGCGTACATCGTGCTGAAGATGGCCGCGGTGAACGGCTCCGATGAAGCCATGGACGTGGCCGACCGGGTAGCCGCGCAGATGCGCCGCAACGAGCTGGATATCGCCAGTCAGGTGCTTGGCCAGATTTTCCGCAACTACCTGATCGAACTGCAGACCGTCGACGGCGGCTCGCCTTTCGCCCCACTGCCCTGA	MNRTGRTLTLGCLLLLLSPLASAGGNSLLIPASGRCALNTLPEDLPEALAACQDLARSGDSQAQYELGLFFYEGKQTPRDLDQALNWFEQASLKGHADAQLRLGNMFFRGEGVPANNVQAYIVLKMAAVNGSDEAMDVADRVAAQMRRNELDIASQVLGQIFRNYLIELQTVDGGSPFAPLP	PGPT0000855_6236	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-ACIDITY|NITROGEN_RELATED_REGULATION,PGPT0000855-exoR-K07126	NA	NA
BMS010_09292	645			hypothetical protein	ATGCAATACAGCACGGCCTTGTCCGATGCCCTGCTCGCCCTGGCCTGCCTGGGCGCGGCAGTCTGGCTTGGCAAGGCCCGCTCGCGCTTCGCCGAGGCCGACCAGCCGGCGCTGTTCTGTGCCCTGCTCGGTCTTCTGTTGCCCGCGGCGGCGGCTCTCAGCGGCGCGGTCCGTTACGGGCTGACTGCAGACTGGCGCGAAGCGCACGTCCTGCTCAGCCAGGCCAGCGCCTTCCTCGGCCTGCCGCTACTGGGGGCCGCCGCGCTGAGCCTCGGCCGTGGCTGGGCGTGGAGCCGTCCGGCCTGGGGTCGCCTGGTTCTCGGCCTCTGCGTGTTCTTCGAGCTGGCGCGGCGAATGAATCTGCTGGAGGACTATCGTCTCCTGCTCAATCTGGCCAGCCTGCTGCTGATCCTCTATACCGGCGCGATCCAGTGGCCGCGCCGTGCCCCCGTGCTCGCCGGAGCCTTGGTCAGCGGCCTGTTCCTCCTGGCCGGGCTGGCGGTCGGCACGTCGGGCGTCCTCGGCCCGCTGCGCCGCGTCGACCTGTTCCACCTGCTGCTTGCGGTCGCCTATCCACTGCTGGCTTGGTTGCTGTCGTCGCTTCCCGGTGCCGATGCGGCAAAAAGGCCGGTAAAGGCTTTGTAA	MQYSTALSDALLALACLGAAVWLGKARSRFAEADQPALFCALLGLLLPAAAALSGAVRYGLTADWREAHVLLSQASAFLGLPLLGAAALSLGRGWAWSRPAWGRLVLGLCVFFELARRMNLLEDYRLLLNLASLLLILYTGAIQWPRRAPVLAGALVSGLFLLAGLAVGTSGVLGPLRRVDLFHLLLAVAYPLLAWLLSSLPGADAAKRPVKAL				NA	NA	NA	NA	NA
BMS010_09293	1311	hemL_4	COG0001	Glutamate-1-semialdehyde 2,1-aminomutase	ATGTCCCGTTCCGAAACCCTTTTCGCCGATGCCCAGAAGCATATCCCCGGCGGCGTCAACTCGCCGGTTCGCGCGTTCAAGAGCGTGGGCGGCACACCGCTGTTCTTCAAGCATGCCGCCGGCGCCTACGTCACCGACGAGGATGACAAGCGCTACGTCGACTACGTCGGTTCCTGGGGCCCGATGATCCTCGGCCACAGCCATCCCGAGGTGCTCGACGCGGTACGCCGCCAGCTCGAGCACGGTCTGTCCTACGGTGCCCCCACCGCGCTGGAAACCGAGATGGCCGAATTGGTCTGCTCGCTGGTGCCGTCGATGGAAATGGTGCGCATGGTCAGCTCCGGCACCGAAGCCACCATGAGTGCCATCCGTCTGGCCCGTGGCTATACCGGCCGCGACAGCATCATCAAGTTCGAAGGCTGTTACCACGGCCACTCCGACAGCCTGCTGGTGAAGGCCGGCTCCGGCGCCCTGACCCTGGGCGTGCCCAGCTCCCCTGGCGTGCCGGCTGCCTTCGCCCAGCACACCCTGACCCTGCCGTTCAACGACCTCGACGCGGTCGCCGAGACCCTGGCCAAGGTCAGCGGTGAAGTCGCGTGCATCATCGTCGAGCCGGTGGCGGGCAACATGAACTGCGTCCCGCCGGCTGCCGGCTTCCTCGAAGGGTTGCGCAGCCTGTGCGACCAGTACGGCGTGGTGCTGATCTTCGACGAAGTGATGACCGGCTTCCGCGTCGCCCTCGGCGGTGCCCAGGCCCACTATGGCGTCACTCCGGACCTCAGCACCTTCGGCAAGATCATCGGCGGCGGGATGCCGGTGGGCTGCTTCGGCGGCAAGCGCGAGATCATGTCGTTCATCGCCCCCCTCGGCCCGGTCTACCAGGCCGGCACGCTGTCGGGCAACCCGCTGGCCATGGCCGCCGGCCTGACCACCCTGCGCCTGATCAGCCGTCCCGGCTTCCATGCCGAGCTGACCGCCTACACCAGCCGCATGCTCCAGGGCCTGCAGGACCGCGCCGATGCGGCCGGCATCCCCTTCGTCACCACCCAGGCCGGCGGCATGTTCGGTCTGTATTTCAGCGGCGCGGACGACATCATCACCTTCGCCGACGTGATGGGCAGCGACGCGGAGCGCTTCAAGCGTTTCTTCCATCTGATGCTGGAAGGCGGCGTGTACCTGGCGCCAAGCGCCTTCGAAGCCGGCTTCACCTCGATCGCCCACGGCGATACCGAGTTGAAGATCACCCTGGATGCCGCCGAACGTGCCTTCGCCGAACTGAAGAAAGCACCGCCGGCCAGCACCATTCGCTGA	MSRSETLFADAQKHIPGGVNSPVRAFKSVGGTPLFFKHAAGAYVTDEDDKRYVDYVGSWGPMILGHSHPEVLDAVRRQLEHGLSYGAPTALETEMAELVCSLVPSMEMVRMVSSGTEATMSAIRLARGYTGRDSIIKFEGCYHGHSDSLLVKAGSGALTLGVPSSPGVPAAFAQHTLTLPFNDLDAVAETLAKVSGEVACIIVEPVAGNMNCVPPAAGFLEGLRSLCDQYGVVLIFDEVMTGFRVALGGAQAHYGVTPDLSTFGKIIGGGMPVGCFGGKREIMSFIAPLGPVYQAGTLSGNPLAMAAGLTTLRLISRPGFHAELTAYTSRMLQGLQDRADAAGIPFVTTQAGGMFGLYFSGADDIITFADVMGSDAERFKRFFHLMLEGGVYLAPSAFEAGFTSIAHGDTELKITLDAAERAFAELKKAPPASTIR	PGPT0003680_3403	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003680-hemL-K01845	NA	NA
BMS010_09294	630	thiE_4	COG0352	Thiamine-phosphate synthase	ATGAAATTGCGCGGTCTCTACGCCATCACCGACAGCCAGTTGCTGGCCGACGGCAAGCTGCTGCCCTACGTGGAAGCAGCGCTGGACGGCGGCGCACGCCTGCTGCAATACCGCGACAAATCCGATGACGACGCCCGTCGCCTGCGTGAAGCCGAAGCGCTACGCGCTCTCTGCGAGCGTTATGGCGCCACCCTGATCATCAACGACGATGCCGAACTGGCGGCCCGCCTCGGCGTCGGCGTGCACCTCGGCCAGACCGACGGATCGCTGTCCGCCGCCCGCGCATTGCTTGGCCGCCAGGCGATCGTCGGCGCCACCTGCCACGCGCAACTGGAGCTGGCGGAACAGGCGGTCCGGGAAGGCGCCAGCTACATTGCCTTCGGCCGCTTCTTCCAGTCCAACACCAAGCCGGGGGCGCCGGCTGCAACGCTCGAGCTGCTGGAGCATGCCCACGCACGCTTCAACCAGCCCATCGTCGCCATCGGCGGCGTGACCCTGGAGAACGCGCCCGAGCTGATCGCCCGCGGCGCCAGCCTGGTCGCGGTGATTCACGCGCTGTTCTCCGCCTCCTCCGCTGCCGAGGTGGCCAAGCGCGCCCGCGCCTTCAGCGAACTCTTCGCCACCCCCTGA	MKLRGLYAITDSQLLADGKLLPYVEAALDGGARLLQYRDKSDDDARRLREAEALRALCERYGATLIINDDAELAARLGVGVHLGQTDGSLSAARALLGRQAIVGATCHAQLELAEQAVREGASYIAFGRFFQSNTKPGAPAATLELLEHAHARFNQPIVAIGGVTLENAPELIARGASLVAVIHALFSASSAAEVAKRARAFSELFATP	PGPT0008995_3506	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0008995-thiE-K00788	NA	NA
BMS010_09295	798	thiD_2		Hydroxymethylpyrimidine/phosphomethylpyrimidine kinase	ATGACTACCTCACCCTCCCGTCCCGTCGTCCTCTGTCTCTCCGGCCACGACCCCAGTGGTGGCGCCGGTCTGCAGGCGGACATCGAAGCCCTGCTCGCCCAAGGCTGCCACGCCGCCCCGGCGGTTACCGCACTGACCGTGCAGGACACCGTCAACGTTTCCGACTTCCGCGTCCTCGACCGCGACTGGGTACTGGCCCAAGCCCGCGCCGTGATCGCCGACCTGCCAGTCGCCGCGGTCAAGCTGGGCATGCTCGGCTCGGTGGAAATGGTCGATACCGTGGTGGAGATCATGCAGGCCCTGCCCGGCGTACCGCTGGTCTGCGACCCGGTGCTGCGCGCCGGCGGCGGCGGCGCCCTGGGCAAGGACGACGTCGGCTACGCCATGCGCGAGCGGCTGCTGCCCATCGCCCGGATCGCCACGCCGAACCTGCCGGAAGCCCGCATTCTCGCCGAACTCCCGGAGGGTACGGCGGACCAGTGCGCGGAAAAGTTGCTGCCATTCGCCGAGTACCTGCTGATCACCGGTGGCCATGGCGACGAACAGGAAGTGCACAACCGCCTGTACGGGCGCGATGGCTTGCGCGAAACCTTCACCTGCCAGCGCCTGCCCGGCAGCTACCACGGCTCGGGCTGCACCCTGGCCAGCGCCCTGTCCGGCCGCCTGGCCCTGGGTGAGGACCTGGCCAGCGCGGTGCGCTCGGCCCTCGACTACACCTGGCGCTGCCTGCGCGACGCCGAAACGCCGGGCCGCGGCCAATACGTGCCCCGCCGCCTGCCCCTGGATTTCTGCTCATGA	MTTSPSRPVVLCLSGHDPSGGAGLQADIEALLAQGCHAAPAVTALTVQDTVNVSDFRVLDRDWVLAQARAVIADLPVAAVKLGMLGSVEMVDTVVEIMQALPGVPLVCDPVLRAGGGGALGKDDVGYAMRERLLPIARIATPNLPEARILAELPEGTADQCAEKLLPFAEYLLITGGHGDEQEVHNRLYGRDGLRETFTCQRLPGSYHGSGCTLASALSGRLALGEDLASAVRSALDYTWRCLRDAETPGRGQYVPRRLPLDFCS	PGPT0008915_445	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0008915-thiD-K00941	NA	NA
BMS010_09296	2394	rcsC_29		Sensor histidine kinase RcsC	ATGCGGCATTTCCTTTTCCTTCTATTCGGCTTGCTGCCATTGCTGGCCGGTGCCGTCGAATTCGATGAAAACACCCGTAGCCTGCCGTTGGGGCAGGTCATGGAAGTATTCGAGGACGTGCGCGGCGGTGCCGGTATCGACGAGATCGCGTCGCCGGCGCTGGAGTCCAGCTTCCGTCGCCATGACCAGCCGGTGCTCAACGCCGGCTATTCGCGTTCGGTCTTCTGGCTGCGCATCGATCTCGACTACCGTCCGCTGAGCCTCGGCGGCCAGCGCACCTGGCTGCTGGAACTGGCCTACCCGCCGCTGGACCACCTCGACCTCTACCTGCCGGACGGCCAGGGCGGATACCGCCTGGCCCAGCGCACCGGCGACGCCTTGCCGTTCTCCAGCCGGCAGATCAAGCAGAACAATTACCTGTTCGAACTCAACCTTCAGCCGAACCAGCCGCAGCGCCTCTACCTGCGCGTGGAAAGCCAGGGCTCGATCCAGGCGCCGCTGACCCTGTGGGCCCCGGATGCCTACCTGGAAGACCAGCCCGGACGCATCTATGTGCTCGGTATCATCTATGGCGTGTTGCTGGTGATGCTGGTCTACAACCTGTTCATCTTTCTCAGCGTCCGCGATACCAGTTACCTCTACTACATCCTCTATATCGCCTCGTTCGGTCTCTATCAGGTCTCGGTGAACGGCGCCGGCATCCAGTATTTCTGGCCGGACAACCCCTGGTGGGCCAACGCAGCCACGCCTTTCCTGATCGGCTCGGCGGCGCTGTTCGGTTGCCAGTTCGCCCGCAGTTTCCTGCATACCGGCGAGCACAGCCCCTGGGTCGACCGCGTCCTGCTGCTGATGATGGCGTTCGGTGCCGCGGTGATGGTGTTGGCGCTCACCGTCAGCTACGCCGTGGCCCTGCGGCTCGCCACCTACCTGGCACTGCTGTTCACCGTGGTGATTTTCAGCGCCGGGATCATCGCCTGGCTGCGCGGCCTGCGGGTGGCGCGCTACTTCATCTTCGCCTGGACTGCCTTCCTGCTGGGCGGCGTGGTCAACACGCTGATGGTGCTGGGCTACCTGCCGAACATGTTCCTCACCATGTACGCCAGCCAGATCGGCTCGGCGCTGGAGGTGGGGCTGCTGTCCCTCGCGCTAGCCGACCGGATCAACGCCATGAAAGAGGAGCGTGCGCGCATCCTCGAGGAGTCCGGCCGCAAGCTGGAGGCGCTGAACCGGGAGCTGGCCGACAGCAACCGCTTGAAGGACGAGTTCCTCGCCACCGTCACCCACGAATTGCGCACTCCCATGAACGGCGTGATCGGTTCGCTCGAACTGATGCAGACCGTGAACATGGATATCGAGCTGGCGCAGTACCAGCGCACCGCGGCCAGCTCGGCACGCGACATGATGCGCATGGTCAACGACATCCTGGCGCTGACCGAACTGCAGGCCGGCAAGCTCTATCCGCGCCGCGAGCCGTTCAGCCTGCGTTCGCTGTTCGACGGCCTGCGCGCCCAGTTCGCGCCGCGGGCCGGAGAGAAGGGGCTGAGCTTCACCCTGGACCTGGACGAGACGCTGCCCGACATCGTCCAGGGCGATGCCGGCAAGCTGGCACAGAGCCTCGGTTACCTGCTCGATAACGCTCTCAAGTTCACCAGCCACGGCGGTGTGACCTTGCGGGTAGGGCGTGGCGAAGTCTCGACGAGCGAGACGCTGGCGTTGCAGATCGAAGTGATCGACAGCGGCATCGGCTTCAATACCCCGACGGATGGATCGTTGTACCAGCAGTTCCGCCAGTTGGATGCTTCCTTGACCCGCGAATACGGCGGGCTCGGCATCGGTCTGGCGCTGTGCCGGCAACTGGTGGAGCTGCTCGGCGGCAGCCTCAGCCATTCATCCCGGGCCGGGCAGGGCAGCCGCTTCCGCCTGAGCCTGGTGCTTGGTCTGCCGCCGCTGAACGGCCCGCAGTTGCCGCCGCCTCCCCGTCGCGCCGGCGGCCAGGCGCTGCGCCGGCCCGAGCAGTGCACCGTGCTGGTGGTGGAGGACAACGCGATCAACCAACTGGTGACTCGCGGCATGCTGCTCAAGCTCGGCTACCGCGTACGCACCGCCGACAACGGCGCCGAGGCCCTGGAGTTGTTGCGCTTCGAGCCGGTGGATGCGGTGCTGCTGGACTGCCAGATGCCGATCATGGACGGCTTCGCGACCTGCCGCGCGCTGCGCCTCCTGCCCGAGTGCCAGGACCTGCCGGTTCTGGCGATCACCGCCCATAGCCACAGCGGCGACCGGGAGCGCTGCCTGGCTGCCGGGATGAGCGACTACCTGGCCAAGCCGGTGAAGTTCGAGGCCCTGCAAATACTGCTGCACGATTGGGTGCTGTGCACGTCAGCCCGCTACTAG	MRHFLFLLFGLLPLLAGAVEFDENTRSLPLGQVMEVFEDVRGGAGIDEIASPALESSFRRHDQPVLNAGYSRSVFWLRIDLDYRPLSLGGQRTWLLELAYPPLDHLDLYLPDGQGGYRLAQRTGDALPFSSRQIKQNNYLFELNLQPNQPQRLYLRVESQGSIQAPLTLWAPDAYLEDQPGRIYVLGIIYGVLLVMLVYNLFIFLSVRDTSYLYYILYIASFGLYQVSVNGAGIQYFWPDNPWWANAATPFLIGSAALFGCQFARSFLHTGEHSPWVDRVLLLMMAFGAAVMVLALTVSYAVALRLATYLALLFTVVIFSAGIIAWLRGLRVARYFIFAWTAFLLGGVVNTLMVLGYLPNMFLTMYASQIGSALEVGLLSLALADRINAMKEERARILEESGRKLEALNRELADSNRLKDEFLATVTHELRTPMNGVIGSLELMQTVNMDIELAQYQRTAASSARDMMRMVNDILALTELQAGKLYPRREPFSLRSLFDGLRAQFAPRAGEKGLSFTLDLDETLPDIVQGDAGKLAQSLGYLLDNALKFTSHGGVTLRVGRGEVSTSETLALQIEVIDSGIGFNTPTDGSLYQQFRQLDASLTREYGGLGIGLALCRQLVELLGGSLSHSSRAGQGSRFRLSLVLGLPPLNGPQLPPPPRRAGGQALRRPEQCTVLVVEDNAINQLVTRGMLLKLGYRVRTADNGAEALELLRFEPVDAVLLDCQMPIMDGFATCRALRLLPECQDLPVLAITAHSHSGDRERCLAAGMSDYLAKPVKFEALQILLHDWVLCTSARY	PGPT0025890_165	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-Gac|Rsm_PATHWAY,PGPT0025890-ladF-K20971	NA	NA
BMS010_09297	651			hypothetical protein	ATGGTCTATCGCATCACCGCCGCCCGACTCGACCGCGACCAGGCCCTGCGCGAGCGCATCCTCGAGTGCGCACTGGCACGGGTCGCCGAGGGGGGATTCGCCGCCCTCACCATGCAGGGGCTTGCCGAAGACGTGGGTATCGCCACCGGCAGCCTGTATCGTCATTTCCGCAACAAGGGCGAACTCGCCGCGGAAGTCTTCGCCCGTGCCAGCCAGCGCGAGGTGGATACACTGAGCGCCGTGCTGCGCGGCCCGGGAACCCCGGAGGCGCGCCTTGCCGCGGGGCTTCGGCAGTTCGCCGCGCGTGCCTGGCACAGTCGTCGCCTGGCCTTTGCCCTGATCGCCGAACCGGTCGATCCGGAGGTCGACGAGCAGCGCCTGCTCTACCGCGAGGCCTATGCCGAGCTGTTCGGCGACTTGCTGGACGAGGGCGTGCGCAGCGGTGCATTCCAGGCTCCGCTGCTCGGCGTGAGTTCGGCCTGTCTGGTCGGCGCCATCGCCGAAGCCCTGGTCGGCCCGCTTTCGCCCCCGGCCCGTGCGGCCCGCGAAGAGGGCCACTCCCAACCCGACCTGGCCGCTGTCAGCCAGGCCCTGGTCACTTTCTGCCTGCGCGCCCTGGGCGCGCGTCTGCCTGAGGACCCGACGCCATGA	MVYRITAARLDRDQALRERILECALARVAEGGFAALTMQGLAEDVGIATGSLYRHFRNKGELAAEVFARASQREVDTLSAVLRGPGTPEARLAAGLRQFAARAWHSRRLAFALIAEPVDPEVDEQRLLYREAYAELFGDLLDEGVRSGAFQAPLLGVSSACLVGAIAEALVGPLSPPARAAREEGHSQPDLAAVSQALVTFCLRALGARLPEDPTP				NA	NA	NA	NA	NA
BMS010_09298	1650	aidB_2	COG1960	Putative acyl-CoA dehydrogenase AidB	ATGAACCTGCACCAGTACGCCGAAACCCATGACGTGTTCAATCAGGTCCCGCCGCTGGAGGGGATAAACCTGTACCGTGTGGACCTGCCTCTGCAGGAGTGGGTACGGCGCTTCCATGGCGGATGGGCGGAGGAGCGGCTCGATACCTACGGGGCGCTGGCCGGCGGACCGCTGATGGCCGCCGGCTTCCTGGCCAACGAGCACAAGCCGGAATTCAAGAGCCACGACCGCTACGGCCATCGCCAGGACCTGGTGGAATTCCACCCGGCCTATCACGAACTGATGCGCACGGCCATCGAACACGGCATTCCCTCGCTGCCCTGGACCGACCCGCGCGCCGGCGCCCACGTGGCGCGTGCCGGGTTGTCCTACCTGCACACCCAGGCCGAGGCCGGCACGGGCTGTCCGCTGACCATGACCTTCGCCAGCGTGCCGGCGCTCAAGTTGCAGCCGGACATCGCCGAGCAATGGGTGCCGAAGATCGTCGCGACCCAGTACGACCCGCGTAACGTGCCGATGGCGCAGAAGGCCGGCGTCACCATCGGCATGGCCATGACCGAGAAGCAGGGCGGCACCGATGTGCGGGCCAATACCACCAAGGCCTATCCGGTCGGCATTCCCGGGCCGGGCCAGGCCTACGAACTGGTCGGCCACAAGTGGTTCTGTTCGGCGCCGATGTGCGATGCCTTCCTCACCCTGGCCTACAGCGAGAAGGGTCTGAGCTGCTTCCTGCTGCCGCGCCATCGTCCGGACGGGACGCGCAACCAGTTTTACGTGCAGCGCCTGAAGAACAAGCTGGGCAACTGGTCCAACGCCTCCAGCGAAGTGGAATACCGCGGCGCGCTGGCCTGGATGATCGGCGAGGAAGGGCGCGGCGTGCCGACCATCATCGAGATGGTGGCGCTGACCCGCTTCGACTGCATGATCGGTTCCAGCGCACTGATGCGTCAGGCCCTGACCCAGGCCGCTCATCATTGTGCCTACCGTCAGGTCGGTGGCCGGGTGCTGGCCGAGCAGCCGCTGATGCAGAACGTGCTCGCCGACCTCGCACTGGAGAGCGAAGCTGCCCTGGCGCTGACGATGCGCATGGGCCGCGCGCTCGACCATGCCCATGACGAGCAGGAAGAGAAGTTCGCCCGTCTGGTTACCGCCATCGGCAAGTACTGGATCTGCAAGCGTGCCCCGGCGATGATCAACGAGGCCTCGGAGTGCCTGGGCGGCGCCGGCTACGTGGAGGAGACCGTCCTGCCACGGCTGTACCGCGAAGCGCCGGTCAACTCGATCTGGGAGGGTTCGGGCAATGTCCAGTGCCTGGATGTGCTGCGTGCGCTGTCGAAGGAGCCGGGTGTGCTCGATGCCTTGTTCGCCGAGCTCGGCGACGGTCACGGCGATGCCCGGCTGAAGGCGCACATCGCTCAATTGCAGACGGCGTTCCGCGACACCGACGACATCCAGTACCGCGCGCGCCAGCTCACCGAAGACGTCGCCATGGCGCTACAGGCCAAGCTGCTGCTGGAGGCCGGCAACGCCACGGTATCCGATGCCTTCCTCGCCAGCCGTCTGGGCCAGGGCGGCCGGGTCTACGGCACCCTGCCGCGGGGCATCGATGTGGAGGCGCTGGTGGCCCGCAGTACGCCACATCCCATGTGA	MNLHQYAETHDVFNQVPPLEGINLYRVDLPLQEWVRRFHGGWAEERLDTYGALAGGPLMAAGFLANEHKPEFKSHDRYGHRQDLVEFHPAYHELMRTAIEHGIPSLPWTDPRAGAHVARAGLSYLHTQAEAGTGCPLTMTFASVPALKLQPDIAEQWVPKIVATQYDPRNVPMAQKAGVTIGMAMTEKQGGTDVRANTTKAYPVGIPGPGQAYELVGHKWFCSAPMCDAFLTLAYSEKGLSCFLLPRHRPDGTRNQFYVQRLKNKLGNWSNASSEVEYRGALAWMIGEEGRGVPTIIEMVALTRFDCMIGSSALMRQALTQAAHHCAYRQVGGRVLAEQPLMQNVLADLALESEAALALTMRMGRALDHAHDEQEEKFARLVTAIGKYWICKRAPAMINEASECLGGAGYVEETVLPRLYREAPVNSIWEGSGNVQCLDVLRALSKEPGVLDALFAELGDGHGDARLKAHIAQLQTAFRDTDDIQYRARQLTEDVAMALQAKLLLEAGNATVSDAFLASRLGQGGRVYGTLPRGIDVEALVARSTPHPM				NA	NA	NA	NA	NA
BMS010_09299	336			hypothetical protein	ATGACCCGTCATCAAGCCTTCCGTCACGAGCGCCTGCTTGCCGCACTCTGGCGCGAGCGGGGCGATCCCGCCGCCGAGCTTCGCCACTTGGAGCGCGCCCATATCCTCAGTCAGCCGAGCTTTATCGATCATTCTCTCAGCCATGTCTGGTTGTTCGCCTGGGCCTGGCGGCAGCGGGATCTCAGGGAGATGGCCGCGCAGTTGTTGCGCCTGCCCGGCAGCCTGGGCTCGCTGGCCGGGGTCTATCCCTTGGGCAATCCCGGGACACGCCGGGTGGGGCCGCTGGTGCCGCAGCCGGTGCCCGAGGATTTGCGAGCGTTCCTGGCGCGCGGTTGA	MTRHQAFRHERLLAALWRERGDPAAELRHLERAHILSQPSFIDHSLSHVWLFAWAWRQRDLREMAAQLLRLPGSLGSLAGVYPLGNPGTRRVGPLVPQPVPEDLRAFLARG				NA	NA	NA	NA	NA
BMS010_09300	1473	amn_2	COG0775	AMP nucleosidase	GTGAACATCGACTCGGACGCTTTCATCGTCGCCCATACCCCCGAAGAGGCCGTGGATCGGCTGGCCGCGCTGCACCGGCGCGCGACCTCGGCGCTGACCCAGGCGCTCAAGCGCTACCTGAAGGAGCGCATCGAGCCGGACGCCGCGCAGCGCGCCCTGTTCCGTTATCCGCAACTGCGTCTGACCTACCTGTGCCAGGGCGAAGTGCCGTCCACCGTGCGTGCCTACGCCAAGGTGCAGGTGCCGGGCACCTACAGCAGCACAGTGACCCAGCCGGAAGCGTTTCGCAATTACCTGCTCGAGCAGTTGCGCCCCTTGATGAGCGACTTCACCGTGCAGGTCGAAGTCGGCGTGAGCGAACAGAACATTCCCTATCCCTACGTGGTGGAGCACGGCGACGAGCTGGCGGCGTCCGGCGTGACCGCCGCCGAGCTGGCGCGGGTGTTCCCCAGCACCGACCTGTCGGCCGCCTCGGACGGCATCGCCGATGGCCTGTACGACTGGCAGACCGCCGATCCGCTGCCCCTGGCGCTGTTCGACGCGGCGCGGGTGGATTTCTCCCTGCGCCGCCTGGTGCACTACACCGGCAGCGACTGGCGCCACATGCAACCGTGGATTCTGCTGACCAACTACCACCGCTACGTCGACCAATTCATCCTCCACGGACTGAGCCGGCTGCGTGAGGATTCGCGCTTCGTGCGCATGGTGCTGCCGGGCAACGTGGTAATCGAGCGCGGCATGGAAGAGGGCGAGGCCCAGGCCATCATCGGCGGGGTGCTCTGGCATCGTTACCAGATGCCGGCCTACCACCTGGTCGCCGAGGATGGCCATGGCATCACCCTGGTGAACATCGGGGTCGGCCCGTCCAACGCGAAGAACATCACCGATCACCTCGCCGTGTTGCGCCCGCATTGCTGGCTGATGATCGGCCACTGCGGCGGCCTGCGGCAGTCGCAGACCATCGGCGACTACGTGCTGGCCCACGCCTACATGCGGCGCGACGGCATCCTCGATCGCGTACTGCCGCCGAACATCCCGCTGCCGGCCCTGGCCGAAGTGCAGTTGGCGCTGCAGGAGGCGGCGGCACAAGTCACCGGCGAGCGGGGCGAGGCGCTGAAGAAACGCCTGCGCACCGGCACCGTGCTGACCTACGACGACCGCAACTGGGAACTGCGCTGGGCGCAGGAACGGCCATTGATCAACCTGTCCCGCGCGGTGGCGGTGGACATGGAGAGCGGCACCATCGCCGCCCAGGGCTATCGCCTGCGGGTGCCCTACGGCACGCTGCTGTGCGTATCCGACAAGCCACTGCACAGCGAGATCAAGCTGCCCGGCGCCGCCAATGCCTTCTACGAGCGTGCCGTCACCCAGCATCTGCGCATCGGCATCGCGGCCCTCGATTTGTTGCGCAGCCAGCTCAACTCCCTGCACTCGCGCAAGCTGCGCAGTTTCGACGAGCCGCCGTTCCGCTAG	MNIDSDAFIVAHTPEEAVDRLAALHRRATSALTQALKRYLKERIEPDAAQRALFRYPQLRLTYLCQGEVPSTVRAYAKVQVPGTYSSTVTQPEAFRNYLLEQLRPLMSDFTVQVEVGVSEQNIPYPYVVEHGDELAASGVTAAELARVFPSTDLSAASDGIADGLYDWQTADPLPLALFDAARVDFSLRRLVHYTGSDWRHMQPWILLTNYHRYVDQFILHGLSRLREDSRFVRMVLPGNVVIERGMEEGEAQAIIGGVLWHRYQMPAYHLVAEDGHGITLVNIGVGPSNAKNITDHLAVLRPHCWLMIGHCGGLRQSQTIGDYVLAHAYMRRDGILDRVLPPNIPLPALAEVQLALQEAAAQVTGERGEALKKRLRTGTVLTYDDRNWELRWAQERPLINLSRAVAVDMESGTIAAQGYRLRVPYGTLLCVSDKPLHSEIKLPGAANAFYERAVTQHLRIGIAALDLLRSQLNSLHSRKLRSFDEPPFR	PGPT0021500_455	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021500-amn-K01241	NA	NA
BMS010_09301	1071		COG2220	putative protein	ATGTCATCACGCCGTCCCCTCTGGCTGGTCAGCCTGCAAAGCCTTCTCGGCCGCGCTGGCGATGGTTACCAGGGACCGCCTTCCGATCATTTCGATGGGAAGCGCTTCCGCAACCTGCACCCGACCCCACACAAGAGCTTCGCCAGCTTCCTCAAGTGGCAGCTCAACCACGAGCCGCAACCGGCATGGATCGACCAGCCGGGCCCGGCCAACCCTCCGGCGATACCGCAGCGGGTCGAGGGCAACGATTTGCGGGTGACCTATATCAACCACGCCACGATCCTGATCCAGCAGCACGGCCTGAACATCCTCACCGATCCGCTCTGGTCGCAGCGGGCCAGCCCCTTCTCGTTCCTCGGCCCACGCCGATATCATCCGCCGGGCCTGAGCCTCGACGAATTGCCGCCAATCGACGTCATCCTGGTCAGCCACAACCATTACGACCACCTCGACCTCTACAGCCTCCGCGAACTGGCCCGGCGTTTTCCCGAGGCGCGGGTGATCACCGGGCTGGGCAATGGCGCGCTGATCGAGGCCGCCGGCTGGTCCGGGGTGAACGAAATCGACTGGTGGCAAAGCCTGCCGCTCAACGAGCACCTGATCCTGCACGGCGTGCCGGCTCAGCACTGGTCCGCCCGCGCCCGTCGCGACACTAATCGGACCCTGTGGATGGGCTTCGTCCTGGCATCGGCGGAAGGTCCGGTGCTGTTTCCCGGCGACAGCGGCCTGGGACCGGAATTCGGGCTGATCCGCGAGCGCTTCGGCCCGCTACGCTTCGCTGCCCTACCGATCGGTGCCTATGCGCCGCGCTGGTTCATGCGCGACAACCACATGAACCCCGACGATGCGGTCCAGGCACACCTGACGCTGGAGTCGCAGTGCAGCATGGCGATCCACTTCGGCACCTTCCGCCTCAGCGACGAGGGCCAGTTCGCCCCGCTACGCGACCTGGCCAAGGCACTCACCGAACGCCAAGTGGCGCCGGAACGCTTCCGCGCCCCGGCGCCCGGTGAGCATTGGCAGGTACCGCCGCTAACCATCGGCGCAACCGACAGCCGTCGCGCCGGCTAA	MSSRRPLWLVSLQSLLGRAGDGYQGPPSDHFDGKRFRNLHPTPHKSFASFLKWQLNHEPQPAWIDQPGPANPPAIPQRVEGNDLRVTYINHATILIQQHGLNILTDPLWSQRASPFSFLGPRRYHPPGLSLDELPPIDVILVSHNHYDHLDLYSLRELARRFPEARVITGLGNGALIEAAGWSGVNEIDWWQSLPLNEHLILHGVPAQHWSARARRDTNRTLWMGFVLASAEGPVLFPGDSGLGPEFGLIRERFGPLRFAALPIGAYAPRWFMRDNHMNPDDAVQAHLTLESQCSMAIHFGTFRLSDEGQFAPLRDLAKALTERQVAPERFRAPAPGEHWQVPPLTIGATDSRRAG				NA	NA	NA	NA	NA
BMS010_09302	639	rluE	COG1187	Ribosomal large subunit pseudouridine synthase E	ATGTCGCGTCCTTCCCGCCCTGCTTCCCGTCCCGCTCCGCGCCGCCTTCCCGGCAAACCGGCGGCACCGCGCCGGGTGGCCAAGGCGCCGCCTGCCGAACCGCGGCTGATCCAGTTCAACAAACCGTTCGACGTTCTCACCCAATTCAGCGACGACCAGGGGCGGGCGACCCTCAAGGACTTCATCCCGATCCCCGGCATCTACCCGGCGGGGCGGCTCGACCGCGACAGCGAGGGTCTGCTGCTGCTCACCAATGACGGCCGGCTGCAGGCGCGCATCGCCGATCCCCGGCACAAGCTGGCGAAGACCTACTGGGTGCAGGTGGAAGGCGAACCGAGCGATGAACAGTTGCAGCGGTTGCGCGACGGTGTGGAACTGAACGACGGTCCGACGCTGCCGGCCGAGGCTCGTCGCCTGGAAGAGCCCGCGCTTTGGGAGCGCAATCCGCCGGTGCGTTTTCGCAAGAGCGTGCCCACCGCCTGGTTGGAGCTGGTGATTCGCGAGGGGCGCAACCGTCAGGTCCGGCGCATGACGGCCGCAGTCGGGCTACCGACGCTTCGGCTGGTGCGGGTAAGGATCGGCGACTGGACGCTGGACGGGCTGGCGCCCGGTGAGTGGCGGGAGGTGGCGCCGCACTAG	MSRPSRPASRPAPRRLPGKPAAPRRVAKAPPAEPRLIQFNKPFDVLTQFSDDQGRATLKDFIPIPGIYPAGRLDRDSEGLLLLTNDGRLQARIADPRHKLAKTYWVQVEGEPSDEQLQRLRDGVELNDGPTLPAEARRLEEPALWERNPPVRFRKSVPTAWLELVIREGRNRQVRRMTAAVGLPTLRLVRVRIGDWTLDGLAPGEWREVAPH	PGPT0029005_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029005-bcr|tcaB-K07552	NA	NA
BMS010_09303	393			hypothetical protein	ATGAAACCCGCCGATCGTGTAATGCAGAGCTATGGCCGCTGCTGCGCCAGCCCTGCATTCTTCGATACCTTCTATGAAATCTTTCTCGCCAGTTCGCCCCAGGTTCGCGAGAAATTCGCCAACACGGATATGTCGCAGCAGAAGCTCCTGCTGCGCCAGGGCATTCTCAACCTGGTGCTCTATGCCCGCGGCATGCCGGACAGCAAACTGCGCGCCCTGGGCGAATCCCATTCACGGGAACGCATGGACATCCGCCCCGAACTCTACGACCTCTGGCTGGATTCGCTGCTCGGCGCCATCGGCCGGCATGATCCGGAGTGCGACGCGGAAACCCGCGATGCCTGGCGCGAAGTGCTCGTCAAGGGCATCAATCTGATCAAGTCGTTTTACTGA	MKPADRVMQSYGRCCASPAFFDTFYEIFLASSPQVREKFANTDMSQQKLLLRQGILNLVLYARGMPDSKLRALGESHSRERMDIRPELYDLWLDSLLGAIGRHDPECDAETRDAWREVLVKGINLIKSFY				NA	NA	NA	NA	NA
BMS010_09304	204			hypothetical protein	ATGGATCCCGAGTTGTTCGAAGAATGGATGATGATTGGCCTGGTCAGCGCGCTGGTCGGCTTCATGGCGTTCATCGTCTGGGACCTGGCCAAGAAGTCCAAGGCCGGCCGCTTCGGCACCATGATCCTGTTCCTCGCCCTCGGCCTGGGTGTGCTGGGTTTTGTGATCAAGTCGCTGGTTATCGGTAGCCTGGAAGGCGTCTGA	MDPELFEEWMMIGLVSALVGFMAFIVWDLAKKSKAGRFGTMILFLALGLGVLGFVIKSLVIGSLEGV				NA	NA	NA	NA	NA
BMS010_09305	480	decR_8	COG1522	DNA-binding transcriptional activator DecR	ATGAACAAACTCGACCGTTACGACCTGCGCATCCTCGCCGAACTGCAGCACGACGCCCGTATCTCCAACCAGGAACTGGCCGAGCGCATCGGGCTGTCGCCCTCGCCCTGCTCGCGACGGGTGAAGCAACTGGAAGATGACGGCTATATCGTGCGCCAGGTGGCCTTGCTGGACCGCAAGAAGCTCGGTCTGACCCTCACCGCCTACGTGCTGATCGGCATGGACCGGCATACGCCGGAACGTTTCGAGCGGTTCGAAGCGGCCATCCGTCAATGCCCGGAAGTGCTGGAATGCAGCCTGGTCACCGGGATGGAAGCGGACTACCAGCTCAAAGTGGTGGTGCCGGACATGGACCATTACCAACAGTTCTTGCTCGGCCAGCTCACCCGCATCGAAGGGGTCACCAGCGTGCGTTCGAGCTTCGTCCTGAACCAGGTGCTGAGCAGTACCGAGCTGCCGTTGCAGCATCTGCGCAACTGA	MNKLDRYDLRILAELQHDARISNQELAERIGLSPSPCSRRVKQLEDDGYIVRQVALLDRKKLGLTLTAYVLIGMDRHTPERFERFEAAIRQCPEVLECSLVTGMEADYQLKVVVPDMDHYQQFLLGQLTRIEGVTSVRSSFVLNQVLSSTELPLQHLRN	PGPT0014049_128	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014049-doeX-K15782	NA	NA
BMS010_09307	177			hypothetical protein	ATGGGGATTGTGGAGGTTTTCGCCTTGTTGTTGCTGGGGCTGTCGCCGCTGGTGGTCGCCAAACCGCCGCAGTCGATGGTTCCGGAAATCGAAGTGGTCGAGCGGATCGATCCGCAGGTTGCGAGGACATTGCTCGCGGAGCGGCCGCAGAACCCGAAAACGAAGATCGGGGCCTGA	MGIVEVFALLLLGLSPLVVAKPPQSMVPEIEVVERIDPQVARTLLAERPQNPKTKIGA				NA	NA	NA	NA	NA
BMS010_09308	894	fieF_2	COG0053	Ferrous-iron efflux pump FieF	ATGAGCCCGAGCCCCCCACACGCCAACCTGCTGCGCCTGGCTACCCACGCGGCCCTGACCGTGGCGCTCTGCCTGGTGGTCGCCAAGGCCGTGGCCTGGTGGCTGAGCGGTTCGGTGAGCCTGCTCGCCGGCCTGACCGACTCGTTGCTGGACAGTGCGGCCTCTCTGCTCAATCTGCTGGCGGTGCACTATTCGCTGCGCCCGGCCGACGACGACCACCGCTACGGCCACGGCAAGGCCGAAGCCCTGGCCGGACTGGGCCAGTCGCTGTTCATCGGGATCAGCGCCCTCTTGGTCGGCGCGCAAGGTGTGAACCGCCTGCTCCATCCGGAGCCGCTGGGCGCGCAGGCACTGGGTATCGGAGTGATGGCCCTGTCGCTGGTGCTGACCGCCGCCCTGCTGGCGTACCAGCACCATGTGATCAAGGTCACCGGCTCCACCGCGATCCGCGCCGATTCGCTGCACTACCGCTCGGACCTGCTGCTCAACAGCAGCATCCTGCTCGCCCTGATCCTGGCCAGTTATGGATGGGAGCGGCTCGACGCGCTGTTCGGCATCGGCATCGCCTTCTACATCCTGTGGAGCGCCGGCAGCATCGCCCGCGAAGCGGGCGCAGTGCTGATGGATACGGAGCTGCCGCCGGACGTAAGCGCGGACATGCATCGGCTGGCCTGCGAGGTACCCGGCGTGCTCGGCGCGCATGACCTGCGCACGCGCATATCCGGCACGCATTGGTTCGTTCAGCTCCACCTGGAGCTGCCCGGCGAGCTGTCGCTATCCCAGGCTCATTGCCTGTGCGACCAGGTGGAGGCGGCTATCCATGCCGTCTACCCCCGGGCCGAGGTACTGGTGCACGCGGACCCGAGCGAAGTGGTGCGCCACGACCGGCCGTGA	MSPSPPHANLLRLATHAALTVALCLVVAKAVAWWLSGSVSLLAGLTDSLLDSAASLLNLLAVHYSLRPADDDHRYGHGKAEALAGLGQSLFIGISALLVGAQGVNRLLHPEPLGAQALGIGVMALSLVLTAALLAYQHHVIKVTGSTAIRADSLHYRSDLLLNSSILLALILASYGWERLDALFGIGIAFYILWSAGSIAREAGAVLMDTELPPDVSADMHRLACEVPGVLGAHDLRTRISGTHWFVQLHLELPGELSLSQAHCLCDQVEAAIHAVYPRAEVLVHADPSEVVRHDRP	PGPT0003831_705	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK|IRON-TRANSPORT,PGPT0003831-fieF-K13283	NA	NA
BMS010_09309	519			hypothetical protein	ATGACGACCCGACGGAACGGAACCCTGCTCACTCACCTCGAACGCATGCTGACCTACCACGGCTGGGCTTATCGACACCTGCTGGCGGCCGTGGAGCCGCTCGGCGAGGATGCCTGGAAGGCCCCATGCGGACTGTTCTTCGGCAGCCTTCATGGCACACTCAACCACCTTGCCGTAGCCGACCGTATCTGGCTCGCCCGGGTACGTGGCGAACCGGCGCCCTTCGCCCGACTGGACGCGGAAGCGGCAGCCAGTCGCACCGAGCTGGCCGACTACCTAGCCGAAGGCGTGCAGGCTTGGCTGCAGTTCCTCGATCAGCATGACGACGCCAGCCTCGCCGCCCACCTGGACTACCGCAACATGCGGGGCGAGCCCTTTCGCAAGCCGCTGGCCGATATCGTCCTGCACCTGGTCAACCATGGCACGCATCACCGCGGCCAGATGAGCGCCGCCCTTACCGCCATGGGCCAGCCGGCGCCAGTGCTGGACTACCTCTACTTCCTGCCGGACGATCTATGA	MTTRRNGTLLTHLERMLTYHGWAYRHLLAAVEPLGEDAWKAPCGLFFGSLHGTLNHLAVADRIWLARVRGEPAPFARLDAEAAASRTELADYLAEGVQAWLQFLDQHDDASLAAHLDYRNMRGEPFRKPLADIVLHLVNHGTHHRGQMSAALTAMGQPAPVLDYLYFLPDDL				NA	NA	NA	NA	NA
BMS010_09310	417			hypothetical protein	ATGCGCACGCATTCCCGTGTCATCGGCGGGGTCCTCATCGCCGCCCTGTTCAGCCAGTTGTCCGCTTGCGGCACGCTGTTCTTTCCCGATCGCCGGGGCCAGATCGAAGGCAAGATCGACCCGGTGGTGGCCGCACTGGATGCCGTCGGCATTCTCTTCTATGTGATCCCGGGCCTGATCGCCTTCGGCATCGACTTCGCCACCGGCGCCATCTACCTGCCCGACAACCAGTACTCGGTAGCCCCGGAAACCCTCAAGGACGCCATCGGCAGCGACGGCCAGATCGACCGCGCCAAGCTCAAGGCGATCATCGAGCGGGAAACCGGCCACAGCCTGCCGCTGGACGACCCGCGCCTGATCCAGCACAGTGGCAGCCTGCAGCAACTGGCCGCCTACGGCCTGCGCCCAGCCGCCTGA	MRTHSRVIGGVLIAALFSQLSACGTLFFPDRRGQIEGKIDPVVAALDAVGILFYVIPGLIAFGIDFATGAIYLPDNQYSVAPETLKDAIGSDGQIDRAKLKAIIERETGHSLPLDDPRLIQHSGSLQQLAAYGLRPAA				NA	NA	NA	NA	NA
BMS010_09311	2517	hrpB_2	COG1643	ATP-dependent RNA helicase HrpB	TTGCTCGCCCTGCCCATCGATGCCGTATTGCCCGCCCTGCGCACCGCCCTGGTCGAGCGCCATGACGTGGTGCTGGAGGCGCCGCCGGGCGCGGGCAAGACCACCCGGGTACCGCTGGCCCTGCTCGACGAGCCCTGGCTGGCCGGGCAGTCGATCCTGATGCTGGAGCCGCGCCGGCTGGCGGCGCGGGCGGCGGCGGAGCGGCTGGCCAACGAGCTGGGCGAGCGGGTCGGCGAGACGGTCGGCTACCGCATCCGCCTGGAATCGAAGGTCGGGCCGAAGACCCGCATCGAAGTGGTCACCGAAGGCATCCTGGCCCGTCGCCTGCAGGACGATCCGGCGCTGGAGGGCGTGGGGCTGGTCATCTTCGATGAGTTCCACGAGCGCAGCCTGGATGCCGACCTGGCCCTGGCGCTCACCCTCAACGGTCGCGAACTGTTGCGCGACGAGCCGCCGCTGAAAGTCCTGCTGATGTCCGCCACCCTGGAAGGCGAGCGGCTTTCGACGCTGCTCGGCGCGGCACCGATGGTGCGCAGCGAGGGGCGGATGTTTCCGGTGGACATCCGCTGGGGACGTCCAGTCCAGCCCGGCGAATACCTGGAGCCCCGGGTCGTCGCGACGGTGTTGCAGGCGCTGGCCGACGAACCGGGCAGCCTGCTGGTGTTCCTGCCCGGCCAGGCGGAGATACGCCGGGTCCACGAGCAATTGGCCGAGGCGTTGGCCGGGCGTGGCGACCTCCTGCTCTGTCCGTTGCACGGCGAACTCGATCTCGCCGCCCAGCGCGCCGCCATCGAACCGGCGCCGGCCGGGATGCGCAAGATCGTGCTGGCCACCAACATCGCCGAAACCAGCCTGACCATCGATGGTGTGCGTGTGGTCGTCGACGCCGGATTGGCGCGGGTGCCGCGCTTCGATCCGAACAGCGGCATGACCCGCCTCGACACCCAGCGCATCTCCCGGGCCAGCGCGACGCAGCGCGCCGGACGTGCCGGACGCCTGGAGCCGGGCGTGTGCTACCGGCTGTGGTCGCAAGAGCAGCATGAGCAACTGCCAGCCTATGGCAGCGCAGAGATTCTCCAGGCCGATCTGGCCGGGTTGGCCTTGCAATTGGCGCGCTGGGGCGTGGCGCCTGCCGAACTGGTCTGGCTCGATCCACCGCCCCCGGCGGCTTATGCCCAGGCGCGCGATCTGCTCGGCCGTCTCGGTGCCCTCGACGCGCGGGGCGTGCTGACGCCTCATGGCCAGGCAATGGCCGAGTTGCCGGCGCACCCACGCATCGCTCATTTGCTGCTGCGTGGTCAGGCCCTGGGGCTGGGCGCGCTGGCCTGCGACCTTGCCGCCTTGCTCGGCGAGCGCGACATCCTGCGGGGTGGAGGTGCCGACTTGCACAGCCGCCTGGCACTGCTGGCTGGGGAGAGGTCGGCCGGTGCCAGCCGCGGCGGCGTGCAGCGCGCCCGGCAACTGGCCCGCCAATACCGAAGCTACCTGCGTGGCGAGGCTCGGGAGGCGGTGGCCGATCCCGAGCACGGGCGCTGGCTCGGCGCGCTGCTGGCGTTCGCCTACCCGGATCGCGTTGCCCGCCAACGCCGTCCTGGCGGCGCCGAGTACCGGCTGGCCAACGGCCGGGCGGCTCTGTTCGGCGAACCGGACGCCTTGATGAAACATGAGTGGCTGGTGATCGCCGACCTCGGCAGTCGCCAGGGGCAGCGCGAGGAGCGCATCTACCTCGCGACCGATCTCGATCCGGCGTTGTTCGATGGCGTGCTGGCCGAGCAGGTGCAAAGCCGCGATGAGCTGGAGTGGGACGAGCGCGAAGGCGTACTGCGTGCCGAGCGTCAGCGGCGGGTCGGCGAACTGGTGTTGGATCGCGAGCCGTTGCCAGGGCTGGACGAGGCGGCGCGCTGCCGGGCATTGGTTCAACTGGTGCGGCGCAAGGGTCTGGAACTGTTGCCCTGGACACCGGAATTGCGCCAGTGGCAGGCACGGGTGGCACTGCTGCGCCGAATCGATCTGAAGAGCGGCGGTCGCAGCGACTGGCCCGATGTCTCCGACGTGGCGCTGCTCGACAGTCTGGAGGACTGGTTGGCGCCATACCTCGGCAAGGTCAGCCGGCTCAGCCACTTCGGCAACCTCGATCTGGGCGGCATTCTCGCCGGTCTGTTGCCCTGGCCGCTGCCGCAGCGCCTGGAGGAATTGGCGCCGCGTAGCCTGAGCGTACCGTCCGGGTCGAACATCCGCCTGGACTACAGCGAGGACCCGCCGATCCTGGCGGTGCGTCTGCAGGAACTGTTCGGCCTCGCCGAGACGCCGCGTATCGCCGGCGGCCGGCAGATCGTCAAGCTGCACCTGCTGTCCCCGGCGCGCCGCCCGGTGCAGGTGACACAAGACCTGGCGAGCTTCTGGCGCAACACCTACGCCGAGGTGAAGAAGGATCTCAAGGGGCGCTATCCCAAGCACTACTGGCCTGACGATCCCTTGATCGCCGAACCTACCGCGCGTGCCAAGCCGAGAGGCTGA	MLALPIDAVLPALRTALVERHDVVLEAPPGAGKTTRVPLALLDEPWLAGQSILMLEPRRLAARAAAERLANELGERVGETVGYRIRLESKVGPKTRIEVVTEGILARRLQDDPALEGVGLVIFDEFHERSLDADLALALTLNGRELLRDEPPLKVLLMSATLEGERLSTLLGAAPMVRSEGRMFPVDIRWGRPVQPGEYLEPRVVATVLQALADEPGSLLVFLPGQAEIRRVHEQLAEALAGRGDLLLCPLHGELDLAAQRAAIEPAPAGMRKIVLATNIAETSLTIDGVRVVVDAGLARVPRFDPNSGMTRLDTQRISRASATQRAGRAGRLEPGVCYRLWSQEQHEQLPAYGSAEILQADLAGLALQLARWGVAPAELVWLDPPPPAAYAQARDLLGRLGALDARGVLTPHGQAMAELPAHPRIAHLLLRGQALGLGALACDLAALLGERDILRGGGADLHSRLALLAGERSAGASRGGVQRARQLARQYRSYLRGEAREAVADPEHGRWLGALLAFAYPDRVARQRRPGGAEYRLANGRAALFGEPDALMKHEWLVIADLGSRQGQREERIYLATDLDPALFDGVLAEQVQSRDELEWDEREGVLRAERQRRVGELVLDREPLPGLDEAARCRALVQLVRRKGLELLPWTPELRQWQARVALLRRIDLKSGGRSDWPDVSDVALLDSLEDWLAPYLGKVSRLSHFGNLDLGGILAGLLPWPLPQRLEELAPRSLSVPSGSNIRLDYSEDPPILAVRLQELFGLAETPRIAGGRQIVKLHLLSPARRPVQVTQDLASFWRNTYAEVKKDLKGRYPKHYWPDDPLIAEPTARAKPRG				NA	NA	NA	NA	NA
BMS010_09312	747			hypothetical protein	ATGTCCAGACTTTCCTGCCTCGCGCTCGGCGCCGCGCTGTTCTGCGGCCTGAGCTTCGCCCAGACCGAATCAGGGCAACCGCTGCCGGTGGTCAATGTCGGCTTTTATGAATTTCCGCCCTACACCTACAGCGCCGCCGATGGCACTCCCGAAGGATCGGCGCTCAGGCTGACCGAACGCCTGCTGAAGCATGCCGGCTATCACCCGGTTTTCCGCAGCCTGCCCGGTGCCCGTCTATATGCCGGCTTACGGGACGGTAGCGTGCACCTCTGGCCTGGCGCACCGGGCAAGGAGGAACTCAAGGGGCATACCCTGGAAAGCCGCAGCGTGCTGGGCGAATTCGACCTCGCCCTGTACTTCCGCCGCGACACCCTGCTCCCCCGCCTCCCGGAAGACCTGGGCGGACGCGGCATCATCCTGATCAGCGGCTACAGCTACTGGAAACCCTACAGCGACTGGCTGAGCGATCTGGCACTGAATATCGAGCAACACCGCACCAGCAGCCACACATCCGCCCTGGAAATGCTCCAGCGCCATCGCGGCGACTTTCTTCTGGATTACGTGACTCCCGTGGAACAGGCGCGCCAACGCCTGGGTATGGCCGAGCTGCCCTATGTGGTGCTGCACAGGCTGAGGTCGAAACTCATCGTCTCTCGTCGCGCCCCGGATGCTCAGAAGCTGCTCGACGCACTGGACGGTGCCTATGAGGAACTGGAAGCGCAGGGAGAGAATTTGCGACTGCCCTGA	MSRLSCLALGAALFCGLSFAQTESGQPLPVVNVGFYEFPPYTYSAADGTPEGSALRLTERLLKHAGYHPVFRSLPGARLYAGLRDGSVHLWPGAPGKEELKGHTLESRSVLGEFDLALYFRRDTLLPRLPEDLGGRGIILISGYSYWKPYSDWLSDLALNIEQHRTSSHTSALEMLQRHRGDFLLDYVTPVEQARQRLGMAELPYVVLHRLRSKLIVSRRAPDAQKLLDALDGAYEELEAQGENLRLP	PGPT0020800_15792	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_09313	1089			hypothetical protein	ATGACCTTGCTCCGCTCCCTGCGCTTCAGCCTGATCACGTTGCTGGTACTGGGCATCGCCCTGGCCGCCCTGATCCATGCGCTCACCTGGCATCCCGCGGACCGCGAAGACGCGCCGTTGTCCTGCAGTGCCGATGCGCCTGTGCTACTGCCGGGCCAGGCACTCAAGGTGATGACCTGGAACGTCCAATACCTGGCCGGCAAGCGCTACGTGTTCTTCTACGACCTGGCCGACGGCAGCGGCCCGGACGAACGCCCCACCGCCGAGGACCTCGCCTACAACCTCGACGAAGTGGCCCGGGTGATCCGCGACGAGCAACCGGACATCGTGCTGCTGCAGGAACTGCACGACGGCGCCAAGGCCAGCGATTACCAGGACCAGCTGGCCCTGTTGCAGGAGCGGCTGGCCGACCTTTATCCGTGCAGCACCCAGGCGTTCTACTGGAAGGCGCGCTTCGTACCGCATCCGCGCATTCTCGGTAGCGTCGGCATGAAACTCGCCACCCTCAGCCGCTACCGCATCGATCATGCCGAGCGCCTGCAACTGCCGCGCGTACCGGCCAATCCGATCGTCAAGCCGTTCGGCTTCAAGCGTGCACTGCTGGTCAGCGAACTGCCGCTGCGCGACGGCGGCCGGCTGGCAGTGATCAACACCCACCTGGATGCCTTCGCCCAGGGCGACGACACCATGCAGCGACAGGTCGCCATGACCCGTACGCTGCTCGACCGCCTGGAGAACCAGGGCACCCCATGGCTCTTCGGCGGCGACCTCAACCTGCTGCCACCGGGGCAATACGCGCGTCTGTCCGAGACCCAGCGCAGCTGGTACGCCGAGCACAGCGAATTGCAGGACTTGGCCGGCCACTACCCGATGATCCCCAGCCTGGACGAAGTGAACGGCGACAAGCAGGCCAAGTGGTACACCTACTCGCCCAACGGCGCCGAAATCCCTGGGCCGGACCGCACCCTCGACTATCTCTTCCATAGCCCCCGCCTCAAGCGGCTCAAGGCAACGGTGCGGCAACGCGACACCCTGCGGATTTCCGACCACCTGCCGCTGGTCGCACGCTTCCTGCTGCCCCACGAATGA	MTLLRSLRFSLITLLVLGIALAALIHALTWHPADREDAPLSCSADAPVLLPGQALKVMTWNVQYLAGKRYVFFYDLADGSGPDERPTAEDLAYNLDEVARVIRDEQPDIVLLQELHDGAKASDYQDQLALLQERLADLYPCSTQAFYWKARFVPHPRILGSVGMKLATLSRYRIDHAERLQLPRVPANPIVKPFGFKRALLVSELPLRDGGRLAVINTHLDAFAQGDDTMQRQVAMTRTLLDRLENQGTPWLFGGDLNLLPPGQYARLSETQRSWYAEHSELQDLAGHYPMIPSLDEVNGDKQAKWYTYSPNGAEIPGPDRTLDYLFHSPRLKRLKATVRQRDTLRISDHLPLVARFLLPHE				NA	NA	NA	NA	NA
BMS010_09314	246			hypothetical protein	GTGAGCGAACCCCAGATAGCCCAGCGCGGCCCTTATGCGGTGGAGGTGATCGCCGGCCACGATTATTTCTGGTGCCGTTGCGGCCGCAGCACCCGCCAGCCGTTCTGCGACGGCTCACACAAGGGCGGCGACCTGTTGCCGCTGAAGTTTCATGCCGAGCACAGCGAAACGCTCTATTTTTGCGGTTGCAAGCACAGCCACGCACCGCCGCTTTGCGACGGTACGCACGAAGCGCTGGGCGACTGA	MSEPQIAQRGPYAVEVIAGHDYFWCRCGRSTRQPFCDGSHKGGDLLPLKFHAEHSETLYFCGCKHSHAPPLCDGTHEALGD				NA	NA	NA	NA	NA
BMS010_09315	840	sadH_4		Putative oxidoreductase SadH	ATGTATCGCAAGGTGTTCAACAACAAGGTTTTCGATCGCAAGGTGGTATTGGTCAGCGGCGGTTGTGCCGGTATCGGCCGGGCGCTGTCCGTGCGCATGGCGCAGGCCGGCGCGCGTCTGGTTCTGCTCGATCTGGACCAGGCGGCGCTGGACAGCATGGTCCAGCACCTGGATGCCCACCATAACGCCGAAGCCCTGGGCCTGCGCTGCGACGTGGCCGATGCCGAGGCGGTCCAGCGGGCGGTGACGCTGGCCATCGAGCGCTTCGGCGGTATCGATGTGCTGGTGAACAACGCTGGCATCACTCACCGCAGTACCTTCGTCGAGACCGATCTCGCCGTGTTCCAGCGGATCATGGCGGTGAACTTCTTCGGAGCGCTGCACTGCACCCAGGCTGCGCTGCCCAGCCTGGTCGCCCGCCAGGGGCAGATCATCGTGCTCAGTTCGCTGTCCGGTTTCGCCCCGTTGCTCTATCGCAGTGCCTACAACGCCAGCAAACATGCCCTGCACGGGTTGTTCGAAACCCTGCGTTACGAGATCAGGGGCTCCGGGGTCAACGTGATGCTGGTCTGCCCCGGCTTCACTGCCACCGACCTGCGCAAGAACGCCCTGGTCGGCGATGGCTCGGTGACTCGCCAGCCACCTCTGGCGATGGGCAAGGTGGCATCGCCCCAGGATGTCGCCGAGGCCATCTACCAAGGCGCGCTACGACGCCGGCGTCTGCTGGTGCTGTCCAACGTGGACTGGCGGGCACGCTTGCTGGCGCGCTTCTTCCCGCGCCTGTTCGAGCGTGTGCTGCTGCCGCGTCTGTCGGGGTTGAAGCCGGCGACGCCGAGGTAA	MYRKVFNNKVFDRKVVLVSGGCAGIGRALSVRMAQAGARLVLLDLDQAALDSMVQHLDAHHNAEALGLRCDVADAEAVQRAVTLAIERFGGIDVLVNNAGITHRSTFVETDLAVFQRIMAVNFFGALHCTQAALPSLVARQGQIIVLSSLSGFAPLLYRSAYNASKHALHGLFETLRYEIRGSGVNVMLVCPGFTATDLRKNALVGDGSVTRQPPLAMGKVASPQDVAEAIYQGALRRRRLLVLSNVDWRARLLARFFPRLFERVLLPRLSGLKPATPR				NA	NA	NA	NA	NA
BMS010_09316	423			hypothetical protein	ATGACGGACATCAACCCCAGCATCCTTTCTCACCTGTCCATCGGCACCAACCAGTTCGAGCGCGCGGTCGCCTTCTACGACCGCGTGCTGGCGACTCTCGGTTGCAAGCGCGTCATGGCCCATCCCGGCGCGGTCGCCTACGGCCGCGAATACCCGGAGTTCTGGGTGCAGATCCCGATCGACGGCCAGCCGGCGAATGTCGGCAATGGTACCCATATCGGCTTCTTCGCCCCGGACCGGGAGTCGGTGCGGGCGTTCTACGAAGCCGCGCTGGCCGCCGGTGCCCACAGCGATGGCGAACCGGGCCCGCGCCCCGATTACGGCGATCCCTACTATGGCTGCTTCGTGCGCGACCTCGACGGGCACAAGATCGAAGCGGCGTTCTGGGATACCAGCCTGCCCTACGAACCCCACGCGCATTGA	MTDINPSILSHLSIGTNQFERAVAFYDRVLATLGCKRVMAHPGAVAYGREYPEFWVQIPIDGQPANVGNGTHIGFFAPDRESVRAFYEAALAAGAHSDGEPGPRPDYGDPYYGCFVRDLDGHKIEAAFWDTSLPYEPHAH				NA	NA	NA	NA	NA
BMS010_09317	525			hypothetical protein	ATGAAAACCAACCGCAACGAGCGAACCCCGAAGGAAATCGACGATATCCAGGACCGCATGGGCTCCATGGAGGAACTGGATTTCAGCGATCGCAAGGACGAACGCAGCGGTCGGGTGGGCGATACCCGTCCAGAGGATGAACTCCGCGACGAATACCCGCCGGAGCGCGTCCGCGAAGCCGGCAAGACCGGCGGCGAAGTGAACGACCACAATCCGACCCTGGACGACCTCAGCCCGGAAACCCTGTACGACGAGACCGGCGCCCGCTCACCGCGGGAACGCGGCGAAGGCCTGCCGAACGACAAGGACCTGAGCGTGGTGGATGAGCATGCAATCGGGGGCGGCAGCGGTCTGGACGAGGCCGAACTCGGACGGGTCAAGCCGCTGGATGGCAAGCCCTGGGACGCCAGCCAGTCGGAAGCCGATACCGAACTCAGCGACGAGGAGCTGGGCATGGACGAACAAACCCTGTCCCGCGACGATCCCCTCGATTCGGCGCGCTACAAGAAGCCGGATAGCGAATAG	MKTNRNERTPKEIDDIQDRMGSMEELDFSDRKDERSGRVGDTRPEDELRDEYPPERVREAGKTGGEVNDHNPTLDDLSPETLYDETGARSPRERGEGLPNDKDLSVVDEHAIGGGSGLDEAELGRVKPLDGKPWDASQSEADTELSDEELGMDEQTLSRDDPLDSARYKKPDSE				NA	NA	NA	NA	NA
BMS010_09318	417	cdd_2	COG0295	Cytidine deaminase	ATGAACGACAACAACGATCCGCAGGGTATTCCTCCAACTCTGCTGGCAGCGGCGAAGCTGGCCGCAGAGCGTGCCTACTGCGGCTATTCGCAATTTCCGGTGGGGGCGGCCCTGCTGACGGCCGACGATCAGGTGATCCTCGGCTGCAACGTGGAAAACGCCTCCTACGGACTGACCAACTGCGCCGAACGCAGCGCGTTGTTCGCGGCGATCAGCCAGGGGCACGCGCCGCGCAGTTTCAAGGCGTTGCTGGTATTCGCGCCGAAGATGGATTCGATCAGCCCGTGCGGCGCCTGCCGCCAGGTGATCAGCGAACTGCTGTCGGCCGATTGCCCCGTCTACTGCTGCGGCGGGGACCCCGGCCAGTACCGGGCATGGCGTAGCGACGAGCTGCTGCCCGGCGCCTTTTCCTTCTGA	MNDNNDPQGIPPTLLAAAKLAAERAYCGYSQFPVGAALLTADDQVILGCNVENASYGLTNCAERSALFAAISQGHAPRSFKALLVFAPKMDSISPCGACRQVISELLSADCPVYCCGGDPGQYRAWRSDELLPGAFSF	PGPT0021360_2577	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021360-cdd-K01489	NA	NA
BMS010_09319	1260	nupX	COG1972	Putative nucleoside permease NupX	ATGAGTCTCGTTGGTATCGTCGTACTGCTGGCCATCGCGCTGGCGTTTTCCCGCAATCGCCGGGCGATCCGCCTGCGCACCGTGGTGGGGGCTTTTCTGATTCAGGCCGGTCTGGGCGCCTTCGTGCTCTATGTGCCTTGGGGCAAGGACGTGCTGGCGAGTATGTCGAGCTCGGTGGCGTCCCTGCAGGGCTATGCGAACGAGGGGATTGCCTTTCTGTTCGCCGGCCTGAGCAGCGACAAGATGTTCGAGGTGTTCGGCAACCAGGGCTTCGTGTTCGCCATCCGGGTGCTGCCGCTGATTGTCTTCTTCAGTGCCTTCATTGCGGTGCTCTACCACCTCGGGATCATGACGCTGATCATCCGGGTGATCGGCGGGGCGTTGCGCTGGGCCCTCGGCACCAGCCGCACGGAATCGATGTCGGCGACGGCGAACATCTTCGTCGGCCAGACCGAGGCGCCGCTGGTGGTGCGGCCGTTCATCCCGCGCATGACCCGCTCCGAGCTGTTCGCCATCATGGTCGGCGGGCTGGCCTCGGTGGCCGGCTCGGTGCTGATCGGCTACGCCAGCCTGGGCGTCGAATTGAAATACCTGATCGCCGCGAGTTTCATGGCGGCACCGGGTGGACTGTTGATGGCCAAGCTGATGGAGCCGGAAACCGCGACGCCGCAGGACGATCCGGGCGATGTCGACGAGCTGATCACCGACAAGCCGGTCAACGTGCTCGACGCGGCGGCCAGCGGAGCGACCAGCGGCTTGCAACTGGCGCTGAACGTGGGCGCCATGCTGCTGGTGTTCATTGCCTTGATCGCGGTGCTCAACGGTTTGCTCGGCTGGCTCGGCGGCTGGTTCGGCTACCCGGACGTGAGCCTGCAACAACTGCTCGGCTACCTCTTCGCGCCATTGGCGTTCGTGCTCGGCGTGCCCTGGTCGGAAGCGATCCAGGCCGGCAGCTTCATCGGCCAGAAGCTGGTGCTCAACGAATTCGTCGCCTACATCGATTTCGCCCGTTACCTGGACCCGGCCAAGGCGGCGGAAAGCGGGGTCGCGGTGCTTTCCGCGCGGACCCAGGTGATCATCACCTTCGCCCTCTGCGGGTTCGCCAACCTGTCGTCGATCGGCATCCTGCTCGGTGGGCTCGGAGTAATGGCGCCCAATCGCCGGCACGAGCTGGCCCAACTGGGCCTCAAGGCAGTGCTGGCCGGGAGCCTGTCGAACCTGATGAGCGCGGCCCTGGCCGGCTTCTTCGTTTCCCTCTGA	MSLVGIVVLLAIALAFSRNRRAIRLRTVVGAFLIQAGLGAFVLYVPWGKDVLASMSSSVASLQGYANEGIAFLFAGLSSDKMFEVFGNQGFVFAIRVLPLIVFFSAFIAVLYHLGIMTLIIRVIGGALRWALGTSRTESMSATANIFVGQTEAPLVVRPFIPRMTRSELFAIMVGGLASVAGSVLIGYASLGVELKYLIAASFMAAPGGLLMAKLMEPETATPQDDPGDVDELITDKPVNVLDAAASGATSGLQLALNVGAMLLVFIALIAVLNGLLGWLGGWFGYPDVSLQQLLGYLFAPLAFVLGVPWSEAIQAGSFIGQKLVLNEFVAYIDFARYLDPAKAAESGVAVLSARTQVIITFALCGFANLSSIGILLGGLGVMAPNRRHELAQLGLKAVLAGSLSNLMSAALAGFFVSL	PGPT0021070_829	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021070-TC_CNT|nupX-K03317	NA	NA
BMS010_09320	807			hypothetical protein	ATGAACACAACTCCAAGGAACCCGCTGCGTACCCTGGCCGCCGGGCTTTGCGTGCTGGCCGCGCCAACGACCTGGGCCGATGCCCTCGACCCGCAATGGTTATTCGCCAACATGTCGCTGAACTACCTGGACTGGTCCAGGGGTACCGAGGAGCGTACGGCCGATAATGCGGCCAAGGGTGATTTCTTCTTCCTGGAACTGGAAGGGGCGGTCGGGTTCGAATGGGGCGAGTTCTATGGCTTCGCCGATCTGGAAAACCCCGGCAGCGACCGCCTGGAGCATGATGGTCGCGACAACCGGCGCAGTGCGGCGAAGGTCACTTCGCACCTCTATCTGGGCGATTCGCCGTTCTCCGTTTACCTGCATGTCTACGACTTCCGCGACTACGGCTTCGACGTGCGCGAGCAGGACCAGATCGTCGGCCTCGGTTACCGGCGGACCTTCGACAATGGTTTCTGGATCAAGCCGTTCCTCGGTGCTGCCCATGTGAACAGCAACAACTACAGCGGCATGAACGGCTACATGCTGGGCTGGGTGTTCGGCTATGCCTTCAAGGCCTTCGAGCAGAAGTTCACCGTTACCAACTGGCACGAGCTGACCTTCGAGCGCGACGACGAGTATCTGCATGACAACTACGTCAACGGCACTGCCGACGAGATGGGTAACAACGGCGCGCTGGCGCTCTGGTGGCATCCTGCGGAGGCGATCACGGTCGGCGTGCAGTACCGCTATTCGGTGGATAAGCTGGGATCACCCGATGCCTATCAGAACGCGACCATCTACACCCTGAAGTACAACTTTTGGTAG	MNTTPRNPLRTLAAGLCVLAAPTTWADALDPQWLFANMSLNYLDWSRGTEERTADNAAKGDFFFLELEGAVGFEWGEFYGFADLENPGSDRLEHDGRDNRRSAAKVTSHLYLGDSPFSVYLHVYDFRDYGFDVREQDQIVGLGYRRTFDNGFWIKPFLGAAHVNSNNYSGMNGYMLGWVFGYAFKAFEQKFTVTNWHELTFERDDEYLHDNYVNGTADEMGNNGALALWWHPAEAITVGVQYRYSVDKLGSPDAYQNATIYTLKYNFW				NA	NA	NA	NA	NA
BMS010_09321	774	deoC_2	COG0274	Deoxyribose-phosphate aldolase	ATGACCGCAACCGATGAACAACTCGCACGCAAGGCCATCGGCCTTCTCGACCTCACTTCGCTGACCCCGGACGACGACGAGGCGCGCATCCGCGACCTCTGCCGGCGCGCCCTGACGCCTGTCGGGCCGGTGGCCGCCGTCTGTGTCTACCCGCGCTTCGTCGCCCTGGCGCGGCAGACGCTGGATGCGCTGGGCGGCAACCAGGTGAAGGTCGCCACCGTGACCAATTTCCCGGCCGGCGCCGCCGATGTGGGGGCTGCGGCAGCCGAGACGCGGGCAGCGGTGGAGGCGGGGGCCGACGAGGTGGACGTGGTCTATCCCTATGCGGCCCTGCGCGGTGGCGACGCGACGGTCGGTGTCGAGCTGGTGCGCGCCTGCAAACGGGCCTGCGGCGATGCCTTGCTCAAGGTGATCCTGGAGACCGGCGAGCTGGCCGATCCGGCGTTGATCCGCCAGGCGAGCCGGGATGCCATCGAAGCCGGGGCCGACTTCATCAAGACCAGCACCGGCAAGGTGGCGGTCAATGCCACCGAACAGGCGGCCCGGCTCATGCTGGAGGTCATCGCGGAGACCGGCGGGCGAGTGGGCTTCAAACCGGCCGGTGGGATTCGCACGCTGGCCGATGCACGCCTCTACATCGGCTTGGCGGAGGAATACCTGGGGCAGGACTGGGTAACTCTGGAGCATCTGCGCCTGGGCGCTTCGAGCGTGCTCGACGACCTGCTCCGGCATCTTGGCCTGGGCGGTGAGGGTGCGGCCAAGGAGGGTTACTGA	MTATDEQLARKAIGLLDLTSLTPDDDEARIRDLCRRALTPVGPVAAVCVYPRFVALARQTLDALGGNQVKVATVTNFPAGAADVGAAAAETRAAVEAGADEVDVVYPYAALRGGDATVGVELVRACKRACGDALLKVILETGELADPALIRQASRDAIEAGADFIKTSTGKVAVNATEQAARLMLEVIAETGGRVGFKPAGGIRTLADARLYIGLAEEYLGQDWVTLEHLRLGASSVLDDLLRHLGLGGEGAAKEGY	PGPT0017445_1225	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_RIBOSE_METABOLISM|DEGRADATION,PGPT0017445-deoC-K01619	NA	NA
BMS010_09322	1308	deoA_2	COG0213	Thymidine phosphorylase	ATGTGGTTGGCGCAGGAAGTCATCCGTCGCAAGCGCGATGGGAAGGTACTCGACGAAGTGGATATCCGCCAGTTCGTAAAGGGAATCGGCGACGGCAGCCTGAGCGAAGGACAGATTGCCGCGTTCGCCATGGCGGTGCTGCTCAGGGGCATGAGCCTGGACGAGCGCATTGCCTTGACCACGGCGATGCGCGACTCCGGCCAGGTACTGGCCTGGGAGCTGCCCGGTCCGGTGGTGGACAAGCATTCCACGGGCGGTGTCGGTGATCTGGTGAGTCTGGTACTGGCGCCGCTGCTCGCAGCCTGTGGTTGCTACGTGCCGATGATTTCCGGTCGTGGCCTGGGGCACACCGGCGGTACGCTGGACAAGCTGGACAGCGTGCCCGGCTACTGCACCCAGCCGGACCCGGAACGCCTGCGCCGGGTGGTGGTCGAGGTGGGCTGCGCGATCATCGGCCAGACCGCCGATCTGGCGCCGGCGGATAAGCGCCTGTATGCCATCCGCGATGTCACCGGCACGGTGGAGTCCATCGACCTGATCACCGCCTCGATCCTCTCCAAGAAGCTGGCAGCCGGGCTGGACGTGCTGGTGATGGACGTGAAGGTGGGCAACGGCGCCTTCATGAGCGACCCGGAGCAGGCGCGGGCATTGGCGGAAAGCATCGTGGCGGTGGCCAACGGTGCGGGCGTGAAGACGCGGGCGCTGATCACCGACATGAACCAGCCGCTGGCACGCAGTGCCGGTAACGCCCTCGAAGTGGAGGAGGCCATCGCCTTGCTCAAGGGCGAGGTGCGCAGCTCGCGACTGTGGGAGGTTACCCTGGCATTGGCCGAGGAAACGCTGGTGGCGGCCGGGCTGGCACCGGACTTGGCGTCCGCGCGGCAGCGGTTGATGGATGTCTGGCGCAGTGGCTTGGCGCTGCAGCGCTTCTCGCAAATGATCGCGGCACTCGGCGGTCCGCTGGATCTGGCCGAGCATCCCTGGCAGCACTTGCCCCAGGCGGCTGTGGTGCGGCCGGTGTTCGCCGAAGGGGAGGGGCTCGTGCAGGGTATCGACACACGGGCCGTCGGCCTGGCCGTCATCGCCCTGGGCGGTGGGCGCCGCCGTCCGGAGGATGCCATCGATACCTCGGTGGGGTTCAGTGAGCTGGCGCTGCCGGGAGAGAACGTCGGTGCCGACCGGCTCCTGGCAATGGTCCATGCCCGCGATGCGGCGAGTGCCGAAGAGGCTGCGCGGTTGCTGCGGACGGCGTATCGACTCGGTACCGCAGAGGTTGCGGTGCGCGACCTGATCAGCGCACGACTGTAG	MWLAQEVIRRKRDGKVLDEVDIRQFVKGIGDGSLSEGQIAAFAMAVLLRGMSLDERIALTTAMRDSGQVLAWELPGPVVDKHSTGGVGDLVSLVLAPLLAACGCYVPMISGRGLGHTGGTLDKLDSVPGYCTQPDPERLRRVVVEVGCAIIGQTADLAPADKRLYAIRDVTGTVESIDLITASILSKKLAAGLDVLVMDVKVGNGAFMSDPEQARALAESIVAVANGAGVKTRALITDMNQPLARSAGNALEVEEAIALLKGEVRSSRLWEVTLALAEETLVAAGLAPDLASARQRLMDVWRSGLALQRFSQMIAALGGPLDLAEHPWQHLPQAAVVRPVFAEGEGLVQGIDTRAVGLAVIALGGGRRRPEDAIDTSVGFSELALPGENVGADRLLAMVHARDAASAEEAARLLRTAYRLGTAEVAVRDLISARL	PGPT0021365_1248	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021365-deoA-K00758	NA	NA
BMS010_09323	1224	deoB_2	COG1015	Phosphopentomutase	ATGAACCGAGCACTTTTGCTGGTGCTGGACTCCTTCGGTATCGGTGCCAGTGCCGATGCCGATCGTTTCGGCGACAGTGGTGCCAATACGCTGCTGCATATCGCCGAGGCTTGCGCCCGTAGCGAGGCGGATAACGAACGCCGTCAGGGTGTATTGCAGTTGCCCAATCTGGCGCGTCTTGGCTTGGGGCACGCCGCTGCCTTGAGCGCCGGCTGTTATCCCCCGGGCTTCGATGCCGAGCAGCCGGTGATCGGTGCTTATGGCTATGCCCGCGAGCTGTCCAGCGGCAAGGATACGCCCTCCGGTCACTGGGAAATGGCAGGGGTGCCGGTCTTGTTCGACTGGGGCTACTTCCCGGCCCACGAACAGAGTTTTCCCCCCGCCCTGCTGGAGGCACTGATCCAGCGTGCCGGGCTGCCAGGCGTGCTCGGCAACTGCCATGCGTCCGGCACCACCATCCTCGAGCAACTGGGCGAGACGCATATCCGTACGGGCAAGCCGATCTGCTACACCTCGGCGGACAGCGTGTTCCAGATCGCCGCCCACGAGGAGCACTTCGGTCTCGAGCGGCTGTACCAAGTCTGCGAGATCGCCCGAGAGCTGTGCGACGACTACGACATCGGCCGGGTGATCGCGCGACCGTTCCTGGGCGAGAGTGCCGACAGCTTCCGGCGCACCGGAAACCGCCGCGATTATGCGGTGCCGCCACCGGCCCCCACCGTGCTCGACCGTTTGTGCGAGGTCGGCGGGCAGGTGTTCGCGGTGGGCAAGATCGGCGATATCTTCGCCCACCGGGGTATCAGCCGGCTGTACAAGGCCGATGGCAACGAGGCGCTGTTCGACGCCACGCTGCAGGCGTTCCGCGAGGCGCCATCGCGCACGCTGGTGTTCAGCAACTTCGTCGATTTCGACATGCTGTTCGGCCATCGCCGCGACATCGCAGGTTACGCCGAGGCACTGGAAGCGTTCGACCGACGCCTGCCGGAACTGCTCGCCGCCCTGGATGAGGGCGATATGTTGTTGCTGGCGGCTGATCATGGCTGCGATCCGAGCTGGCCGGGCAGCGACCACACCCGAGAACATATCCCCGTGCTGGGCTACGGTGCCGGACTGCAAGCCGGCAGCCTGGGAGAACGCAGCAGCTTCGCCGACATCGGCCAGAGCCTGGCGCGCTTTTTCGGGCTGCCGGCGTGCGATTACGGGCAATCCTTTCTGACATCTTGA	MNRALLLVLDSFGIGASADADRFGDSGANTLLHIAEACARSEADNERRQGVLQLPNLARLGLGHAAALSAGCYPPGFDAEQPVIGAYGYARELSSGKDTPSGHWEMAGVPVLFDWGYFPAHEQSFPPALLEALIQRAGLPGVLGNCHASGTTILEQLGETHIRTGKPICYTSADSVFQIAAHEEHFGLERLYQVCEIARELCDDYDIGRVIARPFLGESADSFRRTGNRRDYAVPPPAPTVLDRLCEVGGQVFAVGKIGDIFAHRGISRLYKADGNEALFDATLQAFREAPSRTLVFSNFVDFDMLFGHRRDIAGYAEALEAFDRRLPELLAALDEGDMLLLAADHGCDPSWPGSDHTREHIPVLGYGAGLQAGSLGERSSFADIGQSLARFFGLPACDYGQSFLTS	PGPT0017440_271	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0017440-deoB-K01839	NA	NA
BMS010_09324	708	deoD		Purine nucleoside phosphorylase DeoD-type	ATGGCCACTCCCCATATCAGTGCCCAGCTGGGCGATTTCGCCGAAACCGTGCTGATGCCCGGCGATCCGCTGCGAGCGAAGATGATCGCCGACACCTATCTGAGCGACGTGCAGCAGGTGAATGGCGTGCGCAATATGCTGGGGTTCACCGGCTCGTTCAACGGCCAGCGGATCTCCGTGATGGGGTCAGGCATGGGCATTCCCTCGCTGTCAATCTATGCCCACGAGCTGTTCAGCCAGTACGGTGTGCAGCGCATCGCGCGGGTCGGCAGTTGTGGGGCGGTCCAGCCTGGCGTCCGGGTGCGCGACCTAGTGATCGCCATGGGCGCGTCGACCGATTCTGCCGTCAACCGCAAGCGCCTTTCCGGGTTCGATTTCGCCGCTCTGGCCGATTACCGATTGCTCGAACGGGTGGTGCGACGGGCCGATGCGAAAGGGCAGGTGGTGCATGTGGGCAACGTGTTTTCCGCCGACCTGTTCTACGAGCCCGAACCGGAGCTTTTCAGCCGCATGACGCGCATGGGCATCCTCGCCGTGGAGATGGAGGCGGCCGGCCTCTATGGCGTGGCGGCGGAACTGGGACGGCAGGCGTTGTGCGTACTGACGGTCAGCGATCACATCCTCGAAGGCGAAAAGCTCAGTGCCGAGGAGCGGCAGGAGACGTTCCACGCGATGATCGAACTGACCCTGGAAGCGGTGACGCAGTAA	MATPHISAQLGDFAETVLMPGDPLRAKMIADTYLSDVQQVNGVRNMLGFTGSFNGQRISVMGSGMGIPSLSIYAHELFSQYGVQRIARVGSCGAVQPGVRVRDLVIAMGASTDSAVNRKRLSGFDFAALADYRLLERVVRRADAKGQVVHVGNVFSADLFYEPEPELFSRMTRMGILAVEMEAAGLYGVAAELGRQALCVLTVSDHILEGEKLSAEERQETFHAMIELTLEAVTQ	PGPT0013385_1310	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013385-deoD-K03784	NA	NA
BMS010_09326	801			hypothetical protein	ATGTACCTACTCGGGGAGCAACCGGCTTACGCCGATCAGCTGATCAATCGACTGCAAAGCATCCCCAGCCAGTTGCTCGAAGGGCTCGATCCCAGCGGGGAGCCGTTGCGGCTCGAGCGCGTCGACGATCTGACCCAGGCGCTTCCCGGCAATCAGTTGTTCCTGATCGAGGACGGCCTGCTGCATGCGCTGGTGGACGGACGCCCGTTGTTCTACTTGCAGGAAGGCGATCTCGTCGGCCTGCGCCAGGGCATCGAAATGCCGAGCTGCCGCTACAGCAGCGAAGAAGCGATCAGTCTGATCCCTTACAACCGTGGCGCCGTGTTCAAGCACATTTATGCCAGCGAACAGCGCCAGGAATTGTTCATCCAGTACCTGATCGGCCACACCGCCCTGCTGTCCGATGCCCTGGCTCGCCTCAAGCAGCCGGAAATTCGTCCGGCCACCGGATTCCAGCACTTCGCCGCCGGAGAGGAGCTGATCCACCAGGGCGACGAGGCCGATCATGTCTTCGTCATCATTGAGGGCCATGCCGAAGCCTTCGTGGATGGCCACAAGGTGGGCGATGTGCAGAAGGATGAAATCTTCGGCGCCATGGCCGTGTTCACCCGCGAGCGCCGCAGCGCCACGGTGGTGGCCAGCGAGCCCTGTACGGTAATGGTGATTCCCAAGGACCAGTTCCTCAGCCTGATGCAGAGCAATCCGCGCATCGCCCACAGCCTGATCGAGAGCATGGCCAGGCGCATCGACCTGCTGAACAAAGAGGTCACCCAACTGCGGCAGTCCGCCGACTCGGAATAA	MYLLGEQPAYADQLINRLQSIPSQLLEGLDPSGEPLRLERVDDLTQALPGNQLFLIEDGLLHALVDGRPLFYLQEGDLVGLRQGIEMPSCRYSSEEAISLIPYNRGAVFKHIYASEQRQELFIQYLIGHTALLSDALARLKQPEIRPATGFQHFAAGEELIHQGDEADHVFVIIEGHAEAFVDGHKVGDVQKDEIFGAMAVFTRERRSATVVASEPCTVMVIPKDQFLSLMQSNPRIAHSLIESMARRIDLLNKEVTQLRQSADSE	PGPT0015075_267	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-CARBOHYDRATE_LIMITATION_SIGNALLING,PGPT0015075-clp|crp-K10914	NA	NA
BMS010_09327	273			hypothetical protein	ATGAACGATGAGTTGCAACACCTGAAGAACCTCGGCAAGACCTCGGCACAGTGGTTGCACGCAGTCGGCATCCATAGTGCTTCCGATCTTCGCCGCCTGGGCTCGGTCGGCGCCTACCGGGCGGTCCGGGCCAGGGGATTCCGGGCCTCGAAAGTACTGCTCTACGCAATCGAAGGTGCGCTGCTGGACGTGCATTGGAACGACCTGCCACCGGCACACAAAGCAGCATTGATCGGACAACTGGACGCCTTGCCTTTGCGTAATAAGAGCTAG	MNDELQHLKNLGKTSAQWLHAVGIHSASDLRRLGSVGAYRAVRARGFRASKVLLYAIEGALLDVHWNDLPPAHKAALIGQLDALPLRNKS				NA	NA	NA	NA	NA
BMS010_09328	753	COQ5_6		2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial	ATGAGTGAGATCGCCCGACTGTTCGGCGCCCGCGCGGGTGCCTACGCCAGTTTCCGCCCGGAATACCCGTCGGCGCTCTTCGCCTGGCTGGCCGCCAACAGCCCCTCGCGGCAGCGCGCCCTCGACATCGCCTGCGGCAATGGCCAGGCCAGTCGCCCGTTGAGTGAGCATTTCGATCAAGTCCTGGCCAGCGATGCCAGCCACGAGCAGTTACGTATGGAAGATGGCTGGGACGGCATCGAACGCTTCGCCGCGGATGCCGAGTCGCTGCCGCTGCCCTCGGGGAGCCTCGATCTCATCGTGGTCGCCCAGGCTCTGCACTGGTTCGCCACGCCGCGCTTCTTCGCCGAAGTGAAACGCCTGCTCAAGCCCCACGGCCTGTTCTGCGCCTGGTGCTACAGCCTGCTGCGTATCGATGAAGCTCTCGACCCGGTGATCGACCAGCTCTACGGCGACACCTTGAAAGGTTACTGGCCGAAAGGACGCGAAAGCGTCGATGCAGGCTATCGCGATCTTTCCGTACCCTTCTCTCGACTCGATCTTCCACCGTTCGCCATCGAGGTCGAATGGAGCTTCGAACACTTCGTCGGTTACCTGCGCACCTGGTCCGCCGTGCAACGCTGGGAACGCGAACACGGCAAGGACCCGGTAATCGACTATTTACCTGCTCTGCGTCAAGCCTGGGGTGATGTCACCGCGCCACAGTTCATCCGCTGGCCGCTACACTTCGTCGCAGGCTATCCAACCCCCTGA	MSEIARLFGARAGAYASFRPEYPSALFAWLAANSPSRQRALDIACGNGQASRPLSEHFDQVLASDASHEQLRMEDGWDGIERFAADAESLPLPSGSLDLIVVAQALHWFATPRFFAEVKRLLKPHGLFCAWCYSLLRIDEALDPVIDQLYGDTLKGYWPKGRESVDAGYRDLSVPFSRLDLPPFAIEVEWSFEHFVGYLRTWSAVQRWEREHGKDPVIDYLPALRQAWGDVTAPQFIRWPLHFVAGYPTP				NA	NA	NA	NA	NA
BMS010_09329	345			hypothetical protein	ATGAGCCAGCCGCGTCAACTGGACGACCCGCTGTACCGCCTGCTGCGCCAGGAAGACATCGCCGGCTTCAATCGCCGACGCGCCTCGGATGGAGAAATCGACCTCACCGGCGGAGATTTTCGCGGCCTCGACCTGCGTAACCTGAATGCCGACGGGGTGAACTTCACCGATGCCTACTTCCGTGGCGCCGATTTGCGCGGCCTGGACCTGCGCAAGGCACACATGGAAGGCGCCAGCCTGGCTCATGCGCAGATTTCCGGTGCCTATTTCCCGGTTGAGCTGAGTGCCGACGAGATTCTCATGTCGGTGAATTTCGGCACCCGCCTCCGCTACCGAAAACCATGA	MSQPRQLDDPLYRLLRQEDIAGFNRRRASDGEIDLTGGDFRGLDLRNLNADGVNFTDAYFRGADLRGLDLRKAHMEGASLAHAQISGAYFPVELSADEILMSVNFGTRLRYRKP				NA	NA	NA	NA	NA
BMS010_09330	1563		COG0645	putative protein	GTGAGCCAAGCCCTGATTGCCGCGCTGCAGAACCCGGCGCTCTATCCGCATCCGGTAGACCAGTTCCAGGTCATCGAAACCCATATTTCCTGGGTCCTGCTCACGGGCCCCTACGCTTACAAGTTCAAGAAACCGGTCGACTTCGGCTTCCTCGACTTCACCACGCTGGAAGCGCGCAAGCACTTCTGCGAGGAAGAAGTCCGACTGAACCAGCGCCTGACGCAGAACCTCTACCTCGACGCCATCCCGATCACCGGCAGCGAATCCGCTCCACAGTTGAACGGCGATGGCCCGGTCATCGAATATGCCGTGAGGATGCGTCAGTTCCCGCAAAGCAACCTGCTGGGCGAAATCCAGGCGCGCGGCGAACTCACCGGCGTCCACATCGATGCGCTGGCCCGGCAGATCGCCCGCTTCCACCTGACCACGCCGTCGGTGGCGCCGGACCACGTCATGTGCCAGCCGGACGCCATGATGGCGCCGCTGCGCCAGAACTTCGAACAGATCCGCCCATTGCTCAACGACAAGGCCGATCTCCAGCAACTGGACGCATTGGAAGCCTGGACCGAAAGCACCATCGACCGCCTGGGGCCCCTGCTCGAAGAGCGAAAGAACCAAGGCTTCATCCGCGAATGCCATGGCGATATCCATCTGGGCAACGCCACCCTGATCGACGGCGAAGTCGTGTTGTTCGACTGCATCGAATTCAACGAACCATTTCGTCTTACCGACATCGCGGCGGACAGCGCCTTCCTTGCCATGGACCTGGAAGACCGTGGGCTGAAATGCCTGTCGCGCCGCTTCCTCAGTCTCTGGCTCGAGCAAACCGGCGACTATGCCGCGCTGGAGCTGATGAACCTTTACAAGTCTTATCGGGCCCTGGTGCGTGCCAAGGTCAGCCTGTTCCGCCTCGGCCAGGAGCAGGACGCGGTCCAGCGCGCGGTCATCCTGCGCCAATACCGCAACTATGCGAGCCTGGCGGAGAGCTACAGCGCCATTCCTTCACGCTTCCTGGCCATCACCCACGGCGTTTCCTCGGTGGGCAAGAGCCACGTCGCGATGCGCCTGGTCGAAGCACTCGGTGCCATCCGCCTGCGTTCGGACACGGAGCGCAAGCGCCTGTTCGGCGAACAGGAGGAAAGCGAACGGGGCCAACTGAGTGCCGGCATCTATAACCAGGACGCCAGCGATGCCACTTATCGGCGCCTGCACGAGCTGGCAGACGCCGCCCTGCACGCCGGCTATCCGGTCGTCATCGATGCCACCTACCTGAAACACGTCCAGCGCCAGGCCGCCTGGAAGATCGCCGAGCGCACCGGAGTCCCATTCCTGATTCTCGACTGCCATGCGCCGGACGCCGTCATCGCCAGCTGGCTGGCCCAGCGGCAGAGCGAAGGGCTGGACCCGTCCGATGCCACGCTGGACATCATCCACGCGCAACAGCAGAGCCGGGAGCCTCTGACAGCGGACGAACAGGCCCATAGCCGGCGCGTGGACACCCACGAAGCCGCCAGCCTGGACAAACTGGTCGACAACATTCGCCAACGCCTGCCCGGCCTCTGA	MSQALIAALQNPALYPHPVDQFQVIETHISWVLLTGPYAYKFKKPVDFGFLDFTTLEARKHFCEEEVRLNQRLTQNLYLDAIPITGSESAPQLNGDGPVIEYAVRMRQFPQSNLLGEIQARGELTGVHIDALARQIARFHLTTPSVAPDHVMCQPDAMMAPLRQNFEQIRPLLNDKADLQQLDALEAWTESTIDRLGPLLEERKNQGFIRECHGDIHLGNATLIDGEVVLFDCIEFNEPFRLTDIAADSAFLAMDLEDRGLKCLSRRFLSLWLEQTGDYAALELMNLYKSYRALVRAKVSLFRLGQEQDAVQRAVILRQYRNYASLAESYSAIPSRFLAITHGVSSVGKSHVAMRLVEALGAIRLRSDTERKRLFGEQEESERGQLSAGIYNQDASDATYRRLHELADAALHAGYPVVIDATYLKHVQRQAAWKIAERTGVPFLILDCHAPDAVIASWLAQRQSEGLDPSDATLDIIHAQQQSREPLTADEQAHSRRVDTHEAASLDKLVDNIRQRLPGL				NA	NA	NA	NA	NA
BMS010_09331	2316	mrcB	COG0744	Penicillin-binding protein 1B	ATGACTCGTTCCCGTTCTTCTCGTTCGCGTTCCAAACGCCGTTCCGGCGGCTTGCGCCCCTGGCTGGGCTGGGCTCTGAAGCTCGGTCTGGTCGGTCTGGTTGTGCTGGCCGGTTTTGCCGTCTACCTGGATGCCGTGGTGCAGGAGAAATTCTCCGGCAAGCGCTGGACCGTGCCCGCCAAGGTATATGCCCGCCCACTCGAATTGTTCGTCGGACTCAAGCTGGCCAAGGATGACTTCCTGACCGAGCTGGATGCCCTCGGCTACCGCCGCGAGGCGGTGACCGGCCCCGGCAGCGTGGCAGTCTCCGGCAACTCCGTCGATCTGCAGACGCGTGGCTTCCAGTTCTATGAAGGCGCCGAGCCTTCGCAACGTATCCGTGTACGCTTTTCCGGAGATTTCGTCGCCGGGCTCAATCAGGCCGATGGTTCTGACCTGGCCGTCGCCCGGCTGGAGCCCTTGCTGATCGGCGGGCTGTACCCGGCGCATCAGGAGGACCGCATCCTGATCAAGCTGGACCAGGTGCCGCCCTATCTGGTGGATACCCTGGTAGCGGTGGAGGACCGCGAGTTCTTCCACCACTTCGGCGTCTCTCCCAAGTCGATCGCCCGGGCCTTCTGGATCAACGCCACGTCCGGCCAGTTGCTCCAGGGGGGCAGTACGCTGACCCAGCAGTTGGTCAAGAACTTCTACCTGACCAACGAGCGCAGCCTGACACGCAAGGCGACCGAGGCCATGATGGCCGTGCTGCTGGAGCTGCATTACGACAAGCGCGAGATTCTCGAGGCGTACCTCAACGAGGTGTTCCTTGGCCAGGATGGCCAGCGCGCCGTACATGGCTTCGGCTTGGCCAGCCAGTATTTCTTCAGCCAGCCGCTGTCCGAGCTGAAACTGCACCAGGTGGCGTTGCTGGTCGGCATGGTCAAGGGGCCGACCTACTACAACCCACGGCGCAATCCCGAGCGCGCCCTCGAGCGCCGCAACCTGGTGTTGGATGTCCTGGTGGAACAGGGTGTAGTCACGGCTGAAGAAGCCGAGGCGGCGAAGCAGAAGCCTCTCGGTGTAACGCCACGTGGCAGCATGGCCGATAGCTCCTATCCGGCGTTTCTCGATCTGGTGAAGCGCCAATTGCGCCAGGATTATCGCGAGGAAGACCTCACGGAAGAGGGGCTGCGTATCTTCACCAGCTTCGATCCGATCCTCCAGCTCAAGGCCGAGAGTGCTTTGAACGAGTCGTTCAAACGCATCTCTGGCAGCAAGGGTGCCGATCAGATGGAAGCGGCGATGGTCGTGACCAATCCGGAAACGGGTGAAATCCAGGCGTTGATCGGTAGCCGTCAGCCACGTTTCGCCGGCTTCAACCGTGCGCTGGATGCCGTGCGGCCGATTGGTTCGCTGATCAAGCCGGTGATCTATCTCACCGCCCTGGAGCGCCCGAGCCAGTACACGCTGACCAGTTGGCTGTCGGACGAGCCCTTCTCCATCAAGGGTCAGGACGGTCAGGTATGGAAGCCGCAGAATTATGACCACAAGGCCCATGGCACCATTTACCTGTACCAGGGGTTGGCGAACTCCTACAACTTGTCCACCGCCAAGCTGGGGCTCGAACTCGGCGTGCCTAATGTCCTGAAGACAATGGAGCGGCTGGGCGTTTCGCGCGAGTGGCCGGCATACCCATCGATGCTGCTGGGTGCCGGGGCGCTCAGTCCGATGGAAGTCACCAGCATGTACCTGACCCTGGCCAACGGCGGCTTCAATACGCCGTTGCGTGGTATCCGCAGCGTATTGACCGCCGATGGCGAACCGCTCAAGCGGTATCCGTTCCAGATTCAGCAGCGTTTCGACCCGGGTGCCATTTATCTGGTTCAGAACGCGATGCAGCGAGTCATGCGTGAAGGAACCGGGCGTTCGGTATACAACCAGCTGCCGCGTTCGCTGACGTTGGCGGGCAAGACCGGTACCACCAACGACTCCCGCGACAGTTGGTTCGCCGGTTTCAGCCAGGACCTGCTGGCGGTGGTCTGGATGGGGCGCGACGACAATGGCCAGACCCCGTTCACCGGCGCCACTGGTGCCCTGCAGGTATGGACCGGCTTCATGCGCAAGGCTGATCCGCTCCCGTTGGACATGCCGCTGCCGGACAACGTGACGCAAGCCTGGATCGATGCCTATACCGGGCAGGGTTCCGACCCGAGCTGCCCGAATGCGGTGCAGATGCCTTATATTCGTGGAAGTGAGCCGCCACCCGGTACGGCCTGCGGTATCCAGGCGCCGGTCGATTCGGTGATGGATTGGGTGCGCGGCTGGTTGCAATAA	MTRSRSSRSRSKRRSGGLRPWLGWALKLGLVGLVVLAGFAVYLDAVVQEKFSGKRWTVPAKVYARPLELFVGLKLAKDDFLTELDALGYRREAVTGPGSVAVSGNSVDLQTRGFQFYEGAEPSQRIRVRFSGDFVAGLNQADGSDLAVARLEPLLIGGLYPAHQEDRILIKLDQVPPYLVDTLVAVEDREFFHHFGVSPKSIARAFWINATSGQLLQGGSTLTQQLVKNFYLTNERSLTRKATEAMMAVLLELHYDKREILEAYLNEVFLGQDGQRAVHGFGLASQYFFSQPLSELKLHQVALLVGMVKGPTYYNPRRNPERALERRNLVLDVLVEQGVVTAEEAEAAKQKPLGVTPRGSMADSSYPAFLDLVKRQLRQDYREEDLTEEGLRIFTSFDPILQLKAESALNESFKRISGSKGADQMEAAMVVTNPETGEIQALIGSRQPRFAGFNRALDAVRPIGSLIKPVIYLTALERPSQYTLTSWLSDEPFSIKGQDGQVWKPQNYDHKAHGTIYLYQGLANSYNLSTAKLGLELGVPNVLKTMERLGVSREWPAYPSMLLGAGALSPMEVTSMYLTLANGGFNTPLRGIRSVLTADGEPLKRYPFQIQQRFDPGAIYLVQNAMQRVMREGTGRSVYNQLPRSLTLAGKTGTTNDSRDSWFAGFSQDLLAVVWMGRDDNGQTPFTGATGALQVWTGFMRKADPLPLDMPLPDNVTQAWIDAYTGQGSDPSCPNAVQMPYIRGSEPPPGTACGIQAPVDSVMDWVRGWLQ	PGPT0023880_818	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023880-mrcB-K05365	NA	NA
BMS010_09332	732			hypothetical protein	ATGAACAAGTGGTGGATTCCCGCCCTGGCCGCTACGGCAGTGCTGAGTGGTTGTGCCTCGGTACAGCGTGGGTCGATTCCAGTGGTGGACTCCAGTGCCCCGTTGTCGGAACTGGAAGAGGGGGCGGGAGGAACCTATCGCCCGGCTGCGCCTCAGCAGCAGCCACAGACAATCAACGAGGACTCCGGCGTGGTGGTCATGGTACCTGGCGGCAGCTCGACGCCGATCCAGACCTTTCCTGCGCCGGATGGCTCCTCCAGCGCGCCGATCACGACGTCCCCCATTACCACGGGGCCTGCCGGCGGTGGATATTCTGGCGGGGCGGGCAGCTACAGCACGCCGGGCAGCGTTCCGAGCGCGCCGACCGGCATCCCCAGCAACAGCGGCGGCTTGGCGGCCGACGAGCAACTGGATGGCCCGGTGCTCGCGCTTCTCACCGCGGCGCAGCAGCAACAGAGTGGCGGCGATCTGAACGGGGCTTCCTCCAGCCTCGAGCGTGCCCAGCGCATCGCGCCGCGTGAGCCGCAGGTGCTCTATCGGTTGGCGGAGGTTCGCCTCGCCCAGGGCGATGCCGCCCAGGCCGAGCAGTTGGCGCGTCGCGGCCTGACCTATGCCAATGGACGTCCCGCGCTGCAAGCGAGCCTCTGGGAACTGATCGCCAAGGCGCGTGAGCGCCAGGGAGATGCGGCGGGCGCCGCGCAGGCGCGTGAGCGGGCGCGGGTCAATCTCTGA	MNKWWIPALAATAVLSGCASVQRGSIPVVDSSAPLSELEEGAGGTYRPAAPQQQPQTINEDSGVVVMVPGGSSTPIQTFPAPDGSSSAPITTSPITTGPAGGGYSGGAGSYSTPGSVPSAPTGIPSNSGGLAADEQLDGPVLALLTAAQQQQSGGDLNGASSSLERAQRIAPREPQVLYRLAEVRLAQGDAAQAEQLARRGLTYANGRPALQASLWELIAKARERQGDAAGAAQARERARVNL				NA	NA	NA	NA	NA
BMS010_09333	333			hypothetical protein	ATGAATGACACGTATCTGTCCGCTCTGGCCGAGCAGCTTCTGTTGATCGAGCGAGAGTTGCGGTTATTGGGCTGGTGGGCGGACAGCGAGCCGAGTGCGGAGGCTTTGGCCAGTCCAGAGCCTTTCTGTGTCGATACCCTGACCTTCGAGCAGTGGCTGCAGTGGGTTTTTCTGCCGCGAATGAAGGTATTGATCGAAGGGGGCTACGAGCTGCCGACGGTATCGGGCATCCGACCCATGGCAGAAGTGGTGTACCGGGAGTGCCCGGTCGAAACCCGGGCGTTGATGCAGGCGTTGGGTGAGTTCGACCGGTTGATCAAAAGCGCGGCCTGA	MNDTYLSALAEQLLLIERELRLLGWWADSEPSAEALASPEPFCVDTLTFEQWLQWVFLPRMKVLIEGGYELPTVSGIRPMAEVVYRECPVETRALMQALGEFDRLIKSAA	PGPT0024100_11	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0024100-ampD-K03806	NA	NA
BMS010_09334	438			hypothetical protein	ATGCGTCGCATGATTTTCACAGGCAGCCTGCTGCTCGCCTTGAGCGCCAGCGCCGTGGCCGGCCAAGTGTACAAATGGGTAGACGCGCAAGGCATCACGCACTTCGGCTCCCAGCCCCCTCAAGGTCAGGAAGCGACCCCCGTCAATACCAATAGCGCAACGCCGAAAGCCCCTGCCCCGGCGCCCCTGCCCAAGCTCGACAGCGAGGTCGAAGCCGACAAGCAGAAGGCCATCGACGACAAAGTGAAGCAGGAAGTGGCCAAGCGCGAAGAAGAACGCAAGAAGTACTGCGAAACCGTGCGCACCAACCTGTCCCAGCTACAGAACAATCCACGGGTACGCGTCGAGGAAAACGGCGACTTCCGCCGGCTGACGGAAGAAGAACGGCAGGCACGGATCAGCGAAGCCCAGAAGGCGATCGAGGAAAACTGCCAGTAA	MRRMIFTGSLLLALSASAVAGQVYKWVDAQGITHFGSQPPQGQEATPVNTNSATPKAPAPAPLPKLDSEVEADKQKAIDDKVKQEVAKREEERKKYCETVRTNLSQLQNNPRVRVEENGDFRRLTEEERQARISEAQKAIEENCQ				NA	NA	NA	NA	NA
BMS010_09335	1725	ilvI_2	COG0028	Acetolactate synthase isozyme 3 large subunit	GTGGAGCTCTTATCCGGCGCTGAAATGGTCGTCCGCTTCTTGCGTGACGAAGGCGTTAAGTACATCTATGGGTATCCGGGTGGTGCCCTCCTGCATATCTACGATGCCCTGTTCAAGGAAAAGGAAGTCACGCACATCCTCGTCCGCCATGAGCAGGCCGCAACCCATATGGCCGACGGCTATGCCCGCGCCACCGGAAAACCCGGTGTGGTGCTGGTGACCTCCGGTCCGGGTGCGACCAACGCCATTACCGGTATCGCCACTGCCTACATGGACTCGATCCCGATGGTCATCCTGTCGGGGCAGGTGCCGAGCGGCATGGTGGGGACCGATGCCTTCCAGGAAACCGACATGGTCGGTATCTCCCGCCCGATCGTGAAGCACAGCTTCATGATCAAGCATCCCTCGGAAATTCCCGAGGTGATGAAGAAGGCCTTTTATATCGCTCAGTCGGGGCGTCCCGGTCCGGTCGTGGTCGATATTCCCAAGGACATGACCAACCCGGCCGAGAAGTTCGAGTACGTCTATCCGAAGAAGGTCAAGCTGCGCTCCTACAGCCCGGCTGTGCGCGGCCACTCGGGGCAGATCCGCAAGGCGGCGGAAATGCTGCTGTCGGCCAAGCGCCCGATCCTTTATTCCGGTGGCGGCGTGATCATGGGCAATGCCGCTGCTCCGCTGACCGAGCTGGCGCGCATGCTCAACCTGCCGGTCACCAATACCCTGATGGGGCTCGGCGGCTACCCGGGCAGCGATCGCCAGTTCGTCGGCATGCTCGGCATGCACGGCAGCTACACCGCCAACCTGGCCATGCACCACGCCGATGTGATCCTGGCCGTCGGTGCGCGTTTCGATGACCGGGTCATCAACGGTCCGAGCAAGTTCTGTCCGAACGCCAAGATCATCCATGTCGATATCGACCCAGCATCGATTTCCAAGACCATCAAGGCGGATATCCCAATCGTTGGCCCGGTGGACAGCGTGTTGACCGAGATGGTTGCCATCGTCAAGGAAATCGGCGAGACCCCGAACAAGGAAGCGGTGGCGAGCTGGTGGAAGCAGATCGAAGAATGGCGCGGCAATCGCGGCCTGTTCCCTTATGACAAGGGTGACGGCAGCATCATCAAGCCGCAGACCGTGATCGAGACCCTCTGCGAAGTGACCAAAGGCGATGCCTTCATCGCGTCCGATGTGGGTCAGCACCAGATGTTCGCGGCGCAGTACTACAAGTTCGACAAGCCCAATCGCTGGATCAACTCCGGTGGCCTGGGCACCATGGGCTTCGGCTTTCCGGCCGCCATGGGCGTCAAGCTGAACTTCCCGGATGCCGAAGTCGCCTGCGTGACCGGCGAAGGCAGTATCCAGATGAACATCCAGGAGCTGTCGACCTGTCTGCAGTACGACTTGCCGGTGAAGATCGTCAACCTGAACAACGGTGCGCTGGGCATGGTGCGCCAATGGCAGGACATGCAGTACAACAGCCGTTACTCGCATTCCTACATGGAGTCGCTGCCGGACTTCGTCAAGCTGGCCGAAGCATACGGCCACGTGGGTATCCGCATCACCGATCTGAAGGATCTGAAGCCGAAGATGGAAGAGGCGTTCGCCCTGAAGAATCGTCTCGTGTTCCTCGACATCGCGGTAGACGCCAGCGAACACGTCTATCCGATGCAGATCAGAGACGGCGCCATGCGCGATATGTGGCTGAGCAAGACGGAGCGGACCTGA	MELLSGAEMVVRFLRDEGVKYIYGYPGGALLHIYDALFKEKEVTHILVRHEQAATHMADGYARATGKPGVVLVTSGPGATNAITGIATAYMDSIPMVILSGQVPSGMVGTDAFQETDMVGISRPIVKHSFMIKHPSEIPEVMKKAFYIAQSGRPGPVVVDIPKDMTNPAEKFEYVYPKKVKLRSYSPAVRGHSGQIRKAAEMLLSAKRPILYSGGGVIMGNAAAPLTELARMLNLPVTNTLMGLGGYPGSDRQFVGMLGMHGSYTANLAMHHADVILAVGARFDDRVINGPSKFCPNAKIIHVDIDPASISKTIKADIPIVGPVDSVLTEMVAIVKEIGETPNKEAVASWWKQIEEWRGNRGLFPYDKGDGSIIKPQTVIETLCEVTKGDAFIASDVGQHQMFAAQYYKFDKPNRWINSGGLGTMGFGFPAAMGVKLNFPDAEVACVTGEGSIQMNIQELSTCLQYDLPVKIVNLNNGALGMVRQWQDMQYNSRYSHSYMESLPDFVKLAEAYGHVGIRITDLKDLKPKMEEAFALKNRLVFLDIAVDASEHVYPMQIRDGAMRDMWLSKTERT	PGPT0008185_4025	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008185-budB|ilvK|alsS|ilvB|ilvG|ilvI-K01652	NA	NA
BMS010_09336	492	ilvH_2	COG0440	Acetolactate synthase isozyme 3 small subunit	ATGCGACACATCATTTCCCTGCTGATGGAAAACGAGCCTGGCGCCCTGTCGCGGGTGGTCGGTCTGTTCTCGCAGCGCAACTACAACATCGAAAGCCTGACGGTAGCGCCCACCGAGGACCCGACCCTGTCGCGTCTGACGCTGACCACCGTGGGGCATGATGAGGTGATCGAGCAGATCACCAAGAACCTCAACAAGCTCATCGAAGTGGTCAAGCTGGTCGATCTGTCGGAAAGCGCCCACATCGAGCGTGAACTGATGTTGGTGAAAGTGAAGGCCACCGGCGCGCAGCGCGCAGAGGTCAAGCGCACCACCGACATCTTCCGTGGCCAGATCGTCGACGTTACCAGCAGCGTCTACACGATCCAGCTTGCGGGTACCAGCGAGAAGCTGGATAGCTTCATCCAGGCCATCGGCACCGCGTCGATTCTGGAAGTCGTGCGCAGCGGTGTCACAGGCATCGCTCGCGGCGACAAAGTACTGAGCATCTAA	MRHIISLLMENEPGALSRVVGLFSQRNYNIESLTVAPTEDPTLSRLTLTTVGHDEVIEQITKNLNKLIEVVKLVDLSESAHIERELMLVKVKATGAQRAEVKRTTDIFRGQIVDVTSSVYTIQLAGTSEKLDSFIQAIGTASILEVVRSGVTGIARGDKVLSI	PGPT0008205_2780	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008205-ilvH|ilvN-K01653	NA	NA
BMS010_09337	1017	ilvC_2	COG0059	Ketol-acid reductoisomerase (NADP(+))	ATGAAAGTGTATTACGACAAAGACTGCGACCTCTCCATCATCCGGGGCAAGAAGGTCGCCATCATCGGTTACGGCTCCCAGGGGCATGCTCATGCCTGCAACCTGAAGGATTCCGGTGTCGACGTTACCGTCGGCCTGCGTCCGGGCTCTGCCTCGGTGAAGAAAGCCGAAGCCCATGGCTTGAAGGTATCCGACGTTCCGGCCGCCGTTGCCGCTGCCGACGTAGTGATGATCCTGACGCCTGACGAATTCCAGGGTCGCCTGTACAAGGAAGAAATCGAACCGAACCTGAAGAAGGGCGCCACCCTGGCCTTCGCGCACGGTTTCTCGATCCATTACAACCAGGTCGTTCCGCGTGCCGATCTCGACGTGATCATGATCGCGCCGAAGGCTCCGGGCCACACTGTGCGTTCCGAGTTCGTCAAGGGCGGCGGTATCCCGGATCTGGTCGCTATCTACCAGGATGCTTCTGGCAACGCCAAGAACCTGGCTCTGTCCTACGCCTGTGGCGTCGGTGGTGGCCGTACCGGCATCATCGAAACCACTTTCAAGGACGAGACCGAAACCGATCTGTTCGGTGAGCAGGCCGTACTTTGCGGTGGTTGCGTCGAACTGGTAAAAGCCGGTTTCGAAACCCTGGTCGAAGCCGGTTATGCGCCGGAAATGGCCTACTTCGAGTGTCTGCACGAACTGAAGCTGATCGTTGACCTCATGTACGAAGGCGGTATCGCCAACATGAACTACTCGATCTCCAACAACGCCGAATACGGCGAGTACGTGACCGGTCCGGAAGTGATCAACGCCGAATCCCGTGCTGCTATGCGTAACGCGCTGAAGCGTATCCAGAATGGCGAGTACGCGAAGATGTTCATCAGCGAAGGTGCTTCCAACTACGCTTCGATGACGGCCTATCGTCGCAACAACGCTGCTCACCCGATCGAGCAGGTTGGCGAGCGTCTGCGTGCAATGATGCCGTGGATCGCTTCCAACAAGATCGTCGACAAGACCAAGAACTAA	MKVYYDKDCDLSIIRGKKVAIIGYGSQGHAHACNLKDSGVDVTVGLRPGSASVKKAEAHGLKVSDVPAAVAAADVVMILTPDEFQGRLYKEEIEPNLKKGATLAFAHGFSIHYNQVVPRADLDVIMIAPKAPGHTVRSEFVKGGGIPDLVAIYQDASGNAKNLALSYACGVGGGRTGIIETTFKDETETDLFGEQAVLCGGCVELVKAGFETLVEAGYAPEMAYFECLHELKLIVDLMYEGGIANMNYSISNNAEYGEYVTGPEVINAESRAAMRNALKRIQNGEYAKMFISEGASNYASMTAYRRNNAAHPIEQVGERLRAMMPWIASNKIVDKTKN	PGPT0008735_2745	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0008735-ilvC-K00053	NA	NA
BMS010_09338	816			hypothetical protein	ATGAACGAACATCCCGAGGAGCCGAACAAGGCTTCCGACGCCGAAAGTCTGTTACCCATCGATGAGCATGTCGAAGAGGGGCATGACGCTGAGGGACGCAAGGTCCGCCATCGCGGCATCTATCTGCTGCCCAATTTGTTCACCACGGCCAATCTGTTCGCCGGTTTCTATTCCATCATCAATGCCATGAACGGCAACTTTTATGTGGCCGCCGCAACGGTATTCGTTGCCATGGTGCTGGATAGCCTGGATGGGCGTGTCGCTCGTCTCACCAATACGCAGAGCGCGTTCGGTGCCGAGTACGATTCGTTGTCCGACATGGTTGCCTTCGGTGTGGCGCCTGCGCTCCTGGCATTCGAGTGGGCGTTGGGCAGTCTGGGCAAGGTCGGTTGGATGGTCGCCTTCATCTATGTGGCGGGGGCTGCCCTGCGGCTCGCGCGCTTCAATACCCAAGTGGGCAAGGCTGACAAACGCTTTTTCATTGGGTTGGCAAGTCCTGCCGCGGCTGGGGTCGTGGCCGGTACCGTATGGGCCTTCAGTGACTTCGGTATCAAAGGGTCGAACATGGCTTTCGTCGTTGCCCTGCTGGTGGCAGCAGCCGGAGCACTGATGGTCAGCAACATCAAGTATCACAGCTTCAAGGACCTCGACCTCAAGGGACGGGTACCTTTCGTTGCGATACTGGTGGTAGTACTGGTTTTCGCAGTGGTGTTCAGTGACCCGCCGCGCATCCTGCTGCTGATCTTCCTGGCTTATGCTGCTTCGGGGCCGGTGCAATACTTGTTGCAATTGCGCCGCCGCAAGACTGTCGAGTGA	MNEHPEEPNKASDAESLLPIDEHVEEGHDAEGRKVRHRGIYLLPNLFTTANLFAGFYSIINAMNGNFYVAAATVFVAMVLDSLDGRVARLTNTQSAFGAEYDSLSDMVAFGVAPALLAFEWALGSLGKVGWMVAFIYVAGAALRLARFNTQVGKADKRFFIGLASPAAAGVVAGTVWAFSDFGIKGSNMAFVVALLVAAAGALMVSNIKYHSFKDLDLKGRVPFVAILVVVLVFAVVFSDPPRILLLIFLAYAASGPVQYLLQLRRRKTVE	PGPT0007695_1214	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PSS-RELATED_EXOPOLYSACCHARIDE_METABOLISM	CE-EPS-PSS-RELATED_EXOPOLYSACCHARIDE_BIOSYNTHESIS,PGPT0007695-CHO1|pssA-K17103	NA	NA
BMS010_09339	1002	msrP_1	COG2041	Protein-methionine-sulfoxide reductase catalytic subunit MsrP	ATGCTGATCAAGATTCCTTCTGTCTCTCTGGCTCGTGAGTCAGAGGTCACGCCTGAAGCGACTTATCTGTCGCGCCGCCGTTTTCTGGGGGCAATGGGTGGGGTGGCTTCGTTATCCCTGGTTCCTGGTCGAGCATTGGCTGAGCGCTATGCCGGGGTGGAGGCCGCCCAGGCTCCGGCCTGGTTCGACGAGAAGCTGATCTCGACCCGGTGGCAATCGATGGTTCCGGGTGACGAGGCGCTGACGCCTTTCAAGGATGCGACGCGCTACAACAACTTCTACGAGTTCGGACCGAATAAAGGTGATCCGGCTCGGCATGCCGCTCAGTTCAAGGTCGAACCCTGGACTGTGACCATCGATGGCGAGGTCGCCAAGCCGGGACAATTCTCTCTGGAAGAGTTCTGTCAGCCCCATCAGTTGGAGGAGCGCATATACCGGCTGCGTTGTGTGGAAGCCTGGTCCATGGTCATTCCCTGGCTGGGGTTCCCGTTGGCTGATTTGCTCAAGCGGGCGGAGCCGACGGCGCAGGCCAAGTATGTAAGGTTCGAAACTCTGGTCGATCCGCAGCGAATGGTTGGCCAGCGTTCTGGGTTCTCCCTTATCGACTGGCCATACATCGAAGGGCTGCGGTTGGATGAGGCCATGCACCCTCTGACACTCATGGCGGTTGGCATGTATGGGCGTGTCCTGCCTGCCCAGAATGGGGCGCCACTGAGATTGGTTGTGCCCTGGAAGTACGGTTTTAAAAGCATCAAATCCATCGTTCGCATCAGCTTGACCAGTGCTCAACCCAAGACAACATGGGAAAGCCTGGCGCCTAGCGAGTATGGCTTCTTCGCCAATGTGAACCCCGCAGTGGATCATCCTCGCTGGAGTCAGGCGCAGGAGCGCCGGCTGCCGAGCAGTCTGTTCAGCCCCAATGTCATTCCAACCCGCCTGTTCAACGGTTATGGCGAAGTGGCTGGTCTCTATGCCGGTCTGAATCTCCGGAAAAACTACTGA	MLIKIPSVSLARESEVTPEATYLSRRRFLGAMGGVASLSLVPGRALAERYAGVEAAQAPAWFDEKLISTRWQSMVPGDEALTPFKDATRYNNFYEFGPNKGDPARHAAQFKVEPWTVTIDGEVAKPGQFSLEEFCQPHQLEERIYRLRCVEAWSMVIPWLGFPLADLLKRAEPTAQAKYVRFETLVDPQRMVGQRSGFSLIDWPYIEGLRLDEAMHPLTLMAVGMYGRVLPAQNGAPLRLVVPWKYGFKSIKSIVRISLTSAQPKTTWESLAPSEYGFFANVNPAVDHPRWSQAQERRLPSSLFSPNVIPTRLFNGYGEVAGLYAGLNLRKNY	PGPT0013075_438	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013075-msrP|yedY-K07147	NA	NA
BMS010_09340	642	msrQ_1		Protein-methionine-sulfoxide reductase heme-binding subunit MsrQ	ATGCGCTACCGTTTCTTTCGTTTGGCGGTTTTCATGGTGGCTCTGGCGGTGCCTGTTTTCTGGCTTTACCAAGGGTGGACGCTGGCTTTGGGGGCTGACCCCGGCAAGGTTCTGGTCGACCGGCTCGGTTTGGGTGCGTTGACGCTACTTCTGATCACGTTGTGCATGACTCCTCTGCAACGAACGACTGGATGGGGTGGCTGGTTGGCTGTGCGGCGTCAACTCGGACTCTGGTCCTTCGCCTATGCGGTTTTGCACATTACGGCCTATGCGGTTTTTCTGTTGGGGCTGGATATCGAGCAATTGCTTGTCGATTTGCAGAAGCGGCCCTACATCATGGTCGGGGCATTGGCTTTCGTGGGCCTGTCTTGCCTGGCTGCAACCTCCAATCGCTTCAGTGTTCGTAAGCTGGGGCGGCGATGGAAGGCGTTGCATCGTATCGTTTATGGCGTGCTGGTATTGGTCCTTCTGCATATGCTCTGGGTGGTAAGGGCCGATCTGCAGGAATGGACTGGCTATGCTTTGGTCGGTGCTTTTCTTCTTGCTCTACGGCTACCTTTTCTGGCTTCACGGTTACGGCGATTGTCGTTTGGCATGTCTCCGATCGAAAAGAATGACAAAAAGGTTTCAATAAAGTGTTGA	MRYRFFRLAVFMVALAVPVFWLYQGWTLALGADPGKVLVDRLGLGALTLLLITLCMTPLQRTTGWGGWLAVRRQLGLWSFAYAVLHITAYAVFLLGLDIEQLLVDLQKRPYIMVGALAFVGLSCLAATSNRFSVRKLGRRWKALHRIVYGVLVLVLLHMLWVVRADLQEWTGYALVGAFLLALRLPFLASRLRRLSFGMSPIEKNDKKVSIKC				NA	NA	NA	NA	NA
BMS010_09341	930			hypothetical protein	GTGCAATACAGCTCAACCGGCAAGAAGAAAACCGCCACCTACTGGATCTGGCTGGACGACCTGCCCCTGGCCGGGATCGAACTGAGCTACGCCAGCGACGGCACCACCCTGGCCAGCCACCGCCTGTACTACCTGCACGCCGACCACCTCAACACCCCGCGCCTGGCCACCGACACCAACCAGCGCCTACTGTGGAGCTGGAACAGCGACGCCTTCGGCGTCGGCCCCGCCAACCCCGACGTGGACGGCGACGGCATCACCACCGACATCCCCCTGCGCTTCCCCGGCCAGCTCTACGATGCGCACAGTGCGCTGCACTACAACTACTTCCGGGACTACGATCCGGAGACTGGGCGGTATGTGGAGAGTGATCCGATTGGGTTAAGCGGAGGACTTAATACGTATGGGTATGTAGAAGGTAACCCCACATCTAGAATCGACTTCTGGGGACTAGCTTCTGCGTTCCCTGGCGCTGGCGGCATGAGTGCAGGCCAACTCGGCCGCTATGGACAAGCCCAGTCCGCAATAAACTCACCGCAAGCGCAAGCTGCTCAGGCAAGAGCAAGCTCAACGTGGCAAAATCCTTATGCGCCAGATTACCTCTCTGCCGAAGCGAGCGCATACGTTATGTCATGCAGTGTGACTTACACTAGGTATGGCGACACCTTTTGCGGGTGTGGCTTTACACGTGGATATCCTTCAAGCGGTTTTGGCATCAATGCATCTGCAGGATTTGTTGTATCTCCTGTTATGCCATCAAGATCCCAGCTAAATAACTATCTCGACGGCTATAGTGCATCCGCCAGCTACTATTATGGAGTCGGAGCCGGGGTTACAGGGAATACTGCTGGCGCAGCCGTGAACGTTGGAGTCGGCATCGGCGGCGGGGCCGCAACACCGGGCTCAGTCAACAATCAAGTAAATAGATAA	MQYSSTGKKKTATYWIWLDDLPLAGIELSYASDGTTLASHRLYYLHADHLNTPRLATDTNQRLLWSWNSDAFGVGPANPDVDGDGITTDIPLRFPGQLYDAHSALHYNYFRDYDPETGRYVESDPIGLSGGLNTYGYVEGNPTSRIDFWGLASAFPGAGGMSAGQLGRYGQAQSAINSPQAQAAQARASSTWQNPYAPDYLSAEASAYVMSCSVTYTRYGDTFCGCGFTRGYPSSGFGINASAGFVVSPVMPSRSQLNNYLDGYSASASYYYGVGAGVTGNTAGAAVNVGVGIGGGAATPGSVNNQVNR				NA	NA	NA	NA	NA
BMS010_09342	444			hypothetical protein	ATGAATAAAGAGACAGCCAGTAAAGCAACTATGGGGACCAAGGCGCTTGTCGCCTTGGTAGTTCTATCTGCCGCGATTTATTGGGTGACTGGGCTGTCTTTGCCGACGAAAAAATACGTCAGCATGCCAACTCTTATTCAGGAAGCGGAAAAGATCTCTCCACCCCTCGATGTCGTTCTCATCGAAAAAAAAGAAAACCATAAGACTAGTGCAGCGCTGGTCTCTAGTAGATATAAGACCTCTCTAAATGCAGGGCAAGTCTTCGAGCACTACAAGTCTAGTCTTGCACAAGCTGGATGGCACCACACAAACAGCAGTAATAGTCTTATAGATGAATATTGCAAAGGCGCGCTCAGGGCGGAGATTGAGTTCAATCCCAGCATGCAGCTTTATACCTTTTCAGTTATTTGGCGGCTACGTGTGGCGACCAAGTGCGAGCCTTAA	MNKETASKATMGTKALVALVVLSAAIYWVTGLSLPTKKYVSMPTLIQEAEKISPPLDVVLIEKKENHKTSAALVSSRYKTSLNAGQVFEHYKSSLAQAGWHHTNSSNSLIDEYCKGALRAEIEFNPSMQLYTFSVIWRLRVATKCEP				NA	NA	NA	NA	NA
BMS010_09343	231			hypothetical protein	ATGAAATATGCAACCGGAGAGGAAATTAAGGTTGGTGACCAAGTCAAAATTAGTGCAGGGGACTCGGGGGTGGTGGTTGGGATTATTGACACCAACTCCTATTCCCATGGCTACTCTGCAGATGAGTGGGCATACCTAAAAACTGGCTTGCTTATACTTGCGAAAGACTCTGCATTACTTCACTACCCCGAGCCTGACGAAGAAATTAGGCTAATTTCTAGAGGCATTTAG	MKYATGEEIKVGDQVKISAGDSGVVVGIIDTNSYSHGYSADEWAYLKTGLLILAKDSALLHYPEPDEEIRLISRGI				NA	NA	NA	NA	NA
BMS010_09345	252			hypothetical protein	ATGTCTGATTTCCGGCCGCTTCCTTCCCTGAGCACCACTGCCCGTCCCGTTCTCTACACCAATACCCGCCTCAGCTCGGACGAGCTGTTCGAAGCCGGGCAGGAGCGTTTGAACGCGGCGCAGCAGTTGGCGTTGGTGCTGTATTGCAACGAGCCGCAGTTGGATAACGGCGAGGTGTTCGCGGCGTTTCGTCTATTGCTGGGCGATGCGGCGGGGTTGTATGCGGCGGCGTTCAAGCGTCACGGCGATTGA	MSDFRPLPSLSTTARPVLYTNTRLSSDELFEAGQERLNAAQQLALVLYCNEPQLDNGEVFAAFRLLLGDAAGLYAAAFKRHGD				NA	NA	NA	NA	NA
BMS010_09346	753	rhaS_19		HTH-type transcriptional activator RhaS	ATGCTCGATCTGCTCCCCCGCGCCACCGCTCCCGACCTGCCCACGCTGCTCGCCAGCCTGGAGCTGGTGGCGCCGTTGCTGGACGAGATGCCCAGCGTGGTGTTTTTCGTGAAGGACTGCGAGGCGCGCTATGTGATGGTCAATCGCACCCTGTCGCAGCGCTGTGGTTACGAGGAGAACCAATCGCTGCTGGGCAGGACGGCTGAAGAGGTGTTCCCGGCGCGCTTCGGGCCGCTGTACACGGCGCAGGACCGCAGCGTGCTGCGCGACGGCATCCGTCTCGCCGACCGCCTGGAGCTGCACCTCTACCCGGCCCGTCACCCGGGCTGGTGCCTGACCCACAAGCTGCCGCTGCGCGACGCCCAGGGCCGCATCATCGGTATGGCCGGCGTTTCCTGCGATCTGCTGGCGCCGCAATCCAGCCATCCGGCGTATCAGCGGCTAGCGGCGGTGGACGATTACATCCGCGAGCACTTCGCCCAGCCGATCAGTCTGGCCGAGCTGACCGCCGTGGCCGGTCTCTCGGTGGCGCAACTGGAACGCCACTGCAAGCGCCTGTTCCAGCTCACCCCGCGGCAGATGATCCTGCGTGCCCGGCTGGGCGCTGCCTCGAGCCTGCTGGCCAGCGACCTGCCGATCACCGAGATCGCGCTGCGCTGCGGCTATACCGACCACAGCGCCTTCAGTCGCCAGTTCAAGGCGCACACCGGTTTCTCGCCGAGCCAGTACCGCGACACCCTGCCCCATCGTTGA	MLDLLPRATAPDLPTLLASLELVAPLLDEMPSVVFFVKDCEARYVMVNRTLSQRCGYEENQSLLGRTAEEVFPARFGPLYTAQDRSVLRDGIRLADRLELHLYPARHPGWCLTHKLPLRDAQGRIIGMAGVSCDLLAPQSSHPAYQRLAAVDDYIREHFAQPISLAELTAVAGLSVAQLERHCKRLFQLTPRQMILRARLGAASSLLASDLPITEIALRCGYTDHSAFSRQFKAHTGFSPSQYRDTLPHR				NA	NA	NA	NA	NA
BMS010_09347	918	dapA_11		4-hydroxy-tetrahydrodipicolinate synthase	ATGAGTAAAGCCATCGGTTGGAGCGGCGTGTTTCCCGCCGTCACCACTCAGTTCCGCCCCGACTTTTCCCTCGATCTCGACGCCACGCACCGGGTCATCGCCAATCTGGTGCGGGACGGAGTGTCCGGCCTGGTGATCTGCGGCACCGTCGGCGAGAACACCTCGTTGAGCCTGAGGGAGAAAATCAGCCTGGTGGAAATCTCCAAGGATGCGTCGGCCGGACGGGTGCCGGTGATCGCCGGGGTCGCCGAGTTCACCAGCGCCAACGCCAGCCAGGTCGCCCGCGAAGTGGCCCGCGCCGGCGCCGACGGCATCATGCTGATGCCAGCCCTGGTCTACTCTGCCAAGCCGTTCGAAACCGCCGCGCACTTCCGCAGCGTGGCCGCCGAAACCGACCTGCCGGTGATGGTCTACAACAACCCGCCGATCTATAAGAACGACGTGACGCCCGACATCCTGATTTCCCTGGCGGACTGCGACAACATCGTCTGCTTCAAGGATTCCTCCGGCGACACGCGCCGCTTCATCGACGTGCGCAACGAGGTGGGCGACCGCTTCGTGCTGTTCGCCGGGCTCGACGACGTGGTGCTGGAAAGCATCGCGGTGGGTGCGGAGGGCTGGGTTTCGGGGATGTCCAACGTCTTCCCGCAGGAGGGCGAGACGCTGTTCCGCCTGGCCAAGGCCGGCCGCTTCGCCGAGGCGCTGCCGCTCTACGAGTGGTTCATGCCGCTGCTGCATCTGGATGCCCGGCCCGACCTGGTGCAGTGCATCAAGCTCTGCGAAGCCCTCGTCCAGCGCGGCTCCGCCCTTACCCGCCCGCCGCGCCTAGCCCTGCCGGAGGCGGATCGCCGTTTCGTCGAGTCGCTGATGGCGCATGCCCTGGAGAACCGCCTCGCCCTGCCTGACGTGGGACTGTGA	MSKAIGWSGVFPAVTTQFRPDFSLDLDATHRVIANLVRDGVSGLVICGTVGENTSLSLREKISLVEISKDASAGRVPVIAGVAEFTSANASQVAREVARAGADGIMLMPALVYSAKPFETAAHFRSVAAETDLPVMVYNNPPIYKNDVTPDILISLADCDNIVCFKDSSGDTRRFIDVRNEVGDRFVLFAGLDDVVLESIAVGAEGWVSGMSNVFPQEGETLFRLAKAGRFAEALPLYEWFMPLLHLDARPDLVQCIKLCEALVQRGSALTRPPRLALPEADRRFVESLMAHALENRLALPDVGL	PGPT0002080_4401	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
BMS010_09348	693	glaR_2	COG1802	HTH-type transcriptional repressor GlaR	GTGCCCCTACCTCCGTCGAACACACCCAACCTGGGCATCGTCCCCACCGCCTCGGACGTGATTACCCGTCATCTGCGCGAGGCCATCGTCGCCGGCCACTTTGCGGAGGACGAGCCGATCCGCCAGGACGACATCGCCCGCCAGTTCAACGTCAGCAAGATTCCGGTGCGCGAGGCGCTGAAGCGTCTGGAGGCCGAGGGACTGGTGGTGTTCCAGCGCAACCGGGGTGCGCTGGTGACACGCCTCTCCGAACCCGAACTGGCGCAGATGTTCGAGGTGCGGGTGCTGCTCGAAGCCGAGGCGATCCGCCTGGCCGTGCCCAACATGACCGAAGAGACCTTCACCCGCGCCGAGCGCATCTGCGCGGCCTTCCTCGACGAGGACGACATCGGCCGCTGGGCCGAACTGAACTGGCAGTTGCACGCCTGCCTCTACGAGCCGGCCGGGCGGCCGTTCATGCTCAACCTGATCCGCTCCATCCACGACAAGCTGGAACGCTACCTGCGCCTGCAGATGAGCCTGTCCGCCGGCAAGGCACGGGCCGACCAGGAACACCGCGAAATCCTCCAGGCCTGCCGCAATGGCGATGCCGAAGGCGCGGCCCGGTTGATCCAGAGCCATATCGAAGGCGTCTGCCAGACACTGTACGAACATCTGCCCAGGCGCAGCCAAAGCGGGCAGGAGCCGGTGTAG	MPLPPSNTPNLGIVPTASDVITRHLREAIVAGHFAEDEPIRQDDIARQFNVSKIPVREALKRLEAEGLVVFQRNRGALVTRLSEPELAQMFEVRVLLEAEAIRLAVPNMTEETFTRAERICAAFLDEDDIGRWAELNWQLHACLYEPAGRPFMLNLIRSIHDKLERYLRLQMSLSAGKARADQEHREILQACRNGDAEGAARLIQSHIEGVCQTLYEHLPRRSQSGQEPV				NA	NA	NA	NA	NA
BMS010_09349	933		COG3938	4-hydroxyproline 2-epimerase	ATGAAGCGCATCCGCATCCTCGACTCGCACACCGGCGGCGAACCGACCCGCCTGGTCATCGACGGTTTTCCTGATCTCGGCGACGGCAGCATGGCCGAACGCCGCCAGCTTCTCGCCGACCGGCACGACCACTGGCGCCGCACCTGCATGCTGGAGCCGCGCGGCAACGACGTACTGGTCGGCGCGCTGCTCTGCGAACCGGTCGATCCCTCGGCCTGTGCCGGTGTCATCTTTTTCAACAACGCCGGCTACCTCGGCATGTGCGGCCACGGCACCATCGGCCTGGTGGTGTCCCTGGCGCACCTGGGCCGCATCGGCCCCGGCGTGCACCGCATCGAAACGCCGGTGGGCACGGTGGAAGCGACGCTGCACGAGGACCGCTCGGTGAGCGTGCGCAACGTGCCCGCCTATCGTTATCGCCAGGCGGTCGCCGTGGAAGTGCCCGGCATCGGCCCGGTGGTCGGCGACATCGCCTGGGGCGGCAACTGGTTCTTCCTCGTCGCCGAGCATGGCCTGCGCATCGCCGGCGACAATCTCGACGCGCTCACCGATTACACCTGGGCCGTGCGCCAGGCGCTGGACGCCCAGGGTATCCGCGGCGAAGACGGCGGCCTGATCGACCATATCGAACTGTTCGCCGACGACGACACAGCGGACAGCCGCAATTTCGTGCTCTGCCCCGGCAAGGCCTACGACCGCTCGCCCTGCGGCACCGGCACCAGCGCCAAGCTGGCCTGCCTGGCGGCCGACGGCACGCTGCGCCCCGGTGAGGTCTGGCGCCAGGCCAGTGTCATCGGCAGCCAGTTCGAAGGCCATTACGAATGGCAGGGCGAGCGCATCGTGCCGACCATCCGTGGACGCGCCCACGTCAGTGCCGAAGCCACCCTGCTGATCGACGAGGACGACCCGTTCGCCTGGGGCATCCAGCCGTGA	MKRIRILDSHTGGEPTRLVIDGFPDLGDGSMAERRQLLADRHDHWRRTCMLEPRGNDVLVGALLCEPVDPSACAGVIFFNNAGYLGMCGHGTIGLVVSLAHLGRIGPGVHRIETPVGTVEATLHEDRSVSVRNVPAYRYRQAVAVEVPGIGPVVGDIAWGGNWFFLVAEHGLRIAGDNLDALTDYTWAVRQALDAQGIRGEDGGLIDHIELFADDDTADSRNFVLCPGKAYDRSPCGTGTSAKLACLAADGTLRPGEVWRQASVIGSQFEGHYEWQGERIVPTIRGRAHVSAEATLLIDEDDPFAWGIQP	PGPT0014235_627	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014235-lphA-K12658	NA	NA
BMS010_09350	1125	hcnC	COG0665	Hydrogen cyanide synthase subunit HcnC	GTGAGCGGAGAACGCGCGGCGGACATCATCGTCATCGGCGCCGGCATTGTCGGGGCCGCCTGCGCCCACGAACTGGCCCGGCGCGGCCTCGACGTGCTGGTGCTGGACGCCCGCTGCGGCGGCGCCACGGCGGTGGGCATGGGCCATTTGCTGGTCCTCGACGACAACCCGGCCGAGCTGGCGCTGAGTGACCATTCGCTGCGCCGCTGGCGCGAGTGGGGGCCGCGCTTGCCGGAAGGCTGTGCCTACCGCAACAACGGCACCCTGTGGCTGGCGGCGAACGCCGAGGAGCTGGCGGCCGCCGAGGCCAAGCATGCCACCCTCGCCGAGCAGGGTGTGCCCGGCGAGCTGATCGGCGCCGAGCGCCTGCGCGCACTCGAACCGGCTCTGTGCGAGGGCCTGCACGGCGCGCTCAGGCTGAGTGGCGACGGTATCGTCTATGCCCCCAATGTCGCACGCTGGTTGCTTGGTGCCTTTCCCGAGCGCATCCGCGAACGGCAGGCACGGGTCGTCGAGATCGACGGCAACCGTGTGCGCCTGGACGACGGCACCTGGCTGTCGGCGCGCGCCGTGGTCCTGGCCAACGGCATCCAGGCCACCGAGCTATGCCCGGAACTGCCCATCGTGCCGAAGAAGGGCCATCTGCTGGTCACCGACCGCTACCCCGGCCGGGTCAGCCACACGCTGGTGGAGCTTGGCTACGTCACCAGCGCGCATAACAGCGCTGGCCCCTCGGTGGCCTGCAACATCCAGCCCCGACCGACCGGACAATTGCTGATCGGCTCCGCACGCCAGTTCGGCAGCACCGATCCGCAGGTGGAGGGCTGGATGCTCGCCCGCATGCTGCGTCGCGCGGTGGAGTTCATGCCCGGCCTGGCCCGGCTCAACGGCATCCGCAGTTGGACCGGCTTTCGCGCCGCCAGCCCGGACGGGCTGCCGCTGGTCGGCGAGCATCCGCAACGCCCCGGCTTGTGGCTGGCGGTCGGCCACGAAGGGCTCGGCGTGACCACCGCGCCGGCCACCGCCGAACTGCTCGCCGCGCAGCTCTTCGACGAAGCGCCGCCGCTGCCGCTGCACCCCTACTCGCCCCAACGCTTTCTCGGAGACGCCGCATGCCCGACCTGA	MSGERAADIIVIGAGIVGAACAHELARRGLDVLVLDARCGGATAVGMGHLLVLDDNPAELALSDHSLRRWREWGPRLPEGCAYRNNGTLWLAANAEELAAAEAKHATLAEQGVPGELIGAERLRALEPALCEGLHGALRLSGDGIVYAPNVARWLLGAFPERIRERQARVVEIDGNRVRLDDGTWLSARAVVLANGIQATELCPELPIVPKKGHLLVTDRYPGRVSHTLVELGYVTSAHNSAGPSVACNIQPRPTGQLLIGSARQFGSTDPQVEGWMLARMLRRAVEFMPGLARLNGIRSWTGFRAASPDGLPLVGEHPQRPGLWLAVGHEGLGVTTAPATAELLAAQLFDEAPPLPLHPYSPQRFLGDAACPT	PGPT0020390_492	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0020390-lhpB2-K21061	NA	NA
BMS010_09351	237	hcnA	COG0446	Hydrogen cyanide synthase subunit HcnA	ATGCCCGACCTGACTCTCGACGGCCGCCCGCTCAGGGTGCCCCCCGGCACCAGCGTGGCAGCCGCTCTCGCGCTAGGCGGCGACGGCACCAGCCGCACCTCCGTCAGCGGCCAACGCCGGGCCCCGCTGTGCGGCATGGGCGTGTGCCAGGAGTGTCGGGTGACCATCGATGGCGATCTGCGCCTGGCCTGCCAGACCCTGTGCCGCGACGGCATGCGTGTGGAGACACGGCCATGA	MPDLTLDGRPLRVPPGTSVAAALALGGDGTSRTSVSGQRRAPLCGMGVCQECRVTIDGDLRLACQTLCRDGMRVETRP	PGPT0020400_335	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020400-lhpD-K22550	NA	NA
BMS010_09352	1254	hcnB_2		Hydrogen cyanide synthase subunit HcnB	ATGAACGCACATTGCGACCTGCTCATCGTCGGCGCCGGCCCCGCCGGGATGGCCGCCGCCCTCGCCGCCGCCGCGAGCGGTGCCCGCATCGTGCTGCTCGACGACAACCCGGCCCCCGGCGGGCAGATCTGGCGCGACGGACCGCAGGCACATCTGCCGCCCGCCGCCCTGCAGCACCGCGAAGCACTGGATGAGCACACCAACATCGAGCTGCGCTGCGGCACCCGCGTGGTCGCTATCGCCAGCCCCAACGCCCTGCTACTGGAAGATGCCGAACGCGGCTTCATCCTCGGTTACGACAAGCTGATTCTCTGCACCGGCGCCCGCGAACGGCTGCTGCCCTTCCCCGGCTGGACCTTGCCGGGCGTCACCGGCGCTGGTGGCCTGCAGGCGCTGATCAAGGGCAACCTGCCGGTGGCCGGCGAACGAGTGGTGATCGCCGGCAGCGGGCCGCTGCTGCTGGCCAGCGCCGCCACCGCGAAACGCAATGGCGCCCGGGTGCTGCGCATTGCCGAACAGGCCTCCTGGCGCGCCGTGGCCGGTTTCATGGCGCGCCTGCCGCAGTGGCCGAACAAGGTGGCGCAGGCGGTCGGCCTGTTCGATCCCGGCTACCGCTGCGACAGCCACGTGCTGGAAGCCCTCGGCCAGGACCGCCTGGAAGGGGTGTGCCTGCGCCAGGGCGGCAAGGTGGTCGAACTCGCCTGCGAACGGCTGGCCTGCGGCTTCGGCCTGATTCCCAACACCCAACTCGGCCAGGCGTTGGGCTGCCGCCTCGACGGCGAGGCCATCGCCGTGGACGCCTGGCAGGGCACCAGCCGCGCCGGGCACTACGCCGCCGGCGAATGCACCGGTTTCGGTGGCAGCGAACGGGCTCTGGTCGAGGGCGCCATCGCCGGGTATTCCGCCGTCGGCGAACGCGAGCGCGCCCAGGCCCTGTGGCCGAAGCGCCGGCACTGGCAACGCTTCGCCGACACGCTGGAGCGCAGCTTCGCCCTCACGCCGGCCTTGAAGACCTTGCCCCACCCCGACACCCTGGTCTGCCGCTGCGAGGACGTCCCCTATGCCACCCTCGCCGGATGCAACGGCTGGGTCGACGCCAAACTGGCCAGCCGCTGCGGCATGGGCGCCTGCCAGGGCCGCATCTGCGGTCCCGCGGCGCAGTTCCTGTTCGGCTGGCAACCCACACCCCCGCGCCCACCCCTGAGCCCGGCCCGGATCGAGACGCTGCTGTGCCTGGAGGATCGCACGGGATAA	MNAHCDLLIVGAGPAGMAAALAAAASGARIVLLDDNPAPGGQIWRDGPQAHLPPAALQHREALDEHTNIELRCGTRVVAIASPNALLLEDAERGFILGYDKLILCTGARERLLPFPGWTLPGVTGAGGLQALIKGNLPVAGERVVIAGSGPLLLASAATAKRNGARVLRIAEQASWRAVAGFMARLPQWPNKVAQAVGLFDPGYRCDSHVLEALGQDRLEGVCLRQGGKVVELACERLACGFGLIPNTQLGQALGCRLDGEAIAVDAWQGTSRAGHYAAGECTGFGGSERALVEGAIAGYSAVGERERAQALWPKRRHWQRFADTLERSFALTPALKTLPHPDTLVCRCEDVPYATLAGCNGWVDAKLASRCGMGACQGRICGPAAQFLFGWQPTPPRPPLSPARIETLLCLEDRTG	PGPT0020395_399	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020395-lhpC-K22549	NA	NA
BMS010_09353	486			hypothetical protein	ATGACTGCTATTCCACCCTCCCTGCTCGAACAAGGCCTGAAGAAACTCGGCTGTGACGCAGCCGCCCTGGCAACCCTGCGCGAAGAGGGTCACTGTCTCTGGCGCGGCAAGAATGGCCAAACCAGCCTGCTGGTCCCTTCTCTCGAAGGCGAGGCCGTGTTCATCGTCACGCCGCTGACTACGATCGACCCCGAGAAAGACGGCCGGTTGCTGGCCCTGGCCCTGCACCTGAATCTATCCCCCGCGCATACGCAGAACACCTGCATCGCCCTCGATGTCGAGCGCAACAGCCTGTGCCTGCGCCATGCCCACGACCTGACCGGTCACGGCGCGGATCGACTGCTGATGGTGCTGGATAACCTCCAGTCGCTTGGCGAACAGCTCCGGGAACTCATCGAAGGTTTTCGTCGCACGCAACCCGGAGCGGGCTCCCCGACCGGAGCGAGCAACGCGTTCCGTTCACTGGCGGCACAAGGGCTGGTCTGA	MTAIPPSLLEQGLKKLGCDAAALATLREEGHCLWRGKNGQTSLLVPSLEGEAVFIVTPLTTIDPEKDGRLLALALHLNLSPAHTQNTCIALDVERNSLCLRHAHDLTGHGADRLLMVLDNLQSLGEQLRELIEGFRRTQPGAGSPTGASNAFRSLAAQGLV				NA	NA	NA	NA	NA
BMS010_09354	825			hypothetical protein	ATGAATATCTCTCCCTCGTCGTCGCCGACACACTACGCTTATCCGACGTCCGAACCCGGCAGCCCGACAGGGGAACTCGGGCACCTGGTCGAATCGCTTTCACTCGGCTCCGCCCCCTCTCCTCACTCGTTTCCGAGCGTGCCACCGCTGGCTCATGTGGGGCTAGAGCACTACTCGGCGTCAGTGAGAGGCGACAGGAGCGAAACACCACTCGCCCAAGCGCTCATGCGAGAACTGAGCCGCTTCGATGGCTCTTCGAATCCGGGACAGATCATTACCAATGCGCTGGGACAAAAGGACGCCAATTCCGAGTTGGCCTCCCTGCCCGATGATGAATTCCTTGCCTTGCACTGCTACACCCATGACTTCTACAAGGCAGTCAACCGCCAGCTCCGCAGTGACCGGCCAACCGAGGACATGCAACGGATCGTCCAGCACATGGACAGGGGCCTGAAGCGGCTGGCCGAAAATCCCGACAACGTGGTCAATGGCACGCTCTACCGGGGCATCAACAAACACGTGTCCGACGACTTTATCCATCAGAATTTTCGGTTGGGCGGCATCTACCGCGACAAGACCTTTATCAGTGCATCGGAAGATCGCGACATCGCCGATGTCGACTTCACCGTTCTGAGCATGAACAGGGGGCTTGTTAAGAAGAGCCCTATTCTGGAAATAGAAAGCACCTCAGCGGTGCGCATTTCATCCTTAACCCGATACGACGAGGAACAGGAGGCGCTCTTCGCTCTCGATACCCAGTTCCGGGTAACGGGCAAGGAACAGGACGAAGCCGGCAGTTGGCGCATCAAGCTGAAAGAAATTTAA	MNISPSSSPTHYAYPTSEPGSPTGELGHLVESLSLGSAPSPHSFPSVPPLAHVGLEHYSASVRGDRSETPLAQALMRELSRFDGSSNPGQIITNALGQKDANSELASLPDDEFLALHCYTHDFYKAVNRQLRSDRPTEDMQRIVQHMDRGLKRLAENPDNVVNGTLYRGINKHVSDDFIHQNFRLGGIYRDKTFISASEDRDIADVDFTVLSMNRGLVKKSPILEIESTSAVRISSLTRYDEEQEALFALDTQFRVTGKEQDEAGSWRIKLKEI				NA	NA	NA	NA	NA
BMS010_09355	747			hypothetical protein	ATGCCATCGGTGCCGCCATTCCCCCAGGTACATCTCGGGCACTATTCCGCAACGATAAGCAGCCAGGCAAAAGGCAAGGAACCTGCTACATCCAGCCGCCAGGAACCACCGGCACGCCTGAACAGGACGCCGCTCACCCAGGCATTGGCACAAGAGCTGAGTCGCTTCGGCTGTCGCAACAATCCAGAGCGACTCATTGCCTCCGCGCTGGCCCATAAGGACTCCAAGCCCCAGCTGGCATCCTTGCCCGACGATGAGTTTCTGGCCTTGCACTTTTACACCCATAATTTCTACAAGGCGATCAACCGCCAGCTTCGTAGCGATCAGGTATCGGAGGATATGCAACTGATCGTCGACAACATGCAGAAGGGTCTGAAACGACTGGCTCAGGATCCGAAGAATGTGGCCGTCGGTACGCTTTACCGTGGCATCAACAAGCCGGTAACCGATGATTTCATCCATCAGAACTTCCGACTTGGAGACACATACCGCGACAAGACATTCATCAGTGTATCGGAAAATCGCTTCATTTCTGCTAGCGGCTATACCTTTACGAAAAGCACCGAATCCGGCTCCCAGAGAAGCCCGCTGCTGGAAATCGAAAGCTCCTCTGCCGTACGTCTTGCGGCGCTATCCAACATGGAGGGCGAAGAAGAGGCGCTCTTCGGCCTTGAGGCCCAGTTTCAGGTAACCGGCAAAGAACTAGACAGATTCGGCGGCTGGCGTATCAAGCTGAAAGAAATTTAA	MPSVPPFPQVHLGHYSATISSQAKGKEPATSSRQEPPARLNRTPLTQALAQELSRFGCRNNPERLIASALAHKDSKPQLASLPDDEFLALHFYTHNFYKAINRQLRSDQVSEDMQLIVDNMQKGLKRLAQDPKNVAVGTLYRGINKPVTDDFIHQNFRLGDTYRDKTFISVSENRFISASGYTFTKSTESGSQRSPLLEIESSSAVRLAALSNMEGEEEALFGLEAQFQVTGKELDRFGGWRIKLKEI				NA	NA	NA	NA	NA
BMS010_09356	612			hypothetical protein	ATGTCGATGATCGACAGTGAGTACCAAAAGCTGAAGGCCAGGAATCAAGACTCGTTCCAGCAGATAAAACCCGGCAAGGAAATGATCGATGAGGCGCTTGCCAGCAAAGACGCCAATCCCAATGCCGCTCATTTTTCCGATGATGAATTCCTCGCTGTTCATCTCTTTTCCACCAACCTTTACAGACCGATCAACCACCACCTTCGCTATCAGCCGCAGGACTATCTCAGACCTGTGGTCGAGGCGCTCAACAACGGTCTGGCCAAACTGTCTGAAAATCCTGATCACCAAGTTCGCACCACACTGTACCGGGGTATCGGCAAGCACATGGCCGACTGGGAGGTGGAACAGCGTTTCAAACCCGGAAGAATCTATCGGGACGAAGCGTTCATGAGTACGTCGACCGACCCGGAAGTCGCCGACATGATGAGCAATCGGGTCAAGTTGCGCATTCAGTCGTCTTCCGCCGTGGAGATAAAGGATTTCGCCAGATTCTCCGACGAGCAGGAAGCAATCATCCCGCCTAATACGCCCTTCGACGTGGTGAACCTGGAAAAGCAGGAGGACAATACCTGGCTCGTCGACCTTCGCGAGTCCCATACGGGGAGATGA	MSMIDSEYQKLKARNQDSFQQIKPGKEMIDEALASKDANPNAAHFSDDEFLAVHLFSTNLYRPINHHLRYQPQDYLRPVVEALNNGLAKLSENPDHQVRTTLYRGIGKHMADWEVEQRFKPGRIYRDEAFMSTSTDPEVADMMSNRVKLRIQSSSAVEIKDFARFSDEQEAIIPPNTPFDVVNLEKQEDNTWLVDLRESHTGR				NA	NA	NA	NA	NA
BMS010_09357	1119			hypothetical protein	ATGCAGGTAACGAATAGCCTTTCCTTATCCATGCAGATAGCGGCACCTGTGTCGCAAACCGGCTCCACGGCAAACGAAAGCCAGTCCCGTTCAGAACGCAATGAGCGCATCGAACGGGCCGTCATCGACCACATCGCGACCCATCCTGCCGCCAGGCAAATCTTTCACTCCCTGGTCGGCGCGATGATCGATACCTTCGTCAAAGCCCATGGAGAGGTCAAAGGCTGGGCGGAAATCATCCAGGCGGCCTCGCGCCCTCACGACAGCAATCGAAACGGCAACGGTGTGCTCAGCCCCCGCTTCGATGTGCTGGGTAGCGTCGGCTGGAATGGCCCGGCCATCCGGGCGACCAGTCAGTCGGGCAGCTTCAGGGAGCTGGGCACGCTGTTCACCAACTTGATGCTGAGCAACAACTTCAAGGAGATCGTGCAACGGACGGCGAGCGAAGCCGCCTTTCGGGAGCGGTTGTCGGGTCTGGTCGATGTCGACTACCTGGATTCGGCTCAAGGCGACCTGTACAAGCCATCCGGCTGGATAACCACGGCCAGGGACAGTCGGGAGGAAGTTGGCAAGGCACAGTTTCGCTCTGCCTCCGCTCTCGGCCGCGATGAAGTCGGCCCCCTAGAGCTCGCCTTCCATCGCCACAACCCGGTCAACCATCCAGCCAACCAGCCACGGATAGGCTTCGGCATTCCACCTCTCGCAGATGATTCGCTGCAGGTACTCAGAGGCTACGGCAAGGATATCTGGCGTGTAAGGCCCGAGAGTGATTTTGCCAAGCGGGCTGCCGAAGCCGAGAAACCGGTGATCGCTGGCCCATCGGGAACCGTTTTCCGCTTCATATCGGTAGCGCGCTTCCTGGGCCCCAGCTGCCAGAAGGCCCTGGGCATCGATGACGAGCGCGCCTTGAAGGAATTGGTGCGCTTCGCTGCATACGGCTACTTCGGCCAGGATGATCACCACTCCATGCTGGAAGTGAACCTCGGCGCGGCCGCCCATGGTCTGGATGAGCAGTGGGACGACACTCTCTATACCCAGCCCTTCAGCCAAGCCATCCGTGGACGGAACTTCAGCGTCGACAACCAGGCCCAGCAACATTTGGTAAAACCGATTTTGTAG	MQVTNSLSLSMQIAAPVSQTGSTANESQSRSERNERIERAVIDHIATHPAARQIFHSLVGAMIDTFVKAHGEVKGWAEIIQAASRPHDSNRNGNGVLSPRFDVLGSVGWNGPAIRATSQSGSFRELGTLFTNLMLSNNFKEIVQRTASEAAFRERLSGLVDVDYLDSAQGDLYKPSGWITTARDSREEVGKAQFRSASALGRDEVGPLELAFHRHNPVNHPANQPRIGFGIPPLADDSLQVLRGYGKDIWRVRPESDFAKRAAEAEKPVIAGPSGTVFRFISVARFLGPSCQKALGIDDERALKELVRFAAYGYFGQDDHHSMLEVNLGAAAHGLDEQWDDTLYTQPFSQAIRGRNFSVDNQAQQHLVKPIL				NA	NA	NA	NA	NA
BMS010_09358	1644			hypothetical protein	ATGCGTGTACTCAAGACCAACCCCCAGGACGACTTCCGCATCAAGGCCTACGCCGGCACCAACGGCGTGCTGCTGGCGTTCGATGTGGCCGAGGCGCGGCGCGACGGGCTGCTGGGATTCGCCGTCGAACAGCGGGAGGAGGGCAGGAACTGGCAATGGCTGCTCAACAGCCTGACCTTCCCCGGCCATGCCCATACGATTGCGCACTGGAACGCCACGCCGAGCGATATCGCGCCGATTCAGAAATTCCGCTGGGCCGACTACAGCATCGAACCCGGCACCACCTGCCATTACCGCGTGCACCTGGCCTACGGCCGTCCCGGGGCCATCGAACTGGGCGAGTCCCTGGCGCTGGCGGTGACCACCGACGACGGTCGGCCGGAAGGGCATCGGGTGCTGTTCAACCGTGCGGCGGCGGCCAGCCAGTCCTTCGGCCGGCGCTTTCCCGAACTGGTGACCCGTCTGGAGCAAGCGCGCAACCTGCCCCTCGAAGCCTGGCCGGAGGCACCGCGCCGCTGGCTGGAGAACGGCCTGCTGGAACGGATTCTCGCCTTCATCGGTCGCGCGACGGATAACCAGTGGGCGCTGGACATCGCCATCTACGAATACGAACTGGACGCCATCGTCGAGGCGGTGAACGCGGCACAGGCCCGTGGAGTACGGCTGCGCGTGCTCTACCACGCCAAGGCCGGCGACCATCAGACTCAGGAGAATGAAGCCCGCCTGGCAGCTCTCCCGGAAACGAGCCGGCGCGGGCGCGTCACCTCGCGCATCTTCCACCACAAGTTCGCCGTGCTCAGCCGCCTGGACGGTGGCGAGTTCAAGCCCTGCGCCGTGCTGCTCGGCAGCACCAACTTCACCGAGAACGGCATCTACCGCCAGGCCAATGTCGTCCACATCACCGACGACCTCGGCGTGGCCAGCCAGTACGGGCAGCTCTTCGAAGTGATCTGGAATGCGCCGGCCGATGTCGGCGCCACCCGCGACTGGATCAACCGGCACAACCCCCTGGAGGCGGGGCGGACGCTGTTCGCCGGTTTCTCCCCGCGCAGCGGCGCCGCCGACCTGGCCGAGTTCGCCGCAGTGATGCGCGGCGCGGAGCGCGACCTGCTGTTCGCCACCGCCTTCGCCTTGCCCGACGACATCCTTGACGCCCTGCTCGGCGCGCCCCACGATGACGTGCTGCGCTACGGCGTGCAGAACAAGGGCAGCCGCATCACCGGTTTCCACGCCGACCGCACCGCCGAATTCACCGCCACTGCGCTGCTTTCCAGGGGCTTGGAAGGTTGGGTGAAGGAGGGGCTGCGCGGCCAGCGCGGCAACCTGCTGGTACACCTCAAGGCGGTGGTGGCGGACTTCACCAGCGACGCCCCGGTGATCATCAGCGGCAGCCACAACCTCAGCCTGCCGGCGAGCAACGGCAACGACGAAAACTACCTGATCGTCCGCGGCGACACCGACCTCGCCGACCGCTACGGTCTGGAAATCCTGCGCTTCTACGAGCACTACCGATTCCGCTACTACGCCCGCAAGCTCAAGCTGAAAGAGGCCCGTCCCCTCAGCCCGGACAGTACCTGGGCCGACGACTACTACCGTCCCGGCCACCTGAAACGGTTGTCGCGGTTGCGGTTTTCCGGGCGGTGA	MRVLKTNPQDDFRIKAYAGTNGVLLAFDVAEARRDGLLGFAVEQREEGRNWQWLLNSLTFPGHAHTIAHWNATPSDIAPIQKFRWADYSIEPGTTCHYRVHLAYGRPGAIELGESLALAVTTDDGRPEGHRVLFNRAAAASQSFGRRFPELVTRLEQARNLPLEAWPEAPRRWLENGLLERILAFIGRATDNQWALDIAIYEYELDAIVEAVNAAQARGVRLRVLYHAKAGDHQTQENEARLAALPETSRRGRVTSRIFHHKFAVLSRLDGGEFKPCAVLLGSTNFTENGIYRQANVVHITDDLGVASQYGQLFEVIWNAPADVGATRDWINRHNPLEAGRTLFAGFSPRSGAADLAEFAAVMRGAERDLLFATAFALPDDILDALLGAPHDDVLRYGVQNKGSRITGFHADRTAEFTATALLSRGLEGWVKEGLRGQRGNLLVHLKAVVADFTSDAPVIISGSHNLSLPASNGNDENYLIVRGDTDLADRYGLEILRFYEHYRFRYYARKLKLKEARPLSPDSTWADDYYRPGHLKRLSRLRFSGR				NA	NA	NA	NA	NA
BMS010_09359	891	dhmA_3		Haloalkane dehalogenase	ATGTTGAAGTCCATCGAAGCGGGCGTGCTGGACATCGCCTATGAGGAGATCGGCCCGGCGGACGGCTGGCCGGTGCTGCTGATGCACGGTTTCCCCTACGACATCCACGCCTATGCCGAGGTGGCGCCGGCGCTGGCCGCCCGGGGCGCGCGGGTGATCGTGCCCTACCTGCGCGGCTACGGTCCCACCCGGTTTCTCCGGGCCGACACGCCCCGCTCGGGCCAGCAGGCGGCCATGGGCCAGGACATCCTGGCACTGCTGGACGCCCTGGCCATCGACTCGGCCTTGCTGGTGGGTTACGACTGGGGTGGGCGCGGCGCCTGCATCGTCGCGGCGCTGTGGCCGCAGCGCGTGCGCGGGCTGGTCAGTATCGGCGGCTACCTGATCCAGGACATCGCCCGCGCCATGGAGCCGGACGAGCCGGAATACGAACTGCCGTACTGGTACCAATACTACTTCCACAACGAGCGCGGCCGTGCCGGCCTGGAGCGCAACCGGCGGGCGCTGTGCGCGCTGCTCTGGCGCCTGTGGTCGCCGACCTGGGATTTCGACGAAGCGACCTTCGCCCGCAGCGCCGCCGCCTTCGACAACCCGGATTTCGTCGAGGTGGTGATCCACTCCTATCGCCACCGCTTCGGCCTGGCAACCGGCGATCCGGCGCTGGAAGACATCGAGCGGCGCCTGGCCGCCCAACCGCCGATCAGCGTGCCGGCCCTCAGCATGGATGGCGCCGACGACGGCGTGATCCTGCGCAGCACCGCCGCGCATGCCCGGCACTTCAGCGGCTGGCACCGGCACGCCGTGGTGGCGGGCGCCGGGCATAACCTGCCGCAGGAAAAGCCGGCAGAACTGGTCGAGCTGATCCTCGAACTGCACGACCAGACCCGATGA	MLKSIEAGVLDIAYEEIGPADGWPVLLMHGFPYDIHAYAEVAPALAARGARVIVPYLRGYGPTRFLRADTPRSGQQAAMGQDILALLDALAIDSALLVGYDWGGRGACIVAALWPQRVRGLVSIGGYLIQDIARAMEPDEPEYELPYWYQYYFHNERGRAGLERNRRALCALLWRLWSPTWDFDEATFARSAAAFDNPDFVEVVIHSYRHRFGLATGDPALEDIERRLAAQPPISVPALSMDGADDGVILRSTAAHARHFSGWHRHAVVAGAGHNLPQEKPAELVELILELHDQTR	PGPT0019791_40	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TERPENE_UTILIZATION	PLANT_DERIVED_EPOXIDE_DEGRADATION,PGPT0019791-ephA-NA	NA	NA
BMS010_09360	900	hcaR_2		Hca operon transcriptional activator HcaR	ATGTTCGAGTTGTCCCAACTGCGCTGCTTCACCACCGTGGCGGCGGAATTGAATTTCCGCCGCGCTGCCGAACGCCTCAACATGACCCAGCCGCCGCTGAGCCGGCAGATTCAATTGCTGGAGCACCAACTGGGCGTCGCACTGTTCACCCGCAGCACCCGCTCGGTGTCGCTCACCGCGGCCGGCCGGGCCTTTCTCATCGAGGCGCAGAGCCTGCTGGCGCATGCCGAACAGGCCGCGTTGACGACCCGGCGGGTGGCGCGGGGTGAGGCCGGGGCACTGACCCTGGGCTTCGTGGCCAGCGCGGTCTACGAGTTCCTGCCTCAGGTGGTGGCCGATGCCCGCACCGGCCTGCCCGGCATCGATATCGCCCTGCACGAGATGAACACCTTCGAACAACAGGAAGCCCTGCGCGCACGGCGAATCGACCTGGGCATCGTCCGCGCGCCCATGCAGCACCCCGGCATCGGCTGCGAATGCCTGCTGCGCGAGCCCTTCGTCCTGGCGCTGCCCCGGCAGCACCCCCTGGCCGACCGGGACGACCTGGGTGTGGAGGCACTGCACGGCCAACCCTTCATCCTCTACGCACACTCCGCCTGGCAGCCGTTCAACGAGCTGCTGACCGGCCTGTTCCGTGCCCACGGCGTCGTCCCGGACGTGGTCCAACTGCTCGGCTCGACCCTCACCATCCTCGCCCTGGTGGACGCCGGCATGGGCCTGGCCCTGGTGCCGCGCAGCGCCAGCCGCATCCGTTTCGAGAACGTGGACTTCCGCCCGATCGAATTGGGCGCCGGCATCCGCAGCGAGCTGTACCTGATCTGGCGCGAGGACAATGACAACCCCGCGCTGCATGTGCTGCTCGATGCCATCCGGCAGACGGCGGGAGCGCTGTCTGCTTAG	MFELSQLRCFTTVAAELNFRRAAERLNMTQPPLSRQIQLLEHQLGVALFTRSTRSVSLTAAGRAFLIEAQSLLAHAEQAALTTRRVARGEAGALTLGFVASAVYEFLPQVVADARTGLPGIDIALHEMNTFEQQEALRARRIDLGIVRAPMQHPGIGCECLLREPFVLALPRQHPLADRDDLGVEALHGQPFILYAHSAWQPFNELLTGLFRAHGVVPDVVQLLGSTLTILALVDAGMGLALVPRSASRIRFENVDFRPIELGAGIRSELYLIWREDNDNPALHVLLDAIRQTAGALSA				NA	NA	NA	NA	NA
BMS010_09361	1134		COG4948	L-talarate/galactarate dehydratase	ATGTACGAACCCGACAACATTCGCCGAATCCGTCTGCGCACCGTCGCCGTTCCCCTGCCCCATTCGGTGACCGACGCCAAGGTGCTCACCGGGCGCCAGCGTCCGCTGCGCGAGGTCTCGCTGCTCGTCGCCGAAATCGACACCGAACAGGGCCACACCGGCCTGGGCTTCGGCTATTGCCTGCGGGCCGGCGCTCCGGCGCAGTTCGCCCATGCCCGGGAAGTCGCCCCGTTGTTGATCGGCGAAGACCCCAATGACATCGCCCGCCTGTGGAGCCGCATGACCTGGGCCGGTGCCTCGGTAGGGCGCGGCGGCGTGGCGGCGCAGGCCATCGCCGCGCTGGACACCGCGCTCTGGGACCTCAAGGCGCGCCGTGCCGGCCTGCCGCTGGCCAAGCTGCTGGGTGCCCACCGCGATGCGGTGCACTGCTACAACACCTCCGGGGGTTATTTGCAGGCCCCGGTGGAAGAAGTGATCGACCGGGCCCGCGCCTCCCTCGAACGCGGCATCGGCGGCATCAAGCTGAAAGTGGGACAGCCTGACCATCGCACCGACCTGCAGCGGGTGGACGCCGTGCGCAAGGCACTCGGCGACCGCGTGCCGCTGATGGTGGACGCCAACCAGCAGTGGGACCGCACCACGGCCCTGCGCATGGGGCGCGCGCTGGAGCCCTACGAACTGGAGTGGATCGAGGAGCCGCTCGATGCCCACGACTTGGAGGGCCATGCCGCCCTCGCCGCTCGGTTGGATACGCCGGTGGGCAGCGGCGAGATGCTGACCAGCGCCACCGAGGTCGCCGCCTTCGTGGAGCGCGGCGCGGTGGATGTGCTGATGCACGACGCCCCGCGCATCGGTGGTATCACCCCGTTCCTGCGGGTAGCGGCCATGGCCGGGCTGCGCGGCATGACCATGGCGCCGCATTTCGTCATGGAGATTCATCTGCATCTGGCGGCGGCCTACGAGCACGCCACCTGGGTCGAGCATTTCGAATGGCTGGAACCGGCCTTCAACGAACGCCTGGAGATTCGCGACGGCTGCATGATCGTGCCGAACCGCCCCGGGCTCGGGCTCAGCCTGCACGAGCAGGTCGACGGTTGGACGGTGGCGCAGGTGGAGATCGATGGGCGTGGGTGA	MYEPDNIRRIRLRTVAVPLPHSVTDAKVLTGRQRPLREVSLLVAEIDTEQGHTGLGFGYCLRAGAPAQFAHAREVAPLLIGEDPNDIARLWSRMTWAGASVGRGGVAAQAIAALDTALWDLKARRAGLPLAKLLGAHRDAVHCYNTSGGYLQAPVEEVIDRARASLERGIGGIKLKVGQPDHRTDLQRVDAVRKALGDRVPLMVDANQQWDRTTALRMGRALEPYELEWIEEPLDAHDLEGHAALAARLDTPVGSGEMLTSATEVAAFVERGAVDVLMHDAPRIGGITPFLRVAAMAGLRGMTMAPHFVMEIHLHLAAAYEHATWVEHFEWLEPAFNERLEIRDGCMIVPNRPGLGLSLHEQVDGWTVAQVEIDGRG	PGPT0018185_135	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_TALARATE_DEGRADATION,PGPT0018185-talrD_galrD-K20023	NA	NA
BMS010_09362	1521			hypothetical protein	ATGTTGGAACTTCTGCAACACGGCTTTTCCGCCGTCTTCTCGATCCAGATCCTGATCCTCATCACCCTGGGCGTCGGGGTCGGCATCATCTTCGGCGCGGTGCCGGGGCTGACCGCGGTGATGGCCATCGCCCTGAGCCTGCCGCTGACCTACAGCATGGGGCCGGCGGCCGGCCTGTCGCTGCTCGTCGCGCTGTACATCGGTGCCACGTCCGGCGGCCTGATCTCGGCGATCCTGCTGAAGATTCCGGGCACGCCGTCGTCCATCGCCACCACCTTCGACGGCGGCCCGATGATGGAGAAGGGCGAGGGCGTCAAGGCATTGGGCGCGGGGATCGTCTTCTCCTTCCTCGGGACGATTGCCAGCATCGCCGCGCTGATGTTCATCGCACCCTGGCTGGCCAAGGTGGCGCTGCGCTTCGGCCCGCACGAATACTTCGCCATCGCGATCTTCTCGCTGACGCTGATCGCCACGCTGTCCACCGGGTCGATGATCAAGGGCCTGTTCTCCGGCGTGCTGGGCTTCGTCTTCGCCACCGTCGGCATCGCGCCGGTGGATGCCATCCGCCGCTTCACCTTCGACATCCCCAACCTGAACAGCGGTTTCGAAATCCTCACCGTGCTGGTCGGCGTGTTCGCCATCTCCGAGATCATCAAGGTCGCCGAAAGCGTCCGTGCGGAGCGCAAGGCCCAGGTCGGCAGCGTGAGCATGAAGGACATCAAGGGTTTCGGCTTCTCGCTGAAGGAGTTCTTCGGGCAGCTCCCCAATTCGATCCGCTCCGCGTTCATCGGCATCGGGATCGGCATTCTGCCGGGCGTCGGCGCCGGCACCTCGAACATCGTGTCCTACATCGTCGCCAAGAAGCGCTCCAAGCACCCGGAGAAATTCGGCACCGGCGTGATCGACGGCGTGGTCGCCAGCGAAACCGCCAACAACGCCGGCATCGGCGGCGCCATGATCCCGCTGCTGACCCTGGGCATCCCCGGCGACGCGGTGACCGCGATCCTCCTTGGCGGCTTCATGATCCACGGCATCCAGCCGGGCCCGATGCTGTTCATGAGCCAGGGCGACCTGGTGTACACCATCTTCGCCGCGCTGATCCTCGCCGCATTGATGATGCTGGTGCTGGAGTTCTACGGGCTGCGCATCTTCATCAAGCTGCTGGCGGTGCCCAAGCACATCCTCCTGCCGATCATCCTGGTGCTCTGCGTGGTGGGGGCCTTCGGCCTGAGCAGCCGGATCTTCGATATCTGGACCATCCTGGTGTTCGGCCTGGTCGGCTACGGCTTCGTCAAGGGCGGTATTCCCGCCGCGCCGTTCATCATCGGCTTCATCCTCGGGCCGATGGCGGAAACCAACCTGCGCCGCGGGCTGATGCTGTCGGACGGCAACTTCATGGGCTTCCTCAGCAACCCCATCGCCGGCGGCTTCATCCTGCTGGCGGTCGCCTCGGTGGCCTGGCACCTGTTCAATGCCCTGCGTCATCGCAAGGATGGTGTGGTGGAACTGCTGCGCTCCTGA	MLELLQHGFSAVFSIQILILITLGVGVGIIFGAVPGLTAVMAIALSLPLTYSMGPAAGLSLLVALYIGATSGGLISAILLKIPGTPSSIATTFDGGPMMEKGEGVKALGAGIVFSFLGTIASIAALMFIAPWLAKVALRFGPHEYFAIAIFSLTLIATLSTGSMIKGLFSGVLGFVFATVGIAPVDAIRRFTFDIPNLNSGFEILTVLVGVFAISEIIKVAESVRAERKAQVGSVSMKDIKGFGFSLKEFFGQLPNSIRSAFIGIGIGILPGVGAGTSNIVSYIVAKKRSKHPEKFGTGVIDGVVASETANNAGIGGAMIPLLTLGIPGDAVTAILLGGFMIHGIQPGPMLFMSQGDLVYTIFAALILAALMMLVLEFYGLRIFIKLLAVPKHILLPIILVLCVVGAFGLSSRIFDIWTILVFGLVGYGFVKGGIPAAPFIIGFILGPMAETNLRRGLMLSDGNFMGFLSNPIAGGFILLAVASVAWHLFNALRHRKDGVVELLRS	PGPT0017350_966	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017350-tctA-K07793	NA	NA
BMS010_09363	483			hypothetical protein	ATGGATACTCATACCCGCAAAGAACGGCTGATCGGCGTGGTCATGCTCTGCGCCGGCCTGGTCTACCTGGTCATGACCATGAACCTGCCGCGCAAGGGCTTCATCGATGCGGCCTTCGTGCCCTACGTACTGGCCTTCATCCTCTGCCTGCTCGGCGTCCTGCAACTGATGAACAGCCGCAAGCCGGCCAACGCCGGCAAGCCCGCCGAGGCCGACGACGGGGAGAAGGTGCCGGCCGACTACCCCACGGTGCTCAAGACCCTCGGCCTGATCGTGCTCTACACCGCGCTGCTGTCCACGGTCGGCTTCCCGATCATGACGGCGCTCTACCTCTACGCGCAGTTCATCGTGCTGACCCCGGCCGGCCAGAAGGTCAACCACATCGGCTACGCGGTGATCGCCGTGGTGGCGTCGCTGGTGATCTATTACATCTTCCGCCACGGCTTCGACCTGCTGTTGCCGTCCGGCTTCCTCGACATCTAG	MDTHTRKERLIGVVMLCAGLVYLVMTMNLPRKGFIDAAFVPYVLAFILCLLGVLQLMNSRKPANAGKPAEADDGEKVPADYPTVLKTLGLIVLYTALLSTVGFPIMTALYLYAQFIVLTPAGQKVNHIGYAVIAVVASLVIYYIFRHGFDLLLPSGFLDI	PGPT0017355_1551	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017355-tctB-K07794	NA	NA
BMS010_09364	969			hypothetical protein	ATGAAAAAGGCACTCCTCACCACCCTGATGTCCGCCTGCCTGGCGGTCGCCGCCGGCACCGCGCAGGCCGACGACGTCAAGTGGCCGACCCGGCCGGTGCAGGTCATCGTCCCGGCCGCCGCCGGTGGCGACACCGACTTCAACGCCCGGACCATGGCCAAGTACTTCACCCAGATCACCGGCAAGTCGATGGTCATCACCAACATGGCCGGGGGCGGCGGCACCGTGGCGGCTTCCCAGGTCAAGGAGTCCGCGGCGGACGGCAACACGCTGCTCTTCGCGCACACCGGCACGCTGCTGGTGAACGAGGTGTCCGGATTGCTGGACTACAGCTACGAGGACCTCGACATCGCCTGCATTCCCGGCGTGGACAAGGGGGCGGTATTCGTCTCCGGCGATGCTTCCGGCATCAAGACCCTGGATGACCTCATGACCAAGGCCAAGGCGAAGCCGGGCAGCGTGGTCTACGGTACCGAACTGGGTGGTTTCTCCCACCTGCAGGGGCTGATCTTCGAGAAGCTGGCCGGCGTGGACCTGAAGATCGTCGACAGCGGCAGCGCGGCGGAGAAGATCACCGCATTGCTCGGCGGCCGCATCGACATGGGCGCGATCAGCTACGGCGCGGTGCAGGACTATGCCAAGACCGGCGACATGCACATCCTCGCCCAGCCCAACGACGAGCCGAACCCGCTGCTGGGCGACGTGAAGACCTTCAAGCAGCAAGGCATCGACATGGTGGTGGACAAGCCCTACATCATCGCCTTTCCCAAGGGCACCGACCCGGCGATCGTGAAGAAGATGTCCGACGTCATGAAGCAGATCACCGAGATGCCGGCTTATGCCAAGGACCTGGAACAGGGCTTCAAGCAGCCGGTGAGCTTCTACGCCACCGAGGACGCCAAGGCGCTGCTGAAGAAAACCCGCGAAGACTATATGCAGTACAAGGACCTGCTGCGCCAGGCCAAGTGA	MKKALLTTLMSACLAVAAGTAQADDVKWPTRPVQVIVPAAAGGDTDFNARTMAKYFTQITGKSMVITNMAGGGGTVAASQVKESAADGNTLLFAHTGTLLVNEVSGLLDYSYEDLDIACIPGVDKGAVFVSGDASGIKTLDDLMTKAKAKPGSVVYGTELGGFSHLQGLIFEKLAGVDLKIVDSGSAAEKITALLGGRIDMGAISYGAVQDYAKTGDMHILAQPNDEPNPLLGDVKTFKQQGIDMVVDKPYIIAFPKGTDPAIVKKMSDVMKQITEMPAYAKDLEQGFKQPVSFYATEDAKALLKKTREDYMQYKDLLRQAK	PGPT0017360_2310	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017360-tctC-K07795	NA	NA
BMS010_09365	1377	gudD_2	COG4948	Glucarate dehydratase	ATGCTGGTTGACGATACACAGATGGCCACCCCGGTCGTGCAGGACATGCAGGTGATCCCCGTGGCGGGACACGACAGCATGCTGCTGAACCTGTGCGGCGCCCATGCCCCTTTCTTCACGCGCAACCTGGTGCTGCTCAAGGACAGCGCCGGCCGCAGCGGGATCGGCGAAGTCCCGGGCGGCGAGGGCATCCGCCAAGCCCTGGAGCGTTCGCGCCCGCTGGTCATCGGCCAACCCATCGGCCGCTACAACCGCACCCTCGACGGCCTGCGCCGGATGCTCCCCGGACGCGGCGCCACGGCGCACGAGGTGACCTCGGAAGCCGAGGCGGCGGTGCTGAAGCAACCCCATGAAATCAACCTGCGCCTGGACAACGTGATCACCGCCGTCGAGGCCGCGCTGCTCGATCTGCTCGGCCAGCACCTCGGCGTGCCGGTGGCCGAACTGCTCGGCAACGGCCAGCAGCGCGACGCGGTGCCGATGCTGGCCTACCTCTTCTACATCGGCGACCGCACCCGCACCGACCTGCCATACCTCGCCGGCGAGGGTTCGGACTGGTACCGCATCCGTCATGAAGAAGCGCTCACCGCCGACGCCATCGTGCGCCAGGCCGAGGCGGCTGCCGCCCGGTACGGTTTCAGGGATTTCAAACTGAAGGGCGGGGTGATGCACGGCAGCGACGAGATGGCTGCGGTGGCCGGGATCAAGGCACGCTTTCCCGATGCCCGCGTCACCCTCGACCCCAACGGCGCCTGGTCGCTGGACGAGGCCATCGCCCTGTGCAAGGGGCAGGGGCACGTGCTGGCCTACGCCGAAGACCCGTGCGGACCGGAGAACGGTTACTCCGGCCGCGAGATCATGGCCGAGTTCCGCCGCGCCACCGGCATCCCCACCGCCACCAACATGGTCGCTACCGACTGGCGGCAGATGGGCCATTCGCTGCGCCTCGACGCCGTGGACATCCCGCTGGCCGACCCGCATTTCTGGACCCTGCAGGGCTCGGTCCGGCTCGCCCAGATATGCGAAGAGTTCGGCCTGACCTGGGGTTCCCATTCGAACAACCACTTCGACATCTCGCTGGCGATGTTCACCCACGCCGCCGCCGCGGCGCCGGGGCGCATCACCGCCATCGACACCCACTGGATCTGGCAGGAAGGCCAGGAGCGCCTGACCCGCGAACCGCTGCGCATCGTCGGCGGCGAAGTCCGCGTGCCGGACAAGCCCGGCCTGGGCATCGAGCCGGACATGGACCGGATCATGCTCGCCCACGAGCGCTACAAGCAGGTGGCCGGTGGCGCGCGCGACGATGCCATGGCCATGCGCTACCTGCGCCCCGGTTGGACCTACGACCCGAAACGCCCCAGCTACGCGCGCTGA	MLVDDTQMATPVVQDMQVIPVAGHDSMLLNLCGAHAPFFTRNLVLLKDSAGRSGIGEVPGGEGIRQALERSRPLVIGQPIGRYNRTLDGLRRMLPGRGATAHEVTSEAEAAVLKQPHEINLRLDNVITAVEAALLDLLGQHLGVPVAELLGNGQQRDAVPMLAYLFYIGDRTRTDLPYLAGEGSDWYRIRHEEALTADAIVRQAEAAAARYGFRDFKLKGGVMHGSDEMAAVAGIKARFPDARVTLDPNGAWSLDEAIALCKGQGHVLAYAEDPCGPENGYSGREIMAEFRRATGIPTATNMVATDWRQMGHSLRLDAVDIPLADPHFWTLQGSVRLAQICEEFGLTWGSHSNNHFDISLAMFTHAAAAAPGRITAIDTHWIWQEGQERLTREPLRIVGGEVRVPDKPGLGIEPDMDRIMLAHERYKQVAGGARDDAMAMRYLRPGWTYDPKRPSYAR	PGPT0018180_60	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTARATE|GLUCARATE_DEGRADATION,PGPT0018180-gudD-K01706	NA	NA
BMS010_09366	531			hypothetical protein	ATGCGTATCGCCCCCCTGCCCCTCGCCCTCGTTCTGCTCGCACCGCTGGCCCAGGCCAAGGAATACCCCATCGGCGAGCCCCAGCAATGCGGCGGCCTGGAGGTCGGTGCGGTGTACCTGCAACCGATCGAGATGGAGCCGGCCGGCCTGATGCGCCCCGCCGCCGAATCGGACGTGCACTTGGAAGCCGACATCAGCGCCACCGAGAACAACCCCAACGGCTTCCAGGAAGGCAGCTTCGTGCCCAACCTGCGCATCGCCTTCGAGTTGCGCAAGGAAGGCAGCGCCGAGGCGCTGACCGGCGACTTCCACGCCATGGTCGCCAGCGACGGCCCGCACTACGGCGATAACGTCAAGCTGCTCGGCCCGGGCCGCTATACCCTGACCTACACCATCCTGCCGCCGGGCGGCGAGCACGGCATGTTCGGCCGTCATGTGGACCGCGAGACCGGCGTCGCGCCCTGGTTCGAGCGCTGCGAACTGCGCTACGAATTCACCTACGCCGGCATCGGCAAGAAAGGCGGTTACTGA	MRIAPLPLALVLLAPLAQAKEYPIGEPQQCGGLEVGAVYLQPIEMEPAGLMRPAAESDVHLEADISATENNPNGFQEGSFVPNLRIAFELRKEGSAEALTGDFHAMVASDGPHYGDNVKLLGPGRYTLTYTILPPGGEHGMFGRHVDRETGVAPWFERCELRYEFTYAGIGKKGGY	PGPT0003870_287	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-OTHER_IRON_BINDING_PROTEINS,PGPT0003870-ftrA-K07230	NA	NA
BMS010_09367	324			hypothetical protein	ATGCCGCGCCTCTCCGCCCTCCTGCTGCTGACGGCCCTGGCGGGTAGCGCCCAGGCGGGCCTGCCCACCTATGTGCTGAGCGTTCGCGACGGCCACTTCACCCCCGCCACGATCGAGGTGCCGGCGGGGCAGCGCTTCAAGATCGAAGTGCACAACGACGGCGAAGGCCCCATCGAGTTCGAGAGTACGCCGCTGAGGGTGGAGAAGGTGCTGTCCCCCGGCGCGCGCTCGTTCGTTGTCATCCATCCGCTCAAACCCGGTCGCTATCCGTTCTTCGACGAGTTCCACATGGACCTCCCGGAGGGCGAGATCATCGCCCGCTGA	MPRLSALLLLTALAGSAQAGLPTYVLSVRDGHFTPATIEVPAGQRFKIEVHNDGEGPIEFESTPLRVEKVLSPGARSFVVIHPLKPGRYPFFDEFHMDLPEGEIIAR				NA	NA	NA	NA	NA
BMS010_09368	858	efeU	COG0672	Ferrous iron permease EfeU	ATGGGTCAGTCGCTGTTCATCGTCTGGCGCGAAAGCGTCGAGGCCCTGCTGGTCATCGGCATCCTCTACGCCTGGCTGCGCCGCCAGCCGGACAATCGCCGGGCGCTGGTGCTGCTCTGGAGCGGGGTCGGGCTCGGGCTGGCGTTCTCCACCCTGCTCGCCCTGCTCATCCTGCGCGCCGGCGAATGGCTCGCGGGCAGCGTCGGCGAGTGGTTCCAGGCCGCCCTGGTGCTGGTCGCCAGCGGCCTGATCCTGCAGATGGTCGGCTGGATGCACCGCCACGGCCGACAGCTGCGCGACAACCTGATCGCCGGCGCCAGCGCCGGCCTGAGCCAGCGTGGCGGGCTCGGTCTGCTGGTGCTGGCGCTGATCGCCGTGGGTCGTGAAGGCAGCGAAACCGTGGTGTTCCTCTACGGCATCGGCGCCCAGCAACAGGGCCTCGACCTGGGCCGCTTCGCCCTCGGTGGGCTGCTCGGGTTCGTCCTGGCGGTGGCGACCTTCGCGGCGTTGCAATTGGGCAGCCGGCTGCTGTCCTGGCGGCGCTTCTTCCAGCTCAGCGAAACCCTGCTCCTGCTGCTCGGCGCCGCCCTGCTGATGGCCGGGCTGGACCGGGTCAGCGGCCAGTTGATGGGCATGGACCTGCCGGAAGTGGCCTACAGCCTGCTCGGCGAAGCGCTGTGGGACAGCTCGGCCGTCCTGGATGACGGCTCCGGCGTCGGTGCCGTGCTGGCCGGGTTCACCGGCTACCGGGCCATGCCCTCTCCGGCCGCGGTGGGTTTGATGGCCGCGTACTGGGTGCTGGTCTGGCTCTGGTTGTGGCGGCCGCAACCGGCGCTGGCGAGGGTCAGCCCGGCATGA	MGQSLFIVWRESVEALLVIGILYAWLRRQPDNRRALVLLWSGVGLGLAFSTLLALLILRAGEWLAGSVGEWFQAALVLVASGLILQMVGWMHRHGRQLRDNLIAGASAGLSQRGGLGLLVLALIAVGREGSETVVFLYGIGAQQQGLDLGRFALGGLLGFVLAVATFAALQLGSRLLSWRRFFQLSETLLLLLGAALLMAGLDRVSGQLMGMDLPEVAYSLLGEALWDSSAVLDDGSGVGAVLAGFTGYRAMPSPAAVGLMAAYWVLVWLWLWRPQPALARVSPA	PGPT0003710_1555	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_II_TRANSPORT_SYSTEM,PGPT0003710-efeU|FTR|FTH1-K07243	NA	NA
BMS010_09369	1392			hypothetical protein	ATGAACGCATCCCTGGCGCGGCTCGGCGACGCCATGCGGCGTCACGCCGGGGTCATCCGCGCCCTGCAATGGTCGGTGGTGACGTTCTACGCGGTGCTGTTAGTGATCCCCGCCCTGCTGCCGCTGCCGGCGGCGCACAGCGGGCTGCTGGACAACCTCACCCTGTTCGCCCAGTTCGTCTTCTGGGGGCTCTGGTGGCCGTTCGTGCTGCTCTCGGTGGTGCTGTTCGGACGCCTCTGGTGCGGCGTACTCTGCCCGGAAGGCTCGCTCAGCGAATGGGCCAGCCGGCGCGGTCTCGGTCGGGGCACGCCGCGCTGGATGCGCTGGGGCGGCTGGCCGACCCTGGCGTTCATCCTCACCACCGTCTATGGCCAGTTGATCAGTGTCTACGACTACGCCCAGGCCGCCCTGCTGATCCTCGGCGGCTCCACCCTCGCGGCGATGCTGGTGGGCTTCCTCTATGGGCGCGGCAAGCGCATCTGGTGCCGCTACCTGTGCCCGGTGAGCGGCGTGTTCGGCCTGCTCGCCAAGCTGGCGCCGGTGCATTTCCGCGTCGACGAGCAACGTTGGCGGGAGAACCCGCTACCCCACCTGCCACCGCCCAACTGCGCCCCTCTGCTGGACATTCGCCGCATGCGCGGCGCCTCGGATTGCCACGCCTGCGGACGCTGCAGCGGCCAGCGCGGCGCGGTGAGCCTGGCCCTGCGCTCGCCGAACCAGGAGATCATCCATGTCGAGCGCCATCGCGACGACGTTTCGTGCGGCGGTCCGTCGGAGCCCTCCCCCTGGGACGTGCGCCTGCTGCTGTTCGGGGTGATCGGTCTGGCCATGGGCGCCTTCCAGTGGACGGTCAGCCCCTGGTTCATCGACCTCAAGCAGACCCTCGCCACCTGGCTGGTGGAGCGCGACCTGTTCTGGCCGTTGGAGGCCAACGCGCCCTGGTGGCTGCTGACCCACTACCCGCAGGTCAACGACACCTTCAACTGGCTGGATGGCGCGCTCATCCTCGTCTACCTGCTCGGCATCGGGCTGCTCCTGGGCGGCGCACTGAGCCTGCTGCTGCGCGCCGCCACGACGCTGGCCGGACGGCCGCCGCTGTTCCGTCAACTGGCGCTGAGCCTCACGCCCCTCGGTGCCGCCGGGCTGTTCCTCGGGCTCTCCTCCACCACCGTCAAACTGCTGCGCTTCGAAGGAGTGCCCCTGGACTGGGTGCAACCGACCCGCGCCGCCCTGCTGGCCGGCGCCATCGCCTGGAGCCTGTGGCTCGGCTGGCAGGTGCTGCGCGGCGAACGCCTGTCCACCCGGCGTACGCTGGGCGCCTTTGTCTGCATGCTGCCGGCGGCGGGTCTGGTCGGGTATGGGTGGTGGTTGCAGTTCTGGGGCTGGGTCTGA	MNASLARLGDAMRRHAGVIRALQWSVVTFYAVLLVIPALLPLPAAHSGLLDNLTLFAQFVFWGLWWPFVLLSVVLFGRLWCGVLCPEGSLSEWASRRGLGRGTPRWMRWGGWPTLAFILTTVYGQLISVYDYAQAALLILGGSTLAAMLVGFLYGRGKRIWCRYLCPVSGVFGLLAKLAPVHFRVDEQRWRENPLPHLPPPNCAPLLDIRRMRGASDCHACGRCSGQRGAVSLALRSPNQEIIHVERHRDDVSCGGPSEPSPWDVRLLLFGVIGLAMGAFQWTVSPWFIDLKQTLATWLVERDLFWPLEANAPWWLLTHYPQVNDTFNWLDGALILVYLLGIGLLLGGALSLLLRAATTLAGRPPLFRQLALSLTPLGAAGLFLGLSSTTVKLLRFEGVPLDWVQPTRAALLAGAIAWSLWLGWQVLRGERLSTRRTLGAFVCMLPAAGLVGYGWWLQFWGWV				NA	NA	NA	NA	NA
BMS010_09370	717			hypothetical protein	GTGATACAGGCCCCGGAAACCCGCGAAATCATTCTTCTCCACCCATTGTTCAGGCATCTGCGTCGGGAGGACCAGGCGCGCCTGCTCGATGCTGCCCACGAGCAGCGCCACGCCAACGAGGTGATGTTGCTGCACCAGGGCCAGGAGGCCGAGCGCTTCTTCCTGGTGCTCAGCGGGCGGGTGAAGCTGTTCCGCATCTCGGCGGACGGGCAGGAAAAGGTGGTGGAGATCATCCAGGCCGGGCAGACCTTCGCCGAAGCGGTGATGTTCATGCAGCACGCGGTCTACCCGGTGTGCGCCCAGACCCTCGGCCCGGTGCACATGATCAGCTTTCCCAACCGGATGATGCTGCAGATTCTCAGCGAGCATCCGCAGACCTGTCTGCACCTGCTCGGCCACCTCAGCGTGCGCCTGCACCAGCGCCTTGGCGAGCTGGAAACGCTGACCCTGCAGAACGCCACCCAGCGCTTCGCCCTGTACCTGATCCAGCGCCTGGAAAACCGTGCGGTGGAAAGTGCCGAGATCGACCTGTTGCTGCCCAAGCGGCTGGTCGCGGCGCGGCTGTCGATGCAGCCGGAAACCCTCTCGCGGATCATGGCGCGCCTGCGCCAGGCCGGGCTCATCGAGAGCCGCGGGCGACGCATCCGCATCCCCAGCGTCGGGCGGCTGCTCGACGAGTTCAGCGAAAGCCGGGAAATCAGCCTCCGCGCAGTATGA	MIQAPETREIILLHPLFRHLRREDQARLLDAAHEQRHANEVMLLHQGQEAERFFLVLSGRVKLFRISADGQEKVVEIIQAGQTFAEAVMFMQHAVYPVCAQTLGPVHMISFPNRMMLQILSEHPQTCLHLLGHLSVRLHQRLGELETLTLQNATQRFALYLIQRLENRAVESAEIDLLLPKRLVAARLSMQPETLSRIMARLRQAGLIESRGRRIRIPSVGRLLDEFSESREISLRAV	PGPT0001075_361	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001075-dnr-K21563	NA	NA
BMS010_09371	690	queE_3		7-carboxy-7-deazaguanine synthase	ATGCTGAGGGTCGGGGGGCTGGTCCCCCTGACCACCCTGGATTTCCCCGGTCACCTGGCCTGCGTACTGTTCTGCCAGGGCTGCGCCTGGCGCTGCCGCTACTGCCACAACCCGCAACTGATCCCGGCGCGTGGCGAGCAGGAACATGCCTGGGACGCGGTGCTGGATTTCCTGCGCAGCCGCCAGGGGCTGCTCGATGCCGTGGTGTTCAGCGGCGGTGAGCCGACCTTGCAGAAAACCTTGCCCGAGGCCATCGAACAGGTGCGCGACTTGGGCTTTCGCATCGGCCTGCACAGCGCCGGGGTGAAACCCAAGCCGTTCGCCCGCGTCGTGAAACTGACCGACTGGGTGGGCTTCGACGTCAAGGCGCTGCCCGAGGATGCCGAGCGGGTCACCGGCGTGGCCGGCAGCGGCGCGGCCAACTGGCGCAGCCTGGATCACCTGCTCGCCAGCGGCGTGGATTACGAATGCCGCACCACCGTACACTGGCATCTGTTCGATGCCGACCGGCTGTGGCGGCTGGCTCTGCGCCTGCGTGAAACGGGGGTGGAGCGCTTCGCCGTGCAATGGGTGCGTACCGCGCGCATGTTCGACGACAGCCTGCCCTGGGCGCCACCGCCGCTGGAACAGCGTGAGCTGTGGGAGCAACTGGAAGCGCTGTTTCCTCAGTTCATACTGCGCGGAGGCTGA	MLRVGGLVPLTTLDFPGHLACVLFCQGCAWRCRYCHNPQLIPARGEQEHAWDAVLDFLRSRQGLLDAVVFSGGEPTLQKTLPEAIEQVRDLGFRIGLHSAGVKPKPFARVVKLTDWVGFDVKALPEDAERVTGVAGSGAANWRSLDHLLASGVDYECRTTVHWHLFDADRLWRLALRLRETGVERFAVQWVRTARMFDDSLPWAPPPLEQRELWEQLEALFPQFILRGG				NA	NA	NA	NA	NA
BMS010_09372	165			hypothetical protein	ATGAACCAAGCCATCCAACTGCCCCAGGAGCAGCGTCAGCGTTGCGAAGTGTGGACCCGGGTGATGGGCTATCACCGCCCGGTCGCGGCCTTCAATCCGGGCAAGCAGTCCGAGCACCGCGAACGCCAGCATTTCACCGAATGCGCGGCGGGCCTGGCGCGCTGA	MNQAIQLPQEQRQRCEVWTRVMGYHRPVAAFNPGKQSEHRERQHFTECAAGLAR	PGPT0021330_1959	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0021330-nrdD-K21636	NA	NA
BMS010_09373	2022	nrdD	COG1328	Anaerobic ribonucleoside-triphosphate reductase	ATGACCGGCCTGCCATCCTTCCGTCCTGAGTCGTTGCGCAAGCGCGACGGCCGCTGGGTTGCCTTCGATCTGGAGAAGATCCGCCGGGCCATCGCGGCGGCCGGGGAGGTGACCGGGGAGTTCGAGGGGGCGCGGGCGGGCGATCTGGCCGAGGCGGTGCTGGCGCGTCTGCTCGACCGCCGCGAGCTGGATGTGGAACGGGTGCAGGATAGCGTCGAGCGGGTGCTGATGGAGGCCGGTTACTACACCACGGCGCGCGCCTACATCGTCTACCGAGAACGGCATGGCCGGCTGCGCCGCGACCGCAAGGCACTGGTCGACGTGGCGGCGTCGATGAACGAGTACCTGTCCCGCGAGGACTGGCGGGTGCGGGCCAACGCCAACCAGGGCTATTCGTTGGGCGGGCTGATTCTCAACGTGTCCGGCAAGGTCACCGCCAACTACTGGCTGGACGAGGTGTACAGCCCGGAGATCGGCCAGGCGCACCGCGAGGCGGACCTGCACATCCACGACCTGGACATGTTGGCCGGCTACTGTGCCGGCTGGTCGCTGCGCACCCTGCTCCACGAGGGTTTCAATGGCATTCCCGGCCGGGTCGAGGCCGGGCCGCCGAAGCATCTCTCCAGCGCCCTGGGGCAGATGGTCAACTTCCTCGGCACCCTGCAGAACGAGTGGGCCGGCGCCCAGGCGTTCAGCTCCTTCGATACCTACCTGGCGCCCTTCGTGCGCAAGGACGGCCTGGGCTACGAGGAGGTGCGCCAAGCGTTGCAGGAATTCATCTACAACCTCAACGTGCCGTCGCGCTGGGGCACCCAGACGCCGTTCACCAACCTGACCTTCGACTGGGTCTGCCCGGAAGACCTGCGCGAGCAGATTCCGGTGATCGGCGGCGAGGAAATGCCGTTCGCCTATGGCGAGCTGCAAGCCGAGATGGAGCTGATCAACCGCGCCTACATCGAGGTGATGATGACCGGCGATTCCCTCGGCCGGGTGTTCACCTTCCCGATCCCCACCTACAACATCACTCACGACTTCCCCTGGGACAGCGAGAATGCCGACCGCCTGTTCGACATGACGGCGCGCTACGGCCTGCCGTACTTCCAGAACTTCCTCAATTCCGACATGAAGCCCAACCAGGTGCGCTCCATGTGCTGCCGACTGCAACTGGACGTGCGCGAGCTGCTCAAGCGCGGCGGCGGGCTGTTCGGCTCGGCGGAGCAGACCGGCTCCCTCGGCGTGGTGACGATCAACTGCGCGCGGCTGGGCTACCTGTTCTGTGGCGACCGCAAGGGACTCTACCGGCGCCTGGACGAGCTGCTGGAAATGGCCCGGCAGAGCCTGGAAGTGAAGCGCAAGGTGATCCAGCACCACATGGACGCCGGCCTTTATCCCTACACCAAGCGTTACCTGGGCACGCTGCGCAACCATTTCTCCACCGTTGGCGTGAACGGCCTGCACGAGATGCTGCGCAACTTCACCGCTGACCGCGAGGGGATGCACACCGAGGCGGGCCGGGCCTTCGCTCTCGAGCTGCTGGACCATGTGCGGGCGACCCTGGTGCGTTTTCAGGAGGAAACCGGCCACCTCTACAACCTGGAGGCGACGCCGGCGGAGGGCACCACCTACCGCTTCGCCAAGGAAGACCGCAAGCGCTTCCCCGGCATCCTCCAGGCCGGCTCGGACGAGGCACCGTACTACACCAACTCCTCGCAACTGCCGGTGGGCTTCACCGATGACCCCTTCGAAGCGCTGGTGCTGCAGGACGAGCTGCAATGCAAGTACACCGGCGGCACCGTGCTGCACCTGTACATGGCCGAGCGGATTTCCTCGGTGGAGGCCTGCAAGAAGCTGGTGCGCACCGCGCTCGGCCGCTTCCGCCTGCCGTACCTGACGGTGACGCCGACCTTCTCGATCTGTCCGGTGCACGGCTACCTGGCCGGCGAGCATGAGTTCTGTCCGAAGTGCGACGAGGCCTTGTTGCAACGCCAGCAGGCGTGCACGACCAGCGCCTGTAATGCGTGA	MTGLPSFRPESLRKRDGRWVAFDLEKIRRAIAAAGEVTGEFEGARAGDLAEAVLARLLDRRELDVERVQDSVERVLMEAGYYTTARAYIVYRERHGRLRRDRKALVDVAASMNEYLSREDWRVRANANQGYSLGGLILNVSGKVTANYWLDEVYSPEIGQAHREADLHIHDLDMLAGYCAGWSLRTLLHEGFNGIPGRVEAGPPKHLSSALGQMVNFLGTLQNEWAGAQAFSSFDTYLAPFVRKDGLGYEEVRQALQEFIYNLNVPSRWGTQTPFTNLTFDWVCPEDLREQIPVIGGEEMPFAYGELQAEMELINRAYIEVMMTGDSLGRVFTFPIPTYNITHDFPWDSENADRLFDMTARYGLPYFQNFLNSDMKPNQVRSMCCRLQLDVRELLKRGGGLFGSAEQTGSLGVVTINCARLGYLFCGDRKGLYRRLDELLEMARQSLEVKRKVIQHHMDAGLYPYTKRYLGTLRNHFSTVGVNGLHEMLRNFTADREGMHTEAGRAFALELLDHVRATLVRFQEETGHLYNLEATPAEGTTYRFAKEDRKRFPGILQAGSDEAPYYTNSSQLPVGFTDDPFEALVLQDELQCKYTGGTVLHLYMAERISSVEACKKLVRTALGRFRLPYLTVTPTFSICPVHGYLAGEHEFCPKCDEALLQRQQACTTSACNA	PGPT0021330_1763	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0021330-nrdD-K21636	NA	NA
BMS010_09374	339	gsiB_8	COG3729	Glucose starvation-inducible protein B	ATGGCTGAAGATAAAGGCAAAATGAGTGTGGGCGAAGCCGGGCGCAAGGGAGGCGAAGCGACTTCCGATACTCATGGCAAAGAGTTCTACCAGGACATCGGCCAGAAAGGGGGTGAGGCGACCTCCGAGAGCCATGATCGGGAGTTCTATCAGGAAATCGGCAGCAAGGGTGGTCAGAACAGCGGAGGCAACTTTGCCAACGACCCCGAGCGGGCCTCCGAGGCCGGCAGGAAAGGCGGCCAGGCCAGCGGCGGCAACTTCGCCAACGACCGTGAACGCGCTTCCGAAGCGGGTCGCAAAGGTGGCCAGAACAGCCGCGGCGGCGGTCGCAACAGCTGA	MAEDKGKMSVGEAGRKGGEATSDTHGKEFYQDIGQKGGEATSESHDREFYQEIGSKGGQNSGGNFANDPERASEAGRKGGQASGGNFANDRERASEAGRKGGQNSRGGGRNS				NA	NA	NA	NA	NA
BMS010_09375	273			hypothetical protein	ATGACTGATGCCTTGAAATTCGATATGGCCTGCCAAATCATCCAATCTTCTTTTTCCCCGTTGGGCTGTGAATGTAAAAGAACCGAAAACGAAGGTATTTGCGTACGCCTGTACGACGATTCGAATACCACCCGCTTGCTGGTAAAAAACATCGCCCCCGACAAACTCACGACCATCAGAAGCGTTTCGCAACTGGCGCTGGAAATAAAACAGGCGCTGGCGTCGTCGACCATGCGGAACAAAGTGCGCACGCGGTCCAGCGGATCGATGTGA	MTDALKFDMACQIIQSSFSPLGCECKRTENEGICVRLYDDSNTTRLLVKNIAPDKLTTIRSVSQLALEIKQALASSTMRNKVRTRSSGSM				NA	NA	NA	NA	NA
BMS010_09376	408			hypothetical protein	ATGGCCATTCACCTCGATCACCTCATGGTGCCGGCTCATGACAAGCGGGCGTCGGCGAAGCTATTGGCCGGGTTGCTCGGGGTGCCCTGGTCGGAAACCGGCGTGGGCCCCTTCGTGCCCGTCTACCTGAACGACGGCCTGACCCTCGACTTCGACGAATGGAGCGGATTTTTCCCCCGGCTGCATTTCTGCTTCCGGGTCACCGAAGACGACTTCGACGCCATCCTCGCTCGTATCCACGCCATGGGCATCGCCTACCGCAGCCATGTTCACGGCCCGGTCGACCGGCAGATCGACACCGAGCACGGCGGCCGCATCGTCTACTGGAACGAGCCGGACGGGCATCAGTGGGAACTGCTTACCGTCAGCTACGCACGCCAAGCCGACGACGGCTATCTCGGTTTATAG	MAIHLDHLMVPAHDKRASAKLLAGLLGVPWSETGVGPFVPVYLNDGLTLDFDEWSGFFPRLHFCFRVTEDDFDAILARIHAMGIAYRSHVHGPVDRQIDTEHGGRIVYWNEPDGHQWELLTVSYARQADDGYLGL				NA	NA	NA	NA	NA
BMS010_09377	993	moaA_5		GTP 3',8-cyclase	ATGGACACACAACTGCAGGATGGCTTCGGCCGCACCATCGATTACCTGCGCCTGTCGGTGACCGACCGCTGCGATTTCCGCTGTGTCTACTGCATGGCCGAGGACATGACCTTCCTGCCGCGCCAGCAGGTACTAGCGCTGGAGGAACTGGAGCGGGTGGCGAGAATCTTCGTCGGCCTGGGCGTGAAGAAGATCCGCCTCACCGGTGGCGAGCCGCTGGTGCGCAAGGGCATCGTCGGCCTCTGCGAACGCATCGCCGGCTTGTCCGGCCTGCGCGAACTGGTGATGACCAGCAACGGCTCGCAGCTCGGCAAACTGGCCCGGCCGCTGGCCAAGGCCGGTCTCAAGCGCCTCAACATCAGCCTGGACAGTCTCGACCCGGCGCGCTTTCGCGCCATCACCCGCACCGGCGACCTGCGCCAGGTGCTGGCCGGCATCGACGCGGCGCGGGAAGCCGGCTTCGAGCGGATCAAACTCAACTGCGTGGTGATGAAGGGTCGCAACGCCGACGAGGTGCCAGCTTTGGTGGACTACGCCGTGGCCAACGGCCTGGATATCAGCTTTATCGAGGAAATGCCGCTGGGCGCGGTCGGCCGCGACCGCGGCGAGAGCTTCTGCTCCAGCGACGAAGTGCGCGCCCTGATCGCCGAACGCCACGCGCTGATCGACAGCGCCGAACAGAGCGGCGGTCCGGCGCGCTACGTGCGCCTGCTGGAACACCCGCAGACCCGCGTCGGCTTCATCTCGCCGCACTCGCACAATTTCTGCGCCACCTGCAACCGCTTGCGCCTGACCGTGGAAGGCCGGCTGCTGCTGTGCCTCGGCCACGAAAATTCCATCGACCTGCGCGGCCTGCTGCGCCGCCATCCCACCAGCGACACACCGATCATCGACGCCATCCATGGTGCCTTGCAGCGCAAGCCGCTGCGACACGAATTTTCCGCCGCGGGCGAAGTGCAGGTGCTGCGCTTCATGAACGCCAGCGGCGGATAA	MDTQLQDGFGRTIDYLRLSVTDRCDFRCVYCMAEDMTFLPRQQVLALEELERVARIFVGLGVKKIRLTGGEPLVRKGIVGLCERIAGLSGLRELVMTSNGSQLGKLARPLAKAGLKRLNISLDSLDPARFRAITRTGDLRQVLAGIDAAREAGFERIKLNCVVMKGRNADEVPALVDYAVANGLDISFIEEMPLGAVGRDRGESFCSSDEVRALIAERHALIDSAEQSGGPARYVRLLEHPQTRVGFISPHSHNFCATCNRLRLTVEGRLLLCLGHENSIDLRGLLRRHPTSDTPIIDAIHGALQRKPLRHEFSAAGEVQVLRFMNASGG	PGPT0008410_3054	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008410-moaA-K03639	NA	NA
BMS010_09378	948	surA_4		Chaperone SurA	ATGGCATGCGGATGTGGTGGCGCGAATGCGGGGCAGGGGGGCTGTGGCGGGCATCAGCCTGCGGTCGAGGTCCCGGCTCAGACGCCGGCGGTGCGTGAAGTGCTGCCCGAGCCGGCGGTAGAAGCCATGCCCGCCGCGGGGCCGGAACTGATCGCCAGCAGCGAACAGGAATGGCCGCGGGTACGGGTGAACGGCGTGGCCATCGCGCCGGACGCCATCGCCCAGGAACTGCAATACCACCCGGCCGACAGCCGCGACGAGGCGGTCTACCTGGCGACCCAGGCGCTGGTGGTACGCGAGCTGCTGCAACAGCGCATCGGCGAGCTGGGCCTGCTGGTGCGGCCCGAGGCCGGGGAAAGCGAGGAAGAGGCGGCCACCCGCTGCCTGATCGAACAGGAAGTGCAATTGCCGCTGGCCGATGACGTCGCCTGCCGGCAGTTCTACTACAGCAACAGCCAGCGTTTCCGCAGCGCGCCGCTGGTGGCCGCGCGGCACATCCTGCTGGCTTGCCCGGCGGACGATGCCGACGCCCGTGGCGAGACCCGCGAGTTGGCGCTCGGTCTGCTCGAAGAACTGCTGCAGGCGCCGCAGCGCTTCGCCGAACTCGCCCGGCAGCACTCGGCCTGCCCGTCGAAGGAGCAGGGCGGGGCGCTGGGGCAGATCAGCAAGGGCCAGACCGTGCCCGAGTTCGAACGCCAATTGTTCCGCCTGCCGGCCGGCCTCTGCCCGCAGCCGCTGGAAAGCCGCTACGGCTTCCACCTGGTGACGGTGGACCAGCGCATCGAAGGCGAGCAACTGCCCTACGAGGCGGTCGCCACGGCGATCCGCAACGAGCTGAACCAGCGCGTCTGGCAGATCGGCGTCGCCCAGTACATCAAGGGATTGATCGGTGCGGCCGATATCGAAGGTATCCATTTGCAGGGCGCCGACTCGCCGCTCCTGCAATAA	MACGCGGANAGQGGCGGHQPAVEVPAQTPAVREVLPEPAVEAMPAAGPELIASSEQEWPRVRVNGVAIAPDAIAQELQYHPADSRDEAVYLATQALVVRELLQQRIGELGLLVRPEAGESEEEAATRCLIEQEVQLPLADDVACRQFYYSNSQRFRSAPLVAARHILLACPADDADARGETRELALGLLEELLQAPQRFAELARQHSACPSKEQGGALGQISKGQTVPEFERQLFRLPAGLCPQPLESRYGFHLVTVDQRIEGEQLPYEAVATAIRNELNQRVWQIGVAQYIKGLIGAADIEGIHLQGADSPLLQ	PGPT0000050_280	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000050-nifM-K03769	NA	NA
BMS010_09379	159			hypothetical protein	ATGGCATGTGGATGTGGTGGTGGAAACGGCGGGCAGGGCGGCTGCGGCGGGCAGAAGCCCGTGAGCGAAGCGACCGAGGCCCCGGCGGTACAGGAAGTGGTGCCGGAGCCGGCACAGGAAGCGGAAGCGCAGGAAACCGAGCCGGGCTCGGAGCAGTAA	MACGCGGGNGGQGGCGGQKPVSEATEAPAVQEVVPEPAQEAEAQETEPGSEQ				NA	NA	NA	NA	NA
BMS010_09380	804	narI	COG2181	Respiratory nitrate reductase 1 gamma chain	ATGTCTAAGTTGAATTTCCTACTGTTCGGGGTCTATCCCTACATCGCCCTGGCCATCTGCCTGATCGGTAGCTGGGCGCGCTTCGACCTGTCCCAGTACAGCTGGAAGGCCGGCTCCAGCCAGATCTTCAACCGCACGGCAGCGGAACAGCGCTATATGCGCATCGCCAGCAACCTGTTCCACGTCGGCGTGCTGTTCATTCTCGCCGGCCACTTCGTCGGCCTGCTGACCCCCGAGGCGCTGTACCACTCGATGATCAGCACCGCCAACAAGCAACTGCTGGCGATGGTTTCCGGCGGCTTCTTCGGCATCCTCTGCCTGATCGGGCTGCTGATGCTGATCAAGCGCCGCCTCAGCGATGCGCGGGTGCGGGCCAACTCCAACCCCAGCGACATCCTGATCCTGTTCGTCCTGCTGGCGCAGCTGGTGCTTGGCCTGCTGACCATCGTCGCCTCCACCGGCCACCTCGACGGCTCGGTGATGGTGATGCTGGCCAACTGGGCGCAGTCCACCGTGACCCTCGATCCGGTGGCCGCGGCCGCCGCCATCGCGCCGGTCAGCCTGGTCTACAAGCTCCACGTGTTCCTCGGCCTGACCCTGTTTGTGCTGTTCCCCTTCACCCGCCTGGTGCACATCGTCAGCGCACCGGTGTGGTACCTGGGCCGGCGCTACCAGATCGTCCGCCAGAAGGGTACCCGCCCGGTGGCGCCGCGTCCGGTCATGGCGCGTCGCGACGAGCGCGTGGAAAGCCCCGAGCCGGGCTACGCCCCGGCCCCGACCCTGGTACGGGACAGCGTCAACTGA	MSKLNFLLFGVYPYIALAICLIGSWARFDLSQYSWKAGSSQIFNRTAAEQRYMRIASNLFHVGVLFILAGHFVGLLTPEALYHSMISTANKQLLAMVSGGFFGILCLIGLLMLIKRRLSDARVRANSNPSDILILFVLLAQLVLGLLTIVASTGHLDGSVMVMLANWAQSTVTLDPVAAAAAIAPVSLVYKLHVFLGLTLFVLFPFTRLVHIVSAPVWYLGRRYQIVRQKGTRPVAPRPVMARRDERVESPEPGYAPAPTLVRDSVN	PGPT0000505_758	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000505-narI|narV-K00374	NA	NA
BMS010_09381	756	narJ	COG2180	Nitrate reductase molybdenum cofactor assembly chaperone NarJ	ATGCGCATCCTGAAAGTCATCTCCCTGTTGTTGGACTACCCCGGCGAGCTGCTGCGCGACAACCGCGACGAGCTGGCCGGCGTCATCACCGTGGCCCGCGAAATCAGCCCGACCCAGCGCACTGCGCTGGTCGGTCTGCTCGATGAGCTGGCCGACGGCGACCTGATGGACGTGCAGGAGCGCTACAGCGAGCTGTTCGACAAGGGCCGCGCGCTGTCCCTGCTGCTGTTCGAACACGTGCACGGCGAGTCCCGCGACCGTGGCCAGGCCATGGTCGACCTGATGGCGCAATACACCGAGGCCGGTTTCGCCATCGATGTGCGCGAGCTGCCGGATTACATCCCGCTGTACCTGGAATACCTGGCGACCCGCGACGCCCTCGTGGCCCGTGAGGGCCTGGCCGACGTGGCACACCTGCTGGCCCTGCTGGCGGTGCGCCTGGAGGAGCGCGAAAGCCCCTACGCCGCGTGCTTCCGCGCGCTGCTGCAGATCGCTGGCCAGCCGCTGGAGGAAACCCTGGCCGAACTGCGCGAGCAGGTCGCCGGGGAGACCCGCGACGACTCTTTGGAAGCCCTCGACAAGGTCTGGGAAGAGGAGCAGGTGAACTTCCTCCAGGCCGGCCAGCAGGAGCGTTGCGGTTCCACGGCCATGGGTCCGGGCAAGGCCCGCGAGGAAAGCGCGGTGCCGCTGCACTGGGTGGATTTCAAGCATGACGGGCAGGCCGCCGCGCTGGCCCAGGAGGTGCGTAATGTCTAA	MRILKVISLLLDYPGELLRDNRDELAGVITVAREISPTQRTALVGLLDELADGDLMDVQERYSELFDKGRALSLLLFEHVHGESRDRGQAMVDLMAQYTEAGFAIDVRELPDYIPLYLEYLATRDALVAREGLADVAHLLALLAVRLEERESPYAACFRALLQIAGQPLEETLAELREQVAGETRDDSLEALDKVWEEEQVNFLQAGQQERCGSTAMGPGKAREESAVPLHWVDFKHDGQAAALAQEVRNV	PGPT0000510_111	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000510-narJ|narW-K00373	NA	NA
BMS010_09382	1539	narH	COG1140	Respiratory nitrate reductase 1 beta chain	ATGAAGATTCGTTCACAAGTGGGCATGGTCCTGAACCTGGACAAGTGCATCGGTTGCCATACCTGCTCGATCACCTGCAAGAACGTCTGGACCAGCCGCGAAGGCATGGAATACGCCTGGTTCAACAACGTCGAGACCAAGCCCGGCATCGGTTACCCGAAGGAGTGGGAGAACCAGGAGAAGTGGAAGGGCGGCTGGGTGCGCAACCCGGACGGCTCGATCAACCCGAAGATCGGTGGCAAGTTCCGCGTGCTGGCGAATATCTTCGCCAACCCGGACCTGCCGACCATCGACGACTACTACGAGCCGTTCGACTTCGACTACCAGAACCTCCACACCGCGCCGCTCGGCCAGCACCAGCCGGTGGCCCGGCCGCGTTCGCTGGTCTCCGGCCAGCGCATGGAAAAGATCGAGTGGGGCCCGAACTGGGAGGAAATCCTCGGCACCGAATTCGCCAAGCGGCGCAAGGACAAGAACTTCGACAAGGTCCAGGCGGACATCTACGGCGAGTACGAAAACACCTTCATGATGTACCTGCCGCGCCTGTGCGAGCACTGCCTCAATCCGGCGTGCGCGGCGTCCTGCCCGAGCGGTGCGATCTACAAGCGCGAAGAGGACGGCATCGTCCTCATCGACCAGGAGAAGTGCCGCGGCTGGCGGATGTGCATCAGCGGCTGCCCGTACAAGAAGATTTACTTCAACTGGAAGAGCGGTAAGTCCGAGAAGTGCATCTTCTGCTTCCCGCGCATCGAGGCCGGCATGCCGACCGTCTGTGCCGAGACCTGCGTGGGCCGCATCCGCTACCTCGGCGTGCTGCTCTACGATGCCGACCGCATCCATGAGGTGGCGAGCACCGCCAGCGAGCAGGACCTCTACGAGAAGCAACTGGAGATATTCCTCGACCCGCATGATCCGAAGGTCATCGCCCAGGCCCTGGCCGACGGCGTGCCGCAGTCGGTGATCGACGCCGCGCAGAAGTCTCCGGTGTACAAGATGGCGGTGGACTGGAAGCTGGCCCTGCCGCTGCACCCGGAATACCGCACCCTGCCGATGGTCTGGTACGTGCCGCCGCTGTCGCCGATCCAGAACGCCGCGGCGTCCGGCCAGGTGGCCATGAATGGCGTGCTGCCGGACGTGGACAGCCTGCGCATTCCGCTGCGCTACCTGGCCAACCTGCTCACCGCCGGCGACGAGAAGCCGGTCAAGCGTGCCCTCAAGCGCATGCTGGCGATGCGTGTCTACAAGCGCGCTGAGCAGGTGGAAGGACGCCAGGACCTCGCGGTGCTGGACGAGGTCGGCCTGAGTGTCGCCGAGGTGGAGGACATGTACCGCTACCTTGCCATCGCCAACTACGAAGACCGCTACGTGATTCCGTCGGCGCACCGCGAAGAGGCCATGAGCGACGCCTTCGCCGAACGCTCCGGCTGCGGCTTCAGCTTCGGCAGCGGCTGCTCCGGCGCCTCGGACACCAACATGTTCGGTGCGAAGAAGGCCAACCGCCGCGACATCATCCAGACCGTCCAGCTGTGGGAGGACTGA	MKIRSQVGMVLNLDKCIGCHTCSITCKNVWTSREGMEYAWFNNVETKPGIGYPKEWENQEKWKGGWVRNPDGSINPKIGGKFRVLANIFANPDLPTIDDYYEPFDFDYQNLHTAPLGQHQPVARPRSLVSGQRMEKIEWGPNWEEILGTEFAKRRKDKNFDKVQADIYGEYENTFMMYLPRLCEHCLNPACAASCPSGAIYKREEDGIVLIDQEKCRGWRMCISGCPYKKIYFNWKSGKSEKCIFCFPRIEAGMPTVCAETCVGRIRYLGVLLYDADRIHEVASTASEQDLYEKQLEIFLDPHDPKVIAQALADGVPQSVIDAAQKSPVYKMAVDWKLALPLHPEYRTLPMVWYVPPLSPIQNAAASGQVAMNGVLPDVDSLRIPLRYLANLLTAGDEKPVKRALKRMLAMRVYKRAEQVEGRQDLAVLDEVGLSVAEVEDMYRYLAIANYEDRYVIPSAHREEAMSDAFAERSGCGFSFGSGCSGASDTNMFGAKKANRRDIIQTVQLWED	PGPT0000500_913	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000500-narH|narY|nxrB-K00371	NA	NA
BMS010_09383	3768	narG	COG5013	Respiratory nitrate reductase 1 alpha chain	ATGAGCCACTTGCTCGATCAACTGCGCTTCTTCAAGAGGAAGCAGGGCGAGTTCGCCGACGGCCACGGCGAGACCCGCATCGAATCCCGCGACTGGGAGAACGTCTACCGTTCGCGCTGGCAGTACGACAAGATCGTGCGCTCCACCCACGGGGTGAACTGCACCGGGTCGTGCTCCTGGAAGATCTACGTGAAGAACGGCCTGATCACTTGGGAAACCCAGCAGACCGACTACCCGCGTACCCGCAACGACCTGCCCAACCACGAGCCGCGCGGCTGCCCGCGTGGCGCCAGCTATAGCTGGTACATCTACAGCGCCAACCGCCTGAAGTATCCGAAGGTGCGCAAGCCGCTGCTCAAGCTGTGGCGCGAGGCGCGCCGTACCCTGGCGCCGGTGGAAGCCTGGGCCAGCATCGTCGAGGACAAGGCCAAGGCCGAGTCCTACAAGAGCAAGCGCGGCATGGGCGGTTTCATCCGCTCCAGCTGGGACGAGGTCAACGAGATCATCGCCGCCGCCAACGTCTACACCGTCAAGCAGTACGGCCCGGACCGCGTGGTCGGCTTCTCGCCGATCCCGGCGATGTCCATGGTCAGCTACGCGGCGGGTAGCCGCTACCTGTCGCTGATCGGCGGCGTGTGCCTGAGCTTCTACGACTGGTACTGCGACCTGCCGCCGGCCTCGCCGCAAGTCTGGGGCGAGCAGACCGACGTGCCGGAGTCGGCCGACTGGTACAACTCCAACTACATCATTGCCTGGGGCTCCAACGTGCCGCAGACGCGGACCCCCGACGCCCACTTCTTCACCGAGGTGCGCTACAAGGGCACCAAGACCGTGGCCATCACCCCGGATTACTCCGAAGTGGCCAAGCTCACCGACCTCTGGCTCAACCCGAAGCAGGGCACCGACGCGGCGCTGGCCCAGGCCTTCGCCCACGTCATCTTCAAGGAATTCCACCTGGAGAAGCCGAGCGCCTACTTCACCGACTACGCCAAGCGCTACACCGACCTGCCGGTGCTGGTGCGCTTGGTGGAGAAGGACGGTGCCTTCGTCGCAGACCGCTTCCTGCGCGCCTCGGATCTGGCCGACAACCTCGGTCAGGCCAACAATCCCGAGTGGAAGACCATCGCGGTGGACGCCAGCGGTGAGCTGGTGTCGCCGCAGGGCTCCATCGGCTACCGCTGGGGCGAGAAGGGCAAATGGAATATCGAGGCGAAGGAGGGCGGTGAAGGCCGCGAGGTCGATCTCAAGCTGAGCCAGATCGATGGCGGCGAAGTGGCCGAGGTGGCCTTCCCGTACTTCGGCGGCATCCACCACGAGCACTTCCAGCACGCCGAAGGCGAGGCCATCCAGCTGCGCCGCGTGCCGGTGCGCTCGATCACCCTGGCCGACGGCAGCAGCGCCAAGGTCGCCACCGTGTTCGACCTGATGGCCGGCAACCTGGCCATCGACCGTGGCCTGGGCGGTTCCAACGTCGCCAAGAGCTACGACGACGCCAGCGTCCCCGGCACCCCGGCCTGGCAGGAGAAGATCACCGGCGTGGCGCGCGAGAAGGCGATCCAGATCGCCCGCGAATTCGCCGACAACGCCGACAAGACCCATGGCCGCTCCATGATCATCGTCGGCGCGGCGATGAACCACTGGTACCACATGGACATGAACTACCGCGGGCTGATCAACATGCTCATGCTCTGCGGTTGCGTCGGCCAGACCGGTGGCGGCTGGGCCCACTACGTCGGCCAGGAGAAACTGCGCCCGCAGTGCGGCTGGCTGCCGCTGGCCTTCGGCCTGGACTGGAGCCGCCCGTCGCGGCAGATGAACGGCACCAGCTTCTTCTACAACCACAGCTCGCAGTGGCGCCACGAGAAGATGAGTATCCACGAAGTACTCTCGCCGCTGGCCGACAAGTCGCAGTTCCCCGAGCACATGCTCGACTACAACATCCGTGCCGAGCGCGCCGGCTGGCTGCCGAGCGCCCCGCAGCTCAATCGCAACCCGCTGCAGATCACCCGCGACGCCGCGGCCGCCGGGATGTCGCCGGTGGACTACGTGGTGAAGTCGCTGAAGGACGGTTCGCTGCGCTTTGCCTGCGAGCAGCCGGACAACCCGGATAACTTCCCGCGCAACATGTTCGTCTGGCGTTCCAACCTGCTCGGTTCCTCGGGCAAGGGCCACGAGTACATGCTCAAGTACCTGCTGGGCACCAGGAACGGCGTGATGAACGAGGACCTCGGCAAGCGCGGCGGCTTCAAGCCGAACGAAGCCGAGTGGGTGGACGAGGGTGCCATCGGCAAGCTCGACTTGGTCACCACCCTGGACTTCCGCATGTCCTCCACCTGCGTGTACTCCGACATCGTCCTGCCGACCGCCACCTGGTACGAGAAGGACGACATGAACACCTCGGACATGCACCCCTTCATCCACCCGCTCTCGGCCGCCATCGACCCGGCCTGGGAAGCGCGTTCCGACTGGGAAATCTACAAGGGTATCGCCAAGGCCTTCTCGGCCATGGCGCGCGGCCACCTGGGCGTGGAGCAGGACTTTGTAACCGTGCCGCTGCTGCACGACAGCCCCGGCGAACTGGCCCAGCCGTTCGGCGGCAGCGACTGGAAGACCGCAGGCGTCGACCCGCAGCCGGGCAAGAACTGCCCGAACATGACGGTGGTCGAGCGCGACTACCCGAACACCTACAAGAAGTTCACCTCCCTCGGCCCACTGCTCGACAAGCTCGGCAACGGCGGCAAGGGCATCAACTGGAACACCCAGCACGAGGTCGATTTCCTCGGTGAGCTGAACTACAAGGTGCGCGAGGAGGGCGTCAGCCAGGGCCGGCCGAAGATCGAATCGGCCATCGACGCCGCCGAGGTGATCTTGAGCCTGGCGCCGGAGACCAATGGTCACGTCGCCGTGAAAGCCTGGGCCGCGCTGTCCGAGTTCACCGGCCGCGACCACAGCCACCTGGCGCTGCCGAAGGAGCACGAGGCGATCCGCTTCCGCGACATCCAGGCGCAGCCGCGCAAGATCATCTCCAGCCCGACCTGGTCCGGCCTGGAAGACGAGCACGTCAGCTACAACGCCGGCTACACCAACGTCCACGAATACATCCCGTGGCGTACCCTCACCGGCCGCCAGCAGTTCTTCCAGGACCACCCGTGGATGCAGGCGTTCGGCGAGCAGATGATGAGCTACCGGCCGCCGATCAACACCCGCACCGTGGATTACGTGAAGGGCAAGAAGTCCAACGGCAACCCGGAGATCGTCCTCAACTGGATCACTCCGCACCAGAAGTGGGGCATCCACAGCACCTACACCGACAACCTGATCATGCTCACCCTCAGCCGGGGCGGACCCATCGTCTGGATCTCCGAAGTCGACGCGAAGAAGGTCGGCATCGAGGACAACGACTGGATCGAGTGCTTCAACGCCAACGGCGCCCTGACCGCCCGTGCGGTGGTCAGCCAGCGGGTCAAGGAAGGCATGGTGCTGATGTACCACGCCCAGGAACGCATCGTGAACGTGCCCGGCAGCGAGACCACCAAGACCCGCGGCGGCCACCACAACTCGGTGACCCGCGTGGTGCTCAAGCCCACCCACATGATCGGCGGCTACGCCCAGCAGGCGTATGGCTTCAACTACTACGGCACGGTCGGCTGCAACCGCGACGAGTTCGTCGTGGTGCGCAAGATGGCCAAGGTCGACTGGCTCGATGGCACCGACGTCGGTGGCCTGGGCGGCGACGCCCTGCCGCAACCCCTGCCGCAAGATATCTGA	MSHLLDQLRFFKRKQGEFADGHGETRIESRDWENVYRSRWQYDKIVRSTHGVNCTGSCSWKIYVKNGLITWETQQTDYPRTRNDLPNHEPRGCPRGASYSWYIYSANRLKYPKVRKPLLKLWREARRTLAPVEAWASIVEDKAKAESYKSKRGMGGFIRSSWDEVNEIIAAANVYTVKQYGPDRVVGFSPIPAMSMVSYAAGSRYLSLIGGVCLSFYDWYCDLPPASPQVWGEQTDVPESADWYNSNYIIAWGSNVPQTRTPDAHFFTEVRYKGTKTVAITPDYSEVAKLTDLWLNPKQGTDAALAQAFAHVIFKEFHLEKPSAYFTDYAKRYTDLPVLVRLVEKDGAFVADRFLRASDLADNLGQANNPEWKTIAVDASGELVSPQGSIGYRWGEKGKWNIEAKEGGEGREVDLKLSQIDGGEVAEVAFPYFGGIHHEHFQHAEGEAIQLRRVPVRSITLADGSSAKVATVFDLMAGNLAIDRGLGGSNVAKSYDDASVPGTPAWQEKITGVAREKAIQIAREFADNADKTHGRSMIIVGAAMNHWYHMDMNYRGLINMLMLCGCVGQTGGGWAHYVGQEKLRPQCGWLPLAFGLDWSRPSRQMNGTSFFYNHSSQWRHEKMSIHEVLSPLADKSQFPEHMLDYNIRAERAGWLPSAPQLNRNPLQITRDAAAAGMSPVDYVVKSLKDGSLRFACEQPDNPDNFPRNMFVWRSNLLGSSGKGHEYMLKYLLGTRNGVMNEDLGKRGGFKPNEAEWVDEGAIGKLDLVTTLDFRMSSTCVYSDIVLPTATWYEKDDMNTSDMHPFIHPLSAAIDPAWEARSDWEIYKGIAKAFSAMARGHLGVEQDFVTVPLLHDSPGELAQPFGGSDWKTAGVDPQPGKNCPNMTVVERDYPNTYKKFTSLGPLLDKLGNGGKGINWNTQHEVDFLGELNYKVREEGVSQGRPKIESAIDAAEVILSLAPETNGHVAVKAWAALSEFTGRDHSHLALPKEHEAIRFRDIQAQPRKIISSPTWSGLEDEHVSYNAGYTNVHEYIPWRTLTGRQQFFQDHPWMQAFGEQMMSYRPPINTRTVDYVKGKKSNGNPEIVLNWITPHQKWGIHSTYTDNLIMLTLSRGGPIVWISEVDAKKVGIEDNDWIECFNANGALTARAVVSQRVKEGMVLMYHAQERIVNVPGSETTKTRGGHHNSVTRVVLKPTHMIGGYAQQAYGFNYYGTVGCNRDEFVVVRKMAKVDWLDGTDVGGLGGDALPQPLPQDI	PGPT0000285_396	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000285-narG|narZ|nxrA-K00370	NA	NA
BMS010_09384	1488	nrtP	COG2223	Nitrate/nitrite transporter NrtP	ATGAAAGTTTCCGACCTGTTCCAGTACCGGCGGCCTGAAATCAAGGCCCTGCACCTGACCTGGATCGCCTTCTACATCTGCTTCTTCGTCTGGTTCAACATGGCCCCGCTGGCCACTAGCATGCTGAAGACGGTGAACTGGCTGAAGCCTGAAGACCTGCGCCTGTTCGCCATCGCCAACGTGGCGATGACCATCCCGGCGCGCATCCTGGTGGGCATGGCCCTGGACAAATGGGGCCCGCGCCGGGTGTTCTCGGTGCTGATGGTGGTCATGGCGCTGCCGGCGTTCGCCTTCGCCTTCGGCGACAGCCGCACCCAGTTGCTGGTGGCGCGCCTGCTGCTCAGCTCCATCGGCGCCAGCTTCGTGGTCGGCATCCACATGACCGCGCTCTGGTTCAAGCCGAAGGACATCGGCTTCGCCGAGGGCTTCTACGCCGGTTGGGGCAACTTCGGTTCCGCCGCCGCCGCCATGAGCCTGCCGGCCATCGCCCTGCACATCTTCGGCGGCCCGGAAGGCTGGCGCTATGCGATCGCCACCACCGCCGCGATCATGGCCATCTACGGCGTCTACTACTGGTTCGCGATCACCGACGGCCCGGCCGGCTCGGTGCACCGCAAGCCGCGCAAGGCCAGCGCCATGGAAGTCAGCACCTGGGGCGACATGGTCAAGCTGATCCTGTTCACCATTCCCATGATCGGCATCCTCGCCGTGCTGGTGTGGCGCATCCAGGGGCTCGGCTACCTGTCCGCCGAAGGCGCGCTGGCCTGCTACGCGGTGATCGCCCTGGTGGTGGTCTACCAGATCGTGCAGATCCTGCGGGTCAACCTGCCGATCCTGAAGAAGGGCGTGCCGGAGGACGACAAGTACCCCTTCAACAGCGTCGCCGCGCTGAACACCACCTACTTCGCCAACTTCGGCGCGGAGCTGGCGGTGGTTTCCATGCTGCCGATGTTCTTCGAGCAGACCTGGAGCCTGTCGCCCACCGCCGCCGGTTTCATCGCCGCGTCCTTCGCCTTCGTCAACCTGATCGCGCGGCCCATGGGCGGGCTGGTCTCCGACCGCTTCGGCAACCGCCGCTTCGTGATGCTCGCCTACATGCTCGGCATCGGCTGCGGCTTCGCCCTGATGGGCCTGATGAACCAGAGCTGGCCGCTGATCGTGGCGGTGGCCATCACCGTGGCCTGCTCGATGTTCGTGCAGGGCGCGGAGGGTGCCACCTTCGGCATCGTGCCGTCGATCAAGCGCCGCATCACCGGGCAGATCGCCGGCATGGCGGGGGCCTACGGCAACGTCGGCGCGGTCTTCTACCTGACCCTGTACACCTTCGTCACGCCCTCGCAGTTCTTTTTCATCATCGCCACCGGCGCCTTCATCAGCTTCGCCGTGTGCTTCTTCTGGCTGAAGGAGCCCGAGGGGGCGTTTTCCGAAGACTACTTCGTGTCCTCCGTGGACCGCGAACTCGAGATGAGGGCTGAACGCGTTCACTGA	MKVSDLFQYRRPEIKALHLTWIAFYICFFVWFNMAPLATSMLKTVNWLKPEDLRLFAIANVAMTIPARILVGMALDKWGPRRVFSVLMVVMALPAFAFAFGDSRTQLLVARLLLSSIGASFVVGIHMTALWFKPKDIGFAEGFYAGWGNFGSAAAAMSLPAIALHIFGGPEGWRYAIATTAAIMAIYGVYYWFAITDGPAGSVHRKPRKASAMEVSTWGDMVKLILFTIPMIGILAVLVWRIQGLGYLSAEGALACYAVIALVVVYQIVQILRVNLPILKKGVPEDDKYPFNSVAALNTTYFANFGAELAVVSMLPMFFEQTWSLSPTAAGFIAASFAFVNLIARPMGGLVSDRFGNRRFVMLAYMLGIGCGFALMGLMNQSWPLIVAVAITVACSMFVQGAEGATFGIVPSIKRRITGQIAGMAGAYGNVGAVFYLTLYTFVTPSQFFFIIATGAFISFAVCFFWLKEPEGAFSEDYFVSSVDRELEMRAERVH	PGPT0000300_987	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000300-narK|nrtP|nrt|narU-K02575	NA	NA
BMS010_09385	459			hypothetical protein	ATGAAAATCATGCTCGCCTACGACAACTCGCGTAACGCCCGGCTGGCGCTGGAGAACACGCTGGATCTGTTCGGCCCGCTCAAGCCGCTGGTGATCCTGGTCGGCGTGGTGGAAGAGCCGCGCGATGCCAGCGACGCCAACCAGGAGAACTACGAGCGCGCCCGCGCCGAGTTCCAGCAGTTCCTCCGCGAGGCTGCCGTCCGCGTCGGCCATCGCGGCTACGACGCCGAGGTGGTCCTGGCCGAAGGCGATGCCCGGAAGATGCTGCTCAAGGCCGCCGAGACCAAGAAGCCCGACATGCTGGTGATCGCCCGCCACAGCCACGAGCCGGACGGCGGGCTGCTGACGCGCTCGCTGAACCTGTTCGTCGATGAGCTGGATTACATGACCTTCGGCAGCGTCAGCGCCTTCCTCGCCCGGCGCGCGCCCTGTCCCGTGCTGATCCAGGCCTGCCCGTGA	MKIMLAYDNSRNARLALENTLDLFGPLKPLVILVGVVEEPRDASDANQENYERARAEFQQFLREAAVRVGHRGYDAEVVLAEGDARKMLLKAAETKKPDMLVIARHSHEPDGGLLTRSLNLFVDELDYMTFGSVSAFLARRAPCPVLIQACP				NA	NA	NA	NA	NA
BMS010_09386	1602			hypothetical protein	ATGAGCACAATCACCAAGTGGGAAGTGGAGGTACCGGCTTTCTGGGCCTCCACCGGCAAGTCGGTCGCCAACCGCAACCTGTGGATTTCCATCCCCAGCCTGCTCATGGCCTTCGCCATCTGGGCGATGTGGGGAATCATCACCGTGCAGATGCTCAACCTGGGCTTTCCCTTCGCCCCGGACGAGCTGTTCACCCTCACTGCCATCGCCGGCCTCACCGGCGCCACCCTGCGCATCCCGGCCTCGTTCATGATCCGCATCGCCGGCGGGCGCAACACCATCTTCCTCACCACCGCGCTGCTGATGATCCCGGCGGCCGGTGCCGGCCTGGCGCTGCAGAGCAAGGAAACCCCGCTCTGGGTGTTCCAGTTGCTGGCTTTCCTCTCCGGCATCGGCGGCGGCAACTTCGCCTGCTCGATGAGCAACATCAGCGGTTTCTTCCCGAAGAACCAGCAGGGCCTGGCCCTGGGCCTGAATGCCGGGCTGGGTAACTTCGGCGTTACCTCCATGCAGATTCTCATCCCGCTGGTGATGACCGTCGGCCTGTTCGGCGCCGCGGCCGGCGAGCCCATGGCCCTGCTGAAGGACAGCGGCACCCTGATCGGCCGCATCCCGGCCGGTGCCCAGACCTACATCCAGAACGCCGGCTGGATCTGGCTGGTGTTCCTGATCCCGCTGGCCTTCGCCGGCTGGTTCGGATTGAACAACCTGCAACCGATCACCCCCAACCCCGGGCATCCGCTGGGCGCCTTCGGCAAGATCGTCGGCCTCTATGGCGTCGGCTTCCTCACCGCCGGTGTCGGCCTGTACCTGTACATGCCGGCGCCGTTCGGCCTAGGCGTGCTGAACATGTGGGCCGCGCTGGCGCTGATCATCCTCGCCACCCTCGGCCTGCTGCGCCTGCTGCCGGGCAGCATCCAGCCGAACATCAAGCGCCAGTTCGCGATCTTCTCGGACAAGCACACCTGGGCGCTGAGCGTGCTGTACATCCTCACCTTCGGCTCCTTCATCGGCTTCTCCATGGCGCTGCCGCTGTCGATCACCGTGATCTTCGGCTTCGTCAACGAAGTGGGCGCCGACGGCACCGTCACCCGCGTGCTCAACCCCAACGCGCCGAGCGCACTGACCTACGCCTGGATCGGCCCGTTCATCGGTGCGCTGATCCGCCCGGTGGGCGGCTGGATCGCCGACAAGGTGGGCGGCTCCATCGTCACCCAGGCCATCTCGGTGGTGATGGTGATCGCCTCCGTCGCCCTCGGCTACGTGCTCCAGCAGGCCTACGGCTCGGCCCAGCCGGAACAGTACTTCTTCCCGTTCCTCGGCCTGTTCCTGGTGCTGTTCGCCGCCTCCGGGATCGGCAACGGTTCCACCTTCCGCACCATCGGCGTGATCTACGACCGCGAGAAGGCCGGCCCGGTGCTCGGCTGGACCTCGGCGGTGGCGGCCTACGGCAGCTTCGTCGCGCCGGTGGTGATCGGCGGCCAGATCAAGGCCGGCACCCCGGAAGTGGCGATGTACGGCTTCGCGGTGTTCTACGCGCTGTGCCTGGTCCTCAACTGGTGGTTCTACCTGCGCCGCAACGCCTACGTGCGCAACCCCTGA	MSTITKWEVEVPAFWASTGKSVANRNLWISIPSLLMAFAIWAMWGIITVQMLNLGFPFAPDELFTLTAIAGLTGATLRIPASFMIRIAGGRNTIFLTTALLMIPAAGAGLALQSKETPLWVFQLLAFLSGIGGGNFACSMSNISGFFPKNQQGLALGLNAGLGNFGVTSMQILIPLVMTVGLFGAAAGEPMALLKDSGTLIGRIPAGAQTYIQNAGWIWLVFLIPLAFAGWFGLNNLQPITPNPGHPLGAFGKIVGLYGVGFLTAGVGLYLYMPAPFGLGVLNMWAALALIILATLGLLRLLPGSIQPNIKRQFAIFSDKHTWALSVLYILTFGSFIGFSMALPLSITVIFGFVNEVGADGTVTRVLNPNAPSALTYAWIGPFIGALIRPVGGWIADKVGGSIVTQAISVVMVIASVALGYVLQQAYGSAQPEQYFFPFLGLFLVLFAASGIGNGSTFRTIGVIYDREKAGPVLGWTSAVAAYGSFVAPVVIGGQIKAGTPEVAMYGFAVFYALCLVLNWWFYLRRNAYVRNP	PGPT0000300_301	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000300-narK|nrtP|nrt|narU-K02575	NA	NA
BMS010_09387	1884	narX		Nitrate/nitrite sensor protein NarX	ATGAACAGCAGCGAAGACGCCCTGCCCGCCAGCCGTCACTCCATCGTCCTGCACACCACCCTGGCCTTCGTCATCATCATCGGCGTGACCCTGGCGAGCATGCTCGGCGGGCTGTACATGGCCGACGCCATCGAGGGCGATGCCGCCGCCATCAACAAGGCCGGCAGCCTGCGCATGCAGTCCTACCGCCTGGCGCTGCTGGCCGACCTGGGCAATCCGCTGGAGCTGAGCGAGGCCGTCGACGAGTTCGAGCACACCCTGCAGGCGCCCGTGCTGTTGCAGGCCCTGCGCCGGCACCGCAACCAGCCCCTCACCGAACTGCACCAGCGCACCCTGCGCCATTGGGCGTTGCAGATGCGCCCGCTGCTCACCAGCCAGCCAGTCGACAGCGCCGGCTTTCGCCGCGAAGTGCCCCCCTTCGTACAGGAGCTGAACCAGTTCGTCGGCACCTTGCAGGTGCAATCGGAAGGCAAGCTGGAAGTCATCCGCGCCCTGCAGGTGGGCACCCTGTTCGTCACCGTGCTGATCGCCTTCGTGGTGGTCTACGGCATCCACAACAACCTGGTCACGCCGCTGAAGGAACTGGTCTCCCTCGCCCGCCAGATCGGCCGCGGCCACTTCCGCGTCAAGGCCAATTACCAGGGCGACAACGAACTCGGCCTGCTTGCCGCCACCCTCAACCAGATGAGCGACGAGCTGGCCAATCTCTACGAGCACCTGGAACGCAAGGTGGACGAGAAGACCGCCGCCCTGCAGCGCAGCAACCAGTCGCTGCAACTGCTGTTCAACAGTGCCCGCGCCCTCTACACCTGTCCCGACGAACCCACCGCGCTGATCGGCAGCCTGCTCGCCGGCGTGCAGAACACCCTCAAGTCCGGCCCGGTCTCCCTGTGCCTGAACAGCGACCCGGCGTTCGGCAGCCACACGGCGATTTCCTCGGTGAACCTGCAACCGCCGGAATACTGCAGCCTGCCGGACTGCGACCAGTGCCCGGTGAAGCAGACCGGCGTGACGCCGGGCGGGGCGCAGACCCTCAGCTTCCCGCTGCGCGCCAACAACACCGAGCTGGGCAGCCTGCGCGTCGAGCAGACCGTCGGCGAACGCCTGGAAGACTGGCAGCAGCAGTTGCTGGCGACCCTCGCCGACCTGTTCGCCGCCTCCCTCGGCCTGAGCCGTCTCGGCCAGCAGCAGGCGCGCCTGGCGCTGATGGAAGAGCGCGCGGTGATCGCCCGCGAGCTGCACGACTCCCTGGCCCAGGCCCTCTCCTACCAGAAGCTGCAACTGACCCGGCTGAAGAAGCAGATCGCCAACCAGCATCCCAGCGAAGCCCTGGAAACCACCCTGGGAGAAATCCAGGGCGGCCTGAATGCCGCTTACCGGCAGCTGCGCGAACTGCTCACCACCTTCCGCATCAAGATGGACGCGCCCGGCCTCGCCCCGGCGGTGCAGGCCACCATCAAGGAATTCGGCAGCCATTCCGGCGTGGAGATCGACCTGGATTACGCCCTCGGCCACTGCCCGCTGAGCCCCAACGAGGAAATCCACTGTTTGCAGATCCTCCGCGAAGCCCTGAGCAACGTGATCAAGCATGCCCAGGCGAAACATTGCCGACTGGCCCTCTACCAGGACCGCCAGGGCATCGTGCACATCCGTGTGGACGACGACGGCATCGGCATTCCCACCCTGGAAAGCCCCGGCGGCCACTATGGCCTGAGCATCCTCCACGAACGCGCCGGCAGCCTGCATGGCCGGGTCGAGGTGGGCCGCCGCCCCGAAGGCGGCACCCGGGTCCACCTCACCTTCCTGCCGGACTACCGGCGCATCAACGTAACTCCGGAGCCCGACACGGCCCCGGCCGAGCCCCTCGCGCTGCGCAGCCCGTAA	MNSSEDALPASRHSIVLHTTLAFVIIIGVTLASMLGGLYMADAIEGDAAAINKAGSLRMQSYRLALLADLGNPLELSEAVDEFEHTLQAPVLLQALRRHRNQPLTELHQRTLRHWALQMRPLLTSQPVDSAGFRREVPPFVQELNQFVGTLQVQSEGKLEVIRALQVGTLFVTVLIAFVVVYGIHNNLVTPLKELVSLARQIGRGHFRVKANYQGDNELGLLAATLNQMSDELANLYEHLERKVDEKTAALQRSNQSLQLLFNSARALYTCPDEPTALIGSLLAGVQNTLKSGPVSLCLNSDPAFGSHTAISSVNLQPPEYCSLPDCDQCPVKQTGVTPGGAQTLSFPLRANNTELGSLRVEQTVGERLEDWQQQLLATLADLFAASLGLSRLGQQQARLALMEERAVIARELHDSLAQALSYQKLQLTRLKKQIANQHPSEALETTLGEIQGGLNAAYRQLRELLTTFRIKMDAPGLAPAVQATIKEFGSHSGVEIDLDYALGHCPLSPNEEIHCLQILREALSNVIKHAQAKHCRLALYQDRQGIVHIRVDDDGIGIPTLESPGGHYGLSILHERAGSLHGRVEVGRRPEGGTRVHLTFLPDYRRINVTPEPDTAPAEPLALRSP	PGPT0000305_33	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	N-AQUISITION-NITRATE|NITRITE_SENSING,PGPT0000305-narX-K07673	NA	NA
BMS010_09388	654	narL_2	COG2197	Nitrate/nitrite response regulator protein NarL	ATGAGCGACGACGAAAAAACCCGCATCCTCCTGGTCGACGACCACCCCATGATGCGCCGCGGCCTGCGCGACCTGCTGGCCATGGAAGACGACCTGCTGCCGGTCGGCGAGGCCGGCAGCGGCCAGGAGGCCGTGGAGCTGGCCAGCACCCTGGATGTCGACCTGATCCTCCTCGACCTCAACATGCCCGGCATGGACGGCCTGGAAACCATCAAGCGCCTGCGTGAAGCCGGCGTCGATGCGCGGATCATCCTGTTCACCGTCTCCGACGAACACGGCAACGTGCTCGAAGCCCTGCGCAACGGCGCCGACGGCTACCTGCTCAAGGACATGGAGCCGGACGACGTCATCGACCAGATCCGCGCCGCCGCCCAGGGCAAGCTGGCCCTCAGCCCGGAGCTGACCAAGGTCCTCGCCGAAGCACTGCGCGAACGGCCCAAGCAGGGCCAGTCGGTGAGCGCCGCCAGCCTCACCAAACGCGAAAAGGACGTGCTGCGGCAGATCGCCAAGGGCCAGACCAACAAGATGATCGCGCGCAAGCTCGACATCACCGAAGGCACGGTCAAGGTCCACGTCAAACGCCTGCTCAACAAGCTCGGCATGCGCTCGCGGACCGAAGCGGCGGTGTGGGTGGTGGAGAATCATCTGCAGTGA	MSDDEKTRILLVDDHPMMRRGLRDLLAMEDDLLPVGEAGSGQEAVELASTLDVDLILLDLNMPGMDGLETIKRLREAGVDARIILFTVSDEHGNVLEALRNGADGYLLKDMEPDDVIDQIRAAAQGKLALSPELTKVLAEALRERPKQGQSVSAASLTKREKDVLRQIAKGQTNKMIARKLDITEGTVKVHVKRLLNKLGMRSRTEAAVWVVENHLQ	PGPT0000550_719	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	N-AQUISITION-NITRATE|NITRITE_SENSING,PGPT0000550-narL-K07684	NA	NA
BMS010_09389	384			hypothetical protein	ATGCCCGACAGCGCCCTGCCCCTCGTCTACTCCTGCTCCGGCTGCTCCAACGTCGCCCAGCTCGCCAACACCCTGGCCCTGCGCCTGGACCGCGCCGGGCTGGCGGAGATGTCCTGCATCGCCGGGGTCGGCGGCGGTGTCCCCTCGCTGGTCAACAAGGCCCGCTCCGGCCGCCCCATCCTTGCCCTCGACGGCTGCCCCCTGCACTGCGTCCGCGGCTGCCTGGCCCAGCACGGCGTCGACGCCGACGCCCACCTCACCCTCAGCCACTACGGCCTGCGCAAACGCTACGGCGAAGACTGCCGCGACGAAGACGCCGACGCCCTGTTCGACGAACTCAGCCACCTGATCGCCAGCGACCACCGCTTCACCCAACCCGCCTGA	MPDSALPLVYSCSGCSNVAQLANTLALRLDRAGLAEMSCIAGVGGGVPSLVNKARSGRPILALDGCPLHCVRGCLAQHGVDADAHLTLSHYGLRKRYGEDCRDEDADALFDELSHLIASDHRFTQPA				NA	NA	NA	NA	NA
BMS010_09390	789			hypothetical protein	ATGCGCCGTTCACTGTTCGGCCTCCTCATGTTGTTCGCCGCCGCCGCTGCCCAGGCGGAGATCAAGACCCAGGAAATCCCCTACCAGGCCGCCGACGGCACCAAGCTGGTCGGCTACCACGCCTACGACGACGCCATCGAAGGGCCGCGCCCCGGCGTGGTGGTGGTCCACGAATGGTGGGGCCTGAACGACTACGCCAAGCGCCGCGCCCGCGACCTCGCCGCCCTCGGCTACAGCGCCCTGGCCATCGACATGTACGGCGACGGCAAGAACACCCAGCATCCCGATGACGCCATGAAGTTCATGCAGGCCGCCCTGGCCAGCAGCGGAGCCGCCAAGGCCCGCTTCCTCGCCGGCCTCGACCTGCTCAAAGCCCAGCCGCAGACCGACCCCGCCCGCCTCGGCGCCATCGGCTATTGCTTCGGCGGCAAGGTCGTCCTCGACATGGCCCGCCAGGGCGTCCCGCTGGCCGGCGTGGTCAGCTTCCACGGCAATCTCGCCACCGACACCCCGGCCAAACCCGGCGCCGTGAAGGCCAAGATTCTCGTCGAACACGGCGAGGCCGACAGCTTTATCCCGCCCAAGCAGATCGCCGCCTTCAAGGCCGAACTCGACGCCGCCGGCGCTGACTACCGCTTCGTCAGCCTCCCCGGCGCCAAGCACGGCTTCACCAACCCCGATGCCGACGCCCACAAAGGCCACGGCCTGGACATCGCCTACCAGAAGGAAGCCGACGAACGCTCCTGGGCCGACATGAAAGCCTTCTTCAAGGACGTCTTCGCGCAGTAA	MRRSLFGLLMLFAAAAAQAEIKTQEIPYQAADGTKLVGYHAYDDAIEGPRPGVVVVHEWWGLNDYAKRRARDLAALGYSALAIDMYGDGKNTQHPDDAMKFMQAALASSGAAKARFLAGLDLLKAQPQTDPARLGAIGYCFGGKVVLDMARQGVPLAGVVSFHGNLATDTPAKPGAVKAKILVEHGEADSFIPPKQIAAFKAELDAAGADYRFVSLPGAKHGFTNPDADAHKGHGLDIAYQKEADERSWADMKAFFKDVFAQ				NA	NA	NA	NA	NA
BMS010_09391	696			hypothetical protein	ATGTTCGACGCCAAGAAGCTTCTTGAACAATTCCTCGGCTCTCAGGTGCCGGGCCTTTCGGGAAGCGTCCGTGACAGAGCCGGGCAGGCCGCCGATATCGCCAAGAACAATCCCCTGAAGGCCGGCGCGCTCGCCGCCGCCATTCTCGGCACCAAGACCGGCCGCAAGCTCGCCGGCAATGTCGCCACCATTGGCGGCGTGGCCGCCATCGCCGGCCTCGGTTATCTCGCCTACAAGAATTACAAGTCCGGCCAGGCGCCTGAAGCCGCGCCGAAGCCCGAACCGGAGCTTCTCGCCCCGCCCGCCGATTCCGCCTTCCACCCGCAATCGCCAGCTCTTTCCAATGATTTCGCGCTGAAACTCATCCAGGCGATGATCGCCGCCGCCAAGGCGGACGGTCATATCGATGAGAAGGAGCGCGCCAATATCATGGACAAGGTGCAGGTCTCCGGCCTCGATAGCGAAGCCGAGCGGTTCCTCGAAAAGGAACTGGCCGATCCTCTCGACATCGACGCGCTGGTGGCTGCTGCCCGCACGGAAGAGCAGAAGGTGGAGCTTTACACCGCCTCGCGGCTTGCCATCGAGGCCGATACGCGGGCGGAGCGGGGCTATCTCGACCTTCTGGCAGGGCGTCTTGGGCTTCCGGATGCGCTGGTGGACCATATCGAGGCGACGGTGGTGGCGGCGAAGGTTTGA	MFDAKKLLEQFLGSQVPGLSGSVRDRAGQAADIAKNNPLKAGALAAAILGTKTGRKLAGNVATIGGVAAIAGLGYLAYKNYKSGQAPEAAPKPEPELLAPPADSAFHPQSPALSNDFALKLIQAMIAAAKADGHIDEKERANIMDKVQVSGLDSEAERFLEKELADPLDIDALVAAARTEEQKVELYTASRLAIEADTRAERGYLDLLAGRLGLPDALVDHIEATVVAAKV				NA	NA	NA	NA	NA
BMS010_09392	639	eda_2		KHG/KDPG aldolase	TTGGCCCAGGACTCCGAAAAACTGCTCTCCATCCTCAAGCTCCAGCCGGTCGTGCCGGTGCTGATCGTGGATGATGCCGCTTCCGCCGTGCCGCTTGCGCGCGCTTTGGTCGCAGGCGGCCTGAAGGCAATCGAGATCACCATGCGCACACCGGCGGCGCTCGACGCCATCCGCGCGGTTGCGGCGGAAGTGGAGGGTGCGAATGTCGGCGCCGGCACCATTCTCAATGCGAAGGATTTCGAAGCGGCCGCCGAAGCAGGCTCCACCTTCATCGTCAGCCCCGGCATCAATAAAAGCGTGCTGGAAGCCGCGCGCGGTTCGAAGGTGCCGTTGCTTCCGGGGGCTGCCACCGCCAGCGAAGTCATGGCGCTGCGCGACGAGGGTTACAAGGTGCTGAAGTTCTTCCCGGCCGAACAGGCCGGCGGCGCGCCTTATCTCAAGGCGCTGTCCTCGCCGCTCGCCGGCACCGTCTTCTGCCCGACCGGCAGCGTGTCGCTCAAGAACGCCAATGACTATCTCTCCCTGCCGAACGTCGTCTGCGTCGGCGGCTCCTGGGTTGCCCCGCGCGAACTGGTGGCGACGGGTGACTGGGCGGGCATCACCAGGCTTGCCGCCGAAGCCGCCGCACTGCGCGCCTGA	MAQDSEKLLSILKLQPVVPVLIVDDAASAVPLARALVAGGLKAIEITMRTPAALDAIRAVAAEVEGANVGAGTILNAKDFEAAAEAGSTFIVSPGINKSVLEAARGSKVPLLPGAATASEVMALRDEGYKVLKFFPAEQAGGAPYLKALSSPLAGTVFCPTGSVSLKNANDYLSLPNVVCVGGSWVAPRELVATGDWAGITRLAAEAAALRA	PGPT0002060_2493	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTURONATE|TAGATURONATE|ALTRONATE_DEGRADATION,PGPT0002060-eda-K01625	NA	NA
BMS010_09393	489		COG2954	Inorganic triphosphatase	ATGGCCAAGGAAATTGAACGGAAGTTTCTTGTTGCAGGCGGTGAATGGCGCAATGAGGTCACGCATAGCATGGCTTTCCGGCAGGCATATGTCGCCTCGATGGAAAACCGCTCGGTCCGGGTCAGGATCGTCGACCAGCGCGATGCGACCCTGACCATCAAGATCGGCGCAAGCGCGCTTGTCCGCGACGAATATGAATATTCCATACCCCTCAAGGACGCCGAAGAGCTGATGGCGAGCGCGCCGGGCGTGGTGATCGAAAAAACCCGCCACACCGTCGATCATGGCGGCTTCACCTGGGAAGTGGATGTTTTCGAAGGGAAATATCACGGGCTGGTGGTGGCGGAAGTGGAAATGAACGACGAGAATGCCGATCCCGATCTGCCGTCCTGGCTGGGCAGGGAAGTCACCGGAGACAAGCGCTTCTCCAACCAGTCGCTCGCCATGGACTGTCCGAACGGAGACTTGCCGGATGCCCTTCAGAATTGA	MAKEIERKFLVAGGEWRNEVTHSMAFRQAYVASMENRSVRVRIVDQRDATLTIKIGASALVRDEYEYSIPLKDAEELMASAPGVVIEKTRHTVDHGGFTWEVDVFEGKYHGLVVAEVEMNDENADPDLPSWLGREVTGDKRFSNQSLAMDCPNGDLPDALQN	PGPT0021560_7467	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|VFR_SIGNALLING_PATHWAY,PGPT0021560-cyaB|gidA-K01768	NA	NA
BMS010_09394	909			hypothetical protein	ATGCCCTTCAGAATTGACCCGAAAAAGCCCTTCGACAATGAAATCCGTCGGGCCGGGCTGGAGCTGATCGACGATACGGTCACGATCCTTCGCGACCAGCCGTCCGGGTCGCACGAGGCCGTGCACGACGCCCGCAAGCGGTTCAAGCGGCTGCGCGCCCTCTATCGCCTCATCCGCAAGGCGGCGCCGGATTTCGGCCGCGAAGAAAACGCCCGTATTCGCGATATCGCCCGCTCCCTCGCCTTTGCGCGCGATGCGACGGCGCTGGTGGAGACAGCGGAATATCTCGAGGCCTTCGCGCGTTCCGATGCGCAGGGCGAAGCGCTGCGCTCGATCACCGCGATGCTGCGCGCGCGCCGCGACGACGCCATAGAACACGAGGCCGGTCTCGACGAGGCCATAGCCGCCGCCATTGCCGGCTGCGGGGAAGCGCGCCAGAAGCTCGAGGACCTGTCGCTGCCGGATGAGTTAAAAGACACCGCCCGGCTGCTGAGAAGCGCCTGGGCGAAACAGAGAAAAAGGGCGCGCAAGGCGCTCACCGATTGCCATAAGCAGGCCGACGCCGAGCATTTCCATGAATTGCGCAAGTCCGGGCAGGCCTATTGGATGCATCTCGGCCTGATGCGCCGGCTCTGGCCTTCCGCCATGCGCGCCAAGCGGGCCGATACCAAGCGGCTGGTGGATATTCTCGGCCACGAGCACGATCTCTCGGTTCTTGCCGCCGTCGCCGACCGCGAGCCGGAGCGTTTCGGCAATGGCGAGCGACTGGCCCTGCTGCTCGACGCCATTATCGAGAGGCAGCAGGCGCTGCGCACGGAAGGCCTTGCGCTGGCGAACGAGGTGTTTTCCGAATCCGCCCGCACCGAAAGCCGCATCGTCGGCCTGTTGTGGCGGCAGGCGGCGAAATAG	MPFRIDPKKPFDNEIRRAGLELIDDTVTILRDQPSGSHEAVHDARKRFKRLRALYRLIRKAAPDFGREENARIRDIARSLAFARDATALVETAEYLEAFARSDAQGEALRSITAMLRARRDDAIEHEAGLDEAIAAAIAGCGEARQKLEDLSLPDELKDTARLLRSAWAKQRKRARKALTDCHKQADAEHFHELRKSGQAYWMHLGLMRRLWPSAMRAKRADTKRLVDILGHEHDLSVLAAVADREPERFGNGERLALLLDAIIERQQALRTEGLALANEVFSESARTESRIVGLLWRQAAK				NA	NA	NA	NA	NA
BMS010_09395	945			hypothetical protein	ATGACCGACACGACCATTTTCCCCCGCCCGGAAGTCTCTGGTGATTTCCTTGTGGCCGCGCTTTATCATTTCGCCCGCCTGCCGCGGTTCGAGAGCCTGCGCGAGCCGTTGTTCGAACTCTGCCAGGAAAACGGCGTCAAGGGCACGCTGCTGCTTGCCGCCGAAGGTATCAACGGCACCATTGCGGGGCCGGATGCGGGCATTCACGCCGTGCTCTCCTTCCTGCGCGCCCAGCCGGAATTTACCGCGCTGGAGCACAAGGAAAGCCGCGCCTCGCACATGCCTTTCGTGCGGCTGAAGGTGAAGCTCAAGAAAGAGATCGTCACCATGGGCGTGCCGGATATCGATCCGAACCGCATCGTCGGCACCTATGTCGAGGCGCGCGACTGGAACGCGCTGATCTCCGATCCGGATACGATCGTCATCGATACCCGCAACGATTACGAGACCGCCATCGGCGTCTTCAAGGGTGCGGTCGATCCGCAGACGAAAACCTTCCGCGAATTTCCCGACTGGGTGAAGAACAATCCCGGCCTGCACAACAAGCCGAAGATCGCCATGTATTGCACCGGCGGCATTCGCTGCGAAAAGGCCACCGCCTTCATGAAGGAACAGGGTTTCGATGAGGTCTATCACCTTAAGGGCGGCATCCTGAAATATCTGGAAGAAGTGCCGGAAGAAGAAAGCCTGTGGGAAGGCGCCTGCTTCGTCTTCGATGAGCGCGTCTCGGTGGTGCACGGCCTTGCCGAAGGCGACCACCAGCTTTGCCACGCCTGCCGCAATCCAATCACACCGGAAGTCCGCCTATCCCCCAAATTCGAGGAAGGCGTGTCCTGCCCAAGCTGCTACGATGACCGCAGCGAAGAGGACCGCCAGCGCTTCCGCGACCGGCAGCAGCAGATCGAACTGGCAAAGAAGCGCGGCGAGCGGCATCTGGGGCGGTAA	MTDTTIFPRPEVSGDFLVAALYHFARLPRFESLREPLFELCQENGVKGTLLLAAEGINGTIAGPDAGIHAVLSFLRAQPEFTALEHKESRASHMPFVRLKVKLKKEIVTMGVPDIDPNRIVGTYVEARDWNALISDPDTIVIDTRNDYETAIGVFKGAVDPQTKTFREFPDWVKNNPGLHNKPKIAMYCTGGIRCEKATAFMKEQGFDEVYHLKGGILKYLEEVPEEESLWEGACFVFDERVSVVHGLAEGDHQLCHACRNPITPEVRLSPKFEEGVSCPSCYDDRSEEDRQRFRDRQQQIELAKKRGERHLGR	PGPT0013330_1351	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013330-UPF0176_protein-K07146	NA	NA
BMS010_09396	2205			hypothetical protein	ATGCGGATTGCGCCGCGCAACATTGGGGACTATTTGCCGGTCGGGCGCAGAACCGCCGTGGGCGTCGTATTGTCCACCTTCGCGCTGGTGCTTATCATCGTCACCGCGCTGGTTTTATCCGCCTTGAGCCAGGTCCGGGAAAAGGCCAACCTGCTCGACAATGCCCGTTCGCGCGAGACGACGGCGGGCGCCCTCGTCACCTTTCGTGAGCAGCTCGGCGCGACGCTGAATGACTACGCCGCCTGGGACGATGCCGCCGAATATGTCTATGCCCCTGATCGTTTCGACTGGGTGGCAAGCAATTACGGCGAGATGACGGTCAATAACGATCTCTTCGATACGGCCGTGGTCATCGATGAGGACGGCAAGGTCCGCATGGCCTATCAGGATGGCAAGCCGGTGGCATGGAAGCCGGACGCTTATTTTGCCGGCGGCCTCCGGGAAATGATCGAGCGCGTGCGTTCCATGCGTCCGGGTATCACCTCGCAGGTGACCGGTTTCGTCAAGACCGGCGATGGCGTCGCCGCCGCGGGGGTTGCGCTCGTGCGGATGAAGTCCGGGGCGCTGCCGCCGGTCGGTGCGGAGCGGCGTTACCTGGTTTTCGCCCGTCATCTCAAGCAGGCGACGGTGGACAAGCTTGCCCGCAATTACGTCATCGACGGTCTGGAACTGCAATATGGCGACGGCCCTGCCGCCAACCATGTGGATATCGTCAATCCGCTGGGGGAGGTGCTGGCCCGGCTCGTCTGGCGGTCGCACCTTCCGGGAGACGTCAGCTTTCATGAGGCGCGTCCGGTCGTCTTTACCGCGCTTGGCATTGCCGGCACGTTTTTTCTGGTGCTGCTCATCATCGGTTCGGCCACACTCGACCGCCTGAAGGCGGATGAGGCGGCGGCGCGGGAGGAGGCGCTGCGCGACCGGCTGAGCGGGCTCAGCAACCGCGCCGGGCTCTTCGCCAGGCTGAACCGCATGGTCGACAGGGGCCGCCATGACAAGACGGATATCAAGCTGCTCTATCTCGATCTCGACGGTTTCAAGGAAATCAACGATTCCTACGGCCATGCCGCCGGCGACCGGCTGATCAAGGGCGTGGCGGCGGCGCTGAGAGTGCTGGTGCCGGAAGGTGCGGTGCTGGCGCGGCTCGGCGGCGACGAGTTCGCCATCGCCATTCAGGGCAACGACGTCTGGGCCGAAGGCCGCAAACTGTGTCTGGCGCTTCTTGAACTCTTTACCGAGCCTTTCAGCATCGGTGAAAGGGTGGCGAGCATCGGTTGCAGCATCGGCACCTCGGTTTCCCGCGCCGGTGATATCAATGGTGAGGAGTTGCTGCGGCGTGCCGATATGGCCATGTATCAGGCCAAGGAGAACGGCCGCGGGCGTTACGTTTCCTATGAGCTGAAGATGGATGCGCTGCGCGAGGAAAAGCTGCAGCTCGAAGCCGATCTTCGCTCCGCCATTTTGAACGATGAGATACAGGTGGTCTATCAGCCGGTCGTCAGCGCCGCCACGCGCTGTATTACCGGGGTGGAGGCGCTGGCCCGCTGGCAGCGGCCGGGATATGGCTTCGTGCCGCCGGATATCTTCATTGCCGCTGCCGAAACCAGCGGCCTTATCGACCGGCTCGGCCTTCTCGTCCTGCACAAGGCCTGCGAGACGGCGCAGCAATGGCCGTCCATCAAGCTCTCGGTGAATATCTCTCCCGTGCAGTTCCGCAATCCTGCCTTCTCCGGCCATGTGGCCGATATCCTTGATGCGACGCAGACGCCGCCCGAAAGGCTGCGGCTGGAAATGACGGAAGGTTATTTCATCCAGCATCCGGAACGGGCGAGTGCGGCCATCGACAAGCTGAAACAGCTTGGCCTGCACATCGCGCTCGACGATTTCGGCGCCGGCTTCGCCAGCGTCGGTTATCTGCGCCGCTTCGGTTTCGACCGCATGAAGATCGACCGTTCGCTGATCATGGCGCTCGACAAGGGCGGCCGGTCGCTGGAAATGCTGCAGGCCACCGTGGCGCTGGCAAAGTCGCTCGATATTCCGGTGACGGCTGAAGGCGTGGAAACGGAAGAGCAGGCGGCCATCCTGCATCTGTGCGGCTGCGATGAGTTGCAGGGTTACCTGTTCTCGAAACCGGTCGCGGCGGAAGAGATCACCGCCATGCTGGACGGGCAGGACGCGCCGCTCTTTGCGTTGCGGGCAGGGGCGTGA	MRIAPRNIGDYLPVGRRTAVGVVLSTFALVLIIVTALVLSALSQVREKANLLDNARSRETTAGALVTFREQLGATLNDYAAWDDAAEYVYAPDRFDWVASNYGEMTVNNDLFDTAVVIDEDGKVRMAYQDGKPVAWKPDAYFAGGLREMIERVRSMRPGITSQVTGFVKTGDGVAAAGVALVRMKSGALPPVGAERRYLVFARHLKQATVDKLARNYVIDGLELQYGDGPAANHVDIVNPLGEVLARLVWRSHLPGDVSFHEARPVVFTALGIAGTFFLVLLIIGSATLDRLKADEAAAREEALRDRLSGLSNRAGLFARLNRMVDRGRHDKTDIKLLYLDLDGFKEINDSYGHAAGDRLIKGVAAALRVLVPEGAVLARLGGDEFAIAIQGNDVWAEGRKLCLALLELFTEPFSIGERVASIGCSIGTSVSRAGDINGEELLRRADMAMYQAKENGRGRYVSYELKMDALREEKLQLEADLRSAILNDEIQVVYQPVVSAATRCITGVEALARWQRPGYGFVPPDIFIAAAETSGLIDRLGLLVLHKACETAQQWPSIKLSVNISPVQFRNPAFSGHVADILDATQTPPERLRLEMTEGYFIQHPERASAAIDKLKQLGLHIALDDFGAGFASVGYLRRFGFDRMKIDRSLIMALDKGGRSLEMLQATVALAKSLDIPVTAEGVETEEQAAILHLCGCDELQGYLFSKPVAAEEITAMLDGQDAPLFALRAGA	PGPT0026010_953	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0026010-mucR-K21023	NA	NA
BMS010_09397	780	metQ_4	COG1464	D-methionine-binding lipoprotein MetQ	ATGAAGAAACTCATTCTCGCGGCTTCGCTCGCCGCTCTCTTCACCGCCGGTCAGGCGCTGGCCGAGACCATCAAGATCGGCGTAACCCCCGCCGAGCATGCGCAGATCATGGAGCAGGTGAAGAAGATCGCTGCCGCCAAGGGTCTCGATATCGATATCGTCGAATTCTCCGACTATGTCGTGCCGAACCAGGCGCTGGCTGATGGCGAGCTGCAGGCCAACTCCTTCCAGCACCAGCCTTACCTCGACAACCAGATCGCTGACCGCAAGTTCGATCTCGTCAGCGTCGGCACCACCATCACCACCCCGATGGGCGTTTATTCGAAGAAGGTGAAGAACCTCGACGAGCTGAAGGACGGCGCAACCGTCGGCATTCCGAACGACCCGACCAATGGCGGCCGCGCGCTGCTGGTTCTCGCTTCCAAGGGCGTGCTCAAGGTCAAGGAAGAGGCTGGCCTCAAGGTAACCCCTGCCGACATCACCGAAAACCCGAAGAACATCCAGATCGTCGAACTCGACGCCGCCCAGCTGCCGCGCTCGCTTGACGATACCGACGCTTCGGTCATCAACACCAACTATGCGACGGCTGCCGGCCTGAACCCGAAGAAGGACGCCATCGCCATCGAAAGCGAAAAGTCCCCTTACGCGAACGTCATCGCCGTTCGTGCGCAGGACAAGGACAAGCCGTGGGTGAAGACGCTGGTTGAATCCTACCAGAGCCCGGAAGTGAAGGCTTTCATTCTGGAAAAGTACAACGGCACGGTCATCCCGTCCTGGTAA	MKKLILAASLAALFTAGQALAETIKIGVTPAEHAQIMEQVKKIAAAKGLDIDIVEFSDYVVPNQALADGELQANSFQHQPYLDNQIADRKFDLVSVGTTITTPMGVYSKKVKNLDELKDGATVGIPNDPTNGGRALLVLASKGVLKVKEEAGLKVTPADITENPKNIQIVELDAAQLPRSLDDTDASVINTNYATAAGLNPKKDAIAIESEKSPYANVIAVRAQDKDKPWVKTLVESYQSPEVKAFILEKYNGTVIPSW	PGPT0020510_5476	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020510-metQ-K02073	NA	NA
BMS010_09398	669	metI	COG2011	D-methionine transport system permease protein MetI	ATGTCGCCTGATATGCTGTTCAGCCTTCTCTCCAAGGGCCTGTTGCAGACGCTGCACATGGTCGCCGTTGCCGGCATCGTCGGCTCGCTGATCGGCGTGCCCATGGGAGTTTTCCTTGCCACCAGCGGCAAGGGCGAGCTGTTTCCGGCGCCGATGACCAACCGGATCCTCGGCCTCGTCGTGAACGCTGCGCGCTCCACGCCCTTCATCATTCTGGTGGTGGCGATCATTCCCTTCACCCGCCTCGTCGCCGGCACCTCCATCGGCACCAGCGCGGCCATCGTGCCGCTGACGGTCGCGACCGTGCCCTTCATCGCAAGGCTGGTGGAAGCGGCGATCCGCGAGGTGGACAAGGGGCTCATCGAAGCCGCGCGTGCCATGGGTGCGACACCGCTGCAGATCGTGACCAAGGTTCTGCTTGCCGAGGCGAAGCCCGGCATCACGCTGGCGCTCACGCTCACGCTGGTCAGCCTCATCGGTTATTCGGCCATGGTCGGCGCGGTCGGCGGCGGCGGGCTGGGGGATCTCGGCATCCGCTACGGTTACCAGCGCTTCATGCCGGATGTGATGCTGGTCGTGGTTCTGGTGCTGATCGTGCTGGTGCAGCTGGTGCAGAGCGCCGGCGACAGGCTGGCCCGCAGCTTCGACAAGCGGACCCGGAAGAATTAA	MSPDMLFSLLSKGLLQTLHMVAVAGIVGSLIGVPMGVFLATSGKGELFPAPMTNRILGLVVNAARSTPFIILVVAIIPFTRLVAGTSIGTSAAIVPLTVATVPFIARLVEAAIREVDKGLIEAARAMGATPLQIVTKVLLAEAKPGITLALTLTLVSLIGYSAMVGAVGGGGLGDLGIRYGYQRFMPDVMLVVVLVLIVLVQLVQSAGDRLARSFDKRTRKN	PGPT0020515_1899	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020515-metI-K02072	NA	NA
BMS010_09399	1041	metN_3	COG1135	Methionine import ATP-binding protein MetN	ATGGTCACGTTTGAAGGCGTGACCAAGACCTTTGGCGGCGCCGGCGGCAAGCCCGGTTTCGCAGCCCTTGCCGGTATCGACTACGTGGTGCCGAAAGGCTCCATCACCGGCATCATCGGCCGCTCCGGTGCCGGCAAATCCACGCTCATCCGCCTCGCCAACGGCCTTGAAAAGCCCTCGACCGGCCGCGTGGTCGTCGATGGCGTCGATGTCGCGGCGCTCGATGAAAAGAGCCTGCGCACGCTGCGCCGTTCCGTCGGCATGATCTTCCAGCATTTCAATCTCCTCTCCTCGCGCACCGCTTTCGACAATGTGGCCCTGCCGCTCGAAATCGCCGGCATGGGCAAGAAGGAGATCGAAACGCGCGTTGCGCCGCTGCTCGATCTCGTCGGGCTCTCCGACAAGGCCAATCGTTATCCGGCGGAACTCTCCGGCGGCCAGAAGCAGCGTGTCGGCATCGCCCGTGCGCTCGCCACCCAGCCGAAGCTGCTCCTTTCCGACGAGGCGACATCGGCGCTCGATCCGGAAACGACGCAATCCATTCTTGAACTGCTGAAGCGCATCAATGCCGAGCTGGGGCTCACCGTGCTGCTCATCACCCACGAGATGGAGGTGGTGAAGAACATCGCCTCGCAGGTGGCGGTCATCGACAGGGGCCTGATCGTCGAGCAAGGCACGACCTTCGACATCTTCACCGCGCCGAAACACGAGACGACCCGCAGCCTGCTGTCGTCCTCGGTCGGCGTGAAGCTGCCGCATTGGGTCACTTCGGGCCTGAAACCGCAGGCGGCGGAAGGCGACCGCGTTCTGGTGCGTCTGGTGTTCTTCGGCGAGACGGCCTTCCAGCCGCTGACGGCGCGCCTCGTCGCCGAAATCGGCCCTGATGTGAACATTCTTGCCGGCACCATCGAGGAAATTTCCGGCCAGCCCTTCGGCTCGCTGGTCGTCTCCTATCCGGCCTCGGCGGATGTCACCGCCCGCGCCAATCGCTTTTATGCTGAGACCGGTCTTCACACGGAGGTGCTCGGTTATGTCGCCTGA	MVTFEGVTKTFGGAGGKPGFAALAGIDYVVPKGSITGIIGRSGAGKSTLIRLANGLEKPSTGRVVVDGVDVAALDEKSLRTLRRSVGMIFQHFNLLSSRTAFDNVALPLEIAGMGKKEIETRVAPLLDLVGLSDKANRYPAELSGGQKQRVGIARALATQPKLLLSDEATSALDPETTQSILELLKRINAELGLTVLLITHEMEVVKNIASQVAVIDRGLIVEQGTTFDIFTAPKHETTRSLLSSSVGVKLPHWVTSGLKPQAAEGDRVLVRLVFFGETAFQPLTARLVAEIGPDVNILAGTIEEISGQPFGSLVVSYPASADVTARANRFYAETGLHTEVLGYVA	PGPT0020520_1357	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020520-metN-K02071	NA	NA
BMS010_09400	630	yfkO	COG0778	Putative NAD(P)H nitroreductase YfkO	ATGCTTATCGAAAAACTCAACTGGCGTTATGCCACCAAGAAAATGGATCCTTCCAAGGCCGTGTCGGAAGACAAGGTCGAGCGCATTGTCGAGGCGGCGCGGCTTGCGCCCACCTCCAGCGGTCTTCAGCCCTTCGAGGTGATCGTCGTCACCGATCCGGAAGTCCGCGCCAAGATCCGCGAGATCGCCTGGAACCAGGCGCAGGTGACCGACGGTTCGCATCTGCTGGTCTTTGCGGCATGGGACAATTACACCGAAGAGCGGATCAACCACATGTTCGATCTGGTCAACGAAGAACGCGGCATCAAGAATGAAGGCTGGGAAGCCTATCGCCAGATGCTGCTTTCCACCTATCCGCAGCGCGACCAGCAGGTGAATTTCGAGCACGCCGCCCGCCAGGCCTATATCGGCTTCGGCATGGCCGTGGCGCAGGCCGCTTTCGAGGGCGTGGATTCCACTCCGATGGAAGGCTTCGACCCGGCGAAGCTCGATGAAATCCTCGGCCTGCGTGAAAAGGGCCTGCGCTCCGTCACCATCCTGCCGCTCGGTTATCGCCAGCCGGAAGGCGACTGGCTGGTGAACCTGAAGAAGGTGCGCCGCCCGCTCGAGGAATTCACCAGCCGCGTGTGA	MLIEKLNWRYATKKMDPSKAVSEDKVERIVEAARLAPTSSGLQPFEVIVVTDPEVRAKIREIAWNQAQVTDGSHLLVFAAWDNYTEERINHMFDLVNEERGIKNEGWEAYRQMLLSTYPQRDQQVNFEHAARQAYIGFGMAVAQAAFEGVDSTPMEGFDPAKLDEILGLREKGLRSVTILPLGYRQPEGDWLVNLKKVRRPLEEFTSRV	PGPT0005925_824	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS	XENOBIOTIC_NITRO-AROMATE_DEGRADATION,PGPT0005925-nfnB|nfsB-K10679	NA	NA
BMS010_09401	1380	bglA		Beta-glucosidase	ATGACCGATCCCAAAACGCTAGCCGCCCGTTTCCCCGGCGATTTCCTGTTCGGCGTCGCGACCGCCTCTTTCCAGATCGAAGGCTCCACGAAGGCAGATGGCCGCAAGCCCTCCATCTGGGACGCCTTCTGCAATATGCCGGGCCATGTCTTCGGGCGTCACAATGGCGATATTGCCTGCGATCATTATAATCGCTGGGAACAGGATCTCGATCTCATCAAGGACATGGGTGTCGAGGCCTATCGTTTCTCCATCGCCTGGCCGCGCATCATTCCGGATGGTTTCGGACCGATCAACGAGAAGGGGCTGGATTTCTACGATCGCCTGGTTGATGGCTGCAAGGCGCGCAGCATCAAGACCTATGCGACGCTTTACCATTGGGACCTGCCGCTGACGCTGATGGGCGATGGCGGCTGGGCCTCGCGCTCCACCGCGCACGCCTTCCAGCGATACGCCAAGACCGTGATGGCTCGTCTGGGTGACCGGCTGGATGCGGTGGCGACCTTCAACGAGCCCTGGTGCGCGGTGTGGCTCAGCCATCTCTATGGCATTCATGCGCCGGGCGAGCGCAACATGGAGGCAGCCCTTGCCGCCATGCATCACATCAATCTCGCCCATGGTTTCGGCGTGGAAGCCTCCCGCCATGTCGCGCCGAAAGTGCCCGTGGGGCTGGTGCTGAATGCCCACTCCGTCATCCCGGCTTCCGATAGCGACGCTGACCTCAAGGCCGCCGAACGAGCCTTCCAGTTCCACAACGGCGCGTTTTTCGATCCGGTCTTCAAGGGTGAATATCCGGCCGAGATGATGGAGGCGCTGGGAAGCCGCATGCCGGTGGTGGAGGCTGAAGACCTTTCCATCATCAGCCAGAAGCTAGACTGGTGGGGTCTGAATTATTACACGCCGATGCGCGTTGCCGACGATGCGACACCGGGCGCGGAATTCCCTGCCACCCATCCGGCCCCCGCCATCAGCGATGTGACGACCGATATCGGCTGGGAGGTCTATGCCCCGGCGCTCCAGTCGCTGGTGGAGACGCTCTACAAGCGTTACGACCTGCCGGATTGCTACATCACCGAAAACGGCGCCTGCTATAATATGGGCGTCGAAAACGGCGAGGTGGATGACCAGCCGCGTCTCGACTATTACGCCGAACATCTCGGCATCGTCGCCGATCTCATCCGCGACGGTTATCCGATGCGCGGTTATTTCGCCTGGAGCCTGATGGATAATTTCGAATGGGCCGAGGGTTACCGCATGCGCTTCGGTCTGGTGCATGTGGATTACGACACGCAGGTGCGGACGCTGAAGAACAGCGGCAAATGGTATAGTGCGCTGGCTTCGGGCTTTCCGAAGGGGAACCATGGTCTGGTGAAGCCGTAA	MTDPKTLAARFPGDFLFGVATASFQIEGSTKADGRKPSIWDAFCNMPGHVFGRHNGDIACDHYNRWEQDLDLIKDMGVEAYRFSIAWPRIIPDGFGPINEKGLDFYDRLVDGCKARSIKTYATLYHWDLPLTLMGDGGWASRSTAHAFQRYAKTVMARLGDRLDAVATFNEPWCAVWLSHLYGIHAPGERNMEAALAAMHHINLAHGFGVEASRHVAPKVPVGLVLNAHSVIPASDSDADLKAAERAFQFHNGAFFDPVFKGEYPAEMMEALGSRMPVVEAEDLSIISQKLDWWGLNYYTPMRVADDATPGAEFPATHPAPAISDVTTDIGWEVYAPALQSLVETLYKRYDLPDCYITENGACYNMGVENGEVDDQPRLDYYAEHLGIVADLIRDGYPMRGYFAWSLMDNFEWAEGYRMRFGLVHVDYDTQVRTLKNSGKWYSALASGFPKGNHGLVKP	PGPT0019165_1667	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019165-bglB-K05350	NA	NA
BMS010_09402	1311	xylA		Xylose isomerase	ATGAGCACAGGTTTCTTCGGCGATATTGCCAAGATCAAATATGAAGGCCCCGACAGCACCAACCCGCTGGCCTTCCGTCATTACAACCCCGACGAAATCGTCGCCGGCAAGCGCATGGAAGATCACCTGCGTTTTGCGGTGGCCTATTGGCACACCTTCACCTGGCCGGGCGGCGACCCCTTCGGCGGCCAGACCTTCCTGCGCCCATGGTTCGAAGATACGATGCAGGCGGCGAAACTGAAGGCGGATGTGGCTTTCGAATTCTTCTCGCTGCTCGGTTCGCCGTTCTACTGCTTCCACGACGCCGATGTGCGCCCGGAGGGCCGGAACTTTGCGGAGAATACCAAGAACCTCAACGAGATCGTTGATTATTTTGCCCAAAAGCAGGCCGATACCGGCGTGAAGCTTCTGTGGGGTACGGCGAACCTCTTCTCCAACCGTCGCTTCATGTCGGGTGCGGCGACCAATCCGGACCCGGATGTTTTCGCTTTCTCCGCCGCGACCGTGAAGACCTGCATGGACGCCACCAAGAAGCTCGGCGGCGCGAACTATGTTCTGTGGGGCGGCCGCGAAGGTTACGAGACCCTGCTCAACACCGATCTGTCGCGTGAACTCGACCAGCTCGGCCGCTTCCTCAATCTGGTGGTGGAGTATAAATACAAGATCGGCTTCGAAGGCACGATCCTGATCGAGCCGAAGCCGCAGGAGCCGACCAAGCACCAGTATGACTACGACGTCGCCACCGTTTACGCCTTCCTGCAGAAGAACGGTCTGGAAAAGGAAGTGAAGGTCAATATCGAGCAGGGCCACGCCATTCTCGCCGGCCACTCCTTCGAGCATGAGTTGGCCATGGCCAATGCCTTCGGCATTTTCGGTTCCATCGACATGAACCGTAACGACTACCAGTCCGGCTGGGATACCGACCAGTTCCCCAACAACGTACCGGAAATGGCGCTCGCTTATTACCATGTTCTGGCCGGTGGCGGTTTCAAGAACGGCGGCACCAACTTCGATTCCAAGCTGCGCCGTCAGTCGCTCGATCCGCAGGACCTGCTGATCGGCCATATCGGCGGCATGGATTGCTGCGCCCGCGGCCTGAAGGCGGCGGCGAAGATGATCGAGGACGGCGCGCTGTCGAAGCCGCTTGCGGAGCGTTACGCCAAATGGGATTCGGCTGAAGCCCAGAAGATGCTGCGCGGCGAGCTGAAGCTGGAAGAGATTGCCGCCCTGGTGGAGCGTGAGGATATCAATCCTGAGCCGAAGTCCGGCCGTCAGGAATATCTCGAAAACGTGGTCAATCGTTACGTTTGA	MSTGFFGDIAKIKYEGPDSTNPLAFRHYNPDEIVAGKRMEDHLRFAVAYWHTFTWPGGDPFGGQTFLRPWFEDTMQAAKLKADVAFEFFSLLGSPFYCFHDADVRPEGRNFAENTKNLNEIVDYFAQKQADTGVKLLWGTANLFSNRRFMSGAATNPDPDVFAFSAATVKTCMDATKKLGGANYVLWGGREGYETLLNTDLSRELDQLGRFLNLVVEYKYKIGFEGTILIEPKPQEPTKHQYDYDVATVYAFLQKNGLEKEVKVNIEQGHAILAGHSFEHELAMANAFGIFGSIDMNRNDYQSGWDTDQFPNNVPEMALAYYHVLAGGGFKNGGTNFDSKLRRQSLDPQDLLIGHIGGMDCCARGLKAAAKMIEDGALSKPLAERYAKWDSAEAQKMLRGELKLEEIAALVEREDINPEPKSGRQEYLENVVNRYV	PGPT0017550_1335	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017550-xylA-K01805	NA	NA
BMS010_09403	1455	xylB_4	COG1070	Xylulose kinase	ATGTATCTCGGTCTCGATCTTGGCACATCCGGCGTCAAAGCCCTGCTGATGGACGGCGATCAGAAAATCATCGGCTCGGCCAACGGCTCGCTGGACGTTTCGCGCCCGCATCACGGCTGGTCGGAACAGGACCCGGCCGACTGGATTGCCGCGACGAAAACCGCCGTTGCCGGCCTGAAGCAGAAGTTTCCGAAGGAGCTTGCCGCCGTTAAGGGCATCGGCCTTTCCGGCCAGATGCATGGCGCGACGCTGATCGACGCGGCCGGCAAGGTGCTGCGCCCCTGCATCCTGTGGAACGACACGCGCTCCCATTCCGAGGCCGCCGCGCTGGATGCCGATCCGCGTTTCCGCAGGATCACCGGCAACATCGTTTTCCCCGGCTTCACCGCGCCGAAACTTGCCTGGGTGGCGAAGAACGAACCTGAAATCTTCGCGAAAGTGGCCAAGGTGCTGCTGCCGAAGGATTATCTGCGTCTGTGGCTGACCGGCGAATACATCTCCGAAATGTCGGATTCCGCCGGCACCTCCTGGCTCGATACCGGCGCGCGCAAATGGTCGTCCGAACTTCTTGCCGCCACCGGGTTGGATGTAAAGCACATGCCGTCGCTGGTGGAAGGCACGGATGAGGCGGGCGTGCTGCGCGCCGAACTTGGCTCCGAATGGGGCATTTCCGGCCGCGCCGTGGTTGCCGGCGGCGCGGGAGACAATGCCGCTTCCGCCTGCGGCATGGGCACGGTGAAGGAAGGCCACGCCTTCGTATCGCTCGGCACATCCGGCGTTCTTTTTGCCGCCAATGCATCTTACCTGCCGAAGCCGGAAAGCGCCGTGCACGCCTTTTGCCATGCGCTGCCCAATACCTGGCACCAGATGGGCGTCATCCTCTCCGCCACCGATGCGCTGAACTGGTATTCGCGCCTCACCGGCCAATCCGCCGCCGATCTGACCGGCGAGCTGGGCGAGACGCTGCTTGCACCGACCGGTGTCACCTTCGCGCCCTATCTCTCGGGTGAGCGCACACCGCACAACGACGCCGCCATTCGCGGCTCCTTCATCGGCCTGTCCCATGAAAGCGACCGTAAGGCGCTGACCCAGGCCGTGCTGGAAGGCGTCACTTTCGCGATCAGGGACAATCTCGAAGCGCTGAAATCCGCTGGCACCTCGATTTCCCGCGTCACCGCCATCGGCGGCGGCTCGCGCTCGGCCTATTGGCTGGCCTCGATCGCCACCTCGCTCGGCGTGCCCGTGGATATTCCGGCCGAGGGCGATTTCGGTGCCGCCTTCGGCGCGGCCCGCCTCGGCCTCATTGCCGCGACCGGGGCCGATCCGGTGGCGGTCTGCGCGCAGCCGGAAACGGCGCGGACCATCGAGCCGGTGGCGGCGCTGGCCGGCGCCTATGAGGAGGCTTACCGGCGCTATCATGCGCTTTATCCGGCTATTCGGGCGCTTTCGCATTGA	MYLGLDLGTSGVKALLMDGDQKIIGSANGSLDVSRPHHGWSEQDPADWIAATKTAVAGLKQKFPKELAAVKGIGLSGQMHGATLIDAAGKVLRPCILWNDTRSHSEAAALDADPRFRRITGNIVFPGFTAPKLAWVAKNEPEIFAKVAKVLLPKDYLRLWLTGEYISEMSDSAGTSWLDTGARKWSSELLAATGLDVKHMPSLVEGTDEAGVLRAELGSEWGISGRAVVAGGAGDNAASACGMGTVKEGHAFVSLGTSGVLFAANASYLPKPESAVHAFCHALPNTWHQMGVILSATDALNWYSRLTGQSAADLTGELGETLLAPTGVTFAPYLSGERTPHNDAAIRGSFIGLSHESDRKALTQAVLEGVTFAIRDNLEALKSAGTSISRVTAIGGGSRSAYWLASIATSLGVPVDIPAEGDFGAAFGAARLGLIAATGADPVAVCAQPETARTIEPVAALAGAYEEAYRRYHALYPAIRALSH	PGPT0017535_3168	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017535-xylB-K00854	NA	NA
BMS010_09404	1023			hypothetical protein	ATGAAGCCGACAGTTCACGATATCGCCGAGCGGGCGGGCGTCAGCCTCGCCACCATCGACCGGGTGCTGAACATGCGCCCCGGCGTGCATGCGGCAACGCGGGCACGGGTGGAGGCGGCCATTGCCGAGCTTGGTTATGTGCGCGATATCGCGGCCGCCAATCTGGCCAAGGGCCGCAATTATTCGCTGGTTTTCATCCTGCCGGGCAATGACAATTCCTTCATGGCGACGTTGCGCGCCGAAGTGCGGGCCGCAGCGGCACGGGCGCATCTGGAGCGCACGGCGATCCGCGTCATCGAGGTGCCGCCCTTCAATGCCTCCGCGCTGACGGAGGCTCTGGAAGTCGCGCGGCGGGAAAAGCCCTCGGGCGTCGCCTTCGTCGCCACCGATTCCGAAGATGTGGCGGAAGCCGCCGACCGGCTGGCCGAAGACGGCATCGCCACGGTGACGCTGGTGTCCGATCTTTCCGGTTCGCGGCGGGATCATTATGCCGGCGTGGACAACGTCGCGGCCGGGCGCACGGCGGCGAGCCTGATGGGACGTTTTCTCTCCGGGCGCGGCGGCGATGTCGCGGTTGTTGCCGGCTCCATGCTGGTGCGCGACCATCGCGAACGTCTGGAAGGATTTCGCGCCGTCATCGAATCCGAATTTCCGCAATTGCGGCTACTGCCGGTGCTGGAGGGCAGGGACGATCCGCTCACCGTCGAGACGCTGGTGCGCAAGGCGCTCGGCAATGCCGAGCTCTCCGGCATCTACAGCCTCGGCGCGGGCAATCGCGGCCTCATCCGTGCGCTTGGCGCGGCCGAGGGCGAAAGAGCGCTTTCGGTCATCGCCCATGAACTGACGGAAAACACCGCCAATGCGCTGCGGGAAGGGCTGCTGGATGCCGTGCTCAACCAGGATGCCGGCCACGAGGTACGCAGCGCCATCCGCGTCTTGAAGGCGCGGGCCGACGGTCTGCCCGTCATCGCCGCGCAGGAACGTATCCGTATCGACATATTCCTCAGGGACAATCTTCCCTGA	MKPTVHDIAERAGVSLATIDRVLNMRPGVHAATRARVEAAIAELGYVRDIAAANLAKGRNYSLVFILPGNDNSFMATLRAEVRAAAARAHLERTAIRVIEVPPFNASALTEALEVARREKPSGVAFVATDSEDVAEAADRLAEDGIATVTLVSDLSGSRRDHYAGVDNVAAGRTAASLMGRFLSGRGGDVAVVAGSMLVRDHRERLEGFRAVIESEFPQLRLLPVLEGRDDPLTVETLVRKALGNAELSGIYSLGAGNRGLIRALGAAEGERALSVIAHELTENTANALREGLLDAVLNQDAGHEVRSAIRVLKARADGLPVIAAQERIRIDIFLRDNLP	PGPT0017992_8471	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017992-lacI|galR-K02529	NA	NA
BMS010_09405	1584	emrB_3		Colistin resistance protein EmrB	ATGGCGGCTACGGTTGTCGGTACGGGCGGGGCGTCCATCCCCGCCGATCCCCCGATGGACAGGCGCAGGCTCATCGCGTTTTTCGCGATGGTCTTCGGCATGTTCATGTCCATCCTCGACATTCAGATTGTCTCCGCGTCGCTCGCGGAAATCCAGGCGGGTCTCGGCGCGGGTTCCGATGAGATCGCCTGGGTGCAGACCTCCTATCTGATCGCCGAAGTCATCATGATACCGCTGTCGGGCACGCTGGCGCGCATTCTCTCCACGCGCGTGCTCTTCGCCACCTGCGCGGCCGGCTTCACCATATCGAGCGCGCTCTGCGCCACAGCCACCAATATCGACCAGATGATCGTCTACCGCGCGATCCAGGGCTTTATCGGCGGCGGCATGATCCCCTCCGTCTTCGCCGCCGCCTTCACCATCTTCCCGCCCTCGAAGCGTTCGGTCGTGTCACCGATCATCGGTCTCGTCGCCACGCTTGCGCCCACCATCGGCCCGACGGTCGGCGGTTATCTCTCCAATGCCTTTTCCTGGCACTGGCTGTTCCTCGTCAACATCATCCCCGGCATCATCGTCACCATCCTCACCTGGAGCCTGATCGATTTCGACAAGCCGGAAAAGTCGCTCTGGAAGAAGTTCGACTGGTGGGGGCTGATCTCCATGGCCGTCTTCCTCGGCTCGCTGGAATATGTGCTTGAAGAGGGCAACAACAAGGACTGGTTCAACGACGAGCATATCGTCATGGGAACGGTCGCCATGGTCATCGGCGCGGTCGTGTTCTTCTGGCGCGCCTTCAAGGTGGAATTCCCTGTCGTCGATATCCGCGCCTTCGCCGACCGCAACTTCTCCATCGGCTCGCTTTTCTCCTTCGTCATGGGCATCGGGCTATACGGGCTGACCTATCTTTACCCGCTCTATCTCGGCCGGGTGCGTGGTTACGATGCGCTGATGATCGGCGAGACCATGTTCGTCTCCGGTCTTGCCATGTTCTTCACCGCGCCGATTGCCGGCAAGGTCTCCACCAAGCTCGATCCGCGGGCGATGATGGCCATCGGCTTCATCAGCTTCGGCTGCGGCACATGGATCATGACGCATGTGACGACCGACTGGGATTTCTACGAGCTGCTGATCCCGCAGATCCTGCGCGGTTTCGGCCTGATGATGTGCATGGTGCCGATCAACAACATCGCGCTCGGCACCCTGCCGCCGGCCCGCATCCGCAATGCGTCCGGCCTGTTCAACCTTACCCGTAACCTCGGCGGCGCGGTCGGTCTTGCCATCATCAACACCATGCTGTCGCAGCGCACGGACGACCATTATGTGCGGCTGGCCGAACATGTGAGCTATTCCAACCCGCAGGCGCTGGAATGGCTGAACAGTGTCGGCGCCAACTACGATTCCTACGGGCTGGATGGCGCGTCCGTCGCCGTCAAGAAACTGGTTGGCATGGTCTCGCAGCAGGCATGGATATTGGCCTTCGCGGATGTGTTCTTCGCGCTGACACTGTTGTTCTCGAGCCTGATCTTCATGACCGTGCTGATCCAGAAACCCAAGGCAGCGCCGCCGCCAGACGCGGCGCACTAA	MAATVVGTGGASIPADPPMDRRRLIAFFAMVFGMFMSILDIQIVSASLAEIQAGLGAGSDEIAWVQTSYLIAEVIMIPLSGTLARILSTRVLFATCAAGFTISSALCATATNIDQMIVYRAIQGFIGGGMIPSVFAAAFTIFPPSKRSVVSPIIGLVATLAPTIGPTVGGYLSNAFSWHWLFLVNIIPGIIVTILTWSLIDFDKPEKSLWKKFDWWGLISMAVFLGSLEYVLEEGNNKDWFNDEHIVMGTVAMVIGAVVFFWRAFKVEFPVVDIRAFADRNFSIGSLFSFVMGIGLYGLTYLYPLYLGRVRGYDALMIGETMFVSGLAMFFTAPIAGKVSTKLDPRAMMAIGFISFGCGTWIMTHVTTDWDFYELLIPQILRGFGLMMCMVPINNIALGTLPPARIRNASGLFNLTRNLGGAVGLAIINTMLSQRTDDHYVRLAEHVSYSNPQALEWLNSVGANYDSYGLDGASVAVKKLVGMVSQQAWILAFADVFFALTLLFSSLIFMTVLIQKPKAAPPPDAAH	PGPT0029220_1114	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029220-emrB-K03446	NA	NA
BMS010_09406	1215	emrA_3		Colistin resistance protein EmrA	ATGTCGGCCCAGAAGAATAATGCGGTTCGCGCCGTCAACGATGCGGAAGAGGCGGATATCTCCGCCAAGGCCGAGACCTCTCCGGCAAAGCCGGCCGAGGCCGCGCCGCCGCAGCAGCCCCAGACCATTGCGGCGCCGAAGCAGAAGAAGCGTTCCAAGCTTCTGCCGGTCATCGCGGTTGCCCTTCTCGCCGGCGCCGGCTGGTACGGTTACAACTGGTGGGTTGACGGCCGCTTCATGGTGTCGACGGACGACGCCTATATAGAAGGCGATATCGCCGTCATCGCACCGAAGGTTTCGGGCTATGTCGCCAAGGTGAACGTGGTCGAGAACCAGGAAGTCAAGGCGGGCGATCCGCTGGTGACGCTGGACGACGGCGATTATCGCATCGCGCTCGATCAGGCCGAAGCCCAGATCCGCACCGAGCAACTGTCACTGAAGCGCATCGATGCGCAGATCGTCGGCGGCGAAGCTTCGCTGGAGCAGGCCGTCGCCCAGAAGGGTGCGCTGGATGCCGCCCTTCGCGGTGCCGAAATCACCCAGAAGCGCGCCAGCGAGCTGCAGGCGAAGGATGTCGGCACGGTTGCCGCTTCCGACAATGCGCAGGTCGCGCTCGATCAGGCCAAGGCGAATGTCGTGGCCGGCGATGCCGCCATCTCCTCGGCCAAGGCCAATGTTGAACTCCTGCGCGCCCAGCGCGAGGAAGCCGAAAGCACGATCCGTTCGCTGCAGCTTTCCCGCGACAAGGCCGCCCGCGATCTTTCCTTCACTGTTCTGAAGGCGCCCTATGACGGCGTCATCGGCAATCTGGCGGTTCAGAACGGCGATCTGGTGTCTGTCGGCAAGCGTCTGGCTTCGCTGGTGCCGATGAACGAGCTTTATATCGACGCCAATTTCAAGGAGACGCAGCTTGCGCGCGTCGTGCCCGGTTCGAAGGTGCGCGTGCATGTCGACGCCTTTGACGACGCGACGATCGAGGGCACGGTGCAGTCGATTTCGCCCGGCTCGGGCTCGGTCTTCTCCATGCTGCCGCCGGAAAATGCGACCGGCAACTTCACCAAGGTCATCCAGCGTGTGCCGGTTCGTATCGTCTTCTCTAGGGAAGACCTTGCAAAGCACAATCTGCGCGCCGGCCTCAGCGTCGTTGTCGATGTCGATACCCGCACGGCGCCGGAAGGCACCAGAACGGCGCAAGTTAACCCGGAAGCCAAGTAA	MSAQKNNAVRAVNDAEEADISAKAETSPAKPAEAAPPQQPQTIAAPKQKKRSKLLPVIAVALLAGAGWYGYNWWVDGRFMVSTDDAYIEGDIAVIAPKVSGYVAKVNVVENQEVKAGDPLVTLDDGDYRIALDQAEAQIRTEQLSLKRIDAQIVGGEASLEQAVAQKGALDAALRGAEITQKRASELQAKDVGTVAASDNAQVALDQAKANVVAGDAAISSAKANVELLRAQREEAESTIRSLQLSRDKAARDLSFTVLKAPYDGVIGNLAVQNGDLVSVGKRLASLVPMNELYIDANFKETQLARVVPGSKVRVHVDAFDDATIEGTVQSISPGSGSVFSMLPPENATGNFTKVIQRVPVRIVFSREDLAKHNLRAGLSVVVDVDTRTAPEGTRTAQVNPEAK	PGPT0013750_238	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0013750-emrB-K03543	NA	NA
BMS010_09407	687	betI_6		HTH-type transcriptional regulator BetI	ATGGCAGGTGAAGACAGGGATATGGAGACGGAAACGGAAACGGGCTGTCCGGGCAATGCCGCCGGGCGTTTTGCGGCGGGTGAAGACCCGGCCAAGCGCGAGCAGATTCTGGCGGGCGCCTGGCGTGTGTTCAAGCGCAAGGGCTTCGATGCGGCCAGCATGAACGACATCACGCGTGAAGCCGGCGTTTCCAAGGGCACGATCTACGTCTATTTCTCCAACAAGGAGGATCTGTTCGTTGCGCTCGTCGACCATCACCGCAACGAATTCGCCACCTCCATGCGCCATATTCTCGAGGGCACCGAGGAGGTGCGCGAGGGGCTGGAACAGTTCGGCAAGGCCTTTGCCAACAAGATGATCTGTTCGGACATGATCCCTGCCATGCGTTCGGTGCTCGGCGTCATCGATCGCATGCCGAAACTGGCGCAGCGCTTTTTCCTTTCGGCTCCGAACAATGTACGCACCGTGCTCCTGGACTTCATCGAACATCAGGTCGAGATCGGCCATCTGAAAGTGGATGACCCTGAGCTGGCCGCCCGGCAATATATCGAGCTTTCCACCGGCACCTTCTTCAAGCTGCGGCTGTTCGGCGAACTGGAAGGCCCGGTTCCCGACGAGGAACTGGACCGGGTTATCAGCAGCGCCATCAACGTATTCATGGCGGCTTACGGAACAGACAAGGCCTGA	MAGEDRDMETETETGCPGNAAGRFAAGEDPAKREQILAGAWRVFKRKGFDAASMNDITREAGVSKGTIYVYFSNKEDLFVALVDHHRNEFATSMRHILEGTEEVREGLEQFGKAFANKMICSDMIPAMRSVLGVIDRMPKLAQRFFLSAPNNVRTVLLDFIEHQVEIGHLKVDDPELAARQYIELSTGTFFKLRLFGELEGPVPDEELDRVISSAINVFMAAYGTDKA				NA	NA	NA	NA	NA
BMS010_09408	762			hypothetical protein	ATGGAGTCCGTTCTCCCTCTTCTATCTGACCCCGCCGCCTGGGTGGCGCTCGTCACACTGATCGTCATGGAGGTCGTGCTCGGCATCGACAACCTGATCTTCATCTCCATCCTCACCAACAAGCTGCCGCCCGAACAGCGTGAAAAAGCCCGCAAGATCGGTATAGGCCTTGCGCTCGTCATGCGCCTCGGCCTGCTCGGCACCGTCGCATGGATCGTGCAGCTCACCACGCCGGTTTTCGAAGCCTTCGGCCACCCCTTCTCGTGGAAAGACATGATCCTCATAGCGGGTGGTCTCTTCCTGGTATGGAAGGCGACCAAGGAAATTCACCACAATGTCGACCCGGAAGATCACAAGGAAGACATGGTGGGTGGCCCGGCCGCGATGAATTTCGGCGCCGCCATTGGCCAGATCCTGCTGCTCGACCTTGTTTTCTCTGTAGACAGCATCATCACCGCCGTCGGCATGACACCCCATCTGCCGATCATGATCGTCGCCGTCGTCGTTGCCGTCACCGTCATGCTGCTCGCCGCAACACCGCTTGCCAACTTCATCGAGCGCAACCCCACCATCGTCATGCTGGCGCTCGCCTTCCTGATGATGATCGGCACGACGCTGATCGCCGAAGGCATGGGCTTCCATGTTCCGAAGGGCTACGTCTATGCCGCCATGGCGTTCTCGGCGCTGGTGGAACTGCTCAACATGCTGGCCCGCAATGCGCGGCAGCGCAAAAAGGCGGAGGCGGCAGGCGATACGCACTAA	MESVLPLLSDPAAWVALVTLIVMEVVLGIDNLIFISILTNKLPPEQREKARKIGIGLALVMRLGLLGTVAWIVQLTTPVFEAFGHPFSWKDMILIAGGLFLVWKATKEIHHNVDPEDHKEDMVGGPAAMNFGAAIGQILLLDLVFSVDSIITAVGMTPHLPIMIVAVVVAVTVMLLAATPLANFIERNPTIVMLALAFLMMIGTTLIAEGMGFHVPKGYVYAAMAFSALVELLNMLARNARQRKKAEAAGDTH				NA	NA	NA	NA	NA
BMS010_09409	1773			hypothetical protein	ATGACGACAGACCAGATTCTCGCCTTCACCGTCATCGCCGGCATGATGGTCGCGTTCATCTGGGACAGGCTGCGTTACGATGTCGTCGCCTGCAGTGCGCTGCTTGTGGCCGTCGCGCTCGGCGTCGTGCCTTTCGAAAAAGCTTTTTCCGGTTTTTCGGACGATATCGTCATCATCGTCGGCAGCGCGCTGGTGGTCAGTTCGGCCGTGGCGCGGTCGGGCATCGTCGATATGACGATCAAGAAATATTTCCCCGAAATGCACTCCAAGAGCCTGCAGCTCGCCTTCCTGATGATCGTCGTCGCCGTCATGTCGGCCTTTATCAAGAATATCGGCGCGCTCGCCATCATGATGCCGGTCGCCTTCCAGTTCGCCCGCAAATCCGGCAGCCCGGTCTCCTATTATCTGATGCCCATGGCGTTTGCCGCCCTGCTCGGCGGGCTGATGACGCAGATCGGCACCTCGCCCAACATCGTCGTGTCGCGGCTGCGCGAGGAAATGACCGGGCAGAGTTTTTCGATGTTCGACTTCACGCCCGTCGGCGCGGGACTGACCGTCATCGGCATCATCTTCCTTACCTTCGGTTACCGGCTGCTGCCGGTGCGCAACCGCCAGCAGGCGTCGGTGGAGGATATTCTCGACCAGTCCGCCTATACCGCCGAAGCCACCCTGCCCGCCGACAGCACCCATGCGGAGAAGCCGCTGCGCGAATTGCTGAAACAGGCCGACGGCGATGTGATCGCCAGCACCATCCTGCGCGGGCCGCGACGCATCTCCCCCTTCCCCGACGTGACGCTGAAGGCGGGTGACACGATTCTCCTCGAAGGCAGCCCGGAGGGGCTGGACCGCATCGTCTCGCAGGCGAAGCTTCTGCTTTCCGGCAAGCCGCTGATGGAAAACGGCCAAAAAACCGCAGATCTCATTTCCATGGAAGCGGTGATCAGCAATGAATCGGTTTTGAACGGCATTTCGGCGCGTGAACTCGCGCTGTCCTATACGCGTGGCGTCAATCTGATCGCGGTGAGCCGGCGCGGCCAGCGCGTCAGCCAGCGGCTCTCCGAGCTGACATTGCAGGCGGGCGACGTCATTCTTTTGCAGGGCAGCCGCAAGAACCTGCCGCAGGTATTGCAGGAATTTTCGCTCTTGCCGCTGGCGCAGCGGGAAATCCTGCTGGGCGTGCAGCGCCGCGCGCTTCTGCCCGTCATCGTGCTCGCCGCCGCCATGATCGCCGCCGGCAGCGGGCTGGTGCCGGTCTCCGTCGCCTTTTTCGCCGCTGCCTTCATGATGATCGTGGTCGGCGCCATCCCGCTCACCGAGGTCTATAAATCCATCGACGGGCCGATCCTCGTCATGCTCGCCGCCCTCATTCCCGTCAGCGACAGCCTGCGCACCAGCGGAGCGAGCGAACTGATCGCCGCATGGCTCGGCCATGCCGCGCAGGGATTGCCGCCCTTTGCGGCGCTTGGCATGATCCTGCTCACCGCCATGGCAGTGACGCCCTTTCTCAACAATGCCGCCACCGTGCTGGTCATGGCCCCCATCGCCGCCGGTTTCGCCACCACACTCGGTTTCCGGCCGGAGGCCTTCCTGATGGCGGTGGCGATTGGCGCCGGCTGCGATTTCCTCACCCCCATCGGCCACCAGTGCAATACGCTGGTCATGGGCCCCGGCGGTTATCGCTTCAGCGACTATCCGCGCCTTGGCCTGCCGCTGTCGATCATGATCGTCATCGCCAGCATTCCCATGCTGCTTTACGTCTGGCCAGTGAACTAG	MTTDQILAFTVIAGMMVAFIWDRLRYDVVACSALLVAVALGVVPFEKAFSGFSDDIVIIVGSALVVSSAVARSGIVDMTIKKYFPEMHSKSLQLAFLMIVVAVMSAFIKNIGALAIMMPVAFQFARKSGSPVSYYLMPMAFAALLGGLMTQIGTSPNIVVSRLREEMTGQSFSMFDFTPVGAGLTVIGIIFLTFGYRLLPVRNRQQASVEDILDQSAYTAEATLPADSTHAEKPLRELLKQADGDVIASTILRGPRRISPFPDVTLKAGDTILLEGSPEGLDRIVSQAKLLLSGKPLMENGQKTADLISMEAVISNESVLNGISARELALSYTRGVNLIAVSRRGQRVSQRLSELTLQAGDVILLQGSRKNLPQVLQEFSLLPLAQREILLGVQRRALLPVIVLAAAMIAAGSGLVPVSVAFFAAAFMMIVVGAIPLTEVYKSIDGPILVMLAALIPVSDSLRTSGASELIAAWLGHAAQGLPPFAALGMILLTAMAVTPFLNNAATVLVMAPIAAGFATTLGFRPEAFLMAVAIGAGCDFLTPIGHQCNTLVMGPGGYRFSDYPRLGLPLSIMIVIASIPMLLYVWPVN				NA	NA	NA	NA	NA
BMS010_09410	1458	gltX_3	COG0008	Glutamate--tRNA ligase	ATGACCACTTCCGGCGTTCGCGTCCGCATCGCACCTTCCCCCACCGGCGAGCCGCATGTCGGCACCGCCTATATCGCGCTGTTCAACTATCTCTTCGCCAAGAAACATGGCGGTGAGTTCATCCTGCGCATCGAGGATACCGACGCCACCCGCTCGACCCTCGAATATGAGCAGAAGGTGCTGGAAGCGCTGCGCTGGACCGGGCTGACCTGGTCGGAAGGCCCGGATGTCGGCGGCCCTTACGGTCCCTACCGCCAGTCCGAGCGCAAGGCCATGTATTGGCCCTATGCCGAAGAGCTGCTGGAAAAAGGCCATGCCTTCCGCTGTTTCTGCACGCCCGAGCGGCTGGAAGAAATGCGCGAAGCCCAGCGCGCCGCCGGCAAGCCGCCGAAATATGACGGCCATTGCCTCAACCTGAAGGCCGAGGAAGTCACCGCCCGCGTCGCCGCCGGCGAAGCCAACGTCGTGCGCATGAAAATCCCGGCCGAAGGCTCGTGCGATTTCCATGACGGCGTTTATGGCGATGTATCGATCCCGTGGGATTCGGTCGATATGCAGGTGCTGATCAAGGCCGACGGCATGCCGACCTATCACATGGCCAACGTCATCGACGACCATCTAATGAAGATCACCCATGTGGCGCGCGGCGAAGAATGGCTGGCCTCCGTGCCCAAGCACATTCTGCTTTACCGTTATTTCGGCTGGGACCAGCCCACGTTCATGCATCTTTCGCTGATGCGCAACGCCGACAAGTCGAAGCTTTCCAAGCGCAAGAACCCGACCTCGATCTCCTATTATTCCGCGCTCGGTTACCTGCCGGAAGCGCTGATGAACTTCCTTGGCCTGTTCTTCATCCAGATCGCCGAAGGCGAAGAACTTCTGACCATGGACGAGCTGGCGGCGAAGTTCGACCCGGAAGCGCTTTCCAAGGCCGGCGCCATCTTCGACATTCAGAAGCTGGACTGGCTGAACGGCCGCTGGCTGCGCGAAAAGCTTTCGCCGGAGGAGTTCATTGCCCGCACCCTGGAATGGGCGATGGAAAATGCCCGCCTGACCGAGGGTCTGAAGCTTGCGCAGAGCCGCATTTCCAAGCTCGGCGAACTGCCGAACCTTGCCGGCTTCCTGCTCGCAAGCGATGCTGGCCTCACGCCCGCTTCCTTTGCCGGGCTGAAGAGCAAACCCGAGGAAATCCACGAAATCCTCACCACCGTTGCAGCAGACCTCGAAAAGATGCCTGACTGGAACGTGGAAGCCATCGAGGCGGAGCTGCGCGATGTGGCCGAACGCACTGGCAAGAAGCTGCGCGTCGTCACGCCGCCGCTGTTCGTCGCCATGTCCGGATCGTCGCGCTCGCTGCCGCTGTTTGATAGCATGGCGCTGCTTGGCCGCTCCGTGGTGCGCCAGCGCCTGAAGGCTGCGATTACCGTTGTGGCCACGATGGTGGGCAGCGGAAGCTGA	MTTSGVRVRIAPSPTGEPHVGTAYIALFNYLFAKKHGGEFILRIEDTDATRSTLEYEQKVLEALRWTGLTWSEGPDVGGPYGPYRQSERKAMYWPYAEELLEKGHAFRCFCTPERLEEMREAQRAAGKPPKYDGHCLNLKAEEVTARVAAGEANVVRMKIPAEGSCDFHDGVYGDVSIPWDSVDMQVLIKADGMPTYHMANVIDDHLMKITHVARGEEWLASVPKHILLYRYFGWDQPTFMHLSLMRNADKSKLSKRKNPTSISYYSALGYLPEALMNFLGLFFIQIAEGEELLTMDELAAKFDPEALSKAGAIFDIQKLDWLNGRWLREKLSPEEFIARTLEWAMENARLTEGLKLAQSRISKLGELPNLAGFLLASDAGLTPASFAGLKSKPEEIHEILTTVAADLEKMPDWNVEAIEAELRDVAERTGKKLRVVTPPLFVAMSGSSRSLPLFDSMALLGRSVVRQRLKAAITVVATMVGSGS	PGPT0008460_2758	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0008460-gltX-K01885	NA	NA
BMS010_09411	1500	lysS		Lysine--tRNA ligase	ATGACCGACACCAAGACCGAAACCACCGCCCTCTCCTCCGACGCCACCGAAGTGCGCCGCCAGAAACTTGCGCTGCTGCGCGAGCAGATCGGCGATGTCTATCCGGCGCATTTCCACCGCACGCTGACCAATGCGGAGCTTGCGGAAAAATATGCCGATATCGAAGCCGACGTCGAAACCGGCGATACGGTGACGGTGGCGGGTCGCGTTTATTCCTCGCGCAATTCCGGCATGTTCATGGACATCCATGACGCATCCGGCAAGGTGCAGATCTTCTCCCACAAGGATACGACGCCGGAAGCGGCGCGCAACCTTTTGCCGATGATCGATATCGGCGACATCATCGGCGTCACCGGCAAGGTGCGCCGCACCAAGCGCGGCGAGCTGACGATCAATGCCGAAGAAATCACCATGCTGACGAAGTCGCTGCTGCCAATGCCCGAGAAGTGGCACGGCGTCTCCGACATCGAGCTGCGTTACCGCAAGCGCCACCTGGACATTCTCTCCAACGAGGAATCCAAGCTGCGCTTCCTGCAGCGTTCGAAGATCCTCTCCGGCATCCGCCGTTTCATGGAGGCCGAAGGCTTCCTCGAAGTGGAAACGCCGATGCTGCAGACCATCTATGGCGGCGCGACGGCCGATCCGTTCAAGACCTTCCACAACACGCTGAAAATGGACATGTATCTGCGCATCGCGCCGGAACTGTTCCTGAAGCGCACGCTGGTGTCGGGCCTCACCGACAAGGTGTTCGAAATCAACCGCAACTTCCGCAACGAAGGCGTCTCCACAAGGCACAATCCTGAATTCACCATGATGGAGTGCTACTGGGCTTATGCCGACTACGAAGACATCATGGGTCTCGTGGAGCGGCTGTTCGAGACGCTGGCGATTGCCCTTCACGGCACGACCGAAGTGGAATTCCAGGGCCAGACGATCTCCTTCAAGGGTCCGTTCAAGCGCGTGCCGATGCCTGATGCGGTGAAGGAAGCGACCGGTATCGATTTCCTCGCCATCAAGACCGACGAAGAAGCCCGCGCCGCCGCCAAGGCTGCCGGTTTTGCGGTGGAGAAGGACTGGACCTGGGGCGAATGCCTTGCCTTCATCTTCGAGGAGAAGGTGGAAGGCACGCTGATCCAGCCGAGCCACGTCACGCATTTCCCGAAGGACATCTCGCCCTTCGCCAAGGAAGTGCCGGGCGAACCTCGCCTCGTCGAGCGTTTCGAAAGCTATTGCAACGCCTGGGAAGTGGGCAATGCCTTCTCCGAACTCAACGACCCGGAAGAACAGCGCCGCCGCATGGTGGAGCAGCTGGAACAGGCGCACGCCCGCGGCGAAAAGGACAAGCAGCTGGACGACGAGTTCCTCGACGCCATCGACCAGGGCATGCCGCCCGCCGGCGGCCTCGGCATCGGCGTCGACCGCCTGATCATGCTGCTCACCAATGCTCCGTCGATCCGCGACGTCATCCTCTTCCCGGCCCGCCGCAACAAGGCGGACTGA	MTDTKTETTALSSDATEVRRQKLALLREQIGDVYPAHFHRTLTNAELAEKYADIEADVETGDTVTVAGRVYSSRNSGMFMDIHDASGKVQIFSHKDTTPEAARNLLPMIDIGDIIGVTGKVRRTKRGELTINAEEITMLTKSLLPMPEKWHGVSDIELRYRKRHLDILSNEESKLRFLQRSKILSGIRRFMEAEGFLEVETPMLQTIYGGATADPFKTFHNTLKMDMYLRIAPELFLKRTLVSGLTDKVFEINRNFRNEGVSTRHNPEFTMMECYWAYADYEDIMGLVERLFETLAIALHGTTEVEFQGQTISFKGPFKRVPMPDAVKEATGIDFLAIKTDEEARAAAKAAGFAVEKDWTWGECLAFIFEEKVEGTLIQPSHVTHFPKDISPFAKEVPGEPRLVERFESYCNAWEVGNAFSELNDPEEQRRRMVEQLEQAHARGEKDKQLDDEFLDAIDQGMPPAGGLGIGVDRLIMLLTNAPSIRDVILFPARRNKAD	PGPT0012225_4508	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-MOTILITY-MEDIATED_DEFENSE_SIGNALLING,PGPT0012225-lysS-K04567	NA	NA
BMS010_09412	1740			hypothetical protein	ATGCCCGAGAATGAGCTTCCCAAATACCAGCCCGATATGTTTGCCGCACCTGAAAAGGAATGCGACGTGGTGATGAAAGGCGGCATCACCTCCGGCGTCGTTTATCCCTATGCGGTTCTGGAACTGGCGCGCCGGTATCGCTTCCGCTCGATAGGCGGCACATCGGCGGGGGCGATTGCCGCCGCCTTTGCGGCGGCGGCGGAATATTCCCGCACGGTCAGAAACGATCCGAATGGCTTCACCCGCCTGCAGGCTCATTGCGACACGATACCCACCATTCTGGACAGGCTTTTCCAGCCCCAGCGCCGTTTTCGCCCGCTGATGCGTTACCTGCTGTGGGCGCAGGCCGGCGGCTGGCCGGGCAAGGTTTTGGGCTTGCTCCTTGCTTTTCCGCTGGCAGCCATAGTTGGCATTGTCATCGGCGCCGGCGCCTTGTGGGTTCTGGGCGGCGGTTGGGCCGGGTCGGTTCTCGGGGGATTGGTGGGAATGCTGGCCGGCATCCTCGGCCAGATCCTGTGGCTGGTTTTCTACCGGTTGCCAAGAGACGGCTTCGGTTTCTGCTCGGGACTGACGGTTTCCGATGCCGAGGTTCCGGGCCTGACGGAATGGCTTCATGCATCGATCCAGGACATCGCTTTCGGCAGCGACGCAGCAACCGCGCCACCGCTGACCTTCGGCGATCTCATCGGCGCGGAGCCGGAGAAGCCGGTCATCAACCTCAAGATGGTGACGACGAACCTGTCGATGCGGCGGCCGCACACGCTTCCGACCACCAGTCTCATGGTGGCTTACGATCCGACGGAATGGAGCCAGCTCTTTCCCGCGGCCGTGATGAACTGGCTCAAGCAGATCGCAACACCGGGCGGCCCCTTTCCCGAACTCAAGGCTTTTCCGGAGCCCGCCCAGTTGCCGGTCATCATCGCAACGCGCATGAGCCTGAGCTTCCCGGTGCTGTTCAAGGCCATTCCGGCCTATACCAACGATCGCGGCACGCTGGATATCGTGCAGCGTCTCGGCGGCAAAGCGCGGCCCGTCATGAAGGCGAAAATCTGGTTCTCCGATGGCGGCATCAGCAGCAACTTCCCCATTCATCTTTTCGATGCCCTGCTTCCGTCGCGTCCCACTTACGCGCTTAGCCTCGATGAATTGCCGAAATCCATCGCCGGCAGCGGTAAGCGCGTCACGATCCCGCAGGCGGCCGGCGAAGGGATCGGCGTGCCCGTTCACAAGATGGAAAAAATGAGCGGCTTTCTCGGCAGCATCCTCAGCTCGGCGAAGGACTGGCAGGATCAGTCGCTCGCCACCATGCCGGGCCAAAGAGAACGCATCGCCCGCGTTTTCCTCAACGAGGAGGAAGGCGGGCTGAACCTCACCATGCCGCCGGAACGCTCTGCGAAGCTGATGAGCTACGGCCTCGAGGTCGGGTCGCTCTTCGCCAATGGCGCGCTGGATTTCGACGAGCATCGCTGGCGACGGACGCTCGTTGCCTATGATCGGCTGGAAGACACGGTGTTTGCGACTGAGCGGCTGTGGAACGAAGGCAAATATCAGGACTGGCTGACGGGCTATATCGACGAGATCGAGAGCTACGAAGCCGTGACAAAGGGCGATAGGGAAAAGCTGATCGCCCGCATTGCCGCCTTTGCCGCCCTGTCGCAGAGTTTCTCTCCGGCAATCGTCAACAAACGGAAGAAATTTCCAAATCCGGCTGGCCGACTTCGGATCGGGCCGGATATCTGA	MPENELPKYQPDMFAAPEKECDVVMKGGITSGVVYPYAVLELARRYRFRSIGGTSAGAIAAAFAAAAEYSRTVRNDPNGFTRLQAHCDTIPTILDRLFQPQRRFRPLMRYLLWAQAGGWPGKVLGLLLAFPLAAIVGIVIGAGALWVLGGGWAGSVLGGLVGMLAGILGQILWLVFYRLPRDGFGFCSGLTVSDAEVPGLTEWLHASIQDIAFGSDAATAPPLTFGDLIGAEPEKPVINLKMVTTNLSMRRPHTLPTTSLMVAYDPTEWSQLFPAAVMNWLKQIATPGGPFPELKAFPEPAQLPVIIATRMSLSFPVLFKAIPAYTNDRGTLDIVQRLGGKARPVMKAKIWFSDGGISSNFPIHLFDALLPSRPTYALSLDELPKSIAGSGKRVTIPQAAGEGIGVPVHKMEKMSGFLGSILSSAKDWQDQSLATMPGQRERIARVFLNEEEGGLNLTMPPERSAKLMSYGLEVGSLFANGALDFDEHRWRRTLVAYDRLEDTVFATERLWNEGKYQDWLTGYIDEIESYEAVTKGDREKLIARIAAFAALSQSFSPAIVNKRKKFPNPAGRLRIGPDI				NA	NA	NA	NA	NA
BMS010_09413	912			hypothetical protein	GTGAAAGCTGTATTCGGACGAATGCGGTTTTCGCGCAAGCTCGTTATGATTGGAGGCGGGATCCTGCTTTTGGCGGGTGCGACCGGCTCTGCTGCCGTGTTTATCGGCAGCGAGCGGCTGCTCGGCCCATCCTATGCCTCCACCAACGGGCTTTCCTGCGACGCGGTCCAGACGGTCAATATCCGCAAGAACGGTTCCCTATGGGTCCGCAAATTCATTCGCACCCAGGGTGGTGACGGCACAGAGCGGCTGAAGACTGCGCTTCGTGTCGCAAGGGCGGTTTACGACAAGCAGAAACCCGATCTGGTTCAGGTCTCCGTGCTCGACAAGAACGGTCCGCAGCTGCGCTCGGAAATGCGTGGCCGTGCCATTGCCGCACAGGTGGTTTTCATTCCCGATCCGGCAAAAATCCCTGAAGGCGCGGATGCCCATCGTTATTCGGCCTTTTATTATGATGGCGCCGCCAATGCCAGCGGCCAGTTTTACGGTTTGCGTATCGATCTGCCGCTGGAAGATGCCGAGGCGCTGGCGGCAGGCCTCAGCGATTCGGCCGATTGTGCGACCCCGGCTCTGGATGCCGGTTCCGAAGGCCATGAAGGAAAACCCGCGAAAACTGCGACGGGACACGGCGAAACCAAAGATGACGGCGCGGGCGGCCATGGCGGCGCGCCGGCGGAAGCCAACGAAGGCGGGGCTGCCCATGGTGAAACCCCGTCTCCCGAAGCGCATGGCGAACCGGCTGCCGACGAACTTCTGACCTCGACGCCGGAAGCCGATGGCGGCAGCATCTTCAGCCTGTCCTATCTGAAATCGCTGATCTTCGGCAAAGGCTCGACGACTGCACAGGCGGCGGAAGAAAAGCCGGCTGCCGAAAATGCGCCGGCGGAAGAACCCGGTGCCGCGAGCCACTAA	MKAVFGRMRFSRKLVMIGGGILLLAGATGSAAVFIGSERLLGPSYASTNGLSCDAVQTVNIRKNGSLWVRKFIRTQGGDGTERLKTALRVARAVYDKQKPDLVQVSVLDKNGPQLRSEMRGRAIAAQVVFIPDPAKIPEGADAHRYSAFYYDGAANASGQFYGLRIDLPLEDAEALAAGLSDSADCATPALDAGSEGHEGKPAKTATGHGETKDDGAGGHGGAPAEANEGGAAHGETPSPEAHGEPAADELLTSTPEADGGSIFSLSYLKSLIFGKGSTTAQAAEEKPAAENAPAEEPGAASH				NA	NA	NA	NA	NA
BMS010_09414	891	yfeA	COG0803	Periplasmic chelated iron-binding protein YfeA	GTGAACTTCCATAAAATCCGCCACGCGATTTTCGCTTTTTCGCTTTTTCTGCCCGGCGCTGCCGTTGCTCAGGAAAAGCCGACTGTCGTGACGACCTTCACCATCATCGCCGACATGGCGCGCAATGTGGCGGGCGATGCGGCCGAGGTGGAAAGCATTACCAAGCCGGGCGCTGAAATTCACAACTACCAGCCAACGCCGCGCGATATTCTCAAAGCCCGCAAGGCCGATCTGGTGCTTCGCAATGGCCTCAATCTGGAATTGTGGTTTGAAAAGTTCCTGGCCAACCTTTCCGGCGTGCCGAGCGTGACGGTGAGCGACGGCGTGGAACCGATGGCCATCAGCGGCGGCGCCTATCAGGGAAAACCCAATCCGCACGCCTGGATGTCGCCCGATAACGCCTTGATCTACGTGGAAAATATCCGCAAGGGCCTGACCGAGATCGACCCTGCCCATGCCGATGTCTATGCCGCCAATGCCAAGGCCTATTCGGACAAGATCAGAGCCACCGTGCAGCCGATCCGCGACACGCTTTCCGTTCTGCCGGAAAACAAGCGCTGGTTGGTAACGAGCGAAGGCGCGTTTTCTTATCTCGCCCGCGATTTCGGCCTGAAGGAACTGTTCCTGTGGCCGGTCAATGCCGACAGCCAGGGCACACCGCAGCAGGTGCGCGGCGTGATCGACGCCATGCGCGAGCACAATATCCACGTCATCTTCAGCGAAAGCACGGTTTCCGCCGATCCCGCAGAGCAGGTGGCCAAGGAAACCGGTGCGGCCTATGGCGGCATCCTCTATGTGGACTCGCTAAGCGAGGCGGACGGCCCGGTTCCGACCTATCTGGACCTTTTGCGCGTGACCAGCGAAACCATTGCCAAGGGGCTGTCTTCATGA	MNFHKIRHAIFAFSLFLPGAAVAQEKPTVVTTFTIIADMARNVAGDAAEVESITKPGAEIHNYQPTPRDILKARKADLVLRNGLNLELWFEKFLANLSGVPSVTVSDGVEPMAISGGAYQGKPNPHAWMSPDNALIYVENIRKGLTEIDPAHADVYAANAKAYSDKIRATVQPIRDTLSVLPENKRWLVTSEGAFSYLARDFGLKELFLWPVNADSQGTPQQVRGVIDAMREHNIHVIFSESTVSADPAEQVAKETGAAYGGILYVDSLSEADGPVPTYLDLLRVTSETIAKGLSS	PGPT0004320_346	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-YFE-ABC_TRANSPORT_SYSTEM,PGPT0004320-sitA-K11604	NA	NA
BMS010_09415	909	btuD_20		Vitamin B12 import ATP-binding protein BtuD	ATGAGAATGGGCAGTAAAAAATCAGGCGGCGGCCTGACGGTTCAAAATGCGACAGTGACCTATCGAAACGGCCACACCGCATTAAGAAATGCCAGCTTTTCCATCCCCCGCGGAACGATCACTGCACTTGTCGGCGTCAATGGCGCCGGCAAGTCCACGATTTTCAAAGCGATCATGGGTTTCGTGCCGCTCGCCGCCGGCTCCGTCTCTATTTTCGACCTGCCGGTGAAGGAAGCGCTCAGGAAAAACCTCGTCGCTTATGTGCCGCAGGCCGAGGAGGTGGACTGGAGCTTTCCGGTGCTGGTGGAGGATGTGGTGATGATGGGCCGTTACGGCCACATGAATTTCCTGCGCATCCCCTCGAAACGCGACCATCACATGGTCGAAGAGGCGCTGAAACGCGTCAATATGCTGGACTATCGCAAGCGCCAGATCGGCGAACTCTCCGGCGGGCAGAAGAAGCGGGTGTTTCTGGCCCGCGCGCTGGCGCAGGAGGGTCAGGTGATCCTGCTGGACGAGCCTTTCACCGGTGTCGATGTGACAACGGAAGAGCAGATCGTCGCGCTTTTGAAGGCGCTGCGCGATGAGGGCCGCGTCATGCTGGTCTCCACCCATAATCTCGGCAGCGTGCCGGAATTCTGTGACCGCGCCGTCTTCGTCAAGGGCACGGTGCTGGCATCGGGCAAGACGGCGGATACCTTCAACGAGCAGAACCTGCAAAAAGCCTTCGGCGGCAGCCTGCGCCACTTCGTGCTTGGCGGGGCAGACCTGCATAACGACGCCGACCCGCGCCGGGTGAAGGTTATCACCGATGACGAGCGGCCTTTCGTGATTTACGGCAAGAATGGCCAGAACGGACATGATCCGCAGGCTCCGAAAGAAAAAGTCGATGATAAACAGCCTTCTTGA	MRMGSKKSGGGLTVQNATVTYRNGHTALRNASFSIPRGTITALVGVNGAGKSTIFKAIMGFVPLAAGSVSIFDLPVKEALRKNLVAYVPQAEEVDWSFPVLVEDVVMMGRYGHMNFLRIPSKRDHHMVEEALKRVNMLDYRKRQIGELSGGQKKRVFLARALAQEGQVILLDEPFTGVDVTTEEQIVALLKALRDEGRVMLVSTHNLGSVPEFCDRAVFVKGTVLASGKTADTFNEQNLQKAFGGSLRHFVLGGADLHNDADPRRVKVITDDERPFVIYGKNGQNGHDPQAPKEKVDDKQPS	PGPT0004325_73	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-YFE-ABC_TRANSPORT_SYSTEM,PGPT0004325-sitB-K11607	NA	NA
BMS010_09416	891	mntB_2		Manganese transport system membrane protein MntB	ATGATCCGCAGGCTCCGAAAGAAAAAGTCGATGATAAACAGCCTTCTTGAGCCTTTCACCTATGGTTACATGCTGAACGCCATCTGGGTCAGCGCACTGGTGGGCGGCGTCTGCGGTTTTCTCTCGGCCTATCTGATGCTGAAGGGCTGGTCGCTGATCGGCGATGCGCTTTCCCATGCCATCGTTCCGGGCGTGGCGGGCGCCTATATGCTGGGCCTGCCGTTTTCGCTGGGCGCGTTCCTTTCCGGCGGGCTTGCGGCCGGTTCCATGCTGTTCCTGAACCAGAAGACACGGCTGAAGGAAGACGCGATCATCGGGCTGATCTTCACCTCGTTTTTCGGGCTGGGGCTGTTCATGGTGTCGCTCTCGCCCACCTCGGTGAATATCCAGACCATCGTGCTCGGCAATATTCTGGCGATCACCGCCGAAGACACCATTCAGCTGGCGCTGATCGGCGGCATCAGCCTCATCGTGCTGGCGCTGAAATGGCGTGACTTCATGGTGGTGTTCTTCGATGAGAACCACGCCCGCACCGTGGGGCTGAAGCCGGAAGTGCTGAAGGTGATCTTCTTCACCCTGCTGGCCGCTTCCACGGTTGCCGCCCTCCAGACCGTTGGGGCCTTCCTCGTCGTCGCCATGGTGGTGACGCCGGGCGCCACCGCCTATCTCTTGACCGACCGTTTCGAGCGGCTGATCCTGATGAGCCTCATCATCGGCGCGGCCACCAGCTTCGTCGGCGCTTACCTCAGCTATTTCCTGGACGGTGCGACCGGCGGCGTCATCGTCGTGCTGCAGACCGCGATCTTCCTTGCCGCCTTCGTCTTTGCGCCCAAGCACGGGCTTCTCGCTTCCCGCGCCAAGGCCCGCAGGGCGCTGGAGGAGACGCCATGA	MIRRLRKKKSMINSLLEPFTYGYMLNAIWVSALVGGVCGFLSAYLMLKGWSLIGDALSHAIVPGVAGAYMLGLPFSLGAFLSGGLAAGSMLFLNQKTRLKEDAIIGLIFTSFFGLGLFMVSLSPTSVNIQTIVLGNILAITAEDTIQLALIGGISLIVLALKWRDFMVVFFDENHARTVGLKPEVLKVIFFTLLAASTVAALQTVGAFLVVAMVVTPGATAYLLTDRFERLILMSLIIGAATSFVGAYLSYFLDGATGGVIVVLQTAIFLAAFVFAPKHGLLASRAKARRALEETP	PGPT0004330_251	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-YFE-ABC_TRANSPORT_SYSTEM,PGPT0004330-sitC-K11605	NA	NA
BMS010_09417	855	mntB_3		Manganese transport system membrane protein MntB	ATGAGCGAATATCTCGAACTCGCCATCCTGCCGTTTCAGCTGCCCTTCATGCAATATGCCTTCGTCATCACCCTGATGATCGCGGTGCCTATGGCGATGCTCTCCTGTTTTCTGGTGTTGAAGGGCTGGTCGCTGATGGGCGATGCGGTTTCCCACGCCGTGCTGCCCGGCGTGGTGCTGGCCTATATCGTCAACATCCCGCTTTCCATCGGCGCCTTCATCGCCGGCATGATCTGCGCGCTCGGCACCGGTTTCATCAAGGAAAACAGCCGCATCAAGGAAGACACGGTGCTGGGCATCGTTTTTTCCGGCATGTTCGGGCTGGGGCTGGTGCTTTATGTGAAAGTGCAGAGCGATGTGCATCTCGACCACATCCTCTTCGGCGACATGCTGGGCATTGCGCCGTCGGACATGCTGGAGACGGGCCTGATCGCACTTTTCGCCACGCTGTTTCTCGGCACTCTCCGCAAGGATCTGCTGGTCAACGCCTTCGATGCGCAGCATGCGAAAGCCATCGGCCTGCCAGTGCGGGTGCTGCATTACGGTCTGCTGATGGTCCTGTCGCTCACCGTCGTCGGGGCGCTGAAGGCGGTGGGTATCATCCTCTCGGTCGCCATGCTGGTCGCACCGGGCGCAATCGCCTTCCTGCTGACCCGGCGTTTTTCCGCCATGCTGCTGGTGGCCATTGCGGTGGCGATAACCTCATCGCTGGCAGGCATATGGCTGAGCTTCCTCATCGACAGCGCGCCGGCCCCCACCATCGTCATGTTCATGAGCCTTGCTTTCGTTGCCACCTTCATCCGCACCACCTTGAAGGCGAGGAGGATCGATGCGGCAGGGGAAACAGGTTTCTAG	MSEYLELAILPFQLPFMQYAFVITLMIAVPMAMLSCFLVLKGWSLMGDAVSHAVLPGVVLAYIVNIPLSIGAFIAGMICALGTGFIKENSRIKEDTVLGIVFSGMFGLGLVLYVKVQSDVHLDHILFGDMLGIAPSDMLETGLIALFATLFLGTLRKDLLVNAFDAQHAKAIGLPVRVLHYGLLMVLSLTVVGALKAVGIILSVAMLVAPGAIAFLLTRRFSAMLLVAIAVAITSSLAGIWLSFLIDSAPAPTIVMFMSLAFVATFIRTTLKARRIDAAGETGF	PGPT0004335_172	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-YFE-ABC_TRANSPORT_SYSTEM,PGPT0004335-sitD-K11606	NA	NA
BMS010_09418	174			hypothetical protein	ATGCTGAAGTGGGCTCTTATTTTCTTTGTTATCTCTTTGATCGCGGGCGTATTCGGCTTTACCGGCATTTCGGCAGCCGCGGCGGGCGTGGCCCGAATCCTGTTCTTCATCGCCGTGGTGATCTTCCTGGTCTTCCTCGTGCTTGCACTGATGGCCGGAAGCGCCGTCGTCTGA	MLKWALIFFVISLIAGVFGFTGISAAAAGVARILFFIAVVIFLVFLVLALMAGSAVV				NA	NA	NA	NA	NA
BMS010_09419	732			2-keto-3-deoxy-L-fuconate dehydrogenase	ATGGTGCAGGATTTTAACGGCCGGACAGTGGTGATCACCGCCGCCGGTCAGGGTATCGGCCGGGCGGCGGCGGAGCGGTTCGTGTCGCTCGGCGCGCGCGTCATCGCCACCGATATCAACGAACAGGCGCTTTCGACGCTTAAAGGTGCGGAAACCCGGGTTCTTAACGTGCTGGATGGCGATGGCGTCAAGGATTTCGCCGCCGATATCGGCCATGCGGATGTGCTGTTCAACTGCGCGGGTTTCGTTCATTCCGGCACCATTCTCGATTGCGAAGAGAAGGACTGGGATTTCTCCTTCGATCTCAACGCCAAGGCCATGTATCGCACCTGCCGCGCCTTCCTGCCCGGCATGCTGGAAAAGGGCAAGGGCGCAATCGTCAACATGTCTTCCGTCGCTTCCAGTGTGAAGGGCGTGCCGAACCGTTTCGCTTATACCGCCTCCAAGGCGGCCGTGGTGGGCCTGACCAAAGCCATCGCCGCCGATTTCGTGACAAAGGGCATTCGCTGCAACGCCATCTGCCCCGGCACGGTCGATAGCCCGTCCCTGCATGACCGCCTGCGCGCCACCGGCAATTACGAACAGGCGTTGGCCGATTTCATCGCCCGCCAGCCGATGGGCCGTATTGCCACGCCGGAAGAAATCGCGGCACTCGTTACCTATCTCGCTTCGGACGAGGCAGGTTTCACCACCGGCCAGATTCACGTCATTGACGGCGGCTGGACTGGCTGA	MVQDFNGRTVVITAAGQGIGRAAAERFVSLGARVIATDINEQALSTLKGAETRVLNVLDGDGVKDFAADIGHADVLFNCAGFVHSGTILDCEEKDWDFSFDLNAKAMYRTCRAFLPGMLEKGKGAIVNMSSVASSVKGVPNRFAYTASKAAVVGLTKAIAADFVTKGIRCNAICPGTVDSPSLHDRLRATGNYEQALADFIARQPMGRIATPEEIAALVTYLASDEAGFTTGQIHVIDGGWTG	PGPT0008310_2829	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008310-bdh-K00019	NA	NA
BMS010_09420	774	rhmR	COG1414	putative HTH-type transcriptional regulator RhmR	ATGACCGACGACGACAGCGAAAGATATCGCGCTCCCGCCCTCGACAAGGGTCTGGACATTCTCGAACTTCTGGCCCGCACTGATGGCGGGCTGACCCAGATCGAGATCGCCAAGTCTATCGGCAAAAGCCCGAACGAGCTTTATCGCATGCTGGACCGGCTGGTGCGCCGCGGCTATGTGCAGCGGCTTGAGGGAGACCGCTTCTCATTGACGCTGAAGATGTTCGGGTTGGCGCATTTCCACGCGCCGATCCGCCGGCTGGTTTCTTTCGCCGCACCGGTCATGCGCGATTTTTCGGCAAGCGCCGAGCAGGCCTGTCATCTGGCGGTTTATGATCGCGGCAGCGTCGTTGTCATCGCCCAGCAGGAATCGTCCACCTACTGGGCCATGTCCATGCGGGTCGGCGCGCAGATGAGCCTGTTCCACACCGGCTCCGGCCATGTGCTTCTGGCCTTCCAGACGGAAGCGCAGCGCCAGATCATGATAACCGAACAGGTGCGCGGCGGCGGCGAAACCGTGCCGCCGGACCTTGCCGGGCGGCTGGCGGAGGTGCGCAAAAACGGTTTCGAATCCATGGACAGCCTTCAGACCGCCGGCGTGCGCAATATTTCCGCCCCGGTGCTGACGCTGGACGGCACTGCGCTTGCCGTCATCACCTGCCCCTATATTACCCCGCTTGGCGGCAAGGCCCCGACACGCGAGGCCTGTGAAGCGCTGATCCGCGAGGCGGCAAAGCGGATCTCCGAAGTGGCGACGGGAAACGGAAATTTCTGA	MTDDDSERYRAPALDKGLDILELLARTDGGLTQIEIAKSIGKSPNELYRMLDRLVRRGYVQRLEGDRFSLTLKMFGLAHFHAPIRRLVSFAAPVMRDFSASAEQACHLAVYDRGSVVVIAQQESSTYWAMSMRVGAQMSLFHTGSGHVLLAFQTEAQRQIMITEQVRGGGETVPPDLAGRLAEVRKNGFESMDSLQTAGVRNISAPVLTLDGTALAVITCPYITPLGGKAPTREACEALIREAAKRISEVATGNGNF				NA	NA	NA	NA	NA
BMS010_09421	966	talB	COG0176	Transaldolase B	ATGACATCCAAACTCGAACAACTTCGCGCCATCACCACGGTCGTTGCCGATACCGGCGATATCGAGGCGGTTGCGCGCCTGAAGCCGGTGGATTGCACCACCAACCCGACCATCGTTCTGAAGGCGCTCGGCACACCGGCCTTTGCCGATGCGGTGAAGGAAGCCGTCGCATGGGGCAAGAAGCAGGGCGGCCAGTCCGACGCCGTGGTTGCCGCCGTTGCCGACCGTCTTGCCATTTCCGTGGGCGCAGCCCTTGCCGGCCTCGTTCCCGGCCGTGTGTCGACCGAAGTCGATGCCGACCTTTCCTTCGACACGCAAGCCTCCATCACCAAGGCGCGCCACATCATTGCCGCCTATAAGGAGCGCGGCATCGAGCGTGAACGTATCCTCATCAAGCTCGCCTCCACCTGGGAAGGCATCAAGGCTGCCGAGGTTCTCCAGTCCGAAGGCATCGATTGCAACCTGACCTTGCTGTTCTCCCAGGCACAGGCGATTGCCTGCGCCGAAGCCAAGGTCTTCCTCATCTCGCCCTTCGTCGGCCGTATCCTCGACTGGTACAAGAAGTCCACCGATGAGACCTACACCGCCGAGACCGATCCGGGCGTCGTTTCGGTGCGCAGCATCTACAATTACTACAAGGCCAATGGCATCAGCACCGTCGTCATGGGCGCCTCCTTCCGCAATGTCGGCGAAATCGAAGCGCTGGCCGGTTGCGACCGCCTGACGATCAGCCCAGCGCTGCTGGAAGAGCTGGACAAGGACAGCGGCAAGCTGGAGCGCAAGCTTTCGCCCGACAATGTCAAGGCAGAGCCGCTGCAGTCGCTCGACGAGAAGGCATTCCGCTGGGCGCTCAACGAAGATGCGATGGCCACCGAGAAGCTCTCGGAAGGCATCCGCCTCTTCGCCAAGGATCTGGTGACGCTGCGCGAAATGGTCCGCAAGGAACTGACGCTGGCTGCGGCCTGA	MTSKLEQLRAITTVVADTGDIEAVARLKPVDCTTNPTIVLKALGTPAFADAVKEAVAWGKKQGGQSDAVVAAVADRLAISVGAALAGLVPGRVSTEVDADLSFDTQASITKARHIIAAYKERGIERERILIKLASTWEGIKAAEVLQSEGIDCNLTLLFSQAQAIACAEAKVFLISPFVGRILDWYKKSTDETYTAETDPGVVSVRSIYNYYKANGISTVVMGASFRNVGEIEALAGCDRLTISPALLEELDKDSGKLERKLSPDNVKAEPLQSLDEKAFRWALNEDAMATEKLSEGIRLFAKDLVTLREMVRKELTLAAA	PGPT0017375_2417	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_PENTOSE_METABOLISM,PGPT0017375-talA|talB-K00616	NA	NA
BMS010_09422	987	eryD_3	COG2390	Erythritol catabolism regulatory protein EryD	ATGGCGGAAACCGTGGCGAAACTGAGAAGAGAAACCCATACGGCCTATTCGGAAGCGGCGTCTCTGCGGCTGCGCGCCGCATGGCTCTATTATAATCAGGGCATGACGCAGAAGGATGTCGCCGAGAAACTGGGCATCAGCCGCTCCACCGTCATCCGCCTTCTGGACGAGGCGATGAAGCGCTCCGAAGTGCAGATATGGATCAACGAAGGCATTGAGGATTTCGTCGAGCTGGCTGGCCGGCTGGAGGCGGCTTACGGGCTGGACGAGGCGGTGATCATCCCTTCCCCGGATAAGGCGAACGCCGAAGGCACGGCCAAAGCCGTCGGGCTGGCGCTCGGCCAATTCCTCTCAGAAGCGGTGCCGAATGAGGCCACCATCGGCGTCGGCTGGGGCCGCACCATGACCGCCTCGCTTTCCAGCTTTCGCCCGCCGCGCCGGGAAAACTGCAAGGTCGTCTCGCTGCTCGGCGGTATCGTCGCCGTGCACCAGACCAACCCGCTGGATTACACCTGGCGGCTGGCGAGCGCGCTCGGAGCGGAATGTTACATGTTCCTTGCGCCGCTTCTGGTAGATTCCGTCGAGACAAAACGGGCGCTGATCGAAAAATGCGGGCTTGCGACGCTTTACGATCTCGCCGAAACGCTCGATCTCGCCATCGTCTCCTGCGGCGATATCGGCCCGCATTCGACCTCGCTGTCGGAAGGCTTCATTTCGAAAGCGACGCTGCAGGAACTCATCGATGCCGGCTGCGTCTGCGACACCATGTTCAATTTCATCGATGCCGAAGGTCGCTCGGTCGATCACCCGATCAACCAGCGCGCCATGGCAATCGATCTCGACACGCTGCGCAAGGCAAAACACATCGTGCTGGCCTCCGGCGGCGCCCACCGCGCCATCGCCATCCGCGCCACGATCAAGCGGATCGGGTGCAATACGCTGATTACAGACGAGGCGGCGGCAAGAGCGTTGATGGAGCTGGTTTAG	MAETVAKLRRETHTAYSEAASLRLRAAWLYYNQGMTQKDVAEKLGISRSTVIRLLDEAMKRSEVQIWINEGIEDFVELAGRLEAAYGLDEAVIIPSPDKANAEGTAKAVGLALGQFLSEAVPNEATIGVGWGRTMTASLSSFRPPRRENCKVVSLLGGIVAVHQTNPLDYTWRLASALGAECYMFLAPLLVDSVETKRALIEKCGLATLYDLAETLDLAIVSCGDIGPHSTSLSEGFISKATLQELIDAGCVCDTMFNFIDAEGRSVDHPINQRAMAIDLDTLRKAKHIVLASGGAHRAIAIRATIKRIGCNTLITDEAAARALMELV				NA	NA	NA	NA	NA
BMS010_09423	873	ada_3	COG0350	Bifunctional transcriptional activator/DNA repair enzyme Ada	ATGAACGCCAATATTACGCTGAACGAAGACATCACCCCCATCGGAACGGATTACGACACGGTGCGCGGGGTTATCGAGCTTTTGACGCTGGATTATCGCGAGCAGCCCTCCCTCGAAGCCATTGCCGCAGAGCTTGGCCAGTCGCCGACGCAATTGCAGAAGACCTTCACCCGCTGGGCCGGCCTTTCGCCCAAGGCATTCCTGCAGGCCGTAACGCTCGATCATGCCAAGCGGCTGTTGCGCGAAGAGGATTTACCGCTGCTGGAAACCTCGATCGAGGTCGGTATGTCTGGCCCCGGACGCCTGCACGATCTGTTCGTCACCCATGAGGCCATGTCGCCCGGCGAATGGAAGGCCAAGGGCGGCGGGCTGACGATCCGTTACGGTTTCCACACCTCGCCCTTCGGTCTTGCGCTGGTCATGGTGACCGATCGTGGCCTTGCCGGCTGCGCCTTTGCCGATCCGGGCGAAGAAAGGGCGTGTTTCGAGGACATGGCCGGCCGCTGGCCGAATGCGGACTATGTCGAGGATCGCGAAGCGACGGCGCCCTATGCCGCGCGCATCTTCGACCCGTCCATGTGGTCGGCGGACAGGCCGCTGCGCGTCGTGCTGCTCGGCACGGATTTTCAGGTGCGGGTCTGGGAAAGTCTCCTGAAAATTCCGATGGGCCGCGCGGTTACCTATTCGCACATCGCCTGCGATATCGGCCAGCCCACCGCGTCGCGTGCGGTTGGTGCGGCGGTCGGCGCCAACCCGGTGTCCTTCGTGGTTCCCTGTCATCGCGCTGTCGGTAAAAGTGGGGCGCTGACGGGCTATCACTGGGGCCTGACCCGCAAGCGGGCGATGCTCGGCTGGGAAACGGGGAAGGTGTGA	MNANITLNEDITPIGTDYDTVRGVIELLTLDYREQPSLEAIAAELGQSPTQLQKTFTRWAGLSPKAFLQAVTLDHAKRLLREEDLPLLETSIEVGMSGPGRLHDLFVTHEAMSPGEWKAKGGGLTIRYGFHTSPFGLALVMVTDRGLAGCAFADPGEERACFEDMAGRWPNADYVEDREATAPYAARIFDPSMWSADRPLRVVLLGTDFQVRVWESLLKIPMGRAVTYSHIACDIGQPTASRAVGAAVGANPVSFVVPCHRAVGKSGALTGYHWGLTRKRAMLGWETGKV				NA	NA	NA	NA	NA
BMS010_09424	483			hypothetical protein	GTGGATACGCTCAACGACCAGCCGATTTTCGCGGCGGAACTCGTTCCGCACCGTTCGCTTGGCAGAAGGGGTTTCCGGCTGCTCCTGCTTTTCTCCGGCCTGGCCTGTCTGGTCTATGGAGGCTTCTTTCTCGCCACCGGGGCATGGCCGGTCGGCCTGTTCTTCGGGCTGGATTTCCTGCTGCTTTATGCCGCCTTCCGCGCCAATTATCGGGCGGCGAAGGCGCGGGAAGAGGTCAGCGTCTCGCGCACCAGCCTGTCGATCCGCAAATTCTCTCCGGCCGGGCGGATGGTGGAGCATCGCTTCAATCCCTTCTGGGCGCGCTTCAGGGTGAGGCGGCATGACGAGATCGGCATCGTCTCGATGCATGTGACGGGTGAAGGCCGGGCGACCGATATCGGTTCGTTTCTCAATCCGGATGACCGGGAAAGTTTCGCGAAGGCGTTTGGCGGTGCGCTGGCGACTGTCAGGCGGCGGATGTAA	MDTLNDQPIFAAELVPHRSLGRRGFRLLLLFSGLACLVYGGFFLATGAWPVGLFFGLDFLLLYAAFRANYRAAKAREEVSVSRTSLSIRKFSPAGRMVEHRFNPFWARFRVRRHDEIGIVSMHVTGEGRATDIGSFLNPDDRESFAKAFGGALATVRRRM				NA	NA	NA	NA	NA
BMS010_09425	783	nth_2	COG0177	Endonuclease III	ATGACAGTCGCCAAAAAACGATCCAGCACCCAAACATTGAAAAAGTCAAATCCGGCATCCGCGCGCAAGCCGGCGCGGGTGAAAACGGCCTATTCGAAGGACGAGCTCACCGAGATCTTCCGCCGCTTTTCCATTCAGCGGCCGGAGCCGAAAGGCGAGCTGGAACATACCAATCCCTTCACCCTGCTGGTGGCCGTGGCGCTTTCCGCACAGGCGACCGATGTGGGCGTGAACCGGGCCACACGCGCACTGTTCAAGGTGGCCGATACGCCGGAAAAGATGCTGGCGCTCGGCGAGGAAGAACTGATCGGCCATATCAAGACCATCGGGCTTTACCGCAACAAGGCGAAAAACGTCATTGCCCTATCGCAGATGCTGATCGACAATTTCGGCGGCGAGGTGCCGAAAACCCGCGAGGAGCTGGTGACGCTGCCGGGTGTGGGCCGCAAGACGGCCAATGTGGTGATGTCCATGGCCTTCGGCGTGCCCACGCTTGCGGTGGATACACACGTCTTCCGCATTGCCAACCGGCTCTGTCTTGCGCCGGGCAAAACCCCTGACGAGGTTGAAGACCGGCTGATCCGCATCATTCCCGAACAATATCTGTTCCATGCCCATCACTGGCTGATCCTGCACGGGCGTTATTGCTGCAAGGCGCGCAAGCCGGAATGCGAACGCTGCGTGATTGCCGATATCTGCAAATCACCGGAAAAGACCTTCGATATTCCAGCGCCGCTGGTGGAATTACCCGCGCAGCTGTTCGGTGCGGCCGCTAGCGAATGA	MTVAKKRSSTQTLKKSNPASARKPARVKTAYSKDELTEIFRRFSIQRPEPKGELEHTNPFTLLVAVALSAQATDVGVNRATRALFKVADTPEKMLALGEEELIGHIKTIGLYRNKAKNVIALSQMLIDNFGGEVPKTREELVTLPGVGRKTANVVMSMAFGVPTLAVDTHVFRIANRLCLAPGKTPDEVEDRLIRIIPEQYLFHAHHWLILHGRYCCKARKPECERCVIADICKSPEKTFDIPAPLVELPAQLFGAAASE	PGPT0013735_1184	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013735-nth-K10773	NA	NA
BMS010_09426	738	cysZ_2		Sulfate transporter CysZ	ATGATTTTTGATGCGGCGAGGCTTGCCTTCCACAATCTCTTTGCCGCCGAAACCCGGTCGGTCTTCTGGAAGGTTCTGGGGCTCACGCTTCTCGTGCTTGCCGCGCTGTGGTTCGCTATCCGCTCGATCTTCATTTATTTCGCCCTGCCGTGGGTGGATACGCTGATCCCCGGCGTGCCGGATTGGGCGGGCTGGTTGACCTTCGTTTTCGCCATTTTCGCCGGCATCGGGCTGGCGCTGGCGCTCGCGCTGCTCATTTCGCCGGTCACCGCCGTCATTGCCGGCCTGTTTCTCGACGATGTCGCCGAAGTGGTTGAGAAAAAGAGCTATCCGAACGATCCGCCGGGCAAGGCGATGCCGGTCGGCGAGGCCGTTCTGTCGTCAATAAAGTTCTTCGGTGTCGTTATTGCCGGCAACCTCGTCGCGCTGTTGCTGCTTCTGGTGCCGGGTATCAATCTCATCGCGTTTTTTCTGGTGAACGGCTATCTGCTCGGCCGGGAATTCTTCGAATTCGCGGCGATGCGTTTCCGCTCGCCCGCCGAAGCGAGGTTGTTCCGTTCCAAACACCGCACCACCGTTTTCATGGCCGGGCTGGTGATAGCGGCCTTCCTGGCGGTGCCGTTCCTCAACCTGTTGACGCCGCTTTTTGCCGCCTCGATGATGGTGCATCTGCACAAGGCCGTCAGCCGGCGCGATCCCTCATTCGCTAGCGGCCGCACCGAACAGCTGCGCGGGTAA	MIFDAARLAFHNLFAAETRSVFWKVLGLTLLVLAALWFAIRSIFIYFALPWVDTLIPGVPDWAGWLTFVFAIFAGIGLALALALLISPVTAVIAGLFLDDVAEVVEKKSYPNDPPGKAMPVGEAVLSSIKFFGVVIAGNLVALLLLLVPGINLIAFFLVNGYLLGREFFEFAAMRFRSPAEARLFRSKHRTTVFMAGLVIAAFLAVPFLNLLTPLFAASMMVHLHKAVSRRDPSFASGRTEQLRG	PGPT0003010_1090	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0003010-cysZ-K06203	NA	NA
BMS010_09427	831			hypothetical protein	GTGGAAAAGCTGCTGTTGAACCTTACGCGCGCCATGAAGGCAGGCACCCCTTCAGAGCGCAAGATCGCCAAATATCTGATCGAACATCTGGACGAATTGCCGTTCGAGACGGCGCAGACGCTCGCCGCCAAGCTCAGCCTCAGTCCGATGACGGTCGGCCGTTTCCTGCGTTCGCTGGGATACCGGCAATTCAGTGACATCCGCGCCGATCTGCGCCATGCCGAAGAAACGGCCGGCGCCGACCAACCCGCCATGGCCGAGGGCGGCGAACGCCATTCCAACCCGTTTTCACAGCTTCTGTCCCAGCAGATTCAGGCCATCCAGACCGCTTTTGACATGACCACCCAATCGATCTGGCGGGTCGCCATGAACGAGATCGCCACGGCGGGCAATGTTTTTCTGGCAACCTCTCCGGAAGGTCTCGACGCCGGGCGGCATTTTTACGGGCGGCTTCTGGAGAGCCGAGGCCATATCCATTATCTCGGCAGCGACAGCGCGGCCTATGTCGCCCTGTGGGATTTCGACCCCGCGCAGGCGCTGCTCGTCATCATGGATTGCGGCGGCGCCCTGTCGCCCCTGCAACGCCTGTCGGCAATGGCGCGCAAGAGCGGCTACAGGACATTGCTGATCACCACACGCTTTTATGAATGGGGACCAGAAAGCGCCGATCTCTGCCTTGCCATGCCGCAGGCGCAGAACGGTGGCCAGGGCCTGCTGCAACTGGTCTCCCTGCTGGAATTTACCCTTTGTGCTCTTGGCGCCAGCGCCGATGACAACGGCAGGGCAAGGGCAAAGAACCTCACGGCCCTGAAACGCTCGCTGCGCAGCTGA	MEKLLLNLTRAMKAGTPSERKIAKYLIEHLDELPFETAQTLAAKLSLSPMTVGRFLRSLGYRQFSDIRADLRHAEETAGADQPAMAEGGERHSNPFSQLLSQQIQAIQTAFDMTTQSIWRVAMNEIATAGNVFLATSPEGLDAGRHFYGRLLESRGHIHYLGSDSAAYVALWDFDPAQALLVIMDCGGALSPLQRLSAMARKSGYRTLLITTRFYEWGPESADLCLAMPQAQNGGQGLLQLVSLLEFTLCALGASADDNGRARAKNLTALKRSLRS				NA	NA	NA	NA	NA
BMS010_09428	1575	araB_2	COG1069	Ribulokinase	ATGCGTCAAAATCTCGTCGCTGTCGATGTCGGCACCGCCAGCGCCCGGGCTGGCATTTTCGATCCGGCCGGCCGGCTGCTTGCCCGCTCCACCCATCCCATCCTGATGCAGAGGCCGCAGGAAAACCACGCCGAACACGATTCCACCGACATATGGAAGGCGGTCTGCATCGTGGTGAGGGCGGCGCTTGCCGAGGCCGGTGTTTCGCCGCAAAGCATTGCCGCCATCGGTTTCGACGCCACCTGCTCGCTGGTCATCCGCGATGGGCGTGGCGAACCGGTTTCGGTTTCCGTTACCGGGGAGGACCGGTTCGACACTATCGTCTGGCTCGATCACCGGGCGATATCGGAGGCCGATAGCCTGACGGCATCCGGCCACCGGGTGCTGGATTTTGCCGGCAACAGCGTCTCGCCGGAAATGCAGATGCCGAAGCTGATGTGGCTGAAGACGCATATGCCGGCAAGCTGGTCGCGCATGTCCTTCGCTTTCGATCTGGCGGATTTCCTGACGTGGAAGGCGACCGGTTCAGCGCAGCGTTCAAATTGCACGCAGACGGCGAAGTGGAATTTTCTGGCGCAGGAAAATCCCGGCTGGCAGGCGGATTATCTGGAACTGGCGGGTCTTGCCGATTTGAGGGAGCGGGCAGGGCTGCCGGAGACCACGGTAATGCCGGGGGAAAGCATCGGCCCGCTTTCGCCCGAAGCTGCCGCCGAACTGGGTCTCGATACCGGTTGCCAGGTGGCGGCAGGCATGATCGACGCCTATGCCGGCGCGCTCGGCGCATTGGGCGGCTGTCTGTCTGCGGATGTGGGCCGGCATGTGGCGCTGATCGCCGGTACGTCGAGCTGCCTTGTCGCCATGTCGGAGCGGCAGATGCCCGGCCACAGCCTCTGGGGTCCCTATTGGCAGGCGATCCTGCCGGGTCACTGGCTGGTGGAGGGCGGGCAATCGGCCACCGGCGCGCTGCTCGACCATATCGTGCGCATGCATGCGGCAGGCGGTGAGCCGGATACGGCGCTGCATGCCCGCATCGTTGCGCGGGTAACGGAATTGCGCGCGCTTGAGGGCGAGGCCTTCGCCGAGCGGCTGCATGTGCTGCCGGATTTCCACGGCAACCGCTCGCCGCTTGCCGACCCGCACGCCGTCGGCGTCATCAGCGGGCTGACTTTGGATACGTCGTTCGACAGTCTCTGCCGTCTTTACTGGCGCACGGCCGTCGCCATTGCGCTTGGCGCGCGCCATGTGCTCGATGCGATGGAGCGTTTCGGTTATGCGGTGGAAAGCCTGCACGTTACCGGCGGGCATGTGAAGAACCCGCTGCTGATGGAGCTTTATGCCGATGTGACGGGCAAGCGCATCGTCGTTCCCGCCACCGCCGATGCGGTGCTGCTCGGCACGGCGATGACAGCGGCGACGGCCGGCGGGGTGCATGCGAACCTTGCGGCTGCAGGGGCCGCCATGTATCCGGGCAATGCGGAAATATCAGGCAATCCGGCGCGGGTCCCCCGCTATGAACGGGATTACCGCCGTTTTCTCGCCATGTACCGCCATCGTCAGGAACTGGAAAGCCTTTGA	MRQNLVAVDVGTASARAGIFDPAGRLLARSTHPILMQRPQENHAEHDSTDIWKAVCIVVRAALAEAGVSPQSIAAIGFDATCSLVIRDGRGEPVSVSVTGEDRFDTIVWLDHRAISEADSLTASGHRVLDFAGNSVSPEMQMPKLMWLKTHMPASWSRMSFAFDLADFLTWKATGSAQRSNCTQTAKWNFLAQENPGWQADYLELAGLADLRERAGLPETTVMPGESIGPLSPEAAAELGLDTGCQVAAGMIDAYAGALGALGGCLSADVGRHVALIAGTSSCLVAMSERQMPGHSLWGPYWQAILPGHWLVEGGQSATGALLDHIVRMHAAGGEPDTALHARIVARVTELRALEGEAFAERLHVLPDFHGNRSPLADPHAVGVISGLTLDTSFDSLCRLYWRTAVAIALGARHVLDAMERFGYAVESLHVTGGHVKNPLLMELYADVTGKRIVVPATADAVLLGTAMTAATAGGVHANLAAAGAAMYPGNAEISGNPARVPRYERDYRRFLAMYRHRQELESL	PGPT0017410_898	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017410-araB|L_ribulokinase-K00853	NA	NA
BMS010_09429	711	gph_6		Phosphoglycolate phosphatase	ATGGAAGACGAGACCGGGCCCCTTTTGATTTTCGATTGCGACGGCGTTCTCGTCGATAGCGAGCCGGTCTCCATCTCCGTCCTTCTCGACATGCTCTCCCATCTCGGCGTGACGATGGGGGAGGAAGAGGCCTATGAGCGCTTCCTCGGCCGCAGCGTCGCCAGCATGACGGCGACGCTGTTTGAGGATTACGGTGTCGAAACCGACATCGATTTTCTCGACCATATGCGGGCGACGCTGTTCGAGCGTTTCCGCACCGAGCTTCGGCCGATTGACGGCATTAGCGAAACGCTGGACAGGCTCCTGCCGCTGCGGCGCTGCGTCGCTTCCTCAAGCCAGCCGGAACGCATCCGTTATTCGCTGGGGCTGACCGGCCTGATCGACAAATTCGAACCGCATGTCTTCAGCGCCACCATGGTGAAGAACGGCAAACCGGCACCCGATCTTTTCCTGCATGCGGCGCGCGAAATGGGCGTCGATCCGCGTTACTGCATCGTGATCGAGGACAGCCCGGCCGGCATTGCCGCCGCAAAGGCGGCCGGCATGGGCGTTTTTGCCTTTACCGGCGGTTCGCATGCGCGCTTTCCCGCATTCCGTGAAAAGATCGCCGGGCTTGGTGCGGATGCGGTGTTTGACGCGATGCCGGATTTGGTCCAACTTGTCGGCAGCTGGAGCATGTCTCCCAAAAGTGTGAGCGGTTTTGGGAAATAG	MEDETGPLLIFDCDGVLVDSEPVSISVLLDMLSHLGVTMGEEEAYERFLGRSVASMTATLFEDYGVETDIDFLDHMRATLFERFRTELRPIDGISETLDRLLPLRRCVASSSQPERIRYSLGLTGLIDKFEPHVFSATMVKNGKPAPDLFLHAAREMGVDPRYCIVIEDSPAGIAAAKAAGMGVFAFTGGSHARFPAFREKIAGLGADAVFDAMPDLVQLVGSWSMSPKSVSGFGK	PGPT0001730_196	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0001730-gph-K01091	NA	NA
BMS010_09430	1485	mtlK_2	COG0246	Mannitol 2-dehydrogenase	ATGACATGCAAACTCTCCCTCGCAACGCTTGACGACGCCAGAAAAACGGCGGCGGTTCCGGCCTATTCCCGGGCCGATCTTTCCGCCGGCATCGTGCATTTCGGCGTCGGCAATTTCCACCGCGCCCATCAGGCGGTTTATCTGGATGACCTCTTCAACACAGGTGCGGACCATGACTTCGCCATCATCGGCGCGGGCGTTCTGCCGTCCGATGCGGTGATGCGCGAAAAGCTTGCCGCGCAGGATTTCCTGACGACGGTGGTGGAGCAGGACAATAACCGCACCGGTGCGCGCGTCACCGGGCCGATGATCGACATTCTGAAGGTCGGCGACACGAAGGCCATCATCGATACGCTCGCCGATCCGAAAATCCGCATCGTTTCCATGACGATTACCGAGGGCGGTTATTTCATCGATGCTTCCGGTTCCTTCAACCCGCAGCATCCGGCCATTGCCGAGGATGGCAGAAACCCGGCTTCGCCGAAAACCGTGTTCGGCCTCATCGTCGCCGGGCTGAAGGCGCGTCGCGACAAGGGGCTGCAACCCTCCACCGTCATGTCCTGCGACAACATTCCGCATAATGGCAGGGTCACGAAAAATGCCGTGGTCGGGCTGGCGGCCCTGTCCGATCCGGCCTTCGCCAACTGGATCGGCGAAAATGTCGCTTTCCCCAATTCCATGGTCGACCGCATTACGCCCGCGACAGGCGAGCGCGAACGCAATATCGCCCGCGACGATTTCGGCATCGAGGACAACTGGCCGGTCTTCTGCGAGGAGTTCAAGCAATGGGTTATGGAGGATAATTTTCCCGCCGGCCGCCCGGCGCTGGAAAAGGCGGGTGTGCAGTTCGTCAAGGATGTTGGGCCCTATGAACACATGAAAATCCGCATCCTCAATGGCGGCCACGCGGCAATCGCCTATCCGGCGGCGCTGCTCGACATTCATTTCGTGCATGAGGCGATGGAACATCCGCTGATCCGGGCATTTTTGGCAAAGCTTGAAAATGAAGAGATCATCCCGGTCATTCCGCCGGTTCCCGATACGAATCTTGCCGATTATTTCGCGCTGATCGAGCGGCGTTTCCTCAATCCGAAGATCGGCGACACCATTCCGCGTCTGGCGCAGGACGGTTCCAACCGCCAGCCGAAATTCATCCTGCCATCCACCGCCGACCGTCTGGCGCGCGGTGAAGATATTGTTGGCCTTTCGCTGGTTTCGGCGCTGTGGTGCCGTTATTTCCAGGGCACCTCCGACAGCGGCAAGGAAATCGCCTTCAACGATGCAAGCGCCGAGCGGCTTCAGGCGGCGGCGATCAAGGCCAAGGACGATCCGGTGGCCTTCCTCGCGCTTGAGGATATCTTCGGAACAGTTGCCGAATCGGAGCTTTTCCGTAAACGCTTTGCCCATGCATTGAAGACGCTGTGGCAAGAAGGCACGGCGAAGACCTTGCAACTTTATCTGGATGACAAGCTGGCTGAAAAGTGA	MTCKLSLATLDDARKTAAVPAYSRADLSAGIVHFGVGNFHRAHQAVYLDDLFNTGADHDFAIIGAGVLPSDAVMREKLAAQDFLTTVVEQDNNRTGARVTGPMIDILKVGDTKAIIDTLADPKIRIVSMTITEGGYFIDASGSFNPQHPAIAEDGRNPASPKTVFGLIVAGLKARRDKGLQPSTVMSCDNIPHNGRVTKNAVVGLAALSDPAFANWIGENVAFPNSMVDRITPATGERERNIARDDFGIEDNWPVFCEEFKQWVMEDNFPAGRPALEKAGVQFVKDVGPYEHMKIRILNGGHAAIAYPAALLDIHFVHEAMEHPLIRAFLAKLENEEIIPVIPPVPDTNLADYFALIERRFLNPKIGDTIPRLAQDGSNRQPKFILPSTADRLARGEDIVGLSLVSALWCRYFQGTSDSGKEIAFNDASAERLQAAAIKAKDDPVAFLALEDIFGTVAESELFRKRFAHALKTLWQEGTAKTLQLYLDDKLAEK	PGPT0018400_260	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_MANNITOL_DEGRADATION,PGPT0018400-mtlK-K00045	NA	NA
BMS010_09431	777	polS		Sorbitol dehydrogenase	ATGACGGGAAGACTGGAAGGTAAATCCGCGCTGATAACAGGTTCGGCGCGCGGCATCGGCCGTGCCTTTGCCGAAGCCTATATACGCGAGGGGGCAACCGTCGCCATTGCCGATATCGATTTCGAGCGCGCCAGCAAGACCGCCCGCGAGATCGGCGAGAATGCCTATGCCGTCGAACTCGACGTGACCAAGCAGCATTCCATCGACACCGCTATCCGCACGGTGGAGGGCCAGACCGGTGGGCTCGATATCCTCATCAACAATGCCGCGCTGTTCGACCTCGCACCGATTGTCGAGATCAAACGCGAGAGCTACGAAAGACTGTTTTCGATCAACGTGTCCGGCACGCTGTTCATGATGCAGGCCGCCGCAAAAACAATGATCGCTCGGGGAAAAGGCGGCAAGATCATCAACATGGCAAGCCAGGCGGGCCGGCGCGGCGAGGCCTTGGTGGCGGTTTATTGCGCCACCAAGGCCGCCGTCATCAGCCTCACCCAGTCGGCCGGGCTCGATCTCATCAGGCATGGCATCAACGTCAACGCGATCGCGCCGGGCGTGGTGGATGGCGAGCACTGGGACGGCGTGGATGCGCTGTTTGCGAAATATGAAAACCGCCCCGCCGGTGAAAAGAAGCGGCTGGTCGGGGAGGCAGTACCCTTCGGCCGCATGGGCCGTGCGGAAGACCTGACCGGCATGGCGATCTTCCTTGCCTCCGATGAGGCGCAATACATCGTCGCCCAGACCTATAATGTCGATGGCGGCAACTGGATGAGCTGA	MTGRLEGKSALITGSARGIGRAFAEAYIREGATVAIADIDFERASKTAREIGENAYAVELDVTKQHSIDTAIRTVEGQTGGLDILINNAALFDLAPIVEIKRESYERLFSINVSGTLFMMQAAAKTMIARGKGGKIINMASQAGRRGEALVAVYCATKAAVISLTQSAGLDLIRHGINVNAIAPGVVDGEHWDGVDALFAKYENRPAGEKKRLVGEAVPFGRMGRAEDLTGMAIFLASDEAQYIVAQTYNVDGGNWMS	PGPT0018410_25	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_ALTRITOL|GALACTITOL_DEGRADATION,PGPT0018410-sorbD-K21620	NA	NA
BMS010_09433	327			hypothetical protein	ATGAACATATTCGACGACGAGGATGCCTTTTATACGCAGAAGCAGGTCTGTGAGAAGCTCGCATTGTCACGACAGACGCTCTACCGCTACAGGAAGGCGAAGCTGTTTCCAGAACCGGTGATCTATGTCGCCGGCGGCTGCCTGCGCTGGTATGTCGCCCACGTGCACGCGTGGATCCGCGAGAACCTGGAGTTCCTTGCGAAGGCGGTTGCGACAGGGCGGAATGCAAGGGCCCGCCGAGTCGCGAGGAAAGAGATCGATAAAGCTGCCGCATCCGGAGCCGCCGCTGAGGGGCAGCCTTTGCCCGTGAGACCGGTGATGCTATGA	MNIFDDEDAFYTQKQVCEKLALSRQTLYRYRKAKLFPEPVIYVAGGCLRWYVAHVHAWIRENLEFLAKAVATGRNARARRVARKEIDKAAASGAAAEGQPLPVRPVML				NA	NA	NA	NA	NA
BMS010_09434	1860	ftsH_3		ATP-dependent zinc metalloprotease FtsH	GTGTATCATCGTCTTGACCGCCATGTCTTTGCGAATGCTAAGAGCAACGTCGCGAAGTTCCTGATGCTGTGCGCGCTGCGCAAGGCTTTGAAAGACACCGACCAGTTCCGGAAGGATGCGAAAGGCATTGTCGTCTGCGTCGTCGACCAGGGTTGGATCTGGTACGCCAAGTCGGCTGCAAACCTTCTTATGACAGGTGGCCGCAGCTTCATCCGTGACGACGACTTCCGCAGTCAGGTCTACGTTGTCGGCGACAGAAACAGGCGCTCCACGCCGAAGACCGTGGAGGACATCGTCCTGTTCCGGCCCGAGCATCAGGCGATCTACATCTCGCCCTCGTCGGACGACATCCCGACCGCGTTGAGGCTAGCCGCGGACGCGATCATCCACGTCGCTCCCCCATGCGGACGCCACATCCTGGCGGCGAGAAGGCTGCTGGGAGTCGCCGACGTAGACCTCGTACTTGCGGACGAAATCGCGGGGCAGGTTCCGGAGGTCGTCATAGGACTGACTGCGCGCAACAGCCTGGCCGGCTTCGATCTTTCCATGCTTACGAGCCAGGGTCCCGCTCCCAGCCGTTCGCCGACGCTCGCGCAGCTTCCAGGGTTCGGTGCAGCCCGGCCGTGGGTCGGAGCTATCAAGAAAGACGTCGCCGACTGGCGTGAAGGAAGGTTGTCATGGTCGCAAGTTGACCGGGGCGTCATTCTCATTGGCCCACCTGGGACAGGGAAAACGCTGTTTGCGACGGCGCTCGCCAACGAACTCGGGTTCGATCTCGTCGCGACGTCCGTGGGCGAGTGGCAGGGATCGCAAAAGGGACACCTCGGAGACACCCTCAGTGCCATGTCCAAATCCTTCGCCGACGCCAGCTCGCGCGGAGGCGCCGTCTTGTTCGTGGACGAGCTCGACGCGATCGGGGACCGCGCAAGGATGCGCAGCGACCATTCCTACTACGAAGGTAATGTCATCGGGAGGTTTCTTGAGCTGACCACGCACGCGCTCCAGCAGGAGGGAACGGTTGTCGTCGGAGCCAGCAACTACGGCCATCTGATCGACCCGGCAATCCTGCGGTCCGGCCGGTTGGAGGAGCATGTCCACCTTGATTTGCCCGAGGAGGAGGAGCGTGCCGAAATTCTCTCCTACCACCTCGACCATCTTCTTCGTGCGGACGAACTCCGCCCCCTCACTGACAATCTGATGCTCGCAAGTCCAGCCGACCTCGAGAAGCTCGCGCGTCAGGCGAAACGGGCCGCGCGGAGGCGCGGGGGAAACCTTGCTGTCTCCGACGTCTCCAAGGTGCTGCCCGCCAAGGTGCAGCTTCCCGAACAGGTGGTCCATCGCATCTGCGTCCACGAGATGGGGCACGCACTCATGGCCATGGCGTCGGGCATGGCGGAGGACATCAACATCCGCGTCGAATCCCACATGGTCGAAGGCGCGGCTGTCCAGGATGGTGGGCGCGTGCACTACAGGCTTCGCGACCAGGCTCTTCCGACCGACAGGGACCTTCTGGCCAAGATTCGTATCATGTTGGGCGGCGCTGCGGCCGAGGACGTCGTCTTCGGCTACAGGTCGATCGGTGCAGGCGGCGTCGAGGGGAGCGACCTCGACCAGGCAACACGGCTTGCCTACATGCTCGCAGGAAGCTACGGCCTCGGTAAGTCACTTCGCTACCAAGTCGGGGCGAACAGGGTTGACGCTGCCTTCACCCCGTCTTCCGAACTCCGGGCCGAGGTCGATGGGATCCTTGCAAAGGAGTACAAAGCGACGAAGGAGCTCCTCACGAAGGAGAAGGCGCGGCTGATGCGGCTGGCGGCCGAGCTCGTCGTGGATCGGAAGATGCGGATAGAAAAGACCTGA	MYHRLDRHVFANAKSNVAKFLMLCALRKALKDTDQFRKDAKGIVVCVVDQGWIWYAKSAANLLMTGGRSFIRDDDFRSQVYVVGDRNRRSTPKTVEDIVLFRPEHQAIYISPSSDDIPTALRLAADAIIHVAPPCGRHILAARRLLGVADVDLVLADEIAGQVPEVVIGLTARNSLAGFDLSMLTSQGPAPSRSPTLAQLPGFGAARPWVGAIKKDVADWREGRLSWSQVDRGVILIGPPGTGKTLFATALANELGFDLVATSVGEWQGSQKGHLGDTLSAMSKSFADASSRGGAVLFVDELDAIGDRARMRSDHSYYEGNVIGRFLELTTHALQQEGTVVVGASNYGHLIDPAILRSGRLEEHVHLDLPEEEERAEILSYHLDHLLRADELRPLTDNLMLASPADLEKLARQAKRAARRRGGNLAVSDVSKVLPAKVQLPEQVVHRICVHEMGHALMAMASGMAEDINIRVESHMVEGAAVQDGGRVHYRLRDQALPTDRDLLAKIRIMLGGAAAEDVVFGYRSIGAGGVEGSDLDQATRLAYMLAGSYGLGKSLRYQVGANRVDAAFTPSSELRAEVDGILAKEYKATKELLTKEKARLMRLAAELVVDRKMRIEKT				NA	NA	NA	NA	NA
BMS010_09435	1134			hypothetical protein	ATGATTGGTGGCTTATTCAGACTGGCAGCTCTGCTTGGTACCAGAAGTGTGCGCGTGTGGGAGTGGGAAGAAGCTCATGTGTTGATGCGCAGGTTGCCAAATTGTCCGGACTGGTACGCTTATGCCAAGGAGTGGCCTCGTATTTCATTCACCGGGTGGCAGCTCGCGCACGCCATAGCGAAGGCAGACTTCCTTGATCTCAAGGATCCACTTCTTCCCGGTCTTTCTTTTCTCCTGCAGTCCGCCGACATAATTGAAACTTCCAGTTCCAACCTCCGCGTGGTCGATAATATCGCCGATGTTCTGAATGACTTTGCGATGACGAGTTTTAATGGGCGTCTCGCTCAAGGGATTGCGCTCATTTTCGCCAGCAAATCCGGTTACATCTTTTCCGGGCACCTAGCCTCGGATCCCGCCGTTCCCCGCGGTGCGAAAGCGGCGGATTTCATTTTCGAGAGCAGCGTCGGACACCGTATGATCCTCGAATCGAAGGGCTCTTTTTCACACGATACGAATGATCCGACCAGGGTGAAAACCATTCTCAAAGCGGCACTTCAACGGCAGGTGAAACCATGGCTAGGGAGGATTTCACCACCAGCGGCGAAGGGGTTCGCGACCTTGACCTGCATACGCGGGTTGAGCCAGCTAGAGGACTCAGCTTTGATATTCGTTGATCCTCCGGGGCAAGCTCATGGTGAACCGATTCCGTTGGAAGCGGCTTGGGTCCGGCGTCGGAACTATGCGGCATGGCTCGATGTCATGGGTCTGCGTGATAGTGCTCGATCGCTGCGCCACGAAATAGATCGTGCGCCAGAACCAGTTGTGTTGCCCGTCTTCCGTGTTGGAAAGCACGACGTCGCCGCGGTTCCGACCTGGGATCCGACGAGCGGTCTTTCGTTCTCTGGCACAGGAGTCGAGGTCTCCACGCTCAGACGCCTCGAACGTGCAATGTTCGGCGACGATAGTGATCTCCTGGAGTTCGAGGAGTTGGTCGCACCAGCCCCGACTGCGGATTTCAGGGGCGAGAGCCTCACCGGCGCCATCGATGAGGGTGGAAGTCTGATGCCGGACGGCACGTACTTCGGACAGCTTGGGGGCGACCGATTCTTGGAGTTTCAAGTCTTCAAGCTGTGA	MIGGLFRLAALLGTRSVRVWEWEEAHVLMRRLPNCPDWYAYAKEWPRISFTGWQLAHAIAKADFLDLKDPLLPGLSFLLQSADIIETSSSNLRVVDNIADVLNDFAMTSFNGRLAQGIALIFASKSGYIFSGHLASDPAVPRGAKAADFIFESSVGHRMILESKGSFSHDTNDPTRVKTILKAALQRQVKPWLGRISPPAAKGFATLTCIRGLSQLEDSALIFVDPPGQAHGEPIPLEAAWVRRRNYAAWLDVMGLRDSARSLRHEIDRAPEPVVLPVFRVGKHDVAAVPTWDPTSGLSFSGTGVEVSTLRRLERAMFGDDSDLLEFEELVAPAPTADFRGESLTGAIDEGGSLMPDGTYFGQLGGDRFLEFQVFKL				NA	NA	NA	NA	NA
BMS010_09436	663			hypothetical protein	ATGTGTGATCCTATTAAAGATACTGCGAACAAGACCTCAGAAGCAGTCCCAGGTGAAGCCTACTACCGACACCTGTCGTCTTCCGTCATGTTTAACACTAGGGGCGCCCGCTTCGCTGCTTCTCAGCTTCTAATGATGAAGGAGCGTGCCAGTCTCTTCATCCTTTCGACGCTAACCATTGTGCTGATCGGAATTTCGGTATTCTTACTGGGAATTCCGGAGGCCGCGGACGTACAGACGACGAGGCAGGTGGGCATACTGTCGGCAGTCGCGTCAGTCGCGATCCTTGCGATTACCCTCTTCGACTATGCGATGGGGCGCGGACTTCTGGCAGCGAAACTTCACGAAAACTCTCTCCAAATCACGCGGGTCATGCGAGAAATAGAGCGGGAACTTGAGAAGCCTACTCCATCCTTAGAGACGCTTGAACGTTGTGCAAGAGAGTACGAGGATCTGAACATCTCCACGGGTGTCAACCACTCCTCCATCGACTTCTCGTTGTTTAAGATGTCCCGGCGGCCGACCAAGCACTGGGCAGGAAGGTTTGCCGGACGGCTATGGAGTTTCATTGCTCATGCGTCCGTAGTGGCTTTCGCGGTACTTCCAGGGTTGGCTACCTTGATAGTCGTTCTAATCTACGCCCACGCCCTCTTCTCGAAGTAG	MCDPIKDTANKTSEAVPGEAYYRHLSSSVMFNTRGARFAASQLLMMKERASLFILSTLTIVLIGISVFLLGIPEAADVQTTRQVGILSAVASVAILAITLFDYAMGRGLLAAKLHENSLQITRVMREIERELEKPTPSLETLERCAREYEDLNISTGVNHSSIDFSLFKMSRRPTKHWAGRFAGRLWSFIAHASVVAFAVLPGLATLIVVLIYAHALFSK				NA	NA	NA	NA	NA
BMS010_09437	1710			hypothetical protein	ATGTCAGTAAAAACGTTTCGAGAGCGCCATCGCCGGTTCCTAGACCACGGATTTTTTGCTCCCGAGCTGCCTCCCTGCTTCACTTCGCAAGGATTTGGGGCTGTTGGCAGCGATTTAATAAGGGATATCCGTGCGCTGCCTTCGAAGTCTAAGAAGGCTCGATATCAGCAATTTGTTGGCAACAAAGCAAGCTTCTACTTCCCGCGATTCAACAACACGGATCGTGTTCATTCTGTTATCAATCCCATCTCCTACCTTTTCATTTCCGAGCTCATTTCCAAGAATTTCGGTAAACTGAAACAACTTGAAGAACGATCGAAATACTCGCTCTCCCCATCCGTGCTCGACTGGAAAGGCAATCGCGCACTCAGGCGTCCGGTTTTCGGGAGGCGGGACGAGTTCATATCGCAGCTTGCGCCTCGTTTCGAATACACAGTTTCCACCGACATCCGCGCCTTTTACCATTCCATCTATACCCATGCTTTGCCTTGGGCGATCCACGGCAAGAAGGTGGCAAAGGTAGAGCGAGGGCTGGACCTGTTCGGGAACGAACTGGATCTCCTCGTCCGGAACGCGCAAGGTGGCCAGACAGTCGGACTTCCGGTCGGCCCTGACACTTCGCGCATCCTCGCCGAGGTCTTGGTCTCTTCGATCGATGTCGAAATCAGACGGCATCTGAGGATCAGTTTCGGCGACGGCTCCCGGTTCGTGGACGATTACACTTTCGGCTGCAATTCGGTCGCCGAAGGTCAGCGTGTCGTGGCGGAGATAAGGCGGGCAGTCAGCGCATTCGAACTAGACATTGGAAGTGAGAAGACGACGATTCTTCCCACCAATCATCTAACGTATGTCGGCTGGCAGGAGTATCTGCAAAGCTTCCTGCCAAAAGAGCACGAAGAAGAGGAGGACGATACTCCAGGGGCCGGGTTACTACGGCGCTCGGACTTCGACCGCTTTTTCTACGTCGTCCACGACATGGCGAAGAGACATGCAAACCTGAACGTCGAGCGTTTCGCGATGCAGATTTCCCGAAAAGCGTTTCGTGATTTCGACGAATGGCGGTTCTTGCAAGACCACATGGTCTCGTCCTACCGACGGAATTCAACGCTTATTGAAGGCTTAGTCGAAACCGTTATCCTACGCCATGAAGAGCGGGGAGATCTTGAAATCCCTGCTCTGACAGATTTCGTCTCATCAAGACTGCCAGCGTTAGCAGCACAACAGCGGACCGGTGAGATCATCTGGCTGCTTTATCTGACTTGCAAAGTCGGACTTAAGTTGAAGGCCCCCGTCATCGAGCAACTGATTCGAACTCCGAATGCCTTAGTGAATATCCTTGTCTATCAGGCCGCGCAGATGGGCTTGATCAGTGGACGGATAAGCCTTTCTACCTTTCAGACGTCGTGTACCGCGGAGGGTCTCCGAAGCGAGATGTGGCTGTACGCGTATGAGGCCGCTCGAAACGAATGGGCCTCGGGTGGCGGTTCGTACTGTTCCGATGACGACTATTACGGACCAATGATCTCGAAGAACGTTACCCTCTTCAACATTGAAAACGGACCAAAGAATCTAAGAGAAGTCCTCCGACAACGCGCGCGTGAGAACACGCTTACAAAGTGGCAGATGTCTCATGACAGCAGCTTCGAACTTGATGATGACGAGTTCGAGGACCTTCTGGGAGACCACGACGACGAGGCGTACTATGTGTGA	MSVKTFRERHRRFLDHGFFAPELPPCFTSQGFGAVGSDLIRDIRALPSKSKKARYQQFVGNKASFYFPRFNNTDRVHSVINPISYLFISELISKNFGKLKQLEERSKYSLSPSVLDWKGNRALRRPVFGRRDEFISQLAPRFEYTVSTDIRAFYHSIYTHALPWAIHGKKVAKVERGLDLFGNELDLLVRNAQGGQTVGLPVGPDTSRILAEVLVSSIDVEIRRHLRISFGDGSRFVDDYTFGCNSVAEGQRVVAEIRRAVSAFELDIGSEKTTILPTNHLTYVGWQEYLQSFLPKEHEEEEDDTPGAGLLRRSDFDRFFYVVHDMAKRHANLNVERFAMQISRKAFRDFDEWRFLQDHMVSSYRRNSTLIEGLVETVILRHEERGDLEIPALTDFVSSRLPALAAQQRTGEIIWLLYLTCKVGLKLKAPVIEQLIRTPNALVNILVYQAAQMGLISGRISLSTFQTSCTAEGLRSEMWLYAYEAARNEWASGGGSYCSDDDYYGPMISKNVTLFNIENGPKNLREVLRQRARENTLTKWQMSHDSSFELDDDEFEDLLGDHDDEAYYV				NA	NA	NA	NA	NA
BMS010_09438	1977			hypothetical protein	ATGCAGTATGACGAGATCATGGAGGAACTCCTCATCCACGAGCAGACGCCGACGCCAGACCGCTTCGGCGGCCTTGAGCGGCTTCTCCGAGACGGGCGGGTGATCGGCATGTCGCTGTTCTCGGACGTCCTCGTGGATCTCGTCCTTCCGTTCCGTACGGGCCATCGTGCTGAGGTAGACCGGTTCCTAGCCGACGTGCTCGACGTCATCGAACGAGGGCCCGAACTGAACACGATCTCCGACCGTCTGCTCGCCTTCCATTTCAACGAGCCTGCTGTAGAGGCGAAGGTGTTCAGGCGGCTCCTTGCGGTCGCGAAGGAGCGTGGACGTCCCGTTCCCTTGCGGAACGCAGCCCTGAAGGGAGCGCTCGCCTTCGCACGGGACGATGTGATCCGTCTTTCCAGGTTGGTGGCTGATCTCGCGGAGACGTCGCCGGACGACGATCCCGGCTTCATCTCCCATGCTGCACGTATCGCGGGCGTCCTTTCCGGCAAGGATCGCAGCCCTGCCCTTCCCGCTTTCCTTCTCCTTGTTCGCGATGTCGATGGGTCGGCTGACCAGGTTCACTTCGAGATCGGCCTTCTTTGCCTCCGGCAAGCCATCGAAGCCGAAGAGACGCAGGAGGTCGTCCAGCATCTGGGGGCAGCCCGCGATGCGCTCGATAGGGCATCGGCGCTGCGCGAATCCCGACATGACGCGCGTCTTTACAGCGCGGCCATCAACGTCTTGCTCGGTTTCCATGAACGCAGGACGCCGCCTGATCTCGGGGCGTCGCTCCGCAGCATGCGCGAAGACGCCTTCGCCTACTCGGAGTATTCCTTAGGCGGAAGGAACGATCCAATCCTGGGATCGATCGCTACCCAGATCGCAGCGCTGACATCGCTCGCGGCCAGTCTCCATGAACTGGTCTCCAGGGTCGCGGAGGACGTCTGGCTGGATGCGATCCAGATCATCGAGAAGCATCTACTCTTCGCGTACGAAGCGAACAGATCGATCTTCGCTGGCGAACCCGGCCGTGGCATCGACTGCGTAATAAGGCCCACGCTGGAGCCGCGGCTGTTCGGGAACCGCGATCATCTCAAGCAGCTATCGGCCTGGTTCGACCGCCATGCGTCCAAATTTGACGACGACCTGACACGTGATCTGAGAGATGCCGTTGATCGGGTATATAAGGAGGGAGCCGGTTTCCCTCCGGACGCGGGTTCCAGCGGCCCACTGGATCCCGCCCTTCAGGAAAGGGTACGCTCCACTGACCAGCAGGCCTTCCACGAGCTTGTCGGTATGGCGCTCGGGAACCTGCAGGCGCAGCAGATCGCCGGCGCAAGCCCCGCAGTCGGGCGGTTGCTCGAGACTGTCGACAAGGCGTTCGCCAAGCTCGAGGACTACCGCACTCCATCGATCCGGATGGAATTCATAACCCTCGCATTCGGCGTCGCGACGTTCCTGGCGCGCAAGCTCGACAGTTCCGTGGAGCAGGACGCGTTCTCCCGCTACCTCTTCCAGCATGGAAAGCCCGTGCCTCTGGAAAAGGAGCTGCAGCAGGACTTCCTTCGGCATGGACACTCTGCGGGCCTCCCTGTCGATGACGAGGTAAAGGGGGTCGGCGGCGGGCGCGCAGACGTGCGCTACAAGGCGAATGGCGTCGTCATCATCATCGAGGTCAAGCGGGAGCTGGCCAACGGCTCTTTCGACAACCTCATCGCGGCCTATGCGGATCAGACCGTCGTCTACCAGACCACGAACGTGAAGCTCGGCGTGATGCTTGTGCTCGACCTCTCCCAAGACCATGGCCGGCTGGGGCACATGGACACCTGGTACGAGACGCGCACCGGCGACTATCTTGGTGATGGGACGGAGCGCGGTGTTCTGATTGTAAAGATACCGGGACGAAGGGGCACGCCCAGCGCGGCGACGGTGGCGGCGAAGAGAAGGAATGTGAAGCGAAAGTCTCCGGCGGCCACATCTGGCAGAGTATAG	MQYDEIMEELLIHEQTPTPDRFGGLERLLRDGRVIGMSLFSDVLVDLVLPFRTGHRAEVDRFLADVLDVIERGPELNTISDRLLAFHFNEPAVEAKVFRRLLAVAKERGRPVPLRNAALKGALAFARDDVIRLSRLVADLAETSPDDDPGFISHAARIAGVLSGKDRSPALPAFLLLVRDVDGSADQVHFEIGLLCLRQAIEAEETQEVVQHLGAARDALDRASALRESRHDARLYSAAINVLLGFHERRTPPDLGASLRSMREDAFAYSEYSLGGRNDPILGSIATQIAALTSLAASLHELVSRVAEDVWLDAIQIIEKHLLFAYEANRSIFAGEPGRGIDCVIRPTLEPRLFGNRDHLKQLSAWFDRHASKFDDDLTRDLRDAVDRVYKEGAGFPPDAGSSGPLDPALQERVRSTDQQAFHELVGMALGNLQAQQIAGASPAVGRLLETVDKAFAKLEDYRTPSIRMEFITLAFGVATFLARKLDSSVEQDAFSRYLFQHGKPVPLEKELQQDFLRHGHSAGLPVDDEVKGVGGGRADVRYKANGVVIIIEVKRELANGSFDNLIAAYADQTVVYQTTNVKLGVMLVLDLSQDHGRLGHMDTWYETRTGDYLGDGTERGVLIVKIPGRRGTPSAATVAAKRRNVKRKSPAATSGRV				NA	NA	NA	NA	NA
BMS010_09439	1947			hypothetical protein	ATGAGTGAATCTCCACGCGACCAGTGGGTCGCTCAGATTGCAGACAAGACTCAGAAGAGCGTTGCAGACGTCGAAGCGCTGCTGAAGCGGCACGGCATCGAGCCGCGCCTCACCCAGGCGGTTCCTCGCCGCCTCCGCCTCGTCAGCTTGAAGTTCGACGGCAAGAAGACGGGCGACTACAAGACCCCTGACATTGACTTCACCCGCGAAAACTTCGGGGTCGGGCTGCACGCGTTCGTGTCCGCGAAGAATCTAAAGGGAAAAACGTCGCTTCTCAAGATCGTCCGCTGGGCGCTGACAGGGACGCGCGGCCTGCCCGCGGACATGAACGGCTGGTTCAAGACACTATCACTGCGGTTCAATCTGGACAACGACGAGTTCGAAATGCGGCTCGACGATGCTGAAGCCAGCAGTGGCCGTCTTCTAAAGTTCGCGCGCGACAGAGAGTTCGTCGTCGCCACCTTCCAGAGTTCGCAGTCCTTCGCAGACGCCATGGACCGGTTTTTCCTTAAGGAGCTGGGTCTCGAAGCGTTAGAAGCGATCGCGGAGAAAACGGACGGCAGCGGCGTCGATCAGCGGCACGGCTGGAACTGGCTGTTCGGCGCAATGTGGTTCGAACCCGACCCTAAGAGCGTCTTCGGGGGCGACGACATTCAGCACGGCAAGCCTACCCGCATGATGCAAATGTATCTCGGACTGCCTTGGATCATGACCAGAGCGTCGCTTATGGAGGCCCGAAAGCGCGAGAATATTGAAGGGAACCAGAAGGACAAAGCTGCCCGCCAGGTTTCGGAGGCAGCCCGTACGAGGTTGACTGAGCTCAAGGCCAGCCGTTCGAAGCTTACTTCTGTCCAAGCGAAAGAGCGGCCGCTCGACGACGTCCGTGCGGCTGCGTCGGACGCGCTGACGAAGTACATGGCTGCTGCCGAAAAGGTCAGGCGCAATATCATTCTGGTCGCAGAGATCGACGTTCAGCGTCGCGCTGCCGAGGATGCGGTCACGGCCAGTTCGCGCGAGTTGAATGCCTTCGTCGAAAGTCGGACGGCCGGACACATTTTCCGGCGGCTGAATCCTGTCTCCTGCCCGAGTTGCGAGGAGGTCTACACCGACGAGATCCGGACAATCAGGCAGGACCATCACGACTGCATCGTGTGCGGCCGCACCGAGCCGCGTGGCACGGACGACGCGGCGGGTATCGAGGCAGACCTGCGGGAAGCGGTCAAGTCTGCCAAGGAAGAAGCCAGGAAGCTCCGGTCGCGTCTGGTGGACTTCACGAAGAAGAAGACCGACGCCGAGGCAGAACGCGATCGGTACGACGCAGATTCCAAAAAGCTCGAGAAGGAGCTGAGGGACATTCAGTCCAAGCCGGACGGGCAAATCGAGATCCTGAAACTCGACGCACAGATCGAGGAGTTGGAGAAGATGGCAGGCGTCGATCCTACCCCGGTTTCCTCCGACATCGAATTCCTGGATGCCGCCATCGCCGCCACGAGGAAGATGTACGATGAGGAGCAGTCCGGCGTCCTCGGCCGCGTTTCCGAGCTGACGGCCAACTTTGCAAAGACATTTGGCATGAGTGATCTGCGAGAGGTCAAGCTGAAGGGCAACACGCACATGGACGTCATGCTCACCGGGGGCACCAAGCCTTTCGGCGGTTGCACGCCCGGCGAGAAGACGCGACTGAAGCTCGCTGCGACCCTCGCGATGATCCACGTCGCCGAGGACAGCGGCATCGGCCGGCATCCTGGAGTCCTGCTCCTGGATTCTGTCGGCAGCGCGGAAGTGGTCAACGAGGACGTGTCGCAGATCGTCGCCGGCCTCGGGACGCTCTCGGAATCGCTGCCAACCATTCAAATATTAATTGCAGGGATCGCGAACGATGCGATCCTGAGCCATGTCCCCTGCGACAACGTGGTCGAGAATCGAGCAGACGGATATCTGTGGTAG	MSESPRDQWVAQIADKTQKSVADVEALLKRHGIEPRLTQAVPRRLRLVSLKFDGKKTGDYKTPDIDFTRENFGVGLHAFVSAKNLKGKTSLLKIVRWALTGTRGLPADMNGWFKTLSLRFNLDNDEFEMRLDDAEASSGRLLKFARDREFVVATFQSSQSFADAMDRFFLKELGLEALEAIAEKTDGSGVDQRHGWNWLFGAMWFEPDPKSVFGGDDIQHGKPTRMMQMYLGLPWIMTRASLMEARKRENIEGNQKDKAARQVSEAARTRLTELKASRSKLTSVQAKERPLDDVRAAASDALTKYMAAAEKVRRNIILVAEIDVQRRAAEDAVTASSRELNAFVESRTAGHIFRRLNPVSCPSCEEVYTDEIRTIRQDHHDCIVCGRTEPRGTDDAAGIEADLREAVKSAKEEARKLRSRLVDFTKKKTDAEAERDRYDADSKKLEKELRDIQSKPDGQIEILKLDAQIEELEKMAGVDPTPVSSDIEFLDAAIAATRKMYDEEQSGVLGRVSELTANFAKTFGMSDLREVKLKGNTHMDVMLTGGTKPFGGCTPGEKTRLKLAATLAMIHVAEDSGIGRHPGVLLLDSVGSAEVVNEDVSQIVAGLGTLSESLPTIQILIAGIANDAILSHVPCDNVVENRADGYLW				NA	NA	NA	NA	NA
BMS010_09440	624			hypothetical protein	ATGGCCAATACGGAATACCGAGACGCAGTTCGAATCCTGTTCCTTCTCGTGGAGGGTTCCGTCGACAACCCCGATCCGGACAACAGGGATTACTATCCGTGGCGCTTCGAGGGTGAGACGCGACTGCAAGCACTCGACTTCTGGGTCCGCTATCCCGACTACCTCGCCGACGAGCTGCTTGCACAGTATCTGGACGGCGGCGACCGCACGTTGCTGGACGCGGCCCGATCTATCTTCGACCACGACGAGCCGTCCGAAAAGGCGATCCCGATGCTGCGGCGCTACTTCGGCGCCTACGAACCCCTCGACACCGTCCTCTCCATCCTCGCCGTCGCCGGCTTGTTACGGCCGATTACCGTCCAACATCCGACCGCTAATCCGCGACACTTCCTGCTCAGCACGTCCGGGATCGAGCTCGCCGGCCGCATCGTCGCAGACCATTCGGTCTTCGGGTGGTACGCCGATCGGGCCAAGCTCGTTCTGAAGGTTGCGAATGGCCGTGGCGGTATCGCTCTGAAAGAGCGGCAGCACCAACAAAAGGAATACCACGAGGCACGGCTCAACGATCTCATCCCGACGATCGCCGACCGGGTGCGCGAAAGACTGAAGGGCATTGAAGCATGA	MANTEYRDAVRILFLLVEGSVDNPDPDNRDYYPWRFEGETRLQALDFWVRYPDYLADELLAQYLDGGDRTLLDAARSIFDHDEPSEKAIPMLRRYFGAYEPLDTVLSILAVAGLLRPITVQHPTANPRHFLLSTSGIELAGRIVADHSVFGWYADRAKLVLKVANGRGGIALKERQHQQKEYHEARLNDLIPTIADRVRERLKGIEA				NA	NA	NA	NA	NA
BMS010_09441	1200			hypothetical protein	ATGAAGGTAAGGTCGATACAAACCGGCGATGCATGGGTGGACATTGGCGACGACGCTGGAGGCACTGCATCCGACCCAGGCGCCACCGAAGCACGCCGGATTCTTTCCACCGCGGTGAGGTCGCAGAACCTTGCCGTACTTGCAGGACTGGGGACGTCTCTCTGCGTCACGAAGGGTGGCGCCCGGCTTGCGCCTACCATGCTCGACCTACTCGCCAAGGCGAAAGCGCGTTTCGTCGAACTCGACCAATCGCAGAAGAAGGCGGACGGACACCACTGGGCGGATTTCGAGAACCTCTCGAACGTTCCGAAGGACTGCAAGGATCTTGAGTACTTCATGTCGCGGGCGACGATTGCGGTAGGGTTTCTCGCCGCCGACGAGGCAACAAGGATCGAGTCCTATCTGGCGGAGGCGGAGGAGGTCATCCGTAGTGCGGTCGATTTCATGAAGGACGACATTGATCTGACGGTGCATGAATCATTCCTGCGCCGCGTCGCGCGGCGATCGTCCAGACGGTCGAGGACCAAGCTGTTCACGACGAACTACGACCTCTGCTTCGAGATGGCGGCCCGCCGCTCTGGCTTCGTGGTGATCGACGGGTTCGCCTTCGGCAACGATGCGCGTTTCGATTCTGCCCAATTCGGCTACGACGTCGTCCGCAGGTCCGTTACGGAGGAGCGTTCGGACTACATCGAAAACCTTTTTCACCTGCACAAGCTGCATGGCTCCGTCGACTGGGAGAGGCAAGCTGCCGGCTCGTTCATCTCGAAGAAGCCTGGAACCAGGAAGCCGCTCCTGATCTATCCCCGTTCCGACAAGTACGAGCTGGCATTCAGCCAACCGTATATCGAAATGATGGGCGCCTTTCAGTCCTTCGTCCGCGTCCCGAGCACGACGCTCCTCGTCATAGGTTTCGGATTCAACGACAAGCATATCGCCGAACCGATCCTGGCCGCCGTCAGAGGCAATCTCGGCCTCGACATCGTTATCGTCAGCCCGGATATCGAGACGGCCAGCGCGAGTGGCGGGAATCCATACCTCGGAGAGCTGCTGCAACTCATCGAAGGCGGGGACGGCCGTATCTCCTTGATCGCCGCCAAATTCGAGGAGATCGTCAAGCTGATCCCGGACGTCGTCAGCGAGACGGAGCTGGAGCGGCACAATCAGCGTCTTCGGAACCTAGGGAAGCCCAATGCCTGA	MKVRSIQTGDAWVDIGDDAGGTASDPGATEARRILSTAVRSQNLAVLAGLGTSLCVTKGGARLAPTMLDLLAKAKARFVELDQSQKKADGHHWADFENLSNVPKDCKDLEYFMSRATIAVGFLAADEATRIESYLAEAEEVIRSAVDFMKDDIDLTVHESFLRRVARRSSRRSRTKLFTTNYDLCFEMAARRSGFVVIDGFAFGNDARFDSAQFGYDVVRRSVTEERSDYIENLFHLHKLHGSVDWERQAAGSFISKKPGTRKPLLIYPRSDKYELAFSQPYIEMMGAFQSFVRVPSTTLLVIGFGFNDKHIAEPILAAVRGNLGLDIVIVSPDIETASASGGNPYLGELLQLIEGGDGRISLIAAKFEEIVKLIPDVVSETELERHNQRLRNLGKPNA				NA	NA	NA	NA	NA
BMS010_09442	1719			hypothetical protein	ATGCCTGATGCACCCGTCCATCCATTCGAGAACGCACGATATCTCGGCACTGTATCACGGGTCAGCCCTTTAGGCGTGCAAGTGAACCTGCCCTTCGCGACCGAGGCCGCGCCTGCCCAGTACGCCGGGAACCGCGTGACCAGGGGGCAGGTGGGCGAGTTTGTAGTCATCGAGACGTTCGCCAGCGTCGCAATCATCGGACGCATCACAGAGATCCGACTGCCAGAAAGAGACCGGCTCTCCGTCGAGCCGGAGCGAGAGGAAGGCGAGGGGCAGGCGAACCCTATCGGTGTCATTCGCCTTCTTGGATCTGTCGATCTTGAGGCTGTCCGGTCGAGCAGGGGCATCTCCGACGTACCGCGGATCGGCGACTACGTCTATCTAGCACACCCGGACTTCATTCGACTTGCGATCGTCGCCACCAAGACAGGGAAGGACACCGTGGCCCTCGGCCACCTCAGCGGTGCTCCGGAATCGAAAGTCGTCCTCCCGCTCTCGTCGATTTTCGGACGACACTGCGCCATCCTGGGCTCGACCGGCGGCGGCAAAAGCTGGTCCACGATGAAGCTCATCGAAGCGATCGCCCGGCGCGGCGGAAAGGCTATCGTGATAGACCCGACCGGAGAGTACCAGACGCTCGGACAGCATGCCGATCACGTCTTTCTGGGCGGGCAGAAAAAAGGGGAGGCGGACACCCGCCGCTTCGTCTCCTTCCCGCATCATCACCTTAGCGAGATGGACTTGTTTGCGATCCTGCAGCCGAGCCCAGGCGTCCAGGCCCCGAAGCTGAGGGAGGCTATCGCCAGTCTTAAGTTGCTTGCCATCGACACCGAATTCGCTGACGAAAACGGCTATCTCACCAAGGAGGGAAGAGAGAAGAAGCAGGTAAATCAGGCATTCCAGAAACACGACGGACAGATTCGCGCGCCGTCCGCCAGATTCGACATCCGCAAACTCAGCCAGCAGATCGTGAAAGAATGCGTCTATCTAAATGCCTCCGAGAGAGGCGTCGAGGACATCATGCGTTGGGGTTCGAGACACGAAAACACCCTCTCGAGCTGCGTGACGCTCTGCATGCGGGTCGAGTCGAGCGTCAACTCCCAGACCTTGAGTGCCGTCTTTAAGCCCGCCGCCTACATGGAAGATCTGACAGAGGTGATCCATGCGTTCGCAGCCGATCCCAACAAGCGAGTCCTCCGAGTGTCGATGGAATACCTCTCGTTCGAGAACAGCACCCGTGAGCTCGTCGTGAATGCCATCGGTCGCTTCCTCCTGACAAATGCTAGGGACGACAAGTATCAGGCCGTGCCGCTCGTCGTGGTTCTCGACGAAGCTCATCAATTTCTGAGCAAGTCGGTTGGAGACGAGAACAACAGGGTCTTTCTCGACGCCTTCGGTCTCGTCGCAAAGGAGGGCCGCAAGTATGGTCTCACATGCGTGCTCGCCACGCAGCGGCCTCGGGATATTCCGGAGGACGTCCTTTCGCAGGTCGGAATGTTTGTCGTCCATCGCCTGATCAACGAGCGTGACCAGGCCGTCGTGGTGAATGCGAGCGGCGTCCTCGACGGCTCGTCCGCCGCATTCTTGCCGAACCTTCGCGACGGCGAAGCGCTTTTGATCGGCACCAACTCCATCATGCCGCTTCCGGTCACGATGGACCCGCCATCACGCCCGCCGAAGCTCTCTGCAAACGTCGACGCGACCTGGCTCACGATCTAA	MPDAPVHPFENARYLGTVSRVSPLGVQVNLPFATEAAPAQYAGNRVTRGQVGEFVVIETFASVAIIGRITEIRLPERDRLSVEPEREEGEGQANPIGVIRLLGSVDLEAVRSSRGISDVPRIGDYVYLAHPDFIRLAIVATKTGKDTVALGHLSGAPESKVVLPLSSIFGRHCAILGSTGGGKSWSTMKLIEAIARRGGKAIVIDPTGEYQTLGQHADHVFLGGQKKGEADTRRFVSFPHHHLSEMDLFAILQPSPGVQAPKLREAIASLKLLAIDTEFADENGYLTKEGREKKQVNQAFQKHDGQIRAPSARFDIRKLSQQIVKECVYLNASERGVEDIMRWGSRHENTLSSCVTLCMRVESSVNSQTLSAVFKPAAYMEDLTEVIHAFAADPNKRVLRVSMEYLSFENSTRELVVNAIGRFLLTNARDDKYQAVPLVVVLDEAHQFLSKSVGDENNRVFLDAFGLVAKEGRKYGLTCVLATQRPRDIPEDVLSQVGMFVVHRLINERDQAVVVNASGVLDGSSAAFLPNLRDGEALLIGTNSIMPLPVTMDPPSRPPKLSANVDATWLTI				NA	NA	NA	NA	NA
BMS010_09443	1266			hypothetical protein	ATGAAACTTGTACTCGCGGTGGAAAATATCGAACGATTGCCGATGATGGTCGGTTGGGAGGAGAGAATGGCTAAACGCAAGGGAAAGACGAAGGATACTGCAGAGCAGTCTGCTGCGAAATTCTTCATGGAACTCGTCGATCAATTCAGCTACCAGCAAGGGCCGAATGCACGCTCCAAAGGCCTGACCAACTTCACGTTTTTTGCTGGTGCCGGCTTCTCGAAAGCTTGGGATCCCAAGGCTCCAATCGGATCGGAACTGTTCACGATCAGACCGAACGTAATCGAGAAGGTCGCGGACGTCGGCGCTCTTGCGAGGATGTTCGGTCTTTCGGGGCTCGACGACATTCAGCCGGAACAGCTCCGGCAGATCGTATATCAAATCGATATGTATGAGCGGTACCCGGACGTCAGGTCCAGATATGTCGATGAACAGAACCTCCGCATGTTCCGGGGTGCGTTGCGGGCCGCAGTCGTCGATCGCTATGATAGGATCACGAACCTCAACTACTTCGAAACCAAGAGCGAGAAGTTTCCGTTGATCGATCCGACGCAGTCGCAGATTAACATTCTAGGGTTCTTCAACCATCTGCATCGGCGGATAGACGGCTCGCAGGGGCCGGCCGAAGGTATCCGCACACAGTTCGTGACCACCAACTACGACTATGTCATCGAGACGATCCTAGACAACGTGCTCGCGCCCGATGACACCCTGTTTCTATACACATACCGCGGCTTCACCCCGGTTAAGATCGTCGACCAGCCCAACATGGCGCCCGTTCATGAGCATTGGCTCGTGCAGCATCTGCTAAAGATCAACGGCGGTTTCGAAATTCGCCGCCGCGGCGACGACTACATTCTTGACTACGGTCGAAGGTCGCCTCGGGAGATCATCGAAGATCCTCCGATCCTCATGCTTGCCTCTCGCGAGCAGGATTACACCGACCCCTATTTTAGGACGGTTTTTCCAAAGGTAGTGAGGCTGCTGCGGGACACGACGGTCCTGATCATCGTTGGCTACAGTCTGCCCGCCGACGACGCCCTGATACGGTTCTTCATCCGCCAGTTTGCCGAGGAGCCAGAGGACGGAAGAGGGAAGGTAGTATTTTATGTCGGTCCTGGCACGCACGAGCAGAAGCAGGCCGTCCTTCAGGAAGTTTTTCCGTCGATGGATCGGAACCGCGCTCCCATGCTGATCACGTATAACGACGGCTTCGACAAGTTTGCGGAAGAGTGCCTGCACTACGCCGACCCGACGTTCAACTAG	MKLVLAVENIERLPMMVGWEERMAKRKGKTKDTAEQSAAKFFMELVDQFSYQQGPNARSKGLTNFTFFAGAGFSKAWDPKAPIGSELFTIRPNVIEKVADVGALARMFGLSGLDDIQPEQLRQIVYQIDMYERYPDVRSRYVDEQNLRMFRGALRAAVVDRYDRITNLNYFETKSEKFPLIDPTQSQINILGFFNHLHRRIDGSQGPAEGIRTQFVTTNYDYVIETILDNVLAPDDTLFLYTYRGFTPVKIVDQPNMAPVHEHWLVQHLLKINGGFEIRRRGDDYILDYGRRSPREIIEDPPILMLASREQDYTDPYFRTVFPKVVRLLRDTTVLIIVGYSLPADDALIRFFIRQFAEEPEDGRGKVVFYVGPGTHEQKQAVLQEVFPSMDRNRAPMLITYNDGFDKFAEECLHYADPTFN				NA	NA	NA	NA	NA
BMS010_09444	267			hypothetical protein	ATGGATTCGACTACGGAAATCATGACCGCCTTGAGGGCCGGACGAGCGCTGTTGGCACTGAGCCAAGAAGAGCTTGCCGGGCTCGCCGGCGTGAGCCGTCAGATCGTGGTGAGGATCGAGAAGTGCGAGCTCAACGTCCTCGCGGAGTCGATAGACAAGGTCCGGTCGGCGCTTGAGGGGAACGGTGTGATGTTCTTCGAGGGCGCCTCGGATAGGGGGCCGGCCGTGGCCCTCCGTCGACCACGCGTTAAGACGACCCTAGGATAG	MDSTTEIMTALRAGRALLALSQEELAGLAGVSRQIVVRIEKCELNVLAESIDKVRSALEGNGVMFFEGASDRGPAVALRRPRVKTTLG				NA	NA	NA	NA	NA
BMS010_09445	1068			IS110 family transposase ISAtu7	ATGACTGCCTCTTATGAATACCATATCGGCGTGGACTACCACAAATCCTATAGCCACCTTGTCGTCCAGGACAGCAGCGGCAAGACGCTGAGATCCGGCCGGGTGAAGAACGATCGCCAGTCGCTCGGTGGGTTTCTCGAGCGGTATCGCGAGAACTCGCATGCCGTCGTCGAGGCGACGCGCAACTGGATGGTGATGTACGACTGGCTCGACGACATTTGTGACGATGTCGTTCTCGCCCATCCGTTGAAGGTGAAGGCGATCGCCGACGCCAAGATCAAGACCGACAAGATCGACGCGACGGTGCTGGCGCATCTGCTGCGGGCCGACCTGGTGCCGGAGGCCTGGGCGCCAACCGACAAGGCCCGAGAGCTGCGCGTCGCGCTGCGCGAGCGGATGTTTTACGTGCGGCTGCGCACGATAACGAAGAACCGCATCGTCACGGTGTTCGATCGCTATCCGGAGCAGACGGCACAGTTGAAGAAGCTCGGCGATCTGTTCGGTAGGGCCGGCCGCATCCAGTTGGCTCAGGTGAACGTCTCAGAGATCGACCGCGTACAGATCGACCGTGGCCTCGCCTTCATCGGCGACATCGACGGGCGGATCAAGCAGTCGGAATCAACGATCCGGGCGATGATCAAGGCCAATGCCAATGTGAAGCTATTGAAGACGATCCCCGGCATCGGCGAGTTCTTCGCCCGGCTGATCGACGCGGAGATCGACGACATATCGCGGTTCCGTAACCCGAAGAAGCTTGCTGCCTATGCCGGCCTTGTGCCCTCGACCTATTCGAGCGGCGGCAAGACCTATCACGGCAAGATCATCAAGCAGGGCAACAAGTGGCTGCGCTGGGCTTTCGTGGAAGCTGTCGCGCCGGCCATCGCTACCGATCCGCAGCTTCGAGTTCAATACGACCACCTGAAGATCAGAGGAACCAACAAGGCGCGCGTGGCGATCGCGCGCAAGCTTTTGACGATCGCCTTCCAGATCCTGCGTGACCAGCGCGCTTATGAGCCGCGCGACACCAGCACCACGGAAGGCGCGTCGACGATATCCCGGTTGTCCTGA	MTASYEYHIGVDYHKSYSHLVVQDSSGKTLRSGRVKNDRQSLGGFLERYRENSHAVVEATRNWMVMYDWLDDICDDVVLAHPLKVKAIADAKIKTDKIDATVLAHLLRADLVPEAWAPTDKARELRVALRERMFYVRLRTITKNRIVTVFDRYPEQTAQLKKLGDLFGRAGRIQLAQVNVSEIDRVQIDRGLAFIGDIDGRIKQSESTIRAMIKANANVKLLKTIPGIGEFFARLIDAEIDDISRFRNPKKLAAYAGLVPSTYSSGGKTYHGKIIKQGNKWLRWAFVEAVAPAIATDPQLRVQYDHLKIRGTNKARVAIARKLLTIAFQILRDQRAYEPRDTSTTEGASTISRLS	PGPT0030635_2342	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030635-tnp-K07486	NA	NA
BMS010_09446	990			hypothetical protein	ATGCAGAAGATCACCCGCGAAGAACTCTACCAGCTTGTGTGGTCGGCACCGACTCAGCAAATAGCGAGGCAGCTCGGCGTCTCCGACGTGTATGTCGGACACGTATGTATCGCGTTGGATGTCCCAAAGCCACCACGCGGATGGTGGATCAAGAAGCGCTCCGGCGCGCCTGTAGCCCAACCACCCCTGGCGACGCCAAGGCCTGGACATCCGACGTTCTGGATCCGCGGACAGAAGGCGTCGATCCGGCCGTTTCGGGAGGCCGCGGGCCACATCTCCCCTGCGATCGACGGGTTCCATCCCCTCGTGAGGCTCTCCGGGATGATAGATTCTTTCGGTCCGCCGCATCCGAGAGGCACATGCCTCGTGCCTCGGCATCGCCGTTCCATCGATCTAACGGTCACTCCTGACAGGTTTGTCGAGGCGCTGCGGTTCGCAAACAACCTCTTTCTGGATCTGGAGGCACGAGGGCATCGCGTGAGCGTAATCCCCGGACGACGCGTGGTACGGCCCCCTATCGACGTCTGGGAGCATCCTCCGGCCCATTTTCAGAGCAGGCAGGCGCAACTCTGCTCGCCGCGATGGCCGACGGTGGCGACGCTCGGCGATGTCGCGATAGGCCTCGCGATCGTCGAGACCCATGGGGAGCAGGAGATGCAGTACATCGGGGACGGACAATACCGCCCACTGCTGGATCCGAAACGAAGCCGGAGCGCCAGAGTCGCCGGAATTTCATGGATAGAGTGGCAGATGCAGCCCCAAGGACGCCTCCGGCTCGTCGCCTACTCCCTAGAGCGGAACTGGCGTAACGAATGGTCGCTCGAGCCCCGGAAGGCGACAAGGCATGTCGGCGGTATCGTCGATGACATTCAAAATGCGGCTGAGATGCTAAGAGAACAACCGATGACGGACGGTTCGATCATCCGTTCAACATTGCATGTGCATTCGACGACCTCAACCACCTCGGATGCCAACGGCCTCTCACGATAG	MQKITREELYQLVWSAPTQQIARQLGVSDVYVGHVCIALDVPKPPRGWWIKKRSGAPVAQPPLATPRPGHPTFWIRGQKASIRPFREAAGHISPAIDGFHPLVRLSGMIDSFGPPHPRGTCLVPRHRRSIDLTVTPDRFVEALRFANNLFLDLEARGHRVSVIPGRRVVRPPIDVWEHPPAHFQSRQAQLCSPRWPTVATLGDVAIGLAIVETHGEQEMQYIGDGQYRPLLDPKRSRSARVAGISWIEWQMQPQGRLRLVAYSLERNWRNEWSLEPRKATRHVGGIVDDIQNAAEMLREQPMTDGSIIRSTLHVHSTTSTTSDANGLSR				NA	NA	NA	NA	NA
BMS010_09447	1293	intA_5	COG0582	Prophage integrase IntA	ATGCAAAGAGCAAGACTTCACGACGACTACATCGAGAACCTCACCCCGACCACCGGATCGGCGTCACGCTATGAGGTCTATGACGAGAAGGTCAGCAACCTCGCTATCAGGGTCGGCGCACGAAAGAAGACGTTTATCGTCGTTGCGCGGTTCGGCGACAACGGCAAGACGGTCCGCCGGGCGATCGGCAGTTTCCCACAGACGAATACAGCGGAAGCAAGACTCCGGGCCGCAGACTGGAACCTTCTCCAGAAAGACGGCGTCGATCCGGCAGTCGAGGAAGCGGCGAAGAGAGATGCCGAGATCCTACGCCGCCGGTCGACGTTCGCGCTGGTCATGAAGGACTACATCGCCTACCTCCCGACACGCGAGCGCAATCGATCATCGGACGAGGACGCGGCGTTCATCATGGCCAACGTACTCAACCCTGTACGCAACACATGGATGCACAAGCCGATCTCGGAAGTGACCGACGAGGACGTGGCAGCGTTGGTCGAAGCTATAAAGGCCAGAGGACGAATGACGACCGCCTATAAGACGCTCAAGCAGCTCAGGACATTCTTCAATTGGACGATGCTGCCCTCCAGGCGGAGGCTGATCGGATTGGAACACAATCCCATTGTAAACCTGACGCCAAGGCTGATGGGTCTGCGCAAACGGTCGAGAACCAGGGTATTCGACTACAGGGAAATCCGCGCCTTTCTTGCAGCCGCAGCGGCGACCGCTCCACCCTACCGAGAGTGCTTCCGGGCGCTCATCGAGACCGGTCAGCGTATCGGCGAGGTTTCGAGAATGCGCTGGTCGCGCATCGACCTTGAAATGAAGACATGGCTCATCGAGGGCGGCACGTCGAAGGCGGAGGACGATCATACCGTCCCTCTATCAGACTCGATGATCGCCATGCTCGTCCGTCTGCGCGCCGATCACCAATACGACCAGGGCGACTTCGTCTTCAGCTCCTCACGCGGGAAGCACCCGCTGACAAACTTCAGCAAGATGAAGAAGGCCTTCCTGGAAACGTTCAACGCCAGTTTGCCTCCGAATGAGAATAACGAGCCGCGGCGGAATTGGACCTGGCATGACGTCCGGCGCACGGTAAGGACGCACCTCGAGGGGATTGTCGGCCGCAAGGAGGTGGCAGAAGCGGCGATCGGCCATTCGAAAAGCGGAATGGACCGCATCTACAACCACTACACGTACCGGCGCGAAGTGCGGAAGGCTTTCAACGAATGGTGCGAGCTCCTTGAAAAGATCGAGACCGGCTTGCTGACCATCCAGGAATGGGAGCACTAG	MQRARLHDDYIENLTPTTGSASRYEVYDEKVSNLAIRVGARKKTFIVVARFGDNGKTVRRAIGSFPQTNTAEARLRAADWNLLQKDGVDPAVEEAAKRDAEILRRRSTFALVMKDYIAYLPTRERNRSSDEDAAFIMANVLNPVRNTWMHKPISEVTDEDVAALVEAIKARGRMTTAYKTLKQLRTFFNWTMLPSRRRLIGLEHNPIVNLTPRLMGLRKRSRTRVFDYREIRAFLAAAAATAPPYRECFRALIETGQRIGEVSRMRWSRIDLEMKTWLIEGGTSKAEDDHTVPLSDSMIAMLVRLRADHQYDQGDFVFSSSRGKHPLTNFSKMKKAFLETFNASLPPNENNEPRRNWTWHDVRRTVRTHLEGIVGRKEVAEAAIGHSKSGMDRIYNHYTYRREVRKAFNEWCELLEKIETGLLTIQEWEH				NA	NA	NA	NA	NA
BMS010_09448	441			hypothetical protein	ATGGGACTTTTAAACATCATCCGTCGGATGAAGCTGCGCGAGAAGCAGTCGATCCGCGAGATCAGTCGGCATACCGGTTTGTCGCGCAACACGATTGCGAAGTATTTGAACGCTGGCACGATTGAGCCGACGTTCACGGTACCGGAACGACCGAGCAAGCTTGATCCTTTTGCCGACAAACTGGCGGCCTGGCTGAAGACGGAGGCCGGGAGGTCGCGCAAGCAGCGCCGAACGCTGAAGCAGCTTCACGCTGATCTCGTGGTTCTCGGGTTTACAGGCTCCTACGGTCGGGTCGCCGCCTTTGAGATAATATCCCGGTCGATCTGGAAGGAAAGGCCATATACTACGTCGGTCCCGTCGATGCTGTGGGCGACGAGGTTATTGATCCTGCGGGACCAACCACATCGACCCGAATGGACCGTTTCACTGACGAAATCCTGA	MGLLNIIRRMKLREKQSIREISRHTGLSRNTIAKYLNAGTIEPTFTVPERPSKLDPFADKLAAWLKTEAGRSRKQRRTLKQLHADLVVLGFTGSYGRVAAFEIISRSIWKERPYTTSVPSMLWATRLLILRDQPHRPEWTVSLTKS				NA	NA	NA	NA	NA
BMS010_09449	423			hypothetical protein	ATGCGCTGGCCCCAGGATGTGAATGGATTGTCCTCGGCAATCTACCGCGACCGTGACCGGCATTTCGTCCACTTCAAGCTCGTAAACTGCTTCCATACCGAGATCTTCATAGGCTACACGTCTGGCGCTTCTGACTGCCTTGGAGACAAGGTACGCGGCACCTCCAACGGCGATCAGGTAGGCCGCTTTATGCTTTGCGATGGAAGCGATTGCCTCCGCTCCCCGTTCTGCTTTACCGATCATGACTTTCAGGCCCGTGCCTGTCAGGATTTCGTCAGTGAAACGGTCCATTCGGGTCGATGTGGTTGGTCCCGCAGGATCAATAACCTCGTCGCCCACAGCATCGACGGGACCGACGTAGTATATGGCCTTTCCTTCCAGATCGACCGGGATATTATCTCAAAGGCGGCGACCCGACCGTAG	MRWPQDVNGLSSAIYRDRDRHFVHFKLVNCFHTEIFIGYTSGASDCLGDKVRGTSNGDQVGRFMLCDGSDCLRSPFCFTDHDFQARACQDFVSETVHSGRCGWSRRINNLVAHSIDGTDVVYGLSFQIDRDIISKAATRP				NA	NA	NA	NA	NA
BMS010_09450	396			hypothetical protein	ATGGAAGCGTATCCCAAACTGAGTGACGAACAACAAAATGCGCTGCTGCAAAGTTTAACGGCAGTAGGCGTGTCCAAGCCGATCGGCTATCTGCCACTCTACACGATCGAAAAACTCCTGCGCCTCATACCGGAGGCTCTTGCCGACGCTGCGGCAAAGCGTGGCCTCGCAACGGTTCAGCTCGATGCTGCGGCGTGTTGCATCAAGAGCGGTGCTCTTTATGCATACGATCGTCAGGCGCTTACGAGGCTTTTGCAAGTAAACGCTTATGCCGTCCATGCCGCTGGACTTCCGTTGGACCCGGATGAATTTGTAGTCCATGTCGCCAGCATATGGTTCGAGGAGCAACACCCAGCATATCGGGTTATAACCGCTGCATTTGGCGACAAAGCATAA	MEAYPKLSDEQQNALLQSLTAVGVSKPIGYLPLYTIEKLLRLIPEALADAAAKRGLATVQLDAAACCIKSGALYAYDRQALTRLLQVNAYAVHAAGLPLDPDEFVVHVASIWFEEQHPAYRVITAAFGDKA				NA	NA	NA	NA	NA
BMS010_09451	1653			IS66 family transposase IS66	ATGAGCGACGCGACCGAAGAGCCTCCGGACGACCTTGCCAGTGCCCTCGCATTGCTGGCCCAAGAACGCGCTCGACGTGTTGCAGCCGAAGCAGAAGCGGCAACCGCCAAGCCAGAAGCCGCCAGTGCAAAGGCACTCGTATCGCATTCCGAGGCGCTGATCGTGCGGCTGAAGCTGGAGATCGACAAGGTTCGCCGTGAACTCTACGGCAGCCGGTCCGAGCGCAAGGCGCGGCTCTTGGAGCAGATGGAACTGCAGCTCGAAGAATTGGAAGCGGACGCCGGTGAAGATGAGCTGGCGGCGGAGATTGCAGCCAAAGCTTCAGCCGTCAAAGCTTTCGAGCGCAAGCGCCCATCACGTAAGCCCTTTCCCGAACACCTGCCACGCGAGCGCGTCGTAATCGCCGCTCCCGCCAATTGCGCCTGCTGCGGATCGGCCAAACTGTCGAAGCTCGGTGAGGATATCACCGAGACTCTGGAAGTGATCCCGCGTCAGTGGAAGGTCATCCAGACGGTGCGGGAGAAGTTTACCTGCCGCGAGTGTGAGAAGATCACGCAGCCACCCGCACCATTCCACGTAACGCCCCGCGGTTTTGCCGGACCGAACCTGCTGGCGATGATCCTGTTTGAGAAGTTCGCCCAGCACCAGCCGCTCAATCGCCAGAGCGAGCGCTATGGCCGCGAAGGCGTCGATCTCAGCTTATCGACGCTGGCCGATCAGGTTGGAGCATGTGCCGCGGCATTGAAGCCCATTCACTCCCTGATCCATGCGCATGTCCTTGGCTCCGAACGTCTGCACGGCGACGACACGACCGTGCCGATCCTGGCCAAAGGAAAGACCGATACGGGCCGCATCTGGACCTATGTCCGGGACGATCGACCGTTCGGAGGCCTCTCCCCGCCGGCCGCCCTTTATTATGCCTCGCGCGATCGACGGCAGGAGCATCCGGAGCGCCACCTGAAGACCTTCACCGGGATTCTGCAGGCGGATGCCTATGGCGGCTACAATCCGCTGTTTAAGGGTGATCGCGATCCAAATCCTCTACGGCAGGCATTTTGCTGGTCACATTCGAGACGTAAGTTCTTTGTGCTCGCCGACATCGCGGCGAATGCCAAGCGTGGAAAGAACGCTGCGCCGATCTCGCCTATGGCGCTCGAAGCCGTCAAACGAATCGACACCCTATTCGATATCGAGCGCGAGATCAACGGGCTCACCGCCGATCAACGCCTGGAACGTCGCCGCAAGGACAGCCTGCCGCTCGTCGACGGTCTGCAGGCTTGGCTTCAAACCGAGCGGTTAAAGCTGTCACGCAGATCTCCGGTCGCAGAGGCCATCGACTACATGCTCAAGCGTTGGGATGGCTTCACGTCATTCCTGGACGACGGCCGGATTTGCCTGACGAATAATGCCGCCGAACGAGCTCTCAGAGGCTTTGCGCTCGGCGGAAAATCGTGGCTCTTCGCCGGGTCGGATCGAGGTGCGGATCGTGCAGCCTTCATGGCCACATTGATCATGACGGCAAAACTCAACGACATCGATCCGCAGGCGTGGCTTGCCTACGTTCTTGTCCGCATCGCTGACACGCCGATTACCAGACTGGAGCAATTACTTCCGTGGAATTGGCGTTGTCACCGAATTGAGGCCGCCGCTTGA	MSDATEEPPDDLASALALLAQERARRVAAEAEAATAKPEAASAKALVSHSEALIVRLKLEIDKVRRELYGSRSERKARLLEQMELQLEELEADAGEDELAAEIAAKASAVKAFERKRPSRKPFPEHLPRERVVIAAPANCACCGSAKLSKLGEDITETLEVIPRQWKVIQTVREKFTCRECEKITQPPAPFHVTPRGFAGPNLLAMILFEKFAQHQPLNRQSERYGREGVDLSLSTLADQVGACAAALKPIHSLIHAHVLGSERLHGDDTTVPILAKGKTDTGRIWTYVRDDRPFGGLSPPAALYYASRDRRQEHPERHLKTFTGILQADAYGGYNPLFKGDRDPNPLRQAFCWSHSRRKFFVLADIAANAKRGKNAAPISPMALEAVKRIDTLFDIEREINGLTADQRLERRRKDSLPLVDGLQAWLQTERLKLSRRSPVAEAIDYMLKRWDGFTSFLDDGRICLTNNAAERALRGFALGGKSWLFAGSDRGADRAAFMATLIMTAKLNDIDPQAWLAYVLVRIADTPITRLEQLLPWNWRCHRIEAAA	PGPT0030625_206	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030625-tnpB-K07484	NA	NA
BMS010_09452	348			hypothetical protein	ATGATCCCGCTTCCTGCTGGCGTGAAGGTCTGGTTGGCGACCGGCTACACCGACATGCGCAAAGGCTTCCCCGGTCTGTCGTTGATGGTGCAGGAGGCGCTGAAGCGAGACCCGATGTGTGGACACCTGTTCGTATTCCGCGGCCGGGGTGGCGGTCTGATCAAGGTGATCTGGCATGACGGCCAGGGAGCCTGTCTGTTCACAAAGAAGCTGGAGCGTGGCCGGTTCATCTGGCCATCAGCGGCCGATGGCACAGTGGTGATCACGCCCGCGCAGCTCGGTTATCTGCTGGAAGGTATCGACTGGCGGATGCCGCAAAAGACCTGGCGGCCGACGTCGGCCGGATGA	MIPLPAGVKVWLATGYTDMRKGFPGLSLMVQEALKRDPMCGHLFVFRGRGGGLIKVIWHDGQGACLFTKKLERGRFIWPSAADGTVVITPAQLGYLLEGIDWRMPQKTWRPTSAG	PGPT0030625_4917	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030625-tnpB-K07484	NA	NA
BMS010_09453	417			hypothetical protein	ATGACTGTCGAACCAGACAGCGCGGGTGTACGCGTCCCTCCGCCCTTGGTTTATTTGGGAGTGTTGCTGCTAGGGTTGGCGGCGGAGCATTTCGTCAACGTGCGCTCGTTCGGCATCGACTGGTGGCTCCTGGTCACGACGGGCGCGTTGCTCTTCGTTGGCGGTGCGGCGGTAATGCTTGCGGCGGCGGGGTTGTTCCGGCGGCTGGGCACCAACGTTCCGCCGTCGCAGCCAACGACCCTCATCGCCAAGACCGGTCCTTATCGGTGGACCCGCAATCCCATGTATCTCGGCATGGCGCTTATCTATGCCGGCCTTTCGATCGGCCTCGACGGGCCGATCGCCTTCGCCTCTCTCCCGTTGGTGTTGATCGTGATCCAGACGCAAGTGATAGCCCGCGAGGAGCGCTATTGTTGA	MTVEPDSAGVRVPPPLVYLGVLLLGLAAEHFVNVRSFGIDWWLLVTTGALLFVGGAAVMLAAAGLFRRLGTNVPPSQPTTLIAKTGPYRWTRNPMYLGMALIYAGLSIGLDGPIAFASLPLVLIVIQTQVIAREERYC				NA	NA	NA	NA	NA
BMS010_09454	894	trxB_3	COG0492	Thioredoxin reductase	ATGGATGACGTCATCATCATCGGCGGCAGCTTTGCTGGCCTCGCCGCAGCCCTTCAGCTCGGCCGTGCCCGCCGCAAGGTCACCGTTCTCGACACTGGCCTGCCGCGCAACCGCTTCGCCGGCCACTCGCATGGCCTACTCGGCCACGATCACAAGCCACCGCTGGACATCCTGGCTGAAGCACGGCGGCAACTGATGCGTTATCCCACGGTCAGTCTGGTCAACGCGCGGGCCGACAGCATCTCCGGCACCATCGACGATTTCACCGTCCGCACTGGCGATGACGAAAGCCTTGGAGCGCGCCGCCTGATCCTGAGTTATGGCGTCACGGACCAGATGCCTGATGTTCCGGGATTTGCCGAAAGCTGGGGCACATCCATCGTGCCCTGCCCCTATTGCGACGGCTTTGAAGTCGCCGACCAGCATTGGGGCCTCCTCTGGTCCGGCCTGCAGTCGCACAACCAGGTCAGGCTATTCCACGATTGGACTGACAGGTTGACGGTCTTCGCCGATGGTCACGACATTCCGCCTGATATCCGGGCCGATCTGGAGCGTCGCAACACACCTGTCGTCGATGGTCGGATCACTGAAGTCACGTGTCATGATGGTCACAATCCCACCCTCAAGCTCGATGTCGGACCCGACGTCGCGGTCGATATCGTGTTTGCGCATCCACGCAACAAGCCGTCCGCGAGCCTGCATGAATCACTGGGCATCGTTACGGTCGACACGCCCCTCGGCATTGTCCTCAAGGTCGACGAGCGCCGTGAAACCAGCATGCCTGGCATCTATGCTGCGGGCGACCTCACCAACCCCACGCTACCCTCGGCCACCACGGCATCATGGCAAGGCGCGATGGCGGGTATCTTCGCCCAGCAGTCGATGCTCGTTTGA	MDDVIIIGGSFAGLAAALQLGRARRKVTVLDTGLPRNRFAGHSHGLLGHDHKPPLDILAEARRQLMRYPTVSLVNARADSISGTIDDFTVRTGDDESLGARRLILSYGVTDQMPDVPGFAESWGTSIVPCPYCDGFEVADQHWGLLWSGLQSHNQVRLFHDWTDRLTVFADGHDIPPDIRADLERRNTPVVDGRITEVTCHDGHNPTLKLDVGPDVAVDIVFAHPRNKPSASLHESLGIVTVDTPLGIVLKVDERRETSMPGIYAAGDLTNPTLPSATTASWQGAMAGIFAQQSMLV				NA	NA	NA	NA	NA
BMS010_09455	666			hypothetical protein	ATGACCGAAAATAGTCGAGGCCGGCGCGGCCGGCCCGCCAACGTGGCTCTTGGCCAAACCATAGTCGACGCAGCAGGCGAACTCTTTGCGGAATTGGGTTTTCAAGCGACGACCTTGGACAAGGTCGCCCAGCGAGCAAAGATATCCAAGCTCAGCATCTATCGACACTTCGAGAACAAGGAGGCGCTATTTGGCGCGGCGTTTGCCGCCCGCTGCCAGAAGTTAATGCCGCAGGCCCTTTTTGAAGGCGTCGATGGTTCGGCCGAGGATCAGCTTATGGCGGTGGGATCATCGCTGCTTCGCACGCTGCTGCGCCCGGACGTCCGCAACGTCGAAGCCATGGTCATGGCCGACACGCCGAACCAAAAGTCGTTGAGCAAGGTCCATTACGAAGCCGGCCCCGCCCATATCATCGCCCAAATTGAGACCCTATTACGCCAAATGCATGTGAAGGCGGTCCTGAACGTGCCCGATCCTCTCCGGTCCTCCCGCTTGTTTGCCGCGATCTTCAAAGGATGCGATCTCCTGATGATCGCACGCTTCGATGAGGCGAGAGCAGAGGACGCCAACGAAATCGAATCCTATTGCCGGTCAGCCGTCGCCATGTTCATCGCCGCACACGGTGGCAACGACTCCGCAGGCGGATATCCCCGCCTGCAGTTGTAG	MTENSRGRRGRPANVALGQTIVDAAGELFAELGFQATTLDKVAQRAKISKLSIYRHFENKEALFGAAFAARCQKLMPQALFEGVDGSAEDQLMAVGSSLLRTLLRPDVRNVEAMVMADTPNQKSLSKVHYEAGPAHIIAQIETLLRQMHVKAVLNVPDPLRSSRLFAAIFKGCDLLMIARFDEARAEDANEIESYCRSAVAMFIAAHGGNDSAGGYPRLQL	PGPT0028895_657	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexJK-OprM,PGPT0028895-mexL-K18301	NA	NA
BMS010_09456	477			hypothetical protein	ATGGTCGGGATCAATTTCGGCGCCGGTCAAATAACGCGTGCCCGCCGGGTCGCATTGGTAGGCGGCGCGCTTGCCTTTGGCATAACGCAGATCATAGGTATCGCTGCCGCAGTGTTCCCGAACGCCTGGATGGGCCTGTTCAGCAGCGATCCGCTTGTGATGGAGATGGGAACACTTTACCTCCAAACAGTCGCGCCAACCTACGGCGCTGTCGGCCTCGGTTTGGCACTCTATTTTGCAAGCCAAGGGGCCAAACGCGTAGCTCTCCCCGTATTGGCCGGAACGGTCCGGCTCGCTATAGCAGGGTTTTTGGGCTGGATCGCCGTCCTATGCCTTGGAGCGAGTCTCGACACCCTCTTTCAAATCGTGGCAATCGCCGCCTTGGCTTACGGAGCGTTGACAGTTGCGGCTGTGATCTGGTCTCGATTGTTCGATGTACATGAAGCCGATGTCCTGGCCGGTCGAAGCCCCCACTGA	MVGINFGAGQITRARRVALVGGALAFGITQIIGIAAAVFPNAWMGLFSSDPLVMEMGTLYLQTVAPTYGAVGLGLALYFASQGAKRVALPVLAGTVRLAIAGFLGWIAVLCLGASLDTLFQIVAIAALAYGALTVAAVIWSRLFDVHEADVLAGRSPH				NA	NA	NA	NA	NA
BMS010_09457	570	hin_2	COG1961	DNA-invertase hin	GTGGGGGCAATTCTTGGATACGCGCGCGTCTCGACCGGCGATCAGGATGTCGCGGGTCAGACGCTGCGTCTCGAACAGGCTGGAGCGATCAAGGTGTTCGCTGATGTTAGGTCCGGCAAAAGCATGGACCGGCCCGGTTTAACGGAACTCATTGCCTACGCTCGTGCTGGCGACACACTCGTGATCGTTCGGCTCGACCGCCTCGGCCGCTCGCTGGCCGAATTGCTCGAAACTGTGAAAATGCTGCGCGAGCGCCAGATTGACCTACTGAGCCTCGAAGAAAAGATCGACACGTCATCGGCCGCTGGCGAACTGATCTTTCACGTCTTCGGAGCCATCGCTCATTTCGAACGGAGTCTGATCTCCGAACGCACCAAAGACGGTATCGCCACAGCCCGACTGAAAGGGAAAGTGCCAGGCCGCCAGCCTCTCGACATGAAAAGGGTCGAAGCAGCAATCAAACTCATCGAAGCTAAGACATCCCCGACCGAAGCCGCCAAGCAGCTTGGCCTTGGTCGCTCAACTGTCTACCGCGAATTACGACGTCTCGGTATTCAGAGACCTGCTTAA	MGAILGYARVSTGDQDVAGQTLRLEQAGAIKVFADVRSGKSMDRPGLTELIAYARAGDTLVIVRLDRLGRSLAELLETVKMLRERQIDLLSLEEKIDTSSAAGELIFHVFGAIAHFERSLISERTKDGIATARLKGKVPGRQPLDMKRVEAAIKLIEAKTSPTEAAKQLGLGRSTVYRELRRLGIQRPA				NA	NA	NA	NA	NA
BMS010_09458	891	benM		HTH-type transcriptional regulator BenM	ATGCTTGATTTGGGACAGGTCCGTTCATTTGTCGCCATCGCCGCCGAGCTGAATTTCAGCCGCGCGGCCCGGCGTTTGAATATGACCCAGCCTCCACTCAGCCGGCAGATCAAGCTGCTGGAGCAGGAACTCGACGTCACACTCTTCGAGAGAACCAGCCGCAGCGTCGTCCTGACGCCGGCAGGGGTAGCGTTTCTGGCAGAGGCACGGAAACTGCTTGAACAGGGGGATGCAGCGGTAACCGCGACAAGAAGGGCAGCACGCGGGAGTGCGGGAGCAGTGAAAATCGCCTTTGTCGGCGCGAGCACCTATAGCTTCCTGCCGAGGTTCATCAGTCGGGCGCGTACTGCCGCACCTCAGGTCGAACTCGAACTGGTGCAGATGGAAACGGCCGAGCAGCTTCAAGCGATCAATGCCGGCGATATCGATCTCGGACTTTCCCGCCCGCTTACCGGCAATCATCATCTGGAAAGCCTGTGCGTTGCGCGCGAACCCATGATGCTCGCCATCCCTCGCGCGCATCCGCTTGCCGCAAAACGCCGACCTGCGCTGGATGCGCTCAATGGTGAGCCCTTCATCATGTTTTCCCAGCCCGCACGCTATCTGCACGACAAGCTGACCAGACTGATAGAGCAGAACGGTATTGCCCCCCGCGTCGTTCAAAGCATGACCCATTCTCAGGCCATCCTCTCACTGGTCAGCGCCGGCATCGGCCTGGCGCTAGTTCCGGCCGGCACCCAAAACGCCTGCTTCGATGATGTGATCTTTCGATCCTTGGATTTGCGAGAAGAATGTGTTGCAGAGCTTCACGCCATTTGGAGTCCCGACAACCGCAATCCTTTGCTGCCGGAAGTACGCAACATCGTTACCCTTGGGCATATTACGTTATGA	MLDLGQVRSFVAIAAELNFSRAARRLNMTQPPLSRQIKLLEQELDVTLFERTSRSVVLTPAGVAFLAEARKLLEQGDAAVTATRRAARGSAGAVKIAFVGASTYSFLPRFISRARTAAPQVELELVQMETAEQLQAINAGDIDLGLSRPLTGNHHLESLCVAREPMMLAIPRAHPLAAKRRPALDALNGEPFIMFSQPARYLHDKLTRLIEQNGIAPRVVQSMTHSQAILSLVSAGIGLALVPAGTQNACFDDVIFRSLDLREECVAELHAIWSPDNRNPLLPEVRNIVTLGHITL				NA	NA	NA	NA	NA
BMS010_09459	1173		COG4948	L-talarate/galactarate dehydratase	ATGGATACGCAGCCAGCAAAAACCGGCCACCGGCAGCAGGCCCTCGGCGCAGACAGCATTGCCTGGATAAAGCTTTCTTCGATTTTCCTGCCGCTGAAGGCGCCGATAAGCGATGCAAAGGTTTTGACCGGCAGGCAGAGGCCTTTGACCGAAGTCGCTTTTCTCTTTGCGGAAATAGAGACGAAGCACGGCCATAGCGGCATTGGGTTCAGCTATTCCAAGCGTGCCGGTGGTCCCGGTCAATATGAACACGCCAAGGAGATCGCGAGCGTCCTTATCGGCGAAGACCCGAACGACAATGGCAAGCTGTGGAACAAGCTTTGCTGGGCCGGAGCGTCGGTCGGCCGCAGCGGGCTTGCCGTCCAGGCGATTGCAGCCTTCGATGTGGCCTTGTGGGACCTCAAGGCGAAACGTGCAGGCCTGCCGCTTGCCAAGTTGCTCGGCGCCCACCGCGATTCCGTGCAATGCTATAACACATCAGGTGGCTTCCTGTCGTCGCCGATTGAGGAAGTTCTCGATAATGTCGAGCGCTCGATTGCTGCGGGCATAGGTGGGATCAAGATCAAGGTCGGTCAGCCCGATATGGCTGTCGATCTCAAACGCGTTGCGGCGGTGCATGAGCGCATCGGCGGCAGGGTGGCGATGATGGTTGATGCTAACCAGCAGTGGGATCGCCCCACCGCTATGCGTTTCGGCCGTCTCATGGAGCCCTATAATCTGACATGGATCGAAGAGCCGCTCGATGCCTATGATGTCGAAGGCCATGCGGCGCTCGCCGCAACGCTCGATACACCGATCGCAACCGGCGAAATGCTGGCGAGCGTTCTGGAGCATATCTCGTTGATTGAGAATAAATCCGTCGATTTCATCCAGCCCGATGCGCCGCGCGTTGGAGGCATCACGCAATTCCTGAAAATCTGCGCGCTGGCAGAGTCCAGGAAGCTGCAGCTTGCGCCCCATTTCGCCATGGAAATCCACCTCCATCTGGCGGCCGCCTACGAGCTTGAGCCTTGGGTGGAGCATTTCGACTGGCTCGATCCGCTTTTCAACGAGCGGCTGGAGATCAGGGATGGCCGCATGCTGGTGCCAAGCCGGCCAGGTCTTGGCTTTACGCTTTCGGAACAGGCCGATCACTGGACGCGGGCCACGGCGGAATTTGGCAAGCGGCCGTAA	MDTQPAKTGHRQQALGADSIAWIKLSSIFLPLKAPISDAKVLTGRQRPLTEVAFLFAEIETKHGHSGIGFSYSKRAGGPGQYEHAKEIASVLIGEDPNDNGKLWNKLCWAGASVGRSGLAVQAIAAFDVALWDLKAKRAGLPLAKLLGAHRDSVQCYNTSGGFLSSPIEEVLDNVERSIAAGIGGIKIKVGQPDMAVDLKRVAAVHERIGGRVAMMVDANQQWDRPTAMRFGRLMEPYNLTWIEEPLDAYDVEGHAALAATLDTPIATGEMLASVLEHISLIENKSVDFIQPDAPRVGGITQFLKICALAESRKLQLAPHFAMEIHLHLAAAYELEPWVEHFDWLDPLFNERLEIRDGRMLVPSRPGLGFTLSEQADHWTRATAEFGKRP	PGPT0018185_90	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_TALARATE_DEGRADATION,PGPT0018185-talrD_galrD-K20023	NA	NA
BMS010_09460	1026	gntR_4		HTH-type transcriptional regulator GntR	ATGGCCGACTACGAGAAAAGAAGTTATGTCGCACCAGGCGGGCCGGTCACGCTCGCCGACATTGCAAAGCTCGCGGGCGTTTCGCCGGTCACGGTTTCCCGGGCGATCAATACTCCCGCTCTGGTCAAGCCCCGCACGCTGGAGGTGATTGAGCGGGTGATCGCAAAAACGGGTTACGTGCCTAATCTGTTGGCTGGCGGCCTTGCTTCCCGGCGCACCCGGCTGATCGCTGCGATCGTCCCAACCGTTTCCAGCACGATCTTTGCCGAGACTATCGAGGGGCTTAACGCTGAACTCGTCGCCGCCGGCTATCAACTGCTGCTTGGCCTTTCCGGTTATGACAATGCCCGCGAGCTGGAACTGACACGCGCGATTTTGGCACGCCGTCCCGATGGCATCGTCCTCACCGGCATCACGCATCTTAAAGGGACACGCGCCATGTTGACAGGCGCGGGCTTGCCGATTGTCGAGATATGGGATTCCACCCCCTCACCGCTCGACACTGCGGTCGGCTTCTCGCATGCGGCGGTTGGCGCTCTGGCGGCCGAGCATCTGCTCGTCAAGGGCTACGACCGCTATGCCCAGATCGGTGCCAACGATCCCCGCGCCGTTCAGCGCCGCGACGGTTTCGTCGGTCGCCTCAGAGGGGTCGCGGATGTCGAGTTACCAGCGCTGGAAATGAATTCACCCTCTACCTTTCGGGACGGCAGATTGGCGATGGCGCAGCTTCTGGACAGTGGGCAGGGCACGCTCGGCGTATTCTGTTCATCGGACGTCGTCGCCCACGGCGCCCTGGCGGAAGCAAACGCACGCGGCTGCAGCATACCCGATCAGCTTGCCGTTATCGGTTTCGGCGATTTTGACTTTGCTCCCTACACACACCCGCCATTGACAACGATCCGTATCGATCGCCGTGACATCGGCACCAAGGCAGCGCGCTCCATTCTCAGAAAGATAGAAGGCGACGGCAATGTGGAGGCCATGATCAATATCGATTTCCACATCGTTGCCCGCGGCACCGCCTGA	MADYEKRSYVAPGGPVTLADIAKLAGVSPVTVSRAINTPALVKPRTLEVIERVIAKTGYVPNLLAGGLASRRTRLIAAIVPTVSSTIFAETIEGLNAELVAAGYQLLLGLSGYDNARELELTRAILARRPDGIVLTGITHLKGTRAMLTGAGLPIVEIWDSTPSPLDTAVGFSHAAVGALAAEHLLVKGYDRYAQIGANDPRAVQRRDGFVGRLRGVADVELPALEMNSPSTFRDGRLAMAQLLDSGQGTLGVFCSSDVVAHGALAEANARGCSIPDQLAVIGFGDFDFAPYTHPPLTTIRIDRRDIGTKAARSILRKIEGDGNVEAMINIDFHIVARGTA				NA	NA	NA	NA	NA
BMS010_09461	981			hypothetical protein	ATGAACCTCAAGCGTTTCATGACGTTTGCGGCTGTCACAGCCGCAATATCCGCAACCGGTCTCCAGTCCAGTTTTGCCGAAGACTATCCGTCCAAGACGGTGACCGTCATTGTTCCTTTTGCCGCAGGCGGCAATACGGATACATTCGGCCGCCTTGTGGCTGAAGAATTGGACAAGAGGCTGGGACAACGTTTCATCGTTGAAAACAAGCCCGGTGCCGGCGGCAATATCGGCCTTGGCGACCTAGCGCGGTCAAAGCCTGATGGCTATACGATCGGTATGGGAACGGTCAGTTCCAACGCGATCAATCAGACGCTCTACAAGACCTTGCCTTATGACAAGGAAAAGGGATTTGCGCCGATTTCGCTGATTGCAAGCCTGCCGAACGTGCTGGTTGTCAATCCGGATAAGATAAAGGCGAATTCCGTCCAGGAGTTGATCGCCTTCCTGAAGGCGGAGCCGGGCAGGCACACTTACGCCTCTTCCGGCGTTGGCACGTCCATCCATCTTGCGGGCGAGCTTCTGGCCACCAAGGCCGATCTCAAGATCACGCATGTGCCTTACAAAGGCAGCAGCCAGGCCATTCTCGACGTTGTTGGTGGCCATGTGGACATGATGTTCGATAATATTCCGACCGCTGCCCAGCAGGTGAAGGCCGGCAAGGTCAAGGCGCTCGCCGTCACCAGCCTGGAAAAAGCCAGCCTGCTGCCCGACGTGCCAACCATGGCAAGCGTCATTCCCGGTTTCGAGGCGACCTCGTGGCATGGTTTGTTTGCGCCTCCCGGCACCCCGCCGAAAATTGTCGAAAAGCTCAGCAAGGAAGTCCAGGAGATCATTGCGGATCCGGCGATAAAAGCGAAACTCGAAGCAATGGGTGTGACGCCGGTCGGCAATACGTCGGCCGAATTCCAGGCGTTCATCGACAAGGAAACGACGAAGTGGGCCGAGGTCATCAAGGCCGCGAACGTCCCGCCGCAGTGA	MNLKRFMTFAAVTAAISATGLQSSFAEDYPSKTVTVIVPFAAGGNTDTFGRLVAEELDKRLGQRFIVENKPGAGGNIGLGDLARSKPDGYTIGMGTVSSNAINQTLYKTLPYDKEKGFAPISLIASLPNVLVVNPDKIKANSVQELIAFLKAEPGRHTYASSGVGTSIHLAGELLATKADLKITHVPYKGSSQAILDVVGGHVDMMFDNIPTAAQQVKAGKVKALAVTSLEKASLLPDVPTMASVIPGFEATSWHGLFAPPGTPPKIVEKLSKEVQEIIADPAIKAKLEAMGVTPVGNTSAEFQAFIDKETTKWAEVIKAANVPPQ	PGPT0017360_1711	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017360-tctC-K07795	NA	NA
BMS010_09462	480			hypothetical protein	ATGCTGAAGATAAAAAACGGTCGCGACTTCGCCGGCGGCGTGACGATGATTTTTGCCGGCCTGTTATTCATCTGGTTCGGTCGCAATCTGGAGATCGGGAACTCGTTCCAGATGGGCCCTGGTTATTTCCCGACCATGCTGAGCCTGATCTTGATGGCGCTTGGCGCGTTGATCCTCATCCAGTCGCTGATGGTTGGCGTTGAAGAGGGTGAGACCGAAACCTGGAACTGGAAAGCTTATTTTCTGGTGATCCTCGCTCCCGTCGGCTTCGGTCTGGTGGTGGCATGGCTTGGCCTTGCGCCCACGATGTTCCTGCTCATCGTTGGGGCCTCGGCTGCCAGTGGTTATGCCAACTGGCGTCACTCCATCCTGCTGGGCGTTTTCCTGGCGGGGTGCTCGGCCCTGCTTTTCACCAAGCTCTTGGCGCTCCCTCTTCGTGCCTTCGGACCGTGGATCCCCTTTATCGGTGACTTTTTCTAG	MLKIKNGRDFAGGVTMIFAGLLFIWFGRNLEIGNSFQMGPGYFPTMLSLILMALGALILIQSLMVGVEEGETETWNWKAYFLVILAPVGFGLVVAWLGLAPTMFLLIVGASAASGYANWRHSILLGVFLAGCSALLFTKLLALPLRAFGPWIPFIGDFF	PGPT0017355_1536	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017355-tctB-K07794	NA	NA
BMS010_09463	1500			hypothetical protein	ATGGACATCATTTCTAACCTTTGGCTCGGCGCATCGACCGCTTTCCTGCCGATGAACCTGCTCTACGGCTTCATCGGTTGTCTTCTGGGAACTGCGATCGGGGTGTTGCCGGGGCTTGGACCAACGGCCACGATCGCGATGCTCCTCCCGATCACCTTCGGCTTGCCGCCGGAATCCGCCCTCATCATGCTGGCCGGCATCTTTTATGGCGCGCAGTATGGCGGCTCGACAACGGCCATTCTCATCAATCTGCCGGGGGAAAGCTCTTCCGTCGTCACCGTGATTGACGGTTACCAGATGGCCCGCAACGGCCGTGCCGGTACGGCTCTCGCAACCGCGGCCCTCGGCTCCTTCTTTGCCGGCACGGTGGCGACCATCCTGCTTGCGCTTGCCGCGCCGCCGCTTGCCGCGGTCGCGCTCAATTTCGGACCGGCCGAATATTTCTCGCTGATGGTTCTCGGTCTTGTCGCCTCCGTTGCGCTGGCAAGCGGCTCTCTGCTGAAGGCCTTCGCCATGATCCTCTTCGGCCTGCTGCTTGGCACTGTGGGCACCGATGTTGAAAGCGGCACGCCACGCTATGTCTTCGATATTCCAGAACTCTATGATGGATTGAATTTCGTTGCCGTCAGCATGGGCATATTCGGTATTTGTGAAATCCTGCGCAATCTGGAAAACGAGCAGGAGCGTTCGGTTGGCGTCAAGCGTGTGACGGGACTGATGCTGACGAAGGACGATTTCCGGCGAATTTGTGCGCCCGTTTTGCGTGGCACCGCACTTGGGTCCTTCCTCGGTGTTCTGCCGGGCGGTGGGGCTATGCTGGCCTCCTTCGCTGCCTATGCTGTGGAAAAACGGGTTTCTCCCAACCGGGTCGAGTTCGGCAAGGGTGCGATCGAAGGGGTTGCTGCCCCTGAAGCCGCCAACAATGCCGGCGCGCAAACATCGTTCATTCCCATGCTCACCCTCGGCATTCCCGGAAACCCGGTCATGGCGTTGATGGTCGGTGCGATGATAATCCAGGGCATCACGCCCGGCCCGAATGTGATCTCCGAGGAGCCGAGCCTGTTCTGGGGCATGATCGTCTCCATGTGGTCGGGTAACCTCATGCTCGTCATTCTGAACCTGCCGCTGATCGGGCTTTGGGTCCGGATGCTGACCGTGCCTTACCACCTTTTATTTCCGGCGATCATCGGCTTCTGCTGCATCGGCGCTTACAGCATCAACAACAGCGTTTTTGATGTCTTCGTCATGGCAGGTTTCAGCATTGTCGGTTTTGCATTGAGCAAGATGCGTTTCGAACCGGCGCCGTTGCTGCTCGGCTTCATTCTGGGGCCGATGCTGGAGGAAAATCTGCGCCGTGCGATGCTGATCAGCCAGGGCGATCCGACGATCTTTCTGCGCAGCCCGCTTAGCCTGTCGCTGTTGATCTTTGCGGTTGCGGTGCTGGCGCTGGTACTGTCGCCGAGCATCAGCCGCAAACGGGAGGAAGCGTTCACCGAATAG	MDIISNLWLGASTAFLPMNLLYGFIGCLLGTAIGVLPGLGPTATIAMLLPITFGLPPESALIMLAGIFYGAQYGGSTTAILINLPGESSSVVTVIDGYQMARNGRAGTALATAALGSFFAGTVATILLALAAPPLAAVALNFGPAEYFSLMVLGLVASVALASGSLLKAFAMILFGLLLGTVGTDVESGTPRYVFDIPELYDGLNFVAVSMGIFGICEILRNLENEQERSVGVKRVTGLMLTKDDFRRICAPVLRGTALGSFLGVLPGGGAMLASFAAYAVEKRVSPNRVEFGKGAIEGVAAPEAANNAGAQTSFIPMLTLGIPGNPVMALMVGAMIIQGITPGPNVISEEPSLFWGMIVSMWSGNLMLVILNLPLIGLWVRMLTVPYHLLFPAIIGFCCIGAYSINNSVFDVFVMAGFSIVGFALSKMRFEPAPLLLGFILGPMLEENLRRAMLISQGDPTIFLRSPLSLSLLIFAVAVLALVLSPSISRKREEAFTE	PGPT0017350_2877	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017350-tctA-K07793	NA	NA
BMS010_09464	660			hypothetical protein	ATGGAAACATCGCTTTATCTGCCCATCAAAGGCTTTCTTGAAAAGGCGGGTTACACCGTCAAGGGCGAAGTTGACGGTTGCGACCTCGTCGGTTTGAGCGATGGCGATCCGCCGGTTGTCGTGATTTGCGAGCTGAAACTGAGTTTCAATCTGGAACTCATTTTGCAGGCCGTCGATCGCGCGGCTATCGCCGATGAAGTCTGGATCGCGGCGCGGGTCTCGGCCAGGGGTAAAGGCCGCGAAGCCGACAGGCGTTACCGCGACCTTTGCCGCAGGCTCGGGATCGGCATGCTCGGTATCGGCGATACCGGCGAGGTCAGCATGATCGTTGGTTCGATATCGCCGATGCCGCGAACCAATCCGAAACGGCGGTCGCGGCTCATGCGTGAACACCGGAAACGACGCGGCGATCCAACAGCAGGCGGAAGCACCCGCGCGCCGATCATGACCGCGTATCGCCAGCAAGCGCTTGGCTGCGCTTTGGCGCTGTCGTCAGGGCCGATGCGTGTGCGTCAGGTCAGGTCCAGCATTCCGGAGGCGGGGAAGATCCTGCTTGCGAATGTTTATGGCTGGTTTGAGCGGCTCGATCGAGGAGTGTATGGCCTGACGCCGGCTGGATGTGAAGCCTTGCAGCGATGGCCGCAGCAGGACCGCATTTGA	METSLYLPIKGFLEKAGYTVKGEVDGCDLVGLSDGDPPVVVICELKLSFNLELILQAVDRAAIADEVWIAARVSARGKGREADRRYRDLCRRLGIGMLGIGDTGEVSMIVGSISPMPRTNPKRRSRLMREHRKRRGDPTAGGSTRAPIMTAYRQQALGCALALSSGPMRVRQVRSSIPEAGKILLANVYGWFERLDRGVYGLTPAGCEALQRWPQQDRI				NA	NA	NA	NA	NA
BMS010_09465	156			hypothetical protein	ATGGGCAGCAATTCGCAGCTGATCAGGGCAAAGCTGACGACGCTTAACGAGATGATCGACGGGCATGTCGAGATCGGCCAAGAGATTTTCCTTGAAACGTTTCAGACATCATATCCCCCCAGTCACCGCTCACGGCAATTGCATTGGCAGACTTAA	MGSNSQLIRAKLTTLNEMIDGHVEIGQEIFLETFQTSYPPSHRSRQLHWQT				NA	NA	NA	NA	NA
BMS010_09466	693			hypothetical protein	ATGAACCACAAAATCGTTTCAGCCAAAGACTGGCTCGCCGCCCGGCGGGATTTTCTGAAAGCGGAGAAAGAGCTTACCCGACACCGGGACGAGGTCGCCCAAAAGCGGCTGGCGCTGCCATGGGTGCGGGTCGAGAAGGAATATGTGTTCGAAACGCTCGATGGCCCCAGAACGCTTGCCGATCTTTTCGATGGCCGATCGCAGATTCTGGTGCAGCATTTCATGTTCGCGCCGGGATGGAAGGAGGGTTGCCCCAGCTGCTCTTTCATGGCCGATCATACCGATGGCATGAACAATCATCTTTCGCATCACGACGTTACCATGATCGCCGTATCACGTGCACCGCTCGCCGACCTCGAGCGCTATCGTAAACGGATGGGCTGGCGCTTCAAATGGGTGTCGTCCTTTGGAAATGACTTCAATCACGATTTCAGTGTCAGCTTCACACCCGACGAGGTCGCCTCCGGCAAGATCGACTACAATTTCGGAGAGTGGCCGGAACTAGGCGAGGAATGGCCGGGCATCAGCGCCTTCTACAAGGACGACGCCGGCCAGGTCTTCCGCACCTACTCCACCTATGGGCGCGGCGTCGAGGCGATGATGGGTACCTATCAGCTACTCGATCTCGCCCCGAAGGGACGCAACGAAGCCGAAGGAATGGACTGGGTCCGCCGCCACGATCGGTACGAATAG	MNHKIVSAKDWLAARRDFLKAEKELTRHRDEVAQKRLALPWVRVEKEYVFETLDGPRTLADLFDGRSQILVQHFMFAPGWKEGCPSCSFMADHTDGMNNHLSHHDVTMIAVSRAPLADLERYRKRMGWRFKWVSSFGNDFNHDFSVSFTPDEVASGKIDYNFGEWPELGEEWPGISAFYKDDAGQVFRTYSTYGRGVEAMMGTYQLLDLAPKGRNEAEGMDWVRRHDRYE				NA	NA	NA	NA	NA
BMS010_09467	225			hypothetical protein	ATGCCGCTGATCGGCAGCGCGACCGGCGGGGACGCGAAGATTATCGCCTGCATGTCGTTCGCAGAAATCCAGGCCATCAACGCGAAGGTTGGCGAAGCTGCAAGAACGAACCAGCCTGTGACCCCGCCTGATCGCGGGGTGTCCGAAGAGCGTTTTCTCGTTGGTTTGGACATTGTCATTACTGAATTCCCATTAAGGTTCGACAATGCTTCCTGCGATGCTTAA	MPLIGSATGGDAKIIACMSFAEIQAINAKVGEAARTNQPVTPPDRGVSEERFLVGLDIVITEFPLRFDNASCDA				NA	NA	NA	NA	NA
BMS010_09468	1221			hypothetical protein	ATGGACCCTCTGATGATCTTCGCGGCGCGGGCGCTAGCGGCGGGTGATCCGCTTGCAGCGCTCAAGCGCATCGCCCTGCGCGCCGATGCTCCCGCACTCGCCCTGCGCGGCATTGGCATGGCGCAGCTCGGCGACCTTGCGCGGGCGAAAGAACTACTGGGAAGCGCGGCGCGCGCTTTCGGCAATCGGGAGCCTGTGGCCCGTGCGCGATGCAACGTTGCAGAGGCAGAGATCGCGTTGGTCTTGCGTGACCTTGGCCGTCCCATGGAGGGACTCGCCGCCGCCCGCTCTACCCTGGAGGCATTCGGAGACTTCGCGAACGCCGCGCATGCCGGCTATCTCGAAGCAAGGCGTTTGCTGTTGATCGGCCGTCTCGACGAGGCGGAGCGGGTTCTGGACGGCCTCGATGCTGGTGCGTTGCCGATGACATCGCGGGTAGGCTACGAGTTGGTAGTCGCGGGCATCGCGATGCGCCGCATACGCGCGAAGCCGGCTCGTGATGCGCTCGATCGCGCAGAAAACGCCGCGGAGGTGGTTGGCAATGCTGCATTGAAAGCCGAAGTCAATAGAGCCGTACGGGCCTTCGATGCGCCTGCCGCGCGGCTGGTCGCGCGTAATGGAGAACGGCTTCTTCGGCTTGATGAGGTGGAGGCGCTCATTGCATCGGGGGCGCTTGTCATCGATGTGTGCCGGAACGTCGTGCGTGTCAATAAAGCCTTCGTTTTTCTCGCGAATCGTCCGGTCCTGTTCGCGCTCATGCGCGTGCTCGGTGAGGTTTGGCCGGAAGATGTCCCGCGGGAGGAGCTTCTCGTCCGCGCCTTTCGCTCACGGGAGGCAGATGAATCGCACCGCGCTCGACTGCGGGTTGAGATCGGGCGTCTGCGCGAGGCAATCAGGCCCTTGGCGCAGATACGCGCCACCGAGCAGGGGTTCGTATTGGAGTCCCATGACGGCGGTGCGGTCGCGGTGCTTGCGCCGCCCGTCGAAGAAAAGCATAGCGACGTGCTGGCGCTTCTCGCCGATGGCGAGGCCTGGTCCAGCTCCGCGCTGGCGCTCGCGCTCGACGTCAGCCCGCGCACGGTGCAGCGGGCGCTCGATACTCTTGAGAAAAATGATAAGGTGGAGTGGTTCGGCCACGCACGCGCCCGTCGCTGGATTGCGACGAGCGTTCCGGGTTTTCCGACAAGCTTGTTACTCCCCGCCATCGGCATTTCAGGCTAG	MDPLMIFAARALAAGDPLAALKRIALRADAPALALRGIGMAQLGDLARAKELLGSAARAFGNREPVARARCNVAEAEIALVLRDLGRPMEGLAAARSTLEAFGDFANAAHAGYLEARRLLLIGRLDEAERVLDGLDAGALPMTSRVGYELVVAGIAMRRIRAKPARDALDRAENAAEVVGNAALKAEVNRAVRAFDAPAARLVARNGERLLRLDEVEALIASGALVIDVCRNVVRVNKAFVFLANRPVLFALMRVLGEVWPEDVPREELLVRAFRSREADESHRARLRVEIGRLREAIRPLAQIRATEQGFVLESHDGGAVAVLAPPVEEKHSDVLALLADGEAWSSSALALALDVSPRTVQRALDTLEKNDKVEWFGHARARRWIATSVPGFPTSLLLPAIGISG				NA	NA	NA	NA	NA
BMS010_09469	651			hypothetical protein	ATGAAACACACAGCCGCCGAAATTATCCGTGAATATGGCCCTTTTCCCGGAGTGGATCACGTTCATGGGGTCAGCTTTGACGGCCGCCGCGTCTGGATGGCGACAGGCGGAAAACTGGAGGCGTTTGATCCTGACAGTGGAGACGTGCTGACCTCGCTCAATATTGCTGCGGATGCTGGCACGGCATTCGACGGCGAGTACCTGTTCCAGATTGCTGAAGCAGCGATTCGGAAGGTCGATCCACAGACCGGCGAGGTGCTCGCCACGATTCCCGCCCCCGGCAATGGAGGCGATTCCGGCCTTGCCTGGGCTGAAGGTTCGCTCTGGGTCGGGCAACATCGGGGCCGCAAGATCCATCAAATCGATCCCGAGACGGGAAAGGTGCTGCGAACGATCGAAACTGATCGCTTCGTTACCGGGGTCACGTGGGTCGACGGCGAGCTCTGGCACGGTACGTGGGAGAACGACCAAAGCGATGTCCGCCGCATCGATCCTTCAACCGGTGAAGTGCTGGAGCGTTTGGATATGCCGGCGGAAATGGCAGTTTCGGGGCTTGAATCCGACGGACGCGATCGGTTTTTCTGCGGCGCTGGCGATAGCCCCAAAGTTCGCGCAATACGCAGGCCAAAGCGATCTGAAACCCCAATGTGA	MKHTAAEIIREYGPFPGVDHVHGVSFDGRRVWMATGGKLEAFDPDSGDVLTSLNIAADAGTAFDGEYLFQIAEAAIRKVDPQTGEVLATIPAPGNGGDSGLAWAEGSLWVGQHRGRKIHQIDPETGKVLRTIETDRFVTGVTWVDGELWHGTWENDQSDVRRIDPSTGEVLERLDMPAEMAVSGLESDGRDRFFCGAGDSPKVRAIRRPKRSETPM				NA	NA	NA	NA	NA
BMS010_09470	639			hypothetical protein	GTGAAACAAGAGGCAATTCGCCGGTTTGTGCGATCTTTATTCGATGGCCCTCTCGGCGGTAACCGTCGGCCTGCGAGAAAGTGGTTGTCGCTTTGCAGCGTCAGCCCGAACGAGGTTGCCAGCTCGGAACAATTACATGCACTGCCGTTCCGGGTCGCCGACAGTCCGCTCTCGCGGCGGCTCTGCCGTTTTGTGGTGCCGATCAAATGGCAGGTTTCAGGTGGCAGTGCCATCGGTCGCCTGAAGCGTTGCGCCGATCAGCGTGGTGTTTTCGGCAACCTTGATGTCGATGCCCTGCGCAGCGACAATGCCCGAGCCGGAGGACCACTCCTTGAAGCCGTCCTCCTTCGAGCCGCGAACGCTCCAGTCGGCCGGGTTCACGCCAACCGTCAGACCGAAGGAGAAGCCGTCGCGCCAGCCCTGCGCCTGTGGCGAGAGGATGGTGAGATCGCGCCCGACATCGAGATTGACCGTCCCGCCGATGATGTTGCCGCCGAGAAGCGCCGTATCGCGGCCCGATGTCAGCGAGACGTTTCCGGCGGCGGTGATGGAGGCATTCGTCAGCGTCTCGTCATAGCCTTTCGACTTGCCGATATCGAAGCCGATCGAGGACAGGGAAAGCTGCAGGCCGCTTCATAA	MKQEAIRRFVRSLFDGPLGGNRRPARKWLSLCSVSPNEVASSEQLHALPFRVADSPLSRRLCRFVVPIKWQVSGGSAIGRLKRCADQRGVFGNLDVDALRSDNARAGGPLLEAVLLRAANAPVGRVHANRQTEGEAVAPALRLWREDGEIAPDIEIDRPADDVAAEKRRIAARCQRDVSGGGDGGIRQRLVIAFRLADIEADRGQGKLQAAS				NA	NA	NA	NA	NA
BMS010_09471	462			hypothetical protein	TTGCCGGAGCAGGACATCGCCGCCAGCAGAACGCTGGTCCTGCGCGTTGTGCCCGGGCGGATCGATGCGGTGGTCTACAAGGAGCAGCAGCCCGATAAGGCATTCTTTCCCCACATGGCGGAATTGAGTGGCAACGTCGCACGTTCCACCTCGATTTCCGAGTTCGTGCAGCAAGCAGACGCCTGGTGGGAGGGTATCGATGACGATCTCGAACGCCTGACCTTGTTGCCGCCGTTCGCCCGGATCGCGATGACTGGCACAATTGCCAAAGACGATGTCCTGCATGTCGATCGCCTCCAGGACACACTCGATAGCCTCAACAGGGTTCCTTCGAACAAGGCAAAGGCGGAGCTTGTTCCGGGCAAAAGGCCGGCGACTTCCGATGTGCAGATCACGAACCGCATCAATGACGCGTTCAGGCTCTACGGCGGTTACACGCCACGAAGGCGATTTTTTAAATAA	MPEQDIAASRTLVLRVVPGRIDAVVYKEQQPDKAFFPHMAELSGNVARSTSISEFVQQADAWWEGIDDDLERLTLLPPFARIAMTGTIAKDDVLHVDRLQDTLDSLNRVPSNKAKAELVPGKRPATSDVQITNRINDAFRLYGGYTPRRRFFK				NA	NA	NA	NA	NA
BMS010_09472	759			hypothetical protein	ATGTCTGGATCGTCAGGGCAGGCTCCTGCGATGCGGCGACACCTGGAACTGCCTGGCCAGCGTTTGCCGCCACCGGGTTGCGTTCCGTTTGTGCACAATGAGATTATCGGTGCGGAGATTGCCGGAACGCAAACGTCGATCAGTCTGCGACCTCCCGGGGGGATCGATTGGCGTGGGGTTGTCTACAGCGACAAAATGGCGGTGAGACCAAAACGGAGTGACGATATGAAAAACGGAGCATGCACGTTCCGGCGTCGGTACCTCAAGGTATCGACAATCAGCTGCCTTGCCGCATTGTTGAGTTTCGGGGAAGCCGCGGCCACGCCGGCGAATATGACGGTGGAGCGCCTTCTCACCATCTGTGAAGCGCCCACTGTGCAAGAAGCGATGGTGAACGGCGACAAACTCGATTGGCAGCGTCTGTCCAATACCGACGTTGAGGAGTGGCGTCGCAGCTTCGCCGGTTATAATGGCGGTTCTGTTGATGTCGTGGGATGGCGCCATGAGGTGGAAGGCGGCGCGGAGTTACTGTCGTTCTGGATTGCCGCTGGACCTGATGGACACAAGGCGTGCGCATACACCACGCCAAGACCCTCCGGCTTTCTGGATGCGTTATCGGACCGGCTTGGGGCTCCAGACAATCTCGACAAGAATGATGTTATGGAAAGTGTAACCGCGGGGTGGAAGCGGGGCGCGGTCGATTATTCCTTTGTTCAGGTCGGCACGTCCGCCGTCATTAATATCAGCTCAAGTCGATGA	MSGSSGQAPAMRRHLELPGQRLPPPGCVPFVHNEIIGAEIAGTQTSISLRPPGGIDWRGVVYSDKMAVRPKRSDDMKNGACTFRRRYLKVSTISCLAALLSFGEAAATPANMTVERLLTICEAPTVQEAMVNGDKLDWQRLSNTDVEEWRRSFAGYNGGSVDVVGWRHEVEGGAELLSFWIAAGPDGHKACAYTTPRPSGFLDALSDRLGAPDNLDKNDVMESVTAGWKRGAVDYSFVQVGTSAVINISSSR				NA	NA	NA	NA	NA
BMS010_09473	903			hypothetical protein	GTGCCGGTTGGAGCAAGGCTGAAACAGACAAAGCACGATGCTGACCACTACGGCTTGCGTCGAGAAGAAGCTGCCGGGGCACACCGCGGTGCCGGCTGGTGGGTGAGCCTCAGGCGGCGCGGCCACAGGATTGTCAGGCTGTTCAAGGACAGCATCTACGGTTCGGGCGATGCAGCCTATCGTCAGGCACGCGCCTACCGTGACGCCATTATCCTTGCCATCCCGCCCGCCACCAATCACGAGCAGGCCGTGCTTCTGCGCAAGAACAATCGGAGCGGAATTTCCGGCGTGAGGCGCGTCGAGACGGCGGATGGCGATGTCTGGCAGGCAACTTTGATGACCAATGAGGGGCAAAAAAGAGAGAACTTCTCCGTCGCCAAACTAGGCGAAGAGGCGGCAAAGTCGATGGCGATCACGCAACGGCGCCAATGGCTGAGGGCCCTGCCGGTGACACATCTTGCCTATGCCCATCACGCCGCGGAAGTGGCGCGCGCGCAGTTCGCCGACGAACTTGCGTCGGCGGATGATGTTTTGCCTGAGGTGCGTCTCGCCGATGCTGACATCGAGGCGCGTATCAAGGAAATTAACGACCGGTTTGACGCGTCTCGCCCGAAGCGACTGCGGGTTCGGGTCAAGAGCTACGCGACGGACAGGGTCTCCATCGTTGTCTCCGATGCGGGAAGCCCTGCGCGAAAGAAGCTCAGACATCTCAATACGCGGGACAAGAGCGCGATCGGAATCATAGACGCGATCAACAGAACCGTCCGGGAAACCGTAACGGCAATTCATGATGACAGGATCGCGTGCTGGTTCAGTTCCACCTATGGCAACAAACTGCTCAATCCGCAGACATTCAATATTGATGAGGGGTTCAACGTGCTTGTTATTGTGCCCCGGGAATAG	MPVGARLKQTKHDADHYGLRREEAAGAHRGAGWWVSLRRRGHRIVRLFKDSIYGSGDAAYRQARAYRDAIILAIPPATNHEQAVLLRKNNRSGISGVRRVETADGDVWQATLMTNEGQKRENFSVAKLGEEAAKSMAITQRRQWLRALPVTHLAYAHHAAEVARAQFADELASADDVLPEVRLADADIEARIKEINDRFDASRPKRLRVRVKSYATDRVSIVVSDAGSPARKKLRHLNTRDKSAIGIIDAINRTVRETVTAIHDDRIACWFSSTYGNKLLNPQTFNIDEGFNVLVIVPRE				NA	NA	NA	NA	NA
BMS010_09474	267			hypothetical protein	ATGCAGCTCCGTCACCAGGCCGTTGAAGGGGCGGCGAACACCGCCGCCATCGCCGTCGCCCTGGCTGATCTCGATGGAAATATCGACCAGCCGTCCGATCAGCTCTTCGGGCTTGACCGCTTCCTTCTGGGCACGCACCGTCAGGCGAATGTCGAAGAGCTGCGATACGCCCTCCTCGACGGACAGGCGCTCTGGCAGAAGCTGATTCTCGCCCAAAGGCGACTTGACCTTGAGCACACGACTCGCCTGAATGAAGTCAGAGGATGA	MQLRHQAVEGAANTAAIAVALADLDGNIDQPSDQLFGLDRFLLGTHRQANVEELRYALLDGQALWQKLILAQRRLDLEHTTRLNEVRG				NA	NA	NA	NA	NA
BMS010_09475	459			hypothetical protein	ATGCGCATCGTCCAAGCCACCCTCGAGCACCTGGACCAGTTGACCCCGCTGTTCGTCAAATACCGCGAGTTCTATGGCGAGTTGCCTTACCCCGACTCGTCGCGCAAATTCCTCGAAACCCGCCTGCGCCGCAAGGAATCGGTGATCTACCTGGCCATGCCGGACGACGAGGACAAAATCCTCGGCTTCTGCCAGCTCTACCCGAGCTATTCATCCCTGTCGCTCAAGCGCGTGTGGATTCTCAACGACATCTACGTCACCGAAGAGGCCCGCCGCCAGTTGGTGGCCGACCGCCTGCTGCAAACGGCGAAGAAAATGGCCAAGGAGACCAACGCGGTACGCATGCGCGTCTCCACCAACGCCGACAACGAAGTGGCGCAGAAGGTCTACGAATCCATCGGATTCAAGGAAGACAAGCAGTTCAAGAACTACGTGCTGCCGATCAACAACGACGAATGA	MRIVQATLEHLDQLTPLFVKYREFYGELPYPDSSRKFLETRLRRKESVIYLAMPDDEDKILGFCQLYPSYSSLSLKRVWILNDIYVTEEARRQLVADRLLQTAKKMAKETNAVRMRVSTNADNEVAQKVYESIGFKEDKQFKNYVLPINNDE				NA	NA	NA	NA	NA
BMS010_09476	825	eutC	COG4302	Ethanolamine ammonia-lyase light chain	ATGAAAGACCGCACCCCCGCCACCGAGAATCCCTGGCAGCAACTGCGCAACCTGACCCCGGCACGGATCGCCCTCGGCCGTGCCGGCACCAGCCTGCCGACCGGCGCGCAACTGGACTTCCAGTTCGCCCACGCCCAGGCGCGCGACGCCGTGCACCTGCCCTTCGAGCACGAGGCCCTTGCCGAGCAACTGGCCGCCCGTGGCCGGGAAACCCTGCTGCTGCACAGCGCGGCCGGCGACCGCGACCAGTACCTGCAACGCCCCGACCTCGGTCGCCGCCTGGACGACGCCTCGGCACGGTTGCTGGATGAACACGCCGCCACCCATCCCGAGGGCTACGACCTTGCCATCGTCGTCGCCGATGGGCTCTCGGCCCTGGCCATCCACCGGCACGCCGCGCCCTTCCTGCAACGTCTGGACGAGCAGATGGCCGGCGACGGCTGGTCGCTGGCGCCCATCGTCCTGGTCCGCCAAGGCCGGGTGGCGGTGGCCGACGAGATCGGCGAACGGCTCAAGGCGAAGATGACGGTGATCCTGATCGGCGAGCGCCCCGGTCTCAGCTCGCCGGACAGCCTCGGCCTGTACTTCACCTACGGCCCGCGGATCGGACTGACCGATGCCTGGCGCAACTGCATTTCCAACGTGCGCCTGGAAGGGCTCAGCTACGGCATGGCGGCGCACCGGCTGCTTTACCTGATGCGCGAGGCCTGCCGGCGACAGCTCTCCGGGGTCAACCTGAAGGATGAAGCGGAAATGCACAGCCTGGAAGGCGAAGGCGGCGCACCGACACGCGGCAATTTCCTCCTCCCCAGCCTCGATGCCTGA	MKDRTPATENPWQQLRNLTPARIALGRAGTSLPTGAQLDFQFAHAQARDAVHLPFEHEALAEQLAARGRETLLLHSAAGDRDQYLQRPDLGRRLDDASARLLDEHAATHPEGYDLAIVVADGLSALAIHRHAAPFLQRLDEQMAGDGWSLAPIVLVRQGRVAVADEIGERLKAKMTVILIGERPGLSSPDSLGLYFTYGPRIGLTDAWRNCISNVRLEGLSYGMAAHRLLYLMREACRRQLSGVNLKDEAEMHSLEGEGGAPTRGNFLLPSLDA	PGPT0000610_380	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_GLYCEROPHOSPHOLIPID-ETHANOLAMINE_AMMONIA-LYASE_ACTIVITY,PGPT0000610-eutC-K03736	NA	NA
BMS010_09477	1395	eutB	COG4303	Ethanolamine ammonia-lyase heavy chain	ATGTCCAGCTTTTCCCATTCCATCGGTGGCGAGACCTGGCGCTTCGACAGCCTGCGCGAGGTCATGGCCAAGGCCAGCCCGGCGCGCTCCGGCGACTTCCTCGCCGGGGTCGCCGCTGCCAGCGACGCCGAGCGGGTCGCGGCACAGATGACCCTGGCGGACATCCCGCTCAAGCAGTTCCTCGACGAAGCGCTGATCCCCTACGAAGACGACGAAGTCACCCGGCTGATCATCGACAGCCACGACCGTGCCGCCTTCGCCCCGGTCAGCCACCTCACGGTCGGCGGCTTCCGCGACTGGCTGCTTTCCGAGCAGGTCGACGAAGCCGCCCTGCGTGCCCTGGCGCCGGGCCTGACGCCGGAAATGGCGGCGGCGGTATCGAAGATCATGCGGGTGCAGGACCTGGTGCTGGTGGCGCAGAAAATCCGCGTGATCACCCGCTTTCGCAACACCATCGGTTTGCGCGGGCGGATGGCCACCCGCCTGCAACCGAACCACCCCACCGACGACCCGGCCGGGATCGCCGCGAGCATCCTCGACGGCCTGCTCTACGGCAACGGCGATGCGGTGATCGGCATCAACCCGGCCACCGACAGCATGGCCGGCATCGCCGAGCTGCTGAAAATGCTCGACGCCATTATCCAGCGCTACGAGATTCCCACCCAGGCCTGCGTGCTGACCCACGTCACCACCTCCATCGAGGCCATCGAGCGCGGCGTGCCGCTGGACTTGGTGTTCCAGTCCATCGCCGGCACCGAGGCGGCCAACGCCAGCTTCGGCATCAGCCTGAAGATTCTCCAGGAAGGCTACGAGGCGGGCCTCTCGCAAAAGCGCGGCACCCTCGGCGACAACCTCATGTACTTCGAGACCGGCCAGGGCAGCGCGCTGTCGGCCAACGCCCACCATGGCGTCGACCAGCAGACCTGCGAGGCCCGCGCCTACGCCGTGGCACGCGCCTACAAGCCACTGCTGGTGAACACCGTGGTCGGCTTCATCGGCCCGGAGTACCTGTACAACGGCAAGCAGATCATCCGCGCCGGCCTGGAGGATCACTTCTGCGGCAAGCTGCTCGGCGTGCCCATGGGCTGCGACATCTGCTACACCAACCATGCCGAGGCCGACCAGGACGACATGGATATGCTGCTCACCCTGCTGGGCGTGGCGGGCATCAACTTCATCATGGGCATTCCCGGCTCCGACGACGTGATGCTCAACTACCAGACCACCTCCTTCCACGACGCCCTCTACGCCCGCCAGACCCTGGGCTTGAAGCCGGCGCCGGAATTCGAGGCCTGGCTGGAACGGATGGGCATCCTCATCCAGCGCGACGGCCGCGTGCGCCTCGGCGAGCAACTGCCGTCGGCGTTCCGCCAGGCGCTGGCGCAGTTGGGCTGA	MSSFSHSIGGETWRFDSLREVMAKASPARSGDFLAGVAAASDAERVAAQMTLADIPLKQFLDEALIPYEDDEVTRLIIDSHDRAAFAPVSHLTVGGFRDWLLSEQVDEAALRALAPGLTPEMAAAVSKIMRVQDLVLVAQKIRVITRFRNTIGLRGRMATRLQPNHPTDDPAGIAASILDGLLYGNGDAVIGINPATDSMAGIAELLKMLDAIIQRYEIPTQACVLTHVTTSIEAIERGVPLDLVFQSIAGTEAANASFGISLKILQEGYEAGLSQKRGTLGDNLMYFETGQGSALSANAHHGVDQQTCEARAYAVARAYKPLLVNTVVGFIGPEYLYNGKQIIRAGLEDHFCGKLLGVPMGCDICYTNHAEADQDDMDMLLTLLGVAGINFIMGIPGSDDVMLNYQTTSFHDALYARQTLGLKPAPEFEAWLERMGILIQRDGRVRLGEQLPSAFRQALAQLG	PGPT0000605_488	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_GLYCEROPHOSPHOLIPID-ETHANOLAMINE_AMMONIA-LYASE_ACTIVITY,PGPT0000605-eutB-K03735	NA	NA
BMS010_09478	1449	potE		Putrescine transporter PotE	ATGGCTCTTGAACAAAGCAGTGCAGCCCCCGTCGGGCAAGGCACCGATTTCGAGCAGGTCAGTGCCGATTACTTCCACCATCGCCAACTGAAGAAAGGCGCCGCCGGCTGGGTCCTGCTGGTGGGCCTCGGGGTCGCCTACGTGATTTCCGGCGACTATGCCGGCTGGAACTTCGGCCTGGCCCAGGGCGGCTGGGGCGGTCTGTTCGTCGCCACCCTGCTGATGGCCACCATGTACCTGTGCATGTGCTTCGCCCTGGCCGAACTGTCCTCGATGATCCCCACCGCCGGCGGCGGCTACGGTTTTGCCCGCAGCGCCTTCGGCCCGCTCGGCGGCTTCCTCACCGGCACGGCGATCCTCATCGAATATGCCATCGCCCCGGCGGCCATCGCGGTGTTCATCGGCGCCTACTGCGAGTCGCTGTTCGGCCTCGGCGGCTGGATGATCTACCTGGCCTTCTATGTGCTGTTCATCGGCATTCACATCTTCGGCGTCGGCGAGGCGCTGAAGCTGATGTTCATCATCACTGCCGTCGCCGCCATCGCCCTGGCGGTGTTCATCGTCGGGATGGTGCCGCATTTCTCGGTGGACAAGCTGCTCGATATCCCGGCGACCGAAGCGGCCGGCGCCAGCGCATTCCTGCCGTTCGGCTACGTCGGTATCTGGGCGGCGATCCCCTATGCGATCTGGTTCTTCCTCGCCGTGGAAGGCGTGCCGCTGGCTGCAGAGGAAACCAAGGACCCGCAGCGCGACATGCCGCGCGGTCTGATCGGCGCCATGCTGGTGCTGCTGGCCTTCGCCGGGCTGATTCTGCTGGTCGGTCCGGGCGGCGCCGGCGCCAATACCCTGGTCGCCTCCGGCAACCCGCTGGTGGAGGCATTGACCACCGCCTACGGCAAATCCACCTGGATGAGCGGCTTCGTCAACCTGGTCGGCCTGGCCGGCTTGATCGCCAGTTTCTTCTCGATCATCTACGCCTACTCGCGGCAGATCTTCGCCCTCTCCCGCGCCGGCTACCTACCGCGCAGCCTGTCGCTGACCAACAAGAGCAAGGCGCCGGTGCTGGCGCTGGTGGTACCCGGCATCATCGGCTTCGCCTTGTCGCTGACCGGCCAGGGCGACCTGCTGATCCTGGTGGCGGTGTTCGGCGCAACCATCTCCTACGTGCTGATGATGGCCGCGCATATCGTGCTGCGCCTGCGCCGTCCGGAAATGCACCGCCCCTACCGCACGCCCGGCGGCATCCTCACCTCGGGCGTCGCCCTGGTGCTGGCGTGCGTCGCGGTGGTGGCCGGCTTCCTCGTCGATCCGCGGGTGGTGATCGGCGCGGCTATCATCTATGGCGTGCTGATCGCCTATTTCGCCTTCTACAGCCGTCACCACCTGGTGGCCGGCACGCCGGAAGAGGAATTCGCCGCCATCGAAAAGGCCGAAGCGGCGCTCAAGTGA	MALEQSSAAPVGQGTDFEQVSADYFHHRQLKKGAAGWVLLVGLGVAYVISGDYAGWNFGLAQGGWGGLFVATLLMATMYLCMCFALAELSSMIPTAGGGYGFARSAFGPLGGFLTGTAILIEYAIAPAAIAVFIGAYCESLFGLGGWMIYLAFYVLFIGIHIFGVGEALKLMFIITAVAAIALAVFIVGMVPHFSVDKLLDIPATEAAGASAFLPFGYVGIWAAIPYAIWFFLAVEGVPLAAEETKDPQRDMPRGLIGAMLVLLAFAGLILLVGPGGAGANTLVASGNPLVEALTTAYGKSTWMSGFVNLVGLAGLIASFFSIIYAYSRQIFALSRAGYLPRSLSLTNKSKAPVLALVVPGIIGFALSLTGQGDLLILVAVFGATISYVLMMAAHIVLRLRRPEMHRPYRTPGGILTSGVALVLACVAVVAGFLVDPRVVIGAAIIYGVLIAYFAFYSRHHLVAGTPEEEFAAIEKAEAALK				NA	NA	NA	NA	NA
BMS010_09479	1521	adh_5	COG1012	Aldehyde dehydrogenase	ATGCGTTACGCCCAACCCGGTACCCCCGGCGCCATCGTTTCCTTCAAGTCGCGCTACGGCAACTACATCGGCGGTGAGTTCGTCCCGCCGGTGAAGGGCCAGTACTTCACCAACACCTCTCCGGTGAACGGCCAGCCGATCGCCGAATTCCCCCGCTCCACCGCCGAAGACATCGACAAAGCCCTCGACGCCGCTCACGCCGCCGCCGATGCCTGGGGCCGCACCTCGGCGCAGGAGCGCTCCAACGTCCTGCTGAGGATCGCCGACCGCATCGAGCAGAACCTCGAACTGCTCGCCGTCACCGAAACCTGGGACAACGGCAAGGCGGTGCGCGAAACCCTCAACGCGGACATCCCGCTGGCCGCCGACCACTTCCGTTACTTCGCCGGCTGCATCCGTGCCCAGGAAGGCGCCGCCGCTGAGATCAACGATAAAACCGTGGCCTACCACATCCACGAGCCGCTGGGTGTGGTCGGGCAGATCATCCCGTGGAACTTCCCGCTGCTGATGGCCGCCTGGAAACTCGCCCCGGCCCTGGCCGCCGGTAACTGCGTGGTGCTCAAGCCGGCCGAGCAGACCCCGCTGGGCATCTGCGTGCTGATGGAGCTGATCGGCGACCTGCTGCCGCCAGGCGTGCTCAACGTGGTGCAAGGCTTCGGCAAGGAGGCCGGCGAGGCGCTGGCCACCAGCAAGCGCATCGCCAAGATCGCCTTCACCGGCTCGACCCCGGTGGGCGCACACATCCTGCGCTGCGCCGCCGACAACATCATTCCGAGCACCGTCGAGCTGGGCGGCAAGTCGCCGAACATCTACTTCGAAGACATCATGCAGGCCGAGCCAGCGTTCATCGAGAAAGCCGCCGAGGGCCTGGTCCTGGCCTTCTTCAACCAGGGCGAGGTCTGCACCTGCCCGTCCCGCGCGCTGGTGCAGGAATCCATCTACCAGCCGTTCATGGCTGAGGTGATGAAGAAGGTCGAGCAGATCAAGCGCGGCGACCCGCTGGACACCGACACCATGGTCGGCGCCCAGGCTTCGCAGCAGCAGTTCGAGAAAATCCTCTCCTACCTGGAAATCGCCCAGAGCGAAGGCGCGGAAGTGCTGACCGGCGGCGGAGTGGCCAAGCTGGAAGGCAACCTGGCGAGCGGCTACTACATCCAGCCGACCCTGCTGAAGGGTCACAACAAGATGCGTGTGTTCCAAGAGGAAATCTTCGGGCCGGTGGTGGGCGTCACCACCTTCAAGGACGAAGCCGAAGCCCTGGCCATCGCCAACGACACCGAGTACGGCCTCGGCGCCGGTGTCTGGACCCGCGACATCAACCGCGCCTACCGCATGGGCCGCGGCATCAAGGCCGGCCGTGTGTGGACCAACTGCTACCACCTGTACCCGGCGCACGCCGCGTTCGGTGGCTACAAGAAGTCCGGCGTCGGCCGCGAAACCCACAAGATGATGCTCGATCACTACCAGCAGACCAAGAACCTGCTGGTCAGCTACGACATCAATCCGCTGGGCTTCTTCTAG	MRYAQPGTPGAIVSFKSRYGNYIGGEFVPPVKGQYFTNTSPVNGQPIAEFPRSTAEDIDKALDAAHAAADAWGRTSAQERSNVLLRIADRIEQNLELLAVTETWDNGKAVRETLNADIPLAADHFRYFAGCIRAQEGAAAEINDKTVAYHIHEPLGVVGQIIPWNFPLLMAAWKLAPALAAGNCVVLKPAEQTPLGICVLMELIGDLLPPGVLNVVQGFGKEAGEALATSKRIAKIAFTGSTPVGAHILRCAADNIIPSTVELGGKSPNIYFEDIMQAEPAFIEKAAEGLVLAFFNQGEVCTCPSRALVQESIYQPFMAEVMKKVEQIKRGDPLDTDTMVGAQASQQQFEKILSYLEIAQSEGAEVLTGGGVAKLEGNLASGYYIQPTLLKGHNKMRVFQEEIFGPVVGVTTFKDEAEALAIANDTEYGLGAGVWTRDINRAYRMGRGIKAGRVWTNCYHLYPAHAAFGGYKKSGVGRETHKMMLDHYQQTKNLLVSYDINPLGFF	PGPT0007176_880	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_METABOLISM,PGPT0007176-aldB-K00138	NA	NA
BMS010_09480	1917	acoR_4	COG3284	Acetoin catabolism regulatory protein	ATGCATGCGAATCACCTGATCCGCCATGCGCAGCAGGTTCTGACGGTGGCCCAGGGCAAGGCGCAGGCCAGCGGTCCGGCGGCCGATCCATCGATTGCCCGCTCCTGGCTGCGTTGCCTGGAGCAATACCACCTCGACCCCGCCCTGCCGATGGCGCCCGCGGTGCTGGAACACGGCCGCATGCTGGAATGCCGCGAGCGCCTGCAACAGGTGCTGGAAATCGCCAACGGCGAAATGAACAGCCTGTACCGCCAGCTCTCCGGCTCCGGCCACGCCGTACTGCTCACCGATTCCCGCGGAGTCATCCTCAATTGCGTCACCGCCGCCGCCGAGCGGCCGACCTTCGAGCGCGCCGGCCTCTGGCTTGGTGCCGACTGGAGCGAGGCCCGCGAAGGCACCAACGGCATCGGCACCTGCCTGGTGGAACGCCAGGCGCTGACCATCCACCAGGACGAACATTTCCGCAGCCGCCACACCGGCCTGACCTGCTCGGCGAGCCCGGTGTTCGACCCCTACGGCGACCTGCTCGCGGTACTGGACGTTTCCTCGGCGCGCCATGACGTGTCGCGGCAGAGTCAGTTCCACACCATGGCGCTGGTCAACCTCTCGGCGAAGATGATCGAGAGCTGCTACTTCCTGCGCCGCTTCGAGGGCGAGTGGCTGCTGCGCTTCCACCTGCAGGCCGACTACGTGGGGCTGTTCAGCGAAGGGTTGCTGGCGTTCGACGGCGAAGGGCGGATCAAGGCGGCCAACCAGAGCGCGCTGAACCTGCTCGGCGGTGCCCGCGAACAGTTGCTCGGGCAGCCGCTGGAAGCCTTCTTCGATTGCCGGCTGGACGACCTGCTCGGCCGTGCCAGCCCGCAGCCCGCCGCGTCCTGGCCGTTGCGCACGCGCCAGGGGCGCCTGCTGTTCGCCAGCCTGCGCGGCCAGCCACGCAGCCTGCCGGTACCGCCGCCGGCCGCACCGGTCGACGTGCAGGCGAAGCCAGCCGCATCGGGCCTGTGCCTGGGCGATGAGCGGCTGCGCAACGATTTCCGCCGGGCCCTGCGCGTGTTCGAGCGCGACGTGCCGCTGCTGCTCCACGGCGAGACCGGCTCCGGCAAGGAAGCCTTCGCCAAGGCGGTGCACCAGGCCAGTTCGCGGGCGGGCAAACCCTTCGTCGCGCTGAACTGCGCGGCGATCCCGGAAAGCCTGATCGAGAGCGAGCTATTCGGCTACCGCGGCGGCACCTTCACTGGCGCACGCAAGGAAGGCATGCGCGGCAAGCTGCAACAGGCCGACGGCGGCACCCTGTTCCTCGACGAAATCGGCGACATGCCGCTGGCGTTGCAGACCCGCCTGCTGCGCGTGCTGGAGGAGCGCCAGGTGGTGCCCATCGGCGGCGAGGCGCAGACGGTGGACGTGCGTATCGTCAGCGCGACCCACCGGGCCCTGGACGAGCGCGTGGTGGCCGGCACCTTCCGCGAAGACCTCTACTACCGCCTCAATGGCCTGGTGCTGGACCTGCCGCCCCTGCGCGCGCGCAGCGACAAACCGGAATTGCTGGAACACCTGCTGGCCGAGGAAGCGCGCGGCGAGGACATCCGCCTGGAACGCGCCGCCCGCGAGGCACTGCTCGCCTACGACTGGCCGGGCAACGTGCGCCAGTTGCGCAACGTACTGCGCACCCTGGCGGCCCTCTGCGAAGACGGCCGCGTGCGCCTGGACGACCTGCCCACGGAAATCCGCCAGGCCCTCGACGCCAGCCAGGCGGAAGAAACCGCCGTGGGCCCGCTGGAAGAGGCGGAACGCACCACCCTCATCGCCGCCCTCGACAGCCAGCGCTGGCACATGACCCGCACTGCCGAGCAACTCGGCATCAGCCGCAACACCCTGTACCGCAAGCTGCGCAAGCACGGCATCGGGACGCGGGGGTGA	MHANHLIRHAQQVLTVAQGKAQASGPAADPSIARSWLRCLEQYHLDPALPMAPAVLEHGRMLECRERLQQVLEIANGEMNSLYRQLSGSGHAVLLTDSRGVILNCVTAAAERPTFERAGLWLGADWSEAREGTNGIGTCLVERQALTIHQDEHFRSRHTGLTCSASPVFDPYGDLLAVLDVSSARHDVSRQSQFHTMALVNLSAKMIESCYFLRRFEGEWLLRFHLQADYVGLFSEGLLAFDGEGRIKAANQSALNLLGGAREQLLGQPLEAFFDCRLDDLLGRASPQPAASWPLRTRQGRLLFASLRGQPRSLPVPPPAAPVDVQAKPAASGLCLGDERLRNDFRRALRVFERDVPLLLHGETGSGKEAFAKAVHQASSRAGKPFVALNCAAIPESLIESELFGYRGGTFTGARKEGMRGKLQQADGGTLFLDEIGDMPLALQTRLLRVLEERQVVPIGGEAQTVDVRIVSATHRALDERVVAGTFREDLYYRLNGLVLDLPPLRARSDKPELLEHLLAEEARGEDIRLERAAREALLAYDWPGNVRQLRNVLRTLAALCEDGRVRLDDLPTEIRQALDASQAEETAVGPLEEAERTTLIAALDSQRWHMTRTAEQLGISRNTLYRKLRKHGIGTRG	PGPT0001030_1225	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0001030-acoR-K21405	NA	NA
BMS010_09481	255			hypothetical protein	ATGCCTGACTACCGTCCCTTACCCACCTTCGCCGCCAACGGCCGGCCCGTGCTGTTCGTCGATGTCGACCTCGCCGTAGATGAACTCTACGAAGCCGGGCAGCAACGCCTGGAGGCGGCGCGCCGGCTGGCGCTGCTGTTCATGTGTGGAGAACAGCCCGTGGAGGATGGCGATGCCTTCGCGGCGGTCTACCTGCTCTTGAGCGATGCGGCGGGTTTGCACGAGGCCGCATTCCAAAGGGCACGCCAGCGCTAG	MPDYRPLPTFAANGRPVLFVDVDLAVDELYEAGQQRLEAARRLALLFMCGEQPVEDGDAFAAVYLLLSDAAGLHEAAFQRARQR				NA	NA	NA	NA	NA
BMS010_09483	2655			hypothetical protein	ATGACCAATACAGCAAAAGTTGAGCAATGGAGCTTTCCCTTCAAGGCGAAGGGGGCCGAAGGCCAGTCGAGCAAGATAATTACCGACCCCCAGCAGTATTACGATGCACTGGCCAAAGCCGAAAGCGGCTATTACCCCATCGGTCGTAATGGGCTTTGGCATGGTGGCGTGCATTTCGACAAAGCCACCGCAGGCGTTCTGGATCAATCTTCCATCCACTGCATTGCGGACGGTGAGGTGGTTGCTTATCGCATCGATGAGCGCTATCCCATATCGAACTACAGTTCCGGCGCCAAAATTTATTCGAAAGGCTTCGTGCTGGTTAGGCACAGGCTTGAGGTGCCCAAACCACCCGCAACTGTCGGCTCATCCCCTCCGACAGAGCCCACTGCACCACAGCCATCGTTGACTTTCTTCAGCCTCTACATGCACCTGCTGGATTGGGAGGGATATGGAAAGCCGGGCGCCCCAACACCACCCACTTTTCTTTGCGAAACGCTTTATAGCGTCAAGCCGGAGCGTGCGACAGATAGCACTGTCGGCCTGCGGGTACGTGCCGAACCCAATGGCAGCGCTACCGTAAAAGCACTCCTACCAAAAGGCACCAAGGTCCGGTTGGGTGAAGTCGGCGGTGCGACACATAAATGGCGCAGACTCTCCAGTATCGAGGAAGGGGCCGCCGTACCGGCATTGACTATTGATGAGGCCTGCTGGGTATTTCCTGGCGAGCTGCAGAACACCTCGGAGCCTGACGTATTTCTTGTGGGAGAAAGAGCGAATGACGCCGAGCCGACCCTCGCATCGGACAAGGGACTTAATGTTCGCAAGACCGGGAGCCTATCAGCTCCGAAAACAGGCCTTGTTCCCGCGGGAACAAAATTCACCCTGGAACCAGGTAGCGGTAGCTACCGGAAATTGAAAGAAATCGTCGAAGGTAAGGACATCGCTCCGCTCCATCCGAGCAGCACGAAGAATATCCAGGGATTCATTTATTTTCCCTATCTGAAGACCAGCAAGGCGACACCAACCCTGAACAGCACCCATATTCTGGAAACCCCCGTCCCGGTCAAGGCTGGAGCGGTCATTGGTCATGTTGGCGTTTATCAGAACCGTGACGATGGATTGCCCAGCCCGCTTGTCCATATCGAGGTTTTCAGTTGCGAGGATGTTCCAGGCTTTATTACCAAGAGCAAAGCCGTCGCCTCCTCCTTACCGGCCGAGCAGAAGACGCTGCTGAAAGTCCATAAGAACGCCAGCAAGCTCATCACCCACCGCCCCGACATCACTGCCGAGAATCCGCCGAAAGTAAGCGATCCGGGTGTGGTTGTGGGAGTCGATATGATTCTGAGCCTGGGGATACTCGACAGCCTGCCCGCAGATCGCAAAATCACTGTGAAGGAAACCATTCCCGGCACTACAACACCCAAGATGACCACTTGGTGGCGCCTAGATAATCTCTTCATCGACACGAGCGGAAATCCGGTTGGCGGCTGGCTTTGTGAGCAACCCGAAATCACCACCCGTCATAGCCCTTGGGAATGGGAAGGTTTCGATTTCATCAGCGAAACACCTTGTAACGCCGATTATCTCGCTTGTCATCTGGACGCTACCGGTGCTCTGGAGCCTTCCGAACAAGCGGACTACGCTGCCCGGATCGATCAGGCCGATAACGGACCGGTGAAAACTAGGCTCTACGACATCATCGATGGTGCTGATGGCAGCGCTCGGGATAAAAAACTAACACCGGACGAAATTCGAGCGGCCTTGGAAAAACCATGGCATGCCCAGTCGATATCCCGCCTTATCGCTCACTATGAGAGTGAGTGGTTTTGGAAAGCTGAAAAATGGAATGAGTTGGATGCTTTGATGTCACCCGGCGGAATGGAAAATCAAGATTGGCTGGAAGAGAAAAAGCGGATTGAGGATTTGGCTTGGTGGAAAGAGGTAGGCCTATTATCTATTAATGGTCTTGCTTGGAATTTTCAACCGGTAGCGCTCTTGGCAACACTTGGCGCGTTAGATCTAGATGATTCATTAAAATGGTTAGAAGTGCAAAATGGGCAGCTAACATTTGATGTCGAAGGTAACGATATCGAAGACGCTTCGCATCCTTTGCATATTTATTTCAGTAGGGTGGCACATTGGCCGGGAGGTGCATCTGGCGTGACCATCGGAAGGGGATATGATTTGGGGCAACGCCCAAGTCCAGAACATGATCTCGCCTCTGCAAAAATTGCAGAACCTCTCCATAGTTGGCTGCTTGGGGCTAAAGGTTTAAAAGGTCAGGCTGCAAGGGATTATTTGAGCGCTGCCAGTCCTGAAATAAGAGCTATGAAGATTACGAGGAGGCAACAGTACGATCTCTTTGTTCCAGTATATGAGCTTATGAAGAATGAAGTGATAAGGATTTCCGGGTCTAGCTCTAATGTGAATAGCTATGGAGTATTAGCTTGGGAAGCTGTTGATAAAAAAATCCAAGATATAGCTGTGGATCTTATTTATCGTGGAGACTATACGCCTTCCTCAAGAGAGAAAATTCAGAAATTTTTCGTTGATAATGATTTGGAGGGTCTTCGTGAAATAATGTCTGACTCATCAAGTTGGTCCTCTGTTCCTGAGGATAGGTTCAATCGTCGTGCTTCCTATTTGGAGTGA	MTNTAKVEQWSFPFKAKGAEGQSSKIITDPQQYYDALAKAESGYYPIGRNGLWHGGVHFDKATAGVLDQSSIHCIADGEVVAYRIDERYPISNYSSGAKIYSKGFVLVRHRLEVPKPPATVGSSPPTEPTAPQPSLTFFSLYMHLLDWEGYGKPGAPTPPTFLCETLYSVKPERATDSTVGLRVRAEPNGSATVKALLPKGTKVRLGEVGGATHKWRRLSSIEEGAAVPALTIDEACWVFPGELQNTSEPDVFLVGERANDAEPTLASDKGLNVRKTGSLSAPKTGLVPAGTKFTLEPGSGSYRKLKEIVEGKDIAPLHPSSTKNIQGFIYFPYLKTSKATPTLNSTHILETPVPVKAGAVIGHVGVYQNRDDGLPSPLVHIEVFSCEDVPGFITKSKAVASSLPAEQKTLLKVHKNASKLITHRPDITAENPPKVSDPGVVVGVDMILSLGILDSLPADRKITVKETIPGTTTPKMTTWWRLDNLFIDTSGNPVGGWLCEQPEITTRHSPWEWEGFDFISETPCNADYLACHLDATGALEPSEQADYAARIDQADNGPVKTRLYDIIDGADGSARDKKLTPDEIRAALEKPWHAQSISRLIAHYESEWFWKAEKWNELDALMSPGGMENQDWLEEKKRIEDLAWWKEVGLLSINGLAWNFQPVALLATLGALDLDDSLKWLEVQNGQLTFDVEGNDIEDASHPLHIYFSRVAHWPGGASGVTIGRGYDLGQRPSPEHDLASAKIAEPLHSWLLGAKGLKGQAARDYLSAASPEIRAMKITRRQQYDLFVPVYELMKNEVIRISGSSSNVNSYGVLAWEAVDKKIQDIAVDLIYRGDYTPSSREKIQKFFVDNDLEGLREIMSDSSSWSSVPEDRFNRRASYLE				NA	NA	NA	NA	NA
BMS010_09484	1353	mpl	COG0773	UDP-N-acetylmuramate--L-alanyl-gamma-D-glutamyl-meso-2,6-diaminoheptandioate ligase	ATGCATATCCACATCCTCGGCATCTGCGGCACCTTCATGGGCTCGCTGGCCGTCCTGGCGAAGGAGCTGGGACATCGCGTCACTGGCTCCGATGCCAATGTCTATCCCCCCATGAGCACCCAGCTGGAAGCCCAGGGCATCGAGTTGATGCAGGGCTACGAGCCGGCTCACCTGCAACCGGAGCCGGATCTCGTCGTGATCGGCAATGCGCTGTCGCGCGGCAACCCGGCGGTGGAGTACGTGCTGAACAAGGGCCTGCCCTATGTCTCCGGCCCGCAATGGCTGGCCGACCACGTGCTGCAGGGGCGCTGGGTGCTGGGTGTGGCCGGGACCCACGGCAAGACCACCACCACCAGCATGCTGGCCTGGGTGCTGGAGCATGCCGGCATGAGCCCGGGCTTCCTCATCGGCGGTGTGCCGCAGAACTTCGGCGTGTCCGCCCGGCTGGGCGGTACGCCGTTCTTCGTGGTGGAGGCCGACGAATACGACAGCGCCTTCTTCGACAAGCGCTCCAAGTTCGTCCACTACCACCCGCGCACGGCGATCCTGAACAACCTGGAGTTCGACCACGCGGACATCTTCCCCGACCTCGCCGCCATCGAGCGGCAGTTCCACCACCTCGTACGGACCATTCCCGGCGAGGGCCTGATCATCCACCCGACCTCCGAAGAGGCCATCCGCCGCGTGCTCGACATGGGTTGCTGGACGCCGGTGCAGACCACCGGCGATGGCGGCCAATGGCAGGCCAACCTGCTGGCGGAGGACGGCTCGCGCTTCGAAGTGGTCTTCGAGGGCGAGGTGCAGGGCGTGGTGGATTGGGATCTGAGTGGCCGGCATAACGTCGCCAACGCCCTGGCCACCCTGGCGGCGGCGCGGCACGTGGGCGTGCTGCCGAAGCAGGGCGCCGAGGCGCTGAGCCTGTTCAAGAGCGTCAAACGGCGCATGGAGAAGGTTGCCGAGGTGAATGGCGTGACGGTCTACGACGACTTCGCCCATCACCCCACGGCCATCGCCACCACGCTTGACGGCCTGCGCAAGAAGGTCGGCGACGCGCCGGTGATCGCCATCATCGAGCCGCGCTCCAACTCCATGAAACTGGGCGCCCACCGCGACGGCCTGCCGGAGTCGGTGCAGCAGGCCGACCAGGTGATCTGGTACGCACCGCCGAACCTCGGCTGGGACCTCGGCGCCACCGCGGCGGCCTGTCCGGTGCCGGCGGTGGTCTGCGACACGCTGGAGGCGATCATCGCGCGGGTGAAGGGCCAAGTCGCGCCGGGCACCCAGGTGGTGATCATGAGCAATGGCGGCTTTGGCGGCCTGCATGGCAAGCTAGCCAAGGCACTGGAAACCTAG	MHIHILGICGTFMGSLAVLAKELGHRVTGSDANVYPPMSTQLEAQGIELMQGYEPAHLQPEPDLVVIGNALSRGNPAVEYVLNKGLPYVSGPQWLADHVLQGRWVLGVAGTHGKTTTTSMLAWVLEHAGMSPGFLIGGVPQNFGVSARLGGTPFFVVEADEYDSAFFDKRSKFVHYHPRTAILNNLEFDHADIFPDLAAIERQFHHLVRTIPGEGLIIHPTSEEAIRRVLDMGCWTPVQTTGDGGQWQANLLAEDGSRFEVVFEGEVQGVVDWDLSGRHNVANALATLAAARHVGVLPKQGAEALSLFKSVKRRMEKVAEVNGVTVYDDFAHHPTAIATTLDGLRKKVGDAPVIAIIEPRSNSMKLGAHRDGLPESVQQADQVIWYAPPNLGWDLGATAAACPVPAVVCDTLEAIIARVKGQVAPGTQVVIMSNGGFGGLHGKLAKALET	PGPT0023975_1610	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_LIGASES,PGPT0023975-mpl-K02558	NA	NA
BMS010_09485	630	ubiX	COG0163	Flavin prenyltransferase UbiX	ATGAGCGGACCGGAGCGCGTAACCCTCGCCATGACCGGTGCCTCTGGCGCCCAGTACGGCCTGCGCCTGCTGGATTGCCTGATCCAGGAAGAACGCGAGGTGCACTTCCTGATTTCCAAGGCGGCGCAACTGGTGATCGCCACCGAGACCGACGTCACCCTGCCGGGTAAGCCGCAGGCGATGCAGGCGTTCCTCAGCGAATACACCGGCGCCGCGCCAGGGCAGATTCGCGTCTACGGCAAGGAAGACTGGATGGCGCCGCCGGCCTCGGGCTCCGGCGCGCCGAGCGCCATGGTGGTGGTGCCCTGTTCCACCGGCACCCTGTCAGCCATCGCCACCGGCGCCTGCAACAACCTGATCGAGCGGGCCGCCGACGTGGTGCTCAAGGAGCGCCGCCAACTGGTGCTGGTGCCACGCGAGGCGCCGTATTCCAGCATCCATCTGGAGAACATGCTCAAGCTCTCCAACCTCGGCGCGGTGATCCTGCCGGCCTCGCCGGGCTTCTATCACCAGCCGCAGACGGTGGACGATCTCGTCGATTTCGTGGTGGCGCGCATCCTCAACGTGCTGAACATCCCCCAGGACATGCTGCCGCGCTGGGGCGAGCACCATGTGGTGAGTGAGGAGTAG	MSGPERVTLAMTGASGAQYGLRLLDCLIQEEREVHFLISKAAQLVIATETDVTLPGKPQAMQAFLSEYTGAAPGQIRVYGKEDWMAPPASGSGAPSAMVVVPCSTGTLSAIATGACNNLIERAADVVLKERRQLVLVPREAPYSSIHLENMLKLSNLGAVILPASPGFYHQPQTVDDLVDFVVARILNVLNIPQDMLPRWGEHHVVSEE	PGPT0009565_496	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-SALICYLIC_ACID_RESISTANCE,PGPT0009565-ubiX|bsdB-K03186	NA	NA
BMS010_09486	294			hypothetical protein	GTGAGGATGGTGCGTGCGGCGAGTGCCCTGGTGCTGCTCCTGACGCTGGGCGGGTGCGCCACGGTGCGGACGCTGGACGCGGCCAAACCGGGGGCGCCGATCGTCTATTCCGGTACGCGGCTGGACTGGTACAGCCTCAACGGCGGCTGTTGCCCGCTCGACCGCTTCGGCGCCGAACCGCCGAAATACGCCGCCCTCGACCTGCCCGCCAGCGCCTTGCTGGATACGTTGTTGCTGCCGTTCTCCCTGGCCGCGGTGCTCGGCCTGAGCCTGGGTGTCAGCGGCGGGATGTGA	MRMVRAASALVLLLTLGGCATVRTLDAAKPGAPIVYSGTRLDWYSLNGGCCPLDRFGAEPPKYAALDLPASALLDTLLLPFSLAAVLGLSLGVSGGM				NA	NA	NA	NA	NA
BMS010_09487	399			hypothetical protein	ATGAGCACTCGGATCTTCGTCAACCTGCCCGTGAAAGACCTGGACCGCTCGATGGCCTTCTACGAGCGCCTGGATTTCGAGCCGGACCTCCGCTTCACCAACGACAGCAGCGCCTGCCTGGAAATCGCCGACGGCCTCTACCTCATGCTGCTCACCGAAGCCCGTTTCCGCGAGCGTATCGGCGGGCCGTCCTGCGACGCCCAGCGCAGCAGCGAGGTGCTGGTCAGCCTGGTCCTGGACAGCCATCAGGAGGTGGACGATCTGCTGAACAAGGCGGTGGCGGCCGGTGCGCGCGTCCATGGGGAGCCGCAGGATCACGACTTCCTCCACGCCCGCACCTTCCGCGACCCGGACGGGCATCTATGGGAGTTGGTGCATCAGTATCCCGACGTGGTTTAG	MSTRIFVNLPVKDLDRSMAFYERLDFEPDLRFTNDSSACLEIADGLYLMLLTEARFRERIGGPSCDAQRSSEVLVSLVLDSHQEVDDLLNKAVAAGARVHGEPQDHDFLHARTFRDPDGHLWELVHQYPDVV	PGPT0028555_1548	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-FOSFOMYCIN_RESISTANCE,PGPT0028555-putative_fosB-K07032	NA	NA
BMS010_09488	1746	vgb_1		Virginiamycin B lyase	ATGCCAACACCCGCCTTCCCCCGTTCGCACACCACCCCGACAAACCCCTGGCGCATTTCCGCAGCGCTGCTGGCGCTGTCGGTCATGGCCTCACCGTTCGCCCTCGCCAGCCCGGCCGCAGGCGGCAGCCAGCGCGAGCCCGTCTTCGCCTACCCGCTGGTCAAGGGCGCCACGCTGTCCAGCACCAACGGCGTCTACGTCAACGACCGGGACGAACTGTTCGTCACCAGCGTCGTCGGCCGCAGCATCACCCAGTTGAATCCCCGTAGCGGCCGGGTGATCCGCACCCTGGGTCCGGCACAGGGCGTCGAGGCGCCGGACGATCTGGTCTTCGACCATGCCGGCAACCTCTACTGGACCGCCTTCCTCACCGGAGAGATCGGCCGCCTGACCCCGGACGGCGAAAAAACCACCGTGGCCAATCTCGGGCGCGGGGTCAACGCCATCACGATTTCCGATGACGGCAACACCCTCTACGTCAGCCGCGTGTTCCTCGCCGACGAGGTGTGGCAAATCGACCTGACCGGCGCCAACCCGCCGCGCCTGCTCGCCAACAACCTCGGCGGCTTCAATGGCATGGACCTCGGCCCCGACGGCAAGCTTTATGGCCCGCTGTGGTACCACGGCCAGGTGGCGCGCATCGACCCGGCCACCGGTGGCGTGGAGATCGTCGCCAACGGCCTGGGCACCCCGGCGGCGGTCAAGTTCAACGCCGCTGGCGAGCTGTTCGTCATCGACCAGGCGCGCGGCCAGGTGCTGCGAGTGGACGTGGAGAACGGCACGCTGCAAACGGTCGCCGAGGTGGACGAAGGCGCCGATAACCTGGCCTTCGACTCGAAAGGCACGCTGTACGTCTCCAACGCCCACGACGCGGCGATCCGGCGCGTGACGCTGAACGGCGACGAGGGCGAAGTCCGCCGGCTCACCCGCGGTGGCATGACCACCGGCGCCGGCATCGCGGTACACAAGGCGGGCGGACGCGAGTCCGTGTTCGTCGCGGACATCTACTCGCTGCGCGAGTACGCCTCGCGCACCGGCCGCCTGCGCAGCATCGCCCACAGCATCGTGGGCGGCGTCACCCCGCTGAACACGCCCTTCAGCGTGGGCTCCCATGGCGATTACCTGGTCACCACCTCCTGGTTCTCCAACGCCGTGCAGGTCTGGGACCCGGCCCTGGGAACCGTGGTGGCCGACCACCGCGACTTCTCCGTACCGCTCAACGCCATCGGCTTCGGCAACGATCTGGCGGTGGCGGAACTGGGCAGCCGCTGCGTCATGCAGCGTCCGGCCAACACCACCGAGCGCAACCCACTGGGCTGCGGCTTCAGCGTGCCGGTGGGCCTGGCGCAGCGCGACGGCAAGCTCTGGGTATCGGATTGGGCCACCGGCTCGGTCTGGCAGGTGGCCGAAGGCTACAAGGCCCTGGCCTCACCCAAGCTGGTCGCCGATGGATTCGCCCAACCGGAAGGCCTCGCCGCCACGCCGTCCGGCGCCCTGCTGGTGGTGGAAACCGGCACCGACCGCCTGGTGAAGCTCGACCTCGCGACGGGCAAGCGCACAGTGCTGGCGAAGAACCTGCCGGTCGGCAACAGCGGCACGCCGGGCTATCCGCCGTCGTGGATCTTCAACGGCGTAGCGGTGGATGACTGCGGCGTGGCCTACGTGACCGTCGACGGCGACCGCAGCGTTCGTCGCATCGCCGATCTGCAGGCAGTGCGTTGTGAGTTGGGGGGCGGTCAGCGCTGA	MPTPAFPRSHTTPTNPWRISAALLALSVMASPFALASPAAGGSQREPVFAYPLVKGATLSSTNGVYVNDRDELFVTSVVGRSITQLNPRSGRVIRTLGPAQGVEAPDDLVFDHAGNLYWTAFLTGEIGRLTPDGEKTTVANLGRGVNAITISDDGNTLYVSRVFLADEVWQIDLTGANPPRLLANNLGGFNGMDLGPDGKLYGPLWYHGQVARIDPATGGVEIVANGLGTPAAVKFNAAGELFVIDQARGQVLRVDVENGTLQTVAEVDEGADNLAFDSKGTLYVSNAHDAAIRRVTLNGDEGEVRRLTRGGMTTGAGIAVHKAGGRESVFVADIYSLREYASRTGRLRSIAHSIVGGVTPLNTPFSVGSHGDYLVTTSWFSNAVQVWDPALGTVVADHRDFSVPLNAIGFGNDLAVAELGSRCVMQRPANTTERNPLGCGFSVPVGLAQRDGKLWVSDWATGSVWQVAEGYKALASPKLVADGFAQPEGLAATPSGALLVVETGTDRLVKLDLATGKRTVLAKNLPVGNSGTPGYPPSWIFNGVAVDDCGVAYVTVDGDRSVRRIADLQAVRCELGGGQR				NA	NA	NA	NA	NA
BMS010_09489	867	ytnP	COG0491	putative quorum-quenching lactonase YtnP	ATGCGTACCCTCACCACCCTTGTTGGCAACAGCCAGAAACTCGATGGCGGCGCCATGTTCGGCAACGCCCCGCGCGCACTCTGGGAGCGCTGGATGCCAGCGGACGAACACCACCGCATCGACCTTGGCTGCCGCGCCCTGCTGGTCCGCGAAGACGACCGCAACGTCCTGGTGGAGACCGGCATCGGCGCCTTCTTCTCCCCGGAAATGAAGCGCCGCTTCGGCGTGCAGGAAGACCGCCACGTGCTGCTCGACAGCCTGGCGGCGGTCGGCCTGTGCGATGCCGACATCGATGTGGTGGTGCTCACTCACCTGCATTTCGACCATGCCGGCGGCCTGCTCGCCGCCTGGGAAGAGGGTCGGGCGCCGCGCCTGCTGTTCCCCAATGCGCGCTTCGTTACCGGCCGCCGCCAGTGGCAGCGCGCCTGCAACCCGCACCCGCGCGACCGGGCGTCCTACATCCCGGAACTGCTCGAGTTGCTGGAAGCCAGCGGTCGCCTGGAACTCGTGGACGGCGAAGGCGGCTCCGCCCTGCTCGGCCCGGACTGGCGGTTCCACTGGAGCGACGGCCACACGCCGGGCCAACTCCTGCCGGAGATCGCCATGCCCGACGGCCCGGTGGTGTTCGCCGGCGACCTGATCCCCGGCGCGCCCTGGGTCCACCTGCCCATCACCATGGGCTACGACCGCTTCCCCGAGGGCCTGATCGAAGAGAAGGAACGCCTGCTCGACAGCCTGCTGGCACGCAACGGCCGGCTGGTGTTCACCCACGACCCGGCGACCGCCCTGGGCCGGGTGAGCCGCGACGACAAGGGTCGCTACACCCTGGTCGAGGCGTGTGCCGAGGTGCACGACCTGGCTGCCTGA	MRTLTTLVGNSQKLDGGAMFGNAPRALWERWMPADEHHRIDLGCRALLVREDDRNVLVETGIGAFFSPEMKRRFGVQEDRHVLLDSLAAVGLCDADIDVVVLTHLHFDHAGGLLAAWEEGRAPRLLFPNARFVTGRRQWQRACNPHPRDRASYIPELLELLEASGRLELVDGEGGSALLGPDWRFHWSDGHTPGQLLPEIAMPDGPVVFAGDLIPGAPWVHLPITMGYDRFPEGLIEEKERLLDSLLARNGRLVFTHDPATALGRVSRDDKGRYTLVEACAEVHDLAA				NA	NA	NA	NA	NA
BMS010_09490	1182	phaA_3	COG0183	Acetyl-CoA acetyltransferase	ATGCGTGAAGTCGTGATCGTCGCTGCCCGCCGCACCGCCATCGGTGCCTTCCAAGGTTCCCTGAGCCGCATTCCGGCCGCCGGGCTGGGCGCGACGGTGATCCGTAGCCTGCTCGCCGACAGCGGCCTGGCCGGCGAGCAGGTGGACGAGGTGATCCTCGGCCAGGTGCTCACCGCCGGCGCCGGGCAGAACCCCGCGCGCCAGGCCGCGCTGAAGGCCGGCCTGCCGCACACGGTGCCGGCCATGACCCTGAACAAGGTCTGCGGCTCGGGGCTCAAGGCGGTGATCCTCGGCGCCCAGGCGATCCGCTGCGGCGATGCCGAGGTGGTGATCGCCGGCGGTCAGGAGAACATGAGCCTGTCGCCCTTCGTCCTGCCCGGCGCCCGCACCGGCCTGCGCATGGGCCACGGCAAGCTGGTGGACAGCATGATCGAGGATGGCCTCTGGGATGCCTTCAACCAGTACCACATGGGCATCACCGCGGAGAACCTGGCCGAGCAGTACGGCATCACCCGCTGCGAGCAGGATGCCTTTGCCGCCCGTTCGCAACAGCGCGCCTGCGCCGCCATCGAGGCCGGTCGCTTCGCCGGGGAGATCGTCCCGGTCGAGATTCCCCAGCGCTATGGCGACACCGTGATCTTCCAGCAGGACGAACAGCCGCGGGCCGGCACCACCGCCGATGGCCTCGCCACATTGCGCCCGGCGTTCAAGGGCGATGGCAGCGTCACCGCCGGCAACGCCTCCACCCTCAACGACGGCGCCGCCGCGGTGCTGCTGATGAGCGCCGCCAAGGCCGACGCCCTCGGCCTGCCGGTGTTGGCGCGGATCGCCGCCCACGCCAGCGCCGGGGTCGATCCGGCGATCATGGGCATCGGCCCGGTGTTCGCCACCTGCCGCGCCCTGGAAAAGGCCGGCTGGTCGCTGGAACAACTCGACCTGGTGGAGGCCAACGAAGCCTTCGCCGCCCAGGCCCTCGCCGTCGGCCGCGAACTCGGCTGGGACAGCGCCAAGGTCAACGTCAACGGCGGCGCCATCGCCCTCGGCCATCCCATCGGCGCCTCGGGTTGTCGTATCCTCGTCAGCCTTCTGCACGAGATGCGCCGCCGCGAAGCCCGCAAGGGGCTGGCGACCCTGTGCATCGGCGGCGGCCAGGGCGTGGCCCTGGCGGTCGCACGCGACTGA	MREVVIVAARRTAIGAFQGSLSRIPAAGLGATVIRSLLADSGLAGEQVDEVILGQVLTAGAGQNPARQAALKAGLPHTVPAMTLNKVCGSGLKAVILGAQAIRCGDAEVVIAGGQENMSLSPFVLPGARTGLRMGHGKLVDSMIEDGLWDAFNQYHMGITAENLAEQYGITRCEQDAFAARSQQRACAAIEAGRFAGEIVPVEIPQRYGDTVIFQQDEQPRAGTTADGLATLRPAFKGDGSVTAGNASTLNDGAAAVLLMSAAKADALGLPVLARIAAHASAGVDPAIMGIGPVFATCRALEKAGWSLEQLDLVEANEAFAAQALAVGRELGWDSAKVNVNGGAIALGHPIGASGCRILVSLLHEMRRREARKGLATLCIGGGQGVALAVARD	PGPT0008320_10501	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
BMS010_09491	1773	dmdC_7	COG1960	3-methylmercaptopropionyl-CoA dehydrogenase	ATGCCCGAGTTCAACGCCCCCCTGCGCGACATGCGTTTCGTCCTGCACGAGGTTTTCGATGCCCCGGCGCTCTGGGCCCGCCTGCCGGCCCTGGCCGGCACGGTGGATGGCGATACCGCCGACGCCATCCTCGAAGAAGCGGCCAAGGTCACCGGCCAACTCATCGCCCCGCTGAGCCGTGGCGGCGACGAAGAAGGCGCGCAGTGGAAGGACGGCGCGGTCACCACCCCGGCCGGCTTCAAGGAAGCCTATGCCACCTACACCGAAGGCGGCTGGGTCGGCCTCTCCGGCAACCCGGCCTACGGCGGCATGGGCATGCCGAAGATGCTCGCCGTGCAGTTCGAGGAAATGCTCTACGCGGCCGATTCCAGCTTCGCCCTCTATTCGGCGTTGAGCGCGGGCGCCTGCCTGGCCATCGACGCCCATGCCGACGAGGCGCTGAAAAGCCGCTACCTGCCGCCGATGTACGAGGGCCGCTGGGCCGGCTCCATGTGCCTGACCGAACCCCACGCCGGCACCGACCTCGGCCTCATCCGCACCCGCGCCGAACCGCAGGCGGACGGCAGCTACGCCATCACCGGCACCAAGATCTTCATCACCGGCGGCGAACAGGACCTCACCGAGAACATCGTCCATCTGGTGCTGGCCCGCCTGCCGGACGCGCCGGCCGGGCCCAAGGGCATCTCGCTGTTCCTGGTGCCCAAGGTACTGGTCGGCGATGACGGCAGCCTGGGCGAAGCCAACGCCGTGTCCTGCGGCTCCATCGAACACAAGATGGGCATCAAGGCCTCGGCCACCTGCGTGATGAACTTCGACGGCGCCATCGGCTGGCTGGTCGGCGAAGTGAACAAGGGCCTGGCGGCGATGTTCACCATGATGAACTACGAGCGCCTGTCCATCGGCATCCAGGGCATCGGCTGCGCCGAGGCGTCGTACCAGGCCGCCGTGGCCTATGCCCGCGAGCGTATCCAGAGCCGCGCACCGACCGGCCCTGTAGCCAAGGACAAGGCGGCCGACCCGATCATCGTCCACCCGGACGTGCGGCGCATGCTGCTGACCATGAAGGCCATGACCGAGGGTGGCCGTGCCTTCGCCTGCTTCGTCGGCCAGCAGCTCGACCTGGCCAAGTTCGCCGACGATGCCGACGAACAGCGCGAAGCCGAAGCGCTGGTGGCCTTGCTCACGCCGGTGGCCAAGGCCTTCTTCACCGACACCGGCCTGGACAGCTGCGTGCACGGCCAGCAGGTGTTCGGCGGCCACGGCTACATCCGCGAATGGGGCCAGGAACAGCGGGTGCGCGACGTGCGCATTGCCCAGATCTACGAAGGCACCAACGGCATCCAGGCCCTCGACCTGCTCGGCCGCAAGGTGGTGGGCAACGGCGGTGCCACGCTGCGGCGCTTCACCGGGCTCATCCGCGCCTATGCCGAGTCCCCCGCCGCGCCCTATCGCGAGGCGCTGCTGGACGCGGTTCGCCGCCTGGAAGACGTCAGCGCCTGGCTGCTCGACCGCGTCGCGCAGAACCCCGCGGAAATCGGCGCCGCCTCGGTGGAGTTCCTGCATCTGTTCGGCTACGTCGCCTACGCCTGGCTGTGGTCGCGGATGGCCGAAGTGGCCGAGCGCCGGCAGGCCGAGGACGAAGCCTTCTATGGCGCCAAGCGGGCCACCGCCGCGTTCTTCTTCCAGCGCCTGCTGCCGCGCACCCTCGCCCTGGAGGCAGGCATCCGCGCCGGCAGCGCCTCGTTGTACGGATTGGCTGCGGAGCAGTTCTGA	MPEFNAPLRDMRFVLHEVFDAPALWARLPALAGTVDGDTADAILEEAAKVTGQLIAPLSRGGDEEGAQWKDGAVTTPAGFKEAYATYTEGGWVGLSGNPAYGGMGMPKMLAVQFEEMLYAADSSFALYSALSAGACLAIDAHADEALKSRYLPPMYEGRWAGSMCLTEPHAGTDLGLIRTRAEPQADGSYAITGTKIFITGGEQDLTENIVHLVLARLPDAPAGPKGISLFLVPKVLVGDDGSLGEANAVSCGSIEHKMGIKASATCVMNFDGAIGWLVGEVNKGLAAMFTMMNYERLSIGIQGIGCAEASYQAAVAYARERIQSRAPTGPVAKDKAADPIIVHPDVRRMLLTMKAMTEGGRAFACFVGQQLDLAKFADDADEQREAEALVALLTPVAKAFFTDTGLDSCVHGQQVFGGHGYIREWGQEQRVRDVRIAQIYEGTNGIQALDLLGRKVVGNGGATLRRFTGLIRAYAESPAAPYREALLDAVRRLEDVSAWLLDRVAQNPAEIGAASVEFLHLFGYVAYAWLWSRMAEVAERRQAEDEAFYGAKRATAAFFFQRLLPRTLALEAGIRAGSASLYGLAAEQF	PGPT0008385_299	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008385-acd-K00249	NA	NA
BMS010_09492	1374			hypothetical protein	ATGCAAGTATTCAAGCGTCGTGACGGGGACGAGCAGCCCCACTGGCCCCTCGGCCCGTTCAAGGTCCGCCTGCCGTTCGTCCACTACCGCTGGGAAACCGCCGAGATGCTCCAGGCGCTGATCATGTTCGTGGTCAGCCTGGGCATGATCCCGCTGCTGGAGAAGTACCTCGGCCTGCCCTACGACGTCGCCCTCGCCTACGTGGTGATCTGCGGCATCGGCTTCATGCTCCCGGCCCTGCTCGGCGTACCCCTGGTGCCCGGCTGGATCACCCCCGGCATCCCCGTGGTGCTGCTGTTCCTCAGCGACTACCAGCCCGGCCCGCAGGCGATCCAGGCACTGTTCGCCCTGCAGTTCCTGGTGTTTCTGATCTTCCTCCTGCTCGGGGTGACGCGCCTGGGCAGCGTGATGGTGCGCCTGGTGCCCAACTCGATGAAGGGCGGCATCATCATCGGCGCCGGCATGGCCGCGCTGATGGGCGAGATCCAGACCGGCGGGCGCCTGGCCAACACCCCGGTGTCCCTGGTACTGGGCAGCCTGATCTGCCTGTACCTGATGTTTTCGGTGTCGTTCAAGGGCCTCACCGAGCGCGTGCCGATGGCGCGCAGGATCGTCAACTACGGCATGGTGCCGGGCATGCTGGTGGCGATCTTCATCGGCATCGCGGTGGGCGAGTACAAGGTCCCGGACATCCGCTGGGGCATCACCCGGCCGGCCTTCGACCAGCTCTGGCAGTACCTGCCGTTCAGCCTGGGCTTCCCCGACGCGAAGATTTTCCTCTATGCCGTGCCCACTGCGCTGATCGCCTACATCATCGCCTTCGGCGACATCATCGTCGGCCAGTCGCTGATGCAGCGCGCCGATGAGCTGCGCACCGACGAGAAGATCGACAACAACGTCGACCGCATCCATCTGGTCACCGCGCTGCGCAACGCCCTGCATGCCTTCTTCGCGCCCTACCCCGGCCTCGCCGGCCCGCTGTGGACCGCCGCCGCGGCGACCATGGCCGAGCGCTACAAGTACGGCCGCAAGGCGATGGACTCGATCTTCAGCGGCGCCGGCACCTTCTGGATCACCGGCTTCATCGCCCTGTTCATCCTGCCGCTGGTGAGCTTCTTCCAGCCGGTACTGCCGATCGCCCTGTCGCTGACGCTGATCCTCACCGGCTACATCTGCCTGATGGTCGGCTTCGAGCAGCTCGACAACAACACCGAGCGCGGCATCGCCGGCACCATGGGCGTAGTCCTCGCGGTGTACGGCGCAGGCTGGGGCCTCGCTGCCGGCGCGGCGCTGTACATCCTGGTCGAACGCACCCACCTGCTGCGCTTCGCCAGCCCGAAAACCTCCGTAAGCGGCTCACCCGATGCCGACTGA	MQVFKRRDGDEQPHWPLGPFKVRLPFVHYRWETAEMLQALIMFVVSLGMIPLLEKYLGLPYDVALAYVVICGIGFMLPALLGVPLVPGWITPGIPVVLLFLSDYQPGPQAIQALFALQFLVFLIFLLLGVTRLGSVMVRLVPNSMKGGIIIGAGMAALMGEIQTGGRLANTPVSLVLGSLICLYLMFSVSFKGLTERVPMARRIVNYGMVPGMLVAIFIGIAVGEYKVPDIRWGITRPAFDQLWQYLPFSLGFPDAKIFLYAVPTALIAYIIAFGDIIVGQSLMQRADELRTDEKIDNNVDRIHLVTALRNALHAFFAPYPGLAGPLWTAAAATMAERYKYGRKAMDSIFSGAGTFWITGFIALFILPLVSFFQPVLPIALSLTLILTGYICLMVGFEQLDNNTERGIAGTMGVVLAVYGAGWGLAAGAALYILVERTHLLRFASPKTSVSGSPDAD				NA	NA	NA	NA	NA
BMS010_09493	1623		COG0318	Long-chain-fatty-acid--CoA ligase	ATGTCGATTTACGAACAAGGCCTTTCGCCTGCCGCCGTCAACCACATCGCCCTCTCCCCGCTCAGCTTCATCGAGCGCACCGCCGCCGTTTACCCGCACTACCCCGCTGTGATCCACGGCTCGATCCGCCGTACCTGGGCGGAAACCTACGCACGCTGCCGCCGTCTCGCCTCGGCCCTGGCCGGCCGCGGCATCGGCAAGGGCGACACGGTGGCGGTGATGCTGCCGAACATCCCGGCGATGCTGGAAGCGCACTTCGGCGTGCCGATGATCGGCGCGGTGCTCAACACCCTGAACGTGCGCCTGGACGCCGAGGCCATCGCCTTCATGCTGCAGCACGGCGAAGCCAAGGTGCTGATCGCCGACCGCGAGTTCGAGGAAGTCATCCATGCGGCGGTGGGCATGCTCGACCACCCGCCGCTGGTGATCGACGTGGACGACCCGGAGTACGGCGAAGGCCGCCCGGTCAGCGATCTGGACTACGAGGCCCTGCTCGCCGAGGGCGACCCGGAATTCGACTGGCAGTGGCCGGCCGACGAGTGGCAGGCCATCAGCCTCAACTACACCTCCGGCACCACCGGCAACCCGAAGGGCGTGGTCTACCACCACCGTGGCGCCTACCTGAACGCCCTGGGCAACCAGATGACCTGGGCCATGGGCAACCACCCGGTCTACCTCTGGACCCTGCCGATGTTCCACTGCAACGGCTGGTGCTACCCCTGGACCGTCACCGCGCTGGCCGGCGTGCACGTGTGCCTGCGCCGGGTCGATCCGCAGAAGATCCTCACCCTGATCCGCGAACATCAGGTCACCCATCTGTGCGGCGCGCCCATCGTGCTCAACGCCCTGGTGAACATGCCGGAATCGGCCAAGGCCGCCATCGACCACCCGGTGAAAGCCATGATCGCCGGCGCCGCGCCGCCGGCCAAGGTGATCGGCGCGGTGGAGGAAATGGGCATCGCCGTGACCCACACCTATGGCCTTACCGAGGTCTACGGTCCGGTGACCCTGTGCGCCTGGCACGCCGAATGGGACGCGCTGCCGCTGGAGGAGCGCGCCACCATCAAGGCGCGCCAGGGCGTGCGCTACCCGACCCTGGAAGGGCTGATGGTCGCCGACCCGAAAACCCTGGAGCCGGTGCCGCGTGATGGCCAGACCACCGGGGAGATATTCATGCGTGGCAATACCGTGATGAAAGGCTACCTGAAGAACCCCAGTGCCACCGCCGAGGCCTTCGAGGGCGGCTGGTTCCACACCGGCGACCTGGGCGTGTGCCACGCCGACGGCTACGTGGAAATCCGCGACCGGCTGAAGGACATCATCATCTCCGGCGGCGAGAACATCTCTACCATCGAGGTCGAAGGTGTGCTCTACCGCCACCCGGCCGTGCTGGAAGCCGCCGTGGTCGCCCGCCCGGACGAGAAATGGGGCGAGACACCCTGCGCCTTCGTCACCCTCAAGGCCGACCACCAGCAGGTCAGCGAGGCCGACATTATCGGCTTCTGCCGCGACCACCTGGCCGGGTTCAAGGTGCCGAAGACGGTGGTCTTCACCACCTTGCCGAAGACCTCCACCGGCAAGATCCAGAAATTCGTCCTGCGCGACATGACCAGGGCGCTCTGA	MSIYEQGLSPAAVNHIALSPLSFIERTAAVYPHYPAVIHGSIRRTWAETYARCRRLASALAGRGIGKGDTVAVMLPNIPAMLEAHFGVPMIGAVLNTLNVRLDAEAIAFMLQHGEAKVLIADREFEEVIHAAVGMLDHPPLVIDVDDPEYGEGRPVSDLDYEALLAEGDPEFDWQWPADEWQAISLNYTSGTTGNPKGVVYHHRGAYLNALGNQMTWAMGNHPVYLWTLPMFHCNGWCYPWTVTALAGVHVCLRRVDPQKILTLIREHQVTHLCGAPIVLNALVNMPESAKAAIDHPVKAMIAGAAPPAKVIGAVEEMGIAVTHTYGLTEVYGPVTLCAWHAEWDALPLEERATIKARQGVRYPTLEGLMVADPKTLEPVPRDGQTTGEIFMRGNTVMKGYLKNPSATAEAFEGGWFHTGDLGVCHADGYVEIRDRLKDIIISGGENISTIEVEGVLYRHPAVLEAAVVARPDEKWGETPCAFVTLKADHQQVSEADIIGFCRDHLAGFKVPKTVVFTTLPKTSTGKIQKFVLRDMTRAL	PGPT0018620_168	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-CELLULASES,PGPT0018620-celJ|eglA|eglS-K01179	NA	NA
BMS010_09494	2289	sasA_29		Adaptive-response sensory-kinase SasA	ATGTACGACATGCGGGTGCAGTTGCAGAGCTGGTTGCGTCTGCAGCAGGAAGCGCTGCCGCTGGCGGAGCGTGCCGATGCCCTGCGCCATGCGTTGCAGGCCTGTCCTGAGGTGCGCCAGGCGTTCTACCTGCGCTGGCAGCCCGACAGCGGCATCTACAGCCACGTGGGTCGAGCCCAGCAACTGCCGCCCGGTTTCGGCGATCCGCTGCAGGCCAGCGACCAGGCATTGTTCGATGCCCTGCTGGAGCGACGTCGGCTGACCTTCGCCGAGCTGCGCCAGTTGCCTTGCTGGCTGGCCGGACGGTTGCGCCGCGCGGCGATCAGCCATGGCCAGGCGTTGTCGCTGGCGTTGGATAAAGGCCAGCCGGGGCTGCTGTTGATCGAGGTGGCGGAGGGCGTCGACCTGCACTGGCTGGGGTTGGTCCACGAGCTGCTGGACACCCTGCTCGCCGTCGCGGGGCCTGTGCGCGGCGCGCTGCTACCGGGGGCCGATCCGCAACCCAGCCTGCTGCTGGATGCCGAGGCGCGACCGCTGGAACTGAACGCCGTGCTCCAGGCGCTTCTCGGCGAGCGTCCGGTGAGCGAGGTGGACGCCTACCTGCCGGTGAACCACGTGCGACTCGTGCGAGCCTGTCTGGAGCAGGCGCGTCCCATCGAGGGCGTCGAGGCGGAGCTGGGCGACGACATTTTCATCTGGACATTCATTCCCGACCGAGTAGCCGGGCGCGTCCTGGCGCGGGCCCGCCAGGCGACCGAGGCGATCCGTGCCGAACGCGAGGCGGCGCGGGCCCGGCGGCTGTACCGGCTGATCACCGAGAACACCACCGACCTGATTTCCCGCCACACCCCCGACGGCTGCTTCCTCGATGCGTCGCCAGCCTCCTGGACCCTGCTCGGCTACTGGCCGGAAGAACTGCGCGGGCGCTTCGTCCAGACCCTGTTCCACCCCCAGGACCAGGCACAACTGGAGCAAAGCACCCGCGAGGCGCTGGAGCAGGACGGCTACCACACCATGACCTACCGTATCCGCCATCGCGACGGTCATTACCTGTGGTTCGAGACGGCCAGCCGGGCGATCCGCGAGACCTACACCGGTGCGGTGGTGGAAATCGTCAGCGTCTCGCGGGACATCACTGCCCGCGTCCAGGCCGAGGAGAACCGCCGGCGCCTGGCCGAGGTGGTGGAGGCCAACACCGACCTGGTGCTGTTCCTCGATCCCGAGGGGCACCTGACCCACCTCAACCCCTCCGCCCGCCGCGCCCTGCGGATCGCCGACGATGCCCCGCTGCCGGCGCTGGATGCCCTGCTGTCGGCCCAGGACATGGCCGCCTTGCGCCGCGACGGTTGGCGCACCGCCGATGCCTCGGGCGTATGGAGCGCGGAGGCGCGCCTGCAACCGCTGGGCGGTGCGGCCTCGCTGCCGGTCTCCCTGGTGCTGCTGGCGCACCGCGCCGCCAGCGGCGAGCGCTACTACTCGCTGGTGGCCCGCGACATGACCGAGCGCGAGCTGCGCGAAGCCCAGCAACGCCGTCACCAGGACGAGCTGGCGCACACCGCGCGGCTGGTCACGCTGGGTGAACTGGCGTCCGGCATCGCCCACGAGATCAACCAACCCCTGGCGGCGGTGGTCAACTACGCCAACGCCAGCCAGCGCTACCTGCAATCCCTCGGCAGCAACCCGCAGGCGGCCGAGCGCGTCGCCCAGGGGCTGGAGCGCATCACCGAGCACGCCAACCACGCCTCGGAGGTCATCAAGCGGCTGCGGGCCTTCCTGCGCAAGGGCCAGCGGCGCACCCAGGCGCTCGACGTGGCGCAGGTGGCGCGCGAAGCGGTGCGCCTCTGCCAGTGGGAGGCGACCAATTGCCAAGTGACGATCGAGGAGCATCTGGCGGACAATCTGCCGCCGGTCTATGCCGACCCGGTGCTGATCGAGCAGGTGCTGCTCAATCTGCTGCGCAACGCCATCGACGCCAACCGCGAGGCCCATCCCGGCGCACCGTCGCGCATCCGTCTCGACGCGCGGCGCGACGGCGCCCAGCTGTGCATTGGCGTGAGCGACGAAGGGCCCGGCGCCAGCGAACAGGCCCTGGCGCAGATGTTCACGCCGTTCTACACCAGCAAGCCGGATGGCCTGGGGCTCGGCCTGTCCATGAGCCGCAGCATCGTCGAAGGCTTCGGCGGTGCCCTCGAGGCGCATCCCGGCGAGGTTTCCGGCTTGCGCCTGGAATGCCGGCTGCCGCTGGGCCGCGTGGAAGAGCCCAGGGCACGAGAAGAACAACAGGAGTGA	MYDMRVQLQSWLRLQQEALPLAERADALRHALQACPEVRQAFYLRWQPDSGIYSHVGRAQQLPPGFGDPLQASDQALFDALLERRRLTFAELRQLPCWLAGRLRRAAISHGQALSLALDKGQPGLLLIEVAEGVDLHWLGLVHELLDTLLAVAGPVRGALLPGADPQPSLLLDAEARPLELNAVLQALLGERPVSEVDAYLPVNHVRLVRACLEQARPIEGVEAELGDDIFIWTFIPDRVAGRVLARARQATEAIRAEREAARARRLYRLITENTTDLISRHTPDGCFLDASPASWTLLGYWPEELRGRFVQTLFHPQDQAQLEQSTREALEQDGYHTMTYRIRHRDGHYLWFETASRAIRETYTGAVVEIVSVSRDITARVQAEENRRRLAEVVEANTDLVLFLDPEGHLTHLNPSARRALRIADDAPLPALDALLSAQDMAALRRDGWRTADASGVWSAEARLQPLGGAASLPVSLVLLAHRAASGERYYSLVARDMTERELREAQQRRHQDELAHTARLVTLGELASGIAHEINQPLAAVVNYANASQRYLQSLGSNPQAAERVAQGLERITEHANHASEVIKRLRAFLRKGQRRTQALDVAQVAREAVRLCQWEATNCQVTIEEHLADNLPPVYADPVLIEQVLLNLLRNAIDANREAHPGAPSRIRLDARRDGAQLCIGVSDEGPGASEQALAQMFTPFYTSKPDGLGLGLSMSRSIVEGFGGALEAHPGEVSGLRLECRLPLGRVEEPRAREEQQE	PGPT0000140_639	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0000140-fixL-K14986	NA	NA
BMS010_09495	639	tmoT_2		Response regulator protein TmoT	ATGTCGCAACAACCCGAACAGCTCGTCTACGTGGTGGATGATGACCAGGGCATGCTCGATTCGACGGTCTGGCTGCTCGAATCGGTCGGCCTCAAGGCCCTGCCGTTCACCAACGGACGGGATTTCCTCGCCGCCTGCGATCCGCGCCTGAACGCCTGCGTTCTGCTGGACGTGCGCATGCCCGGCATGGGCGGGCTGAACGTGCAGGAAGAAATGCGCGCCCGTGGCCTGGACCTGCCGGTGATCTTCGTCAGCGGCCATGCCGACGTGCCCATCGTGGTCCGCGCCTTCCGTGCCGGCGCGGTGGACTTCATCGAAAAGCCCTACAACGAGCAGTTGCTGCTGGACAGCGTGCAGCAGGCGCTGAGCCGCTTCGCCGTACAACCCATGGCCGGCGCCGGCCTGGCCGAAGTCCAGGCGCGCCTGGACAGCCTCACCCCACGCGAACGCGACGTGTTGTTGCCGCTGGTGCGCGGCTACACCAACCGGGAGATCGCCGAGCAGCTCGACGTCAGCGTGAAGACCGTCGACCTCTACCGCTCGCGGGTGATGAAACGCATGCAGGCCGAGACCCTGCCGGATCTGGTGGGGATGGCCGTGGCGGCGGGGCTGGTCGACCCGCTACGTCTGCGGGGCTAG	MSQQPEQLVYVVDDDQGMLDSTVWLLESVGLKALPFTNGRDFLAACDPRLNACVLLDVRMPGMGGLNVQEEMRARGLDLPVIFVSGHADVPIVVRAFRAGAVDFIEKPYNEQLLLDSVQQALSRFAVQPMAGAGLAEVQARLDSLTPRERDVLLPLVRGYTNREIAEQLDVSVKTVDLYRSRVMKRMQAETLPDLVGMAVAAGLVDPLRLRG	PGPT0000145_238	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0000145-fixJ-K14987	NA	NA
BMS010_09496	927	gbpR_4		HTH-type transcriptional regulator GbpR	ATGATCGCTTCCCTGCCCGCCATCGTTTCCCGCCTGCGCCTGAAGCAGCTCCGTCTGCTCATCGCCCTCGACGAGCACGGCTCTCTGCACCGCGCCGCCGAGCGCATCGCCATCACCCAGCCGGGCGCGACCAAGGCCCTGCACGAAATCGAAAGCACCTTCGGCACCAGCCTGTTCACCCGCACCAGCCAGGGCCTGGAGCCGAATGACCTGGGCCGCTGCGTGATCCGCTACGCGCGACTGATCCACAGCGACCTGGCGCACCTGCGCGAAGAGATGATGGGGATTCTCCAGGGCCACGGCGGACGTCTGGCGGTGGGCGCCATCATGGGCGCGGTGCCGCTGCTGCTGCGCGCCCTCGGGCGTCTGCGGGAGAAGCAGCCGGAGCTGTCGGTGGAGATCGTCGAGGACACCAGCGCGCGCCTGCTCGACCTGATCGACCAGGGCCGCCTCGATCTCGCCATCTGCCGCACCAGCGTCAGCCGCCGGCCGGACGCCTACGACTGTTTGTGCCTGTACGGTGAACCGCTGTGGGTGGTGTGCAACCCCGGCAACCCGCTGCTGCGGGCGGAACGCCTGGAACTGCAGGACCTCGGCGACTGCCGCTGGGTTGTCTACCCGACCAACATGCCCATGCGCCTGCTGCTGGAGCGGGAATTCCGCGAAGCGGGTCTGGAATTCCCGCGCTATCCGCTGGAAACCTCCTCCACCTTCACCACCCTGACGCTGCTGCAGCAGGACCCGGCGCTGATCGCCCTGCTGCCCGAAGAGGTGGCCGCCTCCGCCGCGCGCTTCGGCATGCTCGCCCGGCTACCGCTGCACCTGCGCTCGGCCAGCGAGCCCTACGGCGTCATCAGCCGCCACGGCGCCAGCCTGCCGCCACCGGCGCTGCTGTTGCTGGATGAGCTGAGGCTGGAGGCGGATTAG	MIASLPAIVSRLRLKQLRLLIALDEHGSLHRAAERIAITQPGATKALHEIESTFGTSLFTRTSQGLEPNDLGRCVIRYARLIHSDLAHLREEMMGILQGHGGRLAVGAIMGAVPLLLRALGRLREKQPELSVEIVEDTSARLLDLIDQGRLDLAICRTSVSRRPDAYDCLCLYGEPLWVVCNPGNPLLRAERLELQDLGDCRWVVYPTNMPMRLLLEREFREAGLEFPRYPLETSSTFTTLTLLQQDPALIALLPEEVAASAARFGMLARLPLHLRSASEPYGVISRHGASLPPPALLLLDELRLEAD				NA	NA	NA	NA	NA
BMS010_09497	993			hypothetical protein	ATGCGCCTGATCCAGTTCGAGAACCCCAATGGCGAGCGCCGGGTCGGCGTGGTGGCCGGCGAGCGCATCGAGGTCGTCGCGCAGGCGCGCAGCACCCGCGAACTGGCCCTGGCGGCGATCCGCAACGGGCACGGCCTGGCCGAGGAAGTGCAGGCACGCGGCTGTGAGCCCGGCCCGCTGTATCGCGAGCTGCTGGCCGAACGACGCGTGCTGCCGCCGCTGGATCATGACGATCCAGCCCACTGTCTGGTCAGCGGCACCGGCCTGACCCACCTCGGCAGCGCCGCGACCCGCGACAGGATGCATCAGACCGCGCTGCAGGAAGACAAGCTGACCGACAGCATGCGCATGTTCCGCTGGGGCCTGGATGGGGGGCGCCCGCTGCCTGGCAACATCGGCACCCAGCCGGAGTGGTTTTACAAGGGCGACGGCAGCATCGTGGTGCGGCCGGGGGCGGATTTCCCTGCGCCGGACTTCGCCGAGGATTTCGGCGAAGAACCGGAGCTGACCGGGTTGTACGTGATCGGCGACGACGGTAAGCCCTATCGCCTGGGCTTCGCCCTCGGCAACGAATTCTCCGACCACGTCGTCGAGCGCAAGAACTACCTCTACCTGGCCCATTCCAAGCTGCGCTACTGCGCCTTCGGCCCGGAGCTGCGCCTGGGCGAGTTGCCTCGTCATCTGGCCGGCACCAGCCGCATCCGGCGGAACGGTGAGGTGCTCTGGGAGCGGGAATTCCTCTCCGGCGAGGACAACATGTGCCACAGCCTGGAGAACCTCGAATACCACCATTTCAAGTACGCGCAGTTCCTCCGGCCCGGCGATGTGCACGTGCATTTCTTCGGCACCGCGACCCTGTCGTTCGCCGATGGCATCAAGACCCAGCCGGGCGATCGCTTCGAGATCGCCCTGGACGCCTTCGGCGAACCGCTGTGCAACGGCATCGAAGTGCGTGCCCCGGTCATCGCGGCGGGCGGAGTCTGCGCGCTGTAG	MRLIQFENPNGERRVGVVAGERIEVVAQARSTRELALAAIRNGHGLAEEVQARGCEPGPLYRELLAERRVLPPLDHDDPAHCLVSGTGLTHLGSAATRDRMHQTALQEDKLTDSMRMFRWGLDGGRPLPGNIGTQPEWFYKGDGSIVVRPGADFPAPDFAEDFGEEPELTGLYVIGDDGKPYRLGFALGNEFSDHVVERKNYLYLAHSKLRYCAFGPELRLGELPRHLAGTSRIRRNGEVLWEREFLSGEDNMCHSLENLEYHHFKYAQFLRPGDVHVHFFGTATLSFADGIKTQPGDRFEIALDAFGEPLCNGIEVRAPVIAAGGVCAL	PGPT0017806_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LYXONATE_DEGRADATION,PGPT0017806-2_keto3_deoxy_L_lyxonate_dehydratase-NA	NA	NA
BMS010_09498	1584			Alpha-ketoglutaric semialdehyde dehydrogenase	ATGTCGGTCATTCTCGGTCACAACTACATCGGCGGCGGACGCAGCGCGGCCGGCGATGTCATCCTCTACAGCGTCGATGCCGCCAACGGCGAGGTGCTGCCCCATCGCTTCCACCAGGCGACCTCCGACGAAGTGGAAGCCGCCGCGCGGGCCGCCGCCGAGGCCTACCCGGCGTACCGCAACCTGTCGCCCGAGCGGCGCGCCGAATTCCTCGATGCCATCGCCGCCGAGATCGATGCCCTGGGCGATGAGTTCATCGCCACGGTGTGCCGGGAAACCGCGCTGCCGACGGCGCGTATCCAGGGCGAGCGCGCCCGCACCAGCAACCAGTTGCGGCTGTTCGCCCGGGTGCTGCGGCGCGGCGATTTCCATGGCGCGCGCATCGACCGCGCGTTGCCCGACCGGCAACCGCTACCGCGTCCCGACCTACGGCAGTGCCGCATCGGCCTCGGCCCGGTGGCGGTGTTCGGTGCCAGCAATTTCCCCTTGGCTTTTTCCACCGCCGGCGGCGATACGGCTGCCGCCCTGGCCGCCGGTTGTCCGGTGGTGTTCAAGGCGCACAGCGGCCACCTGGCTACGTCGGAGTGGGTGGCGGATGCACTGGTCCGCGCCGCCGAGCGCACCGGCATGCCGGCCGGGGTGTTCAACATGGTCTACGGCGGTGGGGTCGGCGAGTGGCTGGTCAAGCACCCGGCGATCCAGGCGGTGGGTTTCACCGGCTCGCTGAGAGGCGGCCGTGCCCTCTGCGACATGGCCGCGGCCCGGCCGCAACCGATTCCGGTGTTCGCCGAGATGTCCAGCATCAACCCGGTGATCGTCCTGCCAGAGGCGTTGAAGGTGCGCGGCGAGACGATCGCCGCCGAACTGAGCGCGTCGGTGGTGCTCGGTTGCGGACAGTTCTGCACCAATCCCGGCCTGGTCATCGGCATCCGTTCGCCGGATTTTTCCGCTTTTGTCGAGCGCCTCGCCGGGCACATGGCCGAGCAGCCGCCGCAGGCGATGCTCAATGCCGGAACCCTGGCGAGCTACGCGCAAGGGCTGGCGCGCTTGCAAGCACACCCGAGCGTGACACGCCTGGCCGGCCAGGCGCAGCAGGGCAACCGGGCCTGGCCGCAGGTGTTCAAGGCCGACGTCCGCCTGCTGCTGGAGGGCGATGCGTTGTTGCAGGAAGAGGTCTTCGGGCCGACCACGGTGGTGGTGGAGGTCGACAGCGCCGATCAGTTGCATCAGGCCCTGCTCGGGCTGCATGGGCAGCTCACCGCCACCCTGATCGCCGAGCCGACCGACCTGGAGGCGTTCGCCACGCTGGTCCCGCTGCTGGAGCAGAAGGCCGGGCGGCTGCTGCTCAACGGCTACCCGACCGGCGTGGAGGTCTGCGATGCGATGGTCCACGGCGGGCCCTATCCCGCCACCTCGGATGCGCGCGGCACCTCGGTGGGCAGCCTGGCCATCGAGCGCTTCCTGCGTCCGGTGTGCTACCAGAACTACCCGGATGCGCTCCTGCCGGACGCGCTGAAGAACGCCAATCCGCTCGGTATTTCGCGCCTCGTGGATGGCGAAAACACCCGTGATCCGCTGCTTTGA	MSVILGHNYIGGGRSAAGDVILYSVDAANGEVLPHRFHQATSDEVEAAARAAAEAYPAYRNLSPERRAEFLDAIAAEIDALGDEFIATVCRETALPTARIQGERARTSNQLRLFARVLRRGDFHGARIDRALPDRQPLPRPDLRQCRIGLGPVAVFGASNFPLAFSTAGGDTAAALAAGCPVVFKAHSGHLATSEWVADALVRAAERTGMPAGVFNMVYGGGVGEWLVKHPAIQAVGFTGSLRGGRALCDMAAARPQPIPVFAEMSSINPVIVLPEALKVRGETIAAELSASVVLGCGQFCTNPGLVIGIRSPDFSAFVERLAGHMAEQPPQAMLNAGTLASYAQGLARLQAHPSVTRLAGQAQQGNRAWPQVFKADVRLLLEGDALLQEEVFGPTTVVVEVDSADQLHQALLGLHGQLTATLIAEPTDLEAFATLVPLLEQKAGRLLLNGYPTGVEVCDAMVHGGPYPATSDARGTSVGSLAIERFLRPVCYQNYPDALLPDALKNANPLGISRLVDGENTRDPLL	PGPT0018165_549	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLACTURONATE|GLUCURONATE_DEGRADATION,PGPT0018165-aldH-K13877	NA	NA
BMS010_09499	729	fadR		Fatty acid metabolism regulator protein	ATGTCCAGCCGTTTTCACGCATCGACCGTCGACCGGCTGGGCTCCTGGATCGCCTCGGGCAACGTCCTGCCGGGCCAGTCATTGAAAGTCGAAGCGGACCTCTGCGAAGAACTGGGCATCAGCCGGACGGTGCTGCGCGAAGCGATCAAGACGCTGGTGGCCAAGGGCATGCTCCAGGTCGGGCCGAAGGTCGGCACGCGGGTCATGCCGGTGCGCAGCTGGAACCTGTTCGACCCACAAGTAGTGGGCTGGCTGGCGCAACACGGCCTGCCGGAAAACTTCGTCATGGACCTGCTCGACCTGCGCCGCACCATCGAGCCGGTGGCGGTGCGCTGGGCCTGCCAGCGGGCGACGCCGGAGCAGATCGCCGAGATCCAGGCGGCCTACCGCATGCTGGAGGCTTCGATGGGCGACAAGGACGCCTACAACGATGCCGACCGGCGCTTCCACGAAGCCATTCTGGCGGCCAGCCACAATCAATTCATCGAGCAGATGCTGCCCGCCCTGGGTGCACAACTGGCGGTGTCGTTCGAAGTGTCTTCGGCGGTGCCGGACGAACTGGGGCAGACCCTCTCGCTGCACAAGGACCTGGCCGATGCCATCTCCGCTCGCGATGTGGCGCGCGGCGTGTGGGTCTGCATGACCCTGATCGAGCGGTCCGCCGTGACCATCTCTCAGCACTATCCGGAACTGTTCGTGCCTCGCGAGCAGCGGATGAGCACGCCCTGA	MSSRFHASTVDRLGSWIASGNVLPGQSLKVEADLCEELGISRTVLREAIKTLVAKGMLQVGPKVGTRVMPVRSWNLFDPQVVGWLAQHGLPENFVMDLLDLRRTIEPVAVRWACQRATPEQIAEIQAAYRMLEASMGDKDAYNDADRRFHEAILAASHNQFIEQMLPALGAQLAVSFEVSSAVPDELGQTLSLHKDLADAISARDVARGVWVCMTLIERSAVTISQHYPELFVPREQRMSTP	PGPT0018085_275	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTONATE_DEGRADATION,PGPT0018085-dgoR-K19776	NA	NA
BMS010_09500	882			6-deoxy-6-sulfogluconolactonase	ATGGAGTGGCTGCCGCTGTCGCATCACCGCTTCAAGCTGGCCGAGGGGCCGTTCTGGGATCGCCGCGACCAGGCCCTGTACTGGGTGGATATCGCCGGTTTCCTGGCCTGCCGGTTGTGTGACGGCCGCTTCGAGCAGTGGCGCTTCAACGAGCCGGTCTCCGCCTTCATTCCCTGCGAGAGCGGCGATGCCCTGGTGACCCTGGCCAGCGGCGTGTATCGCCTGGACCTCTCGTCGCACGCCGAGGACCCGCGCCTGACGCTGCTCTGCATCGCCGACAGCGTCGCCGGCAACCGTGCCAACGAGGCCCGCTGCGATTCGGCGGGCAGGCTCTGGCTCGGCACCATGCAGAACAACCTCGATGCCAAGGGCGGCGACCTGCCGGTCACCCGACGTTCCGGCAGCCTGTTCCGGGTCGACGAATATGGCGTGGTCAACCGCCTGCTCGGCTGCATGGGCATCGTCAATACGCTGCTCTGGGATCGCAAGGCGGACACCCTCTACTGCGCCGACAGCCTGGATGGCGTCATCTACCGCTACAACATCCTCGGCGACGGCGAACTGCTGGACGGCCGCAGCGTCTGGGCCGGCCCACATCCGCGCGGGGTGCCCGACGGCTCGGCGATGGACGCCGAAGGCTACGTCTGGAACGCCCGCTGGGGCGGTCATTGCCTGTTGCGCTTCGCCCCCGACGGCAGCCTCGACCGGGTGGTGGAGCTACCGGTCAGCCACCCCACCAGCTGCGTCTTCGGTGGCCCTGACCTGAGCACCTTGTACGTCACCAGCGCGGCTCCGGCCGGCGCCGGTGGCGGATTGAACGGCGCCGTGCTGATGGCCGATGTCGGCGTCACCGGCCTGGCCTGCCAGCGCTTCGCCGGCTGA	MEWLPLSHHRFKLAEGPFWDRRDQALYWVDIAGFLACRLCDGRFEQWRFNEPVSAFIPCESGDALVTLASGVYRLDLSSHAEDPRLTLLCIADSVAGNRANEARCDSAGRLWLGTMQNNLDAKGGDLPVTRRSGSLFRVDEYGVVNRLLGCMGIVNTLLWDRKADTLYCADSLDGVIYRYNILGDGELLDGRSVWAGPHPRGVPDGSAMDAEGYVWNARWGGHCLLRFAPDGSLDRVVELPVSHPTSCVFGGPDLSTLYVTSAAPAGAGGGLNGAVLMADVGVTGLACQRFAG	PGPT0017460_298	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017460-araB|L_arabinonolactonase-K13874	NA	NA
BMS010_09501	819	ycdF	COG1028	Glucose 1-dehydrogenase 2	ATGGCGTTACCCCTCTCTCTCCCGCCGGTTCCCGAGCCGGTGCGCGGCGAGCGTCTGAAGGACAAGGTGGTGATCGTCACCGGCGGCGCCCAGGGCATTGGCGAGGCCATCGTGGCCTGCTTCCAGGCCCAGCAGGCCAAGGTGGTGACCGGCGACATCCAGGGCGAGAAGGCCGAACGGGTGGCCGCCGCCTGGCGCGAACGAGGCGGCGAAGTCCTGGCGATGCAGGTGGACGTCACCCAGCCGGCGCAGTTGCAGGCGCTGGTCGATCTGGCCATCGAGCGCTACGGCAAGGTCGATGTGCTGGTCAATTGTGCCGGAGTCAACGTATTCCGCGATCCGCTGGAAATGACCGACGAAGACTGGCGGCGCTGCTTCGCCATCGACCTGGACGGCGTCTGGCATGGCTGCAAGGCTGTACTGCCGCACATGCTGTCGCGCGGCGTGGGCAACATCATCAACATCGCCTCGGTGCACTCGACCAACATCATCCCCGGCTGCTTTCCCTACCCGGTGGCCAAGCACGGCCTGCTCGGGCTGACCCGCGCACTGGGCATCGAGTACGCGCCCAAGGGCATCCGCGTCAACGCCATCGCCCCCGGCTACATCGAGACGCAGCTCAATATCGACTACTGGAACGGGTTCCCCGATCCCCATGCCGAGCGCCAGCGGGCGTTCGACATGCACCCGACACGGCGCATCGGCCAGCCGGTGGAGGTCGCCATGACCGCGCTGTTCCTCGCCACCGACGAGGCGCCGTTCATCAATGCCGCGTGCATCACCATCGATGGTGGGCGCTCGGTCCTTTATCACGAATGA	MALPLSLPPVPEPVRGERLKDKVVIVTGGAQGIGEAIVACFQAQQAKVVTGDIQGEKAERVAAAWRERGGEVLAMQVDVTQPAQLQALVDLAIERYGKVDVLVNCAGVNVFRDPLEMTDEDWRRCFAIDLDGVWHGCKAVLPHMLSRGVGNIINIASVHSTNIIPGCFPYPVAKHGLLGLTRALGIEYAPKGIRVNAIAPGYIETQLNIDYWNGFPDPHAERQRAFDMHPTRRIGQPVEVAMTALFLATDEAPFINAACITIDGGRSVLYHE	PGPT0008190_891	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008190-budC-K18009	NA	NA
BMS010_09502	1002	araF	COG1879	L-arabinose-binding periplasmic protein	ATGTTTCGTCGTCGCGGGATTCGTTCCCTGTGCTTTGCCGCTCTCACCGTCGGCGCGCTCGGTTTCGCCGGCGCCTCGTTCGCCGAGGAGGTGAAGATCGGCTTCCTGGTCAAGCAGCCCGAGGAACCCTGGTTCCAGACCGAATGGGCCTTCGCCGAGAAGGCGGGCAAGGAGCTGGGCTTCACCGTGCTCAAGATCGCCGTGCCCGACGGCGAGAAAACCCTCTCCGCCATCGACAGCCTGGCCGCCAACGGCGCCAAGGGCTTCGTCATCTGTCCGCCGGACGTGTCCCTCGGCCCGGCCATCGTTGCCAAGGCCAAGCTCAACGACCTCAAGGTGATGGCGGTGGACGACCGTTTCATCGACGCCAAGGGCGCCTTCATGGAGGACGTGCCCTACCTGGGCATGGCGGCCTTCGAAGTAGGCCAGAAGCAGGGCACCGCCATGGCCGAAGAGGCGAAGAAGCGCGGCTGGGACTGGAATGAAACCTATGCGGTGATCAACACCTACAATGAGCTGGACACCGGCAAGAAGCGCACCGACGGTTCGGTGGATGCGCTGAAGAAGGCCGGCCTGCCGGAAGACCACATCCTCTTCACGCCGCAGAAGACCCTCGACGTGCCCGGCAGCATGGACGCCACCACCTCGGCGCTGGTCAAGCTGCCGGCCGGGGCGAAGAACCTGATCATCGGCGGGATGAACGACAACACCGTGCTCGGCGGCGTGCGTGCCACCGAGAGCGCCGGCTTCAGCGCCGACAACGTGATCGGCATCGGCATCAACGGCACCGACGCCATCGGCGAGCTGAAGAAGCCGAAGAGCGGATTCTTCGGTTCGATGCTGCCGAGCCCGCACGTGGAAGGCTACGAGACCGCGCGGATGATGTTCGAGTGGGTCACCGCCGGCAAGGAACCGCCCAAGTACACCGCCATGGACGAAGTCACCCTGATCACCCGGGAAAACTTCCAGGCGGAACTGGAAAAGATCGGCCTCTGGAAATGA	MFRRRGIRSLCFAALTVGALGFAGASFAEEVKIGFLVKQPEEPWFQTEWAFAEKAGKELGFTVLKIAVPDGEKTLSAIDSLAANGAKGFVICPPDVSLGPAIVAKAKLNDLKVMAVDDRFIDAKGAFMEDVPYLGMAAFEVGQKQGTAMAEEAKKRGWDWNETYAVINTYNELDTGKKRTDGSVDALKKAGLPEDHILFTPQKTLDVPGSMDATTSALVKLPAGAKNLIIGGMNDNTVLGGVRATESAGFSADNVIGIGINGTDAIGELKKPKSGFFGSMLPSPHVEGYETARMMFEWVTAGKEPPKYTAMDEVTLITRENFQAELEKIGLWK	PGPT0016605_150	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_ARABINOSE_TRANSPORT_I,PGPT0016605-araF-K10537	NA	NA
BMS010_09503	1608	araG	COG1129	Arabinose import ATP-binding protein AraG	ATGAACCGGGCGATCCACTGGCAGGCCCGTCGCGACGGGCCGAGCCCCGCAGTCCCGCGCCCCGTGACCGAGGCGGGGGACCTGGAGACGGCCATGTTCGAACAGGCCAGGGCGGGCGAGAGCCTGCGCTTCCACGGCATCGGCAAGACGTTTCCCGGCGTCTGCGCGTTGTCGGAGATCAGCTTCGTCGCCCGGCCGGGTACGGTGCATGCGCTGATGGGTGAGAACGGCGCGGGCAAGTCGACCCTGCTGAAAATCCTCGGCGGCGCCTACGCGCCGAGCAGCGGTCACTTGCAGATCGGCGAGCGCCAGATGACCTTCCGCTCGGCGGCCGAGAGCATCGCCAACGGCGTCGCGGTGATCCACCAGGAGCTGCATCTGGTGCCGGAAATGAGCGTGGCGGAGAACCTGTTGCTTGGCCACCTGCCGGCCCGCTTCGGCCTGGTCAACCGGCGTGCCATGCTGCGTCAGGCCCGTGAGGTGCTCAAGGGCCTGGCCGACGAGATCGACCCGGCGGCGCGCCTCGGCAGCCTGTCCCTGGGCCAGCGGCAACTGGTGGAAATCGCCAAGGCGATGTCGCGCAACGCCCATGTGATCGCCTTCGACGAGCCCACCAGCAGCCTGTCTGCCCGCGAGATCGACCGCCTGATGACGATCATCGCCCGCCTGCGCGACGAGGGCAGGGTGGTGCTCTACGTTTCGCACCGCATGGAAGAAATCTTCCGCATCTGCGATGCCGTCACGGTATTCAAGGACGGCCGTTTCGTGCGCACCTTCGAGGACATGCAGGCGCTGACCCATGACCAGCTGGTGACCTGCATGGTCGGTCGCGACATCGAGGACATCTACAACTACCGCCCCCGCGAGCAGCACGGCGAGGCCCTGCGGGTCGACGGGCTGCTGGGGCCTGGCCTGCAGGAGCCGGTCAGCTTCGCGGTGAACAAGGGCGAGGTGCTGGGTTTCTTCGGCCTGGTTGGCGCCGGGCGTACCGAGCTGCTGCGACTGCTCGCCGGCCTGACGCGCAGCAGCGCCGGCAGCCTGGCTCTCGACGGCCAGCCGCTGACGCTGGCATCGCCGCGCGACGCCATCGCCGCCGGCATCCTGCTCTGTCCCGAGGACCGCAAGAAAGAAGGCATCGTGCCGCTGGCCAGCGTGGCAGAGAACATCAACATCGGCGCGCGCAGCCGGCACACGCGGCTGGGGTGCCTGCTCCAGGGGCGCTGGGAGCGCGACAACGCCGTCCGGCAGATTCGCGCCCTGAGTATCAAGACCCCGTCGCCGGCCCAGCAGATTCTTTACCTCTCCGGCGGCAACCAGCAGAAGGCGATCCTCGGCCGCTGGCTGTCGATGCCGATGAAAGTCCTGCTGCTCGACGAGCCCACCCGCGGCATCGACATCGGCGCCAAGGCCGAGATCTACCAGATCATCCACGACCTCGCCGCCGAGGGCATCGCGGTGATCGTGGTGTCCAGCGACCTGATGGAAGTCATCGGCATATCCGACCGCATCCTGGTCATGAGCGAAGGCGCGATCACCGGCGAGGTGCCGCGCGAGCAGGCGGAGGAGTCGCGCCTGTTGCAATTGGCCCTGCCGCGTTCGCGTGGCTGA	MNRAIHWQARRDGPSPAVPRPVTEAGDLETAMFEQARAGESLRFHGIGKTFPGVCALSEISFVARPGTVHALMGENGAGKSTLLKILGGAYAPSSGHLQIGERQMTFRSAAESIANGVAVIHQELHLVPEMSVAENLLLGHLPARFGLVNRRAMLRQAREVLKGLADEIDPAARLGSLSLGQRQLVEIAKAMSRNAHVIAFDEPTSSLSAREIDRLMTIIARLRDEGRVVLYVSHRMEEIFRICDAVTVFKDGRFVRTFEDMQALTHDQLVTCMVGRDIEDIYNYRPREQHGEALRVDGLLGPGLQEPVSFAVNKGEVLGFFGLVGAGRTELLRLLAGLTRSSAGSLALDGQPLTLASPRDAIAAGILLCPEDRKKEGIVPLASVAENINIGARSRHTRLGCLLQGRWERDNAVRQIRALSIKTPSPAQQILYLSGGNQQKAILGRWLSMPMKVLLLDEPTRGIDIGAKAEIYQIIHDLAAEGIAVIVVSSDLMEVIGISDRILVMSEGAITGEVPREQAEESRLLQLALPRSRG	PGPT0016615_193	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_ARABINOSE_TRANSPORT_I,PGPT0016615-araG-K10539	NA	NA
BMS010_09504	969	araH_2	COG1172	L-arabinose transport system permease protein AraH	ATGGCGATTCAAGAAACGACCCTGGCGGCTCCCCGGCAAGGTCTCAATATGCGGCGCTTCCTCGACGACTGGGCGATGCTGCTGGCGGCGCTGGGCATCTTCCTGCTCTCGGCGCTGTTCATCGACAACTTCCTCTCGCCGCTGAACATGCGCGGCCTGGGCCTGGCGATTTCCACGGTGGGCATCGCCGCCTGCACCATGCTGTTCTGTCTCGCCTCGGGGCACTTCGACCTGTCGGTGGGCTCGGTGATCGCCTGTTCCGGGGTGGTCGCCGCGGTGGTCATGCGCGACACCGAGAGCGTCTTCCTCGGCGTGTCAGCCGCCCTGGCGCTGGGCCTTGCGGTGGGCATGGTCAACGGCATCGTTATCGCCAAGCTGCGCATCAACGCGTTGATCACCACCCTGGCGACCATGCAGATCGTCCGCGGCCTGGCCTACATCTTCTCCAACGGCAAGGCGGTGGGGGTGATGCAGGAAGACTTCTTCGTCTTCGGTAACGGCCAACTGCTCGGCGTGCCGGTGCCGATCCTGATCACCATCCTCTGCTTCATCTTCTTCGGCTGGCTGCTCAACTACACCACCTACGGGCGCAACACCATGGCCATCGGCGGCAACCAGGAAGCGGCGCTGCTGGCCGGGGTGCGGGTCGACCGTACCAAGATCGTCATCTTCGCCGTGCACGGCCTGGTCGGCGCGTTGGCCGGCGTGGTGCTGGCGTCGCGGATGACCTCCGGGCAGCCGATGATCGGGCAGGGCTTCGAACTCACCGTGATCTCCGCCTGTGTGCTCGGCGGCGTCTCCCTCAGCGGCGGCATCGGCATGATGCGTCACGTGGTCGCCGGGGTGCTGATCCTGGCGATCATCGAAAACGCCATGAACCTGAAGAACATCGACACCTTCTACCAGTACGTCATCCGCGGCACGATCCTGCTGCTGGCGGTGATCATCGATCGCTTGAAGCAACGCTGA	MAIQETTLAAPRQGLNMRRFLDDWAMLLAALGIFLLSALFIDNFLSPLNMRGLGLAISTVGIAACTMLFCLASGHFDLSVGSVIACSGVVAAVVMRDTESVFLGVSAALALGLAVGMVNGIVIAKLRINALITTLATMQIVRGLAYIFSNGKAVGVMQEDFFVFGNGQLLGVPVPILITILCFIFFGWLLNYTTYGRNTMAIGGNQEAALLAGVRVDRTKIVIFAVHGLVGALAGVVLASRMTSGQPMIGQGFELTVISACVLGGVSLSGGIGMMRHVVAGVLILAIIENAMNLKNIDTFYQYVIRGTILLLAVIIDRLKQR	PGPT0016610_414	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_ARABINOSE_TRANSPORT_I,PGPT0016610-araH-K10538	NA	NA
BMS010_09505	987	dgoK1_2	COG3734	putative 2-dehydro-3-deoxygalactonokinase DgoK1	GTGGAGACGCATCTGATCGCCCTGGACTGGGGCACCACGTCGCTGCGCGCCTATCGGCTTGGCCCGGGCGGCGAAACGCTGGAAGAGCGCAGCCTGGCGCGCGGCATCCTGCAACTCGACGGCAGCGGCGATGCGGCCTTCGAAGGTGCCCTGGACGAAGCCTGCGGCGACTGGCTGGATGCCGAGCCCGGCGTGCCGCTGATCGCCTGCGGCATGGTCGGCAGCGCCCAGGGCTGGCGCGAGGCCGCCTACGTGGAAGTGCCGCTGGACGCCGGCCGGCTGGCCGCGGCGCTGACCCCCATCGAAACCCGGCGCGGCAGCATGCTTTGGGTGATCCCCGGGGCGATCCAGAACGGGCCGCTGCCAAACGTCATGCGCGGCGAGGAAACCCAGGTGTTCGGCCTGCTCGCCGGGCTGGACGAAGACGAGCGGGACGAGCCCCTGCTGATCGGCCTGCCGGGCAGCCACAGTAAATGGGTGGCGGTGGAGAACGGCCGCCTGGGCCGCTTCCAGACCTTCATGACTGGCGAGGTCTACGCCGCGTTGGTGGGCCATACCCTGCTCGGACGGACCGTCGTCCCCTGCGAGGCCTTCGATGCTGCGGCCTTCGAAGAGGGCGTGCGCGTTGCCCGCTCCGACGACGGACGCGGCGGCCCGTTGTCCACCATTTTCAGCAGTCGTACGCGGGTGCTGACCGGCGGCCTGCGTGGCGAGTCCCAGGCCGACTACCTGTCCGGTCTGCTGATCGGCCACGAGTTGATGGCCATGGCCGAGGTCTGCCAGGCCGACCCGCACCAGCGCATCGTGCTGGTCGGCAACTCGGCGCTGTGCGCGCGCTACCTATGGGCCTTGGAGCACAGCGGCTTCAGCGCCCTCAGCTTCGCCTCGCAGGCCACCGTCGCCGGGCTCTGGCGCATCGCGGAGCGGGCCGGGCTGCTTGCGATTCATCCCGCAGACGAGGTACTCGCATGTTCCGCCAAGCGTTAG	METHLIALDWGTTSLRAYRLGPGGETLEERSLARGILQLDGSGDAAFEGALDEACGDWLDAEPGVPLIACGMVGSAQGWREAAYVEVPLDAGRLAAALTPIETRRGSMLWVIPGAIQNGPLPNVMRGEETQVFGLLAGLDEDERDEPLLIGLPGSHSKWVAVENGRLGRFQTFMTGEVYAALVGHTLLGRTVVPCEAFDAAAFEEGVRVARSDDGRGGPLSTIFSSRTRVLTGGLRGESQADYLSGLLIGHELMAMAEVCQADPHQRIVLVGNSALCARYLWALEHSGFSALSFASQATVAGLWRIAERAGLLAIHPADEVLACSAKR	PGPT0018080_165	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTONATE_DEGRADATION,PGPT0018080-dgoK-K00883	NA	NA
BMS010_09506	630	dgoA_2	COG0800	2-dehydro-3-deoxy-6-phosphogalactonate aldolase	ATGTTCCGCCAAGCGTTAGCGGCCAATGGCCTGATCGCCATCCTGCGTGGTGTGCGACCCGACGAGGTGGAAGCCATCGGCCATGCCCTCTACGACGCCGGTTTCCGAATCATCGAAGTACCGCTCAACTCGCCGCAGCCGCTGGAGAGCATCGCCCGGCTGCGGAAGGGCCTGCCGCGCGACTGCCTGATCGGCGCCGGCACGGTGCTGGACGCCGCCCAGGTGGCCGAGGTCTGGTCGGCTGGCGGTGAACTGATCGTCATGCCTCATGGCGACCCGCAGGTGATTCGCGCGGCCAAGGCCGCCGGGTTGGCCGTCGCGCCTGGCGTGGCGACGCCCACCGAAGCCTTCGCCGCCCTGGCCGAGGGGGCCGATGTGCTCAAGCTGTTCCCGGCCGAACAGCTCGGCCCCGGCGTACTCAAGGCGTGGCGCGCGGTGCTGCCCGCTGCGACCGCTTTGCTGCCGGTGGGCGGCATCACACCGGAGAGCCTGGCGGCCTACCGTCGGGCCGGCGCCGCCGGCTTCGGTCTCGGTTCGGCGCTTTATGCACCCGGTATGGATGCCGACGAAGTGGCCCGCCGCGCGCAGGCCTTCGTCCAGGCCGCCACCGCCCCCATTCCGCTTCCCTGA	MFRQALAANGLIAILRGVRPDEVEAIGHALYDAGFRIIEVPLNSPQPLESIARLRKGLPRDCLIGAGTVLDAAQVAEVWSAGGELIVMPHGDPQVIRAAKAAGLAVAPGVATPTEAFAALAEGADVLKLFPAEQLGPGVLKAWRAVLPAATALLPVGGITPESLAAYRRAGAAGFGLGSALYAPGMDADEVARRAQAFVQAATAPIPLP	PGPT0018075_103	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTONATE_DEGRADATION,PGPT0018075-dgoA-K01631	NA	NA
BMS010_09507	1149	dgoD_4	COG4948	D-galactonate dehydratase	ATGAAGATCACCGGGCTCACCACCTATCTCGTTCCGCCGCGCTGGCTGTTCCTCCGCATCGACACCGACGAGGGCCTCAGCGGCTGGGGCGAGCCGGTGGTGGAAGGGCGGGCGCACACGGTCGCGGCGGCGGTGGAGGAACTGGCCGACTACCTGATCGGCAAGGACCCGCGGCACATCGAGGACCACTGGACGGTGCTTTATCGCGGTGGCTTCTACCGGGGCGGCGCGATCCACATGAGTGCCTTGGCCGGCATCGACCAGGCGCTCTGGGACATCAAGGGTAAGGCCCTCGGCGTGTCGGTGGCCGACCTGCTCGGCGGCCGCGTGCGCGAGCGCATCCGCGTGTACTCCTGGATCGGCGGCGACCGCCCGGCCGATACCGCCAACGCCGCACGGCAGGCAGTGGCGCGTGGCTTCAGCGCGGTGAAAATGAACGCCTGCGAAGAAATGCAGTTCGTCGACAGCCACGCCAAGGTCGACGCGGTGCTGGCCAACATGGCGGCCATCCGCGAGGCGGTGGGCGGCGAGATCGGCATCGGCGTGGACTTCCACGGCCGGGTGCACAAGCCCATGGCGAAAATCCTCATGAAGGAGCTCGAACCCTACCGGCCGATGTTCATCGAAGAACCGGTGCTCAGCGAAAACCACGAGGCATTGAAGGAGCTGGCGCCGCTCTCCTGCGCCCCTATTGCCCTGGGCGAACGGCTGTATTCGCGCTGGGATTTCAAACGCATCCTCGCCGAAGGCTACGTCGACATCATCCAGCCGGACGCCTCCCACGCCGGCGGCATCACCGAAACCCGCAAGATCGCCAGCATGGCCGAAGCCTACGACGTCGCCCTGGCCCTCCACTGCCCACTGGGCCCCATCGCCCTGGCCACCTGCCTGCAACTGGACGGCGTCTGCTACAACGCCTTCATCCAGGAACAGAGCCTGGGTATCCACTACAACGAAGGCAACGACTTGCTCGACTACCTGCACAACCCCGAGGTCTTCCACTACCAGGACGGCTTCGTCACCCTCCCCAACGGCCCCGGCCTGGGCATCGACGTCAACGAAGACTACGTGATCGAACGCGCCCGAACCGGCCACCGCTGGCGCAACCCGGTATGGCGGCATGCGGATGGGAGTGTGGCGGAGTGGTGA	MKITGLTTYLVPPRWLFLRIDTDEGLSGWGEPVVEGRAHTVAAAVEELADYLIGKDPRHIEDHWTVLYRGGFYRGGAIHMSALAGIDQALWDIKGKALGVSVADLLGGRVRERIRVYSWIGGDRPADTANAARQAVARGFSAVKMNACEEMQFVDSHAKVDAVLANMAAIREAVGGEIGIGVDFHGRVHKPMAKILMKELEPYRPMFIEEPVLSENHEALKELAPLSCAPIALGERLYSRWDFKRILAEGYVDIIQPDASHAGGITETRKIASMAEAYDVALALHCPLGPIALATCLQLDGVCYNAFIQEQSLGIHYNEGNDLLDYLHNPEVFHYQDGFVTLPNGPGLGIDVNEDYVIERARTGHRWRNPVWRHADGSVAEW	PGPT0002220_1120	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTONATE_DEGRADATION,PGPT0002220-dgoD-K01684	NA	NA
BMS010_09508	1077			hypothetical protein	ATGGCCAATGGAAACAAGTTCCAGAGCGAGAGGGACTATCTTAATAGCACCCCATTGCCGCTGGAGTTCTCTCGCTACTACAACAGCCTTAATGGACTGTGGGGGCACGACTTCTCTGAACGTTTAGTTATCGCCTCTGAAAGCATTGCATTGTTGCGTCCTGACGGAAAGCAAGTGTTGTTCCTGCGCAATGGTGATGCCGTCACCGCTGAGGCAACTGAGTTGGGTGAGTTGGTGAAAGTGTCTTCTGGTTGGGAATATACATCCCAGCAAAATGAAGTAATGAACTTTGATATCGATGGTCGACTTACAAGCTGGCGTAAGCCGAGTGGGCATTCGTACACAGTCTCCCGTACCACTACCGCTACGGTCGTTACCGATAATTTCTCTCGCTCTTTAACGTTTACGGAAGATGGCTTATACCAACCGCTAACCCTTCAGGCGGACGGTTTTTCGGCTGCGTACTCGTACAACACTTCGGGCCGTCTTGGCAAAGTCTCGTTAACGCATTCAGGCGATACAGTTACCCGCCAATACCACTACGAAGACCCCCGCAACCCCAAACTCCTCACCGGCATCACCGACGAACGCGGCATCCGCTACGCCACCTGGACCTACGACGACCAGGGCCGTGCCATCTCCAGCGAACACGCCAACGGTGCCGAAAAGGTCACCCTGAGCTACAACGCCGACGGCTCCACCACCGTCACCAACGAACTGGGCAAGCAGACCGTCTACCGCTTCCAGACCATCCAGGGCGTCCGGCGCATCACCGCCATCGAAGGCGAACCTTCGGCCAACTGCCCGGCGAGCAACGCCCAGTACAGCTACGACGAGCGCGGCCTGCTCAAGACCAAGACCGACAACAAGGGCCACCTCACCACCTACACCTACAACGACCGTGGCCTGGAAGTCGCCCGCACCGAAGCCGCCGGCACGGCCCAGGCCCGCACCGTCACCACCGAGTGGCACCCCGACTGGTTCCTGCCGGTCACCGTCACCGAACCGGACCGTATCACCCGCTACACCTACGACGACCAGGGCCGGCAACTCAGCCAGACCGTCACGCCCCGCTGA	MANGNKFQSERDYLNSTPLPLEFSRYYNSLNGLWGHDFSERLVIASESIALLRPDGKQVLFLRNGDAVTAEATELGELVKVSSGWEYTSQQNEVMNFDIDGRLTSWRKPSGHSYTVSRTTTATVVTDNFSRSLTFTEDGLYQPLTLQADGFSAAYSYNTSGRLGKVSLTHSGDTVTRQYHYEDPRNPKLLTGITDERGIRYATWTYDDQGRAISSEHANGAEKVTLSYNADGSTTVTNELGKQTVYRFQTIQGVRRITAIEGEPSANCPASNAQYSYDERGLLKTKTDNKGHLTTYTYNDRGLEVARTEAAGTAQARTVTTEWHPDWFLPVTVTEPDRITRYTYDDQGRQLSQTVTPR				NA	NA	NA	NA	NA
BMS010_09509	789	gno_3		Gluconate 5-dehydrogenase	ATGTCCACCATCAACCTCAACGCGCCGAAACTGTTCGATCTTTCCGGCCAGGTGGCGCTCGTCACCGGCGCCGGTTCCGGCATCGGCCAGCGGATCGCCATGGGGCTTGCCCAATCCGGCGCCAATGTCGCGCTGCTCGACCGCCGCACCGATGACGGCCTGGCGCAGACGGCCGATTTCATCGCCAAGGCCGGGCGCAAGTCGATCCAGATTGCCGCTGACGTGACCAGGAAAGAGGCGCTGACCGATGCGGTTGCCCGCACCGAGGCCGAACTTGGCGCGCTTTCACTCGCCGTCAATGCGGCCGGCATCGCCAATGCCAATCCTGCCGAGGAGATGGAGGAAAGCCAGTTCCAGACGATGATGGACATCAACCTGAAGGGCGTTTTCCTGTCCTGCCAGGCGGAAGCCAATGCCATGCTGAAGAACGGGCGCGGCGCAATCGTCAACATCGCCTCCATGTCCGGCGTCATCGTCAATCGCGGGCTGATGCAGTGCCACTACAATGCCTCGAAGGCGGGTGTCATCCACATGTCGAAATCCATGGCGATGGAGTGGGTGGGTCGCGGCATCCGCGTCAACACCATCTCGCCCGGTTACACGGCGACGCCGATGAACACGCGGCCGGAAATGGTGCACCAGACGAAGCTCTTCGAAGAACAGACGCCGATGCAGCGCATGGCGGGCGTCGATGAGATGGTCGGTCCGGCGATCTTCCTGCTCTCCGATGCGGCGAGCTTCGTGACGGGCGTGGATCTGCTGGTGGATGGCGGTTTCTGCTGCTGGTAG	MSTINLNAPKLFDLSGQVALVTGAGSGIGQRIAMGLAQSGANVALLDRRTDDGLAQTADFIAKAGRKSIQIAADVTRKEALTDAVARTEAELGALSLAVNAAGIANANPAEEMEESQFQTMMDINLKGVFLSCQAEANAMLKNGRGAIVNIASMSGVIVNRGLMQCHYNASKAGVIHMSKSMAMEWVGRGIRVNTISPGYTATPMNTRPEMVHQTKLFEEQTPMQRMAGVDEMVGPAIFLLSDAASFVTGVDLLVDGGFCCW	PGPT0017696_337	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_SORBOSE_DEGRADATION,PGPT0017696-sou1|SOU1_like-K17742	NA	NA
BMS010_09510	1479	rbsA_7	COG1129	Ribose import ATP-binding protein RbsA	ATGCGCGAGCCGGTTCTTTCGCTCCGTGGCATCAGCAAACGTTACGGTCCGCTCGAGGTCCTGAAAAACGTCGATCTCGACGTTTATCCCGGCGAAGTGGTGGCCCTGCTGGGTGAAAACGGCGCGGGCAAATCCACGCTGTCAGGCATCATCGCCGGTTCGCGCGAGCCGTCCGAAGGCACAATGACATGGCTCGGCCAGCCCTATGCACCGTCTTCGCCGCGAGAGGCGATAGACAAGGGCATCGTCCTCATCCATCAGGAATTGAAGCTCCTGCCGGAGCTTTCCATCGCCGAAAACGTGTTCATTGGCCGCTGGCCGATGAAGAACGGCGTCGTCGACCGTGCCGAGATGGTGCGCAGAGCCCAGCAGCAATTGGCGCGTCTCAACCTCCACATTCCCGCGACCCGCAAGGTGGCCGGTCTTTCGACCGCCAACCAGCAGTTGATCGAAATCGCCAAGGCGCTGGCGCTGGACGCCAAACTCCTGATCCTCGACGAGCCAACGGCGGCACTTGGCGGCGCGGAAACGCAGGCGCTGTTCGAGCAGGTGCGCAAGCTGCGCGCCGAGGGTGTGGGCATCATCTATATTTCCCACCGTATGGAAGAGATCAAACAGATCACCGACCGCATCGTCGTGTTGCGCGATGGCGAGCGGGTGCATGAGTTTGCCGACAGCGCGACGCCGGTGCGCACCATTGTCGAAAGCATGGTCGGCCGCTCGCTGGAGCGCCTGTTTCCGACGCTGCCGGAGCCGCAGGACAAGGTGGTGCTGGAGGTCAAGGGGCTGACCGGCGCGACCAATGCCTTCCGCGACATTAGCTTCGGCGTTCGCGCCGGTGAAATTCTCGGTATTGCCGGTCTGATCGGGGCGGGACGCACCGAGCTGGTGCGGGCCATTTCCGGTGCCGATCCGACGAGTGCGGGTGAGGTGCTGCTGGATGGCAAGGTGCTGACGCTGAAAAGCCCGGCGGATGCGATTGCAAAGGGCATCGTCATGGTGCCGGAAGACCGCAAATTGCAGGGGCTGGTGGTGGAGCACGAGATCGGCGAAAACCTGATCTATGCCAATCTCGACCGCGTAGGCACCGGCTGGATCACGCCGCGTATCAAGCGCGCCTTTACCAAGGAGGCCATCGCCAAGTTTGGCGTGAAGGGCCGTAGCGAACAGCCGGCATCTGATCTTTCCGGCGGCAACCAGCAGAAGGTGGTCATTGCCAAATGGCTTGCCCGCAATCCGCGCGTGGTGGTGCTGGACGAGCCGACGCGCGGCATCGATGTCGGCGCGCGGGCGGGCATTTACGATATCATCGTCGGTCTGGCTAAGGACGGCGTGGCCGTCATCGTCGTCAGCTCCGATCTCGAGGAGGTGCTGGGCGTTTCGAACCGCATCCTCGTGCTTGCGCAGGGAAAACAGGCCGGCATCCTCAACCGTGACGAAGCAAACGACGTCTCGGTCATGGAACTGGCGACCATCTGA	MREPVLSLRGISKRYGPLEVLKNVDLDVYPGEVVALLGENGAGKSTLSGIIAGSREPSEGTMTWLGQPYAPSSPREAIDKGIVLIHQELKLLPELSIAENVFIGRWPMKNGVVDRAEMVRRAQQQLARLNLHIPATRKVAGLSTANQQLIEIAKALALDAKLLILDEPTAALGGAETQALFEQVRKLRAEGVGIIYISHRMEEIKQITDRIVVLRDGERVHEFADSATPVRTIVESMVGRSLERLFPTLPEPQDKVVLEVKGLTGATNAFRDISFGVRAGEILGIAGLIGAGRTELVRAISGADPTSAGEVLLDGKVLTLKSPADAIAKGIVMVPEDRKLQGLVVEHEIGENLIYANLDRVGTGWITPRIKRAFTKEAIAKFGVKGRSEQPASDLSGGNQQKVVIAKWLARNPRVVVLDEPTRGIDVGARAGIYDIIVGLAKDGVAVIVVSSDLEEVLGVSNRILVLAQGKQAGILNRDEANDVSVMELATI	PGPT0016600_4882	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0016600-rbsA-K10441	NA	NA
BMS010_09511	930	rbsB_4	COG1879	Ribose import binding protein RbsB	ATGAAATTTTCACGCATTCTGCTGACATCCGCCGCCCTTCTCGCCCTGTCGCTCGGCTCCGCCAATGCCGCCGAAGTCAAGAAGATCGGCCTTGCCGTCGCCAATCTGCAGGCGAACTTCTTCAACCAGATCAAGCAGGCCGTTGAGGCCGAAGCCAAGACGCGCGGCATTGCCGTCGTCACCGTCGATGCCAAGGGCGATGGCCCGACGCAGGTGAACCAGATCCAGGATCTGCTGACCCAGAATATCGATGCGCTGATCTATATTCCGGCCGGTGCCGCTGCCGCGACCGTTCCGGTGAAGCTTGCCAAGGCCGCCGGCGTTCCGGTCATCAACATCGACCGCAATGCCGATGGCGCGCCGGGCGATACCTTCCTCGCCACCGATTCCGTCGCCTCCGCCAAGGCGGTTTGCGATTACATCATCAAGCAGGCCGGCGGTTCGGGCAAGATGGTCATCATCCACGGCCAGAAGGGCACGACGCCGGAAGTGGACCGCACAAAGGGCTGCATGGAATCGGTGAAGGCCAATTCCGGTGTGAAGATCGTTGCCGAACAGTGGTCCAACATGTGGAGCCAGGATGAAGGCTTCCAGATCATGCAGAATATGCTGCAGGCCAATCCGGATGTTTCCATCGTCTTTGCGCAGGCCGACGGTCTGGCGCTCGGCGCGGCGCAGGCGATCAAGGTCGCCAATCCCTCGCAGAAGATCGTCGTCGGCGGCTTCGATGGCGATACGGCGGCGCTTGAGGCGCTGAAGAACGGCGTCTTCGACGTGACCGCGACGCAGCAGACCCAGAAGATGGGCCGCACGGCTGTCGAGATGGCCGTCAAGATCGTCGGCGGCGAAAAGGTTCCGGCTGTGCAGCTTTCCGATGCGACGCTGACCACCAAGGAAAATGTCGAAGGCTTCATCGCCAACCATCCCTGA	MKFSRILLTSAALLALSLGSANAAEVKKIGLAVANLQANFFNQIKQAVEAEAKTRGIAVVTVDAKGDGPTQVNQIQDLLTQNIDALIYIPAGAAAATVPVKLAKAAGVPVINIDRNADGAPGDTFLATDSVASAKAVCDYIIKQAGGSGKMVIIHGQKGTTPEVDRTKGCMESVKANSGVKIVAEQWSNMWSQDEGFQIMQNMLQANPDVSIVFAQADGLALGAAQAIKVANPSQKIVVGGFDGDTAALEALKNGVFDVTATQQTQKMGRTAVEMAVKIVGGEKVPAVQLSDATLTTKENVEGFIANHP	PGPT0015740_5360	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0015740-rbsB-K10439	NA	NA
BMS010_09512	981	rbsC_11	COG1172	Ribose import permease protein RbsC	ATGTCCGCGATTGAACGCAATGAGGGGGTCACGCACACCAGGAGCCCGCTTGCCTGGTTGAGCGGAGCGACCGGACCTCTTTTGGGCCTGCTGCTGCTCTGCGTGTTTCTGACCTTCGCCAGCGAGAATTTCCTGTCGCTGCGCAATGGGCTCAACATTCTCGACCAGATCACCGTTCTCGGCATCATGGCCGTCGGCATGACCTTCGTGATCCTGCTCGGCGGCATCGATCTGTCTGTCGGCTCGGTTCTGGCGCTGTCGATGATGATCATGGGCTGGACGGCAAATGTGGCGGGCATGCCGATGGGCATGGCCATCGTGCTGGCGCTGATCGCGTCCGCCGCCTGCGGCCTCGTGGTCGGTATTCTCGTCACTGCCTTCCGCGTGCCGGCCTTCATCGCCACGCTGGCCATGATGTCGGTGGCGCGCGGTCTCGCCAATATGATCACCGATGGACAGCAGATCGTCGGTTTCCCTGACTGGTTCATGATGCTGGCAATTGACCGCCATTTCGGCGTGCTGACAGCGACCGTGCTTCTGATGCTCGTCGTCGTTCTGGTTTCCTGGTTGTTCCTGCGCTTCCGTTCGGAAGGCCGGACGGTCTATGCGGTCGGCGGTAACCCGGAAGTGGCGCGCCTTGCCGGCATCAATGTGCCGCTGGTGACGATCTGCGTTTATGTCGCCTGTGCAGTTCTTGCCGGTCTCGCCGGCATCGTTCTTGCGGCGCGTCTCGACTCGGTGCAGCCCTCCAGCGGCTTCGGTTACGAGCTGGATACGATTGCGGCCGTTGTCATCGGCGGAACCTCGCTTTCGGGCGGTGCGGGCGGCATCGGCGGAACGCTGATCGGCGTGCTGATCATCGGCGTGCTGCGCAACGGCCTCAACCTGCTCAACGTCTCTCCCTTTTTGCAGCAGGTCATCATCGGTGTCGTCATCGTGCTGGCCGTGGGTGCTGAAACCCTGCGCCGCCGCAGAAGCTGA	MSAIERNEGVTHTRSPLAWLSGATGPLLGLLLLCVFLTFASENFLSLRNGLNILDQITVLGIMAVGMTFVILLGGIDLSVGSVLALSMMIMGWTANVAGMPMGMAIVLALIASAACGLVVGILVTAFRVPAFIATLAMMSVARGLANMITDGQQIVGFPDWFMMLAIDRHFGVLTATVLLMLVVVLVSWLFLRFRSEGRTVYAVGGNPEVARLAGINVPLVTICVYVACAVLAGLAGIVLAARLDSVQPSSGFGYELDTIAAVVIGGTSLSGGAGGIGGTLIGVLIIGVLRNGLNLLNVSPFLQQVIIGVVIVLAVGAETLRRRRS	PGPT0016590_4019	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0016590-rbsC-K10440	NA	NA
BMS010_09513	810	aptA_1	COG3959	Apulose-4-phosphate transketolase subunit A	ATGCAGTCCCAGGAGCTAGAGCGCATTGCGCGCCAGATTCGCCTTCGCGACGTACAGGCTGTTTTTGAAGCGGGTGCGGGCCATGTCGGCGGCGAAATGTCAGCTATCGACATCATGACGGCCCTTTATTTCCGCGTCCTGCGCATCTGGCCGGATGATCCGAAAAACCCTGCCCGCGACCGTTTCGTGCTTTCCAAGGGCCATACGGCCTGCGCGCTTTATGTGACGCTGGCCAAGCGCGGCTTCATCCCGGAAGAGGAAATCTCGACCTTCCTGCAGCCGAATTCGCGCCTCAACGGCCACCCGAACTGTAACAAGGTTCCGGGTGTGGAAACCAATACCGGCCCGCTCGGTCACGGACTGCCGGTTGCCGTCGGCATGGCCAAGGCGGCCAAGCTTTCCGGTGCGGACTACCACACCTATGTCATGACCGGCGACGGCGAGATGCAGGAAGGCTCCAACTGGGAAGCCATCATGTCCGCCGCACAGTTCGGCCTGAACAACCTGACGCTGATCGTCGATCACAACCGCTTCCAGCAGGGTGCGGCGCTTTCGGAAACCAATGATGTCGCGCCGCTTCGCCCGAAGCTCGAGGCTTTCGGCTGGGAAGTCAGCGAAATCAACGGCAATGCCATGGCGGAAGTCGTGCCGGCGCTGGAGCATCGCGGCGACCGCCCGCATTGCATCGTCGCCCACACCAACAAGGGCCACGGCATTTCCTTCATGCAGGACCGCGTCGACTGGCACCATAAGGTTCCAAGCAAGGAACAATATGAAATCGCCGTCAAAGAACTTTCGGAGACATTGTAA	MQSQELERIARQIRLRDVQAVFEAGAGHVGGEMSAIDIMTALYFRVLRIWPDDPKNPARDRFVLSKGHTACALYVTLAKRGFIPEEEISTFLQPNSRLNGHPNCNKVPGVETNTGPLGHGLPVAVGMAKAAKLSGADYHTYVMTGDGEMQEGSNWEAIMSAAQFGLNNLTLIVDHNRFQQGAALSETNDVAPLRPKLEAFGWEVSEINGNAMAEVVPALEHRGDRPHCIVAHTNKGHGISFMQDRVDWHHKVPSKEQYEIAVKELSETL	PGPT0011200_10893	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_PENTOSE_METABOLISM,PGPT0011200-tktA|tktB-K00615	NA	NA
BMS010_09514	957	aptB_1	COG3958	Apulose-4-phosphate transketolase subunit B	ATGAACGCGCCCGTAACCGCCGCCAAGCTTTATGACTGCCGCGACGCCTTCGCGGAAACGCTGGAAGCGCTGGCCGCCGGCAATGACAGGGTCGTCGCCGTCTGCAACGATTCGGTCGGCTCCTCGAAGCTCGGCGGCTTCAAGTCGAAATTCCCCGAGCGCCTCGTCAATGTCGGTATCGCCGAACAGAACATGGTCGGCGTTGGCGCCGGTCTCGCCAATGGCGGCCAGTTGCCCTTCGTCTGCGGCGCATCCTGCTTCCTCACCGGCCGCGCGCTGGAGCAGATCAAGGCCGACCTTGCTTATTCCAACGCCAATGTGAAGCTGATCGGCATATCCTCGGGCATGGCCTATGGCGAACTCGGCCCGACGCATCATTCCATCGAGGATTTCGCCTGGACCCGCGTTCTGCCGAACCTGCCGGTCATCGCCCCCTGCGACCGCATCGAGACGGCGGCCGCCGTCAAATGGGCAGCAGACTATGCCGGCCCGTGTTTCCTGCGCCTGTCGCGCGTCGGCGTGCCGGATCTGCTCCCGGAGGGCCATGTCTTCGAACTTGGCCGCGCCAATCTGCTGCGTGAAGGTTCTGACCTGACTTTGATCGCCAATGGCACGCTGACGCACCGCATCGTCAAGGCCGCCGATATTCTGGCCAGCCGCGGCATCAAGGCTCGGGTTTTGAACATGGCGACCGTGCGTCCCATCGATGAGGCGGCCATCGTCGCAGCAGCAAAGGAAACCGGCGCGATCCTGACGGCTGAAGAACATTCGATCTTCGGCGGCCTCGGCTCGGCCATTGCCGAAGTCGTGGTCGAACAGGCCCCCGTACCGATGAAGCGCCTCGGCGTTCCGGGCGTCTTCGCCCATACCGGTTCTGCCGAATGGCTGCTGGATGAATTCGGCATGGCGCCGGCCGCCATGGCGGATGCGGCCGAAGCGCTGATCAAGAGAAAATAA	MNAPVTAAKLYDCRDAFAETLEALAAGNDRVVAVCNDSVGSSKLGGFKSKFPERLVNVGIAEQNMVGVGAGLANGGQLPFVCGASCFLTGRALEQIKADLAYSNANVKLIGISSGMAYGELGPTHHSIEDFAWTRVLPNLPVIAPCDRIETAAAVKWAADYAGPCFLRLSRVGVPDLLPEGHVFELGRANLLREGSDLTLIANGTLTHRIVKAADILASRGIKARVLNMATVRPIDEAAIVAAAKETGAILTAEEHSIFGGLGSAIAEVVVEQAPVPMKRLGVPGVFAHTGSAEWLLDEFGMAPAAMADAAEALIKRK	PGPT0011200_7492	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_PENTOSE_METABOLISM,PGPT0011200-tktA|tktB-K00615	NA	NA
BMS010_09515	1473	aplK	COG0554	Apulose kinase	ATGATGCGCGCCATTTTGTCCATCGATCAGGGCACCACCAATTCCAAGGCCATTCTCGTCTCGGAAAGCGGAGAGTTGCTGGCGCGCGGCTCATCACCGGTCGGCATCGCCTATCCGCAGCCCGGCTGGGTGGAACAGGAGCCGCAGCGCATCTGGGCCTCGGTCTGCGAAGCGATCTCCGCCTGCCTCGCCGCCGCGCCCTCCACCGTCGATGTCGCAGCCATCGCCATTTCCAACCAGCGCGAATCCGTAACCATCTGGGACGGCGAAACCGGCGAGCCGCTCGGCCCGGTGCTCAGCTGGCAATGCCGCCGCACGGCGCAGGATTGCGCCGAGCTGATCGAGAAGGGCCATTCCGAGCGCGTCATGGCGCTGACCGGCCTGCCGATCGACCCGATGTTTCCGGGCGCAAAAATGCGCTGGCTGCTGGAGCGCGCCCCGAAGGGCCGCAGGCTCCGCATCGGCACCATCGACAGCTGGCTCATCCATTGCTTCACCGGCGGCATGGTCCATGCCTGCGACGCCTCCAACGCCGCCCGCAGCCAGGTGCTCGATCTCAACCGGCAGGTCTGGAGCGATGAGCTTTGCGAGCTCTTCGGCATCGATATCAACGCCCTGCCCGATCTGCGCGATAGCAGCGGCGATTTTGGCGTCACATCAGGCGTTCCCGGCATCAAGGACGGCACGCCGATCCTCGCCGCCATCGGCGACAGCCACGCCGCCCTCTTCGGCCATGGCGCCTTTAATCCGGGTGATGGCAAGGTAACCTTCGGCACCGGCTCTTCGGTCATGACAACCCTGCCGCATTTCATCGCGCCCGAACGCGGCATCACCACCACCGTCGCATGGCGGCTCGGCGGCAAACCCACCTTCGCCTTCGAGGGCAATATTCTCGTTTCGGCAGCCTCCCTGCCCTGGATGACGGAGATTCTCGGCCTGCCGGATGTCGCCGCGCTGGTGGAGCTCGCCTCCGCCGCCGAGCCTGATGGCCCCGGTTTCGTGCCAGCCTTCGTTGGTCTTGGCGCACCCTATTGGGATACGAATGCGCGTGCGCTTTTCTCGCAGATCAATTTCAGTACCACGCGTGCCCAGATGGCCCGCGCCGTCACTGACTCGATTGCCTTTCAGGTCCATGACGTCTTCGCCGCCATGCGCGCGCAGTCGCCTTCCGGCTTCGGGCGCCTGTTCGTGGATGGCGGGCCGAGCCAGAACCGTTTCCTGATGCAATGCGTTGCCGACATGCTGCAACACCCCGTCATCCAGCGTGACGCGCCGGAAGCCTCGGCACTGGGTGCCGCCTATCTCGCCGGCCTCGCGCTGGGTGTCTGGAGCGATCTCGATGCCATCGCGGCGCTGAACAGCAACGGCAACACCATCGCGCCGTCCGCGAGCGAAAACAGCCAGCGGCTCGGCATCTGGCGCGATGCGATTGCCCGCTCGACCTTGCCTGTAACCTCGGGTAATGGTGAATAA	MMRAILSIDQGTTNSKAILVSESGELLARGSSPVGIAYPQPGWVEQEPQRIWASVCEAISACLAAAPSTVDVAAIAISNQRESVTIWDGETGEPLGPVLSWQCRRTAQDCAELIEKGHSERVMALTGLPIDPMFPGAKMRWLLERAPKGRRLRIGTIDSWLIHCFTGGMVHACDASNAARSQVLDLNRQVWSDELCELFGIDINALPDLRDSSGDFGVTSGVPGIKDGTPILAAIGDSHAALFGHGAFNPGDGKVTFGTGSSVMTTLPHFIAPERGITTTVAWRLGGKPTFAFEGNILVSAASLPWMTEILGLPDVAALVELASAAEPDGPGFVPAFVGLGAPYWDTNARALFSQINFSTTRAQMARAVTDSIAFQVHDVFAAMRAQSPSGFGRLFVDGGPSQNRFLMQCVADMLQHPVIQRDAPEASALGAAYLAGLALGVWSDLDAIAALNSNGNTIAPSASENSQRLGIWRDAIARSTLPVTSGNGE	PGPT0018435_5390	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018435-glpK-K00864	NA	NA
BMS010_09516	960	deoR	COG2390	Deoxyribonucleoside regulator	ATGGGCAGGCTAAATGAACTTCGAATGATTTCCCGCGTGGCGCAGATGTATTTCAGCGAGCACAAGCGTCAGGCGGAAATCGCCCAGCATCTCAATCTCTCGCAGGCCACCGTCTCGCGCATGTTGAAGCGCGCCGAGGCGGAAGGCATTGTCCGCACCAGCATCATTCCGCCGCCCGGCACCTATAGCGATCTGGAAGCGCAACTGCGCGAACGTTTCGACCTGCCGGAGGCCATCGTTGTCGATTGCAGCGAGGATCGCGACGGCGCGATCATGGCCCGCATCGGCGAGGCAGCGGCGCATTTCCTCGAGGTGACGCTGTCGCAGAACGAGATCATCGGTGTTTCCAGCTGGAGCCAGACGATCTTCAAGATGGTGGAAAACATCCACCCGCTTAAAGGCGCCAAGGCGCGCTATATCGTCCAGACGCTGGGCGGCATGGGCGACCCATCGGTACAGACGCACGCCACCCAGATCACCACGCGCCTGGCGCGGCTGACGGAGGCGGAACCGAAACTGCTGCCGGTGCCGGGCGTCGCCACATCCCGCGAGGCGAAGCTTTTGATGCTCGCCGATCCCTTCGTGCGCGAAACCATCGATCTCTTCGGGTCGATCACGCTCGCCGTCGTCGGCGTCGGTGCGGTCGAGCCGTCGGAGCTTCTCGCCCGTTCCGGCAACATCTTTTCCGCCAAGGAACTCGCCGATCTCGCGCAGGCAGGTGCGGTCGGCGACATCTCGCTGCGCTTCTTCGACAAGGACGGCAAACCGGTGAAGACTCCGCTCGACGACCGGGTCATCGGCCTGCCGCTGGAAAACCTCTCCAATGTCGACCGTGTCATTGCGCTCGCCGGCGGTTCGAAAAAGACCGAGGCGATTGCCGGTGCGCTCAGAACCGGTGTGATCGACGTGCTCGTCACCGACAAATTCACCGCCGAACGACTGGTCGGCCAGGAAACATAG	MGRLNELRMISRVAQMYFSEHKRQAEIAQHLNLSQATVSRMLKRAEAEGIVRTSIIPPPGTYSDLEAQLRERFDLPEAIVVDCSEDRDGAIMARIGEAAAHFLEVTLSQNEIIGVSSWSQTIFKMVENIHPLKGAKARYIVQTLGGMGDPSVQTHATQITTRLARLTEAEPKLLPVPGVATSREAKLLMLADPFVRETIDLFGSITLAVVGVGAVEPSELLARSGNIFSAKELADLAQAGAVGDISLRFFDKDGKPVKTPLDDRVIGLPLENLSNVDRVIALAGGSKKTEAIAGALRTGVIDVLVTDKFTAERLVGQET				NA	NA	NA	NA	NA
BMS010_09517	786	budC_2		L-2,3-butanediol dehydrogenase	ATGAGGCGCTTTGAAGGTCAATCCGTATTCGTGACCGGAGGCAACAAGGGCATCGGTTACGGCATCGCCCGCCGTTTTGCCGAGGAAGGCGCGAAAGTCGCCATCGCCTCTGTCGACAAAGACACGCAGGATGCCGCCAAAAAACTGGCGGACGAGACGGGCAGCGTCACCCATGGCGTGATCCTCGACGTTCGGGATGCGGCAGCGGTGCGCGAGGCCTATGGCGCCGCCGAAGAGGCGATCGGCCCGCTTTCCATCTCCGTCCAGAATGCCGGCGTCATCACCATTTCCAAGATCGAAGAGCTGACGCAGGAACAGTGGGATTTCAACCTCGACGTCAATACCAAGGGCGCCTTCCTCTGCTGCCAGGAGGCGATCCGCCGCTTCCGCGAAAGCGGCACCAAGGGCCGCCTCGTCAATACCGCCTCCGGTCAGGCACGGCAGGGTTTCATCTATACCCCGCATTATGCCGCCTCGAAGTTCGGCGTTATCGGCCTGACGCAGAGCCTTGCCAAGGAACTCGCGCCGGAAGGCATTACCGTCAACGCCATTTGCCCAGGCATCATCCACACCGAAATGTGGGACTATAACGACCGCGTCTGGGGCCAGATGCTGGGTGAGTACAAGCCCGGCGAACTGATGGCCGAATGGGTGCGCAACATCCCCATGCGCCGCGCCGGAACGCCCGCCGAAGTCGCCGCACTGGTGGCGTTTCTGGCTTCCGACGACGCGGCCTATATCACCGGCCAGACGATCAATGTCGATGGTGGGTTGATTATGTCTTGA	MRRFEGQSVFVTGGNKGIGYGIARRFAEEGAKVAIASVDKDTQDAAKKLADETGSVTHGVILDVRDAAAVREAYGAAEEAIGPLSISVQNAGVITISKIEELTQEQWDFNLDVNTKGAFLCCQEAIRRFRESGTKGRLVNTASGQARQGFIYTPHYAASKFGVIGLTQSLAKELAPEGITVNAICPGIIHTEMWDYNDRVWGQMLGEYKPGELMAEWVRNIPMRRAGTPAEVAALVAFLASDDAAYITGQTINVDGGLIMS	PGPT0008195_334	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008195-butA|ydjL|budC-K03366	NA	NA
BMS010_09518	762	yadH_3	COG0842	Inner membrane transport permease YadH	ATGAATTTCGAAGCCATCAAGGCCATCTATCTGTTCGAAATGGCGCGCACGCGCCGCACCCTGCTGCAGAGCGTGGTCTCGCCGGTCATTTCCACCTCGCTCTATTTCATCGTCTTCGGAACCGCGATCGGTTCGCGGATTCAGGAGGTTGGCGGTGTTTCCTACGGCGCGTTCATAACGCCCGGCCTCATCATGCTGACGCTTCTGACGCAATGTATCGGCAACGGCTCCTTCGGCATCTATTTCCCGAAATTCACCGGCACGGTCTATGAAATCCTCTCCGCTCCGGTGGCGATGACGGAAATTCTGGCCGGTTATGTCGGTGCGGCGGCGACCAAGGGGCTGATGATCGGCACGATCATCCTGATAACGGCCTCCTTCTTCGTGGATATCACCATCGCCCACCCGTTCATGATGATCCTGTTCTTCGTTCTCACGGCGGTGAGCTTCAGCCTGTTCGGCTTCATCATCGGCATCTGGGCGACGAATTTCGAGCAACTGAACCTCATCCCCATGCTGGTGGTGCCGCCGCTGACCTTCCTCGGCGGCAGCTTCTATTCCATCGACATGCTGCCGCCCTTGTGGCAAACGGTCAGCCACTTCAATCCGGTGCTCTATCTCATCAGCGGTTTCCGCTGGAGTTTCTACGAGATCGCCGACGTCAATCCTGCCATCAGCCTTGCAATGATCACGCTGTTTCTGGCGCTCTGCCTCGGTGTTGTCGGCTGGATGTTCAAGACGGGGTATAGGCTGCGCAACTGA	MNFEAIKAIYLFEMARTRRTLLQSVVSPVISTSLYFIVFGTAIGSRIQEVGGVSYGAFITPGLIMLTLLTQCIGNGSFGIYFPKFTGTVYEILSAPVAMTEILAGYVGAAATKGLMIGTIILITASFFVDITIAHPFMMILFFVLTAVSFSLFGFIIGIWATNFEQLNLIPMLVVPPLTFLGGSFYSIDMLPPLWQTVSHFNPVLYLISGFRWSFYEIADVNPAISLAMITLFLALCLGVVGWMFKTGYRLRN	PGPT0006730_20350	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
BMS010_09519	927	yadG_3	COG1131	putative ABC transporter ATP-binding protein YadG	ATGAATGCCATTGTTTCGATACGGAATCTGACAAAATCCTACGCAAACGGCTTTCAGGCGCTCAAAGGTGTCAGCCTCGATATCAAAGAGGGGGAAATCCTTGCTCTTCTCGGCCCGAATGGTGCTGGCAAGACGACATTGATCTCCATCGTTTGCGGCCTCGTCAATCCCGGTGAAGGCTCGGTGCTCGTCGGCGGGCATGATGTGGTGAAGGACTTTCGCCAGACCCGCGCCCTGATCGGCCTCGTCCCGCAGGAACTGACCACCGACCAGTTCGAGACGGTGTGGAACACCGTCAGCTTCTCGCGCGGCCTGCACGGGCAAAAGAAGAACCCAGAACTGATCGAGCGCATCCTGAAATCCCTGTCGCTCTGGAACAAGAAGGACAACATGCTGCGGGAACTTTCCGGCGGCATGAAGCGGCGTGTGCTGATCGCCAAGGCGCTCGCGCATGAGCCGAAGGTTCTGTTCCTTGACGAGCCGACAGCCGGCGTGGATGTGGCGTTGCGCCGCGACATGTGGAATGTGGTTTCCGAGCTGCGCGCCAAGGGCGTCACCATCATCCTCACCACGCATTACATCGAAGAGGCGGAAGAAATCGCCGACCGTGTGGGTGTCATCAATGGCGGCGAATTGCTGCTGGTGGAAGAAAAGACGGCGTTGATGAAGAAACTCGGCCGCAAGCAGCTTTTCCTGGAGCTTGCCCAACCCGTGGAGCAATTGCCCGACAGTCTTGCGCCCTTCGGGCTGACGCTTTCCGATGACCGCTGCACCGTTACTTATGAAATCGAGGACAATGGCGAACAGGGTCGTATTGCCGACGTTCTGAGCGCCCTTTTCGCCGCCAACATCCATTTCAAGGATATTTCAACGCGGCAGAGTTCGCTTGAGGATATCTTCGTTTCGCTGGTGGGAGGCCAGAAATGA	MNAIVSIRNLTKSYANGFQALKGVSLDIKEGEILALLGPNGAGKTTLISIVCGLVNPGEGSVLVGGHDVVKDFRQTRALIGLVPQELTTDQFETVWNTVSFSRGLHGQKKNPELIERILKSLSLWNKKDNMLRELSGGMKRRVLIAKALAHEPKVLFLDEPTAGVDVALRRDMWNVVSELRAKGVTIILTTHYIEEAEEIADRVGVINGGELLLVEEKTALMKKLGRKQLFLELAQPVEQLPDSLAPFGLTLSDDRCTVTYEIEDNGEQGRIADVLSALFAANIHFKDISTRQSSLEDIFVSLVGGQK	PGPT0006725_10769	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
BMS010_09520	822			hypothetical protein	ATGCCCCCTGTTTCAGAGCTGATGGTCTTTGCTGCGGCGCTTGCGGCAGCGGGTGTGGTCGCCGGTCTTCTGGCGGGGCTGTTCGGCATTGGCGGCGGCGCGGTGCTGGTGCCCGTCTTCTACCAGGTCTTCGGGCTGCTGGATGTGCCGGAGGCGGTGCGTATGCATCTCTCGCTCGGCACATCGCTCGCCATTATCGTGCCCACCTCCATCCGTTCGTTCCTGACGCATCGTCAGAAAGGCGCGGTCGATATCGATCTGCTGAAGGGCTGGATCGTCGCCGTGCCGCTCGGCACCATCCTCGCATCCGTGGTTGCCGCTTATGCCTCGAGCGTTGCGCTGCGGCTCATCTTCGCCTTCATCGCGCTGGCGCTTGCCTTCCGGATGATCTTCAACCGGGCAAGCTGGCATCTGGGTTCCGACCTGCCGCAAAACCCGGGCCGTTTTCTGGTGGGCACCGGCATCGGGCTTTTTTCCGGCCTGATGGGCGTGGGTGGCGGGGTGATGAACAACACCTTCATGACGCTCTATGGACGCACCATTCATCAGGCGGTCGCCACGTCTTCCGGCGTCGGCGTGCTGATTTCACTGCCGGGTCTGTTGGGTTATATCTGGGCCGGCTGGGGCGATGCGGGCCTGCCGCCGTTTTCCACCGGCTTCATCAACTGGATCGCCGTGGTACTGCTGATCCCCATCACGCTTGTCGTTGCGCCCTATGGCGCGCGGCTGGCGCATGCGCTCAGCAAGAAGCAGCTGGAGCGCGCCTTCGGACTGTTTCTGGTTTTCGTTGCGGCGCAGTTTTTCTATAGCGTTTACGGCTGA	MPPVSELMVFAAALAAAGVVAGLLAGLFGIGGGAVLVPVFYQVFGLLDVPEAVRMHLSLGTSLAIIVPTSIRSFLTHRQKGAVDIDLLKGWIVAVPLGTILASVVAAYASSVALRLIFAFIALALAFRMIFNRASWHLGSDLPQNPGRFLVGTGIGLFSGLMGVGGGVMNNTFMTLYGRTIHQAVATSSGVGVLISLPGLLGYIWAGWGDAGLPPFSTGFINWIAVVLLIPITLVVAPYGARLAHALSKKQLERAFGLFLVFVAAQFFYSVYG				NA	NA	NA	NA	NA
BMS010_09521	1299			hypothetical protein	ATGGCGTATGTTTCCCTTCCGCGTCGTCTTGTGACGTTGCTGATGATTTCCACGGTCATGGTGTCGTGTTCGGCGGAGGGCCTCGTGCCACCGGCGGAGGTGGACGGCACCACACGCGTCAGCGCCATCCGCTCCTCGCGGCAGCAGGGTTACAGCGCGCCGGCGGGTGCGGTGTATCAGGCCGAGCAGGCCGGGCAGGGCGCCGATTATCCTGCAGCCGTTTCACAACCGATGCCGGAGCCTTACGCCTCGCAGGATCCCCTGCTGCAATCGCCGCAGGGCGGGCAGGGTTATTCAACGCTCGATTCCCAGCATCAGGCGCGCATGGCGGCCAGCGGCAATGGCAATATGCCGGCGCAGACAATGCAGGGCCAGACGATGCAGGGGCAGACCATGCCCGCGCAGCAGATGACCAGCAACCAGATAGCCGAAGGTGAGGGCGGTGTGAACATGGATTCCATGCTGGGCGTGGAGCCGGTTCGCGGACTTGCCGAAGAACAGGATGCGGATATTGCCGAAGGCGCGTCGGCGCAGCCGGTGGTGGATGGTATCGGCACGGACAATCCCGTGGCCGTTCCTCCGGCCCGCCAGCCGCAACGGGCCAGCCAATCGCGGCTCATCCCGCCGCCGCCGCTCGGCTCTTCTTCCCGTCGCCAGCCGGTGGAAGAGGTGGCGATGGTGATGCCGAACGATCCGATGGCGGGTGGCGGGCTGCAAAGCAACCGCTCGATGCCGCCCGGCGTCATGCCATCCTCCGAAGTTGCCTGCCGCTCCGAACTTCGCCGTCTCGGCGTCGCTTTCCGGGATGTTGCGCGCATTGCCGACGGTCCGACCTGCGGTATCGATTACCCAATCGAGCTCAGCGGTCTCGCCAGCGGCGTCGCGGTTCGTCCGGCGGTGAAGCTCAATTGCCAGGTTACGCTTGCCTTTGCGAAATGGGTGAAGTTCGAACTCGTACCGTCCTCGCGTTTCCGCTATCTCTCCGGCGTCGGCCGCATTACGCCGATGGGCGGTTATTCCTGCCGCAAGATGAATTCACGCTCCAGCAATCCGTGGTCCGAACATGCGCGCGGCAACGCCATCGATATCGGCACCATCACGCTGAAAAACGGCAAGGAAATCGACGTTCGCAAAAAGAGCTTCTTCGCCTTCCGCGAAAAGGCGCTGCTGAAGGCGGTGAGGTCCGACAGCTGTAAATATTTCTCCACCGTTCTCGGACCGGGCAGCGATCCCAATCACTGGAACCATTTCCACTTCGACCTGCGTACCCGCAAGTCAGGTTACAGGCATTGCGATTAA	MAYVSLPRRLVTLLMISTVMVSCSAEGLVPPAEVDGTTRVSAIRSSRQQGYSAPAGAVYQAEQAGQGADYPAAVSQPMPEPYASQDPLLQSPQGGQGYSTLDSQHQARMAASGNGNMPAQTMQGQTMQGQTMPAQQMTSNQIAEGEGGVNMDSMLGVEPVRGLAEEQDADIAEGASAQPVVDGIGTDNPVAVPPARQPQRASQSRLIPPPPLGSSSRRQPVEEVAMVMPNDPMAGGGLQSNRSMPPGVMPSSEVACRSELRRLGVAFRDVARIADGPTCGIDYPIELSGLASGVAVRPAVKLNCQVTLAFAKWVKFELVPSSRFRYLSGVGRITPMGGYSCRKMNSRSSNPWSEHARGNAIDIGTITLKNGKEIDVRKKSFFAFREKALLKAVRSDSCKYFSTVLGPGSDPNHWNHFHFDLRTRKSGYRHCD				NA	NA	NA	NA	NA
BMS010_09522	1815	mcp4	COG0840	Methyl-accepting chemotaxis protein 4	ATGAAAAACGTAACAATATCTACGCGCCTTTATGCGCTCGTCGCATTGTTTCTGGCAATACTGGCCGCGGCTCTGACATTCAGCCTGTTTGAAAGCTATCACGAAATGGAGCGCGAACGGAAAGCCGGGCTTGCGGCAATGAATGAAACCGCTGTTGCCATTCTCGATCAATATTACCGGCTGGAGCAGGGCGGAAGCCTGACGCGGGAGGCGGCGCAACAGCAGGCCAAGACGACCATTGCGGCAATGCGCTACGGCAATGGCAGCGGCTATTTCTGGATCAACGACATGCATCCCAAAATGGTGATGCATCCGATCAAACCCGAAATGAACGGCACGGACCTTACCGCCAACAAGGACCCGAACGGCAAGGCGCTGTTCGTCGAGTTCGTGAACACGGTCAAGGCGGGCGGCAAGGGCTTTGTCGATTATTACTGGCCGAAGCCCGGCGCGCCGGAGCCGGTCGAGAAATTTTCCCATGTCGCCGGTTTCGCCCCCTGGGGCTGGATTGTCGGCACTGGTGTTTATGTTGACGATCTTGAAGCGGTATTCTGGCGCGACGTCTATTTTAATGGCGGTCTTTGCATCGCCGCCGGTCTTGTTGTTGTCGGCGTTGCCGCAGCCGTCGTGCGCAGCGTGACGCGGCCGATCGATCTCATCCGCCAGAGCATGCGGCGGATTGCCGATGGTGACGGCGCGGCGGATATACAGTTCGCCGACCGTCGCAATGAAATCGGCGCGATTGCCAAGACGCTGCTGGTACTGCGCGACAGCGTCAATGAGCGCAGCGCGCTGCAGGCCCGCGAGGCCGACCAGCAGCGGGCACTGGAGCAGGAGCGGCATGGTAACGAGATGGTTCTGCGCTCCGCTTCCGAGCGGCAGGCCCACGCCATGGAGCAACTGGGCGATGCGCTCGAGGCGCTTGCCAATGGCGATCTGACCGTTTCGCTTGCGGATATCGGCGCGGATTATGAAAAGCTGCGCATGGACTTCAACCGTGCCGTCGGCGCCTTGCACGGTGCGATCGAGGCGATTGCCAGAACCGGCCATGTGGTCAATGACAGCGCCTCCGACATCAGCGGTGCGACCGGCAATCTTTCCCGCCGAACCGAACAGCAGGCGGCGGCGCTGGAGGAGACGGCGGCTGCTCTGGACGAGATCACCGCCACGGTGCGCACCGCTTCCGAGCGTGCCAACGAGGCCCGGCAGATGGTGCAGGACACGAAAACCAGCGCCGGCCGCTCGGGCGAGATCGTGCGCAATGCCGTCGACGCCATGGGCCGTATCGAGGAGTCTTCAAAGCGCATCGGCCAGATCATCTCGGTCATCGATGAAATCGCCTTCCAGACCAATCTTCTGGCGCTGAATGCCGGTGTGGAAGCGGCACGTGCGGGCGAGGCCGGGCGTGGTTTTGCCGTCGTGGCGCAGGAGGTTCGCGAACTGGCGCAACGTTCCGCCAATGCGGCCAAGGAAATCAAGACCCTCATCAACCGTTCGGCCGAAGAGGTCGGCGGCGGCGTCGCACTGGTGCGCTCGACGGGCGACGCGCTGGAGGAGATCGTGACGCTGGTCAATCGTGTCGATGGCCATGTCAACTCCATCGCCACGGCAGCGCGCGAGCAGGCGACCGGCCTGCAGGAGATCAACACCTCCGTCAACCACATGGACCAGATGACACAGCAGAACGCCGCCATGGTGGAAGAAACGACGGCGGCCAGCCAGACGCTCGCCGAGGAAAGCCGCCAGCTGCGCTCGCTACTGTCGCGTTTCGAGCTTGGACATGGTGCCGGGCGCGAGGTTTCGCGGGCCGCGTGA	MKNVTISTRLYALVALFLAILAAALTFSLFESYHEMERERKAGLAAMNETAVAILDQYYRLEQGGSLTREAAQQQAKTTIAAMRYGNGSGYFWINDMHPKMVMHPIKPEMNGTDLTANKDPNGKALFVEFVNTVKAGGKGFVDYYWPKPGAPEPVEKFSHVAGFAPWGWIVGTGVYVDDLEAVFWRDVYFNGGLCIAAGLVVVGVAAAVVRSVTRPIDLIRQSMRRIADGDGAADIQFADRRNEIGAIAKTLLVLRDSVNERSALQAREADQQRALEQERHGNEMVLRSASERQAHAMEQLGDALEALANGDLTVSLADIGADYEKLRMDFNRAVGALHGAIEAIARTGHVVNDSASDISGATGNLSRRTEQQAAALEETAAALDEITATVRTASERANEARQMVQDTKTSAGRSGEIVRNAVDAMGRIEESSKRIGQIISVIDEIAFQTNLLALNAGVEAARAGEAGRGFAVVAQEVRELAQRSANAAKEIKTLINRSAEEVGGGVALVRSTGDALEEIVTLVNRVDGHVNSIATAAREQATGLQEINTSVNHMDQMTQQNAAMVEETTAASQTLAEESRQLRSLLSRFELGHGAGREVSRAA	PGPT0015710_12978	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_09523	315			hypothetical protein	ATGGCCCGGCCGAATTTTCGCTATACGCATTATGACCTGAAGGAATTGCGGGCAGGAACTACCCTTGAAATATCCCTGTCGGCCGTCAACAATGTCCGGCTGATGACGGGCGCGAATTTCCAGCGCTTCACCGAGCTGCTCGATTTCAAATATCTCGGCGGCGTTGCGAAAAAATCGCCGATCCGCATTGCCATTCCCGAGACATTGCACTGGCATCTGGTGATCGATGCCGAAGGCCATAGCGGCCTGGCGGAATCCTCGGTCAAGATGCTGCCCGCGCAGCCGCAGGCGGCACCGCATCGCAAGGCATCCTGA	MARPNFRYTHYDLKELRAGTTLEISLSAVNNVRLMTGANFQRFTELLDFKYLGGVAKKSPIRIAIPETLHWHLVIDAEGHSGLAESSVKMLPAQPQAAPHRKAS				NA	NA	NA	NA	NA
BMS010_09524	1317	rarA_2	COG2256	Replication-associated recombination protein A	ATGAGCGACGATCTCTTCGCTCCGCAAGTGCCCGTGGAGGTCGCCAACCGGCGGCCTCTTGCCGATCGCCTGCGTCCAAAGACGCTGGCGGAGGTGAGCGGGCAGCCGCATCTGACGGGCGAGGAGGGCGTGCTGCGCCGTATGATCGACAGCGGTTCACTGGGATCGATGATCTTCTGGGGGCCGCCCGGCACCGGCAAGACCACGGTTGCCCGTCTGCTTTCCGGCGAAGCGGGGCTTGCCTTCGAGCAGATCTCGGCGATCTTTTCCGGTGTCGCCGATCTCAAGAAGGTTTTCGAAGCGGCGCGCACACGGCGGATGAATGGCCGGCAGACGCTGCTTTTCGTAGACGAGATTCATCGCTTCAACCGCGCCCAGCAGGACAGCTTCCTGCCGGTGATGGAAGACGGCACCATTATTCTGGTAGGCGCCACCACCGAAAACCCGTCTTTCGAACTCAATGCCGCTCTGTTGTCGCGGGCGCGTGTGTTGACATTCCGCTCGCATGACGAGGACAGTCTGAGCGAGCTTCTGAAGCGCGCCGAGGAGGCGGAGGGCAAGCCCCTGCCGCTTACCGAGGATGCGCGGGCGAGTCTGATCCGCATGGCCGATGGCGATGGCCGCGCCGTGCTGACGCTTGCCGAGGAAGTCTGGCGGGCGGCGCGCAAGGACGAGATATTCGATACCGAAGGGCTGACGCGCATCGTGCAGCGCCGTGCGCCGGTTTACGACAAGAGCCAGGACGGCCATTACAATCTCATTTCCGCGTTGCATAAGTCGGTGCGCGGCTCGGACCCGGATGCCGCGCTTTATTATCTTGCCCGCATGTTCGATGCCGGTGAAGACCCGCTCTATATCGGCCGGCGGCTGGTGCGCATGGCGGTGGAGGATATCGGCCTTGCAGATCCGCAGGCGCTCGCCGTCTGCAATGCCGCCAAGGATGCCTATGATTATCTCGGCTCACCCGAGGGTGAGCTGGCGCTGGCGCAGGCCTGCGTCTATCTCGCGACCGCGCCGAAATCGAACGCCGTCTATACCGCCTTCAAGTCGGCGATGCGGGCGGCCAAGGAAAACGGCTCGCTGGTGCCGCCGAAACATATTCTGAACGCGCCGACCAAGCTCATGAAGGGTGAGGGTTATGGCGACGGTTACCGTTACGACCATGACGAGCCGGATGCCTTTTCCGGACAGGATTATTTCCCGGAGAAAATGGAGCGCACGACCTTTTACGATCCGCCTGATCGGGGGTTCGAAAGGGAAATCCGCAAGCGTCTGGACTGGTGGTCGAAGCTGCGTCACGAGCGTGGATCGCGCTAG	MSDDLFAPQVPVEVANRRPLADRLRPKTLAEVSGQPHLTGEEGVLRRMIDSGSLGSMIFWGPPGTGKTTVARLLSGEAGLAFEQISAIFSGVADLKKVFEAARTRRMNGRQTLLFVDEIHRFNRAQQDSFLPVMEDGTIILVGATTENPSFELNAALLSRARVLTFRSHDEDSLSELLKRAEEAEGKPLPLTEDARASLIRMADGDGRAVLTLAEEVWRAARKDEIFDTEGLTRIVQRRAPVYDKSQDGHYNLISALHKSVRGSDPDAALYYLARMFDAGEDPLYIGRRLVRMAVEDIGLADPQALAVCNAAKDAYDYLGSPEGELALAQACVYLATAPKSNAVYTAFKSAMRAAKENGSLVPPKHILNAPTKLMKGEGYGDGYRYDHDEPDAFSGQDYFPEKMERTTFYDPPDRGFEREIRKRLDWWSKLRHERGSR				NA	NA	NA	NA	NA
BMS010_09525	1407	degQ	COG0265	Periplasmic pH-dependent serine endoprotease DegQ	ATGCGAAGCGTGTTGAAGTATCTGTCCACCGGCTTTCTCGCCGCACTCATTCTCCTGCCCTTGGGTGCTGCGGCGCAGGATAACAGGACCGTGCCGTCGAGCCACACGGAAATGCAGCTTTCCTTCGCGCCGCTGGTCAAGCGCACCGCGGGCGCGGTGGTGAATGTCTATGCCGAACGCGTCGTGCAGCGGCGTCTGTCGCCCTTTGCCGGTGATCCTTTCTTCGAACAGTTCTTCGGCCAGCAGATGCCGAACCGCACGGAAAAGCAGTCGTCGCTCGGCTCTGGCGTCATCGTGACCGCCGGCGGCCTCGTGGTGACCAACAATCACGTTATCGACGGTGCCGATGACATCAAGGTAGCGCTGGCGGATGGGCGTGAGTTCTCCTCCAAGGTGCTGCTTAAGGATGATCGCGTCGACCTCGCCATTCTGCAGATCGATGCGAAGGAGCAATTCCCGGTGCTGTCGCTCGGCAATTCCGATGCGATTGAAGTGGGTGATCTGGTGCTGGCCATCGGCAACCCCTTCGGTGTCGGCCAGACGGTGACGAGCGGCATCGTCTCGGGTCTGGCACGCAACCAGGTGACGCAGGGCGATTTCGGCTTCTTCATCCAGACCGACGCTTCCATCAACCCCGGCAATTCCGGCGGCGCATTGATGAACATGGCGGGTGAGCTGATCGGCATCAATACGGCCATCTTTTCCAAGGGCGGCGGCTCGAACGGTATCGGTTTCGCCATTCCCGCCAATCTGGTCCGGGTTTTCGTGGCTGCCGCCGAGCGTGGCGATGCAAGCTTCGAGCGGCCCTATATCGGCGCGACCTTCGATCCGGTGACATCCGATGTTGCCGAGGCGCTTGGCCTGCATCGCGCCCGCGGCGCGCTGGTCGTCAGCGTCGTCAAGGGTGGGCCGGCCGAAAAGGCGGGCATCGAACCCGGACAGGTGGTTACCGCCGTCAATGGCTTCGAGGTGGAACATCCGGATGCGCTGGGTTATCGCCTGACGACTGCCGGCATCGGCAAATCCGCCGAACTCACTGTCATGGACAAGGGAAAAGAGAAAAAGGTGACCATCGCGCTCGATACCGCGCCGGAAACCGCACCGCGCGATGAACGGCTGATCGAGGGTCGCAATCCCTTCGCCGGCGCGACTGTCGCCAATCTTTCGCCGAAGCTTGCCGATGAATTGCGCATGCCGTCGCAGGTGACCGGCGTTGTCATTACCGATGTGAAGCGCGGTTCCCCGGCCTATCGTGTCGGTTTCCAGCCGAAGGACGTGATCCTGTCGCTGAACGGCGCGGATATCGGCACCACCGCCGCTGTCGAGAAGGCGCTGGACGATAATCCCGGCTTCTGGCGGGTGGAAATCCTGCGCGACGGGCAACGCATCCGGCAGTTCCTGCGATGA	MRSVLKYLSTGFLAALILLPLGAAAQDNRTVPSSHTEMQLSFAPLVKRTAGAVVNVYAERVVQRRLSPFAGDPFFEQFFGQQMPNRTEKQSSLGSGVIVTAGGLVVTNNHVIDGADDIKVALADGREFSSKVLLKDDRVDLAILQIDAKEQFPVLSLGNSDAIEVGDLVLAIGNPFGVGQTVTSGIVSGLARNQVTQGDFGFFIQTDASINPGNSGGALMNMAGELIGINTAIFSKGGGSNGIGFAIPANLVRVFVAAAERGDASFERPYIGATFDPVTSDVAEALGLHRARGALVVSVVKGGPAEKAGIEPGQVVTAVNGFEVEHPDALGYRLTTAGIGKSAELTVMDKGKEKKVTIALDTAPETAPRDERLIEGRNPFAGATVANLSPKLADELRMPSQVTGVVITDVKRGSPAYRVGFQPKDVILSLNGADIGTTAAVEKALDDNPGFWRVEILRDGQRIRQFLR	PGPT0015105_2901	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0015105-degP|htrA-K04771	NA	NA
BMS010_09526	351			hypothetical protein	ATGCATCTGAAACCGATCCTCCTTGCCAGCGGCATCCTGCTTGCCCCCTCCTTCATTTCGCTGGCCAGCGCGGCGAGCTTCGACTGTGCAAAGACCGATCTGGCCGCGGACGAGAAGGCGATCTGCGACAACCGCATGCTGAACGATCAGGATGTGAAGATGGCCACCACCTTCGACATCCTCACCCAGCTGATGGCCATGGGCGCCCGCGACACGCTGCGCGACGAGCAGAGCCAGTGGCTGAAGAAACGCCAGGAATGCGCAGCGGACGTTGCCTGCCTTACCAGCGCTTACGAGGAACGCATGAAACGCCTAGGCGAGGCGTTCCAGAGCATCAACCGACCGCTGTAA	MHLKPILLASGILLAPSFISLASAASFDCAKTDLAADEKAICDNRMLNDQDVKMATTFDILTQLMAMGARDTLRDEQSQWLKKRQECAADVACLTSAYEERMKRLGEAFQSINRPL				NA	NA	NA	NA	NA
BMS010_09527	456			hypothetical protein	ATGAAAACGGACAACGCACACATTCTTTCCGGTCTGGCGGTTGCCATCTTTCGAACCAATGGCGCGTTGATCGCCGCAGGCGACGCCCTGTCTGCTCCCTTCGGTCTCTCCAGTGCACGCTGGCAGGTTCTGGGAGCGGTGGCGCTTGCCGGCCAGCCTTTGACCGTGGCGCAGATAGCGCGGAACATGGGCCAGACCCGGCAGGGTGTACAACGCCTCATCGATGAGATGGAACGCCAGGACATTGTCTGCTTCGAAAACAATCCGCACCACAAGCGGGCCAAGCTCATTCGCCTTACCGAAAAGGGCGAGAATGCCTATGCCGCCACCATGCAGCAATGGAATGAACTCGCCGGCCGTTTAGCCACGGATATGGAGGCGGAGCAACTGAGTAACGCCATAGACTGCCTGAACCAGCTTTTCGCCGGGCTGGACGCCGATCCGCCGCAAGGCTGA	MKTDNAHILSGLAVAIFRTNGALIAAGDALSAPFGLSSARWQVLGAVALAGQPLTVAQIARNMGQTRQGVQRLIDEMERQDIVCFENNPHHKRAKLIRLTEKGENAYAATMQQWNELAGRLATDMEAEQLSNAIDCLNQLFAGLDADPPQG				NA	NA	NA	NA	NA
BMS010_09528	435			hypothetical protein	ATGAGAACCCTTCATCCCGTCGCCGGCACGCTGGCGCTGGCGATCATACTCGCCTTTTGGTTATCCACCGCGCTCACCGAAATCTCCGGTTCCAGCGAAGCGATCCGTACCGTCAAACTCGCCATTCCCTGGGGGTTTCTGGTGCTTGCGCCCGCGCTTGCGGTCACGGGTTTCAGCGGCTTTCGTATGGGCGCGAAATGGAAACACCCGCTGATCGCAGCCAAGAAGAAACGTATGCCGCTCATCGCACTGAACGGGCTGCTGATCCTCGTCCCCTGCGCGCTTGTGCTCCGGCATTTCGCCCTCTCAAACGATTACGGCGGGGTCTTCTTCGCCGTTCAGGCGCTGGAGCTTTGCGCCGGAGCGCTCAATATCACCCTTCTCGCAAAAAGCTTCCGCGATGGCCTTCAGCTAAAACGCCGTCTGGCCGCCTAG	MRTLHPVAGTLALAIILAFWLSTALTEISGSSEAIRTVKLAIPWGFLVLAPALAVTGFSGFRMGAKWKHPLIAAKKKRMPLIALNGLLILVPCALVLRHFALSNDYGGVFFAVQALELCAGALNITLLAKSFRDGLQLKRRLAA				NA	NA	NA	NA	NA
BMS010_09529	1002			hypothetical protein	ATGAAAAGAAGAACCGCACTTGCCCTTATCGCTTCCCTGCCTTTCGCCTCGTTTGCCCGCGCGCAAAGCACCGGCAATGGCATCCGTTTCGATCCGTTGCTGCGGCAGGCGAATGCGCTTTCCAGCCTCAAGGCGGTCATCGTCAGCATCGATGGCGAGGAGGTCGCGAGCCGCGCTTATCACGGCGCGGGTTTGAACGGCTCCACCAATATCAAGTCGGCCTCGAAATCGATCATCTCGGCGCTGGTGGGCATGGCGATCGATCGAAAGATTCTCGAAGGCGCCGACCAGCCGATCGCGACTGTTCTGCGCGGCGATTTTCCGCAAAATCCCGATCCCCGGCTGGAACGGATTACCGTCGGCAACCTGCTGTCGATGCAATCCGGCCTGGAGCGCATGTCCGGCCCCAATTACGGCCGCTGGGTCGCCAGCCGCAACTGGGTGCGGATGGCGCTGGGTTCCGGTTTTGCCGGGGAACCGGGCGGTGGTATGCTTTATTCTACCGGCTCCACCCATCTGCTCTCGGCGATCCTGACAAAAGCGTCCGGCCGTTCGACGCTGTCGCTTGCGCGCGACTGGTTCCGACCGCTTGAAGGATTTTCCATCGGCGGCTGGGAGCGCGATCCGCAGGGCATCTATCTCGGCGGCAACCAGATGGCGATGACCGTGCGGTCTTTGCTGGCCTTCGGTGAGCTTTACCGCCTGGGTGGTGTGACACCTGCCGGCGAGCGGTTGATTTCTCAGCGCTGGATCGAGCAATCGTGGCGGCAGCGCACCAATTCCGTCTTCAACGGCGACGGCTATGGCTATTGCTGGTTCATCAAGGAGATGGCAGGCGAGACGGTCTATTACGCCTGGGGTTATGGCGGGCAGATGCTCTATATCGTACCCGCCAGACGGCTATCGGTCGTGATGACCTCTCGCGAGGACGCGCCTTCCGCCCGAACCGGTTATCGGGACCAGTTGCATGGCCTTATGGAGACCATTATCCGGGCGGTATAA	MKRRTALALIASLPFASFARAQSTGNGIRFDPLLRQANALSSLKAVIVSIDGEEVASRAYHGAGLNGSTNIKSASKSIISALVGMAIDRKILEGADQPIATVLRGDFPQNPDPRLERITVGNLLSMQSGLERMSGPNYGRWVASRNWVRMALGSGFAGEPGGGMLYSTGSTHLLSAILTKASGRSTLSLARDWFRPLEGFSIGGWERDPQGIYLGGNQMAMTVRSLLAFGELYRLGGVTPAGERLISQRWIEQSWRQRTNSVFNGDGYGYCWFIKEMAGETVYYAWGYGGQMLYIVPARRLSVVMTSREDAPSARTGYRDQLHGLMETIIRAV				NA	NA	NA	NA	NA
BMS010_09530	1836	ilvD_2	COG0129	Dihydroxy-acid dehydratase	ATGCCAGCCTATCGCTCCAGAACGACAACCCACGGCCGCAACATGGCGGGCGCGCGCGGCCTTTGGCGCGCCACCGGCATGAAGGACAGCGATTTCGGCAAGCCGATCATCGCGGTGGTCAATTCCTTCACGCAGTTCGTGCCGGGCCATGTGCACCTGAAGGATCTCGGCCAGCTCGTTGCCCGCGAAATCGAGGCGGCCGGCGGTGTCGCCAAGGAATTCAACACCATCGCGGTCGATGACGGTATCGCCATGGGCCATGACGGCATGCTCTATTCGCTGCCGTCGCGCGAGATCATCGCGGATTCGGTGGAATATATGGTCAATGCCCATTGCGCCGATGCCATGGTGTGCATTTCCAACTGCGACAAGATCACGCCCGGCATGCTGAATGCGGCGATGCGCCTCAACATCCCCGCCGTCTTCGTTTCCGGCGGTCCGATGGAGGCCGGCAAGGTCGTCCTGCATGGCAAGACGGTTGCGCTCGATCTGGTCGACGCCATGGTCGCGGCTGCGGACGACAAGATTTCCGACGAGGATGTGAAGGTTATCGAGCGTTCGGCCTGCCCGACCTGCGGTTCCTGTTCCGGCATGTTCACGGCCAATTCCATGAACTGTCTGACCGAGGCGCTGGGTCTGTCGCTGCCCGGCAACGGTTCGACGCTTGCCACCCATTCCGACCGCAAGCGGCTGTTCGTCGAGGCCGGTCACCTGATCGTCGATCTGGCGCGCCGTTATTATGAGCAGGAGGACGAAACCGTCCTGCCGCGCACCATCGCCAACAAGGCGGCATTCGAAAACGCCATGTCGCTGGATATCGCCATGGGCGGTTCCACCAACACGGTGCTGCATATTCTGGCGGCGGCGCATGAGGGCGGCGTCGATTTCGGAATGGAAGACATCGACCGTCTTTCCCGCAAGGTTCCCTGCCTTTCCAAGGTCGCGCCCGCCAAGCAGGACGTGCACATGGAAGACGTTCACCGCGCCGGCGGCATCATGCGTATCCTCGGCGAGCTGGAACGCGGTGGGCTCATCAATCGCGATACCTATACCGTGCATGAGGCGACGCTGGGCGATGCCATCGACCGCTGGGACATCACCCGTACCAACAGCGAGACGGTGCGCCAGTTCTTCAAGGCGGCTCCTGGCGGTGTGCCGACGCAGGTGGCCTTCAGCCAATCCTCGCGCTGGGACGATCTGGATACGGACGGCGAAAACGGCGTCATCCGCTCGGTCGAGAAGCCTTTCTCCAAGGATGGCGGTCTGGCCGTGCTTTATGGCAACATCGCACTCGACGGCTGCATCGTGAAGACGGCGGGCGTCGATGAATCCATCCTGAAATTCACTGGTCCGGCAGTGGTTTACGAAAGCCAGGATGCGGCGGTGAAGGGCATTCTCGGCAACGAGGTCAAGGCGGGCGACGTCGTCGTCATCCGTTACGAAGGGCCGAAGGGCGGGCCGGGCATGCAGGAAATGCTCTATCCGACCAGCTATCTGAAATCCAAGGGTCTCGGCAAAGCCTGCGCGTTGATCACCGACGGCCGTTTCTCCGGCGGCACCTCCGGCCTTTCCATCGGTCACGCCTCGCCGGAAGCGGCGCAGGGCGGCGCCATCGGCCTCGTACGCCAGGGCGATCTCATCGAGATCGACATTCCGAACCGCACCATCAACCTGAAGGTCACCGATGCGGAGCTGGCTTCGCGCCGCGCCGAGCAGGAAGAACTGGGCTGGAAGCCGGAAGCGCCGCGCAAGCGCAATGTCACGACGGCGTTGAAGGCCTATGCCGCCTTTGCCTCGAGTGCTGACAAGGGCGCGGTGCGCATTTTGCCGGAGTAA	MPAYRSRTTTHGRNMAGARGLWRATGMKDSDFGKPIIAVVNSFTQFVPGHVHLKDLGQLVAREIEAAGGVAKEFNTIAVDDGIAMGHDGMLYSLPSREIIADSVEYMVNAHCADAMVCISNCDKITPGMLNAAMRLNIPAVFVSGGPMEAGKVVLHGKTVALDLVDAMVAAADDKISDEDVKVIERSACPTCGSCSGMFTANSMNCLTEALGLSLPGNGSTLATHSDRKRLFVEAGHLIVDLARRYYEQEDETVLPRTIANKAAFENAMSLDIAMGGSTNTVLHILAAAHEGGVDFGMEDIDRLSRKVPCLSKVAPAKQDVHMEDVHRAGGIMRILGELERGGLINRDTYTVHEATLGDAIDRWDITRTNSETVRQFFKAAPGGVPTQVAFSQSSRWDDLDTDGENGVIRSVEKPFSKDGGLAVLYGNIALDGCIVKTAGVDESILKFTGPAVVYESQDAAVKGILGNEVKAGDVVVIRYEGPKGGPGMQEMLYPTSYLKSKGLGKACALITDGRFSGGTSGLSIGHASPEAAQGGAIGLVRQGDLIEIDIPNRTINLKVTDAELASRRAEQEELGWKPEAPRKRNVTTALKAYAAFASSADKGAVRILPE	PGPT0001875_2094	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0001875-ilvD-K01687	NA	NA
BMS010_09531	942	msrP_2	COG2041	Protein-methionine-sulfoxide reductase catalytic subunit MsrP	ATGCCCGCCTATCGTCCGCCCCTCATCTCGGCAAATGAAATCACGCCGAAAAATATCTACCTGTCCAGACGTGGCTTCCTCGGCACGGCGGCGGGGCTGGCGGCAATCGGGCTGGCCGGGCGCGAGGCTGTTGCCGCGCCGCTTTCCGCAAAACCCGGCGCCTACAAGCTGGATGAGAAGCTCACCCCGCTCGATGCTGTCACCAGCTATAATAATTTCTACGAATTCGGTGTCGGAAAATCCGACCCGAAGGAAAATTCCGGCAAGTTCAAGCCTTCCCCCTGGACGGTAAAGGTGGATGGCCTCGTCTCCAAACCGCAGGAATTCGGCATTGAAGAGCTGATGAAATATCCCCTCGAAGAGCGCACTTACCGCATGCGCTGTGTCGAGGGCTGGTCGATGGTCATTCCGTGGATCGGCTTCCCCCTCGCCACCCTTCTCGACAAGGTGGAGCCGCTTGGCAGCGCGAAATATGTCGCTTTCGAAACCGTGGTGCGGCCAGACGAAATGCCGGGTCAAAGCGGTCTGTTCCAGCCTCTCTCATGGCCCTATGTCGAGGGGCTTCGCCTCGATGAAGCACGCCATCCGCTTACCATTCTCGCCGTCGGCCTTTATGGAGAAACGCTGCCGAACCAGAACGGTGCGCCGATCCGTCTCGTCGTGCCATGGAAATACGGTTTCAAGGGCATCAAATCCATCGTCCGCATTTCGCTGGTCGAGAAACAGCCGGAAACGACGTGGAAAAACTCCAACGCCCGCGAGTATGGCTTCTATTCCAACGTCAACCCGAATGTCGATCATCCCCGGTGGAGCCAGGCGACGGAACAGCGCATTGGCGAAGGCGGCTTCTTTGGCACTGAGAACCGCCCTACCCTTATGTTCAACGGTTATGACGAGGTTGCGAGCCTCTATGCCGGCATGGACCTGAAAGCGAATTATTGA	MPAYRPPLISANEITPKNIYLSRRGFLGTAAGLAAIGLAGREAVAAPLSAKPGAYKLDEKLTPLDAVTSYNNFYEFGVGKSDPKENSGKFKPSPWTVKVDGLVSKPQEFGIEELMKYPLEERTYRMRCVEGWSMVIPWIGFPLATLLDKVEPLGSAKYVAFETVVRPDEMPGQSGLFQPLSWPYVEGLRLDEARHPLTILAVGLYGETLPNQNGAPIRLVVPWKYGFKGIKSIVRISLVEKQPETTWKNSNAREYGFYSNVNPNVDHPRWSQATEQRIGEGGFFGTENRPTLMFNGYDEVASLYAGMDLKANY	PGPT0013075_1334	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013075-msrP|yedY-K07147	NA	NA
BMS010_09532	648	msrQ_2		Protein-methionine-sulfoxide reductase heme-binding subunit MsrQ	ATGGCCTTCGCCCTGCCTCTTCCCTCGCTGCCGAAGCGTTACCAGCCGGCGGCCATCTGGTCGCTTTATGTCATCGGCCTCTGTCCGGGTGTCTGGTATTTCTATCTCGCCGCAACCGGCGGTCTCGGCTTCAATCCGGTCAAGGATTTCGAGCACCTGCTCGGCATCTGGGCGCTGCGCTTCCTCTGCCTCGGCCTTCTGGTGACGCCGCTACGCGATCTCTTTAACATCAACCTCATCGCCTATCGCCGCGCGCTGGGGCTGATCGCCTTCTATTACGTGCTGGCGCATTTCACCGTCTATCTGGTGCTGGATCGCGGCCTCATCCTCGGCTCCATCGCCGGCGATATTCTGAAGCGCCCCTATATCATGCTCGGCATGGCCGGTCTCATCATGCTCCTGCCCCTCGCGCTCACCTCCAACCGCTGGTCCATCCGCAAGCTCGGCAGCCGCTGGAACACGCTGCATAAACTCGTCTACCTCGTGCTCATCGTCGGTGTGCTGCACTTCGTGCTCGCGCGAAAGTCGATCACGCTGGAGCCGGTGTTTTATATCAGCACGATGGGGGTATTGCTGGGGTATCGGCTGGTACGGCCATCGATCATGTCGATGAAGAGAGCCAAACGCGCGAGACCCGTCCGGCCATAA	MAFALPLPSLPKRYQPAAIWSLYVIGLCPGVWYFYLAATGGLGFNPVKDFEHLLGIWALRFLCLGLLVTPLRDLFNINLIAYRRALGLIAFYYVLAHFTVYLVLDRGLILGSIAGDILKRPYIMLGMAGLIMLLPLALTSNRWSIRKLGSRWNTLHKLVYLVLIVGVLHFVLARKSITLEPVFYISTMGVLLGYRLVRPSIMSMKRAKRARPVRP	PGPT0013685_14	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013685-gbcB-K21832	NA	NA
BMS010_09533	429			hypothetical protein	ATGGGCCTGCCGCGCGTATCCCCATCTTATTTCGCCCGCATCCGGCTTCTGGCGGCGGCGATGGCGGTGATCGTCTGCGGCCTTTGCCTGCGGAGCTTCGGTTACGACGTGGGATTGCCGTTCGTGGCGGTAAAATATGGCGGATCCGTGCTCTGGGGAGCGATGATCTATCTGCTGCTGGCAACCTTCTTTCCATCGCGCTGGCACGGCTATGAGGTTCACATCGCCATTCTTGCCGTCGTTCTCGTGGAACTCATCCGGCTTGTTCATTTTCCGGCACTGGATGCGTTTCGCGCAACGACGGCCGGCGCTTTGCTGCTCGGCCGTGTTTTTTCGCTATGGAATATAGTCTGTTATGTCGCGGGGATTGGGGCTGCCGCCATTATGGCCGGACGGGTCTCGCGCGTTTGGCTCTCTTCATCGACATGA	MGLPRVSPSYFARIRLLAAAMAVIVCGLCLRSFGYDVGLPFVAVKYGGSVLWGAMIYLLLATFFPSRWHGYEVHIAILAVVLVELIRLVHFPALDAFRATTAGALLLGRVFSLWNIVCYVAGIGAAAIMAGRVSRVWLSSST	PGPT0000850_71	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-ACIDITY|NITROGEN_RELATED_REGULATION,PGPT0000850-exoS|chvG-K14980	NA	NA
BMS010_09534	873			hypothetical protein	ATGAGCACAGCAACAAGCCCGGCCGCAAGCCGCCTCTCCGTCTTGGACAATCTGCTCTGCGATACCTATCCCTGGGGCGAACTCAAGGGCATCAGGCGTTTTATCGTCGAGTTTCTTTATTTCGGCATCAAGGAAGCCCGCGCCTGCATGTTTGCGGGCTTGTTCTTCGTCTCCATCTTCGTGGTGCCGCATGGTGGAGTGCTCGGCATTCCCCGTTACGACGTGCTGCTGATCATTGCGCTCGCCATTCAGTTCTTCATGATCTGGAGCAGGCTCGAAACGCTTGACGAGGCCAAGGCCATCATGCTGTTTCATATCGTCGGCTTTGCATTGGAAGTGTTCAAGACATCGAGCGCCATCCAGTCATGGTCCTATCCGGATTTCGCCTATAGCAAAGTCCTCGGCGTGCCGCTCTTTTCCGGTTTCATGTATGCGGCCGTCGGCAGCTACATCATTCAGGCGTGGCGATTGCTGGATGTGCGCATTCGCCACTATCCCACCTACTGGATGGCGACCCTTATCGGCATCGCCATTTACGCCAACTTCTTCACCCATCACTTCATCGGCGATTACCGCTGGTACATCGCCGCCTGCGCCATCGGGCTCTATTCCCGCGCAACAGTGATCTTCCGCCCCTATGATCGGGATCGAAAGATGCCGCTACTTCTCGCCTTCATCCTGATCGGGTTTTTCGTCTGGCTGGCGGAAAATATCTCCACCTTCTTCGGCATCTGGAAATATCCCGACCAGCTCGGCGCCTGGTCCGTCGTGCATATCGGCAAATGGAGTTCATGGTCGCTGCTGGTCATCATGACTTTCACGATCATCGCACACCTCAAGCACATCAAGGATCGTATTTACGTTCCGGAGTGA	MSTATSPAASRLSVLDNLLCDTYPWGELKGIRRFIVEFLYFGIKEARACMFAGLFFVSIFVVPHGGVLGIPRYDVLLIIALAIQFFMIWSRLETLDEAKAIMLFHIVGFALEVFKTSSAIQSWSYPDFAYSKVLGVPLFSGFMYAAVGSYIIQAWRLLDVRIRHYPTYWMATLIGIAIYANFFTHHFIGDYRWYIAACAIGLYSRATVIFRPYDRDRKMPLLLAFILIGFFVWLAENISTFFGIWKYPDQLGAWSVVHIGKWSSWSLLVIMTFTIIAHLKHIKDRIYVPE	PGPT0008090_17	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008090-glyA-K00600	NA	NA
BMS010_09535	426	rplQ_2	COG0203	50S ribosomal protein L17	ATGCGCCACGGTAATTCAGGCCGCAAGCTCAATAGAACCGCCAGCCACCGCAAGGCAATGTTTGCCAACATGGCTGCTTCGCTCATCACCCATGAGCAGATCGTAACCACGCTTCCGAAGGCGAAGGAAATTCGCCCGATCGTTGAGAAGCTCGTCACCCTCGGCAAGCGCGGCGACCTGCACGCTCGTCGTCAGGCGATCTCGCAGATCAAGGATCAGGACGCCGTTCGCAAGCTGTTCGACGCGATCGCAGCCCGCTATGCAAACCGCAATGGCGGCTACCTGCGTATCATGAAGGCCGGCTTCCGCCAGGGCGACAATGCCGCTCTCGCCGTCATCGAATTCGTCGAACGCGACGTTGACGCCAAGGGCGCAGCCGACAAGGCTCGCGTTGCCGCTGAAGCTGCTGCTGCCGAAGCTGCATAA	MRHGNSGRKLNRTASHRKAMFANMAASLITHEQIVTTLPKAKEIRPIVEKLVTLGKRGDLHARRQAISQIKDQDAVRKLFDAIAARYANRNGGYLRIMKAGFRQGDNAALAVIEFVERDVDAKGAADKARVAAEAAAAEAA				NA	NA	NA	NA	NA
BMS010_09536	1011	rpoA_2	COG0202	DNA-directed RNA polymerase subunit alpha	ATGATTCAGAAGAACTGGCAGGAACTTATCAAGCCGAACAAGGTCGAGTTCACCTCGTCCAGCCGCACCAAGGCAACCCTGGTTGCCGAGCCGCTGGAGCGTGGTTTCGGTCTTACCCTCGGCAACGCGCTGCGTCGCGTTCTGTTGTCTTCTCTGCGTGGCGCCGCTGTGACGGCCGTGCAGATCGACGGTGTCCTGCACGAATTCTCCTCCATCCCCGGCGTTCGGGAAGATGTGACGGATATCGTGCTCAACATCAAGGAAATCGCCATCAAGATGGACGGCGATGATTCCAAGCGCATGGTCGTGCGCAAGCAGGGTCCGGGTGCCGTGACCGCTGGTGACATCCAGACGGTTGGCGATATCGAGATTCTGAACCCCGACCACGTGATCTGCACGCTGGACGATGGCGCTGAAATCCGCATGGAATTCACCGTCAACAACGGCAAGGGTTACGTACCGGCTGAGCGCAACCGCGCGGAAGATGCCCCGATTGGCCTCATTCCGGTGGACAGCCTCTATTCTCCGGTCAAGAAAGTGTCCTACAAGGTGGAAAACACCCGTGAAGGCCAGGTTCTCGACTATGACAAGCTGATCATGACGATCGAGACCAACGGTTCGGTTTCCGGCGAAGACGCCGTTGCCTTCGCCGCTCGCATTCTTCAGGACCAGCTGGGCGTCTTCGTCAACTTCGACGAGCCGCAGAAGGAAGCAGAAGAAGAATCGGTTACCGAACTCGCGTTCAACCCGGCGCTTCTCAAGAAGGTCGACGAGCTCGAACTGTCCGTTCGTTCGGCAAACTGCCTGAAGAACGACAACATCGTTTATATCGGCGACCTGATCCAGAAGACCGAAGCCGAAATGCTTCGCACGCCGAACTTCGGTCGCAAGTCGCTGAACGAAATCAAGGAAGTTCTCGCTTCCATGGGTCTGCACCTCGGCATGGAAGTGCCGGCATGGCCGCCTGAGAACATCGAAGATCTCGCAAAGCGTTACGAAGACCAGTACTAA	MIQKNWQELIKPNKVEFTSSSRTKATLVAEPLERGFGLTLGNALRRVLLSSLRGAAVTAVQIDGVLHEFSSIPGVREDVTDIVLNIKEIAIKMDGDDSKRMVVRKQGPGAVTAGDIQTVGDIEILNPDHVICTLDDGAEIRMEFTVNNGKGYVPAERNRAEDAPIGLIPVDSLYSPVKKVSYKVENTREGQVLDYDKLIMTIETNGSVSGEDAVAFAARILQDQLGVFVNFDEPQKEAEEESVTELAFNPALLKKVDELELSVRSANCLKNDNIVYIGDLIQKTEAEMLRTPNFGRKSLNEIKEVLASMGLHLGMEVPAWPPENIEDLAKRYEDQY				NA	NA	NA	NA	NA
BMS010_09537	390	rpsK_2	COG0100	30S ribosomal protein S11	ATGGCCAAGGAAGCCGCACGTATTCGCCGTCGCGAACGTAAGAACATCACGTCGGGCGTCGCGCACGTCAACTCGACCTTCAACAACACGATGATCACCATCACCGACGCGCAGGGCAATGCTATTGCCTGGTCGTCTGCTGGTGCCAAGGGCTTCAAGGGTTCGCGCAAGTCGACCCCGTTCGCTGCCCAGATCGCTGCTGAAGATTGCGCGAAGAAGGCTCAGGAACACGGCATGAAGTCGCTTGAAGTTGAAGTTTGCGGTCCGGGTTCCGGCCGTGAATCGGCACTTCGCGCCCTGCAGGCTGCCGGTTTCATGATCACTTCCATTCGCGACGTGACGCCGATCCCGCACAACGGTTGCCGTCCGCGCAAGAAGCGCCGCGTCTGA	MAKEAARIRRRERKNITSGVAHVNSTFNNTMITITDAQGNAIAWSSAGAKGFKGSRKSTPFAAQIAAEDCAKKAQEHGMKSLEVEVCGPGSGRESALRALQAAGFMITSIRDVTPIPHNGCRPRKKRRV				NA	NA	NA	NA	NA
BMS010_09538	369	rpsM_2	COG0099	30S ribosomal protein S13	GTGGCACGTATCGCTGGCGTCAACATCCCGACCGCGAAGCGCGTTGTTATTGCGCTGACCTACATTCACGGGATCGGTCCGAAATTCGCGCAGGAAATCATGGACAAGGTCGGTCTTCCGGCTGAGAAGCGCGTTCATCAGCTGACGGATGCTGAAGTTCTTCAGATCCGCGAAGCCATCGACCGCGACTACCAGGTCGAAGGTGACCTGCGTCGTGAGACCTCGATGAACATCAAGCGTCTGATGGACCTCGGTTGCTACCGCGGCCTGCGTCACCGTCGTGGCCTTCCGGTCCGCGGTCAGCGCACGCACACCAACGCCCGCACCCGCAAGGGTCCGGCGAAGGCTATCGCTGGTAAGAAGAAGTAA	MARIAGVNIPTAKRVVIALTYIHGIGPKFAQEIMDKVGLPAEKRVHQLTDAEVLQIREAIDRDYQVEGDLRRETSMNIKRLMDLGCYRGLRHRRGLPVRGQRTHTNARTRKGPAKAIAGKKK				NA	NA	NA	NA	NA
BMS010_09539	591	adk_2	COG0563	Adenylate kinase	ATGAGACTGATATTTTTGGGTCCGCCGGGTGCGGGCAAGGGAACCCAGGCCAAGCGGCTGACGGACAAGTACGGGATCCCGCAGCTTTCCACCGGTGACATGCTTCGCGCTGCGGTCAGCGCGGGCACCGAAATCGGCAAACGCGCCAAGGCCGTCATGGATGCCGGCGGGCTTGTTTCCGACGATATCGTCAATCAGATCGTTTCCGAACGCATCGAAGCACCGGACTGTGCCAAGGGCTTTATTCTCGACGGCTATCCGCGCACCGTTCCGCAGGCCAAGGCGCTTGCCGAGAACATGCGCAAGAAGAATCTGGTCCTCGATGCCGTCATTGAACTCAAGGTGGACGAAGAGGCGTTGATTCGCCGAATCGAAAACCGCGTGGCTGAAACCATTGCCGCCGGCGGTACGGTTCGCTCGGATGACAATCCGGAAGCGTTCCGCAAGCGCCTGACGGAATATCGCGAGAAGACCGCGCCGCTGTCTGCCTATTACAGTGAACAGGGCGAGCTCGTGACACTGGATGGCATGGCTGACGTCGATGCCGTCACCGAGGCTATCGAGCGCGTTCTCGAGAAAGCCTCCGCCTGA	MRLIFLGPPGAGKGTQAKRLTDKYGIPQLSTGDMLRAAVSAGTEIGKRAKAVMDAGGLVSDDIVNQIVSERIEAPDCAKGFILDGYPRTVPQAKALAENMRKKNLVLDAVIELKVDEEALIRRIENRVAETIAAGGTVRSDDNPEAFRKRLTEYREKTAPLSAYYSEQGELVTLDGMADVDAVTEAIERVLEKASA	PGPT0009040_6315	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0009040-adk|AK-K00939	NA	NA
BMS010_09540	1341	secY_2	COG0201	Protein translocase subunit SecY	ATGGCTTCAGCAGCGGAACAACTGGCTTCGAACCTGAATTTTTCGACCTTCGCTAAGGCGGAGGATCTGAAAAAGCGTCTCTGGTTTACTCTTGCCGCACTTCTCGTCTACCGTCTCGGCACTCACATTCCGCTTCCGGGCCTGAACCCCGAAGCCTATGCGCAGGCCTTCCGTGGCCAGGCCAACGGTATTCTCGGTCTTTTCAACATGTTTGCGGGTGGCGCCGTCGAGCGCATGGCGATCTTCGCGCTTGGCATCATGCCTTACATCTCCGCTTCGATCATCGTGCAGCTCATGACGTCGGTCGTGCCCTCGCTCGAAGCGTTGAAGAAGGAAGGCGAAGCCGGCCGCAAGATCATCAACCAGTATACGCGCTACGGCACGGTGCTGCTCGGCACGCTGCAGGCCTATGGCATTGCGGTCGGCCTCGAAAGCGGCAACGGCCTCGTGGTCGATCCGGGCTGGTTCTTCCGCATTTCCACCGTCATCACGCTGCTCGGCGGCACGATGTTCCTGATGTGGCTGGGTGAGCAGATCACCTCGCGCGGCATCGGCAACGGTATTTCGCTGATCATCTTCGCGGGCATTGCCGCAGGCCTGCCCAAGGCGCTGGCCGGCACGCTGGAACTCGGCCGTACCGGTGCGCTTTCCACCCCGCTCATCCTGACGGTCGTTGTGGTCGCCATCGGCGTCATCGCGCTCATCGTCTTCGTGGAGCGCGCCCAGCGCCGCCTGTTGATCCAATATCCGAAGCGACAGGTCGGCAATCGCATGTTCCAGGGCGACACCTCGCATCTGCCGCTGAAGCTCAACACGGCCGGCGTCATTCCCGCGATCTTCGCATCGTCGCTGCTGCTGCTGCCGGCAACGGCCGCTGGTTTTGCCGGCAACACCAACCTGCCGGGCTGGGCAACCTCGATCATCGCGTCGCTGCAGCACGGACAGCCGCTGTTCATGGCGCTCTACGGCCTGCTGATCGCGTTCTTCGCGTTTTTCTATACGGCGATCGTTTTCAATCCGAAGGACACCGCAGATAACCTCAAGAAGCATGGTGGCTTCATTCCGGGCATCCGTCCGGGCGAGCGCACCGCGGAGTACATCGATTACGTCCTGACCCGCATCACCGTGGTCGGCGCGATTTATCTTGTCTTCGTCTGTATCCTTCCTGAGACACTTATCGCACGCACGGGCATTCCATTAGCCCTTGGTGGTACTTCGCTTTTGATCGTTGTCAGTGTAACTCTGGACACGGTTGCGCAAATTCAGGGTCACCTGATCGCGCAGCAGTATGAAGGGCTGATCAAGAAGTCGAAGTTGCGTGGAGGAAAGAGGGGACGATGA	MASAAEQLASNLNFSTFAKAEDLKKRLWFTLAALLVYRLGTHIPLPGLNPEAYAQAFRGQANGILGLFNMFAGGAVERMAIFALGIMPYISASIIVQLMTSVVPSLEALKKEGEAGRKIINQYTRYGTVLLGTLQAYGIAVGLESGNGLVVDPGWFFRISTVITLLGGTMFLMWLGEQITSRGIGNGISLIIFAGIAAGLPKALAGTLELGRTGALSTPLILTVVVVAIGVIALIVFVERAQRRLLIQYPKRQVGNRMFQGDTSHLPLKLNTAGVIPAIFASSLLLLPATAAGFAGNTNLPGWATSIIASLQHGQPLFMALYGLLIAFFAFFYTAIVFNPKDTADNLKKHGGFIPGIRPGERTAEYIDYVLTRITVVGAIYLVFVCILPETLIARTGIPLALGGTSLLIVVSVTLDTVAQIQGHLIAQQYEGLIKKSKLRGGKRGR	PGPT0025725_1364	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025725-secY-K03076	NA	NA
BMS010_09541	480	rplO_2	COG0200	50S ribosomal protein L15	ATGAAACTCAATGAAATCAGAGACAACGAAGGCGCCTCCAAGGATCGTATCCGCGTAGGTCGCGGTATCGGTTCCGGCAAGGGCAAGACCGGTGGTCGCGGTGTGAAGGGTCAGAAGGCTCGTTCGGGCGTCGCCATCAACGGCTTCGAAGGCGGTCAGATGCCAATCTACCGTCGTCTGCCGAAGCGCGGTTTCAATAACATCTTCGCTTCCGAATATGTTGTCGTATCGCTCGGCCGCATTCAGACTGCCATCGACGCCAAGAAGCTTGACGCTTCCGCAACGATCGATGCCGCCGCTCTCAAGGCTGCCGGCGTTATCCGCCGCGCCAAGGACGGCGTACGCATTCTCGCCGACGGCGAGCTGAAGGCCAAGGTCGCTTTCGAAGTTGCCGGTGCTTCCAAGCCCGCAATCGAAAAGATCGAAAAGGCTGGCGGTTCGATCAAGCTTCTCGCAGTTGCAGCAGAAGCCGCCGAGTAA	MKLNEIRDNEGASKDRIRVGRGIGSGKGKTGGRGVKGQKARSGVAINGFEGGQMPIYRRLPKRGFNNIFASEYVVVSLGRIQTAIDAKKLDASATIDAAALKAAGVIRRAKDGVRILADGELKAKVAFEVAGASKPAIEKIEKAGGSIKLLAVAAEAAE				NA	NA	NA	NA	NA
BMS010_09542	207	rpmD_2	COG1841	50S ribosomal protein L30	ATGGCCAAGAAGACTACTGAAGCCAAGAAGACTGTTACGGTCGAACAGATCGGCAGCCCCATTCGCCGCCCGGCAATCCAGCGCCAGACGCTGATCGGCCTGGGTCTCAACAAGATGCATCGTCAGCGCACCCTGGAAGACACTCCGGCGGTTCGCGGCATGATCCGTGCGGTCCAGCATCTCGTTCGCGTCGTTGACGAGAAGTGA	MAKKTTEAKKTVTVEQIGSPIRRPAIQRQTLIGLGLNKMHRQRTLEDTPAVRGMIRAVQHLVRVVDEK				NA	NA	NA	NA	NA
BMS010_09543	570	rpsE_2	COG0098	30S ribosomal protein S5	ATGGCACAGGATAAAAGAGGTTCCCGCGAAGAGCGTCAGAACCGCGAAGAGCGCGATAGCGAATTCGTCGACAAGCTGGTCGCGATCAACCGCGTTGCAAAGGTTGTTAAGGGTGGCCGTCGCTTCGGCTTCGCTGCTCTCGTCGTCGTTGGCGACCAGAAGGGCCGCGTTGGCTTCGGTCACGGCAAGGCTCGTGAAGTTCCGGAAGCGATCCGCAAGGCAACCGAAAGCGCAAAGCGCGATCTGATCTTCGTTCCGCTGCGCGATGGCCGCACGCTGCACCACGACGTCAATGGCCGTCATGGCGCAGGCAAGGTTCTGCTGCGTTCGGCCAAGGCCGGTACCGGTATCATCGCCGGTGGTCCGATGCGCGCCGTTTTCGAAACGCTCGGCGTTCATGACGTTGTTGCCAAGTCGACCGGTTCTTCGAATCCGTACAACATGGTTCGCGCTACGTTCGACGCTCTGAAGCATCAGGTTCATCCGAAGGACATCGCTGCACAGCGCGGTCTGAAGTATGCGACCCTTCAGGCTCGTCGTGCCGCTTCCGGCAACGCTTCTGAAGAATAA	MAQDKRGSREERQNREERDSEFVDKLVAINRVAKVVKGGRRFGFAALVVVGDQKGRVGFGHGKAREVPEAIRKATESAKRDLIFVPLRDGRTLHHDVNGRHGAGKVLLRSAKAGTGIIAGGPMRAVFETLGVHDVVAKSTGSSNPYNMVRATFDALKHQVHPKDIAAQRGLKYATLQARRAASGNASEE				NA	NA	NA	NA	NA
BMS010_09544	363	rplR_2	COG0256	50S ribosomal protein L18	ATGGCTAGCAGGAAAGAAGCACTTGCACGTCGCGCGAGCCGTGTGCGCCGCCAGATCAAGGCGGTTGCCAACGGCCGCCCGCGCCTGTCGGTTCATCGCTCGTCGAAGAACATCTACGCCCAGATCATCGATGACGTTGCTGGTAAGACGCTTGCGTCTGCCTCCACGCTCGAAGCCGATCTGCGCGGCTCGCTCAAGACCGGCGCCGACGTTGCAGCAGCAACTGTTGTCGGCAAGCTGGTTGCCGAGCGTGGCGTCAAGGCTGGCGTCAAGGATGTCGTATTCGACCGTGGCGCGTTCATCTACCACGGCCGCATCAAGGCTCTGGCAGACGCTGCCCGCGAAGGCGGCCTGAACTTCTGA	MASRKEALARRASRVRRQIKAVANGRPRLSVHRSSKNIYAQIIDDVAGKTLASASTLEADLRGSLKTGADVAAATVVGKLVAERGVKAGVKDVVFDRGAFIYHGRIKALADAAREGGLNF				NA	NA	NA	NA	NA
BMS010_09545	534	rplF_2	COG0097	50S ribosomal protein L6	ATGTCTCGTATCGGTAAAAAGCCCGTTCCGGTTCCAGCAGGTGTGACGGCCAATGTCGACGGCCAGAAGGTTACTGCTAAGGGCCCGAAGGGTGAACTGTTTTTCGTCGCTAACGACGACATTCAGCTGAAGCTCGAAGATAACGGCGTTTCCGTAACGCCGGCTAACGGCACCAAGGAAGCTCGTTCGAAGTGGGGCATGTCCCGCACGATGATCGAGAACATCTTCAAGGGTGTTAAGGACGGCTATGAGCGCAAGCTCGAAATCAACGGCGTCGGTTACCGTGCCGCCATGCAGGGCAAGAACCTGCAGCTGGCTCTCGGCTTCTCCCACGACGTTGTTTACGAGCCTCCGGTCGGCATCACCATTGCCGTTCCGAAGCCCACGGAAATCATCGTTTCCGGCATCAACAAGCAGCAGGTTGGCCAGGTAGCCGCGGAAATCCGCGAATACCGCGGTCCCGAGCCCTACAAGGGCAAGGGCGTGAAGTACGCTGAAGAGCGTATTGTCCGCAAAGAAGGCAAGAAGAAGTAA	MSRIGKKPVPVPAGVTANVDGQKVTAKGPKGELFFVANDDIQLKLEDNGVSVTPANGTKEARSKWGMSRTMIENIFKGVKDGYERKLEINGVGYRAAMQGKNLQLALGFSHDVVYEPPVGITIAVPKPTEIIVSGINKQQVGQVAAEIREYRGPEPYKGKGVKYAEERIVRKEGKKK				NA	NA	NA	NA	NA
BMS010_09546	399	rpsH_2	COG0096	30S ribosomal protein S8	ATGACCATGACTGATCCTTTGGGTGATATGCTCACCCGCATCCGCAATGGTGCTGCTCGCCGCAAGTCTTCGGTAAGCACGCCGGCTTCCAGCCTCCGCGCACGCGTTCTCGACGTGCTGCAGGCTGAAGGCTACATTCGCGGTTATTCCAAGGTCGATTTCGAAAACGGCAAGTCCGAATTCACGATCGAGCTGAAGTACTACGAAGGCGCGTCCGTGATCCGTGAGATCGGCCGCGTTTCCAAGCCGGGCCGCCGGGTTTATGTCTCGGTAAAGTCCATTCCGCAGGTCGCGAACGGCCTCGGCATCACCATCCTTTCGACCCCGAAGGGCGTGATGGCCGATCACCAGGCTCGCGAACAGAACGTTGGTGGCGAGGTTCTTTGCTCGGTCTTCTAA	MTMTDPLGDMLTRIRNGAARRKSSVSTPASSLRARVLDVLQAEGYIRGYSKVDFENGKSEFTIELKYYEGASVIREIGRVSKPGRRVYVSVKSIPQVANGLGITILSTPKGVMADHQAREQNVGGEVLCSVF				NA	NA	NA	NA	NA
BMS010_09547	306	rpsN_2	COG0199	30S ribosomal protein S14	ATGGCGAAAACAAGCGCAGTTGAAAAGAACAAGCGCCGCCGCAAGTCGGTCGCCCAGCAGGCCGCCAAGCGCGCCGCACTGAAGGCGATCGTGATGAACCAGTCCCTTCCGATCGAAGACCGGTTCAAGGCCACTCTGAAGCTCGCTTCGCTGCCGCGTGACGGCTCGAAGACGCGTATCCGCAACCGCTGCGAAGTAACGGGCCGTCCGCGCGCGTTCTATCGCAAGCTCAAGATGTCGCGTATCGCGCTTCGTGAGCTGGGCAATTCCGGCAAGGTGCCGGGCATTGTCAAGTCGAGCTGGTAA	MAKTSAVEKNKRRRKSVAQQAAKRAALKAIVMNQSLPIEDRFKATLKLASLPRDGSKTRIRNRCEVTGRPRAFYRKLKMSRIALRELGNSGKVPGIVKSSW				NA	NA	NA	NA	NA
BMS010_09548	555	rplE_2	COG0094	50S ribosomal protein L5	ATGGCTGATAAGTACGAGCCGCGTCTCAAGACGGAATACGTTTCCCGTATCCGTGGCGCCATGCAGGAGAAGTTCTCCTACGCAAACGTCATGATGATCCCGAAGCTTGAAAAGATCGTGATCAACATGGGCGTTGGTGAAGCGACTGCTGACTCCAAGAAGCCCACCATCGCTGCCGGTGACCTGGCTGCGATTGCCGGCCAGAAGCCGGTCGTTACCCGCGCTCGCAACTCGATCGCTGGTTTCAAGGTTCGCGAAGGCATGCCGATCGGTGCGAAGGTTACCCTTCGTGGCGCCCGCATGTACGAATTCCTTGATCGTCTGGTCAACATCGCGCTTCCGCGCGTTCGCGACTTCCGGGGCCTGAACCCGAAGAGCTTTGACGGCCGTGGCAACTTCGCCATGGGCATCAAGGAACACATTGTGTTCCCTGAGATCAACTACGATAAGGTTGATCAGATGTGGGGCATGGACATCATCGTTTGCACGACGGCGACGTCGGACGACGAAGCTCGGGCTCTGCTGACAGAGTTCAACTTCCCGTTCCGTCACTAA	MADKYEPRLKTEYVSRIRGAMQEKFSYANVMMIPKLEKIVINMGVGEATADSKKPTIAAGDLAAIAGQKPVVTRARNSIAGFKVREGMPIGAKVTLRGARMYEFLDRLVNIALPRVRDFRGLNPKSFDGRGNFAMGIKEHIVFPEINYDKVDQMWGMDIIVCTTATSDDEARALLTEFNFPFRH				NA	NA	NA	NA	NA
BMS010_09549	309	rplX_2	COG0198	50S ribosomal protein L24	ATGCAGAAGATTCGTAAAGGCGACAAGGTTGTCGTATTGACCGGTAAGGACAAGGGCCGCACCGGCGAAGTAATCCAGGTTTTGCCGAAGGAAGATCGGGCCGTTGTGCGTGGCGTTAACATGGTGAAGCGTCACCAGCGCCAGACCCAGGCCCAGGAAGCCGGCATCATCAACAAGGAAGCATCCTTGCACATCTCCAACATCGCCATCGTCGACAAGGATGGCAAGCCGACCCGCGTTGGCTTCTCGGTTGTGGATGGCAAGAAGGTCCGCGTGGCCAAGCGTTCGGGAGAAGTGATCGATGGCTGA	MQKIRKGDKVVVLTGKDKGRTGEVIQVLPKEDRAVVRGVNMVKRHQRQTQAQEAGIINKEASLHISNIAIVDKDGKPTRVGFSVVDGKKVRVAKRSGEVIDG				NA	NA	NA	NA	NA
BMS010_09550	369	rplN_2	COG0093	50S ribosomal protein L14	ATGATTCAGATGCAAACAAACCTCGACGTGGCGGATAATTCCGGCGCACGTCGTGTCATGTGCATCAAGGTGCTGGGCGGCTCGAAGCGCAAATATGCTTCTGTTGGCGACATTATTGTCGTTTCCATCAAGGAAGCTATTCCGCGCGGCCGCGTCAAGAAGGGCGACGTGATGAAGGCGGTTGTCGTGCGCACCGCCAAGGACATCCGCCGCGCTGACGGCAGCGTCATCCGTTTCGATAACAACGCAGCCGTTCTTATCGACAACAAGAAAGAGCCCATCGGCACCCGTATCTTCGGACCGGTTCCGCGCGAACTTCGCGCCAAGAACCACATGAAGATCATCTCGCTGGCTCCGGAAGTACTGTAA	MIQMQTNLDVADNSGARRVMCIKVLGGSKRKYASVGDIIVVSIKEAIPRGRVKKGDVMKAVVVRTAKDIRRADGSVIRFDNNAAVLIDNKKEPIGTRIFGPVPRELRAKNHMKIISLAPEVL				NA	NA	NA	NA	NA
BMS010_09551	237	rpsQ_2	COG0186	30S ribosomal protein S17	ATGCCGAAACGCATTCTGCAGGGCGTCGTAGTGTCCGACAAGAACGAGAAGACTGTCGTAGTCCGGGTTGAGCGCCGATTCGCTCACCCGCTGCTTCAGAAGACCGTTCGTCGTTCGAAGAAGTACAAGGCACACGACGAAAACAATCAGTATAAGGTCGGCGATGTCGTTTCCATCGAGGAATGCGCACCGATCTCCAAGGACAAGCGCTGGACGGTCGTTTCCGCCCAGGCTTAA	MPKRILQGVVVSDKNEKTVVVRVERRFAHPLLQKTVRRSKKYKAHDENNQYKVGDVVSIEECAPISKDKRWTVVSAQA				NA	NA	NA	NA	NA
BMS010_09552	201	rpmC_2	COG0255	50S ribosomal protein L29	ATGAAAGCCGATGAAGTTCGCGGCCTCAGCGCCGACCAGCTCAAGGACAAGCTCGCCGATCTGAAGAAGGAGCAGTTCAACCTGCGCTTCCAGAAGGCAACTGGTCAGCTGGAGAAGTCCTCGCGCATCAACGAAGTCCGCAAGGATATCGCCCGCGTTAAAACCATTGCCCGCCAGAAGGCGGCAGAAGCCAAGGCCTAA	MKADEVRGLSADQLKDKLADLKKEQFNLRFQKATGQLEKSSRINEVRKDIARVKTIARQKAAEAKA				NA	NA	NA	NA	NA
BMS010_09553	414	rplP_2	COG0197	50S ribosomal protein L16	ATGTTGCAGCCAAAGCGTACTAAGTACCGTAAGCAGTTCAAGGGACGCATCAAGGGCGTCGCCAAGGGCGGCTTTGACCTGGCATTCGGTGAATTCGGCTTGAAGTCGCAGGAACCGAACCGCGTGAATGCACGCGAGATCGAAGCGGCCCGCCGCGCGATCACGCGTTACATGAAGCGCGCAGGTCGCGTGTGGATCCGCGTATTCCCCGACGTTCCGGTCACGGCAAAGCCGACCGAAGTTCGTATGGGTAAGGGCAAGGGTTCGGTCGATTACTGGGCATGCAAGGTCAAGCCCGGTCGTATGATGTTCGAGATCGACGGTGTGTCCGAGGAGATCGCCCGTGAGGCGCTTCGTCTCGGCGCTGCCAAGCTCTCGGTCAAGACGCGCTTCGTACAGCGCATCGCAGAGTAA	MLQPKRTKYRKQFKGRIKGVAKGGFDLAFGEFGLKSQEPNRVNAREIEAARRAITRYMKRAGRVWIRVFPDVPVTAKPTEVRMGKGKGSVDYWACKVKPGRMMFEIDGVSEEIAREALRLGAAKLSVKTRFVQRIAE				NA	NA	NA	NA	NA
BMS010_09554	732	rpsC_2	COG0092	30S ribosomal protein S3	ATGGGTCAGAAAATCAATCCGATCGGCTTCCGCCTCGGCATCAACCGTACCTGGGATAGCCGCTGGTACGCTGACACCGCAGAATACGGCAAGCTGCTGCATGAAGACCTGAAGATCCGGGCTTACCTGATCAAGGAACTCAAGCAGGCCGGTATCGCAAAGGTCGTCATCGAGCGTCCGCACAAGAAGTGCCGCGTTACGATCCACTCGGCTCGTCCGGGTCTGATCATCGGCAAGAAGGGTGCGGACATCGAGAAGCTTCGCAAGAAGCTTTCCGAGATGACCAACTCCGAAACGCACCTCAACATCGTTGAAGTGCGCAAGCCGGAAATCGACGCGACGCTGGTTGCCCAGTCGATCGCTCAGCAGCTCGAGCGCCGCGTGGCTTTCCGCCGTGCGATGAAGCGTGCTGTTCAGTCCGCAATGCGTCTTGGCGCCGAAGGCATCAAGATCACCTGCGGCGGCCGTCTCGGCGGTGCAGAAATCGCTCGTACCGAATGGTACCGCGAAGGTCGCGTTCCGCTCCACACGCTGCGTGCGGACATCGACTACGGCACGGCTGAAGCTGAAACCGCATTCGGCATTTGCGGCATCAAGGTCTGGATCTTCAAGGGCGAAATCCTTGAGCACGATCCGATGGCTTCTGAGCGTCGCGGTCTCGAAGGCGACGCACAGGGCCCTGCAAGCCGTGAGCGTGGCGATCGTCCCGATCGTCGTCGCGAAAACGCTTGA	MGQKINPIGFRLGINRTWDSRWYADTAEYGKLLHEDLKIRAYLIKELKQAGIAKVVIERPHKKCRVTIHSARPGLIIGKKGADIEKLRKKLSEMTNSETHLNIVEVRKPEIDATLVAQSIAQQLERRVAFRRAMKRAVQSAMRLGAEGIKITCGGRLGGAEIARTEWYREGRVPLHTLRADIDYGTAEAETAFGICGIKVWIFKGEILEHDPMASERRGLEGDAQGPASRERGDRPDRRRENA				NA	NA	NA	NA	NA
BMS010_09555	390	rplV_2	COG0091	50S ribosomal protein L22	ATGGCGAAGGCTAAGACCGAACGCCGGCTGAAGGACAACGAGGCTCAGGCCGTTGCCCGTACGCTCCGCGTCAGCCCCCAGAAACTGAACCTGGTTGCCGCTCTTATCCGTGGCAAGAAGGTTGATCGCGCTCTCGCCGAGCTCGAATTCTCCCGCAAGCGCATTGCAGGCACCGTCAAGAAGACGCTGGAATCTGCGATTGCCAATGCGGAAAACAACCACGACCTCGACGTCGACGCTCTCGTCGTCGCCGAGGCCTATGTTGGCAAGTCCATCACCATGAAGCGTTTCCACGCTCGTGGCCGTGGTCGTGCTTCCCGCATCGAAAAGCCGTTCGCTCACCTCACGATCGTTGTTCGTGAAGTCGAGGAAAAAGGGGAGGCCGCATAA	MAKAKTERRLKDNEAQAVARTLRVSPQKLNLVAALIRGKKVDRALAELEFSRKRIAGTVKKTLESAIANAENNHDLDVDALVVAEAYVGKSITMKRFHARGRGRASRIEKPFAHLTIVVREVEEKGEAA				NA	NA	NA	NA	NA
BMS010_09556	279	rpsS_2	COG0185	30S ribosomal protein S19	ATGGCTCGTTCAGTATGGAAAGGTCCGTTTGTTGACGGCTATCTTCTCACCAAGGCTGAGAAGGTGCGCGAGAGCGGACGTAACGAAGTAATCAAGATCTGGAGCCGTCGCTCCACGATCCTGCCGCAGTTCGTTGGTCTGACCTTCGGCGTCTACAACGGCAGCAAGCATGTGCCCGTCTCCGTCAACGAAGACATGGTCGGACACAAGTTCGGTGAATTCTCTCCGACCCGTACCTATTACGGTCACGGCGCGGACAAGAAGGCAAAGAGGAAGTAA	MARSVWKGPFVDGYLLTKAEKVRESGRNEVIKIWSRRSTILPQFVGLTFGVYNGSKHVPVSVNEDMVGHKFGEFSPTRTYYGHGADKKAKRK				NA	NA	NA	NA	NA
BMS010_09557	837	rplB_2	COG0090	50S ribosomal protein L2	ATGGCATTGAAAAGTTTCAATCCGACCACGCCGAGCCAGCGCCAGCTGGTTATCGTGGACCGCGCTTCGCTCTACAAGGGCAAGCCGGTAAAGGCTCTCACCCAGGGCCTCAGCTCCAAGGGTGGCCGTAACAACCAGGGCCGGATCACCGTCCGTTTCCAGGGTGGCGGTCACAAGCGGACCTACCGTCTGGTTGACTTCAAGCGTCGCAAGTTCGACGTAGAAGGCACCGTTGAGCGTCTGGAATACGACCCCAACCGCACCGCGTTCATCGCGCTGGTTACGTATACCGACGGCGAACAGGCTTACATTCTCGCGCCACAGCGTCTCGCTGCCGGTGACAAGGTGATCGCCTCCGACAAGGCAGTGGACGTGAAGCCTGGCAACACCATGCCGCTTCAGTACATTCCGGTCGGTTCGATCATCCACAACGTCGAGATGAAGCCGGGCAAGGGCGGTCAGATCGCTCGCTCCGCCGGTACGTATGTCCAGCTCGTCGGCCGTGATGCCGGCATGGCCATCCTGCGTCTCAACTCGGGCGAACAGCGTCTGGTGCACGGCTCGTGCCTTGCATCGATCGGTGCTGTTTCGAACTCGGACCACGCCAACATCAACGACGGCAAGGCCGGTCGTTCCCGTTGGCGCGGCAAGCGTCCGCACGTTCGCGGCGTCGTCATGAACCCGGTCGACCACCCGCACGGTGGTGGTGAAGGTCGCACGTCGGGTGGTCGCCACCCGGTTACTCCGTGGGGCAAGCCCACGAAGGGCAAGCGCACCCGTTCGAACAAGTCGACCGACAAGTTCATCATGCGCTCGCGCCATCAGCGTAAGAAGTAA	MALKSFNPTTPSQRQLVIVDRASLYKGKPVKALTQGLSSKGGRNNQGRITVRFQGGGHKRTYRLVDFKRRKFDVEGTVERLEYDPNRTAFIALVTYTDGEQAYILAPQRLAAGDKVIASDKAVDVKPGNTMPLQYIPVGSIIHNVEMKPGKGGQIARSAGTYVQLVGRDAGMAILRLNSGEQRLVHGSCLASIGAVSNSDHANINDGKAGRSRWRGKRPHVRGVVMNPVDHPHGGGEGRTSGGRHPVTPWGKPTKGKRTRSNKSTDKFIMRSRHQRKK				NA	NA	NA	NA	NA
BMS010_09558	294	rplW_2	COG0089	50S ribosomal protein L23	ATGACGGATCTTCGCCACTACGATGTGATCGTATCTCCTTCGATCACGGAAAAGTCGACGCTGGTATCCGAACAGAACCAGGTCGTATTCAACGTCGCCAAGAATGCTTCCAAGCCTGAGATCAAGGCTGCCGTGGAAGCTCTCTTCGGCGTCAAAGTCACGGCTGTGAACACGCTTATCCGCAAGGGTAAGACCCGTCGTTTCCGTGGATTCGCCGGTAAGCTGAAGGACGTCAAGAAAGCCGTCGTCACGCTCGCCGAAGGTCAATCCATCGACGTGTCCACCGGACTCTAA	MTDLRHYDVIVSPSITEKSTLVSEQNQVVFNVAKNASKPEIKAAVEALFGVKVTAVNTLIRKGKTRRFRGFAGKLKDVKKAVVTLAEGQSIDVSTGL				NA	NA	NA	NA	NA
BMS010_09559	621	rplD_2	COG0088	50S ribosomal protein L4	ATGGAATTGAACGTCAAGACCCTCGAGGGAAAAGACGCCGGCAAGGTTTCTCTGTCGGATGAGATCTTCGGCCTCGACCCCCGCCAGGACATCCTGGCCCGCATGGTTCGCTGGCAGCTTGCAAAGAAGCAGCAGGGAACCCACAAGTCCAAGAACCGGTCGGAAGTTTCCCGCACCGGCGCGAAGATGTACAAGCAGAAGGGTACGGGCCGCGCTCGTCACCATTCGGCTCGCGCACCGCAGTTCCGCGGCGGCGGCAAGGCCCACGGCCCGGTCGTTCGCAGCCATGCACACGATCTTCCCAAGAAGGTTCGCGCGCTCGCTCTGCGTCACGCCCTGTCTGCAAAGCTGAAGGCTGAAGAACTGATCATCGTCGATCAGCTCGTCGCGTCCGAAGCAAAGACCAAGGCTCTGCTGGGCAGCTTCGCTTCGCTTGGCCTGACCAACGCTCTCGTTATCGGCGGCGCCGAACTTGATGGCAACTTCAAGCTCGCTGCTCAGAACATCCCGAACGTGGACGTTCTGCCGGTTCAGGGCATCAATGTTTACGACATCCTGCGCCGTGGCAAGCTGGTGCTTTCCAAGGCTGCTGTAGAGGCTCTGGAGGAGCGGTTCAAATGA	MELNVKTLEGKDAGKVSLSDEIFGLDPRQDILARMVRWQLAKKQQGTHKSKNRSEVSRTGAKMYKQKGTGRARHHSARAPQFRGGGKAHGPVVRSHAHDLPKKVRALALRHALSAKLKAEELIIVDQLVASEAKTKALLGSFASLGLTNALVIGGAELDGNFKLAAQNIPNVDVLPVQGINVYDILRRGKLVLSKAAVEALEERFK				NA	NA	NA	NA	NA
BMS010_09560	642	rplC_2	COG0087	50S ribosomal protein L3	ATGCGTTCAGGTGTGATTGCACAGAAAGTGGGTATGACACGCGTCTATAACGACGCAGGTGAACATATCCCCGTAACAGTATTGCGACTGGATAACGTACAAGTCGTTGCCCAGCGCACGGAAGACAAGAATGGCTATACCGCAGTTCAGCTCGGTGCCGGCCAGTCCAAGGTCAAGAACACGACGAAGGCGCTTCGCGGTCACTTTGCCGCTGCCAATGTCGAACCGAAAGCCAAGCTCGTCGAGTTCCGGGTTTCCCCCGAGAACCTGATCGACATCGGTGCAACACTGACCGCAAATCATTTTCAGTCCGGCCAGCTGGTCGACGTCACTGGAACCACGATCGGTAAAGGTTTTGCCGGTGCTATGAAGCGTCACAACTTCGGTGGTGGCCGCGCTTCGCACGGTAACTCCGTATCGCACCGTGCACACGGTTCGACCGGTAACAACCAGGATCCGGGCCGCGTCTGGAAGGGCAAGCGCATGGCTGGTCATATGGGCCAGACGCGCGTTACGACCCAGAACCTCGAAGTCGTTTCGACCGATGAAGACCGTGGCCTCATCCTCGTGAAGGGTGCAGTTCCCGGCTCGAAGGGTTCCTGGATCATCGTCCGCGACGCCGTCAAGTCGGCTGCGAAGTAA	MRSGVIAQKVGMTRVYNDAGEHIPVTVLRLDNVQVVAQRTEDKNGYTAVQLGAGQSKVKNTTKALRGHFAAANVEPKAKLVEFRVSPENLIDIGATLTANHFQSGQLVDVTGTTIGKGFAGAMKRHNFGGGRASHGNSVSHRAHGSTGNNQDPGRVWKGKRMAGHMGQTRVTTQNLEVVSTDEDRGLILVKGAVPGSKGSWIIVRDAVKSAAK				NA	NA	NA	NA	NA
BMS010_09561	309	rpsJ_2	COG0051	30S ribosomal protein S10	ATGAACGGCCAGAATATCCGTATCCGCCTCAAGGCGTTCGATCACCGGATCCTCGATGCCTCTACCCGTGAAATCGTGTCGACCGCAAAGCGCACCGGCGCCAGCGTTCGCGGCCCGGTTCCGCTCCCCACCCGCATCGAAAAGTTTACCGTCAACCGCTCTCCTCACGTTGATAAGAAGAGCCGTGAACAGTTCGAAATGCGGACGCACAAGCGTCTTCTCGATATCGTTGACCCCACCCCGCAGACTGTCGATGCTCTGATGAAGCTCGACCTCGCTGCTGGCGTTGACGTGGAAATCAAGCTCTAA	MNGQNIRIRLKAFDHRILDASTREIVSTAKRTGASVRGPVPLPTRIEKFTVNRSPHVDKKSREQFEMRTHKRLLDIVDPTPQTVDALMKLDLAAGVDVEIKL	PGPT0015245_5632	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	TRIGGERED_IMMUNITY	PAMP|EFFECTOR_TRIGGERED_IMMUNITY|PTI	PTI-BACTERIAL_EF-TU,PGPT0015245-elf18|tuf|tufA-K02358	NA	NA
BMS010_09562	138	tufA_3	COG0050	Elongation factor Tu	ATGGTTATGCCTGGCGACAACGTCACCGTTGACGTCGAGCTGATCGTTCCGATCGCGATGGAAGAAAAGCTGCGCTTCGCTATCCGCGAAGGTGGCCGTACCGTCGGCGCTGGCATCGTGGCTTCGATCGTCGAGTAA	MVMPGDNVTVDVELIVPIAMEEKLRFAIREGGRTVGAGIVASIVE	PGPT0015245_5292	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	TRIGGERED_IMMUNITY	PAMP|EFFECTOR_TRIGGERED_IMMUNITY|PTI	PTI-BACTERIAL_EF-TU,PGPT0015245-elf18|tuf|tufA-K02358	NA	NA
BMS010_09563	1404	sthA_3	COG1249	putative soluble pyridine nucleotide transhydrogenase	ATGCACCAGTTCGATCTGATTGTTGTCGGCAGCGGTCCGGCGGGAAGACGGGCCGCCATTCAGGCCGCCAAGCTCGAAAAGAGGGTTCTGGTCATCGAGAAGGGCAGCCGCGTCGGCGGCGTTTCCGTGCACACCGGCACCATTCCATCGAAGACCCTGCGCGAGACGGCGCTCAATCTCACCGGCTGGCGCGAGCGCGGTTTTTACGGCCGCGCCTATCGCGTCAAGCAGGAGATCGATGCCGAAGACCTGCGCCGCCGCCTGCTCATCACGCTGGATCACGAAGTGGAAGTGCTGGAACACCAGTTTGCCCGCAACCGCGTGCAGCACATTCGCGGCACCGCGAGCTTCATCGACGCCAACACCATGAAGGTGGTGAAGAGCGACGGCGAGATCATGACCGTGACGGGCACCTCCATCCTGCTGACCATCGGCACCCGCCCCTATCGGCCGCCGCATATTCCCTTCGATGGCGAAGCGGTGCTCGATTCGGACGAGATTCTCGAGATCAAGGAACTGCCGCGCTCCATGGTCGTCGTCGGCGCCGGCGTCATCGGCATCGAATATGCCACCATTTTCAGCGCGCTCGATACGCAGGTGACGGTGGTGGAGCCGCGCGAAACCATGCTGGAATTCATCGACAAGGAAATCGTCGAGGACTTCACCTATCAGCTGCGCGACCGCAACATGAAGCTGATCTTCGGCCAGAAGGCGGAAAAGGTGGAGCGCGACGAAAGCGGCAAATGCCTCGTCTCGCTCGGCAATGGCCGCGTGCTGAAGGCCGAGACGGTGCTGTTTGCCGCCGGCCGCGTCGGCGCCACCGATACGCTCAACCTTTCGGCCTGTGGGCTGGAGGCCGATAGCCGCGGCCGCCTGAAGGTCGATCCCGAAACCTTCCAGACCTCGGTGCCGAACATCTATGCCGCCGGCGACATCATCGGTTTCCCGAGCCTTGCCTCCACCTCCATGGAACAGGGCCGCATCGCCGCCCGCCACGCCGTCGGCGCACCGGCCGGCGAACCGCCGCAATTCTTCCCTTACGGCATCTATGCCGTACCGGAAATTTCCACCTGCGGCCTGACGGAAGAAGAAGTCATCGAACGCGGCATTCCCTATGAATGCGGCATCGCCCATTTCCGCGAAACCTCGCGCGGCCACATCATGGGCCTCGACAGCGGGCTGTTGAAGATGATCTTCTCGCTCAAAACCCGCCGCCTGCTCGGCGTCCACATCGTCGGCGAAGGTGCCACCGAACTGGTGCATATCGGCCAGGCGGTGCTGAACCTCAAAGGCACTGTGGAATATTTCGTCGAGAACACGTTCAACTATCCCACACTTGCCGAGGCTTACAAGATTGCCGGGCTGGATGCGTGGAACCGCATGGGTGAGATCAAGAAGGATTGA	MHQFDLIVVGSGPAGRRAAIQAAKLEKRVLVIEKGSRVGGVSVHTGTIPSKTLRETALNLTGWRERGFYGRAYRVKQEIDAEDLRRRLLITLDHEVEVLEHQFARNRVQHIRGTASFIDANTMKVVKSDGEIMTVTGTSILLTIGTRPYRPPHIPFDGEAVLDSDEILEIKELPRSMVVVGAGVIGIEYATIFSALDTQVTVVEPRETMLEFIDKEIVEDFTYQLRDRNMKLIFGQKAEKVERDESGKCLVSLGNGRVLKAETVLFAAGRVGATDTLNLSACGLEADSRGRLKVDPETFQTSVPNIYAAGDIIGFPSLASTSMEQGRIAARHAVGAPAGEPPQFFPYGIYAVPEISTCGLTEEEVIERGIPYECGIAHFRETSRGHIMGLDSGLLKMIFSLKTRRLLGVHIVGEGATELVHIGQAVLNLKGTVEYFVENTFNYPTLAEAYKIAGLDAWNRMGEIKKD	PGPT0013495_429	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013495-sthA-K00322	NA	NA
BMS010_09564	534			hypothetical protein	GTGTCAGATATCTCCGACTATATCGTTTCGCATTTCAAGCGTTCCTCTCGCGAAATCGGCGAAGTGGAGCGGCGCATTCTGGAACTGTCGCACCAGAAGAAACTGATTTCGAGCGACACCAATGCGGAATTTTCCGCTGGCGCGAGTTTCGGCGACAGGCTGGCCGACAATATCGCCAAGGTCGGCGGCTCCTGGGGTTTCATCCTCGGTTTCTGCTTTTTCCTGATCTTCTGGGCCGTCATCAACACCATCATCCTGACGACCGGCGCCTTCGATCCCTACCCCTTCATCTTCCTCAACCTGCTGCTTTCCATGCTGGCGGCCATTCAGGCGCCGATCATCATGATGTCGCAGAACCGCCAGGCCGCCCGCGACCGTTTCGAGGCCGCCAAGGACTACGAGGTGAACCTGAAGGCCGAGCTTGAGGTTCTTTCCCTGCATGAAAAGATCGATGTGAAGGTGCTGGCCGAACTGGCCGCGCTCCGTCAGGACCTTGCGGCACTTCACCGCCATGTCACCCGGAAGGAAGACTGA	MSDISDYIVSHFKRSSREIGEVERRILELSHQKKLISSDTNAEFSAGASFGDRLADNIAKVGGSWGFILGFCFFLIFWAVINTIILTTGAFDPYPFIFLNLLLSMLAAIQAPIIMMSQNRQAARDRFEAAKDYEVNLKAELEVLSLHEKIDVKVLAELAALRQDLAALHRHVTRKED				NA	NA	NA	NA	NA
BMS010_09565	1935			hypothetical protein	TTGAGAGATTCGGCGCCAAAAACAACGGCTTCCGAAAAGGCTGGTTTCGTCTTTTCGCCTGCATGGACAAGGAGCCTTTCCAAGCTTTCGGGCATCGCCTATCCGCTTGCCAATCTGACGGTCGCGTCCGTCGTGCTGGTCGTGGCGCTGGAGTGGATCGCCCGCGGTTCGCTGAACGATGTCGGCGCTTTCCTCACCTCCTCCGCCCGCCCCGGCATGACCACCATTGCCGCCGTGCTTGCCCTTCTCGTGGCGTTGGATGCACTTCTTGGCAGGCGTTACCTGTCGCTGATCGCGCTTGCGCCGCTCTGCGCGCTGACGGGGCTGATTTCGGCACAGAAACAGACCTATCTTTCCGATCCGCTTTATCCCTCCGACCTGCTGTTCGGCCGGCAGATCCTCGAGCTTCTGCCGACCATGCTGAAGGCCCAGCCGATGACGGCAGCCCTCGTCGCCCTCGGCATCTGCGCCACGATTGCCGCTCTCGCAGCATTGTGGCTGCTGGCGCGCCGCCATTCACCGGGCTTGAGCTGGCGCGAACGCGCCGCTGGTCTCGCGATGGCGCTGCCGCTCCTTGCGGGTCTCGCCTCGCTTATGGACTATTCACATTACTCCTGGGTGCGCGATCGCCTCAACATTATTCCCATGATGTGGGACCAGCAGGAAAATTACCGCCATAACGGCTTCCTGATGGCCTTTGCCTTCAATATTCCGATGGCCAATGTCTCGGCGCCGCAGGGTTACGGCGAAAACACCATTGCCGACCTGACCTCCGAGCCCGCCGCCTTCGCCCCCAACAAGGGCGATTACCCCGATGTCATCATGCTGATGAGCGAATCGCTGTGGGATCCTAAGCGGCTGGAAAATGTGAGCCTCTCCGCCGATCCCATGCCGACGATCCGCGCCAAACAGTCCGGCAATGTCTTTTCCCCGGAATTCGGCGGCATGACGGCGAATGTGGAATTCGAGGCACTGACCGGCTTTTCCAACGCCTTCCTGCCCTATGGCAGCATTCCCTATCAGCAATATATCCGCCGCCCGGTGCCCTCGCTCGCCAGCTTCTTCCGTGGCGAAGGTTATTCCGCCATCGCCATGCACCCCTTCCAGGAATGGTTTTGGAACCGCAAGCAGGTCTACAAAAACTTCGGCTTCGAGGAATTCCGCTCCGAAGAGACGCTGCCGACGATGGAAAAACGCGGCAACTTCGCCTCCGACGATGCGCTGATGGACGAGATCATGGCGACGGCCGAGAAGGCGCAGAACCCGCTCTTCCTCTTCGCCGTCACCCTTCAGGGACATGGTCCCTACGAGGCGACCCGTTACGCCGAAAACACCATCGGCGTCGAAGGCGATCTTTCCGCCTCGGCCTCGCAGGCGCTGGCCACCTATTCTCAAGGGGTGGCGGAAGCCGATGAAGCGCTGCTGAAACTGATGCGTTGGGCAAGGAAGCGTGACCGTGAGACCATCATCGTCCTGTTCGGCGATCATCTGCCGCCGCTCGGCCAGACCTTCGTGGAAAGCGGCTACATGCCCGGCATGGTGGCAAGCCGCCGCGCGCCGCTTGAGGTGATGAAGAAGGAACATGAAACGCCGCTCGTCGTCTGGTCCTCGAAGAGAGGCGTGCGCAAGAATATCGGCACCATCAGCCCGGCGCTCCTGCCCTATCACGTGTTGAAGACCGCAGGCTTTTCCGATCCCTTCTACACCGGCACGCTGGGCGACGTGCAGCAGGCCTTTTCCGTCATCGACCGGCATATGCTGGTGGCAACCGACGGCAAGGCCCTGCCCGACTGGTCAATTGCCCCGAACGCCGTTCCCGACGTGGTGCGCGACTACCGCCTGCTGCAATTCGACATGATGTTCGGCCAGCAATATGGCCGCGAGCGCTTCTTCCCCGGTTTCAACTGGCTGCACGAAGGCGCGCCATCGGTCTGA	MRDSAPKTTASEKAGFVFSPAWTRSLSKLSGIAYPLANLTVASVVLVVALEWIARGSLNDVGAFLTSSARPGMTTIAAVLALLVALDALLGRRYLSLIALAPLCALTGLISAQKQTYLSDPLYPSDLLFGRQILELLPTMLKAQPMTAALVALGICATIAALAALWLLARRHSPGLSWRERAAGLAMALPLLAGLASLMDYSHYSWVRDRLNIIPMMWDQQENYRHNGFLMAFAFNIPMANVSAPQGYGENTIADLTSEPAAFAPNKGDYPDVIMLMSESLWDPKRLENVSLSADPMPTIRAKQSGNVFSPEFGGMTANVEFEALTGFSNAFLPYGSIPYQQYIRRPVPSLASFFRGEGYSAIAMHPFQEWFWNRKQVYKNFGFEEFRSEETLPTMEKRGNFASDDALMDEIMATAEKAQNPLFLFAVTLQGHGPYEATRYAENTIGVEGDLSASASQALATYSQGVAEADEALLKLMRWARKRDRETIIVLFGDHLPPLGQTFVESGYMPGMVASRRAPLEVMKKEHETPLVVWSSKRGVRKNIGTISPALLPYHVLKTAGFSDPFYTGTLGDVQQAFSVIDRHMLVATDGKALPDWSIAPNAVPDVVRDYRLLQFDMMFGQQYGRERFFPGFNWLHEGAPSV				NA	NA	NA	NA	NA
BMS010_09566	1680	nadE_3	COG0171	Glutamine-dependent NAD(+) synthetase	ATGAGCGACAGACACGATATAGAGAACCATCTCCGGATTGCCGTCGGGCAGTTCAATCCCACCGTTGGCGACGTGGCGGGCAATCTCGCCAAGGCGCGCGAGGCAAGGGCAGATGCGGCGACGCAGGGCGCCGATCTTCTGCTTCTGACCGAGCTGTTCATATCGGGCTATCCGCCGGAAGATCTGGTGCTGAAGCCGGCTTTCCTGAAAGCATGCCTGAAAGCCGTGGAAGAGCTGGCGGCGGAAACCGCCGATGGCGGTCCGGGCGTCGTTATCGGTTTTCCGCGACAGGGTGAGACGGGCCGGCACAATTCCGTGGCGCTTCTCGATGGCGGCAAGATCATCGCGCTGCGCGACAAGATCGACCTGCCGAATTACGGCGAATTCGACGAAAAACGCGTTTTCTCCGAAGGATCGATTTCCGGTCCCTATAATTTCCGTGGTGTGCGGATCGGTATTCCGATCTGCGAGGAAATCTGGAACGATATGGGTGTCTGCGAGACGCTGGCCGAAAGCGGGGCGGAAATCCTGCTGGTGCCGAACGGTTCGCCCTATTATCGCGGCAAGCTGGATGTGCGGCATCAGGTGGCGCTGCGGCAGGTTATCGAAAGCGGCCTGCCTCTCGTCTTCGCCAACCAGCTGGGTGGGCAGGATGAGCTGGTGTTCGACGGCGCGAGCTTCGGCTTTAATGCCGATAAGACGCTCGCTTTCCAGATGAGCCAGTTCGAAGCCACACTTGCCGTTACCGACTGGAAACGCACGGCAGACGGCTGGCATTGCGATAGCGGACCTTTCTCGAAGATTCCCGAAGGCGAGGAGGCGGACTATCGCGCCTGCATGCTGGGCTTCCGCGATTACGTCAACAAGAACGGCTTCAAGAGCGTGGTTCTCGGCCTTTCCGGCGGTATCGATTCGGCGATCTGTGCTGCCCTCGCTGTCGATGCGCTGGGTGAGGAGCGGGTGCGCTGCATCATGCTGCCTTACCGTTATACTTCGGAAGAATCGCTGAAGGATGCGGCCGATTGCGCCAAGGCGCTGGGCTGCCGTTACGACATCGTGCCGATCGTCGAGCCGGTGGAAGGATTCCTCTCGGCGCTTTCCGATCTCTTCGAGGGCACGGAAGAGGGCATTACCGAGGAAAACCTGCAGAGCCGCACGCGCGGCACGATTTTGATGGCCGTCTCGAACAAGTTCGGCTCCATGGTGGTGACGACGGGCAACAAGTCGGAAATGTCGGTGGGTTATGCCACGCTCTACGGCGACATGAATGGCGGTTTCAACCCCATCAAGGACCTCTACAAGATGCAGGTCTATGCCATTTCCAGCTGGCGCAACGCCCATGTGCCGCCGGGCGCGCTCGGCCCTTCGGGCGAGGTGATCCCCGCCAATATCATTTCCAAGGCCCCGTCTGCCGAATTGCGCCCCAACCAGACCGACCAGGATTCGCTGCCGCCCTATCCGGTGCTGGACGATATTCTGGAATGCCTCGTCGAAAAGGAAATGTCGGTCGAGGAAATTCTGGCGCGCGGCCATGATGTGGCGACGGTGCACCGGGTGGAGCATCTGCTCTATCTCGCCGAATATAAGCGCCGGCAATCGGCCCCGGGCGTGAAGATCACCAAGAAGAACTTTGGGCGTGACCGGCGTTATCCGATCACCAACCGGTTTCGGGATCGGTGA	MSDRHDIENHLRIAVGQFNPTVGDVAGNLAKAREARADAATQGADLLLLTELFISGYPPEDLVLKPAFLKACLKAVEELAAETADGGPGVVIGFPRQGETGRHNSVALLDGGKIIALRDKIDLPNYGEFDEKRVFSEGSISGPYNFRGVRIGIPICEEIWNDMGVCETLAESGAEILLVPNGSPYYRGKLDVRHQVALRQVIESGLPLVFANQLGGQDELVFDGASFGFNADKTLAFQMSQFEATLAVTDWKRTADGWHCDSGPFSKIPEGEEADYRACMLGFRDYVNKNGFKSVVLGLSGGIDSAICAALAVDALGEERVRCIMLPYRYTSEESLKDAADCAKALGCRYDIVPIVEPVEGFLSALSDLFEGTEEGITEENLQSRTRGTILMAVSNKFGSMVVTTGNKSEMSVGYATLYGDMNGGFNPIKDLYKMQVYAISSWRNAHVPPGALGPSGEVIPANIISKAPSAELRPNQTDQDSLPPYPVLDDILECLVEKEMSVEEILARGHDVATVHRVEHLLYLAEYKRRQSAPGVKITKKNFGRDRRYPITNRFRDR	PGPT0013445_137	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013445-nadE-K01916	NA	NA
BMS010_09567	378			hypothetical protein	ATGAATACCATCGCCGATCACGGCATCCGCTTCGGCCGGATCGCCGCAATGCTTCCTGTCAAAAATATCGAAAAAGCCCATGACTTTTATGTCGGTGTGCTGGGCTTCACAAAAACCTTCGAAAACGGCACTCCCGTCGGCTTCATGATCCTCAAACAGGGCAATGCCGAATTGCACTTGACATTGCAGCCCACACATAAGGCAGCGCCCTTCAACGTGGCGCATATGATTGTGAGCGATGTGGACGCGCTTCACGCACTTTGCAAGAGCCAGGGCTTGCGCATCATCAAGGGCCTGCAAGACAAGGATTACGGCCTGCGCGCCTTTGTGTTTGAGGACCCGGATGGCAACCGCATCGATGTGGGGCAGGTTATTTGA	MNTIADHGIRFGRIAAMLPVKNIEKAHDFYVGVLGFTKTFENGTPVGFMILKQGNAELHLTLQPTHKAAPFNVAHMIVSDVDALHALCKSQGLRIIKGLQDKDYGLRAFVFEDPDGNRIDVGQVI	PGPT0013300_5459	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BLEOMYCIN_RESISTANCE,PGPT0013300-gloA|ywbC-K01759	NA	NA
BMS010_09568	831		COG0823	putative protein	ATGCGCAGCTCCATCGAAATCTTCAACATCCGCACCCGGCAGATGCGTGTGGTGTGGCAGACGCCTGATCTTTTTGAAGCGCCGAACTGGTCGCCGGATGGAAATTATCTGCTGCTGAACAGCGAAGGGCTGCTTTACCGCCTGTCTCTTGCCGGTGATATCGCGCCGGAGAAGGTCGATACCGGCTTTGCCACGCTCTGCAACAATGATCACGGTATTTCGCCGGATGGATCGCTCTACGCCATTTCCGATAAGGTGGAATTTGGCAAGAGCGCCATCTATCTCATGGCCTCGACGGGCGGCGCGCCGCGGTTGATGACGAAAAATCTTCCCTCTTACTGGCATGGCTGGTCGCCGGATGGGAAAGGTTTTGCCTATTGCGGCATTCGCGATCAGGTCTTCGATATCTATTCGATGGATATAACAAGCGGCGTCGAGACGCGGCTGACCCATGGCGAGGGCCGCAATGACGGGCCGGATTATTCGCCTGACGGCGAGTGGATCTATTTCAATTCCAGCCGCACCGGGCGAATGCAGATCTGGCGCGTGCGGGTGGATGGCTCCGCCGTCGAGCGCATTACCGACAGTCCCTATGGCGACTGGTTTCCGCACCCGTCTCCCAAGGGAGACAAGGTGGTGTTCATTTCCTATGACGGCGACGTTTTCGACCATCCGCGCGATCTCGATGTGCGGGTGCGGCTGATGGACATGGATGGCTGCAATGCCGAGACGCTGTTCGAACTTTTCGGCGGGCAGGGCACGATGAACTCGCCCAACTGGTCACCGGATGGGGATGAGTTCGCTTATGTCAGGTATTTCCCGGTGGAATGA	MRSSIEIFNIRTRQMRVVWQTPDLFEAPNWSPDGNYLLLNSEGLLYRLSLAGDIAPEKVDTGFATLCNNDHGISPDGSLYAISDKVEFGKSAIYLMASTGGAPRLMTKNLPSYWHGWSPDGKGFAYCGIRDQVFDIYSMDITSGVETRLTHGEGRNDGPDYSPDGEWIYFNSSRTGRMQIWRVRVDGSAVERITDSPYGDWFPHPSPKGDKVVFISYDGDVFDHPRDLDVRVRLMDMDGCNAETLFELFGGQGTMNSPNWSPDGDEFAYVRYFPVE				NA	NA	NA	NA	NA
BMS010_09570	687	bluB_2	COG0778	5,6-dimethylbenzimidazole synthase	ATGCCAGCCAGTTCGTTCGATCATGCGCTCTCGCCCGCCCGCCCGTTTTCCTGTGAGGAACGCGAGGCCATTTACCGCGCCATCGAGACCCGTCGCGACGTGCGCGACCAGTTCCTGCCGGACCCGCTGCCGGACGATCTGGTGGAGCGTCTTTTGAAGGCGGCCCATTCCGCGCCTTCTGTCGGTTTCATGCAGCCGTGGAATTTCACACTCATCACCGATGGCGCGATCCGTCAGGCGGCCTTCGTGGCCTTCAGCCGCGCCAATGAGGAGGCGGCGGCGATGTTTACGGGCGAGCAACAGGCGCTTTATCGCAGTCTCAAACTTGAAGGCATCCGCAAGGCGCCGCTCAGCATCTGCGTTACCTGCGATCCGACGCGTGGCGGCAAGGTGGTGCTGGGCCGCACCCATAATCCGCGCACGGATGTCTATTCCACCGTCTGCGCCATTCAGAATCTCTGGCTCGCGGCGCGCGCCGAAGGCATCGGCGTCGGCTGGGTGAGCATTTTCCACGATAGCGACATTCGCACCATTCTCGATATTCCCGACCATATCGAAATCGTCGCCTGGCTTTGCCTCGGCCGTGTCGATGCGCTCTATAACGAGCCGGAACTGGCGGTGAAGGGCTGGCGACAGCGCGTGCCGCTGGAGGAACTGGTGTTTCGTAACCGCTGGGGCGGGGTTTAG	MPASSFDHALSPARPFSCEEREAIYRAIETRRDVRDQFLPDPLPDDLVERLLKAAHSAPSVGFMQPWNFTLITDGAIRQAAFVAFSRANEEAAAMFTGEQQALYRSLKLEGIRKAPLSICVTCDPTRGGKVVLGRTHNPRTDVYSTVCAIQNLWLAARAEGIGVGWVSIFHDSDIRTILDIPDHIEIVAWLCLGRVDALYNEPELAVKGWRQRVPLEELVFRNRWGGV	PGPT0006810_149	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0006810-bluB|drgA-K04719	NA	NA
BMS010_09571	1116			hypothetical protein	TTGACCCGCCGCAGCCGCATCATCGGCCTCCTGCTTCCCCTTGTTTTCATCGCCCCGGCCGCCGCCTTCGCGGATCAGGTCTGCGAGACGCTCTATGCGCAATTGCGCGAACCACCACGCGTCATCGGCAACACGGCAGAGGTGCGACGTTATGCCAATTCGCTCGCCCGCCAGAACATCGTCATCCGCAAGATCAGGAACGACCTGCGCGGCTATGGCTGCTCATCCGGCAGCGTCATCGTCTATGGCAATCCCAATGCCGGTATCTGCGCCGAGATCGGCGATGCGCTGGCGGAAGCGGAAAGCGAGCGCGACGCCATCATCCGAGACCGCGACGACGCCATGGCGGCCGCGCGTGACAACGACGGCGACATCAGGCGTCAGCGCATTCTCGCCGCCCTCGATGCCAATGGCTGCAACACCCTGCCGCAGACGGAAACACAATTGCCTCCGCCTCCGGACGTGACGCGTTATCCCGACGCTTTTCGGCAGAATGGCCCGCAGAACGGCGACGAGCCGGGACAGGCGGGGCTTTCGCCCTACCCCAACGCCGCCGCCGAGGGTGGGCTTCGCACACTATGCGTGCGCACCTGCGACGGCTCGTTTTTCCCCATCGCGTCCAATGCCTCGCCGCTCGATTTCCGCGCCCAGGCGGAGCAGTGCGAGAAAATGTGTCCGGGCACCGAGACGGAGCTTTATTTCCACTCCATGACAGATCAGGAAACCGCCGATATGGTGTCTGCGGAAACAGGCAAGCCCTACAGGGACCTGCCAACCGCCTTCGCCTACAGGAACGCCACGGCAAAAGCGCCGGGCTGCGCCTGCAACATCGCCGCCTATCACAAGGAAATGCAAAAGCAGGAAGAGGCCGCCCGGCCGCAGCCCGAAAAACCCTATTCCGGCATCACCACCATTCCATCACCGCAAGGTGACAAGGCTGAGAAACCCACCGAACAGCAACAGGCCGCCAAGCCGCCGGAACAGCCCGTTCCCGAACGCGACTATGACCCCAACGACAGCCGCGTCCGCGTCATAGGTCCGAAATTCCTGCCCGACCAGACGGGCCGGATCGACCTGAAGAACCCGGCGCTGAAGGGTATACAGCCGCAGCAGTGA	MTRRSRIIGLLLPLVFIAPAAAFADQVCETLYAQLREPPRVIGNTAEVRRYANSLARQNIVIRKIRNDLRGYGCSSGSVIVYGNPNAGICAEIGDALAEAESERDAIIRDRDDAMAAARDNDGDIRRQRILAALDANGCNTLPQTETQLPPPPDVTRYPDAFRQNGPQNGDEPGQAGLSPYPNAAAEGGLRTLCVRTCDGSFFPIASNASPLDFRAQAEQCEKMCPGTETELYFHSMTDQETADMVSAETGKPYRDLPTAFAYRNATAKAPGCACNIAAYHKEMQKQEEAARPQPEKPYSGITTIPSPQGDKAEKPTEQQQAAKPPEQPVPERDYDPNDSRVRVIGPKFLPDQTGRIDLKNPALKGIQPQQ				NA	NA	NA	NA	NA
BMS010_09572	2316	dme	COG0280	NAD-dependent malic enzyme	ATGACCTCTCACGATAAGAACAACACGCCCGCCAACACGGCAAAGGCCGACATCGAGGAACAGGCGCTCTTTTTCCACCGCTATCCGCGCCCCGGCAAGCTGGAAATCCAGGCCACCAAGCCGCTCGGCAACCAGCGCGATCTGGCGCTGGCCTATTCGCCGGGTGTTGCCGCCCCCTGCCTCGCCATCCATGAAAATCCAGAAACAGCGGCGGAATATACCGCCCGCGCCAACCTCGTCGCCGTCATCTCCAACGGCACGGCGGTGCTCGGCCTCGGCAATATCGGCCCGCTCGCTTCCAAGCCGGTGATGGAAGGCAAGGCCGTCCTCTTCAAGAAATTCGCCGGCATCGACGTTTTCGATATCGAAATCGATGCGCCCGGCATCAACGACATGGTCTCCACCATCGCAGCGCTGGAGCCCACCTTCGGCGGCATCAACCTTGAGGACATCAAGGCGCCGGAATGTTTCGAGGTGGAACGCCAGCTGCGCGAAAAGATGAACATCCCGGTCTTCCACGATGACCAGCACGGCACCGCGATCATCGTCGCCGCCGCCGTCACCAACGCACTGGAACTCGCCGGAAAATCGCTCTCGAGCGTCAAGATCGTCGCCTCGGGCGCCGGCGCGGCAGCCCTTGCCTGCCTCAACCTGCTCGTTTCGATGGGCGCGAAGAAAGAAAACATCTGGGTCCACGACATCGAAGGCCTCGTTTACGATGGCCGCAACACGCTGATGGACGAGTGGAAGGAAGTTTACGCCCAGAAGACCGACAAGCGCGTTCTCTCCGAAACCATCGACGGCGCGGATGTCTTCCTCGGCCTTTCCGCCGCCGGCGTGCTGAAGCCGGAACTCCTGGAGCGCATGGCGGAAAACCCGCTGATCCTCGCGCTTGCCAACCCCAATCCGGAAATCATGCCGGAGGCGGCGCGTGCGGCCCGTCCGGATGCGATGATCTGCACCGGTCGTTCGGATTTCCCGAACCAGGTGAACAACGTTCTCTGCTTCCCCTATATCTTCCGCGGCGCGCTGGATTGCGGCGCAACCACGATCAACGAGGAAATGAAGATGGCCGCCGTGCAGGCCATCGCCGAACTCGCGCGTGAGGAAGTTTCCGAAGTGGCCGCAAAGGCCTATAGCGGCGAAACACCGGTCTTCGGCCCGAACTACCTCATCCCCTCGCCCTTCGATCCGCGCCTCATCCTGCGCATTGCGCCAGCCGTTGCCCGCGCTGCGGCCGCAAGCGGCGTCGCCGCCCGGCCGATCACCGATTTCGAAGCCTATCTCGACCAGCTGAACCGTTTCGTCTGGCGTTCCGGCTTCATCATGAAACCGGTCTTCAATGCCGCGAAAGCCGCCGAAAAGAAGCGCATCATCTTTGCCGAAGGCGAAGACGAGCGCGTGCTGCGTGCCGCCCAGGTGCTTCTGGAAGAAGGCACCGGCATCCCGATCCTCATCGGCCGCCCGCAGATCATCGAAACGCGCCTGAAGCGCTTCGGCCTGCGCATCCGCCCGCATACGGATTTCGCCGTGGTCAACCCGGAAGACGATCCGCGCTACCGCGATTATGTCGATGACTATTTCGCCCTTGTCGGCCGCGTCGGCATCAACCCGGAAGCAGCCCGCACCATCGTGCGCACCAACACGACCGTCATCGGCGCGCTGTCGGTGAAGCGCGGCGAAGCGGATGCGCTGATCTGCGGCCTCGAAGGCCGTTACGACCGCCACCTGCGCGACGTCAACCAGATCATCGGCAAGCAGGAAGGCGTGCGTTCCTTCGCCGGCCTCAGCCTGCTCATCACCCAGCAGGGTGCGCTGTTCCTCACCGATACTTTCGTGAATTACGACCCGACCTCCGAGGAAGTGGCGGAAATGGCCATTCTCGCGGCCAAGGAAATCCGCCGCTTCGGCATCACGCCAAAGATCGCCCTCGCCAGCCATTCCAATTTCGGCTCGCGCGATTCCGAAAGCGCCCGCAAGATGCGCCGCGCCCTGAAGATCGTGCAGGAGGCCGCACCGGAACTGGAAGTGGATGGCGAAATGCAGGGCGGCTCGGCCCTTTCGGAAGCGCTGCGCAAGCGCGCCATGCCAAACAGCGTGCTGACGGGCGAAGCGAACCTTCTGGTTTTCCCGAACCTCGATGCCGCCAACATCACGCTCGGCGTCACCCGCACGCTGACGGAAGGCCTGCATGTCGGCCCCATCCTGCTCGGCACGGCCCTGCCCGCCCATATCCTGTCGCCCAGCGTCACCTCGCGCGGCGTGGTCAACATGGCGGCCTTTGCCGTGGTGCAGGCCTCGCACCCTTCGGTGTGA	MTSHDKNNTPANTAKADIEEQALFFHRYPRPGKLEIQATKPLGNQRDLALAYSPGVAAPCLAIHENPETAAEYTARANLVAVISNGTAVLGLGNIGPLASKPVMEGKAVLFKKFAGIDVFDIEIDAPGINDMVSTIAALEPTFGGINLEDIKAPECFEVERQLREKMNIPVFHDDQHGTAIIVAAAVTNALELAGKSLSSVKIVASGAGAAALACLNLLVSMGAKKENIWVHDIEGLVYDGRNTLMDEWKEVYAQKTDKRVLSETIDGADVFLGLSAAGVLKPELLERMAENPLILALANPNPEIMPEAARAARPDAMICTGRSDFPNQVNNVLCFPYIFRGALDCGATTINEEMKMAAVQAIAELAREEVSEVAAKAYSGETPVFGPNYLIPSPFDPRLILRIAPAVARAAAASGVAARPITDFEAYLDQLNRFVWRSGFIMKPVFNAAKAAEKKRIIFAEGEDERVLRAAQVLLEEGTGIPILIGRPQIIETRLKRFGLRIRPHTDFAVVNPEDDPRYRDYVDDYFALVGRVGINPEAARTIVRTNTTVIGALSVKRGEADALICGLEGRYDRHLRDVNQIIGKQEGVRSFAGLSLLITQQGALFLTDTFVNYDPTSEEVAEMAILAAKEIRRFGITPKIALASHSNFGSRDSESARKMRRALKIVQEAAPELEVDGEMQGGSALSEALRKRAMPNSVLTGEANLLVFPNLDAANITLGVTRTLTEGLHVGPILLGTALPAHILSPSVTSRGVVNMAAFAVVQASHPSV	PGPT0001685_363	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001685-maeB-K00029	NA	NA
BMS010_09573	840	lpxH_3		UDP-2,3-diacylglucosamine hydrolase	ATGAAATCCGTGGCCGGTCAAATCGAAACCAGACAGTTCAGAACGCTTTTCATTTCGGATGTTCATCTCGGCTCCAAGGCGGCCAAGACGGATTATCTGCTCGACTTCCTGAAATATCACGAGGCCGAAACGATCATTCTCGTCGGCGACATCGTCGACGGCTGGCGTCTGCGCCGCAGCTGGTACTGGCCGCAGGGCTGCAACGACGTGGTGCAGAAGCTCCTGCGCAAGGCCCGCAAGGGAACGCGCATCGTCTATATCCCCGGCAATCACGATGAATTCCTGCGGGAATTTCCGGGCATGCATTTCGGCGGCATCGAAGTTGCCGAGCGCATGATTCATGAGGCCGCCGACGGCAAGAAGTACCTGATCATCCATGGCGACGAGTTCGACGTGGTGGTGCGCAACGCCCGCCTGCTCGCCTATCTCGGCGACTGGGCCTATGACGCGGCAATTGCGCTCAACATCGCCATCGCCGCCGTGCGCCGCCGCATCGGCCTGCCTTACTGGTCGTTCTCGGCCTGGGCCAAGCTGCAGGTCAAACACGCGGTCAACTTCATCGGCGAATTCCAGCGCGTGGTGGCCGACGAGGCGCGACGCAACAATGTCGACGGCGTGATCTGTGGGCACATCCACCACGCTGTCATGGAAGACATGGACGGCATCCGCTACATCAACACCGGCGACTGGGTGGAAAGCTGCACGGCGATTGCCGAAAATGCCGATGGCAGCTTCGAGCTGATCACCTGGATGCAGACGAGCGACGTTACCGCCGAACACACATCGGACGAGATGGAGCCGGTGGATATTCCGGGGCTGATCGGGAAGCACGCGGCCTGA	MKSVAGQIETRQFRTLFISDVHLGSKAAKTDYLLDFLKYHEAETIILVGDIVDGWRLRRSWYWPQGCNDVVQKLLRKARKGTRIVYIPGNHDEFLREFPGMHFGGIEVAERMIHEAADGKKYLIIHGDEFDVVVRNARLLAYLGDWAYDAAIALNIAIAAVRRRIGLPYWSFSAWAKLQVKHAVNFIGEFQRVVADEARRNNVDGVICGHIHHAVMEDMDGIRYINTGDWVESCTAIAENADGSFELITWMQTSDVTAEHTSDEMEPVDIPGLIGKHAA				NA	NA	NA	NA	NA
BMS010_09574	984	ycjG	COG4948	L-Ala-D/L-Glu epimerase	ATGCCCCGTTACCTTCAAGCCACAACGGAACGTTTTCCCGTCGCCGGCAGCTTCACCATTTCACGCGGCACCCGCACCCACGCGGATGTCGTAACGTGCACCATCCGCGATGGTTCCTTTACCGGTATCGGCGAATGTGTGCCCTATCCGCGTTATGGCGAAAGTATTGAAGGCGTCATTGCCGATATCGAGGCGATGGCGGAGCAGATCGCCGGCGGTGTGACACGGCAGGAACTGCAACAGGCGATGCAACCCGGCGCCGCCCGCAATGCGGTGGATTGCGCGCTGTGGGACCTCGAAGCCAAGATCACCGGCAAAACCGTTGCCGAGCGCATCCTTGGACAGGCGGCAAAGCCGCTCGTCACCGCCTACACCATCTCGCTTGCCGACCCCGAGACCATGGCCGCGAAAACGGCGGAAAACGCAGGCCGCCCGCTGCTGAAGATCAAGACCGGCACGGCGGATGACGAAGCGCGTCTCAGGGCCGTGCGCGCCGCCGCACCCGAAGCGCGCATCATCATCGACGCCAATGAGGGCTGGAACGATTATAATATCGAATATTATCTGCGGCTTGCGGCAGAACTGAAGATATCGCTGATCGAGCAGCCGCTACCCGCCGGCAAGGATGATATCCTCGCCCGCATCGACCATCCGGCGCTGATCTGCGCCGACGAAAGCGTGCATTCCACGAAGGACCTCGCCGCCCTGCGCGACCGCTACGATGCGATCAACATCAAGCTCGACAAGACCGGCGGCCTGACCGAAGCGCTTGTCATGAAGGCGGAAGCGGAACGGCTCGGCTTCACCATCATGGTCGGCTGCATGCTCGGCACCTCGCTCGGCATGGCGCCCGCCGTGCTGGCGGCGCAGGGCGCGGCCTTCGCCGATCTCGACGGACCGCTGCTGCTGGCGCAGGATCGTGAGCCGGGGCTGGTTTATGAGGGTTCGCTGGTTTATCCGGCACGGCCGGAATTGTGGGGGTAG	MPRYLQATTERFPVAGSFTISRGTRTHADVVTCTIRDGSFTGIGECVPYPRYGESIEGVIADIEAMAEQIAGGVTRQELQQAMQPGAARNAVDCALWDLEAKITGKTVAERILGQAAKPLVTAYTISLADPETMAAKTAENAGRPLLKIKTGTADDEARLRAVRAAAPEARIIIDANEGWNDYNIEYYLRLAAELKISLIEQPLPAGKDDILARIDHPALICADESVHSTKDLAALRDRYDAINIKLDKTGGLTEALVMKAEAERLGFTIMVGCMLGTSLGMAPAVLAAQGAAFADLDGPLLLAQDREPGLVYEGSLVYPARPELWG	PGPT0020045_1766	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ALANINE_DEGRADATION,PGPT0020045-ycjG-K19802	NA	NA
BMS010_09575	1161			hypothetical protein	ATGCAAGAACAGGACACACGGCAACAGGCGAACCCGGCCGCAATCACCGAAGACGATAGCGTCTCCGGCGGCGGCTTGCGTTTTGTCATGAGCGGTTCCTGGCGCAACAGCAATCTCGCCGGTGTTTTCCCCAGTCTTGAAAAGATCGAAAAGGGCAAATCCGCCGGCCCGGTGGAAATCGATCTTTCTTCCGTCGAGGCCATCGATACGACGGGCGCATGGATCATCCAGCGCCTGCGCAAGGACCTCGAGGCAAATGGCGCCACCGTCACCGTGACGGGCAATGACCGTATCGAAGAGGTCATCGGCCAGTTGCCCGAAAAGGTGGAGATGGAGGGCGAGGCGCCCAAGAAGGTGGGGCTCGCCGAGCGTATTTTTGCGCCCATCGGCAAGGCCGTCATTCAGAACGGTGCGGATTTCCTGGCGGGCATGTATATTCTCGGCTCGGCTGTGCGCGGCGCGCAGATGAAGCTCGGGCGTGGGCGCGGCGTCTCGCCGGCGGCGATCGTCAACCAGATCGACCATATGGGCGTGCGCGCCGTGCCGATCATCATGCTGATGTCGTTCCTGATTGGTGCGATCATCGCCCAGCAGGGTGCGTTTCAGCTGCGTTATTTCGGTGCGGAAGTCTTCGTTGTCGATCTGGTCGGCATTCTGCAATTGCGTGAAATCGGTGTGCTTCTGACCGCGATCATGATCGCCGGCCGCTCCGGCAGTGCCATCACCGCCGAAATCGGCTCCATGAAGATGCGTGAGGAAATCGACGCGCTGAAGGTGATCGGCCTCAACCCCGTAGGCGTGCTGGTGTTTCCGCGGCTGGTGGCGCTCACCATCGCGCTGCCGCTTTTGACCATTCTCGCCAATTTCGCAGCGCTTTTCGGTGCGGCCATCGTGGCCTTTGCCTATTCCGGCATAACCTTCGAGGTGTTCCTGTCGCGCCTGCATGGTGCCGTGGAGGAATCGACCATTGCCGCTGGCATGATCAAGGCGCCGTTCATGGCGCTCATCATTGGCATCGTCGCGGCCGTTGAAGGCATGAAGGTGGGCGGTTCGGCCGAATCGCTCGGCCAGCACGTCACCTCCTCGGTGGTGAAGTCGATCTTCGTCGTCATTCTGGTGGATGGTCTTTTCGCCATCTTCTACGCAGCCATCGATTTTTAG	MQEQDTRQQANPAAITEDDSVSGGGLRFVMSGSWRNSNLAGVFPSLEKIEKGKSAGPVEIDLSSVEAIDTTGAWIIQRLRKDLEANGATVTVTGNDRIEEVIGQLPEKVEMEGEAPKKVGLAERIFAPIGKAVIQNGADFLAGMYILGSAVRGAQMKLGRGRGVSPAAIVNQIDHMGVRAVPIIMLMSFLIGAIIAQQGAFQLRYFGAEVFVVDLVGILQLREIGVLLTAIMIAGRSGSAITAEIGSMKMREEIDALKVIGLNPVGVLVFPRLVALTIALPLLTILANFAALFGAAIVAFAYSGITFEVFLSRLHGAVEESTIAAGMIKAPFMALIIGIVAAVEGMKVGGSAESLGQHVTSSVVKSIFVVILVDGLFAIFYAAIDF	PGPT0007010_187	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_PHOSPHOLIPID|CHOLESTEROL_TRANSPORT,PGPT0007010-mlaE|linK-K02066	NA	NA
BMS010_09576	837	mkl_2	COG1127	putative ribonucleotide transport ATP-binding protein mkl	TTGGAGAAACTGGACCAGAAACCGCATGAGACAAGAACCGGGAAAGACGGACGCGAGGTGGTGCTTTCCGTCGAGGGCGTGACTGTCGGTTTTAACGGCCGCAACGTGCTCGAAAATCTCGACCTCGATGTCTATCGCGGTGAAATTCTGGGCTTCATCGGCCCCTCCGGCGCTGGCAAATCCGTGTTGATGCGCGCGATCTTGCGGCTGCTGCCACGGCAGGCGGGTGCTATCCGCATTCTCGGCACCGATTACGACAAGGCGAGCGAAGACGACCGCATGATGCTCGACCAGCGGCTTGGCGTGCTGTTCCAGCAGGGCGCGCTGTTTTCCGGCCTGACGGTGAAGGAAAACATCCAGCTGCCGATGCGCGAATATCTCGACCTGCCGAAGAAGCTGATGGACGAGCTTGCCTATCTGAAGATCGAGATGGTGGGACTGAAGCCCGATGCGGGCGACAAGTACCCATCCGAGCTTTCCGGCGGCATGATCAAGCGCGCGGCCCTTGCCCGGGCGCTGTCGCTAGATCCCGACCTCGTCTTCCTCGATGAGCCGACGTCCGGCCTCGATCCCATCGGGGCGGCGGAATTTGATATGCTGATTGCGCGCTTGCGCGATTCGCTCGGCCTGACCGTTTATATGGTGACGCACGACCTCGACAGCCTGTTCTCCGTCTGTGACCGCATTGCGGTACTGGGACAGAAGAAGGTGCTGGTGGAAGGGACATTGCAGGACATGTTCGCCTGCGACGATCCGTGGGTGCAGTCCTATTTCCGCGGCAAACGGGCCCGCTCTGTCGTTCTTCCGGACGGCAAACACGAAAATCCGGTGGAGTAA	MEKLDQKPHETRTGKDGREVVLSVEGVTVGFNGRNVLENLDLDVYRGEILGFIGPSGAGKSVLMRAILRLLPRQAGAIRILGTDYDKASEDDRMMLDQRLGVLFQQGALFSGLTVKENIQLPMREYLDLPKKLMDELAYLKIEMVGLKPDAGDKYPSELSGGMIKRAALARALSLDPDLVFLDEPTSGLDPIGAAEFDMLIARLRDSLGLTVYMVTHDLDSLFSVCDRIAVLGQKKVLVEGTLQDMFACDDPWVQSYFRGKRARSVVLPDGKHENPVE	PGPT0007015_812	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_PHOSPHOLIPID|CHOLESTEROL_TRANSPORT,PGPT0007015-mlaF|linL|mkl-K02065	NA	NA
BMS010_09577	1371			hypothetical protein	ATGGAAACCAAGGCGAACTACACCATAGTCGGAATTTTCACGCTGATCGTGATCGCCGCCGCATTCGGCTTCGTTTACTGGATGGCGGAATTCGGTCGTGGCGGCCCGACGGCGCAGCTTGTCGTGCGCATTCCCGGCTCCGCAAACGGTCTTTCCGTCGGTTCACCGGTGCGGTTCAACGGTATTCCGGTCGGAACCGTGCGCGGGCTTGCGATCGACCGCGACGACCCGGCCTATTCCATCGCCTTTACCGAAGTGCAGGCCGATGCCCCGGTTTTCCCGTCGACACGCGCCGTGCTTGAAATTCAGGGCCTGACGGGTGCTGCCTATATCGAGCTTTCCGGCGGTAATAAGGATGGCGAGCGCATTCTGCAGAAAGCTGTCGAAAGCGGCGTTCCGGCCGAGCTGACGGCCGATCTTTCGAGCGTTACCAACCTGCTCGCCACGGCCGACAAGATCCTGAAACGCGCCGATGGCGCCATCGGCGAATTGCAGGGTTTCGTGCAGGATGCGCGTGGCCCGCTGACGCAGACAGTGCGCAATGCCGAGAAATTCTCCGATGCGCTGGCGGCCAATTCCGATGGCATCAAGAATTTCATCGCCAGCCTCAGCTCGCTTTCCACAACGGTACAATCGGTTTCGGTGCGTCTCGACGGCACGCTGACGGCCATCGAGGATCTGGTGAAGGCGGTGGATGCCGGCAAGATCGATTCCATCCTGTCGAATGTCGACAAGGTGACGAAGGATGTCGCTTCCGCTTCCAGCGATATTCAGGGCATCATGGAGACGGTACAGAGCACGGCGAAAAACTTCGAGGCGGCGAGCACGGAAGTGCAGACCGTGGTGAAGCGCGCGGATGAGCTTCTCGCCTCCGTTGATCCCGCCAAGGTGGGCACCGTGGTTGATGACGTTTCCTCTGCGACCGCCGATGCGCGCGATGCCGTGGCGAACTTCAAACGCATCGCCGACGATGTCGGCGCCCGCCGTGCCGATATCGACCAGGCGGTTTCCGACTTTACCGAAATGGGCCGCAAGCTGAACCTCGCCTCCAGCCGCGTCGACGGCATTCTCGCCAAGGTGGACGGCATGCTCGGCACCGATGACGCCAATTCGCTGTTTGCCAAGGCGCGCGAAACGCTCACCTCCTTCAAGGCGGTTGCTGACAATCTCAATGCCCGTATCGGGCCGATTGCCGACAATCTGACGCGTTTCTCCAGTTCGGGCCTGAAGGATTTCCAGGCGCTGATCGGCAGCACGCGGGTTACGGTCGACAATCTCAACAATGCCATCACCAATATCGACCGCGATCCGCAGCGGTTGATTTTCGGCGGCGAAACCGTGAAACAATATGATGGCAGAACAAGGCGCTAA	METKANYTIVGIFTLIVIAAAFGFVYWMAEFGRGGPTAQLVVRIPGSANGLSVGSPVRFNGIPVGTVRGLAIDRDDPAYSIAFTEVQADAPVFPSTRAVLEIQGLTGAAYIELSGGNKDGERILQKAVESGVPAELTADLSSVTNLLATADKILKRADGAIGELQGFVQDARGPLTQTVRNAEKFSDALAANSDGIKNFIASLSSLSTTVQSVSVRLDGTLTAIEDLVKAVDAGKIDSILSNVDKVTKDVASASSDIQGIMETVQSTAKNFEAASTEVQTVVKRADELLASVDPAKVGTVVDDVSSATADARDAVANFKRIADDVGARRADIDQAVSDFTEMGRKLNLASSRVDGILAKVDGMLGTDDANSLFAKARETLTSFKAVADNLNARIGPIADNLTRFSSSGLKDFQALIGSTRVTVDNLNNAITNIDRDPQRLIFGGETVKQYDGRTRR	PGPT0007005_1276	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_PHOSPHOLIPID|CHOLESTEROL_TRANSPORT,PGPT0007005-mlaD|linM-K02067	NA	NA
BMS010_09578	606			hypothetical protein	ATGACACGATCGATGAACGGCCGTCAGCGACGCGCCCTCATTCTGGCTCCGCTGCTTGCCGCCTTGATGGCCGGCTGCGCGGGTGCGCCGAAGAACGATACTTTCGATCTTTCCGTCTCTTCGGCGGCGGTTACCCAGGGGCCTTCGCTGAAAAGCCGGCAATTGCTGATTGCCGATCCGACCGCCCTGAAGGCGCTCGACAGCGAAAACATCGTGGTGCGCCTTTCCGGCTCGGAGGTGCAATATCTCGGCAACTCGCAATGGAGCGACCGCCTGCCGCGCATGGTGCAATCCAAGCTGGTGGAAGCCTTCGAGGACACCGGCAAGCTCGGCGGCGTCGGCCGGCCGGGGCAGGGGCTGGCAATCGACTATCAGGTCGTGACCGATATTCGCGCCTTCGAAATCGATACCGCGAGGAACATCGCCAATATCGAGATATCGGTGAAGCTGCTGAACGACCGCAACGGCACGGTGAAGGCGCAGGAAGTGTTCCGCGCCAGCGCCCGTGTCAGCGGTTCCGGCAACGCCAATTTCGTAAAAGCGCTGGATCAGGCCTTTGCCGCCGCCACGCGCGACATCGTAGCCTGGACGCTGAAATCGCTTTAA	MTRSMNGRQRRALILAPLLAALMAGCAGAPKNDTFDLSVSSAAVTQGPSLKSRQLLIADPTALKALDSENIVVRLSGSEVQYLGNSQWSDRLPRMVQSKLVEAFEDTGKLGGVGRPGQGLAIDYQVVTDIRAFEIDTARNIANIEISVKLLNDRNGTVKAQEVFRASARVSGSGNANFVKALDQAFAAATRDIVAWTLKSL	PGPT0007020_831	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_PHOSPHOLIPID|CHOLESTEROL_TRANSPORT,PGPT0007020-linN-K18480	NA	NA
BMS010_09579	966			hypothetical protein	ATGCGATTTCTGCTGCTGCTTTGCCTTATGTTTTCCGCCCTGTCTGGAACGGGCGCCGCCATGGCGGCCGGTCTTCGGCTGATCGACGTTCCAGCCGCGAACGGCAAAGCTGCCATGAAGGCTGCGGTATGGTCGCCCTGCGCGGCCGCGCCGGAAGAGGTCAGGATCGGTCCCTTCCTTTTGCCCGCCGTGCGTGATTGCCCTGTTCCTGAAGGGAAGTATCCGCTCGTCGTCATTTCCCATGGCTTTGGCGGCACCTATTTCAGCCATCGGGACACGGCGGCGGCGCTGGCGGATGCCGGCTTCATTGTTGCGGCTATCAATCACCCCGGAGACAATGCGCTTGAAATGAAGAAGGCCGGAGAGCTTTCCGCGCTGACGGGCCGTCCGGCGGATATTGCCCGGTTGCTGGATCATCTGCTTGAAGGTTTTAGTGACGCCGGTTCCATCGATGCCGGGCGGATCGGCGTCTTCGGATTTTCGCGCGGCGGTTATACCGCGCTGGTGCTTGCCGGCGGTACGCCTGATTTTGCCAATGCCGGGCTGCCCTGTCCCGACCCTCAGGCGCCGATTTGCACGCAGATGCGGCAGAAGACGACATTGCCGCAGCATGGCGGTCAGGATGCGCGTGTGAAGGCTGTGGTTGCCGCCGACCCGTTGAATGCCTTTCCCGGCGCGGGCGACCTGAAGAATATCACGATCCCCGTCCAACTCTGGAGTTCGGAACGCGGCGGCGATGGTGTCGCGCCCCAGGATGTTGCAAGGCTGCGCGACGATCTGTCGGTGAAACCGGACTATCGGATGGTAAAAGGGGCGGGGCACTTTTCCTTTATCGCCCCTTGCCCCGCCGAGATGGAAAAGGCCGTGCCCCAGATTTGCAGCGATGCGGCGGGTTTCGACCGGGCTGGGTTTCACCGCAGCTTCAACGCCGAGGTGGTCAGCTTCTTCAAGGCGTCGCTGCTCTGA	MRFLLLLCLMFSALSGTGAAMAAGLRLIDVPAANGKAAMKAAVWSPCAAAPEEVRIGPFLLPAVRDCPVPEGKYPLVVISHGFGGTYFSHRDTAAALADAGFIVAAINHPGDNALEMKKAGELSALTGRPADIARLLDHLLEGFSDAGSIDAGRIGVFGFSRGGYTALVLAGGTPDFANAGLPCPDPQAPICTQMRQKTTLPQHGGQDARVKAVVAADPLNAFPGAGDLKNITIPVQLWSSERGGDGVAPQDVARLRDDLSVKPDYRMVKGAGHFSFIAPCPAEMEKAVPQICSDAAGFDRAGFHRSFNAEVVSFFKASLL				NA	NA	NA	NA	NA
BMS010_09580	438			hypothetical protein	ATGCGTTCCCTGCAAGATCGTATCCGCCACGCCCTCAGTTTCGAAATCATCGGCCTTCTTCTCGTCATTCCCTTGGGCGCGCTGCTTTTTGGCATGCCTATGGAAGATATCGGCATTGTCGGCCTCGTCAGCGCCACGTTGGCGACGGTTTGGAACTATGTCTACAATCTCGGTTTCGACCACGCCATGCAGCGGCTGAAAGGCACGACGCTGAAGACGCCCGCCCTCCGGGTCGCCCATGCCGTGCTGTTCGAACTGGGCCTCCTGATCGTGCTGATGCCCTTCATCGCCTGGTATCTGAATATCAGCCTTGCCCACGCGCTGGTGATGGATATCTCGTTTGCACTGTTTTACGTGGTCTATGCTTTTGTCTTCAACTGGAGCTACGACCGGGTTTTCCCGCTGCCGGAATGGAAGTCAAAGCAGGACGCCGCCTGA	MRSLQDRIRHALSFEIIGLLLVIPLGALLFGMPMEDIGIVGLVSATLATVWNYVYNLGFDHAMQRLKGTTLKTPALRVAHAVLFELGLLIVLMPFIAWYLNISLAHALVMDISFALFYVVYAFVFNWSYDRVFPLPEWKSKQDAA				NA	NA	NA	NA	NA
BMS010_09582	159			hypothetical protein	ATGCAGCAGAATTCCTCTGAGGGGAGAACGATAAAGGCCGCCAACACGGCGAAGGTTTCGACTTACACGCCGAGCCTCATTTCTCTTAAGGGAAGTTATGTGGCGATGATATTTCGCAGACCGCTTTGCCGAAATCCGCTGGATGTGCGGAAGAAATAA	MQQNSSEGRTIKAANTAKVSTYTPSLISLKGSYVAMIFRRPLCRNPLDVRKK				NA	NA	NA	NA	NA
BMS010_09583	249			hypothetical protein	ATGAAATCAGTTCTCATTATCGCCGCTGTCTTTGGTTTTTCCGCCAGTGCAGCGCTTGCGGAATGCGCAGGTCATCAACAGATCAACGCTTCCGTTCCTGCCGTAGACCGTGAATTCAAAACCGCAAGCATCGTTCCGCCGACAGATCCGGTGGAAAAGCCAGTCGTCATCCTGAAAAAGACCGACCGCCTTCCGGCAGCGGTTGCGACGACCGGTGAACCAGAAGCCGCAATGCAACGCATGCAATAA	MKSVLIIAAVFGFSASAALAECAGHQQINASVPAVDREFKTASIVPPTDPVEKPVVILKKTDRLPAAVATTGEPEAAMQRMQ				NA	NA	NA	NA	NA
BMS010_09584	189			hypothetical protein	ATGAACACAGCAGACGCAGCCATAGAAAATGCCCTTTCCGTTGTCGCCCGCTCCCGCGATATGCGCGAACGCGCGCTCGAGCGGCGGCGCGAGCTGCAGCGGCGAACGGAAGTCATCATCACCCGGCCGCTTTACATGCTCAAAAAGAACGAAGGGCCAAAACAGCTATCGCTGAAACTCGATAGCTAG	MNTADAAIENALSVVARSRDMRERALERRRELQRRTEVIITRPLYMLKKNEGPKQLSLKLDS				NA	NA	NA	NA	NA
BMS010_09585	231			hypothetical protein	ATGCGGGCCGCAATCAATTCCCCGTCGCTTTCGATCGACACCATGGACTATCAGGCCGAGTGCCAGTTCGCACTTGAACCTTCCATTCACGGGCTGATCGAAAAAGCCGAACATGCCGGCTGGAACCGCCAGCAGGCCGCCCTTGCCATCGTCGCGCTCGCCAGCGAGCATCTCACCGATCTATTGTCCGCCGGCGGCGTTCCCGCGCCGGATCAACGCCCCCTCTCCTGA	MRAAINSPSLSIDTMDYQAECQFALEPSIHGLIEKAEHAGWNRQQAALAIVALASEHLTDLLSAGGVPAPDQRPLS				NA	NA	NA	NA	NA
BMS010_09587	255			hypothetical protein	ATGGAATCTGCTGGCATTGGCTGGATCGCAGCCATCATCATCGGTGGTGTCGCCGGGTGGCTCGCCGAACAATTCATGAAAAGCAATATGGGTGTTTTCATGAACATCCTTCTTGGAATCGTCGGCGCGATCGTCGCCAACGCCATCCTTTCGGTATTTGGAATCGTTCTGCAAGGTTGGCTCGGTTATCTCATCGCCGGTTTCATCGGCGCCTGCATCCTCATCCTTATCGGCCGGGCTTTCAGGCGCGGATGA	MESAGIGWIAAIIIGGVAGWLAEQFMKSNMGVFMNILLGIVGAIVANAILSVFGIVLQGWLGYLIAGFIGACILILIGRAFRRG				NA	NA	NA	NA	NA
BMS010_09588	2613			hypothetical protein	ATGGATGTGCGGTTGATGTTCGGCGGATTGATGTACGGCAGAAGGATGTTCGACGGCCTGGTGCGGGATCGACGGCAAAGGGGCGCCATGGCGGTGATAATGGCCATGGTGCTTTTTCTGGCCGGCGGTCTTTTGTCGGCAATGCCGGCGGCGGCGCAGGGGGAAACAACATCGCCCGCCCCGGTGGCTATCCAGGCCTCGACCGTCGAACAGGCGAGGGCGGAGCTGGAGAAATGGAAGGCCGATGTAGCGGCGATCGCCAAACAGGTGGAAGCGGGCGGCAGCGACGATGCGCAGCTTGTGGACCTGAAGGGCCGCGCCGACACCATTGCCGCCGATGCCGCCGCCGCCAACACCAAGCTGCGCACCCGTCTCGACCAGATCAAGACCCGGCTGGATGCGCTGGGTGCGGCGCCCGCGGACGACCAGCCGCCGGAAGCCAGCATGGTGACGGAGGAGCGAAACCGGCTGACGGCGGAACGGGCCGAGGTGAATGCGATTGCCGGCGAGGTGGAGAGCACGGCCACCAATGCCGCGCAGATTTCCAATAACATCACCGCCGTTCGCCGGGCGCTTTTTGCCGCCACCCTGTTCAAGCGCACGGAGGTTTCGGCGCAGACGCTGGGCGATGCCTCCTCCGCCTTTCTGACCGAATTGACCAACCTCAACAACGCTTTCAGCAGCTGGGCGAGCTTCGTCTGGAATTACAAGCGCCTGCCGATGTTCGGGGCGGTGACGCTGTCGATCATGGCCGCCCTGCTGTTTCTCGTGGGCGGTTACCGCTTTTTCGGCAGCCGCATGGACCGGCGGGCCTTTACGGGCGAGCCTTCCTATCTGAGACGGCTTTCGGTGGCCTTCTGGTCCACCATGGTGCAGTCGCTGTCGCTCTTCCTGTTTCTCGTCACCTCCGCCTTCTTCCTCGATAATTTCAACGTGCTGCGGTCAGACATTGCGCCGATCCTTTTCGGGGCGATGGCGGTCACCGGTTTCGTTTATTTCGTTTCGCGGCTGAGCTATGCGATCTTTGCGCCGACGCAGCCGGAATGGCGTCTTCTGAAGGTGTCCAACAAGGGCGCGCACACGCTGTCTTCGGCGGTGCTGCTGATGGCGCTCGTCAATGGGCTCGATTACCTGTTCGGCACGATCAGCGAGACGCTTTATTCGCCGCTGATCGTCACGGTTGCCAAGAGTTTCCTCGCCTCGATCATCATCGGCCTTATCCTGTTGACCGTATCGTTCCTACGGCCGGTGATCGGCGAGGGGCAGGATTACGAGACCGGCAACCAGCGCCTCCCGCGCTGGCTGGTCATCCTGCTGCGGGTGGGCGGCCTCATTCTCATCGGCGCCTGCCTGACGGGTTATGTCGGGCTTGCACGCTTCCTCGCCACGCAGATCGTCGCCACCGGCGCGGTGCTGGCGACGATGTATATCGGCATTCTCTCCGGCAAGGCGATTTCGCGACAGGGCGCCTTTGCAGAATCGCTTGCCGGCCGTTATCTCGCGCGGCGTTTCGGTCTCGGCGTGGTGGCGCTCGATCAGGCCGGCCTTGCCGCGGGGCTTGGCATTTATGCCGTCGCGCTTGCCTTCGGCGTGCCGCTCATCCTGTTTTCCTGGGGCTTCCAGCCGGGCGATATCGAAAGCTGGGCCTATCGCCTGTTGACCGGGATAACCGTCGGCAATGCCTCCATTTCGCTGATCGGCCTCTTCGGCGGCGTCCTCGTCTTCGCCATCGGTTACATTGTCACCCGCTGGTTCCAGAAGTGGCTGGACAATAACGTCATGGCGCGCGGCCAGGTGGATGCCGGGGTGCGCAACTCGGTCAAGACCGGTATCGGTTATCTCGGTATCGCGGTGGCAGCCATCTTCGGTGTGTCTTCGGCCGGTCTCAACCTCTCCAGCCTGGCGCTGGTGGCGTCGGCCCTTTCGGTCGGTATCGGTTTCGGCCTGCAGAACATCGTCTCCAACTTCGTCTCCGGCCTCATCCTGCTGGTGGAGCGCCCCTTCAAGGTGGGCGACTGGGTGGTGACGGGCACGACGGAAGGCACCGTCAAGCGGCTTTCCGTGCGCGCCACCGAAATCGAAACCTTCCGCGGCCAGTCGATCATCGTGCCGAATTCGGAGTTCATCAATTCCTCGGTCGGCAACTGGACACACCGCAACCGCATCATGCGCGCGGAAATTCCCGTTTCCGTCTCTTACGATTCCGATCCGCAGAAGGTTATGGATATTCTGCTGGAACTGGTGCGCGCCCAGCCGCCGGTGCTGCGCAATCCCGAGCCGCATGTGGAGTTCCTGCGCTTCGGCGATTTTTCGCTGGATTTCGAACTGCGTTTCCACCTTGCCGATCTCTCCAACGGGCTTGGCGTGAAAAACGCGCTCCGTATCGCAATCCTCCAGCGCTTCCGGGAGGAGGGGATCGACATCCCGTTCCCGCAGCGCAACCTCAACATCCACGTGGAAGGCGACGCCAACCCGCAGATGCTGGCGGCGCTGCTTTCGGAGGAGGGCGACAAGGCGGTGGTGGCCCATACGGGTGCGGCAACGGCAGAGAAAGAGGCCTCGAAGAGCGAGAAGCCGACTGAGCCGAAGGAGAAACCCGGCGCGAAAGCGTAG	MDVRLMFGGLMYGRRMFDGLVRDRRQRGAMAVIMAMVLFLAGGLLSAMPAAAQGETTSPAPVAIQASTVEQARAELEKWKADVAAIAKQVEAGGSDDAQLVDLKGRADTIAADAAAANTKLRTRLDQIKTRLDALGAAPADDQPPEASMVTEERNRLTAERAEVNAIAGEVESTATNAAQISNNITAVRRALFAATLFKRTEVSAQTLGDASSAFLTELTNLNNAFSSWASFVWNYKRLPMFGAVTLSIMAALLFLVGGYRFFGSRMDRRAFTGEPSYLRRLSVAFWSTMVQSLSLFLFLVTSAFFLDNFNVLRSDIAPILFGAMAVTGFVYFVSRLSYAIFAPTQPEWRLLKVSNKGAHTLSSAVLLMALVNGLDYLFGTISETLYSPLIVTVAKSFLASIIIGLILLTVSFLRPVIGEGQDYETGNQRLPRWLVILLRVGGLILIGACLTGYVGLARFLATQIVATGAVLATMYIGILSGKAISRQGAFAESLAGRYLARRFGLGVVALDQAGLAAGLGIYAVALAFGVPLILFSWGFQPGDIESWAYRLLTGITVGNASISLIGLFGGVLVFAIGYIVTRWFQKWLDNNVMARGQVDAGVRNSVKTGIGYLGIAVAAIFGVSSAGLNLSSLALVASALSVGIGFGLQNIVSNFVSGLILLVERPFKVGDWVVTGTTEGTVKRLSVRATEIETFRGQSIIVPNSEFINSSVGNWTHRNRIMRAEIPVSVSYDSDPQKVMDILLELVRAQPPVLRNPEPHVEFLRFGDFSLDFELRFHLADLSNGLGVKNALRIAILQRFREEGIDIPFPQRNLNIHVEGDANPQMLAALLSEEGDKAVVAHTGAATAEKEASKSEKPTEPKEKPGAKA	PGPT0013825_681	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013825-mscK|kefA|aefA-K05802	NA	NA
BMS010_09589	2514	abo		4-methylaminobutanoate oxidase (formaldehyde-forming)	ATGAAGACACATGCACGGGCGGTGGTGATCGGTGGCGGCGTCGTTGGCGTTTCGACGCTTTATCATCTTGCCAAGAAGGGCTGGAGCGACAGCGTGCTCATCGAGCGCAAGGAGCTGACTTCGGGTTCCACCTGGCATGCGGCCGGGCTTCTGCCGCTGTTCAACATGAGCTATTCGGTTGGCCAGATTCACAAATATTCCGTGAAGTTCTATGAGGAGCTTCAGGAAGAGACCGGCATGAATGTCGGCTTCTCCAAGGTCTCGAATATCCGTCTCGCCCGCACGAAGGATCGCTGGGACGAATATATGTATTATGCCGGCATCGCCGAGACCATCGGCGTGCGCGTCAACATGCTGACGCCGGAGCAGGTGAAGGAAATCTGGCCGCTCTGCGAGACGGACGGCCTGCTCGGCGCCATCCAGCATCCCGATGACGGTTATATTCAGCCTGCCGATCTGACGCAGGCGCTCGCCAAGGGCGCGCGTGACCGCGGGGCGACCATCTATCGCAACACCACCGTCACCGCCATCGAGCAGCTGGAAGACGGTCACTGGAAGGTGACAACCGACAAGGGCGAGATTATCGCCGAGCATATCATCTCCTGCACGGGCTCCTTTGCCCGCAAGACCGGCGAAATGGTCGGCATCAACATTCCGGTTATTCCGGTCGAGCATCAATATATCGTCACCGAGCCGCACCCGGCCATTCAGGAGCGCCGCCGCCAGGGCCTGCCGGAAATGGGCGTGCTGCGCGAATCCGACTCCGCCTGGTACATGCGCGAGGAAGCGGGCGGCCTGATCCTCGGTCCTTATGAAGTCGGTGCGCCGGTCTGTTATGTCGACGGTCCCTCCGATGACAGCGAATATGAGCTGTTCCAGGAAGAACTCGACCGCCTGATGCCACATATCGAAACCGCCATGGTGCGCGTTCCGGCCTTCGGCGAAGTGGGCATCAAGAAGGTCTATAACGGCGCGATCGCCTATACGCCTGACGGCAACCCGATTGTCGGCCCGGCACCGGGCCTGAAGAATTTCTGGCTGAACGAAGGCCATTCCTTCGGCATCACCGCTGCTGGTGGCGCTGGCTGGCAGCTGGCGGAATGGATCGTTGATGGCGAGCCGACGCTCGACCTGATGGGTGTCGATCCGCGCCGCTTCGGCCCTTACGCAACGGAAGGTTACCTCATCGCCAAGAACGAGGAAGCCTATGCCAATGTCTTCACCATGCATTACCCGGACGAAGAGCGCTCCGCCGCCCGCCCGCTGAAGACGACACCGGTCTATGACCGCCTAAAGAAGCTCGGCGGCGTGTTCGGCTCCGTCTATGGCTGGGAGCGCGCCAACTGGTATGCACCGGAAGGTTATGCGCTGCGCGAGGAAGACCTCGGCGTCGGTGCGGATGTCATCACCAGCCACAATCACGCACCGGCCCTGGATGACGGCCGTATCGTCGAGAAATGGTCGTTCCGCCGCTCGAATTATTTCGAACATGTCGGCAACGAGGTGAAGAATGTCCACCAGAATGTCGGCGTGCTCGATATGTCGGCCTTCGCCAAGATGGAGGTCTACGGCCCCGGTGCGCGGGCATGGCTGGACAGCATTCTCGCCAATGCGGTGCCGAAGAAGCGTGGCCGTATCGCGCTCACCCATCTTCTGACGCCGAACGGCGGTGTGAAGGCGGAATTCACGGTCTATGAATGGGCGCCGGGCCGCTTCTACATGGTTTCGGCCGGTGGTCTCGAAGCCCATGACCACGACGTACTGTTCCGTCTGGCACCGACCGATGGCTCGGTTGTGCTGCAGCCGATCACCCAGAAATACGGCGTGCTGGTTCTTGCCGGTCCGAAGTCGCGTGATCTGCTTAAGAAGTTGACCCGCACCAGCCTTGAGAACAAGGACTTCCCCTGGCTCACCGGCAAGCAGATTTCCGTCGGCGTTGCGACGGCGCATGCGCTGCGCGTCAACTTCGTGGGCGAGCTTGGCTGGGAACTGCACCACCCGATCGAGATGCAGAACTACATCTTCGACCGGCTGATGGAAGCGGGTGCCGAATTCGGCATCAAGCCTTTCGGTATCCGCGCCATGGTGTCGATGTCGCTTGAAAAATCCTACCGCAACATGGGACGCGAGCTTTCGGTCGAATATAACGCCTATGAATCGGGCCTCGACCGCTTCCTGCGCCCGGAGAAAAGCTTCATCGGCCGTGATGCGCTGGTGGCTTACAAGGAGGCCGGCGTGAAGTGGGTGTTCTCAACGCTCACCGTGTCAGGCAATACGGATGTCGATGCGCGCGGTTCGGAGGCAATCGTCGATGAAAGCGGCGCGCTTGCGGGCCGCGTGACGAGCGGCGGTTTCGGCTGGCGTCTCGGCAAATCCATCGCGCTCGCCATGCTCAAACCGGAATATGCGGCCGTGGGCACCAAGCTCAAGATCCGCATTCTCGGTACGTCCTATGATGCCGAAGTGGTGGAAGAAAGCCCGTTCGACACGGACAATGCGCTTCTGCGCGCCTGA	MKTHARAVVIGGGVVGVSTLYHLAKKGWSDSVLIERKELTSGSTWHAAGLLPLFNMSYSVGQIHKYSVKFYEELQEETGMNVGFSKVSNIRLARTKDRWDEYMYYAGIAETIGVRVNMLTPEQVKEIWPLCETDGLLGAIQHPDDGYIQPADLTQALAKGARDRGATIYRNTTVTAIEQLEDGHWKVTTDKGEIIAEHIISCTGSFARKTGEMVGINIPVIPVEHQYIVTEPHPAIQERRRQGLPEMGVLRESDSAWYMREEAGGLILGPYEVGAPVCYVDGPSDDSEYELFQEELDRLMPHIETAMVRVPAFGEVGIKKVYNGAIAYTPDGNPIVGPAPGLKNFWLNEGHSFGITAAGGAGWQLAEWIVDGEPTLDLMGVDPRRFGPYATEGYLIAKNEEAYANVFTMHYPDEERSAARPLKTTPVYDRLKKLGGVFGSVYGWERANWYAPEGYALREEDLGVGADVITSHNHAPALDDGRIVEKWSFRRSNYFEHVGNEVKNVHQNVGVLDMSAFAKMEVYGPGARAWLDSILANAVPKKRGRIALTHLLTPNGGVKAEFTVYEWAPGRFYMVSAGGLEAHDHDVLFRLAPTDGSVVLQPITQKYGVLVLAGPKSRDLLKKLTRTSLENKDFPWLTGKQISVGVATAHALRVNFVGELGWELHHPIEMQNYIFDRLMEAGAEFGIKPFGIRAMVSMSLEKSYRNMGRELSVEYNAYESGLDRFLRPEKSFIGRDALVAYKEAGVKWVFSTLTVSGNTDVDARGSEAIVDESGALAGRVTSGGFGWRLGKSIALAMLKPEYAAVGTKLKIRILGTSYDAEVVEESPFDTDNALLRA	PGPT0013550_188	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013550-DMGDH_lile|gcvT|mlr-K00315	NA	NA
BMS010_09590	834	rcsC_30		Sensor histidine kinase RcsC	ATGAATTTTCTAGGCATTACGGGCATGCAATATTCTGGCGTGCCTTTTACCAACAGCCGCATCTTGCTGGCGGAAGATACCAATGTGTTCACCCAGATGGTGAGCATGCGCCTGAAGGAACTGCTGGGCGTTACCGTGGAAGTGTGCCGCAATTTCGAGGAATTGCAGGCCTGTTACGAGCATTCTCCCGAACCGGTGACGCTGGCGATTTCCAACATCAACCTGCCGGGGGCGGAAAAGGGCGAGGCGCTGGAATATCTGATCGATCTTTCGATCCCGACCATCGTTTTCACCAGCACTTTTCATGAGGCGACGCGCGAAACGCTGATCGCCAAGGATGTGGTCGATTATATTCTGAAGGACAATATTTTCGCCGTGGATATGCTGACGGAATCCGTCTGCCGCTTTCTCACCAACCACCGCCATCATGTGCTGATTGTCGATGACAGCCCGACGGCGCGGGCGCTGCTTTCGAGCCGCCTCAAGCGTTATAATTTCCGCGTCAGCCTGGCGGATAGCGGTGCGAAGGCGCTCGATATTCTGAAGGCCAATCCCGATATCGGCCTCGTGGTGACCGATTACAACATGCCCGATATTGACGGCTTCGAACTGACACGGCGCATCCGCACCATGCGCGGGTCGCATGAGCTGCGCATCATCGGGGTGTCTTCCTCCACCAACCGGCTGCTTTCGGCGCGGTTCCTGAAGGCGGGCGGCAATGATTTCATGCTGCGCCCCTTCATCGACGAGGAGTTTTATTGCCGGGTCAACCAGAACCTCGATACGCTGGTTCAGATACAGCTGGCGAAAGCGGGGGTAAGGCCGGCGGCCTGA	MNFLGITGMQYSGVPFTNSRILLAEDTNVFTQMVSMRLKELLGVTVEVCRNFEELQACYEHSPEPVTLAISNINLPGAEKGEALEYLIDLSIPTIVFTSTFHEATRETLIAKDVVDYILKDNIFAVDMLTESVCRFLTNHRHHVLIVDDSPTARALLSSRLKRYNFRVSLADSGAKALDILKANPDIGLVVTDYNMPDIDGFELTRRIRTMRGSHELRIIGVSSSTNRLLSARFLKAGGNDFMLRPFIDEEFYCRVNQNLDTLVQIQLAKAGVRPAA				NA	NA	NA	NA	NA
BMS010_09591	1557	clsC_2	COG1502	Cardiolipin synthase C	GTGACTGCATTTACGGTCTTCATCATCATTCTTCTTATGGTCATTGGGCCGAGCCTGTTTGTCGTCATCGGCAAACAGCGGGAAAAGGCCATTCCCAAGCGCCCCTCCACCGCCCTGCCCCTTGCCGAAGACGCGACGACGCTGGACCGGCACTGGCAATCGATAAGAAACGGCTGGAACGAGAAAAATGCGCTCTGCCTGCTGCATTCCAACCTCGATGCCTTTGCGGTGCGCGTGGCGGCGGCGCGTGCCGCCGGGCGCAGCCTCGACCTGATGTATTACATGTGGAATGCCGACCTGACCGGACGGCTGATGATGCGTGAAGTCATCGCCGCCGCCGATCGCGGCGTGCGCGTGCGTCTGCTGCTCGACGATCTCGGCGTCTCCATCTCCGACCGCATCTTCCACGCCATCGATAGCCATCCGAATATAGAGTTGCGCCTGTTCAACCCTACCCGGGCGCGGGAAAACATTCTGCATCGAAGCATCGAGCTGGTGCTGCGCTTCCGCAGCGTCAACCGGCGCATGCACAACAAGGCCTGGATTGCCGATGGCCGGGCCGTGATCGTCGGCGGGCGCAACATTGGCGACGCCTATTTCGACGCCGCCGAGCGGGCGAATTTCCACGATTTTGATATTCTCGGCTTCGGCAACATCGTCGCCGACGCCACGGAAATCTTCGACGATTACTGGAACAGCGCCGTTTCCGTGCCCGTGCGCTCTCTCCTGGCGCGCAGACCGAGCAAACTCGCCAGATTGCGCCGCGAACTCGATGCCCTGCCGAAAAGCGAAGCGGCAAAACCCTATCTGGAGCGCGTCGATAGCCAGTATGGCCGCGACCATTTCCTGATGTCGGACCGTCTGCACTGGGTCGAGGCGGCGGATATCCTCGCCGACCCGCCGGAAAAGGCGGCGGGCAAACGCCGCAAGGGTCATAACTTCCTGATGGAAAGCCTGCTGCCGCTGATGCAGGCGGCAAGCGACAGCCTGCACATTACCTCCCCCTATTTCATTCCCGGCAAACAGGGTGTGGGGATATTTCAACAGCTCGCAGAAAACGGCGTGTCGGTCGCCATCCTCACCAATTCGCTGGCCGCGACAGATGTGGCCGCCGTGCACGCCGGTTATGCCCGCTACCGAAAGCCGCTTCTCTCCGGCGGGGTGCGCCTGCACGAGCTGCGCGCGCAGGCGGATCAGTCGAACTTCACCCTGCGAGGCTCGGGACAGGCGAGCCTGCACACCAAGGCCTTCACCCGCGATGGCAGGACCGGCTATATCGGTTCGCTCAATTTCGATCCGCGTTCCGCCTCGCTGAATACGGAAATGGGCGTCGTCTTCAACTCGGCGCCGCTGGTTGCCTGTATGGACGAGATATTTGCCGGCGAGATCCGCCGCACCATGAGCTTCGAGCTGGAAATCGACAAAGGCAGGCACATCGTCTGGATGACGGAAGAACAGGGGCGGACAAGGACATACCGGCGCGAACCCGACGCTGCCATCAGCCGCCGCATCGTTGCCGGTATCATGCGCTTCCTGCCGCTGGAATCGCAGCTTTAG	MTAFTVFIIILLMVIGPSLFVVIGKQREKAIPKRPSTALPLAEDATTLDRHWQSIRNGWNEKNALCLLHSNLDAFAVRVAAARAAGRSLDLMYYMWNADLTGRLMMREVIAAADRGVRVRLLLDDLGVSISDRIFHAIDSHPNIELRLFNPTRARENILHRSIELVLRFRSVNRRMHNKAWIADGRAVIVGGRNIGDAYFDAAERANFHDFDILGFGNIVADATEIFDDYWNSAVSVPVRSLLARRPSKLARLRRELDALPKSEAAKPYLERVDSQYGRDHFLMSDRLHWVEAADILADPPEKAAGKRRKGHNFLMESLLPLMQAASDSLHITSPYFIPGKQGVGIFQQLAENGVSVAILTNSLAATDVAAVHAGYARYRKPLLSGGVRLHELRAQADQSNFTLRGSGQASLHTKAFTRDGRTGYIGSLNFDPRSASLNTEMGVVFNSAPLVACMDEIFAGEIRRTMSFELEIDKGRHIVWMTEEQGRTRTYRREPDAAISRRIVAGIMRFLPLESQL	PGPT0007730_578	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_GLYCEROPHOSPHOLIPID-CARDIOLIPIN_SYNTHASE_ACTIVITY,PGPT0007730-clsC|ymdC-K06132	NA	NA
BMS010_09592	315			hypothetical protein	ATGACAGAGAACGATATTTTCCGGGCGCTGGCCGATCCGACGCGCCGCGCCATTTTCGAAAGGCTGGCGGATGGCGCCATGAACGCTTCCGCCCTGCGTGAGGGGATCGAGATCAGCCAGCCGGCCATGTCGCAGCATCTTTCCGTGTTGCGCGGGGCAGGGCTGGTGGTCGAGAAGCGGCAGGGCCGTTTCGTCAATTATGAGGTGGATCCGGACGGGCTGACGCGCATTGCGGCCTGGCTCGGCAAATATCGCGCCTACTGGCCGCAGCGCATTGAGGCTCTCAAACTCCTGCTGAAGGATATGGACCAATGA	MTENDIFRALADPTRRAIFERLADGAMNASALREGIEISQPAMSQHLSVLRGAGLVVEKRQGRFVNYEVDPDGLTRIAAWLGKYRAYWPQRIEALKLLLKDMDQ				NA	NA	NA	NA	NA
BMS010_09593	357			hypothetical protein	ATGAACAGGCAGACACCGGAAGCGCCGAAAAACGGCATCGAGCTTGAATATGATCTGGACGAGCCGCCGCAAAAGGTCTGGCGCGCCATCAGCATTCCGGCGTTTCGTGAAAACTGGCTGCCGAAGGAGGCTTTGGCGGAGCCCGATGCGATCGATATCAAGCCCGGTGAGGAGGTTCGCTACCGGCTGCGCGAGGATAATCCGTCATTTCTGGAAAGCACCGTCACCTTCAGGATCGCGGCGAATGCCCATGGCGGCACCAGCCTGCGCATCATTCATGACCTGCCCGTCAATACCGGCCGGATGATAAAGGCCGCCGCAAACCACAACGGTTCGCCGATCAAGCTCGCCGCCTGA	MNRQTPEAPKNGIELEYDLDEPPQKVWRAISIPAFRENWLPKEALAEPDAIDIKPGEEVRYRLREDNPSFLESTVTFRIAANAHGGTSLRIIHDLPVNTGRMIKAAANHNGSPIKLAA				NA	NA	NA	NA	NA
BMS010_09594	609	clpP_5		ATP-dependent Clp protease proteolytic subunit	ATGCGCGAAGCGATGCAACTCGTCCCTATGGTAGTCGAACAATCGTCAAGGGGAGAAAGGTCTTTCGATATCTATTCCCGGCTGTTGCGGGAAAGGATCATCTTCCTCAACGGCGAGGTGAACGATGCGGTTTCGGCGCTGGTCTGCGCGCAATTGCTGTTTCTGGAGGCGGAAAACCCGAAGAAGCCGATCCATCTCTATATCAATTCGCCAGGCGGTGTGGTGACCAGCGGTCTCGCCATGTATGACACCATGCATTATATCCGCGCACCGGTTCATACGCTCTGCATGGGAACAGCCCGCTCCATGGGATCGTTTCTGCTGATGGCGGGTGAACCGGGCGAACGGAGCGCCCTTCCCAATGCCAGCATCCACATTCATCAACCGCTGGGCGGTTTCCAGGGGCAGGCGTCAGACATGCTGATCCATGCCGAAGAGATGCGGCAGACCAAGCACCGTATGACGCGGCTTTATTCCGAACATTGCAAACACAGCTATGAAAAATTCGAAGCGGCCATGGACCGCGATTTTTTCATGACGGCGGAGGAAGCCCAAGAATGGGGCCTGATCGATCGCATTCTGGGCGTTCGTGAGGATATCGCGGCATAA	MREAMQLVPMVVEQSSRGERSFDIYSRLLRERIIFLNGEVNDAVSALVCAQLLFLEAENPKKPIHLYINSPGGVVTSGLAMYDTMHYIRAPVHTLCMGTARSMGSFLLMAGEPGERSALPNASIHIHQPLGGFQGQASDMLIHAEEMRQTKHRMTRLYSEHCKHSYEKFEAAMDRDFFMTAEEAQEWGLIDRILGVREDIAA	PGPT0014595_5977	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014595-clpP-K01358	NA	NA
BMS010_09595	2973			hypothetical protein	GTGTGCGACGGCGGCAGCCTGTGCGCGAAGGGAACCGCTCCTGGCGATGTTCTTCTGAACGGCGCGCTGGTCAGCGCCTTCGACAAGCTCTCGATCGACGCCACCGGCAAAATCGACATGGGTGTCGTTAGTGAGGAAGTCCATAACCGCTACAAGGAATGGGGTTTCAAGGGTCTGGGCTGGGGCTCGGTCAAACAGGCGTGGAACGATGTAGATACGACCGTTACCCGGCTTTCGGGCAATGACGTCTCGCTCAATGCCAAGGGTCCGATCACCGGAACGGGCGTGAAGATTGCTGCCGTCAACGACCTTCTGATGAAGACCGATGACACGATCCGGCTGGAAGCGGCGCAGGATGCGCTTTATTTCACGGAGAAGGGTTTTTACGTCGGGCTGAGCTTCCCGGGATCGGCCGGCATAGACGCCGCACTGAAGGGCGGCTCCGGCGGACAGATCCTGTCCGGCCTTGCCGGCATCAATCCCATCACCGCCAAACTCGCAACGCTTGCCAATGCCGACAATGGACTTGCGGCGGGGCTGGCTGCCGTCAATCTGGCGACCACAGGTGCTTCCGTTTTCGGGAAGCCAGCGTCCGAACTCAGCAAATTGGGTATCGATGGCGGTGGTGCGGCGGTTGGCAAAGGATTAAACGACCGCCTCAATCCGCTATCGCAATTCACTGATGAAAACGGCAACTTCTCGGCCAAGAACTTTGGCATCAACCTGTCCGTCTGGAAGAGCGAACAGCGCTGGAGTGAGAGCCAGATTTCCGAACTGACGGCTGGCGGCGATATCGTCATGAAGGCCGGGCTGGACGTCATTCTGGACCAGGGCACGAAGATGGTCTCCGGCGGCGATGTCTCCATCGATGCCGGCCGCGATATCCTCATGGCGGCGCTTGTCGATTACGCAAAGGACAAATCATCTTCCTTCGGCCTGCAGCTCTCCCTGTCCTCGATCGGCTTCGATATCGGCAAGTCGAAGGGCTATGACGAGACGCTGACGAATGCCTCCATCACCGCCGCCGGAAACGTCTCGCTGACATCGGGCCGCGATACGGCGCTTCTGGGCGGCAACATCATCGGCAGGACGGTCGATCTTGATGTCGGGCGCGATCTCACCATCCTCTCGCCGCAGGCGCAGGGCTGGCGCGACGGCTTTTCCTTCGGCCTGACGGTTGGCGTCAACCCCGCCGATTGGAGCGTTCGCGGCTCGAAGGAGGACGGTTTCAAGGCATGGTCCTCCGGCTCGGGGATTGTCGCGGCACAGGGCATCGATATCAAGGTTGCCGAAGACACCACGCTGGTCGGTGCGCTGCTTCAGGCAACCGATGGCGATATCAGCCTCGATACCGGCACACTGACCGTGGCTGACCTGAAGGATACCGACCAGTACAAGAACGTTGGCGGGTCTATCGGCATGAGCGGCGGTGGGCTAAACTCCGTCGGTTTCTCCTACGAGAAGAAGGACAAGCAGGGCGAGACCCGCACGACGCTCGATGCCTCCGGTGAATTGAACGTCACCATCCGCGATGCGGACAAGGACGGCATTGCTGGAACGGAGGCCGACAAGGCGGCAGCCGAGCAGCTACTCGCCTCTATCAACAAGGATGCCTCGAAGTATCAGGAAATCAACAAGGACAGCTATACCAAGCTGTCGGGTGAACTCGATGTCCAGAATCTGATCGAGTTCGGCGATAACATCAAGGCGATCCGGAACTATCAGCGGGCTATGAACGCCGCCATTCCGGAAGCCATCGCTGCGGAAGGGCCGGAAAACGTCGACTACTATAGGCGTCTGCTGGCCAACGGTCTAACGCCGACTGAAGCGGCACGCGCTATCGAAGCCCCAGAGATCCAGCAATTCGTCTCAAGCCAGCGTGTCTGGAACGACGCGGTTGGTTTCTATGGTTCGGCGAGCAAGGTCCCGGCTGAAATCAAGGCCGCAATTGCAAACGGTATAAAGCTTGATTTTTCTACAGGCGAACCGCTGATAAGACGGGAAGGCTGCGAAACCAATGGCTTCGGTTGCGAAGTAAAATTCCAGACGCAGAATGCTGAGGGCATGCGTCAGGCCGAGATTGCAGTTTCCAACGCGAAGTCCGAACTCGAAACGTTGGTGCCTCAATTACAAGGGCTGCTCGACAAGGCGCTTTCCGGCGACCTTACGATCAATCCTGCTGCACTGTCGCTCGAGATCGAGAAGACCAAGGCGAAGATCTCTGCCGCCATGTTCATCTATGAGCTCTGCTATGACACGGTCGGTGAAACCTCACTCGTCAAGGTCCTGAACGACGTGGTGAATTCAACACCATCCAACGCGGGTGGCATCTACGGGGAACTTGGTGCAGCAGATGTTACAGGTTTCCTCGAGACAAGCTTCAGCGACGTCCGCCGGAAAGTCTTCTACAGCGACAAGCCGGGAGCAATCGAAACTGCAGATGAGGTTTTTCTTCTGACACCAAGCCCCGCATTCGTCGCGTCGGGCGCCAAACTCACCGGGAAGGTCATCGCAAGTGGAGCTTTGCGACTCTACGAAACAACTGCTGGCAAGTGGTTGTCGAAAGAGGCGATCGAGTATTCGATCAGCAAGGATGTAATAGCAAAATATAATCCCTTAAACAAAGGGCCGCTTCCAAATGACATCGCGCAGACGTTTAGAAGCGGAACCTATGACGAAGTGGTGACGACCAAGCCCACGACCCTCTATCGCGTGATCAGTGACGATGGAAACCCCGCTGGCGGTTACTGGACTACGGCAAAGCCTAGGGGGCCTTTGCAATCTGTTATCGATAGTGCACTCGATCAAAATTGGGGTAATAAAGCGACGCGAATAGTCGAAATGGAGGTGCCTCCAGGCACGAAATTGTTTGAGGGCGTTGCGGCCCAACAGAGGGCGCTCGTCGGCGGCGGTAATCAAATCTATTTCGATCGATCGATCAACCCATTGAATCCCAACTGGATAAAACAATGA	MCDGGSLCAKGTAPGDVLLNGALVSAFDKLSIDATGKIDMGVVSEEVHNRYKEWGFKGLGWGSVKQAWNDVDTTVTRLSGNDVSLNAKGPITGTGVKIAAVNDLLMKTDDTIRLEAAQDALYFTEKGFYVGLSFPGSAGIDAALKGGSGGQILSGLAGINPITAKLATLANADNGLAAGLAAVNLATTGASVFGKPASELSKLGIDGGGAAVGKGLNDRLNPLSQFTDENGNFSAKNFGINLSVWKSEQRWSESQISELTAGGDIVMKAGLDVILDQGTKMVSGGDVSIDAGRDILMAALVDYAKDKSSSFGLQLSLSSIGFDIGKSKGYDETLTNASITAAGNVSLTSGRDTALLGGNIIGRTVDLDVGRDLTILSPQAQGWRDGFSFGLTVGVNPADWSVRGSKEDGFKAWSSGSGIVAAQGIDIKVAEDTTLVGALLQATDGDISLDTGTLTVADLKDTDQYKNVGGSIGMSGGGLNSVGFSYEKKDKQGETRTTLDASGELNVTIRDADKDGIAGTEADKAAAEQLLASINKDASKYQEINKDSYTKLSGELDVQNLIEFGDNIKAIRNYQRAMNAAIPEAIAAEGPENVDYYRRLLANGLTPTEAARAIEAPEIQQFVSSQRVWNDAVGFYGSASKVPAEIKAAIANGIKLDFSTGEPLIRREGCETNGFGCEVKFQTQNAEGMRQAEIAVSNAKSELETLVPQLQGLLDKALSGDLTINPAALSLEIEKTKAKISAAMFIYELCYDTVGETSLVKVLNDVVNSTPSNAGGIYGELGAADVTGFLETSFSDVRRKVFYSDKPGAIETADEVFLLTPSPAFVASGAKLTGKVIASGALRLYETTAGKWLSKEAIEYSISKDVIAKYNPLNKGPLPNDIAQTFRSGTYDEVVTTKPTTLYRVISDDGNPAGGYWTTAKPRGPLQSVIDSALDQNWGNKATRIVEMEVPPGTKLFEGVAAQQRALVGGGNQIYFDRSINPLNPNWIKQ				NA	NA	NA	NA	NA
BMS010_09596	978			hypothetical protein	TTGCTAACAACGTCGAGGCGGTCAATAAGCAACTTGCGCTGGTGCGGAGGGTTTGTTTCGGCAATCATCGACAGCAGCAGCCCTCTGGCGGCGGCCTATGTCGCGTTTCAGGCGCTCCTTCAATGTGTCGAGGGCGACCCCACTGGCGGAGCAGAGGATTTGCTTGCAGCCTATAGGGGCAATCAGACGCTTGTCCACTCCATGTTGCGGCAAGCGGAAGGTCAGGCAAGCGCATCGAGTGTCATTTCCGCCCTTCTTGATTTCGAGCAGGATCGTAACGGGACTGTATTCGCTGAAAGCTTTACAGGCGCCACACGCGCAATGACCACGGCAGAGCTCGTAGTTGTCGGTACTATTATTACCACAGTAGCTGTCGGCGGGATTACTATTGCTGTCGCGCCTGAGCTTGTTGCGATCGTAAAATTGTGCGGTATTAGCCCAGCATGTTATGCTGCTGCAGGAGTCCCTGTTCAAACCATCGGTATAACGGCTGGGGAAATCGCGGCGGGAGATGCCCTCGGCGGCGGGACGCTGGTAGTAAGTGCCGGTGCGATCGCAAAAGCGGACGATATTGCTGACGCGTTGCGGCTCCGGCAAAGTGCGGAAAACATCGCGACAGGAAGACGTCTGAATAGCCAACTGATCGGGCTGGAGGTTGCAAGCGGCCATGCGTTTGAGAAGCACTTGCTGGGCGGAGAGTTTGCTGATTTGGGTATAACCACACGAAGACAATTTCAGGATTTCGTTGAAGGAATCGTATCCAATCCAGCAGTTGATCGTCGATACACTAAAGATGGAACAGTTTTTTATCTGGATCACAAAACTAGAACGGTTGTCATAAGTGGACAGAGAGGGGAAGCAACCGCATTTAGACCCGAATTCGATGTAGGGTGGGATACCTACATCAATTCCTCAAGTGTTCCGAAAAATAAATTGCCGCTGGAGCATGATTCAGTACCGAACGGGAGAACTTACTGA	MLTTSRRSISNLRWCGGFVSAIIDSSSPLAAAYVAFQALLQCVEGDPTGGAEDLLAAYRGNQTLVHSMLRQAEGQASASSVISALLDFEQDRNGTVFAESFTGATRAMTTAELVVVGTIITTVAVGGITIAVAPELVAIVKLCGISPACYAAAGVPVQTIGITAGEIAAGDALGGGTLVVSAGAIAKADDIADALRLRQSAENIATGRRLNSQLIGLEVASGHAFEKHLLGGEFADLGITTRRQFQDFVEGIVSNPAVDRRYTKDGTVFYLDHKTRTVVISGQRGEATAFRPEFDVGWDTYINSSSVPKNKLPLEHDSVPNGRTY				NA	NA	NA	NA	NA
BMS010_09597	420			hypothetical protein	TTGGTCGGCGCGCTGCTTCAGGCGACCGATGGCGATATCAGCCTCGATACCGGCACGCTGACGGTGGCCGACCTGAAGGATACCGACCAGTACAAGAATGTCGGTGGGTCCATCGGCATGAGCGGCGGCAAGCTCGGTACGGTTGGTTTCTCCTACGAGAAGAAGGACAAGCAGGGCGAGACCCGCACGACACTCGATGCGTCCGGTGATCTGAACGTCACCATTCGCGATGCGGATAAGGATGGCGTTGCCGGGACGGAAGCGGACAAGGCTGCCGCCGAGCAGCTACTCGCCTCTATCAACAAGGATGCCTCGAAGTATCAGGAAATCACCAAGGACAGCTACACCAAGCTGTCGGGTGAGCTTGATGTTCAGAACCTGATCGAGTTTGGCGATAACATCAAGGCGATCCAGAACTAA	MVGALLQATDGDISLDTGTLTVADLKDTDQYKNVGGSIGMSGGKLGTVGFSYEKKDKQGETRTTLDASGDLNVTIRDADKDGVAGTEADKAAAEQLLASINKDASKYQEITKDSYTKLSGELDVQNLIEFGDNIKAIQN				NA	NA	NA	NA	NA
BMS010_09598	936			hypothetical protein	ATGAGCCGACTCAGAACACTCACACGGATCACCCTGGGCGCCGGCCTCTGCGGCCTGCTGCTCGCCGGCTGCAACGAGCCGCTGCGCCGCGCCGACGTCCTCACCCGCACCGCCGAACCCCTGGCAGTGTCGCGCAGCGAAGCCCTGCACGACCTGGCCGCTGCCAAGGTCTGCTGCACCAGCCTGCGCGACCTGCCCTACACGCCACTGCCGGTCGATTTCTCCGGCAACGTGGTGATCGACCGCAGCGCCCCTGCATTCCAATTCGACAGCGGCAAGAGCTTCTTCCGCGCCTTCGAGCTGCCGCTGGACAGCCGCTCCTTCGAAATCCGCCTGTACAGCGAAGCCGGCAAGACGGTGCTGGCCCCCAGCGCCATGCTGCTCGACAGCCACTTCCGCGTGACCCGCCTGCTCGGCCGCGAGGACTTCGTCTACCAACCCGCCGCCGGCCTGAAAGGCGACAGCCTCGACGCCCGCCTGCGCATCGACCGGCTGTACCGCGACAACCCCGGCAACGAGCGCTACCTGATTCTCTACACCGCCGAACAGGACCTGGCCGGGCAAACCACCCTGGAACACCCGGCCAAGAGCTTCGCCAAGGCACTCGGCAACCAACCGCCGAACATCCCCGACCCGGTGGCCCGGCATTCGCCGGCGGGGGTGATCAAGATGGTCCTGATCGAAGACCGCCTCGCCGGCCAGCAGGCCAACACCTACGTGCCGCCGCGCAGCGTCGGCATGGAAATGGGCAACCGCGTCCCCTCCCTGCCGGAACCCGCGGTACTGCCGGAAACCCGCGCCTACTACCGCCAGGCCATCGACGCCGCCCTCGCCACCCAGGACCTGGACCGCGCCCTTCGCCTGGCCGACGAAGCCACCCGCGCCGGCGACGACAGCGCCCGACCGTATCTGCTGGAGCGGATCAGGGTGAAGTGA	MSRLRTLTRITLGAGLCGLLLAGCNEPLRRADVLTRTAEPLAVSRSEALHDLAAAKVCCTSLRDLPYTPLPVDFSGNVVIDRSAPAFQFDSGKSFFRAFELPLDSRSFEIRLYSEAGKTVLAPSAMLLDSHFRVTRLLGREDFVYQPAAGLKGDSLDARLRIDRLYRDNPGNERYLILYTAEQDLAGQTTLEHPAKSFAKALGNQPPNIPDPVARHSPAGVIKMVLIEDRLAGQQANTYVPPRSVGMEMGNRVPSLPEPAVLPETRAYYRQAIDAALATQDLDRALRLADEATRAGDDSARPYLLERIRVK				NA	NA	NA	NA	NA
BMS010_09599	1278	lamB_3	COG4580	Maltoporin	ATGAACGACACCCATGCTGCACGCCTTTTCCGTCCCACTTGCCTCGCGGCCGCGCTGTTCGCGACAGCCCCCGCCCTGGCAGTGGATTTCCACGGCTACCTGCGCTCGGGAATCGGCGCCACCGCCGGCGGCGGTGACCAGGCGTGCTTCCAGGCTGCCGGCGCTCCGGCCAAGTACCGCCTGGGCAACGAATGCGAGACCTACGCCGAGATCGGTCTCGGCCAGGAGTTGTGGAACGAGGGAGGCCGCAGCTTCTACCTGGACAGCATGATCGCCTACAAGTCCAACCAGGGTAACGACTGGGAAGCCACCGACAGCGACGACAGCAACCCCTTCTCCGATGGCACCAGCTCGATCCGCCAGTTCCACGTGCTCGGCAAGAACGTCCTCGATGCCTTCCCCGGCGCCACCCTCTGGGCCGGCAAGCGCTTCTACCGACGCAACGACGTGCACATCAACGACTACTACTACTGGGATGTCTCCGGCCCCGGCGCCGGCATCGAGGACATCGACCTCGGCTTCGCCAAGGCCCACGTCGCCTGGATGCGCAACACCGATGGCGACTGGGTCTACGACGGCACCGGCAGCGGCACCAACGTGGCCAACGACACCCTCGACGTGCGTTTCTCCGACATCGCCGTGAACACCGACGGCAAGCTGGAACTGGGCTGGGACTTCGGCAAGGCCAACCTCACCGATCTCCAGGAACAGGACCCCGGCTACACCAACCAGAAGGGGCATCTGGTGACCCTGCAGCACGAGCAGGGCAACTGGTTCGGCGGCTACAACCGCCTCGCCGTGCAGTACGGCACCGACGGCATCATCGGCAGCAGCGGGCGCAACACCACCGGCAACAGCGACGGCAAGATGGTCCGCCTGGTCAACCACGGCGTGGTCAGCCTCAGCGACGACATCGAAATGATGTACGTGCAAATCTACGAGGATAAGGACTTCGACAACGACTCCGGGCAGACCTGGGCCTCGTTCGGCGTGCGCCCGGTGTACAAGTGGAACGACATCATGAGCACCGCCCTGGAGGTGGGCTACGACCGCATCGACCCGCAGGCCGACGGCGAGGAAACCCGCGACCTGACCAAGATCACCCTCGCCCAGCAATGGTCCGCCGGCCGTAGCTTCTGGGCCCGCCCGCAGATCCGCGCCTTCGTCACCTACGCCAAGTGGGACGGCGACCGCTACAACGCCGCCAGCGAATCCATCGACGCCGGCGACGACGACGGCCTGACCTTCGGCGTGCAGGTCGAAGCCTGGTGGCAATGA	MNDTHAARLFRPTCLAAALFATAPALAVDFHGYLRSGIGATAGGGDQACFQAAGAPAKYRLGNECETYAEIGLGQELWNEGGRSFYLDSMIAYKSNQGNDWEATDSDDSNPFSDGTSSIRQFHVLGKNVLDAFPGATLWAGKRFYRRNDVHINDYYYWDVSGPGAGIEDIDLGFAKAHVAWMRNTDGDWVYDGTGSGTNVANDTLDVRFSDIAVNTDGKLELGWDFGKANLTDLQEQDPGYTNQKGHLVTLQHEQGNWFGGYNRLAVQYGTDGIIGSSGRNTTGNSDGKMVRLVNHGVVSLSDDIEMMYVQIYEDKDFDNDSGQTWASFGVRPVYKWNDIMSTALEVGYDRIDPQADGEETRDLTKITLAQQWSAGRSFWARPQIRAFVTYAKWDGDRYNAASESIDAGDDDGLTFGVQVEAWWQ	PGPT0016830_579	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MALTODEXTRIN_TRANSPORT,PGPT0016830-lamB-K02024	NA	NA
BMS010_09600	1659	amyP		Glucan 1,4-alpha-maltotetraohydrolase	ATGAGTCGTTATCTACGCGCAGCTTGCCTGGCCGCGGCGGTATCGCCGTGGTTGCTGATGAATTCCCACGCCCTGGCCGATACCGCCGGCAAGAGTCCCGCCGGCGTGCGTTACCACGGCGGGGACGAAATCATCCTCCAGGGGTTCCACTGGAACGTGGTCCGGGAGGCGCCGAACAACTGGTACAACATCCTCCGCGACATGGCCCCGACCATTGCCGCGGACGGTTTCAGCGCCATCTGGATGCCGGTGCCCTGGCGCGATTTCTCCAGTTGGAGCGATGCCTCCAACGGCACCTCCGGCGGTGGCGAGGGCTACTTCTGGCACGATTTCAACAAGAACGGCCGCTACGGCAGCGACAGCCAGCTCAAGCAGGCTGCCGCCGCGCTCAATACGGCCCAGGTCAAGGTGCTCTACGACCTGGTGCCCAACCACATGAACCGCGGCTACCCGGACAAGGAAATCAACCTGCCCGCCGGCCAGGGCCTGTGGCGCAACGACTGTGCCGACCCTGGCAACTACCCCAACGATTGCGACGACGGCGACCGTTTCATGGGTGGCGACGCCGACCTCAACACCGGCCATGCGCAGAACTTCGCCATGTTCCGCGATGAGTTCGCCAACCTGCGCGGCAATTATGGTGCCGGCGGTTTCCGCTTCGACTTCGTGCGCGGCTACGCGCCGGAACGGGTGGATAGCTGGATGACCGCGTCCCACGACGATGCCTTCTGCGTCGGCGAGTTGTGGAAGGCACCCGGCGAGTATCCGAGCTGGGACTGGCGCAACACCGCCAGTTGGCAACAGGTGATCAAGGACTGGTCGGATCGCTCCAAGTGCCCGGTGTTCGACTTCGCCCTCAAGGAGCGCATGCAGAACGGCGGCATCGCCGACTGGCGCAACGGCTTGAACGGCAACCCCGACGCGCGCTGGCGCGAGGTGGCGGTGACCTTCGTCGATAACCACGATACGGGCTACTCGCCGGGGCAGAACGGCGGGCAACATCACTGGCCGCTGCGCGACGACCTGATCCGCAAGGCCTATGCCTATACCTTGTCCAGCCCCGGTACCCCGGTGGTCTATTGGCCGCATATGTATGACTGGGGCTACGGCGACCTGATCCGCCAGTTGATCCAGATCCGTCGTGGCGCGGGCGTGCGGGCCGATTCGGCGATCCAGTTCCATACCGGCTATTCCGGGCTGGTGGCGACGGTGACCGGCACGAGCAAGACCCTGGTGATCGCCCTCGACTCCAACCTGAACGATCCGAGTCAGGTGGCCAGCGGTACGTTCTCGTCGGTGCTCAACCAGAGCAACGGCCAGATCCGCATCTGGACCAGCGGCACCGGCACGGGTGGCGGTAACCTGGTAAGCGTCAACTTCCGCTGCGACAACGGCGTGACCCAGCTGGGCGACAGCGTCTATGCGGTGGGCAGCGCCGCCCAGCTCGGCAACTGGAGCCCGGCCGGCGCGGTACGCCTGACCGACGTCAGCGCCTACCCGACCTGGAAGGGCGCCATCAGCCTGCCGGCGCAACAAACCGTCGAGTGGAAGTGCATCATCCGCAGCGAGAGCGACCCGAGCCTGGTGAAGAGCTGGGAGCCGGGGGCGAACAATTCGGTGGTGACGGCGGAGGGGGGGAGCACGGTGGGGAGCTTCTGA	MSRYLRAACLAAAVSPWLLMNSHALADTAGKSPAGVRYHGGDEIILQGFHWNVVREAPNNWYNILRDMAPTIAADGFSAIWMPVPWRDFSSWSDASNGTSGGGEGYFWHDFNKNGRYGSDSQLKQAAAALNTAQVKVLYDLVPNHMNRGYPDKEINLPAGQGLWRNDCADPGNYPNDCDDGDRFMGGDADLNTGHAQNFAMFRDEFANLRGNYGAGGFRFDFVRGYAPERVDSWMTASHDDAFCVGELWKAPGEYPSWDWRNTASWQQVIKDWSDRSKCPVFDFALKERMQNGGIADWRNGLNGNPDARWREVAVTFVDNHDTGYSPGQNGGQHHWPLRDDLIRKAYAYTLSSPGTPVVYWPHMYDWGYGDLIRQLIQIRRGAGVRADSAIQFHTGYSGLVATVTGTSKTLVIALDSNLNDPSQVASGTFSSVLNQSNGQIRIWTSGTGTGGGNLVSVNFRCDNGVTQLGDSVYAVGSAAQLGNWSPAGAVRLTDVSAYPTWKGAISLPAQQTVEWKCIIRSESDPSLVKSWEPGANNSVVTAEGGSTVGSF	PGPT0019210_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-HYDROLASE,PGPT0019210-mta-K22253	NA	NA
BMS010_09601	1083			hypothetical protein	ATGACCCCGGAACAACAACGCCACCAGGCCCAGCTCGCCTTCGTTGCCAGCGGCGCGGACCTCATCGTCGGACGGGCCGCGGACTGCCCGCTGCCGGCCGAACGCCTGGCCGCCACCGAAGGCGGCGAACCCTATGTCCGCCAGCGCTTCCCCGGCGGCCTGACCGCCCACGTCTACCGCATCGAAGCCGACGGCCGGCACTGGACGCTCAAGCGCGCCCGCGAACGTTGCCTGGTACAGAACGTCGACGGCCAGACCAGCTTCCTCAACGAAGTCCAGCGCCGCGCCGACCTGCAGGCGCTCAAGGCCCGGCCGGGCATGGCCGAAGCCCTGTCGGCGGTGGTGGACACCTGCTACGCCAGCTTTCGCCAGGGAATCATCCTCTCGCCGTGGATCGACGGCGAGCAGGTCCGTGCATGGGATGAGCGACGCCTGCTGGAGCTGTTCGACGCCCTGCGCGTCCTGGTGACCAACGGCCTGTTCGAGTGGGACCTTTGCCCCGGCAACCTGCTCGACGACGGCCACATCCGCCTGTTCGACTTCGGCTACATGTACCGCTTCGACCCGCTGACCGCGTTCAACAGCAACGGTACCGCCACCCCGCAGATGCACGCGGCCGAGCGCTTCGAGACGCGCAACTACTTCGCCTGGCTGCTGGGCCTGGAACAACGCAGCGAAACCGAAGCGCTGGAGGCCTTCCGCCTGGAGAAAAGCATCGCCCTGGACTGCTACCGGCACCTGCGCCACGACCTGCTCGGACGCGGCGCCAACGCCACCGTCAACGACTGGCTGAGCGGCATCATCGACCGCTGGCAGAACGCGTTGGACAACGGGCTCGACGGCCTCTACCTGGCCGAGGCCTGGCGCTCCCACCGCATCGACCTGGCCGACGACCTCGGCGGGCAGACCTGCACGCCCTTGACCCTGGCGCGTATCGATTGGCTGGAACAGGCCGTGCACCGCCACTACTCCGACCTGCGCCGCCTCGACGCCTTTGCATTGGAAGACGGCGAACCGGCAGCGGAGGCATTGCTGAGTGAACTGCGGGAAGCCAGGAAGCAAGCCGAAGCGTGGCAGGTGTGA	MTPEQQRHQAQLAFVASGADLIVGRAADCPLPAERLAATEGGEPYVRQRFPGGLTAHVYRIEADGRHWTLKRARERCLVQNVDGQTSFLNEVQRRADLQALKARPGMAEALSAVVDTCYASFRQGIILSPWIDGEQVRAWDERRLLELFDALRVLVTNGLFEWDLCPGNLLDDGHIRLFDFGYMYRFDPLTAFNSNGTATPQMHAAERFETRNYFAWLLGLEQRSETEALEAFRLEKSIALDCYRHLRHDLLGRGANATVNDWLSGIIDRWQNALDNGLDGLYLAEAWRSHRIDLADDLGGQTCTPLTLARIDWLEQAVHRHYSDLRRLDAFALEDGEPAAEALLSELREARKQAEAWQV				NA	NA	NA	NA	NA
BMS010_09602	1188	malE	COG2182	Maltose/maltodextrin-binding periplasmic protein	ATGAACAAGAAACTGCTCGGTGCGGCCGCCATCGGCCTGGCCGCCACGCTGAACCTGCCGCTGCCGGCCCAGGCGGCCATCGAGGAAGGCAAGCTGGTGGTCTGGATCAACGGCGACAAGGGCTACAAGGGCCTGGCCAAGGTCGGCGAGAAGTTCACCGCCGACACCGGTATTCCGGTGGAGGTCGCCCACCCCGACGCCGCCACCGACAAGTTCCAGCAGGCCGCCGCCACCGGCAACGGGCCGGACATCTTCATCTGGGCCCACGACCGTCTCGGCGAATGGGCGCAAAGCGGGCTGATCGCCGCGGTCGAACCCAGCGCCAAAATCAAGGAGGAAACCGCCGAGTTTGCCTGGAGCGCGGTGAGCTACAAGGGCAAGCTGTGGGGCTATCCGATCGCCGTCGAGGCGCCGGCGCTAATTTACAACAAGGCCCTGGTGAAAACCCCGCCGAGCACCTTCGAGGACGTCTTCGCCCTCAACAAGGAGCTGGCCAAGAACGGCAAGCGCGCGATCCTCTGGGACTACACCAACACCTACTTCACTTGGCCGATGCTGGCGGCCAACGGCGCTTATGCCTTCCGCGACACGGAGAACGGCTACGACGTCAGCCAGACCGGGGTCAATACGCCCGGTGCCAAGCAGGGGGCGGAAGTCCTCAAGCGCCTGATCGACGAGGGTGTGATGCCGCGCGGTGCCGACTACAGCGCGGCCGAGGCGGCTTTCAACAAGGGCGAGACGGCGATGTTCATCAGCGGTCCCTGGGCCTGGTCGAACATCCGCAAGAGCGGCATCGACTTCGGCGTGGCGCCGATCCCGTCGGTGGGCGGTGCGCCCAGCCGGCCGTTCTCCGGGGTGATGGCGGCGACGCTGAACGCGGCCAGCCCGAACCATGCCCTGGCCGTGGAGTTCCTCGAGAACTACCTGCTGCAGGTCGAGGGCCTGAAGACGGTGAACGCCGACGTGCCGCTCGGCGCCGTGGTGAACAAGACCTACATGGCCGAACTGGCCAACGACCCGCTGATCAAGGCCACCTTCGACAGTGCCCAGCAGGGCCAGCCGATGCCCAACGTGCCGGAGATGGGGGCGTTCTGGTCGTCCATGGAGCCGGCCCTGGGCAATATCACCGCGGGCCGCCAGTCGGTGGATGACGCCCTGAACGACGCTGCCAAGCGTATCGCCAAGTGA	MNKKLLGAAAIGLAATLNLPLPAQAAIEEGKLVVWINGDKGYKGLAKVGEKFTADTGIPVEVAHPDAATDKFQQAAATGNGPDIFIWAHDRLGEWAQSGLIAAVEPSAKIKEETAEFAWSAVSYKGKLWGYPIAVEAPALIYNKALVKTPPSTFEDVFALNKELAKNGKRAILWDYTNTYFTWPMLAANGAYAFRDTENGYDVSQTGVNTPGAKQGAEVLKRLIDEGVMPRGADYSAAEAAFNKGETAMFISGPWAWSNIRKSGIDFGVAPIPSVGGAPSRPFSGVMAATLNAASPNHALAVEFLENYLLQVEGLKTVNADVPLGAVVNKTYMAELANDPLIKATFDSAQQGQPMPNVPEMGAFWSSMEPALGNITAGRQSVDDALNDAAKRIAK	PGPT0016295_272	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MALTOSE|MALTODEXTRIN_TRANSPORT,PGPT0016295-malE-K10108	NA	NA
BMS010_09603	1563	malF	COG1175	Maltose/maltodextrin transport system permease protein MalF	ATGTCCGTTGTGAATGCCCCTGCCGGAGTGGCCGGCCCCGTCATGAGCGAATCGCTGCGCTATCCCTCGTTTCGCAAGATGCTGCATTGGAGCCTCTGGCTGCTGTTCAATGCGCTGGCGCTGTACCTGGTGGTCGCGCTCTATGCCCAGCGGCAGATCGCCTTCGCCCTGCTCGGGCTGGTGGTGACGGGGATCGCCAGCTACGTGTTCATCAGCCGCCGTACCTATGCGCACCGCTACATCTATCCGTCGCTGGCGGGGATGCTGACCTTCGTCATCTTTCCGTTGCTGTACACGGTGGGTATCGGCTTCACCAACTACAGTGGCACCAACCTGCTGAGCTTCGAACAGGCCCAGCGTTACCTGCTCGGCCAGACCTACGTCGCCGGCGACCGCTATCCCTTCGGCCTGCACGACAGCGAGGACGGCCCGCGCCTGCGCATCGACCTCGGTGCCCAGGGCGTGCTGGTGTCGCCGCCGCTGGAAGGCGAGCCGGTGCAGGGCGAGCCGCTCGGCTTGCAGCCTGAGAGCGAGGTATCGCTCGGCGAGCCGTTGCCGCTGCGCGACGTGATCAAGCGCCGTGCCGAACTGGAGCGCTGGGTGCTGCGCAGCCCGGAAGGCGAGCTGTTGCGCCTCTACGGCCTGCGCGAGATGGCCGAGGCCCGGCCGCAGTATCGCCTGCTGGACAATGGCGACCTGCTCGACAACCGCAGCGGCGAGCGGCTGGTCGCCAACCATGAGATCGGCTTCTACGTGGATGCCGAGGGGCACAAGGTGGCGCCCGGCTTCACCGTCTACACCGGCCTGAGCAATTTCGCCCGGGTGCTCGCCGACCCGGACATCCGCCAGAACTTCTTGCAAATCTTCGCCTGGACCGTGGCCTTCGCCGGGCTCACCGTGCTCTTTACCCTGGTGGTCGGCCTCACCCTGGCCAGCTTGCTGCAATGGGAGCTGGTGCGCGGCAAGCCGTTCTACCGGCTGATGCTGATCCTGCCGTATGCGGTGCCGGCGTTCATTTCCATCCTGGTGTTCAAGGGCTTGTTCAACCAGAACTTCGGCGAGATCAACCTGCTGTTGAACGGCCTGTTCGGCATCCGTCCCGACTGGTTCAGCGATCCGACCCTGGCGCGCTGCATGATCCTGATCGTCAACACCTGGCTCGGCTATCCGTACATCCTGCTGCTGTGCATGGGGCTGCTGCAGGCGATCCCGCGCGACCTCTACGAGGCCTCGGCGCTGGATGGCGCCGGACCGCTGGACAACCTGCTGCGCATCACCCTGCCGCTGCTGATCAAGCCGCTGGCGCCGCTGCTGATCGCCAGCTTCGCCTTCAACTTCAACAACTTCGTGCTGATCACGCTGCTCACGCGCGGCGGGCCGGACATCATCGGCGCCACCACGCCGGCCGGCACCACCGACCTGCTGGTCAGCTACACCTACCGCATCGCCTTCCAGGATTCCGGGCAGAACTTCGCCCTGGCCGCTGCCATCGCCACCCTGATTTTCATCCTGGTGGGGGCGATGGCCTGGCTGAACCTGAAGCTCACGAAAGTGAAGGTCTGA	MSVVNAPAGVAGPVMSESLRYPSFRKMLHWSLWLLFNALALYLVVALYAQRQIAFALLGLVVTGIASYVFISRRTYAHRYIYPSLAGMLTFVIFPLLYTVGIGFTNYSGTNLLSFEQAQRYLLGQTYVAGDRYPFGLHDSEDGPRLRIDLGAQGVLVSPPLEGEPVQGEPLGLQPESEVSLGEPLPLRDVIKRRAELERWVLRSPEGELLRLYGLREMAEARPQYRLLDNGDLLDNRSGERLVANHEIGFYVDAEGHKVAPGFTVYTGLSNFARVLADPDIRQNFLQIFAWTVAFAGLTVLFTLVVGLTLASLLQWELVRGKPFYRLMLILPYAVPAFISILVFKGLFNQNFGEINLLLNGLFGIRPDWFSDPTLARCMILIVNTWLGYPYILLLCMGLLQAIPRDLYEASALDGAGPLDNLLRITLPLLIKPLAPLLIASFAFNFNNFVLITLLTRGGPDIIGATTPAGTTDLLVSYTYRIAFQDSGQNFALAAAIATLIFILVGAMAWLNLKLTKVKV	PGPT0016300_184	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MALTOSE|MALTODEXTRIN_TRANSPORT,PGPT0016300-malF-K10109	NA	NA
BMS010_09604	891	malG_2	COG3833	Maltose/maltodextrin transport system permease protein MalG	ATGGCCATGGTGCAACCCAAGTCCGTGAAATACCGCCTCTGGCTGACCCACCTGGGGCTGCTGGCGGCAATCGCGGTGATCCTGTTCCCGCTGTTGATGGTGGTGTCGATCTCGTTCCGCGAGGGCAATTTCGCCACCGGTAGCCTGTTCCCCGACAGCCCGACACTGGAGCACTGGTCGCTGGCCCTGGGCATCCCCTATACCCAGGCCGACGGCCAAGTGGTGAACCCGCCGTTCCCGGTACTCACCTGGCTGTGGAACTCGGTGAAGATCGCGGTGATCAGCTCGGCGCTGATCCTGCTGCTGTCCACCACCAGCGCCTACGCGTTCGCCCGCCTGCACTTCACCGGCAAGGGCACGATCCTCAAGGGCATGCTGATTTTCCAGATGTTCCCGCCGGTGTTGTCGCTGGTGGCGATCTATGCGCTGTTCGACCAGCTCGGCAAGCACATCGGCTGGCTCGGGGTGAACAGCCACGGCGCGGTGATCGTCGCCTCGTTGGGCGGCATGGCCCTGCATATCTGGACCATCAAGGGCTATTTCGAGAGTATCGACCGCTCGCTGGAGGAGGCCGCCATCGTCGACGGCGCCACCACCTGGCAGGCGTTTTTTCACATCCTCCTGCCGATGAGCGTGCCGATCCTCGCCGTGGTGTTCATCCTTGCCTTCATCACCACCATCACCGAATACCCCATGGCCTCGGTGCTGCTGATGGACGTGGACAAGCTGACCCTTTCGGTGGGTGCGCAACAGTACCTCTATGACCAGAACTACCTGTGGGGCGACTTCGCCGCCGCGGCGGTGCTCTCGGGCCTGCCGATTACCCTGGTGTTCCTGTATTGCCAGAAGTGGATCGTCGGCGGCCTGACCGCCGGCGGAGTGAAGGGGTAG	MAMVQPKSVKYRLWLTHLGLLAAIAVILFPLLMVVSISFREGNFATGSLFPDSPTLEHWSLALGIPYTQADGQVVNPPFPVLTWLWNSVKIAVISSALILLLSTTSAYAFARLHFTGKGTILKGMLIFQMFPPVLSLVAIYALFDQLGKHIGWLGVNSHGAVIVASLGGMALHIWTIKGYFESIDRSLEEAAIVDGATTWQAFFHILLPMSVPILAVVFILAFITTITEYPMASVLLMDVDKLTLSVGAQQYLYDQNYLWGDFAAAAVLSGLPITLVFLYCQKWIVGGLTAGGVKG	PGPT0016305_89	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MALTOSE|MALTODEXTRIN_TRANSPORT,PGPT0016305-malG-K10110	NA	NA
BMS010_09605	2745	malT_6	COG2909	HTH-type transcriptional regulator MalT	ATGAACGCCGCGCCGCCCGCACCGCTGCCGCTGATTCCCGCCAAGCTGGCGATGCCTGTCCTGCCGCGTGGGCTGATCGAGCGGCCGCGCTTCGACGAATGGCTGCAGCGCCTGCCGGACGTACGCCTGGCGGTGCTGCAGGCGCCCAGTGGTTTCGGCAAGACCACCCTGGCCTGCCAGTGGGCGCAGGCGTTCGCCGGCAAGGTGGCCTGGCTGCAATTGCATACCAGCGACAACGATCCGCGCCAGCTCGGCCGTTACCTGGTCCATGCCCTGGATCGCCAGCTCGAGGAGGGCTGCCCGCGCAGCCTGCTGCTGGCGGAGCGGGAGCGCGAGCCATTCGACAGCCTGGTCACTCACCTGCTCGCCGAACTGCCGCCGGAGCACGCGCCGTTGCTGCTGGTGCTGGACGAGTTCGAAGCGCTGACCGAGCGCGAGGCAATCCGTGCGCTGCGCTTCTTCCTGCGCAACATGCCGGCCTGGCTCACGCTGCTGGTGTGCAGCCGGGGTCTGCCCGACCTGGGGGTGGCCGAGCTGCGGGTCAAGCACCAGTTGCTCGCCCTCGATGCCAGCCAGCTCGCCTTCGAGAACGACGAAGTCCAGGCGGTGCTCGCCCACGGCCTGCCGATCACCGTCAACCGCGAACAGGTGGAGCGCCTCAATCGCCGCATCGGTGGCTGGCCCAGCGCCTTGCAACTGGCGTTGCAGGAGGTGCAGACCGGACGCGGCATGGACCTGTTCCTCGACAGCCTGCAACTGGGGCACCCGTTCATCCGCGACTACCTGCGCGAGCAGGTCAGCGACGGCCTCGACAGCGAGACCCTGGATTTCCTCCAGTCCACCTGCCTGCTGGAGCGTTTCAACGCGTCCCTGGCGGACCATCTCACCGAGCGTCGCAACGGGCGCGAGATGATCGAGCGCCTGGAGCGCAGCGGCCTGTTCATCCAGCCGGCCGACCATCTGCGCCAGTGGTTCGCCTATCACCCGCTGTTCGCCTGTTTTCTCCAGGGCGAACTGAGCACGCACCAGCCGCAGCGCATCGCTGCCTTGCACCTGCGCGCGGCCGAGGCGCTGTTGGTGGAGAACATGCCGGAAGAGGCCGCACGCCATGCGGTGCTGGCCCGCGATCCGCTGCGGGTCGGGCAGGTCCTGCAGGCCCACGGCCGGCAGTTCTATCGCCAGGGGCGGCTGTCGCTGCTCAAGCGCTGCCTGGAGGTACTGCCCGCCGAGAGCATCGCCGAGTCGCCGCTGTTCACCCTGTTGCAGGCCTGGATCTCGCAGAACCAGTTGCGCTTCGACGAGGCCGAACGCTGGCTGGCGGCCGGCGAGCAGGTCCAGCAGGCGCGCTTTTCGGCGGAGGAGTGGGTACGCCTGGGCGCCGACTACAAGGCGGTGCGCGCGCAGATCGCCATCGCCCAGGGCGACCAGCAGCGGGCGATGAGCCTGGTGCACGAGGCCCTGGCCTGCGAGCCGCTGGTCATGCGCACCTCGCGGGTGGTGGCGATGTCGGTGCTGGCCGAGGCGCACTTCGTCCAGGGCAACCTGGCCGAGGCGCAGAAGCAGCACGAGGCCACCGAGCGCCGTGCGCGGGAGATCAACGCGTCGCTGCCGGCGCTCTGGAGCCTCGGCCAGCTCTCCGAGATCGCCATCGCCCAGGGCCACTTGCAGAAGGCCTATAACCTGCAGGAGCGGGCGCTGCAGTACATCGAGCGCGAGCAGTTGCCGGCGACGCCGGTGATGGAGTTCATCCACCGGGTGCGTGGCCAGGTGCTCTGGGAGTGGCACCATCTGGATGCCGCCGAACAGTCCGCGCTGCAAGGCATCGAGATTCTCGATACGGTCGGCAGCCGTTGGTTCCTGCAAAGCTACGCACTGCTCGCCAGCGTGGCCCATGCCCGTGGCCAGCAGAGCGTCTGCGCCGACTACATCGGCAAGCTGCAAAGCCTGCTGGCCGCCGACGACTACCACGTCGACTGGCTGGCCAACGCCCACGCGGTGATGCTCACCTACTGGGATTCGACCCAGGACAAGGACGCCATCCAGCAGTGGCTGTGCACTGCGCCGCCGCTCAAGCCGGGGGCCAACCACTTCGCCCAGTACAACGGCCGCAACCATGCCCGCGCTCACCTGGCGCTGAAGCAGAACGACAAGGCGCTGCCGATCCTGCGCCAGCTCCAGGTCGATGCCGAGCGCCACCAACTGGTGATGGACCTCAACCGCAACCACATCCTGCTCGCCCAGTTGCACTGGCAGCGCGAAGAGCGCCAGCAGGCCCTGGACCATCTGCACAAGGCCCTGACCCTGGCCAGCACCACCGGCGCCATCGGCAGCTTCCTGCGGGTCGGCAAGCTGCTCATCGTCATGCTCAAGACCTTGCAGCACGAGCGCCGCCTGGACGAGCTGGAAAGCCAGCGCGCTGACCGCCTGATCCAGTTGGCCCAGCAGCAGCGCGACTTCGGCAAGGCGATCCGCATCACCCTCGACGAGGCGGTGATCCAGGACATCATCAACCGCCCGGACGTGCCCGAGCTGATCCGCCATTCGCCATTGACCCGCCGCGAGTGGCAGGTGCTCAGCCTGATCCATGCCGGGCAGTCCAACGAGCAGATCGCCGAACACCTGAACGTCGCCCCAACCACCATCAAGACGCACATCCGCAGCCTCTACCAGAAGCTCAACATCACCCACCGCAGCGAGGCCGTCCAACTGGCGCGCAGCCTGTTGAGCAAGATCCAGGGGGATTGA	MNAAPPAPLPLIPAKLAMPVLPRGLIERPRFDEWLQRLPDVRLAVLQAPSGFGKTTLACQWAQAFAGKVAWLQLHTSDNDPRQLGRYLVHALDRQLEEGCPRSLLLAEREREPFDSLVTHLLAELPPEHAPLLLVLDEFEALTEREAIRALRFFLRNMPAWLTLLVCSRGLPDLGVAELRVKHQLLALDASQLAFENDEVQAVLAHGLPITVNREQVERLNRRIGGWPSALQLALQEVQTGRGMDLFLDSLQLGHPFIRDYLREQVSDGLDSETLDFLQSTCLLERFNASLADHLTERRNGREMIERLERSGLFIQPADHLRQWFAYHPLFACFLQGELSTHQPQRIAALHLRAAEALLVENMPEEAARHAVLARDPLRVGQVLQAHGRQFYRQGRLSLLKRCLEVLPAESIAESPLFTLLQAWISQNQLRFDEAERWLAAGEQVQQARFSAEEWVRLGADYKAVRAQIAIAQGDQQRAMSLVHEALACEPLVMRTSRVVAMSVLAEAHFVQGNLAEAQKQHEATERRAREINASLPALWSLGQLSEIAIAQGHLQKAYNLQERALQYIEREQLPATPVMEFIHRVRGQVLWEWHHLDAAEQSALQGIEILDTVGSRWFLQSYALLASVAHARGQQSVCADYIGKLQSLLAADDYHVDWLANAHAVMLTYWDSTQDKDAIQQWLCTAPPLKPGANHFAQYNGRNHARAHLALKQNDKALPILRQLQVDAERHQLVMDLNRNHILLAQLHWQREERQQALDHLHKALTLASTTGAIGSFLRVGKLLIVMLKTLQHERRLDELESQRADRLIQLAQQQRDFGKAIRITLDEAVIQDIINRPDVPELIRHSPLTRREWQVLSLIHAGQSNEQIAEHLNVAPTTIKTHIRSLYQKLNITHRSEAVQLARSLLSKIQGD	PGPT0018616_466	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0018616-malT-K03556	NA	NA
BMS010_09606	2118	cntO_2		Metal-pseudopaline receptor CntO	ATGAACCTACCCCCTAGACGATTCCTGATGGCCGGCATGCTGCTCGGCCTGGCAAGCAACCCTCTTACCGCCGAGGCGCAGGATGCCGCGGTGCTCGAGGCGCAGACGGTCACCGCCGAGCGGCGGGGCGCCGGTGAAGACAAGGGCTACCGGGTGGAGCGTTCCTCCGGTGCCACCAAGACCGACACGCCGCTGCGCGAGGTGCCGCAGTCGGTCAGCGTGGTGCCGGCCACGGTGCTGGAGGACCTGGATACGCCGCGTATCGAGAAGGCCCTGGACTACGCCGGTGGCGTCGCCCGGCAGAACGATTTCGGCGGCCTGACGATGTTCGAGTACAGCGTGCGCGGATTGACCACGTCGGAGTTCTACAAGGACGGCTTCAGCGCCAACCGCGGCTACATGAACACTCAGGACGCGGCCAGCGTCGAGCGCATCGAGGTGCTCAAGGGGCCGGCGTCGAGCCTGTACGGCCGGGGCGATCCGGGTGGCACGGTGAATATCGTCAGCAAGCGTCCGCAACAGGAGCGTTTCGCCCGCCTGGACCTCAGCGCCGGTCGCTGGGATCGCTACCGCAGCACGCTGGACGTCAACACGCCGCTGGATGACGACGGGAGCCTGCTCTACCGCATGAACGTCGCGGTGGAGGACAACAAGGACTTCCGCGACTACGGCGCCAGCGAACGGCAGTTCGTCGCCCCATCGCTCAGCTGGGCGCTGACGCCGGATACCCGCCTGCTGGTGCAGGCCGAGGTGGTGCGCAATCGCCAGGTATTCGACCGCGGCGTGGTGGCGCCGGGCAACCATCTGGGCTCGGTACCGCGCTCGCGATTCTTCGGCGAACCGGGCGACGGCGACATCGAGAACGACAACGACACCCTGCAGGCCGAACTGGAACACGACCTGAGCCCTGACTGGACGCTGCGCCTGGCCAGCCATTACAAGCGCGGCCGCCTGCATGGTTACGCCACCGAGGCGAACAGCCTGGCCGGCGATGGCTTCACCCTCAACCGCGAGTTCCGCTACCGCGACTTCGACTGGCACGACAGCATCACCCAGCTGGAACTGCGCGGCTTCGTCGAAACCGGGGCGGTGGAGCACCAGTTGCTGATCGGCAGCGAATACGAACGCTACACCAAGAACGAGCTGCTGCTGCGCTCGCGCCCGGTGTCGCGCATCGATATCCGCGACCCGGTATACGGCCAGCCGAGGCCGCCATTCAGCACCGGGCCGACCGGGCGCAGCACCGACAGGCACGAAAAAGTCGATGCCTATGCGCTCAACCTGCAGGACCAGATGCGCTTCGGCGAGAAACTGTTCGGGGTGATCGGGGCCCGCTACGACCGCTACGAACAGCGGCAGGAGGAAGATTTCCGCAGCACCCGGCAATCGCAGACACAGGATGAAGTCACACCCAGGGTTGGCGTGCTGTACCAGTTCATCCCGGAGCTGGGGCTGTTCGCCAATGCCTCGCGCTCGTTCAAGCCCAACAGCGGGGCGGATGCCAGCGGTGCGGCCTTCGAGCCGGAGCAGGGCGTGGGTTACGAGGCGGGCCTGAAGTTCGACCTGCTCGATGGTCGCCTTGGCATGACGCTGGCGGCGTTCCACCTGACCAAGGAGAACGTGCTGACTGCCGACCCGAACGACACCGCCTTCCAGATCGCCGCCGGCGAGGTACGCAGCCGTGGCGTCGACCTGCAGCTCACCGGCCAGCTCACCGACGCGTTGCGCGTCATCGGCGCTTATGCCTACGTCGATGCGGAGGTGACCGAGGACAACACCCTCGAGCCCGGCAGCCGGCTGCTCAACATCCCACGCCACAGCGGCAGCCTGATGACCATCTACGCGTTCCAGGGCGGCGACCTGCGCGGCGTGGAGCTGGGCGGCGCGGTGAACTACGTCGGCGACAGAGCCGGCAGCGCCAGCGACACCACCTTCGAACTGCCGGCCTACACCACGGTGGACCTGCTCGCCCGCTACCGGGTCAACGAGAACCTGTCCCTCGGCCTCAACCTGAACAACGCCTTCGACCGGACCTACTACGAGCGCTCCTACAGCAACGTCTGGATCGCACCCGGCGAGCCACGCAACCTCAATCTGAGCCTGTCCCTGAGCCTGTGA	MNLPPRRFLMAGMLLGLASNPLTAEAQDAAVLEAQTVTAERRGAGEDKGYRVERSSGATKTDTPLREVPQSVSVVPATVLEDLDTPRIEKALDYAGGVARQNDFGGLTMFEYSVRGLTTSEFYKDGFSANRGYMNTQDAASVERIEVLKGPASSLYGRGDPGGTVNIVSKRPQQERFARLDLSAGRWDRYRSTLDVNTPLDDDGSLLYRMNVAVEDNKDFRDYGASERQFVAPSLSWALTPDTRLLVQAEVVRNRQVFDRGVVAPGNHLGSVPRSRFFGEPGDGDIENDNDTLQAELEHDLSPDWTLRLASHYKRGRLHGYATEANSLAGDGFTLNREFRYRDFDWHDSITQLELRGFVETGAVEHQLLIGSEYERYTKNELLLRSRPVSRIDIRDPVYGQPRPPFSTGPTGRSTDRHEKVDAYALNLQDQMRFGEKLFGVIGARYDRYEQRQEEDFRSTRQSQTQDEVTPRVGVLYQFIPELGLFANASRSFKPNSGADASGAAFEPEQGVGYEAGLKFDLLDGRLGMTLAAFHLTKENVLTADPNDTAFQIAAGEVRSRGVDLQLTGQLTDALRVIGAYAYVDAEVTEDNTLEPGSRLLNIPRHSGSLMTIYAFQGGDLRGVELGGAVNYVGDRAGSASDTTFELPAYTTVDLLARYRVNENLSLGLNLNNAFDRTYYERSYSNVWIAPGEPRNLNLSLSLSL	PGPT0003790_21893	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS010_09607	717			hypothetical protein	ATGAAAACCCGGTATTCCCTGCTGTTCGCTGCCCTCTGCACCTTCGCCATGGGCCAGGCTTCCGCCCATGGCCTCTGGACCGAGGAGCGGCGTGGCCATATCGAAGTGGTCTACGGCCATGGCGCCGAGGACGACGCCTATGACCCGAAGAAGATCGCCGGCGCCTGGGCCTATGACGGCGAGGGCAAGGCCATTCCGGTGCATGTCGAACGGCTGGCGGACCATGCCCGGCTCAAGCCCGAGGCGAAGCCGGCGCTGCTCGCCGTGGCCATGGACAACGGCTACTGGACCCGCAACGCGGCGGAGCGCTGGGTGAACCTCGGCGAAACACAGGTGCCCGGCGCGCTCGAGTCCGGCCGCTACTTCAAGTACAGCCTGGCGGTGCTGGAGAAGGGCGCGACCTTGCCGCCGCTGGAACCGCTGAAACTGGCCATCCTCCCACAGCGCGACCCGCTGACGGTGGAAGCCGGCGAGATGCTGGAGGTGCAGGTGCTGGTGGACGGCAAGCCGGCGGCGGGCATCGAGCTTTACGACGACTGCATCAACGACCCGGACCATGTGGCCGCCACCACCGATGCCCAGGGCAAGGCGAAGGTCAAGGTACGCAACAATGGCCTCAACGTGATCGGCGCCTCGACCGAGGTGCCGGCGGACGACCCGGATGCGCGTGTGCGCGGCATGTTCGCGTCGCTGAGTTTCGTCAGTCATCACCATTGA	MKTRYSLLFAALCTFAMGQASAHGLWTEERRGHIEVVYGHGAEDDAYDPKKIAGAWAYDGEGKAIPVHVERLADHARLKPEAKPALLAVAMDNGYWTRNAAERWVNLGETQVPGALESGRYFKYSLAVLEKGATLPPLEPLKLAILPQRDPLTVEAGEMLEVQVLVDGKPAAGIELYDDCINDPDHVAATTDAQGKAKVKVRNNGLNVIGASTEVPADDPDARVRGMFASLSFVSHHH	PGPT0004475_44	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-CBI_TRANSPORT_SYSTEM,PGPT0004475-cbiK-K10094	NA	NA
BMS010_09608	1629	malL_4	COG0366	Oligo-1,6-glucosidase 1	ATGACTGTTCCCCATAACGACTGGTGGCGCGGCGGCGTCATCTATCAGGTGTATCCGCGCAGCTTCTTCGACAGCAACGGCGACGGCGTGGGCGATCTGCGCGGCGTGCTGGAGAAGATCGACTACATCGCCAGCCTCAATATCGATGCCATCTGGCTGTCGCCGTTCTTCACCTCGCCGATGAAGGATTTCGGCTACGACGTGTCCGATTATCGTGGCGTCGATCCGCTGTTCGGCACGCTCGACGACTTCAAGGCGTTGGTCCAGGCTGCCCACGCACGGGATATCCGCGTGCTGATCGACCAGGTGCTCAACCATTCCTCCGACCAGCATGCCTGGTTCGCGGAAAGCCGCTCCAGCCGCGACAATCCCAAGGCCGATTGGTACGTCTGGGCCGATGCCAGGCCCGACGGCACGCCGCCGAACAACTGGTTGTCGGTATTCGGCGGCCCGGCCTGGACCTGGGACAGCCGGCGCAAGCAGTACTACCTGCACAATTTCCTGTCCAGCCAGCCGGACCTCAACTTCCACTGCGAAGCCGTGCAGCAGCAGTTGCTCGACGACATGGAGTTCTGGCTCAAGCTCGGCGTCGATGGCTTCCGCCTGGATGCGGCGAATTTCTATTTCCACGACAAGTTGCTGCGCGACAACCCGCCGAACACCGAGGTGCGCGAGGGCAGCATCGGCGTGCGGGCGGACAACCCCTACGCCTTCCAGCGCCACCTGTACGACAAGACCCAGCCGGAGAACCTCGACTTCCTGCGCCGCCTGCGCGCCCTGCTGGAGCGCTACCCCGGCAGCGCCAGCGTCGCCGAGATCGGCTGCGATCACTCGCTGCGCACCATGGCCGCCTACACCGGCGGTGGCGACACCCTGCACATGGCCTATTCCTTCGACCTGCTCACCGAGCAGTGCAGCCCGGCGTTCATCCGCCGTACCCTGGAAAGCGTCGAGGCTGAACTGGGCGACGGCTGGCCCTGCTGGTCCACCGGCAACCACGACGTGGTGCGGGTGATGAGCCGTTGGGCGCTGAACGGCCAGCCGGAGTCTGCGCGCGGTCGCCTGCTGATGGCGCTGCTGTTGTCCCTGCGCGGCAGCGTGTGCCTGTACCAGGGCGAGGAACTGGGCCTGAGCGAAGCGGAACTGCGCTACGAGGATCTGGTCGATCCCTATGGCATCCGCTTCTGGCCCGAATTCAAGGGGCGCGACGGTTGCCGCACGCCGATGCCCTGGAGCGCCACGGCCGAGCATGCCGGCTTCAGCCATGCCAAGCCCTGGCTGCCGGTGGCCGAGGCACACCGGTCGCTGGCGGTGTCGGAGCAGGAGCGCGACCCGGACTCGATGCTCAACATCTACCGCCGTTTCCTCGGCTGGCGCGCCGAGCAGCCGGTCCTGGTCAGCGGCGAGATGCGTATGCTGCATCATGACGACGCGCTGCTGGTGTTCGAGCGCCGGTTGGGCGAGGAGACCTGGGTGTGCCTGTTCAACCTGGGCGACAGTCCGCGTCTCTACAGCCTGCCGGGGCGGCTCGAGCCGCTGGCGGATGTGCCGGCCAGCACTGCGACCTTCCAGGGAAGCTCGGTAAACTTGCCCGCCCACGGATTCGCATTCGCCCGCCTGGCGGGCTGA	MTVPHNDWWRGGVIYQVYPRSFFDSNGDGVGDLRGVLEKIDYIASLNIDAIWLSPFFTSPMKDFGYDVSDYRGVDPLFGTLDDFKALVQAAHARDIRVLIDQVLNHSSDQHAWFAESRSSRDNPKADWYVWADARPDGTPPNNWLSVFGGPAWTWDSRRKQYYLHNFLSSQPDLNFHCEAVQQQLLDDMEFWLKLGVDGFRLDAANFYFHDKLLRDNPPNTEVREGSIGVRADNPYAFQRHLYDKTQPENLDFLRRLRALLERYPGSASVAEIGCDHSLRTMAAYTGGGDTLHMAYSFDLLTEQCSPAFIRRTLESVEAELGDGWPCWSTGNHDVVRVMSRWALNGQPESARGRLLMALLLSLRGSVCLYQGEELGLSEAELRYEDLVDPYGIRFWPEFKGRDGCRTPMPWSATAEHAGFSHAKPWLPVAEAHRSLAVSEQERDPDSMLNIYRRFLGWRAEQPVLVSGEMRMLHHDDALLVFERRLGEETWVCLFNLGDSPRLYSLPGRLEPLADVPASTATFQGSSVNLPAHGFAFARLAG	PGPT0018560_4787	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187	NA	NA
BMS010_09609	1116	malK_10	COG3839	Maltose/maltodextrin import ATP-binding protein MalK	ATGGCCAGTGTGACCCTGCGCAACATCTGCAAGAGCTACGGCGACATCCCCATCACCCGGGGTATCGACCTGGATATCGCCGATGGCGAGTTCGTGGTCTTCGTCGGCCCGTCCGGCTGCGGCAAGTCGACCTTGCTGCGGCTGATCGCCGGCCTGGAGGAGATCACCTCCGGTGAGCTGCTGATCGACGGCCAGCGGGTCAACGAGCTGCCGCCGATGGAGCGTTCGGTGGGCATGGTGTTCCAGTCCTACGCGCTCTATCCGCACATGGACGTGGCGGAGAACATGGCCTTCGGTCTCAAGCTGGCCAAGGTGAGCAAGGCGGAGATCCGCCGGCGGGTCGAGGAGGTCGCGCGCATCCTGCAACTCGACCACCTGCTCGAACGCAAGCCGAAGGACCTGTCCGGCGGCCAGCGCCAGCGGGTCGCCATCGGCCGGACCCTGGTGCGCGAGCCCAAGGTGTTCCTCTTCGACGAACCGCTGTCCAACCTGGATGCGTTCCTACGGGTGCAGATGCGCATCGAGATTTCGCGCCTGCACCAGCGGCTCAAGTCCACCATGATCTACGTGACCCACGATCAAGTGGAAGCCATGACCATGGCCGACAAGATCGTGGTGCTCAACGCCGGCCGCATCGCCCAGGTCGGCCCGCCGCTGGAGCTGTACCACTACCCGCAGAATCGGTTCGTCGCCGGTTTCATCGGTTCGCCGCAGATGAACTTCCTGCCGGTGACGGCGGTGTCGGCGGATGCCGGATCGGTGCGGGTGGAGATGCCGGGCGGCTCCTGGCTCGACCTGCCGGTGGACGGCAGCGGCATCGCTCCCGGCGAGGCGCTGACCCTGGGCATCCGCCCGGAGCATTTCGTCGATGCGGAGCAGGCCGACTTCTCCTTCCACGGCGAGATTGCCGTGGCCGAGCGCCTGGGCGACCACAACCTGCTGCACCTGGTGGTGGAAGGCATCGAACCGATGCTCACCCTGCGCGGCGACGGCAATCGCCGGGTCCAGGCGGGCCAGCCCCTCGCCGCCGGCCTGCGGGCCGACAAATGCCACCTGTTCCGCGCCGACGGCGAGGCCTGCCGCCGGCATTACCGGGAGCCGGCGATTTACGGGTGA	MASVTLRNICKSYGDIPITRGIDLDIADGEFVVFVGPSGCGKSTLLRLIAGLEEITSGELLIDGQRVNELPPMERSVGMVFQSYALYPHMDVAENMAFGLKLAKVSKAEIRRRVEEVARILQLDHLLERKPKDLSGGQRQRVAIGRTLVREPKVFLFDEPLSNLDAFLRVQMRIEISRLHQRLKSTMIYVTHDQVEAMTMADKIVVLNAGRIAQVGPPLELYHYPQNRFVAGFIGSPQMNFLPVTAVSADAGSVRVEMPGGSWLDLPVDGSGIAPGEALTLGIRPEHFVDAEQADFSFHGEIAVAERLGDHNLLHLVVEGIEPMLTLRGDGNRRVQAGQPLAAGLRADKCHLFRADGEACRRHYREPAIYG	PGPT0014160_588	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0014160-malK|mtlK|thuK-K10111	NA	NA
BMS010_09610	1353	uacT	COG2233	Uric acid transporter UacT	ATGACCCAGCCGAGTGAGCCCGCCGTCCCCCTCTCCCCGAACGAACAGCGCCTGCCGCCCCTGCAACTGCTGCTGGTGGCCATCCAGCACGTGCTGCTGATGTACGGCGGCGCCGTCGCCGTGCCGCTGATCGTCGGCCAGGCGGCCGGCCTGTCGCGGGAGGAAATCGCCTTCCTGATCAACGCCGACCTGCTGGTGGCCGGCATCGCCACGGTGGTCCAGTCCCTCGGCATCGGTCCTCTCGGCATCCGCATGCCGGTGATGATGGGCGCCAGCTTCGCCGCGGTCGGCAGCATGGTGGTGATGGCCGGCATGCCCGGCGTCGGCATGCCGGGCATTTTCGGCGCGACCATCGCCGCCGGCTTCTTCGGCCTGCTGATCGCCCCCTTCGTCTGCAAGATCGTGCGCTTCTTCCCGCCGCTGGTAACCGGCACGGTGATCACTTCCATCGGCCTTTCGCTGTTCCCGGTGGCGGTCAATTGGGCCGGCGGCGGCAGCGCCGCCACGCAGTTCGGCGCCCTGCAATACCTGGCCATCGCCGCCCTGGTGCTGGTCACCATCCTGCTGGTGAATCGCTTTTTGCGCGGTTTCTGGGTCAACGTCTCGGTGCTGATCGGCATGGCCCTGGGCTACGTGCTGGCCGGCGCCTTCGGCATGGTCGACCTGTCCGGCATCGGCGCCGCGCCGGCGATGCAGGTGGTGACCCCCAATCACTTCGGCGCACCGGAATTCCAGCTCGCGCCGATCCTGTCCATGTGCCTGGTGGTGGTGATCATCTTCGTCGAGTCGGCCGGCATGTTCCTCGCCCTCGGCAAGATCACCGGCCAGGAGGTGGACCCGCAGAAGCTCCGCCGTGGCCTGCTGTGCGATGCCGGCGCCTCCTTCCTGGCCGGCTTCATGAACACCTTCACCCATTCCTCGTTCGCCCAGAACATCGGCCTGGTGCAGATGACCGGCGTGCGCAGCCGCTACGTGACGGCGGTGGCCGGGCTGTTCCTGATCGGCCTCAGCCTGCTGCCCAAGGCGGCCTTCCTGGTCGCCTCGATTCCGCCGGCGGTGCTCGGCGGCGCCGGCATCGCCATGTTCGGCATGGTCGCCGCGACGGGTATCAAGATTCTCCAGGAAGCGGACATCGGCGACCGCCGCAACCAGTTGCTGGTGGCAGTGAGCATCGGCCTGGGCATGGCGCCGGTGGTACGCCCCGAATTCTTCGCCCACCTGCCGCACTGGATGGAACCGATCACCCACAGCGGCATCGCCATGGCGACCCTCAGCGCGGTGACCCTGAACCTGCTGTTCAACGTCCTCGGCGGCCGCGAACGCGCCACCCTGAGCGGTGCGGCGTTGCATTGA	MTQPSEPAVPLSPNEQRLPPLQLLLVAIQHVLLMYGGAVAVPLIVGQAAGLSREEIAFLINADLLVAGIATVVQSLGIGPLGIRMPVMMGASFAAVGSMVVMAGMPGVGMPGIFGATIAAGFFGLLIAPFVCKIVRFFPPLVTGTVITSIGLSLFPVAVNWAGGGSAATQFGALQYLAIAALVLVTILLVNRFLRGFWVNVSVLIGMALGYVLAGAFGMVDLSGIGAAPAMQVVTPNHFGAPEFQLAPILSMCLVVVIIFVESAGMFLALGKITGQEVDPQKLRRGLLCDAGASFLAGFMNTFTHSSFAQNIGLVQMTGVRSRYVTAVAGLFLIGLSLLPKAAFLVASIPPAVLGGAGIAMFGMVAATGIKILQEADIGDRRNQLLVAVSIGLGMAPVVRPEFFAHLPHWMEPITHSGIAMATLSAVTLNLLFNVLGGRERATLSGAALH	PGPT0007330_154	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-XANTHINE_METABOLISM	PHYTOHORMONE-XANTHINE_TRANSPORT,PGPT0007330-pubX-K16169	NA	NA
BMS010_09611	1302			hypothetical protein	GTGGACGCACATCTGACCGAGTGGCTTAACCTGGGCATTCGCTGGATCCATATGATCACCGGCATCGCCTGGATCGGCGCCTCCTTCTACTTCGTCTGGCTGGAAAACAACCTCAACCGCAGCAACCCCCGCGAAGGGCTGTCCGGAGACCTCTGGGCCATCCACGGCGGCGGCATCTACCATCTGGAAAAATACAAGCTGGCTCCGCCGAAAATGCCGGAGAACCTGCACTGGTTCAAATGGGAGGCCTACTTCACCTGGATGTCGGGCGTCGCCCTGCTGATGGTGGTCTACTACCTGAACCCGAGCCTCTACCTGATCGCCCCCGGCAGCGATCTCAGCCCGGCCGCCGCCGTGCTGATCGGCTTCGGCTCGCTGGCCGTCGGCTGGCTGGTGTACGACCAGCTCTGCGACTCGCCCCTGGGCAAGCAGCCGGCCCTGCTCGGCGCGGTCCTGTTCGTGCTGGTAGTGTTCGCCGCCTGGGGCTACACCCAGGTGTTCAGCGGCCGTGCCGCCTACATCCATGTCGGCGCGCTGATCGGCACCATCATGGTCGGCAATGTGTTCCGCATCATCATGCCGGCCCAGCGCGCACTGGTTAAGGCCATCGAGGAAAACCGCACCCCGGACCCGGTGCTGCCGGCCAAGGGCCTGCTGCGTTCGCGCCACAACAACTACTTCACCCTGCCGGTGCTGTTCATCATGATCAGCAACCACTTCCCAAGCACCTACGGCAGCCAGTACAACTGGGCGATCCTGGCCGGCATCTCGGTACTGGCGGTGCTGGTGCGGCACTACTTCAACACCCGCCACGAGAGCGGCAAGTTCGCCTGGACCCTGCCGGTAGCGGCGCTGGGCATGATCTGCCTGGCCTTCGTCACCACCCCGAACCGCCAGCCGGCCACCCCCAGCGTCGCCACGGCGCAGGTCGTGGAGCAGCCTGCCGCCAGCCAGCCGGCGCAGACCGCTCCGGCCGACGAGGCAACGGAAGACAAGGCTCCGGTCGCCGCCGAAGCCCCGGCCAAACCGCAAGGCAGCGCGCCGGACTTCGCCAAGGTCAGCAATGTGATCCATGAGCGTTGCACCGTCTGCCACTCCGCCCAGCCGACCAGCCCGCTGTTCAGCGCCGCGCCGGCCGGGGTGATGTTCGACACCCCGCAGCAGATCCAGCAGCTCGCCGCGAAGATCCATGCGCAGAGCGTCGCCAGCCAGATCATGCCGCTGGGCAACATCACCCAGATGACCCAGGAAGAACGCGACCTGATCGGCGCCTGGATCGCCCAGGGCGCCCAGATCAACTGA	MDAHLTEWLNLGIRWIHMITGIAWIGASFYFVWLENNLNRSNPREGLSGDLWAIHGGGIYHLEKYKLAPPKMPENLHWFKWEAYFTWMSGVALLMVVYYLNPSLYLIAPGSDLSPAAAVLIGFGSLAVGWLVYDQLCDSPLGKQPALLGAVLFVLVVFAAWGYTQVFSGRAAYIHVGALIGTIMVGNVFRIIMPAQRALVKAIEENRTPDPVLPAKGLLRSRHNNYFTLPVLFIMISNHFPSTYGSQYNWAILAGISVLAVLVRHYFNTRHESGKFAWTLPVAALGMICLAFVTTPNRQPATPSVATAQVVEQPAASQPAQTAPADEATEDKAPVAAEAPAKPQGSAPDFAKVSNVIHERCTVCHSAQPTSPLFSAAPAGVMFDTPQQIQQLAAKIHAQSVASQIMPLGNITQMTQEERDLIGAWIAQGAQIN				NA	NA	NA	NA	NA
BMS010_09612	504	allA_2	COG3194	Ureidoglycolate lyase	ATGCGCACATTGACCATCGAGCCGTTGACCAAGGAAGCCTTCGCCCCCTTCGGAGATGTCATCGAAACCGAGGGCAGCGACTACTTCATGATCAACAACGGCTCCACCCGCCGTTATCACAAGCTGGCCACGGTCGAGACCGCCCAGCCGGAGGATAAGGCGATCATCAGCATCTTCAGCGCCGAAGCCCTGGAAATGCCGCTGGTCATCCGCATGCTGGAACGTCACCCGCTGGGCAGCCAGGCGTTCATCCCGCTGCTCGGCAACCCCTTTCTGGTCGTGGTCGCGCCACTTGGCGATGCACCTGTACCGGACCTCGTCCGCGCCTTCCGCAGCAACGGCAGGCAGGGCGTCAATTACCACCGCGGCGTCTGGCACCACCCGGTGCTGACGATCGAAAAGCGGGATGAATTCCTGGTGGTCGATCGCAGCGGTTCAGGGAACAACTGCGACGAGTACTTCTTCACGGAGGGCGAACAGCTCCTCCTCGACCCCCAACCCTAA	MRTLTIEPLTKEAFAPFGDVIETEGSDYFMINNGSTRRYHKLATVETAQPEDKAIISIFSAEALEMPLVIRMLERHPLGSQAFIPLLGNPFLVVVAPLGDAPVPDLVRAFRSNGRQGVNYHRGVWHHPVLTIEKRDEFLVVDRSGSGNNCDEYFFTEGEQLLLDPQP	PGPT0021505_405	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021505-allA-K01483	NA	NA
BMS010_09613	996	alc		allantoicase	ATGAGAACCTACGCCGCACCCTTCGAGAAATTCGTCAACCTGGCCGACGCCCGCCTCGGCACCCAGGCGATCTACGTCACCGACGACTGGTTCGCCGACGTCAACCGGCTGTTCCAGCCCACCCCGGCGGTCTGGAAGGAGGGTGTGTTCGACGACAACGGCAAGTGGATGGACGGCTGGGAATCCCGCCGCAAGCGTTTCGAAGGCTACGACTACGCGGTGATCCGCCTCGGCGTGCCCGGCTCGATCAAGGGCGTGGACATCGACACCAGCCACTTCACCGGCAACTACCCGCCGTCCGCTTCGCTGGAAGCCTGTTTCGTCGCCGACGGCGACCCGACCGACGACACCGTCTGGACCGAAGTGCTGCCGGCCGTCGAACTGCAAGGCAACAGCCACCACTACCACGCGATCGACGATAGCCAGGCCTACACCCACCTGCGCTTCAACATCTTCCCGGACGGCGGCGTGGCACGCCTGCGCGTGTACGGCATCCCCTACCGCGACTGGAGCAGCGTCGGCGACAACGAGCAGATCGACCTGGCCGCCGCGCTCAACGGCGGCCGTGCCCTGGCTTGCTCCGACGAACACTTCGGGCGTATGAGCAACATCCTCAACCCGGGCCGTGGCGTGAACATGGGCGACGGCTGGGAAACCGCGCGCCGCCGTACCCCGGGCAACGACTGGGTGATCGTCGCCCTCGGCCATCCGGGCGAGATCGAGCGCATCGTGGTCGACACCCTGCACTTCAAGGGCAACTACCCGGACAGCTGCTCGATCCAGGCGGCCTACGTGAAAGGCGGCACCGACAGCCAGATCGAGACCCAGAGCCTGTTCTGGCGCGAGCTGCTGCCGAGCCAGAAGCTGCAGATGCACCAGGAGCACGAGTTCGTCGAGCAGATCGCCAAGCTCGGCCCGGTCACCCACGTGCGCCTGAACGTGTTCCCGGACGGCGGTGTCAGCCGGCTGCGCCTGTTCGGCAAAGTGGCCCGCTGA	MRTYAAPFEKFVNLADARLGTQAIYVTDDWFADVNRLFQPTPAVWKEGVFDDNGKWMDGWESRRKRFEGYDYAVIRLGVPGSIKGVDIDTSHFTGNYPPSASLEACFVADGDPTDDTVWTEVLPAVELQGNSHHYHAIDDSQAYTHLRFNIFPDGGVARLRVYGIPYRDWSSVGDNEQIDLAAALNGGRALACSDEHFGRMSNILNPGRGVNMGDGWETARRRTPGNDWVIVALGHPGEIERIVVDTLHFKGNYPDSCSIQAAYVKGGTDSQIETQSLFWRELLPSQKLQMHQEHEFVEQIAKLGPVTHVRLNVFPDGGVSRLRLFGKVAR	PGPT0000880_845	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0000880-alc-K01477	NA	NA
BMS010_09614	516	uao_2		Uric acid degradation bifunctional protein	ATGAGCCGCTTCCAGACCCTGACCCCGTCCAGCCTCGACCGCGACGCCTTCGTCGCCGCCTTCGCCGACATCTACGAGCACTCGCCCTGGGTCGCCGAGAAAGCCTATGACCTGGGCGCGGACGCCAGCCTGGACGACATCGACGGCCTGCACCAACGCATGGCCGACATCCTGTTCAGTGCCAGCCGCGATGCCCAGTTGGCGCTGATCAACGCTCACCCGGACCTGGCCGGCAAGGCCGCGGTCCGCGGCGAGCTGACCGCCTCCTCCACCTCGGAGCAGGCCGGTGCGGGCATCCACGAATGCACCCCCGAGGAATTCGCCCGCTTCACCGAACTGAACGATGCCTACAAGGCCAAGTTCGGCTTTCCTTTCATCATGGCGGTGAAAGGCAGCAACCGGCACCAGATCCTGGCGGCCTTCGAAGAGCGCATCCACAACACGCCCGACGAGGAATTCGCCCGCGCCCTGGCCGAGATCAACAAGATCGCGCTGTTCCGCCTGCAACAGCTCTGA	MSRFQTLTPSSLDRDAFVAAFADIYEHSPWVAEKAYDLGADASLDDIDGLHQRMADILFSASRDAQLALINAHPDLAGKAAVRGELTASSTSEQAGAGIHECTPEEFARFTELNDAYKAKFGFPFIMAVKGSNRHQILAAFEERIHNTPDEEFARALAEINKIALFRLQQL	PGPT0021130_467	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0021130-uraD-K13485	NA	NA
BMS010_09615	933			hypothetical protein	GTGAGCGCCGACTACCCACGCGACCTGATCGGTTACGGCAACAACCCGCCTCATCCCCGCTGGCCGGGCGATGCCCGCATCGCCCTGTCCTTCGTGCTGAACTACGAGGAAGGCGGCGAGCGAAACATCCTCCATGGCGACAAGGAGTCCGAGGCGTTCCTCTCCGAGATGGTGGCCGCCCAGCCGCTGCAAGGCGTGCGCCACATGAGCATGGAATCGCTCTACGAATACGGCAGCCGCGCCGGCGTCTGGCGCCTGCTCAAGCTATTCAAGCGCCACGACATCCCGCTGACCATCTTCGCCGTGGCCATGGCCGCCCAGCGTCATCCCGAGGCGATCAAGGCGATGGTCGCCGAAGGCCATGAGATCTGCAGCCACGGCTACCGCTGGATCGACTACCAGTACATGAACGAAGCGGAAGAGCGCGAGCACATGCTCGAGGCGATCCGCATCCTCACCGAGCTGACCGGCGAACGCCCGCTCGGCTGGTACACCGGCCGCACCAGCCCGAACACCCGTCGCCTGGTGCGCGAGGAAGGCGGCTTCTTCTACGACTCCGACACCTACGACGATGACCTGCCCTACTGGGACCCGGAAAGCACACCGGAAAAGCCGCACCTGGTGATCCCCTATACCCTGGACACCAACGACATGCGCTTCACCCAGGTACAGGGCTTCAACAAGGGCGACGACTTCTTCGAATACCTGAAGGACGCCTTCGACGTGCTCTATGCCGAAGGTGCCGAAGGCGCGCCGAAGATGCTCTCCATCGGCATGCACTGCCGCCTGCTCGGCCGCCCGGCGCGACTGGCCTCGCTGGCCCGCTTCCTCGACTATGTGAAAAGCCACGACAAGGTCTGGTGTGCCCGTCGCATCGACATCGCCCGCCACTGGCACGCCACCCACCCGTTCACCGCGGAGAGCGCGAAATGA	MSADYPRDLIGYGNNPPHPRWPGDARIALSFVLNYEEGGERNILHGDKESEAFLSEMVAAQPLQGVRHMSMESLYEYGSRAGVWRLLKLFKRHDIPLTIFAVAMAAQRHPEAIKAMVAEGHEICSHGYRWIDYQYMNEAEEREHMLEAIRILTELTGERPLGWYTGRTSPNTRRLVREEGGFFYDSDTYDDDLPYWDPESTPEKPHLVIPYTLDTNDMRFTQVQGFNKGDDFFEYLKDAFDVLYAEGAEGAPKMLSIGMHCRLLGRPARLASLARFLDYVKSHDKVWCARRIDIARHWHATHPFTAESAK	PGPT0012156_271	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-CHITINOLYTIC_ACTIVITIES,PGPT0012156-chitin_deacetylase-NA	NA	NA
BMS010_09616	354	pucM_2	COG2351	5-hydroxyisourate hydrolase	ATGGGACGTTTGACGACGCATGTACTGGATGCCGCCCACGGCTGCCCCGGCAGCGGTATCCGCATCGAGCTGTACCGGGTCGAAGCCGAGCGGCTGGAGCGGGTCGCCCAGGTGGAAACCAACCACGATGGCCGCTGCGACGCGCCCTTGCTGCAAGGCGAGGATTACCGCAGCGGTGTGTACCAGCTGCACTTCCATGCCGGCGATTACTACCGCGCCCGTGGCGTCGCCCTCCCGGAACCGGCCTTCCTCGACGTGGTGGTGCTGCGCTTCGGCATCTCCGCGGAGCAGGATCACTACCATGTGCCGTTGCTGATTTCGCCGTACAGCTACTCCACGTACCGGGGCAGCTAG	MGRLTTHVLDAAHGCPGSGIRIELYRVEAERLERVAQVETNHDGRCDAPLLQGEDYRSGVYQLHFHAGDYYRARGVALPEPAFLDVVVLRFGISAEQDHYHVPLLISPYSYSTYRGS	PGPT0021125_1064	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0021125-uraH|pucM|hiuH-K07127	NA	NA
BMS010_09617	627	rhtB_10	COG1280	Homoserine/homoserine lactone efflux protein	ATGAGTCTGGAAACCTGGCTGCTGTACGCCAGTGCCGCCCTGGTGGTGATCCTGATCCCCGGCCCGCTGTCGCTGCTGATGATCAGCAACAGCCTGAACTACGGCCTGCGCCGCTCCTGGCCGGCCTTCCTCGGTGGGGTCAGCGCCTCGATCTGCCTGCTCAGCGCCTCCGCCCTCGGGCTCGGCGCATTGCTGCTGGCCTCGGAGCAGGTGTTCAGCCTGCTGAAGATTCTCGGGGCGGTCTATCTGTTCTACCTCGCCTGGCAGAGCTGGCAGGAATCGCGCCGCGACGTCCGTACCGCCAGCGCTGACGAAGCGCCGGCCAATCCGGCGTTCCGCGCCCTGTTCTGGCGCGCCTTCGGCCTGGGCGCGAGCAATCCCAAGGACATCCTGTTCTTCGCCGCCTTCCTGCCGCAGTTTCTCAGCGCCGACCGTCCGTTCGTACCGCAACTGCTGACCATGATCGCCACCTGGGCGGTTCTGGACCTCGCCTGCAAGCTCGCCTACGGCCTCGGCGCCCACGGCGCCTCGCGCTACCTGCGCAGCGGTAAGGGCCAGGCCTGGTTCAACCGCATCAGCGCCGGCCTGTTCGGCGGCGCCGGCGCGGCGTCGTTGTTGAGCCGGTAG	MSLETWLLYASAALVVILIPGPLSLLMISNSLNYGLRRSWPAFLGGVSASICLLSASALGLGALLLASEQVFSLLKILGAVYLFYLAWQSWQESRRDVRTASADEAPANPAFRALFWRAFGLGASNPKDILFFAAFLPQFLSADRPFVPQLLTMIATWAVLDLACKLAYGLGAHGASRYLRSGKGQAWFNRISAGLFGGAGAASLLSR				NA	NA	NA	NA	NA
BMS010_09618	1308	adeP_2	COG2252	Adenine permease AdeP	ATGCGTACCGGACCCGGTTGGCTCGACCGCTTCTTCAAGCTCAGCGAACACCGCACCAGCGTGCGGACCGAGTTGCTGGCCGGCCTGACGACTTTCGTCACCATGGCCTACATCATCTTCGTCAACCCCAACATCATGGCCAACGCCGGCGTCGACCACGGTGCCGCGTTCGTCGCCACCTGCATCGGTGCGGCGCTCGGCTGCTTCCTCATGGGCCTGTATGCCAACTGGCCGGTGGGCCTGGCGCCGGGCATGGGGCTCAACGCCTTTTTCACCTACACCGTGGTCGGCGAAATGGGCTACAGCTGGCAGATCGCCCTGGGCGCGGTGTTCCTCTCCGGCATCCTGTTCATGATCATGAGCCTGTCGCGCATCCGCGAGTGGCTGCTCAACAGCATCCCCATGAGCCTGCGCTTCGCCATGGGCGCGGGGGTCGGCCTGTTCCTCGGACTGATCGGCCTGAAGACCGCCGGCATCGTGGTGGACAGCCCGGCGACGCTGCTGACCATGGGTTCCTTCCAAGAGCCGTCGGCCCTGCTCGCCGCGATCTGCTTCCTGCTGATCGCCGTGCTCAGCCACCGCAACGTGTTCGGCGCCATCCTCTTCAGCATCCTCGCCGTCACCCTCGCCGGCTGGGCGCTGGGCCTGGTGGAATACCAGGGGCTGATCTCGATGCCGCCGAGCCTGGCGCCCACCTTCCTGGCCATGGACATCGCCGGCGCGCTCAACGTGGGGATGATCAGCGTCATCCTGGCCTTCCTCTTCGTGAACATGTTCGACACCGCCGGGACCCTGATGGGGGTCGCCCATCGCGCCAACCTGGTGGACGACGACGGCAAGATCCAGAACCTGTCCCGCGCCTTGAAGGCCGACAGTACCTCCAGCGTGGTCGGCGCCCTGGTCGGCTGCCCGCCGGTGACCAGCTACGTGGAAAGCGCCTCGGGCGTTGCCGCCGGCGGCCGCACCGGCCTGACAGCCATCACCGTCGGCCTGCTGTTCCTCGCCGCCATGTTCTTCGCCCCGCTGGCGGGCATGATCCCGGCCTATGCCACCGCCGGCGCGCTGATCTACGTGGCGATGCTGATGATGAGCGGCATGGCCCACATCGACTGGAAGGACCATACCGACACCATCCCGGCCATCGTGACCGTGGTGATGATGCCGCTGACCTTCTCCATCGCCAACGGCATCGCCCTGGGCTTCCTCACCTACGCGACGTTGAAGCTGCTCACCGGCCAGCGCGACAAGGTGTCGATCAGCCTGTACGTGTTGTGTGCGATATTCATCGCCAAGTTCGCCTTCCTCTGA	MRTGPGWLDRFFKLSEHRTSVRTELLAGLTTFVTMAYIIFVNPNIMANAGVDHGAAFVATCIGAALGCFLMGLYANWPVGLAPGMGLNAFFTYTVVGEMGYSWQIALGAVFLSGILFMIMSLSRIREWLLNSIPMSLRFAMGAGVGLFLGLIGLKTAGIVVDSPATLLTMGSFQEPSALLAAICFLLIAVLSHRNVFGAILFSILAVTLAGWALGLVEYQGLISMPPSLAPTFLAMDIAGALNVGMISVILAFLFVNMFDTAGTLMGVAHRANLVDDDGKIQNLSRALKADSTSSVVGALVGCPPVTSYVESASGVAAGGRTGLTAITVGLLFLAAMFFAPLAGMIPAYATAGALIYVAMLMMSGMAHIDWKDHTDTIPAIVTVVMMPLTFSIANGIALGFLTYATLKLLTGQRDKVSISLYVLCAIFIAKFAFL	PGPT0007325_2052	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-XANTHINE_METABOLISM	PHYTOHORMONE-XANTHINE_TRANSPORT,PGPT0007325-pbuG|azgA|ghxP|ghxQ|adeQ-K06901	NA	NA
BMS010_09619	762	nanR_3		HTH-type transcriptional repressor NanR	ATGAACGAACAGTTGCAGCCCCTCAAGAAGCAGCCGCGTGCCGGCAAGAGCCGCAGCGGGACTCAGGACGATGTCGTCTACGCCCATATCTTCGATGCCATCCTCGAACAGCGCCTGGCCCCCGGGACCAAGCTGAGCGAGGAGGCATTGGGCGAGATCTTCGGCGTGAGCCGCACCATCATCCGCCGCGCGCTTTCCCGGCTGGCCCACGAGGGCGTGGTGCTGCTGCGACCGAATCGCGGGGCGGTGGTGGCCAGCCCCAGTGTCGAGGAAGCGCGGCAGATCTTCTTCGCGCGACGTATGGTGGAGCGCGCCATCACCGAGCTGGCGGTGGAGCATGCCACCGCCGAGCAGCTTGCCGAGCTGCGCCAGATGGTCTCCGAGGAACAGGCCTGCTTCTCCCGCGGCGACCGTGGCGCCGGCATCCGTCTCTCCGGCGAGTTCCACCTGAAGCTGGCCGAGGCGGCGAAGAACGCGCCGCTGATCAGCTTCCAGCGCAGCTTGGTGTCGCAGACCTCGCTGATTATCGCCCAGTACGAAAGCAGCGGTCGCCAGCATTGTTCCTACGACGAGCACAACGAGTTGATCGACGCCATCGAGGCTCGCGACAAGGACAAGGCAGTGACCCTGATGATGCATCACATGGATCACATCGACAGCAAGCTCAACCTCGACGAGGACAGCGCTTCGGACGACCTGCACGCGGTGTTCTCGCACCTGCTGCAGACCCGCAAGAAGCCGGGCCGGGCCACGGCGCGATAA	MNEQLQPLKKQPRAGKSRSGTQDDVVYAHIFDAILEQRLAPGTKLSEEALGEIFGVSRTIIRRALSRLAHEGVVLLRPNRGAVVASPSVEEARQIFFARRMVERAITELAVEHATAEQLAELRQMVSEEQACFSRGDRGAGIRLSGEFHLKLAEAAKNAPLISFQRSLVSQTSLIIAQYESSGRQHCSYDEHNELIDAIEARDKDKAVTLMMHHMDHIDSKLNLDEDSASDDLHAVFSHLLQTRKKPGRATAR				NA	NA	NA	NA	NA
BMS010_09620	1305	guaD_2	COG0402	Guanine deaminase	ATGAACGAAAAACTGAAAGCCTACCGCGCCGCCATCCTGCACAGCCTCGCCGACCCGAGCGAGGTCGGTATCGAGCAGTCCTACCAGCATTTCGAAGACGGCGTGCTGCTCGTCGAGGACGGCCGGGTGGTGAAGGTCGGCGCCGCCGAAGACCTGCTGCCGACGCTGAAAGGCGTCGAGATGGTCGAATACCGCGACGCCCTCATCACCCCTGGCTTCATCGACACTCACATCCACTACCCGCAGACCGGCATGATCGCCTCCTACGGCGAACAACTGCTGGACTGGCTGAACACCTACACCTTCCCCACCGAGCGCCAGTTCGCCGACAAGGCCCATGCCAGCGACGTAGCGAACATCTTCCTCAAGGAGCTGCTGCGCAACGGCACCACCACCGCGCTGGTCTTCGGCACCGTGCACAAGCAGTCGGTGGATGCCTTCTTCGAGGCCGCCCAGGCGCTGAACCTGCGGATGATCGCCGGCAAGGTGCTGATGGACCGCAACGCCCCGGACTACCTGACGGACACGGCGGAATCCGGCTATGCCGACAGCAAGGAGCTGATCGAACGCTGGCACGGCAAGGGCCGCCTGCACTATGCGGTGACCCCGCGCTTCGCGCCGACCAGCACCCCGGAGCAACTGACCCTGGCCGGCAAGCTGCTCGCCGAGTACCCGGACCTGTACATGCACACCCACCTGTCCGAGAACCGCAAGGAGATCGAGTGGGTGCGCGAGCTGTTCCCCGAGCGCAGCGGCTACCTGGACGTCTACGACCACTACCGGCTGCTCGGCGCGCGCTCGGTGTTCGCCCACGGCGTGCACCTCTGCGACCACGAATGCCAGCGCCTCGGCGAGACCGGCTCGGCCGTCGCCTTCTGCCCCACCTCCAACCTGTTCCTCGGCAGCGGCCTGTTCGACCTGGACAAGCTGGAGCGCCACGGCGTGCGCGTCGGCCTGGGCACCGATGTGGGCGCCGGCACCAGCTTCTCCCAGTTGCAGTCGCTGAACGAGGCGTACAAGGTCCTGCAACTCCAGGGCAAGAAGCTCGATCCGTTCAAATCGCTGTACCTGGCAACCCTGGGCGGCGCCCGCTCGCTCTACCTGGACGACCGCATCGGCAACTTCCAGAACGGCAAGGACGCAGACTTCGTCGTCCTCGACTACCACGCCACCCCGCTGCTGTCCTACCGCCTGCAACAGGCCAGGACGCTGGAGGAAAAGCTGTTCGCCCTGATCATCCTCGGCGACGACCGCGCAGTGAAGGAAACCTTCGCCGCCGGGCAGTCGGTGCATCGACGCGGTTGA	MNEKLKAYRAAILHSLADPSEVGIEQSYQHFEDGVLLVEDGRVVKVGAAEDLLPTLKGVEMVEYRDALITPGFIDTHIHYPQTGMIASYGEQLLDWLNTYTFPTERQFADKAHASDVANIFLKELLRNGTTTALVFGTVHKQSVDAFFEAAQALNLRMIAGKVLMDRNAPDYLTDTAESGYADSKELIERWHGKGRLHYAVTPRFAPTSTPEQLTLAGKLLAEYPDLYMHTHLSENRKEIEWVRELFPERSGYLDVYDHYRLLGARSVFAHGVHLCDHECQRLGETGSAVAFCPTSNLFLGSGLFDLDKLERHGVRVGLGTDVGAGTSFSQLQSLNEAYKVLQLQGKKLDPFKSLYLATLGGARSLYLDDRIGNFQNGKDADFVVLDYHATPLLSYRLQQARTLEEKLFALIILGDDRAVKETFAAGQSVHRRG	PGPT0021515_1420	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021515-guaD-K01487	NA	NA
BMS010_09621	822			hypothetical protein	ATGGATCGGCGCCCTCGCCGAGCTGCAACAGAAGGGCGAGCCCTGCGTGCGGTGACCATCATCGAAGAGCGCGGCTCCACCCCGCGCAATGCCGGCTCGAAGATGATCGTCACCCGCGAGCGCATCTTCGAGACCATCGGCGGCGGCCATCTGGAATACAAGGCCATGGAACTGGCCCGAGAAATGCTGGAAAACCGCAGCCAGGAAACCCGCCTGGAGCGCTTCAGCCTGGGCGCCAGCCTCGGCCAGTGCTGCGGCGGCGCCACCGTGTTGCTGTTCGAACCCATGGGCCAGCCGCAGGCGACCATCGCCGTGTTCGGCGCCGGCCACGTCGGCCGTGCCCTGGTGCCGCTGCTCGCCAGCCTGCCGTGCAAGGTGCGCTGGATCGACTCGCGGGAGAACGAATTTCCCGAACAAGTCCCGGCCGGTGTGGAAAAGGTGATCAACGACGAGGTGGTGGACGAAGTGGATGCGATGCCCGCCGGCAGCTACTTCATCGTCATGACCCACAACCACCCGTTGGACCTGGAACTGACCGCCGCCATCCTCAAGCGCAACGACTTCGCCTATTACGGGCTGATCGGCTCGCGCACCAAGCGCGTGAAGTTCGAGCATCGCCTGCGCGAGCGCGGCTTCCAGGCCGAGGTCATACAGCGCATGCGCTGCCCCATGGGCCTGCCGGAAGTGAAAGGCAAGCTGCCCATCGAGATCGCGGTGTCCATCGCCGGCGAAGTGATCGCCACCTACAACGCCCATTTCGGCGCCGAGACCCGCAAGGGCGAGACCGTGACCAAGCTGCTGCCCGCCTCCCGTCGCGGCTGA	MDRRPRRAATEGRALRAVTIIEERGSTPRNAGSKMIVTRERIFETIGGGHLEYKAMELAREMLENRSQETRLERFSLGASLGQCCGGATVLLFEPMGQPQATIAVFGAGHVGRALVPLLASLPCKVRWIDSRENEFPEQVPAGVEKVINDEVVDEVDAMPAGSYFIVMTHNHPLDLELTAAILKRNDFAYYGLIGSRTKRVKFEHRLRERGFQAEVIQRMRCPMGLPEVKGKLPIEIAVSIAGEVIATYNAHFGAETRKGETVTKLLPASRRG	PGPT0007280_3331	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-XANTHINE_METABOLISM	PHYTOHORMONE-XANTHINE_BIOSYNTHESIS,PGPT0007280-xdhC|paod|ygeB|pucA-K07402	NA	NA
BMS010_09622	165			hypothetical protein	ATGACAAGACACACCGAACATCAACCGGATACCCCGGCCACGCAGGGCCGCGAAACCCTGCCGCCGCTGTTCCTGCTGGAGCCGCCGGCCCCTCGTCCGCAGAAGGACGACTGGCGCCTGTCGCGCACCGCCAAGCCCCTGCGCACCTGGAGGCTGAGCAAATGA	MTRHTEHQPDTPATQGRETLPPLFLLEPPAPRPQKDDWRLSRTAKPLRTWRLSK				NA	NA	NA	NA	NA
BMS010_09623	2400	pucD	COG1529	putative xanthine dehydrogenase subunit D	ATGTCTAACCACAACAAGATGACCAAGAGCCAGGACGAACTGGCAGCCCTGTTCCGTGCCGAACTGACCACCGGCGTCGGCCGTCCGGTGAAGCACGAGAGCGCGCCCAAGCATGTCTCCGGCGAAGCGGTGTACATCGACGACCGCCTGGAATTTCCCAACCAGTTGCACGTCTATGCGCGTATGAGCGACCGCGCCCACGCTCGCATCGTGCGCATCGACACCGCCCCCTGCTACGAAATCCCCGGCGTGGCCATCGCCATTACCAGCCAGGACGTACCCGGCCAGTTGGACATCGGCCCGGTGGTGGCCGGCGACCCGCTGCTGGCGGACGGCAAGGTGGAATACATCGGCCAGCCGGTGATCGCGGTCGCCGCCGACAGCCTGGAAACCGCGCGCAAGGCGGCCATGGCCGCGATCATCGAATACGAAGACCTGGAGCCGGTGCTGGACGTGGAAGAGGCCCTGCGCAAGCGCCACTTCGTCCTCGACAGCCACCAGCACAAGCGCGGCGACTCGGCCGCCGCCCTCGCCGCCGCACCGCGCCGCCTGCAAGGCACGCTGCACATCGGCGGGCAGGAACACTTCTACCTGGAAACGCAGATTTCCTCGGTGATGCCCTCCGAAGACGGCGGCATGATCGTCTACTGCTCCACCCAGAACCCCACCGAGGTGCAGAAGCTGGTCGCCGAGGTGCTCGGCGTGCCGATGAACAAGATCGTCATCGATATGCGCCGCATGGGCGGCGGCTTCGGCGGCAAGGAGACCCAGGCCGCCGGCCCGGCCTGCCTGTGCGCGGTGATCGCCCACCTGACCGGGCGGCCGACCAAGATGCGCCTGCCACGCATGGAAGACATGACCATGACCGGCAAGCGCCACCCGTTCTTCGTCCAATACGACGTGGGCTACGACGACGACGGCCTGCTGCACGGCATCGAGATCGAACTGGCCGGCAACTGCGGCTACTCGCCGGACCTGTCCGGCTCCATCGTCGACCGCGCCATGTTCCACTCGGACAACGCCTACTACCTGGGCGACGCCACCGTGATCGGCCATCGCTGCAAGACCAACACCGCCTCGAACACCGCCTATCGTGGCTTCGGCGGGCCGCAGGGAATGGTCGCCATCGAGGAGATCATGGACGCCGTCGCGCGCAGCCTCGGCAAGGACCCGCTGGACGTGCGCAAGCGCAACTACTACGGCAAGGATGAGCGCAACGTCACCCACTACTACCAGACCGTGGAGCACAACATGCTCCAGGAAATGACCGCCGAGCTGGAAGCCAGCGCCGAATACGCCAGGCGCCGCGAGGAAATCCGCGCGTTCAACGCCAAGAGCCCGGTACTGAAGAAGGGCCTGGCGCTGACCCCGGTGAAATTCGGCATCAGCTTCACCGCCACCTTCCTCAACCAGGCCGGCGCGCTGATCCACATCTATACCGACGGCAGCATTCACCTGAACCACGGCGGCACCGAGATGGGCCAGGGCCTGAACACCAAGGTCGCCCAGGTGGTGGCCGAAGTCTTCCAGGTGGACGTCGAGCGCATCCAGATCACCGCGACCAACACCGACAAGGTGCCGAACACCTCGCCAACCGCCGCTTCCAGTGGCGCCGACCTGAACGGCAAGGCCGCGCAGAACGCCGCCGAGACCATCAAGAAGCGCCTGGTGGAATTCGCCGCGCGGCACTTCAAGGTCACCGAGGAAGACGTCGAGTTCCGCAACGGCCAGGTGCGGGTGCGCGACCAGTTCCTCGCCTTCGAGGCGCTGATCCAGCTCGCCTACTTCAACCAGGTCTCGCTCTCCAGCACCGGCTTCTACCGCACGCCGAAGATTTTCTACGACCGCGAGAAAGCCGCCGGCCGGCCGTTCTACTACTACGCCTACGGTGCCGCCTGCTCGGAGGTGATCGTCGATACCCTCACCGGTGAGTACAAGATGCTGCGCAGCGACATCCTCCACGACGTCGGCGCCTCGCTGAACCCGGCCATCGACATCGGCCAGGTGGAAGGCGGCTTCGTCCAGGGCATGGGCTGGCTGACCATGGAAGAGCTGGTGTGGAACGACAAGGGCAAGCTGATGACCAACGGCCCGGCCAGCTACAAGATCCCGGCCGTGGCGGACATGCCCCTGGACCTGCGGGTGAAGCTGGTGGAGAACCGCAAGAACCCGGAGGACACCGTGTTCCACTCCAAGGCCGTGGGCGAGCCGCCGTTCATGCTCGGCATTTCCGTGTGGTGCGCGATCAAGGACGCGGTGGCCAGCCTCGCCGACTACCAGGCACAGCCCCGGATCGACGCCCCGGCGACGCCGGAGCGTGTGCTCTGGGGCGTGCAGCAGATGAAAGCGCTGCAGCAGGCGGCCGCTCCGGCGACCGCCACCGAAGCCGAACCGGCCTGA	MSNHNKMTKSQDELAALFRAELTTGVGRPVKHESAPKHVSGEAVYIDDRLEFPNQLHVYARMSDRAHARIVRIDTAPCYEIPGVAIAITSQDVPGQLDIGPVVAGDPLLADGKVEYIGQPVIAVAADSLETARKAAMAAIIEYEDLEPVLDVEEALRKRHFVLDSHQHKRGDSAAALAAAPRRLQGTLHIGGQEHFYLETQISSVMPSEDGGMIVYCSTQNPTEVQKLVAEVLGVPMNKIVIDMRRMGGGFGGKETQAAGPACLCAVIAHLTGRPTKMRLPRMEDMTMTGKRHPFFVQYDVGYDDDGLLHGIEIELAGNCGYSPDLSGSIVDRAMFHSDNAYYLGDATVIGHRCKTNTASNTAYRGFGGPQGMVAIEEIMDAVARSLGKDPLDVRKRNYYGKDERNVTHYYQTVEHNMLQEMTAELEASAEYARRREEIRAFNAKSPVLKKGLALTPVKFGISFTATFLNQAGALIHIYTDGSIHLNHGGTEMGQGLNTKVAQVVAEVFQVDVERIQITATNTDKVPNTSPTAASSGADLNGKAAQNAAETIKKRLVEFAARHFKVTEEDVEFRNGQVRVRDQFLAFEALIQLAYFNQVSLSSTGFYRTPKIFYDREKAAGRPFYYYAYGAACSEVIVDTLTGEYKMLRSDILHDVGASLNPAIDIGQVEGGFVQGMGWLTMEELVWNDKGKLMTNGPASYKIPAVADMPLDLRVKLVENRKNPEDTVFHSKAVGEPPFMLGISVWCAIKDAVASLADYQAQPRIDAPATPERVLWGVQQMKALQQAAAPATATEAEPA	PGPT0007265_322	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0007265-xdhB|pucD-K13482	NA	NA
BMS010_09624	1458			hypothetical protein	TTGATCCAGTTTTTACTCAACCGGGAGCTGCGCACCGAGCGTGCCCTCGATCCCAACGTCACGGTGCTGAACTATCTGCGGGAGCACCTCGGCAAGTCCGGAACCAAGGAAGGCTGCGCCTCCGGCGATTGCGGCGCGTGCACCGTGGTGGTCGGCGAGCTGGACGGTGCGGACGGCCAGGAGCGAATCCGCTACCGCACCCTCAACTCCTGCCTGACCTTCGTCTCCTCGCTGCACGGCAAGCAGCTCATCACCGTCGAAGACCTCAAGCACAATGGCCAACTGCACAGCGTCCAGCAGGCCATGGTGGACTGCCACGGCTCGCAGTGCGGGTTCTGCACCCCCGGCTTCGTCATGTCGCTGTTCGCCCTGCAGAAGAACCGGGCCACCGGTGGCGCCGACAAGGCACAGGCCCACGAAGCCCTGGCCGGCAACCTGTGCCGCTGCACCGGTTACCGCCCGATCCTCGAAGCCGCCGAGCAGGTCTGCTGCCAACAACAGCCGGACCAGTTCGACGCCGCCGAAGCCGAGACCATCGCCCGGCTCAAGGCCATCGCCCCGCGCGAAACCGCCGAGCTGAACAGCGGCGATAAGCGCTGCCTGCTGCCGCTGACCGTCGCCGACCTGGCCGACATCTACACCGCCAACCCGCAGGCCCGGCTACTCGCCGGCGGCACCGACCTGGCGCTGGAAGTCACCCAGTTCCACCGTGAGCTGCCGGTGATGATCTATGTCGGCCATATCGCCGAGATGAAGCGCGTCGAACGCTTCGACGACCGTCTCGAAATCGGCGCGGCCACCCCGCTGACCGACTGCTACGACGCGCTGGCCGCCGAATATCCGGACTTCGGCGAGCTGCTGCACCGCTTCGCCTCTCTGCAGATCCGCAACCAGGGCACCCTCGGCGGCAACATCGGCAACGCCTCGCCGATCGGCGATGCTCCGCCGCTGCTGATCGCCCTCGGCGCCCGGATCGTTCTCAACAAGGGCGGCGAGCGTCGCACCCTGGCGCTGGAGGACTACTTCCTCGACTACAAGGTGACGGCCCGCCAGGACGCCGAGTTCATCGAGAAAATCATCGTGCCGCGCGCCCGGCCGAACCAGACATTCCGCGCCTATAAGGTGTCCAAACGTCTGGACGACGACATTTCCGCCGTCTGCGCCGCGTTCAACCTGACCGTGGAGGATGGCGAAGTGAAGGAAGCCCGCATCGCCTTCGGCGGCATGGCCGCCATTCCGAAGCGCGCCGCCGCCTGCGAAGCCGCCCTGCTGGGCGCCGCCTGGTACCCGGCGGTGATCGAGCGTGCCTGCGAAGCCCTGGCCAAGGACTTCACCCCGCTAACCGACTTCCGCGCCAGCCGCGAATACCGCCTGCTGACCGCCCAGAACCTGCTGCGTAAATACTTCCTCGAGGTGCAATCGCCCGAGGTCGAGACACGGGTGACCGCATATGTCTAA	MIQFLLNRELRTERALDPNVTVLNYLREHLGKSGTKEGCASGDCGACTVVVGELDGADGQERIRYRTLNSCLTFVSSLHGKQLITVEDLKHNGQLHSVQQAMVDCHGSQCGFCTPGFVMSLFALQKNRATGGADKAQAHEALAGNLCRCTGYRPILEAAEQVCCQQQPDQFDAAEAETIARLKAIAPRETAELNSGDKRCLLPLTVADLADIYTANPQARLLAGGTDLALEVTQFHRELPVMIYVGHIAEMKRVERFDDRLEIGAATPLTDCYDALAAEYPDFGELLHRFASLQIRNQGTLGGNIGNASPIGDAPPLLIALGARIVLNKGGERRTLALEDYFLDYKVTARQDAEFIEKIIVPRARPNQTFRAYKVSKRLDDDISAVCAAFNLTVEDGEVKEARIAFGGMAAIPKRAAACEAALLGAAWYPAVIERACEALAKDFTPLTDFRASREYRLLTAQNLLRKYFLEVQSPEVETRVTAYV	PGPT0007250_864	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0007250-xdhA-K13481	NA	NA
BMS010_09625	1122	gcvT_2		Aminomethyltransferase	ATGAGTACCGAAACCCTGGCTAAAACTCCCTTGCATGCCCTGCATCTCGAACTGGGGGCGCGCATGGTGCCGTTCGCCGGCTACGACATGCCCGTCCAATATCCCCTGGGCGTGCTCAAGGAGCACCTGCACACCCGCGAGCAGGCCGGCCTGTTTGACGTGTCGCACATGGGCCAGATCATCCTGCGTGGCGAGAACGCCGCCCGCGCCCTGGAAACCCTGGTGCCGGTGGATATCGTCGACCTGCCTGCCGGAATGCAGCGCTATGCGATGTTCACCGACGAAAATGGTGGCATCCTCGACGACCTGATGGTCGCCAACACCGGCGAGTTCCTCTTCCTGGTGGTCAACGCCGCCTGCAAGGAGCAGGACCTGGCCCACCTGCAGAAGCACATCGGAAACCAGTGCCAGATCGAAAGCCTGTTCGAAAGCCGCGCCCTGCTCGCCCTGCAAGGCCCCAAGGCGGTGGACGTGCTGAGCCGCCTGGCGCCCGAGGTGGCGAAGATGACCTTCATGCAGTTCGCCCGCGTCACCCCGCAGGGCGTGGACTGCTTCGTCAGCCGCTCCGGCTACACCGGCGAGGACGGCTACGAGATTTCCGTCCCGGTGGAGCAGGCCGAACGCCTGGCCCGCACCCTGCTGGCCGAGCCGGAAGTGCAGCCCATCGGGCTCGGCGCCCGCGACTCCCTGCGCCTGGAAGCCGGCCTGTGCCTCTACGGCCATGACATGAGCACCGCCACCACGCCGATCGAAGCCAGCCTGACTTGGGCCATCTCCAAGGCCCGCCGCGCCGATGGCGCGCGCGCCGGCGGCTTCCCCGGCGCCGAGCGGATCTTCGTCCAACAGCACGACGGCGTGGCCAGCAAGCGCGTCGGCCTGCTGCCGCAGGAACGCGTGCCGGTACGCGAAGGCGCGGAAATCGTCGATGCCGACGGCAACGTCATCGGCCAGGTGTGTAGCGGCGGCTTCGGCCCGACCCTGGGCGCGCCGGTGGCCATGGGCTACGTGCAGGCCGCCAAGGCCGCGCTGGACAGCGACGTCTGGGCCATGGTGCGCGGCAAGCGCGTACCGATGAAAGTCGCCAAGACCCCGTTCGTGCCGCAGCGCTACTACCGCGGCTGA	MSTETLAKTPLHALHLELGARMVPFAGYDMPVQYPLGVLKEHLHTREQAGLFDVSHMGQIILRGENAARALETLVPVDIVDLPAGMQRYAMFTDENGGILDDLMVANTGEFLFLVVNAACKEQDLAHLQKHIGNQCQIESLFESRALLALQGPKAVDVLSRLAPEVAKMTFMQFARVTPQGVDCFVSRSGYTGEDGYEISVPVEQAERLARTLLAEPEVQPIGLGARDSLRLEAGLCLYGHDMSTATTPIEASLTWAISKARRADGARAGGFPGAERIFVQQHDGVASKRVGLLPQERVPVREGAEIVDADGNVIGQVCSGGFGPTLGAPVAMGYVQAAKAALDSDVWAMVRGKRVPMKVAKTPFVPQRYYRG	PGPT0008130_1780	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008130-gcvT-K00605	NA	NA
BMS010_09626	1377	sdaA	COG1760	L-serine dehydratase 1	ATGTCCCTCAGCGTTTTCGACCTGTTCAAGATCGGCATCGGCCCCTCCAGCTCCCATACCGTCGGCCCCATGCGTGCCGCGGCGCGCTTCGTCGAAGGCCTGCGCCGCGAGGGTCTGCTGGAAACGACCGCCTCGGTCAGAGTGGAGCTGTATGGCTCTCTCGGCGCCACCGGCAAGGGCCACGGCAGCGACAAGGCCGTGCTGCTCGGCCTGGAAGGCGAGCAGCCGGACCTGGTCGACACGACCACGATTCCCGCGCGGCTGGAGGCGATCCGCCAGTCCGGCGAACTGAAACTGCTCGGCGAAAAAAAGATCCGCTTCGTCGAGAAAGAACACCTGGCGATGATCCGCAAACCGCTGGACTACCACCCCAACGGCATGATCTTCCGCGCCTTCGATGCCGCCGGCCTGCAATTGCGCAGCCGCGAGTATTACTCGGTGGGCGGCGGCTTCGTGGTGGATGACAGCGCCGCCGTCGCCGACCGCATCGTGGAAGACCAGACCCCACTGCCCTACCCGTTCAAGACCGCCAAGGACCTGCTGGCCCATTGCGCCGAACACGGCCTGTCCATCAGCCAGGTCATGCGCGAGAACGAGAAAGCCTGGCGCCCGGACGAGGAAACCCGTGCCGGCCTGCTGCGCATCTGGCAGGTGATGCAGGATTGCGTGGCCGCTGGCTGCCGCACCGAAGGCATCATGCCCGGCGGGCTCAAGGTCAAGCGCCGCGCCGCCGGCCTCTACCGCCAGCTCAGCCAGAACCCGGAAGCCAACCTGCGAGACTCCCTCAGCGTGCTCGACTGGGTGAACCTCTATGCCCTGGCGGTGAACGAGGAAAACGCCAGCGGCGGCCGGGTGGTCACCGCGCCCACCAACGGCGCGGCGGGCATCGTCCCAGCGGTGCTGCACTACTACACCCGCTTCATCCCCGGCGCCAACGACGACGGCGTGATCCGCTTCCTGCTCACCGCCGCCGCCATCGGCATCCTCTACAAGGAAAACGCCTCCATCTCCGGCGCCGAAGTCGGCTGCCAAGGCGAGGTCGGCGTGGCCTGTTCGATGGCCGCCGGCGCCCTCTGCGAAGTGCTCGGCGGCACCCCGCAGCAGGTGGAGAATGCCGCCGAGATCGGCATGGAGCACAACCTCGGCCTGACCTGCGACCCGGTCGGCGGGCTGGTCCAGGTGCCCTGCATCGAGCGCAACGCCATGGGCTCGGTGAAGGCGATCAACGCTGCGCGCATGGCGCTGCGCGGCGATGGCCAGCATTTCATCTCGCTGGACAAAGTGATCCGCACCATGCGCCAGACCGGTGCCGACATGAAAAGCAAATACAAGGAAACCGCTCGCGGCGGCCTGGCCGTGAACATCATCGAATGCTGA	MSLSVFDLFKIGIGPSSSHTVGPMRAAARFVEGLRREGLLETTASVRVELYGSLGATGKGHGSDKAVLLGLEGEQPDLVDTTTIPARLEAIRQSGELKLLGEKKIRFVEKEHLAMIRKPLDYHPNGMIFRAFDAAGLQLRSREYYSVGGGFVVDDSAAVADRIVEDQTPLPYPFKTAKDLLAHCAEHGLSISQVMRENEKAWRPDEETRAGLLRIWQVMQDCVAAGCRTEGIMPGGLKVKRRAAGLYRQLSQNPEANLRDSLSVLDWVNLYALAVNEENASGGRVVTAPTNGAAGIVPAVLHYYTRFIPGANDDGVIRFLLTAAAIGILYKENASISGAEVGCQGEVGVACSMAAGALCEVLGGTPQQVENAAEIGMEHNLGLTCDPVGGLVQVPCIERNAMGSVKAINAARMALRGDGQHFISLDKVIRTMRQTGADMKSKYKETARGGLAVNIIEC	PGPT0001975_582	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001975-sdaA|sdaB|tdcG-K01752	NA	NA
BMS010_09627	462	glyA_2	COG0112	Serine hydroxymethyltransferase	ATGCACGTGATCGCCGCCAAGGCGGTGTGCTTCAAGGAAGCGCTGGAACCGGGCTTCAAGGACTACCAGGCGCAGGTCATCAAGAACGCCCAGGCGATGGCCGCAGTGTTCATGGACCGCGGCTACGACGTGGTCTCCGGCGGCACCGACAACCATCTGATGCTGATCAGCTTGGTCAAACAGGGCTTGACCGGCAAGGCCGCCGACGCAGCACTGGGCGCGGCCCATATCACAGTGAACAAGAACGCCGTGCCGAACGACCCGCAGTCGCCGTTCGTCACCTCCGGCATCCGCATCGGCACCCCGGCCGTGACTACCCGTGGCTTCAAGGAAGGCGAATGCCGTGCGTTGGCCGGCTGGATCTGCGACATCCTCGACGACATCGAGAACCCTGCGGTGGTCGAGCGCGTCCGTGGTCAGGTGGCCGATCTTTGCGCGACCTTCCCGGTCTACGCTGATTGA	MHVIAAKAVCFKEALEPGFKDYQAQVIKNAQAMAAVFMDRGYDVVSGGTDNHLMLISLVKQGLTGKAADAALGAAHITVNKNAVPNDPQSPFVTSGIRIGTPAVTTRGFKEGECRALAGWICDILDDIENPAVVERVRGQVADLCATFPVYAD	PGPT0008090_5922	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008090-glyA-K00600	NA	NA
BMS010_09628	660	ccmB_2	COG2386	Heme exporter protein B	ATGACCGCCCTCCTCCTTCGCGACATCAAACTCTCCATCCGCGCCGGCGGCGGCGCGCTCATCGGCGTGCTGTTTTTCATGACAGTGGTTGCCGTCATCCCCTTCGGCGTCGGCCCCGATCTCAACCTGCTCGCCCGCATCGGCCCCGCTATCGTCTGGATCGGCGCGCTGCTCTCCGCCCTTCTCGGCCTCGACCGGCTGTTTCAGGCCGAGCGGGATGACGGCTCCCTTGATCTGATCCTGATGCAGGAAACCCCGCTGGTCCTGACCGTGTTCGTGAAATGCCTGGCACACTGGGTCACGACCGGCCTGCCACTGGTGCTTGCCTCCCCTCTGCTTGGCCTCTTCATGAACATGGACGAAGTGGCGATCGGCGCCGTGATGCTAACCCTTCTCGTCGGCTCGCCCGCCATCACCTTCATCGGCGCGGTAGGGGCGGCGGTTGCCGTTGCCCTGCCGCGCGGAGGGCTTCTGGTGTCCATCCTCGTCTTGCCGCTCGCCATTCCCGTGCTGATCTTCGGCGTCAGCGCCTCCTATGCGGCGGTGCAGGACCCGGCGCCCTTCATGCCGCCATTTCTCATTCTGTGTGCGATCACGTTATTTTCAGCCGTGACCGGACCTTTCTTCGCCGCTTTGGCGCTGCGCAATGTTATGGATTGA	MTALLLRDIKLSIRAGGGALIGVLFFMTVVAVIPFGVGPDLNLLARIGPAIVWIGALLSALLGLDRLFQAERDDGSLDLILMQETPLVLTVFVKCLAHWVTTGLPLVLASPLLGLFMNMDEVAIGAVMLTLLVGSPAITFIGAVGAAVAVALPRGGLLVSILVLPLAIPVLIFGVSASYAAVQDPAPFMPPFLILCAITLFSAVTGPFFAALALRNVMD				NA	NA	NA	NA	NA
BMS010_09629	762	ccmC_2	COG0755	Heme exporter protein C	ATGAACGAGCAGACCTTCACCATCACCAAATTCAGTGATCTTGCCAATCCCACCCGGTTTCTGGCGCTGGCGGCACGCATTCTGCCATGGCTCGCTGCGCTCACGGCGCTGGTGCTGGCCGTCGGCCTCTATCTGTCGTTCACGACGGAAGGCGATTACCAGCAGGGTTACACGGTACGCATCATGTATGTGCACGTACCGTCCGCGTGGCTCGCCATGATGTGTTATTCGGTCATGGCGGTCTCCGCCATCGGCACCCTCGTCTGGCGTCACCCGCTGGCGGATGTCAGCCACAAGGCCGCGGCCCCCATCGGCGCGGCCTTCACGCTGATTGCACTCGTCACCGGCTCGCTCTGGGGCAAGCCCATGTGGGGAACCTGGTGGGTGTGGGATGCGCGGCTGACCTCCGTCTTTGTGCTTTTCCTGATGTATCTGGGCCTGATCGCGCTCAACCGCGCCATGGACGATCCTTCCAGAGCCGCCCGCGTCAGCGCCGTGCTGATCCTCGTCGGTTTCGTGAATATCCCCATCATCAAATTTTCGGTCGAGTGGTGGAACACGCTGCACCAGCCTGCAAGCGTCATCCGCATGGGCGGCTCCGCCATCGATGCGGAATTCCTCTGGCCGCTGCTGACCATGGCCGTCGGCTTCACGCTGCTGTTCTTCACCCTGCACATCGCCGCAATGCGCAACGAAATCTGGCGTCGGCGCGTGGCCGCGCAACGGCGTCTCGCGGCGCGCATGGCGAACCGGGAGGGCTGA	MNEQTFTITKFSDLANPTRFLALAARILPWLAALTALVLAVGLYLSFTTEGDYQQGYTVRIMYVHVPSAWLAMMCYSVMAVSAIGTLVWRHPLADVSHKAAAPIGAAFTLIALVTGSLWGKPMWGTWWVWDARLTSVFVLFLMYLGLIALNRAMDDPSRAARVSAVLILVGFVNIPIIKFSVEWWNTLHQPASVIRMGGSAIDAEFLWPLLTMAVGFTLLFFTLHIAAMRNEIWRRRVAAQRRLAARMANREG				NA	NA	NA	NA	NA
BMS010_09630	174			hypothetical protein	ATGACGCACGCCTTTTATATCGGCATGTCCTATGCGGCGACCGGCCTTGTCGTTCTCTGTCTCATCGCCTGGGTCGTCGTGGACGGTCAGGCACGCAAACGGGAATTGAAAGAACTCGAGGCATCCGGCGTGCGCCGCAGGGCGAGAGCCGGTTCCGCAGGTGACGCGCAATGA	MTHAFYIGMSYAATGLVVLCLIAWVVVDGQARKRELKELEASGVRRRARAGSAGDAQ				NA	NA	NA	NA	NA
BMS010_09631	600	cycY	COG0526	Thiol:disulfide interchange protein CycY	ATGACGCAAGCTGACCGGGACACCAAGGCCAAAACGACAGGCCGTGCACGCTATGCGCTTGCGCTGCTGCCGTTGCTGCTGTTCGGCGGTTTCGCCCTCGTCGCCGGCAAGATGCTTTACGACCAGGACGTGAACGGGCTGGATATCAGCGCCATTCCCTCGGCGCTGATCGGCACCAGGGCGCCCACCCTGTCGCTACCGCCGCTGGAAGGCTCCAACCTGCCGGCGCTGACCGATGCCGCCATCAAGGGCAAGCTGACTCTGGTGAACGTCTTCGCCTCCTGGTGCATTCCCTGCCGGCAGGAGCATCCGCTGCTTCAGGAATTGGCAAAAGACAGCCGCATCACCGTAGTCGGCATCAATTACAAGGACAAGCAGGATAATGCGCTGCGCTTCCTCGGCGAGCTCGGCAATCCCTTTGCTGCGATAGGCGTCGATCCGAACGGCAAGGCCGCGATAGATTGGGGCGTCTACGGCATTCCGGAGAGTTATCTGGTCGGTGAGGATGGCACGATCCTTTATAAAAAGGTCGGCCCCTTCGATGCCCGCAGCGTCGAGCGCGATCTGCTGCCAGCCATTGCGGCCGCAGCCGGGAAATAA	MTQADRDTKAKTTGRARYALALLPLLLFGGFALVAGKMLYDQDVNGLDISAIPSALIGTRAPTLSLPPLEGSNLPALTDAAIKGKLTLVNVFASWCIPCRQEHPLLQELAKDSRITVVGINYKDKQDNALRFLGELGNPFAAIGVDPNGKAAIDWGVYGIPESYLVGEDGTILYKKVGPFDARSVERDLLPAIAAAAGK	PGPT0004090_7949	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004090-copA|ctpA-K17686	NA	NA
BMS010_09632	1182			hypothetical protein	TTGCAAGACAACTTCGCCTATCTTCTCCCCTTCATCATGCTGACATTCGGCGTGGTGTTCCTGTTCCTGCAAAGGATCGGTCACGCTTCCGCCCGCTATTGGGGTATAGGATATCTTTCGGCGGCCTTCGGTTTTGCGACACCTTTGGTGCTTGGCGGCCTGCCGTTCGAAATACAGGCGATTGTTTCGAACCTGTTGTTCTTCTCCGCCTTCTTCCTCTATGGCCACGCTCTGCTCGTCCATTTCGGGCGGCCGCTTTATATCACGGGCAGGCTGTCGATCGTGGTTGCCGCGGTTTTGCTGGTCTCTTTCCATGTCTTCGTCACGCCGGATCTTAAACGCGAGCTCGTCATCGGCGATCTCGTCTGTGCCCTTTTGCTCGCGATTCCGGTTTGGCTCGTGCGAAAGCGCCCCGTCGCGCTTGCCGACCGGCTGATGGTGGGAATTGCCTGTCTTGTGGTGCTGGAGACGCTGGTGCGCATCGGCATGCTGCTGGTGATGACGCCGAGCGGCTCGATGATCGAGCTCAGCGAATTCTTCGAATCCGACTATGCTTTCTACATGCAGCTTGCCGCCAGCATCTTCGGCTTCCTGCTGGCGCTCGCCGTTCTCGCGAGTCAGATTTCCGTCACCGTCGACCGGCATCTGCATGCGGCAGAGCATGATCCGCTGACGGACGTGCTGAACCGGCGCGGCTTCGACCGCCGAGTTCCCGATTTTCGTAACGATATCCCTGAGGGTGTGGTCATCGCCTGCGACATAGACCACTTCAAGCGTATCAACGATGTTTACGGTCATGCGGCTGGAGATATCGTTCTTATCGGTCTTTCCGATCTGCTCAGGCGCAATGCGCCCGAGGATGCGCTGGTGGCGCGCTTTGGCGGTGAGGAGTTTGTGGTCTTCCTGCCCGGACAGACAGCCGCCGCAGCCGGCCAGCTGGCCAATGCCATGCGGACAGGTCTTTCGTCGCTCGATTGGCGCAACCGGCGTGTAACCAGCCAGATCACCGCGAGCTTCGGTGTTTCAGCCGTCGCGAGGGGAGATCACTCCATTCATGACGCCATCAAGCGGGCCGATGACGGTCTCTATGCCGCAAAACGCGGCGGTCGCGATCAGGTGGTGCTGGAAGGCATACGTCTGCCGGCTGAAGGCCCTTCGCTGAGGGTCTTTACCAAGGGGTGA	MQDNFAYLLPFIMLTFGVVFLFLQRIGHASARYWGIGYLSAAFGFATPLVLGGLPFEIQAIVSNLLFFSAFFLYGHALLVHFGRPLYITGRLSIVVAAVLLVSFHVFVTPDLKRELVIGDLVCALLLAIPVWLVRKRPVALADRLMVGIACLVVLETLVRIGMLLVMTPSGSMIELSEFFESDYAFYMQLAASIFGFLLALAVLASQISVTVDRHLHAAEHDPLTDVLNRRGFDRRVPDFRNDIPEGVVIACDIDHFKRINDVYGHAAGDIVLIGLSDLLRRNAPEDALVARFGGEEFVVFLPGQTAAAAGQLANAMRTGLSSLDWRNRRVTSQITASFGVSAVARGDHSIHDAIKRADDGLYAAKRGGRDQVVLEGIRLPAEGPSLRVFTKG				NA	NA	NA	NA	NA
BMS010_09633	597			hypothetical protein	ATGACAGTTGCAGAGATGTCGGCTTCCCGTTCGCGCTCGCTCAAATGGTTTGGCGTGGCCGCCGGGCTGCTTCTCCTGCAAATCGTCATCCTTTACGCCATGGGCCGCATTCCGATCTGCGAATGCGGTTATGTGAAGCTGTTCGAGCCGGGCGTGAACACGCCGGGCAATTCCCAGCATCTGGCCGACTGGTATACGCCCTCGCATATCATTCACGGTTTCCTGTTCTACTGGTTCGCCTGGCTGCTGTTCCGCAACAGGTCGCTTTCCATGCGGCTTTCGCTTGCGGTTCTGGTGGAAGCGGCATGGGAAATCCTTGAAAACTCGCCTCTCATCATCGATCGTTACCGGACCGCGACGATGGCACTGGGGTACACCGGCGACAGCATCCTGAACTCGGCGATGGATACCGTCTTCATGGTGCTGGGTTTCCTGTTTGCCGCCCGTGTGCCGGTGTGGTTGACGGTGGCGATCGCCATCTTCTTCGAAATCTTCACCGGCTGGCTGATCCGTGACAACCTGACGCTGAACGTGGTCATGCTGCTTTGGCCCGTGGACGCGATCAAGGAATGGCAGAACGCGCTCCCGCAAATGTGA	MTVAEMSASRSRSLKWFGVAAGLLLLQIVILYAMGRIPICECGYVKLFEPGVNTPGNSQHLADWYTPSHIIHGFLFYWFAWLLFRNRSLSMRLSLAVLVEAAWEILENSPLIIDRYRTATMALGYTGDSILNSAMDTVFMVLGFLFAARVPVWLTVAIAIFFEIFTGWLIRDNLTLNVVMLLWPVDAIKEWQNALPQM				NA	NA	NA	NA	NA
BMS010_09634	651	yciB_2		intracellular septation protein A	ATGGATATTGAAAGCAATTCCAAGGAAAGCGAAAAGATGGTGGCGGAAATCAGCCCGCTCCTGAAATTCGTGCTCGAACTTGGCCCGCTCATGGTATTCTTCTTCGCCAATTCCCGCGGCGAATGGCTGGCCTCCACTTTCCCCGTGCTGACGGAGTTCGGCGGGCCTATCTTCATCGCCACTGGCCTGTTCATGATCGCAACAGCTTTGGCGCTTTCCGTCTCATGGGTGCTGACGCGCAAGTTGCCGATCATGCCGCTGATATCGGGCATCGTGGTCTTCGTGTTCGGCGCGCTGACGCTTTGGCTGCAGAACGATACTTTCATCAAGATGAAGCCGACCATCGTCAACACGCTGTTCGGTGTCATTCTGCTCGGCGGCCTGTTCTTCGGGCAATCGCTGCTCGGTTATGTCTTCAATTCGGCCTTCCGGCTGACGGATGAGGGCTGGCGCAAGCTGACGCTGCGCTGGGGCATATTCTTCCTCTTTCTTGCGGTGCTGAATGAGGTGGTGTGGCGCATGTTCACCACCGACACCTGGGTTGCCTTCAAGGTGTGGGGCACGATGCCGATCACCATCATCTTCACCATGGCGCAGATGCCGCTCGTCATGCGCCATTCGCTGGAACCGCTCAACAAGGACGAAAAATGA	MDIESNSKESEKMVAEISPLLKFVLELGPLMVFFFANSRGEWLASTFPVLTEFGGPIFIATGLFMIATALALSVSWVLTRKLPIMPLISGIVVFVFGALTLWLQNDTFIKMKPTIVNTLFGVILLGGLFFGQSLLGYVFNSAFRLTDEGWRKLTLRWGIFFLFLAVLNEVVWRMFTTDTWVAFKVWGTMPITIIFTMAQMPLVMRHSLEPLNKDEK				NA	NA	NA	NA	NA
BMS010_09635	1437	ftsY_2		Signal recognition particle receptor FtsY	ATGGCCCTCGGCTTCATCAAAAAAGTCTTTTCGTTCGGCAAGGACAAGGCCGAAACGAATGACCGGCCGCAAGAGGACGCCGCACCTGCGCGCGGCAATGAAAACGCTTCCTTCGAAGCGGCGCTGAACGACGCCGAAGCGCATGGCCCTGTCGACAAGGACCCGGTTTCCGAACTGGAGATGGAGACGGCCGGCGGACCAGCCCCGGACGAGGCGACGGACATGGTCCTTCCCGACGATGACGAGGAAGAGGACGCACCGCTTCTGCCCGGTGCCGAGCTTTCCGGCGATATGGGCGTGGTGCCGCTGTCGTTGCTACAGGCGGAAGCAGCCGCCGAAGAGCAGGTCGAATCTGCCCCCGAAGCAACGGATGTTGTGCTGGATGCGGACGCGATGGATGCGCTGCTTGGCGAGGCCGAAGCCGCGACTGCCGCCGAGCCCTCCGCTATACCGCCAGCTCTACCAAAGGGTTTTTCGTCCGCCACTGAGCGGCAGGAGCCTGCCCCTGCCGCACCGCAGGTAAAACTGACATGGTTTCAGCGCCTGCGGGCCGGGCTTGCCCGTACGTCGTCGCAGCTGACCACGCAGATTTCGGCGCTCTTCACCAAGCGCAAGCTGGATGAGGATACGCTCGATGAGCTGGAGGATCTTCTCATCCAGTCCGATCTAGGCGTCGAGACCGCCATGCGCATCACCGGTGCCCTGTCTTCCGAGCGTTACGGCAAGGATGTAAGCGGCGAAGATGTGGCGCGCATCATGGCGGGCGAGATCACCAAGGTCCTCAAGCCTGTGGCCAAGCCGCTGGAACTCGATCTTTCACACAAGCCGCATGTCATTCTCGTTGTCGGTGTGAACGGTACGGGCAAGACGACGACCATCGGCAAGCTTGCCGCCAAGCTTTCCGGTTCGGGTCTCAAGGTCATGCTGGCGGCGGGCGATACGTTCCGCGCGGCGGCCATCGAGCAACTCAAGATCTGGGCGGACCGCACCGGTTCGCAATTCATTGGCACCAAGCTTGGCGCGGATGCAGCGGGGCTTGCCTATGATGCCTATGAGCAGGCGCGGGCGCAGAAAAGCGACGTTCTCATCATCGATACGGCCGGTCGCCTGCAGAACAAGACGGAGCTGATGGCGGAGCTGGAAAAGATCGTGCGCGTGCTCGGCAAGCTCGATCCGGATGCGCCGCACACCGTGCTGCAGACGCTGGATGCGACGACCGGCCAGAACGCCATGAACCAGGTAGAAATATTCCGCAATGTCGCGGGTGTTTCGGGCCTGATTATGACAAAATTGGATGGCACGGCGCGGGGCGGTATCCTCGTTGCCATCGCTGCCAAACACAAGCTGCCGGTTTATTTCATCGGTGTGGGTGAAGGTGTCGATGATCTGGAGCCCTTCGAGGCGGAAGATTTCGCCAAGGCCATTGCGGGAGTTTGA	MALGFIKKVFSFGKDKAETNDRPQEDAAPARGNENASFEAALNDAEAHGPVDKDPVSELEMETAGGPAPDEATDMVLPDDDEEEDAPLLPGAELSGDMGVVPLSLLQAEAAAEEQVESAPEATDVVLDADAMDALLGEAEAATAAEPSAIPPALPKGFSSATERQEPAPAAPQVKLTWFQRLRAGLARTSSQLTTQISALFTKRKLDEDTLDELEDLLIQSDLGVETAMRITGALSSERYGKDVSGEDVARIMAGEITKVLKPVAKPLELDLSHKPHVILVVGVNGTGKTTTIGKLAAKLSGSGLKVMLAAGDTFRAAAIEQLKIWADRTGSQFIGTKLGADAAGLAYDAYEQARAQKSDVLIIDTAGRLQNKTELMAELEKIVRVLGKLDPDAPHTVLQTLDATTGQNAMNQVEIFRNVAGVSGLIMTKLDGTARGGILVAIAAKHKLPVYFIGVGEGVDDLEPFEAEDFAKAIAGV	PGPT0025740_1079	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025740-ftsY-K03110	NA	NA
BMS010_09636	1275	mtaB	COG0621	Threonylcarbamoyladenosine tRNA methylthiotransferase MtaB	ATGAGCGGCGTCGAGGTCATAACCTTCGGCTGTCGTCTCAACACCTATGAATCGGAAGTGATGCGGGCGGAGGCCGAAAAGGCCGGGCTTAACAACGCCGTGCTGGTCAATACCTGCGCGGTGACCGGGGAAGCGGTGCGTCAGGCCCGCCAGGCGATCCGCCGCGCCCGGCGCGACAATCCGCATGCGCGCATCATCGTCACCGGCTGCGCCGCCCAGACCGAAAAGCAGACCTTTGCCGACATGCCAGAGGTGGATGCCGTGCTGGGCAATGAGGAAAAGCTGAAGAGCGCTTCCTATCGTTCCTTGCCGGATTTCGGTGTTTCGGCGGAAGAAAAGCTGCGCGTCAACGATATCATGAGCATCAAGGCGACCGCGCCGCAGATGGTCAAGCACATAGACGGGCATGTGCGCGCCTTTATTCAGGTGCAGAACGGCTGCGATCATCGCTGCACCTTCTGCATCATTCCCTACGGGCGCGGCAATTCTCGCTCCGTGCCGATGGGTGCGGTGGTGGATCAGGCGCGCCGGCTGACGGAGAGCGGTTATCGCGAAATCGTGCTCACCGGCGTGGATGCGACCAGTTACGGCGCCGATCTGCCCGGCGAACCTTCTCTCGGTTACCTTGCCAAGACATTGCTGAAGCAGGTGCCGGACATTTTGCGCCTGCGCCTTTCCTCCATCGACAGTATCGAGGCCGACCACCATCTGATGGATCTGATTGCCGATGAGCCGCGTTTCATGCCGCATCTGCATCTCTCTCTCCAGCATGGCGACGACATGATTTTGAAACGCATGAAACGCCGCCATTTGCGGGCGGATGCCATTCGCTTCTGCAACGAGGTGCGGTCGCTTCGGCCGGATATCGCTTTCGGCGCGGATATGATCGCCGGTTTTCCGACAGAGACGGAAGACATGTTCGAAAACGCCGCGACGCTTGCGGAAGAATGCGGCATTTCTAGCCTGCATGTCTTTCCCTACAGCCCACGTGCCGGCACGCCGGCGGCGCGCATGCCGCAGCTTGACCGGGCTTTGGTGAAGGAGCGGGCGGCGAGGCTTCGGGAGCGCGGCGAGGCGCTGAAGCTGGCGCATCTGCAAAATATGGTCGGTTCGGTGCAGACGATCCTCGTTGAAAATAACGGTTTTGCCCACACCGACAATTTCACGCTGGTGGAGGCGTCGCATCTTGCTCCGCGCACTCTTGCGCAGGTTGCGATTACCGGCCACAACGGCAAACATCTGAACATGAAGCTTCTGGCGGCGGATGCGGCCTGA	MSGVEVITFGCRLNTYESEVMRAEAEKAGLNNAVLVNTCAVTGEAVRQARQAIRRARRDNPHARIIVTGCAAQTEKQTFADMPEVDAVLGNEEKLKSASYRSLPDFGVSAEEKLRVNDIMSIKATAPQMVKHIDGHVRAFIQVQNGCDHRCTFCIIPYGRGNSRSVPMGAVVDQARRLTESGYREIVLTGVDATSYGADLPGEPSLGYLAKTLLKQVPDILRLRLSSIDSIEADHHLMDLIADEPRFMPHLHLSLQHGDDMILKRMKRRHLRADAIRFCNEVRSLRPDIAFGADMIAGFPTETEDMFENAATLAEECGISSLHVFPYSPRAGTPAARMPQLDRALVKERAARLRERGEALKLAHLQNMVGSVQTILVENNGFAHTDNFTLVEASHLAPRTLAQVAITGHNGKHLNMKLLAADAA				NA	NA	NA	NA	NA
BMS010_09637	900	dapF_2		Diaminopimelate epimerase	ATGGTGGATACGGTCGAATTTGCGAAGATGAACGGGCTTGGCAACAAGATCCTCGTTGTCGACATGCGCGGCCGTAAAGATATGGTCACGCCGGAGGCGGCGATTGCGCTGAACGCCGATCCTGCCACACAGTTCGACCAGATCATGGCCATCCACGATCCGCGTGTCAGTGGCACGGATGCATTTATCGACATCCTCAATTGCGATGGCACGAAGGCGCAGGCTTGTGGCAATGGCACGCGCTGCGTGGTGCAGGCGCTGTCGTCCGAAACGGGCAAGACCAGTTTCACTTTCCAGACGGTGGCTGGCATCCTCAACGCCGTCGAACATGAAGACGGCATGATTTCCGTCGATATGGGCCTGCCGCGTTTCCGCTGGAGCGATATTCCTCTTTCGGAAGAGTTCCACGATACCAGCCGCATCGAATTACAGATCGGGCCGATCGATGCGCCGATCCTGCATTCGCCGGCCGTGATGTCCATGGGCAATCCGCATGCGGTTTTCTGGGTGGATCGCGATCCGATGGAGTTCGATCTCGAACGTTTCGGGCCCCTGCTCGAAAATCACCCGATCTTTCCGGAAAAGGCCAATATCACGCTGGCGCAGGTCATTTCCGACAGCGCGCTGCGCACCCGCACCTGGGAGCGCGGCGCCGGACTGACCCTTGCCTGCGGTTCCGCCGCCTGTGCTTCAGCCGTCTCCGCTGTCCGTACAGGCCGCACCGGCCGCAAGGTCAGCATCGATGTGGCATCAAGCCCGATCCGCGTGCCGCTGACGATCGACTGGCGCGAGGACAATCACGTCATCATGACCGGCCCGGCCGAATGGGAATGGTCGGGTTCCGTCGATCCCGTCACCGGCGTCTGGGCGCGGGATGCGGTCGAGCGGGGGGCTGTATGA	MVDTVEFAKMNGLGNKILVVDMRGRKDMVTPEAAIALNADPATQFDQIMAIHDPRVSGTDAFIDILNCDGTKAQACGNGTRCVVQALSSETGKTSFTFQTVAGILNAVEHEDGMISVDMGLPRFRWSDIPLSEEFHDTSRIELQIGPIDAPILHSPAVMSMGNPHAVFWVDRDPMEFDLERFGPLLENHPIFPEKANITLAQVISDSALRTRTWERGAGLTLACGSAACASAVSAVRTGRTGRKVSIDVASSPIRVPLTIDWREDNHVIMTGPAEWEWSGSVDPVTGVWARDAVERGAV	PGPT0007230_811	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007230-dapF-K01778	NA	NA
BMS010_09638	1071			hypothetical protein	ATGAAACGTCGAAACTTCTTTCGTTTTTCCGCTCTTGGTCTGCTCGCGCTGGCGGGTGGGGGCCTCTATGCCCGCCGTTCGAACGCGAGCGCCTATTATAGCGGCCCGATCTCCGATCATTTCGACGGGGTGCGCTTCTTCAATCCCGGCGGTTCGCCGCCTGGCAATTTCATGGGCCTTATGAAATGGCGCTTCAATGGCGAGCGCGCCACATGGCCGGAAAGCTATCCGAGCCCTTTTCCCTTCGCAAAACCGGAAGCCCGGATCGAAGGCAGGGACATGCGCGTCACCTTCGTCGGCCATGCCTCGTTTCTCATCCAGACGGCGGGGCTGAATATTCTCATCGATCCGGTGTGGTCGCAGCGCACCAGCCCGTTCAGTTTCGCCGGTCCCAAACGGGTCAATGCGCCCGGCATCCGTTTCGAGGACCTGCCGCCCATCGACCTGGTGCTGGTGACGCATAATCACTACGACCATCTGGATATGGAAACGCTGAAGCGCCTGCATGTCGCGCACAAACCGCTCTTCATCACGCCGCTCGGCAATGACGCCATCATCCGTACCGGGGTCGAGGCGGCGCGCATCGAGGTGGGCGACTGGGGCGATGTGGTGGAGACAGGGCCGGTTAAAATCCACTTCGAGCCGTGCCATCACTGGTCGGCCCGCGGCCTGAACGACCGGCGCATGGCGCTATGGGCTGCCTTCGTCATCGAAACGCCCGGCGGTAAAATCTACCATATCGGTGACACCGGCTTCCATGAAGGTCTCAATTATCACGCCGCGCGCAAGAAGCACGGCGATTTCCGCCTCGCAAACCTGCCCTTCGGCGCTTACGAACCGCGATGGTTCATGAAGGGCCAGCACCAGAACCCGGCGGAAGCCGTGGAAGGCATGAAGCTTTGCGGTGCGGCGCATGTCTGCGGGCACCATTGGGGTACGGTACAGTTGACGGATGAGGCCGTGGATGCACCGCTTGCGGCCCTGAAGGTCGCATTGACAGAGCAGGGGGTGGAGGAGAGCCGTTTTCGGCCGATGCGCCCCGGCGAGGTCTTCGACGTGCCTTCCGCCTGA	MKRRNFFRFSALGLLALAGGGLYARRSNASAYYSGPISDHFDGVRFFNPGGSPPGNFMGLMKWRFNGERATWPESYPSPFPFAKPEARIEGRDMRVTFVGHASFLIQTAGLNILIDPVWSQRTSPFSFAGPKRVNAPGIRFEDLPPIDLVLVTHNHYDHLDMETLKRLHVAHKPLFITPLGNDAIIRTGVEAARIEVGDWGDVVETGPVKIHFEPCHHWSARGLNDRRMALWAAFVIETPGGKIYHIGDTGFHEGLNYHAARKKHGDFRLANLPFGAYEPRWFMKGQHQNPAEAVEGMKLCGAAHVCGHHWGTVQLTDEAVDAPLAALKVALTEQGVEESRFRPMRPGEVFDVPSA				NA	NA	NA	NA	NA
BMS010_09640	1569	ffh_1	COG0541	Signal recognition particle protein	ATGTTTGAAAACCTCCAGGACCGCCTTGGTTCCATTCTGAATGGACTGACCGGCCGTGGCGCGCTGACGGAAGCCGATGTTGCCGCCGCCCTGCGCGAGGTTCGCCGTGCGCTTTTGGAAGCGGACGTTGCACTGGAAGTCGTGCGTTCCTTCACCGACAGGGTGCGTGAAAAGGCTGTTGGTGCCGCCGTCCTGAAGTCGATCAAGCCCGGCCAGATGGTCGTCAAGATCGTGCATGACGAGCTTGTCGAGATGCTCGGCACCGAAGGCGTCTCCATCGATCTCAACGCCCCCGCCCCCGTCGTCATCATGATGGTGGGTCTGCAGGGCTCGGGCAAGACCACCACCACCGGCAAGATCGCCAAGCGCCTGACCGACCGCGATAAGAAGAAGGTGCTGATGGCATCTCTCGACACGCGTCGTCCGGCCGCCCAGGAACAGCTTCGCCAGCTTGGTGTCCAGACGAGCATAGACACGCTGCCGATCATTGCCGGCCAGTCGCCGACCGATATCGCCGCGCGTGCAGTGCAAGCAGCAAAACTCGGCGGCCATGACGTCGTCATTCTCGACACCGCCGGCCGCACGCACATCGACGAACCCTTGATGCTGGAAATGGCCGACATCAAGAAGAAGTCCAACCCGCATGAAATCCTGCTGGTCGCGGATTCGCTGACCGGTCAGGACGCCGTCAACCTGGCGCGCAACTTCGATGAGCGCGTCGGCATCACCGGCCTCGTGCTGACCCGTATGGATGGCGACGGACGCGGCGGTGCGGCTCTCTCCATGCGCGCCGTCACCGGCAAGCCGATCAAGCTGATCGGTATCGGCGAGCGGATGAACGAACTCGACGAGTTCCATCCGCGCCGTATCGCCGACCGTATTCTCGGCATGGGCGACATCGTCTCGCTGGTCGAAAAGGCCGCCGAAAACATCGATGCGGAAAAAGCCCGCGCCATGGCCGAGAAGATGGCCAAGGGCAAGTTCGACCTCAACGATCTCTCCGACCAGCTTGCCCAGATGAAGAAGATGGGCGGCATGGGCGGCATCATGGGGCTGATGCCCGGCATGGCCGGCATGAAGGATAAGATGGCTTCGGCCGGTATGAACGACAAGATGTTCGACCGCCAGATCGCCATCATCTCCTCCATGACCAAGGCGGAACGCGCCAATCCCGATATTCTGAAGCACAGCCGCAAGAAGCGCATCGCCGCCGGTTCCGGCACGGATGCCGCTGAAATCAACAAGCTTCTGAAGATGCATCGCGGCATGGCCGACATGATGAAGGCAATGGGCGGCAAGGGCAAAGGCGGCATCATGAAGCAGATGATGGGCGGCCTTGCCGGCAAGATGGGCCTCGGTGGCCTTGGCGGCGGCATGCCTGATCTGTCGAATATCGATCCGAAGCAGCTCGAGGCGCTCCAGAAACAGGCGGAAGCCGCCGGTCTCGGCAAGCCGGGCGCAATGCCCGGTCTTGGCGGTCTGCCGGGCGGATTGCCGGGTCTGGGTGGCGCCAAGCTGCCCGGTTTTGGCGGCATGCCGGGCCTGCCCGGCTTTCCGAAAAAGAAGTGA	MFENLQDRLGSILNGLTGRGALTEADVAAALREVRRALLEADVALEVVRSFTDRVREKAVGAAVLKSIKPGQMVVKIVHDELVEMLGTEGVSIDLNAPAPVVIMMVGLQGSGKTTTTGKIAKRLTDRDKKKVLMASLDTRRPAAQEQLRQLGVQTSIDTLPIIAGQSPTDIAARAVQAAKLGGHDVVILDTAGRTHIDEPLMLEMADIKKKSNPHEILLVADSLTGQDAVNLARNFDERVGITGLVLTRMDGDGRGGAALSMRAVTGKPIKLIGIGERMNELDEFHPRRIADRILGMGDIVSLVEKAAENIDAEKARAMAEKMAKGKFDLNDLSDQLAQMKKMGGMGGIMGLMPGMAGMKDKMASAGMNDKMFDRQIAIISSMTKAERANPDILKHSRKKRIAAGSGTDAAEINKLLKMHRGMADMMKAMGGKGKGGIMKQMMGGLAGKMGLGGLGGGMPDLSNIDPKQLEALQKQAEAAGLGKPGAMPGLGGLPGGLPGLGGAKLPGFGGMPGLPGFPKKK	PGPT0025750_795	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025750-ffh-K03106	NA	NA
BMS010_09641	318			hypothetical protein	GTGAACAATGCAGAGGTGAAAGCCCAGCTTTCCGAATACCGCCAGTCGATCGACAATATCGATGCCGCACTGGTTCACATTCTTGCCGAACGTTTCCGCTGTACCAAAGCGGTGGGCGTGCTGAAGGCAAAGTACAATTTGCCGCCGGCCGACCCGGCGCGCGAGGAATACCAGATCGAACGCCTTCGCCGTCTGGCGAAGGACGCCAATCTGGACCCGGATTTCGCCGAGAAGTTCTTGAACTTCGTCATCAAGGAAGTCATCCGGCATCATGAAGCAATCGCCGCCGAACATGGCGGCACCGAAAAGACCGCCTGA	MNNAEVKAQLSEYRQSIDNIDAALVHILAERFRCTKAVGVLKAKYNLPPADPAREEYQIERLRRLAKDANLDPDFAEKFLNFVIKEVIRHHEAIAAEHGGTEKTA				NA	NA	NA	NA	NA
BMS010_09642	378			hypothetical protein	ATGGCACTGAAAATTCGTCTCGCACGCGGTGGTTCCAAGAAGCGCCCGTATTACCAGATCGTCGTTGCTGACGCCCGTTCGCCCCGCGACGGCCGTTTCCTCGAGAAGGTCGGTTCCTGGAACCCGATGCTCGGCAAGGACAACCCGCAGCGCGTTGAGCTGAAGGCTGACCTCATCAAGGAATGGATCGCCAAGGGCGCACAGCCGACCGACCGCGTTCTGCGCTTCCTCGCAGAAGCCGGCCTTGCCGAGCGCGCCGCTCGCAGCAACCCGGAAAAGGCAAAGCCGGGCAAGCGCGCGCTCGAGCGTATCGCTGAAAAGAAGCAGAAGGCTGAAGATGCAGCCGCTGCTGCTGCGGAAGCCTCTGCTGCAGAATAA	MALKIRLARGGSKKRPYYQIVVADARSPRDGRFLEKVGSWNPMLGKDNPQRVELKADLIKEWIAKGAQPTDRVLRFLAEAGLAERAARSNPEKAKPGKRALERIAEKKQKAEDAAAAAAEASAAE				NA	NA	NA	NA	NA
BMS010_09643	567	rimM_1	COG0806	Ribosome maturation factor RimM	ATGGCAAAGCTGGAAAACCCGGTACTCATGGCAAAGATCGGCGGCGCACAGGGCCTGCGCGGCGAAGTCCGTGTCAGCACCTATACGGCCGATCCGATGGCGCTCGGCGATTATGGCAACCTTGTTACCGCCGATGGCCGTGTTTTCGAAATTCTGGAAGTGCGCGAGGGCAAGAACGTCGTCGTCGTTCGTTTCAGGGGCATCAACGACCGCAATGCGGCGGAAAGCCTGAATGGGCTGGAACTGTTCATCGAGCGTGACAATCTGCCCGACGACGAGCTTGACGATGACGAATTTTATTATGCCGATCTCGAAGGGCTGGAAGCCGTCGATGCCGATGGCAAAAGTTATGGCGCCGTCAGCGCCGTCTATGATTTCGGCGCAGGTGATCTGCTGGAGCTGAAAGGTGCAGGCCGTCGCCCCGCCCTCATTCCCTTTTCGGAAGCGGCCGTGCTGGAAATCGACCTAGAAGCCGGTCGTATTCTCATCGATCCGATGGCCGCCGGCCTGATCGACAACCCTGACGACAAGGACGAAACCGGCGCATCGCCGTTCGGCAAGAAATAA	MAKLENPVLMAKIGGAQGLRGEVRVSTYTADPMALGDYGNLVTADGRVFEILEVREGKNVVVVRFRGINDRNAAESLNGLELFIERDNLPDDELDDDEFYYADLEGLEAVDADGKSYGAVSAVYDFGAGDLLELKGAGRRPALIPFSEAAVLEIDLEAGRILIDPMAAGLIDNPDDKDETGASPFGKK				NA	NA	NA	NA	NA
BMS010_09644	699	trmD_1	COG0336	tRNA (guanine-N(1)-)-methyltransferase	ATGACCTTCAAGGCTACCGTTCTGACGCTCTACCCGGAAATGTTTCCGGGGCATCTCGGATATTCGCTGGCGGGCAAGGCGCTGGAGCGGGGGCAATGGTCGCTGGACGCCGTACAGATCCGCGAATTTGCCACCGACAGACACAGAAGCGTCGATGACACGCCGGCAGGCGGCGGCGCCGGCATGGTGCTGAAACCCGATGTTCTGGCTGCGGCCATCGACCATGTTTCGGATGGCGATACAAGGCCGCGGCTGCTGATGAGCCCGCGCGGCAAGCCGCTGTCGCAAAACCGTGTGCGTGAACTGGCGGCCGGAGAAGGCGCGATTGTCGTCTGCGGTCGTTTCGAAGGCGTCGACCAGCGGGTTATCGAGGCGCGCGGGCTGGAGGAAGTGTCGATCGGCGACTACATCCTCTCCGGCGGTGAGCCGGCGGCGCTGACGCTTCTTGACGCCGTCGTCCGTATCCTGCCGGGCGTTATGGGCAACGATCTTTCCGGCGTGCATGAAAGCTTCGAGGGCGGGCTGCTGGAACATCCGCACTATACCCGCCCGCAGGTCTGGGAAGGCCGCGACATCCCAGCCGTTCTCACCTCTGGCAACCACGCTGTCATCGACAGGTGGCGTCATGAACAGGCGCTGAAGCTGACGCAGGAAAGACGTCCGGACCTTCTGGTAAAGGCTCAGGCCGAAACGAAATAA	MTFKATVLTLYPEMFPGHLGYSLAGKALERGQWSLDAVQIREFATDRHRSVDDTPAGGGAGMVLKPDVLAAAIDHVSDGDTRPRLLMSPRGKPLSQNRVRELAAGEGAIVVCGRFEGVDQRVIEARGLEEVSIGDYILSGGEPAALTLLDAVVRILPGVMGNDLSGVHESFEGGLLEHPHYTRPQVWEGRDIPAVLTSGNHAVIDRWRHEQALKLTQERRPDLLVKAQAETK	PGPT0007595_12	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007595-ispF-K01770	NA	NA
BMS010_09645	747	yfcA_4	COG0730	putative membrane transporter protein YfcA	ATGTCCATATTCATTATTCTCATGCTGTTCGCCACCGGCTTTCTGTCGGGTGTCGTCAATGCGATTGCCGGCGGCGGCACCTTCCTGACCTTCGGGGCGATGACGCTGGCCGGTCTGCCACCCATTGTCGCCAACGCCACGTCAGCCATCGTGCAGTTTCCGGGCTACATCACCTCCGTGATCGCCTATGGGCCGGAAATCCGCGCCCATTGGCGCGAGGCGATCCTTTTGTCGGGCGTTTCAGTCGTCGGCGGGCTGGCCGGATCGCTGCTGCTTTTGTCGCTCGACAATCCTTCCTTCCGCCAGCTCGTGCCATGGCTGCTTCTTGCGGCCACCGCCGTTTTCGCTGCCGGCCCGTGGCTGCGGCCGAAGGCGAGCGCCGAACGTTCGCCCGGAAATCTGCCGAGCCTCGTCTTTCAGGGTCTCGCTTCCGTCTATGGCGGATTTTTCGGCGCTGGCATGGGCATCATGATGCTGGCCATCCTCGGAATAACCTCGGGCGGCAGCTATCATCATCTGAATGCGTTGAAGAACCTCTTGTCGGTCGTGATCGCCGTAATCGCAATCACGATCTTCGTCAGCGGTGGCGTCGTTTCCTGGTGGGCGGCGCTCATCATGTTCCCTGCGGCCGCACTTGGCGGCTATATGGGCGTGCATACGGCACGGCGGGTGCCGCAGTGGATCATTCGCTGGCTGGTGATCGCCGTCGGGCTGGTGCTGACGGCCTATTATTTCGTTTCGGCCTGA	MSIFIILMLFATGFLSGVVNAIAGGGTFLTFGAMTLAGLPPIVANATSAIVQFPGYITSVIAYGPEIRAHWREAILLSGVSVVGGLAGSLLLLSLDNPSFRQLVPWLLLAATAVFAAGPWLRPKASAERSPGNLPSLVFQGLASVYGGFFGAGMGIMMLAILGITSGGSYHHLNALKNLLSVVIAVIAITIFVSGGVVSWWAALIMFPAAALGGYMGVHTARRVPQWIIRWLVIAVGLVLTAYYFVSA				NA	NA	NA	NA	NA
BMS010_09646	540			hypothetical protein	ATGACCAATATCATTCAGCAGCTGGAAGCCGAACAGGCCGCCAAGATCGAAGCAAAGCGCACCCTGCCCGAGTTTTCTCCGGGCGACACCCTGCGCGTCAACGTGCGCGTTACCGAAGGTAACCGTACCCGCGTTCAGGCTTACGAAGGCGTTTGCATCGCCCGTTCCGGCGGCGGTCTTTCCGAAAGCTTCACCGTTCGCAAGATTTCCTACGGCGAAGGCGTCGAGCGCGTATTCCCGATCTACTCCCCGCTGGTCGAAGGCGTTGAAGTCGTTCGCCGCGGTAAGGTTCGCCGCGCGAAACTCTACTACCTGCGCGACCGTCGCGGCAAGGCTGCCCGTATCGTTGAGAACACCGGTACGCGCGCCCGCAAGCTGAACGAGTCCGAGCGTCAGGCGCTTGCCGACGAGAAGGCACGTCTGGAAGCCGAAAAGGTAGCAGCAGCACAGGCTCTCGCCGCCGAGAAGGCAGCAGCCGAAGCCGCAGAAGCCAAGGCAGCGGAAGAAGCAGCAAAGGCTGCGGAAGCCACAGCGGAATAA	MTNIIQQLEAEQAAKIEAKRTLPEFSPGDTLRVNVRVTEGNRTRVQAYEGVCIARSGGGLSESFTVRKISYGEGVERVFPIYSPLVEGVEVVRRGKVRRAKLYYLRDRRGKAARIVENTGTRARKLNESERQALADEKARLEAEKVAAAQALAAEKAAAEAAEAKAAEEAAKAAEATAE				NA	NA	NA	NA	NA
BMS010_09647	1734	prsD_2		Type I secretion system ATP-binding protein PrsD	ATGTTTTTATTTAATTCTTTTTTAACAAAAAATAAGTCCGCTTTTTTCGCCGTTGGTCTCGCCAGCGCGTTGATGAACATTCTTAATCTTTCCGGCTCGCTTTTCATGCTGGAAGTTTACGACCGCATTTTGCCAAGCAAGAGCATTCCATCCCTTGTGGCACTGGTCGTTCTCCTGATCGTTCTCTACGCGTTTCTGATGGGGTTCGACGCGCTGCGAGGCCGTATATTGGCGCGCATTTCGGACAATATGGACGACGCGCTCAATCAGAAGCTTTTCAGGGCGTCGATCAGTGCGCCGCTCCTTGCCTCGGGAAAAGTCGATGGGCTGCAGATCGTCGGCGATCTCGATCAGATCCGCCAGTTCCTCTCGGGACCGGGCCCGGCCGCCTTTTTCGACATTCCCTGGCTGCCCATCTATCTGCTGATCTGTTTTGCCCTGCATCCGTGGATCGGGTTCGCTGTGCTCGGCGGAGCCGTAGTTCTCATCGTGCTGACGCTTCTTACGAACTGGCTGACCGAAAGGGCGACAAAGCAGGCTTATACCGCACGAGGGCAAAGAAACGTCCTTGTCGGCAGCAGCCAGCGCAACATCGAATCCATCAAGACCATGGGCATGATGGGGGCGGTGACGTCCATGTGGGACGAGCTACACTCCAGATACCGCGCCATCACCCTGTCGACATCCGATACCGCCGGCATGCTCGGCGCCATGTCGCGAACCTTCCGCCTGTTGCTGCAATCCGGCGTCATGGCCATCGGCGCCGTTCTCGTCATCGACGGCAATGCATCGGCGGGCAGCATCATCGCAGGCTCGATCCTCTCCGCAAAGGCGCTCGGCCCTGTCGAACATGCGATTGCAAACTGGCGCAGCTTCATGACCGCAAGACAGGGCTGGAAACGCGTCAACGAGTTCCTGGAACTGGTGCCCGAACCCTCGCCGCCGCTCTCGTTGCCCCGCCCGCAATATACCGTTGCCGTTGATCGGGTAACGGGTGGGCCACCCAATGGCGCGCGCGATACGGTCGCCGATATTTCCTTCACGCTGAACGCGGGCGATGGTCTCGGCATCATCGGCCCAAGCGCCTCGGGCAAATCCACACTGGCACGCTTGATGACCGGCATCTGGCCCTATGAACGCGGTTCCGTCCGCTTCGATGGGGCCGCGCTCAACCAGTGGGATTTCGAGTTTCTCGGCAAATCCATCGGTTACATGCCCCAGCAGGTGGAGCTGATGCCCGGAACCGTGGCGCAGAACATCGCACGCTTCGACCGCGATGCGACGGCGGAAGCGGTTGTCGCCGCAGCCAAGGCCGCGCAGGTGCATGAGCTGATCCTGAACCTGCCCAAGGGTTACGATACCTATATTGGCGACCGTGGCGAGGCTTTATCGGGCGGTCAGAAACAGCGCATCGGCCTTGCCCGCGCGCTGTTTGGCGAACCCTTCTTCGTCCTTCTCGATGAGCCGAACTCCAATCTGGACAGCGACGGCGAAGCGGCCCTGCGCAATGCCATTGGCGACATCAGGGCGCGTGGCGGCATTGTCGTCGTCATTGCCCATCGCCCCAGCGCCATCGAAAGCGTCAATCTGGTGATGGTGATGAGCAACGGCCGAATGCTGCGCTTTGGCACCAAGGAGGAAGTGCTCGCGCAAATCCTGCGGCAGAACATCCGCCAGGTGCCTGAGGAGGAAGAAACGCGCAAGATTGAAAACCGGGTGAGCGAAAATGGTTGA	MFLFNSFLTKNKSAFFAVGLASALMNILNLSGSLFMLEVYDRILPSKSIPSLVALVVLLIVLYAFLMGFDALRGRILARISDNMDDALNQKLFRASISAPLLASGKVDGLQIVGDLDQIRQFLSGPGPAAFFDIPWLPIYLLICFALHPWIGFAVLGGAVVLIVLTLLTNWLTERATKQAYTARGQRNVLVGSSQRNIESIKTMGMMGAVTSMWDELHSRYRAITLSTSDTAGMLGAMSRTFRLLLQSGVMAIGAVLVIDGNASAGSIIAGSILSAKALGPVEHAIANWRSFMTARQGWKRVNEFLELVPEPSPPLSLPRPQYTVAVDRVTGGPPNGARDTVADISFTLNAGDGLGIIGPSASGKSTLARLMTGIWPYERGSVRFDGAALNQWDFEFLGKSIGYMPQQVELMPGTVAQNIARFDRDATAEAVVAAAKAAQVHELILNLPKGYDTYIGDRGEALSGGQKQRIGLARALFGEPFFVLLDEPNSNLDSDGEAALRNAIGDIRARGGIVVVIAHRPSAIESVNLVMVMSNGRMLRFGTKEEVLAQILRQNIRQVPEEEETRKIENRVSENG	PGPT0029385_881	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-HEMOPHORE|METALLOPROTEASE_TRANSPORT,PGPT0029385-hasD|prtD|-K12536	NA	NA
BMS010_09648	1314	prsE_4		Type I secretion system membrane fusion protein PrsE	ATGGTTGAGGCGGAAAAACCCGGTATGACGAATGCGTCCATTCTCAGGCACTCGACCGCGGTGGTCGTTCTCGCCCTTGGCCTGCTGGTCGGATTGGGCGGCTGGGCGGCTTTTGCAAAGCTTGCCGGCGCGGTGGTGGCCACCGGCCGGGTTGTCGTTGAAGGCAACTCCAAGAAAATCCAGCATCTTTCCGGCGGCATCGTCAGCGAGATCAATGTCGCCGAAGGCGACAGGGTCGAGGCAGGTCAGGTCCTGTTGCGGCTGAGCGCCACCGTCGTGCAGGCGAACCTCTCCATCGTCGAAAATACGCTTGCGCAGCTTTACTCGCGTCGGGCGCGTCTGCGTGCGGAAATTGCCGAGGCGCCTTCTTTCACTGTGGAGGAAGATCTGGCGGCACTGACGAGTTCGAAGGCGGCCAAGACCTTTATCGACAGCGAACAGAACCTTTTCAACAGCCGTCGCAACGCCTTGATCGGCATGAAAAAGCAGCTGGGAACACGCAAGGACCAGCTCGCCGACGAGGCACGCGGCCTCGAGGTGCAGGTGGAGGCGACGGACAATGAGCTTGCCATTGTAAAGGAAGACGTTTCCAAGACGGACGAGCTTTTCAAAAAAGGGCTTGTCACACTTCAGCGCCTCAATCTCCTCAAGCGCCAGCTTTCCAATCTCGAAGGTCAGCAGGGCCAATACATCGCCGCCCGGGCACAGACAGTGGGCAAGCTGAGCGAACTGGACCTGCAATTGCTTCAGCTCGATGAAGACCGCAAATCGGAAGTCACGAAAGACCTGACATCGATCGAAGCGACCGTCGCGGAATATGAAGAGCGGCTGGCGGCAACGCGCGACCAGCTGGATCGCCTCGACATCCGCTCACCGATTGCCGGTCGCATCTACCAGCTCTCGGTGCACAATATAAATGGCGTCATTCAACCGGGTGAAGTGCTGATGCTGGTGGTGCCGGAGCAGGATGAGCTTGCCATCGAGGCCAACATAACTCCACAAGACATCGATCAGATTTACGTCGGGCAGCCGGTAACCATTCGCTTCACGGCATTCAATCAAAGCACGACGCCGGATTTGAGCGCGCAAGTTGCTGTCGTCGCCCCCGATCTGCAGACAGATTCCCGAACTGGCTCATCTTATTACGCGCTGCGCATCAAACCCGACAAGGCCGGAATTGGTCATCTACCCGGCGGGAAATTATATCCCGGCATGCCAGCCGAAGTGTTCATACAAACCAGCGAAAGGAGTGTTCTTTCTTATTTTGTGAAGCCGTTCCAGGACAGGCTCAGAAAGACCTTCGTACAGGAGTAA	MVEAEKPGMTNASILRHSTAVVVLALGLLVGLGGWAAFAKLAGAVVATGRVVVEGNSKKIQHLSGGIVSEINVAEGDRVEAGQVLLRLSATVVQANLSIVENTLAQLYSRRARLRAEIAEAPSFTVEEDLAALTSSKAAKTFIDSEQNLFNSRRNALIGMKKQLGTRKDQLADEARGLEVQVEATDNELAIVKEDVSKTDELFKKGLVTLQRLNLLKRQLSNLEGQQGQYIAARAQTVGKLSELDLQLLQLDEDRKSEVTKDLTSIEATVAEYEERLAATRDQLDRLDIRSPIAGRIYQLSVHNINGVIQPGEVLMLVVPEQDELAIEANITPQDIDQIYVGQPVTIRFTAFNQSTTPDLSAQVAVVAPDLQTDSRTGSSYYALRIKPDKAGIGHLPGGKLYPGMPAEVFIQTSERSVLSYFVKPFQDRLRKTFVQE	PGPT0029390_881	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-HEMOPHORE|METALLOPROTEASE_TRANSPORT,PGPT0029390-hasE|prtE-K12537	NA	NA
BMS010_09649	933			hypothetical protein	ATGGCGTTAAAAGTAACTTTTGGTAATGGTGGCGCCTACACTGTCGCTTCGCTTACCAATTTGGTCGATCAGGAAACATACAAACTCCTCGATGAAGCGACTACGCAGACCAAGACCGGCTCCTCGCTCAATTCCGGCATCGTTCAGGCCGACCCGGGTGCCAAGATCGCTGTCGGATACAATGCCGACACGAACAGCTTCAATTTCGACGTAACGACGGCGTGGAATTCCGTTAAAAACGTCCTCGCCAAATCCGACACATCCGAAAACCTCTCGTTCAAGGATTTCGTTCACGTCGATGTTCACCTCGGCGGCACGGGTTCATCCAATGTTGAAGTGCTCAATGCCAAGCGTGGCAATATTTCAACGGGCTCAGGTAACGATACGGTAACCGTCTCTCTCGTTTCGAACGAGAAATTCTGGTCAAATGCCTTCAATGTCGACACAGGTGCTGGCAACGACACCATCACGTTCAAGGCAGGAAAGTCGTTCAACGACACCTCAGCCGAAGGTACGGGCGGTATTCTCGCCCAGGCTGTGAATGGCGGCGCTGGCGTAACCGACGGCAGTTTCACCAATGTCACCATCAATGCAGGCGCCGGTGACGACAAAATCGACCTGAGCGGAGTGAAGCTGGCTTCCTCGCTGGTAACCGGCGGCACGGGTATCGATCGCATCATTGCAAGCGGTGGCGCTGATACCTTCGTTTTCAATCTTGGCGATATGGCCAAGAGCATTGTTACCGACACCATCAACGGCTTCAATGCGTCTATGGACAAGCTGAAGCTGGTCGGGACGACAATTGGCGACTGGACGGTGTCGACTTACGAAGCAGACACGATCTTAAGCTATAATGTCGATGGAGCTCACAAAGGCGAGAAGATCGTTCTGTCCGGCGTCCACCTCACCGGTAGCGATTGGTTCACTGCATAA	MALKVTFGNGGAYTVASLTNLVDQETYKLLDEATTQTKTGSSLNSGIVQADPGAKIAVGYNADTNSFNFDVTTAWNSVKNVLAKSDTSENLSFKDFVHVDVHLGGTGSSNVEVLNAKRGNISTGSGNDTVTVSLVSNEKFWSNAFNVDTGAGNDTITFKAGKSFNDTSAEGTGGILAQAVNGGAGVTDGSFTNVTINAGAGDDKIDLSGVKLASSLVTGGTGIDRIIASGGADTFVFNLGDMAKSIVTDTINGFNASMDKLKLVGTTIGDWTVSTYEADTILSYNVDGAHKGEKIVLSGVHLTGSDWFTA				NA	NA	NA	NA	NA
BMS010_09650	1278	abaQ		Quinolone resistance transporter	ATGGTATCCGAAAAAGCCCTTATCTCGAAGATCACCTGGCGGCTGATGCCGTTTCTTGGCCTTCTCTATCTCATCGCCTATATTGACCGCCAGAATGTCAGCTATGCCAAGCTGCAGATGGTCGACGCGCTGAGCCTCAGCGAATATGCCTATGGCCTTGGCGCTTCGCTGTTCTTCATCGGTTACTTCATCTTCGAAGTGCCGAGCAACCTGTTCCTCAACCGTTTCGGCGCCAGCAAATGGTTTGCCCGTATTCTGGTTTCCTGGGGCGCCGTCACCATCGCGCTTGCCTATACGCAGAACGCCACGATGTTTTACATCCTGCGCTTCCTGCTCGGGCTTTGCGAAGCGGGTTTCTTCCCCGGCGTATTGTTCCTCATGACGCTCTGGTTCCCGCGCGATTATCGCGGCCGCATGATCGGCCTGTTCATGATCTTCAGCGCGCTTGCCAATGCTATCGGCGCGCCGCTCGGCGGCATGCTGCTCGATCTGGATGGTTTCCTTGGTTATGCCGGATGGGAATGGGTATTCCTCGCCACGGGTATCCCGGCCGTCATTGCCGGTATCGTCACCTTCTTTTATCTCGACGATACCCCGGAAAAGGCGAAGTTTCTGACGCAGGATGAGAAGGACTGGTTGAAAAACCGGCTGGCCGAAGAAAACAAGGGCATGGAAGAGCATGCGGAGGACGGCTTCAAGGCGCTGGTCAATCCGCGCGTTCTGTTCATGGCGCTCTGCTATGTCGGCTTTCCGCTGGCGGCCTATGGTCTCAGCTACTGGCTTCCGACCATCGTGAAGAGCTTCGGCGTTTCCAATACCGCCAATGGCTTCATCAACATCATCCCCTGGGTGATCGTGGCCGTCGCCCTGTTCGTTGTGCCCCTGGCTGCCGACAAGGCAAAGAACAAGACGCCCTATATCGTCGGTCCTGCCTTCATCGGCGCCATTTGTCTGTTGATGTCGGCATTGCTGAGCGATCCAGTCTTGCAGTTCGCCTTCCTTTGCATCGCCGCCGCAGGCATCTTTGCCGGCCAGCCGGTGTTCTGGAGCCTGCCGGGCCGCTTCCTCAAGGGAGCAGGTGCGGCCGCCGGCATCGCCGCGATCAATTCCGTTGGCAATCTGGGTGGCTTCGTGGCGCAGAACGTGGTGCCCTGGATCAAGGATCAGACCGGCAGCACCATTGCGCCGATGTTCTTCCTTGCCTTCTGCCTGGCGCTTGCCGGGGTGCTGGTCATCGTCGCAACGCGTAGAATGGGCAATCAGGCCAAGGCTGCCTGA	MVSEKALISKITWRLMPFLGLLYLIAYIDRQNVSYAKLQMVDALSLSEYAYGLGASLFFIGYFIFEVPSNLFLNRFGASKWFARILVSWGAVTIALAYTQNATMFYILRFLLGLCEAGFFPGVLFLMTLWFPRDYRGRMIGLFMIFSALANAIGAPLGGMLLDLDGFLGYAGWEWVFLATGIPAVIAGIVTFFYLDDTPEKAKFLTQDEKDWLKNRLAEENKGMEEHAEDGFKALVNPRVLFMALCYVGFPLAAYGLSYWLPTIVKSFGVSNTANGFINIIPWVIVAVALFVVPLAADKAKNKTPYIVGPAFIGAICLLMSALLSDPVLQFAFLCIAAAGIFAGQPVFWSLPGRFLKGAGAAAGIAAINSVGNLGGFVAQNVVPWIKDQTGSTIAPMFFLAFCLALAGVLVIVATRRMGNQAKAA	PGPT0002325_175	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-ORGANIC_ACID_METABOLISM	P-SOLUBILISATION-TARTARIC_ACID_TRANSPORT,PGPT0002325-ttuB-K13021	NA	NA
BMS010_09651	1410	leuC_2	COG0065	3-isopropylmalate dehydratase large subunit	ATGAGCGCACCCCGCACCCTGTATGACAAAATCTGGGACGACCACGTCGTCAATCGTGACCCGGACGGAACCTGTCTTCTCTACATCGACCGTCACCTCGTCCATGAGGTGACGAGCCCGCAGGCCTTCGAAGGCCTGCGCATGGCCGGTCGTCCCGTCCACTCGCCTGCCCGCACGCTGGCCGTCGTTGACCATAACGTTCCGACCACGGCCGACCGGCTGGAAGGCATCAAGAACGAGGAAAGCCGCATTCAGGTGGAAGCGCTTGCGCAGAACGCCAAGGATTTCGGCGTCGAATATTATTCCGAGCGCGACAAACGCCAGGGCATCGTTCACATCGTCGGCCCTGAACAGGGCTTCACCCTACCGGGCATGACAATCGTGTGCGGCGACAGTCACACCTCGACCCACGGCGCCTTTGGCGCACTGGCGCACGGCATCGGCACCTCGGAAGTGGAGCACGTTCTGGCGACCCAGACGCTGATCCAGAAGAAAGCCAAGAACATGCTGGTGCGTGTCGACGGCAAAATTCCCGATGGCGTTACCGCCAAGGATATCATCCTCGCCATTATCGGCGAGATCGGCACGGCCGGTGGCACCGGCCACGTGATCGAATTTGCCGGCGAGGCGATCCGTTCGCTCTCCATGGAAGGCCGCATGACGGTCTGCAACATGACCATCGAGGGCGGCGCCCGTGCGGGTCTTATCGCGCCGGACGAAACCACCTTCGATTACATCAAGGACAAGCCGCGCTCGCCGAAGGGCGAAACGCTGGAACAGGCCATCGCCTATTGGAAAACGCTGAAATCCGACGAAGGCGCCCATTACGACAAGGTCGTGGTGCTGGATGCGGCCAACCTGCCGCCCATCGTCTCCTGGGGCTCGTCTCCGGAAGACGTGACCTCTGTTGAAGGCATTGTTCCCAATCCCGATGATATCGAGGAAGAAAACAAGCGCGCTTCCAAGTGGCGTGCGCTTGAATACATGGGCCTGAAGCCCGGCACGCGCATCACCGATATCGCCATCGACCGTGTCTTCATCGGCTCGTGCACCAATGGCCGCATCGAGGATTTACGCGCGGCGGCGAAGATCGTTGACGGCCGTAAAGTCGCTCCCACCGTTTCGGCCATGATCGTGCCCGGCTCCGGTCTCGTGAAGGAACAGGCGGAAAAGGAAGGCCTGGACAAGATTTTCCTCGAAGCCGGTTTCGAATGGCGCGAGCCAGGCTGCTCCATGTGCCTTGCAATGAATGACGACCGCCTGAAACCCGGCGAACGCTGCGCCTCCACCTCGAACCGCAATTTCGAAGGCCGCCAAGGCTATAAGAGCCGCACCCACCTCGTCTCCCCCGCCATGGCGGCGGCGGCGGCGATTGCCGGTCATTTCGTCGACGTACGTGAGTGGCAATGA	MSAPRTLYDKIWDDHVVNRDPDGTCLLYIDRHLVHEVTSPQAFEGLRMAGRPVHSPARTLAVVDHNVPTTADRLEGIKNEESRIQVEALAQNAKDFGVEYYSERDKRQGIVHIVGPEQGFTLPGMTIVCGDSHTSTHGAFGALAHGIGTSEVEHVLATQTLIQKKAKNMLVRVDGKIPDGVTAKDIILAIIGEIGTAGGTGHVIEFAGEAIRSLSMEGRMTVCNMTIEGGARAGLIAPDETTFDYIKDKPRSPKGETLEQAIAYWKTLKSDEGAHYDKVVVLDAANLPPIVSWGSSPEDVTSVEGIVPNPDDIEEENKRASKWRALEYMGLKPGTRITDIAIDRVFIGSCTNGRIEDLRAAAKIVDGRKVAPTVSAMIVPGSGLVKEQAEKEGLDKIFLEAGFEWREPGCSMCLAMNDDRLKPGERCASTSNRNFEGRQGYKSRTHLVSPAMAAAAAIAGHFVDVREWQ	PGPT0001442_2570	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001442-leuC-K01703	NA	NA
BMS010_09652	1515	bepA_7		Beta-barrel assembly-enhancing protease	ATGACTGCACAGTGGAGGCTCTTCTCCCGTTCAGGCCTTCGCCGTTCGGGCAGGACGGCTGCAGCCTGTTCCGTGCTGACCGCGTCTGCGGTGTTCCTGTCGTCGTGCCAGTCTCTCTTCAGCCCGGCCTACCAGTCCACCCTGCGCCCATCGGATAATCCGCAGACCGTGGAAGAGGTGCAGAAGAATGATCCCCGCGCCCAGATGGGCGCTCGCGAGCATCCGCGCATCGTGGCGAGTTATGGCGGTGAGTACCGCGACGCCAAGACGGAACGGCTTGTCGCGCGTATCGCCGGCGCTCTGACCGCCGTTTCGGAAAATCCGCAACAGTCTTACCGCATCACTATTCTCAACTCGCCGGCCATCAACGCCTTTGCGCTGCCGGGCGGATATCTTTACGTGACGCGCGGCCTTCTGGCGCTTGCCAACGATGCTTCGGAAGTGGCCGCCGTGCTTTCGCATGAGATGGGCCATGTCACCGCCAATCACGGCATCGAACGCCAGCGCCGCGAAGAGGCGGAGGTGATTGCCAGCCGCGTGGTTGCCGAAGTGCTGTCGAGCGATCTTGCCGGTAAGCAGGCGCTTGCGCGTGGCAAGCTGCGGCTTGCGGCCTTTTCGCGCCAGCAGGAATTGCAGGCGGATGTGATCGGCGTGCGGATGCTGGGCGAGGCCGGTTACGACCCCTTTGCCTCGCCACGTTTCCTGGATTCCATGGCGGCCTATGCGCGGTTCTCTTCGGCTGATCCCGAAAACGACCAGAGCCTCGACTTCCTTTCCAGCCACCCCAACACGCCGCAGCGCATCGAGCTTGCGCGCCGTCATGCCCGCGCCTTCGGCCAGGACGGCCAGGTCGGCGATCGTGGTCGCGACTGGTTTCTGGATGGCATAGATGGTCTGCTTTATGGCGATAGCCCGCAGGAAGGTTATGTCCGCGGCCAGACATTCCTGCACGGAACGCTCGGCATTCGTTTCGATGTGCCGGAAGGTTTCCTTATCGACAACAAGGTCGAGGCCGTTCTGGCGACGGGACCGGGCGACATGGCCATCCGTTTCGACGGCGTCGCCGATCCGAAACAGACGAGCCTTGCCAATTACCTGACCAGCGGCTGGGTTGCCGGCCTGTTGCCGGAAACAGTCAAGGAAACCCAGATCAATGGTCTGGAGGCCGCGACAGCCCGGGCAAGTGCGGATAAATGGGACTTCGACGTGACCGTCATTCGTGTCGGCCAGCAGATATTCCGTTTCCTGACCGCCGTGCCGAAGGGCAATACGCAGCTCGATTCCATCGCCAATACATTGCGCACCAGCTTCCGCAAGATGACGCCGCAGGAAATCGCCTCGCTGAAGCCGCTCAGGGTGCGGGTGGTGACGGTGAAGCCCGGTGAAACCGTGGCGACGATGGCGGCGCGGATGATGGGAACCGACCGGAAGCTCGACATGTTCCGCATGATCAATGCCATGAGCGCCACGGCCACCATTCAGCCGGGCCAGCGGGTGAAGATCATTTCGGAATAA	MTAQWRLFSRSGLRRSGRTAAACSVLTASAVFLSSCQSLFSPAYQSTLRPSDNPQTVEEVQKNDPRAQMGAREHPRIVASYGGEYRDAKTERLVARIAGALTAVSENPQQSYRITILNSPAINAFALPGGYLYVTRGLLALANDASEVAAVLSHEMGHVTANHGIERQRREEAEVIASRVVAEVLSSDLAGKQALARGKLRLAAFSRQQELQADVIGVRMLGEAGYDPFASPRFLDSMAAYARFSSADPENDQSLDFLSSHPNTPQRIELARRHARAFGQDGQVGDRGRDWFLDGIDGLLYGDSPQEGYVRGQTFLHGTLGIRFDVPEGFLIDNKVEAVLATGPGDMAIRFDGVADPKQTSLANYLTSGWVAGLLPETVKETQINGLEAATARASADKWDFDVTVIRVGQQIFRFLTAVPKGNTQLDSIANTLRTSFRKMTPQEIASLKPLRVRVVTVKPGETVATMAARMMGTDRKLDMFRMINAMSATATIQPGQRVKIISE				NA	NA	NA	NA	NA
BMS010_09653	717	thiQ	COG3840	Thiamine import ATP-binding protein ThiQ	ATGACAGGCGATGAATTTGCCGTTGAACTGGACAAGGTCAGGCTGCGGCTTGGAACACAGGATTTCGACCTCGATTGCACATTCCCGCAGAGCCGGATAATTGCCGTCGTCGGCGCGTCCGGTTCGGGCAAGTCGACGCTTCTCAACCTCGTCGCCGGTTTCGAGGCGCCGGATTCCGGCCGCGTGATGATCGGCGGGCAGGACATGACGGCGCTCGATCCTTCGGAAAGACCAGTCTCATCGATCTTTCAGGATAATAATCTGTTTGCGCATCTCGATATCTTCACCAATGTCGCTCTCGGTGTCAGCCCCGGGCTGAAATTGCGGGTGGAAGACCGGGAACGGATTGAGATGGCGCTTGCACGTGTCGGTCTGGCGGGTTTCGACAAACGTTTGCCGGGCACGCTTTCCGGCGGAGAAAGGCAGAGGGCGGCGCTGGCGCGTGCGCTGGTCAGGAAAAAACCGGTCATGCTGCTCGACGAGCCTTTTGCGGCACTCGATCCCGGACTGCGGGCGGGTATGACGTCGCTGCTTCTCGACTTGCATGGAGAAACAAAAAACACGGTGATTATTGTCACCCACCATCCCGAAGACATAAAGAAGCTGGCGCAGAAGGTGGTTTTTCTTGATCGCGGCCGGGTTGTCTATGTCGGCTCGACCGCAGATTTCTTCGCCACACAAAATGTGAAGGCGGTGGACAGTTTTCTGAACGGGTGA	MTGDEFAVELDKVRLRLGTQDFDLDCTFPQSRIIAVVGASGSGKSTLLNLVAGFEAPDSGRVMIGGQDMTALDPSERPVSSIFQDNNLFAHLDIFTNVALGVSPGLKLRVEDRERIEMALARVGLAGFDKRLPGTLSGGERQRAALARALVRKKPVMLLDEPFAALDPGLRAGMTSLLLDLHGETKNTVIIVTHHPEDIKKLAQKVVFLDRGRVVYVGSTADFFATQNVKAVDSFLNG	PGPT0009110_524	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_TRANSPORT,PGPT0009110-thiQ-K02062	NA	NA
BMS010_09654	1626			hypothetical protein	ATGATGCTGCGTCGCGATTACCGGCGGTCGATCATTTTCGGAACGGCGGCTTTTGCCGCCGTTTTCCTGTTCATGGCGCTCGCGGTTGCAGCTCTCCTGTCTTTTGATGCCGGCGCGTCCGCTGCCGGCATCATGGATGCCTATACGCTGCGCATCCTGCGTTTCACGCTTTATCAGGCAACGCTTTCCACCCTTCTTTCCATTGTTCTCGGCCTTCCGGTGGCGCTGGCGCTTTGTCGTCGGCGCGCGTTTGCGGGAAGGATCTGGATCATCAGGCTGATGGCGGTGCCGATGGGTCTGCCGGTGATCGTCGGCGCCTTCGGTATCATCACCATCTGGGGCAGGCAGGGCGTTTTGAATTCGGCCCTCGTTTTTGCCGGAGCGGATGAGCCTTTCAGCATTTACGGCCTCTCCGGCATCCTCATTGCCCATGTGTTTTTCAATCTTCCGCTTTCGGTGCGTCTGATGCTGGCCGGGCTGGAGCGCATTCCGGGCGAATATTGGCGCATGGCGGCGAGCCTCGGCATGGGGCCGGTTTCGATTTTCCGTTTTATCGAATGGCCGGCGGTCGCGCGTCTCGTCCCCGGCATTGCCGGGCTTGTCTTCATGCTGTGCGCCACCAGCTTCACGCTCGTTCTTCTGCTGGGCGGCGGGCCGGCAGCAACGACGCTGGAGGTGGCGATTTATCAGGCGTTACGGTTCGATTTCGATCCGCAGCGGGCGATTGCGCTTTCGGTTTTGCAGATTGGCCTCACCGCAATCCTGCTCGGCCTTCTTGCCTTTTTGCCGTCGCCCGTAGCGGAGATTCCCTCGCTTGGTCGTTCCCTTCGCCGTTTCGACGGAAAGGGCATGGGTGTCCGCCTCTGGGATGGCGCGGCAATCGTGTTCGCTGTTCTGCTGATCGGCCTGCCACTTGTCGCCATCGCTGTCTCGGGTTTGAGGGCCGATCTGCCGCGTCTTCTGTCCGCGCCGATTTTCCTGCGCGCGGCGGCGACCAGTCTTGCAATCGCCGCACTCTCCGCAGCCCTTGTCGTGCTTTGCTGCATGGCGATCATCGGCGCGCGCCAGGCGATAGGCTCCAGACGGCGGGCGGGACAGCCCCTGCGCTTCCTCTCCGCCATGCTCGGGGCAGGGTCTTCGCTGGTGCTTTTGGTGCCGCCAGTCGTATTGGGAAGCGGATGGTTTCTCTTATTGCGGCTTTTCGGCGATACCAGCTTCTATGCGCCGGTCCTCGTGGCGCTGATCAATATGCTGATGGCTTTGCCGCTTGCCATGCGGGTGCTGGAGCCGGCCTGCACCAGTCATTTCTTGCGCACCGGCCGACTTTCCGCCAGTCTCGGGCTTCAGGGTCTGGCGCGGCTGCGGTTCGCCGATCTTCCGGTTCTGTGGCGACCGCTGGTCATGGCGTTTTCCTTCGCCATGGCCCTGTCTCTCGGCGATTTAGGCGCGGTTGCCCTGTTCGGATCGGAAAGTTTCGTCACCCTGCCATGGCTGGTTTATAGCAATATGGGCAGCTATCGTACCAATGATGCCGCCGGTTATGCCTTCCTTCTCGGTATCGTCTGCCTGCTGCTTGCCGCAGGCGGTGTTGCACGGCAATCCCAATCAGCAAGGGCGAGCATATGA	MMLRRDYRRSIIFGTAAFAAVFLFMALAVAALLSFDAGASAAGIMDAYTLRILRFTLYQATLSTLLSIVLGLPVALALCRRRAFAGRIWIIRLMAVPMGLPVIVGAFGIITIWGRQGVLNSALVFAGADEPFSIYGLSGILIAHVFFNLPLSVRLMLAGLERIPGEYWRMAASLGMGPVSIFRFIEWPAVARLVPGIAGLVFMLCATSFTLVLLLGGGPAATTLEVAIYQALRFDFDPQRAIALSVLQIGLTAILLGLLAFLPSPVAEIPSLGRSLRRFDGKGMGVRLWDGAAIVFAVLLIGLPLVAIAVSGLRADLPRLLSAPIFLRAAATSLAIAALSAALVVLCCMAIIGARQAIGSRRRAGQPLRFLSAMLGAGSSLVLLVPPVVLGSGWFLLLRLFGDTSFYAPVLVALINMLMALPLAMRVLEPACTSHFLRTGRLSASLGLQGLARLRFADLPVLWRPLVMAFSFAMALSLGDLGAVALFGSESFVTLPWLVYSNMGSYRTNDAAGYAFLLGIVCLLLAAGGVARQSQSARASI	PGPT0009105_357	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_TRANSPORT,PGPT0009105-thiP-K02063	NA	NA
BMS010_09655	1014	thiB	COG4143	Thiamine-binding periplasmic protein	GTGCGCCGTCGTCTTTTCCTGAATTCTCTCTTTGCCGCCTCGCTGTTTCTGCCCGGTCTTGCCGTCGCACAGGATAGACAGGAACTGACCGTCTACACCTATGAGAGCTTCGTTTCCGAATGGGGTCCCGGTCCCAAGGTGAAGGAGGCCTTCGAGAAGGTTTGCAACTGCACGCTCAATTTCGTCGGCGTGGCCGATGGCGTGGCGCTGCTCAATCGTCTGAAGCTTGAAGGGGCGGGGTCCAAGGCGGATGTCGTGCTTGGCCTCGACACCAATCTTGTCGCGGAAGCAAAACAGACCGGTTTGTTCGATGTCAGCGGCATCGATGCATCGGCGGCCAAGGTGCCGGGCGGCTATACGGACGATGTTTTCGTTCCCTATGATTACGGTCATTTCGCTGTCATCTATGATACGCAGACGGTGAAAAGCCCGCCGACGAGCCTGAAAGACCTCGTGGAAGGCGACCCCTCGCAGAAAATCGTCATTCAGGATCCGCGTACCTCCACGCCGGGGCTTGGCCTGCTGCTATGGGTGAAATCGATCTACGGCGACAAGGCCCCGGAGGCCTGGGAAAAGCTCAGGAAGCGCATTCTCACCGTTACGCCGGGCTGGTCGGAATCCTATGGCCTCTTCACCAAGGGCGAGGTGCCGATGGTGCTCTCCTACACCACCTCGCCCGCCTATCACATGGTCGCTGAAAAAACGGATCGTTATCAGGCCGCCGCCTTTTCCGAAGGGCATTACATCCAGATCGAGGTTTCCGGTCTCCTCAAAAACGCGCCGCACAAGGAACTGGCAAAGCAGTTCCTGGCTTTCACGCTGACATCCGGTTTTCAGGATGCCATTCCGGAAAACAACTGGATGATGCCGGTTGCGGCAACCTCGAAGCCCTTGCCGGAGGCGTTTTCAAAACTCGTGGTGCCGCAGAAGACTTTTCTGATGGATCCGGAAGAGGTGGCGAAGAACCGCAAGGCATGGATCGATGAATGGCTTGCCGCCATGAGCATGAATTGA	MRRRLFLNSLFAASLFLPGLAVAQDRQELTVYTYESFVSEWGPGPKVKEAFEKVCNCTLNFVGVADGVALLNRLKLEGAGSKADVVLGLDTNLVAEAKQTGLFDVSGIDASAAKVPGGYTDDVFVPYDYGHFAVIYDTQTVKSPPTSLKDLVEGDPSQKIVIQDPRTSTPGLGLLLWVKSIYGDKAPEAWEKLRKRILTVTPGWSESYGLFTKGEVPMVLSYTTSPAYHMVAEKTDRYQAAAFSEGHYIQIEVSGLLKNAPHKELAKQFLAFTLTSGFQDAIPENNWMMPVAATSKPLPEAFSKLVVPQKTFLMDPEEVAKNRKAWIDEWLAAMSMN	PGPT0009095_538	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_TRANSPORT,PGPT0009095-thiB|tbpA-K02064	NA	NA
BMS010_09657	393			hypothetical protein	ATGCGCATGATTTTCGTCAATCTGCCGGTCAAGAATATCGAGACATCAAGAAACTTCTTCACTGCTCTCGGTTTCAGCTTCAACCCGGAATATTCGGATGACCGCACGCTCTGCATGATCGTGGAAGAGAACATCTTCGTGATGCTTCTCCAGGAGGGACGTTTCCGCGATTTCATCAACGGCGATATTGCCGACGCGACGCGAACCACCGAGGTTCTGACCTGTCTTTCCGCCGGAAGCAGGGAAGAAATCGACCGGATGATCGCCACGGCGCTTGCCTCCGGCGGCAGCGGCTGGAAGCCTGTTCAGGACCATGGCTTCATGTATGCCGGCAGCTTTCAGGATCCCGACGGGCACGTCTGGGAACTGGTGCATATGACGGAACAGGGCTGA	MRMIFVNLPVKNIETSRNFFTALGFSFNPEYSDDRTLCMIVEENIFVMLLQEGRFRDFINGDIADATRTTEVLTCLSAGSREEIDRMIATALASGGSGWKPVQDHGFMYAGSFQDPDGHVWELVHMTEQG	PGPT0028555_1932	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-FOSFOMYCIN_RESISTANCE,PGPT0028555-putative_fosB-K07032	NA	NA
BMS010_09658	1827	uup_2	COG0488	ABC transporter ATP-binding protein uup	TTGGCACCCCCAATTTTGAAACTCGATGACATCAAGCTGACCTTCGGCGTGACCCCCCTGCTGGACGGCGCCAATCTCCAGGTGGAACCGGGCGACCGTATCTGCCTTGTCGGGCGCAACGGTTCCGGCAAGTCCACCCTGATGAAGATCGCTGCGGGTCTGGTCGAGGCACAGTCGGGCGAGGTTTTCCGGCATCCGGCCGCCACCATCCGTTATCTGGAGCAGGCCCCGGATTTTGCTGGTTACGACACGGTTCAGGCCTATGCCGAAGCGGGGCTCGGACCCGGTGACGATCCCTATCGCGTCACCTATCTTCTGGAGCATCTTGGCCTCACCGGGCAGGAAAATCCGGTGAGCCTTTCCGGCGGTGAAGCGCGACGTGCGGCCCTTGCCCGCGTCATGGCGCCAGAACCCGATATACTGATGCTGGACGAACCGACCAACCATCTCGATCTGCCCACCATCGAATGGCTTGAAAGCGAGCTGCAGCAGACGCGCAGCGCGCTGGTGCTGATTTCGCATGACCGGCGTTTTCTCGAAAAGGTCTCAACCTCGACCGTCTGGCTGGATCGTGGCCAATCCCGGCGTCTCAATCGCGGTTTTGCCCATTTCGAGGAATGGCGCGACAAGGTGCTGGAAGAGGAAGAACTGGAACAGCACAAGCTCGGCAAGGCCATCGAGCGTGAAGAACACTGGATGCGCTATGGCGTGACCGCAAGGCGCAAGCGCAACATGCGCCGCGTCGGCGAGCTTCAGGCCATGCGTGCGGAATATCGCGGCCATAAGGGGCCGCAGGGCACGGTGCAGGCGACCGTTACCGAAGGACGTGAATCCGGCAAGCTGGTCATCGAGGCCGAGGCCATCACCAAGGCTTATGGCGAGCGCGTGATCGTCGCGCCGTTTTCGCTGCGCGTCCATCGTGGAGATTGCATCGGTTTCGTGGGTCCGAACGGTGCCGGTAAAACCACGCTTCTGAAGATGCTCACCGGCCAGCTGGAGCCCGATAGCGGCACGGTGAAGCTCGGCACCAATCTGGAAATCGCGACGCTCGACCAGAAACGCGAGGATCTCAATCCCAACGATACGCTTGCGCATTATCTGACCGATGGTCGCGGTGAAAATCTGCTGGTCAACGGCGAATTGAAGCACGTGACGGGCTATATGAAAGACTTTCTGTTCCAGCCGGAACAGGCCCGCACGCCGATCCGCAACCTTTCCGGCGGCGAGCGCGCGCGTCTTATTCTGGCGCGCATTCTGGCCCGGCCGACCAATCTTCTGATCCTCGACGAGCCGACCAACGATCTCGATATCGAAACGCTCGATCTGCTGCAGGAAATCGTTGCGGGCTTTTCCGGCACCGTTATCCTCGTCAGCCACGACCGCGATTTTCTCGACCGTACCGTCACCTCCACCATCGCGCCCGTCAATCCGGACGAACCGGACGGACGATGGATCGAATATGCCGGTGGCTATTCGGACATGATGGCGCAGCGCAAGGGTGCGGCGGAAGAAAAACGCAAGGCTGAGAAACAGGAAAAGGCGAAAGCCGCACCTTCGGCCTCTGCATCGCAGGATCCTTCAAAGGCCAAGGGCAAGCTTTCCTTCAAGCAGAAATTCGCGCTCGAAAACCTTCCGAAGGAGATGGAAAAGGCGCAAAGCGAAATCGCAAAACGCGAGCAGCGTATGGCCGATCCGGAACTTTTCACAAAGGACCCGGCGGCCTTCAACACGCTGGCGCAGGAAATGTCGAAGCTGCGCGACAAGCTGGAGGCCATGGAAGAAGAATGGCTGGAACTGGAAATGCTGCGCGAGGAACTGGAGGGCTGA	MAPPILKLDDIKLTFGVTPLLDGANLQVEPGDRICLVGRNGSGKSTLMKIAAGLVEAQSGEVFRHPAATIRYLEQAPDFAGYDTVQAYAEAGLGPGDDPYRVTYLLEHLGLTGQENPVSLSGGEARRAALARVMAPEPDILMLDEPTNHLDLPTIEWLESELQQTRSALVLISHDRRFLEKVSTSTVWLDRGQSRRLNRGFAHFEEWRDKVLEEEELEQHKLGKAIEREEHWMRYGVTARRKRNMRRVGELQAMRAEYRGHKGPQGTVQATVTEGRESGKLVIEAEAITKAYGERVIVAPFSLRVHRGDCIGFVGPNGAGKTTLLKMLTGQLEPDSGTVKLGTNLEIATLDQKREDLNPNDTLAHYLTDGRGENLLVNGELKHVTGYMKDFLFQPEQARTPIRNLSGGERARLILARILARPTNLLILDEPTNDLDIETLDLLQEIVAGFSGTVILVSHDRDFLDRTVTSTIAPVNPDEPDGRWIEYAGGYSDMMAQRKGAAEEKRKAEKQEKAKAAPSASASQDPSKAKGKLSFKQKFALENLPKEMEKAQSEIAKREQRMADPELFTKDPAAFNTLAQEMSKLRDKLEAMEEEWLELEMLREELEG				NA	NA	NA	NA	NA
BMS010_09659	654			hypothetical protein	ATGGATAAAGAGCGCTTCACCATTCTGCTTGGCGGCGATGTCACGGTGACCGATCGTCTGAAGTCAGCGGTCGCGGATAGCCGTGTGATTGCGGCCGATGGCGGCATGCGCCATGCCCGGCCGCTTGGCCTTGCGCCGGAGTTGTGGGTCGGGGATTTCGATTCCGCCAGCAAAGAGTTGCTGGAGGCCTGGCCCGATGTGGCGCGGCAGCCATACCCGGCCGCAAAGGCGGTGACGGATGGCGAGATCGCGGTATCGGAAGCTCTCTCCCGTGGTGCGCATTCGCTGGTGCTTATCGGTGCGCTTGGAGGCGCGAGAAGCGACCATGCGCTTCAGCACCTCCTTTACGCGGTGGCGCTTGCCGAACGTGGTATCGACGTTACGCTGACGTCAGGTGAAGAAGAGGCGCGGCCGCTGCTTGCCGGTTCGCTGGATATCGATCTGCCGCCCGCCTCGCTGTTTTCGGTTGCCGGATTTACCGCCCTTGAGGGGCTCGATATCGGCAATGTGCGTTATCCGCTGAAGGATTTTGCGCTTGCTTTCGGTTCGTCCCGCACTATTTCCAATGTCGCGAATGGCGGCCCCGTGCATTTCTCGCTGAAAAGCGGAAAAGCCATCGTGCTCGCCCGCCCTTATGATCTGACCGGAGCCTGA	MDKERFTILLGGDVTVTDRLKSAVADSRVIAADGGMRHARPLGLAPELWVGDFDSASKELLEAWPDVARQPYPAAKAVTDGEIAVSEALSRGAHSLVLIGALGGARSDHALQHLLYAVALAERGIDVTLTSGEEEARPLLAGSLDIDLPPASLFSVAGFTALEGLDIGNVRYPLKDFALAFGSSRTISNVANGGPVHFSLKSGKAIVLARPYDLTGA	PGPT0009035_1128	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0009035-thiN|TPK1|THI80-K00949	NA	NA
BMS010_09661	927	metAA	COG1897	Homoserine O-acetyltransferase	ATGCCGATAAAGATTCCCGATACGCTTCCCGCTTTTGAGACCCTCGTTCATGAGGGCGTGCGGGTCATGACCGAAACGGCGGCCATCCGGCAGGATATCCGCCCGCTCCAGATCGGGCTTCTCAACCTCATGCCGAACAAGATCAAGACGGAAATCCAGATGGCGCGCCTCGTCGGTGCCTCGCCGCTACAGGTGGAGCTGTCGCTGGTGCGGATCGGCGGCCATAGAGCCAAGAACACGCCGGAAGAACATCTCCTGTCCTTCTACGAGACGTGGGAAGAAGTGCGCCACCGCAAGTTTGACGGTTTCATCATTACCGGCGCGCCCGTGGAGACGCTGGCCTATGAAGACGTGACCTACTGGAACGAAATGCGACAAATTTTCGAATGGACGCAGACCAACGTTCATTCGACGCTGAATGTCTGCTGGGGCGCGATGGCCGCCATCTATCATTTCCACGGCGTGCCGAAGCACGAGTTGAAGGAAAAGGCTTTCGGGGTCTACCGTCACCGCAATCTCTGCCCCTCATCGATCTATCTGAATGGCTTTTCGGATGATTTCCAGGTCCCGGTCTCGCGCTGGACGGAGGTACGCCGCGCCGATATCGAAAAACATCCGAAACTCGAAATCCTGATGGAATCCGAGGAAATGGGCGTTTGTCTGGTGCACGAGAAAGAGGGCAACAGGCTCTATATGTTCAACCATGTCGAATATGATTCGACATCGCTTTCAGACGAATATTTCCGTGACGCGAATGCCGGCGTCCCCATCAAGCTTCCGCATGATTATTTTCCACACAACGACCCGGCGCTTGCCCCGCTCAACCGCTGGCGCAGCCATGCCCATCTGTTTTTCGGCAACTGGATCAACGAGATATACCAGACGACACCCTATGATCTCGAATCCATTGGCAAACTCGCCGCGTAA	MPIKIPDTLPAFETLVHEGVRVMTETAAIRQDIRPLQIGLLNLMPNKIKTEIQMARLVGASPLQVELSLVRIGGHRAKNTPEEHLLSFYETWEEVRHRKFDGFIITGAPVETLAYEDVTYWNEMRQIFEWTQTNVHSTLNVCWGAMAAIYHFHGVPKHELKEKAFGVYRHRNLCPSSIYLNGFSDDFQVPVSRWTEVRRADIEKHPKLEILMESEEMGVCLVHEKEGNRLYMFNHVEYDSTSLSDEYFRDANAGVPIKLPHDYFPHNDPALAPLNRWRSHAHLFFGNWINEIYQTTPYDLESIGKLAA				NA	NA	NA	NA	NA
BMS010_09662	1020	mro_2	COG2017	Aldose 1-epimerase	ATGAGCGACGCGGCGGCGCGGGAGAATTTCGGTTTCACGGCGACCGGCGAAAAAGTCGAACGCGTCACCATCTCGAAAGGCGGTTTGACGGCCAAGGTCATCACGTGGGGCGCCGTCATTCAGGATCTGCGCCTCGAGGGCCACCAGCCGCCGCTCGTGCTCGGCTTCGACAAGTTCGAGGACTACAAATATTCCTCCTATTTCGGCGCCACGCCCGGCCGCAACGCCAACCGCATCGGCGACGGGCGGTTCTCCATCGACGGGCACGACTACCAGCTGGAGCTCAATGAAAAAGGAGTAACCCATCTGCATGGCGGTAGCGACGGCATGGGCAAGCGCAACTGGATGCTGATGGAACATGGCGAAAGCCACGCGGTTCTGCAGATCATCGATCCCGATGGCCGCGCCGGTTATCCCGGCAATTGCACGGTCACGGCCACCTATACGATCCTCGACGGCGGCGTACTTTCGGTGGTCTATGAAACGGTGACCGACAAGCCGACCATCGCCAATGTCTGCCAGCATTCCTATTTCAATCTCGATGGCGCAGACACCGCGCTTGGGCATGAGATCAGCATCGCGGCTGATTTTTACCTCCCCACCAATGACAAGCAGATACCGACGGGCGAAATCCGCTCCGTCGAAGGCACCGTCTTCGACCTGCGCCACCCGACACCGATGCGGCGCAAGGAGAATGGCGAGCAGGTTCTCTACGACCACAATTTCTGCCTGTCGCCCGAGCGCCGCGCAAAACGCAAGGTCGCCCGCGCCTATTCGCCGGCCTCCGATATCGCCCTTGAGGTTCACACGACCGAGCCCGGTGTGCAGTTTTATTCGGCCTTCAAACTGGACGTTCCGGTTCCCGGCCTCGATGGCCGTCACTACGGCCCCTTTGCCGGTTTCTGCCTGGAAACGCAGATTTGGCCGGACGCCGTTAACCACCCGGATTTTCCGCACGCCGTCCTGCGGCCGGGTGAAACCCTGCGTCAGGAAACCGACTATATTTTCAAGAAAGGCTGA	MSDAAARENFGFTATGEKVERVTISKGGLTAKVITWGAVIQDLRLEGHQPPLVLGFDKFEDYKYSSYFGATPGRNANRIGDGRFSIDGHDYQLELNEKGVTHLHGGSDGMGKRNWMLMEHGESHAVLQIIDPDGRAGYPGNCTVTATYTILDGGVLSVVYETVTDKPTIANVCQHSYFNLDGADTALGHEISIAADFYLPTNDKQIPTGEIRSVEGTVFDLRHPTPMRRKENGEQVLYDHNFCLSPERRAKRKVARAYSPASDIALEVHTTEPGVQFYSAFKLDVPVPGLDGRHYGPFAGFCLETQIWPDAVNHPDFPHAVLRPGETLRQETDYIFKKG	PGPT0017825_3304	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GALACOTOSE_METABOLISM|DEGRADATION,PGPT0017825-galK-K01785	NA	NA
BMS010_09663	681	mtgA_4	COG0744	Biosynthetic peptidoglycan transglycosylase	GTGGATTTTCGCACGTTGGCAAAGCGTATCGTCATGACCTTGCTGGCTTTGCTGATCCTGCCCTATCTGCTGATTCCGGTTTATGCGCTGCCGTTTATCCGGCCGGTCTCGACGCTGATGCTCGCCGATCTGGTGACCTTTCAGGGTTATGACCGGCGCTGGGTGCCGCTCGAGGATATTTCGCCGCGCCTTGTTCAATCCGTAATGATGTCCGAGGACGGGCAATTCTGTTTTCATGGCGGCGTGGACTGGAACCAGATGCAGTCCGTGGTCAGCAACGCGCTCGACGGGGCGTCCACCCGTGGCGCAAGCACCATTCCGATGCAGACGGCCAAGAACCTGTTTTTATGGAACGGCCGCTCCTTCCTGCGCAAAGGGCTGGAGTTGCCGCTGGCGATTGCTGCCGATTTCGTCTGGTCGAAAAAACGGATGATGGAGATTTATCTCAACGTTGCCGAATGGGGACCGGGCATTTATGGAATCGAGGCTGCCGCCCAGCACCATTTCAAGGTGCCGGCCGCAAAACTGAGCTCCCGTCAGGCGGCGCTGCTGGCGGTTTCGCTGCCTAATCCCATAGACCGCGTCGCCAGCAAGCCGGGACGCGGGCTGCAACGGCTTGCCGGCCTTATCGAACGGCGCGCGCGTGCCTCCGGCGGCTATGTCGGCTGCGTGCTGGATTGA	MDFRTLAKRIVMTLLALLILPYLLIPVYALPFIRPVSTLMLADLVTFQGYDRRWVPLEDISPRLVQSVMMSEDGQFCFHGGVDWNQMQSVVSNALDGASTRGASTIPMQTAKNLFLWNGRSFLRKGLELPLAIAADFVWSKKRMMEIYLNVAEWGPGIYGIEAAAQHHFKVPAAKLSSRQAALLAVSLPNPIDRVASKPGRGLQRLAGLIERRARASGGYVGCVLD	PGPT0024110_149	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024110-mtgA-K03814	NA	NA
BMS010_09664	915			Farnesyl diphosphate synthase	ATGGACGTTGCGATGACAAATTTCGAAACGAAGCTGCGCGAAAACGCGGCAAAAACCGAAGCCCTGCTTGGTCGCCTGCTTTCCGGCGAAGCCCGCGCGGATGAGATCACGCGCCCGCAAAACCTGCTCGACGCCATGCGCCATGGCGTGTTGAACGGCGGTAAGCGCCTGCGACCCTTCCTCGTCATCGAAAGTGCCGCCCTTGCGGGCGGGAATGCCGAAGCCGCCCTTTATGTTGGCGCGGCATTGGAATGCCTCCATTGTTATTCGCTTGTTCATGACGATCTGCCGGCCATGGACGATGACGACCTGCGCCGCGGCCAGCCGACCGTGCATCGCAAATTCGATGAGGCGACCGCAATTCTCGCCGGCGACAGCCTGCTGACGCTTGCCTTCGATATCATCGCATCGGACGAAAATCCGCTTGCGGCCGAGCGCAAGGCCGCGCTCGTACTTTCGCTTGCCCGCGCGGCGGGTATCGGCGGTATGGCCGGCGGCCAGGCGCTCGATCTCGCTGCTGAGAAAAAAGCACCTGATGAAGCCGGCGTCATTACATTGCAGGCTATGAAAACCGGTGCACTGCTGCGTTTTGCCTGCGAAGCGGGCGCAATCATCGCCGGCAGCGATATTTCCGAAAGGCAAAGGCTGCGTCTCTTCGGCGAAAAGATCGGCCTCGCCTTCCAGCTTGCCGACGACCTTCTGGATTTGACGGCCGATGCCGCCACCATGGGCAAGGCAACCGGCAAGGACGCCGCGCGCGGCAAGGGAACGCTTGTGGCGCTGCGCGGCGAGGGCTGGGCGCGCAGCCAGCTGCGGGAGCAAGTGGCGGAAGCCAGCGAACTGCTGGCCCCTTATGGCGAAAAGGCCGCGATTCTCATCGCGGCCGCCAGATTCATCGCTGAACGAAAGAGCTGA	MDVAMTNFETKLRENAAKTEALLGRLLSGEARADEITRPQNLLDAMRHGVLNGGKRLRPFLVIESAALAGGNAEAALYVGAALECLHCYSLVHDDLPAMDDDDLRRGQPTVHRKFDEATAILAGDSLLTLAFDIIASDENPLAAERKAALVLSLARAAGIGGMAGGQALDLAAEKKAPDEAGVITLQAMKTGALLRFACEAGAIIAGSDISERQRLRLFGEKIGLAFQLADDLLDLTADAATMGKATGKDAARGKGTLVALRGEGWARSQLREQVAEASELLAPYGEKAAILIAAARFIAERKS	PGPT0007520_398	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007520-ispA-K00795	NA	NA
BMS010_09665	663	yiaD_2	COG2885	putative lipoprotein YiaD	ATGATCAAAAAAATCGCGATCGTCGCCCTTTGCGGGACCTATCTTTCCGCCTGCACCACCACCGATCCCTATACGGGTGAACAGAAGATGTCGAACACGGCCGGCGGCGCCGGCATCGGCGCCGTGGTCGGTGCTCTGGGCGGTCTGGCTGTCGGCGGTTCGCCGACCGGTCGCCGTAATGCCGCGCTTATCGGTGCGGGCATCGGTGCGCTCGCTGGCGGCGCCATCGGCAATTACATGGATGGCCAGGAAGCCGAGCTTCGCGCCCAGCTTCAGGGAACCGGCGTTTCGGTTACCCGCCGTGGCGACAGCATCGTTCTCAACATGCCGTCGAACATCACCTTCGCGACGGACCAGGATCAGGTCATCCCGCCATTCTATCAGACGCTCGATTCCGTCGCCATCGTGCTGAACAAGTTCAACCGCACGCTGATCGACATCAACGGCCATACCGATTCGACCGGCAGCGCGGGTTACAATCAGGGCCTTTCGGAGCGTCGTGCCGCATCGGTCGCTAATTATCTCGGCGCGCGTGGCGTCGATCAGCGCCGTATTTCGACGCTCGGCTTCGGCCCGTCGCAGCCTATCGCTTCGAATGCAACGCCGGATGGCCGCGCTCAGAACCGTCGCGTCGAAGTGCTGATTTCGCCGCTCAAGGGCTGA	MIKKIAIVALCGTYLSACTTTDPYTGEQKMSNTAGGAGIGAVVGALGGLAVGGSPTGRRNAALIGAGIGALAGGAIGNYMDGQEAELRAQLQGTGVSVTRRGDSIVLNMPSNITFATDQDQVIPPFYQTLDSVAIVLNKFNRTLIDINGHTDSTGSAGYNQGLSERRAASVANYLGARGVDQRRISTLGFGPSQPIASNATPDGRAQNRRVEVLISPLKG				NA	NA	NA	NA	NA
BMS010_09666	1251	ispG_2	COG0821	4-hydroxy-3-methylbut-2-en-1-yl diphosphate synthase (flavodoxin)	ATGACGTCACATGCCGATTACGATCCCAAGCCCCGCCGCGCATCCGTCGCCGTAGACGTGGGCGGTGTCATCGTCGGTGGCGGTGCGCCCGTCGTCGTGCAGTCGATGACCAACACCGATACCGCGGATATCGACGCCACCGTGCAACAGGTGGCGGCGCTCTTCCGGGCCGGTTCGGAAATCGTGCGCATCACCGTCGACCGCGACGAGAGCGCGGCCGCCGTGCCGAAAATCCGTGAGCGGCTGCTGCGTCTTGGGCTTGATGTGCCGCTTGTCGGCGATTTCCATTATATCGGCCACAAGCTTCTGGCCGATCATCCGGCCTGCGCCGAAGCGCTGGCGAAATACCGCATCAATCCGGGCAATGTCGGCTTCAAGGACAAGAAGGACAAGCAGTTCGGCGAGATCGTCGAAATGGCGATCCGCTACGACAAGCCGGTGCGAATCGGCGTCAACTGGGGGTCGCTCGATCAGGAACTTCTGACGACGCTGATGGACAAGAACAAGGAGCAGGGCTTCCCTCTCTCCGCCCGTCAGGTCACGCGTGAGGCCATTGTTCAGTCGGCGCTGATTTCCGCCGAGCTTGCCGAAGAGATCGGCCTGCCGCGCAACCGCATCATCCTGTCGGCCAAGGTCAGCCAGGTGCAGGACCTGATCGCCGTTTATTCCATGCTGTCGGAACGCTCCGACCACGCCCTGCATCTCGGTCTCACCGAAGCGGGCATGGGCTCCAAGGGCATCGTCGCCTCATCCGCCGCCATGGGTTATGTGCTGCAGCACGGCATTGGCGATACGATCCGCGTCTCGCTGACGCCTGAGCCGAATGGCGACCGCACCCGCGAAGTGCAGGTGGCGCAGGAACTGCTGCAGGTCATGGGTTTCCGTCAGTTCATTCCGGTCGTTGCGGCATGTCCCGGCTGCGGGCGCACCACGTCCACCGTCTTTCAGGAACTTGCCCAGAACATCCAGAACGACATTCGCAAGAACATGCCGATCTGGCGTGAGAAATATCCGGGTGTCGAAGCGCTCAACGTTGCCGTCATGGGCTGTATCGTCAACGGTCCCGGTGAAAGCAAACATGCCGATATCGGCATTTCCCTGCCCGGAACCGGCGAAAGCCCGGCAGCGCCCGTCTTCATTGATGGAGAGAAGGCGCTGACCCTGCGTGGTCCCAATATCGCCGCCGATTTTGAAGCGCTTGTGATCGATTACATCGAAAAGCGTTTTGGCCGGAAAGATGCGGCGGAGTAA	MTSHADYDPKPRRASVAVDVGGVIVGGGAPVVVQSMTNTDTADIDATVQQVAALFRAGSEIVRITVDRDESAAAVPKIRERLLRLGLDVPLVGDFHYIGHKLLADHPACAEALAKYRINPGNVGFKDKKDKQFGEIVEMAIRYDKPVRIGVNWGSLDQELLTTLMDKNKEQGFPLSARQVTREAIVQSALISAELAEEIGLPRNRIILSAKVSQVQDLIAVYSMLSERSDHALHLGLTEAGMGSKGIVASSAAMGYVLQHGIGDTIRVSLTPEPNGDRTREVQVAQELLQVMGFRQFIPVVAACPGCGRTTSTVFQELAQNIQNDIRKNMPIWREKYPGVEALNVAVMGCIVNGPGESKHADIGISLPGTGESPAAPVFIDGEKALTLRGPNIAADFEALVIDYIEKRFGRKDAAE	PGPT0007580_1072	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007580-gcpE|ispG-K03526	NA	NA
BMS010_09667	1191	ybjJ_2		Inner membrane protein YbjJ	ATGAATGGCCCCACGACATTTTCGCCGACAGGTATACGCTCGTCCTATCTGACGCGGCACAGGCTAGGCGTTTCCCTGCTGTTCTTGATGAACGGTTTCATGATGGGGTCATGGGCGCCCAAGATTCCGGAATTTGCGGCGCGCCTGTCCCTCAGTGAGAGCGCGCTCGGCCTGATCATTCTGGTCTTCGGCATCGGTTCGCTGGTTTTCATGCCGATTGCGGGTTCGCAGATCGCCCGTTTCGGCTCGCGTACGGTGAGCCTCGTCACTGCGGCGATCTTTTTGCCGACCCTGCTTTTCATTTCCTGGGCGGGCACGGTGTGGGTCGGGGTGATTGCGGTGTTTCTGTTCGGCGGGCTGACGGGGGCGATGGATGTCGCCATGAACGCCAATGCGGTAGCGGTGGAACGGGATATGCGCCGCGCCATCATGTCGTCGTGCCACGCCTTCTGGAGCCTTGGCGGCCTGATCGGCGCCGGTCTTGGCGGTTATCTCATCACGGCAATCGGTGTGCAGGGACATGCCATTGCGCTAACCGTCATCGCGCTCGTGCTGCTGGTCATCGCGTGGCCGCGCGTCCTTGCGGATCGTCCGCATCCGGAGGAAGAGCGCCCGAAAGGCGGCCTGCCGCTGACGCCGCTGCCATGGATCATTGGCCTGATGGCGCTGTTCTCGATGATTCCTGAAGGCGCTATCCTCGACTGGGGCGCGCTTTATCTGCGCAATGAACTCGGTGCTTCGGTATCGCAGTCCGGTTTCGCCTTCGCGGCCTTCTCCATGACCATGGCGGCCATGCGGTTTGCCGGCGATCTGGTGCGTGACCGCTTCGGCGCCGTGACGACCCTGCGCTTCTGTTCGGCCATGTCGATTATCGGTCTTCTCATTGCCGGTCTTGCGGGAAATTCCACTATCGCGATCATCGGCTTCGCGATTGCTGGCGTCGGCATTTCCAACATGGTGCCGATTGCCTTTTCCGCCGCCGGCAACATGCCGGGACTGGCGCCCGGCATTGGTCTCTCGGTGGTCACCACCATGGGCTATTCTGGTATTCTGGTGGCGCCATCGGCCATCGGCTTTATTGCCGAGCATACCGGCCTTGCCAGCGTCTTCATCGCCCTGCCACTCTTGCATGTGGTGGTTCTGTTGCTGTCGCGGCTCGCCCGCCATGCGGATGGCGCGGGCAAGGAATAG	MNGPTTFSPTGIRSSYLTRHRLGVSLLFLMNGFMMGSWAPKIPEFAARLSLSESALGLIILVFGIGSLVFMPIAGSQIARFGSRTVSLVTAAIFLPTLLFISWAGTVWVGVIAVFLFGGLTGAMDVAMNANAVAVERDMRRAIMSSCHAFWSLGGLIGAGLGGYLITAIGVQGHAIALTVIALVLLVIAWPRVLADRPHPEEERPKGGLPLTPLPWIIGLMALFSMIPEGAILDWGALYLRNELGASVSQSGFAFAAFSMTMAAMRFAGDLVRDRFGAVTTLRFCSAMSIIGLLIAGLAGNSTIAIIGFAIAGVGISNMVPIAFSAAGNMPGLAPGIGLSVVTTMGYSGILVAPSAIGFIAEHTGLASVFIALPLLHVVVLLLSRLARHADGAGKE				NA	NA	NA	NA	NA
BMS010_09668	801	glpR_3	COG1349	Glycerol-3-phosphate regulon repressor	ATGAGCGATCATTTTGTCAGCGAGCGGCAGGCGCTCATCCTTGCGAAGTTACGGCAAAGCGGCCGGGTGCTGGCGCAGGATCTCGCGCAGAATTTCGGCGTTTCCGAAGACACCGTGCGCCGCGACCTGCGTGAGATGGCAGCCCGAGGCGAATGCCTGCGGGTTTATGGCGGAGCGTTGCTTTCCGACAGCAAAACGGTGCCGCTGAAAACGCGGATTGCCGAGGATGCCGACCGCAAGGCCCTGCTGGCGCGCGCCATTGTCCCGCTTCTCGAGCCCGGCATGGTCGTCTTCATCGATGCCGGGTCCACCAATCTCGCCATTGCAAGGGCGCTTCCCGCCGGGCTCAACCTGACGGTCGTGACGAATACGCCCGCCATTGCCGCTGAACTGACGGGGCGGGCCGATATCGATCTGGTGCTGATCGGCGGCAAGGTCGATCCGGCCGTAGGTGCTGCGATCGACGCCATGGCGCTTCGGCAGCTCGAACTGATGCGGCCCGATCTCTGCATTCTCGGTGTCTGCGGCGTTGCGGCCGAGACGGGTCTGTCAGCGGATGTTTTCGAGGATGCGGTGTTCAAGCGGCTCGCCTGCAGCGCCAGCCAGCGGATTGTCGCCGCCATCACCACGGAAAAGCTCGGCCACAGGGCAGCTTTCCATGTGCATGATTTTTCTCCACCTCTTTCCCTCGTGCTGGAACTGGATGCCGACCGTGCATTCGTCGAGGCGCTGTCGGCAAAGGGCGCACAGGTTTATTGCGGCGAAGATGACGCCGTTCAGTTTTCTCATGGTCAAGTCTGA	MSDHFVSERQALILAKLRQSGRVLAQDLAQNFGVSEDTVRRDLREMAARGECLRVYGGALLSDSKTVPLKTRIAEDADRKALLARAIVPLLEPGMVVFIDAGSTNLAIARALPAGLNLTVVTNTPAIAAELTGRADIDLVLIGGKVDPAVGAAIDAMALRQLELMRPDLCILGVCGVAAETGLSADVFEDAVFKRLACSASQRIVAAITTEKLGHRAAFHVHDFSPPLSLVLELDADRAFVEALSAKGAQVYCGEDDAVQFSHGQV				NA	NA	NA	NA	NA
BMS010_09669	420	pycA_2		Pyruvate carboxylase	ATGGAGGATGGCGAGGAACTGTTTGCCGATATCGAACGCGGCAAGACGCTGGTCATCGTCAATCAGGCCTCGTCCGGCACGGATGACAAGGGCATGGTGACGGTGTTCTTCGAGATCAACGGTCAGCCACGCCGCATCAAGGTGCTGGATCGTGCCCATGGCGCTTCCGGCTCTGCCGTGCGCCGCAAGGCCGAACCCGGCAATGCCGTCCATATCGGCGCGCCGATGCCGGGCGTGATCAGCCGCGTCTTCGTCAACCAGGGCCAGGAGGTCAAGGCCGGCGACGTGCTGCTTTCCATCGAGGCCATGAAGATGGAAACCGCGCTTCACGCCGAACGCGACGGCAAGATCGCCGAAGTTCTGGTGCGCCCCGGCGACCAGATCGATGCGAAGGATCTGCTGATCGCTTACGGGGAATGA	MEDGEELFADIERGKTLVIVNQASSGTDDKGMVTVFFEINGQPRRIKVLDRAHGASGSAVRRKAEPGNAVHIGAPMPGVISRVFVNQGQEVKAGDVLLSIEAMKMETALHAERDGKIAEVLVRPGDQIDAKDLLIAYGE	PGPT0001420_589	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001420-pyc-K01958	NA	NA
BMS010_09670	282	hisP_2	COG4598	Histidine transport ATP-binding protein HisP	ATGCAGCCGAAGGTGATCCTGTTCGACGAGCCCACCTCGGCCCTCGATCCGGAAATGGTACAAGAAGTGCTTAACGTGATCCGTGCGCTGGCCGAAGAGGGCCGCACCATGCTGCTGGTCACTCACGAAATGGGCTTCGCCCGCCAGGTTTCCACCGAGGTGGTATTCCTCCACCAAGGCTTGGTCGAAGAGCAGGGACCGCCGCAGCAGGTGTTCGAGAACCCGCAATCGGCGCGCTGCCGGCAGTTCATGTCGATGAACGAACCGGCTCTTTCAGCCTGA	MQPKVILFDEPTSALDPEMVQEVLNVIRALAEEGRTMLLVTHEMGFARQVSTEVVFLHQGLVEEQGPPQQVFENPQSARCRQFMSMNEPALSA	PGPT0020545_36	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020545-PA5152-K23058	NA	NA
BMS010_09671	696	artQ_4	COG4215	Arginine ABC transporter permease protein ArtQ	ATGCTTCCCGACCTCCACGGATTCGGGCCGGCGCTGGCCGCCGGCACCTTGATGACCATCAAACTGGCGCTTTCGGCGCTGTCGCTGGGCCTGCTACTCGGACTGCTCGGCGCACTGGCCAAGACCTCGCCCTACAAGCCGCTGCAATGGCTGGGCGGCAGCTATTCGACCATCGTGCGCGGCGTGCCCGAGCTGCTCTGGGTACTGCTGATCTACTTCGGCACGGTTAACCTGGTGCGTGGCCTGGGCGCATGGTTCGGCAATCCAGAACTGGAACTGAGTGCCTTCGCGGCTGGCAGCATCGCCCTTGGCCTTTGCTTCGGCGCCTATGCCACCGAAGTTTTCCGTGGCGCGCTACTGGCGATACCCCGAGGACACAGTGAGGCAGGCCACGCCCTCGGCCTGTCCAAGAGCCGGATCTTCTGGCGGCTGATCATGCCGCAGATGTGGCGCATCGCCCTGCCCGGCCTGGGCAACCTGTTCATGATCCTGATGAAGGACACGGCGCTGATCTCAGTGATCGGCCTGGAGGAAATCATGCGGCGCTCACAGATCGCGGTGACCTCCAGCAAGGAGCCGTTCACCTTCTACTTGGTGGCCGCCCTCATTTACCTGAGCCTGACGGTCATCGCCATGGTAGGACTATGCATCATGGAGAAACGCGCGAACCGCGGCTTCCGGAGGGCCATGGCATGA	MLPDLHGFGPALAAGTLMTIKLALSALSLGLLLGLLGALAKTSPYKPLQWLGGSYSTIVRGVPELLWVLLIYFGTVNLVRGLGAWFGNPELELSAFAAGSIALGLCFGAYATEVFRGALLAIPRGHSEAGHALGLSKSRIFWRLIMPQMWRIALPGLGNLFMILMKDTALISVIGLEEIMRRSQIAVTSSKEPFTFYLVAALIYLSLTVIAMVGLCIMEKRANRGFRRAMA	PGPT0020535_43	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020535-PA5154-K23056	NA	NA
BMS010_09672	690	occM_5		Octopine transport system permease protein OccM	ATGAACTGGGAGCTGATCATCAAATGGCTGCCGCGTCTTGCCGAAGGCGCGCTATTGACGCTGGAGCTGGTAGGCATCGCGGTGATCGCCGGGCTGCTCCTTGCCCTGCCACTGGGCATTGCTCGTGCTTCGCGACACTGGTACGTGCGCGCCTTCCCCTACGGCTACATCTTCTTTTTTCGCGGTACACCGCTGCTGGTGCAGTTATTCCTGGTCTATTACGGCGTGGCGCAGTTCGAGGCGATTCGTCAGGGGCCGCTCTGGCCATACCTGCGCGATCCCTATTGGTGCGCAGTACTGACACTGACCTTGCATACCGCCGCCTACATCGCCGAAATCCTGCGTGGTGCCATCCAGGCGGTGCCTCATGGTGAGGTGGAGGCGGCGCGGGCATTGGGCATGTCGCGGGCACAGGCGCTGTTGCATGTGATCCTGCCGCGCGCGGCGCGTATCGGCCTACCGGCCTACAGCAACGAGGTGATCCTGATGCTCAAGGCCAGCGCACTGGCCAGCACCATCACCTTGCTGGAGCTGACCGGCATGGCACGGACCATCATCGCCCGCACCTACCTGCCGGTAGAAATCTTCTTCGCCGCCGGGATGTTCTACCTGCTCGCCGCCTATGTACTGGTACGTGGCTTTCGCTTGCTGGAGCAACGTCTGCGGGTGGATGCCTGTCGCTCACGCTAA	MNWELIIKWLPRLAEGALLTLELVGIAVIAGLLLALPLGIARASRHWYVRAFPYGYIFFFRGTPLLVQLFLVYYGVAQFEAIRQGPLWPYLRDPYWCAVLTLTLHTAAYIAEILRGAIQAVPHGEVEAARALGMSRAQALLHVILPRAARIGLPAYSNEVILMLKASALASTITLLELTGMARTIIARTYLPVEIFFAAGMFYLLAAYVLVRGFRLLEQRLRVDACRSR	PGPT0020540_90	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020540-PA5155-K23057	NA	NA
BMS010_09673	462	lrp_12	COG1522	Leucine-responsive regulatory protein	ATGTCTGATCTACCCTCCTTCCGCCTGGACGATATCGATCGCCAGTTGATCGCCGCATTACAGCTGAATGCGCGCGAGAGCGTGGCCATGCTGGCGCGCAAGCTCGGCATTGCCCGTACCACGGTGATTTCCCGACTCGCCCGCCTGGAAAAGAACAAGGTGATCACCGGCTACGGCTTGCGCCTCGGTCAGAGCGTCCTGGACGGCGGGTTGCAGGCATACGTGGGGATTACTCTGCAGCCGCGCTCGGGCAAGGAAGTGCTGCGCCGGCTCACCAACATGGCGGAAGTCCAGCAGCTCTGCACAGTGAGCGGCGAGTTCGATTTCGTTGCCTGGTTGCGAGCGGAATCGCCGGAGCGGCTCGACCAGCTTCTGGATGAAATCGGCGCAGTAGATGGCGTGGAAAAAACGACCACGTCGATCATCCTTTCCTGCAAGCTGGATCGGGGTCAGAAGCTCTGA	MSDLPSFRLDDIDRQLIAALQLNARESVAMLARKLGIARTTVISRLARLEKNKVITGYGLRLGQSVLDGGLQAYVGITLQPRSGKEVLRRLTNMAEVQQLCTVSGEFDFVAWLRAESPERLDQLLDEIGAVDGVEKTTTSIILSCKLDRGQKL				NA	NA	NA	NA	NA
BMS010_09674	1683	ilvG_2		Acetolactate synthase isozyme 2 large subunit	GTGGTCAATTCGATACGCCCCCGCACTGGCGGACAGATTCTGGTCGATGCGCTACGCATCAATGGAGTAGAGCGTGCCTTTTGCGTACCGGGGGAGAGCTACCTGGCCGTGCTGGACGCGCTGCATGACGCACAGGACGACATCGAACTGGTGGTCTGCCGCCAGGAAGGTGGCGCGGCCTACATGGCCGAGGCGTATGGCAAGCTGACCGGAAAGCCGGGCATCTGCTTCGTCACCCGTGGCCCGGGGGCGACCAACGCTTCGATCGGTGTGCACACCGCTTTCCAGGATTCCACGCCGATGCTTCTATTCATCGGCCAAGTGGCCCGGGATCAGGCGGAGCGCGAAGCGTTCCAGGAGATCGACTACCGTCGCATGTTCGGCCCGCTGTGTAAGTGGGTCGTCCAGGTGGATGACGCCCGACGCCTCCCCGAGCTGATCAGCCAGGCCTTTCACCGAGCCATCAACGGCCGGCCGGGACCGGTCGTGGTGGCTCTCCCGGAGGACATGCTGACCGATAGCGTCGAAGTTTCCGATGCGGGGCCCGCCAAACACATCGAGGCGCATCCCTCCGCCAGCGACCTGGGCGAAATGTCCCGTCTTCTGGAGCGCGCCCAGCGCCCCCTGATGATTCTCGGCGGTGGCGGCTGGAATGCGGCGGCTGTGAACGACATTCGCCGTTTTGCCGAGCGCTGGGAGCTTCCGGTAGCCGCCTCCTTCCGCTGTCAGGACCTGATCGATAACCGGCACCCGAACTATGCAGGAGACCTCGGCCTGGCCGCCGGACCAAAGTTGGCCCAGGCGGTGCGCGATGCCGATCTGTTGCTGGTGGTCGGTGCGCGCCTGGGGGAAATCACGACGGGCGGCTACAGCCTGCTGGACGTACCGGTACCTCGGCAGAGCCTCGTGCACATCCATGCCGGCATCGAGGAGCTGGGCCGCGTCTACCAGCCGACGCTGGGGATCAACAGCGGCATGGCAGCCTTCGCCGCGCAGGCTGCCGGCCTCGAGCCGCAGCAGGAGCCAGGTTATGCCGCCTGGACCCGCAGCCTGAACGAGTACTACCAAGCCAACCTCGACTGCCCCGCCTCTCCCGGCCCGGTACAAATGGCGGAAATCATCGCCTGGCTACGCCAGCGTCTCCCCGCCGACGCCATCCTTACCAACGGCGCCGGTAATTACGCCGTCTGGGTGCAGCGTTTCTATCAATACCGCCACTTCCGTACCCAGCTCGGTCCCACCAATGGCTCGATGGGCTATGGCGTACCCGCCGGGGTCGCCGCCAAGCTGGCCGCGCCGGAGCGTATGGTGATCGCCTTTGCCGGCGACGGCTGCTTCCTCATGAACGGCCAGGAGCTGGCGACCGCCGCGCAATACGGCGCCAACCTGATCGTCATCGTGGTGAACAACGGCATGTACGGAACCATCCGCATGCATCAGGAACGCCATTACCCAGGCCGGGTCTCCGGCACCGGACTGCACAATCCGGATTTCGCCGCGCTGGCGCGAGCCTATGGCTTGCATGGCGAAGTCGTTGCCAGCACGGCCGAATTCGCGCCCGCCTTCGAGCGCGCCGTGGAAGCCGGCAGGCCGGCGCTGATCGAGATTCGCCTCGATCCTGAAGCGCTGACTCCGCGCCAGAGCCTGAGTCAGATTCGCGAACAGGCCTTGCAGGGTCGTTGA	MVNSIRPRTGGQILVDALRINGVERAFCVPGESYLAVLDALHDAQDDIELVVCRQEGGAAYMAEAYGKLTGKPGICFVTRGPGATNASIGVHTAFQDSTPMLLFIGQVARDQAEREAFQEIDYRRMFGPLCKWVVQVDDARRLPELISQAFHRAINGRPGPVVVALPEDMLTDSVEVSDAGPAKHIEAHPSASDLGEMSRLLERAQRPLMILGGGGWNAAAVNDIRRFAERWELPVAASFRCQDLIDNRHPNYAGDLGLAAGPKLAQAVRDADLLLVVGARLGEITTGGYSLLDVPVPRQSLVHIHAGIEELGRVYQPTLGINSGMAAFAAQAAGLEPQQEPGYAAWTRSLNEYYQANLDCPASPGPVQMAEIIAWLRQRLPADAILTNGAGNYAVWVQRFYQYRHFRTQLGPTNGSMGYGVPAGVAAKLAAPERMVIAFAGDGCFLMNGQELATAAQYGANLIVIVVNNGMYGTIRMHQERHYPGRVSGTGLHNPDFAALARAYGLHGEVVASTAEFAPAFERAVEAGRPALIEIRLDPEALTPRQSLSQIREQALQGR	PGPT0008185_7009	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008185-budB|ilvK|alsS|ilvB|ilvG|ilvI-K01652	NA	NA
BMS010_09675	1392		COG5383	putative protein	ATGAGCGTTCAGGCTTTCGTTAATCCGGATGACATTCGCACCCGTTTCTCCCAGGCCATGTCAGCGATGTACAAGACGGAGGTGCCTCTATACGGCACGCTGCTGGAGCTGGTAGGCGAGGTGAATTGCGAGACTCTCGCAGCCGAGCCGGCCCTGGCCGAGCAGTTACGGCGGACCGGTGAAATGGAGCGCCTGGACATGGAGCGCCACGGGGCGATCCGGGTCGGTACTGCGGAAGAGCTGGCCACCATCCGCCGGTTGTTTGCGGTGATGGGTATGTACCCGGTGGGCTATTACGACCTGTCCTGCGCCGGGGTACCGGTGCACTCCACGGCCTTCCGCGCCATTCATGAGGATGCGCTGCAGCGTTCGCCGTTCCGGGTCTTCACCTCGTTGTTGCGCCTGGAACTGATCGACAACCCCGCGTTGCGCGAGACGTCGCGCGCGATTCTGGCCCGGCGCAGCATCTTCACGCCGCGCGTGCTGGAGCTGATCGAGCAATTCGAGCGCGTTGGCGGGCTGAACGCAGCGGAAGCGGAGACGTTCGTCGAAGAGGCGCTGGAGACCTTCCGCTGGCACCGCGAAGCGACCGTCAGTGCCGAGGTCTACCGGCAGTTGCACGATCAACACCGGCTGATCGCCGACGTGGTGGCGTTCAAGGGGCCGCACATCAACCACCTCACGCCGCGCACCCTGGACATCGATGCCGTACAGGTCGGCATGCCGCGCCACGGCATCACGCCGAAGGCGATCATCGAAGGACCGCCGCGGCGCAAGTGCCCGATTCTGCTGCGCCAGACCAGCTTCAAGGCGCTGCAGGAGCAAGTGGACTTTATCGGCGAGGGTCGCGTGACGGCCGGCAGTCATACAGCTCGTTTCGGCGAGATCGAACAACGTGGCGTGGCCCTGACCCCGAAAGGTCGGGCCTTGTACGACCAGCTTCTGCAATCCACCCGCGAAGTCATTCGCGGGGAAGACGATCCGGAAACCTACCAGCGCGTGCTCGGCGACCATTTCGCCGATTTCCCGGACGACTATGACCTGATGCGTCGCTATGGGCTCGCCTATTTCCGCTACTTTGTCACCGACAAGGGCATGGCCGGCAAAGCGGAAGGCAGTTTGCCCGGCGATCTGGAGAGCCTGCTGCGTGGCGGCTACCTGAGTGTCGAGCCGCTGGTGTACGAGGATTTCCTGCCGGTCAGCGCGGCCGGAATCTTTCAGTCCAACCTGGGCGACCAGGGACGCGACAGCTATGCGCAACTGTCCAACCGCGAGCAGTTCGAGCGTGACCTCGGGGCTCCGGTGAATGACGAACTGGCGCTGTATGCCGAGACCCAGCGGCGTTCGCTCGAGCAGTGCGCGGCACAACTGGGGCTGGCCAGCCTCGGCTGA	MSVQAFVNPDDIRTRFSQAMSAMYKTEVPLYGTLLELVGEVNCETLAAEPALAEQLRRTGEMERLDMERHGAIRVGTAEELATIRRLFAVMGMYPVGYYDLSCAGVPVHSTAFRAIHEDALQRSPFRVFTSLLRLELIDNPALRETSRAILARRSIFTPRVLELIEQFERVGGLNAAEAETFVEEALETFRWHREATVSAEVYRQLHDQHRLIADVVAFKGPHINHLTPRTLDIDAVQVGMPRHGITPKAIIEGPPRRKCPILLRQTSFKALQEQVDFIGEGRVTAGSHTARFGEIEQRGVALTPKGRALYDQLLQSTREVIRGEDDPETYQRVLGDHFADFPDDYDLMRRYGLAYFRYFVTDKGMAGKAEGSLPGDLESLLRGGYLSVEPLVYEDFLPVSAAGIFQSNLGDQGRDSYAQLSNREQFERDLGAPVNDELALYAETQRRSLEQCAAQLGLASLG				NA	NA	NA	NA	NA
BMS010_09676	1251	davT_3	COG0160	5-aminovalerate aminotransferase DavT	ATGAGCCACGCACATGTCAGCCAGTCCCTGGCCATCGTCCATCCCATCACCCTGTCCCACGGTCGCAACGCGGAAGTCTGGGACACCGACGGCAAGCGCTACATCGACTTCGTTGGCGGTATCGGCGTGCTCAACCTCGGTCATTGCAATCCGCAGGTGGTCGAAGCGGTACGCGAGCAGGCCGGACGGCTGACGCATTCCGCCTTCAACGCCGTGCCGCATGCCGGGTACGGGCAGTTGATGGAAGCGCTGGATCGTTTCATTCCGGTCAGCTATCCGCTGTCCGGCATGCTCACCAACAGCGGTGCCGAGGCGGCGGAGAACGCGCTCAAGATCGTCCGCGCCGCCACCGGACGCAGCGCGGTGATCGCCTTCGACGGGGGGTTCCACGGCCGCACCCTGGCCACGCTCAACCTCAACGGCAAGGTGGCGCCCTATAAACAGAAGGTGGGCAACCTCCCCGGGCCGGTCTATCACCTGCCGTATCCCAGCGCCGACACCGGCGTGACGCGTGAGCAGGGCCTGCAGGCCATGGACCGTCTGTTCAGCGTCGAAATCGATAAGTCCGAGGTGGCCTGCATCATCGTCGAGGCGGTGCAGGGGGAGGGTGGCTTCCTGGCCCTGGACCCGGCTTTCGCCCAGAACCTGCGGCGTTTCTGCGATGCGCACGGAATCGTGCTGATCATCGATGAAATCCAGTCCGGCTTCGGTCGTACCGGCCAGCGCTTCGCCTTCTCACGCCTGGGCATCGAGCCGGACCTGTTGCTGCTCGGCAAGAGCATGGCGGGCGGCCTGCCCCTGGCGGCCGTGGTTGGGCGCCGCGAACTGCTTGATGCGCTACCCAAGGGCGGATTGGGCGGCACCTACTCGGGCAATCCGCTGGGCTGCGCCGCCGCCCTGGCCACCCTGGCACAGATGAGCGACGCCAACCTGTCCGGCTGGGGGGAGCAGCAGGAGAGTGTCATCCTCGAGCGCTACCGGCGTTGGCAAGGGATGCCGTGGGCTGGTGTGCTCGGCCGTCTGAATGGTATCGGCGCCATGCGTGGTATCGAGCTGCGCGCGGCGGACGGGACGCCCGGTACGGCGCGGATGGCGGCGTTGCTGGCGGCCGCACGGGAGCAGGGGTTGCTGCTGATGCCCAGCGGCAAGGCGCGGCATGTCGTCCGCCTGCTGGCTCCGCTGACCATCGAACGCGCTTGCCTGGAGGAAGGGTTCGACATCTTCGAACGCTGTCTGGCTGCGCTCGAATGA	MSHAHVSQSLAIVHPITLSHGRNAEVWDTDGKRYIDFVGGIGVLNLGHCNPQVVEAVREQAGRLTHSAFNAVPHAGYGQLMEALDRFIPVSYPLSGMLTNSGAEAAENALKIVRAATGRSAVIAFDGGFHGRTLATLNLNGKVAPYKQKVGNLPGPVYHLPYPSADTGVTREQGLQAMDRLFSVEIDKSEVACIIVEAVQGEGGFLALDPAFAQNLRRFCDAHGIVLIIDEIQSGFGRTGQRFAFSRLGIEPDLLLLGKSMAGGLPLAAVVGRRELLDALPKGGLGGTYSGNPLGCAAALATLAQMSDANLSGWGEQQESVILERYRRWQGMPWAGVLGRLNGIGAMRGIELRAADGTPGTARMAALLAAAREQGLLLMPSGKARHVVRLLAPLTIERACLEEGFDIFERCLAALE	PGPT0007660_1526	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	INSECTICIDAL_COMPOUNDS	INSECTICIDAL-GAMMA-AMINOBUTYRIC_ACID_BIOSYNTHESIS,PGPT0007660-gabT-K07250	NA	NA
BMS010_09677	885	gcvA_15		Glycine cleavage system transcriptional activator	ATGTCCAAGCGCCTGATGCCGTCGATGACGGCCCTGCAATGCTTCGAGGCGGTCGCCCGCCACCTCAGTTTCACCCGTGCGGCGGAAGAGCTGCACCTGACCCAGAGCGCGGTGAGCAAGCAGGTCGCGCAACTGGAAGAGATGCTTCAGCACCTGCTGTTCCGCCGCATTCGCCGGCGTCTGCAACTGACGCCGGCCGGCTCGCTGTACCTGGGCGAGGTGAACAAGATTCTCAATCAGGTGGAGATGTCCACCCGCTACATCCTGTCGTATGGCGGAGAGACCGAGGTGCTGACCGTGGCCACCCAGCCCACCTTCGGCGCGCGCTGGCTGATTCCGCATCTCAAGGGCTTCGGTGCCAGCAACCCGAACATCCACCTGGATATCCATAACGAGCTGGAGCCTTTCGACCTGCTGCAAGGCAAGGCCGACGTGGTGTTCTTCTTCGGTCAGGGCACTTGGCCGGGGGCGGAGTGCATCGAGCTGTTCGGCGAGGAGGTGGTGCCGGTCTGCTCGCCGGACATCCTGCCCGGGCAACCGCTGGACAGCGCCTTGGACCTGACGCACATGGTCCTGCTGCAGTGCGGTTCGCGCCCCGAGGCCTGGCACGAATGGTTCCTCGGCCAGGAACTGGAAACCGAGCACAGCTACCATGGCCCGCGTTTCGACACCTTCTATATGTGCATCCGCGCCGCGCAGTCCGGCTGTGGCGTGGCGCTGGTCCCGCGCTACCTGGTGGAAGACGAGCTGGCGGAGAACAAGCTGGTGATTCCCTGGGATCATCCGATGCGCAGCAACGGTAGGCATTTCATGGCGTATGCCGAGCATGCCGCCGAGGTGCCGAAGATTCGGACCTTCGTGAAGTGGATTCGCAGTCAGCTCTGA	MSKRLMPSMTALQCFEAVARHLSFTRAAEELHLTQSAVSKQVAQLEEMLQHLLFRRIRRRLQLTPAGSLYLGEVNKILNQVEMSTRYILSYGGETEVLTVATQPTFGARWLIPHLKGFGASNPNIHLDIHNELEPFDLLQGKADVVFFFGQGTWPGAECIELFGEEVVPVCSPDILPGQPLDSALDLTHMVLLQCGSRPEAWHEWFLGQELETEHSYHGPRFDTFYMCIRAAQSGCGVALVPRYLVEDELAENKLVIPWDHPMRSNGRHFMAYAEHAAEVPKIRTFVKWIRSQL	PGPT0026360_3285	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
BMS010_09678	1491	gabD_2	COG1012	Succinate-semialdehyde dehydrogenase [NADP(+)]	ATGGTCGACGGACTCTTGAGCCGCCTCGGCGTCAGTGCCAGTGCGATTACCAACGGTTCCCACCCGGTCCACACCCCCATCGATGGCAGCCGGATCGGCAGCGTCGCCCTTGAGGACAAAGCCGCCGTGCTGGCCCGGATCGACCGCGCCGAGCAAGCCTTCAAGGCCTGGCGCAGCATCCCGGCCCCGCGCCGTGGCGAGCTGGTGCGGCTGTTCGGCGAAGTGCTGCGCGAGCACAAGGCCGACCTCGGCGAGCTGGTTTCCTGGGAAGCCGGCAAGATCACCCAGGAAGGCCTGGGCGAAGTGCAGGAAATGATCGACATCTGCGACTTCGCCGTCGGCCTGTCGCGCCAGCTCTACGGCCTGACCATCGCCTCCGAGCGTCCCGGCCACCACATGCGCGAAACCTGGCACCCGCTCGGTGTGGTCGCGGTGATCAGCGCCTTCAACTTCCCCGTCGCGGTCTGGGCCTGGAACGCTACCCTGGCGCTGGTCTGCGGCAACCCGGTGATCTGGAAGCCATCGGAAAAGACCCCGCTCACCGCCCTGGCCTGCCAGGCCCTGTTCGAGCGCGCCCTGAAAGCCTTCGGCGATGCGCCGGAAGGTCTCAGCCAACTGGTCATCGGTGACCGCGCCGCCGGCGAAGCGCTGGTGGACGATCCGCGCGTGGCCCTGGTCAGCGCCACCGGTTCCACCCGCATGGGTCGTGAAGTCGGCCCGCGCGTAGCAGCTCGCTTCGGCCGCAGCATCCTCGAGCTGGGCGGCAACAACGCGATGATCCTCGCCCCCAGCGCCGATCTGGACATGGCCGTGCGCGCCATTCTGTTCGGTGCGGTGGGTACCGCCGGCCAGCGCTGCACCACCCTGCGCCGCCTGATCGCCCACGAATCGGTGAAGGACGACATCGTCGCCCGCCTCAAGGCCGCCTATTCGAAGATCCGCATCGGCCATCCGCTGCAAGGCAATCTGGTCGGCCCGCTGATCGACCGCCAGAGCTTCGAGGCCATGCAAAACGCCCTGACCAAGGCCCGCGCCGAAGGCGGCCAGGTGTTCGGTGGCGAGCGCCAGTTGGAAGCGCAGTTCCCCAACGCCTACTACGTGTCGCCGGCCATCGTCGAAATGCCCGGACAGACCGAGGTGGTGCGCCACGAGACCTTCGCCCCGATCCTCTACGTCATGACCTACACGGACTTCGACGAAGCGCTGCGGATGAACAATGAAGTGCCGCAGGGCCTGTCTTCCTGCATCTTCACCACCGACGTACGCGAGGCCGAGCAGTTCCAGAGCGCGGCGGGCAGCGACTGCGGCATCGCCAACGTCAACATCGGCACCAGCGGTGCCGAAATCGGCGGTGCCTTCGGTGGCGAGAAGGAGACCGGCGGCGGCCGCGAATCCGGCTCCGACGCCTGGAAGGCCTACATGCGCCGGCAGACCAACACGGTGAACTACTCCCGTGAGCTGCCCCTGGCCCAGGGCATCGTCTTCGACTGA	MVDGLLSRLGVSASAITNGSHPVHTPIDGSRIGSVALEDKAAVLARIDRAEQAFKAWRSIPAPRRGELVRLFGEVLREHKADLGELVSWEAGKITQEGLGEVQEMIDICDFAVGLSRQLYGLTIASERPGHHMRETWHPLGVVAVISAFNFPVAVWAWNATLALVCGNPVIWKPSEKTPLTALACQALFERALKAFGDAPEGLSQLVIGDRAAGEALVDDPRVALVSATGSTRMGREVGPRVAARFGRSILELGGNNAMILAPSADLDMAVRAILFGAVGTAGQRCTTLRRLIAHESVKDDIVARLKAAYSKIRIGHPLQGNLVGPLIDRQSFEAMQNALTKARAEGGQVFGGERQLEAQFPNAYYVSPAIVEMPGQTEVVRHETFAPILYVMTYTDFDEALRMNNEVPQGLSSCIFTTDVREAEQFQSAAGSDCGIANVNIGTSGAEIGGAFGGEKETGGGRESGSDAWKAYMRRQTNTVNYSRELPLAQGIVFD	PGPT0006875_3808	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128	NA	NA
BMS010_09679	1992	ftsH_4		ATP-dependent zinc metalloprotease FtsH	ATGAAGAAATCCGATTTCCTGAAAAACCGCCTGCGTCTGGCGCTGTCCGTGCTCGGCCTGCTTGTCCTGCTGGGTGCCGGCCTCTCGTACTGGCAGTGGCAGGGCCACGATGCGATGGCCGATGCGCCGGCGCCCGGCAGCATCGAAGCGATGCTGACCGAGCTGCACGAGTCCACTTCGCCGTGGCGCGAGCAGCGCCGCGATCTTTCCACCCTGGTCGACGACATCCGCGCCGGGCACATCGCCACGGCCGCGCTGAGCGACGAGGCGGTCTACGTTTCCACCCACGATGGCGGGCGCTACTGGGTGCCGGACCAGTCCGGGCGCATCGGCGAGATGATCCTGCGCGACTACGGCCAGGGTAGCGCCGCGCTGTTCCCAGTCAGCCTGTTCGACACCGACGGCGAGGCCCCGTGGTATCGCCGCGCTCTGGTGTTCTGGCCGTTCTACCTGCTGTTCGCCGGCGGCCTGATCGTTGCCGCCCTCAAGCTGCAGCCGTTCAAGACGCAGCGCAAAGGCACCGGCATTTCCTTCGACGACGTAGTTGGCGCCAGCGAAGCCAAGCAGGCGTTGCAGGACGTCACCGCCTACCTGCGCGATCCGGCCGCCTTCGCCGCCCTCGGTGCGCGACCGCCCAAGGGCGTGCTGCTGACCGGCGAGCCCGGCACCGGCAAGACCCAACTGGCCAAGGCCCTGGCCACCGAATGCAATGCCCACTTCATTCAAGTCACCGGCAGTGACTTCTCATCGATGTATTTCGGTGTCGGTATCCAGAAGGTCAAGTCGCTGTTCCGCACTGCACGCAAGAATGCGCCGTGCATCATCTTCATCGACGAGATCGACGGCCTCGGCCGCCGCTCCGAGCAGAGCCGCTCCAGCGACACCGAAAGCAACCGCATCATCAACCAGTTCCTCACCGAGCTGGACGGCTTCGAGGCCGCCGCCGGCGTGCTGGTGCTGGGCGCCACCAACTTCCCCAACTCGCTGGACCCGGCACTGGTGCGCGAAGGCCGCTTCGACCGCTCCATCGCCGTCGCCCTGCCGACCCTGGGCGAGCGCCAGGCGCTGTTCCGCCTGTATACCGGCAAGATTCGTCTGTCCGGCGAAGTGGATTTCGAGCAACTGGCGCGCAATACCGTGGGGCTGACCCCGGCGGCGATTTCCTACATCGTCAACCACGCCGCCCTGCTCGCGGCGCGGGCCGGCCAGCAGCAGGTCGAGATGAGCCATCTGGTGGACGCCATCGAAACCTGCCGCATCGGCGAACAGCCGTCGGCAGTCACCCCGCTGTCGGAGACCGACCGCACCCGCATCGCCGTGCACGAAGCCGGTCACGCCCTGGTGGCCGCCGCACTGAAGGTCGGCCGAGTGGAGAAAGTCACCATCCTGCCGCGCGGCCAAGCCCTCGGTGTGACCCTGGTGACGCCGGTGGAAGACAAGCGCCTGCACCTGGAATCCGAGCTGCGCAACCGCATCAAGATGCTGCTGGCCGGCCGCGGTGCCGAGCAGTTGCACTTCCATGAGGTATCTTCCGGCGCCGGGCAGGACTTGCAGGAAGCCTCCAAGCTGGCGCTGTCCATGGTCGGTGCGCTGGGCATGGGACCGAAGGGGTCGTTGCTGAGCCTGCAAGCCGTGCGCGAGGCGCATATCGACTGCGATCCGCGCGAAGCGCTGGAAGCCGCCGACGCCCTGCTGCACCAGCTTAACCAGGAATGCCTGGCCCTGCTGCAACGGCTCAAGCCGGCACTCGACCTGGTCACCCAGCGCCTGCTGGAAGAAGAAACCATCCCCGGCGAAGAAGTGCTGGCGGCCATCGAGAACTTGCCGCAGCAGGACGTCGCCGCCCTCGGCGCGCTGGTGGGCCATGGCCGGCCGCATCTGGAACGGGTCGCCGCCTCGGCCTTCGAAGTCCCGTTGAATGGCGCTGCGCCGGATTACGAGCCACACGCCGATGACGACGGCGACGATCAGGGAGGCATGTGCCGGGCCTGA	MKKSDFLKNRLRLALSVLGLLVLLGAGLSYWQWQGHDAMADAPAPGSIEAMLTELHESTSPWREQRRDLSTLVDDIRAGHIATAALSDEAVYVSTHDGGRYWVPDQSGRIGEMILRDYGQGSAALFPVSLFDTDGEAPWYRRALVFWPFYLLFAGGLIVAALKLQPFKTQRKGTGISFDDVVGASEAKQALQDVTAYLRDPAAFAALGARPPKGVLLTGEPGTGKTQLAKALATECNAHFIQVTGSDFSSMYFGVGIQKVKSLFRTARKNAPCIIFIDEIDGLGRRSEQSRSSDTESNRIINQFLTELDGFEAAAGVLVLGATNFPNSLDPALVREGRFDRSIAVALPTLGERQALFRLYTGKIRLSGEVDFEQLARNTVGLTPAAISYIVNHAALLAARAGQQQVEMSHLVDAIETCRIGEQPSAVTPLSETDRTRIAVHEAGHALVAAALKVGRVEKVTILPRGQALGVTLVTPVEDKRLHLESELRNRIKMLLAGRGAEQLHFHEVSSGAGQDLQEASKLALSMVGALGMGPKGSLLSLQAVREAHIDCDPREALEAADALLHQLNQECLALLQRLKPALDLVTQRLLEEETIPGEEVLAAIENLPQQDVAALGALVGHGRPHLERVAASAFEVPLNGAAPDYEPHADDDGDDQGGMCRA				NA	NA	NA	NA	NA
BMS010_09680	618			hypothetical protein	ATGACGCTATTGAGCGAAGCCGAGCTGCAACGCGTGACCGATGCGATCACCGAGGTGGAGCGCCATACCGATGCCGAACTGGTAACGGTGCTGGCGACGCGGGCGGACGATTACGCCTACATCCCGTTGCTCTGGGCCAGCCTCGTCGCCCTGCTGCTTCCTGGCGCGGCGAACTTCTTCGGTGGCTGGCTGAACTCAGCGCAGTTGCTGCTGGTGCAGTGGCTGACCTTTGCGCTGCTGGCACTGCTGGGGCGTATCCCGTCCCTGACCAGCCGGCTGATTCCCCGTGCGGTGCGGCATTGGCGGGCCGCCAATCTGGCCCGCCGGCAATTTCTCGAGCACAACCTGCATCACACCGAGGCCGGCACCGGCATGCTGATCTTCGTCTCGGAAGCGGAGCGTTACGTCGAGATCATCGTCGACCGGGGCATTTCCAGCCGGATCGACGACGGTGCCTGGCAGGCGCTGGTGGACGTTTTCACGGCAGAGGTTCGCCGTGGGCGGACCCTGGAAGGCTTCCTCGGTTGCATCCGGGGCTGCGGCGAGTTGCTCCAGCAACACGTGCCGGCGACGCACGAACGCAACGAGCTGCCCAATCGGTTGATCGTCCTGCCTTGA	MTLLSEAELQRVTDAITEVERHTDAELVTVLATRADDYAYIPLLWASLVALLLPGAANFFGGWLNSAQLLLVQWLTFALLALLGRIPSLTSRLIPRAVRHWRAANLARRQFLEHNLHHTEAGTGMLIFVSEAERYVEIIVDRGISSRIDDGAWQALVDVFTAEVRRGRTLEGFLGCIRGCGELLQQHVPATHERNELPNRLIVLP				NA	NA	NA	NA	NA
BMS010_09681	723			hypothetical protein	ATGCGCCCTCGCGCCCTTTTGTACCTGGCCGTGTTGCTGTTCTGCGGCCTCGCTCGGGTGCAGGCGGCGGAGCCGACGTTTCCGCCGCTGACCGGCCGTGTGGTGGATCGGGCGGACATGCTCGATCCGACGGTCGAACAACGCCTGTCCGGCATGCTCGTCGCCCACGAGCAGGCCACGGGCGAGCAGGTGGTGGTGGTGACGCTGCCGGACCTCCAGGGCCGGAGTATCGAAGAGTTCGGCGTGGCGCTGGGACGCCACTGGGGTATCGGCCAGAAGGGCAAGGACAACGGCGCCCTGTTGATCGTGGCACGTGAGGAGCGGCGTGTGCGTATCGAGGTCGGTTACGGCCTCGAAGAGCGCCTGACCGATGCGCAATCCGCCCTGATCATCAACGGCGTCATCCTGCCGGCGTTCCGCCAGGGCGACTTCAGCCGGGGTATCAGCGAAGGCGCGGCGGCTATGGTCCAGGTGCTCGGCGGCGAGCCCCTGGCCAGCTCGGTCGATCCCGCGGCAGCCAAGCAACCGCCGGGGTTCATGGCGCTGGGGTTCTTCTTCATGATGCTGGTGGTCATTGCCCTGCTGGGCGGCGGCGGTGGCCGGGGCTTACTCCTGGGAGCGCTGCTCGGCGGCATGGGCCGGGGCTCCGGCTTGGGAGGGGGTGGCGGTTTCGGCGGTGGAGGTGGTGGCTTCGGCGGGGGCGGTGCCTCCGGCGGCTGGTGA	MRPRALLYLAVLLFCGLARVQAAEPTFPPLTGRVVDRADMLDPTVEQRLSGMLVAHEQATGEQVVVVTLPDLQGRSIEEFGVALGRHWGIGQKGKDNGALLIVAREERRVRIEVGYGLEERLTDAQSALIINGVILPAFRQGDFSRGISEGAAAMVQVLGGEPLASSVDPAAAKQPPGFMALGFFFMMLVVIALLGGGGGRGLLLGALLGGMGRGSGLGGGGGFGGGGGGFGGGGASGGW				NA	NA	NA	NA	NA
BMS010_09682	603	lemA_3	COG1704	Protein LemA	ATGCGGACGACGTGGAAGGCGACTTGGCGACTGATTCCTCTGCTCTGGCTGGCAGCCCTGCTGACCGGCTGCGGCATCAACAACATCCCGCGTTACGACGAGCAGGTGAAAGCGGCCTGGGCGCAGGTGGAAAACCAGTATCAGCGCCGGGCCGACCTGATCCCCAACCTGGTGGAAACGGTCAAGGGTTACGCCAGCCACGAGCAGGAAACCCTGACCGCGGTGGTGGAGGCGCGGGCCAAGGCGACCTCCATCCAGGTGGATGCCAACACCCTCGACGATCCCCAGCGGCTGCAGCAATTCCAGCAGGCCCAGGCCCAGCTCACCGGGGCCTTGAGCCGACTGATGGCGGTGTCCGAGCGCTACCCCGACCTCAAGGCGAACCAGAACTTCCTCGCTCTGCAATCCCAGCTGGAAGGCACCGAGAACCGGATCGCCGTGGCCCGGCGTGATTTCATCGCGTCGGTCGAACGCTACAACACGGAAATCCGCACCTTCCCCGGCCGCATCTGGCACATGATCCTGTACAGCGATATGCCGATCCGCGAGAACTTCGAGGCCACCGCCAAGGACGCGGAACAGGCGCCGCAAGTGAAGTTCTGA	MRTTWKATWRLIPLLWLAALLTGCGINNIPRYDEQVKAAWAQVENQYQRRADLIPNLVETVKGYASHEQETLTAVVEARAKATSIQVDANTLDDPQRLQQFQQAQAQLTGALSRLMAVSERYPDLKANQNFLALQSQLEGTENRIAVARRDFIASVERYNTEIRTFPGRIWHMILYSDMPIRENFEATAKDAEQAPQVKF				NA	NA	NA	NA	NA
BMS010_09683	1221	yfdE_4	COG1804	Acetyl-CoA:oxalate CoA-transferase	ATGTCCGCACTGTCCCATATCCGTGTGCTCGACCTTTCCCGCGTGCTGGCCGGGCCCTGGGCCGGGCAGATCCTGGCCGATCTCGGCGCCGAGGTGATCAAGATCGAGCGCCCTGGCGTCGGTGATGACACCCGCCACTGGGGCCCGCCGTTCCTCAAGGATGCGCAGGGCGAAAACACCCGCGAGGCGGCGTATTACCTGTCGGCCAATCGCAACAAACAGTCGGTGACGGTGGACTTCACCCAGCCGGAAGGCCAGCAACTGATCCGCGAGCTGGCCGCCAAGGCCGATGTGGTGCTGGAGAACTTCAAGGTCGGCGGGCTGGCAGCCTACGGGCTCGACTACGCGTCGCTCAAAGCGCTCAACCCGCGCCTGATCTACTGCTCCATCACCGGCTTCGGGCAGAACGGTCCCTACGCCAAGCGCGCCGGCTACGACTTCATGATCCAGGGGTTGGGCGGGCTGATGAGCCTGACTGGGCGCCCGGAGGGCGAGGAGGGGGCCGGCCCGGTGAAGGTGGGTGTGGCGTTGACCGACATTCTCACTGGCCTGTATTCCACCGTGGCGGTGCTCGCCGCCCTGAACCATCGCGACCAGAGCGGCATCGGCCAGCACATCGACATGGCTTTGCTCGACGTGCAGGTCGCCTGCTTGGCCAACCAGGCGATGAACTACCTGACCACTGGCGTACCGCCCCGGCGGCTGGGCAATGCCCATCCGAACATCGTGCCTTACCAGGATTTCCCCACGGCCGACGGCGACATCATCCTCACCGTGGGCAACGACAGTCAGTTCCGCAAGTTCTGCGAGGTCGCCGGCTTCCGGGAGTGGGCCGACGACCCGCGTTTTTCCACCAACCAGGCCCGCGTCGCCCATCGCGCCGAGCTGATTCCGCTGATCCGCCAGGCCACGGTGTTCAAGACCACCGCGCAATGGGTCGCCTTGCTGGAAGAGGCCGGGGTGCCGTGCGGGCCGATCAACGACCTGGCCCAGGTGTTCGCCGACCCGCAGGTCCAGGCTCGCGGATTGCGCGTCGAGTTGCCGCATCCCCTGGCCGGCACGGTGCTCCAGGTGGCCAGCCCGATCCGCCTCTCCGAAACACCGGTGCAATATCGCAACGCCCCGCCGCTGTTGGGCGAGCACACCGAACGGGTGCTCGGCGAGGTGCTGGGCTTGAGCCCCGAACGCATCGCCGCGCTACGTGAGGCGGGGGTGGTCTGA	MSALSHIRVLDLSRVLAGPWAGQILADLGAEVIKIERPGVGDDTRHWGPPFLKDAQGENTREAAYYLSANRNKQSVTVDFTQPEGQQLIRELAAKADVVLENFKVGGLAAYGLDYASLKALNPRLIYCSITGFGQNGPYAKRAGYDFMIQGLGGLMSLTGRPEGEEGAGPVKVGVALTDILTGLYSTVAVLAALNHRDQSGIGQHIDMALLDVQVACLANQAMNYLTTGVPPRRLGNAHPNIVPYQDFPTADGDIILTVGNDSQFRKFCEVAGFREWADDPRFSTNQARVAHRAELIPLIRQATVFKTTAQWVALLEEAGVPCGPINDLAQVFADPQVQARGLRVELPHPLAGTVLQVASPIRLSETPVQYRNAPPLLGEHTERVLGEVLGLSPERIAALREAGVV	PGPT0002130_447	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0002130-frc|yfdW-K07749	NA	NA
BMS010_09684	1179	mmgC_7	COG1960	Acyl-CoA dehydrogenase	ATGGCCAAAGCAAGCTTCAACTGGATCGACCCGCTGCTGCTCGATCAGCAACTGACCGAAGAAGAGCGCATGGTGCGCGACAGCGCCGCGCAGTTCGCCCAGGACAAGCTGGCTCCGCGCGTGCTGGAAGCCTTCCGCCATGAGCGCACCGACCCGGCGATTTTCCGCGAGATGGGCGAAACCGGCCTGCTCGGCGCGACCATTCCCGCTGAATACGGTGGCAGCGGCCTGAACTACGTGTGCTACGGCCTGATCGCCCGTGAGGTCGAGCGCATCGATTCCGGCTATCGCTCGATGATGAGCGTGCAGTCGTCCCTGGTGATGGTGCCGATCTTCGAATTCGGCTCCGAAGCACAGAGGCAGAAGTACCTGCCCAAGCTGGCCAGCGGTGAGTGGATCGGCTGCTTCGGCCTGACCGAACCCAACCACGGCTCCGACCCGGGCTCGATGGTGACCCGAGCGAAGAAAGTGGACGGCGGCTACCGCCTGAGCGGCAGCAAGATGTGGATCACCAACAGCCCGATCGCCGACGTGTTCGTGGTCTGGGCCAAGGACGATGCCGGCGATATCCGCGGCTTCGTCCTGGAAAAAGGCTGGGAGGGCCTGAGCGCCCCGGCGATCCACGGCAAGGTCGGCCTGCGGGCGTCCATCACCGGCGAGATCGTCATGGACAACGTGTTCGTCCCCGAAGAGAACGCCTTCCCCGAGGTGCGCGGCCTGAAAGGACCCTTCACCTGCCTGAACTCGGCCCGCTACGGGATTTCCTGGGGCGCGCTGGGTGCCGCCGAATTCTGCTGGCACACCGCGCGCCAGTACACCCTGGACCGCCAGCAGTTCGGCCGTCCGCTGGCGGCCAACCAGTTGATCCAGAAGAAGCTGGCGGACATGCAGACCGAGATCACCCTGGCCCTGCAAGGCTGCCTGCGCCTTGGCCGGATGAAGGACGAAGGCACCGCGGCGGTGGAAATCACCTCGATCATGAAGCGCAACAGCTGCGGCAAGGCCCTGGATATCGCCCGTATGGCCCGCGACATGCTGGGCGGCAACGGCATCAGCGACGAATTCGGCGTGGCCCGCCATCTGGTCAACCTCGAAGTGGTGAACACCTACGAGGGCACCCACGATGTCCACGCGCTGATTCTTGGTCGAGCCCAGACCGGTATCCAGGCGTTCTTTTAA	MAKASFNWIDPLLLDQQLTEEERMVRDSAAQFAQDKLAPRVLEAFRHERTDPAIFREMGETGLLGATIPAEYGGSGLNYVCYGLIAREVERIDSGYRSMMSVQSSLVMVPIFEFGSEAQRQKYLPKLASGEWIGCFGLTEPNHGSDPGSMVTRAKKVDGGYRLSGSKMWITNSPIADVFVVWAKDDAGDIRGFVLEKGWEGLSAPAIHGKVGLRASITGEIVMDNVFVPEENAFPEVRGLKGPFTCLNSARYGISWGALGAAEFCWHTARQYTLDRQQFGRPLAANQLIQKKLADMQTEITLALQGCLRLGRMKDEGTAAVEITSIMKRNSCGKALDIARMARDMLGGNGISDEFGVARHLVNLEVVNTYEGTHDVHALILGRAQTGIQAFF	PGPT0021815_2112	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021815-GCDH|gcdH-K00252	NA	NA
BMS010_09685	954	gcvA_16		Glycine cleavage system transcriptional activator	ATGCGCCGCAAGATTCCCAGCACCGCCGCGCTCCTCGCCTTCGAGGCCGCCGCTCGCCACGAAAGCTTCACCAAGGCCGCCGACGAGTTGAGCCTGACCCAGAGCGCCATCTGCCGGCAGATCGGTGCGCTGGAAGAATTCCTCGGCATCGAATTGTTCCGCCGCTCGCGACGCGGTGTGAAGCTGACCGAGGCGGGCCTTTCCTACAGCCGGCGGGTGGCCGCGCAACTGGATGCGGTGGAGCGCGACACCCTCTCGGTGATGGGCCAGCATGGTGCCGGCCGGCTCGAACTGGCGGTGGTGCCGACTTTCGGCACGCAATGGCTATTACCCCGGCTGAAACGTTTCCAGGCGCTGCATCCGCAGGTCACGGTGAACCTGACCAACCGCACCCGCCCCTTCCTGTTCGCCGATACCGAGTTCGATGCCGCGCTCTATTTCGGCGATGGCGACTGGTCGGGCACCGAGGCGCATTTCCTGATGCCGGAGAATTCGATGCCGGTGTGCAGCCCGGCCATGCTGGCGGGCCGTGCGCAACTCGACGCCGAGGCAATCGCCCGGCTGCCGCTCTTGCAACAGACCACCCGTCCCTATGCCTGGCGGCAGTGGTTCGATTCGCTGGGAATGAACGTGGCGCGGGACATGACCGGGCCGCGCTACGAGCTGTTCTCCATGCTCGCCCAGGCCGCCGAGCACGAAATGGGCGTAGCGCTGATCCCTCCGTTCCTGATCCAACGCGAGCTGCGTGAAGGCCGGCTGGTGGTGGCGATGGAGCACGCCAGCCACAGCGACAAGGCGTATTACCTGATCATCCCGGAGCGCAAGGTGGAATCGGCGGCGCTGCGCGCCTTCCGCGACTGGTTGGTGGAAGAGGCGCGGCGCTACCGGGAGGAGAACCCCACCGAGGTCACCGACCCCGGCGGAGCAGCCCGCGGGATCAGCCGCCAGCCTTGA	MRRKIPSTAALLAFEAAARHESFTKAADELSLTQSAICRQIGALEEFLGIELFRRSRRGVKLTEAGLSYSRRVAAQLDAVERDTLSVMGQHGAGRLELAVVPTFGTQWLLPRLKRFQALHPQVTVNLTNRTRPFLFADTEFDAALYFGDGDWSGTEAHFLMPENSMPVCSPAMLAGRAQLDAEAIARLPLLQQTTRPYAWRQWFDSLGMNVARDMTGPRYELFSMLAQAAEHEMGVALIPPFLIQRELREGRLVVAMEHASHSDKAYYLIIPERKVESAALRAFRDWLVEEARRYREENPTEVTDPGGAARGISRQP	PGPT0026360_3476	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
BMS010_09686	522	epsM	COG3149	Type II secretion system protein M	ATGCAGGCACTCGTTCAACTTCGACAGCAATTCAGCGAGCGCGCGACCAGTTCGCCGCTCTGGCAGCGTTGGCAACAGATGGCGCCGCGCGAACGCATGGCGCTCGGTCTGCTCGGTGCGTTTCTGATCGGTGTGGTGCTCTACCTGAGCATCTGGCAGCCGGCCGCCCGCGAACTCAAGGACGCGCGCAATTACTACCAGCAGCAGCGGGAGCTGAATGCCTACCTGCAAAGCAATGCGGAGGCGGCTCGCCAGGTTTCCGCCAAGCCCCAGGTCAACCTGGAGGCCGAGCAACTGCAAGGGCTGGTCACGCGTACCGCCCAGCAGCACGGGCTGGTGGTGGAGCGTTTCGACAGTGATTCCGAAGGGCTGCTGGTCAGCCTGGCCGAAGCGCCGTTCGCTGCCATGCTGCGCTGGTTCGGCGAATTGCAGGCACAGGGCGTGCGACTGGCCGAGGTCAGCCTCGACCGGGCCAGCACCGGCAAGGTGAACGCGCGGCTGACCCTCAAGGCTGGCGGCTGA	MQALVQLRQQFSERATSSPLWQRWQQMAPRERMALGLLGAFLIGVVLYLSIWQPAARELKDARNYYQQQRELNAYLQSNAEAARQVSAKPQVNLEAEQLQGLVTRTAQQHGLVVERFDSDSEGLLVSLAEAPFAAMLRWFGELQAQGVRLAEVSLDRASTGKVNARLTLKAGG	PGPT0026470_548	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026470-gspM|epsM-K02462	NA	NA
BMS010_09687	1149	xcpY	COG3297	Type II secretion system protein L	ATGAACACCATGGACTGCCTGTTTCTGCCGCCCGATTGCGGGCCGGAGTTGAGCGCGGGCCTCCGCGTATACCACCTGCCTGCCGGAGGCGAGGGCACGAAGCTGAGCCTCGAGGACTGCGCCGCAGCCGTCCAGGGCCGGGCAGTCGCCCTGGTGCTGCCGGCCGAAGTGTGCAGCGCCCTGGCGGTCGCCCTGCCGACGCAGAAGGCGCGCTGGCTGCGCCAGGCTTTGCCTTACGCGGTGGAGGAGCTGCTTGCCGAGGACGTCGATCAGCTGCATCTGGCGCTGGGCGAGCGGCTGTCCGACGGTCGCTACCGGGTCATCGCGCTGCGCCGCAGCCTGCTGGCTGGCTGGCTGGCGCAACTGGAGGCGCAGGGGCTGAAGGTCGGTGCGGTGCACGTGGATGCCGACCTGTTGCCGCGCGACGGCACCCAGGTGCTGGTGTTGGGTGATCGGGCGTTGGTCGGTGGTGTGAGCGAAGCGCGTCTGGCGGTTGCCGCGGAGGACTGGCCGATGCTGGCGGATCAGTTGCCGCTGCCCTTCCATCTGTACGGCGAGACGGAAGAGCCTCCGCTGGAAGTCGGCGAGTACCGCCGGGTGATCGAGCCTTACCGCTTCCTGGCCGATGGCCGCTCACTGGCGGTGGACCTGGCCCAGGCCGAGTTCGCCGTGCGCCAGGAAGGCGGCAGCCTGGAGCAGTGGAAGCCGCTGCTGGCCGTCGCCGGTCTCTGGCTGGTGTTGCAGGTCGGCTTCAACCTGGCCCAGGCCTGGTACCTGGAGCGCCAGGGCGATGCCTACTCTGCCGAAAGCCAGGCGCTGTACCGCGAGCTGTTCCCCGAGGACACGCGTATCGTCAATTTGCGTGCCCAGTTCGCCGAGCACCTGGCCCAGGGCGCCGCGTCGGGTTCCGGGCAGTTCCTGCACCTGCTCGATCAGGTCGCCGGCCCGCTGCAAGCGCCGAACCTGACCCTGATTCAACTGGATTACAGCGAGAACCGGGGCGATCTGGCCCTGCAGGTGCGGGCCAGCGATTTTGCCGAGCTGGAGCAGTTGCGCCAGCGCCTCAGCGAGGCCGGCCTCGCGGTGCAGATGGGCTCCGCCAGCCGTGAAGAAGGCGGCGTGACCGCCCGTGTCGTCATAGGAAGCTGA	MNTMDCLFLPPDCGPELSAGLRVYHLPAGGEGTKLSLEDCAAAVQGRAVALVLPAEVCSALAVALPTQKARWLRQALPYAVEELLAEDVDQLHLALGERLSDGRYRVIALRRSLLAGWLAQLEAQGLKVGAVHVDADLLPRDGTQVLVLGDRALVGGVSEARLAVAAEDWPMLADQLPLPFHLYGETEEPPLEVGEYRRVIEPYRFLADGRSLAVDLAQAEFAVRQEGGSLEQWKPLLAVAGLWLVLQVGFNLAQAWYLERQGDAYSAESQALYRELFPEDTRIVNLRAQFAEHLAQGAASGSGQFLHLLDQVAGPLQAPNLTLIQLDYSENRGDLALQVRASDFAELEQLRQRLSEAGLAVQMGSASREEGGVTARVVIGS	PGPT0026465_1037	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026465-gspL|epsL-K02461	NA	NA
BMS010_09688	978	xcpX	COG3156	Type II secretion system protein K	ATGAGGCGTGCGCAACGGGGCGTCGCCCTGATCACGGTGCTGCTGGTGGTGGCCATCGTCACGGTGGTCTGCGCTGGCTTGATCGCCCGCCAGCAACTGGCGATACGCAGCACCTCCAATCAGATGCAGGCGCGGCAGGCCTGGCACTATGCCCTGGGCGGCGAAGCCCTGGCGCAGGCGATCCTGAGCCGTGACCTGAAGGCGCCCGGCAGCAACCCACAGCAGCCGGTCGACCATCTGCGCGAGGCTTGGGCCAAACCGCTGCCGGTATTCCCCATCGACCAGGGCGAGATCGCCGTGCGCATCGAGGATCCGACCGGCCGCTTCAACCTGAACAACCTGGTTCAGCAGCGTCAGCTCAACCAGCCGGCCTACCAGCAATTCCAGCGCTTGCTGATGTTGCTGGGCCTGCAGCCGGGCTACGCCGATCGCCTGGTCGACTGGCTGGACACCGATCAGGAGCCGCGTGGCGAGCAGGGCGCGGAGGACAACCAGTACCTGCTGCTGGACCCGCCATACCGCACGGCCAATCGGGAATTAACCGACGTTTCCGAGCTGCGCCTGCTGCTCGGCATGAGCGACCTGGAATTCCGCCGCCTGGCTCCCTATGTCACGGCGTTGCCAGCCGGTACGGCACTGAACGTCAATACCGCCAGCGCCATGGTGCTGGCCACCCTGGTCAATCCGCCGAACCCCAGCGTGGGCGAGGAGCTGGTCGCGGCGCGGGGCGAAGAGGGCTATCGCGACCTGAATGCCTTCCTCAGCCAGCCGGCCCTGGCCGGCGCCGGGCAGCAGAATCTGAAGCTGTCCGTGGGCAGCAATTATTTCCTGGCCATCAGCGAGGTGCGGGTGGCCGACCGCAAGCAGGTGCTGGTCAGCCTGCTACAGCGTGAGAACACCGGCCGCATCCGCGTGCTGCAACGCAATCTGGGCCGGCAGGCAATTCTGCCGGTGGCCCAACGAGGTGACGAAGAATGA	MRRAQRGVALITVLLVVAIVTVVCAGLIARQQLAIRSTSNQMQARQAWHYALGGEALAQAILSRDLKAPGSNPQQPVDHLREAWAKPLPVFPIDQGEIAVRIEDPTGRFNLNNLVQQRQLNQPAYQQFQRLLMLLGLQPGYADRLVDWLDTDQEPRGEQGAEDNQYLLLDPPYRTANRELTDVSELRLLLGMSDLEFRRLAPYVTALPAGTALNVNTASAMVLATLVNPPNPSVGEELVAARGEEGYRDLNAFLSQPALAGAGQQNLKLSVGSNYFLAISEVRVADRKQVLVSLLQRENTGRIRVLQRNLGRQAILPVAQRGDEE	PGPT0026460_812	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026460-gspK|epsK-K02460	NA	NA
BMS010_09689	735	xcpW	COG4795	Type II secretion system protein J	ATGGCGATCAGGACCGTCCGTGGTTTCACCCTGCTGGAGCTGCTGATCGCCATCGCGATCTTCGCGCTGCTCAGCCTGGGCACCTACCGCATGCTGGAAAGCGTGCTGCACAGCGACGAGGCGACCCGTGCCCAGGAGCAGAACCTGCGCGAACTGGCCCGTGCCTTCTGGGCGCTGGAGCGCGACCTGTCACAAGTCATCGCCCGACCGGTGCGCGATGCCTATGGCGACCAGCGTGGCGCCTTCCTCGGCGAACAGCGCACGCTGGACGGCTCGGCCGCCATCGAGCTGACCCGCAGCGGCTGGCGCAACCCCACCGGGCAATCGCGCTCGCAATTGCAGCGGGTGCGCTGGCGTTTGGCCGGCGAGACCCTGGAGCGGGTCTATTGGGTCCCGCTGGACCAAGCGGTGGACACCCAGCCGCGGGTGCAGAAGGTGCTGGAAGGCGTCACGGCCATGGAGTTGCGCTATTTGGACAAGGAAAACCAGTGGCAGACCCTCTGGCCGCCGGAGCAGAGCGGCGGCAGCGAACAGGAGCGCAGCCGCCTGCCTCAGGCCGTCGAGATCAAGCTGCAGCACCGTCGCTACGGTGAGTTGACCCGCCTGCTGCGCCTGCCGGACGCGCCGGCCGAATCGTCGGCGCAACAAGGCGGTGGCGGCGAGCAAGAAGGCGGCGATGGCCAGGAGGGCGGTGACGGCGGAACGCAGCCCGAGCCGGGGGGCGATGCCGGATGA	MAIRTVRGFTLLELLIAIAIFALLSLGTYRMLESVLHSDEATRAQEQNLRELARAFWALERDLSQVIARPVRDAYGDQRGAFLGEQRTLDGSAAIELTRSGWRNPTGQSRSQLQRVRWRLAGETLERVYWVPLDQAVDTQPRVQKVLEGVTAMELRYLDKENQWQTLWPPEQSGGSEQERSRLPQAVEIKLQHRRYGELTRLLRLPDAPAESSAQQGGGGEQEGGDGQEGGDGGTQPEPGGDAG	PGPT0026455_230	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026455-gspJ|epsJ-K02459	NA	NA
BMS010_09690	408	xcpV	COG2165	Type II secretion system protein I	ATGACGCGCATGGTCGGCCATCGGCCGCGAAGCGGGGGCTTCACCCTGCTGGAAGTGCTGGTCGCCCTGGCGATCTTCGCGACGGTTGCGGCGGTGGTGCTCAGCGCTGCCGGACGCAGCCTGACGAACGCCATGCGCCTGGAAGAAAAGACCCTGGCCGGATGGATCGCCGATAACCGCATCACCGAGCTTCAGCTCGCCAACCCCTCCCCGGGCGAGGGGCGGGAAAACAAGGAATTGGAATATGCCGGCCGCCGCTGGGAGACGCTGAGCGAAATCGAAGCGACCAGCGATCCGGGCATGCGCCGTGTCACCGTCTGGGTGGCGCCGCGACCCGAACGCAGCACCGGCACGCCGCTGCGCGACCGGGCCGTGGTCAGCCTCACCGGCTTCATCGGGGTGCGCTGA	MTRMVGHRPRSGGFTLLEVLVALAIFATVAAVVLSAAGRSLTNAMRLEEKTLAGWIADNRITELQLANPSPGEGRENKELEYAGRRWETLSEIEATSDPGMRRVTVWVAPRPERSTGTPLRDRAVVSLTGFIGVR	PGPT0026450_541	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026450-gspI|epsI-K02458	NA	NA
BMS010_09691	663	gspH	COG2165	Putative type II secretion system protein H	ATGCGCACATCCGCAGGGGCCGGCGCCAGGGCGCCGGCCGTTACCGGCAGTGGCCTTCGCGGGAGTGCGAACGGTCCGGCTCCTGCGGAACGCCGCCAGGGTGGCTTCACTCTGATCGAACTGCTGGTGGTGATGGTGATCATCGGCAGCCTGCTCAGTCTCGCCGTGCTGTCGACGGGCAACGCCAACACCAGCCGCGAGCTGCGTGACGAAGCGCAGCGGCTGTCCGGCCTGATCGCGGTGCTCAGCGACGAGGCCGTGCTCGACAACCGCGAGTATGGCCTGCTGATACGCAGCGAAAGCTACCGGGTACTGGCCTACGACGAGGCCAAGGCCATCTGGGCCGCCGTGCCCGGGCAGAACGAGCACCGGGTGCCGGTCTGGGCGCGCCTGGAACTCGAACTGGAAGGCGAGCCCCTCAAGCTGAGCGCTCCGGTCAAGGAGAACGACGACGAACCGGGGCTCAGCCAGGACGAAGAAAAGAAAGAGAAGGAAAAGAGCGGCCCGCGCCAGCCGGAGCCGCAGCTCTTGATCCTGTCCAGCGGCGAGCTGTCGCCGTTCCGCCTGGAAATCGCCGAGCGCGAGCCCAAGGGCACCGTCTACGAACTGGTGAGCGATGGCTTCCAGATGCCTAAGGCCGAACTGGCCAAGGAGCGGCGATGA	MRTSAGAGARAPAVTGSGLRGSANGPAPAERRQGGFTLIELLVVMVIIGSLLSLAVLSTGNANTSRELRDEAQRLSGLIAVLSDEAVLDNREYGLLIRSESYRVLAYDEAKAIWAAVPGQNEHRVPVWARLELELEGEPLKLSAPVKENDDEPGLSQDEEKKEKEKSGPRQPEPQLLILSSGELSPFRLEIAEREPKGTVYELVSDGFQMPKAELAKERR	PGPT0026445_301	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026445-gspH|xcpU|epsH-K02457	NA	NA
BMS010_09692	429	xcpT_2	COG2165	Type II secretion system protein G	GTGCAACGACGCAAGCAACTGGGCTTCACGCTCATCGAAATCATGGTGGTGGTGGTCATTCTGGGCATTCTCGCCGCGCTGGTGGTGCCGCAGGTGATGAGCCGTCCGGACCAGGCCAAGGTCACCGTGGCCAAAGGCGACATCAAGGCCGTTGCCGCCGCGCTGGACATGTACAAGCTGGACAACTTCGCCTACCCGAGCACCCAGCAGGGCCTCGAGGCGCTGGTGAAGCGCCCGTCGGGCAACCCGCAGCCGAAGAACTGGAACAAGGACGGCTACCTGAAGAAACTGCCGGTCGATCCTTGGGGCAACCCCTACCAGTACCTGGCGCCGGGGACCCGTGGCCCGTTCGACCTGTACTCCTTCGGTGCCGATGGCAAGGAAGGGGGCTCCGACCTGGACGCCGACATCGGTAACTGGGATCTCTGA	MQRRKQLGFTLIEIMVVVVILGILAALVVPQVMSRPDQAKVTVAKGDIKAVAAALDMYKLDNFAYPSTQQGLEALVKRPSGNPQPKNWNKDGYLKKLPVDPWGNPYQYLAPGTRGPFDLYSFGADGKEGGSDLDADIGNWDL	PGPT0026440_1913	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026440-gspG|epsG-K02456	NA	NA
BMS010_09693	1215	epsF_3	COG1459	Type II secretion system protein F	ATGGCCGCGTTCGAATACATCGCCATCGACCCCAAGGGGCGCCAGCACAAGGGCCTGCTGGAGGCGGACAGCCCGCGCCAGGCGCGCCAGTTGCTGCGCGAGAAGCAGTGGTCGCCGCTGGAGGTGAAGCAGGCCAAGGCTCGGGAGGAACGCGGTAGCAGTGGTTTCAGCTTCGGCCATGGCTTGTCCGCCCGCGACCTGGCGCTGGTGACTCGTCAACTGGCGACGCTGGTCAGCGCGGCGTTGCCCATCGAGGAAGCGCTGCGCGCCGCCGCGGCGCAGTCCACTTCGCAGAAGATCAAATCCATGCTGCTCGCCGTGCGCGCCCGGGTGCTGGAAGGCCATAGCCTGGCGGCGAGCCTGAAGGAGTACCCGTCGGCCTTCCCCGAGCTGTACCGCGCCACCGTCGCTGCGGGCGAGCACGCCGGCCATCTGGGCCTGGTGCTGGACCAACTGGCCGACTACACCGAGCAGCGCCAGCAGTCGCGGCAGAAGATTCAGCTCGCCTTGCTCTATCCGGTGATCCTGATGGTCGCCTCGCTGACCATCGTCGGCTTCCTGCTCGGCTACGTGGTGCCGGACGTGGTCAAGGTCTTCGTCAACACCGGGCAAGAGCTGCCGGCGCTGACCAGCGGCCTGATCGCCGTGAGCGATGTGGTCAAGTCCTGGGGTTGGCTGATGCTGCTCGGCGCAATCGGTGGCGTGATGGCGCTGCGCATGGCCTTGCGCGAAGAGCATCTGCGCCGCCGCTGGCACGGTTTCATCTTGCGCGTGCCGCTGGTCGGCCGGCTGAACCGGGCAACCAACACCGCGCGTTTCGCCTCGACTCTGGCGATCCTGTCGCGCAGCGGCGTGCCGCTGGTGGAGGCACTGTCCATCGCCGCGGCGGTGATCGCCAACCTGCGCATCCGCGACAAGGTGATCGAGGCGGCGCAAAAGGTGCGCGAGGGCAGCAGCCTGACCCGCGCCCTGGATGCAACCCAGGAATTTCCGCCGATGATGCTGCACATGATCGCCAGCGGCGAGAAATCCGGCGAACTGGACCAGATGCTGGCACGTACCGCGCGCAATCAGGAAAACGACCTGGCTGCGCAGGTCGCCCTGCTGGTCGGCCTGTTCGAGCCTTTCATGCTGGTCTTCATGGGGGCGGTGGTATTGGTCATCGTTCTGGCGATACTGCTACCGATCCTTTCTCTCAACCAACTGGTGGGGTAA	MAAFEYIAIDPKGRQHKGLLEADSPRQARQLLREKQWSPLEVKQAKAREERGSSGFSFGHGLSARDLALVTRQLATLVSAALPIEEALRAAAAQSTSQKIKSMLLAVRARVLEGHSLAASLKEYPSAFPELYRATVAAGEHAGHLGLVLDQLADYTEQRQQSRQKIQLALLYPVILMVASLTIVGFLLGYVVPDVVKVFVNTGQELPALTSGLIAVSDVVKSWGWLMLLGAIGGVMALRMALREEHLRRRWHGFILRVPLVGRLNRATNTARFASTLAILSRSGVPLVEALSIAAAVIANLRIRDKVIEAAQKVREGSSLTRALDATQEFPPMMLHMIASGEKSGELDQMLARTARNQENDLAAQVALLVGLFEPFMLVFMGAVVLVIVLAILLPILSLNQLVG	PGPT0026435_879	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026435-gspF|epsF-K02455	NA	NA
BMS010_09694	105			hypothetical protein	ATGAACATGCGGAACGATTCAGCGATCTCCTTCATTTATAAGCGGCAGCGGCATGCCTGCGACCGCCGTTTCTTCGCCACGGAAGCCGGGAGCGGCGTTCGCTGA	MNMRNDSAISFIYKRQRHACDRRFFATEAGSGVR				NA	NA	NA	NA	NA
BMS010_09695	1521	epsE_2	COG2804	Type II secretion system protein E	ATGTCATCTGCCGACCTCGCCGATCTGGATGCCGCTATGGCCGAGCCGGCGGCATTCCGCCGCCTGCCTTTCGCCTTTGCCCGACGCCATGGGGTCCTGCTGCGCCAGCGGGACGGCCGGCCGCAGTTGTGCGCCCGTGAGGGGGCGGCGCTGACGGCTTTGCAGGAGGCGCAGCGCTTCGCCGGCGAACGCCTGCCGATCGGCTGGCTGGAGGCGGCGGAGTTCGAGCAGGTGCTGGGTGCTACTTATCAGCACGATTCTTCCGCCGCGATGCAGATGGTCCAGGGGCTGGGCTCGGACATGGACCTGGCCAGCCTGGCGGACCAGGTGCCGGAAACCGAAGACCTGCTGGAGCAGGAGGACGACGCGCCGATCATCCGCCTGATCAACGCGATTCTCGGCGAGGCGATCAAGGAAAATGCGTCGGACATCCACGTGGAGACCTTCGAAAAGCGCCTGGTGATCCGCTTCCGCATCGACGGCGTGCTGCGCGAAGTGGTGCAGCCCAAGCGCGAGCTGGCGGCGCTGCTGGTGTCGCGTATCAAGGTCATGGCCAAGCTGGATATCGCCGAGAAGCGCGTCCCGCAGGACGGTCGGATTTCCTTGCGGGTCGGCGGCCGGGAGGTGGATATCCGTGTGTCCACCCTGCCGTCGGCCAACGGCGAGCGGGTGGTGCTGCGTCTGCTCGACAAGCAGGCCGGGCGCCTGACCCTGACCCACTTGGGCATGAGCACGCGGGATCGCCAACTGATGCAGGAAACCGTGCAGAAACCCCACGGCATCATCCTGGTCACCGGCCCGACCGGCTCGGGTAAAACCACCACGCTGTACGCCAGCCTGGTCACCCTGAACAACGGCTCGCGCAACATCCTCACCGTCGAAGACCCCATCGAATATCATCTCGAAGGCATCGGCCAGACCCAGGTCAACTCCAAGGTCGACATGACCTTCGCCCGCGGCCTGCGCGCCATCCTGCGCCAGGACCCGGACGTGGTGATGGTCGGCGAGATCCGCGACCAGGAAACCGCCGAGATCGCCGTGCAGGCCTCGCTGACCGGTCACCTGGTGCTTTCCACCCTGCATACCAACAGCGCCATCGGCGCGGTCACCCGTCTGGTGGATATGGGCGTGGAGCCTTTTCTGCTTTCATCCTCCCTGCTTGGCGTGCTCGCCCAGCGGCTGGTGCGGGTGCTGTGCCCGGCGTGCAAGCAGCCCTATCTGGCAGACGCGGCGGAATGCGCGATGCTCAACGTCGAGCCGGAAAGCCCGCCGCCGACGCTCTACCATGCCAAGGGCTGCGACGAGTGTCGTAACCTCGGCTATCGTGGCCGGACCGGTATCTATGAACTGGTAGTGTTCGACGAAACGATGCGTACCCTGATCCACAACCGGGCATCGGAGCAGGAAATGACCCGCCATGCGCGCCTGCTCGGGCCGAGCATCCGCGATGATGGCATGCGCAAGGTCCGCGAAGGGGTGACCACCCTGGAGGAAGTGCTGCGGGTAACCAGGGAAGAATGA	MSSADLADLDAAMAEPAAFRRLPFAFARRHGVLLRQRDGRPQLCAREGAALTALQEAQRFAGERLPIGWLEAAEFEQVLGATYQHDSSAAMQMVQGLGSDMDLASLADQVPETEDLLEQEDDAPIIRLINAILGEAIKENASDIHVETFEKRLVIRFRIDGVLREVVQPKRELAALLVSRIKVMAKLDIAEKRVPQDGRISLRVGGREVDIRVSTLPSANGERVVLRLLDKQAGRLTLTHLGMSTRDRQLMQETVQKPHGIILVTGPTGSGKTTTLYASLVTLNNGSRNILTVEDPIEYHLEGIGQTQVNSKVDMTFARGLRAILRQDPDVVMVGEIRDQETAEIAVQASLTGHLVLSTLHTNSAIGAVTRLVDMGVEPFLLSSSLLGVLAQRLVRVLCPACKQPYLADAAECAMLNVEPESPPPTLYHAKGCDECRNLGYRGRTGIYELVVFDETMRTLIHNRASEQEMTRHARLLGPSIRDDGMRKVREGVTTLEEVLRVTREE	PGPT0026430_1664	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-GENERAL_SECRETION_PATHWAY,PGPT0026430-gspE|epsE-K02454	NA	NA
BMS010_09696	1776			hypothetical protein	ATGACAACAAGAACAATGCGCGGAATCTTCCGGCCGCATACGCTGGCCGCCGCCGTTGCTCTGGGCTGCAGCGCCCAGGCCCACGCCGTTTCGTTCAACATCGGGGAAATCGAAGGGCAGTTCGACTCGCAACTGTCGGTGGGCGCCAGCTGGGCGGTGCGCGCACCGGACAAGGACTTCATCTCCACGGCCAGCGGCGGTACCGCCTCGTCGCGCACCTCCGACGATGGCCGCCTGAACTTCAAGAAAGGCGAGACCTTCTCGAAAATCTTCAAGGGCACCCACGACCTCGAACTGAAATATCGCGATGTCGGCGTCTTCCTGCGCGGCAAGTACTGGTACGACTTCGAGCTGAAGGACGAACACCGGATGTTCTATGACATCGACGACCACAACCGCAAGGAAGGGGCAAAATCCTCCGGTGCGCAGTTGCTCGATGCCTTCATTTATTACAACTACAGCCTGGGTGACCTGCCCGGCAGCGTCCGCGTCGGCAAGCAGGTGGTCAGTTGGGGCGAAAGCACCTTCATCGGCAACGGCATCAACTCGATCAACCCGATCGACGTCGCCGCGTTCCGCCGCCCCGGCGCGGAGATCAAGGAAGGCCTGATCCCGGTGAACATGCTCTACCTGTCGCAGAGCCTCACCGACAGCCTGAGCGTGGAGGCCTTCTATCAGTTGGAGTGGGACCAGACCGTGGTGGACAACTGCGGCACCTTCTTCTCCACCTCCGATGTGGTTGCCGACGGCTGCGAGGATCGCTTGGTGGTCGCCGGCGACGACCTGCCGCCGGGCCAGTCGAACAACACCGGCCCGTTGACCGGCAACAACATCTATATTCCCCGCGCCGGCGACCGCGACGCCCGTGACGGTGGCCAATTCGGCATCGCCCTACGCTGGTTCTCCGATGCACTGAACGATACGGAGTTCGGCCTCTACGCCATGAACTACCACAGCCGCTCGCCGGTATTCAGCACCATCCGCACTACCACGCCGAACTTCGCCACCTTCATCCCCGGCGCGCCGAACGCCGGTTACTTCATCGAGTACCCGGAAGACATTCGCCTCTACGGTCTGAGCTTCCAGACCAACATCGGCGGCACCTCGGTATCCGGCGAGATCAGCTACCGGCCGAACATGCCGCTGCAGATCAACTCCACCGACCTGTCCTTCGCCGCCCTCGGCCTGCCGGTTGCACCGGTGTTCATCGGTGGCGATTCGGACAACGTCAGCGGTGCCGACATCCACGGCTACGAGCGTCGGCCGGTGACCCAGGCACAGATCAGCGCGGTGCATTTCATCGATCAGGTACTGGGCGCCAGCCGCCTGAGCCTGGTGGGCGAAGTGGGCTACAACCACATCAGCGGGATCAGCGACGACGTCGGCGAAGTGCGTTTCGGCCGCGACCCCATCTACGGTGCAGGAGAGTTCCTCGCGCCAGGCCTCTGCGAAGCCTTCAACGCGGCCAACCCGCACGAGTGTAACGACGACGGCTTCTATACCCGCAGCTCCTGGGGTTACCGCCTGCGCGCCAGCCTGGACTACAGCAACGTGATCGCCGGCATCAACCTGTCGCCGAACCTGGCCTGGTCCCATGACGTGGACGGCTACGGGCCGAACTTCAACGAGGGCTCCAAGGCGATCAGCGTCGGCCTCAACGCCGATTACCAGAACACCTACACCGCCAGCCTCAGCTACACCGACTTCTTCGGCGGCCATTACAACCCGACCACCGACCGCGACTTCGTCGCGCTCAGCTTCGGCGTCAACTTCTAA	MTTRTMRGIFRPHTLAAAVALGCSAQAHAVSFNIGEIEGQFDSQLSVGASWAVRAPDKDFISTASGGTASSRTSDDGRLNFKKGETFSKIFKGTHDLELKYRDVGVFLRGKYWYDFELKDEHRMFYDIDDHNRKEGAKSSGAQLLDAFIYYNYSLGDLPGSVRVGKQVVSWGESTFIGNGINSINPIDVAAFRRPGAEIKEGLIPVNMLYLSQSLTDSLSVEAFYQLEWDQTVVDNCGTFFSTSDVVADGCEDRLVVAGDDLPPGQSNNTGPLTGNNIYIPRAGDRDARDGGQFGIALRWFSDALNDTEFGLYAMNYHSRSPVFSTIRTTTPNFATFIPGAPNAGYFIEYPEDIRLYGLSFQTNIGGTSVSGEISYRPNMPLQINSTDLSFAALGLPVAPVFIGGDSDNVSGADIHGYERRPVTQAQISAVHFIDQVLGASRLSLVGEVGYNHISGISDDVGEVRFGRDPIYGAGEFLAPGLCEAFNAANPHECNDDGFYTRSSWGYRLRASLDYSNVIAGINLSPNLAWSHDVDGYGPNFNEGSKAISVGLNADYQNTYTASLSYTDFFGGHYNPTTDRDFVALSFGVNF				NA	NA	NA	NA	NA
BMS010_09697	1371			putative protein	ATGAGCAGCAAACGAATCCTGCAGTACGGCGCCCTGGCGCTGTCCCTTCTGGCCGGCGCGGTGATGGCCGCGGTTTCGCCGGACGAAGCCAACCAGTTGGGCACCACCCACACCCCGCTGGGCGCCGAGAAGGCCGGCAACGCCGACGGCAGCATCCCCGAGTGGACCGGTGGCCTGCCCACCAACGCCGCCGCCGTCGATGCCAACGGCTTCCTCGCCGATCCCTTCGCCGACGAGCAGCCACTGTTCACCATCACCGCCGCCAATGCCGAGCAGTACAAGGACAAGCTCTCCCCCGGCCAGTTGGCGATGTTCAAGCGCTACGCCGATACCTACAAGATTCCCGTCTACAAGACCCACCGCAGCGTCGCGGCGCCCCAGGCGATCTACGATGCGGCGAAGAAGAGCGCGGTGAGCACCCAGCCGGTGGACGGCGGCAACGGCCTGTCGAACTTCTCCGACAGTCGTTACTACGCCTTCCCGATTCCGAAGAGCGGCGTCGAAGTGGTGTGGAACCACATCACCCGATACCGCGGCGGTAACGCCCGACGCCTGATCACCCAGGCCACGCCGCAGACTGGTGGTTCCTACACCCTGGTGCACTTCCAGGACGAAGTCGCCTTCCCCACCGAGATGAAAGACCTCGACCCGCAGAAGGCCGCCAACGTCCTGCTGTTCTTCAAGCAGCGGGTGACCGCCCCGGCACGCCTGGCCGGCAACGTCCTGCTGGTCCACGAGACCATCGACCAGGTCAAGGAGCCGCGCCTGGCATGGATCTACAACGCCGGCCAGCGCCGTGTGCGGCGGGCCCCGCAGGTGGCCTACGACGGCCCCGGCACCGCTGCCGACGGCATGCGTACTTCGGACAACTTCGACATGTTCTCCGGCGCCCCGGACCGTTACGACTGGAAGCTGGTGGGCAAGCGGGAAATGTACATCCCCTACAATAGCTTCAAGCTGGATTCGCCCAGCCTGAAATACGACGACGTGATCAAGGCCGGTCACATCAACCAGGACCTGACCCGGTACGAGCTGCACCGCGTCTGGGAGGTCGAGGCGACGGTCAAGTCCGGCGAGCGGCACATCTATGCCAAGCGTCACCTGTTCTTCGACGAGGACAGCTGGCAGATCGCCCTGGCCGATCACTATGACGGCCGCGGCCAGCTCTGGCGGGTCGGCGAGGGACATGCCAGCTACCACTTCCAGCGCCAGGTGGCCACCTACACCCTCGAAGCGCTGTACGACATCATCGCCGGCCGCTACATCGCCCTGGGCATGAAGAACGAGGAGAAACACGGCATCGAGTTCGGCTTCCAGGCTTCGGCCGCCGACTACACCCCCGCCGCCCTGCGCAACGCCGGGGTCCGCTGA	MSSKRILQYGALALSLLAGAVMAAVSPDEANQLGTTHTPLGAEKAGNADGSIPEWTGGLPTNAAAVDANGFLADPFADEQPLFTITAANAEQYKDKLSPGQLAMFKRYADTYKIPVYKTHRSVAAPQAIYDAAKKSAVSTQPVDGGNGLSNFSDSRYYAFPIPKSGVEVVWNHITRYRGGNARRLITQATPQTGGSYTLVHFQDEVAFPTEMKDLDPQKAANVLLFFKQRVTAPARLAGNVLLVHETIDQVKEPRLAWIYNAGQRRVRRAPQVAYDGPGTAADGMRTSDNFDMFSGAPDRYDWKLVGKREMYIPYNSFKLDSPSLKYDDVIKAGHINQDLTRYELHRVWEVEATVKSGERHIYAKRHLFFDEDSWQIALADHYDGRGQLWRVGEGHASYHFQRQVATYTLEALYDIIAGRYIALGMKNEEKHGIEFGFQASAADYTPAALRNAGVR				NA	NA	NA	NA	NA
BMS010_09698	2562	malT_7		HTH-type transcriptional regulator MalT	ATGCCCCAGGCTCGCTCCGCAAACGGCATCGCTCCGCTCGTGCTCAGTGTTCCGCGGCTACCGCCTGCCCATCAGCCCCGCCCGCGCCTGATCGGGCGACTGCGGGAGGAGGATTGCCGGCTGCGCCTGCTGTGCGCGCCGGCGGGCTTCGGCAAGAGCGTACTGATCGGCGAATTCCTTCGGGAACGTCCGGCCCATGAACAGATCATCTGGCTCGGCCTCGCCGGCCAGCCCCTCAGCACCGAACAACTGCTGCTGCGCGTCGCCACGGCGCTGACCGAGCAGATTCCCGCCCTGCCTCCCGGACAGGCCCTGCTCCAGCTGTTCAGCCAACGCGACCAACCGATCTGGCTGGTGCTCGACGACTACCCCGCCCATCCGAGCCCCGAACTCGACGCCTGCATCGATCTGCTCCTGAGTCAGCCCCTGGATGGGTTGCACCTGTTGGTCAGCACCCGCCAGCGCCCAGACTGGAACCTGCCGCGCCTGCTGCTCGCCGGCGAACTGCTGGAGCTGGACAGCGCCGACCTGGCATTCGACCGCGACGAGCTGGAGCGGCTGATCCAGCGCCTGGCCCCACACACCTCCCCCGAACAACACGACCAGCTCTGGACGGAAACCGTCGGCTGGTGCGCCGGTGTGCGCCTGTTGCTTTCCCAGCATGGCCCCCAGGCCATCGCGGGCACGCACGGCAGCGGTCACTGGCTGCGCGACTACCTGGAACATGAGCTGCTGCAACGCCTCGGCCCGGACGAACGGGAATGCCTCTATGCCCTGGCGCACCTGCCGAAAGTCTCCGTCGAACTCTGCCAGCAACTCTGGGAAGAGGGCGAAGGCGCCCGACTGTTCGAACAACTGCTGCGGCGCCATGCGTTCTTCCAGGCGCTGGACGAGCAGGGCCACTGGTACCGCTTGCTACCGGCTGTGGCCCAGGCCCTGCGCGACCGCCTCACCCCGACCGCCGCGACCCAACTGCATTTGCGGGCGTGCCGGCTGTTCGTCTCCGCCGGGTTGGTCGAGGAAGCGGTCGAACAGGCCCTCTGCGCCGGCCAGCCAGAAGTGGCAGCGGCCTATCTGGAACGCCTCAGCCAGGAATGGCTGGCCGGCGAGCAACACCTCGCCCATCTGCTCGCCTGGCGCGAGCGGTTGCCGACCGAGCTGCTGGAAAGCACGCCACGCCTGCTCAGTCTGAATGCCTGGGCGCTGCTGTTGAGCTGGCGTCTGGAAGAGGCCGACCCATGCATCGCCAAACTGGCGCGCTTCCTGCCGCAGCCGGACGCTCGCCGCAACCGCAAGCTGCTGGCCAACTGGCAAGCATTGCGAGGCTGTCTGCTGGCGCTGCGCGGCGATCCCGGCGATGCTGCCCGCCAGCATTGCCAGGCGGCACTCACGGCATTGCCGGATGAAGAGTGGATGCCCAAGCTGCTCTGCTACTCGGCACTCGCCCACATCAGCATGGCTGGGGACGAGCCGGACAATGCCGTCGACATCCTGCGCGTCGCGCTGGAGCTGGCGCGACGCCAGGGCAGCCTGTTGTTCGAGACCCTGCTCAACCTGGATCGCCTTCGCCTGCTGCTGCTGCGGGGCGAACTGTCGCGCGCGCATCACCTGCTGCAACAGAGCTTCGCCCTGCTCGGTCGCCGCCAGACCGAAGACTCCATGCTGCTCGGTCGCCTGCATCTGCTGGAGGCCGAACTGCATCTGCTGCAAGGGCGGCTCGATGAGGCAGAGCCTCCTCTGCGAGCCGGCCTGCGCCAGGCCATCGACTGCGCCGATCCTTTCGCCCTGCACGGCTACCTCACGCTGGCCGAACTCTGCTCGCGACGCGGTGATTTCGACGAGGCCTTTCTCCATCTGCGCGAAGCCGAACGGCAGATGCATTGCGGCCAGGTCTGGCGCTACTGCTACCGCGGCGCACAACTGGTACAGAGCATGCGCGTGCTGGCCCGCCAGGGGCGCTGGGAACGCATCGGCCCGATCGCCGAGCGCATCCAGCGCTACTTCGACGAACCGAACCCCTGGCTGGCGCCGCCGGACTATCCCGCGCTGTCATTGAACAGCCAACTGCTGCATGCGCGCAGCCTGCATGCGGAAGGTCGCTTGGAAGAGGCCGAACAGCGGCTCCTGGCCGTGCTGGAAAAAAGCCGGCAGCGGCACTTCAACCTGCTGGCCTGCAACGCGCAACTCGCCCTGGCCGACGTCTCGCGCAGCCTGCATCGTGAAACGGCAGCGACACTCGAGCAGCAGGCGCGTGAAGAAGCACTCGAACATGGCTGGTATGGATTGCTTTCGGGGACGGTCGCCGTTACGGCGGGTCCGATCGCACGGCACACCGCACCCGACCTGTCGACCGTCCCTCCCGCCAGCACCCTGCTCAGCCAACGTGAACAGGCCGTGCTGCAACTCCTGGCCGAAGGCTTTTCCAACCAGGAAATCGGCAACTACCTGTTCATTTCCGTGAACACCGTGAAAACCCACACCAAGAAGATCAACAGCAAGCTCGGCGTGAAGCGCCGAACCCAGGCGATCATGCGGGCCAAGACCCTGGGCTTGCTCAGTTGA	MPQARSANGIAPLVLSVPRLPPAHQPRPRLIGRLREEDCRLRLLCAPAGFGKSVLIGEFLRERPAHEQIIWLGLAGQPLSTEQLLLRVATALTEQIPALPPGQALLQLFSQRDQPIWLVLDDYPAHPSPELDACIDLLLSQPLDGLHLLVSTRQRPDWNLPRLLLAGELLELDSADLAFDRDELERLIQRLAPHTSPEQHDQLWTETVGWCAGVRLLLSQHGPQAIAGTHGSGHWLRDYLEHELLQRLGPDERECLYALAHLPKVSVELCQQLWEEGEGARLFEQLLRRHAFFQALDEQGHWYRLLPAVAQALRDRLTPTAATQLHLRACRLFVSAGLVEEAVEQALCAGQPEVAAAYLERLSQEWLAGEQHLAHLLAWRERLPTELLESTPRLLSLNAWALLLSWRLEEADPCIAKLARFLPQPDARRNRKLLANWQALRGCLLALRGDPGDAARQHCQAALTALPDEEWMPKLLCYSALAHISMAGDEPDNAVDILRVALELARRQGSLLFETLLNLDRLRLLLLRGELSRAHHLLQQSFALLGRRQTEDSMLLGRLHLLEAELHLLQGRLDEAEPPLRAGLRQAIDCADPFALHGYLTLAELCSRRGDFDEAFLHLREAERQMHCGQVWRYCYRGAQLVQSMRVLARQGRWERIGPIAERIQRYFDEPNPWLAPPDYPALSLNSQLLHARSLHAEGRLEEAEQRLLAVLEKSRQRHFNLLACNAQLALADVSRSLHRETAATLEQQAREEALEHGWYGLLSGTVAVTAGPIARHTAPDLSTVPPASTLLSQREQAVLQLLAEGFSNQEIGNYLFISVNTVKTHTKKINSKLGVKRRTQAIMRAKTLGLLS	PGPT0018616_1622	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0018616-malT-K03556	NA	NA
BMS010_09699	111			hypothetical protein	ATGGCGACCTGGGGACTGCTGATCGGCAGAGGATCCCGCGCGTCAACTGCTCAGGTCGGCGAGGGGCGGGGCATTTTGCAGTCGAACCGCAAGGCCTTCAAGGAGTTCTGA	MATWGLLIGRGSRASTAQVGEGRGILQSNRKAFKEF				NA	NA	NA	NA	NA
BMS010_09700	1122	pntAA	COG3288	NAD(P) transhydrogenase subunit alpha part 1	GTGCACATCGGTGTTCCTCTCGAAACACACGCCGGCGAGACGCGGGTGGCCGCGACCCCGGAAACGGTGAAGAAACTGATTGGCCAAGGCCATCGGATCACCGTGCAAAGCGGCGCCGGCCTTGCTGCCAGCCAACCGGATGCGGCCTATCAGGCCGTTGGCGCGGAAATCGGCAGCGACGCCGACGCCCTCGGCGCCGATCTGGTGCTGAAGGTGGTCGCCCCGTCCGAGGCCGAACTGGCGCAGATGAAGCCCGGCGCGGTGCTGCTCGGCATGCTCAACCCCTTCGACAACGACAACATTGCCCGGATGGCCCAGCGCGGCATCACCGCCTTCGCCCTCGAAGCCGCGCCGCGCACTTCCCGCGCGCAGAGCCTGGACGTGCTGTCGTCCCAGGCCAACATCGCCGGCTACAAGGCCGTGATGCTGGCGGCCAACCACTATCCGCGCTTCATGCCGATGTTGATGACCGCCGCCGGCACCGTGAAGGCCGCCCGCGTGCTGATCCTCGGCGCCGGCGTGGCCGGCCTGCAGGCCATCGCCACGGCCAAGCGCCTGGGTGCTGTGATCGAGGCCTCGGATGTGCGCCCGGCGGTGAAGGAACAGATCGAATCCCTCGGCGCCAAGTTCGTCGACGTGCCGTTCGAGACCGATGAAGAGCGCGAATGCGCCCAGGGCGTCGGCGGTTACGCCCGTCCCATGCCCGCCTCCTGGATGGAACGTCAGGCCAAGGCCGTGCACGAACGCGCCAAGCAGTCCGACATCGTCATCACCACCGCGCTGATCCCCGGCCGCAAGGCACCGACCCTGCTGCACGAAGCCACCGTGCAGGAGATGAAGCCGGGCTCGGTGGTCATCGACCTGGCCGCCGCCCAGGGCGGCAACTGCCCGCTGACCGAAGCCGACAAGGTAGTGGTCAAGCACGGCGTGACCCTCGTCGGCCACACCAACCTGGCCGCGCTGGTACCGGCGGACGCCTCCGCCCTCTACGCACGCAACCTGCTGGACTTCCTCAAGCTGGTCATCGACAAGGAAGGCCAGTTCCACCTCAACCTGGAAGACGACATCGTCGCCGCGTGCCTGATGTGCCGCGACGGCCAAGTCGTCCGCAAGAACGGCTAA	MHIGVPLETHAGETRVAATPETVKKLIGQGHRITVQSGAGLAASQPDAAYQAVGAEIGSDADALGADLVLKVVAPSEAELAQMKPGAVLLGMLNPFDNDNIARMAQRGITAFALEAAPRTSRAQSLDVLSSQANIAGYKAVMLAANHYPRFMPMLMTAAGTVKAARVLILGAGVAGLQAIATAKRLGAVIEASDVRPAVKEQIESLGAKFVDVPFETDEERECAQGVGGYARPMPASWMERQAKAVHERAKQSDIVITTALIPGRKAPTLLHEATVQEMKPGSVVIDLAAAQGGNCPLTEADKVVVKHGVTLVGHTNLAALVPADASALYARNLLDFLKLVIDKEGQFHLNLEDDIVAACLMCRDGQVVRKNG	PGPT0013500_2208	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013500-pntA-K00324	NA	NA
BMS010_09701	315	pntA_2	COG3288	NAD(P) transhydrogenase subunit alpha	ATGGACCTGATTTCCGACGGTATCTACAACCTGATCATCTTCGTGCTGGCCATCTACGTCGGCTACCACGTGGTATGGAACGTCACTCCTGCCCTGCACACCCCGCTGATGGCCGTGACCAACGCCATCTCCGCCATCGTGATCGTCGGTGCCATGCTGGCCGCCGCCCTCACCGTGACCCCGCTGGGCAAAGCCATGGGCACCCTGGCCGTGGCCCTGGCCGCGGTCAACGTCTTCGGTGGCTTCCTGGTCACCCGACGCATGCTGGAAATGTTCAAGAAGAAAGCGCCGAAGGCGCCGGCGGAGAAGCACTGA	MDLISDGIYNLIIFVLAIYVGYHVVWNVTPALHTPLMAVTNAISAIVIVGAMLAAALTVTPLGKAMGTLAVALAAVNVFGGFLVTRRMLEMFKKKAPKAPAEKH	PGPT0013500_3354	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013500-pntA-K00324	NA	NA
BMS010_09702	1440	pntB_2	COG1282	NAD(P) transhydrogenase subunit beta	ATGAGCATGAACCTGATCACTGTTCTCTACCTCATCGCCTCGGTGTGTTTCATCCAGGCGCTGAAAGGCCTGTCGCACCCGACCAGCTCGCGGCGCGGCAACGTCTTCGGCATGATCGGCATGGCCATCGCCGTGCTCACCACCATCGGCCTGATCTTCAAGCTGGGCGCCGAGATTGCCACCACCGGCATCGGCTTCGTCATCGTCGGCCTGCTGATCGGCGGCACCGCCGGCTCGATCATGGCCAAGCGCGTCGAAATGACCAAGATGCCGGAGCTGGTCGCCTTCATGCACAGCATGATCGGCCTGGCCGCGGTGTTCATCGCCATCGCCGCAGTGGTCGAGCCGCAGTCGCTGGGCATCGTGTCCGACATGACCGCACCGATTCCGGCCGGCAACCGCCTGGAACTGTTCCTCGGCGCGGCCATCGGTGCCATCACCTTCTCCGGCTCGGTGATCGCCTTCGGCAAGCTGTCCGGCAAGTACAAGTTCCGCCTGTTTCAGGGCGCCCCGGTGGTCTTCAAGGGCCAGCACCTGGTCAACCTGGCGGTCGGCCTGGCCATCGTCGGTCTCGGCCTGGCCTACACCTTCACCGGTAACGTCAGCGCCTTCGCCCTGCTGGTGGCACTGGCCTTCGTCATCGGCGTGCTGATCATCATCCCGATCGGCGGTGCCGACATGCCGGTGGTGGTATCGATGCTGAACAGCTACTCGGGCTGGGCGGCGGCCGGCATCGGCTTCTCGCTGAACAACTCGATGCTGATCATCGCCGGCTCGCTGGTCGGCTCCTCGGGCGCGATTCTCTCCTACATCATGTGCAAGGCGATGAACCGCTCGTTCTTCAACGTCATCCTCGGCGGCTTCGGCGCCGACGCGGATGCCGGCGCAGCGGCGGGCGGCAGCAAGGAGCAGCGCCCGGTGAAGTCCGGCTCCGCCGACGACGCGGCCTTCCTGCTGACCAACGCCGACACCGTGATCATCGTTCCCGGCTACGGCCTGGCAGTGGCCCGCGCGCAGCATGCCCTGATGGAACTCTCGGAAAAGCTCACCCATCGCGGCGTGACCGTGAAATACGCCATCCACCCGGTCGCCGGACGGATGCCGGGCCACATGAACGTCCTTCTCGCCGAGGCCGAAGTGCCCTACGAGCAGGTGTTCGAGATGGAAGACATCAACTCCGAATTCGGCCAAGCCGACGTGGTACTGGTGCTCGGCGCCAACGACGTGGTCAACCCGGCGGCGAAGAACGATCCCAAGTCACCCATCGCCGGCATGCCGATCCTCGAGGCATACAAGGCCAAGACCGTGATCGTCAACAAGCGCTCCATGGCCAGCGGCTACGCCGGCCTGGACAACGAACTGTTCTACCTGGACAAGACCATGATGGTCTTCGGCGACGCCAAGAAAGTCATCGAGGATATGGTCAAGGCCGTGGAATAA	MSMNLITVLYLIASVCFIQALKGLSHPTSSRRGNVFGMIGMAIAVLTTIGLIFKLGAEIATTGIGFVIVGLLIGGTAGSIMAKRVEMTKMPELVAFMHSMIGLAAVFIAIAAVVEPQSLGIVSDMTAPIPAGNRLELFLGAAIGAITFSGSVIAFGKLSGKYKFRLFQGAPVVFKGQHLVNLAVGLAIVGLGLAYTFTGNVSAFALLVALAFVIGVLIIIPIGGADMPVVVSMLNSYSGWAAAGIGFSLNNSMLIIAGSLVGSSGAILSYIMCKAMNRSFFNVILGGFGADADAGAAAGGSKEQRPVKSGSADDAAFLLTNADTVIIVPGYGLAVARAQHALMELSEKLTHRGVTVKYAIHPVAGRMPGHMNVLLAEAEVPYEQVFEMEDINSEFGQADVVLVLGANDVVNPAAKNDPKSPIAGMPILEAYKAKTVIVNKRSMASGYAGLDNELFYLDKTMMVFGDAKKVIEDMVKAVE	PGPT0013505_712	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013505-pntB-K00325	NA	NA
BMS010_09703	471			hypothetical protein	ATGATCGACATAGTCGCTGCCCTGGTAGGTCCGCGTTTCGACCTTGCGGCCATCCTCGTCCAGGCCGTAGCGCTTCAGCACCTTATTGCGGAACAGTCGCTCGTAATAGGCCACGTCCAGCCCGGCCTTTTCCAGGGCCATGTTCTGCAGGAATCCCTCCATGTCCTGCATGGCTCCTTCGCCCTTCTGGACGTTCCACTGTGCGGCATGGGTGAAGTAGCCCTGGACTCGGATCGCATCATCGGTATCGCGGTAGGCGAGGATCAGGTCATCGCCCAGGCGGCTACGGGTCAGCCGGCCGGTTTCCAGGGCGGGATCGAGCTGCAAGGTGTTGGTGGAACCCGCCTCGGCGATCAACAGATCGCTTTGCGAACCCTCGCGCAAGACGAACAGGTTGTTCCCCGCGCCGCCATCCAGCGTATCGTTGCCGAAGCCGCCGACCAGCGTGTCGTCACCGGCGCCAACCTGTAG	MIDIVAALVGPRFDLAAILVQAVALQHLIAEQSLVIGHVQPGLFQGHVLQESLHVLHGSFALLDVPLCGMGEVALDSDRIIGIAVGEDQVIAQAATGQPAGFQGGIELQGVGGTRLGDQQIALRTLAQDEQVVPRAAIQRIVAEAADQRVVTGANL				NA	NA	NA	NA	NA
BMS010_09704	582			hypothetical protein	ATGGTCGTCGCCGGCACCACCGTACAAGGCATCATTGCCCGCCCCGCCCAGCAGTGTATCGTCGCCGGCACCGCCGCGGATTTCGTCGTCGCCGCCCTGGCCATCGAGAACATCGTTGCCGCTTCCACCCGTCAGGGTATCGGCACTGTCGCTGCCTATGAGATGGGCCCCCTGGTCATCGCCTCGCAGGTCGAGGCCGGGCAGGCTGCGCAGCGCCTCGGCCAGGGACAATGTCGAGCCATCGGCGAACTCGAAGCGCGACACTGCGCCAGTGAGCCCGCCGAGAATCGCCACCGAGCCGCCGCTGTACGTCACCTCCAGCACCCGGGTGCCGGATACGGTGTAACGCTCGGCGAAGCCGAGTTTGTCGCGGTCGATCCCCTCGCCAAAACGGACCACGTTGTCACCCTGGTCGTCCGCCAGCATGTCGTCGCCATCGCCGAGTTCGAACACGTAGGTATCGTTGCCGGCCCCACCGGCCAGGATGTCCGCACCGCCCTGGCCGGTGAGCAGGTCATCGCCCGCACCGCCACTCAGCGTGTCGTCGTTATCGGAGCCAAAGAGCATATCCGCTTCGGCTGA	MVVAGTTVQGIIARPAQQCIVAGTAADFVVAALAIENIVAASTRQGIGTVAAYEMGPLVIASQVEAGQAAQRLGQGQCRAIGELEARHCASEPAENRHRAAAVRHLQHPGAGYGVTLGEAEFVAVDPLAKTDHVVTLVVRQHVVAIAEFEHVGIVAGPTGQDVRTALAGEQVIARTATQRVVVIGAKEHIRFG				NA	NA	NA	NA	NA
BMS010_09705	705			hypothetical protein	GTGCAGACGCAAGGTGTCGCCATCGGCAGACAGATACAGCCAATCGCCACCGGACTGGCTGACGACATCGACGGTCAACGAATCCGGGCTGAATCCCACACCGAATTCGACGATATTGCGTCCGCCCTTGTCGCGAATGGAGTCGAAACCATAACCCCGGTTGAAGACATAGCGGTCGTTACCGGTGGCAGCCTCCAGCACATCATTTCCGGCACCACCATCCAGCAGGTTGTCGCCGGTGCCGCCGCTGAGGTAGTCCTCATCATTGCCCCCGTACAGGGTGTCGTTGCCGTCGTAGCCGAGCAGCGTGTCGCGTCCGGCTCCACCGTCGAGCAGATCGGCACCTTGGTACGCCTCTGGCGTATCGGCGTAGTCGCCCTCCAGAACATCGTTGCCGAGGCCACCCACCAGGGTATCGTTTCGTCCACCGCCACGGAGTATGTCGTTTCCGGTCCCTCCTACCAGCAAATCGTTGCCGTGGTACTCCGCCGGCGTGGTGAGGTCGTCGCCATACAACGTGTCGTTCCCTTCATCCCCGAACAACCGGTCATCCCCACCGTTGCCCTGGATCAGGTCATGACCCTCCCCACCCACCAGAAAGTCATTGCCATGCAGATGGCCGGGGATACGGGCACTCGGCAACACCGGTGCCAATCCGTCGAAACCGTCGCCGACCAGCGTGTCGTTACCCGTCCCTCCGAGTAG	MQTQGVAIGRQIQPIATGLADDIDGQRIRAESHTEFDDIASALVANGVETITPVEDIAVVTGGSLQHIISGTTIQQVVAGAAAEVVLIIAPVQGVVAVVAEQRVASGSTVEQIGTLVRLWRIGVVALQNIVAEATHQGIVSSTATEYVVSGPSYQQIVAVVLRRRGEVVAIQRVVPFIPEQPVIPTVALDQVMTLPTHQKVIAMQMAGDTGTRQHRCQSVETVADQRVVTRPSE				NA	NA	NA	NA	NA
BMS010_09706	252			hypothetical protein	ATGAATACGGTCATTGCCGGCACCGCCAAACAGGCGGTCGCTCCCCGCGCCCCCGACCAGCGTATCGTTGCCGCCCAAATGATCCGTACCCCACACATTTTCAAGTATCGAATCACCGCCACCAAGCCCCAGGATCAGGTCGTCGCCCTGCGTTCCATCCAGTTGATCGGGGTTATCGCTTCCCATGTGAGCCTTATCTTGCGGCGCAGCGGCCGGCTGGAAGGTTTCCAGGGCCAGCCCCAGGGCGTCTGA	MNTVIAGTAKQAVAPRAPDQRIVAAQMIRTPHIFKYRITATKPQDQVVALRSIQLIGVIASHVSLILRRSGRLEGFQGQPQGV				NA	NA	NA	NA	NA
BMS010_09707	516			hypothetical protein	TTGTTTGCCAATGGAATAACGAATGTCGTCGATCCAGAGTTCACCAACCCCGTCGACATCGGACAGGGTGTCGTTGCCATCCCCCGTCGCGAACTCATAACGGTCGTTGTCACGGCCACCCACGAGGGTGTCGTTGCCTCTTCCACCCTTGAGCACGTCATCGCCGGCACCGCCTTCGAGGTAATCCTGGCCGGCTTCGCCGTTAAGGATGTCGTCGCCGGCCATGCCGTAGAGGCGGTCGTTGCCTTTGTTACCGTCGAGGGTTTCTACGCCATTGCTGCCAAAGTACACGCGGTGAACAAGTGGCTGAAACGCAACAAAAGGATCGGGAAGGACCAACACCTCTTGCCCAGAAGCCAAGTCCTGGTAATCGAAACCATCCTTGGCGGTAAAATCGGTAACTTGCTGATTCTCGCTGATAGTCCACTTTGTAATCAGAGCGGCCAACATATTGGAGCGGTCGGTTATCCACTCTTGCGTAAGCGAGCCTTCACCGGTCTCGGGGTTGTAGATTGA	MFANGITNVVDPEFTNPVDIGQGVVAIPRRELITVVVTATHEGVVASSTLEHVIAGTAFEVILAGFAVKDVVAGHAVEAVVAFVTVEGFYAIAAKVHAVNKWLKRNKRIGKDQHLLPRSQVLVIETILGGKIGNLLILADSPLCNQSGQHIGAVGYPLLRKRAFTGLGVVD				NA	NA	NA	NA	NA
BMS010_09708	243			hypothetical protein	ATGACTTTCAATTTCAACCGTGGTCATGCCGCCGGGCTGTTTAAGACCGATGGAGGTATCTTGAGCTACAACCGTTATACCGCTGCCAATGTAGTTGGTAATTTTATCGGATGGAAATTCGGACGCGCCCTCCAACATGGAAAACAGGTTGGTTACGTTAAAATTGTTGGCAATGAGCGGGTCGCCCGAAGAAAAACCGGCGCCATTGATCATGGTGACGTCGGTAGTGGCATTGCTGAATAA	MTFNFNRGHAAGLFKTDGGILSYNRYTAANVVGNFIGWKFGRALQHGKQVGYVKIVGNERVARRKTGAIDHGDVGSGIAE				NA	NA	NA	NA	NA
BMS010_09709	630			hypothetical protein	GTGATCGCCCTACTTTATATTGCGTTTTTCGTGGTGTACGGGCTTGTCTCTGTTTTCGTAATTCATAAGTCCTACAACTTTACGAAAACTCGCTACAGCAAAGGCTGGGTTGGCGGTTGGCTTGCTGCCTTGATTATGTACAACTTGGTGTTCTGGGATTGGATACCGGTTTACGTGATGCACAAATATTACTGCTCAACCCAAGCGGGTTTCTGGGTGTACAAAAGTCCCGAGCAGTGGATTAAAGAAAACCCAGATATGGTAGGGCAGAAGTGGGGGAATGATTACATAAAGCCAATAGAGCGTCTTTCTAATAATAATTGGCGAATATGGTATTCAAAATCGGTTTATGGAGAAACTATAAGTCAGCCAGAATACAGTGGTGGACTACTTAGGCGCAACGAAGAGCGGCTGGTAGATGCGCGCAGTGGCGATATACTTTCTCGCGTCGTGCAGTTCGAGAAAATTAACGAAAGCGCGCTGTCTGTTGGTAATGCTACTGTCAGAGATTTTAAGATTTGGCTGGTCATTGGCGGAAATATTTGTGTGAGTCCATCCGGTCAGAGTTATAACGTGCTTGACGCACAAAATGGTAAGAAATTAATTAGGTTGGGACAGGGAGAAAAATAA	MIALLYIAFFVVYGLVSVFVIHKSYNFTKTRYSKGWVGGWLAALIMYNLVFWDWIPVYVMHKYYCSTQAGFWVYKSPEQWIKENPDMVGQKWGNDYIKPIERLSNNNWRIWYSKSVYGETISQPEYSGGLLRRNEERLVDARSGDILSRVVQFEKINESALSVGNATVRDFKIWLVIGGNICVSPSGQSYNVLDAQNGKKLIRLGQGEK				NA	NA	NA	NA	NA
BMS010_09710	1398			hypothetical protein	ATGACCACTTTGAGCATTTCTGATTACCTGAAGTACGCCAATCTGCAGATGGCTGCCGAGGCACTGTATGGTTTCGACGCCACTATTAATCCAAATCTGGAGCCTGGCAAAGACACGTCAGGTGCGTTGGCGGAACCCAACCTCATCACCGGCAATCGCCACGCCAGCAAATTCACTAAAACCCAAGTCGAACTCTCAAGCTTAGCCAGCGATTGGATAGTGGTTGAGCACAAGTCCAATACCAGTACCGGCTTCTCCGGCACGCTATTCAAGAACAAAGATACCGGCGAACTGGTGATGAGCTTCCGCTCCACCGAATTTCTCGACGATGCCGCCCGCGACAACCAGGCGACCAATGCCATGGAGATCAAGGAGTTTGGTTGGGCCTTCGGCCAGATCGACGATATGCAGGACTGGTACGCCTCGTTGAGCGAACGGGGCCTGATTGATGGCCCATTGTCCGTTACCGGTTACAGCCTGGGCGGTCATCTGACCACGGCCTTCAACTTGTTGCACCCCGGCGTGGCGCAGCAGGTGGTGACCTTCAACGGTGCCGGGGTCGGGAAGATCAAGGACGGACAGGGCGACCTGGCCAGCGTCATGGCTTACTTCGATGGTCTGCGCAACGATCCGGCACGGATTGAAGCAACCATTACCAAGCCGGAATTGTTGAAACTCTATCTTGCACTGCGTACCGAACTCTCCGCCCTGATTGAAGCCGGGGCCGCCTACAGCAGCAAGCAAGCCCAAAGTGCGTTCGACAGTTTCAAGCAGCGCGCCAACGACCGTCTCATGGCGATTTGGCCAGCCGATCCGTTCGTTCGAGAGATTGAAACTTTGGAGCGGCCCAGAGCACTTATCCAGACAGCGCTTGAACGGGTCGGCTTGATCTTCGTCGAGGCTCATCGCGCGCCCGAGTTATCGTCGGGCGGCGATACGCCAAGCAAACCGGCGAACATTCCCGACAGTGCCATTGCCCAGCAAGGCCTCGACTACCAGATGGCCGTTCTGCTCACTGCCGAGCGTACCGAGGCCGTGCAGTTGCTCGGCAATACGGTGCAAACCTTTTTCGGCCGGCAGTTCGCGGACAAGGCAGACCTGCCTGGCAACCAGTTCGACGTGATGGGTGTCGGCGAGCCCTCGGCGGTTGCCAACTCGCAGATTCACTACGGGGCCGACATCAAGGTCTTTATCGAGGATCAGCCACTGATGCGTGGCGACATTCTTCAGGAGGCGATAGCGGCGTCGTTTGGTTACACGGACGTCAAGCTGCTGGTGCCCAACTATGCGGATAACGATTTCGGCGACACCCACAGCCTGGTGCTGATCCTCGATTCGTTGAACGTACAGAACACCCTGCTGCAACTGGAAATCAATAGCTTGGGAGCGGTAGCGTGA	MTTLSISDYLKYANLQMAAEALYGFDATINPNLEPGKDTSGALAEPNLITGNRHASKFTKTQVELSSLASDWIVVEHKSNTSTGFSGTLFKNKDTGELVMSFRSTEFLDDAARDNQATNAMEIKEFGWAFGQIDDMQDWYASLSERGLIDGPLSVTGYSLGGHLTTAFNLLHPGVAQQVVTFNGAGVGKIKDGQGDLASVMAYFDGLRNDPARIEATITKPELLKLYLALRTELSALIEAGAAYSSKQAQSAFDSFKQRANDRLMAIWPADPFVREIETLERPRALIQTALERVGLIFVEAHRAPELSSGGDTPSKPANIPDSAIAQQGLDYQMAVLLTAERTEAVQLLGNTVQTFFGRQFADKADLPGNQFDVMGVGEPSAVANSQIHYGADIKVFIEDQPLMRGDILQEAIAASFGYTDVKLLVPNYADNDFGDTHSLVLILDSLNVQNTLLQLEINSLGAVA				NA	NA	NA	NA	NA
BMS010_09711	882			hypothetical protein	ATGAATCTGGCCTATAGAACCGCGTTAACCCTGATCGCCCTCGGCCTGTTCGCCGGCTGCGACGGTGACCCGGCGCCCAAGGTAGCCAGCGCCCCGGCGGAGATGACGCCGCTGCAACGCGCCGAGGCTGGTCAGGCGCTTTGGGAAGAGAAGTGCCGCACCGTGGCGGGGGAGAAAATCTACAAGACCGTACCGGATGTGGAAGGACTGGTGCTGCTCAAGGTGCGCCCCAAGGCTTGGGAACCTGAGTGGGCAGACCCGATGTGGCCGGGGGCGGCGTTTGCTCTGGAAGCCCAGACTGATGAATACATCACCACATTTCTTGGATATGAATACGCCACTGGAACGAAAGGTGTGCCAGATAAAATCACCCCGGAGCTACGCGGATATATTGCAACGGACCGTCGTTCCGGTCTTATGGATCGTCCCGGCTACCGCTATGTCGATGTGATCGACTCTAAGGATGGTCAGCGCTATCGCTATTCCGGCTCGGTAAAAGTTGTAGGTCGCAAGGACACCAACGCCAAGGGGGTACAGATGGCCTTGGAGCGCAACCCGGACTACGACCTGAATATCTATCGCTGGACGCTCGACCGGGCTCCCGCCCCCGATCCCGCCCCGCGCTATGGCGTGACCTTCGAAGACCATGTGATACCTGAGGAGCGCGCCCTGGGAGTGGCCAGCAGCATGGTCAAGGTCATTGATCTGGAGACCAATGAAGTGCTGGGCGAGATGCTGCGCTATGCCTGGAGCACTCCAGCCAGTAGCGCCAACCCTAGTCCCTGGCTGACCGCCTACAAATGCCCAGGACACGCTGTTGGTGCTGAGGCTGCAACCCGCAAATTCGTAGACCAAATCCTTATTCCAAGGAAGGCGCAATAA	MNLAYRTALTLIALGLFAGCDGDPAPKVASAPAEMTPLQRAEAGQALWEEKCRTVAGEKIYKTVPDVEGLVLLKVRPKAWEPEWADPMWPGAAFALEAQTDEYITTFLGYEYATGTKGVPDKITPELRGYIATDRRSGLMDRPGYRYVDVIDSKDGQRYRYSGSVKVVGRKDTNAKGVQMALERNPDYDLNIYRWTLDRAPAPDPAPRYGVTFEDHVIPEERALGVASSMVKVIDLETNEVLGEMLRYAWSTPASSANPSPWLTAYKCPGHAVGAEAATRKFVDQILIPRKAQ				NA	NA	NA	NA	NA
BMS010_09712	2874	gcvP_2	COG0403	Glycine dehydrogenase (decarboxylating)	ATGTCCCAGACGCCCAGCCTCGCCCAACTCCAGCAACCTGACGCTTTCCTCAGCCGCCACCTCGGCCCGGACGAGGCCGAGCAGCAGGCCATGCTCGAAAGCCTCGGTCTCGCCAGTCGCGCCCAACTGATCGACCAGACGGTCCCGCCGGCAATCCGCCTGGACCGCGCGCTCGACCTGCCGGCGGCGCTGGACGAGCAGGGCGCCTTGGCGAAGCTCAAGGGACATGCGCAGCAGAACCAGCTATGGACCAGCCTGATCGGCATGGGCTACCACGGCACCGTCACGCCCACGGTGATCCTGCGCAACGTGCTGGAGAATCCGGGCTGGTACACCGCCTACACCCCCTACCAGCCGGAGATCGCCCAGGGCCGGCTGGAGGCGTTGCTGAACTTCCAGCAACTGACCATCGACCTGACCGGCCTCGACCTGGCCAGCGCCTCGCTGCTCGACGAAGCCACCGCCGCCGCCGAGGCCATGGCCCTGGCCAAGCGCGTGGCAAAGAGCAAGAGCAACCTGTTCTTCGTCGACGAGAACTGCCATCCGCAGACCATTTCCGTGGTGCAGACCCGTGCCGAAGCGTTCGGCTTCGATGTGGTCGTCGCCAGCGTGGATGAGTTGGCCGGGCACCAGGTCTTCGGCGCGCTGCTGCAATACCCGGACACTCACGGCGAGATCCTCGACCTGCGCCCGCAGATCGATCACCTGCACAGCCAGCAGGCGCTGGCCTGCGTGGCCGCCGACCTGCTCAGCCTGCTGCTGCTCACCCCGCCCGGCGAGCTGGGCGCCGACGTGGTATTCGGCTCGGCCCAACGCTTCGGCGTGCCCATGGGCTACGGCGGTCCGCATGCCGCCTATTTCGCCACCCGCGACGAATTCAAGCGCGCGATGCCCGGGCGCATCATCGGCGTGTCCAAGGATGCCCGCGGCAACATCGCCCTGCGCATGGCCCTGCAGACCCGCGAGCAGCACATCCGCCGCGAGAAGGCCAACTCCAACATCTGCACCGCCCAGGTCCTGCTGGCCAACATCGCCAGCTTCTACGCGGTCTACCACGGGCCGCAGGGGCTCAAGCGCATCGCCCAGCGCGTACACCGGCTGACCGCCATTCTCGCCGCCGGCCTGGAGAAGAAAGGCATCCAGCGGATCAACAGGCACTTCTTCGACACCCTGACCCTGGAGGTCGGTGGCAGCCAGACGGCGATCATCGAAAGCGCCCAGGCGGCGCGCATCAACCTGCGCATCCTCGGGCGCGGCAAGCTCGGCGTCAGTCTGGACGAAACCTGCACCGCCGAGACGGTCGAGCGACTGTTCGATATCTTCCTCGGCGCCGACCACGGCCTGGACGTCGCTGCGCTGGACGCCGTTGTCGCCAGCGGGATTCCGGCCGAACTGGAGCGCAGCAGCGCCTACCTGACCCACCCGGTGTTCAATGCGCACCACAGCGAAACCGAGATGCTGCGCTACCTCAAGCAGTTGGAGAACAAAGACCTGTCGCTGAACCAGGCGATGATCCCGCTCGGCTCCTGCACCATGAAGCTCAACGCCACCAGCGAGATGATCCCGATCACCTGGCCGGAATTCGCCAACCTGCACCCCTTCGCACCGGTGGAGCAGGCCCAGGGCTACAAGGCGATGATCGACGAGCTGGACGCCTGGCTGTGCGCCATCACCGGCTTCGACGCCATCTGCATGCAGCCCAACTCGGGCGCCCAGGGCGAATACGCCGGCCTGCTGGCGATCCGCAAGTACCACGAGAGCCGTGGCGAAGGGCACCGCAACATCTGCCTGATCCCGTCCTCGGCCCACGGTACCAACCCGGCCTCGGCACAGATGGCCAGCATGCGCGTGGTCATCGTCGAGTGCGACCAGGACGGCAACGTCGATCTCGAAGACCTCAAGCGCAAGGCGGCGGAAGCCGGCGAACAACTTTCCTGCCTGATGATCACCTACCCCTCGACCCATGGCGTCTACGAGGAAGGCATCCGGGAAATCTGCGAGGCCATCCATGCCCAGGGCGGCCAGGTCTACATGGACGGCGCCAACCTCAACGCCCAGGTGGGCCTGGCGCGTCCGGCCGACATCGGCGCCGACGTCTCGCACATGAACCTGCACAAGACCTTCTGCATTCCCCATGGCGGTGGTGGCCCGGGCATGGGCCCGATCGGCGTGCGCGCGCACCTGGCGCCGTTCGTCGCCAACCACCCGGTGGTGCCGCTGGAAGGGCCGAACCCGGAGAACGGCGCGGTCAGCGCGGCGCCGTGGGGCAGCGCGAGCATCCTGCCGATCAGTTGGATGTACATCGCCATGATGGGCCCGCAGCTCAAGGACGCCACCGAAGTGGCCATCCTCAACGCCAACTACCTGGCGCACAAACTGGATGGCGCCTTCCCGGTGCTCTACAGCGGCCGCAATGGCCGTGTGGCCCACGAGTGCATCCTCGACCTGCGTCCGCTCAAGGCGGAAACCGGGATCACCGAGGAAGACGTGGCCAAGCGCCTGATGGACTACGGCTTCCACGCGCCGACCATGTCCTTCCCGGTCCCCGGCACGCTGATGATCGAGCCCACCGAGAGCGAATCCAAGCACGAGCTGGATCGCTTCATCGAAGCCATGCTCAGCATCCGCGCCGAGATCGGCAAGGTGCAGAACGGCGACTGGCCGGCCGAGGACAACCCGCTCAAGCGTGCGCCGCACACCCTGGCGGACGTCATCGGCGTCTGGGAACGGCCGTACAGCATCGAGGAAGCGGTGACTCCTACCGTCCACACCCGTGCCCACAAGTACTGGCCGACGGTGAACCGCGTGGACAACGTCTACGGCGACCGCAATCTGTTCTGCGCCTGCGTGCCGGTGGATGCTTATCGCGAGTGA	MSQTPSLAQLQQPDAFLSRHLGPDEAEQQAMLESLGLASRAQLIDQTVPPAIRLDRALDLPAALDEQGALAKLKGHAQQNQLWTSLIGMGYHGTVTPTVILRNVLENPGWYTAYTPYQPEIAQGRLEALLNFQQLTIDLTGLDLASASLLDEATAAAEAMALAKRVAKSKSNLFFVDENCHPQTISVVQTRAEAFGFDVVVASVDELAGHQVFGALLQYPDTHGEILDLRPQIDHLHSQQALACVAADLLSLLLLTPPGELGADVVFGSAQRFGVPMGYGGPHAAYFATRDEFKRAMPGRIIGVSKDARGNIALRMALQTREQHIRREKANSNICTAQVLLANIASFYAVYHGPQGLKRIAQRVHRLTAILAAGLEKKGIQRINRHFFDTLTLEVGGSQTAIIESAQAARINLRILGRGKLGVSLDETCTAETVERLFDIFLGADHGLDVAALDAVVASGIPAELERSSAYLTHPVFNAHHSETEMLRYLKQLENKDLSLNQAMIPLGSCTMKLNATSEMIPITWPEFANLHPFAPVEQAQGYKAMIDELDAWLCAITGFDAICMQPNSGAQGEYAGLLAIRKYHESRGEGHRNICLIPSSAHGTNPASAQMASMRVVIVECDQDGNVDLEDLKRKAAEAGEQLSCLMITYPSTHGVYEEGIREICEAIHAQGGQVYMDGANLNAQVGLARPADIGADVSHMNLHKTFCIPHGGGGPGMGPIGVRAHLAPFVANHPVVPLEGPNPENGAVSAAPWGSASILPISWMYIAMMGPQLKDATEVAILNANYLAHKLDGAFPVLYSGRNGRVAHECILDLRPLKAETGITEEDVAKRLMDYGFHAPTMSFPVPGTLMIEPTESESKHELDRFIEAMLSIRAEIGKVQNGDWPAEDNPLKRAPHTLADVIGVWERPYSIEEAVTPTVHTRAHKYWPTVNRVDNVYGDRNLFCACVPVDAYRE	PGPT0020480_1805	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020480-gcvP-K00281	NA	NA
BMS010_09713	390	gcvH_3	COG0509	Glycine cleavage system H protein	ATGAGTGATATTCCCGCCGATCTGCGTTACGCCGCCAGCCACGAATGGGCCCGCCTGGAAATGGACGGCACCGTGACCGTGGGTATCTCCGACCACGCGCAGGAAGCCCTGGGCGACGTGGTATTCGTCGAACTGCCGGAAGTCGGCCAGCAGCTGACCGCCGGTCAGGAAGCTGGGGTGGTGGAGTCGGTCAAGGCTGCATCCGACATCTACGCGCCGATTGGCGGCGAGGTGATCGCGGTCAACGAGGCGCTGACCGAGAGCCCGGAGAACGTCAACAGCGATCCGTACGGCAGCTGGTTCTTCAAACTGAAGCCGAGCGACGAAGCCGAGCTGGACAAGCTGCTCGACGCCGACGGCTACAAGGCCGCCAGCGAAGCCGACGCCTGA	MSDIPADLRYAASHEWARLEMDGTVTVGISDHAQEALGDVVFVELPEVGQQLTAGQEAGVVESVKAASDIYAPIGGEVIAVNEALTESPENVNSDPYGSWFFKLKPSDEAELDKLLDADGYKAASEADA				NA	NA	NA	NA	NA
BMS010_09714	1083	gcvT_3	COG0404	Aminomethyltransferase	ATGGGACAGCGCACCCCTCTCTACGACCAGCACCTGGCGTTCGGTGCCAAGATGGTCGACTTCGGCGGCTGGGACATGCCGCTGCACTACGGCTCGCAGGTCGAGGAGCATCATCAGGTGCGCCGCGATTGCGGGGTCTTCGATGTCTCCCATATGACCGTGGTGGACGTATCGGGCGCCCAGGCCACCGCTTATCTCCAACATCTCCTGGCCAATGACGTGGCACGCCTGCAAACACCGGGCAAGGCCCTGTACAGCGGCATGCTCAACGAAAGCGGCGGTGTCGTCGACGACCTGATCGTCTATCTCGCCGAGAACGGTTATCGCGTGGTGGTCAACGCCGCCACCCGCGACAAGGACCTGGCCTGGATGACGCGCCAGGCCGAGGGCTTCGCCGTCGAACTGAACGAGCGCGCCGACCTGGCCATGCTCGCCATCCAGGGGCCCAAGGCGCGTGCCCGCACGGCCGAGCTGGTGACCTCTGCCCGCGCCTCGCTGATCAACGAACTCAAGCCGTTCCAGGGCCTGCCGGAAGGCGACTGGTTCATTGCCCGCACCGGTTATACCGGCGAAGACGGCCTGGAAATCATGCTACCGGCCGCCGAAGTGACGGCGTTCTTCGGCGAACTGGTCGGTGCCGGCATCGCTCCGATCGGCCTCGGCGCACGCGACACGCTGCGCCTCGAAGCCGGCATGAACCTCTACGGCCAGGACATGGACGAAGACGTCTCCCCCCTGGCCGCCAACATGGCCTGGACCATCGCCTGGGAGCCGGCCGGGCGTGACTTCGTCGGCCGCCAGGCGCTGGAAGCGCAGCGCAGCGCCGGCGACCAGCCGCGTCTGGTCGGGCTGGTACTGGAAGAGCGCGGCGTGTTGCGTGCCCACCAGGTGGTGCGGGTCGAAGGCGTCGGCGAAGGCGAGATCACCAGCGGCAGCTTCTCGCCGACCCTGGGTAAGTCCATCGCCCTGGCCCGCGTCCCTGCCGCCACCGGCGACCGTGCCGAGGTGGAAATCCGTGGCAAATGGTACCCGGTACGGGTGGTCCAGCCGAATTTCGTGCGCCACGGCAAGGCGCTCATCTGA	MGQRTPLYDQHLAFGAKMVDFGGWDMPLHYGSQVEEHHQVRRDCGVFDVSHMTVVDVSGAQATAYLQHLLANDVARLQTPGKALYSGMLNESGGVVDDLIVYLAENGYRVVVNAATRDKDLAWMTRQAEGFAVELNERADLAMLAIQGPKARARTAELVTSARASLINELKPFQGLPEGDWFIARTGYTGEDGLEIMLPAAEVTAFFGELVGAGIAPIGLGARDTLRLEAGMNLYGQDMDEDVSPLAANMAWTIAWEPAGRDFVGRQALEAQRSAGDQPRLVGLVLEERGVLRAHQVVRVEGVGEGEITSGSFSPTLGKSIALARVPAATGDRAEVEIRGKWYPVRVVQPNFVRHGKALI	PGPT0008130_4370	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008130-gcvT-K00605	NA	NA
BMS010_09715	1617			hypothetical protein	GTGGCCCATCCTGCCCAGCGTCGCTGGTATCCCATCGCCTTTGCCATCGCAGCCCTGGTATTGCTGCCGCTGAGCGTGCTGGTGCTGTCCTGGCATACGGTGGACCGTGAAATCTGGGCGCACCTCTGGGATACCCAGTTGCCGCGTCTACTGGGCAACACGCTGGTGCTGGTGCTGGGCGTCGGCTGCGGTGTGACCGTGCTCGGCGTGAGCCTGGCCTGGCTCACCAGCCTTTGCGAATTCCCCGGGCGGCGCTGGCTGGACTGGGCGCTGATGTTGCCGTTCGCCATTCCCGCCTATGTACTGGCGTTCGTTTTCGTCGGTCTGCTGGATTTCGCCGGCCCGGTGCAAAGCCTGCTGCGCGAGTGGTTCGGCAGCGGCCTGCGCCTGCCGAGGGTCCGCTCCACTGCCGGGGTGATCACGGTCTTGGTGTTGGTGTTCTATCCCTATGTTTACCTGCTGGCCCGTACCGCCTTCCTCGCCCAGGGCAAGGGGCTGATGGAGGCGGCGCGCGTGCTCGGCCAGTCGCCCTGGCAGGCGTTCTGGCGCGTCGCCCTGCCGATGGCGCGCCCGGCCATCGGTGCCGGCCTGGCCCTGGCGATCATGGAGACCCTGGCGGATTTCGGTGCCGTCTCGGTGTTCAATTTCGATACCTTCACCACCGCCATCTACAAGACCTGGTACGGCTTCTTCAGCCTGTCCAGCGCGACGCAATTGGCCAGTCTGCTGCTGCTGGCGGTGATGCTGGTGCTCTATGGCGAACACCGGGCCCGGGGTGCGGCGCGCCCGGCCAACGAGCGGCCACGCGGCAAGGCGCTGTACCACCTGCGCGGCTTCAAGGCCCTGGCGGCCAGCGCCTGGTGCGGACTGGTGTTTCTCTGTGCGTTCGTCATTCCGGTCATGCAGCTCCTGGTGTGGTTCTGGCAGCGTGGCCGCTTCGACCTGGACGAGCGCTACACCGGCCTGATCCTGCATACCCTCTACCTCGGCGGCACGGCAGCGGCGATCACCGTGGGCATCGCCCTGCTGCTGGCGTTCGCCCGCCGCCTGGCACCGACCCGGCCGATCCGGTCGGCGGTCGGGCTGGCCAATCTCGGCTATGCGCTACCCGGTTCGGTGCTGGCGGTGGCGATCATGTGGGCGTTCAGCTACCTCGACCGCGAGCTGGTGATCCCGCTGTCCACCTGGCTCGGCGGCGCCGGCAAGCCGTTGCTCCTGGGCAGCCTGGCCGCCTTGCTGCTGGCCTATCTGATCCGCTTCATGGCGGTGGCCTACGGACCGCTGGAAAGCAGCCTGGCGCGCATCCGCCCATCGCTACCGGAAGCGTCGAGGTGCCTGGGCGTCGGTGGGCCGCGGCTATTCTTCCGCATCTACCTGCCGCTGTTGCTGCCCGGTTCGCTGAGCGCGGCGCTGCTGGTGTTCGTCGACGTGCTCAAGGAAATGCCGGCCACGCTGCTGATGCGTCCCTTCGGCTGGGACACCTTGTCGGTGCGGGTCTTCGAGATGACCAGCGAGGGCGAGTGGGCTCGCGCGGCGCTGCCGGCGCTGACGCTGGTGCTGGTCGGGCTGCTGCCGGTGATCGGTCTCATCCGCCGCTCCGCGCGGCAAATAGGATAG	MAHPAQRRWYPIAFAIAALVLLPLSVLVLSWHTVDREIWAHLWDTQLPRLLGNTLVLVLGVGCGVTVLGVSLAWLTSLCEFPGRRWLDWALMLPFAIPAYVLAFVFVGLLDFAGPVQSLLREWFGSGLRLPRVRSTAGVITVLVLVFYPYVYLLARTAFLAQGKGLMEAARVLGQSPWQAFWRVALPMARPAIGAGLALAIMETLADFGAVSVFNFDTFTTAIYKTWYGFFSLSSATQLASLLLLAVMLVLYGEHRARGAARPANERPRGKALYHLRGFKALAASAWCGLVFLCAFVIPVMQLLVWFWQRGRFDLDERYTGLILHTLYLGGTAAAITVGIALLLAFARRLAPTRPIRSAVGLANLGYALPGSVLAVAIMWAFSYLDRELVIPLSTWLGGAGKPLLLGSLAALLLAYLIRFMAVAYGPLESSLARIRPSLPEASRCLGVGGPRLFFRIYLPLLLPGSLSAALLVFVDVLKEMPATLLMRPFGWDTLSVRVFEMTSEGEWARAALPALTLVLVGLLPVIGLIRRSARQIG	PGPT0003730_3680	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003730-afuB|fbpB-K02011	NA	NA
BMS010_09716	1002		COG1840	putative binding protein component of ABC iron transporter	ATGTCGTTGAAGAAGAGTGTGTTCGCCGTTGTCGCGCTCACCGCCCTGTCGGGCATTTCCCAGGCTGCCGATGAGATCGTGGTGTACAGCTCGCGCATCGATGAGTTGATCAAACCGGTCTTCGACCAGTACACCGCCAAGACTGGCATCAAGGTCAAGTTCATCACCGACAAGGAAGCCCCGCTGCTGGAGCGCCTGAAGGCCGAGGGTGCCAACACGCCCGCCGACATGCTGATCACCGTCGATGCCGGCAACCTCTGGCAGGCCGAGCAGGAAGGCGTGCTCAAGCCGCTGAAGTCCCCGGTCATCGAAGCCAATATCCCGTCCCAGTATCGCGCCACCAGCGGCGCCTGGACCGGCCTGTCGCTACGTGCGCGGACCATCGCCTATTCCACCGAGCGGGTGAAGCCGGAAGAGCTGTCCACCTATGAGGCTCTGGCCGACAAGAATTGGGAAGGCCGCCTGTGCCTGCGGACCAGCAAGAAGGTCTACAACCAATCGCTGACCGCCACCCTGATCGAAACCCACGGCGCGGCCAAGACCGAGGAAATCCTCAAGGGCTGGGTGAACAACCTGGCGACCGATCCCTTCGCCGACGATACCGCCCTGTTGCAGGCCATCGATGCCGGCCAGTGCGATGTCGGACTGGTCAACACCTATTACTTCGGCCGCCTGCACAAGCAGCAGCTGGACCTGAAAGTGCGCCTGTTCTGGCCGAACCAGGCCGACCGTGGCGTGCACGTCAACCTGTCCGGCGCCGGCGTGACCCAGCATGCGCCCCATGCCGAGGCTGCGCAGAAGCTGCTCGAGTGGATGACCAGCGAAGAGGCCCAGGGCCTGTTCGCCGGCCTCAACCAGGAATTCCCGGCCAACCCGAAAGTGCCGGCTTCCGAAGAAGTCGCCGCCTGGGGCAGCTTCAAGGCCGACAGCATCCCGGTGGAAGTGGCCGGCAAGCGCCAGGGCGAAGCCATCAAGCTGATGGATCGGGCGGGTTGGAACTAA	MSLKKSVFAVVALTALSGISQAADEIVVYSSRIDELIKPVFDQYTAKTGIKVKFITDKEAPLLERLKAEGANTPADMLITVDAGNLWQAEQEGVLKPLKSPVIEANIPSQYRATSGAWTGLSLRARTIAYSTERVKPEELSTYEALADKNWEGRLCLRTSKKVYNQSLTATLIETHGAAKTEEILKGWVNNLATDPFADDTALLQAIDAGQCDVGLVNTYYFGRLHKQQLDLKVRLFWPNQADRGVHVNLSGAGVTQHAPHAEAAQKLLEWMTSEEAQGLFAGLNQEFPANPKVPASEEVAAWGSFKADSIPVEVAGKRQGEAIKLMDRAGWN	PGPT0003725_4562	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003725-afuA|fbpA-K02012	NA	NA
BMS010_09717	1218	ubiI	COG0654	2-octaprenylphenol hydroxylase	ATGCAAGCGGATCTGATCATCGTCGGCGCCGGTATGGTCGGCAGCGCCCTGGCCCTCGCCCTGGAACACAGTGGCCTGGACATCCTTCTGCTGGATGGCGGACCGCTGAGCGTCAAGGCCTTCGACCGGCAGGCGGCATTCGAGCCACGGGTCAGTGCCCTGTCGGCCGCCAGCCAGCGGATTCTCGAACGCCTCGGCGCCTGGCAGGGCATGGCCTCCCGGCGCGTCAGCCCGTATGGCGAAATGCAGGTCTGGGATGGTTCCGGCACCGGGAGCATCCATTTCTCCGCTGCCAGCGTGCACGCCGAGGTGCTGGGCCATATCGTCGAGAACCGGGTGGTGCAGGATGCGTTGCTGGATCGTCTGCACGACAGCGGCATTGGCCTGCTGCCCAACGCCCGCCTCGAACAGTTGCGCCGCTCCGGCGACGACTGGCTGCTGACCCTGGCCGACGGCCGCCAGTTGCGCACGCCACTGCTGATCGCCGCCGACGGCGCCAATTCCGCCGTGCGCCGGCTTGCCGGCTGCACGACCCGCGAATGGGATTACCTGCACCACGCCATCGTCACCAGTGTGCGTTGCGAGCACCCGCACCAGCGTACTGCCTGGCAGCGCTTCACCGACGATGGTCCACTGGCCTTCCTGCCGCTGATGCAGGGCGAGGACGAGCACTGGTGCTCGATCGTCTGGTCGGCCACCCCCGACGAGGCTGGCCGCCTGATGGCGCTGGACGAGGCGGCGTTCTGTCGTGAACTGGGCAAGGCGTTCGAATGGCGGCTGGGCGAGGTGCGGCACGCCGACCCGCGCCTGTGCATCCCGCTGCGCCAGCGGCATGCCAAGCGCTATGTCGAGCCCGGACTGGCGTTGATCGGCGATGCCGCCCACACCATCCATCCCCTGGCCGGCCAGGGCGTGAACCTGGGTTTCCTCGACGTAGCGGTGCTGGCCGAAGTCCTGCTGCACGCGCTGGAGCGCGGTGAGCGTTTGGCCGATACGAGGGTCTTGAGCCGGTTCGAGCGGCGCCGTATGCCGCACAACCTGGCGATGATGGCGGCAATGGAAGGGTTCGAGCGGCTGTTCCAGGCCGATCCCCTGCCGGTGCGCTGGGCGCGCAACGCCGGGCTCAACTGGGTTGACGGCTTGCCCGAGGCCAAGGCCCTGTTCGTGCGCCAGGCGCTCGGCCTGTCGGGCGACCTGCCGGAGCTGGCGCGCGCCTGA	MQADLIIVGAGMVGSALALALEHSGLDILLLDGGPLSVKAFDRQAAFEPRVSALSAASQRILERLGAWQGMASRRVSPYGEMQVWDGSGTGSIHFSAASVHAEVLGHIVENRVVQDALLDRLHDSGIGLLPNARLEQLRRSGDDWLLTLADGRQLRTPLLIAADGANSAVRRLAGCTTREWDYLHHAIVTSVRCEHPHQRTAWQRFTDDGPLAFLPLMQGEDEHWCSIVWSATPDEAGRLMALDEAAFCRELGKAFEWRLGEVRHADPRLCIPLRQRHAKRYVEPGLALIGDAAHTIHPLAGQGVNLGFLDVAVLAEVLLHALERGERLADTRVLSRFERRRMPHNLAMMAAMEGFERLFQADPLPVRWARNAGLNWVDGLPEAKALFVRQALGLSGDLPELARA	PGPT0009555_471	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009555-ubiI-K18800	NA	NA
BMS010_09718	1185	ubiH	COG0654	2-octaprenyl-6-methoxyphenol hydroxylase	ATGCAGCCCGTGCAACTGGCGATCGTCGGTGGCGGGTTGGTCGGTGCCAGCCTCGCGCTGGCATTGCAGGAAGGCGCGCGGGCGCGCGGCTGGCGGATACTGCTGATCGAGCCGTTCGCCCCGGGCGACAGCTATCAGCCCAGCTACGACGCGCGCTCTTCGGCGCTGGCTTTCGGCACTCGCCGCATCTACGAGCGGCTGGGACTCTGGCAGGCCATCGCCCGGCGTGCCGAACCCATCCTGCAAATCCACGTTTCCGACCGCGGCCGCTTCGGCGCGGCGCGCCTGCAAGCCTTGGAAGAGGGTGTTCCGGCGCTGGGTTACGTGGTCGAGAACGCCTGGCTCGGGCAGTGCCTCTGGCAGGCGCTCGACCGCGACGTGGTGAGCTGGCGCTGTCCCGCCCAGGTCACCCGGATGGAGGCGCTGGAAGGCGGCTATCGGCTGACCCTCGACGACGATTCCCAGGTCGATTGCGAACTGGCGGTGCTGGCCGATGGCGGTCGCTCCGGCCTGCGCGAGCAACTGGGTATCGGCATCAGCCAGCGGCCCTACCGGCAGAGCGCGCTGATCGCCAACGTCACCCCCAGCGAGGCACATCGTGGGCAGGCTTTCGAGCGTTTCACCGATGAAGGCCCCATGGCGCTGCTGCCGCTGCCGGAGAATCGCTGCGCCCTGGTCTGGACCCGTCCCGCATCCGATGCCGGCCGCTTGATGGGGCTGAGCGACGCGGCCTTCCTCGCCGAATTGCAGCAGGGGTTCGGTTATCGCCTCGGTGCTTTTCGCCAGGTCGGCGTGCGCCATCTCTACCCGCTGTCGCTGATCGAAGCCCAGGAGCAGGTGCGCCCGCATCTGGTGGTGTTGGGCAATGCCGCACACAGCCTGCACCCGATTGCCGGGCAGGGCTACAACCTGTCCCTGCGCGACACCCTGGCGCTGGCCGAAACGCTCCTGCAGAGCCAGAAACCGCTCGGCGACTTCGCTACCCTGCAGCAGTACCGTGACAGCCAGCAATTGGATCAGGAACTCACGGTCGGCTTCTCCGACCGCGTGACCCGTCTGTTCTCCAACGGCGAGCCCCTTCTCGCCGCCGGGCGCAATCTCGGCCTGCTCGGTCTCGACCTGCTGCCGCCGGCCAAGCGCTGGTTCGCCCGCCAGGCCATGGGGCTGGGAACGCGCATCGATTGA	MQPVQLAIVGGGLVGASLALALQEGARARGWRILLIEPFAPGDSYQPSYDARSSALAFGTRRIYERLGLWQAIARRAEPILQIHVSDRGRFGAARLQALEEGVPALGYVVENAWLGQCLWQALDRDVVSWRCPAQVTRMEALEGGYRLTLDDDSQVDCELAVLADGGRSGLREQLGIGISQRPYRQSALIANVTPSEAHRGQAFERFTDEGPMALLPLPENRCALVWTRPASDAGRLMGLSDAAFLAELQQGFGYRLGAFRQVGVRHLYPLSLIEAQEQVRPHLVVLGNAAHSLHPIAGQGYNLSLRDTLALAETLLQSQKPLGDFATLQQYRDSQQLDQELTVGFSDRVTRLFSNGEPLLAAGRNLGLLGLDLLPPAKRWFARQAMGLGTRID	PGPT0009550_1734	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009550-ubiH-K03185	NA	NA
BMS010_09719	1335	pepP	COG0006	Xaa-Pro aminopeptidase	ATGATCAGCATCCCGAAGTCGGAATACGCCCGTCGACGCAAAGCGTTGATGGCGCAGATGGAACCCAACAGCATCGCCATCCTGCCGGCGGCGCCTGTCTATATCCGCAACCGTGATGTCGAGCATGTCTATCGCCAGGACAGCGATTTCCAGTACCTGAGCGGCTTTCCCGAGCCGGAGGCGGTGATCGCGCTGATTCCCGGTCGCGAGCATGGCGAGTACGTATTGTTCTGCCGCGAGCGCGATCCCGAGCGTGAACTCTGGGATGGCCTGCGCGCTGGCCAGGAAGGGGCGATCCGTGACTACGGCGCCGACGATGCCTTCCCCATCGGCGATATCGACGACATCCTGCCCGGCCTGATCGAAGGGCGTGAGCGGGTCTATTACGCCATGGGCAGCAACCCCGAATTCGACCGCCACCTGATGGAGTGGATCAACGTGATCCGCTCCAAGGCCCGCCAGGGGGCGCAGCCGCCAAACGAGTTCGTCGCGCTCGACCATCTGTTGCACGACATGCGTCTGTACAAGTCGGCCGCCGAGGTGAAGGTGATGCGCGAGGCGGCGGCCATCTCGGCACGCGCCCACGTGCGGGCCATGCAGGTCAGCCGGCCCGGTCTCTACGAATTCCACCTGGAAGCCGAGCTGGATTACGAGTTCCGCAAGGGCGGCGCGAAGATGCCGGCCTACGGCTCCATCGTCGCCGCCGGCAGGAATGCCTGCATCCTGCACTACCGCGAGAACGACGCGCCGCTCAAGGATGGCGACCTGGTGCTGATCGACGCCGGTTGCGAGATCGACTGCTACGCCAGCGATATCACCCGCACCTTCCCGGTCAACGGCCGTTTCAGTCCCGAGCAGAAAGCCATTTACGAACTGGTGCTGAAATCCCAGGAAGCGGCGTTCCCCCAAATTGCCCCCGGCAAGCATTGGAACGAAGCCCACGAAGCCACCGTGCGGGTCATCACCGAAGGTCTGGTGGAGCTGGGACTGCTGGAGGGCGAGGTCGACGAGCTGATCGCCAGCGAGGCCTACAAGGCGTTCTACATGCACCGTGCCGGGCACTGGCTGGGCATGGATGTGCACGACGTCGGCGATTACAAGGTCGGCGGCGAATGGCGCGTGCTCGAACCGGGCATGGCGATGACCGTGGAGCCGGGTATTTACATCTCCCCCGACAACGAGAAAGTCGCCAAGAAATGGCGCGGCATCGGGGTGCGCATCGAGGATGACGTGGTGGTGACCAAGACCGGCTGCGAGATTCTCACCGGCGGCGTGCCCAAGACGGTGGCCGAGATCGAGGAGCTGATGGCGGCGGCGCGGGCCGAGGCGGCCTGA	MISIPKSEYARRRKALMAQMEPNSIAILPAAPVYIRNRDVEHVYRQDSDFQYLSGFPEPEAVIALIPGREHGEYVLFCRERDPERELWDGLRAGQEGAIRDYGADDAFPIGDIDDILPGLIEGRERVYYAMGSNPEFDRHLMEWINVIRSKARQGAQPPNEFVALDHLLHDMRLYKSAAEVKVMREAAAISARAHVRAMQVSRPGLYEFHLEAELDYEFRKGGAKMPAYGSIVAAGRNACILHYRENDAPLKDGDLVLIDAGCEIDCYASDITRTFPVNGRFSPEQKAIYELVLKSQEAAFPQIAPGKHWNEAHEATVRVITEGLVELGLLEGEVDELIASEAYKAFYMHRAGHWLGMDVHDVGDYKVGGEWRVLEPGMAMTVEPGIYISPDNEKVAKKWRGIGVRIEDDVVVTKTGCEILTGGVPKTVAEIEELMAAARAEAA	PGPT0006770_4196	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0006770-pepP-K01262	NA	NA
BMS010_09720	552			hypothetical protein	ATGCCTACTTCGAACCCGTATTCCGCTTTTGCCGCATTGCTTTCCGGTTGTGCGAATCCCGTTTCTCCCGCCGAACTGCACGGCCTGCTGCTGGGTCGTAGTTGTGCCGGCAGCGGATTCGAAGTCGAGCCCTGGCTGGCGGATGCCGCCGACCTGCTGGGCAGCGAGCCGCAGGACTCCGTCCGCCAGGCGCTGATCGGCTTGCAGGAGATGGTCAAGGGCGAGCTGTCCGGCGACGACATGACCGTTGTCCTGCTGCTGCCCGGCGACGACGCGCCGCTGACCGAACGTGCGGCAGCGCTCGGACAGTGGTGTCAGGGCTTCCTCGCCGGCTTCGGCCTGACCGCCCGCGACGGCGCATTGTCGTCCGAGGCGATGGAAGTGCTGCAGGACCTGTCCGCCATCGCCCAGGTGCAAAGCGCCCTGGAAGAGTCCGAAGACGGCGAGAGCGACTACATGGAGGTCATGGAGTACCTGCGCGTCGCGCCGCTGCTGCTGTTCACCGAATGCGCCAAGCCGGCCGCCCCGGCACCCAAGCCATCCCTGCACTGA	MPTSNPYSAFAALLSGCANPVSPAELHGLLLGRSCAGSGFEVEPWLADAADLLGSEPQDSVRQALIGLQEMVKGELSGDDMTVVLLLPGDDAPLTERAAALGQWCQGFLAGFGLTARDGALSSEAMEVLQDLSAIAQVQSALEESEDGESDYMEVMEYLRVAPLLLFTECAKPAAPAPKPSLH				NA	NA	NA	NA	NA
BMS010_09721	210			hypothetical protein	ATGGAAGACGCCGATCTGCACGCCCTTGCGGCGAAGCTGGAACTCCTGATCCAGCGCGTCGAGCAGTTGAAGGCCCAGAACAGACTCCTGCTGGCGACTGAAAGGGCCTGGCGCGAGGAGCGCGCCCATCTGATCGAAAAGAACGAAATGGCCCGGCTGAAGGTCGAAGCGATGATTTCGCGCCTGAAAGCCCTGGAGCAGGACACATGA	MEDADLHALAAKLELLIQRVEQLKAQNRLLLATERAWREERAHLIEKNEMARLKVEAMISRLKALEQDT				NA	NA	NA	NA	NA
BMS010_09722	315	zapA	COG3027	Cell division protein ZapA	ATGAACCAGCCGAACACCGTCACCGTGCATATCCTCGACAAGGAATACTGCATCGCCTGTCCGCCCGAGGAACGCGCCAATCTGGAAAGCGCCGCACGCTACCTGGACGGCAAGATGCGGGAAATCCGCTCCAGCGGCAAAGTCATCGGCGCCGACCGCGTTGCCGTGATGGCCGCGCTCAATATCACCCACGACCTGCTGCACAAGCAGCAGCGCCTGGATCAGCAGGTCGACTCGACCCGCGACCAGGTGCGTCACCTGTTGGAAAGAGTCGACCATGCGCTCGCCGCCGATCCGGACGATGGCCAAAGCTGA	MNQPNTVTVHILDKEYCIACPPEERANLESAARYLDGKMREIRSSGKVIGADRVAVMAALNITHDLLHKQQRLDQQVDSTRDQVRHLLERVDHALAADPDDGQS				NA	NA	NA	NA	NA
BMS010_09724	666	ygfA	COG0212	5-formyltetrahydrofolate cyclo-ligase	ATGATCGCCGCCGGCTCGCTCAGCCGTCCGCAACTGCGCCGCCTGCTGCGCCAGGCACGCCGCGCGCTGACGCCCCTGCAGCAACGCCAGGCCGCCCAGGCTCTCTACCGGCAACTGGCGCAACACCCGCTGTTCCGCCGCGCCCGGCATATCGCGCTATACCTGCCCAACGACAGCGAGATCGACCCACGCCCCCTGCTCATCGAAGCCCAGCGCCGCGGCAAGGCCACTTACCTGCCGGTCCTGAAGCCCTGGCCGAGCACCCGCATGACCTTCCAGCGCGTCCGCCCCGGGGATAAATTGCGGCCCAACCGTTTTCGCATCCCGGAACCACGTCTCGATCCTGCCCACCAACGTAAGGCATGGACACTGGACCTGATTCTGATGCCGCTAGTGGGATTCGACGAACAGGGCGGACGCCTGGGTATGGGCGGTGGTTTCTACGACCGCAGCCTTGCTTATCTGGCAATGCGCAAAAATTGGCACAAACCGACACTGTTGGGGCTTGCCCATGAATGTCAGAAAGTCGATCGACTGACCTTGGCGAGTTGGGATGTGCCCTTGCAGGCGACAGTGACGGACACCGGCTGGTATCCCGGAGAGGATCGCGCCGCGTCCCTGCGGCACACTTCGGTGGACGTCAGGGCTGCGACTGTGCCTGGATGA	MIAAGSLSRPQLRRLLRQARRALTPLQQRQAAQALYRQLAQHPLFRRARHIALYLPNDSEIDPRPLLIEAQRRGKATYLPVLKPWPSTRMTFQRVRPGDKLRPNRFRIPEPRLDPAHQRKAWTLDLILMPLVGFDEQGGRLGMGGGFYDRSLAYLAMRKNWHKPTLLGLAHECQKVDRLTLASWDVPLQATVTDTGWYPGEDRAASLRHTSVDVRAATVPG	PGPT0008170_2138	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008170-ygfA|fthC|yqgN|folN-K01934	NA	NA
BMS010_09725	135			hypothetical protein	ATGAAACGCAAGCCAGATCTGTTGTGGGTACTCGTTATTCTGTTCGGCCTGGGCGTGGTAACCACGGGTTACACCCAGAGCCTGTGGGAACGTCAGAGCGACATGCCGGTCATCCAGGCACAGTCGCAGCCCTGA	MKRKPDLLWVLVILFGLGVVTTGYTQSLWERQSDMPVIQAQSQP				NA	NA	NA	NA	NA
BMS010_09726	450			hypothetical protein	ATGCCTTACTGGCTGATGAAATCCGAACCCGACGAACTGTCGATCCATGACCTCCAACGCCTCGGCCGGGCGCGCTGGGACGGCGTTCGCAACTACCAGGCGCGAAACTTCCTGCGCGCGATGGCGCCGGGCGACTCGTTCTTCTTCTATCACTCCAGTTGCCCCGAGCCGGGCATCGCCGGGATTGCCCGGATAGCGGGGCCGGCCTACCCCGACCCCACCGCCCTCGATCCGCAGAGCCCGTATTTCGATGCCAAGGCCAGCCCGGAAAAGAATCCCTGGAGCGCCCTCGACGTGGAGTTCGTCGAAGCCTTCCCGGCGGTCCTGCCGCTGGCCCGGCTGCGGGACGAAGCGGCCCTCCAGGACTTCGCACTGGTGAAGAAAGGCAACCGGCTCTCGGTCATGCCGGTCACGCCGGAGCAGTGGCAGGCCATGCTGGCCCTGCGCTGA	MPYWLMKSEPDELSIHDLQRLGRARWDGVRNYQARNFLRAMAPGDSFFFYHSSCPEPGIAGIARIAGPAYPDPTALDPQSPYFDAKASPEKNPWSALDVEFVEAFPAVLPLARLRDEAALQDFALVKKGNRLSVMPVTPEQWQAMLALR				NA	NA	NA	NA	NA
BMS010_09727	963			hypothetical protein	ATGACACATCGCCCTTCCCGCTTGTTCGTCATTCCGCTGCTGCTGGCGCTGCTCGCCGCTGGCGTCTTCGGCTACTGGAAATCCCTCACTGATCGCCTGCCTGCCGGCCTGGCCATGGGCAACGGTCGCCTCGAAGCCACCGAGGTGCAGGTCGCCAGTAAGCAGCCGGGACGCCTCGCCGAGGTGCTGGTGGATGAAGGCGACCGTGTGCGGAAAGGCCAGCTCCTCGCCCGTCTCGACACCCGCACCCTCGAAGCCCAGCGCGCTCAGGCGGAAGCCGAAGTGCTGCGCGCCCGCGAAAACCTGACCGCCAGCGAAGCCAACGTGGCTCTGCGCAACAGCGAGCTGCGCCTGGCCGACCAGGACTTGCGGCGTTTCCGCGAACTGTTCCAGCGCGGTCATACCAGCCGCCAGCAACTCGATCAGCAACAGGCCCGCTTCGATACCGCCAACGCCGCCCTCGACGCGGCCCGCGCCCAGGTGTCCGCCGCCCGCGCCGCGATCGGTGCAGCCGAAGCGCAGGTCGCCCAGCTCACCAGCGAGATCGACGACGCCAGCCTGCGCGCACCGCTCGACGGCCTCGTCCAGTTGCGCCTGGCCGAGCCCGGCGAAGTGCTCGGTGCGGGCGGGCGCGTCCTGTTGCTCATCGATCTCGGCGACCAGTACATGAACCTCTACCTGCCGGCCGCCCTGGCGGGCCGGCTGACCGTTGGCGACGAAGCGCGCATCCTCCTCGATGCCCTGCCCGAGCAGCCGTTGCCGGCACGGATCAGCTTTGTCGCCGCCAAATCGCAATTCACCCCCAAGGAAGTGGAAACCCGCGACGAACGCCAGAAGCTGGTGTTCCGGGTCAAGCTGCGCCTCACCGAACCCGACGCGGCCCCCCAGGCCAAGCCCGGCATGCCAGGCGCCGGCTATGTACGCAGCGCCACCGACATCGCCTGGCCGGCCAACCTGCAATGA	MTHRPSRLFVIPLLLALLAAGVFGYWKSLTDRLPAGLAMGNGRLEATEVQVASKQPGRLAEVLVDEGDRVRKGQLLARLDTRTLEAQRAQAEAEVLRARENLTASEANVALRNSELRLADQDLRRFRELFQRGHTSRQQLDQQQARFDTANAALDAARAQVSAARAAIGAAEAQVAQLTSEIDDASLRAPLDGLVQLRLAEPGEVLGAGGRVLLLIDLGDQYMNLYLPAALAGRLTVGDEARILLDALPEQPLPARISFVAAKSQFTPKEVETRDERQKLVFRVKLRLTEPDAAPQAKPGMPGAGYVRSATDIAWPANLQ				NA	NA	NA	NA	NA
BMS010_09728	2724	rbbA_2	COG0842	Ribosome-associated ATPase	ATGAATGCACCGGCGCTCCGGGCCGAGGGCCTGAGCCACCACTATGGCATGCAGCAGGCATTGGAGGATGTCGCCTTCAGCCTGCCCGCGGGGACCCGCTGCGGCCTGATCGGCCCGGATGGCGCCGGCAAGTCCAGCCTGCTCGGCCTGATCGCCGGCGTGAAACGCCTGCAGCACGGTCAACTCGAAGTGCTCGGCGGGCCGATCACGCAACGCCACCACCGCGCCAGCCTGTATCCGCGCATCGCCTTCATGCCCCAGGGACTGGGGCATAACCTGTATCCCGATCTGTCGATCCGCGAAAACATCCACTTCTTTGCCACCTTGTTCGGCCTGAGTCGCAGCGAACGCGAGTCGCGCATGGCAAGCCTGCTGGCCGCCACCGATCTGGCGCGCTTCGCCGACCGGCCGGCGGGCAAGCTCTCCGGCGGGATGAAACAGAAGCTCGGCCTCTGCTGCGCGCTGATCCACGAGCCGGACCTGCTGATCCTCGACGAACCGACCACCGGGGTCGACCCGCTGTCCCGGCGACGCTTCTGGGAACTGGTCGAACGGGTGCGCAGCGAGCGCCCGCAACTGACGCTGCTGGTGGCCACCGCCTACATGGAAGAGGCCGAGCAGTTCGAGCGCTGCCTGATGCTCGACCGTGGCCGGCTGATCGCCGCCGGGAACACCGCCGAACTGGCGGCGGTCACGAGCAGCGGCCGCCTGGACGATGCCTTCACCCATTTCCAGGGCGAGCAGGCGAAGCACAGCGAGCCCCTGTACATCCTGCCGCTGGCGACGGACGCCGGCGAGATCGCCATCGAAGCCCGCGACCTGACCCTGCGATTCGGCGACTTCACGGCGGTGGACAAGGTCAGCTTCGCCATCCGGCGCGGCGAAATCTTCGGCTTCCTCGGCTCCAACGGCTGCGGCAAGACCACCACCATGAAGGTGCTCACCGGGCTGTTGCCGGCCAGCGAAGGCGAAGCCAGCCTGCTCGGCCGACCGGTGGACGCCAAGGACCTGGCGACGCGCAAGCGGGTCGGCTTCATGTCGCAGAGCTTCTCCTTGTACGGGGAGCTGAGCGTCCGGCAGAACCTCGAATTGCATGCCCGGCTGTTCGATCTCCCAGCCGCCGAAGGACGCGCCCGCTGTCAGCGATTGATCGAGCGCTTCGGCCTGGCCGAACACGCCACGGAGCGGGCCGGCGAACTGCCGCTCGGGCTGCGCCAACGGCTATCCCTCGCGGTAGCCGTGATCCATGGCCCGGAAGTATTGATCCTCGACGAGCCCACCTCCGGCGTCGATCCGGCAGCCCGCGACGACTTCTGGCGGTTGCTGGTGGAGCTGTCCCGCGACCAGGGCGTGACGATCTTCCTCTCCACCCATTTCATGAACGAAGCCGAGCGCTGCGACCGCATCTCGCTGATGCACGCCGGCCGCGTGCTCGCCTGCGATACGCCGGCGGCATTGCAACGGCAGTTCCGGGGGGAATCCCTGGAGGCTGCCTTCGTACGCTGCCTGGAACAGGCCCAGCAGAGCCAGGAAGCGGAACCGGCCGCCCGCGCCGAACTGCCGGCCGCCGCCCCCACCGCTGCCCAGGTCCGCCACGGCTTCAGCCTGCGCCGCCTGCGTGCCGTGGCGCGCCGCGAGAGCATGGAGCTGGCGCGGGACCGGGTGCGCCTGGCCTTCGCCCTGTTCGGCGCGTTGCTGATGATGGTGATTTTCGGCTACGGCATCTCCCTGGACGTGGAGAACCTCGCCTTCGCCGCCTTCGATCAGGACCAATCGCCGCAGAGCCGTGCCTACCTGGAAGCGTTCCGCGGCTCCCGCTACTTCGAGGAACACGCGCCGATCCGCAGCAACGCCGAACTGCACCGGCGCCTGCAACGCTCGGAGATCAAGCTGGCCCTAGAAATCCCCCCGGGCTTCGGCCGCGACCTGTATGCCGGCCGACAGCCGGAAATCGGCGCCTGGCTCGATGGCGGCATGCCGTTCCGCGCCGAAACCAGCCGCAACTACGTCGAAGCGGTGCATCAGAAAAACCTCCAGCGCATGGTCGCCGAAAGCGCCAATGCCTCTGCCGCGTCGCCCCTCTCCAAGCTGGAAACGCGGTTCCGCTATAACCAGGACGTGGTCAGCGTGAACGCCATCGGTCCAGGCGTGATGGCGCTGATCCTGGTATTCATCCCGGCAATGCTGACGGCGCTCGGCGTGGTCCGCGAGAAGGAGCTGGGGTCGATCACCAACTTTTACGCCACACCACTGACCCGCCTGGAATTCCTCATCGGCAAGCAACTGCCCTACATCGCGGTGAGCCTGCTCAACCTGGCCATGCTGGTGGCGATCAACCGCTGGCTGTTCGGCGTGCCCTTCAAGGGCAGCGCACTGGCCCTCGCCGTGGGCGGGCTGCTCTATGTGTTCGCCACCACCGCCCTGGGCCTGCTGATTTCCGCCTTCACCCGCACGCAGATCGCCGCGATCCTCGGCACCATGATCGTCAGCACCCTGCCGACCATCCAGTTCTCCGGCTTGATCGTTCCGCGCGCATCGCTGGACGGCGGCGCCGCCCTCATGGGCCAACTGTTCCCGGCCGGCTACTTCCTCGACATCGCCGTCGGCACCTTCACCAAGGCCCTCGGCCTGCGGGAGCTATGGCCGCAATGCCTGGCCCTGGGCGCCACCTTCCTGATCTTCACCAGCGCAGGCGTGCTCCTGCTGAAGAAGCAGGAGGCCTGA	MNAPALRAEGLSHHYGMQQALEDVAFSLPAGTRCGLIGPDGAGKSSLLGLIAGVKRLQHGQLEVLGGPITQRHHRASLYPRIAFMPQGLGHNLYPDLSIRENIHFFATLFGLSRSERESRMASLLAATDLARFADRPAGKLSGGMKQKLGLCCALIHEPDLLILDEPTTGVDPLSRRRFWELVERVRSERPQLTLLVATAYMEEAEQFERCLMLDRGRLIAAGNTAELAAVTSSGRLDDAFTHFQGEQAKHSEPLYILPLATDAGEIAIEARDLTLRFGDFTAVDKVSFAIRRGEIFGFLGSNGCGKTTTMKVLTGLLPASEGEASLLGRPVDAKDLATRKRVGFMSQSFSLYGELSVRQNLELHARLFDLPAAEGRARCQRLIERFGLAEHATERAGELPLGLRQRLSLAVAVIHGPEVLILDEPTSGVDPAARDDFWRLLVELSRDQGVTIFLSTHFMNEAERCDRISLMHAGRVLACDTPAALQRQFRGESLEAAFVRCLEQAQQSQEAEPAARAELPAAAPTAAQVRHGFSLRRLRAVARRESMELARDRVRLAFALFGALLMMVIFGYGISLDVENLAFAAFDQDQSPQSRAYLEAFRGSRYFEEHAPIRSNAELHRRLQRSEIKLALEIPPGFGRDLYAGRQPEIGAWLDGGMPFRAETSRNYVEAVHQKNLQRMVAESANASAASPLSKLETRFRYNQDVVSVNAIGPGVMALILVFIPAMLTALGVVREKELGSITNFYATPLTRLEFLIGKQLPYIAVSLLNLAMLVAINRWLFGVPFKGSALALAVGGLLYVFATTALGLLISAFTRTQIAAILGTMIVSTLPTIQFSGLIVPRASLDGGAALMGQLFPAGYFLDIAVGTFTKALGLRELWPQCLALGATFLIFTSAGVLLLKKQEA	PGPT0006725_103	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
BMS010_09729	1119	yhhJ_2	COG0842	Inner membrane transport permease YhhJ	ATGGAGAAGCTCGCCCACATCTTCCGCCTCGGCCTGAAGGAACTCACCAGCCTGCGCCACGACAGCGTGCTGCTGTTGTTCATGGTGTATGCCTTCAGTGTGGCCATCTACATGCCTGCCTCCGGCTCGGTGATCGGTGTGCACAACGCCAGCGTCGCCATCGTCGATGAAGACCACAGCCAGGTTTCCCGGCGGCTGGCGGAAGCCCTGCAACCACCGGAGTTCCAGCCACCCGTTCCACTCGCCTACGAGCGGATCGACCAGACCCTGGACGACGGCGAACACACCTTCGTCATCGACATCCCGGCCGGTTTCCAGGCCGATCTGCTGGCCGGGCGCGAACCGGCGATCCAGATCAACGTGGATGCCACCGCCATGAGCCAGGCGTTCATGGGTGCCGGCTACATCGGCCGGATCTTCCAGCGCGAGCTGGCCGCTTACGGGAGCCGTGGTCAGGCCGCCAGCCAGCAGCCCGTGGCATTGACCAGCCGCGCGCTGTTCAACGCCAACCTGGAGAGCGGCTGGTTCCTGGCGATCATCCAGATCGTCAACAACATCACCATCCTCGCCGTGCTGCTCACCGGGACGGCGTTGCTGCGCGAGCGAGAGCACGGCACCCTCGATCACCTGCTGGTGCTGCCCTTGACCGCGCTGGAAATCATGCTGGCGAAGATCGGCAGCAACGCCCTGGTGGTGGTGTTCTGCACTTGGCTGTCGCTGGAACTGGTGGTGAAGAAGGCACTGGGCGTGCCCCTGGCCGGATCGATCACGCTGTTCCTGGCAGTCACGGCGCTCTATCTGTTCGCCTGCACGGCGCTGGGCATCTTCCTCGCCACGCTGGCGCGTTCGATACCGCAGTTCGGCCTGCTGTGCATCCCGGTAATCATCCCCATGCTGCTGCTGTCCGGCGGCAGCACGCCGATGGAAAGCATGCCGCAGTGGTTGCAGTGGGTCATGCACGGCTCGCCGTCGACTCACTACGTCAGCCTGTCCACGGCGATCCTCTTCCGCGATGCGGGACCGAGCGTGGTGTGGATGAATCTCGCCGCGCTGACGGCAATCGGACTGGCGTTCTTCTTCGTGGCTCTGGCGCGTTTCCGCAGGAGCCTGGCGGCCTGA	MEKLAHIFRLGLKELTSLRHDSVLLLFMVYAFSVAIYMPASGSVIGVHNASVAIVDEDHSQVSRRLAEALQPPEFQPPVPLAYERIDQTLDDGEHTFVIDIPAGFQADLLAGREPAIQINVDATAMSQAFMGAGYIGRIFQRELAAYGSRGQAASQQPVALTSRALFNANLESGWFLAIIQIVNNITILAVLLTGTALLREREHGTLDHLLVLPLTALEIMLAKIGSNALVVVFCTWLSLELVVKKALGVPLAGSITLFLAVTALYLFACTALGIFLATLARSIPQFGLLCIPVIIPMLLLSGGSTPMESMPQWLQWVMHGSPSTHYVSLSTAILFRDAGPSVVWMNLAALTAIGLAFFFVALARFRRSLAA	PGPT0006730_6879	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
BMS010_09730	411			hypothetical protein	GTGAAAAGCCTGATCGCCCTGCTGTTCGCTCTGTCGCTGCCTTTTGCGGCCCTGGCCGAGGAAAAGGCCGAAGAGAATGGAGAGAATGCGCCGCAAGTCTCCTACGTCAGCCTGTCGCCGGCGCTGGTGGGCAACTATGGCTCGGGGCCCCGGTTGAAATACTTCAAGGCGGACGTCTCGCTGCGCGTCTCCAGCACCGAAGCGGCGGCCAGGGTCGAGCATCACGAACCGCTGATCCGCAACCAACTGGTGATGCTGTTTTCCCAGCAGACCGATGAAACCCTGGGCAGTGTCGAGGCCAAGGAAAAGCTGCGCCAGGAAGCGCTGAAACAGGTCCAGCAGGTGTTGGAGCAGGAAGAAGGCAAGCCGCTGGTGGACGATCTGCTGTTCAACAACCTGATCATCCAGTAA	MKSLIALLFALSLPFAALAEEKAEENGENAPQVSYVSLSPALVGNYGSGPRLKYFKADVSLRVSSTEAAARVEHHEPLIRNQLVMLFSQQTDETLGSVEAKEKLRQEALKQVQQVLEQEEGKPLVDDLLFNNLIIQ	PGPT0015525_2813	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015525-fliL-K02415	NA	NA
BMS010_09731	978	qorA_4	COG0604	Quinone oxidoreductase 1	ATGAAAGCCGTGCTGTGCAAAGCCTTCGGCCCCGCCGAAAGCCTGGTGCTGGAAGACATCTCCAGCCCCGAACCGAAGAAGAACGAAATCCTCCTGGAGGTACACGCCGCCGGGGTCAACTTCCCGGATACGCTGATCATCGAGGGCAAATACCAGTTCAAGCCACCCTTCCCCTTCTCTCCCGGCGGCGAGGCGGCCGGCATGGTCGCGGCGGCCGGCGAGAAGGTCCAACACGTCAAGCCCGGCGACCGGGTGATGGCCTTGACCGGCTGGGGCAGCTTCGCCGAACAGGTGGCAGTGCCCGGCTACAACGTGATGCCGATCCCCGCCGGGATGGACTTCGAGACCGCAGCGGCCTTCGGCATGACCTACGGCACCTCCATGCACGCGCTCAAGCAGCGCGCCAACCTGCAACCGGGCGAAACCCTGCTGGTGCTCGGCGCTTCCGGTGGCGTCGGGCTGGCCGCGGTGGAAATCGGCAAGGCCATGGGCGCCCGGGTGATCGCTGCCGCCAGCAGCGCGGAAAAACTGGAAGTCGCCAAGCGGGCCGGCGCGGACGAGTTGATCGACTACTCGGCGAGCAGCCTCAAGGAAGAAGTGAAGAAACTCACCGGCGGCCAGGGCGCCGATGTGATCTATGACCCGGTGGGCGGCGACCTGTTCGACGAGGCTATCCGCAGCATCGCCTGGAACGGCCGCCTACTGGTGGTCGGCTTCGCCAGCGGGCGCATCCCCGAGCTGCCGGTCAACCTGACGCTACTCAAGGGCGCCGCAGTAGTCGGCGTGTTCTGGGGCTCGTTCGCCCAGCGCCAGCCGCAGGACAACCTGGCCAACTTCCAGCAGCTATTCGCCTGGCACGCCGAGGGCAAATTGAAGCCGCTGGTGTCCCAGACCTTCCCGCTGGAACGGGCGGCCGACGCCATCAATGCCCTGGGCCAGCGCAAGGCCGTGGGCAAGGTCGTCGTCAAAATACGTTGA	MKAVLCKAFGPAESLVLEDISSPEPKKNEILLEVHAAGVNFPDTLIIEGKYQFKPPFPFSPGGEAAGMVAAAGEKVQHVKPGDRVMALTGWGSFAEQVAVPGYNVMPIPAGMDFETAAAFGMTYGTSMHALKQRANLQPGETLLVLGASGGVGLAAVEIGKAMGARVIAAASSAEKLEVAKRAGADELIDYSASSLKEEVKKLTGGQGADVIYDPVGGDLFDEAIRSIAWNGRLLVVGFASGRIPELPVNLTLLKGAAVVGVFWGSFAQRQPQDNLANFQQLFAWHAEGKLKPLVSQTFPLERAADAINALGQRKAVGKVVVKIR	PGPT0013255_6340	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
BMS010_09732	966	tphA1I		Terephthalate 1,2-dioxygenase, reductase component 1	ATGAAAGTGACCTTGCAACCCTCCGGCGCGGTGCTGGAGGTACGACCCGGCGAGCGCATCCTGGATGCCACCCGGCGCCTTGGCTATGACTGCCCGCAAAGCTGCCGTAACGGCAACTGCCACGTCTGCGCCGCGCTGCTGGTGGAGGGGCGCGTGCGGCAGAACGGCGTGGCGCTGGATCATGGCGAGCTGTTCACCTGCATCGCCGAGCCCTTGGAAGACTGCGTGCTGCACTGGGACGGCGTGATGGCGCCCGGCGAGCTGCCGGTGCGCGAGCTGAGCTGTCAGGTGTCCGAATGCCGCAACGTGGGTGGCGACGTATACCGCGTTTGCCTGCGCACCCCGGCTGGCAAGCCGCCCCGCTACCACGCCGGGCAGTACCTGTTGCTGCGGCGGGACGACGGCGAGTCGTCGGCGTTCTCCCTGGCTTCCTCGCCCTTGTCCGGCCGCGAACTGGAGTTGCACATCCTGGCCCGCGAACCCAGCGCGATCCGCTTGATCGAGCAGTTGCGTCGCGACGGCATGGCACGCGTCCAACTGCCGTTCGGCGACACCCATCTTGCCGAACTGCCGGACGGCCCGCTGGTGCTGATCGCCGCCGGGACTGGCATGGCGCAGATGCACAGCCTGATCGAATACTGCCGCGCCGCCGGCTTCGCCCACCCGGTGCATCTGTACTGGGGCGTGCGTCGGCCCGAGGATTTCTACCAGTTGTCGCACTGGGACGAGTGGCGGAGCCTGCCCAATCTGCACCTGCACAAGGTGGTCAGCGATGCTTGCGGCTGGGACGGGCGCTGCGGAATGCTGCACGAGGCGGTGCGCGAGGACTTCAAGGACCTCAAGCCCCTGCACGTCTACGCCAGCGGCTCGCCGGCAATGGTCTACGCGACGCTGGACGCCCTGGTGGAAGCCGGGATGGACGCCCACCAGATGCGAGCCGACGTGTTCGCTTATGCACCTCGGTAA	MKVTLQPSGAVLEVRPGERILDATRRLGYDCPQSCRNGNCHVCAALLVEGRVRQNGVALDHGELFTCIAEPLEDCVLHWDGVMAPGELPVRELSCQVSECRNVGGDVYRVCLRTPAGKPPRYHAGQYLLLRRDDGESSAFSLASSPLSGRELELHILAREPSAIRLIEQLRRDGMARVQLPFGDTHLAELPDGPLVLIAAGTGMAQMHSLIEYCRAAGFAHPVHLYWGVRRPEDFYQLSHWDEWRSLPNLHLHKVVSDACGWDGRCGMLHEAVREDFKDLKPLHVYASGSPAMVYATLDALVEAGMDAHQMRADVFAYAPR	PGPT0022595_836	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PARATOSE|TRYLOSE|ABEQUOSE|ASCARYLOSE_MODIFICATION,PGPT0022595-ascD|ddhD|rfbI-K00523	NA	NA
BMS010_09733	1467	ubiD_2	COG0043	3-octaprenyl-4-hydroxybenzoate carboxy-lyase	ATGCAGTATCGCGATCTGCGCGACTTTATCAGTGCCCTGGAACAGCGCGGCGAATTGAAGCGTGTTGCCGCACCGGTTTCTCCGGTGCTGGAGATGACCGAAATCTGCGACCGGACCCTGCGCAAGCGCGGGCCGGCGCTGCTGTTCGAAAACCCCACGGGTTACACCATTCCGGTGCTCGGCAACCTGTTCGGTACGCCCGAGCGGGTCGCCTTGGGCATGGGCGCGGAAGATGTCGGCGAGCTGCGCGAAATCGGCAGGCTGCTGGCCTTGCTCAAGGAACCGGAGCCGCCGAAAGGGCTCAAGGACGCCTGGTCCAAGCTGCCGATCTACCGCAAGGTGCTGTCGATGGCGCCCAAGGTTCTCAAGGATGCGCCGTGCCAGGAGGTGATCGAAGAGGGCGACGATGTCGACCTGTCGAAGCTGCCGGTGCAAACCTGCTGGCCGGGCGACGTCGGGCCGCTGATCACCTGGGGCCTGACCATCACCAAGGGGCCCAACAAGGAGCGGCAGAACCTCGGCATCTACCGCCAGCAGGTGATCGGCCGCAACAAGGTGATCATGCGCTGGCTCAGCCACCGTGGCGGCGCGCTGGATTACCGCGAGTGGTGCCAGAAGTACCCGGACAAGCCTTACCCGGTCTGCGTGGCGCTGGGGGCCGACCCGGCGACCATCCTCGGAGCTGTCACTCCCGTACCGGACACCCTGTCCGAATATGCCTTCGCCGGCTTGCTGCGTGGCCATCGCACCGAACTGGTCAAGGCGCGTGGTAGCGATTTGCAAGTGCCGGCCAGCGCCGAGATCGTTCTCGAAGGGGTGATCCATCCGGGCGAAATGGCCGACGAAGGGCCTTACGGCGACCATACCGGCTACTACAACGAAGTCGACCGTTTCCCGGTATTTACCGTTGAACGCATCACCCGCCGCCGCGATCCGATCTACCACAGCACCTACACCGGGCGTCCGCCGGACGAGCCGGCGATTCTCGGTGTGGCGCTGAACGAAGTCTTCGTGCCCATCCTGCAGAAGCAATTCCCCGAGATCACCGACTTCTACCTGCCGCCCGAAGGCTGTTCCTACCGCATGGCGGTGGTGACCATGAAGAAGCAGTATCCGGGGCACGCCAAGCGCGTGATGCTGGGTGTCTGGTCGTTTTTGCGACAGTTCATGTACACCAAGTTCGTCATAGTCACCGACGACGACGTCAACGCGCGCGACTGGAACGATGTGATCTGGGCCATCACCACGCGCATGGACCCCAAGCGCGACACGGTGCTGATCGACAACACGCCGATCGACTACCTCGATTTCGCCTCGCCGGTTTCCGGGCTCGGCTCGAAGATGGGCCTGGACGCGACGCATAAATGGCCGGGCGAGACCAACCGGGAGTGGGGGCGGGCTATCGTTCAGGATGAGGCGGTCAAACGCCGCGTCGACGAACTCTGGGCCAGCCTGGATATCGATTGA	MQYRDLRDFISALEQRGELKRVAAPVSPVLEMTEICDRTLRKRGPALLFENPTGYTIPVLGNLFGTPERVALGMGAEDVGELREIGRLLALLKEPEPPKGLKDAWSKLPIYRKVLSMAPKVLKDAPCQEVIEEGDDVDLSKLPVQTCWPGDVGPLITWGLTITKGPNKERQNLGIYRQQVIGRNKVIMRWLSHRGGALDYREWCQKYPDKPYPVCVALGADPATILGAVTPVPDTLSEYAFAGLLRGHRTELVKARGSDLQVPASAEIVLEGVIHPGEMADEGPYGDHTGYYNEVDRFPVFTVERITRRRDPIYHSTYTGRPPDEPAILGVALNEVFVPILQKQFPEITDFYLPPEGCSYRMAVVTMKKQYPGHAKRVMLGVWSFLRQFMYTKFVIVTDDDVNARDWNDVIWAITTRMDPKRDTVLIDNTPIDYLDFASPVSGLGSKMGLDATHKWPGETNREWGRAIVQDEAVKRRVDELWASLDID	PGPT0009530_1743	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009530-ubiD-K03182	NA	NA
BMS010_09734	1260	rho_2	COG1158	Transcription termination factor Rho	ATGAACCTGACCGAACTCAAGCAAAAGCCGATTACCGAACTGCTGGAAATGGCCGAACAGATGGGCCTGGAGAACATGGCCCGTTCGCGCAAGCAGGATGTGATTTTCTCCCTGCTGAAGAAGCACGCGAAAAGCGGCGAGGAAATCTCCGGTGATGGCGTGCTGGAGATTCTCCAGGACGGCTTCGGCTTCCTGCGTTCCGCGGATTCCTCCTACCTGGCAGGCCCGGACGACATCTACGTCTCGCCCAGCCAGATCCGCCGCTTCAACCTGCGTACCGGCGACACCATTGTCGGTAAGATCCGCCCGCCGAAGGAAGGCGAACGCTACTTCGCGCTGCTCAAGGTCGACACCATCAACTTCGACCGCCCGGAAAACGCGAAGAACAAGATTCTCTTCGAGAACCTCACCCCGCTGTTCCCCAACCAGCGCCTGAAGATGGAAGCCGGCAACGGCTCCACCGAGGATCTCACCGGTCGCGTGATCGACCTCTGCGCGCCGATCGGCAAGGGCCAGCGTGGCTTGATCGTGGCGCCGCCGAAGGCCGGCAAGACCATCATGCTGCAGAACATCGCGGCCAACATCACCCGTAACAACCCCGAGTGCCACCTGATCGTCCTGCTGATCGACGAGCGCCCGGAAGAAGTGACCGAAATGCAGCGCACCGTGCGCGGCGAAGTGGTCGCCTCCACCTTCGACGAGCCGCCGACCCGCCACGTGCAGGTCGCCGAAATGGTGATCGAGAAGGCCAAGCGCCTGGTCGAGCACAAGAAGGACGTGGTCATCCTGCTCGACTCCATCACCCGCCTGGCGCGTGCCTACAACACCGTGATCCCCAGCTCCGGCAAGGTGCTGACCGGCGGTGTCGACGCCCATGCCCTGGAGAAGCCCAAGCGTTTCTTCGGCGCCGCGCGCAACATCGAGGAAGGTGGTTCGCTGACCATCCTCGCGACGGCGCTGGTGGAAACCGGTTCGAAGATGGACGAAGTCATCTACGAAGAATTCAAGGGCACCGGCAACATGGAGTTGCCGCTGGACCGCAAGATTGCTGAGAAGCGCGTCTTCCCCGCCATCAACATCAACCGCTCCGGCACCCGTCGCGAAGAGTTGCTGACCGGCGAGGAAGAGCTGCAGCGCATGTGGATTCTGCGCAAGATCCTCCACCCGATGGACGAGATCGCTGCCATCGAATTCCTCCTCGACCGTCTGAAGGACACCAAGACCAACGAGGAATTCTTCCAGTCGATGAAGCGGAAGTAA	MNLTELKQKPITELLEMAEQMGLENMARSRKQDVIFSLLKKHAKSGEEISGDGVLEILQDGFGFLRSADSSYLAGPDDIYVSPSQIRRFNLRTGDTIVGKIRPPKEGERYFALLKVDTINFDRPENAKNKILFENLTPLFPNQRLKMEAGNGSTEDLTGRVIDLCAPIGKGQRGLIVAPPKAGKTIMLQNIAANITRNNPECHLIVLLIDERPEEVTEMQRTVRGEVVASTFDEPPTRHVQVAEMVIEKAKRLVEHKKDVVILLDSITRLARAYNTVIPSSGKVLTGGVDAHALEKPKRFFGAARNIEEGGSLTILATALVETGSKMDEVIYEEFKGTGNMELPLDRKIAEKRVFPAININRSGTRREELLTGEEELQRMWILRKILHPMDEIAAIEFLLDRLKDTKTNEEFFQSMKRK				NA	NA	NA	NA	NA
BMS010_09737	1809	recQ_2	COG0514	ATP-dependent DNA helicase RecQ	GTGACCGCTGATCCCTTGCATATCCTCAAGACCGTCTATGGATACGATGCGTTTCGTGGAAGGCAGGCCGATATCATTCGGCATGTGGTGGCGGGAAACAATGCCTTCGTTTTGATGCCGACGGGCGGTGGGAAGTCGCTTTGTTACCAGATCCCGGCGCTTGCTCGTAATGGCATGGGGTTGATCGTCTCGCCGCTCATCGCACTGATGGTCGATCAGGTTGCAGCCCTGCGTCAGGCCGGCGTGCGGGCCGAAGCTCTCAATTCCGACCTTTCTCCGGAAGAGCGGCGCGCGCTTTGGCGGGATATGCGGGCCGGCAAGGTCGATATTCTTTATGCCGCGCCGGAAACCCTGCTCAAGCCGGATGTCCTCGATGCGCTGCAATCCATCGACCTGTCGCTGATCGCGGTCGATGAGGCCCATTGCCTGTCGCAATGGGGGCATGATTTCCGGCCGCCCTACCGCCAGCTGGACACGCTGATCGAGCGTTTTCCCGATACGCCGCGCATGGCGCTGACGGCGACGGCCGACGAGCCCACGCGCGCCGAAATTCTCGGCCACCTGGGGATTGAAGAGCACGATGCCTTCATCGCCGGGTTCGACCGGCCCAATATCCGCTATGCGATCATGGAAAAGGATAATCCGCGCGCGCAGCTGAAGCGCTTTTTGAAGGATCGCGACAGTGAGAGCGGTATCGTCTATTGCCTTTCCAAACGCAAGGTGGACGAAACGGCCGCATGGCTGCGGGAGGAGGGTCGCGATGCGCTACCCTATCACGCTGGCATGGACAAGGCTGCCCGCGAGGAGAACCAGACCCGTTTCCAGCACGGCGAGGCGGTCATCATTGTCGCGACCGTCGCTTTCGGCATGGGCATAGACAAGCCAGATGTGCGCTTCGTGGTTCATATCGACCTGCCTGGCAGCATCGAGGCCTATTATCAGGAAACGGGCCGAGCCGGTCGCGATGGTCTGCCGTCGGACGTGCTCATGCTCTATGGCTATGAAGATATTGCCCTGCGCAATCGTTTCATCGAAGAATCTGATGCCGCGGACCAACGCAAATATATGGAGCGCCAGAAGCTCGATGCGCTGCTTGGTCTCGCAGAAACGGCGAGTTGCCGCCGGCAGGTTCTGCTCTCCTATTTCGGCGACCGGTGTGAGCCCTGCGGCAATTGCGATACCTGCGCCGAGCCGCCGGACCTGTTTGATGGGGCCATCGCCGCTCAGAAACTTCTGTCCTGTATTTATCGCACGGGTGAACGTTTTGGCCAGGCCTATGTCATCCGCGTATTGCTGGGTGTCGAGGACGAGCGGATTTGCCGCTTCGGACATGATCAAATCACCACCTACGGGATAGGCAAGGAGCATGACAACCGCACATGGCGCGCCATTTTGCGTCAGCTGGTTGCGTTACGCATGATTGAAGTGGATCTGTCCGGACATGGCGGCCTTTCCATCTCCGAGGATGGACGGCGATTCCTGCGCGAAAAACCGGCATTGATGCTGAGGATCCCATCCGCTCCCCGTTCCGCACGGCAGCAGACGCCCCGCAACACGGCATCGACGGTCTTGCCGGAATCCGATCGCAGTCTTTTTGAGGCGCTGCGTGCGAAGCGTATGGAAATTGCCCGGGCACAGAACGTTCCGCCCTATGTGATTTTCCACGACAAGACCCTCATAGAACTTGCGGCGGCAAAACCGGCCTCGGCGCAGGAAATGGCTGGGATTCCCGGCGTCGGAGATACCAAGCTCGAGCGATACGGACCTGCCTTTCTGGCGGCGATCATGCAGCACGCCGCTGGCGAATGA	MTADPLHILKTVYGYDAFRGRQADIIRHVVAGNNAFVLMPTGGGKSLCYQIPALARNGMGLIVSPLIALMVDQVAALRQAGVRAEALNSDLSPEERRALWRDMRAGKVDILYAAPETLLKPDVLDALQSIDLSLIAVDEAHCLSQWGHDFRPPYRQLDTLIERFPDTPRMALTATADEPTRAEILGHLGIEEHDAFIAGFDRPNIRYAIMEKDNPRAQLKRFLKDRDSESGIVYCLSKRKVDETAAWLREEGRDALPYHAGMDKAAREENQTRFQHGEAVIIVATVAFGMGIDKPDVRFVVHIDLPGSIEAYYQETGRAGRDGLPSDVLMLYGYEDIALRNRFIEESDAADQRKYMERQKLDALLGLAETASCRRQVLLSYFGDRCEPCGNCDTCAEPPDLFDGAIAAQKLLSCIYRTGERFGQAYVIRVLLGVEDERICRFGHDQITTYGIGKEHDNRTWRAILRQLVALRMIEVDLSGHGGLSISEDGRRFLREKPALMLRIPSAPRSARQQTPRNTASTVLPESDRSLFEALRAKRMEIARAQNVPPYVIFHDKTLIELAAAKPASAQEMAGIPGVGDTKLERYGPAFLAAIMQHAAGE				NA	NA	NA	NA	NA
BMS010_09738	1233			hypothetical protein	ATGAGACAATCTGTCGAGACGGCGCCGCCGGCACCGCCCACCACCATGGATATAAGCGGCGGCGCCAACCAGATCGGAGTGCGCGCTTATAATGAGCGGCTCGTGCTGTCTCTCGTTCGCCGTCACGGCGGACTGTCAAAAGCCGAGATATCAAGACTTTGCGGCCTTTCAGCGCAGACGGTCTCGGTCATCATGCGCTCGCTTGAAAAGGACGGGCTTCTCATTCGCGGTGAAAGACTGCGTGGCAAAGTCGGCCAGCCATCGACGCCGATGCGGCTTAATCCCGACGCCGTCTTTTCTTTCGGTGTGAAGATCGGCCGACGCAGCGTCGATCTCGTACTGATGGATTTTGTCGGCAGGATCAGGCTCAAGCTGCGCAGAACCTATCCCTACCCTCTTCCGGAATGGATACTACCCTTCGTAATCGACGGCATAACGGAACTCGAATCGAAGCTTTCCCCTGCCGAGCGGGAGAAAATTGCCGGCGTCGGCATCGCCGCTCCATTTGAATTGTGGAACTGGGCGCAGGAAGTGGGCGCTCCACAGATCGAAATGGAGAGATGGCGGGGCGTCGATATCCGGTCGGAAATTGCCGAAAACGTGAGCTATCCGGTTTTTCTGCAGAACGACGCGACCAGCGCCTGCGGCGCCGAACTGGTTTTTGGCGCAGGCCAGCACTATCCGGATTTTCTTTACGTCTTCATCGGCTCCTTCATAGGCGGCGGCGTTGTTTTGAATTCGGCGCTATTTTCCGGAAAGACGGGAACGGCCGGCGCCATCGGCCCCCTGCCGGTGCAGGGGCAGGACGGCAATACCGTCCAGCTTCTGAAAATCGCGTCGATCTTCGTTCTGGAAAACATGCTGCGCGAAAAGGGCATCGATCCGCGCCCCCTGTGGTTTTCTCCGGACGAGTGGATCGATTTCGGCGAGCCGCTGGAAAGCTGGATCAGGAAAACCGCCGCGGCGCTGGCGCAGGCCGTCATTGCCGCCGCCTCCATCATCGATTTTTCGAGCGTCATCATCGATGGCGGTTTTCCCGACTGGGTCAGAACCAGAATCGTCGCCGCCACCCGCCTTGCCCTTAAACACCACGATCTGCAGGGTGTCACGGTGCCTGACATCATCGAAGGCGCGGTCGGTAGCCAGGCGCGGGCAATCGGCGGCGCGAGCCTGCCCCTGTTTTCGCGCTATCTCATCGATCAGAACGTTCTGTTCAAGGACACGACCGGCTGA	MRQSVETAPPAPPTTMDISGGANQIGVRAYNERLVLSLVRRHGGLSKAEISRLCGLSAQTVSVIMRSLEKDGLLIRGERLRGKVGQPSTPMRLNPDAVFSFGVKIGRRSVDLVLMDFVGRIRLKLRRTYPYPLPEWILPFVIDGITELESKLSPAEREKIAGVGIAAPFELWNWAQEVGAPQIEMERWRGVDIRSEIAENVSYPVFLQNDATSACGAELVFGAGQHYPDFLYVFIGSFIGGGVVLNSALFSGKTGTAGAIGPLPVQGQDGNTVQLLKIASIFVLENMLREKGIDPRPLWFSPDEWIDFGEPLESWIRKTAAALAQAVIAAASIIDFSSVIIDGGFPDWVRTRIVAATRLALKHHDLQGVTVPDIIEGAVGSQARAIGGASLPLFSRYLIDQNVLFKDTTG				NA	NA	NA	NA	NA
BMS010_09739	1023	frcB		Fructose import binding protein FrcB	ATGAAGACCACTGTTTCCGCTCTTCTGGGCGCGCTTGCGCTTGGCGTTTCTTTCGCTTCCGTTGCGTCTGCGGCCGATACTTCGGTTTGCCTCATCACCAAAACCGATACCAATCCCTTTTTCGTCAAGATGAAAGAAGGCGCGACCGCCAAGGCTAAAGAACTTGGCGTGACGCTGAAATCCTATGCCGGCAAGATCGACGGCGATTCCGAAAGCCAGGTAGCCGCCATCGAAACCTGCATCGCCGATGGCGCCAAGGGTATCCTGATCACCGCATCGGATACCAAGGGTATCGTTCCGGCCGTTCAGAAGGCGCGTGATGCCGGTCTTCTGGTCATTGCGCTCGATACGCCGCTGGAACCCGTCGATGCCGCCGATTCCACCTTCGCCACGGACAATCTTCTGGCTGGTGAGCTGATCGGCAAATGGGCTGCCGGCAGCCTCGGCGACAAGGCAAAAGATGCGAAAATCGCCTTCCTTAACCTTACCCCCTCCCAGCCGACGGTGGATGTGCTGCGCAACCAGGGCTTCATGAAGGGCTTTGGCATTGACGTGAAGGACATCAACAAGATCGGCGATGAAAACGATCCGCGTATCGTCGGCCATGATGTCACCAATGGTAACGAAGAAGGCGGCCGCGCGGCGATGGAAAATCTGCTGCAGAAGGACCCGACCATCAACGTCGTCCACACCATCAATGAACCTGCGGCTGCCGGCGCTTATGAGGCGTTGAAGGCGGTCGGCCGTGAAAAGGATGTTCTGATCGTTTCCGTCGATGGCGGTTGCCCGGGCGTCAAGAACGTCGCGGAAGGCGTGATCGGCGCGACCTCGCAGCAATATCCGCTGCTGATGGCGGCGCTTGGCGTGGAAGCCGTCAAGAAGTTTGCCGACACCGGTGAAAAGCCGAAGCCGACTGAAGGCAAGAACTTCGTCGATACCGGCGTGACGCTGGTAACCGACAAGCCGGTCAAGGGCCTCGACTCCATCGATACGAAGGAAGGTCTCAACAAGTGCTGGGGCTGA	MKTTVSALLGALALGVSFASVASAADTSVCLITKTDTNPFFVKMKEGATAKAKELGVTLKSYAGKIDGDSESQVAAIETCIADGAKGILITASDTKGIVPAVQKARDAGLLVIALDTPLEPVDAADSTFATDNLLAGELIGKWAAGSLGDKAKDAKIAFLNLTPSQPTVDVLRNQGFMKGFGIDVKDINKIGDENDPRIVGHDVTNGNEEGGRAAMENLLQKDPTINVVHTINEPAAAGAYEALKAVGREKDVLIVSVDGGCPGVKNVAEGVIGATSQQYPLLMAALGVEAVKKFADTGEKPKPTEGKNFVDTGVTLVTDKPVKGLDSIDTKEGLNKCWG	PGPT0016680_168	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_FRUCTOSE_TRANSPORT,PGPT0016680-frcB-K10552	NA	NA
BMS010_09740	1083	frcC	COG1172	Fructose import permease protein FrcC	ATGAGCGATCAGCCGGTGCGGGCTCAGCCGCATAATGAATTTGAAAAAGTGCTTTCGGGAAGTTCGACGCAGGTCGCTGCTTTCGATACGCACGACAAGAGTGTGCTGGAAAAACTGCAGCACTTTCTCCACTCCAGCCCGGCGGCCGTTCCGCTTATCGTTCTGGTGCTGTCGCTGATTGTTTTCGGCCTGCTTCTCGGCGGCAAGTTTTTCTCGGCCTTCACGCTGACCCTTATTCTGCAGCAGGTCGCCATCGTCGGTATTGTCGGCGCGGCGCAGTCGCTGGTCATCCTGACGGCGGGCATCGATCTGTCGGTCGGCGCGATTATGGTCCTGTCTTCCGTTGTCATGGGACAGTTCACCTTCCGTTACGGCTTGCCGGCGGAACTTTCCATTCTCTGTGGCCTTGCCGTCGGCGCATTTTGCGGCTTCATCAACGGCATTCTGGTCTCGCGCATGCGCCTGCCGCCCTTCATCGTCACGCTAGGCATGTGGCAGATCGTATTGGCGACCAACTTCCTCTATTCCGCAAACGAGACGATCCGCGCCCAGGATATCGCCCAGCAGGCGCCGATCCTGCAATTCTTCGGCGCCAATATCCGGGTCGGCGGCGCGGTCTTCACCTATGGCGTCATCGCAATGGTCCTGCTCGTCGCCCTGCTCTGGTATGTGCTGAACCGCACCGCCTGGGGTCGCCACCTCTATGCTGTCGGTGACGATCCGGATGCCGCCGAACTTGCCGGTGTCAACGTCAAGCGCATGCTGACGACCGTTTACACGCTGTCGGGTCTCATCTGCGCCTTCGCCGGCTGGGCCTTGATCGGCCGCATCGGCTCGGTTTCGCCGACAGCCGGTCAATTCGCCAATATCGAATCCATTACCGCAGTGGTTATCGGCGGCCTGTCGCTGTTCGGCGGGCGCGGCTCCATCATGGGCATGATCTTCGGCGCCCTGATCGTCGGCGTCTTTTCGCTCGGCCTCAGGCTTATCGGAACAGACCCGCAATGGACCTATCTGTTGATCGGCGTCCTCATCATCATGGCTGTCGCAATCGACCAGTGGATCAGAAAGGTAGCAGGCTGA	MSDQPVRAQPHNEFEKVLSGSSTQVAAFDTHDKSVLEKLQHFLHSSPAAVPLIVLVLSLIVFGLLLGGKFFSAFTLTLILQQVAIVGIVGAAQSLVILTAGIDLSVGAIMVLSSVVMGQFTFRYGLPAELSILCGLAVGAFCGFINGILVSRMRLPPFIVTLGMWQIVLATNFLYSANETIRAQDIAQQAPILQFFGANIRVGGAVFTYGVIAMVLLVALLWYVLNRTAWGRHLYAVGDDPDAAELAGVNVKRMLTTVYTLSGLICAFAGWALIGRIGSVSPTAGQFANIESITAVVIGGLSLFGGRGSIMGMIFGALIVGVFSLGLRLIGTDPQWTYLLIGVLIIMAVAIDQWIRKVAG				NA	NA	NA	NA	NA
BMS010_09741	783	frcA_4	COG1129	Fructose import ATP-binding protein FrcA	ATGGCAAAAGAACCCATTCTCACAGCACGCAATCTCGTCAAGCGCTATGGTCGTGTGACCGCTCTCGACCATGCCGATTTCGATCTCTATCCGGGCGAAATCCTAGCCGTGATCGGCGATAACGGCGCTGGCAAATCCTCTCTCATCAAGGCGATTTCCGGTGCGGTGACACCCGATGAAGGGGAAATCCGGCTGGAAGGCCAGCCCGTCCAATTCCGCTCGCCGATAGAGGCGCGCAAGGCTGGCATCGAGACGGTCTATCAGAACCTCGCGCTTTCGCCGGCGCTTTCCATAGCCGACAATATGTTTCTCGGCCGCGAAATCCGTAAACCCGGCATTCAGGGCAGCCTGTTCCGGGCCCTTGACCGCCCCGCCATGGAAAAATTCGCACGGGAGAAACTGTCGGAACTCGGCCTGATGACGATCCAGAACATCAATCAGGCGGTGGAAACCCTCTCCGGGGGTCAGCGTCAGGGTGTGGCGGTGGCGCGTGCAGCCGCCTTCGGCTCCAAGGTCGTTATCCTCGACGAGCCGACGGCAGCACTCGGCGTGAAGGAAAGCCGGCGTGTTCTGGAGCTTATTCTGGACGTGCGTTCGCGCGGCCTGCCGATCGTCCTCATCTCGCACAACATGCCGCATGTTTTCGAGGTCGCGGATCGCATCCATATCCACCGGCTCGGCAAGCGCCTGTGTGTTATCAATCCGAAGGACTACTCCATGTCCGACGCCGTCGCCTTCATGACCGGCGCCAAGGAAGCGCCGAAGGAAACGCTTGCCGCATGA	MAKEPILTARNLVKRYGRVTALDHADFDLYPGEILAVIGDNGAGKSSLIKAISGAVTPDEGEIRLEGQPVQFRSPIEARKAGIETVYQNLALSPALSIADNMFLGREIRKPGIQGSLFRALDRPAMEKFAREKLSELGLMTIQNINQAVETLSGGQRQGVAVARAAAFGSKVVILDEPTAALGVKESRRVLELILDVRSRGLPIVLISHNMPHVFEVADRIHIHRLGKRLCVINPKDYSMSDAVAFMTGAKEAPKETLAA	PGPT0016685_211	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_FRUCTOSE_TRANSPORT,PGPT0016685-frcA-K10554	NA	NA
BMS010_09742	630	coaA_2		Pantothenate kinase	ATGACGCTGAAGCTTGAAACCATCGCCGAAGACGTTCTTCGGCGGGCAGAAGGTAGATCCCGTTTTATCGTCGCTATTGCCGGTCCCCCTGGGGCCGGCAAATCCACGCTGGCGGATGCCCTTTGTGATGCTTTGCTGGCACGGGGCGAAACGGCCGCCGTGCTGCCCATGGACGGCTTCCATATGGACAATGGCATCCTTGGAGAACGGGGGCTGCTGCCGCGAAAGGGCGCACCCGAAACCTTCGACGTGCGCGGCTTCCTCGATATCGTCTCCGCCGTCCGCAAGGGCGGGCAGGAGGTGCTTGTTCCGGTTTTCGACCGTTCCCGTGAAATCGCGATAGCGTCCGCGCGGGCGATTGCGCCGGAAACACGCTTTATCCTTGCTGAAGGCAATTATCTGCTGCTGGACGAGGCGCCGTGGACAACTCTTTCCAAAAGCTTCGACGTCACCATTTTTGTAGGGCCGTCCGTCGACGTGCTTGAGGAGAGGCTGCGGAAAAGGTGGCAGGGCTATGGTCTCGACGAGACCGCGATCCACGCCAAACTTTTCGAAAACGATCTTCCGAACGGAAAAAGGGTGATCGAAAACGCCCGTCCCGCCGATATTCACATCGATATCTGGGAATAG	MTLKLETIAEDVLRRAEGRSRFIVAIAGPPGAGKSTLADALCDALLARGETAAVLPMDGFHMDNGILGERGLLPRKGAPETFDVRGFLDIVSAVRKGGQEVLVPVFDRSREIAIASARAIAPETRFILAEGNYLLLDEAPWTTLSKSFDVTIFVGPSVDVLEERLRKRWQGYGLDETAIHAKLFENDLPNGKRVIENARPADIHIDIWE				NA	NA	NA	NA	NA
BMS010_09744	222	nrdH	COG0695	Glutaredoxin-like protein NrdH	ATGACCGTCACCGTTTACAGCAAGCCCGCCTGCGTCCAGTGCACCGCCACCTATCGTGCGCTCGACCGCATCGGCGTCCCCTATGAGATTGTCGATATTTCCGAAGATGCGGATGCGCTCGATCATGTCCGCGGTCTCGGCTACATGCAGGTGCCCGTCGTTGTTGCCGGTGAGCGCCATTGGGCGGGTTTCCGGCCGGATATGATCGGCTCGATCAGCTGA	MTVTVYSKPACVQCTATYRALDRIGVPYEIVDISEDADALDHVRGLGYMQVPVVVAGERHWAGFRPDMIGSIS				NA	NA	NA	NA	NA
BMS010_09745	399	nrdI	COG1780	Protein NrdI	ATGGGCCTGATCGTCTATTATTCCAGCCGCTCTGAAAACACCCATCGTTTCCTTCTGAAACTGGGACGGCGTCTGTTTCGCCTGCCGCTTGGCGTTGAGGAAGATGTTCCCCATGTGTCCGAGCCCTACGTGCTGGTCACACCCACCTATGGGGGTGGTGGCACCAAAGGGGCCGTGCCGAAACCGGTCATCCGGTTCTTGAACGAGCCCTCCAACCGAAACCTCATTCGCGGCGTCATCGCGGCGGGAAACACGAATTTTGGCGCAGCTTTCGCATCCGCCGGAGATATCGTCTCGCGCAAATGCGCCGTGCCGTTTCTCTATCGCTTCGAGCTTCTTGGCACGGAGGAAGATGTCGCCAACGTCAAACATGGATTGGAACGATTTTGGACACGCTGA	MGLIVYYSSRSENTHRFLLKLGRRLFRLPLGVEEDVPHVSEPYVLVTPTYGGGGTKGAVPKPVIRFLNEPSNRNLIRGVIAAGNTNFGAAFASAGDIVSRKCAVPFLYRFELLGTEEDVANVKHGLERFWTR	PGPT0021340_1491	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021340-nrdA|nrdE-K00525	NA	NA
BMS010_09746	2187	nrdE	COG0209	Ribonucleoside-diphosphate reductase subunit alpha	TTGGACACGCTGACCTCAAGCGCGCTGCGCAAGGACGCCAAACAGCCGGCAGCCGCAACCCAGAAACCGCTCGATGCGGCTCTGGACTACCACGCGCTGAACGCGATGCTGAACCTTTACGACGAGAACGGAAAGATCCAGCTCGACAGGGATCGCCTTGCCGCCCGGCAATATTTCCTTCAGCACGTCAACCAGAATACCGTCTTTTTCCATAACCTTAGGGAAAAGCTCGATTATCTGGTGACGGAGGGATATTACGAGCAGGAGGTGCTGGATCAGTACTCCTTCAATTTCGTCCGCGACCTCTATGACGACGCCTACGCCCGGAAATTCCGCTTTCCGACCTTTCTCGGCGCCTTCAAATATTACACCTCCTACACGCTGAAGACCTTCGACGGAAAACGTTATCTGGAGCGTTACGAGGATCGCGTCTGCATGGTGGCGTTGGCCCTTGCGCGCGGTGATGAGCAGCTTGCCCGCAATCTGGTCGATGAAATCATTTCAGGCCGCTTCCAGCCGGCAACGCCGACATTCCTCAACGCCGGCAAGAAGAGCCGCGGCGAGCTGGTCTCGTGTTTTCTGCTGCGTGTGGAAGATAATATGGAAAGCATCGGCCGCTCCATCAATTCGGCCCTGCAGCTTTCCAAGCGCGGCGGCGGCGTGGCGCTGTCCTTGACCAATATTCGCGAATTCGGAGCGCCGATCAAACAGATCGAAAACCAGTCTTCCGGCGTTATTCCCGTCATGAAGCTGCTGGAAGACAGTTTTTCCTACGCCAACCAGCTTGGTGCGCGTCAGGGTGCCGGCGCGGTCTATCTGCACGCCCACCACCCGGATATCATGCGCTTCCTCGATACCAAGCGCGAAAATGCCGACGAGAAAATCCGCATCAAGACCCTGTCACTCGGCGTGGTGATCCCCGACATCACCTTCGAACTCGCCCGCAACAACGAGGATATGTATCTGTTTTCGCCCTATGATGTGGAGCGGGTCTATGGCGTGCCGTTGACCGAGATTTCGGTCACCGAAAAATACCAGGAAATGGTCGCCGATAGCCGCATCCGCAAGAAGAAGATCAAGGCGCGCGAATTCTTCCAGGTGATCGCCGAAATTCAGTTCGAGAGCGGTTACCCCTACATCATGTTCGAGGATACGGTGAACCGCGCCAACCCGATCGCCGGTCGTATCAGCATGAGCAATCTCTGCTCGGAAATCCTGCAGGTCAGCGAGGCAAGCGAGTTCAACGCCGATCTATCCTACAGCCATATGGGCAAGGATATTTCCTGCAATCTCGGCTCGCTCAACATTGCATCAGCAATGAATTCTGCGGATTTCGGCAAGACCATCGAGACCTCCATCCGGGCGCTGACGGCGGTGTCGGATATGAGCCATATTTCCTCCGTTCCTTCGGTGGAAAAGGGCAATGATGCCAGCCACGCCATCGGGCTAGGCCAGATGAACCTGCACGGCTATCTGGCGCGCGAACGCATCTTCTACGGCTCCGAAGAAGGCGTCGATTTCACCAATATCTATTTCTACACCGTCACCTATCACGCCATCCGCGCCAGCAACCGGCTGGCGGTAGAGAGGGGCCAGAGCTTCAAGGGCTTTGAAAACTCCAAATATGCCTCTGGCGAATATTTCGACAAATATACCGAGCAGGAATGGGTGCCTGCGACTGAAAAGGTCCGTGAGCTGTTCGAAAAAGCCGGTATCGCCATTCCGACGCAGGAGGACTGGAAGGCTTTGAAGCAGGACGTGATGGCATCGGGTCTCTATAACCAGAACCTTCAGGCCGTACCGCCGACGGGCTCGATCTCCTATATCAACCACTCCACTTCCTCCATTCATCCGATCGTCTCGAAGATCGAAATCCGCAAAGAGGGCAAGATCGGCCGCGTTTATTACCCGGCTTCCTATCTCTCGAACGACAATCTCGAATATTATCAGGACGCCTATGAAATCGGCCCGGAAAAGATCATAGACACCTATGCAGCGGCGACCCAGCATGTCGATCAGGGCCTGTCGCTGACGCTGTTCTTCCGCGATACGGCAACGACGCGCGATATCAACCGGGCGCAGATCTACGCCTGGAAGAAGGGCATCAAGACCATCTACTACATCCGTTTGCGCCAGATGGCGCTGGAAGGCACGCAGGTTCAGGGCTGCGTTTCCTGCACGCTCTGA	MDTLTSSALRKDAKQPAAATQKPLDAALDYHALNAMLNLYDENGKIQLDRDRLAARQYFLQHVNQNTVFFHNLREKLDYLVTEGYYEQEVLDQYSFNFVRDLYDDAYARKFRFPTFLGAFKYYTSYTLKTFDGKRYLERYEDRVCMVALALARGDEQLARNLVDEIISGRFQPATPTFLNAGKKSRGELVSCFLLRVEDNMESIGRSINSALQLSKRGGGVALSLTNIREFGAPIKQIENQSSGVIPVMKLLEDSFSYANQLGARQGAGAVYLHAHHPDIMRFLDTKRENADEKIRIKTLSLGVVIPDITFELARNNEDMYLFSPYDVERVYGVPLTEISVTEKYQEMVADSRIRKKKIKAREFFQVIAEIQFESGYPYIMFEDTVNRANPIAGRISMSNLCSEILQVSEASEFNADLSYSHMGKDISCNLGSLNIASAMNSADFGKTIETSIRALTAVSDMSHISSVPSVEKGNDASHAIGLGQMNLHGYLARERIFYGSEEGVDFTNIYFYTVTYHAIRASNRLAVERGQSFKGFENSKYASGEYFDKYTEQEWVPATEKVRELFEKAGIAIPTQEDWKALKQDVMASGLYNQNLQAVPPTGSISYINHSTSSIHPIVSKIEIRKEGKIGRVYYPASYLSNDNLEYYQDAYEIGPEKIIDTYAAATQHVDQGLSLTLFFRDTATTRDINRAQIYAWKKGIKTIYYIRLRQMALEGTQVQGCVSCTL	PGPT0021340_4589	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021340-nrdA|nrdE-K00525	NA	NA
BMS010_09747	975	nrdF	COG0208	Ribonucleoside-diphosphate reductase 2 subunit beta	ATGAATATCGCCGTAAAACCCGCGTCCCGCATCCGAGCGGTCAACTGGAACCGCATCGAGGACGACAAGGACCTCGAAGTCTGGAACCGCCTGACCTCGAATTTCTGGCTGCCGGAAAAGGTGCCGCTCTCCAATGACATCCCCTCCTGGGGAACGCTGAAGCCGGAAGAGCAGAAACTGACAATCCGTGTCTTCACCGGCCTGACATTGCTCGACACCATCCAGAACGGTGTCGGCGCCGTGCGCCTGATGGCGGATTCGGCCACCCCGCATGAGGAGGCGGTTCTGTCCAACATCTCCTTCATGGAGGCGGTGCACGCCCGTTCCTATTCGTCGATCTTCTCGACGCTGTGCCTCACGCCTGACGTTGACGACGCCTATCGCTGGTCGGAGGAAAACGAATTTCTGCAGCGTAAATCCGCGCTCATCATGCGGGAATATGACAGCGGCGATCTGCTGAAAAAGAAGATCGCCAGCGTGTTTCTGGAAAGTTTCCTGTTCTATTCCGGCTTCTATCTGCCGATGTTCTGGTCAAGCCGGGCCAAACTCACCAATACGGCGGATTTGATCCGCCTCATCATTCGCGATGAGGCCGTGCATGGTTATTATATCGGCTACAAGTTCCAGCGGGCGCTGGAGCGTCTCAGCGAAACGCAGAGACAGGAGATCAAGGATTTCGCCTTCGATCTCCTGCTCGAACTTTACGACAACGAAGCGAAATATACCGAAGACCTCTATGACGGCGTCGGCCTGACGGAGGACGTCAAGCAGTTCCTGCATTACAACGCGAACAAGGCCCTGATGAATCTGGGTTATGAGGCGCTGTTTCCGGCCGAGGCCTGCCGGGTCAACCCCGCGATCCTCTCGGCGCTTTCTCCGAATGCCGACGAGAACCACGACTTCTTTTCCGGTTCCGGCTCCTCTTATGTCATCGGCAAGGCGGTTGCGACCGAAGACGAAGACTGGGATTTCTGA	MNIAVKPASRIRAVNWNRIEDDKDLEVWNRLTSNFWLPEKVPLSNDIPSWGTLKPEEQKLTIRVFTGLTLLDTIQNGVGAVRLMADSATPHEEAVLSNISFMEAVHARSYSSIFSTLCLTPDVDDAYRWSEENEFLQRKSALIMREYDSGDLLKKKIASVFLESFLFYSGFYLPMFWSSRAKLTNTADLIRLIIRDEAVHGYYIGYKFQRALERLSETQRQEIKDFAFDLLLELYDNEAKYTEDLYDGVGLTEDVKQFLHYNANKALMNLGYEALFPAEACRVNPAILSALSPNADENHDFFSGSGSSYVIGKAVATEDEDWDF	PGPT0021345_3295	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021345-nrdB|nrdF-K00526	NA	NA
BMS010_09748	1104			hypothetical protein	ATGCGCCTGATCTTTTCTCTCTTTCTCACCCTCGGTCTTCTCTCCTCCTGCGCAGGCCGACCGGGGGCGGATGTGCTGGAGGCCGTCAACACCAGGACCCGAGACACGAAAATCGTGACCGCCTTCGTGGCGAGCACGCGAGAGAAAAACACGGACGCAAAAAAGGGCTTCGGCACGGAGCGGGCAATGGAGCCGAACTACGCCAGTTTCGATATTTCCATTCCGCCCACCCATAAAAGCGGGAAAATCGAATGGGCCAGCGGCAAGCCGGACCCGAACAAGGATTTCGTCGTCACCAGGGCCGATATGCTGACGAAGACGCGCTTTAATGCCGATCTTGGCGACATAGCCCGCTCTGGCAAGCAGATCGCACTTTTTGTACACGGCTATAATTACAGCTATCAGGAAGCTCTGTTCCGCGCGGCGCAGATGGCGGCGGATGCCAATATGAACGGCGTGCCGCTGGTCTTTTCCTGGCCGTCGCAAGCCTCCGTCGCCGGTTATGTGGCCGACAAGGAGTCCGCGACTTTTTCACGCGATGCGCTCGCCGCGATGTTGATCGATCTCACCCGGCAGACCCCTAAGAAGAGCGTCGTCGTGTTCGGTCACAGCATGGGCGGCTGGCTGGTCATGGAGGCGCTGCGGCAATTGCGTTTCCAGGGCAGAAACGATGTCATCGCCAAGCTGCAGGTGGTGCTGGCTGCGCCTGATATTGACGCCGATGTCTTCCGCAAGCAGATCGAGGTTGTCGGCCGGCTCAGCCCGCCGCTCACCGTTCTCGTTTCCAAGGATGACCGTGCGCTGAAAGCCTCTTCCATCCTTGGCGCCGACGTTACCCGTATCGGTGCGCTGGATGTGACTGACCGCCAAGTGCAGGAAGCCGCTCTCAAGGAGGGCGTGCAATTCGTCGACATCTCCAATCTGAAGGCGTCGGACCCGCTCAACCACGACCGCTACGCGGCGCTGGCCTCCATGGTGCCGCAGCTGGAGGCAAGCAGGCGCGGGGGCGATATCAACAGTGCCGGAGCCTTCGTTTTCGATGCGATCGGCGCCACTGTCTCCAGCCCCTTCCGCCTTGCGAGCCAGGTGGTGAACCCGCAATAG	MRLIFSLFLTLGLLSSCAGRPGADVLEAVNTRTRDTKIVTAFVASTREKNTDAKKGFGTERAMEPNYASFDISIPPTHKSGKIEWASGKPDPNKDFVVTRADMLTKTRFNADLGDIARSGKQIALFVHGYNYSYQEALFRAAQMAADANMNGVPLVFSWPSQASVAGYVADKESATFSRDALAAMLIDLTRQTPKKSVVVFGHSMGGWLVMEALRQLRFQGRNDVIAKLQVVLAAPDIDADVFRKQIEVVGRLSPPLTVLVSKDDRALKASSILGADVTRIGALDVTDRQVQEAALKEGVQFVDISNLKASDPLNHDRYAALASMVPQLEASRRGGDINSAGAFVFDAIGATVSSPFRLASQVVNPQ				NA	NA	NA	NA	NA
BMS010_09749	1128	recF_2	COG1195	DNA replication and repair protein RecF	ATGACGAACAAGGTGTCGCTTTTACGGCTGAAACTCACAGACTTCCGCAATTATGCGGCGGCTGCGCTCACGCTCGATGAACGCCATGTTGTGCTGACGGGCGACAACGGTTCCGGCAAAACCAATCTTCTGGAGGCCGTCTCCTTTCTTTCACCCGGAAGGGGCCTGCGCCGCGCCACCTTGTCTGATGTGACGCGGGTAGGGGCCGAAGCCACCGGTTTCTCGATCTTCGCCGATGTCGAGGGCATGGATGGCGAAGTTGCCATCGGTACGGGAATTGAAGGCGATGGCGAGGTGGTGTCGCGTCGCTTGAGACTGAACGGGACGCCGGTGAAATCCGTCGATGAGCTGACCGACCATCTGCGGGTATTGTGGCTGACGCCCGCGATGGACGGCCTCTTTACCGGCTCGTCCTCGGACCGCCGGCGTTTCCTCGACCGGCTGGTGCTGTCGCTCGATCCCGCTCACGGACGGCGGGCAAGCGATTTCGAAAAGGCCATGCGCGGCCGTAACCGGCTACTTTCGGAAGGCCGCTTCGATCCGGTCTGGCTGGACGGCATCGAAAAGCAGATGGCCGAACTCGGCATCTCCATGGCGGTCGCGCGTTATGAGATGCTCGGCCTCTTGAAGAGCCTCATCGAGGGGCGGGCTGGCAATGCCGCTTTTCCCTCGGCGGCGCTTTCGCTCTCCGGTTTCATGGACGATGGGCTCAATCGTCCCGCCGTCGATCTGGAGGACGAATACAGGCTTATGTTGCGCGATGGCCGGTATCGTGACGCCGCTGCCGGCCGCACACTGGATGGGCCGCACCGCGTCGATCTCTTCGTGCGCCATGCGGAAAAAGACATGGAGGCCGAACGCTGTTCAACCGGGGAACAGAAGGCGCTGCTGGTGGGGCTGGTGCTTGCGCATGCGCAGCTGACCGCCAATATGACTGGCCATGCGCCGGTTCTGCTGCTGGACGAGATCGCCGCCCATCTGGATGAGGGCAGGCGGGCGGCTCTGTTCGATCTCATCCATACACTTGGCGGCCAGAGTTTTATGACCGGAACGGATAGGGCGATGTTCTCCGCCCTCGGCGACAGGGCGCAATTCTTCAATGTTTCCCATGGGAGCATCACGGCATGA	MTNKVSLLRLKLTDFRNYAAAALTLDERHVVLTGDNGSGKTNLLEAVSFLSPGRGLRRATLSDVTRVGAEATGFSIFADVEGMDGEVAIGTGIEGDGEVVSRRLRLNGTPVKSVDELTDHLRVLWLTPAMDGLFTGSSSDRRRFLDRLVLSLDPAHGRRASDFEKAMRGRNRLLSEGRFDPVWLDGIEKQMAELGISMAVARYEMLGLLKSLIEGRAGNAAFPSAALSLSGFMDDGLNRPAVDLEDEYRLMLRDGRYRDAAAGRTLDGPHRVDLFVRHAEKDMEAERCSTGEQKALLVGLVLAHAQLTANMTGHAPVLLLDEIAAHLDEGRRAALFDLIHTLGGQSFMTGTDRAMFSALGDRAQFFNVSHGSITA				NA	NA	NA	NA	NA
BMS010_09750	768	moeZ_3	COG0476	putative adenylyltransferase/sulfurtransferase MoeZ	ATGGACCCGCTGAGCCCGGAAGAAATCGAACGCTACAAGCGCCATATCCTGTTGCCGGAAATCGGCGGCGTGGGCCAGCAGCGGCTGAAGGCGGCGCGTGTGCTGGTCATCGGCGCCGGTGGTCTCGGCGCTCCTGTCCTGCATTATCTTGCCGCCGCCGGTGTCGGCACGCTCGGCATGATCGATGACGATGTGGTTTCCCTGTCCAATCTGCAGCGACAGGTGATCCACGATACCGGTACGATTGGGGAGCTGAAGACGGAGAGCGCGCGCAAGGCCATCGCCCGGCTCAATCCGCATGTCCGCACGCTTGTTTATGAAGAGCGCTTTTCGCAGGTCTGGGCGCATGACCATCTGCAATCCTTCGATCTCCTGATCGACGGCTCGGACAATTTCGATACGCGTTATACTGCCGCCGATGCGGCGGAGGCTGCGAAAAGACCGTTGGTAACGGGAGCTGTCGGCCGTTTCGATGGTTCGGTGACGGTGCTGAAACCCTATGAGGCGAATGCCGAGGGTGCTCTGCTGCCCGGCTATCGCGACCTGTTTCCGGAACCGCCACCGCAGGGCCTCATTCCCAATTGCGCGGAGACAGGCATTGTCGGCGCGCTGACAGGGGTTATCGGCACGCTTATGGCCATGGAGGCCATCAAGGTTATCACCGGTGCCGGCGAGCCGTTAATCGGCCGTCTGCTCCTCTATGACGCCCTGTCGGCCCGTTTCGAAACCGTGCGATACAAGCGGCGGGCAACTGGGAAGAAACCATGA	MDPLSPEEIERYKRHILLPEIGGVGQQRLKAARVLVIGAGGLGAPVLHYLAAAGVGTLGMIDDDVVSLSNLQRQVIHDTGTIGELKTESARKAIARLNPHVRTLVYEERFSQVWAHDHLQSFDLLIDGSDNFDTRYTAADAAEAAKRPLVTGAVGRFDGSVTVLKPYEANAEGALLPGYRDLFPEPPPQGLIPNCAETGIVGALTGVIGTLMAMEAIKVITGAGEPLIGRLLLYDALSARFETVRYKRRATGKKP				NA	NA	NA	NA	NA
BMS010_09751	477			hypothetical protein	ATGATGGAGATCGCTAAGATCGGGGAAGAATTCAATCGCTGGCAGGAATTGCTGGCACTTGTCATGTCCTCCTTCGCCTATATGGATGGCGTCATTGATCCGCCGTCGTCGGCTCATCGCCTGACGCTTGAAAATCTGGCGCAGAAGGCAAGGGTGGAGATCGCTTTCGTGGCGCTTGATGGCGATGAGATTGTCGGCTGCCTGTTTTGCCGGCCGGAGCCGCCCGCCTGTCTTTATGTCGGCAAACTCTGTGTTTCCCCGAAAGCGCAGGGAAAGGGTATAGGCAAGATGCTTCTGGAGCAGGCCGAAGCGCTGGCCCGCGAATTGGCGTTACCGGCGCTGCGGCTGGAAACCCGTATCGAGCTTATCGCCAATCATACCAAATTCGCCGCCTGGGGTTTCGTCAAGACCGCCGAAAACGCCCATGCCGGCTATGACCGCACGACCTCGATCGAAATGACCAAATTCCTGGGCTGA	MMEIAKIGEEFNRWQELLALVMSSFAYMDGVIDPPSSAHRLTLENLAQKARVEIAFVALDGDEIVGCLFCRPEPPACLYVGKLCVSPKAQGKGIGKMLLEQAEALARELALPALRLETRIELIANHTKFAAWGFVKTAENAHAGYDRTTSIEMTKFLG				NA	NA	NA	NA	NA
BMS010_09752	1005			Glycerate dehydrogenase	ATGACCCACAAGAAGAGACCGACAGTCTATATCACCCGCAAATTGCCTGACGTCGTCGAAACCAGAATGCGCGAACTCTTCGATGCCGAACTGAATATCGACGATACGCCGCGCAGCGAGGCGGACCTTGTCGCCGCCATGCAAAGGGTGGACGTGCTCGTGCCGACCGTCACCGACCGCATCACCGCCGCGATGATCGGGCAGGCAGGGCCGCAGCTGAAGCTGATTGCGAGCTTTTCCAACGGCATCGACCATGTGGATGTGGATGCGGCGGCCCGAAAGGGCATTACCGTCACCAATACGCCCAATGTACTGACCGAGGACAGCGCCGATATCACCATGGCGCTGGTGCTCGCCGTGCCGCGCCGTATGATCGAAGGTACAAGGGTGCTCGCCAATGGCGCGGACGAATGGCTGGGCTGGTCGCCGACCTGGATGCTCGGGCGGCGCATTTCCGGCAAGCGCATCGGCATTGTCGGCATGGGCCGCATCGGAACCGCGGTTGCGCGGCGTGCCAAGGCCTTCGGCCTTTCCATTCATTATCACAACCGCAAACGCGTCAATCCAGCGACGGAAGCGGAGCTTGAGGCGACCTATTGGGACAGCCTCGACCAGATGCTGGCGCGGGTGGATATCGTCTCCGTCAATTGCCCTTCGACGCCCGCAACCTATCACCTGATTTCAGCGCGGCGGCTGGCGCTGATGCAGCCGACCAGCTACATCGTCAATACCGCACGCGGCGATATCATCGATGAAGCGGCAATGATCCAGTGCCTGCGCGAAGGCAAGATCGCCGGCGCCGGTCTCGATGTCTATGAGAATGAGCCTGCGGTGAACCCCAAGCTCATCAAGCTCGCCAAGGAAGGCAAGGTCGTGCTGCTTCCGCATATGGGCTCTGCGACTATCGAAGGCCGTATCGAAATGGGCGATAAGGTCATCATCAACATCCGCACGCTGTTCGATGGACACCGTCCGCCGAACCGGGTGCTGCCGGGGCGGAACTGA	MTHKKRPTVYITRKLPDVVETRMRELFDAELNIDDTPRSEADLVAAMQRVDVLVPTVTDRITAAMIGQAGPQLKLIASFSNGIDHVDVDAAARKGITVTNTPNVLTEDSADITMALVLAVPRRMIEGTRVLANGADEWLGWSPTWMLGRRISGKRIGIVGMGRIGTAVARRAKAFGLSIHYHNRKRVNPATEAELEATYWDSLDQMLARVDIVSVNCPSTPATYHLISARRLALMQPTSYIVNTARGDIIDEAAMIQCLREGKIAGAGLDVYENEPAVNPKLIKLAKEGKVVLLPHMGSATIEGRIEMGDKVIINIRTLFDGHRPPNRVLPGRN	PGPT0019780_311	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_OXALIC_ACID_DERIVATE_UTILIZATION,PGPT0019780-gyaR-K00015	NA	NA
BMS010_09753	540			hypothetical protein	ATGGGCATGCGCAGTGTGGTTTCTATCGTTTGCATTGCATTGTCTCTGGGCCTCCTCGGTGCGGCAACCGACGCCATGGCGCAGGGTGCCGCCAAAGGCGCAAGCGGCCTGCCGCTCCCGCGTTTTGTCAGCCTGAAATCCAAGCGCGTCAATATGCGCATCGGACCGAGCACGGATTATGCCGTGTCATGGATGTATCTGAAATCGGGAATGCCGGTAGAAATCATTCAGGAATATGAAAACTGGCGGCGCATCCGCGATGCCGACGGCACGGAAGGCTGGGTCAACCAGGCTCTGCTTTCCGGTGAGCGCACGGCCGTTGCTGCTCCGTGGATGCGTGGCAAGGGTAAGGAAGTTTATGTGAACATGCGCCGTGAGGCGCAGTCAGGCGCTTCCGTCGTTGCTCGGCTTGAGCCGGGCGTCGTCTTCAGGATCGGTGAATGCAATGGCGACTGGTGCCGCGCCGAGGCCGGCCAGGCCTCGGGCTGGGTTTCGCAGGGCGAAATCTGGGGTGCTTACCCCGGTGAAGCCTTTAAATAA	MGMRSVVSIVCIALSLGLLGAATDAMAQGAAKGASGLPLPRFVSLKSKRVNMRIGPSTDYAVSWMYLKSGMPVEIIQEYENWRRIRDADGTEGWVNQALLSGERTAVAAPWMRGKGKEVYVNMRREAQSGASVVARLEPGVVFRIGECNGDWCRAEAGQASGWVSQGEIWGAYPGEAFK				NA	NA	NA	NA	NA
BMS010_09754	993	ydjH	COG0524	putative sugar kinase YdjH	ATGACGAAATTCGACGTACTGACTGTCGGCAATGCCATCGTCGACATCATTTCCCGCTGCGACGATCGCTTCCTCAACGACAATGCCATTACCAAAGGCGCGATGAACCTCATCGATGCGGAACGGGCCGAGTTGCTTTACTCGCTGATGGGGCCAGCTCTCGAAGCCTCCGGCGGCAGCGCCGGCAACACGGCGGCAGGCGTGGCCAATTTCGGCGGCAAGGCCGCCTATTTCGGCAAGGTGGCACAAGATCAGCTCGGCGAAATCTTCCAGCACGATATCCGCGCGCAGGGCGTCTATTTCGAAACAAAGCCGGAAGGCACCTTCCCGCCGACCGCGCGTTCGATGATCTTCGTGACCGAAGATGGTGAGCGGTCGATGAACACCTATCTCGGCGCCTGCGTCGATCTCGGTCCTGAAGACGTGGAAGAAGACGTGGTGGCGGATACGAAAGTCACCTACTTCGAGGGTTATCTTTGGGACCCGCCGCGCGCCAAGGACGCCATTCGCGAATGCGCCCGCATTGCGCATGAAAACGGCCGCGAAGTCTCCATGACGCTGTCCGACAGCTTCTGCGTTGGCCGCTATCGCGACGAATTCCTCGACCTGATGCGTTCCGGTACTGTGGACATTGTTTTCGCCAACAAGCAGGAAGCGCTTTCGCTTTACGAAACCGACGATTTCGAGCTTGCGCTGACCAAAATCGCAGCCGACTGCAAGATCGCAGCGGTGACGATGAGCGAGGAAGGCGCCGTCATCCTGCGCGGCACGGAACGTGTGAAGGTCGAAGCCTATCCGGTGCATGACGTGGTGGACACCACGGGCGCCGGCGATCTTTTCGCTGCGGGCTTCCTGTTCGGTTATACGCAGGACCGGTCGCTCGAAGATTGCGGCAAGCTCGGCTGCCTTGCCGCTGCCGCCGTCATTCAGCAGGTTGGCCCGCGCCCGATGTCATCGCTCAAGGCGCTTGGCGAGAAGCACGGCCTTATTTAA	MTKFDVLTVGNAIVDIISRCDDRFLNDNAITKGAMNLIDAERAELLYSLMGPALEASGGSAGNTAAGVANFGGKAAYFGKVAQDQLGEIFQHDIRAQGVYFETKPEGTFPPTARSMIFVTEDGERSMNTYLGACVDLGPEDVEEDVVADTKVTYFEGYLWDPPRAKDAIRECARIAHENGREVSMTLSDSFCVGRYRDEFLDLMRSGTVDIVFANKQEALSLYETDDFELALTKIAADCKIAAVTMSEEGAVILRGTERVKVEAYPVHDVVDTTGAGDLFAAGFLFGYTQDRSLEDCGKLGCLAAAAVIQQVGPRPMSSLKALGEKHGLI	PGPT0017625_605	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017625-scrK-K00847	NA	NA
BMS010_09755	1191			hypothetical protein	ATGTACTGGCGGCATATAACGGACATAAAAGGCGGGGGAGACCCCGCTTTTTCTTTTTGGGTAACGTTCGGCCTTGCGAATTTTACGGGCCAAGACGCGCTTTCTGCCCAAGCGGCTCACGAGTTTTGTCTTTCTTGGACGCCATGTGGCGAAAACAAAGAGTGGGAGCGTTTTCGCGATTCCATTCCCGTGGAAAAGGCTCTAAAGCGGAGTATCTCCCGCAAAAGCCGCGAAAGCTTTCCCTCCATGTCTGCCGTTGCCGCGAATGTCGCTCCGATTTTCATTCTCATCCTGATCGGCTGGCTCACCGTCAAGGCTGGTCTGTTCAGGGCCGATGCCGGCGATATCCTCAGCGATTTCGTGTTCAAGATCGCCGTGCCGACCTTGATCTTCCGCACACTTGCGGAAGCGAATTTTCACGGTGCTTCGCCCTTCCGGCTCTGGATCACCTATTTCGCCGGCGTGGCCATCACCTGGACGGTCGGGCATATCGTCACCCGTTATGTCTTCAAGCAGGATGTCCGCATCGCCGTTATCGCCGGCATTTCCTCGGCCTTTGCGAACAATATCTTCATCGGCCTGCCGCTGGTCGGGCGCTCCGTCGGGGATGAGGGGCTGGTCGCTCTCTCCATCCTGCTCGCCATCCATCTACCTGTGATGATGATCGCGGGTACGATCCTGATGGAAAACGCCACGCACAAGGCGGTCGGCGGGGAAAAGCGAAGCATGGCGGCGGTGTTCAAGCAAGTGGGCCGCAATCTCGTCACCAATCCGCTGGTGATCGGCCTTGTCATCGGGCTTTCGACCAATGTTTCCGGCGTGGCGCTGACGCCCATCCTGAAAACCGTGGTCGATCAGATCGCCTCCATGGCGGGGCCGGCAGCACTTATTTCGCTCGGCATGGCGCTGACGAAATATACCATCCGAGGCAACATGGGCATTGCCGTCACCATGACGGTGTTCAAGCTGCTGCTGCTGCCCGCCTGCGTTTGGGCAATGGGTCATGCGCTCGGTCTCAGCCGGGAATGGACTGCGGCGCTCGTGCTTACCTCTTCGGTGCCGACTGGGGTCAATGCCTGGCTTATCGCAAACCGCTTCGGCATCGGCCATAGCGTTGCCGCCTCCACCATCAGCATTTCCACAGCGACCGGCGTTCTCTCCGTGTCGCTATGGGCATGGCTGCTGAGCTGA	MYWRHITDIKGGGDPAFSFWVTFGLANFTGQDALSAQAAHEFCLSWTPCGENKEWERFRDSIPVEKALKRSISRKSRESFPSMSAVAANVAPIFILILIGWLTVKAGLFRADAGDILSDFVFKIAVPTLIFRTLAEANFHGASPFRLWITYFAGVAITWTVGHIVTRYVFKQDVRIAVIAGISSAFANNIFIGLPLVGRSVGDEGLVALSILLAIHLPVMMIAGTILMENATHKAVGGEKRSMAAVFKQVGRNLVTNPLVIGLVIGLSTNVSGVALTPILKTVVDQIASMAGPAALISLGMALTKYTIRGNMGIAVTMTVFKLLLLPACVWAMGHALGLSREWTAALVLTSSVPTGVNAWLIANRFGIGHSVAASTISISTATGVLSVSLWAWLLS	PGPT0001720_1263	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0001720-mdcF-K13936	NA	NA
BMS010_09756	1017	rsmC_2		Ribosomal RNA small subunit methyltransferase C	ATGAGCCGTGACGCCGTGAAAACCCTTTTCCATCCCTTTGCCTCGGACATGCTTGCCATGCCGAAAGAGGGCGAACGCGTTCTGTTTCTGGGAGCGGAAGCCGGTCCCCGGCTTGACGGTTTTGACGCGGAGATCGTCGCGGTTCAGCATCTACGGCCGCTTTATCGTGCTCTGCAGGCTCAGGGTGCGGAAGTGACACCGGATATTTCGGGCGAGAATTACGATGCGGCGCTGCTGCTTTGCGGCAAACATCGCGGCGAGAATGAAAACCGCGTCGCCGAAGCGCTTTCGCGCGTGAAGGCCGGAGGCCTGATCGTCGCGGCCGGATCGAAGGAAGACGGTATCGTGACGCTGCGCAAGACGCTGGCAAAGCTTGGCATCGAGGTGGAATCGACGCCGAAGTATCACGGCGTCGCTCTCTGGTTCAAACGGCCGGACGATATTGCGTCTGCCGTGTCGAAGCTCGCCCAGAAGCCGGTGACGGTCGAAGGCCGCTTCACCGCCCTGCCCGGCATGTTCTCCCATGACCGCGTGGACGACGGCTCGGAACTGCTCGCATCGCGCCTGCCCACAGATTTTGACGGCAATGCCGCCGATTTCGGTGCCGGCTGGGGTTATCTCTCCGTCATGCTGGCCGAGAAATCGCCGCGCACGGCCCGTATCGATCTGTTCGAGGCGGACTGGAATGCGCTGGAATTCGCCAAAACCAATCTTCTCGAAAACAATCCGAGGCTGACGGCGCGCTTCTTCTGGCAGGACCTGGCAAACGAGCCGCCGAAGGAAAAATACGACCTCATCATCATGAACCCGCCTTTCCATGCGGCGGGGCAGGCAGCAGAACCTGCCCTCGGCCAGGCCTTCATCAAGGCTGCCGCCGGCGCGCTGCGCAGCGGCGGCAAGCTGCTGATGGTCGCCAATCGTGGCATGCCCTATGAGCCGGTGCTCGCGGCGGAATTCCGCACCAGCACTGAGGTGTGCCGTAACGCGCGCTTCAAGATTCTGAGCGCCCAGAAATAA	MSRDAVKTLFHPFASDMLAMPKEGERVLFLGAEAGPRLDGFDAEIVAVQHLRPLYRALQAQGAEVTPDISGENYDAALLLCGKHRGENENRVAEALSRVKAGGLIVAAGSKEDGIVTLRKTLAKLGIEVESTPKYHGVALWFKRPDDIASAVSKLAQKPVTVEGRFTALPGMFSHDRVDDGSELLASRLPTDFDGNAADFGAGWGYLSVMLAEKSPRTARIDLFEADWNALEFAKTNLLENNPRLTARFFWQDLANEPPKEKYDLIIMNPPFHAAGQAAEPALGQAFIKAAAGALRSGGKLLMVANRGMPYEPVLAAEFRTSTEVCRNARFKILSAQK				NA	NA	NA	NA	NA
BMS010_09757	2148	pnp_1	COG1185	Polyribonucleotide nucleotidyltransferase	ATGTTCAATCAACACTCCGTGGAAATCGAATGGGCAGGCCGCCCGCTGAAGCTCGAGACCGGCAAGGTTGCCCGTCAGGCTGACGGCGCCGTCATCGCAACCTACGGCGAGACGATGGTTCTCGCGACCGTGGTTTCCGCAAAGTCTCCGAAGCCCGGCCAGGACTTCTTCCCGCTGACAGTCAACTATCAGGAAAAGACCTACGCAGCCGGCAAGATCCCCGGTGGTTACTTCAAGCGCGAAGGCCGTCCGAGCGAAAACGAAACGCTGGTTTCGCGCCTGATCGACCGTCCGATCCGCCCGCTTTTCCCGGAAGGCTACAAGAACGACACGCAGGTCGTCGTCACCGTCATCCAGCACGATCTGGAAAACAACCCGGACGTCCTGTCGATGGTTGCGGCTTCCGCAGCGCTGACGCTCTCTGGCGTTCCCTTCATGGGACCGGTTGGCGGCGCGCGCGTTGGCTACATCAACGGTGAGTATGTTCTTAACCCGCATCTGGACGAAATGGACGAGTCTGTTCTCGACCTCGTCGTTGCCGGTACGCAGGACGCCGTTTTGATGGTTGAGTCCGAGGCCAAGGAACTCAACGAAGAAATCATGCTCGGTGCCGTCATGTTCGGTCATCGCGGCTTCCAGCCGGTTATCGACGCGATCATCAAGCTCGCCGAAGTTGCTGCCAAGGAACCGCGCGAATTCGAACCGGAAGATTTCTCCGCGCTCGAAAACGAAATGCTGGCGCTCGCCGAAGCCGAACTGCGCGATGCCTACAAGATCACCGAAAAGGCAGCCCGCTACGCCGCCGTCGACGCCGTTAAGGCGAAGGTGAAGGCACACTTCCTGCCGGAAGAAGGCGAAGCCAAGTACACGCCGGAAGAAATCGGCGCCGTCTTCAAGCACCTTCAGGCGAAGATCGTTCGCTGGAACGTTCTCGACACCAAGAGCCGTATCGATGGCCGCGACCTGTCGACCGTTCGTCCGATCATCTCGGAAGTCGGCCTGCTGCCGCGTACCCACGGTTCGGCGCTGTTCACCCGCGGTGAAACCCAGGCGATCGTTGTCGCGACCCTCGGCACCGGCGAAGACGAACAGTATGTCGACAGCCTTACCGGCATGTACAAGGAACGCTTCCTGCTGCACTACAACTTCCCGCCCTACTCGGTCGGCGAAACAGGCCGCATGGGCTCCCCGGGCCGTCGCGAAATCGGTCACGGCAAGCTCGCATGGCGCGCTATCCGCCCGATGCTGCCGACTGCGGAACAGTTCCCCTACACGCTGCGCGTCGTTTCCGAAATCACCGAGTCCAACGGCTCCTCGTCGATGGCAACCGTTTGCGGCACCTCGCTCGCGCTGATGGATGCCGGCGTTCCGCTGGCCAAGCCGGTTGCCGGTATCGCCATGGGCCTCATCCTTGAAGGCGAGCGCTTTGCGGTGCTCTCCGACATCCTCGGCGACGAAGACCACCTCGGCGACATGGACTTCAAGGTTGCGGGTACGGCCGACGGCATCACCTCGCTGCAGATGGACATCAAGATCGCCGGAATCACCGAAGAGATCATGAAGATCGCTCTGGAGCAGGCACAGGGTGGCCGCAAGCACATCCTCGGCGAAATGGCCAATGCCATCACCGAGAGCCGCAGCCAGCTCGGCGAATTCGCACCGCGCATCGAAGTGATGAACATTCCGGTCGACAAGATCCGTGAAGTCATCGGTTCCGGCGGCAAGGTCATTCGCGAAATCGTCGAAAAGACCGGTGCGAAGATCAACATCGAAGACGACGGCACCGTTAAGATCGCTTCTTCTTCCGGCAAGGAAATCGAAGCGGCCCGCAAATGGATCCACTCCATCGTTGCGGAACCGGAAGTCGGCCAGATCTACGAAGGCACGGTTGTGAAGACCGCCGACTTCGGCGCTTTCGTCAACTTCTTCGGTGCCCGTGACGGCCTCGTCCACATCTCGCAGCTCGCTTCCGAGCGTGTCGCCAAGACCTCTGACGTCGTCAAGGAAGGCGACAAGGTCTGGGTGAAGCTGATGGGCTTCGACGAGCGTGGCAAGGTTCGCCTGTCCATGAAGGTTGTCGACCAGGCAACCGGCAAGGAAGTCGCTGCCGACAAGAAGAAGGAAGACGGCGAAGCCGCTGCCGAATAA	MFNQHSVEIEWAGRPLKLETGKVARQADGAVIATYGETMVLATVVSAKSPKPGQDFFPLTVNYQEKTYAAGKIPGGYFKREGRPSENETLVSRLIDRPIRPLFPEGYKNDTQVVVTVIQHDLENNPDVLSMVAASAALTLSGVPFMGPVGGARVGYINGEYVLNPHLDEMDESVLDLVVAGTQDAVLMVESEAKELNEEIMLGAVMFGHRGFQPVIDAIIKLAEVAAKEPREFEPEDFSALENEMLALAEAELRDAYKITEKAARYAAVDAVKAKVKAHFLPEEGEAKYTPEEIGAVFKHLQAKIVRWNVLDTKSRIDGRDLSTVRPIISEVGLLPRTHGSALFTRGETQAIVVATLGTGEDEQYVDSLTGMYKERFLLHYNFPPYSVGETGRMGSPGRREIGHGKLAWRAIRPMLPTAEQFPYTLRVVSEITESNGSSSMATVCGTSLALMDAGVPLAKPVAGIAMGLILEGERFAVLSDILGDEDHLGDMDFKVAGTADGITSLQMDIKIAGITEEIMKIALEQAQGGRKHILGEMANAITESRSQLGEFAPRIEVMNIPVDKIREVIGSGGKVIREIVEKTGAKINIEDDGTVKIASSSGKEIEAARKWIHSIVAEPEVGQIYEGTVVKTADFGAFVNFFGARDGLVHISQLASERVAKTSDVVKEGDKVWVKLMGFDERGKVRLSMKVVDQATGKEVAADKKKEDGEAAAE				NA	NA	NA	NA	NA
BMS010_09758	270	rpsO_1	COG0184	30S ribosomal protein S15	ATGTCGATTACTGCAGAGCGCAAAGCCGCCCTCATCAAGGAATATGCCACGAAGGAAGGCGACACCGGTTCGCCGGAAGTTCAGGTCGCAATCCTGACCGAGCGGATCAACAACCTGACCGGTCACTTCAAGGACCACAAGAAGGACAACCACTCCCGTCGTGGCCTTCTGACGCTGGTTTCGAGCCGTCGTTCGCTTCTCGACTATCTGAAGAAGAAGGACGAAGCCCGTTACACCAAGCTGATCGGTGCTCTCGGCATTCGCCGCTAA	MSITAERKAALIKEYATKEGDTGSPEVQVAILTERINNLTGHFKDHKKDNHSRRGLLTLVSSRRSLLDYLKKKDEARYTKLIGALGIRR				NA	NA	NA	NA	NA
BMS010_09759	948	truB_1	COG0130	tRNA pseudouridine synthase B	ATGTCCAAACCACGCAAACAGCAGAACCGCAAACCCAAGGGCCGCCCGATTTCCGGTTGGCTCATTCTCGACAAGCCGCTGGATTTCGGCTCAACCGAGGCCGTTTCCAAGATCAAATGGCTGTTCAATGCCCAGAAGGCGGGCCATGCCGGCACGCTCGATCCGCTGGCCTCGGGCATGCTGCCAATCGCGCTTGGCGACGCCACCAAGACCGTGCCCTACGTGATGGACGGCCGGAAAATCTACGAGTTTACCGTCACCTGGGGCGAGCAACGCTCGACTGACGATCTTGAAGGCGAGGTGGTCGATTCCTCCGAGCAGCGCCCGGACGAACAGGCAATCCGCGATCTTCTGCCTAATTATACCGGCGTTATCATGCAGACGCCGCCGCAATTTTCGGCCATCAAGATCGCTGGAGAGCGCGCCTACGATCTGGCGCGCGACGGCGAGACGGTGGAAATTCCCGCGCGCGAGGTGGAAATCCATCGCCTGACGCTGCTTGCCTGTCCGGACGCCGATACCGCGCATTTCGAAGTGGAATGCGGCAAGGGTACTTATGTGCGGGCGCTGGCGCGCGACATGGGCCGCGATCTCGGCTGTTTAGGCCATATTTCGGAACTGCGCCGCACCATGGTCGCCCCCTTCGGCGAAGACATGATGGTGCCGCTCGAAACCTTGACGGCACTGGAAGCCGTGGAGGATCGCGACGAGCGACTGGAGGCGCTGGATGCCTTCCTGATCGACACGGCCGAGGCGCTTTCCGCCCTTCCCCGCCTCATCATCAACGATGACCAGGCGCACCGGCTGAAGATGGGCAACCCCATCCTGCTGCGCGGGCGCGATGCACCGGCCAACCATCCGGAAGCCTACGCCACCGCGCATGGCAAGCTCGTCGCCATCGGCGAAATCGGCGAAGGCGAATTCCGGCCGAAGCGTGTTTTCGGCTAA	MSKPRKQQNRKPKGRPISGWLILDKPLDFGSTEAVSKIKWLFNAQKAGHAGTLDPLASGMLPIALGDATKTVPYVMDGRKIYEFTVTWGEQRSTDDLEGEVVDSSEQRPDEQAIRDLLPNYTGVIMQTPPQFSAIKIAGERAYDLARDGETVEIPAREVEIHRLTLLACPDADTAHFEVECGKGTYVRALARDMGRDLGCLGHISELRRTMVAPFGEDMMVPLETLTALEAVEDRDERLEALDAFLIDTAEALSALPRLIINDDQAHRLKMGNPILLRGRDAPANHPEAYATAHGKLVAIGEIGEGEFRPKRVFG				NA	NA	NA	NA	NA
BMS010_09760	417	rbfA_1		Ribosome-binding factor A	ATGGCAAAAGCAACATCATCCGCCCCTTCGCAACGCATGCTGCGCGTCGGCGAACAGGTGCGCGCCGCATTGACCCAGATTCTCCAGCGCGGTGAAGTCCGCGACGATCTGATCGAAAGCACCGTCATTTCCATTTCGGAAGTGCGCATGTCGCCCGATCTGAAGATCGCCACCGCTTACGTGACGCCGCTCGGCGTTGCCGATCACACCGATATCATCAGCGCCCTGAACCGCCATGCAAAATACATGCGCGGCCGCCTCGGTCCGCAGCTTCGGCAGATGAAATACATGCCGGAACTGCGTTTCCGCGACGATACGAGTTTCGACAATTACCAGAAGATCGACGCGCTTCTGCGCTCGCCCGAAGTACAGCGCGATCTTGGACCTTCGAACGAAAAAGACGACGAACAGAACTGA	MAKATSSAPSQRMLRVGEQVRAALTQILQRGEVRDDLIESTVISISEVRMSPDLKIATAYVTPLGVADHTDIISALNRHAKYMRGRLGPQLRQMKYMPELRFRDDTSFDNYQKIDALLRSPEVQRDLGPSNEKDDEQN				NA	NA	NA	NA	NA
BMS010_09761	2739	infB_1		Translation initiation factor IF-2	ATGACCGACAACAACGACGACAAGACACTTAACGCACAGCCTAAGAAGACTCTCACCCTCAAGCCGGGCGGGATGAATCAGGGCACCGTGCGGCAGGATATGGGTCGAGGTCGCACGAACGCGGTTGTCGTGGAAACACGCAAGCGCCGCCCCATGCGTCCTGAAGACGAGAAGCAGGTTCATTCGGTTGCAGCGCCCGCTCCGAAGCCGGCCGCTCCTGCCCCCGCGGCAGCACCGCGTCCGCAGGCGCCGCAGCAGCGCATCCACCAGCCCAGCGGCCAGCAGCAGCGTCCGGGTTCCTCCCAGCCGCAGCAGCGTCCCGGCTCGTCCGCACCGCAGCAGCGCCAGCCTGAGCGTCCGCGCGGCAACGTCCTGCACGACCTGTCGGCAGGCGAGATGGAAGCCCGCCGCCGCGCGCTGATGGAAGCACAGGCCCGCGACGTGATCGAAGCCAAGCAGCGCGCCGAAGACGAAGCGCGCCGCAAGGTGGAAGAAGAGCGCCGCATCGCCGCCGAAAAGGAAGAGGCCGCACGCCGTGCCGTCGAAGAGGCCGCAGCCGCCAAGCTGGCCGCAAGCCAGCCCGCCGTGGAAGCAAAGTCGGAACCGGTCGATGAAAAGCCGGCGGCCGCCGCCCAGCCGGCGCCGCGCGCCGAGGCTCGTCCTCAGCCCGCCGCTGCCGCCCCTTCTCGCGCAACTCCCGAAACCGCTGCTCCACGCGGACGTCGTACCGATGGCGACGACGAGGACGATCGCGGTGCACGCCGTGGCAACCTGCCGGTTCGTGGCAAGGTCGCCGCGCCTGCACCGGCAAAGCCGGCTGCACGCCTGAAGACGGAAGAAGAACGCCGTCGCGGCAAGCTGACCGTCACCTCGTCCAATCTGGATGAAGACGGCACGCCGCGCGGACGCTCCATGGCATCCATGCGCCGCCGCCAGGAAAAATTCCGCCGCAGCCAGATGCAGGAGACCCGTGAAAAGGTCATGCGCGAAGTGATCCTACCGGAAACCATCACCATTCAGGAACTGTCGCAGCGCATGTCCGAACGCGCCGTCGACGTCATCAAGTTCCTGATGAAGGAAGGCCAGATGATGAAGCCGGGCGACGTGATCGACGCCGATCTGGCGGAACTGATCGCCGTCGAATTCGGCCACACCGTCAAGCGCGTTTCTGAATCCGACGTGGAAGAAGGCATCTTCAACCAGGCAGACGACGAAGGCGAAATGCTGCCGCGTCCGCCGGTTGTCACGATCATGGGCCACGTCGACCACGGCAAGACCTCGCTGCTCGACGCCATTCGTCAGGCGAATGTGGTTGCGGGCGAAGCCGGTGGCATCACCCAGCATATCGGTGCGTATCAGGTCGAAAAGAACGGCCAGAAGATCACCTTCATCGATACCCCCGGCCACGCCGCCTTCACGGCCATGCGTGCCCGCGGTGCGCAGGCGACGGATATCGCCGTTCTGGTGGTCGCCGCTGATGACAGCGTGATGCCGCAGACGATCGAGTCCATCAACCATGCCAAGGCGGCGGGTGTTCCGATCGTCGTTGCGATCAACAAGATCGACAAGCACGAGGCAAACCCGGAAAAGGTTCGCCAGCAGCTTCTGCAGCACGAAGTGTTCGTGGAATCCATGGGCGGTGAAGTGCTTGACGTGGAAGTTTCCGCCAAGAAACAGCTCGGTCTCGACAAACTGCTTGAAGCGATCCTGCTGCAGGCTGAAATTCTCGACCTCAAGGCAGATCCGAACCGCACCGCGGAAGGTACCGTCATCGAAGCGGAACTCGACCGCGGCCGTGGTGCCGTCGCCACAGTTCTCGTGCAGAAGGGTACGCTGAAGCCTGGTCAGATCATCGTGGCCGGCGACCAGTGGGGCCGTGTTCGCGCCCTCGTCAACGACAAGGGTGAACACGTCAAGGAAGCCGGTCCGGCCATGCCTGTCGAGATTCTCGGTCTTTCCGGCACGCCGTCTGCCGGCGACCGTTTCGCGGTTGTCGAAAACGAAAGCCGTGCTCGCGAGATTTCCGAGTACCGCCAGCGTCTGGCACGCGACAAGGCTGTCGCACGTCAGACGGGCCAGCGCGGTTCGCTGGAACAGATGATGAGCCAGCTGCAGACTTCGGGAATGAAGGAATTCCCGCTGGTCATCAAGGCAGACGTGCAGGGTTCGGTCGAAGCCATTATCGCTTCGCTCGACAAGCTCGGCACCGACGAAGTCCGCGCTCGTATCGTTCACTCGGGCGCTGGCGCCATCACGGAATCGGATATCTCGCTTGCCGAGGCATCCAACGCCGCGATCATCGGCTTCAACGTTCGCGCCAACGCACAGGCACGTACGGCTTCCGAACGCGCCGGCATCGAGATCCGCTACTACAACATCATCTACGATCTGGTGGATGACGTGAAGGCAGCGATGTCGGGCCTGCTTTCGCCGGAGCGTCGCGAGACCTTCCTCGGCAACGCGGAAATCCTCGAGGTGTTCAACATCACCAAGGTCGGCAAGGTCGCGGGTTGCCGCGTCGTCGAAGGCAAGGTGGAACGTGGTGCGGGTGTGCGTCTGGTACGCGACAACGTCGTTATCCACGAAGGCAAGCTCAAGACACTCAAGCGCTTCAAGGACGAAGTGGCAGAAGTGCCGGTCGGTCAGGAATGCGGTATGGCCTTCGAAAACTACGAAGACATCCGCGCCGGCGACACCATCGAGTGCTTCCGCGTCGAACACATCACGAGAACGCTCTAA	MTDNNDDKTLNAQPKKTLTLKPGGMNQGTVRQDMGRGRTNAVVVETRKRRPMRPEDEKQVHSVAAPAPKPAAPAPAAAPRPQAPQQRIHQPSGQQQRPGSSQPQQRPGSSAPQQRQPERPRGNVLHDLSAGEMEARRRALMEAQARDVIEAKQRAEDEARRKVEEERRIAAEKEEAARRAVEEAAAAKLAASQPAVEAKSEPVDEKPAAAAQPAPRAEARPQPAAAAPSRATPETAAPRGRRTDGDDEDDRGARRGNLPVRGKVAAPAPAKPAARLKTEEERRRGKLTVTSSNLDEDGTPRGRSMASMRRRQEKFRRSQMQETREKVMREVILPETITIQELSQRMSERAVDVIKFLMKEGQMMKPGDVIDADLAELIAVEFGHTVKRVSESDVEEGIFNQADDEGEMLPRPPVVTIMGHVDHGKTSLLDAIRQANVVAGEAGGITQHIGAYQVEKNGQKITFIDTPGHAAFTAMRARGAQATDIAVLVVAADDSVMPQTIESINHAKAAGVPIVVAINKIDKHEANPEKVRQQLLQHEVFVESMGGEVLDVEVSAKKQLGLDKLLEAILLQAEILDLKADPNRTAEGTVIEAELDRGRGAVATVLVQKGTLKPGQIIVAGDQWGRVRALVNDKGEHVKEAGPAMPVEILGLSGTPSAGDRFAVVENESRAREISEYRQRLARDKAVARQTGQRGSLEQMMSQLQTSGMKEFPLVIKADVQGSVEAIIASLDKLGTDEVRARIVHSGAGAITESDISLAEASNAAIIGFNVRANAQARTASERAGIEIRYYNIIYDLVDDVKAAMSGLLSPERRETFLGNAEILEVFNITKVGKVAGCRVVEGKVERGAGVRLVRDNVVIHEGKLKTLKRFKDEVAEVPVGQECGMAFENYEDIRAGDTIECFRVEHITRTL				NA	NA	NA	NA	NA
BMS010_09762	702			hypothetical protein	ATGACATCGCAGGCGCATGAGCCGGACGATCTGCCCGAGACTGACGATGACGGGCGGATCAAGGGCGACGTCAACGGACGTATGTGCATTGTGACACGGCAGAGCGGATCGCCGGATGAGCTGATACGCTTCGTCGCAGGCCCGGACGGCAACGTCGTTCCGGACCTGAAACGCCAATTGCCGGGGCGCGGTTGCTGGGTAACACCCGAGCGCGCCCTGATCGAGAAAGCCATCGCGAAGAAGCTCTTCGCACGGGCTCTCAAACGCGACGTCAAAGCCGGGCCGGAGCTTCTTGCTCTTCTCGACCGGCTGATGGCGCAGCAGCTTGCAGGCATGATGAACATGGCGCGCAAGGCGGGCCAGTTCATCAGCGGCGCGATGAAAGTCGACGCCGCCGTCCGTTTGGGGAATGCGATTGCCGTGTTCCACGCGACCGATGCTGCGGCAGACGGCGTGAGAAAACTGGACCAGGCCCGCAAGGCCTGGGCGCTCGGCAGCGATGCCGGCAATGAAATTCCGTCCTTCCGGCTCTTCAGCGGCGCCGAAATGGACGAGTTGATGGGCCAGAATGCTTTTATCCATGCCTGCGCGCTTGCAGGGCAGGCGGGTGAGGGTGTAGTGAAGCGCGCAACGATGCTTGAGCGGTACCGCCTTGGCGGCCAATCTCAGGCGGAACGCGACGCTGCCCGGACAGAACAATGA	MTSQAHEPDDLPETDDDGRIKGDVNGRMCIVTRQSGSPDELIRFVAGPDGNVVPDLKRQLPGRGCWVTPERALIEKAIAKKLFARALKRDVKAGPELLALLDRLMAQQLAGMMNMARKAGQFISGAMKVDAAVRLGNAIAVFHATDAAADGVRKLDQARKAWALGSDAGNEIPSFRLFSGAEMDELMGQNAFIHACALAGQAGEGVVKRATMLERYRLGGQSQAERDAARTEQ				NA	NA	NA	NA	NA
BMS010_09763	1617	nusA_1	COG0195	Transcription termination/antitermination protein NusA	ATGGCAGTGAGTGCTAACCGGCTTGAGCTTCTGCAGATCGCCGATGCTGTGGCGCGCGAAAAGGTCATCGACCGCGAAATCGTGCTTGCCGCAATGGCCGACGCTATCCAGAAAGCCGCCCGCTCGCGCTATGGTTCGGAAACCAACATCCGCGCCGACATCAACTCCAAGACCGGCGAAATCCGCCTGCAGCGTCTGCTGGAAGTTGTCGAAGCGGCTGAGGACTATTCGACCCAGATCCCGCTGGAGCTTGCCCGCGACCGCAACCCGGACGCCAAGCTCGGCGACTTCATTGCCGATCCGCTGCCGCCGATGGATTTCGGCCGTATCGCCGCCCAGTCCGCCAAGCAGGTTATCGTGCAGAAGGTGCGCGAAGCCGAGCGTGACCGCCAGTATGACGAGTTCAAGGACCGCATCGGCGAAATCGTCAACGGCACCGTCAAGCGCGTCGAATATGGCAACGTCATCGTCGATCTCGGCCGCGGCGAAGGCATCATCCGTCGTGACGAGATGATCCCGCGGGAAAACATGCGTTACGGCGACCGCGTGCGCGCTTACGTCTACGACGTTCGCCGCGAACAGCGTGGACCGCAGATTTTCCTGTCGCGTACCCATCCGCAGTTCATGGTGAAGCTCTTCACCATGGAAGTTCCGGAAATTTACGACGGCATCATCCAGATCAAGTCGGTTGCCCGTGACCCCGGTTCGCGCGCCAAGATCGCCGTCATCTCCAACGACTCGTCGATCGATCCGGTCGGCGCCTGCGTCGGTATGCGCGGTTCGCGCGTTCAGGCCGTTGTCGGCGAATTGCAGGGCGAAAAGATCGATATCATTCCGTGGAGCCAGGAGCCGGCCTCCTTCATCGTCAACGCCCTGCAGCCGGCGGAAGTCGCCAAGGTCGTGCTGGATGAAGAATCCGAGCGCATCGAAGTGGTGGTTCCGGACGAGCAGCTGTCGCTCGCCATCGGCCGTCGCGGCCAGAACGTGCGTCTGGCATCTCAGCTGACCGGCTGGGATATCGACATCATGACGGAGCAGGAAGAATCCGAGCGCCGCCAGAAGGAATTCAACGAGCGCACGGCCCTGTTCATGGAAGCCCTCGATGTCGACGAGATGGTCGGTCAGGTTCTGGCCTCCGAAGGCTTCGCGCAGGTCGAAGAGCTGGCCTATGTCGATCTCGACGAAATTTCCTCGATCGACGGTTTCGATGAGGACACCGCCGATGAAATCCAGACCCGCGCCCGCGAATATCTGGAGCGCCTGGAAGCCGAAATGGACGCCAAGCGCAAGGAACTCGGCGTTTCCGACGAGCTGCGCCAGATTGACGGCCTGACCTCGCAGATGATGGTGGCGCTGGGTGAAGACGGCATCAAGACCATTGAGGATTTTGCCGGCTGTGCAGCGGACGATCTCGTTGGCTGGAGCGAGCGCAAGGACGGCGAGACCAAGAAGTTCGAAGGCATCTTCTCCAAGCTCGATGTTTCGCGCGTCGAAGCCGAGAACATGGTGGTGCAGGCCCGTCTTCTGGCAGGCTGGATCACCGCCGAGGAGCTTGCTTCCGCAGAGGAAGCCGATCCTGAGGCTGCCGAGGAGGCGGATACCGCCGAGCAGGAATGA	MAVSANRLELLQIADAVAREKVIDREIVLAAMADAIQKAARSRYGSETNIRADINSKTGEIRLQRLLEVVEAAEDYSTQIPLELARDRNPDAKLGDFIADPLPPMDFGRIAAQSAKQVIVQKVREAERDRQYDEFKDRIGEIVNGTVKRVEYGNVIVDLGRGEGIIRRDEMIPRENMRYGDRVRAYVYDVRREQRGPQIFLSRTHPQFMVKLFTMEVPEIYDGIIQIKSVARDPGSRAKIAVISNDSSIDPVGACVGMRGSRVQAVVGELQGEKIDIIPWSQEPASFIVNALQPAEVAKVVLDEESERIEVVVPDEQLSLAIGRRGQNVRLASQLTGWDIDIMTEQEESERRQKEFNERTALFMEALDVDEMVGQVLASEGFAQVEELAYVDLDEISSIDGFDEDTADEIQTRAREYLERLEAEMDAKRKELGVSDELRQIDGLTSQMMVALGEDGIKTIEDFAGCAADDLVGWSERKDGETKKFEGIFSKLDVSRVEAENMVVQARLLAGWITAEELASAEEADPEAAEEADTAEQE				NA	NA	NA	NA	NA
BMS010_09764	597	rimP_1		Ribosome maturation factor RimP	ATGGCAGACACCGCACATGAACCGCGACTGATAACCGAAACGGGCATCGACCAGCGTATCGCCGAGATCATCGAGCCTGTTTTGACGGGCATGGGATATCTTCTGGTGCGCGTGCGGCTCTCCAACCAGAACGGCATGACGCTTCAGATCATGGCCGAGCGCGAAGACGGCACCATGACCGTCGAGGACTGCGAAGCCGTCTCCATGGCGATTTCACCGGTTCTTGATGTGGAAGATCCGGTCGATAAAGCGTATCATCTCGAAGTTTCCTCGCCCGGCATCGACCGGCCGATGGTTCGCAAATCGGATTTCACCCGCTGGCAGGGTCATCTGGTGAAGGTCGAAACCTCCATTCTGGTCGAGAACCGCAAGCGGTTTCGCGGCAAGATCGTCGAGGTCAATGCGGACGGCTTCAAGCTGGAACGCGACCAGATCGCCTATGGCGAGGAACCGACAGTCATCATTCCGTTCAGCGCGCTTTCGGATGCGAAGCTTATTCTGACGGACGATCTTATTCGTGATGCGCTGCGGGCAGACAAGGCGGCCAAGGCCGCCGCCGCAAACCAGAACGACGAAAACGAAGCAGACGAAGACTAA	MADTAHEPRLITETGIDQRIAEIIEPVLTGMGYLLVRVRLSNQNGMTLQIMAEREDGTMTVEDCEAVSMAISPVLDVEDPVDKAYHLEVSSPGIDRPMVRKSDFTRWQGHLVKVETSILVENRKRFRGKIVEVNADGFKLERDQIAYGEEPTVIIPFSALSDAKLILTDDLIRDALRADKAAKAAAANQNDENEADED				NA	NA	NA	NA	NA
BMS010_09765	1482	entS_3		Enterobactin exporter EntS	ATGATCGCCCTGGTGCAGGCCTCCACCTCTTTGCCGATCATGCTGTTCTCGTTGATTTCAGGCGCGCTGGCCGACAGTTTCGACCGTCGCCGCATCATGATTTCGGCGCAGCTCCTGATGCTGACGGCCTCCGTGCTGCTCACCGTCTTTGCCTGGTCCGGTTGGCTCACGCCGTGGCTTCTACTCTTCTTCACCTTCATGATCGGCTGCGGCACGGCGCTCAACAATCCGTCCTGGCAGGCCTCCGTCGGCGAAATGGTGCCGCGCGAGGATTTGCCGGCCGCCGTGACGCTGAACAGCGTTGGCTTCAACATCACCCGCAGCGTCGGCCCGGCAATCGGCGGCATCATCGTCGCGGCCGCCGGTGCTGCCGCCGCGTTTTTCGTAAATGCGCTGAGCTATTTCACCCTGATCTATGCGCTGTTTCGCTGGCAACCGCCGAAATATGCCTCGACCCTGCCGCGCGAGCAGCTTCTGGCCGCCATTTCGTCCGGCATGCGTTATGTGGCGATGTCGCCCAATATCGGCAAGGTGCTGGTGCGCGGCTTCCTTTTCGGCCTTTCCGCCAGCGCCATCCTTGCCTTGATGCCCATCGTCGCCCGCGATCTGGTCGAAGGCGGCCCTCTGACCTACGGCGTCATGCTGGGCGCCTTCGGCGTCGGCGCCATTGGCGGTGCCCTGATCAGCGCCAGATTGCGCGAGGTCCTGTCCAGCGAATGGATCGTGCGCGTCGCATTTCTTGGCTTCGCCTTCAGCGCTGGCGTAACGGCGGTGAGCACGAGTGCGATCGTCACCTCGTTGGTTCTGACCGTTGCCGGCGCCTGCTGGGTTCTGGCGCTATCGCTCTTCAACACCATCGTCCAGCTCTCCACCCCACGCTGGGTAGTTGGCAGGGCGCTGTCGCTTTATCAGACGCTGACCTTCGGCGGCATTGCGGTCGGCAGCTGGCTGTGGGGTGAGCTTGCCGAGGACTATGGCATCTCCTATTCCCTGCTGGGCTCCTGTCTACTGATGCTGCTCGGCGTTGTCGTCGGTTTCAAACTCGCCATGCCGGCCTTCGCCTCGCTCAATCTCGATCCGCTCAACCGTTTCGTGGAGCCGCCGCTGAGGTTGGACGTCAAGCCACGCAGTGGACCCATTGCCATTCTCATCGATTATGAAATCCATGACGAGGATCTAGGCGAATTTCTGCCACTGATGGCCGAGCGCCGCCGAATCCGTCTGCGTGATGGCGCACGCAACTGGAACCTGATGCGCGATCTCGAAAACCCCGACATCTGGACCGAAAGTTACCATGTGCCGACATGGGTGGAATATGTCCGCCACAACCACCGCCGCACCCAGGCGGATGCAGAGGCCTGGGACCGGCTACTGGAGCTTCACCGCGGCAAGACGCGGCCAAGGGTGCACCGGATGATCGAGCGGCAGACCATTCCGCCGACCGACGATATCTTTCACAAGCCCCATACCGATCAGCATTGA	MIALVQASTSLPIMLFSLISGALADSFDRRRIMISAQLLMLTASVLLTVFAWSGWLTPWLLLFFTFMIGCGTALNNPSWQASVGEMVPREDLPAAVTLNSVGFNITRSVGPAIGGIIVAAAGAAAAFFVNALSYFTLIYALFRWQPPKYASTLPREQLLAAISSGMRYVAMSPNIGKVLVRGFLFGLSASAILALMPIVARDLVEGGPLTYGVMLGAFGVGAIGGALISARLREVLSSEWIVRVAFLGFAFSAGVTAVSTSAIVTSLVLTVAGACWVLALSLFNTIVQLSTPRWVVGRALSLYQTLTFGGIAVGSWLWGELAEDYGISYSLLGSCLLMLLGVVVGFKLAMPAFASLNLDPLNRFVEPPLRLDVKPRSGPIAILIDYEIHDEDLGEFLPLMAERRRIRLRDGARNWNLMRDLENPDIWTESYHVPTWVEYVRHNHRRTQADAEAWDRLLELHRGKTRPRVHRMIERQTIPPTDDIFHKPHTDQH				NA	NA	NA	NA	NA
BMS010_09766	750			hypothetical protein	ATGGACCAACCGCTGCTGATCATCGGCTCCTATCTTTCCCCCTACGTGCGCAAGGTACTGCTCATGCTGGAGCTGAAAGGGGTGGCCTACCGCATCGATCCCATCGTGCCCTTCTTTGGCGACGACACCTTCGCCCGCCTGAGCCCGTTGCGCCAGATACCGGTGCTGGTGGATGGCGACCTGGTGTTGAACGACTCCTCGGTGATCTGCCAATACCTGGAAGAGCGCTACCCACAGCCAGCGCTGTATCCCGCCGACATCGCCGACCGCGCCCGCGCGCGCTGGCTGGAAGAGTACGCCGACAGCCGCATGGGCCAAGTGATCATCTGGCAACTGTTCAACCAGAAGATGATCGGCCCGGCGGTCTGGGGCCGCGAGCCGGACCCGGCGGTGCTGGAAAAGACCTGCAACGAGGACCTGCCTGCCATCCTCGACTACCTCGAGGGTTGGTTACCCGCCAGCGGCTGGCTGTTCGGCGAACTATCCATCGCCGACCTCAGCGTCGCGGCCTTCCTGCGCAACGCCCAGTTCTCCCGCTACGAAATTGACGCCGAACGCTGGCCGAAGCTGGCGACCTTCTACCGGAACGCGCTGGCGCTGGATGCCTTCCAGCACTTGGCCCGCTTCGAGATGACCTGCGCGAAAACCCCCATCGCCCAACAACGCGCGGCGCTCCGAGAGGCCGGCGCGCCGCTCAGCGAACAGACGCATTTCCGCGAACGTCCGGTGCGGGGGCCGATGAGTCGGTAG	MDQPLLIIGSYLSPYVRKVLLMLELKGVAYRIDPIVPFFGDDTFARLSPLRQIPVLVDGDLVLNDSSVICQYLEERYPQPALYPADIADRARARWLEEYADSRMGQVIIWQLFNQKMIGPAVWGREPDPAVLEKTCNEDLPAILDYLEGWLPASGWLFGELSIADLSVAAFLRNAQFSRYEIDAERWPKLATFYRNALALDAFQHLARFEMTCAKTPIAQQRAALREAGAPLSEQTHFRERPVRGPMSR	PGPT0013170_1889	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS010_09767	1935			hypothetical protein	ATGAGCAAAGCGGACGCCTTCGCCCAGGCGGGCAAGCAGGCAGTGCTGCAGAACGTCCAGGGCACCCTGGAATTCCTGCAGAAATTTCCGCCGTTCAATCAGATGGACACCGGCCACCTGGCCTATCTGGTCGAGCACTGCCAATTGCGCTTCTATGCCGAGGGCGAGTCGATCATCAAGCCCAGCGACGGCCCGGTGGAGCACTTCTACATCGTCAAGCAGGGCCGTGTGCACGGCGAGCGCCCGCACAGCGCCAAGCGCGGCACCGAGACCACCTTCGAGATCGCCGCGGGAGAATGCTTCCCGCTGGCCGCGCTGATCGGCGAACGCGCCACGCGCACCGAGCACCTGGCGGCCGAGGACACCTTCTGCCTGCTGCTGAGCAAGCCGGCCTTCGTCAAACTGTTCGCCCTCTCCAACCCGTTCCGCGATTTCGCCCTGCGCGGCGTCAGCAGCCTGCTCGATCAGGTCAACCAGCAGGTCCAGCTACGCGCGGTGGAAACCCTTGGCGCGCAATATTCCCTCGACACCCGCCTCGGCGAACTGGCGATGCGCCAACCGGTGAGCTGCGCCCCGGATACGCCACTGCGCGAGGCGGTGCGGCAGATGCACGAGCTGCACGTGGGCAGCATCGTCATCGTCGATGCCCAGCAAAGGCCGCTGGGCATCTTCACCCTGCGCGACCTGCGCAAGGTGGTCGCGGACGGCCGCATCGATCTGGAAGGCCCGATCCAGGCCGTGATGACGCCGTCGCCTTTCCATCTCTCGCCGGAAGCCAGCGCCTTCGACGCGGCGATCGCCATGACCGAACGGCACATCGCCCATGTCTGCCTCGTGGAGCATGAGCGGCTCTGCGGCGTGGTTTCCGAGCGAGACCTGTTCTCCCTGCAACGGGTCGATCTGGTCCACCTGGCCCGTACCATCCGCCATGCCGGCCGTGTCGAGACCCTGGCCGCCTTGCGCAGCGACATCCGCCTGCTGGTGGACCGCATGCTCGCCCACGGCGCCAGCTCCACCCAGATCACTCACATCATCACCCTGCTCAACGACCACACCGTCAGCCGGGTGATCGAGCTGACCCTGGAAGACCTCGGCGATCCGGGCATTCCCTTCACCTGGCTGGTGTTCGGCAGCGAAGGCCGCCGCGAGCAAACCCTGCACACCGACCAGGACAACGGCATTCTCTTCGACGCGAAGGATGCCGCCGAAGCCGCCACGATCCGCGGCAAACTGCTGCCGCTGGCCCAAGAGATCAACCAGCGCCTGGCCCGCTGCGGCTTCACCCTGTGCAAGGGCAACATCATGGCCGGCAACCCCGAACTGTGTCTGTCCTACACGGAGTGGTCGCGGCGCTTCACCCGCTTCGTGCGCGAGGCCACCCCGGAGAACCTCCTGGGTTCGAGCATCTACTTCGATCTGCGCGCGGTCTGGGGGCCGGAAGACGGCTGCGACCGGCTGCGCGACGAGCTGCTCGAACAGATCGCGGACAACAGCCTGTTCCAGCACATGCTGGCGGAGAACGCCCTGCGCCAGCGCCCGCCGGTAGGGCGTTTTCGCGATTTCGTGGTGGCGCGCAAGGGCGCCGAGAAGGACACCCTCGACCTCAAGGTGCAGGGCCTCACGCCCTTCGTCGACGGCGCCCGCCTGCTCGCCCTGGCCCACGGCGTGGCGGCGACCAACACCCTCGAACGCCTGCGCCGGCTTGTAGCGATCGGCGAGATCGAAGCCCTGGACGGCGCCGCCTACGAAGAGGCCTACCACTTCATCCAGCAGACCCGCATGCAGCAGCACCAACACCAGGCGCGGCAGGGCCAGCCCTACTCCAATCGCCTCGACCCGGACACGCTGAACCACCTGGACCGGCGCATCCTGCGCGAGTCGTTCCGACAAGCCCAGCGCCTGCAAAGCAGCCTGGCCGTGCGATACCAACTATGA	MSKADAFAQAGKQAVLQNVQGTLEFLQKFPPFNQMDTGHLAYLVEHCQLRFYAEGESIIKPSDGPVEHFYIVKQGRVHGERPHSAKRGTETTFEIAAGECFPLAALIGERATRTEHLAAEDTFCLLLSKPAFVKLFALSNPFRDFALRGVSSLLDQVNQQVQLRAVETLGAQYSLDTRLGELAMRQPVSCAPDTPLREAVRQMHELHVGSIVIVDAQQRPLGIFTLRDLRKVVADGRIDLEGPIQAVMTPSPFHLSPEASAFDAAIAMTERHIAHVCLVEHERLCGVVSERDLFSLQRVDLVHLARTIRHAGRVETLAALRSDIRLLVDRMLAHGASSTQITHIITLLNDHTVSRVIELTLEDLGDPGIPFTWLVFGSEGRREQTLHTDQDNGILFDAKDAAEAATIRGKLLPLAQEINQRLARCGFTLCKGNIMAGNPELCLSYTEWSRRFTRFVREATPENLLGSSIYFDLRAVWGPEDGCDRLRDELLEQIADNSLFQHMLAENALRQRPPVGRFRDFVVARKGAEKDTLDLKVQGLTPFVDGARLLALAHGVAATNTLERLRRLVAIGEIEALDGAAYEEAYHFIQQTRMQQHQHQARQGQPYSNRLDPDTLNHLDRRILRESFRQAQRLQSSLAVRYQL				NA	NA	NA	NA	NA
BMS010_09768	711	dinG_5		3'-5' exonuclease DinG	ATGAGCAAATTCACCTGGCTGACCACCCTGCGCGGCCCCGCCCTGACCCAGGAGCAACTGGAACGCCGCGATTGCCTGTCCCTGCCCCAGGGCCTCAGCGAAGTCTCCCTGCGGCAGCAGCGCATGATCGTCGTCGACCTGGAAACCAGTGGCCTCAACACCAGCCGCGACCAAGTGCTGTCCATCGGTGCGGTGGCCATCGAGGACGGCGGCATCGATCTCGGCAGCCAGTTCGAATGCACCCTGCAGCGCGACCAACTAGTGCTCAAGGAAAGCGTGCTGATCCACGGCATCGCCCCCAGCGCCCTGGCCGCCGGCACCGAGCCGGCCGAAGCGCTGCTGGATTTCATGGAATTCGTCGGCGACAGCCCGCTGCTGGCCTTCCACGCCCCGTTCGACCGCCGCATGCTGGCCCGTGCGCTGAAAACCAGCCTCGGCTACACCCTGCGCCATCCCTTCCTCGACCTGGCCGAAGTCGCGCCGATGCTCTGCCCCCACGCCAAGGTGGGTCGGGGCGGCCTGGATGATTGGGTCGAGCACTTCGGCCTACAGGTACAGCAGCGTCACAACGCCGCCGCCGACGCCCTGGCCACCGCCGAACTGGCCCTGATCCTGTTCAGCCGCGCCCGCCGTCAGGAAATGGACAACCTGCTCGCCCTCGACCGCCGCCTGAACGTCTGGCGCCGCCGCCGGAACGCCTACTCGCTCTGA	MSKFTWLTTLRGPALTQEQLERRDCLSLPQGLSEVSLRQQRMIVVDLETSGLNTSRDQVLSIGAVAIEDGGIDLGSQFECTLQRDQLVLKESVLIHGIAPSALAAGTEPAEALLDFMEFVGDSPLLAFHAPFDRRMLARALKTSLGYTLRHPFLDLAEVAPMLCPHAKVGRGGLDDWVEHFGLQVQQRHNAAADALATAELALILFSRARRQEMDNLLALDRRLNVWRRRRNAYSL				NA	NA	NA	NA	NA
BMS010_09769	1770	actP_4		Cation/acetate symporter ActP	ATGGATACCCAAACCCTGATCTACCTCGTGGTGGGCGCGACCTTCGCGCTCTATATCGGTATCGCCATCTGGACCCGTGCGGGCTCCACCAGCGAGTACTACGTCGCCAGCAAGGGCGTGCACCCGGTACTCAACGGCATGGCCACCGGCGCCGACTGGATGTCCGCGGCCTCGTTCATCTCGATGGCGGGGATCATCTCCTTCATCGGCCTGGACGGCAGCGTCTACCTGATGGGCTGGACCGGTGGCTACGTGCTCCTGGCCATGTGCCTGGCACCCTACCTGCGCAAGTTCGGCAAGTTCACCGTGCCGGAGTTCATCGGCGAGCGCTACTACTCGCAAACGGCGCGTCTGGTGGCGGTGGTCTGCGTGATCTTCATCTCCTTCACCTACGTGGCCGGGCAGATGCGCGGCGTCGGCATCGTCTTCTCCCGCTACTTGGAAGTGGACATCAACGTCGGTGTGATGATCGGCATGGCCATCGTGTTCTTCTACTCCGTGCTCGGCGGCATGAAGGGCATCACCTACACCCAGGTGGCGCAGTACTGCGTGATGATCTTCGCCTACATGGTGCCGGCGATCTTCATTTCCATGCTGATCACCGGTAACCCGATCCCGCAGCTGGGCTTCGGCAGCGATGTGTCCGGCACCGACACCTCGGTCCTCGACCGTCTGAACGGCCTGGGCGCCGAACTGGGCTTCACGCCGTACACCAATGGCACCAAGTCCACCATCGACGTGTTCTTCATCACCATGGCCCTGATGGTGGGTACCGCCGGTCTGCCGCACGTGATCGTCCGCTTCTTCACCACCCCGACGGTGAGCGATGCGCGTAAATCCGCCGGTTATGCCCTGCTGTTCATCGCCATCCTCTACACCACTGCGCCGGCCGTGGCGGCCTTCGCCCGTACCAACCTGCTGACCTCCATCCCGAACACGACCTATACCGAAGCCCCGGCCTGGTTCAAGACCTGGGAAAAGGCCGGTCTGATCGCCTGGATGGACAAGAACAACGACGGCATCATCCAGTACGGCCCGGGCGCTCCGTTCGCCGGTGCTCCGACCTTCACCGCCGAGCGCGGCGAGCAGGGTCAGCGCATGGTGAGCAACGCCGCTACTCCGGCCGCCACCGAACTGTACGTCGACCGCGACATCATGGTTCTGGCCAACCCGGAAATCGCCAACCTGCCGGGCTGGGTGATCGCCCTGATCGCCGCCGGCGGCCTGGCAGCGGCACTGTCCACCGCGGCGGGCCTGTTGCTGGTGATCTCCACGTCGATCTCGCATGACCTGCTGAAGAGCAACCTCATGCCCAGGATCAACGAGAAGCAGGAGCTGCTCGCCGCGCGCATCGCTGCCGGCGTGGCGGTGATCGTGGCCGGCCTGTTCGGCATCTACCCGCCGGCCTTCGTGGCCCAGGTGGTGGCCTTCGCCTTCGGCCTGGCGGCGGCATCGTTCTTCCCGGCCATCGTCATGGGCATCTTCTCCAAGACGATGAACAAGGAAGGCGCGATCGCCGGCATGGTGGTGGGCCTGGCCTTCACCTTCAGCTACATCGTGTACTTCAAGTTCATCAACCCGGCAGCGGACAACGCCGCCAGCTGGTGGCTCGGGGTTTCCCCGGAAGGCATCGGTACCCTGGGGATGATCTTCAACTTCGTGGTCGCGGTGGTGGTATCCCGCCTGACTTCGGCTCCGCCGGAGCACATCCAGCACCTGGTGGAAGACATCCGCATTCCGCGCGGTGCCGGTGCAGCCGTCGCCCACTAA	MDTQTLIYLVVGATFALYIGIAIWTRAGSTSEYYVASKGVHPVLNGMATGADWMSAASFISMAGIISFIGLDGSVYLMGWTGGYVLLAMCLAPYLRKFGKFTVPEFIGERYYSQTARLVAVVCVIFISFTYVAGQMRGVGIVFSRYLEVDINVGVMIGMAIVFFYSVLGGMKGITYTQVAQYCVMIFAYMVPAIFISMLITGNPIPQLGFGSDVSGTDTSVLDRLNGLGAELGFTPYTNGTKSTIDVFFITMALMVGTAGLPHVIVRFFTTPTVSDARKSAGYALLFIAILYTTAPAVAAFARTNLLTSIPNTTYTEAPAWFKTWEKAGLIAWMDKNNDGIIQYGPGAPFAGAPTFTAERGEQGQRMVSNAATPAATELYVDRDIMVLANPEIANLPGWVIALIAAGGLAAALSTAAGLLLVISTSISHDLLKSNLMPRINEKQELLAARIAAGVAVIVAGLFGIYPPAFVAQVVAFAFGLAAASFFPAIVMGIFSKTMNKEGAIAGMVVGLAFTFSYIVYFKFINPAADNAASWWLGVSPEGIGTLGMIFNFVVAVVVSRLTSAPPEHIQHLVEDIRIPRGAGAAVAH	PGPT0001400_709	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CATION_TRANSPORT,PGPT0001400-actP-K14393	NA	NA
BMS010_09770	267			hypothetical protein	ATGTCCGTTTCCAAGCAAGAGGCCGCCAAGGCCTATTGGAAAGAGAACTTGCGGCTGATGTTGACGCTGCTGGTGATCTGGTTCGTGGTTTCGTTCGGCTGCGGGATCCTGTTCGTGGAACAGCTCAACGCCATCAAATTCTTCGGCTTCCCCCTCGGCTTCTGGTTCGCCCAGCAAGGTTCCATTTACGCCTTTGTGGTCATGATCTTCGTCTACGTCTGGAAGATGAATCAGCTCGACCGCAAATACGACGTTCACGAAGACTGA	MSVSKQEAAKAYWKENLRLMLTLLVIWFVVSFGCGILFVEQLNAIKFFGFPLGFWFAQQGSIYAFVVMIFVYVWKMNQLDRKYDVHED	PGPT0001400_12	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CATION_TRANSPORT,PGPT0001400-actP-K14393	NA	NA
BMS010_09771	960	vgb_2		Virginiamycin B lyase	ATGCGCCGCTCCATCTCTTTACTGCTGATCCTGCTGCTGGGCAGCGTCCTGGCCCTGCCGCTACGGGCGGAAGACGTTCGCTACTACGCCGTTCCCAAGGGCGCAGGCCCCCACGATGTGGCGCCCGCGCCGGACGGACGTGTCTGGTACACCGCCCAGCGCCAGGGCGCGCTGGGCCGGCTGGACCCGAAGACCGGCGAAACCGAGCAAGTCCCGCTGGGCCAGGGTTCGGCGCCGCATGGCGTGATCGTCGGCCCGGACGGCGCCGCCTGGGTCACCGACAGCGGGCTGAATGCCATCGTCCGGGTCGATCCCGAGCGCCTTGGCGTCGAGGTGTTCCCTTTGCCGGACAATGCCGCCAACGCCAACCTCAACACGGCCGCGTTCGATAACGACGGGCGCCTCTGGTTCACCGGGCAGAACGGTTTCTACGGCCGCCTCGACCCGCAGAAGCGGACCGTCGAAGCCTGGGCGGCCCCCGGCGGACGCGGGCCCTACGGCATCACCGTGACGCCGGATGGCGAGGTCTGGTACGCCTCGCTGGCCGGCAGCCACATCGCCCACGTCGACCCGGTCTCGGCCAAGGCTGAAATCATCCAACCGCCGACGGCCGACCAGGGCGCGCGGCGCATCTGGAGCGATTCCCAGGGTCGCCTGTGGGTCAGCGAATGGAACAGTGGACAACTCAGCCGCTACGCCCCCGAGGATGGAAGCTGGAAGAGCTGGAAGCTGCCCGGCGACAGTCCGCGCACCTACTCGGTGTACGTCGACGAGCAGGACCGCCCCTGGGTGACCGACTTCTCCGCCAATGCCATTCTGCGTTTCGATCCGGAGAGCGAGCGCTTCCAAGCCTTCCCCAGCGATCAGGGCAACGCCAACGTACGGCAGATGCTCGGCCGGGTCGGTGAGGTCTGGGGCGCGGAGTCCGGTACCGACCGGCTTGTGGTGATCCGTTATTGA	MRRSISLLLILLLGSVLALPLRAEDVRYYAVPKGAGPHDVAPAPDGRVWYTAQRQGALGRLDPKTGETEQVPLGQGSAPHGVIVGPDGAAWVTDSGLNAIVRVDPERLGVEVFPLPDNAANANLNTAAFDNDGRLWFTGQNGFYGRLDPQKRTVEAWAAPGGRGPYGITVTPDGEVWYASLAGSHIAHVDPVSAKAEIIQPPTADQGARRIWSDSQGRLWVSEWNSGQLSRYAPEDGSWKSWKLPGDSPRTYSVYVDEQDRPWVTDFSANAILRFDPESERFQAFPSDQGNANVRQMLGRVGEVWGAESGTDRLVVIRY	PGPT0027985_216	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027985-vgb-K18235	NA	NA
BMS010_09772	627	yibF_3	COG0625	putative GST-like protein YibF	ATGTCCACCCCCAGCCTGACCCTGTTCCACTCCCCCGCCTCGCCCTTCGTGCGCAAGGTGATGGTGCTGCTGCACGAGACCGGCCAGCTCGACCGCGTGGCCCTGCACACGGTGGCGCTCAGCCCGGTCAACCCCAGCGCCGAACTCAACGTCGACAACCCGGCCGGTAAGATTCCCGCGCTGCGCCTGGAGGACGGCAGCGTGTTGCACGACAGTCGGGTGATCCTCGATTACCTCGACCACCAGCACGTCGGCGAACCGCTGATCCCGCGCGACGGCACGGCGCGCTGGCGGCGACTGACCCTGGCCTCGCTGGCCGATGCCATCCTCGACGCTGCCGTGCTGACCCGCTACGAAACCTTCCTGCGGCCGGAGGAAAAGCGCTGGGACGGCTGGCTGGCCGCGCAGAAAGACAAGATCGAGCGCGCCCTCGCCTATTTCGAACAGGACGCCGCCGCCGAGCTGGCCTGTCACTTCGACATCGCCGCCATCGGCGTCGCCTGCGCCCTCGGCTACCTGGACCTGCGCCAACCCGAGCTGGGCTGGCGCGACCGCTACCCGCGCCTGGCCGCCTGGTACGCCGAAGTCAGCCAGCGGCCATCGATGCAGGCGACCCAGCCGACCTGA	MSTPSLTLFHSPASPFVRKVMVLLHETGQLDRVALHTVALSPVNPSAELNVDNPAGKIPALRLEDGSVLHDSRVILDYLDHQHVGEPLIPRDGTARWRRLTLASLADAILDAAVLTRYETFLRPEEKRWDGWLAAQKDKIERALAYFEQDAAAELACHFDIAAIGVACALGYLDLRQPELGWRDRYPRLAAWYAEVSQRPSMQATQPT	PGPT0013170_20559	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS010_09773	3111	pulA		Pullulanase	ATGCACAGATTCGGATTGCCGCAGCCTCTGCTCACTCTCCTGCTCGCAGGCCTGGCCGGACTGGCCGCCGCCGGGCCCCTCGAACCCGGCCCCGACGAGGCGCTGCTGTACTACCAGCGCAGTGACAGCGCCTACGATGGTTGGGGCCTGCATCTCTGGAACACGGCCGCGTGCAGCGGCACACGCGAGCAAACCGCCTGGGAGCGGCCTCTGCTCCCGGAGGGCGTGGATGCCGAATACGGCGCCTGGTATCGCATCCCGTTGAGCATCGACGCCCACTGCCTGAACCTGATCCTGCACAAGGGCGACGAGAAAGACCTCGGCGGCGGCGATCTGGTCTGGCGGCTCGACGAACTGGGCCGGCGCGTCTTCAGCCGCAGCGGCGATCGCCGACTCTCTGCCGAGCCGCTCGGCCCGACACTGGCCATCGACGGCGCCCGCGCCCACTGGCTGGAGCCCGACACCCTGGTGCTGCACGGCGGTGGTGATGCGGCCCGGCTCGAACTGCGCTACGCCCCGGCGACGGATATTCGCATCGACGCCGAACGACGCAGCGTCAGCGGCGGCCAGGCCATCGCCCTGCAGCCCGGTGGCCTGAACGACCGGCTCAAGGCGCGCTTCCCGCATCTGGCCGGGCAGCCTGCCTATCGCCTGGAGGCCAACCCGCGCGTCCTGCGCACCGCCCTCAAGAGCCAGTTGCTGGTGCTCGGCTACGACCGCGACAACCGCCTGGTGTCCGCCACCCAGGTGCAGACGCCCGGCGTGCTGGATGCGCTGTACCGCTACACCGGCCCGCTGGGTGCCGCCGTGCGCCCGCACGATGTGCGCTTCCGTCTCTGGGCGCCGACCGCGCAGCGCGTCCGCCTGCACCTGTTCGACCGCGACAAGCGACGCCTGCCGGGCTCTCCGGTGGAGATGCGCGAGCGTCACGGGGTCTGGACCTACAGCGGCCCCCGCCAACTGGATCGCCAGTACTACCAGTACGAAGTGACCGTCTACCACCCTTCCACGGGGCGGGTGGAGACCAGCCTGACCACCGATCCCTACGCCCTCAGCCTGTCGCGCAACAGCCAGTACGCCCAGGTCGTCGACCTCGACGCGCCGGATCTCAAGCCCGCCGGCTGGGACAGCCTGCGCCCGCCACGCGCGGCAAGGCCCGAGGCCCGGGTGATCTACGAAACCCACATCCGCGACTTCAGCGCCAGCGACCCGGACCTGCCGGCGGACCTGCGCGGCAAATACCTGGCCTTCACCCAGCCGCAGGGCCATGGCGTCCGCCACCTCCGCGACCTGCGCCGGGCCGGGCTGACCGATGTCCAGTTGCTCCCCGCCTTCGATATCGCCACGGTGGACGAGGACCCGGCCCGGCGCGTCGACCTCGACGATCCGTTCTCGAAGCTCTGCGCACTGTCCGCCAGCGTCCGGGAGAAATGGTCCGGCTACTGCGGCGGCGAGCGTATCCGCGACGTGCTGGAACGCTTCGACCCGGCGGGTCCGGACGCCCAGGCGCTGTATGCCGACCTGCGCGCCCTGGACGCCTTCAACTGGGGCTACGACCCGCTGCACTACAGCGTGCCGGAGGGCAGCTATGCCAGCGATGCCGAAGGGGTGCGCCGCATCCGCGAATTCCGCCGCATGGTCCAGGCCCTGGCCGATATGGGCCTGAGTACGGTGATGGACGTGGTCTACAACCACACCCATGCCGCCGGGCTCGCCGACCAATCGGTGCTGGACAAGCTGGTGCCGGGCTATTACCACCGGCGCGACCCGGTTACCGGCGCGGTGGAGCGCTCCACCTGCTGCGAAAACACCGCTTCCGAGCATTTCATGATGGAGAAGCTGATGACCGATTCCCTGGTGGTCTGGGCGCGCCACTACAAGATCGGCGGCTTCCGCTTCGACCTCATGGGCCATCACATGCGCACCAACCTGCTCAACGCCCTCAAGGCGGTGCGCAAGGTCGATCCGGAGGCCTACTTCTACGGCGAGGGATGGAATTTCGGTGAAATCGCGGACAACGCCCGCGGCATCAACGCCACCCAGCGCAACATGGCCGGCACCGGCATCGGCACCTTCAACGACCGCCAGCGCGACGCCGTGCGCGGCGGCAGCCCGTTCGACGGCGGTGACGCCATCCGTCGAAACCAGGGCTTCGCCAACGGCCTCTTCGTGCTGCCCAACGAGCTGAACAGCGGCAGCCCACAGGAACAGGCCGACCTGCTGCACGCGCTGGACCTGATCCGCGTCGGCATTGCCGGCGGCTTGCGCGACTACCGTTTCGAAAGCGCCGATGGCAGCCTGCGCCGCGGCGCCGAGGTGGACTACAACGGCCAGCCAGCCGGCTACACCCTCGACCCGCAGGAGACCATCAACTACGTCTCCAAGCACGACAACCAGACGCTCTGGGACAACAACCAGTACAAGCTGCCGGCCACCCTGAGCACGGCCGAGCGGGTCCGCCTGCACCTGCTGGCCCTGGCCGTGCCGTTGTTCAGCCAGGGCGTGCCCTTCATCCACATGGGCTCGGACATCCTCCGCTCCAAGTCCCTGGAGCGGGACAGCTACGATTCCGGCGACTGGTTCAACGCCGTGGATTTCAGCTACCAGGACAACAACTGGAACAAGGGCCTCCCACGCGCGGACAAGGACGGCGACAACTGGCCGTTGATCCGCCAGGTCATCGCCGACCCGAACGCCCGACCGTCGCCAACGGACATCCTCACGGCCAAGCAGCGTTTCCTCGAACTGCTGCGCATCCGCAGCGGCAGCCCGCTGTTCCAGCTCGGCAACGCCGACGCCATCCAGCGCCGCCTGCGCTTCCACAACACCGGCCCGCAACAGATTCCCGGCGTGCTCGCCTTCAGCCTGGACGACCGCCGCTCCGCCGGCGCCGACCTCGATCCACGCCACGACGGCGTGATGGTGATCTTCAACCCCACGGCGGAGACGATCAGCCTGCCGGGGGCCCAGCCGGGGTATCGGCTGCATCCCGTCCTACGGGAATCCCGCGACGCCATCAGCCGAGAGGCGCGGGTCGTCGGGGAGCGGTTCGAGGTGCCGGGTCTGACCGTGGCGGTATTCGTGCAGGAGCAGGAGGGGCGGAGACGCTGA	MHRFGLPQPLLTLLLAGLAGLAAAGPLEPGPDEALLYYQRSDSAYDGWGLHLWNTAACSGTREQTAWERPLLPEGVDAEYGAWYRIPLSIDAHCLNLILHKGDEKDLGGGDLVWRLDELGRRVFSRSGDRRLSAEPLGPTLAIDGARAHWLEPDTLVLHGGGDAARLELRYAPATDIRIDAERRSVSGGQAIALQPGGLNDRLKARFPHLAGQPAYRLEANPRVLRTALKSQLLVLGYDRDNRLVSATQVQTPGVLDALYRYTGPLGAAVRPHDVRFRLWAPTAQRVRLHLFDRDKRRLPGSPVEMRERHGVWTYSGPRQLDRQYYQYEVTVYHPSTGRVETSLTTDPYALSLSRNSQYAQVVDLDAPDLKPAGWDSLRPPRAARPEARVIYETHIRDFSASDPDLPADLRGKYLAFTQPQGHGVRHLRDLRRAGLTDVQLLPAFDIATVDEDPARRVDLDDPFSKLCALSASVREKWSGYCGGERIRDVLERFDPAGPDAQALYADLRALDAFNWGYDPLHYSVPEGSYASDAEGVRRIREFRRMVQALADMGLSTVMDVVYNHTHAAGLADQSVLDKLVPGYYHRRDPVTGAVERSTCCENTASEHFMMEKLMTDSLVVWARHYKIGGFRFDLMGHHMRTNLLNALKAVRKVDPEAYFYGEGWNFGEIADNARGINATQRNMAGTGIGTFNDRQRDAVRGGSPFDGGDAIRRNQGFANGLFVLPNELNSGSPQEQADLLHALDLIRVGIAGGLRDYRFESADGSLRRGAEVDYNGQPAGYTLDPQETINYVSKHDNQTLWDNNQYKLPATLSTAERVRLHLLALAVPLFSQGVPFIHMGSDILRSKSLERDSYDSGDWFNAVDFSYQDNNWNKGLPRADKDGDNWPLIRQVIADPNARPSPTDILTAKQRFLELLRIRSGSPLFQLGNADAIQRRLRFHNTGPQQIPGVLAFSLDDRRSAGADLDPRHDGVMVIFNPTAETISLPGAQPGYRLHPVLRESRDAISREARVVGERFEVPGLTVAVFVQEQEGRRR	PGPT0012195_323	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-PULLULANASE,PGPT0012195-pulA-K01200	NA	NA
BMS010_09774	303			hypothetical protein	ATGAAACTGATGCTGGAATTCTGTGTGTGCTTCGGCCTCGGCCTGATGGTGGCGGCGCTGATCCTGGTCGGGCTGATGTTCGCCGGGGAGATGGGCTTGGTTCAGAACTTCCTGCTCACCGGCAAACCCTTGGCGCATCTGGCGCTGGAGGTGTTGCCCGGCGAGTTCTGGCTGTGGCTCACCGGCGTCGAGAGCGCCGCGGCCAATCCGTCGGTGCGCTCCTTCCTGTCGCTCTGCGTGGCCCTCGCCCAGGTCGGCCTGTTGCTGGCGCTGCTGATGCAGCGCGGGATGCATCGGTCATGA	MKLMLEFCVCFGLGLMVAALILVGLMFAGEMGLVQNFLLTGKPLAHLALEVLPGEFWLWLTGVESAAANPSVRSFLSLCVALAQVGLLLALLMQRGMHRS				NA	NA	NA	NA	NA
BMS010_09775	1344	creD	COG4452	Inner membrane protein CreD	ATGAACCGAAATCTCTTGATCAAGCTCGGCGCCATCGTCGTGCTGGTCGTTCTCTTGATGATTCCGCTGTTGATGATCGATGGCCTGGTCAGCGAGCGGCAGAGCCTGCGTATCGGCGTGGTCGAAGACATCGCCCGCAGTTCCAGCTTCAGCCAGCAGCTCACCGGGCCGATACTGGTGGTGCCTTATCGCCGCACGGTGCGCGAGTGGAAGGTGCATGAGACCACCGGCCAGCGTTACCTGGACGAGAAGGAAATTCGCAACCGCCTGTACTTTCTCCCGGAGCGCTTCGTGCTCGACGGAGAGATGAAGACCGAGCTGCGCTATCGCGGTATCTATCAGGCGCGGCTCTATCACGGCAACAACCAGATCAGCGGGCGCTTCGAGATTCCGGAGCATTTCGGCATCAGCGAGCACCTGGAGGACTACCGCTTCGAGCGGGCCTTCCTGGCGATGGGTATCAGCGATATCCGGGGCATCAAGAACGACCTCAAGCTGCGCTTGAACGGCCGGCAGTTCAACTTCGAGCCGGGCAGCGGCGACAAGATGCTCGGCAACGGTGTGCATGCACCGCTGGCGCTGGACGGCGCCCAGGCACAGGCGCTGGACTTCGCCTTCGACCTGCACCTGCAAGGCACGTCCCAGTTCGATGTCACGCCGGTGGGCCGCGAGACCCAGGTACGCCTGAGTTCCGACTGGCCGCATCCGAGCTTCGTCGGCAGCTACCTGCCGAGCGAGCGTGAAATCAGCGGGGCTGGCTTCAGCGCGCGCTGGCAGACCAGCTTCTTCGCCACCAACCTGGAGGAAGTTCTGCGTGACTGCACCCGCCGCAACGAATGCTACGAGCTGGCCAATCGCCGTTTCGGTGTCAGCTTCGTCGACCCGGTGGACCAGTACCTGAAGACCGACCGGGCGATCAAGTACGCGCTGCTGTTCATCGCCCTGACCTTCGCCGGCTTCTTTCTCTTCGAGGTGCTCAAGCGGCTCTCCGTGCACCCGGTGCAATACGGCCTGGTCGGGCTGGCCCTGGCGTTCTTCTACCTGCTGCTGCTGTCGCTGTCCGAGCACATCGGCTTCGAGCTGGCCTACGCCGTATCCGCCAGCGCCTGCGTGCTGTTGATCGGCTTCTACGTCAGCAGCGTGCTGCACAGCCTGTTGCGCGGCGGCGCCTTCGCGGCGGCCCTGGCAGCGCTGTATGGGATGCTTTATGGCCTGCTCAGCGCCGAGGACTACGCGCTGCTGATGGGCTCGCTGCTGGTGTTCGGCCTGCTCGCCGCAGTGATGGTGCTGACCCGCAAACTGGACTGGTATGGCCTGGGCAAGAGCCCGGCGACCGCCGCCTGA	MNRNLLIKLGAIVVLVVLLMIPLLMIDGLVSERQSLRIGVVEDIARSSSFSQQLTGPILVVPYRRTVREWKVHETTGQRYLDEKEIRNRLYFLPERFVLDGEMKTELRYRGIYQARLYHGNNQISGRFEIPEHFGISEHLEDYRFERAFLAMGISDIRGIKNDLKLRLNGRQFNFEPGSGDKMLGNGVHAPLALDGAQAQALDFAFDLHLQGTSQFDVTPVGRETQVRLSSDWPHPSFVGSYLPSEREISGAGFSARWQTSFFATNLEEVLRDCTRRNECYELANRRFGVSFVDPVDQYLKTDRAIKYALLFIALTFAGFFLFEVLKRLSVHPVQYGLVGLALAFFYLLLLSLSEHIGFELAYAVSASACVLLIGFYVSSVLHSLLRGGAFAAALAALYGMLYGLLSAEDYALLMGSLLVFGLLAAVMVLTRKLDWYGLGKSPATAA				NA	NA	NA	NA	NA
BMS010_09776	321	rayT_2	COG1943	REP-associated tyrosine transposase	ATGCGTCTGGTGCACGAGCGGGACCAGGTCGAGTCCTTGGCTTGGGTGGTCATGCCCGATCATGTTCATTGGCTGTTCCAGCTCAACGGAACGCAGGAGCTCTCGGCACTTATCAAGCGATTCAAGGCGCATACGTCGCAGGCCCTGGCGAAGCGGGGGCGTCTACGGGGTGGCGTCTGGCAGAAGGGCTTCCATGACCACGCACTTCGCAAGGAAGAGGACCTGCGAGCGGTGGCCCGCTACATCGTGGCCAATCCGCTACGTGCCGGGCTAGTGAGGCGTTTGGGCGATTACCCACATTGGGACGCCAAGTGGTTGTAG	MRLVHERDQVESLAWVVMPDHVHWLFQLNGTQELSALIKRFKAHTSQALAKRGRLRGGVWQKGFHDHALRKEEDLRAVARYIVANPLRAGLVRRLGDYPHWDAKWL	PGPT0030655_3444	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030655-yafM|rayT|tnpA-K07491	NA	NA
BMS010_09777	1425	creC	COG0642	Sensor protein CreC	ATGCCGCTCGGCATTCGCATCTTCCTCGCCTATTTTCTCTTCGTCGGCCTGGCCGGTTGGTTCGTCCTCGATACGGTGATGGACGAGATCCGTCCCGGCATGCGCCAGTCCACCGAAGAGACCCTGGTGGACACCGCCAACCTGCTGGCCGAGTTGCTGCGCGAAGACTTGAAGAACGGCACCCTCGCCGAGAGCCGCCTGCCCGAATTGCTGCGTGCCTATGGCCTGCGCGAGCCCCGGGCGACCATCTGGGGCGTGCAGAAGACAGCGGTGAACCACCGCATCTACGTTACCGACGCCGCCGGCATCGTCCTGCTGGACTCCAGCGGTTCCGCGGTGGGCCAGGACTATTCGCGCTGGAACGACGTCTACCTGACGCTCAAGGGCATCTACGGCGCCCGCTCGACCCGCGAGGACCCGAGCGACCCGGACTCTTCGGTGATGTACGTGGCGGCGCCGATCAAGGACGGCGAGCGGATCATCGGCGTGGTCTCGGTGGCCAAGCCGAACCGCACCCTGCAACCCTACGTCGAGCGCTCGCAGCGGCGCCTGGCCTGGCTCGGCGGCGGCTTGATCGGCCTCGGTCTGCTGGTCGGCGGATTGCTGTCGTGGTGGCTCAGCGGCTCGCTGCGCCGCCTGACGCGCTATGCCCAGGCCGTCAGCGAGGGACAACGCGCGGTGCTGCCGACGGTGAGCGGCGGCGAGCTGGGCCAACTGGCCGACGCCGTGGAGCGCATGCGTACCCAGCTTGAAGGCAAGGCCTACGTGGAGCGCTACGTGCACACCCTGACCCACGAGCTGAAAAGCCCGCTGGCGGCGATCCGCGGCGCCGCCGAACTGCTCGAGGGCGAGATGCCGGCGGAGCAGCGGCAGCGCTTCGTCGCCAACATCGCCGGCGAGAGCGAGCGCCTGCAGCAACTGATCGAACGCCTGCTCAACCTGGCCCAGGTGGAACAACGCCAGGGTCTGGAAGAGCGCGTTGCGGTGCCGCTGCACGAGCTGGTCGACGACCTGCTGCAAGCGCAGGCCGCGCGTATCCAGGCAGGTGGATTCCAGGTGGAAAACGCTATTCCGGCCGGTTTGGCCGTGCGTGGCGAACGCTTCCTGCTGCGCCAGGCCCTGGCCAATCTGCTGGACAACGCCTTGGACTTCACCCCGGCTGGCGGGCGCATTCGTTTCAACGCCGAACGCCAAGGGGAATGGGTGACGCTGCGCCTGTTCAACCAGGGCGCTGCGATCCCCGACTACGCCCTGCCGCGCCTGACCGAACGCTTCTACTCCCTCCCGCGCCCGGCCAGCGGCCGCAAGAGCACGGGGCTGGGGCTGAACTTCGTGCAGGAAGTGGCGGAGTTGCATGGGGGCGAGTTGCGGGTAGCGAATGTCGAAGAGGGGATAGAGGTAGTCCTGGCCCTGGTCGGTCCGTAG	MPLGIRIFLAYFLFVGLAGWFVLDTVMDEIRPGMRQSTEETLVDTANLLAELLREDLKNGTLAESRLPELLRAYGLREPRATIWGVQKTAVNHRIYVTDAAGIVLLDSSGSAVGQDYSRWNDVYLTLKGIYGARSTREDPSDPDSSVMYVAAPIKDGERIIGVVSVAKPNRTLQPYVERSQRRLAWLGGGLIGLGLLVGGLLSWWLSGSLRRLTRYAQAVSEGQRAVLPTVSGGELGQLADAVERMRTQLEGKAYVERYVHTLTHELKSPLAAIRGAAELLEGEMPAEQRQRFVANIAGESERLQQLIERLLNLAQVEQRQGLEERVAVPLHELVDDLLQAQAARIQAGGFQVENAIPAGLAVRGERFLLRQALANLLDNALDFTPAGGRIRFNAERQGEWVTLRLFNQGAAIPDYALPRLTERFYSLPRPASGRKSTGLGLNFVQEVAELHGGELRVANVEEGIEVVLALVGP	PGPT0015045_420	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CARBON_STARVATION_RESPONSE,PGPT0015045-creC-K07641	NA	NA
BMS010_09778	681	creB	COG0745	Transcriptional regulatory protein CreB	ATGCCGCACATCCTCATCGTCGAAGACGAAGCCGCCATCGCCGACACCCTGGTCTATGCCCTCCAGGCCGAGGGCTTTCGCACCACCTGGCTGAGCCTCGCCGGCGAGGCGCTGGCCTTCCAGGAGGCGAAGCCGGCGGACTTGCTGATCCTCGACGTCGGCCTGCCCGATATCAGCGGCTTCGAAGCCTGCAAGCGGCTGCGGCGGTTCTCGGACGTGCCGGTGATCTTCCTCACCGCCCGCGACGGCGAGATCGACCGCGTGGTGGGTCTGGAGATCGGTGCCGACGATTACGTGGTGAAGCCGTTCAGCCCGCGCGAGGTGGCGGCCAGGGTCAAGGCGATCCTCAAGCGGGTCGCGCCAAGGGCGGAACCGGCGACGCCGAACGGTCCGTTCCAGATCGACGAGGCGCGTTTCCTGATCCACTACCATGGCCAGCCGCTCGGCCTGACTCGCCATGAGTTTCGCCTGTTGCAGGCGCTGCTCGGCCAGCCGCAACGGGTGTTCAGTCGCGAGCAGTTGCTCGACGCCGTGGGCGTGCCGGCCGACGCCGGCTACGAGCGCAACATCGACAGCCACATCAAGAGCCTGCGCGCCAAGCTGCGCCAGGTCGCCGCCGAGGCCGAGCCAATCCAGACCCACCGCGGCCTTGGCTACAGCTACGACCCGGAGCGCGCCTGA	MPHILIVEDEAAIADTLVYALQAEGFRTTWLSLAGEALAFQEAKPADLLILDVGLPDISGFEACKRLRRFSDVPVIFLTARDGEIDRVVGLEIGADDYVVKPFSPREVAARVKAILKRVAPRAEPATPNGPFQIDEARFLIHYHGQPLGLTRHEFRLLQALLGQPQRVFSREQLLDAVGVPADAGYERNIDSHIKSLRAKLRQVAAEAEPIQTHRGLGYSYDPERA	PGPT0015055_223	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CARBON_STARVATION_RESPONSE,PGPT0015055-creB-K07663	NA	NA
BMS010_09779	2031			IS66 family transposase ISPsy43	ATGACTGGAGTACTCAAGCCGGGCGTACGTCTTCTCGAACGCTTCAGCTTCGCGCGCAAATTCCAACTGGTTTTCCTGCTCTTCCTGCTGCCCATGGGCTACGCGCTCTGGACGATCGTCAGCGACCATGTCGAACGGCTTTCGCTGATGGACCAGGAGCGCGCCGGCATGCGCACGGTGCAGGTGCTGAGCGACGTGCAGAAGGCGCTGCTGGAGCAGCGCACCCTGTTCGCCCGCTGGAAGGGGACCGAGAAACAGGCCGAAGCCCTGCTGATCCAGCGCGCGGGTGCCCTCGACGAGGCCCTGGCCCAGGTCCAGGCGACCTTGCAACGCGAGCCCATGGGCGACGCGGTGACGCGGCAACTGGAGGCGTTGCAGGGGATGCGCGGTGAGCTGGCGGTCGAGGCCGTGGGCCGGATGGCGCTACCGGATGCCCTGGAGCGTTACCAAAAGGTACTGCTGCAACTGACGGCGTTACGCGAGCAGGTGGCCACCGACAGCGGCCTGATCCTCGATCCGAAGCTCGATACCTACCTGATGATGGAACAGCTCACCGCGAGCCTGCCGCGCCTGCTGGAAAACCTCGGCAGCTTCGCCAGCCAGGGGCACGGTGCGGTGGTGTCCCAGCATTTCACCTTGCAGAGCCGGGTGGTGATCCGCGATCTGCGCCGTGCGCTGGAAGAGTCGCGCGCGCAGTTGCACAAGGTGCGTACCACCCTGGAGCGGGAGGCACCGGCGGTAGCCGCTTCCCTGCGAGAGCCCGGCGACAGGGCCCAGGGCGGGCTCGACCGCTTTCTCGAACGGATCGACCGCGAGATGTTCGACAGCAACCCCATCGCCCTAACTCCCGAGGCATTCATCCAGGCGGTGGAGCAGCTCGAAGGCGACCTGCGGGGCTTCGAGCAGGGACTCTTCGGCGAATTCGACCAGCGGGTCGCCGGCTACCGGGACGAGGACAGGGCGGTGCTGGTCGAAGTGGTGGCGGCCTTCACTGTCCTGACCCTGCTGGCGCTGTACGTGCTGTTCTGCCTGAACGCCTCGATTCAGCGCAGCACGGCGAGTATCACGGCGGCGGCGGAGGGCTTGCGTGCCGGTGACCTGAGCGTGCGCATGGCGGTGCAGGGCCAGGACGAGCTGGCCGGGATCGCTGCCTCGCTGAACACGGCGGTGGCGCAGTTGCGCGAGTCGCTTGAGGGCGTCAACACGGAAAGCCGGCAACTGGGCGGCACGGTGCAGCTGCTCAACGCCCAGGCCCAGGACTCCCTCGGGGCAGTGGAGCAGCAGCAGGGCCAGGTGAGCCAGATCGCCACCGCGGCAACCCAGTTGGCGGCCACCGCGCAGAGTGTGGCGGAAAGCTGCGAGCAGGCCGCCGCCGACGCCGGGCAGACCCGCGAGATCGCCGTGCAGAGCAATCAGCGCAGCGCCCGCACCAGCGCCAGCATGCGCCAGCTCAGCGCGCGGCTGGGCGATACCACGGCCACGTTGCAGAAGCTGCGCGAGCAGACCCAGCAGATCAACCGCATCGTCGATGTGATCAAGGGCATCGCCGAGCAGACCAACCTGCTCGCCCTCAACGCCGCCATCGAAGCCGCCCGCGCCGGCGAGCAGGGGCGCGGCTTCGCCGTGGTCGCCGACGAGGTGCGCAGCCTGTCGCAGCGGACCCAGGACTCCACCCAGGAAATCGGCAAGACGGTCGAGGACCTGCAGAAAGTGGTCGGCGAGGCCGTCGGACTGATGGAAGACGCCTTCCGCCAGGCCGAAACCGATGTCGGTAGCGTGTTGGCCATGGGGGAGGACCTGGACAGCATCGCCGAGGCGGTGCAGCGGGTCAGCGACCGCCTGGCCCAGATCGCCACCGCCGCCGAACAGCAGGCGGCCACCGCCGACGAGGTGAGCGGCAACATCCAGCAGGTCGACCAGGCCGCCAACCACCTGCTGGCCGGGGCCCAGGCGGTCAGCGAAGCCGCCGAGCAACTGCGCCGGGGCAGCGAGGTGCTGGAGCGCAATACCGGGCGGTTCCGGCTGGGGTAG	MTGVLKPGVRLLERFSFARKFQLVFLLFLLPMGYALWTIVSDHVERLSLMDQERAGMRTVQVLSDVQKALLEQRTLFARWKGTEKQAEALLIQRAGALDEALAQVQATLQREPMGDAVTRQLEALQGMRGELAVEAVGRMALPDALERYQKVLLQLTALREQVATDSGLILDPKLDTYLMMEQLTASLPRLLENLGSFASQGHGAVVSQHFTLQSRVVIRDLRRALEESRAQLHKVRTTLEREAPAVAASLREPGDRAQGGLDRFLERIDREMFDSNPIALTPEAFIQAVEQLEGDLRGFEQGLFGEFDQRVAGYRDEDRAVLVEVVAAFTVLTLLALYVLFCLNASIQRSTASITAAAEGLRAGDLSVRMAVQGQDELAGIAASLNTAVAQLRESLEGVNTESRQLGGTVQLLNAQAQDSLGAVEQQQGQVSQIATAATQLAATAQSVAESCEQAAADAGQTREIAVQSNQRSARTSASMRQLSARLGDTTATLQKLREQTQQINRIVDVIKGIAEQTNLLALNAAIEAARAGEQGRGFAVVADEVRSLSQRTQDSTQEIGKTVEDLQKVVGEAVGLMEDAFRQAETDVGSVLAMGEDLDSIAEAVQRVSDRLAQIATAAEQQAATADEVSGNIQQVDQAANHLLAGAQAVSEAAEQLRRGSEVLERNTGRFRLG				NA	NA	NA	NA	NA
BMS010_09780	513			hypothetical protein	GTGAAGCACGTTTTTCTGTCCGCCTGCCTGTTGTTGCCGTTGACCGCCTTCGCCGCCAAGGACCTCACCCTCTATGGGCGCTACGAGTATGTCCGCCTGCCTGAGATCGGCCAGGTCATGAAGGCGAAGATGGACACCGGCGCCCGCACCGCGTCGCTGTCGGCCAAGGATATCGAGCGCTTCGAGCGCGACGGCGAGGAATGGGTGCGTTTCCGCCTGGCCGGGAAGAGGGCCGACGACACCCTCTACGAACACCGCCTGGCGCGGATCAGCAAGATCAAGAACCGCGCCGACGAGGAAGACGACGAAGAAGGCGACAAGGCCGAAATCTCCCGCCGCCCGGTGATCGACCTGGAAGTCTGCCTGGGCGGTGAGCGGCGCGTTATCGAGGCCAACCTGACCGACCGCAGCGCCTTCAACTATCCGGTACTGATCGGTGCCAAGGCGCTGCGCGAGTTCGATGCGGCGGTAGACCCGGCCCGCAAGTTCACTGCCGGCAAGCCACAATGCTGA	MKHVFLSACLLLPLTAFAAKDLTLYGRYEYVRLPEIGQVMKAKMDTGARTASLSAKDIERFERDGEEWVRFRLAGKRADDTLYEHRLARISKIKNRADEEDDEEGDKAEISRRPVIDLEVCLGGERRVIEANLTDRSAFNYPVLIGAKALREFDAAVDPARKFTAGKPQC				NA	NA	NA	NA	NA
BMS010_09781	888	yihG_2	COG0204	putative acyltransferase YihG	ATGCGCCGCCCGTTGACCGGCCTCGTCGTCATCCTGCTGCTGTTGCTCAACACCCTGGTTCTCATCGGTCCGATGATGCTGCTCGCCCTGCTCAAGCTGGTGCTGCCCGGCCAGCGCCTGCGCGATCTCTGCTCGCGGGGCGTGATGTGGATCGCCGAGACCTGGGCGGAAATCGACAAGCTGATCTTCGCCACCTTCACCCCGACGGTCTGGGATATCCGCGGCGGCGAGAACCTGCGTCAGGACACCTCTTACCTGGTGATCAGCAACCATCAGTCCTGGGTCGATATCCCGGCGCTGGTCCAGGCGTTCAACCGCAAGACGCCCTACTTCAAGTTCTTCCTGAAGAAGGAGTTGATCTGGGTGCCCTTCCTCGGCCTCGCCTTCTGGGCGCTGGACTACCCGTTCATGAAGCGCTATTCCAAGGCCTTCCTGGAAAAGAATCCGCACCTGAAAGGCAAGGACCTGGAAATCACCAAGACCGCCTGCGAGCGCTTCAAGCGCATGCCGGTGACGGTGGTGAACTACCTGGAAGGCACCCGCTTCACCCCGGCCAAGCAGGCCCAGCAAGGCTCGCCCTATCGGTACCTGCTCAAGCCCAAGGCAGGCGGCGTGGCCTTCGTGCTCGCCGCCCTCGGCGAGCAACTCGACGCCATCCTCGATGTCACCCTGGTCTACCCGGAAGGCCGCATTCCCGGCTTCTGGGACCTGGCCAGCGGACAGGTTTCCAAGGTGATCGTCGACATCCACACCCGGTCGCTGGACCCGGCACTGTGGAGCGGCGATTACGAAAACGACCCGGAATTCCGCCAGTTCGTGCAGGGCTGGGTGTCGAAGCTGTGGGAAGAGAAGGACGCCCGCATCGGAGCGCTACGCGCGGAGTCATAG	MRRPLTGLVVILLLLLNTLVLIGPMMLLALLKLVLPGQRLRDLCSRGVMWIAETWAEIDKLIFATFTPTVWDIRGGENLRQDTSYLVISNHQSWVDIPALVQAFNRKTPYFKFFLKKELIWVPFLGLAFWALDYPFMKRYSKAFLEKNPHLKGKDLEITKTACERFKRMPVTVVNYLEGTRFTPAKQAQQGSPYRYLLKPKAGGVAFVLAALGEQLDAILDVTLVYPEGRIPGFWDLASGQVSKVIVDIHTRSLDPALWSGDYENDPEFRQFVQGWVSKLWEEKDARIGALRAES				NA	NA	NA	NA	NA
BMS010_09782	1200	fdhA_2		Glutathione-independent formaldehyde dehydrogenase	ATGTCTGGTAATCGTGGTGTCGTTTATCTCGGCGCGGGTAAGGTCGAGGTCCAGAAGATCGACTATCCCAAGATGCAGGACCCGCGCGGTCGCAAGATTGAGCACGGGGTCATCCTCAAAGTGGTTTCCACCAATATCTGCGGTTCCGACCAGCACATGGTGCGCGGTCGTACCACCGCCCAGGTCGGCCTGGTACTGGGCCACGAGATCACCGGTGAGGTGATCGAGAAGGGCAGTGACGTGGAGAACCTGAAGATCGGCGACCTAGTTTCCGTCCCCTTCAACGTTGCGTGCGGACGCTGCCGTTCCTGTAAGGAAATGCACACCGGTGTCTGCCTGACCGTCAACCCGGCCCGTGCCGGCGGTGCCTATGGCTACGTCGACATGGGCGACTGGACTGGCGGCCAGGCCGAGTACGTGCTGGTCCCCTACGCCGACTTCAACCTGCTCAAGCTGCCGGAGCGTGACAAGGCCATGGAGAAGATCCGTGACCTGACCTGTCTGTCCGATATCCTGCCCACCGGCTACCACGGCGCGGTCACTGCGGGCGTCGGCCCGGGCAGCACCGTCTACGTGGCCGGTGCCGGCCCGGTCGGCCTGGCCGCCGCCGCTTCCGCCCGCCTGCTCGGCGCCGCCGTGGTGATCGTCGGTGACGTCAACCCGGTACGTCTGCAGCACGCCAAGGCCCAGGGCTTCGAAATCGCCGACCTGTCCCAGGACACTCCGCTGCACGAGCAGATCGCCAACCTGCTGGGCGAGCCGGAAGTGGACTGTGCGGTGGATGCGGTGGGCTTCGAGGCACGTGGCCATGGTCACCAGGGCGCCCAGCACGAAGCGCCGGCAACGGTGCTCAACTCGCTGATGCAAGTCACCCGCGTGGCCGGCAAGATCGGCATCCCCGGTCTGTACGTCACCGAAGACCCGGGTGCGGTCGATGCCGCCGCCAAGATCGGTGCGCTGAGCATCCGCTTCGGTCTCGGCTGGGCGAAATCGCACAGCTTCCACACCGGCCAGACCCCGGTGATGAAGTACAACCGCGCGCTGATGCAAGCGATCATGTGGGACCGCATCAACATCGCCGAAGTGGTCGGCGTACAGGTGATCAGCCTGGACGACGCGCCCAAGGGCTACGGCGAGTTCGATGCCGGCGTGCCGAAGAAATTCGTCATCGACCCGCACAAGACGTTCAGTGCAGCTTAA	MSGNRGVVYLGAGKVEVQKIDYPKMQDPRGRKIEHGVILKVVSTNICGSDQHMVRGRTTAQVGLVLGHEITGEVIEKGSDVENLKIGDLVSVPFNVACGRCRSCKEMHTGVCLTVNPARAGGAYGYVDMGDWTGGQAEYVLVPYADFNLLKLPERDKAMEKIRDLTCLSDILPTGYHGAVTAGVGPGSTVYVAGAGPVGLAAAASARLLGAAVVIVGDVNPVRLQHAKAQGFEIADLSQDTPLHEQIANLLGEPEVDCAVDAVGFEARGHGHQGAQHEAPATVLNSLMQVTRVAGKIGIPGLYVTEDPGAVDAAAKIGALSIRFGLGWAKSHSFHTGQTPVMKYNRALMQAIMWDRINIAEVVGVQVISLDDAPKGYGEFDAGVPKKFVIDPHKTFSAA	PGPT0002115_323	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROMETHANE_DEGRADATION,PGPT0002115-fdhA-K00148	NA	NA
BMS010_09783	858	purU_5	COG0788	Formyltetrahydrofolate deformylase	ATGAGCCGCACCCCCGATACCTGGATTCTCACCGCCCATAGCCCGAGTCTGCTCGGCACCGTGGACGTGGTGACGCGCTACCTGTTCGAACAGGGCTGCTACGTCACCGAGCACCACAGCTTCGACGACCGCCTGGCCAGTCGCTTCTTCATCCGCATCGAGTTCCGCGCGCCGCAGGGCTTCGACGAGGCGGTCTTCCGCGTCGGCCTGGCCGAGCGGGTGGCGCCGTTCGACATGAGCACCGAGCTGACCCCGCCCGGCTACCGCGCCAAGGTGGTGATCATGGTCTCCAAGGCCGATCACTGCCTGAACGACCTGCTCTACCGCCAGCGCATCGGCCAGTTACCGATGGATATCACCGCGGTGGTCTCCAACCATCCGGACCTGGAGCCCCTGGCGCGCTGGCACGGCATCCCCTACTACCACTTCCCGCTCGACCCCAACGACAAGCCCTCCCAGGAGCGTCGGGTGATGCAGGTGGTGGAAGAGACCGGTGCCGAGCTGGTGATCCTCGCCCGCTACATGCAGGTGCTTTCGCCCGAGCTGTGCCGCAAGCTGGACGGCCGCGCGATCAACATCCATCACTCGCTGCTGCCTGGCTTCAAGGGCGCCAAGCCGTACCACCAGGCGTACCAGAAGGGCGTCAAGCTGGTCGGCGCCACCGCCCACTTCATCAACAACGACCTCGACGAGGGCCCGATCATCGCCCAGGGCGTCGAGCCGGTGGACCATTCTCACTATCCGGAAGATCTGATCGCCAAGGGCCGCGACATCGAATGCCTGACCCTGGCCAAGGCAGTGGGCTACTTCCTCGAGCGGCGTGTGTTCCTCCACGCCAACCGCACCGTTGTTTTGTAG	MSRTPDTWILTAHSPSLLGTVDVVTRYLFEQGCYVTEHHSFDDRLASRFFIRIEFRAPQGFDEAVFRVGLAERVAPFDMSTELTPPGYRAKVVIMVSKADHCLNDLLYRQRIGQLPMDITAVVSNHPDLEPLARWHGIPYYHFPLDPNDKPSQERRVMQVVEETGAELVILARYMQVLSPELCRKLDGRAINIHHSLLPGFKGAKPYHQAYQKGVKLVGATAHFINNDLDEGPIIAQGVEPVDHSHYPEDLIAKGRDIECLTLAKAVGYFLERRVFLHANRTVVL	PGPT0008155_2320	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008155-purU-K01433	NA	NA
BMS010_09784	633	soxG_2		Sarcosine oxidase subunit gamma	ATGACCGCAGTCAACGTCTACAAACAACGCCCGGACAAGATCGAAGGGCAATCCCCGCTGCACCACGCCGGCCTCGCCGAGCTGGTGGGCAAGGGCAAATCCGGTGCCGGTGTGCACCTGCGCGAGAAGAAGCTGCTCGGCCATCTGACCCTGCGCGGCGATGCCAAGGACCCGGCCTTCGCCGGCGGCGTGCACAAGGCTCTCGGCGTCGAGTTGCCGGTGGCGCTGACCCTGGTTGCCAACGGCAGCCTCTCGCTGCAATGGCTGGCCCCGGACGAGTGGCTGCTGATCGTTCCGCGTGGCGAGGAGTTCGCCACCGAGAAGCGTCTGCGCGAAGCCCTCGGCAACGAGCTGCACTATGCGGTGGTCAACGTCAGCGGCGGCCAGACCCTGCTCGAACTGAGCGGTCCGAAGGTTCGCGAGATGCTGATGAAATCCACCTCCTACGATGTCCATCCGAGCAATTTCCCGGTGGGCAAGGCGGTGGGGACCAACTTCGCCAAGACCCAGCTGGTGATCCGCCACACCGCCGAGGAAACCTGGGAGCTGGTGGTGCGGCGCAGCTTCGCCGACTACATCTGGCTCTGGCTGCAGGACGCCAGCGCCGAGTTCGGGTTGGCGATCGAGGCGTGA	MTAVNVYKQRPDKIEGQSPLHHAGLAELVGKGKSGAGVHLREKKLLGHLTLRGDAKDPAFAGGVHKALGVELPVALTLVANGSLSLQWLAPDEWLLIVPRGEEFATEKRLREALGNELHYAVVNVSGGQTLLELSGPKVREMLMKSTSYDVHPSNFPVGKAVGTNFAKTQLVIRHTAEETWELVVRRSFADYIWLWLQDASAEFGLAIEA	PGPT0013525_291	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013525-soxG-K00305	NA	NA
BMS010_09785	3039	soxA_7		Sarcosine oxidase subunit alpha	ATGAGCCAGGTCAATCGTCTGTCCCGTGGCGGCCGCATCGACCGCAGCCAGCCGCTGACCTTCACTTTCAACGGCGAGACCTACCAGGGCTACGCCGGCGACACCCTGGCCGCGGCCCTGCTGGCCAACGGTGTCGATGTGATCGGCCGCAGCTTCAAGTATTCCCGCCCGCGCGGCATCGTCGCCGCCGGTGCCGAAGAGCCGAACGCCGTGTTGCAGATCGGCTCCCGCGAAGAGACCCAGATCCCCAACGTACGTGCCACCCAGCAGGCGCTGTACAGCGGCCTGGTGGCGGCCAGCACCAACGGCTGGCCGAGCGTCAACAACGACCTGATGGGCATTCTCGGCAAGGTCGGCGGCAAGATGATGCCGCCCGGTTTCTACTACAAGACCTTCATGTACCCCTCGTCGCTGTGGATGACCTACGAGAAGTACATCCGCAAGGCCGCTGGGCTGGGCCGCGCGCCGCTGGAAAACGACCCGGACATCTACGACCACATCAATCAGCACTGCGACGTGCTGGTGATCGGCGCCGGCCCGGCCGGCCTCGCCGCCGCCTTGGCCGCGGGCCGCAGCGGGGCGCGGGTGATCCTTGCCGATGAACAGGAAGAGTTCGGCGGCAGCCTGCTGGACACCCGCGAGACGCTCGACGGCAAGCCCGCCGCGGAATGGGTCGCCAAGGTGGTCGCCGAGCTGAAGACCTTGCCGGAAGTGACCCTGCTGCCGCGCGCCACGGTGAACGGCTACCACGACCACAATTTCCTCACCATCCACGAGCGCCGTACCGATCATCTCGGCGAAACCGCTCCGCTGGGCGCCTTCAGCGCGCCCCAGGCCCGTCACCGCGTGCACCGCGTGCGTGCCGGCCGGGTGGTGCTGGCCGCCGGCGCCCACGAGCGGCCGCTGGTGTACGCCAACAACGACGTGCCCGGCAACATGCTGGCCGGCGCCGTCTCCACCTACGTGCGTCGCTACGGCGTGGCGCCGGGCAAGAAACTGGTCCTGGCCACCAACAACGATTACGCCTACCGCACCGCCCTCGACTGGCTCGATGCCGGCCTGCAGGTGGTGGCGGTCGCCGATGCGCGTTCCAATCCGCGCGGCAGCTGGGTCGAGGAAGTACGTTCCCGCGGCGTGCGCGTGCTCACCGGCAGCTCGGTGATCGACGTGCGCGGCGGCAAGCGGGTGGAAGCCGCCCGTGTGGCGGCCATCGACCCGGTGGCGATGAAAGTCACCAGCCCCGGCGAGTGGCTGGATTGCGACCTGGTCGCCAGCTCCGGCGGCTACAGCCCGGTGGTGCACCTGGCGTCGCACCTGGGTGGCCGTCCGGAATGGCGCGAAGACATCCTGGCCTTCGTGCCCGGCGAGGGCAACGGTTTGCAGAAGCGCATCGACGCCGGTGCGGTGAACGGTGTGTTCAAGCTCGGCGACGTGATCGCCAACGGCTTCGAAGCGGGCGTCAAGGCGGCCGCCGAAACCGGCTTCAAGGCGGCGGCGGGCGACCTGCCGCGCACCGAGAAGCGTGTCGAGGAAGCGGCTATCGCGCTGTTCCAGGTCCCCCACGAGAAGCCCACGGCGCGTGCGCCCAAGCAGTTCGTCGACCTGCAGAACGACGTCACCGCCGCCGGCATCGAACTGGCCACCCGCGAAGGCTTCGAGTCGGTCGAGCACGTCAAGCGCTACACCGCGCTGGGCTTCGGGACCGACCAGGGCAAGCTGGGCAACATCAACGGCCTGGCCATCGCCGCCCGTTCGATGGGGATCAGCATCCCGCAGATGGGCACCACCATGTTCCGCCCGAACTACACCCCGGTGACCTTCGGCGCCGTGGCCGGCCGTCACTGCGGCCACCTGTTCGAGCCCAAGCGCTACACCGCGATGCAGGCCTGGCACGTGGCCAACGGTGCCGAGTTCGAGGACGTCGGCCAGTGGAAGCGTCCCTGGTACTTCCCGAAGAAGGGCGAAGACCTGCATGCCGCCGTGGCCCGCGAGTGCCTGGCGGTGCGCAACAGCGTCGGCATCCTCGACGCCTCGACCCTCGGCAAGATCGACATCCAGGGCCCGGATGCCCGTGAGTTCCTCAACCGTGTCTACACCAACGCCTGGACCAAGCTGGACGTGGGCAAGGCGCGCTACGGCCTGATGTGCAAGGAAGACGGCATGGTCTTCGACGACGGCGTGACCGCCTGTCTGGCCGACAACCACTTCCTGATGACCACCACCACCGGCGGCGCCGCCCGCGTACTGCAGTGGCTGGAGCTGTACCACCAGACCGAGTGGCCGGAGCTGAAGGTGTACTTCACCTCGGTCACCGACCACTGGGCGACCATGACCCTGTCCGGCCCGAACAGCCGCAAGTTGCTGGCCGAAGTCACCGATATCGACCTGGACAAGGACGGCTTCCCGTTCATGACCTGGAAAGAAGGCAACGTCGCCGGCGTACCGGCGCGGGTGTTCCGTATCTCCTTCACCGGCGAGCTTTCCTACGAAGTGAACGTCCAGGCCGACTACGCCCTGGGCGTCTGGGAAAAGCTGATCGAGGCCGGCAAGAAGTACGACCTGACCCCGTACGGCACCGAGACCATGCACGTGTTGCGTGCGGAGAAGGGCTTCATCATCGTCGGCCAGGACACCGATGCCTCGGTGACCCCGGACGACCTGAACATGGGCTGGTGCGTCGGCCGCACCAAGCCGTTCTCCTGGATCGGCTGGCGCGGGATGAACCGCGAGGACTGCCTGCGCGAAGACCGCAAGCAACTGGTCGGCCTCAAGCCCATCGACCCGCTCAAGGTCCTGCCGGAAGGCGCGCAACTGGTGTTCGATCCCAAGCAGTCGATCCCCATGACCATGGTCGGCCACGTCACCTCCAGCTACATGAGCGCCACCATGGGCCACAGCTTCGCCATGGCGGTGGTCAAGGGCGGCCTCAAGCGCATGGGCGAGCGGGTCTTCGCACCCCTGGCCGATGGCAGCGTGATCGAGGCGGAGATCGTGTCTTCGGTGTTCTATGACCCGAAGGGGGAGCGGCAGAACGTTTGA	MSQVNRLSRGGRIDRSQPLTFTFNGETYQGYAGDTLAAALLANGVDVIGRSFKYSRPRGIVAAGAEEPNAVLQIGSREETQIPNVRATQQALYSGLVAASTNGWPSVNNDLMGILGKVGGKMMPPGFYYKTFMYPSSLWMTYEKYIRKAAGLGRAPLENDPDIYDHINQHCDVLVIGAGPAGLAAALAAGRSGARVILADEQEEFGGSLLDTRETLDGKPAAEWVAKVVAELKTLPEVTLLPRATVNGYHDHNFLTIHERRTDHLGETAPLGAFSAPQARHRVHRVRAGRVVLAAGAHERPLVYANNDVPGNMLAGAVSTYVRRYGVAPGKKLVLATNNDYAYRTALDWLDAGLQVVAVADARSNPRGSWVEEVRSRGVRVLTGSSVIDVRGGKRVEAARVAAIDPVAMKVTSPGEWLDCDLVASSGGYSPVVHLASHLGGRPEWREDILAFVPGEGNGLQKRIDAGAVNGVFKLGDVIANGFEAGVKAAAETGFKAAAGDLPRTEKRVEEAAIALFQVPHEKPTARAPKQFVDLQNDVTAAGIELATREGFESVEHVKRYTALGFGTDQGKLGNINGLAIAARSMGISIPQMGTTMFRPNYTPVTFGAVAGRHCGHLFEPKRYTAMQAWHVANGAEFEDVGQWKRPWYFPKKGEDLHAAVARECLAVRNSVGILDASTLGKIDIQGPDAREFLNRVYTNAWTKLDVGKARYGLMCKEDGMVFDDGVTACLADNHFLMTTTTGGAARVLQWLELYHQTEWPELKVYFTSVTDHWATMTLSGPNSRKLLAEVTDIDLDKDGFPFMTWKEGNVAGVPARVFRISFTGELSYEVNVQADYALGVWEKLIEAGKKYDLTPYGTETMHVLRAEKGFIIVGQDTDASVTPDDLNMGWCVGRTKPFSWIGWRGMNREDCLREDRKQLVGLKPIDPLKVLPEGAQLVFDPKQSIPMTMVGHVTSSYMSATMGHSFAMAVVKGGLKRMGERVFAPLADGSVIEAEIVSSVFYDPKGERQNV	PGPT0013515_100	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0013515-soxA-K00302	NA	NA
BMS010_09786	327	soxD_4		Sarcosine oxidase subunit delta	ATGCTTCACATTTTCTGTCCCCACTGTGGCGAACTGCGCTCCGAAGAGGAGTTCCACGCCGCCGGCCAGGCGCACATCGCGCGGCCGCTGGACCCGAACGCCTGCACCGACGAGGAGTGGGGCGACTATCTGTTCTTCCGCGACAACCCGCGCGGCCTGCACCACGAGCTGTGGCTGCACGCGGCCGGTTGCCGCAAGTATTTCAACGCCACCCGCCACACCATCAGCTACGAGATTCTCGAGACCTACAAGATCGGCGAGAAACCCAGCGTGACCGAGGCTGGCGGTAGCGAGAAGAAGCCCGTAGCGAAAGGAGTAACGGCATGA	MLHIFCPHCGELRSEEEFHAAGQAHIARPLDPNACTDEEWGDYLFFRDNPRGLHHELWLHAAGCRKYFNATRHTISYEILETYKIGEKPSVTEAGGSEKKPVAKGVTA	PGPT0013520_214	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013520-soxD-K00304	NA	NA
BMS010_09787	1251	soxB_6		Sarcosine oxidase subunit beta	ATGCAACGTTATTCCGGCTTCGGCCTGTTCAAGCACTCGCTCAGCCATCATGAGAATTGGCAGCGCATGTGGCGCAATCCCACGCCGAAGCCGGTCTACGACGTGGTCATCGTCGGCGGCGGCGGCCATGGCCTGGCCACGGCCTATTACCTGGCCAAGGAATTCGGCGTGAAGAACGTCGCCGTGGTGGAGAAGGGCTGGCTGGGCGGCGGCAACACCGCGCGCAACACCACCATCGTCCGCTCCAACTACCTGTGGGACGAGTCGGCGCAACTGTACGAACACGCCATGAAGCTGTGGGAAGTCCTGTCCCAGGACATCAACTACAACGTCATGTACTCGCCGCGCGGGGTCTACAACCTCTGCCATACCCTGCAGGACATGCGCGATTCCGAGCGCCGGGTGAGTGCCAACCGCCTCAACGGCATCGACGGCGAACTGCTCAATGCCGAGCAGGTGGCCGCCGAGATTCCTTACCTGGACTGCAGCAAGAACACCCGCTACCCGATCATGGGCGCGACCGTCCAGCGTCGCGGTGGCGTCGCCCGTCACGACGCGGTGGCCTGGGGTTATGCCCGCGCCGCCGATGCCGCCGGTGTCGACCTGATCCAGCAGACCGAGGTGATCGGCTTCCGCAAGCAGGACGGCGCCGTGATCGGCGTCGAGACCACGCGCGGCTTCATCGGCGCCAAGCGCGTCGGCGTGGTCACCGCCGGTAACTCCGGGCACATGGCCAAGCTCGCCGGCTTCCGCCTGCCGATCGAGTCGCATCCGCTGCAGGCGCTGGTGTCCGAACCGATCAAGCCGATCATCGACAGCGTGATCATGTCCAACGCCGTTCACGGCTACATCAGCCAGTCGGACAAAGGCGACCTGGTCATCGGCGCCGGCATCGACGGCTACAACGGCTACGGCCAGCGTGGCTCCTACCCGACCATCGAACACACCCTGCAGGCCATCGTCGAGATGTTCCCGATCCTGTCCCGGGTGCGCATGAACCGCCAGTGGGGCGGCATCGTCGACACCAGCCCGGACGCCTGCCCGGTCATCTCCAAGACGCCGGTGAAGAACCTGTTCTTCAACTGCGGCTGGGGTACCGGCGGCTTCAAGGCCACCCCGGGTTCGGGCCACGTATTCGCGGCCAGCCTGGCTACCGGCGAGATGCATCCGCTGGCCAAGCCGTTCGCCCTGGAACGCTTCCATACCGGCGCATTGATCGACGAACACGGCGCTGCCGCCGTGGCGCACTGA	MQRYSGFGLFKHSLSHHENWQRMWRNPTPKPVYDVVIVGGGGHGLATAYYLAKEFGVKNVAVVEKGWLGGGNTARNTTIVRSNYLWDESAQLYEHAMKLWEVLSQDINYNVMYSPRGVYNLCHTLQDMRDSERRVSANRLNGIDGELLNAEQVAAEIPYLDCSKNTRYPIMGATVQRRGGVARHDAVAWGYARAADAAGVDLIQQTEVIGFRKQDGAVIGVETTRGFIGAKRVGVVTAGNSGHMAKLAGFRLPIESHPLQALVSEPIKPIIDSVIMSNAVHGYISQSDKGDLVIGAGIDGYNGYGQRGSYPTIEHTLQAIVEMFPILSRVRMNRQWGGIVDTSPDACPVISKTPVKNLFFNCGWGTGGFKATPGSGHVFAASLATGEMHPLAKPFALERFHTGALIDEHGAAAVAH	PGPT0013510_479	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013510-soxB_-K00303	NA	NA
BMS010_09788	459	glyA_3	COG0112	Serine hydroxymethyltransferase	ATGCACGTGATCGCCGCCAAGGCGGTGTGCTTCAAGGAAGCGCTGGAACCGGGCTTCAAGGACTACCAGGCGCAGGTCATCAAGAACGCCCAGGCGATGGCCAAGGTGTTCATGGACCGCGGCTACGACGTGGTCTCCGGCGGCACCGACAACCACCTGTTCCTGGTCAGCCTGATCAAGCAAGGCCTGACCGGCAAGGATGCCGACGCCGCCCTCGGCCGCGCCGGCATCACGGTGAACAAGAACGCCGTGCCGAACGACCCGCAGTCGCCGTTCGTCACCTCCGGCGTTCGCATCGGTACCCCGGCGATCACCACCCGCGGTTTCAAGGAAACCCAGTGCGTGGCGCTGGCCGGCTGGATCTGCGACATCCTCGATCACCTCGGCGATGCCGATGTCGAGGCGCAGGTGGCCGCCCAGGTGGCCGGGCTCTGCGCGGACTACCCGGTCTACCGCTGA	MHVIAAKAVCFKEALEPGFKDYQAQVIKNAQAMAKVFMDRGYDVVSGGTDNHLFLVSLIKQGLTGKDADAALGRAGITVNKNAVPNDPQSPFVTSGVRIGTPAITTRGFKETQCVALAGWICDILDHLGDADVEAQVAAQVAGLCADYPVYR	PGPT0008090_5812	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008090-glyA-K00600	NA	NA
BMS010_09789	1443	zwf_3	COG0364	Glucose-6-phosphate 1-dehydrogenase	TTGACCAAGCCCTGCGACATGCTGGTATTCGGCGGCACCGGCGATCTGGCCCTGCACAAACTGCTGCCGGCGCTCTATCACCTGCACCGCGAAGGCCGCCTGCCGGCCGACATGCGCATCCTCGCCCTGGCCCGGCGCAACCTCGGGGTGGACGCCTACCGCGCCCTCGCCGAGCGCCATTGCCGGGCTCAGGTGGCACGCGTCGACTTCGACCCGCAGACCTGGCAGGGCTTCGCCGAACGCCTCGACTACCTGGCCATGGACGCCAGCCAGAGTGCCGACTACGGTCGGCTGGCCAAGCACCTCGGCAACCGCTGCCAGCGCGGACGCATCTACTACCTGGCCACCGCGCCCGACCTGTTCGAAGACATCGCCGCCTACCTGAAAACCGCCGGCCTCGCCGGTGACGACACGCGCATCGTGCTGGAAAAGCCGATCGGCCACTCGCTGGAATCGGCCCAGGCGATCAACGCCTCCATCGGCGCGGTGTTCGACGAATCCCGCGTGTTCCGCATCGATCACTACCTGGGCAAGGAAACCGTGCAGAACCTCATGGCGCTGCGCTTCGCCAACGCCCTGTTCGAGCCGATCTGGCGCGCCGGACACATCGACCACGTGCAGATCAGCGTCTGCGAAACCCTCGGCGTGGAAAACCGCGGCAGCTACTACGACCGCGCCGGCGCCATGCGCGACATGATCCAGAACCATCTGCTGCAACTGCTCTGCCTGGTGGCGATGGAGGCCCCGGTGCGTTTCGACGCGGAGTCGGTGCGCAACGAGAAGGTGAAAATCCTCGAGGCGCTCAAGCCCATCACCGGGCTCGACGTGAAGGACAAGACCGTGCGCGGCCAGTACAGCGCCGGCAAAGTCGGCGGGCATGACGTGCCGGCGTACTATTTCGAGAAAAGTGTCGACAACGACAGCGATACGGAGACCTTCGTCGCCGTTCAGGTGGAAATCGACAACTGGCGCTGGAGCGGCGTGCCGTTCTTCCTGCGCACCGGAAAACGCCTGGATCGCAAGCGCTCGGAGATCGTCATCCAGTTCAAGCCAGTGCCGCACCTGCTGTTCAACGGCTGCGAGGCCAACCGTCTGCTGATCCGCCTGCAACCGGAAGAACGCATCAGCCTGCAACTGATGGCCAAGGTCCCCGGCAAGGGCATGCGCCTAGACCCGGTGGAACTGGACCTCGACCTCGCCCATGCCTTCCGCCAGAAACGCCGCTGGGACGCCTACGAGCGCCTGCTGCTGGACGTGATCGAAGCCGATTCGACGCTGTTCATGCGTCGTGACGAGGTGGAAGCGGCCTGGCGCTGGGTCGATCCGATCATCGAGGGCTGGCACCGGCACTACCAGAAACCCCGCCCCTACCCGGCCGGCTCGACCGGCCCGGAACTGGCCCACAGCCTGTTGGAATTGCAGGGCCGCGCCTGGCACGAGTGA	MTKPCDMLVFGGTGDLALHKLLPALYHLHREGRLPADMRILALARRNLGVDAYRALAERHCRAQVARVDFDPQTWQGFAERLDYLAMDASQSADYGRLAKHLGNRCQRGRIYYLATAPDLFEDIAAYLKTAGLAGDDTRIVLEKPIGHSLESAQAINASIGAVFDESRVFRIDHYLGKETVQNLMALRFANALFEPIWRAGHIDHVQISVCETLGVENRGSYYDRAGAMRDMIQNHLLQLLCLVAMEAPVRFDAESVRNEKVKILEALKPITGLDVKDKTVRGQYSAGKVGGHDVPAYYFEKSVDNDSDTETFVAVQVEIDNWRWSGVPFFLRTGKRLDRKRSEIVIQFKPVPHLLFNGCEANRLLIRLQPEERISLQLMAKVPGKGMRLDPVELDLDLAHAFRQKRRWDAYERLLLDVIEADSTLFMRRDEVEAAWRWVDPIIEGWHRHYQKPRPYPAGSTGPELAHSLLELQGRAWHE	PGPT0017380_4558	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0017380-zwf-K00036	NA	NA
BMS010_09790	867	hexR_4	COG1737	HTH-type transcriptional regulator HexR	GTGAATCTGTTGCAACACATCGCTCAATCGCGCCACCTGCTACGCAAGTCGGAACTCAAGGTGGCCGATCACGTGCTGCTCGACCCGGCTGCGGTGATGCACAGCTCCATGGCCGATCTGGCCCATGACGTCGGCATCAGCGAGCCGACCATCGTCCGTTTCTGCCGCGCCATCGGTTGCAGCGGCTTCCAGGATCTCAAGCTGAAACTGGCGCAGAGCCTGGCGGCCGGCGCCAGCTTCGGCCAGTTCGCCATCCACGAGGACGACTCGGTGGCGGACTTCAGCCTGAAAATCTTCGACACCACCCTGCACACCCTGATGGAAGTCCGTGAGCGCCTCGACCCGGAGGCCCTGCAGAAGGCCATCGCCGCCTGCGCCCAGGCCCAGCGGGTGGAGTTCTATGGCTTCGGCGCGTCCGGCGCGGTGGCGGCGGATGCCCAGCACAAGTTCTTCCGCCTGCTGCTGACGGCGGCGGCCTATTCCGACCCGCACATGCAGGCGATGTCGGCGGTGACGCTCAAGCCCACCGACGTGGCGATCTGCATTTCCCAGTCGGGCCGCTCCAAGGACCTGCTGATCACCGCCAACCTCGTGCGTGAAGCGGGCGCCAACCTGATCACCCTGTGCCCGAGCCAGACGCCGCTGGCCGAGCTGGCCACGGTCAACCTGGCCATCGACGTGCAGGAAGACACGGAAATCTACACCCCGCTGACCTCGCGGATCGCCCATCTGGTGGTGATCGATGTGCTGGCCATGGGCGTGGCCATGGCGCGCGGCCCGACCCTGGTCAACCACCTCAAGAGCGTCAAGCGCAGTCTGCGCAGCCTGCGGTTGTCGCCGAAGACGGTGAAGGCCGCCGAGGACTGA	MNLLQHIAQSRHLLRKSELKVADHVLLDPAAVMHSSMADLAHDVGISEPTIVRFCRAIGCSGFQDLKLKLAQSLAAGASFGQFAIHEDDSVADFSLKIFDTTLHTLMEVRERLDPEALQKAIAACAQAQRVEFYGFGASGAVAADAQHKFFRLLLTAAAYSDPHMQAMSAVTLKPTDVAICISQSGRSKDLLITANLVREAGANLITLCPSQTPLAELATVNLAIDVQEDTEIYTPLTSRIAHLVVIDVLAMGVAMARGPTLVNHLKSVKRSLRSLRLSPKTVKAAED	PGPT0017985_599	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017985-hexR|yebK-K19337	NA	NA
BMS010_09791	225			hypothetical protein	ATGTCCCGGCATCACGATACGCATCAAGACGACTACGGCCTGGATTCCAAGGCCCGCCGCAAGCTGGCCGACCAGCGCCGCATGCGCTTCCGCCGCGCCATCGAGACCTACGCCGAGCAGCGGCAGTTGCAGCAGGAGCTGTCGGACTATCCGGAGCTGATCGCGGTCAACTACCTGCTGTCGTCGCAGGCAGTGTCCCGGCGAAGCGCTCGGCCAGCGCACTGA	MSRHHDTHQDDYGLDSKARRKLADQRRMRFRRAIETYAEQRQLQQELSDYPELIAVNYLLSSQAVSRRSARPAH				NA	NA	NA	NA	NA
BMS010_09792	963	cmpR_5	COG0583	HTH-type transcriptional activator CmpR	ATGCGTAAGTCCTTGATGCGCATGACATTGCGCCAACTACAGGTGTTCCGTTCGGTGTGCGACAGCCGGTCCTACAGCCGTGCCGCCGAGGAGATGGCGCTGACCCAACCGGCGGTCAGCCTGCAAATTCGTCAGTTGGAGGAGCTGGTCGGGCAGCCCTTGTTCGAATACGTCGGCAAGAAGCTCTATCTCACGGAAGCGGCGGAAGCACTGAAACGCGCCAGCACGGACATCTTCCAGCGCCTGGAAAGCCTCGACATGCAGCTCTCCGACCTGCAAGGCTCCTTGCAGGGCCAGCTCAACCTGGCGGTGGAATCCAGCGCCAAGTACTTCGTGCCGCACCTGTTCGCCGCCTTCAAGCGCCAGCAACCGGACGTCAGCCTGCACCTCACGGTGGTCAACCGCAGCCAGGTGATCAAACGCCTCTCCGACAACCGCGACGACCTGGTGATCATGTCCCTGGTACCGCAGGACATGGCGCTGGAATTCCTGCCCTTCCTGAACAACCCCATCATCGCCGTGGCCCCGCCCGGCCACCCGCTGTACCGCGCCGCCAAGCTGACGCTGCAGGACCTGGAGCCTTACCCGCTGCTGGTTCGCGAACCCGGCTCGGGCACCCGCAAGGCCTGCGAGGAATATTTCCAGCAGAAGCGCGCGCACTTCGCGCAGATACTCGAAGTGGCGTCGCTGGATGCGCAGAAGGAATGCGTGGTCGCCGGCCTCGGCCTGGCCCTGCTGCCACGCCATGCGGTGAGCCTGGAACTGGCCACCGGCCTGCTCCGCGAGCTGCCGGTGGAAGAGCTGCCGCTGTTCCGCAGCTGGTGCGCGGTGCATGCCCGCGGCAAGCGGCTGACACCGGTGGCGCAGGCGTTCCTCGCGTTCATCCGCGAGGAACGCGCGCAGATCAGTGCGCTGGCCGAGCGCTTCGCCGGGACACTGCCTGCGACGACAGCAGGTAGTTGA	MRKSLMRMTLRQLQVFRSVCDSRSYSRAAEEMALTQPAVSLQIRQLEELVGQPLFEYVGKKLYLTEAAEALKRASTDIFQRLESLDMQLSDLQGSLQGQLNLAVESSAKYFVPHLFAAFKRQQPDVSLHLTVVNRSQVIKRLSDNRDDLVIMSLVPQDMALEFLPFLNNPIIAVAPPGHPLYRAAKLTLQDLEPYPLLVREPGSGTRKACEEYFQQKRAHFAQILEVASLDAQKECVVAGLGLALLPRHAVSLELATGLLRELPVEELPLFRSWCAVHARGKRLTPVAQAFLAFIREERAQISALAERFAGTLPATTAGS	PGPT0001160_217	DIRECT EFFECT	BIO-FERTILIZATION	CARBON_DIOXID_FIXATION	CO2_FIXATION-RuBisCo	CO2_FIXATION-RuBisCo_BIOSYNTHESIS_REGULATION,PGPT0001160-cbbR|cmpR|ndhR-K21703	NA	NA
BMS010_09793	1416	cfiB	COG0439	2-oxoglutarate carboxylase small subunit	GTGATCAAGAAAATCCTGATCGCCAACCGCGGCGAGATTGCCGTCCGCATCGTGCGCGCCTGCGCCGAGATGGGCATCCGCTCGGTGGCCATCTACTCCGAAGCCGACCGCCATGCGCTGCACGTCAAGCGTGCCGACGAGGCGCACAACATCGGCGACGACCCGCTGGCGGGTTATCTGAACCCGCGCAAGCTGGTCAATCTGGCGGTGGAAACCGGCTGCGATGCGCTGCATCCCGGCTACGGCTTCCTTTCCGAAAACGCCGAGCTGGCGGAAATCTGCGCCCAGCGCGGGATCAAGTTCATCGGGCCGTCGGCCGAAGTGATCCGCCGCATGGGCGACAAGACCGAAGCGCGGCGCAGCATGATCGCCGCCGGCGTGCCGGTGACGCCCGGCACCGAGGGCAACGTCGCCGACCTCGACGAGGCGCTGCGCGAGGCCGAGCGCATCGGTTACCCGGTGATGCTCAAGGCCACCTCCGGCGGTGGCGGCCGGGGCATCCGCCGCTGCAACTCCCGCGAGGAGCTGGAGCAGGCCTATCCACGGGTGATCTCCGAGGCGACCAAGGCCTTCGGCTCGGCGGAAGTCTTCCTCGAAAAGTGCATCGTCAACCCGAAGCACATCGAAGCCCAGGTGCTGGCCGACAGCTTCGGCAACACCGTGCACCTGTTCGAGCGCGACTGCTCGATCCAGCGGCGCAACCAGAAGCTCATCGAGATCGCCCCCAGCCCACAGCTCACTCCCGAGCAGCGCGCCTATATCGGCGACCTGGCGGTACGCGCGGCCAAGGCGGTCGGCTACGAGAACGCCGGCACCGTGGAATTCCTCCTCGCCGAGGGCGAGGTGTACTTCATGGAAATGAACACCCGGGTCCAGGTGGAGCACACCATCACCGAGGAAATCACCGGGATCGATATCGTCCGCGAGCAGATTCGCATCGCCTCCGGCCTACCGTTGTCGGTGAAGCAGGAAGACATTCAGTACCGCGGCTACGCGTTGCAGTTCCGCATCAACGCCGAAGACCCGCGCAACAACTTCCTGCCCAGCTTCGGCAAGATCACCCGCTACTACGCGCCCGGCGGCCCCGGCGTGCGCACCGACACGGCGATCTACACCGGCTACACCATTCCGCCGTACTACGACTCCATGTGCCTGAAGCTGGTCGTCTGGGCGCTGACCTGGGAAGAGGCCCTGGCGCGTGGCTCGCGGGCGCTGGACGACATGCGCGTGCAGGGCGTGAAGACCACCACCACCTACTACCAGCAAATCCTCGCCAACCCGGACTTCCGCAGCGGCCAGTTCAACACCAGCTTCGTCGACGAACACCCGGAGCTGCTGAATTACTCGATCAAGCGCAGACCGGGCGAGCTGGCCCTGGCCATCGCCGCTGCCATCGCCGCCCATGCAGGTTTATGA	MIKKILIANRGEIAVRIVRACAEMGIRSVAIYSEADRHALHVKRADEAHNIGDDPLAGYLNPRKLVNLAVETGCDALHPGYGFLSENAELAEICAQRGIKFIGPSAEVIRRMGDKTEARRSMIAAGVPVTPGTEGNVADLDEALREAERIGYPVMLKATSGGGGRGIRRCNSREELEQAYPRVISEATKAFGSAEVFLEKCIVNPKHIEAQVLADSFGNTVHLFERDCSIQRRNQKLIEIAPSPQLTPEQRAYIGDLAVRAAKAVGYENAGTVEFLLAEGEVYFMEMNTRVQVEHTITEEITGIDIVREQIRIASGLPLSVKQEDIQYRGYALQFRINAEDPRNNFLPSFGKITRYYAPGGPGVRTDTAIYTGYTIPPYYDSMCLKLVVWALTWEEALARGSRALDDMRVQGVKTTTTYYQQILANPDFRSGQFNTSFVDEHPELLNYSIKRRPGELALAIAAAIAAHAGL	PGPT0001425_409	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001425-pycA-K01959	NA	NA
BMS010_09794	1809	oadA_2	COG0511	Oxaloacetate decarboxylase alpha chain	ATGAGTAAGAAGATTTTCGTCACCGATACCATCCTGCGCGATGCCCACCAGTCGCTGATCGCCACCCGCATGCGCCTGGAAGACATGCTGCCGATCTGCGAGAAGCTCGACCGGGTCGGCTACTGGTCGCTGGAAGTCTGGGGCGGCGCCACCTTCGACGCCTGCGTACGCTTCCTCAAGGAGGACCCGTGGGAGCGTCTGCGCCAACTGCGCGCCGCGCTACCCAATACCCGTCTGCAGATGCTCCTGCGCGGGCAGAACCTGCTGGGCTACCGGCACTACAGCGACGATGTGGTGAAAGCCTTCGTCGCCAAGGCGGCGGTGAACGGCATCGACGTGTTCCGCATCTTCGATGCCATGAACGACGTGCGTAACCTACGCGTCGCCATCGAGGCGGTGAAGGCAGCCGGCAAGCATGCCCAGGGCACCCTTTGCTACACCACCAGCCCGGTGCACACCATCGACGCCTTCGTCGCCCAGGCCAAGCAGATGGAAGCCATGGGCTGCGATTCCGTCGCGATCAAGGACATGGCCGGCCTGCTCACGCCCTATGCCACCGGTGAGCTGGTCAAGGCACTGAAGGCCGAGCAGTCGCTGCCGGTGTTCATCCACTCCCACGACACCGCCGGCCTGGCCGCCATGTGCCAGCTCAAGGCCATCGAGAACGGCGCCGACCACATCGACACCGCCATCTCCGCCTTCGCCTGGGGCACCAGCCATCCGGGCACCGAGTCGATGGTCGCCGCGCTCAAGGGCAGCGAGTACGACACCGGCCTCGACCTCGAACTGCTGCAGGAGATCGGCCTGTACTTCTACGCGGTGCGCAAGAAGTACCACCAGTTCGAGAGCGAATTCACCGCCGTGGACACCCGCGTGCAGGTCAACCAGGTGCCGGGCGGCATGATGTCCAACCTGGCCAACCAGTTGAAGGAGCAGGGCGCGCTGCACCGCATCAACGAGGTGTTCGAAGAGATTCCCAAGGTGCGCGCCGACCTCGGCTTCCCGCCGCTGGTCACGCCGACCTCGCAGATCGTCGGCACCCAGGCGGTGTTCAACGTGCTCGCCGGCGAGCGCTACAAGACCATCACCAATGAGGTGAAGCTGTACCTCCAGGGTCGCTATGGCAAGGCGCCGGGCAAGGTGAACGAACACTTGCGCTTCCGCGCCATCGGCAGCGAAGAAGTGATCGAGGGTCGCCCGGCCGACCTGCTCAAGCCGGAAATGGCCAAGCTGCGTACCGAGATCGGCACCCTGGCGAAGAGCGAAGAGGACGTGCTGACCTACGCCATGTTCCCGGACATCGGCCGCAAGTTCCTCGAAGAACGCGCAGCCGGCACCCTGACCCCGGAAGCACTGCTGCCGATCCCGGACGGCAGCCAGTCGGCGGTCGGCGGGGAAGGCGTGCCCACCGAGTTCGTCATCGACGTGCACGGCGAGAGCTACCGCGTGGACATCACCGGCGTCGGCGTGAAGACCGACGGCAAGCGCCACTTCTACCTGTCCATCGACGGCATGCCGGAAGAAGTGGTGTTCGAGCCGCTGAACGCCTTCGTCGGTAGCGGCGCGGGCGGCAAGCGCAAGCATGCCAGCGCACCGGGCGACGTCAGCACCAGCATGCCGGGCAACATCGTCGACGTGCTGGTGAAAGAGGGCGATGTGGTCAAGGTGGGCCAGCCGGTGCTGATTACCGAAGCGATGAAGATGGAGACCGAGGTGCAGGCGCCCATCGCCGGTACGGTCAAGGCCGTCCACGTGGCCAAGGGCGACCGGGTGAACCCCGGTGAGGTCCTGATCGAAATAGAAGGTTGA	MSKKIFVTDTILRDAHQSLIATRMRLEDMLPICEKLDRVGYWSLEVWGGATFDACVRFLKEDPWERLRQLRAALPNTRLQMLLRGQNLLGYRHYSDDVVKAFVAKAAVNGIDVFRIFDAMNDVRNLRVAIEAVKAAGKHAQGTLCYTTSPVHTIDAFVAQAKQMEAMGCDSVAIKDMAGLLTPYATGELVKALKAEQSLPVFIHSHDTAGLAAMCQLKAIENGADHIDTAISAFAWGTSHPGTESMVAALKGSEYDTGLDLELLQEIGLYFYAVRKKYHQFESEFTAVDTRVQVNQVPGGMMSNLANQLKEQGALHRINEVFEEIPKVRADLGFPPLVTPTSQIVGTQAVFNVLAGERYKTITNEVKLYLQGRYGKAPGKVNEHLRFRAIGSEEVIEGRPADLLKPEMAKLRTEIGTLAKSEEDVLTYAMFPDIGRKFLEERAAGTLTPEALLPIPDGSQSAVGGEGVPTEFVIDVHGESYRVDITGVGVKTDGKRHFYLSIDGMPEEVVFEPLNAFVGSGAGGKRKHASAPGDVSTSMPGNIVDVLVKEGDVVKVGQPVLITEAMKMETEVQAPIAGTVKAVHVAKGDRVNPGEVLIEIEG	PGPT0001430_253	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001430-pycB-K01960	NA	NA
BMS010_09795	942			hypothetical protein	ATGAGTCTCGATCCTGTCGTGCTGTTCTTCCTCTTCGGCCTGGTCGCCGGGTTGGTGAAAAGCGAACTGAAACTGCCGCCGGCGCTATACGAGACACTCTCCATCGTGCTGCTGCTGGCCATTGGTCTGCATGGTGGGGTGGAGTTGGCGGAGCAGGCCAGCCCGGCTCTGCTCGGCCAATCGCTGCTGGTGCTCGGGCTGGGCATCTGCCTGCCGCTGCTGGCGTTTCCGGCGCTGCGTCTGCTCGGCTTTTCGCGGGTCGATTCGGCCAGCGTGGCCGCCCACTACGGTTCGGTGAGCGCCGGTACCTTCGCCGTGGTGGTCGCCTTCATGGTGGCCAAGGGCATTGCCTTCGAGAGCTACATGCCGCTGTTCGTGGCGATCCTGGAGATTCCGGCGATCCTGGTGGGCATCGTCCTGGCCAAGGGGATTTCCCGCGAGACGCACTGGAAGGAGCTGGGCCGCGAGATTTTCCTCGGCAAGAGCATCATGCTCCTGCTCGGCGGCCTGGCGATCGGCGCGATTGCCGGCAAGGAGTCGATCAAGCCGCTGGAGCCGCTCTACACCAGCATGTTCAAGCCGGTGCTGGCGTTCTTCCTGCTGGAGATGGGGTTGATCGCCTCCGGGCAGCTCAGCGCACTGAAACGCTTCGGCGCCAAGCTGGCGCTGTTCGCCCTGTGCATGCCGCTGGTCGGTGCCCTGGTGGGGGCTTTGCTGGCCCGGGCCATGGGCCTGTCGCTGGGTGGCACGGCGATGCTCGCCACGCTGGCGGCCAGCGCCTCCTATATCGCGGTGCCGGCGGCGATGCGCCTGGCGGTGCCGGAGGCCAATCCGTCGCTGTCGCTCACGGCCTCCTTGGGAATCACCTTCCCCTTCAATATCCTGGTGGGCATTCCGCTGTACCTGGCCCTGGCCGAAACCCTGATCGCATGGGGACTCTGA	MSLDPVVLFFLFGLVAGLVKSELKLPPALYETLSIVLLLAIGLHGGVELAEQASPALLGQSLLVLGLGICLPLLAFPALRLLGFSRVDSASVAAHYGSVSAGTFAVVVAFMVAKGIAFESYMPLFVAILEIPAILVGIVLAKGISRETHWKELGREIFLGKSIMLLLGGLAIGAIAGKESIKPLEPLYTSMFKPVLAFFLLEMGLIASGQLSALKRFGAKLALFALCMPLVGALVGALLARAMGLSLGGTAMLATLAASASYIAVPAAMRLAVPEANPSLSLTASLGITFPFNILVGIPLYLALAETLIAWGL				NA	NA	NA	NA	NA
BMS010_09796	303			Membrane-associated protein	ATGCCTGCCCATACTCGTACGCTGCTCACCGTGATCTGCGAAGCGGCACTGGAAAAGAAACTGGAAACCGACCTGGACCAGCTCGGCGCCCCCGGCTGGACCCTGTCGGACGCCCGCGGACGCGGCAGCCGGGGCGTGCGCAGCGCTGGCTGGGACACCGAGGGCAACATCCGCCTGGAGGTCATCTGCGCCCGCGAAGTGGCCGAACGCATTGCCCACCACTTGCAGGAGCACTATTACGCCAACTACGCCATGGTCTGTTATTTGGCGGAGGTGGAGGTGCTGCGGCCGGAGAAGTTCTAG	MPAHTRTLLTVICEAALEKKLETDLDQLGAPGWTLSDARGRGSRGVRSAGWDTEGNIRLEVICAREVAERIAHHLQEHYYANYAMVCYLAEVEVLRPEKF				NA	NA	NA	NA	NA
BMS010_09797	678			hypothetical protein	ATGCATCAGGATGATCTGCTCGATTGGCACGCCGCCGTCCCACCCTCGCCGCGAACGCTGGAAGGCCGCTACATCCGCCTGGAGCCGCTCGACCCGAAACGGCACGGCGACGATCTCTGGCAAGCGCTGCAAGGCCCCGAATCCGACCCGGCGCTGTGGGATTACCTGCCTTACGGTCCGTTCGACCAGCGCGCGAATTTCGATACGTGGCTGGCGGGCAATGCCGAGACGCGCGATCCGCTGTTCTACAGCGTGGTGGATCGGCGCAGCGGACAAGTCCAGGGGCTGCTCAGCTTCCTGTCCATCGTGCCGGAACACGGCAGCATCGAGATCGGCCACGTCGCCTTCGGCGCCCGCATGCAGCGCAGCCCGCGGGCGACCGAGGCGGTCTTCCTCCTCGCCGAGGAAGCCTTCTCCTTGGGCAATCGCCGCCTGGAGTGGAAGTGCAACGCCACCAACCAGCGCTCCATGCGCGCCGCCGAGCGCTTCGGCTTCCAGTTCGAGGGGATTTTTCGCCAGCACCGGGTGGTCAAGGGTCGCAACCGCGACACCGCCTGGTTCGCCATGGTCGACCACGAATGGCCGGCGCTGCGCGAAGCGTTCCAGCGATGGCTGGCGGAGGAGAATTTCGATACCGAGGGACACCAACGGCAACGCCTGGAGGCGCTACGCGGCTGA	MHQDDLLDWHAAVPPSPRTLEGRYIRLEPLDPKRHGDDLWQALQGPESDPALWDYLPYGPFDQRANFDTWLAGNAETRDPLFYSVVDRRSGQVQGLLSFLSIVPEHGSIEIGHVAFGARMQRSPRATEAVFLLAEEAFSLGNRRLEWKCNATNQRSMRAAERFGFQFEGIFRQHRVVKGRNRDTAWFAMVDHEWPALREAFQRWLAEENFDTEGHQRQRLEALRG				NA	NA	NA	NA	NA
BMS010_09798	447			hypothetical protein	ATGCCACACCTCGAAATCCGCCCCATCAGTGCTGCCGACCACGGTGCCTGGCTGCCGCTCTGGCAGGGCTATCAGCGCTTCTACCAGACGGACATCCCGACCGAGACCAGCGCCGTCACCTGGCAACGCTTCCTCGATCCGGCGGAGCCCATGCACGCGGCACTGGCCTGGCTCGACGGCCGAGCCGTGGGCCTGGTGCACTTCATCTACCACCGCTCCTGCTGGACCGTCGGCAACTATTGCTACCTGCAGGACCTGTTCGTCGCCGAGGGCCTGCGCGGCGAAGGCGTCGGCCGCCGGCTGATCGAGCACGTCTACGCAACGGCCCAAGCCGCCGGCTGCTCACGCGTCCACTGGCTGACCCACGAGACCAACACCGAGGCCATGAAGCTGTACGAGCGGATCGCCGACCGTTCGGGCTTCGTGCAATATCGCCATCTGTTCTGA	MPHLEIRPISAADHGAWLPLWQGYQRFYQTDIPTETSAVTWQRFLDPAEPMHAALAWLDGRAVGLVHFIYHRSCWTVGNYCYLQDLFVAEGLRGEGVGRRLIEHVYATAQAAGCSRVHWLTHETNTEAMKLYERIADRSGFVQYRHLF	PGPT0013170_291	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS010_09799	630	paiB	COG2808	Protease synthase and sporulation protein PAI 2	ATGTACCTGCCACCGGCCTTCCGCGTCGAAGACCTGCCCCGCCTGCACGCACAGATCGATGCCAGCCCGCTGGCGATCCTGGTCACCCCCGGAGAACAGGGACCGGAAGCCAGCCACCTGCCGCTGCTGCTCGACCCGCAGGCCGGCGAGTTCGGCACCCTGCATGGCCACTTCGCCCGCGCCAACCCGCAGTGGCGCCAGCTCGCCGACGGTGCCGAAGCCCTGGTGATCTTCTCCGGCCCCGATGCCTATGTGAGCCCCGGCTACTACCCGAGCAAGGCGGAACACGGCAAGGCGGTGCCGACCTGGAACTACATCGCCGTGCATGCCTACGGCCAGGCCGAGATCTACGACGACCCGCAGCGCCTGCGTGCGCTGGTCAGCCGGCTGAGCGAGCGCCACGAGCAAGGCCGCGCTCATCCGTGGTCGGTGGACGACGCGCCGCCCGGCTACATCGACGGCATGCTGCGCGCCATCGTCGGCTTCTCGCTGCCGATCCGCCGCTTGGAAGGCAAGTGGAAGCTCAGCCAGAACCGCAGCGCGGAGGATTTCGCCGGTGTTCGCGATGCTTTATCCGTCAGCCCGGAAGCGAACGAACGTGCGCTCGCCCAACGGATGACAACGCTGTAG	MYLPPAFRVEDLPRLHAQIDASPLAILVTPGEQGPEASHLPLLLDPQAGEFGTLHGHFARANPQWRQLADGAEALVIFSGPDAYVSPGYYPSKAEHGKAVPTWNYIAVHAYGQAEIYDDPQRLRALVSRLSERHEQGRAHPWSVDDAPPGYIDGMLRAIVGFSLPIRRLEGKWKLSQNRSAEDFAGVRDALSVSPEANERALAQRMTTL	PGPT0014760_890	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-ENVELOPE_REMODELLING_REGULATION	CE-ENVELOPE_REMODELLING_REGULATION_FACTOR,PGPT0014760-paiB|yumE-K07734	NA	NA
BMS010_09800	1467	gabR_2	COG1167	HTH-type transcriptional regulatory protein GabR	ATGAACCCCACGACCTTGCCCTTCGACCCCGCCGGCATCCGTCTCGACCCGAGCCGGGGGTTGGCCCGGCAGCTTTACCAGGCCTTGCGCGAGCGCATCCTCGACGGGCGCATGGCCAGCCGCATGCGCCTGCCGGCCAGCCGCGATCTGGCGCGGGCGTTGGGGGTGTCGCGCAATACGGTGGTGCGTGCTTATGACCAGTTATATGCCGAGGGCTTCATCGAGGGCCGCACCGGCGATGGCACTTATGTCGCCGGGCTGGGGGCCGCTCCGGTGCCCTCCGGCGCGGTGGCGAGCCCCTCGGCCGAGCCGGCGTCGAACCGGCAGGCCCAGTTGCAGGTGCATCGCCTGGACAGCCGTCGCGAAGGCGCGCCCAGGGCGTTCCGGGTTGGGGTTCCGGCCTTCGACCTGTTCCCCTTCGAAGTCTGGGCCCGCTTGCAGGCGCGCTTCTGGCGCAACCCGCCGCTGGAGCGCCTGGGCTATGGCGAGGCGGCGGGCGATCCGCAACTGCGCGAATTGATCGCCGCCTACCTGCGCAGTGCGCGCGGGCTGCATTGCGAGCCGTCGCAAGTGATCGTCACCAGCGGCGCCCAGCAGGCGATCAGTCTGTGCGCCCGGTTGTTGCTGGAGCCGGGCGACAGCGTGGCGGTGGAGAACCCCGGCTACCGCGCCGCCGGCCATGCCCTGGCGATAGCCGGGGCGCGGTTGCAGGGTGTGGCGGTGGATCATGACGGGCTGGATACCGGGCAACTGGTGGGGCTGGCCGATTGCCGGCTGGTCTACGTCACCCCCTCGCACCAGTACCCCAGCGGCGTGACCCTCTCCCTGGCACGCCGGCTGGAACTGCTGGACTGGGCCGAGCGCGAGCGGGGCTGGATTCTCGAGGACGACTACGACGGCGAGTACCGCTACAGCGGCACGCCCCTGGCGCCCCTGGCCGCGCTCGACCGGACGGGGCGCGTGCTCTACATCGGCACCTTCTCCAAGATTGCCTTTCCCGGCCTGCGCCTGGGTTATCTGGTGGTGCCGCCGGCGCTGGCCCAAGCCGTCGCGCAACTGCGCGCGCTGGACATGCGTCACTCGGAAATCGGCACCCAGGCGGTCATGGCGGCGTTCATCGCCGAGGGCCATTTCCAGCGCCACATCCGGCGCATGCGCCGCGCCGCCCGTTCGCGGAGGGACGCGCTGCTGGCGGGTTGGCCGGCCGGGATAGCGGGCTGCCAGCCGCTGCCGACGGTGGAAGCCGGGCTGCACCTGAGCGTGCGGGTCGAGAGCCGGGCGCGGGAGCGCGAGCTGATCGAGCGCGCCGCTGCGGTCGGCGTGGAGATCAACGCGCTCAGCGATTACTGGCTGCCGGACCCCGCCGCCGACCCGGACACCCGGGCCGGTCTGGTGCTGGGGTTCGCCGGTGTCGACGAGCGTCGCATCGGCGAGGCGCTGCGGGCCCTGGAAGGCGCCTGGCAGTAG	MNPTTLPFDPAGIRLDPSRGLARQLYQALRERILDGRMASRMRLPASRDLARALGVSRNTVVRAYDQLYAEGFIEGRTGDGTYVAGLGAAPVPSGAVASPSAEPASNRQAQLQVHRLDSRREGAPRAFRVGVPAFDLFPFEVWARLQARFWRNPPLERLGYGEAAGDPQLRELIAAYLRSARGLHCEPSQVIVTSGAQQAISLCARLLLEPGDSVAVENPGYRAAGHALAIAGARLQGVAVDHDGLDTGQLVGLADCRLVYVTPSHQYPSGVTLSLARRLELLDWAERERGWILEDDYDGEYRYSGTPLAPLAALDRTGRVLYIGTFSKIAFPGLRLGYLVVPPALAQAVAQLRALDMRHSEIGTQAVMAAFIAEGHFQRHIRRMRRAARSRRDALLAGWPAGIAGCQPLPTVEAGLHLSVRVESRARERELIERAAAVGVEINALSDYWLPDPAADPDTRAGLVLGFAGVDERRIGEALRALEGAWQ	PGPT0016790_2755	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0016790-mocR-K00375	NA	NA
BMS010_09801	396			hypothetical protein	ATGAAGATCAAGAAACTGGCGAGCGTCGTCGCGCTGGCTATCGTTGCCAGCGGCTGCTCCACCAAGGCCTATTTCAAGCTGCCGGAACAGGCGAAGGTCTCGGTCTACGAGCGCCCGCAGCAGTATTCCCAGGGTCTGGTGAAGACCAAGCCCTTCTACTGGACCGCCGCCGGCGGCATTCCCTACAAGCTCAGCGATGAGAACGGCACCTTGATCCGTCAGGGCAAGCTGCGTGCGCGTTTCCGCGTGGCCTCCATCTTCTGGCCGCCCTTCGCCATCATTTACTGGCCGATGGGCTTCGGCCAGCGCTGCTACGACCTGACCGCCGAGCAGCCGCAGACCTGCACCCACCAGGACCTGATCGACCTGCGCCGGGACCATCGGCTGTCGCGCTGA	MKIKKLASVVALAIVASGCSTKAYFKLPEQAKVSVYERPQQYSQGLVKTKPFYWTAAGGIPYKLSDENGTLIRQGKLRARFRVASIFWPPFAIIYWPMGFGQRCYDLTAEQPQTCTHQDLIDLRRDHRLSR				NA	NA	NA	NA	NA
BMS010_09802	1431	alsT_4	COG1115	Amino-acid carrier protein AlsT	ATGTTGGACCTGATCAACGACCTCCTCTGGAGCAAAGTCCTGATCGTCATGCTGGTGGGCCTGGGCCTGTACTTCACGGTACGTTCCCGGTTCGTGCAGTTCCGTTACTTCGGCACCATGTTCCGCATCTTCGCCGAAGCCTTCCAGCGCCAGCCGGGCCAGCTCAGCTCGTTCCAGGCCCTGATGCTTTCCGTGGCCGGCCGCGTCGGCGCCGGCAACATCGCCGGGGTGGCCGTGGCCATTACCCTCGGCGGGCCGGGTGCGGTGTTCTGGATGTGGCTGGTCGCCCTGCTCGGCATGGCCACCAGTTACTTCGAGTGCTCGCTGGCGCAGCTCTACAAGCGCCGCGAGGAAGACGGCACCTACCGCGGCGGCCCGGCCTTTTACATCCTCCACGGCCTCGGCCAGCGCTGGCTGGCGATCGTGTTCTCGATCCTGCTGCTGGTGACCTTCGGCTTCGGCTTCAATGCCCTGCAGTCCTACACCGTGGCCAGCTCGCTGCATGACACCTTCGGCCTGCCGACCTACCTGTGCGGCATCCTCCTGGCGGTGGTGATCGGCGCGATCATCTTCGGCGGCGTGAAGCGCATCGTCAGCATGGCGGACGTACTGGTGCCGGTGATGGCGTTCTCCTACATCGCCATGGCGCTGTTCGTCATCGGCGGCAACATCGACCAGGTTCCGCAGACCCTGGCGCTGATCGTGAAGAGCGCCTTCGGCCTGGAGCCGGCCTTCGCCGGCGGCATCGGTGCGGCGATCCTGATGGGCGTCAAGCGCGGCCTGTTCTCCAACGAAGCGGGCCTGGGCAGCGCACCGAACGTGGCCGCCATCGCCGAGGTGAAGCACCCGGCCGCGCAAGGCATCGTGCAGTCCCTTTCCGTGTTCATCGACACCCTGCTGATCTGCACCAGCACCGCGCTGATCATCCTGCTCTCCGGCGTATACCAGCCGGGCACCGAGATCGCCGGCGTGCTGCTGACCCAGAACGCCCTGGCGGCGGTGGTCGGCGAGTGGGGCCGGATTTTCGTCAGCCTGGCGCTGCTGCTCTTCGTCTTCACCACGCTGATCTACAACTACTACCTGGGCGAGAACGCGCTGAGCTTCTTCAGCGAGAAGCGTCCGGTGGTGATCGGCTACCGCGCCCTGGTCATCGCCCTGGTGATGTGGGGTTCGCTGCAGGACCTGGGCACCGTGTTCGCCTTCGCCGACGTGACCATGGGTCTGCTGGCCCTGGTCAACCTGGTGGCCGTGGCGCTGCTGTTCAAGACCGGCCTGCGCCTGATGCACGACTACGACGCCCAGGTGAAGGCCGGCGTCGAGCGCCCGGTGTTCGACCGTCGCCAGTACGCCGACCTGGAACTCGACCCGGCTGCCTGGCCGGAGCCGCGCCCGGAGCCGCACGTCACCGCGGCCGCCGTGCACCAGCGTTGA	MLDLINDLLWSKVLIVMLVGLGLYFTVRSRFVQFRYFGTMFRIFAEAFQRQPGQLSSFQALMLSVAGRVGAGNIAGVAVAITLGGPGAVFWMWLVALLGMATSYFECSLAQLYKRREEDGTYRGGPAFYILHGLGQRWLAIVFSILLLVTFGFGFNALQSYTVASSLHDTFGLPTYLCGILLAVVIGAIIFGGVKRIVSMADVLVPVMAFSYIAMALFVIGGNIDQVPQTLALIVKSAFGLEPAFAGGIGAAILMGVKRGLFSNEAGLGSAPNVAAIAEVKHPAAQGIVQSLSVFIDTLLICTSTALIILLSGVYQPGTEIAGVLLTQNALAAVVGEWGRIFVSLALLLFVFTTLIYNYYLGENALSFFSEKRPVVIGYRALVIALVMWGSLQDLGTVFAFADVTMGLLALVNLVAVALLFKTGLRLMHDYDAQVKAGVERPVFDRRQYADLELDPAAWPEPRPEPHVTAAAVHQR	PGPT0014405_1952	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLYCINE_TRANSPORT,PGPT0014405-yflA|TC_AGCS-K03310	NA	NA
BMS010_09803	1254	gltT		Proton/sodium-glutamate symport protein	ATGAGTCAGAGCACTACCCTACCTTTGCGTCTCTGGGGCCGGCTGCCGCTGTGGCAGCAGATCCTCATCGGCCTCGCCCTCGGTGTCGCCACCGGCGTGCTGTTCAAGAACGACGCGCAAGTCCTGGCGCCCATCGGCAGCCTGTTCCTCAACGCGATCAAGATGCTCATCGTGCCGCTGGTGTTCGTTTCGCTGGTGGCCGGCATCACCTCCATGGCCGACACCCGCAAGCTCGGCCGGATCAGCGTCAAGACCATCGCCATCTACCTGATCACCACGGCGTTCGCCGTGAGCATCGGCCTGCTGTTCGGCGGCCTGTTCGGCCCCGGCGAGGGTATGCACATGGTCGCCAGCGGCGCCGACGAGGCCAAGCAGGCGCCGTCGCTGGTGACCATCCTGGTCGGCCTGGTGCCGAGCAATCCGGTGACCGCCTTCGCCGAAGGCAACATCCTGCAGATCATCGTCTTCGCCATCGGCCTGGGCGTGAGCATGAACCTGGTCGGCGAGAAAGCCGCACCGGTGGTGAAGCTCTTCGACGGCCTGGCCGAGACCTTCTACAAGCTCACCGACCTGGTGATGCGCCTGGCGCCCTACGGCGTGTTCGCCCTGATCGCCGGCGTGGTCGGCAGCCACGGCGCCGAAGTGCTGCTGCCGCTGGCCGGGGTGATCGGCGTGATCTACCTGGCCAGCATCGCCCACGTGCTGCTGGTCTACGGCGGCTTGCTGAGCCTGCTGGCCCGCCTCAACCCGCTGCGCTTCTTCCAGGGTATCGCCCCGGCGCTGGCGGTGGCCTTCAGTACCTCCAGCAGCTCCGGCACCCTGCCGGTGTCCATCGAGTGCGCGCGCAAGAACCTCGGCGTGTCCGAGGGCGTGGCCGGTTTCGTGCTGCCGGTGGGCGCCACCATCAACATGGACGGCACCGCCATCTACCAGGGCGTGCTGGCGCTGTTCATCGCCCAGGCCTTCGGCGTCGACCTGAATGCCAGCCAGTACCTGATGATCATCCTCACCGCGACCCTGGCCTCCATCGGCACCGCCGGTGTGCCGGGCGCCGGCCTGATCATGCTCGGCCTGGTGCTGACCTCGGTCGGCCTGCCGCTGGAAGGCGTGGCGCTGATCGCCGGTATCGACCGCATCCTCGACATGGCGCGCACCACGGTGAACGTGGCCGGCGACCTGATGACCTCGGCCCTGGTCGGCCGCAGCGAGAAGGAACTGGATCTCGAGGTGTACAACCGCTCCACCAAGGAGTGA	MSQSTTLPLRLWGRLPLWQQILIGLALGVATGVLFKNDAQVLAPIGSLFLNAIKMLIVPLVFVSLVAGITSMADTRKLGRISVKTIAIYLITTAFAVSIGLLFGGLFGPGEGMHMVASGADEAKQAPSLVTILVGLVPSNPVTAFAEGNILQIIVFAIGLGVSMNLVGEKAAPVVKLFDGLAETFYKLTDLVMRLAPYGVFALIAGVVGSHGAEVLLPLAGVIGVIYLASIAHVLLVYGGLLSLLARLNPLRFFQGIAPALAVAFSTSSSSGTLPVSIECARKNLGVSEGVAGFVLPVGATINMDGTAIYQGVLALFIAQAFGVDLNASQYLMIILTATLASIGTAGVPGAGLIMLGLVLTSVGLPLEGVALIAGIDRILDMARTTVNVAGDLMTSALVGRSEKELDLEVYNRSTKE	PGPT0013965_26	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0013965-TC_DAACS-K03309	NA	NA
BMS010_09804	1425	aspA_2	COG1027	Aspartate ammonia-lyase	ATGTCCTCTGCTGCATCCTTCCGTGTCGAAAAAGACCTGCTCGGTACCCTCGAAGTGCCTGCCGATGCCTACTACGGCATCCAGACGCTGCGCGCGGTGCACAACTTCCGTCTGTCCGGCGTGCCGCTGTCGCACTACCCGAAGCTGGTGATCGCCCTGGCCATGGTCAAGCAGGCCGCGGCCGACGCCAACCGCGAGCTGGGTCACTTGACCGACGAGAAGCACAAGGCGATCAGCGAGGCCTGTGCACGCCTGGTTCGCGGCGAGTTCCACGATCAGTTCGTGGTGGACATGATCCAGGGCGGCGCCGGCACCTCGACGAACATGAATGCCAACGAGGTCATCGCCAACCTGGCGCTGGAAGCTATGGGCCATGCCAAGGGCGAATACCAGTACCTGCACCCGAACAACGACGTGAACATGGCGCAGTCGACCAACGACGCCTACCCGACCGCCATCCGCCTGGGCCTGCTGCTCGGCCACGACGCGCTGCTCGCCAGCCTGGACAGCCTGTGCCAGGCCCTGGCCGCCAAGGGCGAAGAGTTCGCTCACGTGCTGAAGATGGGCCGTACCCAGCTGCAGGACGCCGTGCCGATGACCCTCGGCCAGGAATTCCGCGCCTTCGCCACCACCCTCGGCGAAGACCTGAACCACCTCAAGCGCCTGGCGCCGGAACTGCTGGTCGAGGTCAACCTCGGCGGCACCGCCATCGGCACCGGCATCAACGCCGACCCGCGCTACCAGCAGCTCGCCGTCGAGCGCTTGGCGGCGATCAGCGGCCAGCCGCTGCGTCCGGCCGCCGACCTGATCGAGGCGACCTCCGACATGGGCGCCTTCGTGCTGTTCTCCGGCATGCTCAAGCGCCTGGCGGTGAAGCTGTCGAAGGTCTGCAACGACCTGCGCCTGCTCTCCAGCGGCCCGCGCACCGGCATCAACGAGATCAACCTGCCGCCGCGCCAGCCGGGCAGCTCGATCATGCCGGGCAAGGTCAACCCGGTGATTCCGGAAGCGGTCAACCAGGTGGCCTTCGAAGTGATCGGCAACGATCTGGCCCTGACCCTCGCCGCCGAGGGTGGCCAGTTGCAGCTGAACGTGATGGAGCCGCTGATCGCCTACAAGATCTTCGACTCGATCCGCCTGCTGCAGCGCGCCATGGACATGCTTCGCGAGCACTGCGTGGTCGGCATCACCGCCAACGAAGAGCGCTGCCGCCAACTGGTCGAGCACTCCATCGGCCTGGTCACCGCGCTGAACCCCTATATCGGCTACGAGAACGCCACCCGCATCGCCCGCGTGGCGCTGGAAAGCGGCCGCGGCGTGCTGGAGCTGGTGCGCGAGGAGGGCCTGCTGGATGACGCCGTGCTCGCCGACATCCTCCAGCCAGCCAACATGATTGCGCCGCGCCTGGTACCGCTGAAGGCCTGA	MSSAASFRVEKDLLGTLEVPADAYYGIQTLRAVHNFRLSGVPLSHYPKLVIALAMVKQAAADANRELGHLTDEKHKAISEACARLVRGEFHDQFVVDMIQGGAGTSTNMNANEVIANLALEAMGHAKGEYQYLHPNNDVNMAQSTNDAYPTAIRLGLLLGHDALLASLDSLCQALAAKGEEFAHVLKMGRTQLQDAVPMTLGQEFRAFATTLGEDLNHLKRLAPELLVEVNLGGTAIGTGINADPRYQQLAVERLAAISGQPLRPAADLIEATSDMGAFVLFSGMLKRLAVKLSKVCNDLRLLSSGPRTGINEINLPPRQPGSSIMPGKVNPVIPEAVNQVAFEVIGNDLALTLAAEGGQLQLNVMEPLIAYKIFDSIRLLQRAMDMLREHCVVGITANEERCRQLVEHSIGLVTALNPYIGYENATRIARVALESGRGVLELVREEGLLDDAVLADILQPANMIAPRLVPLKA	PGPT0020125_1099	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0020125-aspA-K01744	NA	NA
BMS010_09805	909	yjiE_2		HTH-type transcriptional regulator YjiE	ATGAACCTGGAAATGAAATGGCTGGAGGACTTCAGTGCCCTGGCCGCGACCCGCAGTTTCTCCCAGGCGGCCGAGCGCCGCTTCGTCACCCAGCCCGCCTTCAGCCGGCGCATCCGCGCCCTGGAAGAAACACTCGGCCTGACCCTGGTGGACCGTGCCCATACCCCCATCGAACTGACCGAGGCCGGACAACTGTTCCTGGTCACCGCCCGCAGCGTGGTCGAACAGCTCGGCGAAGTGGTGCGTCACCTGCACCAACTGGAAGGGCGCCAGGGCGAGGTGCTGCAGATTGCCGCCGCCCACTCCCTGGCCCTGGGTTTCTTCCCTACCTGGTTCGCTCGCCTGCGTGCCGAGGGCCTGAACCTCACCAGCCGGTTGGTGGCGACCAACGTCGGCGAGGCCGTGCATGCCCTGCGCGAAGGCGCCTGCGACCTGATCCTCGCCTATTACGACCCGGACGCTTCGTTGCAGATGGACCCGGAAATCTTCCCCTCGCTGCACCTGGGCACCACCTCGATGCTGCCAGTCTGCGCGGTGGGTGAGGACGGCAAGGCGTTGTTCGATCTCGACGGCGGCCAGACGGTACCGCTGCTCGCCTACAGCGCCGGGGCCTTCCTCGGGCGCTCGGTGAACCTGCTGCTGCGCCAGCGCGCGCTGCGTTCCACCACGGTGTACGAGACGGCCATGGCCGACAGCCTGAAGAGCATGGCCCTACAAGGCCTGGGCGTGGCCTGGGTGCCGCAGTTGTCGGTAACGCAGGAATTGGCGCGGGGCGAACTGGCGATCTGCGGCGGCCCGCAGTGGCACGTGCCGCTGGAAATCCGTCTGTACCGCTGCGCGCTGGTGCGCAAGGCGGCGGTGAGGTTGCTCTGGCGGCGGCTGGAGACGGGAGCGGGTGCTCCCGTCTGA	MNLEMKWLEDFSALAATRSFSQAAERRFVTQPAFSRRIRALEETLGLTLVDRAHTPIELTEAGQLFLVTARSVVEQLGEVVRHLHQLEGRQGEVLQIAAAHSLALGFFPTWFARLRAEGLNLTSRLVATNVGEAVHALREGACDLILAYYDPDASLQMDPEIFPSLHLGTTSMLPVCAVGEDGKALFDLDGGQTVPLLAYSAGAFLGRSVNLLLRQRALRSTTVYETAMADSLKSMALQGLGVAWVPQLSVTQELARGELAICGGPQWHVPLEIRLYRCALVRKAAVRLLWRRLETGAGAPV				NA	NA	NA	NA	NA
BMS010_09806	1023			Alcohol dehydrogenase	ATGAACCAGACCATGAAAGCCGCGGTGGTGCATGCCTTCGGCGAGCCGCTGCGCATCGAGGAAGTGAAAGTGCCGTTGCCCGGTCCGGGGCAGATTCTGGTGAAGATCGCCGCCTCGGGCGTTTGCCACACCGACCTGCACGCCGCCGAGGGTGACTGGCCGGTGAAGCCGTCGCTGCCGTTCATTCCCGGCCACGAGGGTGTCGGCCATGTGGCCGCGGTGGGCGCCGGGGTGACCCGGGTGAAGGAAGGCGACCGCGTCGGCGTGCCTTGGCTGTACAGCGCCTGCGGCTGTTGCGAGCACTGCCTGACCGGCTGGGAAACCCTCTGCGAGAGCCAGCAGAACACCGGCTACTCGGTGAACGGCGGTTATGCCGAGTACGTGCTGGCGGACCCGAACTACGTCGGTCTGCTGCCGGATGCGGTGGGCTTCGAGGAAATCGCACCGATCCTCTGTGCCGGCGTCACTGTCTACAAGGGCCTGAAAGTCACCGGTGCGCGACCCGGCCAGTGGGTAGCGATCTCCGGCATCGGCGGGCTTGGCCACGTGGCGGTGCAGTATGCCCGCGCCATGGGCCTGCACGTGGTGGCGGTGGATGTGGACGACGCCAAGCTGGAGCTGGCGCGCAAGCTCGGCGCCGGATTGACGATCAATGCCCGCCACGAGAACCCGGCCGAGGTGGTCCAGCGCGAGATCGGCGGCGCCCACGGCGTGCTGGTCACGGCGGTGTCCAACAGCGCCTTCGGCCAGGCCATCGGCATGGCGCGCCGGCATGGCACCGTGGCCCTGGTCGGTCTGCCGCCGGGCGATTTCCCGGCGCCGATCTTCGACGTGGTGCTCAAGGCCATCAGCATCACCGGCTCCATCGTCGGCACCCGCGCGGACTTGCAGGAGGCGCTGGATTTCGCCGCCGAGGGGCTGGTCAAGGCGACCATCCACACCGACTCGCTGGACAACATCAACCAGGTGCTCGACGACATGCGCGGCGGCAAGATCGAAGGGCGGATCGTGCTGACCCTGTAA	MNQTMKAAVVHAFGEPLRIEEVKVPLPGPGQILVKIAASGVCHTDLHAAEGDWPVKPSLPFIPGHEGVGHVAAVGAGVTRVKEGDRVGVPWLYSACGCCEHCLTGWETLCESQQNTGYSVNGGYAEYVLADPNYVGLLPDAVGFEEIAPILCAGVTVYKGLKVTGARPGQWVAISGIGGLGHVAVQYARAMGLHVVAVDVDDAKLELARKLGAGLTINARHENPAEVVQREIGGAHGVLVTAVSNSAFGQAIGMARRHGTVALVGLPPGDFPAPIFDVVLKAISITGSIVGTRADLQEALDFAAEGLVKATIHTDSLDNINQVLDDMRGGKIEGRIVLTL	PGPT0006365_1903	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006365-adhP-K13953	NA	NA
BMS010_09807	492	purE_2	COG0041	N5-carboxyaminoimidazole ribonucleotide mutase	ATGAGCGCACTGGTAGGCGTGATCATGGGCTCCAAGTCCGACTGGTCCACCCTCAGCCACACCGTCGAGATGCTGGACAAGCTGGGCATCCCCAACGAAGTGAAGGTGGTTTCCGCCCACCGCACCCCGGACCTGCTGTTCCAGTACGCCGAACAGGCCGAGTCGCGCGGCATCCAGGTGATCATCGCCGGTGCCGGCGGCGCCGCCCACCTGCCGGGCATGTGCGCGGCCAAGACCCACCTGCCGGTGCTTGGCGTGCCGGTGCAATCCTCCATGCTCTCCGGCGTCGACTCGCTGCTCTCCATCGTGCAGATGCCCGCCGGCGTTCCGGTCGCCACCCTGGCCATCGGCAAGGCCGGCGCCGTCAACGCCGCGCTGCTCGCCGCCAGCATCCTCGGCCACCAGCACCCGCAGTTCCACGCGGCGCTGAAGAAATTCCGCGACGAGCAGACCCAGACCGTACTGGACAACCCGGATCCGAGGGACGCGTAA	MSALVGVIMGSKSDWSTLSHTVEMLDKLGIPNEVKVVSAHRTPDLLFQYAEQAESRGIQVIIAGAGGAAHLPGMCAAKTHLPVLGVPVQSSMLSGVDSLLSIVQMPAGVPVATLAIGKAGAVNAALLAASILGHQHPQFHAALKKFRDEQTQTVLDNPDPRDA	PGPT0021545_3090	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021545-purE-K01588	NA	NA
BMS010_09808	1086	purK_2	COG0026	N5-carboxyaminoimidazole ribonucleotide synthase	ATGAAGATCGGCGTGATCGGTGGCGGCCAGCTGGGCCGCATGCTGGCCCTGGCGGGCACCCCGCTGGGCATGAACTTCGCCTTCCTCGACCCGGCGCCGGACGCCTGCGCGCAAGCCCTCGGCGAGCACATCCGCGCCGACTACGGCGACCAGGACCACCTGCGCCAACTGGCGGACGAAGTCGACCTGGTCACCTTCGAGTTCGAAAGCGTGCCGGCCGAGACCGTCGCCTTCCTCTCGCAGTTCGTGCCGGTCTATCCGAGCGCCGAGTCCCTGCGTATCGCCCGCGACCGCTGGTTCGAGAAATCGATGTTCAAGGAGCTGGGCATCCCGACGCCGGCGTTCGCCGACATCCAGTCCCAGGCCGACCTCGACGCGGCCGCCGCCAGCATCGGCCTGCCGGCCGTGCTCAAGACCCGCACCCTCGGCTACGACGGCAAGGGCCAGAAGGTCCTGCGCAAGCCCGAGGACATCGCCGGCGCCTTCGCCGAACTGGGCAGCGTGCCCTGCATCCTCGAAGGCTTCGTGCCCTTCACCGGCGAAGTCTCGCTGGTGGCGGTCCGCGCCCGCGACGGCGAAACGCGCTTCTACCCGCTGGTGCACAACACCCACGAGAACGGCATCCTGCGCCTGTCCGTCGCCAGCAGCGGTCATCCGCTGCAGGCCCTGGGCGAAGACTATGTCGGCCGCGTGCTGGAGCGCCTGGACTACGTCGGCGTGCTGGCCTTCGAGTTCTTCGAAGTCGACGGCGGCCTGAAAGCCAACGAGATCGCTCCGCGCGTGCACAACTCCGGCCACTGGACCATCGAAGGCGCCGAGTGCAGCCAGTTCGAAAACCACCTGCGCGCCGTGGCCGGCCTGCCGCTGGGCTCCACCGCGAAGGTGGGCGAGAGCGCCATGCTCAACTTCATCGGCGAAGTCCCGCCGGTGGCCCAGGTGATCGCCATCGACGACTGCCACCTGCACCACTACGGCAAGGCTTTCAAGGAAGGCCGCAAGGTGGGCCACGCCACCCTGCGCTGCGCCGACCGGGCCACGCTGGACGCCCGCATCGCCGACGTCGAGGCCTTGATCGCCAAGCGTTGA	MKIGVIGGGQLGRMLALAGTPLGMNFAFLDPAPDACAQALGEHIRADYGDQDHLRQLADEVDLVTFEFESVPAETVAFLSQFVPVYPSAESLRIARDRWFEKSMFKELGIPTPAFADIQSQADLDAAAASIGLPAVLKTRTLGYDGKGQKVLRKPEDIAGAFAELGSVPCILEGFVPFTGEVSLVAVRARDGETRFYPLVHNTHENGILRLSVASSGHPLQALGEDYVGRVLERLDYVGVLAFEFFEVDGGLKANEIAPRVHNSGHWTIEGAECSQFENHLRAVAGLPLGSTAKVGESAMLNFIGEVPPVAQVIAIDDCHLHHYGKAFKEGRKVGHATLRCADRATLDARIADVEALIAKR	PGPT0021550_3277	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021550-purK-K01589	NA	NA
BMS010_09809	762			hypothetical protein	ATGAAACGCCTGCTTCTGCTGCTGCCTGTGCTGTTCGGGCTGGGTCATGCCCAGGCCGAAGAGATTCTCAAGGCCGACTTCCGTGAGCGCCCGCCCGAAATGCGCGTGGTGGACGGCTTACCCAGCGGTCCGCTGATCAGTGTGCTGGACACCGCCGCCCAGCGGATCGGCGCTCGTGTCCAGTGGCGCGAAGCGCCGTTCCTGCGCAGCCTGGAAGACCTGCGCAACGGTCGCATCGACATCGTGCCCAGGGTGGTCTACACCCTGGATCGCCAGCAGTACATCCACTACCTGCCGAGCATCGGACGCCAGCGCAAGAGCATCCGCTTCGTCGTCCGTCCCGGCCAGGAAGCCCGCCTGCGTAGCTACCGCGACCTGCAGGGCCTGTCCATCGGGGTCAAGCGCGGCACCGCCTACTTCGAACCCTTCGACAGCGACAGCCTGCTCAGCAAACGGCTGGCCAGCGACGACGCCCAACTGGTCGCCATGTTCCGCGCCAGGCGCCTGGACGCCATCGTCGTACTCGACCAGATTCCCCTGGAAACCAGCTTCGCCGCTATCGGCTTTGACGGCTACCGCTACGCGCCGTACCAGCACGAACAGCGCATCGACAACCATTTCGGCGTTTCCCGGCGCCTTTACGAGGGCAAACGGCGAGCTTTGTACGAACGCCTCGCTACCGAACTGCAAGCCATGCGCGCCAGGGGCGAGATCAAGCAGATCTACGAGCGATACGAGGTCGAAGCACCGGACGTGCCGTGA	MKRLLLLLPVLFGLGHAQAEEILKADFRERPPEMRVVDGLPSGPLISVLDTAAQRIGARVQWREAPFLRSLEDLRNGRIDIVPRVVYTLDRQQYIHYLPSIGRQRKSIRFVVRPGQEARLRSYRDLQGLSIGVKRGTAYFEPFDSDSLLSKRLASDDAQLVAMFRARRLDAIVVLDQIPLETSFAAIGFDGYRYAPYQHEQRIDNHFGVSRRLYEGKRRALYERLATELQAMRARGEIKQIYERYEVEAPDVP	PGPT0020800_13633	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_09810	249			hypothetical protein	ATGGGCATCATCGGTACCATCATCATCGGCCTGCTTGTCGGCCTCGTCGCACGCTTCCTCAAACCCGGCAACGACAGCATGGGCTGGATCATGACCATCCTGCTCGGCATCGGCGGCGCCCTGTTGGCCACCTACGGCGGCCAGGCCCTGGGCATCTACGCGGCCGGCGAAGCGGCGGGCTTTATCGGCGCGGTGGTCGGTGCGATCATCCTGCTCGTCATCTACGGTCTGGTCAGCCGCAGGACCTGA	MGIIGTIIIGLLVGLVARFLKPGNDSMGWIMTILLGIGGALLATYGGQALGIYAAGEAAGFIGAVVGAIILLVIYGLVSRRT				NA	NA	NA	NA	NA
BMS010_09811	579			hypothetical protein	GTGAAGGGGTCGCCGCGGCGACCCTTTCTCCCCCGCGAAGTCTCCATGCGCCGACTACTGCTGTTACCCCTGCTGCTCACCGCCACCCTCGTCCACGCCGCGCCACCCGAGCTCGACTGGCTCGAACTCATGCCCCCCGAGGACCGCAAGGCCCTCGAAGAAATGCCCGAAATCAACCACGACACCCCGGAAGGCCAGGGCTTCAGCGACAAGGGCGGGCTCAAGCAACAGGACAAGGACCTGCCGGCGGTGATGTACTCGGCCAAGACGGTCCCGGCTCTGAACGGCAAACAGATCCGCCTCGGCGGCTACCCGGTCCCGCTGGAAACCGACGCCCAAGGCCGCGGCACCGAATTCTTCCTGGTGCCATATCCCGGTGCCTGCATCCACGTACCGCCGCCGCCGCCGAACCAGATCGTCCTGGTGCGCTACCCCAAGGGCATCCCCCTCGACGACATCTACACCCCGCTCTGGGTAGACGGCACCCTCAAGGTCGAAAACATCAGCAACGACCTGGCCGACGCCGCCTATGCCCTGGACGCCAGCGCGGTGAAGGTGGTGGAGGAAGACGAGCTGTAG	MKGSPRRPFLPREVSMRRLLLLPLLLTATLVHAAPPELDWLELMPPEDRKALEEMPEINHDTPEGQGFSDKGGLKQQDKDLPAVMYSAKTVPALNGKQIRLGGYPVPLETDAQGRGTEFFLVPYPGACIHVPPPPPNQIVLVRYPKGIPLDDIYTPLWVDGTLKVENISNDLADAAYALDASAVKVVEEDEL				NA	NA	NA	NA	NA
BMS010_09812	213			hypothetical protein	ATGCCCCTCGACTCACACCAGCGCCAAGCCTTTCGCGCCCTGGCCGCGGAAACCGAAAGTATCGACCAAGCCACCTACGCCCGTTTCGACAGTCCCACTCGGACCGCTTTTAGCTCCCTCTCCCATTTATGGGAGACGACTGCAGGGATGCAGGAGGTAGAGCGACGCAGGATGCCAAAGCCGAGGGCGGGGGGAGAGGGTAAGAGCGGCTGA	MPLDSHQRQAFRALAAETESIDQATYARFDSPTRTAFSSLSHLWETTAGMQEVERRRMPKPRAGGEGKSG				NA	NA	NA	NA	NA
BMS010_09813	681			hypothetical protein	ATGCCCCTCGACTCACACCAGCGCCAAGCCTTCCGCGCCCTGGCCGCGGAAACCGAAGGTGTCGACCAAGCCACCTACGCCCGTTTCGACAAGGACCCGCTCGAGCCCATCATCGGCCTCGGCGACCCCGACGCACCCCTCGGCTTCTTCGGCCGTGACCCCGGCCGCGACGAAGTCCGTTACGGCGAACCCTTCATCGGCAGCGGCGGGCAGATCGTCCGCAAGGTCCTCTACCGCCACCTGCACGGCCAGGACATGCCCGACTTCGACGCCTCCCGCCGGCTCGGCCGGGACTTCTTCTGGATCAACACCGTCCCCTACAAGCCGGTGGGCAACAAAGCCTGGTCCATGAAGGTCAAGAAACGCTTCCACCCACTGATGCGCCGCCTGCTGATCGAAAGCTGGCACGGCCGCCACCTCATCACCCTCGGCCGCGAAGCCTTCCTCTGGTTCGGCATCGACCAGCCCAGGGAACAACGCCAGCGCCTGGAAGCCTTCTGGGAGCGTGAAGACCGCTTCGAGACACACCTTGACGTCGAACTCCAGGCGGACGACGGCGCTGCCCGCACCTTCACCCTCCACCCGCTGCCCCACCCCTCGCCGCTCAACCAGACCTGGTTCAAGCGCTTTCCGGGACTGCTGGAGCAGCGATTGAAAGCCCTCCTGCCGACCAAGCCCTGA	MPLDSHQRQAFRALAAETEGVDQATYARFDKDPLEPIIGLGDPDAPLGFFGRDPGRDEVRYGEPFIGSGGQIVRKVLYRHLHGQDMPDFDASRRLGRDFFWINTVPYKPVGNKAWSMKVKKRFHPLMRRLLIESWHGRHLITLGREAFLWFGIDQPREQRQRLEAFWEREDRFETHLDVELQADDGAARTFTLHPLPHPSPLNQTWFKRFPGLLEQRLKALLPTKP				NA	NA	NA	NA	NA
BMS010_09814	174			hypothetical protein	GTGCGGGCGGCGTTGGAGAGTGCCTGTCATCTGCTGGATGCCGCCGAGGTGCTGGCGGTTCGGGCGGGGCATGAGGCGGACGAGTCCTTGAGCGACGGTTGCGGCTATCTGATCGGGATGGCCAGGGCGGCGGTGCTGGGTTGTCTGGAGGGGTTGGGGCGTGACGCCGGGTAG	MRAALESACHLLDAAEVLAVRAGHEADESLSDGCGYLIGMARAAVLGCLEGLGRDAG				NA	NA	NA	NA	NA
BMS010_09815	870			hypothetical protein	ATGGACGAAATGACTCCGAACGAACCGCAGCGGGCTAGTGATTACGACGACCGCACCACGGCGGCGGTCAAAGCCGTTTTGATCGAGATCGGGCAGATCCTCGGCAGCTTCAAAGGGAAATTCGCCGTTGTCGGGGGCGCTGTACCTTGGCTGCTATTGAATGACAACGAAGATATGCAACACGTGGGAACGCTGGATCTAGATATCGGCCTAGACGCTGAGGCACTCGGGGATGGTGAGTACGCCAATCTGGTCGAAGAGTTACTAAGTCACGGCTATGCGCAAAGCCAGCAACTCAGGCGTTTCCAGCTAGTCCGGCAGATCAATGCAGGCGACGGCGGGCCTCCCATTGATGTCATCATCGACTTCCTACGGCCTCGGGATGCAGAGATCGTAAAGAACGTTCCGCCACTTATCAGCGACTTCGCAGTGCAAGGTGCTGATGGTGCCGATTTGGCACTTCGCTTCTACCAAATGGTGGCCATCTCCGGAAACATGCCGAACGGTGGCACCAATCGTGTTGAGGTGGCGGTTTGCTCAATTCCCGCATTGCTCGCAATGAAAGGCCATGCAATCGAAGGGCGCTACAAGCAAAAGGACGCCTATGACATCTACTACTGCGTTCGGAACTACCCGGGTGGACCAGACGCCTTGGCAGAAGAGTGCCGGCCAGTGCTGGAAATTGCCAGCGGCCAAGCTGGTTACATGTTCATCGCCCAAAAATTCGATTCTGTAGATGGTTTTGGCCCCACTTGCGTACGTGGATTCGTCGAAGAGACACAGATCTTGGGGGATCGTACTCCTGAGCAGTGGCAGGTAGATGCGTTCGGACAAGTCGATGCGTGGCTACGTGTCCTAGGTCTTCGATAA	MDEMTPNEPQRASDYDDRTTAAVKAVLIEIGQILGSFKGKFAVVGGAVPWLLLNDNEDMQHVGTLDLDIGLDAEALGDGEYANLVEELLSHGYAQSQQLRRFQLVRQINAGDGGPPIDVIIDFLRPRDAEIVKNVPPLISDFAVQGADGADLALRFYQMVAISGNMPNGGTNRVEVAVCSIPALLAMKGHAIEGRYKQKDAYDIYYCVRNYPGGPDALAEECRPVLEIASGQAGYMFIAQKFDSVDGFGPTCVRGFVEETQILGDRTPEQWQVDAFGQVDAWLRVLGLR	PGPT0027691_3602	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_IV_AbiEii_TOXIN-ANTITOXIN_SYSTEM,PGPT0027691-toxin_AbiEii-na	NA	NA
BMS010_09816	1074			hypothetical protein	ATGATGAAATCAACAGATCCAGTGAAAATTGAACAACAGTCCGCCGATGCTCTACGCAGCATTCTGGCCGAGGTTCCGGCTGTTGGCCGGTTAGAAGTCAAGCCCGCCAAGCGAAACGACCCAATCGATCTAATTGCCCAGGTCGAGGTGTTCGGCAAACGGCACACGCTGGTAGCTGAAGTAAAATCCAGTGGGCAGCCGCGTCACGTTCGGACTGCGTTACTACAGCTACAGGACTATGTGAGACGCCAACCTGAGACCGTAACACCCGTCTTCATCGCTCCATACCTATCAGCTGAAGCTCAAGACTTGTGCCGGGAATACAACGTCGCCTACCTCGACTTGGAGGGCAACGCCCGGTTGGCCTTTGGCACGTTCTTCATCTCCCGTCAGGTTGCCAGCAAGCCAGTAGTCGAGCGGCGTGAACTGCGCTCCTTGTTCAAACCAAAATCGGCTCAGGTTCTGCGGCAGATGCTGCGCGCCCCTAAGCACCCATGGCGTGTTGCTGAGCTAGCAGAAGCAGCCGGCGTCAGTCTCGGCTTAGTGAGCAATATCCGCACTGGGTTACTGAATCGAGAGTGGGCCGAACGCTCAGAGGAAGGGGTGTGTCTGTCTGATCCTGATTCCTTACTCGATGCCTGGCGCGAGGAGTACGAACCGCCTCCCCACAAACGGATAGGCTTCTATACGACGCTACATGGCGCCTTATTTGACCAAGCTATCCGCACGCTCCACCCACTGCCGGACGGAAAGGTCCTGGCAGCAATGGCTTCGTTTTCTGCGGCACAGTGGCTCGCGCCGTATGGACGTACTGGCACCCACTACTTCTATGCCGATCAGCAGGGGTTAGAAAAACTGCGCTCGACTCTAAAACTCTCCCCCAGCAACAAAGGGGAGAACCTAATCGTGAACGTGCTCGATGACCCAGGCTTATTGCTCGACACTGTGGAACCAGCACCGGGAGTATTCTGCACTAGCCCTGTTCAGACCTACCTTGATCTCTTCAAAGCCGGAGAGCGAGGGCGAGAGGCGGCTGATTATCTTCGACGAGAGAAATTGAAATGGACGAAATGA	MMKSTDPVKIEQQSADALRSILAEVPAVGRLEVKPAKRNDPIDLIAQVEVFGKRHTLVAEVKSSGQPRHVRTALLQLQDYVRRQPETVTPVFIAPYLSAEAQDLCREYNVAYLDLEGNARLAFGTFFISRQVASKPVVERRELRSLFKPKSAQVLRQMLRAPKHPWRVAELAEAAGVSLGLVSNIRTGLLNREWAERSEEGVCLSDPDSLLDAWREEYEPPPHKRIGFYTTLHGALFDQAIRTLHPLPDGKVLAAMASFSAAQWLAPYGRTGTHYFYADQQGLEKLRSTLKLSPSNKGENLIVNVLDDPGLLLDTVEPAPGVFCTSPVQTYLDLFKAGERGREAADYLRREKLKWTK				NA	NA	NA	NA	NA
BMS010_09817	255			hypothetical protein	ATGTCTAAGACACACCCCACCGCGTTCCACCCTTGCGAGGATGGTCGGCATCATCTGTTCGCGGTTCGGCCGGGGGTGCCTGTGCGGGCGGCGTTGGAGAGTGCCTGTCATCTGCTGGATGCCGCCGAGGTGCTGGCGGTTCGGGCGGGGCATGAGGCGGACGAGTCCTTGAGCGACGGTTGCGGCTATCTGATCGGGATGGCCAGGGCGGCGGTGCTGGGTTGTCTGGAGGGGTTGGAGCGCGACGCCGGGTAG	MSKTHPTAFHPCEDGRHHLFAVRPGVPVRAALESACHLLDAAEVLAVRAGHEADESLSDGCGYLIGMARAAVLGCLEGLERDAG				NA	NA	NA	NA	NA
BMS010_09819	423			hypothetical protein	ATGTACGACGAACAGGGCACCATCAACGCTGGTGACTTTAACTTCGATGGTGAAGAAGATGTGGCGATCCGCAACGGAAACAACGGTTCCTATGGAGGCCCCAGCTATGATGTGTTTCTTTTTTCAAAGCGGCAGTCGCGGCTGATTAAAAGCCCGGCTCTTACCGAACTCATTGAATCGACGCTCGGCATGTTCGGCTTTCACCCAGACAAGCGACGCTTATCAACCTGGGCAAAGAGTGGTTGTTGCTGGCATCAGTACACGGAATATGAAGTACAAGAAGACATACCGGTCGAGGTATATCGTATGACCGAGACCCTTGAAGGAGTCGGCGACGATGATTTCGTGTTTGTTAAGACCCACGAGGTACTGAGGAACGGGAAATGGGAGACCACCAGGATAGAGCGTGTGGCACCCGAGTAA	MYDEQGTINAGDFNFDGEEDVAIRNGNNGSYGGPSYDVFLFSKRQSRLIKSPALTELIESTLGMFGFHPDKRRLSTWAKSGCCWHQYTEYEVQEDIPVEVYRMTETLEGVGDDDFVFVKTHEVLRNGKWETTRIERVAPE				NA	NA	NA	NA	NA
BMS010_09820	1677	recN_2	COG0497	DNA repair protein RecN	ATGCTGGTGCACCTGTCCGTCCATAACTACGCCATCGTCGAACACCTCGATCTCGAGTTGGACCGGGGCATGAGCGTCATCACCGGGGAAACCGGTGCGGGCAAATCCATCATGCTGGACGCCCTAGGCCTGACCCTCGGCGACCGCGCCGACAGCGGTGTGGTCCGCCCCGGCGCGGACAAGGCCGACATCCTCGCCAGCTTCGATCTCGACGACATCCCGGAAGCCCGCGCCTGGCTCGCCGAGCGCGACCTGGACAGCGACGGCCCGTGCATCCTGCGCCGGGTCATCACGGCTGAAGGTCGCTCCCGCGCCTATATCAATGGATCGCCCTGCCCCCAGGGCGACCTGAAGACGCTGGGCGAACTGCTGATCGATATCCACAGCCAGCACGAACACCAATCCCTGTTGAAAGCCGAAACCCATCGCCGCCTGCTGGACGAGTACGCCGGCAGCCAGGAACTGGCCCGCCAGGTGCAATTGGCCGCCCAGCGCTGGCGCCAGACCCGCCAGGAACTCGAGCGAATTTCCAACAGCAGCGACGAACAGCGCGCCCGCCAGCAACTGCTCAGCTACCAACTGGAAGAACTGGAAAACCTCGCCCTGGGCGACAACGAGCTGGAGCAACTGGAACAAGAACACAAAGCCCTCAGCAACTCCGAACAATTGCTCAGCGCCTGCCGCCAGGTGCTCGACCTGTGCAGCGAAAGCGATGCGGGCAATGTGTTGTCGGCACTGACCGCCAGCCTGCATCGACTGAATGCCTTCCACAGCCAGCCGGGCGCCATCGGCGAGGCAGTGAATCTGCTGGCCAGCGCGCAAATCCAGGTCGAAGAGGCCGTCGGTGAACTGAACCGTTTCCTCGACCATTTCGACGCGGACCCGGAGCGTCAGCGTTACCTGGAAGAACGCCTCGACAGCATCTATACGCTCGCCCGCAAGCACCGCATCCAGCCAGGCGAACTCGGAGCGCTGCAACAGCAACTGCTCGACGAGCTGGAAAACCTCAACGCCGACGACGAGGCCGTCGAACGCCTCGCCGAAGAACTGACGGCTTACGCTCGCCATTACCAGGAAAAGGCGGCCGAACTCAGCGCTCTGCGGAACGAAGCCGCCGGCCGACTGGCCAGTGCCGTGCAACAGGAAATGCAGCGCCTGGGCATGCCCGGTGGCCGCTTCAGTATCGAACTGCGCAGCAGCAATGCCGAAGAGCCGCAGCCCTATGGCCTGGAGCAGGTGGAGTTCCTGGTCAGCGCCAACCCCGGCCAGCCTTTGAAGCCATTGGCCAAAGTGGCCTCGGGTGGCGAACTGTCGCGCATCAGCCTGGCGATCCAGGTGATCACGGCGCAAACGTCCCGGGTTCCCACGCTGGTCTTCGACGAAGTGGACGTTGGAATCGGCGGCCCGACCGCCGAGGTTGTCGGGCAATTGCTCCGCCGCCTGGGCGAACGCGGCCAGGTGCTGACGGTCACACACCTGCCACAAGTGGCTGCACAAGGGCACCATCATCTCTTCGTGCACAAACTGCGTGGCAGCGAGGAAACCCGGACCGCCGTCGCCAAACTGGACGGCACCCAGCGGGTCGAGGAAATTGCCCGGATGCTTGGCGGCGTCGACCTCACCGAGGAATCCCTGGCACACGCTCGCCAGATGGTGACAGCCGCCAAGGCCGCCTGA	MLVHLSVHNYAIVEHLDLELDRGMSVITGETGAGKSIMLDALGLTLGDRADSGVVRPGADKADILASFDLDDIPEARAWLAERDLDSDGPCILRRVITAEGRSRAYINGSPCPQGDLKTLGELLIDIHSQHEHQSLLKAETHRRLLDEYAGSQELARQVQLAAQRWRQTRQELERISNSSDEQRARQQLLSYQLEELENLALGDNELEQLEQEHKALSNSEQLLSACRQVLDLCSESDAGNVLSALTASLHRLNAFHSQPGAIGEAVNLLASAQIQVEEAVGELNRFLDHFDADPERQRYLEERLDSIYTLARKHRIQPGELGALQQQLLDELENLNADDEAVERLAEELTAYARHYQEKAAELSALRNEAAGRLASAVQQEMQRLGMPGGRFSIELRSSNAEEPQPYGLEQVEFLVSANPGQPLKPLAKVASGGELSRISLAIQVITAQTSRVPTLVFDEVDVGIGGPTAEVVGQLLRRLGERGQVLTVTHLPQVAAQGHHHLFVHKLRGSEETRTAVAKLDGTQRVEEIARMLGGVDLTEESLAHARQMVTAAKAA				NA	NA	NA	NA	NA
BMS010_09821	570	grpE_2	COG0576	Protein GrpE	ATGGCTGACGAACAGAACCTGGATAACCAGACCCCTGAAGAAAACCTGGCTGCGGAGGCGGAGGCCGGTAACGATCTCAGTGCGCGCGTCCAGTCCCTGGAAGAGCAGTTGGCTGCCGCTCAGGACCAGGCTCTGCGCGTCGCGGCCGAGGTGCAGAATGTCCGTCGCCGTGCCGAGCAGGATGTCGAAAAGGCACACAAATTCGCGCTGGAGCGGTTCGCCGGGGATCTGTTGCCGGTCGTGGATAGCCTGGAGCGCGGCTTGGAGCTTTCCAGCCCGGACGATGAGTCGATCCGACCGATGCGCGAAGGCATGGAGCTGACCCTGAAGATGTTCCACGACACGCTCAAGCGCTACCAGGTCGAGCCCGTGGACCCTCATGGCGCTCCCTTCAATCCGGAACATCACCAGGCGATGGCCATGGAAGAAAGCACCCATGTCGAGCCGGGTAGCGTGCTGAAAGTGTTCCAGAAGGGCTACCTGCTGAATGGCCGCCTGTTGCGCCCGGCCATGGTGGTGGTCAGCAAGGCGCCGGCGGCGACTCCGCCTTCGATCGACGAGAAGGCTTGA	MADEQNLDNQTPEENLAAEAEAGNDLSARVQSLEEQLAAAQDQALRVAAEVQNVRRRAEQDVEKAHKFALERFAGDLLPVVDSLERGLELSSPDDESIRPMREGMELTLKMFHDTLKRYQVEPVDPHGAPFNPEHHQAMAMEESTHVEPGSVLKVFQKGYLLNGRLLRPAMVVVSKAPAATPPSIDEKA	PGPT0014650_4576	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0014650-grpE-K03687	NA	NA
BMS010_09822	1914	dnaK_4	COG0443	Chaperone protein DnaK	ATGGGCAAAATCATCGGTATCGACCTGGGAACCACCAACTCCTGCGTGGCGATCCTGGAGAACGGTAACGTCAAGGTCATCGAGAACGCCGAGGGCGGCCGCACCACGCCGTCCATCATCGCCTACACCAATGATGGTGAAACCCTCGTTGGCCAGTCGGCCAAGCGCCAGGCGGTGACCAACCCGCAGAACACCCTGTACGCGGTGAAGCGCCTGATCGGTCGTCGCTTCGAAGAGGACGTCGTGCAGAAAGACATCAAGATGGTGCCGTACAGCATTGTCAAGGCCGACAACGGCGACGCCTGGGTGGAAGTGAAGGGCCAGAAGATGGCGCCTCCGCAGATTTCCGCCGAAGTGCTGAAGAAAATGAAGAAGACTGCCGAAGACTACCTCGGCGAGCCGGTCACCGAAGCGGTGATCACCGTTCCGGCCTACTTCAACGACAGCCAGCGCCAGGCCACCAAGGACGCCGGTCGTATCGCCGGCCTGGACGTCAAGCGCATCATCAACGAGCCGACCGCGGCGGCACTTGCCTATGGCATGGACAAGGCCAAGGGCGACCACACCGTGATCGTCTATGACCTGGGCGGCGGTACCTTCGACGTGTCGGTGATCGAGATCGCCGAGGTGGACGGTGAGCACCAGTTCGAAGTGCTGGCGACCAACGGTGACACCTTCCTCGGTGGCGAGGACTTCGACATTCGTCTGATCGACTACCTCGTCGACGAATTCAAGAAAGAAACCGGCATGAACCTGAAGGGCGACCCGCTGGCGATGCAGCGTCTGAAAGAGGCTGCCGAGAAGGCCAAGATCGAGCTGTCCTCCAGCCAGCAGACCGACGTCAACCTGCCGTACATCACGGCCGACCAGACCGGTCCGAAGCACCTTAACGTGAAGATTTCCCGCGCCAAGCTGGAAGCGCTGGTGGAAGACCTGGTCGAGCGGACCATCGAGCCTTGCCGCATTGCGCTGAAGGATGCCGGCATCGACGTGTCCGACATCCATGACGTGATCCTGGTCGGCGGCCAGACCCGTATGCCGCTGGTGCAGAAGCGCGTGGCCGAGTTCTTCGGCAAGGAAGCGCGCAAGGACGTCAACCCGGACGAAGCCGTGGCCATCGGTGCAGCCATCCAGGGTGCCGTGCTGGCCGGCGACGTGAAGGACGTGCTGCTGCTGGACGTAACTCCGCTGACCCTGGGTATCGAAACCCTGGGTGGCGTGATGACGCCGCTGATCGAGAAGAACACCACCATTCCGACCAAGAAATCGCAGGTGTTCTCGACTGCCGACGACAACCAGAGCGCCGTGACCATTCACGTGCTGCAGGGCGAGCGCAAGCAGGCCGCGCAGAACAAGTCGCTGGGCAAGTTCGACCTGGCCGATATTCCGCCGGCCCCGCGTGGTGTGCCGCAGATTGAAGTGACCTTCGACATCGACGCCAACGGCATCCTGCATGTCGGCGCGAAGGACAAGGCTACCGGCAAGCAGCAGTCCATCGTGATCAAGGCCAACTCGGGTCTGTCCGAGGAGGAAATCCAGCAAATGGTTCGCGATGCCGAGGCGAATGCCGAGGAAGACCGCAAGTTCGAAGAGCTGGCCGCTGCGCGTAACCAGGGCGATGCGCTGGTGCATGCGACCCGCAAGATGGTCACCGAGGCCGGCGACAAGGCGACCGCCGAAGAGAAAGCGGCGATCGAGAAGGCGCTGTCCGACCTGGAGCTGGCTGTGAAGGGCGACGACAAGGCCGAGATCGAAGCCAAGATGAATGCGCTGTCCCAGGCTTCCACGCCGCTGGCGCAGAAAATGTACGCCGAGCAGGCCCAGGCCGGCGAGGCTGCCCAGGGGGCGGACGAAGCCAAGACTGCGGATGATGTGGTCGACGCCGAGTTCGAAGAGGTCAAGGACAACAAGTAA	MGKIIGIDLGTTNSCVAILENGNVKVIENAEGGRTTPSIIAYTNDGETLVGQSAKRQAVTNPQNTLYAVKRLIGRRFEEDVVQKDIKMVPYSIVKADNGDAWVEVKGQKMAPPQISAEVLKKMKKTAEDYLGEPVTEAVITVPAYFNDSQRQATKDAGRIAGLDVKRIINEPTAAALAYGMDKAKGDHTVIVYDLGGGTFDVSVIEIAEVDGEHQFEVLATNGDTFLGGEDFDIRLIDYLVDEFKKETGMNLKGDPLAMQRLKEAAEKAKIELSSSQQTDVNLPYITADQTGPKHLNVKISRAKLEALVEDLVERTIEPCRIALKDAGIDVSDIHDVILVGGQTRMPLVQKRVAEFFGKEARKDVNPDEAVAIGAAIQGAVLAGDVKDVLLLDVTPLTLGIETLGGVMTPLIEKNTTIPTKKSQVFSTADDNQSAVTIHVLQGERKQAAQNKSLGKFDLADIPPAPRGVPQIEVTFDIDANGILHVGAKDKATGKQQSIVIKANSGLSEEEIQQMVRDAEANAEEDRKFEELAAARNQGDALVHATRKMVTEAGDKATAEEKAAIEKALSDLELAVKGDDKAEIEAKMNALSQASTPLAQKMYAEQAQAGEAAQGADEAKTADDVVDAEFEEVKDNK	PGPT0014555_2862	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014555-dnaK-K04043	NA	NA
BMS010_09823	1131	dnaJ_5	COG0484	Chaperone protein DnaJ	ATGGCCAAGCGTGATTATTACGAAGTGCTGGGCGTCGAGCGCGGAGCCAGCGAGGCGGAGCTGAAAAAGGCCTATCGCCGTCTGGCAATGAAGCACCATCCTGACCGCAACCCGGGCGATAAGGCATCCGAAGACAAATTCAAGGAGGCCAACGAGGCCTACGAAGTACTGTCCGATGCCAATAAGCGCGCCGCCTACGATCAGTACGGTCATGCCGGCGTGGACCCGAGCATGGGCGGTGGTGCGGCGGGTGCCGGGTTCGGCGGGGCGAATTTCTCCGATATCTTCGGCGATGTCTTCAGCGATTTCTTCGGCGGCGGCCGTGGTGGTGCGCGAGGTGGTGCCCAGCGGGGCAGCGACCTGCGTTACACCCTCGAGCTGGACCTGGAAGAAGCCGTGCGCGGCACCACGGTGACCATCCGTGTGCCTACCCTGGTCAACTGCAAGACCTGCGATGGCTCCGGCGCCAAGAAGGGTACTACTCCGGTCACTTGTACCACCTGTGGCGGTATCGGTCAGGTCCGCATGCAGCAGGGGTTCTTCTCGGTGCAGCAGACCTGTCCGCGCTGCCATGGCACGGGCAAGATGATTTCCGACCCTTGCGGCACCTGCCATGGCCAGGGGCGGGTGGAAGAGCACAAGACGCTGTCGGTCAAGGTGCCGGCAGGTGTCGATACCGGCGACCGCATCCGTCTCTCTGGAGAGGGCGAAGCGGGCGTCATGGGTGGCCCGCCGGGCGATCTCTATGTGGTGGTCAGCGTTCGCGAGCACCCGATCTTCCAGCGCGATGGCAAGCATCTCTACTGCGAAGTGCCGATCAGCTTCGCCGACGCGGCATTGGGCGGGGAGCTCGAGGTTCCGACGCTGGATGGTCGGGTCAAGCTGAAGATTCCGGAAGGCACCCAGACCGGCAAACTGTTTCGCTTGCGCGGCAAGGGGGTGGCGCCGGTACGCGGTGGCGGTGCCGGCGACTTGATGTGCCGGGTCGTGGTGGAAACGCCGGTCAACCTGGACAAGCGCCAGCGTGATCTGCTCGAAGAGTTCCGCAAAAGCCTGCAGAACGACAGCTCCCACTCGCCGAAGGCCAGTGGCTGGTTCGAAGGCATGAAGCGCTTTTTCGGCGATCTGTAA	MAKRDYYEVLGVERGASEAELKKAYRRLAMKHHPDRNPGDKASEDKFKEANEAYEVLSDANKRAAYDQYGHAGVDPSMGGGAAGAGFGGANFSDIFGDVFSDFFGGGRGGARGGAQRGSDLRYTLELDLEEAVRGTTVTIRVPTLVNCKTCDGSGAKKGTTPVTCTTCGGIGQVRMQQGFFSVQQTCPRCHGTGKMISDPCGTCHGQGRVEEHKTLSVKVPAGVDTGDRIRLSGEGEAGVMGGPPGDLYVVVSVREHPIFQRDGKHLYCEVPISFADAALGGELEVPTLDGRVKLKIPEGTQTGKLFRLRGKGVAPVRGGGAGDLMCRVVVETPVNLDKRQRDLLEEFRKSLQNDSSHSPKASGWFEGMKRFFGDL	PGPT0014545_4373	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014545-dnaJ-K03686	NA	NA
BMS010_09824	807	dapB_2	COG0289	4-hydroxy-tetrahydrodipicolinate reductase	ATGCGACGTATTGCAGTGATGGGCGCCGCCGGGCGCATGGGCAAGACACTGGTGGAGGCGGTGCAGCAAGCACCCGATGCGGGCCTGACCGCGGCCATCGATCGGCCGAGCAGCACGTTGATCGGCGCGGATGCCGGAGAGCTGGCCGGCATTGGCCGGATCGGTGTTCTCCTGTCCGACGAGCTGAGCAAGGTGGTGGATGAGTTCGATGTGCTCATCGACTTCACCCATCCCAGCGTGACCCTGAAGAACCTCGCGGTTTGCCGCCAAGCCGGCAAGGCGATGGTGATCGGCACCACGGGGTTCACTGCCGAGGAAAAACAGCAGTTGGTGGACGCGTCGCGGGAGATTCCCATCGTGTTCGCCGCCAACTTCAGCGTAGGTGTCAATCTGTGCCTCAAGCTGCTGGATACCGCGGCGCGCGTGCTGGGTGACGAGGTGGATATCGAGATCATCGAGGCGCATCACCGTCATAAGGTGGATGCTCCTTCCGGAACGGCTCTGCGCATGGGCGAAGTGGTCGCCAACGCGCTCGGGCGTGACCTTGAGAAAGTCGCGGTCTATGGGCGGGAAGGCCAGACTGGTGCCCGTGCTCGCGAAACCATCGGCTTCGCCACGGTGCGCGCCGGGGATGTCGTGGGCGACCATACCGTACTGTTCGCCGCCGAAGGCGAGCGGGTCGAGATCACCCACAAGGCATCCAGCCGCATGACCTTCGCCAAGGGGGCGGTGCGTGCGGCTCTCTGGCTCGAAGGGCGGGAGCCGGCGTTGTATGACATGCAGGACGTGCTTGGCCTGAAAGACTGA	MRRIAVMGAAGRMGKTLVEAVQQAPDAGLTAAIDRPSSTLIGADAGELAGIGRIGVLLSDELSKVVDEFDVLIDFTHPSVTLKNLAVCRQAGKAMVIGTTGFTAEEKQQLVDASREIPIVFAANFSVGVNLCLKLLDTAARVLGDEVDIEIIEAHHRHKVDAPSGTALRMGEVVANALGRDLEKVAVYGREGQTGARARETIGFATVRAGDVVGDHTVLFAAEGERVEITHKASSRMTFAKGAVRAALWLEGREPALYDMQDVLGLKD				NA	NA	NA	NA	NA
BMS010_09826	1137	carA_3	COG0505	Carbamoyl-phosphate synthase small chain	TTGACTAAGCCAGCCATACTCGCCCTTGCCGATGGCAGCATCTTTCGCGGCGAATCCATCGGCGCCGACGGTCAGACCGTCGGTGAGGTGGTGTTCAACACCGCCATGACCGGCTATCAGGAAATCCTCACCGATCCTTCCTATGCCCAGCAGATCGTGACCCTGACTTACCCGCACATCGGCAACACCGGCACCACGCCGGAAGATGCCGAGGCCAACCGCGTCTGGGCTGCCGGCCTGGTCATTCGCGACCTGCCGCTGCTGGCCAGCAACTGGCGCAACAAGCAGTCTCTTCCCGAGTACCTGAAAGAGAACGGTACCGTAGCCATTGCCGGTATCGATACCCGTCGCCTGACCCGTATCCTGCGCGAGAAGGGCTCGCAGAATGGCTGCATTCTCGCCGGCGAAGACGCCACCGAGGAAAAGGCCCTGGAACTGGCCCGCAGCTTCCCCGGCCTGAAGGGCATGGACCTCGCCAAGGAAGTGAGCTGCCGTGAGCGCTACGAGTGGCGCTCCAGCGTCTGGAACCTGGCCACCGACAGCCATCCCGAAATCCCCGCGGAGCAGCTTCCCTACCATGTGGTCGCTTATGACTATGGCGTCAAGCTGAACATTCTGCGCATGCTGGTCGCTCGTGGTTGCCGCCTGACCGTGGTTCCCGCGCAGACCCCGGCCAGCGAGGTGCTGGCCCTGAATCCGGACGGCGTCTTCCTGTCCAACGGACCGGGCGATCCCGAGCCTTGCGATTATGCAATCAAGGCCATCCAAGACATCCTGGAAACCGACATTCCCGTATTCGGTATCTGCCTGGGCCACCAGCTGCTCGCCCTGGCTTCCGGCGCCAAGACGGTGAAGATGGGCCATGGTCACCATGGTGCCAACCACCCGGTGCAGGACCTCGATACCGGTGTGGTGATGATCACCAGTCAGAACCACGGTTTCGCCGTGGACGAGTCGACCCTGCCGGGCAACGTTCGCGCCATTCACAAGTCGCTGTTCGACGGCACTCTGCAAGGCATCGAGCGTACCGACAAGGTGGCCTTCAGCTTCCAGGGCCACCCCGAAGCCAGCCCCGGCCCGCATGACGTGGCCCCGCTGTTCGATCGCTTCATCGAAGCCATGGCCAAGCGCCGCTAA	MTKPAILALADGSIFRGESIGADGQTVGEVVFNTAMTGYQEILTDPSYAQQIVTLTYPHIGNTGTTPEDAEANRVWAAGLVIRDLPLLASNWRNKQSLPEYLKENGTVAIAGIDTRRLTRILREKGSQNGCILAGEDATEEKALELARSFPGLKGMDLAKEVSCRERYEWRSSVWNLATDSHPEIPAEQLPYHVVAYDYGVKLNILRMLVARGCRLTVVPAQTPASEVLALNPDGVFLSNGPGDPEPCDYAIKAIQDILETDIPVFGICLGHQLLALASGAKTVKMGHGHHGANHPVQDLDTGVVMITSQNHGFAVDESTLPGNVRAIHKSLFDGTLQGIERTDKVAFSFQGHPEASPGPHDVAPLFDRFIEAMAKRR	PGPT0021155_2895	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021155-carA-K01956	NA	NA
BMS010_09827	3222	carB_4	COG0458	Carbamoyl-phosphate synthase large chain	ATGCCAAAACGTACAGATATCAAAAGCATCCTGATCCTCGGTGCCGGTCCCATCGTCATCGGTCAGGCCTGCGAGTTCGACTACTCCGGCGCCCAGGCCTGCAAGGCGCTGAAGGAAGAAGGTTTCCGCGTCATCCTGGTGAACTCCAACCCGGCCACCATCATGACCGACCCGGCCATGGCCGACGCCACCTACATCGAACCGATCAAGTGGGCCACCGTGGCCAAGATCATCGAGAAGGAGCGCCCCGACGCCTTGCTGCCGACCATGGGTGGCCAGACCGCGCTCAACTGCGCCCTGGACCTTGAGCGCCACGGCGTGCTGGAAAAGTTCGGCGTGGAAATGATTGGCGCCAACGCCGATACCATCGATAAGGCGGAAGACCGCTCGCGCTTCGACAAGGCCATGAAATCCATCGGCCTCGAATGCCCGCGTTCGGGTATTGCCCACAGCATGGAGGAGGCCTACGGCGTCCTCGAGAAGGTTGGCTTCCCCTGCATCATTCGTCCCTCGTTCACCATGGGGGGCACCGGCGGTGGTATCGCCTACAACCGCGAAGAGTTCGAGGAAATCTGCGCTCGCGGTCTGGACCTGTCGCCGACCAACGAACTGCTGATCGACGAATCGCTGATCGGTTGGAAGGAATACGAGATGGAGGTTGTCCGCGACAAGAAGGACAATTGCATCATCGTTTGCTCCATCGAGAACTTCGACCCGATGGGCGTGCACACCGGTGACTCCATCACCGTTGCCCCGGCGCAGACCTTGACCGACAAGGAATACCAGATCATGCGCAACGCCTCCCTGGCGGTGCTGCGCGAGATCGGTGTGGAAACCGGCGGTTCCAACGTGCAGTTCGGTATCTGCCCGGACACCGGTCGTATGGTCGTGATCGAGATGAACCCGCGCGTGTCGCGTTCCTCGGCACTGGCCTCCAAGGCGACCGGCTTCCCGATCGCCAAGATCGCCGCCAAGCTGGCGGTCGGCTACACCCTCGACGAGTTGCAGAACGACATCACTGGCGGTCGCACTCCGGCCTCCTTCGAGCCGGCCATCGACTACGTGGTGACCAAGGTCCCGCGCTTCGCCTTCGAGAAATTCCCCAAGGCCGATGCCCGCCTGACCACCCAGATGAAGTCCGTGGGCGAGGTCATGGCCATCGGTCGCACCTTCCAGGAGTCCGTGCAGAAAGCCCTGCGTGGTCTGGAAGTCGGCGTCGCCGGTTTCGACCCGAAACTCGACCTGAACGATCCTGAAGCCGAGAGTACCCTGCGTCGCGAACTGACCGTGCCGGGCGCCGAGCGCATCTGGTACGTGGCCGATGCCTTCCGTGCCGGCAAGAGCATCGAGGACGTGTTCGCCCTGACCAAGATCGACCCCTGGTTCCTGGTGCAGATCGAGGACCTGGTCAAGGATGAGGAGAAGGTCCAGACCCTTGGTCTGTCAGGCATCGATGCCGAGCTGATGCGCAAGCTCAAGCGCAAGGGCTTCTCCGACGCGCGCCTGGCCAAGCTGCTCGGCGTCACCGAGAAGAACCTGCGCAACCATCGCCACAAGCTGAAGGTGTTGCCGGTTTACAAGCGCGTGGATACCTGCGCCGCCGAATTCGCCACCGACACCGCCTACATGTACTCGACCTACGAGGAAGAGTGCGAGGCCAATCCGTCCGGTCGCGACAAGATCATGATCCTCGGTGGCGGCCCGAACCGCATCGGCCAAGGCATCGAGTTCGACTACTGCTGCGTGCACGCCGCGCTGGCCATGCGCGAAGACGGTTACGAGACCATCATGGTCAACTGCAACCCGGAAACCGTCTCCACCGACTACGACACTTCCGACCGTCTGTACTTCGAGCCGGTGACCCTGGAGGACGTACTGGAGATCGTTCGCGTCGAGCAGCCCAAGGGTGTGATCGTGCAGTACGGCGGCCAGACCCCGCTGAAACTGTGCCGTGCCCTGGAAGAGGCGGGCGTGCCGATCATCGGCACCAGTCCGGATGCCATCGACCGCGCTGAAGATCGCGAGCGCTTCCAGCAGATGGTTCAGCGACTCAACCTGCGTCAGCCGGCCAACGCCACCGCGCGCAGCGAGGACGAGGCCCTGGCCCACTCCAAGCAGATCGGTTATCCGCTGGTGGTGCGCCCCTCCTACGTGTTGGGCGGCCGGGCGATGGAAATCGTCTACCAGGAAGAAGAGCTCAAGCGCTACATGCGTGAGGCGGTGAAGGTGTCGAACGACAGCCCGGTGCTGCTCGACCATTTCCTCAACTGCGCCATCGAAGTGGACGTGGACGCGGTATGCGACGGCGAGACCGTGGTTATCGGCGCGATCATGCAGCACATCGAACAGGCCGGCGTGCACTCCGGCGACTCCGCCTGCTCGCTGCCGCCATACTCGCTGCCCAAGCACATCCAGGACGAAATCCGCGAGCAGGTCAAGAAGATGGCCCTGGAGCTCGGCGTGGTTGGCCTGATGAACGTGCAGATGGCCGTGCAGGGCGAGGACATCTACGTGATCGAGGTGAACCCGCGCGCTTCGCGTACCGTGCCGTTCGTCTCCAAGTGCATCGGCGAATCGCTGGCCAAGGTTGCCGCTCGCGTCATGGCTGGCAAGACTCTCGCGGAAGTCGGTTTCACCAAGGAAATCATCCCGCCGTTCTTCAGCGTCAAGGAGGCGGTGTTCCCCTTCGCCAAGTTCCCTGGCGTTGACCCCATCCTCGGCCCAGAGATGAAATCCACTGGTGAGGTGATGGGCGTGGGCGACAGCTTCGGTGAAGCCTTCGCCAAGGCGCAACTGGGCGCCAGCGAGATCCTGCCGAACTCGGGGACTGCATTCATCAGCGTGCGTGAAGACGACAAGCCATTCGTCGTCGGTGTGGCGCAGGAGCTGATCAGCCTGGGTTTCGAAGTGGTCGCTACCGCCGGCACCGCCAAGGTGATCGAAGCTGCGGGTCTGCCCGTACGCCGGGTGAACAAGGTCACCGAAGGCCGTCCGCACGTGGTCGATATGATCAAGAACGACGAAGTCACCCTGATCATCAACACCACCGAAGGCCGGCAGTCGATCGCCGACTCTTATTCCATTCGTCGCAACGCCCTGCAGCACAAGATCTACTGCACCACCACCATTGCCGCTGGTCAGGCGATCTGTGAGGCGCTCAAGTTCGGTCCCGAGCGGACCGTGCGTCGGCTGCAGGATCTCCATGCAGGAATCGAGGCATGA	MPKRTDIKSILILGAGPIVIGQACEFDYSGAQACKALKEEGFRVILVNSNPATIMTDPAMADATYIEPIKWATVAKIIEKERPDALLPTMGGQTALNCALDLERHGVLEKFGVEMIGANADTIDKAEDRSRFDKAMKSIGLECPRSGIAHSMEEAYGVLEKVGFPCIIRPSFTMGGTGGGIAYNREEFEEICARGLDLSPTNELLIDESLIGWKEYEMEVVRDKKDNCIIVCSIENFDPMGVHTGDSITVAPAQTLTDKEYQIMRNASLAVLREIGVETGGSNVQFGICPDTGRMVVIEMNPRVSRSSALASKATGFPIAKIAAKLAVGYTLDELQNDITGGRTPASFEPAIDYVVTKVPRFAFEKFPKADARLTTQMKSVGEVMAIGRTFQESVQKALRGLEVGVAGFDPKLDLNDPEAESTLRRELTVPGAERIWYVADAFRAGKSIEDVFALTKIDPWFLVQIEDLVKDEEKVQTLGLSGIDAELMRKLKRKGFSDARLAKLLGVTEKNLRNHRHKLKVLPVYKRVDTCAAEFATDTAYMYSTYEEECEANPSGRDKIMILGGGPNRIGQGIEFDYCCVHAALAMREDGYETIMVNCNPETVSTDYDTSDRLYFEPVTLEDVLEIVRVEQPKGVIVQYGGQTPLKLCRALEEAGVPIIGTSPDAIDRAEDRERFQQMVQRLNLRQPANATARSEDEALAHSKQIGYPLVVRPSYVLGGRAMEIVYQEEELKRYMREAVKVSNDSPVLLDHFLNCAIEVDVDAVCDGETVVIGAIMQHIEQAGVHSGDSACSLPPYSLPKHIQDEIREQVKKMALELGVVGLMNVQMAVQGEDIYVIEVNPRASRTVPFVSKCIGESLAKVAARVMAGKTLAEVGFTKEIIPPFFSVKEAVFPFAKFPGVDPILGPEMKSTGEVMGVGDSFGEAFAKAQLGASEILPNSGTAFISVREDDKPFVVGVAQELISLGFEVVATAGTAKVIEAAGLPVRRVNKVTEGRPHVVDMIKNDEVTLIINTTEGRQSIADSYSIRRNALQHKIYCTTTIAAGQAICEALKFGPERTVRRLQDLHAGIEA	PGPT0021150_3402	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021150-carB-K01955	NA	NA
BMS010_09828	474	greA_2	COG0782	Transcription elongation factor GreA	ATGAGTAAATTCCCCATGACTGTCCAGGGCGCTCGCGCCTTGGAAGAAGAACTGAAAGTCCTGAAGGCCGAGCGGCCGAAGATCAGCCAGGCGATCGCCGAGGCGCGAGAGCTGGGCGATCTCAAGGAAAACGCCGAATACCATGCTGCCCGTGAGCAGCAGGGGTTGGCCGAGGCACGTATCCGCGATATCGAGGCCAAGCTGTCGAATGCTCATATCATCGATGTGACCAGCATTCCGCACACCGGCAAGGTTATCTTCGGCACTACCGTCGATATCGCCAACTGCGAAACCGACGAGACGGTGACCTACCAGATCGTCGGTGACGACGAGGCGGACATCAAGGCCGGCAAGTTGTCGGTCAGTTCACCCATCGCCCGCGCCTTGGTCGGCAAGGAAGAAGGTGACGTGGTCACGGTGAAGACGCCGAGCGGTGTGGTCGAGTACGAGATTGTCGAAGTCCGCCATCTTTAA	MSKFPMTVQGARALEEELKVLKAERPKISQAIAEARELGDLKENAEYHAAREQQGLAEARIRDIEAKLSNAHIIDVTSIPHTGKVIFGTTVDIANCETDETVTYQIVGDDEADIKAGKLSVSSPIARALVGKEEGDVVTVKTPSGVVEYEIVEVRHL	PGPT0030495_3675	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TRANSCRIPTIONAL_CONTROL	PUTATIVE-TRANSCRIPTIONAL_CONTROL-1,PGPT0030495-greA-K03624
BMS010_09829	438			hypothetical protein	TTGTCGAAGTCCGCCATCTTTAAGAAGCGCCCCTCGCGAGCAGGCAGCATCAGTTGGCAGTTGGCCCAGACGTTCTGGGTCGGCGGTCTCTGGCTGCTGCATTTCGTGGTGTTGCCTGCGTTGGGCAAGGTCGGTCTGGCGCCGCTGTTGATCGAGGATGTCGCCTCGGCACTCAGTCCGCTGATGGTGGGATTCGCGGCATTCTGCGCAATGCTCCAGGCGCTGGTGCTGATTCAGGCGGAGCGACTCTCGTCGCTCTGGCGGGACATGCGCGGGCAACTGCTGTTGACCGTCATACTGATGGCGATCGTCTATTTCGTCGTGCGCGAAGGGCAATCGACTGCGACTTTCTGGCTGACCTTCAATTATCTGGTGCTCGCATTCTGCGGCCTGATGCTGGTTCTGCAGCCGGTTCCCGGGCAGGACGGCGGCCGCTGA	MSKSAIFKKRPSRAGSISWQLAQTFWVGGLWLLHFVVLPALGKVGLAPLLIEDVASALSPLMVGFAAFCAMLQALVLIQAERLSSLWRDMRGQLLLTVILMAIVYFVVREGQSTATFWLTFNYLVLAFCGLMLVLQPVPGQDGGR				NA	NA	NA	NA	NA
BMS010_09830	315	yhbY	COG1534	RNA-binding protein YhbY	ATGGCGCTCACTCAAGAGCAGAAGAAACAATTCAAATCTATCGGCCACCACCTGAAACCGGTATTGATCGTGGCCGAAAACGGTTTGACCGAGGGCGTACTGGCCGAACTCGACCGGGCGCTGAACGATCACGAACTGATCAAGGTGCAGTTCCGGCTGACCGAGCGCGAGGATCGCCGGGCGCTCATCGACGAACTGTGCGAAGCCGGCAGCTGCGAACTGGTCCAGGTCATCGGCAAGATGGCGCTGGTCTATCGCAAGAACCCTAAGCCGAATCGCAACTTGTCCAACATTCACCGCTACGCCGGCATCTGA	MALTQEQKKQFKSIGHHLKPVLIVAENGLTEGVLAELDRALNDHELIKVQFRLTEREDRRALIDELCEAGSCELVQVIGKMALVYRKNPKPNRNLSNIHRYAGI				NA	NA	NA	NA	NA
BMS010_09831	624	rlmE_2	COG0293	Ribosomal RNA large subunit methyltransferase E	GTGGCCCGTTCCAAGACTAGCCAGCGCTGGCTGAAAGAACACTTCGACGACCCCTACGTCAAAATGGCGCAAAAGGACGGCTACCGTTCGCGTGCCAGCTACAAACTGCTGGAAATCCAGGAGAAGGACCGGATTCTGCGTCCCGGCATGACCGTGGTCGATCTGGGGGCTGCTCCGGGCGGTTGGTCCCAGGTAACCAGCCGGGTGATCGGGGATCGCGGGCGGTTGATCGCTTCGGACATCCTGGAGATGGACAGCATTCCGGATGTCACCTTCATCCAGGGCGATTTCACCGAGGATGCAGTCTTTGCGCGCATCCTGGAAGCCATCGGGGATGGCCCGGTGGACCTTGTGATTTCCGATATGGCCCCCAATATGAGTGGTGTAAGGGCTGCTGACCAGCCGAGAGCCATGTACCTGTGCGAGCTCGCGCTGGACCTGGCTGGCCGGGTCTTGCGTCCTGGCGGTGATTTTCTGATCAAGATTTTCCAGGGAGAGGGTTTCGACCTTTATCACAAGCAGGTTCGCGAGATGTTCGAGAAGGTGCAGATGCGCAAACCGCTGTCGTCGCGTGACCGCTCCAGGGAGCAGTATCTTCTGGCTCGAGGTTATCGCGGCGCGTGA	MARSKTSQRWLKEHFDDPYVKMAQKDGYRSRASYKLLEIQEKDRILRPGMTVVDLGAAPGGWSQVTSRVIGDRGRLIASDILEMDSIPDVTFIQGDFTEDAVFARILEAIGDGPVDLVISDMAPNMSGVRAADQPRAMYLCELALDLAGRVLRPGGDFLIKIFQGEGFDLYHKQVREMFEKVQMRKPLSSRDRSREQYLLARGYRGA				NA	NA	NA	NA	NA
BMS010_09832	1923	ftsH_5	COG0465	ATP-dependent zinc metalloprotease FtsH	TTGAACGATATGGCAAAGAACCTGATCCTGTGGCTGATCATTGCGGCAGTCCTGGTGACGGTGATGAACAACTTCTCCAGCCCGAGCGAACCGCAGACGCTGAATTACTCGGAATTCATCGAGCAGGTCAAAGAAGGCAAGGTGGAGCGTGTGACGGTCGATGGCTATGTCATTACCGGCAAGCGCACCGATGGCGACAGCTTCAAGACCATCCGGCCCGCGATTCAGGATGGCGGTCTGATCGGCGATCTGATCGATAACAACGTGATCATCGAAGGCAAGCAGCCCGAGCAACAGAGCATCTGGACGCAGCTTCTGGTCGCGAGCTTCCCGATTCTCGTGATCATCGCCGTGTTCATGTTCTTCATGCGGCAAATGCAAGGCGGAGCAGGCGGCAAGGGCGGCCCGATGAGCTTCGGCAAGAGCAAGGCGCGCTTGTTGTCCGAAGATCAGGTCAAGACGACTTTTGCGGACGTCGCCGGGTGCGACGAGGCCAAGGAAGAAGTCAGCGAACTGGTAGAGTTCCTTCGCGATCCCGGCAAGTTCCAGCGTCTGGGTGGCCGGATTCCCCGTGGCGTGCTGATGGTCGGCCCGCCCGGTACCGGTAAGACGCTGCTGGCCAAGGCAATCGCAGGGGAAGCCAAGGTACCGTTCTTCACCATTTCCGGTTCGGACTTCGTCGAGATGTTCGTCGGTGTCGGTGCCTCTCGTGTGCGCGACATGTTCGAGCAGGCGAAAAAGCACGCACCCTGCATCATCTTCATCGACGAGATCGACGCCGTTGGTCGTCATCGTGGCGCCGGCCTGGGCGGTGGTCATGATGAGCGTGAACAGACCCTCAACCAGTTGCTGGTGGAAATGGACGGCTTCGAGATGAATGACGGCATCATCGTCATTGCCGCCACCAACCGTCCCGATGTACTCGACCCGGCGCTCCTGCGTCCCGGTCGTTTTGACCGCCAAGTCGTGGTGGGGCTGCCGGATATTCGCGGCCGCGAGCAGATTCTGAAAGTGCACATGCGCAAGGTGCCGGTGGGCGAGAACGTCAACCCGGCTGTCATCGCGCGCGGTACCCCGGGTTTCTCTGGTGCCGATCTGGCCAACCTGGTCAACGAGGCGTCTTTGTTCGCTGCTCGTGCCAACAAGCGCATTGTCGACATGCGTGAGTTCGAGTTGGCCAAGGACAAGATCATGATGGGCGCCGAGCGCAAATCCATGGTCATGTCTGAAAAAGAGAAACTGAACACGGCTTACCACGAGGCCGGCCACGCCATCGTGGGGCGCCTGGTTCCCGAGCACGATCCTGTCTACAAGGTTTCGATCATTCCGCGCGGCCGCGCCCTGGGTGTGACCATGTTCCTTCCGGAGGAGGATCGTTACAGCCTGTCGAAGCGCGCGTTGATCAGCCAGATCTGCTCACTGTTCGGTGGCCGTATCGCCGAAGAAATGACGCTGGGCTTCGAAGGCGTTACTACCGGGGCTTCCAATGACATCATGCGAGCCACCCAGTTGGCGCGGAACATGGTGACCAAATGGGGCTTGTCGGAAAAGCTCGGTCCGCTGATGTATGCGGAAGAAGAGGGCGAAGTGTTCCTGGGGCGTAGTGCTGGTAGCCAGCACACCAATGTCTCCGCGGAAACGGCCAAGCTGATCGATCAGGAGGTGCGCAGCATCATCGATCAGTGCTACGGCACTGCCAAGCAGTTGCTGGTGGAGAATCGCGACAAGCTGGACCTGATGGCCGAGGCATTGATGAAATACGAAACCATCGACTCCGAGCAGATCGACGACATCATGGCTGGCCGTCCGCCGCGCGAGCCGCGTGACTGGCAGGGTGGTTCAGGCACGTCCGGTACGCCGACTCCCCGTGAAGAAACTGACCGCCCGGAAGCCCCCATTGGCGGACCTGCCGGCGAACATTAA	MNDMAKNLILWLIIAAVLVTVMNNFSSPSEPQTLNYSEFIEQVKEGKVERVTVDGYVITGKRTDGDSFKTIRPAIQDGGLIGDLIDNNVIIEGKQPEQQSIWTQLLVASFPILVIIAVFMFFMRQMQGGAGGKGGPMSFGKSKARLLSEDQVKTTFADVAGCDEAKEEVSELVEFLRDPGKFQRLGGRIPRGVLMVGPPGTGKTLLAKAIAGEAKVPFFTISGSDFVEMFVGVGASRVRDMFEQAKKHAPCIIFIDEIDAVGRHRGAGLGGGHDEREQTLNQLLVEMDGFEMNDGIIVIAATNRPDVLDPALLRPGRFDRQVVVGLPDIRGREQILKVHMRKVPVGENVNPAVIARGTPGFSGADLANLVNEASLFAARANKRIVDMREFELAKDKIMMGAERKSMVMSEKEKLNTAYHEAGHAIVGRLVPEHDPVYKVSIIPRGRALGVTMFLPEEDRYSLSKRALISQICSLFGGRIAEEMTLGFEGVTTGASNDIMRATQLARNMVTKWGLSEKLGPLMYAEEEGEVFLGRSAGSQHTNVSAETAKLIDQEVRSIIDQCYGTAKQLLVENRDKLDLMAEALMKYETIDSEQIDDIMAGRPPREPRDWQGGSGTSGTPTPREETDRPEAPIGGPAGEH				NA	NA	NA	NA	NA
BMS010_09833	852	folP_2	COG0294	Dihydropteroate synthase	ATGACATCTGCGCTGTACCCGACCCGGTTGCCCTGCGGCAACCGGGTTCTTGATTTATCCCGTCCACAAGTGATGGGTATTCTCAACGTTACCCCCGATTCTTTTTCCGATGGCGGTCGTTTCGATCGACGCGACGCCGCATTGCGTCATGCCGAGGCGATGGTCAAGGCTGGCGCGGCGCTGGTGGATGTTGGCGGGGAGTCCACGCGTCCCGGGGCTCGTCCGGTGTCGCCTGTCGAGGAGTTGGAACGTGTCGCTCCGGTCGTCGAAGCCATCGCAACCGAGCTGGATGTCATCATCTCCGTGGATACCTCGACTCCCGCGGTAATACGCGAGTGCGCGCGATTGGGCGCCGGCTTGATCAATGATGTGCGCTCTCTGCGTCGCGAGGGTGCCCTGGGCGCTGCGGCAGCTACCGGATTGCCGGTCTGTCTGATGCATATGCGCGGTGAACCGGGCAACATGCAGGAAAATCCTCAATACGAGGATGTCGCCAAGGAGGTTGCGGCCTTTTTGCGCGAGAGAATCGAAGCCTGCGCTGCGGCAGGGATTTCCAGCGAGAGAGTGATCCTGGATCCAGGGTTCGGGTTCGCCAAGAATCTTTCCCACAACCTCAGCCTGTTCAAGCACATGCAGGTTTTGCATGAACTGGGGCGTCCACTGTTGGTGGGGGTGTCCCGCAAAAGCATGATCGGACAGATTCTCGGTAAGGACGTGGGCGAGCGTCTTTATGGCAGCCTGGCCCTCGCCGCGCTGGCGGTGGCGAAAGGAGCTCGTATCCTGCGCGTTCATGACGTGGCCGAAACGGTTGATGTGGTGACCATGATCGCCGCGGTGGAAGCGGCGGAATAA	MTSALYPTRLPCGNRVLDLSRPQVMGILNVTPDSFSDGGRFDRRDAALRHAEAMVKAGAALVDVGGESTRPGARPVSPVEELERVAPVVEAIATELDVIISVDTSTPAVIRECARLGAGLINDVRSLRREGALGAAAATGLPVCLMHMRGEPGNMQENPQYEDVAKEVAAFLRERIEACAAAGISSERVILDPGFGFAKNLSHNLSLFKHMQVLHELGRPLLVGVSRKSMIGQILGKDVGERLYGSLALAALAVAKGARILRVHDVAETVDVVTMIAAVEAAE	PGPT0007915_2569	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007915-folP-K00796	NA	NA
BMS010_09834	1338	glmM_4	COG1109	Phosphoglucosamine mutase	ATGGGCAGAAAATATTTTGGCACCGATGGCATTCGTGGCCATGTCGGCCAGTTTCCGATCACGCCGGATTTCATGCTGAAACTGGGTTGGGCGGCGGGCATGGCTTTCCGCAAGCAAGGCCGCTGCCGAATTCTGATCGGCAAGGACACGCGAATTTCCGGGTATATGTTCGAGTCGGCGCTCGAGGCCGGTCTATCCGCTGCCGGGGCGGATGTGATGTTGTTGGGGCCCATGCCGACGCCGGCTATCGCCTACTTGACCCGGACTTTCCATGCCGAAGCGGGCATCGTCATCAGTGCCTCGCATAATCCGCACCATGATAATGGCATCAAGTTCTTCTCCGGTCAGGGCACTAAGCTGCCGGACGAAGTCGAGTCGATGATCGAGGCGTTGCTGGACCAGCCGATGACTGTCGTCGAGTCGGCTCAGCTCGGTAAGGTATCGCGCATCAATGACGCTGCCGGCCGTTATATCGAGTTCTGCAAGAGCAGCGTGCCAAGCAGCACCGATTTCGCTGGACTGAAACTGGTCATCGACTGCGCTCATGGCGCCACCTATAAAGTCGCCCCCAGTGTGTTCCGCGAGCTTGGGGCTCATGTTTCTGTGCTTTCGGCACAGCCCAACGGGCTCAACATCAACGATCAATGCGGCTCCACCCATATGGAGACGTTGCAGGCTGAAGTGGTGGCTCAGCAGGCGGATCTCGGTATCGCTTTCGATGGCGACGGGGATCGCGTTCTGATGGTCGATCATACCGGTGGGGTGGTGGATGGTGACGAGCTTCTGTACCTGATCGCGCGCGACCTGATGGAACGAGGCAAGCTCCAGGGCGGTGTGGTGGGAACCCTGATGAGCAACCTGGGGCTCGAGCTGGCGCTGGAGGAACTGAATATACCCTTCGTCCGCGCCAAGGTGGGTGATCGCTACGTGATGGCTGAGTTGCTCGCTCGAAACTGGCAGTTGGGAGGGGAGAATTCGGGGCACCTGGTCTGCTGCCAGCACACGACTACGGGAGACGCCATCATTGCGGCGCTGCAGGTGCTCCTGGCACTCAGGCGCCGGGGGCAGACGCTCGCCGAGGCGCGCCAGGGTTTGCGTAAGTGCCCGCAAGTGCTGGTCAATGTGCGCTTTGGTGGGGGAGAGGACCCGGTCGAACATCCGGCTGTTCAGGAGGCCTGCGCGCGAGTGACCGAGCGAATGGCGGGTCGGGGGCGGGTGCTGTTGCGCAAGTCCGGGACGGAGCCGTTGGTGCGGGTCATGGTTGAGGGTGATGACGAGACGCAGGTCCGGGGATATGCCGATGAGTTGGCGAAACTCGTTTCTTCGGTATGTGCTTGA	MGRKYFGTDGIRGHVGQFPITPDFMLKLGWAAGMAFRKQGRCRILIGKDTRISGYMFESALEAGLSAAGADVMLLGPMPTPAIAYLTRTFHAEAGIVISASHNPHHDNGIKFFSGQGTKLPDEVESMIEALLDQPMTVVESAQLGKVSRINDAAGRYIEFCKSSVPSSTDFAGLKLVIDCAHGATYKVAPSVFRELGAHVSVLSAQPNGLNINDQCGSTHMETLQAEVVAQQADLGIAFDGDGDRVLMVDHTGGVVDGDELLYLIARDLMERGKLQGGVVGTLMSNLGLELALEELNIPFVRAKVGDRYVMAELLARNWQLGGENSGHLVCCQHTTTGDAIIAALQVLLALRRRGQTLAEARQGLRKCPQVLVNVRFGGGEDPVEHPAVQEACARVTERMAGRGRVLLRKSGTEPLVRVMVEGDDETQVRGYADELAKLVSSVCA	PGPT0018950_3537	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0018950-glmM-K03431	NA	NA
BMS010_09835	756	tpiA_1	COG0149	Triosephosphate isomerase	ATGCGTCGCCCCCTGGTAGCTGGTAACTGGAAAATGCACGGTACCCGCGCCAGCGTCGCAGAGCTTCTCGATGGTCTACGCCGGTTGGCTGTGCCAAATGGTGTCGAGGTTGCAGTGCTTCCGCCGTTTCTGTTCATCGACCAAGCGCTTAACGCATTGGCAGGTAGCTCAATTGCTATCGGTGCTCAGAACTGTGCGGAAGAGGCCCGGCAGGGCGCGCTGACGGGTGAAATCGCAGCGAGTCAATTGGCGGATGCCGGTTGTGCATGGGTTTTGGTTGGCCACTCCGAGCGTCGCCTGATCATCGGTGAGCGGGACGAGCAGGTCATCCGTAAGTTTGCGGCGACTCAGTCCGTTGGGCTTCGGCCGATGCTCTGTGTGGGGGAAACCCTGGAGCAGCGGGAGGCTGGCAAGACCCTTGAGATTGTCGGTCAGCAATTGGCTTGTGTGATTGAGTCGTTGGGTGTTGCTGTGTTCGAGCGGGCGGTTGTGGCTTACGAGCCTGTCTGGGCTATCGGGACCGGGCTGACCGCAACTCCGCAGCAGGCTCAAGAGGTACATGCGGCAATACGTGCGCAACTGGCGGCAGAAGATGCCGAGGTGGCGCAGGCTGTAAGAATTCTCTACGGCGGCAGCGTAAAAGCGGCCAATGCGGCTGAATTGTTCGGCATGCCGGACATCGATGGGGGGCTCATTGGTGGGGCTTCCCTGAATGCGGATGAGTTCGGCGCTATCTGTTGCGCCGCGGGAAGCTGA	MRRPLVAGNWKMHGTRASVAELLDGLRRLAVPNGVEVAVLPPFLFIDQALNALAGSSIAIGAQNCAEEARQGALTGEIAASQLADAGCAWVLVGHSERRLIIGERDEQVIRKFAATQSVGLRPMLCVGETLEQREAGKTLEIVGQQLACVIESLGVAVFERAVVAYEPVWAIGTGLTATPQQAQEVHAAIRAQLAAEDAEVAQAVRILYGGSVKAANAAELFGMPDIDGGLIGGASLNADEFGAICCAAGS	PGPT0017995_2902	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0017995-tpiA-K01803	NA	NA
BMS010_09836	384	secG	COG1314	Protein-export membrane protein SecG	ATGCTGGAAACAGTCGTTATCGTTATTCATCTGCTGGGTGCTCTGGGTGTCGTTGCCCTGGTTCTGCTGCAGCAGGGGAAGGGGGCTGATGCAGGCGCCTCTTTTGGTTCGGGTGCTTCTGCTACCGTTTTCGGTAGCCAAGGTTCCGCTACCTTTTTGAGTCGTTTTACTGCTATACTCGCCACCGCTTTTTTCTTGACCAGCCTGGGTTTGGCATTCTTTGCTAAAGAAAAGGCTAACGCGCTGAGCGGTGCAGGTCTGCCGGATCCGGCGGTCATGGAGGTTCAAGAGAAGAAGCCGGCGGCGGATGACGTCCCGGTGCTCCAGGAGCAGAAGCCGGCGGATAATTCCGCAGACGTGCCGCAAGCTCCGGAGCAGAAGTAA	MLETVVIVIHLLGALGVVALVLLQQGKGADAGASFGSGASATVFGSQGSATFLSRFTAILATAFFLTSLGLAFFAKEKANALSGAGLPDPAVMEVQEKKPAADDVPVLQEQKPADNSADVPQAPEQK	PGPT0025720_925	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025720-secG-K03075	NA	NA
BMS010_09839	459	rimP_2	COG0779	Ribosome maturation factor RimP	GTGTCGAGCAAGCTAGAACAGTTGCAGGCCTTGTTGGCCCCGGTGGTCGAGGCTCTCGGTTACCAATGCTGGGGTATCGAATTTCTGTCCCAAGGGCGACATTCGCTTTTGCGGGTCTACATCGATCATGCCAATGGCATTTTGGTGGATGACTGCGAGAAGGTCAGCCGCCAGGTAAGTAGTGTCCTGGATGTCGAGGATCCGATCAGTAGCGAATACACCCTTGAGGTTTCCTCGCCGGGCATGGACCGGCCGCTGTTTACCCTGGAGCAGTACGCTGCCCATGCCGGTGAACAGGTGAAGATCAAGTTGCGCTCGCCGTTCGAGGGGCGCCGCAACTTTCAGGGCCTCCTCCGCGGTGTGGAGGAGCAGGACGTGGTGGTGCTGGTGGATGACCACGAATACCTGTTGCCGATCGACATGATCGACAAGGCCAACATCATTCCCCGTTTTGACTGA	MSSKLEQLQALLAPVVEALGYQCWGIEFLSQGRHSLLRVYIDHANGILVDDCEKVSRQVSSVLDVEDPISSEYTLEVSSPGMDRPLFTLEQYAAHAGEQVKIKLRSPFEGRRNFQGLLRGVEEQDVVVLVDDHEYLLPIDMIDKANIIPRFD				NA	NA	NA	NA	NA
BMS010_09840	1482	nusA_2	COG0195	Transcription termination/antitermination protein NusA	ATGAGCAAAGAAGTACTGCTGGTTGTTGAGTCGGTGTCCAATGAAAAGGGCGTGCCGGCTGGTGTGATTTTCGAAGCCTTGGAGCTGGCGTTGGCCACGGCGACCAAGAAGCGTTTCGAGGATGAAGTTGACCTGCGTGTGTCGATCAATCGTCACACTGGCAGCTACGAGACGTTCCGGCGCTGGACCGTGGTCGACGAGGAGGCGTTGGAAAACCCAGCCGCCGAACTCACCGTCGAGCAGGCTCAGGAGCAACAGCCGGGCGCCAAGCTGGGCGATGTGATCGAAGAAAAGATCGAGTCCATCGAGTTCGGCCGTATCGCTGCGCAAACTGCCAAGCAGGTCATCGTGCAGAAGGTCCGCGAAGCCGAGCGTGCCCAGGTGGTCGAGGCTTATCGCGAGCGTCTCGGCGATATCATTTCCGGTACCGTGAAGAAGGTCACCCGGGACAATGTCATCGTCGATCTGGGCAACAATGCGGAAGCTCTGCTGGCGCGCGAAGACATCATTCCGCGCGAGACCTTCCGGGTTGGGGCACGGGTGCGTGCGTTGCTGAAGGAAATCCGTACCGAGAATCGCGGTCCGCAATTGATTCTGTCGCGCACCGCTCCGCAGATGCTGATCGAGCTGTTCCGCATCGAAGTGCCGGAAATCGCCGAAGAACTGATCGAAGTGATGGCTGCTTCCCGCGATCCGGGTTCGCGCGCCAAGATCGCCGTTCGCTCCAAGGACAAGCGTATCGACCCGCAAGGTGCCTGTATCGGCATGCGCGGCTCGCGTGTCCAGGCCGTTTCGGGTGAGCTGGGCGGCGAGCGCGTCGACATCGTGCTGTGGGATGAAAACCCGGCTCAGTTCGTGATCAACGCCATGGCTCCGGCTGAAGTGGCGGCGATCATCGTCGATGAAGATGCCCATGCCATGGACATCGCGGTCGCCGAGGATAACCTGGCCCAGGCCATCGGTCGCGGTGGTCAGAACGTTCGCCTCGCCAGCCAACTGACTGGCTGGACGCTGAACGTGATGACCGAGGCGGACATTCAGGCCAAGCAGCAGGCCGAGACGGGCGATATCCTGCAGCGCTTCATCGACGAGTTGGATGTCGACGAGGAGCTGGCCCAGGTGCTGGTGGAAGAGGGTTTCACCAGCCTGGAAGAGATCGCCTACGTTCCGATGGAAGAAATGCTCAACATCGATGGCTTCGACGAGGACATCGTCAATGAGCTGCGCGCCCGTGCCAAGGACCGCCTGCTGACCAAAGCCATCGCCACCGAAGAAAAGCTGGCGGATGTACAGCCGGCCGAGGATCTCCTGGCCCTCGAAGGGATGGACAAAGAGCTGGCGGTGGAATTGGCGATGCGTGGCGTGGCCACCCGAGAAGACCTGGCTGAGCAGTCGATCGACGACCTGCTCGAGATCGACGGCATGGATGAAGAACGTGCCGGCAAGCTGATCATGGCCGCCCGAGCCCATTGGTTCGAGTAA	MSKEVLLVVESVSNEKGVPAGVIFEALELALATATKKRFEDEVDLRVSINRHTGSYETFRRWTVVDEEALENPAAELTVEQAQEQQPGAKLGDVIEEKIESIEFGRIAAQTAKQVIVQKVREAERAQVVEAYRERLGDIISGTVKKVTRDNVIVDLGNNAEALLAREDIIPRETFRVGARVRALLKEIRTENRGPQLILSRTAPQMLIELFRIEVPEIAEELIEVMAASRDPGSRAKIAVRSKDKRIDPQGACIGMRGSRVQAVSGELGGERVDIVLWDENPAQFVINAMAPAEVAAIIVDEDAHAMDIAVAEDNLAQAIGRGGQNVRLASQLTGWTLNVMTEADIQAKQQAETGDILQRFIDELDVDEELAQVLVEEGFTSLEEIAYVPMEEMLNIDGFDEDIVNELRARAKDRLLTKAIATEEKLADVQPAEDLLALEGMDKELAVELAMRGVATREDLAEQSIDDLLEIDGMDEERAGKLIMAARAHWFE				NA	NA	NA	NA	NA
BMS010_09841	2514	infB_2	COG0532	Translation initiation factor IF-2	ATGACGCAAGTCACGGTGAAAGAACTGGCCCAAGTGGTCGACACACCGGTCGAGCGCCTGCTGCAGCAGATGCGTGAGGCAGGACTGTCGCACACCAGCGCCGAGCAAGTAGTGACCGATAACGAGAAACAAGCCCTGTTGGCTCATCTGAAAAGCAGCCATGGGGAGCGACTCGAAGAGCCGCGCAAGATCACTTTGCAGCGTAAGACCACCACGACTCTGAAAGTGGCGGGCAGCAAGACCATCAGTGTCGAAGTACGCAAGAAGAAGACCTATGTGAAGCGCAGCCCGGCCGAGATCGAGGCCGAGAAGCAACGCGAGCTGGAAGAGCAGCGTGCCGCCGAAGAAGCAGCACGTCTGAAGGCCGAGGAAGAGGCCAAGCGCCAGGCTGAAGAAGAGGCTCGACGCCAGGCAGAGGCCCAGAAGGCTCGCGAAGAAGAAATCGCGAAGGCGCCGGTGAGTGCGGCGGTTGAAGCCGAGCCGGTTGCGCCAGTCGTTGCTCCGGCTCCGGTCGTCGAAGAGCGCAAGAAGGAAGAGCCGCGCCGTGTCGAAAAACCGGCTCGCAGCGACGAAGACGAGCGCCGCGACCGCAAGCATGCCCAGCATCGCCCGTCCCTCAAGGACAAGGCGCCGGCTCCGCGCGTGGCGCCGCGTAGCGCCGACGACGAATCCGAAGGCTTCGGCCGTCGTGGCGGTGGTCGCGGCAAGGCCAAGCTGAAGAAGCGTAACCAACATGGGTTCCAGAGCCCGACAGGACCCATCGTGCGCGAAGTTTCCATTGGCGAGACCATTACCGTTGCAGAGCTGGCTCAGCAGATGGCGGTGAAAGCGGCTGAAGTCATCAAGTTCATGTTCAAGATGGGTTCGCCGGTCACCATCAACCAGGTGCTCGACCGGGAAACTGCGCAACTGGTAGCTGAAGAGCTGGGCCACAAGGTCAAGCTGGTCAGCGACAACGCGCTCGAAGAGCAGTTGGCCGAATCGCTGAAGTTTGAGGGTGAAGCCCAGTCCCGCGCTCCGGTGGTGACTGTCATGGGTCACGTCGACCACGGCAAGACCTCGCTGCTCGACTATATCCGTCGTGCCAAGGTCGCCGCGGGCGAAGCGGGTGGTATCACCCAGCACATCGGTGCCTACCACGTGGAAACCGATCGCGGCATGATCACCTTCCTCGATACTCCCGGCCACGCGGCGTTCACCGCCATGCGTGCTCGCGGTGCGAAGGCGACCGACATCGTGATTCTGGTGGTGGCTGCCGACGACGGCGTGATGCCGCAGACCGAGGAAGCCGTTCAGCACGCCAAGGCGGCCGGTGTTCCGATCGTCGTGGCAGTGAACAAGATCGACAAGCCGGAAGCGGATCTGGACCGGATCAAGAACGATCTGGCCGCCCGTGACGTGATTCCGGAAGAGTGGGGCGGTGATACCCAGTTCGTGCCCGTTTCGGCCAAGGTTGGTACCGGTGTCGACGAGCTGCTCGAAGCCGTTCTGTTGCAGGCCGAGGTACTCGAACTGAAAGCCACTCCGACCGCTCCGGGTCGTGGTGTCGTGGTCGAATCCCGCCTGGACAAAGGCCGTGGCCCGGTGGCTACCTTGCTGGTTCAGGACGGTACCCTGCGTCAGGGCGATATGGTACTGGTCGGCGTCAACTACGGCCGTGTCCGCGCCATGCTCGACGAGAATGGCAAGCCGGTGAAGGAAGCCGGTCCGTCGATTCCGGTCGAGATTCTCGGTCTCGATGGCACTCCGGATGCCGGTGACGAAATGACCGTGGTCGCCGACGAGAAGAAGGCGCGCGAAGTGGCGTTGTTCCGTCAGGGGAAATTCCGCGAGGTCAAACTGGCTCGCCAGCATTCGGCGAAGCTGGAGAACATCTTCGAAACCATGGGCCAGGACGAGAAGAAGACCCTCAACATCGTCCTCAAGGCCGATGTGCGCGGTTCGCTGGAGGCGCTGCAAGGCGCCCTGTCCGACCTGGGCAACGACGAAGTTCAGGTGCGTGTGGTCGGCGGCGGTGTCGGTGGTATCACCGAGAGCGACGCCAACCTGGCGCTGGCCTCCAACGCGGTTCTGTTCGGCTTCAACGTGCGTGCCGATGCCGGTGCACGCAAGATCGTCGAGCAGGAAGGCCTGGACCTGCGCTACTACAACGTCATCTACGACATCATCGAAGACGTGAAGAAAGCGCTCTCCGGCATGCTCGGCAGTGATGTTCGCGAGAACATTCTCGGTATCGCAGAGGTGCGCGATGTGTTCCGCTCGCCGAAGTTCGGCGCCATTGCCGGCTGTATGGTGGTCGAGGGCATCGTTCACCGGAATCGTCCGATCCGCGTATTGCGCGACGACGTGGTGATCTTCGAAGGCGAACTGGAATCCCTGCGCCGCTTCAAGGACGACGTGTCCGAAGTGCGGGCCGGCATGGAGTGCGGTATCGGCGTGAAGAGCTACAACGACGTCAAGGTCGGCGACAAGATCGAAGTGTTCGAGAAGGTCCAGGTGGCGCGCAGCCTCTAA	MTQVTVKELAQVVDTPVERLLQQMREAGLSHTSAEQVVTDNEKQALLAHLKSSHGERLEEPRKITLQRKTTTTLKVAGSKTISVEVRKKKTYVKRSPAEIEAEKQRELEEQRAAEEAARLKAEEEAKRQAEEEARRQAEAQKAREEEIAKAPVSAAVEAEPVAPVVAPAPVVEERKKEEPRRVEKPARSDEDERRDRKHAQHRPSLKDKAPAPRVAPRSADDESEGFGRRGGGRGKAKLKKRNQHGFQSPTGPIVREVSIGETITVAELAQQMAVKAAEVIKFMFKMGSPVTINQVLDRETAQLVAEELGHKVKLVSDNALEEQLAESLKFEGEAQSRAPVVTVMGHVDHGKTSLLDYIRRAKVAAGEAGGITQHIGAYHVETDRGMITFLDTPGHAAFTAMRARGAKATDIVILVVAADDGVMPQTEEAVQHAKAAGVPIVVAVNKIDKPEADLDRIKNDLAARDVIPEEWGGDTQFVPVSAKVGTGVDELLEAVLLQAEVLELKATPTAPGRGVVVESRLDKGRGPVATLLVQDGTLRQGDMVLVGVNYGRVRAMLDENGKPVKEAGPSIPVEILGLDGTPDAGDEMTVVADEKKAREVALFRQGKFREVKLARQHSAKLENIFETMGQDEKKTLNIVLKADVRGSLEALQGALSDLGNDEVQVRVVGGGVGGITESDANLALASNAVLFGFNVRADAGARKIVEQEGLDLRYYNVIYDIIEDVKKALSGMLGSDVRENILGIAEVRDVFRSPKFGAIAGCMVVEGIVHRNRPIRVLRDDVVIFEGELESLRRFKDDVSEVRAGMECGIGVKSYNDVKVGDKIEVFEKVQVARSL				NA	NA	NA	NA	NA
BMS010_09842	387	rbfA_2	COG0858	30S ribosome-binding factor	ATGGCAAAAGAATTCAGCCGTACCCAGCGCATCGGCGACCAGATGCAGCGCGAATTGGCGCTTCTGGTCCAGCGCGAAATCAAGGACCCACGTCTCGGCCTGGTGACCATCACCGCCGTGGACGTCAGTCGCGATCTGTCCCATGCCAAGGTGTTCATCACGGTGATGGGCAAGGACAGCCCTGAGCAGATCGCCCAGAACCTCGAGATTCTCAGCGAGGCCGCCGGCTTTCTGCGCATGCAGTTGGGCAAGGCCATGAAGGTGCGCAGCGTTCCGCAGCTGCACTTCCATTACGACGCCAGCATCCGTCGTGGTGCTGAGTTGTCGGCGTTGATCGAGCGGGCTGTCGCCGAAGACCGCAAGCACCAGGGTGGCGACGAGGAGTAA	MAKEFSRTQRIGDQMQRELALLVQREIKDPRLGLVTITAVDVSRDLSHAKVFITVMGKDSPEQIAQNLEILSEAAGFLRMQLGKAMKVRSVPQLHFHYDASIRRGAELSALIERAVAEDRKHQGGDEE				NA	NA	NA	NA	NA
BMS010_09843	918	truB_2	COG0130	tRNA pseudouridine synthase B	GTGGCTCAGGTAAAACGTATTCGCCGCAACGTCAGCGGTATCCTGGTCCTGGACAAGCCGCGCGGCCTGACCTCTAACGCCGCGCTGCAAAAGGTGCGCTGGTTGTTGAACGCTGAGAAGGCCGGTCACACCGGCAGTCTCGATCCTTTGGCTACAGGGGTATTGCCGCTCTGCTTCGGCGAGGCGACCAAGTTTTCCCAGTACCTGCTGGATGCCGACAAGGGTTACGAAACCTTGATGCAGCTCGGCGTGATTACTTCCACTGGCGATGCGGAGGGCGAAGTGCTCGAGCGTCGCGAGGTGACCGTCGGTCGCCCCGAGCTGGAGGCGCTGCTGCCCCGATTCCGTGGTGAAATCAAGCAGATACCGCCGATGTACTCTGCCCTCAAGCGCGACGGTCAACCGCTCTACAAGTTGGCTCGTGCCGGCGAGGTAGTGGAGCGCGAGGCGCGTTCTGTTACTATTACGCGCTTGGAATTGCTGGCCTGTGAGAATTCGCAGGCGCGGTTGTCGGTGGCCTGCAGCAAGGGAACCTACATCCGCACACTGGTCGAAGACCTTGGCCAGTTGCTCGGTTGCGGTGCCCATGTCGCCGAGCTGCGACGCACCCAGGCCGGGCCTTTCGACTTGGCCCAGGCGGTAAGTCTGGAAGCGCTGGAACAGGCCCACGCCGAAGGCGGCGCCGAGGCGCTGGATCGTTTCCTCCTGCCGGAGGACAGCGGTCTGCAACATTGGCCGCTGCTGCAGCTTTCCGAGCACAGCGCCTATTACTGGCTGCACGGACAGCCGGTACGAGCCCCGGAAGCGCCGAAGTTCGGCATGGTACGGGTTCAGGATCACACAGGTCGCTTCATCGGTATCGGTGAAGTGAGCGATGACGGGCGTATCGCGCCGCGTCGACTGATTCGGTCGGAATGA	MAQVKRIRRNVSGILVLDKPRGLTSNAALQKVRWLLNAEKAGHTGSLDPLATGVLPLCFGEATKFSQYLLDADKGYETLMQLGVITSTGDAEGEVLERREVTVGRPELEALLPRFRGEIKQIPPMYSALKRDGQPLYKLARAGEVVEREARSVTITRLELLACENSQARLSVACSKGTYIRTLVEDLGQLLGCGAHVAELRRTQAGPFDLAQAVSLEALEQAHAEGGAEALDRFLLPEDSGLQHWPLLQLSEHSAYYWLHGQPVRAPEAPKFGMVRVQDHTGRFIGIGEVSDDGRIAPRRLIRSE				NA	NA	NA	NA	NA
BMS010_09845	270	rpsO_2	COG0184	30S ribosomal protein S15	ATGGCACTGAGCGTTGAAGAGAAAGCCCAGATCGTTAACGAGTACAAGCAAGCTGAAGGCGACACCGGTTCCCCGGAAGTGCAGGTTGCCCTGCTGACCGCCAATATCAACAAGCTGCAGGATCACTTCAAGGCCAACGGCAAGGACCACCATTCCCGCCGTGGTCTGATCCGCATGGTTAACCAGCGTCGCAAGCTGCTGGACTACCTGAAGGGTAAGGACACCACTCGTTACAGCGCCCTGATCGGTCGCCTGGGTCTGCGTCGCTAA	MALSVEEKAQIVNEYKQAEGDTGSPEVQVALLTANINKLQDHFKANGKDHHSRRGLIRMVNQRRKLLDYLKGKDTTRYSALIGRLGLRR				NA	NA	NA	NA	NA
BMS010_09846	2109	pnp_2	COG1185	Polyribonucleotide nucleotidyltransferase	GTGAACCCGGTAACCAAGAAATTCCAGTTCGGTCAGTCGACCGTCACCCTCGAGACGGGGCGCATTGCCCGTCAGGCCAGCGGCGCCGTACTGGTCACCATCGATGACGACATCACCGTGCTGGTGACCGTCGTGGCCGCCAAGGCCGCGGACCCGGGCAAGGGCTTCTTCCCGCTGTCCGTCCACTACCAGGAAAAAACCTACGCGGCCGGCAAGATTCCCGGCGGCTTCTTCAAGCGTGAAGGCCGTCCCTCCGAGAAGGAAACCCTCACTTCCCGCCTGATCGACCGTCCGATCCGCCCGCTTTTCCCGGAAGGCTTCATGAACGAAGTGCAGGTCATCTGCACCGTGGTTTCCACCAGCAAGAAGACCGATCCGGACATCGCTTCGATGATCGGTACCTCTGCGGCCCTGGCCATCTCCGGTATTCCGTTCAACGGCCCGGTCGGCGCTGCCCGCGTGGCCTTCCATGAAAGCACCGGCTACCTGCTGAACCCGACCTACGAGCAACTGAAGGCGTCCCGCCTGGACATGGTCGTGGCCGGTACCGAAGAAGCCGTGCTGATGGTCGAGTCCGAGGCTCAGGAACTGACCGAAGACCAGATGCTCGGCGCCGTGCTGTTTGCCCACCAGGAATTCCAGGCCGTGATCCAGGCGGTCAAGGAATTCGCTGCCGAAGCCGGCAAGCCGGCCTGGGACTGGCAGCCGCCGGTGGAAAACACCGCGCTGCTCAATGCCATCCGTGCCGAGTTCGGCGAGGCCATTTCCGAGGCCTACACCATTACCCTGAAGCAGCAGCGTTACGGCCGTCTGGACGAGCTGCGCGAGCAGGTCATTGCCCGCTTTGCCGGCGAGGAAGAAGGCCAGCCGTCGGTCGGTGAGGTCAAGGAAGCTTTCGGCCTGCTGGAATACCGCACCGTTCGCGAAAACATCGTCAACGGCAAGCCGCGTATCGACGGTCGCGACAACCGTACCGTGCGTCCGCTGAAGATCGAAGTCGGCGTGCTGCCGAAGACCCATGGTTCGGCGCTGTTCACCCGCGGCGAAACCCAGGCCCTGGTTGTGGCTACCCTCGGCACCGCTCGTGACGCGCAACTGCTCGACACCCTGGAAGGCGAGCGCAAGGACGCCTTCATGCTGCACTACAACTTCCCGCCGTTCTCGGTGGGCGAGTGCGGTCGCATGGGCAGCGCCGGCCGTCGCGAGATCGGTCATGGCCGCCTGGCCCGTCGTGGCGTACAGGCCATGCTGCCGAAGGACGACGAGTTCCCCTACACCATCCGCGTGGTATCGGAAATCACCGAGTCCAACGGTTCCAGCTCCATGGCTTCGGTCTGTGGCGCTTCCCTGGCCCTGATGGACGCCGGTGTGCCGATGAAAGCGCCGGTGGCCGGTATCGCCATGGGTCTGGTCAAGGAAGGCGACAAGTTTGCTGTACTGACCGACATCCTCGGCGATGAAGATCACCTGGGCGACATGGACTTCAAGGTGGCCGGTACCGCGAATGGCGTGACCGCGCTGCAGATGGACATCAAGATCCAGGGCATCACCGAAGAGATCATGGAAGTCGCCCTGGGCCAGGCCCTGGAAGCGCGCCTGAACATCCTCGGCCAGATGAACCAGGTCATTGGCCAGTCGCGCAGCGAGCTGTCGGCCAATGCTCCGACCATGCTGGCGATGAAGATCGATCAGGACAAGATCCGTGACGTGATCGGCAAGGGCGGTGCAACCATCCGCGCCATCTGCGAAGAGACCAAGGCTTCGATCGACATCGAAGACGACGGCTCGATCAAGATCTTCGGCGAAACCAAGGAAGCGGCCGAAGCTGCAAAGCAGCGCGTGCTCAGCATCACTGCCGAAGCCGAGATCGGCAAGATCTATGTTGGCAAGGTCGAGCGCATCGTCGACTTCGGTGCCTTCGTCAACATCCTGCCCGGCAAGGACGGCCTGGTGCACATTTCGCAGATCAGCGATCAGCGCATCGACAAGGTCACCGACGTGCTGCAGGAAGGCCAGGAGGTCAAGGTCCTGGTACTGGACGTGGACAACCGCGGTCGTATCAAGCTGTCGATGAAGGACGTCGCAGCGGCTGAAGCGTCGGGCGTCTAA	MNPVTKKFQFGQSTVTLETGRIARQASGAVLVTIDDDITVLVTVVAAKAADPGKGFFPLSVHYQEKTYAAGKIPGGFFKREGRPSEKETLTSRLIDRPIRPLFPEGFMNEVQVICTVVSTSKKTDPDIASMIGTSAALAISGIPFNGPVGAARVAFHESTGYLLNPTYEQLKASRLDMVVAGTEEAVLMVESEAQELTEDQMLGAVLFAHQEFQAVIQAVKEFAAEAGKPAWDWQPPVENTALLNAIRAEFGEAISEAYTITLKQQRYGRLDELREQVIARFAGEEEGQPSVGEVKEAFGLLEYRTVRENIVNGKPRIDGRDNRTVRPLKIEVGVLPKTHGSALFTRGETQALVVATLGTARDAQLLDTLEGERKDAFMLHYNFPPFSVGECGRMGSAGRREIGHGRLARRGVQAMLPKDDEFPYTIRVVSEITESNGSSSMASVCGASLALMDAGVPMKAPVAGIAMGLVKEGDKFAVLTDILGDEDHLGDMDFKVAGTANGVTALQMDIKIQGITEEIMEVALGQALEARLNILGQMNQVIGQSRSELSANAPTMLAMKIDQDKIRDVIGKGGATIRAICEETKASIDIEDDGSIKIFGETKEAAEAAKQRVLSITAEAEIGKIYVGKVERIVDFGAFVNILPGKDGLVHISQISDQRIDKVTDVLQEGQEVKVLVLDVDNRGRIKLSMKDVAAAEASGV				NA	NA	NA	NA	NA
BMS010_09847	405	mcpQ_2	COG0840	Methyl-accepting chemotaxis protein McpQ	GTGGTCGCCGACGAGGTACGCGCCCTGGCCAGGCGTACCCAGGCCTCGACGCGCGAGATCGGCGCGCTGATCGAGGGCCTGCAGCAGCGCTCAAAACGCAGCCTGGAGCAGATCGGCGATTGCAGCGCGCTGAGCGAGCAGACCGTGGCCCTGGCCCGCCAGGCGCGTGCCGCGCTGGACGACATCACCGCGGCGGTCTCGCTCAGCGAGCAGATGAACCAACAGATCGCCACCAGCGCCGAACAACAGAGCTGCGTGGCCGACGAGGTCAGCGGCAACGTCGGCCAGATCCGTCACGACGCCGAACGCGCGGCGCAGGCCAATCAGCAGACGCTGACGGCGAGCCAGGAACTCGCCGCGCTGGAACGGCAACTGCGTCAAGCCATCGCCGGATTTCACACCTGA	MVADEVRALARRTQASTREIGALIEGLQQRSKRSLEQIGDCSALSEQTVALARQARAALDDITAAVSLSEQMNQQIATSAEQQSCVADEVSGNVGQIRHDAERAAQANQQTLTASQELAALERQLRQAIAGFHT	PGPT0015710_8877	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_09848	936	aes_2		Acetyl esterase	ATGAAACTACTGCAGACCCTCGTCGCCAAACTGCTGCGCGCCTTCGCCAAACGCATGAAGGCCAGCTTCGTCTGCGACAGCGCGCAGTACCCGCTGCGCGCTCGCGAAACCCGTCATATCGACACGCCGCAAGGGCGCGCCCGGGCGTTGTTCTACTGGCCACTCGCGACCGATGACGCGCCGCTGCCGGTGTACCTCAACCTGCATGGCGGCGGCTTCCTCGCCGGTGTGCCGGAACACGACGACAGCTACTGCCAACGCTTGGCGCACAACCTCGGCTGCCTGGTGGTCAACCTCGACTATGTGCTAGCGCCCGAGCATCCCTTCCCGGCCGGCCTGCGCCAGTGCTTCGCCGTGCTGGAGTGGCTTGCCGAGCAGGCGCCCGAGCTGGGCATCGACCCCTGGCGCATGGCGGTGGGCGGGCACAGCGCCGGCGGCAACCTGGCCACCGGTGTTGCCGCCCTGGCGCGCGGCCATCGACGTCTGCGGCTGGTGCATCAGGTGATCGACTACGCCGCGCTGGACCTGGCCGCGCCGGCCGAGGGCAAGACCTCGGCCCTCGCCAAGCCGCTGCTGCGCCCCGGGCTGATGAACTTCTTCATGAGCTGCTACTTCCGCGACCCGGCACAGGCGCGGGACCCGCTGGCCTCGCCAGCACTGGCCGAGATCGAGCAGTTGCGCGGGCTGCCGCCGGCGACCCTGATCATCGCCGAGTACGACGTGCTGCACGGCGAGGGCCTGGCCTATGCCGCCAAGCTGCGCCAGGCCGGCGTGACGGTGCACGAACGCACCTTCGCCGGCTGCGACCATATGTTCACCCACCTCGGTCCCGACGAGTCCGCCGAGCAGGCCTGGCAACTGATCGAAGACGGCCTGCGCGAAGCCTTCGCCGAGCGCCTGCCGGCCGCGGCGCAGGCCGATCCCGTCAGTTGTTGA	MKLLQTLVAKLLRAFAKRMKASFVCDSAQYPLRARETRHIDTPQGRARALFYWPLATDDAPLPVYLNLHGGGFLAGVPEHDDSYCQRLAHNLGCLVVNLDYVLAPEHPFPAGLRQCFAVLEWLAEQAPELGIDPWRMAVGGHSAGGNLATGVAALARGHRRLRLVHQVIDYAALDLAAPAEGKTSALAKPLLRPGLMNFFMSCYFRDPAQARDPLASPALAEIEQLRGLPPATLIIAEYDVLHGEGLAYAAKLRQAGVTVHERTFAGCDHMFTHLGPDESAEQAWQLIEDGLREAFAERLPAAAQADPVSC				NA	NA	NA	NA	NA
BMS010_09849	723			hypothetical protein	ATGACGCGCGCGGCACTGGTCATGGCGCTGCTGTGTCTGGCGCCGCTGTGCTGGGCCGAGCCGTCGCTGCGTACCCAGGCGCTGCTGCTGACGGCCAACGCCCTGGTGTACTTCGACGCCGACCCGCGCGCCCGTCCCGACGAGCGCCACCTGGTCCGCATGCAGCAGGCCGGGGAGGGCGTGCGTCGTCAGCTTGATGCCAGGCCCTGGCCGGCCGAACTGCGTCAGGCCGGCGAGGCGCTGCTGGCGCGCCAGGCCGCGCTGGCCGCAGTGCCACGCGAGCAGGCGCCGCGCTATCCGCAGCTGCTGGTGGCGCTGCTCGATGCTCGCCTGCAACTGGAGGCGCAGCTGCGCCAGCATGCCGAGGCCGCGACAGCGCCGCGCCAACTGCTGCAACGCCTGAACCAGGCCATCGGCGAGCTGCTGCTGCATGCCCAGGCGCGCAGCGCGCGGGTGCTGGGCGATCACTCGCTCAGCCTCGATCAGAACGGTTTCCTCGCCCTGGACCGGCAGATCGAGGCGGATTTCGCCGCGGCCATCGAACTGCTGCCGACACAGGCCGAGGCGCTGCACAGGCAGCGCCTGGCCTATCGCTTCGTCCGCAAACGCCTGCTCGATGCCGACCCCGGCCAAGTCGACGGCAGCCTGGAACGCTACCTCGGCGGCGTGCTGCTGAGCCTCGATGCGCTGGCCGCCGACCCTATGCTCGATCCCTTGCCATGA	MTRAALVMALLCLAPLCWAEPSLRTQALLLTANALVYFDADPRARPDERHLVRMQQAGEGVRRQLDARPWPAELRQAGEALLARQAALAAVPREQAPRYPQLLVALLDARLQLEAQLRQHAEAATAPRQLLQRLNQAIGELLLHAQARSARVLGDHSLSLDQNGFLALDRQIEADFAAAIELLPTQAEALHRQRLAYRFVRKRLLDADPGQVDGSLERYLGGVLLSLDALAADPMLDPLP				NA	NA	NA	NA	NA
BMS010_09850	2391			hypothetical protein	GTGAAGTTCGAGAATCCAGCCCATGCGGTATCCGGCATGACCGGTAGCCTGAACGACTTCGACCGGCGTTCGGGCAATGCCGTCGAACGCGCCATCTTCAACCATCGCCTGGCGGTGATCCTGCTCTGCCTGCTGGCGACGCTGCTGCTGGGCTGGCAGGCCAGGAGCATCGGCATTAACGCCAGCTTCGAGAAGACCATTCCCACCCAGCATCCCTACATCGCCAACTTCCTCGCCGAGCGCGGCGAGCTGAGCGGCGTCGGCAACGCCCTGCGCATCGCCGTGGCGGCGCAGCAGGGCGACATCTTCGACGCCGCCTATCTGGACACCCTGGCCCGGCTCAACGACGAGCTGTACCTGCTGCCCGGCGTCGACCGGCCCTACATGAAATCGCTGTGGACGCCGACCACGCGCTGGACCGCGGTCACCGAGGAAGGCCTGGACGGCGGCACGGTGATTCCCGACAGCTACGACGGCTCGCCCGCCAGCCTGGAAGAGGTGCGCGCCAACGTCGCGCGCTCCGGCGAGGTCGGCCAACTGGTGGCCGGCGACATGCGTTCCAGCGTGATCTTCCTGCCGCTGCTCGAGCGCAACCCGCAGACCGGCGCGCCGCTGGACTACGCCGAGCTGTCGCGGCAGCTCGAGACGCTGCGCGAGAAGTACCAGGGCGAAGGGGTGAGCATCCATATCACCGGCTTCACCAAGATCGTCGGCGACCTGCTCGAAGGCCTCAGCCAGATGGCGCTGTTCTTCGTCGTCGCGGTGCTGGTCAGCGTGATCATGCTGCTGGCTTACACCCGCTGCCTGCGCAGTACCTTCGTGGTGGTGGCCTGCTCGCTGGTCGGCGTGCTCTGGCAGGTGGGCTTGCTGGCATCGCTGGGCTACGCGCTGGATCCCTACTCGATCCTGGTGCCCTTCCTGGTGTTCGCCATCGGCATGAGCCACGGCTCGCAGAAGATGAACGGCATCATGCAGGACATCGGTCGCGGCCTGCCGCGCCTGGTGGCCGCGCGGATGACCTTCCGCCGCCTGTTCCTCGCCGGGCTGACGGCGCTGATCAGCGACGCGGTGGGCTTCGCCGTGCTGTGGGTGATCGACATCCAGGTGATCCGCGACCTGGCCGTCACCGCCAGCGTCGGCGTGGCGGTGCTGGTACTGACCAACCTGGTGCTGCTGCCGGTGCTGCTCAGCTACACCGGGGTCAGCGCCCGCGCGGCGCAGCGCAGCCTGAGTGATCAGGGCGACGCGCAAGTGCCGCATCCGCTGTGGCGCACCCTGGCGCGTTTCGCCACGCCGCGCTGGGCCATCGCCGCGCTGCTGGCAGGCGCTGCATTGGCGCTGCTGGGCAAGTCGGTCGGCAGCCAGCTGCAGATCGGCGACCTCGACCCCGGCGCCCCCGAGCTGCGCGCCGACTCGCGCTACAACCGCGACGTGCAGTTCATGAACGCGCATTACGCGGCCAGCTCCGACATCTTCGTGATCATGGTGCGCACCGGCGAGGACCAGTGCACCCGCTACGCCACCCTGGCGGCGGTGGACGAACTGGCCTGGCGCCTGGAGCAGCTGCCCGGCGTGGAGTCGACCAACTCCATGGCGGCGCTGAGCAAGATGGCCAGCGCCGGCTACAACGAGGGCAACTTCAAGTGGTACGAGCTGACGCCCAACGAAGGGGCCCTCGGCGCCGTGCAGACCCGCGCCCCGCGTGAGCTGTTCAACCAGGGTTGCTCGCTGCTGTCGCTGTACGTCTACCTGGCCGACCACAAGGCCGCGACCCTGGCGCGGGTGGTGGCCGAGAGCGAGGCGTTCATCGCCGCCCAGTCGCTGCCGGAGGTGAAGTTCATGCTCGCCGCCGGCAGCGCCGGGATCGAGGCGGCGACCAATATCGTGGTCGAGAAGGCCATGCGCGAGATGCTCTACTGGGTCTACGGCGCGGTGATTCTGCTGTGCTGGCTGACCTTCCGCAGCTGGCGCGCGGTGCTCGCGGCGATCCTGCCGCTGATGCTCACCTCGCTGCTGGCCGAGGCGCTGATGGTGGGCCTGGGCATGGGGGTGAAGGTCGCCACCCTGCCGGTGATCGCCCTCGGCGTGGGCATCGGCATCGACTATGCGCTTTACGTGCTCAGCGTGATCCTGGCGCGGATGAAGGCCGGCGATGACCTGGCGCAGGCCTACTACGGCGCGCTGCTGGCGACCGGCAAGGTGGTGCTGCTGACCGGCCTGACCCTGGCCATCGCCGTGGCCACCTGGGTGTTCTCGCCGATCAAGTTCCAGGCCGACATGGGCGTCCTGCTGGCCTTCATGTTCCTGGTGAACATGCTCGGCGCGCTGATCCTGCTGCCGGCGCTGGCCTGGCTGCTGCTGCCGCGTGCGGCGCGCAAGGCGGCGCCCTGA	MKFENPAHAVSGMTGSLNDFDRRSGNAVERAIFNHRLAVILLCLLATLLLGWQARSIGINASFEKTIPTQHPYIANFLAERGELSGVGNALRIAVAAQQGDIFDAAYLDTLARLNDELYLLPGVDRPYMKSLWTPTTRWTAVTEEGLDGGTVIPDSYDGSPASLEEVRANVARSGEVGQLVAGDMRSSVIFLPLLERNPQTGAPLDYAELSRQLETLREKYQGEGVSIHITGFTKIVGDLLEGLSQMALFFVVAVLVSVIMLLAYTRCLRSTFVVVACSLVGVLWQVGLLASLGYALDPYSILVPFLVFAIGMSHGSQKMNGIMQDIGRGLPRLVAARMTFRRLFLAGLTALISDAVGFAVLWVIDIQVIRDLAVTASVGVAVLVLTNLVLLPVLLSYTGVSARAAQRSLSDQGDAQVPHPLWRTLARFATPRWAIAALLAGAALALLGKSVGSQLQIGDLDPGAPELRADSRYNRDVQFMNAHYAASSDIFVIMVRTGEDQCTRYATLAAVDELAWRLEQLPGVESTNSMAALSKMASAGYNEGNFKWYELTPNEGALGAVQTRAPRELFNQGCSLLSLYVYLADHKAATLARVVAESEAFIAAQSLPEVKFMLAAGSAGIEAATNIVVEKAMREMLYWVYGAVILLCWLTFRSWRAVLAAILPLMLTSLLAEALMVGLGMGVKVATLPVIALGVGIGIDYALYVLSVILARMKAGDDLAQAYYGALLATGKVVLLTGLTLAIAVATWVFSPIKFQADMGVLLAFMFLVNMLGALILLPALAWLLLPRAARKAAP				NA	NA	NA	NA	NA
BMS010_09851	1050	hcf136_2		Ycf48-like protein	ATGAAAAGCAAACTCAATGGGCTGGCCGGCCTCGCCCTGCTGCTGTGCGTCGGTGTGGCGGCGCCATCCCTGTATGCGGCGCCGGCGGTACTGGAGCGCGCGGCGCTGCCCAGCGCCAAGGCCGAACGCGCGGTGCTGCTGGGTCTGACCCGCGCCGGGCAGCGCCTGGTGGCGGTCGGCGAACGCGGCATCGTGCTGCTCTCCGACGACGATGGCCAGCACTGGCGCCAGGCCCGCGTGCCGGTCAGCGTGAGCCTGACGGCGGTGCAGTTCGTCGATGCTGAGCGCGGCTGGGCGGTGGGCCATCTCGGCGTGGTGCTGCACAGCAGCGATGGCGGCGAGACCTGGCACAAGCAGCTCGACGGCATCCAGGCGGCCGAACTGGCCCTGCGCGCGGCCGAGGCCAGCGGCGACGCCAAGGCCATCGAGCAGGCGCAGTATCTGGTCGCCGACGGGCCGGACAAACCCTTTCTCGACCTGTATTTCCAGGATGCGCGCATCGGCTACGTGGTCGGCGCCTACAACCTGATCCTGCGCACCGACGACGGCGGGGCCAGTTGGCAACCCTGGATGCAGCATCTGGACAACCCGCAGGCGCTGAACCTCTACGGCATCCGCGCCTGGGGCGGCGAGCTGTACATCGCCGGCGAGCGCGGCCTGCTGCTGCGCTCCAGCGACGGCGGCCAGCACTTCCAGGCGCTGGCCTCGCCCTACGAGGGCAGCTTCTTCGGCCTGCTCGCCGCCCGCGACGGCCTGCTGGCCTACGGCCTGCGCGGCAACGCCTGGTGGTCGAGCGACCGCGGCGCCACCTGGCGGGAGCTGCAGACCGGTGTGGAGTCGGCCCTGGCCGCGGGGCTGGAGCTGGCGGACGGTCGCCTGCTGCTGGCCGGGCAGGGCGGCGAGCTGCTGTTCGCCGATCCGCACGACGGTAGGGCGCAGAGCGCGCCGCTGCGCCTGGCGCCCGGCCTGGCCGCACTGGCCGAGGCCGCCGATGGCAGCCTGACCAGCGCCGGCCTGAGCGGCCTGGCAGCCCGTCAAACCCCGAAATAG	MKSKLNGLAGLALLLCVGVAAPSLYAAPAVLERAALPSAKAERAVLLGLTRAGQRLVAVGERGIVLLSDDDGQHWRQARVPVSVSLTAVQFVDAERGWAVGHLGVVLHSSDGGETWHKQLDGIQAAELALRAAEASGDAKAIEQAQYLVADGPDKPFLDLYFQDARIGYVVGAYNLILRTDDGGASWQPWMQHLDNPQALNLYGIRAWGGELYIAGERGLLLRSSDGGQHFQALASPYEGSFFGLLAARDGLLAYGLRGNAWWSSDRGATWRELQTGVESALAAGLELADGRLLLAGQGGELLFADPHDGRAQSAPLRLAPGLAALAEAADGSLTSAGLSGLAARQTPK				NA	NA	NA	NA	NA
BMS010_09852	1362			putative protein	ATGCACGCAACCAAATTTCTCTCTCTCTCCCTGCTAAGCCTCGCCCTGGCGAGCGGCTCCCTGGCCCAGGCGGCGGTAAGCGCCGACCAGGCCGAACGTCTCAAGGGCGAGCTGACCCCCCTGGGCGGTGAGCGCGCCGGCAACGCCGATGGCAGCATCCCGGCTTGGGACGGCGGTTACACCCAGGCGCCGGCCGGCTACAAGAGCGGCGACAAGCGCCCCGACCCCTTCGCCGGCGAGAAGCCGCTGTACAGCGTCAGCGCCGCCAACATGGGCCAGTACGCCGAGCTGCTGGCCGAAGGCACCAAGGGCCTGCTGAGCAAGTACCCCGACTATCGCCTGGACGTCTACCCGACCCATCGCAGCGCCGCGGCGCCGCAGTGGGTCTACGACAACACCCTGGCCAACGCCACCCGCGCCCAGCTCGACGTGGCCACGGAAAAGGTCAGCGGCGCCTATGGCGGCATTCCCTTCCCGATTCCGCAGAACGGCGCCGAGGTGCTGTGGAACTACCGCCTGTCCTGGCAGGGCGGCGATACCCTCAACGCGCCGTTCGACACCTGGCTGATGACCGCCGGCGGCAAGAAGGTGCAGGCCACCCGTGCGCAGTTCAGCTACCAGTTCCCCTACTACTTCGAGGAGGGCAGCCTGGAGAGCTTCGGCGGTAAGTACCAGTGGGGCAAGCTGTACACCGAGCTGCCGTCGTCCAAGGCCGGCGAGGGCCTGATGACCCACTGGGACGTCGACCCCTCGGCGCGCGCCGCCTGGCAGTACCTGGTGGGCCAGCGCCGGGTGCGCCGCGCGCCGAACATCGCCTACGACACGCCTGACTTCGTTACCTCCGGCGTCGGCCTGTTCGACGAGGCCTTCATGATCTTCGGTCCGACCGATCGGCACGACCTCAAGCTGGTGGGCAAGAAGGAACTGTTGGTGCCCTACAACAACAACCGCGCGGCGCTGGCCAAGAGCGACGAGCTGGTGCAGCCGCGTTTCCTCAACCCGGACCTGGTGCGCTGGGAGAAGCACCGCGTGTGGGTCGTCGAGGCCACCCTCAAGGCCGGCAAGCGCCATGTGGTGCCGCGCCGCACCTACTACGTCGACGAGGATTCCTGGCAGGTGCTGCTGATCGACGGCTACGACGCCCAGGGGCGCCTGGGCCGGCAGATCTACAGCCTGACTCTGCTGGCGCCGGACATGCCGGTACTCACCTCGCAGGTGATGTGGGGCAGCTACAACCTCGATACCGGCGCCTACTTCCTCAACGCTTCGAGCAACGACCTGAACGTGCAGTACCACACGATGGCGCGGCCTTCGGCCTCGTTCTACACCCCCGACGCCATGGCCAACTCCAGCGCGCGCTGA	MHATKFLSLSLLSLALASGSLAQAAVSADQAERLKGELTPLGGERAGNADGSIPAWDGGYTQAPAGYKSGDKRPDPFAGEKPLYSVSAANMGQYAELLAEGTKGLLSKYPDYRLDVYPTHRSAAAPQWVYDNTLANATRAQLDVATEKVSGAYGGIPFPIPQNGAEVLWNYRLSWQGGDTLNAPFDTWLMTAGGKKVQATRAQFSYQFPYYFEEGSLESFGGKYQWGKLYTELPSSKAGEGLMTHWDVDPSARAAWQYLVGQRRVRRAPNIAYDTPDFVTSGVGLFDEAFMIFGPTDRHDLKLVGKKELLVPYNNNRAALAKSDELVQPRFLNPDLVRWEKHRVWVVEATLKAGKRHVVPRRTYYVDEDSWQVLLIDGYDAQGRLGRQIYSLTLLAPDMPVLTSQVMWGSYNLDTGAYFLNASSNDLNVQYHTMARPSASFYTPDAMANSSAR				NA	NA	NA	NA	NA
BMS010_09853	1629			hypothetical protein	ATGAACAAGCAACCTTGCAGCACGGGTTTCGCCCGCTCCACCCTGGCCTTGGCCATCTGCCTGGCCGGCGCCCAGGCCCAGGCGATGCAGATCGACCTTGGCGACAGCGACTGGCAACTGCGCTGGGACAACACCTTCAAGTACAGCCAGGCCTGGCGCCTGCACCGCGCTGACGAGCGCCTGACCAACGCGCCCACCGCCGGCGGCCTGTACCCCTCGATCCAGAGCCAGGGCGATAACAACTTCAGCCGCGGGCTGGTTTCCAACCGCCTGGACATCCTTTCCGAGCTGGATCTCAGCCACCGCAACTACGGCCTGCGCGTGAGCGGCGCGGCCTGGTACGACCGCGTCTACAACGAGGACACCGACAGCAGCGAGCAGCCGCACTTCCTATCCAAGACCCGCGATCTGCACGGCCGCGACGCCGAGCTGCTGGACGCCTTCGTCTACCTGCGCGGCGAGTTGGGCGAGAGCTCCCAGGGCGTGCTGCGCCTGGGCCGCCACAGCCTGGTCTATGGCGAGAGCCTGTTCTACGGCAGCAACGGCATCGGCGCGGCCCAGGGGCCGACCGACGTGGTCAAGCTGCTCAGCGTACCCGGTACCCAATTCAAGGAAATCCTGCGGCCGGTCAACCAGATCTCCGGACAGCTGCAGATCAACCCGCAGCTCTCTGTCGGCGCCTACTACCAGTTCGAGTGGGAGCGCTCCACTGTTCCCGGGGCCGGCAGCTACCTGAGCGACAACGACGCCATCGGCGATGGTTCCGGTTCGCTGATCGACATCACCGGCGGCGCCACCGTGCATGCCAGCGATCTCGAGGCCAGGGACGGCGGCCAGGGTGGCGTGCAACTGCGCTTCAAACCCGCAGGCACCGAGCTGGAGCTGGGCCTGTACGCCGCCAAGTACCACGACAAGGCGCCCAGCGGGCTGTACGGCTACGTCAATACGGCCGGGCCATCACCGATTCTCGCCTCCTACCGCCAGGTGTTCGCCGAGGACATCAAGACCGTCGGCGCCAGCTTCTCCACCGCCCACGGCGACTTCAACTTCGCCGGCGAGGCCTCGCTACGCTGGGATGCGCCGCTGGTCAGCAACCTGCAGGTGGTGCTGCCGGGCATGCTCGCCGACAACGCGGACGACGCGCTGTACGCCAGGGGCCGCACCGCCCACGTCAACCTCTCGACCATCTACCTGCTGCCGCCTTCGGCCTTTTGGGACGGCGGTTCGATCCTGGCCGAACTGGCCTGGAACCGCACCCTGAGCGTCACCGACAACCGCGACGCGCTGGACAGCAACACCACCCGCGACGCCACCGCGCTGCGCGTGCTGGCCGAGCCGGCCTACTTCCAGATCGCCGACGGCCTCGACCTCAGCGTGCCGATCGGCGTCGGCGTGGTGCTCGACGGGCGCTCCTCGGCGGTGAGCAAGGCCGGCTTCGGCAACAGCCACGCCGGCGACTGGAGCGTGGGGCTCAAGGCTACCTACCTGCAGCGCTGGGAGATGGGGGTGAACTACGTGAACTTCTTCGGCGCACCGGGCGCCGGCCTGCGCGAGGACGGCAACTTCAGCTACCAGCAGTCGCTGGCCGACCGCGACTTCGTCTCGCTCTACGTGAAAACGACCTTCTAA	MNKQPCSTGFARSTLALAICLAGAQAQAMQIDLGDSDWQLRWDNTFKYSQAWRLHRADERLTNAPTAGGLYPSIQSQGDNNFSRGLVSNRLDILSELDLSHRNYGLRVSGAAWYDRVYNEDTDSSEQPHFLSKTRDLHGRDAELLDAFVYLRGELGESSQGVLRLGRHSLVYGESLFYGSNGIGAAQGPTDVVKLLSVPGTQFKEILRPVNQISGQLQINPQLSVGAYYQFEWERSTVPGAGSYLSDNDAIGDGSGSLIDITGGATVHASDLEARDGGQGGVQLRFKPAGTELELGLYAAKYHDKAPSGLYGYVNTAGPSPILASYRQVFAEDIKTVGASFSTAHGDFNFAGEASLRWDAPLVSNLQVVLPGMLADNADDALYARGRTAHVNLSTIYLLPPSAFWDGGSILAELAWNRTLSVTDNRDALDSNTTRDATALRVLAEPAYFQIADGLDLSVPIGVGVVLDGRSSAVSKAGFGNSHAGDWSVGLKATYLQRWEMGVNYVNFFGAPGAGLREDGNFSYQQSLADRDFVSLYVKTTF				NA	NA	NA	NA	NA
BMS010_09854	768	calA_2		Coniferyl-alcohol dehydrogenase	ATGAACCTGAGTGGCAAAACCCTGGCGGTGACCGGGGTCTCCTCCGGCATCGGCGCCGAGACCGCGCGCCTGCTGCGCTTTCACGGCGCGCGGGTGATCGGCCTCGATCGCAACCCGCCGCACCTGACGCTGGACGGCTTCGTCCAGATCGACCTGGCCTCTCCGCAGGCCATCGACCAGGCGCTGGACCAACTGCCGGCGCGCCTCGACGGCCTGTGCAACATCGCCGGGGTGCCCGGCACCGCCGCGCCGGAGCTGGTGGCGCGGGTCAACTACCTCGGCTTGCGTCACCTGTGCAGCGCCTTGCTGCCGCGGATCGCCGCTGGCGGCAGCATCGTCAACATCGCCTCGATCCTCGGCGCCGAATGGCCGCTGCGCCTGGAGCAGCACAAGGCCCTGGCCGCCACCACGAGCTTCGCAGACGGCGAAGCCTGGCTGGCGGCCAATCCGCCGGCCGCCGACCAGGCCTACCAGTATTTCAAGGAAGCCTTGATCGTCTGGAGCATCACTCAGGCCCAGCCCTGGTTCCTGAAACACTCGGTACGGATGAACTGCGTGGCACCGGGCCCGGTGTTCACCCCGATTCTCGACGACTTCGTCGCCATGCTCGGCGCCGAGCGCACCAGCGCCGACGCCCACCGCATCAAGCGTCCGGCCTACGCCGACGAGGTGGCGGCGGCGATCGCCTTCTTCTGCGCCGACGAGTCGCGCTGGATCAACGGCGTCAACCTGCCGGTCGACGGCGGGCTGGCCTCCACCTACCTCTGA	MNLSGKTLAVTGVSSGIGAETARLLRFHGARVIGLDRNPPHLTLDGFVQIDLASPQAIDQALDQLPARLDGLCNIAGVPGTAAPELVARVNYLGLRHLCSALLPRIAAGGSIVNIASILGAEWPLRLEQHKALAATTSFADGEAWLAANPPAADQAYQYFKEALIVWSITQAQPWFLKHSVRMNCVAPGPVFTPILDDFVAMLGAERTSADAHRIKRPAYADEVAAAIAFFCADESRWINGVNLPVDGGLASTYL				NA	NA	NA	NA	NA
BMS010_09855	1683	xylC		Benzaldehyde dehydrogenase [NAD(+)]	TTGCCATCGCGGCCCGCCGGTGGCGCTGCCAGTCGCCTCTCGTCCACGCCCCAAAGCCCATTGCAGAGCCTTTGCGCCATCGCCGGCGAGCCCAGCGCGAACAAGCGGCATGGCGCTTGCTCCTACCCCCTCAAGCGCGAGCCGGCTGAGCAAATGGCGAAGCCGGGCGGGCAGGGCAATGACAATCACAAGAGCCAGGAGTGCGAGATGCCGGCAACCCATGACAACAGCTTTCTGCGCGAGATGCAGTGGCGCGAACAGATCTTCAACGGCGCCTGGATACGTCCGCTGGGCGGGGTCAACCCGGTGCGCGAGCCGGCCACCGGCGACGCGCTGACCAGCACCGGCATGGCCGATGCCGCCGACATGGCCAGCGCCTGCCTGGCCGCCGCCCGCGCCCAGCCGGCCTGGGCCGCGCTCGAGCCGCGGGCCAAGGCGCAGATCTTCCGCGCCGCCGCCGGCCATGCCGAGGCCAACTTCGACGAGCTGGCGACCTTCGTCGCCCGCGAGACCGGCGGCAGCCTGCTCAAGGGCAGCCACGAGGTGCGCGAGGCCATCGTCCTGCTGCACCAGGCCGCCGGACTGCTGGCGCAGCCGCACGGCCTGGTGCTGCCCAGCGGCGCCGGGCGCCTGTCCTATGCGCGGCGCGTGCCGCATGGGGTGGTTGGGGTGATCTCGCCGTTCAACTTCCCGCTGGTGCTGTCGCTGCGCTCGGTGGCGCCGGCGTTGGCCGCCGGCAATGCGGTGGTGCTCAAGCCCGACCCGCAGACGCCGGTCAGCGGCGGCTTCCTCATCGCCCGGCTGTTCGAGGCCGCCGGCCTGCCCAAGGGGCTGCTGCAGGTGCTGCCCGGCGGCGTCGAGGCGGGCGAGGCGCTGTGCCGCGACAGCCACGTCGGCATGATCGCCTTCACCGGCTCCACCGCGGCCGGGCGCAAGGTCGCCGAAACCGCCGGGTGCACCCTGAAGAAGGTGGCACTGGAACTGGGCGGCAAGAACTCGCTGATCGTGCTCGAGGATGCCGACCTGGAACTGGCGGCGAGCAACGCCGCCTGGGGCGCCTGGCTGCACCAGGGGCAGATCTGCATGGCCACCGGGCGCATCCTCGCGCATTCCTCCATCGCCGCCGAGCTGACCCGCCTGCTGGTGCAGAAGGCCAAGGCCCTGCGCGTCGGCAATGCCGCGCGCGGCGAGGCCGAGATCGGTCCGCTGATCAACGAACGTCAGCGTCAGCGCGTGGTGGACATCGTCGAAGCCAGCGTCGCCGCCGGTGCCTGCCTGGAAGCCGGCGGCCCGGGCGACGGGCTGTTCTACCTGCCCAGCGTGCTGTCCGGGGTGCGCCCGGGCATGGCCGCCTTCGAACAGGAAATCTTCGGCCCGGTGGCCTGCGTGGTGGCCTTCGACGACGACGACGAGGCCGTGCAGCTGGCCAACCAGACCGAGTACGGCCTGTCGGCGGCGGTCATCTCGCCCTCGGTGGGGCGCGCCATGGCCATCGGCGAGCGGCTCAAGTGCGGCCTGCTGCACATCAACGACCAGACCGTGGCCGACGAATGCAGCAACCCCTTCGGCGGGCGCGGCGACTCGGGCAACGGCGGCAGCGTCGGCGGCCCAGCCGACTGGGACGAATACACCCAATGGCAGTGGGTAACGGTCAAGGACACGCCGCCGCGCTACCCCTTCTGA	MPSRPAGGAASRLSSTPQSPLQSLCAIAGEPSANKRHGACSYPLKREPAEQMAKPGGQGNDNHKSQECEMPATHDNSFLREMQWREQIFNGAWIRPLGGVNPVREPATGDALTSTGMADAADMASACLAAARAQPAWAALEPRAKAQIFRAAAGHAEANFDELATFVARETGGSLLKGSHEVREAIVLLHQAAGLLAQPHGLVLPSGAGRLSYARRVPHGVVGVISPFNFPLVLSLRSVAPALAAGNAVVLKPDPQTPVSGGFLIARLFEAAGLPKGLLQVLPGGVEAGEALCRDSHVGMIAFTGSTAAGRKVAETAGCTLKKVALELGGKNSLIVLEDADLELAASNAAWGAWLHQGQICMATGRILAHSSIAAELTRLLVQKAKALRVGNAARGEAEIGPLINERQRQRVVDIVEASVAAGACLEAGGPGDGLFYLPSVLSGVRPGMAAFEQEIFGPVACVVAFDDDDEAVQLANQTEYGLSAAVISPSVGRAMAIGERLKCGLLHINDQTVADECSNPFGGRGDSGNGGSVGGPADWDEYTQWQWVTVKDTPPRYPF	PGPT0005405_70	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_BENZALDEHYDE_DEGRADATION,PGPT0005405-xylC-K00141	NA	NA
BMS010_09856	1758	mopR		Phenol regulator MopR	ATGGATAGTCCCAAGCTTCCCTTTGTCGATCTGTTCCAGGGCGAGGCCCTGGACGACCTGCGCGGCGACGCCTCGCAGCTGCAGGACAGCCAGTCGCCGACCCTGGCCGAGCTGGCCGAGTGCCTGTTCTTCTCCCCCGAGGACGGGCGCATCTGGCTCAACGACCAGCGCATGCTGCTGTTGCACAGCTCCTCGTTCGGCGCCCTGCGCCGCGAGATCATCGACAGCCAGGGCTTGGAGCAGGCGCGCGGCCTGTTCACCCGCACCGGCTATCTGTCCGGCGCGCGCGATGCGCGGCTGATCCGCACGCGCTGGCCGCAGGCCGACGCCGCCTCGGTGTTCTACGCCGGCACCCGCCTGCATACCCTCGAAGGCATGACCAAGGTGGAGACCCTGCATTTCAAGTTCGACGCCGACAGCGGCTTCTACGACGGCGAATTCCTCTGGCACCACTCCTGCGAGGCCGACGAGCACATCGCCGCCCACGGCATCGGCCAGGACCCGGCCTGCTGGACCGAGCTGGGCTACGCCATCGGCTACGTCAGCGGGCTGTTCGGCCGCTTGGTGATCTTCCGCGAGGTGGAATGCCGCGCCATGGGCCACAAGGTCTGTCGGGTGATCGGCAAGACCGCCGAGCAATGGGGCGACGTCGAGGACGATCTGCGCTACCTCAGCGCCGGCAGCGCGCCGCGCCCCGCCGCCACCGCGGTGACGGCCAACTACGCCGAAGCGCCGGTGGCCGGCGAGCAGCAGCCCATCGGCGCCAGCGCCGCCTTCAACGCCGCCACCCACGCGCTGCGACGAGTGGCGCCAACCCCGGCGACGGTGCTGATCAGCGGCGAATCGGGCGCGGGCAAGGAACTCTTCGCCCGTGAGCTGCACCGCCTGAGCCCGCGCCGCGGCGGCCCCTTCGTCGCGCTGAACTGCGCGGCGATTCCGGAGAACCTGATCGAGGCCGAACTGTTCGGCGTCGAGCGCGGCGCCTACACCGGCGCCAGTCACTCGCGCGCCGGACGCTTCGAGCGTGCCCACGGCGGCACCCTGTTTCTCGACGAGATCGCCTGTCTCAGCCTGCCGGGCCAGGGCAAGCTGCTGCGCGCTCTGCAGGAACGGGAGATCGAGCGGGTCGGCGGTATCCAGGCGATTGGCGTCGACGTGCGGGTGGTGGCCGCGACCAATATCGATCTGCGCCAGGCGGTAAAGGCCGGCGAGTTCCGCGAGGACCTGTTCTACCGGCTGAATGTCTACCCCATCAGCCTGCCGCCGCTGCGCGAGCGCCGCGACGACATTCCGCTGCTGGTCAACGCCTTCCTCCTGCGCTACTGCCAGGACTACGGCCGCACCCCGGCCGGGCTGACCATGCGCGCGCTCAAGGCGCTGCTGCTGTACGACTTCCCCGGCAACGTACGGGAGCTGCAGAACCTGGTCGAGCGCGGCCTGATCGCCAGCGACGAGGGCCGCCCCATTGACCTGGTGCACCTGTTCCACAACGAGCCGCTGCCGCCGCAGCTGTATTCGATCAGCGAGGGCGGCACCCTGACCAGCGCAGCCGAGCCGCCCGGCGCCGAGGCCTCGCTGCTCGACCGTTTGCAGGAATTGCAGATCAGCCCGGATATCGACCAGCTGGAACGGCGCCTGCTGGACGAAGCCATGAGCCGCGCCGAAGGCAACGTCGCCGCCGCCGCACGCCTGGTGGGTCTGAGCCGCGCCCAGTTCGCCTATCGACTGAAGAAGCATGGCGATGGCGAAGCGGGCTGA	MDSPKLPFVDLFQGEALDDLRGDASQLQDSQSPTLAELAECLFFSPEDGRIWLNDQRMLLLHSSSFGALRREIIDSQGLEQARGLFTRTGYLSGARDARLIRTRWPQADAASVFYAGTRLHTLEGMTKVETLHFKFDADSGFYDGEFLWHHSCEADEHIAAHGIGQDPACWTELGYAIGYVSGLFGRLVIFREVECRAMGHKVCRVIGKTAEQWGDVEDDLRYLSAGSAPRPAATAVTANYAEAPVAGEQQPIGASAAFNAATHALRRVAPTPATVLISGESGAGKELFARELHRLSPRRGGPFVALNCAAIPENLIEAELFGVERGAYTGASHSRAGRFERAHGGTLFLDEIACLSLPGQGKLLRALQEREIERVGGIQAIGVDVRVVAATNIDLRQAVKAGEFREDLFYRLNVYPISLPPLRERRDDIPLLVNAFLLRYCQDYGRTPAGLTMRALKALLLYDFPGNVRELQNLVERGLIASDEGRPIDLVHLFHNEPLPPQLYSISEGGTLTSAAEPPGAEASLLDRLQELQISPDIDQLERRLLDEAMSRAEGNVAAAARLVGLSRAQFAYRLKKHGDGEAG	PGPT0004315_45	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK_HOMEOSTASIS,PGPT0004315-zraR|hydG-K07713	NA	NA
BMS010_09857	474	slyA_5		Transcriptional regulator SlyA	ATGGCCAGAACCCCCATCCCGAGCGAAACCCTCCCCGACCAGGCGGTGCTCGACCGAGAGCTGGAAAGCTACCTCGGCTACGTGCTGCGCCGCGCGCAAATGAAGGTGTTCCAGCACCTCTCGGCGCGCCTGGAGCCCTTCGACCTGCGCCCGGCGCAGTTCACCGCGCTGGTCATCATCGAGCAGCACCCCGGCCTGATGCAGGCCGACTTGGCGCGCGCCCTGGCCATCGAGCCGCCGCAGGCGGTGGTGCTGGTCAACAAGCTGGAGAAGCTCGGCCTGGCCATGCGCCTGCGCTGCAAGCCGGACAAGCGCTCCTACGGCATCTTCCTGAGCAAGGCGGGGGAAACCCGGCTCAAGGAGCTCAAGCAACTGGCCGCACAGAGCGACCTTGAGTCGACGGACTCGCTCAACGCGCAGGAACGCGAACAACTGCTAGCACTACTGCGCAAGCTGTACCGGGAAAGCCATTGA	MARTPIPSETLPDQAVLDRELESYLGYVLRRAQMKVFQHLSARLEPFDLRPAQFTALVIIEQHPGLMQADLARALAIEPPQAVVLVNKLEKLGLAMRLRCKPDKRSYGIFLSKAGETRLKELKQLAAQSDLESTDSLNAQEREQLLALLRKLYRESH				NA	NA	NA	NA	NA
BMS010_09858	210			hypothetical protein	ATGGCACTCACAGATACGGCCATTCGCATGGCCAAACCCGCCAACAAAAACTACAGCCTAAATGATGGCGATGGCCTGTCGCTGTTCGTCGGTGCCAACGGCGCCAAACATTGGCATTTCCGCTTTTCCTGGCATGGTGGCAAGCAGCCGCGCATTTTCCTTCGGTACCTATCCGGACGTCAGCCTCAGACAGGCCCGCCAACCGCGTGA	MALTDTAIRMAKPANKNYSLNDGDGLSLFVGANGAKHWHFRFSWHGGKQPRIFLRYLSGRQPQTGPPTA				NA	NA	NA	NA	NA
BMS010_09862	771			hypothetical protein	ATGTCTCCGCTCTTGATTACAGGTTTGATCGTCGCCGGCATCGCTTTGCTGATCGCTATCGCTTATATCAATAACCTGGTTGAGAACAGCAAGCTCGAGAAAGCCCGCCAGAGAGCCGACCTAAGCGATCGCCTGCGCCGCTGCGCCGACCTGTCGGAGACGCTTCCCGGTCAGTTGATGACGCCGGCGCTCAAGCTGCTGCTCAGCCGTCTGGAACTGCAATTCGCCGAACGCCTACTGCCCCTAGACAAGGGCAACTCCACTCTCAAGACACGCATCGACGCACTCAATGGCCTGCTCGCCCAGGGCGAATCCATTCCGGTCCGCAACGCTCCGCAAACCGTGGCGGCGGAAGCCACGGCGAAGGAAATCCGCTTTCAACTGGAGGGGCTGCACGGCATGGTCGTCCGCTCCGCACAGGAGAACCTGCTACCGGCCAATGACGCCAAGCACTGGGTAAAGGAAATCCGCCAGATGCTGGTGCGCACGAACGTCGAATTGTTCGGCAACGTCGGCAAGCAAGCCCTTCAGCAGAACCAGCCACGCCAGGCGCGCCTGGCTTTCGAGCGCGGCGTGCAATACCTGCGCAAGCAGAATGATCCGGGGACTTACAAAGCCCAGCTACAGCAGTTCGAGCAACTCCTGGCCCGCGCCAATGCCTTGGTCCTGGAAACAGCCAAGCCAACGGACGACGAACCCACCGAGCTGACCGAAGGCCTGAAGTCCCTGGAAGACGAAGACGACTGGAAGAAAAAGAACATCTACGATTGA	MSPLLITGLIVAGIALLIAIAYINNLVENSKLEKARQRADLSDRLRRCADLSETLPGQLMTPALKLLLSRLELQFAERLLPLDKGNSTLKTRIDALNGLLAQGESIPVRNAPQTVAAEATAKEIRFQLEGLHGMVVRSAQENLLPANDAKHWVKEIRQMLVRTNVELFGNVGKQALQQNQPRQARLAFERGVQYLRKQNDPGTYKAQLQQFEQLLARANALVLETAKPTDDEPTELTEGLKSLEDEDDWKKKNIYD				NA	NA	NA	NA	NA
BMS010_09863	666	fzlA_2		FtsZ-localized protein A	ATGAGACTGACCGTCTATGGAGCTCCGCTCTCTCCGTTCGTACGCAAGCTACGTCTGTGCCTGATCGAGAAAGGGTTGGAGTACGACCTGCAGATGATCGTGCCGCACGATCAACCGGACTGGTATCACGAACTCAATCCCCTGCGAAGAATCCCAGCCCTCAAGGACGACGATCTGACCCTCGCCGACTCCAGCGTGATCTGCCAGTACCTGGAAGATCGCTATCCCGATCTGCCACCGCTGTACGGCAATGATCCCGTCGAGACCGCCCGCATTCGCTGGCTGGAAAAATATGCGGATTACGAACTGGCGCCGCTCACCACCTTCTGCATATTCCGTAACCGCGTGCTGAAACCGACCATGGGCAAGGCCTGCGACGAAGACGCCATTCGCGATGCGCAAGACAAGCTCCCGGCTCATTTCGACTATCTGGAGGGAGCGCTCGGCGATGCACCCTATTTCACGGGCGAAACGCTGAGCATGGCCGACCTGGCTATCGTCAGCCAATTGATCAACATGGAGCATGGCGGCGAGCGGCTCGACGAAGGCCGCTGGCCCAATCTCGCGGCCCTCTATCAGCGAATCAAGGGACGCGCCTCGGTGCAGAGCGTCCTTCCGGGAGAACAACGAACACTCGCCAAACTGAGCGCCCTGGCAACACGCTGA	MRLTVYGAPLSPFVRKLRLCLIEKGLEYDLQMIVPHDQPDWYHELNPLRRIPALKDDDLTLADSSVICQYLEDRYPDLPPLYGNDPVETARIRWLEKYADYELAPLTTFCIFRNRVLKPTMGKACDEDAIRDAQDKLPAHFDYLEGALGDAPYFTGETLSMADLAIVSQLINMEHGGERLDEGRWPNLAALYQRIKGRASVQSVLPGEQRTLAKLSALATR	PGPT0013170_10358	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS010_09864	483	msrC	COG1956	Free methionine-R-sulfoxide reductase	ATGATCGATCTGCAACGGAGCGGCGAAGGCCTGGAAGGCTACGCGTTGCTCGCCGCACAACTGGAAGCGCTGCTGGCGGACGAGCGCGATTTCGTGGCTAATGCCGCTCAGTTCGCGGCGTTCCTTTTCCATGAACTGGAAGGGTTGAATTGGGCCGGCTTTTATCTCAACCGCGATGAGGAACTGGTGCTCGGTCCTTTCCAGGGCAAGGTTGCCTGCGTGCGGATTCCCTTTGGCAAAGGTGTCTGCGGTGCTGCCGCAGCCAGCCGCACGACGCAGCGGGTCGAGGATGTGCACGCGTTTCCAGGACATATCGCCTGTGACAGTGCCTCCAATAGCGAACTGGTGGTGCCGCTGGTGAAAGACGGACGCCTGATCGGCGTGCTGGACCTGGATAGCCCGCGGCAGGCACGTTTTTCCGAAGAGGATCAGGCCGGCATCGAACGGCTTGCGGCCATTTTCCTGCGCCTGACCGAGTGCTGA	MIDLQRSGEGLEGYALLAAQLEALLADERDFVANAAQFAAFLFHELEGLNWAGFYLNRDEELVLGPFQGKVACVRIPFGKGVCGAAAASRTTQRVEDVHAFPGHIACDSASNSELVVPLVKDGRLIGVLDLDSPRQARFSEEDQAGIERLAAIFLRLTEC				NA	NA	NA	NA	NA
BMS010_09865	891			hypothetical protein	ATGGATACTCGTTTGGTTGCATTTCTGGAACGGGTCGAAACCGTTCTCAATCGTCTGGAACCCTTGCTACCGGTGGAGCGCCCTGCGCTCGACTGGAGCCGCCATCTCGCCGCCCGTTGGCAGCGCGAAGGGCAGGGCGGCTATCTGCTGCCGCTTACGGTCGATCTGGACCTCAACCTGTCCGACCTGATCGGCGTGGACAAGCAGCGTGAACAACTGGCGCGTAATACCCGTCAGTTCATCGACGGCCTGCCGGCCAATCACGCCTTGCTATGGGGCGCACGGGGGACCGGCAAGTCGTCGCTGGTCCGCGCACTGCTCGCCGAACATGCGGGTGTGGGGCTGCGCCTGATCGAGATCGAGCGCGACCATCTCGCCGATCTGCCGCGTGTCGTGGAACATCTGGCCGGCCTGCCGCAGCGCTTCGTGTTGTTCTGCGATGACCTTTCCTTCGAATCGGGGGAAGGGGATTACCGGGTACTCAAGAGCGTACTGGATGGCTCGCTGGAGCGTGCCCCGGCCAACGTGTTGCTCTACGCCACTTCGAACCGTCGTCATCTGGTACCCGAGAAACAGAGCGACAACGAACATTGGCAAATGGTGGATGGCGAACTGCACCCGAACGAGGCGGTGGAGGACAAGATCGCCCTGTCCGACCGTTTCGGACTCTGGCTATCGTTCTATCCCTTCAGCCAGGAGCATTTCCTCGATGTCGTCCGGCATTGGATCGGCGTGCTTGCCGAGCAGTCGGGGCTGAAATGGGGCTGGAGCGAGGAACTCGAAAAAGCGGCAATCCGCTGGGCGCTCGGTCGTGGTAATCGCAATGGCCGTTGCGCCTATCAATTCGCCCGCGATTGGGTGGGCCTGAAACTCCTGGAGAACCCGGCATGA	MDTRLVAFLERVETVLNRLEPLLPVERPALDWSRHLAARWQREGQGGYLLPLTVDLDLNLSDLIGVDKQREQLARNTRQFIDGLPANHALLWGARGTGKSSLVRALLAEHAGVGLRLIEIERDHLADLPRVVEHLAGLPQRFVLFCDDLSFESGEGDYRVLKSVLDGSLERAPANVLLYATSNRRHLVPEKQSDNEHWQMVDGELHPNEAVEDKIALSDRFGLWLSFYPFSQEHFLDVVRHWIGVLAEQSGLKWGWSEELEKAAIRWALGRGNRNGRCAYQFARDWVGLKLLENPA				NA	NA	NA	NA	NA
BMS010_09866	2322	rcsC_31		Sensor histidine kinase RcsC	ATGGATATATCCCTCACCAACCGCTTGTCATTCAAACAAGCCAGCTTGACGGTGCTGGTCGCGTTCATCCTGGGGACGTTGCTCAGCCTAATTCAGGTGGGCATCGATTATGCCAGCGAAGACGCCTCCATCAACCGCGAGATTCGCTCGCTGCTCGAAATCAGCCACAACCCGGCGGCCCGCATCGCCTATAACATCGACGCCGAACTGGCCCAAGAACTCGTGCTCGGCCTGCTCCGCTCGCCGGCCGTGATACGGGCTGAAATCGTCGACAACAGCGGCGCGGTCCTGGCCAGCGTCAACCGCCCCCCGATGCGTAGCCGCTACCGCATGTTCAGCGACTTCCTGTTCCAGGAGCGGCGCCGCTTCGAAGACCCATTGTTCGTCGCCCATGCACCGCACGAAGCCCTCGGGGTCCTGCGCCTGGAAGTCGATACCTATGCCTTCGGCAGTCACTTCCTCAAGCGCGCCGTGCTCACCCTGGTCACTGGCTTCGCACGTAGTCTGCTGCTGTCGCTGATCCTGCTGGTGCTGTTCTACGCCATGCTGACCAAGCCCCTGGTCGGCATCATCCGTGCGCTGAGCGAACGCGATACGCGCATGCCGGCGCGCCAGAAAATACCCTGCCCTCCCGGGCACGAGCGCGACGAGATCGGCATCCTGGTCGAAGTCACCAACCGCCAGCTCGCCAACATCGCCGAAGAGATCGAGCAGCGCCGGGAAGCCGAGGATCGTCTGACCCAGTACCTCGGCGAACTGGAAAACATCGTCTCGGCCCGCACCGCCGAGCTGAAGGCCACCAACGCCCGCCTGACCCAGTCCAACCAGGAGCTGGAAGAAGCACGTCGCACCGCCCTGCAGATGGCCCAGGCCAGAGCGGCATTCCTGGCCAACATGAGCCACGAGATTCGCACCCCGCTGAACGGCCTGCTCGGCATGCTCGCCCTGGCACTGGACGGCCCGCTGAGCAGCGAGCAACGGCAGCAACTCTCAATCGCCCACGGCTCGGGCGAGGTACTGGTCGAGCTGCTCAACGATATTCTCGACCTGTCCAAGTTCGAGGCCGGGCAGCTCGAACTGGAGAGCATTCCCTTCGACCTCGGCGTGCTGGTCGAAGACACCGCCAGCCTGCTCTCGCAGAACGCCGCGCCAGGGGTGGAATTGACCTGCCTGATCGATCCGCAGCTGCCCATCCAGGTGCTCGGCGATCCGACCCGGGTTCGTCAGATCGTCAGTAATCTGCTGTCCAATGCGCTGAAGTTCACCCGCTTCGGCCGGGTAGACGTGCGCGTGCGGGCCGTTGCGAATGGTGTGGAAATAGAGATTCGCGATACCGGGATTGGCATTTCCGAAGAAGCCCAGGAGCGCATTTTCCAACCCTTCGCCCAGGGCAGCATCGACATTACCCGCCAATACGGCGGCACCGGCCTTGGCCTGGCCCTGACCCGTCGACTCTGCGAAGCCATGCGCGGCGAACTCGGCCTCGTCTCCAAGGAAGGCTTCGGCAGCCGCTTCACCGCCCGCCTCCCGCTCCCGAGTCATGCCCGGGGTACGCCACTCCCGCCGCTGCATGGGCGGGTTGTCGCACTCTGTCCGTCCAGCAGCGGCCTCCACGAGCTGCTCAGCACGCTGTTGCCGAGTTGGGGATTGACCTATCTACGGCAGGACACCGATGCGCCGTTGGCCGGCATTAAAGGCGATACCTTCATCAGCGATTGCCCGGAATGCCTGCCGGGGCTGCGCAAGGTGATCGACTCGCCGATCCTCCTGGTCACCGCCTACAACCGCTTCATGGACAACGAGCAGGCCAGCACCCTGGCCCCGCTGGAGCAGATGGCCCGCCCCCTGGGGCGCGCCGCGCTGTACCAGACGCTTCGCCATATCCTGCAACCGGGCGTCACCGAAACGCCCCGACAATCCGCCAGCGACAAGCCGCAGAGCCGCCAGGCACGCGTCCTGCTCGTGGAGGACAATCCGGTCAACCAGATGGTTGCCAAGGGCATGCTGGCCAAATTGGGCTGCGACGTGGCGGTCGCCGCTCATGGTGCCGAGGCGCTCGACTATCTTGCGCGGGAGCCGGTGGATCTGGTGCTGATGGATTGCAACATGCCGATCATGGACGGCTACGAAGCCAGCCGGCGGATTCGCCAGAGCGGTCGCTGGCCCGACTTGCCAATCATCGCCCTGACCGCCAACGCCTTGCCGGATGAGCGCGAGCGCTGCCAGGCGGCCGGAATGAGCGACTACCTGGCCAAGCCCTTCCGCCGCGAAGAACTGGCCGCCCTCCTCGATAGCTGGTTACCGGCTACCGCTACACCATGA	MDISLTNRLSFKQASLTVLVAFILGTLLSLIQVGIDYASEDASINREIRSLLEISHNPAARIAYNIDAELAQELVLGLLRSPAVIRAEIVDNSGAVLASVNRPPMRSRYRMFSDFLFQERRRFEDPLFVAHAPHEALGVLRLEVDTYAFGSHFLKRAVLTLVTGFARSLLLSLILLVLFYAMLTKPLVGIIRALSERDTRMPARQKIPCPPGHERDEIGILVEVTNRQLANIAEEIEQRREAEDRLTQYLGELENIVSARTAELKATNARLTQSNQELEEARRTALQMAQARAAFLANMSHEIRTPLNGLLGMLALALDGPLSSEQRQQLSIAHGSGEVLVELLNDILDLSKFEAGQLELESIPFDLGVLVEDTASLLSQNAAPGVELTCLIDPQLPIQVLGDPTRVRQIVSNLLSNALKFTRFGRVDVRVRAVANGVEIEIRDTGIGISEEAQERIFQPFAQGSIDITRQYGGTGLGLALTRRLCEAMRGELGLVSKEGFGSRFTARLPLPSHARGTPLPPLHGRVVALCPSSSGLHELLSTLLPSWGLTYLRQDTDAPLAGIKGDTFISDCPECLPGLRKVIDSPILLVTAYNRFMDNEQASTLAPLEQMARPLGRAALYQTLRHILQPGVTETPRQSASDKPQSRQARVLLVEDNPVNQMVAKGMLAKLGCDVAVAAHGAEALDYLAREPVDLVLMDCNMPIMDGYEASRRIRQSGRWPDLPIIALTANALPDERERCQAAGMSDYLAKPFRREELAALLDSWLPATATP	PGPT0025845_36	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_SENSING_REGULATORS	CE-QSR-QUORUM_SENSING_REGULATED_FLS,PGPT0025845-sagS-K20973	NA	NA
BMS010_09867	456	ohrR_3		Organic hydroperoxide resistance transcriptional regulator	ATGAGTGACGCGACATCCGAGAGCCTGCTGCTGGACCGGCAGTTGTGCTTCAAGCTGTACGCTGCCTCGCGTGCGGTGATCCGTGGCTACAGGCCGATGCTCGACGCCCTCGGCCTGACCTATCCCCAGTACCTGGCGATGCTGGTGCTGTGGGAATGGCAGGCCGCTCCGCCACCGCAGCCGACGGTGAAAGCCCTGGGCGAACGCCTGATGCTGGATTCCGGCACCCTCACGCCGCTGCTCAAGCGGCTCGAATCGCTGGGGTTGGTGCAGCGTCGGCGGGCGGCGAGCGACGAGCGCGAAGTGCACCTGGCGCTGACGGCGGAAGGGCTGGCGCTGCGTGATCGAGCAGGCCCGCTGAAGGCCCGCCTGCTGTGCGAAAGCGGTATGGATCTGGCGGAAATCGAAGAACTGCGCGAGCGGCTCGGTGGTTTGCTCGCTCGCCTCATGGTGTAG	MSDATSESLLLDRQLCFKLYAASRAVIRGYRPMLDALGLTYPQYLAMLVLWEWQAAPPPQPTVKALGERLMLDSGTLTPLLKRLESLGLVQRRRAASDEREVHLALTAEGLALRDRAGPLKARLLCESGMDLAEIEELRERLGGLLARLMV	PGPT0013155_953	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
BMS010_09868	486	gpx1		Hydroperoxy fatty acid reductase gpx1	ATGAGCGACGCGCTTCTCAGCATTCCTTGCACCACCATCAAGGGCGAGCAGAAAACATTGGCCGATTTCGGCGGCAAGGCCTTGCTGGTGGTGAACACCGCCAGTAAATGCGGCTTCACGCCGCAATACAAAGGATTGGAAGCTCTCTGGCAGCAATACCGGGACAAGGGGCTGGTGGTGCTGGGCTTCCCCTGCAACCAGTTCGGCAAGCAGGAGCCCGGCAACGAGGAGGCGATCTCTGAATTCTGCGAGCTGAACTACGGCGTGAGTTTCCCGCTGTTCAAGAAGATCGATGTGAATGGCGCGGGTGCGCATCCATTATTCGTTAACCTGAAAAAGCGAGCGCCGGGTCTGCTGGGCAGCCAGGGCATCAAGTGGAACTTCACCAAGTTCCTGATCAGCAGGGACGGTTCCCTGATCAAGCGTTTCGCACCGACAACCAAGCCGGAAGAGCTGAGCGCCGAGATCGAAGCCCTGCTGAAATGA	MSDALLSIPCTTIKGEQKTLADFGGKALLVVNTASKCGFTPQYKGLEALWQQYRDKGLVVLGFPCNQFGKQEPGNEEAISEFCELNYGVSFPLFKKIDVNGAGAHPLFVNLKKRAPGLLGSQGIKWNFTKFLISRDGSLIKRFAPTTKPEELSAEIEALLK	PGPT0013115_4265	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013115-bsaA|gpx|btuE-K00432	NA	NA
BMS010_09869	399	msrB_2	COG0229	Peptide methionine sulfoxide reductase MsrB	ATGGACAAGCTCGAAAAACCCCTTGAGGCGTGGCGCGAGGAACTCTCCGACCAGCAGTTCCATGTCTGCCGTCTGGGGGGAACCGAACGCGCCTTCACCGGTGAGTATTACGCGACCAAGACGCCGGGCATCTATCACTGCGCCTGCTGCGATGCGCCGCTGTTCGATGCGGATGCCAAATACGATTCGGGGAGCGGCTGGCCGAGCTATTTCCAGCCGGTCGACGACCAGGCGATCGCCAGCAAGGATGATTTCAGCCACGGCATGCACCGTATCGAGGTGCGCTGCGCACGCTGCGATGCCCATCTCGGGCATGTCTTCCCGGATGGGCCGGCGCCCACCGGATTGCGCTATTGCATCAATTCGGTCGCGTTGAAGCTGAAGCCGAAAGCCGAGTGA	MDKLEKPLEAWREELSDQQFHVCRLGGTERAFTGEYYATKTPGIYHCACCDAPLFDADAKYDSGSGWPSYFQPVDDQAIASKDDFSHGMHRIEVRCARCDAHLGHVFPDGPAPTGLRYCINSVALKLKPKAE	PGPT0013070_5246	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013070-msrB-K07305	NA	NA
BMS010_09870	1212	alaA	COG0436	Glutamate-pyruvate aminotransferase AlaA	ATGCAGGTCAGCAAATCGAACAAGCTCGCCAACGTCTGCTACGACATTCGCGGGCCGGTGCTCAAGCACGCCAAACGGCTGGAAGAGGAAGGCCACCGCATCCTCAAGCTGAACATCGGCAACCCGGCGCCGTTCGGTTTCGAAGCCCCCGAGGAAATCCTCCAGGACGTGATCCGCAACCTTCCCACCGCACAGGGCTACAGCGATTCCAAGGGCCTGTTCAGTGCGCGCAAGGCGGTGATGCAGTACTACCAGCAGAAGCAGGTTGAAGGCGTCGGCATCGAGGATATCTACCTCGGCAACGGCGTTTCCGAGCTGATCGTCATGGCCATGCAGGCGCTGCTCAACAACGGCGACGAAGTGCTGATTCCCGCGCCCGACTACCCGCTGTGGACCGCCGCCGTGTCGCTGGCCGGCGGTAAGCCAGTGCACTACCTGTGCGACGAGCAGGCCGGCTGGTTCCCCGACCTGGCCGACATGAAGGCCAAGATCACGCCGAATACCAAGGCGCTGGTACTGATCAACCCGAACAACCCCACCGGTGCGGTCTATTCCAAGGCCGTCCTGGAAGACATCGTCGAACTGGCGCGCCAGCACAATCTGGTGATCTTCTCCGACGAGATCTACGACAAGATCCTCTACGACGACGCTGCCCATATCTCCACCGCCTCGCTGGCGCCGGACGTGCTTTGCCTGACCTTCAACGGCCTATCCAAGTCCTACCGGGTAGCCGGCTTCCGCTCCGGCTGGGTCGCCATTTCCGGTCCGAAGCATAAGGCCCAGAGCTACATCGAAGGCCTGGATATCCTGGCCAACATGCGCCTGTGCGCCAACGTGCCGAGCCAGCATGCGATCCAGACCGCCCTGGGCGGCTACCAGAGCATCAACGACCTGGTGCTGCCCAATGGCCGCCTGCTGGAGCAGCGCAACCGGGCCTGGGAACTGCTCAATGACATCCCCGGCGTAAGCTGCGTGAAACCCATGGGTGCGCTCTACGCCTTCCCGCGGATCGACCCCAAGGTCTGCCCGATCCACAATGACGAAAAGTTCGTGCTCGATCTGCTGCTCTCGGAAAAACTGTTGATCGTCCAGGGCACCGCCTTCAACTGGCCTTGGCCGGATCACTTCCGCGTGGTCACCCTGCCCCGCGTCGACGACCTGGAACAGGCCATCGGACGCATCGGCAACTTCCTCAAGTCGTATCGCCAGTAA	MQVSKSNKLANVCYDIRGPVLKHAKRLEEEGHRILKLNIGNPAPFGFEAPEEILQDVIRNLPTAQGYSDSKGLFSARKAVMQYYQQKQVEGVGIEDIYLGNGVSELIVMAMQALLNNGDEVLIPAPDYPLWTAAVSLAGGKPVHYLCDEQAGWFPDLADMKAKITPNTKALVLINPNNPTGAVYSKAVLEDIVELARQHNLVIFSDEIYDKILYDDAAHISTASLAPDVLCLTFNGLSKSYRVAGFRSGWVAISGPKHKAQSYIEGLDILANMRLCANVPSQHAIQTALGGYQSINDLVLPNGRLLEQRNRAWELLNDIPGVSCVKPMGALYAFPRIDPKVCPIHNDEKFVLDLLLSEKLLIVQGTAFNWPWPDHFRVVTLPRVDDLEQAIGRIGNFLKSYRQ	PGPT0001880_1906	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ALANINE_DEGRADATION,PGPT0001880-alaA-K14260	NA	NA
BMS010_09871	747		COG1028	putative oxidoreductase	ATGCGCAGCCAGGGCCGACGCTACCTGATCACCGGCGCCAGCTCCGGTATCGGTGAAGCCCTGGCCCGCGAACTGGCCGCCCAGGGCTATGACCTGGCACTGGCCGCGCGCAGCCTGGACCGCCTCGAAGCGTTGGCCAGGGAGCTGGCCGATCAATTCGGCAACCGGGTCGCAGCACTGCCGCTGGACGTCACCGATCCGGCCGCCTGCCAGGACACGGTCAGCCTGGCCGCCCATACCCTCGGCAGTCTCGACGGGGTGATTGCCAACGCCGGCATCGCCCTGGCCGGCAAGGCGGGAGGCGGCCACTTCGAACGCATCCAGCGCACCCTCGACACCAACCTGACCGGCGCCATCGCCTGCCTGGATGCCGCCACCGCGCTGTTCCGCCAGCAAGGCCACGGTCATCTGGTTGCGGTCGCCTCGGTCGCCGGCAAGCGCGGCCTGCCCTATGCCGCCGCCTATTCGGCGAGCAAAGCCGGGCTCATCGCCTACATGGAATCCCTTCAGGCGGAGCTACTCGGCAAGGGCATCGACACCACGCTCATCCTGCCAGGCTTCATCGATACCCCCTTGAACCGGGACATGGGCAAGCGTCCCTTCCTGATCGATGTCGAGCGGGGTGCAGCGCTGATCGCCAAGCACGTCACCAAGCGGAGCAGAAGCGCTTACGTACCGGCCTGGCCCTGGGCTATTCTCGGCCGCCTGTTACCCCACCTTCCGACTTTCCTCATCGCCAAGACCTGA	MRSQGRRYLITGASSGIGEALARELAAQGYDLALAARSLDRLEALARELADQFGNRVAALPLDVTDPAACQDTVSLAAHTLGSLDGVIANAGIALAGKAGGGHFERIQRTLDTNLTGAIACLDAATALFRQQGHGHLVAVASVAGKRGLPYAAAYSASKAGLIAYMESLQAELLGKGIDTTLILPGFIDTPLNRDMGKRPFLIDVERGAALIAKHVTKRSRSAYVPAWPWAILGRLLPHLPTFLIAKT	PGPT0008310_2581	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008310-bdh-K00019	NA	NA
BMS010_09872	453			hypothetical protein	ATGGACCTGCAGATCGACGATTTCTACAAGGACGCGGCAGCCGGCCTGCTCATGCTGTACCAGGCGTTCCCGCGCAAGATCGCCCTCTACGTCGAGGACCTGATCGGCCGCGAGGAGCCCGATGAGTTCGGCCTGCCGAGCAAGCGCCACCAGAGCTGCCTGGGTGCCCTGTTGTGGCTGGCCGAGGAAGGCTACCTGCGCTTCGACTCCACCATCCAGTACGACGCCCTGGACCAGGCCGTGCTCACGGAAAAAGGTTTTTTGCGCCTGTCCCGCGCCGTTCCCCATGCGCTGCCCGATGGCGCCACGCTGCCGCCCAGCGTGCGGCGCGTACACGCCACCCTCGCCTACCAATTGCGCGAAGCACTGGCCGCCCGTCACAGCGAACGGCTGGCGCGCCTGACCCGGCTGCTGTTCGAAAGCCACCTGCACGGCGCAAACGACACAGTTTGA	MDLQIDDFYKDAAAGLLMLYQAFPRKIALYVEDLIGREEPDEFGLPSKRHQSCLGALLWLAEEGYLRFDSTIQYDALDQAVLTEKGFLRLSRAVPHALPDGATLPPSVRRVHATLAYQLREALAARHSERLARLTRLLFESHLHGANDTV				NA	NA	NA	NA	NA
BMS010_09873	918	htpX_2	COG0501	Protease HtpX	ATGCTTTATCGCGAGGAGAAGCTCTACACCATGATGCGCATTCTGCTGTTCCTGGCCACCAACCTGGCGGTACTCCTGATCGCCAGCATTACCCTCAGCCTGCTCGGCTTCAATGGGTTCATGGCGGCCAACGGAGTCGATCTGGACCTGCAACAACTGCTCGTCTTCTGCGCCGTGTTCGGCTTCGCCGGATCGCTGTTCTCGCTGTTCATCTCCAAGTGGATGGCGAAGATGAGCACCGGCACCGAGATCATCAGCCAGCCGCGTACCCGTCATGAACAGTGGCTTCTGCAAACCGTCGAGGAGCTGGCGCGCGAGGCCGGCATCAAGATGCCCGAGGTCGGCATCTTCCCGGCCTATGAGGCCAACGCCTTTGCCACTGGCTGGAACCGGAACGACGCCCTCGTCGCGGTCAGCCAGGGCCTGCTGGAACGTTTCTCGCCCGATGAAGTGCGCGCCGTACTGGCCCACGAGATCGGCCACGTCGCCAACGGCGACATGGTGACCCTGGCGCTGATCCAGGGCGTGGTGAACACCTTCGTGATGTTCTTCGCACGCATCTTCGGCAACTTCGTCGACAAGGTGATCTTCAAGAACGAGGAAGGCCGCGGTATCGCCTTCTATGTCGCAACCATCTTCGCCGAACTGATCCTGGGCATCCTGGCCAGCATGATCGTCATGTGGTTCTCGCGCCGCCGCGAATACCGCGCCGACGACGCCGGCGCCCGCCTGGCCGGCACCCGCTCGATGATCGCTGCCCTGCAGCGTCTGCAGGCGGAACAGGGCGTCCCGGTGCATATGCCGGACAGCCTGACTGCATTCGGCATCAACGCCGCGAAGAAAACCACCTTCGCCGGCCTGTTCATGAGCCACCCGCCGCTGGAAGACCGTATCGAAGCGCTGCGCCAACGCGGCTGA	MLYREEKLYTMMRILLFLATNLAVLLIASITLSLLGFNGFMAANGVDLDLQQLLVFCAVFGFAGSLFSLFISKWMAKMSTGTEIISQPRTRHEQWLLQTVEELAREAGIKMPEVGIFPAYEANAFATGWNRNDALVAVSQGLLERFSPDEVRAVLAHEIGHVANGDMVTLALIQGVVNTFVMFFARIFGNFVDKVIFKNEEGRGIAFYVATIFAELILGILASMIVMWFSRRREYRADDAGARLAGTRSMIAALQRLQAEQGVPVHMPDSLTAFGINAAKKTTFAGLFMSHPPLEDRIEALRQRG	PGPT0014605_1958	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014605-htpX|ykrL-K03799	NA	NA
BMS010_09874	660	tpm		Thiopurine S-methyltransferase	ATGAACATGCAGGCGGATTTCTGGCAGGCGCGCTGGCAGCGCAACGAGATCGGGTTCCATCTTTCCGAGGTGAACCCCTATCTGCTTCGGCATTGGCCGACGCTCGGGGTGTCGGTTGACAGCAGGGTGTTGGTTCCGCTGTGCGGCAAGTCGCTCGATCTGGCCTGGCTGGCAGGCCAGGGGCATGCCGTGCTGGGTGTCGAGCTGGCCGAGAAGGCCGTCGAGGATTTCTTCGCCGAGCAAGAGCTGGAGCCGGAAATCCAGTCCTATGGGGTATTCAAGGTCTATCGGGCCGGCGCACTCGAACTCTGGTGCGGTGATTTCTTTGCCCTGACGGCGGAGGATGCGGCCGGCTGCGCCGCTTTGTACGACCGGGCGGCCCTGATCGCCTTGCCGCCGGAGATGCGCCAGCGCTATGTCGCGCACCTGACCGGCATACTCCCGGCGGGTTGCGCGGGGCTGCTGGTGACGCTGGATTACGAGCAGGGGCAGATGCAGGGCCCTCCGTTCTCGGTGCCGGATGATGAGGTCCGGCGCCTGCTTGGCGCGAACTGGCAACTGGAGCCGTTGGAATGCCGTGACGTACTGGGTGAGAACTGGCGGTTCCTTCAGCGTGGCCTGACGCGTCTGGAGGAGCGGGTCTATCGATTGCAGCGCTGA	MNMQADFWQARWQRNEIGFHLSEVNPYLLRHWPTLGVSVDSRVLVPLCGKSLDLAWLAGQGHAVLGVELAEKAVEDFFAEQELEPEIQSYGVFKVYRAGALELWCGDFFALTAEDAAGCAALYDRAALIALPPEMRQRYVAHLTGILPAGCAGLLVTLDYEQGQMQGPPFSVPDDEVRRLLGANWQLEPLECRDVLGENWRFLQRGLTRLEERVYRLQR				NA	NA	NA	NA	NA
BMS010_09875	768	ygiD	COG3384	4,5-DOPA dioxygenase extradiol	ATGCTACCCAGCCTGTTCATCTCCCATGGCTCTCCCATGCTGGCGCTGGAGCCTGGCGCCAGTGGCCCCGCATTGGCGCGCCTCGCGGCCGAGCTGCCCCGTCCCACGGCGATCCTGGTGGTCTCCGCTCATTGGGAATCGCCCGAGCTGCGCGTCGGCACGGCTGAGCACCCGGAGACCTGGCACGATTTCTACGGCTTCCCGGCAGCCCTGTACGAGGTGCGCTATCCGGCCGCTGGCAACCCTGCACTGGCCGCTGAGGTGATCCGTCTGCTGGCCGCCGAGGGCCTGACCGCCCAGCCGGAACCGCAGCGCCCGCTCGACCACGGCGCCTGGGTTCCGCTATCGCTGATGTACCCGCAAGCCGATATCCCCGTGGTGCAACTGTCGTTGCCGACACATAAGGGCCCGGCCTTCCAGACCCGTGCTGGCCGCGCCTTGGCGAGTCTGCGCGAGCGCGGCGTGCTGCTGGTCGGCTCAGGCAGCATCACGCACAACCTCGGCGAATTGAACTGGCGCGCCGGACCGGACGTGATCGCCCCATGGGCAAAGGCTTTTCGCGACTGGATCGTGGAGAAACTGGCGGAGAACGACGAAGCCGCGCTGCACGACTACCGCCGCCAAGCACCCTCTGCCGCACGCAATCATCCGCACGACGAGCATCTGCTGCCGCTCTACTTCGCCCGGGGTGCCGGGCAAAAGTTCAGCCTGGTACACCAGGGCTTTACCCTGGGTGCGCTGGGCATGGACATCTATCGGTTCGACTGA	MLPSLFISHGSPMLALEPGASGPALARLAAELPRPTAILVVSAHWESPELRVGTAEHPETWHDFYGFPAALYEVRYPAAGNPALAAEVIRLLAAEGLTAQPEPQRPLDHGAWVPLSLMYPQADIPVVQLSLPTHKGPAFQTRAGRALASLRERGVLLVGSGSITHNLGELNWRAGPDVIAPWAKAFRDWIVEKLAENDEAALHDYRRQAPSAARNHPHDEHLLPLYFARGAGQKFSLVHQGFTLGALGMDIYRFD				NA	NA	NA	NA	NA
BMS010_09876	432	hit	COG0537	Protein hit	ATGACGGCCAGCGCCTATGACGACAACAATATCTTCGCAAAAATCCTGCGCGGCGAAATTCCGAGCCACAAGCTTTACGAGGACGAGCACACGCTAGCCTTCATGGATGTGATGCCGCAGGCCCCCGGCCATCTGCTGGTCGTTCCGAAAACCGGTTCACGCAACCTGCTCGATGCTGACCCTGAAGTGCTGGCGAAAACCATTCCCGTGGTGCAGAAACTGGCCGTGGCGGCCAAGGAAGCCTTCGATGCCGATGGCGTCTTCATCGCGCAGTTCAACGAGCCGGCGGCTGGCCAGACCGTTTTTCACCTGCATTTCCACGTCATTCCGCGCAAGGAAGGTGAGCCGCTGAAGCCGCATTCCGGCGTGATGGCCGATGGCGAGGTATTGAAGGCCCACGCGGAGAAGATAAAGGCTGCGCTTGCTTCGTGA	MTASAYDDNNIFAKILRGEIPSHKLYEDEHTLAFMDVMPQAPGHLLVVPKTGSRNLLDADPEVLAKTIPVVQKLAVAAKEAFDADGVFIAQFNEPAAGQTVFHLHFHVIPRKEGEPLKPHSGVMADGEVLKAHAEKIKAALAS				NA	NA	NA	NA	NA
BMS010_09877	1194			hypothetical protein	ATGACAGAAGACTATTCCATTCGCGTTGCGCAATCCTTCAGGGATATCGATCCGGAAAGCTGGAAACGGCTTTCCGGAACCTCGCGCAATACGTCAGGAAAAATCTACAACCCGTTTATTTCCCATGAATTTTTATCATCCATGGAAGAATCGGGATCGGCGACAGCGAAAACCGGCTGGCTGGGGCACCATCTGCTTCTCGAAAACGCCTCCGGAGCTCTGGTCGGCGCGGTGCCCGCCTATCTGAAGAACCACAGCAAGGGCGAATATGTTTTCGACCACGGCTGGGCGGATGCTTTCGAGCGGGCCGGCGGGCATTATTATCCGAAACTGCAATGCTCGGTCCCTTTCACGCCGGCAACCGGACCACGGTTGCTCGTCTGCGAAAACGAGGACGAGACACGTTTCAAAACGCTCCTGGCCTCCGGTCTCGCGCAGGTGACGGAAAAGATCGGCGTCTCATCGGCACATGTCACATTTCTGGAAGAGAACGATCTCTCCGCCCTTCTGCCGCGCGATTTCCTGCACAGGACCGACCAGCAGTTCCACTTCATCAATGACGGTTATCGCGATCACGATGATTTTCTCGACGCCCTTTCCTCGCGCAAGCGCAAGGGGCTGAAGAAAGAACGCCGCGCCGCACTCGAAAACGGCATCGAGATTGACTGGCTGACGGGAAGCGACCTGACCGAGGATATCTGGGACCAGTTCTTCGCCTTCTATATGGATACCGGCAGCCGCAAATGGGGCCGGCCCTATCTGACGCGGGAATTTTATTCACTGATCGGCGAGCGCATGGCCGATGACGTGCTGCTGGTGATGGCGAAACGCGAGGGACGCTATATTGCCGGTGCGATCAATTTCATCGGCTCGGACGCGCTTTATGGCCGCCACTGGGGCTGTATCGAGGATCACCCCTTTCTGCATTTCGAGGTCTGTTACCATCAGGCGATCGATTTCGCGCTTTCCAGGGGATTGAAACGGGTGGAAGCCGGCGCTCAGGGCGAACACAAGCTGGCGCGCGGTTACATGCCCGTCACCACCCACTCGGCGCATTTCATTGTCCACCCAGGCCTGCGCCGCGCCATTGCCGATTATCTTCAGCGCGAGCGCGAGGAAGTCGAGCATATCGGCGATTATCTCGATGAACACACGCCCTTCCGCAAGGGCGAGAGACAGGAACCGGACGTATAG	MTEDYSIRVAQSFRDIDPESWKRLSGTSRNTSGKIYNPFISHEFLSSMEESGSATAKTGWLGHHLLLENASGALVGAVPAYLKNHSKGEYVFDHGWADAFERAGGHYYPKLQCSVPFTPATGPRLLVCENEDETRFKTLLASGLAQVTEKIGVSSAHVTFLEENDLSALLPRDFLHRTDQQFHFINDGYRDHDDFLDALSSRKRKGLKKERRAALENGIEIDWLTGSDLTEDIWDQFFAFYMDTGSRKWGRPYLTREFYSLIGERMADDVLLVMAKREGRYIAGAINFIGSDALYGRHWGCIEDHPFLHFEVCYHQAIDFALSRGLKRVEAGAQGEHKLARGYMPVTTHSAHFIVHPGLRRAIADYLQREREEVEHIGDYLDEHTPFRKGERQEPDV				NA	NA	NA	NA	NA
BMS010_09878	741			hypothetical protein	ATGACGCTGAAACTCTCCTGGCTGACGGCTCAGCCCGTCGCCCATCGCGGTTATCATGATCTCAATAAGGCGGTCTGGGAAAACACACTTTCCGCCTTTTCCCGCGCCATCGAGGCCGGTTTCGCCATCGAATGCGACGTGCAGCTGGCGGCCGACAGTGTGCCGGTGATTTTTCACGACGACGACATGGCCCGCCTGACCGGCATCAAGGGCGATGTGCGCGAACGCACATCCGCCGAGCTGTCGCTTCTTGCCGTTGGCCAGACCGGGGATCGGGTCCCTACCCTCAAGCAGCTTCTCACGCTCTGCGCCGGCAAGGTGCCGCTGATCATTGAGCTGAAAGGCCGCGCCGGTGAAGGCGTCGACGACGGTTTTGCCGAGGCGGTGCTGGAAGACCTTGAAGGCTATAAGGGCCATGTGGCGCTGATGAGCTTCGACCACCATCTGCTGAAGGACCTGAAGGCGGCCGGCTCGCCCTGGCCACTGGGCCTGACGGCCGAAGGCGACAAGCCGGAAGACTTCTTCAAACATGACGAAGCGATGCAGCTCGGGCTCGATTTTATCTCCTATCATTGGGGTCATCTGCCCAACAGCTTCATCGAGGCGCAAAGAAAACTTGGCCTTCCGGTGATTACCTGGACGGTCAGGGATGAAAATGCGCGCGAGACTACCTATAAATATGCGGACCAGATGACATTCGAAGGTTTCGACCCGAGAGAGAACCCGTCCGCCACGGCATGA	MTLKLSWLTAQPVAHRGYHDLNKAVWENTLSAFSRAIEAGFAIECDVQLAADSVPVIFHDDDMARLTGIKGDVRERTSAELSLLAVGQTGDRVPTLKQLLTLCAGKVPLIIELKGRAGEGVDDGFAEAVLEDLEGYKGHVALMSFDHHLLKDLKAAGSPWPLGLTAEGDKPEDFFKHDEAMQLGLDFISYHWGHLPNSFIEAQRKLGLPVITWTVRDENARETTYKYADQMTFEGFDPRENPSATA				NA	NA	NA	NA	NA
BMS010_09879	471			hypothetical protein	ATGTCGGACGTCATCGAAGGCCGCCTCAAGGAACTTGGCTTTACGCTCCCCGTAGCCGCAGCACCAGCCGCAAACTACGTTCCATTCACCATCAGCGGCAATCTGCTTTATGTATCGGGTCAACTGCCGATGGAATCGGGCAAGATTGCGGTGACGGGCCTCGTTGGCCGCGATGTCGATGTGCCAGGCGCCCAGCGCGCGGCCGAACTTTGCGCCGTCAACATTCTCGCACAGGTCAAGGCCGCTTTGAATGGCGATCTCTCGAAAATCCGCCGTGTCGTCAAGCTGAATGGCTTTGTTGCGTCGGTTCCGGAGTTCGTGGAACAGCACCTCGTCATCAACGGTGCTTCCAACCTCATTGCCAATGTTCTCGGTGAGCCCGGCAAACACGCCCGCGCCGCCGTCGGCATGGCCTGCCTGCCCTTCAATGCCGCCGTCGAAATCGACGCCATCGTGGAAATCGACGTATGA	MSDVIEGRLKELGFTLPVAAAPAANYVPFTISGNLLYVSGQLPMESGKIAVTGLVGRDVDVPGAQRAAELCAVNILAQVKAALNGDLSKIRRVVKLNGFVASVPEFVEQHLVINGASNLIANVLGEPGKHARAAVGMACLPFNAAVEIDAIVEIDV	PGPT0009460_2	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009460-wrbA-K03809	NA	NA
BMS010_09880	843			hypothetical protein	ATGTTTGTCAGGACGCTTGGTTTCGCTGCCGCAACAGGGCTTATGACCGGCCTGTCAAACGCTGCCAATGCCTTGCCGGTCACGGTTCCCGATCTCGTCGCCCACCGCGCCGTCTACGATCTCGAACTCAAGGATGCGTCCGATCGATCCGGAATCGAGGGCATGACGGGCCGCATGGTCTATGAGTTCACCGGCTCGGCCTGTCAGGGTTACAAGACGGATTTCCGTTTCGTGACGCAGATCAACACCGGCGATGCCGTGCGCATGACCGACCAGCAGACCACAACCTTCGAGGATCTGACGGCCAAGAAATTCACCTTCGAAACCAAGTCCTACACCGACGACAAGCTGGACAAGGAAGTGCAGGGCGCTGCGACCGACGGCACCGATGGCGTGAAGGTCGATCTGACCCGCCCGGATGCCCGTCAGGTCAGTCTCGTCGCCAGCGAATTCCCGACGCAGCATATGTTTCAGGTCATCGAACATGCGAAACAGGGAAAGCGTATCTTCGAATCCCGCATATTCGACGGTTCGGACGATGGCGATGAAAGTCTGATCACCTCCACCCTGGTCGGCAAGTCGCAGATGCCGAAGGATGGCGATGCCGACGCCGGCAAGGCGGGCAAATTCGCCAAGGCGGCATTCTGGCCGGTGACGATCGCCTATTACAACGACAAGACCGGCACCGACGCGCTGCCGATCTACCGTATGTCGTTCAAGCTTTACGAAAACGGAATCACCCGCGATCTGACGATGGATTACGGCGATTTCGTTCTGACGGGAAAGCTTGCGAAGCTCGATATTCTCAAGCCCGAAACCTGCGAAAACAAGCCTGTCCGCTGA	MFVRTLGFAAATGLMTGLSNAANALPVTVPDLVAHRAVYDLELKDASDRSGIEGMTGRMVYEFTGSACQGYKTDFRFVTQINTGDAVRMTDQQTTTFEDLTAKKFTFETKSYTDDKLDKEVQGAATDGTDGVKVDLTRPDARQVSLVASEFPTQHMFQVIEHAKQGKRIFESRIFDGSDDGDESLITSTLVGKSQMPKDGDADAGKAGKFAKAAFWPVTIAYYNDKTGTDALPIYRMSFKLYENGITRDLTMDYGDFVLTGKLAKLDILKPETCENKPVR				NA	NA	NA	NA	NA
BMS010_09881	768	rpsB_2	COG0052	30S ribosomal protein S2	ATGGCATTGCCCGATTTTTCTATGCGCCAGCTTCTGGAAGCTGGTGTTCACTTCGGCCACCAGACGCACCGCTGGAACCCGAAGATGAAGCCGTACATCTTCGGCGACCGTAACAACATCCACATCATCGACCTGGCTCAGACCGTTCCGATGCTGTCGCGCGCCCTTCAGGTCGTGTCCGACACCGTTGCCCGTGGCGGCCGCGTTCTGTTCGTTGGCACCAAGCGCCAGGCGTCGGAAATCATCGCCGACAGCGCAAAGCGTTCGGCCCAGTACTACGTCAACTCCCGCTGGCTCGGCGGCATGATGACCAACTGGAAGACCATCTCCAACTCGATCCAGCGCCTGCGCAAGGTCGACGAGATCCTGAACTCGGAAGCTTCCGGCTACTCCAAGAAGGAACGCCTGAACCTTGAGCGCGAGCGCGAAAAGCTTGAAAAGGCTCTCGGCGGTATCCGCGATATGGGCGGCGTTCCGGACCTGATGTTCATCATCGACACCAATAAGGAAAAGATCGCGATCGAAGAAGCCAAGCGTCTTGGCATTCCGGTCGTTGCTATCATCGACAGCAACTGCGATCCGGACCACATCGACTACCCGATCCCGGGTAACGACGATGCGTCGCGCGCCATCTCGCTTTACTGCGACCTGATCGCCCGCGCTGCCATCGACGGTATTGCCCGTCAGCAGGGCGCTTCCGGTCGCGACATCGGCGCTTCGGAAGAAGCTCCGATCGAGCCCGCTCTCGAAGACGAGGCTGGCGCCTGA	MALPDFSMRQLLEAGVHFGHQTHRWNPKMKPYIFGDRNNIHIIDLAQTVPMLSRALQVVSDTVARGGRVLFVGTKRQASEIIADSAKRSAQYYVNSRWLGGMMTNWKTISNSIQRLRKVDEILNSEASGYSKKERLNLEREREKLEKALGGIRDMGGVPDLMFIIDTNKEKIAIEEAKRLGIPVVAIIDSNCDPDHIDYPIPGNDDASRAISLYCDLIARAAIDGIARQQGASGRDIGASEEAPIEPALEDEAGA				NA	NA	NA	NA	NA
BMS010_09882	927	tsf_2		Elongation factor Ts	ATGACCGAAATCACAGCCGCAATGGTGAAGGAACTGCGCGAAAAGTCTGGCGCAGGCATGATGGACTGCAAGAAGGCTCTTGCTGAAACCAATGGCGACATGGAAGCGGCGATCGACTGGCTGCGCGCCAAGGGCATCGCAAAGGCCGACAAGAAGTCCGGCCGCACGGCTGCCGAAGGTCTGGTCGGCGTTGCCACCATGGGTCACAAGGCTGTCGTCGTTGAGCTGAACTCCGAAACCGACTTCGTTGCCCGTAACGATGCGTTCCAGGACCTCATCCGCGGTATCGCCCAGGTTGCCCTCACCACCAACGGCACCGTTGACGCTGTTTCCGCTGCCACCTATCCGGCAACCGGCAAGTCCGTTGCCGACAGCATCAAGGACGCGATTGCCACCATCGGTGAGAACATGACGCTCCGCCGCTCGGCAGCGCTCGAAGTTCCGCACGGCGTTGTTGCAACCTACATCCACAACGCTGCCGGCGACGGCATCGGCAAGCTCGGCGTTCTCGTTGCCCTGAAGTCGGAAGGCGACAAGGCCGTTCTGAACTCCATCGGCCGTCAGGTTGCCATGCACATCGCTGCGACCAACCCGCTCGCCATCCGCGCTGAAGAAGTCGACGCCGCCGTTGCCGAGCGCGAGCGCAACGTCTTCATCGAACAGGCCCGCGAATCCGGCAAGCCGGAAGCCATCATCGAAAAGATGGTCGATGGCCGTATGCGCAAGTTCTTCGAAGAAGTCGCCCTTCTGTCGCAGGCTTTCGTCATCAACCCGGACCTGACTGTCGGCGCTGCTGTCAAGGAAGCCGAAAAGGAAGCCGGCGCTTCCATCGAAGTGACGGGCATGGTTCGCCTGCTGCTCGGCGATGGCGTCGAGAAGGAAGAAAGCGATTTCGCAGCCGAAGTCGCAGCCGTCGCCAAGGGCTGA	MTEITAAMVKELREKSGAGMMDCKKALAETNGDMEAAIDWLRAKGIAKADKKSGRTAAEGLVGVATMGHKAVVVELNSETDFVARNDAFQDLIRGIAQVALTTNGTVDAVSAATYPATGKSVADSIKDAIATIGENMTLRRSAALEVPHGVVATYIHNAAGDGIGKLGVLVALKSEGDKAVLNSIGRQVAMHIAATNPLAIRAEEVDAAVAERERNVFIEQARESGKPEAIIEKMVDGRMRKFFEEVALLSQAFVINPDLTVGAAVKEAEKEAGASIEVTGMVRLLLGDGVEKEESDFAAEVAAVAKG				NA	NA	NA	NA	NA
BMS010_09883	723	pyrH_2	COG0528	Uridylate kinase	ATGTCTTCCAAGCCGATCTACAAACGCGTTCTTCTCAAGGCTTCCGGCGAAGCCCTCATGGGCGATCAGGGTTTCGGTATCGATGTGGCGGTGGCTGATCGCATCGCTTCCGATATCGCCGAGGCGAGGGCGATGGGCGTCGAAGTCGGCGTTGTCGTCGGCGGCGGCAATATTTTCCGCGGCGTTGCCGTGGCCTCCAAGGGCGGCGACCGCGTGACCGGCGACCATATGGGTATGCTGGCGACCGTCATCAACGCGCTGGCGCTCGCGACCTCGCTGCGAAAGCTCAGCATCGACACCGTCGTTCTCTCCGCAATCGCCATGCCTGAAATCTGTGAGAGCTTCTCGCAGCGCGCGGCGCTCCATCATCTCGCGCAGGGGCGTGTGGTGATCTTCGCTGGCGGTACGGGCAACCCCTTCTTCACCACTGATTCTGCCGCAGCCTTGCGCGCTGCGGAAATGGGCGCCGAAGCGATCTTCAAGGGCACACAGGTGGACGGCATCTATTCCGCCGACCCGAAGAAGGACCCGACGGCAACCCGTTTCGACGAATTGACCCACAGCGAAGTGCTCGGCAAGGGACTGGCGGTCATGGATATCGCCGCCGTTGCGCTTGCCCGCGAAAACCACATTCCGATCATTGTTTTCTCGATCCACGAGAAGGGCGGTTTTGCGCAGATATTGACCGGCGGCGGCCGCAAGACCATCGTGCACGACAAATAA	MSSKPIYKRVLLKASGEALMGDQGFGIDVAVADRIASDIAEARAMGVEVGVVVGGGNIFRGVAVASKGGDRVTGDHMGMLATVINALALATSLRKLSIDTVVLSAIAMPEICESFSQRAALHHLAQGRVVIFAGGTGNPFFTTDSAAALRAAEMGAEAIFKGTQVDGIYSADPKKDPTATRFDELTHSEVLGKGLAVMDIAAVALARENHIPIIVFSIHEKGGFAQILTGGGRKTIVHDK	PGPT0021205_2383	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021205-pyrH-K09903	NA	NA
BMS010_09884	558	frr_2	COG0233	Ribosome-recycling factor	ATGAGTGGTGTTGACCTCAACGATATCAAGCGCCGTATGGACGGCGCCATCAATGCATTCAAGAGCGATATCGCATCGCTTCGCACCGGCCGCGCTTCGGCCAATATTCTCGATCCGGTCACCATCGAGGCTTATGGCTCGCGCGTACCGCTCAATCAGGTTGCGAATATCACCGTTCCGGAGCCGCGCATGCTCGGCGTCAACATCTGGGACAAGTCGATGGTCAACGCCGTCGACCGTGCGATTCGCGAATCCAATCTCGGCCTCAACCCCATCGTCGACGGCCAGAACCTGCGTATCCCGCTGCCTGAACTCAACGAGGAGCGCCGCAAATCGCTCGTCAAGGTCGCCCATGATTATGCCGAAAAGTCAAAGGTGGCGATTCGCCATGTGCGCCGCGATGGCATGGATGGTCTGAAAAAAGCCGAAAAGGACGGTGACATCGGTCAGGACGAAAGCCGTGGACAGTCGGAAAAGGTTCAGAAAATGACCGATGACACGATTTCGGAAATTGACCGCTTGCTTGCCGAGAAGGAAAAGGAAATCATGCAGGTCTGA	MSGVDLNDIKRRMDGAINAFKSDIASLRTGRASANILDPVTIEAYGSRVPLNQVANITVPEPRMLGVNIWDKSMVNAVDRAIRESNLGLNPIVDGQNLRIPLPELNEERRKSLVKVAHDYAEKSKVAIRHVRRDGMDGLKKAEKDGDIGQDESRGQSEKVQKMTDDTISEIDRLLAEKEKEIMQV				NA	NA	NA	NA	NA
BMS010_09885	744	uppS		Ditrans,polycis-undecaprenyl-diphosphate synthase ((2E,6E)-farnesyl-diphosphate specific)	ATGCCGACGACGACACGTTCCTCCATACCCGAGCACGTCGCCATCATCATGGATGGCAATGGACGCTGGGCAAAGCAGCGCGGTCTTCCGCGCGTGATGGGGCATCGCCGCGGTGTGGAGGCCGTGCGCGAGACCGTGCGCGCGGCCGGCGATTGCGGAATACGCTATCTCACGCTCTTTGCCTTCTCGTCGGAAAACTGGCGCAGGCCCGAATCCGAGGTGAGCGATCTGATGGGGCTTTTGAAAGCCTTCATCCGGCGTGACCTTGCGGAACTGCACCGCGAAAATGTCCGCGTGCGGATCATCGGCGACCGGCAGGGGCTGAAGCATGACATACGCTCTCTCCTCGAAGAGGCAGAGCAGATGACGGCGGGCAATACCAAGCTGACGCTGGTGATCGCCTTCAACTACGGAAGCCGCGACGAGATTGCGCGTGCGACAGCGGCGATAGCGCGCGATGTCGCCGAAGGCCGGCTTAATGCCGAATCCATTACGCCGGAGATGATTTCGGCCAGACTCGACACGTCGGGTATGCCTGATCCTGATCTCATCATCCGCACCAGCGGCGAAGAGCGCCTGTCGAACTTCCTGCTCTGGCAGGCCGCTTATTCCGAGTTCCTGTTCGTTCCCGAATATTGGCCGGACTTCGACCGCCAGCGATTCTTCTCCGCAATCGAGCAATATGCAACGCGTGACCGCCGCTTCGGTGCACTCACCGAGCAGGTTGCCGTGGCAGGCGCCTGA	MPTTTRSSIPEHVAIIMDGNGRWAKQRGLPRVMGHRRGVEAVRETVRAAGDCGIRYLTLFAFSSENWRRPESEVSDLMGLLKAFIRRDLAELHRENVRVRIIGDRQGLKHDIRSLLEEAEQMTAGNTKLTLVIAFNYGSRDEIARATAAIARDVAEGRLNAESITPEMISARLDTSGMPDPDLIIRTSGEERLSNFLLWQAAYSEFLFVPEYWPDFDRQRFFSAIEQYATRDRRFGALTEQVAVAGA	PGPT0024180_2963	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024180-uppS|ispU-K00806	NA	NA
BMS010_09886	834			hypothetical protein	ATGAGCCGTGAACTCAGACTGCGGATCGTGTCCGCAATCGTCATGGCGGCGGTCATTCTGGCCGCGACCTGGTATGGCGGCATTCTGTTCCGCATCGTCGCGGGCCTTCTGGCGATCCTCATCTATTATGAATGGTCGACGATTACCCGGCTGTCGGAAACCAATTCGACCGGCAATGCCTGGGGCTGGTTCGCGGTCGCCGTCATCGCCGGCAATACGATATTCGGCGAATCCTCGCTCGATCTGCCGCTCTTATCCGGCTTCACGCTGACGGCGGCGCTGTTTCCAATTTTGCGCGGCAGAAACTGGTGGCTGGTGGGCGGCATTTTTTATGCGGGCCTGAGCGGCATATCGCTGGCAGCCATCCGTGGTGACGAGCTGACCGGCTTCGTGTCCATCCTGTTTATCTTCGCCGTTGTCTGGTCGACGGATATTCTCGCCTATTTCGTCGGACGCGCCATTGGCGGGCCGAAGCTTGCGCCTTCGATCTCGCCCGGCAAGACCTGGTCCGGCGCTATCGGCGGGGCGGTCGCGGCCGTGATCGGCGGCGGCGCGGTGTCCATGGCCTATCACGGCAGGATCAGCGTGCTGGTGCTGGGGCTCGCCCTTATCCTTTCGGTGTTCAGCCAGATCGGCGATCTCTTCGAATCTTTCGTGAAACGGCGTTTCCAGGTCAAGGATTCCAGTCATCTCATTCCGGGCCACGGCGGCTTCATGGACCGTGTCGACGGTCTTGTTTTCGCCTGCTTTACGGTATTCCTCATTGCTTTCGTGCATGCGGCGGCAACCGGCGACGTGCCCGGATCGGGCGGCGGTCTGTTGCCGGGTTTCTGA	MSRELRLRIVSAIVMAAVILAATWYGGILFRIVAGLLAILIYYEWSTITRLSETNSTGNAWGWFAVAVIAGNTIFGESSLDLPLLSGFTLTAALFPILRGRNWWLVGGIFYAGLSGISLAAIRGDELTGFVSILFIFAVVWSTDILAYFVGRAIGGPKLAPSISPGKTWSGAIGGAVAAVIGGGAVSMAYHGRISVLVLGLALILSVFSQIGDLFESFVKRRFQVKDSSHLIPGHGGFMDRVDGLVFACFTVFLIAFVHAAATGDVPGSGGGLLPGF	PGPT0007685_3935	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_CYTIDYLYLTRANSFERASE_ACTIVITY,PGPT0007685-cdsA|ynbB-K00981	NA	NA
BMS010_09887	1134	mmpA	COG0750	Metalloprotease MmpA	ATGAACACAGTAATGGCGGCGACCGGCTTTCTGACCGGCTATATCGTGCCCTTCATCCTGGTGCTGTCACTGCTCGTTTTTGTCCATGAAATGGGCCATTATCTGGTCGGTCGCTGGTGCGGCATCCGCTCCACCGCATTCTCCATCGGCTTCGGCCCGGAACTGATCGGTTTCACCGACAAACGCGGCACGCGATGGAAGATTTCGGCGATCCCTCTCGGCGGTTACGTCAAGTTCTTCGGCGATGAGGATGCGGCGAGCAAGCCGGATAGTTCCGGCCTGTCGCATATGTCGCTGGAGGAGAGGGCGCAGACGCTTTCCGGCGCAAAGCTGTGGAAAAGGGCGGCCACGGTTGCCGCAGGCCCGATCGCCAATTTCATTCTCGCGATTCTCATCTTCGCGGTGCTCTTCGGCATTTACGGCCGGATGATCGCCGATCCGGTCGTGGCGGAAGTCCGTGAAAACAGCGCGGCGGCTGCCGCCGGCGTGCAGCCCGGCGACCGGCTCATCGCGATCGATGGCGAAAAAGTGATGACCTTCGAGGATGTCCGCCGTTACGTCGGCATCCGGCCGGGCACGCCGATCACGGTGACGGTCGAAAGGGCGGGCGAGGAGCTGAAGCTGCCGATGGTCCCGACCCGCACCGAAACCACAGACCAGTTCGGCAACAAGCTGGAAATGGGCATTATCGGCATCGTCACCGACCAGACCAGCGGCAATTTCCGCCATATCGAATATTCGCCGTCCGAGGCGCTGGTCGAAGGCGTGCGTGAAACCGGCCACGTCATTACCGGAACATTCAACTATATCGGCAATCTCGTGACAGGGCGCATGAATGCCGATCAGCTTGGCGGTCCGGTGCGTGTGGCGCAGGCGTCCGGCCAGATGGCGACGCTCGGCATTTCCGCCGTTATCCAGCTTGCGGCTGTTCTTTCCGTCTCCATCGGTCTTTTGAACCTGATGCCTGTGCCGGTTCTGGATGGCGGGCATCTGGTGTTCTACGCCATCGAGGCCATTCGTGGCAGGCCGCTTGGCGCGGGCGCGCAGGAAGTCGCGTTCCGTATCGGGATGATGATGATTTTGGGTCTTATGGTTTTTGCAACATGGAATGATATCAGCAGCTTGATCGGCTGA	MNTVMAATGFLTGYIVPFILVLSLLVFVHEMGHYLVGRWCGIRSTAFSIGFGPELIGFTDKRGTRWKISAIPLGGYVKFFGDEDAASKPDSSGLSHMSLEERAQTLSGAKLWKRAATVAAGPIANFILAILIFAVLFGIYGRMIADPVVAEVRENSAAAAAGVQPGDRLIAIDGEKVMTFEDVRRYVGIRPGTPITVTVERAGEELKLPMVPTRTETTDQFGNKLEMGIIGIVTDQTSGNFRHIEYSPSEALVEGVRETGHVITGTFNYIGNLVTGRMNADQLGGPVRVAQASGQMATLGISAVIQLAAVLSVSIGLLNLMPVPVLDGGHLVFYAIEAIRGRPLGAGAQEVAFRIGMMMILGLMVFATWNDISSLIG	PGPT0011685_3149	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-PILUS|FIMBRIAE_SYSTEM	MOTILITY-PILUS_SYSTEM,PGPT0011685-rseP-K11749	NA	NA
BMS010_09888	2325	bamA_3	COG4775	Outer membrane protein assembly factor BamA	ATGAAGGCTGGTTCAAGATTTTTGAACGCTGTGTCGGCGGTTGCTCTGTCTGCCGGTGTTGCTTCGGTTGCGGGCCTTGGCGTGCTTGCCTCTGCTGGCGCTGCAAATGCGGCCGTCATCAGCAGGATCGATGTTCGCGGGGCCGACCGGTCCGGTGCGGACTCCGTGCGTTCCAACATCACCATTGCGCCGGGTAAGAACTTTTCCAATTCGGACATCGATGAATCGGTGAAGCGTCTTTACGCCACCGGTTACTTCTCGAATGTCTCCATGCGCGTTTCCGGCAGCACGCTGGTCGTGACCGTCAATGAGAACCAGCTCGTCAACCAGGTGGTCTTCAACGGTAACCGCAAGATCAAGGACGACAAGCTCGCTGGCGTTGTGCAGACCCAGTCCCTCGGCCCGTTCAATCAGGCCATCGTGACTGCGGATATTGCCCGCATCAAGGAAGCCTACGCCGCCATCGGCCGTAGCGATGTTGAAGTCACCACGCAGACCGTTTCCGTCGGTCAGGGCCGTGTGAACATTGCTTTCGTCATCAATGAAGGCGAGCGCACGAAGATCGGCCGCATCGATTTCATTGGCAACAATGCCTATAGCGATGGCCGTCTGGCCGCCGTTATCAATACCAAGAAGTCCAACATGCTGTCGTTCCTGACGCGTAAGGACGTCTATAACGAGGACAAGCTGCGCGCCGACGAAGAGGCGCTGCGCCAGTTCTATTACAACCGCGGTTATGCCGACTTCCGTGTCGTGTCCTCCGAGGCTGTGCTGGACGAGTCTAAGAACGAATACACCATCTCCATCACGGTCGATGAAGGTCAGCGTTACAACTTCGGCAACGTCGCGGTCGAATCGACCGTTCCGGGCGTCGATGGTTCGGAACTTCAGGGCCTCGTGGAAACCCACCAGGGCGGAAGCTACAGCGCCAAGGAAGTTCAGCAGAGCATGGAAGCGATTTCCAAGCGCGTGGCCGGCGAAGGTTATCCCTTTGCCCGCGTAACGCCGCGCGGCGACCGCGACATGGCTGGCAACACCATCGGTGTGACCTATATCGTCGATCAGGGCGAGCGCGCCTATGTCGAGCGTATCGAAATCCGCGGCAACACCCGTACGCGTGACTACGTCATTCGTCGCGAGTTCGATATTTCCGAAGGCGATGCATTCAACCAGACGGTCATCACGGCTGCAAAGCGCCGTCTCGAAGCGCTCGGCTATTTCTCGAAGGTCAATATTTCGACCGCCGGCGGCAGCGCGCCTGACCGCGTCGTTATCGTTGTTGACGTAGAAGATCAGTCGACGGGTTCGTTCGGTATCGGCGCCGGCTACTCGCAGAACGACGGTGTGCTGCTCGAAGCCTCCATCGAAGAGAAGAACTTCCTCGGCCGCGGTCAATACATTCGTCTCGCCGCCGGTGCGGGTGAAGATGATGCGCGCAGCTATACGCTGTCCTTCACGGAACCCTATTTCCTCGGCTACCGTCTTGCCGCAGGTTTCGACCTGTTCAAGAGCCAGAGCCGCAGCGAAGACTATTATGACTATGACGAGCAGGGCTTCTCGCTGCGCGTGACCGCGCCGATCACCGAAGACCTTTCGACGACGTTCAAGTATACCTACAAGCAGCTCAATTATGACGGCGAAGGCGACTGGGAAACCGGCAGCAACCTTGCTGCTCCCTATAAGGACCTGATCCGTGGCGGTGACTGGACGCAGTCCATCATTTCGAACACGCTGAACTACAATACGCTCGACGACCGCAACATGCCGCGCGAAGGCTGGCAGGCTGCTTTGACGAACGAATTTGCAGGTCTCGGCGGCGATTCCGAATATTACAAGATTTACGCCAAGGCTCGCTTCTTCTACACGCTCTCCGATGAGTACGATGTCATCGGCTCGCTGACCGGCCAGGCCGGTCACGTGGTGCCGACAGGCGACAATCTGCTGGTATTCGATCAGTTCAAGTTCGGTGGCCGTCAGGTTCGCGGCTTCAAGAACGATGGTATCGGTCCGCGCATCGGTTCCGACTCCATCGGCGGCACCACCTATTTCGCCGCTTCTGCTGAAGTCACGGCTCCGATGCCTGGCGTTCCGGAAGATTTCGGCCTTCGCCTTGCTGGCTTCGTGGATGCCGGCACGCTCTATGGCAACAAAGTTGCCAACAGCGCCGGTGTGAAGGACGACAACTCCATCCGCGCATCCGCCGGTATCGGCGTGATGTGGGCGTCGCCCTTCGGTCCGATCCGCGTCGACTACGCCGTGCCTTTCGCCAAGGAAGACTACGACGAGGAACAGCGTTTCCGGTTTGGCATGTCCAACACTTTCTGA	MKAGSRFLNAVSAVALSAGVASVAGLGVLASAGAANAAVISRIDVRGADRSGADSVRSNITIAPGKNFSNSDIDESVKRLYATGYFSNVSMRVSGSTLVVTVNENQLVNQVVFNGNRKIKDDKLAGVVQTQSLGPFNQAIVTADIARIKEAYAAIGRSDVEVTTQTVSVGQGRVNIAFVINEGERTKIGRIDFIGNNAYSDGRLAAVINTKKSNMLSFLTRKDVYNEDKLRADEEALRQFYYNRGYADFRVVSSEAVLDESKNEYTISITVDEGQRYNFGNVAVESTVPGVDGSELQGLVETHQGGSYSAKEVQQSMEAISKRVAGEGYPFARVTPRGDRDMAGNTIGVTYIVDQGERAYVERIEIRGNTRTRDYVIRREFDISEGDAFNQTVITAAKRRLEALGYFSKVNISTAGGSAPDRVVIVVDVEDQSTGSFGIGAGYSQNDGVLLEASIEEKNFLGRGQYIRLAAGAGEDDARSYTLSFTEPYFLGYRLAAGFDLFKSQSRSEDYYDYDEQGFSLRVTAPITEDLSTTFKYTYKQLNYDGEGDWETGSNLAAPYKDLIRGGDWTQSIISNTLNYNTLDDRNMPREGWQAALTNEFAGLGGDSEYYKIYAKARFFYTLSDEYDVIGSLTGQAGHVVPTGDNLLVFDQFKFGGRQVRGFKNDGIGPRIGSDSIGGTTYFAASAEVTAPMPGVPEDFGLRLAGFVDAGTLYGNKVANSAGVKDDNSIRASAGIGVMWASPFGPIRVDYAVPFAKEDYDEEQRFRFGMSNTF				NA	NA	NA	NA	NA
BMS010_09889	1068	lpxD_3	COG1044	UDP-3-O-(3-hydroxymyristoyl)glucosamine N-acyltransferase	ATGGAATACAACGCCTTTTTTCCGCCCCACGAGGGACTGCGATTGAAAGATATCGCAGACCGTTTTGGGGCGGAACTGTCTGATGACGCGGCGGGAGAGCGGATCATTCGGTCCGTTGCGCCGGTCTACCGGGCAAAACCCGATCAGCTCTGCTATATTCTTTCGCGCAAGAACCGCGATGAGCTGCAGACCTGCGACGCTGGCGCCGTCATTTGTGACGCCGCACTTGTAGACATGCTTCCGTCTCACACACCTGCGCTGATATCGAAAAACCCGCACACGCTTTTCGCGCAGGTGGGTGCCTTGCTGCATCCTTCCGCCATGCGGCCTGGTCCGATTGCGCGAATGGAAGCTGAAATTTCCCATGCTGCGCATGTCGATCCATCCGCGAAGCTGGAGGCGGGTGTCATCGTCGAGTCGCTCGCCGTGATTGGAGCTGGCGCCCATATCGGCGCGGGCACGCGCATCGGTCCCGGCGTCATCATCGGGCAGGATGTGCAGATCGGACGCGATTGCACCATTGCCGGGGGCGCAAGCGTTCTTGCAGCCCTCATCGGTAATAATGTGATTATCCATAACGGTGCGCGCATCGGTCAGGACGGTTTCGGTTATGCGCCCGGTCCGCGCGGCATGTTGAAGATCGTGCAGATCGGCCGGGTCATCATTCAGGACAATGTCGAGATTGGCGCCAACACCACGATCGATCGCGGCACCATGGATGACACGGTCATCGGCGAAGGCACCAAGATCGACAATCAGGTTCAGATCGGCCACAACGTCCGCATCGGCCGCCATTGCGGCATCGTCAGCAAGGTCGGCATTGCGGGCAGCACCCGCATCGGCGACGGTGTGATGATTGGCGGCGCGGCCGGCATCAATGGCCATATCAACATTGGCGACGGCGTACAGATCGCGGCGATGAGCGGCGTTGTGGCGGACGTTCCGGCAGGCGCCCGTTATGGCGGCACGCCCGCGCGTCCGATGAAATATTTCCTGCGCGACATGGCCGAAATTCTGGCACGCGCTGAAGGGCGTGATAAAAAAACAGGAGAGAAAAACAATGACTGA	MEYNAFFPPHEGLRLKDIADRFGAELSDDAAGERIIRSVAPVYRAKPDQLCYILSRKNRDELQTCDAGAVICDAALVDMLPSHTPALISKNPHTLFAQVGALLHPSAMRPGPIARMEAEISHAAHVDPSAKLEAGVIVESLAVIGAGAHIGAGTRIGPGVIIGQDVQIGRDCTIAGGASVLAALIGNNVIIHNGARIGQDGFGYAPGPRGMLKIVQIGRVIIQDNVEIGANTTIDRGTMDDTVIGEGTKIDNQVQIGHNVRIGRHCGIVSKVGIAGSTRIGDGVMIGGAAGINGHINIGDGVQIAAMSGVVADVPAGARYGGTPARPMKYFLRDMAEILARAEGRDKKTGEKNND	PGPT0022340_504	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022340-lpxD-K02536	NA	NA
BMS010_09890	468	fabZ_2	COG0764	3-hydroxyacyl-[acyl-carrier-protein] dehydratase FabZ	ATGACTGAAGAAACGAAGACGGCGCTCGGCGCGGCTGACATTCTGGAAGTCATGAAGCTTCTGCCGCATCGTTACCCATTCCTGCTGATCGACAAGATCATCGAGATCGACGGTAACAACTCGGCGATTGGCATCAAGAACGTCACGGTCAACGAACCGCATTTCACCGGTCATTTCCCGGACCGGCCAATCATGCCGGGCGTTCTGATCGTCGAAGCCATGGCCCAGACGGCGGGTGCGATCTGCGCTCGCAGCCAGGGTGAGGGCGGTCACCTGGTTTACTTCATGACAATCGACAATGCGCGTTTCCGTAAACCGGTAATCCCTGGCGATCGTCTGGAAATCCATGTAGTCAAGCAGCGCCAGCGCGGTAATGTCTTCAAATTCCATTGCGAAGCGAAGGTGGACGGCGCGCTGGTGGCGGAGGCCGATGTCGGCGCCATGATGATCCCCGAGGATCAGCAATGA	MTEETKTALGAADILEVMKLLPHRYPFLLIDKIIEIDGNNSAIGIKNVTVNEPHFTGHFPDRPIMPGVLIVEAMAQTAGAICARSQGEGGHLVYFMTIDNARFRKPVIPGDRLEIHVVKQRQRGNVFKFHCEAKVDGALVAEADVGAMMIPEDQQ	PGPT0008365_562	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008365-fabZ-K02372	NA	NA
BMS010_09891	816	lpxA_2	COG1043	Acyl-[acyl-carrier-protein]--UDP-N-acetylglucosamine O-acyltransferase	ATGAGCACGATTGCCGCCTCGGCCAGAATTCACCCGAGCGCCGTGATCGAAGACGGCGCGGTGATCGGTGAAAACGTCGTCATCGGCGCGCTGAGCTATGTCGGCGCGAAAGTCACGCTGCATGACGATGTTCAGCTGCACAATCACGCCGTTGTTTCCGGCCTGACCGTGATCGGCCGTGGCTCGGTCGTCCATCCCATGGCGGTCATCGGCGGCACGCCGCAGGCAATTCGCCATGACGGTTCGGAAACGACCCTCGAGATCGGTGAGCGCTGCATCATGCGTGAAGGCGTGACGATGAACGCCGGCAGTTCCGATGGCAGCAGCAAGACCATTATCGGTGACGATAATCTCTTCCTCGCCAATTCGCATGTGGCGCATGATTGCCGCCTCGGCAGCCACATCGTCCTGTCTAACAATGTGATGCTGGCGGGCCATGTCACCATTGAGGACCGCGCCATTCTCGGCGGTGGCTGCGCCGTGCACCAGTTCACCCGCATCGGCCGCCAGGCCTTCATCGGCGGACTTTCGGCTGTCAATTACGATGTCATCCCCTATGGCATGCTGAATGGCAATCCCGGTATCCTCGGCGGCCTGAACGTCGTCGGCATGACCCGTGCCGGCATCGAGCGCGCCGATATTCACAAGGTCAGACGCGTCTACAAGGCGATTTTCGAGGCCGAAGGCACGATCCGCGGCAATGCGGCGGCCATCGACCGTAACGACTATCTGGATTGCCCGCAGGCGCTTGAAGTCATCGATTTCATCGGTGCGGATAGCGACCGCGCGATCTCTTCGCCCAACCGGGGCAAGTGA	MSTIAASARIHPSAVIEDGAVIGENVVIGALSYVGAKVTLHDDVQLHNHAVVSGLTVIGRGSVVHPMAVIGGTPQAIRHDGSETTLEIGERCIMREGVTMNAGSSDGSSKTIIGDDNLFLANSHVAHDCRLGSHIVLSNNVMLAGHVTIEDRAILGGGCAVHQFTRIGRQAFIGGLSAVNYDVIPYGMLNGNPGILGGLNVVGMTRAGIERADIHKVRRVYKAIFEAEGTIRGNAAAIDRNDYLDCPQALEVIDFIGADSDRAISSPNRGK	PGPT0022320_480	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0022320-lpxA-K00677	NA	NA
BMS010_09892	867	lpxI	COG3494	UDP-2,3-diacylglucosamine pyrophosphatase LpxI	GTGACAGGCGGCGGGCGTCTCGCCATTGTGGCCGGCAGCGGCCAGCTGCCTTTTTATGTGGCGGCCGCCGCCCGTGAGATGGGCGAAAACCCTTTCATCGTGCGCCTGCGCGATGATTCCCGTTTCGACTGGAGCGGTTTCGACAATGCCGTCATCAGTGTCGGCGATGTCGCCGGGCTCGGCCGTCTGCTGCGCGAAAAGCGGGTAGACCGTGTCGTGCTGTCCGGCGCCGTGGCGCGGCGGCCGGAATGGCGCGAGATCCGCCCCACACTCGGCATCCTGCTCAAACTGCCGTCCATTGTCAGGACGCTGCTGTCGAGCGGCGACGACGCCGTTCTGCAGATGGTCATCAAGATCATCGGCACGCTCGGCGCAAAAGTCATCGGTGCTCACGAGATCGCCCCCGGCCTGCTGGCCGCTATAGGCCCTTTCGGTGCGCAAAAACCTGCCGAGGATGATCTGCGCGATATACGCAAGGCGGCTGAGGCCGCGCTTGCACTTGGCAAGCTCGATGTGGGGCAGGGCGCCGTCGCCGTCGGCGGCCGCATTGTCGCGCTGGAAGGCGTCGAGGGCACGGATGCCATGCTGGCGCGCGTCGCGGCATTGCGCGCCGAAGGACGGATATCCCCGCGCCGCAGGGGTGTGCTCGTAAAGCTGTGCAAGCCGCAGCAGGATGTGCGCGCCGACCTGCCGACAATCGGTGTGGAAACGGTAGAGAATGCGCGAAAAGCCGGGCTGGCTGGTATTGCCGTCGAAGCCGGGCGGGCGCTGGTGCTTGATCGCGAGGCGATGTTGAAAGCGGCCGATGAGGCGGGCATATTCGTCTGCGGCATCGATACATCACTTGGCGGAGACATGATCGGATGA	MTGGGRLAIVAGSGQLPFYVAAAAREMGENPFIVRLRDDSRFDWSGFDNAVISVGDVAGLGRLLREKRVDRVVLSGAVARRPEWREIRPTLGILLKLPSIVRTLLSSGDDAVLQMVIKIIGTLGAKVIGAHEIAPGLLAAIGPFGAQKPAEDDLRDIRKAAEAALALGKLDVGQGAVAVGGRIVALEGVEGTDAMLARVAALRAEGRISPRRRGVLVKLCKPQQDVRADLPTIGVETVENARKAGLAGIAVEAGRALVLDREAMLKAADEAGIFVCGIDTSLGGDMIG	PGPT0022375_135	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022375-lpxi-K09949	NA	NA
BMS010_09893	1185	lpxB_2	COG0763	Lipid-A-disaccharide synthase	ATGACGGCGGCACTAAAAGTGGCGGTCATAGCCGGGGAAGTATCCGGCGATCTTTTAGGCGCGGATCTGATCCGCTCGCTCAAGGCCCAATATACGGGGCCTGTCGAGCTGGTCGGTGTCGGCGGCGAAGCGCTGGAAGCGCAGGGACTGGTTTCCCTGTTCGACTATTCCGAACTCTCCATCATGGGCTTCACGCAGGTTCTGAAAAAACTGCCGAAGCTCATTGCGCGGATCAACCAGACCGCTCAGGCAATCGCCGCCGCAAAGCCCGATATTCTCCTGATCATCGACAGCCCGGATTTCACCCATCGCGTTGCGAAAAAAGTCCGGCAGCAATTGCCGCATCTGCCGGTCGTCAATTACGTCTGCCCCAGCGTCTGGGCGTGGAAGGAATATCGCGCCACGGCGATGCTCTCCTATGTCGATCACGTGCTGGCGCTGCTGCCCTTCGAGCCGGAAGCCATGCGCCGTCTCGGTGGTCCGCCGACAACTTTTGTTGGTCATCGCCTCAGCGTCGACCCCGATGTGCTCTCCGTGCGTCAAAAGCGGGCGGAACGTTCTCTGCCGGCGAATGGCGAACCGAAGACCATTCTCCTCCTGCCAGGGTCGCGTTCCACGGAGACGACGCGGTTGATGGAGCCGTTTCAGGCGGCAGCGAGAGCTTTTGTGGAGCGCAACGGTCCGACGCGGTTCCTGTTGCCCACCGTGCCGCGTCAGGAAAAACGCATCCGCGAACTGGCAGCATCATGGCCGGAGGATATCAGGCCCGAAATCGGTATCGATTCCGCTTTTAAATGGAATGCCTTTGCTGAAGCCGATGCGGCGATTGCCGCTTCCGGCACGGTCATTCTGGAACTCGCGCTCGCGGGCGTGCCGACGATCTCGGTCTACAAGACGGACTGGATTTTCACCATGCTGAGCAAGCGGGTGAAGACCTGGACAGGGGCTCTGCCGAACCTGATTGCCGATTACGCCGTCGTGCCGGAATATTTCAACGAGGTGGTAAGGGCAGGTTCGATGCTGCGCTGGGCAGAGCGTCTGTCTTCCGACACCACCGAGCGGCGGGCGATGCTCGAAGGTTATGCACTCGTGCAGCAGCGTTTGCACACGGATGTGCCTCCGGGCGAAACCGGCGCGCGCATTCTTCTGGATGTCCTGAAGAGCAAAGCTCGTCCCTCACAATAA	MTAALKVAVIAGEVSGDLLGADLIRSLKAQYTGPVELVGVGGEALEAQGLVSLFDYSELSIMGFTQVLKKLPKLIARINQTAQAIAAAKPDILLIIDSPDFTHRVAKKVRQQLPHLPVVNYVCPSVWAWKEYRATAMLSYVDHVLALLPFEPEAMRRLGGPPTTFVGHRLSVDPDVLSVRQKRAERSLPANGEPKTILLLPGSRSTETTRLMEPFQAAARAFVERNGPTRFLLPTVPRQEKRIRELAASWPEDIRPEIGIDSAFKWNAFAEADAAIAASGTVILELALAGVPTISVYKTDWIFTMLSKRVKTWTGALPNLIADYAVVPEYFNEVVRAGSMLRWAERLSSDTTERRAMLEGYALVQQRLHTDVPPGETGARILLDVLKSKARPSQ	PGPT0022325_1061	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022325-lpxB-K00748	NA	NA
BMS010_09894	711			hypothetical protein	ATGCAAGATAGCCATACATCAGAAAGCGCCCAGAGCGCGGTAGAAGACGCCATCATCTCCGGCATTCTTTCCGCGCGCATTCGTCCGGGAACCCGCCTCAGCGAGAACCAGCTCGCCAGCCTTTTCAGCGTGTCTCGCACGCGCATCCGCGAGGCCATGATGCGGCTGGAGACGCGCGGCATCGTCACCGTCAGCGCGCGCCGCGGCTGGTTCGTGGTGGAGCCTTCCGCCGAAGAATCCATCAAGGTCTATGAGGCGCGGCGCATCATCGAATATGGGCTTTTGCGCAATCTTTCCGGCGTCAGCCCGGAAGGCATCGCCATCCTCGCCGATCATCTCGATGAGGAGAAGGCGGCGATTGCCAAAGGCGACCGCCAGCGCCTGACCTGCCTGATGGGCGATTTTCACATTCGCATCGCCGAAATCGCTGGAAACGACATCATCGTCGAAACGCTGCGCGACCTGACGGCCAGAACCATCCTCATCTCCATGCTCTATCAGTCCGATTTCCATGCGCAGCAATCGCATGACGGACATTGCCGTATCTTCGAAGCGATCAAGGCGGCCGATTTCCATGGCGCCGCCGAACTCGCCATCCGCCATCTCGACGAAGTCGAAACCGGTCTCGATCTCACCCGCAGGCCAGATCCGCTCTACGAGCTTCGCAACTCCCTTTCACTTCAGCCTCTTTCCTCAAGCCCCAAGGAGTAA	MQDSHTSESAQSAVEDAIISGILSARIRPGTRLSENQLASLFSVSRTRIREAMMRLETRGIVTVSARRGWFVVEPSAEESIKVYEARRIIEYGLLRNLSGVSPEGIAILADHLDEEKAAIAKGDRQRLTCLMGDFHIRIAEIAGNDIIVETLRDLTARTILISMLYQSDFHAQQSHDGHCRIFEAIKAADFHGAAELAIRHLDEVETGLDLTRRPDPLYELRNSLSLQPLSSSPKE				NA	NA	NA	NA	NA
BMS010_09895	786	fliY_4	COG0834	L-cystine-binding protein FliY	ATGATTTCCAGACGTTCATTGCTTGCCATAGCCGCGATTTCCGCAACGCTCGGTTTTTCGCCCGCAGCCTTTGCCGATGCGCTCGGTGATATCACCTCCCGCGGCACGATCCGCGTTGCCGTCCCGCAGGATTTCCCACCCTTCGGCAGCGTCGGCACGGATATGGCCCCGCAGGGCTACGATATCGACGTCGCCAATCTGATCGGCGAGAAGCTGGGCGTGAAGGTCGAACTCGTGCCGGTCACCAGCGCCAACCGCGTTCCCTATCTCCAGACCAACAAGGTCGATCTCGTGATTTCGAGCCTCGGCAAGAACCCGGACCGTGAAAAGGTCATCGACTTCTCCACCGCCTATGCGCCCTTCTTCAACGGCGTGTTCGCTCCGGATTCGGTTGCCGTCACCAAGGCGGAAGATTTGTCCGGCAAGACCATTGGCGTCACCCGTGGTGCCGTCGAGGATCTGGAGCTGACGAAGGTGGCGCCTGCCGATACGACCATCAAGCGTTATGAGGACAATAACGGTACGATCTCCGCCTTCCTCGCCGGCCAGGTAGAAGCCGTCGCCACAGGCAATGTCGTGGCCGCCGCCATTCTCGCCAAGAACCCGCCAAAGCGCCCCGAGCTGAAGTTCCTGATCAAGAATTCGCCCTGCTATATCGGTCTGAACAAGGAACAGCCGGCGCTGCTTGAAAAGGTCAACGCCATCATCGCCACCGCAAAGACCGATGGTTCCTTGAACACGATCGCGCAGAAATGGCTGAAAACCGACCTGCCCAAGGATCTCTGA	MISRRSLLAIAAISATLGFSPAAFADALGDITSRGTIRVAVPQDFPPFGSVGTDMAPQGYDIDVANLIGEKLGVKVELVPVTSANRVPYLQTNKVDLVISSLGKNPDREKVIDFSTAYAPFFNGVFAPDSVAVTKAEDLSGKTIGVTRGAVEDLELTKVAPADTTIKRYEDNNGTISAFLAGQVEAVATGNVVAAAILAKNPPKRPELKFLIKNSPCYIGLNKEQPALLEKVNAIIATAKTDGSLNTIAQKWLKTDLPKDL	PGPT0020800_11883	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
BMS010_09896	672	yecS_11	COG0765	L-cystine transport system permease protein YecS	GTGAAATACACATTCGATTTTGGATGGCTTCTCGACTATTATCCGCAGATCGCCAAAGGCATCGCCGTTACGCTGGAATTGATTGCCATCGGCGGCGTTCTCGGCATCGCCCTCGGCATCGTCTGCGCCTGGGTGCGCGCGCTAGGCCCCAAATGGCTGCGGCCGCCGGTCGCGACCTATGTGGAGCTCATTCGCAACACGCCATTCCTCATACAATTGTTTTTTATCTTTTTCGGCCTGCCATCGCTTGGCCTGCAATTGTCGGAACTGACCGCCGCCAACATCGCCATGGTGGTCAATCTCGGGGCCTATAGCTGCGAAATCATCCGGGCCGGTATTCAGGCGACGCCAAAGGGGCAGTTCGAGGCGGGGGCAAGCCTTGCCATGACCCGCTTTGAAACCTTCCGGCATGTGGTTCTGGTGCCCTCGCTGCAACGCATCTGGCCGGCGCTTTCGTCGCAGGTGGTGATCGTCATGCTCGGCTCTTCGGTCGTATCGCAGATCGCCGCCGAGGATTTGACCTTCGCGGCCAATTTCATCCAGTCGCGCACCTTCCGCGCCTTCGAAGCCTATATGGTCTCCACCGTCATTTATCTCGTGCTCGCCATCCTTCTCCGGCAGGTGCTGGTGATGGGCGGCAACCTCATCTTTCCGCGCAGGAGTGTCCGATGA	MKYTFDFGWLLDYYPQIAKGIAVTLELIAIGGVLGIALGIVCAWVRALGPKWLRPPVATYVELIRNTPFLIQLFFIFFGLPSLGLQLSELTAANIAMVVNLGAYSCEIIRAGIQATPKGQFEAGASLAMTRFETFRHVVLVPSLQRIWPALSSQVVIVMLGSSVVSQIAAEDLTFAANFIQSRTFRAFEAYMVSTVIYLVLAILLRQVLVMGGNLIFPRRSVR	PGPT0020795_7333	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
BMS010_09897	660	yecS_12	COG0765	L-cystine transport system permease protein YecS	ATGATCGAATTCTCCACCTGGGATATTCTCAGAAACCTGCTGCTCGCCACGCGCTGGACCGTGCTGCTCTCACTCGTCTCCTTCGTCGGCGGTGGTCTGGTGGCGCTGCTTCTGCTCTTCATGCGCATTTCCCGGAAAAAATCGATGCGGGCTTTCGCACGCTATTATGTCGAGCTTTTCCAGGGCACGCCGCTTTTGATGCAGCTGTTCATCGCCTTTTTCGGCCTCGGCCTGTTCGGCATCGATGTGCCGGCTTGGCTGGCGGCGGGCCTCACGCTGATCCTGTGGGCGGCTGCCTTCCTCACCGAAATCTGGCGCGGCTGCGTTGAATCTGTCGCCAAAGGCCAGTGGGAGGCATCGGCAAGCCTTGCCATGGGGCGTCTGCAGCAGATGCGTTACGTCATCCTGCCGCAGGCCATGCGGGTCGCCATTCCGCCAACCGTCGGTTTCTTCGTGCAGGTCATCAAGGGAACGGCCGTAACCTCGATCATCGGTTTCGTCGAACTGTCCAAGGCAGGCACCGTGGTCACCAACGCCACCTTCCAGCCCTTCACCGTTTATGGCCTCGTCGCCCTCATCTATTTCGCGCTGTGCTGGCCTCTGTCTAAGAGCAGCCAGATACTCGAAAGGAAGCTCAATGTCGCTCATCGAAATCACTGA	MIEFSTWDILRNLLLATRWTVLLSLVSFVGGGLVALLLLFMRISRKKSMRAFARYYVELFQGTPLLMQLFIAFFGLGLFGIDVPAWLAAGLTLILWAAAFLTEIWRGCVESVAKGQWEASASLAMGRLQQMRYVILPQAMRVAIPPTVGFFVQVIKGTAVTSIIGFVELSKAGTVVTNATFQPFTVYGLVALIYFALCWPLSKSSQILERKLNVAHRNH	PGPT0020795_9473	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
BMS010_09898	735	glnQ_13		Glutamine transport ATP-binding protein GlnQ	ATGTCGCTCATCGAAATCACTGAAGTCCGCAAAAGCTATGGCAGCAACGAGGTTCTGAAGGGCATCAACCTCGATGTGGAGCCCGGTGAGGTCATCGCCATCATCGGCAAAAGCGGATCGGGAAAATCGACCCTGCTTCGCTGCATCAATGGGCTAGAGACAATTTCGGCCGGTTCCATATCGGTCGCCGGCGCGCAGCTTCTCGAAGACGATCTGCATCTGAAAGCCCTGCGGCTGAAGGTCGGCATGATCTTCCAGCAGTTTAACCTTTTCCCGCACCAGACCGTCGGCGGCAACGTCATGCTGTCGCAGACCGTGGTGAAGAAGACGCCGAAACCGGAAGCGGAAGCCGTTGCCCGCAAGATGCTGGAACGGGTCGGGCTGGCGCATAAATTCGATGCCTATCCCGATGAATTGTCCGGCGGCCAGCAACAGCGCGTCGCCATTGCCCGCGCTCTCGCCATGCAGCCGATTGCGCTGCTGTGCGACGAGATCACCTCGGCACTCGATCCCGAATTGGTCTCGGAGGTGCTGGCGGTGGTGCGTGAACTTGCCGCTGAAGGCATGACGCTCCTGATGGTGACGCATGAAATGAAATTTGCGCGTGATGTCTGCTCCCGCGTCGTCTTCATGCATGAGGGCAGGGTGCATGAAATTGGCCCGCCGGAGGAGGTTTTTTCCAATCCCGCAACACCCGAACTCAAGCAGTTCCTGGGCGTTGCGGCACGCCACTGA	MSLIEITEVRKSYGSNEVLKGINLDVEPGEVIAIIGKSGSGKSTLLRCINGLETISAGSISVAGAQLLEDDLHLKALRLKVGMIFQQFNLFPHQTVGGNVMLSQTVVKKTPKPEAEAVARKMLERVGLAHKFDAYPDELSGGQQQRVAIARALAMQPIALLCDEITSALDPELVSEVLAVVRELAAEGMTLLMVTHEMKFARDVCSRVVFMHEGRVHEIGPPEEVFSNPATPELKQFLGVAARH	PGPT0020790_4412	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020790-ABC_PA_A-K02028	NA	NA
BMS010_09899	1290	gltA_2	COG0372	Citrate synthase	ATGACGGAAAAAAGCGCTACAGTGACACTTGGCGAAAAGCAGGTCGAACTCCCGGTCAGGGAAGGCACGATCGGACCAAGCGTCGTCGATATCGCCACGCTGTACAAGCACACGGGCTCTTTCACTTACGACCCGGGTTTCACGTCGACGGCCTCCTGCGAATCCAAGATCACCTATATTGACGGTGACGAAGGCGTTCTCCTGCATCGTGGTTTCCCCATCGAGCAGCTCGCCGAACAGGGTGACTTCCTGGAAACCTGCTATCTCCTGCTTTACGGCGAACTACCGACCGCTGCGCAGAAGAAGGACTTCGACACCCGCGTCACGCGCCACACCATGGTGCATGAGCAGATGAGCCGCTTCTTCACCGGCTACCGACGTGATGCGCACCCGATGGCCGTCATGTGCGGCACGGTCGGCGCGCTCTCGGCCTTCTACCACGACTCGACCGACATCACCGATCCGCACCAGCGCATGGTCGCTTCGCTGCGCATGATCGCCAAGATGCCGACGATCGCCGCCATGGCCTACAAGTACCATATCGGCCAGCCCTTCGTTTACCCGAAGAACGATCTGGATTACGCCTCCAACTTCCTGCACATGTGCTTTGCCGTGCCTTGTGAGGACTACAAGGTCGATCCGGTTCTGGCGCGCGCCATGGACCGCATCTTCATCCTGCATGCCGATCACGAGCAGAACGCCTCCACCTCCACGGTGCGTCTTGCCGGTTCTTCGGGTGCAAACCCGTTCGCCTGTATCGCAGCTGGCATTGCCTGCCTCTGGGGCCCGGCTCACGGCGGCGCCAACGAAGCGGCGCTCAACATGCTCAACGAAATCGGCACGGTTGACCGTATTCCGGAATATATCGCCCGCGCCAAGGACAAGAACGATCCGTTCCGCCTGATGGGCTTTGGTCACCGCGTCTACAAGAACTACGACCCGCGCGCCAAGATCATGCAGAAGACGATGTACGAAGTGCTGGAAGCCACCGGCAACTCCGACGATCCGATCATGCAGGTCGCGCTGGAGCTGGAAAAGATCGCCCTTTCCGACCCCTACTTCGTCGAAAAGAAGCTTTACCCGAATGTCGACTTCTATTCGGGCATCACGCTGAAGGCGCTCGGCTTCCCCACGACCATGTTCACCGTTCTCTTCGCTCTTGCCCGCACCGTCGGCTGGATCGCACAGTGGAACGAAATGATCGAAGATCCGCAGCAGCGCATCGGCCGTCCGCGCCAGCTCTATACGGGCGCCGGCAAGCGCGACTACGTTCCGGTTTCCAAGCGCTAA	MTEKSATVTLGEKQVELPVREGTIGPSVVDIATLYKHTGSFTYDPGFTSTASCESKITYIDGDEGVLLHRGFPIEQLAEQGDFLETCYLLLYGELPTAAQKKDFDTRVTRHTMVHEQMSRFFTGYRRDAHPMAVMCGTVGALSAFYHDSTDITDPHQRMVASLRMIAKMPTIAAMAYKYHIGQPFVYPKNDLDYASNFLHMCFAVPCEDYKVDPVLARAMDRIFILHADHEQNASTSTVRLAGSSGANPFACIAAGIACLWGPAHGGANEAALNMLNEIGTVDRIPEYIARAKDKNDPFRLMGFGHRVYKNYDPRAKIMQKTMYEVLEATGNSDDPIMQVALELEKIALSDPYFVEKKLYPNVDFYSGITLKALGFPTTMFTVLFALARTVGWIAQWNEMIEDPQQRIGRPRQLYTGAGKRDYVPVSKR	PGPT0001455_2796	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001455-CS|gltA-K01647	NA	NA
BMS010_09900	2430			hypothetical protein	ATGCAGGGCGATTTGCCCGGCACGGCGGAAATCCTGTTTCCCGTTCACCGTGCCGGCGATCTTGTGGCTTATGATCTGCCCACACTTGTCGGCAAGCCGAACCTGCGAGCTGTCGCCTCCCAAAAAATCGCCGTATGCGTCGCCGAGGAGCGCGCATTCGGCCACGATTTTCTTTTCGTTCCGGTTTTCATCGGCTGCGGTGCGGTCCTCTGGTTTTCCCTCAACACCTCGCCTTCATTCTCCGTTCTGGCGATCACATGTCTTATCGCCACCGGTCTGGCGTTTTTCGCGAAATATCGCTCGGGCTTTGCAGCCACGGCCTGTGGCCTTCTCGCGCTGCTTTTGCTGGGCATGCTTTTCGCCGGGGTCGAAACGTGGCGTGCGGGAACAGTGGTGCTGGATACGCCCGTCACCACCACCATCACCGGCACGGTGACCCGAAGGGAGGTGGATGCGCGCGGGGACTGGCGATATGTGGTGCAACTCACCGCAACGGAAGCGCCGGGATTGTCACGCCCGCCGGGGAAGGTCTCGCTCCTGTCACGTGGGGGAGGCGAGCCCGCCGCGCTCGGCGCGACCATTCGTGGCAAGGCGCGGCTTTCGCCGCCATCCGGCCCGGCCCTGCCTGGGCTCAACGATTTCGCCTTCGCCTCCTATTTCAGGGGCATAGGCGCGACCGGATTCTTCTATAAGCCGCCACAGACGGTAACTCCACCCGGCATCGACGCGAAGACGGGCTGGCTGGAATGGGCCGACATGCGGCTCTATGGCCTTCGCACCGCCATTGCCGAGCGCATCCGCAACACCATCGGCGGCGATGCCGGCGCCTTTGCCGCCTCCATCGTCACCGATGAGAGACAGGCCATATCCGCCGAAACAATGGAAGCGTTGCGGCTCTCAGGCCTTGCCCATATCGTCGCCATATCCGGGCTCAACATGGCGCTGGCGTCGGGCATATTCTTCGTAGGACTGAGGCTTGCCTTCAGCCTTTTTCCGGCATTTGCGCAGCGCTGGCCCGTGAAGAAGATTTCGGCTTTCGCCGCGCTCTTGATGACGCTCGCCTATTACCTGATTTCAGGTTTCGCCGTCTCCGCCGAACGCGCCTGGCTGATGATGTCGGTGATGCTGATCGCTGTGCTGTTCGATCAACCCTCGCTCAGCCTCAGGAATGTCGCGCTTTCCGCTTTGGTCATTCTCGCTTTTTCGCCCTCGGAAATCATGGGTCCGAGCTTTCAGATGTCTTTTGCCGCGACCATCGCGCTCGTCGCCTCCTATGCCGCCTGGAGCCGCTGGCGTATCGATCGCGAGCGTCTGTTCATCGGACGCAAACCGGCATGGATGACGGTGGCGCAAACGGCGGGCGCCATTATCGGCGGTGTCATCACGACGTCGCTGATCGGTGGTCTTTCGACGGCGATCTATTCGGTCGAGCATTTTCAGCGTGTCACCACCTATGGACTTTTCGCCAATCTGGCCGCCATGCCGCTGATGTCGCTGATCGTCATGCCTTTCGGCCTTGTCGCCATGCTGCTGATGCCTTTCGGGCTGGACGCACCATTTCTGAAGGTCATGGGATACGGCATGGCCCTCGTCATCGAGGTTGCGCAGGAGGTGGCGTCCTGGGGCGGAAGCGCTGCGACGGGCCGGCCGCACGGGTGGTTTCTGGGGCTCGCCTCGGCTGGTTTTCTGCTGCTGACTTTGCTGCGCAGCCGGCTTGCGCTTCTGGGCATGCCGCTTCTATTCCTCGCCTTCGGCCTGTCATCCGCCACGGCCTATCGCGATCCGCCCGATTTGCTTGTTCACGAGGATGGCGAGCTGGTGGCATTGCTGGAAGACGGCAAAGCCTACACGACGAAGGCTCAGCCGCAGGGTTTCGTTTATGGCCAGTGGCAAAGGGCGCTGCTTTTGCCGGAACAGCCTGTGCCGCCGGTCTTTCTAAAGAGCGAGGCTACGGCAAAAACCGTGGCTTTGGCCCCGAGGGCGAAGCTTGATCCGCAAGAGATGAGTGCAGTTGCACGGCAGATGACAGCGGCCCTGAGAGACGCCGAGCCCGGTGTTTTCACCTGCAGCAAAGGCACATGGTGTGTTGCGCGCGCGGGAAGCGGCGAATGGATCATCGTTCTGGAAGATGGCCGCTTTGCCGGAAAGGCTTGCGATATCGCCGATATCATTATCGTCTCCCGCAGAACGTCCTTTTCCCAATGCCGCTCGGGTGCACTTCTGCTGAACCGGGATATCCTGCGACGGATCGGTTCGCTGGAAATGGACTTCGCCGGCAACGAGCAGGCAGCGGTCGTCGGCAGGCTGCGCGCCGCAATCGCCGGCATGGACAGGCCCTGGAGCGAACATCGCTATTACGACTGGAAAAGCGGCCGTTTCGATCACGACGTGCCTGATGCCATCATGCGGTTGCTGGCGGCATCGCAATAA	MQGDLPGTAEILFPVHRAGDLVAYDLPTLVGKPNLRAVASQKIAVCVAEERAFGHDFLFVPVFIGCGAVLWFSLNTSPSFSVLAITCLIATGLAFFAKYRSGFAATACGLLALLLLGMLFAGVETWRAGTVVLDTPVTTTITGTVTRREVDARGDWRYVVQLTATEAPGLSRPPGKVSLLSRGGGEPAALGATIRGKARLSPPSGPALPGLNDFAFASYFRGIGATGFFYKPPQTVTPPGIDAKTGWLEWADMRLYGLRTAIAERIRNTIGGDAGAFAASIVTDERQAISAETMEALRLSGLAHIVAISGLNMALASGIFFVGLRLAFSLFPAFAQRWPVKKISAFAALLMTLAYYLISGFAVSAERAWLMMSVMLIAVLFDQPSLSLRNVALSALVILAFSPSEIMGPSFQMSFAATIALVASYAAWSRWRIDRERLFIGRKPAWMTVAQTAGAIIGGVITTSLIGGLSTAIYSVEHFQRVTTYGLFANLAAMPLMSLIVMPFGLVAMLLMPFGLDAPFLKVMGYGMALVIEVAQEVASWGGSAATGRPHGWFLGLASAGFLLLTLLRSRLALLGMPLLFLAFGLSSATAYRDPPDLLVHEDGELVALLEDGKAYTTKAQPQGFVYGQWQRALLLPEQPVPPVFLKSEATAKTVALAPRAKLDPQEMSAVARQMTAALRDAEPGVFTCSKGTWCVARAGSGEWIIVLEDGRFAGKACDIADIIIVSRRTSFSQCRSGALLLNRDILRRIGSLEMDFAGNEQAAVVGRLRAAIAGMDRPWSEHRYYDWKSGRFDHDVPDAIMRLLAASQ	PGPT0029415_739	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029415-comEC-K02238	NA	NA
BMS010_09901	678			hypothetical protein	ATGTACGATCTTTATATCGCCAACAAGAATTACTCCTCATGGTCGCTACGGCCCTGGGTGTTGATGCGCACGCTCGGCATCGCCTTCGATGAAAAACTCGTTCCGTTCGGAGAAGGCGTTTCCTTCTCCACCTTCTCGCCGACCGGCAAGGTGCCCTGCCTTGTCGATGAGGGCGTGACGGTTTGGGAATCGCTGTCGATCGCCGAATATCTGGCGGAAAGACACCAGGGCGTCTGGGCGACCGACAAGCAGGCACGGGCCTGGTCACGTTCGGCGGCGAGCGAAATGCATGCGGGCTTTTCCTCGCTGCGCAATCTCTACCCGATGTCGGTCGGCATTCGGGTAAAGCCGAAGGGTGGCGATACCGGGCTTGCGGCCGATATAAAGCGCATCGATACGCTGTGGAGCGAAGGCCTCGCGAAATTCGGCGGGCCTTTTCTTGCCGGCCAGAAATTCACGGCGGTCGATGCCTTCTTCTGCCCGGTGGCATTTCGTTTCCAGACTTATGGCGCGGAACTTTCGCCCGCGGCGAAAGCCTATTGCGACCGGCTGCTCGCCCTTCCCGCCATGCGCGAATGGTACGAGGCCGGACTGAAGGAAGTCTGGCGCGATGCGGCGCATGAAGAGGAAATTAGCGGGATCGGCGAATTGACCGCGGATCTGCGCATCAAGCCCTGA	MYDLYIANKNYSSWSLRPWVLMRTLGIAFDEKLVPFGEGVSFSTFSPTGKVPCLVDEGVTVWESLSIAEYLAERHQGVWATDKQARAWSRSAASEMHAGFSSLRNLYPMSVGIRVKPKGGDTGLAADIKRIDTLWSEGLAKFGGPFLAGQKFTAVDAFFCPVAFRFQTYGAELSPAAKAYCDRLLALPAMREWYEAGLKEVWRDAAHEEEISGIGELTADLRIKP	PGPT0013170_6870	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS010_09902	723	lexA_3	COG1974	LexA repressor	ATGCTCACGCGCAAACAGCAGGAATTGCTTCTCTTCATTCATGAAAGAATGAAAGAGTCCGGCGTGCCGCCCTCCTTCGATGAAATGAAGGACGCACTCGATCTTGCATCCAAATCCGGCATCCACCGGCTGATCACCGCACTCGAGGAGCGCGGCTTTATTCGCCGGCTACCTAACAGGGCGCGGGCGCTGGAAGTGATCAAATTGCCTGAGGCCTATGCGCCGGGTGCAAGGCCGCAGCGCGGCTTCTCGCCGAGCGTCATCGAAGGCAGCCTCGGCAAACCGAAGACGCCGGAGCCGGCCCCCGCCCCCAAGGCGCCGGCCAATGACCTCGGCGGTGCAGTCACCGTGCCGGTCATGGGCCGTATCGCAGCCGGTGTGCCGATTTCCGCCATCCAGAACAACACCCATGATGTGGCCGTGCCGGTCGACATGCTCGGCTCGGGCGAACATTACGCTCTTGAGGTCAAGGGCGACTCGATGATCGAAGCCGGCATTTTTGATGGCGATACCGTCATCATTCGCAACGGCAACACGGCCAATCCGGGCGATATCGTCGTGGCACTGGTGGATGATGAAGAAGCGACCCTGAAGCGTTTCCGCCGCAAGGGAGCCTCCATCGCTCTCGAAGCCGCCAACCCCGCTTATGAGACCCGCATCTTCGGACCGGACCGGGTGAAAATCCAGGGCAAGCTCGTAGGGCTGATCCGCCGTTACCATTAA	MLTRKQQELLLFIHERMKESGVPPSFDEMKDALDLASKSGIHRLITALEERGFIRRLPNRARALEVIKLPEAYAPGARPQRGFSPSVIEGSLGKPKTPEPAPAPKAPANDLGGAVTVPVMGRIAAGVPISAIQNNTHDVAVPVDMLGSGEHYALEVKGDSMIEAGIFDGDTVIIRNGNTANPGDIVVALVDDEEATLKRFRRKGASIALEAANPAYETRIFGPDRVKIQGKLVGLIRRYH	PGPT0014895_520	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014895-lexA-K01356	NA	NA
BMS010_09903	183			hypothetical protein	ATGAAAGACCGACACCACGACGATGCAATGGCCGAGCTGTACCGGGATAACCCGGAGCTGGCCCAAGCGGTTTTATCCGCTGTCGAGTCAGACGGTGATCCGGCCGAGCTGGCGATTATCCGTCGTCAGATAGGCAAAGCAGCCGATAAGACACCAAAAGGAAAAGTCGAAAAGCGGCCTTAA	MKDRHHDDAMAELYRDNPELAQAVLSAVESDGDPAELAIIRRQIGKAADKTPKGKVEKRP	PGPT0027571_33	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HigB-HigA_TOXIN-ANTITOXIN_SYSTEM,PGPT0027571-toxin_higB1-na	NA	NA
BMS010_09904	861			hypothetical protein	ATGAACACGGTATTCGTCGGCGGCTCGCGCCATGTCTCCCGCCTCCCTGCGGAAGTGAAAACCCGACTGAACAATGTCATCAAGAGCGGGCACCGGGTCATTGTCGGCGACGCAAACGGGGCCGACAAGGCCGTGCAGAAGCACTTCCACGACGCGGCCTACGACAAGGTAACGGTGTTCTGCTCAGGCGATAGCTTCCGCAACAACTTGGGCCATTGGGAAACACACAAGGTCGATGTACCCAAGCACGCCAAGGGATTCCAGTTCTACGCTGCCAAAGATCGCGAGATGGCGCGAGAGGCAGATTTCGGTCTGATGATCTGGGACGGCAAAAGCCCAGGAACGCTCCTAAACGTCCTGCGTCTGGTGCGCTCTGGCAAGATCGCTGTGTTGTTCAGCGTGCCGGACAAAGGCGCGATCAACTTCAAGAATGAAGCCGATTGGGAGGCATTTCTGAGCCGTTGCAGTGACGAGTTGCGTCGCGATCTGCGCGAACGCGCTACGCCGGATGAATGGCAGCCAAGCCGGCAGCCGAGCCTTCTGGATGTGCCAACAGAGGCCACCGCGACCGAGAAACAGCCGAACTCGCAGTCGTCAGCAGACGATCAGGACGGCGAGCTGGCCAACGATCTGAATATGGCGCTGGCTGCCGGCGATCCTGCCGCCGTCGTGAATGCCCTGGGAAGCCTTGCTAAGGCGCGGGGCATGAGCCAGGTGGCGAGGGAGACCGGCTTGGCTCGCGAAGGCCTTTATCGTGCGCTTAGCATGGATGGCAATCCGGAGTTTGCTACCGTACTCAAGGTCCTCTCGTCTCTGGGGCTGCGTCTCACTGCGGAGCCAGCCCAGCATGTGAGCAAGTGA	MNTVFVGGSRHVSRLPAEVKTRLNNVIKSGHRVIVGDANGADKAVQKHFHDAAYDKVTVFCSGDSFRNNLGHWETHKVDVPKHAKGFQFYAAKDREMAREADFGLMIWDGKSPGTLLNVLRLVRSGKIAVLFSVPDKGAINFKNEADWEAFLSRCSDELRRDLRERATPDEWQPSRQPSLLDVPTEATATEKQPNSQSSADDQDGELANDLNMALAAGDPAAVVNALGSLAKARGMSQVARETGLAREGLYRALSMDGNPEFATVLKVLSSLGLRLTAEPAQHVSK				NA	NA	NA	NA	NA
BMS010_09905	588			hypothetical protein	GTGGTTGCTATTCACCCGCAAAACATCGTGGGGCGCTGGAAATCTGGCGTCGCGCTTGATTTTCACACGACCAGCAGCACTCCGATAGGGCCAAACGAGTTTGGCCATATGCAGTTCGACACGGTGCGCCCGGAGATCGCCGAGTTGTTGTATCAGCTCAAGTACCGGGGCAACAAGGATGCGGCGAAGGGCATCATCGAGGCGGCCGCCACGTTCTTGAAGCCGCACTTGGGCAAGGTCGATCTGATCGTTCCCGTACCGCCTTCTAGCGCACGCGCCGTTCAGCCGGTCCTGGTCCTGGCGCATGGCCTCGGTGATGCGGTCGGTCTGCCCGTCGCGGAGTGTGTCACCACGACACGCTCGACAACGCAGCTCAAGGGCGTCACCGACCCCGACAAGCGGAAAGAGCTGGTCGATGGGCTCTATGCGGTCGATGCCAACCAGACTGCGGGGAAAAACGTTCTGCTCTTCGACGATCTTTTCCGGTCTGGTACCACCATGAACGCCATCACCGACGTGCTGCTACAGCAAGGCCAAGCCAGTAGCGTGCGCGCTCTGACAATCACCAAAACCAGGAGCAACCAATGA	MVAIHPQNIVGRWKSGVALDFHTTSSTPIGPNEFGHMQFDTVRPEIAELLYQLKYRGNKDAAKGIIEAAATFLKPHLGKVDLIVPVPPSSARAVQPVLVLAHGLGDAVGLPVAECVTTTRSTTQLKGVTDPDKRKELVDGLYAVDANQTAGKNVLLFDDLFRSGTTMNAITDVLLQQGQASSVRALTITKTRSNQ	PGPT0029435_812	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029435-comFC-K02242	NA	NA
BMS010_09906	2607			hypothetical protein	ATGACAACCGAAGCGGAGGCATTGGCCAATATTCTTGCATGGTCCGCCGATAGTCCGGGCTGGCAACGTGATGCGCTGCGCCGTCTTGCAACTCAAGCGACTCTGGAGTTGGCCGAAACAGAGCAACTTGTGGCGATTTGCAAAGGGGACAGCCCTGCTGTTCCGCTGGAAGCGGGGCATCTGCGTGATCCAAACCGCGACCAGGGTGACGTTTATCTGCGGCAGGTGCACGGGGTCCGGCACGTCAATGCCTTGGCCCCCGACCAGAGGCTTTCGCTTCGCCAGGAAGGCTTGACCATCATCTATGGCGATAATGGATCAGGCAAATCTGGTTATGCGCGGATACTAAAAAAGGCGTGTCGGGCGCGGATGCCCGGCCGGTCCGAGGAGATCATACCGGACATCTATGATCCCGCGCCGGGCACGCCGAGCGCAAACATTGAATACGCAATCGGCGGACAAAATCGCACTTGCGCCTGGCAGCTCGGCCAGCCCGCTGACACCGCACTTTCGGCCGTCAGCGTTTTCGACTCCCGCACCGCCAATATCCACGTCGATGAAACGAACGACGTGGCTTACACGCCGTTTCCGCTCAAACTACTTGGTGCCCTGGCGCAGCTCTGCAAATCAGTCAAGGATAAGCTGGCCGCCGAGATCACGCAGATAAGGGCGCAGACCCCCGAGGCGATCAGAACACCAGCTTGCAGCCGGGAAACAGCGGTCGGCAGGCTTATGGCCCGGCTTGCCGCTGACACCGACCCCGCGGGCGTTGAAGCACTGGCCACGTTGACCAAGGCGGAGCAGGACCGATTGGCCCAACTCACGGCAGATCTTGCCGGTGATCCGGCCCGCGCTTCCCGTCCCCTCGCCGCATTGAAGTTGAAGGTTGAGGGGCACATTGCGCGCCTTGACAGGCTGTTTACTGCGATCAGCGACGACGCCGCCAACAACCTGCGCCGTCTTGCTGCGGCCTACGACGCGGCAAGGCAGGCTGCGGAAGCCGCGTCCGGTGCTCTGTTCAGGGACGAGCCGCTGCCACAGATTGGATCGGAGGTGTGGCAGGCGCTATGGGCGAGTGCGAGGGCATTTTCCGACGAGGAGGCCTATCCCGACCGCCGCTTCCCTGTCACTGATCCTGGCAGCGTGTGCGTGCTTTGCCAGCAAGAGTTAACCCCCGTTGCTGCTGATCGCCTAAACCGCTTCGAGGCTTTCGTGCGCGATGACAGCCAGCAGCGCGCTGAGGCTGCGCGGGCGGCATACGACACGGCGCTGACTGCGTTCGAGGGCGAGGCGATTTCGCTAGCCGAGCTCGCAAACATCGCGGCGACCGTCCGCGACGAACTGCGGCAGGACGCCTTGGCTGTGGAGATCAGAGGTGCGGCCCTGCGCGCACTGTGGCGCCATCGCCAAATCACTCGACGCCACGCAAATCCCGCTGCTGCTTTCGACGCGCCCATAGTCGCATACCCGAGACAGGCGTTGGCCAACCTGGTCGCGGACATTGAGTCTCGGGCGAATGCCCTTGCCGCCGAGGCTGGCTCCCCAGCCCGCGCCGCCCTGCTTGCCGAAAAGGCCGAGCTGGCGGATCGTCAATGGCTTGGCGGCATCAAAGCTGACGTGCTTGCGGAGATTGAGCGTCTTAAACACATCTCAAGGCTTGAGGCAGCCCAGCGGGACACCACCACAAATCGCATCACTACGAAGAGCACGGAAATCGCGCAGGCATTGGTCACGGACGCACTGCGCGCGCAATTCGCACGTGAGGTGGCGAGCTTTGAGATCGCGGGGCTCGCTGTGGAGCTTCGCCAGCAAAACAGCGTTCAAGGTATTCCACGTTTTAAGGTCGCGCTCACTCGGAAGCCTAACGCTGCCGTAGGACAGGTCTTGAGTGAAGGCGAACATCGCTGCGTCGCGTTGGCCGCCTTCATGGCCGAATTGGCGACCACGGAAAACAAGTCCGGCATCGTCTTTGACGATCCCGTTTCCTCACTCGACCATATGCACCGAGAAGCCGTCGCCAAGCGCTTAGTCGCCGAGGCCGCCCATCGTCAGGTGATCGTCTTTACCCACGACCTAGCGTTTCTTTTCGAGCTGAACCGAGCTGCGGACGATGCGCAGCCTAAGCCGCAGGTGGCGATCAGTTCCGTTAGCAGGGGCGCAGACAAGGCCGGCTTTTGCCGTAGTGAGCCGCCGTTCAAAGCGCGTCGGGTCAGCGACATCACGGCGGGCCTGACAAACCAGCTCGCGAACGAACGCTTTCACTTCGAGCAAGGTAACGACGACGAATGGCGGAAAACCGTCAAATCTATTGCCGGGGCGTTGCGGGATACGTGGGAAATTGCGGTTGAGGAGGTTGTTGGGCACGTTATTCGACGTCTATCCAACGAGGTGAAAACGCCGGGCTTGGTCAAGCTGACCGCGATCACAGTCGCCGATTGCGAGGCCATGCGAGACGCGTTCGGGCGCTGCTCGGAGCTGCTGCACAGCGCAGCCCCTGCTTTGAATCGTCCGCTACCAGGGCCAGACGCACTATCGGCCGAGATTGATGCTCTAGCTGTTTGGGCAGACACCCTCCGGCAGCGCCAAGTCGCTGCGAGATTGCCTTGA	MTTEAEALANILAWSADSPGWQRDALRRLATQATLELAETEQLVAICKGDSPAVPLEAGHLRDPNRDQGDVYLRQVHGVRHVNALAPDQRLSLRQEGLTIIYGDNGSGKSGYARILKKACRARMPGRSEEIIPDIYDPAPGTPSANIEYAIGGQNRTCAWQLGQPADTALSAVSVFDSRTANIHVDETNDVAYTPFPLKLLGALAQLCKSVKDKLAAEITQIRAQTPEAIRTPACSRETAVGRLMARLAADTDPAGVEALATLTKAEQDRLAQLTADLAGDPARASRPLAALKLKVEGHIARLDRLFTAISDDAANNLRRLAAAYDAARQAAEAASGALFRDEPLPQIGSEVWQALWASARAFSDEEAYPDRRFPVTDPGSVCVLCQQELTPVAADRLNRFEAFVRDDSQQRAEAARAAYDTALTAFEGEAISLAELANIAATVRDELRQDALAVEIRGAALRALWRHRQITRRHANPAAAFDAPIVAYPRQALANLVADIESRANALAAEAGSPARAALLAEKAELADRQWLGGIKADVLAEIERLKHISRLEAAQRDTTTNRITTKSTEIAQALVTDALRAQFAREVASFEIAGLAVELRQQNSVQGIPRFKVALTRKPNAAVGQVLSEGEHRCVALAAFMAELATTENKSGIVFDDPVSSLDHMHREAVAKRLVAEAAHRQVIVFTHDLAFLFELNRAADDAQPKPQVAISSVSRGADKAGFCRSEPPFKARRVSDITAGLTNQLANERFHFEQGNDDEWRKTVKSIAGALRDTWEIAVEEVVGHVIRRLSNEVKTPGLVKLTAITVADCEAMRDAFGRCSELLHSAAPALNRPLPGPDALSAEIDALAVWADTLRQRQVAARLP				NA	NA	NA	NA	NA
BMS010_09907	1038			hypothetical protein	ATGACCTTGAAGTTGTTGATTGATACGTCGGTGTGGCTCGATCTCACAAAGGACCCCCGCCACCTTCCCCTGCTAGATGCTTTGTTCGCGATGACAGAAGCGAACGATGTTGCGCTGATCCTGCCGCAGATCATCATCGATGAATTCGCCCGGAACCGAGATCGAGTGATGGCGGCGAGTAGAGCCAGCCTTTCGAGCCACTTTAAGCGGGTTAGGGAGGCAATCGTGCAGTTCGCTCCTGAAGACGGGCGGGATGCGACGCTCAAGCAGCTAAACGAAATTGATCATCGCATCGCGACTGGCGGTGAGGCGGTGAACGAGGCCGTGGGCCTTATTGAAAAGCTGTTCACCACGACGGAGCCTGTGCCAGTCAGCGACAGCATCAAGGCACGCGCAGCTGACCGAGCCATCGCCAAGATCGCACCTTTTCACCGGCAGATGAACGGCATCGGAGATGCCATCATCATTGAGACTTACATCGACGCACTGGCCGAACGTGAGGATGACGACGTGTTCGCTTTCGTGACCCACAACATCCACGATTTCAGCCAGAAGGGAGCAGACACACGCTTACCACACCCGGATCTAGAAGCTCTCTTCGACGGGGTGCGCTCCCGATACTCGACTAACTTGGGCGCGCTACTTAATGAGTTTGCAAGCGACCTGATTGAGGAGATCAAATTTGATCGGGAATATAACCAGGAACCCAGGCAGTTGTCTGAATTACTGGAGGCAGAGGACAAGCTAACCCAGCAGGTCTGGTACAACAGAAAATGGGGCTTAATCGCTCGCGTTGAGCGCGGAGAAGAGAAGTTAGTGCCCAAAGAGGAGTGGGAGAGAGCTACGCCGGAAGAGCGTCGAGGCCTAATGGTCAACACAATTTGGGACGGAATGCTTGCCGCGATGAAGCGGACGGAAGACGAGCTTGGTCCAGACAATCTAGGCCCCTGGACCGATTTCGAGTGGGGGATGATTAACGGCAAGCTGTCTGCAATACGCTGGGTGCTCGGCGATGAGTGGGACATGCTGGATACGTAG	MTLKLLIDTSVWLDLTKDPRHLPLLDALFAMTEANDVALILPQIIIDEFARNRDRVMAASRASLSSHFKRVREAIVQFAPEDGRDATLKQLNEIDHRIATGGEAVNEAVGLIEKLFTTTEPVPVSDSIKARAADRAIAKIAPFHRQMNGIGDAIIIETYIDALAEREDDDVFAFVTHNIHDFSQKGADTRLPHPDLEALFDGVRSRYSTNLGALLNEFASDLIEEIKFDREYNQEPRQLSELLEAEDKLTQQVWYNRKWGLIARVERGEEKLVPKEEWERATPEERRGLMVNTIWDGMLAAMKRTEDELGPDNLGPWTDFEWGMINGKLSAIRWVLGDEWDMLDT				NA	NA	NA	NA	NA
BMS010_09908	1326			hypothetical protein	ATGGGTACAGAAATTACGCTCGATGTCGCCGGAGTATCGGTCACGTACAGCAAGAACCACCGCGGAATTGATCATGGATCGATTTTTCAGGAACAAGATCGAAAGGCGATCAAGAGCGACCAGCTCGACTACGATTGGTATGAGGAGGAAGGTGAGGACCCGACGCCTTCCGAGATGGCGTTCACCCGGCCGCTTAAGCACGTTATTCCGCGCCTCGAACTCCTAGGCTTCAATCTCGAGCGCGTCCGCCTTGAATATAACGCCATAGCGCAAGGCTGGATTGAGGAGAAGCAGTCTCTTCATGACGATGATGAGGCCATTTCCGACTTGATGAGCTTTGAGGAGTTCTGCACGTTTGCTACTGCACACCCTCTGGAAAGTCTCGACGACACCTTTATCTTGGGCACGGACGACGCAAGCGAAGAGAAAGTCCGAGGGCGCTTCAATGGGATTCAGTTAGGGCGGATTCCAGGCTATCGATCCTATGATATTCAGGCCTATTCGGAGCGTAGCTTCTTCGGCGGCTTGGTAAATATCTTCCACCCATATTCGGTCCTGAGGCTTTTGGCGGAGGCGAGGGCGAACGAGGACGCTCCTGTTGTTTGGCAATATGGACCGTTGGTACAGGCGGGATGGGCAGCAGAACGGGAGTTTGTGCCCCATGCCCGGCGAACTGAGACGTTCCTGATCGCGACTGAAGGCAGCTCAGACGTCCACATCTTAAAGCATGCGCTCGCGCTGTTGCGGCCAGGGATAGCGGACTTCTTCCGCTTTATCGACGTGAGCGAAAGCCATCCATTTTCGGGCACAGGCAATCTGGTGAAGTTTGCGGAAGGGCTCGCCAAGATAGACATTCAGAATCAAGTCGTCTTCGTATTCGACAATGACGCCGAGGGGCTTGATGCCCATCAGCGTCTGTCCCAGCTCACTCTCCCTGATAACATGCGCGGGATCATGTTGCCGGAATTGGACGACTTCAGAGCGTTTCCGGCTCAGGGTCCCGAGGGGCTCCACAACTCGGACATTAACCGACGCGCCGCGGCAATCGAGTGCTATCTCGATCTCGATCTCGAGGTCGGCGGTCACCCACCGGCCAAGGTGCTCTGGACCAACTACAAGAAGAGCCTCGGCACCTATCAGGGAGCACTGGAATACAAGGAGTCCTATAGCAAGGAATTCTTGAAACAGACGGCCGAGACGTTGGCCGCAGATGCGTATGACGTCCGCAAGATCGTGTCAGTTCTCGATCTGCTCATTGCAGAATGTACAGCAATCGCTGTCGGCAAATGGGACCCGGCAGACGTCGAATTGAGAGATGCCTTCTGA	MGTEITLDVAGVSVTYSKNHRGIDHGSIFQEQDRKAIKSDQLDYDWYEEEGEDPTPSEMAFTRPLKHVIPRLELLGFNLERVRLEYNAIAQGWIEEKQSLHDDDEAISDLMSFEEFCTFATAHPLESLDDTFILGTDDASEEKVRGRFNGIQLGRIPGYRSYDIQAYSERSFFGGLVNIFHPYSVLRLLAEARANEDAPVVWQYGPLVQAGWAAEREFVPHARRTETFLIATEGSSDVHILKHALALLRPGIADFFRFIDVSESHPFSGTGNLVKFAEGLAKIDIQNQVVFVFDNDAEGLDAHQRLSQLTLPDNMRGIMLPELDDFRAFPAQGPEGLHNSDINRRAAAIECYLDLDLEVGGHPPAKVLWTNYKKSLGTYQGALEYKESYSKEFLKQTAETLAADAYDVRKIVSVLDLLIAECTAIAVGKWDPADVELRDAF				NA	NA	NA	NA	NA
BMS010_09909	1059			hypothetical protein	ATGGCTGAAAAAGGCGCGTTCCATGAAACCTATGTTCGGGCGGCAGGAGCCGTGGCATTCGTCGCCATCATCGATGCAAAGGGGGACGAGGGGATCGGCTCGGCGTTCCATATCGGCGATGGAATCTTCGTCACTGCCCGGCACGTGATCGATGGGGTGACCATCAAAGAGATCGCCACCACTAAGTCGGCGCACCTCAACGAAGAGGCAGGCGGCAAGGCAATTCCTCCGCGACGGCTGGAGATTGTCGATGGACCCTATTTCGGTCCGGACGGTCTCGATGTCGCAGTCTTTCGGGTCGATCTCGGCGCTACGCCATTGCCGGCGATCACTGTCAGCCAACATACGGATTACTCGCTCGGAGAGAATGACCTGGTCCTCTCGGACATTCTCGTCGTCGGCTATCCGCCCATCCCATTCACTACCGTGCCTAGCCAGGTAGTCACTTTAGGGCAGATCAATGCGGTGGTGCGCGTGCGACATTCTCCGGTGCTGCACTTTATCGCTTCGGCCATGGCGCGCGGCGGGTTCAGCGGAGGTGTTGTGCTTGATCGGTCAGGCGTCGCGCTAGCGCTCGTGACGGAGAGCTTGGGCCTGAGCGATATGCCGGTGGAGACCGGCTACATGAGCCTTTTGTCGATCGAACCGGCGATGGATCTCGCGGCCGAGAAATTCGGGTTCGGCGCCCAGGGCGGCTATCCCGGCCGCTATACCGAAACGCTGTTCGCGGTAAAATTTTCGGACCCCTCCAGCCGGTCGCTCAATTCCTTCATCTACGACGCCAGTCTCTACGTCTATGATGACGACCGTGATGTGTTCGTCGAAATCAACTGTGAGGACGCGGCGCTGCTGGCCGAGGCGGTATCGATGTTCCACGCCATTACGCCTCTGACTCGTCACGACGTCATAGATGGGGCTGTCCTGTACACGCCGGAAGAGAATCCGTCCGCAGAACTGCTGATCGAGGGCGGAGAAGCGGTCGCCGCGCTTTTCGAAAGGTCTGGCTACAAGAGGATGGCCGTAGAACGCAGTCAGTGGCAGCTCAAGCCTAAGCGATAG	MAEKGAFHETYVRAAGAVAFVAIIDAKGDEGIGSAFHIGDGIFVTARHVIDGVTIKEIATTKSAHLNEEAGGKAIPPRRLEIVDGPYFGPDGLDVAVFRVDLGATPLPAITVSQHTDYSLGENDLVLSDILVVGYPPIPFTTVPSQVVTLGQINAVVRVRHSPVLHFIASAMARGGFSGGVVLDRSGVALALVTESLGLSDMPVETGYMSLLSIEPAMDLAAEKFGFGAQGGYPGRYTETLFAVKFSDPSSRSLNSFIYDASLYVYDDDRDVFVEINCEDAALLAEAVSMFHAITPLTRHDVIDGAVLYTPEENPSAELLIEGGEAVAALFERSGYKRMAVERSQWQLKPKR				NA	NA	NA	NA	NA
BMS010_09910	1371	mmcO	COG2132	Multicopper oxidase MmcO	ATGTCCTTCACCCGCAGACAAATCCTCGCTGGCCTGGCCGGTCTTGGCGTGGTCGGCCTCGGTGCCGGTGGCGCGCGTTACTGGCTGGGGCGTCCGCTGGACGCCGAGACCCATGACTATGAACTGATTGCCGCCCCCCTCGACGTCGAGCTGGTGCCGGGTCACAAGACCCCGGCCTGGGCCTACGGCGGCCGGGCGCCCGGCCTTGAACTGCGAGTCCGCCAGGGTGACTGGCTGCGGGTGCGCTTCATCAATCGGCTGGAGGTGCCCACCACCATCCACTGGCATGGCATTCGTTTGCCGCTGGAAATGGACGGCGTGCCCTACGTGTCGCAATTGCCGGTGCTGCCGGGCGAATACTTCGATTACCGCTTCCGGGTGCCGGATGCGGGTAGCTTTTGGTACCACCCGCATGTCTCCAGTGGCGAACAGCTCGGGCGCGGGTTGGTCGGTCCGCTGATCATCGAAGAGCGCGAGCCGACGGGCTTCCGCCATGAACGGACGCTGAGCCTGAAGAGCTGGCACGTCGACGAGCAGGGCGCTTTCACCGATTTCAGCGTGCCTCGCGAGGCTGCCCGAGGCGGTACGCCGGGTCGGTTGAGCACCATCAACGGTGTGCATGCGCCGGTGCTGGATTTGCCGGCCGGCCAGGTTGTTCGTCTGCGTCTGTTGAATCTGGATAACACGCTCACCTATCGTCTCAACCTGCCGGGTGCCGAGGCGCGGATCTACGCCCTGGACGGTAATCCAATAGTGCCGCGCCCTCTGGGCAAGGATTACTGGCTGGGGCCAGGCATGCGCATCGATCTGGCGCTGCGAGTGCCGGCCCAGGGAGTAGAGCTGCCGCTGCGCAATGGGCCGCTGCGGCTGGCGACCCTGCGTGCCCAGGCAAGCACGGAAGCGCCGGGCGACTGGCCCCCGGCGCTGCCGGCCAATCCGGTGGCGAACCCCGATCTCGCGTCGGCGGAGACCCTGCGGTTCAACTTCGAGTGGGTCGGTGCGGTCTCGGTGAACGTCGAGAACGGTGCGGCGCCCAGTTTCTGGCAGGTCAACGGGCAGGCCTGGGATATCAAGGACCAGACCTGTGCCGATCGGCCGATTGCCCGGCTGGAGCATGGCAAGAGCTATGTGTTCGAGCTGCGCAACATGACCCAGTATCAGCACCCGATCCATCTCCACGGGATGACTTTCAAAGTGCTGTCGTCGAACCGCCGTCGCATTCAGCCGTATTTCACCGATACCTTCCTGCTGGGCAAGAATGAGCGCGCGCGCGTTGCCTTGGTGGCGGATAATCCCGGCGTCTGGATGTTCCATTGCCATGTGGTCGATCACATGGAAACGGGGCTGATGGCGGCCATCGAAGTCAGCTGA	MSFTRRQILAGLAGLGVVGLGAGGARYWLGRPLDAETHDYELIAAPLDVELVPGHKTPAWAYGGRAPGLELRVRQGDWLRVRFINRLEVPTTIHWHGIRLPLEMDGVPYVSQLPVLPGEYFDYRFRVPDAGSFWYHPHVSSGEQLGRGLVGPLIIEEREPTGFRHERTLSLKSWHVDEQGAFTDFSVPREAARGGTPGRLSTINGVHAPVLDLPAGQVVRLRLLNLDNTLTYRLNLPGAEARIYALDGNPIVPRPLGKDYWLGPGMRIDLALRVPAQGVELPLRNGPLRLATLRAQASTEAPGDWPPALPANPVANPDLASAETLRFNFEWVGAVSVNVENGAAPSFWQVNGQAWDIKDQTCADRPIARLEHGKSYVFELRNMTQYQHPIHLHGMTFKVLSSNRRRIQPYFTDTFLLGKNERARVALVADNPGVWMFHCHVVDHMETGLMAAIEVS				NA	NA	NA	NA	NA
BMS010_09911	483	tadA_4	COG0590	tRNA-specific adenosine deaminase	ATGAAGAAACCCTTGATCATCGACCGTAGCCAGGACGAGCGCTTCATGCGCGAAGCGCTGGAACTGGCGCGGCAGGGCGCGGCATTGGGCGAAGTCCCGGTCGGCGCCGTGCTGGTGCTGAATGGGGAAATCGTCGGGCGCGGCTTCAACTGCCCGATCTCGCGCCACGACCCCAGCGCCCATGCGGAAATGGTGGCGATCCGTGCGGCTGCGGAAGCGCTGGCCAACTACCGGCTGCCCGGCAGCACGCTGTACGTGACCCTGGAGCCTTGCAGCATGTGCGCCGGGCTGATCGTCCATTCGCGTATTCAGCGCGTGGTTTATGGCGCCACAGAGCCCAAGGCCGGGGTGGTGGTCAGTCGTGGCCAGTTCTTCACCCAGGAATTTCTCAACCATCGCGTCCTGATCGAGGGCGGGTTGCTGGCGGAGGAGTGTGGGGCGGTGCTCAGCGAGTTCTTCAAGGCTCGCCGGGGCAAGGGTTAG	MKKPLIIDRSQDERFMREALELARQGAALGEVPVGAVLVLNGEIVGRGFNCPISRHDPSAHAEMVAIRAAAEALANYRLPGSTLYVTLEPCSMCAGLIVHSRIQRVVYGATEPKAGVVVSRGQFFTQEFLNHRVLIEGGLLAEECGAVLSEFFKARRGKG	PGPT0006855_8	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROPROPENE_DEGRADATION,PGPT0006855-dhaA-K01563	NA	NA
BMS010_09912	1395	mltF_5	COG4623	Membrane-bound lytic murein transglycosylase F	ATGTTCGGTGGCTGCGAAAAGACGCCCAGCACCCTCGAACAGGTAAAGGAGGAGGGTGTTCTGCGCGTGATCACCCGCAACAGCCCCGCCACCTATTTCCAGGACCGCAACGGCGAAACCGGCTTCGAGTACGAGTTGGTCAAGCGTTTCGCCGAGGACCTGGGCGTCGAGCTGAAGATCGAGACCGCGGATAATCTCGACGAGCTTTTCGCCCGCGTCGGCCGTCCCGGCGGGCCAGTGCTGATCGCCGCCGGCTTGGTCGACAGCGAAGGGCGCAAGACCCAGGCACGGTTTTCCCACCCTTACCTCGACGTCACTCCCCAGGTGGTCTATCGCCAGGGACAGCGGCGCCCTACCCAACCGGCCGATCTGGTCGGCAAGCGCATCCTGGTTCTCAAGGGCAGCAGCCACGCCGAGCAGTTGGCGACGCTGAAAGCGGAATTGCCTGAGCTGACCTACGAAGAGTCGGACGCGGTGGAAGTGGTCGATCTCTTGCGCATGGTCGACGAGGGACAGATCGACCTGACCCTGGTGGACTCCAACGAACTGGCGATGAACCAGGTGTATTTCCCCAATGTCCGCGTCGCCTTCGACCTGGACGACGAGCGCAGCCTGCGCTGGGCGGTAGCCGCCGGGGAAGACGACAGCCTGTTGAAGGAGGTCGATGCCTTCCTCGACCGCGCCAAGGAGAACGGCACCCTGCAGCGCCTGACGGAGCGCTACTACGGGCATGTGGACGTACTCGGCTACGTCGGCGCCTACACCTTCGCCCAACACCTGCAGCAGCGACTGCCCCGCTACGAGCAGCATTTCCGCCAGGCCGCCCAGACCTACGACGCCGACTGGCGGCTGCTGGCCGCAATCGGCTACCAGGAATCCCTCTGGCAACCCAACGCCACTTCCAAGACCGGCGTGCGCGGGCTGATGATGCTGACCCAGGGCACTGCCCAAGCGATGGGCGTGAGCAACCGCCTCGACCCGCGACAGAGCATCGACGGCGGCAGCAAGTATTTCACGATGATCAAGAAGGGCCTGACCGAGGAACTGACCGAGCCGGACCGCACCTGGTTCGCCCTCGCCGCCTACAACATCGGCATCGCCCACCTGAGCGACGCCCGCAAGCTGGCCGAAGCCGAGGGGCTCGACCCGAACAAGTGGCTGGACGTGAAGAAGATGCTGCCGCGCCTGAGCCAGAAGCAGTGGTACAGCAAGACCCGCTACGGCTACGCCCGTGGCGGCGAGACCGTGCACTTCGTGACCAACGTGCGCCGCTACTACGACATCCTCACCTGGGTGACCCAGCCGCAACTGGAATCCAGCCAGATCGCCGAAAGCGACCTGCACGTCCCCGGTGTCTCGAAGAACAAGCCCAGCTCGGACATGCCGCCGCTGTAG	MFGGCEKTPSTLEQVKEEGVLRVITRNSPATYFQDRNGETGFEYELVKRFAEDLGVELKIETADNLDELFARVGRPGGPVLIAAGLVDSEGRKTQARFSHPYLDVTPQVVYRQGQRRPTQPADLVGKRILVLKGSSHAEQLATLKAELPELTYEESDAVEVVDLLRMVDEGQIDLTLVDSNELAMNQVYFPNVRVAFDLDDERSLRWAVAAGEDDSLLKEVDAFLDRAKENGTLQRLTERYYGHVDVLGYVGAYTFAQHLQQRLPRYEQHFRQAAQTYDADWRLLAAIGYQESLWQPNATSKTGVRGLMMLTQGTAQAMGVSNRLDPRQSIDGGSKYFTMIKKGLTEELTEPDRTWFALAAYNIGIAHLSDARKLAEAEGLDPNKWLDVKKMLPRLSQKQWYSKTRYGYARGGETVHFVTNVRRYYDILTWVTQPQLESSQIAESDLHVPGVSKNKPSSDMPPL	PGPT0014715_504	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_TRANSGLYCOSYLASE_ACTIVITY,PGPT0014715-yfhD-K18691	NA	NA
BMS010_09913	3897	purL_2	COG0046	Phosphoribosylformylglycinamidine synthase	ATGTTGATCCTGCGCGGCGCACCCGCCCTTTCCGCCTTCCGCCACGGCAAATTGCTCGAGCAACTGACCACCAGGGTCCCCGCCGTGACCGGGCTGTACGCCGAGTTCGCCCACTTCGCCGACGTGACCGGCGTGCTCAGCGGTGAAGAAGAGCAGGTTCTCGCACGTCTGCTGAAGTACGGCCCCAGCGTACCGGTGCAGGAGCCGAGCGGTCGCCTGTTCCTGGTGGTCCCGCGTTTCGGCACCATCTCCCCCTGGTCGAGCAAGGCCAGCGATATCGCGCACAACTGCGGGCTGGCCAAGATCCAGCGTCTGGAACGGGGCATTGCCTACTATGTTTCCGGCGATATCGGCGAGGCCGACCTGCCGCTGATCGCCGCCGCGCTGCACGACCGCATGACCCAACTGGTACTCGGCTCCCTCGACGAGGCGGCCGGCCTGTTCAACCATGCGCAGCCCAAGCCGCTGACTGCGGTGGACGTGCTCGGCGGTGGCCGTGCGGCACTGGAGAAGGCCAACGTCGAGCTGGGCCTGGCCCTGGCCGACGATGAAATCGACTACCTGGTGAAGAGCTTCACTGAACTGGGCCGCAACCCGCACGACATCGAACTGATGATGTTCGCCCAGGCCAACTCCGAACATTGCCGGCACAAGATCTTCAATGCCAGCTGGGATATCGATGGCGAGTCCCAGGACAAATCGCTGTTCGGCATGATCAAGAACACCTACGAGATGCACCGCGAAGGCGTGTTGTCCGCCTACAAGGACAACGCCGCGGTGATCGTCGGCCACGTCGCCGGCCGCTTCTATCCGAACCCGGAAACCCGGCAGTACGGCGCCAGCCAGGAGCCGGTGCACATCCTGATGAAGGTGGAAACCCATAACCACCCGACCGCGATCGCTCCCTTCCCCGGTGCATCCACTGGCTCCGGCGGCGAAATCCGCGACGAAGGCGCCACCGGCCGCGGGGCCAAGCCGAAGGCCGGCCTGACCGGTTTCACCGTCTCGAACCTAAATATCCCCGGTTTCCTCCAGCCCTGGGAGAAGCCTTACGGCAAGCCCGAGCGCATCGTCAGCGCGCTGGACATCATGATCGAAGGCCCACTGGGCGGCGCGGCGTTCAACAACGAATTCGGCCGTCCGGCGCTGACCGGTTACTTCCGTACCTTCGAGCAGACGGTGGGAACCCCGCGTGGCGAAGAGGTTCGCGGCTATCACAAGCCGATCATGCTGGCCGGCGGCATGGGCAACATCCGTGAAGAGCATGTGCAGAAGGGCGAAATCTCGGTCGGCGCCAAGCTGATCGTGCTCGGCGGCCCGGCCATGCTGATCGGCCTGGGCGGCGGTGCCGCTTCGTCCATGGCCACCGGCACCAGCTCGGCGGATCTGGATTTCGCCTCGGTGCAGCGCGACAACCCGGAAATGGAGCGCCGCTGCCAGGAGGTCATCGACCGTTGCTGGCAGCTCGGCGAGCAGAACCCGATCAAGTTCATCCATGACGTCGGCGCGGGCGGCCTTTCCAATGCCTTCCCCGAGCTGGTCAACGACGGTGGGCGCGGCGGTCGCTTCGAACTGCGTGCGATCCCCAACGACGAGCCGGGCATGGCGCCGCTGGAAATCTGGTGCAACGAGTCGCAGGAGCGCTACGTCCTGTCCGTGGATGCCGCCGATTTCGAGCGTTTCAAGGCCATCTGCGAACGCGAGCGCTGCCCCTTCGCCGTGGTCGGCGAGGCCACCGAAGAGAAACACCTGACCGTTTCCGACAGCCACTTCGGCAACAAGCCGGTGGACATGCCGCTCAACGTTTTGCTTGGCAAGGCCCCGCGCATGCACCGCAGTGCCAGCCGCGAAGGCAGCCTGGGCGACGATTTCGACGCTGCCGGCGTGGACCTCGAAGAAGCTGTCGGTCGTGTGCTGCGTCACCCGGCGGTGGCCAGCAAGAGCTTCCTGATCACTATCGGCGACCGCACCATCACCGGCCTGGTCGCTCGCGACCAGATGGTCGGCCCCTGGCAGGTGCCGGTGGCCGACTGTGCCGTCACCGCCACCAGCTTCGACGTCTACACCGGTGAGGCCATGGCCATGGGCGAGCGCACTCCGCTGGCCCTGCTCGACGCACCGGCCTCCGGCCGCATGGCTATCGGCGAGACCATCACCAACCTGGCCGCTTCGCGCATCGGCAAGCTGTCCGACATCAAACTGTCGGCCAACTGGATGGCGGCTGCCGGGCACCCGGGCGAAGATGCGCGCCTCTACGACACCGTCAAGGCGGTGGGCATGGAGCTTTGCCCGGCGCTGGGCATCACCGTACCGGTGGGCAAGGACTCCATGTCCATGAAGACCCGCTGGCAGGAGGAGGGCGCCGAGAAGAGCGTCACTGCCCCGCTGTCGCTGATCGTTTCCGGCTTCGCGCCGGTGCTGGATATCCGCCAGACCCTGACCCCGCAGCTGCGGCTGGACAAGGGGGAGACCGACCTGATCCTGATCGACTTGGGCCGCGGGCAGAACCGCCTGGGTGGTTCCATCCTCGCCCAGACTTACGGTCGTCTCGGCCGGCAAGCCCCGGACGTCGACGATGCCGAGGACCTGAAAGCCTTCTTCGCCGTGATCCAGGGCCTGAATGCCGACGGCCATCTGCTGGCCTATCACGACCGCTCCGACGGCGGCCTGCTGACATCCGCCTTGGAAATGGCTTTCGCCGGCCACTGTGGGCTCGATCTGACGCTGGACGCGCTGGCGGACAGCCGCGAAGAGATTGCGGCCGTGCTGTTCAACGAGGAACTGGGCGCCTTGATCCAGGTTCGCCAGGATGCCACCCCGGAAGTGCTGGCGCAGTTCAGCGCTGCCGGCCTGGGCGATTGTGTCGCGGTGATTGGCCAACCGGTCAACGGCGCCGATGTCGCCATCCGCTTCAACGGCGAGCCAGTGTTCGGTGGCGAGCGCCGCGTGCTGCAGCGTCAGTGGAGCGAGACCAGCTACCGCATCCAGCGTCTGCGCGACAACGCCGAGTGCGCCGAGCAGGAGTTCGACGCGATCCTCGAGGAAGACAACCCGGGGCTGTCCACCAAGCTCGCTTTCGACGTCAACCAGGACATCGCCGCGCCTTATATCAAGAAGGGCGTGCGTCCGCAGATCGCGGTATTGCGTGAGCAGGGCGTCAATGGCCAGGTGGAAATGGCCGCGGCCTTCGACCGCGCCGGCTTCGCTGCCCTCGACGTACACATGAGCGACATTCTCGCTGGCCGCGTCGACCTGAACGACTTCAAGGGGCTGGTTGCCTGCGGTGGCTTCTCCTACGGCGACGTGCTCGGTGCCGGCGAGGGCTGGGCCAAGTCGATCCTGTTCAACGCCCGTGCCCGTGAGGCCTTCCAGGCGTTCTTCGAGCGCAAGGACAGCTTCGCTCTCGGCGTCTGCAATGGCTGCCAGATGATGTCGAACCTGCACGAGCTGATTCCGGGCAGCGAATTCTGGCCGCACTTCGTGCGCAACCGTTCCGAGCAGTTCGAAGCGCGGGTGGCGATGGTCCAGGTGCAGGAGTCGGCGTCGATCTTCCTGCGCGGCATGGCGGGGTCGCGCATGCCCATCGCCATTGCCCACGGCGAAGGCCATGCCGAATACGAAAGCGAAGAAGCCCTGCTGGAAGCCGATCTGTCCGGTACCGTGGCGCTGCGCTTCGTGGACAACCACGGCAAGGTCACCGAGCGTTATCCGGCCAACCCGAACGGCTCGCCGCGCGGTATCACCGGCCTCTGCAGCCGCGATGGCCGTGTAACCATCATGATGCCGCACCCCGAGCGGGTCTTCCGTGCCGTGCAGAACTCCTGGCGTCCGGACGACTGGCAGGAAGACGGCGGCTGGATGCGCATGTTCCGCAACGCGCGCGTCTGGGTCGACTGA	MLILRGAPALSAFRHGKLLEQLTTRVPAVTGLYAEFAHFADVTGVLSGEEEQVLARLLKYGPSVPVQEPSGRLFLVVPRFGTISPWSSKASDIAHNCGLAKIQRLERGIAYYVSGDIGEADLPLIAAALHDRMTQLVLGSLDEAAGLFNHAQPKPLTAVDVLGGGRAALEKANVELGLALADDEIDYLVKSFTELGRNPHDIELMMFAQANSEHCRHKIFNASWDIDGESQDKSLFGMIKNTYEMHREGVLSAYKDNAAVIVGHVAGRFYPNPETRQYGASQEPVHILMKVETHNHPTAIAPFPGASTGSGGEIRDEGATGRGAKPKAGLTGFTVSNLNIPGFLQPWEKPYGKPERIVSALDIMIEGPLGGAAFNNEFGRPALTGYFRTFEQTVGTPRGEEVRGYHKPIMLAGGMGNIREEHVQKGEISVGAKLIVLGGPAMLIGLGGGAASSMATGTSSADLDFASVQRDNPEMERRCQEVIDRCWQLGEQNPIKFIHDVGAGGLSNAFPELVNDGGRGGRFELRAIPNDEPGMAPLEIWCNESQERYVLSVDAADFERFKAICERERCPFAVVGEATEEKHLTVSDSHFGNKPVDMPLNVLLGKAPRMHRSASREGSLGDDFDAAGVDLEEAVGRVLRHPAVASKSFLITIGDRTITGLVARDQMVGPWQVPVADCAVTATSFDVYTGEAMAMGERTPLALLDAPASGRMAIGETITNLAASRIGKLSDIKLSANWMAAAGHPGEDARLYDTVKAVGMELCPALGITVPVGKDSMSMKTRWQEEGAEKSVTAPLSLIVSGFAPVLDIRQTLTPQLRLDKGETDLILIDLGRGQNRLGGSILAQTYGRLGRQAPDVDDAEDLKAFFAVIQGLNADGHLLAYHDRSDGGLLTSALEMAFAGHCGLDLTLDALADSREEIAAVLFNEELGALIQVRQDATPEVLAQFSAAGLGDCVAVIGQPVNGADVAIRFNGEPVFGGERRVLQRQWSETSYRIQRLRDNAECAEQEFDAILEEDNPGLSTKLAFDVNQDIAAPYIKKGVRPQIAVLREQGVNGQVEMAAAFDRAGFAALDVHMSDILAGRVDLNDFKGLVACGGFSYGDVLGAGEGWAKSILFNARAREAFQAFFERKDSFALGVCNGCQMMSNLHELIPGSEFWPHFVRNRSEQFEARVAMVQVQESASIFLRGMAGSRMPIAIAHGEGHAEYESEEALLEADLSGTVALRFVDNHGKVTERYPANPNGSPRGITGLCSRDGRVTIMMPHPERVFRAVQNSWRPDDWQEDGGWMRMFRNARVWVD	PGPT0021585_1264	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021585-purL-K01952	NA	NA
BMS010_09914	276			hypothetical protein	ATGGCGGACGTCGAGCCTGCCGCTGTCATCCTGCCCGAGGTACGCCAGGTAGAGCCCGGCTACAGTTTCTGCCTGTGCCGCTGCGGTCATTCCCCGACCTTGCCGGACTGCCCGCCCCATTGCGCCGACGGTCTCCGTCTGGTCGCCACTCGATCCCGTCTCTTGCTGCTATGCCGCTGCGGTCGTTCGCGCAGCCTGCCTTACTGCGATGGCAGCCACTCGCCCGCCGCCCCGGGGTTCACGGCGAAATGGAAGCGTTTTCTCTCGCCCCGCTGA	MADVEPAAVILPEVRQVEPGYSFCLCRCGHSPTLPDCPPHCADGLRLVATRSRLLLLCRCGRSRSLPYCDGSHSPAAPGFTAKWKRFLSPR				NA	NA	NA	NA	NA
BMS010_09915	318		COG0327	GTP cyclohydrolase 1 type 2	ATGTACAAGCTGTGCTTCTATGTTCCGGAACCCCATCTGGAAGCAGTCAAGAAAGCCATTTTCGCTGCCGGTGCCGGCCGTATCGGTGCATATGACAGTTGCTGCTGGCAGACCTTGGGCCAGGGGCAGTTCCGCCCGTTGGATGGAAGCCAGCCGTTTCTCGGGGTGACCGGGCGTGTGGAGCAGGTGGCGGAATGGAAGGTCGAACTCGTCGTGGCTGACGAGCAGATCCACGATGTGGTGAAGGCGCTGAAGAAGGCGCACCCCTACGAAACGCCGGCGTTCCAGGTGTGGCGCCTGTCGGATATGGTTTTCTGA	MYKLCFYVPEPHLEAVKKAIFAAGAGRIGAYDSCCWQTLGQGQFRPLDGSQPFLGVTGRVEQVAEWKVELVVADEQIHDVVKALKKAHPYETPAFQVWRLSDMVF				NA	NA	NA	NA	NA
BMS010_09916	504			hypothetical protein	ATGCGCTGGTTGTTCGCTGCTCTGTGCCTGTCCATCGCCACCTTGTCTCACGCCAACGCAACGCCCACCCTCGAGGGACAGCAGGTCGACAAGGTGCTGGTCGTCAAATCCGAGCGCAAGCTTCACCTCATCAGCAAAGGGCAGACGCTCAGGAGCTATCGTGTCTCCCTGGGCAAGCAGCCGAAAGGACCGAAACTTCGCGAAGGCGACAAGCGGACGCCGGAAGGCTTCTACTGGATCGACTGGCGCAAGCCCAGCGACAAGTACAACCTGTCCATGCATATCTCCTACCCCAATGCCCGCGACCTCGCACGGGCCCGTCAGGAAGGCGTGCCACCAGGCAGCATGATCATGATCCACGGCACGCCGCTGGATGAGGAATATCCTGAGTGGTACTTCCAGACCCTGGACTGGACCGAAGGCTGCATCGCCCTGACCAATGCCGACATGAAGGAAATCTGGAGCCTGGTGAAAGACGGCACGCTGATCGAGATCAGGCCGTAA	MRWLFAALCLSIATLSHANATPTLEGQQVDKVLVVKSERKLHLISKGQTLRSYRVSLGKQPKGPKLREGDKRTPEGFYWIDWRKPSDKYNLSMHISYPNARDLARARQEGVPPGSMIMIHGTPLDEEYPEWYFQTLDWTEGCIALTNADMKEIWSLVKDGTLIEIRP				NA	NA	NA	NA	NA
BMS010_09917	558	nudC_3		NADH pyrophosphatase	ATGAAATTCTGCAGCCACTGCGGCAGCCCGGTGACGCAACGCATACCCGACGGCGATAACCGCCCACGTTTCGTCTGCGGCGAATGCCAGACCATTCACTATCAGAATCCGCGCGTCGTCGCCGGCTGCCTGCCCGTGTGGGGCGACCAGGTGCTGCTTTGCCGCCGCGCCATCGACCCGCGCCGAGGCTACTGGACGCTCCCGGCCGGCTTCATGGAAAACGGTGAAACCACCGCCGAGGCCGCCATGCGCGAAACCCTGGAAGAAGCCTGCGCGCGAGTGCGCGATCTCAAGCTCTACACCCTCTTCGACCTGCCGCATATCAGCCAGGTCTATCTGTTCTTTCGGGCCGAGCTGATCGACCTGGATTTCGCCGCCGGCGACGAGAGTCTCGAGGTTCGCCTGTTCCACGAGCAGGACATCCCCTGGTCCGAGCTCGCTTTCCCGACCGTAGGGCGTACCTTAGAATGCTTCTTCGCCGACCGGGTGGAGCATGTCTACCCGGTACGCAACGAACCTATCGAAGCGTTGCGGGCCTATTCTAAGAAAGTAGAGTAA	MKFCSHCGSPVTQRIPDGDNRPRFVCGECQTIHYQNPRVVAGCLPVWGDQVLLCRRAIDPRRGYWTLPAGFMENGETTAEAAMRETLEEACARVRDLKLYTLFDLPHISQVYLFFRAELIDLDFAAGDESLEVRLFHEQDIPWSELAFPTVGRTLECFFADRVEHVYPVRNEPIEALRAYSKKVE	PGPT0008680_7	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008680-NUDT23-K18453	NA	NA
BMS010_09918	603	nudL_2		putative Nudix hydrolase NudL	ATGCTGGACGAACTCCTCCAACGTGTGCGCACCTATTCGCCACGCCTCTTGGAGACGGACCGCAGCTTCCCCGAGGCGGCGGTCCTCGTGCCCATCACCCGCAGCGACGAACCCGAGCTGGTGTTGACTCTGCGCGCCAGCGGCCTTTCGACCCACGGTGGGGAAGTCGCCTTCCCGGGCGGACGCCGCGATCCCGAAGATCCCGATCTCATCCGTACCGCCCTGCGCGAGGCGGAAGAAGAAATCGGCCTGCCGCCGGGTCTGGTAGAGGTCATCGGCCCCTTGAGCACGCTGGTATCGCGACACGGTATCAAGGTGACGCCCTACGTCGGGCTGGTACCCGACTACGTCGAATACCAGGCCAACGACGGTGAGATCGCCTCGGTATTCAGTGTGCCGCTATCGTTCTTCCGTGAAGACCCGCGGGAGGTCACCCATCGCATCGATTACCTGGGACATAGCTGGTATGTGCCCAGCTACCGTTTCGGCGAGTACAAGATCTGGGGTCTGACGGCGATCATGGTGGTGGAGTTGGTGAACCTGCTCTATGACGCCGATATCCAGCTGCACCGAGCCCCGAAAACCTTTATCAAACTGAGCTGA	MLDELLQRVRTYSPRLLETDRSFPEAAVLVPITRSDEPELVLTLRASGLSTHGGEVAFPGGRRDPEDPDLIRTALREAEEEIGLPPGLVEVIGPLSTLVSRHGIKVTPYVGLVPDYVEYQANDGEIASVFSVPLSFFREDPREVTHRIDYLGHSWYVPSYRFGEYKIWGLTAIMVVELVNLLYDADIQLHRAPKTFIKLS				NA	NA	NA	NA	NA
BMS010_09919	525	yrdA_3	COG0663	Protein YrdA	ATGAAATATCGCCTGGGAGACGCCCGCGTCGATACCCATCCGGACAGTTGGATCGCACCCAATGCGACCTTGGTCGGCAAGGTCAGGCTGGAGTCCGGCGCCAGTGTCTGGTTCGGTGCCGTGCTGCGCGGCGACAACGAGCTGATCCATATCGGCGAGAACAGCAACGTGCAGGATGGCACCGTGATGCATACCGACATGGGCTATCCGCTGACCATCGGTAAAGGCGTGACCATCGGTCACAACGTCATGCTGCATGGCTGTTCGGTGGGCGACTACAGCCTGATCGGCATCAATGCCGTAGTGCTCAACGGGGCGAAGATCGGCAAGTACTGCCTCATCGGTGCCAATACCCTGATTCCCGAAGGCAAGGAAATTCCCGACGGCTCGCTGGTCATGGGTTCGCCGGGCAAGGTGGTGCGTGAGCTGACCGAGCAACAGAAGAAAATGCTCGAAGCCAGTGCCGCTCACTATGTGCACAACGCCCAGCGCTACGCGCGTGATCTGGCGGAGCAGGACGACTGA	MKYRLGDARVDTHPDSWIAPNATLVGKVRLESGASVWFGAVLRGDNELIHIGENSNVQDGTVMHTDMGYPLTIGKGVTIGHNVMLHGCSVGDYSLIGINAVVLNGAKIGKYCLIGANTLIPEGKEIPDGSLVMGSPGKVVRELTEQQKKMLEASAAHYVHNAQRYARDLAEQDD				NA	NA	NA	NA	NA
BMS010_09920	192			hypothetical protein	ATGGAGCGCGAGCTGCCCGTCGCCTCGCCTTGCGTGCACGTCTGCGCGCTGGATGATGACGACATCTGTATCGGCTGCCAGCGAACGGTGGCCGAAATCACTCGCTGGGGACGCATGGACAACGACGAGCGTCGCCAAGTACTGGTCCGTTGCCATGAGCGAGCCCGGATAAAGGGCCAGTTGCTCTCCTGA	MERELPVASPCVHVCALDDDDICIGCQRTVAEITRWGRMDNDERRQVLVRCHERARIKGQLLS	PGPT0013210_1924	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013210-ydhL-K06938	NA	NA
BMS010_09921	1182	purT	COG0027	Formate-dependent phosphoribosylglycinamide formyltransferase	ATGCCCCGTATTGGTACCCCCTTGTCGCCGAGTGCGACCCGTGTCCTGCTCTGCGGCTCCGGTGAGCTGGGCAAGGAAGTGGTCATCGAACTGCAGCGCCTGGGTGTCGAGGTGATCGCCGTCGACCGTTACGCCGATGCGCCGGCCATGCAGGTCGCCCATCGCAGTCATGTGGTCAACATGCTGGATGGCGCCGCGCTGCGTACGGTGATCGAGCGGGAGCAGCCGCACTACATCGTCCCTGAAATCGAAGCCATCGCCACGGCCACGCTGGTCGAGCTGGAGGCCGAGGGTTTCACCGTGATTCCCACCGCCAGGGCTGCGCAATTGACCATGAACCGCGAAGGCATCCGTCGCCTGGCTGCGGAGGAGTTGGAACTGCCGACCTCGCCGTACCATTTCGCCGACAGCTTCGAGGACTATCGTGCGGCGGTGGAAGATCTGGGCTACCCCTGCGTGGTGAAGCCGATCATGAGTTCGTCCGGCAAGGGGCAGAGCCTGCTCAAGGGGCCTGACGATCTCCGGGCGGCCTGGGACTATGCCCAGGAAGGCGGGCGCGCCGGCAAGGGGCGGGTGATCGTCGAGGGGTTCATCGATTTCGACTACGAGATCACCTTGCTGACCGTCCGGCACATCGGTGGCACCGATTTCTGCGCGCCGGTCGGCCATCGCCAGGTCAAGGGCGATTACCATGAGTCCTGGCAACCCCAGGCAATGAGCCCGAAGGCGCTGGCCGAGTCCGAGCGCATTGCCCGTGCGGTTACCGAGGCGCTGGGCGGGCGCGGCCTGTTCGGTGTCGAGTTGTTCGTCAAAGGTGATCAGGTCTGGTTCAGCGAGGTTTCGCCACGCCCCCACGATACCGGGCTGGTCACGCTGATTTCCCAGGACCTTTCCGAGTTCGCTCTGCATGCGCGAGCCATTCTGGGATTGCCGATTCCCGCGATTCGTCAATTGGGGCCGTCGGCTTCGGCCGTGGTGCTGGTGGAAGGGAAGTCGAAACAGGTGAGTTTCGGCAACCTGGCGGCGGCGCTGAGCGAACCGGATACCGCGTTGCGTCTGTTCGGCAAGCCGGAGGTAGCCGGGCAGCGGCGCATGGGTGTTGCCCTGGCGCGCGACACGTCAGTGGAGTTGGCGCGGGCCAAGGCGACCCGCGCGGCTCGAGCAGTGAACATCGACCTGTGA	MPRIGTPLSPSATRVLLCGSGELGKEVVIELQRLGVEVIAVDRYADAPAMQVAHRSHVVNMLDGAALRTVIEREQPHYIVPEIEAIATATLVELEAEGFTVIPTARAAQLTMNREGIRRLAAEELELPTSPYHFADSFEDYRAAVEDLGYPCVVKPIMSSSGKGQSLLKGPDDLRAAWDYAQEGGRAGKGRVIVEGFIDFDYEITLLTVRHIGGTDFCAPVGHRQVKGDYHESWQPQAMSPKALAESERIARAVTEALGGRGLFGVELFVKGDQVWFSEVSPRPHDTGLVTLISQDLSEFALHARAILGLPIPAIRQLGPSASAVVLVEGKSKQVSFGNLAAALSEPDTALRLFGKPEVAGQRRMGVALARDTSVELARAKATRAARAVNIDL	PGPT0008100_944	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0008100-purT-K08289	NA	NA
BMS010_09923	597			hypothetical protein	ATGGGCTTGGAAGGCGAGCCCTTGCGCTTGCTGGTGCTGGGGGAGTCGACGGTGGCGGGTGTCGGAGCGTCTTGCCTCGAATATGCGCTGGCTGGCCGTCTGGCGGCGGAATTAGCCGAGCGCTATCGCCGGCCGGTGTATTGGCTGGCCTGCGGGGAGAACGGCATCACGGCGCACGATGCCTGCGAGCGCCTTCTGCCCCGGGTTCTGGAGGAGCCGGCCGATCTGGCGCTGCTGGTGTTCGGCGTCAACGACACCACCCACCTCAGTCCGGCGTCGCAGTGGAGGTCGGCATTGGAAACGATGGCGGCGAGCCTGGCGAAGCAGGGGGCCCGCGTCGCGTTCAGCAGCGTTCCGCCGCTTCAGCATTTCTACGCCTTGCCCTGGTTATTGAGGCAATTGCTAGGGGCTCGGGCGAGGTTGCTCGATGCTCAACTGCGTAAGGTGGCCCAGGCGTCCGGCACGGCCTATTGCCCGATGACACTGGAGTTCGTCCGAGGTTACCTGGCAGTGGATGGCTATCATCCGTCCAGTCTGGGCTATCGCATGTGGGCGCAGGGGCTGGCGCAGTTGCTCAGTCCTGCTCGGGTCGATTGA	MGLEGEPLRLLVLGESTVAGVGASCLEYALAGRLAAELAERYRRPVYWLACGENGITAHDACERLLPRVLEEPADLALLVFGVNDTTHLSPASQWRSALETMAASLAKQGARVAFSSVPPLQHFYALPWLLRQLLGARARLLDAQLRKVAQASGTAYCPMTLEFVRGYLAVDGYHPSSLGYRMWAQGLAQLLSPARVD				NA	NA	NA	NA	NA
BMS010_09924	1278			hypothetical protein	GTGGAAAACGTACATCCTGGCTTCCTGCTCGGCCTGTTAGTCTTCCTGCTGGTCTGTTCGGCGTTCTTCTCCAGCTCCGAGACCGGCATGCTCAGCCTCAACCGCTACCGGTTGAAGCACTTAGCCAAAGAGGGACACCGTGGCGCCAAGCGCGCCAGCGCCCTGCTCAGCCGCCCCGACCGCCTGCTCGGCACCATTCTGATCGGCAACAACTTCGTCAATATCCTCGCCTCGTCGATTGCTACCGTGCTGGCCCTGCAACTCTGGGGCGAAGCCGGTATCGCCATCGCCACCGTAGGGCTGACCATCGCTCTGCTGATCTTCGGCGAAATCACCCCCAAGACCCTCGCCGCGCTCAAGCCGGAAAGCGTCGCCTATCCCGCCAGCCTGCCGCTGCTGTTGTTGCTCAAGCTGTTCTATCCACTGGTACTGGCGCTCGGCTGGGTCAGCAACGGTCTGCTCCGCCTGTTCGGCATCGACCCGGCGAGCAAGGGCAACGACGCGCTGACCACCGAGGAACTGCGCAGCGTGGTCCGCGAGTCCGGCCATGAATTGCCACTCAACCGACAGAACATGCTGCTCGGCATCCTCGACCTGGAAAAGGTTACGGTGGACGACATCATGATTCCGCGCAGCGAAGTCACCGGGATCAATCTGGAAGACGATCTGGACGATATCGTCACGCAGTTGCGTACCACCACCCATACCCGGCTTCCGGTGTTCCGCAACGACATCAACCAGATCGAAGGCGTAGTGCACATGCGCCAGATCGCCCGCCTGCTCACCCACAACCAGTTGACCAAGGAGTCGCTGAGGGCCGCCTGCCACGAGCCCTATTTCGTGCCGGAAAACACACCCCTTTCGACCCAGCTGATCAACTTCCAGAAGCAGAAGCGCCGCATCGGTATCGTCGTCGACGAATATGGCGACGTGCTCGGCATCGTGACCCTGGAAGACATCCTCGAAGAGATCGTCGGCGAGTTCAGCAATCAGGACGCCCTGCGCAGTCCCGATATCCATCCCCAGGAGGACGGCACCCAGGTCATCGATGGCGCCGCCTATATCCGCGAAGTGAACAAGGCACTCGGCTGGCAATTGCCCTGCGATGGCCCGAAGACACTCAATGGCTTGGTCACCGAGGCCCTGGAAAGCATTCCCGATAGCGGCGTCTGCCTGAAGATCGGCCCTTACCGGCTGGAAATCCTCCAGGCGGCGGAAAACCGGGTGAAGACGGTGCGAGTCTGGGAAGTGAAGGTCAATCGACCCGAGCAGGACTGA	MENVHPGFLLGLLVFLLVCSAFFSSSETGMLSLNRYRLKHLAKEGHRGAKRASALLSRPDRLLGTILIGNNFVNILASSIATVLALQLWGEAGIAIATVGLTIALLIFGEITPKTLAALKPESVAYPASLPLLLLLKLFYPLVLALGWVSNGLLRLFGIDPASKGNDALTTEELRSVVRESGHELPLNRQNMLLGILDLEKVTVDDIMIPRSEVTGINLEDDLDDIVTQLRTTTHTRLPVFRNDINQIEGVVHMRQIARLLTHNQLTKESLRAACHEPYFVPENTPLSTQLINFQKQKRRIGIVVDEYGDVLGIVTLEDILEEIVGEFSNQDALRSPDIHPQEDGTQVIDGAAYIREVNKALGWQLPCDGPKTLNGLVTEALESIPDSGVCLKIGPYRLEILQAAENRVKTVRVWEVKVNRPEQD				NA	NA	NA	NA	NA
BMS010_09925	843	ypjD	COG4137	Inner membrane protein YpjD	ATGCCACACTCACGCCCTTTCGGGCTCGTCTTATACGGATTTATGCACCCTCTGCTGCCCAGCCTCGCGGCCGCCTGCCTGTATGCCGGCGCCACCGCCTACCAAGGACTCCGCCTGGCCCGCCGCGAGGTGCCGGACCGGCGCTTGCTGGCTCTCCTGGCCATCCTCGCACTGCTTGCCCACGCCGTCGGCCTGTACAACCAATTGCTGACCCCCAACGGGCTCAACCTGGACTTCTTCAACGCCGCCAGCCTGATTGCCGCCGCGGTGATCGCCCTGACACTGCTGGCCTGCGCGCGAATCCCGGTGGAGAACCTGTTGCTTCTGCTACTGCCGCTCGGCGCGCTGACGGCGCTGCTGGCGCAATTCATGCCCTCGGGAACGATCCAGCCGATCAACGAAGAACCAGGCATCCTGGCGCACATCCTGCTGTCGATCCTGGCCTACGGCATGCTCACCATCGCCATGTTCCAGTCGCTGCTGCTCCTTTTGCAGGATCACCAACTCAAGCACAAGCACCCCTCCGGACTGATCCGCAATTTCCCCCCGCTGCAGACCATGGAAAGCCTGCTGTTCGGCTTCCTCTGGGCTGGCTGGGGCCTGCTCTCGCTGTCGCTGCTGTCCGGCTGGCTGTTCCTCGAGGACCTGTTCGCCCAGCATCTGGCACACAAGACGCTGCTCGCCTGCGTAGCCTGGCTGGTCTTCGGGGTGCTCCTGTGGGGGCGCCATCAGCTCGGCTGGCGCGGGCACAAGGCGATCCGCTGGACGCTGGCGGGCTTCTGCCTGCTGATGCTGGCTTATTTCGGCAGCAAGCTGGTGCGCGAATTCATCCTGCACATTTAG	MPHSRPFGLVLYGFMHPLLPSLAAACLYAGATAYQGLRLARREVPDRRLLALLAILALLAHAVGLYNQLLTPNGLNLDFFNAASLIAAAVIALTLLACARIPVENLLLLLLPLGALTALLAQFMPSGTIQPINEEPGILAHILLSILAYGMLTIAMFQSLLLLLQDHQLKHKHPSGLIRNFPPLQTMESLLFGFLWAGWGLLSLSLLSGWLFLEDLFAQHLAHKTLLACVAWLVFGVLLWGRHQLGWRGHKAIRWTLAGFCLLMLAYFGSKLVREFILHI				NA	NA	NA	NA	NA
BMS010_09926	1377	ffh_2	COG0541	Signal recognition particle protein	ATGTTCGAAAATCTTACCGATCGCCTCTCGCATACCCTGCGTACCGTCACTGGCAAGGCCAAGCTGACCGAGGACAACATCAAGGACACCCTGCGCGAAGTGCGCATGGCCCTGCTCGAGGCCGACGTGGCGTTGCCGGTGGTCAAGGACTTCGTCAACCGGGTGAAAGACCGTGCGGTCGGCACCGAAGTCTCGAAGAGCCTGACGCCAGGACAGGCTTTCGTGAAGATTGTCCGGGCCGAGCTGGAAGCGCTGATGGGCGCCGCCAACGAGGATTTGGCACTGAACGTGGCGCCGCCGGCGGTAGTGCTGATGGCTGGCCTGCAGGGTGCGGGCAAGACCACCACGGTCGGCAAGCTGGCGCGCTTCCTCAAGGAGCGCAAGAAAAAGTCGGTTCTGGTGGTGTCCGCCGACGTCTACCGGCCGGCGGCCATCAAGCAGTTGGAAACCCTGGCCAACGACCTCGATGTCACCTTCTTCCCCTCCGACACCAGCCAGAAGCCGGTGGCCATCGCCGAAGCGGCGATTCGCGAGGCGAAACTCAAATTCATCGACGTGGTGATCGTCGACACCGCGGGTCGCTTGCACATCGATGCCGACATGATGGCCGAGATCCAGGCGCTGCATGCGGCGGTCAAGCCGGCCGAGACGCTGTTCGTAGTCGACGCCATGACCGGCCAGGACGCCGCCAATACCGCCAAGGCCTTCGGCGAGGCCCTGCCGCTGACAGGCGTGGTACTGACCAAGGTGGACGGCGATGCGCGTGGCGGTGCGGCCTTGTCGGTGCGCGCGATCACCGGCAAGCCGATCAAGTTTATCGGCATGGGCGAGAAGAGCGATGCGCTTGAGCCTTTCCACCCGGACCGGATTGCCTCGCGCATCCTCGGCATGGGCGACGTGCTCAGCCTGATCGAGCAGGCCGAGCAGACGCTCGACCGGGAAAAGGCCGAGAAGCTCACCAAGAAGCTGAAGAAGGGCAAGGGCTTCGATCTCGAAGACTTCCGCGACCAGTTGCAACAGATGAAGAACATGGGCGGGCTGGGCGGCCTGATGGACAAGCTGCCGCAGATCGGTGGCATGAACCTGGCGCAGATGGGCGGCGCCCAGGGCGTGGCGGAGAAGCAGTTCAAGCAGATGGAAGCCATCATCAACTCCATGACGCCCGCCGAGCGCCGCGATCCCGAGATGATCAGCGGCTCGCGCAAGCGCCGCATCGCTCTCGGTTCCGGCACCCAGGTGCAGGACGTCGGCCGGCTGATCAAGCAGCACAAGCAGATGCAGAAGATGATGAAGAAATTCACCGCCAAGGGCGGCATGGCCAAGATGATGCGGGGGATGAGCGGTATGTTCCCCGGTGGCGGCATGCCCAAGATCTGA	MFENLTDRLSHTLRTVTGKAKLTEDNIKDTLREVRMALLEADVALPVVKDFVNRVKDRAVGTEVSKSLTPGQAFVKIVRAELEALMGAANEDLALNVAPPAVVLMAGLQGAGKTTTVGKLARFLKERKKKSVLVVSADVYRPAAIKQLETLANDLDVTFFPSDTSQKPVAIAEAAIREAKLKFIDVVIVDTAGRLHIDADMMAEIQALHAAVKPAETLFVVDAMTGQDAANTAKAFGEALPLTGVVLTKVDGDARGGAALSVRAITGKPIKFIGMGEKSDALEPFHPDRIASRILGMGDVLSLIEQAEQTLDREKAEKLTKKLKKGKGFDLEDFRDQLQQMKNMGGLGGLMDKLPQIGGMNLAQMGGAQGVAEKQFKQMEAIINSMTPAERRDPEMISGSRKRRIALGSGTQVQDVGRLIKQHKQMQKMMKKFTAKGGMAKMMRGMSGMFPGGGMPKI	PGPT0025750_3183	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025750-ffh-K03106	NA	NA
BMS010_09927	252	rpsP	COG0228	30S ribosomal protein S16	ATGGTAACCATTCGTCTCGCCCGTGGCGGCTCCAAGAAGCGCCCCTTCTATCACCTGACCGTGACCAACAGCCGCAATGCGCGCGACGGTCGCTTCGTAGAGCGTATCGGCTTCTTCAATCCGGTCGCCTCGGGTGCCGAAGTGAAGCTCTCCGTCAACCAGGAGCGTGCCAACTACTGGCTGAGCCAGGGCGCACAGCCGTCTGAGCGCGTTGCTCAGCTGCTGAAGGAAGCTGCCAAGGCCACTGCCTGA	MVTIRLARGGSKKRPFYHLTVTNSRNARDGRFVERIGFFNPVASGAEVKLSVNQERANYWLSQGAQPSERVAQLLKEAAKATA				NA	NA	NA	NA	NA
BMS010_09928	534	rimM_2	COG0806	Ribosome maturation factor RimM	ATGAACGCGACGCCGGTTTCCGAGGAGCTGATTGTCCTCGGCAAGATCACGTCGGTGCATGGCGTTCGCGGCGAAGTGAAGGTGTACTCCTTCACCGATCCGATCGACAACCTGCTGGACTATCGTCGCTGGACGCTTCGGCGCGACAGCGAGACGCGGCAGGTTGAAGTGAGCGGGGGCCGCCTCCAGGGCAAGGTTCTGGTGGCGAAGCTTAAAGGATTCGATGACCGTGAAGAGGCACGTACTCTTGCGGGCTTCGACATTTGCGTGCCCCGTGGCGAACTTCCGGGCCTGTCCGAGGGCGAGTACTACTGGTACCAGCTCGAAGGGCTCAAGGTGATAGACCAGGCCGGGCAACTGCTCGGGCGTATCGATCATCTGCTGGAAACCGGCTCCAACGATGTAATGGTGGTCAAGCCCTTCCTGGGCAGCCTGGATGATCGCGAGCGCCTGTTGCCCTATACGGAACAGTGCGTGCTGTCGGTTGACCTGGAAACCGGGGAAATGCGGGTGGACTGGGATGCGGACTTCTGA	MNATPVSEELIVLGKITSVHGVRGEVKVYSFTDPIDNLLDYRRWTLRRDSETRQVEVSGGRLQGKVLVAKLKGFDDREEARTLAGFDICVPRGELPGLSEGEYYWYQLEGLKVIDQAGQLLGRIDHLLETGSNDVMVVKPFLGSLDDRERLLPYTEQCVLSVDLETGEMRVDWDADF				NA	NA	NA	NA	NA
BMS010_09929	744	trmD_2	COG0336	tRNA (guanine-N(1)-)-methyltransferase	ATGAGGGTCGAGGTCATCAGCATCTTCCCGGAGATGTTCGCCGCCATCAGCGAGTACGGCATCACCAGCCGTGCGGTGAAGCAGGGGCTGCTGCAGCTGACCTGCTGGAACCCGCGGAGCTTTACCGAGGATCGCCACCAGACGGTGGATGACCGCCCGTTCGGCGGTGGGCCCGGCATGGTGATGAAGATCCAGCCCCTGGAGCGTGCTCTGGCAGCAGCCAGGCAGGCGGCCGGGGAGACGGCGAAGGTGATCTACCTGTCGCCGCAGGGTCGCCAGCTGAAGCAAGCGGCCGTGCGCGAACTGGCGCAGGAGCAGGCAATGATCCTGATCGCCGGTCGCTACGAAGGTATCGATGAGCGCTTCATCGAGGCGCACGTCGACGAAGAATGGTCGATTGGCGATTACGTTCTGTCCGGTGGCGAGCTGCCGGCGATGGTGCTGATCGATGCGGTGACCCGTTTGTTGCCCGGTGCATTGGGCCATGTGGATTCCGCCGAGGAGGATTCGTTTACCGACGGCCTGCTCGACTGCCCGCACTACACCCGACCCGAGGTGTACGAAGGCAAGCGTGTTCCTGAGGTGCTGCTCAGCGGCAATCACGAACACATCCGGCGCTGGCGTTTGCAGCAGTCCCTTGGAAGGACCTACGAACGTCGCGCTGATCTTCTGGATAGCCGCTCGCTTTCTGGAGAAGAGCAAAAGCTGTTGGCGGAATATCTTCGCCAGCGGGACGATAGTTAA	MRVEVISIFPEMFAAISEYGITSRAVKQGLLQLTCWNPRSFTEDRHQTVDDRPFGGGPGMVMKIQPLERALAAARQAAGETAKVIYLSPQGRQLKQAAVRELAQEQAMILIAGRYEGIDERFIEAHVDEEWSIGDYVLSGGELPAMVLIDAVTRLLPGALGHVDSAEEDSFTDGLLDCPHYTRPEVYEGKRVPEVLLSGNHEHIRRWRLQQSLGRTYERRADLLDSRSLSGEEQKLLAEYLRQRDDS	PGPT0007595_17	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007595-ispF-K01770	NA	NA
BMS010_09930	351	rplS	COG0335	50S ribosomal protein L19	ATGACCAACAAGATCATTCAGCAGCTCGAAGCCGAGCAGATGAACAAAGAAATTCCGGCTTTCGCCCCGGGCGACACCGTTATCGTTCAAGTGAAAGTGAAGGAAGGCGACCGTCAGCGTCTGCAGGCTTTCGAAGGTGTGGTCATCGCCAAGCGTAACCGTGGCCTGAACAGCGCGTTCACCGTGCGCAAGATTTCCAGCGGCGTCGGTGTCGAGCGTACCTTCCAGACCTACTCCCCGCTGGTCGACAGCGTGAGCGTCAAGCGCCGCGGCGATGTGCGCAAGGCCAAGCTGTACTACCTCCGCGACCTGTCCGGCAAGGCGGCTCGCATCAAGGAAAAGCTGGCCTGA	MTNKIIQQLEAEQMNKEIPAFAPGDTVIVQVKVKEGDRQRLQAFEGVVIAKRNRGLNSAFTVRKISSGVGVERTFQTYSPLVDSVSVKRRGDVRKAKLYYLRDLSGKAARIKEKLA				NA	NA	NA	NA	NA
BMS010_09931	699	ltxA	COG2931	Leukotoxin	ATGGCCTTGCAGAGCACGGACGGCAACGATGCCCTGTGGGGTTATGCCTCCGACGATACCCTGAGCGGTGGCCTGGGCAATGACACCCTGTTCGGTCAGGCCGGCCAGGATGTACTGGAAGGCGGTGCCGGCAACGACACGCTGTACGGCGAGGACGGCAACGACAGCCTGCTGGGTGGGGATGGAACCGATCTGCTGAACGGCGGCAACGGCGATGACCTGCTGCAAGGTGACGTGGGCAATGACACGCTCTATGGCGGCAATGGCAACGACACCCTCGAAGGCGGTCTGGGCAACGATTACCTCGATGGCGATGCCGGCTCCGACACCTACCTCTTCGGCAACGGCTCTGGCGTGGACACCATCAACAACTACGACACCGCCGCCGCCAGCGTCGATACGTTGCAGTTCGGGGATGGGGTTTCCGTCGAGCAGTTGTGGTTCCGTCGCAACGGTTCGAACCTGGATGTCAGCATCGTCGGTTCGAGTGACAAGGTGTCGATCAGTAGCTGGTATGCCAGCAGCAATTACCATCTGGACCAGTTCAAGACGGCCGATGGCAAAACCCTGTTGGAAAGCCAGGTGCAGTCGCTGGTGGATGCGATGGCTGCCTTCGGTGTGCCGGCGGGCGGGGAGTCGAATCTCTCTGCCGATCAGCGGGCACAGTTGGAGGTGGTGATCGCCGCGAACTGGCAATAA	MALQSTDGNDALWGYASDDTLSGGLGNDTLFGQAGQDVLEGGAGNDTLYGEDGNDSLLGGDGTDLLNGGNGDDLLQGDVGNDTLYGGNGNDTLEGGLGNDYLDGDAGSDTYLFGNGSGVDTINNYDTAAASVDTLQFGDGVSVEQLWFRRNGSNLDVSIVGSSDKVSISSWYASSNYHLDQFKTADGKTLLESQVQSLVDAMAAFGVPAGGESNLSADQRAQLEVVIAANWQ				NA	NA	NA	NA	NA
BMS010_09932	804		COG2200	putative signaling protein	TTGCAACCGCTCACAATCTACCCGAAGCGCCAGACCACTGCCGCCGATCTGCGCCAGGCCCAACAGAACGGCGAATTGGAGCTGTACTACCAGCCCCAGGTCGATCTCGGCACCGGCCTGCTCATCGGTGCGGAAGCCCTGCTGCGCTGGAACCACCCCGAGAAGGGCCAGCTCACACCCGACCAATTCCTTTCCATCGCCGAAGAGAGCGGCCTGATCGTCGACATCGGCGAGTGGGTCCTGCACAACGCCTGCCGCACCGCCGTGAACTGGAACCAGGACCGGCGGCGCGTCCTGACGATCGCCGTCAACCTGTCGCCACACCAGTTCGGCCCGAACGACCTGCTCGCCTCGGTCTGCCGCATTCTCCAGGTCACCCGATGCGAAGCGGAATGGCTTACCCTGGAAGTCACCGAAGCCTTGCTCCAGCACGATAACGGCGCCGCCTGCGAAACCCTCGAACAACTGCGCGACCTGGGTGTCTCCATCGCCATCGACGACTTCGGCAAGGGTGCGTCGCTGCTCAGCCCCCTGAAGCGCCTCCCCGTGGATAGCCTGAAGATCGACCGATTCTTCATCCGCAACATGAAACGCGACAGCGAGAACACGGAACTGATCAAAGCGATCATCGCCCTGGGCAGCAGCTTGAACATGAGACTGATGGCCGAAGGCGTCGAAGACCCCTCCCAGGAAGAAATGCTGCAACGCTACGGCTGCCACAGCGCCCAGGGCTACCTCTACGGCCGCCCCATGGCGAAGAAAACCTTCGAACAATTGCTGTTCGATACGGGCGCGGCCCTCTGA	MQPLTIYPKRQTTAADLRQAQQNGELELYYQPQVDLGTGLLIGAEALLRWNHPEKGQLTPDQFLSIAEESGLIVDIGEWVLHNACRTAVNWNQDRRRVLTIAVNLSPHQFGPNDLLASVCRILQVTRCEAEWLTLEVTEALLQHDNGAACETLEQLRDLGVSIAIDDFGKGASLLSPLKRLPVDSLKIDRFFIRNMKRDSENTELIKAIIALGSSLNMRLMAEGVEDPSQEEMLQRYGCHSAQGYLYGRPMAKKTFEQLLFDTGAAL	PGPT0023624_688	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-GGDEF|EAL|PAC|PAS-DOMAIN-CONTAINING_PROTEIN,PGPT0023624-GGDEF|EAL|PAC|PAS_domain_containing_protein-NA	NA	NA
BMS010_09933	2820			hypothetical protein	ATGAACGACTTGCTCGCCTCACCGCCAGCACCGCACCACGACAGCGCTGCCATTCAGCCTTACCTCGTGGCCTTCGCTTCCAGCCTGGATGGCATGGCGGTCTACGCGCTGGACGACCAGGCCCGCTTGTACCTGCACACCAGCAACCCGGCCTGGCGTCGGTTGCTGGGCCTGGCGGAGCAGGCCCCGTCCGTGGCTCTGGACGAGTGTCTGCCGGCTGGTGCAGCACGCCAGTTGGAAGCCGACAGCCTAGCCTGTGTCGCCGCCGGCGAAGTACGCGACAGCGAAATCGAGCTGCAACTGCCCCATGGCCGCGGACAGTTCTTGCAACGCCTGGTCCCGCTGGGCTACCGCCAGGTGCTGCATATCCTCCGTGACCTCACGGCGGACAAGCATCACGAACAGCAATTGCTGAACGATACCCAGTCGTTTCGCATGCTGGCGGAACACACGCCCGACACCATCGCCCGTTACGACCGCGATTGCCTGCGGACCTACGCCAACCCCGCCTTCGCCCGCCTGACCGACGTACCGGTGAAAAGCCTTCTGGGCAAGAAACCCAGCCATGTCGCGACCGCCGAAATGCTCGCATACGAGGCCAAACTCCTCGACGTGCTGCACAGCGGCCAGCCTGCCGAACACGAACTGGCCTGGCAGACACCGGATGGACGGGCAATCCTCAGCCATATCCGCATCGTCCCGGAACGTGCGGCCGACGGGCAGATCGTCAGCGTGCTGGCGGTAGGCCGCGACATCACGGCACAGCGTCAGGCCGAAGAGGTGCTGCGGATCAAGGAGCAGGAATTCCGCACACTGGTGGAGAATTCACCGGACGTCATCGTGCGCTTCGACCGGACGGGCCGGCGCACCTACTGCAACCCGGCGTACGAAGCCATGTTCGGTGCCAACGCGGCGGACGTGCTGGGCGCTTCGCTGCTCCAGCGCAGCTTCTACCTCCCGGAACAGGCCGCCCGCTATCACGCCGGACTGCTGGACGTGATCGCCAAGGGCACGCCGACCTCGCTGGAGGTCGAATGGGTCAAGGGCACCGGTGAACACGTCTTCCAGCATGTCCGCGTCGTCCCCGAGTTCGACCGACATGGCCAGGTCGAAAGCGTGCTCACCATCGCCCGGGACATTTCCTCCCTGAAGGAAACCAGCCGCCGCCTGGAGGAAGCCGAAGCACTCGCCCGCCTCGGCCATTGGCAACTGGACTTCCGCACCCGCAAGACCCGGCTCTCGGCGGAACTCTGCCGCCTGCTCGGCCAGCCACGCGGTTGGGCGCCCTACCCCGAACAGGTGCTGGCGATGCTGCCCGAGGAAGAGCGCAACCGAATCGCCTCCAGCATCCAGCAGGCCTATCTGGCGCGCACCACCGAGCTGGCGATGGACTACAGCATCGACACCGGCCAACGTACGCTGCACCTGCACTCCCGGCTGCGCATCGCCTATGCCGAAGACGGCACGCCATTGCAAATGCTCGGCACCGTGCAGGACATCAGCAAGGTGAAGGCATACCAGAAGCAGCTGCACGCCCTCGCCTTCTTCGACTCCCTGACCGGCCTGCCCAACCGCGAGCTGTTCAACGCGAGGCTTCAGCAAGCCATGCTCCAGGCCGACCACAGCGGCCGGCATATCGCCGTGATGATTCTCGACCTGGACAACTTCAAGATCGTCAACGACACCCTCGGCCACGCCGCCGGCGACGATCTGCTGCAGGAAATCGCCCGCCGCCTGGGCGATGCCATACGCGATGGCGATACCGTTGCCCGCCTGGGCGGCGACGAATTCGCCCTGGTCCTGACCGGCATGCACGACGACGCCGATCTCGAGCGAACCGGCCATGCGCTGCTCCAGTCCATCGGCGAAGTCTGCCTGATCCAGGACCGCGAGCTGTTCATCTACTCCAGCATCGGCATTTCCCGCTATCCGCACGACGGGCAAACCATCGAGGAACTGCTGCAATACGCCGACACCGCGCTCTACCACGCCAAGGAACAGGGGCGGAACAACGTCCAGTTCTATACGCCGAGCCTGACCCAGCAGACCACCCAGCGCCTGGCCATCGCCGCCAACCTGCGCCATGCCCGGCAGAACGGCGAACTGGAGCTGTACTACCAGCCGCAGATCGATCTGAGCAGTGGCCTGTTGATCGGCGCGGAAGCGCTGCTGCGCTGGAATCACCCGCAGGACGGGATGATCCAACCCGATGACTTCGTTTCCATCGCCGAAGAGACCGGCCTGATCGTCGGCATCGGCGAGTGGGTGCTGCACACCGCTTGCCGCACGGCGGTGGAGTGGAACCGCGACCGGAAGCGCCGTATCAAGATCGCCATCAACCTCTCGCCCCGCCAGTTCAAGCTGAACGACCTGCTCGCCTCGGTGTGCAATGCCCTGCAAGCCACCGGCTGCCGGCCCGCCTGGCTCAGCCTGGAAATCACCGAAGGCTTGCTGCTGGACGACAACCCGGTGGTGCGTGAAACCCTGACGCAACTGAGCGACATGGGCTTTTCCATCGCCATCGACGACTTCGGCACCGGTTACTCGGCGCTCGGCTACCTGAATCGCTTCCCGGTGGAAACCCTGAAGATCGACCGCTCCTTCATCCGCGATATCGAGCACAACAAGCGGAGCGCCGAGCTGGTCAAGGCGATCGTCTCCATGGCCCATAGTCTGCGCCTGACGCTCATCGCCGAAGGCGTCGAAGAGCCCTCCCAGGAAGCCCTGCTGCGACGCTATGGCTGCCACAATGCCCAAGGCTATTTCTACGGCCGCCCCATGTCGAAAGCAGCCTTCGAACGACTGCTCGCCGATCGATGA	MNDLLASPPAPHHDSAAIQPYLVAFASSLDGMAVYALDDQARLYLHTSNPAWRRLLGLAEQAPSVALDECLPAGAARQLEADSLACVAAGEVRDSEIELQLPHGRGQFLQRLVPLGYRQVLHILRDLTADKHHEQQLLNDTQSFRMLAEHTPDTIARYDRDCLRTYANPAFARLTDVPVKSLLGKKPSHVATAEMLAYEAKLLDVLHSGQPAEHELAWQTPDGRAILSHIRIVPERAADGQIVSVLAVGRDITAQRQAEEVLRIKEQEFRTLVENSPDVIVRFDRTGRRTYCNPAYEAMFGANAADVLGASLLQRSFYLPEQAARYHAGLLDVIAKGTPTSLEVEWVKGTGEHVFQHVRVVPEFDRHGQVESVLTIARDISSLKETSRRLEEAEALARLGHWQLDFRTRKTRLSAELCRLLGQPRGWAPYPEQVLAMLPEEERNRIASSIQQAYLARTTELAMDYSIDTGQRTLHLHSRLRIAYAEDGTPLQMLGTVQDISKVKAYQKQLHALAFFDSLTGLPNRELFNARLQQAMLQADHSGRHIAVMILDLDNFKIVNDTLGHAAGDDLLQEIARRLGDAIRDGDTVARLGGDEFALVLTGMHDDADLERTGHALLQSIGEVCLIQDRELFIYSSIGISRYPHDGQTIEELLQYADTALYHAKEQGRNNVQFYTPSLTQQTTQRLAIAANLRHARQNGELELYYQPQIDLSSGLLIGAEALLRWNHPQDGMIQPDDFVSIAEETGLIVGIGEWVLHTACRTAVEWNRDRKRRIKIAINLSPRQFKLNDLLASVCNALQATGCRPAWLSLEITEGLLLDDNPVVRETLTQLSDMGFSIAIDDFGTGYSALGYLNRFPVETLKIDRSFIRDIEHNKRSAELVKAIVSMAHSLRLTLIAEGVEEPSQEALLRRYGCHNAQGYFYGRPMSKAAFERLLADR	PGPT0023624_688	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-GGDEF|EAL|PAC|PAS-DOMAIN-CONTAINING_PROTEIN,PGPT0023624-GGDEF|EAL|PAC|PAS_domain_containing_protein-NA	NA	NA
BMS010_09934	1062	cheB_15	COG2201	Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGAAGCCGATCGCCGTGATGATCGTCGACGACTCCGCCGTGGTGCGCCAAGTACTCTCCGCCCTGTTGGCCGAACAGCCGGACATCGAAGTGATCGGTGTCGCAGCCGACCCGTTGCTCGCCCTGGAGAAGATGCAGCGCCGCTGGCCGGACGTGGTGGTGCTGGACGTGGAAATGCCGCGTATGGACGGCCTGACCTTCCTGCGCAAGCTGATGGCCGAGCACCCGACGCCGGTGGTGATCTGCTCCACCCTCACCGAAGCCGGCGCCCAGACCACCCTGCAGGCCCTGGCGGAAGGCGCGGTCAGCATCGTGACCAAGCCGCGCATGGGCCTCCGGCAGTTCCTGATCGACAGCCGCCAGGAGCTGGTCCACGCGATCCAGGGCGCGGCCCGCGCCAACCTCGGTCGGCTGACCGCGCGCCCCGTCGTATCCGCCATACCCGCTGCCCTACCGCCCTCGAGCCCCCAGGCGATGCTGCACACCACCGACAGCGTGGTGGCCATCGGGACCTCGACCGGTGGAACCCAGGCGCTGGAAACGATACTCACTGTTCTGCCACGTACCTGTCCGGGCCTGGTGATCGTCCAGCACATGCCGGAGCGCTTCACCAAGGCGTTCGCCGAGCGGCTCGACCGGCTCTGCCAGATCGAGGTACGCGAAGCGGAGGACGGCGACCGGGTGATGCCGGGCCGGGCCCTGATCGCGCCGGGCGGCCGGCACATGCTGCTGCAGCGCAATGGCGCGCAATACCGTGTGGAGATTCGCGACGGGCCGCCCGTCAGCCGGCACCGGCCTTCCGTGGACGTGCTGTTCCGCTCCGCCGCCCGCGCTGCCGGGGCCAATGCCCTGGGCATCATCATGACCGGCATGGGCAGCGACGGCGCCCGTGGATTGAAGGAAATGCGCGACGCCGGCGCCCGCACCCTGGCCCAGGACGAAGCCACCTGCGTGGTGTTCGGCATGCCCAGGGAAGCCGTGAAGCTCGGTGCCGCGGAACAGGTCCTGCCCCTCGGCGAGATTCCCGGGGCGATCGTCGCGGCCCGGACGGGTCGGGGCTGA	MKPIAVMIVDDSAVVRQVLSALLAEQPDIEVIGVAADPLLALEKMQRRWPDVVVLDVEMPRMDGLTFLRKLMAEHPTPVVICSTLTEAGAQTTLQALAEGAVSIVTKPRMGLRQFLIDSRQELVHAIQGAARANLGRLTARPVVSAIPAALPPSSPQAMLHTTDSVVAIGTSTGGTQALETILTVLPRTCPGLVIVQHMPERFTKAFAERLDRLCQIEVREAEDGDRVMPGRALIAPGGRHMLLQRNGAQYRVEIRDGPPVSRHRPSVDVLFRSAARAAGANALGIIMTGMGSDGARGLKEMRDAGARTLAQDEATCVVFGMPREAVKLGAAEQVLPLGEIPGAIVAARTGRG	PGPT0015650_2195	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015650-cheB|chpB|wspF-K03412	NA	NA
BMS010_09935	513	cheD_2		Chemoreceptor glutamine deamidase CheD	ATGCGTAAGCCCGCCCCGCTCATCGAGGTTTTCCTGCAGCCGGGCGAGCTGTACTTCGGCGACCGCCACACACGTATCCGCACGCTGCTGGGCTCCTGCGTCTCGCTGGTCTGCTGGCATCCGTTCCGGCAGATCGGCGGCATGTGCCACTTCCTCCTGCCGACCCGACCGACCATCGCTGGCGGCGAGCTGGACGGCCGCTACGCCGACGAGGCCCTGGAACTGATGCTGCGCGAGATTCGTACCGCCAAGGCGCGCCCCGACGAGTTCCGCATCCAGCTCTTCGGCGGCGGCAGCATGTTTCCCGATGTCATGCGTGGGAACCCGGGCCAGGTCGGGCGCAAGAACGTCGAGGCCGCCCGGCGCCTGCTCGACGCCCATGGGCTCGCCTGCAGCGGCGCCCATGTCGAGGGCGTCGGCCATCGCAGCCTGATCTTCGATCTGTGGAACGGCCATGTCTCGGTCCGGCACAGCGCTCCCGAGGCTGGCCACAAGGCGGATAGACGCGCATGA	MRKPAPLIEVFLQPGELYFGDRHTRIRTLLGSCVSLVCWHPFRQIGGMCHFLLPTRPTIAGGELDGRYADEALELMLREIRTAKARPDEFRIQLFGGGSMFPDVMRGNPGQVGRKNVEAARRLLDAHGLACSGAHVEGVGHRSLIFDLWNGHVSVRHSAPEAGHKADRRA	PGPT0015665_465	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015665-cheD-K03411	NA	NA
BMS010_09936	870	cheR_3		Chemotaxis protein methyltransferase	ATGACCGGATACCGGCGGGGTGAGCCGGCCGGGGCTCCCGGGCGCTCCGGCGAACGCGGCGCCTCGTGCCCGCCCGTGCTGAGCGACCAGGAGTTCCGGCAGTTCCGCACCCTGCTCCACGAAGTGGCCGGCATCAGCATGAGCGATGCCAAGAAGCCGTTGGTGAGCGGGCGCCTGGCCAAGCGCATCCGCCAATGCGGCCTGGGCAGCTACAGCGACTATTTCCGCCTGCTGGCGCGCGAGCAGGCCGAACTCCAGGTGGCAGTCGACCTGCTGACCACCAACGAAACCTATTTCTTCCGTGAGCCGAAGCACTTCGAGTTCCTCCGCGAACAAATCCTGCCGCCACGCCGTGGCCCGCAGAAGATACGCATCTGGAGCGGCGCCTGTTCCAGCGGGGAAGAACCCTACAGCCTCGCCATGACCCTGGCCGACAGCCTCGGCCAGCAGCCGTGGGAGGTGGTTGCCTCGGACATCAGCACCCGTGTGCTGGAGAAAGCACGGACGGGCCTCTACCGCCTGGACGATGCACAGACCCTGCCGCGCTCGACGCTGATACGGCACTGCCTGAAGGGTGTCGGCGAACACGAGGGCTGCTTCCTGGTGAAGCCCGAACTGCGCGAGCGCATCCGCTTCATGCAGGTCAACCTGAACGCCCCGTTGCCCGACCTGGGGGACTTCGACGTCATCTTCCTGCGCAACGTGATGATTTATTTCGACCAGGAGACCAAGCGCCGCGTCGTCCGGCGCCTGCTGCCCCGGCTGCGTCCCGGCGGCTACTTCATCGTCAGCCACTCGGAAAGCCTCAACGGGGTATCGGACGAGCTGCGCCTGGTCAGCCCCTCGATCTACCGGAAGCCCCATGCGTAA	MTGYRRGEPAGAPGRSGERGASCPPVLSDQEFRQFRTLLHEVAGISMSDAKKPLVSGRLAKRIRQCGLGSYSDYFRLLAREQAELQVAVDLLTTNETYFFREPKHFEFLREQILPPRRGPQKIRIWSGACSSGEEPYSLAMTLADSLGQQPWEVVASDISTRVLEKARTGLYRLDDAQTLPRSTLIRHCLKGVGEHEGCFLVKPELRERIRFMQVNLNAPLPDLGDFDVIFLRNVMIYFDQETKRRVVRRLLPRLRPGGYFIVSHSESLNGVSDELRLVSPSIYRKPHA	PGPT0015670_3724	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015670-cheR|pilK-K00575	NA	NA
BMS010_09937	525	cheW_5	COG0835	Chemotaxis protein CheW	ATGGGTCAACTGATCAAGGCGGACATGCGCGACCTCGCCGCGGAATCCCGCCAGTACCTCACCTTCACCCTGGCCGGCGAGCAGTTCGCCGTGGGTACGCTCTGCGTCAAGGAAATCATCGAGTACGGCCAGGTCACCGCGATCCCCATGATGCCACCCAGCATCCGTGGCGTGATCAACCTGCGCGGCGCGGTGGTCCCGGTGATCGACCTCGGTGCGCGCTTCGGCGGCCCCGTCACGGCGGTCGGCCGGCGTACCTGCATCGTCATCCTCGAAGTCCAGCACGCCGAGGGTCGGCAAGTGCTCGGCGTGGTGGTCGATGCCGTCAACGAAGTGCTGGAAATCGCCCCGGCGGACATCGAGCCGCCCCCCGCCTTCGGTACCCACATCCGCACCGACTTCATCCTCGGCATGGGCAAGGTCGGCGGGCGTTTCGTCATCCTGCTCGACATCGGCCGGGTGCTTTCCGTCGACGAACTCGCCGATCTGGCCAGCGCCGCACAGCACGTGGACGAGCAACCATGA	MGQLIKADMRDLAAESRQYLTFTLAGEQFAVGTLCVKEIIEYGQVTAIPMMPPSIRGVINLRGAVVPVIDLGARFGGPVTAVGRRTCIVILEVQHAEGRQVLGVVVDAVNEVLEIAPADIEPPPAFGTHIRTDFILGMGKVGGRFVILLDIGRVLSVDELADLASAAQHVDEQP	PGPT0015680_975	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015680-cheW-K03408	NA	NA
BMS010_09938	2544			hypothetical protein	ATGAAGAACATGCGAATCGGTATCCGCCTCGTCCTGGGTTTCGCCAGCATCCTGGTGCTGATGGCTCTCCTGGCCTGGAACGGCATCAGCCGCCTGCAACACACCCGGGAGGATCTCGACGAGATCGTCAACCTGCGCATGCAGCGGGTGATGCAGGTCGCCACCCTGCGCAACCAGATGAACATCGTCGCCCGCGCCACCCGCAACACCCTGCTCACCGACGACAGCGCGCGCATCCGCCTGGAAACCGACCGCGTCCTGGCCGCGCGGACGGAGTTCACCAAGGTGCTCGATGCCATGAGCGACAGCGTCAGCACGGACGAAGCCAGGACGCTCAGCAGCGACATCCGCACGCACTTCGAAGCGGCCGTGCCGCTGGTGGACCGGGCGCTGCGGTTCAGCGAATCCGGCCACAACGCCGAGGCCGCCGACCTGCTGATGAACGAAGTGGCGCCTGTGCAGGAAAGCCTCTTCAAGGCCCTGGACGCCATGCTCGCCTACCAGCAACGCAAGACCGGCGAAGCGGTGGCCCAGGCCGAGGCGAACCATGACGCTGGGGTGCGCATGACGCTGATCCTGCTGGGCATCGCCGTGGCGCTGGGCGCCCTGGTGGCGGTCCTTATCACCCGTTCCATCGTCCGCCCGCTGGCCGAGTCCATGCAGGTGGCCAATCGCCTGGCCGCCGGCGACCTGTCCGCCGACATCGTCATCGACCGCCGCGACGAGACCGGCCAGCTACAAACCGCCATCCAGGGCGTGTCGGCCAGCCTGCAGTCGCTGATCGCCGAAATGAACCGGATGTCCGCCGAGCACGACCGGGGCGACATCGACGTCCGCGTCGATACCGAGCGCTTCCAGGGGGCCTACCGGGCCATGGCGGAAGGGGTCAACACCATGGTCGAAGGACACCTCGCCGTGCAAAAGAAAGCCATGGCCTGCATCGCCGCGTTTGGCGAGGGTGACTTCGACGCGCCGCTGGAGCGCTTCCCCGGCAAGAAGGCGTTCATCAACGAGGTGATCGAGCGGACCCGCCAGCAACTCAAGGACGCGGCGGCGGCCGCTGCCGTGGCCACCACCATCCGCACCACCCTGGACAACGCCTCGGTCAACGTGATGATGGCGGACAACGACGGCATCATCCGCTACATGAACAAGGCCACCGAAGCCCTGATGCGCCAGTCCGAGGCGAACTTCCGCAAGCTGCTGCCGCAGTTCCGCGCGGACCAGATCATCGGCACGAACTTCGATGCCTTCCACAAGAACCCCAGCCACCAGCGCAACCTGCTCAGCCACCTGCGCGGCACGCATGTCGCTCCGATATCCGTCGGCGGCCTGACCTTCCGCCTCAGTGCCAGCCCCATCTACGACCTGGCCGGAACCCGGCTCGGTACCGTGCTGGAGTGGATCGACCGCACCGCCGAAGTGGCCGCCGAACAGGAAATCGGCCAAGTGGTGGCCGCCGCCGCGGCCGGCGACTTCTCCGCACGGGTCTCGGAAGAGAACAAGACCGGCTTCTACCAACTGGTCGCCGAGGGCATGAACCGCATCGTCGGCACCAGTGAAAACGCGCTGGCGGATGTCCAGCGGGTCCTGGCCGGCCTCGAGCGCGGCGACCTGACCCAGGTAATCGAGAACGCCTACCAGGGGGCCTTCGATGGCCTCAAGCATTCGGTCAACGCCACCATCCACACATTGTCCGGGATCATCGGCGACGTGCGCGGCGCGGCGGATTCGCTGTCCAGCGCCTCGGAACAGGTCTCGGCCACCGCCCAGAGCCTGAGCCAGGCTTCCAGCGAGCAGGCGGCCAGCGTCGAAGAGACCTCTGCCTCCATGGAGCAGATGTCCGCCTCGGTCGAGCAGAACACCGAGAACGCCCGGGTCACCGATGGCATGGCCTCCAGCGCTGCCCGCCAGGCGAGCGAGGGTGGCGAGGCGGTCAAGGACACCGTCGCCGCCATGAAATCCATCGCCGAGAAGATCGGCATCATCGACGACATCGCCTACCAGACCAACCTACTCGCCCTGAACGCCGCCATCGAAGCAGCCCGCGCCGGCGAGCATGGCAAGGGCTTCGCCGTGGTCGCCGCCGAGGTGCGCAAGCTGGCCGAGCGCAGCCAGGTCGCCGCCCAGGAAATCGGCGAAGTGGCCAAGGGCAGCGTGGCCCTGGCCGAGCGCGCCGGCAGCCTGCTGGACGACATGCTGCCGAGCATCGCCAAGACCTCCGACCTGGTGCAGGAAATCGCGGCCGCCTCGTCCGAACAGTCCTCCGGTGTCGGCCAGATCAACATGGCGATGAACCAGCTCAGTCAGATCACCCAGCAGAACGCCTCCTCCTCCGAGGAACTGGCCGCCACCGCCGAGGAGATGAGCGGCCAGGCCGAGCAATTGCAGCAACTGATGGCGTTCTTCACCCTGGACGAGCCCTCCGGCACCGCACGCCGTCCGCATGCCACCGCGCCGGTTGCGGAGCGCGCCCTCGGCGGCGCCATGCCGCGCCGCCCGGCGACGGCGATACCGGCGGGCTTTACCGTTTTCGAGGAATGA	MKNMRIGIRLVLGFASILVLMALLAWNGISRLQHTREDLDEIVNLRMQRVMQVATLRNQMNIVARATRNTLLTDDSARIRLETDRVLAARTEFTKVLDAMSDSVSTDEARTLSSDIRTHFEAAVPLVDRALRFSESGHNAEAADLLMNEVAPVQESLFKALDAMLAYQQRKTGEAVAQAEANHDAGVRMTLILLGIAVALGALVAVLITRSIVRPLAESMQVANRLAAGDLSADIVIDRRDETGQLQTAIQGVSASLQSLIAEMNRMSAEHDRGDIDVRVDTERFQGAYRAMAEGVNTMVEGHLAVQKKAMACIAAFGEGDFDAPLERFPGKKAFINEVIERTRQQLKDAAAAAAVATTIRTTLDNASVNVMMADNDGIIRYMNKATEALMRQSEANFRKLLPQFRADQIIGTNFDAFHKNPSHQRNLLSHLRGTHVAPISVGGLTFRLSASPIYDLAGTRLGTVLEWIDRTAEVAAEQEIGQVVAAAAAGDFSARVSEENKTGFYQLVAEGMNRIVGTSENALADVQRVLAGLERGDLTQVIENAYQGAFDGLKHSVNATIHTLSGIIGDVRGAADSLSSASEQVSATAQSLSQASSEQAASVEETSASMEQMSASVEQNTENARVTDGMASSAARQASEGGEAVKDTVAAMKSIAEKIGIIDDIAYQTNLLALNAAIEAARAGEHGKGFAVVAAEVRKLAERSQVAAQEIGEVAKGSVALAERAGSLLDDMLPSIAKTSDLVQEIAAASSEQSSGVGQINMAMNQLSQITQQNASSSEELAATAEEMSGQAEQLQQLMAFFTLDEPSGTARRPHATAPVAERALGGAMPRRPATAIPAGFTVFEE				NA	NA	NA	NA	NA
BMS010_09939	2178	cheA_3	COG0643	Chemotaxis protein CheA	ATGAATCTGGACGACGCACTGCATACCTTCATCGCCGAGAGCCTGGAGCTGCTGCAGCAGATGGAAGAGGCCCTGCTGCACATCGAACAGGCGCCCGACGATCCGGACACGATCAACGCGATCTTTCGCGCGGCACACACCATCAAGGGTTCCGCCGGCCTGTTCGGCCTGGACGGCATCGTCGCCTTCACCCATGTGGCGGAGAGCGTGCTGGACCTCATCCGCGCCGGCCGGCTGCACTTCACCGAAGAGCTGGCCGCGCTGTTCCTGCAAGTCTGCGATCACATCGGCGTCCTGGTGAAACGGGCGGCGGAACACAGAGAACCGGAGGACAGCGTGCGGCAGAACGGCACCCACCTGCTCGAATGGCTGAACGGCCTGCTGGACGACGATTCCACGCAGGACGAAAGCTCCCAGCCGCCCGCAACCTGCCCCGTCGCGCCCACGGCCAGCGTGGAGCACACTGCAGATACCGTCGGGACCGACCACTGGCACATTTCCCTGCGCTTCGGCCAGGACCTGCTGCGTAACGGCATGGACCCGCTGGCGTTCGTCCGCTACCTGACCACCCTTGGCCGGGTTCTGCATGTCGTCACCCTCACCGACAGCCTGCCGGGCGCGGACGAGATGGACCCGGAAAGCTGCTACCTGGGCTTCGAGATCGCCTTCCGCAGCGACGCCGACAAGGCCACGCTGGAGGACGTCTTCGAGTTCGTCCGGGACGACAGCCTGATCCGCATCCTGCCGCCGCACAGCCGCACGGCCGAGTACCAGCAGCTCATCCAGGCGCTGCCCGAGGAAGACATGCGCCTGGGCGAAATCCTGGTGCGTTGCGGCACGCTCACCGAAGCCGAACTGGCCGAGGTGCTGCGCAGCCAGGCGCATGACGCTCCAGCGGCACCGGTCGGCCAGTTGCTGGTGGAGCAAGGCATCGTCCACCCGCCAGTGGTCGAGGCGGCGCTGAAGAAGCAACAGCAGGTCAAGGAGCATCGCCAGGCGGCGAACAACCTGATCCGGGTCGACGCCGGCAAGCTCGACCAGCTGATCGATCTGATCGGCGAACTGATCATCGCCGGCGCCGGGGCCAGCCTTGTCGCCCAGCGCGCCGGCAACGGCGAACTGATGGAAGCCACCGCCCTGCTCTCGCGGCTGGTGGAAGAAGTCCGCGACTCGGCGCTCACCCTGCGCATGGTGCAGATCGGCTCCACCTTCAACCGCTTCCAGCGGGTGGTCCGCGACGTGGCCAAGGAACTGGGCAAGGACATCCGCCTGGACATCAGCGGCGGCGAAACCGAACTGGACAAGACCCTGGTGGAGAAGATCGGCGATCCCCTCACCCACCTGGTACGCAACGCCATGGACCACGGCATCGAGCCCGCCGAGACACGCCTCGCCCGGGGCAAGCCGGCCCAAGGCCTGCTGCGGCTGAACGCCTACCACGAGTCGGGCAGCATCGTCATCGAGGTGGCCGACGACGGCGGCGGCCTGAACCGCGAGCGCATCCTGCGCAAGGCCACCGAGCGCGGCCTGGTTGCCGAAGGCGCGGCGCTCAGCGACGCGGAGATTCTCAACCTGATCTTCGAACCCGGCTTCTCCACGGCGGAACAGATCAGCAACCTTTCCGGCCGCGGCGTCGGCATGGACGTGGTGAAACGCAACATCGCCGCCCTGCGCGGCAGCATCGAACTGGACAGCACCGAGGGCCTGGGCACCACGGTGCGCATCCGCCTGCCGCTGACCCTGGCGATCATCGACGGTTTCCTGGTAGGCGTCGGCAACGCGGCCTACGTGGTCCCGCAGGACCTGGTGGTGGAGTGCATCGAGCTGGACTGCGAAGGCGGCCACGACTACCTCAACCTGCGCGGCGAGGTCCTGCCGTTCATTCGCCTGCGCAGCCTGTTCGACATCGAAGGCGCGCCGCCGCGCCGGCAGAACGTGGTGATCGTGCAGTTCGGCGGCCTGCGCGCCGGGCTGGTGGTCGACCAGTTGATGGGCGAGTTCCAGACCGTGATCAAACCGCTCGGCAAAGTCTTCGGCCGCATCCGCGGCATCGGCGGCTTCACCATTCTCGGCAGCGGCGAGGTCGCCCTGATCCTCGACGTGGCAGGGCTGATCCAGCACCTCGCCAGCCAGCGCCACGAGGCGCATCCCCACACTTTCCTGAAGGAATCGCTATGA	MNLDDALHTFIAESLELLQQMEEALLHIEQAPDDPDTINAIFRAAHTIKGSAGLFGLDGIVAFTHVAESVLDLIRAGRLHFTEELAALFLQVCDHIGVLVKRAAEHREPEDSVRQNGTHLLEWLNGLLDDDSTQDESSQPPATCPVAPTASVEHTADTVGTDHWHISLRFGQDLLRNGMDPLAFVRYLTTLGRVLHVVTLTDSLPGADEMDPESCYLGFEIAFRSDADKATLEDVFEFVRDDSLIRILPPHSRTAEYQQLIQALPEEDMRLGEILVRCGTLTEAELAEVLRSQAHDAPAAPVGQLLVEQGIVHPPVVEAALKKQQQVKEHRQAANNLIRVDAGKLDQLIDLIGELIIAGAGASLVAQRAGNGELMEATALLSRLVEEVRDSALTLRMVQIGSTFNRFQRVVRDVAKELGKDIRLDISGGETELDKTLVEKIGDPLTHLVRNAMDHGIEPAETRLARGKPAQGLLRLNAYHESGSIVIEVADDGGGLNRERILRKATERGLVAEGAALSDAEILNLIFEPGFSTAEQISNLSGRGVGMDVVKRNIAALRGSIELDSTEGLGTTVRIRLPLTLAIIDGFLVGVGNAAYVVPQDLVVECIELDCEGGHDYLNLRGEVLPFIRLRSLFDIEGAPPRRQNVVIVQFGGLRAGLVVDQLMGEFQTVIKPLGKVFGRIRGIGGFTILGSGEVALILDVAGLIQHLASQRHEAHPHTFLKESL	PGPT0015645_2189	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015645-cheA|wspE-K03407	NA	NA
BMS010_09940	309			hypothetical protein	ATGACCCGCGCCCAGACCCGGCAACTCGCTGTCGCCGGCGAGCTGACGATCTACACCGCCAGCGAGTGGAAGCCGCGGCTGCTCGCCCCCCTGCTAGAGGGCGAGCACCTCGAACTGGACCTCGGCGCGGTGCAGGAGCTGGATACGGCCGGCCTGCAGCTCTTGCTGCTGGCGAAGAAGGAAGCCCTCGCCCGCGGCCTGAACCTGCAGCTCTGCCATCACAGCCCGGCGGTCCTCGAGGCCATCGAGCTTTGCGGCCTTGCGGGCTTCTTCGGCGATCCGATCCTGCTCCACCCCACCCGGCCATGA	MTRAQTRQLAVAGELTIYTASEWKPRLLAPLLEGEHLELDLGAVQELDTAGLQLLLLAKKEALARGLNLQLCHHSPAVLEAIELCGLAGFFGDPILLHPTRP	PGPT0014350_2996	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014350-rsbV-K04749	NA	NA
BMS010_09941	369	cheY_6	COG0784	Chemotaxis protein CheY	ATGGCCAAGACCATCATGATCGTCGACGACTCCGCTTCCCTGCGCCAGGTCGTCAGCATCGCCCTCAAAGGTGCCGGCTACGACACCGTCGAGGCCTGCGACGGCAAGGATGCGCTGAGCAAGCTCGACGGCCGCAAGCTGCACCTGATCATCAGCGACGTGAACATGCCGAACATGGACGGCCTGTCCTTCGTCCGCGCGGCCAAGCAACTGCCGGCCTACAAGTTCACCCCGGTGATCATGCTCACCACCGAAGTCAGCGACGCCAAGAAGCAGGAAGGCCAGGCCGCCGGCGCCAAGGCCTGGGTGGTCAAGCCGTTCCAGCCCGCCCAGATGCTCGCGGCGGTCTCCAAGCTGGTCCTGCCGTGA	MAKTIMIVDDSASLRQVVSIALKGAGYDTVEACDGKDALSKLDGRKLHLIISDVNMPNMDGLSFVRAAKQLPAYKFTPVIMLTTEVSDAKKQEGQAAGAKAWVVKPFQPAQMLAAVSKLVLP	PGPT0015690_3253	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015690-cheY|yneI-K03413	NA	NA
BMS010_09942	1203			hypothetical protein	TTGAAACAACCTGCCACCGCCCCGGGCCAATGCTCTGCCTGGGTGTTCTTGATGCCTCTCCTATCCGTGCTTTTTGGCAGTGGCTGCATCGTGCTGGTGGGAGGATTCCAGCGTCTGCCCGTCACGCTTGCCGTCGTGCTGCTACTGCTAGGTCTCGGCATGACCGTGCTGTTGTCCTCCTCGATCCAGGCGCGGGACAAGGCCCTGCATAGCCTTGGCGAACAGATCCAGGCGGATCGGGCCACCGCGGAGAAAGCCCTGTGCCAGTGCGGCCTCGAGCCCACCTGCCGGGGCGTCCTGCCGGTCTGGTCCGGGCAGATCGACTTCGCCCGTGAGCACACCGAGGATGCCATCACCGCGCTGACCGCGCGTTTCGCCAGTCTCGCTCAGCGTGTCGAACAGGCCCTCGCCAGCAGCCGCGACGGCGGTGCGGACACGGCCCTGGTCGATCTGCTCGGCGGCAGCCAGCAGGAGCTGGATTCCGTCATCGGCGCCCTGCGCACCGCGCTGGCCAACAAATCGGCGTTGCTGCGGCAGGTGACCGAGCTGGCCAACCTGACCGAGCAACTGCGCGCGATGGCGCTGGACGTCGGCAACATCGCCAAGCAGACCAACCTGGTGGCGCTCAATGCGGCCATCGAGGCGGCCCGCGCCGGCGAGGTAGGACGTGGCTTCGCCGTGGTGGCCGACGAAATTCGCAAGCTGTCGTCGCTGTCCGGCGAAACCGGCAAGCGCATCGGCGAAACCGTGGACACGGTGAGCGCCGCCATCGCCGGCACACTGGCGATTTCCCGCCAGTACGCCGACCAGGACGAAGCCACCGTGGACCACTCGGGCCAGGTGATCGAGCAGGTGATCCAGCGCTTCCGCGATGCCACCGACGCCCTCCTCGGCTCCTCCCGGCTGCTGCGCGAAGAAAGCGCCGCCGTGGGCCAGGAAGTCGCCGAGGTGCTGGTCGCCTTGCAGTTCCAGGATCGCGTCAGCCAAGTGCTCGTGCTGGTGCGCAACGACCTGGAGCGGCTTCACCAGCACATCGGCCAGCGGGGATGCGACCGCGACGCCGGCCGGACTCCCCAGCCCATCGACGCCGACGCCTGGCTCGACCAGTTGGCGCGGACCTATACCGTGCCGGAACAACACGCCGTTCACCACGGCGGCGCCCACCGCACCGCCTCTTCCGAATCCGATATCACCTTCTTCTAG	MKQPATAPGQCSAWVFLMPLLSVLFGSGCIVLVGGFQRLPVTLAVVLLLLGLGMTVLLSSSIQARDKALHSLGEQIQADRATAEKALCQCGLEPTCRGVLPVWSGQIDFAREHTEDAITALTARFASLAQRVEQALASSRDGGADTALVDLLGGSQQELDSVIGALRTALANKSALLRQVTELANLTEQLRAMALDVGNIAKQTNLVALNAAIEAARAGEVGRGFAVVADEIRKLSSLSGETGKRIGETVDTVSAAIAGTLAISRQYADQDEATVDHSGQVIEQVIQRFRDATDALLGSSRLLREESAAVGQEVAEVLVALQFQDRVSQVLVLVRNDLERLHQHIGQRGCDRDAGRTPQPIDADAWLDQLARTYTVPEQHAVHHGGAHRTASSESDITFF	PGPT0015710_27929	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
BMS010_09943	999	gap_2		Glyceraldehyde-3-phosphate dehydrogenase	ATGTTGCGTATTGCCATCAACGGTTACGGACGCATCGGCCGCGCCCTGCTTCGTTCGCTGTATGAACGCGGTCTGGAGCGGTCGATTCATCTGGAGGCGATCAACGATCTCGGTGATGCCCCCACCCTCGCCCACCTGACCCGCTTCGATTCCACCTTCGGCCGCTTCTCCGGGCGTATCGCCCAGGAGGAAGACAGCCTGGAGGTGAACGGCCAGCGCATCCGCCTGTTGCGCGAACGCGAGCCGGGCAATCTGCCGTGGGGCGAGCTGGGTGTCGATCTGGTGCTGGAGTGCTCGGGCAAATTCAAGAAGCGGCCGCAGGCTGAGCTGCACCTGGATGCGGGCGCCCAACGGGTACTGCTTTCGCACCCGATGGAAAGTGCTGATCTGACGGTGGTCTACGGCGTCAATCACAACCAACTGGGCGGTCAGCAAATCGTTTCCAACGCCTCCTGCACCACCAATTGCCTGGCGCCGCTGGCGAAGGTGCTACATGAAGCGGTGGGTATCCGCCAGGGCCTGATGACCACAGTGCACTCCTACACCAACGACCAGAACCTGCTGGACAGGCCGCACCACGATCTCTACCGCGCCCGCGCCGCGACCCAGTCGATGATCCCCACCAGTACCGGTGCGGCCAAGACCATCGGGCTGGTACTGCCGGAACTTTCCGGTCGCCTGGATGGCCTGGCCGTGCGGGTGCCGACGCCGAATGTCTCGCTGCTGGACCTGACCTTCACCGCGGAGCGCCCCACCAGCGTCGAAGCGATCAACGATGCCCTGCGCGAAGGTGCGCAACGCATGCCGGCCGGGGTGATGGAGTGCAACGAGCTGCCGCTGGTATCGAGCGACTTCAATGGCTATCCGGTGTCTTGCGTGGCGGACTTGAGCCACACCCGCGTCCAGGGCGATCTGGTGAAGGTCCTGGCCTGGTACGACAACGAATGGGGCTTCGCCAACCGCATGCTGGACGTGGCGTTGGCCTGGCCGGCCAGTTGA	MLRIAINGYGRIGRALLRSLYERGLERSIHLEAINDLGDAPTLAHLTRFDSTFGRFSGRIAQEEDSLEVNGQRIRLLREREPGNLPWGELGVDLVLECSGKFKKRPQAELHLDAGAQRVLLSHPMESADLTVVYGVNHNQLGGQQIVSNASCTTNCLAPLAKVLHEAVGIRQGLMTTVHSYTNDQNLLDRPHHDLYRARAATQSMIPTSTGAAKTIGLVLPELSGRLDGLAVRVPTPNVSLLDLTFTAERPTSVEAINDALREGAQRMPAGVMECNELPLVSSDFNGYPVSCVADLSHTRVQGDLVKVLAWYDNEWGFANRMLDVALAWPAS	PGPT0018000_3483	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0018000-gapA-K00134	NA	NA
BMS010_09944	1185			hypothetical protein	ATGGGGCGACATTTCGTAATGTGCTGGGAGCTGGGCGCGGACCTTGGCCATGTCAGCCAGATGGCGACCATCGCTGCGGCATTGCGTGACCGGGGGCAGCGCGTCAGCGTGGTACTGGCGGACGTCACCCAGGCACCACGCTATTTCGGCCCGCTCGGCATACCCTGGTTTCAAGCGCCTCAACCACCCGCCCATCATCCAGGCGAAATACCGCTCAACCATGCCGATCTTCTCTGGCGAGGCGGCTACCACGACGCCGTTTCCCTGAGCGGCCTGTTGCAGGCATGGCGCTCCCTCTTCGATCTGCTCCAGCCCGACCTGATCATCGCCGAGGCCGCGCCGACTGCAACCCTGGCGGCACGCTGCGATGGTGCGCGCTGTGTCTGTCTCGATAACGGATTCTTCGTCCCGCCGCCCGGCGATCCCCTGCCGGCGCTGCGCAGTTGGGAGCCCGTGCCGCTTGCCGAACTGGAGCGGCGGGAGACACGTGTCCGGACAGTGATCGACGAGACCCTGGCACGCCTGGGAAAGCCGGAGCTGGGACGCTTCTCCCGGCTGTTCGAGGTGGAAACCCATTGGCTGACCTGGCCGGAACTCAACCACTTCGGCCCACACTCGCCCAGCCTGCACCTGGGCGCTATCCAGGGCCACACATCCGGCCAACGTCTGCCTTGGCCCGACGGTATGGGGCGCAAAGTCTTCGCCTACCTGAAACCGGACCACCCCCACGTCATCCCTGTGTTGGAAGGCTGCCTCCAGCGTGGCGACCGCGTGCTCGCCTACCTGCCGCGCTGGCCGGTGGGCGAATTGAAACGTCTGGCGAAATTGGGCGCGATCCATATCAGCCAGGCCCCCCTGGACATGCACGCGCTCCTGGAAAGCTGCGATCTGGTCGTCTGCCACGGTGGCTTCGGCACGGTCAGCCAAACGCTGCGCGCCGGCAAGCCGCTGTTGCTCCTGTCATCCCATGTCGAACAGGTCCGTACCGCCCGGGCGGCGGCCGCCTTGGGCGTGGCCGTCGTGCCCGAGGAAGACCGGGCGTCGCGGCGGCTGCGTATCGATGGCGAGGCCTTGGAGCGAGCCCGTATCAGGGCCGCCGCCCATGCACCGTGCCTGGGTTCGGCCGAGGAGAGCCTGGGGCGCCTGCTGGACATTCTTCTTTCGGCTGCCGGGAGGGCTGCCTGA	MGRHFVMCWELGADLGHVSQMATIAAALRDRGQRVSVVLADVTQAPRYFGPLGIPWFQAPQPPAHHPGEIPLNHADLLWRGGYHDAVSLSGLLQAWRSLFDLLQPDLIIAEAAPTATLAARCDGARCVCLDNGFFVPPPGDPLPALRSWEPVPLAELERRETRVRTVIDETLARLGKPELGRFSRLFEVETHWLTWPELNHFGPHSPSLHLGAIQGHTSGQRLPWPDGMGRKVFAYLKPDHPHVIPVLEGCLQRGDRVLAYLPRWPVGELKRLAKLGAIHISQAPLDMHALLESCDLVVCHGGFGTVSQTLRAGKPLLLLSSHVEQVRTARAAAALGVAVVPEEDRASRRLRIDGEALERARIRAAAHAPCLGSAEESLGRLLDILLSAAGRAA				NA	NA	NA	NA	NA
BMS010_09945	1206	mshA_10		D-inositol-3-phosphate glycosyltransferase	ATGCGCATCTTGATCATCCACCAGAATTTCCCCGGCCAGTTCCGCCACGTCGCCCGTTGCCTGCTGGGGCAACCGGGCGTGGAGGTGCTGGCCATCGGACGCGACACCGCCCCTGGCCTCGTCGGTGTGCCGCTGCTGCGCTACAAACCGCATCGCCCGGTGAGCGATACCCTCCACCCCTACCTGCGCCCGTTCGAGGACGGTGTGCTGCATGGCCAGCAGGTCCTGCGCCTGCTCCTCGACCTCAAGCGCAAGGGCTATCGGCCGGACATCATCCTGGCCCACCCGGGCTGGGGTGAAACGCTCTACGCCAAGGACGCCTTTCCCGCTGCCCGGCTGATCCACTTCTGCGAGTTCTACTACCACGCCCACGGTGCCGACGCGAACTTCGACCCGGAGTTCCCGCTGGACCTCGACGGCGCCGCACGCATCCGCACCCGCAATGCCTTGCACCTGCTCAACCTGGAACACTGCGACCAGGGCATCGCACCGACCCGCTGGCAGCTCGACCTGCACCCCGAGGCCTATCGGCACAAACTCGTCCAATTGCACGAGGGCATCGACACCCGCACCCTCCAGCCCGATCCCCTCGCCACTCTGCAACTTACCAACGGAACCGTCCTGCGCGCCGGCATGCCGGTGCTCACCTACGTCGCCCGCAACCTGGAGCCGTACCGTGGCTTCCATACCTTCATGCGCGCACTGCCGTCGATCCTCCGCGAACACCCGGACTGCCAGGTCGTGGTCATCGGCGGCGACGACGTGAGCTACGGCGGCCGCCCGAAAGACGCGGAAAACTGGCGCAGCAAACTGCTCCGGGAAAACCCCGTCGACCCCGCCCGCGTGCACTTCCTCGGCAAGGTGCCCTACGCCACCTACCGCCAAGCCCTGCAGGTGTCCGCGGTACACACCTACCTGACCTACCCCTTCGTCCTCTCCTGGTCGCTCCTCGAAGCCATGGCCTGCAGCTGCCTCATCGTCGCCTCCGACACCGCCCCCGTGCGCGAAGCGATCCACCACGGAGAAAACGGCGTTCTCGTGGACTTCTTCGATCCCCAGGCACTGGCCGAGGCGGTTCTGGATGCACTGAACAACCCGGCACGGCATCAGGAAAAAAGAAAACAGGCCCGGAGAACAGCGGAGGGATATGACATTGAAGTGGGTAATGGACGGTATTTTGAATTGATGGGAGTGAGTCGTGGGTAA	MRILIIHQNFPGQFRHVARCLLGQPGVEVLAIGRDTAPGLVGVPLLRYKPHRPVSDTLHPYLRPFEDGVLHGQQVLRLLLDLKRKGYRPDIILAHPGWGETLYAKDAFPAARLIHFCEFYYHAHGADANFDPEFPLDLDGAARIRTRNALHLLNLEHCDQGIAPTRWQLDLHPEAYRHKLVQLHEGIDTRTLQPDPLATLQLTNGTVLRAGMPVLTYVARNLEPYRGFHTFMRALPSILREHPDCQVVVIGGDDVSYGGRPKDAENWRSKLLRENPVDPARVHFLGKVPYATYRQALQVSAVHTYLTYPFVLSWSLLEAMACSCLIVASDTAPVREAIHHGENGVLVDFFDPQALAEAVLDALNNPARHQEKRKQARRTAEGYDIEVGNGRYFELMGVSRG				NA	NA	NA	NA	NA
BMS010_09946	573			hypothetical protein	ATGCGGTGGAGAAAGTTCGGTGTTGTGAAAAAGGGAATGATTCTTCTGGGAGGTTTGGGGCTGGTTTGGTTCTGCTGGTGGGGCTCTGATATTCCCATTGGATATTATGAGTTTAGAGAACGCTGCAATAGGGAGGGTGGGCCTAGGCTGTTAGGGATAATAGCGAAGGACTCAGGCTGGATGGTTTCTTCTGAGGTTCAGGCTAAATCTGTTGTCGCAGCTTATCGCTTCGTACCGTTTGCTAGATACATATCGGGTGATGATCAATTAAAGGATGTGCTCTATAAGGGTGGTAATCCTTGGTGGAGTAGTTCTTATGCTATTGAAGAGGCTGATTTGAAGCGAAGTGTCAATTATAAGTATTTCGTGGAGAGTGAAAATATTTCCGGTGCAATTCGGTTGCGTAGAGATATCAGTCTTCTGGTTGATTTGTTCACCGGGGAAGAGTTATTCGTCTCAACTAGTTTTACTTATACATGGACTAATCCTGAGCGTACTTTGTTGGGTAGGAGTGATAAGGTTCGTTGTCCTGGTTTCGTTGAGGAAGATAGTGCTGTTGATAGTTTGTTCTAG	MRWRKFGVVKKGMILLGGLGLVWFCWWGSDIPIGYYEFRERCNREGGPRLLGIIAKDSGWMVSSEVQAKSVVAAYRFVPFARYISGDDQLKDVLYKGGNPWWSSSYAIEEADLKRSVNYKYFVESENISGAIRLRRDISLLVDLFTGEELFVSTSFTYTWTNPERTLLGRSDKVRCPGFVEEDSAVDSLF				NA	NA	NA	NA	NA
BMS010_09947	564			hypothetical protein	ATGGGGATAAAGGCTAGAGTTTTCACTGTTGCAGGGGTTTTAAGTGTTTCCTTGCTCGGGTGGTGGATGTCTGATGTTTTTATCGGTTATTTGAAGTTCAAAGAGCTTTGCCGTTTGGATGGGGGGTTAAAAATTTATGGGAAGGTAGAGATCGGGACAGGATGGTTGACTAATAATGAATGGGTTGCAAGAGATGTTGTGGCTAGTTATTCAACTGTCCCTTTCGCTAGATTTCGTTTGGACAATGGAGTGAGTCGTGATGTTGTTTATATAGGTGGGCCGCCATGGAAAGATGGTTCTTACAAGATTGATAGTGTGGGTGGGGAAGTTGCCCGGTACAAATTGGAACGCAAATCGGAAACTGTCTCGAGGAAATATCGTATTAGAAAAAATTCTCTAACCCTCATGGATTTGGAGAGTGATGCAGTAATGCTGAGTTCAACACGTTTTATTTTAACTCTCACTAATCCAAAGAATACGTTATTTGGTATGAGCGATATGGTGGAGTGCCAAAGTCATCTAGATGAGATGGCCCAAATAAGAAATTACCTTGGGGCAAAATAA	MGIKARVFTVAGVLSVSLLGWWMSDVFIGYLKFKELCRLDGGLKIYGKVEIGTGWLTNNEWVARDVVASYSTVPFARFRLDNGVSRDVVYIGGPPWKDGSYKIDSVGGEVARYKLERKSETVSRKYRIRKNSLTLMDLESDAVMLSSTRFILTLTNPKNTLFGMSDMVECQSHLDEMAQIRNYLGAK				NA	NA	NA	NA	NA
BMS010_09948	555			hypothetical protein	GTGGGGGTAAAGAAGAAAGTTCTCGCTGCTATAGGGGTTGTGGGCCTCTTATGGTTCGGGTGGTGGGGTGCCGACATTCCTATCGGTTACTACCAGTTTAGAGAGATGTGTGAAAAAGAGGGAGGATTTTCCAGGTTTGGGAAAGTTGATCATGCGCAGGGATGGCTAGCTGAAGATGAGTCGGAGGCGGAATTCATCGTTTTCAGCTTTCCAAATGTTCCGTTTGCAAGATTCAAATCAAAAAAGGGAGAGTGGTTGGATGTGAAATTCAAAGGAGGTGGAAGATGGCGTTCGGAGTCATACCTTATTCAACCGGCGAAGGATGGTAAGGTTGGTTATAAGTTGTCTCATTATTATGAGGGTGTGGCGGATTCTATCCGATTGCAAAGATCAATCGATGCTTTGATCGAGATTGGAACAGGCGAGGCTGTTTTTAAATATACGAGCTTTGATTTTACTTGGGCTGATCCGAGTAAAACTCTGCTGGGTCGAAGTGGGGTGATTCAATGCCCTGCGGCTAAAGATATGGTTAGTTTGATGGGTGTCTATCTGTAG	MGVKKKVLAAIGVVGLLWFGWWGADIPIGYYQFREMCEKEGGFSRFGKVDHAQGWLAEDESEAEFIVFSFPNVPFARFKSKKGEWLDVKFKGGGRWRSESYLIQPAKDGKVGYKLSHYYEGVADSIRLQRSIDALIEIGTGEAVFKYTSFDFTWADPSKTLLGRSGVIQCPAAKDMVSLMGVYL				NA	NA	NA	NA	NA
BMS010_09949	657			hypothetical protein	ATGCTTCTTTTGTTTTTGCCTTTGTTAATAGCGTATGTTGTGATTGGGTTGTTAATTAGTTTTCTTGTTGCATTCTGGATGCGCAAAAGACTCAAGAGAAGCTGGTCGGCGATTGGAGGGGGAATACTGGCTTTAAGTCTATTTTTTGGTGACGAAGTGTATGCCTATTTTCACTGGAGAGGGGTTTGTGATGAAAGGGCAGGTTTTTTTATAAATAAAATTGTCCCCGTAAAGGGATTCTCAGATGAGAGTTATATAACTGACGATATGGCTCTTGGTTATCTAAAAAATGGATATGAGTATGTCGAGTCTGGGTATTTTCGTGACTTATCAGGTTCCAAAAAATATAGATACAAGCTACAAAATGGTTTGGCTGTTAAGGAAGAGGTTTCTACATATACCTCGCAGTATTTGCTCACTTCTTACAAGCAGGTGGAGTTTCCTCCTTATGTTTGGGGGCGAGAGAAGAAAGTTTTAGGGGAAGGCGGTGAAGTACTGGCGGAGCAGCGGGTGGTTTATTACAAGGGCGGGGCTGTTGTTCGGTTTTTACGTTCATTGACTGGTGCTGAGCAGAATGCGGCTGAGCGCTGTGGCGATGTAGGTTGGAATAAAATTTTTGAGGCTATTCCTCCAGTTGCGAAGGGTGGTGGTAAATGA	MLLLFLPLLIAYVVIGLLISFLVAFWMRKRLKRSWSAIGGGILALSLFFGDEVYAYFHWRGVCDERAGFFINKIVPVKGFSDESYITDDMALGYLKNGYEYVESGYFRDLSGSKKYRYKLQNGLAVKEEVSTYTSQYLLTSYKQVEFPPYVWGREKKVLGEGGEVLAEQRVVYYKGGAVVRFLRSLTGAEQNAAERCGDVGWNKIFEAIPPVAKGGGK				NA	NA	NA	NA	NA
BMS010_09950	1131			hypothetical protein	ATGCAGGTGATCGTCCCCCGCCCCGCCGTAGAGCGTGTCTTTCCCTTCGGCGCCGAGGAGCACGTCCACGCCATCGTTGCCGATGAGCAGGTCGTCGTCCCGGCCGCCGTCCAGCCAGTCGCCACGTGTCGCCAGGCCTTTCTCCGGTTCGGCCTGCAAGGCTTCGGACAGGCTCTGCGATTGCCCGGCGAACAAGCGGTCATTGCCCTCGCCGGCCAGCAGGCGATCCGACCCCGTTCCGCCGATCAGGGTGTCGTCGCCCTTGTCGTCGTGCAGCACGTCGTCGCCCGCGCCGCCATCCAGTCGGTCATGCCCGCCGTGGGTGCCGCGCAGGTTGTCGTTGCCACCCAGGCCTTGCAGATGGTCGTTGCCGTCGGTATCGAACAGCCGGTCTTCGCGATCCGCATCCCGCGTGTCGGTCACCCGGACGTTGCCCCATTGGTCATAATCGACCTGCTCACCCTCGGCGGACTCATCGAAATCCACCGGTTTCAGGTCGCCCAGCAGGGGATTCAGCTCGGGCTCCGCAGCCGCCTCCGGCTCCTGGTAATCCTCCAGCTTCAAGCCGAACGCCTCGGCCCGGTAATCCTCGATCAGGATGCGGTCGTTCTGGCCGTACTCGATCGACAGATGGCGCGTGCCCTTGTCCGCATCGGTCAGCACCAGGCGAATCCGCTTGTCCTCGCTGAGATAGGTGTTGCTGCCAGGAGCCAATTGCCGCACGGCGGTCAGCGGCAGCCCGTCGATCACGATCTGGTTGAGGCCATGCACATCGACGATGCGGTCGAAGCCATCGCCTTTCACGAAGCCATAGACGTCCGCACCGAGCCCACCTTCGAGGTAGTCGTTGCCCTCTCCGCCAACCAGCACATCCTCGCCGGCCATGCCTCGGAGCGTGTCGGCGCCAGCCCGGCCTTGCAGTTGATCCCGACCATCCCCGCCTTCCAGATAGTCCCGACCCGACAACCCACTCAACAGATCGTCGCCGTCTCCCCCGAAGAGCGATCCACCGCGCCCTTCACTCGAATAGCCCACCGTCAATTCATCCGAATCGTCGGTGCCGAAGCGGATAAGCGAATCTTGCGCCAGTGCGCGGTCCACCAAGGCCGCCTGGATTTGGCGGCTGAGTAG	MQVIVPRPAVERVFPFGAEEHVHAIVADEQVVVPAAVQPVATCRQAFLRFGLQGFGQALRLPGEQAVIALAGQQAIRPRSADQGVVALVVVQHVVARAAIQSVMPAVGAAQVVVATQALQMVVAVGIEQPVFAIRIPRVGHPDVAPLVIIDLLTLGGLIEIHRFQVAQQGIQLGLRSRLRLLVILQLQAERLGPVILDQDAVVLAVLDRQMARALVRIGQHQANPLVLAEIGVAARSQLPHGGQRQPVDHDLVEAMHIDDAVEAIAFHEAIDVRTEPTFEVVVALSANQHILAGHASERVGASPALQLIPTIPAFQIVPTRQPTQQIVAVSPEERSTAPFTRIAHRQFIRIVGAEADKRILRQCAVHQGRLDLAAE				NA	NA	NA	NA	NA
BMS010_09951	330			hypothetical protein	ATGCAACTCATCGTCGCCCGCTCCACCGAACAGCACGTCGTCGCCGCTGTTGCCAGCCAGATCATCATCGCCTTCACCGCCATCCAGCACATCGCGGCCGTGCAACGCCGCGATCAGGTTGGAATCCGGCCCTTCGGTGTCGAGGTTATCCCCGCTCAGGAAGTCATTGCCCGCACCGCCCCGCAGGGTGTCGTTACCGGCATCGCCGAAGACGACGTCGTTGTCTTGCCCGCCATCGAGCAGATCGTTACCGCCGTTGCCTCGGAGATGGTCATTTCCGCCGCCCCCGATCAGCACATCGTCGTCACCCTCCGTGGCGTTGCTTCCTAA	MQLIVARSTEQHVVAAVASQIIIAFTAIQHIAAVQRRDQVGIRPFGVEVIPAQEVIARTAPQGVVTGIAEDDVVVLPAIEQIVTAVASEMVISAAPDQHIVVTLRGVAS				NA	NA	NA	NA	NA
BMS010_09952	897			hypothetical protein	GTGCTTCACCTCCAGCACCGGCGTGCCGGAAATGGTGTAGCGCTCGGCGAAGCTGAGGCTGCTGCGGTCGATACCCGCACCGAAACGGACCACGTTGTCGCCCTGGTCGTCCGCCAGCATGTCGTCGCCGTCGCCGAGCTCGAACACGTAGGTATCGTTGCCCTCGCCTCCCGCGAGAACGTCCGTCCCGCCCTGGCCGGTCAGCAGATCGTCTCCCTGGCCACCGCGCAGCGTGTCGCCATTGTCGGTGCCATAGAGCGTATCGGCGCTGGCGGAACCGGCAGCCATGATCGACGAGGAAACGCGCTTCATCATCTGGGCGAAGCTCAGTACGCGGCCATCAGCGAAACGGAAGGTGGAACCCGCCCATTTCTGGTAGTCGTGGAGGAGCAAGGTATCCCCGTTGGCAGACAGAACCATGCGTTCGTCACCATTCAGCCTGCCCACGGAAATGCTCAACGTGTCCAGGCCGATTCCCGCGCCGAACTCCACGACATTGCGTCCGCCCTTGTCGCGGATGGAATCGAAACCATAGCCCCGGTTGAAGACATAGCGGTCGTTGCCGGTGTCAGCCTCCAGCACATCGTCTCCGGCACCGCCATCCAGCAGGTTGTCGCCGGTACCACCGCTGAGGTAGTCGATCCCATCGCCACCGCGCAGGGTGTCGTTGCCGCCATCGCCCAGCAGCGTGTCGCTGCCGAGACCGCCTTCGAGGGAGTCCGAGCCTTGGGCCCAGTCGGGCAGGTCAGAGGAATCGCCACGCAGGAAATCATTGCCATCGCCGCCCAGAAGGGTGTCCGCGCCACCCTGCCCCCAAAGGGAGTCGTTGCCGTTGCCGCCCTGCAGCAGGTCATCGCCATGGGCAGTAGGGTCGATATCTTCGGCATCACCCGATAA	MLHLQHRRAGNGVALGEAEAAAVDTRTETDHVVALVVRQHVVAVAELEHVGIVALASRENVRPALAGQQIVSLATAQRVAIVGAIERIGAGGTGSHDRRGNALHHLGEAQYAAISETEGGTRPFLVVVEEQGIPVGRQNHAFVTIQPAHGNAQRVQADSRAELHDIASALVADGIETIAPVEDIAVVAGVSLQHIVSGTAIQQVVAGTTAEVVDPIATAQGVVAAIAQQRVAAETAFEGVRALGPVGQVRGIATQEIIAIAAQKGVRATLPPKGVVAVAALQQVIAMGSRVDIFGITR				NA	NA	NA	NA	NA
BMS010_09953	1179			hypothetical protein	TTGGCGGCCATAGAGCAGATCGATTCCGGAACCACCAATCAGGAAGTCGTCGCCCGCCGCTCCCTCGAGCGTATCGTTGCCGTCTCCCCCGGAGAGCATCACGGCTTTGGCCCTCTCATACCAATACTGGCGATCGAGGCCAACAATCAGATCGTCTCCCGCGCCGGCATGAAAAATATTTCCAGGCGCGACACGGGTCAGCCCGCCCTCATCATTCCCATGGGCAACCTTGTATTCCGTGCGGGTGATATCCGTCCGCCAGATATATTCCATCTCCCGGCTTGCGCCGAGCCAATCGCTACTCAGGTAGTCTTCGGGGTAGATGACGAATCCGACCAGTCCGCCGCCTCCGCCGCTCAGGTTGTACTCGATGCTGCCTTCTGCAAACCGGCTGACGTAAACCGTGATACTTCCGTCATCGTTATGCTCGAGCATTTCAGGCGTGAACGAACGGTAATCAGGCTTACCGGGCGCCAATCCGCTGCGCATGCCCGAGGGAGACAGAGTGCTGACTTGCTTGACCACGGATCGTGCCGACGACTGGCTGTCACCAGTAGCGGAGACGTTCCCATCTTCGGGCGATACCTGCACATCACTGAAGTGGGCCTCACGGATGGAAAGCGCCTCGACTACCTCCTTCCGGTATTCATTGATCGACTTCTTGGCGTAGAGACCGTCGTCCCTCAGGACATAGCCTTGTTCCACCATAAGATCGCCGAACTCGTTAAGCACTTCGCGCTTGAACAGCCGCTCGTAGTGGGCGATATCCAGGGCGGCCCGCTCCGCAGCCAGTTGCTGCCGGAACGCCTCGAGCCCCTGCACCGGGCCCTCGCCCACCTGCACATTCCACTGCGCGGTGCCGGCGAAGTAGCCTTCGATCCGCATCGCGTCGTCGCTATCGCGGTAGGCGAGGATCAGGTCGTCACCCAGCCGTTGGCTGGTCAGCTTGCCGATATCCAGCGCGGGGTCGAGTTGCAGGGTGTTGACGGAGCCCGCCTCGGCGGCCAGCCGATCGCTCTGCGAACCCTGGCGGAAGACGAACAGGTTGTTCCCCGCTCCGCCATCCAACGTATCGTTGCCGAGACCGCCGACCAACGTGTCGTCACCGGCGCCCCCCAACAGGCGATCGTCTCCGGTACCGCCCTGCAAGGCATCGTTACCCTCGCCGCCCGTCAGTGA	MAAIEQIDSGTTNQEVVARRSLERIVAVSPGEHHGFGPLIPILAIEANNQIVSRAGMKNISRRDTGQPALIIPMGNLVFRAGDIRPPDIFHLPACAEPIATQVVFGVDDESDQSAASAAQVVLDAAFCKPADVNRDTSVIVMLEHFRRERTVIRLTGRQSAAHARGRQSADLLDHGSCRRLAVTSSGDVPIFGRYLHITEVGLTDGKRLDYLLPVFIDRLLGVETVVPQDIALFHHKIAELVKHFALEQPLVVGDIQGGPLRSQLLPERLEPLHRALAHLHIPLRGAGEVAFDPHRVVAIAVGEDQVVTQPLAGQLADIQRGVELQGVDGARLGGQPIALRTLAEDEQVVPRSAIQRIVAETADQRVVTGAPQQAIVSGTALQGIVTLAARQ				NA	NA	NA	NA	NA
BMS010_09954	267	hisP_3	COG4598	Histidine transport ATP-binding protein HisP	ATGCAGCCGAAGGTCATCCTGTTCGACGAGCCCACCTCGGCCCTCGATCCGGAAATGGTACAAGAAGTGCTTAACGTGATCCGCGCGTTGGCCGAAGAGGGCCGCACCATGCTGCTGGTCACTCACGAAATGGGCTTCGCCCGCCAGGTTTCCACCGAGGTGGTATTCCTCCACCAAGGTTTGGTCGAAGAGCAGGGACCGCCGCAGCAGGTGTTCGAGAACCCGCAATCGGCGCGCTGTAAACAATTCATGTCCAGCAATCGATAA	MQPKVILFDEPTSALDPEMVQEVLNVIRALAEEGRTMLLVTHEMGFARQVSTEVVFLHQGLVEEQGPPQQVFENPQSARCKQFMSSNR	PGPT0020545_36	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020545-PA5152-K23058	NA	NA
BMS010_09955	750	artJ_3	COG0834	ABC transporter arginine-binding protein 1	ATGCAGAACTATAAAAAGATCCTGCTGGCGGCAGCCGCCACCCTGGCTTTCGGCAGTGCCATGGCCGCCGAAAAGCTGAAGATCGGCACCGAAGGCGCCTACCCCCCCTTCAACCTCATCGATGCCAGCGGCCAGGTGGTCGGCTTCGACATCGAGATCGCCCAGGCCCTGTGCGCCAAGATGAAGGCCGAGTGCGAAGTGGTCACTTCCGACTGGGACGGCATCATCCCCGCCCTCAACTCGAAGAAGTTCGACTTCCTGGTCGCCTCCATGTCCATCACCGAAGAGCGCCAGCAGGCGGTGGACTTCACCGAACCGTACTACACCAACAAGCTGCAGTTCATCGCTCCCAAGAGCGCTGACTTCAAGACCGACAAGGCCAGCCTGAAAGGCAAGGTGATTGGTGCCCAGCGCGCCACCATCGCCGGCACCTGGCTGGAAGACAACCTCGGCGACGTGGTCGACATCAAGCTCTACGACACCCAGGAAAACGCCTACCTCGACCTGTCCTCCGGCCGCCTCGACGGCGTGCTGGCCGACACCTTCGTCAACTGGGAATGGCTGAAGAGCGACGCCGGCAAGGACTTCGAGTTCAAGGGTGACCCGGTGTTCGACAACGACAAGATCGGCATCGCCGTGCGCAAGGGAGACCCGCTGCGCGAGCGCCTGAACACCGCGCTGAAGGAAATCGTTGCCGACGGGACCTACAAGAAGATCAACGACAAGTACTTCCCGTTCAGCATCTACTGA	MQNYKKILLAAAATLAFGSAMAAEKLKIGTEGAYPPFNLIDASGQVVGFDIEIAQALCAKMKAECEVVTSDWDGIIPALNSKKFDFLVASMSITEERQQAVDFTEPYYTNKLQFIAPKSADFKTDKASLKGKVIGAQRATIAGTWLEDNLGDVVDIKLYDTQENAYLDLSSGRLDGVLADTFVNWEWLKSDAGKDFEFKGDPVFDNDKIGIAVRKGDPLRERLNTALKEIVADGTYKKINDKYFPFSIY	PGPT0020530_117	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020530-PA5153-K23055	NA	NA
BMS010_09956	696	artQ_5	COG4215	Arginine ABC transporter permease protein ArtQ	ATGACCCTCGATCTCTACGGATTCGGCCCGGCCCTCGCGGCGGGCACCTTCATGACCATCAAGCTGGCGCTCTCGGCGCTGTCGCTGGGTCTGGTGCTCGGCCTTCTCGGCGCACTGGCCAAGACCTCGCCCTACAAGCCGCTGCAATGGCTGGGCGGCAGCTATTCGACCATCGTGCGCGGCGTGCCCGAGCTGCTCTGGGTGCTGCTGATCTACTTCGGCACCGTCAACCTGATGCGCAGTCTCGCCGACCTGCTCGGCGTGGAAAGCCTCGAACTGAATGCCTTCGCCGCGGGCACCATCGCCCTCGGCCTCTGCTTCGGCGCCTATGCGACCGAAGTCTTCCGCGGCGCCATCCTGGCGATTCCGCGTGGCCACCGGGAAGCCGGCCTGGCCCTCGGCCTGTCCAAGGGCCGGATCTTCTGGCGGCTGATCATGCCGCAGATGTGGCGCGTCGCCCTGCCCGGCCTGGGCAACCTGTTCATGATCCTGATGAAAGACACCGCCCTGGTTTCGGTGATCGGCCTGGAAGAAATCATGCGACGCTCGCAGATCGCGGTCACGGCCAGCAAGCAGCCGTTCACCTTCTACATGGTGGCGGCCTTCATTTACCTGGGCCTGACCATCCTCGCCATGATCGGCATGCATTACCTCGAGAAGCGCGCCAGCCGTGGCTTCGTCAGGAGCACGACATGA	MTLDLYGFGPALAAGTFMTIKLALSALSLGLVLGLLGALAKTSPYKPLQWLGGSYSTIVRGVPELLWVLLIYFGTVNLMRSLADLLGVESLELNAFAAGTIALGLCFGAYATEVFRGAILAIPRGHREAGLALGLSKGRIFWRLIMPQMWRVALPGLGNLFMILMKDTALVSVIGLEEIMRRSQIAVTASKQPFTFYMVAAFIYLGLTILAMIGMHYLEKRASRGFVRSTT	PGPT0020535_60	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020535-PA5154-K23056	NA	NA
BMS010_09957	690	occM_6		Octopine transport system permease protein OccM	ATGAACTGGGACGTCATCATCAAATGGCTGCCGCGCCTCGCCGACGGCGCGTTGCTGACCCTGGAGCTGGTGGCCATCGCCGTGGTCGCCGGGCTGATCCTTGCCGTTCCGCTGGGCATCGCCCGCGCATCGCGGCATTGGTACGTGCGCGCCTTCCCCTACGGCTACATCTTTTTCTTCCGCGGGACGCCGCTGCTGGTGCAGTTGTTCCTGGTCTATTACGGCATGGCGCAGTTCGATGTGATCCGCAAGGGACCGCTCTGGCCTTATCTGCGCGACCCGTACTGGTGCGCCATCATCACCATGACCATGCACACCGCGGCCTATATCGCCGAGATTCTTCGCGGCGCCATTCAGGCCGTGCCACATGGCGAAGTGGAAGCGGCCCGGGCGCTGGGCATGTCGCGGACGCAGACGCTGTTCTACATCATCCTGCCGCGCGCGGTACGGATCGGCCTGCCGGCCTACAGCAACGAGGTGATCCTGATGCTCAAGGCCAGCGCACTGGCCAGCACCATCACCCTGCTGGAACTGACCGGCATGGCGCGGACCATCATCGCCCGCACCTACCTGCCGGTGGAAATCTTCTTCGCCGCCGGGATGTTCTACCTGTTGATCGCCTTCTTCTTGGTACGCGGCTTCCGCCTGCTGGAACGCTGGCTGCGGGTCGACGCCACCCAGGCACGCTGA	MNWDVIIKWLPRLADGALLTLELVAIAVVAGLILAVPLGIARASRHWYVRAFPYGYIFFFRGTPLLVQLFLVYYGMAQFDVIRKGPLWPYLRDPYWCAIITMTMHTAAYIAEILRGAIQAVPHGEVEAARALGMSRTQTLFYIILPRAVRIGLPAYSNEVILMLKASALASTITLLELTGMARTIIARTYLPVEIFFAAGMFYLLIAFFLVRGFRLLERWLRVDATQAR	PGPT0020540_112	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020540-PA5155-K23057	NA	NA
BMS010_09958	1254			hypothetical protein	ATGTCCAACCTGCTCAGCGGCGCACGACTGCGCGAACGATTCCTCGCCCTGGATGCCTTCCTGCTGGAAACGCAGGCGTTCTGGCGACCCAAGCCGTTCACCGACCTGCGCCTCCCCTGGGAAAAGCGTTTCCCGGAGCTATCCCTCTGGTTGCGCCGGCGCAGCCTGGCCGATGCCGACGCCGCGCATAATCACCCGGAATGCCTGGCCGCGCCCGATCCGTTTCCCTGTCTTGCGGAGCGCGCAGCCCGGCTCGGTGTGTTGGACGAACTCCCGGCGCAGATGGCCGCCGATCTGCCCTCCCGTTTCAACGTGGACATTCCCGGCCGCAAGTGGGAACAGATCCAGGCCTTCGCCAGCCGGCTGTCTTTCCAGCGGCCTACCGGGCACTGGCTCGACTGGTGCTCTGGCAAGGGTCACCTCGGCAGGCTGCTGGCCGCCCGCAGCGGCGCGGCCCTCACCTGCCTGGAATACGACGGCGCACTGGTGGAAGCCGGGCAGGCGCTGAGCGACCGCCTCGGTCTCGTCGCAACACATCACCAGCAGGACGTCCTTGCCGACGATGCCGCCGACCGTCTCCATGACGCGCACACTCCCGTGGCATTGCACGCCTGCGGCGACCTGCATATCCGCCTGATGCAACTGGCCAGTGCCGCTGGCTGCGACCAGTTGGCGATTGCGCCCTGTTGCTACAACCGTATCGGCGCCAGCGACTACCAGCCGCTCTCCGCAGAAGGCAAAGGCTCGTCGCTCGTCCTGTCCCAGGATGACCTGCGCCTGCCGCTGGCCGAGACCGTGACCGCCGGGGCCCGCGTCCGCCGCCAGCGCGATGCGTCCATGGCCCGCCGTCTGGCCTTCGACCTGCTCCAGCGCGAACTGCGTGGCTGCGACGACTACCTGCCGGTGCCCTCGTTGCCGCCGGCCTGGCTGGACAAACCGTTCGTCGACTATTGCCTCGACCTGGCGGAACTGAAAGGCCTGCCCTCACCGACCAACCGTGACTGGCAGCGCTTGGAAGACGCCGGCTGGCAGCGTCTGGCAGAGGTGCGCAATCTGGAGCTGCTGCGCGGCCTGTTTCGCCGCCCAATGGAACTCTGGCTGCTGCTCGATCGCGCGCTTTACCTACAGAACCAAGGCTACGACGTGACCCTGGGCACCTTCTGCTCCCACCGCCTCACACCCCGCAACGCCCTGTTGCTCGCGGAGCGCCGGTTGCCCACAGAAGCTGTGGATAACTCTGTTGATTCTTTCTGA	MSNLLSGARLRERFLALDAFLLETQAFWRPKPFTDLRLPWEKRFPELSLWLRRRSLADADAAHNHPECLAAPDPFPCLAERAARLGVLDELPAQMAADLPSRFNVDIPGRKWEQIQAFASRLSFQRPTGHWLDWCSGKGHLGRLLAARSGAALTCLEYDGALVEAGQALSDRLGLVATHHQQDVLADDAADRLHDAHTPVALHACGDLHIRLMQLASAAGCDQLAIAPCCYNRIGASDYQPLSAEGKGSSLVLSQDDLRLPLAETVTAGARVRRQRDASMARRLAFDLLQRELRGCDDYLPVPSLPPAWLDKPFVDYCLDLAELKGLPSPTNRDWQRLEDAGWQRLAEVRNLELLRGLFRRPMELWLLLDRALYLQNQGYDVTLGTFCSHRLTPRNALLLAERRLPTEAVDNSVDSF				NA	NA	NA	NA	NA
BMS010_09959	1065	mshA_11		D-inositol-3-phosphate glycosyltransferase	ATGAAGATTGCGCAGATCGCCCCTCTCTACGAAGCCGTTCCCCCTCGCCTGTATGGCGGCACCGAGCGCGTAGTGGCTCACCTGACCGATGCGTTGGTCGAACTGGGTCATGACGTCACGCTGTTCGCGACCACCGAAGCACGGACATCCGCTACGCTCGTCCCAGTCCGCGAGCGCGCCCTGCGCCTGGACCCCGCGCCTCTGAAATCCGACCTCGCCAGTCATCTGAGCCTGATGCATGAACTACGGGCACGAGCCGACGAGTTCGACATCCTCCATTTCCACGTCGACCTGCTGCATTTCCCATTTTTCGAGGACATCGCCGAGCGAACCCTGACGACCCTGCATGGACGTCTGGACCTCGATGACCTGCCGGAGGTCTATCGCCGTTGGCACCGCTACCCTCTGGTATCGATTTCCCAGCACCAGCGTGCTCCGCTGGCCTTCGCCAACTGGTGCGGCACCATCCATCACGGGCTGCACGCGGCCAGCTACCGCTTCCACCAGGCGCCGCGGGAAGGTTACCTGGCCTTCCTCGGCCGTATCTCGCCGGAGAAGCGCCCCGACCGGGCCATCGCCATCGCCCGCCGTGCCGGCTTGCCGCTGAAGATCGCGGCCAAGGTGGATAATGCGGACCGCAAGTATTTCGAGCAGCAGATCCGCCCCCTGCTGGACCATCCGCAGGTGGAGTTCATCGGTGAAATCGGCGACGCCGAAAAGTCCGACTTCCTCGGCAACGCCCGGGCACTGCTCTTCCCCATCGATTGGCCTGAGCCGTTCGGCCTGGTGATGATCGAGGCCATGGCCTGCGGAACGCCGGTCATCGCCTGGCGCTGTGGCTCGGTCCCGGAAGTGATCGAGGACGGCGTAACCGGTTTCATCGTCGAGAGCGAGGCCCAGGCGGTGGAAGCGATCACCCGTCTCGACGACCTGGATCGCCGGCGGATTCGCGAGATTTTCGAACAGCGCTTCTCCGCCACCGCCATGGCCAAGCGCTACTTGAACCTCTATTGGCGGCTGATGGGCGACACCGATCCCCATCAACCCCTCCAACAGAGCGCGTGA	MKIAQIAPLYEAVPPRLYGGTERVVAHLTDALVELGHDVTLFATTEARTSATLVPVRERALRLDPAPLKSDLASHLSLMHELRARADEFDILHFHVDLLHFPFFEDIAERTLTTLHGRLDLDDLPEVYRRWHRYPLVSISQHQRAPLAFANWCGTIHHGLHAASYRFHQAPREGYLAFLGRISPEKRPDRAIAIARRAGLPLKIAAKVDNADRKYFEQQIRPLLDHPQVEFIGEIGDAEKSDFLGNARALLFPIDWPEPFGLVMIEAMACGTPVIAWRCGSVPEVIEDGVTGFIVESEAQAVEAITRLDDLDRRRIREIFEQRFSATAMAKRYLNLYWRLMGDTDPHQPLQQSA				NA	NA	NA	NA	NA
BMS010_09960	2133			hypothetical protein	ATGGCCAGCACCAGTTACGACACCGATCGGGAGCGCAGCCTGCAACCGCTGTATGTGCTCAAGGAGGGCGACACCTTTCTCGTTGCCGATGCGTTCGGCGACATACAGGGAGAAAGCGACGGACTGTTCCGCAACGACACTCGGGTTCTGTCGCGCTATCGCCTGCATCTGGCGGGGCGACGACCGTCACTCCTGTCCACCGATGTCAGTCAGGACAACGTTTACTTCACCGCCAACCTGAGCAACCACCCGCTACCGCTGCTGGGCGACACGGCCACACCGGAGGGCGTGATCCATATCGAGCGCAAGCGTTTCCTCTGGGATGGCCGGCTCTACGAGCGCCTGAGCCTGATGAACTACAGCGACCAGCGGACCCGGGTCCCTTTCACGCTGGAGTTCGCCGCGGACTTCCGCGACATGTTCGAAGTCCGCGGGCAATCCCGCGCGCAACGCGGCGAGCGTCTCGCAGCAGGGATCGGCGCGAGCAGCGTGGTATTGCGCTACAAGGGGTTGGACGATCAGCTCCGCTGCTCCGCGCTGTGCTTCTCCGAAGCGCCGACTCAGCTCAGCGGCGAGCAGGCGGCGTTCACCGTTGCCCTGGAAGGACGCGGAAGCTGGACGCTTTACCTGGAGTTAGGTACCGACGTGGCCGAGCCGAGCCAGGCGCGCTTCCGCCAGGCCGCCGCCCGTGCCCGCCTCGGCATGCGCCGGCGCCAGCAGCGAGGGGCACGGCTGCAGGCCTCTGGACGCCTGTTCCAGGCCTGGCTGGACAAGTCCCGCGCCGACCTGGCCCTGCTCACCACGGACTTGTCCAGCGGTCCCTATCCATATGCCGGCATCCCCTGGTTCTCCACCCCGTTCGGCCGCGATGCGATCATCACTGCACTGCAGACCCTCTGGCTGGACCCGGGGCTGGCCCGGGGCGTGCTCGCCTACCTCGCCAGCCATCAGGCCCGGGAGACGTCAAGCTTTCGCGATGCGGAGCCGGGCAAGATCATGCATGAGACACGCAAGGGCGAGATGTCGGCGGTGAACGAACTGCCCTTCGGCAAATACTATGGCGGCGTCGACACCACGCCGCTGTTCGTCGTGCTCGCCGCGGCCTACGCCAGGCGCAGCGGCGACCTGGCCTTCATCGACACCCTCTGGCCCGCCCTCGAAGCCGCCGCCCGCTGGGTAGAGGGTAATGCGGACAGCCACGCCGATGGCTTCCTCGCCTATGCCCGTGCCGAGCAGAGCGGGCTGCTCAACCAGGGTTGGAAGGACAGCCACGACTCGGTTTTCCATGCCAATGGCGAGACGCCGCAGGGCCCCATCGCGCTGGTAGAGGTGCAGGGTTACGCCTACCTCGCCTACCTGAGCATGGCCGAGCTGGCGGACTGGCGCGGCGAAGCCGGACATGCCGAGCGCTGGCGGCAGCGGGCCGAACACTTGCGGGCCACCGTGGAAAGCCGCTTCTGGCTGGATGACCAGCAGTTCTACGCCCTCGCCGTGGATGGCCAGAGCCGTGCCTGCCGGGTACGGGCATCCAACGCCGGCCATCTGCTCTACAGCGGCCTGCCCGATGCCACCCGCGGCCGGGCGGTGGCGCACCAACTGCTGTCGCGGGCGTTCAATTCCGGCTGGGGCGTCCGCACCCTGACGGTGGATGCGGTGCGTTTCAATCCCATGTCCTACCACAACGGCTCGGTCTGGCCGCATGATGTCGCCCTCTGCGCCGCCGGCCTGGCCCGCTACGGCGAGCGCGACGGCGTGGTGCGCCTGCTCGCTGGCCTGTTCGAGGCGGCGACCCGCTTCGGCATGCGCCTGCCCGAGCTGTTCTGCGGTTTCGAGCGCGTTCCCGGCGAAGCACCGGTCGCCTATCCGGTTGCCTGCCTGCCCCAGGCCTGGGCGGCCGGCTCGGTGTTCATGCTGGTGCAGGCCTGTCTCGGCATCGAGATCGACGGACGCAACGGCAGCATCCGCATCCAACAGCCGCGCCTTCCGGTCGGCATCGACCGATTGCGGATTCTGCAACTGGTGGTGGGCGAGCAATCGGTGGACCTGACCTTTCAGCGCCTCGGACCGAGGATCGCCGCCTTCGTCGAGACTCAGCGCGGCCCGCGGCCGGTGCAGGTGGATATCAGGCTTTGA	MASTSYDTDRERSLQPLYVLKEGDTFLVADAFGDIQGESDGLFRNDTRVLSRYRLHLAGRRPSLLSTDVSQDNVYFTANLSNHPLPLLGDTATPEGVIHIERKRFLWDGRLYERLSLMNYSDQRTRVPFTLEFAADFRDMFEVRGQSRAQRGERLAAGIGASSVVLRYKGLDDQLRCSALCFSEAPTQLSGEQAAFTVALEGRGSWTLYLELGTDVAEPSQARFRQAAARARLGMRRRQQRGARLQASGRLFQAWLDKSRADLALLTTDLSSGPYPYAGIPWFSTPFGRDAIITALQTLWLDPGLARGVLAYLASHQARETSSFRDAEPGKIMHETRKGEMSAVNELPFGKYYGGVDTTPLFVVLAAAYARRSGDLAFIDTLWPALEAAARWVEGNADSHADGFLAYARAEQSGLLNQGWKDSHDSVFHANGETPQGPIALVEVQGYAYLAYLSMAELADWRGEAGHAERWRQRAEHLRATVESRFWLDDQQFYALAVDGQSRACRVRASNAGHLLYSGLPDATRGRAVAHQLLSRAFNSGWGVRTLTVDAVRFNPMSYHNGSVWPHDVALCAAGLARYGERDGVVRLLAGLFEAATRFGMRLPELFCGFERVPGEAPVAYPVACLPQAWAAGSVFMLVQACLGIEIDGRNGSIRIQQPRLPVGIDRLRILQLVVGEQSVDLTFQRLGPRIAAFVETQRGPRPVQVDIRL				NA	NA	NA	NA	NA
BMS010_09961	1719	pknD_7		Serine/threonine-protein kinase PknD	ATGTCGCAACTCAGCGTTTCCGTCGGCCAGCATTCCGCCAAGGGCCGCAAGTCGGTCAACCAGGATTTCCACGGCGTTTGCATCCCGCCGGAGCCGCAGCTTTCCAGCAAGGGCATCGCCATCGCCGTGGCCGACGGCATCGGCAGCAGCGCCGTCAGCCATATCGCCAGCGAGGCGGCGATCGGCAGCTTTCTCGAAGACTACTACTGCACCTCCGACGCCTGGTCGGTGAAGAAATCCGCGCACCGCGTGCTGATGGCCGCCAACTCCTGGTTGTACGCCCAGACCCGGCAGAGCCAGTACCGTTACGACATGGACCGGGGCTATGTGTGCACCCTGAGCGCGCTGGTGCTCAAGGCGACCACCGCCTATCTGTTCCATGCCGGCGATACGCGCATCCATCGCCTGCGCGACGGCGAGCTGGAGCGCCTGACCGAAGACCATCGCCTGTGGGTCTCCCGCGAGACCAGTTATCTCAGCCGGGCCCTGGGCATCACCCCGCACCTGGAGCTGGATCACCGCAGCCTGTCGCTGGAGGTGGGCGATCTGTTCCTGCTGACCACCGATGGCGTGCACGAACACCTGACGGCGGCCGCCATGGTCGAACTGATCCACGCCCACGGCGACGATCTGGATGACGCCGCCCGGGCACTGGTGGATGCGGCCTTGAGTCGGGGCAGCGACGACAACCTCACGGTGCAACTGGTGCGCGTGGAGGCGCTGCCCAGCCGCGATGCCGACGAACTGCACCGGCAACTGGCCGAACTGGCGTTGCCGCCGTTGCTGTCGCCCCGCATGGAGTTCGACGGCTACCGCATCGTCCGCGAGATCCACGCCAGCAGCCGCAGCCACGTGTATCTGGCGTTGGACGGGGATACGCCGGTGGCGTTGAAGGCGCCGTCGGTGGACTTGCAGCAGGACCGCGCGCACCTGGAGCGCTTGCTCACCGAGGAGTGGATCGCCCGCCGCATCGACAGCGCCCATGTGCTCAAGGCGCCTGCCCAGACGCGCCGGCGGAGTTACCTCTACACCGTCAGCGAGTTCGTCGAAGGCCAGACCCTGCGCCAGTGGATGGTGGACAACCCCAGCCCCGGTCTGGAGAAGGTGCGCGATCTGGTCGAGCAGATCGCCCGTGGCCTGCAGGCGTTCCATCGTCTGGAAATGCTTCATCAGGACCTGCGTCCGGATAACGTGCTGATCGACGCCACCGGCACCCTCAAACTGATCGACTTCGGCTCTGCCCAGGTGGCTGGCTTGCAGGAGCGGGAGTCCCTTCCGCGCGACCAGTTGCTGGGCACCGCCCAGTACGCCGCCCCCGAATATTTCCTCGGCGAGAGCGGTTCGCCGCGCTCGGATCAGTACTCCCTGGGGGTGATCGCCTATCAGTTGCTTAGCGGTCGCCTGCCCTATGGCGCCGAAGTGGCTAAATGCCGGACCCGCACCGAGCAGGGCCGCCTGGTCTACCAGCCTCTACGCGACAGCAACCGCGAGGTGCCAGCCTGGATCGACGACGTGCTGCGCAAGGCCGTGCACCCCGATCCACACAAGCGCTACGCCGAGCTGTCGGAGTTCCTCTACGAGCTGCGCCACCCGAGCGCCGAATTCCTGCGCAAGCAGCGCCCGCCGCTGCTGGAGCGCAACCCGGTGCAGTTCTGGCGCAGCGTTGCACTGGTGCTTGCGGCGCTGGTCTTTTGGTTGCTGCTGCGTCCGGCTGGTTAG	MSQLSVSVGQHSAKGRKSVNQDFHGVCIPPEPQLSSKGIAIAVADGIGSSAVSHIASEAAIGSFLEDYYCTSDAWSVKKSAHRVLMAANSWLYAQTRQSQYRYDMDRGYVCTLSALVLKATTAYLFHAGDTRIHRLRDGELERLTEDHRLWVSRETSYLSRALGITPHLELDHRSLSLEVGDLFLLTTDGVHEHLTAAAMVELIHAHGDDLDDAARALVDAALSRGSDDNLTVQLVRVEALPSRDADELHRQLAELALPPLLSPRMEFDGYRIVREIHASSRSHVYLALDGDTPVALKAPSVDLQQDRAHLERLLTEEWIARRIDSAHVLKAPAQTRRRSYLYTVSEFVEGQTLRQWMVDNPSPGLEKVRDLVEQIARGLQAFHRLEMLHQDLRPDNVLIDATGTLKLIDFGSAQVAGLQERESLPRDQLLGTAQYAAPEYFLGESGSPRSDQYSLGVIAYQLLSGRLPYGAEVAKCRTRTEQGRLVYQPLRDSNREVPAWIDDVLRKAVHPDPHKRYAELSEFLYELRHPSAEFLRKQRPPLLERNPVQFWRSVALVLAALVFWLLLRPAG	PGPT0030420_356	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_RELATED_PROTEINS,PGPT0030420-ppa|prpA-K01090	NA	NA
BMS010_09962	813	focA	COG2116	putative formate transporter 1	ATGTCCTACCTGGTCCCCGCCGAGTTCGCCACCAAGATGGTGGATGCCGGTGAATCGAAGATCTACATGTCCACCCGCGACACGCTGATCCGTGCCTTCATGGCCGGCGCCATCCTGGCCCTGGCCGCCGTGTTCGCGGTGAGCATCAGTGTGCAGACCGGCTCGCCGCTGGTGGGCGCCATGCTGTTCCCGGTCGGCTTCGTCATGCTGTATCTGATGGGCTTCGACCTGCTCACCGGGGTGTTCGTGCTCACCCCGCTGGCCCTGCTGGACAAGCGCCCCGGTGTCACCGTCGGCGGCGTGCTGAAGAACTGGGGCCTGGTGTTCACCGGCAACTTCGCCGGTGCTCTGACCGTCGCGTTCATGATGGCGTTCGTTTTCACCTATGGCTTCTCCACCGAACCGGGGCCGATCGGCGAGAAAATCTCTCACATTGGCGAGGCGCGTACCCTGGGTTATGCCCAGTACGGCCTGGCCGGCTGGCTGACCATTTTCCTGCGCGGCATGCTGTGCAACTGGATGGTGTCCATGGGCGTGGTCGGCGCGATGATCTCCACCACCGTCAGCGGCAAGACCATCGCCATGTGGATGCCGATCATGCTGTTCTTCTACATGGGCTTCGAGCACTCGGTGGTGAATATGTTCCTGTTCCCCTCCGCGATGATTATGGGCGGCGACTTCTCGGTCATGGATTACATGATCTGGAACGAAATCCCCACCGCCCTGGGCAATCTGGTGGGCGGCCTGGCCTTCACTGGCCTGACGCTCTATGCCACCCACGTGAAGACCGCGCCGAAGCGCACCTTCGGTTGA	MSYLVPAEFATKMVDAGESKIYMSTRDTLIRAFMAGAILALAAVFAVSISVQTGSPLVGAMLFPVGFVMLYLMGFDLLTGVFVLTPLALLDKRPGVTVGGVLKNWGLVFTGNFAGALTVAFMMAFVFTYGFSTEPGPIGEKISHIGEARTLGYAQYGLAGWLTIFLRGMLCNWMVSMGVVGAMISTTVSGKTIAMWMPIMLFFYMGFEHSVVNMFLFPSAMIMGGDFSVMDYMIWNEIPTALGNLVGGLAFTGLTLYATHVKTAPKRTFG	PGPT0017240_603	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_FORMATE_TRANSPORT,PGPT0017240-fdhC-K21993	NA	NA
BMS010_09963	360	nirD	COG2146	Nitrite reductase (NADH) small subunit	ATGAGCCAGTCCAATACCGCCCTGAACATCGCCGAATACTGGCAGCCGCTCTGCTCGCGCAACGATCTGGTAGCCAACTCCGGCGTGGTCGCCCTGGTCGAGGGGCAGCAGGTGGCGCTGTTCTACCTGCCGGATACCGAGGAAGAAGTCTTCGCCATCGGCAATCGCGATCCGAAGTCCGGCGCCAACGTGATCGGCCGTGGCATCGTCGGCCAGATGGGCGGCGATCTGGTGATCGCCTCTCCGCTGTACAAGCAGCACTTCCGTCTGAGCGACGGCAGTTGCGTGGAATACCCGGAACAACAACTACAAGTCTGGCCCGCCCGCCTTTGCGGGGACCGGGTGGAAATCCGTCTCTAG	MSQSNTALNIAEYWQPLCSRNDLVANSGVVALVEGQQVALFYLPDTEEEVFAIGNRDPKSGANVIGRGIVGQMGGDLVIASPLYKQHFRLSDGSCVEYPEQQLQVWPARLCGDRVEIRL	PGPT0000455_736	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000455-nirD-K00363	NA	NA
BMS010_09964	2562	nasD_3	COG1251	Nitrite reductase [NAD(P)H]	ATGAACACCACAGTTGCCTCTACTCCTGACAAGCAAAGGCTGATCGTCGTTGGCAACGGCATGGTCGGCCATCACTGCATCGAGCAGTTGCTCGCCAATGGCGCCCTGGAGCAGTACCGGATCGATGTGTTCGGTGAGGAAGCGCAGCGCGCCTACGACCGCGTGCACCTGTCCGAGTACTTCGGCGGCCGCGATGCCGAGTCCCTGGCCATGAGCGCGGCCTCCCTCTATGAAGCGGAAGGCCTGACCCTGCATCTGTCCGCCCAGGTGCTGGAGATCGACCGCGCCAAGCGCGAGGTGATCACCGCCAAGGGTCGCTTCGGCTACGACAAGCTGGTGCTGGCCACCGGTTCCTATCCCTTTGTGCCGCCGATCGAAGGTGCCGAGGGTGAGTCGCGGCTGGTCTACCGCACCCTCGACGATCTCGATGCGATCCGCGCGGCGGCCAAGGGTAAGCGACGTGGCGTGGTGGTGGGTGGCGGTCTGCTCGGCCTGGAAGCGGCCAATGCGCTGAAGTCCCTCGGCCTGGAGGCCCACGTGGTGGAGTTCGCGCCGCGCTTGATGCCGGTCCAGTTGGATGACTTCGGCGGTGCTGCGCTGAAGAAGCGTATCGAGGACCTGGGTGTCGGCGTGCACCTGTCCAAGGCGACTCAGTCGATCACGGCTGGCGAGGACTACCGCTACCGGATGAATTTCGCCGGCGAGGATTTCCTCGAGACCGATCTGATCGTGTTCTCCGCCGGCATCCGCCCGCAGGACGCCCTGGCCCGCGCCTGTGGCCTGGAGTTGGGGCCGCGGGGTGGTGTGGCGATCAATGATCAGTGCCTGACCAGCGACGAGCACATCTATGCCATCGGCGAATGCGCGGCCTGGAACGGCGGCATCTTCGGCCTGGTTGCCCCGGGCTACCAGATGGCCCGCCTGGTGGCCGCCGAGCTGTGTGGCCTGGAAGGTTCGCCCTTCCTCGGCGCGGACATGTCGACCAAGCTCAAGCTGCTCGGCGTGGACGTCGGCTCCATTGGCGACGCCCATGGCGCGATGCCGGGTGCGAAGAGCTACCGCTACATCGATGAGGCCACTGCCAGCTACCGCCGCCTGGTGGTTTCCGCCGATGGCAAGCAAGTGCTCGGCGCCGTGCTGGTGGGCGACAACAGCTACTACGACACCCTGCTGCAATACGCGCAGAACGGCATCAAGCTGCCGGCCGATCCGGCCAGCCTGATCCTGCCGGCGGGCGAGGGCGCTCCCGCGCTGGGCGCCGATGCGCTGCCCGCCACCGCCACCATCTGCTCCTGCCACAACGTCAGCAAGGCGTCGATTTGCGAGGCCATCGATAGCGGTTGCACCGATCTGGCCGGGATCAAGTCCTGCACCAAGGCGGCTACCGGTTGTGGTGGCTGCGCGGCGCTGCTCAAGCAGGTCTTCGAACATGAGTTGACCGCCCGTGGCGTGGCGGTGGACAAGAGCCTGTGCGAGCACTTCGCCTATACCCGCCAGGAGCTGTATCACTTCGTCCGCGTCGAGGGCATCGAGACCTTCGAGGAACTGCTGGCCAAGCATGGCAAAGGCCATGTCGGCTGCGACATCTGCAAGCCGGCGGTGGGGTCGATCCTCGCCTCCTGCTGGAACAAGCCGATCATGGACCCGTCGCTGGTGCCGCTGCAGGACACCAACGACACCTTCATGGCCAACATGCAGAAGAACGGCACCTACTCGGTGGTGCCGCGCATTCCCGGCGGCGAGATCACCCCGGAAGGACTGATCGCCATCGGCCAAGTGGCGAAGAAATACGACCTCTACACCAAGATCACCGGCGGTCAGCGCATCGACCTGTTCGGCGCCCAGTTACACGAGCTGCCGGATATCTGGGGCGAGCTGATCGCCGCCGGCTTCGAAACCGGCCATGCCTATGGCAAGTCCACCCGCACGGTGAAGAGCTGCGTGGGCAGCACCTGGTGCCGCTACGGCGTGCAGGACAGCGTGAAGATGGCCTTGGACATCGAGCACCGCTACAAGGGCCTGCGCTCTCCGCACAAGCTCAAGTTCGCCGTCTCCGGCTGCACCCGCGAGTGCGCCGAGGCGCAGAGCAAGGACATCGGCGTGATCGCCACCGAGAACGGCTGGAACCTCTACGTCTGCGGCAACGGCGGCATGCGCCCGCGCCACGCCGAGCTGTTCGCCACCGACCTCGATGACGCGACCCTGATCCGCTACATCGACCGCCTGCTGATGTTCTACATCCGCACCGCGGACAAGCTGCAACGCACCTCGGTGTGGCGCGAGTCGCTGGAAGGCGGCCTGGATTACCTGAAAGACGTGATCATCCACGACAGCCTGGGGCTGGCCGCCGAGCTGGAAGCCCAGATGCAACTGGTGGTCGACCGTTACGAATGCGAATGGGCCAACGCCCTCAGCGATCCGGAGAAGCTCAAGCGCTTCCGCACCTTCGTCAACGAGCACGGCGGCGACCCGGATATCCATTTCGTCAAGGAACGCGGACAGCGCCGTCCGGCGCGCTCCGGCGAACTTCATCTGATCCCGCTGACCGAGGAGGCCCACTGA	MNTTVASTPDKQRLIVVGNGMVGHHCIEQLLANGALEQYRIDVFGEEAQRAYDRVHLSEYFGGRDAESLAMSAASLYEAEGLTLHLSAQVLEIDRAKREVITAKGRFGYDKLVLATGSYPFVPPIEGAEGESRLVYRTLDDLDAIRAAAKGKRRGVVVGGGLLGLEAANALKSLGLEAHVVEFAPRLMPVQLDDFGGAALKKRIEDLGVGVHLSKATQSITAGEDYRYRMNFAGEDFLETDLIVFSAGIRPQDALARACGLELGPRGGVAINDQCLTSDEHIYAIGECAAWNGGIFGLVAPGYQMARLVAAELCGLEGSPFLGADMSTKLKLLGVDVGSIGDAHGAMPGAKSYRYIDEATASYRRLVVSADGKQVLGAVLVGDNSYYDTLLQYAQNGIKLPADPASLILPAGEGAPALGADALPATATICSCHNVSKASICEAIDSGCTDLAGIKSCTKAATGCGGCAALLKQVFEHELTARGVAVDKSLCEHFAYTRQELYHFVRVEGIETFEELLAKHGKGHVGCDICKPAVGSILASCWNKPIMDPSLVPLQDTNDTFMANMQKNGTYSVVPRIPGGEITPEGLIAIGQVAKKYDLYTKITGGQRIDLFGAQLHELPDIWGELIAAGFETGHAYGKSTRTVKSCVGSTWCRYGVQDSVKMALDIEHRYKGLRSPHKLKFAVSGCTRECAEAQSKDIGVIATENGWNLYVCGNGGMRPRHAELFATDLDDATLIRYIDRLLMFYIRTADKLQRTSVWRESLEGGLDYLKDVIIHDSLGLAAELEAQMQLVVDRYECEWANALSDPEKLKRFRTFVNEHGGDPDIHFVKERGQRRPARSGELHLIPLTEEAH	PGPT0000450_664	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000450-nirB-K00362	NA	NA
BMS010_09965	2430	iutA		Ferric aerobactin receptor	ATGACCTCCCGTCCGCCGTTTCGCCGTCGGCTACCCTTGTCCGCCTGGCTCGCTGGCCTGGTCCTGTCTGGCCAGGCCTTTGCGCAGGACCTGCAATTGGACCTTCCCGCCGGCTCCCTCGAGCAGTCGCTGAACAGTCTGGCCCGGCAGTCGGGCGTGGAAATCCTCTATGCCAGCGAGTTGGCTGCCGGTAAGCGCGCGCCGGCGTTGTCGGGCAGCTTCACCGCCAGGGAGGCCCTGGACCAACTGCTGCAAGGAAGCGGCCTGAGCGTGCGGGAGCAGACCGACGGCAGCCTGATCCTGGTGCCGCAGCCCGCCCCCGGCGAGCAGGCGCGGCGGGGGGCGATGGTGGATCTGGGCAGCACGCTGGTCACCGCCGATCGTTTGCACAGTGAACTGGTGAGTCCTCCCCGACAGACCACCGTGATCGAACGTGAAGAGCTGGAGCAACTGCGCCAAGGCTCCGGCAACCTGGCCACTGCCCTGAGCAAGGCGGTACCGGGCATGGCCGATTCCAGCCGTACCATCACCGATTTCGGCCAGACCTTGCGCGGGCGCAACATGCTGGTGCTGGTGGATGGCATCCCCTTGACTACGAATCGCAATTCTTCCCGCGACCTGGCCAACCTGGAGCTGCTCGACATCGAGCGGATCGAAGTCCAGCGCGGCAGCAGCGCCATCTACGGCAGCGGCGCCAGTGGCGGCATCGTGTCGGTGACTACAGTGGCGGCGGGTGGCGAGAATCGAGCGCGCAGCAGTGTCACCTTTGAGTCTCCCTTGTCGCGCCTCGGCGACGATGGTCTCGGCGGTACCCTGCGGCAGAGCTTCAGCGGCAGCCAGGGGCGCGTGGATTACGGCCTCGCGTTCGCGGCGCAGCACATCGGTGCTTCCTATGATGCGGATGGCCATCGCATTGCACCTGAGCCGAGCCAGGGTGATCTGTTCGATTCCAATGCCTACAGCCTGGGCGGCAAGTTGGGTGTGCACCTCGATGAGGTTCAGTACCTTCAACTATCGGCCAGTCGCTACGATGCTCAGCAGGATACCGATTACGTCTCCGACCCGGCGGTGAGGGCGAAGCCGGCAGGCAGTGTGCCGGCGCGTGCGCTCAAGGGGCTGGATCTGGCCGAGCAGACCCGTTTGACCAACAACCTGCTGTCTCTGGATTACCGGCATGAGGATGTGCTGGGCGGCGAGTTGGCCGCTCAGGTCTACTACCGCGACTATTTCACCCGCTTCAGCCCCTTCGACGCCCGGGCGGTGACGACCCGCGGCAACAATGTCGATCAGGTCAGCCAGGAGTCCAAGGTACAGGGCGCGCGGCTGACCCTGACCACGCCACTGGTGGAGCAGCGAACCCAACTGCTCTGGGGCGTAGACTATAACCAGGAGCGCAGCAAGATGCCGCTTGACGTCTTCGACCCGGACGTCTACGACGAGAGTGGTGGCCTGGTGTACGAAAAGATCGGCGAACTGACCTACATGCCCTGGGTGACGACACGAAGCGCGGGCGCCTTCCTGCAACTCCAGCATCGCTTCGACGAGCACTGGTCGGCCGAGGGCGGCGTCCGTTATGAGCGCGCCAGCGCCGAGTTCGACGATTTCCAGCCGCTTTCCCAGTCGCGTCTCGCCAATCCGGTTACGGTGCGTGGCGGAGAGGTGGATTATTCGGCCGATCTCTACAACATCGGCTTGGTCTATGCGCCGAACGCGGTGCATGAGTTCTACCTGTCCTTCAGCCAGGGCTTCGAGTTGCCCGATATCGGCCTGCAGGTGCGTAATGCCCGGGCCAACTTCGATATCGAGTCTTCGGACCTGGAGCCGGTCAAGGTGGACAACTACGAGATCGGCTGGCGTGGCCAGTTCGACCAGACCAGTGCCTCCCTGGCCCTGTTCCAGTCCCGCTCTCGGTTGGGGACTGTGCAGAGCTTCAATAATGGCCTGATTCTGAGTCGCACCCGCGAGCGCATCGAAGGGGTGGAGGGTCAGGTGGATTTCACTACTCTCGACGAGCGCTGGGGCGCCGGTGGCAGCCTGACCTGGATGCAGGGGCGCGAACGACCCAAGGGGGGCGACGACCAGGACATGACCGGCTATCGCATCCCACCGCTCAAGCTCACGGCCTATGTGAGTCATGCACCCGTGGAGAAGTGGACCAATCGCCTGCAGGCCACGTGGTTCGATCGGCGCGATTATCGACTGGACGGCCGCGAAAGCTTCGGGCGGCGTGAAGTGGACAGCTATCTGGTGGTCGACCTGATCAGCCGCTATGAGCTGGACGAGCAGAACAGCGTGGCGTTAGGTATCCAGAACCTGTTCAACCGCCAGTATTACCCGACCTATAGCCAACTGTTACGCAGCAACGACAACACCAGCCACCTGCCGGCGGCAGGTACGGTACTGTCGGTGCGCTACGACCACCGTTGGTGA	MTSRPPFRRRLPLSAWLAGLVLSGQAFAQDLQLDLPAGSLEQSLNSLARQSGVEILYASELAAGKRAPALSGSFTAREALDQLLQGSGLSVREQTDGSLILVPQPAPGEQARRGAMVDLGSTLVTADRLHSELVSPPRQTTVIEREELEQLRQGSGNLATALSKAVPGMADSSRTITDFGQTLRGRNMLVLVDGIPLTTNRNSSRDLANLELLDIERIEVQRGSSAIYGSGASGGIVSVTTVAAGGENRARSSVTFESPLSRLGDDGLGGTLRQSFSGSQGRVDYGLAFAAQHIGASYDADGHRIAPEPSQGDLFDSNAYSLGGKLGVHLDEVQYLQLSASRYDAQQDTDYVSDPAVRAKPAGSVPARALKGLDLAEQTRLTNNLLSLDYRHEDVLGGELAAQVYYRDYFTRFSPFDARAVTTRGNNVDQVSQESKVQGARLTLTTPLVEQRTQLLWGVDYNQERSKMPLDVFDPDVYDESGGLVYEKIGELTYMPWVTTRSAGAFLQLQHRFDEHWSAEGGVRYERASAEFDDFQPLSQSRLANPVTVRGGEVDYSADLYNIGLVYAPNAVHEFYLSFSQGFELPDIGLQVRNARANFDIESSDLEPVKVDNYEIGWRGQFDQTSASLALFQSRSRLGTVQSFNNGLILSRTRERIEGVEGQVDFTTLDERWGAGGSLTWMQGRERPKGGDDQDMTGYRIPPLKLTAYVSHAPVEKWTNRLQATWFDRRDYRLDGRESFGRREVDSYLVVDLISRYELDEQNSVALGIQNLFNRQYYPTYSQLLRSNDNTSHLPAAGTVLSVRYDHRW	PGPT0003790_8978	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0003790-hutA|fatA|fct|foxR-K02014	NA	NA
BMS010_09966	828			hypothetical protein	ATGACCCGCGAGAAACCGGAGCCTGGGCGAGCAGCGCCGGCAGCAGAGCAATTGCTGGACACTTACCGCAGTGAGCTCCAGGCGCGTTTCCCTCTGCCCCCCGCAAGGAAACCTCGGCGAGCGAAGAAGATGGTCCAGGGCGCTCTGGTCCTTTTGCTGGGCGCCGCCGGACTGGTCTGGCTGGACCCGGCGTATCGCAGCGAGTCCTATGCCAGTGGGATTCATCGCCTGCCTGTCACGCTGGCCGACGGCAGTCAGGTCATGCTGGATGCCGGCACCGAGTTGCGGGTCGATTGGCATTTTCGGTCGCGGCGGCTCGAGTTGCTCCGGGGACGCGCACGCTTCGCGGTGCAGCGGCAGGTCTGGCGGCCGCTGACGGTGGAGGCTGGAGAGTTGCGCGCCAAGGTGCTCGGCACCACGTTCACCGTGGATCGTCGTGACGACGGCGGTCAGGTCATGGTGATGGAGGGGGTGGTTGCGGTGACTTCGACGATGCATGGCCAGTCGGTTCGCCTGGGAGCGGGCGAGCAGGCCGAGCTCCACGGCGGCCGTCTGGAGCGGTTGGCAAAGGTGGATACCGAGGCCGGCATCGCCTGGGTCCGGGGGCGCCTGCTTTTTGATCGCACACCGCTCGGCGAGGCGTTGGTGCAGATGCGTCGCTACCACAATGCACCGATCCGGCTGAGCGATCCGTCGTTGGCTGAGCTGCGGCTTTCCGGCGGCATTTCCACGGAGCGGGTGGATACTTTTCTGCAAACCTTGCCGGCCATCCTTCCGGTAGTGGTCGAAGAAGAGGCTGATGGCAGCATTCTCATCGGCAGGCGATAA	MTREKPEPGRAAPAAEQLLDTYRSELQARFPLPPARKPRRAKKMVQGALVLLLGAAGLVWLDPAYRSESYASGIHRLPVTLADGSQVMLDAGTELRVDWHFRSRRLELLRGRARFAVQRQVWRPLTVEAGELRAKVLGTTFTVDRRDDGGQVMVMEGVVAVTSTMHGQSVRLGAGEQAELHGGRLERLAKVDTEAGIAWVRGRLLFDRTPLGEALVQMRRYHNAPIRLSDPSLAELRLSGGISTERVDTFLQTLPAILPVVVEEEADGSILIGRR	PGPT0003910_6774	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-3-OH_PAME_PERCIPITATION|SIGNALLING,PGPT0003910-prhR|fecR-K07165	NA	NA
BMS010_09967	552			hypothetical protein	TTGTCCGAGCTGATTGGCTGTTCCCTTGTGACCGAGCATTCCCCTCCGCATTCGCTGATCGACAGTTTCGTGCGTCACTATGATGCGCTGCTGGCGCAGATCGTCCGTCGTTTCGGTGATCGCGCCTTCGCCCAGGACATCGTTCAGGATGTTGGACTGCAACTGGTCAGCCGTCCCGAGCGGCCTGGGATTCTGTCGCCGTTGGCGTTGCTGCGGCGCATCGTGCATGACCACGCCATCAGCAGTTGGCGCGGCGAGCGTCGCCGGCAGGTGCGGGTGGTGTGCATGGCGGAGCTGCCTGAGGTGGCCTGCCCATTGTCCGAGCAGGAGCGCCTGGCCGAGGCTCGTGAGGCGGTGGAGCGGTTGGCGGAGGCGATTGCGACGCTGCCGGAGCGGTGCCGGGAAGTGTTCGTGATGCACAAGATCCACCTGATTCCCCAGGCTCAGGTGGCCGAGCATCTGGGCGTTTCTATCAAGACGGTGGAAAAGCACTTGCGCTTGGGCATGGCGCGCTGCCGGGCGTATCTGGAGATCGGGGAGGATCGGGCATGA	MSELIGCSLVTEHSPPHSLIDSFVRHYDALLAQIVRRFGDRAFAQDIVQDVGLQLVSRPERPGILSPLALLRRIVHDHAISSWRGERRRQVRVVCMAELPEVACPLSEQERLAEAREAVERLAEAIATLPERCREVFVMHKIHLIPQAQVAEHLGVSIKTVEKHLRLGMARCRAYLEIGEDRA				NA	NA	NA	NA	NA
BMS010_09968	291			hypothetical protein	GTGTGGGCAGCGTATATTCAACTGATTTGTAGGCTGATCGGAAACCGGGCCAAGAGTTGGAGAGTAACCGTTGCCCATCTTGATCGCCCGGGGTTCTACTTCGAATACACCACGCCGGCATACCTGGAACTGCAATACAAGCGCTTCAACCCGCGCGGCGGGTCGTACATGCCGTACTACCTGACCAAGATCGACTACGACAGCTGCAACGGCCTGGGCGTCTGGAGCCTGGCTGCGACCTTCGTCACCCTGACGGCGGCAACGCCGATGAAAAGCGCGATGGACTTCTGA	MWAAYIQLICRLIGNRAKSWRVTVAHLDRPGFYFEYTTPAYLELQYKRFNPRGGSYMPYYLTKIDYDSCNGLGVWSLAATFVTLTAATPMKSAMDF				NA	NA	NA	NA	NA
BMS010_09969	936			hypothetical protein	GTGACAAATAGTGCTACCGGAACTGATCGCGAATCAGAGTGGAGAGATGTCCGATCCCGCTTGGAGTATGGTGGTTTTCATAAGAAGTCTGAGTTGAAAATATTTGAGGCCTACTTTAGGAAGGGCGCCGAGCCGAAACTGCATCCACTGGATGAAGATCCCATTCCCTTAGTCTATCGGCTCTGGTTTGCAGCGGATCAGAGCGTAGAATCTTGGCAGGCCATTACTCGACGGCTACTGGCAGGTCCCCATGCTTGGACAAGCAAAGTCAGCATAGATCCGAATGCAGAATGCCCGGGAGAGTCATGGCGTGAGTTATGTGGTGAAAGCAAATGGGGATGGCAGATTGCTCGTAGCCTTAAGGACTCTTACGACATTCTTACTCAGCGTGCTTCGGCTTCATACTTCGACGGTGTTACCCCCGCCTTTGGCCATACCGAGCCGGCCCCTTTAGGTTTTATGGGAGGGATTGAGAAAGCCATCTACCAGTTTATGACTGGTGCCGGGCAAGGTGGTGAAGCGTTCTCTTATGATGGACGTCCTCTCTTCACTCCGCCTCATTATTTCGGCCACCATTATTATCGTGAACTCTGCTGTTGGTTGGACGTGAGGTTGCCTAGCAACCCGTTCAGCATAACGAATTTCATGGGTGAGCACTGGGTGGATTCGCTTTCGGAAGAATACCTAAACAAGGTTTTCTCTGATGAGGCAGTTATGTTCTATCTGGATTGTTACTTGAAGCTTATCGCTCGCTATCCGACAGCAGGGTTGGATGCTGATCGCCTAGAACATGCTACCTTGGTTCGTGATCTGTTGGATAAACGGCAGCTTCCCGCACCGGTGGATTTACTATGGAAGCAGGCCAAAATCTACCAGGGTTTAATTGACCTAAATAGCCATATGCAGAAGTCACCTTATTACCTTGGTGAGTTCTGA	MTNSATGTDRESEWRDVRSRLEYGGFHKKSELKIFEAYFRKGAEPKLHPLDEDPIPLVYRLWFAADQSVESWQAITRRLLAGPHAWTSKVSIDPNAECPGESWRELCGESKWGWQIARSLKDSYDILTQRASASYFDGVTPAFGHTEPAPLGFMGGIEKAIYQFMTGAGQGGEAFSYDGRPLFTPPHYFGHHYYRELCCWLDVRLPSNPFSITNFMGEHWVDSLSEEYLNKVFSDEAVMFYLDCYLKLIARYPTAGLDADRLEHATLVRDLLDKRQLPAPVDLLWKQAKIYQGLIDLNSHMQKSPYYLGEF				NA	NA	NA	NA	NA
BMS010_09970	711			hypothetical protein	ATGCCCCTCAAAATCGGCGCCACGCTTTTAAACCTCATAGTCCCAGGAATGGGGCTGGTACTGCTGGGGCATATCCGCAAGGCCTGGCTTTGCTGCCTGCTGTTTTTACTTGTGCCAGCCTGGGCCACAGCGGAGCGCAGGCTTTTGCAACCAGAGGGCTGGTTGATCATGGCCATAGCCATGGCACTGATCAGTAGCATCGCGATTGCTCTGGGGCTAAGTGTCAAAGCGAAATCTGCAAAATCTCGGAAGATTACCTGGCATCTGGGTGGTTTGAGCGTGGGCGGCTTACTGCTGATGGCCAGCGCTCTCTACTACAGGGCAGAGGTACTGGGCATCCAGTTCTACTTCATTCCCAGCCCCTCGATGACACCGACGCTGTTACCGGGCGACTTTATCCTGGTGGACACCTGGGCATACCGGGAGAAGTCACCAGTGGCCGGAGACATCATCGTATTCCAGCAGTCGGACGATATGTTCGTGATCAAGCGCTGTGCGACTTGGCCAGACAGCACAACGGTCATTCGGAACAATCAACTCTATGTACTGGGCGATAACCCCCAAGCCAGCCTCGATAGCCGGCGCCTGGGCGGTATCAATCTGCAACGCGTCAAGGGTCGTGCACTTTACAGAATCGCGCACTGGGACTCCCTCAGCGGCAAGACCTCCTGGCCACTACAACCACTACCATCAGAATCCGTATCGAACTAA	MPLKIGATLLNLIVPGMGLVLLGHIRKAWLCCLLFLLVPAWATAERRLLQPEGWLIMAIAMALISSIAIALGLSVKAKSAKSRKITWHLGGLSVGGLLLMASALYYRAEVLGIQFYFIPSPSMTPTLLPGDFILVDTWAYREKSPVAGDIIVFQQSDDMFVIKRCATWPDSTTVIRNNQLYVLGDNPQASLDSRRLGGINLQRVKGRALYRIAHWDSLSGKTSWPLQPLPSESVSN				NA	NA	NA	NA	NA
BMS010_09971	432			hypothetical protein	ATGAGTGCAGCATTACGATCCGAATTGCGTTTTAGTGATGCCAACCTACCCGCCCTGTTGGCGGCCCTGGACTACGAGCCTGATGAGGACTTCAGTCTGGAGCGCAATGTCAGCGACTGCCTGAGCGACTTCGGTTGGTATGCCACTGGGCGCAACGGCGACCTACTGACCTTCGAGTTTCAGTCCGACGATGACGAGGAGATGAACTGGGAGGTGTTGGTGAGCCTGTCAGCGTTCCTGGAAGAGGGCAGTTATTACGAGGAGCGCTGTGGCGACTATGTTGCGGATGCCGATGGCGAGTTGCGCTCGGGCATCGCGCGCGCCTGGATGGAAGGCGGCCAGCTCAAGGGCATGATCTATGCGCTGATCCCCGCGCCGGACGGCCAGCGAATCCGTCAGCCCGTGGAGTCTTTCGACCCGCGCATGGCTTAG	MSAALRSELRFSDANLPALLAALDYEPDEDFSLERNVSDCLSDFGWYATGRNGDLLTFEFQSDDDEEMNWEVLVSLSAFLEEGSYYEERCGDYVADADGELRSGIARAWMEGGQLKGMIYALIPAPDGQRIRQPVESFDPRMA				NA	NA	NA	NA	NA
BMS010_09972	1011			hypothetical protein	GTGAAAGATTCGTTGGATAACTTCGATACCAGTTACTGGCGCCCCAAGGATCCCGTCTGGTTGGCCGCGCGCGAAGCGCAGTGGCCGGTGATAATGGAGCTGCTCTACTTGCGTAACAAGAGCAAGAAAGCTCTGGGCATCATCAAACGCTACTTTTTTAAGGGTACCCTTCCCGACTGGACCACGCTGAAAAACTGGGAGCATAGCGAGCGGCATCTGGACCTGATGCTGTTTCTTTATTTGCATCCGAGTCGGGACCATGCCGTGCTGGCGCCGCTACGTGATGCATACCTTCAGTCTGCCTATGTGGTACCGAAGGATATTTGGTTGGGCATGATCAATTTACTTTCTATCGGCTGTATCCGGAGCTGTTCAGGGGGGAGATACCTTTGCTCGCGCGACGAGGTCGAAAAGGCGCTGCCGCACTTGCAAGGCATTTTGCCGCGACTCGATGGGGATAAGGTATTGATCGAGGCACATACTCAGGGCAATAACGAACGTCTGTTTCGTCTTCTATTCACCGATCCGCAGCAGCAGATCATCACCCTGGCGGATAGGCGAGAGGTACAGGTGCCGCAGCATAGCTTCCGGGATGTGTGGGAGTGGTCGACGTGGCTGACTTTGGAGTTGCCGCTTGGCCAGTGCGCCACCGATATGCTGTATCAGTACGACTACCCGCTGGAGTTCTGGTATGCCCAGTGCGGGTGCGATATGCAGCGCTTTAGGCGCAATGTTTCAGATGCTGTTGATGTTTCGCTGTTGCTTCGGGCCTTCTATCGTTTCCAGCATTTTTTCGATCAACATGACGAAACCGATCCCCGCGCGCCCTTTGTGCGCAAGTTCGTGCAGATGATTGAGAGCCGCGATTTCGTGCCACCGATCAAACTTCTCTGGGAAGAGGTCAAGTCCGGAGGGGTGGTCGTCGAGAATATCTGGACGCATGAAAGCAAGCTCAAGCGCTCGGCGCTGTGGAGTGAATTTAAAGTCAAACCGGAGTGGCCCCAGGCATGA	MKDSLDNFDTSYWRPKDPVWLAAREAQWPVIMELLYLRNKSKKALGIIKRYFFKGTLPDWTTLKNWEHSERHLDLMLFLYLHPSRDHAVLAPLRDAYLQSAYVVPKDIWLGMINLLSIGCIRSCSGGRYLCSRDEVEKALPHLQGILPRLDGDKVLIEAHTQGNNERLFRLLFTDPQQQIITLADRREVQVPQHSFRDVWEWSTWLTLELPLGQCATDMLYQYDYPLEFWYAQCGCDMQRFRRNVSDAVDVSLLLRAFYRFQHFFDQHDETDPRAPFVRKFVQMIESRDFVPPIKLLWEEVKSGGVVVENIWTHESKLKRSALWSEFKVKPEWPQA				NA	NA	NA	NA	NA
BMS010_09973	585			hypothetical protein	TTGCTGGGTACCTTGCCTAAACTCGTCGGTGATGACGTCTTAGTCGAGGCACATACCCAGGGCAATAACGAGCGCCTGTTTCGTCTGCTGTTCACCGATCCGCAGCAGCAGGTCATTACCTTGGCGGATAAGCGTGAGGTGCAGGTTCCCCAACATAGCTTCCGGGATCTATGGACGTGGTCAAAGTGGCTGACCCTGGAGTTGCCGCTCGGTCAGTGCGCCGCCGATATGCTGTATCAATATGACTACCCGCTGGAGTTCTGGTATGCCCAGTGTGGGTGCGATATGCAGCGCTTTAGGCGCAATGTTTCAGATGCTGTTGATGTTTCACTGTTGCTTCGGGCCTTCTATCGCTTCCAGCATTTCTTCGATCAACATGACGAAACCGATCCCCGCGCGCCCTTTGTGCGCAAGTTCGTGCAGATGATTGAGAGCCGCGATTTCGTGCCACCGATCAAACTTCTCTGGGAAGAGGTCAAGTCCGGAGGGGTGGTCGTCGAGAATATCTGGACGCATGAAAGCAATCTCAAGCGCTCGGCGCTGTGGAGTGAATTTAAAGTCAAACCGGAGTGGCCCCAGCCATGA	MLGTLPKLVGDDVLVEAHTQGNNERLFRLLFTDPQQQVITLADKREVQVPQHSFRDLWTWSKWLTLELPLGQCAADMLYQYDYPLEFWYAQCGCDMQRFRRNVSDAVDVSLLLRAFYRFQHFFDQHDETDPRAPFVRKFVQMIESRDFVPPIKLLWEEVKSGGVVVENIWTHESNLKRSALWSEFKVKPEWPQP				NA	NA	NA	NA	NA
BMS010_09974	468			hypothetical protein	GTGAAAGACTCGTTGGATGACTTCGATACCAGTTACTGGCGCCCCAAAGATCCGGCTTGGATGGCCGCGCGCGAAGCGCAGTGGCCAGAGATAGAGAAGCTGATTTTCGAGCAAGGCAAGAGCAAGAAGGCGGCCGGGATCATCAAGCGCTATTTCTTCAAGGGTACCCAGCCCGACTGGACCAAGCTGAAAGACTGGGAGAATAGTGAACGGCACCTGGATCTGATGCTGTTCCTTTATCTGCATCCGAGCCGGGACCAAGCCGTATTGGCGCCGCTACGCGAAGCCTATCTCCAGTCTGCCTATGTGGTGCCGAATGACATCTGGATGGGCATGATCAATCTGCTTTCTATCGGCAGTATCCAGAGTTGTTCGGGGGGGGGCATATTTATTCGCGCAACGAGGTCGAAAAGGCGCTGCCGCACTTGCTGGGTACCTTGCCTAAACTCGTCGGTGATGACGTCTTAG	MKDSLDDFDTSYWRPKDPAWMAAREAQWPEIEKLIFEQGKSKKAAGIIKRYFFKGTQPDWTKLKDWENSERHLDLMLFLYLHPSRDQAVLAPLREAYLQSAYVVPNDIWMGMINLLSIGSIQSCSGGGIFIRATRSKRRCRTCWVPCLNSSVMTS				NA	NA	NA	NA	NA
BMS010_09975	4047			hypothetical protein	GTGAAAGTCCCGCTGCACGACGAAGAAGCCAGCGAACTGTCGCGCCAGGCCTACCGCAAGGCGGAAAAGGACAACCCGGACCTGGAGCTGAAAAAACCCGAACCGCTGTACGCCTGGCAGTACAGGCCAGAATTGCAGTTCAGTTTGTATGAGTTGAATGTGAAGGAGGTCAGGCGAATTGATGCCGAGGATGCTGGGCGAAATATCTATAATGATGAGAAGCCTATTCTGAAAAGTAGCGACAAGTATGTTGCCTTCATGTATGACTTGCTTATGTCTTCGCTCAACACACTGGAGGCATGGGGATATAAGGGCGAGCGAGAAATTGTACTGACCCTTGGCGAGGAAGAGGTAAAGGTCAGTGCTGGTGAAGATCAGAGTATAAAGTTCGAAAATCTGGATCATTTGTTTAGTCTGGATGCTGATGATTTCCTCTCTCTCAGACTAACGGCCAATAACGACGCAGGAAATATTCTTTGGGAATTCGCATATGAGGCGTTCCATTTAGAGGCTTTGAATATAGGCTTCAAGGAGGAGGCCGCAAGTACCTACTATTTAAGTGCAGATACACCCACGCTGGATTTGAAGGCGACCCTTATGGGGTACGCTGGGCGTGACCCCGAGAAAAAATATCCGATCACTGCGAGATGGACAGTCGAGGGTGATGGCCAGCTTGCCAAAGTTGTGCAGACGGATTCCGGTCTGGGTGTTTTTGATAACACATTGCAAATGCCAACTCGTGCGGGGGCGATGGCTGATGTCTTTGTGGAAATGCTGGATAACCCGCAAAGCAAAACGAATTGGAAGAAGGTGATTGTCGAGCCGGGTGTGCCAGCCAAGATAAGTTACAAGGTTACTGGGCAAGCTGGTGCCTTGGGGCAAGGAAATTCTCGAATAGATATCGATGTATTTGACCAATTCGGCAATCGCGTGGTGGATGAAACACCGGTGTCTGTCGGCCTTAATGACAGCTTGCGTATCGTAAGTCAGCAGCTAGCGACCAAGAATGGCCATGCGTATATCGAAGTGACCGGAGGGGAGTTCGATGTTGCACAGTCGGAGGCATTAATTAGCTCGGGATTGGTTAATGTCAGCGCGAATCTTTCTGTTCAGGGTCTAACGGTCGCACTCAGTGCCAGCACAACGCAGGCCAAGAAAGGGGAGACAGTCACTCTCACCGCCGAAGTGAAGCGAGATGATGGTGAGCCGGCAACTGGCGTAGAGGTACTGTTCAGCGCTAAACGAGGCGTGTTCGAGCACCCCAACCAGATTACCAACGAACAAGGCATTGCCCGAGCATCCTTTACTGCCGGTTTGAATGCGCAGGACGATACTTGGACGGTTGATGTTGGCTATGTTGCCAGCTCGAATATTACATTTGAAGTTGCTCCCAGCCCGGGGCGCTCCATTGAAGCCCAGGACGCAATGCTAGTAGCCGACGATGTCGGTCCTGGTGTGGTGACCTATACCGAAGCTGGGGTGGCGGTTCAGGCGGCCTATGAAACGCAAGGGACGGTCGAGGTTTCTTCTGCCGACGCAGGCATTATCCAGCTTGGGGACATGGCGGACCCCAACTTGGAGCCCCTGTTGTCTATTCAGATGAGCAGCATCGAGAGTTCGGCGGGCGGGGAACAGGTGTTTCTCGACGATGTCGGGCTTAGCCCGGCAGAGGTCAGCAATGTTCAAATCGTACGCGATCACCCCATGGGGGGAGGGCGTAGTGCCGAGTTTGGTGTTGACAGCCGAGCCGTGGTTGCCGCCGATGACCTTCTGAATATCGCTGATGGTTTCGGTCTGCGTCTTGATTTCAAGCCCTCTTCGGCCGGACAGGTTCTGTCGGTCAATGGCCAGCACCAGTTGCACTACTCGCAAAATACGCTGACTTACCAAGCCGATACGGACACGGGTACATACTCGGTTGCTGTGGGCAACGTAGCTCCTGATCGCTGGCACAGCATTGCTCTGAGAATGAAGAATGGTGAGATTGAGCTCTATGTGGATGGGCGTACCGAGACGTCACCTTACAGCGGGGCTCTGGCTTCCAGTAATGGCGCTGGGCTAGTGGTCGGTGGGCTTCAGGCGAGAATACGCGGCCTGAGGGCTTACGACTGGAACAGTGCCCCGCTGGTCAGTTTTGCTGACGGCACATTTGAAGGGCAGGTCCAGTCGGGTAACAACAGGCTGGCTATCAAGAGTTTGGGCAATCTCGGAACAAGAGTGTCGGGTAGCACAGTCAAGCAGCTACGTGTCGCGTTGGTCAGCGGCACAGAACGTAACTATGTCAGCCTGCTCAGCCGTGAAGGCTATGTCGATATCGCTCGACAAACTATGCGTACGGCTCCACCAGAAGGTATGCCGATTGGCGGATACCAGATATTGCCAAACCCAATGGGCGTTTTCATCCCAACAGCCTACGCATGGACATGGGAGGGTGTCTGGGAGATCGCCAAAGAGGGGGTTGGCTTGCTGATTCCCTACGAGGACTTCATCACCATCGGCGAGCAGCTGTATTACTGGAGCACGGACGACCCTCGATTCAAGCCAACAACTCTGGCTTTTGCTGCAGTCGGGGCTGCTACCGTCATTCCTGTAGCCAAGCCTCTCAAGCCGCTCCTGGGGCCTGCCAAGAAATTCGTCGAGGCTATGTCACGTTTCCCTGGCGCCAAGCATTTCGCGGGAGCTATCGGCAGTGCCGTCAAGGTGGGGCTCTCCGGTAATACCAAGAGGCTTGAGCAGTTATTGCCGTTCATCCAGATCGGTGTGGCGCTATATGAAGAACCAGAGGCCTTCGACTTCCTCATGGGGGCCATACAGAGTGAGGATGACTTGTGGGTATGGGCGGAGTACTTGGCAACTTTGGCGGCCGACGCCGGAGGTTTTGGCGAGGAGGAGGTGGCCATGCTCAACCAGCCCGCCACTTGGCTGGTTGGCAATGAGGGCTTAGTGCCTTATGCCCATGCGGCCATGACACCAAGGCGAGAGGTTGCGCAAAAGCTAGCTAAAGCCTTAAGTCGAGTGAGCCGATCAGTAAAGGATCCCAAGAAGTTTACGCCGGCTCTGAAAGAGCTGCTTATAGTCATGAAGGAGCAGCAGGGGCCAATTCGTAAATTCCTAACCAATGGCGCATTCTTGAAGAGCGCTATGGTTATGGGGGCGGCGAAGGTGCGCCACTTCATTACCAGCAGCAAGAATTGGCGGGTGCGGCGTGAGGTAATTATTTTTGCCGTGATGTATTTGTCGGAGGAAATTGCGGCAGGAAGATTGAAGATCGGCGAGGATAAGTTTTCGGGTTTGCTGGCTGATGTGATTTCGGGGCGCTCTTATGTGCAGCATGGCGCTATTTTCCAGATTGCCGAACTGCTGGGTTACCAACTGGGTGCTCAATTCGCTAATGGACCTAAGATTGTTGGTATCGATACTGAGCGCCAAGCTTTTAGATTGGCCTATGAGTCTCAAAGCCGATCTGTTCGGCGTGCTGGAATCGCCTATAAGCGACGTGTCGACATTATTCTGAAGGATGCGGATGGCGAGGAAGAGTGGGTGGAGTTGAAGTCGCTTTCTGGGCCATTCAAAAAGCAGTGGTTTGAGAGTCGTCTCACGGCCAAGGAAAAAGAACAAGATAGTGAGGAAGCAAGGGACTATTATCGCCAGTTCTTTCATGATTTGCGGTTAAATAAGGGTTTCGTGAATAGTGAAAATCTTGAGGAGATCACCAATAGGCAGCATCAGGGAAATGCACTGTTCAGGTGGCACTTTCAGGATTTCAAGACTAAGGCGGCCTCCTCGGTTTCGCCGACCAAGCAGGATGAGGGCTTGGCGCAGCGTTTCTTTTGCGACAAGCCATCCGGCTTGAGCGATATGGTTGACTTCTATAAGCAGAACTTGGCATACGATTCCGGTGTTACGAAAAGACTCTGCAAGTCCTATGTCGGAATTGGTGTGACCTTGCGGGATACCAAAAGCTATTTTGAGGAATATTTGGTGCGCTATGCCAAGGACCTCGATATCGAAGACTTTATTCAGATTGCTAGGGAAGTAGGGGAGTAA	MKVPLHDEEASELSRQAYRKAEKDNPDLELKKPEPLYAWQYRPELQFSLYELNVKEVRRIDAEDAGRNIYNDEKPILKSSDKYVAFMYDLLMSSLNTLEAWGYKGEREIVLTLGEEEVKVSAGEDQSIKFENLDHLFSLDADDFLSLRLTANNDAGNILWEFAYEAFHLEALNIGFKEEAASTYYLSADTPTLDLKATLMGYAGRDPEKKYPITARWTVEGDGQLAKVVQTDSGLGVFDNTLQMPTRAGAMADVFVEMLDNPQSKTNWKKVIVEPGVPAKISYKVTGQAGALGQGNSRIDIDVFDQFGNRVVDETPVSVGLNDSLRIVSQQLATKNGHAYIEVTGGEFDVAQSEALISSGLVNVSANLSVQGLTVALSASTTQAKKGETVTLTAEVKRDDGEPATGVEVLFSAKRGVFEHPNQITNEQGIARASFTAGLNAQDDTWTVDVGYVASSNITFEVAPSPGRSIEAQDAMLVADDVGPGVVTYTEAGVAVQAAYETQGTVEVSSADAGIIQLGDMADPNLEPLLSIQMSSIESSAGGEQVFLDDVGLSPAEVSNVQIVRDHPMGGGRSAEFGVDSRAVVAADDLLNIADGFGLRLDFKPSSAGQVLSVNGQHQLHYSQNTLTYQADTDTGTYSVAVGNVAPDRWHSIALRMKNGEIELYVDGRTETSPYSGALASSNGAGLVVGGLQARIRGLRAYDWNSAPLVSFADGTFEGQVQSGNNRLAIKSLGNLGTRVSGSTVKQLRVALVSGTERNYVSLLSREGYVDIARQTMRTAPPEGMPIGGYQILPNPMGVFIPTAYAWTWEGVWEIAKEGVGLLIPYEDFITIGEQLYYWSTDDPRFKPTTLAFAAVGAATVIPVAKPLKPLLGPAKKFVEAMSRFPGAKHFAGAIGSAVKVGLSGNTKRLEQLLPFIQIGVALYEEPEAFDFLMGAIQSEDDLWVWAEYLATLAADAGGFGEEEVAMLNQPATWLVGNEGLVPYAHAAMTPRREVAQKLAKALSRVSRSVKDPKKFTPALKELLIVMKEQQGPIRKFLTNGAFLKSAMVMGAAKVRHFITSSKNWRVRREVIIFAVMYLSEEIAAGRLKIGEDKFSGLLADVISGRSYVQHGAIFQIAELLGYQLGAQFANGPKIVGIDTERQAFRLAYESQSRSVRRAGIAYKRRVDIILKDADGEEEWVELKSLSGPFKKQWFESRLTAKEKEQDSEEARDYYRQFFHDLRLNKGFVNSENLEEITNRQHQGNALFRWHFQDFKTKAASSVSPTKQDEGLAQRFFCDKPSGLSDMVDFYKQNLAYDSGVTKRLCKSYVGIGVTLRDTKSYFEEYLVRYAKDLDIEDFIQIAREVGE				NA	NA	NA	NA	NA
BMS010_09976	1260	dctM_7	COG1593	C4-dicarboxylate TRAP transporter large permease protein DctM	ATGACCATCGTGATGATCATTGCATTTTGTATTCTAATGATGATTGCGGTTCCGGTCGGTTATGCGCTGATCATCTCTGCCGGCGTCGCCGTGCTGTGGAACGGTTATGTGCCGCTTTCGATCGTGGCGCAGCAGGTGTACGACCAGACGCAGTCTTTCCCGATGCTGGCGCTGCCGTTCTTCATGCTCGCGGGCACGCTGATGCTCGGCGGCAAACTCGGAACCCAGCTTCTGGAACTCGCCTCCAAGGCCATGCAGCGCTGGCGCGGCGGCCCGCTTTCCACCACCGTCATTTCGTCGGTCGTGTTCGGCGGCGTGTCCGGCTCCGCGGTCGCCAATGCGAGCGCACTCGGTTCGGTGCTCATTCCATGGCAAAAGCGCCAAGGCTACCCCGCTCCCCTCTGTGCGGCCAACAATGCCACCTCGGCTGTCATCGACGTGCTCATCCCGCCGTCGATCCCGATGATCCTCTATTCTTTGGTCAGCGGCGTCAGCATCGCCAATCTGTTCATCGCCGGCATTCTGCCGGGCCTGCTCATGGCCATCGGCTTCATCTTCGTCTGCTGGGCCATTGCCGTGCGGCGCGGTTATGCGGTGCGTGACGAAAGCGTCCGCAAGCGCGATCTGGCGCTACTTGCATTCCGCAGCCTGCCGGCGATCCTTCTGCCGATCCTGATCATCCTCGGCCTGCGCTTCGGCTTTGCAACGCCGACAGAAGTGGCCGTTCTTTCCGTCGTCTATTCGCTCGTGCTCAGCATCTTCTTTTATCGCGATCTGACGTGGAAGCGTTTCTGCGACAATTTCGTCGAGGCTGGCTCTGCAACCGGCGTCGTCATGCTGGTCATCATGGGCAGTGCGGCGGTGGGCTGGGTGCTGACCTTCGATCAGGCGCCCCAGCATTTCGCCACCTGGGTGGCCGAGAATATCTCCAACCCGATCCTTATCATTCTCATGATGAACATCCTGATGCTGATCATCGGCATGCCGCTCGATCTGCCGCCGTCGATCCTGCTGCTCGGACCGATCTTCGTGCCGCTTGCCGATATGATCGGGCTCGACCGGGTGCAGCTCGGCATGATGATGGTCATCAATCTCGGTATCGGGCTCTATACGCCACCGATCGGCACCACGCTCTTCATCTCGTCCTCCATAGCCAGAGCGCCGCTCGGCGCGACGACGAGGGAATTGTGGCCGTTCTTCACCATGGCGATGATGCTCCTTATCGCGGTCAGCTTCATTCCTGCGCTCACGATCTACTGA	MTIVMIIAFCILMMIAVPVGYALIISAGVAVLWNGYVPLSIVAQQVYDQTQSFPMLALPFFMLAGTLMLGGKLGTQLLELASKAMQRWRGGPLSTTVISSVVFGGVSGSAVANASALGSVLIPWQKRQGYPAPLCAANNATSAVIDVLIPPSIPMILYSLVSGVSIANLFIAGILPGLLMAIGFIFVCWAIAVRRGYAVRDESVRKRDLALLAFRSLPAILLPILIILGLRFGFATPTEVAVLSVVYSLVLSIFFYRDLTWKRFCDNFVEAGSATGVVMLVIMGSAAVGWVLTFDQAPQHFATWVAENISNPILIILMMNILMLIIGMPLDLPPSILLLGPIFVPLADMIGLDRVQLGMMMVINLGIGLYTPPIGTTLFISSSIARAPLGATTRELWPFFTMAMMLLIAVSFIPALTIY	PGPT0017335_2953	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017335-dctM-K11690	NA	NA
BMS010_09977	534			hypothetical protein	ATGCTCGAAGGAGCCTTGTCCGCCGCCAATCGCGTTGACAGTTTCATCGCCATCCTCTGCCGCATCATCATCGTGGCAACCGGCATTCTGCTCACGGTCATCATGACGGCAAACGTCATCGTCCGCTATCTATCGACTTCCGGCGGGTTGGACTTTGCGGAAGAACTGCCAACCATGCTGTTTCCATGGTTCATCGTCGCCGGCATTACCCTTGCCGCGCAGAGCGGCGCGCATATGGCGGTTGAATGGATCTATGACAAGTTCGACGAACGCGGCAAGGTGGCGGTTCTGCTGTTCGCCAATCTCGTGACGGTCGCAAGTTTCGTCATTCTCGCGCAGCAGGCGCTTGTCGTCGCCGAGATCGCCGGCGCGGAAATCAGCCCTGTGCTGCAATTGCCCAATAGCATCGGATATTATTCCATCGCCTTCGGCGCGGCACTGGTCTCGGTCACGACCGCAACGGCAAGCCTGCGCATTCTCTCCAGCGGCTGGCATGCCCGCCCGCACGGTGCAACCGAGGAGATGCCGCTATGA	MLEGALSAANRVDSFIAILCRIIIVATGILLTVIMTANVIVRYLSTSGGLDFAEELPTMLFPWFIVAGITLAAQSGAHMAVEWIYDKFDERGKVAVLLFANLVTVASFVILAQQALVVAEIAGAEISPVLQLPNSIGYYSIAFGAALVSVTTATASLRILSSGWHARPHGATEEMPL				NA	NA	NA	NA	NA
BMS010_09978	1008		COG1638	Solute-binding protein	ATGAGTATTTCCATCAACAGGCGTATGTTCTTGACCGGTACCGGACTGGCGCTGGCTGCGCCGGCCATTCTGACGACGGCCCGCAACGCCCGGGCCGCCACGACGCTGACCCTCGGCCATGGGGCTGCGCCGGGCAATCCGCGCACGCTGGCGGCCGCGAAATTCGCGGAACTCGTTGCCCAGAAAACCGAAGGCCGCGTGACGATCAATGTCGCCGGTTCGGAAACGCTTGGCAGCGACGCCGCCATGCTGACCAGCCTGCGCACCGGGGCGCTGGATTTCACCGCCAACAGCCAGGGTCCGGTTTCGAGCGTTGTTCCAGAACTCGCGGCGCTTGGCCTGCCCTTTCTGTTCAGCAATGCCGATCAGGCGATCAAGGTACTCGAGGGCGATGTCGGCGCATCGCTCGATGCGCGTTTCCAGAAGGTCGGCATCGTGCCGCTCGACTGGTGGGACAACGGCATCCGCCATGTCTCCAACTCCAAACACGCCATCACCAAGCCGCAGGACGTCGCGGGCCTGAAAATCCGCACGCCGGCCGACCCGATGACCATGGATATTTTCAAGGCGCTGGATGCGGCGACGGTTCAGATCGCGTTTGGCGAACTCTACATCGCGCTTCAGCAGGGTGTCGTTGACGGGCAGGAAAATCCGCTCGTGAATATCGAAAGCTCCAAGCTTTACGAGGTCAACAAACATATCAGCCTCACCGCCCATAAATGGGAGTCCACCCCGTTCCTGATGTCCAAATTCGCCGAGGGGCGGCTGGGCAAGGATTTTGAGGCGGTCAAGGCGGCTGCGAAGGAGGCAGGCGCGCTTCAGCGCAAACTCTCGGCGGAAAAGGCAAGCGCGTCTCTGGCCGCCTTCAGGGCCAATGCCGCCATCGAGGTGGTGGAAGACATCGACCACGCCGCTTTCGCGAAAGCGACCGCGCAGGTGCTGGAGACATGGAAGCAGAAGCCCTTCGGCGATTTCGTCGCCGAGCTGGAAAAGGCTGCCAAGGGCTGA	MSISINRRMFLTGTGLALAAPAILTTARNARAATTLTLGHGAAPGNPRTLAAAKFAELVAQKTEGRVTINVAGSETLGSDAAMLTSLRTGALDFTANSQGPVSSVVPELAALGLPFLFSNADQAIKVLEGDVGASLDARFQKVGIVPLDWWDNGIRHVSNSKHAITKPQDVAGLKIRTPADPMTMDIFKALDAATVQIAFGELYIALQQGVVDGQENPLVNIESSKLYEVNKHISLTAHKWESTPFLMSKFAEGRLGKDFEAVKAAAKEAGALQRKLSAEKASASLAAFRANAAIEVVEDIDHAAFAKATAQVLETWKQKPFGDFVAELEKAAKG				NA	NA	NA	NA	NA
BMS010_09979	1032	aptB_2	COG3958	Apulose-4-phosphate transketolase subunit B	ATGAGTACAGCAGCCCCGCAGAAGCGCCTCACCACATCGGCGATGATCGCCTCCATCGCCGCCGAAGGCCAGCCGACACGGCCTGCTCCCTTCGGTCACGCCCTTGTTCAGCTGGCGAAGGAACGCGAGGATATTGTCGGCCTCACCGCCGATCTCGGCAAATATACCGACCTGCATATTTTCGCCAAAACCTTTCCCGAGCGCTTTTATCAGATGGGCATGGCCGAGCAGCTCCTGATGAGCACTGCGGCCGGTCTGGCGCGCGAAGGTTTCGTGCCCTTTGCGACCACCTATGCGGTCTTCGCCGCCCGCCGCGCCTATGATTTCATCGCCATGGCGATTGCCGAGGAAAACCTGCCGGTGAAGATCGTCTGCGCCCTGCCCGGCCTGACGACGGGTTACGGCCCCAGCCATCAGGCGACCGACGATCTGGCGATTTTTCGCGCGCTGCCGAACATGACGATCATCGACCCGTGCGATGCGACCGACATAGAAGGCGCGGTGCCGGCGATTACGGATTATAACGGTCCCGTTTATATGCGCCTGCTGCGCGGCCAGGTGCCGGTGGTGCTAGAAGAATATGGCTATCGGTTCGAACTCGGCAAGGCGAAGCTTATCCGCGATGGTGCGCAGGTCCTTTTCATATCGTCCGGCATATTGACGATGCGGGTTCTCGAAGCGGCTGCCCTGCTTGAAAAAGAGGGCGTCGGCTGCGCAGTGTTGCATTCCCCCACCATCAAGCCGCTCGATACCGCCTCGATCTTCGCGGAAGTGGACCGGGCGGATCGTCTGGTCATCGTGGCGGAAAACCACAGCGAAATCGGCGGGCTTGGAGAGGCCGTAGCAATGGCACTGTTGAAAAGCGGCCGGGCGCCGCGCCTGCAACACATCGCCCTGCCGGATGCCTTTCTGGATGCAGGCGCGCTGCCCACCCTGCATGACCGCTACGGCATCTCGACGGCGATGATCGTGGCACGCGCAAGGGCGTGGCTGGAGAATGAAAATTTTGAAGTACCGCACGGTTCGGTCTAA	MSTAAPQKRLTTSAMIASIAAEGQPTRPAPFGHALVQLAKEREDIVGLTADLGKYTDLHIFAKTFPERFYQMGMAEQLLMSTAAGLAREGFVPFATTYAVFAARRAYDFIAMAIAEENLPVKIVCALPGLTTGYGPSHQATDDLAIFRALPNMTIIDPCDATDIEGAVPAITDYNGPVYMRLLRGQVPVVLEEYGYRFELGKAKLIRDGAQVLFISSGILTMRVLEAAALLEKEGVGCAVLHSPTIKPLDTASIFAEVDRADRLVIVAENHSEIGGLGEAVAMALLKSGRAPRLQHIALPDAFLDAGALPTLHDRYGISTAMIVARARAWLENENFEVPHGSV	PGPT0011200_6951	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_PENTOSE_METABOLISM,PGPT0011200-tktA|tktB-K00615	NA	NA
BMS010_09980	873	aptA_2	COG3959	Apulose-4-phosphate transketolase subunit A	ATGGCTCAGGCGTATTCGGACACAGATGCAACGAAGGAAGCGGCGCTGGCGAATGTATCGCTGGCGGAACGCGCCTGGCGCATCCGGCGCAACGCTCTTTTGATGGGTGAGGTGCAGGGCCAGGGTTATGTAGGCCAGGCGCTCGGCATTGCCGATGTTCTGGCGGTGGCCTGGTTTCACACCATGCGTTACCGGGCGGACGATCCGCATTGGGAAGGCCGCGACCGGTTTCTGCTTTCCATCGGCCATTATGCGATTGCGCTTTACGCAGCGCTCATCGAGGCGGGCGTCATTCCGGAAGACGAGCTGGAGACCTACGGCTGCGATGGGTCGCGCCTGCCCATGTCCGGCATGGCCTCCTATACGCCGGGCATGGAAATCACCGGCGGATCGCTCGGCCATGGGCTTGGCATTGCGGTGGGCATGGCTTTTGGCCTCAAGCGCAAGAATTCCGACCGGTTCATCATCAACCTGATGTCGGATGGCGAGTTGGGCGAAGGTTCCACTTGGGAGGCCGCGATGGGCGCGTCCCATCACAGGCTCGGCAATCTCATCAATCTTGTGGATTTCAACAATCAACAAGCGGACGGCCCTTCCCGCGAGATGCTGTCCTCCGAACCCGTGGACGCCAAATTCGCGGCCTTCGGCTGGCACGTGCAGCGCGTGGACGGCAACGACATCGACAAGGTTCGCGAGGCCTTCGATATCGCAATGTCACTTACCGATGACAGGCCGCGCGCCATCATTTTCGATACCCGGATGGGCCGCGGCGTGCCCTTTCTCGAAAACCGCGAAATCACCCATTTCATTCGCGTGGAAGCGCATGAGTGGAAGCTGGCGCTTGACGCCCTTGAGGAAGGACGGCCGCAATGA	MAQAYSDTDATKEAALANVSLAERAWRIRRNALLMGEVQGQGYVGQALGIADVLAVAWFHTMRYRADDPHWEGRDRFLLSIGHYAIALYAALIEAGVIPEDELETYGCDGSRLPMSGMASYTPGMEITGGSLGHGLGIAVGMAFGLKRKNSDRFIINLMSDGELGEGSTWEAAMGASHHRLGNLINLVDFNNQQADGPSREMLSSEPVDAKFAAFGWHVQRVDGNDIDKVREAFDIAMSLTDDRPRAIIFDTRMGRGVPFLENREITHFIRVEAHEWKLALDALEEGRPQ	PGPT0011200_9202	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_PENTOSE_METABOLISM,PGPT0011200-tktA|tktB-K00615	NA	NA
BMS010_09981	762	fabG_9		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGTTGTTGAATGGAAAGACCGCGGTTATTTCAGGCGCCGCCAGCAAACGCGGCATCGGCCGCGCCACGGCGGAACTTTTCGCCCGCCACGGCGCCCGCGTCGCCATCGTGGATCTGGATGAAGCCGGCAGCATCGAAGCCGCGGCCTCGCTTGAAAAAGTGGATGGCGGCGAGCATCTCGGGGTCGGCGGCAATGTGGCGGATCGCGCCTCCTGCGAGGCGGCCGCGCAAAAAGTCATCGCCGCTTTCGGCAAGATCGATATCCTCATCAATAATGCCGGCATTACCCAGCCGGTGAAGACGCTCGACATTACCGGCGCAGACTGGCAGCGCATCGTCGATGTCAACATGACCGGTGTGCTGAATTTCAGCCAGGCCTTCATTCCCAATATGCGCGACAATGGCGGCGGCTCGATTGCCTGCATGTCGTCCGTCTCCGCGCAACGTGGTGGCGGCATTTTCGGCGGGCCGCATTATTCGGCGGCCAAGGCGGGCGTTCTGGGTCTCGCAAAGGCCATGGCGCGTGAATTCGGCCCCGACGGCATTCGCGTCAACTCCGTCACGCCCGGCCTGATCCAGACCGACATTACCGGCGGCAAGCTGACCGACGATATGCGCCGCGACATTCTCAAGGGCATTCCGCTAAACCGTCTCGGCGACGCTATCGATGTCGCCAATATCTATCTCTTCCTCGCCTCGGATCTCTCCTCGTACGTCACCGGCGCGGTTGTCGACGTGAATGGCGGAATGCTCATTCACTGA	MLLNGKTAVISGAASKRGIGRATAELFARHGARVAIVDLDEAGSIEAAASLEKVDGGEHLGVGGNVADRASCEAAAQKVIAAFGKIDILINNAGITQPVKTLDITGADWQRIVDVNMTGVLNFSQAFIPNMRDNGGGSIACMSSVSAQRGGGIFGGPHYSAAKAGVLGLAKAMAREFGPDGIRVNSVTPGLIQTDITGGKLTDDMRRDILKGIPLNRLGDAIDVANIYLFLASDLSSYVTGAVVDVNGGMLIH	PGPT0005315_475	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_CYCLOHEXANECARBOXYLIC_ACID_DEGRADATION,PGPT0005315-badH-K07535	NA	NA
BMS010_09982	888	perR		HTH-type transcriptional regulator PerR	ATGTTGAACGGCATTTCACTCACCTCCATCCGCGCCTTCGAATCTGCCGCCCGGCTTGGCTCTTTCCGGGCCGCTGCCGATGAGCTCAACTTGTCGGCGAGCGCCGTCAGCCATGCCATCGTCAAGCTCGAAAGGGTGCTCGGTACACCGCTTTTCGAGCGCACCACGCGAACCGTGCGCCTGACGGCGGCGGGGCAGACGCTTCTGACACATGCATCGAACGCCTTCGAGGAGTTACGGCAGGGCATTGAGGTGGTGTCCTCCAACCGCTCCCATCTTCTGCGCCTGCATTGTGCGCCCAGCTATGCGGCGCAGGTATTGTCGCCGCGCCTGCCGCAATTCTTGAACGCCAATCCGGGGATCGAGGTGCGGCTGGCGGCCAGCACCGCTTATGTGCGTTTCGTCGATGGTGAATTCGATGCCGATATCATCTATGGCGAACCGCAGGGAGACGATCTCATCATCATTCCGCTGGGCAGCGAGCGTGTCACGCCGCTGTGCTCGCCGGCGCTCGCGGACGAGATCACGACACCCCGGGATTTGAACCGGCAATTGCTTATTCGAAGCGACAACAAACGTCTGCAATGGCCGGACTGGTTCGAGGCCAACGGGCTCGGCAAGCCGCCCATTCAGGCCATGAGTTTCGACCGCAGTTTCCTGGCGATCGATGCCGCCGCCAATGGCGTCGGCGTGGCGCTGGAATCGACACGGCTTGCCCATCGCGAGATAAAATCCGGGCGGCTGGTCGCGCCCTTAAGCGGCGCGACGCAGGACCTCCACTATGTCGGCCATTATCTCGCCTATCCCAAATCCGGCAGCCAGCGCAGACTGGCAAGACGGTTTGCCGACTGGCTGATCGAAGACCTTCAGGATCCTGCGTTTGAATAG	MLNGISLTSIRAFESAARLGSFRAAADELNLSASAVSHAIVKLERVLGTPLFERTTRTVRLTAAGQTLLTHASNAFEELRQGIEVVSSNRSHLLRLHCAPSYAAQVLSPRLPQFLNANPGIEVRLAASTAYVRFVDGEFDADIIYGEPQGDDLIIIPLGSERVTPLCSPALADEITTPRDLNRQLLIRSDNKRLQWPDWFEANGLGKPPIQAMSFDRSFLAIDAAANGVGVALESTRLAHREIKSGRLVAPLSGATQDLHYVGHYLAYPKSGSQRRLARRFADWLIEDLQDPAFE	PGPT0026360_6219	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-AMINO_ACID_SIGNALLING,PGPT0026360-gcvA-K03566	NA	NA
BMS010_09983	876			hypothetical protein	ATGAAAGATCGCATCATATCGGCGTCCGGCGCGCCATATGACGGCTATGGGCGCGAGGAGATGCTGGAGAGCATCGCCAGGATCGGTTTTCGCCATGTGGAGCCTGCCTTTATCGTCGGTTACACCGAACAATTTGATGAAAGCGCGTTCCTGCCGGCTGAAATGGCGTCATGGCGCCGGTCGCTTGATGATGCCGGGCTGGGCTGCCATGCCATGTCGTCGCATATCGATCTTGGACTGGACGATTCCGTAGAAATTTTCACCGGCAGAATGGCTTTTGCAGCGGGAATCGGCGCGAGGGTTATCGCCACAAATGCCTCGGCCCGGCAACGCGAAGACCGGTTCCTGCGCAATATCGAAGTGCTTCTGCGTCGTGCTGAGGCCTTCGGCATCGTGATCGGGCTGGAAAATCCCGGCGATGGCAGCGACAACCTTTTCAACATCGCGCAGGAGGGCGTCGCGCTCACGCGTCGTTTCGGCTCCCCATGGCTGGGGCTGAATTATGACGCGGCCAATACCGCGTCCCATCGTCCGCAACTCAAAAATTTTGCCGATGACGCGGTGGCGGCGCTGCCTGCCTCGGTCCACGCGCATATCAAGGATGTGAAACGCACGCCGGAGGGCTGGTTTTTCGTGCCGGTGGGCGAAGGCGATATCGATTGCCACAAGCTGCTCGGTGAGATTGCCAAAAAGCCGGAGATGCCGATCAGCATCGAGTTTCCAGCCCGCCTTCACCGTCGCGCGGATGCCCAGCCGGTAAGGCGTATCAGCCCCGCATCGCTTCGGGAAATAGAGCAGGCTCTGACGGTTTCGCTTGACGCTGTCAAGAGAGGATTGGCCGGGGGCGGAGCCGCAAGCTCGGCCGCTGTCGCCTGA	MKDRIISASGAPYDGYGREEMLESIARIGFRHVEPAFIVGYTEQFDESAFLPAEMASWRRSLDDAGLGCHAMSSHIDLGLDDSVEIFTGRMAFAAGIGARVIATNASARQREDRFLRNIEVLLRRAEAFGIVIGLENPGDGSDNLFNIAQEGVALTRRFGSPWLGLNYDAANTASHRPQLKNFADDAVAALPASVHAHIKDVKRTPEGWFFVPVGEGDIDCHKLLGEIAKKPEMPISIEFPARLHRRADAQPVRRISPASLREIEQALTVSLDAVKRGLAGGGAASSAAVA				NA	NA	NA	NA	NA
BMS010_09984	993	dhaK-2	COG2376	PTS-dependent dihydroxyacetone kinase 2, dihydroxyacetone-binding subunit DhaK	ATGCAGAGATTTGTGAATAATCCCGACGAGGTGGTCGAGGATACGGTGAAAGGCTTCGTCAAGGCCCATCGCGACATCGTGCGCCTTGCGGAAAATCCGCGTGTCGTCGTTGCCAGGGGCGCGCCGGTCGCCGGCAAGGTCGGTGTTGTCACGGGTGGCGGCTCGGGCCATGAGCCGGCCTTTATCGGCTACACCGGCCGCAACATGCTGGATGCCGTCGCCGTCGGCGAATTGTTTTCATCACCCACGGCCAAGAGCTTTCACGACGCCATCCGCGAGGCCAATGGCGGCAGGGGTGTGATCGTGCTCTACGGCAATTATGCCGGCGACAATATGAATGTGAAGATGGCGACAAAACTCGCCGCCAAAGACGGCATCGAGATCGCCACCGTCGTCGCCAATGACGATGTGTGTTCTGCAGCCCCCGAGGAGCGTGAGAAACGCCGCGGTGTCGCCGGCGAAATCTTCATGTGGAAGATCGGCGGCGCCAAGGCGGCAAGCGGCGCTTCGCTGGAGGAGGTGCGCGCCACCGCCCAGAAGGCCATCGATAATTGCCGCTCCATCGGCGTCGGTCTCGGCCCCTGCACCCTGCCGGCAGTCGGACATCCCAACTTTCAGATCGAACCGGGCACGATGGAAGTGGGCATAGGCCACCACGGCGAACCCGGCGTTCGTGTCGAGACGCTGAAATCCGCCGCTGATGTGGCGAAGGACATGTGCAAGATCGTGCTCGATGATCACAACCTGCCGGCCGGCAGCGAGGTGGCGGTGCTGGTCTCCGGCCTTGGCGCGACGCCGGTCAACGAACTCTACATCCTCAACGACACGATAGAATCCGAGATTTCGGCGCGTGGCCTGAAAATCCACAAAACCTATATCGGCAACTATTTCACGTCGCTTGAGATGGTGGGCGCGACTTTGACCGTGATGGCGCTGGATGACGAGCTGAAACCGCTGCTCGATGCCGAAGCGCTTTGCACCGTTATGCTGTGA	MQRFVNNPDEVVEDTVKGFVKAHRDIVRLAENPRVVVARGAPVAGKVGVVTGGGSGHEPAFIGYTGRNMLDAVAVGELFSSPTAKSFHDAIREANGGRGVIVLYGNYAGDNMNVKMATKLAAKDGIEIATVVANDDVCSAAPEEREKRRGVAGEIFMWKIGGAKAASGASLEEVRATAQKAIDNCRSIGVGLGPCTLPAVGHPNFQIEPGTMEVGIGHHGEPGVRVETLKSAADVAKDMCKIVLDDHNLPAGSEVAVLVSGLGATPVNELYILNDTIESEISARGLKIHKTYIGNYFTSLEMVGATLTVMALDDELKPLLDAEALCTVML	PGPT0018460_1201	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_PHOSPHOTRANSFERASE_ACTIVITY,PGPT0018460-dhaK|dak-K05878	NA	NA
BMS010_09985	645	dhaL	COG2376	PEP-dependent dihydroxyacetone kinase, ADP-binding subunit DhaL	ATGCAGTCTTTTCAGAACGCCAGGGCCGGCGACATCGTTCTGTCCATGGCCGAAAGCATCATCGAAAACCGCGCCTATCTCAGCGAGATCGACGGCAAGATCGGCGATGGCGACCATGGCGTGAACATGGCCAAGGGATTCGGCATGGCGGCAGACCGGCTGAGAGGGCAGGACGCCTCGCTTGCCAAGGCGCTCGATACGCTCGGCACGATCCTGATGACGGAAATCGGCGGTTCCATGGGGCCTCTTTATGGGGTGATGTTTACGGAATTCGCCGAGAAGATCGAAAATGCCGAGGTTATCGATGCGCCGTCCTTCAGCAGAATGCTGCATGCCGGCCTCGAAGGCGTCAGTTCCATCGGTTCGGCCAAGGTGGGCGACAAGACGCTGCTGGATACGCTGGTGCCGGCCGTGACGGCATTCGACACCGCCACCGCCTCGGGCGCGTCATTCCACGATGCTGCCGCAGCCCTTGTCGCTGCCGCCGAAACCGGCAGGGATTCGACCATCAATCTCGTGGCGAAGATCGGCCGCGCCAGCCGTCTTGGCGAGCGCTCGCTTGGTGTTCTCGATGCGGGCGCCACCTCCTGCGCGCTCATCCTGCGCAGCCTTGCCGAAGGCGCGCAGGCCAGATTGCAATCTTGA	MQSFQNARAGDIVLSMAESIIENRAYLSEIDGKIGDGDHGVNMAKGFGMAADRLRGQDASLAKALDTLGTILMTEIGGSMGPLYGVMFTEFAEKIENAEVIDAPSFSRMLHAGLEGVSSIGSAKVGDKTLLDTLVPAVTAFDTATASGASFHDAAAALVAAAETGRDSTINLVAKIGRASRLGERSLGVLDAGATSCALILRSLAEGAQARLQS	PGPT0018455_72	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_PHOSPHOTRANSFERASE_ACTIVITY,PGPT0018455-dhaL-K05879	NA	NA
BMS010_09986	438	eryI	COG0698	D-erythrulose-4-phosphate isomerase	ATGAGAATTGTCGCGGGCGCCGACAGCGCCGGAAAACCCCTGCTGGATGCGGTGCTCGCCCATCTCTCGGGCAGGCAAGGGCTGACGGTCATGGATCGAAGCCAGGACGGATTTTATGCCGATCTGGCCGAAGCCGTGGCCGGCAGCATCATCGCCGGTGAATTCGATCGCGGTCTCTTGTTTTGCGGAACCGGCATCGGCGTCTGCATTTCGGCCAACAAGGTGCCCGGCATCCGCGCCGCCTTGACCCACGATACATATTCCGCCGAACGCGCGGCGAAATCCAACAACGCCCAGATCATTACCATGGGCGCCCGCGTGATCGGCCCGGAACTGGCGAAAGCTATCGTCGACACCTGGCTGGCATCGGATTTCGATCCGAAAGGGTCTTCGGCGAAAAACGTGGAGGCGATCAACCGTCTCGATGCATGCCGGTAA	MRIVAGADSAGKPLLDAVLAHLSGRQGLTVMDRSQDGFYADLAEAVAGSIIAGEFDRGLLFCGTGIGVCISANKVPGIRAALTHDTYSAERAAKSNNAQIITMGARVIGPELAKAIVDTWLASDFDPKGSSAKNVEAINRLDACR	PGPT0018380_82	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_D-ERYTHRULOSE|D-THREITOL_DEGRADATION,PGPT0018380-eryI-K21911	NA	NA
BMS010_09987	870			hypothetical protein	ATGGCGAACCGAAATAGTGTCGATCATCTCGTTTTGCCGGTACAGTCTCTTGCCGTGGCGAAAGACCGCCTTGAGCTTCTCGGCTTCACCGTCGCGCCGGAGGCTCTCCATCCCTTCGGAACGCAGAATGCCTGCGTTTTCTTCACGGACGGCACTTATCTGGAACCGCTCGCGATTGCTGACCCGGCTAAATATAATGAATCGGTGAACAGGTGCGACGTGTTCACCGGCAGGGATCGGGCCTTTCGGCAGCGTCATGGCGATGAGGGTTTTTCGGCCCTGGTGGCGAGAAGCGAAAGCGCCATTGCCGATCATGACAGGTTTTCCGCATCCGGCTTCTCGGCAGGCGATATCTTTGAATTTTCACGGCCCGTGCGGATGCCGGACGGCTCACAGAGTGAGGCGGCATTCCGGCTGGCATTCGCAGCGAGCGGCGCGGCTTCGGATTTCTTTCTGTTCAGCTGCCAGCGATTGCTGGCTTTGCCGAACGACCGGGCGGCGCTGGAGCGCCACGCCAATGGTGCTTCCGGCATCAGCGAGATCGTTCTGTTTTCCGGCGGCGATCCGAACGCGGTCCGTCTGATCGAAACGGTATTTGCCTGTGAGGAGGAGATGTCTCCGGATGGAGATATTATTTTTGCGACCGGCAACGCGCACATCAGGCTGAACCAAAAACCGGCCTTCAGCGAAAGCCTGCCCAATTCTCCGAATGGCCTGCACGGAGCAGGCGTCGTCTTTTCCGTTCACGATCTTGCCGTGACAGAAGCGGTGCTTGCTGCTAATGGCGTCTCCAGCGCAGAAGCGGACGGCCGTCTTGTGGTGTCCGCCGCGCCCGGTCAGGGCGTTGCATTCGCCTTCGAGGAAAAATGA	MANRNSVDHLVLPVQSLAVAKDRLELLGFTVAPEALHPFGTQNACVFFTDGTYLEPLAIADPAKYNESVNRCDVFTGRDRAFRQRHGDEGFSALVARSESAIADHDRFSASGFSAGDIFEFSRPVRMPDGSQSEAAFRLAFAASGAASDFFLFSCQRLLALPNDRAALERHANGASGISEIVLFSGGDPNAVRLIETVFACEEEMSPDGDIIFATGNAHIRLNQKPAFSESLPNSPNGLHGAGVVFSVHDLAVTEAVLAANGVSSAEADGRLVVSAAPGQGVAFAFEEK				NA	NA	NA	NA	NA
BMS010_09988	846	kdsA_2	COG2877	2-dehydro-3-deoxyphosphooctonate aldolase	ATGAGCGTTACGAACAATCTCAAAGTCACCGCCGGCGACGGCGCCAATTCGGTTTCCTTTTCCAATAGCGAGCGATTTTCCCTGATTGCCGGCCCCTGCCAGATGGAAAGCCGGGAACATGCTTTCATGATCGCCGGTGTCCTGAAGGAACTTTGCGACAAGCTGGGGATCGGGCTCGTTTATAAGTCGTCCTTCGACAAGGCGAACCGTACGTCGCTTTCCGGCAAGCGCGGTATCGGCCTTGACAGCGCTATGCAGGTTTTCGCCGATCTCAAGAAGGAATTCGGCTTTCCTGTTTTGACTGACATTCACACCGAAGAACAATGCGCCATCGTGTCCGAAGTGGTGGATGTGCTGCAAATCCCGGCCTTTCTCAGCCGCCAGACCGATCTTCTCGTCGCCGCCGCGAAAACCGGCCGCGTTATCAACGTCAAGAAGGGCCAGTTCCTCGCCCCCTGGGACATGAAGAACGTGCTGGCCAAGCTGAATGAGAGCGGCAATCCGAATGTGCTTCTGTGCGAGCGCGGCGCCTCCTTCGGTTACAACACGCTTGTTTCCGACATGCGCTCGCTGCCGATCATGGCTTCGCTCGGCGCGCCTGTTGTCTTTGACGCCACGCATTCGGTTCAGCAGCCGGGCGGGCAGGGCGGCTCCACGGGCGGCCAGCGCGAATTCGTCGAGACGCTCGCGCGGGCGGCGGTTGCTGTCGGTGTCGCCGGGCTCTTCATCGAAACCCATGAGGACCCGGACAATGCGCCGTCCGACGGCCCCAACATGGTTCATCTGAAGGACATGCCGAAACTGCTCGAAAAGCTGCTTGCTTTCGACGCCATCACCAAAGCCTGA	MSVTNNLKVTAGDGANSVSFSNSERFSLIAGPCQMESREHAFMIAGVLKELCDKLGIGLVYKSSFDKANRTSLSGKRGIGLDSAMQVFADLKKEFGFPVLTDIHTEEQCAIVSEVVDVLQIPAFLSRQTDLLVAAAKTGRVINVKKGQFLAPWDMKNVLAKLNESGNPNVLLCERGASFGYNTLVSDMRSLPIMASLGAPVVFDATHSVQQPGGQGGSTGGQREFVETLARAAVAVGVAGLFIETHEDPDNAPSDGPNMVHLKDMPKLLEKLLAFDAITKA	PGPT0023060_1329	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-8-AMINO-3|8-DIDEOXY_D_MANNO-OCTULOSONIC_ACID_MODIFICATION,PGPT0023060-kdsA-K01627	NA	NA
BMS010_09989	1275	eno_3		Enolase	ATGACTGCCATTACCGATATCATCGCGCGCGAAATCCTCGACAGCCGCGGCAACCCGACCGTTGAAGTCGATGTTTACCTCGAAGACGGCTCCATGGGCCGTGCCGCCGTTCCTTCGGGCGCCTCCACCGGCGCGCATGAGGCGGTTGAGCTGCGCGATGGCGGCAAGCGTTATCTCGGCAAGGGTGTGGAAAAGGCGGTCGAAGCCGTCAATACGGAAATCTTCGACGCCATCGGCGGTTTCGATGCCGAGAACCAGATCCAGATCGACCAGACGATGATCGTGCTCGACGGCACGCCGAACAAGTCGCGCATCGGCGCCAACGCCATTCTTGGCGTATCGCTCGCTGTCGCCAAGGCTGCCGCCGAAGCTTCCGGCCTGCCGCTTTACCGTTATGTCGGCGGCCCGAACGCACATCTTCTGCCGGTTCCGATGATGAACATCATCAATGGCGGCGCGCATGCCGATAACCCCATCGACTTCCAGGAATTCATGATCCTGCCGGTCGGCGCGGAAAACATCCGCGAAGCCGTGCGCATGGGTTCTGAAGTGTTCCACACGCTGAAGAAAGAACTGTCCGCACAGGGCCACAACACCAATGTCGGTGATGAAGGTGGCTTTGCACCGGGCCTCGAAAGCGCCCCTGCTGCGCTCGATTTCATCATGAAGTCGATCGAAAAGGCCGGTTACCGTCCGGGCGACGACATGTTCGTCGGTCTTGACTGTGCCTCGACCGAATTCTTCAAGGACGGAAAATACGTTCTCGAAGGCGAAGGCCGCACGCTGGAATCGGGCGCAATGGCGGAATATCTGGCGGAACTCGTCGCCAAGTACCCGATCATTTCCATCGAAGACGGCATGGCCGAAGACGACTGGGAAGGCTGGAAGACGCTGACCGATCTCATCGGCAACAAGTGCCAGCTGGTCGGCGACGATCTCTTCGTCACCAACTCCGCGCGTCTTCGCGACGGCATCAAGATGGGCGTTGCAAACTCCATCCTCGTCAAGGTCAACCAAATCGGTTCGCTCTCCGAGACGCTGGATGCGGTCGAGACGGCGCACAAGGCCGGTTACACCGCCGTCATGTCGCACCGTTCGGGCGAGACCGAAGATTCGACTATTGCCGATCTCGCTGTCGCGACGAACTGCGGTCAGATCAAGACCGGCTCGCTCGCCCGTTCCGACCGGCTTGCAAAGTATAACCAGCTGATCCGCATCGAGGAAATGCTGGGCCCGCAGGCTGCCTACGCCGGCCGTTCGATCCTGCGCGGTTAA	MTAITDIIAREILDSRGNPTVEVDVYLEDGSMGRAAVPSGASTGAHEAVELRDGGKRYLGKGVEKAVEAVNTEIFDAIGGFDAENQIQIDQTMIVLDGTPNKSRIGANAILGVSLAVAKAAAEASGLPLYRYVGGPNAHLLPVPMMNIINGGAHADNPIDFQEFMILPVGAENIREAVRMGSEVFHTLKKELSAQGHNTNVGDEGGFAPGLESAPAALDFIMKSIEKAGYRPGDDMFVGLDCASTEFFKDGKYVLEGEGRTLESGAMAEYLAELVAKYPIISIEDGMAEDDWEGWKTLTDLIGNKCQLVGDDLFVTNSARLRDGIKMGVANSILVKVNQIGSLSETLDAVETAHKAGYTAVMSHRSGETEDSTIADLAVATNCGQIKTGSLARSDRLAKYNQLIRIEEMLGPQAAYAGRSILRG	PGPT0018050_5927	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0018050-eno-K01689	NA	NA
BMS010_09990	318			hypothetical protein	ATGTGGACCAGACATCATAAAAAGAGACGATTCGGCCGTTTGATCGTTCCGGCCATCACGATCGCTTTTCTTTCCTATTTCGGCTATCATTCCATCCATGGCGACTTCGGCCTGCAGGCGACGGAGCGGCTGGAGCGGCAGCGTATCACCCGCACTGCGGAGCTTGCAAAGCTGACGCAGGCGCGTGTGGCGCTGGAGCGGCAGGTGGAATTGATGAGCGATGGCTCGCTGGAGCGGGACATGATCGACGAGATTTCCCGTTACCAGCTGAATATGTCCCGCACGGACGAAATCGTCATCATGAACACATATTTCTGA	MWTRHHKKRRFGRLIVPAITIAFLSYFGYHSIHGDFGLQATERLERQRITRTAELAKLTQARVALERQVELMSDGSLERDMIDEISRYQLNMSRTDEIVIMNTYF				NA	NA	NA	NA	NA
BMS010_09991	1044	acoA_2	COG1071	Acetoin:2,6-dichlorophenolindophenol oxidoreductase subunit alpha	ATGGCGCCGCGAAAATCAGCGACCGTATCCGGCCGCAAGACCACGGCAAAGGCTGCAACCGAATTCACCGGCAAGAACAGCCCCGACTTCTCCAAGGAAGACGAACTTCACGCTTACCGTGAAATGCTGCTCATCCGCCGCTTCGAGGAAAAGGCCGGCCAGCTCTACGGTATGGGCTTTATCGGTGGTTTCTGTCACCTCTACATCGGTCAGGAAGCCGTTGTTGTCGGCATGCAGATGTCGCAGAAGGAAGGCGATCAGGTCATCACCGCCTATCGCGACCATGGCCACATGCTGGCTCTGGGCATGAGCGCGCGTGGCGTCATGGCCGAATTGACCGGCCGCCGCGGCGGTCTGTCGAAAGGCAAGGGCGGCTCCATGCACATGTTCTCCAAGGAGAAGCATTTCTATGGCGGCCACGGCATCGTCGGCGCTCAGGTTTCGCTTGGAACCGGTCTTGCTTTCGCCAACAAATATCGCGGCAACGACAATGTCTCCGTGACCTATTTCGGCGATGGCGCGGCCAACCAGGGCCAGGTCTATGAGAGCTTCAACATGGCTGCTCTCTGGAAACTGCCGATCATCTATATCGTTGAAAACAACCGTTACGCCATGGGCACCTCGACCGCCCGCGCCACGGCCCAGTCGAACTATTCGCTGCGTGGCCAGTCCTTCGGCATTCCCGGCGTTCAGGTGGATGGCATGGATGTGCGCGCCGTCAAGGCCGCAGCCGACCAGGCGCTGGAACATTGCCGTTCCGGCAAGGGTCCGATCATTCTGGAAATGCTGACCTATCGTTACCGTGGTCACTCCATGTCCGACCCGGCGAAATACCGTTCCAAGGATGAAGTGCAGAAGATGCGCTCCGAACATGACCCGATCGAGCAGGTCAAGGCACGGCTTCTGGAGCAGGGCTGGGCAAGCGAAGACGAATTGAAGGCCATCGACAAGGATGTCCGTGATATCGTCGCCGATAGCGCCGACTTCGCCCAGAACGACCCAGAGCCGGATGTATCCGAGCTCTACACCGACATTCTGCTCTGA	MAPRKSATVSGRKTTAKAATEFTGKNSPDFSKEDELHAYREMLLIRRFEEKAGQLYGMGFIGGFCHLYIGQEAVVVGMQMSQKEGDQVITAYRDHGHMLALGMSARGVMAELTGRRGGLSKGKGGSMHMFSKEKHFYGGHGIVGAQVSLGTGLAFANKYRGNDNVSVTYFGDGAANQGQVYESFNMAALWKLPIIYIVENNRYAMGTSTARATAQSNYSLRGQSFGIPGVQVDGMDVRAVKAAADQALEHCRSGKGPIILEMLTYRYRGHSMSDPAKYRSKDEVQKMRSEHDPIEQVKARLLEQGWASEDELKAIDKDVRDIVADSADFAQNDPEPDVSELYTDILL	PGPT0018025_2079	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0018025-pdhA-K00161	NA	NA
BMS010_09992	1422	dxs_3		1-deoxy-D-xylulose-5-phosphate synthase	ATGCCAGTAGAAATTCTTATGCCCGCCCTTTCTCCGACCATGGAGGAAGGCACGCTTTCCAAGTGGCTTAAAAAGGAAGGCGACAAGGTTACATCCGGTGACGTGATCGCCGAGATCGAGACCGACAAGGCGACCATGGAAGTGGAAGCCGTGGACGAAGGCGTGATCGGCAAGCTGCTGATCGAGGCCGGCACCGAAGGCGTCAAGGTCAACACGGCAATCGCCGTTCTTCTTCAGGACGGCGAAAGCGCCGACGACATTTCTTCCTCCGCGAAGAAAGAAGAGCCGAAGGCTGAAGCCGCAAATTCCGATTCGGATGCGGCCGGCGGCAAGACCCGCGAAGCTGCCGAAGAGCCGAGCGCTGCCAAGGAAGCCGCCAAGGTTCCGGCAGCCCCGAAGATCGAGGCCGCAGCCGATCCGGATATTCCGGAAGGCACGGAAATGGTGATGACGACGGTGCGTGAAGCACTGCGCGACGCCATGGCCGAAGAAATGCGCGCCGACGAAAAAGTCTTCGTCATGGGTGAAGAAGTCGCCGAATATCAGGGCGCCTACAAGATCACTCAAGGGTTGCTGCAGGAATTCGGCGAGCGCCGCGTCATCGACACCCCGATCACCGAGCATGGCTTTGCCGGTATCGGCGTCGGTGCTGCGATGACGGGCCTGCGACCTATCGTCGAATTCATGACCTTCAACTTCGCCATGCAGGCGATCGACCAGATCGTCAACTCGGCGGCAAAGACGCTTTACATGTCGGGCGGCCAGATGGGCGCGCCGATGGTGTTCCGTGGCCCCTCGGGTGCTGCTGCCCGCGTTGGCGCGCAGCATTCGCAATGTTATGCCGCATGGTACAGCCATATTCCGGGCCTCAAGGTCGTCATGCCTTACACGGCTGCTGACGCCAAGGGTCTGCTCAAGGCCGCCATCCGCGATCCAAATCCGGTCATCTTCCTTGAGAATGAAATTCTCTACGGCCAGAGCTTCGAAGTGCCGAAGCTCGATGATTTCGTGCTGCCTATCGGCAAGGCGCGCATTCACCGCAAGGGCAAGGACGCTACCATCGTTTCCTTCGGCATCGGCATGACCTATGCCATCAAGGCGGTTGCGGAACTCGAAAAGCTCGGCATCGATGTCGAGCTGATCGACCTGCGCACCATCCGCCCGATGGACCTGCCCACCGTCATCGAATCGGTCAAGAAGACCGGTCGTCTGGTCACCGTCGAGGAAGGTTTCCCGCAGTCATCGGTCGGTGACTTCATCGCCAACCAGGTCATGCGCGCTGCTTTCGACTATCTCGATGCGCCGATCCTGACGATTGCCGGCAAGGACGTTCCGATGCCTTACGCGGCAAACCTCGAAAAGCTGGCTCTGCCCAACGTCGATGAAGTCGTTCAGGCCGTCAAAACCGTCTGCTACAAGTAA	MPVEILMPALSPTMEEGTLSKWLKKEGDKVTSGDVIAEIETDKATMEVEAVDEGVIGKLLIEAGTEGVKVNTAIAVLLQDGESADDISSSAKKEEPKAEAANSDSDAAGGKTREAAEEPSAAKEAAKVPAAPKIEAAADPDIPEGTEMVMTTVREALRDAMAEEMRADEKVFVMGEEVAEYQGAYKITQGLLQEFGERRVIDTPITEHGFAGIGVGAAMTGLRPIVEFMTFNFAMQAIDQIVNSAAKTLYMSGGQMGAPMVFRGPSGAAARVGAQHSQCYAAWYSHIPGLKVVMPYTAADAKGLLKAAIRDPNPVIFLENEILYGQSFEVPKLDDFVLPIGKARIHRKGKDATIVSFGIGMTYAIKAVAELEKLGIDVELIDLRTIRPMDLPTVIESVKKTGRLVTVEEGFPQSSVGDFIANQVMRAAFDYLDAPILTIAGKDVPMPYAANLEKLALPNVDEVVQAVKTVCYK	PGPT0019590_63	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0019590-pdhB-K00162	NA	NA
BMS010_09993	1359	pdhC		Dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex	ATGCCGATAAACATCACCATGCCTGCCCTTTCTCCTACGATGGAAGAGGGCAATCTGGCCAAGTGGCTGGTCAAGGAAGGCGACAAGGTCGCTCCCGGTGACGTGATCGCCGAGATCGAGACCGACAAGGCGACCATGGAAGTGGAAGCCGTCGACGAAGGCACCGTTGCGAAGCTGGTTGTTCCGGCCGGCACGGAAGCCGTCAAGGTCAACGCCCTCATTGCAATCCTCGCCGCCGATGGCGAGGATGTTGCCGAGGCGGCAAAGGGCGGCGCTGCCGCTCCCGCGAAGGCCGAGGCTCCGAAGCAGGAAGCTGCAAAGGCTGAAGCGCCGAAGGAAGAACCTGCCCCGGCCAAGGCTGAAAAGCCCGTGGCCGATCAGGCTGTCGCATCGTCCACGCCGGCTCCGGTCGCAAAGTCCGGCGAGCGCATCTTCGCTTCGCCGTTGGCACGTCGTCTCGCCAAGGAAGCCGGTCTCGACCTCACGGCCGTCTCCGGTTCCGGCCCGCATGGCCGTATCGTCAAGACCGACGTGGAAAAGGCTGCCGCTTCCGGCGGTGCGAAGGCCGCACCAGCTGCTGCCGCATCCGCAGGCGCACCGGCTCCGGCCCTCGCCAAGGGTCAGTCGGACGAAGCGGTTCTCAAGCTGTTCGAAGAAGGCTCCTACGAGCTCGTGCCGCATGACGGCATGCGCAAGGTCATTGCCAAGCGTCTGGTCGAATCCAAGCAGACCGTTCCGCATTTCTACGTCTCGGTCGATTGCGAACTGGATACGCTTTTGGCGCTGCGCGCCCAGCTCAATGCGGCTGCTCCCGAAAAGGATGGCAAGCCCGCCTACAAGCTGTCGGTCAACGACATGGTCATCAAGGCGCTGGCTCTTGCCCTGCGCGATGTGCCTGACGCCAACGTTTCCTGGACGGAAAGCGCCATGGTCAAGCACAAGCATTCGGATGTCGGCGTTGCCGTTTCCATTCCGGGTGGCCTGATCACGCCGATCATCCGCAAGGCGGAAGAGAAGTCGCTCTCCACCATCTCCAACGAGATGAAGGACTACGGCAAGCGCGCCAAGGAGCGCAAGCTGAAGCCCGAGGAATATCAGGGCGGCACGACCGCCGTGTCCAACATGGGCATGATGGGCGTCAAGAGCTTCTCCGCCGTCATCAACCCGCCGCATGCCACCATCCTGGCGGTCGGCGCTGGTGAAGAACGCGCTGTCGTGAAGAATGGCGAGATCAAGATCGCCAACGTCATGACGGTCACGCTCTCCACCGACCACCGCTGCGTCGATGGCGCGCTCGGAGCCGAACTGATCGGCGCCTTCAAGCGCTACATCGAAAACCCGATGGGCATGCTGGTTTGA	MPINITMPALSPTMEEGNLAKWLVKEGDKVAPGDVIAEIETDKATMEVEAVDEGTVAKLVVPAGTEAVKVNALIAILAADGEDVAEAAKGGAAAPAKAEAPKQEAAKAEAPKEEPAPAKAEKPVADQAVASSTPAPVAKSGERIFASPLARRLAKEAGLDLTAVSGSGPHGRIVKTDVEKAAASGGAKAAPAAAASAGAPAPALAKGQSDEAVLKLFEEGSYELVPHDGMRKVIAKRLVESKQTVPHFYVSVDCELDTLLALRAQLNAAAPEKDGKPAYKLSVNDMVIKALALALRDVPDANVSWTESAMVKHKHSDVGVAVSIPGGLITPIIRKAEEKSLSTISNEMKDYGKRAKERKLKPEEYQGGTTAVSNMGMMGVKSFSAVINPPHATILAVGAGEERAVVKNGEIKIANVMTVTLSTDHRCVDGALGAELIGAFKRYIENPMGMLV	PGPT0001390_4059	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0001390-aceF|pdhC-K00627	NA	NA
BMS010_09994	645			hypothetical protein	ATGGTGAAGTCGGTCCTCTGCTTTGGCGATTCCCTGACCTGGGGTTCAAATGCGGAAACGGGTGGCCGTCACAGCCATGACGATCTTTGGCCGAGCGTCTTGCAAAAGGCGCTCGGTTCCGACGTGCATGTCATCCACGAAGGTCTAGGCGGTCGCACCACCGCTTATGACGACAACACCGCCGATTGCGACCGCAACGGCGCGCGGATTCTTCCGACGTTGCTGCACAGCCATGCGCCGCTTGATCTGGTGATTATCATGCTTGGCACCAACGACATGAAACCGGCGATCCATGGGTCGGCGATTGTTGCCATGAAGGGCGTGGAGCGGCTTGTGAAACTCACGCGCAACCACATCTGGCAGGTGCCGGACTGGGAAGCGCCTGACGTGCTGATCGTCGCTCCGCCGCAGCTTTGCGAGACGGCAAATCCTTTCATGGGCGCGATCTTTCGTGATGCGATCGATGAATCGGCGATGCTGGCATCCGTTTACCGGGATCTGGCCGACGAGCTCGATTGCGGCTTTTTCGATGCGGGCTCCGTTGCCCGAACGACGCCGGTGGATGGCGTCCATCTCGATGCTGAAAATACGCGGGCCATCGGGCGAGGGCTGGAGCCCGTCGTCCGCATGATGCTCGGACTTTAG	MVKSVLCFGDSLTWGSNAETGGRHSHDDLWPSVLQKALGSDVHVIHEGLGGRTTAYDDNTADCDRNGARILPTLLHSHAPLDLVIIMLGTNDMKPAIHGSAIVAMKGVERLVKLTRNHIWQVPDWEAPDVLIVAPPQLCETANPFMGAIFRDAIDESAMLASVYRDLADELDCGFFDAGSVARTTPVDGVHLDAENTRAIGRGLEPVVRMMLGL				NA	NA	NA	NA	NA
BMS010_09995	1446	lpd_2	COG1249	Dihydrolipoyl dehydrogenase	ATGGCTCAATCATATGACGTCATCATCATCGGTTCGGGACCGGGCGGTTACATTGCCGCGATCCGCGCAGCCCAGCTCGGCTTGAAGGTTGCCGTCGTGGAGCGTGAGCATCTGGCCGGCATCTGCTCCAACTGGGGCTGCATTCCCACCAAGGCGCTGCTGCGCACCGCCGATGTCATGCACACCGCCACCCATGCGAAGGATTACGGCCTGACGCTGGAAGGCTCGATCAAGCCGGACGTCAAGGCAATCGTGGCGCGCTCGCGCGGCATTGCTGCGCGCATGAACAATGGCGTCGGTTTCCTGTTCAAGAAGAACAAGGTCGATATCATTTGGGGTGAGGCCAAGATCACCAAGCCGGGCGAAATCGTTGTCGGCAAGTCCACCAAGCCGGTGGTTCAGCCGCAGGGTCCCGTGCCGAAGAACACGCTCGGCGAGGGCACCTACACTGCCAAGCACATCATCGTCGCGACAGGCGCCCGCCCTCGTGCGCTGCCAGGCATCGAGCCCGATGGCAAGCTGATCTGGACCTATTTCGAGGCAATGAAGCCGGAGGAACTGCCGAAGTCGCTGCTCGTCATGGGCTCGGGCGCCATCGGCATCGAATTCGCCAGCTTCTACCGCACCATGGGCGTCGACGTCACCGTCGTCGAGATCATGAGCCAGGTCATGCCGGTCGAGGACGCAGAAATCTCCACCTTCGCCAAGAAGCAGCTCGAAAAGCAGGGCATGAAAATTCATCTGGAGACCAAGGTTTCCAAGGTGGAGAAGGGCGCGAACTCCATTACCGCGACGCTTGAGAAGAAGGACGGTTCTTCTGAAAAGATCACGGCTGATCGCATGATCTCGGCTGTCGGCGTCGTCGCCAATATCGAAGGTATCGGCCTTGAGGCTGCCGGCGTGAAGACCGATCGCGGCTTCATCGTCATCGACGGTTACGGCAAGACCAACGTGCCTGGCATCTACGCCATCGGTGATGTCGCCGGCCCGCCGCTGCTCGCCCACAAGGCCGAGCACGAAGCTGTCATCTGCGTCGAAAAGATCGCCGGTCTGCCGAATGTGCATCCGATGGACAAGCTCAAGATTCCGGGCTGCACCTATTGCAATCCGCAGGTCGCCTCGGTGGGCCTGACCGAAGCCAAGGCCAAGGAGCAGGGTCGCGACATCCGCGTTGGCCGCTTCTCCTTTGCGGCAAACGGCAAGGCGGTTGCGCTCGGCGAAGATCAGGGCATGGTCAAGACCATCTTCGACAAGAAGACGGGTGAGCTGCTTGGCGCGCATATGGTCGGTGCGGAAGTGACCGAACTCATTCAGGGCTTCGTTGTTGCGATGAACCTCGAGACCACTGAAGAAGACCTGATGCACACGATCTTCCCGCATCCGACCATTTCGGAATCGATGAAAGAAAGCGTGCTTGACGCCTATGGGCGTGTGCTGAACGCATAA	MAQSYDVIIIGSGPGGYIAAIRAAQLGLKVAVVEREHLAGICSNWGCIPTKALLRTADVMHTATHAKDYGLTLEGSIKPDVKAIVARSRGIAARMNNGVGFLFKKNKVDIIWGEAKITKPGEIVVGKSTKPVVQPQGPVPKNTLGEGTYTAKHIIVATGARPRALPGIEPDGKLIWTYFEAMKPEELPKSLLVMGSGAIGIEFASFYRTMGVDVTVVEIMSQVMPVEDAEISTFAKKQLEKQGMKIHLETKVSKVEKGANSITATLEKKDGSSEKITADRMISAVGVVANIEGIGLEAAGVKTDRGFIVIDGYGKTNVPGIYAIGDVAGPPLLAHKAEHEAVICVEKIAGLPNVHPMDKLKIPGCTYCNPQVASVGLTEAKAKEQGRDIRVGRFSFAANGKAVALGEDQGMVKTIFDKKTGELLGAHMVGAEVTELIQGFVVAMNLETTEEDLMHTIFPHPTISESMKESVLDAYGRVLNA	PGPT0001380_2206	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0001380-lpd|pdhD-K00382	NA	NA
BMS010_09996	249			hypothetical protein	ATGGAAAGTGTAGGCTGGATTGCAGCAATCATCATCGGCGGTCTCGCCGGCTGGCTTGCGGGCAAGCTCATGGATATGCGCTTCGGCATTTTCATGAACATCGTCCTTGGCATCGTCGGTTCGGTGGTTGCGGTTGCGGTCCTTCGAACCTTCGATGTTTTCGTGCAGGACAGCAGGCTCGGTTATTTCGTCACCTCGTTCCTCGGCGCTAGCCTGTTGCTGTTTCTGGCGAAGCTAGTACGGCGCTGA	MESVGWIAAIIIGGLAGWLAGKLMDMRFGIFMNIVLGIVGSVVAVAVLRTFDVFVQDSRLGYFVTSFLGASLLLFLAKLVRR				NA	NA	NA	NA	NA
BMS010_09997	972	lipA		Lipoyl synthase	ATGGTCACTATTCTCGACAGGACGTCGTCCGACGAAAAGCGCATTCGCCACCCGGAAAAGGCGCATAAGCCCGATACCGAGGTCATGCGCAAGCCGGAATGGATCCGCGTCAAGGCGCCGACCTCCAAGGGCTATCACGAGACGCGTGAACTGGTGCGTTCGCACAAGCTGGTGACGGTGTGCGAGGAAGCCGGCTGTCCGAATATCGGCGAGTGCTGGGACAAGAAGCACGCGACCTTCATGATCATGGGTGAAATCTGCACCCGCGCCTGCGCCTTCTGCAATGTCGCGACCGGCAAGCCCAATCCGCTGGATATGAACGAGCCGGAGAACGTCGCCAAGGCCGTCAAGCAGATGGGCCTTTCTCACGTCGTCATCACTTCGGTTGACCGTGACGATCTCGCCGATGGCGGTGCTGAACATTTCGAAAAGGTGATCTGGGCGATCCGCGCCGCTTCTCCGACGACGACCATCGAAATCCTCACGCCCGACTTCCTGAAGAAGCCCGGCGCGCTGGAGCGTGTCGTGGCCGCCAAGCCCGATGTCTTCAACCACAATATGGAAACCGTTCCGGGCAATTACCTCACGGTTCGCCCCGGCGCGCGCTATTTCCACTCCGTGCGCCTCTTGCAGCGGGTGAAGGAACTCGATCCCACCATGTTCACCAAGTCGGGCATCATGGTCGGCCTCGGCGAAGAGCGCAACGAAGTGCTGCAGCTGATGGACGACCTGCGCAGCGCCGATGTGGACTTCCTGACCATCGGTCAGTATCTGCAGCCGACCCGCAAGCACCACAAGGTCGAGGCCTTCGTGACGCCGGAAGAGTTCAAGTCCTATGAGACGGTGGCTTACACCAAGGGCTTCCTGATGGTGTCGTCGAGCCCGCTGACCCGCTCCTCGCACCATGCCGGCGACGATTTCGAGCGCCTGCGTGCGGCCCGCGAAAAGAAGCTGCTGGCAGCTGCTGAGTAA	MVTILDRTSSDEKRIRHPEKAHKPDTEVMRKPEWIRVKAPTSKGYHETRELVRSHKLVTVCEEAGCPNIGECWDKKHATFMIMGEICTRACAFCNVATGKPNPLDMNEPENVAKAVKQMGLSHVVITSVDRDDLADGGAEHFEKVIWAIRAASPTTTIEILTPDFLKKPGALERVVAAKPDVFNHNMETVPGNYLTVRPGARYFHSVRLLQRVKELDPTMFTKSGIMVGLGEERNEVLQLMDDLRSADVDFLTIGQYLQPTRKHHKVEAFVTPEEFKSYETVAYTKGFLMVSSSPLTRSSHHAGDDFERLRAAREKKLLAAAE	PGPT0003935_2065	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-PLANT_LIPOIC_ACID_INTERFERRENCE	PLANT_LIPOIC_ACID_BIOSYNTHESIS,PGPT0003935-lipA-K03644	NA	NA
BMS010_09998	660	pqiA_1	COG2995	Intermembrane transport protein PqiA	ATGCCCGACTCGCTCGATACTCGCGACATATCGGAGTTATCCCTTGAGGAACTCGTCGCCTGTCATGAGTGCGATCTGCTCATGCGCAAACCGAAGCTGATCGATGGTGAGAGAGCCGAGTGTCCGCGCTGTGGTTATGAGCTATTCACCCATCGACATCAGGTCGTACGGCGAAGTCTGGCCTTGGCGCTCGCCGCGCTGTTGCTTTACGTGCCGGCCAACTTCCTGCCGATCATGCAGTTGAATCTGTTGGGGCAGCGTGCCGATGACACGGTCTGGAGCGGCGTGCTCGCCCTGTATAACAGCGGTATGCAAGGTATCGCGGTGTTGGTTTTCCTTTGCAGCATGGGAGTGCCGTTGCTCAAGCTGCTGTGCCAGTTATTCGTATTACTGAGCATTCGTTGGGATATCGGACGTAGCTATGGCCTGTTGATCTATCGGATCTACCACCACCTACGTGAATGGGGAATGCTCGAGGTTTATCTGATGGGCATTCTGGTGGCGATGGTCAAGCTCAAGGATCTGGCCGACCTCAGCATCGGTGTCGGTCTGGCGTGTTTCATTGGTTTGTTATTGGTCCAAGTCTGGCTGGAGGTGACGATGTCGCCTCATCAGATATGGGAAGCGCTTTCCGGAGAGGATGCCGATGCGAGCCATTGA	MPDSLDTRDISELSLEELVACHECDLLMRKPKLIDGERAECPRCGYELFTHRHQVVRRSLALALAALLLYVPANFLPIMQLNLLGQRADDTVWSGVLALYNSGMQGIAVLVFLCSMGVPLLKLLCQLFVLLSIRWDIGRSYGLLIYRIYHHLREWGMLEVYLMGILVAMVKLKDLADLSIGVGLACFIGLLLVQVWLEVTMSPHQIWEALSGEDADASH				NA	NA	NA	NA	NA
BMS010_09999	624	pqiA_2	COG2995	Intermembrane transport protein PqiA	ATGCGAGCCATTGATGCGGGCATACTGGTTTGTCCGGAATGCCATCAATTGAATCGGCAGGAGCCGGACAGCGATGTGCAGTTCTGTACCCGCTGTGGCGGAAGGGTGCATGCTCGGCGTCCCAACAGCCTGGCGAGAACCTGGGCATTATTGATCACTGCCGCGATCCTCTACATTCCGGCCAATGCCTTGCCGATCATGACGGTCAATTCGTTCGGCAAGGGCGAGCCCGATACCATCATGTCCGGTGTGGTCACCCTGGTGCAGTACGGCATGCTGCCCATCGCCGCGGTGGTCTTCATCGCCAGTATTCTGGTGCCGACGTTCAAGCTGGTCGGGATTGCCCTGCTGCTCTATTCGGTACAGCGCCACCAGCCACTATCTGCCCGGCAGCGCATCCTGATGTTTCGTTTCATCGAATGGATCGGTCGCTGGTCGATGCTGGATATCTTCGTCATCGCCATCCTGGTGGCGTTGGTGAATTTCGGCAGCTTGGCCAGTATCGAGGCCGGTTTCGGTGCCGTAGCTTTCGCCAGCGTGGTGGTGCTGACCATGCTGGCTGCCATCACGTTTGACCCACGCTTGATTTGGGATAACACGGAGTCGGATGACGACCATGACTGA	MRAIDAGILVCPECHQLNRQEPDSDVQFCTRCGGRVHARRPNSLARTWALLITAAILYIPANALPIMTVNSFGKGEPDTIMSGVVTLVQYGMLPIAAVVFIASILVPTFKLVGIALLLYSVQRHQPLSARQRILMFRFIEWIGRWSMLDIFVIAILVALVNFGSLASIEAGFGAVAFASVVVLTMLAAITFDPRLIWDNTESDDDHD				NA	NA	NA	NA	NA
BMS010_10000	2313	yebT	COG3008	Intermembrane transport protein YebT	ATGACTGACTTGCCCACTGCCAGAACCCGGCCGGCTTCGAATTGGTCGGCGATCTGGGTATTGCCGTTGATCGCTCTGCTCATTGGCGGGTGGCTGGCTTGGCGCGCCTATAGTCAGGCGGGCATCGAAATCCAGGTTCTCTTCGACAGTGGCGAAGGGATTCAGGTCAACAAGACCGAAGTGATCTACAAAGGCATGCCGATCGGTAAGGTTGTGGCATTGGCCCTGGACGAACAGGGGGATAACCGAGGTGTAGTCGCAACCCTGGAGATGAACAAGGAGGTGGAGCCCTACCTGCGCAGCGACACCCGCTTCTGGCTGGTCAAACCGAGCGTGACATTGGCGGGTATCACCGGTCTGGAGACGCTGGTCTCCGGCAACTACATCGCTGCAAGCCCGGGGGGCGGGGAGCCGGCGAAGAGATTCAAGGCGCTCTCGGAGGCGCCGCCATTGTCCGATCAGATTCCGGGACTCCACCTGACGCTGAAGGCCGAGCGCCTGGGCTCGCTGAACCGGGACAGCCCCGTGTTCTACAAGCAGATCCAGGTCGGCAAGGTGAAGAATTACGTGTTGGCCGATGACCAGCGCACCGTGGAGATCAAGGTCTACATCGAACCGACTTACGCCAGTCTGGTTCGCAAACATACCCGCTTCTGGAACGCCAGCGGAATCACCGTCGATGCCGGACTGTCGGGGGTCAAGTTCCGCAGCGAGTCCCTGGCCAGCATCGTTGCGGGAGGTATCGCGTTCGCCACGCCGGAGAATCGTAGTGATAGCCCACCGACCGATCCGAGCATTCCGTTCCGTCTCTACGAAGACTTCGACGCGGCGCAGGCAGGCATCCGGGTCAGGCTGAAACTGACCGATTTCGAGGGGCTCGAGGCTGGACGCACGCCGGTGATGTACAAGGGGTTGCAGGCAGGGACCCTGAAGACGCTCAAGGTCGACCCGGAGCTGAACAGTGCGACGGCCGAACTGACCATGGACCCGCTGGCCGAGGATTATCTCGTCGATGGGACCGAGTTCTGGGTGGTCAAACCGTCGATTTCGCTGGCTGGGATTACCGGGCTGGAAGCCTTGGTGAAGGGTAACTACATCGCCGTGCGTCCCGGTGAAAAAGGAGGCGTGCCCAAGCGCGACTTCGTCGCGAGAGCCAAGGCCCCGCCGTTGGACCTGGGGGCTCCGGGGCTCCATCTGGTGCTCTTCAGCGACAACCTGGGGTCGTTGGATATCGGCAGTCCGGTTCTGTACAAGCAGGTCAAGGTCGGTTCGGTGCAGAGCTTCCAATTCTCCCGCGACCAGAAGCAGGTGGTGCTCGGCGTCCACATCGAGCCGGAATACAGCAGCCTGGTGAACAGTTCGACACGCTTCTGGAACGCCAGCGGCATTCGCTTGAGCGGAGGGCTGTCGGGCATTGAGGTGAAGAGCGAGTCGCTGCAAAGCCTGTTGGCGGGTGGCGTCGCCTTCGAAACGCCCGACCCGCAAGCGCCGTCCGGCAAGCGCATTCAGCGCTTCAAGCTGTATGACGACCGCGACAGCGCCTTGCAACAGGGCGTCGAGATCGAGATCCGCGCGGAAAGCGGAGATGGGCTTCGACCGGGGACTCCGATCCGCTACAAGGGCCTCGACGTCGGCCGGATCGATAGCGTCGAGTTGACCGAAGATATGCAGGCCGTGGTGCTCAAGGCGCGGATAACCGAGGCGGCCGAGCGTATCGCCCGGGACGGCACCCAGTTCTGGGTGGTGAAGCCGGAACTGGGGCTGGTCCGTACGGCGAACCTCGAGACCCTGGTCAGTGGCCAATACTTGGAGGTCATGCCGGCAGCCAGAGGCGCGGCGCGGCAGACCCGATTCACCGCCTTGCCCCAGGCCCCGACGCTCTCGGCCCGGGAGAGTGGGCTCGAGCTGGTCCTGAGTGCGCCCCGTCGGGGTTCGATCAAGCCGGGCGTGCCTGTCACCTACCGAGAGGTGACCGTCGGGCGGGTGACGGGCTACGAACTGGGACCGAACGCGGATAGGGTGTTGGTCCGTATCCTCATCGAGCCGCGTTACACCCCGTTGGTGCGCAGTGGCAGCCGCTTCTGGAACGCCAGCGGCTTCGGCTTCGACTTCGGGCTGTTCAAGGGCGCATCGGTGCGCACCGAATCCGTCGAGGCATTGCTGGAGGGGGGGATCGCCTTCGCCACGCCGGAGGGTGAACAGATGGGGTTGCCAGCCAAGCCGGGACAAACCTTCGCCCTGTTCAGCGAGGCGAAGGAGGAATGGCTGCTGTGGGCGCCGAAGATTGCGCTTGAGGAGTCGAACGGCCGGTAG	MTDLPTARTRPASNWSAIWVLPLIALLIGGWLAWRAYSQAGIEIQVLFDSGEGIQVNKTEVIYKGMPIGKVVALALDEQGDNRGVVATLEMNKEVEPYLRSDTRFWLVKPSVTLAGITGLETLVSGNYIAASPGGGEPAKRFKALSEAPPLSDQIPGLHLTLKAERLGSLNRDSPVFYKQIQVGKVKNYVLADDQRTVEIKVYIEPTYASLVRKHTRFWNASGITVDAGLSGVKFRSESLASIVAGGIAFATPENRSDSPPTDPSIPFRLYEDFDAAQAGIRVRLKLTDFEGLEAGRTPVMYKGLQAGTLKTLKVDPELNSATAELTMDPLAEDYLVDGTEFWVVKPSISLAGITGLEALVKGNYIAVRPGEKGGVPKRDFVARAKAPPLDLGAPGLHLVLFSDNLGSLDIGSPVLYKQVKVGSVQSFQFSRDQKQVVLGVHIEPEYSSLVNSSTRFWNASGIRLSGGLSGIEVKSESLQSLLAGGVAFETPDPQAPSGKRIQRFKLYDDRDSALQQGVEIEIRAESGDGLRPGTPIRYKGLDVGRIDSVELTEDMQAVVLKARITEAAERIARDGTQFWVVKPELGLVRTANLETLVSGQYLEVMPAARGAARQTRFTALPQAPTLSARESGLELVLSAPRRGSIKPGVPVTYREVTVGRVTGYELGPNADRVLVRILIEPRYTPLVRSGSRFWNASGFGFDFGLFKGASVRTESVEALLEGGIAFATPEGEQMGLPAKPGQTFALFSEAKEEWLLWAPKIALEESNGR	PGPT0014520_19	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-PARAQUAT_STRESS_REDUCTION,PGPT0014520-pqiB-K06192	NA	NA
BMS010_10001	2838			hypothetical protein	ATGAGTCAGGAACGCTACGGCATCCGCCGCTTCGCCCTGCTGAACACCGCCGGCTACAGCCTCGGGCTGTTCCCGCTGGAAAACCCCTTGTCCGTGTATGGCGCCAACAACCTGGGCAAGAGCGCTTCGATCAACGCCTTGCAGTTCCCGATCCTAGCGCGCATGTCGGACATGAGCTTCGGCAAGTACAGCCTGGAGCAATCGCGCAAGTTCTACTTCGCCTCGGACACCAGCTACATCCTCGTCGAAGTCGCCCTGCCCCACGGCCCTCATGTGATCGGCGTGGCGGGACGCGGGCCGGGCGGTGGTTTCGGCCATCAGTTCTTCGCCTACGCCGGCTCGCTGGACCTGGATCACTACCAGAAGAATGGCACCTGCCTGCGCCAGAAAGAGTTGTTCAGCAATCTCGAGCGCGAGGGGCTGAAAGCCTACGAACTCAAGCCGGATGAGCTGCGCCGCCTACTGGTCGGCGGGCACACCTCGATCCCGCTGGACCTGACGCTGATCCCACTGCGCTCGACCAGCGAGCAGAGCCTGAAGACCTTCCGCGCCCTGTTCATCAACCTGCTGCACATGCGCGAGATCACCGCGGCCAAGCTCAAGCAATTGTTCCTCGATGCCTTCGAGCACAGCCTGCGCTCCGGCAGCGTCGATTACATCGCCGCCACTGAAGAAGCCTTCCGCGACGTGCGGAGGATGGAGCAGGACTACCAGGCGCTGGTCGCCGCCGGTCCGCTGGTCGAAGCGCTCGCCTCCGGCGTCGCCCAGCGCGAAATGCTGCGCGGCAAGTTGCATCGCCTTTCGCCCCTGCTCGACTCGCTGCTCGGCACTTGGCACGACTACTCCGGCGCGCGGCGCGAGGAGTTGGTGATCCAGGCCGAACACTACCGCCGCGAGCAGGACGGCCTGCAACAGGAGCAACGCGGTGGCACCGCCGAGCTGATGCGTCTGGAGCGCGAAATCAGTGAAATCCAGCGCTGGCTGGGCGAACTGGCGGTGCTAAAGAACCGCTTCGCGCTGGTCGATGACGTCAAGGTCCTGGAACAGCAACTGCTCGCCGCCAAGGATGCCCACGACGAGCTGGCCGGCGCCCTGGCGCAGTCCCGCCAGTTCTCCAGCGAAGATCTGGACGAACGGCTGCGCGACCTGGAAAAACGTCTGAAGTCGGTGAAGCAGCAACTCGATCACGCCGATAACAACAGCTATTCGCGTCTGCGCGAGGAATTCTCGCAGCAGGACGTCGATCGCCTGATGCGCCTGTTCAACGGCCAGTTGTTCAGCCTGCCGCTGGGCGAGAAAGGTATCCAGCTCGACGCAGGCGAGACTTGGGTGAAGTCCCTGGAAGCCATTCTGGGCGGCTTCAAAGGCAATCACTTCGAAGTGCCGGGCTTGTCCATCGACCTGTCCCACATCGAGCCGCCGGCACTGCAGGCCCTGGCCGACCGCGCCGCCCTGCGCGACCAGCGCGACCGTCTGGAGCGCGAGCTGAAACAACTGAAGACCCAGCAGGCGGTGGCTGCCGACCGCGCGGCGAGCAAGGCCCAGGCCGAACAGCTCTACCAGGCCGTGCTGGATGCCCAGAAGGCGCTGGAGGACTTCCGCCGCTGCCAGACGCTTTCTGCCGAGGAGGCCGGCAAGCTGGAACAACTGGCCCAGGCCGAATCCGCCCAGGACGAACTGAAGCGGGCCAGCGATGCCTTCACCGAGCGCGTCCAGCAGCTCTCCGCCAAACTGCAACTGGTGGGGCGTCAACTGGCGGACCTGGAAGCCAAGGAGCGCACTCTGGAAGACGCCCTGCGTCGACGCCAATTGCTGCCGGCGGACCTGCCCTTCGGCACGCCCTACACCGATCCGGTGGACGATTCGCTGGATAACCTGCTGCCGCTGCTCAACGACTATCAGGACACCTGGCAGGCGCTGCAGCGGGTCGACGGGCAGATCGAGGCACTCTATGCCCAGGTGCGCCTGAAGGGGGTCGCCAAGTTCGACAGCGAAGAAGACCCCGAACGTCGCCTGCAGTTGCTGATCAACGCCTACGCCCATCGCCAGGACGAAGCCCTCACCCTGGCCAAGGCCCGGCGTGCGGCGGTCACTGACATCGCCCGGACCCTGCGCAATATCCGCAGCGACTACGACAACCTGGAACACCAGTTGGCGCTATTCAACCGCGAGATCAACAAGCGCCAGGTGTCCAACCTGCAAAGCTTCCGCATCATCCTGGCGCCGAACAAGGATGCGCTACGCCACATCGACCAGATCATCCACAGTGCCGGCCAGTACGAGGAAGGCGAGACCCTGTCGGTCTTCGACCTCACCCAGTCGGCCGAACAGGACGCGAAGAACGAAGAGGCCAAGGAATACCTGGCCCGCCTGGTGGCGGCCAACAACAACCAGTTGGGCCTCAAGGACCTCTTTGAGCTGGCGTTCGAAATCACCAAGGTGCACGGTCAGCCGGTGATCCACACCGACATCGATGGCGCGGCCTCCAACGGTACGACCATGACCATCAAGGCGCTGACCAACATGTACCTGTTGCTGCACCTGATGGACCGCGAACAGGCTGGCCGGGTGCGGCTGCCCTACTATCTGGACGAAGCGGCGGACATCGACGAACGCAACCAGCAAGCGTTGATCGAAACCAGCCTGCAACTGGGTTTCGTACCGATCCTGGCCTCGGTGAAGCCGCAGGTATCGGCCCATGTCGCGATCGACCTGGAGGGCGGCAGTGGGCCGAACGGTATCTATATCGACGAAGCGGACTGGAAGTTCATCAAGCGCCGCGAGCAGGCCAGGAACGAAACGGCCGAAGCCGAAGAAAAGGCCGGCGAACCGGCCTGA	MSQERYGIRRFALLNTAGYSLGLFPLENPLSVYGANNLGKSASINALQFPILARMSDMSFGKYSLEQSRKFYFASDTSYILVEVALPHGPHVIGVAGRGPGGGFGHQFFAYAGSLDLDHYQKNGTCLRQKELFSNLEREGLKAYELKPDELRRLLVGGHTSIPLDLTLIPLRSTSEQSLKTFRALFINLLHMREITAAKLKQLFLDAFEHSLRSGSVDYIAATEEAFRDVRRMEQDYQALVAAGPLVEALASGVAQREMLRGKLHRLSPLLDSLLGTWHDYSGARREELVIQAEHYRREQDGLQQEQRGGTAELMRLEREISEIQRWLGELAVLKNRFALVDDVKVLEQQLLAAKDAHDELAGALAQSRQFSSEDLDERLRDLEKRLKSVKQQLDHADNNSYSRLREEFSQQDVDRLMRLFNGQLFSLPLGEKGIQLDAGETWVKSLEAILGGFKGNHFEVPGLSIDLSHIEPPALQALADRAALRDQRDRLERELKQLKTQQAVAADRAASKAQAEQLYQAVLDAQKALEDFRRCQTLSAEEAGKLEQLAQAESAQDELKRASDAFTERVQQLSAKLQLVGRQLADLEAKERTLEDALRRRQLLPADLPFGTPYTDPVDDSLDNLLPLLNDYQDTWQALQRVDGQIEALYAQVRLKGVAKFDSEEDPERRLQLLINAYAHRQDEALTLAKARRAAVTDIARTLRNIRSDYDNLEHQLALFNREINKRQVSNLQSFRIILAPNKDALRHIDQIIHSAGQYEEGETLSVFDLTQSAEQDAKNEEAKEYLARLVAANNNQLGLKDLFELAFEITKVHGQPVIHTDIDGAASNGTTMTIKALTNMYLLLHLMDREQAGRVRLPYYLDEAADIDERNQQALIETSLQLGFVPILASVKPQVSAHVAIDLEGGSGPNGIYIDEADWKFIKRREQARNETAEAEEKAGEPA				NA	NA	NA	NA	NA
BMS010_10002	690			hypothetical protein	ATGAATATCGATCTGAAAGAAATGACCCAGCTGGCGCCGATCTTCCGCGAGCTGTTCAAAGGCTACCACCTGTCGCGCAGCGAACCGGAGTGCTACGCCCAACTGTCCACCCTACAGGACCAGTACCGTGCCCTGTTCAAGGCGCTCGGTTTCGAGCTGGTCTGCGATCCGCGCGGCTTCTACTACTTCGTCCCCGAGCAAGTCGGCCCGCAGGTGAACAAGACCGCCCAGCGCCTGGCGCTGTTCACCTTCATCATGGTCGAGCACCTCGCCGACCAGGGCCGCGACCCGCTCGCCGTCCTCGACGGCGGCAGCATCGGCCGCCACGAGTTGCCGGCCCTGCTGGACAAATACCGCGACCTGTTCCTGCAGGCCGAAGTGACCACCCAGGAAGAGTTGGAGGAAAAGGTCATCCGCCGTCTGACCCAGCTCGGCTTCGCCGAGGACAGCAACGGCATCTACCGCTTCCTCCCGCCCATGCACCGTTTCCTCGATGTCTGCCTGGCGGTCCAGCACGACCGCGACCTGGCGGCCAGCCTGCACAGCAACGAATTGGCGCTGCCGGCTCCGGTGCTGCTGGACGACGACAGTGGCGAGGAGATCGTCGCCGTCGAGGGCGATGAAGTCGAAGAGAGCGAAGAAGACGCACTGGCCCGCGCCATCGCCGAAGAAAAGGAGCTTGAAGCATGA	MNIDLKEMTQLAPIFRELFKGYHLSRSEPECYAQLSTLQDQYRALFKALGFELVCDPRGFYYFVPEQVGPQVNKTAQRLALFTFIMVEHLADQGRDPLAVLDGGSIGRHELPALLDKYRDLFLQAEVTTQEELEEKVIRRLTQLGFAEDSNGIYRFLPPMHRFLDVCLAVQHDRDLAASLHSNELALPAPVLLDDDSGEEIVAVEGDEVEESEEDALARAIAEEKELEA				NA	NA	NA	NA	NA
BMS010_10003	1242			hypothetical protein	ATGATCGATCCCAAGCGCGTACTGCGCGCCCTTGCCGAACACTGGACGTTGCTCGAACCGCTCTGCGAACGCTTCGATACCGGCACCCTGAGCCTGGCCGAGCTGCGCATCCAGCTCGGCGCGCAACTGGCGGACGGCACACCCACCGACATCACGGCCCTGCTCGACCAGTGGATTCGCCTGGACATCCTGGTGCCGGTGGCGAAGAGTCCGAACCGCTTCGAACTGAACGCGCAGATACACGACTTCCTCGCCTACCTGCGCCGCGAGCACCGCCTGGGCCTGTGCCTGGAGATCGAAGCCTACCTGCGCCATCTGGAGCGCCTCGCCGGCTACATCCAGGACGCCTTCGAAATCCGTGACGGCAACGATCTGGCGCGCCAATTGCGCCTGCTCGACATGCGCGTGCGCGACGTCCTCAAGAAGCTGGCCAACGACGAGCAGGCGCTGATCGGCGTGGCCGAACGGGCCAAGACCAGCGACCGGCAGATTCCCCTGCGCCAGCGTTATGCCGAGGTCCTGGCGACCTGGGACGAGTACGTCGAACCCATGATTCAACTGGTCTCCGCCGACGGCGCCTTCGAGCAGGGCGTGCGCCGCGTCGAGCAGGTGCTGCTACGTTTGCTCGGCGAACAGCAGCGCCTCGGCCAACTGGTGGACGACGACCTGCTGCTGCGCACCCACGCACGCATCCTGGAAATGCAGACCACCGCCCAGCTCACCTTGCGCAAGGCCCGCGAACTGTTGCTGCCGTTGCGCGAGGAAGCCCGCCGGCACAATGCCGTGACCCGTGGTGCCGCGCTGGCCCTGTCGGTGATCCGCAAGAAGGGCCTGGATGCCGTGCCGCAAGCGGCACTGCCGCTGTTCACCCGGCCGCAGAGCACCTACCTGGGCAATGCGTCGCAGGTCGAAGCTTACGTCTATGCCCTCGCCCGCTTCGAGCCGAAGCCGGCGCAATTCCCCAAGGCCAGCGGCACCCGCAAGGGCTCGACACCCCGCGCACCGCGCACCGCACGGGAAATGATCGAACGCTGCGAACAGGCCCTGCCGCTGCCCGACCTGATGGTCTGGCTGCTGGAACAAGAGCCGGATGGCGCCACCGACGAGTTGCTCTACTGGTTCTCCCGGCTGTCGCGTGACGGCCGCTTCCAGCGCGAACGCCTGGAGCGCCGCGATTACTTCACCCGCGAGCACCAGGTAAGCCTGAGTTCCTATGCCCTGGTGGGACGCCCCCATGAATAA	MIDPKRVLRALAEHWTLLEPLCERFDTGTLSLAELRIQLGAQLADGTPTDITALLDQWIRLDILVPVAKSPNRFELNAQIHDFLAYLRREHRLGLCLEIEAYLRHLERLAGYIQDAFEIRDGNDLARQLRLLDMRVRDVLKKLANDEQALIGVAERAKTSDRQIPLRQRYAEVLATWDEYVEPMIQLVSADGAFEQGVRRVEQVLLRLLGEQQRLGQLVDDDLLLRTHARILEMQTTAQLTLRKARELLLPLREEARRHNAVTRGAALALSVIRKKGLDAVPQAALPLFTRPQSTYLGNASQVEAYVYALARFEPKPAQFPKASGTRKGSTPRAPRTAREMIERCEQALPLPDLMVWLLEQEPDGATDELLYWFSRLSRDGRFQRERLERRDYFTREHQVSLSSYALVGRPHE				NA	NA	NA	NA	NA
BMS010_10004	612			hypothetical protein	ATGTCCTCGTCCTCCTCTGCCGCCTATGCTGCCGCCCGCTGGGCCGAACTCGAACGCCAAGGCGACCTGGCCTGGGACCTGGATGCCATCGGCAACCGCAGTGAAGCGATCGCCTTCCTGATGCGTTTCGAAAACCGTCTCTGTGTCTACTCCGGTTACGTGGAAAAGCTCTACAGCACCTATAGCTTCGTGGTGCCGGAGGAGGAGCACGGCAGCATCACTATCCTGCCCGACGAGCAGGCCTGGTACGACACCTTCCATGACATTCCCGTGGAGGCGGTCGAGCCCACCGGCGTACACATTCTCCCCGGCGAAACCATGGGACACACCGGCCTGTACCTGAAGGTGCCCGGCGAACACCCGTTGGCGGCCTCCAAGGAGCTGCCCTTCCAGGACGGCCTGAAGCTGCTGATCCAGCGTTACCAGGCGAAGAACGACTGTTTCCTGCCGGTGCTGATCAAGGGCGACCTGCGCGAATACGAAGACCGCATGCCCTCGCTGCATCTGCACCGGATCAATCCGGCGAAGCTCGCGCACATCGCGCCGTTGACCGTGGATGCGATCAGGGCGGCCATCGCCGATCATCTGATCGGGCTGTTCCGCCAGGGCTGA	MSSSSSAAYAAARWAELERQGDLAWDLDAIGNRSEAIAFLMRFENRLCVYSGYVEKLYSTYSFVVPEEEHGSITILPDEQAWYDTFHDIPVEAVEPTGVHILPGETMGHTGLYLKVPGEHPLAASKELPFQDGLKLLIQRYQAKNDCFLPVLIKGDLREYEDRMPSLHLHRINPAKLAHIAPLTVDAIRAAIADHLIGLFRQG				NA	NA	NA	NA	NA
BMS010_10005	1104			hypothetical protein	ATGCGCCCGATTCGTCCGTTCGCCCAGCGTGCGCTCGCCTTGTTCTGCGGCTGTCTCATCAGTTGTTTCGCCCAGGCGGAGCTGAGGCCCATGGCCGACAGCGAACTGGCGGAGGTCACCGGCCAGGCGATGATCACCCTGGATGGCCTGACCTACGGCGGCTTCGAGTACACGCGGGTCAATATCGGCGCCGACATCGACCTGCTCACCAATATCGATGAGCTGCGCCTGGGCAACTACAGCCGGTCGGGTGCCAACACCGTCTCCAACCAGCCGGCGGACATCTGGATCGACAACTTCGCGCTCGGTCGGATCGACAACGCCAACTCGTCGGACGCCACCATCGCTCCGTTCCAGATCCGCGACCCCTACGTCGAGTTCGCTTTCAAGGTAAACGCCCAGGGCGTGCGCGAAGTGGCCGGCATCCGCCTGGGTTTCGGCCGGGCCCGGGGCGATCTGTCCGGCGACATCCGCTCGCTGACCGGGGTGATGCAGGGGCTGGTGACCGGCTCGGCGTCCACCGCACGTGAGTACTACATGCAGCAGAACGGCCTGAACAGCCTGACCTGCGCTTTCGATTTCAACTGCCTGGCCCTGAGTCTGGCGGGCGACACCGAAATCTATAGCGAGGTTCAACTGGTGAAGAGCGGCACCGGCGAAACCACCATCAACGGCCAGCCGATCAACCGTGCGACCGATATCGGCGTGGCCAAGGGCGACTCCTTCCAGACCGACAACGCGCTGCTGAAAGGCATCTTGCCGCTGATCGCTGCCAACAACGGCGATTGCAAGGCTTCCGGTCTGCCGGCCTGCTTCGCTTTGCTCAACTATAAGAGCATCTTCATCGGCGACCGCACCCAGACCGACCTCAACCTCGGCGGTGCCCAGGGCATCTTCTTCTCCCTGCAGAACCAGAACGTGCCCTGGCAGGACCTGGCCGCGGCGAACGCCAGGTTCGTCGAAACCCAGTCCGGCGCCTTCGCCAACTTCGCCAAGACCGGCGAGGGCGCGAATGCGATGTACCCGTTCATCGTGTCGCTCTACGAGGCCCTGAACGGCACCGCGCGGGTACCGACCTGCATGGGCCAGGGCAAGGGTTGCTGA	MRPIRPFAQRALALFCGCLISCFAQAELRPMADSELAEVTGQAMITLDGLTYGGFEYTRVNIGADIDLLTNIDELRLGNYSRSGANTVSNQPADIWIDNFALGRIDNANSSDATIAPFQIRDPYVEFAFKVNAQGVREVAGIRLGFGRARGDLSGDIRSLTGVMQGLVTGSASTAREYYMQQNGLNSLTCAFDFNCLALSLAGDTEIYSEVQLVKSGTGETTINGQPINRATDIGVAKGDSFQTDNALLKGILPLIAANNGDCKASGLPACFALLNYKSIFIGDRTQTDLNLGGAQGIFFSLQNQNVPWQDLAAANARFVETQSGAFANFAKTGEGANAMYPFIVSLYEALNGTARVPTCMGQGKGC				NA	NA	NA	NA	NA
BMS010_10006	1557			hypothetical protein	ATGCGGGCGGCCACGATCGCAGGGCTGGTGCTCCTGGCACTGGCGGGGGCGGGGCAGGCCATGGAGGCGCTGGACGACCGGGAACTGGGCGAAATCAGCGGCGCCGGGGTGGGCTTCTTCCTGGATAACTTCTACTACGACCAGGGCAGCGCCACCGCGCGGGTCACCGGCCTCAAGGACACCCAGGGCAACCCGCTGGCGATCGACTTCGAACGGGCCTACATCAAGGGCGAAGGCAGCCAGCGCGGCACCCTGGATACCGAAGCCAGCCTGGGCTCGCCGCTGCATCCGTTCACCCTCGGCGTGGTCAGCGGCGCCAAGGCGCCGACTCTGCCGGCAGGCGGCCAGGCGCTGCAATTGCACACGCCGACCTGGACCGATCCGCTCAACGACACCCATCAGTACGGCCTCTGGTCTTACTACCAGGGCTGTTTGTACGGCGAGGCCGGGTGTACCGACCCGCAGAAGGCGGTGAACAACATCGACGTCGAGCTGAACAAGCTGCAGAGCCAGCGCGACCAGTTACTCGCCCGCTACCAGAGTGTCGGCTTCCTTACCCTCAAGAGCGGCATCGACCAGGACATGCAAGTGGTCTATCAGCGCCAGGCGCAGGTGGCCACGGAAACCAGCGATGTGCAGAGCGCCTACGGCACCATGCAGACCCGCTATGCCGCCGCACCTTCCACGGCCGACCTGTTCTACCCGAAGCCGGCGTTCGGCGAGAAGTACGGCTGCGGCAACATCTGCATCAACAGCGCGGCGCGGGCCTACAACCAGTCGGTGGACGCCTATCAGCAGCAGGTCAGCGAGCTGGCCGCCGCGCAGAAATCACTGGCCGAGGCCTGGAACACGGAGCGTGACGGCTACACGCTGAACCAGCGTGCCACCGACTACGACGAGTTTTCCAATCTCTGCGGGACCCCCACCCAGCAACAGCCGAGCTGCGCGGCCGGGCGGGTCAAGAAGACCCAGGACAACCGCAGCGTACTGGTCATCGTGGTCACCTCGCTGCAGAACGGCGGCACCCGGGTCAAGGGGCTGGACATCGGCATCGAAGCCACCTTCACCCTGCCGTCGACCGCCTACAGCGGCGCCGCAAGCGGTGCGACCAAGGGCGCCACCACCACCCGAACCGACTTCTTTTCCATCAATCTGGAAGGCTTCAGTCTGCACGGCGCCTACCTCAACCTCTGGGGCGACAGCAGCGGCCTGGTGGGGGAGACCAGCCTGCAGATGTACGCCGACAAGCTGATCATCGGCGGCTGTCGCAATTGCTCCGATGCCAACCGCGCCGTGGCGAAGAACCTCTACTTCGACATCAACCTCGGGCACGGCACCCTGCAGCCGCTCAGCCTGGGTGTGCTGTCCGACGGTGAGCTGCGCCTGTCGCTGCCCGGCGTCACCTGGGCCAACCACGAGGCTTTTTACCAGCAGGTGCCGAAGAGCAACATCAGCATCGGCAACCTGAACATCGGCGGTGTCGACCTGGGCTCGCAAGTGGTGCGCGGGATGCGCGTGGATTACCTGGACGTCCGCACGGTGAGCTTGCCGCGCTGA	MRAATIAGLVLLALAGAGQAMEALDDRELGEISGAGVGFFLDNFYYDQGSATARVTGLKDTQGNPLAIDFERAYIKGEGSQRGTLDTEASLGSPLHPFTLGVVSGAKAPTLPAGGQALQLHTPTWTDPLNDTHQYGLWSYYQGCLYGEAGCTDPQKAVNNIDVELNKLQSQRDQLLARYQSVGFLTLKSGIDQDMQVVYQRQAQVATETSDVQSAYGTMQTRYAAAPSTADLFYPKPAFGEKYGCGNICINSAARAYNQSVDAYQQQVSELAAAQKSLAEAWNTERDGYTLNQRATDYDEFSNLCGTPTQQQPSCAAGRVKKTQDNRSVLVIVVTSLQNGGTRVKGLDIGIEATFTLPSTAYSGAASGATKGATTTRTDFFSINLEGFSLHGAYLNLWGDSSGLVGETSLQMYADKLIIGGCRNCSDANRAVAKNLYFDINLGHGTLQPLSLGVLSDGELRLSLPGVTWANHEAFYQQVPKSNISIGNLNIGGVDLGSQVVRGMRVDYLDVRTVSLPR				NA	NA	NA	NA	NA
BMS010_10007	507			hypothetical protein	ATGACGATTGCGAAAGCGCTGTTGCCGTTGTTCCTGCTCGCCGGTGCCGCCCTGGCGCAGGCCGAGCTACGGCCGCTCGACGAGGGCGAGCTGCAGGACGTGACCGGCCAGGACGGCATCAGTCTCAGCGCCAACCTGACCTTCGCGCCCAACCCGGCGCTGACCCGCTGCGCCGGCGGTTGTGGTGCCCGGGTGGCGATCAAGCCGGGGCACAGCGACGGCTTCATCGTCGTCGACAACATCCTCGGCACCTTCAGCTTCGAGGGCCTGAAGCTGGACATCGTAACCATCGACAGCGGTTTCGCCGGCGAAGGCGCGCAATTCAACGGCCAGGCCCTGCGCCTGGAACTGACCGAGGCGCGCTTCGAAAACGCCCGCTTCACCCTCGGCAGCTCGAACCAGGCGCGCGGCGACCAGGCGGGGTTCCGCCAGACCGATCTGCTGACCTACAGCACTAACGGCGAGGTGCGCCTGCACGGCAACCTATATTTCTTCGCCGCACCCTGA	MTIAKALLPLFLLAGAALAQAELRPLDEGELQDVTGQDGISLSANLTFAPNPALTRCAGGCGARVAIKPGHSDGFIVVDNILGTFSFEGLKLDIVTIDSGFAGEGAQFNGQALRLELTEARFENARFTLGSSNQARGDQAGFRQTDLLTYSTNGEVRLHGNLYFFAAP				NA	NA	NA	NA	NA
BMS010_10008	1548	leuA_3	COG0119	2-isopropylmalate synthase	ATGAGCAACAACGATCGCGTCATCATCTTCGACACCACCCTGCGCGACGGCGAACAAAGCCCCGGCGCCTCCATGACCAAGGAAGAAAAGCTGCGCATCGCCAAGGCACTGGAGCGGCTGCGGGTGGACGTGATCGAAGCCGGTTTCGCCATCGCCAGCCCTGGCGACTTCGAAGCGGTCAAGGCAATTGCCGACACCATCAAGGACAGCACCGTGTGCAGCCTGTCGCGCGCGGTGGACGCCGACATCGACCGCGCCGCCGAGGCCCTGGCCGGGGCCAATTCCGGGCGCATCCATACCTTCATCGCCACCAGCCCGATCCACATGCAATACAAGCTGCGCATGCAGCCGGAGCAGGTGGTGGCGCAGGCCGTCCACGCGGTCAAGCGCGCGCGCAACCTATGCGCCGACGTCGAATTCTCCTGCGAGGACGCCGGCCGTTCCGACCTGGACTTCCTCTGCCGCATCATCGAGGCGGCCATCGACGCCGGGGCGAGCACCATCAACATCCCGGACACCGTCGGCTACGCCATTCCGCACCAGTACGCCGAAACCATCCGCCAACTGCTGCACCGCATCCCCAACGCCGACAAGGCAGTGTTCTCGGTGCACTGCCACAACGACCTCGGCCTGGCCGTGGCCAACTCCCTGGCGGCGGTGGTGGCCGGCGCGCGGCAGGTAGAGTGCACCATCAACGGCCTCGGCGAGCGCGCCGGCAACGCCGCGCTGGAAGAGATCGTCATGGCCATCAAGACCCGCCAGGACCTGCTCGGCGTCTACACCAACATCGACACCCCGCACATCCTCAGCACCTCGCGGATGGTCTCCGGCATCACCGGCTTCCCGGTGCAGCCGAACAAGGCCATCGTTGGCGCCAACGCCTTCGCCCACGAGTCGGGCATCCACCAGGATGGCGTGCTCAAGCACCGCGAGACCTACGAAATCATGTCCGCCCAGTCGGTCGGCTGGCACACCAACAAGATGGTGCTGGGCAAGCACTCCGGGCGTAACGCCTTCCGTACCCGCCTCGAAGAGCTGGGCATCGCCCTCGGCGGCGAGGCCGAGCTGAACGCCGCCTTCGCCCGCTTCAAGGCGCTGGCCGACAAGAAGCACGAAATCTTCGACGAAGACCTGCAGGCGCTGGTCTCCGACACCCTGGCCGAGGAAGCGCCGGAGCACTTCAAGCTGGTCTACCTGGAGGTCGCCTCCAAGACCGGCGAAGTGCCCGAGGCGAAGATCGTGGTCAGCGTCGCCGGCAGCGAGCAGCAGGGCACCGCCCAGGGGTCCGGCCCGGTGGACGCCACCTTCAAGGCCATCGAGTCCATTGCCAATTCCGACGCCAACCTGCAGCTCTACTCGGTCAACGCCATTACCCAGGGCACCGACTCCCAGGGCGAGGTCACGGTGCGCCTGGAGAAGGGCGGTCGCATCGTCAACGGCAACGGTGCCGACACCGACATCCTGGTCGCCTCGGCCAAGGCCTACATCAACGCGCTGAACCTGATGCAGGCCGGTCAGAAGGCGCACCCGCAGGTGGCTGACGTTTGA	MSNNDRVIIFDTTLRDGEQSPGASMTKEEKLRIAKALERLRVDVIEAGFAIASPGDFEAVKAIADTIKDSTVCSLSRAVDADIDRAAEALAGANSGRIHTFIATSPIHMQYKLRMQPEQVVAQAVHAVKRARNLCADVEFSCEDAGRSDLDFLCRIIEAAIDAGASTINIPDTVGYAIPHQYAETIRQLLHRIPNADKAVFSVHCHNDLGLAVANSLAAVVAGARQVECTINGLGERAGNAALEEIVMAIKTRQDLLGVYTNIDTPHILSTSRMVSGITGFPVQPNKAIVGANAFAHESGIHQDGVLKHRETYEIMSAQSVGWHTNKMVLGKHSGRNAFRTRLEELGIALGGEAELNAAFARFKALADKKHEIFDEDLQALVSDTLAEEAPEHFKLVYLEVASKTGEVPEAKIVVSVAGSEQQGTAQGSGPVDATFKAIESIANSDANLQLYSVNAITQGTDSQGEVTVRLEKGGRIVNGNGADTDILVASAKAYINALNLMQAGQKAHPQVADV	PGPT0000080_218	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000080-nifV-K02594	NA	NA
BMS010_10009	798			hypothetical protein	TTGATTACCGAGCTTCGCCGTCGCGCCTACCTGGGCGCCATGCAGGTGGTCAGTTGGCTGCCGCGCAGCGAGCTGCCGTTCGCCGCGCCGTCGCGTCCCGAGTTGTTCGAGCCGCCAGCGCCCGAGCCGGAGGTCGCCGCCGCCCCGGTCGTGGAGACCCCGGCGCCGTCCGCCGCTCCGTCCACGGTGCCCACTCCGGCCGAACGGCCGAGGATCGAGGTTCTCCGACCCGCCACCCAGGCGCGTGGCGAAGCGAAACCGGTGGCGGCCGACGAGCCCGCCCCGGCGGAGGACACCCGACCCACGACCGCGCCGCCCCCGCGTTTCGCCCTGCAATTGCTGCGCGCCGGCGATTGCCTGCTGCTGGTCGAACTGCCGAACGGCGAGAGCTTCCAGAGCCGCGATCCGGCCTACCTGTTGCTCAAGGACCTGCTGCGCGCCGCCGGCCTGCCGGACAGCCCGCGCCTGATCGGCGAGCCGGTGCGCTGGCCGCTGCTGGTGCGCGGCAACATGGACCAGGGCCCGGATGCCGCGCGCGACTTCCTCCAAGGCTTCGTCGCCGCGCGGATGGACGAAGGCGAGCCGTGCGCCTGCCTGTGGCTGGTCGGCCTGCCGGCCGTGCGCTTCGCCGGCGAGGCGGACAGCGAAGCGTTCAACCGGGAGCTGCGGATCGAAGGGCTCGGCGCCGCCTGGGCCTTGCCGGGCCTGGAAATGCTGATGGAAGAACCGGCCCGCAAGGCCGAACTCTGGCAGGCCATGCGCCGGGTGCGTCAACGTTGGATGAGTCGTAGCGAATGA	MITELRRRAYLGAMQVVSWLPRSELPFAAPSRPELFEPPAPEPEVAAAPVVETPAPSAAPSTVPTPAERPRIEVLRPATQARGEAKPVAADEPAPAEDTRPTTAPPPRFALQLLRAGDCLLLVELPNGESFQSRDPAYLLLKDLLRAAGLPDSPRLIGEPVRWPLLVRGNMDQGPDAARDFLQGFVAARMDEGEPCACLWLVGLPAVRFAGEADSEAFNRELRIEGLGAAWALPGLEMLMEEPARKAELWQAMRRVRQRWMSRSE				NA	NA	NA	NA	NA
BMS010_10010	453	rimI_2	COG0456	[Ribosomal protein S18]-alanine N-acetyltransferase	ATGAGTGATGCGTTATCGTTCCGCCCCATGACCGAGGCGGATCTCGAAGCTGTGTTGAAAATCGAATATGCCGCCTTCAGCCACCCCTGGACCCGGGGCATCTTCCTCGACAGCCTGAAAAGCTACGATTGCTGGCTGATGTTCGAAGGCAGCCAACAGGTCGGCCACGGGGTGATCCAGGTGGTGGTCGGCGAAGCCCATCTGCTCAACATCACGGTCAAGCCGGAGAGCCAGGGGCGCGGACTCGGCCTGCGTCTGCTGGAGCACCTGATGCACCGCGCCCGCGAGCTCCAGGCCGGGGAGTGCTTCCTCGAAGTGCGTGCCAGCAACCAGCCGGCCTACCGCCTCTACGAACGCTACGGGTTCAATGAAATCGGCCGCCGCCGCGACTACTACCCGGCGGTCGGTGGGCGGGAAGATGCCCTGGTCATGGCCTGTACGCTGATCGAGTGA	MSDALSFRPMTEADLEAVLKIEYAAFSHPWTRGIFLDSLKSYDCWLMFEGSQQVGHGVIQVVVGEAHLLNITVKPESQGRGLGLRLLEHLMHRARELQAGECFLEVRASNQPAYRLYERYGFNEIGRRRDYYPAVGGREDALVMACTLIE				NA	NA	NA	NA	NA
BMS010_10011	663			hypothetical protein	ATGAATCCTCTGAACATCCTGCGCGACTCCTGGTTCTTCTTCAGCCGTAACCTGGTCGCCATCGCCTCCTTCTGCCTGCCCCTGGTCCTGCTCGAAAGCCTGGCGCAGTTGATGATCGGCGGCACTGGCGAAGAGCGGGCGCGGGTCTACGAAGTGCTCGCCAGCCTGCTGTTCTATCCGCTCTACACGGGTGCGCTGATTCTCTTCCTCGATGCCCGCAGCCAGGGCTACCGGCCGCGCAGCGCCGACCTCCTGGCGATGAGCCTGCGCCTGTGGCCGACGCTCGCGGTACTGGTGGGGTTGAGTACGCTGCTGATCATGCTCGGCGCCTCGCTGTTCCTGCTGCCGGGCCTGTGGCTGATGATCCGCCTGGCGTTCGGCGAGATTCTCGTGGTGCTGCGCAGGATGACGCCGCTGGCGGCCATGCGGGAAAGCTTCCGTCTGACTGCCGGGCGCCGATTCTGGCTGGTGCTCGTCTGCGTGATGGCGGTGATGCTGCCGCTCTGGCTGTTCGACTGGTGGAGCTATCGCCAGCTCGGCGAGGAACCGGAAACCCTCGCCGCCGTTCTGCTGGACAGCTTCAACGGCTTTCTCCAGTTGTTCGCCAACGTGGTCCTGTTCCGCCTGTACATGCTGATGGAGAGCCGGCCGGCCGAGGCCTGA	MNPLNILRDSWFFFSRNLVAIASFCLPLVLLESLAQLMIGGTGEERARVYEVLASLLFYPLYTGALILFLDARSQGYRPRSADLLAMSLRLWPTLAVLVGLSTLLIMLGASLFLLPGLWLMIRLAFGEILVVLRRMTPLAAMRESFRLTAGRRFWLVLVCVMAVMLPLWLFDWWSYRQLGEEPETLAAVLLDSFNGFLQLFANVVLFRLYMLMESRPAEA				NA	NA	NA	NA	NA
BMS010_10012	522			hypothetical protein	ATGAGCCTCGCCGCCTTGCACGCGCGCAACCTGGCGCTGCTCACGGAGCACCGGGTCCCCTTCCGCGAGGTGGAGCACGAAGCGGTGCTCGACTACCCCACCGCCCACGCCGTGCGCCAGCGTTTCGGCCTGCGCGGGGTGGAGAGCAAGAGCCTGTTCCTGCGTCTGAAAAGTGGCGGATACGCCATGCTGGTCACCCTGGAAGGCGCGCGTGCCGATTGGGCCCAACTGAAAGCGCTGCTCGGTGCGCGACCTTCGGTTGCCAGCGACGACGAGCTGACTGCGCTGACTGGCTGCGTGCCGCAATGCGCCTGCCCGCTCGGCCACGCGGCGGGCATCGCGCTGGTGTTCGACCGGGCGATTCTCGATCACGATTACCTGCTCTATTCGCCGGGCCCACCCGAGCGCACCCTGGAGGTACCCACGGCCGGGCTGTCGAGCCTGCTGCCGAGCCTGCCCAATCGAGTTCTGTACTACCGCTCGTGCGTGCCGACGATTGGAGCCCATGCCGCCATCCGTTAA	MSLAALHARNLALLTEHRVPFREVEHEAVLDYPTAHAVRQRFGLRGVESKSLFLRLKSGGYAMLVTLEGARADWAQLKALLGARPSVASDDELTALTGCVPQCACPLGHAAGIALVFDRAILDHDYLLYSPGPPERTLEVPTAGLSSLLPSLPNRVLYYRSCVPTIGAHAAIR				NA	NA	NA	NA	NA
BMS010_10013	558	sttH_2		Streptothricin hydrolase	ATGCACCACCCCATCGCCCTGATCATCATCGACATGCAGCGCGGCATCCAGCAACTGCCGGAGCGCAGCCGCAACAACCCGCAGGCCGCCGAGCGCATCGCCGTGCTGCTCGCCGCCTGGCGTAGCGCCGGCTGGCCGGTGGTGCACATCCGCCATATCTCCCGCGAGGCCGGCTCGGTGTTCGCGCCGGGCCAGCCGGGTGTGGAGTTTCATCCGCCGCTGGCGCCGCTGCCCCACGAAGCGCTGTTCGAGAAGAACACCACCGACGCCTTCCTCCACAGCGGCCTGGAACGCTGGCTGCAGGTGCGCGGGATCGAGTCCGTCGCCCTCGTCGGCGTGGCCAGCGAGAACTCGGTGGAAAACAGCGCCCGGACCGCCGGCAACCTCGGCTTTCGCACGCTGGTGGCGGAGGATGCCTGCTTCACTTACGCCAAGACGGATTTCGCAGGTACGCCGCGCAGTGCCGACGAGGTACATGCGATGGCCATGGCCAACCTGCACGGCGAATACGCCAGGGTACTGGACAGCGACACCCTGCTCGGGATGTTGCCGCAATGA	MHHPIALIIIDMQRGIQQLPERSRNNPQAAERIAVLLAAWRSAGWPVVHIRHISREAGSVFAPGQPGVEFHPPLAPLPHEALFEKNTTDAFLHSGLERWLQVRGIESVALVGVASENSVENSARTAGNLGFRTLVAEDACFTYAKTDFAGTPRSADEVHAMAMANLHGEYARVLDSDTLLGMLPQ				NA	NA	NA	NA	NA
BMS010_10014	474			hypothetical protein	GTGAATCGAATCGCAGTCTTCGCCGATGTGCAGAACCTCTACTACACCGTGCGCCATGTATACGGCCGGCATTTCCACTATGCGGCCTTCTGGAATGAGGTGAGCAGCCACGGGCAGATCGTCGAAGCCTACGCCTATGCCATCGACCGCGGCGACGCCAAGCAACGGCAGTTCCAGCAGATCCTGCGCAACCTCGGTTTCGAGGTGAAGCTCAAGCCGTTCATCCAGCGCAGCGACGGCTCGGCCAAGGGCGACTGGGATGTCGGTATCACCATCGACGTCCTCGACGCCGCGCCACGGGTCGACGAGATCGTCCTGGCGTCCGGCGATGGCGATTTCGACCTGCTGCTCGAGCAGGTCCGGCGTCGGCATGGGGTGCGCACCCGCGTCTACGGCGTGCCGGGGCTCACCGCGCAGTCGCTGGTACGGGCCGCCGACCGGTACCAGCCGATCGAAGCCAACCTGCTGCTGTAG	MNRIAVFADVQNLYYTVRHVYGRHFHYAAFWNEVSSHGQIVEAYAYAIDRGDAKQRQFQQILRNLGFEVKLKPFIQRSDGSAKGDWDVGITIDVLDAAPRVDEIVLASGDGDFDLLLEQVRRRHGVRTRVYGVPGLTAQSLVRAADRYQPIEANLLL				NA	NA	NA	NA	NA
BMS010_10015	357			hypothetical protein	ATGAAATACCTCTGCCTCATCTACGTCGAGGAAAGGCTCCTCGACACTGTGCCGGCCGCCGAGCTGACGGCCATCGAGGGCGTCTGGCTGGACTACCACGCGAGCTTGCGGCAGAGCGGCCGGATGCTCGCCGGCGAGGCGCTGCAGCCGGCCGAGAGCGCCACCACCTTGCGCCTGCGCAACGGCAAGCTGTCCCTGGCCGACGGGCCATCGGTGGACACCCGCGAGCAGCTCGCCGGTTTCTACCTGATCGACGCCGGCGACCTGGATGATGCGATCCGCCTGGCGGCACGCATTCCCCAGGGGCGTCTCGGCAGCATCGAAGTACGGCCGGTCCGGCCGCTGGGGTTGGCCTGA	MKYLCLIYVEERLLDTVPAAELTAIEGVWLDYHASLRQSGRMLAGEALQPAESATTLRLRNGKLSLADGPSVDTREQLAGFYLIDAGDLDDAIRLAARIPQGRLGSIEVRPVRPLGLA				NA	NA	NA	NA	NA
BMS010_10016	807			hypothetical protein	ATGAACGCAAACACGCTTGAACAGCCGCGCGTCGTATCGCGGGAGGAATGGCAGGCCGCCCGTCGCCAGCTCCTGCAGCGGGAGAAAACGATTACCCATCAGCTAGACGAAGTCGCCGCCGAACGACGCCGGCTGCCCTGGGTGAAAATCGACAAGCCCTACCGCTTCGAAGGACCGGACGGAGTGAAGAGCCTGGCCGACCTGTTCGGCGGGCGCAGCCAGTTGATCGTCTACCACTTCATGTTCGCCCCCGGCTGGGAAGAAGGCTGCCACGGTTGCTCCTTCGTCGCCGACCACATCGACGGCGCCAACCTGCATCTGGCTCACCACGATGTCACCCTGCTGGCGGTCTCGCGGGCGCCCTGGGCACAGATAGCCCCGTTCAAGAAGCGCATGGGCTGGCGCTTCGACTGGCTGTCCTCGGCCGGCAGCGACTTCAACCGGGACTTCGGCGTGCAGTTCAGCGCCGAGGAAATCGCCTCGGGCCGGGCGCTCTACAACGGCGAGGCACGCAACGACATCGGCGAGGACATGCCCGGCCTCAGCGTGTTCTACCGTAATCCCGAGGGCGAGATTTTCCATACGTACTCCACCTACGCCCGTGGCCTCAACCTGCTGCTCGGCGCGCACAACTACCTCGACTTCACGCCGAAGGGGCGCAACGAACGATCGACCATGGACTGGGTGCGTCTGCACGACCGCTACGAAGGCGCCGCGGCGACCGAAAGCTGCTGCGCTGGCGCCGCACAACCGGGGCAGGCCGGCGGCAAGAGCGCCGCGGCGAAACGCAACGTCATCGTGCAATGA	MNANTLEQPRVVSREEWQAARRQLLQREKTITHQLDEVAAERRRLPWVKIDKPYRFEGPDGVKSLADLFGGRSQLIVYHFMFAPGWEEGCHGCSFVADHIDGANLHLAHHDVTLLAVSRAPWAQIAPFKKRMGWRFDWLSSAGSDFNRDFGVQFSAEEIASGRALYNGEARNDIGEDMPGLSVFYRNPEGEIFHTYSTYARGLNLLLGAHNYLDFTPKGRNERSTMDWVRLHDRYEGAAATESCCAGAAQPGQAGGKSAAAKRNVIVQ				NA	NA	NA	NA	NA
BMS010_10017	453			hypothetical protein	ATGACCGCAGCAGACCGTACCCTGGATGACCAGGCCCGCATCCGCGAACTGACCGAACAATGGGCCGAGACCGTGCGCAGCCGGGATGTCGAGCGCATCATGCAGATCTATGCGGACGATGTCCGCGCCTTCGATGCCGTCGCCCAGTTGCAGTTCAAGGGCAAGGCGGCCTACAAGGCGCACTGGCAGGCGTGCATGGAGCAGTGCCCGGCCCAGGGATCGATGCAGTTCAAGATCGATCAGCTACAGGTGGAGACCGGTGGCGATCTTGGCCTCGCCCATTACCTCTGCTATTGCGGCGGGACGGACGAGAAGGGCGAGGAGCAGGGTAGCTGGATGCGCGTCACCGTGGGTTGGCGGCGGATCGGCGGCGAGTGGAAGATCACCCATGACCACTTCTCGGCACCGTTCGACATGAAGACCGGGGAAACCCTGTTCAAGCTGCAGCCCTGA	MTAADRTLDDQARIRELTEQWAETVRSRDVERIMQIYADDVRAFDAVAQLQFKGKAAYKAHWQACMEQCPAQGSMQFKIDQLQVETGGDLGLAHYLCYCGGTDEKGEEQGSWMRVTVGWRRIGGEWKITHDHFSAPFDMKTGETLFKLQP	PGPT0030505_2	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030505-phnB|yjdN-K04750
BMS010_10018	360			hypothetical protein	ATGAAATACCTTTGCCTGATCTACTGCGACGAGGACGCGCTGGATGCCATGCCCGCCCGCGAGCGGGAGGCGCTGACCGAGCGCTGCCTGGCCTACAGCGACGAACTCGGCGCCAGCGGCCACTACCTCGGCGGCGAGCGTTTGCAACCGGTACAGATGGCCAGGACGCTGCGCATCCGGCAGGATGGACAACCGGACATCACCGACGGTCCGTTCGCCGAAACCAAGGAACAACTGGCGGGTTTCTACCTGATCGAAGCGCGCGACCTGAACGAGGCGATCCAGGTGGCGGCGAAGATTCCGCCGGCCAGCCTGGGCAGCGTCGAGGTCCGTCCGGTGCGCGACCTGCCGCAGCGCTGA	MKYLCLIYCDEDALDAMPAREREALTERCLAYSDELGASGHYLGGERLQPVQMARTLRIRQDGQPDITDGPFAETKEQLAGFYLIEARDLNEAIQVAAKIPPASLGSVEVRPVRDLPQR				NA	NA	NA	NA	NA
BMS010_10019	1227			hypothetical protein	ATGAGCGTAAGCATCGACGCCGTCTACCGGGCCGAGTCGCGGCGCGTGCTGGCGACCCTGATCCGGCTGCTGGGCGATTTCGACCGGGCCGAGGAGGCACTGCACGATGCCTTCGCCGCGGCCGTCGAGCAGTGGCCGCGCGACGGCGTGCCGGCCAATCCGCGAGCCTGGCTGGTCTCGGCGGGGCGCTTCAAGGCCATCGACAACCTGCGCCGGCGCGCCCGTTTCGACGCCTCGCTGGCGCTGCTGGCCGACCAACTCGACGCGGGCGACGAGGCGGAGGTGTGGGACGGCGAGGCGGTGGAAGACGACCGTCTGCGTCTGATCTTCACCTGCTGCCACCCGGCCTTGCCGGCGGATGCCCAGGTGCCGCTGACCCTGCGCGAGGTATGCGATCTCAAGACCGAGGAAATCGCCCACGCCTTCCTCGCCACGCCGTCCACCATCGCCCAGCGCATCGTACGCGCCAAGGCGAAGATTCGCGACGCGCGGATTCCCTATCAGGTGCCGGCGCTGAACGAACTGCCCGAGCGGCTCGACAGCGTGCTGCGGGTCATCTACCTGGTGTTCAACGAGGGGTATTCGGCTTCGTCCGGCGAGACGCTGACACGCACCGATCTGTCCCGCGAAGCCATCCGGCTTGGCCGGCTGCTGCTCGAACTCCTGCCCGAGCCGGAAGTGATGGGGCTGCTGGCACTGATGCTGTTGCACGAGTCGCGCCGCGCTGCACGCGCCTCTGCCGACGGCGAACTGGTGCTGCTGGAGGACCAGGATCGTTCGTGCTGGGATCGTGAGTTGATCGCCGAAGGTTCGGCGCTGGTGGAGCGCGCCCTGACTTCACGGCGCTTCGGGCCGTACACCCTGCAGGCGGCCATCGTCGCCGTGCATGCCGAGGCGGAGGATGCCGCCGCCACCGATTGGGTACAGATCGTCGGGCTCTACGACGTGCTGGCGCGCGTCACGCCGTCGCCGGTGGTAGAGCTGAACCGCGCCGTGGCCGTAGCCATGCGCGACGGGCCTGAGGCGGGGCTGGTGCTGGTCGAGCGCCTGTTCGCCCGGGGCGAGCTGCTCGACTACCACCTTGCCCATGCTGCCCGCGCGGACTTCTGCCGGCGCCTGGGGCGCAACGCCGAGGCCCGCGAGTCCTACCGCCGTGCGCTGGCGCTGACCCGCCAGGAGCCGGAGCGCCGGTTTCTCGAACGGCGCTTGCAGCAATTGAGCGAATGA	MSVSIDAVYRAESRRVLATLIRLLGDFDRAEEALHDAFAAAVEQWPRDGVPANPRAWLVSAGRFKAIDNLRRRARFDASLALLADQLDAGDEAEVWDGEAVEDDRLRLIFTCCHPALPADAQVPLTLREVCDLKTEEIAHAFLATPSTIAQRIVRAKAKIRDARIPYQVPALNELPERLDSVLRVIYLVFNEGYSASSGETLTRTDLSREAIRLGRLLLELLPEPEVMGLLALMLLHESRRAARASADGELVLLEDQDRSCWDRELIAEGSALVERALTSRRFGPYTLQAAIVAVHAEAEDAAATDWVQIVGLYDVLARVTPSPVVELNRAVAVAMRDGPEAGLVLVERLFARGELLDYHLAHAARADFCRRLGRNAEARESYRRALALTRQEPERRFLERRLQQLSE	PGPT0014960_382	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
BMS010_10020	954			hypothetical protein	ATGACGGCCGCCTTCTTCCTTCGTCAGGATGTAGGCTTCAGCCTTGAACTTCTTGTGCGGCTTGACAGAACCCGGCTTGCACAGGATCTGACCACGCTCGACGCCGTCACGGTTAACACCGCGAACCAGTGCACCGATGTTGTCGCCGGCCTGGCCCTGGTCGAGCAGCTTGCGGAACATTTCAACGCCGGTAACCGTCGTCTTCGAGGTCGGACGAATGCCGACGATTTCGACTTCTTCGCCAACCTTGACGATACCGCGCTCAACGCGACCCGTCACAACCGTACCACGGCCGGAGATCGAGAACACGTCTTCGATCGGCATCAGGAACGGCTGGTCGATCGGACGCTCAGGCGTCGGGATGTAGGCGTCAACCGCAGCCATCAGCTCGCGGATCGCATCTTCACCGATCTTCTTGTCGCTGTCTTCAAGAGCAGCAAGAGCCGAACCCTTGATGATCGGGATATCGTCGCCCGGGAAGTCGTAGGACGACAGAAGTTCGCGAACTTCAAGCTCGACGAGCTCGAGAAGCTCGGCGTCGTCAACCTGGTCGACCTTGTTGAGGAACACGACGATCGCCGGAACGCCAACCTGACGGGCAAGCAGGATGTGCTCGCGGGTCTGCGGCATCGGGCCGTCAGCGGCCGAGCAAACCAGGATCGCGCCGTCCATCTGGGCAGCACCGGTGATCATGTTCTTCACGTAGTCGGCGTGGCCGGGGCAGTCGACGTGCGCGTAGTGACGGGCAGGCGTTTCGTATTCAACGTGTGCCGTCGAAATCGTGATACCACGGGCCTTTTCTTCAGGCGCGGCGTCGATCTGGTCATACGCCTTGAATTCGCCGAAGAACTTCGTGATCGCTGCCGTCAGCGACGTCTTGCCATGGTCAACGTGACCGATCGTGCCAATGTTGACGTGCGGCTTATTGCGCTCAAACTTGCTCTTTGCCATTAG	MTAAFFLRQDVGFSLELLVRLDRTRLAQDLTTLDAVTVNTANQCTDVVAGLALVEQLAEHFNAGNRRLRGRTNADDFDFFANLDDTALNATRHNRTTAGDREHVFDRHQERLVDRTLRRRDVGVNRSHQLADRIFTDLLVAVFKSSKSRTLDDRDIVAREVVGRQKFANFKLDELEKLGVVNLVDLVEEHDDRRNANLTGKQDVLAGLRHRAVSGRANQDRAVHLGSTGDHVLHVVGVAGAVDVRVVTGRRFVFNVCRRNRDTTGLFFRRGVDLVIRLEFAEELRDRCRQRRLAMVNVTDRANVDVRLIALKLALCH				NA	NA	NA	NA	NA
BMS010_10021	2100	fusA_2	COG0480	Elongation factor G	ATGGCTCGCGAATATAAAATCGAAGACTACCGCAATTTCGGTATCATGGCGCATATCGACGCCGGCAAGACGACGACCACCGAGCGTATCCTTTATTACACCGGTAAGTCGCACAAGATCGGCGAAGTTCACGATGGCGCTGCCACGATGGACTGGATGGAACAGGAGCAGGAGCGTGGTATCACCATCACCTCCGCCGCCACCACGACCTTCTGGAAGGGTCGCGACGGCAAGATGCGCCGCTTCAACATCATCGACACCCCCGGCCACGTTGACTTCACCATTGAAGTCGAGCGTTCGCTGCGCGTTCTCGACGGCGCCATCGCGCTGCTCGACGCCAACGCCGGTGTTGAGCCGCAGACGGAAACCGTCTGGCGCCAGGCTGAGAAGTATCATGTTCCGCGCATGATCTTCTGCAACAAGATGGACAAGACCGGTGCTGACTTCTACCGCTCGGTAGAAATGATCAAGACCCGTCTCGGCGCCATTGCCGTTGTCATGCAGCTGCCGATTGGCGCTGAGGCCGAGTTCAAGGGCGTTATCGACCTGATCGAGATGAACGCACTCATCTGGCGCGACGAATCGCTCGGCGCTCAGTGGGACGTCGTCGAAATCCCGGAAGACATGAAGGCCAAGGCTGACGAATATCGCGAAAAGCTGATCGAGACCGTTGTCGAGATCGACGAAGAAGCGATGGAAGACTACCTGAACGGCATCATGCCCGACAACGACAAGATCCGTGCGCTCGTTCGCCGCGGCACCATCGACGTGAAGTTCCACCCGATGTTCTGCGGTACCGCGTTCAAGAACAAGGGCGTTCAGCCGCTTCTCGACGCCGTTGTCGACTACCTGCCTTCTCCGCTGGACATTCCGGCGATCAAGGGTATCGACTTCAAGACCGAAGCCGAAATCGAGCGTCATGCCGACGACAGCGAGCCGCTTTCCATGCTCGCGTTCAAGATCATGAACGACCCCTTCGTCGGTTCGCTGACCTTCGCACGCATCTACTCGGGCAAGCTCGAAAAGGGCACGTCCGTCATCAACACGGTCAAGGACAAGCGCGAGCGCGTCGGCCGTATGCTGCAGATGCACTCCAACAGCCGTGAAGACATCGAAGAAGCCTTTGCCGGCGACATCGTTGCTCTGGCCGGCCTCAAGGAAACCACCACTGGCGATACGCTCTGCGATCCGCTGAAGCCGGTTATCCTCGAGCGCATGGAATTCCCCGAGCCGGTCATCCAGATCGCGATCGAGCCGAAGACCAAGGGCGACCAGGAAAAGATGGGCCTCGCGCTCAACCGTCTGGCTGCTGAAGATCCTTCGTTCCGCGTCAAGACGGATGAAGAATCCGGTCAGACGATCATCGCGGGCATGGGCGAACTTCACCTCGACATTCTCGTTGACCGTATGCGTCGCGAATTCAAGGTTGAAGCAACCGTTGGCGCTCCGCAGGTTGCCTACCGCGAAACCATCACGCGTCAGCACGAAGAAGACTACACGCACAAGAAGCAGTCCGGTGGTACCGGTCAGTTCGCTCGCGTGAAGATCATCTTCGAACCGAACCCCGAAGGCGAAGACTTCAAGTTCGAGTCGAAGATCGTCGGCGGTGCAGTTCCGAAGGAATACATCCCGGGCGTTCAGAAGGGTATCGAAAGCGTTCTGTCTTCAGGTCCGCTCGCTGGCTTTCCGATGCTCGGCGTCAAGGCGACGCTGGTCGATGGTGCATTCCACGATGTTGACTCGTCGGTTCTCGCCTTCGAAATCGCATCGCGTGCCTGCTTCCGTGAAGCAGCCAAGAAGGCTGGCGCACAGCTTCTCGAGCCGATGATGAAGGTCGAAGTCGTAACGCCGGAAGACTATGTCGGTGACGTTATCGGCGACCTGAACTCCCGTCGTGGTCAGATCCAGGGCCAGGAAAGCCGTGGTATCGCGGTCGTCATCAACGCGCATGTTCCGCTCGCGAACATGTTCAAGTACGTCGACAACCTGCGCTCCATGTCGCAGGGCCGTGCACAGTACTCGATGACGTTCGACCACTATTCGCCGGTTCCGTCGAACGTGGCGCAGGAAATCCAGGCTAAGTACTCCGGTCAGAAGTGA	MAREYKIEDYRNFGIMAHIDAGKTTTTERILYYTGKSHKIGEVHDGAATMDWMEQEQERGITITSAATTTFWKGRDGKMRRFNIIDTPGHVDFTIEVERSLRVLDGAIALLDANAGVEPQTETVWRQAEKYHVPRMIFCNKMDKTGADFYRSVEMIKTRLGAIAVVMQLPIGAEAEFKGVIDLIEMNALIWRDESLGAQWDVVEIPEDMKAKADEYREKLIETVVEIDEEAMEDYLNGIMPDNDKIRALVRRGTIDVKFHPMFCGTAFKNKGVQPLLDAVVDYLPSPLDIPAIKGIDFKTEAEIERHADDSEPLSMLAFKIMNDPFVGSLTFARIYSGKLEKGTSVINTVKDKRERVGRMLQMHSNSREDIEEAFAGDIVALAGLKETTTGDTLCDPLKPVILERMEFPEPVIQIAIEPKTKGDQEKMGLALNRLAAEDPSFRVKTDEESGQTIIAGMGELHLDILVDRMRREFKVEATVGAPQVAYRETITRQHEEDYTHKKQSGGTGQFARVKIIFEPNPEGEDFKFESKIVGGAVPKEYIPGVQKGIESVLSSGPLAGFPMLGVKATLVDGAFHDVDSSVLAFEIASRACFREAAKKAGAQLLEPMMKVEVVTPEDYVGDVIGDLNSRRGQIQGQESRGIAVVINAHVPLANMFKYVDNLRSMSQGRAQYSMTFDHYSPVPSNVAQEIQAKYSGQK				NA	NA	NA	NA	NA
BMS010_10022	471	rpsG_2	COG0049	30S ribosomal protein S7	ATGTCCCGTCGCCATAGTGCAGAAAAGCGTGAGATCAACCCGGACCCGAAGTTCGGCGATCTGGTCGTCACCAAGTTCATGAACGCCATCATGCTTCACGGCAAGAAGTCGGTCGCAGAAAGCATCGTTTACGGCGCGTTCGACGTCGTTCAGGGCAAGACGAAGCAGGAGCCGCTCGGCGTGTTCCACTCCGCCCTCGACAACGTTGCTCCGCACGTTGAAGTGCGTTCGCGCCGCGTTGGTGGTGCCACGTATCAGGTTCCCGTCGACGTTCGCCCCGAGCGCCGTCAGGCCCTTGCTATCCGCTGGCTGATCACGGCTGCCCGCAAGCGCAACGAAACGACCATGGTCGATCGCCTTTCCGGCGAACTCATGGACGCTGCGAACAACCGCGGTTCCGCTGTCAAGAAGCGCGAAGACACGCACAAGATGGCCGACGCCAACCGCGCATTCTCGCATTACCGCTGGTAA	MSRRHSAEKREINPDPKFGDLVVTKFMNAIMLHGKKSVAESIVYGAFDVVQGKTKQEPLGVFHSALDNVAPHVEVRSRRVGGATYQVPVDVRPERRQALAIRWLITAARKRNETTMVDRLSGELMDAANNRGSAVKKREDTHKMADANRAFSHYRW	PGPT0026715_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026715-ndhB-K05573	NA	NA
BMS010_10023	372	rpsL_2	COG0048	30S ribosomal protein S12	ATGCCTACCGTAAACCAGCTGATCCGCAAGCCTCGCCAGGCACAGGTAAAGCGCAACAAGGTTCCTGCTCTTCAGGAAAACCCGCAGAAGCGTGGTGTTTGCACCCGCGTTTACACGACGACCCCGAAGAAGCCGAACTCGGCTCTGCGTAAGGTTGCCAAGATCCGCCTCACCAACGGCTTCGAAGTCATCGGCTACATTCCGGGCGAAGGTCACAACCTTCAGGAACACTCCGTGGTCATGATCCGCGGCGGCCGCGTAAAGGACTTGCCGGGCGTGCGTTACCACATCATCCGCGGTGTTCTCGATACCCAGGGCGTCAAGAACCGCAAGCAGCGCCGCTCCAAGTACGGTGCGAAGCGTCCGAAGTAA	MPTVNQLIRKPRQAQVKRNKVPALQENPQKRGVCTRVYTTTPKKPNSALRKVAKIRLTNGFEVIGYIPGEGHNLQEHSVVMIRGGRVKDLPGVRYHIIRGVLDTQGVKNRKQRRSKYGAKRPK				NA	NA	NA	NA	NA
BMS010_10024	354			hypothetical protein	ATGGGTGGGACCGATTCCCTCGGCCCGCATCACAGCAACGACAGATCAAGGAACCGCGTCATGAGCACCCTCCCCGACAACGACAACGGACGCGACGAGCCGATGGTCTTCATCGTCATCGGCAAGGCCTACGAGACGGACAATTCCGAGGGCATCGATATCCACGTCATCCTGCGGGCGCCGGACGACGATACCGCCGTACGCGAAACGCTGAACGCGCTTTCCGAGGAAGGCTTCATCGAAGCCGATCTCGACCAGATCGGCATGCTGACCGACATCCCGGACGAAGAGCCGCACGCCTCCGCCTATCAGGGCGCACTCGAAGGCGAAGTCGCCATCATCCGCTTCGCCTGA	MGGTDSLGPHHSNDRSRNRVMSTLPDNDNGRDEPMVFIVIGKAYETDNSEGIDIHVILRAPDDDTAVRETLNALSEEGFIEADLDQIGMLTDIPDEEPHASAYQGALEGEVAIIRFA				NA	NA	NA	NA	NA
BMS010_10025	351			hypothetical protein	ATGGCGGTCAGACGTGTCGTCACCAATATAGCAACGCCGGAACCCGCGCGGGCTAAGGCGTTCTATGGCGATATTCTCGGCATGACCGTCGCCATGGACCACGGCTGGATCCTGACCTATGCCAGTCCGCTCGAAGCGCGGGCTCAGGTGAGTTTTGCGCGCGAAGGTGGCTCCGGCACGGATGTGCCCGACCTCTCCATCGAGGTCGATGATTTCGACGAGGTCCACGCCCGAATCCTGACCGCCAAGCTGCCGATCGAATACGGCCCCGTAGTCGAGGCGTGGGGTGTACGACGCCTGTTCGTGCGCGACCCTTTCGGCAAACTCATCAATATATTAAGTCACTCATAG	MAVRRVVTNIATPEPARAKAFYGDILGMTVAMDHGWILTYASPLEARAQVSFAREGGSGTDVPDLSIEVDDFDEVHARILTAKLPIEYGPVVEAWGVRRLFVRDPFGKLINILSHS	PGPT0013300_6193	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BLEOMYCIN_RESISTANCE,PGPT0013300-gloA|ywbC-K01759	NA	NA
BMS010_10026	1086			hypothetical protein	TTGGATACTATATCGTCGGCAGACATTATCGATGACATTTATGAAGCGGCGCTCTTTCCCGACCGCTGGATGCAGGTTCTGGTAGCTATCTGCCGTCATCTCAATTTCTGGGGCGGCGCGATTACCTGGGGAAAGGGAGAAGACCAGGTCTGGCTTCACACGCCGAGCTTCCACGAGTTGATGAAGGACTTCGCGGCGGGCGGCTGGAACCACCGCAATGATCGCCTCAGCCGCATCGCCCGGGAAGGCCAATTCTCCTTCGCGCAGGATTTGGACGTCTTCAATCATGAGGAATGGGCCGAGCTGCCGATCGTTCGTGACTTTCTTATGCCCCGCGGTTTGGGATACGGCGCGGCGACACAGGTCGCTCCACCAGGCCATCCGGAGATGACAGTGCTGTTTGAACGCAGGCTCGACGCCGGCACTATCACGCCTGAGACCATGGCAGCACTCGGCGGACTGAGGCCGCATATCGCCCGCAGCCTCACCCTCGCAACACAGCTGCAGCGTCAGAAGGCCGATGCGATGACACTTGGTCTCAACGCCATTGGCGCGCCGGCCGCAGTGCTGCAGACGAGCGGCCACATCCTTTCGGCCAACGATCTGTTCCTGTCATTACAGAAATGCTTCTCCGCCCGCACGCGCGACAGAATCACCATTGCCGATGAGAGAGTGAACCGGCTGCTTTACAAGGCACTCTCTGGGCAAGACGCCGGTTCCTTCCCTCTTCCCGCCAGCGAAGACGGCGCCTGCATTCTCCACCTCATACCGCTGCGCAAGAGCGCACTGGATTTCTCACCCAACGGTAACGCCATCGCGCTCGTATCGCAGCCGACGGGCGTAATTGCCGACGCAAACACATTGCTCAAGGGTCTCTACGATCTGACCAGGGGCGAAGCGCGGGTAGCGCTGGAAATCATGAAGGGGCTTTCGCTTCCGGCGGTGGCGAAGCAGCTGAAAGTTTCGCACGAAACCGTGCGCAGCAACGCCAAGTCTATCTACGCGAAGACCGGCAGCACCGGCAAGGCCGACCTCGTTCGCCGGCTTTCCGTTCTCACTCGCTATAACATCCGCGGACAGGCCTAA	MDTISSADIIDDIYEAALFPDRWMQVLVAICRHLNFWGGAITWGKGEDQVWLHTPSFHELMKDFAAGGWNHRNDRLSRIAREGQFSFAQDLDVFNHEEWAELPIVRDFLMPRGLGYGAATQVAPPGHPEMTVLFERRLDAGTITPETMAALGGLRPHIARSLTLATQLQRQKADAMTLGLNAIGAPAAVLQTSGHILSANDLFLSLQKCFSARTRDRITIADERVNRLLYKALSGQDAGSFPLPASEDGACILHLIPLRKSALDFSPNGNAIALVSQPTGVIADANTLLKGLYDLTRGEARVALEIMKGLSLPAVAKQLKVSHETVRSNAKSIYAKTGSTGKADLVRRLSVLTRYNIRGQA				NA	NA	NA	NA	NA
BMS010_10027	4209	rpoC_2		DNA-directed RNA polymerase subunit beta'	ATGAACCAAGAGGTCATGAATCTTTTCAATCCTCAGGTGCCTGCGCAGCATTTCGATTCCATCCGGATTTCGATCGCTTCGCCGGAAAAAATCCTGTCGTGGTCCTACGGCGAGATCAAGAAGCCGGAAACCATCAACTACCGTACGTTCAAGCCGGAACGCGACGGTCTCTTCTGCGCGCGCATCTTCGGACCGATCAAGGACTATGAGTGCCTGTGCGGCAAGTACAAGCGCATGAAGTATAAGGGCATCATCTGCGAAAAGTGCGGCGTCGAAGTCACGCTGTCGCGCGTTCGCCGTGAGCGCATGGGTCATATCGAGCTCGCAGCGCCGGTTGCCCATATCTGGTTCCTGAAGTCGCTTCCCTCGCGTATCTCGACCCTGCTCGACATGACGCTGAAGGATGTCGAACGCGTTCTCTATTTCGAGAACTACATCGTCACCGAACCGGGCCTCACTTCGCTGAAGCAGAACCAGCTTCTGTCCGAAGAAGAGTACATGATCGCCGTCGACGAGTTCGGCGAAGACCAGTTCACCGCCATGATCGGCGCTGAAGCCATCTATGAGATGCTGGCTTCGATGAACCTCGAAAAGATCGCCGGCGACCTGCGCGTTGAGCTTGCTGAAACGACTTCTGACCTGAAGCAGAAGAAGCTGATGAAGCGCCTGAAGATCGTCGAGAACTTCATGGAAAGCGGCAACCGTCCGGAATGGATGATCATGAAGGTCGTTCCGGTCATTCCGCCGGACCTGCGCCCGCTGGTTCCGCTGGATGGCGGCCGTTTCGCGACGTCCGACCTCAACGATCTCTATCGCCGCGTCATCAACCGTAACAACCGTCTGAAGCGCCTGATCGAGCTTCGTGCGCCGGGTATCATCATCCGCAACGAAAAGCGTATGTTGCAGGAATCCGTCGATGCGCTGTTCGACAACGGCCGTCGCGGTCGCGTCATCACGGGCGCCAACAAGCGTCCGCTGAAGTCGCTCTCCGACATGCTCAAGGGCAAGCAGGGCCGCTTCCGCCAGAACCTTCTCGGCAAGCGCGTCGACTATTCCGGTCGTTCGGTCATCGTGACCGGTCCGGAACTGAAGCTGCACCAGTGCGGTCTGCCGAAGAAGATGGCGCTCGAACTGTTCAAGCCGTTCATCTACGCCCGCCTCGACGCCAAGGGTTACTCCTCGACCGTCAAGCAGGCCAAGAAGCTGGTTGAAAAGGAAAAGCCGGAAGTCTGGGATATCCTCGACGAGGTCATCCGCGAGCATCCGGTTCTTCTGAACCGCGCACCGACGCTGCACCGTCTGGGTATCCAGGCTTTCGAACCCATGCTGGTCGAAGGCAAGGCCATCCAGCTGCATCCGCTCGTCTGCACGGCCTTCAACGCCGACTTCGACGGTGACCAGATGGCTGTTCACGTTCCGCTCTCGCTGGAAGCCCAGCTGGAAGCGCGCGTGCTGATGATGTCGACCAACAACATCCTGCATCCGGCAAACGGCCACCCGATCATCGTTCCTTCGCAGGACATGGTTCTCGGCCTGTACTACCTGTCGATCATGAACCAGAACGAGCCGGGCGAAGGCATGGCCTTCTCCGACATCGGTGAGCTTCATCACGCGCTTGAAAACAAGGTCGTGACGCTGCATGCCAAGATCCGCGGCCGCTTCAAGACCGTGGATGCCGATGGCAAGCCGGTTTCGAAGATTCATGAGACGACCCCAGGCCGTATGCTGATTGGGGAACTTCTGCCGAAGAACGTCAACGTGCCTTTCGACGTCTGCAACCAGGAAATGACCAAGAAGAACATCTCCAAGATGATCGACACGGTCTACCGTCATTGCGGCCAGAAAGACACGGTCATCTTCTGCGACCGCATCATGCAGCTCGGCTTTGCTCATGCCTGCCGCGCCGGCATTTCGTTCGGCAAGGACGACATGGTCATTCCGGACAGCAAGGTGAAGATCGTCGGCGACACCGAAGCTCTCGTGAAGGAATACGAACAGCAGTATAATGATGGTCTCATCACCCAGGGCGAAAAGTACAACAAGGTTGTCGACGCCTGGGGCAAGGCTACCGAAAAGGTCGCCGAAGAGATGATGGCACGCATCAAGGCTGTCGAGTTCGATCCGGAAACGGGCCGCCAGAAGCCGATGAACTCCATCTACATGATGTCGCATTCGGGTGCTCGTGGTTCTCCGAACCAGATGCGTCAGCTCGGCGGCATGCGCGGCCTGATGGCGAAGCCGTCGGGTGAAATCATCGAGACGCCGATCATCTCGAACTTCAAGGAAGGCCTGACCGTTAACGAGTACTTCAACTCGACCCACGGTGCCCGTAAGGGTCTCGCAGACACCGCCCTGAAGACGGCGAACTCGGGTTACCTTACCCGTCGTCTCGTCGACGTCGCGCAGGATTGCATCGTCAACTCCAAGGATTGCGGCACCGACAAGGGCCTCACCATGACCGCCATCGTCGATGCCGGTCAGGTCGTTGCCTCGCTCGGCGCACGTATCCTCGGCCGTACGGCTCTGGACGACATCGATCATCCGGTTTCCGGCGAAAACATCGTCAAGGCCGGCACGCTGATCGACGAAGCCGACGTGGCTGCCATCGAGAAGGCCGGTATCCAGTCCGTCCGCATCCGTTCGGCTCTGACCTGCGAAGTGCAGATCGGCGTCTGCGGCGTGTGCTACGGTCGTGACCTTGCACGCGGTACGCCTGTCAACATGGGCGAAGCCGTCGGCGTCATCGCCGCACAGTCCATCGGTGAACCGGGCACGCAGCTTACCATGCGTACCTTCCACCTTGGCGGTACGGCGAACGTGGTCGACCAGTCGTTCCTGGAAGCCTCTTACGAGGGCACGATTGCGATCAAGAACCGCAACATCCTGCGCAACTCCGAAGGCGCACTCATCGCGATGGGCCGTAACATGGCCGTCACCATTCTCGATGAGCGTGGCCAGGAGCGGTCTTCGCAGCGCGTTGCCTATGGTTCGAAGATCTTCGTTGACGACGGCGACAAGGTTAAGCGCGGTCAGCGTCTTGCAGAGTGGGACCCCTACACCCGTCCGATGATGACGGAAGTGGAAGGTACCGTTCACTTCGAGGACCTCGTCGACGGCCTCTCCGTTCTGGAAGCCACCGACGAATCCACCGGCATCACCAAGCGTCAGGTTATCGACTGGCGTTCGACGCCGCGCGGTTCGGACCTCAAGCCTGCGATCGTCATCAAGGACGCTTCCGGTGCGGTTGCGAAGCTTGCCCGTGGTGGCGAAGCCCGCTTCCAGCTCTCGGTCGACGCCATCCTGTCGGTCGAGCCGGGTGCGAAGGTCTCCCAGGGTGACGTGCTTGCACGTTCGCCGCTGGAAAGCGCCAAGACGAAGGACATCACCGGCGGTCTGCCGCGCGTTGCCGAACTGTTCGAAGCCCGTCGTCCGAAGGACCACGCCATCATCGCAGAGATCGATGGTACGATCCGGCTGGGCCGCGACTACAAGAACAAGCGTCGCGTGATGATCGAGCCTGCGGAAGACGGCGTCGAGCCGGTCGAATACCTGATCCCGAAGGGCAAGCCCTTCCATCTTCAGGAAGGCGACTATATCGAAAAGGGTGAATACATCCTCGACGGTAACCCGGCACCGCACGACATTCTGGCGATCAAGGGCGTGGAGGCTCTGGCTTCCTACCTCGTGAACGAAATCCAGGAAGTCTACCGTCTGCAGGGCGTTGTGATCAACGACAAGCACATCGAGGTGATCGTTCGCCAGATGCTGCAGAAGGTTGAAATCACCGATGCTGGCGACAGCCAGTACATCGTTGGTGACAACGTCGATCGCATCGAGCTTGACGACAACAACGACCGCCTGATCGAAGAAGGCAAGAAGCCTGCTTATGGCGAGCCGGTTCTGCTCGGCATCACCAAGGCTTCGCTGCAGACGCCGTCCTTCATTTCGGCCGCATCCTTCCAGGAAACCACCAAGGTTCTCACGGAAGCTGCGATTGCCGGCAAGACGGACACGCTGCAGGGCCTCAAGGAAAACGTCATCGTCGGTCGCCTCATCCCGGCCGGTACCGGCGGCACCATGACGCAGATCCGCCGCATCGCCACCTCGCGCGACGACCTCATTCTCGAGGAACGCCGCAAGGGCACCGGTGCAGGTTCTGCGAACCAGATGCTGCAGGACATGACGGACCAGGCTCCGGCCGCCGAATAA	MNQEVMNLFNPQVPAQHFDSIRISIASPEKILSWSYGEIKKPETINYRTFKPERDGLFCARIFGPIKDYECLCGKYKRMKYKGIICEKCGVEVTLSRVRRERMGHIELAAPVAHIWFLKSLPSRISTLLDMTLKDVERVLYFENYIVTEPGLTSLKQNQLLSEEEYMIAVDEFGEDQFTAMIGAEAIYEMLASMNLEKIAGDLRVELAETTSDLKQKKLMKRLKIVENFMESGNRPEWMIMKVVPVIPPDLRPLVPLDGGRFATSDLNDLYRRVINRNNRLKRLIELRAPGIIIRNEKRMLQESVDALFDNGRRGRVITGANKRPLKSLSDMLKGKQGRFRQNLLGKRVDYSGRSVIVTGPELKLHQCGLPKKMALELFKPFIYARLDAKGYSSTVKQAKKLVEKEKPEVWDILDEVIREHPVLLNRAPTLHRLGIQAFEPMLVEGKAIQLHPLVCTAFNADFDGDQMAVHVPLSLEAQLEARVLMMSTNNILHPANGHPIIVPSQDMVLGLYYLSIMNQNEPGEGMAFSDIGELHHALENKVVTLHAKIRGRFKTVDADGKPVSKIHETTPGRMLIGELLPKNVNVPFDVCNQEMTKKNISKMIDTVYRHCGQKDTVIFCDRIMQLGFAHACRAGISFGKDDMVIPDSKVKIVGDTEALVKEYEQQYNDGLITQGEKYNKVVDAWGKATEKVAEEMMARIKAVEFDPETGRQKPMNSIYMMSHSGARGSPNQMRQLGGMRGLMAKPSGEIIETPIISNFKEGLTVNEYFNSTHGARKGLADTALKTANSGYLTRRLVDVAQDCIVNSKDCGTDKGLTMTAIVDAGQVVASLGARILGRTALDDIDHPVSGENIVKAGTLIDEADVAAIEKAGIQSVRIRSALTCEVQIGVCGVCYGRDLARGTPVNMGEAVGVIAAQSIGEPGTQLTMRTFHLGGTANVVDQSFLEASYEGTIAIKNRNILRNSEGALIAMGRNMAVTILDERGQERSSQRVAYGSKIFVDDGDKVKRGQRLAEWDPYTRPMMTEVEGTVHFEDLVDGLSVLEATDESTGITKRQVIDWRSTPRGSDLKPAIVIKDASGAVAKLARGGEARFQLSVDAILSVEPGAKVSQGDVLARSPLESAKTKDITGGLPRVAELFEARRPKDHAIIAEIDGTIRLGRDYKNKRRVMIEPAEDGVEPVEYLIPKGKPFHLQEGDYIEKGEYILDGNPAPHDILAIKGVEALASYLVNEIQEVYRLQGVVINDKHIEVIVRQMLQKVEITDAGDSQYIVGDNVDRIELDDNNDRLIEEGKKPAYGEPVLLGITKASLQTPSFISAASFQETTKVLTEAAIAGKTDTLQGLKENVIVGRLIPAGTGGTMTQIRRIATSRDDLILEERRKGTGAGSANQMLQDMTDQAPAAE				NA	NA	NA	NA	NA
BMS010_10028	4137	rpoB_2		DNA-directed RNA polymerase subunit beta	ATGGCTCAGACCCTTTCGTTTAACGGTCGCAGGCGCGTACGCAAGTTTTTCGGCAAAATTCCAGAAGTAGCGGAAATGCCGAACCTCATCGAGGTTCAGAAGGCTTCGTACGACCAGTTTCTCATGGTTGACGAGCCCAAGGGTGGCCGTCCCGACGAGGGATTGAATGCGGTATTCAAGTCCGTATTCCCGATCACCGATTTTTCCGGCGCCTCCATGCTTGAATTCGTGTCCTACGAATTCGAAGCGCCGAAGTTCGACGTCGAGGAATGCCGTCAGCGCGATCTGACCTATGCTGCGCCGCTGAAAGTGACGCTGCGCCTCATCGTGTTCGATATCGATGAAGATACCGGCGCGAAGTCCATCAAGGACATCAAGGAACAGTCCGTCTACATGGGCGACATGCCGCTCATGACCAATAACGGTACGTTCATCGTCAACGGCACCGAGCGCGTCATCGTTTCGCAGATGCACCGTTCGCCGGGCGTGTTCTTCGATCACGACAAGGGCAAGAGCCATTCTTCCGGCAAGCTGCTCTTCGCTGCCCGCGTCATCCCGTATCGCGGTTCCTGGCTCGACATTGAGTTCGACGCCAAGGACATCGTCTATGCGCGTATCGACCGTCGCCGCAAGATCCCCGTGACCTCGCTGCTGATGGCGCTTGGCATGGATGGCGAAGACATTCTGTCGACCTTCTATACCAAGGCTTCCTATGAGCGCGACGGCGACGGCTGGCGCATTCCGTTCCAGCCCGAGACGCTGAAGAACGCCAAGGTCATCACCGACATGATCGACGCCGATACCGGTGAAGTCGTGGTCGAAGGTGGCAAGAAGCTGACCCCGCGCCTGATCCGTCAGCTGACGGAGAAGGGCCTGAAGGCGCTGAAGGCGACCGACGAAGACCTCTACGGCAACTATCTGGCCGAAGACATCGTCAACTACGAGACGGGTGAAATCTATCTCGAAGCCGGCGATGAAATCGACGAGAAGACCCTCGGCCTCATCCTGCAGTCCGGCTTCGACGAGATTCCGGTCCTCAACATCGACCACGTCAATGTTGGCGCCTATATCCGCAACACGCTGTCTGCCGACAAGAACGAGAACCGTCAGGAAGCCCTGTTCGACATCTACCGCGTCATGCGTCCGGGTGAGCCGCCGACCATGGAATCGGCGGAAGCGATGTTCAACTCGCTGTTCTTCGACGCAGAGCGTTACGATCTGTCGGCCGTTGGCCGCGTCAAGATGAACATGCGCCTCGACCTCGATGCGGAAGACACCGTGCGCACGCTGCGCAAGGAAGACATCCTCGCCGTCGTCAAGATGCTGGTCGAACTGCGCGACGGCAAGGGCGAAATCGACGACATCGACAACCTCGGCAACCGCCGTGTCCGTTCTGTCGGCGAACTGATGGAAAACCAGTATCGTCTGGGCCTTCTGCGCATGGAACGTGCGATCAAGGAACGTATGTCCTCGATCGAAATCGACACCGTGATGCCGCAGGACCTGATCAACGCGAAGCCGGCAGCCGCCGCCGTTCGCGAATTCTTCGGTTCCTCGCAGCTGTCGCAGTTCATGGACCAGGTGAACCCGCTTTCGGAAATCACCCACAAGCGCCGTCTTTCGGCTCTTGGACCGGGTGGTCTGACCCGCGAGCGCGCCGGCTTCGAAGTCCGCGACGTTCACCCGACCCATTACGGCCGTATTTGCCCGATCGAAACGCCGGAAGGCCCGAACATCGGTCTGATCAACTCGCTTGCAACCTTCGCCCGCGTCAACAAGTACGGCTTCATCGAAAGCCCGTACCGCAAGATCGTCGACGGCAAGGTTACCAACGACGTGATCTACCTCTCCGCCATGGAAGAGGCCAAGTATTACGTCGCGCAGGCCAACGCGCCGCTCAATGAAGACGGTTCGTTCTCGGAAGAGTTCGTCGTCTGCCGTCACTCGGGCGAAGTTATGCTCGCACCGCGTGACAACATCAACCTGATGGACGTTTCGCCGAAGCAGCTCGTTTCGGTCGCAGCGGCTCTCATTCCGTTCCTGGAAAACGACGACGCCAACCGCGCTCTCATGGGCTCGAACATGCAGCGTCAGGCCGTTCCGCTTCTGCGCGCCGAGGCACCGTTCGTCGGTACCGGCATGGAGCCGATCGTCGCCCGTGACTCCGGCGCTGCCATTGCAGCCCGTCGTGGCGGTGTGGTCGATCAGGTGGATGCGACCCGTATCGTTATCCGCGCCACGGAAGACCTCGATGCCGGCAAGTCCGGTGTTGACATCTACCGTCTGCAGAAGTTCCAGCGTTCGAACCAGAACACCTGCGTCAACCAGCGCCCGCTGGTTTCCGTCGGCGACAACATCTCCAAGGGCGATATCATCGCGGACGGTCCGTCGACCGACCTCGGCGATCTGGCTCTCGGCCGCAACGCGCTCGTCGCGTTCATGCCTTGGAACGGCTACAACTACGAAGACTCGATCCTGATGTCGGAGCGTATCGTTTCCGACGACGTGTTCACCTCCATCCACATCGAAGAATTCGAAGTGATGGCGCGCGACACGAAGCTCGGTCCGGAAGAAATCACGCGCGACATTCCGAACGTTTCGGAAGAAGCGCTGAAGAACCTCGACGAAGCCGGTATCGTTTACATCGGTGCGGAAGTTCAGCCGGGCGACATCCTCGTCGGCAAGATCACGCCGAAGGGCGAAAGCCCGATGACGCCGGAAGAAAAGCTTCTGCGCGCCATCTTCGGTGAAAAGGCTTCCGACGTTCGCGACACCTCCATGCGCATGCCTCCGGGCACGTTCGGTACGGTCGTCGAAGTCCGCGTCTTCAACCGTCACGGTGTGGAGAAGGACGAGCGCGCGATGGCTATCGAGCGCGAAGAGATCGAGCGTCTGGCGAAGGACCGCGACGACGAGCAGGCGATCCTCGACCGTAACGTCTACGGCCGTCTGATCGACATGCTGCGTGGCCACGTTTCCATTGCCGGTCCGAAGGGCTTCAAGAAGGGCGTCGAGCTTTCCAACGCCGTCGTTTCCGAATATCCCCGCTCGCAGTGGTGGATGTTCGCGGTCGAAGACGAAAAGGCTCAGTCCGAGCTGGAAGCGCTTCGTGGCCAGTACGACGAATCCAAGTCGCGCCTTGAACAGCGCTTCATGGACAAGGTCGAAAAGGTCCAGCGCGGCGATGAAATGCCTCCGGGCGTCATGAAGATGGTCAAGGTCTTCGTTGCCGTTAAGCGCAAGATCCAGCCGGGCGACAAGATGGCCGGCCGTCACGGTAACAAGGGCGTTGTCTCGCGTATCGTTCCGGTCGAGGACATGCCGTTCCTCGAAGACGGCACGCATGTCGACATCTGCTTGAACCCGCTCGGCGTGCCTTCGCGCATGAACGTCGGCCAGATCCTCGAAACCCACCTCGCATGGGCATGCGCAGGCATGGGCAAGAAGATCGGCGAGATGCTCGATGAGTATCGCAAGACGATGGACATCAGCGAGCTTCGCAGCGAGTTGACGGAAATCTACGCGTCTGAAGCCAATGACGAGGTTCAGCGTTTCGATGACGACTCGCTGGTCAAGCTTGCCGAAGAAGCCAAGCGCGGTGTTTCCATCGCGACCCCGGTTTTCGACGGTGCGCATGAGCCTGACGTTGCCGCGATGCTGAAGAAGGCAGGTCTGCATGAATCCGGTCAGTCCGTCCTTTACGACGGCCGTACCGGTGAGCCGTTCGACCGCAAGGTCACCGTCGGCTACATGTACATGATCAAGCTGAACCACCTTGTCGACGACAAGATCCACGCTCGTTCGATCGGTCCTTACTCGCTCGTTACCCAGCAGCCGCTGGGCGGTAAGGCGCAGTTCGGCGGACAGCGCTTCGGGGAAATGGAAGTCTGGGCTCTGGAAGCATACGGCGCGGCTTATACGCTGCAGGAGATGCTCACCGTCAAGTCGGACGACGTGGCGGGCCGCACCAAGGTTTACGAAGCGATCGTCCGTGGCGACGACACCTTCGAAGCCGGTATTCCGGAGAGCTTCAACGTTCTCGTCAAGGAAATGCGGTCGCTCGGTCTTTCGGTCGAACTGGAAAACTCGAAGATCGAGAACCAGCCCGAAGACCAGCTGCCCGACGCGGCGGAATAA	MAQTLSFNGRRRVRKFFGKIPEVAEMPNLIEVQKASYDQFLMVDEPKGGRPDEGLNAVFKSVFPITDFSGASMLEFVSYEFEAPKFDVEECRQRDLTYAAPLKVTLRLIVFDIDEDTGAKSIKDIKEQSVYMGDMPLMTNNGTFIVNGTERVIVSQMHRSPGVFFDHDKGKSHSSGKLLFAARVIPYRGSWLDIEFDAKDIVYARIDRRRKIPVTSLLMALGMDGEDILSTFYTKASYERDGDGWRIPFQPETLKNAKVITDMIDADTGEVVVEGGKKLTPRLIRQLTEKGLKALKATDEDLYGNYLAEDIVNYETGEIYLEAGDEIDEKTLGLILQSGFDEIPVLNIDHVNVGAYIRNTLSADKNENRQEALFDIYRVMRPGEPPTMESAEAMFNSLFFDAERYDLSAVGRVKMNMRLDLDAEDTVRTLRKEDILAVVKMLVELRDGKGEIDDIDNLGNRRVRSVGELMENQYRLGLLRMERAIKERMSSIEIDTVMPQDLINAKPAAAAVREFFGSSQLSQFMDQVNPLSEITHKRRLSALGPGGLTRERAGFEVRDVHPTHYGRICPIETPEGPNIGLINSLATFARVNKYGFIESPYRKIVDGKVTNDVIYLSAMEEAKYYVAQANAPLNEDGSFSEEFVVCRHSGEVMLAPRDNINLMDVSPKQLVSVAAALIPFLENDDANRALMGSNMQRQAVPLLRAEAPFVGTGMEPIVARDSGAAIAARRGGVVDQVDATRIVIRATEDLDAGKSGVDIYRLQKFQRSNQNTCVNQRPLVSVGDNISKGDIIADGPSTDLGDLALGRNALVAFMPWNGYNYEDSILMSERIVSDDVFTSIHIEEFEVMARDTKLGPEEITRDIPNVSEEALKNLDEAGIVYIGAEVQPGDILVGKITPKGESPMTPEEKLLRAIFGEKASDVRDTSMRMPPGTFGTVVEVRVFNRHGVEKDERAMAIEREEIERLAKDRDDEQAILDRNVYGRLIDMLRGHVSIAGPKGFKKGVELSNAVVSEYPRSQWWMFAVEDEKAQSELEALRGQYDESKSRLEQRFMDKVEKVQRGDEMPPGVMKMVKVFVAVKRKIQPGDKMAGRHGNKGVVSRIVPVEDMPFLEDGTHVDICLNPLGVPSRMNVGQILETHLAWACAGMGKKIGEMLDEYRKTMDISELRSELTEIYASEANDEVQRFDDDSLVKLAEEAKRGVSIATPVFDGAHEPDVAAMLKKAGLHESGQSVLYDGRTGEPFDRKVTVGYMYMIKLNHLVDDKIHARSIGPYSLVTQQPLGGKAQFGGQRFGEMEVWALEAYGAAYTLQEMLTVKSDDVAGRTKVYEAIVRGDDTFEAGIPESFNVLVKEMRSLGLSVELENSKIENQPEDQLPDAAE				NA	NA	NA	NA	NA
BMS010_10029	378	rplL_2	COG0222	50S ribosomal protein L7/L12	ATGGCTGATCTCGCAAAGATCGTAGAAGACCTCTCCTCGCTGACCGTTCTGGAAGCTGCAGAACTGTCCAAGCTTCTCGAAGAAAAGTGGGGCGTTTCCGCTGCTGCTCCGGTAGCCGTTGCTGCTGCTGGCGGCGCTGCTGCTGCTGCTGCTCCGGAAGAAGAAAAGACCGAGTTCGACGTTATCCTGGTTGACGCTGGCGCCAACAAGATCAACGTCATCAAGGAAGTTCGCGGCATCACCGGCCTCGGCCTCAAGGAAGCCAAGGACCTCGTTGAAGGCGCTCCGAAGCCGGTCAAGGAAGCCGTTTCCAAGGCTGAAGCTGCTGATCTCAAGAAGAAGCTTGAGGACGCAGGCGCCAAGGTTGACGTTAAGTAA	MADLAKIVEDLSSLTVLEAAELSKLLEEKWGVSAAAPVAVAAAGGAAAAAAPEEEKTEFDVILVDAGANKINVIKEVRGITGLGLKEAKDLVEGAPKPVKEAVSKAEAADLKKKLEDAGAKVDVK				NA	NA	NA	NA	NA
BMS010_10030	519	rplJ_2	COG0244	50S ribosomal protein L10	GTGGAAAGAGCGGAAAAACGCGAATTCGTCACGGAGCTGAACGAAGTCTTCAAGGCTTCCGGTTCGGTTGTCGTGGCCCACTATGCTGGTGTCACCGTTGCGCAGATGAACGACTTCCGTTCGAAAATGCGCGCTGCCGGAGGCACCGTCAAGGTCGCGAAAAACCGCCTGGCCAAGATCGCTCTTCAGGGCACGGAGTCGGAAGGGATGACAGATCTCTTCAAGGGCCAGACGCTGATTGCATACAGCGTCGACCCGATGATCGCTCCGAAAGTCGTCATGGATTTCGCCAAGACCAACGACAAGGTCGTTGTTCTCGGTGGCGCCATGGGTGCAACCACGCTCAACGCCGAAGCAGTCAAGTCGCTTGCGACCCTGCCTTCGCTGGACGAGCTGCGCGCAAAGCTGCTGGGCCTTCTCAATGCCCCGGCAACTCGCGTCGCTACGGTTGTCGCCGCACCTGCAAGCCAGCTGGCACGGGTGTTCTCGGCTTACGCCAAGAAGGACGAAGCCGCTTAA	MERAEKREFVTELNEVFKASGSVVVAHYAGVTVAQMNDFRSKMRAAGGTVKVAKNRLAKIALQGTESEGMTDLFKGQTLIAYSVDPMIAPKVVMDFAKTNDKVVVLGGAMGATTLNAEAVKSLATLPSLDELRAKLLGLLNAPATRVATVVAAPASQLARVFSAYAKKDEAA				NA	NA	NA	NA	NA
BMS010_10031	696	rplA_2	COG0081	50S ribosomal protein L1	ATGGCCAAGGTAGCAAAGCGCATTCAGAAGATCCGCGAAGGCGTGGATCCGAACAAGCTCTACGTCCTCACCGACGCCATTTCGATGGTCAAGGAACGTGCAGTTGCCAAGTTCGACGAAACCGTTGAAGTTTCGATGAACCTCGGCGTTGACCCGCGCCATGCGGACCAGATGGTTCGTGGCGTTGTCAACCTGCCGAACGGCACCGGCCGTGACGTTCGCGTCGCCGTCTTCGCCCGTGGCGCCAAGGCTGATGAAGCCACGGCTGCCGGTGCTGACGTTGTTGGTGCAGAAGAACTGGTTGAAATCGTTCAGGGCGGCAAGATCGACTTCGATCGTTGCATCGCGACCCCGGACATGATGCCGCTCGTCGGCCGTCTCGGCAAGGTACTCGGCCCGCGTGGCATGATGCCGAACCCGAAGGTCGGTACGGTGACGATGGATGTTGCCGGCGCCGTCAAGGCGTCCAAGGGCGGCGCTGTCGAGTTCCGCGTCGAAAAGGCCGGTATCGTACACGCTGGCGTTGGCAAGGCTTCGTTCGACGCCAAGGCTCTTGAAGAAAACATCAAGGCTTTCGCGGATGCCGTCATCAAGGCAAAGCCGACCGGTGCCAAGGGCAACTACGTCAAGCGCGTCGCGATTTCCTCGACTATGGGTCCGGGCGTCAAGATCGACCCTTCGTCGGTTACGGCTTAA	MAKVAKRIQKIREGVDPNKLYVLTDAISMVKERAVAKFDETVEVSMNLGVDPRHADQMVRGVVNLPNGTGRDVRVAVFARGAKADEATAAGADVVGAEELVEIVQGGKIDFDRCIATPDMMPLVGRLGKVLGPRGMMPNPKVGTVTMDVAGAVKASKGGAVEFRVEKAGIVHAGVGKASFDAKALEENIKAFADAVIKAKPTGAKGNYVKRVAISSTMGPGVKIDPSSVTA				NA	NA	NA	NA	NA
BMS010_10032	432	rplK_2	COG0080	50S ribosomal protein L11	ATGGCTAAGAAAGTTGCAGGCCAGCTCAAGTTGCAGGTAAAGGCCGGGGCGGCCAATCCGTCCCCGCCGATCGGTCCGGCACTTGGTCAGCGTGGCATTAACATCATGGAATTCTGCAAGGCGTTCAATGCCGCCACGCAGGAAATGGAAAAGGGTATGCCGATTCCGGTCGTCATCACCTATTACCAGGACAAGTCCTTCACCTTCGTCATGAAGCAGCCGCCGATGACCTACTGGCTGAAGAAGGAAGCGAAGATCACCTCCGGTTCCAAGACGCCTGGCAAGGGCGCCAAGGTCGGCTCCATCACCAAGGCTCAGGTCAAGACGATCGCTGAAGCCAAGATGAAGGATCTGAACGCAGCCGACATCGAAGGCGCAATGGCAATGGTTGAGGGCTCCGCCCGCGCCATGGGCCTGGAAGTGGTAGGTTGA	MAKKVAGQLKLQVKAGAANPSPPIGPALGQRGINIMEFCKAFNAATQEMEKGMPIPVVITYYQDKSFTFVMKQPPMTYWLKKEAKITSGSKTPGKGAKVGSITKAQVKTIAEAKMKDLNAADIEGAMAMVEGSARAMGLEVVG				NA	NA	NA	NA	NA
BMS010_10033	531	nusG_2	COG0250	Transcription termination/antitermination protein NusG	ATGGCAGCGCGCTGGTATATCGTTCACGCATATTCGAATTTCGAAAAGAAGGTCGCCGAGTCGATCGAGGAAAAGGCCCGTCAGAAGGGTCTGGATCATCTTTTCGAGAAAATCCTCGTGCCGACCGAAAAGGTGGTCGAGGTGCGTCGTGGCCGCAAGGTCGATAGCGAGCGCAAGTTTTTTCCAGGTTACGTGCTGGTGCGCGCCAACCTGACGGATGAGGCCTATCACCTCATCAAGAACACGCCGAAGGTTACCGGTTTCCTCGGTTCGGACAGCAAGCCTGTTCCGATTCCCGATTATGAAGCCGAGCGTATCCTCGGTCAGGTTCAGGAAGGTGTCGAGCGTCCGAAGTCTTCGGTTTCGTTCGAGATCGGCGAGCAGGTTCGCGTTTCCGACGGTCCGTTCGCGTCGTTCAACGGCGTGGTTCAGGATGTCGACGAAGAGCGTTCGCGCCTGAAGGTGGAAGTGTCGATTTTCGGCCGCGCTACGCCGGTCGAGCTGGAATACAATCAGGTCGAGAAGGTCTGA	MAARWYIVHAYSNFEKKVAESIEEKARQKGLDHLFEKILVPTEKVVEVRRGRKVDSERKFFPGYVLVRANLTDEAYHLIKNTPKVTGFLGSDSKPVPIPDYEAERILGQVQEGVERPKSSVSFEIGEQVRVSDGPFASFNGVVQDVDEERSRLKVEVSIFGRATPVELEYNQVEKV				NA	NA	NA	NA	NA
BMS010_10034	201	secE_2		Protein translocase subunit SecE	ATGGCATCCAAAACCAATCCGTTTACGTTTCTGCAGCAGGTTCGCGCCGAAGCGTCAAAAATCACTTGGCCGTCGCGCCGCGAGACCATGATTTCGACGGCTATGGTGCTGGTGATGGTCATTTTTGCGGCTCTGTTCTTCTTTGCTGCGGATCAGCTCATCGGCTGGCTGCTCAGCCTGGTGCTGAACGTAGGCCGGTAA	MASKTNPFTFLQQVRAEASKITWPSRRETMISTAMVLVMVIFAALFFFAADQLIGWLLSLVLNVGR	PGPT0025715_2730	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025715-secE-K03073	NA	NA
BMS010_10036	588	gpmB		phosphoglycerate mutase GpmB	ATGAGCATCTATCTCGTCCGTCACGGCCAGACCGAATTCAACGCCGTTCGCCGCTGGCAGGGTCAGGTCGATTCGCCTTTGACGGAACTGGGGCGGCAACAGGCGATGCGCATGGGCCGCAGGCTCGCCGCGCTGATCGAAACCGATGAAGTCCATATTTTCTCCAGCCCGCTCGGCAGGGCGAGGCAGACCTGCGAAATCGTCGCAGGCGAAATCGGCATGATCGACGGCATCACCCTCGATCCCGGCCTGATGGAGATCGGCTTGGGGGTATGGGACGGCATGACGGATTACGAGATCGATTATGAATATCCCGGCATGCGCGACGGGCTGGATCGATACGAATGGTTCTTCCACGCGCCGGGCGGTGAGACATTCGAAAGAATGACAAGCCGGGTGGCCCGCAGCCTGGAGACCATTCAGCAGCGACAGGCGCGCGACGCGATCGTCATCTGCCACGGCATCACCAGCCGCCTGTTGCGCGGCGTCTATGCGAACCTTCCAAAGGAGGAAGCATTGCGCCTCGATGTGCCGCAGGACGCATTCTTCCATCTCAAGGATGGCGATATCGTCCGCATCGACTGCTGA	MSIYLVRHGQTEFNAVRRWQGQVDSPLTELGRQQAMRMGRRLAALIETDEVHIFSSPLGRARQTCEIVAGEIGMIDGITLDPGLMEIGLGVWDGMTDYEIDYEYPGMRDGLDRYEWFFHAPGGETFERMTSRVARSLETIQQRQARDAIVICHGITSRLLRGVYANLPKEEALRLDVPQDAFFHLKDGDIVRIDC				NA	NA	NA	NA	NA
BMS010_10037	138	tufA_4	COG0050	Elongation factor Tu	ATGGTTATGCCTGGCGACAACGTGACCGTTGACGTCGAGCTGATCGTTCCGATCGCGATGGAAGAAAAGCTGCGCTTCGCTATCCGCGAAGGCGGCCGTACCGTCGGCGCAGGCATCGTCGCTTCGATCGTCGAGTAA	MVMPGDNVTVDVELIVPIAMEEKLRFAIREGGRTVGAGIVASIVE	PGPT0015245_5292	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	TRIGGERED_IMMUNITY	PAMP|EFFECTOR_TRIGGERED_IMMUNITY|PTI	PTI-BACTERIAL_EF-TU,PGPT0015245-elf18|tuf|tufA-K02358	NA	NA
BMS010_10038	822			hypothetical protein	TTGCGTTTCTGGGGTTCTTTCATGTTCAAGCCATCAGCGGCAGCCGCCGCCTGTGTCCTGTCGCTTTTTGCCTTGGGCAATGCCCATGCGGAAGGCTGGTTTTCCGGCGACTGGTATCTGAAGCTCGGCGGCGCGGGTTTTACCGCACCGAAATATCAGGGCGACAACAAGAATGAATTCGGCTTTTCGCCCATCATTTCGCTCGGCCGCCAGGGCCAGGGCGCGCGTTTCACCTCGCGTAACGACAGCGCCTCGATTTCGCTTCTGGACAATGGCCCGATCAGCATGGGTCTTGCCGGAAAGCTGGTATCCCCGCGTGACGAGGGCGACTCGTCCGATCTGAAGGGCATGACCCGCATCAAGCGCGGCGGCGAGCTTGGCGGTTTCGCTGAGGCCTATCCGACCGACTGGCTGCGCGTTCGCGGCGAAGTCCGTCAGGGCATTCGCAGCCATAGCGGCGTGGTCGGAGATGTTGCCGTCGATGCCTTCACCGATATCGCCCCCGGCATCCAGATTTCTGCCGGTCCGCGCGCGACATGGGTGAGCAGCAAATACAATGAGCGTTATTACGGCGTAAGCGCCGCGCAGACGGCTGCCGGCGCGCCATCGCCCTATAGCCCGGGCGGCGGCCTGCATTCCGCCGGCATCGGCGCTGCCATCACCTGGAAAGTCACCGAAAACGCCGAAGTCGGCTCGTTTGCGGAATATCGCCGCCTGACCGGTGACGCCGCCGACAGTTCGCTAGTGCGCGAGCGCGGCTCGAAGAACCAGTTCATCATCGGCGTTCAGGCGAGCTACAAGTTCAATTTCTCGCTGCCCTGA	MRFWGSFMFKPSAAAAACVLSLFALGNAHAEGWFSGDWYLKLGGAGFTAPKYQGDNKNEFGFSPIISLGRQGQGARFTSRNDSASISLLDNGPISMGLAGKLVSPRDEGDSSDLKGMTRIKRGGELGGFAEAYPTDWLRVRGEVRQGIRSHSGVVGDVAVDAFTDIAPGIQISAGPRATWVSSKYNERYYGVSAAQTAAGAPSPYSPGGGLHSAGIGAAITWKVTENAEVGSFAEYRRLTGDAADSSLVRERGSKNQFIIGVQASYKFNFSLP				NA	NA	NA	NA	NA
BMS010_10039	954	ubiA_2	COG0382	4-hydroxybenzoate octaprenyltransferase	ATGGTTCACCACAGCGATTTGTCAGATCGCGTCTCCGACGCGCCATCCAATAATTGGGTCTATCGGATTTTGCCGAGGCCCCTCTGGCCCTATGCGCAACTGGCCCGGTGGGATCGCCCCATCGGCTGGCAATTGCTGATGTGGCCATGTTTCTGGTCCGCAGCCCTTGCGGCAAATGTCGCGATGGCGAGCGGCGGCTTTTCCTGGGCGACGCTGATCTGGCATCTGTTGCTGTTCTTCATCGGATCGGTGGCGATGCGCGGCGCGGGCTGCACCTATAACGATCTGGCCGACCACAAGATCGACATGGCCGTGGCGCGCACCCGTTCGCGGCCGCTGCCTTCCGGCCGCGTGAGCCGGTCGCAGGCCAAGCTCTTCATCGTCCTGCAGGCGCTTGCAGGGCTTGTCGTGCTCCTGCAGTTCAACAGTTTCGCAATCGCCACCGGCATATTCTCGCTGATCTTCGTGGCGATTTATCCCTTCGCCAAGCGCTTCACCAACTGGCCGCAATTTTTCCTCGGCCTTGCCTTTTCCTGGGGTGCGCCGATGGGCTGGGCGGGACAGTTCGGATCGATCGCCTGGCCGGCTGTCCTGCTTTATGTCGGCTCCATCGCCTGGACGGTCGGTTATGATACAATCTACGCCCATCAGGACAAGGAAGACGACACCGCCGTGGGCATCGGTTCAACCGCCCTGCTGTTTGGAGAGAACACACATCGCTGGCTGGTTTTCCTTTATGGCACAGCCCTTGTCATGATGTTCCTGTCGTTCTGGATCGCGGGGGTTAACGTCATTGCCTATAGCGGCCTTGCCGCCGCGGCCATCATGCTGTTCCGGCAGGTCTGGGTGCTTAATATCGACGATGTCGATCAGTGCCTCGTGCTGTTCAAATCCAACAACCGCGTCGGCGTGCTGATTTTCGTAGGCCTCATCCTGCCGCTCCTGCTGGCGTAA	MVHHSDLSDRVSDAPSNNWVYRILPRPLWPYAQLARWDRPIGWQLLMWPCFWSAALAANVAMASGGFSWATLIWHLLLFFIGSVAMRGAGCTYNDLADHKIDMAVARTRSRPLPSGRVSRSQAKLFIVLQALAGLVVLLQFNSFAIATGIFSLIFVAIYPFAKRFTNWPQFFLGLAFSWGAPMGWAGQFGSIAWPAVLLYVGSIAWTVGYDTIYAHQDKEDDTAVGIGSTALLFGENTHRWLVFLYGTALVMMFLSFWIAGVNVIAYSGLAAAAIMLFRQVWVLNIDDVDQCLVLFKSNNRVGVLIFVGLILPLLLA	PGPT0009515_326	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009515-ubiA-K03179	NA	NA
BMS010_10040	567			hypothetical protein	ATGACCAAGACCGTTCTGAAGCCCGACTGGGCCGTCGCCACTCTCAGACTCGACCCGGCACGTTTTCCGCAACAGGTCACTTATGGAAAAGGCAATGGCGCGAGCGATGTCGCCGTCACCCTCGATGAACGGGGCGCCGTTCTGAGAAAGGTTCTGTCCTCTTCCGGCCTGCCTCTGTCCTTCGCTTTGCCAGCCCGCGCTTTCAAGGGCGTTGCCGCCCGCGCCATCGACCATGGCGACGGACAGGTAACGGTGACGCTGGAGCTGCACCACGACGATCCGGATCTCTGCGTTCCGCTTCTCGTCGCCCACGATCTCTGCGATATCGCCGCCGACTGGCGCAGCTGGTCCGAGGCCTACCGTATTCCCATGCTGATGGTGGAAGCAGATGGCGTCGCCCGTCCGCTGGAAGAACATCTCGGCAAGGTGCGCACCCAGAATACCCGCCCGCGCCGCCGCCATTCCTATTTCGCGGAGCGTCGCCCGCGCTTCCTCGTTCGCCGCTCCACCGGTTCGCTGGGCATGAGCATGAAGATCGAGGGCAAGGAAATCATCGCCCGCAGCTGA	MTKTVLKPDWAVATLRLDPARFPQQVTYGKGNGASDVAVTLDERGAVLRKVLSSSGLPLSFALPARAFKGVAARAIDHGDGQVTVTLELHHDDPDLCVPLLVAHDLCDIAADWRSWSEAYRIPMLMVEADGVARPLEEHLGKVRTQNTRPRRRHSYFAERRPRFLVRRSTGSLGMSMKIEGKEIIARS				NA	NA	NA	NA	NA
BMS010_10041	2439			hypothetical protein	ATGGTATCGACTTATCTCAGCTACGACCTCATCAACCGCGATATGAAGGCAAGCCTGTCGCGCGTGTCGCAGCAGGGGCTCATCGAGCGGCAGACGGCATATTACAAGGAAAACATCGGCAATGTGAAAAGCGTCGATGAGTTCCTCGACAATTACCAGCTCTATTCCTATGCCATGGATGCCTTCGGTCTCGGCGAGATGACCTATGCCAAGGCCTTCATGAAAAAGGTGCTGGAAAGCGATCTGAACGACCAGAACAGCTTCGCCAACAAGCTCACCGATGAGCGGTATCGGGAATTCGCCGCAGCCTTCAACTTCACCACATCGACGAAGACGGTTCAGACGGAAGCGCAGCTCGACAAGATGATCGGGCTTTACGATACGTCGATAACCGATCTCGATGACAGCCTTGCGGAAGAGACCCGTTATTACAAGGCGATTGTCGGCACGGTGACCAATGTCGACCAGCTGCTGCGCAACGACCGCACTCGCGCCTATATCTTTCAGGTCTTCGGCATCGATGAGAAGACCTATTCCTATGCCCATATCAAGGGACTGATGACGAGCGACATCAACGATCCCGACAGCTACATCAACCAGAAATACGGCGCGGCCTATAATGACGCGGTCGAAAAACTGACGATGAAGGGCAATATCGAACTGCACGCGCAGGTCACCGCCAGGATTACCGCAATCGACACCGAACTCGCCGGCACCGGTTTGACGGCCGAGGAGCGCACGGCGCTGGAGGCGGAAAAGGTGACGCGCCAGGACCAGCTGACCCAGCTCGAGGCGGTGTTGCCGCCGCAGGATGAGTGGGAAGCGAAGCTCGCCGCCATCAAGGCCGAGCAGACGACGCTCACCAGCACCGTGACGCAATATAACAAGATGGCGCAGCTCGCCACCGCCTTCGAGTTCAAGAACGACGGCACGGTGACCGCCGGTCAGGCGCAGACGGCGGATAATCTCAAGGCCCTGACGGATGCCTATATCGGCAGCGCCCCGCGCGTGACGCCGACCGTCGCCACGCTGAACCGGGATTATTTCGAATCGAAGATCGGTTCGATCAAGACGGTAACCGAACTGACCTCGGATACCCGGCTTCTCAACTATATCAGGACCGCCTTCGACCTTGACGACCTCACAGTCGTCACGGCAACGATCCAGAATATCCTGACCAGCGATCTGAGCGATCCGAGCAACTACATCGCAACTGTCGGCAAGAACGACAAGCGTTATATAGCCTTGAGAAATGCCTTCAATTTCCAGACCGACGGAACGCTGGCAGACGGAACGACACCCCAGACGACGGCACAGACCGCGACCACTACCAGCGGTTATATGACCTATTATAACGACAAGGACGATGCCGCCGACGAGAAGGCGCTGAAGCTGTTCAAGAGCGATATAGCCAGCGTCACTTCCGTCAAGGATTTCATCGACAGCAGCGCGGTCTATACCTATGCGCTGAAAGCCGTCGGCCTCGATCCGACCAAGGTGAATTCCGCCGATATTCGCAAGGTCCTCACCAGCGATCTGCAGGATAAAAAGAGCTTCGTCTACACGCTGAAAGACGAGCGTTATGTCAAGCTGGCGGAGCTGTTCAACTTCGCCTCCGATGGCAGCGTCGGCACACCGGTTCTGGCGCAGTCGGAAATCGAGATGCAGACCATGTCGGCCGACTACATCAAGAAAAAATCGGCTTTCGGCACGGAAAAGGACAAGGAAACGGCGACGAAGGAATCGGAATATTTCACGGCCGAGATGCAGAAGATCAAGACGCTCAAGGAATTCCTGAGCAATGATCGCCTGACGAAATTCGCGATGGAGTCGCTCGGTATCGATCCTGAAAGCGTGACGAAGGAACAGCTCGAAAAGGCCTTCACCTCGAAGCTCGATGACAAGGACAGCTACGTCAACAAGGAGATGGACCCGGTCTTCCGCCGCCTCGTCACCGCCTTCAACTTCAATACCGACGGTACGCTTCTTCACGAGGACCGCAGCCTGATCCAGACGCGGCGCGGCCTTTACGAGACGCTGGACAACTACCTCACCCAGACGCTGGAAACGCAGGCGGGCGAAGAAAATGCCGGCGTGCGCCTGGCGCTCTATTTCCAGCGCATGGCGGCCGGAACGACGTCCTATTACTCGATCCTCGCCGACACGGCGCTCCAGAGCTTCATCAATACCACTTTCGGGATTCCGGACGAGCTCGCCAATGCCGAGGTCGATACGCAGGTGACGATGATGAAGAAATATTTCGACATCGAGGATTTTCAGGATCCGGAAAAGGTCAAGAAGCTGGTCGCCCGTTTCACCATCATGTACGACAATCAGCAGAACACCACCGATCCGATCATGACGCTCTTCAACGGCAGCGGTTCGGTGGGCATCAGCGCCGATACGCTGCTGGCGGTTGCCACGCTGCGGGCGCGGTAA	MVSTYLSYDLINRDMKASLSRVSQQGLIERQTAYYKENIGNVKSVDEFLDNYQLYSYAMDAFGLGEMTYAKAFMKKVLESDLNDQNSFANKLTDERYREFAAAFNFTTSTKTVQTEAQLDKMIGLYDTSITDLDDSLAEETRYYKAIVGTVTNVDQLLRNDRTRAYIFQVFGIDEKTYSYAHIKGLMTSDINDPDSYINQKYGAAYNDAVEKLTMKGNIELHAQVTARITAIDTELAGTGLTAEERTALEAEKVTRQDQLTQLEAVLPPQDEWEAKLAAIKAEQTTLTSTVTQYNKMAQLATAFEFKNDGTVTAGQAQTADNLKALTDAYIGSAPRVTPTVATLNRDYFESKIGSIKTVTELTSDTRLLNYIRTAFDLDDLTVVTATIQNILTSDLSDPSNYIATVGKNDKRYIALRNAFNFQTDGTLADGTTPQTTAQTATTTSGYMTYYNDKDDAADEKALKLFKSDIASVTSVKDFIDSSAVYTYALKAVGLDPTKVNSADIRKVLTSDLQDKKSFVYTLKDERYVKLAELFNFASDGSVGTPVLAQSEIEMQTMSADYIKKKSAFGTEKDKETATKESEYFTAEMQKIKTLKEFLSNDRLTKFAMESLGIDPESVTKEQLEKAFTSKLDDKDSYVNKEMDPVFRRLVTAFNFNTDGTLLHEDRSLIQTRRGLYETLDNYLTQTLETQAGEENAGVRLALYFQRMAAGTTSYYSILADTALQSFINTTFGIPDELANAEVDTQVTMMKKYFDIEDFQDPEKVKKLVARFTIMYDNQQNTTDPIMTLFNGSGSVGISADTLLAVATLRAR				NA	NA	NA	NA	NA
BMS010_10042	951	hdfR_8		HTH-type transcriptional regulator HdfR	ATGTCCGCACCTCTCGACATAGACCAGCTGCATACCTTCATCGCCATCGTCGATACGGGCAGCTTCACCAAGGCCGCAGACCGCGTTTTCAAGACGCAATCCGCCGTTTCCATGCAGATGCGACGCCTGGAAGAACGGATCGGCAAGCAGCTTTTCGCCAAGGACGGGCGTGGCAACCGCCTGACGGCGGAGGGCGAGAAGCTGATGAATTACGCACGCCGCATCATCCGCCTCAATAACGAGGCAATCGCCGCCTTCGACGACAACCGGCTGGAAGGCATGCTGCGCATCGGCACGCCCGATGACTATGCCGACCGCTACATGCCGGAGATTATCGGGCGCTTCGCCAAGACCCATCCCAATGTCGAGCTTTATATCGTCTGCGAACCTTCGGTCAGCCTTGCCGAAAAAATGGCGCGGGGCGAGCTGGATATCGCGCTCGTCACCCATAATCCGCGCGCGCGCTCCTCGGATGTGGTGCGCACCGAACCGCTCTGCTGGGTCGCTTCCGCCAACCATCCGCTGAAGGACGATGCACCCGTGCCGCTCGCCGTCGGGCGGCGAGATTGCCACTGGCGCCAGCTTGCCTGTTCGGCGCTCGATGCCGATGGGCGGGACTATCAGGTCCTGTTCACGAGCTGGTCTTCCACCGTGGTCGCCGCCGCCGTACTGGCGGGCATGGCCGTCTCGGTGCTGCCGGAATCGGCGCTGCGCACCGGCATGAAGGTTCTGACCGCCGCGGACGGCTTCCCGCCCCTGCCGCCGGTGCAGATCGGCCTGATGAAACGGCCCGGCCTTTCCCCCTCGCTGGTGAACGCCATCACCGACCACATCACTGCCTGCCTCGACAATATCTCGCCGATGAGCGTTGCCGACGAAATGGACAGCGATGTGAAGACCTACCCCAAGATGCCACGCCTGCGCGCCGGGCACATGCTGCCGGGGTGGTAA	MSAPLDIDQLHTFIAIVDTGSFTKAADRVFKTQSAVSMQMRRLEERIGKQLFAKDGRGNRLTAEGEKLMNYARRIIRLNNEAIAAFDDNRLEGMLRIGTPDDYADRYMPEIIGRFAKTHPNVELYIVCEPSVSLAEKMARGELDIALVTHNPRARSSDVVRTEPLCWVASANHPLKDDAPVPLAVGRRDCHWRQLACSALDADGRDYQVLFTSWSSTVVAAAVLAGMAVSVLPESALRTGMKVLTAADGFPPLPPVQIGLMKRPGLSPSLVNAITDHITACLDNISPMSVADEMDSDVKTYPKMPRLRAGHMLPGW				NA	NA	NA	NA	NA
BMS010_10043	294			hypothetical protein	ATGCGCACGGCAGAACGGAGAATGGAACTGGAACTCGCAACCTCCAGGCAGAACGATACGCTTCGTCGTGTCGCCGGCCTCTTTGCTTTCCGCGTCAAAACGTTCTTGCAGCGCATCTACAATCGTATCGTGGCCAATGGTCTCACGGAACTCGATGACCGCCTTCTGGCCGATATCGGTCTGGCGCGCTCGGATGTGAGGGATGCGCTCAATACCGGCCTGCTCGAGGATCCGACCGCCCATTTGACCCGCGCCGCACGCAACCGCGCGGTGACCCGGTTCAAGACCGTTTAA	MRTAERRMELELATSRQNDTLRRVAGLFAFRVKTFLQRIYNRIVANGLTELDDRLLADIGLARSDVRDALNTGLLEDPTAHLTRAARNRAVTRFKTV				NA	NA	NA	NA	NA
BMS010_10044	1374	egtA	COG3572	Glutamate--cysteine ligase EgtA	ATGGCACGCGACACGACCGACCAGACCCCCCTCTCCTCCGTCACGGAGCTTACAGATTATCTGGCGGGCGGTTGCAAAGCTGAAGCCGACTTCCGCATCGGCACCGAACATGAAAAATTCGCGTTTTTCCGCGAGGATAACAGTCCCGTTCCCTATTTCGGCGAAGCCAGCATTTCAGCACTTTTGAAGGGCATGCAGGAAAAGCTCGGCTGGGAGCCGATCATGGACGGCGGAAACATCATCGGCCTTGGCGAGCAGCACGGCATGGGCGCCATTTCCATCGAGCCGGGCGGCCAGTTCGAGCTGTCGGGCGCGCCGCTCGAAAACCTGCACCAGACCTGCAAGGAATCCAACCAGCATCTGGCGACACTGCGCGAAGTGGCCGAGCCGATGGGCATCCGTTTCCTCGGCATCGGCGGCAGCCCGCTGTGGAGCTATGACGAAACGCCACGCATGCCGAAATCGCGTTACGCGATCATGACGCGCTATATGCCGAAAGTCGGGACCAAGGGTCTCGACATGATGTACCGCACCTGCACCATTCAGGTTAATCTCGATTTTTCCTCCGAAGCGGACATGCGCCGGAAGATGCGCGTTTCCATGAAGCTGCAATCGCTGGCAACAGCGCTTTTCGCCTCCTCGCCCTTCACCGAAGGCAAGCCGAACGGTCTTCTTTCCTGGCGCGGCGATATCTGGCGCGACACCGACAATCGCCGCTCGGGAGTGCTGCCCTTCACCTTCAGCGATGACTTCGGCTTCAAGGACTATGTGGAATGGGCGCTCGACGTGCCGATGTATTTCATCGTGCGCGACGGCAAATATCATGATTGCACCCATGTCACTTTCCGCCAGTTCATGAACGGTGCGCTGAAGGGTGAAATCGCCGACTGGCAGCCGACCATGGGTGACTGGACGAACCATCTTTCCACCCTGTTCCCGGATGTGCGCCTGAAGCGCTTTCTGGAAATGCGCGGTGCGGATGGCGGCCCGTGGAGACGCATCTGCGCCCTTCCCGCTTTCTGGGTCGGCCTTCTCTACGATGACGAGGCGCTGACCGCTGCCGATGCGCTGACCGCCGGCTGGAGCTTCGACGAGGTCATCGCCCTTCGCAATGCCGTTCCGGCCAAGGGTCTTTCCGCCGAGATCGCCGGCAAGCCGCTTCTCGGTCTCGCCCGCGAGGTGCTCGACATTTCCCGTACCGGCCTGAAAAACCGCAAGCGCCTGAACGGCGAAGGCCAGGACGAGACCGTGTTCCTGTCGTCGCTGGATGAAGTTCTTGCCAAGAAGACCACGCTCGCCGAAGACCTACTTGCGCTTTACAACGGTCGCTGGGGCGGCTCCGTGCTGCCGGTGTTCGAAGAATATCAGTATTGA	MARDTTDQTPLSSVTELTDYLAGGCKAEADFRIGTEHEKFAFFREDNSPVPYFGEASISALLKGMQEKLGWEPIMDGGNIIGLGEQHGMGAISIEPGGQFELSGAPLENLHQTCKESNQHLATLREVAEPMGIRFLGIGGSPLWSYDETPRMPKSRYAIMTRYMPKVGTKGLDMMYRTCTIQVNLDFSSEADMRRKMRVSMKLQSLATALFASSPFTEGKPNGLLSWRGDIWRDTDNRRSGVLPFTFSDDFGFKDYVEWALDVPMYFIVRDGKYHDCTHVTFRQFMNGALKGEIADWQPTMGDWTNHLSTLFPDVRLKRFLEMRGADGGPWRRICALPAFWVGLLYDDEALTAADALTAGWSFDEVIALRNAVPAKGLSAEIAGKPLLGLAREVLDISRTGLKNRKRLNGEGQDETVFLSSLDEVLAKKTTLAEDLLALYNGRWGGSVLPVFEEYQY	PGPT0013035_1911	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013035-gshA|ybdK-K01919	NA	NA
BMS010_10045	738	rsmE_2	COG1385	Ribosomal RNA small subunit methyltransferase E	ATGCGCGCCAATTTCCGGATGCAACGCCTGTATATCGAAGCCAGCCTTGTCGAAGGCGTCGCGCAGGAGGCGACGGGGGAACAGTTCAACTATCTCGCCAATGTGCTGCGCATGACCGACGGTGCGGAAATCCTGCTGTTCAACGGTCGCGATGGCGAATGGAAAGCGAAACTTGCCTTTCCGAGCCGCAAGAAGATCGTGCTCGTCCCCCTCGAGCAGACACGGCCCCAGCCGAACGCCCCGGACCTGCATTATCTTTTCGCGCCGCTGAAAGTCGGGCGCATGGATTATCTGGTGCAGAAGGCGGTGGAGATGGGCGCCGGCCTGTTGCAGCCAGTGATGACGCAGCATGTTCAGGGCAAAATCCATAACACCGAAAAACTGCGCGCCAACGCCATCGAAGCCGCCGAGCAGTGCGGCATACTGTCCCTGCCCGAGGTGGCCGAGCCGGTGAAACTGAAGGACATGCTCGAGAGCTGGCCCCACGACCGGCGCATCATCTATTGCGACGAAGGCGATGCGGGGCAAAATCCGCTGCCGATCCTGCAAGCCGTCACGGAGCGCAAACTTGCCCTGCTGGTCGGCCCGGAAGGCGGATTTTCCGAGGAAGAAAGGGAGCTTCTGCGCGGCCTTGCCTTCGTTACCCCCATTCCGCTGGGGCCGCGTATCCTGAGGGCCGATACGGCCGCCGTCGCTGCGCTCGCGGTCATTCAGGCGGCGATCGGCGACTGGAATTGA	MRANFRMQRLYIEASLVEGVAQEATGEQFNYLANVLRMTDGAEILLFNGRDGEWKAKLAFPSRKKIVLVPLEQTRPQPNAPDLHYLFAPLKVGRMDYLVQKAVEMGAGLLQPVMTQHVQGKIHNTEKLRANAIEAAEQCGILSLPEVAEPVKLKDMLESWPHDRRIIYCDEGDAGQNPLPILQAVTERKLALLVGPEGGFSEEERELLRGLAFVTPIPLGPRILRADTAAVAALAVIQAAIGDWN				NA	NA	NA	NA	NA
BMS010_10046	1506			hypothetical protein	ATGGCAATCAAGCCGCCATCGAATATGAAACCGACGCTCGACAAGGATCTCGACAAGATTACCCGTGTCGAAGAGGCGACGCTGCATGTCACGCAGCAGCTTGCCGGCCTTGGCGCGGGGTTCATGTTCGTTGTCCTGGCGGCCATCTTCGCCGGCGTCTTCGTCACCGGCACCGCGGGTTCGGTCATCATCATCGCCGCCGTCGCCATCGGCGCCTATATGGCTATCAATATCGGCGCGAATGACGTCACGAACAATGTCGGCCCGGCGGTTGGGGCCAAAGCCATGCCGCTTGCCGCCGCCCTCATCATCGCCGCCATCTGCGAGATTGCCGGCGCACTGATCACCGGCGGCAATGTGGTCGAGACCATTTCCAGCGGCATCATCAACATCGAGACAATTCCCGACAGGACCGCCTTTTCATGGGCAATGCTGTCGGCGCTTCTCGCCGCCGGCCTTCTCGTCAATATCTCGACATGGACCAAGGCGCCGATTTCCACCACCCATACGGTGGTGGGCGGGGTTGCGGGCGCGGGAATGGCCGCCTATGGGGCGAAGGCGGTCGACTGGATTTCGCTCGGCAGCATTGCCTTCGCATGGGTTCTGGCACCCTTTATCAGCGCCATCATCGCCGTCGCCATCCTTGCTTTCATCAAGGAATTCATCATTTACCGCGAGGACAAGCTCACCTCCGCCCGACTGTGGGTTCCGGTTCTCATCGGTTTGATGGCGGGCGTCTTTATGGCCTATCTCATCTGGGTGGGATTGCGGCAGCTCATGCATGTGTCGCTTGGCCATGCCAGCCTCACTGGGCTGGTGACCGGGCTCGTGGTCTGGCGGCTCTGCGTGCCGATCATCCGCAAACAATCGGAAGGATTGGAAAACCGCAACCAGTCGCTTCGAATCCTGTTCCAGTGGCCGCTGGTTCTCGCCGCCGGCCTTATGTCTTTCGCCCATGGGGCGAACGACGTTTCGAATGCCATCGGGCCCGTCGTTGCCATCGTGCGGGCCCTGCATGACGAGGCGGTGAGCACATCCGCCCGCGCACCGATGTGGGTAATGCTGGTCGGTGCCTTCGGGCTTTCCTGCGGTATTCTTCTTTATGGCCCGCGCCTCATCCGTCTCGTCGGCGAGCAGATCACCAAGCTCAATCCGATGCGCGCCTTCTGCGTTTCCGTGGCCACGGCGCTCACCGTGCTCGTTGCCTCACGCTTCGGCCTGCCGGTCAGCACCACCCACACGGCAATCGGCGCGGTGTTTGGAGTGGGTTTCTTCCGCGAATGGTACACGCAATCGTCGCGGCGACGGCAGGAGCTCGTTCAGGCTGGTGACGGCAGGCCCCGCCGGTCCGAAAGATATGCCGACAATCCTTCCGAAATACGCCGCCGTTATCTCGTCCGCCGCTCCCACTTCATGACGATCATCGCCGCCTGGCTGGTCACCGTTCCTTCCAGTGCAGCGCTTGCGGCGCTGCTTTACTGGCTCATGTCGTCCCTCTTTCTCTGA	MAIKPPSNMKPTLDKDLDKITRVEEATLHVTQQLAGLGAGFMFVVLAAIFAGVFVTGTAGSVIIIAAVAIGAYMAINIGANDVTNNVGPAVGAKAMPLAAALIIAAICEIAGALITGGNVVETISSGIINIETIPDRTAFSWAMLSALLAAGLLVNISTWTKAPISTTHTVVGGVAGAGMAAYGAKAVDWISLGSIAFAWVLAPFISAIIAVAILAFIKEFIIYREDKLTSARLWVPVLIGLMAGVFMAYLIWVGLRQLMHVSLGHASLTGLVTGLVVWRLCVPIIRKQSEGLENRNQSLRILFQWPLVLAAGLMSFAHGANDVSNAIGPVVAIVRALHDEAVSTSARAPMWVMLVGAFGLSCGILLYGPRLIRLVGEQITKLNPMRAFCVSVATALTVLVASRFGLPVSTTHTAIGAVFGVGFFREWYTQSSRRRQELVQAGDGRPRRSERYADNPSEIRRRYLVRRSHFMTIIAAWLVTVPSSAALAALLYWLMSSLFL	PGPT0002655_802	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPHATE_TRANSPORT,PGPT0002655-TC_PIT-K03306	NA	NA
BMS010_10047	480			hypothetical protein	TTGAAGATTTTGAATCGATTGGCGACAGATGTTGGCTTGATGTTGCGCAGACCGCCGCGACAGCAATATGCAGCGCTGTGCTATCGATTGTCCAAGAAGAATCCGGAGCCGGAAGTGTTGCTGCTGACCAGCCGGGATACGGGACGCTGGGTCATTCCCAAGGGCTGGCCCATGGCCAACAAGAAGGCCCATGCGGTGGCCGAGCAGGAAGCTTATGAGGAAGCCGGTGTCAAAGGCACGGTGGAAAAGGCCCCCTTCGGTTATTACGAATACGAGAAAAAGCTGAACAGCGGCGTCAACGTACCGTGCAGGGTTCAGGTGCATCTGCTCGAAGTTTCGGAGATGCAGGAAAGTTTTCCCGAAAAACAATCCAGACGTCTGGAATGGGTCAGTCCCCAGGAAGCGGGAAAACGCGTCAACGAGCCGGAATTGAAAGCGCTGATGCTCGCTTTCGACAAACGGATGACGCATTCGAAATAG	MKILNRLATDVGLMLRRPPRQQYAALCYRLSKKNPEPEVLLLTSRDTGRWVIPKGWPMANKKAHAVAEQEAYEEAGVKGTVEKAPFGYYEYEKKLNSGVNVPCRVQVHLLEVSEMQESFPEKQSRRLEWVSPQEAGKRVNEPELKALMLAFDKRMTHSK				NA	NA	NA	NA	NA
BMS010_10048	762	mfppA	COG0561	Mannosylfructose-phosphate phosphatase	ATGGAACGACGGCGATTGAAACCGCTTCGCCTTTTTTCCACCGATCTCGACGGAACCGTCGTCGGCGATAACGACGCCACGCGCCGGTTCCGCGATTTCTGGCATTCGTTGCCGGAGGGTCAACGTCCCCTTCTGGTTTTCAATAGTGGCAGGCTGATCGACGACCAGCTTGCGCTTCTCGAAGAGGTGCCGCTGCCGCAGCCCGACTACGTCATTGGCGGGGTCGGCACCATGCTGCACGCGAAAGAGCGAGGCGAGTTGGCAAACGCCTATACACAGTCTCTCGGCACCGGTTTCGACCCCCAGAAGATTGCCGAGGTCATGGCCGGAATTCCCGGTGTGACGATGCAGGAAGAGCGTTACCAGCACGGCTTGAAATCGAGCTGGTTCCTGCATGACGCCGATGACGCCGCGCTCGAAGATATTGAGGCCGCGCTTGTGGCGGCCGATATCGATGCCCGTATCGTCTATTCCAGCGACCGCGACCTCGACGTCTTGCCGAAAGCCGCCGATAAGGGTGCCGCGCTGACATGGCTATGTGGACAACTACAGATCGGCCTCGACGAATCAGTGGTTGCAGGCGATACTGGCAATGATAGGGCGATGTTTGAGCTAAAGAATATTCGCGGCGTGATCGTGGGCAATGCCCTGCCGGAGCTCGTCTCGCTGACATATCATGATACGCGCTTCTTTCACTCGGCTGCGAAGGAGGCGGACGGTGTGGTCGAAGGCCTCCGGCACTGGGGATTAACCCCGGACTAA	MERRRLKPLRLFSTDLDGTVVGDNDATRRFRDFWHSLPEGQRPLLVFNSGRLIDDQLALLEEVPLPQPDYVIGGVGTMLHAKERGELANAYTQSLGTGFDPQKIAEVMAGIPGVTMQEERYQHGLKSSWFLHDADDAALEDIEAALVAADIDARIVYSSDRDLDVLPKAADKGAALTWLCGQLQIGLDESVVAGDTGNDRAMFELKNIRGVIVGNALPELVSLTYHDTRFFHSAAKEADGVVEGLRHWGLTPD	PGPT0024546_17	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_REMODELLING_SURFACE_GLYCOSYLATION_PATTERNS	CE-REMODELLING_MANNOSYLTRANSFERASE_ACTIVITY,PGPT0024546-mfppA-K13086	NA	NA
BMS010_10049	1347	mfpsA	COG0438	Mannosylfructose-phosphate synthase	ATGGGACCCATGACGACCACGAGCGAAACTGAACGCTATCCGCGGATAGCTCTCATATCGACGCATGGCTATGTCGCCGCGCACCCGCCGCTGGGCGCTGCGGACACCGGTGGACAGGTGGTTTATGTGCTTGAGCTTGCACGCAAACTCGGCCAGCTCGGTTATACTGTCGATCTTTACACCCGCCGCTTCGAAGACCAGCCGGAATTCGATGAGGTCGATGAGCGCGTCCGCGTGGTGCGCATTCCCTGCGGCGGGCGCGATTTCATTCCCAAGGAATATCTGCACCGTCACCTGATGGAGTGGTGCGAAAATGCACTGCGCTTCATCAAGAAAAACGACCTGAATTATTCGTTCATCAACAGCCATTATTGGGATGCGGGCGTCGCCGGCCAGCGGCTTTCCGAAGCGCTGAAAATCCCACATTTGCACACGCCGCATTCGCTCGGCATCTGGAAAAAGCGCCAGATGGAAACCGACTATCCGGAAAAGGCCGATACGTTCGAACTGGAATTCAACTTCAGGGAACGTATCCAGCACGAGCTGATCATCTATCGGAGCTGCGATATGGTGATTGCCACGACGCCGGTGCAGCTCGACGTTCTGATCGAGGATTACGGTCTGAAGCGCAAGCACATCCACATGATCCCGCCAGGTTATGACGACAACCGTTTCTTCCCTGTTTCCGATGCGACGCGGCAGATGATCCGGCAGCGTTTCGGTTTCGAGGGCAAGACGGTGCTGGCGCTTGGACGCCTTGCGACCAACAAGGGTTATGACCTGCTGATCGACGGTTTTTCCGTGCTTGCCGAGCGCGAACCCGAAGCCCGGCTGCATCTGGCGGTCGGCGGCGAGAATATGGACGAGCAGGAAACCACGATCCTCAACCAGTTGAAGGAGCGGGTGAAAGCGCTCGGCCTAGAGGATAAGGTGGCTTTTTCCGGTTATGTCGCGGATGAAGACCTGCCGGACATCTATCGCGCGGCCGATCTCTTCGTGCTTTCCAGCCGTTACGAACCTTTCGGCATGACGGCTATCGAAGCGATGGCGAGCGGCACACCCACCGTCGTTACCATTCATGGCGGGTTGTTCCGGGCCGTCAGTTACGGCCGCCATGCGCTGTTTGCCGATCCTTTCGACAAGGAAGACCTCGGCATCACCATGATGAAGCCGTTCAAGCATGAGCGACTTTACGGGCGGCTTTCCCGCATGGGGGCTCACAAGGCGCGCAGCCTGTTCACATGGACCGGCATTGCCCAGCAGCTTCTCGCCCTTGTGGAAGGCAGGACCATGATGCCGGTTCTGGAAGAAGCCGATTGGGCCGAACCATGGAACGACGGCGATTGA	MGPMTTTSETERYPRIALISTHGYVAAHPPLGAADTGGQVVYVLELARKLGQLGYTVDLYTRRFEDQPEFDEVDERVRVVRIPCGGRDFIPKEYLHRHLMEWCENALRFIKKNDLNYSFINSHYWDAGVAGQRLSEALKIPHLHTPHSLGIWKKRQMETDYPEKADTFELEFNFRERIQHELIIYRSCDMVIATTPVQLDVLIEDYGLKRKHIHMIPPGYDDNRFFPVSDATRQMIRQRFGFEGKTVLALGRLATNKGYDLLIDGFSVLAEREPEARLHLAVGGENMDEQETTILNQLKERVKALGLEDKVAFSGYVADEDLPDIYRAADLFVLSSRYEPFGMTAIEAMASGTPTVVTIHGGLFRAVSYGRHALFADPFDKEDLGITMMKPFKHERLYGRLSRMGAHKARSLFTWTGIAQQLLALVEGRTMMPVLEEADWAEPWNDGD	PGPT0024550_2	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_REMODELLING_SURFACE_GLYCOSYLATION_PATTERNS	CE-REMODELLING_MANNOSYLTRANSFERASE_ACTIVITY,PGPT0024550-mfpsA-K13058	NA	NA
BMS010_10050	774	pdhR_2	COG2186	Pyruvate dehydrogenase complex repressor	ATGGACGAAACGCTTTTTGCGCGCATCGAGCACAGCCGCACATCGCAGGAGGTGATCTTACGTTTCGAGGAACTGATCCTCGACGGCATATTGCGGGATGGCGACCGGCTGCCCGGCGAGCGCGAACTGGCGCAACGCCTCGATGTCTCGCGGCCTATCCTGCGGGAAGCGCTGAAGGAGCTTGAGACCCGTGGCCTTCTTACCAGCCGGCATGGCGGCGGCACCTATGTCGCCGATATTGTCGGCCCGGTCTTTTCAGACCCCTTGAGCGCGCTGATCACCCGCCACAGCAGAGCGACGCGGGATTTCCTCGAATATCGCCGCTATATCGAAGGCATGACCGCCGAACTTGCCGCACAGCGGGCGACGGAGCCGGACAGGCGCAACCTCGCCGCCATCGTGGACAGAATGCGGGAAGCGCATGAGGCGGGCCGTTTCGAAGAGGAGCTTGCGGGCGATGTGGAATTTCACAACGCCATTGGCGAGGCGGCGCATAATATCGTGCTGATGCACACGTTGCGCTCCTGCTATCGGCTTCTGAGCGATGACATCTTCTACAATCGCCATCTCATCTTCACTGTCGCGGGCGCCCATGACGAGGTGCTGAGGCAACATATCGCCATCCACGATGCGATTGCCGCCGGCGATGCGGCTGCGGCAAGGGCGGCGGCGGAGGCCCATATCGACTTCATCGTGGAGACGACATCCAAGGCGCATCAGGCGCGGGAATGGGACCGGATTTCGCGCCTGAGGCAGCAGCAGCGAAGCCCCTGA	MDETLFARIEHSRTSQEVILRFEELILDGILRDGDRLPGERELAQRLDVSRPILREALKELETRGLLTSRHGGGTYVADIVGPVFSDPLSALITRHSRATRDFLEYRRYIEGMTAELAAQRATEPDRRNLAAIVDRMREAHEAGRFEEELAGDVEFHNAIGEAAHNIVLMHTLRSCYRLLSDDIFYNRHLIFTVAGAHDEVLRQHIAIHDAIAAGDAAAARAAAEAHIDFIVETTSKAHQAREWDRISRLRQQQRSP				NA	NA	NA	NA	NA
BMS010_10051	1275			hypothetical protein	ATGGCCAAGGGTAGATTTGCTTTCGCAAGCGCGCCGGAAAGATCGCTGGCGCTCGGGGAGGTTCATGCGCGACCGACGGTGCTTCTCGCACCCTCGCGCATCATCGTCCAGCTTGCCTTCATGATGGATGGTGGTTCGGCCGTGCATCACTCGGTCATCGCGGAAATGTCGCGCAGCCGCGGTGTCGCGCCACCGGAGCGCGATGCCCGCCACCATGCCATGCCCTGGGGGCAGGGGACCTTGCGCTGGGAGCGGCATACCGAATTTTCGACCTGGTTCTGGGATGGCCCGGCGCCGGAAAAATTCGGCGGCGAGATTGCCGGCGATCCCTTCGGCGACGGCTTTTCGCCGCCCGGCTCGCTGATCTCGGGCGTGCGGCTGGAAATCCGCCCGGAAAATGGCGTGGCGTCTGAGGCGGAGACGATCTTCGAGCCGACCAGCCTCTGTCACAGCGACGTGCGCGACGGTCAGGCGGCGATCCTCACCGATTTCCGGCAGGATCGCGACGGGCTGACACAGATATTGGTGATCGACCGGGGCTTGAGCGATTACAGCCGCGGCGCGCTGGTGCAGCGGCTGTTGGATATCGAGACATATCGCACCCTTGCCATGCTCGGCCTGCCGATGGCGCAGACGCTCTCGCCGGAAATCCGCCGTATCGAAGATGGCCTGACGGGTATCACCCAGCGCATGAAAAACGGCGCGCGCGACGAGGCCGATGCGCTGCTGGCGGAAATGACCCGGCTTGCGGCCGAACTGGAAGCCAATGCCGCGCTCAGCCTCTATCGTTTCGGCGCCAGCCGCGCCTATGACGGCATCGTGCGCGAACGTATCCGGGCGCTTGCGGAAACCCCGGTGCAGGGCCACGAGACCATGGGCAGTTTTCTGGAACGGCGCATGGCGCCCGCCATGCGCACCTGCCAGTCGGTGGAGGAGCGGCAGGCCAACCTGTCGCGCAAGCTCTATCGCGCCACGGCGCTCGTCCGAAGCTGGATCGATGTGGAACTGGAGCGGCAGAATACGGTGTTGCTCAACACCATGAACAAGCGTGCCGCCATGCAGCTTCGCCTGCAGCAGACGGTCGAAGGCCTCTCGGTCGCCGCCATTTCCTATTATGTTGTGGGCCTCATCGGTTATCTCACCAAGGCGATCAGCCATTATGTGCTGCCGCTCGACCCCGCCGTCGTCACCGGCATCTCCGTTCCCTTCGCGGTCCTCGGCGTCTGGTGGGTGGTGCGCCGCATCCGCCGCTCCCATGCCGAGGGCGGGCACTGA	MAKGRFAFASAPERSLALGEVHARPTVLLAPSRIIVQLAFMMDGGSAVHHSVIAEMSRSRGVAPPERDARHHAMPWGQGTLRWERHTEFSTWFWDGPAPEKFGGEIAGDPFGDGFSPPGSLISGVRLEIRPENGVASEAETIFEPTSLCHSDVRDGQAAILTDFRQDRDGLTQILVIDRGLSDYSRGALVQRLLDIETYRTLAMLGLPMAQTLSPEIRRIEDGLTGITQRMKNGARDEADALLAEMTRLAAELEANAALSLYRFGASRAYDGIVRERIRALAETPVQGHETMGSFLERRMAPAMRTCQSVEERQANLSRKLYRATALVRSWIDVELERQNTVLLNTMNKRAAMQLRLQQTVEGLSVAAISYYVVGLIGYLTKAISHYVLPLDPAVVTGISVPFAVLGVWWVVRRIRRSHAEGGH				NA	NA	NA	NA	NA
BMS010_10052	900	dmlR_21		HTH-type transcriptional regulator DmlR	ATGACGAATCTGGGCGATCTGGAAGTCTTCGCAAGCGTTGCCGCCTCCGGCAGCATGTCGCTCGCCGCAAGGGAGCTTGGTTATTCGCCCGCCGTCATTTCCAAACGCATCAAGCGGCTGGAAGAAAAGCTCGGCGCGCGGCTTTTCCAGCGCACCACACGGCAGATCTCGCTGACCGAAGCGGGACAGGGCTTTTACGAGCGGGTGCTTGCCGTGCTGGAAGGGCTGGAGGAGGCCGAGGATTTCGTCTCCGGCCGCGCCAATACGGTCAACGGCACGCTGAAGGTTTCCGCGCCGACCTCCTTCGGGCGCATGCATATCGCGCCGCATCTGAAAGGTTTCATGGAGCGGCATCCGGATCTTTCGGTCAATCTGGTGTTGAGCGACGAATTCATCGACATCATCGAGGGTGGTTACGATCTTGCCATCCGTATCGCCGATCTGAATTCCTCCAGCCTTGTGGCCCGCAGGCTGGCGCCAGTGCGCCGCGTACTCTGCGCTTCGGCGGAATACGTTGCGACCCATGGTATGCCGGCGACAATCGAGGATCTGAAAAAGCACCGCTGCCTGCCGGCCCATAATAACGATGTCTGGCGGCTGGAGGGACCGGGCGGCGCGATGAGCATTCGCCCGGAGGGGATGCTCATCACCAATTCCAGCGAGGTGATCCGCGAGGCGGTGATATCGGGGCTCGGCATTGCGCTGCGCTCCACCTGGGATATCGGCCATGAATTGCGCAGCGGCAAGCTGGTGCAGGTTCTGCCGGGTTATGAGGGATCGCGAAACGTCACGCTCTCGGCGGTTTATCCGAGCCGGCAGTTCCTGCCCGCGAAGGTTCGGCTGTTCATCGATTATCTGGCCGGGCTCTATGGGCCTTCACCTTATTGGGAGCAGGGTTGA	MTNLGDLEVFASVAASGSMSLAARELGYSPAVISKRIKRLEEKLGARLFQRTTRQISLTEAGQGFYERVLAVLEGLEEAEDFVSGRANTVNGTLKVSAPTSFGRMHIAPHLKGFMERHPDLSVNLVLSDEFIDIIEGGYDLAIRIADLNSSSLVARRLAPVRRVLCASAEYVATHGMPATIEDLKKHRCLPAHNNDVWRLEGPGGAMSIRPEGMLITNSSEVIREAVISGLGIALRSTWDIGHELRSGKLVQVLPGYEGSRNVTLSAVYPSRQFLPAKVRLFIDYLAGLYGPSPYWEQG				NA	NA	NA	NA	NA
BMS010_10053	1434		COG0277	putative FAD-linked oxidoreductase	GTGACGCAGCCGATCAAGTTTCTGGAGCCGCGCGCGAAAGTCGTCGCAGGCCGCGACCGCATCATAGCGGACCTCAAGGATATTTTGCCGGCGGACTGTCTTGTGCACGAACCGCGCGAACTTGTGCCTTTCGAAACCGATGCCTTCGTTTCCTATCGCCGCCTGCCGCTGGCCGTAGCGTTGCCGAAAACGACGGAAGAAGTGGCGGCGGTGATGAAATATTGCCACCGTTACGGCATTCCGGTCGTGCCACGCGGGGCCGGCACCTCGCTCTCCGGCGGCGCGATTCCGCAGGAGGATGCGGTGGTGATCGGCCTTTCGAAGATGGCCTCGATCCTCGAACTGGATTTTTATAACCGTACGGCGCGGGTGCAGGCGGGCGTCACCAATCTTTCCATTTCCGATGCGGCAGGTGCTGAAGGTTTCTTTTATGCGCCGGACCCCAGCTCGCAGCTTGCCTGCACCATCGGCGGCAATATCGGCATGAATTCCGGCGGCGCACATTGCCTGAAATACGGCGTTACCACCAATAATCTGCTCGGCGTGAAAATGGTGCTGGTGGATGGCACAGTGCTGGAACTGGGCGGCAAGCACCTCGATGCCGCCGGCTACGATCTGCTCGCCCTCGTCTGCGGCTCGGAAGGCCAGCTCGGTATCGTGACGGAAGCGACGGTGCGGCTGATCGCCAGACCGGAAGGCGCGCGACCGGTGCTGTTCGGCTTCGAGACGTCGGAGGAAGCCGGCTCCTGCGTGGCCGATATTATCGGCGCGGGCATCATCCCGGTCGCCATCGAATTCATGGACAAGCCGGCCATCGAAATTTGCGAGGCTTTCGCCAAAGCGGGCTATCCGCTGGATGTCGGCGCGCTTCTGATTGTCGAGGTCGAAGGCTCCGAGGCGGAAATGGACGCAATGCTGGCCGACATCGTGGCGATTGCCCGAAAACATGGCGTGAAGACGGTGAAGGAATGTCAGTCGGCCATGGAAGCGGCGGCGATCTGGAAAGGCCGCAAATCCGCCTTCGGCGCAACCGGCCGCATCGCGGATTACATCTGCATGGATGGCACCGTGCCGCTCTCCCAGCTTTCCTATGTGCTGAAAAAGACGAGTGAAATCACCGATCGCCTCGGCCTGCGCGTCGCCAATGTCTTCCATGCCGGCGATGGCAATATGCACCCGCTCATCCTGTTCAACGCCAACGATCCGGAGGATGCGGCCCGCGCCGAAGAGGCAGGCAATGAAATATTGAAGCTCTGCGTCGATGCCGGTGGCTGTCTGACCGGCGAACATGGTGTGGGCATCGAAAAACGGGATTTGATGGGCCACCAGTATGGCGAGGCCGATCTTGCCCAGCAGATGGCGGTGCGTGCGGCTTTCGATGAGGGCTGGCTGATGAACCCTTCCAAGGTGTTTCCGCTGGAGGGGAGGGGATGA	MTQPIKFLEPRAKVVAGRDRIIADLKDILPADCLVHEPRELVPFETDAFVSYRRLPLAVALPKTTEEVAAVMKYCHRYGIPVVPRGAGTSLSGGAIPQEDAVVIGLSKMASILELDFYNRTARVQAGVTNLSISDAAGAEGFFYAPDPSSQLACTIGGNIGMNSGGAHCLKYGVTTNNLLGVKMVLVDGTVLELGGKHLDAAGYDLLALVCGSEGQLGIVTEATVRLIARPEGARPVLFGFETSEEAGSCVADIIGAGIIPVAIEFMDKPAIEICEAFAKAGYPLDVGALLIVEVEGSEAEMDAMLADIVAIARKHGVKTVKECQSAMEAAAIWKGRKSAFGATGRIADYICMDGTVPLSQLSYVLKKTSEITDRLGLRVANVFHAGDGNMHPLILFNANDPEDAARAEEAGNEILKLCVDAGGCLTGEHGVGIEKRDLMGHQYGEADLAQQMAVRAAFDEGWLMNPSKVFPLEGRG	PGPT0001890_13	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001890-dld-K00102	NA	NA
BMS010_10054	1248	nrdB	COG0208	Ribonucleoside-diphosphate reductase subunit beta	ATGCTGAGCTGGGACGAATTCGACAAACCCGAAGAAGGCACCGCCGCCAAGCCGGCCGCTGCACAAGCCACCGCCGAACTGAGCATCGAAAAACTCGACAGCGTTGGCGATGCCGCCGCCCATGAAGCCCGCGCCGTGGCTGCCGACGACTCCGACGCCGTGGCCCGCGCCAAGGCCGCGCTGAACGAACTCGACGTACAGGAAGGCCTGGAAGACCTCGAAGGCGCCGCCGCCCGCGTACGCGTCGACGAAAAGCGCATGATCAACTGCCGCGCCGACCTCAACCAACTCGTCCCCTTCAAGTACGACTGGGCCTGGCAGAAATACCTGGATGGCTGCGCCAACCACTGGATGCCCCAGGAAGTGAACATGAACGCCGACATTGCCCTGTGGAAGAGCAAGGACGGCCTCACCGAAGACGAACGCCGCATCGTCAAGCGCAACCTCGGCTTCTTCTCCACCGCCGACTCCCTGGTCGCCAACAACCTGGTGCTGGCCGTCTACCGCCTCATCACCAACCCCGAGTGCCGCCAGTACATCCTGCGCCAGGCCTTCGAAGAAGCCATCCACACCCATGCCTACCAGTACTGCATCGAGTCCCTGGGCATGGACGAAGGCGAAATCTTCAACATGTACCACGAGATTCCCTCGGTCGCTAAGAAAGCCTCCTGGGGCCTCAAGTACACCCGCTCGATCTCCGATCCGAACTTCAACACCGGCACCGTCGAGACCGACAAAGAATTCCTGCGCAACCTCATCGCCTACTACTGCGTGCTGGAAGGCATCTTCTTCTACTGCGGCTTCACCCAGATCCTCTCCATGGGCCGCCGCAACAAAATGACCGGCACCGCCGAACAGTTCCAGTACATCCTCCGCGACGAGTCCATGCACCTGAACTTCGGCATCGACGTGATCAACCAGATCAAGATCGAAAACCCGCACCTGTGGGACGCCGCCATGAAGGACGAAGCGACCCAGATGATCCTCCAAGGCACCCAACTGGAAATCGAATACGCCCGCGACACCATGCCCCGCGGCGTACTCGGCATGAACGCCGCGATGATGGAGGACTACCTCAAATTCATCGCCAACCGCCGCCTGACCCAGATCGGCCTGAAAGAAGAGTACCCGGGCACCACCAACCCGTTCCCCTGGATGAGCGAAATCATGGACCTGAAGAAGGAGAAGAACTTCTTCGAGACGCGGGTGATTGAGTATCAGACGGGTGGGGCTTTGAGTTGGGATTGA	MLSWDEFDKPEEGTAAKPAAAQATAELSIEKLDSVGDAAAHEARAVAADDSDAVARAKAALNELDVQEGLEDLEGAAARVRVDEKRMINCRADLNQLVPFKYDWAWQKYLDGCANHWMPQEVNMNADIALWKSKDGLTEDERRIVKRNLGFFSTADSLVANNLVLAVYRLITNPECRQYILRQAFEEAIHTHAYQYCIESLGMDEGEIFNMYHEIPSVAKKASWGLKYTRSISDPNFNTGTVETDKEFLRNLIAYYCVLEGIFFYCGFTQILSMGRRNKMTGTAEQFQYILRDESMHLNFGIDVINQIKIENPHLWDAAMKDEATQMILQGTQLEIEYARDTMPRGVLGMNAAMMEDYLKFIANRRLTQIGLKEEYPGTTNPFPWMSEIMDLKKEKNFFETRVIEYQTGGALSWD	PGPT0021345_165	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021345-nrdB|nrdF-K00526	NA	NA
BMS010_10055	2889			hypothetical protein	ATGCAGACAGACACTACTCGCGAGAACCCGCAGGCCATCGCGCCGCAGGCGGCCGATTCCAATCTGGATCTGGCGGCTACGGCACCGGGCCAGCTGCGCGTGATCAAGCGTAACGGCACCGTGGTGCCGTACACCGACGACAAGATCACCGTCGCCATCACCAAGGCGTTCCTCGCAGTAGAAGGCGGCACCGCCGCCGCCTCGTCGCGCATCCACGACACCGTGCGCCGCCTGACCGAGCAGGTCACCGCCACCTTCAAGCGCCGCATGCCCTCCGGCGGCACCATCCACATCGAAGAAATCCAGGACCAGGTCGAACTGGCCCTGATGCGCGCCGGCGAGCAGAAAGTCGCCCGCGACTACGTGCTCTACCGCGAAGCCCGCGCCCAGGAGCGCAAGCGCGGCAGCGCCGAGCAGCCGGCCCAGCCGCACCCGAGCATCCGCGTCACCCGTGCCGACGGCAGCCTGGTCGCCCTCGATCTGGGCCGCCTGCAGACCATCATCCGCGAAGCCTGCGAAGGCCTCGCCGAAGTGGACGGCGCGCTGATCGAACGCGAAACCCTGAAGAACCTCTACGACGGCGTCGCCGAGAAGGACGTCAACACCGCCCTGGTGATGACCGCCCGTACCCTGGTCGAGCGCGAGCCGAACTACTCCTACGTCACCGCCCGCCTGCTGATGGATACCCTGCGCGCCGAAGCGCTGGGCTTCCTCGGCATCGCCGAAGCCGCCACCCACCACGAGATGGCCGACCTCTACGCCAAGGCCCTGCCGGCCTACGTGGAAAAAGGCGTCGAGTTCGAGCTGATCGACCCGAAACTCCAGGAATACGACCTGGCCAAGCTGGGTGCCGCGCTGAACCACGAGCGCGACCAGCAGTTCACCTACCTCGGCCTGCAGACCCTCTACGACCGCTACTTCCTGCACAAGGACGGCATCCGCTTCGAACTGCCGCAGGTCTTCTTCATGCGCGTCGCCATGGGCCTGGCCATCGAAGAGCCGCAGAAGAACGAGCGCGCCATCGAGTTCTACAACCTGCTGTCGTCCTTCGACTACATGGCCTCCACCCCGACCCTGTTCAACGCCGGCACCCTGCGCCCGCAGCTCTCCAGCTGCTACCTGACCACCGTGCCGGACGACCTCTCGGGCATCTACAACGCCATCCACGACAACGCCATGCTGTCCAAATTCGCCGGCGGCCTGGGCAACGACTGGACCCCGGTGCGCGCGCTGGGCTCCTACATCAAGGGCACCAACGGCAAATCCCAGGGCGTCGTGCCCTTCCTGAAAGTGGTCAACGACACCGCCGTGGCCGTCAACCAAGGTGGCAAGCGCAAGGGCGCCGTCTGCGCCTACCTGGAAACCTGGCACCTGGACATCGAGGAATTCCTCGAACTGCGCAAGAACACCGGTGACGACCGCCGCCGCACCCACGACATGAACACCGCGAACTGGATTCCGGACCTGTTCATGAAGCGCGTGTTCGACGACGGCCAGTGGACCCTCTTCTCCCCGTCCGACGTGCCGGACCTGCACGACCTCACCGGCCGCGCCTTCGAAGAGCGCTACGAGTACTACGAAGAGCTGACCAAGTACGGCAAGATCAAGCTGTTCAAGACCATCGCCGCCAAAGACCTGTGGCGCAAGATGCTCTCCATGCTGTTCGAGACCGGCCACCCCTGGCTGACCTTCAAGGACCCGTGCAACCTGCGCAGCCCGCAGCAGCACGTAGGCGTGGTGCACAGCTCCAACCTCTGCACCGAGATCACCCTGAACACCAACAAGGACGAGATCGCCGTCTGCAACCTGGGCTCGATCAACCTGGTCAACCACATCGTCGACGGCAAGCTCGACGTCGAAAAGCTCGGCCGCACCGTGAAGACCGCCGTGCGCATGCTCGACAACGTCATCGACATCAACTACTACAGCGTGCCGCAGGCGCGTAACTCCAACCTCAAGCACCGTCCGGTCGGCCTCGGCCTGATGGGCTTCCAGGATGCCCTGTACCTGCAGCACATTGCCTACGGCTCCGATGCGGCCATCGAGTTCGCCGACAAGTCCATGGAAGCCATCAGCTACTACGCCATCCAGGCCTCCTGCGACCTGGCCGACGAGCGCGGCAGCTACTCCACCTTCGATGGCTCCCTGTGGTCCAAGGGCATCCTGCCGCTGGACTCCCAGCAGATCCTCATCGAAGCGCGCGGCCAGAAGTACATCGACGTCGACCTGTCCGAGTCGCTGGACTGGGCCCCGCTGCGCGAGCGCGTGAAGAAAGGCATCCGCAACTCCAACATCATGGCCATCGCCCCGACCGCGACCATCTCCAACATCATTGGCGTGTCGCAGTCCATCGAGCCGACCTACCAGAACCTCTACGTGAAGTCGAACCTCTCCGGCGAGTTCACCGTGATCAACCCCTACCTCGTCCGCGACCTCAAGAACCGCGGCCTGTGGGACCCGGTCATGGTCAACGACCTGAAGTACTACGACGGCTCCGTGCAGCAGATCGAGCGCATCCCGCAAGACCTGAAAGACCTGTACGCCACCGCCTTCGAAGTGGAGACCCGCTGGATCGTCGAAGCCGCCAGCCGCCGCCAGAAGTGGATCGACCAGGCCCAGTCGCTCAACCTCTACATCGCCGGTGCCTCGGGCAAGAAGCTGGACGTGACCTACCGCATGGCGTGGTTCCGTGGCCTCAAGACCACCTACTACCTCCGTGCCCTGGCCGCCACCAGCACCGAGAAGTCCACCATCAACACCGGCAAGCTCAACGCCGTGTCCTCGGCCATCGACGAAACCCTGCAAGCCGCCCCGGCCGCCGAACCCGCCCCGGCCCCGGTACCCAAGGCCTGCAGCATCGACAACCCGGACTGCGAGGCGTGCCAGTAA	MQTDTTRENPQAIAPQAADSNLDLAATAPGQLRVIKRNGTVVPYTDDKITVAITKAFLAVEGGTAAASSRIHDTVRRLTEQVTATFKRRMPSGGTIHIEEIQDQVELALMRAGEQKVARDYVLYREARAQERKRGSAEQPAQPHPSIRVTRADGSLVALDLGRLQTIIREACEGLAEVDGALIERETLKNLYDGVAEKDVNTALVMTARTLVEREPNYSYVTARLLMDTLRAEALGFLGIAEAATHHEMADLYAKALPAYVEKGVEFELIDPKLQEYDLAKLGAALNHERDQQFTYLGLQTLYDRYFLHKDGIRFELPQVFFMRVAMGLAIEEPQKNERAIEFYNLLSSFDYMASTPTLFNAGTLRPQLSSCYLTTVPDDLSGIYNAIHDNAMLSKFAGGLGNDWTPVRALGSYIKGTNGKSQGVVPFLKVVNDTAVAVNQGGKRKGAVCAYLETWHLDIEEFLELRKNTGDDRRRTHDMNTANWIPDLFMKRVFDDGQWTLFSPSDVPDLHDLTGRAFEERYEYYEELTKYGKIKLFKTIAAKDLWRKMLSMLFETGHPWLTFKDPCNLRSPQQHVGVVHSSNLCTEITLNTNKDEIAVCNLGSINLVNHIVDGKLDVEKLGRTVKTAVRMLDNVIDINYYSVPQARNSNLKHRPVGLGLMGFQDALYLQHIAYGSDAAIEFADKSMEAISYYAIQASCDLADERGSYSTFDGSLWSKGILPLDSQQILIEARGQKYIDVDLSESLDWAPLRERVKKGIRNSNIMAIAPTATISNIIGVSQSIEPTYQNLYVKSNLSGEFTVINPYLVRDLKNRGLWDPVMVNDLKYYDGSVQQIERIPQDLKDLYATAFEVETRWIVEAASRRQKWIDQAQSLNLYIAGASGKKLDVTYRMAWFRGLKTTYYLRALAATSTEKSTINTGKLNAVSSAIDETLQAAPAAEPAPAPVPKACSIDNPDCEACQ	PGPT0021340_1388	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021340-nrdA|nrdE-K00525	NA	NA
BMS010_10056	720	rstA	COG0745	Transcriptional regulatory protein RstA	GTGGAGCATGAAGGCTGGCAAATCCTGATCGTCGAAGATGACCGCCGTCTGGCCGAGCTGACGCGGGAATATCTCGAAAGCAACGGTTTGAAGGTGGCCATCGAGGCCGATGGCGCCAAGGCTGCCGAGCGCATCGTGCGCGAGCAGCCGGACCTGGTGGTGCTCGACCTGATGCTGCCCGGCGAGGATGGCCTGAGCATCTGCCGCAAGGTGCGCGACGGCTACGACGGGCCGATCCTGATGCTCACCGCGCGCACCGACGATATGGATCAGGTGCTTGGCCTGGAAATGGGCGCGGATGACTACGTGTGCAAGCCGGTGCGTCCGCGTGTGCTGCTGGCGCGCATACGGGCCCTGCTGCGGCGCAGCGAGGGACCGTCGGAGTCGGCCGGCGAGGGCGCGCAGCGCCGCCTGACCTTCGGCCCGCTGGTGATCGACAACGCCATGCGCGAAGCCTGGCTGGCCGAGCGCAGCATCGAGCTGACCAGCGCCGAGTTCGATCTGCTCTGGCTGCTGGCGTCCAATGCCGGGCGCATTCTCTCCCGCGAGGAAATCTTCAATTCGCTGCGCGGCATCGAGTACGACGGCCAGGACCGTTCCATCGACGTGCGCATTTCACGCATCCGCCCGAAGATCGGTGACGACCCGATGCATCCCCGCCTGATCAAGACGGTGCGCAGCAAGGGCTATCTGTTCGTCGGCGAAGCGGCGGTGCTGTGA	MEHEGWQILIVEDDRRLAELTREYLESNGLKVAIEADGAKAAERIVREQPDLVVLDLMLPGEDGLSICRKVRDGYDGPILMLTARTDDMDQVLGLEMGADDYVCKPVRPRVLLARIRALLRRSEGPSESAGEGAQRRLTFGPLVIDNAMREAWLAERSIELTSAEFDLLWLLASNAGRILSREEIFNSLRGIEYDGQDRSIDVRISRIRPKIGDDPMHPRLIKTVRSKGYLFVGEAAVL	PGPT0015035_51	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-BF-RST_PH|TEMPERATURE|STARVATION_SIGNALLING_SYSTEM,PGPT0015035-rstA-K07661	NA	NA
BMS010_10057	1608	sasA_30		Adaptive-response sensory-kinase SasA	GTGAACTCCATCTTCCTGCGCATCTACGGCGGCATGCTGGCCGCCCTGGTGCTGGTGGCGTTGCTGGGTGTCGGCGCGCTGCACTTGGTCAACGAGGTGCGTTCGGACCAGTACCGCGAGAGCCTGGCGCGCGGGACCTTCCGCCTGATGGCCGACAACCTGGCGCCGATGAATGCCGTGGAGCGACGCCGGGCCACGGCGCTCTGGGGACGCTTGCTGGGCATTCCGCTGGAGGTCCGGCCGCTGGCCGAGGAGGGCATCGACAGCGGTGCCCGCGCCCGGCTGTTCCGGGGGCAGATTCTGGTGGAGCAGACCGGGCCGCATGCAGCCAAGGTCTACGCGCTGGTCAGCCAGGCCGAGGGCTTGCTGCTGGTGGGTTCGGTGCAGCAGATCAGCGAGCAGTTGGCCCGCGCCACCATCTATCTGTTGATCGACGAGTTGGTGCGTTTCCCTGTCGATGAGCAGCCTACGCGGCTGGCCGATCTGAAGGCGGCCAAGCAGTTCGGCTTCGAGCTGCATCTGGTGACCCTGGACAAGGCCGATCTCGATCAGGACCAGCGCCGCCGCATCGACGAGGGCGACACGGTGATGGCGCTGGACAAGGGCGGCGATGCGATCCGCGTCTTCGCCGGCATCGTCGACACGCCCTGGGTGCTGGAAATCGGCCCGCTGTACCAGATGAATCCCTACCCGCCGCAGTTGCTGGTGCTGATCGGCGTGCTCGGCCTGAGCCTGATCGGGCTGATCGTCTACCTGCTGGTGCGGCGCCTGGAGCGTCGTTTGTCCGATCTGGAGAGCGCCGCCACGCGTATCGCCGGCGGCAGCCTGGAGGCGCGCGTTCCGGCCAGCGGGGCGGATTCGGTGGGGCGGCTGGCGGCGGCTTTCAACCACATGGCCGAGCACCTGCAGCAGCTTCTCTCGGTGCAGCGCGAGATGGTTCGCGCGGTGTCCCACGAGTTGCGCACGCCGGTGGCGCGGCTGCGCTTCGGCCTGGAGATGATCGCCGACGCCGAGACGGAGAAGGCGCGGCAGAAGTACATGGAGGGCATGGACAGCGACATCCAGGACCTCGACCGGCTGGTGGACGAGATGCTGGTCTATGCGCGCCTGGAGCAGGGCTCGCCGGCGCTGAACTTCCAGCAGGTCGATCTGCATGCGCTGCTCGATCAGGTGATCGCCGAGCTGGCGCCGCTGCGTGCCAGCGTGCGGGTGGAGCAGGGGCCGTCGCAGGATGCGCCGGAGGGCGGGGCCTGGGTCGAGGCGGAGCCGCGTTACCTGCACCGGGCCTTGCAGAACCTGGTGACCAACGCGATGCGCCACGCCGAGTCGCGGGTGCGGGTGAGCTACCGGATTGGCCAACGGCGTTGCCGCCTGGACGTGGAAGACGACGGGCCGGGCGTACCGGAGGAGGCGTGGGAGCGCATCTTCAGCCCCTTCCTGCGCCTGGACGACAGCCGCACCCGGGCCTCCGGTGGGCATGGGCTGGGGCTTTCCATCGTGCGGCGGATCATCTACTGGCACGGCGGCCGCGCCCTGATCGGCCGCAGCGACTTTGGCGGCGCGCAGTTCAGCCTGGTCTGGCCGCGTCGGCAGGGTGAGGAGGAATAG	MNSIFLRIYGGMLAALVLVALLGVGALHLVNEVRSDQYRESLARGTFRLMADNLAPMNAVERRRATALWGRLLGIPLEVRPLAEEGIDSGARARLFRGQILVEQTGPHAAKVYALVSQAEGLLLVGSVQQISEQLARATIYLLIDELVRFPVDEQPTRLADLKAAKQFGFELHLVTLDKADLDQDQRRRIDEGDTVMALDKGGDAIRVFAGIVDTPWVLEIGPLYQMNPYPPQLLVLIGVLGLSLIGLIVYLLVRRLERRLSDLESAATRIAGGSLEARVPASGADSVGRLAAAFNHMAEHLQQLLSVQREMVRAVSHELRTPVARLRFGLEMIADAETEKARQKYMEGMDSDIQDLDRLVDEMLVYARLEQGSPALNFQQVDLHALLDQVIAELAPLRASVRVEQGPSQDAPEGGAWVEAEPRYLHRALQNLVTNAMRHAESRVRVSYRIGQRRCRLDVEDDGPGVPEEAWERIFSPFLRLDDSRTRASGGHGLGLSIVRRIIYWHGGRALIGRSDFGGAQFSLVWPRRQGEEE	PGPT0015040_107	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-BF-RST_PH|TEMPERATURE|STARVATION_SIGNALLING_SYSTEM,PGPT0015040-rstB-K07639	NA	NA
BMS010_10058	1371	hyuP_2		Hydantoin permease	ATGCACAGCGAACACATCCATCCGCAGAGCCTGCGGCTCGACACCCCATCGGCCAGCGACGCCAGCAAGGCCGCCGGGGAAGAATCCCTGGCCCCGCAGAAAACCCGCATCATGGGGCGCGTCTCCTACCTGCTGGCCTGGTTCGGCGGCTGCGTCTCCATCGGCACCTTCGCCATGGGTTCGAGCATCGTCGGCACCCTCAACCTCTTGCAGGCGACCCTGGCCATCGCCATCGGCTGCTTCGTCATCGGCATCGCCCTGGCTCTGAACGGCGCCGCCGGCTACAAGTACGGTATTCCCTTCATGGTCCAGGCGCGTAGCGCCTTCGGCTTCAGCGGCACACGCTTCCCCGGCCTGGTGCGGGCGGTGCCGGCCATCGTCTGGTACGGCTTCCAGAGCTGGATCGGCGCCGGCGCACTGAATGCCGTGTCCAGCACACTGTTCGGCTTCGACAATCTGGTGTTCTACTTCGTGGTGTTCCAGTTCCTGCAGATCGGCCTGTCGATCTTCGGCTTCCAGGGCATCAAGTGGCTGGAGAACATCGGCAGCGCCTTCATCCTGGTTTCGCTGGTGTACATGTTCTATAGCGTGATCGACCGCTACGGCGACGCGATCACCGCCAATCTGGTGAACATCGAAGGCACCTGGGGCCTGCCCTTCTGGGGCGCGACCCTGCTCTTCCTCGGCATCTACAGCACCATGATGCTTAACGTCAGCGACTACTCCCGTGAACTCAAGGAAGGCAGCGGCCCCGGCCTGCTGACCACGCTGTACGCCATGTCGATCCTGCCGTGCACCTTGTTCATGGGGTTGATCGGCCTGATGGTCTCCGGTGCCACCGGCGTCTCCGACCCGATCAAGGTGTTCGCCAGCGCGGTGGACAACACCCCGCTGCTGGTCGCCACCCTGCTGTTCATCGCCTTCGCCCAGGTCACCACCAACGTGCTCAACAACGTGGTGCCGCCCACCTACATTCTCATGGACGTGTTCAAGCTGCGCTTCCGCACCGCCACCGTGCTGGTCGGGCTGCTGGCCTTCGGCACCTTTCCCTGGGAACTGGTGAAGGACGAATCCGCCGCCGGCCTGCAGCTTTTCGTGCAGACCTACTCGGCCTTCCTCGGCCCGATCTTCGCCGTGCTGGTGGTGGACTACTTCATCCTGCGCCGGCGCCACCTGGACATCGCCAAGCTCTACGACGCCGAGGGACCGTACCGTGGCGTCAACTACGCCGCCATCGCCGCCTCGCTGCTCGGTGCCGCCGTGGCCCTGAGCTTCCCGGCCGTATCCTGGTACGCCAGCCTGCTGCCCGCCGGGCTTGCCTACTACCTGCTGATGCGCCGCTGGCCGGCCTGCCGGCGCTTCCTGGACTGA	MHSEHIHPQSLRLDTPSASDASKAAGEESLAPQKTRIMGRVSYLLAWFGGCVSIGTFAMGSSIVGTLNLLQATLAIAIGCFVIGIALALNGAAGYKYGIPFMVQARSAFGFSGTRFPGLVRAVPAIVWYGFQSWIGAGALNAVSSTLFGFDNLVFYFVVFQFLQIGLSIFGFQGIKWLENIGSAFILVSLVYMFYSVIDRYGDAITANLVNIEGTWGLPFWGATLLFLGIYSTMMLNVSDYSRELKEGSGPGLLTTLYAMSILPCTLFMGLIGLMVSGATGVSDPIKVFASAVDNTPLLVATLLFIAFAQVTTNVLNNVVPPTYILMDVFKLRFRTATVLVGLLAFGTFPWELVKDESAAGLQLFVQTYSAFLGPIFAVLVVDYFILRRRHLDIAKLYDAEGPYRGVNYAAIAASLLGAAVALSFPAVSWYASLLPAGLAYYLLMRRWPACRRFLD	PGPT0009075_3269	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_TRANSPORT,PGPT0009075-cytX-K03457	NA	NA
BMS010_10059	735	hyuA	COG4126	Hydantoin racemase	ATGAAGATCCGCGTCATCAACCCCAATACCACCAGCAGCATGACCGAGAAGATCGGCGATGCCGCACGCCGTATCGCCGCGCCGGGCACCGAGATCGTGGCGAGCAATCCGAGCAGCGGGCCGGTGTCCATCGAGAGCCATTTCGACGAGGCCATCAGCGCCGTCGGCGTGCTGGAGGAAATCCGCGCTGGCGAGCAGGAGCGGACCGACGCCTACATCCTCGCCTGCTTCGGCGACCCCGGCCTGCTCGCCGCCCGCGAGCTGACCCGCGCACCGGTGATCGGCATCGCCGAGGCCGCGTTCCACATGGCCACGCTGATCGCCACACGCTTCTCCATCGTCACCACCCTGGCGCGCACCGGAATCATCGCCGAGCACCTGCTGCAGACCTACGGCTTCGCCCATCACTGCCGCCGCGTGCGCGCCGCCGAAATCCCCGTGCTGGACTTGGAAGACAGCGGCACCCGGGCCCTCGACCGGATCATCGACGAATGCCTGCGGGCCAAGGCGGAAGACAACATCGGCGCCATCGTCCTCGGTTGTGGCGGCATGGCCGACCTCACCGGCGAAATCCGCGATGCCGTGGGCCTGCCGGTCGTCGAAGGCGTCACCGCCGCGGTGAAGCTGGCGGAATCGCTGGTCAGCCTCGGGCTGGGCACCAGTAAGCACGGCGACCTGGACTTCCCTCGGCCGAAAGCCTTCCGCGGCCGCTTCGACTACCTCTCGGGAGACTGA	MKIRVINPNTTSSMTEKIGDAARRIAAPGTEIVASNPSSGPVSIESHFDEAISAVGVLEEIRAGEQERTDAYILACFGDPGLLAARELTRAPVIGIAEAAFHMATLIATRFSIVTTLARTGIIAEHLLQTYGFAHHCRRVRAAEIPVLDLEDSGTRALDRIIDECLRAKAEDNIGAIVLGCGGMADLTGEIRDAVGLPVVEGVTAAVKLAESLVSLGLGTSKHGDLDFPRPKAFRGRFDYLSGD	PGPT0000895_578	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000895-hpxA-K16841	NA	NA
BMS010_10060	774			hypothetical protein	ATGAACCACACCCTCACTTCCCTGCTGCTCGCCGGCGGCCTCGTCGCCGCCGGCCAGGCCAACGCCGGCGACCTGCTGCACTGGCAGGACAACAGCCTGACCTACCTGTACGGCAAGGATTTCACCGTCAACCCGCAGATCCAGCAGACCGTCACCTTCGAGCACGCCAACGGCTGGAAGTACGGCGATACCTTCTTCTTCCTCGACAAGATCTTCTACAACGGCGAGAAGGACGCCCTGAACGGCGACAACACTTACTACGGCGAATTCTCCCCGCGCCTGTCGTTCGGCAAGATCTTCGACGCCAAGCTGGAGTTCGGCCCGGTGAAGGACGTGCTGCTGGCGATGACCTACGAGTTCGGCGAGGGCGATACCGAGTCGTACCTGATCGGCCCGGGCTTCGACCTGGCGATCCCCGGCTTCGACTACTTCAAGCTCAACGTCTACCGCCGCACCACCGATGGCGACCGCGACGGCGACGACGTCTGGCAGATCACCCCGGCGTGGTCCTACACCATCCCTATGGGCCGCTCGGACCTGGTCATCGACGGCTTCATGGACTGGGTAGTGGACAACGACGACAGCTACCACGCCAACCTGCACTTCAACCCGCAGATCAAGTACGACCTGGGCAAGGCCCTGAGCTGGGGCGCGAAGCAGGTCTACGTGGGGATCGAATACGACTACTGGCAGAACAAGTACGGCATCGAGGACAGCCGCTACTTCGACACCGACCAGAACACCGCCAGCCTGTTGCTGAAGGTGCACTTCTGA	MNHTLTSLLLAGGLVAAGQANAGDLLHWQDNSLTYLYGKDFTVNPQIQQTVTFEHANGWKYGDTFFFLDKIFYNGEKDALNGDNTYYGEFSPRLSFGKIFDAKLEFGPVKDVLLAMTYEFGEGDTESYLIGPGFDLAIPGFDYFKLNVYRRTTDGDRDGDDVWQITPAWSYTIPMGRSDLVIDGFMDWVVDNDDSYHANLHFNPQIKYDLGKALSWGAKQVYVGIEYDYWQNKYGIEDSRYFDTDQNTASLLLKVHF				NA	NA	NA	NA	NA
BMS010_10061	1473	xanP	COG2233	Xanthine permease XanP	ATGACCGCACCCGCAGACCGGAGCGCCCAGGCGCCGACCGCAAACAACGAACTCATCTACCAACTCGACGACCGCCCCGCCGTGGGCCCGGCGATCTTCGCCGCGCTCCAGCACGTGCTGGCCAGCTTCGTCGCCATCATCACCCCCACCCTGATCGTCGGCAGCGTGCTCGGTCTCGGCGAACACGTGCCCTACCTGGTGAGCATGGCGCTGTTCGTCTCCGGCCTCGGCACCTTCGTCCAGGCCCGGCGCATCGGCCCCGTCGGCTCCGGCCTGCTCTGCCTGCAGGGCACCAGCTTCGGTTTCCTCAGCGTCATCCTCAGTGCCGGCTTCATCGTCAAGGGCCGCGGCGGCAGCCCGGAAGACATCCTCGCGACCATCTTCGGCGTGTGCTTCTGCGCGGCCTTCATCGAGATCGTCTTCAGCCAGTTCATCACCAGGCTGCGCAAGGTCATCACCCCCGTCGTCACCGGCACCATCATCTGCCTGATGGGCCTGTCGCTGATCAAGGTGGCGATGACCGACATGGCCGGCGGCTACGGCGCGCCCGACCTCGGCGCCCTGGACAACCTGGCCCTGGCCGGCGTGGTGCTGGCGGTGATCGTGCTGTTCAACCGCTTCCAGTGGCAGGTGCTGCGTCTCTCGGCAGTGATCATCGGCCTGCTGGTGGGCTCGCTGATCGCTTGGCAGCTCGGCAAGATCGACTTCGCCGGCCTCGCCGAGGTGCCCCTGGTGAGCATCCCGCAGCCGTTCAAGTTCGGCTTCGCCTTCGATCTGGTGGCGTTCATCCCGATCGCAGTGATCTTCCTCATCACCCCGCTGGAGACCACCGGCGACCTCACCGCCAACTCGATGATCTCGCGCCAGCCAGTGAGCGGCCCACTGTACCTGCGGCGGATCAAGTCCGGCGTGCTCGCCGACGGCTGCAACTCGGCGATGGCCGCCCTGTTCAACAGCCTGCCGATGACCACCTTCAGCCAGAACAACGGCGTCATCCAGCTCACCGGCGTGGCCAGCCGCTATGTGGCCTACTACATCGCCGCGATCCTGGTGCTGCTCGGCCTGTTCCCCATCGTCGGCGCGGTGCTGCAACTGATGCCCAAGCCCGTGCTCGGCGGCGCCACCCTGATCATGTTCGGCACCGTTGCCGTGGCCGGGGTGAAAATCCTCGCCGAAGCCGGCCTGCAGCGCCGCAACATGCTGATCGTCGCCATCTCCATCGGCCTCGGCCTGGGTGTGGCGGGCGTGCCGGAAGCCCTGTCGCAGATGCCCGAGGCAATCAAGAACATCTTCGGCTCGCCCATCACCATCGGCGCCTTCAGCGCCATCCTGCTCAACCTCTTCCTGCCCAGCGACGACGCCCAGGCCGCCGAAGAAAGCGCCAGTACCGACGCCCCGCAGTACTCCGATGCCGAACAGGCGCTGCTGCGCCTCGGCCTCGAAGAAGGCAAGCAGCCCCAGCCGAACGCCTGA	MTAPADRSAQAPTANNELIYQLDDRPAVGPAIFAALQHVLASFVAIITPTLIVGSVLGLGEHVPYLVSMALFVSGLGTFVQARRIGPVGSGLLCLQGTSFGFLSVILSAGFIVKGRGGSPEDILATIFGVCFCAAFIEIVFSQFITRLRKVITPVVTGTIICLMGLSLIKVAMTDMAGGYGAPDLGALDNLALAGVVLAVIVLFNRFQWQVLRLSAVIIGLLVGSLIAWQLGKIDFAGLAEVPLVSIPQPFKFGFAFDLVAFIPIAVIFLITPLETTGDLTANSMISRQPVSGPLYLRRIKSGVLADGCNSAMAALFNSLPMTTFSQNNGVIQLTGVASRYVAYYIAAILVLLGLFPIVGAVLQLMPKPVLGGATLIMFGTVAVAGVKILAEAGLQRRNMLIVAISIGLGLGVAGVPEALSQMPEAIKNIFGSPITIGAFSAILLNLFLPSDDAQAAEESASTDAPQYSDAEQALLRLGLEEGKQPQPNA	PGPT0007335_65	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-XANTHINE_METABOLISM	PHYTOHORMONE-XANTHINE_TRANSPORT,PGPT0007335-xanP-K16345	NA	NA
BMS010_10062	1797	ggt_2	COG0405	Glutathione hydrolase proenzyme	ATGCTCGATGGACGCGCAGCCCTGGCCTCCGGCCTTCTCCTTCTCGCCCTCACCGCCTGCAAGAGCCCGGACACCCTCTCCGAACACACACCGCCCGCCCCGGAAGCCTCCAGCGGCTACACCGCCAAGCCCGGCTGGGCGACCCAACGTTTCGCCGTGGCGGCGGCCAACCCGCTGGCCACCGAGGCCGGCTACCAGGTCCTCAAGGCCGGCGGCAGTGCCCTGGATGCGGCTATCGCCGTGCAGATGGTGCTGACCCTGGTGGAACCGCAATCCAGCGGCATCGGCGGCGGCGCCTTCCTGCTGCACTGGGACGGCCAGCGCCTCGCCGCCTTCGACGGTCGTGAAACGGCCCCCGCCGAAGCCGACGAAAAACTCTTCCTCGACGCCGATGGCAAGCCGCTGGAATTCATGCAGGCGGTGGTCGGCGGGCGCTCGGTGGGCGTACCCGGCGCGGTGAAGATGCTCGAAGCGGCACACTGGCAATACGGCAAGCGGCCCTGGGCCGAGCTGTTCCAACCGGCGATCCGGCTGGCCGAAGAAGGCTTCCCGGTCAGCCCGCGCCTGCACACCCTGCTGGCTGCCGATCCGGCCCTGCGGCAGAACCCCCAGGCCGCCGCCTTCTACTACCAGGCGGACGGTTCGCCGCTGCCGGTCGGCCATCGCCTGCGCAATCCGGCCCTGGCCCAGTTGCTGCGCGCCATCGCCGAGCGGGGCAGCGCTGCCTTCTACCAGGGCAAGGTGGCCGAAGCGCTGGTCGAGCAAGTACGCCAACACCCGACCAATCCCGGGCGGATCAGCCTGAACGACCTGGCCGGCTATGAGCCGCGCCAGCGCGACGCGATCTGCACACTCTGGCAGCAGCACTACCGCGTCTGCGGCTTTCCGCCGCCGTCGTCGGGCCACATCACGTCGATGCAGATTCTCGGCCTGCTGGAGCAGTCGGGCCCGTTGGAACCCCTGGCCAACGGCCTGCCGGGCACCGACTTCCTGCACCGCTACAGCGAGGCCTCGCGGCTGGCCTATGCCGACCGCGCGCAATACCTGGCCGACCCGGACTACGTACCGGCACCCGGCGGCAACTGGCGCAGCCTGCTGGCACCCGCCTATCTGAAGCAACGCGCCGCGCTGATCGGCCCGGACAGCATGGGCACCGCCAAGCCCGGCGTCCCCGGCCCGATGCCCATCGCCTTCGCGCCGCAGCCCGAGCAGCCGGAATACGGCACCAGCCACATCAGCATCGTCGATGCGCAAGGCAACGCCCTGGCCATGACCACCACCATCGAACAGGCCTTCGGCTCGCGCCTGCTCAATGACGGCGGCACCGGCCTGCCGGGCGGCTACCTGCTGAACAACGAACTGACCGACTTCGCCTTCGAACCGCGCGATGCCCAGGGCAAGCCGGTGGCCAACCGCGTCGAGCCGGGCAAGCGGCCGCGCTCCAGCATGAACCCGACCCTGGTGTTCGACGCCGACAGCGGCAAGCTGCTCGCCAGCATCGGCTCGCCGGGCGGCGCGGCGATCATCCACTTCACCGCCAAGACCCTGCTCGGCCTCTACGGCTGGGGGCTGGACGCGCAGAAAGCCATCGACCTGCCCAACTTCGGCAGCCTCAACGGCCCTACCCTGCTGGAAGCCGGGCGTTTCCCCGCCGCTACCGTCGAAGCGCTGAAGGCTCGCGGCCATCAAGTCAGCGAGACGGAAATGACCAGCGGCCTGCAAGCCATCCAACGCACCCCGCAAGGCTGGTTCGGCGGTGCCGACCCCCGCCGCGAAGGCGTGGTGATGGGCGACTGA	MLDGRAALASGLLLLALTACKSPDTLSEHTPPAPEASSGYTAKPGWATQRFAVAAANPLATEAGYQVLKAGGSALDAAIAVQMVLTLVEPQSSGIGGGAFLLHWDGQRLAAFDGRETAPAEADEKLFLDADGKPLEFMQAVVGGRSVGVPGAVKMLEAAHWQYGKRPWAELFQPAIRLAEEGFPVSPRLHTLLAADPALRQNPQAAAFYYQADGSPLPVGHRLRNPALAQLLRAIAERGSAAFYQGKVAEALVEQVRQHPTNPGRISLNDLAGYEPRQRDAICTLWQQHYRVCGFPPPSSGHITSMQILGLLEQSGPLEPLANGLPGTDFLHRYSEASRLAYADRAQYLADPDYVPAPGGNWRSLLAPAYLKQRAALIGPDSMGTAKPGVPGPMPIAFAPQPEQPEYGTSHISIVDAQGNALAMTTTIEQAFGSRLLNDGGTGLPGGYLLNNELTDFAFEPRDAQGKPVANRVEPGKRPRSSMNPTLVFDADSGKLLASIGSPGGAAIIHFTAKTLLGLYGWGLDAQKAIDLPNFGSLNGPTLLEAGRFPAATVEALKARGHQVSETEMTSGLQAIQRTPQGWFGGADPRREGVVMGD	PGPT0002935_1494	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_TAURINE_UTILIZATION,PGPT0002935-ggt-K00681	NA	NA
BMS010_10063	435			hypothetical protein	ATGGCCCACGATATCAACGCCAGCGACCTGGGCATCGACGTCGCCAGCGGCGAGGAGCGCGCGCTGTTCAAGTGGTTCCTCGCCAGCTTCCTGTTCGGCAAGCGCATCCAGCAGGAGATCGCCGCCGACGCCTACCGCGCCATCGTCGAAAAACATGGCCGCGATACCCCACGCAAGTTGGGCTCGTGCAGTTGGCAGCAGATCGTCGACATGCTCGGCGAGGGGCATTACGTGCGCTACGACGAATCCACCGCCGACCGCCTGCTCAAGCTCTGCGACAAGCTTGAGAAGGAGTACGACGGCAAGGTCAGCCGCATCCGTGAACGGAGCGCCGATCGCCGGGAGGTGCAGAAACGCCTGGAAGCCTTCGAAGGCATCGGGCCGAAGACCGCGGAAATCTTCCTGCGCGAGGTGGGGAAGGTGTGGTTTCGCTGA	MAHDINASDLGIDVASGEERALFKWFLASFLFGKRIQQEIAADAYRAIVEKHGRDTPRKLGSCSWQQIVDMLGEGHYVRYDESTADRLLKLCDKLEKEYDGKVSRIRERSADRREVQKRLEAFEGIGPKTAEIFLREVGKVWFR				NA	NA	NA	NA	NA
BMS010_10064	645	vfr_2	COG0664	Cyclic AMP receptor-like protein	ATGGTTGCGATCACCCTTACACCTAAAATCAAGCACCTCGACAAACTCCTCGCGCATTGTCACCGCCGCCGCTACACGGCAAAGAGCACCATCATTTATGCGGGCGATCGATGCGAAACCCTCTACTTCATCATCAAGGGATCGGTCACCATCCTCATCGAGGATGACGACGGCCGCGAGATGATCATCGCCTATCTCAACTCGGGAGATTTCTTCGGTGAGATGGGACTGTTCGAAAAGGAAGGCTCGGAGAAGGAACGCAGCGCCTGGGTGCGCGCGAAAACCGAGTGCGAAGTGGCGGAACTCAGCTATGCTAAGTTCCGCGAACTGACCCAACAGGACCCGGATATCCTCTATGCACTCGGTAGTCAGATGGCCGAACGCCTGCGCAACACCACGCGCAAGGTCGGCGACCTGGCGTTCCTCGACGTCACCGGCCGTGTCGCCCGCACCCTGCTGGACCTGTGCCGGCAGCCGGACGCCATGACCCACCCCGACGGCATGCAGATCAAGATCACCCGCCAGGAAATCGGCCGCATCGTTGGCTGCTCGCGGGAAATGGTCGGTCGTGTTCTGAAAAGCCTCGAGGAGCAGGGGCTGGTACACGTCAAGGGCAAGACCATGGTGGTCTACGGTACCCGCTGA	MVAITLTPKIKHLDKLLAHCHRRRYTAKSTIIYAGDRCETLYFIIKGSVTILIEDDDGREMIIAYLNSGDFFGEMGLFEKEGSEKERSAWVRAKTECEVAELSYAKFRELTQQDPDILYALGSQMAERLRNTTRKVGDLAFLDVTGRVARTLLDLCRQPDAMTHPDGMQIKITRQEIGRIVGCSREMVGRVLKSLEEQGLVHVKGKTMVVYGTR	PGPT0015075_4023	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-CARBOHYDRATE_LIMITATION_SIGNALLING,PGPT0015075-clp|crp-K10914	NA	NA
BMS010_10065	423	yhfA	COG1765	Protein YhfA	ATGAAAGCACGTATCCAGTGGGCTGGCGAGGCCCTTTTCGTTGGCGAGTCCGGTAGCGGCCATGCCGTTGTCATGGATGGGCCGCCGGAGAACGGCGGACGCAACCTCGGGGTGCGGCCGATGGAGATGCTGCTGCTCGGCCTGGGTGGTTGTACCAATTTCGACGTAGTGAGCATCCTGAAGAAGTCCCGGCAGCCGGTGGAAAGCTGCGAGGCGTTTCTGGAGGCCGAGCGGGCCAGCGAAGATCCCAAGGTGTTCACCAAGATCCACGTGCGCTTCGTCGTCAAGGGTCGCGGCCTCAAGGAAGCCCAAGTAAAGCGCGCGGTAGAGCTGTCGGCGGAGAAATACTGCTCGGCCTCCATCATGCTGGGGCGTGCCGGCGTCGAAATCACCCACGATTACGAGATCGTCGAGCTGGGCTGA	MKARIQWAGEALFVGESGSGHAVVMDGPPENGGRNLGVRPMEMLLLGLGGCTNFDVVSILKKSRQPVESCEAFLEAERASEDPKVFTKIHVRFVVKGRGLKEAQVKRAVELSAEKYCSASIMLGRAGVEITHDYEIVELG				NA	NA	NA	NA	NA
BMS010_10066	795	speD	COG1586	S-adenosylmethionine decarboxylase proenzyme	GTGAAAAGCAAACTCAAGCTCCACGGGTTCAACAACCTGACGAAGACCTTGAGCTTCAACATCTACGACATCTGTTACGCCGAGACGCCGGAGGACCTTCAGGCCTACGTGCAGTACATCGACGAAGAATACGATGCCGAGCGTCTGACCCAGATTCTCACCGATGTCGTGGATATCATCGGCGCCAACATCCTGAACATTGCCCGTCAGGACTACGACCCGCAGGGCGCCAGCGTAACCATCCTGATCTCCGAACAACCGGTGACGCCCACCGAAAGCCAGATCGAGGAATCGCCCGGCCCGCTGCCGGAAACCATCCTGGCGCATCTGGATAAAAGCCATATCACCGTGCATACCTACCCGGAAATCCATCCGGTGGACGGTATCGCGACGTTCCGTGTGGATATCGACGTTTCCACCTGCGGGGTGATCTCGCCGCTGAAGGCATTGAACTACCTGATCCACCAGTTCGATTCGGACATCGTCACGGTCGACTACCGGGTTCGTGGGTTCACCCGTGACGTCGAAGGCCGCAAGCACTTCATCGATCACGAGATCAATTCGATCCAGAAGTACCTGTCCGAGGACACGCGCGAGGCCTACCAGATGACCGACGTGAACGTGTACCAGGAGAACCTGTTCCACACCAAGATGCTGTTGAAGGACTTCGACCTGGACAACTATCTGTTCGGCGATGCGGCCAGCAATCTTTCCGCGGAGCAGCGCGAACAGGTCACCCAGCGCTTGAAGCACGAGATGCTGGAAATCTTCTACGGGCGGAACATGCCACGCTGA	MKSKLKLHGFNNLTKTLSFNIYDICYAETPEDLQAYVQYIDEEYDAERLTQILTDVVDIIGANILNIARQDYDPQGASVTILISEQPVTPTESQIEESPGPLPETILAHLDKSHITVHTYPEIHPVDGIATFRVDIDVSTCGVISPLKALNYLIHQFDSDIVTVDYRVRGFTRDVEGRKHFIDHEINSIQKYLSEDTREAYQMTDVNVYQENLFHTKMLLKDFDLDNYLFGDAASNLSAEQREQVTQRLKHEMLEIFYGRNMPR	PGPT0007760_1203	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007760-speD-K01611	NA	NA
BMS010_10067	648	coq7	COG2941	3-demethoxyubiquinol 3-hydroxylase	ATGGCCACCGAACGTCACTACTCCCCTGTCGACCGCCTGCTGCTGCAGGCAGACGCCGCGCTGCGCACCTTGCTGCCTTTCAGCGGCCAGCCCTATCGTCCCTCGCCGGGTATCGTCCAGCCGGACGCCGAACTGAACGAGAGCGACGCCCGCCACGTGGCTGGCCTGATGCGCATCAATCACACGGGGGAAGTCTGTGCCCAGGCCCTCTACCAGGGGCAGGCGCTGACCGCCAAGCTTCCCGAAGTGCGCAGCGCCATGGAACAGGCAGCCGACGAGGAAATCGACCACCTGGCCTGGTGCGAGCAACGGATTCGTGAGCTGGGCAGCCACCCCAGCGTACTCAACCCCCTGTTCTATGGTTTGTCCTTCGGCGTGGGCGCCATGGCCGGATTGATCAGCGACAGAGTAAGCCTGGGTTTTGTCGCCGCCACCGAGGATCAGGTCTGCAAGCATTTGGACGAGCATCTCGACCAGTTGCCTCAGGAAGACCGCAAGTCGCGCGCCATTCTCGAACAGATGCGCATCGACGAGGAACAACACTCCACCGCCGCGCTGGAAGCGGGCGGGCTTCGTTTCCCCGCGCCGGTGAAATTCGGCATGACGCTCCTGTCCAAGGTCATGACCAAGAGCACCTACCGGATATAA	MATERHYSPVDRLLLQADAALRTLLPFSGQPYRPSPGIVQPDAELNESDARHVAGLMRINHTGEVCAQALYQGQALTAKLPEVRSAMEQAADEEIDHLAWCEQRIRELGSHPSVLNPLFYGLSFGVGAMAGLISDRVSLGFVAATEDQVCKHLDEHLDQLPQEDRKSRAILEQMRIDEEQHSTAALEAGGLRFPAPVKFGMTLLSKVMTKSTYRI	PGPT0009541_488	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009541-COQ7_like-K06134	NA	NA
BMS010_10068	339		COG0537	Purine nucleoside phosphoramidase	GTGGACTGTCTGTTCTGCAAGATCGTCGCCGGGGAAATCCCCGCGCGCAAGCTCTATGAAGACGAGCAGGTCGTCGCCTTTCATGACATCGGCCCGCAGGCGCCCGTGCACTTCCTCGTCATTCCGAAGAAGCACATCGCGACCCTCAACGACCTGAGCGAAGACGACAAGGCCCTCGCCGGCCACATTCTCTTCACCGCACAACGTCTGGCCAGGGAGCAAGGCTGCGAGGCCGGCTTCCGCCTGGTGATGAACTGCAACGAACAAGGTGGCCAGACGGTCTATCACATTCACATGCATGTCCTCGGCCAACGCCAGATGCACTGGCCACCGGGCTGA	MDCLFCKIVAGEIPARKLYEDEQVVAFHDIGPQAPVHFLVIPKKHIATLNDLSEDDKALAGHILFTAQRLAREQGCEAGFRLVMNCNEQGGQTVYHIHMHVLGQRQMHWPPG				NA	NA	NA	NA	NA
BMS010_10069	1482	ftsH_6		ATP-dependent zinc metalloprotease FtsH	GTGAAGAACGATATCCATGATCTGGGCCTGGTGCTGGATTCCAAGGTCAAGCTGGTGGTGATCGAATCCTGGGACGAATCGCGGGTGCTGGAAATGCTCACCGGGCTCGCGGTCAAGCGAGGGCTGGGCCTGCATGTCTGGTCGGTTACCGAGGGGCTGCAGCGCTTCGGTTTTGGGGGCGCGATGGAGAGCGAGGGGGATACGCGCGAGCCCGAGACCGCACTCAAGCTGATCAAGCATGATCCGCAACCCAACCTGTACGTGTTGTGCGATCTGCATCCTTTTCTTTCCGACAATCCCCGTCTGGTCCGTTTGCTCAAGGAGGTGGCGATGGCCGATGGGGCACACAAGCCCACGGTCGTCCTGGTTTCCCATGCCTTGAAGCTGCCGGCGGAGGTGCAGCGCTACGCGGCACGTTTCTCCTTGGCCTTGCCAACGGAAGAAGAGCTGTTGGCTATCGTCCGCGAGGAGGCGGCGCGCTGGAGCGAACGCAATCATGGCAACCGGGTGCGCACGGACAATCGGACCTTGCAGCAGGTGGTGAAGAACCTGCGCGGTGCCAGCCATGCCGAAGCGCGCGCATTGGCTCGCAACGTGATCTGCGACGATGGCGCAATCACCCAGGAAGACCTGCCGGAACTCAATCGCACCAAGTTCCAATTGCTGGATTTGGAGGGGGTGCTGAGTTTCGAATACGACACCGCGCGTTTTGCTGACGTAGGTGGCTTGGCCAATCTCAAGCGCTGGCTGGCCGAGCGGCAGAGCGCATTTCTCGACGGTAAGACGGTGGATGCCCCCAAGGGGGTGCTGCTGGTCGGTGTCCAGGGTGGTGGCAAGAGCCTGGCGGCGAAGGCAGTGGCCGGGCTCTGGGGGTTGCCATTGCTGCGTCTGGATTTCGCCTGTCTGTACAACAAGTTCTTCGGCGAGACCGAGCGCAATCTGCGAGAGGCCTTGCGCCTGGCCGAGCAGATGGCGCCGTGCGTGCTGTGGATGGACGAGGTGGAGAAAGGCCTGGCTACCGGCGAGCAGGATGGCGGTGTCAGTCAGCGGGTGCTTGGTACTTTGCTGACCTGGATGGCCGAGCGCAAGGCGCCGGTGTTCATGGTGGCGACGGCCAATGCCATCGATCGCCTGCCACCCGAGCTGGTGCGCAAGGGGCGCTTCGATGAGCTGTTTTTCGTCGATCTGCCGGATCCGTCGGTACGTGCGGACATCTTCCGGATTCATCTGGCGCGCCGAGAACTCGATGCGGAGACCTTCGATCTGGCCGAGCTGGCGGCAGTCAGCGAAGGGTTCACTGGAGCGGAGATCGAACAGGTGGTGGTCAGCGCCCTGTATGCCAGCCAGGCGCGGCAACAGAGCGTGGATCAGGCGCTTTTGCTGCAGGCCATCCAGGGTACTGCTCCCTTGTCGGTAGTGATGGCCGAGCAGTTGGCTGCCTTGCGGGCATGGGCCAGGGGAAGGACGGTCGAGGCGGGGTGA	MKNDIHDLGLVLDSKVKLVVIESWDESRVLEMLTGLAVKRGLGLHVWSVTEGLQRFGFGGAMESEGDTREPETALKLIKHDPQPNLYVLCDLHPFLSDNPRLVRLLKEVAMADGAHKPTVVLVSHALKLPAEVQRYAARFSLALPTEEELLAIVREEAARWSERNHGNRVRTDNRTLQQVVKNLRGASHAEARALARNVICDDGAITQEDLPELNRTKFQLLDLEGVLSFEYDTARFADVGGLANLKRWLAERQSAFLDGKTVDAPKGVLLVGVQGGGKSLAAKAVAGLWGLPLLRLDFACLYNKFFGETERNLREALRLAEQMAPCVLWMDEVEKGLATGEQDGGVSQRVLGTLLTWMAERKAPVFMVATANAIDRLPPELVRKGRFDELFFVDLPDPSVRADIFRIHLARRELDAETFDLAELAAVSEGFTGAEIEQVVVSALYASQARQQSVDQALLLQAIQGTAPLSVVMAEQLAALRAWARGRTVEAG				NA	NA	NA	NA	NA
BMS010_10070	789	ephD_3	COG1028	putative oxidoreductase EphD	ATGCCCCGCTACGCCCTGATCACCGGAGCCTCCAGCGGCCTGGGACTGGCCCTGGCCGAAGCGCTGGCGCGCCGAGGGCGGAATCTGCTGCTGGTCGCCCGTGCCCGCACTGCATTAGAAAGTGTGGCCTGCGAGTTGACCCAGCGCTTCGGTGTCGAAGTGCTCTTTCGTGTCTGCGACCTGAGCGAGCCCTTGCAGCTCTCCGGGCTGCTGCATGAACTGGAGCAGGGCGAGCGGCAGATCGATCTGCTGGTGAACGACGCCGGACTCGGTGTGTCGGGCCCGTTCATCGAGCAGGACTGGGGACGCCTCCAGGAACAGATCGAAGTGAACGTGCTGGCATTGACCCGTCTCTGCCACGCCTTCGGCCAGAACATGGCCGAGCGCGGCGGCGGCCAGATTCTCAATGTCGCCGCACTCGAGGCCTTTCACCCCGGCGCCTGGATGAGCAGCTACCACGCCAGCAAAGCCTACGTACTGAACCTCTCCGAAGGGCTTCGCGATGAACTGAAGTCCAGGGGCGTGAAGGTGTCGGTCCTCTGTCCCGGCCCCATTCGTACCGCATTCAGGGACAAGGGCGGTATCGCTGCGAATGATCTCTCTACCTGCAAACGAGCGCTCAGTGCGGAAGAGGTCGCACTGGTTGCCGTTCGGGCGCTGGAGAAGAACCAGGCGATCATCGTTCCGGGCTGGCGCAATCGATTGCTGGGCCTGTCGTTTCGACTGGCGCCGCGCTGGCTGGTCAATCGCCTGGCCGCACGGCGCAATCGTCTGGCAATGGCCGGCTGA	MPRYALITGASSGLGLALAEALARRGRNLLLVARARTALESVACELTQRFGVEVLFRVCDLSEPLQLSGLLHELEQGERQIDLLVNDAGLGVSGPFIEQDWGRLQEQIEVNVLALTRLCHAFGQNMAERGGGQILNVAALEAFHPGAWMSSYHASKAYVLNLSEGLRDELKSRGVKVSVLCPGPIRTAFRDKGGIAANDLSTCKRALSAEEVALVAVRALEKNQAIIVPGWRNRLLGLSFRLAPRWLVNRLAARRNRLAMAG	PGPT0030485_2524	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-OXIDOREDUCTASE_ACTIVITY	PUTATIVE-OXIDOREDUCTASE_ACTIVITY-1,PGPT0030485-yqjQ-K07124
BMS010_10071	1035			hypothetical protein	ATGTCCGAAGCCCGTTACAAGATCGTCTTCAACGGTGAAGTGATGCCTGAAATGGCATTGGATACCGTCAAGGACAATCTCGCTCGCCTGTTCAAGAGCGACCGCGCGAAGATCGACAACCTGTTCAGCGGCAGTGCCGTTGCGCTGAAGCGGGACCTTCCCGAAAGCGAGGCCGACAAATATCTGACCGCCCTGCAGCGAGCCGGCGTCAAGGTCCGCAAGGAGCCGGATCAGGCTGCCTCGCTGTCCTTGGTGGAGACCGACGATCATCGCCCCGTCGAGGCCGCCCCATCTACCAGCACAGCCCGGATGAAATGTCCCAAGTGCGGCCATGAGCAACCCCAGGCCGCCGAATGCTCGGCCTGCGGCATCATCATCGAAAAGTACTTGGCCCGTCAGGCGCAGCTCGAAAAGACCGCGCCGGCCGCCTCCCCTTCGCCCTACGCACCACCACAAGCTCAGGTAGGCGAGGAGCTGCCGGAATTCGGAGAGCTCAAGGTCTTCACCACCAATGGACGAATCGGTCGCCTGCGCTATCTGGCCTGGTCGTTGGTCATGACCCTCGCCGCCGCCGGTCTTCTGGGTATCGCTGCCGCCGGATTCGCCATCGCCGATACGGTTGGCATCCTGCTGATGTCGCTGGTGTTCATCGGCCTGTTAGTGGTCAGCGTCCAGATTGGCGTCCAGCGTCTGCACGACATCGGCTGGTCGGGCTGGCTGTTCCTGCTCAACCTGGTACCTATCGTCGGCTCCGTCTTCCCCTTGCTGATGCTGATCATTCCGGGTACTGCCGGAGCTAACCGCTACGGCCCGCCGCAGCCGCCGAACAGCATGGCAGTCAAGGTGCTTGCCTCGCTCTGGTTGGTTCTGCTGGCGCTGATTTTCATTTTCGCGATCGCCGGAGGCCTGGGCATGCTGGAAGCCATGACCGGCTTCGGAAGCGATTACGATATGCCCAGCGACTACAGCTACGACCCGGAAGCGGCCGACCCCGCCGCCGCAGCACCGGAATGGGACGCCGCCGAAGAAGAGTGA	MSEARYKIVFNGEVMPEMALDTVKDNLARLFKSDRAKIDNLFSGSAVALKRDLPESEADKYLTALQRAGVKVRKEPDQAASLSLVETDDHRPVEAAPSTSTARMKCPKCGHEQPQAAECSACGIIIEKYLARQAQLEKTAPAASPSPYAPPQAQVGEELPEFGELKVFTTNGRIGRLRYLAWSLVMTLAAAGLLGIAAAGFAIADTVGILLMSLVFIGLLVVSVQIGVQRLHDIGWSGWLFLLNLVPIVGSVFPLLMLIIPGTAGANRYGPPQPPNSMAVKVLASLWLVLLALIFIFAIAGGLGMLEAMTGFGSDYDMPSDYSYDPEAADPAAAAPEWDAAEEE				NA	NA	NA	NA	NA
BMS010_10072	981			hypothetical protein	ATGTCGCTTCCCGCCCAGCTCGAACAACGCCTGCGCCTTCCCTTGGTCGCAGCCCCGATGTTCCTGGTTTCCAATCCGAAACTGGTCCTGGCCTGCTGCGAGCAAGGAATCGTCGGCAGCTTTCCCGCCCTGAACCAACGGGAAAGCAGCGGCTTCAAGGCCTGGCTGGAGGAAATCGAAGCGGGCCTGGCGGCTCTGCCGCAGGCCGCCCCGTACGCGGTGAACCTGATCGTTCACCAGAGCAACCCACGCTTGCGCACAGACCTGGAGCTCTGTGTCGAGCACAAGGTGCCCATCGTGATCACCAGTCTCGGCGCGGTAAAGGAAGTAGTGGACGCGGTACACGGCTACGGCGGCCTGGTGTTCCACGACGTCACCACCAGGCGCCATGCGGAAAAAGCCGCCGAAGCCGGAGTCGACGGGTTGATCGCCGTGGCCGCAGGCGCCGGCGGGCATGCCGGAACCTGGAGCCCATTTGCCCTGGTCGCCGAGATTCGCCAGTTCTTCGACAAGACGTTGCTGCTGGCCGGCTGCCTGAACCATGGCCACGAAATCCTCGCCACCCAAGTGCTCGGCGCCGACCTCGCCTATCTCGGCACACGCTTCATCGCCACCCGGGAAAGCAATGCAGAGCTGGCCTACAAGCAGTTGATCCTCGACGCCAAGGCTGCCGACATCGTCCATACGCCAGCGGTATCCGGCGTACCGGCCAGCTTCATGCGCCAGAGCCTGGAAGCTGCCGGTTACGACATGGCCCGTCTGAACGACAAGGGCGATATCAATTACGGTGAGAAGCTCAAACCGCTGAACGATGAGGCCAAGGCCTGGAAAACCGTATGGTCGGCGGGCCAGGGCGTCGGCGATATCCATGATGTGCCGACCGTAGCGGAATTGGTCGCCCGCCTGGATGCCGAGTACCGGCAGGCGCTGTCCCGTATGGCACAGTTGTCCGATCGATGGCCGGGCAGCCGGAACCGCTAA	MSLPAQLEQRLRLPLVAAPMFLVSNPKLVLACCEQGIVGSFPALNQRESSGFKAWLEEIEAGLAALPQAAPYAVNLIVHQSNPRLRTDLELCVEHKVPIVITSLGAVKEVVDAVHGYGGLVFHDVTTRRHAEKAAEAGVDGLIAVAAGAGGHAGTWSPFALVAEIRQFFDKTLLLAGCLNHGHEILATQVLGADLAYLGTRFIATRESNAELAYKQLILDAKAADIVHTPAVSGVPASFMRQSLEAAGYDMARLNDKGDINYGEKLKPLNDEAKAWKTVWSAGQGVGDIHDVPTVAELVARLDAEYRQALSRMAQLSDRWPGSRNR	PGPT0006800_3976	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-PROPIONATE-3-NITRATE-DERIVATE_RESISTANCE,PGPT0006800-ncd2|npd|pnoA-K00459	NA	NA
BMS010_10073	429			hypothetical protein	ATGCTCTACCTGTGGCTCAAAGCCCTGCACATCATTGCCATGGTCTGCTGGTTCGCAGGCCTGTTCTATCTGCCGAGGCTGTTCGTGTATCACGCGATGAGCGAGGACGCCCCCAGCCGGGAGCGCTTCTGCATCATGGAACGCAAGCTTTATCGGGGCATCATGATGCCCTCGATGATCGCCACGCTGGTCTTCGGCATCTGGTTGATCAGCCTCAATCCGGGCTATTACTTCAGCCAGGGCTGGCTGCATGCCAAGCTCATCCTGGTCGTCCTGCTGATTGGATATCACCATGTCTGCGGCGCCCAGTTGAAGCGCTTCGCGCGCGGCGAGAACGCCCGCAGCCATGTGTTCTACCGCTGGTTCAACGAAGTACCGGTGCTTTTCCTGCTCGCCATCGTGATCCTGGTAATCGTCCGACCTTTCTGA	MLYLWLKALHIIAMVCWFAGLFYLPRLFVYHAMSEDAPSRERFCIMERKLYRGIMMPSMIATLVFGIWLISLNPGYYFSQGWLHAKLILVVLLIGYHHVCGAQLKRFARGENARSHVFYRWFNEVPVLFLLAIVILVIVRPF	PGPT0008480_1399	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008480-hemJ-K08973	NA	NA
BMS010_10074	1035	argC_2	COG0002	N-acetyl-gamma-glutamyl-phosphate reductase	ATGGTCAAGGTCGGTATCGTCGGCGGCACGGGATATACCGGAGTGGAGCTGCTGCGCCTGCTGGCGCAGCATCCGCAGGCTGAAGTGACGGTGATCACCTCGCGCTCCGAGGCCGGGGTGAAAGTCGCCGATATGTATCCGAACCTGCGCGGCCATTATGACGACTTGGCATTCAGCGTCCCGGACACGGCCACGCTGGGCGCCTGTGATGTGGTGTTTTTCGCCACGCCGCATGGCGTTGCCCATGCTCTTGCCGGCGAACTACTGAATGCCGGGACGCGGGTGATCGATCTGTCTGCCGACTTCCGCTTGCAGGATGCGGAGGAGTGGGCGAAGTGGTATGGCCAGCCGCACGGCGCCCCGGATCTGCTCCCTGAGGCCGTTTACGGACTGCCCGAGGTCAATCGCGAACAGATTCGCAATGCCCGGCTCATTGCCGTTCCGGGCTGCTATCCCACTGCAACCCAGTTGGGCCTGATTCCGCTGCTCGAGGCGGGGTTGGCCAATACGTCGCACCTGATCGCCGACTGCAAGTCCGGTGTCAGCGGAGCCGGTCGCGGTGCAAAAGTGGGTTCGCTGTTCTGCGAGGCCGGTGAGAGCATGATGGCCTATTCGGTCAAAGGACACCGCCACCTGCCGGAAATCAGCCAAGGCTTGCGGCGTGCGGCGAAGGGCGACGTCGGCCTGACCTTCGTACCGCATCTGACCCCGATGATCCGAGGCATTCATGCCACCCTCTATGCGACCGTTGCCGACAAATCGGTCGATCTGCAGAGCCTGTTCGAGCAGCGCTATGCCAACGAGCCGTTCGTCGATGTCATGCCGGCGGGCAGCCATCCCGAGACGAGAAGCGTGCGTGGTGCCAATGTCTGCCGGATTGCCGTGCATCGGCCGCAGGGTGGCGATCTGGTCGTCGTGCTTTCGGTGATCGATAACCTGGTCAAGGGGGCGTCCGGGCAGGCGGTACAGAATATGAACATTCTCTTCGGGCTCGATGAGCGTCTTGGCCTGTCCCACGCTGCTCTACTGCCCTGA	MVKVGIVGGTGYTGVELLRLLAQHPQAEVTVITSRSEAGVKVADMYPNLRGHYDDLAFSVPDTATLGACDVVFFATPHGVAHALAGELLNAGTRVIDLSADFRLQDAEEWAKWYGQPHGAPDLLPEAVYGLPEVNREQIRNARLIAVPGCYPTATQLGLIPLLEAGLANTSHLIADCKSGVSGAGRGAKVGSLFCEAGESMMAYSVKGHRHLPEISQGLRRAAKGDVGLTFVPHLTPMIRGIHATLYATVADKSVDLQSLFEQRYANEPFVDVMPAGSHPETRSVRGANVCRIAVHRPQGGDLVVVLSVIDNLVKGASGQAVQNMNILFGLDERLGLSHAALLP	PGPT0014251_1700	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014251-argC-K00145	NA	NA
BMS010_10075	726			hypothetical protein	ATGGCAGGCTGGGAGGTCCGCTTCACCGATCCTCGCCGCGAGCGTTTCCTGCGGCTGGCGCTGCTCATATTGCTGATCGCCGTGCCAGCCGCCTTCTGGGCTGGGCAGTGGTGGACGGCTCGTGACGTACGCGAGACGCTGGATCAGCGTCAGGCTCTTCTGATGCGGCTGGCAGAGCAGGAGCACGATATAGAGCAGTTGCGCCAGCGACTGGCCGTGGTGGCTAGCGGCGAGCGCCTCGGCCAGCAAGCCAACGAGCAGAACCGGCTAACCATCAAGTTGCTCGAAGAGCAAATCTTCAAACTGCAACAGGATCTGGCTTTTTATAAAGGGGTGCTGGCTCCGGCCAGTCGTCGAGAAGGGCTGCGTATCCGTGCCTTTGAGTTACACACCACGGATAATTCCCGGCAATTCCGCTACAAAGCGCTTCTCAGCCGGGTGGGCAAGGATGACAAACCACTGGAGGGGCAACTGCACATAACGGTGCAAGGGCTGCAAAACGGCAAGGATGTCAGCCTGGAACTGTCAGACTTGTCCGACGAGTTGGCCGAAAAGGCCATTCCTTTCGCTTTCAAGCATTTCCAGGCGTTTCCGGAAGGTGGCCGGTTCGCGGTGTTGGAATTGCCTGAGGGCTTCGAACCCCGTCAGGTCAAAGTGCGCGCTGAGGTCAAAGGCCAGCGGCAGCCATTGGAGCGCACATTCAAGTGGATCGACGAGGATAAATAA	MAGWEVRFTDPRRERFLRLALLILLIAVPAAFWAGQWWTARDVRETLDQRQALLMRLAEQEHDIEQLRQRLAVVASGERLGQQANEQNRLTIKLLEEQIFKLQQDLAFYKGVLAPASRREGLRIRAFELHTTDNSRQFRYKALLSRVGKDDKPLEGQLHITVQGLQNGKDVSLELSDLSDELAEKAIPFAFKHFQAFPEGGRFAVLELPEGFEPRQVKVRAEVKGQRQPLERTFKWIDEDK				NA	NA	NA	NA	NA
BMS010_10076	414			hypothetical protein	ATGTGGAACAAGGCTAAACCCAAGGCGGACATCCAGAAGTTCAGTGGAAGAACCAGTGTGATTGCTGCTGGAGCCGAGCTGATCGGCGATATGCGTTTCCAAGGCGCGGTTCAGGTGGATGGGCGCTTGTCCGGCAACTTGCTCGCTACCGAGGGGCTGGTTCGTGTCAGTGTCGAGGGGCAGGTCCAAGGTGAGATTCGGGCACCCCATGTCATCCTGGATGGCGAAGTGATCGGAGACGTCTATGCTAGCGAGCACCTTGAGCTCGGAGCGCGTGCCCGTGTTCGCGGTAATCTGCATTACGGTCTGATGGAAATGGCCATGGGAGCCCAGATCGAGGGGCGGTTGTGCCACGTCAAGGATGGAACGCCCAGAACACTGGAGCTGCCTGCGAGCCTCGAAGCTGATCAATAG	MWNKAKPKADIQKFSGRTSVIAAGAELIGDMRFQGAVQVDGRLSGNLLATEGLVRVSVEGQVQGEIRAPHVILDGEVIGDVYASEHLELGARARVRGNLHYGLMEMAMGAQIEGRLCHVKDGTPRTLELPASLEADQ				NA	NA	NA	NA	NA
BMS010_10077	351	erpA_2	COG0316	Iron-sulfur cluster insertion protein ErpA	ATGAGTGTCGAAACCTTCACCCCCACTCCCTTGTTGTTCACACAAGGGGCGGCGAGCAAGGTGAAGAGCCTGATCGATGAAGAAGGCAATCCCCGCTTGAAGCTCCGTGTCTTCGTGACAGGGGGCGGGTGTTCCGGCTTCCAGTACGGTTTCACATTCGACGAAGACATCGCTGAGGACGATACCATCGTCGAGCGCGAGGGCGTCAGCCTAGTGGTCGATCCCATGAGCTTCCAGTATCTCGCCGGTGCGGAAGTCGATTACCAGGAAGGGCTGGAAGGTTCGCGCTTCGTTATCAACAACCCGAATGCGGCAACGACCTGTGGCTGTGGACAATCCTTCTCGATCTGA	MSVETFTPTPLLFTQGAASKVKSLIDEEGNPRLKLRVFVTGGGCSGFQYGFTFDEDIAEDDTIVEREGVSLVVDPMSFQYLAGAEVDYQEGLEGSRFVINNPNAATTCGCGQSFSI				NA	NA	NA	NA	NA
BMS010_10078	1092	anmK_2	COG2377	Anhydro-N-acetylmuramic acid kinase	ATGCCGCGCTATATAGGGGTGATGTCCGGTACCAGCCTGGACGGACTGGACATTGCCCTGATCGAACAAGCCGATCAAACCACCCTCCTCGCCACTCACTACCTTCCCATGCCAGCAGACTTACGCCGTGAGCTGCTGGCACTCTGCACCTCGGGCTCCGATGAGCTAGCTCGCGCCGCCATAGCCGAACAGCGATGGGTAGAGCTGGCCGCGGAAGGTATCTCGACTTTGCTACAGCAGCAGCGGCTGAAACCGCAGGACATCCGGGCAATTGGCAGCCACGGCCAGACCGTTCGCCACGAGCCAGCACGCGGCTTCACTATCCAGATCGGCAATCCGGCACTGCTCGCGGAACTGAGCGGCATTAGTGTCGTTGCGGACTTCCGCAGCCGGGACGTCGCCGCAGGCGGACAAGGCGCCCCCTTGGTGCCCGCTTTCCACGAAGCGCTATTTGGAGGCTCAGATAGCGTTCGTGCCGTATTGAATGTCGGCGGGTTCAGCAACCTGAGCCTGCTGCAGCCTGGGCACTCCGTACGAGGCTTCGATTGCGGCCCGGGTAATGTACTAATGGATGCCTGGATTCACCGGCAGCGGGGAGAGAGCTACGACCGTGACGGCGCCTGGGCAGCCAGTGGGCGAGTCAACGCCCAGTTGCTTACCGCTCTGCTGAAGACCCCGTTCTTCCATACCCAGGGACCTAAAAGTACGGGACGCGAGCTGTTCAATCTTCCTTGGCTGGAAAACCTGCTCGCCAACATGCCCCCCCTTGCACCGGAAGATGTCCAGGCCACACTGCTGGAGCTGACTGTATCAAGCATCGCCGACGCGCTACTGGCTACGCAGCAGAACACCGAAAAGCTGCTGGTATGTGGAGGAGGCGCCCACAACAAGGCACTGATGACCAGACTCGCCGGCCGCCTGCCCGGCTGTGAGGTCAGCAGCACCGCAGAGCATGGCATCCCACCGGATTGGGTAGAAGCCATGGCTTTCGCCTGGCTGGCCCATTGCTGTCTGGAAGGCATTTCTGCCAACCGACCAAGCGTAACCGGCGCCCGGGGCCTGAGAGTGCTCGGTGCGATCTACCCCGCCTGA	MPRYIGVMSGTSLDGLDIALIEQADQTTLLATHYLPMPADLRRELLALCTSGSDELARAAIAEQRWVELAAEGISTLLQQQRLKPQDIRAIGSHGQTVRHEPARGFTIQIGNPALLAELSGISVVADFRSRDVAAGGQGAPLVPAFHEALFGGSDSVRAVLNVGGFSNLSLLQPGHSVRGFDCGPGNVLMDAWIHRQRGESYDRDGAWAASGRVNAQLLTALLKTPFFHTQGPKSTGRELFNLPWLENLLANMPPLAPEDVQATLLELTVSSIADALLATQQNTEKLLVCGGGAHNKALMTRLAGRLPGCEVSSTAEHGIPPDWVEAMAFAWLAHCCLEGISANRPSVTGARGLRVLGAIYPA				NA	NA	NA	NA	NA
BMS010_10079	1434			hypothetical protein	ATGACGTATAAAGCACCCAAAGCTCCGCTCTACCCGAAAAGCCATTTGCTGGCTGCCAGCGGCGTAGCTGCGTTGCTCAGCCTGGCCTTGCTGGTGTTCCCCTCGCGTGAAGTCGAGGCGAAGAAGACCTACCTCTCCCTTGATCTGGACAACAGTTCCGAGCAGGTCATTCAGGAAAAAGACGATCTCCGACCGGAGCTGACCGAGCAGAAAGCGGAAAGCCCTCCGTTTGCCACGATCGAAGGCTCCGCAGAGAACCAGAACAGCGCCGAACAAGACGCGGACAAGGATGACGATACCGAGCAGGCCATTAGCGAAGCAGTTACCGATCCACGTCATAAATCCGTGACCGTGAGCAACGGCGACACGCTTTCCACCGTTTTCGCAAAGGTTGGGCTCCCTGCCACGACAGTTCATGAAGTCCTGAGCAGCGACAAAGAAGCCAAGCAACTGACTCGCCTCAAGGTTGGCCAGATCATCAACTTCACACTGGATGATTCCGGGCAGCTCGAAAACTTGCAGACGAAGCTGAGCGACCTGGAAAGCATCAGCTTGAGCCGGACGGAACAGAGCTATAGCTTCAAGCGCGATCTGACCAAGCCGGACATCCGCCCCACCTACGCCCACGGCGTAATCGACAGTTCGCTTTTCGTAGCAGCCAAGCGGGCCGGTCTGTCTCACAACTTGACCATGGATCTGGCCAATGTATTCGGTTACGACATCGACTTCGCTCTGGACATCCGTCGCGGCGACGAATTCGAAGTGATCTACGAAGAGAAAGTGGTCAACGGCAAGCAAGTCGGTCACGGCAGTATTCTCGCCGCCCGCTTCACCAACCGGGGCAAGACCTACACAGCGGTGCGCTATACCAACAAGCAAGGTACCACCAGCTACTACAACGCCGACGGCAACAGCATGCGCAAGGCGTTCATCCGGACCCCAGTGGATTTCGCCCGGATCAGCTCGCGCTTTTCCAATGGTCGTCGCCACCCGATCCTGAACAAGATTCGCGCTCATAAGGGTGTCGATTACGCCGCACCGCGTGGAACGCCAATCAAGAGCGCCGGTGATGGAAAGGTAATCCTGGCCGGCCGCAAGGGCGGCTATGGCAATACCGTGATCATCCAGCACGGCAATAGCTACCGCACTCTGTACGCTCATATGCAGGGCTTCGCCAAGGGCGTTCGTACCGGTAGTAGCGTCAAACAGGGACAAATCATTGGATACATCGGCACTACCGGCCTTTCCACTGGGCCGCACCTGCATTACGAGTTCCAGGTCAACGGCGTCCATGTCGACCCGCTCAGCCAGAAACTGCCCATGGCGGACCCGATTGCCGGCAACGACAAGCAGCGCTTCATGCAGATCAGCAAGCCGCTGATGGCACGCATGGATCAGGAAAAAGCCACCATGCTGGCCCAGAACAAGCGCTGA	MTYKAPKAPLYPKSHLLAASGVAALLSLALLVFPSREVEAKKTYLSLDLDNSSEQVIQEKDDLRPELTEQKAESPPFATIEGSAENQNSAEQDADKDDDTEQAISEAVTDPRHKSVTVSNGDTLSTVFAKVGLPATTVHEVLSSDKEAKQLTRLKVGQIINFTLDDSGQLENLQTKLSDLESISLSRTEQSYSFKRDLTKPDIRPTYAHGVIDSSLFVAAKRAGLSHNLTMDLANVFGYDIDFALDIRRGDEFEVIYEEKVVNGKQVGHGSILAARFTNRGKTYTAVRYTNKQGTTSYYNADGNSMRKAFIRTPVDFARISSRFSNGRRHPILNKIRAHKGVDYAAPRGTPIKSAGDGKVILAGRKGGYGNTVIIQHGNSYRTLYAHMQGFAKGVRTGSSVKQGQIIGYIGTTGLSTGPHLHYEFQVNGVHVDPLSQKLPMADPIAGNDKQRFMQISKPLMARMDQEKATMLAQNKR				NA	NA	NA	NA	NA
BMS010_10080	1200	tyrS_2	COG0162	Tyrosine--tRNA ligase	ATGAAGTCGGTTGAAGAGCAGCTCGCGCTGATCAAGCGTGGTGCGGAAGAGGTTCTGGTTGAATCCGAGCTGGTTGAAAAGCTCAAGCGTGGCCAGCCGTTGCGTATCAAGGCGGGGTTCGACCCGACGGCGCCGGACCTGCATCTCGGGCACACGGTGCTTATTAATAAGCTGCGTCAGTTCCAGGATCTCGGTCATCAGGTCATCTTCCTGATTGGCGACTTCACCGGAATGATTGGCGACCCCAGCGGTAAGAGCGCCACTCGTCCGCCGCTGACGCGTGAGCAGGTATTGGAGAACGCTGAGACCTACAAGGCTCAGGTGTTCAAGATTCTGGATCCGGCCAAGACCGAAGTGGCGTTCAACTCGACCTGGATGGATGCGCTTCGTCCGGCGGATTTCATTCGGCTTGCTTCGCAGTACACGGTGGCTCGGATGCTGGAGCGTGATGATTTCAGTAAGCGCTACTCCAGCAATCAGCCGATTGCCATTCATGAATTCCTCTATCCCTTGGTTCAAGGGTACGACTCGGTTGCGTTGCGGGCTGACGTCGAGTTGGGAGGGACGGATCAGAAGTTCAACCTGCTGATGGGGCGCGAGCTGCAGCGTGCCTACGGCCAGGAGTCTCAATGCATCGTCACTATGCCTTTGCTCGAGGGGTTGGACGGTGTGAAGAAAATGTCCAAGTCCTTGGGGAACTACGTTGGCATTCAGGAAGCGCCGGGCGTCATGTATAGCAAGCTGGTATCGATTCCCGATGCATTAATGTGGCGTTACTTCGAACTGCTCAGCTTCCGCTCGATGGATGAAATCGCTGAGTTCAAGGTTCATGTTGAGAAAGGCGCCAATCCGAGGGATATCAAGATCAAGCTTGCCGAGGAAATCGTGGCGCGCTTCCATGGAGAGGAGGCTGCGGCGAGTGCGCATCGTTCGGCAGGTAATCGAATGAAGGATGGCGAGCTGCCTGATGATTTGCCGGAAATTGAAATTACATCGACTGAGGATATGCCTATTGCGGCTGTGCTCAATAAGGCGGGCTTGGTGAAAAATGCGGCCATGGCCCGTGATCTGCTTGGAGCCGGAGGGGTGCGTGTCGACGGTTCTGTTGTGGATCGTTCCTTCGTCTTTGGCTTGGGCGAGGTGCATGTCTGTCAGGCTGGCAAGAAGTCTTTTGCGCGGGTGACCTTGAAGGCAGAGTAA	MKSVEEQLALIKRGAEEVLVESELVEKLKRGQPLRIKAGFDPTAPDLHLGHTVLINKLRQFQDLGHQVIFLIGDFTGMIGDPSGKSATRPPLTREQVLENAETYKAQVFKILDPAKTEVAFNSTWMDALRPADFIRLASQYTVARMLERDDFSKRYSSNQPIAIHEFLYPLVQGYDSVALRADVELGGTDQKFNLLMGRELQRAYGQESQCIVTMPLLEGLDGVKKMSKSLGNYVGIQEAPGVMYSKLVSIPDALMWRYFELLSFRSMDEIAEFKVHVEKGANPRDIKIKLAEEIVARFHGEEAAASAHRSAGNRMKDGELPDDLPEIEITSTEDMPIAAVLNKAGLVKNAAMARDLLGAGGVRVDGSVVDRSFVFGLGEVHVCQAGKKSFARVTLKAE				NA	NA	NA	NA	NA
BMS010_10081	603	ahpC_2	COG0450	Alkyl hydroperoxide reductase C	ATGAGCGTACTCGTTGGTAAAAAAGCGCCCGATTTCACCGTTGCTGCCGTGCTCGGCAATGGCGAGATCGTCGATAGCTTCACTCTGTCCTCGGCCATCAAAGGCAAATACGGCCTGGTGTTCTTCTACCCGCTGGACTTCACCTTCGTCTGCCCGTCCGAACTCATCGCCTTGGACCACCGCATTCCCGAGTTCCAGGCTCGTAACGTGGAAGTGATCGGTGTTTCCATCGACTCCCACTTCAGCCACAACGCCTGGCGCAACACCCCGGTGGACAAGGGCGGCATCGGCCCGGTCAAGTACACCCTGGCTGCCGACGTGAAGCATGAAATCGCCAAGGCCTACGATGTCGAATCCGAAGGCGGCGTCGCCTTCCGTGGCGCGTTCCTGATCGACAAGGAAGGCGTGGTGCGTTCGCAGATCGTCAACGACCTGCCGCTGGGTCGCAACATGGACGAGCTGCTGCGTCTGGTCGACGCCCTGCAGTTCACCGAAGAGCACGGCGAAGTCTGCCCGGCCAACTGGAAGAAGGGCGACAAGGGTATGACCGCTTCGCCGGAAGGCGTGGCCAAGTACCTGGCCGAGAACGCCTCCAACCTGTAA	MSVLVGKKAPDFTVAAVLGNGEIVDSFTLSSAIKGKYGLVFFYPLDFTFVCPSELIALDHRIPEFQARNVEVIGVSIDSHFSHNAWRNTPVDKGGIGPVKYTLAADVKHEIAKAYDVESEGGVAFRGAFLIDKEGVVRSQIVNDLPLGRNMDELLRLVDALQFTEEHGEVCPANWKKGDKGMTASPEGVAKYLAENASNL	PGPT0013130_1643	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013130-tsaA|PRDX2_4|ahpC-K03386	NA	NA
BMS010_10082	222			hypothetical protein	ATGTATGTGTGTCTTTGCCAGGGTGTCACCGACGGTCAAATCCGTGATGCGATCTATGAAGGTTGCTGCAGTTACAAGGATGTCCGCGAAACTCTGGGAGTAGGCACCCAATGCGGGAAATGTGCCTGCCTGGCCAAGCAGGTGGTTCGTGAGACTCTCACCGAAGTGCAGAGCAGCCAAGGCGTGATGACCTACCCCGCCGGAAATTTCGTCGCTGCCTGA	MYVCLCQGVTDGQIRDAIYEGCCSYKDVRETLGVGTQCGKCACLAKQVVRETLTEVQSSQGVMTYPAGNFVAA	PGPT0003975_603	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACTERIOFERRITIN-ASSOCIATED_FERREDOXIN,PGPT0003975-bfd|yheA-K02192	NA	NA
BMS010_10083	471	bfr_4	COG2193	Bacterioferritin	ATGAAAGGCGACAAGCAAGTCATCCAGCATCTCAACAAGATCCTCGGCAATGAGCTGGTCGCGATCAATCAGTATTTCCTGCACGCGCGCATGTACGAGGATTGGGGCCTGAAGAAGCTCGGCCACCACGAGTACCACGAATCCATCGATGAAATGAAGCACGCGGACAAGCTGATCAAGCGCATCCTCTTCCTGGAGGGCCTGCCCAATCTGCAAGACCTGGGCAAGCTGTTGATCGGCGAGAACACCAAGGAGATGCTTGAGTGCGATCTCAAGCTGGAACAGCAGGCACTGCCTGACCTCAAGACCGCCATCGCGTATTGCGAAAGCGTCGGCGACTACGGCAGCCGCGAGCTGCTAGAAGACATCCTCGAATCCGAGGAAGAGCATATCGACTGGCTGGAAACCCAACTCGATCTGATCACCAAGGTCGGCATGGAAAACTATCTGCAGTCGCAGATGGACGAGTAA	MKGDKQVIQHLNKILGNELVAINQYFLHARMYEDWGLKKLGHHEYHESIDEMKHADKLIKRILFLEGLPNLQDLGKLLIGENTKEMLECDLKLEQQALPDLKTAIAYCESVGDYGSRELLEDILESEEEHIDWLETQLDLITKVGMENYLQSQMDE	PGPT0003965_2299	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-RELATED_PROTEINS_FERRITIN,PGPT0003965-bfr-K03594	NA	NA
BMS010_10084	1161	ybjJ_3		Inner membrane protein YbjJ	ATGACTTCGATTTCTCCGGCGCACATGGCCCGCTGGGCCTGCGCCTATTGCTTCGCCGTCAACGGGCTGCTGCATGGCAGCGCGATGGCGCGCATACCGGCCCTGAAGGCGCAGGCCGCCCTCGACGAGCGCGCACTCGGCCAGGCGTTGCTGGGGCTCGGCTTCGGCGCCTTGCTGGCATTTCCGCTGACCGGCGTGCTGGTACGTCGCCTCGGTGCACGCATGATCCTCAGCGTTTCCTGCCTCGTCCTGCTGTTGCTGTTCCCGCTGCTCGGCCTGGTTGGGAATGCCTGGCACCTGGCGGCCATGCTCTTCCTGATCGGTATGGCCAGTGGTGCCCTGGATGTGGCGGTGAACACCCAGGCCGTGGAGGTGGAGCGCCTGCTCGGGCGTCCCTGTCTCTCCGGCATGCATGGCATGTACAGTCTCGGTGGATTGGTCGGGGCGCTGGGAGCCGCAGCCTTGGCGAGCTGGCCGCCGTTCTGGCATTTCTCCCTGATCGCTGTGCCGGGTTTGCTGGCCTTGCCCTGGTCCCGGAAACGCTTCCTGCCCGATTCTCCGCCCAAGCCGGTGGAGTCCAAGGCGCCGTTGCTGGTCTTGCCGCCATTACCGGTTCTCGGGCTGGGTCTGCTGGCACTCTGCTCGTTCGTATCGGAAGGGGCGATCGCCGACTGGAGCGCCTTGCTGCTGCATGACGTGTTCGCCAGCTCCGAGCGTGTCGCGGCACTGGGCTTCGCGGCGTTCTCGGCGACCATGGTGTTCGGCCGCCTGTTCGGTGATCGGCTGCGGGTGTTGTTCGCCGACGTCAGCCTGCTTCGTGGGTTGTCGATCCTGGCGACCGCCGGGATGTTGCTGGCGCTGTTCGGGCCGAGTGCGCCTTGGGCCATCGTCGGGTTCGCTCTGGCCGGGTTGGGCTTGTCCGTTATCGTGCCGATCGTATTCAGTGCGGCGGGCAACCGGCCGGGGGTGGATACCTCGGTTGGCGTGGCGGCCGTGGCAACGCTGGGCTACGGCGGGCTGTTGCTGGGGCCGCCGCTGATTGGCCTGCTGGCCCACTACATTGGCTTGCGCCTGGCGCTGTTGAGCGTGGTGGGACTGTGCGTGTTCCTCATACTCGGCTCGCCCTGGGTAAAACGCCCGGATGCCGGACGGCAGGCATAA	MTSISPAHMARWACAYCFAVNGLLHGSAMARIPALKAQAALDERALGQALLGLGFGALLAFPLTGVLVRRLGARMILSVSCLVLLLLFPLLGLVGNAWHLAAMLFLIGMASGALDVAVNTQAVEVERLLGRPCLSGMHGMYSLGGLVGALGAAALASWPPFWHFSLIAVPGLLALPWSRKRFLPDSPPKPVESKAPLLVLPPLPVLGLGLLALCSFVSEGAIADWSALLLHDVFASSERVAALGFAAFSATMVFGRLFGDRLRVLFADVSLLRGLSILATAGMLLALFGPSAPWAIVGFALAGLGLSVIVPIVFSAAGNRPGVDTSVGVAAVATLGYGGLLLGPPLIGLLAHYIGLRLALLSVVGLCVFLILGSPWVKRPDAGRQA				NA	NA	NA	NA	NA
BMS010_10085	327	grxD_2	COG0278	Glutaredoxin 4	ATGGATATCATCGAAACCATCAAAGAACAGATCGCCAACAACACCGTCCTGCTGTACATGAAGGGCTCGCCGAATGCGCCGCAGTGCGGCTTCTCGGCGCGCGCTGCGCAGGTGGTGATGGCCTGTGGCGAGAAATTCGCCTACGTCGACATCCTGCAGAACCCGGAAATCCGCGCGAACCTGCCGAAATACGCCAACTGGCCGACCTTCCCGCAACTGTGGGTAAACGGCGAGCTGGTCGGCGGCAGCGACATCATGGCGGAACTGTTCGAGAAGGGTGAGCTGCAGCAGCTTATCAAGAACGCGGTGAACAAAGCCGACGCCTGA	MDIIETIKEQIANNTVLLYMKGSPNAPQCGFSARAAQVVMACGEKFAYVDILQNPEIRANLPKYANWPTFPQLWVNGELVGGSDIMAELFEKGELQQLIKNAVNKADA	PGPT0013203_2044	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CHAPERONES,PGPT0013203-grxD-K07390	NA	NA
BMS010_10086	2112	napA_3		Periplasmic nitrate reductase	ATGAGCAAGACCCTCCATCACCGTGCGTGCCATCTCTGCGAAGCCATCTGCGGGCTGACCATCGAGACCGAGACCCTGGAGAGCGGCGCCGAGCAGATTCTTTCCATCAAGGGCGATGCCCAGGACAGCTTCAGCCGCGGCCATATCTGCCCCAAGGCCGTCGCCCTGCAGGACATCCAGAACGACCCGGACCGCCTGCGCCAGCCGATGCGCCGGGTCGGCGGCGAATGGCAGGCCATCGCCTGGGACGAGGCGTTCGCGCTGGTCGCCGAGCGCCTGGCGGACATCCAGGCGCGCCATGGGCAGAACGCCGTCGCCGTGTACCAGGGCAACCCCAGCGTGCACAACTACGGGCTGTTGACCCACAGCAACTATTTCCTCGGCCTGCTGAAGACCCGCAACCGCTATTCCGCCACTTCCGTGGACCAGTTGCCGCACCACTTGTCCAGCCAGTTCATGTACGGCCACGGTCTGCTGATTCCGATCCCCGACATCGATCACACCCAGTTCATGCTGATCCTCGGCGGCAATCCCCTGGCGTCCAACGGCAGCATCATGACCGTGCCCGACGTCGAGAAACGTTTGAAGGCACTGAAGGCGCGGGGCGGCCGGTTGGTGGTGGTGGACCCGCGACGCAGCGAAACCGCCGCCATCGCCGACCAGCACTTGTTCGTGCGCCCCGGCGAGGACGCGGCGCTGTTGCTGGGCATCCTGAACACTCTGTTCGAGGAGGGCCTGACCCGTGCCTGTCACTTGCCGGTCCAGGGGCTGGACGAGGTACGTCAGGCGATTTCGTCGTTCACCGCCGAGGCCATGAGCGGCCGTTGCGGTGTGCCGGCTGCGGAAATCCGCCAGTTGGCCCGCGATTTCGCCGCGGCCGAATCTGCTGTGTGCTACGGCCGCATGGGCGTGTCCACCCAGGCGTTCGGCACCCTGTGCCAGTGGCTGGTGCAACTGATCAACCTGGTTACCGGCAACCTCGATCGCGAAGGTGGGGCGCTCTGCACGTCGCCGGCGGTGGATCTGGTCGCTTCTTCGTCGGGCGGGCTGCGTTTCAATCGCTGGCAGAGTCGGGTGTCCGGCCTGCCGGAATACGGCGGCGAACTGCCGGTCTCGGCGCTGGCCGAAGAGATGCTCACCCCGGGCGAGGGGCAGATCCACGCGCTGATCACCATCGCCGGCAACCCAGTGCTGTCCACGCCGAACGGGCGGCAACTCGAGCAGGCGCTGGATGGCCTGGATTTCATGCTCAGCATCGATCTCTACATCAACGAGACGACCCGCTACGCCGACCTGATCCTGCCGCCCACCGCGCCGCTGGAACATGACCACTACGACACCACCTTCAACGTCTTCGCCGTGCGCAATGTCACCCGCTTCAACGAGGCGGTACTGAGCAAGCCCGAGGGTGCGCTGCACGACTGGGAAATCTTCGTCGGTCTGGCCAAGGCCTTCGCCGCGCGCACCGGTATCGAGCTGAAACCGACGCTGCCGCCGGAAAAAATGATCGACATGGGCTTGCGCATGGGCGCCTATGGCGACAACTCCGAACACAAGCTGTCGCTGGCGACCTTGCGCGACTATCCCCACGGGATCGACCTGGGGCCGTTGCGGCCCAACCTGGCTGCCCGGTTGAAGACCGAGAGCAAGGCGGTCGAGGCGGCGCCGGCTCCTCTGCTGGCCGACCTGCAGCGTTTCGCTACGGCGCCGTTGCCCAAGGAGGGCGAGCTGATGTTGATCGGCCGTCGCCATGTGCGCAGCAACAATTCCTGGATGCACAACTATCACCGGCTGGTGAAGGGAAAGCCGCGCCATCAGTTGCTGATGAACCCGGAAGACCTGGCCCGGCGCGGACTGGTAGACGGGCAGCGGGTGCGGGTGCGCTCGCGGGTCGGTGCCGTCGAGGTGGAGGTCGTCGCCAGCGACGAGATGATGCCGGGCGTGGTCAGCCTGCCCCATGGCTGGGGGCATGCACGACCGGGCGTGCAGATGACCGTTGCCAGCGCCCAGCCGGGGGCCAGTGCCAACGACCTCACCGACGAGCGTCGGCTCGATGCGTTGTCCGGCAATGCCGTGCTCAATGGGGTCCCGGTGGAGGTGGAGGCGGCCTGA	MSKTLHHRACHLCEAICGLTIETETLESGAEQILSIKGDAQDSFSRGHICPKAVALQDIQNDPDRLRQPMRRVGGEWQAIAWDEAFALVAERLADIQARHGQNAVAVYQGNPSVHNYGLLTHSNYFLGLLKTRNRYSATSVDQLPHHLSSQFMYGHGLLIPIPDIDHTQFMLILGGNPLASNGSIMTVPDVEKRLKALKARGGRLVVVDPRRSETAAIADQHLFVRPGEDAALLLGILNTLFEEGLTRACHLPVQGLDEVRQAISSFTAEAMSGRCGVPAAEIRQLARDFAAAESAVCYGRMGVSTQAFGTLCQWLVQLINLVTGNLDREGGALCTSPAVDLVASSSGGLRFNRWQSRVSGLPEYGGELPVSALAEEMLTPGEGQIHALITIAGNPVLSTPNGRQLEQALDGLDFMLSIDLYINETTRYADLILPPTAPLEHDHYDTTFNVFAVRNVTRFNEAVLSKPEGALHDWEIFVGLAKAFAARTGIELKPTLPPEKMIDMGLRMGAYGDNSEHKLSLATLRDYPHGIDLGPLRPNLAARLKTESKAVEAAPAPLLADLQRFATAPLPKEGELMLIGRRHVRSNNSWMHNYHRLVKGKPRHQLLMNPEDLARRGLVDGQRVRVRSRVGAVEVEVVASDEMMPGVVSLPHGWGHARPGVQMTVASAQPGASANDLTDERRLDALSGNAVLNGVPVEVEAA				NA	NA	NA	NA	NA
BMS010_10087	921	argF_2	COG0078	Ornithine carbamoyltransferase, anabolic	ATGAGCGTAAGGCACTTTCTCTCGTTGATGGACTGCACGCCCCAGGAGCTGGTCGGCCTGATTCGTCGCGGCATCGAGTTGAAGGACCTGCGCAACCGAGGCGTGCTCTTCGAGCCGCTGAAGAACCGCGTGCTGGGCATGATCTTCGAGAAGGCCTCGACCCGAACCCGCCTCTCCTTCGAGGCCGGCATGATCCAGCTCGGCGGCCAGGCGATCTTCCTGTCCCCGCGCGACACCCAACTGGGTCGCGGCGAGCCGGTCAGCGACTGCGCCCAGGTCATGTCGCGCATGCTCGATGCGGTGATGATCCGCACCTTCGCCCACAGCACCCTCACCGAGTTCGCCGCCAACTCCCAGGCGCCGGTGATCAACGGCCTGTCGGACGACCTGCACCCCTGCCAGTTGCTGGCGGACATGCAGACCTTCCTCGAACATCGCGGCTCGATCCAGGGCAAAACCGTGGCCTGGATCGGCGACGGCAACAACATGTGCAACTCCTATATAGAAGCGGCACTGCAATTCGACTTCCAGTTGCGCATCGCCTGCCCGGAAGGTTATGAGCCCAAGGCCGAATTCCTTGCCCAGGCAGGCGACCGTGTTCAGGTCCTGCGCGACCCGCACGCAGCGGTGGCGGGCGCCCACCTGATCAGCACCGACGTCTGGACCTCCATGGGCCAGGAAGCCGAAGCGGCGGAGCGCCTGGCGCTGTTCAAGCCCTATCAGGTGACCCGCGAACTGCTCGACAGCGCCGCCGACGATGTACTCTTCATGCACTGCCTGCCGGCCCACCGTGGCGAGGAAATCAGCATGGACCTGCTCGACGACCCGCGCGCCGTGGTCTGGGACCAGGCGGAGAACCGCCTGCACGCCCAGAAGGCGCTGCTGGAATTCCTCGTCGAACCGGCCTATCACCACGCATGA	MSVRHFLSLMDCTPQELVGLIRRGIELKDLRNRGVLFEPLKNRVLGMIFEKASTRTRLSFEAGMIQLGGQAIFLSPRDTQLGRGEPVSDCAQVMSRMLDAVMIRTFAHSTLTEFAANSQAPVINGLSDDLHPCQLLADMQTFLEHRGSIQGKTVAWIGDGNNMCNSYIEAALQFDFQLRIACPEGYEPKAEFLAQAGDRVQVLRDPHAAVAGAHLISTDVWTSMGQEAEAAERLALFKPYQVTRELLDSAADDVLFMHCLPAHRGEEISMDLLDDPRAVVWDQAENRLHAQKALLEFLVEPAYHHA	PGPT0020080_4438	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020080-arcB|argF|argI-K00611	NA	NA
BMS010_10088	1110	btuD_21		Vitamin B12 import ATP-binding protein BtuD	ATGAGCCACGAACTGCTGCTCAACCTGCGCGACCTCGCCTGTGGCTATCAGGAACACCGGGTCGTGCAGAACCTCAATCTGCACCTCAACGCCGGCGACATCGGTTGCCTGCTCGGCCCTTCCGGCTGCGGCAAGACCACCACGCTGCGCGCCATCGCCGGCTTCGAGCCGGTGGCGGAAGGCGAAATCCAGCTCGCCGGCGAAGTGATTTCCCGCCCCGGCTTCACCCTGGCCCCGGAGAAGCGCCGGATCGGCATGGTGTTCCAGGACTACGCGCTATTCCCGCACCTGACCGTCGAAGAGAACATCGCTTTCGGTATCCGCAAGCACCCGGAACGGGAACGCGTCACCGCCGAGCTGCTCGAACTGGTCAAGCTGCAGCAGCACGGCAAGCGCTACCCCCATGAACTGTCCGGTGGCCAGCAGCAACGCGTGGCCCTGGCCCGCGCCCTGGCGCCGGAACCGCGCCTGCTGCTGCTCGACGAGCCGTTCTCCAACCTCGATGGCGAACTACGCCGGCGCCTCAGCCATGAAGTCCGAGAAATCCTCAAGACGCGCGGCACCAGCGCCATCCTGGTCACCCACGACCAGGAAGAAGCCTTCGCTGTCAGCGATCACGTCGGCGTGTTCAACCAGGGTCGCCTGGAGCAATGGGACACCCCGTACAACCTCTACCACGAACCCCTGACCCCCTTCGTCGCCAGCTTCATCGGCCAGGGTTATTTCATTCGCGGCCAATTGCTCAGCCCCGATGCGGTCCAGACCGAACTGGGCACCATCAGCGGCAACCGTGCCTACACCTGGCCGCTCGGTTCGGCGGTGGACGTGCTGCTGCGCCCGGACGACATCGTCTATGCACCGGACAGCCAACTGAAGGCGCGGATCGTCGGCAAAACTTTCCTCGGCGCCGCCACGCTCTACCGGTTGCAGATGTCTACCGGCAGCCAACTGGAATCAATCTTCCCTAGCCACGCCGATCACCAGCCCGGCGAAGACATCGGTATCCGTGTGGCCGCCGACCACCTGGTGGCCTTCCCAGCCCTGGGCAGCGTGGCCGCGCAGGTCGATCTGCGTGATTCAGGTGTCCGGCGCTACAACAGCACCACCTGA	MSHELLLNLRDLACGYQEHRVVQNLNLHLNAGDIGCLLGPSGCGKTTTLRAIAGFEPVAEGEIQLAGEVISRPGFTLAPEKRRIGMVFQDYALFPHLTVEENIAFGIRKHPERERVTAELLELVKLQQHGKRYPHELSGGQQQRVALARALAPEPRLLLLDEPFSNLDGELRRRLSHEVREILKTRGTSAILVTHDQEEAFAVSDHVGVFNQGRLEQWDTPYNLYHEPLTPFVASFIGQGYFIRGQLLSPDAVQTELGTISGNRAYTWPLGSAVDVLLRPDDIVYAPDSQLKARIVGKTFLGAATLYRLQMSTGSQLESIFPSHADHQPGEDIGIRVAADHLVAFPALGSVAAQVDLRDSGVRRYNSTT	PGPT0003735_742	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003735-afuC|fbpC-K02010	NA	NA
BMS010_10089	1068			hypothetical protein	ATGCAGCCCTCCCAGAAGCAGCGCCTGCGCTTGCGCCGCATTCTCCTGGCCAGCAGCGCGTCATGGCTATACCTCCTGCTCTGCTGGCTGGCGTTTCTCGCCGGCTACATGCAGTTGCACCTGCAAGGCATGATGGTGCTGAGCTTCGTGGTGTTGGCCAGTTGCGTGATCTTTTTCCTGCTGGTGCGCTTCGATCTCAACCTGCGCTTTCGCGAGCCCAGCCTGACCTTACCGCAGATGTGCTGGTCCATCCTGGTGGTGTTCGTCAGCGCCTATTTCGCCGGCAGCCTGCGCTCGCTGTTCCTGATGATGGCCCTGATAGTCCTGATGTTCGGCGCCTTCCGCCTGGACCTGAAGGGCTTCGTGCGGGTCGGTGTGTTCTGCGCGATCTGCTATGCGCTGCTGCTGATCGCCTTGCAGCGCCGCGAGGGCATCGAGTTGCGCCAGGAGCTGATCCAGGCGCTGGAGTTCTTCGTGCTGTTGCTCGGGGTATCCATGCTCGGCCTGGAAATGAGCGGGCTGCGCCAGACCTTGCAGTTGCGCAACCGCGAGTTGCAGCGGGCCTTTGGGCAGATCCAGCAGCAGGCTATCACCGACGAGCTGACCGGGTTGTACAACCGGCGGTTCGCCAAGACCATGCTGTCCCAGCAGAAAGCGCTGGCGGACCGGGGCGGCTACGATTTCGTGCTGTGTCTGATCGACCTGGATTTCTTCAAGGCAGTGAACGACCGCTACGGGCACTCCGGCGGCGATGCGGTGCTGCGCCAGTTGGCGGACTTGTTGCAGCGTTCGGTGCGCAATGCGGATTTCGTCGCGCGCCTCGGTGGCGAAGAGTTTCTCCTGGCGCTGACTCGCACCGATCCGGAGGGCGCGCAACGGGTGCTCCAGCGTCTGCGGGAAACGATGGCGGACGTGCAATGGGACGAGTGCCCCGGGCTACGCCTGACCCTGTCCGTCGGCGTCAGTGCCTACCGTAGCCCGGAACCTTGGGAGGATGTCTTGCAGCGTTGCGACGAAGCGCTTTACCGGGCCAAGGATGATGGCCGCGATCAGGTGGTGCTGTTGTAG	MQPSQKQRLRLRRILLASSASWLYLLLCWLAFLAGYMQLHLQGMMVLSFVVLASCVIFFLLVRFDLNLRFREPSLTLPQMCWSILVVFVSAYFAGSLRSLFLMMALIVLMFGAFRLDLKGFVRVGVFCAICYALLLIALQRREGIELRQELIQALEFFVLLLGVSMLGLEMSGLRQTLQLRNRELQRAFGQIQQQAITDELTGLYNRRFAKTMLSQQKALADRGGYDFVLCLIDLDFFKAVNDRYGHSGGDAVLRQLADLLQRSVRNADFVARLGGEEFLLALTRTDPEGAQRVLQRLRETMADVQWDECPGLRLTLSVGVSAYRSPEPWEDVLQRCDEALYRAKDDGRDQVVLL	PGPT0025990_304	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-c-di-GMP_SIGNALLING_PATHWAY,PGPT0025990-sadC-K21019	NA	NA
BMS010_10090	783	yddE	COG0384	putative isomerase YddE	ATGCATCTCGAATTTCATCAGGTCGATGCGTTCACCCACAGCCCGTTCAGCGGCAACCCGGCGATGGTTTACCGCCTGGACGCCTGGCTGGACGATGCGCTGATGCAGAAGATCGCCGCCGAACACAATCTGGCGGAAACCGCCTTCCTGGTGAAAGAAGGTGCGGCCTGGCATATCCGCTGGTTCACTCCGCGCGCAGAGGTGCCGCTGTGCGGCCACGCGACGCTGGCCAGTGCCCATGTGTTGTTCGATCGCTACCAGGAGCCGGGCGAGCGCATCGATTTCATCTGCAAGTCCGGCGAGCTGCGGGTGACGCGCGAGGGCGGCCGGCTGGTACTCGACTTCCCGGCGCTGCAGCCGCAGGAGGTGGCAGCGGACGAGGCGCTGGTCGCTGCGTTGGGGATAACACCGCAACAGGTGCTGGCAGCCGACAAGTTGCTGGTGGTGCTGGATTCGGAGCAGGCGGTGCGTGACTGCACGCCGGATTTCGCCGCCCTGGCCCGGTTGCCCTGGCAGGGCGTGATCATCACCGCGCCCGGCGTGCACCACGACTTCGTTTCGCGCTTCTTCGCCCCGGCCATTGGTATCGACGAGGACCCGGTCACCGGTTCGGCGCATTGCAGCCTGATCCCTTACTGGGCAGAGCGGCTCGGCAAGACCCGGCTGTCCGCGTTCCAGTGCTCGGCGCGCGGGGGCGAGCTGATGTGCCAACTGGATGGCGGGCGGGTGAAGATCGCCGGTCATTCGGTGCTGGTGGCCAGCGGCACGCTCTGGCTCGGGTGA	MHLEFHQVDAFTHSPFSGNPAMVYRLDAWLDDALMQKIAAEHNLAETAFLVKEGAAWHIRWFTPRAEVPLCGHATLASAHVLFDRYQEPGERIDFICKSGELRVTREGGRLVLDFPALQPQEVAADEALVAALGITPQQVLAADKLLVVLDSEQAVRDCTPDFAALARLPWQGVIITAPGVHHDFVSRFFAPAIGIDEDPVTGSAHCSLIPYWAERLGKTRLSAFQCSARGGELMCQLDGGRVKIAGHSVLVASGTLWLG				NA	NA	NA	NA	NA
BMS010_10091	783			hypothetical protein	ATGCCCACCCGCCTGCTTTCCCTCCTCCTGCTGGGACTCAGCCTCCTCGCTTCCGCCAGCCAGGCCGCCCTCAGCGATGCCGAAGCGCTGAACATGGCCGGCATGCAACGCATGCTCAGCCAGCGCATCGCCAAGAATTACCTGATGATCGGCGCCGATGTGCGCACCGACCAGGCCGCCCAGCAGCTCGACGAGAGCCTGGCGACCTTCGAAAGCAATTACCAGGCGCTGAACACCTATGCGCCGACCCCGGACATTCGCCAGGCCCTGACCAGCTCGGAAGAAACCTGGCGGACCTACCGGGAACTGGCCCTGTCATCTCCCGACCGGAAAAACGCCGTGCAGATGTTGGTCCTGAGCGATCGCCTGCTCGCCGACAGCGAACGCGTGGTGCAACTGGTCGAAGCCCATAGCGGCAACCGCGCCTCGCAACTGGTCAACCGCAGCGGCCGGCAACGGATGCTCAGCCAGCGTATCGCCACGCTGTACCTCGCCCTGAGCTGGAAGCTGCCGGTGGACGGGCTGGAAGCGAACTTCAACCAGGCAGTGACAGAGTTCGATCAGGCCCTGCACGACCTGATCGCCGCACAGCAGAACACCGCCGCGATCAACAAGGCGCTGGAACAGGCGAACGCCCAATGGCGCTACGCTCGCGCCGGCTTCCGCCTGAGTGCGGATTCGCGTTACGTCCCGACGGTGATCGCGACCACGACCGAGACCCTGCTCCGGCAAATGAACGAACTGACCAGCCAGTACGAAGGCGTCATGCGCAGCGGGAGCTGA	MPTRLLSLLLLGLSLLASASQAALSDAEALNMAGMQRMLSQRIAKNYLMIGADVRTDQAAQQLDESLATFESNYQALNTYAPTPDIRQALTSSEETWRTYRELALSSPDRKNAVQMLVLSDRLLADSERVVQLVEAHSGNRASQLVNRSGRQRMLSQRIATLYLALSWKLPVDGLEANFNQAVTEFDQALHDLIAAQQNTAAINKALEQANAQWRYARAGFRLSADSRYVPTVIATTTETLLRQMNELTSQYEGVMRSGS				NA	NA	NA	NA	NA
BMS010_10092	384	gcvH_4	COG0509	Glycine cleavage system H protein	ATGAGCGAGTTGCGTTTCACCGTCGATCACGAATGGCTGCGTCTGGAAGCCGATGGCCTGGTCACCGTCGGCATCACCCCCTTCGCCCAGGATGCCTTGGGCGACGTGGTCTTCGTCCAGTTGCCGGAACTGCGCGGCTATGCCGCCGGCGAGGAAGTGGCGGTACTGGAATCGGTGAAGGCCGCCAGCAACATCGTCATGCCGCTGGAAGGCGAAGTGGTCGAAGTGAACGGCGAACTGGAAGGCAGCCCGGAGCGTGTCAACGAGGCGCCGCTGACCGACGGCTGGTTCTTCCGCTTCCGCCCGGTGGACGCTTCGGCGGTGGCCGGCCTGCTCGACCAGGAAGCCTACGACCGCCTGCTGCAAGCCAACGCCCACGCCTGA	MSELRFTVDHEWLRLEADGLVTVGITPFAQDALGDVVFVQLPELRGYAAGEEVAVLESVKAASNIVMPLEGEVVEVNGELEGSPERVNEAPLTDGWFFRFRPVDASAVAGLLDQEAYDRLLQANAHA				NA	NA	NA	NA	NA
BMS010_10093	2856	gcvP_3	COG0403	Glycine dehydrogenase (decarboxylating)	ATGACCGACCTGACCACCCGTAACGAATTCATCGCCCGCCATATCGGCCCGCGCGAGGCCGATATCGCCGCCATGCTCCAGCATCTCGGCTACGACTCCCTGGAAGCGCTCACCGCCAGCGTCATCCCGGACAGCATCAAGGGCACCAGCGTGCTGAACCTGCCGGAAGGCCTGAGCGAAGCCGACGCACTCGCCGAGATCAAGGCCATCGCCGGCCGCAACCAGCTATTCACCCAGCACATCGGCCAGGGCTACTACCCCTGCCACACCCCGGCGCCGATCCTGCGCAACCTGCTGGAGAACCCGGCCTGGTACACCGCCTATACGCCCTACCAGCCGGAAATCTCCCAGGGACGCCTGGAAGCCCTGCTCAACTTCCAGACCCTGATCAGCGACCTTACCGGCCTGCCGATCGCCAACGCCTCGCTGCTCGACGAAGGCACCGCCGCCGCCGAAGCCATGACCTTCTGCAAGCGCCTGTCGAAGAACAAGGCCAGCAACACCTTCTTCGCCTCGAAGCATTGCCACCCGCAGACCCTCGACGTCCTGCGCACCCGTGCCGAGCCCCTGGGCATCGACGTGGTGGTCGGCGACGAGCGCCAGATCGATGACGTCTCCGCCTATTTCGGCGCGCTGCTGCAATACCCGACCAGCAATGGCGACATCTTCGACTACCGCGCCCTGACCGAACGTTTCCATGCCGCCAACGCCCTGGTGGCGGTCGCCGCCGACCTGCTGGCCCTGACCCTGCTCAGCGCTCCCGGCGAATTCGGTGCCGACGTCGCTATCGGCAGCGCCCAGCGCTTCGGCGTACCGCTCGGCTTCGGCGGCCCGCACGCGGCCTACTTCGCCACCCGCGACGCCTTCAAGCGCGACATGCCGGGCCGCCTGGTCGGCGTCTCCATCGACCGCTTCGGCAAGCCGGCCTACCGCCTGGCCATGCAGACCCGCGAACAGCATATCCGCCGCGAGAAGGCCACCAGCAACATCTGCACCGCGCAGGTCCTGTTGGCCAACATCGCCAGCATGTACGCCGTCTACCACGGCCCGGCCGGCCTCACCCGCATCGCCCGCCGCGTGCACCGCCTGACCGCGATCCTCGCCCAGGGCCTGGCCAAGCTGGGCTATAGCGCCGAGCAGGTGCATTTCTTCGACACCCTGACCCTGGCCACCGGCGCGCGCACCGCGCAACTGCATGCCCAGGCCCGGGCGATGCGCATCAACCTGCGCGAAATCGATGGCGAACACCTTGGCCTGTCCCTGGACGAGACCACCGACCAGGCCGGCGTCGAGCGCCTGTGGGAACTCTTCGCCGAGCCCGGCCAGAGCCTGCCGGACTTCGCCGAGCTGGCGAAAAACGTCGCCGACCGCCTGCCGGAAGCGCTGCTGCGCCAGTCGGCGATCCTCCAGCACCCGGTGTTCAACCGCTACCACTCGGAAACCGAGCTGATGCGCTACATGCGCAAGCTGGCCGACAAGGACCTGGCGCTGGACCGCAGCATGATCCCGCTCGGCTCCTGCACCATGAAGCTGAACGCCGCCAGCGAAATGCTGCCGATCACCTGGGCCGAGTTCGGCAACCTGCACCCCTTCGCTCCGGCCGAGCAGAGCCAGGGCTACCAGCAGCTCACCGCCGAGCTGGAGACCATGCTCTGCACCGCCACCGGCTATGACGCCGTGTCCCTGCAGCCGAACGCCGGCTCCCAAGGCGAATACGCCGGCCTTCTGGCGATCCGCGCCTATCACCACAGCCGTGGCGACCATCAGCGCGACATCTGCCTGATCCCCTCCTCCGCCCACGGCACCAACCCGGCCACCGCCAACATGGCCGGCATGCGTGTGGTAGTGGTCGGCTGCGACGCACGCGGCAACGTGGACATCGACGACCTGCGCGCCAAGGCCGCCGAGCACCAGGCCCGCCTCGCCGCGCTGATGATCACCTACCCGTCCACCCACGGGGTGTTCGAGGAAGGCATCCGCGAAATCTGCGCCATCATTCACGACCACGGCGGCCAGGTGTATATCGACGGCGCCAACATGAACGCGATGGTCGGCCTCTGCGCCCCCGGCAAGTTCGGCGGCGACGTGTCCCACCTGAACCTGCACAAGACTTTCTGCATCCCCCACGGCGGCGGCGGCCCGGGCGTCGGCCCGATCGGCGTGAAGTCCCACCTTGCGCCCTTCCTGCCCGGCCATGGCCACATGGCGCGCAAGGAAGGCGCGGTGAGCGCGGCGCCGTTCGGCAGCGCCAGCATCCTGCCGATCTCTTGGATGTACATGAAGATGATGGGCGGCGAGGGCCTCAAGCGCGCCTCGCAACTGGCCATCCTCAACGCCAACTACATCGCCCGTCGCCTGGAAGAGCACTACCCGGTGCTCTACACCGGCGGCAACGGCCTGGTGGCGCACGAGTGCATCCTCGACATCCGTCCGCTCAAGGACACCAGCGGCATCAGCGTCGACGACGTGGCCAAGCGCCTGATCGACTTCGGCTTCCATGCGCCGACCATGTCCTTCCCGGTGGCCGGCACCCTGATGATCGAGCCGACCGAGAGCGAGTCCAAGGAAGAGCTGGACCGCTTCATCGACGCCATGATCGCCATCCGCCAGGAAATCCACGCGGTGGAGAACGGCGCGCTGGACAAGGATGACAACCCGCTGAAGAACGCGCCGCACACCGCGGCCGAGCTGGTCGGCGAATGGAGCCATCCGTACAGCCGCGAACAGGCCGTGTACCCGGCCGCCTCGCTGGTGGACGGCAAGTACTGGCCGCCGGTGGGCCGCATCGACAACGTGTACGGCGACCGCAACCTGGTCTGCGCCTGCCCGTCCATCGAGGCGTACCAGGACGCGTAA	MTDLTTRNEFIARHIGPREADIAAMLQHLGYDSLEALTASVIPDSIKGTSVLNLPEGLSEADALAEIKAIAGRNQLFTQHIGQGYYPCHTPAPILRNLLENPAWYTAYTPYQPEISQGRLEALLNFQTLISDLTGLPIANASLLDEGTAAAEAMTFCKRLSKNKASNTFFASKHCHPQTLDVLRTRAEPLGIDVVVGDERQIDDVSAYFGALLQYPTSNGDIFDYRALTERFHAANALVAVAADLLALTLLSAPGEFGADVAIGSAQRFGVPLGFGGPHAAYFATRDAFKRDMPGRLVGVSIDRFGKPAYRLAMQTREQHIRREKATSNICTAQVLLANIASMYAVYHGPAGLTRIARRVHRLTAILAQGLAKLGYSAEQVHFFDTLTLATGARTAQLHAQARAMRINLREIDGEHLGLSLDETTDQAGVERLWELFAEPGQSLPDFAELAKNVADRLPEALLRQSAILQHPVFNRYHSETELMRYMRKLADKDLALDRSMIPLGSCTMKLNAASEMLPITWAEFGNLHPFAPAEQSQGYQQLTAELETMLCTATGYDAVSLQPNAGSQGEYAGLLAIRAYHHSRGDHQRDICLIPSSAHGTNPATANMAGMRVVVVGCDARGNVDIDDLRAKAAEHQARLAALMITYPSTHGVFEEGIREICAIIHDHGGQVYIDGANMNAMVGLCAPGKFGGDVSHLNLHKTFCIPHGGGGPGVGPIGVKSHLAPFLPGHGHMARKEGAVSAAPFGSASILPISWMYMKMMGGEGLKRASQLAILNANYIARRLEEHYPVLYTGGNGLVAHECILDIRPLKDTSGISVDDVAKRLIDFGFHAPTMSFPVAGTLMIEPTESESKEELDRFIDAMIAIRQEIHAVENGALDKDDNPLKNAPHTAAELVGEWSHPYSREQAVYPAASLVDGKYWPPVGRIDNVYGDRNLVCACPSIEAYQDA	PGPT0020480_2574	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020480-gcvP-K00281	NA	NA
BMS010_10094	1131	vgrG1_2	COG3501	Actin cross-linking toxin VgrG1	ATGGGAGAGGGCTGGGGTGAGGGGGCGGACTCCAGCCCGAACACCGATCCCAACTTCACCCAAGGCTACCGCAACCACTTCCAGGCCACCCCCTGGGACGTCTTCTACCGTCCGCAACTGGCTCACCCCAAGCCGCGCATCCTCGGCAGCCAGACCGCCGTCGTCACCGGCCCGGCCGGCGAGGAGATTCACTGCGATCAATACGGTCGCGTGAAGGTCCAGTTCCACTGGGACCGCCACGGCCAGACCGACGAGCACACCAGTTGCTGGCTGCGCGTCTCCTCCAGTTGGGCCGGCGACCGCTACGGCGGCGTCGCCATCCCGCGCATCGGCATGGAAGTGCTGGTCACCTTCCTCGAAGCCGATCCGGACCAGCCCTTGATCACCGGCTGCCTGTTCCACAAGGAGCACGAGGTCCCCTACGACCTGCCGGCGAACAAGACGCGGACCGTCTTCAAGACCCTCAGCACGCCCGGCGGCGGGGGCTACAACGAGCTGCGCATCGAAGATAAAAAGGGCCAGGAGCAAATCTTCATCCACGCCCAGAAGGACTGGGACGAGAACATCGAGCACGACCAAACCATCCGCGTCGGCCACGAGCGCCACGACACGGTGGAAGCCAACAGCTACAGCGAATTCAAGGCCGAGGAACACCGCATCACCCACCTCGACCGCAAGACCGAACTCAAGGCCAACGACCACCTCACGGTCGGGCAGAACCAGCACATCAAGATCGGCCAGGGCCTGTTCATCGAGACCGGCGACGAAATCCACTACTACGCCGGGCAGAAGGTAGTGATCGACGCCGGTGCCGAACTCACCGCCAAGGCCGGCGGCAGTTGGCTCAAGCTCGACGGCAGCGGCGTCAGCCTCAACGGCGCGACCATCAACCTCAACACTGGCGGCAGCCCCGGCCAAGGCTCCGGTGCCGCCCCGATCCTGCCGGGCGAGCCCAAGGCGGCGGATGCGGACAAACCCGGCGCGGTCCTGGAGCACAAGCTCAAGCAGGCTCGCCTGACCAACAGCCCCCTGGTCGAGCTGTGCCAGAAACCCAAAGGCGGCACGCCCATGCAGTGCCCCTTGGCCGACTGCCCCTGCCGGGCAGCCATGCAGGCGGGAGCGCAGGGATGA	MGEGWGEGADSSPNTDPNFTQGYRNHFQATPWDVFYRPQLAHPKPRILGSQTAVVTGPAGEEIHCDQYGRVKVQFHWDRHGQTDEHTSCWLRVSSSWAGDRYGGVAIPRIGMEVLVTFLEADPDQPLITGCLFHKEHEVPYDLPANKTRTVFKTLSTPGGGGYNELRIEDKKGQEQIFIHAQKDWDENIEHDQTIRVGHERHDTVEANSYSEFKAEEHRITHLDRKTELKANDHLTVGQNQHIKIGQGLFIETGDEIHYYAGQKVVIDAGAELTAKAGGSWLKLDGSGVSLNGATINLNTGGSPGQGSGAAPILPGEPKAADADKPGAVLEHKLKQARLTNSPLVELCQKPKGGTPMQCPLADCPCRAAMQAGAQG	PGPT0030410_2989	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0030410-vgrG-K11904	NA	NA
BMS010_10095	828			hypothetical protein	ATGAGCGACATGACCCAAGCGGACTTCCCCAGCCTGACGCCCCCGCTCTATCTGTTGCTGGAACACGACGACGACCTGCTGCAACGCGTCTACGAGCAGGAGCCGAGCGCCGTGCCCCAGCGACTGTTCGCCAACACCGAGCTGGATGCCCATCGGGACCAAGGCCCCTTGCTGGTGCCGCTGTCGACCGACGATGCACTGCTGGCGGCCTACCGCTCGGCGCCTTCCGACTGGCCGGGAATCCTGCTGGCTTGCGACCGGCCGGAAGCCGAACTGCTGGAGCATCTGCAGCGCCTGCTGATCGTCCGCTTCGACGGCAACCGCAAGGCGCTGCTGCGCTACTACGACCCTCGGGTGGCCAGCTACTTCTTCCCCGCCTGCGACGTCCAGAGCGGCCCGGCCTGGTTGGGGCCGATCCGCCAAGTGGCCTGGCATGGCGGCACCTGGGCGGACTCGGCCGCCGACGAGGCCACTTGGCACTGCCTGAATAATCCCGAAGCGGCGAATGCCACTCCCATGGCCGCGCCCATGCCCCTGGACGACCGGCAAACCCGTGCCCTGGAGCGCCAGCAACTGGAGCGCTTCGTCTACGACTGGCAACAGCGCCACCCGCAACAGCCTTTCACCCTGGCGTGGGTCTGGCTGCACCAGGGATTGGCTGTCGGGTTCGACGAGTACGACGACCTGACCGCCTACCTCGACCTGCGCGCCCAGTATCCCGGCCACACGGACCACCCCGCACCATCCACCGGCGAGACACGGCAGCGATTGCAACAGCTGCGTGACTACCTGGAAGCCTCGCCGGCCTCCAAGGAGATTCATCTATGA	MSDMTQADFPSLTPPLYLLLEHDDDLLQRVYEQEPSAVPQRLFANTELDAHRDQGPLLVPLSTDDALLAAYRSAPSDWPGILLACDRPEAELLEHLQRLLIVRFDGNRKALLRYYDPRVASYFFPACDVQSGPAWLGPIRQVAWHGGTWADSAADEATWHCLNNPEAANATPMAAPMPLDDRQTRALERQQLERFVYDWQQRHPQQPFTLAWVWLHQGLAVGFDEYDDLTAYLDLRAQYPGHTDHPAPSTGETRQRLQQLRDYLEASPASKEIHL				NA	NA	NA	NA	NA
BMS010_10096	3828			hypothetical protein	ATGAGCGCCAAAGCAGGCAGCCTGAGCAACGGCCCGGCGTGCGAGGCCGGCAAGCTGATCGTCGAAGTGATCGGCAAGGACCATCCGCCAGGACAGCGCATCGTCATCTACGACGAAACCGACAACGAACTACAGGAATGGCTGACCAACCGCCGCCAGCTCGAGCCGCTGATCGACAAGGCATTCAGCAGCACCCTGCATATCTGGCCGTGGGACGGGCAACCCAAGCGCCACCTGTGGTTGGAGATCGAAGCCGAGAAAGGCGGCCCCATCCGCGTGCCGCTGATGGACGATGCCAAGGCCACGCCGCGCCAGATCGAGCAGCAGTGGAACCAGATCGTCCCCATCGTGCCCTTCACCGCCGTGGCCGGCAGCCGGAGCGCCTACGACCTGGGTACGCCCGTGCAGGTACGCAACGGCTACGTCTATGTCTTCTACCGGGACAAGCTCTGGCGCGAGCTAGAAGTTCGCGTGGGCGAGAAAACCACCTTCCACGACGTCCCCGTCGCCCATTACCGGCAGAAAAACGGCTTCAAGTCCGGCCCGCGCGCCGCAACGGGCAAGGCCCTGGATGACATCTGGCTGCCGGCGACCTGGAATGACATGACCGCCCCGTCCGTGCAGCTCTGCTTTTCCGAAGTCCAGTTGAGCGCATCCCGCCTGCAGCGCCTGGAACAGGACGCCGGCCTGCGCCGCACCCGCTGCAACAGCGTCGACCTGCGCGCCTCGAAGAGCAAGTTCAAGCGGCTCTATGAAGGCCAACCCAACGGCAAGGACATGCTCGCCGCCTTCTCGACGTTCGATGTCCGCGACTACGCCAACCAGAATGCTGTCGGCAAGGCGAAGGTCACACGCCTGAATCTGAACCTGCACGTCTTCCCGGTCGGGCTGGCCGCGCCGCAACGGATGCGCCAGCCCGGCTACGAATGGATGCTGGATCATCCGGGGCGCTACCTGTGCGACCTCTCGGGCCAGTTCCCCGCCACCAGCAAGACCGAAGCCCAGGCCTTCCTCGATGGCTGCGAGCGGGGCACGCCCGGCAAGCCGCCCGCCACGCTGGAATCCGACGCATGGGCCCATTGCCTGGAGGAAAAGGTCAAGGCCGGCAGGCCCGTGTGCCCGGCCCCCCAGGACGGCGGTCCCAGCGAGGTCTGGAAAGCCCAGCCCGCCGAACAGGATGTGTTGCGGCAGGCCCGCCAGCGGCAAATCTGCGGCGTGCTGCTGGACGACGAACAGTACCGCCTGCGCCACCTGCTCAACCGCATCAATACCCAGCAGAACCTGTTGAAGCTCTGCGCCGAGCGGGCCACCCAGCACGCCAACCACGGCAGCGCCCTGCTGGTCCAGCAACTGATCGTGCCGAGAGCCCTGGGAGGCCAGACCAACCCGCTGCACCAAAGCCTGGAAAAGCTCAAGGAACAGGGCAAGCGCGACATCAACCGTTTCACTGCCACCCCGGAGCGCGCACAGGTATGGCGGCACCTCAACGGTGTCCAGGATCTCCTGGCCGAATGCCTGGGACATCCCGAAGCACAGCAGACACTGGCCGATCACCTCAGCCTCGACGGCTTCGACTACACCGCCGCCCTACACTTCGCCAGCCAGTTGCTCGCCGGCCTGGCCTGCAGCCCGGCGCAACTCGACCCGCTGGCGGTGAACGGCGATGTCACCGACGCCATCACCGGCGTCAGCCTCTACAGCCCGAAGGGCACGCCGGGCCAGCAGCTCATCAGCACCATCGCCAACCAGCAGCAGCACCCGCTGCACGCCATGCTCTGGCCCGTGGCCGAACTCAAGGACCTGCTCGCCCCCTACCAGAAACCGGCCAGCGCCGAACCCAACCAGGGCGACGGACGCTTCCGGCCCAGCGAACTGGCCAAGGCCGAAACCCAGGGCGCGCCCGCCGCCAACCAGCAGACCCTGGACAGCAGTCTGCTCGCCAGCCTGGTGGCGGCCGGCAGCCTGAACAGCACCCTGACGGCGCAACTGAAAGCCGGCGCCGGTGCCCTGATCAGCATCTACGAAAACATCCAGGGCGCGGTGGACGCGGCGGAAAATGCCCTGCATGCGGCCAAGGAAACGTCTCGCCAGCGGCAGGCCGAAGCCGCCAGCCGCAGCGGCGCCCACCAGCAGGCCCGTGGCCGCGAACAGGCCACGCGGGAAAGCCTCGGCAGGCGAGCCCGGCCGGTCAACATCCGCCTGCATGGCCAGGGCGTCCAGCAATTGCGCAGCATGCTGCCGGACACCTTCGGCTATGCCTATTTCATCCGCCGCAGCCAGGCCAACAGCCAGGCCCACTACCTGTTCGGCCTGGAAGACCTGCCCACCCAACCGGCCCGCGCCACGCGGTTCTACGGCGAGTTTCTCGATGCCCAGGGCAACCTGCTGGGCAGCACCAACGTCGCCCGCGGCGCAACCGCCGGCGCCCAGACCGGCGACCATCTGCTGCTCGCCCTGCCGCGCAACCACAGCACCGCCCGCCTGATCGGCGAACTGAACCGCCGCATCAACGCCGCCCGCGAAGCCGAACGAGCCGCACAGACCGCCCAGGCCAGCGCGGCCCAGGCGGACAGCGCACTGGAAAATGCAGTGCAGAACTACAATACCCAGCGCAACAGCAAGGTCTACCGCGTACTCAACTCACGGACCTTTACAGCGGCAGTGCTGATGCTGGAATTGTGGAATGTGAATAATGAGTTGCAATCGTTCAACAATACCCAACGGGAAAAGAGCAACGCCCGAGCAGTAGTGGGTATAGGCGGTGCCTACGTTGATCTAGCCATCGCGATGGAGACACTTACCGTCAAAATCACCGGTAGCCAATCGGTACTGGCATCTGCACGTAAAGTTATCTTCAGGATACCGGCCGACGCAGCGAACAAGTATCTAGGCGTCGCAATCGGAGAAAAAATCAACAAAGACATTACTGCACGGCTGCTAGGGCAAGCGCTCGCGGGATTACTGTTGGCTGGCCTCTCCCTCTACGATGCCTGGTACGCTTGGCAGTGGAACGACGATGCCATGTGGGGTTACCTGCTCATGGCGGGTGGCGGCCTCCTGGGGGCCGTCGGTACTTTCTTCGGTGGCGCCACCTTCCTGGGGTTGACCCCCATCGGCTGGATTTCCCTGCTCCTCGTCTGCATCGGTGCCGGCGTAGCCTACTGGCTCAGCAGCAACCCCATCGAGGACTGGCTGGCCAACGGCCCGTTCGGCGACAGCCGCACGAACAACCACCCCCATCTGCGCGACCCGCAGGAAGCCTTCTACCGGCTGGTCGGCCTGTTCGCCGGCATCCGCATCAGCAGCGGCCGCAACCCTGCCTTCGACCCGAACGCCAAGCTCTCGAGCCATGACACCGTGCCTTATCGGGTCCGCACCGCCAACAGCCTGGTACGCATCGAAAGCAACCTACCCGGCCTGCTGTCCAGCCTGGGGGGCGTCAATATCAAGGCCCTCTGCCGGTTGCGCAGCGTCGAGACCATGCTCACCGCCAAAGGGGAAAGCTACACCGTTGCCAAGCCACTGGGGCCGGAGATGGCTCCCGTGGCCCAACGCCTCTGGCCCAATGCCCTGGAACTGTTCTTCGACATGCCGGCCAGCCAGAGCATGAGCTTCTCGCCCCGGCGCAACGGCCTGTACCATGAGTGGGTCATTCGCGCCCAGTTCCGCTTGAGCGGCGACCGCCATTCTTGGTATTTCCCGGCGCCCAAGCCCAAGGACCCGCTGGCCTTCGACCTCGGCAAGAACAAACCGAACTGGGATAAAGTCGACCAACCCTTCTGGGCCGACGAAAGCACTTACAACGCCACGCCACCGAAAGAGCTCTGA	MSAKAGSLSNGPACEAGKLIVEVIGKDHPPGQRIVIYDETDNELQEWLTNRRQLEPLIDKAFSSTLHIWPWDGQPKRHLWLEIEAEKGGPIRVPLMDDAKATPRQIEQQWNQIVPIVPFTAVAGSRSAYDLGTPVQVRNGYVYVFYRDKLWRELEVRVGEKTTFHDVPVAHYRQKNGFKSGPRAATGKALDDIWLPATWNDMTAPSVQLCFSEVQLSASRLQRLEQDAGLRRTRCNSVDLRASKSKFKRLYEGQPNGKDMLAAFSTFDVRDYANQNAVGKAKVTRLNLNLHVFPVGLAAPQRMRQPGYEWMLDHPGRYLCDLSGQFPATSKTEAQAFLDGCERGTPGKPPATLESDAWAHCLEEKVKAGRPVCPAPQDGGPSEVWKAQPAEQDVLRQARQRQICGVLLDDEQYRLRHLLNRINTQQNLLKLCAERATQHANHGSALLVQQLIVPRALGGQTNPLHQSLEKLKEQGKRDINRFTATPERAQVWRHLNGVQDLLAECLGHPEAQQTLADHLSLDGFDYTAALHFASQLLAGLACSPAQLDPLAVNGDVTDAITGVSLYSPKGTPGQQLISTIANQQQHPLHAMLWPVAELKDLLAPYQKPASAEPNQGDGRFRPSELAKAETQGAPAANQQTLDSSLLASLVAAGSLNSTLTAQLKAGAGALISIYENIQGAVDAAENALHAAKETSRQRQAEAASRSGAHQQARGREQATRESLGRRARPVNIRLHGQGVQQLRSMLPDTFGYAYFIRRSQANSQAHYLFGLEDLPTQPARATRFYGEFLDAQGNLLGSTNVARGATAGAQTGDHLLLALPRNHSTARLIGELNRRINAAREAERAAQTAQASAAQADSALENAVQNYNTQRNSKVYRVLNSRTFTAAVLMLELWNVNNELQSFNNTQREKSNARAVVGIGGAYVDLAIAMETLTVKITGSQSVLASARKVIFRIPADAANKYLGVAIGEKINKDITARLLGQALAGLLLAGLSLYDAWYAWQWNDDAMWGYLLMAGGGLLGAVGTFFGGATFLGLTPIGWISLLLVCIGAGVAYWLSSNPIEDWLANGPFGDSRTNNHPHLRDPQEAFYRLVGLFAGIRISSGRNPAFDPNAKLSSHDTVPYRVRTANSLVRIESNLPGLLSSLGGVNIKALCRLRSVETMLTAKGESYTVAKPLGPEMAPVAQRLWPNALELFFDMPASQSMSFSPRRNGLYHEWVIRAQFRLSGDRHSWYFPAPKPKDPLAFDLGKNKPNWDKVDQPFWADESTYNATPPKEL				NA	NA	NA	NA	NA
BMS010_10097	1059			hypothetical protein	ATGGATCAGCCCTACTACGCCAGTACTGCTTACAGCCCGGCCACCATTCCCAACCAGCCAACTTCGGCGGAGCGCTCCTGGATCAAACGCTTCGCCAAAGTGCGTTTGCCTTGGGGCAATACTCAGGACGTAGCGCCTGAGCGAATCTTCTGTGACCCGACACCCAGTAGCCTTCGCTTTTGGGAAACCGCCGAAAAAGAACGTCTGGAGCAAAAGGCCCAAGGCACCTATGTGCCTCCACTGTTTGAAGGGATGGACCTTCATCAAAAATACGATCACGAGTATTTTCGCTATGCACTTCTATCTAATCGCTCGCATTTTTGGATGATTCTATTAGGCGGAGGACGTTTTTTATTTTTCTTCCTAGCAGTTATATCGTTATTTACTTACGTGGCAGTGGTAACTGCCTCTGATGACACATGGCAAGAAACTACATACAACTTCCTTCCGATAGTTTCTGTGGCGCTCGGCGTTCCTCTTTTCTGCTGGGCTTTAGGCTCTCTCGTTATCCATTATTTTCCTCGCCTATGGTTCAAACCGTCCCGAGGCCCACTCTGGGAACTCAACCGGCGCACCGGTCTTGTCACCGTCTTTGACTACGACAACAACGGTGAATACAAGAAGAACGGCACCATCGGCGAGATCACCGCACCCTTCTACGAGTTCGACGCCTATATCGCCACCTCTCCCGACCGCCAGGGCCTGCCGATGAACGTGCTGTACCTGGCACACCGCTACCGTGACATCGTCATCAACTTCGGCTCCTTGGTCGCACCGGATCGATGCCCTCAGCTACCCTGCGCGCTTTGGGACTTCTTGCAGAACTACATGGACACCAGCCGCCCTCTGCCCGATCTACCGTCCTACGAACAATACCGCCCTCTCGACCCGGTGACCGCCGAGCACGACCGCCGCACCGGCCGCGATCCGCGCTACTGGATCGACATGGACGACGAAACCTTCAAGGGCAAGGTCAAGGACATGCTCAAGCGCATCGATACCATCGACACCATGAGCCGCCCCAATCTGATGCTGAAGCATGTGACGTACGTTGATTGA	MDQPYYASTAYSPATIPNQPTSAERSWIKRFAKVRLPWGNTQDVAPERIFCDPTPSSLRFWETAEKERLEQKAQGTYVPPLFEGMDLHQKYDHEYFRYALLSNRSHFWMILLGGGRFLFFFLAVISLFTYVAVVTASDDTWQETTYNFLPIVSVALGVPLFCWALGSLVIHYFPRLWFKPSRGPLWELNRRTGLVTVFDYDNNGEYKKNGTIGEITAPFYEFDAYIATSPDRQGLPMNVLYLAHRYRDIVINFGSLVAPDRCPQLPCALWDFLQNYMDTSRPLPDLPSYEQYRPLDPVTAEHDRRTGRDPRYWIDMDDETFKGKVKDMLKRIDTIDTMSRPNLMLKHVTYVD				NA	NA	NA	NA	NA
BMS010_10098	1059			hypothetical protein	ATGGACCAGCCCTTCTACGCCAGGACCGCTTACAACCCGGCCACCGTCCCCAACCAGCCAACGTCGGTGGAGCGCTCTTGGATCAAGCGCTTCGCCAAGGTGCGGCTACCTTGGGGCAACGCTCAAGAGGTAGCACCGGAGAGTTTTCTCAATGACCCTTCTCCGAAAGATCTGCGCCATCTGGAAGCGTTCAAAAAAGAACGAGAGGAAAAGCTAGCGAACGGTACCTATGTACCGGCTCCTTTTGAGGGGGTTGAGCTTCACAACAAATACGACCATGAGCGTTTTAGATATGCGTTGCTTTCCAAACGCTCACATTTCTGGCTATACATGCTAGGAGGTGGACGATTTATATTTCTACTTTCTGCTTTTATTTTGTCAATCATGTATATAGCGGAGCTTATTGACACCGATGAGTCCTGGGTAGAACTCTCAATCTCTTATCTTCCAACACTTTATATTCTTATAACCCCCCCTTTAGTCTGCTGGCTTATTGGCGCTCTCGTTATCCATTATTTTCCTCGCCTATGGTTCAAACCCTCCCGGGGCCCGCTTTGGGAACTCAATCGCCGCACCGGTCTTGTCACCGTCTTCGACTACGACAACAACGGCGAATACAAGAAGAACGGCACCATCGGCGAGATCACCGCGCCCTTCTACGAGTTCGACGCCTATATCGCCACCTCTCCCGACCGCCAGGGCCTGCCGATGAACGTGCTGTACCTGGCACACCGCTACCGTGACATCGTCATCAACTTCGGCTCCCTGGTCGCACCGGATCGATGCCCTCAGCTACCCTGCGCGCTTTGGGACTTCTTGCAGAACTACATGGACACCAGCCGCCCTCTGCCCGATCTACCGTCCTACGAACAGTACCGCCCTCTCGACCCGGTGACCGCCGAGCACGACCGCCGCACCGGCCGCGATCCGCGCTACTGGATCGACATGGACGACGAAACCTTCAAAGGCAAGGTCAAGGACATGCTCAAGCGCATCGATGCCATCGACACCATGAGCCGTTTCAACTTGATGGTCAGGCATGTGCACTACACCGACTAA	MDQPFYARTAYNPATVPNQPTSVERSWIKRFAKVRLPWGNAQEVAPESFLNDPSPKDLRHLEAFKKEREEKLANGTYVPAPFEGVELHNKYDHERFRYALLSKRSHFWLYMLGGGRFIFLLSAFILSIMYIAELIDTDESWVELSISYLPTLYILITPPLVCWLIGALVIHYFPRLWFKPSRGPLWELNRRTGLVTVFDYDNNGEYKKNGTIGEITAPFYEFDAYIATSPDRQGLPMNVLYLAHRYRDIVINFGSLVAPDRCPQLPCALWDFLQNYMDTSRPLPDLPSYEQYRPLDPVTAEHDRRTGRDPRYWIDMDDETFKGKVKDMLKRIDAIDTMSRFNLMVRHVHYTD				NA	NA	NA	NA	NA
BMS010_10099	447	azu	COG3241	Azurin	ATGTTGCGCAAACTGCTAGCCGCCTCCCTGCTCAGCCTGGCCAGCGCGCCGCTGTGGGCTGCGGAATGCTCGGTCGATGTCGAGTCCACCGACCAGATGACCTATACCACCAAGGCCATCGAGATCGACAAGAGCTGCAAGGAATTCACTGTCAACCTGAAACACACCGGGCAGTTGCCGAAAAACGTCATGGGCCACAACTGGGTGCTGACCACCGCTGCCGACATGCCTGGCGTGGTCAGCGACGGCATGGCCGCCGGCCTCGACAACAACTACCTGAAGCCGGACGACGCCCGCATCATCGCCCACACCAAGGTCATCGGCGGCGGTGAGAGCGATTCGGTCAGCTTCGACGTGAGCAAGCTGACGGCTGGCAACGAGTACATGTTCTTCTGCTCCTTCCCCGGCCACTCGGCGATGATGAAAGGCACCGTCACCCTGAAATGA	MLRKLLAASLLSLASAPLWAAECSVDVESTDQMTYTTKAIEIDKSCKEFTVNLKHTGQLPKNVMGHNWVLTTAADMPGVVSDGMAAGLDNNYLKPDDARIIAHTKVIGGGESDSVSFDVSKLTAGNEYMFFCSFPGHSAMMKGTVTLK				NA	NA	NA	NA	NA
BMS010_10100	588		COG1611	Putative cytokinin riboside 5'-monophosphate phosphoribohydrolase	ATGTCCTTGCGTTCCGTATGCGTTTTCTGCGGCGCCAGCCCCGGCGCCAACCCGGTTTACCGTGAAGCTGCCGAGAATCTCGGCCGGCACCTCGCCGAGCGTGGCCTGACGCTGGTCTACGGCGGCGGTGCCGTGGGCCTGATGGGCACGGTGGCGGATGCCGCCCTGGCCGCTGGCGGCGAGGTGATCGGGATCATTCCGCAGAGCCTGCAGGATGCGGAGATCGGCCATCCCGGCCTGAGCCGCCTGGAAGTGGTGTCCGGCATGCACGCGCGCAAGGCCCGCATGGCCGAGCTGAGCGACGCCTTCATCGCCCTGCCCGGTGGGCTCGGCACGCTGGAGGAGCTGTTCGAGGTCTGGACCTGGGGCCAGCTCGGCTACCACGCCAAGCCGCTCGGCCTGCTGGACGTGAATGCCTTCTACGACAAGCTCGCCGGTTTCCTCGACCACCTGGTGGCGGAGCGTTTCGTCCGCGACCATCACCGCGCCATGTTGCAGCGCAGCGAGAACCCGGCGGAGCTGATCGACCGGCTCGCCGCCTGGCAGCCGACGGTCGCACCCAAATGGGTGGACCGCCAACCCCGCTGA	MSLRSVCVFCGASPGANPVYREAAENLGRHLAERGLTLVYGGGAVGLMGTVADAALAAGGEVIGIIPQSLQDAEIGHPGLSRLEVVSGMHARKARMAELSDAFIALPGGLGTLEELFEVWTWGQLGYHAKPLGLLDVNAFYDKLAGFLDHLVAERFVRDHHRAMLQRSENPAELIDRLAAWQPTVAPKWVDRQPR	PGPT0007225_1006	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007225-log|yvdD-K22522	NA	NA
BMS010_10101	597	lpxD_4		UDP-3-O-(3-hydroxymyristoyl)glucosamine N-acyltransferase	ATGTTGCTCGCCCATGACGGTCATTCGCCCCGTATCGACCCCAGCGCCTATGTCGCGCCCAATGCCGTGATCTGCGGCGACGTCAGCATCGGGCCGGGCTGCCGCATCCTGTTTGGTGCCCAGGTGATCGCCGAGGGCGGCTCGATCCGCCTCGGCCGCGACTGCATCGTCATGGAGAACGCCGTGCTGCGCAGCAGCGAGCGGCACAGCCTGAGCATCGGCGACCATTGCCTGGTCGGCCCGAACACGCACCTGGTGGGCTGTACGCTGGAAGAGGAAGTCTTCGTCGCCACCGGCGCGGCGATCTTCCATTCGGCGCATGTCGGCAAGGGCAGCGAGGTGCGCATCAATAGTGTGGTGCACCTGAAGACGCGCCTCGAGCCCGGCGCCACCGTGCCCATCGGCTGGGTGGCGGTGGGCGATCCGGCGCAGATCCTGCCGCCCGATGAGCACGAGAAAATCTGGGCGATCCAGCAGCCGCTGGACTTCCCGCTCAGCGTCTATGGTTTCCAACGTGCCGACGCCGACATGCGGAAGATCACCCGCAGCCTGTCGGAGAAGCTGGCCAGCCACGCGCAGGACAGCGCCTGCGACTGA	MLLAHDGHSPRIDPSAYVAPNAVICGDVSIGPGCRILFGAQVIAEGGSIRLGRDCIVMENAVLRSSERHSLSIGDHCLVGPNTHLVGCTLEEEVFVATGAAIFHSAHVGKGSEVRINSVVHLKTRLEPGATVPIGWVAVGDPAQILPPDEHEKIWAIQQPLDFPLSVYGFQRADADMRKITRSLSEKLASHAQDSACD	PGPT0002425_469	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002425-GAMMACA_like-K01726	NA	NA
BMS010_10102	828	nat	COG2162	Arylamine N-acetyltransferase	ATGGACCACACCCCCGACCTCGCCGCTTATTTCGACCGCATCGGCTATCGCGGCGACCCGCAGCCGACGCTGGAAACCCTGCGGCAGTTGCATGTCCTGCACACCGAAGCGATTCCATTCGAGAACCTGTCGCCCTTCCTTGGCGAGCCGGTGGAGCTGGACCAACCTGCCCTGGAGGACAAGCTGATCCATCGTGGCCGGGGCGGCTACTGCTATGAGCACAACCTGTTGTTCAGCCGGATGCTCCAGGCCCTGGGCTTCGAGGTCGCGGGCCTCGCCGCGCGGGTACGCCTGAACCAGCCTGATCATGTGCAGACGCCCCGCACCCACATGCTGCTGCGGGTACGCCTGGATGAAGGCGATTACCTCGCCGACGTCGGTTTCGGCGGACTGACCCAGACGGCGCCGCTGAAGCTCGTGTCCCACGTGGAGCAAGCGACGCCCCACGAGCCCTTCCGTCTCCTCCACGCGGACGGCCTGTATACGCTGCAAGCCCTGGTCGCCGGGGATTGGCGCACGCTGTACCAGTTCGACCTGCAGGAGCAGCAGTTGCCCGATTACCAGTTGGCCAGTTGGTACCTGTCGCACCACCCGCAATCCCACTTCGTCACCGGCCTGATGCTGGCACGCACGGAACCGGGGCTGCGCCATGCCTTGCACAACAACCGCTATACCCTGCACCACCTGGGCGGCGCGTCGGAGAAACGCGAACTGGCCTCGGTGGACGAATTGCTGGATGTGTTGCAGACGCAGTTCCGCATTCGTCTGCCGGAGATTCCCGGCATGCGCGATAAACTGGAGCGCCTGCTGGCCACGGAACCCAGCTGA	MDHTPDLAAYFDRIGYRGDPQPTLETLRQLHVLHTEAIPFENLSPFLGEPVELDQPALEDKLIHRGRGGYCYEHNLLFSRMLQALGFEVAGLAARVRLNQPDHVQTPRTHMLLRVRLDEGDYLADVGFGGLTQTAPLKLVSHVEQATPHEPFRLLHADGLYTLQALVAGDWRTLYQFDLQEQQLPDYQLASWYLSHHPQSHFVTGLMLARTEPGLRHALHNNRYTLHHLGGASEKRELASVDELLDVLQTQFRIRLPEIPGMRDKLERLLATEPS	PGPT0019890_710	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_NITRO-|AMINOBENZOATE_DEGRADATION,PGPT0019890-nhoA|yddI-K00675	NA	NA
BMS010_10103	1026			hypothetical protein	ATGATCACCTGGAAAAACCGCCTGCTCCGCTTCATCTCCCTCGCGCAAACCCTGCTCCAGCGCTACCCCGGCACCGTGGCGCTGTTCGGCTTCGTTTCCGGTGTCGCCAGCTTCCTGCTGGTGGACCGCCAGGCCAACCTGGCCAAGGTCATCGCCGTGGTCATGCTGGTGAGCTGGGTCTGGCTGATGCTGGAGAACAGCCTGCGGCAATGCTTCATCCGCTGGTTCGGCTGGGAGCTGCCGCCACCGCTGCTGCGCTATGCGACGCAGATGATCCACCAGGAAAGCCTGTTCTTCGTCCTGCCGTTTTTCTTCGTCACCACCGCCTGGAACAGCGGCCAGGCGCTGTTCACCGGCCTGCTGGCCAGCGCGGCGCTGGTGTCGATCCTCGACCCGCTGTATTACCGCTGGCTGGCGGCGCGGCGCTGGATCTATCTCGCCTACCACACCCTGACACTGTTCGCGGTGATCCTCACCGCCCTGCCGATCCTGCTCCAACTGAGCACACCGCAGAGCTACCAGTTGGCCCTGGGCACCGCCGTGCTGCTGTCCTTCCCCAGCCTCGCCAGCACCCTGCAACTGCGCGGCTGGCAGCGCGCGCTGGCGGTGGTCGGGCTGTGCCTGGTGCTCGGTGCGGTCGGCTGGCTGGCACGGCTCTGGGTGCCGCCGGCCACGCTGTGGCTCACCGAAGTGGCGGTGACCCTGCAACTGGACGACGCGAACCGCGCGCCAGGCCAGAGCATCAGGCAGATCAGCGTGGCCCAGCTACGCAGCCAGGGGCTCTACGCCTACACCGCGATCAACGCACCCCGCGGCCTGCACGAGCGCATCCAGCACGTCTGGATTCACAACGGCCAGGTCGTGGAACGCATCGCGCTGGATATCCGGGGTGGGCGTGAAGCGGGCTACCGCGCCTGGACCCACAAGCAGAATTTCCCCGAACACCCTGCTGGCGACTGGCAGATTCGTGTGGTGACCGAAGTGGGCCAGCAGATCGGCACGCTGCGCTTCGAGGTGACGGAGTGA	MITWKNRLLRFISLAQTLLQRYPGTVALFGFVSGVASFLLVDRQANLAKVIAVVMLVSWVWLMLENSLRQCFIRWFGWELPPPLLRYATQMIHQESLFFVLPFFFVTTAWNSGQALFTGLLASAALVSILDPLYYRWLAARRWIYLAYHTLTLFAVILTALPILLQLSTPQSYQLALGTAVLLSFPSLASTLQLRGWQRALAVVGLCLVLGAVGWLARLWVPPATLWLTEVAVTLQLDDANRAPGQSIRQISVAQLRSQGLYAYTAINAPRGLHERIQHVWIHNGQVVERIALDIRGGREAGYRAWTHKQNFPEHPAGDWQIRVVTEVGQQIGTLRFEVTE				NA	NA	NA	NA	NA
BMS010_10104	1323			hypothetical protein	ATGTCTGGCACACCGCTTCCCCTGCTGCTAGCCGCCGCGCTGGCGAGCCTGACCGCCGCCTGCGGCGATACGGCGAAACTCCCCATCGAAGAAAGCTACGGCCGCCAGCCGACACTGCCGCCGCCGAACGAATCGATGATCCCCACCGTACATATCGCGCCGGCCAAGGGTTGGCCCGACGGTGCCAAGCCCACCGCCGCCCCCGGCCTGGCGGTAAATGCCTTCGCCAGCGGCCTCGATCATCCGCGCTGGCTGCATGTTCTGCCCAACGGCGACGTGCTGGTCGCCGAGACCAACGCACCGCCCAAACCCGAGGACAACAAGGGCATCCGTGGCTGGGTGATGAAGAAGGTGATGAAACGCGCCGGTGCCGGCGTTCCCAGCGCCAACCGCATCAGCCTGCTGCGCGACGCGGACGGCGACGGCGTGGCGGAAACCCGCAGCGTCTTCCTCGAAGGGCTGAATTCGCCATTCGGCATGGCCCTGGTGGGCGACACCCTGTATGTCGCCAACACCGACGCGGTGATGCGCTTCCCCTACCATGAAGGCGATATGCGCATCGACGCCAAGGGCGAGAAAGTCGCCGACCTGCCCGGCGGCCCGATCAACCATCACTGGACCAAGGACCTGATCGCCAGCCGGGACGGTTCGCACCTGTATGCCACGGTCGGCTCCAACAGCAACGTCGCCGAGAACGGCATGGAGAACGAGGCCAATCGCGCCGCGGTGCTGGAGATCGACCCGCAGACCGGCGCCACGCGCCTGTTCGCCTCCGGCCTGCGCAACCCCAACGGCCTTTCCTGGCAACCGCAGAGCGGCGCGCTCTGGGTGGCGGTGAACGAGCGCGACGAAATCGGCAGCGACCTGGTGCCCGACTACATGACCTCGGTGAAGGACGGCGGCTTCTACGGCTGGCCCTACAGCTACTACGGCCAGCACGTGGACGAGCGGGTCCAGCCGCAGAAGCCGGAGCTGGTGGCCAAGGCGCTGGTCCCGGACTACGCCCTCGGCGCTCACACTGCCTCGCTCGGATTGACCTTCTACCAGGGCGACCTGCTCCCGGAGCGCTACCGTAACGGCGCCTTCGTCGGTCAGCACGGTTCCTGGAACCGCAAGCCCCGCAGCGGCTACAAGGTGATCTTCGTGCCCTTCGACATGAACGGCCAGCCCGCGGGGGATGCGCAGGACGTCCTCACCGGCTTCGTCAACGACGACGGCGACGCCCTGGGGCGGCCGGTTGGCGTAGCGGTGGACAAGCCCGGCGCGCTACTGGTGGCCGACGATGTCGGCAATACGGTCTGGAGGGTGGCGCCGGCTCGGTGA	MSGTPLPLLLAAALASLTAACGDTAKLPIEESYGRQPTLPPPNESMIPTVHIAPAKGWPDGAKPTAAPGLAVNAFASGLDHPRWLHVLPNGDVLVAETNAPPKPEDNKGIRGWVMKKVMKRAGAGVPSANRISLLRDADGDGVAETRSVFLEGLNSPFGMALVGDTLYVANTDAVMRFPYHEGDMRIDAKGEKVADLPGGPINHHWTKDLIASRDGSHLYATVGSNSNVAENGMENEANRAAVLEIDPQTGATRLFASGLRNPNGLSWQPQSGALWVAVNERDEIGSDLVPDYMTSVKDGGFYGWPYSYYGQHVDERVQPQKPELVAKALVPDYALGAHTASLGLTFYQGDLLPERYRNGAFVGQHGSWNRKPRSGYKVIFVPFDMNGQPAGDAQDVLTGFVNDDGDALGRPVGVAVDKPGALLVADDVGNTVWRVAPAR				NA	NA	NA	NA	NA
BMS010_10105	783			hypothetical protein	GTGGAGGACGTGACAAGACCCTTCGCATTGTCCTGCCAGAGCAATGAAAGCGTCGGCGGATTGCTCAAGGCGGTAAACGGTCTTTTTGCCGACAAGGGTTTTGCCACGACGCAGGCCTGGTTGCCGGAGCAAGACATTGCCGCCAGCAGAACGCTGGTCCTGCGCGTTGTGCCCGGGCGGATCGATGCGGTCGTCTACAAGGAGGAGCAGCAGCCTTATAAGGCGTTCTTTCCCCGCATGGCCGAACTAAGTGGCAACGTTGCACGATCCTCGTCCATTTCCGAGTTCGTGCAGCAGGCAGATGCCTGGTGGGAGGGCCTTGATGACGATCTCGAACGCCTGACCTTGCTGCCGCCATCCGCCCGGATCGCGATGACTGGCACAATTGCCAAAGACGATGTCCTGCATGTCGATCGCCTGCAGGACACACTCGATAGCCTCAACAGGGTTCCTTCGAACAAGGCAAAGGCGGAGCTTGTTCCGGGCAAGAGGCCGGCGACCTCCGACGTGCAGATCACGAACCGCATCAATGACGCGTTCAGGCTCTACGGCGGTTACGACACGGAATCCATCGAAGGCGTCGACAAGCTTCGCTTTGGGATCACGGCGGAGAAAGACAATCTGATCGGCATCAACGACATGTGGGGGCTGACGCTTAAAAGCGGCGTCGAGACCAACGAACTGAGCGGGGATTTCGCTGTTCCCGTGGGACGCGCCACAATGAGGCTCAAGGGCCCGCTTGGTCTAAACTACCATCTTTTGCATTGGGTGCGGACAAACTAA	MEDVTRPFALSCQSNESVGGLLKAVNGLFADKGFATTQAWLPEQDIAASRTLVLRVVPGRIDAVVYKEEQQPYKAFFPRMAELSGNVARSSSISEFVQQADAWWEGLDDDLERLTLLPPSARIAMTGTIAKDDVLHVDRLQDTLDSLNRVPSNKAKAELVPGKRPATSDVQITNRINDAFRLYGGYDTESIEGVDKLRFGITAEKDNLIGINDMWGLTLKSGVETNELSGDFAVPVGRATMRLKGPLGLNYHLLHWVRTN				NA	NA	NA	NA	NA
BMS010_10106	2115	gyrB_3	COG0187	DNA gyrase subunit B	ATGATGGACGACAGCAACGATCTCTTCTCCGGTCTTCCGGCAGCACGAAACAGCGATACGGAAACGAACGAGGACGCCGCAAAGACGCCGGTGACCGCGGCCGCCAACGTGCCCGCCAACGCGAATGTGCAGCCGAAACCCGCAGCCGTTGCGGCCGTGACGCCGCCCGCCCCTGTATCACCATCCGGTGACGACTACGGCGCGTCCTCGATCCGCGTGCTCGAAGGGCTGGAACCGGTGCGCATGCGTCCCGGCATGTATATTGGCGGCACCGATGAGAAGGCGCTGCACCATCTCTTCGCCGAAGTCATCGACAACTCCATGGACGAGGCCGTCGCCGGCCACGCCAATTTCATCGAGGTCCATCTCGACGCCGAAGGTTTCCTGACGGTCACCGACAATGGCCGCGGCATTCCGGTGGAAAACCACCCGCAGGTGCCGGGCAAGTCGACGCTCGAAGTCATCATGACCAAGCTGCACGCCGGCGGCAAATTCGACGGCAAGGCCTATGAGACATCGGGCGGCCTGCATGGCGTCGGTGTTTCCGTGGTCAATGCGTTGTCCGATCTTCTTGAAGTGGAAGTGGCCCGTAACCGCAAGCTTTACCGCCAGCGTTTCTCGCGCGGCCTGCCGATCGGTCCGCTGGAAGAGCTGGGCGACGTGCACAACCGTCGCGGCACGCGCGTGCGTTTCCATCCCGATCCGCAAATCTTCGGCGACCACGCGAAATTCGAACCGGCCCGTATCTTCCGCATGGCCCGCTCCAAGGCCTATCTCTTCGGCGGTGTCGAAATCCGCTGGAGCTGCGATCCCGGTATGGTGCCGGCCGGCGGCGAAATCCCCGAAAAGGCGGTTTTCCATTTCCCCGGCGGCCTGAAGGATTATCTCGCCGCCACGCTCGGCAAGGAATTCACCGTCACCCGCGAGATTTTCTCCGGCCGCACGGAAAAGACCGGCGGCCATGGCGCGCTGGAATGGGCCGTCACCTGGTATGGCGGCGACACGCAGATCCATTCCTATTGCAACACCATTCCAACGCCCGAAGGCGGCACGCATGAGGCGGGCCTGCGTATCGCGCTCACCAAGGGCCTGAAGAATTATGCGGACCTGACGCAGAACAAGCGCGCCAAGGACATCACCACCGATGACGTGATGATCTCCGCCGCCGGCATGCTCTCCGTTTTCATCCGCGAGCCGGAATTCGTCGGCCAGACCAAGGACAAGCTCGCCACCGTCGAAGCCCAGCGCATCGTCGAAAACGCGCTGCGCGATCCCTTCGACCATTATCTCGCCGGCAATCCGGGCGAAGCGGCGAAGCTGCTGGACTGGGTGATCGAGCGGGCCGAAGAGCGCCTGCGCCGCCGCAAGGAAAAGGAAGTCAACCGCAAGACCGCCGTGCGCAAGCTGCGCCTGCCCGGCAAGCTGGCGGATTGCGCCCAGAACACCGCAGAAGGGGCGGAGCTTTTCATCGTCGAGGGCGACTCGGCCGGCGGCTCGGCCAAGCAGGCGCGCAACCGCGCCAACCAGGCCATCCTGCCGCTGCGCGGCAAAATCCTGAACGTCGGCAGCGCCAGCCGCGAAAAACTCTCCGCCAACCAGCAGATCGCCGATCTCATCCAGGCGCTCGGCTGCGGCACGCGCACCAAGTACCGCGAAGAAGACCTGCGATATGAGCGCATCATCATCATGACCGATGCCGATGTCGACGGCGCGCATATCGCCTCGCTGCTCATCACCTTCTTCTATCAGGAGATGCCGGAACTCATTCGCGGCAACCATCTCTATCTGGCAGTGCCGCCGCTCTACAAGATCGCGCAAGGGGCCAAATCCGCTTACGCCCGCGACGACGCCCACCGCGCCGAATTGATGGAGACCATGTTCAAGGGCAAGAAGGTCGAAATCAGCCGCTTCAAAGGCCTCGGTGAAATGATGGCCCAGCAGCTGAAGGAAACCACCATGGATCCCGAAAAGCGCACCCTGCTGCGCGTCGAGATCGACGATGTGGATTTCGAAGGCACCCGCGAGGCCGTCGACAATCTGATGGGCACCAAGGCCGATGCCCGCTTCCGTTTCATTCAGGAACGGGCGGCCTTCGCTGATAATCTGGATATTTGA	MMDDSNDLFSGLPAARNSDTETNEDAAKTPVTAAANVPANANVQPKPAAVAAVTPPAPVSPSGDDYGASSIRVLEGLEPVRMRPGMYIGGTDEKALHHLFAEVIDNSMDEAVAGHANFIEVHLDAEGFLTVTDNGRGIPVENHPQVPGKSTLEVIMTKLHAGGKFDGKAYETSGGLHGVGVSVVNALSDLLEVEVARNRKLYRQRFSRGLPIGPLEELGDVHNRRGTRVRFHPDPQIFGDHAKFEPARIFRMARSKAYLFGGVEIRWSCDPGMVPAGGEIPEKAVFHFPGGLKDYLAATLGKEFTVTREIFSGRTEKTGGHGALEWAVTWYGGDTQIHSYCNTIPTPEGGTHEAGLRIALTKGLKNYADLTQNKRAKDITTDDVMISAAGMLSVFIREPEFVGQTKDKLATVEAQRIVENALRDPFDHYLAGNPGEAAKLLDWVIERAEERLRRRKEKEVNRKTAVRKLRLPGKLADCAQNTAEGAELFIVEGDSAGGSAKQARNRANQAILPLRGKILNVGSASREKLSANQQIADLIQALGCGTRTKYREEDLRYERIIIMTDADVDGAHIASLLITFFYQEMPELIRGNHLYLAVPPLYKIAQGAKSAYARDDAHRAELMETMFKGKKVEISRFKGLGEMMAQQLKETTMDPEKRTLLRVEIDDVDFEGTREAVDNLMGTKADARFRFIQERAAFADNLDI	PGPT0027710_36	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0027710-parE-K02622	NA	NA
BMS010_10107	882			hypothetical protein	ATGTCCACAGCTCATTTCACGTTTTGTACTCTTTTCAGCCTGACTGTGGCGGCCATGCCCGTCGCAGCCTCTGCCGCCGAGGGCCCGCTGCGGCCGTTCAAGGATGAGCTGTTTTCCGCCCAGACGGTGCTTTCCACCGCCGATGGCGGCGCTTCAGAAGTCATCGACTATCAGGAGATGCGCGATATCAATGGCCGCGACGAGGTGCCGGAGCGGCGGGTGAAACGGCAATATGTCGATATGACGCCGAAGAAGGCGCAGGCGCTGGAAACAATGTCCGTCGAGGGCAGGGCGCTTGAGGTCGGCCGCGTCGGGCCGGCAAGCGGGCAGGCCTTCACGGTCATCTTCATTCATGGGCGCGGCGGCGACCGGCGGCTCGGCATGAACGACTATACGTTCGGCGGCAATTTCAACCGGCTGAAAAACCTCGCTGTGGCCAATGGCGGCACCTATTATGTGCCGAGCGTGCGCTCCTTCGATGAAAACGGCGTTGCCGATGTTGCGGCGCTGATTGCCGATGCGGCCAAAAAATCGGGCGGCAAGCCTGTCATTTTGGCCTGTGCCTCCATGGGCAGTTTCATCTGCTACGGTATCAGCCGTGACAAGGCTGCCGTCGCCAATCTCAAGGGCATGGCGATCCTCGGCGGTGCGGTCGATCCGGATTTTCCGAAAAGCGCCTTTGCCAGGGCGAAGAAGCCGGTCTGGTTCACCCATGGCAGCGCCGACAAGGTCTATTCGGCCGATCAGCAGGCGACGATCTTCCGTTCCTTGCTGAAGGCCGGCGAGCCGGCGCGGTTCACGCGGTATGAGAGTGGCAGCCACGGCACACCGGTGCGCATGACCGACTGGCGGGCGGTTTTGAACTGGATTTTGAGCCGCTGA	MSTAHFTFCTLFSLTVAAMPVAASAAEGPLRPFKDELFSAQTVLSTADGGASEVIDYQEMRDINGRDEVPERRVKRQYVDMTPKKAQALETMSVEGRALEVGRVGPASGQAFTVIFIHGRGGDRRLGMNDYTFGGNFNRLKNLAVANGGTYYVPSVRSFDENGVADVAALIADAAKKSGGKPVILACASMGSFICYGISRDKAAVANLKGMAILGGAVDPDFPKSAFARAKKPVWFTHGSADKVYSADQQATIFRSLLKAGEPARFTRYESGSHGTPVRMTDWRAVLNWILSR				NA	NA	NA	NA	NA
BMS010_10108	729	tpiA_2	COG0149	Triosephosphate isomerase	ATGAACGGCACCCGTGCCTCGCTCGATCAGATCAAGGCCATGGCACAGGGCGTCAAGGGCGCGCTGTCCGAAAAGGTGGATGCGCTGATCTGCCCGCCCTCGACATTGCTCTACGTCTCAACGGCGCTGTGCGATGACAGCCCGCTGATGATCGGCGCGCAGGATTGCCACCAGAACGCATCTGGCGCACATACCGGCGATATTTCCGCCGAGATGATCGCCGATTGCTTCGGCACCCATGTCATCGTCGGCCATTCCGAGCGCCGCACCGACCATGCCGAGACCGATCATCTGGTGCGCGCCAAGGCCGTTGCCGCCCATCAGGCCGATCTCATCGCCATCGTCTGCATCGGCGAGACGGCGGATGAGCGCAAGGCGGGCCAGACGCTCGATATCCTCAAGCGTCAGCTCGCCGGCTCGCTGCCGGATGAGGCGACCGCCGAAAATACCGTCATCGCCTATGAGCCCGTCTGGGCTATCGGCACGGGTCTGACACCCACCGTGGACGATGTGCGCGAGGCCCACGCCTTCATGCGCGACGAACTCGTCAAGCGCTTCGGCGAGGCCGGCAAGACCATGCGCATCCTCTATGGCGGCTCTGTGAAGCCGGCCAATGCGCTGGAACTGATGGGCGTCGAGAACGTGGATGGCGCGCTGATCGGCGGCGCGAGCTTGAAAGCCTCAGACTTCCTGTCCATCTATGCGGCATACGAGCAACTGACGGCCTGA	MNGTRASLDQIKAMAQGVKGALSEKVDALICPPSTLLYVSTALCDDSPLMIGAQDCHQNASGAHTGDISAEMIADCFGTHVIVGHSERRTDHAETDHLVRAKAVAAHQADLIAIVCIGETADERKAGQTLDILKRQLAGSLPDEATAENTVIAYEPVWAIGTGLTPTVDDVREAHAFMRDELVKRFGEAGKTMRILYGGSVKPANALELMGVENVDGALIGGASLKASDFLSIYAAYEQLTA	PGPT0017995_1722	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0017995-tpiA-K01803	NA	NA
BMS010_10109	456			hypothetical protein	ATGCAGACCGTTTTGATTGTTATTCACCTCATGATCGTGCTGGCGCTTGTCGGCGTGGTCCTGATCCAGCGCTCCGAAGGCGGCGGCCTCGGTATCGGCGGCGGTTCGGGCTTCATGTCCGCGCGCGGAACGGCCAATGCGCTGACGCGCACCACGGCGATCCTTGCCGCGTTGTTCTTCGCGACCTCGCTCGGCCTCGGTCTCCTGACGCGCTACGAATCGCGCCCGACCGATATTCTGAACCGCATTCCGGCCACGCAGGGCCAGGGTAACGGCATTCTCGATACGCTCGGCCCGGCGACAACGCCGTCGACGCCGGCTCCGGCTGAGAATGGCGTTCCGACCAATGGTGCAGCCGCACCGGCTCAGACGACCCCGGCTCCGGCCGCTTCCGGCACGGCCGCTCCGGCCCCGGCGCAGCCCGCCGATCCGAACGCAGTTCCGACCGGTCAATAA	MQTVLIVIHLMIVLALVGVVLIQRSEGGGLGIGGGSGFMSARGTANALTRTTAILAALFFATSLGLGLLTRYESRPTDILNRIPATQGQGNGILDTLGPATTPSTPAPAENGVPTNGAAAPAQTTPAPAASGTAAPAPAQPADPNAVPTGQ	PGPT0025720_310	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025720-secG-K03075	NA	NA
BMS010_10110	1680	pyrG_2	COG0504	CTP synthase	ATGAAATTTGGGCTGGCGGAATCAGAGGTAAAAAGGTATCCGGTGAATCCCATGGCGCGATATGTATTCATCACAGGCGGCGTGGTCTCCTCTCTAGGCAAGGGCATCGCCGCGGCAGCACTCGGAGCTTTGTTGCAATCCCGTGGTTATCGGGTGCGGCTTCGTAAACTCGACCCCTATCTGAACGTCGATCCCGGCACCATGAGCCCGACACAGCACGGCGAAGTGTTCGTGACGGATGACGGTGCCGAGACGGACCTCGACCTTGGTCACTACGAGCGCTTCACGGGGCGTTCGGCCACCAAGACCGACAACATCACCACCGGTCGCATCTACAAGAACATCATCGACAAGGAACGGCGCGGCGACTATCTCGGCGCAACCGTTCAGGTCATTCCGCATGTCACCAACGAGATCAAGGATTTCGTGATCGAAGGCAATGACGATTACGACTTCGTCATCTGCGAGATCGGCGGCACGGTGGGTGACATCGAGGCGATGCCGTTCATGGAAGCGATCCGTCAGCTCGGCAACGACCTGCCGCGCGGCACGGCGATCTATCTTCACCTGACGCTGATGCCTTACATTCCGGCAGCCGGCGAATTGAAGACCAAGCCGACCCAGCATTCCGTGAAGGAATTGCAGGCGCTCGGCATTCATCCCGACATTCTGCTGGTGCGCGCCGACCGGGAAATCCCGGAAGCGGAACGCCGCAAGCTTTCGCTGTTCTGCAATGTGCGTCCTTCCGCCGTCATCCAGGCGCTGGATGTGGCGAACATCTATGACGTGCCGATTGCCTACCACAAGGAAGGCCTCGATTCGGAAGTGCTGGCCGCTTTCGGCATCGAGCCGGCGCCCAAGCCGCGTCTGGAGCCCTGGGAAGAGGTCTGCAACCGCATTCGCACGCCGGAAGGCGAGGTCACGATTGCGATCGTCGGCAAATATACCGGCCTCAAGGATGCCTATAAGTCGCTGATCGAGGCGCTGCATCACGGTGGCTTCGCCAACCGCGTCAAGGTCAAGCTCGAGTGGATCGAGTCGGAAGTCTTCGAAAAGGAAGATCCGACGCCCTATCTCGAAAAGGTCAACGGCATTCTGGTGCCGGGCGGCTTCGGCGAGCGCGGATCGGAAGGCAAGATCATGGCGGCGCAGTTCGCGCGTGAGCGCAACGTGCCCTATTTCGGCATCTGCTTCGGCATGCAGATGGCGGTCGTGGAAGCGGCCCGTCACCTTGCCGGCATCGAAAATGCCTCCTCCACCGAATTCGGCCCGACGTCCGAGCCGGTCGTCGGCCTGATGACCGAATGGGTGAAGGGCAACGAGCTGGAGAAGCGCTCCTCCAAGGGCGATCTCGGCGGCACCATGCGTCTCGGCGCCTACAAGGCGGCGCTGAAGAAAGACACCAAGATCGCCGAAATCTACGGCACCACGGATATTTCCGAGCGCCACCGCCACCGCTATGAGGTGAATGTGGACTACAAGGACCGGCTGGAAGAATGTGGCCTGGTCTTCTCGGGGATGTCTCCGGATGGTGTCCTGCCGGAAACGGTGGAATATCCCGACCATCCGTGGTTCATCGGCGTGCAATACCACCCGGAACTGAAGAGCCGCCCGCTCGACCCGCATCCGCTGTTTGCGAGCTTCGTGGAAGCAGCGGTGGAGCAGAGCCGGCTGGTTTGA	MKFGLAESEVKRYPVNPMARYVFITGGVVSSLGKGIAAAALGALLQSRGYRVRLRKLDPYLNVDPGTMSPTQHGEVFVTDDGAETDLDLGHYERFTGRSATKTDNITTGRIYKNIIDKERRGDYLGATVQVIPHVTNEIKDFVIEGNDDYDFVICEIGGTVGDIEAMPFMEAIRQLGNDLPRGTAIYLHLTLMPYIPAAGELKTKPTQHSVKELQALGIHPDILLVRADREIPEAERRKLSLFCNVRPSAVIQALDVANIYDVPIAYHKEGLDSEVLAAFGIEPAPKPRLEPWEEVCNRIRTPEGEVTIAIVGKYTGLKDAYKSLIEALHHGGFANRVKVKLEWIESEVFEKEDPTPYLEKVNGILVPGGFGERGSEGKIMAAQFARERNVPYFGICFGMQMAVVEAARHLAGIENASSTEFGPTSEPVVGLMTEWVKGNELEKRSSKGDLGGTMRLGAYKAALKKDTKIAEIYGTTDISERHRHRYEVNVDYKDRLEECGLVFSGMSPDGVLPETVEYPDHPWFIGVQYHPELKSRPLDPHPLFASFVEAAVEQSRLV	PGPT0021215_1505	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021215-pyrG-K01937	NA	NA
BMS010_10111	1392	fumC_2	COG0114	Fumarate hydratase class II	ATGACAGCCACACGGACGGAAACCGATACATTTGGACCCATTGAAGTTCAGGCCGATCGCTATTGGGGCGCGCAGGCGCAGCGCTCGCTCGGCAACTTCAAGATCGGCTGGGAAAAGCAGCCCGCCTCTGTCGTTCGCGCGCTCGGCATCGTCAAGCAGGCAGCCGCCCGCGCCAACATGGCGCTGGCAGGCCTCGACCCCAAGGTCGGCGAGGCCATCATCGCCGCCGCGCAGGAAGTCATCGACGGCAAGCTGACCGAGCATTTCCCGCTCGTCGTCTGGCAGACCGGCTCCGGCACCCAGTCCAACATGAACGCCAATGAGGTGATTTCCAACCGCGCGATCGAGATGCTCGGCGGCGAAATGGGCACCAAGAAGCCCGTCCACCCCAATGACCACGTCAATATGAGCCAGTCCTCGAACGACACCTACCCGACGGCGATGCACATCGCCTGCGTGGAAGAGATCGTTCATCACCTGCTGCCGAGCCTCAAGCACCTGCACAAGGCGCTGGAAGCCAAGGTCAAGCAGTTCGAAAAGATCATCAAGATCGGCCGCACCCACACGCAGGATGCAACGCCGCTGACGCTCGGCCAGGAATTCTCCGGTTATGCCGCGCAGGTCGCCTCCGCCATCGCCAATATCGAAACCACCCTGCCCGCGCTCTCCAAGCTCGCCCAGGGCGGCACGGCCGTCGGCACGGGCCTCAACGCTCCCATCGGCTTTGCCGAAAAGGTCGCCGAGGAAATCTCCAAGATCACCGGCCTGCCCTTCGTGACCGCGCCGAACAAGTTCGAGGCGCTCGCCTCGCACGATTCCATGGTCTTCTCCCATGGCGCGATCAATGCGGCAGCAGCGGCGCTCTTCAAGATCGCCAACGACATCCGCTTTCTCGGCTCCGGCCCGCGCGCCGGTCTCGGCGAATTGTCGCTGCCGGAAAACGAGCCCGGCTCGTCGATCATGCCGGGCAAGGTCAACCCCACCCAGTCGGAAGCACTGACGCAGGTGTGCGCCCACATCTTCGGCAACAATGCAGCGCTTTCCTTCGCCGGTTCGCAGGGCCACTTCGAGCTCAACGTCTATAACCCGATGATGGCCTACAACTTCCTGCAGTCAGTCCAGCTTCTGGGTGACGCCGCCGTCTCCTTCACCGACAATTGCGTCGTCGGCATCGAGGCCCGCGAAGACAATATCAAAAAGGGCGTCGAGAACTCGCTGATGCTCGTCACCGCGCTCAACAGCAAGCTCGGTTACGACATCTGCGCCAAGATCGCCAAGACCGCGCACAAGAACGGCACGACGCTGCGCGACGAGGCCGTCGGCGGCGGATACCTCACCAACGAGGAATTCGACCAGTTTGTACGCCCGGAGAACATGATCGGGCCGAAGTAA	MTATRTETDTFGPIEVQADRYWGAQAQRSLGNFKIGWEKQPASVVRALGIVKQAAARANMALAGLDPKVGEAIIAAAQEVIDGKLTEHFPLVVWQTGSGTQSNMNANEVISNRAIEMLGGEMGTKKPVHPNDHVNMSQSSNDTYPTAMHIACVEEIVHHLLPSLKHLHKALEAKVKQFEKIIKIGRTHTQDATPLTLGQEFSGYAAQVASAIANIETTLPALSKLAQGGTAVGTGLNAPIGFAEKVAEEISKITGLPFVTAPNKFEALASHDSMVFSHGAINAAAAALFKIANDIRFLGSGPRAGLGELSLPENEPGSSIMPGKVNPTQSEALTQVCAHIFGNNAALSFAGSQGHFELNVYNPMMAYNFLQSVQLLGDAAVSFTDNCVVGIEAREDNIKKGVENSLMLVTALNSKLGYDICAKIAKTAHKNGTTLRDEAVGGGYLTNEEFDQFVRPENMIGPK	PGPT0001650_3160	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001650-fumC-K01679	NA	NA
BMS010_10112	1896			hypothetical protein	TTGCAAGTCACATCTGGAAAAACATCGGCAGCACTGGTGCTGGCTCTCGGTCTTTCCGTTTCCACCGCTCTTCCCGGCAGCGCCGGTGCGGTAACGCTGATGGACCTCCTGCGCGGCGGCCCTGGCAAGATCGCGCGTGATCGCGGTGAATTGCCGCCGGCCGGCATCGTCACCTCGCCCTCCGGATCGAGTGCCGGCCAAAGTGCCGATGCTTCCGATCCCGAGCCGCTGCCGCGTGTTTCCGGCCCGCGTTATTACGACTACAAGGCGGATACGGCCCGTGCGGTGAACACGGCGAATTTCGGTGAAGGCCTTGCCAATCTGAAATTCAGCGCCACCCCCGAGATCGCCAAGGCGCTGGAAGCCTATTACGGCGCTGGCGGCAAGACGCTCTGGGTTTCGGAAGGCGAGCTGACCGCGCGCGCCAATGCTGTCATCGCCTTTCTCGAGACGGTCGGTGAAAGCGGCCTCGATCCAGCCGATTACAGCATTTCGCCGCCGGCAAAGGATGTGACGGCCAGCATCGGCAACGCTTCCGGTTCGGCTGCGACCGATACGCCGGTGGAGACGGCCTCGGCGCCCGTGTCCGACGCCTATCAGCGGGCACAGATGCAGTTCGAGCTGGCGCTCTCCGCCAAGGTTCTCGCCTATGTGCAGGATACGGCCCGTGGCCGTGTCGATCCGAACCGGCTTTCCGGCTATCACGATTTCAAGCGCAAGACGGTGAACCTCGCACCGGTGCTGAAGCTTGCGGGCCTGAGCCCCGATGTTGCTGCCTATCTGCGCAGCCGTGAACCGTCGAGCGCCGAATATCTGGCGCTGAAGGCGGAGCTTGCCCGCCTGCGCGGTGAGGGCGATGCGGCGCATGTCGTCCGCGTTCCCGCCGATCTGGTGCTGAAGCCCGGCAACAGCAGCGCTGATATGGCCAATGTCGTCAAGGCTATCGAACATCGCGCATCGCCCGCCTTCAAGGCGGAGCATGCGGCGATCATTTCTGGTTATCAGCAGACGCCGGATTATACGCCCGATCTCGTCGATCTGGTGAAGGCGTTCCAGAGCGAGAACGGTCTGAAGCCCGACGGCGTCATCGGCCGCGCCACCGTGCGCGCCATGGTCGGCGAAAGCAATGACGCGAAGATCGCCAAGGTGCAGGTGGCGATGGAGCAGGTGCGCTGGCTGCCGGCCGATCTCGGCCAGCGTTATGTCTTCATCAACCAGCCCGCTTTCATGGCCTATTATCACAATGATGGCGTGGAACAGTTCGGCATGAAGGTGGTCGTCGGCTCCAAGGCCAACCAGACCTATTTCTTCCAGGACGAAATTCAGACCGTGGAGTTCAACCCCTATTGGGGCGTGCCGCAGTCGATCATCGTCAACGAAATGCTGCCGAAGCTGCGCCGCGATCCGTCCTATCTCGACCGGCTGGGCTACGAAGTGCAGGTGGGCGGTCGTGCCGTTTCCTCCACCAGCGTCAACTGGTATGGCTCTACCAATGCCGTTTCCGTGCGCCAGCCGCCGAGCAGCGACAATGCGCTGGGCGACCTGAAAATCCTGTTCCCCAATGCGCATGCCATCTACATGCATGACACGCCTGCCAAGAGCTTTTTCAACCGCGACATGCGGGCGCTGAGCCACGGCTGTATCCGTCTGGTCGATCCGCGCCGCATGGCCGCCGCGGTTCTCGGCACCAGCGTCGACAAGGTCGGCGAGCAGATCGCATCCGGCAAGAACCGCGCCGTGCAGGTGCCGGAGAAGGTTCCGGTCTACGTGGCCTATTTCACCGCCTGGCCGGACAAGGACGGCAAGGTGCAGTTCTTCGACGATGTGTATGACCGCGACAGCTATGTGCAGAAGGCGTTTGCCGTGACGACGAAGGCGCGTGCCGCTTCGATCTGA	MQVTSGKTSAALVLALGLSVSTALPGSAGAVTLMDLLRGGPGKIARDRGELPPAGIVTSPSGSSAGQSADASDPEPLPRVSGPRYYDYKADTARAVNTANFGEGLANLKFSATPEIAKALEAYYGAGGKTLWVSEGELTARANAVIAFLETVGESGLDPADYSISPPAKDVTASIGNASGSAATDTPVETASAPVSDAYQRAQMQFELALSAKVLAYVQDTARGRVDPNRLSGYHDFKRKTVNLAPVLKLAGLSPDVAAYLRSREPSSAEYLALKAELARLRGEGDAAHVVRVPADLVLKPGNSSADMANVVKAIEHRASPAFKAEHAAIISGYQQTPDYTPDLVDLVKAFQSENGLKPDGVIGRATVRAMVGESNDAKIAKVQVAMEQVRWLPADLGQRYVFINQPAFMAYYHNDGVEQFGMKVVVGSKANQTYFFQDEIQTVEFNPYWGVPQSIIVNEMLPKLRRDPSYLDRLGYEVQVGGRAVSSTSVNWYGSTNAVSVRQPPSSDNALGDLKILFPNAHAIYMHDTPAKSFFNRDMRALSHGCIRLVDPRRMAAAVLGTSVDKVGEQIASGKNRAVQVPEKVPVYVAYFTAWPDKDGKVQFFDDVYDRDSYVQKAFAVTTKARAASI	PGPT0023755_130	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-L|D_TRANSPEPTIDASE_ACTIVITY,PGPT0023755-ycbB-K21470	NA	NA
BMS010_10113	915	glpQ_2	COG0584	Glycerophosphodiester phosphodiesterase	ATGCTGCGCTTCGCCCGTTTCGTCGTCGCTCCCCTGTTGCTGATCGCCATTGCCCTCGGCCTCCTCGGGCTCACTAGCCGCCCGGCGAGCCCGCCTCCCGTGCTGACGGCTCTCGGCGACCAGCCGCTGGTCATCGCCCACCGGGGCGGCAAGGGACTCTGGCCGGAGAACACGCTGTTCGCTTTCGAGCGCGCCTTGGAACTGGGTGTGGACATGCTGGAAATGGACCTGCACCTGTCCGCCGACGGCGAGCCGGTGGTCATTCATGACACGACGCTGGAGCGCACCACCAACGGCGAGGGCCCGGTTGCCGCGCACAACCTGGCCGAACTGCAGGCCCTCGACGCCGGCTACCGCTGGAGCGCCGACGGTGGGCAGAGCTATCCCTATCGCAACCAGGGCACCCGCATCCCCAGCTTCGCCGAAGTGCTGCAGCGTTTTCCGCGGGCGCCCAAGCTGGTGGAACTCAAGGTCGCCGACGACGCTTTGGCGGAGCGCGTCTGCGAACAGTTGAAGCACAGCGGGCAGACCGACCGGGTCGTCGTCGGCAGCTTCCACGAAAGCGCCTTGCGGCGTTTCCGCGAACAGTGCCCGGACGTCGCCACCTCCGCCGGCGCCAGCTCGGTGCGGCTGTTGGTGGCCCTGAACTGGATCGGCCTCGGCAAGCTGCTGTCGCCGACCTACCAGGCGCTGCAGATTCCCGAGCAGCACGGCGACCTGCGCATCGCCACGCCCGGGCTGATCGCCACCGCACGCGAACGCGGCCTGCACGTGCAGTTGTGGACGATCAACGAACAGCCGGCCATGCACCGTCTGCTGGACATGGGCGCCCAGGCCCTGATCACTGACTATCCCGACCGCGCCCTGCAGTTGCTCGGACGCTCGACCCGCATCAGCGCCCTGAGCGACGAGTGA	MLRFARFVVAPLLLIAIALGLLGLTSRPASPPPVLTALGDQPLVIAHRGGKGLWPENTLFAFERALELGVDMLEMDLHLSADGEPVVIHDTTLERTTNGEGPVAAHNLAELQALDAGYRWSADGGQSYPYRNQGTRIPSFAEVLQRFPRAPKLVELKVADDALAERVCEQLKHSGQTDRVVVGSFHESALRRFREQCPDVATSAGASSVRLLVALNWIGLGKLLSPTYQALQIPEQHGDLRIATPGLIATARERGLHVQLWTINEQPAMHRLLDMGAQALITDYPDRALQLLGRSTRISALSDE	PGPT0018470_3578	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
BMS010_10114	930		COG2423	Delta(1)-pyrroline-2-carboxylate reductase	ATGCACTCCGTTCGTTTCTTCAGCAATGCCGATGTCGCCGCGCGCCTGGATTACGCCGAGCTGATCGAGGCACTGCGGATCGGCCTGGCCGCCCCCTGCGAGGCGCCGTTGCGCGCCAGTCACGCCTTGCCGGAGGCGGCTTCGCTGCTGTGCATGCCGGTCTGGCAGAGCGGGCAGGGCATCGGCGTCAAGCTGGTCACCGTCTATCCCGGCAACGGTGCCAAGGGCCTGCCCTCGGTGGCTGCGCTGTTCGCCTTGTTCGACGATGCCACCGGGCAACCCCTGGCCATGCTCGAAGCCTCGGAGATGACCGCCCGGCGTACCGCCTGCACCTCCGCGCTGGCGGCCGAACACCTGGCGCGGCGCGATGCGAAGCGCCTGTTGGTAGTGGGCAGCGGCACCCTCGCCGCACACATGGTGCGTGCCCACTCGGTGGTCCGGCAGTACGAGAAGGTCGAAATCTGGGGACGCCAGCCGGCGAAGGTGAATGCGCTGGTGGACAGCCTGCGCGCCGAGGGCTATCCGGCCGAGGCCTGCAACGACTTGCGCACCAGCGTCGGGCAGGCCGACTGCATCAGTTGCGTCACCACCTCGCGGGAGCCGCTGGTGCTGGGTGAGTGGCTGCAGCCGGGCTGCCACCTGGATCTGGTCGGCGCCTTCCTGCCGAGCATGCGCGAGACCGATTCGGCAGCGGTTGCACGGGCGCGGGTGGTAGTCGACACCCGTTCCGGCGCGCTGGACGAAGCGGGCGATCTGCTGTTCGCGATGGCTGACGGCATGCTCGACGCCGCCAGCCTCGATACCGAGCTGCGGGATTTGCTGCAAGGGCGCGGCGTACGGCGGAACGAAGCCGAAATCACCCTGTTCAAGTCGGTCGGCTATGCCCTCGAAGACCTGGTTGCCGCTCGTCGCCTGCTGGCCTTGAGCTGA	MHSVRFFSNADVAARLDYAELIEALRIGLAAPCEAPLRASHALPEAASLLCMPVWQSGQGIGVKLVTVYPGNGAKGLPSVAALFALFDDATGQPLAMLEASEMTARRTACTSALAAEHLARRDAKRLLVVGSGTLAAHMVRAHSVVRQYEKVEIWGRQPAKVNALVDSLRAEGYPAEACNDLRTSVGQADCISCVTTSREPLVLGEWLQPGCHLDLVGAFLPSMRETDSAAVARARVVVDTRSGALDEAGDLLFAMADGMLDAASLDTELRDLLQGRGVRRNEAEITLFKSVGYALEDLVAARRLLALS				NA	NA	NA	NA	NA
BMS010_10115	714	livF_10	COG0410	High-affinity branched-chain amino acid transport ATP-binding protein LivF	ATGAGCACCCTCCTCGAATTCAAGGATGTCGACGTCCACTACGGTCCGATCCAGGCGCTGCGGAAGGTCAGCCTGCACATCGACGAAGGCGAGACGGTCAGCCTGATCGGCGCCAACGGTGCCGGCAAGTCGACCCTCCTGATGTCGATCTTCGGCCAGCCGCGGGCGAGCGGCGGGCAGATCGTCTACCGCGGGACCGACATTACGCAGAAGTCGGCCCACTACGTCGCCTCCAACGGCGTGGCGCAGTCGCCGGAAGGCCGCCGGGTGTTCCCCGACATGAGCGTGGAAGAGAACCTGCTGATGGGCACCATTCCCGTCGGCATGGCCCATGCGGACGAAGACATGCAGCGCATGTTCGACCTGTTCCCGCGTCTGAAGGAGCGGCGCAACCAGCGGGCCATGACCATGTCCGGCGGCGAGCAGCAGATGCTCGCCATCGCCCGCGCGCTGATGAGCCGGCCGAAGCTGCTGCTGCTCGACGAGCCCTCCCTCGGGCTGGCGCCCATTGTGGTCAAGCAGATCTTCCAGACTCTGCGCGAGCTGGCGCAGTCGGGGATGACCATCTTCCTCGTCGAGCAGAACGCCAACCACGCGCTGCGGCTCAGCGACCGCGCCTACGTGATGGTCACCGGCGAAATCCGCATGACCGGCACGGGCCAGGAGCTGCTGGCCAACCCGGACGTGCGCAACGCCTATCTCGGCGGCCACTGA	MSTLLEFKDVDVHYGPIQALRKVSLHIDEGETVSLIGANGAGKSTLLMSIFGQPRASGGQIVYRGTDITQKSAHYVASNGVAQSPEGRRVFPDMSVEENLLMGTIPVGMAHADEDMQRMFDLFPRLKERRNQRAMTMSGGEQQMLAIARALMSRPKLLLLDEPSLGLAPIVVKQIFQTLRELAQSGMTIFLVEQNANHALRLSDRAYVMVTGEIRMTGTGQELLANPDVRNAYLGGH	PGPT0020785_5162	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020785-livF-K01996	NA	NA
BMS010_10116	876	lptB_8	COG1137	Lipopolysaccharide export system ATP-binding protein LptB	ATGAGCCAGGAAAACATCCTCACCGTTGACAGCCTGATGATGCATTTCGGCGGTATCAAGGCGCTCAACGATGTCAGCCTGAACATCAAGCGCAACTCCATCTCGGCCTTGATCGGCCCTAATGGCGCCGGCAAGACCACCGTGTTCAACTGCCTGACCGGCTTCTACAAGGCCACCGGCGGCAGCATCCAGCTGCATGCCCGGGGCACGACCACCGACGTGATCAAGGTGCTCGGCGAACCCTTCCGTCCGGACGACTTCGTCAAGCCGCGGCAACTGGGCAGCCGCCTCTGGTACAAGATGTTCGGCGGCACCCACCTGGTGAACCGCGCGGGCCTCGCGCGCACCTTCCAGAACATCCGCCTGTTCAAGGAAATGTCGGTGGTGGAAAACCTGCTGGTGGCGCAGCACATGTGGGTCAACCGCAACCTGCTCGCCGGCGTGCTCAACACCCCCGGCTTCCGCCGGGCGGAAAGCCAGGCCCTGGACCATGCGTTCTACTGGCTGGAGGTGGTCGACTTGGTCGATTGCGCCAACCGCCTGGCGGGCGAACTGTCCTACGGCCAGCAGCGCCGCCTGGAAATCGCCCGCGCCATGTGCACCCGGCCGCAGCTGATCTGCCTCGACGAACCCGCCGCCGGCCTCAACCCGGCGGAAACCGAGGCGCTCAGCGCGATCATCCGCCGCCTGCGCGACGAACACGACCTCACCGTATTACTGATCGAACACGACATGGGCATGGTCATGAGCATTTCCGAGCACATCGTCGTGCTCGACCACGGCGTGGTGATCGCCGCGGGGGCGCCGGAGGCGATCCGCAACGATCCCAAGGTGATCGCCGCCTACCTGGGCGCGGAAGAGGAGGAAGTGGCATGA	MSQENILTVDSLMMHFGGIKALNDVSLNIKRNSISALIGPNGAGKTTVFNCLTGFYKATGGSIQLHARGTTTDVIKVLGEPFRPDDFVKPRQLGSRLWYKMFGGTHLVNRAGLARTFQNIRLFKEMSVVENLLVAQHMWVNRNLLAGVLNTPGFRRAESQALDHAFYWLEVVDLVDCANRLAGELSYGQQRRLEIARAMCTRPQLICLDEPAAGLNPAETEALSAIIRRLRDEHDLTVLLIEHDMGMVMSISEHIVVLDHGVVIAAGAPEAIRNDPKVIAAYLGAEEEEVA	PGPT0020780_1770	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020780-livG-K01995	NA	NA
BMS010_10117	1275			hypothetical protein	ATGTCTTCCTCTGCCATCGATATCAAGAAATCCCTGCTGGACGCGGTACTCGCCGGCCTGCTGGCGCTGATCGTGTTCGGCCCCATCGTCGGTGTGGTGCTCAGCGGCTACAACTTCAATCTGCAGTTCGACCGGGTCGGCTGGCTCGTCGGCGCGGTGGTGATCGGGCGCTTCTGCCTCAGCCTGTTCCTGCAATCGCCGCGTGGCGAGCGCATGCTGTATCGCTTCGAAACGGCGGGCTCCGGCGTTCATGTGCTGCCGCCGGATCACAAGTCCCGGCTGCTGTGGATCGTTCCGATCCTGATCGTCCTGGCCGTGATCTTCCCGTTCTTCGCCAGCAAGTACCTGCTGACCGTGGTCATCCTCGGCCTGATCTACGTGCTGCTGGGCCTGGGGCTGAATATCGTGGTCGGTCTCGCCGGCCTACTCGACCTCGGCTTCGTCGCCTTCTACGCCATCGGTGCCTATGGCCTGGCGCTGGGTTACCAGCACCTCGGCCTGGGCTTCTGGAGCGTGCTGCCGCTGGCGGCGCTGATGGCGGCATGCGCCGGGATGCTCCTCGGCTTCCCGGTGTTGCGCATGCACGGCGACTACCTCGCCATCGTCACCCTGGGGTTCGGCGAGATCATCCGCCTGGTGCTGAACAACTGGCTCAGCTTCACCGGTGGCCCGAACGGCATGTCGGTGCCGTCGCCGACTTTCCTCGGCCTGGAGTTCGGCCGACGGGCGAAGGACGGGGGCGTGCCCTTCCATGAGTTCTTCGGCATCGCCTACAACCCCAACATCAAGTTCCTGTTCATCTACGTGGTGCTGTTCCTGGTGGTGATGCTGGTGCTCTACATCAAGCACCGCCTGACCCGCATGCCGGTCGGTCGCGCCTGGGAAGCGCTGCGCGAGGATGAGATCGCCTGCCGTTCCATGGGCCTCAACCATGTGCTGGTGAAGCTCTCGGCGTTCATGATCGGCGCTTCCACGGCGGGCCTCGCCGGCGTGTTCTTCGCCAGCTACCAGGGCTTCGTCAACCCGTCCTCGTTCACCTTCTTCGAATCGGCGTTGATCCTCGCCATCGTCGTGCTCGGCGGCATGGGCTCTACGGTCGGCGTGGTGATCGCGGCCTTCGTCCTGACCGTGGCGCCGGAGCTGTTGCGCAGCTTCGCCGACTACCGCGTGCTGCTGTTCGGTGTGCTGATGGTGCTGATGATGATCTGGCGGCCGCGTGGCCTGATCCGGATCAGTCGCAGTGGCTTCACCCCGCGTAAAGGAGTGGCCCCATGA	MSSSAIDIKKSLLDAVLAGLLALIVFGPIVGVVLSGYNFNLQFDRVGWLVGAVVIGRFCLSLFLQSPRGERMLYRFETAGSGVHVLPPDHKSRLLWIVPILIVLAVIFPFFASKYLLTVVILGLIYVLLGLGLNIVVGLAGLLDLGFVAFYAIGAYGLALGYQHLGLGFWSVLPLAALMAACAGMLLGFPVLRMHGDYLAIVTLGFGEIIRLVLNNWLSFTGGPNGMSVPSPTFLGLEFGRRAKDGGVPFHEFFGIAYNPNIKFLFIYVVLFLVVMLVLYIKHRLTRMPVGRAWEALREDEIACRSMGLNHVLVKLSAFMIGASTAGLAGVFFASYQGFVNPSSFTFFESALILAIVVLGGMGSTVGVVIAAFVLTVAPELLRSFADYRVLLFGVLMVLMMIWRPRGLIRISRSGFTPRKGVAP	PGPT0020775_2183	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020775-livM-K01998	NA	NA
BMS010_10118	915	livH_9	COG0559	High-affinity branched-chain amino acid transport system permease protein LivH	ATGGACGGTATTTTCCTGCAACAGCTGATCAACGGGCTGACCCTCGGGTCGGTCTACGGTCTGATCGCCATCGGCTACACCATGGTCTACGGCATCATCGGCATGATCAACTTCGCCCACGGCGAGGTGTACATGATCTCCGCCTACCTGTCGGCGATCGCCCTGGCTCTGCTGGCCTTCTTCGGCCTGGAGTCCTTCCCGCTGCTGATCCTCGGCACCTTGCTCTTCACCGTCTGTGTGACCGGTGTGTATGGCTGGGTGATCGAGCGCATCGCCTACAAGCCCCTGCGCAACTCCACCCGTCTGGCCCCCCTGATCAGCGCCATCGGCATGTCGCTGATCCTGCAGAACTACGTGCAGATCAGCCAGGGCGCCCGGCAGCAGGGTATTCCGACACTGCTCGACGGCTCGTTCCGTTTCGCCATCGGTGACGGTTTCGTCCAGCTCACCTACACCAAGGTCTTCATCCTCGTCGCGGCGTTCGCCGGCATGGCGGCGCTGACCTATATCATCCAGCGCACCCGGCTGGGCCGCATGTGTCGCGCCACCCAGCAGGACCGCAAGATGGCGTCGATCCTCGGCATCAACACCGACCGGGTGATCTCCTACGTGTTCGTCATCGGTGCCGCCATGGCCGCGCTGGCCGGCGTGCTGATCACCATGAACTACGGCACCTTCGACTTCTACGCCGGCTTCATCATCGGCATCAAGGCGTTCACCGCCGCAGTGCTCGGCGGCATCGGCTCGCTGCCCGGCGCCATGCTCGGCGGCATCATCCTCGGTGTGGCCGAGGCGCAGTTCTCCGGCATGGTCAACACCGACTACAAGGACGTGTTCAGCTTCTCGCTGCTGGTCCTGATCCTGATCTTCCGACCGCAAGGGCTCCTGGGACGTCCCCAGGTGGCGAAGGTGTAA	MDGIFLQQLINGLTLGSVYGLIAIGYTMVYGIIGMINFAHGEVYMISAYLSAIALALLAFFGLESFPLLILGTLLFTVCVTGVYGWVIERIAYKPLRNSTRLAPLISAIGMSLILQNYVQISQGARQQGIPTLLDGSFRFAIGDGFVQLTYTKVFILVAAFAGMAALTYIIQRTRLGRMCRATQQDRKMASILGINTDRVISYVFVIGAAMAALAGVLITMNYGTFDFYAGFIIGIKAFTAAVLGGIGSLPGAMLGGIILGVAEAQFSGMVNTDYKDVFSFSLLVLILIFRPQGLLGRPQVAKV	PGPT0020770_3769	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020770-livH-K01997	NA	NA
BMS010_10119	1122	livJ	COG0683	Leu/Ile/Val-binding protein	ATGTTGCAGAAGATTTACAAGAAAGGTTTTCTGGCTCTCGCGGTAACCAGCGCACTCGGTCTCGCACCGCTGGCGCATGCTGACGTGGTGATCGGTGTTGCCGGTCCGCATACCGGCGCCAACGCGTCGTTCGGCGAGCAATACTGGCGAGGCGCTTCCCAGGCGGCGGAGGACATCAACGCCGCAGGTGGCTTGAATGGGGAAAAAATCAAACTGGTGAAGGCGGACGACGCTTGCGAACCCAAGCAGGCCGTGGCCGTCGCCAACCGCCTGGTGGACCAGGACAAGGCCATCGGCGTGGTCGGCCACTTCTGCTCTTCCTCCACCATCCCGGCTTCGGAGGTCTATGACGAGGCCGGCATCATCGCCATGACTCCCGGCTCGACCAACCCGCAGGTCACCGAGCGCGGGCTGTCCGGCATGTTCCGCATGTGCGGACGTGACGACCAGCAGGGCATCGTGGCCGGCGACTACATCATCGACGTGCTGAAGGCGCAGAAAGTGGTGATCCTTCACGACAAGGACACCTACGGCCAGGGCCTGGCGGACGCGACCAAGGCGCAGCTCAACAAGCGCGGTGTGAAGGAAGTCCTGTATGAAGGTCTGACCCGTGGCGAGAAGGATTTCAACGCCCTGGTCACCAAGATCCGCGGCGCCGGTGCCGATGTCGTCTACTTCGGCGGCCTGCATCCGGAAGCCGGTCCGCTGGTGCGCCAGATGCGCGAGCAGGGCCTGACCGCCACCTTCATCTCCGGCGACGGCATCGTGACCGACGAGATGGTCACCACCGCCGGCGGCCCGCAGTACGTCAAGGGCACCCTGATGACCTTCGGCGCCGACCCGCGCAAGATTCCGGACGGCCAGGCGGTGATCGAGAAGTTCCGCGCCAACGGCTTCGAGCCGGAAGGCTACACCCTCTACGCCTACGCCTCGCTGCAGGCGCTCGCCGCCGGCTTCAACGGCGCCGGCGAGAACGACCCGGCCAAGGCCGCCGAGTGGCTGAAGGCCAACCCGGTCGCCACCGTCATGGGCAAGAAGGAGTGGGACTCGAAGGGCGACCTGAAAGTTTCCGACTACGTCATGTACGAGTGGGATGAGCAAGGCAAATACCACCAGAAGTAA	MLQKIYKKGFLALAVTSALGLAPLAHADVVIGVAGPHTGANASFGEQYWRGASQAAEDINAAGGLNGEKIKLVKADDACEPKQAVAVANRLVDQDKAIGVVGHFCSSSTIPASEVYDEAGIIAMTPGSTNPQVTERGLSGMFRMCGRDDQQGIVAGDYIIDVLKAQKVVILHDKDTYGQGLADATKAQLNKRGVKEVLYEGLTRGEKDFNALVTKIRGAGADVVYFGGLHPEAGPLVRQMREQGLTATFISGDGIVTDEMVTTAGGPQYVKGTLMTFGADPRKIPDGQAVIEKFRANGFEPEGYTLYAYASLQALAAGFNGAGENDPAKAAEWLKANPVATVMGKKEWDSKGDLKVSDYVMYEWDEQGKYHQK	PGPT0020765_13321	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020765-livK-K01999	NA	NA
BMS010_10120	1287	puuB_9		Gamma-glutamylputrescine oxidoreductase	ATGAGCTTGCGTCAGGAATGTCTGTGGGAGCGCTTGACGCCCGAGCGGCAGAACGCGCCGGTCCTGAATGGCGAGCGCAAGGCCGATGTCTGTGTGATCGGGGCGGGCTTCACCGGTCTGAGCGCGGCTGTGCACCTGCTCGAGCAGGGGCGGCGGGTGTGCGTGCTCGAGGCCCAGCAGGCGGGCACCGGGGGCTCCGGCCGTAACGTCGGGCTGGTGAATGCCGGGCTGTGGATTCCTCCGGACGAAATCGAAGCGCGCCTGGGGCAGGCGGTGGGCGAGAAGCTCAACCGGACTCTGGGCGCCGCGCCTTCGCTGGTGTTCTCGCTGGTCGACCGCTATGGCATCGATTGCCAGTTGCGCCGCGAAGGCACCCTGCACATGGCTCACAACAGCCGCGGCCAGGCCGATCTGGAAAGCCGCTGCGAACAATGGCGCCGCCGCGGCGCGCCGGTCGAGCTGCTTACCGGTGCGGCCTGTCGCGAAGCCACCGGTACCACCCGGATCGCCGCGGCGCTGCTCGACCGCCGGGCCGGTACGCTCAATCCCATGGGTTACACCCAGGGCCTGGCCAGGGCGGTGCGCAGCCTCGGCGGCGAGTTGTACGAGCGTTCCCCGGTGCTGCGCCTGGAGCGCCAGGGCGACGGCGACTGGTTGGTGGTCACCGCCCAGGGGGCGGTCAGGGCGGCCCAGGTAGTGATCGCTTCGAACGCGTATACCGAGGGCGAGTGGACCGAGCTGCGCCGCAGTTTCTTCCCCGGCTACTACTATCAGGTCGCATCGGTGCCGCTCGAAGGGCCCGAGGCGGCGAGCATCCTGCCGGGCGGGCAGGGTTCCTGGGATACCCGCCAAGTCCTCAGCAGCATCCGCCGCGATGCCGACGGGCGCCTGTTGCTCGGCAGCCTGGGTAACGGCGCTCGCAAGCCCGAGTGGTTCATACGTGCCTGGGCCGACCGCATCCAGTCCCATTACTTCCCTCGCCTGGGCAAGGTGGAGTGGGAGTGCACCTGGACCGGCTGCATCGCCTTCACGCCGGAGCATTTGATGCGCCTGTTCGAGCCGGCGCCCGGATTGGTCGCGGTGACCGGCTACAACGGTCGCGGCGTGACCACTGGCAGCGTGGTCGGCAAGGCGTTCGCCGATTACCTGTGCACTGGCGACGCCGAAGTCCTGCCCATGCCGTTCCAGCCCATGCGGGCGGTGTCCGCGGTGGGGGTGCGCAGCGGCTTGTATGAGGCGGGTTTTTCGCTCTATCACGCCGGGCAGTGCCTGCGCGTGGTGATTTGA	MSLRQECLWERLTPERQNAPVLNGERKADVCVIGAGFTGLSAAVHLLEQGRRVCVLEAQQAGTGGSGRNVGLVNAGLWIPPDEIEARLGQAVGEKLNRTLGAAPSLVFSLVDRYGIDCQLRREGTLHMAHNSRGQADLESRCEQWRRRGAPVELLTGAACREATGTTRIAAALLDRRAGTLNPMGYTQGLARAVRSLGGELYERSPVLRLERQGDGDWLVVTAQGAVRAAQVVIASNAYTEGEWTELRRSFFPGYYYQVASVPLEGPEAASILPGGQGSWDTRQVLSSIRRDADGRLLLGSLGNGARKPEWFIRAWADRIQSHYFPRLGKVEWECTWTGCIAFTPEHLMRLFEPAPGLVAVTGYNGRGVTTGSVVGKAFADYLCTGDAEVLPMPFQPMRAVSAVGVRSGLYEAGFSLYHAGQCLRVVI				NA	NA	NA	NA	NA
BMS010_10121	693			hypothetical protein	ATGAGTTCCGCCGAAATACTGGCCAGCGTCGATATCGTTGCGCTGCGCCTCGATCCCCGGCAGGGGCTGGAGTTGCTGTTGATCCGCCGTGCCCAGGCGCCCTACGAAGGGCATTGGGCGTTGCCGGGCGTATTGATCAACGGCCTGTGTGCCGACCACAGTCTCGAAGATGCCGCCTGCCGTGCTTTGCGCGACAAAGCGCGAATCGAGCCCGCCTACCTGGAGCAGGTGGCCACTGTGGGTAATGCCGTGCGCGATCCGCGCGGCTGGTCGCTGAGCGTGTGCTACCTGGCGCTGGTCGGGCCGGGTGTCGAGGCCGGCAACGAGGACCTGCGTTTCGTGCCCTTGGACGAAGTTCGTCAGGAGCGCTTCCCGCTGCCTTTCGATCACCGGCATCTGGTCGAACAGGCCTGCGAGCGGCTGGCCGGCAAGTCGGCCTATAGCGCGCTGCCGCTGTATCTGCTGGCGGGGCGCTTCACCGTGGCGGATGCGCTGGTCGCGTTCCAGGTGGCGATCGGCCAGGAGGTCCAGCATTCGAGTTTGCGTGGACGTCTGGAGCGGATGAAGAAGGCTGGCTGGATCGAAGACACCGGCACCCTCAACCGGCCGCCCATGGGGCGGCCCCAGCATGTTCTGCGTTTTACGCCGAGGGCGCGGCAGGTGTTCGTCTTCGACCGCAGTCTGTTGCTCTGA	MSSAEILASVDIVALRLDPRQGLELLLIRRAQAPYEGHWALPGVLINGLCADHSLEDAACRALRDKARIEPAYLEQVATVGNAVRDPRGWSLSVCYLALVGPGVEAGNEDLRFVPLDEVRQERFPLPFDHRHLVEQACERLAGKSAYSALPLYLLAGRFTVADALVAFQVAIGQEVQHSSLRGRLERMKKAGWIEDTGTLNRPPMGRPQHVLRFTPRARQVFVFDRSLLL				NA	NA	NA	NA	NA
BMS010_10122	657	pncA_2	COG1335	Nicotinamidase	ATGAAAATCGCCAGCTTCGATGTGGACGCCCAGAAAGGCTTCACCCCGCTCTGCCCGGAGGAACTGCCGGTGCCGGGCGGCGACGAAATCGCCGAAGCGCTCAACCACATGGCCAGCCGCGCGGACCTGCGCCTGGGCAGCAAGGACGCCCACAGCCCCCGAGCCGCCTGGGTGGTGGCCACGCCGGAAGAGATGCTGCGCCCGCTGCCGCTGGCCAACGCCGACCTGACCTGGGTCAGCCACTGCGTTCCCGGTACCCGTGGCTTCGAGCTGCTCGACGGCTTGCCGCAGCCGGCGGACTACGACTACTTCGTCTGGAAGGGCGTCGAACCGGATCTCCACCCCTACGGCGCCTGCTACCACGACCTCGCCGAGCGCCGCAGCACCGGGGCCATCGAATACCTCCGGCAGAACGCGGTCGATCTCGTCCTGGTCGGCGGCCTCGCCCTGGATTACTGCGTCAAGACCACAGCCCTGCAACTGCGGCGCGCCGGCTTTCAGGTAGCCCTCTACCTGCCCGCCTGCCGGGCCCTCGCCGCCAACAGTGGCGAGCAGGCGCTGGAGGAGCTGCGCAACTCCGGTGTTCGCCTGTGCGAAGACCCGACCCAACTGGATGCCGCCATCGCCGCAGCAGTCCCGAATCTGGAGAAGAAGTGA	MKIASFDVDAQKGFTPLCPEELPVPGGDEIAEALNHMASRADLRLGSKDAHSPRAAWVVATPEEMLRPLPLANADLTWVSHCVPGTRGFELLDGLPQPADYDYFVWKGVEPDLHPYGACYHDLAERRSTGAIEYLRQNAVDLVLVGGLALDYCVKTTALQLRRAGFQVALYLPACRALAANSGEQALEELRNSGVRLCEDPTQLDAAIAAAVPNLEKK	PGPT0013470_206	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013470-pncA-K08281	NA	NA
BMS010_10123	1200	pncB2	COG1488	Nicotinate phosphoribosyltransferase 2	ATGGGCGAGAGCGTATTTGCCGACCGTATCGTGCAGAACCTGCTGGATACCGATTTCTACAAACTGACGATGATGCAGGCGGTCCTGCACAACTACCCCAACGCCGAGGTGGAGTGGGAATTCCGCTGCCGCAACCGCGAGGACCTGCGCCCTTACCTGGCGGAAATCCGCTACCAGCTCGAACGCCTCGCGGAACTGGAAATCACCGCCGACCAGCTCGCCTTCCTCGAACGCATCCCGTTCATGAAGCCTGATTTCATCCGCTTCCTGCGCCTGTTCCGCTTCGATCTGCGCTACGTCCAGACCGGCATCGAGGACGACCAGTTGTTCATTCGCCTGCGCGGCCCGTGGCTGCACGTCATCCTCTTCGAGGTGCCGGTCCTGGCCATCGTCAGCGAAGTGCGCAACCGCTACCGCTATCGCGACGTGCTCATCGAGCAGGTCCGCGAACGGCTCTACGAGAAACTCGACTGGCTGCGCCGCGAGGCCAGCACCGAGGAACTGGCGGAATTCCAGTTGGCCGACTTCGGCACCCGCCGGCGCTTCTCCTACCGCGTCCAGGAAGAGGTGGTGCACATCCTCAAGCGCGACTTCCCGGGGCGCTTCGTCGGCACCAGCAACGTCCACCTGGCACGGGAATTCGACCTCAAGCCCATCGGCACCATGGCCCACGAATGGCTGATGGCCCACCAGCAGCTCGGCCCGCGCCTGATCGACAGCCAGAGCGCCGCGCTGGATTGCTGGGTGCGCGAATACCGCGGCCTGCTCGGCATCGCGCTGACCGATTGCATCACCATGGATGCCTTCCTGCGCGATTTCGATCTGTACTTCTCCAAGCTGTTCGACGGCCTGCGCCACGACTCCGGCGATCCGCTGATCTGGGCCGAGAAGGCCATCGCCCACTACCACAAGCTGGGAGTGGACCCGAGGACCAAGACCCTGGTGTTTTCCGATGCCCTCGACCTGCCCAAGGCGCTGGCGATCTTCCGCGCGCTGCGTGGTCGGATACAGGTGAGCTTCGGCATCGGCAGCAATCTGACCTGCGACATCCCCGGTGTCGAGCCGATGAACATCGTGCTGAAGATGACCGCCTGCAACGGCCAGCCAGTCGCGAAGATTTCCGATGCACCGGGCAAGACCCAGTGCCGCGACGAGAATTTCGTCGCCTACCTGCGCCATGTCTTTCAGGTAGGTTCCTGA	MGESVFADRIVQNLLDTDFYKLTMMQAVLHNYPNAEVEWEFRCRNREDLRPYLAEIRYQLERLAELEITADQLAFLERIPFMKPDFIRFLRLFRFDLRYVQTGIEDDQLFIRLRGPWLHVILFEVPVLAIVSEVRNRYRYRDVLIEQVRERLYEKLDWLRREASTEELAEFQLADFGTRRRFSYRVQEEVVHILKRDFPGRFVGTSNVHLAREFDLKPIGTMAHEWLMAHQQLGPRLIDSQSAALDCWVREYRGLLGIALTDCITMDAFLRDFDLYFSKLFDGLRHDSGDPLIWAEKAIAHYHKLGVDPRTKTLVFSDALDLPKALAIFRALRGRIQVSFGIGSNLTCDIPGVEPMNIVLKMTACNGQPVAKISDAPGKTQCRDENFVAYLRHVFQVGS	PGPT0013375_3896	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013375-pncB-K00763	NA	NA
BMS010_10124	828	nadE_4	COG0171	NH(3)-dependent NAD(+) synthetase	ATGCAAGAGCTGCAAAGCGCCATCGCCGACGAACTCCAGGTCCGACCGCCCTTCACCGGTCCGTCGGACATCGACGCGGAAATCCAGCGACGCATCGCCTTCATCCAGCAGTGCCTGCGCGACGCCGGCCTGAAGACGCTGGTCCTCGGCATCAGCGGCGGGGTCGATTCGCTGACCGCCGGCCTGCTGGCCCAGCGTGCCGTCGAGCGCCTGCGGGCCGAGACCGGCGACGACGGCTACCGCTTCATCGCCGTGCGCCTGCCCTATCAGGTCCAGAAGGACGAGGCCCATGCCCAGGAATCGCTGGTCTGCATCGCGCCGGACGAGACCCACACCGTGAACATCGGCCCGGCGGTCCAGGCCCTGGCGGCACAGATCGAAGCCCTGGAAGGGCTGACACCCGGCAGCGCCGACTTCGTCCTCGGCAACGTCAAGGCACGCATGCGCATGGTCGCCCAATATGCTATCGCCAATGCCCGCCAGGGATTGGTGATCGGCACCGACCATGCCGCCGAAGCGGTGATGGGCTTCTTCACCAAGTTCGGCGACGGCGCCTGCGACCTCGCCCCGCTCAGCGGGCTGGTGAAGCACCAGGTCCGCGCCATTGCCCGCGCCCTGGGCGCACCGGAACACCTGGTGGAAAAAATCCCCACCGCCGACCTGGAGGACCTCAGCCCCGGTAAGCCGGACGAGGAAGCCCACGGCGTCAGCTATACCGATATCGACGCCTTCCTCCACGGGCGCACGGTGCGCCCGGAAGCGGCGGAAATCATCTGCCGGACCTTCGAGAAAACCCGCCACAAACGGGAGCAACCGAAGGCACCGTGA	MQELQSAIADELQVRPPFTGPSDIDAEIQRRIAFIQQCLRDAGLKTLVLGISGGVDSLTAGLLAQRAVERLRAETGDDGYRFIAVRLPYQVQKDEAHAQESLVCIAPDETHTVNIGPAVQALAAQIEALEGLTPGSADFVLGNVKARMRMVAQYAIANARQGLVIGTDHAAEAVMGFFTKFGDGACDLAPLSGLVKHQVRAIARALGAPEHLVEKIPTADLEDLSPGKPDEEAHGVSYTDIDAFLHGRTVRPEAAEIICRTFEKTRHKREQPKAP	PGPT0013445_1527	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013445-nadE-K01916	NA	NA
BMS010_10125	300			hypothetical protein	ATGAGCCGGCGCTGGCGCTCTAGCCGTTTCGCCGCAGGCGACGACGATCCGCTCGGCCCACTGGCGAACATGGTCGACGTGGTACTGGTGTTCGCCTGCGGCCTGATCGCCGCCCTGGTGGCCCAGACTGACCTGCTGCAACGGCTGGAACAACGCAACGAGCCGGTCGCGGTGGAGCGCGGCCGCGAACTGCCCCGATTGCCGGGCAGCCTCAAGGGGCAGGGCGGCGAAGGGTTGGAGAGCGTTGGCCAGGTTTACCGCGATCCACAGACGGGCAAGTTGATACTCATTGGGCAATAA	MSRRWRSSRFAAGDDDPLGPLANMVDVVLVFACGLIAALVAQTDLLQRLEQRNEPVAVERGRELPRLPGSLKGQGGEGLESVGQVYRDPQTGKLILIGQ				NA	NA	NA	NA	NA
BMS010_10126	477			hypothetical protein	ATGTTCGACAGTAACATCTTCGGCTGGCTGCACCTGCTGGTGGGCTGGCTGCTGCGACCGGTGACCTGGGGCCTGTTCGGCCTGCTGGCGCTGGCCGTGTGGGATATCGGCGTGTCGGCCGGCGAGCGCCTGGGCGGGTTGTCGCGCTGGCGGCTGCTGGCACCGGCGGAGGTCGAACGGCGTGCCCGCAAGCGCCTGGACCGCGCCGACCTGATCGCCCGCATCGGCCCGATGCTCGGCCTGATGGGTACGCTGATCCCCCTCGGTCCCGGGTTGGCGGCGCTGGGCGAGGGCAACGTACAGATTCTCAGCGTGGCTATGCGCGTGGCCTTCGACACCACGGTGCTCGGCCTGCTCGCCGGAGTGATCGGCTTCGCCCTCGGCCGTCTGCGTCGGCGCTGGTACGACGAACTGCTGGACGAGCTGGAAGCCGCAGAGGCGGGGGAGGCGGGCGATGAGCCGGCGCTGGCGCTCTAG	MFDSNIFGWLHLLVGWLLRPVTWGLFGLLALAVWDIGVSAGERLGGLSRWRLLAPAEVERRARKRLDRADLIARIGPMLGLMGTLIPLGPGLAALGEGNVQILSVAMRVAFDTTVLGLLAGVIGFALGRLRRRWYDELLDELEAAEAGEAGDEPALAL				NA	NA	NA	NA	NA
BMS010_10127	4290			hypothetical protein	ATGTCGTTTATCCGACCTTTTCTTCTGATCGGTCTGTTCTGCCTGGGTTGGCCGCTGGCGGCGCAGGCCCGGATCAATGCCATCGTGTCGCAATACAGCGCGGCGGAATTCGCCGCCGGGGCGGCGCTCTTCGCGCAGCGCTATCCGCAGCAGGCGGTGAGCGCACGGACACCGGAGCAACTCGCCGAACTGGACGATGCCGCCGTACGCGACTGGCTGGCCCAGGGCAGCGTGCTGCTGACGGTGGGACTGTTCGGCGCCGAGGCTGAGCGTCTGCAACCCTTGCTGGCGGAATGGACTGCCGGTGAGCGCTTCATTCTGCACAGCGAGCAGAATCTGGTGGTGCTCAGCCGAATCGGCGGTCGTCTGGTCTTCGCCAGTCGCGAGGAGGCAGAAAAGCTCGGCGCACAGAAGCCGTCCGGCGATCTGGCCGGCTGGGTCCGGGAAATGGCCGAAGCCTATCCACGCCAGGCCGAGTGGGTCGAGGCACGCAGTTACTGGTTGGCCGGCGGCAGCGAGAACATTGCGCGCCTGCTCGGCTGGCTGGCCGCTCGCGGCAGCCCCGCTGTCCAGGCCGAAACGCCCCAGGCCCGGCCGCCGCTGCGCTATTACCAGCACGGCCGGCAGCAGGAACCGAAGCAACTGGTCTGGAAGGGCAAGCGACTGGTAGCACTGGTCGATCACGGTCGCGCCGACCGCAACGGCGACCGTGAACTCAACGACATGCTCTGCCGTGCGCTGGAACAACGCGAAATGGCCTGCGTGAGCCTGTTCGCCGATTGGGGCGCCGCCACCCTGGAGGCGCTGCGCTGGTTGAAGGCGGGCGAGCATCCGCCGCTGGCCGCCGTCGTGGCCTTGCAGGATTTCGTCATGGGCGGTGGGGAAGGACGCGAACAGGCCACCGACCTGCTGGTCGGCCTGGACGTCCCGGTGCTCAAGGGACTGCGCCTGGATGACCGCGACGAAGCCGCCTGGCAACTGTCCAGCGACGGCCTCGGCCGCGACAAGGTGCATTACCAACTGGCCATGCCGGAACTCCAGGGCAGCAGCCAACCGATGGTCCTGGCTGCATGGCAGGCGGCGCAGATCGACCGCCTGACCGGCATCCGCTTCGGCTTCAGCCAGCCGTTACCGGCGCGGGTGGAGGCCCTGGCGGCACGGGTACAGGGCTGGCAGCGCCTGCAAGAGAAAGCCAACGCCGACAAACGCGTCGCGCTCATCTACTACAACCACCCGCCGGGGCGGCACAACATCGGTGCGGACAACCTCGACGTGCCGCAGTCGCTGTTCCAGATTCTCCAGCGGCTCAAGGCCGAGGGCTACGACACCGGCCCGCTGCCGGAGAGCCCCAAAGCGCTGCTCGACCTGTTGCAGGAGCGCGGTGTCAACCTGCCGGAGCAGGGCGACGCCCTGGCCGACATGGCTGGCAAGGTAGAAGGCATGAGCGGCGAGGAATACCGCCGCTGGTTCGCCACGCTGCCCGCCGCCTTGCAGGCGGAAATGATTCGCGGGCCGCTGGGGTATTGGCATGTGCAATTGCGCCGTGCGCTGGAGAGTTCGCAACTGGCGATTGCCAGGGAAATCTTCGCCAATGGCTCCAGCGAGCTGCATCACGTGCTGGATGGCGTCGTGCATCCGGCCAAAACGCGCGCGCTGGATTTGCTGGCGCAGCTCGAAAATTTATACCGCCAGGCGCTGGAACGCTCGGGGCAGGTCGACTGGGCACAGGCCGAGGCGCTGATCCAGGCGCTCGCCGATACCGGCATCGAAGGGTTGCGCGGCTGGGGCGAAGGGCCGGGCTACGTGATGGTGCACCAAGGCCGGCTGGTGTTGCCGGGGCTGCGTTTCGGCAATGTCTTCGTCGGTCCGCAGCCGCCCCGTGGCTGGGAAATCGACGAGGAGCTGCTGCACGCCAACCTGGTGTTCCCGCCGCCGCACCAGTACCTGGCCTTCTACCACTGGCTGCGTGACGATTTCAAAGCCGATGCCCTGATCCACCTCGGCCGGCACTCCACCTACGAATTCCTCCCGCGCCGCCGCGCCGGATTGTCCGACGAGGACTATTCGATGCAGGTGGTCGGCGACCTGCCGAGCATCTATCCCTACATCGTCGACGGCGTCGGCGAAGGCATCCAGGCCAAGCGCCGGGGCTTGGCGGTGATGATCGACCACCTGACCCCGCCGTTGGTGGCCACGCCGCTCTACGACGACCTGCTCAAGCTGCGCCAGCTCATCGAGAGCTTCGAAACCGGTAGCGGCCAGGTGGATGGTCCGGCCCGCCGCGCCACCATCGCCGAGATCAAGCGGCTGATCGGCAGCACCGGCCTGGAGCCCGAGCTGCGCGAATCCATGGCCGAGCCCCTGGCGGCACGCGGCATCGACTTCGAACAGGCCGACGACGAGTTGCTGGTACACGAGGTCGGCCATTACCTGACCAACATCCAGGAGCGCTTCATGCCCATGGGGCTGCACGTGTTCGGCAAGCCCTGGAAACCGGAGGCCGTCGAAACCCTGCTGACCTCCATGGGCGCTGCCGGGGAGAAGCAGCGCCGTGCCCTGATCGATTCGCCGACGGCCGAAATGAACGCCCTGGTCGGCGCGCTGAACGGTCGCTTCGTCGCGCCCGGCAAGGGCAACGACCCGATCCGCACTCCCGAGGCGCTACCTACCGGGCGCAACTTCCACGCCCTGGACAGCAGCCTGCTGCCGAGTCGCATCGGCTGGGGTATCGGCCGCGACATGGCGAACAAGGCCCGTGAGCGCCCGGTCGAAGACGGCGGGCGCGAGGCGGTAATCCTCTGGGCCTCGGACACGGTGCGCGACGAGGGCGCGATGATCGCCTTCGGCCTGGACCTGCTCGGCGTCGAGCCGGTCTGGAACAGTCGTGGCATCGTCGAAGGCATTCGCCGGGTCCCGCTGGCGACCGGCCGGCAGCGCCGCGACCTGCTGTTCACCACCTCCGGCTTGTTCCGCGACCTCTATGCCGACCAGCTCGCCATGCTCGAACGCGGCGTGCTGCTTGCCCTGGATGGCGCCAGCGAAACCGTCCGCCGCGACTACCCCGCGCTGCGCCCGGCACTGGCTGCCGCCCTGGAACCGCTTGGCGCCTTGGCCAGCGGCGGCGACGAGTCACTCGAGGCCAACCGCGTCGCCGCCAACTGGGTGCGCGATGCGGCGCGCCGGCTGGATGCCGGAGCGGGCGCCGAGCAGGCTGGCAGCCTGGCGGCCTTGCGTCTGTTCGGGGTGGCACCCGGTGCCTATGGTGCGGGCATCAATAACCTGGTGGAGCGTTCCGGTAGTTGGCAGGACCGCGGCGAGCTGGCCCGCGCCTACGTCAACCGCATGGGTCATGCCTACGGCATGCGACACCAGGGCGAGCCGGTGCAGGCCGTGTTCGAAGACGGTCTCAAGCAGGTCAAACGCACCTATTTAGGCCGCTCCAGCAACCTCTATGGCCTGATGGACAACAACGATGCCTTCGATTACCTCGGAGGACTGAGCCTGGCGGTGGAGCAGTTTTCCGGCCGCGTACCGGAGAGCTATGTCGGCTGGCACAACGACCCGCGCCAGGTGCGCCTGGAACCGTTGCAGCAGGCACTGCTGGCCGAGCTGCGCGGGCGCTTCCTCAACCCGGCCTGGATCAAGGCGCTGATGCAGCACGACTATGCCGGCGCCCGCACCATGGGCAGCGAATTCCTCGAATACCTCTGGGGTTGGCAGGTGACCAACCCCGACATCATTCGCGACAGCGCCTGGGAAGAGGTCAAGGCGGTGTACCTGGATGACCGCTACGACCTGGGCATCGACCGCTTCCTCGAGCAGGGTGCCAACGTGCATGTGAAGAGCAACATGCTGGCGATCATGCTGGTGGCCATCCACAAAGGCTTCTGGCAAGCCGACGAGGCGACGGTCAGGGCACTCGGCGAGCAGTTCGCCCGGTTGGTGGTGGAAAACGGTCTGCCCGGCAGCGGCCATACCCGCCCGGACCATCCGATGTTCCAGTGGCTGCTGCCGCAACTGCCGGAAGACTTGCGCACCGCGCTTGCGGCGCGTCTTGACGCGGCGAAGCTGCCACAACCGGAGGCGCCGGCCGCGCCGAACAGCATCAGCGAACTCCAGCCGGACGCCGCCGAGCCGGCTGCCGGCGAGGAAGCATCACCCGCCGAAGCAGCCTCCGGCGAGGCGCAACCGCTCGGTCCGTCGATCTGGATCGGCGCACTGGCCTTGCTGGCACTGCTCGGGCTGGGCGTCTGGCGTGGCCGCGGTCATCAACCCCTGGGAGGACAATGA	MSFIRPFLLIGLFCLGWPLAAQARINAIVSQYSAAEFAAGAALFAQRYPQQAVSARTPEQLAELDDAAVRDWLAQGSVLLTVGLFGAEAERLQPLLAEWTAGERFILHSEQNLVVLSRIGGRLVFASREEAEKLGAQKPSGDLAGWVREMAEAYPRQAEWVEARSYWLAGGSENIARLLGWLAARGSPAVQAETPQARPPLRYYQHGRQQEPKQLVWKGKRLVALVDHGRADRNGDRELNDMLCRALEQREMACVSLFADWGAATLEALRWLKAGEHPPLAAVVALQDFVMGGGEGREQATDLLVGLDVPVLKGLRLDDRDEAAWQLSSDGLGRDKVHYQLAMPELQGSSQPMVLAAWQAAQIDRLTGIRFGFSQPLPARVEALAARVQGWQRLQEKANADKRVALIYYNHPPGRHNIGADNLDVPQSLFQILQRLKAEGYDTGPLPESPKALLDLLQERGVNLPEQGDALADMAGKVEGMSGEEYRRWFATLPAALQAEMIRGPLGYWHVQLRRALESSQLAIAREIFANGSSELHHVLDGVVHPAKTRALDLLAQLENLYRQALERSGQVDWAQAEALIQALADTGIEGLRGWGEGPGYVMVHQGRLVLPGLRFGNVFVGPQPPRGWEIDEELLHANLVFPPPHQYLAFYHWLRDDFKADALIHLGRHSTYEFLPRRRAGLSDEDYSMQVVGDLPSIYPYIVDGVGEGIQAKRRGLAVMIDHLTPPLVATPLYDDLLKLRQLIESFETGSGQVDGPARRATIAEIKRLIGSTGLEPELRESMAEPLAARGIDFEQADDELLVHEVGHYLTNIQERFMPMGLHVFGKPWKPEAVETLLTSMGAAGEKQRRALIDSPTAEMNALVGALNGRFVAPGKGNDPIRTPEALPTGRNFHALDSSLLPSRIGWGIGRDMANKARERPVEDGGREAVILWASDTVRDEGAMIAFGLDLLGVEPVWNSRGIVEGIRRVPLATGRQRRDLLFTTSGLFRDLYADQLAMLERGVLLALDGASETVRRDYPALRPALAAALEPLGALASGGDESLEANRVAANWVRDAARRLDAGAGAEQAGSLAALRLFGVAPGAYGAGINNLVERSGSWQDRGELARAYVNRMGHAYGMRHQGEPVQAVFEDGLKQVKRTYLGRSSNLYGLMDNNDAFDYLGGLSLAVEQFSGRVPESYVGWHNDPRQVRLEPLQQALLAELRGRFLNPAWIKALMQHDYAGARTMGSEFLEYLWGWQVTNPDIIRDSAWEEVKAVYLDDRYDLGIDRFLEQGANVHVKSNMLAIMLVAIHKGFWQADEATVRALGEQFARLVVENGLPGSGHTRPDHPMFQWLLPQLPEDLRTALAARLDAAKLPQPEAPAAPNSISELQPDAAEPAAGEEASPAEAASGEAQPLGPSIWIGALALLALLGLGVWRGRGHQPLGGQ	PGPT0009280_202	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0009280-cobN-K02230	NA	NA
BMS010_10129	1326	yeeO_2	COG0534	putative FMN/FAD exporter YeeO	ATGCTCGAACGCCAGCGCCTCAAGCACATTCTCAGCCTCGGCCTGCCGATCATCGGCGGCATGCTCAGCCAGAGCCTACTCAACCTGATCGATGCCGCCATGGTCGGCCACCTGGGCGAGAAAGCCCTGGCCGGAGTCGGGATCGGCAGCTACGCCAATTTCATGGCCATCGCTCTGGTCATGGGCCTGGGAGCCGCCGTGCAGGCCCAGGTGGCACGCCGCCGCGGCGAAGGACGCACCGACGAGGCCGCCGCACCGTTGAATGCCGGTCTGGTCATCGCCCTGGGTATCGCCCTGCCGCTGACACTGCTCGGCTGGTGGCAAGCGGAAACCATCATCGGCCTGCTGTCCGACGACCCGGAGGTGGTCGCCATCGGCATCCGCTATTTCGAATGGCGGGTGCTGGCCATCTTCGCCGTCGGCATGAACTTCTCCTTCCGCGGCTACTGGAACGGCAGCCATCAATCCGGCGTGTACATGCGCACGCTGGTGATCATGCACGTGGCCAACGTCGCCATCAGCTACAGCCTGATCCACGGACTGTTCGGCCTGCCCAACATGGGCGCGCCGGGCTCCGGCCTGGGCACCAGCCTCGCGCTGTACCTGGGCTCGGCGATCTATGGCTGGCAGACCTGGCGCATCGCCCAGGCGAAAGGCTTTCTGCGCCGTCGACCCAGCGCACTGGATACCCGCGTGATGCTGCGCCTGGCGTTGCCCAACTCCTTGCAGCAGTTCTTCTTCGCCGCCGGTATTACCGCGCTGTTCTGGATCATCGGTCAGGTCGGCACGGCGGAGCTGGCGATCGCCCATGTGCTGATCAACCTGGCGCTGTTCCTCATCCTGCCGGGCATCGGCCTGGGCATGGCGGCGACCACGCTGGTCAGCCAGAGCCTCGGCGAAAAGGATGCGGTCGCCGCCCATCGCTGGGGCTGGGAGGTGGTGAAGGTCGCGGCCATCGGCCTGGCGTTGCTGGGCATGCCGTTCTGGTTGTTCCCCCAGGCCATCCTGCCGCTGTTCGTCAGCGATGCGCACCTGATCGAGCTGGGCACCTGGCCCTTGCGCCTGACCGGCCTCGGCATGGTCATCGACGCCACCGCGCTGGTGCTCACCCAGGCCCTGCTGGGCGCCGGCGCCAGCCGCACGGTGATGGCGGTCAGCCTGGGCAACCAGTGGCTGTTCTTCCTGCCGCTGGCCTATCTGGTCGGCCCGGTGCTGGGCCATGGGCTACTGGCGATCTGGAGTCTGCAAATCCTGCAGCGCGGCATGGCCTCGGCGGTGTTCGCGGTGATGTGGCAGCGCAGGGGTTGGACGCAAATCCGCCTGTAG	MLERQRLKHILSLGLPIIGGMLSQSLLNLIDAAMVGHLGEKALAGVGIGSYANFMAIALVMGLGAAVQAQVARRRGEGRTDEAAAPLNAGLVIALGIALPLTLLGWWQAETIIGLLSDDPEVVAIGIRYFEWRVLAIFAVGMNFSFRGYWNGSHQSGVYMRTLVIMHVANVAISYSLIHGLFGLPNMGAPGSGLGTSLALYLGSAIYGWQTWRIAQAKGFLRRRPSALDTRVMLRLALPNSLQQFFFAAGITALFWIIGQVGTAELAIAHVLINLALFLILPGIGLGMAATTLVSQSLGEKDAVAAHRWGWEVVKVAAIGLALLGMPFWLFPQAILPLFVSDAHLIELGTWPLRLTGLGMVIDATALVLTQALLGAGASRTVMAVSLGNQWLFFLPLAYLVGPVLGHGLLAIWSLQILQRGMASAVFAVMWQRRGWTQIRL	PGPT0029115_8179	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029115-TC_MATE|norM|mdtK|dinF-K03327	NA	NA
BMS010_10130	222			hypothetical protein	ATGAACGACCAATCCGAAGACCGCAAACCGCTGACGCTCTGGCAGATGCTGCACAGCGTGCTGGCCGCCGCCCTGGGCGTGCAGAGCGGCAAGAACCGCGCCCGCGATTTCACCCAGGGCAAGCCCAGTCACTTCATCATCCTGGGTGTGGTGTTCACGCTGCTGTTCGTGCTGACGATCTTTGGCGTGGTGAAGCTGGTGATCCACTTTGCCGGGATCTGA	MNDQSEDRKPLTLWQMLHSVLAAALGVQSGKNRARDFTQGKPSHFIILGVVFTLLFVLTIFGVVKLVIHFAGI				NA	NA	NA	NA	NA
BMS010_10131	1077			hypothetical protein	ATGCTCCTGCGTCTGTTCCTTTTTCTTTTCTGTCTGTTCGGCAGCCTGGCGGCGCATGCGACATCGGTGGTGTTTCTCAATCCCGGGCGGTCCACGGAAGTCTTCTGGGTCGGCTATACCCGGTTCATGCAGGCGGCTGCGGACGACCTGGGATTCGAACTGACCGTGCTCTACGGCGAGCGCGACACGCAGCGTACCCTGCAACAGGCGCGCGAAACGCTGGACGGTGAGGTGCTGCCGGATTACCTGCTGTTCGTCAACGAGGAGCATGCCGGGCCGGAAATCCTGCGCCTGGCTGTGGGTAAGCCGATCAAGTTGTTCTCCGTGAACAGCCATCTGACCGAAGAGCAGCAGCGTTACACCGGCAACACCCGGGAAAATCACCCCAACTGGATCGGCAGCATGGTGCCGAACGACGAAGAGGCCGGCTACCTGATGGCCAGGGAGCTGTTCGTCCAGGCCGAGCAGGGCACCTCTGGCGAGATAGAACTGATCGCGTTCGCCGGCAATCGCCAGACACCGGCGTCGCGGATACGGGAAGCCGGCCTGCAACGCGCGTTGGCCGAGCACCCGAGAGTGCGCTTGCGTCAGATGGTCTACGGCGAATGGAGCCGCCAGCGGGCCTATGAGCAGGCGCAACTGTTGTTGCCGCGCTATCCGCAGACCCGAGTGATCTGGGCGGCGAACGACGAAATGGCCTTCGGCGCGATGCAGGCACTGGAGGAGCGGCACAAGGTTCCCGGCAAGGACGTGCTGTTTTCCGCCCTGAATACTTCCCGCGAGGTGCTCCTGGCGCGCATCGATGGGCGTATCAGTGCGCTGGTCGGTGGGCATTTCACACTGGGCGGATGGGCGTTGGTGCTGCTGCGCGACTATGAATCCGGCCTGGATTTCGCTGCTCATGGCGGCAAGGACCGCCAGGTTCCGCTGTTCAGGTTGCTCGATGAGAAGCAATCCCGGCGCCTGATGCAGCGCCAGGAGCAGAAAGGCTTCGGCCTGGACTTCCGGAAGTTCACCCTGCAGGGCCGGCCTGGTGTGGAGGACTACCGGTTCTCCCTCGATGCACTGCTGGATTGA	MLLRLFLFLFCLFGSLAAHATSVVFLNPGRSTEVFWVGYTRFMQAAADDLGFELTVLYGERDTQRTLQQARETLDGEVLPDYLLFVNEEHAGPEILRLAVGKPIKLFSVNSHLTEEQQRYTGNTRENHPNWIGSMVPNDEEAGYLMARELFVQAEQGTSGEIELIAFAGNRQTPASRIREAGLQRALAEHPRVRLRQMVYGEWSRQRAYEQAQLLLPRYPQTRVIWAANDEMAFGAMQALEERHKVPGKDVLFSALNTSREVLLARIDGRISALVGGHFTLGGWALVLLRDYESGLDFAAHGGKDRQVPLFRLLDEKQSRRLMQRQEQKGFGLDFRKFTLQGRPGVEDYRFSLDALLD				NA	NA	NA	NA	NA
BMS010_10132	114			hypothetical protein	ATGACCGACCATTCCGAACATGAAAACCGCGACAGTATGGTGGATGCCTGGGCGATCCTGGCGCTGATCGCGATTGCCGTGGCAACGGCCGTCTTCTGGGTCAGCCATCAGTAA	MTDHSEHENRDSMVDAWAILALIAIAVATAVFWVSHQ				NA	NA	NA	NA	NA
BMS010_10133	1659	sir_2	COG0155	Sulfite reductase [ferredoxin]	ATGTACGTATACGACGAGTACGATCAACGGATCGTCGAGGACCGCGTCAAGCAGTTCCGCGATCAGACCCGCCGTTATCTGGCAGGCGAACTGACAGGCGAAGAGTTCCGTCCGCTGCGCCTGCAGAACGGCCTCTATATCCAGCGCTATGCCCCCATGCTGCGAATAGCGGTGCCTTATGGACTGCTCTCTTCCAAGCAGTTGCGCAAACTGGCGCAGATCGCTCGCGACTACGACAAGGGCTACGCCCATATCAGTACCCGCCAGAACGTACAGTTCAACTGGCCGGACCTGGAAGACGTGCCGGATATCCTCGCCGAACTGGCCACCGTGCAGATGCATGCGATCCAGACCAGCGGCAACTGCATTCGCAACACCACGACCGATCAGTTCGCCGGCGTAGCCCGTGACGAGCTGGTCGATCCGCGCCCCTGGTGCGAAATCATCCGCCAGTGGTCGACCTTCCACCCGGAATTCGCCCATCTGCCGCGCAAGTTCAAGATCGCGGTCAACGGCGCCGTGAGCGACCGGGCCGCTATCGAGGTGCACGACATCGGCCTGGAAGCGGTGAAGAATGCCGCGGGCGAACTGGGCTTCCGCGTTTCCGTCGGCGGCGGTCTCGGCCGGACACCGGTGGTCGGCAGTTTCATCAATGAATTCCTGCCCTGGCAGCACCTGCTGAGCTACCTGGACGCGATCCTGCGGGTCTACAACCGCTATGGCCGCCGCGACAACAAGTTCAAGGCGCGCATCAAGATCCTGGTCAAGGCACTGACGCCGGAAGTCTTCGCCGAGAAGGTCGAGGCCGAGTTCGTCCACCTGAAGGACGGCCCGACCACCCTGACCGAAGCCGAAGTGGAACGCGTGGCCAAGCACTTCATCGACCCGAACTACGAGTCGCTGGAGGACCAGGACGAGGCCCTCGCCCGTCTCGATGCCGAGCACCCGGGCTTCGCTCGTTGGCGCGCTCGCAACGTCGTGCTGCACAAGAAGCCGGGCTATGCCGCGGTCACGCTGTCGTTGAAACCCACCGGCATCGCGCCGGGCGACGTCACCGACAAGCAACTGGATGCCATCGCCGACCTGGCCGATCGCTACAGCTTCGGTGAAGTACGCAACAGCCATAACCAGAACATCATCCTGGCCGACGTGCGCCAGCGCGATCTGTTCGCGCTGTGGGGCGAGCTGCGCGAGCTGGGCTTCGCCACGCCGAACATCGGCCTGCTGACCGATATCATCTGCTGTCCGGGTGGCGATTTCTGCTCCCTGGCCAATGCCAAGTCGATTCCAATCGCCGAAGCCATCCAGCGCCGTTTCGACGATCTGGACTATCTGTTCGATCTGGGTGAGATCGACCTCAACATCTCCGGCTGCATGAACGCCTGCGGTCACCACCACGTCGGCCATATCGGCATCCTCGGGGTGGACAAGAAAGGCGAGGAGTTCTATCAGGTCTCCCTCGGCGGCAGCGCCAGTCGCGATGCCAGCCTCGGCCAGATCCTCGGCCCCTCCTTCGCCCAGGACGCCATGCCGGACGTGATCGAGAAAATCATCAATGTCTACGTGGAAAAACGCGCCGAAGACGAGCGCTTCATCGACACCTTCCGCCGTATCGGTATCGACCCCTTCAAGGAGCGCGTGTATGCAGCGAATCATTAA	MYVYDEYDQRIVEDRVKQFRDQTRRYLAGELTGEEFRPLRLQNGLYIQRYAPMLRIAVPYGLLSSKQLRKLAQIARDYDKGYAHISTRQNVQFNWPDLEDVPDILAELATVQMHAIQTSGNCIRNTTTDQFAGVARDELVDPRPWCEIIRQWSTFHPEFAHLPRKFKIAVNGAVSDRAAIEVHDIGLEAVKNAAGELGFRVSVGGGLGRTPVVGSFINEFLPWQHLLSYLDAILRVYNRYGRRDNKFKARIKILVKALTPEVFAEKVEAEFVHLKDGPTTLTEAEVERVAKHFIDPNYESLEDQDEALARLDAEHPGFARWRARNVVLHKKPGYAAVTLSLKPTGIAPGDVTDKQLDAIADLADRYSFGEVRNSHNQNIILADVRQRDLFALWGELRELGFATPNIGLLTDIICCPGGDFCSLANAKSIPIAEAIQRRFDDLDYLFDLGEIDLNISGCMNACGHHHVGHIGILGVDKKGEEFYQVSLGGSASRDASLGQILGPSFAQDAMPDVIEKIINVYVEKRAEDERFIDTFRRIGIDPFKERVYAANH	PGPT0002790_1946	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002790-cysI-K00381	NA	NA
BMS010_10134	498			hypothetical protein	ATGCAGCGAATCATTAAGAACGACCAGGTGATCGATGAAACCTGGCACCTGCTGCCCAAGGACGTGACGCTCGAAGGACTCTCCAACAGCGACGACCTGATCGTTCCGCTCGCCCTGTGGCGCGACCACGCCCACGCGCTGAAGGCCCGCGATGGCGGCCTCGGCGTATGGTTGGATAGCGACGAGGAAGTGGAAGAGATCGCCGATGACCTGCAGTATTTCCAGGTCGTGGCGCTGAACTTCCCGGTGTTCACCGATGGCCGCCACTTCTCCAGCGCCCGCCTGCTGCGCGAGCGCTACGGCTACAAGGGCGAAGTTCGTGCGATTGGCGACGTACTGCGCGACCAGTTGTTCTTCATGAAGCGCTGCGGGTTCGATGCCTACGCCATCCGCCCGGACCGCGATCCCTACGACGCCCTGCAGAGCCTGAGCGACTTCTCCGAGGTCTACCAGGCCGCCACCGACCAGCCGCTGCCGCTGTTCCGCCGCCGCGGTTGA	MQRIIKNDQVIDETWHLLPKDVTLEGLSNSDDLIVPLALWRDHAHALKARDGGLGVWLDSDEEVEEIADDLQYFQVVALNFPVFTDGRHFSSARLLRERYGYKGEVRAIGDVLRDQLFFMKRCGFDAYAIRPDRDPYDALQSLSDFSEVYQAATDQPLPLFRRRG	PGPT0002785_230	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002785-cysH-K00390	NA	NA
BMS010_10135	432			hypothetical protein	ATGAGCCTTGTAGATTTTATTAAAAATAATTATGAGATTTCGGATTCTGAGCAAGAGAACCTCCGCAAATTTGAAATTGAAACGACCAATGACTTTCAATATAAAAACAAGCACACAATAAAGAAAACCTCTGAAATATATATCCAAGAAATCACTATCCAAAAAGGAATTTCCGAAAAGTCAAACAAAATCATGCTTGGCTACAAGGAAGCCATAAAAAACTTGGAAGAGTTGGATACTGATGAAGCTGTGCTAATGCGCTTCATTGAAAATCCTTGTTGGGATGGAAGAGTGTTTTTCTCTGAAAAAAGTAATTATCTAGGTCTGATATTAGGAAAGAAAGTCAATCCTGAGTGGAAAACTCCACCAAACTGGGACGGATCGTTGGAAATGCTCGAACGATTCAATAATCGCCCCGAAAGTGACGATTAA	MSLVDFIKNNYEISDSEQENLRKFEIETTNDFQYKNKHTIKKTSEIYIQEITIQKGISEKSNKIMLGYKEAIKNLEELDTDEAVLMRFIENPCWDGRVFFSEKSNYLGLILGKKVNPEWKTPPNWDGSLEMLERFNNRPESDD				NA	NA	NA	NA	NA
BMS010_10136	366			hypothetical protein	ATGATATTGGATAGCGATAAATTTTCGATTGTGCACAACTGTCTTCTGGACTTTCTTGAGTTAGCATCCTCTGATCGTGGCACGTATATACATTATCTTCTTGAGTCGCTTTCCAATAAAGAGGGTGTGGCACTTGAATATTCGGGAGTTTATTTGGACGTCGATCCAGAAAATACTCCTGATGATCTTCAAGGAAGACCAGGGATTACCTTCTCGTTCATGGAAGACGCTGTCACCTTAAATACAAATGAGGGGATCGAATTAATTGTTGATTGGTGTAAGAAAAATACTAGAGAGCATGCGGGTGTGGACTGGGATAAATTGCTCTCTACCTGTAATAAGCTTGAAATAGTGTATGGTATCTAG	MILDSDKFSIVHNCLLDFLELASSDRGTYIHYLLESLSNKEGVALEYSGVYLDVDPENTPDDLQGRPGITFSFMEDAVTLNTNEGIELIVDWCKKNTREHAGVDWDKLLSTCNKLEIVYGI				NA	NA	NA	NA	NA
BMS010_10137	4818			hypothetical protein	ATGATCAGCTCGGTTCTCTACGGCTCGTTCATGCTTCACGGCTTGTCCGCGGAGAAGCCGGATGCAGGCAGCATCCTCGCGAACTTCAAGAAGAACAGCATGGAGCGCTACAAGGGGCTCGCCGATAGCCTGCTCACCGGCTGGGCGCTGGACGCCCAGCAGCAGTTCAGCATCGGCGAAGAGATCAAACTCAAGCGGGACAAGGACGACAACGGCAGAGTCCAGGCATATGCCACCTGCCCGGCCAATGCGCAGCTCAAGCTGCTGCACGCCTTCGACTCGGTCAACTTCGTCCCGATCGGCAATACGCCCTACGAAGCAGTGCAGGAAATCTCCCTCCTGGCCAGCCTGAGCGGCGAAAAGCCGCAGACGTTTTCCGGCGTCCTCGATGCCAACGGCATGGGCCAGATCAGCGGTTGCCTGCCAAACAGCCAGTACCGCATCCGCTTCTTCCCGAAGGTCGGCCAGGGCGAAATCGACGCACTCTACGCCTCCTACGACGGCGTGATCGACAAGCTCCACGGCTGGCTGCAGAGCGAGTGGAACGGCACCATCGCCGCCCAGTGGCGAGCGCTGGCGCCCGTCAACGATCCGCGCCGCCTCACCCAGATCAACGACGCCTTCATGAGCGGCATGGGCAAGGCCCTGATGTCGCTCTGGGATGACGTCAAGAAGCTGTTCCACATCCTCACCCACCTGGACGAGTACTACGACAAGCTGGTGCAGTTCATCTCCGAGGCCGACTTCCAGAAGCTCAAGGCCCAGGCCAAGGAGCTGATGCAACAGGTCCTGATGATCGTCAGTGACGAGCCGCTGATGTTCCTCTACGCCTCCGCCGTGGTCTGCTGGGTACAACTCCTGCCGCCCACCACCGTGGCGGAAATCATCGCCCAGTTCGCCACCGGGCTCTTGCTGGACATACTGCTCGGCATCGTGCTCACCGGCGGCGCGGGCCTGGCCGTGCGGCTCTCGGTCAAGGCGACCAAGGCCGTCGGCAACGGCGCGGCGGCGCTGCTCGAAAAAGCCCTGCAAACGCTGATCGACCTGAGCAAGAGCCACGCGCTGAGCGCCCATGCCGATGCGGTGAAGCCACTGGCGGCCCGGGGAGAAGTGCTGGTCAACAGCTCGAAGAAAGCGACCGTGCAGATCCAGAGCCCGGCCCAGGGCATCTCTCAGGTCGAACCCGACACGCTGGGCATCAAGCGGAGCAAGACGCAGAACACCCGGGTGAGCCAGGCCCCGCAGGTCGACGATGTTTCGACGACAGCGAAAACGCCCAACGACAAACCCGCCGACAGCGCCAAGAACACCTGCACCAACAACTGCCCGGTCTCCATGGTCACCGGCGAGGAACTACTCACCCTCACCGACGGCGAACTCGACGGCCTGCTGCCCTTCCCCTGGACCCGCCTCTACCGCACCAGCGCCGCCGAAATCGACAGCGGCCTGGGCTACGGTTGGAGCCACAGCCTGTCGCACCGTCTGGTGCAGGAAGACGACAGCCTCGTCTGGATCGACCACGAGAACCGCCGCACCGTCTTCCCGATCCCCAGCGCGCAGCGCCCGGCGATCACCAACCGGCTGTCGCGCGCGGCCATCTACCTGGGCGACGACCCGGCCGAGTTGATCCTCGCGGCAGCCGGCGACACACCGCGCTTCTACCACTTCCGCCGCGATACCGGCGGCGGCTACCTGATCGCCATCAGCGACGCCTACGGCAACCGCCTGGAGCTGAGCCGCGACCTGCTCGGCCGCATCCGCCGCCTGAGCAGTCCATCCAGCCGCGCCCTGCTGCTGCGCTACGAAGGCAAGCACCTCGCCGCGGTGGACTACCAGGTCTATCGCCCGGCCGATAACGAAGAAGCCTGCTGGCAGACCGTGCAGACCCTGGCGACCTACCGCTACAACGAAGCCGGCCAGTTGCTGGAGGCCGCCAACGCGCTGGGCGAAGCCGAGCGCTACCGCTACGACGCCCAGAACGTCATCCTCGAACGCCAACTGGCCGGCGGCGCGGCCTTCTACTGGGAGTGGCAGGGCGAAGGCAAGATGGCCCGCTGCGTGCGCCACTGGGCCAACTTCCAGCAGATGGAAGCGCGCTACCTGTGGGACGACCAGGGCGGCGTGACCGTGATCAACGCCGACGGCAGCGAGGAAGTCTACGTCCACGACGAGAACGCCCGGCTGGTCAAACAGATCGATCCGGACGGTGCCCAAACGCTCAAATCCTATGACGAGAAGGGCCAGCTCATCGCCGAGCAGGACCCGCTCGGCGCCCTCACCGAATACCGCTACGACGATGCCGGCCGCCTCACCGCGATCATCCCGGCCGAAGACGAGCCCACCGTCTTCGAATACCGTGACGGCTTCGTCAGCGCCGTCAGCCGGGGCCAGGCCACCTGGACATACCGGCGCAACGCCCAGGGCGACATCACCGCCCAGACCGACCCGCACGGCCATACCACCCGCTACGTCTACGACGCCCAGGGCCGCGTACGGGAAATCCACCACCCGGACGGCAGTTGCCACCAGCTCGCCTGGAACCCCCACGGCCAGCTCATCGAAGAGCAACTGCCCAACGGCGGCCAGCGGCGCTACCGCTACGACGCCCTCGGCCGGCAGATCACCCGCCAGGACGAGAACGGCGCCATCACCCAATACCAGTGGGACGCCGTCGGCCGGCTGGCCCAAGTCACCCTGCCCGGCGGCGCCACCCGCGCCTACAGCTACAACGCCTACGGCAAGGTCACCGCCGAGCGCGACGAACTCGGCCGCGTCACCCGCTACGAATACGCCGACGGCCTGCATCTGGTCAGCCGCCGCATCAACCCGGACGGCAGCCAGCTCCGCTACCGCTACGACAACGCCCGCCTGCTGCTCACCGAGATCGAGAACGAGCGCGGCGAACACTATCGCCTGGACTATTACCCCAACGGCCTGATCCAGCAGGAAACCGCCTTCGACGGGCGCACCACCGCCTACGCCTATGACCTCAAGGGTCGGCTGGTCGAGAAGAAGGAGTTCGGCGACGACGGCAGCGAGCTGGTCACCACCTACCAGCGCGACAGCGCCGGCCGCCTGCTGGTGAAGACCCTGCCGGACGGCGAGCAGGTCCACTACACCTACGACGGCCTCGGCCGGCTGGTCGGCGTCGACGACGGCCAGTGGCCGCTGGCCTACCGCTACGACCTGCAGGACCGCCTGATCGAGGAGCACCAGGGCTGGGCCACCCTGCGCTACGAGTACGACGCCCTCGGCCAGCTCAGCCATTGCCGCCTGCCCGACGGCAGCCGCCTGGATTACCGTCACCAGCCCGGTGGCGCCCTGGCCGCCATCCAGCTCAACGGCCAGCCGCTCACCGCCCACCAGTTCACCGCTGGCGGGCGCGAGCAGTTCCGCCAGCAGGGCGTGCTGCTCAGCGAATACCAGTACGACGAACAGGGCCGCCTGCTCGCCCACCGCGTGCACCAGGACGAACGCCGCCTGTTGCAACGCCAGTACCGCTACGATGCCAACGGCAACCTCGCCGGCATCGACGACTCGCGCAAGGGCAGCAAGCGCTTCCACTACGACCCGCTGGACCGCCTCGTCGCGGTGCGCGGCGACACCCCGGAAAGCTTCGTCCACGACCCCGCCGGCACCCTCCTGGCGCAGAGCGGCACCCCCAACTCCGGGCTGGCCAACGTCAAGGGCAACCGCCTGCTCATGCAGGGCGACCGCCACTTCGACTACGACGCCTTCGGCAACCTCATCCGCGAACGCCGCGGCGCCGGGCACAAGCTGGTCACCGAGTACCGCTACGACGCCCAGCACCGCCTGATCGGCGCCACCCTGCCGGACGGTCGCCAGGTGCACTACCGCTACGACGCCTTCGGTCGGCGCATCGCCAAGACCCTGGACGGCCGTACTACCGAGTTCCTCTGGCAGGGCGAACGCCTCATCGCCGAAAGCGCGCCGGGCCACTACCGCAGCTTCGTCTACGAACCCGGCACCTTCCGCCCCCTGGCCCTGCTCCAGGGCGAAGGCCCGCAGGCCCAGCCCTGCTACTACCAGCTCGACCACCTCGGCACCCCGCAGGAACTCACCAGCCCCGGCGGCGACATCCTCTGGTCCGTCAAATACCGCGCCTACGGCAACGTCGCCCAGGTGGAAATCGCCGACATCGACAACCCCCTGCGCTTCCAGGGCCAGTACTTCGACGCCGAAACCGGCCTGCACTACAACCGCCACCGCTACTACAATCCCAACACCGGCTGCTTCCTCACCCCCGACCCGATCAAACTCGCGGGTGGGTTGAACAACTACCAGTACGTGAACAATCCCACAGGGTGGGTTGATCCGTTGGGGTTGAATAATTGCCCGGGAACATTCGAAACCTATAAGGGAGTGGAGATCAGCCCTAACGCCAAAGACCACCTTGAAAAGGTTGATGGATATGATAAGGCTAAAGGAATAAAGGGTGGGCACAATAGAGACGAGTTTTTGCAAGGGGTGGGAGATGAGAACCTAATTATTATTTCTGAAACTCAAAGCCCTACAGCTCCGGGTATTTCAGAAATAAAATATGGTCGCAACAAGCTAGATAGAGAGGGAAATATAATTGGCATTAGGGAGTTCCCTCAACCTAAAACAGTATACGATCCGGCAGTATTATCTACGGAAGATATTTATCGACACGGAAGAGAAGCGGCAGTTAATGAGCATACCAATGCAGTTGCCGCAGGAAAAAGAATATATTCAGGCACCTCTGGCGAAATAAAATTTAGAATATATTTGGACGAACATAATCGTGTGAAGAGCTTTCATCCGAGTATGCAGTGA	MISSVLYGSFMLHGLSAEKPDAGSILANFKKNSMERYKGLADSLLTGWALDAQQQFSIGEEIKLKRDKDDNGRVQAYATCPANAQLKLLHAFDSVNFVPIGNTPYEAVQEISLLASLSGEKPQTFSGVLDANGMGQISGCLPNSQYRIRFFPKVGQGEIDALYASYDGVIDKLHGWLQSEWNGTIAAQWRALAPVNDPRRLTQINDAFMSGMGKALMSLWDDVKKLFHILTHLDEYYDKLVQFISEADFQKLKAQAKELMQQVLMIVSDEPLMFLYASAVVCWVQLLPPTTVAEIIAQFATGLLLDILLGIVLTGGAGLAVRLSVKATKAVGNGAAALLEKALQTLIDLSKSHALSAHADAVKPLAARGEVLVNSSKKATVQIQSPAQGISQVEPDTLGIKRSKTQNTRVSQAPQVDDVSTTAKTPNDKPADSAKNTCTNNCPVSMVTGEELLTLTDGELDGLLPFPWTRLYRTSAAEIDSGLGYGWSHSLSHRLVQEDDSLVWIDHENRRTVFPIPSAQRPAITNRLSRAAIYLGDDPAELILAAAGDTPRFYHFRRDTGGGYLIAISDAYGNRLELSRDLLGRIRRLSSPSSRALLLRYEGKHLAAVDYQVYRPADNEEACWQTVQTLATYRYNEAGQLLEAANALGEAERYRYDAQNVILERQLAGGAAFYWEWQGEGKMARCVRHWANFQQMEARYLWDDQGGVTVINADGSEEVYVHDENARLVKQIDPDGAQTLKSYDEKGQLIAEQDPLGALTEYRYDDAGRLTAIIPAEDEPTVFEYRDGFVSAVSRGQATWTYRRNAQGDITAQTDPHGHTTRYVYDAQGRVREIHHPDGSCHQLAWNPHGQLIEEQLPNGGQRRYRYDALGRQITRQDENGAITQYQWDAVGRLAQVTLPGGATRAYSYNAYGKVTAERDELGRVTRYEYADGLHLVSRRINPDGSQLRYRYDNARLLLTEIENERGEHYRLDYYPNGLIQQETAFDGRTTAYAYDLKGRLVEKKEFGDDGSELVTTYQRDSAGRLLVKTLPDGEQVHYTYDGLGRLVGVDDGQWPLAYRYDLQDRLIEEHQGWATLRYEYDALGQLSHCRLPDGSRLDYRHQPGGALAAIQLNGQPLTAHQFTAGGREQFRQQGVLLSEYQYDEQGRLLAHRVHQDERRLLQRQYRYDANGNLAGIDDSRKGSKRFHYDPLDRLVAVRGDTPESFVHDPAGTLLAQSGTPNSGLANVKGNRLLMQGDRHFDYDAFGNLIRERRGAGHKLVTEYRYDAQHRLIGATLPDGRQVHYRYDAFGRRIAKTLDGRTTEFLWQGERLIAESAPGHYRSFVYEPGTFRPLALLQGEGPQAQPCYYQLDHLGTPQELTSPGGDILWSVKYRAYGNVAQVEIADIDNPLRFQGQYFDAETGLHYNRHRYYNPNTGCFLTPDPIKLAGGLNNYQYVNNPTGWVDPLGLNNCPGTFETYKGVEISPNAKDHLEKVDGYDKAKGIKGGHNRDEFLQGVGDENLIIISETQSPTAPGISEIKYGRNKLDREGNIIGIREFPQPKTVYDPAVLSTEDIYRHGREAAVNEHTNAVAAGKRIYSGTSGEIKFRIYLDEHNRVKSFHPSMQ				NA	NA	NA	NA	NA
BMS010_10138	750			hypothetical protein	GTGTCTACACCTTCTGATGCCCTGACCCCACGCCAATGGCTGGCAGACCAGCCTCATGACGCCAGCCGCTACCTCTACGTGGTGCTGGGCAATACCAGCGACGCCGACCCGCTACCGGCCTACTACCGCCAGGCCGATGCCGCGCCCCTGCTGCCGATCTGGGAAGGCACGCCCTATGTCGGTTGGCAGGAAGTCATGCCCTTCCTCGGCGAACTCCGCGCCGACAGCCTCTTCCTCGACTGGGTCGAGCAACAGGCCGAGCGCGACTGGGGCTGGCTGGCGATCTCGCCCTACCCGGCGACCGTCGTCCGCGACTGGCTGCGCAGCCTGACCCAGGTGCGCATGCCCGACGGCAGCGAAGTGTTCTTCCGCTACTGGGACGGCCGCCACCTGGCCCCGATCCTCACTCACCTCGGCGGCACGGCGGGCGACCTGCTGCCGGTGTTCGAGCGCTACTGGATCAACGGCCGCGACCTGACCGTCGAGCTGCCCGTCCTCGGTGCCAGCCAGCCCTACCCCTGGTGGGACGTACCGCCGGACCTGCTCGCCAAGCTCAGCGCCGAGGACCCCGCACCGCTGGTGGACAACCTGATGCAGTGGCTGTGCGAGACCCATCCCGACCTGTATTTCGCCTTTCCCGAAACGAATCTGCGGCTGAAGACCGAACACTTCATGCGGCACGCCACGTACACGGAAGACACGCTTGCCGGGCTGTTCAAAGCCCACCTGGAAAAGGAATTGTCCCTATGA	MSTPSDALTPRQWLADQPHDASRYLYVVLGNTSDADPLPAYYRQADAAPLLPIWEGTPYVGWQEVMPFLGELRADSLFLDWVEQQAERDWGWLAISPYPATVVRDWLRSLTQVRMPDGSEVFFRYWDGRHLAPILTHLGGTAGDLLPVFERYWINGRDLTVELPVLGASQPYPWWDVPPDLLAKLSAEDPAPLVDNLMQWLCETHPDLYFAFPETNLRLKTEHFMRHATYTEDTLAGLFKAHLEKELSL				NA	NA	NA	NA	NA
BMS010_10139	1218	vgrG1_3	COG3501	Actin cross-linking toxin VgrG1	TTGACCGACCACCCCCGGGCCAACTGGAACGACCTCTGGCTGCTCACCGCTGTCCACCACCACGGCAAACAACCGCAAGTCCTGGAAGAGAGCATCACTGCCTCGAACCCACTCGGTTCGACTCCCTCGCCCCTCTGGGGAGAGGGTTGGGGTGAGGGGGCGGACTCCAGCCCGAACACCGATCCCAACTTCACCCAAGGCTACCGCAACCACTTCACCGCCACCCCCTGGGACGTCTTCTACCGTCCGCAACTGGATCACCCCAAGCCGCGCATCCTCGGCAGCCAGACCGCCGTCGTCACCGGCCCGGCCGGCGAGGAGATTCACTGCGATCAATACGGCCGCGTGAAGGTCCAGTTCCACTGGGACCGCCACGGCCAGACCGACGAACACACCAGCTGCTGGCTGCGCGTCTCCTCCAGTTGGGCCGGCGACCGCTACGGCGGCGTCGCCATCCCGCGCATCGGCATGGAAGTGCTGGTCACCTTCCTCGAAGCCGACCCGGACCAGCCCTTGATCACCGGCTGCCTGTTCCACAAGGAGCACGAGGTCCCCTACGACCTGCCGGCGAACAAGACGCGGACCGTCTTCAAGACCCTCAGCACGCCCGGTGGGGCCGGCTACAACGAGCTGCGCATCGAAGATAAAAAGGGCCAGGAGCAAATCTTCATCCACGCCCAGAAGGACTGGGATGAGAACATCGAGCACGACCAGACCATCCGCGTCGGCCACGAGCGCCACGATACGGTGGAAGCCAACAGCTACAGCGAATTCAAGGCCGAGGAACACCGCATCACCCACCTCGACCGCAAGACCGAACTCAAGGTCAACGACCACCTCACGGTCGGGCAGAACCAACACATCAAGATCGGCACCGGCCAGTTCCTCAAAGCCGGGCAGGAAATCCACCTGTCCAGCGGCGTCAAGGTGGTTCTGGAGGCTGGCTCGGAGCTGACCCTCAAGGGCGGCGGCAGTTGGCTCAAGCTCGACGGCAGCGGCGTCACCCTCACCGGCCCGACCATCAAGATGAACTCCGGTGGCAGCCCGGGCAAAGGCTCCGGTGCCAGCCCCGCCCTGCCCGGCCAATCGAAAGCCGCGGACAACGACAAAGCGGGCTACGTCCTGACGCTCCCGCAGATCCAGACCCTCAAACGCAACGCCCCCTTCTGCGAGGAGTGCGTGAAGTGCAAGGACGGCGCCTGTGTCTACACCTTCTGA	MTDHPRANWNDLWLLTAVHHHGKQPQVLEESITASNPLGSTPSPLWGEGWGEGADSSPNTDPNFTQGYRNHFTATPWDVFYRPQLDHPKPRILGSQTAVVTGPAGEEIHCDQYGRVKVQFHWDRHGQTDEHTSCWLRVSSSWAGDRYGGVAIPRIGMEVLVTFLEADPDQPLITGCLFHKEHEVPYDLPANKTRTVFKTLSTPGGAGYNELRIEDKKGQEQIFIHAQKDWDENIEHDQTIRVGHERHDTVEANSYSEFKAEEHRITHLDRKTELKVNDHLTVGQNQHIKIGTGQFLKAGQEIHLSSGVKVVLEAGSELTLKGGGSWLKLDGSGVTLTGPTIKMNSGGSPGKGSGASPALPGQSKAADNDKAGYVLTLPQIQTLKRNAPFCEECVKCKDGACVYTF	PGPT0030410_2998	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0030410-vgrG-K11904	NA	NA
BMS010_10140	663			hypothetical protein	ATGAACAATATCTTGGCTAGATCTGCGTTTTATCTTTTCGTTCCCGGCGGAATAGCCGCTTTTAGTGCAAAGCCGTGGCGCTCAGCTCTATCGCTACTAAGCATTTTTACGTTGATTCTGTTGTTCACAGCATCGCGTGCCGTCGCCTCATTTTCAGGGATCGCCCTACTAGGGTTTTGCATTCTGACTGTGCACTTACTAGACGTCATCTATGCGATCCAAAAGCCCGCGTGCCGCACGAAACCAAACATCTTTCGTCTTGCTCTTTCCGTTACGATTACCATCGGGATCGTTATATCGATCCTGTGCTACCGCGCACAAATCCTGGGGATCGACTTCTATTACATCCCTTCCAACTCAATGGCTCCCACCCTATTGCCAGGCGATATAGCTCTGGCAAACACATGGATATCCGAAGAAGAGATAAGCCCAGGTGACATCATTGTCTTCGAGCACCCCGACGCTAAAGGCTTTCTCCTTATTAAAAGAGTCATATCCAAAGACTCAAAATCCCTCATTGTTGCAGGTGACAACCGAACCAACAGCCTGGACAGTCGCACATTGGGAAGGATTGCCTTGCCCTTGGTAAAGGCCAAGGCTACCGATATCCTGCGTTCATTTAGCGTCCAGACACTTACTCAGCGAATACCAGACGAAAGTTGA	MNNILARSAFYLFVPGGIAAFSAKPWRSALSLLSIFTLILLFTASRAVASFSGIALLGFCILTVHLLDVIYAIQKPACRTKPNIFRLALSVTITIGIVISILCYRAQILGIDFYYIPSNSMAPTLLPGDIALANTWISEEEISPGDIIVFEHPDAKGFLLIKRVISKDSKSLIVAGDNRTNSLDSRTLGRIALPLVKAKATDILRSFSVQTLTQRIPDES				NA	NA	NA	NA	NA
BMS010_10141	1371			hypothetical protein	ATGAATGTTCCAGGCGGGAGCTACTTTGGAAAAGGTGATGCAATGATTTCTGTAAATAATGGCTATGGCTATATTTATTCTGGCTTCGGTTCTATGCTTGACTCATTTCCTGAGGGTGTGTTCATTAGTTCTTTTGACATGCTGTGGAAGCTTTCGGGCTCATCAGAGAGTGTGAGCTTGGCTCGAGAGGATGTGGTTTCTCTATATCGGAGAAAGAATGGACTGATTGGCCTTCGCTGTTCTTCAGATATTTTTTATCAGCTTTCTAATGAGCAACTTGAAGAAGTGATTCCGGATTCTTATGATAAGTTCGGATGTGGCAAGTTTAAGGATTTCTATCGGGAGTACGAAAGGGGGCGGTCTTCAAAGGTGGTACATAGACTTACTCGCTCTGATTCTTCTGTTGAGTATGAGTTTTCTGGGCAGGGACTGGCTTTTTTAGGTGATTGGTCAGATCTTTTTATTTTTCATCAGCGCGGGCGTGGTGTTGTTTTTTGGGAGAGAGGGGAATGGAAGCTTTTGTTTGCCCCAAGCCTTCAGGATATCCATTATGTTCGCTGCTTTGGTAAATACATTCTTTTGTTTGGTAGTGATCAGGTCGGCAGGGCCCAGTGTGAGGTCTTTGATCTAGGTAGTAGCGAGTTAATAGGTTGCTTTGTTTTTGACTATAGCGGTGGGGCCGTTTCAAATGCTTTGCTGCATGATGATGATTGGCACTTTCTGTGGGGAGGGGAGCTCTTTAGCTTTGATGGTCGCGTAATTAACAGAGTTCTTCCGAAAAGCTCTGTGGCCGGCTATTACGTAACGGAGCAAGGCATATGTATTCTGTCTGGCGATGAAGGGGTAATGCGCTTCTATGATCATGGCTTGAGGCATATTAAGGAGGAAGTAGTTGTTCCATTGTCGGGTTATGTATTTAGTTCTTTCATTTTAGCAGAAGATAGACTAGTAGGATATCTACGGGCAGCCAACCGTCAGGCCGGATTGTTTTACGCCGTGACCCTTCCGATTTGCGTTGATGGCTGTCCGTCGCTGGAATTGGAACAGGCGCTATATCAGATTGAGAAACACCCCCGGGGACAAGCCTTCGATCTGATAGTGCGCTTCTCAGAAGGAGTGGCTTTTCCTACATTGCTGCGCCAGACACTGGCGGTCCTTGATGACAGCTACAGCCTGCACCGTAATCCTGAGAGCAATCCCGAAGCGGCTCTCTTCAGCGGGAGGGTGGAATTGTATTTCATTGATCCTCTCACGGAGGAGCAGAAGAATTTGTTGCAGCACGGTTGCCAGCGACTGTGTGCCCTCTATCTCGGCCGTGAGGCTCCAGCTACAGGAGAGTCGTTCAACTTTCGTCTGGTATTCGCTGAGTAA	MNVPGGSYFGKGDAMISVNNGYGYIYSGFGSMLDSFPEGVFISSFDMLWKLSGSSESVSLAREDVVSLYRRKNGLIGLRCSSDIFYQLSNEQLEEVIPDSYDKFGCGKFKDFYREYERGRSSKVVHRLTRSDSSVEYEFSGQGLAFLGDWSDLFIFHQRGRGVVFWERGEWKLLFAPSLQDIHYVRCFGKYILLFGSDQVGRAQCEVFDLGSSELIGCFVFDYSGGAVSNALLHDDDWHFLWGGELFSFDGRVINRVLPKSSVAGYYVTEQGICILSGDEGVMRFYDHGLRHIKEEVVVPLSGYVFSSFILAEDRLVGYLRAANRQAGLFYAVTLPICVDGCPSLELEQALYQIEKHPRGQAFDLIVRFSEGVAFPTLLRQTLAVLDDSYSLHRNPESNPEAALFSGRVELYFIDPLTEEQKNLLQHGCQRLCALYLGREAPATGESFNFRLVFAE				NA	NA	NA	NA	NA
BMS010_10142	1332			hypothetical protein	ATGAAATATCAAGATAATGGTTTTGGATACATATGCCCATTTTCGGGGAGCATGGTTTACTTACAGGGTGGTCGAGCTTTCCTAGGTATTTTTGATATGTTTTTCGATCTCGCCGGCACGTCGGAGCGAGTGTGGCGTTTGAGTGGTGATGTGACCTTTGTTTATTTGAGAAGAACTGGAAGTGTGGGTGTTAGTTGTGGTTCAGAGTTTTTTTATGAGCTGGTTGATGACAGTGTGAGTTCCGTTCAGCCAGATGCATGGGACAAATTCGGTAATGGGCGCTGTGGTGAATATTTCTTGGAATATGATCCGACAGACTCCTCTCGGATAGTTAATCGGCTTATGGATGCTAGCGATTCGCTGATTGCTGAGTATATCGGCGGAGGTCTCAACCATTTGGGTGAGTGGAAAGGGCAATTATTATTCAAGGCGACTGGAGTGGGGGTTGTTGCATTAGGGACGGATGGTATTTGGCGGACGCTGTTTGTTCCTAGTATGTCTAGAGTGAAGTATGCAAATATTTTAGGTAATCATGTTTTGGTTTTTGGCAGTGGCTCTGGTCGTAAAGCATGCTGCGAAATTTTCGATCTGGTGACCCAGGGGGCTATTAGTACTTTCACATTTGATCACTATCCAGGGTATGTGTCAGATATTTATACATATGAGAAAGGCTGGTACTTCCGGTGGGGAGATAGACTCTTTCACTTTGACGGAAAAATTGTCGAGCAGGCATTGCCGGGACGTACCATTGGAGGGCTCTATCTTACTGCCCAGGGAGTGTGTATTTTTTTCGAAGATGAAGGTGTAATGCGTTTCTACGATCATGATTTAGAGCATATATATGATGAGGCGGTTATTCCATTGCCAGGATATTTTTTTAGCTCTCTTTACACAGATGAAGGAAAAATGGTCGGCTACTTGCGTGCTCCCGACCAAGGTAGGCGATTAAACTACGCTTTAACTCTGGCAATCCGTAACAATGGCTGCCCACATCTGGAACTAGAGCAACCACTCTTTCAGGTTGAGAAGCGTGAGCGTGGAGAGGTTTTCGACCTCTTGGTGAACTTCTCTGGAGAGGGGGCTTTCCCTACGCTGCTACGTCAATCAATGGCCGCTCTTGATGATGGATTCAATCAATACCGTGACCCTGAGATTAATCCTGATGCGGCCCGCTTCAGTGGGTGGATTGAGTTGCACTTCGGCGGTCCGCTTACCAATGAGGAGAAAGGTTTGTTGCAGCATGGTTGTCAACGGGTTTGTGAGTTGACACTCGGCCGTGAGGCCCCAACCACAGGAGAGTCGTTCAACTTTCGTCTGGTATTCGCTGAGTAA	MKYQDNGFGYICPFSGSMVYLQGGRAFLGIFDMFFDLAGTSERVWRLSGDVTFVYLRRTGSVGVSCGSEFFYELVDDSVSSVQPDAWDKFGNGRCGEYFLEYDPTDSSRIVNRLMDASDSLIAEYIGGGLNHLGEWKGQLLFKATGVGVVALGTDGIWRTLFVPSMSRVKYANILGNHVLVFGSGSGRKACCEIFDLVTQGAISTFTFDHYPGYVSDIYTYEKGWYFRWGDRLFHFDGKIVEQALPGRTIGGLYLTAQGVCIFFEDEGVMRFYDHDLEHIYDEAVIPLPGYFFSSLYTDEGKMVGYLRAPDQGRRLNYALTLAIRNNGCPHLELEQPLFQVEKRERGEVFDLLVNFSGEGAFPTLLRQSMAALDDGFNQYRDPEINPDAARFSGWIELHFGGPLTNEEKGLLQHGCQRVCELTLGREAPTTGESFNFRLVFAE				NA	NA	NA	NA	NA
BMS010_10143	4137			hypothetical protein	GTGAAAGTCCCGCTGCACGACGAAGAAGCCAGCGAACTGTCACGCCAGGCCTACCGCAAGGCAGAAAAGGACAACCCGGACCTGGAGCTGAAGAAACCCGAACCGCTGTACGCCTGGCAGTACCGGCCGGAGTTGCAGTTCAGTTTGTATGAGTTGAATGTTGAGCAGATTCGTCGAGAGTACGTCGATGGAGATACCAATGACGTTTTGAAAGATAAATCTCCAACGATTAGCGGAGGGGACAAGTATCTCGCATTCGTATACGACCTGATTTCGTCTGAGTTCGGCATGCTGGACACCTGGGACATCAAGGGGGAAAGAAATCTCCTGCTTGATCTGGGCGGGGCGGAGGTCAAAGTTGCAGTAGGCAGCGATCGAACAGTGCGTTTCGAAAATCTGGACTCCATAGCCGGCTTGGATGAGTCGGACTATCTGACGCTTAGGCTGTTCTCAAACAACGATATGGGGAACAGCCTATGGGAATTTGCCTTCGAGCAGCTATTCATGTTTCCCGAGCCCTCGTCTGCCGTACCGGTGGTCGAATTGTCAGCGGATGATGCAGCTGCAGTTCCGTATAGTGCGATTTATCCCATTGCTCCCGACACACCCACGGCGATGCGATGGGAGGCCATCAGTAATCTGCCGGTCAAGTTTGATCCCCCAAGCCAAGTGTCGATGAGTGGACGCTTTGTTACAAAAGCATCTCTACCTACCTTGGCGTCAAGTCTTGTGCAGGTATATGCCGTTGACCTGAGCAACGCGAAGAATAAGTTCTTTTCGCTGGTCTACCAGATTGTTCCTGGCTCGGCTAGCAATATGACCGTTTCCCAGTCGGGGAAGACGGCGATAACTGGGTTTGGTGAGGTAGTCGTCGAAATCGAAGTACGCGACAAATTCAATAATCTGGTGAAAGACGGAACCGCTATCAATATCGAAGCCCAAGATCTTGATATTAGTGGCGACTTCGAGACGCGGAGCGGCCGGGCCACGATAAGGGTTCGTGGCGGTTTTTCTCCAGGAAACCAGGACTTGAGTATATCCGTGGGCGAAGTCAATAAGACCGTCCCCATCATGGTCCATGATGTTTCGTTAAGTATCGATTTTCCATCGAAAGTAGAAATCGGGCAGACCGTGCCGGCAAAAATCACGGCTTCCAGTACCTATGGAAACCTGCAAGGCCTCGTGGTGGATGTCAGTGGTATTCGTGCTTCGCTTGGCGAGCGGCTGCGACCGCTGAATTCCGAGAACTCCGTGCTAGCTAATGTCTACGTAGGGAATTTCATTGGTGAAGGGCGAATCTTTGCCACGATTGCAGACAAGATAGTCCGCAAGGAATTCGAAGTAATCGACTCGTCTCCGGTGCAATTACTCGACCGCGTATTGGTTTCGGGTGTGCCGGGTAAGGGCGCTTTCGATGTCGAAGGAAGGCGGTACGAATACACCTCTCAGACGGCGGTTGTCGTGCGTGGTGCACCGGGCGAAAGGGTATCGGCTTCCCTGATCGACTATCTGGAGCCACCGCTTCTTCCAGAGCTTCATTACTCGTTCCAAGAACGGCCCGTTGAAGGGGCGTTGAAAGACGATGTTATAGGTGTGTCTGCCGTCGTAAAGAATGCTGAACGAGTCTCTGATCGTTTCAAGAAGCTGGCATATGCCTATTCGCTTAAATCGGATTCGACGATATCCATCGAATATGAGCGTATGGGCCAGATTCGGGACGTCGGGCTGGTGTTCAACTTGAAGGCGCATGGTTCGGGAGAGATCCTCGATTATCGACCTGCTGGCATCAAGGTGAGGTGGGACGGTTCATCGCAGCTTGAAGTAACTCGAAACATAGATACCGATTCACAGCAAGTAATTACCGCGCCGGTAGTTGGCGATGTCTGGCATCGAGTAGGCGTTCACTTGATCGAGGGGCAGTTGATCCTCCAAGTGGATGAAGCTGTTTATAAGAGTGGCGACATAGTTCCTTCAGTTGGGCTGACCGGCAGTCAGGAAGCCATTCTGGGCAATGGCATCGATGCTTTAGTCTCTGATCTTTCCTTCTATGATTGGGCATCTGAGAAGATCACAACCTTCGAAGGCGGAGAACTGGAGGCCAGCGCAGTCATCGATTCGAGCGGCAAGGCTGTTATTCGGCTTTCGGCCGCACCAACCAATTTATTTGCGAACGTCACCCTGCGGCGACTGGACTATTGGAAGAACAGAGGAGGAGCTTCCGGGCTTCTGCAGGTAGCTTATGCGGCGGGAGACGACTGTCAGCCAGTCAATCCTTCTACCCTTGACGAATTTGGTGCGGTCATGGGTGCCGGGGAGGCCTATGCTCGGTTCATGGCGGATTGCAAGATACTGCCGAAGATGAAGGAAGCGCTGGTCGTCATTCGGACCGAGCAGGGCGTATGGAAGCGTGGCCTTGCCATAGCCGAATTGGGTCTGCTGACCGGCCTGTACACCCAGACGAAACTGGTTGAGTTGCAGATGGTCCTGGGGCCCCAGTGCTTGAAAGGAGCCATCACAGGTGATGTTGAAAATATTGGTAGTGCAGTTTGCGACATCATTACGTCCTTTTTCCTGATTGGTGATATCAGGGACTTCGCATTGCACAGTAAATACATGTATTGGGATAACGATATGCAAAAGTTCGATTATCCCGTCTATGTATTCGCCGGGCTTGGGATCGCAGCGGATCTCGCCAGCTTGGCGGGCGTGGGTATTCCTGTGAATCTTGGTCTGGCAGGGGCAAAGGCGGGCGCTAAGACCATGAAAGGTCCATTCATGACAGCGCTTGCGAAGTATCTCGATAAAGAGATGGGGGGCGACCTCACCAACGTCGATAAGATTTTGCCTGCCATGAAGAAAGGACTGCCGTTGTTGCAAATTACTGCGGCGGTCATCCTTTATAAGGACGAAGCGGCAGAACTTTATAAGGCGCTGCGTGGTATTACTTCTGAAGATCTAGTAGGGATGATGAATTACGCTCGCTTTGCCTTGGCCAAGGCGGGAGTCACTTCGCTGGTCTGGGTAGACGAAGAAGGATATCTACAACAGGCCTATGCGCTCGATAAGGATGCACTGCTGAAACTGCTTGGGGGAAGCGAGGCAGGTGGGCGTGCTATTAAGAAAATGATTGATTCCATGAACAAGGCGCTCTATACGGCGGAGGGGGCTCCTGCTTATAGGAATAACAGGGACAATATTGCTCGGCTTTTTATAAGAGGTGTTAAAAAGTTTGGAGAGAATATTGACGAAATCTCGAATAATGAGCTTGCCAAGATCGTCTCGGAAGATAAATTTCTAACTGCGCTAATACTAGCCACCCATGTAGGTGAGAAGGCCGGGCGCTCAGGGCAGGATGTCGTCGATTCTATTCGACGTTTCCACTGTGTGCCTTCGGATTGCGGCTGGGGTAGTTCGACTACACTCGACTTTTTCTCTCTTTTTGACAAGATTGCGACTAAGCATGGTGACAAACTAACAAAGCATGAAGAAGCGCTTGGTAGTCTTAGCGAAATGATCCGCGATATGGGTAACGCCGGAAATGCTACCCAAGGCTTGAATAAAGCCAGAGGCGCAACCGAAGCGCTCATTCAGATGACCAAGATGATGGATGACGGTTGGGAGTTAGTTCGTGCGGAAGAACGCTTCTTAGATGGTTCCAATTTAACTCATGTTCATGATCTGGTTATGAAGATGGGTGATAAATACAAATACGTCGAGGTGAAAAATTGGAATCAATTGGAAAGTGGTCCATCGTTGGCGGTGTATCTTTGGTCATCGATGAAGGGAGCAGCAGATGCCAAGGATGGCAAGGCTGGGCAATTATTCGTAGATCTGAAGCGAGTTTTCTCTAAGGATCCCAATGATATTGACGTTCTGTGGATTTTCGGGAATCGCTCAGGAGATACCTCAAAAATTGCAGCTGACCTTGTAGAGCATGTAAAAGCGAAACCTGAGCGATTTTTAGCTATTTTGAAGGACGCGAATAATATGCCGCTATTTAATGAATTAGAGAGTTTGATAAAGAAAAGATCGAAGGCGGATATAGATGAGTTTGTAATGGCGGAGTTTGCTCCTGTCATAAAAGAGATCTTTAAGTCGGGTGCGACCTTGGCGAAGGCTTTAGAGGATGTTAAATGA	MKVPLHDEEASELSRQAYRKAEKDNPDLELKKPEPLYAWQYRPELQFSLYELNVEQIRREYVDGDTNDVLKDKSPTISGGDKYLAFVYDLISSEFGMLDTWDIKGERNLLLDLGGAEVKVAVGSDRTVRFENLDSIAGLDESDYLTLRLFSNNDMGNSLWEFAFEQLFMFPEPSSAVPVVELSADDAAAVPYSAIYPIAPDTPTAMRWEAISNLPVKFDPPSQVSMSGRFVTKASLPTLASSLVQVYAVDLSNAKNKFFSLVYQIVPGSASNMTVSQSGKTAITGFGEVVVEIEVRDKFNNLVKDGTAINIEAQDLDISGDFETRSGRATIRVRGGFSPGNQDLSISVGEVNKTVPIMVHDVSLSIDFPSKVEIGQTVPAKITASSTYGNLQGLVVDVSGIRASLGERLRPLNSENSVLANVYVGNFIGEGRIFATIADKIVRKEFEVIDSSPVQLLDRVLVSGVPGKGAFDVEGRRYEYTSQTAVVVRGAPGERVSASLIDYLEPPLLPELHYSFQERPVEGALKDDVIGVSAVVKNAERVSDRFKKLAYAYSLKSDSTISIEYERMGQIRDVGLVFNLKAHGSGEILDYRPAGIKVRWDGSSQLEVTRNIDTDSQQVITAPVVGDVWHRVGVHLIEGQLILQVDEAVYKSGDIVPSVGLTGSQEAILGNGIDALVSDLSFYDWASEKITTFEGGELEASAVIDSSGKAVIRLSAAPTNLFANVTLRRLDYWKNRGGASGLLQVAYAAGDDCQPVNPSTLDEFGAVMGAGEAYARFMADCKILPKMKEALVVIRTEQGVWKRGLAIAELGLLTGLYTQTKLVELQMVLGPQCLKGAITGDVENIGSAVCDIITSFFLIGDIRDFALHSKYMYWDNDMQKFDYPVYVFAGLGIAADLASLAGVGIPVNLGLAGAKAGAKTMKGPFMTALAKYLDKEMGGDLTNVDKILPAMKKGLPLLQITAAVILYKDEAAELYKALRGITSEDLVGMMNYARFALAKAGVTSLVWVDEEGYLQQAYALDKDALLKLLGGSEAGGRAIKKMIDSMNKALYTAEGAPAYRNNRDNIARLFIRGVKKFGENIDEISNNELAKIVSEDKFLTALILATHVGEKAGRSGQDVVDSIRRFHCVPSDCGWGSSTTLDFFSLFDKIATKHGDKLTKHEEALGSLSEMIRDMGNAGNATQGLNKARGATEALIQMTKMMDDGWELVRAEERFLDGSNLTHVHDLVMKMGDKYKYVEVKNWNQLESGPSLAVYLWSSMKGAADAKDGKAGQLFVDLKRVFSKDPNDIDVLWIFGNRSGDTSKIAADLVEHVKAKPERFLAILKDANNMPLFNELESLIKKRSKADIDEFVMAEFAPVIKEIFKSGATLAKALEDVK				NA	NA	NA	NA	NA
BMS010_10144	894			hypothetical protein	ATGAGCGAAACAAGCAAGGTCAACAACTGGAGCTTTCCCTTCAAGCCCAGCGCAGGCAGCCTCGACCCCATCCAGTGCCTTACCGCCATGGCAAAAGCGGGTAGCGGTTACTACCCCATTGGCAAGAATGGCCAGTGGCATGGCGGGGTGCACTTCGATAGCAAGACAGCCGCATCGTTCGATCAATCCCAGGTACGCTGCATCGCCGATGGCGAGGTGATCGCCTACCGGATCGACAGGCGCTACCCGCAGAGTCTCTACGTCAACGCATCGAGACAAAACGTAGCGGCTCCGTATTCGCGCTGCTTCGTACTGGTCAAGCATCGCCTGGAGGCCCCCGCGCTACCGGCCAACCCGGGTACCACACCGGTACCACCGCCTTCGCTGACCTTCTTCAGCCTGTACATGCATTTGCTGGACTGGGACGGCTACGGCAAAGCGGGCGCACCCACCGCTCCCGCGTTCATCGGGGAAACCCTCTACAAAGTGAAGGCAGGCAAAGCCACGGACCCGGTACGAGGGCTGCGCGTCAGAGAAGTGCCCCCTTCCGGCAGAGTGCTCGCCATCCTTCCCAAAGGCAGCAAGATCAAGGTGGGCGAGGTGCATAGCGCCGATCCAAGATGGCGCAAGCTGGTGGCCATCGTTCAAGGTCGCGCGCTTCCCGCCCTCGCCAGCCCGGTCCAAGGCTGGGTCTTCATCAAGGAAATGGAGCCAACGAGCGATGCGGACGTTTTTCTGGTCGGCGAAGATGCCAACGACCAGGAGCCAATGCTCGTGCCGGAGAAAGGCCTGAATGTGCGCAAAGCCGGAAACGGGCGCGCGCCCATCAGGGTGTTCTGCCAAGGGATGCCAAGTTCCGACTGGAGTCGGCGACGGGGCCCTACCGGAAGCTGA	MSETSKVNNWSFPFKPSAGSLDPIQCLTAMAKAGSGYYPIGKNGQWHGGVHFDSKTAASFDQSQVRCIADGEVIAYRIDRRYPQSLYVNASRQNVAAPYSRCFVLVKHRLEAPALPANPGTTPVPPPSLTFFSLYMHLLDWDGYGKAGAPTAPAFIGETLYKVKAGKATDPVRGLRVREVPPSGRVLAILPKGSKIKVGEVHSADPRWRKLVAIVQGRALPALASPVQGWVFIKEMEPTSDADVFLVGEDANDQEPMLVPEKGLNVRKAGNGRAPIRVFCQGMPSSDWSRRRGPTGS				NA	NA	NA	NA	NA
BMS010_10145	1779			hypothetical protein	GTGCAGAACATCCAGGGCTTCGTGCACTTCGACTCCCTGGAAGCAACCCGCTCGGAACCGGTACTCGACCGTGTGCATGTGCTGCCCACGCCGTTTCCGGTCAAGGCAGGCGACGTGATCGGCCATCTCGGCCAATATCAGAATCACGATGACGGAAGCCCCCAGTCGCTTCTCCACCTGGAAGTGTTCAGTTGCGAGGATGTGCCCGCTTTCATCGCCAGAAGCAGGGCCTGGGCAGCCCAATTGCCCGACCAACAGAAAACCTTGCTGAAGGTCTACAAGGGGGCCAGCAAGCTCATTCCCCATCGCGAAGGCATCAACGCGAACAACCCACCCAAGACCAGCGACGCCGGTACGGCCGTAGGCTTCGATCTGATCATCCCGCAAAGCCTGCTGGACAGCCTCCCGGCGGACCGCAAGCTGCAAGTCAGCACCACCGTACCCGGCAGCACGACCCCACAAGTGACGCGCTGGTGGCGCTTGGACAATCTGCTCGCGGACAGCAGCGGCAACCCCATCAGCGGCTGGCTCGCGGAGCAGGAGCCCATCACCACGCGGCATAGCCCCTGGGAATGGCCGGGCTACGACTTCATCAAGGAAACCGGCCGCCCCATCGGCAAGGTCGCCTACCTCTACGACGCCCTGCGCCGCCTGACGGACGAAGAACGAGCGAACTACCGCGCCCTGGTCAGCCAGGAAGACCAAGGCCCGGTAAAGGCCCGGCTGTACGACATCATCGACAGCAACCGCGACAACAAACTCACCGCCACCGAAATACGCGCTGCCCTGAAAAAACCGTGGCACGCCCAATCCATCGCCCAACTGGTCACCCACTACGAAAGCGAATGGTTCTGGAAGGCCGATAAATGGGATGAACTCGATCCGTTGATGGGCCATATTCCTTTCGTCGACCCGAACCCCAACTGGGAGAGCGAAAAGGAACGTATTGAGAAGTTGAGTTGGTGGGGAAGCTTGGCGGGCAAGCAAGGGATCAGTGCGGATGGGAAGGCTTGGCATTTTCAGCCGCTGGGAATAATTGCATTTCAGAAGAAAGGCAACCAAATTAGTATCACGCCGGGCATGCTCAAGAAAGTTTTCGAAGGGCTACACGAAACATCGGATAAAGATGATCTTCTAATAGAAATCTCAAGCCAGATAAATGAAAATGCTGAGCGCTATAAATTAAATACTCCTCTTAGATTGAGCCATTTTTTCGCTCAGGTTAGACAGGAGATAGGAAATACCTGCAATACCTTGGAAACCGACTTCACCTATAGTTCAGCCAACCTAAAAAAACTGTTTAGCTATTTCTCTAAAAATCATGCAGAGGCAGATCTTTATGGGTATAAAGATGTCAAATATGTATCACCAGAAAATCAGATAGCGATTGCCAATAGGGCTTATGCCAATAGGAATGGCAATGGAAATGTAGTCTCTGGTGATGGTTGGAAATATAGAGGCCGTGGACTTAAACATCTCACCGGGCGTTCTGACTATAAAAATTTCGAGTTATTCCATAAAGACTTCTGGGGAGAAGAACAAAATTTCGTGGACAACCCTGACCTTCTATCTGAACAAAATATCTATGCTGTTCGGGCAGGAGTTTACTTTTGGCTGTCACACAAGCTCTATGAATATGCTGACAAAGGGAGTACAGGAAGCCAAGTTGATGATGTGACCAGTGTGATAAATCGGCACACGAACGCAGACAGCTATAAAGCGAGACGGTATTTTTTCGAAAGGATATTCCATGTTGAGAAAGTTTTTGACGGCATTTAG	MQNIQGFVHFDSLEATRSEPVLDRVHVLPTPFPVKAGDVIGHLGQYQNHDDGSPQSLLHLEVFSCEDVPAFIARSRAWAAQLPDQQKTLLKVYKGASKLIPHREGINANNPPKTSDAGTAVGFDLIIPQSLLDSLPADRKLQVSTTVPGSTTPQVTRWWRLDNLLADSSGNPISGWLAEQEPITTRHSPWEWPGYDFIKETGRPIGKVAYLYDALRRLTDEERANYRALVSQEDQGPVKARLYDIIDSNRDNKLTATEIRAALKKPWHAQSIAQLVTHYESEWFWKADKWDELDPLMGHIPFVDPNPNWESEKERIEKLSWWGSLAGKQGISADGKAWHFQPLGIIAFQKKGNQISITPGMLKKVFEGLHETSDKDDLLIEISSQINENAERYKLNTPLRLSHFFAQVRQEIGNTCNTLETDFTYSSANLKKLFSYFSKNHAEADLYGYKDVKYVSPENQIAIANRAYANRNGNGNVVSGDGWKYRGRGLKHLTGRSDYKNFELFHKDFWGEEQNFVDNPDLLSEQNIYAVRAGVYFWLSHKLYEYADKGSTGSQVDDVTSVINRHTNADSYKARRYFFERIFHVEKVFDGI				NA	NA	NA	NA	NA
BMS010_10146	768			hypothetical protein	ATGTTGAGAAAGTTTTTGACGGCATTTAGTGCCTTTATCAGCGTTCTTTTATTTTCCACACATACATACGGGGCAGGCTGGTATGATGTTAAAAATTATATAGGACACATCGGAGCATATCCGATCCATATTTCCTTGCAGCGTTACGAAGGCTTTGGAAGCGGTATAGAATTTGAAGGCAGCTATTACTATGACAATCAACTAAAACCCATACCAATATACGGCAGGCATAATAAGCATGGCGACATAGAGCTGTGCGAAATTCATACAGTCGATGAGTTCAATTCAGTATTGACGCATGGATCGAAAGATGTATTCGATACAGATAATTGTCAGTTCGCGCTGACGTTTAATGAGCAAGGCGCTAAGGGCATATGGCGTAAAAATAAAAAAAAATATCCTGTTCAACTAAACTTGGTTGGAAGCCTTAATAATACAGATGGCGATATTTTGAATGGAATTATGGAAATACCTTTTTGGGGCCAGACCCATAAACATAGCTTTATAGGGACATATGAATCTTCCAACCTCGGCATAGAGATTCTGAGAATAGACATTATAAACAAAGACTCAAAGAAAGTTGTTCAGCAATTAAACCCGCAAGATAACTGCGATTTTGGATTTACAATGACGCCTATTTATATGAATGTGGATGGGTTTTACTCTTTAGATGGCGAGCTAGTAAATTTAAACTGTCAAAACTCTATAGGCGGAGATTATGCCACGTATGTATTTGATGAAAAATTAGGACGATTTATCTTGAAGTAA	MLRKFLTAFSAFISVLLFSTHTYGAGWYDVKNYIGHIGAYPIHISLQRYEGFGSGIEFEGSYYYDNQLKPIPIYGRHNKHGDIELCEIHTVDEFNSVLTHGSKDVFDTDNCQFALTFNEQGAKGIWRKNKKKYPVQLNLVGSLNNTDGDILNGIMEIPFWGQTHKHSFIGTYESSNLGIEILRIDIINKDSKKVVQQLNPQDNCDFGFTMTPIYMNVDGFYSLDGELVNLNCQNSIGGDYATYVFDEKLGRFILK				NA	NA	NA	NA	NA
BMS010_10147	828			hypothetical protein	ATGAAATCGACAGTTAGAACTTTATTGGCTCTCATATTGCTGGCGTTCACCAGTGCCGTCCTGGCTCATACACCCATCAATCTATACGAGTCAAAATTAGGAATTATTGGCCTGTCAAATGATGGTAAGGAATATGCGCTAATCGCAATTACCGGCGGTCAACCAGATGGGGCTGCCACGGCAGGAGACTGTGTAATTACAGCGAAACTTACGGAAAGCGATAACAAACTAACAGGATTACTTACTCCTTTCAAAAGCTCTTTTTTCAGCTACGAAAAAAATCCATTAGAAAGCAAATCAATTACACTAGAACGTAAAGACAATGCAATAATATTGAAAGACGTTGATACTTTAGGAATATGTGGTCTCGGCGCTACATTCGTAGACATCTACTATCCATCGCGCCCAGAAACACCTCAATATAGGGAAAACTATGTAGAACTATTAAATTTAGCTCACGAAATAGCCAAGAATCGATATAAGAATAAAGACACTCTTGGCGCCATAGAAACCATGAAGCCATATGCGGAAAATCTTCCTTTGGAATGGCTAAATAAGACTTCGGAGGGAGAGGGACTTTCAGAATTTATTAACAATTATGCTTTCTTCTTACAGAAAACTGGGCAACCAGAGGCTGCTATTACCACGCTTAAAGAATTAGTAAAAGTAAAGCCGGACCGCACTGTGGCCTGGCTGAATCTTGCCGATGCTTACTGGGATGCCGAACAATATTCCAACGCACGTAATTGCTATGAAAAATATAAGAAAATGATGAAAGCGAGTAACCGAGAGGCCAGCATCCCTAAACGGGTCAATGAACGCATATAA	MKSTVRTLLALILLAFTSAVLAHTPINLYESKLGIIGLSNDGKEYALIAITGGQPDGAATAGDCVITAKLTESDNKLTGLLTPFKSSFFSYEKNPLESKSITLERKDNAIILKDVDTLGICGLGATFVDIYYPSRPETPQYRENYVELLNLAHEIAKNRYKNKDTLGAIETMKPYAENLPLEWLNKTSEGEGLSEFINNYAFFLQKTGQPEAAITTLKELVKVKPDRTVAWLNLADAYWDAEQYSNARNCYEKYKKMMKASNREASIPKRVNERI				NA	NA	NA	NA	NA
BMS010_10148	237			hypothetical protein	ATGCTGAATGACGGAATGAATCATACATACTACAAAGTGAGAAACTATATATCTAAAAAATTCTACAATTACAACACAGGAAAGCTAGAGCAAGACCTAGTCGCCGAGGCGAGCAAAAATAAAGAGTGGCTAAAATATGCAGAGAGCAGTTGCAGTCTCAACAAGATATTATTCGAAGAAGAAGAAAGGCACTGCCTTGCCAGACTAGCACTTTTTGACCAGCCACAGACAAAATAG	MLNDGMNHTYYKVRNYISKKFYNYNTGKLEQDLVAEASKNKEWLKYAESSCSLNKILFEEEERHCLARLALFDQPQTK				NA	NA	NA	NA	NA
BMS010_10149	1257			hypothetical protein	GTGATCATCAGGGCAAGCCACAATATTGTCGATCTCTCTTATGAGACCAATGGCAACGAGCCGGAATATCGCAATCACTTCGAGGCGGTCCCCGCCCGTGTGCCGCTGACGCCGCACCGGTCAACAAAGCGCCCGCGCATCGAAGGGACGCAGGTGGCGATCGTCGCCGGACCTGAAGGCGAAGAAATCCATCCTGACCAATATGGCCGCATCAAGCTGTGGTTCCCGTGGGACCGCAAGGCGAAGAAGGATGGCACGGATACGTGCTGGGTTCGTGTCAGCCAGGCATGGGGCGGCGGCACTTGGGGTGCGCAGGTTATCCCGCGCATCGGCATGGAAGTGATGGTCGCCTTTGTCGATGGAGACCCGGATAAGCCGCTGGTCATCGGCGTGGTCAACAATCCGGCCAATTCCGTGCCTTACGACCTTCCGGCCAACAAGACGCGTATGGTGCTGCGCTCCAACAGCCACAAGGGCGACGGTTTCAACGAAATCACCTTCGAGGATGAGGCCGGCAAGGAGAACCAGTTCTTCCACGCCCAGAAGGACCAGACGACGCGGGTTCTGAATGACCGGACCAAGCGCATCGACCGGCATGAGGTCGCCTCGGTTGGCGGCAACCGCGCGGTGGAAGTTTCCGGCAACCAGAAACACGAGATCGGCGGCTCGGTAAACACCGTCGTCGGCGGAACGGGGCCGATGGCGATGATGGCCATGGCGGGCGTACAGGCGCTCTCCGGGCAGACGGCGGGGCTGCTTTCGCAGGCTGCCCAGATCGCCGGCGGCGGTGGCCCCGGTGTCGCGGCCTTCGCCACCACGCTTGCCTCATCCGCACTCGGCTTCCTCGGCGCAGGCGGTCTTTCCTCGCGTGAGGGGGTCGTTTCCGGCCCGAGCCCGCGCGCGGATGCGGGTACGGCGCTAGCCGGCTCCGGCTCGGGCGTCGGTTCCGATGCTTCGGGATTGTTTCCGCTGCCGGGCATCATGAACACGATCGTCGGGGCGTTCAAATCCGATAGCGTCGGTGTGGCGCGGGCAGAACAGATCGGGGTCAGCAAGGTTACGAATGTAGGCCAGACGTCGCTGGAGAGCGTCGGAAAGTTCAAGAAGATTGCAGTCGGTGAAGAGTTCGTCATCGAATGCGGCGATTCCAAATTCATCATGAAGGCGAATGGCGAGGTCATCATTCTTGGCAAGACCTTCAATTTCGTGGCGACGGATCATTTTCAGCTTCGCGGCAAGCCGATCGATCTGAACTGA	MIIRASHNIVDLSYETNGNEPEYRNHFEAVPARVPLTPHRSTKRPRIEGTQVAIVAGPEGEEIHPDQYGRIKLWFPWDRKAKKDGTDTCWVRVSQAWGGGTWGAQVIPRIGMEVMVAFVDGDPDKPLVIGVVNNPANSVPYDLPANKTRMVLRSNSHKGDGFNEITFEDEAGKENQFFHAQKDQTTRVLNDRTKRIDRHEVASVGGNRAVEVSGNQKHEIGGSVNTVVGGTGPMAMMAMAGVQALSGQTAGLLSQAAQIAGGGGPGVAAFATTLASSALGFLGAGGLSSREGVVSGPSPRADAGTALAGSGSGVGSDASGLFPLPGIMNTIVGAFKSDSVGVARAEQIGVSKVTNVGQTSLESVGKFKKIAVGEEFVIECGDSKFIMKANGEVIILGKTFNFVATDHFQLRGKPIDLN	PGPT0030410_2326	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0030410-vgrG-K11904	NA	NA
BMS010_10150	1116			hypothetical protein	TTGGAACTTCAGAACCGCCTGCCGTTTCCCGCCATGGCTTTCCGTCAGTTCGATGCCGAAGGAGGGCTCGATTGTATCGTCTCCGTGCGTGCAACATTCACGCATGCTCAGGGCGGTTCGCTGGATGTCGCAGCCGAGCAGGAAAGTTTCCAGTGGGAGGATGCCTATGAGGGCGATCCGCACCAGACCGTCCTCCTGCGCCAAAGCGACCTTACCCCGGACAAGCCCGGCACGGATATAACATTTCTCGGGAATGCGTGGTCTGCGAGTGGCGAGCCGGAGAAATCCTGGCGTGCCTCCATCCGCGTTGGTGGAATTTTCAAGGAAATCGAGGTTTTCGGCAAACGCTTCTGGCAACCTGTCGTTAAGGAGAAATGGGCAGGTTTTACCGCCAGGGAAGCCAAACGTGTGGTAGCGGATTGGAAACTGAGCGATCCTGAACCTGCTAGAAGCGTGGCCATATGCTGGCGCAACGCTTATGGCGGCGCGATCCCTGGCACAGGTGACGCGGGGACGGAAACACCGATTGACGTGGAGCGCCGAAATCCGCTTGGGTGCGGCATCGTCAATCTTGAGATGCCTGCCGACGCCGGGCCTGTTCCAGCTCCGCAGATCGCTGCCGTTGGTGAGCATTCCGATTGGCGGAGCACGCCGGAACCGCAGGGATTTGGACTCGTTTCGCCTTGGTGGCAGTTCCGTCAGCAATATTCCGGAACTTATGACGACGGTCGGCGGGAGGAGAGGCACCCCCTCTTGCCGCGTGATTTTGATCCACGCTTCTGGCAGGCGGCCCATCCTGATCTCATCGCGACGCCTCACCTCAAGGGTGACGAGAACTACGAGCTCGTTAATCTGAGTTCTCAGCATCCGGTCGCGAAAGGCTCGTTGCCTGGCCTTACCCTCGGTGTCCATTGCTCTCGCGAAGATCGCGACGAATGGCATGTGCTGAAGCTCGATGGCGTGCAATTCGACTGGCGCAATGACGGACGGGTGCTTCTGACCTGGCGCATCAGGTTTCCTCTTCCCGATGCCGGTGAAACAAAACTTACCCTGACGCGCGTTCGTCTGAAGTCTCCCGAAACCGAAGCGGCTCTGACCGAGAGGGAGACAGCATGA	MELQNRLPFPAMAFRQFDAEGGLDCIVSVRATFTHAQGGSLDVAAEQESFQWEDAYEGDPHQTVLLRQSDLTPDKPGTDITFLGNAWSASGEPEKSWRASIRVGGIFKEIEVFGKRFWQPVVKEKWAGFTAREAKRVVADWKLSDPEPARSVAICWRNAYGGAIPGTGDAGTETPIDVERRNPLGCGIVNLEMPADAGPVPAPQIAAVGEHSDWRSTPEPQGFGLVSPWWQFRQQYSGTYDDGRREERHPLLPRDFDPRFWQAAHPDLIATPHLKGDENYELVNLSSQHPVAKGSLPGLTLGVHCSREDRDEWHVLKLDGVQFDWRNDGRVLLTWRIRFPLPDAGETKLTLTRVRLKSPETEAALTERETA				NA	NA	NA	NA	NA
BMS010_10151	1443			hypothetical protein	ATGAGCATCCCCCGCGACAATTATATCGGAGAGCCCCAATATCCCGGCACATGGACCACGGCGACACCGCGTGAGGGACTGCGTGACATCGATGAGGCGCGTATCGTCTCTTTGGCGCCTGATGTATGCCTGACACCGGTTGGCTCGTCGGTGGTGCCTATTCCCTATCCGGTCGTGGATTTTTGCGGCCATGATAAAAACTACACGCCGTCTGTTCGGTTCACCGGCAAAAAGGCAATGGTGATGCGTTCGTGTACGACACATGTGCACGGCGACGCGCCCGGTAACCGTAAGGGGGTAAAATCCGGCACGGTGGAAAGCATCTGCGAACCCATCGGGCACGCTGATCAGGTGCGTGCCGAAGGCTCGCATGTCATTCGCCACCTCGATCGTTTTTATATGAACAGCAGGAATACCCAGGGTGAGGCGATCTTCGTCCGCAGCACGCAGACCTATGAGCCTCCCAAGGACGATGATCCGGTGCGGGGATCGCTCCGATGGCAGGACGGGTCGGACGAAGGCCGGGTTATGAGCGATGCTTCACCTGAGCCGTTGATCATGGGTGCGCAGTATGCGCAGGCTCAGACCGCTACCATTCCTCAAAGCGGTGGTGTTGCAAGGCGTGGAACATATGGTCGGCCAACAACTACGGTTGACCCACGGCTGTTAAAGGGTCTTCGCTTCTGGTCGTCTGCCAGAGGAGCCGCCGAGATCATGGATATGGTCCAGCAAATCAGCGAGGATCGTGCGGTTCAGGATTCGGCGGGGCAACTCGGATTAAATCTGAGCGATCCGACCGACGTTCTGGTTGCAAGAGCCCACGCTTGGTCAAAATATCATATTGATGCTTCCCCGTTTTACTGGGACTTCCCCAATTCGCAGGTTGGTCGAGACGCAGCAACCAAGGCCATAACGTCCATGGAGGCTGCCGCGCCTGGAACCTTGGGCGAAGCGCTGCAAGGAGATAGAACGCAACTTGAAAAATTGCGCACAGCAATAAAAAACGCGGTCAGCGCGGCAACAGCAGCGGCATCAGTTCGTGTGTCCGGACAGCCCTGTGCCCGCGAGGCGCTAGGAGCTCCTGGCAAATATAGAGGGGGCGCTCATTTTGCGACGGCCCTCCCACTTGGCGACAATTTAGATAGCCATCATACTCCTGCTAACTCTGCCTCCTATTTGCCCACGTGGGCAGGTCCAGCCATTCAAATGCTTCCAGAAGACCATCGAGCTACACTCTCATATGGAAGAAAGGTAACAAGCCCCTATATTTCCACACAAGCTCGTTTGATAAACTCCGGTCAATTTATGAAAGCCATTAATATGGATATTCTCGATATCAAGCGTATCGCTATGTTACGTGGTGATCCGACACGCTACGACGCTGCCATAGCTCAGATGATGGCATATGCAGAGTGCCTTAAACGCGAAGGAATCATAAAGTGA	MSIPRDNYIGEPQYPGTWTTATPREGLRDIDEARIVSLAPDVCLTPVGSSVVPIPYPVVDFCGHDKNYTPSVRFTGKKAMVMRSCTTHVHGDAPGNRKGVKSGTVESICEPIGHADQVRAEGSHVIRHLDRFYMNSRNTQGEAIFVRSTQTYEPPKDDDPVRGSLRWQDGSDEGRVMSDASPEPLIMGAQYAQAQTATIPQSGGVARRGTYGRPTTTVDPRLLKGLRFWSSARGAAEIMDMVQQISEDRAVQDSAGQLGLNLSDPTDVLVARAHAWSKYHIDASPFYWDFPNSQVGRDAATKAITSMEAAAPGTLGEALQGDRTQLEKLRTAIKNAVSAATAAASVRVSGQPCAREALGAPGKYRGGAHFATALPLGDNLDSHHTPANSASYLPTWAGPAIQMLPEDHRATLSYGRKVTSPYISTQARLINSGQFMKAINMDILDIKRIAMLRGDPTRYDAAIAQMMAYAECLKREGIIK				NA	NA	NA	NA	NA
BMS010_10152	579			hypothetical protein	GTGACAGACAAGTCGGGAGCGTGGGAAGTTTTACTGGGAGAAGGCATCGGTCCGCTGAGGCTTGGTACATCTAAAGAAGTGATTTCGAAAATGGAGGGATTTGCTGAACCCGAACTCGTGCAGGATGAGTCAGTGGCAGTTTCGGACTTTGAGAAACTGCTAAACTCGATGGGGCCTGAGATGGGTCTCGATCCCGAGGAATTTAAAGAGATGATTGCGGCGATGCAGTCTGAAGCTGCGGCAGAGGTTCGGTGGATTCCCCAAACCAAAAGCCTGCCAGTTGTTTTTTTTCACGGAGATATCCTTATTCGTATCGTTTTGTCAGCTGAGTGCCGTCCAAAACTTGAAGGGCGAAATATTTTCGAGATGCCTGCCAAAGAATTTTATGAACTGGTGATTGCCAGGTCGCAATCCGTCTTCAGGAAACGTAATGAAATAGTCGCGCCCGACATCTCCATGCGCTTCACACTTCCCAAGAAGTCCGATTTCGAGGACGGAAGACCTATTGAACTGCTCGTTTTAGAGAAAAATAGGACGGAGGAGTTGATCGCTGACGGATATAAGCAATTGCCGATCTGA	MTDKSGAWEVLLGEGIGPLRLGTSKEVISKMEGFAEPELVQDESVAVSDFEKLLNSMGPEMGLDPEEFKEMIAAMQSEAAAEVRWIPQTKSLPVVFFHGDILIRIVLSAECRPKLEGRNIFEMPAKEFYELVIARSQSVFRKRNEIVAPDISMRFTLPKKSDFEDGRPIELLVLEKNRTEELIADGYKQLPI				NA	NA	NA	NA	NA
BMS010_10153	738			hypothetical protein	ATGGACGACGACGATTTCGAAGAGTTGCACGGCAAATGGGAGCCGACACTCTGTCACGCCGCCATGGCCGACAACGACAGCCAGTTCGCAGTTCTCGTAGGCGGGCCGCGGTCGGACGATCCTTATAGTATCATTCTAGTGCGGGACGCCGTTGAACAAACATTCTCGCGGTCGGATGTTCGCAGGGAGTTGCGCGATATCCGCGTGATACCGTCGTTGAAATACGATGCAGTGCCTTCCTATGTCACGATCAGCCTGCAGGGCGACATTTATGTTGTCGGTCCAGACGGTTCGCAGCATTTCATCATCCCCGGAACTCCAGCCGAATCCGAGATCGCGTCCGAAATCGATTTCCGCTCCATTCTTCCTTACGACAATCGTTGGCTCGTGGCAGGCAGCGGCAACTTCTTGAAGCTCGGAAAGGGCGAGAGTTGGGAGGAGGTGTCGCCGTCGCTTACAACTGAATATCCTTACTCGGAGACTGAATGGGCCATTCTCGGAGAGAACATCAAGGGTGATATCTTTATCGTTGCGATCCAAAGACCGAACCAACGGTACTTCAACCTTTACCCGGGCCATCCCCTATATCGGAGTGACATGGCGGGAGACGAACGCTTCAAACTGAAAAAAAGGTTGAGAGCTCAAAAGGGTACCCATCCGGTTCTAACTACACTTTACACAGGAGCACCCGGCAACTGGAAGCGTCAAGAATTGCCTGAACGGATTGCCAGGACTTGA	MDDDDFEELHGKWEPTLCHAAMADNDSQFAVLVGGPRSDDPYSIILVRDAVEQTFSRSDVRRELRDIRVIPSLKYDAVPSYVTISLQGDIYVVGPDGSQHFIIPGTPAESEIASEIDFRSILPYDNRWLVAGSGNFLKLGKGESWEEVSPSLTTEYPYSETEWAILGENIKGDIFIVAIQRPNQRYFNLYPGHPLYRSDMAGDERFKLKKRLRAQKGTHPVLTTLYTGAPGNWKRQELPERIART				NA	NA	NA	NA	NA
BMS010_10163	768	fabG_10		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGTCCAAGACCCAACTGTTCGACCTCGACGGCAAGATCGCTTTCGTCTCCGGCGCCAGCCGCGGCATCGGCGAAGCCATCGCCAGACTGCTGGCCCAGCAAGGCGCCCACGTGATCGTCTCCAGCCGCAAGATCGAAGGCTGCCAGGCTGTCGCCGACGCCATCGTTGCCGAGGGTGGCAAGGCCACCGCGGTGGCCTGCCACATCGGCGAGATGGAGCAGATCCAGCAGGTCTTCGCGCAGATTCGCGAGCAGTTCGACCGTCTCGACATTCTGGTCAACAACGCCGCCACCAACCCGCAGTTCTGCAACGTGCTGGACACTGACCTGGGGGCTTTCCAGAAGACCGTGGACGTGAACATTCGCGGCTATTTCTTCATGTCCGTCGAGGCCGGCAAGCTGATGCGCGAGCACGGCGGCGGCAGCATCATCAACGTGGCCTCCATCAATGGCGTGTCGCCGGGCGAATTCCAGGGCATCTACTCGGTGACCAAAGCCGCAGTGATCAACATGACCAAAGTGTTCGCCAAGGAATGCGCGCAGTTCGGCATCCGCTGCAACGCCCTGCTGCCGGGCCTGACCGACACCAAGTTCGCCTCTGCCCTGGTGAAGAACGACAGCATCCGCAACATGGCGCTGCAGCGCATCCCGCTCAAGCGCGTAGCCGACCCGAGCGAAATGGCCGGCGCCGTGCTCTACCTCGCCAGCGAAGCCTCCAGCTACACCACCGGCGTCGCCCTGAACGTGGATGGCGGGTTCCTCTCGTAA	MSKTQLFDLDGKIAFVSGASRGIGEAIARLLAQQGAHVIVSSRKIEGCQAVADAIVAEGGKATAVACHIGEMEQIQQVFAQIREQFDRLDILVNNAATNPQFCNVLDTDLGAFQKTVDVNIRGYFFMSVEAGKLMREHGGGSIINVASINGVSPGEFQGIYSVTKAAVINMTKVFAKECAQFGIRCNALLPGLTDTKFASALVKNDSIRNMALQRIPLKRVADPSEMAGAVLYLASEASSYTTGVALNVDGGFLS	PGPT0003180_8901	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0003180-ymfI|fabG|efpI-K00059	NA	NA
BMS010_10164	1068			hypothetical protein	ATGACGCTTGCAGATCAGACCACCCGTATCCGCGAAGGCGAAGAGCTCGACGCGAATGCCATTGATCGGTACCTCAAGGCCCATATCCCGGGCCTGGAAGGCACGCCCCGCATCAGCCAGTTCCCAGGTGGAGCCTCCAACCTGACCTACCTGCTGGAATACTCCGGCCGCGAACTGGTCCTGCGTCGCCCACCGTTCGGCCACAAGGCCAAGTCTGCCCATGACATGGGCCGCGAGTTCCGCATCCTCAACCAACTCAACGCCGGCTTCCCCTACTGCCCGAAAGCCTATGTGCACTGCACCGACGAATCGGTGATCGGGGCTGAGTTCTACGTGATGGAACGGGTCAACGGCATCATCCTGCGCGCCGACCTGCCGAAGGAACTCAACTTCGATGCCGACCAAACCCGCGCCCTGTGCAAGAGCTTCATCGACAAGTTCGTCGAGCTGCACAATGTCGATTACAACGCCTGCGGCCTGGGCGACCTGGGCAAGCCGGAAGGCTATGTGCAGCGCCAAATCGCCGGCTGGAGCGATCGCTACGAGAAGGCCATGACCCCTGATGCCCCCGCCTGGGAGCCGGTCAAGGCCTGGCTGAAGGAAAAGATGCCCGCCGATCACCACAAGCCCGGCATCGTCCATAACGACTACCGCTTCGATAACGTCATCCTCGATCCGCACAACCCGATGCAGATCATCGGGGTGCTCGACTGGGAGATGACCACCATCGGCGATCCGCTGATGGACCTGGGCAACACTCTGGCCTACTGGATCGAGGCCGCCGACCCGGCCCCCATGCAACTGATGCGGCGCCAGCCGAGCAACGCCCCCGGCATGCTGACCCGCCAGGAGTTCGTCGACTATTACGCCGAGCGCGCCGGTATCGAGATCAAGAGCTTCGACTTCTACTACACCTACGGCCTGTTCCGCCTGGCCGGCATCGTGCAGCAGATCTACTACCGCTACTTCCACGGCCAGACCCAGGACAAACGCTTCGCGCAGTTCGTTCACATGAACAAGCTGCTGGAAAGTATGTCGCTGCAGGTCATCGACAAATCGACGCTGTAA	MTLADQTTRIREGEELDANAIDRYLKAHIPGLEGTPRISQFPGGASNLTYLLEYSGRELVLRRPPFGHKAKSAHDMGREFRILNQLNAGFPYCPKAYVHCTDESVIGAEFYVMERVNGIILRADLPKELNFDADQTRALCKSFIDKFVELHNVDYNACGLGDLGKPEGYVQRQIAGWSDRYEKAMTPDAPAWEPVKAWLKEKMPADHHKPGIVHNDYRFDNVILDPHNPMQIIGVLDWEMTTIGDPLMDLGNTLAYWIEAADPAPMQLMRRQPSNAPGMLTRQEFVDYYAERAGIEIKSFDFYYTYGLFRLAGIVQQIYYRYFHGQTQDKRFAQFVHMNKLLESMSLQVIDKSTL				NA	NA	NA	NA	NA
BMS010_10165	315			hypothetical protein	ATGACCACCGTTGCTGACATCGTCCAAAACATGAAATCCAAGTTCAACGCCGGTGCCGCTGCTGGCCTGGACCTGGTATTCCAATTCAACATCGAAGACGGCGAGAACCACTACCTGGTGGTCAAGGACGGTACCTGCGACGTCCACCAGGGCGACGCTCCGAACCCGAACGTCACCCTGATCATGGACAGCGAGACCCTGAAAGGCATCACCAGCGGCGAAACCGACGGCATGCAAGCCTTCATGGCCGGCAAGCTGCGCGCCGAAGGCGACATGATGCTGGCGATGAAGCTCGGCGAGCTGTTCCCGGTCTAA	MTTVADIVQNMKSKFNAGAAAGLDLVFQFNIEDGENHYLVVKDGTCDVHQGDAPNPNVTLIMDSETLKGITSGETDGMQAFMAGKLRAEGDMMLAMKLGELFPV				NA	NA	NA	NA	NA
BMS010_10166	711			hypothetical protein	GTGGGCAGCATCTACCTGATTCGACATGGCCAGGCCTCGTTCGGTGCCGACGACTATGACGTGCTGTCCCCCCTCGGCATCCGCCAGGCCGAAATACTCGGCCGCCACCTCGCCGAACTGGGTATCCGTTTCGATCGCTGCCTGAGCGGCGACCTGCGCCGCCAGCAGCACACCGGCCAGGGCGTGATCGGCCAGCTTCGCGAAGCCGGTCATTCCATCCCCGATATCGAAGTCGACTCCGCCTTCAACGAGTTCGAAGCCGACGAGGTGATCCGCGCCCATCTGCCCGACCTCCTGAGCCTGGAACCCGACGCCCTGCATATCCTGCAGAACGCGGCACATCACCGCGCTGAATTCCAGCGCCTGTTCTCCCTGATCATCAGCCGCTGGGTTTCCGGCGAGCACGAAAAGGACGGCCTGGAAAGCTGGCAGTCCTTCCGTGAGCGCGTGGAAGGTGGCCTGGCCCGGATTCTGGCGCAGGCCGAGAAGAAAGACCGGATCGCCATCTTCACCTCCGGCGGCACCATCACCGCCCTGCTCCAATCGATCATCGGCGTGCCCGCGATCAAGGCATTCGAGCTCAACTGGCAGATCGTCAACACCTCGCTGAGCCTGCTGAAGTTCCGCGGCAACGAGGTGACCCTGGCTTCCTTCAACAGTCATGTGCACCTGGAGCTGTTGAAGGCCCCGGAACTCATCACTTTCCGCTGA	MGSIYLIRHGQASFGADDYDVLSPLGIRQAEILGRHLAELGIRFDRCLSGDLRRQQHTGQGVIGQLREAGHSIPDIEVDSAFNEFEADEVIRAHLPDLLSLEPDALHILQNAAHHRAEFQRLFSLIISRWVSGEHEKDGLESWQSFRERVEGGLARILAQAEKKDRIAIFTSGGTITALLQSIIGVPAIKAFELNWQIVNTSLSLLKFRGNEVTLASFNSHVHLELLKAPELITFR				NA	NA	NA	NA	NA
BMS010_10167	1026	sohB	COG0616	putative protease SohB	GTGGAGTTCTTTTCCGAATATGCGGGTTTTCTGGCCAGGACGGTGACCCTGGTGGTCGCCATCCTGGTGATCCTGGCGGCGTTCGCTGCCTTGCGCAGCAGGCACCGCAGCAAAGGTGCCGGCCACCTGGACGTGAGCAAGCTGAACGATTTCTACAAAGGCTTGCGCGAGCGCCTCGAGCAGAGTGTGTTGGACAAGGATCGCCTCAAAGCGGCGCGCAAGGCCGAAGCCAAGGCGGCCAAGCAGGCGAAGAAATCCGGCGAGCACAAGCCACGGGTTTTCGTACTGGATTTCGACGGCGACCTGCGTGCCTCGGCGGTGGAAAACCTGCGCCATGAGGTCACGGCCTTGCTGACCATGGCCACTCCCCAGGATGAAGTGGTGCTACGCCTGGAAAGCGGCGGCGGAATGGTCCACGGCTACGGATTGGCTGCGTCGCAACTGGTGCGTATCCGCCAGGCCGGCGTGCCTCTCACGGTCTGCGTCGACAAGGTGGCGGCCAGCGGCGGCTACATGATGGCCTGCATCGGCGAAAAGATTCTCAGCGCCCCCTTTGCCATCCTGGGGTCCATCGGTGTGGTGGCCCAGTTGCCGAACGTGCACCGCTTGTTGAAGAAGCACGATATCGATTTCGAAGTGCTGACGGCGGGCGAATACAAGCGCACCCTGACCGTCTTCGGCGAGAACACCGAGAAGGGGCGGGAGAAGTTCCAGGAAGACCTGGAAACCACCCACGAGCTATTCAAGAACTTCGTGGCTCGCTACCGCCCACAACTGGCCATCGACGAAATCGCTACCGGCGAGATCTGGCTGGGCCAAGCGGCACTGGGCAAGCAACTGGTCGACGAATTGAAGACCAGCGACGAATACCTGGCCGAGCGTGCGCGCGATGCCGAGTTGTTCCAGCTTCACTTCGTGGAGAAGAAGAGCCTGCAGGAGCGTGTCGGGCTGGCTGCGAGCGTCGTGCTGGACCGGGTCGTCCTGACCTGGTGGAGCCGACTCAACCAACAACGTTTCTGGCAATAG	MEFFSEYAGFLARTVTLVVAILVILAAFAALRSRHRSKGAGHLDVSKLNDFYKGLRERLEQSVLDKDRLKAARKAEAKAAKQAKKSGEHKPRVFVLDFDGDLRASAVENLRHEVTALLTMATPQDEVVLRLESGGGMVHGYGLAASQLVRIRQAGVPLTVCVDKVAASGGYMMACIGEKILSAPFAILGSIGVVAQLPNVHRLLKKHDIDFEVLTAGEYKRTLTVFGENTEKGREKFQEDLETTHELFKNFVARYRPQLAIDEIATGEIWLGQAALGKQLVDELKTSDEYLAERARDAELFQLHFVEKKSLQERVGLAASVVLDRVVLTWWSRLNQQRFWQ				NA	NA	NA	NA	NA
BMS010_10168	993	yhfP	COG0604	Putative quinone oxidoreductase YhfP	ATGAGCAAGTTCAAGGCACTGCTGGTCAGCGAAGGCGCGGATGGTACCTTCGAGCAGCGCGTGGTCGAGCGCGACACCACCGACCTGCCGGCCGGCGACGTGCTGATCCGCGTTCAGTATTCCTCGTTGAATTACAAGGACGCCCTGTCCGCCAGCGGCAGTCGCGCGGTGACTCGGCGCTATCCGCACACACCGGGCATCGATGCGGCCGGGGTGGTGGCCGAGTCCAGTGTCGGCGAGTTCGCCACCGGCGATGAGGTCATCGTCACCGGCTATGACCTGGGCATGAACACCGCCGGTGGGTTCGGCCAATACATCCGCGTCCCGGCGGGCTGGGTGATCAAGCGTCCGAAAGGACTCAGCCTGCGTGAATCCATGCTGCTGGGGACCGCCGGCCTCACCGCCGCGCTCTGTGTCGACAAGCTGGAGCAGGCGGGCCTCAACCCGGCGGCCGGTCCGGTGCTGGTCACCGGGGCGACCGGGGGCGTCGGCAGCATCGCGGTGTCGTTGCTGGCCAGCCTGGGCTACGACGTGGCCGCATCGACCGGTAAGGAAGAGCAGGGCGATTTCCTCCGCGAACTGGGCGCCCGCCAGGTCGTGCCGCGCAGCGCACTGCAGGAGGGAACGGAGAAGCCCCTGCTCAAGGAGCAATGGGCCGGTGCGGTGGACACGGTGGGCGGGGAAATTTTGTTCAACGTGGTCAAATCGTTGCAGCGCGGCGCGAGTGCCGCCTGCTGTGGCCTGACCGCCGGCGCGAATTTCCAGGCCAGCGTGCTGCCGTTCATCCTGCGGGGTGTGAACTTGCTGGGCGTCGATTCGGTGGAGCTGCCACTGGTGGTCAAGGCTTCCATGTGGGATCGGCTGTCCGTGCAGTGGAAGCTGAACGACCTGGAGCGGCTCGTCCATGAGGTCGGTCTGGACGATCTTCCCCAGGCGATCGAGCGGATACTGGCCGGCAAGCTGGTGGGCCGGGTGCTGGTCAACCTCGGTTGA	MSKFKALLVSEGADGTFEQRVVERDTTDLPAGDVLIRVQYSSLNYKDALSASGSRAVTRRYPHTPGIDAAGVVAESSVGEFATGDEVIVTGYDLGMNTAGGFGQYIRVPAGWVIKRPKGLSLRESMLLGTAGLTAALCVDKLEQAGLNPAAGPVLVTGATGGVGSIAVSLLASLGYDVAASTGKEEQGDFLRELGARQVVPRSALQEGTEKPLLKEQWAGAVDTVGGEILFNVVKSLQRGASAACCGLTAGANFQASVLPFILRGVNLLGVDSVELPLVVKASMWDRLSVQWKLNDLERLVHEVGLDDLPQAIERILAGKLVGRVLVNLG	PGPT0002275_771	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PROPIONIC_ACID_BIOSYNTHESIS,PGPT0002275-acuI|yhdH-K19745	NA	NA
BMS010_10169	675	rnt	COG0847	Ribonuclease T	GTGAGCGAAGACCTGTACGACGAAGAACTCGACGGCAGCCTCCCCCCCGGCCCCCGTCACCCCATGGCGCGCCGCTTCCGCGGCTACCTGCCGGTCGTGGTGGACGTGGAATGCGGCGGCTTCAATCCAGCCACCGATGCGTTGCTGGAAATCGCCGCAGTCACCATCGGCATCGACGAGAAGGGCTTCCTCTTCCCCGAGCACACCCACTTCTTCCGTGTCGAACCGTTCGAAGGCGCCAACATCGAGGCCGCCGCGCTGGAGTTCACCGGCATCAAGCTGGATCACCCGCTGCGCATGGCCGTGGCCGAAGAGCATGCGCTGCATGAAATCTTCCGCAGCGTGCGCAAGGCGGTGAAAGCCAACGGTTGCAAGCGCGCCATCCTGGTCGGCCACAACAGCAACTTCGACCTGGCGTTCCTGAATGCCGCGGTGACCCGCACCGGCATCAAGCGCAACCCCTTCCACCCCTTCTCCAGCTTCGACACCGCCACCCTGGCCGGCCTCGCCTATGGCCAGACCGTGCTGGCCAAAGCTTGCCAGGCTGCCGGTATCGAGTTCGACGGCCGTGAAGCCCACTCGGCGCGCTACGACACCGAGAAGACCGCCGACCTGTTCTGCGGCATCGTCAACCGCTGGAAGGAGCTCGGCGGCTGGCAGGACTTCGACGACTGA	MSEDLYDEELDGSLPPGPRHPMARRFRGYLPVVVDVECGGFNPATDALLEIAAVTIGIDEKGFLFPEHTHFFRVEPFEGANIEAAALEFTGIKLDHPLRMAVAEEHALHEIFRSVRKAVKANGCKRAILVGHNSNFDLAFLNAAVTRTGIKRNPFHPFSSFDTATLAGLAYGQTVLAKACQAAGIEFDGREAHSARYDTEKTADLFCGIVNRWKELGGWQDFDD				NA	NA	NA	NA	NA
BMS010_10170	1047	pyrC_3	COG0418	Dihydroorotase	ATGTCCGACCGCCTGACCCTGCTGCGTCCCGACGACTGGCATATCCACCTGCGCGACGGCGCCGCCCTGACCCAGACTGTCGCCGATGTCGCGCGGACCTTCGGCCGTGCCATCATCATGCCTAACCTGGTGCCGCCGGTCCGCAATGCCGAACAAGCCGACGCCTACCGCCATCGCATCCTCGCCGCCCGCCCCGCCGGCAGTCGCTTCGAGCCGCTGATGGTGCTCTACCTCACCGACCGCACCACGCCTGCGGAAATCCGCGAGGCCAAGGCCAGCGGTTTCGTGCATGCCGCCAAGCTCTACCCGGCCGGCGCCACCACCAACTCGGACTCCGGCGTCACCCGTATCGACAACATCTTCGCGGCGCTGGAAGCCATGGCCGAAGTCGGCCTGCCGCTGCTGGTGCACGGTGAAGTCACGCGCAGCGAAGTGGACGTGTTCGACCGCGAGAAGATGTTCATCGACGAGCACCTGACCCGCGTGGTGGAGCGCTTCCCGACCCTCAAAGTGGTGTTCGAACACATCACCACCGGCGATGCGGTGCAGTTCGTCCAGGGCTCTTCCAGCAACGTGGGCGCCACCATCACCGCCCATCACCTGCTCTACAACCGCAACCATATGCTGGTGGGCGGTATTCGTCCGCATTTCTATTGCCTGCCGATCCTCAAGCGCAACGTGCACCAGGAAGCCCTGCTGGACGCCGCCACCAGCGGCAGCCCGAAATTCTTCCTCGGCACCGACTCCGCGCCCCATGCCCGCCATGCCAAGGAAGCCGCCTGCGGTTGCGCCGGCTGCTACACCGCCTATGCCGCCATCGAGCTGTACGCGGAAGCCTTCGAGCAGCGCAATGCCCTGGGCAAGCTGGAAGCCTTCGCCAGCCACCATGGCCCCGATTTCTATGGTTTGCCACGGAACAGCGAGCAGATCACGCTGGTCCGTGAAGAATGGACGGCGCCGGCGAGCCTGCCGTTCGGCGAGCAGACCGTCGTTCCGCTGCGCGCCGGTGAAACACTGCGCTGGCGCCTGCTGGAGAATCCTGCGTGA	MSDRLTLLRPDDWHIHLRDGAALTQTVADVARTFGRAIIMPNLVPPVRNAEQADAYRHRILAARPAGSRFEPLMVLYLTDRTTPAEIREAKASGFVHAAKLYPAGATTNSDSGVTRIDNIFAALEAMAEVGLPLLVHGEVTRSEVDVFDREKMFIDEHLTRVVERFPTLKVVFEHITTGDAVQFVQGSSSNVGATITAHHLLYNRNHMLVGGIRPHFYCLPILKRNVHQEALLDAATSGSPKFFLGTDSAPHARHAKEAACGCAGCYTAYAAIELYAEAFEQRNALGKLEAFASHHGPDFYGLPRNSEQITLVREEWTAPASLPFGEQTVVPLRAGETLRWRLLENPA	PGPT0021145_6777	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021145-pyrC-K01465	NA	NA
BMS010_10171	894	pal_11		Peptidoglycan-associated lipoprotein	GTGCGCCTGCGCTATTTCGCCCTGATCAGCCTGTTCGCCAGCCTGCCGGCCACGGCCATCACCTTTCAGACGCGCCTGGAAAAGGTGGAGTGGAAGGTGGAGGGCGATCAATTCGAATGCCGCCTGGCGCAGCCGGTCACCCGTTTCGGCAGCGGCGAGTTCGTCCGCCGTGCCGGCGAGCAGGCGACCTTCCGCCTCAAGGCCGGCGAGCGCTGGATGGGCCCCGGTTCCGCGACCCTGCTGGCGGCTGCCGCACCCTGGCAGCCGGGGCGCGGGGACATTTCGCTCGGCGTGGTCAGCGTCGGTAGCGGCGAGATTCCGTTCAACAGCTCCCAGCAACAGGCGGCCCGTCTGCTCAGCGGTTTGCTCGAAGGACGCAGCCCAGTCGTGCGCCATCGCACGCTGCAGGGCGGCGAGGCGTTGGAAGTGCGTCTGCTTCCGGCCAAATTCGAGCAGGCCTATAACGATTACCTGGCTTGCACGGCGAAGCTGCTGCCGGTGAACTTCGACCAGATCAAACAGGCGCAGATCGGTTTTCCCAGCGGCGGAACTGCCCTGGACGACCTGGGACGGGCCAAGCTGGACATCATCCTGCAATTCCTCAAGGCGGACCCCAGTGTCAACCGCATTCTCCTCGACGGCCACTCGGACAACAGCGGCAACCGGCTGACCAACCGCGATTTGTCGCGGCGACGGGCATTGGCGGTGCAGGAATACCTCCAGGCCAACGGCGTGCCGGCCGAGCAGATCACCCTGCGCTTCCATGGCGAGCGCTACCCGCTGGCACCGAACACCAACGAAGCCAACCGGGCGAAGAACCGTCGGGTGACTTTGCGTCTGGAGCGCGAGGCCCAATCCGTGGCTCCTGCGGCGGCACCGGGCGAGGCTTCCTGA	MRLRYFALISLFASLPATAITFQTRLEKVEWKVEGDQFECRLAQPVTRFGSGEFVRRAGEQATFRLKAGERWMGPGSATLLAAAAPWQPGRGDISLGVVSVGSGEIPFNSSQQQAARLLSGLLEGRSPVVRHRTLQGGEALEVRLLPAKFEQAYNDYLACTAKLLPVNFDQIKQAQIGFPSGGTALDDLGRAKLDIILQFLKADPSVNRILLDGHSDNSGNRLTNRDLSRRRALAVQEYLQANGVPAEQITLRFHGERYPLAPNTNEANRAKNRRVTLRLEREAQSVAPAAAPGEAS	PGPT0015395_31	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015395-motY-K21218	NA	NA
BMS010_10172	1218	argG_2	COG0137	Argininosuccinate synthase	ATGGCGGACGTGAAGAAGGTTGTCCTGGCGTATTCCGGTGGCCTGGATACTTCGGTGATTCTCAAGTGGCTGCAGGATACCTATGCCTGCGAGGTGGTGACTTTCACTGCCGATCTCGGCCAGGGCGAGGAAGTGGAACCCGCTCGCGCCAAGGCCAAGGCGCTGGGCGTCAAGGAAATCTACATCGACGATCTGCGCGAAGAGTTCGTGCGCGATTTCGTCTACCCGATGTTCCGTGCCAATGCCGTTTACGAGGGCGAGTACCTGCTGGGTACTTCCATCGCCCGTCCGCTGATCGCCAAGCGCCTGATCGAGATCGCCAACGAAACCGGCGCCGACGCCATTTCCCACGGCGCCACCGGCAAGGGTAACGACCAGGTTCGTTTCGAGCTGGGCGCCTATGCGCTCAAGCCGGGCGTCAAGGTGATCGCTCCCTGGCGCGAGTGGGACCTGCTGTCCCGCGAGAAGCTGATGGATTACGCCGAAAAGCACGGCATTCCGATCGAGCGCCACGGCAAGAAGAAGTCCCCGTACTCCATGGACGCCAACCTGCTGCACATTTCCTATGAAGGCGGCGTGCTGGAAGACACCTGGACCGAGCACGAAGAAGACATGTGGCGCTGGACCAAGTCCCCCGAGGCCGCGCCGGATACCCCCACCTACATCGAGCTGACCTACCGCGCCGGCGACATCGTCGCCATCGACGGCAAGGACATGACCCCGGCCCAGGTGCTGACCGAGCTGAACCGCATCGGCGGCGAGAACGGCATCGGCCGCCTCGACATCGTCGAGAACCGCTATGTCGGCATGAAGTCCCGCGGCTGCTACGAGACCCCCGGCGGCACCATCATGCTCAAGGCGCACCGCGCCATCGAGTCGATCACCCTGGACCGCGAAGTCGCTCACCTGAAGGACGAGCTGATGCCGCGCTACGCCAGCCTGATCTACACCGGCTACTGGTGGAGCCCCGAGCGCCTGATGTTGCAGCAGATGATCGACGCCTCCCAGGCCAACGTGAACGGTGTCGTGCGCCTGAAACTGTACAAGGGCAACGTCATCGTGGTCGGCCGCAAGTCCGACGATTCGCTGTTCGACCTGAACATCGCGACTTTCGAGGAAGACGGCGGTGCCTACAATCAGGCTGATGCGGCCGGTTTCATCAAGCTCAACGCCCTGCGCATGCGCATCGCGGCGAACAAGGGCCGCAAGCTGTTCTAA	MADVKKVVLAYSGGLDTSVILKWLQDTYACEVVTFTADLGQGEEVEPARAKAKALGVKEIYIDDLREEFVRDFVYPMFRANAVYEGEYLLGTSIARPLIAKRLIEIANETGADAISHGATGKGNDQVRFELGAYALKPGVKVIAPWREWDLLSREKLMDYAEKHGIPIERHGKKKSPYSMDANLLHISYEGGVLEDTWTEHEEDMWRWTKSPEAAPDTPTYIELTYRAGDIVAIDGKDMTPAQVLTELNRIGGENGIGRLDIVENRYVGMKSRGCYETPGGTIMLKAHRAIESITLDREVAHLKDELMPRYASLIYTGYWWSPERLMLQQMIDASQANVNGVVRLKLYKGNVIVVGRKSDDSLFDLNIATFEEDGGAYNQADAAGFIKLNALRMRIAANKGRKLF	PGPT0020130_2965	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0020130-argG-K01940	NA	NA
BMS010_10173	393	gloA_2	COG0346	Lactoylglutathione lyase	ATGCGACTGTTGCATACCATGCTGCGCGTCGGCGACCTGGATAAATCCATCGCCTTCTACACCGAAGTGCTGGGCATGACCCTGCTGCGGCGCAAGGATTACCCGGACGGACAGTTCACCCTGGCGTTCGTCGGCTATGGCGACGAGGCGCACAACAGCGTGATCGAGCTGACCTACAACTGGGGCGTCGACAAGTACGAGTTGGGCACCGGCTACGGCCATATCGCCCTGGAAGTGGAGGATGTCTACAAGGCCTGCGAAGACATCCGCGCCCGCGGTGGCAAGATCACCCGCGAGCCGGGGCCGATGAAGCACGGGAGCAGCATCCTGGCCTTCGTCGAGGACCCGGACGGCTACAAGATCGAGCTGCTTTCGCCGTCGCGCAACGACTGA	MRLLHTMLRVGDLDKSIAFYTEVLGMTLLRRKDYPDGQFTLAFVGYGDEAHNSVIELTYNWGVDKYELGTGYGHIALEVEDVYKACEDIRARGGKITREPGPMKHGSSILAFVEDPDGYKIELLSPSRND	PGPT0013300_3922	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BLEOMYCIN_RESISTANCE,PGPT0013300-gloA|ywbC-K01759	NA	NA
BMS010_10174	333			hypothetical protein	ATGTATAAATGGTCATACGAAGAGCTCAAAGAATTTATTCGCGAGGATGTTGAAGAGTTTATGCGTGATGGGCTTGATATTCGACAGGCTTCTTCACGTGTGCAAGTTGAATATGCAAAGTCAATTGAAGGTAGTGATCTGGAAAAGCTAGTTATCTATATGGTTTTATGTGAGGAGGGTGTGAGGCATGGATTTCTCAGGGATGATATAAAGGAGCAAACCCTGAGGTTGTTAGAGCGGACTTATCTTAAGCAGTGTGATAAACAGCTTGGTGATGAAGAGCGGCCTAAGTTAAGAGCTGATATGGATAGAATATCAATTCTTCTGACATAG	MYKWSYEELKEFIREDVEEFMRDGLDIRQASSRVQVEYAKSIEGSDLEKLVIYMVLCEEGVRHGFLRDDIKEQTLRLLERTYLKQCDKQLGDEERPKLRADMDRISILLT				NA	NA	NA	NA	NA
BMS010_10175	735			hypothetical protein	ATGACCGTACTCAACACTTGGGCAGAGCTACTGAAGATCTACAGTGAAAGCCGCCCAAAAATATTCAAAGCACTCTTTCTTACAGGCGGCCTTCGATATACTCTGCCTGTATGGGCAATATTCACAGCCTTAGTCATATTATTGCTGGTGCATTCCTTACAACCTGAAATACCAACCCAGGCTCTTGCAACATTCGCTGGGGCATCACTTGCGTTTTTTGGACTTATCTTAGCCAGAGAGCAACTATGCGCCAAATTATACCAAGAACTTTACAGGGAACACTCACTAGAAGGCCAGACATTTTTTAAACGAGAATTAAGTTTACGATATGTATTATTCAAATCAATTCTTCAAGAAAAAGGCTATAACTCAACCACAACCCAAGAATTGATAGATATTGCCACAATGGCAGAAGACCCCGAAAAACCACACCCAATCTCCCAAAATCTCGTTGTAGTAATGCTTTTTACAGCTGTCATTGCAATTTCCACAAACCTCCTTCAATTGACCGACACATGGAAAGAAAACAAAGGGGCTCTATTTCTTCTCCCAGTAACTCTCGCCATCTATATTTCCTTTGCACTAATAGATATAAAAAGATCTTCAAAACATCGAAGCCTGATTATTAAGCGTTACCTGGAGAGGGCCGTACTGGACATGAAAATGGATGAGTTAAATTTTGTCGCTCCTACGCTCAACGGGAACGAGCAACAAAGACAAACAACCTTGAACTAA	MTVLNTWAELLKIYSESRPKIFKALFLTGGLRYTLPVWAIFTALVILLLVHSLQPEIPTQALATFAGASLAFFGLILAREQLCAKLYQELYREHSLEGQTFFKRELSLRYVLFKSILQEKGYNSTTTQELIDIATMAEDPEKPHPISQNLVVVMLFTAVIAISTNLLQLTDTWKENKGALFLLPVTLAIYISFALIDIKRSSKHRSLIIKRYLERAVLDMKMDELNFVAPTLNGNEQQRQTTLN				NA	NA	NA	NA	NA
BMS010_10176	735			hypothetical protein	ATGAAAAAAGAAATTGAAGAGAAAGTAAAAAACATAATCGACACTGAAATGGAGGTGACAGATGTCACTTACATTCCCGACCTTGAAAACTCCAAGTTAACCTTTGGAAATACAGGATTGAGATTTGAGGCAACAACATTATTTATCGACATGAGGGGCTCCACAAAAACCCTTAACAAACATAACCGTCGATCAGTAGCCAAAATTCACAAAGCCTACTTTCACACCATAGTCAGCATCGTCAAGAGCCTGTCTGGTGAAGTTAGAAGTTTTAACGGCGATGGTATGCTGTGCTTCTTTCAAGGCACAACTAAACGCTCATTAACGAATGCGGTTATCGCCGCAATGCAAATCAAATATATGCTCAGCAGTGATGAGTCCAACGTTAAAAAAAGCCTTGAAAAATATTCCAGCGTAGACTTCGGAATTGGAATTGATGACGGAAAGATCATCTGTACAAAAGTAGGAGTAAGTGGTACAAACAACAGAGATCTGGTATGGATAGGAAATGCTGTAAATAAGTCAGTAAAAATCGGAGACACCCGAAAAGCTCATGAGCACATTGGAATATCTAGCTTTGTTTATGCAAACCTACTAGACGAAGCCAAATATCACACCACAAAAGACTCATGGGGAAATGAAGTCAAAGTCGACATGTGGACCATGGACTACATCACTTATAACGATCAAGTAGAAATCTATTACAAAACCAGTTATCAGTGGATAGTTTCTTAA	MKKEIEEKVKNIIDTEMEVTDVTYIPDLENSKLTFGNTGLRFEATTLFIDMRGSTKTLNKHNRRSVAKIHKAYFHTIVSIVKSLSGEVRSFNGDGMLCFFQGTTKRSLTNAVIAAMQIKYMLSSDESNVKKSLEKYSSVDFGIGIDDGKIICTKVGVSGTNNRDLVWIGNAVNKSVKIGDTRKAHEHIGISSFVYANLLDEAKYHTTKDSWGNEVKVDMWTMDYITYNDQVEIYYKTSYQWIVS	PGPT0021560_6979	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|VFR_SIGNALLING_PATHWAY,PGPT0021560-cyaB|gidA-K01768	NA	NA
BMS010_10177	492			hypothetical protein	ATGAATTTCCTCGAAGCGGAACAGATGATCAGCCGCTGGCTGACTCGTTGCGGGGTCACCGCCGTCAACGGGCGGATACTGGATGCGCAGGGTTGCTGCAACGTCGCCCTGGCAGGCTCTCCTGAGATATTGGTGATGCTGCCGTCCGGCCAGACGCTGGCGTATTTCTACGGCTCGGTCTGTGAGCTGGACTTGGCGCGCGACAACGGGCTGCTGACCCTGGCCATGACCCTCAACCTCGACCCGGCCCATACCCGTGGTGCCGCACTGGGTTTCGATCCGGAGAGGCGCCAGTTACTGCTGCGTGCCGTGCACCCCCTGGAGCATACGAACGACGGTGAGTTGGACCGGGTGTTGCGAAACTTTAGCGAACTCGTCCGGGAGCTGGGGAAGTATTTCGAGCGTTGCCGTCAGCAGTCACCGGCCGCAGCCTTTTCAAGGCCAGGGCCCACGTCGCTGAGCGTCCTGGCCCTCGCGGGAGGGCGTGCATGA	MNFLEAEQMISRWLTRCGVTAVNGRILDAQGCCNVALAGSPEILVMLPSGQTLAYFYGSVCELDLARDNGLLTLAMTLNLDPAHTRGAALGFDPERRQLLLRAVHPLEHTNDGELDRVLRNFSELVRELGKYFERCRQQSPAAAFSRPGPTSLSVLALAGGRA				NA	NA	NA	NA	NA
BMS010_10178	951			hypothetical protein	ATGACTCCCTTGCACATCGCGCGTGGCCAACCGAGCGGTATCGACACGTCGGCACGGCAGGACGTCCCGTTGCCGCTGGATCGAGTGGCGAACCCGGAGATCCGACCGCCGGTTCCCGGCACCGGGATGACGCCCCTGACCCAGCCGCTGCCGGCACCGTTACCGCTGCCGCCCCCATCGCTGAACGCCGCCAGGCCGGTATCCGCTACCGGCAACGCTGGAGCGCCGCCCCACCTTCCGCCGTTCCAGTCGCCTGAGCTATCGAGCATCGCCTTCATGCACAACGTCGCCCTCCATCATGGCTGCACCTTGAGCTTGCCGTTCAACCAGCGCGAGGCCCGGCTTGCGGTACTGAAGACCATCGAAGGGGTGGATGAGCACATCGACGCAGCGACCCAGGATAAAGGCCTCTGCTTCGGTCTCTCGCTCAACTGGTTGAAGAACGCGGCGGAAGGCCACGATAACGCGCATTTCGTCGAGGCATTCCAGGCCTGGGACAAGGATTCGCTTTTTCTGAGATCGGTGGGCTTGCAGCACATCGAACTGGAGACGGCCATTGCACAGCACAACAGCAATGCGCTGCGGATGTTCCAGTCGACATTGCCGGCGGCCGGTTTCCAGCTTCACGGCATGGGGGCGGTCGACCTCGAGGCCCCTAACGGCATCCAGGTTCTCGGGGAGGCCGTGAATGCCTTGGGGCGTGGCAGTGGAGATCGCTATTTCATGTTGTGTTCGAGCGAGCATGCGATGGCCTTGCACAAGGACGCCTCGGGGCACACGCATTTCTTCGATCCCAACGGTGGCGTCGTGAGTACCGACAATATCGCGGCCATGGCCCGGGTGGTTCGCGACGTCCTTTTGCAAAGCCCCACGTACTGGGCGCCGGGAAAGGGCCACAACTTGATCATCTTCGAAGCCCAAGGGGATACAGCAGAGGAGCGGGCGCGGTGA	MTPLHIARGQPSGIDTSARQDVPLPLDRVANPEIRPPVPGTGMTPLTQPLPAPLPLPPPSLNAARPVSATGNAGAPPHLPPFQSPELSSIAFMHNVALHHGCTLSLPFNQREARLAVLKTIEGVDEHIDAATQDKGLCFGLSLNWLKNAAEGHDNAHFVEAFQAWDKDSLFLRSVGLQHIELETAIAQHNSNALRMFQSTLPAAGFQLHGMGAVDLEAPNGIQVLGEAVNALGRGSGDRYFMLCSSEHAMALHKDASGHTHFFDPNGGVVSTDNIAAMARVVRDVLLQSPTYWAPGKGHNLIIFEAQGDTAEERAR				NA	NA	NA	NA	NA
BMS010_10179	1068			hypothetical protein	ATGAGTGGCTTGTCGATTGCTCGGAACCCGGCGATCAATGCCGATATCCAGGTTAGGCAGGCTCCGCCATTGTCGTTGAGCCGGGTGTCGAACCCTGCGGTTCACAGGCCAGCCTTGAATTCCGGTATGACGCCTTTGAACCGGCCAATGTCGGCGCCTTTGCCGTTGCCACGTCCCCCGGAAGATTCAGGACGACCGGTACCGGTTAGGCTACCGGAGGGTTCTTACCCTCTTCCTTTACCCTCTAGGCCGTCGTCTTCTTCCCCAACGTCCCATCCGCTACCGTTACCACCCCAGGCAATGCCAACGATGGTGAATGGGCGGCCGGCTTTTCCATTGCCTCTGCCCTCGGGCACGGGGCCTGTTTCTTACAGGCTGCCGCTGCCTCAGGAGCCAGCAAGCATCAAGTTCATGCGAGATGAGGCTCGGCGCCATGGGTGCACATTCACTCTTCCTTTCGATCAAAAACAAGCCATGCAATCTATTCTTGCCAGAATTTCCGGCGTAGAAGCCCATCTTGATCCACCGAGTGGTTTTTGCCTCGGGCTTTCTTTCAACTGGTTGAAAAACGCTGTGAAAGGCCATAGTGATGCTCAGTTCTCTCAATCACTGAAAGATTGGGAGAAAGACCCGCTTTTTATAAGGGTGGCAGGGGTGCAGCAAATTGAGCAAGGAAATGCACGATCGAATGCAAAGAGCGGTATAGACGTCGTTAAGTCTACGTTGCCCAGCGTAGGGCTTGATAAGGCAGGGGAGGCAGCGGTGAATCTTTCCCGGCCCGATTTTAATAAGGTGTTGGAACAGACTATTGGAGCCATGAGTCTGGGGGAGAGCGCGCGCTATTTCGTTCTTACTTCTGATAAGCACGCAATGGCCATGCGCAAGGACGAGTCCGGGTGCCTGCACTTCTTCGATCCCAATGGTGGTGTCATCAGTTCCCACAACCCTCGTGCGATGGCGCATGTGGTTGGCGATGCATTGCTGATGCACTCCCGCAATTGGTTGCCTGGCGGAGACAGGGTCTTGCAGATCGTCGAGGCCAAGCCGGCGGGGGAGGCGCAGGGTTGA	MSGLSIARNPAINADIQVRQAPPLSLSRVSNPAVHRPALNSGMTPLNRPMSAPLPLPRPPEDSGRPVPVRLPEGSYPLPLPSRPSSSSPTSHPLPLPPQAMPTMVNGRPAFPLPLPSGTGPVSYRLPLPQEPASIKFMRDEARRHGCTFTLPFDQKQAMQSILARISGVEAHLDPPSGFCLGLSFNWLKNAVKGHSDAQFSQSLKDWEKDPLFIRVAGVQQIEQGNARSNAKSGIDVVKSTLPSVGLDKAGEAAVNLSRPDFNKVLEQTIGAMSLGESARYFVLTSDKHAMAMRKDESGCLHFFDPNGGVISSHNPRAMAHVVGDALLMHSRNWLPGGDRVLQIVEAKPAGEAQG				NA	NA	NA	NA	NA
BMS010_10181	246			hypothetical protein	ATGGCTGACGTGATTCCATTTCCGGCACACCGCCGCCCTCAACCCTCTCCCGACATACCCGATTGCCCTTTCCAGGCCGACGCCGAAATGCGCCTGCGCCTGGCCCAACAGGCCATCCGTGCCGTGGCACGGCAGGAGGGCTGCACCCTGAACGATGCGTGGGCGGATGCCTGCCGAGGGGCGGACCGTCTGCTCGAAGAGGCCAGTGCGCTGTATCGCTGGGCGTTGGTGCAGAGGGAGCCTTAG	MADVIPFPAHRRPQPSPDIPDCPFQADAEMRLRLAQQAIRAVARQEGCTLNDAWADACRGADRLLEEASALYRWALVQREP				NA	NA	NA	NA	NA
BMS010_10182	1917	ltxB	COG2274	Leukotoxin export ATP-binding protein LtxB	TTGCCGGCGATTGCCGCCGACGGGGAAGGGCGGTTCTTCATCATCGCCCGGCTCGACGATGGCCAGGCGCTGATCCACGACCCCCGCGCCCAACGCCCCGAAGTCCTCAGCTTCGAAGACCTCGAAGCACGCTGGACCGGCGAGCTGGTCCTGATCCGCTCCGAGGCCTCGCTGGCCGGCGAGCTGTCCAAGTTCGACTTCACCTGGTTCATCCCGGCCATCGTCAAATACCGCAAGCTGCTCGGCGAAGTGCTGCTGGTGTCCTTCGTGCTGCAGATCTTCGCCCTGCTGACGCCGCTGTTCTTCCAGGTGGTGATGGACAAGGTGCTGGTTCACCGGGGCCTGTCCACCCTCGACGTGATCGCCATCGGCCTGCTCGGCATCATGCTGTTCGAGACGCTGCTTTCCGGCCTGCGCAGCTACGTGTTCGCCCACACCGCCAGCCGCATCGACGTGGAGCTGGGCTCGAAACTGTTCCGCCACCTGGTCACCCTGCCACTGGCCTACTTCCAGGCGCGGCGGGTCGGCGACTCGGTGGCGCGGGTGCGCGAGCTGGAAAACATCCGCAGCTTCCTCACCGGCAACGCCATCACCCTGATCCTCGACGTCCTGTTCTCGGTGGTGTTCATCGCCGTGATGTTCTTCTACAGCGGCTGGCTGACCCTGGTGGTGGTGCTCTCGCTGCCGCTGTACTTCCTGCTCTCGATGTTCATCACCCCGGTGCTGCGCGCGCGCCTCAACGAGAGCTTCAGCCGCGGCGCGGAGAACCAGGCGTTCCTGGTGGAAACGGTCAACGGCATCGACACCCTCAAGGCGATGGCCGTCGAACCGCAGATCACCCGCAAGTGGGACAACCAGCTTGCAGGCTATGTGAGCGCCAGCTTCAAGACCCAGACCCTCTCCACCCTGGCCAACGAAGGCGTCGGCCTGGTCGGCAAGCTGGTCACCGTGGCCACCCTCTGGCTCGGTGCGCGGCTGGTGATCGACGGCGACCTCTCGGTGGGCCAGTTGATCGCCTTCAACATGCTCGCCGGGCGGGTGTCGCAGCCGATCATGCGCCTCGCCCAGCTGTGGACCAACTTCCAGCAGACCGGCGTCTCGGTACAGCGCCTGGGCGACATCCTCAACACCCGCACCGAACTGTCCCAGGCCAGCCGCAGCGCGCTGCCGCCGCTGACAGGGCAGGTCGAGTTCGACCAGGTGCACTTCCGCTACCGCGCCGACGGCTCGGAAATCCTGCGCGGCATCAGCCTGAGCATCCAGCCGGGCGAAGTGATCGGCGTGGTCGGCCGCTCCGGCTCCGGCAAGAGCACCCTGACGCGCCTGCTGCAGCGGCTCTACACCCCCGAGCGGGGCCGGGTGCTGGTAGACGGTATGGACCTCGCCCTGGCCGACGTCTCCTCGCTGCGCCGGCAGATCGGCGTGGTGCTGCAGGACAACATGCTGTTCAACCGCAGCATCCGCGAAAACATCGCCCTGACCGACCCCGGCGCGCCCATCGAAGCGGTCATGCAGGCGGCCCGGATGGCCGGCGCCCACGACTTCATCCTCGAACTGCCGGAAGGCTACGACACCGTGGTCGGCGAACACGGCGCCTCGCTCTCCGGCGGCCAGCGCCAACGCATCGCCATCGCCCGCGCGCTGATGGGCAACCCGCGCATCCTCATCTTCGACGAAGCCACCAGCGCCCTGGACTACGAGTCCGAACGGATCGTCCAGCAGAACATGAAGACCATCTGCCAGGGCCGCACCGTCATCATCATCGCCCACCGCCTCTCCGCTGTGCGCGACGCCAACCGCATCCTGGTCATGGACCGCGGGCAGATCGTCGAACAGGGCACCCACGCCGAACTCCTCACCCACCAGGCCGGGCACTACTCCAGGCTGCACCGTTTGCAGCAGGGAGGGGCAGCGTGA	MPAIAADGEGRFFIIARLDDGQALIHDPRAQRPEVLSFEDLEARWTGELVLIRSEASLAGELSKFDFTWFIPAIVKYRKLLGEVLLVSFVLQIFALLTPLFFQVVMDKVLVHRGLSTLDVIAIGLLGIMLFETLLSGLRSYVFAHTASRIDVELGSKLFRHLVTLPLAYFQARRVGDSVARVRELENIRSFLTGNAITLILDVLFSVVFIAVMFFYSGWLTLVVVLSLPLYFLLSMFITPVLRARLNESFSRGAENQAFLVETVNGIDTLKAMAVEPQITRKWDNQLAGYVSASFKTQTLSTLANEGVGLVGKLVTVATLWLGARLVIDGDLSVGQLIAFNMLAGRVSQPIMRLAQLWTNFQQTGVSVQRLGDILNTRTELSQASRSALPPLTGQVEFDQVHFRYRADGSEILRGISLSIQPGEVIGVVGRSGSGKSTLTRLLQRLYTPERGRVLVDGMDLALADVSSLRRQIGVVLQDNMLFNRSIRENIALTDPGAPIEAVMQAARMAGAHDFILELPEGYDTVVGEHGASLSGGQRQRIAIARALMGNPRILIFDEATSALDYESERIVQQNMKTICQGRTVIIIAHRLSAVRDANRILVMDRGQIVEQGTHAELLTHQAGHYSRLHRLQQGGAA	PGPT0029360_683	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-TSS1-ALPHA-HEMOLYSIN|CYCLOLYSIN_TRANSPORT,PGPT0029360-hlyB|cyaB-K11004	NA	NA
BMS010_10183	1257			hypothetical protein	TTGCACGGTGCCGTGGACGACGCCGTATTTGGTGAAGGTGAAGGTCTCGACCTTGATCTCCACTTCCTGGCCGGGGTGGACGAAGCCGATGTCCTTGTTTTCCAGCATGGCTTCCACTTCCACCGGTTGGTCGCTGGGGACGATGACCATCAGGGGTTGGGCTTCGGTGACGACGCCGCCGGGGGTGTGGATGGCGAGTTGTTGCACGGTGCCGTCCACCGGGGCGGTGAGGCGGGTCAGGCGGTCGCGCTGCTCGGCCTTCTTGAGTTCCTGGGTCAGGCTGGCGGCGCGTTGTTCGGCTTCGTGCTGGAGGTCGAGCATGGCCCGGCGGGTCTGGGCGATGACGCTGTGCTGCTGGCGTTCGGCGGCGCTCCGGGCGGCGGTGAGTTCGAGAACGCGGGCTTGCTGGATGGCCAGTTCGCGCTCCTGGTCGAGGCGTGCCTGTTCCTTTTCCAGGTAGGCGTGCTTGGCGACGTAGGCCTTGTCCAGCAGGCGCTTGTAGTCGGCGCTGAGCTGGCGGGTGATGGGCAGGGATTCCTGCAGTTTGCCCACCCAGGCCTTGGCTGCCTGGATTTCCGCCTGGCGCTGTTCGATCTCGGCGTCGCCCTGGTCGAGGGCGCTGCGCAGTTCCAGGTACTGGCCGCGCAGCCAGGTATCGGCGGCGCGCTGTTGCTCGGGGGTGGCCTGGGGCAGCAGGGCCGCCAGGGACGCCGGTTCGCGGTCGTGTTCGATGGCGTCCAACAGGGCCCGGGCGCGGGCACTGTCGACCTGGGCGGCGAGCAGGTCGCTCTTCAGGCGGTCGACATCGGCACCGGTCATGCTGGCGTCCAGTTCCACCAGCAGGTCGCCGGCCTTTACCTGTTCGCCGTCGTAGACGTGGATGGCCTTGACCACGGCCACTTCGCTGGGCTGGATGATCTTGCTCTTGCCGCTGGGGACGATCTTGCCGCTGGCGGTGGCGACCACGTCGATTTCGCCGACGCAGGCCCAGACCAGGGCGATGACGGCGAAGGCCAGGATGGTCCACTGGATGTAGCGTGGCGCCGGGTGTACCGGTTGTTCCTGCAGGGCCAGGGCGGCGGGCAGGAATTGCACTTCGTGGCTCAGGCGCGGCGGCGCGTCCATGGCCTTGCGCTGCCGCCAGGCGTGGCGCCAGGTGCTGCGGTAGCGGTTGAGCAGGTCGCGTTTGGCATTGGTGTTGCTCATCGAGTCCGCCCCCTCACCCTAGCCCTCTCCCCAGAGGGGCGAGGGAACTGA	MHGAVDDAVFGEGEGLDLDLHFLAGVDEADVLVFQHGFHFHRLVAGDDDHQGLGFGDDAAGGVDGELLHGAVHRGGEAGQAVALLGLLEFLGQAGGALFGFVLEVEHGPAGLGDDAVLLAFGGAPGGGEFENAGLLDGQFALLVEACLFLFQVGVLGDVGLVQQALVVGAELAGDGQGFLQFAHPGLGCLDFRLALFDLGVALVEGAAQFQVLAAQPGIGGALLLGGGLGQQGRQGRRFAVVFDGVQQGPGAGTVDLGGEQVALQAVDIGTGHAGVQFHQQVAGLYLFAVVDVDGLDHGHFAGLDDLALAAGDDLAAGGGDHVDFADAGPDQGDDGEGQDGPLDVAWRRVYRLFLQGQGGGQELHFVAQARRRVHGLALPPGVAPGAAVAVEQVAFGIGVAHRVRPLTLALSPEGRGN				NA	NA	NA	NA	NA
BMS010_10184	768			hypothetical protein	ATGCCTCTACTCGCTCTGCTAGTCATCGCCTGCCAGGTCGCCTGCGGCCTGCACGTGGTCCGCACCGGCCAGGAACGCTACTGGCTGTTCCTGATCATCAGCCTTCCCGGCCTCGGCTGCCTCATCTACTTCCTCGGCATCATGCTGCCGGACATCCTCGGCAGCCGCACCGGCCGCCGCGCGGTGAACCGCCTGCACGACCACATCGACCCGGAACGCCACCTGCGGGCGCTGCGCGACGAGCTGAGCCTGCGTGATACCCACGAAAGCCGCGTGCAATTGGCCGACGAGCTGGCCCGGCTGGAGCGCTTCGCCGAAGCCGGCGAACACTACCAGGCAGCGCTGCGTGGTATGCATGAACAGGACCCGTCGATTCTCCTCGGACTGGCCCGCGCCCAGTTCGGCCAAGGCGATGCCCTGGGTTGCCGGCTCAGCCTGGAGCGCCTGATCCAGCACAACCCGCAGTACCGGTCGGCGGACGGCCATTTGCTGTACGCCCGCGCCCTCGACCAGCTCGGCGAAACCGCCAAGGCTGAAGAGGAATACGGCGCCCTGGCCAGCTACTACGCCGGGCCGGAAGCACGTTATCACTATGCCCAGATGCTCATCCGCCTGGACCGTACCGGCGAAGCGCGCACCCTGCTGGAGCAGATCGAAGCCTACGCCCGCCGCGCCCCACGCCATTACCGCAACCTGCATCAGCACTGGCTGAACCTGACCCGCCAGACGCTGAAAGCGCTGGATACGCCGGAGCGGAAACAGGCCTGA	MPLLALLVIACQVACGLHVVRTGQERYWLFLIISLPGLGCLIYFLGIMLPDILGSRTGRRAVNRLHDHIDPERHLRALRDELSLRDTHESRVQLADELARLERFAEAGEHYQAALRGMHEQDPSILLGLARAQFGQGDALGCRLSLERLIQHNPQYRSADGHLLYARALDQLGETAKAEEEYGALASYYAGPEARYHYAQMLIRLDRTGEARTLLEQIEAYARRAPRHYRNLHQHWLNLTRQTLKALDTPERKQA				NA	NA	NA	NA	NA
BMS010_10185	702	pyrG_3		CTP synthase	ATGCGCAGCCTCCGCTTCGGCCTGATCGGCGATCACGATCCCGATGTCACCGCCCACCGGGCGATTCCCCTGGCGTTCGATCTCGCGGCGACCACGCTGGACCTCGCCCTGAAGGTCGAATGGCTCCCCACCGAGCACATCGACAGCACCGGATGCCTGGCCGATTTCGATGGTCTCTGGTGCGTCCCCGCCAGCCCCTATCGCAACACCGACGGCGCCCTCCTCGCCATTCGCCATGCCCGCGAAACCGGTGTGCCATTCCTCGGTACCTGCGGCGGCTTCCAACATGCTCTGTTGGAATATGCCCGGAGCGTGCTCGGCTGGAGCGACGCTGCCCATGCGGAACTCGACCCGGAAGGCGCCCGACTGGTGATCCAGCCGCTGGCCTGCGCCCTGGTGGAAGCCATCGGCCCGGTGCGTTTCGTCGCCGACAGCCGCCTGGCCCGCGCCTACGGCGCCCTGGAGGCGGAGGAAGGCTACCGCTGCCGTTTCGGCCTCAACCCTGCGTTCCGCGAGGCGCTGACCGATGGCCCGCTGCGCATCACGGCCACCGATGACCAGGGCGATGCCCGGAGCATCGAGCTGGAGGGCCATCCGTTCTTCGTCGCCACCCTGTTCCAGCCGGAGCGCGCCGCCCTGGCCGGCCGACTGCCTCCGGTGGTGCGGGCGTTCGTCGAGGCGGCGGCCGAACGGCGAGGGTGA	MRSLRFGLIGDHDPDVTAHRAIPLAFDLAATTLDLALKVEWLPTEHIDSTGCLADFDGLWCVPASPYRNTDGALLAIRHARETGVPFLGTCGGFQHALLEYARSVLGWSDAAHAELDPEGARLVIQPLACALVEAIGPVRFVADSRLARAYGALEAEEGYRCRFGLNPAFREALTDGPLRITATDDQGDARSIELEGHPFFVATLFQPERAALAGRLPPVVRAFVEAAAERRG	PGPT0021215_5922	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021215-pyrG-K01937	NA	NA
BMS010_10186	702			hypothetical protein	ATGAGGCGCGCCGACCGACTGTTCCAGATCGTGCAGTTCCTGCGCAGCCGCCGGCTGACCACCGCGCAATGGCTGGCCGAGCGGCTGGAAGTGTCGGTGCGCACCATTTACCGCGACATCCAGGACTTGTCCCTGTCCGGCGTGCCCATCGAGGGCGAGGCCGGCGTGGGTTACGTGCTGCGCCACACCATGGACTTGCCGCCGCTGATGTTCGACCGCGACGAGATCGAAGCCATGGTGATCGGTGCGCGCATGGTCCAGGCCTGGGCCGATCCCGCCTTGCAGCGGGCGGCGCAGTCGGCGCTGGCGAAAATCCACGGCGTGCTGCCGGCCAGCCTGCGCGACGAACTCAACGGCAACCGCCTGTTCGCCCCCAGCGGGCGCCCCTTCGCCAACCACTGGATCGGCACCTTCCGCCAGGCCATCCGCGAACGACGCAAGCTCTGGCTGACCTACCGCAGCGAGAGCGAAGCCATCACCCAGCGCTGCATCTGGCCGCTCGGCCTGTTCTTCTGGGGACAGGTCTGGACCTTGTCCACCTGGTGCGAGCTACGCGGTGACTTCCGCAACTTCCGCATCGACCGGGTGATCGACCTCAACCCGCAGGACGAGCACTACCCGCTGGAACCGGGCAAGCGCCTGGAGGACTTCCTCGCCCAGTACGTCGACCCGGCGACCTTCGCGCCGGCGTTCAAATCCTGA	MRRADRLFQIVQFLRSRRLTTAQWLAERLEVSVRTIYRDIQDLSLSGVPIEGEAGVGYVLRHTMDLPPLMFDRDEIEAMVIGARMVQAWADPALQRAAQSALAKIHGVLPASLRDELNGNRLFAPSGRPFANHWIGTFRQAIRERRKLWLTYRSESEAITQRCIWPLGLFFWGQVWTLSTWCELRGDFRNFRIDRVIDLNPQDEHYPLEPGKRLEDFLAQYVDPATFAPAFKS				NA	NA	NA	NA	NA
BMS010_10187	486			hypothetical protein	ATGAATTCGTCCCTACAGAACACAACACTGCTGACAGTAAGCTGTCAGCAGCCCCCCATTAAGGTGCTCCCCGTAACGGCGCTCGCCGAGCGCCGCCCCACCGAGATCAAGGAGAGCATCATGCACGCCATTCACTGGTTCGATCTGTACGTCAACGACTTCCAACGCGCCCGCCGCTTCTATGAAACCGCCCTCGATGTGTCCCTGGAGGTGATCGACGGCATGGGCGGACGCATGGGCCTGTTTCCCGCCGATCACGAGAACGGCGTCGGCGGCAGTATCGTAGAATCGCCGGACCATCAGGCCGGCGCCGGCGGTACGCGCGTCTACCTGAACGCCGAAGGCAAGCTGGACGCGGTCCTCGATCGGGTGCCCGGTGCCGGCGGCGAAGTCCTGCAACCCAGGACCTCCATCGCCCCGCACGGCTTCATCGCCGTGATCAAGGACAGCGAAGGCAACCCGGTCGGCCTGCACAGCATGAGCTGA	MNSSLQNTTLLTVSCQQPPIKVLPVTALAERRPTEIKESIMHAIHWFDLYVNDFQRARRFYETALDVSLEVIDGMGGRMGLFPADHENGVGGSIVESPDHQAGAGGTRVYLNAEGKLDAVLDRVPGAGGEVLQPRTSIAPHGFIAVIKDSEGNPVGLHSMS	PGPT0013170_395	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
BMS010_10188	669			hypothetical protein	ATGAAGATAAAGATTCTAGGTGTCAGTGGTATTTTGCTAGCTGTTTTGGTGGCATTTTGGATGTATGGTAATTCAGTAATTGCTGTTGGTGAGCGAGAGTCACGATGGATAATGAAGGAGATGTGGGGTGAGGATTTTTTAAATTCCCGAACGGGGCATTTTGAGGAATATGAGCGAATAAATTTATTAAGTCTTCACGAGGGCTCTAGCAAAAATCAAGAGCTTATAACCTACGTGGTAAAGAACAAGTGTAAGGATGACTCCGAACGGTGTTACTTGGTTATGACATCGGCTTCTAATCTTTTGATTGATGGAGGGGAGTATGATTCAGGTCTCAAGGGAATGGTCGAGGCAGTCAATAGATATAAAGCTTCGGATTTTTGTCCAGTTGCATATGAATCGGCAATTCTTAAATATAAGATAAAGATGCTTTCCTCTAAAGGTATTGATTCGGCGCGAAGATCCTCAATAGAAATTCTGAAGAAAATAAAATTGGATAGCGGGCTTATGAAAAGCCTGAGAACTAAATCGTGCGCCCAAATGGCCAAAGAAAAACCAGAGTTTTTTCATGAGTACACTGATCTGATTGCACACCTTATGGGTTTTGCTGGTGGTGATTTCGCGAAGGCTGGTGCTTATATAAATTCTTTGAGCAAAGATCAAAGGTGA	MKIKILGVSGILLAVLVAFWMYGNSVIAVGERESRWIMKEMWGEDFLNSRTGHFEEYERINLLSLHEGSSKNQELITYVVKNKCKDDSERCYLVMTSASNLLIDGGEYDSGLKGMVEAVNRYKASDFCPVAYESAILKYKIKMLSSKGIDSARRSSIEILKKIKLDSGLMKSLRTKSCAQMAKEKPEFFHEYTDLIAHLMGFAGGDFAKAGAYINSLSKDQR				NA	NA	NA	NA	NA
BMS010_10189	675			hypothetical protein	ATGGTAAGGGTATTTGTGAAAAGAGCTTTTGGGGTTTTAGTTGTTTTGTTGCTTGTGTTCGCTGGAATTGTTTGGTTGGGAAGGTATGTGACCGACGTTGGAGAAGAGAAGTCAAGATGGATAAGGTCTGGTTTTTGGAGCGGCTCATATTTCAATGTATCTAAAGGGATGCTTTCTGAAATTGAGATTATTAATTTAAAGGTGCTGGATGAGCGATGGGTTAAAGATCAAGGAGTGATAAATTATCTGGGAAGAGTGAAGTGTCGTGATCATAATGAGTTTTGTGTTCTGACCATGATTTCTATGGCTAATTTGTTAATTGGCAGTGGAGAGAGTGATTCAGGATTAAAGCTATTGGAGGAGGTAAGAAGGGCGGGGGTTGGTCAATGTCCTATTAACTTTGAGTTGAGTATTTTGAATTACAAAGCTCATGCATTGGCATCGCTAGGGCTGCCTGCAGCGAGAGTGGAGTCTGGTGCGGTATTGGAGAAGATAAAAAGACAGGGAGGGCTAATTTATGATTTGAGAAATGAAGCTTGCAACCAGCTTGCCGAAGAAAAGTCAGAGCTTTTTCATCAATACGTTGTTCTGGTTTCAAGGGTCATGGGGTATGCGGGTGGGGATATGGCAAAGGCTGGCGCTTATATTCAATCTGTAAACAGTCTGGTTTTTTGA	MVRVFVKRAFGVLVVLLLVFAGIVWLGRYVTDVGEEKSRWIRSGFWSGSYFNVSKGMLSEIEIINLKVLDERWVKDQGVINYLGRVKCRDHNEFCVLTMISMANLLIGSGESDSGLKLLEEVRRAGVGQCPINFELSILNYKAHALASLGLPAARVESGAVLEKIKRQGGLIYDLRNEACNQLAEEKSELFHQYVVLVSRVMGYAGGDMAKAGAYIQSVNSLVF				NA	NA	NA	NA	NA
BMS010_10190	471			hypothetical protein	GTGCTCGGCCAGGGTTTTCAGTTCGCTGGCCTGGCTGATGCCATCCTGGTTAGCGTCCTGCCAGACGCGGACATTGGCGAACTGGGCATCCTTGGCGTCGAACACGCCATCCGCATTGCTATCCAGATCGCTCAAGGCATCGAAGCCATTGACCGCTTTCTGCCCGTTGCGCTTGACGGTATCCACACCGAACAGCTCACGGCCGGTATCGATGGTGCCGTTGCCATTGCGGTCCAGCACCAGGAAACCATCGTCGCCCTTGACCCAGCCGGTGCCGGTTTTCAGGCCATCGCCATCGAAATCGAAAGTGATGCCGGTATTGGCGGACGTGGTTTCGATGCCGTCGGCGTCGAGGTCCAGGGTGAGTGGGTCGTAGCGCAATATGAAGTCAAGAGCATTTCGATAAAAATCGTTGACATCCTTAAGAATTGCGTCCCCGACGCCTTCAATTTCTTTCCAGAAGTCATTTAA	MLGQGFQFAGLADAILVSVLPDADIGELGILGVEHAIRIAIQIAQGIEAIDRFLPVALDGIHTEQLTAGIDGAVAIAVQHQETIVALDPAGAGFQAIAIEIESDAGIGGRGFDAVGVEVQGEWVVAQYEVKSISIKIVDILKNCVPDAFNFFPEVI				NA	NA	NA	NA	NA
BMS010_10191	837	sugA_3	COG1175	Trehalose transport system permease protein SugA	ATGCTTGCGCCATCGGTGCTGTTGTTGCTGGTGTGGATGATCGTGCCTCTGGCGATGACGCTCTGGTTCTCGTTCCAGAACTACAATCTCCTCAACCCGGCCAATGTCAGCTTCGCTGGTCTGTTCAATTACCAGTATTTCTACACCGACCCGGCCTTCTTCCAGTCGATCTGGAACACGCTGCTGATCGTCGGCGGCGTGCTGTTGATCACCGTCATCGGCGGCATCGCCATTGCGCTGTTGCTCGACAATGACATTTTCGGCCAGGGCATCGTGCGCATCATGATCATCTCGCCCTTCTTCGTCATGCCGCCGGTGGCAGCACTGGTGTGGAAGAACATGATCATGCATCCCGGTTATGGGGTGCTCGCCGATTTGTCGCGCTTCTTCGGTTTCCAGCCGGTCGACTGGTTTGCGCAGTTTCCGCTGCTCTCCATCATCATCATCGTCGCCTGGCAATGGCTGCCCTTTGCGACGCTGATCCTCTTGACCGCCCTGCAGTCGCTCGATGGCGAACAGAAGGAAGCCGCCGAGATGGATGGCGCCAACTTCGTCAACCGCTTCATCTATCTGACCCTGCCGCATCTGTCCCGCGCCATCACCGTCGTCATCCTCATCCAGACGATCTTCCTGCTCGGCGTTTACGCGGAAATCCTCGTCACCACCAATGGCGGCCCCGGTTATGCCTCCACCAACCTCGCCTTCCTCATCTATCGCACAGCACTTCTGGGCTACGACGTCGGCGGCGCTTCGGCCGGCGGCATCATCGCCGTCATCCTCGCCAATATCGTCGCCATCTTCCTGATGCGCGCCGTCGGCAAGAATCTGGATCGGTAG	MLAPSVLLLLVWMIVPLAMTLWFSFQNYNLLNPANVSFAGLFNYQYFYTDPAFFQSIWNTLLIVGGVLLITVIGGIAIALLLDNDIFGQGIVRIMIISPFFVMPPVAALVWKNMIMHPGYGVLADLSRFFGFQPVDWFAQFPLLSIIIIVAWQWLPFATLILLTALQSLDGEQKEAAEMDGANFVNRFIYLTLPHLSRAITVVILIQTIFLLGVYAEILVTTNGGPGYASTNLAFLIYRTALLGYDVGGASAGGIIAVILANIVAIFLMRAVGKNLDR	PGPT0016385_482	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MANNITOL|SORBITOL_TRANSPORT,PGPT0016385-smoF|mtlF-K10228	NA	NA
BMS010_10192	825	ngcG_5	COG0395	Diacetylchitobiose uptake system permease protein NgcG	ATGGCCCGCAAGACAACCACTCGCGCAAAGATCGGCTTTTCCATCGCGGCCTGGGCCGTGGCGCTGCTGCTTTTCTTCCCGATCCTCTACGCCTTCCTCACCTCGATCAAGACCGAGCCCGAGGCGATCGCCGGCTTCAGCCTCATTCCGTCCGGCACGCTCGAGAATTACGTGACGGTCCAGACCCAGCGCGATTACTTCAAGCCCTTCATGAACTCGGTAGTGCTGTCGCTCGGCTCGACGATCATCGCGCTGATCATCGCCATTCCCGCCGCCTGGGCCATGGCGTTCTCGCCGACCAAGCGCACCAAGGATATTTTGATGTGGATGCTCTCCACCAAGATGATGCCGGCCGTCGCCGTGCTGGTGCCGATCTATCTGATCTTCCGCAATGCCGGCCTGCTCGATACCCGCATCGGGCTCACCATCATGCTCACCTTCATCAACCTGCCGATCGTCATCTGGATGCTCTACACCTACTTCCGGGAAATCCCCGGCGAGATTCTCGAAGCCGCCCGCATGGATGGCGCATCGCTGTGGAACGAGATCGTCCATGTACTGACCCCGATGGCGGTTCCGGGCATTGCCTCGACGCTGCTCTTGAACGTCATCCTCGCCTGGAACGAATCCTTCTGGACCATCCGGCTGACGACCACCAATGCCGCCCCGCTGACGGCCTTCATCGCCTCCTTCTCCTCGCCGCAGGGGCTGTTCTGGGCAAAACTCTCGGCCGCCTCGATGATGGCGATCGCCCCCATTCTCGTCATCGGCTGGTTCTCGCAGAAACAACTCGTGCGTGGCCTGACCTTCGGCGCCGTGAAATAA	MARKTTTRAKIGFSIAAWAVALLLFFPILYAFLTSIKTEPEAIAGFSLIPSGTLENYVTVQTQRDYFKPFMNSVVLSLGSTIIALIIAIPAAWAMAFSPTKRTKDILMWMLSTKMMPAVAVLVPIYLIFRNAGLLDTRIGLTIMLTFINLPIVIWMLYTYFREIPGEILEAARMDGASLWNEIVHVLTPMAVPGIASTLLLNVILAWNESFWTIRLTTTNAAPLTAFIASFSSPQGLFWAKLSAASMMAIAPILVIGWFSQKQLVRGLTFGAVK	PGPT0016390_587	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MANNITOL|SORBITOL_TRANSPORT,PGPT0016390-smoG|mtlG-K10229	NA	NA
BMS010_10193	2037			hypothetical protein	GTGGAAATGGATCGGCAAACCGGTCGCCTCACGCAGCGCCTTGAACAGAACCCTGGCGGCGGCCGGTTTCAACAGGCCCGCCATGTCCTTGACGGCGATGATATGAGCCCCGGCCTTTTCAAGCTCGGCGGCAAGGTTGGTATAATATTTGAGATCGTATTTCGGACGCGCCGAATTCAACAGATCGCCGGTATAGCAGATGGTCGCCTCGCAGAGCTTGTTCTCCTCGGCAATCGCATCCATCGAGACACGCATATTCTCCACCCAGTTCAGGCAGTCGAAGACGCGGAAAAGATCGACCCCGCCCTTTGCAGCCTGACGGACGAAATATTTGACGACATTGTCCGGATAATTCTTGTATCCGACGCCGTTCGCACCGCGCAGAAGCATCTGCAGCAGCAGGTTCGGCGCGCCTTCGCGGATCAGCGCAAGACGCTCCCATGGGTCTTCCGTCAGGAAGCGCATGGAAACGTCGAACGTCGCCCCGCCCCAGCACTCCAGCGAAAGAAGCTGCGGCAGCGCCTTGGCGTAAACGCTGGCGACTCGGGCGATATCATGGGTGCGAACGCGGGTAGCCAGCAGCGACTGGTGCCCGTCGCGCATGGTCGTATCGGTAACCAGAACGCGTTTTTCATTGCGCATCCAGTCCGCAAAGCCCTTCGGGCCAAGCCTGTCCAGCACTTGCTTGGTGCCATCGGGCGTCGGCGCATCGATATAAGGAACGACGGGCTTTGCCGCTTTTTCGGACGGCCTGGCGCGACCCTTGGTTTCCGGGTGGCCGTTGACGGTCACGTCGGCAAGATAGGTCAGGAGCTTGGTGGCACGGTCCTGACGCTTGACCTGCGCAAACAGTTCCGGCGTCGAATCGATGAAGCGGGTCGTATAGGTGTTGTTGCGGAAACTTTCGTGACCGATGATGGCTTCGAGGAAGGTGAGGTTCGTTGCCACGCCGCGAATACGGAATTCGCGCAGCGCGCGGTCCATGCGGTTGATCGCCTCATCCGGTTGCGGCGCCCAGGCCGTTACCTTGACGAGCAGCGGATCGTAATAGCGGGTGATGACAGCGCCGGTATAGGAAGTACCGCCATCCAGACGGATGCCGAAGCCAGAGGCGGAACGGTAGGCGGTGATACGGCCGTAGTCCGGAATGAAGTTATGTTCCGGGTCTTCAGTGGTGATACGGCACTGCAGCGCATGGCCGTTGAGACGGATATCCTCCTGGCGCGGCACGCCGGATTCCGCACTGCCGATGGCAGCGCCTTCGAGAATATGGATCTGCGCCTTGACGATATCGATACCGGTCACGACTTCGGTGACGGTATGCTCCACCTGGATGCGCGGATTGACCTCGATGAAGTAGAATTTGCCGGTATCGGCATCCATCAGATATTCGACCGTGCCGGCGCCGATATAGCTGGTGGCGGCGGCGATCTTCAGGGAGTAGGCCGCAAGTTCCTGACGCTGCGCTTCGGTGAGATAGGGCGCGGGTGCACGCTCGACCACCTTTTGATTGCGGCGCTGGATCGAACAATCACGCTCGAACAGATGCACGACATTGCCATGCGTATCGCCGAGAATCTGGCTTTCGACGTGGCGAGCACGCTCGACCAGCTTTTCCAGATAGACCTCATCCTTGCCGAAGGCGGCTTTCGCCTCGCGCTTGGCTTCCGTCACCTCTCGGGCAAGATCCTCTCTTCTGCGGATGGCGCGCATGCCGCGTCCGCCGCCGCCCCAGGAGGCTTTCAGCATGACCGGATAGCCGATTTCCTCGGCCATGCGCTCCACTTCCGCCATATCGTCGGGCAGCGGATCGGTAGCGGGAACAACGGGGACGTTGACCGAGATCGCCAGATTGCGCGCAGCCACCTTGTTGCCGAGCTGGCGCATGGTTTCCGCCGTCGGTCCGATGAAGGTGATGCCGGCCTTGTTGCAGGCCTCCACGAATTCAGGGCTTTCAGACAGAAGGCCGTAACCGGATGGATCGCGTCCGCTCCGGAGAGCTTGGCTACGCGAATGACCTCCTCGATCGAAAGATAG	MEMDRQTGRLTQRLEQNPGGGRFQQARHVLDGDDMSPGLFKLGGKVGIIFEIVFRTRRIQQIAGIADGRLAELVLLGNRIHRDTHILHPVQAVEDAEKIDPALCSLTDEIFDDIVRIILVSDAVRTAQKHLQQQVRRAFADQRKTLPWVFRQEAHGNVERRPAPALQRKKLRQRLGVNAGDSGDIMGANAGSQQRLVPVAHGRIGNQNAFFIAHPVRKALRAKPVQHLLGAIGRRRIDIRNDGLCRFFGRPGATLGFRVAVDGHVGKIGQELGGTVLTLDLRKQFRRRIDEAGRIGVVAETFVTDDGFEEGEVRCHAANTEFAQRAVHAVDRLIRLRRPGRYLDEQRIVIAGDDSAGIGSTAIQTDAEARGGTVGGDTAVVRNEVMFRVFSGDTALQRMAVETDILLARHAGFRTADGSAFENMDLRLDDIDTGHDFGDGMLHLDARIDLDEVEFAGIGIHQIFDRAGADIAGGGGDLQGVGRKFLTLRFGEIGRGCTLDHLLIAALDRTITLEQMHDIAMRIAENLAFDVASTLDQLFQIDLILAEGGFRLALGFRHLSGKILSSADGAHAASAAAPGGFQHDRIADFLGHALHFRHIVGQRIGSGNNGDVDRDRQIARSHLVAELAHGFRRRSDEGDAGLVAGLHEFRAFRQKAVTGWIASAPESLATRMTSSIER				NA	NA	NA	NA	NA
BMS010_10194	90			hypothetical protein	ATGAAGGTGGGGTTTGTGGAGCGGTTACAGCAGTTCCGCCAGCAGGGTGTGCTGCTCAGCGAATACCAGTACGACGAACAGGCCGCCTGA	MKVGFVERLQQFRQQGVLLSEYQYDEQAA				NA	NA	NA	NA	NA
BMS010_10195	444			hypothetical protein	ATGGAAATCGAACGCAAGCGGCTGCGCATCAGCCCTGTGCAACTGGGTGCTCGGCCGGTCCCGGAGGTGCCGGATCGTTGGGTGCTTGCCGGCCCCGACCGGGAGGAGATGACGATTACCTGCACGGATGCGGAAGGCGAGGTGTTCACGCTCACGGTCCGGATCGCCCGGTTGCTGGCCGAGGGGCAGTCGTATCAGTTGGCGGCGGCGCTGACGCTCAACCATGAGGTGGCCTGTCTCAATGGCGGGGCGGTTGCCTATGACGTGGATGACGACACCTTCCTGTACTGCAAACGGGTCGAGGCTCGCACGCTGGACCTCTCCGCCTTCAACGATCGGATCGCCCGTGCCTTTTCGACGGCCCGCCTGCTGCGCGAACGGCTGGCGCAAGCGCAAGGGCGCATCCGGCCGGCCACGGCGCAAGCCTTCCAACCCAAGGCGTAG	MEIERKRLRISPVQLGARPVPEVPDRWVLAGPDREEMTITCTDAEGEVFTLTVRIARLLAEGQSYQLAAALTLNHEVACLNGGAVAYDVDDDTFLYCKRVEARTLDLSAFNDRIARAFSTARLLRERLAQAQGRIRPATAQAFQPKA				NA	NA	NA	NA	NA
BMS010_10196	987			hypothetical protein	ATGGTCGGGATGAGTTCGATCGGCAACATCTTCCGCAGCGTTGCCGTCGCCACGAGCCTGCATGCGCCGCACGCCGCGCGCCCTCTGTCGAGCGCCAGTGAAGACTGGAACAAGACGTTGGGAAAACTGGAAAGGAAGTTCCTCGGCAATACCAATGCCGGCGTCCCTGCATTCCGGCGGGACGATTTCGCGAAGCACTCGATGGGCGCTCATGTCAGCCGCCTGCCATTGGGCAACATGCTGTTCCAACGCGGCATCTACACCGGTATCGCGGGCCTGTATGAGAAAACCACCGGCAAGCTGATGGATTACGACCGGATGAAGGTCAACGCGGTGGCCGCGTCGGTGTCCTGGGCTTTCCAGAACGATCTGCTGCCCGACAAGGCGAACAGCATCGTCGATATCGGCGCCGCCCATGGTGGCGCAACGGTGCAGCTCGGCAAGAAGTACCAGGAGGCGAGCATCCTGGCATTGGACCCGGATCCGCAGTCGGCGAAGTTCATCGAGGAGAAGGTCAAGGGCGGCGATTCGGTGTTGAAGAATCCCGAACGTCTGGCGACCTTCTCGGGGACCTTCCAAGAGGCCTTTTCCGCGGGCAAGGTCAAGGAAAACAGTGCCGATCTTGTCGTCATGCAGGCCGTGGCGCCTTATCTGTCGGACGAGGAGCTGGCGGACACCCTGAAAGGTATCCATACGGCCTTGGCCTCGGGCGGGAAAGTCGTGCTGTCCTGTTACGGCGAGGAGCACTTCAGCAAGACCAACGCCAACAGCACGCTCGCGCTGAGGTCGGACATGCAGATGCTGGAGATGTTCAAGAACGCCGGCTTTTCGGTGGAATGCGTTGGCAATAAGCTGCAGGCCGGGGATGGCAAGAGCTACGAGAAGAACACCCGGGAAATGGGCGATGTCATGGAGCAGAAAAGCATGCCCGGGCATCCCGATGGCAAGTATTGGCATTCGGTCTATATCGCCGCGACCAAGCCGTGA	MVGMSSIGNIFRSVAVATSLHAPHAARPLSSASEDWNKTLGKLERKFLGNTNAGVPAFRRDDFAKHSMGAHVSRLPLGNMLFQRGIYTGIAGLYEKTTGKLMDYDRMKVNAVAASVSWAFQNDLLPDKANSIVDIGAAHGGATVQLGKKYQEASILALDPDPQSAKFIEEKVKGGDSVLKNPERLATFSGTFQEAFSAGKVKENSADLVVMQAVAPYLSDEELADTLKGIHTALASGGKVVLSCYGEEHFSKTNANSTLALRSDMQMLEMFKNAGFSVECVGNKLQAGDGKSYEKNTREMGDVMEQKSMPGHPDGKYWHSVYIAATKP				NA	NA	NA	NA	NA
BMS010_10197	954			hypothetical protein	GTGAAGGATCAGGTTGTTGCCCTGGCGCTCCAGGCTCAGGTCCTTGACCGCGATGCCCTCACCGAAACGCACCACGTCCGTCGCTGTCTGCGCGCTGTAGTAGGTTTCGGCAATCACGTCCTGGCCATCGCCCCGGTTCAGCAGGTAGGTGTCGCTGCCTTCGTAACCGTCCAGCACATCGTTGCCACGGCCGCCGATCAGCAGGTCGTCACCGTGCCCTCCATAGAGACTGTCGTTACCGGCCCCACCCAGCAGTTGGTCGTTGCCGCTGCCGCCGTTCAGGGTGTCGTTACCCTCACCGCCATCGAGGATGTCGTTGGCATTGCCTCCCGTCAGGCTGTCGTTGCCCGCCAGCCCTTTGAAGTGAGCCGCTTCACTGTTGTACGGGCTGAACTTGTCGTCACCTTCCGTGCCCGATACACCCAGTTCCACTTCCAGGCTGTTCACCGTGCGGCTGCTGCCATCGGCGAATTCGATCTTCTCGATCCGGCTCAGCGAATTGCTGTACCAGTTGGTAAACGTCACGCTGTCCGACTCGCTGTAGCGTACGATCAGGTTGTTGCCCTGGCGCTCGAGGCTCAGGTCCTTGACCGCGATACCCTCGCCAAAACGCACCACGTCCGTCGCGGTCTGTGCGCTGTAGTAAGTCTCGGCGATCACGTCCTGGCCATCGCCCCGGTTCAGCAGGTAGGTGTCGCTGCCTTCGTAGCCATCCAGTACGTCGTTGCCACGGCCACCGATCAACAGGTCGTCGCCGTGACCGCCATAGAGGCTGTCGTTACCGGCACCGCCCAGCAGTTGGTCGTTGCCGCTGCCGCCGTTCAGGGTGTCGTCGCTCTGACCCAACGCAACCAGAATGTCGTTGCCACTCTCTCCATTCAGGGTTGTAGAACCAATCAGCAAATCATCACCAGAAGTGCCCTTGGCCTGGAAAATAGAAATGACGTCAGCTAA	MKDQVVALALQAQVLDRDALTETHHVRRCLRAVVGFGNHVLAIAPVQQVGVAAFVTVQHIVATAADQQVVTVPSIETVVTGPTQQLVVAAAAVQGVVTLTAIEDVVGIASRQAVVARQPFEVSRFTVVRAELVVTFRARYTQFHFQAVHRAAAAIGEFDLLDPAQRIAVPVGKRHAVRLAVAYDQVVALALEAQVLDRDTLAKTHHVRRGLCAVVSLGDHVLAIAPVQQVGVAAFVAIQYVVATATDQQVVAVTAIEAVVTGTAQQLVVAAAAVQGVVALTQRNQNVVATLSIQGCRTNQQIITRSALGLENRNDVS				NA	NA	NA	NA	NA
BMS010_10198	357			hypothetical protein	ATGATGCGTCCGGACGCCAAGGTCAAAGCCGTCTATCTCTATCCGAAGCCCGTCGACTTCCGGAAATCCATTGATGGTCTGGCGGCCCTGGTGGAGTTGGACATCAAGGTGGCCGTATTCGACCCAGTGTTATTCGTCTTCCTCAACAAAACGCGCAACCGGGTGAAAATCCTCTACTGGGAACGCAATGGCTTCTGCCTGTGGTTCAAGCGTCTGCAGGCTGAGCGCTTCAAGACCAAGCCCGATGCGGAAGAACCCATCGTGTTGACGGTGCGGGAACTGAATCAGCTGCTGGCCGGTTTCGACCTCTGGGGGAACCAGCCACACAAGGTACTGACCCCGCGTTTTGTAAGCTGA	MMRPDAKVKAVYLYPKPVDFRKSIDGLAALVELDIKVAVFDPVLFVFLNKTRNRVKILYWERNGFCLWFKRLQAERFKTKPDAEEPIVLTVRELNQLLAGFDLWGNQPHKVLTPRFVS	PGPT0030625_4000	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030625-tnpB-K07484	NA	NA
BMS010_10199	1506			IS66 family transposase ISPa82	ATGAAATCCGGCGCTGACTCCCTTCCCGACGATCCCGTCCTGCTCAAGGCTCTGGTTCTGCAATTGCAGGAGCAGGTCGCCCTGCTGCGCCACAAACTGTTCTCGCCAAGGTCCGAGCGCAGCCCCGAGGATGCCGACTCCCCGCAACTGGCCATGTTCAACGAGGCTGAGGAGTTGCTCGAAGAGCCTGCCGCTGAATCGAGTGAAGTAGAGGCCGAAGAAGTCGTCGCCCCCGTGAAGCGACGTGGCAAGCGCAAGCCACTGCCGGCCAATCTGCCGCGCGTGGAAATCGTCCATGAACTGCCCGAGCATGAGCTGACTTGCGCGTGCGGCTGCCGCAAACAGGCCATCGGCGAGGAAACCAGCGAGCAGCTGGAAATAATCCCGATGCAGGTGCGGGTGATCCGCCATATCCGCAAGACCTACGCCTGCAAGGCCTGCGAAGCCGCACCGGTCACCGCTGACAAACCGGCGCAACTGATCGAGAAAAGCCTGGCCAGCCCCAGCGTGCTGGCCATGCTGTTGACCACCAAGTACGCCGATGGCATCCCGCTGTATCGTTTCGAGAAGATGCTCAGTCGCCACGGTATCGACATCCCCCGCCAGACGTTAGCGCGCTGGGTGATCCAGTCTGGCGAACAGTTGCAGCCCCTGCTCAACCTCATGCGCGACCAGTTGCTGGGTTACCCGGTGCTGCACTGCGACGAAACCCGGCTCCAGGTGCTGCATGAACCCGGGCGCGATCCCACGGCGCAGTCCTGGATGTGGGTGCAAAGCGGCGGCCCGCCGGAGAAACCTGTCGTCCTGTTCGACTACAGCACCAGCCGTGCGCAGGACGTGCCGTTGCGCCTGCTCGAAGGCTATCGCGGCTACCTGATGACCGATGACTACGCCGGCTACAACGCCGTGGCCGCGCAAGCGGGAATCGAGCGCCTAGCCTGCTGGGCCCATGCCCGGCGCAAGTTCATCGACGCGCAGAAGGTGCAGCCCAAGGGTAAGATCGGGCGTGCCGACATGGCCTTGAACCTGATCAACAAGCTCTACGGCATCGAGCGCGACCTGAAGGAGGCTAGCGACAGCAAGCGCCTGGTCGCCCGTCAGCAACGTAGTCAGCCACTGCTCGACCAACTCAAGGTCTGGCTGGACAAGACCCAGCCGCAGGTCACCGCGCAGAATGCCCTGGGCAAGGCGGTGAACTACCTGGCCAGCAACTGGAGCCGGCTCGTGCGCTACGTCGAGGGCGGGCATCTGCCCATCGACAACAACCGTGCCGAGAACGCCATCCGCCCCTTTGTCATCGGCCGCAAGAACTGGCTGTTCAGCGACACGCCCAAGGGCGCCACGGCCAGCGCGCAGATCTACAGCCTGATCGAAACTGCCAAGGTTAATGGGCAAGAGCCCTATGCCTGGCTGCGCTATATCCTCGAACGCCTGCCGTTGGCCAATAGCATCGAAGACTTCGAAGCCCTGCTGCCGTGGAACTGCCCGCCGACGAGCGCATCTTGA	MKSGADSLPDDPVLLKALVLQLQEQVALLRHKLFSPRSERSPEDADSPQLAMFNEAEELLEEPAAESSEVEAEEVVAPVKRRGKRKPLPANLPRVEIVHELPEHELTCACGCRKQAIGEETSEQLEIIPMQVRVIRHIRKTYACKACEAAPVTADKPAQLIEKSLASPSVLAMLLTTKYADGIPLYRFEKMLSRHGIDIPRQTLARWVIQSGEQLQPLLNLMRDQLLGYPVLHCDETRLQVLHEPGRDPTAQSWMWVQSGGPPEKPVVLFDYSTSRAQDVPLRLLEGYRGYLMTDDYAGYNAVAAQAGIERLACWAHARRKFIDAQKVQPKGKIGRADMALNLINKLYGIERDLKEASDSKRLVARQQRSQPLLDQLKVWLDKTQPQVTAQNALGKAVNYLASNWSRLVRYVEGGHLPIDNNRAENAIRPFVIGRKNWLFSDTPKGATASAQIYSLIETAKVNGQEPYAWLRYILERLPLANSIEDFEALLPWNCPPTSAS	PGPT0030625_1782	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030625-tnpB-K07484	NA	NA
BMS010_10200	1098	lysDH_2		Lysine 6-dehydrogenase	ATGAACGTCCTCCTGCTCGGCGCCGGCCACATCGGTTACACCATCGCTCAACTCCTGCATAACTCCGGCGACTACAAGGTGCTTGTCGCCGACCGCGACGAAGAATCGCTCAAGAGCATCGCCAGTCTGGGTATCGCGACCCGTCAACTGGACTCATCAGATAGCAGCGCCCTGGAAACCACCCTGCGTGCATTCGATGCCGTCCTTAACGCTCTGCCGTACCACATGGCAATTACCGTGGCCACGGCGGCCAAGAAGGCAGGCACTCACTACTTCGACCTGACCGAAGACGTCCACGCCACCAAGACCATCCGTGCCCTGGCCGAAGGCTCCCAAACAGCGTTCATGCCCCAGTGCGGTCTTGCTCCTGGCTTCATCGGCATTGCCGCCCACTCCCTGGCCAGCCGTTTCGACAGCATTCGCGAAGTGAAGATGCGTGTCGGCGCGTTGCCTGAATTTCCAACCAACGCCCTCAAGTACAACCTGACCTGGAGCGTGGACGGCCTGGTCAATGAGTACTGCCACCCCTGCGAAGCCATCCGTAACGGCCGACTGCAATTGGTACAGCCGCTGGAAGGCCTCGAGCATTTCTCTCTGGACGGCGTGGAATACGAGGCCTTCAACACTTCAGGCGGCCTGGGCACTTTGTGCGAAACGCTGGAAGGCAAAGTCGAAGTGCTGGACTACAAGACCGTTCGCTATCCCGGCCATCGCGATCTGATGAAGTTCCTTCTCGAAGACCTTCGTCTCGCCGGCAACCAGGAGAAGCTGAAGGACATTCTCCGCGGTGCCGTACCAAGCACCATGCAGGACGTCGTCCTGGTGTTCGTCACCGTCAACGGTCTGCGTGACGGCAAGCTGGTTCAAGAGGTGTTCAGTCGGAAGATCTTCGCCGCCGAACAGAATGGGCGCCTGACCAGCGCCATCCAGATCACCACGGCGGCCGGCATCTGCGCCGCGCTCGATCTGTTCCGCCAAGGCCAACTGCCGCAGTCCGGCTTCATCAGCCAGGAGCAGGTTTCGCTCGAAGCTTTCCTGGCCAACCGTTTCGGCATGGCGTACGAAGCCCATACCAACGAAGCTCGAGAAGCTGCCTGA	MNVLLLGAGHIGYTIAQLLHNSGDYKVLVADRDEESLKSIASLGIATRQLDSSDSSALETTLRAFDAVLNALPYHMAITVATAAKKAGTHYFDLTEDVHATKTIRALAEGSQTAFMPQCGLAPGFIGIAAHSLASRFDSIREVKMRVGALPEFPTNALKYNLTWSVDGLVNEYCHPCEAIRNGRLQLVQPLEGLEHFSLDGVEYEAFNTSGGLGTLCETLEGKVEVLDYKTVRYPGHRDLMKFLLEDLRLAGNQEKLKDILRGAVPSTMQDVVLVFVTVNGLRDGKLVQEVFSRKIFAAEQNGRLTSAIQITTAAGICAALDLFRQGQLPQSGFISQEQVSLEAFLANRFGMAYEAHTNEAREAA	PGPT0020340_1092	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020340-lys|aasS-K00290	NA	NA
BMS010_10201	1440			IS1182 family transposase ISPpu20	ATGGGGGCATTGTTGTTTATGGGATACATCCAGGGCGAAGGTCGTCAGCAAAGCAGCTTGTTTCCACCCACGTTGGAGGAGCTGGTGCCAGAGGATCATCTGGTACGGGTGATCGAGGCCTATGTCACTCGTCTGGATCTGCATGCCCTGGGCTTCAGCAAAGCCGAGCCACTCAAAACCGGGCGTCCTGGCTATGATCCGGCGGATCTGCTCAAACTCTATCTATACGGCTACTTCCAGCGCATCCGTTCTTCCCGCCGGCTTGAGGCTGAGTGCCAGCGCAATGTCGAGGTGATGTGGCTGCTGGGTCGATTGGCGCCGGACTTCAAGACCATCGCCGATTTTCGCAAGGACAACGGTGTGGCTTTTCAGGCGACCTGTCGCGCCTTCGTGCAGTTCTGCCGCCAGGTGGGACTGATCAGCGGGCAACTCGTGGCCATCGATGGCAGCAAGTTCCAGGCGGTGGCGTCACAACGCAAGCACCTGAGCCTGACGAAGCTCAAACGCCAACAAGCCAAACTGGAGGCGCAAATCGCCCGTTATCTGGCGGAACTGGACGAGGCTGACCGCAGTGAAGCGGCTGAAGTGGTTGAACGCAGTGCGGTCAAGGCTGCGCTGCAACACCTGGAGAGCCGACATGCCGATAACCTGACGGCCCAGGCACTGATGGAGGTGCAGGGGCTGGATCAGTTCGTCGTTGGTGAGGACGAGGCCCGCCTGATGCGCACCCACCAGGGCGCCAAGGTGGCGTTCAACGTGCAGAGCGCGGTAGATGGCGAGTATGGGCTGATCCTGCATCATGCGGTCACTCAGGACGGCAACGATAACCAGCAACTGGAGCCTATGGCCAAGGCCGCCCAGGCGATCCTGGAGCAGGAGCAACTGTCGGTCACCGCAGATGCCGGCTACTCCAATGGCGAGCAGTTCCAAGCCTGTGACGATACCAAGATCACGGCCTATGTACCGGCAAACCGGGGGATCAACAATCAGGGTGACGATACGCTGCTGTTCGAGCGCGATGCTTTCATCTATGACGCCACCCACGACCAGTACCAATGCCCAGCAGGCAAATGGCTACCGTTCAAGCAGGTCAATGGCCTGCAGCGCATCTATGCCGTGCGTGGCGACTGTATCCATTGTCCGCTGAAACTACGCTGCACCAAGGCCAAGCGCCGGTACGTGACTCGGCATGTTCATGAGGCAGCGTTCGAGCGCATGCATCAGCGGATGCAGGCACATCCGGAGATGATGGTCAGGCGTCGATCCATCGTCGAACATCCCTTTGGCAACCTGAAGCAGTGGGTCCTGGGTAATGGCCGCTTCCTGCTCCGACAACTGCGGGGAGCGCGTACGGAAATGGCCCTGGCGGTCAACGCCTACAACCTGAAACGCGCCATCAATGTGCTTGGTGCCCGTCGGTTGATCGAACTGTTGGGATAA	MGALLFMGYIQGEGRQQSSLFPPTLEELVPEDHLVRVIEAYVTRLDLHALGFSKAEPLKTGRPGYDPADLLKLYLYGYFQRIRSSRRLEAECQRNVEVMWLLGRLAPDFKTIADFRKDNGVAFQATCRAFVQFCRQVGLISGQLVAIDGSKFQAVASQRKHLSLTKLKRQQAKLEAQIARYLAELDEADRSEAAEVVERSAVKAALQHLESRHADNLTAQALMEVQGLDQFVVGEDEARLMRTHQGAKVAFNVQSAVDGEYGLILHHAVTQDGNDNQQLEPMAKAAQAILEQEQLSVTADAGYSNGEQFQACDDTKITAYVPANRGINNQGDDTLLFERDAFIYDATHDQYQCPAGKWLPFKQVNGLQRIYAVRGDCIHCPLKLRCTKAKRRYVTRHVHEAAFERMHQRMQAHPEMMVRRRSIVEHPFGNLKQWVLGNGRFLLRQLRGARTEMALAVNAYNLKRAINVLGARRLIELLG	PGPT0030640_53	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030640-truncated_tnp-K07487	NA	NA
BMS010_10202	1332		COG3385	IS4 family transposase ISVvu2	ATGCGGCTCTCACGTGCGCTAGCCCTTACCCACGAAATCGCCAGCACCGCCCATGCACTCGATGGACTTGGCGAGCTGCTTGACCCCGAACTGGTCCGGTCGGCCTTCGAGACCGCAGGGGTAGCGACTCTGCGCAAGAGGCGGCTCCCTCTGGAGGCGATGATTTGGTGCGTGATTGGGATGGCCCTGTTTCGCCGGATGTCGGCCTGGGATGTCGTCAACCAGATGGACATCATGCTACCCGGACAGCGCCCCTTGGTGGCCCCCAGCGCCGTGGTTCAAGGACGCCAGCGCCTGGGCAGCCAGGCGGTACGTGAAGTGTTCGCCCTGACGCAGCAGCGCTGGCACGCCTCGGCCAATCATCCGAGCTGGATGGGGCTGCGCCTGCTCAGTGTCGACGGTGTGGTCTGGCGCACGCCCGATACGCAGGAGAACCGCGAGCGCTACGCCAGCTCCACCAACCAGTATGGCGATACCGGTTTTCCACAGGTGCGCATGGTGTGTCAGATGGAATTGACCAGTCACCTGTTGGTCAGCAGCGCCTTCGCCGGTTACCACAGCAACGAAATGAAACTGGCCGAGCAACTGGTCGCCAGTACACCCGATCACTCGTTGACCCTGTTCGACCGCGGCTTCTACTCCCTGGGCTTGTTGCACCATTGGCAGCAGGCCGGCACCCAGCGTCACTGGCTGATCCCGCTGCGCAAGGGGGCTCGCTATGACGTCATCCACCGGCTGGGCCGCCAGGATGTCATCGTCAGCCTGCCGATCTCGGCGCAGGCGCGAAAGCAATGGCCGGACCTGCCGGAAACCCTGCAGGCGCGGCTCCTGAGCAAGACAGTCAAGGGCAAGGTGCGCCAGATCCTGACCTCGATGACCGATCCCCTGCGCTTCCCGTCAGAGGAAATCGTCGACTTGTACAGTCAGCGCTGGGAAATCGAACTGGGCTACCGGGAGATGAAGCAGAGCCTGCTGGACAGCCGCTACACGTTGCGCAGCAAGACGCCGGAAATGATCGAGCAAGAGCTCTGGGGAGTACTGCTGGGCTACAACCTGCTGCGCTACCAGATGCTGGAAATGAGTCGCCATTGTCCCGGCATCTACCCCTGCGAGATGAGCTTCACCGCCTGCACCTGGGCGATCCTCGGGTTACTCAATGGCCTTTCCCTACGGCATCCGGGCAACATCCCCAAATACTTGGCAGAACTGCATGCGTCAGCCATGCATTACGTGCTGCCGCATCGGCGGGAGGATCGGTGTTACCCCCGAGCGGTCAGGCCAAAACCCTCCAAGTATCCGCCCAGAAATAAAAATGCCAGTCAGCTTAACTGA	MRLSRALALTHEIASTAHALDGLGELLDPELVRSAFETAGVATLRKRRLPLEAMIWCVIGMALFRRMSAWDVVNQMDIMLPGQRPLVAPSAVVQGRQRLGSQAVREVFALTQQRWHASANHPSWMGLRLLSVDGVVWRTPDTQENRERYASSTNQYGDTGFPQVRMVCQMELTSHLLVSSAFAGYHSNEMKLAEQLVASTPDHSLTLFDRGFYSLGLLHHWQQAGTQRHWLIPLRKGARYDVIHRLGRQDVIVSLPISAQARKQWPDLPETLQARLLSKTVKGKVRQILTSMTDPLRFPSEEIVDLYSQRWEIELGYREMKQSLLDSRYTLRSKTPEMIEQELWGVLLGYNLLRYQMLEMSRHCPGIYPCEMSFTACTWAILGLLNGLSLRHPGNIPKYLAELHASAMHYVLPHRREDRCYPRAVRPKPSKYPPRNKNASQLN	PGPT0030675_100	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030675-putative_transposase-K07495	NA	NA
BMS010_10203	438			hypothetical protein	ATGAGTCAGATGTTGCAGATGTTCCGCCAGGCCGGCCCGGCCCAGTTCAGCGCCATGATCGGCCAGGTGGCACCCTACTTCGCCAGCATCGCCCCACAGGTCGTCGAACTGCGTCCGGGTTATGCGGAAGTGACCTTCCCCAAGCGACGCGAAGTGCTGAACCACATTGGCACCGTTCATGCCATCGCACTGTGCAACGCCGCCGAACTGGCGGCCGGTACCATGACCGATGCCTCCATCCCACCGGGCTGTCGCTGGATTCCACGCGGCATGACCGTGGAGTACCTGGCCAAGGCCGACGGCGACATCCGCACCGTAGCCGATGGTAGCGCCATCGACTGGAGCCTGATCGGCGACGTCAAGGTGCCGGTGATGGCCTATGTGGGCGATAAGCCGGTGTTCCGCGCCGAGATCACCATGTACGTCAGCCAGGCATGA	MSQMLQMFRQAGPAQFSAMIGQVAPYFASIAPQVVELRPGYAEVTFPKRREVLNHIGTVHAIALCNAAELAAGTMTDASIPPGCRWIPRGMTVEYLAKADGDIRTVADGSAIDWSLIGDVKVPVMAYVGDKPVFRAEITMYVSQA				NA	NA	NA	NA	NA
BMS010_10204	579	bm3R1		HTH-type transcriptional repressor Bm3R1	ATGGCCCGTCGTTCACGCAAGGATGAAATCCTCCAGGCCGCGCTAGCCTGCTTCACCGAATTCGGTGTCGATGCCACCACCATCGAGATGATCCGCGATCGCTCCGGTGCCAGCATCGGCAGCCTCTATCACCACTTTGGCAACAAGGAACGCATCATCGGCGCGCTGTACCTGGCGGGTACGGCGGAATATGCCGCCCTACTGGAAGAGGGTTTCGCCGTGGCCGACAGTGCGGAGGCCTGTGTGAAGCTGCTGGTGACCAGCTACATCGACTGGGTGGTGGCCAACCCGGACTGGGCACGTTTCATCCTGCACAGCCGAGGGCGCGTCGAGGCGAGCGAGATGGGGGAGGCGTTGCGCGAAGCCAATCGCGTGCATTACGGACGCATCAACCAGGCTCTGGCGAGCTACCGCGAACAGGGTGTGTTCAAGCCGATACCGGCGGACTGCTTTTCATCGCTGATCATCGGGCCGACCCACGACTTTGCCCGCAACTGGTTGGCCGGGCGCACGAAGACGGCGTTGATCGAATGCCGCGATCTGTTGGCCCAGGCGGCTTGGGATAGTGTCAGCGCATAA	MARRSRKDEILQAALACFTEFGVDATTIEMIRDRSGASIGSLYHHFGNKERIIGALYLAGTAEYAALLEEGFAVADSAEACVKLLVTSYIDWVVANPDWARFILHSRGRVEASEMGEALREANRVHYGRINQALASYREQGVFKPIPADCFSSLIIGPTHDFARNWLAGRTKTALIECRDLLAQAAWDSVSA				NA	NA	NA	NA	NA
BMS010_10205	1332		COG3385	IS4 family transposase ISAzvi6	ATGCCTATTCAGCAGCAATTGCTCGACCTCGGCGATCTCTTCAACTTTTCCGATCTGAGTACCTTCACCCAGAACATCCCTGTTGAATGGGTGGCAAGTGCGCTCAACCTCTCTACTCAAGCCACGATACGGCGGCGGCGCCTGCCGAGTGATCAGGTGCTTTGGTTGGTGCTAGGCATGGCTCTGTTTCGCGATGAGCCCGTCCACGAGGTGGCCAGACGCCTGAATATCTGTGCCCAAGGCCTGGCTTCCGATCAACTGCTCGCGCGCAGTGGCGTGACTGAAGCGCGTAAGCGGCTGGGTGCCGACCCGGTCGAATCCTTGTTCCGCCAAACAGGCAAGCAATGGGGTTGCGAGCGATACGAAGGCGACGCCTGGAACGGTTTGCAGGTGTTTGCGGTGGACGGTGCATTGCTTCGAACCCCCGATTCGCCTGAGCTGAGAGAGCATTTTGGCTCTGGCAATACAAACACCGAACGCCAGACGCCTTTTCCAATGCTGCGGCTCGTTGCCTTGATGAATGTGCGCTCACACGTGATCCTCGATGCCCAGCTCAGCCCATATCGCGGCAGCGAAATGCGTTTGGCTGAGACCTTCCTGAGCCAGATTCCGGACAATTCGATTACGTTGTTCGACAAGGGCTTCTGGGGCGCTGATCTGCTGCTGAGCGTGGCGGATAGAGGCAGCCATCGGCATTGGTTGACGCCAGCCCGCAAAAACCTGGTGATGGAAGAAGTCGAGCGTTATGGCGAATATGATCGCCGCGTGCGAATGAAAGTCTCGCCTCAGGCCCGCAAACGGAACCCCAATCTGCCTACACATTGGGAAGTACGTGAGGTCAGTTATGAGAGCCAAGGAGGCATCAGATCGCTACTCACATCGCTGCCAGTCGAGGGCTACAGTGCAGAGGCTGTCGCCGAGCTGTACCTGGAGCGCTGGGAGATAGAGCTAGGCTTCAGGGACATCAAAAGCTCGATGCAGCAGAACGCGGTGACGCTGCGTAGCAAGAAGGTCGACCTGATTTACCAAGAAGTTTGGGGGCTTTTGCTGGCTTACAACATCGTCAGGCGGGAGGCCAGCCAAGCTGCCGTGGCTTTCGGCCGAATGCCTTCGGACATCCGTTTTAAGCCCGCCTGCCAGTACATTGCCGTGCAATTGATCGTCATGGCGGCAGCCAATCCGGTGTCGGCAACAGGCAGAAGGTTAGCTGAGCTACGAGGGGGTATCGGAGGGATGTTTCTGGATCACCGTCCAAGGCCAGGAAGGCCAAGGACGGTGAAGATGTCCAAAACCCGGTATCCAGTGGATCGTAAGGCTGCTCCGCTTAAGTGA	MPIQQQLLDLGDLFNFSDLSTFTQNIPVEWVASALNLSTQATIRRRRLPSDQVLWLVLGMALFRDEPVHEVARRLNICAQGLASDQLLARSGVTEARKRLGADPVESLFRQTGKQWGCERYEGDAWNGLQVFAVDGALLRTPDSPELREHFGSGNTNTERQTPFPMLRLVALMNVRSHVILDAQLSPYRGSEMRLAETFLSQIPDNSITLFDKGFWGADLLLSVADRGSHRHWLTPARKNLVMEEVERYGEYDRRVRMKVSPQARKRNPNLPTHWEVREVSYESQGGIRSLLTSLPVEGYSAEAVAELYLERWEIELGFRDIKSSMQQNAVTLRSKKVDLIYQEVWGLLLAYNIVRREASQAAVAFGRMPSDIRFKPACQYIAVQLIVMAAANPVSATGRRLAELRGGIGGMFLDHRPRPGRPRTVKMSKTRYPVDRKAAPLK				NA	NA	NA	NA	NA
BMS010_10206	405	fur_3	COG0735	Ferric uptake regulation protein	ATGGTTGAAAATAGCGAACTACGCAAAGCTGGCCTGAAAGTGACTCTGCCGAGGGTCAAGATCCTGCAGATGCTTGATTCCGCCGATCAGCGTCACATGAGTGCCGAAGATGTCTACAAGGCGCTGATGGAGGCTGGTGAGGATGTCGGCCTGGCCACGGTGTATCGCGTGCTGACCCAGTTCGAGGCCGCCGGCCTCGTCGTTCGCCACAACTTCGACGGTGGCCATGCGGTATTCGAGCTGGCTGACAGCGGTCACCACGATCACATGGTTTGCGTGGATACCGGTGAAGTCATCGAGTTCATGGATTCCGAGATCGAGAAGCGCCAGAAGGAAATCGTCAGGGAGCACGGCTTCGAGCTGGTTGACCACAACCTGGTGCTCTACGTCCGCAAGAAAAAGTGA	MVENSELRKAGLKVTLPRVKILQMLDSADQRHMSAEDVYKALMEAGEDVGLATVYRVLTQFEAAGLVVRHNFDGGHAVFELADSGHHDHMVCVDTGEVIEFMDSEIEKRQKEIVREHGFELVDHNLVLYVRKKK	PGPT0003880_4949	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003880-fur|furB|zur-K03711	NA	NA
BMS010_10207	519	bamE		Outer membrane protein assembly factor BamE	ATGCAAAACACCAAGCTCTTGCTGACCAGCCTTAGCCTGACGGGGTTGCTGGCTCTCGCCGGCTGTTCTTTCCCCGGGGTTTACAAAATCGACATTCAGCAGGGCAATGTCGTGACGCAGGACATGATAGACCAGTTGCGGCCTGGAATGACCCGTCGGCAAGTGCGGTTTATCATGGGCAACCCCTTGATTACCGACACTTTCCACGCCAACCGCTGGGACTACCTGTACAGCATCCAGCCGGGCGGTGGCCAGCGTCAGCAGGAGCGTGTCAGTCTGGTTTTCGACGGCAACGATCAACTGGTTGGCCTCGCCGGTGACTTCATGCCCGGCGTCAGCCGCGACGAAGCGATCCTGGGGCAGGATGGCAAGACCACCGTCACACCGAAAGCCGAGCGACCCAAGAGCGAAGAACCGGCCAAGCCGGGCTCGCTGCTGGAACAGATCCAGCGCGAAGTGGACGACGTCGAGACCGTGCCGGTTCCGACTCCGGAGCCACTGGACACCAATCCCCAGTGA	MQNTKLLLTSLSLTGLLALAGCSFPGVYKIDIQQGNVVTQDMIDQLRPGMTRRQVRFIMGNPLITDTFHANRWDYLYSIQPGGGQRQQERVSLVFDGNDQLVGLAGDFMPGVSRDEAILGQDGKTTVTPKAERPKSEEPAKPGSLLEQIQREVDDVETVPVPTPEPLDTNPQ				NA	NA	NA	NA	NA
BMS010_10208	267			IS3 family transposase ISAtu5	ATGAAGAAGCAGAGATTTACGGAAGAGCAGATTATTGGGGTGCTGAAGGAGCAAGAGGCTGGCGTTAAGGCGGCTGATCTTTGCCGCAAGCACGGGATTTCCGAGGCGACCTTTTATAATTGGAAGGCCAAATATGGCGGCATGGAAGTGTCAGAGGCCAAACGTTTGAAGGCGCTTGAGGACGAGAATGCCAAGTTGAAGAAGCTGCTCGCCGAGCAGATGCTGGATACAGCCGCACTCCGCGAGCTTCTCTCAAAAAAGTGGTAG	MKKQRFTEEQIIGVLKEQEAGVKAADLCRKHGISEATFYNWKAKYGGMEVSEAKRLKALEDENAKLKKLLAEQMLDTAALRELLSKKW				NA	NA	NA	NA	NA
BMS010_10209	789			IS3 family transposase ISAtu5	TTGCGAGCGAAGCTGCGCGATCTGGCCAATGAGCGCCGCCGGTTCGGCTATCGTCGATTGTTCATCTTGCTTCGACGAGACGGAGAGCCGTCCGGTGTCAATCGCATCTACCGGCTCTATCGCGAGGAAGGTCTTTCCGTGCGCAAGCGGAAAGCCAGGCGGCGTGCCGTCGGCACGCGTGCCCCGATCCTCGTCGAAGCAAAGGCGAATGCTCGCTGGTCACTGGATTTCGTCCACGATCAATTCGCCTGCGGCAGGCGCTTCCGCATCCTCAATGTAGTCGACGATGTCACACGCGAATGCCTGGCGACGATCCCGGACACATCGATATCAGGTCGCCGTGTCGCGCGGGAGTTGACGACGCTCATCGAGCGACGAGGCAAGCCTGGCATGATTGTCTCAGACAACGGGACCGAACTGACCTCGAATGCCATCCTTGCCTGGTCGAAGGATCACAAGGTCGAGTGGCATTACATCGCGCCGGGTAGGCCAATGCAAAACGGTTATGTTGAGAGTTTCAACGGCCGGATGCGCGACGAGTTGCTCAACGAGAGCCTGTTCTTTGGTCTCGACCATGCCCGCAGCGCCATTGCGGAATGGGCTAACGATTACAACAATTTCCGGCCGCACTCATCACTCGGATACCAAACCCCGGCGGACTATGCAGGGATCATCGCCGCAACCGGCTCCAACGCTACGCAATATGAAAGCTTCGCGTTTCCGCCGGTTGCTCCCACCACGCCATTTGGCTTATCAAAAACAGCCGAGGCTCTAATCGCAGCCGGATGA	MRAKLRDLANERRRFGYRRLFILLRRDGEPSGVNRIYRLYREEGLSVRKRKARRRAVGTRAPILVEAKANARWSLDFVHDQFACGRRFRILNVVDDVTRECLATIPDTSISGRRVARELTTLIERRGKPGMIVSDNGTELTSNAILAWSKDHKVEWHYIAPGRPMQNGYVESFNGRMRDELLNESLFFGLDHARSAIAEWANDYNNFRPHSSLGYQTPADYAGIIAATGSNATQYESFAFPPVAPTTPFGLSKTAEALIAAG				NA	NA	NA	NA	NA
BMS010_10210	201			hypothetical protein	ATGGCCGTTATTTCCTTGGAGGATATCGTTCCCCGTCCCTCCAACGAGTACATCGTTTCCTATATCGCCCACCAGCCAATCATTGCCGGCAAAGCCGAAGAGATAGCTATTGCTGGAAATAGCCTGCACCGTCTCGCCGATATCGCTACCGGCAATCAATCCAGGGAAAGCACTCTGGACAGACGTCAATTCGGCAGGTGA	MAVISLEDIVPRPSNEYIVSYIAHQPIIAGKAEEIAIAGNSLHRLADIATGNQSRESTLDRRQFGR				NA	NA	NA	NA	NA
BMS010_10211	978			IS110 family transposase ISStma4	ATGACCATCGTAGTTGGCGTGGATATAGCCAAGAAAACCTTCGACATTGCGGTTCTGCAGGCCAATGGCAAGTACCGCACCAAAGGCAATCTGAGCAACGATCAAACGGGTTTCAGCGCCTTTGATCAGTGGCTGCAGAAACATGCTGAGCCAGAGGCCTGGGTCGTGATGGAGGCCACCAATGTCTATCACGAAGCCTTGGGGGATTATCTGCTTGCCAAGGGGTATCGCGTCAGCGTGATGAATCCGGCGCGCATCGCCAGCTATGCGCAAAGCCAGTTGCAGCGGGTCAAGACCGACAAGGTCGACGCCAAACTGATCGCGCTCTATGGCGCCCGGCATGTCGAGGATCTCCAGCCCTGGCAGCCCGACCCGGTGAGTGTGCGGCAACTGCGTGCCCTGGTACGGCGCTACGAGGAGCTCAAGGAATTGTTCCAGATGGAAGCCAACCGCCTGGAAACCGCCAAGAGCGACCCGGTGAAAGAGTCGATCCTGTCGGTCTCGGCCCATCTGGAACGGGAGATTGAGCAGACGCTGAAAGCGATTCGCACCCATATCGACGATGATCCCGACCTGCGAGGCAAGCGTGATCTGCTGAAGAGCATCGATGGGATCAGTGACAAGACCGCAGCCCTGTTGCTGGCCGAGCTCGGGTCAGTCAGCCGCTTCGAGAGTGCCCGGGCGGTGGTGGCTTTTGCAGGGCTCAATCCGAGGCTCAGAGAATCAGGCCAACACAAGGGCCAGGTGAGAATCTCAAAGATAGGCTCACGTCGCTTGCGTGCCGGTCTGTACATGCCAGCCGTCAGTGCCATGAGCCATAACCAGGCGGTACGGGCACTGTGCTTACGGCTCCAAAAGAAAGGCAAGGCGGGTAAGCAGATCGTCTGCGCCGCCATGCGCAAGCTGCTGCAGATCGCTTATGGCGTCCTCAAATCGGGCCAACCCTACAACGCAGAATTGGCCCTTGCCCGAGGCTAG	MTIVVGVDIAKKTFDIAVLQANGKYRTKGNLSNDQTGFSAFDQWLQKHAEPEAWVVMEATNVYHEALGDYLLAKGYRVSVMNPARIASYAQSQLQRVKTDKVDAKLIALYGARHVEDLQPWQPDPVSVRQLRALVRRYEELKELFQMEANRLETAKSDPVKESILSVSAHLEREIEQTLKAIRTHIDDDPDLRGKRDLLKSIDGISDKTAALLLAELGSVSRFESARAVVAFAGLNPRLRESGQHKGQVRISKIGSRRLRAGLYMPAVSAMSHNQAVRALCLRLQKKGKAGKQIVCAAMRKLLQIAYGVLKSGQPYNAELALARG	PGPT0030635_4325	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030635-tnp-K07486	NA	NA
BMS010_10212	939			IS110 family transposase ISGme8	ATGATACCGGAACTTCTCTTCGTCGGCATCGACGTTTCCAAAACCCGCTTCGATGTTTTCGTCTATCCGGCCGGCAAGCGCTGGAGTACCGGCAGTTCGCCGACACAGATCGGCGCTCTTGCAAACCGCCTTCTGGGGCTCGGACCGGTCGTCGTCGGACTGGAGGCGTCCGGCGGTTATGAGCGCAGGCTGGCCGACAGCCTGCATGCGGCAGGCCTGAAGGTCCATATCCTGCCGCCCGCAAGGGTTCGCAACTTTGCCAAAGCCATGGGGCAGCTGGCAAAGACCGATATGATCGATGCTGCCGTGATCGCCCGCTATCTGGCAACTGTACACGCTCACCTCACTCCATATGAACCAAATCCCGTGCGCAGTCGCCTGAGCGCGCTCGCCGCCCACCGGCGCAGGCTGGTCGCCGAAAAGAGCGGTCTGACGAGCCAGCTCGATACCATCGAAGAGCCGCTGGTGCGCGACATGCTGGAGGTACGCCTGCGCATCATCGCCACGGACATCGCCACTCTCGACCGCGCCATGCGCGATCTGCTCAAGGCGACGCCCGGCCTGCGAAAGCGCCACGACAGAATGTGCAAGGTCACCGGCGTCGGCCCGGTGCTGGCCACCGCGCTCATTGCCGATCTGCCTGAACTCGGCACTGTCTCTTCAAAGGTCATCGCCGCTCTTGTCGGCGTCGCGCCGCATGCGCGTCAATCCGGCTCATCAAACCGGCAGGGCAAATGCTCCGGTGGCCGCAAGCATCTGCGCGACATCGCCTATATGGCCGCACTCAGCGCCATCAAGGTCAAAGACCCCGTTCTTGGAGCCTTTTATCAGCGCCTGCGCAGCAAGGGAAAACCCTTCAAACTAGCCATCGTCGCAACAATCCGGAAGCTCGTCACTATCCTCAACGCCATCGCAAGGACAGATCCAGCATTTGCTTGA	MIPELLFVGIDVSKTRFDVFVYPAGKRWSTGSSPTQIGALANRLLGLGPVVVGLEASGGYERRLADSLHAAGLKVHILPPARVRNFAKAMGQLAKTDMIDAAVIARYLATVHAHLTPYEPNPVRSRLSALAAHRRRLVAEKSGLTSQLDTIEEPLVRDMLEVRLRIIATDIATLDRAMRDLLKATPGLRKRHDRMCKVTGVGPVLATALIADLPELGTVSSKVIAALVGVAPHARQSGSSNRQGKCSGGRKHLRDIAYMAALSAIKVKDPVLGAFYQRLRSKGKPFKLAIVATIRKLVTILNAIARTDPAFA	PGPT0030635_5029	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030635-tnp-K07486	NA	NA
BMS010_10217	354			hypothetical protein	ATGCAGTTCGTCGTCGCCGACACCACCATACAGCCGGTCGTCGCCTGGGCCTCCCGCCAGCCAGTCGTTGCCACCGTATCCGTACAGGGTGTCGTTGCCCTTCAGGCCCGACAGGGAATCGTCCCGCTCGTCCAGATAAAGCAGGTCATCGCCCGCCGTCCCGTAGGGATACAACTGGTCGAGCCAGTCCTCGCCCCAGACCGTGCCGTCGGCGAAGACCACTTCCTTCAGTGGTTTCTCCTCATGCAGCAGCCAGTTCTCGAAACGGATACTGTCGCCGTGGCCGAACTCGAGCAGCAGGTCGTTCCCCTCGAAGCGGTAAGTCACGTCGGCCGGAGCGATGCCTTCGCCTAA	MQFVVADTTIQPVVAWASRQPVVATVSVQGVVALQARQGIVPLVQIKQVIARRPVGIQLVEPVLAPDRAVGEDHFLQWFLLMQQPVLETDTVAVAELEQQVVPLEAVSHVGRSDAFA				NA	NA	NA	NA	NA
BMS010_10218	408			hypothetical protein	ATGCAGTTCGTCGTCGCCGACACCACCATACAGCCGGTCGTCGCCTGGGCCTCCCGCCAGCCAGTCGTTACCACCGTATCCGTACAGGGTGTCGTTGCCCTTCAGGCCCGACAGGGAATCGTCCCGCTCGTCCAGATAAAGCAGGTCGTCGCCCGCCGTCCCGTAGGGATACAACTGGTCGAGCCAGTCCTCGCCCCAGACCGTGCCGTCGGCGAATACCACCTCCTTCAGTGGCCTCTCCTCATGCAGCAGCCAGTTCTCGAAACGGATACTGTCACCATGGCCGAACTCGAGCAGCAGGTCGTTCCCCTCGAAGCGGTAAGTCACGTCGGCCGGGGCGATACCTTCGCCCAGCTCCAGTGTGTCCCGACCGCTGTAGGTGGGCGGCGTTGCCAGCAGGGCGCGTGA	MQFVVADTTIQPVVAWASRQPVVTTVSVQGVVALQARQGIVPLVQIKQVVARRPVGIQLVEPVLAPDRAVGEYHLLQWPLLMQQPVLETDTVTMAELEQQVVPLEAVSHVGRGDTFAQLQCVPTAVGGRRCQQGA				NA	NA	NA	NA	NA
BMS010_10219	411			hypothetical protein	ATGCACTTGATAGCGTGGGTGAGCCGCAAGCCAGGCTTTCACCTTGTCAGTCTTGTGTGTTGCATAGTTGTCCATCACCAAATGGATTGGCATGCCCTCTGGAACATTGACATCCACCTCTTTGAGGAAGGCCAAGAACTCGGCACTCCGATGGCGGCGTTTCAGGCGGCCAATCACTTCGCCGGTGGCAACATCCAACGCGGCAAACAACGACGTTGTTCCATGACGCTTGTAATCGTGAGTGCGCGTGGCCGGCTTGCCTGGAGCCAGAGGCAGCCCAGGCTGGGTGCGGTTGAGCGCCTGGATCTGGCTTTTCTCATCGATGCAGAGCACCAAGGCCTTGTCGGGTGGGTTGAGGTACAGCCCAACGATATCGTGAACCTTGTCCACAAACGCAGGATCGGTCGATAG	MHLIAWVSRKPGFHLVSLVCCIVVHHQMDWHALWNIDIHLFEEGQELGTPMAAFQAANHFAGGNIQRGKQRRCSMTLVIVSARGRLAWSQRQPRLGAVERLDLAFLIDAEHQGLVGWVEVQPNDIVNLVHKRRIGR				NA	NA	NA	NA	NA
BMS010_10220	126			hypothetical protein	ATGGAGGTTTCCAGATCCTTCACGCTGGTATGCGCCTGGCGCTTGATCCATTTCTCGCTCAATGTCGAGAAAAAGCGCTCCACCAGGTTCAACCAGGACGCCGAGGTTGGCGTGAAATGCACTTGA	MEVSRSFTLVCAWRLIHFSLNVEKKRSTRFNQDAEVGVKCT				NA	NA	NA	NA	NA
BMS010_10221	315	hcpA	COG3157	Major exported protein	ATGATCACCAAGGTCTTCGACAAGTCCTCCCCGCTGATCTTCAACGCCCTGACCTCCGGCGAGCGTCTGAACAAGTGCCGCCTGGAGTGGTACCGCACCTCCTCCACCGGTACCCAGGAGCACTACTTCACCATCGAACTGGAAGACGCCGTGATCGTCGACGTGCAGTCGCGCATGCCGAACTGCCAGGACCCGAACATGGCCCACTTCACGCACCTGGAAGACGTCTACTTCACCTACCGCAAGATCGTTTGGACCCACGAAGTCTCCGGCACGTCCGGCTCCGACGACTGGCGTGCGCCGATCTCCGCCTAA	MITKVFDKSSPLIFNALTSGERLNKCRLEWYRTSSTGTQEHYFTIELEDAVIVDVQSRMPNCQDPNMAHFTHLEDVYFTYRKIVWTHEVSGTSGSDDWRAPISA	PGPT0025980_177	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0025980-hcp-K11903	NA	NA
BMS010_10222	366			hypothetical protein	GTGGCGCTTGTCGGCGATACCGACCTTGGCCAGCAGCGCCTCGGCCACTTCGGTGGCTTCCGCCTTGCTCTGGCCGAGCACGCGGCGCGGCGCCTCGATGATGTTGTCGAGTACCGTCATGTGCGGCCAGAGGTTGAAGTTCTGGAAAACGAAGCCGATTTCGCTGCGCAGGCGGTTGATCTGCTTGTTATCGGCGGCGACCAGTTCGCCGTTGCGGGCGGGCTTGAGCTTGAGTTCCTCGCCGGCGACCCGGATCTGGCCCTGGTGCGGGTTCTCCAGCAGGTTGATACAGCGCAGGAAGGTGGATTTGCCGGAACCGGAGGAACCGAGGATGGAGATCACGTCGCCGTCGCGAGCGGTGAGTGA	MALVGDTDLGQQRLGHFGGFRLALAEHAARRLDDVVEYRHVRPEVEVLENEADFAAQAVDLLVIGGDQFAVAGGLELEFLAGDPDLALVRVLQQVDTAQEGGFAGTGGTEDGDHVAVASGE				NA	NA	NA	NA	NA
BMS010_10224	213			hypothetical protein	TTGTGGAGCGGTTACACCGTCTCCGGCCCCCTGGCCAAACTCAACGCCGGCGGCTCACCGGGCACAGGCACCGGCATCGCCATCAAGCCCCCCACCCCACCGGGCGCGGCGGATGCGGACAAGGCGGGGAATCTGCTGGATAAGGCGCTGCTGAACCAGCTCGAACCCATCGAACCCCAGAAACTCAAGCGGATGATCAACTTCTCGGGCTGA	MWSGYTVSGPLAKLNAGGSPGTGTGIAIKPPTPPGAADADKAGNLLDKALLNQLEPIEPQKLKRMINFSG	PGPT0030410_2871	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_PROTEINS,PGPT0030410-vgrG-K11904	NA	NA
BMS010_10225	162			hypothetical protein	ATGGTGTTGTTCGTGCTGTCGCGCATTTCGAAAATGTCGGTGGAGCGCACCACGCTCGCCATCCTGCCATGGATGATCCCGCTTTTGGTGGCGCTCGCGCTGATCACCTTCATTCCGTCGGTCACACTCTGGCTGCCGACCCAGCTCGGCCTCATCCGCTGA	MVLFVLSRISKMSVERTTLAILPWMIPLLVALALITFIPSVTLWLPTQLGLIR	PGPT0017335_664	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017335-dctM-K11690	NA	NA